11bg-a2-m1-cB_11bg-a2-m2-cB A POTENTIAL ALLOSTERIC SUBSITE GENERATED BY DOMAIN SWAPPING IN BOVINE SEMINAL RIBONUCLEASE P00669 P00669 1.9 X-RAY DIFFRACTION 17 1.0 9913 (Bos taurus) 9913 (Bos taurus) 124 124 11bg-a2-m1-cA_11bg-a2-m2-cA 1bsr-a2-m1-cA_1bsr-a2-m2-cA 1bsr-a2-m1-cB_1bsr-a2-m2-cB KESAAAKFERQHMDSGNSPSSSSNYCNLMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSPSSSSNYCNLMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 11bg-a2-m2-cA_11bg-a2-m2-cB A POTENTIAL ALLOSTERIC SUBSITE GENERATED BY DOMAIN SWAPPING IN BOVINE SEMINAL RIBONUCLEASE P00669 P00669 1.9 X-RAY DIFFRACTION 118 1.0 9913 (Bos taurus) 9913 (Bos taurus) 124 124 11ba-a1-m1-cA_11ba-a1-m1-cB 11bg-a1-m1-cA_11bg-a1-m1-cB 11bg-a2-m1-cA_11bg-a2-m1-cB 1bsr-a1-m1-cA_1bsr-a1-m1-cB 1bsr-a2-m1-cA_1bsr-a2-m1-cB 1bsr-a2-m2-cA_1bsr-a2-m2-cB 1r5c-a1-m1-cA_1r5c-a1-m1-cB 1r5d-a1-m1-cA_1r5d-a1-m1-cB 1y92-a1-m1-cA_1y92-a1-m1-cB 1y94-a1-m1-cA_1y94-a1-m1-cB 3bcm-a1-m1-cA_3bcm-a1-m1-cB 3bco-a1-m1-cA_3bco-a1-m1-cB 3djo-a1-m1-cA_3djo-a1-m1-cB 3djp-a1-m1-cA_3djp-a1-m1-cB 3djq-a1-m1-cA_3djq-a1-m1-cB 3djv-a1-m1-cA_3djv-a1-m1-cB 3djx-a1-m1-cA_3djx-a1-m1-cB KESAAAKFERQHMDSGNSPSSSSNYCNLMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSPSSSSNYCNLMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 1a03-a1-m1-cA_1a03-a1-m1-cB THE THREE-DIMENSIONAL STRUCTURE OF CA2+-BOUND CALCYCLIN: IMPLICATIONS FOR CA2+-SIGNAL TRANSDUCTION BY S100 PROTEINS, NMR, 20 STRUCTURES P30801 P30801 NOT SOLUTION NMR 96 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 90 90 MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG 1a05-a1-m1-cA_1a05-a1-m1-cB CRYSTAL STRUCTURE OF THE COMPLEX OF 3-ISOPROPYLMALATE DEHYDROGENASE FROM THIOBACILLUS FERROOXIDANS WITH 3-ISOPROPYLMALATE Q56268 Q56268 2 X-RAY DIFFRACTION 172 1.0 920 (Acidithiobacillus ferrooxidans) 920 (Acidithiobacillus ferrooxidans) 357 357 MKKIAIFAGDGIGPEIVAAARQVLDAVDQAAHLGLRCTEGLVGGAALDASDDPLPAASLQLAMAADAVILGAVGGPRWDAYPPAKRPEQGLLRLRKGLDLYANLRPAQIFPQLLDASPLRPELVRDVDILVVRELTGDIYFGQPRGLEVIDGKRRGFNTMVYDEDEIRRIAHVAFRAAQGRRKQLCSVDKANVLETTRLWREVVTEVARDYPDVRLSHMYVDNAAMQLIRAPAQFDVLLTGNMFGDILSDEASQLTGSIGMLPSASLGEGRAMYEPIHGSAPDIAGQDKANPLATILSVAMMLRHSLNAEPWAQRVEAAVQRVLDQGLRTADIAAPGTPVIGTKAMGAAVVNALNLK MKKIAIFAGDGIGPEIVAAARQVLDAVDQAAHLGLRCTEGLVGGAALDASDDPLPAASLQLAMAADAVILGAVGGPRWDAYPPAKRPEQGLLRLRKGLDLYANLRPAQIFPQLLDASPLRPELVRDVDILVVRELTGDIYFGQPRGLEVIDGKRRGFNTMVYDEDEIRRIAHVAFRAAQGRRKQLCSVDKANVLETTRLWREVVTEVARDYPDVRLSHMYVDNAAMQLIRAPAQFDVLLTGNMFGDILSDEASQLTGSIGMLPSASLGEGRAMYEPIHGSAPDIAGQDKANPLATILSVAMMLRHSLNAEPWAQRVEAAVQRVLDQGLRTADIAAPGTPVIGTKAMGAAVVNALNLK 1a0a-a1-m1-cA_1a0a-a1-m1-cB PHOSPHATE SYSTEM POSITIVE REGULATORY PROTEIN PHO4/DNA COMPLEX P07270 P07270 2.8 X-RAY DIFFRACTION 63 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 63 63 MKRESHKHAEQARRNRLAVALHELASLIPAEWKQQNVSAAPSKATTVEAACRYIRHLQQNGST MKRESHKHAEQARRNRLAVALHELASLIPAEWKQQNVSAAPSKATTVEAACRYIRHLQQNGST 1a0c-a1-m1-cA_1a0c-a1-m1-cD XYLOSE ISOMERASE FROM THERMOANAEROBACTERIUM THERMOSULFURIGENES P19148 P19148 2.5 X-RAY DIFFRACTION 137 1.0 33950 (Thermoanaerobacterium thermosulfurigenes) 33950 (Thermoanaerobacterium thermosulfurigenes) 437 437 1a0c-a1-m1-cB_1a0c-a1-m1-cC NKYFENVSKIKYEGPKSNNPYSFKFYNPEEVIDGKTMEEHLRFSIAYWHTFTADGTDQFGKATMQRPWNHYTDPMDIAKARVEAAFEFFDKINAPYFCFHDRDIAPEGDTLRETNKNLDTIVAMIKDYLKTSKTKVLWGTANLFSNPRFVHGASTSCNADVFAYSAAQVKKALEITKELGGENYVFWGGREGYETLLNTDMEFELDNFARFLHMAVDYAKEIGFEGQFLIEPKPKEPTKHQYDFDVANVLAFLRKYDLDKYFKVNIEANHATLAFHDFQHELRYARINGVLGSIDANTGDMLLGWDTDQFPTDIRMTTLAMYEVIKMGGFDKGGLNFDAKVRRASFEPEDLFLGHIAGMDAFAKGFKVAYKLVKDRVFDKFIEERYASYKDGIGADIVSGKADFRSLEKYALERSQIVNKSGRQELLESILNQYLFA NKYFENVSKIKYEGPKSNNPYSFKFYNPEEVIDGKTMEEHLRFSIAYWHTFTADGTDQFGKATMQRPWNHYTDPMDIAKARVEAAFEFFDKINAPYFCFHDRDIAPEGDTLRETNKNLDTIVAMIKDYLKTSKTKVLWGTANLFSNPRFVHGASTSCNADVFAYSAAQVKKALEITKELGGENYVFWGGREGYETLLNTDMEFELDNFARFLHMAVDYAKEIGFEGQFLIEPKPKEPTKHQYDFDVANVLAFLRKYDLDKYFKVNIEANHATLAFHDFQHELRYARINGVLGSIDANTGDMLLGWDTDQFPTDIRMTTLAMYEVIKMGGFDKGGLNFDAKVRRASFEPEDLFLGHIAGMDAFAKGFKVAYKLVKDRVFDKFIEERYASYKDGIGADIVSGKADFRSLEKYALERSQIVNKSGRQELLESILNQYLFA 1a0c-a1-m1-cB_1a0c-a1-m1-cD XYLOSE ISOMERASE FROM THERMOANAEROBACTERIUM THERMOSULFURIGENES P19148 P19148 2.5 X-RAY DIFFRACTION 77 1.0 33950 (Thermoanaerobacterium thermosulfurigenes) 33950 (Thermoanaerobacterium thermosulfurigenes) 437 437 1a0c-a1-m1-cA_1a0c-a1-m1-cC NKYFENVSKIKYEGPKSNNPYSFKFYNPEEVIDGKTMEEHLRFSIAYWHTFTADGTDQFGKATMQRPWNHYTDPMDIAKARVEAAFEFFDKINAPYFCFHDRDIAPEGDTLRETNKNLDTIVAMIKDYLKTSKTKVLWGTANLFSNPRFVHGASTSCNADVFAYSAAQVKKALEITKELGGENYVFWGGREGYETLLNTDMEFELDNFARFLHMAVDYAKEIGFEGQFLIEPKPKEPTKHQYDFDVANVLAFLRKYDLDKYFKVNIEANHATLAFHDFQHELRYARINGVLGSIDANTGDMLLGWDTDQFPTDIRMTTLAMYEVIKMGGFDKGGLNFDAKVRRASFEPEDLFLGHIAGMDAFAKGFKVAYKLVKDRVFDKFIEERYASYKDGIGADIVSGKADFRSLEKYALERSQIVNKSGRQELLESILNQYLFA NKYFENVSKIKYEGPKSNNPYSFKFYNPEEVIDGKTMEEHLRFSIAYWHTFTADGTDQFGKATMQRPWNHYTDPMDIAKARVEAAFEFFDKINAPYFCFHDRDIAPEGDTLRETNKNLDTIVAMIKDYLKTSKTKVLWGTANLFSNPRFVHGASTSCNADVFAYSAAQVKKALEITKELGGENYVFWGGREGYETLLNTDMEFELDNFARFLHMAVDYAKEIGFEGQFLIEPKPKEPTKHQYDFDVANVLAFLRKYDLDKYFKVNIEANHATLAFHDFQHELRYARINGVLGSIDANTGDMLLGWDTDQFPTDIRMTTLAMYEVIKMGGFDKGGLNFDAKVRRASFEPEDLFLGHIAGMDAFAKGFKVAYKLVKDRVFDKFIEERYASYKDGIGADIVSGKADFRSLEKYALERSQIVNKSGRQELLESILNQYLFA 1a0c-a1-m1-cC_1a0c-a1-m1-cD XYLOSE ISOMERASE FROM THERMOANAEROBACTERIUM THERMOSULFURIGENES P19148 P19148 2.5 X-RAY DIFFRACTION 258 1.0 33950 (Thermoanaerobacterium thermosulfurigenes) 33950 (Thermoanaerobacterium thermosulfurigenes) 437 437 1a0c-a1-m1-cA_1a0c-a1-m1-cB NKYFENVSKIKYEGPKSNNPYSFKFYNPEEVIDGKTMEEHLRFSIAYWHTFTADGTDQFGKATMQRPWNHYTDPMDIAKARVEAAFEFFDKINAPYFCFHDRDIAPEGDTLRETNKNLDTIVAMIKDYLKTSKTKVLWGTANLFSNPRFVHGASTSCNADVFAYSAAQVKKALEITKELGGENYVFWGGREGYETLLNTDMEFELDNFARFLHMAVDYAKEIGFEGQFLIEPKPKEPTKHQYDFDVANVLAFLRKYDLDKYFKVNIEANHATLAFHDFQHELRYARINGVLGSIDANTGDMLLGWDTDQFPTDIRMTTLAMYEVIKMGGFDKGGLNFDAKVRRASFEPEDLFLGHIAGMDAFAKGFKVAYKLVKDRVFDKFIEERYASYKDGIGADIVSGKADFRSLEKYALERSQIVNKSGRQELLESILNQYLFA NKYFENVSKIKYEGPKSNNPYSFKFYNPEEVIDGKTMEEHLRFSIAYWHTFTADGTDQFGKATMQRPWNHYTDPMDIAKARVEAAFEFFDKINAPYFCFHDRDIAPEGDTLRETNKNLDTIVAMIKDYLKTSKTKVLWGTANLFSNPRFVHGASTSCNADVFAYSAAQVKKALEITKELGGENYVFWGGREGYETLLNTDMEFELDNFARFLHMAVDYAKEIGFEGQFLIEPKPKEPTKHQYDFDVANVLAFLRKYDLDKYFKVNIEANHATLAFHDFQHELRYARINGVLGSIDANTGDMLLGWDTDQFPTDIRMTTLAMYEVIKMGGFDKGGLNFDAKVRRASFEPEDLFLGHIAGMDAFAKGFKVAYKLVKDRVFDKFIEERYASYKDGIGADIVSGKADFRSLEKYALERSQIVNKSGRQELLESILNQYLFA 1a0d-a1-m1-cA_1a0d-a1-m1-cD XYLOSE ISOMERASE FROM BACILLUS STEAROTHERMOPHILUS P54273 P54273 3 X-RAY DIFFRACTION 124 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 437 437 1a0d-a1-m1-cB_1a0d-a1-m1-cC PYFDNISTIAYEGPASKNPLAFKFYNPEEKVGDKTMEEHLRFSVAYWHTFTGDGSDPFGAGNMIRPWNKYSGMDLAKARVEAAFEFFEKLNIPFFCFHDVDIAPEGETLKETYKNLDIIVDMIEEYMKTSKTKLLWNTANLFTHPRFVHGAATSCNADVFAYAAAKVKKGLEIAKRLGAENYVFWGGREGYETLLNTDMKLELDNLARFLHMAVDYAKEIGFDGQFLIEPKPKEPTKHQYDFDVATALAFLQTYGLKDYFKFNIEANHATLAGHTFEHELRVARIHGMLGSVDANQGDMLLGWDTDEFPTDLYSTTLAMYEILKNGGLGRGGLNFDAKVRRGSFEPEDLFYAHIAGMDSFAVGLKVAHRLIEDRVFDEFIEERYKSYTEGIGREIVEGTADFHKLEAHALQLGEIQNQSGRQERLKTLLNQYLLEVC PYFDNISTIAYEGPASKNPLAFKFYNPEEKVGDKTMEEHLRFSVAYWHTFTGDGSDPFGAGNMIRPWNKYSGMDLAKARVEAAFEFFEKLNIPFFCFHDVDIAPEGETLKETYKNLDIIVDMIEEYMKTSKTKLLWNTANLFTHPRFVHGAATSCNADVFAYAAAKVKKGLEIAKRLGAENYVFWGGREGYETLLNTDMKLELDNLARFLHMAVDYAKEIGFDGQFLIEPKPKEPTKHQYDFDVATALAFLQTYGLKDYFKFNIEANHATLAGHTFEHELRVARIHGMLGSVDANQGDMLLGWDTDEFPTDLYSTTLAMYEILKNGGLGRGGLNFDAKVRRGSFEPEDLFYAHIAGMDSFAVGLKVAHRLIEDRVFDEFIEERYKSYTEGIGREIVEGTADFHKLEAHALQLGEIQNQSGRQERLKTLLNQYLLEVC 1a0d-a1-m1-cB_1a0d-a1-m1-cD XYLOSE ISOMERASE FROM BACILLUS STEAROTHERMOPHILUS P54273 P54273 3 X-RAY DIFFRACTION 83 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 437 437 1a0d-a1-m1-cA_1a0d-a1-m1-cC PYFDNISTIAYEGPASKNPLAFKFYNPEEKVGDKTMEEHLRFSVAYWHTFTGDGSDPFGAGNMIRPWNKYSGMDLAKARVEAAFEFFEKLNIPFFCFHDVDIAPEGETLKETYKNLDIIVDMIEEYMKTSKTKLLWNTANLFTHPRFVHGAATSCNADVFAYAAAKVKKGLEIAKRLGAENYVFWGGREGYETLLNTDMKLELDNLARFLHMAVDYAKEIGFDGQFLIEPKPKEPTKHQYDFDVATALAFLQTYGLKDYFKFNIEANHATLAGHTFEHELRVARIHGMLGSVDANQGDMLLGWDTDEFPTDLYSTTLAMYEILKNGGLGRGGLNFDAKVRRGSFEPEDLFYAHIAGMDSFAVGLKVAHRLIEDRVFDEFIEERYKSYTEGIGREIVEGTADFHKLEAHALQLGEIQNQSGRQERLKTLLNQYLLEVC PYFDNISTIAYEGPASKNPLAFKFYNPEEKVGDKTMEEHLRFSVAYWHTFTGDGSDPFGAGNMIRPWNKYSGMDLAKARVEAAFEFFEKLNIPFFCFHDVDIAPEGETLKETYKNLDIIVDMIEEYMKTSKTKLLWNTANLFTHPRFVHGAATSCNADVFAYAAAKVKKGLEIAKRLGAENYVFWGGREGYETLLNTDMKLELDNLARFLHMAVDYAKEIGFDGQFLIEPKPKEPTKHQYDFDVATALAFLQTYGLKDYFKFNIEANHATLAGHTFEHELRVARIHGMLGSVDANQGDMLLGWDTDEFPTDLYSTTLAMYEILKNGGLGRGGLNFDAKVRRGSFEPEDLFYAHIAGMDSFAVGLKVAHRLIEDRVFDEFIEERYKSYTEGIGREIVEGTADFHKLEAHALQLGEIQNQSGRQERLKTLLNQYLLEVC 1a0d-a1-m1-cC_1a0d-a1-m1-cD XYLOSE ISOMERASE FROM BACILLUS STEAROTHERMOPHILUS P54273 P54273 3 X-RAY DIFFRACTION 244 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 437 437 1a0d-a1-m1-cA_1a0d-a1-m1-cB PYFDNISTIAYEGPASKNPLAFKFYNPEEKVGDKTMEEHLRFSVAYWHTFTGDGSDPFGAGNMIRPWNKYSGMDLAKARVEAAFEFFEKLNIPFFCFHDVDIAPEGETLKETYKNLDIIVDMIEEYMKTSKTKLLWNTANLFTHPRFVHGAATSCNADVFAYAAAKVKKGLEIAKRLGAENYVFWGGREGYETLLNTDMKLELDNLARFLHMAVDYAKEIGFDGQFLIEPKPKEPTKHQYDFDVATALAFLQTYGLKDYFKFNIEANHATLAGHTFEHELRVARIHGMLGSVDANQGDMLLGWDTDEFPTDLYSTTLAMYEILKNGGLGRGGLNFDAKVRRGSFEPEDLFYAHIAGMDSFAVGLKVAHRLIEDRVFDEFIEERYKSYTEGIGREIVEGTADFHKLEAHALQLGEIQNQSGRQERLKTLLNQYLLEVC PYFDNISTIAYEGPASKNPLAFKFYNPEEKVGDKTMEEHLRFSVAYWHTFTGDGSDPFGAGNMIRPWNKYSGMDLAKARVEAAFEFFEKLNIPFFCFHDVDIAPEGETLKETYKNLDIIVDMIEEYMKTSKTKLLWNTANLFTHPRFVHGAATSCNADVFAYAAAKVKKGLEIAKRLGAENYVFWGGREGYETLLNTDMKLELDNLARFLHMAVDYAKEIGFDGQFLIEPKPKEPTKHQYDFDVATALAFLQTYGLKDYFKFNIEANHATLAGHTFEHELRVARIHGMLGSVDANQGDMLLGWDTDEFPTDLYSTTLAMYEILKNGGLGRGGLNFDAKVRRGSFEPEDLFYAHIAGMDSFAVGLKVAHRLIEDRVFDEFIEERYKSYTEGIGREIVEGTADFHKLEAHALQLGEIQNQSGRQERLKTLLNQYLLEVC 1a0e-a1-m1-cA_1a0e-a1-m2-cD XYLOSE ISOMERASE FROM THERMOTOGA NEAPOLITANA P45687 P45687 2.7 X-RAY DIFFRACTION 262 1.0 2337 (Thermotoga neapolitana) 2337 (Thermotoga neapolitana) 443 443 1a0e-a1-m1-cD_1a0e-a1-m2-cA AEFFPEIPKVQFEGKESTNPLAFKFYDPEEIIDGKPLKDHLKFSVAFWHTFVNEGRDPFGDPTADRPWNRYTDPMDKAFARVDALFEFCEKLNIEYFCFHDRDIAPEGKTLRETNKILDKVVERIKERMKDSNVKLLWGTANLFSHPRYMHGAATTCSADVFAYAAAQVKKALEITKELGGEGYVFWGGREGYETLLNTDLGFELENLARFLRMAVDYAKRIGFTGQFLIEPKPKEPTKHQYDFDVATAYAFLKSHGLDEYFKFNIEANHATLAGHTFQHELRMARILGKLGSIDANQGDLLLGWDTDQFPTNVYDTTLAMYEVIKAGGFTKGGLNFDAKVRRASYKVEDLFIGHIAGMDTFALGFKVAYKLVKDGVLDKFIEEKYRSFREGIGRDIVEGKVDFEKLEEYIIDKETIELPSGKQEYLESLINSYIVKTILELR AEFFPEIPKVQFEGKESTNPLAFKFYDPEEIIDGKPLKDHLKFSVAFWHTFVNEGRDPFGDPTADRPWNRYTDPMDKAFARVDALFEFCEKLNIEYFCFHDRDIAPEGKTLRETNKILDKVVERIKERMKDSNVKLLWGTANLFSHPRYMHGAATTCSADVFAYAAAQVKKALEITKELGGEGYVFWGGREGYETLLNTDLGFELENLARFLRMAVDYAKRIGFTGQFLIEPKPKEPTKHQYDFDVATAYAFLKSHGLDEYFKFNIEANHATLAGHTFQHELRMARILGKLGSIDANQGDLLLGWDTDQFPTNVYDTTLAMYEVIKAGGFTKGGLNFDAKVRRASYKVEDLFIGHIAGMDTFALGFKVAYKLVKDGVLDKFIEEKYRSFREGIGRDIVEGKVDFEKLEEYIIDKETIELPSGKQEYLESLINSYIVKTILELR 1a0e-a1-m1-cD_1a0e-a1-m2-cD XYLOSE ISOMERASE FROM THERMOTOGA NEAPOLITANA P45687 P45687 2.7 X-RAY DIFFRACTION 81 1.0 2337 (Thermotoga neapolitana) 2337 (Thermotoga neapolitana) 443 443 1a0e-a1-m1-cA_1a0e-a1-m2-cA AEFFPEIPKVQFEGKESTNPLAFKFYDPEEIIDGKPLKDHLKFSVAFWHTFVNEGRDPFGDPTADRPWNRYTDPMDKAFARVDALFEFCEKLNIEYFCFHDRDIAPEGKTLRETNKILDKVVERIKERMKDSNVKLLWGTANLFSHPRYMHGAATTCSADVFAYAAAQVKKALEITKELGGEGYVFWGGREGYETLLNTDLGFELENLARFLRMAVDYAKRIGFTGQFLIEPKPKEPTKHQYDFDVATAYAFLKSHGLDEYFKFNIEANHATLAGHTFQHELRMARILGKLGSIDANQGDLLLGWDTDQFPTNVYDTTLAMYEVIKAGGFTKGGLNFDAKVRRASYKVEDLFIGHIAGMDTFALGFKVAYKLVKDGVLDKFIEEKYRSFREGIGRDIVEGKVDFEKLEEYIIDKETIELPSGKQEYLESLINSYIVKTILELR AEFFPEIPKVQFEGKESTNPLAFKFYDPEEIIDGKPLKDHLKFSVAFWHTFVNEGRDPFGDPTADRPWNRYTDPMDKAFARVDALFEFCEKLNIEYFCFHDRDIAPEGKTLRETNKILDKVVERIKERMKDSNVKLLWGTANLFSHPRYMHGAATTCSADVFAYAAAQVKKALEITKELGGEGYVFWGGREGYETLLNTDLGFELENLARFLRMAVDYAKRIGFTGQFLIEPKPKEPTKHQYDFDVATAYAFLKSHGLDEYFKFNIEANHATLAGHTFQHELRMARILGKLGSIDANQGDLLLGWDTDQFPTNVYDTTLAMYEVIKAGGFTKGGLNFDAKVRRASYKVEDLFIGHIAGMDTFALGFKVAYKLVKDGVLDKFIEEKYRSFREGIGRDIVEGKVDFEKLEEYIIDKETIELPSGKQEYLESLINSYIVKTILELR 1a0e-a1-m2-cA_1a0e-a1-m2-cD XYLOSE ISOMERASE FROM THERMOTOGA NEAPOLITANA P45687 P45687 2.7 X-RAY DIFFRACTION 139 1.0 2337 (Thermotoga neapolitana) 2337 (Thermotoga neapolitana) 443 443 1a0e-a1-m1-cA_1a0e-a1-m1-cD AEFFPEIPKVQFEGKESTNPLAFKFYDPEEIIDGKPLKDHLKFSVAFWHTFVNEGRDPFGDPTADRPWNRYTDPMDKAFARVDALFEFCEKLNIEYFCFHDRDIAPEGKTLRETNKILDKVVERIKERMKDSNVKLLWGTANLFSHPRYMHGAATTCSADVFAYAAAQVKKALEITKELGGEGYVFWGGREGYETLLNTDLGFELENLARFLRMAVDYAKRIGFTGQFLIEPKPKEPTKHQYDFDVATAYAFLKSHGLDEYFKFNIEANHATLAGHTFQHELRMARILGKLGSIDANQGDLLLGWDTDQFPTNVYDTTLAMYEVIKAGGFTKGGLNFDAKVRRASYKVEDLFIGHIAGMDTFALGFKVAYKLVKDGVLDKFIEEKYRSFREGIGRDIVEGKVDFEKLEEYIIDKETIELPSGKQEYLESLINSYIVKTILELR AEFFPEIPKVQFEGKESTNPLAFKFYDPEEIIDGKPLKDHLKFSVAFWHTFVNEGRDPFGDPTADRPWNRYTDPMDKAFARVDALFEFCEKLNIEYFCFHDRDIAPEGKTLRETNKILDKVVERIKERMKDSNVKLLWGTANLFSHPRYMHGAATTCSADVFAYAAAQVKKALEITKELGGEGYVFWGGREGYETLLNTDLGFELENLARFLRMAVDYAKRIGFTGQFLIEPKPKEPTKHQYDFDVATAYAFLKSHGLDEYFKFNIEANHATLAGHTFQHELRMARILGKLGSIDANQGDLLLGWDTDQFPTNVYDTTLAMYEVIKAGGFTKGGLNFDAKVRRASYKVEDLFIGHIAGMDTFALGFKVAYKLVKDGVLDKFIEEKYRSFREGIGRDIVEGKVDFEKLEEYIIDKETIELPSGKQEYLESLINSYIVKTILELR 1a0j-a1-m1-cD_1a0j-a1-m1-cA CRYSTAL STRUCTURE OF A NON-PSYCHROPHILIC TRYPSIN FROM A COLD-ADAPTED FISH SPECIES. P35033 P35033 1.7 X-RAY DIFFRACTION 32 1.0 8030 (Salmo salar) 8030 (Salmo salar) 223 223 IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN 1a0j-a1-m1-cD_1a0j-a1-m1-cC CRYSTAL STRUCTURE OF A NON-PSYCHROPHILIC TRYPSIN FROM A COLD-ADAPTED FISH SPECIES. P35033 P35033 1.7 X-RAY DIFFRACTION 23 1.0 8030 (Salmo salar) 8030 (Salmo salar) 223 223 IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN 1a0j-a2-m1-cA_1a0j-a2-m1-cB CRYSTAL STRUCTURE OF A NON-PSYCHROPHILIC TRYPSIN FROM A COLD-ADAPTED FISH SPECIES. P35033 P35033 1.7 X-RAY DIFFRACTION 36 1.0 8030 (Salmo salar) 8030 (Salmo salar) 223 223 1a0j-a1-m1-cA_1a0j-a1-m1-cB 1a0j-a2-m2-cD_1a0j-a2-m1-cC IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN 1a0j-a2-m1-cA_1a0j-a2-m1-cC CRYSTAL STRUCTURE OF A NON-PSYCHROPHILIC TRYPSIN FROM A COLD-ADAPTED FISH SPECIES. P35033 P35033 1.7 X-RAY DIFFRACTION 23 1.0 8030 (Salmo salar) 8030 (Salmo salar) 223 223 1a0j-a1-m1-cA_1a0j-a1-m1-cC IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN 1a0j-a2-m1-cB_1a0j-a2-m1-cC CRYSTAL STRUCTURE OF A NON-PSYCHROPHILIC TRYPSIN FROM A COLD-ADAPTED FISH SPECIES. P35033 P35033 1.7 X-RAY DIFFRACTION 24 1.0 8030 (Salmo salar) 8030 (Salmo salar) 223 223 1a0j-a1-m1-cB_1a0j-a1-m1-cC 1a0j-a2-m2-cD_1a0j-a2-m1-cA IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN IVGGYECRKNSASYQASLQSGYHFCGGSLISSTWVVSAAHCYKSRIQVRLGEHNIAVNEGTEQFIDSVKVIMHPSYNSRNLDNDIMLIKLSKPASLNSYVSTVALPSSCASSGTRCLVSGWGNLSGSSSNYPDTLRCLDLPILSSSSCNSAYPGQITSNMFCAGFMEGGKDSCQGDSGGPVVCNGQLQGVVSWGYGCAQRNKPGVYTKVCNYRSWISSTMSSN 1a0m-a1-m1-cA_1a0m-a1-m1-cB 1.1 ANGSTROM CRYSTAL STRUCTURE OF A-CONOTOXIN [TYR15]-EPI P56638 P56638 1.1 X-RAY DIFFRACTION 19 1.0 88764 (Conus episcopatus) 88764 (Conus episcopatus) 16 16 GCCSDPRCNMNNPDYC GCCSDPRCNMNNPDYC 1a12-a1-m1-cB_1a12-a1-m1-cC REGULATOR OF CHROMOSOME CONDENSATION (RCC1) OF HUMAN P18754 P18754 1.7 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 401 401 1a12-a1-m1-cA_1a12-a1-m1-cB 1a12-a1-m1-cA_1a12-a1-m1-cC KKVKVSHRSHSTEPGLVLTLGQGDVGQLGLGENVMERKKPALVSIPEDVVQAEAGGMHTVCLSKSGQVYSFGCNDEGALGRDTSVEGSEMVPGKVELQEKVVQVSAGDSHTAALTDDGRVFLWGSFRDNNGVIGLLEPMKKSMVPVQVQLDVPVVKVASGNDHLVMLTADGDLYTLGCGEQGQLGRVPELFANRGGRQGLERLLVPKCVMLKSRGSRGHVRFQDAFCGAYFTFAISHEGHVYGFGLSNYHQLGTPGTESCFIPQNLTSFKNSTKSWVGFSGGQHHTVCMDSEGKAYSLGRAEYGRLGLGEGAEEKSIPTLISRLPAVSSVACGASVGYAVTKDGRVFAWGMGTNYQLGTGQDEDAWSPVEMMGKQLENRVVLSVSSGGQHTVLLVKDKEQS KKVKVSHRSHSTEPGLVLTLGQGDVGQLGLGENVMERKKPALVSIPEDVVQAEAGGMHTVCLSKSGQVYSFGCNDEGALGRDTSVEGSEMVPGKVELQEKVVQVSAGDSHTAALTDDGRVFLWGSFRDNNGVIGLLEPMKKSMVPVQVQLDVPVVKVASGNDHLVMLTADGDLYTLGCGEQGQLGRVPELFANRGGRQGLERLLVPKCVMLKSRGSRGHVRFQDAFCGAYFTFAISHEGHVYGFGLSNYHQLGTPGTESCFIPQNLTSFKNSTKSWVGFSGGQHHTVCMDSEGKAYSLGRAEYGRLGLGEGAEEKSIPTLISRLPAVSSVACGASVGYAVTKDGRVFAWGMGTNYQLGTGQDEDAWSPVEMMGKQLENRVVLSVSSGGQHTVLLVKDKEQS 1a17-a1-m1-cA_1a17-a1-m4-cA TETRATRICOPEPTIDE REPEATS OF PROTEIN PHOSPHATASE 5 P53041 P53041 2.45 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1a17-a1-m2-cA_1a17-a1-m3-cA PPADGALKRAEELKTQANDYFKAKDYENAIKFYSQAIELNPSNAIYYGNRSLAYLRTECYGYALGDATRAIELDKKYIKGYYRRAASNMALGKFRAALRDYETVVKVKPHDKDAKMKYQECNKIVKQKAFERAIAGDEHKRSVVDSLDIESMTIEDEYS PPADGALKRAEELKTQANDYFKAKDYENAIKFYSQAIELNPSNAIYYGNRSLAYLRTECYGYALGDATRAIELDKKYIKGYYRRAASNMALGKFRAALRDYETVVKVKPHDKDAKMKYQECNKIVKQKAFERAIAGDEHKRSVVDSLDIESMTIEDEYS 1a17-a2-m1-cA_1a17-a2-m3-cA TETRATRICOPEPTIDE REPEATS OF PROTEIN PHOSPHATASE 5 P53041 P53041 2.45 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1a17-a1-m1-cA_1a17-a1-m3-cA 1a17-a1-m2-cA_1a17-a1-m4-cA PPADGALKRAEELKTQANDYFKAKDYENAIKFYSQAIELNPSNAIYYGNRSLAYLRTECYGYALGDATRAIELDKKYIKGYYRRAASNMALGKFRAALRDYETVVKVKPHDKDAKMKYQECNKIVKQKAFERAIAGDEHKRSVVDSLDIESMTIEDEYS PPADGALKRAEELKTQANDYFKAKDYENAIKFYSQAIELNPSNAIYYGNRSLAYLRTECYGYALGDATRAIELDKKYIKGYYRRAASNMALGKFRAALRDYETVVKVKPHDKDAKMKYQECNKIVKQKAFERAIAGDEHKRSVVDSLDIESMTIEDEYS 1a18-a1-m1-cA_1a18-a1-m2-cA PHENANTHROLINE MODIFIED MURINE ADIPOCYTE LIPID BINDING PROTEIN P04117 P04117 2.4 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 130 130 CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVEVMKGVTSTRVYERA CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVEVMKGVTSTRVYERA 1a19-a1-m1-cA_1a19-a1-m1-cB BARSTAR (FREE), C82A MUTANT P11540 P11540 2.76 X-RAY DIFFRACTION 24 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 89 89 KKAVINGEQIRSISDLHQTLKKELALPEYYGENLDALWDCLTGWVEYPLVLEWRQFEQSKQLTENGAESVLQVFREAKAEGADITIILS KKAVINGEQIRSISDLHQTLKKELALPEYYGENLDALWDCLTGWVEYPLVLEWRQFEQSKQLTENGAESVLQVFREAKAEGADITIILS 1a1b-a1-m1-cB_1a1b-a1-m1-cA C-SRC (SH2 DOMAIN) COMPLEXED WITH ACE-PHOSPHOTYR-GLU-(N,N-DIPENTYL AMINE) P12931 P12931 2.2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 105 1a07-a1-m1-cB_1a07-a1-m1-cA 1a09-a1-m1-cB_1a09-a1-m1-cA 1a1a-a1-m1-cB_1a1a-a1-m1-cA 1a1c-a1-m1-cB_1a1c-a1-m1-cA 1a1e-a1-m1-cA_1a1e-a1-m1-cB IQAEEWYFGKITRRESERLLLNAENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYITSRTQFNSLQQLVAYYSKHADGLCHRLTTVCP SIQAEEWYFGKITRRESERLLLNAENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYITSRTQFNSLQQLVAYYSKHADGLCHRLTTVCP 1a1u-a1-m1-cA_1a1u-a1-m1-cC SOLUTION STRUCTURE DETERMINATION OF A P53 MUTANT DIMERIZATION DOMAIN, NMR, MINIMIZED AVERAGE STRUCTURE P04637 P04637 NOT SOLUTION NMR 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 29 29 EYFTLQIRGRERFEKIREYNEALELKDAQ EYFTLQIRGRERFEKIREYNEALELKDAQ 1a1x-a1-m1-cA_1a1x-a1-m2-cA CRYSTAL STRUCTURE OF MTCP-1 INVOLVED IN T CELL MALIGNANCIES P56278 P56278 2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 AGEDVGAPPDHLWVHQEGIYRDEYQRTWVAVVEEETSFLRARVQQIQVPLGDAARPSHLLTSQLPLMWQLYPEERYMDNNSRLWQIQHHLMVRGVQELLLKLLPDD AGEDVGAPPDHLWVHQEGIYRDEYQRTWVAVVEEETSFLRARVQQIQVPLGDAARPSHLLTSQLPLMWQLYPEERYMDNNSRLWQIQHHLMVRGVQELLLKLLPDD 1a25-a1-m1-cA_1a25-a1-m1-cB C2 DOMAIN FROM PROTEIN KINASE C (BETA) P68403 P68403 2.7 X-RAY DIFFRACTION 50 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 132 132 ERRGRIYIQAHIDREVLIVVVRDAKNLVPMDPNGLSDPYVKLKLIPDPKSESKQKTKTIKCSLNPEWNETFRFQLKESDKDRRLSVEIWDWDLTSRNDFMGSLSFGISELQKAGVDGWFKLLSQEEGEYFNV ERRGRIYIQAHIDREVLIVVVRDAKNLVPMDPNGLSDPYVKLKLIPDPKSESKQKTKTIKCSLNPEWNETFRFQLKESDKDRRLSVEIWDWDLTSRNDFMGSLSFGISELQKAGVDGWFKLLSQEEGEYFNV 1a2z-a1-m1-cA_1a2z-a1-m1-cD PYRROLIDONE CARBOXYL PEPTIDASE FROM THERMOCOCCUS LITORALIS O07883 O07883 1.73 X-RAY DIFFRACTION 15 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 220 220 1a2z-a1-m1-cB_1a2z-a1-m1-cC MKKVLITGFEPFGGDSKNPTEQIAKYFDRKQIGNAMVYGRVLPVSVKRATIELKRYLEEIKPEIVINLGLAPTYSNITVERIAVNIIDARIPDNDGYQPIDEKIEEDAPLAYMATLPVRAITKTLRDNGIPATISYSAGTYLCNYVMFKTLHFSKIEGYPLKAGFIHVPYTPDQVVNKFFLLGKNTPSMCLEAEIKAIELAVKVSLDYLEKDRDDIKIPL MKKVLITGFEPFGGDSKNPTEQIAKYFDRKQIGNAMVYGRVLPVSVKRATIELKRYLEEIKPEIVINLGLAPTYSNITVERIAVNIIDARIPDNDGYQPIDEKIEEDAPLAYMATLPVRAITKTLRDNGIPATISYSAGTYLCNYVMFKTLHFSKIEGYPLKAGFIHVPYTPDQVVNKFFLLGKNTPSMCLEAEIKAIELAVKVSLDYLEKDRDDIKIPL 1a2z-a1-m1-cB_1a2z-a1-m1-cD PYRROLIDONE CARBOXYL PEPTIDASE FROM THERMOCOCCUS LITORALIS O07883 O07883 1.73 X-RAY DIFFRACTION 72 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 220 220 1a2z-a1-m1-cA_1a2z-a1-m1-cC MKKVLITGFEPFGGDSKNPTEQIAKYFDRKQIGNAMVYGRVLPVSVKRATIELKRYLEEIKPEIVINLGLAPTYSNITVERIAVNIIDARIPDNDGYQPIDEKIEEDAPLAYMATLPVRAITKTLRDNGIPATISYSAGTYLCNYVMFKTLHFSKIEGYPLKAGFIHVPYTPDQVVNKFFLLGKNTPSMCLEAEIKAIELAVKVSLDYLEKDRDDIKIPL MKKVLITGFEPFGGDSKNPTEQIAKYFDRKQIGNAMVYGRVLPVSVKRATIELKRYLEEIKPEIVINLGLAPTYSNITVERIAVNIIDARIPDNDGYQPIDEKIEEDAPLAYMATLPVRAITKTLRDNGIPATISYSAGTYLCNYVMFKTLHFSKIEGYPLKAGFIHVPYTPDQVVNKFFLLGKNTPSMCLEAEIKAIELAVKVSLDYLEKDRDDIKIPL 1a2z-a1-m1-cC_1a2z-a1-m1-cD PYRROLIDONE CARBOXYL PEPTIDASE FROM THERMOCOCCUS LITORALIS O07883 O07883 1.73 X-RAY DIFFRACTION 61 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 220 220 1a2z-a1-m1-cA_1a2z-a1-m1-cB MKKVLITGFEPFGGDSKNPTEQIAKYFDRKQIGNAMVYGRVLPVSVKRATIELKRYLEEIKPEIVINLGLAPTYSNITVERIAVNIIDARIPDNDGYQPIDEKIEEDAPLAYMATLPVRAITKTLRDNGIPATISYSAGTYLCNYVMFKTLHFSKIEGYPLKAGFIHVPYTPDQVVNKFFLLGKNTPSMCLEAEIKAIELAVKVSLDYLEKDRDDIKIPL MKKVLITGFEPFGGDSKNPTEQIAKYFDRKQIGNAMVYGRVLPVSVKRATIELKRYLEEIKPEIVINLGLAPTYSNITVERIAVNIIDARIPDNDGYQPIDEKIEEDAPLAYMATLPVRAITKTLRDNGIPATISYSAGTYLCNYVMFKTLHFSKIEGYPLKAGFIHVPYTPDQVVNKFFLLGKNTPSMCLEAEIKAIELAVKVSLDYLEKDRDDIKIPL 1a3a-a2-m1-cB_1a3a-a2-m1-cD CRYSTAL STRUCTURE OF IIA MANNITOL FROM ESCHERICHIA COLI P00550 P00550 1.8 X-RAY DIFFRACTION 53 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 141 144 1a3a-a1-m1-cA_1a3a-a1-m1-cC FKLGAENIFLGRKAATKEEAIRFAGEQLVKGGYVEPEYVQAMLDREKLTPTYLGESIAVPHGTVEAKDRVLKTGVVFCQYPEGVRFGEEEDDIARLVIGIAARNNEHIQVITSLTNALDDESVIERLAHTTSVDEVLELLA LFKLGAENIFLGRKAATKEEAIRFAGEQLVKGGYVEPEYVQAMLDREKLTPTYLGESIAVPHGTVEAKDRVLKTGVVFCQYPEGVRFGEEEDDIARLVIGIAARNNEHIQVITSLTNALDDESVIERLAHTTSVDEVLELLAGR 1a3c-a1-m1-cA_1a3c-a1-m2-cA PYRR, THE BACILLUS SUBTILIS PYRIMIDINE BIOSYNTHETIC OPERON REPRESSOR, DIMERIC FORM P39765 P39765 1.6 X-RAY DIFFRACTION 61 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 166 166 1a4x-a1-m1-cA_1a4x-a1-m1-cB 4p82-a1-m1-cA_4p82-a1-m2-cA 4p86-a1-m1-cB_4p86-a1-m1-cA 4p86-a1-m1-cC_4p86-a1-m1-cD QKAVILDEQAIRRALTRIAHEMIERNKCILVGIKTRGIYLAKRLAERIEQIEGNPVTVGEIDITLYRNDEPLVKGADIPVDITDQKVILVDDVLYTGRTVRAGMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKSEKVMVQLDEVDQNDLVAIYEN QKAVILDEQAIRRALTRIAHEMIERNKCILVGIKTRGIYLAKRLAERIEQIEGNPVTVGEIDITLYRNDEPLVKGADIPVDITDQKVILVDDVLYTGRTVRAGMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKSEKVMVQLDEVDQNDLVAIYEN 1a3d-a1-m2-cA_1a3d-a1-m3-cA PHOSPHOLIPASE A2 (PLA2) FROM NAJA NAJA VENOM P15445 P15445 1.8 X-RAY DIFFRACTION 24 1.0 35670 (Naja naja) 35670 (Naja naja) 119 119 1a3d-a1-m1-cA_1a3d-a1-m2-cA 1a3d-a1-m1-cA_1a3d-a1-m3-cA 1a3f-a1-m1-cA_1a3f-a1-m1-cB 1a3f-a1-m1-cA_1a3f-a1-m1-cC 1a3f-a1-m1-cB_1a3f-a1-m1-cC 1psh-a1-m1-cA_1psh-a1-m1-cB 1psh-a1-m1-cA_1psh-a1-m1-cC 1psh-a1-m1-cB_1psh-a1-m1-cC 2wq5-a1-m1-cA_2wq5-a1-m2-cA 2wq5-a1-m1-cA_2wq5-a1-m3-cA 2wq5-a1-m2-cA_2wq5-a1-m3-cA NLYQFKNMIKCTVPSRSWWDFADYGCYCGRGGSGTPVDDLDRCCQVHDNCYNEAEKISGCWPYFKTYSYECSQGTLTCKGDNNACAASVCDCDRLAAICFAGAPYNDNNYNIDLKARCQ NLYQFKNMIKCTVPSRSWWDFADYGCYCGRGGSGTPVDDLDRCCQVHDNCYNEAEKISGCWPYFKTYSYECSQGTLTCKGDNNACAASVCDCDRLAAICFAGAPYNDNNYNIDLKARCQ 1a3w-a1-m1-cA_1a3w-a1-m2-cA PYRUVATE KINASE FROM SACCHAROMYCES CEREVISIAE COMPLEXED WITH FBP, PG, MN2+ AND K+ P00549 P00549 3 X-RAY DIFFRACTION 98 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 492 492 1a3w-a1-m1-cB_1a3w-a1-m2-cB 1a3x-a1-m1-cA_1a3x-a1-m2-cA 1a3x-a1-m3-cB_1a3x-a1-m4-cB SRLERLTSLSDLRRTSIIGTIGPKTNNPETLVALRKAGLNIVRMNFSHGSYEYHKSVIDNARKSEELYPGRPLAIALDTKGPEIRTGTTTNDVDYPIPPNHEMIFTTDDKYAKACDDKIMYVDYKNITKVISAGRIIYVDDGVLSFQVLEVVDTLKVKALNAGKICSHKGVNLPGTDVDLPALSEKDKEDLRFGVKNGVHMVFASFIRTANDVLTIREVLGEQGKDVKIIVKIENQQGVNNFDEILKVTDGVMVARGDLGIEIPAPEVLAVQKKLIAKSNLAGKPVICATQMLESMTYNPRPTRAEVSDVGNAILDGADCVMLSGETAKGNYPINAVTTMAETAVIAEQAIAYLPNYDDMRNCTPKPTSTTETVAASAVAAVFEQKAKAIIVLSTSGTTPRLVSKYRPNCPIILVTRCPRAARFSHLYRGVFPFVFEKEPVSDWTDDVEARINFGIEKAKEFGILKKGDTYVSIQGFKAGAGHSNTLQVSTV SRLERLTSLSDLRRTSIIGTIGPKTNNPETLVALRKAGLNIVRMNFSHGSYEYHKSVIDNARKSEELYPGRPLAIALDTKGPEIRTGTTTNDVDYPIPPNHEMIFTTDDKYAKACDDKIMYVDYKNITKVISAGRIIYVDDGVLSFQVLEVVDTLKVKALNAGKICSHKGVNLPGTDVDLPALSEKDKEDLRFGVKNGVHMVFASFIRTANDVLTIREVLGEQGKDVKIIVKIENQQGVNNFDEILKVTDGVMVARGDLGIEIPAPEVLAVQKKLIAKSNLAGKPVICATQMLESMTYNPRPTRAEVSDVGNAILDGADCVMLSGETAKGNYPINAVTTMAETAVIAEQAIAYLPNYDDMRNCTPKPTSTTETVAASAVAAVFEQKAKAIIVLSTSGTTPRLVSKYRPNCPIILVTRCPRAARFSHLYRGVFPFVFEKEPVSDWTDDVEARINFGIEKAKEFGILKKGDTYVSIQGFKAGAGHSNTLQVSTV 1a3x-a2-m1-cA_1a3x-a2-m3-cB PYRUVATE KINASE FROM SACCHAROMYCES CEREVISIAE COMPLEXED WITH PG, MN2+ AND K+ P00549 P00549 3 X-RAY DIFFRACTION 212 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 487 487 1a3w-a1-m1-cB_1a3w-a1-m1-cA 1a3w-a1-m2-cB_1a3w-a1-m2-cA 1a3x-a1-m1-cA_1a3x-a1-m3-cB 1a3x-a1-m2-cA_1a3x-a1-m4-cB MSRLERLTSLNVVAGSDLRRTSIIGTIGPKTNNPETLVALRKAGLNIVRMNFSHGSYEYHKSVIDNARKSEELYPGRPLAIALDTKGPEIRTGTTTNDVDYPIPPNHEMIFTTDDKYAKACDDKIMYVDYKNITKVISAGRIIYVDDGVLSFQVLEVVDDKTLKVKALNAGKICSHKGVNLPGTDVDLPALSEKDKEDLRFGVKNGVHMVFASFIRTANDVLTIREVLGEQGKDVKIIVKIENQQGVNNFDEILKVTDGVMVARGDLGIEIPAPEVLAVQKKLIAKSNLAGKPVICATQMLESMTYNPRPTRAEVSDVGNAILDGADCVMLSGETAKGNYPINAVTTMAETAVIAEQAIAYLPNYDDMRNCTPKPTSTTETVAASAVAAVFEQKAKAIIVLSTSGTTPRLVSKYRPNCPIILVTRCPRAARFSHLYRGVFPFVFEKETDDVEARINFGIEKAKEFGILKKGDTYVSIQGNTLQVSTV MSRLERLTSLNVVAGSDLRRTSIIGTIGPKTNNPETLVALRKAGLNIVRMNFSHGSYEYHKSVIDNARKSEELYPGRPLAIALDTKGPEIRTGTTTNDVDYPIPPNHEMIFTTDDKYAKACDDKIMYVDYKNITKVISAGRIIYVDDGVLSFQVLEVVDDKTLKVKALNAGKICSHKGVNLPGTDVDLPALSEKDKEDLRFGVKNGVHMVFASFIRTANDVLTIREVLGEQGKDVKIIVKIENQQGVNNFDEILKVTDGVMVARGDLGIEIPAPEVLAVQKKLIAKSNLAGKPVICATQMLESMTYNPRPTRAEVSDVGNAILDGADCVMLSGETAKGNYPINAVTTMAETAVIAEQAIAYLPNYDDMRNCTPKPTSTTETVAASAVAAVFEQKAKAIIVLSTSGTTPRLVSKYRPNCPIILVTRCPRAARFSHLYRGVFPFVFEKETDDVEARINFGIEKAKEFGILKKGDTYVSIQGNTLQVSTV 1a3y-a1-m1-cB_1a3y-a1-m1-cA ODORANT BINDING PROTEIN FROM NASAL MUCOSA OF PIG P81245 P81245 2.25 X-RAY DIFFRACTION 46 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 147 149 ELSGKWITSYIGSSDLEKIGENAPFQVFMRSIEFDDKESKVYLNFFSKENGICEEFSLIGTKQEGNTYDVNYAGNNKFVVSYASETALIISNINVDEEGDKTIMTGLLGKGTDIEDQDLEKFKEVTRENGIPEENIVNIIERDDCPA PFELSGKWITSYIGSSDLEKIGENAPFQVFMRSIEFDDKESKVYLNFFSKENGICEEFSLIGTKQEGNTYDVNYAGNNKFVVSYASETALIISNINVDEEGDKTIMTGLLGKGTDIEDQDLEKFKEVTRENGIPEENIVNIIERDDCPA 1a45-a1-m1-cA_1a45-a1-m2-cA GAMMAF CRYSTALLIN FROM BOVINE LENS P23005 P23005 2.3 X-RAY DIFFRACTION 30 1.0 9913 (Bos taurus) 9913 (Bos taurus) 173 173 GKITFYEDRGFQGRHYECSSDHSNLQPYFSRCNSIRVDSGCWMLYEQPNFQGPQYFLRRGDYPDYQQWMGLNDSIRSCRLIPHTGSHRLRIYEREDYRGQMVEITEDCSSLHDRFHFSEIHSFNVLEGWWVLYEMTNYRGRQYLLRPGDYRRYHDWGATNARVGSLRRAVDFY GKITFYEDRGFQGRHYECSSDHSNLQPYFSRCNSIRVDSGCWMLYEQPNFQGPQYFLRRGDYPDYQQWMGLNDSIRSCRLIPHTGSHRLRIYEREDYRGQMVEITEDCSSLHDRFHFSEIHSFNVLEGWWVLYEMTNYRGRQYLLRPGDYRRYHDWGATNARVGSLRRAVDFY 1a4c-a2-m1-cB_1a4c-a2-m1-cD AZURIN MUTANT WITH MET 121 REPLACED BY HIS, PH 3.5 CRYSTAL FORM, DATA COLLECTED AT-180 DEGREES CELSIUS P00280 P00280 2.45 X-RAY DIFFRACTION 33 1.0 32002 (Achromobacter denitrificans) 32002 (Achromobacter denitrificans) 129 129 1a4c-a1-m1-cA_1a4c-a1-m1-cC AQCEATIESNDAMQYDLKEMVVDKSCKQFTVHLKHVGKMAKSAMGHNWVLTKEADKEGVATDGMNAGLAQDYVKAGDTRVIAHTKVIGGGESDSVTFDVSKLTPGEAYAYFCSFPGHWAMHKGTLKLSN AQCEATIESNDAMQYDLKEMVVDKSCKQFTVHLKHVGKMAKSAMGHNWVLTKEADKEGVATDGMNAGLAQDYVKAGDTRVIAHTKVIGGGESDSVTFDVSKLTPGEAYAYFCSFPGHWAMHKGTLKLSN 1a4e-a1-m1-cA_1a4e-a1-m1-cD CATALASE A FROM SACCHAROMYCES CEREVISIAE P15202 P15202 2.4 X-RAY DIFFRACTION 287 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 488 488 1a4e-a1-m1-cB_1a4e-a1-m1-cC DVREDRVVTNSTGNPINEPFVTQRIGEHGPLLLQDYNLIDSLAHFNRENIPQRNPHAHGSGAFGYFEVTDDITDICGSAMFSKIGKRTKCLTRFSTVGGDKGSADTVRDPRGFATKFYTEEGNLDWVYNNTPVFFIRDPSKFPHFIHTQKRNPQTNLRDADMFWDFLTTPENQVAIHQVMILFSDRGTPANYRSMHGYSGHTYKWSNKNGDWHYVQVHIKTDQGIKNLTIEEATKIAGSNPDYCQQDLFEAIQNGNYPSWTVYIQTMTERDAKKLPFSVFDLTKVWPQGQFPLRRVGKIVLNENPLNFFAQVEQAAFAPSTTVPYQEASADPVLQARLFSYADAHRYRLGPNFHQIPVNCPYASKFFNPAIRDGPMNVNGNFGSEPTYLANDKSYTYIQQDRPIQQHQEVWNGPAIPYHWATSPGDVDFVQARNLYRVLGKQPGQQKNLAYNIGIHVEGACPQIQQRVYDMFARVDKGLSEAIKKVAE DVREDRVVTNSTGNPINEPFVTQRIGEHGPLLLQDYNLIDSLAHFNRENIPQRNPHAHGSGAFGYFEVTDDITDICGSAMFSKIGKRTKCLTRFSTVGGDKGSADTVRDPRGFATKFYTEEGNLDWVYNNTPVFFIRDPSKFPHFIHTQKRNPQTNLRDADMFWDFLTTPENQVAIHQVMILFSDRGTPANYRSMHGYSGHTYKWSNKNGDWHYVQVHIKTDQGIKNLTIEEATKIAGSNPDYCQQDLFEAIQNGNYPSWTVYIQTMTERDAKKLPFSVFDLTKVWPQGQFPLRRVGKIVLNENPLNFFAQVEQAAFAPSTTVPYQEASADPVLQARLFSYADAHRYRLGPNFHQIPVNCPYASKFFNPAIRDGPMNVNGNFGSEPTYLANDKSYTYIQQDRPIQQHQEVWNGPAIPYHWATSPGDVDFVQARNLYRVLGKQPGQQKNLAYNIGIHVEGACPQIQQRVYDMFARVDKGLSEAIKKVAE 1a4e-a1-m1-cB_1a4e-a1-m1-cD CATALASE A FROM SACCHAROMYCES CEREVISIAE P15202 P15202 2.4 X-RAY DIFFRACTION 134 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 488 488 1a4e-a1-m1-cA_1a4e-a1-m1-cC DVREDRVVTNSTGNPINEPFVTQRIGEHGPLLLQDYNLIDSLAHFNRENIPQRNPHAHGSGAFGYFEVTDDITDICGSAMFSKIGKRTKCLTRFSTVGGDKGSADTVRDPRGFATKFYTEEGNLDWVYNNTPVFFIRDPSKFPHFIHTQKRNPQTNLRDADMFWDFLTTPENQVAIHQVMILFSDRGTPANYRSMHGYSGHTYKWSNKNGDWHYVQVHIKTDQGIKNLTIEEATKIAGSNPDYCQQDLFEAIQNGNYPSWTVYIQTMTERDAKKLPFSVFDLTKVWPQGQFPLRRVGKIVLNENPLNFFAQVEQAAFAPSTTVPYQEASADPVLQARLFSYADAHRYRLGPNFHQIPVNCPYASKFFNPAIRDGPMNVNGNFGSEPTYLANDKSYTYIQQDRPIQQHQEVWNGPAIPYHWATSPGDVDFVQARNLYRVLGKQPGQQKNLAYNIGIHVEGACPQIQQRVYDMFARVDKGLSEAIKKVAE DVREDRVVTNSTGNPINEPFVTQRIGEHGPLLLQDYNLIDSLAHFNRENIPQRNPHAHGSGAFGYFEVTDDITDICGSAMFSKIGKRTKCLTRFSTVGGDKGSADTVRDPRGFATKFYTEEGNLDWVYNNTPVFFIRDPSKFPHFIHTQKRNPQTNLRDADMFWDFLTTPENQVAIHQVMILFSDRGTPANYRSMHGYSGHTYKWSNKNGDWHYVQVHIKTDQGIKNLTIEEATKIAGSNPDYCQQDLFEAIQNGNYPSWTVYIQTMTERDAKKLPFSVFDLTKVWPQGQFPLRRVGKIVLNENPLNFFAQVEQAAFAPSTTVPYQEASADPVLQARLFSYADAHRYRLGPNFHQIPVNCPYASKFFNPAIRDGPMNVNGNFGSEPTYLANDKSYTYIQQDRPIQQHQEVWNGPAIPYHWATSPGDVDFVQARNLYRVLGKQPGQQKNLAYNIGIHVEGACPQIQQRVYDMFARVDKGLSEAIKKVAE 1a4e-a1-m1-cC_1a4e-a1-m1-cD CATALASE A FROM SACCHAROMYCES CEREVISIAE P15202 P15202 2.4 X-RAY DIFFRACTION 335 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 488 488 1a4e-a1-m1-cA_1a4e-a1-m1-cB DVREDRVVTNSTGNPINEPFVTQRIGEHGPLLLQDYNLIDSLAHFNRENIPQRNPHAHGSGAFGYFEVTDDITDICGSAMFSKIGKRTKCLTRFSTVGGDKGSADTVRDPRGFATKFYTEEGNLDWVYNNTPVFFIRDPSKFPHFIHTQKRNPQTNLRDADMFWDFLTTPENQVAIHQVMILFSDRGTPANYRSMHGYSGHTYKWSNKNGDWHYVQVHIKTDQGIKNLTIEEATKIAGSNPDYCQQDLFEAIQNGNYPSWTVYIQTMTERDAKKLPFSVFDLTKVWPQGQFPLRRVGKIVLNENPLNFFAQVEQAAFAPSTTVPYQEASADPVLQARLFSYADAHRYRLGPNFHQIPVNCPYASKFFNPAIRDGPMNVNGNFGSEPTYLANDKSYTYIQQDRPIQQHQEVWNGPAIPYHWATSPGDVDFVQARNLYRVLGKQPGQQKNLAYNIGIHVEGACPQIQQRVYDMFARVDKGLSEAIKKVAE DVREDRVVTNSTGNPINEPFVTQRIGEHGPLLLQDYNLIDSLAHFNRENIPQRNPHAHGSGAFGYFEVTDDITDICGSAMFSKIGKRTKCLTRFSTVGGDKGSADTVRDPRGFATKFYTEEGNLDWVYNNTPVFFIRDPSKFPHFIHTQKRNPQTNLRDADMFWDFLTTPENQVAIHQVMILFSDRGTPANYRSMHGYSGHTYKWSNKNGDWHYVQVHIKTDQGIKNLTIEEATKIAGSNPDYCQQDLFEAIQNGNYPSWTVYIQTMTERDAKKLPFSVFDLTKVWPQGQFPLRRVGKIVLNENPLNFFAQVEQAAFAPSTTVPYQEASADPVLQARLFSYADAHRYRLGPNFHQIPVNCPYASKFFNPAIRDGPMNVNGNFGSEPTYLANDKSYTYIQQDRPIQQHQEVWNGPAIPYHWATSPGDVDFVQARNLYRVLGKQPGQQKNLAYNIGIHVEGACPQIQQRVYDMFARVDKGLSEAIKKVAE 1a4f-a1-m1-cA_1a4f-a1-m2-cA BAR-HEADED GOOSE HEMOGLOBIN (OXY FORM) P01990 P01990 2 X-RAY DIFFRACTION 18 1.0 8846 (Anser indicus) 8846 (Anser indicus) 141 141 1c40-a1-m1-cA_1c40-a1-m2-cA 1hv4-a1-m1-cA_1hv4-a1-m1-cC 1hv4-a2-m1-cE_1hv4-a2-m1-cG VLSAADKTNVKGVFSKISGHAEEYGAETLERMFTAYPQTKTYFPHFDLQHGSAQIKAHGKKVVAALVEAVNHIDDIAGALSKLSDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPSALTAEVHASLDKFLCAVGTVLTAKYR VLSAADKTNVKGVFSKISGHAEEYGAETLERMFTAYPQTKTYFPHFDLQHGSAQIKAHGKKVVAALVEAVNHIDDIAGALSKLSDLHAQKLRVDPVNFKFLGHCFLVVVAIHHPSALTAEVHASLDKFLCAVGTVLTAKYR 1a4i-a1-m1-cA_1a4i-a1-m1-cB HUMAN TETRAHYDROFOLATE DEHYDROGENASE / CYCLOHYDROLASE P11586 P11586 1.5 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 295 1dia-a1-m1-cA_1dia-a1-m1-cB 1dib-a1-m1-cA_1dib-a1-m1-cB 1dig-a1-m1-cA_1dig-a1-m1-cB 6ecp-a1-m1-cA_6ecp-a1-m1-cB 6ecq-a1-m1-cA_6ecq-a1-m1-cB 6ecr-a1-m1-cA_6ecr-a1-m1-cB APAEILNGKEISAQIRARLKNQVTQLKEQVPGFTPRLAILQVGNRDDSNLYINVKLKAAEEIGIKATHIKLPRTTTESEVMKYITSLNEDSTVHGFLVQLPLDSENSINTEEVINAIAPEKDVDGLTSINAGRLARGDLNDCFIPCTPKGCLELIKETGVPIAGRHAVVVGRSKIVGAPMHDLLLWNNATVTTCHSKTAHLDEEVNKGDILVVATGQPEMVKGEWIKPGAIVIDCGINYKVVGDVAYDEAKERASFITPVPGGVGPMTVAMLMQSTVESAKRFLE APAEILNGKEISAQIRARLKNQVTQLKEQVPGFTPRLAILQVGNRDDSNLYINVKLKAAEEIGIKATHIKLPRTTTESEVMKYITSLNEDSTVHGFLVQLPLDSENSINTEEVINAIAPEKDVDGLTSINAGRLARGDLNDCFIPCTPKGCLELIKETGVPIAGRHAVVVGRSKIVGAPMHDLLLWNNATVTTCHSKTAHLDEEVNKGDILVVATGQPEMVKGEWIKPGAIVIDCGINYVPDDKKPNGRKVVGDVAYDEAKERASFITPVPGGVGPMTVAMLMQSTVESAKRFLE 1a4o-a1-m1-cA_1a4o-a1-m1-cB 14-3-3 PROTEIN ZETA ISOFORM P63103 P63103 2.8 X-RAY DIFFRACTION 52 1.0 9913 (Bos taurus) 9913 (Bos taurus) 197 197 1a37-a1-m1-cA_1a37-a1-m1-cB 1a4o-a2-m1-cC_1a4o-a2-m1-cD MDKNELVQKAKLAEQAERYDDMAACMKSVTEQGAELSNEERNLLSVAYKNVVGARRSSWRVVSSIEQKEKKQQMAREYREKIETELRDICNDVLSLLEKFLIPNAAESKVFYLKMKGDYYRYLAEVAAGDDKKGIVDQSQQAYQEAFEISKKEMIRLGLALNFSVFYYACSLAKTAFDEAIAELLIMQLLRDNLTLW MDKNELVQKAKLAEQAERYDDMAACMKSVTEQGAELSNEERNLLSVAYKNVVGARRSSWRVVSSIEQKEKKQQMAREYREKIETELRDICNDVLSLLEKFLIPNAAESKVFYLKMKGDYYRYLAEVAAGDDKKGIVDQSQQAYQEAFEISKKEMIRLGLALNFSVFYYACSLAKTAFDEAIAELLIMQLLRDNLTLW 1a52-a3-m1-cA_1a52-a3-m3-cA ESTROGEN RECEPTOR ALPHA LIGAND-BINDING DOMAIN COMPLEXED TO ESTRADIOL P03372 P03372 2.8 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 239 LALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHERLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEML LALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHERLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEML 1a52-a4-m1-cA_1a52-a4-m2-cB ESTROGEN RECEPTOR ALPHA LIGAND-BINDING DOMAIN COMPLEXED TO ESTRADIOL P03372 P03372 2.8 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 240 1a52-a2-m1-cA_1a52-a2-m2-cB 1a52-a2-m2-cA_1a52-a2-m1-cB 1a52-a3-m1-cA_1a52-a3-m2-cB 1a52-a3-m3-cA_1a52-a3-m4-cB LALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHERLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEML SLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFLSSTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHERLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEML 1a59-a1-m1-cA_1a59-a1-m2-cA COLD-ACTIVE CITRATE SYNTHASE O34002 O34002 2.09 X-RAY DIFFRACTION 376 1.0 56673 (Antarctic bacterium DS2-3R) 56673 (Antarctic bacterium DS2-3R) 377 377 EPTIHKGLAGVTADVTAISKVNSDTNSLLYRGYPVQELAAKCSFEQVAYLLWNSELPNDSELKAFVNFERSHRKLDENVKGAIDLLSTACHPMDVARTAVSVLGANHARAQDSSPEANLEKAMSLLATFPSVVAYDQRRRRGEELIEPREDLDYSANFLWMTFGEEAAPEVVEAFNVSMILYAEHSFNASTFTARVITSTLADLHSAVTGAIGALKGPLHGGANEAVMHTFEEIGIRKDESLDEAATRSKAWMVDALAQKKKVMGFGHRVYKNGDSRVPTMKSALDAMIKHYDRPEMLGLYNGLEAAMEEAKQIKPNLDYPAGPTYNLMGFDTEMFTPLFIAARITGWTAHIMEQVADNALIRPLSEYNGPEQRQVP EPTIHKGLAGVTADVTAISKVNSDTNSLLYRGYPVQELAAKCSFEQVAYLLWNSELPNDSELKAFVNFERSHRKLDENVKGAIDLLSTACHPMDVARTAVSVLGANHARAQDSSPEANLEKAMSLLATFPSVVAYDQRRRRGEELIEPREDLDYSANFLWMTFGEEAAPEVVEAFNVSMILYAEHSFNASTFTARVITSTLADLHSAVTGAIGALKGPLHGGANEAVMHTFEEIGIRKDESLDEAATRSKAWMVDALAQKKKVMGFGHRVYKNGDSRVPTMKSALDAMIKHYDRPEMLGLYNGLEAAMEEAKQIKPNLDYPAGPTYNLMGFDTEMFTPLFIAARITGWTAHIMEQVADNALIRPLSEYNGPEQRQVP 1a5t-a1-m1-cA_1a5t-a1-m2-cA CRYSTAL STRUCTURE OF THE DELTA PRIME SUBUNIT OF THE CLAMP-LOADER COMPLEX OF ESCHERICHIA COLI DNA POLYMERASE III P28631 P28631 2.2 X-RAY DIFFRACTION 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 324 324 MRWYPWLRPDFEKLVASYQAGRGHHALLIQALPGMGDDALIYALSRYLLCQQPQGHKSCGHCRGCQLMQAGTHPDYYTLAPEKGKNTLGVDAVREVTEKLNEHARLGGAKVVWVTDAALLTDAAANALLKTLEEPPAETWFFLATREPERLLATLRSRCRLHYLAPPPEQYAVTWLSREVTMSQDALLAALRLSAGSPGAALALFQGDNWQARETLCQALAYSVPSGDWYSLLAALNHEQAPARLHWLATLLMDALKRVTNVDVPGLVAELANHLSPSRLQAILGDVCHIREQLMSVTGINRELLITDLLLRIEHYLQPGVVLP MRWYPWLRPDFEKLVASYQAGRGHHALLIQALPGMGDDALIYALSRYLLCQQPQGHKSCGHCRGCQLMQAGTHPDYYTLAPEKGKNTLGVDAVREVTEKLNEHARLGGAKVVWVTDAALLTDAAANALLKTLEEPPAETWFFLATREPERLLATLRSRCRLHYLAPPPEQYAVTWLSREVTMSQDALLAALRLSAGSPGAALALFQGDNWQARETLCQALAYSVPSGDWYSLLAALNHEQAPARLHWLATLLMDALKRVTNVDVPGLVAELANHLSPSRLQAILGDVCHIREQLMSVTGINRELLITDLLLRIEHYLQPGVVLP 1a5z-a1-m4-cA_1a5z-a1-m2-cA LACTATE DEHYDROGENASE FROM THERMOTOGA MARITIMA (TMLDH) P16115 P16115 2.1 X-RAY DIFFRACTION 38 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 312 312 1a5z-a1-m1-cA_1a5z-a1-m3-cA MKIGIVGLGRVGSSTAFALLMKGFAREMVLIDVDKKRAEGDALDLIHGTPFTRRANIYAGDYADLKGSDVVIVAAGVPQKPGETRLQLLGRNARVMKEIARNVSKYAPDSIVIVVTNPVDVLTYFFLKESGMDPRKVFGSGTVLDTARLRTLIAQHCGFSPRSVHVYVIGEHGDSEVPVWSGAMIGGIPLQNMCQVCQKCDSKILENFAEKTKRAAYEIIERKGATHYAIALAVADIVESIFFDEKRVLTLSVYLEDYLGVKDLCISVPVTLGKHGVERILELNLNEEELEAFRKSASILKNAINEITAEEN MKIGIVGLGRVGSSTAFALLMKGFAREMVLIDVDKKRAEGDALDLIHGTPFTRRANIYAGDYADLKGSDVVIVAAGVPQKPGETRLQLLGRNARVMKEIARNVSKYAPDSIVIVVTNPVDVLTYFFLKESGMDPRKVFGSGTVLDTARLRTLIAQHCGFSPRSVHVYVIGEHGDSEVPVWSGAMIGGIPLQNMCQVCQKCDSKILENFAEKTKRAAYEIIERKGATHYAIALAVADIVESIFFDEKRVLTLSVYLEDYLGVKDLCISVPVTLGKHGVERILELNLNEEELEAFRKSASILKNAINEITAEEN 1a5z-a1-m4-cA_1a5z-a1-m3-cA LACTATE DEHYDROGENASE FROM THERMOTOGA MARITIMA (TMLDH) P16115 P16115 2.1 X-RAY DIFFRACTION 116 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 312 312 1a5z-a1-m1-cA_1a5z-a1-m2-cA MKIGIVGLGRVGSSTAFALLMKGFAREMVLIDVDKKRAEGDALDLIHGTPFTRRANIYAGDYADLKGSDVVIVAAGVPQKPGETRLQLLGRNARVMKEIARNVSKYAPDSIVIVVTNPVDVLTYFFLKESGMDPRKVFGSGTVLDTARLRTLIAQHCGFSPRSVHVYVIGEHGDSEVPVWSGAMIGGIPLQNMCQVCQKCDSKILENFAEKTKRAAYEIIERKGATHYAIALAVADIVESIFFDEKRVLTLSVYLEDYLGVKDLCISVPVTLGKHGVERILELNLNEEELEAFRKSASILKNAINEITAEEN MKIGIVGLGRVGSSTAFALLMKGFAREMVLIDVDKKRAEGDALDLIHGTPFTRRANIYAGDYADLKGSDVVIVAAGVPQKPGETRLQLLGRNARVMKEIARNVSKYAPDSIVIVVTNPVDVLTYFFLKESGMDPRKVFGSGTVLDTARLRTLIAQHCGFSPRSVHVYVIGEHGDSEVPVWSGAMIGGIPLQNMCQVCQKCDSKILENFAEKTKRAAYEIIERKGATHYAIALAVADIVESIFFDEKRVLTLSVYLEDYLGVKDLCISVPVTLGKHGVERILELNLNEEELEAFRKSASILKNAINEITAEEN 1a6d-a1-m2-cB_1a6d-a1-m8-cB THERMOSOME FROM T. ACIDOPHILUM P48425 P48425 2.6 X-RAY DIFFRACTION 22 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 502 502 1a6d-a1-m1-cB_1a6d-a1-m7-cB 1a6d-a1-m3-cB_1a6d-a1-m5-cB 1a6d-a1-m4-cB_1a6d-a1-m6-cB 1a6e-a1-m1-cB_1a6e-a1-m7-cB 1a6e-a1-m2-cB_1a6e-a1-m8-cB 1a6e-a1-m3-cB_1a6e-a1-m5-cB 1a6e-a1-m4-cB_1a6e-a1-m6-cB KDAMKENIEAAIAISNSVRSSLGPRGMDKMLVDSLGDIVITNDGVTILKEMDVEHPAAKMMVEVSKTQDSFVGDGTTTAVIIAGGLLQQAQGLINQNVHPTVISEGYRMASEEAKRVIDEISTKIGADEKALLLKMAQTSLNSKSASVAKDKLAEISYEAVKSVAELRDGKYYVDFDNIQVVKKQGGAIDDTQLINGIIVDKEKVHPGMPDVVKDAKIALLDAPLEIKKPEFDTNLRIEDPSMIQKFLAQEENMLREMVDKIKSVGANVVITQKGIDDMAQHYLSRAGIYAVRRVKKSDMDKLAKATGASIVSTIDEISSSDLGTAERVEQVKVGEDYMTFVTGCKNPKAVSILVRGETEHVVDEMERSITDSLHVVASALEDGAYAAGGGATAAEIAFRLRSYAQKIGGRQQLAIEKFADAIEEIPRALAENAGLDPIDILLKLRAEHAKGNKTYGINVFTGEIEDMVKNGVIEPIRVGKQAIESATEAAIMILRIDDVIA KDAMKENIEAAIAISNSVRSSLGPRGMDKMLVDSLGDIVITNDGVTILKEMDVEHPAAKMMVEVSKTQDSFVGDGTTTAVIIAGGLLQQAQGLINQNVHPTVISEGYRMASEEAKRVIDEISTKIGADEKALLLKMAQTSLNSKSASVAKDKLAEISYEAVKSVAELRDGKYYVDFDNIQVVKKQGGAIDDTQLINGIIVDKEKVHPGMPDVVKDAKIALLDAPLEIKKPEFDTNLRIEDPSMIQKFLAQEENMLREMVDKIKSVGANVVITQKGIDDMAQHYLSRAGIYAVRRVKKSDMDKLAKATGASIVSTIDEISSSDLGTAERVEQVKVGEDYMTFVTGCKNPKAVSILVRGETEHVVDEMERSITDSLHVVASALEDGAYAAGGGATAAEIAFRLRSYAQKIGGRQQLAIEKFADAIEEIPRALAENAGLDPIDILLKLRAEHAKGNKTYGINVFTGEIEDMVKNGVIEPIRVGKQAIESATEAAIMILRIDDVIA 1a6d-a1-m3-cA_1a6d-a1-m8-cA THERMOSOME FROM T. ACIDOPHILUM P48424 P48424 2.6 X-RAY DIFFRACTION 21 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 503 503 1a6d-a1-m1-cA_1a6d-a1-m5-cA 1a6d-a1-m2-cA_1a6d-a1-m6-cA 1a6d-a1-m4-cA_1a6d-a1-m7-cA 1a6e-a1-m1-cA_1a6e-a1-m5-cA 1a6e-a1-m2-cA_1a6e-a1-m6-cA 1a6e-a1-m3-cA_1a6e-a1-m8-cA 1a6e-a1-m4-cA_1a6e-a1-m7-cA REQGKNAQRNNIEAAKAIADAVRTTLGPKGMDKMLVDSIGDIIISNDGATILKEMDVEHPTAKMIVEVSKAQDTAVGDGTTTAVVLSGELLKQAETLLDQGVHPTVISNGYRLAVNEARKIIDEIAEKSTDDATLRKIALTALSGKNTGLSNDFLADLVVKAVNAVAEVRDGKTIVDTANIKVDKKNGGSVNDTQFISGIVIDKEKVHSKMPDVVKNAKIALIDSALEIKKTEIEAKVQISDPSKIQDFLNQETNTFKQMVEKIKKSGANVVLCQKGIDDVAQHYLAKEGIYAVRRVKKSDMEKLAKATGAKIVTDLDDLTPSVLGEAETVEERKIGDDRMTFVMGCKNPKAVSILIRGGTDHVVSEVERALNDAIRVVAITKEDGKFLWGGGAVEAELAMRLAKYANSVGGREQLAIEAFAKALEIIPRTLAENAGIDPINTLIKLKADDEKGRISVGVDLDNNGVGDMKAKGVVDPLRVKTHALESAVEVATMILRIDDVI REQGKNAQRNNIEAAKAIADAVRTTLGPKGMDKMLVDSIGDIIISNDGATILKEMDVEHPTAKMIVEVSKAQDTAVGDGTTTAVVLSGELLKQAETLLDQGVHPTVISNGYRLAVNEARKIIDEIAEKSTDDATLRKIALTALSGKNTGLSNDFLADLVVKAVNAVAEVRDGKTIVDTANIKVDKKNGGSVNDTQFISGIVIDKEKVHSKMPDVVKNAKIALIDSALEIKKTEIEAKVQISDPSKIQDFLNQETNTFKQMVEKIKKSGANVVLCQKGIDDVAQHYLAKEGIYAVRRVKKSDMEKLAKATGAKIVTDLDDLTPSVLGEAETVEERKIGDDRMTFVMGCKNPKAVSILIRGGTDHVVSEVERALNDAIRVVAITKEDGKFLWGGGAVEAELAMRLAKYANSVGGREQLAIEAFAKALEIIPRTLAENAGIDPINTLIKLKADDEKGRISVGVDLDNNGVGDMKAKGVVDPLRVKTHALESAVEVATMILRIDDVI 1a6f-a2-m1-cA_1a6f-a2-m2-cA RNASE P PROTEIN FROM BACILLUS SUBTILIS P25814 P25814 2.6 X-RAY DIFFRACTION 20 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 113 113 AHLKKRNRLKKNEDFQKVFKHGTSVANRQFVLYTLDQPENDELRVGLSVSKKIGNAVMRNRIKRLIRQAFLEEKERLKEKDYIIIARKPASQLTYEETKKSLQHLFRKSSLYK AHLKKRNRLKKNEDFQKVFKHGTSVANRQFVLYTLDQPENDELRVGLSVSKKIGNAVMRNRIKRLIRQAFLEEKERLKEKDYIIIARKPASQLTYEETKKSLQHLFRKSSLYK 1a6j-a1-m1-cA_1a6j-a1-m2-cB NITROGEN REGULATORY BACTERIAL PROTEIN IIA-NITROGEN P69829 P69829 2.35 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 157 1a6j-a1-m2-cA_1a6j-a1-m1-cB LQLSSVLNRECTRSRVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKTICRRLRAAQSDEELYQIITDTE MTNNDTTLQLSSVLNRECTRSRVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKTICRRLRAAQSDEELYQIITDTE 1a6j-a1-m2-cA_1a6j-a1-m2-cB NITROGEN REGULATORY BACTERIAL PROTEIN IIA-NITROGEN P69829 P69829 2.35 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 157 1a6j-a1-m1-cA_1a6j-a1-m1-cB LQLSSVLNRECTRSRVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKTICRRLRAAQSDEELYQIITDTE MTNNDTTLQLSSVLNRECTRSRVHCQSKKRALEIISELAAKQLSLPPQVVFEAILTREKMGSTGIGNGIAIPHGKLEEDTLRAVGVFVQLETPIAFDAIDNQPVDLLFALLVPADQTKTHLHTLSLVAKRLADKTICRRLRAAQSDEELYQIITDTE 1a78-a1-m1-cA_1a78-a1-m1-cB COMPLEX OF TOAD OVARY GALECTIN WITH THIO-DIGALACTOSE P56217 P56217 2 X-RAY DIFFRACTION 39 1.0 38577 (Rhinella arenarum) 38577 (Rhinella arenarum) 134 134 1gan-a1-m1-cA_1gan-a1-m1-cB ASAGVAVTNLNLKPGHCVEIKGSIPPDCKGFAVNLGEDASNFLLHFNARFDLHGDVNKIVCNSKEADAWGSEQREEVFPFQQGAEVMVCFEYQTQKIIIKFSSGDQFSFPVRKVLPSIPFLSLEGLAFKSITTE ASAGVAVTNLNLKPGHCVEIKGSIPPDCKGFAVNLGEDASNFLLHFNARFDLHGDVNKIVCNSKEADAWGSEQREEVFPFQQGAEVMVCFEYQTQKIIIKFSSGDQFSFPVRKVLPSIPFLSLEGLAFKSITTE 1a79-a1-m1-cA_1a79-a1-m1-cC CRYSTAL STRUCTURE OF THE TRNA SPLICING ENDONUCLEASE FROM METHANOCOCCUS JANNASCHII Q58819 Q58819 2.28 X-RAY DIFFRACTION 53 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 171 171 KITGLLDGDRVIVFDKNGISKLSARHYGNVEGNFLSLSLVEALYLINLGWLEVKYKDNKPLSFEELYEYARNVEERLCLKYLVYKDLRTRGYIVKTGLKYGADFRLYERGANIDKEHSVYLVKVFPEDSSFLLSELTGFVRVAHSVRKKLLIAIVDADGDIVYYNMTYVKP KITGLLDGDRVIVFDKNGISKLSARHYGNVEGNFLSLSLVEALYLINLGWLEVKYKDNKPLSFEELYEYARNVEERLCLKYLVYKDLRTRGYIVKTGLKYGADFRLYERGANIDKEHSVYLVKVFPEDSSFLLSELTGFVRVAHSVRKKLLIAIVDADGDIVYYNMTYVKP 1a79-a1-m1-cA_1a79-a1-m1-cD CRYSTAL STRUCTURE OF THE TRNA SPLICING ENDONUCLEASE FROM METHANOCOCCUS JANNASCHII Q58819 Q58819 2.28 X-RAY DIFFRACTION 76 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 171 171 1a79-a1-m1-cB_1a79-a1-m1-cC KITGLLDGDRVIVFDKNGISKLSARHYGNVEGNFLSLSLVEALYLINLGWLEVKYKDNKPLSFEELYEYARNVEERLCLKYLVYKDLRTRGYIVKTGLKYGADFRLYERGANIDKEHSVYLVKVFPEDSSFLLSELTGFVRVAHSVRKKLLIAIVDADGDIVYYNMTYVKP KITGLLDGDRVIVFDKNGISKLSARHYGNVEGNFLSLSLVEALYLINLGWLEVKYKDNKPLSFEELYEYARNVEERLCLKYLVYKDLRTRGYIVKTGLKYGADFRLYERGANIDKEHSVYLVKVFPEDSSFLLSELTGFVRVAHSVRKKLLIAIVDADGDIVYYNMTYVKP 1a79-a1-m1-cC_1a79-a1-m1-cD CRYSTAL STRUCTURE OF THE TRNA SPLICING ENDONUCLEASE FROM METHANOCOCCUS JANNASCHII Q58819 Q58819 2.28 X-RAY DIFFRACTION 73 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 171 171 1a79-a1-m1-cA_1a79-a1-m1-cB KITGLLDGDRVIVFDKNGISKLSARHYGNVEGNFLSLSLVEALYLINLGWLEVKYKDNKPLSFEELYEYARNVEERLCLKYLVYKDLRTRGYIVKTGLKYGADFRLYERGANIDKEHSVYLVKVFPEDSSFLLSELTGFVRVAHSVRKKLLIAIVDADGDIVYYNMTYVKP KITGLLDGDRVIVFDKNGISKLSARHYGNVEGNFLSLSLVEALYLINLGWLEVKYKDNKPLSFEELYEYARNVEERLCLKYLVYKDLRTRGYIVKTGLKYGADFRLYERGANIDKEHSVYLVKVFPEDSSFLLSELTGFVRVAHSVRKKLLIAIVDADGDIVYYNMTYVKP 1a7g-a1-m1-cE_1a7g-a1-m2-cE THE CRYSTAL STRUCTURE OF THE E2 DNA-BINDING DOMAIN FROM HUMAN PAPILLOMAVIRUS AT 2.4 ANGSTROMS P17383 P17383 2.4 X-RAY DIFFRACTION 60 1.0 10585 (human papillomavirus 31) 10585 (human papillomavirus 31) 82 82 1dhm-a1-m1-cA_1dhm-a1-m1-cB ATTPIIHLKGDANILKCLRYRLSKYKQLYEQVSSTWHWTCTDGKHKNAIVTLTYISTSQRDDFLNTVVIPNTVSVSTGYMTI ATTPIIHLKGDANILKCLRYRLSKYKQLYEQVSSTWHWTCTDGKHKNAIVTLTYISTSQRDDFLNTVVIPNTVSVSTGYMTI 1a7t-a1-m1-cA_1a7t-a1-m1-cB METALLO-BETA-LACTAMASE WITH MES P25910 P25910 1.85 X-RAY DIFFRACTION 15 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 227 227 SVKISDDISITQLSDKVYTYVSLAEIEGWGMVPSNGMIVINNHQAALLDTPINDAQTEMLVNWVTDSLHAKVTTFIPNHWHGDCIGGLGYLQRKGVQSYANQMTIDLAKEKGLPVPEHGFTDSLTVSLDGMPLQCYYLGGGHATDNIVVWLPTENILFGGCMLKDNQTTSIGNISDADVTAWPKTLDKVKAKFPSARYVVPGHGNYGGTELIEHTKQIVNQYIESTS SVKISDDISITQLSDKVYTYVSLAEIEGWGMVPSNGMIVINNHQAALLDTPINDAQTEMLVNWVTDSLHAKVTTFIPNHWHGDCIGGLGYLQRKGVQSYANQMTIDLAKEKGLPVPEHGFTDSLTVSLDGMPLQCYYLGGGHATDNIVVWLPTENILFGGCMLKDNQTTSIGNISDADVTAWPKTLDKVKAKFPSARYVVPGHGNYGGTELIEHTKQIVNQYIESTS 1a81-a1-m1-cG_1a81-a1-m1-cK CRYSTAL STRUCTURE OF THE TANDEM SH2 DOMAIN OF THE SYK KINASE BOUND TO A DUALLY TYROSINE-PHOSPHORYLATED ITAM P43405 P43405 3 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 1a81-a1-m1-cG_1a81-a1-m1-cI SANHLPFFFGNITREEAEDYLVQGGMSDGLYLLRQSRNYLGGFALSVAHGRKAHHYTIERELNGTYAIAGGRTHASPADLCHYHSQESDGLVCLLKKPFNRPQGVQPKTPQLEKLIATTAHEKMPWFHGKISREESEQIVLIGSKTNGKFLIRARDNNGSYALCLLHEGKVLHYRIDKDKTGKLSIPEGKKFDTLWQLVEHYSYKADGLLRVLTVPCQKI SANHLPFFFGNITREEAEDYLVQGGMSDGLYLLRQSRNYLGGFALSVAHGRKAHHYTIERELNGTYAIAGGRTHASPADLCHYHSQESDGLVCLLKKPFNRPQGVQPKTPQLEKLIATTAHEKMPWFHGKISREESEQIVLIGSKTNGKFLIRARDNNGSYALCLLHEGKVLHYRIDKDKTGKLSIPEGKKFDTLWQLVEHYSYKADGLLRVLTVPCQKI 1a81-a1-m1-cK_1a81-a1-m1-cI CRYSTAL STRUCTURE OF THE TANDEM SH2 DOMAIN OF THE SYK KINASE BOUND TO A DUALLY TYROSINE-PHOSPHORYLATED ITAM P43405 P43405 3 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 254 1a81-a2-m1-cA_1a81-a2-m1-cC 1a81-a2-m1-cE_1a81-a2-m1-cA 1a81-a2-m1-cE_1a81-a2-m1-cC SANHLPFFFGNITREEAEDYLVQGGMSDGLYLLRQSRNYLGGFALSVAHGRKAHHYTIERELNGTYAIAGGRTHASPADLCHYHSQESDGLVCLLKKPFNRPQGVQPKTPQLEKLIATTAHEKMPWFHGKISREESEQIVLIGSKTNGKFLIRARDNNGSYALCLLHEGKVLHYRIDKDKTGKLSIPEGKKFDTLWQLVEHYSYKADGLLRVLTVPCQKI SANHLPFFFGNITREEAEDYLVQGGMSDGLYLLRQSRNYLGGFALSVAHGRKAHHYTIERELNGTYAIAGGRTHASPADLCHYHSQESDGLVCLLKKPFNRPQGVQPKTGPFEDLKENLIREYVKQTWNLQGQALEQAIISQKPQLEKLIATTAHEKMPWFHGKISREESEQIVLIGSKTNGKFLIRARDNNGSYALCLLHEGKVLHYRIDKDKTGKLSIPEGKKFDTLWQLVEHYSYKADGLLRVLTVPCQKI 1a88-a1-m1-cB_1a88-a1-m1-cC CHLOROPEROXIDASE L P49323 P49323 1.9 X-RAY DIFFRACTION 50 1.0 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 275 275 1a88-a1-m1-cA_1a88-a1-m1-cB 1a88-a1-m1-cA_1a88-a1-m1-cC GTVTTSDGTNIFYKDWGPRDGLPVVFHHGWPLSADDWDNQMLFFLSHGYRVIAHDRRGHGRSDQPSTGHDMDTYAADVAALTEALDLRGAVHIGHSTGGGEVARYVARAEPGRVAKAVLVSAVPPVMVKSDTNPDGLPLEVFDEFRAALAANRAQFYIDVPSGPFYGFNREGATVSQGLIDHWWLQGMMGAANAHYECIAAFSETDFTDDLKRIDVPVLVAHGTDDQVVPYADAAPKSAELLANATLKSYEGLPHGMLSTHPEVLNPDLLAFVKS GTVTTSDGTNIFYKDWGPRDGLPVVFHHGWPLSADDWDNQMLFFLSHGYRVIAHDRRGHGRSDQPSTGHDMDTYAADVAALTEALDLRGAVHIGHSTGGGEVARYVARAEPGRVAKAVLVSAVPPVMVKSDTNPDGLPLEVFDEFRAALAANRAQFYIDVPSGPFYGFNREGATVSQGLIDHWWLQGMMGAANAHYECIAAFSETDFTDDLKRIDVPVLVAHGTDDQVVPYADAAPKSAELLANATLKSYEGLPHGMLSTHPEVLNPDLLAFVKS 1a8l-a1-m1-cA_1a8l-a1-m2-cA PROTEIN DISULFIDE OXIDOREDUCTASE FROM ARCHAEON PYROCOCCUS FURIOSUS Q51760 Q51760 1.9 X-RAY DIFFRACTION 53 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 226 226 MGLISDADKKVIKEEFFSKMVNPVKLIVFVRKDHCQYCDQLKQLVQELSELTDKLSYEIVDFDTPEGKELAKRYRIDRAPATTITQDGKDFGVRYFGLPAGHEFAAFLEDIVDVSREETNLMDETKQAIRNIDQDVRILVFVTPTCPYCPLAVRMAHKFAIENTKAGKGKILGDMVEAIEYPEWADQYNVMAVPKIVIQVNGEDRVEFEGAYPEKMFLEKLLSALS MGLISDADKKVIKEEFFSKMVNPVKLIVFVRKDHCQYCDQLKQLVQELSELTDKLSYEIVDFDTPEGKELAKRYRIDRAPATTITQDGKDFGVRYFGLPAGHEFAAFLEDIVDVSREETNLMDETKQAIRNIDQDVRILVFVTPTCPYCPLAVRMAHKFAIENTKAGKGKILGDMVEAIEYPEWADQYNVMAVPKIVIQVNGEDRVEFEGAYPEKMFLEKLLSALS 1a8l-a2-m1-cA_1a8l-a2-m3-cA PROTEIN DISULFIDE OXIDOREDUCTASE FROM ARCHAEON PYROCOCCUS FURIOSUS Q51760 Q51760 1.9 X-RAY DIFFRACTION 35 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 226 226 MGLISDADKKVIKEEFFSKMVNPVKLIVFVRKDHCQYCDQLKQLVQELSELTDKLSYEIVDFDTPEGKELAKRYRIDRAPATTITQDGKDFGVRYFGLPAGHEFAAFLEDIVDVSREETNLMDETKQAIRNIDQDVRILVFVTPTCPYCPLAVRMAHKFAIENTKAGKGKILGDMVEAIEYPEWADQYNVMAVPKIVIQVNGEDRVEFEGAYPEKMFLEKLLSALS MGLISDADKKVIKEEFFSKMVNPVKLIVFVRKDHCQYCDQLKQLVQELSELTDKLSYEIVDFDTPEGKELAKRYRIDRAPATTITQDGKDFGVRYFGLPAGHEFAAFLEDIVDVSREETNLMDETKQAIRNIDQDVRILVFVTPTCPYCPLAVRMAHKFAIENTKAGKGKILGDMVEAIEYPEWADQYNVMAVPKIVIQVNGEDRVEFEGAYPEKMFLEKLLSALS 1a8q-a2-m2-cA_1a8q-a2-m3-cA BROMOPEROXIDASE A1 P33912 P33912 1.75 X-RAY DIFFRACTION 41 1.0 1894 (Kitasatospora aureofaciens) 1894 (Kitasatospora aureofaciens) 274 274 1a8q-a2-m1-cA_1a8q-a2-m2-cA 1a8q-a2-m1-cA_1a8q-a2-m3-cA PICTTRDGVEIFYKDWGQGRPVVFIHGWPLNGDAWQDQLKAVVDAGYRGIAHDRRGHGHSTPVWDGYDFDTFADDLNDLLTDLDLRDVTLVAHSMGGGELARYVGRHGTGRLRSAVLLSAIPPVMIKSDKNPDGVPDEVFDALKNGVLTERSQFWKDTAEGFFSANRPGNKVTQGNKDAFWYMAMAQTIEGGVRCVDAFGYTDFTEDLKKFDIPTLVVHGDDDQVVPIDATGRKSAQIIPNAELKVYEGSSHGIAMVPGDKEKFNRDLLEFLNK PICTTRDGVEIFYKDWGQGRPVVFIHGWPLNGDAWQDQLKAVVDAGYRGIAHDRRGHGHSTPVWDGYDFDTFADDLNDLLTDLDLRDVTLVAHSMGGGELARYVGRHGTGRLRSAVLLSAIPPVMIKSDKNPDGVPDEVFDALKNGVLTERSQFWKDTAEGFFSANRPGNKVTQGNKDAFWYMAMAQTIEGGVRCVDAFGYTDFTEDLKKFDIPTLVVHGDDDQVVPIDATGRKSAQIIPNAELKVYEGSSHGIAMVPGDKEKFNRDLLEFLNK 1aa1-a1-m2-cB_1aa1-a1-m2-cL ACTIVATED SPINACH RUBISCO IN COMPLEX WITH THE PRODUCT 3-PHOSPHOGLYCERATE P00875 P00875 2.2 X-RAY DIFFRACTION 22 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 437 437 1aa1-a1-m1-cB_1aa1-a1-m1-cE 1aa1-a1-m1-cB_1aa1-a1-m1-cL 1aa1-a1-m1-cE_1aa1-a1-m1-cH 1aa1-a1-m1-cH_1aa1-a1-m1-cL 1aa1-a1-m2-cB_1aa1-a1-m2-cE 1aa1-a1-m2-cE_1aa1-a1-m2-cH 1aa1-a1-m2-cH_1aa1-a1-m2-cL 1aus-a1-m1-cL_1aus-a1-m1-cM 1aus-a1-m1-cL_1aus-a1-m1-cO 1aus-a1-m1-cM_1aus-a1-m1-cN 1aus-a1-m1-cN_1aus-a1-m1-cO 1aus-a1-m2-cL_1aus-a1-m2-cM 1aus-a1-m2-cL_1aus-a1-m2-cO 1aus-a1-m2-cM_1aus-a1-m2-cN 1aus-a1-m2-cN_1aus-a1-m2-cO 1ej7-a1-m1-cL_1ej7-a1-m3-cL 1ej7-a1-m1-cL_1ej7-a1-m4-cL 1ej7-a1-m2-cL_1ej7-a1-m3-cL 1ej7-a1-m2-cL_1ej7-a1-m4-cL 1ej7-a1-m5-cL_1ej7-a1-m7-cL 1ej7-a1-m5-cL_1ej7-a1-m8-cL 1ej7-a1-m6-cL_1ej7-a1-m7-cL 1ej7-a1-m6-cL_1ej7-a1-m8-cL 1ir1-a1-m1-cA_1ir1-a1-m1-cB 1ir1-a1-m1-cA_1ir1-a1-m1-cD 1ir1-a1-m1-cB_1ir1-a1-m1-cC 1ir1-a1-m1-cC_1ir1-a1-m1-cD 1ir1-a1-m2-cA_1ir1-a1-m2-cB 1ir1-a1-m2-cA_1ir1-a1-m2-cD 1ir1-a1-m2-cB_1ir1-a1-m2-cC 1ir1-a1-m2-cC_1ir1-a1-m2-cD 1rbo-a1-m1-cB_1rbo-a1-m1-cE 1rbo-a1-m1-cB_1rbo-a1-m1-cL 1rbo-a1-m1-cE_1rbo-a1-m1-cH 1rbo-a1-m1-cH_1rbo-a1-m1-cL 1rbo-a1-m2-cB_1rbo-a1-m2-cE 1rbo-a1-m2-cB_1rbo-a1-m2-cL 1rbo-a1-m2-cE_1rbo-a1-m2-cH 1rbo-a1-m2-cH_1rbo-a1-m2-cL 1rco-a1-m1-cB_1rco-a1-m1-cH 1rco-a1-m1-cB_1rco-a1-m1-cV 1rco-a1-m1-cE_1rco-a1-m1-cK 1rco-a1-m1-cE_1rco-a1-m1-cL 1rco-a1-m1-cH_1rco-a1-m1-cO 1rco-a1-m1-cK_1rco-a1-m1-cR 1rco-a1-m1-cL_1rco-a1-m1-cR 1rco-a1-m1-cO_1rco-a1-m1-cV 1rcx-a1-m1-cB_1rcx-a1-m1-cH 1rcx-a1-m1-cB_1rcx-a1-m1-cV 1rcx-a1-m1-cE_1rcx-a1-m1-cK 1rcx-a1-m1-cE_1rcx-a1-m1-cL 1rcx-a1-m1-cH_1rcx-a1-m1-cO 1rcx-a1-m1-cK_1rcx-a1-m1-cR 1rcx-a1-m1-cL_1rcx-a1-m1-cR 1rcx-a1-m1-cO_1rcx-a1-m1-cV 1rlc-a1-m1-cL_1rlc-a1-m3-cL 1rlc-a1-m1-cL_1rlc-a1-m4-cL 1rlc-a1-m2-cL_1rlc-a1-m3-cL 1rlc-a1-m2-cL_1rlc-a1-m4-cL 1rlc-a1-m5-cL_1rlc-a1-m7-cL 1rlc-a1-m5-cL_1rlc-a1-m8-cL 1rlc-a1-m6-cL_1rlc-a1-m7-cL 1rlc-a1-m6-cL_1rlc-a1-m8-cL 1rld-a1-m1-cA_1rld-a1-m3-cA 1rld-a1-m1-cA_1rld-a1-m4-cA 1rld-a1-m1-cB_1rld-a1-m3-cB 1rld-a1-m1-cB_1rld-a1-m4-cB 1rld-a1-m2-cA_1rld-a1-m3-cA 1rld-a1-m2-cA_1rld-a1-m4-cA 1rld-a1-m2-cB_1rld-a1-m3-cB 1rld-a1-m2-cB_1rld-a1-m4-cB 1rxo-a1-m1-cB_1rxo-a1-m1-cE 1rxo-a1-m1-cB_1rxo-a1-m1-cL 1rxo-a1-m1-cE_1rxo-a1-m1-cH 1rxo-a1-m1-cH_1rxo-a1-m1-cL 1rxo-a1-m2-cB_1rxo-a1-m2-cE 1rxo-a1-m2-cB_1rxo-a1-m2-cL 1rxo-a1-m2-cE_1rxo-a1-m2-cH 1rxo-a1-m2-cH_1rxo-a1-m2-cL 1upm-a1-m1-cB_1upm-a1-m1-cH 1upm-a1-m1-cB_1upm-a1-m1-cV 1upm-a1-m1-cE_1upm-a1-m1-cK 1upm-a1-m1-cE_1upm-a1-m1-cL 1upm-a1-m1-cH_1upm-a1-m1-cO 1upm-a1-m1-cK_1upm-a1-m1-cR 1upm-a1-m1-cL_1upm-a1-m1-cR 1upm-a1-m1-cO_1upm-a1-m1-cV 1upp-a1-m1-cA_1upp-a1-m1-cC 1upp-a1-m1-cA_1upp-a1-m1-cG 1upp-a1-m1-cC_1upp-a1-m1-cE 1upp-a1-m1-cE_1upp-a1-m1-cG 1upp-a1-m2-cA_1upp-a1-m2-cC 1upp-a1-m2-cA_1upp-a1-m2-cG 1upp-a1-m2-cC_1upp-a1-m2-cE 1upp-a1-m2-cE_1upp-a1-m2-cG 1wdd-a1-m1-cA_1wdd-a1-m3-cA 1wdd-a1-m1-cA_1wdd-a1-m4-cA 1wdd-a1-m1-cE_1wdd-a1-m3-cE 1wdd-a1-m1-cE_1wdd-a1-m4-cE 1wdd-a1-m2-cA_1wdd-a1-m3-cA 1wdd-a1-m2-cA_1wdd-a1-m4-cA 1wdd-a1-m2-cE_1wdd-a1-m3-cE 1wdd-a1-m2-cE_1wdd-a1-m4-cE 3axk-a1-m1-cA_3axk-a1-m3-cA 3axk-a1-m1-cA_3axk-a1-m4-cA 3axk-a1-m1-cB_3axk-a1-m3-cB 3axk-a1-m1-cB_3axk-a1-m4-cB 3axk-a1-m2-cA_3axk-a1-m3-cA 3axk-a1-m2-cA_3axk-a1-m4-cA 3axk-a1-m2-cB_3axk-a1-m3-cB 3axk-a1-m2-cB_3axk-a1-m4-cB 3axm-a1-m1-cB_3axm-a1-m1-cD 3axm-a1-m1-cB_3axm-a1-m1-cH 3axm-a1-m1-cC_3axm-a1-m1-cA 3axm-a1-m1-cD_3axm-a1-m1-cF 3axm-a1-m1-cE_3axm-a1-m1-cC 3axm-a1-m1-cE_3axm-a1-m1-cG 3axm-a1-m1-cF_3axm-a1-m1-cH 3axm-a1-m1-cG_3axm-a1-m1-cA 3rub-a1-m1-cL_3rub-a1-m3-cL 3rub-a1-m1-cL_3rub-a1-m4-cL 3rub-a1-m2-cL_3rub-a1-m3-cL 3rub-a1-m2-cL_3rub-a1-m4-cL 3rub-a1-m5-cL_3rub-a1-m7-cL 3rub-a1-m5-cL_3rub-a1-m8-cL 3rub-a1-m6-cL_3rub-a1-m7-cL 3rub-a1-m6-cL_3rub-a1-m8-cL 4hhh-a1-m1-cA_4hhh-a1-m1-cB 4hhh-a1-m1-cA_4hhh-a1-m1-cD 4hhh-a1-m1-cB_4hhh-a1-m1-cC 4hhh-a1-m1-cC_4hhh-a1-m1-cD 4hhh-a1-m2-cA_4hhh-a1-m2-cB 4hhh-a1-m2-cA_4hhh-a1-m2-cD 4hhh-a1-m2-cB_4hhh-a1-m2-cC 4hhh-a1-m2-cC_4hhh-a1-m2-cD 4mkv-a1-m1-cA_4mkv-a1-m1-cB 4mkv-a1-m1-cA_4mkv-a1-m1-cD 4mkv-a1-m1-cB_4mkv-a1-m1-cC 4mkv-a1-m1-cC_4mkv-a1-m1-cD 4mkv-a1-m2-cA_4mkv-a1-m2-cB 4mkv-a1-m2-cA_4mkv-a1-m2-cD 4mkv-a1-m2-cB_4mkv-a1-m2-cC 4mkv-a1-m2-cC_4mkv-a1-m2-cD 4rub-a1-m1-cA_4rub-a1-m1-cB 4rub-a1-m1-cA_4rub-a1-m2-cB 4rub-a1-m1-cB_4rub-a1-m2-cA 4rub-a1-m1-cC_4rub-a1-m1-cD 4rub-a1-m1-cC_4rub-a1-m2-cD 4rub-a1-m1-cD_4rub-a1-m2-cC 4rub-a1-m2-cA_4rub-a1-m2-cB 4rub-a1-m2-cC_4rub-a1-m2-cD 5wsk-a1-m1-cA_5wsk-a1-m4-cA 5wsk-a1-m1-cA_5wsk-a1-m6-cA 5wsk-a1-m1-cB_5wsk-a1-m4-cB 5wsk-a1-m1-cB_5wsk-a1-m6-cB 5wsk-a1-m2-cA_5wsk-a1-m4-cA 5wsk-a1-m2-cA_5wsk-a1-m6-cA 5wsk-a1-m2-cB_5wsk-a1-m4-cB 5wsk-a1-m2-cB_5wsk-a1-m6-cB 5wsk-a2-m1-cC_5wsk-a2-m5-cC 5wsk-a2-m1-cC_5wsk-a2-m7-cC 5wsk-a2-m1-cD_5wsk-a2-m5-cD 5wsk-a2-m1-cD_5wsk-a2-m7-cD 5wsk-a2-m3-cC_5wsk-a2-m5-cC 5wsk-a2-m3-cC_5wsk-a2-m7-cC 5wsk-a2-m3-cD_5wsk-a2-m5-cD 5wsk-a2-m3-cD_5wsk-a2-m7-cD 6kyi-a1-m1-cA_6kyi-a1-m3-cA 6kyi-a1-m1-cA_6kyi-a1-m4-cA 6kyi-a1-m1-cB_6kyi-a1-m3-cB 6kyi-a1-m1-cB_6kyi-a1-m4-cB 6kyi-a1-m2-cA_6kyi-a1-m3-cA 6kyi-a1-m2-cA_6kyi-a1-m4-cA 6kyi-a1-m2-cB_6kyi-a1-m3-cB 6kyi-a1-m2-cB_6kyi-a1-m4-cB 8ruc-a1-m1-cA_8ruc-a1-m1-cC 8ruc-a1-m1-cA_8ruc-a1-m1-cG 8ruc-a1-m1-cC_8ruc-a1-m1-cE 8ruc-a1-m1-cE_8ruc-a1-m1-cG 8ruc-a1-m2-cA_8ruc-a1-m2-cC 8ruc-a1-m2-cA_8ruc-a1-m2-cG 8ruc-a1-m2-cC_8ruc-a1-m2-cE 8ruc-a1-m2-cE_8ruc-a1-m2-cG KLTYYTPEYETLDTDILAAFRVSPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTNLDRYKGRCYHIEPVAGEENQYICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFCAEALYKAQAETGEIKGHYLNATAGTCEDMMKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVERDITLGFVDLLRDDYTEKDRSRGIYFTQSWVSTPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNTIIREATKWSPELAAACEVWK KLTYYTPEYETLDTDILAAFRVSPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTNLDRYKGRCYHIEPVAGEENQYICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFCAEALYKAQAETGEIKGHYLNATAGTCEDMMKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVERDITLGFVDLLRDDYTEKDRSRGIYFTQSWVSTPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNTIIREATKWSPELAAACEVWK 1aap-a1-m1-cA_1aap-a1-m1-cB X-RAY CRYSTAL STRUCTURE OF THE PROTEASE INHIBITOR DOMAIN OF ALZHEIMER'S AMYLOID BETA-PROTEIN PRECURSOR P05067 P05067 1.5 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 56 1taw-a1-m1-cB_1taw-a1-m2-cB VREVCSEQAETGPCRAMISRWYFDVTEGKCAPFFYGGCGGNRNNFDTEEYCMAVCG VREVCSEQAETGPCRAMISRWYFDVTEGKCAPFFYGGCGGNRNNFDTEEYCMAVCG 1ab0-a1-m1-cA_1ab0-a1-m2-cA C1G/V32D/F57H MUTANT OF MURINE ADIPOCYTE LIPID BINDING PROTEIN AT PH 4.5 P04117 P04117 1.9 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 GDAFVGTWKLVSSENFDDYMKEVGVGFATRKDAGMAKPNMIISVNGDLVTIRSESTHKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA GDAFVGTWKLVSSENFDDYMKEVGVGFATRKDAGMAKPNMIISVNGDLVTIRSESTHKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA 1ab8-a2-m1-cA_1ab8-a2-m2-cA RAT TYPE II ADENYLYL CYCLASE C2 DOMAIN/FORSKOLIN COMPLEX P26769 P26769 2.2 X-RAY DIFFRACTION 42 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 177 177 LYHQSYDCVCVMFASIPDFKEFYTESDVNKEGLECLRLLNEIIADFDDLLSKPKFSGVEKIKTIGSTYMAATGLSAIPSQQYMHIGTMVEFAYALVGKLDAINKHSFNDFKLRVGINHGPVIAGVIGAQKPQYDIWGNTVNVASRMDSTGVLDKIQVTEETSLILQTLGYTCTCFVN LYHQSYDCVCVMFASIPDFKEFYTESDVNKEGLECLRLLNEIIADFDDLLSKPKFSGVEKIKTIGSTYMAATGLSAIPSQQYMHIGTMVEFAYALVGKLDAINKHSFNDFKLRVGINHGPVIAGVIGAQKPQYDIWGNTVNVASRMDSTGVLDKIQVTEETSLILQTLGYTCTCFVN 1ab9-a3-m1-cD_1ab9-a3-m2-cD CRYSTAL STRUCTURE OF BOVINE GAMMA-CHYMOTRYPSIN 1.6 X-RAY DIFFRACTION 10 1.0 5 5 1ab9-a2-m1-cD_1ab9-a2-m2-cD TPGVY TPGVY 1abb-a1-m1-cA_1abb-a1-m1-cD CONTROL OF PHOSPHORYLASE B CONFORMATION BY A MODIFIED COFACTOR: CRYSTALLOGRAPHIC STUDIES ON R-STATE GLYCOGEN PHOSPHORYLASE RECONSTITUTED WITH PYRIDOXAL 5'-DIPHOSPHATE P00489 P00489 2.8 X-RAY DIFFRACTION 37 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 823 823 1abb-a1-m1-cB_1abb-a1-m1-cC 1gpa-a1-m1-cA_1gpa-a1-m1-cD 1gpa-a1-m1-cB_1gpa-a1-m1-cC 1noi-a3-m1-cA_1noi-a3-m1-cD 1noi-a3-m1-cB_1noi-a3-m1-cC 1pyg-a1-m1-cA_1pyg-a1-m1-cD 1pyg-a1-m1-cB_1pyg-a1-m1-cC 3e3n-a5-m1-cA_3e3n-a5-m1-cD 3e3n-a5-m1-cC_3e3n-a5-m1-cB 3e3n-a6-m1-cE_3e3n-a6-m1-cH 3e3n-a6-m1-cF_3e3n-a6-m1-cG 7gpb-a1-m1-cA_7gpb-a1-m1-cD 7gpb-a1-m1-cB_7gpb-a1-m1-cC 9gpb-a1-m1-cA_9gpb-a1-m1-cD 9gpb-a1-m1-cB_9gpb-a1-m1-cC RKQISVRGLAGVENVTELKKNFNRHLHFTLVKDRNVATPRDYYFALAHTVRDHLVGRWIRTQQHYYEKDPKRIYYLSLEFYMGRTLQNTMVNLALENACDEATYQLGLDMEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKICGGWQMEEADDWLRYGNPWEKARPEFTLPVHFYGRVEHTSQGAKWVDTQVVLAMPYDTPVPGYRNNVVNTMRLWSAKAPNDFNLKDFNVGGYIQAVLDRNLAENISRVLYPEGKELRLKQEYFVVAATLQDIIRRFKSSKFGCRDPVRTNFDAFPDKVAIQLNDTHPSLAIPELMRVLVDLERLDWDKAWEVTVKTCAYTNHTVIPEALERWPVHLLETLLPRHLQIIYEINQRFLNRVAAAFPGDVDRLRRMSLVEEGAVKRINMAHLCIAGSHAVNGVARIHSEILKKTIFKDFYELEPHKFQNKTNGITPRRWLVLCNPGLAEIIAERIGEEYISDLDQLRKLLSYVDDEAFIRDVAKVKQENKLKFAAYLEREYKVHINPNSLFDVQVKRIHEYKRQLLNCLHVITLYNRIKKEPNKFVVPRTVMIGGKAAPGYHMAKMIIKLITAIGDVVNHDPVVGDRLRVIFLENYRVSLAEKVIPAADLSEQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGEENFFIFGMRVEDVDRLDQRGYNAQEYYDRIPELRQIIEQLSSGFFSPKQPDLFKDIVNMLMHHDRFKVFADYEEYVKCQERVSALYKNPREWTRMVIRNIATSGKFSSDRTIAQYAREIWGVEPSRQRLPAP RKQISVRGLAGVENVTELKKNFNRHLHFTLVKDRNVATPRDYYFALAHTVRDHLVGRWIRTQQHYYEKDPKRIYYLSLEFYMGRTLQNTMVNLALENACDEATYQLGLDMEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKICGGWQMEEADDWLRYGNPWEKARPEFTLPVHFYGRVEHTSQGAKWVDTQVVLAMPYDTPVPGYRNNVVNTMRLWSAKAPNDFNLKDFNVGGYIQAVLDRNLAENISRVLYPEGKELRLKQEYFVVAATLQDIIRRFKSSKFGCRDPVRTNFDAFPDKVAIQLNDTHPSLAIPELMRVLVDLERLDWDKAWEVTVKTCAYTNHTVIPEALERWPVHLLETLLPRHLQIIYEINQRFLNRVAAAFPGDVDRLRRMSLVEEGAVKRINMAHLCIAGSHAVNGVARIHSEILKKTIFKDFYELEPHKFQNKTNGITPRRWLVLCNPGLAEIIAERIGEEYISDLDQLRKLLSYVDDEAFIRDVAKVKQENKLKFAAYLEREYKVHINPNSLFDVQVKRIHEYKRQLLNCLHVITLYNRIKKEPNKFVVPRTVMIGGKAAPGYHMAKMIIKLITAIGDVVNHDPVVGDRLRVIFLENYRVSLAEKVIPAADLSEQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGEENFFIFGMRVEDVDRLDQRGYNAQEYYDRIPELRQIIEQLSSGFFSPKQPDLFKDIVNMLMHHDRFKVFADYEEYVKCQERVSALYKNPREWTRMVIRNIATSGKFSSDRTIAQYAREIWGVEPSRQRLPAP 1abb-a1-m1-cB_1abb-a1-m1-cD CONTROL OF PHOSPHORYLASE B CONFORMATION BY A MODIFIED COFACTOR: CRYSTALLOGRAPHIC STUDIES ON R-STATE GLYCOGEN PHOSPHORYLASE RECONSTITUTED WITH PYRIDOXAL 5'-DIPHOSPHATE P00489 P00489 2.8 X-RAY DIFFRACTION 10 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 823 823 1abb-a1-m1-cA_1abb-a1-m1-cC 1gpa-a1-m1-cA_1gpa-a1-m1-cC 1gpa-a1-m1-cB_1gpa-a1-m1-cD 1noi-a3-m1-cA_1noi-a3-m1-cC 1noi-a3-m1-cB_1noi-a3-m1-cD 3e3n-a5-m1-cC_3e3n-a5-m1-cA 3e3n-a6-m1-cE_3e3n-a6-m1-cG 7gpb-a1-m1-cA_7gpb-a1-m1-cC 7gpb-a1-m1-cB_7gpb-a1-m1-cD 9gpb-a1-m1-cA_9gpb-a1-m1-cC 9gpb-a1-m1-cB_9gpb-a1-m1-cD RKQISVRGLAGVENVTELKKNFNRHLHFTLVKDRNVATPRDYYFALAHTVRDHLVGRWIRTQQHYYEKDPKRIYYLSLEFYMGRTLQNTMVNLALENACDEATYQLGLDMEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKICGGWQMEEADDWLRYGNPWEKARPEFTLPVHFYGRVEHTSQGAKWVDTQVVLAMPYDTPVPGYRNNVVNTMRLWSAKAPNDFNLKDFNVGGYIQAVLDRNLAENISRVLYPEGKELRLKQEYFVVAATLQDIIRRFKSSKFGCRDPVRTNFDAFPDKVAIQLNDTHPSLAIPELMRVLVDLERLDWDKAWEVTVKTCAYTNHTVIPEALERWPVHLLETLLPRHLQIIYEINQRFLNRVAAAFPGDVDRLRRMSLVEEGAVKRINMAHLCIAGSHAVNGVARIHSEILKKTIFKDFYELEPHKFQNKTNGITPRRWLVLCNPGLAEIIAERIGEEYISDLDQLRKLLSYVDDEAFIRDVAKVKQENKLKFAAYLEREYKVHINPNSLFDVQVKRIHEYKRQLLNCLHVITLYNRIKKEPNKFVVPRTVMIGGKAAPGYHMAKMIIKLITAIGDVVNHDPVVGDRLRVIFLENYRVSLAEKVIPAADLSEQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGEENFFIFGMRVEDVDRLDQRGYNAQEYYDRIPELRQIIEQLSSGFFSPKQPDLFKDIVNMLMHHDRFKVFADYEEYVKCQERVSALYKNPREWTRMVIRNIATSGKFSSDRTIAQYAREIWGVEPSRQRLPAP RKQISVRGLAGVENVTELKKNFNRHLHFTLVKDRNVATPRDYYFALAHTVRDHLVGRWIRTQQHYYEKDPKRIYYLSLEFYMGRTLQNTMVNLALENACDEATYQLGLDMEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKICGGWQMEEADDWLRYGNPWEKARPEFTLPVHFYGRVEHTSQGAKWVDTQVVLAMPYDTPVPGYRNNVVNTMRLWSAKAPNDFNLKDFNVGGYIQAVLDRNLAENISRVLYPEGKELRLKQEYFVVAATLQDIIRRFKSSKFGCRDPVRTNFDAFPDKVAIQLNDTHPSLAIPELMRVLVDLERLDWDKAWEVTVKTCAYTNHTVIPEALERWPVHLLETLLPRHLQIIYEINQRFLNRVAAAFPGDVDRLRRMSLVEEGAVKRINMAHLCIAGSHAVNGVARIHSEILKKTIFKDFYELEPHKFQNKTNGITPRRWLVLCNPGLAEIIAERIGEEYISDLDQLRKLLSYVDDEAFIRDVAKVKQENKLKFAAYLEREYKVHINPNSLFDVQVKRIHEYKRQLLNCLHVITLYNRIKKEPNKFVVPRTVMIGGKAAPGYHMAKMIIKLITAIGDVVNHDPVVGDRLRVIFLENYRVSLAEKVIPAADLSEQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGEENFFIFGMRVEDVDRLDQRGYNAQEYYDRIPELRQIIEQLSSGFFSPKQPDLFKDIVNMLMHHDRFKVFADYEEYVKCQERVSALYKNPREWTRMVIRNIATSGKFSSDRTIAQYAREIWGVEPSRQRLPAP 1abq-a1-m1-cA_1abq-a1-m2-cA CRYSTAL STRUCTURE OF THE UNLIGANDED ABL TYROSINE KINASE SH3 DOMAIN P00520 P00520 2.8 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 56 56 LFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVN LFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVN 1ac6-a1-m1-cA_1ac6-a1-m1-cB CRYSTAL STRUCTURE OF A VARIABLE DOMAIN MUTANT OF A T-CELL RECEPTOR ALPHA CHAIN Q5R1F5 Q5R1F5 2.3 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 110 110 DSVTQTEGQVALSEEDFLTIHCNYSASGYPALFWYVQYPGEGPQFLFRASRDKEKGSSRGFEATYNKEATSFHLQKASVQESDSAVYYCALSGGNNKLTFGAGTKLTIKP DSVTQTEGQVALSEEDFLTIHCNYSASGYPALFWYVQYPGEGPQFLFRASRDKEKGSSRGFEATYNKEATSFHLQKASVQESDSAVYYCALSGGNNKLTFGAGTKLTIKP 1ad3-a1-m1-cA_1ad3-a1-m1-cB CLASS 3 ALDEHYDE DEHYDROGENASE COMPLEX WITH NICOTINAMIDE-ADENINE-DINUCLEOTIDE P11883 P11883 2.6 X-RAY DIFFRACTION 263 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 446 446 SISDTVKRAREAFNSGKTRSLQFRIQQLEALQRMINENLKSISGALASDLGKNEWTSYYEEVAHVLEELDTTIKELPDWAEDEPVAKTRQTQQDDLYIHSEPLGVVLVIGAWNYPFNLTIQPMVGAVAAGNAVILKPSEVSGHMADLLATLIPQYMDQNLYLVVKGGVPETTELLKERFDHIMYTGSTAVGKIVMAAAAKHLTPVTLELGGKSPCYVDKDCDLDVACRRIAWGKFMNSGQTCVAPDYILCDPSIQNQIVEKLKKSLKDFYGEDAKQSRDYGRIINDRHFQRVKGLIDNQKVAHGGTWDQSSRYIAPTILVDVDPQSPVMQEEIFGPVMPIVCVRSLEEAIQFINQREKPLALYVFSNNEKVIKKMIAETSSGGVTANDVIVHITVPTLPFGGVGNSGMGAYHGKKSFETFSHRRSCLVKSLLNEEAHKARYPPSPA SISDTVKRAREAFNSGKTRSLQFRIQQLEALQRMINENLKSISGALASDLGKNEWTSYYEEVAHVLEELDTTIKELPDWAEDEPVAKTRQTQQDDLYIHSEPLGVVLVIGAWNYPFNLTIQPMVGAVAAGNAVILKPSEVSGHMADLLATLIPQYMDQNLYLVVKGGVPETTELLKERFDHIMYTGSTAVGKIVMAAAAKHLTPVTLELGGKSPCYVDKDCDLDVACRRIAWGKFMNSGQTCVAPDYILCDPSIQNQIVEKLKKSLKDFYGEDAKQSRDYGRIINDRHFQRVKGLIDNQKVAHGGTWDQSSRYIAPTILVDVDPQSPVMQEEIFGPVMPIVCVRSLEEAIQFINQREKPLALYVFSNNEKVIKKMIAETSSGGVTANDVIVHITVPTLPFGGVGNSGMGAYHGKKSFETFSHRRSCLVKSLLNEEAHKARYPPSPA 1adj-a3-m1-cB_1adj-a3-m2-cD HISTIDYL-TRNA SYNTHETASE IN COMPLEX WITH HISTIDINE P56194 P56194 2.7 X-RAY DIFFRACTION 38 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 420 420 1adj-a3-m1-cA_1adj-a3-m2-cC TARAVRGTKDLFGKELRMHQRIVATARKVLEAAGALELVTPIFEETQVFEKGVGAATDIVRKEMFTFQDRGGRSLTLRPEGTAAMVRAYLEHGMKVWPQPVRLWMAGPMFRAERPQKGRYRQFHQVNYEALGSENPILDAEAVVLLYECLKELGLRRLKVKLSSVGDPEDRARYNAYLREVLSPHREALSEDSKERLEENPMRILDSKSERDQALLKELGVRPMLDFLGEEARAHLKEVERHLERLSVPYELEPALVRGLDYYVRTAFEVHHEEIGAQSALGGGGRYDGLSELLGGPRVPGVGFAFGVERVALALEAEGFGLPEEKGPDLYLIPLTEEAVAEAFYLAEALRPRLRAEYALAPRKPAKGLEEALKRGAAFAGFLGEDELRAGEVTLKRLATGEQVRLSREEVPGYLLQALG TARAVRGTKDLFGKELRMHQRIVATARKVLEAAGALELVTPIFEETQVFEKGVGAATDIVRKEMFTFQDRGGRSLTLRPEGTAAMVRAYLEHGMKVWPQPVRLWMAGPMFRAERPQKGRYRQFHQVNYEALGSENPILDAEAVVLLYECLKELGLRRLKVKLSSVGDPEDRARYNAYLREVLSPHREALSEDSKERLEENPMRILDSKSERDQALLKELGVRPMLDFLGEEARAHLKEVERHLERLSVPYELEPALVRGLDYYVRTAFEVHHEEIGAQSALGGGGRYDGLSELLGGPRVPGVGFAFGVERVALALEAEGFGLPEEKGPDLYLIPLTEEAVAEAFYLAEALRPRLRAEYALAPRKPAKGLEEALKRGAAFAGFLGEDELRAGEVTLKRLATGEQVRLSREEVPGYLLQALG 1ady-a2-m1-cC_1ady-a2-m1-cD HISTIDYL-TRNA SYNTHETASE IN COMPLEX WITH HISTIDYL-ADENYLATE P56194 P56194 2.8 X-RAY DIFFRACTION 205 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 420 420 1adj-a1-m1-cA_1adj-a1-m1-cB 1adj-a2-m1-cC_1adj-a2-m1-cD 1adj-a3-m1-cA_1adj-a3-m1-cB 1adj-a3-m2-cC_1adj-a3-m2-cD 1ady-a1-m1-cA_1ady-a1-m1-cB 1h4v-a1-m1-cB_1h4v-a1-m2-cB 4rdx-a1-m1-cA_4rdx-a1-m2-cA TARAVRGTKDLFGKELRMHQRIVATARKVLEAAGALELVTPIFEETQVFEKGVGAATDIVRKEMFTFQDRGGRSLTLRPEGTAAMVRAYLEHGMKVWPQPVRLWMAGPMFRAERPQKGRYRQFHQVNYEALGSENPILDAEAVVLLYECLKELGLRRLKVKLSSVGDPEDRARYNAYLREVLSPHREALSEDSKERLEENPMRILDSKSERDQALLKELGVRPMLDFLGEEARAHLKEVERHLERLSVPYELEPALVRGLDYYVRTAFEVHHEEIGAQSALGGGGRYDGLSELLGGPRVPGVGFAFGVERVALALEAEGFGLPEEKGPDLYLIPLTEEAVAEAFYLAEALRPRLRAEYALAPRKPAKGLEEALKRGAAFAGFLGEDELRAGEVTLKRLATGEQVRLSREEVPGYLLQALG TARAVRGTKDLFGKELRMHQRIVATARKVLEAAGALELVTPIFEETQVFEKGVGAATDIVRKEMFTFQDRGGRSLTLRPEGTAAMVRAYLEHGMKVWPQPVRLWMAGPMFRAERPQKGRYRQFHQVNYEALGSENPILDAEAVVLLYECLKELGLRRLKVKLSSVGDPEDRARYNAYLREVLSPHREALSEDSKERLEENPMRILDSKSERDQALLKELGVRPMLDFLGEEARAHLKEVERHLERLSVPYELEPALVRGLDYYVRTAFEVHHEEIGAQSALGGGGRYDGLSELLGGPRVPGVGFAFGVERVALALEAEGFGLPEEKGPDLYLIPLTEEAVAEAFYLAEALRPRLRAEYALAPRKPAKGLEEALKRGAAFAGFLGEDELRAGEVTLKRLATGEQVRLSREEVPGYLLQALG 1ae1-a2-m1-cA_1ae1-a2-m2-cB TROPINONE REDUCTASE-I COMPLEX WITH NADP P50162 P50162 2.4 X-RAY DIFFRACTION 43 1.0 4076 (Datura stramonium) 4076 (Datura stramonium) 245 258 1ae1-a2-m2-cA_1ae1-a2-m1-cB RWSLKGTTALVTGGSKGIGYAIVEELAGLGARVYTCSRNEKELDECLEIWREKGLNVEGSVCDLLSRTERDKLMQTVAHVFDGKLNILVNNAGVVIHKEAKDFTEKDYNIIMGTNFEAAYHLSQIAYPLLKASQNGNVIFLSSIAGFSALPSVSLYSASKGAINQMTKSLACEWAKDNIRVNSVAPGVILQKEEIDNFIVKTPMGRAGKPQEVSALIAFLCFPAASYITGQIIWADGGFTANGGF RWSLKGTTALVTGGSKGIGYAIVEELAGLGARVYTCSRNEKELDECLEIWREKGLNVEGSVCDLLSRTERDKLMQTVAHVFDGKLNILVNNAGVVIHKEAKDFTEKDYNIIMGTNFEAAYHLSQIAYPLLKASQNGNVIFLSSIAGFSALPSVSLYSASKGAINQMTKSLACEWAKDNIRVNSVAPGVILTPLVETAIKKNPHQKEEIDNFIVKTPMGRAGKPQEVSALIAFLCFPAASYITGQIIWADGGFTANGGF 1ae1-a2-m1-cB_1ae1-a2-m2-cB TROPINONE REDUCTASE-I COMPLEX WITH NADP P50162 P50162 2.4 X-RAY DIFFRACTION 113 1.0 4076 (Datura stramonium) 4076 (Datura stramonium) 258 258 1ae1-a2-m1-cA_1ae1-a2-m2-cA RWSLKGTTALVTGGSKGIGYAIVEELAGLGARVYTCSRNEKELDECLEIWREKGLNVEGSVCDLLSRTERDKLMQTVAHVFDGKLNILVNNAGVVIHKEAKDFTEKDYNIIMGTNFEAAYHLSQIAYPLLKASQNGNVIFLSSIAGFSALPSVSLYSASKGAINQMTKSLACEWAKDNIRVNSVAPGVILTPLVETAIKKNPHQKEEIDNFIVKTPMGRAGKPQEVSALIAFLCFPAASYITGQIIWADGGFTANGGF RWSLKGTTALVTGGSKGIGYAIVEELAGLGARVYTCSRNEKELDECLEIWREKGLNVEGSVCDLLSRTERDKLMQTVAHVFDGKLNILVNNAGVVIHKEAKDFTEKDYNIIMGTNFEAAYHLSQIAYPLLKASQNGNVIFLSSIAGFSALPSVSLYSASKGAINQMTKSLACEWAKDNIRVNSVAPGVILTPLVETAIKKNPHQKEEIDNFIVKTPMGRAGKPQEVSALIAFLCFPAASYITGQIIWADGGFTANGGF 1ae1-a2-m2-cA_1ae1-a2-m2-cB TROPINONE REDUCTASE-I COMPLEX WITH NADP P50162 P50162 2.4 X-RAY DIFFRACTION 103 1.0 4076 (Datura stramonium) 4076 (Datura stramonium) 245 258 1ae1-a1-m1-cA_1ae1-a1-m1-cB 1ae1-a2-m1-cA_1ae1-a2-m1-cB RWSLKGTTALVTGGSKGIGYAIVEELAGLGARVYTCSRNEKELDECLEIWREKGLNVEGSVCDLLSRTERDKLMQTVAHVFDGKLNILVNNAGVVIHKEAKDFTEKDYNIIMGTNFEAAYHLSQIAYPLLKASQNGNVIFLSSIAGFSALPSVSLYSASKGAINQMTKSLACEWAKDNIRVNSVAPGVILQKEEIDNFIVKTPMGRAGKPQEVSALIAFLCFPAASYITGQIIWADGGFTANGGF RWSLKGTTALVTGGSKGIGYAIVEELAGLGARVYTCSRNEKELDECLEIWREKGLNVEGSVCDLLSRTERDKLMQTVAHVFDGKLNILVNNAGVVIHKEAKDFTEKDYNIIMGTNFEAAYHLSQIAYPLLKASQNGNVIFLSSIAGFSALPSVSLYSASKGAINQMTKSLACEWAKDNIRVNSVAPGVILTPLVETAIKKNPHQKEEIDNFIVKTPMGRAGKPQEVSALIAFLCFPAASYITGQIIWADGGFTANGGF 1ae7-a2-m1-cA_1ae7-a2-m2-cA NOTEXIN, A PRESYNAPTIC NEUROTOXIC PHOSPHOLIPASE A2 P00608 P00608 2 X-RAY DIFFRACTION 53 1.0 70142 (Notechis scutatus scutatus) 70142 (Notechis scutatus scutatus) 119 119 NLVQFSYLIQCANHGKRPTWHYMDYGCYCGAGGSGTPVDELDRCCKIHDDCYDEAGKKGCFPKMSAYDYYCGENGPYCRNIKKKCLRFVCDCDVEAAFCFAKAPYNNANWNIDTKKRCQ NLVQFSYLIQCANHGKRPTWHYMDYGCYCGAGGSGTPVDELDRCCKIHDDCYDEAGKKGCFPKMSAYDYYCGENGPYCRNIKKKCLRFVCDCDVEAAFCFAKAPYNNANWNIDTKKRCQ 1aer-a1-m1-cA_1aer-a1-m2-cA DOMAIN III OF PSEUDOMONAS AERUGINOSA EXOTOXIN COMPLEXED WITH BETA-TAD P11439 P11439 2.3 X-RAY DIFFRACTION 76 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 205 205 1dma-a1-m1-cA_1dma-a1-m2-cA AFLGDGGDVSFSTRGTQNWTVERLLQAHRQLEERGYVFVGYHGTFLEAAQSIVFGGVRAAIWRGFYIAGDPALAYGYAQDQEPDARGRIRNGALLRVYVPRSSLPGFYRTSLTLAAPEAAGEVERLIGHPLPLRLDAITGPEEEGGRLETILGWPLAERTVVIPSAIPTDPRNVGGDLDPSSIPDKEQAISALPDYASQPGKPPR AFLGDGGDVSFSTRGTQNWTVERLLQAHRQLEERGYVFVGYHGTFLEAAQSIVFGGVRAAIWRGFYIAGDPALAYGYAQDQEPDARGRIRNGALLRVYVPRSSLPGFYRTSLTLAAPEAAGEVERLIGHPLPLRLDAITGPEEEGGRLETILGWPLAERTVVIPSAIPTDPRNVGGDLDPSSIPDKEQAISALPDYASQPGKPPR 1afo-a1-m1-cA_1afo-a1-m1-cB DIMERIC TRANSMEMBRANE DOMAIN OF HUMAN GLYCOPHORIN A, NMR, 20 STRUCTURES P02724 P02724 NOT SOLUTION NMR 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 VQLAHHFSEPEITLIIFGVMAGVIGTILLISYGIRRLIKK VQLAHHFSEPEITLIIFGVMAGVIGTILLISYGIRRLIKK 1afs-a1-m1-cA_1afs-a1-m1-cB RECOMBINANT RAT LIVER 3-ALPHA-HYDROXYSTEROID DEHYDROGENASE (3-ALPHA-HSD) COMPLEXED WITH NADP AND TESTOSTERONE P23457 P23457 2.5 X-RAY DIFFRACTION 45 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 319 319 MDSISLRVALNDGNFIPVLGFGTTVPEKVAKDEVIKATKIAIDNGFRHFDSAYLYEVEEEVGQAIRSKIEDGTVKREDIFYTSKLWSTFHRPELVRTCLEKTLKSTQLDYVDLYIIHFPMALQPGDIFFPRDEHGKLLFETVDICDTWEAMEKCKDAGLAKSIGVSNFNCRQLERILNKPGLKYKPVCNQVECHLYLNQSKMLDYCKSKDIILVSYCTLGSSRDKTWVDQKSPVLLDDPVLCAIAKKYKQTPALVALRYQLQRGVVPLIRSFNAKRIKELTQVFEFQLASEDMKALDGLNRNFRYNNAKYFDDHPNHPF MDSISLRVALNDGNFIPVLGFGTTVPEKVAKDEVIKATKIAIDNGFRHFDSAYLYEVEEEVGQAIRSKIEDGTVKREDIFYTSKLWSTFHRPELVRTCLEKTLKSTQLDYVDLYIIHFPMALQPGDIFFPRDEHGKLLFETVDICDTWEAMEKCKDAGLAKSIGVSNFNCRQLERILNKPGLKYKPVCNQVECHLYLNQSKMLDYCKSKDIILVSYCTLGSSRDKTWVDQKSPVLLDDPVLCAIAKKYKQTPALVALRYQLQRGVVPLIRSFNAKRIKELTQVFEFQLASEDMKALDGLNRNFRYNNAKYFDDHPNHPF 1afw-a1-m1-cA_1afw-a1-m1-cB THE 1.8 ANGSTROM CRYSTAL STRUCTURE OF THE DIMERIC PEROXISOMAL THIOLASE OF SACCHAROMYCES CEREVISIAE P27796 P27796 1.8 X-RAY DIFFRACTION 240 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 390 393 KNSLLEKRPEDVVIVAANRSAIGKGFKGAFKDVNTDYLLYNFLNEFIGRFPEPLRADLNLIEEVACGNVLNVGAGATEHRAACLASGIPYSTPFVALNRQCSSGLTAVNDIANKIKVGQIDIGLALGVESMTNNYKNVNPLGMISSEELQKNREAKKCLIPMGITNENVAANFKISRKDQDEFAANSYQKAYKAKNEGLFEDEILPIKLPDGSICQSDEGPRPNVTAESLSSIRPAFIGTTTAGNASQVSDGVAGVLLARRSVANQLNLPVLGRYIDFQTVGVPPEIMGVGPAYAIPKVLEATGLQVQDIDIFEINEAFAAQALYCIHKLGIDLNKVNPRGGAIALGHPLGCTGARQVATILRELKKDQIGVVSMCIGTGMGAAAIFIKE KNSLLEKRPEDVVIVAANRSAIGKGFKGAFKDVNTDYLLYNFLNEFIGRFPEPLRADLNLIEEVACGNVLNVGAGATEHRAACLASGIPYSTPFVALNRQCSSGLTAVNDIANKIKVGQIDIGLALGVESMTNNYKNVNPLGMISSEELQKNREAKKCLIPMGITNENVAANFKISRKDQDEFAANSYQKAYKAKNEGLFEDEILPIKLPDGSICQSDEGPRPNVTAESLSSIRPAFIKDRGTTTAGNASQVSDGVAGVLLARRSVANQLNLPVLGRYIDFQTVGVPPEIMGVGPAYAIPKVLEATGLQVQDIDIFEINEAFAAQALYCIHKLGIDLNKVNPRGGAIALGHPLGCTGARQVATILRELKKDQIGVVSMCIGTGMGAAAIFIKE 1ag9-a1-m1-cA_1ag9-a1-m1-cB FLAVODOXINS THAT ARE REQUIRED FOR ENZYME ACTIVATION: THE STRUCTURE OF OXIDIZED FLAVODOXIN FROM ESCHERICHIA COLI AT 1.8 ANGSTROMS RESOLUTION. P61949 P61949 1.8 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 175 175 AITGIFFGSDTGNTENIAKMIQKQLGKDVADVHDIAKSSKEDLEAYDILLLGIPTWYYGEAQCDWDDFFPTLEEIDFNGKLVALFGCGDQEDYAEYFCDALGTIRDIIEPRGATIVGHWPTAGYHFEASKGLADDDHFVGLAIDEDRQPELTAERVEKWVKQISEELHLDEILNA AITGIFFGSDTGNTENIAKMIQKQLGKDVADVHDIAKSSKEDLEAYDILLLGIPTWYYGEAQCDWDDFFPTLEEIDFNGKLVALFGCGDQEDYAEYFCDALGTIRDIIEPRGATIVGHWPTAGYHFEASKGLADDDHFVGLAIDEDRQPELTAERVEKWVKQISEELHLDEILNA 1agq-a1-m1-cA_1agq-a1-m1-cB GLIAL CELL-DERIVED NEUROTROPHIC FACTOR FROM RAT Q07731 Q07731 1.9 X-RAY DIFFRACTION 96 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 91 96 NRGCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCEAAETMYDKILKNLSRSRVGQACCRPVAFDDDLSFLDDSLVYHILRKHSAKRCGCI KNRGCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCEAAETMYDKILKNLSRSRRLTSVGQACCRPVAFDDDLSFLDDSLVYHILRKHSAKRCGCI 1agx-a1-m1-cA_1agx-a1-m4-cA REFINED CRYSTAL STRUCTURE OF ACINETOBACTER GLUTAMINASIFICANS GLUTAMINASE-ASPARAGINASE P10172 P10172 2.9 X-RAY DIFFRACTION 45 1.0 474 (Acinetobacter glutaminasificans) 474 (Acinetobacter glutaminasificans) 331 331 1agx-a1-m2-cA_1agx-a1-m3-cA KNNVVIVATGGTIAGAGASSTNSATYSAAKVPVDALIKAVPQVNDLANITGIQALQVASESITDKELLSLARQVNDLVKKPSVNGVVITHGTDTMEETAFFLNLVVHTDKPIVLVGSMRPSTALSADGPLNLYSAVALASSNEAKNKGVMVLMNDSIFAARDVTKGINIHTHAFVSQWGALGTLVEGKPYWFRSSVKKHTNNSEFNIEKIQGDALPGVQIVYGSDNMMPDAYQAFAKAGVKAIIHAGTGNGSMANYLVPEVRKLHDEQGLQIVRSSRVAQGFVLRNAEQPDDKYGWIAAHDLNPQKARLLMALALTKTNDAKEIQNMFWNY KNNVVIVATGGTIAGAGASSTNSATYSAAKVPVDALIKAVPQVNDLANITGIQALQVASESITDKELLSLARQVNDLVKKPSVNGVVITHGTDTMEETAFFLNLVVHTDKPIVLVGSMRPSTALSADGPLNLYSAVALASSNEAKNKGVMVLMNDSIFAARDVTKGINIHTHAFVSQWGALGTLVEGKPYWFRSSVKKHTNNSEFNIEKIQGDALPGVQIVYGSDNMMPDAYQAFAKAGVKAIIHAGTGNGSMANYLVPEVRKLHDEQGLQIVRSSRVAQGFVLRNAEQPDDKYGWIAAHDLNPQKARLLMALALTKTNDAKEIQNMFWNY 1agx-a1-m2-cA_1agx-a1-m4-cA REFINED CRYSTAL STRUCTURE OF ACINETOBACTER GLUTAMINASIFICANS GLUTAMINASE-ASPARAGINASE P10172 P10172 2.9 X-RAY DIFFRACTION 186 1.0 474 (Acinetobacter glutaminasificans) 474 (Acinetobacter glutaminasificans) 331 331 1agx-a1-m1-cA_1agx-a1-m3-cA KNNVVIVATGGTIAGAGASSTNSATYSAAKVPVDALIKAVPQVNDLANITGIQALQVASESITDKELLSLARQVNDLVKKPSVNGVVITHGTDTMEETAFFLNLVVHTDKPIVLVGSMRPSTALSADGPLNLYSAVALASSNEAKNKGVMVLMNDSIFAARDVTKGINIHTHAFVSQWGALGTLVEGKPYWFRSSVKKHTNNSEFNIEKIQGDALPGVQIVYGSDNMMPDAYQAFAKAGVKAIIHAGTGNGSMANYLVPEVRKLHDEQGLQIVRSSRVAQGFVLRNAEQPDDKYGWIAAHDLNPQKARLLMALALTKTNDAKEIQNMFWNY KNNVVIVATGGTIAGAGASSTNSATYSAAKVPVDALIKAVPQVNDLANITGIQALQVASESITDKELLSLARQVNDLVKKPSVNGVVITHGTDTMEETAFFLNLVVHTDKPIVLVGSMRPSTALSADGPLNLYSAVALASSNEAKNKGVMVLMNDSIFAARDVTKGINIHTHAFVSQWGALGTLVEGKPYWFRSSVKKHTNNSEFNIEKIQGDALPGVQIVYGSDNMMPDAYQAFAKAGVKAIIHAGTGNGSMANYLVPEVRKLHDEQGLQIVRSSRVAQGFVLRNAEQPDDKYGWIAAHDLNPQKARLLMALALTKTNDAKEIQNMFWNY 1agx-a1-m3-cA_1agx-a1-m4-cA REFINED CRYSTAL STRUCTURE OF ACINETOBACTER GLUTAMINASIFICANS GLUTAMINASE-ASPARAGINASE P10172 P10172 2.9 X-RAY DIFFRACTION 85 1.0 474 (Acinetobacter glutaminasificans) 474 (Acinetobacter glutaminasificans) 331 331 1agx-a1-m1-cA_1agx-a1-m2-cA KNNVVIVATGGTIAGAGASSTNSATYSAAKVPVDALIKAVPQVNDLANITGIQALQVASESITDKELLSLARQVNDLVKKPSVNGVVITHGTDTMEETAFFLNLVVHTDKPIVLVGSMRPSTALSADGPLNLYSAVALASSNEAKNKGVMVLMNDSIFAARDVTKGINIHTHAFVSQWGALGTLVEGKPYWFRSSVKKHTNNSEFNIEKIQGDALPGVQIVYGSDNMMPDAYQAFAKAGVKAIIHAGTGNGSMANYLVPEVRKLHDEQGLQIVRSSRVAQGFVLRNAEQPDDKYGWIAAHDLNPQKARLLMALALTKTNDAKEIQNMFWNY KNNVVIVATGGTIAGAGASSTNSATYSAAKVPVDALIKAVPQVNDLANITGIQALQVASESITDKELLSLARQVNDLVKKPSVNGVVITHGTDTMEETAFFLNLVVHTDKPIVLVGSMRPSTALSADGPLNLYSAVALASSNEAKNKGVMVLMNDSIFAARDVTKGINIHTHAFVSQWGALGTLVEGKPYWFRSSVKKHTNNSEFNIEKIQGDALPGVQIVYGSDNMMPDAYQAFAKAGVKAIIHAGTGNGSMANYLVPEVRKLHDEQGLQIVRSSRVAQGFVLRNAEQPDDKYGWIAAHDLNPQKARLLMALALTKTNDAKEIQNMFWNY 1ahs-a1-m1-cB_1ahs-a1-m1-cC CRYSTAL STRUCTURE OF THE TOP DOMAIN OF AFRICAN HORSE SICKNESS VIRUS VP7 P36325 P36325 2.3 X-RAY DIFFRACTION 67 1.0 40050 (African horse sickness virus) 40050 (African horse sickness virus) 126 126 1ahs-a1-m1-cA_1ahs-a1-m1-cB 1ahs-a1-m1-cA_1ahs-a1-m1-cC TGPYAGAVEVQQSGRYYVPQGRTRGGYINSNIAEVCMDAGAAGQVNALLAPRRGDAVMIYFVWRPLRIFCDPQGASLESAPGTFVTVDGVNVAAGDVVAWNTIAPVNVGNPGARRSILQFEVLWYT TGPYAGAVEVQQSGRYYVPQGRTRGGYINSNIAEVCMDAGAAGQVNALLAPRRGDAVMIYFVWRPLRIFCDPQGASLESAPGTFVTVDGVNVAAGDVVAWNTIAPVNVGNPGARRSILQFEVLWYT 1ai9-a1-m1-cA_1ai9-a1-m1-cB CANDIDA ALBICANS DIHYDROFOLATE REDUCTASE P22906 P22906 1.85 X-RAY DIFFRACTION 27 1.0 5476 (Candida albicans) 5476 (Candida albicans) 192 192 MLKPNVAIIVAALKPALGIGYKGKMPWRLRKEIRYFKDVTTRTTKPNTRNAVIMGRKTWESIPQKFRPLPDRLNIILSRSYENEIIDDNIIHASSIESSLNLVSDVERVFIIGGAEIYNELINNSLVSHLLITEIEHPSPESIEMDTFLKFPLESWTKQPKSELQKFVGDTVLEDDIKEGDFTYNYTLWTRK MLKPNVAIIVAALKPALGIGYKGKMPWRLRKEIRYFKDVTTRTTKPNTRNAVIMGRKTWESIPQKFRPLPDRLNIILSRSYENEIIDDNIIHASSIESSLNLVSDVERVFIIGGAEIYNELINNSLVSHLLITEIEHPSPESIEMDTFLKFPLESWTKQPKSELQKFVGDTVLEDDIKEGDFTYNYTLWTRK 1aih-a2-m1-cC_1aih-a2-m1-cD CATALYTIC DOMAIN OF BACTERIOPHAGE HP1 INTEGRASE P21442 P21442 2.5 X-RAY DIFFRACTION 167 1.0 10690 (Hpunavirus HP1) 10690 (Hpunavirus HP1) 168 170 1aih-a1-m1-cB_1aih-a1-m1-cA ELAFLYERDIYRLLAECDNSRNPDLGLIVRICLATGARWSEAETLTQSQVMPYKITFTNTKSKKNRTVPISDELFDMLPKKRGRLFNDAYESFENAVLRAEIELPKGQLTHVLRHTFASHFMMNGGNILVLKEILGHSTIEMTMRYAHFAPSHLESAVKFNPLSNPAQ ETELAFLYERDIYRLLAECDNSRNPDLGLIVRICLATGARWSEAETLTQSQVMPYKITFTNTKSKKNRTVPISDELFDMLPKKRGRLFNDAYESFENAVLRAEIELPKGQLTHVLRHTFASHFMMNGGNILVLKEILGHSTIEMTMRYAHFAPSHLESAVKFNPLSNPAQ 1ail-a1-m1-cA_1ail-a1-m2-cA N-TERMINAL FRAGMENT OF NS1 PROTEIN FROM INFLUENZA A VIRUS P03495 P03495 1.9 X-RAY DIFFRACTION 69 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 70 70 1ns1-a1-m1-cA_1ns1-a1-m1-cB MDSNTVSSFQVDCFLWHVRKQVVDQELGDAPFLDRLRRDQKSLRGRGSTLGLNIEAATHVGKQIVEKILK MDSNTVSSFQVDCFLWHVRKQVVDQELGDAPFLDRLRRDQKSLRGRGSTLGLNIEAATHVGKQIVEKILK 1aip-a2-m1-cH_1aip-a2-m1-cG EF-TU EF-TS COMPLEX FROM THERMUS THERMOPHILUS P43895 P43895 3 X-RAY DIFFRACTION 74 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 194 195 1aip-a1-m1-cC_1aip-a1-m1-cD 1tfe-a1-m1-cA_1tfe-a1-m2-cA QMELIKKLREATGAGMMDVKRALEDAGWDEEKAVQLLRERGAMKAAKKADREAREGIIGHYIHHNQRVGVLVELNCETDFVARNELFQNLAKDLAMHIAMMNPRYVSAEEIPAEELEKERQIYIQAALNEGKPQQIAEKIAEGRLKKYLEEVVLLEQPFVKDDKVKVKELIQQAIAKIGENIVVRRFCRFELGA SQMELIKKLREATGAGMMDVKRALEDAGWDEEKAVQLLRERGAMKAAKKADREAREGIIGHYIHHNQRVGVLVELNCETDFVARNELFQNLAKDLAMHIAMMNPRYVSAEEIPAEELEKERQIYIQAALNEGKPQQIAEKIAEGRLKKYLEEVVLLEQPFVKDDKVKVKELIQQAIAKIGENIVVRRFCRFELGA 1aiy-a1-m1-cJ_1aiy-a1-m1-cL R6 HUMAN INSULIN HEXAMER (SYMMETRIC), NMR, 10 STRUCTURES P01308 P01308 NOT SOLUTION NMR 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1ai0-a1-m1-cB_1ai0-a1-m1-cD 1ai0-a1-m1-cF_1ai0-a1-m1-cH 1ai0-a1-m1-cJ_1ai0-a1-m1-cL 1aiy-a1-m1-cB_1aiy-a1-m1-cD 1aiy-a1-m1-cF_1aiy-a1-m1-cH FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 1aj8-a1-m1-cB_1aj8-a1-m1-cA CITRATE SYNTHASE FROM PYROCOCCUS FURIOSUS Q53554 Q53554 1.9 X-RAY DIFFRACTION 379 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 370 371 LAKGLEDVYIDQTNICYIDGKEGKLYYRGYSVEELAELSTFEEVVYLLWWGKLPSLSELENFKKELAKSRGLPKEVIEIMEALPKNTHPMGALRTIISYLGNIDDSGDIPVTPEEVYRIGISVTAKIPTIVANWYRIKNGLEYVPPKEKLSHAANFLYMLHGEEPPKEWEKAMDVALILYAEHEINASTLAVMTVGSTLSDYYSAILAGIGALKGPIHGGAVEEAIKQFMEIGSPEKVEEWFFKALQQKRKIMGAGHRVYKTYDPRARIFKKYASKLGDKKLFEIAERLERLVEEYLSKKGISINVDYWSGLVFYGMKIPIELYTTIFAMGRIAGWTAHLAEYVSHNRIIRPRLQYVGEIGKKYLPIELR LAKGLEDVYIDQTNICYIDGKEGKLYYRGYSVEELAELSTFEEVVYLLWWGKLPSLSELENFKKELAKSRGLPKEVIEIMEALPKNTHPMGALRTIISYLGNIDDSGDIPVTPEEVYRIGISVTAKIPTIVANWYRIKNGLEYVPPKEKLSHAANFLYMLHGEEPPKEWEKAMDVALILYAEHEINASTLAVMTVGSTLSDYYSAILAGIGALKGPIHGGAVEEAIKQFMEIGSPEKVEEWFFKALQQKRKIMGAGHRVYKTYDPRARIFKKYASKLGDKKLFEIAERLERLVEEYLSKKGISINVDYWSGLVFYGMKIPIELYTTIFAMGRIAGWTAHLAEYVSHNRIIRPRLQYVGEIGKKYLPIELRR 1ajy-a1-m1-cA_1ajy-a1-m1-cB STRUCTURE AND MOBILITY OF THE PUT3 DIMER: A DNA PINCER, NMR, 13 STRUCTURES P25502 P25502 NOT SOLUTION NMR 64 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 71 71 MSVACLSCRKRHIKCPGGNPCQKCVTSNAICEYLEPSKKIVVSTKYLQQLQKDLNDKTEENNRLKALLLER MSVACLSCRKRHIKCPGGNPCQKCVTSNAICEYLEPSKKIVVSTKYLQQLQKDLNDKTEENNRLKALLLER 1al1-a2-m5-cA_1al1-a2-m6-cA CRYSTAL STRUCTURE OF ALPHA1: IMPLICATIONS FOR PROTEIN DESIGN 2.7 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 1al1-a2-m1-cA_1al1-a2-m2-cA 1al1-a2-m1-cA_1al1-a2-m3-cA 1al1-a2-m2-cA_1al1-a2-m3-cA 1al1-a2-m4-cA_1al1-a2-m5-cA 1al1-a2-m4-cA_1al1-a2-m6-cA ELLKKLLEELKG ELLKKLLEELKG 1al4-a1-m1-cA_1al4-a1-m1-cB GRAMICIDIN D FROM BACILLUS BREVIS (N-PROPANOL SOLVATE) 1.13 X-RAY DIFFRACTION 16 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 1alu-a1-m1-cA_1alu-a1-m2-cA HUMAN INTERLEUKIN-6 P05231 P05231 1.9 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 LTSSERIDKQIRYILDGISALRKETCNKSNMCENLNLPKMAEKDGCFQSGFNEETCLVKIITGLLEFEVYLEYLQNRFESSEEQARAVQMSTKVLIQFLQKKAKNLDAITTPDPTTNASLLTKLQAQNQWLQDMTTHLILRSFKEFLQSSLRALRQM LTSSERIDKQIRYILDGISALRKETCNKSNMCENLNLPKMAEKDGCFQSGFNEETCLVKIITGLLEFEVYLEYLQNRFESSEEQARAVQMSTKVLIQFLQKKAKNLDAITTPDPTTNASLLTKLQAQNQWLQDMTTHLILRSFKEFLQSSLRALRQM 1alu-a2-m1-cA_1alu-a2-m3-cA HUMAN INTERLEUKIN-6 P05231 P05231 1.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 LTSSERIDKQIRYILDGISALRKETCNKSNMCENLNLPKMAEKDGCFQSGFNEETCLVKIITGLLEFEVYLEYLQNRFESSEEQARAVQMSTKVLIQFLQKKAKNLDAITTPDPTTNASLLTKLQAQNQWLQDMTTHLILRSFKEFLQSSLRALRQM LTSSERIDKQIRYILDGISALRKETCNKSNMCENLNLPKMAEKDGCFQSGFNEETCLVKIITGLLEFEVYLEYLQNRFESSEEQARAVQMSTKVLIQFLQKKAKNLDAITTPDPTTNASLLTKLQAQNQWLQDMTTHLILRSFKEFLQSSLRALRQM 1am2-a1-m1-cA_1am2-a1-m2-cA GYRA INTEIN FROM MYCOBACTERIUM XENOPI P72065 P72065 2.2 X-RAY DIFFRACTION 37 1.0 1789 (Mycobacterium xenopi) 1789 (Mycobacterium xenopi) 181 181 ASITGDALVALPEGESVRIADIVPGARPNSDNAIDLKVLDRHGNPVLADRLFHSGEHPVYAVRTVEGLRVTGTANHPLLCLVDVAGVPTLLWKLIDEIKPGDYAVIQRSAFSTVGVPGLVRFLEAHHRDPDAKAIADELTDGRFYYAKVASVTDAGVQPVYSLRVDTADHAFITNGFVSHN ASITGDALVALPEGESVRIADIVPGARPNSDNAIDLKVLDRHGNPVLADRLFHSGEHPVYAVRTVEGLRVTGTANHPLLCLVDVAGVPTLLWKLIDEIKPGDYAVIQRSAFSTVGVPGLVRFLEAHHRDPDAKAIADELTDGRFYYAKVASVTDAGVQPVYSLRVDTADHAFITNGFVSHN 1am7-a1-m1-cA_1am7-a1-m1-cC Lysozyme from bacteriophage lambda P03706 P03706 2.3 X-RAY DIFFRACTION 48 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 150 150 MVEINNQRKAFLDMLASEGTDNGRQKTRNHGYDVIVGGELFTDYSDHPRKLVTLNPKLKSTGAGRYQLLSRDAYRKQLGLKDFSPKSQDAVALQQIKERGALPMIDRGDIRQAIDRCSNIASLPGAGYGQFEHKADSLIAKFKEAGGTVR MVEINNQRKAFLDMLASEGTDNGRQKTRNHGYDVIVGGELFTDYSDHPRKLVTLNPKLKSTGAGRYQLLSRDAYRKQLGLKDFSPKSQDAVALQQIKERGALPMIDRGDIRQAIDRCSNIASLPGAGYGQFEHKADSLIAKFKEAGGTVR 1am7-a1-m1-cB_1am7-a1-m1-cC Lysozyme from bacteriophage lambda P03706 P03706 2.3 X-RAY DIFFRACTION 48 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 150 150 MVEINNQRKAFLDMLASEGTDNGRQKTRNHGYDVIVGGELFTDYSDHPRKLVTLNPKLKSTGAGRYQLLSRDAYRKQLGLKDFSPKSQDAVALQQIKERGALPMIDRGDIRQAIDRCSNIASLPGAGYGQFEHKADSLIAKFKEAGGTVR MVEINNQRKAFLDMLASEGTDNGRQKTRNHGYDVIVGGELFTDYSDHPRKLVTLNPKLKSTGAGRYQLLSRDAYRKQLGLKDFSPKSQDAVALQQIKERGALPMIDRGDIRQAIDRCSNIASLPGAGYGQFEHKADSLIAKFKEAGGTVR 1am9-a1-m1-cD_1am9-a1-m1-cC HUMAN SREBP-1A BOUND TO LDL RECEPTOR PROMOTER P36956 P36956 2.3 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 82 1am9-a1-m1-cB_1am9-a1-m1-cA QSRGEKRTAHNAIEKRYRSSINDKIIELKDLVVGTEAKLNKSAVLRKAIDYIRFLQHSNQKLKQENLSLRTAVHKS QSRGEKRTAHNAIEKRYRSSINDKIIELKDLVVGTEAKLNKSAVLRKAIDYIRFLQHSNQKLKQENLSLRTAVHKSKSLKDL 1amh-a1-m1-cB_1amh-a1-m1-cA UNCOMPLEXED RAT TRYPSIN MUTANT WITH ASP 189 REPLACED WITH SER (D189S) P00763 P00763 2.5 X-RAY DIFFRACTION 68 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 223 223 IVGGYTCQENSVPYQVSLNSGYHFCGGSLINDQWVVSAAHCYKSRIQVRLGEHNINVLEGNEQFVNAAKIIKHPNFDRKTLNNDIMLIKLSSPVKLNARVATVALPSSCAPAGTQCLISGWGNTLSSGVNEPDLLQCLDAPLLPQADCEASYPGKITDNMVCVGFLEGGKSSCQGDSGGPVVCNGELQGIVSWGYGCALPDNPGVYTKVCNYVDWIQDTIAAN IVGGYTCQENSVPYQVSLNSGYHFCGGSLINDQWVVSAAHCYKSRIQVRLGEHNINVLEGNEQFVNAAKIIKHPNFDRKTLNNDIMLIKLSSPVKLNARVATVALPSSCAPAGTQCLISGWGNTLSSGVNEPDLLQCLDAPLLPQADCEASYPGKITDNMVCVGFLEGGKSSCQGDSGGPVVCNGELQGIVSWGYGCALPDNPGVYTKVCNYVDWIQDTIAAN 1amp-a1-m1-cA_1amp-a1-m2-cA CRYSTAL STRUCTURE OF AEROMONAS PROTEOLYTICA AMINOPEPTIDASE: A PROTOTYPICAL MEMBER OF THE CO-CATALYTIC ZINC ENZYME FAMILY Q01693 Q01693 1.8 X-RAY DIFFRACTION 54 1.0 671 (Vibrio proteolyticus) 671 (Vibrio proteolyticus) 291 291 1igb-a1-m1-cA_1igb-a1-m2-cA MPPITQQATVTAWLPQVDASQITGTISSLESFTNRFYTTTSGAQASDWIASEWQALSASLPNASVKQVSHSGYNQKSVVMTITGSEAPDEWIVIGGHLDSTIGSHTNEQSVAPGADDDASGIAAVTEVIRVLSENNFQPKRSIAFMAYAAEEVGLRGSQDLANQYKSEGKNVVSALQLDMTNYKGSAQDVVFITDYTDSNFTQYLTQLMDEYLPSLTYGFDTCGYACSDHASWHNAGYPAAMPFESKFNDYNPRIHTTQDTLANSDPTGSHAKKFTQLGLAYAIEMGSATG MPPITQQATVTAWLPQVDASQITGTISSLESFTNRFYTTTSGAQASDWIASEWQALSASLPNASVKQVSHSGYNQKSVVMTITGSEAPDEWIVIGGHLDSTIGSHTNEQSVAPGADDDASGIAAVTEVIRVLSENNFQPKRSIAFMAYAAEEVGLRGSQDLANQYKSEGKNVVSALQLDMTNYKGSAQDVVFITDYTDSNFTQYLTQLMDEYLPSLTYGFDTCGYACSDHASWHNAGYPAAMPFESKFNDYNPRIHTTQDTLANSDPTGSHAKKFTQLGLAYAIEMGSATG 1amt-a1-m1-cB_1amt-a1-m1-cC Crystal structure of alamethicin at 1.5 angstrom resolution 1.5 X-RAY DIFFRACTION 10 1.0 5547 (Trichoderma viride) 5547 (Trichoderma viride) 11 11 PAAQVGLPVEQ PAAQVGLPVEQ 1an4-a1-m1-cA_1an4-a1-m1-cB STRUCTURE AND FUNCTION OF THE B/HLH/Z DOMAIN OF USF P22415 P22415 2.9 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 MDEKRRAQHNEVERRRRDKINNWIVQLSKIIPDSSMESTKSGQSKGGILSKASDYIQELRQSNHR MDEKRRAQHNEVERRRRDKINNWIVQLSKIIPDSSMESTKSGQSKGGILSKASDYIQELRQSNHR 1an7-a1-m1-cA_1an7-a1-m2-cB RIBOSOMAL PROTEIN S8 FROM THERMUS THERMOPHILUS P24319 P24319 2.9 X-RAY DIFFRACTION 19 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 136 136 1an7-a1-m1-cB_1an7-a1-m2-cA TDPIADMLTRIRNATRVYKESTDVPASRFKEEILRILAREGFIKGYERVDVDGKPYLRVYLKYGPRRQGPDPRPEQVIHHIRRISKPGRRVYVGVKEIPRVRRGLGIAILSTSKGVLTDREARKLGVGGELICEVW TDPIADMLTRIRNATRVYKESTDVPASRFKEEILRILAREGFIKGYERVDVDGKPYLRVYLKYGPRRQGPDPRPEQVIHHIRRISKPGRRVYVGVKEIPRVRRGLGIAILSTSKGVLTDREARKLGVGGELICEVW 1an7-a1-m1-cB_1an7-a1-m2-cB RIBOSOMAL PROTEIN S8 FROM THERMUS THERMOPHILUS P24319 P24319 2.9 X-RAY DIFFRACTION 13 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 136 136 1an7-a1-m1-cA_1an7-a1-m2-cA TDPIADMLTRIRNATRVYKESTDVPASRFKEEILRILAREGFIKGYERVDVDGKPYLRVYLKYGPRRQGPDPRPEQVIHHIRRISKPGRRVYVGVKEIPRVRRGLGIAILSTSKGVLTDREARKLGVGGELICEVW TDPIADMLTRIRNATRVYKESTDVPASRFKEEILRILAREGFIKGYERVDVDGKPYLRVYLKYGPRRQGPDPRPEQVIHHIRRISKPGRRVYVGVKEIPRVRRGLGIAILSTSKGVLTDREARKLGVGGELICEVW 1an7-a1-m2-cA_1an7-a1-m2-cB RIBOSOMAL PROTEIN S8 FROM THERMUS THERMOPHILUS P24319 P24319 2.9 X-RAY DIFFRACTION 24 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 136 136 1an7-a1-m1-cA_1an7-a1-m1-cB TDPIADMLTRIRNATRVYKESTDVPASRFKEEILRILAREGFIKGYERVDVDGKPYLRVYLKYGPRRQGPDPRPEQVIHHIRRISKPGRRVYVGVKEIPRVRRGLGIAILSTSKGVLTDREARKLGVGGELICEVW TDPIADMLTRIRNATRVYKESTDVPASRFKEEILRILAREGFIKGYERVDVDGKPYLRVYLKYGPRRQGPDPRPEQVIHHIRRISKPGRRVYVGVKEIPRVRRGLGIAILSTSKGVLTDREARKLGVGGELICEVW 1an8-a1-m1-cA_1an8-a1-m2-cA CRYSTAL STRUCTURE OF THE STREPTOCOCCAL SUPERANTIGEN SPE-C Q8NKX2 Q8NKX2 2.4 X-RAY DIFFRACTION 43 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 206 206 KKDISNVKSDLLYAYTITPYDYKDCRVNFSTTHTLNIDTQKYRGKDYYISSEMSYEASQKFKRDDHVDVFGLFYILNSHTGEYIYGGITPAQNNKVNHKLLGNLFISGESQQNLNNKIILEKDIVTFQEIDFKIRKYLMDNYKIYDATSPYVSGRIEIGTKDGKHEQIDLFDSPNEGTRSDIFAKYKDNRIINMKNFSHFDIYLEK KKDISNVKSDLLYAYTITPYDYKDCRVNFSTTHTLNIDTQKYRGKDYYISSEMSYEASQKFKRDDHVDVFGLFYILNSHTGEYIYGGITPAQNNKVNHKLLGNLFISGESQQNLNNKIILEKDIVTFQEIDFKIRKYLMDNYKIYDATSPYVSGRIEIGTKDGKHEQIDLFDSPNEGTRSDIFAKYKDNRIINMKNFSHFDIYLEK 1ang-a1-m1-cA_1ang-a1-m2-cA CRYSTAL STRUCTURE OF HUMAN ANGIOGENIN REVEALS THE STRUCTURAL BASIS FOR ITS FUNCTIONAL DIVERGENCE FROM RIBONUCLEASE P03950 P03950 2.4 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 123 4ahn-a1-m1-cA_4ahn-a1-m2-cA QDNSRYTHFLTQHYDAKPQGRDDRYCESIMRRRGLTSPCKDINTFIHGNKRSIKAICENKNGNPHRENLRISKSSFQVTTCKLHGGSPWPPCQYRATAGFRNVVVACENGLPVHLDQSIFRRP QDNSRYTHFLTQHYDAKPQGRDDRYCESIMRRRGLTSPCKDINTFIHGNKRSIKAICENKNGNPHRENLRISKSSFQVTTCKLHGGSPWPPCQYRATAGFRNVVVACENGLPVHLDQSIFRRP 1anu-a1-m1-cA_1anu-a1-m2-cA COHESIN-2 DOMAIN OF THE CELLULOSOME FROM CLOSTRIDIUM THERMOCELLUM Q06851 Q06851 2.15 X-RAY DIFFRACTION 33 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 138 138 VVVEIGKVTGSVGTTVEIPVYFRGVPSKGIANCDFVFRYDPNVLEIIGIDPGDIIVDPNPTKSFDTAIYPDRKIIVFLFAEDSGTGAYAITKDGVFAKIRATVKSSAPGYITFDEVGGFADNDLVEQKVSFIDGGVNV VVVEIGKVTGSVGTTVEIPVYFRGVPSKGIANCDFVFRYDPNVLEIIGIDPGDIIVDPNPTKSFDTAIYPDRKIIVFLFAEDSGTGAYAITKDGVFAKIRATVKSSAPGYITFDEVGGFADNDLVEQKVSFIDGGVNV 1ao0-a1-m1-cA_1ao0-a1-m1-cC GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE FROM B. SUBTILIS COMPLEXED WITH ADP AND GMP P00497 P00497 2.8 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 455 455 1ao0-a1-m1-cB_1ao0-a1-m1-cD 1gph-a1-m1-c1_1gph-a1-m1-c3 1gph-a1-m1-c2_1gph-a1-m1-c4 CGVFGIWGHEEAPQITYYGLHSLQHRGQEGAGIVATDGEKLTAHKGQGLITEVFQNGELSKVKGKGAIGHVRYATGYENVQPLLFRSQNNGSLALAHNGNLVNATQLKQQLENQGSIFQTSSDTEVLAHLIKRSGHFTLKDQIKNSLSMLKGAYAFLIMTETEMIVALDPNGLRPLSIGMMGDAYVVASETCAFDVVGATYLREVEPGEMLIINDEGMKSERFSMNINRSICSMEYIYFSRPDSNIDGINVHSARKNLGKMLAQESAVEADVVTGVPDSSISAAIGYAEATGIPYELGLIKNRYVGRTFIQPSQALREQGVRMKLSAVRGVVEGKRVVMVDDSIVRGTTSRRIVTMLREAGATEVHVKISSPPIAHPCFYGIDTSTHEELIASSHSVEEIRQEIGADTLSFLSVEGLLKGIGRKYDDSNCGQCLACFTGKYPTEIYQDTVLPHVK CGVFGIWGHEEAPQITYYGLHSLQHRGQEGAGIVATDGEKLTAHKGQGLITEVFQNGELSKVKGKGAIGHVRYATGYENVQPLLFRSQNNGSLALAHNGNLVNATQLKQQLENQGSIFQTSSDTEVLAHLIKRSGHFTLKDQIKNSLSMLKGAYAFLIMTETEMIVALDPNGLRPLSIGMMGDAYVVASETCAFDVVGATYLREVEPGEMLIINDEGMKSERFSMNINRSICSMEYIYFSRPDSNIDGINVHSARKNLGKMLAQESAVEADVVTGVPDSSISAAIGYAEATGIPYELGLIKNRYVGRTFIQPSQALREQGVRMKLSAVRGVVEGKRVVMVDDSIVRGTTSRRIVTMLREAGATEVHVKISSPPIAHPCFYGIDTSTHEELIASSHSVEEIRQEIGADTLSFLSVEGLLKGIGRKYDDSNCGQCLACFTGKYPTEIYQDTVLPHVK 1ao0-a1-m1-cC_1ao0-a1-m1-cD GLUTAMINE PHOSPHORIBOSYLPYROPHOSPHATE (PRPP) AMIDOTRANSFERASE FROM B. SUBTILIS COMPLEXED WITH ADP AND GMP P00497 P00497 2.8 X-RAY DIFFRACTION 166 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 455 455 1ao0-a1-m1-cA_1ao0-a1-m1-cB 1gph-a1-m1-c1_1gph-a1-m1-c2 1gph-a1-m1-c3_1gph-a1-m1-c4 1gph-a2-m1-c1_1gph-a2-m1-c2 1gph-a3-m1-c3_1gph-a3-m1-c4 CGVFGIWGHEEAPQITYYGLHSLQHRGQEGAGIVATDGEKLTAHKGQGLITEVFQNGELSKVKGKGAIGHVRYATGYENVQPLLFRSQNNGSLALAHNGNLVNATQLKQQLENQGSIFQTSSDTEVLAHLIKRSGHFTLKDQIKNSLSMLKGAYAFLIMTETEMIVALDPNGLRPLSIGMMGDAYVVASETCAFDVVGATYLREVEPGEMLIINDEGMKSERFSMNINRSICSMEYIYFSRPDSNIDGINVHSARKNLGKMLAQESAVEADVVTGVPDSSISAAIGYAEATGIPYELGLIKNRYVGRTFIQPSQALREQGVRMKLSAVRGVVEGKRVVMVDDSIVRGTTSRRIVTMLREAGATEVHVKISSPPIAHPCFYGIDTSTHEELIASSHSVEEIRQEIGADTLSFLSVEGLLKGIGRKYDDSNCGQCLACFTGKYPTEIYQDTVLPHVK CGVFGIWGHEEAPQITYYGLHSLQHRGQEGAGIVATDGEKLTAHKGQGLITEVFQNGELSKVKGKGAIGHVRYATGYENVQPLLFRSQNNGSLALAHNGNLVNATQLKQQLENQGSIFQTSSDTEVLAHLIKRSGHFTLKDQIKNSLSMLKGAYAFLIMTETEMIVALDPNGLRPLSIGMMGDAYVVASETCAFDVVGATYLREVEPGEMLIINDEGMKSERFSMNINRSICSMEYIYFSRPDSNIDGINVHSARKNLGKMLAQESAVEADVVTGVPDSSISAAIGYAEATGIPYELGLIKNRYVGRTFIQPSQALREQGVRMKLSAVRGVVEGKRVVMVDDSIVRGTTSRRIVTMLREAGATEVHVKISSPPIAHPCFYGIDTSTHEELIASSHSVEEIRQEIGADTLSFLSVEGLLKGIGRKYDDSNCGQCLACFTGKYPTEIYQDTVLPHVK 1ao5-a1-m2-cB_1ao5-a1-m1-cA MOUSE GLANDULAR KALLIKREIN-13 (PRORENIN CONVERTING ENZYME) P36368 P36368 2.6 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 236 236 1ao5-a1-m2-cA_1ao5-a1-m1-cB VVGGFNCEKNSQPWQVAVYYQKEHICGGVLLDRNWVLTAAHCYVDQYEVWLGKNKLFQEEPSAQHRLVSKSFPHPGFNMSLLMLQTIPPGADFSDDLMLLRLSKPADITDVVKPIALPTKEPKPGSKCLASGWGSITPTWQKPDDLQCVFITLLPNENCAKVYLQKVTDVMLCAGEMGGGKDTCRDDSGGPLICDGILQGTTSYGPVPCGKPGVPAIYTNLIKFNSWIKDTMMKNA VVGGFNCEKNSQPWQVAVYYQKEHICGGVLLDRNWVLTAAHCYVDQYEVWLGKNKLFQEEPSAQHRLVSKSFPHPGFNMSLLMLQTIPPGADFSDDLMLLRLSKPADITDVVKPIALPTKEPKPGSKCLASGWGSITPTWQKPDDLQCVFITLLPNENCAKVYLQKVTDVMLCAGEMGGGKDTCRDDSGGPLICDGILQGTTSYGPVPCGKPGVPAIYTNLIKFNSWIKDTMMKNA 1ao7-a2-m1-cD_1ao7-a2-m4-cD COMPLEX BETWEEN HUMAN T-CELL RECEPTOR, VIRAL PEPTIDE (TAX), AND HLA-A 0201 P01848 P01848 2.6 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 KEVEQNSGPLSVPEGAIASLNCTYSDRGSQSFFWYRQYSGKSPELIMSIYSNGDKEDGRFTAQLNKASQYVSLLIRDSQPSDSATYLCAVTTDSWGKLQFGAGTQVVVTPDIQNP KEVEQNSGPLSVPEGAIASLNCTYSDRGSQSFFWYRQYSGKSPELIMSIYSNGDKEDGRFTAQLNKASQYVSLLIRDSQPSDSATYLCAVTTDSWGKLQFGAGTQVVVTPDIQNP 1aoc-a1-m1-cA_1aoc-a1-m1-cB JAPANESE HORSESHOE CRAB COAGULOGEN P02681 P02681 2 X-RAY DIFFRACTION 48 1.0 6853 (Tachypleus tridentatus) 6853 (Tachypleus tridentatus) 175 175 ADTNAPICLCDEPGVLGRTQIVTTEIKDKIEKAVEAVAQESGVSGRGFSIFSHHPVFRECGKYECRTVRPEHSRCYNFPPFTHFKSECPVSTRDCEPVFGYTVAGEFRVIVQAPRAGFRQCVWQHKCRFGSNSCGYNGRCTQQRSVVRLVTYNLEKDGFLCESFRTCCGCPCRSF ADTNAPICLCDEPGVLGRTQIVTTEIKDKIEKAVEAVAQESGVSGRGFSIFSHHPVFRECGKYECRTVRPEHSRCYNFPPFTHFKSECPVSTRDCEPVFGYTVAGEFRVIVQAPRAGFRQCVWQHKCRFGSNSCGYNGRCTQQRSVVRLVTYNLEKDGFLCESFRTCCGCPCRSF 1aog-a1-m1-cB_1aog-a1-m1-cA TRYPANOSOMA CRUZI TRYPANOTHIONE REDUCTASE (OXIDIZED FORM) P28593 P28593 2.3 X-RAY DIFFRACTION 251 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 483 485 1bzl-a1-m1-cB_1bzl-a1-m1-cA 1gxf-a1-m1-cB_1gxf-a1-m1-cA 1nda-a1-m1-cA_1nda-a1-m1-cB 1nda-a2-m1-cC_1nda-a2-m1-cD 4new-a1-m1-cA_4new-a1-m2-cA IFDLVVIGAGSGGLEAAWNAATLYKKRVAVIDVQMVHGPPFFSALGGTCVNVGCVPKKLMVTGAQYMEHLRESAGFGWEFDRTTLRAEWKNLIAVKDEAVLNINKSYDEMFRDTEGLEFFLGWGSLESKNVVNVRESADPASAVKERLETEHILLASGSWPHMPNIPGIEHCISSNEAFYLPEPPRRVLTVGGGFISVEFAGIFNAYKPKDGQVTLCYRGEMILRGFDHTLREELTKQLTANGIQILTKENPAKVELNADGSKSVTFESGKKMDFDLVMMAIGRSPRTKDLQLQNAGVMIKNGGVQVDEYSRTNVSNIYAIGDVTNRVMLTPVAINEAAALVDTVFGTTPRKTDHTRVASAVFSIPPIGTCGLIEEVASKRYEVVAVYLSSFTPLMHKVSGSKYKTFVAKIITNHSDGTVLGVHLLGDNAPEIIQGIGICLKLNAKISDFYNTIGVHPTSAEELCSMRTPSYYYVKGEKMEKP SKIFDLVVIGAGSGGLEAAWNAATLYKKRVAVIDVQMVHGPPFFSALGGTCVNVGCVPKKLMVTGAQYMEHLRESAGFGWEFDRTTLRAEWKNLIAVKDEAVLNINKSYDEMFRDTEGLEFFLGWGSLESKNVVNVRESADPASAVKERLETEHILLASGSWPHMPNIPGIEHCISSNEAFYLPEPPRRVLTVGGGFISVEFAGIFNAYKPKDGQVTLCYRGEMILRGFDHTLREELTKQLTANGIQILTKENPAKVELNADGSKSVTFESGKKMDFDLVMMAIGRSPRTKDLQLQNAGVMIKNGGVQVDEYSRTNVSNIYAIGDVTNRVMLTPVAINEAAALVDTVFGTTPRKTDHTRVASAVFSIPPIGTCGLIEEVASKRYEVVAVYLSSFTPLMHKVSGSKYKTFVAKIITNHSDGTVLGVHLLGDNAPEIIQGIGICLKLNAKISDFYNTIGVHPTSAEELCSMRTPSYYYVKGEKMEKP 1aoh-a1-m1-cA_1aoh-a1-m1-cB SINGLE COHESIN DOMAIN FROM THE SCAFFOLDING PROTEIN CIPA OF THE CLOSTRIDIUM THERMOCELLUM CELLULOSOME Q06851 Q06851 1.7 X-RAY DIFFRACTION 38 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 143 147 AVRIKVDTVNAKPGDTVRIPVRFSGIPSKGIANCDFVYSYDPNVLEIIEIEPGELIVDPNPTKSFDTAVYPDRKMIVFLFAEDSGTGAYAITEDGVFATIVAKVKSGAPNGLSVIKFVEVGGFANNDLVEQKTQFFDGGVNVG TDLDAVRIKVDTVNAKPGDTVRIPVRFSGIPSKGIANCDFVYSYDPNVLEIIEIEPGELIVDPNPTKSFDTAVYPDRKMIVFLFAEDSGTGAYAITEDGVFATIVAKVKSGAPNGLSVIKFVEVGGFANNDLVEQKTQFFDGGVNVG 1aor-a1-m1-cA_1aor-a1-m1-cB STRUCTURE OF A HYPERTHERMOPHILIC TUNGSTOPTERIN ENZYME, ALDEHYDE FERREDOXIN OXIDOREDUCTASE Q51739 Q51739 2.3 X-RAY DIFFRACTION 77 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 605 605 MYGNWGRFIRVNLSTGDIKVEEYDEELAKKWLGSRGLAIYLLLKEMDPTVDPLSPENKLIIAAGPLTGTSAPTGGRYNVVTKSPLTGFITMANSGGYFGAELKFAGYDAIVVEGKAEKPVYIYIKDEHIEIRDASHIWGKKVSETEATIRKEVGSEKVKIASIGPAGENLVKFAAIMNDGHRAAGRGGVGAVMGSKNLKAIAVEGSKTVPIADKQKFMLVVREKVNKLRNDPVAGGGLPKYGTAVLVNIINENGLYPVKNFQTGVYPYAYEQSGEAMAAKYLVRNKPCYACPIGCGRVNRLPTVGETEGPEYESVWALGANLGINDLASIIEANHMCDELGLDTISTGGTLATAMELYEKGHIKDEELGDAPPFRWGNTEVLHYYIEKIAKREGFGDKLAEGSYRLAESYGHPELSMTVKKLELPAYDPRGAEGHGLGYATNNRGGCHIKNYMISPEILGYPYKMDPHDVSDDKIKMLILFQDLTALIDSAGLCLFTTFGLGADDYRDLLNAALGWDFTTEDYLKIGERIWNAERLFNLKAGLDPARDDTLPKRFLEEPMPEGPNKGHTVRLKEMLPRYYKLRGWTEDGKIPKEKLEELGIAEFY MYGNWGRFIRVNLSTGDIKVEEYDEELAKKWLGSRGLAIYLLLKEMDPTVDPLSPENKLIIAAGPLTGTSAPTGGRYNVVTKSPLTGFITMANSGGYFGAELKFAGYDAIVVEGKAEKPVYIYIKDEHIEIRDASHIWGKKVSETEATIRKEVGSEKVKIASIGPAGENLVKFAAIMNDGHRAAGRGGVGAVMGSKNLKAIAVEGSKTVPIADKQKFMLVVREKVNKLRNDPVAGGGLPKYGTAVLVNIINENGLYPVKNFQTGVYPYAYEQSGEAMAAKYLVRNKPCYACPIGCGRVNRLPTVGETEGPEYESVWALGANLGINDLASIIEANHMCDELGLDTISTGGTLATAMELYEKGHIKDEELGDAPPFRWGNTEVLHYYIEKIAKREGFGDKLAEGSYRLAESYGHPELSMTVKKLELPAYDPRGAEGHGLGYATNNRGGCHIKNYMISPEILGYPYKMDPHDVSDDKIKMLILFQDLTALIDSAGLCLFTTFGLGADDYRDLLNAALGWDFTTEDYLKIGERIWNAERLFNLKAGLDPARDDTLPKRFLEEPMPEGPNKGHTVRLKEMLPRYYKLRGWTEDGKIPKEKLEELGIAEFY 1aox-a1-m1-cA_1aox-a1-m1-cB I DOMAIN FROM INTEGRIN ALPHA2-BETA1 P17301 P17301 2.1 X-RAY DIFFRACTION 20 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 SCPSLIDVVVVCDESNSIYPWDAVKNFLEKFVQGLDIGPTKTQVGLIQYANNPRVVFNLNTYKTKEEMIVATSQTSQYGGDLTNTFGAIQYARKYAYSAASGGRRSATKVMVVVTDGESHDGSMLKAVIDQCNHDNILRFGIAVLGYLNRNALDTKNLIKEIKAIASIPTERYFFNVSDEAALLEKAGTLGEQIFSIEGGT RSSCPSLIDVVVVCDESNSIYPWDAVKNFLEKFVQGLDIGPTKTQVGLIQYANNPRVVFNLNTYKTKEEMIVATSQTSQYGGDLTNTFGAIQYARKYAYSAASGGRRSATKVMVVVTDGESHDGSMLKAVIDQCNHDNILRFGIAVLGYLNRNALDTKNLIKEIKAIASIPTERYFFNVSDEAALLEKAGTLGEQIFSIEG 1apx-a2-m1-cC_1apx-a2-m1-cD CRYSTAL STRUCTURE OF RECOMBINANT ASCORBATE PEROXIDASE P48534 P48534 2.2 X-RAY DIFFRACTION 55 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 249 249 1apx-a1-m1-cA_1apx-a1-m1-cB 2vnz-a1-m1-cX_2vnz-a1-m2-cX GKSYPTVSPDYQKAIEKAKRKLRGFIAEKKCAPLILRLAWHSAGTFDSKTKTGGPFGTIKHQAELAHGANNGLDIAVRLLEPIKEQFPIVSYADFYQLAGVVAVEITGGPEVPFHPGREDKPEPPPEGRLPDATKGSDHLRDVFGKAMGLSDQDIVALSGGHTIGAAHKERSGFEGPWTSNPLIFDNSYFTELLTGEKDGLLQLPSDKALLTDSVFRPLVEKYAADEDVFFADYAEAHLKLSELGFAEA GKSYPTVSPDYQKAIEKAKRKLRGFIAEKKCAPLILRLAWHSAGTFDSKTKTGGPFGTIKHQAELAHGANNGLDIAVRLLEPIKEQFPIVSYADFYQLAGVVAVEITGGPEVPFHPGREDKPEPPPEGRLPDATKGSDHLRDVFGKAMGLSDQDIVALSGGHTIGAAHKERSGFEGPWTSNPLIFDNSYFTELLTGEKDGLLQLPSDKALLTDSVFRPLVEKYAADEDVFFADYAEAHLKLSELGFAEA 1apy-a1-m1-cA_1apy-a1-m1-cC HUMAN ASPARTYLGLUCOSAMINIDASE P20933 P20933 2 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 161 1apz-a1-m1-cA_1apz-a1-m1-cC SPLPLVVNTWPFKNATEAAWRALASGGSALDAVESGCAMCEREQCDGSVGFGGSPDELGETTLDAMIMDGTTMDVGAVGDLRRIKNAIGVARKVLEHTTHTLLVGESATTFAQSMGFINEDLSTSASQALHSDWLARNCQPNYWRNVIPDPSKYCGPYKPP SPLPLVVNTWPFKNATEAAWRALASGGSALDAVESGCAMCEREQCDGSVGFGGSPDELGETTLDAMIMDGTTMDVGAVGDLRRIKNAIGVARKVLEHTTHTLLVGESATTFAQSMGFINEDLSTSASQALHSDWLARNCQPNYWRNVIPDPSKYCGPYKPP 1apy-a1-m1-cB_1apy-a1-m1-cD HUMAN ASPARTYLGLUCOSAMINIDASE P20933 P20933 2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 1apz-a1-m1-cB_1apz-a1-m1-cD TIGMVVIHKTGHIAAGTSTNGIKFKIHGRVGDSPIPGAGAYADDTAGAAAATGNGDILMRFLPSYQAVEYMRRGEDPTIACQKVISRIQKHFPEFFGAVICANVTGSYGAACNKLSTFTQFSFMVYNSEKNQPTEEKVDCI TIGMVVIHKTGHIAAGTSTNGIKFKIHGRVGDSPIPGAGAYADDTAGAAAATGNGDILMRFLPSYQAVEYMRRGEDPTIACQKVISRIQKHFPEFFGAVICANVTGSYGAACNKLSTFTQFSFMVYNSEKNQPTEEKVDCI 1aq0-a1-m1-cA_1aq0-a1-m1-cB BARLEY 1,3-1,4-BETA-GLUCANASE IN MONOCLINIC SPACE GROUP P12257 P12257 2 X-RAY DIFFRACTION 54 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 306 306 IGVCYGMSANNLPAASTVVSMFKSNGIKSMRLYAPNQAALQAVGGTGINVVVGAPNDVLSNLAASPAAAASWVKSNIQAYPKVSFRYVCVGNEVAGGATRNLVPAMKNVHGALVAAGLGHIKVTTSVSQAILGVFSPPSAGSFTGEAAAFMGPVVQFLARTNAPLMANIYPYLAWAYNPSAMDMGYALFNASGTVVRDGAYGYQNLFDTTVDAFYTAMGKHGGSSVKLVVSESGWPSGGGTAATPANARFYNQHLINHVGRGTPRHPGAIETYIFAMFNENQKDSGVEQNWGLFYPNMQHVYPINF IGVCYGMSANNLPAASTVVSMFKSNGIKSMRLYAPNQAALQAVGGTGINVVVGAPNDVLSNLAASPAAAASWVKSNIQAYPKVSFRYVCVGNEVAGGATRNLVPAMKNVHGALVAAGLGHIKVTTSVSQAILGVFSPPSAGSFTGEAAAFMGPVVQFLARTNAPLMANIYPYLAWAYNPSAMDMGYALFNASGTVVRDGAYGYQNLFDTTVDAFYTAMGKHGGSSVKLVVSESGWPSGGGTAATPANARFYNQHLINHVGRGTPRHPGAIETYIFAMFNENQKDSGVEQNWGLFYPNMQHVYPINF 1aq5-a1-m1-cB_1aq5-a1-m1-cC HIGH-RESOLUTION SOLUTION NMR STRUCTURE OF THE TRIMERIC COILED-COIL DOMAIN OF CHICKEN CARTILAGE MATRIX PROTEIN, 20 STRUCTURES P05099 P05099 NOT SOLUTION NMR 48 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 47 47 1aq5-a1-m1-cA_1aq5-a1-m1-cB 1aq5-a1-m1-cA_1aq5-a1-m1-cC GSHMEEDPCECKSIVKFQTKVEELINTLQQKLEAVAKRIEALENKII GSHMEEDPCECKSIVKFQTKVEELINTLQQKLEAVAKRIEALENKII 1aqf-a2-m1-cE_1aqf-a2-m1-cF PYRUVATE KINASE FROM RABBIT MUSCLE WITH MG, K, AND L-PHOSPHOLACTATE P11974 P11974 2.7 X-RAY DIFFRACTION 78 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 426 519 IQTQQLHAAMADTFLEHMCRLDIDSAPITARNTGIICTIGPASRSVETLKEMIKSGMNVARMNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPEPGAAVDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKAADVHEVRKILGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMIIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAMFHRKLFEELARSSSHSTDLMEAMAMGSVEASYKCLAAALIVLTESGRSAHQVARYRPRAPIIAVTRNHQTARQAHLYRGIFPVVCKDPVQEAWAEDVDLRVNLAMNVGKARGFFKKGDVVIVLTGWRPGSGFTNTMRVVPVP IQTQQLHAAMADTFLEHMCRLDIDSAPITARNTGIICTIGPASRSVETLKEMIKSGMNVARMNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPEIRTGLIKGSGTAEVELKKGATLKITLDNAYMEKCDENILWLDYKNICKVVDVGSKVYVDDGLISLQVKQKGPDFLVTEVENGGFLGSKKGVNLPGAAVDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKAADVHEVRKILGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMIIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAMFHRKLFEELARSSSHSTDLMEAMAMGSVEASYKCLAAALIVLTESGRSAHQVARYRPRAPIIAVTRNHQTARQAHLYRGIFPVVCKDPVQEAWAEDVDLRVNLAMNVGKARGFFKKGDVVIVLTGWRPGSGFTNTMRVVPVP 1aqt-a1-m1-cA_1aqt-a1-m2-cA EPSILON SUBUNIT OF F1F0-ATP SYNTHASE FROM ESCHERICHIA COLI P0A6E6 P0A6E6 2.3 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 135 135 STYHLDVVSAEQQMFSGLVEKIQVTGSEGELGIYPGHAPLLTAIKPGMIRIVKQHGHEEFIYLSGGILEVQPGNVTVLADTAIRGQDLDEARAMEAKRKAEEHISSSHGDVDYAQASAELAKAIAQLRVIELTKK STYHLDVVSAEQQMFSGLVEKIQVTGSEGELGIYPGHAPLLTAIKPGMIRIVKQHGHEEFIYLSGGILEVQPGNVTVLADTAIRGQDLDEARAMEAKRKAEEHISSSHGDVDYAQASAELAKAIAQLRVIELTKK 1aqu-a1-m1-cB_1aqu-a1-m1-cA ESTROGEN SULFOTRANSFERASE WITH BOUND INACTIVE COFACTOR PAP AND 17-BETA ESTRADIOL P49891 P49891 1.6 X-RAY DIFFRACTION 46 0.996 10090 (Mus musculus) 10090 (Mus musculus) 280 281 1aqy-a1-m1-cB_1aqy-a1-m1-cA 1bo6-a1-m1-cA_1bo6-a1-m1-cB EYYEVFGEFRGVLMDKRFTKYWEDVEMFLARPDDLVIATYPKSGTTWISEVVYMIYKEEDAIFNRIPYLECRNEDLINGIKQLKEKESPRIVKTHLPPKLLPASFWEKNCKMIYLCRNAKDVAVSYYYFLLMITSYPNPKSFSEFVEKFMQGQVPYGSWYDHVKAWWEKSKNSRVLFMFYEDMKEDIRREVVKLIEFLERKPSAELVDRIIQHTSFQEMKNNPSTNYTMMPEEMMNQKVSPFMRKGIIGDWKNHFPEALRERFDEHYKQQMKDCTVKFRM EYYEVFGEFRGVLMDKRFTKYWEDVEMFLARPDDLVIATYPKSGTTWISEVVYMIYKEGDAIFNRIPYLECRNEDLINGIKQLKEKESPRIVKTHLPPKLLPASFWEKNCKMIYLCRNAKDVAVSYYYFLLMITSYPNPKSFSEFVEKFMQGQVPYGSWYDHVKAWWEKSKNSRVLFMFYEDMKEDIRREVVKLIEFLERKPSAELVDRIIQHTSFQEMKNNPSTNYTMMPEEMMNQKVSPFMRKGIIGDWKNHFPEALRERFDEHYKQQMKDCTVKFRME 1ar7-a1-m7-c3_1ar7-a1-m9-c3 P1/MAHONEY POLIOVIRUS, DOUBLE MUTANT P1095S + H2142Y P03300 P03300 2.9 X-RAY DIFFRACTION 10 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 235 235 1al2-a1-m10-c3_1al2-a1-m7-c3 1al2-a1-m10-c3_1al2-a1-m8-c3 1al2-a1-m11-c3_1al2-a1-m13-c3 1al2-a1-m11-c3_1al2-a1-m14-c3 1al2-a1-m12-c3_1al2-a1-m14-c3 1al2-a1-m12-c3_1al2-a1-m15-c3 1al2-a1-m13-c3_1al2-a1-m15-c3 1al2-a1-m16-c3_1al2-a1-m18-c3 1al2-a1-m16-c3_1al2-a1-m19-c3 1al2-a1-m17-c3_1al2-a1-m19-c3 1al2-a1-m17-c3_1al2-a1-m20-c3 1al2-a1-m18-c3_1al2-a1-m20-c3 1al2-a1-m1-c3_1al2-a1-m3-c3 1al2-a1-m1-c3_1al2-a1-m4-c3 1al2-a1-m21-c3_1al2-a1-m23-c3 1al2-a1-m21-c3_1al2-a1-m24-c3 1al2-a1-m22-c3_1al2-a1-m24-c3 1al2-a1-m22-c3_1al2-a1-m25-c3 1al2-a1-m23-c3_1al2-a1-m25-c3 1al2-a1-m26-c3_1al2-a1-m28-c3 1al2-a1-m26-c3_1al2-a1-m29-c3 1al2-a1-m27-c3_1al2-a1-m29-c3 1al2-a1-m27-c3_1al2-a1-m30-c3 1al2-a1-m28-c3_1al2-a1-m30-c3 1al2-a1-m2-c3_1al2-a1-m4-c3 1al2-a1-m2-c3_1al2-a1-m5-c3 1al2-a1-m31-c3_1al2-a1-m33-c3 1al2-a1-m31-c3_1al2-a1-m34-c3 1al2-a1-m32-c3_1al2-a1-m34-c3 1al2-a1-m32-c3_1al2-a1-m35-c3 1al2-a1-m33-c3_1al2-a1-m35-c3 1al2-a1-m36-c3_1al2-a1-m38-c3 1al2-a1-m36-c3_1al2-a1-m39-c3 1al2-a1-m37-c3_1al2-a1-m39-c3 1al2-a1-m37-c3_1al2-a1-m40-c3 1al2-a1-m38-c3_1al2-a1-m40-c3 1al2-a1-m3-c3_1al2-a1-m5-c3 1al2-a1-m41-c3_1al2-a1-m43-c3 1al2-a1-m41-c3_1al2-a1-m44-c3 1al2-a1-m42-c3_1al2-a1-m44-c3 1al2-a1-m42-c3_1al2-a1-m45-c3 1al2-a1-m43-c3_1al2-a1-m45-c3 1al2-a1-m46-c3_1al2-a1-m48-c3 1al2-a1-m46-c3_1al2-a1-m49-c3 1al2-a1-m47-c3_1al2-a1-m49-c3 1al2-a1-m47-c3_1al2-a1-m50-c3 1al2-a1-m48-c3_1al2-a1-m50-c3 1al2-a1-m51-c3_1al2-a1-m53-c3 1al2-a1-m51-c3_1al2-a1-m54-c3 1al2-a1-m52-c3_1al2-a1-m54-c3 1al2-a1-m52-c3_1al2-a1-m55-c3 1al2-a1-m53-c3_1al2-a1-m55-c3 1al2-a1-m56-c3_1al2-a1-m58-c3 1al2-a1-m56-c3_1al2-a1-m59-c3 1al2-a1-m57-c3_1al2-a1-m59-c3 1al2-a1-m57-c3_1al2-a1-m60-c3 1al2-a1-m58-c3_1al2-a1-m60-c3 1al2-a1-m6-c3_1al2-a1-m8-c3 1al2-a1-m6-c3_1al2-a1-m9-c3 1al2-a1-m7-c3_1al2-a1-m9-c3 1ar6-a1-m10-c3_1ar6-a1-m7-c3 1ar6-a1-m10-c3_1ar6-a1-m8-c3 1ar6-a1-m11-c3_1ar6-a1-m13-c3 1ar6-a1-m11-c3_1ar6-a1-m14-c3 1ar6-a1-m12-c3_1ar6-a1-m14-c3 1ar6-a1-m12-c3_1ar6-a1-m15-c3 1ar6-a1-m13-c3_1ar6-a1-m15-c3 1ar6-a1-m16-c3_1ar6-a1-m18-c3 1ar6-a1-m16-c3_1ar6-a1-m19-c3 1ar6-a1-m17-c3_1ar6-a1-m19-c3 1ar6-a1-m17-c3_1ar6-a1-m20-c3 1ar6-a1-m18-c3_1ar6-a1-m20-c3 1ar6-a1-m1-c3_1ar6-a1-m3-c3 1ar6-a1-m1-c3_1ar6-a1-m4-c3 1ar6-a1-m21-c3_1ar6-a1-m23-c3 1ar6-a1-m21-c3_1ar6-a1-m24-c3 1ar6-a1-m22-c3_1ar6-a1-m24-c3 1ar6-a1-m22-c3_1ar6-a1-m25-c3 1ar6-a1-m23-c3_1ar6-a1-m25-c3 1ar6-a1-m26-c3_1ar6-a1-m28-c3 1ar6-a1-m26-c3_1ar6-a1-m29-c3 1ar6-a1-m27-c3_1ar6-a1-m29-c3 1ar6-a1-m27-c3_1ar6-a1-m30-c3 1ar6-a1-m28-c3_1ar6-a1-m30-c3 1ar6-a1-m2-c3_1ar6-a1-m4-c3 1ar6-a1-m2-c3_1ar6-a1-m5-c3 1ar6-a1-m31-c3_1ar6-a1-m33-c3 1ar6-a1-m31-c3_1ar6-a1-m34-c3 1ar6-a1-m32-c3_1ar6-a1-m34-c3 1ar6-a1-m32-c3_1ar6-a1-m35-c3 1ar6-a1-m33-c3_1ar6-a1-m35-c3 1ar6-a1-m36-c3_1ar6-a1-m38-c3 1ar6-a1-m36-c3_1ar6-a1-m39-c3 1ar6-a1-m37-c3_1ar6-a1-m39-c3 1ar6-a1-m37-c3_1ar6-a1-m40-c3 1ar6-a1-m38-c3_1ar6-a1-m40-c3 1ar6-a1-m3-c3_1ar6-a1-m5-c3 1ar6-a1-m41-c3_1ar6-a1-m43-c3 1ar6-a1-m41-c3_1ar6-a1-m44-c3 1ar6-a1-m42-c3_1ar6-a1-m44-c3 1ar6-a1-m42-c3_1ar6-a1-m45-c3 1ar6-a1-m43-c3_1ar6-a1-m45-c3 1ar6-a1-m46-c3_1ar6-a1-m48-c3 1ar6-a1-m46-c3_1ar6-a1-m49-c3 1ar6-a1-m47-c3_1ar6-a1-m49-c3 1ar6-a1-m47-c3_1ar6-a1-m50-c3 1ar6-a1-m48-c3_1ar6-a1-m50-c3 1ar6-a1-m51-c3_1ar6-a1-m53-c3 1ar6-a1-m51-c3_1ar6-a1-m54-c3 1ar6-a1-m52-c3_1ar6-a1-m54-c3 1ar6-a1-m52-c3_1ar6-a1-m55-c3 1ar6-a1-m53-c3_1ar6-a1-m55-c3 1ar6-a1-m56-c3_1ar6-a1-m58-c3 1ar6-a1-m56-c3_1ar6-a1-m59-c3 1ar6-a1-m57-c3_1ar6-a1-m59-c3 1ar6-a1-m57-c3_1ar6-a1-m60-c3 1ar6-a1-m58-c3_1ar6-a1-m60-c3 1ar6-a1-m6-c3_1ar6-a1-m8-c3 1ar6-a1-m6-c3_1ar6-a1-m9-c3 1ar6-a1-m7-c3_1ar6-a1-m9-c3 1ar7-a1-m10-c3_1ar7-a1-m7-c3 1ar7-a1-m10-c3_1ar7-a1-m8-c3 1ar7-a1-m11-c3_1ar7-a1-m13-c3 1ar7-a1-m11-c3_1ar7-a1-m14-c3 1ar7-a1-m12-c3_1ar7-a1-m14-c3 1ar7-a1-m12-c3_1ar7-a1-m15-c3 1ar7-a1-m13-c3_1ar7-a1-m15-c3 1ar7-a1-m16-c3_1ar7-a1-m18-c3 1ar7-a1-m16-c3_1ar7-a1-m19-c3 1ar7-a1-m17-c3_1ar7-a1-m19-c3 1ar7-a1-m17-c3_1ar7-a1-m20-c3 1ar7-a1-m18-c3_1ar7-a1-m20-c3 1ar7-a1-m1-c3_1ar7-a1-m3-c3 1ar7-a1-m1-c3_1ar7-a1-m4-c3 1ar7-a1-m21-c3_1ar7-a1-m23-c3 1ar7-a1-m21-c3_1ar7-a1-m24-c3 1ar7-a1-m22-c3_1ar7-a1-m24-c3 1ar7-a1-m22-c3_1ar7-a1-m25-c3 1ar7-a1-m23-c3_1ar7-a1-m25-c3 1ar7-a1-m26-c3_1ar7-a1-m28-c3 1ar7-a1-m26-c3_1ar7-a1-m29-c3 1ar7-a1-m27-c3_1ar7-a1-m29-c3 1ar7-a1-m27-c3_1ar7-a1-m30-c3 1ar7-a1-m28-c3_1ar7-a1-m30-c3 1ar7-a1-m2-c3_1ar7-a1-m4-c3 1ar7-a1-m2-c3_1ar7-a1-m5-c3 1ar7-a1-m31-c3_1ar7-a1-m33-c3 1ar7-a1-m31-c3_1ar7-a1-m34-c3 1ar7-a1-m32-c3_1ar7-a1-m34-c3 1ar7-a1-m32-c3_1ar7-a1-m35-c3 1ar7-a1-m33-c3_1ar7-a1-m35-c3 1ar7-a1-m36-c3_1ar7-a1-m38-c3 1ar7-a1-m36-c3_1ar7-a1-m39-c3 1ar7-a1-m37-c3_1ar7-a1-m39-c3 1ar7-a1-m37-c3_1ar7-a1-m40-c3 1ar7-a1-m38-c3_1ar7-a1-m40-c3 1ar7-a1-m3-c3_1ar7-a1-m5-c3 1ar7-a1-m41-c3_1ar7-a1-m43-c3 1ar7-a1-m41-c3_1ar7-a1-m44-c3 1ar7-a1-m42-c3_1ar7-a1-m44-c3 1ar7-a1-m42-c3_1ar7-a1-m45-c3 1ar7-a1-m43-c3_1ar7-a1-m45-c3 1ar7-a1-m46-c3_1ar7-a1-m48-c3 1ar7-a1-m46-c3_1ar7-a1-m49-c3 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6p9o-a1-m51-c3_6p9o-a1-m54-c3 6p9o-a1-m52-c3_6p9o-a1-m54-c3 6p9o-a1-m52-c3_6p9o-a1-m55-c3 6p9o-a1-m53-c3_6p9o-a1-m55-c3 6p9o-a1-m56-c3_6p9o-a1-m58-c3 6p9o-a1-m56-c3_6p9o-a1-m59-c3 6p9o-a1-m57-c3_6p9o-a1-m59-c3 6p9o-a1-m57-c3_6p9o-a1-m60-c3 6p9o-a1-m58-c3_6p9o-a1-m60-c3 6p9o-a1-m6-c3_6p9o-a1-m8-c3 6p9o-a1-m6-c3_6p9o-a1-m9-c3 6p9o-a1-m7-c3_6p9o-a1-m9-c3 GLPVMNTPGSNQYLTADNFQSPCALPEFDVTPPIDIPGEVKNMMELAEIDTMIPFDLSATKKNTMEMYRVRLSDKPHTDDPILCLSLSPASDPRLSHTMLGEILNYYTHWAGSLKFTFLFCGSMMATGKLLVSYAPPGADPPKKRKEAMLGTHVIWDIGLQSSCTMVVPWISNTTYRQTIDDSFTEGGYISVFYQTRIVVPLSTPREMDILGFVSACNDFSVRLLRDTTHIEQKA GLPVMNTPGSNQYLTADNFQSPCALPEFDVTPPIDIPGEVKNMMELAEIDTMIPFDLSATKKNTMEMYRVRLSDKPHTDDPILCLSLSPASDPRLSHTMLGEILNYYTHWAGSLKFTFLFCGSMMATGKLLVSYAPPGADPPKKRKEAMLGTHVIWDIGLQSSCTMVVPWISNTTYRQTIDDSFTEGGYISVFYQTRIVVPLSTPREMDILGFVSACNDFSVRLLRDTTHIEQKA 1ask-a1-m1-cB_1ask-a1-m1-cA NUCLEAR TRANSPORT FACTOR 2 (NTF2) H66A MUTANT P61972 P61972 2.3 X-RAY DIFFRACTION 71 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 120 125 1ar0-a1-m1-cB_1ar0-a1-m1-cA 1gy5-a1-m1-cA_1gy5-a1-m1-cB 1gy6-a1-m1-cB_1gy6-a1-m1-cA 1jb2-a1-m1-cA_1jb2-a1-m1-cB 1jb4-a1-m1-cA_1jb4-a1-m1-cB 1jb5-a1-m1-cA_1jb5-a1-m1-cB 1oun-a1-m1-cB_1oun-a1-m1-cA 1qma-a1-m1-cB_1qma-a1-m1-cA 1qma-a2-m1-cD_1qma-a2-m1-cC 1u5o-a1-m1-cB_1u5o-a1-m1-cA 5bxq-a1-m1-cA_5bxq-a1-m1-cB KPIWEQIGSSFIQHYYQLFDNDRTQLGAIYIDASCLTWEGQQFQGKAAIVEKLSSLPFQKIQASITAQDHQPTPDSCIISMVVGQLKADEDPIMGFHQMFLLKNINDAWVCTNDMFRLAL GDKPIWEQIGSSFIQHYYQLFDNDRTQLGAIYIDASCLTWEGQQFQGKAAIVEKLSSLPFQKIQASITAQDHQPTPDSCIISMVVGQLKADEDPIMGFHQMFLLKNINDAWVCTNDMFRLALHNF 1ass-a1-m1-cA_1ass-a1-m2-cA APICAL DOMAIN OF THE CHAPERONIN FROM THERMOPLASMA ACIDOPHILUM P48424 P48424 2.3 X-RAY DIFFRACTION 80 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 152 152 1asx-a1-m1-cA_1asx-a1-m2-cA MSGIVIDKEKVHSKMPDVVKNAKIALIDSALEIKKTEIEAKVQISDPSKIQDFLNQETNTFKQMVEKIKKSGANVVLCQKGIDDVAQHYLAKEGIYAVRRVKKSDMEKLAKATGAKIVTDLDDLTPSVLGEAETVEERKIGDDRMTFVMGCK MSGIVIDKEKVHSKMPDVVKNAKIALIDSALEIKKTEIEAKVQISDPSKIQDFLNQETNTFKQMVEKIKKSGANVVLCQKGIDDVAQHYLAKEGIYAVRRVKKSDMEKLAKATGAKIVTDLDDLTPSVLGEAETVEERKIGDDRMTFVMGCK 1asy-a1-m1-cA_1asy-a1-m1-cB CLASS II AMINOACYL TRANSFER RNA SYNTHETASES: CRYSTAL STRUCTURE OF YEAST ASPARTYL-TRNA SYNTHETASE COMPLEXED WITH TRNA ASP P04802 P04802 2.9 X-RAY DIFFRACTION 267 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 490 490 1asz-a1-m1-cA_1asz-a1-m1-cB 1eov-a1-m1-cA_1eov-a1-m2-cA EDTAKDNYGKLPLIQSRDSDRTGQKRVKFVDLDEAKDSDKEVLFRARVHNTRQQGATLAFLTLRQQASLIQGLVKANKEGTISKNMVKWAGSLNLESIVLVRGIVKKVDEPIKSATVQNLEIHITKIYTISETPEALPILLEDASRSEAEAEAAGLPVVNLDTRLDYRVIDLRTVTNQAIFRIQAGVCELFREYLATKKFTEVHTPKLLGAPSEGGSSVFEVTYFKGKAYLAQSPQFNKQQLIVADFERVYEIGPVFRAENSNTHRHMTEFTGLDMEMAFEEHYHEVLDTLSELFVFIFSELPKRFAHEIELVRKQYPVEEFKLPKDGKMVRLTYKEGIEMLRAAGKEIGDFEDLSTENEKFLGKLVRDKYDTDFYILDKFPLEIRPFYTMPDPANPKYSNSYDFFMRGEEILSGAQRIHDHALLQERMKAHGLSPEDPGLKDYCDGFSYGCPPHAGGGIGLERVVMFYLDLKNIRRASLFPRDPKRLRP EDTAKDNYGKLPLIQSRDSDRTGQKRVKFVDLDEAKDSDKEVLFRARVHNTRQQGATLAFLTLRQQASLIQGLVKANKEGTISKNMVKWAGSLNLESIVLVRGIVKKVDEPIKSATVQNLEIHITKIYTISETPEALPILLEDASRSEAEAEAAGLPVVNLDTRLDYRVIDLRTVTNQAIFRIQAGVCELFREYLATKKFTEVHTPKLLGAPSEGGSSVFEVTYFKGKAYLAQSPQFNKQQLIVADFERVYEIGPVFRAENSNTHRHMTEFTGLDMEMAFEEHYHEVLDTLSELFVFIFSELPKRFAHEIELVRKQYPVEEFKLPKDGKMVRLTYKEGIEMLRAAGKEIGDFEDLSTENEKFLGKLVRDKYDTDFYILDKFPLEIRPFYTMPDPANPKYSNSYDFFMRGEEILSGAQRIHDHALLQERMKAHGLSPEDPGLKDYCDGFSYGCPPHAGGGIGLERVVMFYLDLKNIRRASLFPRDPKRLRP 1at0-a1-m1-cA_1at0-a1-m2-cA 17-kDA fragment of hedgehog C-terminal autoprocessing domain Q02936 Q02936 1.9 X-RAY DIFFRACTION 18 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 142 142 CFTPESTALLESGVRKPLGELSIGDRVLSTANGQAVYSEVILFDRNLEQQNFVQLHTDGGAVLTVTPAHLVSVWQPESQKLTFVFADRIEEKNQVLVRDVETGELRPQRVVKVGSVRSKGVVAPLTREGTIVVNSVAASCYA CFTPESTALLESGVRKPLGELSIGDRVLSTANGQAVYSEVILFDRNLEQQNFVQLHTDGGAVLTVTPAHLVSVWQPESQKLTFVFADRIEEKNQVLVRDVETGELRPQRVVKVGSVRSKGVVAPLTREGTIVVNSVAASCYA 1at3-a1-m1-cA_1at3-a1-m2-cA HERPES SIMPLEX VIRUS TYPE II PROTEASE Q69527 Q69527 2.5 X-RAY DIFFRACTION 35 1.0 10310 (Human alphaherpesvirus 2) 10310 (Human alphaherpesvirus 2) 217 217 RAVPIYVAGFLALYDSGDPGELALDPDTVRAALPPENPLPINVDHRARCEVGRVLAVVNDPRGPFFVGLIACVQLERVLETAASAAILSREERLLYLITNYLPSVSLSTKPDRTLFAHVALCAIGRRLGTIVTYDTSLDAAIAPFRHLDPATREGVRREAAEAELALAGRTWAPGVEALTHTLLSTAVNNMMLRDRWSLVAERRRQAGIAGHTYLQA RAVPIYVAGFLALYDSGDPGELALDPDTVRAALPPENPLPINVDHRARCEVGRVLAVVNDPRGPFFVGLIACVQLERVLETAASAAILSREERLLYLITNYLPSVSLSTKPDRTLFAHVALCAIGRRLGTIVTYDTSLDAAIAPFRHLDPATREGVRREAAEAELALAGRTWAPGVEALTHTLLSTAVNNMMLRDRWSLVAERRRQAGIAGHTYLQA 1at3-a2-m1-cA_1at3-a2-m1-cB HERPES SIMPLEX VIRUS TYPE II PROTEASE Q69527 Q69527 2.5 X-RAY DIFFRACTION 73 1.0 10310 (Human alphaherpesvirus 2) 10310 (Human alphaherpesvirus 2) 217 217 1at3-a1-m1-cA_1at3-a1-m1-cB 1at3-a1-m2-cA_1at3-a1-m2-cB RAVPIYVAGFLALYDSGDPGELALDPDTVRAALPPENPLPINVDHRARCEVGRVLAVVNDPRGPFFVGLIACVQLERVLETAASAAILSREERLLYLITNYLPSVSLSTKPDRTLFAHVALCAIGRRLGTIVTYDTSLDAAIAPFRHLDPATREGVRREAAEAELALAGRTWAPGVEALTHTLLSTAVNNMMLRDRWSLVAERRRQAGIAGHTYLQA RAVPIYVAGFLALYDSGDPGELALDPDTVRAALPPENPLPINVDHRARCEVGRVLAVVNDPRGPFFVGLIACVQLERVLETAASAAILSREERLLYLITNYLPSVSLSTKPDRTLFAHVALCAIGRRLGTIVTYDTSLDAAIAPFRHLDPATREGVRREAAEAELALAGRTWAPGVEALTHTLLSTAVNNMMLRDRWSLVAERRRQAGIAGHTYLQA 1atj-a1-m1-cA_1atj-a1-m1-cD RECOMBINANT HORSERADISH PEROXIDASE C1A P00433 P00433 2.15 X-RAY DIFFRACTION 45 1.0 3704 (Armoracia rusticana) 3704 (Armoracia rusticana) 306 306 QLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDFDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS QLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDFDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS 1atj-a1-m1-cA_1atj-a1-m1-cE RECOMBINANT HORSERADISH PEROXIDASE C1A P00433 P00433 2.15 X-RAY DIFFRACTION 28 1.0 3704 (Armoracia rusticana) 3704 (Armoracia rusticana) 306 306 1atj-a1-m1-cA_1atj-a1-m1-cF 1atj-a1-m1-cB_1atj-a1-m1-cD 1atj-a1-m1-cC_1atj-a1-m1-cE QLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDFDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS QLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDFDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS 1atj-a1-m1-cB_1atj-a1-m1-cE RECOMBINANT HORSERADISH PEROXIDASE C1A P00433 P00433 2.15 X-RAY DIFFRACTION 12 1.0 3704 (Armoracia rusticana) 3704 (Armoracia rusticana) 306 306 QLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDFDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS QLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDFDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS 1au1-a1-m1-cB_1au1-a1-m1-cA HUMAN INTERFERON-BETA CRYSTAL STRUCTURE P01574 P01574 2.2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 166 MSYNLLGFLQRSSNFQCQKLLWQLNGRCLKDRMNFDIPEEIKQLQQFQKEDAALTIYEMLQNIFAIFRQDSSSTGWNETIVENLLANVYHQINHLKTVLEEKLEKEDFTRGKLMSSLHLKRYYGRILHYLKAKEYSHCAWTIVRVEILRNFYFINRLTGYLRN MSYNLLGFLQRSSNFQCQKLLWQLNGRLEYCLKDRMNFDIPEEIKQLQQFQKEDAALTIYEMLQNIFAIFRQDSSSTGWNETIVENLLANVYHQINHLKTVLEEKLEKEDFTRGKLMSSLHLKRYYGRILHYLKAKEYSHCAWTIVRVEILRNFYFINRLTGYLRN 1au7-a1-m1-cB_1au7-a1-m1-cA PIT-1 MUTANT/DNA COMPLEX P10037 P10037 2.3 X-RAY DIFFRACTION 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 128 130 GMRALEQFANEFKVRRIKLGYTQTNVGEALAAVHGSEFSQTTICRFENLQLSFKNACKLKAILSKWLEEAKRRTTISIAAKDALERHFGEHSKPSSQEIMRMAEELNLEKEVVRVWFCNRRQREKRVK GMRALEQFANEFKVRRIKLGYTQTNVGEALAAVHGSEFSQTTICRFENLQLSFKNACKLKAILSKWLEEAEQKRRTTISIAAKDALERHFGEHSKPSSQEIMRMAEELNLEKEVVRVWFCNRRQREKRVK 1aua-a1-m1-cA_1aua-a1-m2-cA PHOSPHATIDYLINOSITOL TRANSFER PROTEIN SEC14P FROM SACCHAROMYCES CEREVISIAE P24280 P24280 2.5 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 296 296 QQEKEFLESYPQNCPPDALPGTPGNLDSAQEKALAELRKLLEDAGFIERLDDSTLLRFLRARKFDVQLAKEMFENCEKWRKDYGTDTILQDFHYDEKPLIAKFYPQYYHKTDKDGRPVYFEELGAVNLHEMNKVTSEERMLKNLVWEYESVVQYRLPACSRAAGHLVETSCTIMDLKGISISSAYSVMSYVREASYISQNYYPERMGKFYIINAPFGFSTAFRLFKPFLDPVTVSKIFILGSSYQKELLKQIPAENLPVKFGGKSEVDESKGGLYLSDIGPWRDPKYIGPEGEAPE QQEKEFLESYPQNCPPDALPGTPGNLDSAQEKALAELRKLLEDAGFIERLDDSTLLRFLRARKFDVQLAKEMFENCEKWRKDYGTDTILQDFHYDEKPLIAKFYPQYYHKTDKDGRPVYFEELGAVNLHEMNKVTSEERMLKNLVWEYESVVQYRLPACSRAAGHLVETSCTIMDLKGISISSAYSVMSYVREASYISQNYYPERMGKFYIINAPFGFSTAFRLFKPFLDPVTVSKIFILGSSYQKELLKQIPAENLPVKFGGKSEVDESKGGLYLSDIGPWRDPKYIGPEGEAPE 1auo-a1-m1-cA_1auo-a1-m1-cB CARBOXYLESTERASE FROM PSEUDOMONAS FLUORESCENS Q53547 Q53547 1.8 X-RAY DIFFRACTION 69 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 218 218 1aur-a1-m1-cA_1aur-a1-m1-cB MTEPLILQPAKPADACVIWLHGLGADRYDFMPVAEALQESLLTTRFVLPQAPTRPVTINGGYEMPSWYDIKAMSPARSISLEELEVSAKMVTDLIEAQKRTGIDASRIFLAGFSQGGAVVFHTAFINWQGPLGGVIALSTYAPTFGDELELSASQQRIPALCLHGQYDDVVQNAMGRSAFEHLKSRGVTVTWQEYPMGHEVLPQEIHDIGAWLAARLG MTEPLILQPAKPADACVIWLHGLGADRYDFMPVAEALQESLLTTRFVLPQAPTRPVTINGGYEMPSWYDIKAMSPARSISLEELEVSAKMVTDLIEAQKRTGIDASRIFLAGFSQGGAVVFHTAFINWQGPLGGVIALSTYAPTFGDELELSASQQRIPALCLHGQYDDVVQNAMGRSAFEHLKSRGVTVTWQEYPMGHEVLPQEIHDIGAWLAARLG 1auu-a1-m1-cA_1auu-a1-m1-cB SOLUTION STRUCTURE OF THE RNA-BINDING DOMAIN OF THE ANTITERMINATOR PROTEIN SACY, NMR, 10 STRUCTURES P15401 P15401 NOT SOLUTION NMR 46 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 55 55 MKIKRILNHNAIVVKDQNEEKILLGAGIAFNKKKNDIVDPSKIEKTFIRKDTPDY MKIKRILNHNAIVVKDQNEEKILLGAGIAFNKKKNDIVDPSKIEKTFIRKDTPDY 1auv-a1-m1-cA_1auv-a1-m2-cB STRUCTURE OF THE C DOMAIN OF SYNAPSIN IA FROM BOVINE BRAIN P17599 P17599 2.15 X-RAY DIFFRACTION 20 0.996 9913 (Bos taurus) 9913 (Bos taurus) 282 283 1auv-a1-m2-cA_1auv-a1-m1-cB 1aux-a1-m1-cA_1aux-a1-m2-cB 1aux-a1-m1-cB_1aux-a1-m2-cA AARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDEVLRNGVKVVRSLKPDFVLIRQHAFSARNGDYRSLVIGLQYAGIPSINSLHSVYNFCDKPWVFAQVRLHKKLGTEEFPLINQTFYPNHKELSSTTYPVVVKGHAHSGGKVKVDNQHDFQDIASVVALTKTYATTEPFIDAKYDVRIQKIGQNYKAYRTLEQIASDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSPLIGDHQDEDKQLIVELVVNKAQA GAAARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDEVLRNGVKVVRSLKPDFVLIRQHAFSARNGDYRSLVIGLQYAGIPSINSLHSVYNFCDKPWVFAQVRLHKKLGTEEFPLINQTFYPNHKELSSTTYPVVVKGHAHSGGKVKVDNQHDFQDIASVVALTKTYATTEPFIDAKYDVRIQKIGQNYKAYRLEQIASDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSPLIGDHQDEDKQLIVELVVNKAQA 1auv-a1-m2-cA_1auv-a1-m2-cB STRUCTURE OF THE C DOMAIN OF SYNAPSIN IA FROM BOVINE BRAIN P17599 P17599 2.15 X-RAY DIFFRACTION 27 0.996 9913 (Bos taurus) 9913 (Bos taurus) 282 283 1auv-a1-m1-cA_1auv-a1-m1-cB 1aux-a1-m1-cA_1aux-a1-m1-cB 1aux-a1-m2-cA_1aux-a1-m2-cB AARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDEVLRNGVKVVRSLKPDFVLIRQHAFSARNGDYRSLVIGLQYAGIPSINSLHSVYNFCDKPWVFAQVRLHKKLGTEEFPLINQTFYPNHKELSSTTYPVVVKGHAHSGGKVKVDNQHDFQDIASVVALTKTYATTEPFIDAKYDVRIQKIGQNYKAYRTLEQIASDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSPLIGDHQDEDKQLIVELVVNKAQA GAAARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDEVLRNGVKVVRSLKPDFVLIRQHAFSARNGDYRSLVIGLQYAGIPSINSLHSVYNFCDKPWVFAQVRLHKKLGTEEFPLINQTFYPNHKELSSTTYPVVVKGHAHSGGKVKVDNQHDFQDIASVVALTKTYATTEPFIDAKYDVRIQKIGQNYKAYRLEQIASDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSPLIGDHQDEDKQLIVELVVNKAQA 1auw-a1-m1-cA_1auw-a1-m1-cB H91N DELTA 2 CRYSTALLIN FROM DUCK P24058 P24058 2.5 X-RAY DIFFRACTION 291 1.0 8839 (Anas platyrhynchos) 8839 (Anas platyrhynchos) 447 447 1auw-a1-m1-cC_1auw-a1-m1-cD 1dcn-a1-m1-cA_1dcn-a1-m1-cC 1dcn-a1-m1-cB_1dcn-a1-m1-cD 1hy0-a1-m1-cA_1hy0-a1-m2-cA 1hy0-a1-m1-cB_1hy0-a1-m2-cB 1hy1-a1-m1-cA_1hy1-a1-m1-cC 1hy1-a1-m1-cB_1hy1-a1-m1-cD 1k7w-a1-m1-cB_1k7w-a1-m1-cD 1k7w-a1-m1-cC_1k7w-a1-m1-cA 1tju-a1-m1-cA_1tju-a1-m1-cC 1tju-a1-m1-cD_1tju-a1-m1-cB 1tjv-a1-m1-cA_1tjv-a1-m1-cC 1tjv-a1-m1-cB_1tjv-a1-m1-cD 1tjw-a1-m1-cA_1tjw-a1-m1-cC 1tjw-a1-m1-cB_1tjw-a1-m1-cD 1u15-a1-m1-cB_1u15-a1-m1-cD 1u15-a1-m1-cC_1u15-a1-m1-cA 1u16-a1-m1-cA_1u16-a1-m2-cA 1u16-a1-m3-cA_1u16-a1-m4-cA 1xwo-a1-m1-cA_1xwo-a1-m1-cC 1xwo-a1-m1-cB_1xwo-a1-m1-cD TDPIMEKLNSSIAYDQRLSEVDIQGSMAYAKALEKAGILTKTELEKILSGLEKISEEWSKGVFVVKQSDEDINTANERRLKELIGDIAGKLHTGRSRNDQVVTDLKLFMKNSLSIISTHLLQLIKTLVERAAIEIDVILPGYTHLQKAQPIRWSQFLLSHAVALTRDSERLGEVKKRINVLPLGSGALAGNPLDIDREMLRSELEFASISLNSMDAISERDFVVEFLSFATLLMIHLSKMAEDLIIYSTSEFGFLTDSDAFSTGSSLMPQKKNPDSLELIRSKAGRVFGRLASILMVLKGLPSTYNKDLQEDKEAVFDVVDTLTAVLQVATGVISTLQISKENMEKALTPEMLATDLALYLVRKGVPFRQAHTASGKAVHLAETKGITINKLSLEDLKSISPQFSSDVSQVFNFVNSVEQYTALGGTAKSSVTTQIEQLRELMKKQK TDPIMEKLNSSIAYDQRLSEVDIQGSMAYAKALEKAGILTKTELEKILSGLEKISEEWSKGVFVVKQSDEDINTANERRLKELIGDIAGKLHTGRSRNDQVVTDLKLFMKNSLSIISTHLLQLIKTLVERAAIEIDVILPGYTHLQKAQPIRWSQFLLSHAVALTRDSERLGEVKKRINVLPLGSGALAGNPLDIDREMLRSELEFASISLNSMDAISERDFVVEFLSFATLLMIHLSKMAEDLIIYSTSEFGFLTDSDAFSTGSSLMPQKKNPDSLELIRSKAGRVFGRLASILMVLKGLPSTYNKDLQEDKEAVFDVVDTLTAVLQVATGVISTLQISKENMEKALTPEMLATDLALYLVRKGVPFRQAHTASGKAVHLAETKGITINKLSLEDLKSISPQFSSDVSQVFNFVNSVEQYTALGGTAKSSVTTQIEQLRELMKKQK 1auw-a1-m1-cB_1auw-a1-m1-cC H91N DELTA 2 CRYSTALLIN FROM DUCK P24058 P24058 2.5 X-RAY DIFFRACTION 121 1.0 8839 (Anas platyrhynchos) 8839 (Anas platyrhynchos) 447 447 1auw-a1-m1-cA_1auw-a1-m1-cD 1dcn-a1-m1-cA_1dcn-a1-m1-cD 1dcn-a1-m1-cB_1dcn-a1-m1-cC 1hy0-a1-m1-cA_1hy0-a1-m2-cB 1hy0-a1-m2-cA_1hy0-a1-m1-cB 1hy1-a1-m1-cA_1hy1-a1-m1-cD 1hy1-a1-m1-cB_1hy1-a1-m1-cC 1k7w-a1-m1-cA_1k7w-a1-m1-cD 1k7w-a1-m1-cB_1k7w-a1-m1-cC 1tju-a1-m1-cA_1tju-a1-m1-cD 1tju-a1-m1-cB_1tju-a1-m1-cC 1tjv-a1-m1-cA_1tjv-a1-m1-cD 1tjv-a1-m1-cB_1tjv-a1-m1-cC 1tjw-a1-m1-cA_1tjw-a1-m1-cD 1tjw-a1-m1-cB_1tjw-a1-m1-cC 1u15-a1-m1-cA_1u15-a1-m1-cD 1u15-a1-m1-cC_1u15-a1-m1-cB 1u16-a1-m1-cA_1u16-a1-m3-cA 1u16-a1-m2-cA_1u16-a1-m4-cA 1xwo-a1-m1-cA_1xwo-a1-m1-cD 1xwo-a1-m1-cB_1xwo-a1-m1-cC TDPIMEKLNSSIAYDQRLSEVDIQGSMAYAKALEKAGILTKTELEKILSGLEKISEEWSKGVFVVKQSDEDINTANERRLKELIGDIAGKLHTGRSRNDQVVTDLKLFMKNSLSIISTHLLQLIKTLVERAAIEIDVILPGYTHLQKAQPIRWSQFLLSHAVALTRDSERLGEVKKRINVLPLGSGALAGNPLDIDREMLRSELEFASISLNSMDAISERDFVVEFLSFATLLMIHLSKMAEDLIIYSTSEFGFLTDSDAFSTGSSLMPQKKNPDSLELIRSKAGRVFGRLASILMVLKGLPSTYNKDLQEDKEAVFDVVDTLTAVLQVATGVISTLQISKENMEKALTPEMLATDLALYLVRKGVPFRQAHTASGKAVHLAETKGITINKLSLEDLKSISPQFSSDVSQVFNFVNSVEQYTALGGTAKSSVTTQIEQLRELMKKQK TDPIMEKLNSSIAYDQRLSEVDIQGSMAYAKALEKAGILTKTELEKILSGLEKISEEWSKGVFVVKQSDEDINTANERRLKELIGDIAGKLHTGRSRNDQVVTDLKLFMKNSLSIISTHLLQLIKTLVERAAIEIDVILPGYTHLQKAQPIRWSQFLLSHAVALTRDSERLGEVKKRINVLPLGSGALAGNPLDIDREMLRSELEFASISLNSMDAISERDFVVEFLSFATLLMIHLSKMAEDLIIYSTSEFGFLTDSDAFSTGSSLMPQKKNPDSLELIRSKAGRVFGRLASILMVLKGLPSTYNKDLQEDKEAVFDVVDTLTAVLQVATGVISTLQISKENMEKALTPEMLATDLALYLVRKGVPFRQAHTASGKAVHLAETKGITINKLSLEDLKSISPQFSSDVSQVFNFVNSVEQYTALGGTAKSSVTTQIEQLRELMKKQK 1av1-a1-m1-cA_1av1-a1-m1-cD CRYSTAL STRUCTURE OF HUMAN APOLIPOPROTEIN A-I P02647 P02647 4 X-RAY DIFFRACTION 164 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 1av1-a1-m1-cB_1av1-a1-m1-cC MLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ MLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 1av1-a1-m1-cB_1av1-a1-m1-cD CRYSTAL STRUCTURE OF HUMAN APOLIPOPROTEIN A-I P02647 P02647 4 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 1av1-a1-m1-cA_1av1-a1-m1-cC MLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ MLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 1av1-a1-m1-cC_1av1-a1-m1-cD CRYSTAL STRUCTURE OF HUMAN APOLIPOPROTEIN A-I P02647 P02647 4 X-RAY DIFFRACTION 171 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 1av1-a1-m1-cA_1av1-a1-m1-cB MLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ MLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 1avb-a1-m1-cA_1avb-a1-m1-cB ARCELIN-1 FROM PHASEOLUS VULGARIS L P19329 P19329 1.9 X-RAY DIFFRACTION 77 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 226 226 SNDASFNVETFNKTNLILQGDATVSSEGHLLLTNVKGNEEDSMGRAFYSAPIQINDRTIDNLASFSTNFTFRINAKNIENSAYGLAFALVPVGSRPKLKGRYLGLFNTTNYDRDAHTVAVVFDTVSNRIEIDVNSIRPIATESCNFGHNNGEKAEVRITYDSPKNDLRVSLLYPSSEEKCHVSATVPLEKEVEDWVSVGFSATSGSKKETTETHNVLSWSFSSNFI SNDASFNVETFNKTNLILQGDATVSSEGHLLLTNVKGNEEDSMGRAFYSAPIQINDRTIDNLASFSTNFTFRINAKNIENSAYGLAFALVPVGSRPKLKGRYLGLFNTTNYDRDAHTVAVVFDTVSNRIEIDVNSIRPIATESCNFGHNNGEKAEVRITYDSPKNDLRVSLLYPSSEEKCHVSATVPLEKEVEDWVSVGFSATSGSKKETTETHNVLSWSFSSNFI 1avh-a3-m1-cA_1avh-a3-m2-cB CRYSTAL AND MOLECULAR STRUCTURE OF HUMAN ANNEXIN V AFTER REFINEMENT. IMPLICATIONS FOR STRUCTURE, MEMBRANE BINDING AND ION CHANNEL FORMATION OF THE ANNEXIN FAMILY OF PROTEINS P08758 P08758 2.3 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 QVLRGTVTDFPGFDERADAETLRKAMKGLGTDEESILTLLTSRSNAQRQEISAAFKTLFGRDLLDDLKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTNEKVLTEIIASRTPEELRAIKQVYEEEYGSSLEDDVVGDTSGYYQRMLVVLLQANRDPDAGIDEAQVEQDAQALFQAGELKWGTDEEKFITIFGTRSVSHLRKVFDKYMTISGFQIEETIDRETSGNLEQLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVMVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGEDD QVLRGTVTDFPGFDERADAETLRKAMKGLGTDEESILTLLTSRSNAQRQEISAAFKTLFGRDLLDDLKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTNEKVLTEIIASRTPEELRAIKQVYEEEYGSSLEDDVVGDTSGYYQRMLVVLLQANRDPDAGIDEAQVEQDAQALFQAGELKWGTDEEKFITIFGTRSVSHLRKVFDKYMTISGFQIEETIDRETSGNLEQLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVMVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGEDD 1avh-a4-m1-cA_1avh-a4-m3-cB CRYSTAL AND MOLECULAR STRUCTURE OF HUMAN ANNEXIN V AFTER REFINEMENT. IMPLICATIONS FOR STRUCTURE, MEMBRANE BINDING AND ION CHANNEL FORMATION OF THE ANNEXIN FAMILY OF PROTEINS P08758 P08758 2.3 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 QVLRGTVTDFPGFDERADAETLRKAMKGLGTDEESILTLLTSRSNAQRQEISAAFKTLFGRDLLDDLKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTNEKVLTEIIASRTPEELRAIKQVYEEEYGSSLEDDVVGDTSGYYQRMLVVLLQANRDPDAGIDEAQVEQDAQALFQAGELKWGTDEEKFITIFGTRSVSHLRKVFDKYMTISGFQIEETIDRETSGNLEQLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVMVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGEDD QVLRGTVTDFPGFDERADAETLRKAMKGLGTDEESILTLLTSRSNAQRQEISAAFKTLFGRDLLDDLKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTNEKVLTEIIASRTPEELRAIKQVYEEEYGSSLEDDVVGDTSGYYQRMLVVLLQANRDPDAGIDEAQVEQDAQALFQAGELKWGTDEEKFITIFGTRSVSHLRKVFDKYMTISGFQIEETIDRETSGNLEQLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVMVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGEDD 1avv-a1-m1-cA_1avv-a1-m2-cA HIV-1 NEF PROTEIN, UNLIGANDED CORE DOMAIN P03406 P03406 3 X-RAY DIFFRACTION 17 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 VPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQRRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPEVLEWRFDSRLAFHHVARELHPEYF VPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQRRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPEVLEWRFDSRLAFHHVARELHPEYF 1aw2-a4-m1-cK_1aw2-a4-m1-cJ TRIOSEPHOSPHATE ISOMERASE OF VIBRIO MARINUS P50921 P50921 2.65 X-RAY DIFFRACTION 115 1.0 90736 (Moritella marina) 90736 (Moritella marina) 254 255 1aw1-a1-m1-cB_1aw1-a1-m1-cA 1aw1-a2-m1-cE_1aw1-a2-m1-cD 1aw1-a3-m1-cH_1aw1-a3-m1-cG 1aw1-a4-m1-cK_1aw1-a4-m1-cJ 1aw2-a1-m1-cB_1aw2-a1-m1-cA 1aw2-a2-m1-cE_1aw2-a2-m1-cD 1aw2-a3-m1-cH_1aw2-a3-m1-cG RHPVVMGNWKLNGSKEMVVDLLNGLNAELEGVTGVDVAVAPPALFVDLAERTLTEAGSAIILGAQNTDLNNSGAFTGDMSPAMLKEFGATHIIIGHSERREYHAESDEFVAKKFAFLKENGLTPVLCIGESDAQNEAGETMAVCARQLDAVINTQGVEALEGAIIAYEPIWAIGTGKAATAEDAQRIHAQIRAHIAEKSEAVAKNVVIQYGGSVKPENAAAYFAQPDIDGALVGGAALDAKSFAAIAKAAAEAK RHPVVMGNWKLNGSKEMVVDLLNGLNAELEGVTGVDVAVAPPALFVDLAERTLTEAGSAIILGAQNTDLNNSGAFTGDMSPAMLKEFGATHIIIGHSERREYHAESDEFVAKKFAFLKENGLTPVLCIGESDAQNEAGETMAVCARQLDAVINTQGVEALEGAIIAYEPIWAIGTGKAATAEDAQRIHAQIRAHIAEKSEAVAKNVVIQYGGSVKPENAAAYFAQPDIDGALVGGAALDAKSFAAIAKAAAEAKA 1aw8-a1-m2-cB_1aw8-a1-m2-cE PYRUVOYL DEPENDENT ASPARTATE DECARBOXYLASE P0A790 P0A790 2.2 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 90 90 1aw8-a1-m1-cB_1aw8-a1-m1-cE 1aw8-a1-m1-cB_1aw8-a1-m2-cE 1aw8-a1-m1-cE_1aw8-a1-m2-cB 1ppy-a1-m1-cB_1ppy-a1-m1-cA 1ppy-a1-m1-cB_1ppy-a1-m2-cA 1ppy-a1-m2-cB_1ppy-a1-m1-cA 1ppy-a1-m2-cB_1ppy-a1-m2-cA 1pqe-a1-m1-cA_1pqe-a1-m3-cA 1pqe-a1-m1-cA_1pqe-a1-m4-cA 1pqe-a1-m2-cA_1pqe-a1-m3-cA 1pqe-a1-m2-cA_1pqe-a1-m4-cA 1pqf-a1-m1-cB_1pqf-a1-m1-cA 1pqf-a1-m1-cB_1pqf-a1-m2-cA 1pqf-a1-m2-cB_1pqf-a1-m1-cA 1pqf-a1-m2-cB_1pqf-a1-m2-cA 1pqh-a1-m1-cB_1pqh-a1-m1-cA 1pqh-a1-m1-cB_1pqh-a1-m2-cA 1pqh-a1-m2-cB_1pqh-a1-m1-cA 1pqh-a1-m2-cB_1pqh-a1-m2-cA 1pt0-a1-m1-cB_1pt0-a1-m1-cA 1pt0-a1-m1-cB_1pt0-a1-m2-cA 1pt0-a1-m2-cB_1pt0-a1-m1-cA 1pt0-a1-m2-cB_1pt0-a1-m2-cA 1pt1-a1-m1-cB_1pt1-a1-m1-cA 1pt1-a1-m1-cB_1pt1-a1-m2-cA 1pt1-a1-m2-cB_1pt1-a1-m1-cA 1pt1-a1-m2-cB_1pt1-a1-m2-cA 1pyq-a1-m1-cB_1pyq-a1-m1-cA 1pyq-a1-m1-cB_1pyq-a1-m2-cA 1pyq-a1-m2-cB_1pyq-a1-m1-cA 1pyq-a1-m2-cB_1pyq-a1-m2-cA 1pyu-a1-m1-cD_1pyu-a1-m1-cB 1pyu-a1-m1-cD_1pyu-a1-m2-cB 1pyu-a1-m2-cD_1pyu-a1-m1-cB 1pyu-a1-m2-cD_1pyu-a1-m2-cB 3tm7-a1-m1-cB_3tm7-a1-m1-cD 3tm7-a1-m1-cB_3tm7-a1-m2-cD 3tm7-a1-m2-cB_3tm7-a1-m1-cD 3tm7-a1-m2-cB_3tm7-a1-m2-cD 3tm7-a2-m1-cB_3tm7-a2-m1-cD 4aok-a1-m1-cE_4aok-a1-m1-cB 4aok-a1-m1-cE_4aok-a1-m2-cB 4aok-a1-m2-cE_4aok-a1-m1-cB 4aok-a1-m2-cE_4aok-a1-m2-cB 4aon-a1-m1-cE_4aon-a1-m1-cB 4aon-a1-m1-cE_4aon-a1-m2-cB 4aon-a1-m2-cE_4aon-a1-m1-cB 4aon-a1-m2-cE_4aon-a1-m2-cB 4azd-a1-m1-cB_4azd-a1-m1-cA 4azd-a1-m1-cB_4azd-a1-m2-cA 4azd-a1-m2-cB_4azd-a1-m1-cA 4azd-a1-m2-cB_4azd-a1-m2-cA 4cry-a1-m1-cG_4cry-a1-m2-cG 4cry-a1-m1-cG_4cry-a1-m3-cG 4cry-a1-m2-cG_4cry-a1-m4-cG 4cry-a1-m3-cG_4cry-a1-m4-cG 4crz-a1-m1-cA_4crz-a1-m2-cA 4crz-a1-m1-cA_4crz-a1-m3-cA 4crz-a1-m2-cA_4crz-a1-m4-cA 4crz-a1-m3-cA_4crz-a1-m4-cA 4cs0-a1-m1-cA_4cs0-a1-m2-cA 4cs0-a1-m1-cA_4cs0-a1-m3-cA 4cs0-a1-m2-cA_4cs0-a1-m4-cA 4cs0-a1-m3-cA_4cs0-a1-m4-cA 5ls7-a1-m1-cD_5ls7-a1-m3-cD 5ls7-a1-m1-cD_5ls7-a1-m4-cD 5ls7-a1-m2-cD_5ls7-a1-m3-cD 5ls7-a1-m2-cD_5ls7-a1-m4-cD 6rxh-a1-m1-cE_6rxh-a1-m1-cB 7a8y-a1-m1-cBBB_7a8y-a1-m1-cEaE 7a8y-a1-m1-cBBB_7a8y-a1-m2-cEaE 7a8y-a1-m1-cEaE_7a8y-a1-m2-cBBB 7a8y-a1-m2-cBBB_7a8y-a1-m2-cEaE CAIDQDFLDAAGILENEAIDIWNVTNGKRFSTYAIAAERGSRIISVNGAAAHCASVGDIVIIASFVTMPDEEARTWRPNVAYFEGDNEMK CAIDQDFLDAAGILENEAIDIWNVTNGKRFSTYAIAAERGSRIISVNGAAAHCASVGDIVIIASFVTMPDEEARTWRPNVAYFEGDNEMK 1awd-a1-m1-cA_1awd-a1-m2-cA FERREDOXIN [2FE-2S] OXIDIZED FORM FROM CHLORELLA FUSCA P56408 P56408 1.4 X-RAY DIFFRACTION 44 1.0 3073 ([Chlorella] fusca) 3073 ([Chlorella] fusca) 94 94 YKVTLKTPSGEETIECPEDTYILDAAEEAGLDLPYSCRAGACSSCAGKVESGEVDQSDQSFLDDAQMGKGFVLTCVAYPTSDVTILTHQEAALY YKVTLKTPSGEETIECPEDTYILDAAEEAGLDLPYSCRAGACSSCAGKVESGEVDQSDQSFLDDAQMGKGFVLTCVAYPTSDVTILTHQEAALY 1ax8-a2-m2-cA_1ax8-a2-m3-cA Human obesity protein, leptin P41159 P41159 2.4 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 1ax8-a2-m1-cA_1ax8-a2-m2-cA 1ax8-a2-m1-cA_1ax8-a2-m3-cA IQKVQDDTKTLIKTIVTRINDILDFIPGLHPILTLSKMDQTLAVYQQILTSMPSRNVIQISNDLENLRDLLHVLAFSKSCHLPEASGLETLDSLGGVLEASGYSTEVVALSRLQGSLQDMLWQLDLSPGC IQKVQDDTKTLIKTIVTRINDILDFIPGLHPILTLSKMDQTLAVYQQILTSMPSRNVIQISNDLENLRDLLHVLAFSKSCHLPEASGLETLDSLGGVLEASGYSTEVVALSRLQGSLQDMLWQLDLSPGC 1axc-a1-m1-cC_1axc-a1-m1-cA HUMAN PCNA P12004 P12004 2.6 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 249 1axc-a1-m1-cA_1axc-a1-m1-cE 1axc-a1-m1-cC_1axc-a1-m1-cE 1u76-a1-m1-cA_1u76-a1-m1-cE 1u76-a1-m1-cC_1u76-a1-m1-cA 1u76-a1-m1-cC_1u76-a1-m1-cE 1u7b-a1-m1-cA_1u7b-a1-m2-cA 1u7b-a1-m1-cA_1u7b-a1-m3-cA 1u7b-a1-m2-cA_1u7b-a1-m3-cA 1ul1-a1-m1-cA_1ul1-a1-m1-cB 1ul1-a1-m1-cC_1ul1-a1-m1-cA 1ul1-a1-m1-cC_1ul1-a1-m1-cB 1vyj-a1-m1-cA_1vyj-a1-m1-cC 1vyj-a1-m1-cA_1vyj-a1-m1-cE 1vyj-a1-m1-cC_1vyj-a1-m1-cE 1vyj-a2-m1-cI_1vyj-a2-m1-cG 1vyj-a2-m1-cI_1vyj-a2-m1-cK 1vyj-a2-m1-cK_1vyj-a2-m1-cG 1vym-a1-m1-cA_1vym-a1-m1-cB 1vym-a1-m1-cA_1vym-a1-m1-cC 1vym-a1-m1-cB_1vym-a1-m1-cC 1w60-a1-m1-cA_1w60-a1-m2-cA 1w60-a1-m1-cA_1w60-a1-m3-cA 1w60-a1-m2-cA_1w60-a1-m3-cA 1w60-a2-m1-cB_1w60-a2-m4-cB 1w60-a2-m1-cB_1w60-a2-m5-cB 1w60-a2-m4-cB_1w60-a2-m5-cB 2zvk-a1-m1-cA_2zvk-a1-m1-cC 2zvk-a1-m1-cB_2zvk-a1-m1-cA 2zvk-a1-m1-cB_2zvk-a1-m1-cC 2zvl-a1-m1-cA_2zvl-a1-m1-cB 2zvl-a1-m1-cA_2zvl-a1-m1-cC 2zvl-a1-m1-cB_2zvl-a1-m1-cC 2zvl-a2-m1-cE_2zvl-a2-m1-cD 2zvl-a2-m1-cF_2zvl-a2-m1-cD 2zvl-a2-m1-cF_2zvl-a2-m1-cE 2zvm-a1-m1-cA_2zvm-a1-m1-cC 2zvm-a1-m1-cB_2zvm-a1-m1-cA 2zvm-a1-m1-cB_2zvm-a1-m1-cC 3ja9-a1-m1-cA_3ja9-a1-m1-cB 3ja9-a1-m1-cA_3ja9-a1-m1-cC 3ja9-a1-m1-cB_3ja9-a1-m1-cC 3p87-a1-m1-cA_3p87-a1-m1-cC 3p87-a1-m1-cA_3p87-a1-m1-cE 3p87-a1-m1-cC_3p87-a1-m1-cE 3p87-a2-m1-cB_3p87-a2-m1-cD 3p87-a2-m1-cB_3p87-a2-m1-cF 3p87-a2-m1-cD_3p87-a2-m1-cF 3p87-a3-m1-cA_3p87-a3-m1-cC 3p87-a3-m1-cA_3p87-a3-m1-cE 3p87-a3-m1-cB_3p87-a3-m1-cD 3p87-a3-m1-cB_3p87-a3-m1-cF 3p87-a3-m1-cC_3p87-a3-m1-cE 3p87-a3-m1-cD_3p87-a3-m1-cF 3tbl-a1-m1-cA_3tbl-a1-m1-cB 3tbl-a1-m1-cA_3tbl-a1-m1-cC 3tbl-a1-m1-cB_3tbl-a1-m1-cC 3vkx-a1-m1-cA_3vkx-a1-m2-cA 3vkx-a1-m1-cA_3vkx-a1-m3-cA 3vkx-a1-m2-cA_3vkx-a1-m3-cA 3wgw-a1-m1-cA_3wgw-a1-m2-cA 3wgw-a1-m1-cA_3wgw-a1-m3-cA 3wgw-a1-m2-cA_3wgw-a1-m3-cA 3wgw-a2-m1-cB_3wgw-a2-m4-cB 3wgw-a2-m1-cB_3wgw-a2-m5-cB 3wgw-a2-m4-cB_3wgw-a2-m5-cB 4d2g-a1-m1-cA_4d2g-a1-m1-cC 4d2g-a1-m1-cB_4d2g-a1-m1-cA 4d2g-a1-m1-cB_4d2g-a1-m1-cC 4rjf-a1-m1-cA_4rjf-a1-m2-cA 4rjf-a1-m1-cA_4rjf-a1-m3-cA 4rjf-a1-m2-cA_4rjf-a1-m3-cA 4rjf-a2-m1-cC_4rjf-a2-m4-cC 4rjf-a2-m1-cC_4rjf-a2-m5-cC 4rjf-a2-m4-cC_4rjf-a2-m5-cC 4rjf-a3-m1-cE_4rjf-a3-m6-cE 4rjf-a3-m1-cE_4rjf-a3-m7-cE 4rjf-a3-m6-cE_4rjf-a3-m7-cE 4ztd-a1-m1-cA_4ztd-a1-m1-cB 4ztd-a1-m1-cC_4ztd-a1-m1-cA 4ztd-a1-m1-cC_4ztd-a1-m1-cB 5e0t-a1-m1-cA_5e0t-a1-m1-cB 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COLI P0AG11 P0AG11 3 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 108 108 1ay9-a1-m1-cA_1ay9-a1-m2-cA DYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR DYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR 1ay9-a1-m2-cA_1ay9-a1-m2-cB WILD-TYPE UMUD' FROM E. COLI P0AG11 P0AG11 3 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 108 108 1ay9-a1-m1-cA_1ay9-a1-m1-cB 1umu-a1-m1-cA_1umu-a1-m1-cB DYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR DYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR 1ay9-a2-m1-cA_1ay9-a2-m2-cB WILD-TYPE UMUD' FROM E. COLI P0AG11 P0AG11 3 X-RAY DIFFRACTION 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 108 108 1ay9-a1-m1-cA_1ay9-a1-m2-cB DYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR DYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR 1az4-a1-m1-cA_1az4-a1-m1-cB ECORV ENDONUCLEASE, UNLIGANDED, FORM B, T93A MUTANT P04390 P04390 2.4 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 187 215 1az3-a1-m1-cA_1az3-a1-m1-cB SLRSDLINALYDVCGIISAEGKIYPLSTIFELFSRPIINKIAEKHGYIVEEPKQQNHYPDFTLYKPSEPNKKIAIDIKATYTENEKKFTLGGYTSFIRNNTKNIVYPFDQYIAHWIIGYVYTRVKTYNINELNEIPKPYKGVKVFLQDKWVIAGDLAGNIGSIHAHYDFVEGKGIFDSEDEFLDYWR SLRSDLINALYDDVCGIISAEGKIYPLGSDTKVLSTIFELFSRPIINKIAEKHGYIVEEPKQQNHYPDFTLYKPSEPNKKIAIDIKATYTNKENEKIKFTLGGYTSFIRNNTKNIVYPFDQYIAHWIIGYVYTRVKTYNINELNEIPKPYKGVKVFLQDKWVIAGDLAGNIGSIHAHYKDFVEGKGIFDSEDEFLDYWRNYEKYNNISEYRNWIY 1azc-a1-m1-cA_1azc-a1-m1-cB STRUCTURE OF APO-AZURIN FROM ALCALIGENES DENITRIFICANS AT 1.8 ANGSTROMS RESOLUTION P00280 P00280 1.8 X-RAY DIFFRACTION 24 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 129 129 1a4b-a1-m1-cA_1a4b-a1-m1-cB 1aiz-a1-m1-cA_1aiz-a1-m1-cB 1azb-a1-m1-cA_1azb-a1-m1-cB AQCEATIESNDAMQYNLKEMVVDKSCKQFTVHLKHVGKMAKVAMGHNWVLTKEADKQGVATDGMNAGLAQDYVKAGDTRVIAHTKVIGGGESDSVTFDVSKLTPGEAYAYFCSFPGHWAMMKGTLKLSN AQCEATIESNDAMQYNLKEMVVDKSCKQFTVHLKHVGKMAKVAMGHNWVLTKEADKQGVATDGMNAGLAQDYVKAGDTRVIAHTKVIGGGESDSVTFDVSKLTPGEAYAYFCSFPGHWAMMKGTLKLSN 1azs-a1-m1-cA_1azs-a1-m2-cA COMPLEX OF GS-ALPHA WITH THE CATALYTIC DOMAINS OF MAMMALIAN ADENYLYL CYCLASE P30803 P30803 2.3 X-RAY DIFFRACTION 16 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 190 190 DMMFHKIYIQKHDNVSILFADIEGFTSLASQCTAQELVMTLNELFARFDKLAAENHCLRIKILGDCYYCVSGLPEARADHAHCCVEMGMDMIEAISLVREMTGVNVNMRVGIHSGRVHCGVLGLRKWQFDVWSNDVTLANHMEAGGKAGRIHITKATLSYLNGDYEVEPGCGGERNAYLKEHSIETFLIL DMMFHKIYIQKHDNVSILFADIEGFTSLASQCTAQELVMTLNELFARFDKLAAENHCLRIKILGDCYYCVSGLPEARADHAHCCVEMGMDMIEAISLVREMTGVNVNMRVGIHSGRVHCGVLGLRKWQFDVWSNDVTLANHMEAGGKAGRIHITKATLSYLNGDYEVEPGCGGERNAYLKEHSIETFLIL 1azs-a1-m1-cB_1azs-a1-m2-cB COMPLEX OF GS-ALPHA WITH THE CATALYTIC DOMAINS OF MAMMALIAN ADENYLYL CYCLASE P26769 P26769 2.3 X-RAY DIFFRACTION 24 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 189 189 HQSYDCVCVMFASIPDFKEFYTESDVNKEGLECLRLLNEIIADFDDLLSKPKFSGVEKIKTIGSTYMAATGLSAIRQYMHIGTMVEFAYALVGKLDAINKHSFNDFKLRVGINHGPVIAGVIGAQKPQYDIWGNTVNVASRMDSTGVLDKIQVTEETSLILQTLGYTCTCRGIINVKGKGDLKTYFVNT HQSYDCVCVMFASIPDFKEFYTESDVNKEGLECLRLLNEIIADFDDLLSKPKFSGVEKIKTIGSTYMAATGLSAIRQYMHIGTMVEFAYALVGKLDAINKHSFNDFKLRVGINHGPVIAGVIGAQKPQYDIWGNTVNVASRMDSTGVLDKIQVTEETSLILQTLGYTCTCRGIINVKGKGDLKTYFVNT 1azt-a1-m1-cA_1azt-a1-m1-cB GS-ALPHA COMPLEXED WITH GTP-GAMMA-S P04896 P04896 2.3 X-RAY DIFFRACTION 65 1.0 9913 (Bos taurus) 9913 (Bos taurus) 335 340 QVYRATHRLLLLGAGESGKSTIVKQMRILHVKATKVQDIKNNLKEAIETIVAAMSNLVPPVELANPENQFRVDYILSVMNVPDFDFPPEFYEHAKALWEDEGVRACYERSNEYQLIDCAQYFLDKIDVIKQDDYVPSDQDLLRCRVLTSGIFETKFQVDKVNFHMFDVGGQRDERRKWIQCFNDVTAIIFVVASSSYNMVIREDNQTNRLQEALNLFKSIWNNRWLRTISVILFLNKQDLLAEKVLAGKSKIEDYFPEFARYTTPEDATPEPGEDPRVTRAKYFIRDEFLRISTASGDGRHYCYPHFTCAVDTENIRRVFNDCRDIIQRMHLRQY QVYRATHRLLLLGAGESGKSTIVKQMRILHVNGFNEKATKVQDIKNNLKEAIETIVAAMSNLVPPVELANPENQFRVDYILSVMNVPDFDFPPEFYEHAKALWEDEGVRACYERSNEYQLIDCAQYFLDKIDVIKQDDYVPSDQDLLRCRVLTSGIFETKFQVDKVNFHMFDVGGQRDERRKWIQCFNDVTAIIFVVASSSYNMVIREDNQTNRLQEALNLFKSIWNNRWLRTISVILFLNKQDLLAEKVLAGKSKIEDYFPEFARYTTPEDATPEPGEDPRVTRAKYFIRDEFLRISTASGDGRHYCYPHFTCAVDTENIRRVFNDCRDIIQRMHLRQY 1azw-a1-m1-cA_1azw-a1-m1-cB PROLINE IMINOPEPTIDASE FROM XANTHOMONAS CAMPESTRIS PV. CITRI P52279 P52279 2.7 X-RAY DIFFRACTION 49 1.0 346 (Xanthomonas citri) 346 (Xanthomonas citri) 313 313 MRTLYPEITPYQQGSLKVDDRHTLYFEQCGNPHGKPVVMLHGGPGGGCNDKMRRFHDPAKYRIVLFDQRGSGRSTPHADLVDNTTWDLVADIERLRTHLGVDRWQVFGGSWGSTLALAYAQTHPQQVTELVLRGIFLLRRFELEWFYQEGASRLFPDAWEHYLNAIPPVERADLMSAFHRRLTSDDEATRLAAAKAWSVWEGATSFLHVDEDFVTGHEDAHFALAFARIENHYFVNGGFFEVEDQLLRDAHRIADIPGVIVHGRYDVVCPLQSAWDLHKAWPKAQLQISPASGHSAFEPENVDALVRATDGFA MRTLYPEITPYQQGSLKVDDRHTLYFEQCGNPHGKPVVMLHGGPGGGCNDKMRRFHDPAKYRIVLFDQRGSGRSTPHADLVDNTTWDLVADIERLRTHLGVDRWQVFGGSWGSTLALAYAQTHPQQVTELVLRGIFLLRRFELEWFYQEGASRLFPDAWEHYLNAIPPVERADLMSAFHRRLTSDDEATRLAAAKAWSVWEGATSFLHVDEDFVTGHEDAHFALAFARIENHYFVNGGFFEVEDQLLRDAHRIADIPGVIVHGRYDVVCPLQSAWDLHKAWPKAQLQISPASGHSAFEPENVDALVRATDGFA 1b0c-a1-m1-cC_1b0c-a1-m2-cC EVIDENCE OF A COMMON DECAMER IN THREE CRYSTAL STRUCTURES OF BPTI, CRYSTALLIZED FROM THIOCYANATE, CHLORIDE OR SULFATE P00974 P00974 2.8 X-RAY DIFFRACTION 16 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG 1b0c-a1-m1-cC_1b0c-a1-m2-cD EVIDENCE OF A COMMON DECAMER IN THREE CRYSTAL STRUCTURES OF BPTI, CRYSTALLIZED FROM THIOCYANATE, CHLORIDE OR SULFATE P00974 P00974 2.8 X-RAY DIFFRACTION 11 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 1b0c-a1-m1-cD_1b0c-a1-m2-cC RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG 1b0n-a5-m1-cA_1b0n-a5-m2-cA SINR PROTEIN/SINI PROTEIN COMPLEX P06533 P06533 1.9 X-RAY DIFFRACTION 21 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 103 103 1b0n-a2-m1-cA_1b0n-a2-m2-cA MIGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLLDEKHETLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQ MIGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLLDEKHETLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQ 1b0n-a6-m1-cA_1b0n-a6-m3-cA SINR PROTEIN/SINI PROTEIN COMPLEX P06533 P06533 1.9 X-RAY DIFFRACTION 48 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 103 103 1b0n-a3-m1-cA_1b0n-a3-m3-cA 1b0n-a4-m1-cA_1b0n-a4-m3-cA MIGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLLDEKHETLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQ MIGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLLDEKHETLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQ 1b0u-a1-m1-cA_1b0u-a1-m2-cA ATP-BINDING SUBUNIT OF THE HISTIDINE PERMEASE FROM SALMONELLA TYPHIMURIUM P02915 P02915 1.5 X-RAY DIFFRACTION 24 1.0 258 258 NKLHVIDLHKRYGGHEVLKGVSLQARAGDVISIIGSSGSGKSTFLRCINFLEKPSEGAIIVNGQNINLVRDKDGQLKVADKNQLRLLRTRLTMVFQHFNLWSHMTVLENVMEAPIQVLGLSKHDARERALKYLAKVGIDERAQGKYPVHLSGGQQQRVSIARALAMEPDVLLFDEPTSALDPELVGEVLRIMQQLAEEGKTMVVVTHEMGFARHVSSHVIFLHQGKIEEEGDPEQVFGNPQSPRLQQFLKGSLKKLEH NKLHVIDLHKRYGGHEVLKGVSLQARAGDVISIIGSSGSGKSTFLRCINFLEKPSEGAIIVNGQNINLVRDKDGQLKVADKNQLRLLRTRLTMVFQHFNLWSHMTVLENVMEAPIQVLGLSKHDARERALKYLAKVGIDERAQGKYPVHLSGGQQQRVSIARALAMEPDVLLFDEPTSALDPELVGEVLRIMQQLAEEGKTMVVVTHEMGFARHVSSHVIFLHQGKIEEEGDPEQVFGNPQSPRLQQFLKGSLKKLEH 1b0x-a1-m1-cA_1b0x-a1-m2-cA THE CRYSTAL STRUCTURE OF AN EPH RECEPTOR SAM DOMAIN REVEALS A MECHANISM FOR MODULAR DIMERIZATION. Q03137 Q03137 2 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 72 72 FSAVVSVGDWLQAIKMDRYKDNFTAAGYTTLEAVVHMSQDDLARIGITAITHQNKILSSVQAMRTQMQQMHG FSAVVSVGDWLQAIKMDRYKDNFTAAGYTTLEAVVHMSQDDLARIGITAITHQNKILSSVQAMRTQMQQMHG 1b1z-a1-m1-cB_1b1z-a1-m1-cD STREPTOCOCCAL PYROGENIC EXOTOXIN A1 P0DJY7 P0DJY7 2.57 X-RAY DIFFRACTION 20 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 218 218 1b1z-a1-m1-cA_1b1z-a1-m1-cC 1fnw-a1-m1-cB_1fnw-a1-m1-cD 1fnw-a2-m1-cE_1fnw-a2-m1-cG DPDPSQLHRSSLVKNLQNIYFLYEGDPVTHENVKSVDQLLSHDLIYNVSGPNYDKLKTELKNQEMATLFKDKNVDIYGVEYYHLCYLCENAERSACIYGGVTNHEGNHLEIPKKIVVKVSIDGIQSLSFDIETNKKMVTAQELDYKVRKYLTDNKQLYTNGPSKYETGYIKFIPKNKESFWFDFFPEPEFTQSKYLMIYKDNETLDSNTSQIEVYLTT DPDPSQLHRSSLVKNLQNIYFLYEGDPVTHENVKSVDQLLSHDLIYNVSGPNYDKLKTELKNQEMATLFKDKNVDIYGVEYYHLCYLCENAERSACIYGGVTNHEGNHLEIPKKIVVKVSIDGIQSLSFDIETNKKMVTAQELDYKVRKYLTDNKQLYTNGPSKYETGYIKFIPKNKESFWFDFFPEPEFTQSKYLMIYKDNETLDSNTSQIEVYLTT 1b25-a1-m1-cA_1b25-a1-m1-cD FORMALDEHYDE FERREDOXIN OXIDOREDUCTASE FROM PYROCOCCUS FURIOSUS Q8U1K3 Q8U1K3 1.85 X-RAY DIFFRACTION 67 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 611 611 1b25-a1-m1-cB_1b25-a1-m1-cC 1b4n-a1-m1-cA_1b4n-a1-m1-cD 1b4n-a1-m1-cB_1b4n-a1-m1-cC MYGWWGRILRVNLTTGEVKVQEYPEEVAKKFIGGRGLAAWILWNEARGVEPLSPENKLIFAAGPFNGLPTPSGGKLVVAAKSPLTGGYGDGNLGTMASVHLRRAGYDALVVEGKAKKPVYIYIEDDNVSILSAEGLWGKTTFETERELKEIHGKNVGVLTIGPAGENLVKYAVVISQEGRAAGRPGMGAVMGSKKLKAVVIRGTKEIPVADKEELKKLSQEAYNEILNSPGYPFWKRQGTMAAVEWCNTNYALPTRNFSDGYFEFARSIDGYTMEGMKVQQRGCPYCNMPCGNVVLDAEGQESELDYENVALLGSNLGIGKLNEVSVLNRIADEMGMDTISLGVSIAHVMEAVERGILKEGPTFGDFKGAKQLALDIAYRKGELGNLAAEGVKAMAEKLGTHDFAMHVKGLEVSGYNCYIYPAMALAYGTSAIGAHHKEAWVIAWEIGTAPIEYKISYDPIKAQKVVELQRLRGGLFEMLTACRLPWVEVGLSLDYYPKLLKAITGVTYTWDDLYKAADRVYSLIRAYWVREFNGKWDRKMDYPPKRWFTEGLKSGPHKGEHLDEKKYDELLSEYYRIRGWDERGIPKKETLKELDLDFVIPELEKVTNLE MYGWWGRILRVNLTTGEVKVQEYPEEVAKKFIGGRGLAAWILWNEARGVEPLSPENKLIFAAGPFNGLPTPSGGKLVVAAKSPLTGGYGDGNLGTMASVHLRRAGYDALVVEGKAKKPVYIYIEDDNVSILSAEGLWGKTTFETERELKEIHGKNVGVLTIGPAGENLVKYAVVISQEGRAAGRPGMGAVMGSKKLKAVVIRGTKEIPVADKEELKKLSQEAYNEILNSPGYPFWKRQGTMAAVEWCNTNYALPTRNFSDGYFEFARSIDGYTMEGMKVQQRGCPYCNMPCGNVVLDAEGQESELDYENVALLGSNLGIGKLNEVSVLNRIADEMGMDTISLGVSIAHVMEAVERGILKEGPTFGDFKGAKQLALDIAYRKGELGNLAAEGVKAMAEKLGTHDFAMHVKGLEVSGYNCYIYPAMALAYGTSAIGAHHKEAWVIAWEIGTAPIEYKISYDPIKAQKVVELQRLRGGLFEMLTACRLPWVEVGLSLDYYPKLLKAITGVTYTWDDLYKAADRVYSLIRAYWVREFNGKWDRKMDYPPKRWFTEGLKSGPHKGEHLDEKKYDELLSEYYRIRGWDERGIPKKETLKELDLDFVIPELEKVTNLE 1b25-a1-m1-cC_1b25-a1-m1-cD FORMALDEHYDE FERREDOXIN OXIDOREDUCTASE FROM PYROCOCCUS FURIOSUS Q8U1K3 Q8U1K3 1.85 X-RAY DIFFRACTION 68 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 611 611 1b25-a1-m1-cA_1b25-a1-m1-cB 1b4n-a1-m1-cA_1b4n-a1-m1-cB 1b4n-a1-m1-cC_1b4n-a1-m1-cD MYGWWGRILRVNLTTGEVKVQEYPEEVAKKFIGGRGLAAWILWNEARGVEPLSPENKLIFAAGPFNGLPTPSGGKLVVAAKSPLTGGYGDGNLGTMASVHLRRAGYDALVVEGKAKKPVYIYIEDDNVSILSAEGLWGKTTFETERELKEIHGKNVGVLTIGPAGENLVKYAVVISQEGRAAGRPGMGAVMGSKKLKAVVIRGTKEIPVADKEELKKLSQEAYNEILNSPGYPFWKRQGTMAAVEWCNTNYALPTRNFSDGYFEFARSIDGYTMEGMKVQQRGCPYCNMPCGNVVLDAEGQESELDYENVALLGSNLGIGKLNEVSVLNRIADEMGMDTISLGVSIAHVMEAVERGILKEGPTFGDFKGAKQLALDIAYRKGELGNLAAEGVKAMAEKLGTHDFAMHVKGLEVSGYNCYIYPAMALAYGTSAIGAHHKEAWVIAWEIGTAPIEYKISYDPIKAQKVVELQRLRGGLFEMLTACRLPWVEVGLSLDYYPKLLKAITGVTYTWDDLYKAADRVYSLIRAYWVREFNGKWDRKMDYPPKRWFTEGLKSGPHKGEHLDEKKYDELLSEYYRIRGWDERGIPKKETLKELDLDFVIPELEKVTNLE MYGWWGRILRVNLTTGEVKVQEYPEEVAKKFIGGRGLAAWILWNEARGVEPLSPENKLIFAAGPFNGLPTPSGGKLVVAAKSPLTGGYGDGNLGTMASVHLRRAGYDALVVEGKAKKPVYIYIEDDNVSILSAEGLWGKTTFETERELKEIHGKNVGVLTIGPAGENLVKYAVVISQEGRAAGRPGMGAVMGSKKLKAVVIRGTKEIPVADKEELKKLSQEAYNEILNSPGYPFWKRQGTMAAVEWCNTNYALPTRNFSDGYFEFARSIDGYTMEGMKVQQRGCPYCNMPCGNVVLDAEGQESELDYENVALLGSNLGIGKLNEVSVLNRIADEMGMDTISLGVSIAHVMEAVERGILKEGPTFGDFKGAKQLALDIAYRKGELGNLAAEGVKAMAEKLGTHDFAMHVKGLEVSGYNCYIYPAMALAYGTSAIGAHHKEAWVIAWEIGTAPIEYKISYDPIKAQKVVELQRLRGGLFEMLTACRLPWVEVGLSLDYYPKLLKAITGVTYTWDDLYKAADRVYSLIRAYWVREFNGKWDRKMDYPPKRWFTEGLKSGPHKGEHLDEKKYDELLSEYYRIRGWDERGIPKKETLKELDLDFVIPELEKVTNLE 1b2p-a1-m1-cB_1b2p-a1-m2-cB NATIVE MANNOSE-SPECIFIC BULB LECTIN FROM SCILLA CAMPANULATA (BLUEBELL) AT 1.7 ANGSTROMS RESOLUTION Q9ZP49 Q9ZP49 1.7 X-RAY DIFFRACTION 23 1.0 81759 (Hyacinthoides hispanica) 81759 (Hyacinthoides hispanica) 119 119 1b2p-a1-m1-cA_1b2p-a1-m2-cA NNIIFSKQPDDNHPQILHATESLEILFGTHVYRFIMQTDCNLVLYDNNNPIWATNTGGLGNGCRAVLQPDGVLVVITNENVTVWQSPVAGKAGHYVLVLQPDRNVVIYGDALWATQTVR NNIIFSKQPDDNHPQILHATESLEILFGTHVYRFIMQTDCNLVLYDNNNPIWATNTGGLGNGCRAVLQPDGVLVVITNENVTVWQSPVAGKAGHYVLVLQPDRNVVIYGDALWATQTVR 1b2p-a2-m1-cA_1b2p-a2-m1-cB NATIVE MANNOSE-SPECIFIC BULB LECTIN FROM SCILLA CAMPANULATA (BLUEBELL) AT 1.7 ANGSTROMS RESOLUTION Q9ZP49 Q9ZP49 1.7 X-RAY DIFFRACTION 120 1.0 81759 (Hyacinthoides hispanica) 81759 (Hyacinthoides hispanica) 119 119 1b2p-a1-m1-cA_1b2p-a1-m1-cB 1b2p-a1-m2-cA_1b2p-a1-m2-cB NNIIFSKQPDDNHPQILHATESLEILFGTHVYRFIMQTDCNLVLYDNNNPIWATNTGGLGNGCRAVLQPDGVLVVITNENVTVWQSPVAGKAGHYVLVLQPDRNVVIYGDALWATQTVR NNIIFSKQPDDNHPQILHATESLEILFGTHVYRFIMQTDCNLVLYDNNNPIWATNTGGLGNGCRAVLQPDGVLVVITNENVTVWQSPVAGKAGHYVLVLQPDRNVVIYGDALWATQTVR 1b37-a4-m1-cB_1b37-a4-m4-cC A 30 ANGSTROM U-SHAPED CATALYTIC TUNNEL IN THE CRYSTAL STRUCTURE OF POLYAMINE OXIDASE O64411 O64411 1.9 X-RAY DIFFRACTION 52 1.0 4577 (Zea mays) 4577 (Zea mays) 462 462 1b37-a4-m1-cA_1b37-a4-m3-cC 1b37-a4-m2-cA_1b37-a4-m4-cC 1b37-a4-m2-cB_1b37-a4-m3-cC 1b5q-a1-m1-cA_1b5q-a1-m3-cC 1b5q-a1-m1-cB_1b5q-a1-m4-cC 1b5q-a1-m2-cA_1b5q-a1-m4-cC 1b5q-a1-m2-cB_1b5q-a1-m3-cC PRVIVVGAGMSGISAAKRLSEAGITDLLILEATDHIGGRMHKTNFAGINVELGANWVEGVNGGKMNPIWPIVNSTLKLRNFRSDFDYLAQNVYKEDGGVYDEDYVQKRIELADSVEEMGEKLSATLHASGRDDMSILAMQRLNEHQPNGPATPVDMVVDYYKFDYEFAEPPRVTSLQNTVPLATFSDFGDDVYFVADQRGYEAVVYYLAGQYLKTDDKSGKIVDPRLQLNKVVREIKYSPGGVTVKTEDNSVYSADYVMVSASLGVLQSDLIQFKPKLPTWKVRAIYQFDMAVYTKIFLKFPRKFWPEGKGREFFLYASSRRGYYGVWQEFEKQYPDANVLLVTVTDEESRRIEQQSDEQTKAEIMQVLRKMFPGKDVPDATDILVPRWWSDRFYKGTFSNWPVGVNRYEYDQLRAPVGRVYFTGEHTSEHYNGYVHGAYLSGIDSAEILINCAQKKMCKYH PRVIVVGAGMSGISAAKRLSEAGITDLLILEATDHIGGRMHKTNFAGINVELGANWVEGVNGGKMNPIWPIVNSTLKLRNFRSDFDYLAQNVYKEDGGVYDEDYVQKRIELADSVEEMGEKLSATLHASGRDDMSILAMQRLNEHQPNGPATPVDMVVDYYKFDYEFAEPPRVTSLQNTVPLATFSDFGDDVYFVADQRGYEAVVYYLAGQYLKTDDKSGKIVDPRLQLNKVVREIKYSPGGVTVKTEDNSVYSADYVMVSASLGVLQSDLIQFKPKLPTWKVRAIYQFDMAVYTKIFLKFPRKFWPEGKGREFFLYASSRRGYYGVWQEFEKQYPDANVLLVTVTDEESRRIEQQSDEQTKAEIMQVLRKMFPGKDVPDATDILVPRWWSDRFYKGTFSNWPVGVNRYEYDQLRAPVGRVYFTGEHTSEHYNGYVHGAYLSGIDSAEILINCAQKKMCKYH 1b3o-a1-m2-cA_1b3o-a1-m4-cA TERNARY COMPLEX OF HUMAN TYPE-II INOSINE MONOPHOSPHATE DEHYDROGENASE WITH 6-CL-IMP AND SELENAZOLE ADENINE DINUCLEOTIDE P12268 P12268 2.9 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 304 304 1b3o-a1-m1-cA_1b3o-a1-m3-cA 1b3o-a1-m1-cA_1b3o-a1-m4-cA 1b3o-a1-m2-cA_1b3o-a1-m3-cA TSYVPDDGLTAQQLFNCGDGLTYNDFLILPGYIDFTADQVDLTSALTKKITLKTPLVSSPMDTVTEAGMAIAMALTGGIGFIHHNCTPEFQANEVRKVKDYPLASKDAKKQLLCGAAIGTHEDDKYRLDLLAQAGVDVVVLDSSQGNSIFQINMIKYIKDKYPNLQVIGGNVVTAAQAKNLIDAGVDALRVGMGSRPQATAVYKVSEYARRFGVPVIADGGIQNVGHIAKALALGASTVMMGSLLAATTEAPGEDKGSIHKFVPYLIAGIQHSCQDIGAKSLTQVRAMMYSGELKFEKRTSSAQ TSYVPDDGLTAQQLFNCGDGLTYNDFLILPGYIDFTADQVDLTSALTKKITLKTPLVSSPMDTVTEAGMAIAMALTGGIGFIHHNCTPEFQANEVRKVKDYPLASKDAKKQLLCGAAIGTHEDDKYRLDLLAQAGVDVVVLDSSQGNSIFQINMIKYIKDKYPNLQVIGGNVVTAAQAKNLIDAGVDALRVGMGSRPQATAVYKVSEYARRFGVPVIADGGIQNVGHIAKALALGASTVMMGSLLAATTEAPGEDKGSIHKFVPYLIAGIQHSCQDIGAKSLTQVRAMMYSGELKFEKRTSSAQ 1b43-a1-m1-cA_1b43-a1-m1-cB FEN-1 FROM P. FURIOSUS O93634 O93634 2 X-RAY DIFFRACTION 62 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 339 339 GVPIGEIIPRKEIELENLYGKKIAIDALNAIYQFLSTIRQKDGTPLMDSKGRITSHLSGLFYRTINLMEAGIKPVYVFDGEPPEFKKKELEKRREAREEAEEKWREALEKGEIEEARKYAQRATRVNEMLIEDAKKLLELMGIPIVQAPSEGEAQAAYMAAKGSVYASASQDYDSLLFGAPRLVRNLTITGKRKLPGKNVYVEIKPELIILEEVLKELKLTREKLIELAILVGTDYNPGGIKGIGLKKALEIVRHSKDPLAKFQKQSDVDLYAIKEFFLNPPVTDNYNLVWRDPDEEGILKFLCDEHDFSEERVKNGLERLKKAIKSGKQSTLESWFKR GVPIGEIIPRKEIELENLYGKKIAIDALNAIYQFLSTIRQKDGTPLMDSKGRITSHLSGLFYRTINLMEAGIKPVYVFDGEPPEFKKKELEKRREAREEAEEKWREALEKGEIEEARKYAQRATRVNEMLIEDAKKLLELMGIPIVQAPSEGEAQAAYMAAKGSVYASASQDYDSLLFGAPRLVRNLTITGKRKLPGKNVYVEIKPELIILEEVLKELKLTREKLIELAILVGTDYNPGGIKGIGLKKALEIVRHSKDPLAKFQKQSDVDLYAIKEFFLNPPVTDNYNLVWRDPDEEGILKFLCDEHDFSEERVKNGLERLKKAIKSGKQSTLESWFKR 1b47-a1-m1-cB_1b47-a1-m1-cC STRUCTURE OF THE N-TERMINAL DOMAIN OF CBL IN COMPLEX WITH ITS BINDING SITE IN ZAP-70 P22681 P22681 2.2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 304 304 1b47-a1-m1-cA_1b47-a1-m1-cB PPGTVDKKMVEKCWKLMDKVVRLCQNPKLALKNSPPYILDLLPDTYQHLRTILSRYEGKMETLGENEYFRVFMENLMKKTKQTISLFKEGKERMYEENSQPRRNLTKLSLIFSHMLAELKGIFPSGLFQGDTFRITKADAAEFWRKAFGEKTIVPWKSFRQALHEVHPISSGLEAMALKSTIDLTCNDYISVFEFDIFTRLFQPWSSLLRNWNSLAVTHPGYMAFLTYDEVKARLQKFIHKPGSYIFRLSCTRLGQWAIGYVTADGNILQTIPHNKPLFQALIDGFREGFYLFPDGRNQNPDLT PPGTVDKKMVEKCWKLMDKVVRLCQNPKLALKNSPPYILDLLPDTYQHLRTILSRYEGKMETLGENEYFRVFMENLMKKTKQTISLFKEGKERMYEENSQPRRNLTKLSLIFSHMLAELKGIFPSGLFQGDTFRITKADAAEFWRKAFGEKTIVPWKSFRQALHEVHPISSGLEAMALKSTIDLTCNDYISVFEFDIFTRLFQPWSSLLRNWNSLAVTHPGYMAFLTYDEVKARLQKFIHKPGSYIFRLSCTRLGQWAIGYVTADGNILQTIPHNKPLFQALIDGFREGFYLFPDGRNQNPDLT 1b48-a1-m1-cA_1b48-a1-m1-cB CRYSTAL STRUCTURE OF MGSTA4-4 IN COMPLEX WITH GSH CONJUGATE OF 4-HYDROXYNONENAL IN ONE SUBUNIT AND GSH IN THE OTHER: EVIDENCE OF SIGNALING ACROSS DIMER INTERFACE IN MGSTA4-4 P24472 P24472 2.6 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 1guk-a1-m1-cB_1guk-a1-m1-cA AAKPKLYYFNGRGRMESIRWLLAAAGVEFEEEFLETREQYEKMQKDGHLLFGQVPLVEIDGMMLTQTRAILSYLAAKYNLYGKDLKERVRIDMYADGTQDLMMMIAVAPFKTPKEKEESYDLILSRAKTRYFPVFEKILKDHGEAFLVGNQLSWADIQLLEAILMVEELSAPVLSDFPLLQAFKTRISNIPTIKKFLQPGSQRKPPPDGPYVEVVRIVLKF AAKPKLYYFNGRGRMESIRWLLAAAGVEFEEEFLETREQYEKMQKDGHLLFGQVPLVEIDGMMLTQTRAILSYLAAKYNLYGKDLKERVRIDMYADGTQDLMMMIAVAPFKTPKEKEESYDLILSRAKTRYFPVFEKILKDHGEAFLVGNQLSWADIQLLEAILMVEELSAPVLSDFPLLQAFKTRISNIPTIKKFLQPGSQRKPPPDGPYVEVVRIVLKF 1b4f-a2-m1-cE_1b4f-a2-m1-cF OLIGOMERIC STRUCTURE OF THE HUMAN EPHB2 RECEPTOR SAM DOMAIN P29323 P29323 1.95 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 77 1b4f-a1-m1-cA_1b4f-a1-m1-cB PDYTSFNTVDEWLEAIKMGQYKESFANAGFTSFDVVSQMMMEDILRVGVTLAGHQKKILNSIQVMRAQMNQIQS RPDYTSFNTVDEWLEAIKMGQYKESFANAGFTSFDVVSQMMMEDILRVGVTLAGHQKKILNSIQVMRAQMNQIQSVE 1b4f-a2-m1-cE_1b4f-a2-m2-cH OLIGOMERIC STRUCTURE OF THE HUMAN EPHB2 RECEPTOR SAM DOMAIN P29323 P29323 1.95 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 76 1b4f-a1-m1-cA_1b4f-a1-m3-cD 1b4f-a1-m2-cC_1b4f-a1-m1-cB 1b4f-a2-m3-cG_1b4f-a2-m1-cF PDYTSFNTVDEWLEAIKMGQYKESFANAGFTSFDVVSQMMMEDILRVGVTLAGHQKKILNSIQVMRAQMNQIQS RPDYTSFNTVDEWLEAIKMGQYKESFANAGFTSFDVVSQMMMEDILRVGVTLAGHQKKILNSIQVMRAQMNQIQSV 1b4p-a1-m1-cA_1b4p-a1-m2-cA CRYSTAL STRUCTURES OF CLASS MU CHIMERIC GST ISOENZYMES M1-2 AND M2-1 P08010 P08010 1.7 X-RAY DIFFRACTION 64 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 217 217 PMILGYWNVRGLTHPIRLLLEYTDSSYEEKRYAMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGSRKITQSNAIMRYLARKHHLCGETEEERIRVDVLENQAMDTRLQLAMVCYSPDFERKKPEYLEGLPEKMKLYSEFLGKQPWFAGNKITYVDFLVYDVLDQHRIFEPKCLDAFPNLKDFVARFEGLKKISDYMKSGRFLSKPIFAKMAFWNPK PMILGYWNVRGLTHPIRLLLEYTDSSYEEKRYAMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGSRKITQSNAIMRYLARKHHLCGETEEERIRVDVLENQAMDTRLQLAMVCYSPDFERKKPEYLEGLPEKMKLYSEFLGKQPWFAGNKITYVDFLVYDVLDQHRIFEPKCLDAFPNLKDFVARFEGLKKISDYMKSGRFLSKPIFAKMAFWNPK 1b4w-a1-m1-cA_1b4w-a1-m1-cD BASIC PHOSPHOLIPASE A2 FROM AGKISTRODON HALYS PALLAS-IMPLICATIONS FOR ITS ASSOCIATION AND ANTICOAGULANT ACTIVITIES BY X-RAY CRYSTALLOGRAPHY O42187 O42187 2.6 X-RAY DIFFRACTION 45 1.0 8714 (Gloydius halys) 8714 (Gloydius halys) 122 122 1b4w-a1-m1-cB_1b4w-a1-m1-cC 1c1j-a1-m1-cA_1c1j-a1-m1-cD 1c1j-a2-m1-cB_1c1j-a2-m1-cC 4hg9-a1-m1-cA_4hg9-a1-m1-cD 4hg9-a2-m1-cB_4hg9-a2-m1-cC HLLQFRKMIKKMTGKEPVVSYAFYGCYCGSGGRGKPKDATDRCCFVHDCCYEKVTGCDPKWDDYTYSWKNGTIVCGGDDPCKKEVCECDKAAAICFRDNLKTYKKRYMAYPDILCSSKSEKC HLLQFRKMIKKMTGKEPVVSYAFYGCYCGSGGRGKPKDATDRCCFVHDCCYEKVTGCDPKWDDYTYSWKNGTIVCGGDDPCKKEVCECDKAAAICFRDNLKTYKKRYMAYPDILCSSKSEKC 1b4w-a1-m1-cC_1b4w-a1-m1-cD BASIC PHOSPHOLIPASE A2 FROM AGKISTRODON HALYS PALLAS-IMPLICATIONS FOR ITS ASSOCIATION AND ANTICOAGULANT ACTIVITIES BY X-RAY CRYSTALLOGRAPHY O42187 O42187 2.6 X-RAY DIFFRACTION 27 1.0 8714 (Gloydius halys) 8714 (Gloydius halys) 122 122 1b4w-a1-m1-cA_1b4w-a1-m1-cB HLLQFRKMIKKMTGKEPVVSYAFYGCYCGSGGRGKPKDATDRCCFVHDCCYEKVTGCDPKWDDYTYSWKNGTIVCGGDDPCKKEVCECDKAAAICFRDNLKTYKKRYMAYPDILCSSKSEKC HLLQFRKMIKKMTGKEPVVSYAFYGCYCGSGGRGKPKDATDRCCFVHDCCYEKVTGCDPKWDDYTYSWKNGTIVCGGDDPCKKEVCECDKAAAICFRDNLKTYKKRYMAYPDILCSSKSEKC 1b5f-a1-m1-cC_1b5f-a1-m1-cA NATIVE CARDOSIN A FROM CYNARA CARDUNCULUS L. Q9XFX3 Q9XFX3 1.72 X-RAY DIFFRACTION 20 1.0 4265 (Cynara cardunculus) 4265 (Cynara cardunculus) 238 239 SAVVALTNDRDTSYFGEIGIGTPPQKFTVIFDTGSSVLWVPSSKCINSKACRAHSMYESSDSSTYKENGTFGAIIYGTGSITGFFSQDSVTIGDLVVKEQDFIEATDEADNVFLHRLFDGILGLSFQTISVPVWYNMLNQGLVKERRFSFWLNRNVDEEEGGELVFGGLDPNHFRGDHTYVPVTYQYYWQFGIGDVLIGDKSTGFCAPGCQAFADSGTSLLSGPTAIVTQINHAIGAN GSAVVALTNDRDTSYFGEIGIGTPPQKFTVIFDTGSSVLWVPSSKCINSKACRAHSMYESSDSSTYKENGTFGAIIYGTGSITGFFSQDSVTIGDLVVKEQDFIEATDEADNVFLHRLFDGILGLSFQTISVPVWYNMLNQGLVKERRFSFWLNRNVDEEEGGELVFGGLDPNHFRGDHTYVPVTYQYYWQFGIGDVLIGDKSTGFCAPGCQAFADSGTSLLSGPTAIVTQINHAIGAN 1b63-a1-m1-cA_1b63-a1-m2-cA MUTL COMPLEXED WITH ADPNP P23367 P23367 1.9 X-RAY DIFFRACTION 123 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 333 333 1b62-a1-m1-cA_1b62-a1-m2-cA 1nhh-a1-m1-cA_1nhh-a1-m2-cA 1nhi-a1-m1-cA_1nhi-a1-m2-cA 1nhj-a1-m1-cA_1nhj-a1-m2-cA 7p8v-a1-m1-cA_7p8v-a1-m1-cB SHMPIQVLPPQLANQIAAGEVVERPASVVKELVENSLDAGATRIDIDIERGGAKLIRIRDNGCGIKKDELALALARHATSKIASLDDLEAIISLGFRGEALASISSVSRLTLTSRTAEQQEAWQAYAEGRDMNVTVKPAAHPVGTTLEVLDLFYNTPARRKFLRTEKTEFNHIDEIIRRIALARFDVTINLSHNGKIVRQYRAVPEGGQKERRLGAICGTAFLEQALAIEWQHGDLTLRGWVADPNHTTPALAEIQYCYVNGRMMRDRLINHAIRQACEDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVLQ SHMPIQVLPPQLANQIAAGEVVERPASVVKELVENSLDAGATRIDIDIERGGAKLIRIRDNGCGIKKDELALALARHATSKIASLDDLEAIISLGFRGEALASISSVSRLTLTSRTAEQQEAWQAYAEGRDMNVTVKPAAHPVGTTLEVLDLFYNTPARRKFLRTEKTEFNHIDEIIRRIALARFDVTINLSHNGKIVRQYRAVPEGGQKERRLGAICGTAFLEQALAIEWQHGDLTLRGWVADPNHTTPALAEIQYCYVNGRMMRDRLINHAIRQACEDKLGADQQPAFVLYLEIDPHQVDVNVHPAKHEVRFHQSRLVHDFIYQGVLSVLQ 1b67-a1-m1-cB_1b67-a1-m1-cA CRYSTAL STRUCTURE OF THE HISTONE HMFA FROM METHANOTHERMUS FERVIDUS P48781 P48781 1.48 X-RAY DIFFRACTION 133 1.0 2180 (Methanothermus fervidus) 2180 (Methanothermus fervidus) 65 68 1hta-a1-m1-cA_1hta-a1-m2-cA ELPIAPIGRIIKNAGAERVSDDARIALAKVLEEMGEEIASEAVKLAKHAGRKTIKAEDIELARKM GELPIAPIGRIIKNAGAERVSDDARIALAKVLEEMGEEIASEAVKLAKHAGRKTIKAEDIELARKMFK 1b6c-a5-m1-cB_1b6c-a5-m2-cH CRYSTAL STRUCTURE OF THE CYTOPLASMIC DOMAIN OF THE TYPE I TGF-BETA RECEPTOR IN COMPLEX WITH FKBP12 P36897 P36897 2.6 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 TTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEG TTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEG 1b6c-a5-m2-cH_1b6c-a5-m4-cF CRYSTAL STRUCTURE OF THE CYTOPLASMIC DOMAIN OF THE TYPE I TGF-BETA RECEPTOR IN COMPLEX WITH FKBP12 P36897 P36897 2.6 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 1b6c-a5-m1-cB_1b6c-a5-m3-cD TTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEG TTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEG 1b6q-a1-m1-cA_1b6q-a1-m2-cA ALANINE 31 PROLINE MUTANT OF ROP PROTEIN P03051 P03051 1.8 X-RAY DIFFRACTION 108 1.0 562 (Escherichia coli) 562 (Escherichia coli) 56 56 MTKQEKTALNMARFIRSQTLTLLEKLNELDPDEQADICESLHDHADELYRSCLARF MTKQEKTALNMARFIRSQTLTLLEKLNELDPDEQADICESLHDHADELYRSCLARF 1b6r-a1-m1-cA_1b6r-a1-m2-cA N5-CARBOXYAMINOIMIDAZOLE RIBONUCLEOTIDE SYNTHETASE FROM E. COLI P09029 P09029 2.1 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 349 349 MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLDAEPAAVPFQQSVITAEIERWPETALTRQLARHPAFVNRDVFPIIADRLTQKQLFDKLHLPTAPWQLLAERSEWPAVFDRLGELAIVKRRTGQWRLRANETEQLPAECYGECIVEQGINFSGEVSLVGARGFDGSTVFYPLTHNLHQDGILRTSVAFPQANAQQQARAEEMLSAIMQELGYVGVMAMECFVTPQGLLINELAPRVHNSGHWTQNGASISQFELHLRAITDLPLPQPVVNNPSVMINLIGSDVNYDWLKLPLVHLHWYDKEVRPGRKVGHLNLTDSDTSRLTATLEALIPLLPPEYASGVIWAQSKFG MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLDAEPAAVPFQQSVITAEIERWPETALTRQLARHPAFVNRDVFPIIADRLTQKQLFDKLHLPTAPWQLLAERSEWPAVFDRLGELAIVKRRTGQWRLRANETEQLPAECYGECIVEQGINFSGEVSLVGARGFDGSTVFYPLTHNLHQDGILRTSVAFPQANAQQQARAEEMLSAIMQELGYVGVMAMECFVTPQGLLINELAPRVHNSGHWTQNGASISQFELHLRAITDLPLPQPVVNNPSVMINLIGSDVNYDWLKLPLVHLHWYDKEVRPGRKVGHLNLTDSDTSRLTATLEALIPLLPPEYASGVIWAQSKFG 1b6u-a1-m1-cA_1b6u-a1-m2-cA CRYSTAL STRUCTURE OF THE HUMAN KILLER CELL INHIBITORY RECEPTOR (KIR2DL3) SPECIFIC FOR HLA-CW3 RELATED ALLELES P43628 P43628 3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 199 HRKPSLLAHPGPLVKSEETVILQCWSDVRFQHFLLHREGKFKDTLHLIGEHHDGVSKANFSIGPMMQDLAGTYRCYGSVTHSPYQLSAPSDPLDIVITGLYEKPSLSAQPGPTVLAGESVTLSCSSRSSYDMYHLSREGEAHERRFSAGPKVNGTFQADFPLGPATHGGTYRCFGSFRDSPYEWSNSSDPLLVSVTGNP HRKPSLLAHPGPLVKSEETVILQCWSDVRFQHFLLHREGKFKDTLHLIGEHHDGVSKANFSIGPMMQDLAGTYRCYGSVTHSPYQLSAPSDPLDIVITGLYEKPSLSAQPGPTVLAGESVTLSCSSRSSYDMYHLSREGEAHERRFSAGPKVNGTFQADFPLGPATHGGTYRCFGSFRDSPYEWSNSSDPLLVSVTGNP 1b74-a1-m1-cA_1b74-a1-m2-cA GLUTAMATE RACEMASE FROM AQUIFEX PYROPHILUS P56868 P56868 2.3 X-RAY DIFFRACTION 104 1.0 2714 (Aquifex pyrophilus) 2714 (Aquifex pyrophilus) 252 252 1b73-a1-m1-cA_1b73-a1-m2-cA MKIGIFDSGVGGLTVLKAIRNRYRKVDIVYLGDTARVPYGIRSKDTIIRYSLECAGFLKDKGVDIIVVACNTASAYALERLKKEINVPVFGVIEPGVKEALKKSRNKKIGVIGTPATVKSGAYQRKLEEGGADVFAKACPLFAPLAEEGLLEGEITRKVVEHYLKEFKGKIDTLILGCTHYPLLKKEIKKFLGDAEVVDSSEALSLSLHNFIKDDGSSSLELFFTDLSPNLQFLIKLILGRDYPVKLAEGVF MKIGIFDSGVGGLTVLKAIRNRYRKVDIVYLGDTARVPYGIRSKDTIIRYSLECAGFLKDKGVDIIVVACNTASAYALERLKKEINVPVFGVIEPGVKEALKKSRNKKIGVIGTPATVKSGAYQRKLEEGGADVFAKACPLFAPLAEEGLLEGEITRKVVEHYLKEFKGKIDTLILGCTHYPLLKKEIKKFLGDAEVVDSSEALSLSLHNFIKDDGSSSLELFFTDLSPNLQFLIKLILGRDYPVKLAEGVF 1b77-a1-m1-cA_1b77-a1-m1-cC BUILDING A REPLISOME STRUCTURE FROM INTERACTING PIECES: A SLIDING CLAMP COMPLEXED WITH AN INTERACTION PEPTIDE FROM DNA POLYMERASE O80164 O80164 2.1 X-RAY DIFFRACTION 29 1.0 12353 (Escherichia phage RB69) 12353 (Escherichia phage RB69) 228 228 1b77-a1-m1-cA_1b77-a1-m1-cB 1b77-a1-m1-cB_1b77-a1-m1-cC 1b8h-a1-m1-cA_1b8h-a1-m1-cB 1b8h-a1-m1-cA_1b8h-a1-m1-cC 1b8h-a1-m1-cB_1b8h-a1-m1-cC MKLSKDTIAILKNFASINSGILLSQGKFIMTRAVNGTTYAEANISDEIDFDVALYDLNSFLSILSLVSDDAEISMHTDGNIKIADTRSTVYWPAADKSTIVFPNKPIQFPVASVITEIKAEDLQQLLRVSRGLQIDTIAITNKDGKIVINGYNKVEDSGLTRPKYSLTLTDYDGSNNFNFVINMANMKIQPGNYKVMLWGAGDKVAAKFESSQVSYVIAMEADSTHDF MKLSKDTIAILKNFASINSGILLSQGKFIMTRAVNGTTYAEANISDEIDFDVALYDLNSFLSILSLVSDDAEISMHTDGNIKIADTRSTVYWPAADKSTIVFPNKPIQFPVASVITEIKAEDLQQLLRVSRGLQIDTIAITNKDGKIVINGYNKVEDSGLTRPKYSLTLTDYDGSNNFNFVINMANMKIQPGNYKVMLWGAGDKVAAKFESSQVSYVIAMEADSTHDF 1b7a-a1-m1-cA_1b7a-a1-m1-cB STRUCTURE OF THE PHOSPHATIDYLETHANOLAMINE-BINDING PROTEIN FROM BOVINE BRAIN P13696 P13696 2.25 X-RAY DIFFRACTION 44 1.0 9913 (Bos taurus) 9913 (Bos taurus) 186 186 PVDLSKWSGPLSLQEVDERPQHPLQVKYGGAEVDELGKVLTPTQVKNRPTSITWDGLDPGKLYTLVLTDPDAPSRKDPKYREWHHFLVVNMKGNNISSGTVLSDYVGSGPPKGTGLHRYVWLVYEQEGPLKCDEPILSNRSGDHRGKFKVASFRKKYELGAPVAGTCYQAEWDDYVPKLYEQLSGK PVDLSKWSGPLSLQEVDERPQHPLQVKYGGAEVDELGKVLTPTQVKNRPTSITWDGLDPGKLYTLVLTDPDAPSRKDPKYREWHHFLVVNMKGNNISSGTVLSDYVGSGPPKGTGLHRYVWLVYEQEGPLKCDEPILSNRSGDHRGKFKVASFRKKYELGAPVAGTCYQAEWDDYVPKLYEQLSGK 1b7e-a1-m1-cA_1b7e-a1-m2-cA TRANSPOSASE INHIBITOR Q46731 Q46731 2.9 X-RAY DIFFRACTION 60 1.0 562 (Escherichia coli) 562 (Escherichia coli) 372 372 SAEAIRKAGAMQTVKLAQEFPELLAIEDTTSLSYRWWVHSVLLLEATTFRTVGLLHQEWWMRPDDPADADEKESGKWLAAAATSRLRMGSMMSNVIAVCDREADIHAYLQDKLAHNERFVVRSKHPRKDVESGLYLYDHLKNQPELGGYQISIPQKGVRPARKASLSLRSGRITLKQGNITLNAVLAEEINPPKGETPLKWLLLTSEPVESLAQALRVIDIYTHRWRIEEFHKAWKTGAGAERQRMPDNLERMVSILSFVAVRLLQLRESFTLPQALRAQGLLKEAEHVESQSAETVLTPDECQLLGYLDKGKRKRKEKGSLQWAYMAIARLGGFMDSKRTGIASWGALWEGWEALQSKLDGFLAAKDLMAQ SAEAIRKAGAMQTVKLAQEFPELLAIEDTTSLSYRWWVHSVLLLEATTFRTVGLLHQEWWMRPDDPADADEKESGKWLAAAATSRLRMGSMMSNVIAVCDREADIHAYLQDKLAHNERFVVRSKHPRKDVESGLYLYDHLKNQPELGGYQISIPQKGVRPARKASLSLRSGRITLKQGNITLNAVLAEEINPPKGETPLKWLLLTSEPVESLAQALRVIDIYTHRWRIEEFHKAWKTGAGAERQRMPDNLERMVSILSFVAVRLLQLRESFTLPQALRAQGLLKEAEHVESQSAETVLTPDECQLLGYLDKGKRKRKEKGSLQWAYMAIARLGGFMDSKRTGIASWGALWEGWEALQSKLDGFLAAKDLMAQ 1b7g-a2-m1-cO_1b7g-a2-m2-cQ GLYCERALDEHYDE 3-PHOSPHATE DEHYDROGENASE P39460 P39460 2.05 X-RAY DIFFRACTION 46 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 340 340 1b7g-a2-m1-cQ_1b7g-a2-m2-cO MVNVAVNGYGTIGKRVADAIIKQPDMKLVGVAKTSPNYEAFIAHRRGIRIYVPQQSIKKFEESGIPVAGTVEDLIKTSDIVVDTTPNGVGAQYKPIYLQLQRNAIFQGGEKAEVADISFSALCNYNEALGKKYIRVVSCNTTALLRTICTVNKVSKVEKVRATIVRRAADQKEVKKGPINSLVPDPATVPSHHAKDVNSVIRNLDIATMAVIAPTTLMHMHFINITLKDKVEKKDILSVLENTPRIVLISSKYDAEATAELVEVARDLKRDRNDIPEVMIFSDSIYVKDDEVMLMYAVHQESIVVPENIDAIRASMKLMSAEDSMRITNESLGILKGYLI MVNVAVNGYGTIGKRVADAIIKQPDMKLVGVAKTSPNYEAFIAHRRGIRIYVPQQSIKKFEESGIPVAGTVEDLIKTSDIVVDTTPNGVGAQYKPIYLQLQRNAIFQGGEKAEVADISFSALCNYNEALGKKYIRVVSCNTTALLRTICTVNKVSKVEKVRATIVRRAADQKEVKKGPINSLVPDPATVPSHHAKDVNSVIRNLDIATMAVIAPTTLMHMHFINITLKDKVEKKDILSVLENTPRIVLISSKYDAEATAELVEVARDLKRDRNDIPEVMIFSDSIYVKDDEVMLMYAVHQESIVVPENIDAIRASMKLMSAEDSMRITNESLGILKGYLI 1b7g-a2-m1-cQ_1b7g-a2-m2-cQ GLYCERALDEHYDE 3-PHOSPHATE DEHYDROGENASE P39460 P39460 2.05 X-RAY DIFFRACTION 139 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 340 340 1b7g-a2-m1-cO_1b7g-a2-m2-cO MVNVAVNGYGTIGKRVADAIIKQPDMKLVGVAKTSPNYEAFIAHRRGIRIYVPQQSIKKFEESGIPVAGTVEDLIKTSDIVVDTTPNGVGAQYKPIYLQLQRNAIFQGGEKAEVADISFSALCNYNEALGKKYIRVVSCNTTALLRTICTVNKVSKVEKVRATIVRRAADQKEVKKGPINSLVPDPATVPSHHAKDVNSVIRNLDIATMAVIAPTTLMHMHFINITLKDKVEKKDILSVLENTPRIVLISSKYDAEATAELVEVARDLKRDRNDIPEVMIFSDSIYVKDDEVMLMYAVHQESIVVPENIDAIRASMKLMSAEDSMRITNESLGILKGYLI MVNVAVNGYGTIGKRVADAIIKQPDMKLVGVAKTSPNYEAFIAHRRGIRIYVPQQSIKKFEESGIPVAGTVEDLIKTSDIVVDTTPNGVGAQYKPIYLQLQRNAIFQGGEKAEVADISFSALCNYNEALGKKYIRVVSCNTTALLRTICTVNKVSKVEKVRATIVRRAADQKEVKKGPINSLVPDPATVPSHHAKDVNSVIRNLDIATMAVIAPTTLMHMHFINITLKDKVEKKDILSVLENTPRIVLISSKYDAEATAELVEVARDLKRDRNDIPEVMIFSDSIYVKDDEVMLMYAVHQESIVVPENIDAIRASMKLMSAEDSMRITNESLGILKGYLI 1b7g-a2-m2-cO_1b7g-a2-m2-cQ GLYCERALDEHYDE 3-PHOSPHATE DEHYDROGENASE P39460 P39460 2.05 X-RAY DIFFRACTION 87 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 340 340 1b7g-a1-m1-cO_1b7g-a1-m1-cQ 1b7g-a2-m1-cO_1b7g-a2-m1-cQ MVNVAVNGYGTIGKRVADAIIKQPDMKLVGVAKTSPNYEAFIAHRRGIRIYVPQQSIKKFEESGIPVAGTVEDLIKTSDIVVDTTPNGVGAQYKPIYLQLQRNAIFQGGEKAEVADISFSALCNYNEALGKKYIRVVSCNTTALLRTICTVNKVSKVEKVRATIVRRAADQKEVKKGPINSLVPDPATVPSHHAKDVNSVIRNLDIATMAVIAPTTLMHMHFINITLKDKVEKKDILSVLENTPRIVLISSKYDAEATAELVEVARDLKRDRNDIPEVMIFSDSIYVKDDEVMLMYAVHQESIVVPENIDAIRASMKLMSAEDSMRITNESLGILKGYLI MVNVAVNGYGTIGKRVADAIIKQPDMKLVGVAKTSPNYEAFIAHRRGIRIYVPQQSIKKFEESGIPVAGTVEDLIKTSDIVVDTTPNGVGAQYKPIYLQLQRNAIFQGGEKAEVADISFSALCNYNEALGKKYIRVVSCNTTALLRTICTVNKVSKVEKVRATIVRRAADQKEVKKGPINSLVPDPATVPSHHAKDVNSVIRNLDIATMAVIAPTTLMHMHFINITLKDKVEKKDILSVLENTPRIVLISSKYDAEATAELVEVARDLKRDRNDIPEVMIFSDSIYVKDDEVMLMYAVHQESIVVPENIDAIRASMKLMSAEDSMRITNESLGILKGYLI 1b88-a1-m1-cA_1b88-a1-m1-cB V-ALPHA 2.6 MOUSE T CELL RECEPTOR (TCR) DOMAIN Q5R1B3 Q5R1B3 2.5 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 MQQVRQSPQSLTVWEGETAILNCSYENSAFDYFPWYQQFPGEGPALLISILSVSNKKEDGRFTIFFNKREKKLSLHIADSQPGDSATYFCAASASFGDNSKLIWGLGTSLVVNP MQQVRQSPQSLTVWEGETAILNCSYENSAFDYFPWYQQFPGEGPALLISILSVSNKKEDGRFTIFFNKREKKLSLHIADSQPGDSATYFCAASASFGDNSKLIWGLGTSLVVNP 1b8k-a1-m1-cA_1b8k-a1-m2-cA Neurotrophin-3 from Human P20783 P20783 2.15 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 YSVCDSESLWVTDKSSAIDIRGHQVTVLGEIVKQYFYETRCKEGCRGIDDKHWNSQCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCAL YSVCDSESLWVTDKSSAIDIRGHQVTVLGEIVKQYFYETRCKEGCRGIDDKHWNSQCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCAL 1b8p-a1-m1-cA_1b8p-a1-m2-cA MALATE DEHYDROGENASE FROM AQUASPIRILLUM ARCTICUM Q9ZF99 Q9ZF99 1.9 X-RAY DIFFRACTION 112 1.0 87645 (Aquaspirillum arcticum) 87645 (Aquaspirillum arcticum) 327 327 1b8u-a1-m1-cA_1b8u-a1-m2-cA 1b8v-a1-m1-cA_1b8v-a1-m2-cA KTPMRVAVTGAAGQICYSLLFRIANGDMLGKDQPVILQLLEIPNEKAQKALQGVMMEIDDCAFPLLAGMTAHADPMTAFKDADVALLVGARPRGPGMERKDLLEANAQIFTVQGKAIDAVASRNIKVLVVGNPANTNAYIAMKSAPSLPAKNFTAMLRLDHNRALSQIAAKTGKPVSSIEKLFVWGNHSPTMYADYRYAQIDGASVKDMINDDAWNRDTFLPTVGKRGAAIIDARGVSSAASAANAAIDHIHDWVLGTAGKWTTMGIPSDGSYGIPEGVIFGFPVTTENGEYKIVQGLSIDAFSQERINVTLNELLEEQNGVQHLLG KTPMRVAVTGAAGQICYSLLFRIANGDMLGKDQPVILQLLEIPNEKAQKALQGVMMEIDDCAFPLLAGMTAHADPMTAFKDADVALLVGARPRGPGMERKDLLEANAQIFTVQGKAIDAVASRNIKVLVVGNPANTNAYIAMKSAPSLPAKNFTAMLRLDHNRALSQIAAKTGKPVSSIEKLFVWGNHSPTMYADYRYAQIDGASVKDMINDDAWNRDTFLPTVGKRGAAIIDARGVSSAASAANAAIDHIHDWVLGTAGKWTTMGIPSDGSYGIPEGVIFGFPVTTENGEYKIVQGLSIDAFSQERINVTLNELLEEQNGVQHLLG 1b8z-a1-m1-cA_1b8z-a1-m1-cB HU FROM THERMOTOGA MARITIMA P36206 P36206 1.6 X-RAY DIFFRACTION 119 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 67 67 1riy-a1-m1-cA_1riy-a1-m2-cA MNKKELIDRVAKKAGAKKKDVKLILDTILETITEALAKGEKVQIVGFGSFEVVPKFKPGKALKEKVK MNKKELIDRVAKKAGAKKKDVKLILDTILETITEALAKGEKVQIVGFGSFEVVPKFKPGKALKEKVK 1b9b-a1-m1-cA_1b9b-a1-m2-cB TRIOSEPHOSPHATE ISOMERASE OF THERMOTOGA MARITIMA P36204 P36204 2.85 X-RAY DIFFRACTION 21 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 252 255 1b9b-a1-m2-cA_1b9b-a1-m1-cB TRKLILAGNWKMHKTISEAKKFVSLLVNELHDVKEFEIVVCPPFTALSEVGEILSGRNIKLGAQNVFYEDQGAFTGEISPLMLQEIGVEYVIVGHSERRRIFKEDDEFINRKVKAVLEKGMTPILCVGETLEEREKGLTFCVVEKQVREGFYGLDKEEAKRVVIAYEPVWAIGTGRVATPQQAQEVHAFIRKLLSEMYDEETAGSIRILYGGSIKPDNFLGLIVQKDIDGGLVGGASLKESFIELARIMRGV ITRKLILAGNWKMHKTISEAKKFVSLLVNELHDVKEFEIVVCPPFTALSEVGEILSGRNIKLGAQNVFYEDQGAFTGEISPLMLQEIGVEYVIVGHSERRRIFKEDDEFINRKVKAVLEKGMTPILCVGETLEEREKGLTFCVVEKQVREGFYGLDKEEAKRVVIAYEPVWAIGTGRVATPQQAQEVHAFIRKLLSEMYDEETAGSIRILYGGSIKPDNFLGLIVQKDIDGGLVGGASLKESFIELARIMRGVIS 1b9b-a2-m1-cA_1b9b-a2-m1-cB TRIOSEPHOSPHATE ISOMERASE OF THERMOTOGA MARITIMA P36204 P36204 2.85 X-RAY DIFFRACTION 131 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 252 255 1b9b-a1-m1-cA_1b9b-a1-m1-cB 1b9b-a1-m2-cA_1b9b-a1-m2-cB TRKLILAGNWKMHKTISEAKKFVSLLVNELHDVKEFEIVVCPPFTALSEVGEILSGRNIKLGAQNVFYEDQGAFTGEISPLMLQEIGVEYVIVGHSERRRIFKEDDEFINRKVKAVLEKGMTPILCVGETLEEREKGLTFCVVEKQVREGFYGLDKEEAKRVVIAYEPVWAIGTGRVATPQQAQEVHAFIRKLLSEMYDEETAGSIRILYGGSIKPDNFLGLIVQKDIDGGLVGGASLKESFIELARIMRGV ITRKLILAGNWKMHKTISEAKKFVSLLVNELHDVKEFEIVVCPPFTALSEVGEILSGRNIKLGAQNVFYEDQGAFTGEISPLMLQEIGVEYVIVGHSERRRIFKEDDEFINRKVKAVLEKGMTPILCVGETLEEREKGLTFCVVEKQVREGFYGLDKEEAKRVVIAYEPVWAIGTGRVATPQQAQEVHAFIRKLLSEMYDEETAGSIRILYGGSIKPDNFLGLIVQKDIDGGLVGGASLKESFIELARIMRGVIS 1b9i-a1-m1-cA_1b9i-a1-m2-cA CRYSTAL STRUCTURE OF 3-AMINO-5-HYDROXYBENZOIC ACID (AHBA) SYNTHASE O52552 O52552 2 X-RAY DIFFRACTION 214 1.0 33910 (Amycolatopsis mediterranei) 33910 (Amycolatopsis mediterranei) 384 384 1b9h-a1-m1-cA_1b9h-a1-m2-cA KAPEFPAWPQYDDAERNGLVRALEQGQWWRMGGDEVNSFEREFAAHHGAAHALAVTNGTHALELALQVMGVGPGTEVIVPAFTFISSSQAAQRLGAVTVPVDVDAATYNLDPEAVAAAVTPRTKVIMPVHMAGLMADMDALAKISADTGVPLLQDAAHAHGARWQGKRVGELDSIATFSFQNGKLMTAGEGGAVVFPDGETEKYETAFLRHSCGRPRDDRRYFHKIAGSNMRLNEFSASVLRAQLARLDEQIAVRDERWTLLSRLLGAIDGVVPQGGDVRADRNSHYMAMFRIPGLTEERRNALVDRLVEAGLPAFAAFRAIYRTDAFWELGAPDESVDAIARRCPNTDAISSDCVWLHHRVLLAGEPELHATAEIIADAVGRA KAPEFPAWPQYDDAERNGLVRALEQGQWWRMGGDEVNSFEREFAAHHGAAHALAVTNGTHALELALQVMGVGPGTEVIVPAFTFISSSQAAQRLGAVTVPVDVDAATYNLDPEAVAAAVTPRTKVIMPVHMAGLMADMDALAKISADTGVPLLQDAAHAHGARWQGKRVGELDSIATFSFQNGKLMTAGEGGAVVFPDGETEKYETAFLRHSCGRPRDDRRYFHKIAGSNMRLNEFSASVLRAQLARLDEQIAVRDERWTLLSRLLGAIDGVVPQGGDVRADRNSHYMAMFRIPGLTEERRNALVDRLVEAGLPAFAAFRAIYRTDAFWELGAPDESVDAIARRCPNTDAISSDCVWLHHRVLLAGEPELHATAEIIADAVGRA 1b9m-a1-m1-cB_1b9m-a1-m1-cA REGULATOR FROM ESCHERICHIA COLI P0A9G8 P0A9G8 1.75 X-RAY DIFFRACTION 174 1.0 562 (Escherichia coli) 562 (Escherichia coli) 244 255 1b9n-a1-m1-cB_1b9n-a1-m1-cA HQAEILLTLKLQQKLFADPRRISLLKHIALSGSISQGAKDAGISYKSAWDAINENQLSEHILVERAVLTRYGQRLIQLYDLLAQIQQKAFDVLSDDDALPLNSLLAAISRFSLQTSARNQWFGTITAQHVDVLLADGKTRLKVAITAQSGARLGLDEGKEVLILLKAPWVGITQDEAVAQNADNQLPGIISHIERGAEQCEVLALPDGQTLCATVPVNEATSLQQGQNVTAYFNADSVIIATLC HQAEILLTLKLQQKLFADPRRISLLKHIALSGSISQGAKDAGISYKSAWDAINENQLSEHILVERATGGAVLTRYGQRLIQLYDLLAQIQQKAFDVLSDDDALPLNSLLAAISRFSLQTSARNQWFGTITARDHDDVQQHVDVLLADGKTRLKVAITAQSGARLGLDEGKEVLILLKAPWVGITQDEAVAQNADNQLPGIISHIERGAEQCEVLALPDGQTLCATVPVNEATSLQQGQNVTAYFNADSVIIATLC 1bai-a1-m1-cA_1bai-a1-m1-cB Crystal structure of Rous sarcoma virus protease in complex with inhibitor P03322 P03322 2.4 X-RAY DIFFRACTION 164 1.0 11886 (Rous sarcoma virus) 11886 (Rous sarcoma virus) 124 124 LAMTMEHKDRPLVRVILTNTGSHPVKQRSVYITALLDTGADDTVISEEDWPTDWPVMEAANPQIHGIGGGIPVRKSRDMIELGVINRDGSLERPLLLFPLVAMTPVNILGRDCLQGLGLRLTNL LAMTMEHKDRPLVRVILTNTGSHPVKQRSVYITALLDTGADDTVISEEDWPTDWPVMEAANPQIHGIGGGIPVRKSRDMIELGVINRDGSLERPLLLFPLVAMTPVNILGRDCLQGLGLRLTNL 1baw-a1-m1-cA_1baw-a1-m2-cB PLASTOCYANIN FROM PHORMIDIUM LAMINOSUM Q51883 Q51883 2.8 X-RAY DIFFRACTION 22 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 105 105 1baw-a1-m1-cB_1baw-a1-m2-cA 1baw-a1-m1-cC_1baw-a1-m2-cC ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG 1baw-a2-m1-cA_1baw-a2-m1-cB PLASTOCYANIN FROM PHORMIDIUM LAMINOSUM Q51883 Q51883 2.8 X-RAY DIFFRACTION 13 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 105 105 1baw-a1-m1-cA_1baw-a1-m1-cB 1baw-a1-m1-cA_1baw-a1-m1-cC 1baw-a1-m1-cB_1baw-a1-m1-cC 1baw-a1-m2-cA_1baw-a1-m2-cB 1baw-a1-m2-cA_1baw-a1-m2-cC 1baw-a1-m2-cB_1baw-a1-m2-cC 1baw-a2-m1-cA_1baw-a2-m1-cC 1baw-a2-m1-cB_1baw-a2-m1-cC 2q5b-a4-m1-cA_2q5b-a4-m1-cB 2q5b-a4-m1-cA_2q5b-a4-m1-cC 2q5b-a4-m1-cB_2q5b-a4-m1-cC 2w88-a1-m1-cA_2w88-a1-m1-cB 2w88-a1-m1-cA_2w88-a1-m1-cC 2w88-a1-m1-cB_2w88-a1-m1-cC 2w88-a1-m2-cA_2w88-a1-m2-cB 2w88-a1-m2-cA_2w88-a1-m2-cC 2w88-a1-m2-cB_2w88-a1-m2-cC 2w8c-a1-m1-cA_2w8c-a1-m2-cA 2w8c-a1-m1-cA_2w8c-a1-m3-cA 2w8c-a1-m2-cA_2w8c-a1-m3-cA 2w8c-a2-m1-cB_2w8c-a2-m4-cB 2w8c-a2-m1-cB_2w8c-a2-m5-cB 2w8c-a2-m4-cB_2w8c-a2-m5-cB 2w8c-a3-m1-cA_2w8c-a3-m2-cA 2w8c-a3-m1-cA_2w8c-a3-m3-cA 2w8c-a3-m2-cA_2w8c-a3-m3-cA 2w8c-a3-m6-cB_2w8c-a3-m7-cB 2w8c-a3-m6-cB_2w8c-a3-m8-cB 2w8c-a3-m7-cB_2w8c-a3-m8-cB ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG 1bb9-a1-m1-cA_1bb9-a1-m2-cA CRYSTAL STRUCTURE OF THE SH3 DOMAIN FROM RAT AMPHIPHYSIN 2 O08839 O08839 2.2 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 83 83 TTGRLDLPPGFMFKVQAQHDYTATDTDELQLKAGDVVLVIPFQNPEEQDEGWLMGVKESDWNQHKELEKCRGVFPENFTERVQ TTGRLDLPPGFMFKVQAQHDYTATDTDELQLKAGDVVLVIPFQNPEEQDEGWLMGVKESDWNQHKELEKCRGVFPENFTERVQ 1bbp-a1-m1-cB_1bbp-a1-m1-cC MOLECULAR STRUCTURE OF THE BILIN BINDING PROTEIN (BBP) FROM PIERIS BRASSICAE AFTER REFINEMENT AT 2.0 ANGSTROMS RESOLUTION. P09464 P09464 2 X-RAY DIFFRACTION 13 1.0 7116 (Pieris brassicae) 7116 (Pieris brassicae) 173 173 NVYHDGACPEVKPVDNFDWSNYHGKWWEVAKYPNSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGKEYFIEGTAYPVGDSKIGKIYHKLTYGGVTKENVFNVLSTDNKNYIIGYYCKYDEDKKGHQDFVWVLSRSKVLTGEAKTAVENYLIGSPVVDSQKLVYSDFSEAACKVN NVYHDGACPEVKPVDNFDWSNYHGKWWEVAKYPNSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGKEYFIEGTAYPVGDSKIGKIYHKLTYGGVTKENVFNVLSTDNKNYIIGYYCKYDEDKKGHQDFVWVLSRSKVLTGEAKTAVENYLIGSPVVDSQKLVYSDFSEAACKVN 1bbp-a1-m1-cB_1bbp-a1-m1-cD MOLECULAR STRUCTURE OF THE BILIN BINDING PROTEIN (BBP) FROM PIERIS BRASSICAE AFTER REFINEMENT AT 2.0 ANGSTROMS RESOLUTION. P09464 P09464 2 X-RAY DIFFRACTION 38 1.0 7116 (Pieris brassicae) 7116 (Pieris brassicae) 173 173 1bbp-a1-m1-cA_1bbp-a1-m1-cC NVYHDGACPEVKPVDNFDWSNYHGKWWEVAKYPNSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGKEYFIEGTAYPVGDSKIGKIYHKLTYGGVTKENVFNVLSTDNKNYIIGYYCKYDEDKKGHQDFVWVLSRSKVLTGEAKTAVENYLIGSPVVDSQKLVYSDFSEAACKVN NVYHDGACPEVKPVDNFDWSNYHGKWWEVAKYPNSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGKEYFIEGTAYPVGDSKIGKIYHKLTYGGVTKENVFNVLSTDNKNYIIGYYCKYDEDKKGHQDFVWVLSRSKVLTGEAKTAVENYLIGSPVVDSQKLVYSDFSEAACKVN 1bbp-a1-m1-cC_1bbp-a1-m1-cD MOLECULAR STRUCTURE OF THE BILIN BINDING PROTEIN (BBP) FROM PIERIS BRASSICAE AFTER REFINEMENT AT 2.0 ANGSTROMS RESOLUTION. P09464 P09464 2 X-RAY DIFFRACTION 30 1.0 7116 (Pieris brassicae) 7116 (Pieris brassicae) 173 173 1bbp-a1-m1-cA_1bbp-a1-m1-cB NVYHDGACPEVKPVDNFDWSNYHGKWWEVAKYPNSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGKEYFIEGTAYPVGDSKIGKIYHKLTYGGVTKENVFNVLSTDNKNYIIGYYCKYDEDKKGHQDFVWVLSRSKVLTGEAKTAVENYLIGSPVVDSQKLVYSDFSEAACKVN NVYHDGACPEVKPVDNFDWSNYHGKWWEVAKYPNSVEKYGKCGWAEYTPEGKSVKVSNYHVIHGKEYFIEGTAYPVGDSKIGKIYHKLTYGGVTKENVFNVLSTDNKNYIIGYYCKYDEDKKGHQDFVWVLSRSKVLTGEAKTAVENYLIGSPVVDSQKLVYSDFSEAACKVN 1bbw-a1-m1-cA_1bbw-a1-m2-cA LYSYL-TRNA SYNTHETASE (LYSS) P0A8N3 P0A8N3 2.7 X-RAY DIFFRACTION 275 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 469 469 1bbu-a1-m1-cA_1bbu-a1-m2-cA VVDLNNELKTRREKLANLREQGIAFPNDFRRDHTSDQLHAEFDGKENEELEALNIEVAVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDDLPEGVYNEQFKKWDLGDILGAKGKLFKTKTGELSIHCTELRLLTKALRPLPDQEARYRQRYLDLISNDESRNTFKVRSQILSGIRQFMVNRGFMEVETPMMQVIPAARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVHNPEFTMMELYMAYADYKDLIELTESLFRTLAQDILGKTEVTYGDVTLDFGKPFEKLTMREAIKKYRPETDMADLDNFDSAKAIAESIGIHVEKSWGLGRIVTEIFEEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAQRFLDQVYDEDYVTALEHGLPPTAGLGIGIDRMVMLFTNSHTIRDVILFPAMRP VVDLNNELKTRREKLANLREQGIAFPNDFRRDHTSDQLHAEFDGKENEELEALNIEVAVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDDLPEGVYNEQFKKWDLGDILGAKGKLFKTKTGELSIHCTELRLLTKALRPLPDQEARYRQRYLDLISNDESRNTFKVRSQILSGIRQFMVNRGFMEVETPMMQVIPAARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVHNPEFTMMELYMAYADYKDLIELTESLFRTLAQDILGKTEVTYGDVTLDFGKPFEKLTMREAIKKYRPETDMADLDNFDSAKAIAESIGIHVEKSWGLGRIVTEIFEEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAQRFLDQVYDEDYVTALEHGLPPTAGLGIGIDRMVMLFTNSHTIRDVILFPAMRP 1bc2-a1-m1-cA_1bc2-a1-m1-cB ZN-DEPENDENT METALLO-BETA-LACTAMASE FROM BACILLUS CEREUS P04190 P04190 1.9 X-RAY DIFFRACTION 45 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 216 216 TVIKNETGTISISQLNKNVWVHTELGAVPSNGLVLNTSKGLVLVDSSWDDKLTKELIEMVEKKFQKRVTDVIITHAHADRIGGIKTLKERGIKAHSTALTAELAKKNGYEEPLGDLQTVTNLKFGNMKVETFYPGKGHTEDNIVVWLPQYNILVGGCLVKSTSAKDLGNVADAYVNEWSTSIENVLKRYRNINAVVPGHGEVGDKGLLLHTLDLLK TVIKNETGTISISQLNKNVWVHTELGAVPSNGLVLNTSKGLVLVDSSWDDKLTKELIEMVEKKFQKRVTDVIITHAHADRIGGIKTLKERGIKAHSTALTAELAKKNGYEEPLGDLQTVTNLKFGNMKVETFYPGKGHTEDNIVVWLPQYNILVGGCLVKSTSAKDLGNVADAYVNEWSTSIENVLKRYRNINAVVPGHGEVGDKGLLLHTLDLLK 1bcc-a1-m1-cB_1bcc-a1-m2-cB CYTOCHROME BC1 COMPLEX FROM CHICKEN P23004 P23004 3.16 X-RAY DIFFRACTION 37 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 406 406 3bcc-a1-m1-cB_3bcc-a1-m2-cB PPHPQDLEITKLPNGLVIASLENYSPGSTIGVFIKAGSRYENSSNLGTSHLLRLASSLTTKGASSFKITRGIEAVGGKLSVESTRENMAYTVECLRDDVEILMEFLLNVTTAPEFRPWEVADLQPQLKIDKAVAFQNPQTHVIENLHAAAYRNALADSLYCPDYRIGKVTSVELHDFVQNHFTSARMALVGLGVSHPVLKNVAEQLLNIRGGLGLSGAKAKYRGGEIREQNGDSLVHAAIVAESAAIGGAEANAFSVLQHVLGANPHVKRGNPFDVSAFNASYSDSGLFGFYTISQAAYAGQVIKAAYNQVKTIAQGNVSNENVQAAKNKLKAKYLMSVESSEGFLEEVGSQALAAGSYNPPSTVLQQIDAVADADVIKAAKKFVSRQKSMAASGNLGHTPFVDEL PPHPQDLEITKLPNGLVIASLENYSPGSTIGVFIKAGSRYENSSNLGTSHLLRLASSLTTKGASSFKITRGIEAVGGKLSVESTRENMAYTVECLRDDVEILMEFLLNVTTAPEFRPWEVADLQPQLKIDKAVAFQNPQTHVIENLHAAAYRNALADSLYCPDYRIGKVTSVELHDFVQNHFTSARMALVGLGVSHPVLKNVAEQLLNIRGGLGLSGAKAKYRGGEIREQNGDSLVHAAIVAESAAIGGAEANAFSVLQHVLGANPHVKRGNPFDVSAFNASYSDSGLFGFYTISQAAYAGQVIKAAYNQVKTIAQGNVSNENVQAAKNKLKAKYLMSVESSEGFLEEVGSQALAAGSYNPPSTVLQQIDAVADADVIKAAKKFVSRQKSMAASGNLGHTPFVDEL 1bcg-a1-m1-cA_1bcg-a1-m2-cA SCORPION TOXIN BJXTR-IT P56637 P56637 2.1 X-RAY DIFFRACTION 33 1.0 6863 (Hottentotta judaicus) 6863 (Hottentotta judaicus) 72 72 KKNGYPLDRNGKTTCSGVNAIAPHYCNSECTKVYYAESGYCCWGACYCFGLEDDKPIGPMKDITKKYCDVQI KKNGYPLDRNGKTTCSGVNAIAPHYCNSECTKVYYAESGYCCWGACYCFGLEDDKPIGPMKDITKKYCDVQI 1bcm-a1-m1-cB_1bcm-a1-m1-cA BACTERIOPHAGE MU TRANSPOSASE CORE DOMAIN WITH 2 MONOMERS PER ASYMMETRIC UNIT P07636 P07636 2.8 X-RAY DIFFRACTION 52 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 303 304 EHLDAMQWINGDGYLHNVFVRWFNGDVIRPKTWFWQDVKTRKILGWRCDVSENIDSIRLSFMDVVTRYGIPEDFHITIDNTRGAANKWLTGGAPNRYRFKVKEDDPKGLFLLMGAKMHWTSVVAGKGWGQAKPVERAFGVGGLEEYVDKHPALAGAYTGPNPQAKPDNYGDRAVDAELFLKTLAEGVAMFNARTGRETEMCGGKLSFDDVFEREYARTIVRKPTEEQKRMLLLPAEAVNVSRKGEFTLKVGGSLKGAKNVYYNMALMNAGVKKVVVRFDPQQLHSTVYCYTLDGRFICEAECL VEHLDAMQWINGDGYLHNVFVRWFNGDVIRPKTWFWQDVKTRKILGWRCDVSENIDSIRLSFMDVVTRYGIPEDFHITIDNTRGAANKWLTGGAPNRYRFKVKEDDPKGLFLLMGAKMHWTSVVAGKGWGQAKPVERAFGVGGLEEYVDKHPALAGAYTGPNPQAKPDNYGDRAVDAELFLKTLAEGVAMFNARTGRETEMCGGKLSFDDVFEREYARTIVRKPTEEQKRMLLLPAEAVNVSRKGEFTLKVGGSLKGAKNVYYNMALMNAGVKKVVVRFDPQQLHSTVYCYTLDGRFICEAECL 1bd0-a1-m1-cB_1bd0-a1-m1-cA ALANINE RACEMASE COMPLEXED WITH ALANINE PHOSPHONATE P10724 P10724 1.6 X-RAY DIFFRACTION 233 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 380 381 1epv-a1-m1-cB_1epv-a1-m1-cA 1ftx-a1-m1-cA_1ftx-a1-m1-cB 1l6f-a1-m1-cA_1l6f-a1-m1-cB 1l6g-a1-m1-cA_1l6g-a1-m1-cB 1niu-a1-m1-cB_1niu-a1-m1-cA 1sft-a1-m1-cB_1sft-a1-m1-cA 1xqk-a1-m1-cB_1xqk-a1-m1-cA 1xql-a1-m1-cB_1xql-a1-m1-cA 2sfp-a1-m1-cA_2sfp-a1-m1-cB NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIMAVVKANAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVLGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLKMDTGMGRLGVKDEEETKRIVALIERHPHFVLEGLYTHFATADEVNTDYFSYQYTRFLHMLEWLPSRPPLVHCANSAASLRFPDRTFNMVRFGIAMYGLAPSPGIKPLLPYPLKEAFSLHSRLVHVKKLQPGEKVSYGATYTAQTEEWIGTIPIGYADGWLRRLQHFHVLVDGQKAPIVGRICMDQCMIRLPGPLPVGTKVTLIGRQGDEVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIMEVRNAI NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIMAVVKANAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVLGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLKMDTGMGRLGVKDEEETKRIVALIERHPHFVLEGLYTHFATADEVNTDYFSYQYTRFLHMLEWLPSRPPLVHCANSAASLRFPDRTFNMVRFGIAMYGLAPSPGIKPLLPYPLKEAFSLHSRLVHVKKLQPGEKVSYGATYTAQTEEWIGTIPIGYADGWLRRLQHFHVLVDGQKAPIVGRICMDQCMIRLPGPLPVGTKVTLIGRQGDEVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIMEVRNAIG 1bd7-a1-m1-cB_1bd7-a1-m1-cA CIRCULARLY PERMUTED BB2-CRYSTALLIN P62697 P62697 2.78 X-RAY DIFFRACTION 82 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 171 176 EHKIILYENPNFTGKKMEIVDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDNSDFGAPHPQVQSVRRIRDMQGNPKIIIFEQENFQGHSHELSGPCPNLKETGMEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTDSLSSLRPIK EHKIILYENPNFTGKKMEIVDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDNSDFGAPHPQVQSVRRIRDMQGNPKIIIFEQENFQGHSHELSGPCPNLKETGMEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIK 1bd9-a1-m1-cA_1bd9-a1-m1-cB HUMAN PHOSPHATIDYLETHANOLAMINE BINDING PROTEIN P30086 P30086 2.05 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 185 LSKWSGPLSLQEVDEQPQHPLHVTYAGAAVDELGKVLTPTQVKNRPTSISWDGLDSGKLYTLVLTDPDAPSRKDPKYREWHHFLVVNMKGNDISSGTVLSDYVGSGPPKGTGLHRYVWLVYEQDRPLKCDEPILSNRSGDHRGKFKVASFRKKYELRAPVAGTCYQAEWDDYVPKLYEQL PVDLSKWSGPLSLQEVDEQPQHPLHVTYAGAAVDELGKVLTPTQVKNRPTSISWDGLDSGKLYTLVLTDPDAPSRKDPKYREWHHFLVVNMKGNDISSGTVLSDYVGSGPPKGTGLHRYVWLVYEQDRPLKCDEPILSNRSGDHRGKFKVASFRKKYELRAPVAGTCYQAEWDDYVPKLYEQLSG 1bdb-a1-m1-cA_1bdb-a1-m4-cA CIS-BIPHENYL-2,3-DIHYDRODIOL-2,3-DEHYDROGENASE FROM PSEUDOMONAS SP. LB400 P47227 P47227 2 X-RAY DIFFRACTION 131 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 267 267 1bdb-a1-m2-cA_1bdb-a1-m3-cA MKLKGEAVLITGGASGLGRALVDRFVAEGAKVAVLDKSAERLAELETDHGDNVLGIVGDVRSLEDQKQAASRCVARFGKIDTLIPNAGIWDYSTALVDLPEESLDAAFDEVFHINVKGYIHAVKACLPALVASRGNVIFTISNAGFYPNGGGPLYTAAKHAIVGLVRELAFELAPYVRVNGVGSGGINSDLRGPSSLGPLADMLKSVLPIGRMPEVEEYTGAYVFFATRGDAAPATGALLNYDGGLGVRGFFSGAGGNDLLEQLNIH MKLKGEAVLITGGASGLGRALVDRFVAEGAKVAVLDKSAERLAELETDHGDNVLGIVGDVRSLEDQKQAASRCVARFGKIDTLIPNAGIWDYSTALVDLPEESLDAAFDEVFHINVKGYIHAVKACLPALVASRGNVIFTISNAGFYPNGGGPLYTAAKHAIVGLVRELAFELAPYVRVNGVGSGGINSDLRGPSSLGPLADMLKSVLPIGRMPEVEEYTGAYVFFATRGDAAPATGALLNYDGGLGVRGFFSGAGGNDLLEQLNIH 1bdb-a1-m2-cA_1bdb-a1-m4-cA CIS-BIPHENYL-2,3-DIHYDRODIOL-2,3-DEHYDROGENASE FROM PSEUDOMONAS SP. LB400 P47227 P47227 2 X-RAY DIFFRACTION 184 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 267 267 1bdb-a1-m1-cA_1bdb-a1-m3-cA MKLKGEAVLITGGASGLGRALVDRFVAEGAKVAVLDKSAERLAELETDHGDNVLGIVGDVRSLEDQKQAASRCVARFGKIDTLIPNAGIWDYSTALVDLPEESLDAAFDEVFHINVKGYIHAVKACLPALVASRGNVIFTISNAGFYPNGGGPLYTAAKHAIVGLVRELAFELAPYVRVNGVGSGGINSDLRGPSSLGPLADMLKSVLPIGRMPEVEEYTGAYVFFATRGDAAPATGALLNYDGGLGVRGFFSGAGGNDLLEQLNIH MKLKGEAVLITGGASGLGRALVDRFVAEGAKVAVLDKSAERLAELETDHGDNVLGIVGDVRSLEDQKQAASRCVARFGKIDTLIPNAGIWDYSTALVDLPEESLDAAFDEVFHINVKGYIHAVKACLPALVASRGNVIFTISNAGFYPNGGGPLYTAAKHAIVGLVRELAFELAPYVRVNGVGSGGINSDLRGPSSLGPLADMLKSVLPIGRMPEVEEYTGAYVFFATRGDAAPATGALLNYDGGLGVRGFFSGAGGNDLLEQLNIH 1bdb-a1-m3-cA_1bdb-a1-m4-cA CIS-BIPHENYL-2,3-DIHYDRODIOL-2,3-DEHYDROGENASE FROM PSEUDOMONAS SP. LB400 P47227 P47227 2 X-RAY DIFFRACTION 32 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 267 267 1bdb-a1-m1-cA_1bdb-a1-m2-cA MKLKGEAVLITGGASGLGRALVDRFVAEGAKVAVLDKSAERLAELETDHGDNVLGIVGDVRSLEDQKQAASRCVARFGKIDTLIPNAGIWDYSTALVDLPEESLDAAFDEVFHINVKGYIHAVKACLPALVASRGNVIFTISNAGFYPNGGGPLYTAAKHAIVGLVRELAFELAPYVRVNGVGSGGINSDLRGPSSLGPLADMLKSVLPIGRMPEVEEYTGAYVFFATRGDAAPATGALLNYDGGLGVRGFFSGAGGNDLLEQLNIH MKLKGEAVLITGGASGLGRALVDRFVAEGAKVAVLDKSAERLAELETDHGDNVLGIVGDVRSLEDQKQAASRCVARFGKIDTLIPNAGIWDYSTALVDLPEESLDAAFDEVFHINVKGYIHAVKACLPALVASRGNVIFTISNAGFYPNGGGPLYTAAKHAIVGLVRELAFELAPYVRVNGVGSGGINSDLRGPSSLGPLADMLKSVLPIGRMPEVEEYTGAYVFFATRGDAAPATGALLNYDGGLGVRGFFSGAGGNDLLEQLNIH 1bdo-a1-m1-cA_1bdo-a1-m2-cA STRUCTURE OF THE BIOTINYL DOMAIN OF ACETYL-COENZYME A CARBOXYLASE DETERMINED BY MAD PHASING P0ABD8 P0ABD8 1.8 X-RAY DIFFRACTION 34 1.0 562 (Escherichia coli) 562 (Escherichia coli) 80 80 EISGHIVRSPMVGTFYRTPSPDAKAFIEVGQKVNVGDTLCIVEAMKMMNQIEADKSGTVKAILVESGQPVEFDEPLVVIE EISGHIVRSPMVGTFYRTPSPDAKAFIEVGQKVNVGDTLCIVEAMKMMNQIEADKSGTVKAILVESGQPVEFDEPLVVIE 1bdy-a1-m1-cA_1bdy-a1-m1-cB C2 DOMAIN FROM PROTEIN KINASE C DELTA P09215 P09215 2.2 X-RAY DIFFRACTION 45 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 123 123 MAPFLRISFNSYELGSLQAEDDASQPFCAVKMKEALTTDRGKTLVQKKPTMYPEWKSTFDAHIYEGRVIQIVLMRAAEDPMSEVTVGVSVLAERCKKNNGKAEFWLDLQPQAKVLMCVQYFLE MAPFLRISFNSYELGSLQAEDDASQPFCAVKMKEALTTDRGKTLVQKKPTMYPEWKSTFDAHIYEGRVIQIVLMRAAEDPMSEVTVGVSVLAERCKKNNGKAEFWLDLQPQAKVLMCVQYFLE 1bec-a1-m2-cA_1bec-a1-m1-cA BETA CHAIN OF A T CELL ANTIGEN RECEPTOR 1.7 X-RAY DIFFRACTION 91 1.0 10090 (Mus musculus) 10090 (Mus musculus) 238 238 AVTQSPRNKVAVTGGKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILELATPSQTSVYFCASGGGRGSYAEQFFGPGTRLTVLEDLRQVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYCLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD AVTQSPRNKVAVTGGKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILELATPSQTSVYFCASGGGRGSYAEQFFGPGTRLTVLEDLRQVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYCLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD 1bed-a1-m1-cA_1bed-a1-m2-cA STRUCTURE OF DISULFIDE OXIDOREDUCTASE P32557 P32557 2 X-RAY DIFFRACTION 35 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 181 181 AQFKEGEHYQVLKTPASSSPVVSEFFSFYCPHCNTFEPIIAQLKQQLPEGAKFQKNHVSFMGGNMGQAMSKAYATMIALEVEDKMVPVMFNRIHTLRKPPKDEQELRQIFLDEGIDAAKFDAAYNGFAVDSMVRRFDKQFQDSGLTGVPAVVVNNRYLVQGQSVKSLDEYFDLVNYLLTLK AQFKEGEHYQVLKTPASSSPVVSEFFSFYCPHCNTFEPIIAQLKQQLPEGAKFQKNHVSFMGGNMGQAMSKAYATMIALEVEDKMVPVMFNRIHTLRKPPKDEQELRQIFLDEGIDAAKFDAAYNGFAVDSMVRRFDKQFQDSGLTGVPAVVVNNRYLVQGQSVKSLDEYFDLVNYLLTLK 1ben-a9-m3-cD_1ben-a9-m1-cB INSULIN COMPLEXED WITH 4-HYDROXYBENZAMIDE P01308 P01308 1.4 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 30 1ben-a10-m1-cD_1ben-a10-m2-cB 1ben-a10-m2-cD_1ben-a10-m3-cB 1ben-a10-m3-cD_1ben-a10-m1-cB 1ben-a13-m1-cD_1ben-a13-m2-cB 1ben-a13-m2-cD_1ben-a13-m3-cB 1ben-a13-m3-cD_1ben-a13-m1-cB 1ben-a3-m1-cD_1ben-a3-m2-cB 1ben-a3-m2-cD_1ben-a3-m3-cB 1ben-a3-m3-cD_1ben-a3-m1-cB 1ben-a9-m1-cD_1ben-a9-m2-cB 1ben-a9-m2-cD_1ben-a9-m3-cB 1fu2-a2-m1-cF_1fu2-a2-m3-cH 1fu2-a2-m1-cH_1fu2-a2-m2-cF 1fu2-a2-m2-cH_1fu2-a2-m3-cF 1fu2-a3-m1-cB_1fu2-a3-m3-cD 1fu2-a3-m1-cD_1fu2-a3-m2-cB 1fu2-a3-m2-cD_1fu2-a3-m3-cB 1fub-a2-m1-cB_1fub-a2-m3-cD 1fub-a2-m1-cD_1fub-a2-m2-cB 1fub-a2-m2-cD_1fub-a2-m3-cB 1g7a-a1-m1-cD_1g7a-a1-m2-cB 1g7a-a1-m2-cD_1g7a-a1-m3-cB 1g7a-a1-m3-cD_1g7a-a1-m1-cB 1g7a-a2-m1-cH_1g7a-a2-m2-cF 1g7a-a2-m2-cH_1g7a-a2-m3-cF 1g7a-a2-m3-cH_1g7a-a2-m1-cF 1g7b-a1-m1-cD_1g7b-a1-m2-cB 1g7b-a1-m2-cD_1g7b-a1-m3-cB 1g7b-a1-m3-cD_1g7b-a1-m1-cB 1g7b-a2-m1-cH_1g7b-a2-m2-cF 1g7b-a2-m2-cH_1g7b-a2-m3-cF 1g7b-a2-m3-cH_1g7b-a2-m1-cF 1iza-a3-m1-cB_1iza-a3-m2-cD 1iza-a3-m1-cD_1iza-a3-m3-cB 1iza-a3-m2-cB_1iza-a3-m3-cD 1j73-a1-m1-cB_1j73-a1-m3-cD 1j73-a1-m1-cD_1j73-a1-m2-cB 1j73-a1-m2-cD_1j73-a1-m3-cB 1jca-a3-m1-cD_1jca-a3-m2-cB 1jca-a3-m2-cD_1jca-a3-m3-cB 1jca-a3-m3-cD_1jca-a3-m1-cB 1lph-a3-m1-cB_1lph-a3-m3-cD 1lph-a3-m1-cD_1lph-a3-m2-cB 1lph-a3-m2-cD_1lph-a3-m3-cB 1lph-a6-m1-cD_1lph-a6-m2-cB 1mpj-a3-m1-cB_1mpj-a3-m2-cD 1mpj-a3-m2-cB_1mpj-a3-m3-cD 1mpj-a3-m3-cB_1mpj-a3-m1-cD 1mpj-a4-m1-cB_1mpj-a4-m2-cD 1q4v-a3-m1-cB_1q4v-a3-m2-cD 1q4v-a3-m1-cD_1q4v-a3-m3-cB 1q4v-a3-m2-cB_1q4v-a3-m3-cD 1qj0-a1-m1-cB_1qj0-a1-m2-cD 1qj0-a1-m2-cB_1qj0-a1-m3-cD 1qj0-a1-m3-cB_1qj0-a1-m1-cD 1rwe-a3-m1-cB_1rwe-a3-m3-cD 1rwe-a3-m1-cD_1rwe-a3-m2-cB 1rwe-a3-m2-cD_1rwe-a3-m3-cB 1trz-a3-m1-cB_1trz-a3-m3-cD 1trz-a3-m1-cD_1trz-a3-m2-cB 1trz-a3-m2-cD_1trz-a3-m3-cB 1trz-a7-m1-cB_1trz-a7-m3-cD 1tyl-a3-m1-cD_1tyl-a3-m2-cB 1tyl-a3-m2-cD_1tyl-a3-m3-cB 1tyl-a3-m3-cD_1tyl-a3-m1-cB 1tyl-a4-m1-cD_1tyl-a4-m2-cB 1tym-a3-m1-cD_1tym-a3-m2-cB 1tym-a3-m2-cD_1tym-a3-m3-cB 1tym-a3-m3-cD_1tym-a3-m1-cB 1tym-a4-m1-cD_1tym-a4-m2-cB 1zni-a3-m1-cB_1zni-a3-m2-cD 1zni-a3-m1-cD_1zni-a3-m3-cB 1zni-a3-m2-cB_1zni-a3-m3-cD 1zni-a5-m1-cB_1zni-a5-m2-cD 2qiu-a1-m1-cB_2qiu-a1-m2-cD 2qiu-a1-m1-cD_2qiu-a1-m3-cB 2qiu-a1-m2-cB_2qiu-a1-m3-cD 2r34-a1-m1-cB_2r34-a1-m3-cD 2r34-a1-m1-cD_2r34-a1-m2-cB 2r34-a1-m2-cD_2r34-a1-m3-cB 2r35-a1-m1-cB_2r35-a1-m3-cD 2r35-a1-m2-cB_2r35-a1-m1-cD 2r35-a1-m3-cB_2r35-a1-m2-cD 2vjz-a1-m1-cD_2vjz-a1-m3-cB 2vjz-a1-m2-cD_2vjz-a1-m1-cB 2vjz-a1-m3-cD_2vjz-a1-m2-cB 3gky-a1-m1-cB_3gky-a1-m3-cD 3gky-a1-m1-cD_3gky-a1-m2-cB 3gky-a1-m2-cD_3gky-a1-m3-cB 3jsd-a1-m1-cB_3jsd-a1-m3-cD 3jsd-a1-m1-cD_3jsd-a1-m2-cB 3jsd-a1-m2-cD_3jsd-a1-m3-cB 3kq6-a1-m1-cB_3kq6-a1-m2-cD 3kq6-a1-m1-cD_3kq6-a1-m3-cB 3kq6-a1-m2-cB_3kq6-a1-m3-cD 3mth-a3-m1-cB_3mth-a3-m2-cD 3mth-a3-m2-cB_3mth-a3-m3-cD 3mth-a3-m3-cB_3mth-a3-m1-cD 3mth-a4-m1-cB_3mth-a4-m2-cD 3v19-a1-m1-cB_3v19-a1-m2-cD 3v19-a1-m1-cD_3v19-a1-m3-cB 3v19-a1-m2-cB_3v19-a1-m3-cD 3v1g-a1-m1-cB_3v1g-a1-m2-cD 3v1g-a1-m1-cD_3v1g-a1-m3-cB 3v1g-a1-m2-cB_3v1g-a1-m3-cD 4gbc-a1-m1-cB_4gbc-a1-m2-cD 4gbc-a1-m2-cB_4gbc-a1-m3-cD 4gbc-a1-m3-cB_4gbc-a1-m1-cD 4gbi-a1-m1-cB_4gbi-a1-m3-cD 4gbi-a1-m2-cB_4gbi-a1-m1-cD 4gbi-a1-m3-cB_4gbi-a1-m2-cD 4gbk-a1-m1-cB_4gbk-a1-m2-cD 4gbk-a1-m2-cB_4gbk-a1-m3-cD 4gbk-a1-m3-cB_4gbk-a1-m1-cD 4gbl-a1-m1-cB_4gbl-a1-m2-cD 4gbl-a1-m2-cB_4gbl-a1-m3-cD 4gbl-a1-m3-cB_4gbl-a1-m1-cD 4gbn-a1-m1-cB_4gbn-a1-m3-cD 4gbn-a1-m2-cB_4gbn-a1-m1-cD 4gbn-a1-m3-cB_4gbn-a1-m2-cD 6ck2-a1-m1-cD_6ck2-a1-m2-cB 6ck2-a1-m2-cD_6ck2-a1-m3-cB 6ck2-a1-m3-cD_6ck2-a1-m1-cB 6ins-a2-m1-cF_6ins-a2-m3-cE 6ins-a2-m2-cF_6ins-a2-m1-cE 6ins-a2-m3-cF_6ins-a2-m2-cE 6tc2-a1-m1-cD_6tc2-a1-m1-cJ FVNQHLCGSHLVEALYLVCGERGFFYTP FVNQHLCGSHLVEALYLVCGERGFFYTPKT 1ben-a9-m3-cD_1ben-a9-m3-cB INSULIN COMPLEXED WITH 4-HYDROXYBENZAMIDE P01308 P01308 1.4 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 30 1ben-a10-m1-cD_1ben-a10-m1-cB 1ben-a10-m2-cD_1ben-a10-m2-cB 1ben-a10-m3-cD_1ben-a10-m3-cB 1ben-a13-m1-cD_1ben-a13-m1-cB 1ben-a13-m2-cD_1ben-a13-m2-cB 1ben-a13-m3-cD_1ben-a13-m3-cB 1ben-a3-m1-cD_1ben-a3-m1-cB 1ben-a3-m2-cD_1ben-a3-m2-cB 1ben-a3-m3-cD_1ben-a3-m3-cB 1ben-a9-m1-cD_1ben-a9-m1-cB 1ben-a9-m2-cD_1ben-a9-m2-cB 1fu2-a1-m1-cB_1fu2-a1-m1-cD 1fu2-a1-m1-cF_1fu2-a1-m1-cH 1fu2-a2-m1-cF_1fu2-a2-m1-cH 1fu2-a2-m2-cF_1fu2-a2-m2-cH 1fu2-a2-m3-cF_1fu2-a2-m3-cH 1fu2-a3-m1-cB_1fu2-a3-m1-cD 1fu2-a3-m2-cB_1fu2-a3-m2-cD 1fu2-a3-m3-cB_1fu2-a3-m3-cD 1fub-a1-m1-cB_1fub-a1-m1-cD 1fub-a2-m1-cB_1fub-a2-m1-cD 1fub-a2-m2-cB_1fub-a2-m2-cD 1fub-a2-m3-cB_1fub-a2-m3-cD 1g7a-a1-m1-cD_1g7a-a1-m1-cB 1g7a-a1-m2-cD_1g7a-a1-m2-cB 1g7a-a1-m3-cD_1g7a-a1-m3-cB 1g7a-a2-m1-cH_1g7a-a2-m1-cF 1g7a-a2-m2-cH_1g7a-a2-m2-cF 1g7a-a2-m3-cH_1g7a-a2-m3-cF 1g7b-a1-m1-cD_1g7b-a1-m1-cB 1g7b-a1-m2-cD_1g7b-a1-m2-cB 1g7b-a1-m3-cD_1g7b-a1-m3-cB 1g7b-a2-m1-cH_1g7b-a2-m1-cF 1g7b-a2-m2-cH_1g7b-a2-m2-cF 1g7b-a2-m3-cH_1g7b-a2-m3-cF 1j73-a1-m1-cB_1j73-a1-m1-cD 1j73-a1-m2-cB_1j73-a1-m2-cD 1j73-a1-m3-cB_1j73-a1-m3-cD 1jca-a3-m1-cD_1jca-a3-m1-cB 1jca-a3-m2-cD_1jca-a3-m2-cB 1jca-a3-m3-cD_1jca-a3-m3-cB 1lph-a3-m1-cB_1lph-a3-m1-cD 1lph-a3-m2-cB_1lph-a3-m2-cD 1lph-a3-m3-cB_1lph-a3-m3-cD 1lph-a7-m1-cB_1lph-a7-m1-cD 1mpj-a3-m1-cB_1mpj-a3-m1-cD 1mpj-a3-m2-cB_1mpj-a3-m2-cD 1mpj-a3-m3-cB_1mpj-a3-m3-cD 1mpj-a5-m1-cB_1mpj-a5-m1-cD 1q4v-a3-m1-cB_1q4v-a3-m1-cD 1q4v-a3-m2-cB_1q4v-a3-m2-cD 1q4v-a3-m3-cB_1q4v-a3-m3-cD 1qj0-a1-m1-cB_1qj0-a1-m1-cD 1qj0-a1-m2-cB_1qj0-a1-m2-cD 1qj0-a1-m3-cB_1qj0-a1-m3-cD 1trz-a3-m1-cB_1trz-a3-m1-cD 1trz-a3-m2-cB_1trz-a3-m2-cD 1trz-a3-m3-cB_1trz-a3-m3-cD 1trz-a6-m1-cB_1trz-a6-m1-cD 1tyl-a3-m1-cD_1tyl-a3-m1-cB 1tyl-a3-m2-cD_1tyl-a3-m2-cB 1tyl-a3-m3-cD_1tyl-a3-m3-cB 1tyl-a5-m1-cD_1tyl-a5-m1-cB 1tym-a3-m1-cD_1tym-a3-m1-cB 1tym-a3-m2-cD_1tym-a3-m2-cB 1tym-a3-m3-cD_1tym-a3-m3-cB 1tym-a5-m1-cD_1tym-a5-m1-cB 1zni-a3-m1-cB_1zni-a3-m1-cD 1zni-a3-m2-cB_1zni-a3-m2-cD 1zni-a3-m3-cB_1zni-a3-m3-cD 1zni-a6-m1-cB_1zni-a6-m1-cD 2r34-a1-m1-cB_2r34-a1-m1-cD 2r34-a1-m2-cB_2r34-a1-m2-cD 2r34-a1-m3-cB_2r34-a1-m3-cD 2r35-a1-m1-cB_2r35-a1-m1-cD 2r35-a1-m2-cB_2r35-a1-m2-cD 2r35-a1-m3-cB_2r35-a1-m3-cD 2vjz-a1-m1-cD_2vjz-a1-m1-cB 2vjz-a1-m2-cD_2vjz-a1-m2-cB 2vjz-a1-m3-cD_2vjz-a1-m3-cB 3gky-a1-m1-cB_3gky-a1-m1-cD 3gky-a1-m2-cB_3gky-a1-m2-cD 3gky-a1-m3-cB_3gky-a1-m3-cD 3mth-a3-m1-cB_3mth-a3-m1-cD 3mth-a3-m2-cB_3mth-a3-m2-cD 3mth-a3-m3-cB_3mth-a3-m3-cD 3mth-a5-m1-cB_3mth-a5-m1-cD 3v1g-a1-m1-cB_3v1g-a1-m1-cD 3v1g-a1-m2-cB_3v1g-a1-m2-cD 3v1g-a1-m3-cB_3v1g-a1-m3-cD 6ck2-a1-m1-cD_6ck2-a1-m1-cB 6ck2-a1-m2-cD_6ck2-a1-m2-cB 6ck2-a1-m3-cD_6ck2-a1-m3-cB 6tc2-a1-m1-cL_6tc2-a1-m1-cJ FVNQHLCGSHLVEALYLVCGERGFFYTP FVNQHLCGSHLVEALYLVCGERGFFYTPKT 1beo-a1-m1-cA_1beo-a1-m2-cA BETA-CRYPTOGEIN P15570 P15570 2.2 X-RAY DIFFRACTION 51 1.0 4786 (Phytophthora cryptogea) 4786 (Phytophthora cryptogea) 98 98 TACTATQQTAAYKTLVSILSDASFNQCSTDSGYSMLTAKALPTTAQYKLMCASTACNTMIKKIVTLNPPNCDLTVPTSGLVLNVYSYANGFSNKCSSL TACTATQQTAAYKTLVSILSDASFNQCSTDSGYSMLTAKALPTTAQYKLMCASTACNTMIKKIVTLNPPNCDLTVPTSGLVLNVYSYANGFSNKCSSL 1bf5-a1-m1-cA_1bf5-a1-m2-cA TYROSINE PHOSPHORYLATED STAT-1/DNA COMPLEX P42224 P42224 2.9 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 544 544 8d3f-a1-m1-cA_8d3f-a1-m2-cA LDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREHLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQKNAGTRTNEGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQNGGEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSRGIKTELISVS LDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREHLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQKNAGTRTNEGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQNGGEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSRGIKTELISVS 1bfv-a2-m1-cL_1bfv-a2-m2-cL MONOCLONAL ANTIBODY FRAGMENT FV4155 FROM E. COLI P01631 P01631 2.1 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 113 113 DIELTQSPPSLPVSLGDQVSISCRSSQSLVSNNRRNYLHWYLQKPGQSPKLVIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVAAEDLGLYFCSQSSHVPLTFGSGTKLEIKR DIELTQSPPSLPVSLGDQVSISCRSSQSLVSNNRRNYLHWYLQKPGQSPKLVIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVAAEDLGLYFCSQSSHVPLTFGSGTKLEIKR 1bfv-a3-m1-cH_1bfv-a3-m3-cH MONOCLONAL ANTIBODY FRAGMENT FV4155 FROM E. COLI P18529 P18529 2.1 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 119 119 QVQLQESGGGLVNLGGSMTLSCVASGFTFNTYYMSWVRQTPEKTLELVAAINSDGEPIYYPDTLKGRVTISRDNAKKTLYLQMSSLNFEDTALYYCARLNYAVYGMDYWGQGTTVTVSS QVQLQESGGGLVNLGGSMTLSCVASGFTFNTYYMSWVRQTPEKTLELVAAINSDGEPIYYPDTLKGRVTISRDNAKKTLYLQMSSLNFEDTALYYCARLNYAVYGMDYWGQGTTVTVSS 1bg1-a1-m1-cA_1bg1-a1-m2-cA TRANSCRIPTION FACTOR STAT3B/DNA COMPLEX P42227 P42227 2.25 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 558 558 4e68-a1-m1-cA_4e68-a1-m2-cA 6qhd-a1-m1-cA_6qhd-a1-m1-cB VVTEKQQMLEQHLQDVRKRVQDLEQKMKVVENLQDDFDFNYKTLKSQGDSVTRQKMQQLEQMLTALDQMRRSIVSELAGLLSAMEYVQKTLTDEELADWKRRQQIACIGGPPNICLDRLENWITSLAESQLQTRQQIKKLEELQQKVSYKGDPIVQHRPMLEERIVELFRNLMKSAFVVERQPCMPMHPDRPLVIKTGVQFTTKVRLLVKFPELNYQLKIKVCIDKDSGDVAALRGSRKFNILGTNTKVMNMEESNNGSLSAEFKHLTLREQRCGNGGRANCDASLIVTEELHLITFETEVYHQGLKIDLETHSLPVVVISNICQMPNAWASILWYNMLTNNPKNVNFFTKPPIGTWDQVAEVLSWQFSSTTKRGLSIEQLTTLAEKLLGPGVNYSGCQITWAKFCKENMAGKGFSFWVWLDNIIDLVKKYILALWNEGYIMGFISKERERAILSTKPPGTFLLRFSESSKEGGVTFTWVEKDISGSTQIQSVEPYTKQQLNNMSFAEIIMGYKIMDATNILVSPLVYLYPDIPKEEAFGKYCRAAPLKTKFICVTPF VVTEKQQMLEQHLQDVRKRVQDLEQKMKVVENLQDDFDFNYKTLKSQGDSVTRQKMQQLEQMLTALDQMRRSIVSELAGLLSAMEYVQKTLTDEELADWKRRQQIACIGGPPNICLDRLENWITSLAESQLQTRQQIKKLEELQQKVSYKGDPIVQHRPMLEERIVELFRNLMKSAFVVERQPCMPMHPDRPLVIKTGVQFTTKVRLLVKFPELNYQLKIKVCIDKDSGDVAALRGSRKFNILGTNTKVMNMEESNNGSLSAEFKHLTLREQRCGNGGRANCDASLIVTEELHLITFETEVYHQGLKIDLETHSLPVVVISNICQMPNAWASILWYNMLTNNPKNVNFFTKPPIGTWDQVAEVLSWQFSSTTKRGLSIEQLTTLAEKLLGPGVNYSGCQITWAKFCKENMAGKGFSFWVWLDNIIDLVKKYILALWNEGYIMGFISKERERAILSTKPPGTFLLRFSESSKEGGVTFTWVEKDISGSTQIQSVEPYTKQQLNNMSFAEIIMGYKIMDATNILVSPLVYLYPDIPKEEAFGKYCRAAPLKTKFICVTPF 1bg6-a1-m1-cA_1bg6-a1-m2-cA CRYSTAL STRUCTURE OF THE N-(1-D-CARBOXYLETHYL)-L-NORVALINE DEHYDROGENASE FROM ARTHROBACTER SP. STRAIN 1C Q44297 Q44297 1.8 X-RAY DIFFRACTION 64 1.0 79670 (Arthrobacter sp. 1C) 79670 (Arthrobacter sp. 1C) 349 349 SKTYAVLGLGNGGHAFAAYLALKGQSVLAWDIDAQRIKEIQDRGAIIAEGPGLAGTAHPDLLTSDIGLAVKDADVILIVVPAIHHASIAANIASYISEGQLIILNPGATGGALEFRKILRENGAPEVTIGETSSMLFTCRSERPGQVTVNAIKGAMDFACLPAAKAGWALEQIGSVLPQYVAVENVLHTSLTNVNAVMHPLPTLLNAARCESGTPFQYYLEGITPSVGSLAEKVDAERIAIAKAFDLNVPSVCEWYPATIYEAVQGNPAYRGIAGPINLNTRYFFEDVSTGLVPLSELGRAVNVPTPLIDAVLDLISSLIDTDFRKEGRTLEKLGLSGLTAAGIRSAVE SKTYAVLGLGNGGHAFAAYLALKGQSVLAWDIDAQRIKEIQDRGAIIAEGPGLAGTAHPDLLTSDIGLAVKDADVILIVVPAIHHASIAANIASYISEGQLIILNPGATGGALEFRKILRENGAPEVTIGETSSMLFTCRSERPGQVTVNAIKGAMDFACLPAAKAGWALEQIGSVLPQYVAVENVLHTSLTNVNAVMHPLPTLLNAARCESGTPFQYYLEGITPSVGSLAEKVDAERIAIAKAFDLNVPSVCEWYPATIYEAVQGNPAYRGIAGPINLNTRYFFEDVSTGLVPLSELGRAVNVPTPLIDAVLDLISSLIDTDFRKEGRTLEKLGLSGLTAAGIRSAVE 1bg8-a2-m1-cC_1bg8-a2-m2-cC HDEA FROM ESCHERICHIA COLI P0AES9 P0AES9 2.2 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 76 76 1bg8-a1-m1-cA_1bg8-a1-m1-cB 1dj8-a1-m1-cA_1dj8-a1-m1-cB 1dj8-a2-m1-cC_1dj8-a2-m1-cD 1dj8-a3-m1-cE_1dj8-a3-m1-cF KKPVNSWTCEDFLAVDESFQPTAVGFAEALNNKDKPEDAVLDVQGIATVTPAIVQACTQDKQANFKDKVKGEWDKI KKPVNSWTCEDFLAVDESFQPTAVGFAEALNNKDKPEDAVLDVQGIATVTPAIVQACTQDKQANFKDKVKGEWDKI 1bg9-a1-m1-cA_1bg9-a1-m2-cA BARLEY ALPHA-AMYLASE WITH SUBSTRATE ANALOGUE ACARBOSE P04063 P04063 2.8 X-RAY DIFFRACTION 52 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 403 403 QVLFQGFNWESWKHNGGWYNFLMGKVDDIAAAGITHVWLPPASQSVAEQGYMPGRLYDLDASKYGNKAQLKSLIGALHGKGVKAIADIVINHRTAEHKDGRGIYCIFEGGTPDARLDWGPHMICRDDRPYADGTGNPDTGADFGAAPDIDHLNLRVQKELVEWLNWLKADIGFDGWRFDFAKGYSADVAKIYIDRSEPSFAVAEIWTSLAYGGDGKPNLNQDQHRQELVNWVDKVGGKGPATTFDFTTKGILNVAVEGELWRLRGTDGKAPGMIGWWPAKAVTFVDNHDTGSTQHMWPFPSDRVMQGYAYILTHPGTPCIFYDHFFDWGLKEEIDRLVSVRTRHGIHNESKLQIIEADADLYLAEIDGKVIVKLGPRYDVGNLIPGGFKVAAHGNDYAVWEKI QVLFQGFNWESWKHNGGWYNFLMGKVDDIAAAGITHVWLPPASQSVAEQGYMPGRLYDLDASKYGNKAQLKSLIGALHGKGVKAIADIVINHRTAEHKDGRGIYCIFEGGTPDARLDWGPHMICRDDRPYADGTGNPDTGADFGAAPDIDHLNLRVQKELVEWLNWLKADIGFDGWRFDFAKGYSADVAKIYIDRSEPSFAVAEIWTSLAYGGDGKPNLNQDQHRQELVNWVDKVGGKGPATTFDFTTKGILNVAVEGELWRLRGTDGKAPGMIGWWPAKAVTFVDNHDTGSTQHMWPFPSDRVMQGYAYILTHPGTPCIFYDHFFDWGLKEEIDRLVSVRTRHGIHNESKLQIIEADADLYLAEIDGKVIVKLGPRYDVGNLIPGGFKVAAHGNDYAVWEKI 1bgf-a1-m1-cA_1bgf-a1-m2-cA STAT-4 N-DOMAIN P42228 P42228 1.45 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 124 124 GGSQWNQVQQLEIKFLEQVDQFYDDNFPMEIRHLLAQWIETQDWEVASNNETMATILLQNLLIQLDEQLGRVSKEKNLLLIHNLKRIRKVLQGKFHGNPMHVAVVISNCLREERRILAAANMPI GGSQWNQVQQLEIKFLEQVDQFYDDNFPMEIRHLLAQWIETQDWEVASNNETMATILLQNLLIQLDEQLGRVSKEKNLLLIHNLKRIRKVLQGKFHGNPMHVAVVISNCLREERRILAAANMPI 1bgp-a1-m1-cA_1bgp-a1-m2-cA CRYSTAL STRUCTURE OF BARLEY GRAIN PEROXIDASE 1 Q40069 Q40069 1.9 X-RAY DIFFRACTION 62 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 309 309 AEPPVAPGLSFDFYWQTCPRAESIVREFVQEAVRKDIGLAAGLLRLHFHDCFVQGCDASVLLDGSATGPGEQQAPPNLTLRPSAFKAVNDIRDRLERECRGAVVSCSDILALAARDSVVVSGGPDYRVPLGRRDSRSFASTQDVLSDLPGPSSNVQSLLALLGRLGLDATDLVTISGGHTIGLAHCSSFEDRLFPRPDPTISPTFLSRLKRTCPAKGTDRRTVLDVRTPNVFDNKYYIDLVNREGLFVSDQDLFTNAITRPIVERFAQSQQDFFEQFGVSIGKMGQMRVRTSDQGEVRRNCSVRNPGPG AEPPVAPGLSFDFYWQTCPRAESIVREFVQEAVRKDIGLAAGLLRLHFHDCFVQGCDASVLLDGSATGPGEQQAPPNLTLRPSAFKAVNDIRDRLERECRGAVVSCSDILALAARDSVVVSGGPDYRVPLGRRDSRSFASTQDVLSDLPGPSSNVQSLLALLGRLGLDATDLVTISGGHTIGLAHCSSFEDRLFPRPDPTISPTFLSRLKRTCPAKGTDRRTVLDVRTPNVFDNKYYIDLVNREGLFVSDQDLFTNAITRPIVERFAQSQQDFFEQFGVSIGKMGQMRVRTSDQGEVRRNCSVRNPGPG 1bgw-a1-m1-cA_1bgw-a1-m2-cA TOPOISOMERASE RESIDUES 410-1202, P06786 P06786 2.7 X-RAY DIFFRACTION 148 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 679 679 RKSRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREASADQILKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDQDHDGSHIKGLIINFLESSFLGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYKGLGTSLAQEVREYFSNLDRHLKIFHSLQGLFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARYIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSPNDEIEELYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEAR RKSRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREASADQILKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDQDHDGSHIKGLIINFLESSFLGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYKGLGTSLAQEVREYFSNLDRHLKIFHSLQGLFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARYIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSPNDEIEELYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEAR 1bhh-a1-m1-cB_1bhh-a1-m1-cA FREE P56LCK SH2 DOMAIN P06239 P06239 1.9 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 104 PEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQT EPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQT 1bhm-a1-m1-cA_1bhm-a1-m1-cB RESTRICTION ENDONUCLEASE BAMHI COMPLEX WITH DNA P23940 P23940 2.2 X-RAY DIFFRACTION 60 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 198 208 1bam-a1-m1-cA_1bam-a1-m2-cA 1esg-a1-m1-cA_1esg-a1-m1-cB 2bam-a1-m1-cA_2bam-a1-m1-cB 3bam-a1-m1-cA_3bam-a1-m1-cB MEVEKEFITDEAKELLSKDKLIQQAYNEVKTSICSPIWPATSKTFTINNTEKNCNGVVPIKELCYTLLEDTYNWYREKPLDILKLEKKKGGPIDVYKEFIENSELKRVGMEFETGNISSAHRSMNKLLLGLKHGEIDLAIILMPIKQLAYYLTDRVTNFEELEPYFELTEGQPFIFIGFNAEAYNSNVPLIPKGSDGM MEVEKEFITDEAKELLSKDKLIQQAYNEVKTSICSPIWPATSKTFTINNTEKNCNGVVPIKELCYTLLEDTYNWYREKPLDILKLEKKKGGPIDVYKEFIENSELKRVGMEFETGNISSAHRSMNKLLLGLKHGEIDLAIILMPIKQLAYYLTDRVTNFEELEPYFELTEGQPFIFIGFNAEAYNSNVPLIPKGSDGMSKRSIKKWKD 1bhp-a1-m3-cA_1bhp-a1-m4-cA STRUCTURE OF BETA-PUROTHIONIN AT ROOM TEMPERATURE AND 1.7 ANGSTROMS RESOLUTION P01543 P01543 1.7 X-RAY DIFFRACTION 15 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 45 45 1bhp-a1-m1-cA_1bhp-a1-m2-cA 1bhp-a1-m1-cA_1bhp-a1-m3-cA 1bhp-a1-m2-cA_1bhp-a1-m4-cA KSCCKSTLGRNCYNLCRARGAQKLCANVCRCKLTSGLSCPKDFPK KSCCKSTLGRNCYNLCRARGAQKLCANVCRCKLTSGLSCPKDFPK 1bi7-a1-m1-cA_1bi7-a1-m2-cA MECHANISM OF G1 CYCLIN DEPENDENT KINASE INHIBITION FROM THE STRUCTURE OF THE CDK6-P16INK4A TUMOR SUPPRESSOR COMPLEX Q00534 Q00534 3.4 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 269 269 DQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQEHPNVVRLFDVCTVSRTDRETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKDMMFQLLRGLDFLHSHRVVHRDLKPQNILVTSSGQIKLADFGLARIYSFQMALTSVVVTLWYRAPEVLLQSSYATPVDLWSVGCIFAEMFRRKPLFRGSSDVDQLGKILDVIGLPGEEDWPRDVALPRQAFHSKSAQPIEKFVTDIDELGKDLLLKCLTFNPAKRISAYSALSHPYFQ DQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQEHPNVVRLFDVCTVSRTDRETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKDMMFQLLRGLDFLHSHRVVHRDLKPQNILVTSSGQIKLADFGLARIYSFQMALTSVVVTLWYRAPEVLLQSSYATPVDLWSVGCIFAEMFRRKPLFRGSSDVDQLGKILDVIGLPGEEDWPRDVALPRQAFHSKSAQPIEKFVTDIDELGKDLLLKCLTFNPAKRISAYSALSHPYFQ 1bif-a1-m1-cA_1bif-a1-m2-cA 6-PHOSPHOFRUCTO-2-KINASE/FRUCTOSE-2,6-BISPHOSPHATASE BIFUNCTIONAL ENZYME COMPLEXED WITH ATP-G-S AND PHOSPHATE P25114 P25114 2 X-RAY DIFFRACTION 48 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 432 432 2bif-a1-m1-cA_2bif-a1-m1-cB CPTLIVMVGLPARGKTYISKKLTRYLNFIGVPTREFNVGQYRRDMVKTYKSFEFFLPDNEEGLKIRKQCALAALNDVRKFLSEEGGHVAVFDATNTTRERRAMIFNFGEQNGYKTFFVESICVDPEVIAANIVQVKLGSPDYVNRDSDEATEDFMRRIECYENSYESLDEEQDRDLSYIKIMDVGQSYVVNRVADHIQSRIVYYLMNIHVTPRSIYLCRHGESELNLKGRIGGDPGLSPRGREFSKHLAQFISDQNIKDLKVFTSQMKRTIQTAEALSVPYEQFKVLNEIDAGVCEEMTYEEIQDHYPLEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKAAEELPYLKCPLHTVLKLTPVAYGCKVESIFLNVAAVNTHRDRPQNVDISRPSEEALVTVPAHQ CPTLIVMVGLPARGKTYISKKLTRYLNFIGVPTREFNVGQYRRDMVKTYKSFEFFLPDNEEGLKIRKQCALAALNDVRKFLSEEGGHVAVFDATNTTRERRAMIFNFGEQNGYKTFFVESICVDPEVIAANIVQVKLGSPDYVNRDSDEATEDFMRRIECYENSYESLDEEQDRDLSYIKIMDVGQSYVVNRVADHIQSRIVYYLMNIHVTPRSIYLCRHGESELNLKGRIGGDPGLSPRGREFSKHLAQFISDQNIKDLKVFTSQMKRTIQTAEALSVPYEQFKVLNEIDAGVCEEMTYEEIQDHYPLEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKAAEELPYLKCPLHTVLKLTPVAYGCKVESIFLNVAAVNTHRDRPQNVDISRPSEEALVTVPAHQ 1bih-a1-m1-cA_1bih-a1-m1-cB CRYSTAL STRUCTURE OF THE INSECT IMMUNE PROTEIN HEMOLIN: A NEW DOMAIN ARRANGEMENT WITH IMPLICATIONS FOR HOMOPHILIC ADHESION P25033 P25033 3.1 X-RAY DIFFRACTION 87 1.0 7123 (Hyalophora cecropia) 7123 (Hyalophora cecropia) 391 391 KYPVLKDQPAEVLFRENNPTVLECIIEGNDQGVKYSWKKDGKSYNWQEHNAALRKDEGSLVFLRPQASDEGHYQCFAETPAGVASSRVISFRKTYLIASPAKTHEKTPIEGRPFQLDCVLPNAYPKPLITWKKRLSGADPNADVTDFDRRITAGPDGNLYFTIVTKEDVSDIYKYVCTAKNAAVDEEVVLVEYEIKGVTKDNSGYKGEPVPQYVSKDMMAKAGDVTMIYCMYGSNPMGYPNYFKNGKDVNGNPEDRITRHNRTSGKRLLFKTTLPEDEGVYTCEVDNGVGKPQKHSLKLTVVSAPKYEQKPEKVIVVKQGQDVTIPCKVTGLPAPNVVWSHNAKPLSGGRATVTDSGLVIKGVKNGDKGYYGCRATNEHGDKYFETLVQVN KYPVLKDQPAEVLFRENNPTVLECIIEGNDQGVKYSWKKDGKSYNWQEHNAALRKDEGSLVFLRPQASDEGHYQCFAETPAGVASSRVISFRKTYLIASPAKTHEKTPIEGRPFQLDCVLPNAYPKPLITWKKRLSGADPNADVTDFDRRITAGPDGNLYFTIVTKEDVSDIYKYVCTAKNAAVDEEVVLVEYEIKGVTKDNSGYKGEPVPQYVSKDMMAKAGDVTMIYCMYGSNPMGYPNYFKNGKDVNGNPEDRITRHNRTSGKRLLFKTTLPEDEGVYTCEVDNGVGKPQKHSLKLTVVSAPKYEQKPEKVIVVKQGQDVTIPCKVTGLPAPNVVWSHNAKPLSGGRATVTDSGLVIKGVKNGDKGYYGCRATNEHGDKYFETLVQVN 1bjf-a1-m1-cA_1bjf-a1-m1-cB CRYSTAL STRUCTURE OF RECOMBINANT BOVINE NEUROCALCIN DELTA AT 2.4 ANGSTROMS P61602 P61602 2.4 X-RAY DIFFRACTION 87 1.0 9913 (Bos taurus) 9913 (Bos taurus) 181 181 NSKLRPEVMQDLLESTDFTEHEIQEWYKGFLRDCPSGHLSMEEFKKIYGNFFPYGDASKFAEHVFRTFDANGDGTIDFREFIIALSVTSRGKLEQKLKWAFSMYDLDGNGYISKAEMLEIVQAIYKMVSSVMKMPEDESTPEKRTEKIFRQMDTNRDGKLSLEEFIRGAKSDPSIVRLLQC NSKLRPEVMQDLLESTDFTEHEIQEWYKGFLRDCPSGHLSMEEFKKIYGNFFPYGDASKFAEHVFRTFDANGDGTIDFREFIIALSVTSRGKLEQKLKWAFSMYDLDGNGYISKAEMLEIVQAIYKMVSSVMKMPEDESTPEKRTEKIFRQMDTNRDGKLSLEEFIRGAKSDPSIVRLLQC 1bjj-a10-m1-cB_1bjj-a10-m1-cC AGKISTRODOTOXIN, A PHOSPHOLIPASE A2-TYPE PRESYNAPTIC NEUROTOXIN FROM AGKISTRODON HALYS PALLAS P14421 P14421 2.8 X-RAY DIFFRACTION 20 1.0 8714 (Gloydius halys) 8714 (Gloydius halys) 122 122 NLLQFNKMIKEETGKNAIPFYAFYGCYCGWGGQGKPKDGTDRCCFVHDCCYGRLVNCNTKSDIYSYSLKEGYITCGKGTNCEEQICECDRVAAECFRRNLDTYNNGYMFYRDSKCTETSEEC NLLQFNKMIKEETGKNAIPFYAFYGCYCGWGGQGKPKDGTDRCCFVHDCCYGRLVNCNTKSDIYSYSLKEGYITCGKGTNCEEQICECDRVAAECFRRNLDTYNNGYMFYRDSKCTETSEEC 1bjj-a8-m1-cA_1bjj-a8-m1-cE AGKISTRODOTOXIN, A PHOSPHOLIPASE A2-TYPE PRESYNAPTIC NEUROTOXIN FROM AGKISTRODON HALYS PALLAS P14421 P14421 2.8 X-RAY DIFFRACTION 23 1.0 8714 (Gloydius halys) 8714 (Gloydius halys) 122 122 1bjj-a7-m1-cC_1bjj-a7-m1-cD 1bjj-a9-m1-cB_1bjj-a9-m1-cF NLLQFNKMIKEETGKNAIPFYAFYGCYCGWGGQGKPKDGTDRCCFVHDCCYGRLVNCNTKSDIYSYSLKEGYITCGKGTNCEEQICECDRVAAECFRRNLDTYNNGYMFYRDSKCTETSEEC NLLQFNKMIKEETGKNAIPFYAFYGCYCGWGGQGKPKDGTDRCCFVHDCCYGRLVNCNTKSDIYSYSLKEGYITCGKGTNCEEQICECDRVAAECFRRNLDTYNNGYMFYRDSKCTETSEEC 1bjm-a1-m1-cA_1bjm-a1-m1-cB LOC NAKS, A LAMBDA 1 TYPE LIGHT-CHAIN DIMER (BENCE-JONES PROTEIN) CRYSTALLIZED IN NAKSO4 2.2 X-RAY DIFFRACTION 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 3bjl-a1-m1-cA_3bjl-a1-m1-cB 4bjl-a1-m1-cA_4bjl-a1-m1-cB SVLTQPPSASGTPGQRVTISCSGSSSNIGENSVTWYQHLSGTAPKLLIYEDNSRASGVSDRFSASKSGTSASLAISGLQPEDETDYYCAAWDDSLDVAVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS SVLTQPPSASGTPGQRVTISCSGSSSNIGENSVTWYQHLSGTAPKLLIYEDNSRASGVSDRFSASKSGTSASLAISGLQPEDETDYYCAAWDDSLDVAVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS 1bjn-a1-m1-cA_1bjn-a1-m1-cB STRUCTURE OF PHOSPHOSERINE AMINOTRANSFERASE FROM ESCHERICHIA COLI P23721 P23721 2.3 X-RAY DIFFRACTION 187 1.0 562 (Escherichia coli) 562 (Escherichia coli) 359 359 1bjo-a1-m1-cB_1bjo-a1-m1-cA QIFNFSSGPAMLPAEVLKQAQQELRDWNGLGTSVMEVSHRGKEFIQVAEEAEKDFRDLLNVPSNYKVLFCHGGGRGQFAAVPLNILGDKTTADYVDAGYWAASAIKEAKKYCTPNVFDAKVTVDGLRAVKPMREWQLSDNAAYMHYCPNETIDGIAIDETPDFGADVVVAADFSSTILSRPIDVSRYGVIYAGAQNIGPAGLTIVIVREDLLGKANIACPSILDYSILNDNGSMFNTPPTFAWYLSGLVFKWLKANGGVAEMDKINQQKAELLYGVIDNSDFYRNDVAKRNRSRMNVPFQLADSALDKLFLEESFAAGLHALKGHRVVGGMRASIYNAMPLEGVKALTDFMVEFERRHG QIFNFSSGPAMLPAEVLKQAQQELRDWNGLGTSVMEVSHRGKEFIQVAEEAEKDFRDLLNVPSNYKVLFCHGGGRGQFAAVPLNILGDKTTADYVDAGYWAASAIKEAKKYCTPNVFDAKVTVDGLRAVKPMREWQLSDNAAYMHYCPNETIDGIAIDETPDFGADVVVAADFSSTILSRPIDVSRYGVIYAGAQNIGPAGLTIVIVREDLLGKANIACPSILDYSILNDNGSMFNTPPTFAWYLSGLVFKWLKANGGVAEMDKINQQKAELLYGVIDNSDFYRNDVAKRNRSRMNVPFQLADSALDKLFLEESFAAGLHALKGHRVVGGMRASIYNAMPLEGVKALTDFMVEFERRHG 1bjt-a1-m1-cA_1bjt-a1-m2-cA TOPOISOMERASE II RESIDUES 409-1201 P06786 P06786 2.5 X-RAY DIFFRACTION 113 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 679 679 RKSRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREALKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDSHIKGLIINFLESSFLGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYKGLGTSLAQEVREYFSNLDRHLKIFHSLQWLRQYEPFINKELILFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARYIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSPEELYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEARG RKSRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREALKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDSHIKGLIINFLESSFLGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYKGLGTSLAQEVREYFSNLDRHLKIFHSLQWLRQYEPFINKELILFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARYIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSPEELYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEARG 1bk4-a1-m1-cA_1bk4-a1-m2-cA CRYSTAL STRUCTURE OF RABBIT LIVER FRUCTOSE-1,6-BISPHOSPHATASE AT 2.3 ANGSTROM RESOLUTION P00637 P00637 2.3 X-RAY DIFFRACTION 27 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 314 314 FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK 1bk4-a1-m2-cA_1bk4-a1-m4-cA CRYSTAL STRUCTURE OF RABBIT LIVER FRUCTOSE-1,6-BISPHOSPHATASE AT 2.3 ANGSTROM RESOLUTION P00637 P00637 2.3 X-RAY DIFFRACTION 19 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 314 314 1bk4-a1-m1-cA_1bk4-a1-m3-cA FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK 1bk4-a2-m1-cA_1bk4-a2-m7-cA CRYSTAL STRUCTURE OF RABBIT LIVER FRUCTOSE-1,6-BISPHOSPHATASE AT 2.3 ANGSTROM RESOLUTION P00637 P00637 2.3 X-RAY DIFFRACTION 73 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 314 314 1bk4-a2-m5-cA_1bk4-a2-m6-cA FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK 1bk4-a2-m6-cA_1bk4-a2-m7-cA CRYSTAL STRUCTURE OF RABBIT LIVER FRUCTOSE-1,6-BISPHOSPHATASE AT 2.3 ANGSTROM RESOLUTION P00637 P00637 2.3 X-RAY DIFFRACTION 145 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 314 314 1bk4-a1-m3-cA_1bk4-a1-m4-cA 1bk4-a2-m1-cA_1bk4-a2-m5-cA FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK FDTDISTMTRFVMEEGRKAGGTGEMTQLLNSLCTAVKAISTAVRKAGIKLDVLSNDLVMNMLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKKSTDEPSTKDALQPGRNLVAAGYALYGSATMLVLAGGSGVNSFMLDPAIGEFILVDKNVKIKKKGNIYSLNEGYAKDFDPAVTEYIQKKKFPPDNSSPYGARYVGSMVADVHRTLVYGGIFLYPANKKSPDGKLRLLYECNPMAFIMEKAGGMATTGKEAILDIVPTDIHQRAPVILGSPDDVQEFLEIYKKHAVK 1bk5-a1-m1-cA_1bk5-a1-m1-cB KARYOPHERIN ALPHA FROM SACCHAROMYCES CEREVISIAE Q02821 Q02821 2.2 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 422 422 LPQMTQQLNSDDMQEQLSATVKFRQILSREHRPPIDVVIQAGVVPRLVEFMRENQPEMLQLEAAWALTNIASGTSAQTKVVVDADAVPLFIQLLYTGSVEVKEQAIWALGNVAGDSTDYRDYVLQCNAMEPILGLFNSNKPSLIRTATWTLSNLCRGKKPQPDWSVVSQALPTLAKLIYSMDTETLVDACWAISYLSDGPQEAIQAVIDVRIPKRLVELLSHESTLVQTPALRAVGNIVTGNDLQTQVVINAGVLPALRLLLSSPKENIKKEACWTISNITAGNTEQIQAVIDANLIPPLVKLLEVAEYKTKKEACWAISNASSGGLQRPDIIRYLVSQGCIKPLCDLLEIADNRIIEVTLDALENILKMGEADKEARGLNINENADFIEKAGGMEKIFNCQQNENDKIYEKAYKIIETYFG LPQMTQQLNSDDMQEQLSATVKFRQILSREHRPPIDVVIQAGVVPRLVEFMRENQPEMLQLEAAWALTNIASGTSAQTKVVVDADAVPLFIQLLYTGSVEVKEQAIWALGNVAGDSTDYRDYVLQCNAMEPILGLFNSNKPSLIRTATWTLSNLCRGKKPQPDWSVVSQALPTLAKLIYSMDTETLVDACWAISYLSDGPQEAIQAVIDVRIPKRLVELLSHESTLVQTPALRAVGNIVTGNDLQTQVVINAGVLPALRLLLSSPKENIKKEACWTISNITAGNTEQIQAVIDANLIPPLVKLLEVAEYKTKKEACWAISNASSGGLQRPDIIRYLVSQGCIKPLCDLLEIADNRIIEVTLDALENILKMGEADKEARGLNINENADFIEKAGGMEKIFNCQQNENDKIYEKAYKIIETYFG 1bkb-a1-m3-cA_1bkb-a1-m4-cA INITIATION FACTOR 5A FROM ARCHEBACTERIUM PYROBACULUM AEROPHILUM P56635 P56635 1.75 X-RAY DIFFRACTION 31 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 132 132 1bkb-a1-m1-cA_1bkb-a1-m2-cA 1bkb-a1-m1-cA_1bkb-a1-m3-cA 1bkb-a1-m2-cA_1bkb-a1-m4-cA KWVSTKYVEAGELKEGSYVVIDGEPCRVVEIEKSKTGKHGSAKARIVAVGVFDGGKRTLSLPVDAQVEVPIIEKFTAQILSVSGDVIQLDRDYKTIEVPKYVEEEAKGRLAPGAEVEVWQILDRYKIIRVKG KWVSTKYVEAGELKEGSYVVIDGEPCRVVEIEKSKTGKHGSAKARIVAVGVFDGGKRTLSLPVDAQVEVPIIEKFTAQILSVSGDVIQLDRDYKTIEVPKYVEEEAKGRLAPGAEVEVWQILDRYKIIRVKG 1bkj-a1-m1-cA_1bkj-a1-m1-cB NADPH:FMN OXIDOREDUCTASE FROM VIBRIO HARVEYI Q56691 Q56691 1.8 X-RAY DIFFRACTION 333 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 230 230 2bkj-a1-m1-cA_2bkj-a1-m1-cB NNTIETILAHRSIRKFTAVPITDEQRQTIIQAGLAASSSSMLQVVSIVRVTDSEKRNELAQFAGNQAYVESAAEFLVFCIDYQRHATINPDVQADFTELTLIGAVDSGIMAQNCLLAAESMGLGGVYIGGLRNSAAQVDELLGLPENSAVLFGMCLGHPDQNPEVKPRLPAHVVVHENQYQELNLDDIQSYDQTMQAYYSTWSQEVTGKLAGESRPHILPYLNSKGLAKR NNTIETILAHRSIRKFTAVPITDEQRQTIIQAGLAASSSSMLQVVSIVRVTDSEKRNELAQFAGNQAYVESAAEFLVFCIDYQRHATINPDVQADFTELTLIGAVDSGIMAQNCLLAAESMGLGGVYIGGLRNSAAQVDELLGLPENSAVLFGMCLGHPDQNPEVKPRLPAHVVVHENQYQELNLDDIQSYDQTMQAYYSTWSQEVTGKLAGESRPHILPYLNSKGLAKR 1bkl-a1-m1-cA_1bkl-a1-m2-cA SELF-ASSOCIATED APO SRC SH2 DOMAIN P00524 P00524 2.1 X-RAY DIFFRACTION 11 1.0 11886 (Rous sarcoma virus) 11886 (Rous sarcoma virus) 110 110 EEWYFGKITRRESESLLLNPENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYITSRTQFSSLQQLVAYYSKHADGLCHRLTNVCPTSKEFIVTD EEWYFGKITRRESESLLLNPENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYITSRTQFSSLQQLVAYYSKHADGLCHRLTNVCPTSKEFIVTD 1bkp-a1-m1-cA_1bkp-a1-m1-cB THERMOSTABLE THYMIDYLATE SYNTHASE A FROM BACILLUS SUBTILIS P0CI79 P0CI79 1.7 X-RAY DIFFRACTION 109 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 278 278 1bko-a1-m1-cA_1bko-a1-m1-cB 1bko-a2-m1-cC_1bko-a2-m1-cD 1bsf-a1-m1-cA_1bsf-a1-m1-cB 1bsp-a1-m1-cA_1bsp-a1-m1-cB TQFDKQYNSIIKDIINNGISDEEFDVRTKWDSDGTPAHTLSVISKQMRFDNSEVPILTTKKVAWKTAIKELLWIWQLKSNDVNDLNMMGVHIWDQWKQEDGTIGHAYGFQLGKKNRSLNGEKVDQVDYLLHQLKNNPSSRRHITMLWNPDELDAMALTPCVYETQWYVKHGKLHLEVRARSNDMALGNPFNVFQYNVLQRMIAQVTGYELGEYIFNIGDCHVYTRHIDNLKIQMEREQFEAPELWINPEVKDFYDFTIDDFKLINYKHGDKLLFEVAV TQFDKQYNSIIKDIINNGISDEEFDVRTKWDSDGTPAHTLSVISKQMRFDNSEVPILTTKKVAWKTAIKELLWIWQLKSNDVNDLNMMGVHIWDQWKQEDGTIGHAYGFQLGKKNRSLNGEKVDQVDYLLHQLKNNPSSRRHITMLWNPDELDAMALTPCVYETQWYVKHGKLHLEVRARSNDMALGNPFNVFQYNVLQRMIAQVTGYELGEYIFNIGDCHVYTRHIDNLKIQMEREQFEAPELWINPEVKDFYDFTIDDFKLINYKHGDKLLFEVAV 1bkv-a1-m1-cA_1bkv-a1-m1-cC COLLAGEN 2 X-RAY DIFFRACTION 58 1.0 22 23 GPGPGITGARGLAGPGPGPGPG PGPGPGITGARGLAGPGPGPGPG 1bkv-a1-m1-cB_1bkv-a1-m1-cC COLLAGEN 2 X-RAY DIFFRACTION 54 1.0 23 23 1bkv-a1-m1-cA_1bkv-a1-m1-cB PGPGPGITGARGLAGPGPGPGPG PGPGPGITGARGLAGPGPGPGPG 1ble-a1-m2-cA_1ble-a1-m3-cA PHOSPHOENOLPYRUVATE-DEPENDENT PHOSPHOTRANSFERASE SYSTEM P26380 P26380 2.9 X-RAY DIFFRACTION 31 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 161 161 1ble-a1-m1-cA_1ble-a1-m2-cA 1ble-a1-m1-cA_1ble-a1-m3-cA MNIVLARIDDRFIHGQILTRWIKVHAADRIIVVSDDIAQDEMRKTLILSVAPSNVKASAVSVSKMAKAFHSPRYEGVTAMLLFENPSDIVSLIEAGVPIKTVNVGGMRFENHRRQITKSVSVTEQDIKAFETLSDKGVKLELRQLPSDASEDFVQILRNVT MNIVLARIDDRFIHGQILTRWIKVHAADRIIVVSDDIAQDEMRKTLILSVAPSNVKASAVSVSKMAKAFHSPRYEGVTAMLLFENPSDIVSLIEAGVPIKTVNVGGMRFENHRRQITKSVSVTEQDIKAFETLSDKGVKLELRQLPSDASEDFVQILRNVT 1bml-a1-m1-cC_1bml-a1-m1-cD COMPLEX OF THE CATALYTIC DOMAIN OF HUMAN PLASMIN AND STREPTOKINASE P00779 P00779 2.9 X-RAY DIFFRACTION 36 1.0 119602 (Streptococcus dysgalactiae subsp. equisimilis) 119602 (Streptococcus dysgalactiae subsp. equisimilis) 318 318 SVNNSQLVVSVAGTVEGTNQDISLKFFEIDLTSRPHKLEKADLLKAIQEQLIANVHSNDDYFEVIDFASDATITDRNGKVYFADKDGSVTLPTQPVQEFLLSGHVRVRPYKEKPIQNQAKSVDVEYTVQFTPLNPDDDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAEINNTDLISEKYYVLKKGEKPYDPFDRSHLKLFTIKYVDVNTNELLKSEQLLTASERNLDFRDLYDPRDKAKLLYNNLDAFGIMDYTLTGKVEDNHDDTNRIITVYMGKR SVNNSQLVVSVAGTVEGTNQDISLKFFEIDLTSRPHKLEKADLLKAIQEQLIANVHSNDDYFEVIDFASDATITDRNGKVYFADKDGSVTLPTQPVQEFLLSGHVRVRPYKEKPIQNQAKSVDVEYTVQFTPLNPDDDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAEINNTDLISEKYYVLKKGEKPYDPFDRSHLKLFTIKYVDVNTNELLKSEQLLTASERNLDFRDLYDPRDKAKLLYNNLDAFGIMDYTLTGKVEDNHDDTNRIITVYMGKR 1bmo-a1-m1-cA_1bmo-a1-m1-cB BM-40, FS/EC DOMAIN PAIR P09486 P09486 3.1 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 PCQNHHCKHGKVCELDENNTPMCVCQDPTSCPAPIGEFEKVCSNDNKTFDSSCHFFATKCTLEGTKKGHKLHLDYIGPCKYIPPCLDSELTEFPLRMRDWLKNVLVTLYERDEDNNLLTEKQKLRVKKIHENEKRLEAGDHPVELLARDFEKNYNMYIFPVHWQFGQLDQHPIDGYLSHTELAPLRAPLIPMEHCTTRFFETCDLDNDKYIALDEWAGCFGIKQKDIDKDLVI PCQNHHCKHGKVCELDENNTPMCVCQDPTSCPAPIGEFEKVCSNDNKTFDSSCHFFATKCTLEGTKKGHKLHLDYIGPCKYIPPCLDSELTEFPLRMRDWLKNVLVTLYERDEDNNLLTEKQKLRVKKIHENEKRLEAGDHPVELLARDFEKNYNMYIFPVHWQFGQLDQHPIDGYLSHTELAPLRAPLIPMEHCTTRFFETCDLDNDKYIALDEWAGCFGIKQKDIDKDLVI 1bmp-a1-m1-cA_1bmp-a1-m2-cA BONE MORPHOGENETIC PROTEIN-7 P18075 P18075 2.8 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 1lx5-a1-m1-cA_1lx5-a1-m2-cA 1lxi-a1-m1-cA_1lxi-a1-m2-cA 1m4u-a1-m1-cL_1m4u-a1-m2-cL QACKKHELYVSFRDLGWQDWIIAPEGYAAYYCEGECAFPLNSYMNATNHAIVQTLVHFINPETVPKPCCAPTQLNAISVLYFDDSSNVILKKYRNMVVRACGCH QACKKHELYVSFRDLGWQDWIIAPEGYAAYYCEGECAFPLNSYMNATNHAIVQTLVHFINPETVPKPCCAPTQLNAISVLYFDDSSNVILKKYRNMVVRACGCH 1bmt-a1-m1-cA_1bmt-a1-m1-cB HOW A PROTEIN BINDS B12: A 3.O ANGSTROM X-RAY STRUCTURE OF THE B12-BINDING DOMAINS OF METHIONINE SYNTHASE P13009 P13009 3 X-RAY DIFFRACTION 47 1.0 562 (Escherichia coli) 562 (Escherichia coli) 246 246 QAEWRSWEVNKRLEYSLVKGITEFIEQDTEEARQQATRPIEVIEGPLMDGMNVVGDLFGEGKMFLPQVVKSARVMKQAVAYLEPFIEASKEQGKTNGKMVIATVKGDVHDIGKNIVGVVLQCNNYEIVDLGVMVPAEKILRTAKEVNADLIGLSGLITPSLDEMVNVAKEMERQGFTIPLLIGGATTSKAHTAVKIEQNYSGPTVYVQNASRTVGVVAALLSDTQRDDFVARTRKEYETVRIQHGR QAEWRSWEVNKRLEYSLVKGITEFIEQDTEEARQQATRPIEVIEGPLMDGMNVVGDLFGEGKMFLPQVVKSARVMKQAVAYLEPFIEASKEQGKTNGKMVIATVKGDVHDIGKNIVGVVLQCNNYEIVDLGVMVPAEKILRTAKEVNADLIGLSGLITPSLDEMVNVAKEMERQGFTIPLLIGGATTSKAHTAVKIEQNYSGPTVYVQNASRTVGVVAALLSDTQRDDFVARTRKEYETVRIQHGR 1bnc-a1-m1-cB_1bnc-a1-m1-cA THREE-DIMENSIONAL STRUCTURE OF THE BIOTIN CARBOXYLASE SUBUNIT OF ACETYL-COA CARBOXYLASE P24182 P24182 2.4 X-RAY DIFFRACTION 66 0.995 562 (Escherichia coli) 562 (Escherichia coli) 424 433 1dv1-a1-m1-cB_1dv1-a1-m1-cA 3jzi-a1-m1-cA_3jzi-a1-m1-cB 3rup-a1-m1-cA_3rup-a1-m1-cB 3rv3-a1-m1-cA_3rv3-a1-m1-cB 3rv4-a1-m1-cA_3rv4-a1-m2-cA 4hr7-a1-m1-cC_4hr7-a1-m1-cA 4hr7-a1-m1-cE_4hr7-a1-m1-cF MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGDDMDKNRAIAKRIGYPVIIKRVVRGDAELAQSISMTRAYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGLQE MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKRGMRVVRGDAELAQSISMTRAEAKMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGL 1bnd-a1-m1-cA_1bnd-a1-m2-cA STRUCTURE OF THE BRAIN-DERIVED NEUROTROPHIC FACTOR(SLASH)NEUROTROPHIN 3 HETERODIMER P23560 P23560 2.3 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 GQLSVCDSISEWVTAADKKTAVDMSGGTVTVLEKVPVSKGQLKQYFYETKCNPMGYTKEGCRGIDKRHWNSQCRTTQSYVRALTMDSKKRIGWRFIRIDTSCVCTLTIK GQLSVCDSISEWVTAADKKTAVDMSGGTVTVLEKVPVSKGQLKQYFYETKCNPMGYTKEGCRGIDKRHWNSQCRTTQSYVRALTMDSKKRIGWRFIRIDTSCVCTLTIK 1bnd-a1-m1-cB_1bnd-a1-m2-cB STRUCTURE OF THE BRAIN-DERIVED NEUROTROPHIC FACTOR(SLASH)NEUROTROPHIN 3 HETERODIMER P20783 P20783 2.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 RGEVSVCDSESLWVTDKSSAIDIRGHQVTVLGEIKTQNSPVKQYFYETRCKEARPVKNGCRGIDDKHWNSQCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCALSRK RGEVSVCDSESLWVTDKSSAIDIRGHQVTVLGEIKTQNSPVKQYFYETRCKEARPVKNGCRGIDDKHWNSQCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCALSRK 1bog-a1-m1-cA_1bog-a1-m2-cA ANTI-P24 (HIV-1) FAB FRAGMENT CB41 COMPLEXED WITH AN EPITOPE-HOMOLOGOUS PEPTIDE 2.6 X-RAY DIFFRACTION 16 1.0 10090 (Mus musculus) 10090 (Mus musculus) 214 214 DIKMTQSPSSMYTSLGERVTITCKASQDINSFLTWFLQKPGKSPKTLIYRANRLMIGVPSRFSGSGSGQTYSLTISSLEYEDMGIYYCLQYDDFPLTFGAGTKLDLKRADAAPTVSIFPPSSEQLTSGTASVVCFLNNFYPKEINVKWKIDGSERQNGVLDSWTEQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DIKMTQSPSSMYTSLGERVTITCKASQDINSFLTWFLQKPGKSPKTLIYRANRLMIGVPSRFSGSGSGQTYSLTISSLEYEDMGIYYCLQYDDFPLTFGAGTKLDLKRADAAPTVSIFPPSSEQLTSGTASVVCFLNNFYPKEINVKWKIDGSERQNGVLDSWTEQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 1bog-a1-m1-cB_1bog-a1-m2-cB ANTI-P24 (HIV-1) FAB FRAGMENT CB41 COMPLEXED WITH AN EPITOPE-HOMOLOGOUS PEPTIDE P01864 P01864 2.6 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 QDQLQQSGAELVRPGASVKLSCKALGYIFTDYEIHWVKQTPVHGLEWIGGIHPGSSGTAYNQKFKGKATLTADKSSTTAFMELSSLTSEDSAVYYCTRKDYWGQGTLVTVSAAKTTAPSVYPLVPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIEPRV QDQLQQSGAELVRPGASVKLSCKALGYIFTDYEIHWVKQTPVHGLEWIGGIHPGSSGTAYNQKFKGKATLTADKSSTTAFMELSSLTSEDSAVYYCTRKDYWGQGTLVTVSAAKTTAPSVYPLVPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIEPRV 1bou-a1-m1-cB_1bou-a1-m1-cD THREE-DIMENSIONAL STRUCTURE OF LIGAB P22636 P22636 2.2 X-RAY DIFFRACTION 76 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 298 298 1b4u-a1-m1-cB_1b4u-a1-m1-cD ARVTTGITSSHIPALGAAIQTGTSDNDYWGPVFKGYQPIRDWIKQPGNMPDVVILVYNDHASAFDMNIIPTFAIGCAETFKPADEGWGPRPVPDVKGHPDLAWHIAQSLILDEFDMTIMNQMDVDHGCTVPLSMIFGEPEEWPCKVIPFPVNVVTYPPPSGKRCFALGDSIRAAVESFPEDLNVHVWGTGGMSHQLQGPRAGLINKEFDLNFIDKLISDPEELSKMPHIQYLRESGSEGVELVMWLIMRGALPEKVRDLYTFYHIPASNTALGAMILQPEETAGTPLEPRKVMSGHSL ARVTTGITSSHIPALGAAIQTGTSDNDYWGPVFKGYQPIRDWIKQPGNMPDVVILVYNDHASAFDMNIIPTFAIGCAETFKPADEGWGPRPVPDVKGHPDLAWHIAQSLILDEFDMTIMNQMDVDHGCTVPLSMIFGEPEEWPCKVIPFPVNVVTYPPPSGKRCFALGDSIRAAVESFPEDLNVHVWGTGGMSHQLQGPRAGLINKEFDLNFIDKLISDPEELSKMPHIQYLRESGSEGVELVMWLIMRGALPEKVRDLYTFYHIPASNTALGAMILQPEETAGTPLEPRKVMSGHSL 1bow-a1-m1-cA_1bow-a1-m2-cA MULTIDRUG-BINDING DOMAIN OF TRANSCRIPTION ACTIVATOR BMRR (APO FORM) P39075 P39075 2.7 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 143 RLGEVFVLDEEEIRIIQTEAEGIGPENVLNASYSKLKKFIESNNSYGATFSFQPYTSIDEMTYRHIFTPVLISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYEYRVEMKIRIL RLGEVFVLDEEEIRIIQTEAEGIGPENVLNASYSKLKKFIESNNSYGATFSFQPYTSIDEMTYRHIFTPVLISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYEYRVEMKIRIL 1bph-a4-m1-cA_1bph-a4-m3-cA CONFORMATIONAL CHANGES IN CUBIC INSULIN CRYSTALS IN THE PH RANGE 7-11 P01317 P01317 2 X-RAY DIFFRACTION 22 1.0 9913 (Bos taurus) 9913 (Bos taurus) 21 21 1aph-a3-m1-cA_1aph-a3-m3-cA 1bph-a3-m1-cA_1bph-a3-m3-cA 1cph-a4-m1-cA_1cph-a4-m5-cA 1cph-a5-m1-cA_1cph-a5-m5-cA 1dph-a3-m1-cA_1dph-a3-m3-cA 1dph-a4-m1-cA_1dph-a4-m3-cA 4cxn-a1-m1-cA_4cxn-a1-m2-cA 6s34-a1-m1-cA_6s34-a1-m2-cA GIVEQCCASVCSLYQLENYCN GIVEQCCASVCSLYQLENYCN 1bqg-a1-m1-cA_1bqg-a1-m4-cA THE STRUCTURE OF THE D-GLUCARATE DEHYDRATASE PROTEIN FROM PSEUDOMONAS PUTIDA P42206 P42206 2.3 X-RAY DIFFRACTION 11 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 399 399 1bqg-a1-m2-cA_1bqg-a1-m3-cA GAPVITDLKVVPVAGHDSMLLNLSGAHGPLFTRNILILTDSSGHVGVGEVPGGEGIRKTLEDARHLLINQSIGNYQSLLNKVRNAFADLRIAVHAVTAVESALLDLLGQHLQVPVAALLGEGQQRDAVEMLGYLFYVGDRNKTDLGYRSEHEADNEWFRLRNKEALTPESVVALAEAAYDRYGFKDFKLKGGVLRGEDEIAAVTALSERFPDARITLDPNGAWSLKEAVALCRDQHHVLAYAEDPCGAENGYSGREVMAEFRRSTGLRTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGNITAIDTHWIWQDGQRLTKEPLQIKGGLVEVPKKPGLGVELDWDALMKAHEVYKSM GAPVITDLKVVPVAGHDSMLLNLSGAHGPLFTRNILILTDSSGHVGVGEVPGGEGIRKTLEDARHLLINQSIGNYQSLLNKVRNAFADLRIAVHAVTAVESALLDLLGQHLQVPVAALLGEGQQRDAVEMLGYLFYVGDRNKTDLGYRSEHEADNEWFRLRNKEALTPESVVALAEAAYDRYGFKDFKLKGGVLRGEDEIAAVTALSERFPDARITLDPNGAWSLKEAVALCRDQHHVLAYAEDPCGAENGYSGREVMAEFRRSTGLRTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGNITAIDTHWIWQDGQRLTKEPLQIKGGLVEVPKKPGLGVELDWDALMKAHEVYKSM 1bqg-a1-m2-cA_1bqg-a1-m4-cA THE STRUCTURE OF THE D-GLUCARATE DEHYDRATASE PROTEIN FROM PSEUDOMONAS PUTIDA P42206 P42206 2.3 X-RAY DIFFRACTION 76 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 399 399 1bqg-a1-m1-cA_1bqg-a1-m3-cA GAPVITDLKVVPVAGHDSMLLNLSGAHGPLFTRNILILTDSSGHVGVGEVPGGEGIRKTLEDARHLLINQSIGNYQSLLNKVRNAFADLRIAVHAVTAVESALLDLLGQHLQVPVAALLGEGQQRDAVEMLGYLFYVGDRNKTDLGYRSEHEADNEWFRLRNKEALTPESVVALAEAAYDRYGFKDFKLKGGVLRGEDEIAAVTALSERFPDARITLDPNGAWSLKEAVALCRDQHHVLAYAEDPCGAENGYSGREVMAEFRRSTGLRTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGNITAIDTHWIWQDGQRLTKEPLQIKGGLVEVPKKPGLGVELDWDALMKAHEVYKSM GAPVITDLKVVPVAGHDSMLLNLSGAHGPLFTRNILILTDSSGHVGVGEVPGGEGIRKTLEDARHLLINQSIGNYQSLLNKVRNAFADLRIAVHAVTAVESALLDLLGQHLQVPVAALLGEGQQRDAVEMLGYLFYVGDRNKTDLGYRSEHEADNEWFRLRNKEALTPESVVALAEAAYDRYGFKDFKLKGGVLRGEDEIAAVTALSERFPDARITLDPNGAWSLKEAVALCRDQHHVLAYAEDPCGAENGYSGREVMAEFRRSTGLRTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGNITAIDTHWIWQDGQRLTKEPLQIKGGLVEVPKKPGLGVELDWDALMKAHEVYKSM 1bqg-a1-m3-cA_1bqg-a1-m4-cA THE STRUCTURE OF THE D-GLUCARATE DEHYDRATASE PROTEIN FROM PSEUDOMONAS PUTIDA P42206 P42206 2.3 X-RAY DIFFRACTION 30 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 399 399 1bqg-a1-m1-cA_1bqg-a1-m2-cA GAPVITDLKVVPVAGHDSMLLNLSGAHGPLFTRNILILTDSSGHVGVGEVPGGEGIRKTLEDARHLLINQSIGNYQSLLNKVRNAFADLRIAVHAVTAVESALLDLLGQHLQVPVAALLGEGQQRDAVEMLGYLFYVGDRNKTDLGYRSEHEADNEWFRLRNKEALTPESVVALAEAAYDRYGFKDFKLKGGVLRGEDEIAAVTALSERFPDARITLDPNGAWSLKEAVALCRDQHHVLAYAEDPCGAENGYSGREVMAEFRRSTGLRTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGNITAIDTHWIWQDGQRLTKEPLQIKGGLVEVPKKPGLGVELDWDALMKAHEVYKSM GAPVITDLKVVPVAGHDSMLLNLSGAHGPLFTRNILILTDSSGHVGVGEVPGGEGIRKTLEDARHLLINQSIGNYQSLLNKVRNAFADLRIAVHAVTAVESALLDLLGQHLQVPVAALLGEGQQRDAVEMLGYLFYVGDRNKTDLGYRSEHEADNEWFRLRNKEALTPESVVALAEAAYDRYGFKDFKLKGGVLRGEDEIAAVTALSERFPDARITLDPNGAWSLKEAVALCRDQHHVLAYAEDPCGAENGYSGREVMAEFRRSTGLRTATNMIATDWRQMGHAIQLQSVDIPLADPHFWTMQGSVRVAQMCNEWGLTWGSHSNNHFDISLAMFTHVAAAAPGNITAIDTHWIWQDGQRLTKEPLQIKGGLVEVPKKPGLGVELDWDALMKAHEVYKSM 1bqh-a2-m1-cI_1bqh-a2-m1-cK MURINE CD8AA ECTODOMAIN FRAGMENT IN COMPLEX WITH H-2KB/VSV8 P01731 P01731 2.8 X-RAY DIFFRACTION 70 1.0 10090 (Mus musculus) 10090 (Mus musculus) 122 125 1bqh-a1-m1-cG_1bqh-a1-m1-cH APELRIFPKKMDAELGQKVDLVCEVLGSVSQGCSWLFQNSSSKLPQPTFVVYMASSHNKITWDEKLNSSKLFSAMRDTNNKYVLTLNKFSKENEGYYFCSVISNSVMYFSSVVPVLQKVSSA KPQAPELRIFPKKMDAELGQKVDLVCEVLGSVSQGCSWLFQNSSSKLPQPTFVVYMASSHNKITWDEKLNSSKLFSAMRDTNNKYVLTLNKFSKENEGYYFCSVISNSVMYFSSVVPVLQKVSSA 1bqu-a1-m1-cA_1bqu-a1-m1-cB CYTOKYNE-BINDING REGION OF GP130 P40189 P40189 2 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 215 GLPPEKPKNLSCIVNEGKKMRCEWDGGRETHLETNFTLKSEWATHKFADCKAKRDTPTSCTVDYSTVYFVNIEVWVEAENALGKVTSDHINFDPVYKVKPNPPHNLSVINSLSSILKLTWTNPSIKSVIILKYNIQYRTKDASTWSQIPPEDTASTRSSFTVQDLKPFTEYVFRIRCMKEDGKGYWSDWSEEASGITYEDRPSKEPSF PGSSGLPPEKPKNLSCIVNEGKKMRCEWDGGRETHLETNFTLKSEWATHKFADCKAKRDTPTSCTVDYSTVYFVNIEVWVEAENALGKVTSDHINFDPVYKVKPNPPHNLSVINSEELSSILKLTWTNPSIKSVIILKYNIQYRTKDASTWSQIPPEDTASTRSSFTVQDLKPFTEYVFRIRCMKEDGKGYWSDWSEEASGITYEDRPSKEPSFW 1bqy-a1-m2-cA_1bqy-a1-m1-cB Plasminogen activator (TSV-PA) from snake venom Q91516 Q91516 2.5 X-RAY DIFFRACTION 29 1.0 39682 (Trimeresurus stejnegeri) 39682 (Trimeresurus stejnegeri) 234 234 VFGGDECNINEHRSLVVLFNSNGFLCGGTLINQDWVVTAAHCDSNNFQLLFGVHSKKILNEDEQTRDPKEKFFCPNRKKDDEVDKDIMLIKLDSSVSNSEHIAPLSLPSSPPSVGSVCRIMGWGKTIPTKEIYPDVPHCANINILDHAVCRTAYSWRQVANTTLCAGILQGGRDTCHFDSGGPLICNGIFQGIVSWGGHPCGQPGEPGVYTKVFDYLDWIKSIIAGNKDATCPP VFGGDECNINEHRSLVVLFNSNGFLCGGTLINQDWVVTAAHCDSNNFQLLFGVHSKKILNEDEQTRDPKEKFFCPNRKKDDEVDKDIMLIKLDSSVSNSEHIAPLSLPSSPPSVGSVCRIMGWGKTIPTKEIYPDVPHCANINILDHAVCRTAYSWRQVANTTLCAGILQGGRDTCHFDSGGPLICNGIFQGIVSWGGHPCGQPGEPGVYTKVFDYLDWIKSIIAGNKDATCPP 1bra-a1-m2-cA_1bra-a1-m1-cA RELOCATING A NEGATIVE CHARGE IN THE BINDING POCKET OF TRYPSIN P00763 P00763 2.2 X-RAY DIFFRACTION 33 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 223 223 1anb-a1-m2-cA_1anb-a1-m1-cA 1anc-a1-m2-cA_1anc-a1-m1-cA 1and-a1-m2-cA_1and-a1-m1-cA 1ane-a1-m2-cA_1ane-a1-m1-cA IVGGYTCQENSVPYQVSLNSGYHFCGGSLINDQWVVSAAHCYKSRIQVRLGEHNINVLEGNEQFVNAAKIIKHPNFDRKTLNNDIMLIKLSSPVKLNARVATVALPSSCAPAGTQCLISGWGNTLSSGVNEPDLLQCLDAPLLPQADCEASYPGKITDNMVCVGFLEGGKGSCQGDSGGPVVCNGELQGIVSWGYGCALPDNPDVYTKVCNYVDWIQDTIAAN IVGGYTCQENSVPYQVSLNSGYHFCGGSLINDQWVVSAAHCYKSRIQVRLGEHNINVLEGNEQFVNAAKIIKHPNFDRKTLNNDIMLIKLSSPVKLNARVATVALPSSCAPAGTQCLISGWGNTLSSGVNEPDLLQCLDAPLLPQADCEASYPGKITDNMVCVGFLEGGKGSCQGDSGGPVVCNGELQGIVSWGYGCALPDNPDVYTKVCNYVDWIQDTIAAN 1brd-a1-m2-cA_1brd-a1-m3-cA Model for the structure of Bacteriorhodopsin based on high-resolution Electron Cryo-microscopy P02945 P02945 3.5 ELECTRON CRYSTALLOGRAPHY 22 1.0 2242 (Halobacterium salinarum) 2242 (Halobacterium salinarum) 170 170 1brd-a1-m1-cA_1brd-a1-m2-cA 1brd-a1-m1-cA_1brd-a1-m3-cA PEWIWLALGTALMGLGTLYFLVKGMDAKKFYAITTLVPAIAFTMYLSMLLEQNPIYWARYADWLFTTPLLLLDLALLGTILALVGADGIMIGTGLVGALWWAISTAAMLYILYVLFFGFTEVASTFKVLRNVTVVLWSAYPVVWLINIETLLFMVLDVSAKVGFGLILLR PEWIWLALGTALMGLGTLYFLVKGMDAKKFYAITTLVPAIAFTMYLSMLLEQNPIYWARYADWLFTTPLLLLDLALLGTILALVGADGIMIGTGLVGALWWAISTAAMLYILYVLFFGFTEVASTFKVLRNVTVVLWSAYPVVWLINIETLLFMVLDVSAKVGFGLILLR 1bre-a1-m2-cA_1bre-a1-m2-cB IMMUNOGLOBULIN LIGHT CHAIN PROTEIN 2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 1bre-a1-m1-cA_1bre-a1-m1-cB 1bre-a1-m1-cC_1bre-a1-m1-cD 1bre-a1-m1-cE_1bre-a1-m1-cF 1bre-a1-m2-cC_1bre-a1-m2-cD 1bre-a1-m2-cE_1bre-a1-m2-cF 1qp1-a1-m1-cB_1qp1-a1-m1-cC 2kqn-a1-m1-cA_2kqn-a1-m1-cB 3cdy-a1-m1-cA_3cdy-a1-m1-cB 3u7a-a1-m1-cA_3u7a-a1-m2-cA DIQMTQSPSSLSASVGDRVTITCQASQDISDYLIWYQQKLGKAPNLLIYDASTLETGVPSRFSGSGSGTEYTFTISSLQPEDIATYYCQQYDDLPYTFGQGTKVEIK DIQMTQSPSSLSASVGDRVTITCQASQDISDYLIWYQQKLGKAPNLLIYDASTLETGVPSRFSGSGSGTEYTFTISSLQPEDIATYYCQQYDDLPYTFGQGTKVEIK 1bre-a1-m2-cC_1bre-a1-m2-cF IMMUNOGLOBULIN LIGHT CHAIN PROTEIN 2 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 1bre-a1-m1-cA_1bre-a1-m1-cD 1bre-a1-m1-cB_1bre-a1-m2-cE 1bre-a1-m1-cC_1bre-a1-m1-cF 1bre-a1-m2-cA_1bre-a1-m2-cD 1qp1-a1-m1-cA_1qp1-a1-m1-cB DIQMTQSPSSLSASVGDRVTITCQASQDISDYLIWYQQKLGKAPNLLIYDASTLETGVPSRFSGSGSGTEYTFTISSLQPEDIATYYCQQYDDLPYTFGQGTKVEIK DIQMTQSPSSLSASVGDRVTITCQASQDISDYLIWYQQKLGKAPNLLIYDASTLETGVPSRFSGSGSGTEYTFTISSLQPEDIATYYCQQYDDLPYTFGQGTKVEIK 1brw-a1-m1-cA_1brw-a1-m1-cB THE CRYSTAL STRUCTURE OF PYRIMIDINE NUCLEOSIDE PHOSPHORYLASE IN A CLOSED CONFORMATION P77836 P77836 2.1 X-RAY DIFFRACTION 78 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 433 433 MRMVDLIAKKRDGKALTKEEIEWIVRGYTNGDIPDYQMSALAMAIYFRGMTEEETAALTMAMVQSGEMLDLSSIRGVKVDKHSTGGVGDTTTLVLGPLVASVGVPVAKMSGRGLGHTGGTIDKLESVPGFHVEISKDEFIRLVNENGIAIIGQTGDLTPADKKLYALRDVTATVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKKLDEARRLARVMVDIGKRVGRRTMAVISDMSQPLGYAVGNALEVKEAIETLKGNGPHDLTELCLTLGSHMVYLAEKAPSLDEARRLLEEAIRSGAAIAAFKTFLAAQGGDASVVDDLDKLPKAAYTSTVTAAADGYVAEMAADDIGTAAMWLGAGRAKKEDVIDLAVGIVLHKKIGDRVQKGEALATIHSNRPDVLDVKEKIEAAIRLSPQPVARPPLIYETIV MRMVDLIAKKRDGKALTKEEIEWIVRGYTNGDIPDYQMSALAMAIYFRGMTEEETAALTMAMVQSGEMLDLSSIRGVKVDKHSTGGVGDTTTLVLGPLVASVGVPVAKMSGRGLGHTGGTIDKLESVPGFHVEISKDEFIRLVNENGIAIIGQTGDLTPADKKLYALRDVTATVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKKLDEARRLARVMVDIGKRVGRRTMAVISDMSQPLGYAVGNALEVKEAIETLKGNGPHDLTELCLTLGSHMVYLAEKAPSLDEARRLLEEAIRSGAAIAAFKTFLAAQGGDASVVDDLDKLPKAAYTSTVTAAADGYVAEMAADDIGTAAMWLGAGRAKKEDVIDLAVGIVLHKKIGDRVQKGEALATIHSNRPDVLDVKEKIEAAIRLSPQPVARPPLIYETIV 1bs0-a2-m1-cA_1bs0-a2-m2-cA PLP-DEPENDENT ACYL-COA SYNTHASE P12998 P12998 1.65 X-RAY DIFFRACTION 302 1.0 562 (Escherichia coli) 562 (Escherichia coli) 382 382 1dj9-a2-m1-cA_1dj9-a2-m2-cA 1dje-a2-m1-cA_1dje-a2-m2-cA 2g6w-a1-m1-cA_2g6w-a1-m2-cA SWQEKINAALDARRAADALRRRYPVAQGAGRWLVADDRQYLNFSSNDYLGLSHHPQIIRAWQQGAEQFGIGSGGSGHVSGYSVVHQALEEELAEWLGYSRALLFISGFAANQAVIAAMMAKEDRIAADRLSHASLLEAASLSPSQLRRFAHNDVTHLARLLASPCPGQQMVVTEGVFSMDGDSAPLAEIQQVTQQHNGWLMVDDAHGTGVIGEQGRGSCWLQKVKPELLVVTFGKGFGVSGAAVLCSSTVADYLLQFARHLIYSTSMPPAQAQALRASLAVIRSDEGDARREKLAALITRFRAGVQDLPFTLADSCSAIQPLIVGDNSRALQLAEKLRQQGCWVTAIRPPTVPAGTARLLTLTAAHEMQDIDRLLEVLHGNG SWQEKINAALDARRAADALRRRYPVAQGAGRWLVADDRQYLNFSSNDYLGLSHHPQIIRAWQQGAEQFGIGSGGSGHVSGYSVVHQALEEELAEWLGYSRALLFISGFAANQAVIAAMMAKEDRIAADRLSHASLLEAASLSPSQLRRFAHNDVTHLARLLASPCPGQQMVVTEGVFSMDGDSAPLAEIQQVTQQHNGWLMVDDAHGTGVIGEQGRGSCWLQKVKPELLVVTFGKGFGVSGAAVLCSSTVADYLLQFARHLIYSTSMPPAQAQALRASLAVIRSDEGDARREKLAALITRFRAGVQDLPFTLADSCSAIQPLIVGDNSRALQLAEKLRQQGCWVTAIRPPTVPAGTARLLTLTAAHEMQDIDRLLEVLHGNG 1bsl-a1-m1-cA_1bsl-a1-m1-cB STRUCTURE OF ALKANAL MONOOXYGENASE BETA CHAIN P07739 P07739 1.95 X-RAY DIFFRACTION 123 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 323 324 1xkj-a1-m1-cA_1xkj-a1-m1-cB MKFGLFFLNFMNSKRSSDQVIEEMLDTAHYVDQLKFDTLAVYENHFSNNGVVGAPLTVAGFLLGMTKNAKVASLNHVITTHHPVRVAEEACLLDQMSEGRFAFGFSDCEKSADMRFFNRPTDSQFQLFSECHKIINDAFTTGYCHPNNDFYSFPKISVNPHAFTEGGPAQFVNATSKEVVEWAAKLGLPLVFRWDDSNAQRKEYAGLYHEVAQAHGVDVSQVRHKLTLLVNQNVDGEAARAEARVYLEEFVRESYSNTDFEQKMGELLSENAIGTYEESTQAARVAIECCGAADLLMSFESMEDKAQQRAVIDVVNANIVKYH MKFGLFFLNFMNSKRSSDQVIEEMLDTAHYVDQLKFDTLAVYENHFSNNGVVGAPLTVAGFLLGMTKNAKVASLNHVITTHHPVRVAEEACLLDQMSEGRFAFGFSDCEKSADMRFFNRPTDSQFQLFSECHKIINDAFTTGYCHPNNDFYSFPKISVNPHAFTEGGPAQFVNATSKEVVEWAAKLGLPLVFRWDDSNAQRKEYAGLYHEVAQAHGVDVSQVRHKLTLLVNQNVDGEAARAEARVYLEEFVRESYSNTDFEQKMGELLSENAIGTYEESTQAARVAIECCGAADLLMSFESMEDKAQQRAVIDVVNANIVKYHS 1bsr-a2-m1-cA_1bsr-a2-m2-cB BOVINE SEMINAL RIBONUCLEASE STRUCTURE AT 1.9 ANGSTROMS RESOLUTION P00669 P00669 1.9 X-RAY DIFFRACTION 14 1.0 9913 (Bos taurus) 9913 (Bos taurus) 124 124 11bg-a2-m1-cA_11bg-a2-m2-cB 11bg-a2-m1-cB_11bg-a2-m2-cA 1bsr-a2-m1-cB_1bsr-a2-m2-cA KESAAAKFERQHMDSGNSPSSSSNYCNLMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSPSSSSNYCNLMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 1btn-a1-m1-cA_1btn-a1-m2-cA STRUCTURE OF THE BINDING SITE FOR INOSITOL PHOSPHATES IN A PH DOMAIN Q62261 Q62261 2 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 106 106 MEGFLNRKHEWEAHNKKASSRSWHNVYCVINNQEMGFYKDAKSAASGIPYHSEVPVSLKEAICEVALDYKKKKHVFKLRLSDGNEYLFQAKDDEEMNTWIQAISSA MEGFLNRKHEWEAHNKKASSRSWHNVYCVINNQEMGFYKDAKSAASGIPYHSEVPVSLKEAICEVALDYKKKKHVFKLRLSDGNEYLFQAKDDEEMNTWIQAISSA 1bu1-a1-m1-cC_1bu1-a1-m1-cE SRC FAMILY KINASE HCK SH3 DOMAIN P08631 P08631 2.6 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 57 1bu1-a1-m1-cA_1bu1-a1-m1-cB IIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARV IIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVD 1bu3-a1-m1-cA_1bu3-a1-m2-cA REFINED CRYSTAL STRUCTURE OF CALCIUM-BOUND SILVER HAKE (PI 4.2) PARVALBUMIN AT 1.65 A. P56503 P56503 1.65 X-RAY DIFFRACTION 57 1.0 79698 (Merluccius bilinearis) 79698 (Merluccius bilinearis) 108 108 AFSGILADADVAAALKACEAADSFNYKAFFAKVGLTAKSADDIKKAFFVIDQDKSGFIEEDELKLFLQVFSAGARALTDAETKAFLKAGDSDGDGAIGVDEWAALVKA AFSGILADADVAAALKACEAADSFNYKAFFAKVGLTAKSADDIKKAFFVIDQDKSGFIEEDELKLFLQVFSAGARALTDAETKAFLKAGDSDGDGAIGVDEWAALVKA 1buc-a1-m1-cB_1buc-a1-m2-cB THREE-DIMENSIONAL STRUCTURE OF BUTYRYL-COA DEHYDROGENASE FROM MEGASPHAERA ELSDENII Q06319 Q06319 2.5 X-RAY DIFFRACTION 92 1.0 907 (Megasphaera elsdenii) 907 (Megasphaera elsdenii) 383 383 1buc-a1-m1-cA_1buc-a1-m2-cA MDFNLTDIQQDFLKLAHDFGEKKLAPTVTERDHKGIYDKELIDELLSLGITGAYFEEKYGGSGDDGGDVLSYILAVEELAKYDAGVAITLSATVSLCANPIWQFGTEAQKEKFLVPLVEGTKLGAFGLTEPNAGTDASGQQTIATKNDDGTYTLNGSKIFITNGGAADIYIVFAMTDKSKGNHGITAFILEDGTPGFTYGKKEDKMGIHTSQTMELVFQDVKVPAENMLGEEGKGFKIAMMTLDGGRIGVAAQALGIAEAALADAVEYSKQRVQFGKPLCKFQSISFKLADMKMQIEAARNLVYKAACKKQEGKPFTVDAAIAKRVASDVAMRVTTEAVQIFGGYGYSEEYPVARHMRDAKITQIYEGTNEVQLMVTGGALLR MDFNLTDIQQDFLKLAHDFGEKKLAPTVTERDHKGIYDKELIDELLSLGITGAYFEEKYGGSGDDGGDVLSYILAVEELAKYDAGVAITLSATVSLCANPIWQFGTEAQKEKFLVPLVEGTKLGAFGLTEPNAGTDASGQQTIATKNDDGTYTLNGSKIFITNGGAADIYIVFAMTDKSKGNHGITAFILEDGTPGFTYGKKEDKMGIHTSQTMELVFQDVKVPAENMLGEEGKGFKIAMMTLDGGRIGVAAQALGIAEAALADAVEYSKQRVQFGKPLCKFQSISFKLADMKMQIEAARNLVYKAACKKQEGKPFTVDAAIAKRVASDVAMRVTTEAVQIFGGYGYSEEYPVARHMRDAKITQIYEGTNEVQLMVTGGALLR 1buc-a1-m2-cA_1buc-a1-m2-cB THREE-DIMENSIONAL STRUCTURE OF BUTYRYL-COA DEHYDROGENASE FROM MEGASPHAERA ELSDENII Q06319 Q06319 2.5 X-RAY DIFFRACTION 114 1.0 907 (Megasphaera elsdenii) 907 (Megasphaera elsdenii) 383 383 1buc-a1-m1-cA_1buc-a1-m1-cB MDFNLTDIQQDFLKLAHDFGEKKLAPTVTERDHKGIYDKELIDELLSLGITGAYFEEKYGGSGDDGGDVLSYILAVEELAKYDAGVAITLSATVSLCANPIWQFGTEAQKEKFLVPLVEGTKLGAFGLTEPNAGTDASGQQTIATKNDDGTYTLNGSKIFITNGGAADIYIVFAMTDKSKGNHGITAFILEDGTPGFTYGKKEDKMGIHTSQTMELVFQDVKVPAENMLGEEGKGFKIAMMTLDGGRIGVAAQALGIAEAALADAVEYSKQRVQFGKPLCKFQSISFKLADMKMQIEAARNLVYKAACKKQEGKPFTVDAAIAKRVASDVAMRVTTEAVQIFGGYGYSEEYPVARHMRDAKITQIYEGTNEVQLMVTGGALLR MDFNLTDIQQDFLKLAHDFGEKKLAPTVTERDHKGIYDKELIDELLSLGITGAYFEEKYGGSGDDGGDVLSYILAVEELAKYDAGVAITLSATVSLCANPIWQFGTEAQKEKFLVPLVEGTKLGAFGLTEPNAGTDASGQQTIATKNDDGTYTLNGSKIFITNGGAADIYIVFAMTDKSKGNHGITAFILEDGTPGFTYGKKEDKMGIHTSQTMELVFQDVKVPAENMLGEEGKGFKIAMMTLDGGRIGVAAQALGIAEAALADAVEYSKQRVQFGKPLCKFQSISFKLADMKMQIEAARNLVYKAACKKQEGKPFTVDAAIAKRVASDVAMRVTTEAVQIFGGYGYSEEYPVARHMRDAKITQIYEGTNEVQLMVTGGALLR 1buo-a1-m1-cA_1buo-a1-m2-cA BTB DOMAIN FROM PLZF Q05516 Q05516 1.9 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 1cs3-a2-m1-cA_1cs3-a2-m2-cA MGMIQLQNPSHPTGLLCKANQMRLAGTLCDVVIMVDSQEFHAHRTVLACTSKMFEILFHRNSQHYTLDFLSPKTFQQILEYAYTATLQAKAEDLDDLLYAAEILEIEYLEEQCLKMLETIQ MGMIQLQNPSHPTGLLCKANQMRLAGTLCDVVIMVDSQEFHAHRTVLACTSKMFEILFHRNSQHYTLDFLSPKTFQQILEYAYTATLQAKAEDLDDLLYAAEILEIEYLEEQCLKMLETIQ 1bv1-a1-m1-cA_1bv1-a1-m2-cA BIRCH POLLEN ALLERGEN BET V 1 P15494 P15494 2 X-RAY DIFFRACTION 53 1.0 3505 (Betula pendula) 3505 (Betula pendula) 159 159 1qmr-a1-m1-cA_1qmr-a1-m2-cA GVFNYETETTSVIPAARLFKAFILDGDNLFPKVAPQAISSVENIEGNGGPGTIKKISFPEGLPFKYVKDRVDEVDHTNFKYNYSVIEGGPIGDTLEKISNEIKIVATPDGGSILKISNKYHTKGDHEVKAEQVKASKEMGETLLRAVESYLLAHSDAYN GVFNYETETTSVIPAARLFKAFILDGDNLFPKVAPQAISSVENIEGNGGPGTIKKISFPEGLPFKYVKDRVDEVDHTNFKYNYSVIEGGPIGDTLEKISNEIKIVATPDGGSILKISNKYHTKGDHEVKAEQVKASKEMGETLLRAVESYLLAHSDAYN 1bv4-a1-m1-cC_1bv4-a1-m1-cD APO-MANNOSE-BINDING PROTEIN-C P08661 P08661 1.85 X-RAY DIFFRACTION 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 81 109 KYFMSSVRRMPLNRAKALCSELQGTVATPRNAEENRAIQNVAKDVAFLGIEDLTGCVVLLTNGKWNDVPCSDSFLVVCEFS KKYFMSSVRRMPLNRAKALCSELQGTVATPRNAEENRAIQNVAKDVAFLGITDQRTENVFEDLTGNRVRYTNWNEGEPNNENCVVLLTNGKWNDVPCSDSFLVVCEFSD 1bvi-a1-m1-cA_1bvi-a1-m1-cC RIBONUCLEASE T1 (WILDTYPE) COMPLEXED WITH 2'GMP P00651 P00651 1.9 X-RAY DIFFRACTION 33 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 104 104 ACDYTCGSNCYSSSDVSTAQAAGYKLHEDGETVGSNSYPHKYNNYEGFDFSVSSPYYEWPILSSGDVYSGGSPGADRVVFNENNQLAGVITHTGASGNNFVECT ACDYTCGSNCYSSSDVSTAQAAGYKLHEDGETVGSNSYPHKYNNYEGFDFSVSSPYYEWPILSSGDVYSGGSPGADRVVFNENNQLAGVITHTGASGNNFVECT 1bvi-a1-m1-cB_1bvi-a1-m1-cC RIBONUCLEASE T1 (WILDTYPE) COMPLEXED WITH 2'GMP P00651 P00651 1.9 X-RAY DIFFRACTION 11 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 104 104 ACDYTCGSNCYSSSDVSTAQAAGYKLHEDGETVGSNSYPHKYNNYEGFDFSVSSPYYEWPILSSGDVYSGGSPGADRVVFNENNQLAGVITHTGASGNNFVECT ACDYTCGSNCYSSSDVSTAQAAGYKLHEDGETVGSNSYPHKYNNYEGFDFSVSSPYYEWPILSSGDVYSGGSPGADRVVFNENNQLAGVITHTGASGNNFVECT 1bvp-a3-m1-c3_1bvp-a3-m2-c6 THE CRYSTAL STRUCTURE OF BLUETONGUE VIRUS VP7 P69361 P69361 2.6 X-RAY DIFFRACTION 46 1.0 10900 (Bluetongue virus (serotype 10 / American isolate)) 10900 (Bluetongue virus (serotype 10 / American isolate)) 349 349 1bvp-a3-m1-c1_1bvp-a3-m2-c5 1bvp-a3-m1-c2_1bvp-a3-m2-c4 MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAVTAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVHNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAILNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAIHGVNPMPGPLTRAIARAAYV MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAVTAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVHNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAILNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAIHGVNPMPGPLTRAIARAAYV 1bvp-a3-m2-c5_1bvp-a3-m2-c6 THE CRYSTAL STRUCTURE OF BLUETONGUE VIRUS VP7 P69361 P69361 2.6 X-RAY DIFFRACTION 161 1.0 10900 (Bluetongue virus (serotype 10 / American isolate)) 10900 (Bluetongue virus (serotype 10 / American isolate)) 349 349 1bvp-a1-m1-c1_1bvp-a1-m1-c2 1bvp-a1-m1-c1_1bvp-a1-m1-c3 1bvp-a1-m1-c2_1bvp-a1-m1-c3 1bvp-a2-m1-c4_1bvp-a2-m1-c5 1bvp-a2-m1-c4_1bvp-a2-m1-c6 1bvp-a2-m1-c5_1bvp-a2-m1-c6 1bvp-a3-m1-c1_1bvp-a3-m1-c2 1bvp-a3-m1-c1_1bvp-a3-m1-c3 1bvp-a3-m1-c2_1bvp-a3-m1-c3 1bvp-a3-m2-c4_1bvp-a3-m2-c5 1bvp-a3-m2-c4_1bvp-a3-m2-c6 2btv-a1-m10-cC_2btv-a1-m10-cD 2btv-a1-m10-cC_2btv-a1-m10-cP 2btv-a1-m10-cD_2btv-a1-m10-cP 2btv-a1-m10-cE_2btv-a1-m10-cF 2btv-a1-m10-cE_2btv-a1-m10-cQ 2btv-a1-m10-cF_2btv-a1-m10-cQ 2btv-a1-m10-cG_2btv-a1-m10-cH 2btv-a1-m10-cG_2btv-a1-m10-cR 2btv-a1-m10-cH_2btv-a1-m10-cR 2btv-a1-m10-cI_2btv-a1-m10-cJ 2btv-a1-m10-cI_2btv-a1-m10-cS 2btv-a1-m10-cJ_2btv-a1-m10-cS 2btv-a1-m10-cT_2btv-a1-m23-cT 2btv-a1-m11-cC_2btv-a1-m11-cD 2btv-a1-m11-cC_2btv-a1-m11-cP 2btv-a1-m11-cD_2btv-a1-m11-cP 2btv-a1-m11-cE_2btv-a1-m11-cF 2btv-a1-m11-cE_2btv-a1-m11-cQ 2btv-a1-m11-cF_2btv-a1-m11-cQ 2btv-a1-m11-cG_2btv-a1-m11-cH 2btv-a1-m11-cG_2btv-a1-m11-cR 2btv-a1-m11-cH_2btv-a1-m11-cR 2btv-a1-m11-cI_2btv-a1-m11-cJ 2btv-a1-m11-cI_2btv-a1-m11-cS 2btv-a1-m11-cJ_2btv-a1-m11-cS 2btv-a1-m11-cT_2btv-a1-m20-cT 2btv-a1-m11-cT_2btv-a1-m38-cT 2btv-a1-m12-cC_2btv-a1-m12-cD 2btv-a1-m12-cC_2btv-a1-m12-cP 2btv-a1-m12-cD_2btv-a1-m12-cP 2btv-a1-m12-cE_2btv-a1-m12-cF 2btv-a1-m12-cE_2btv-a1-m12-cQ 2btv-a1-m12-cF_2btv-a1-m12-cQ 2btv-a1-m12-cG_2btv-a1-m12-cH 2btv-a1-m12-cG_2btv-a1-m12-cR 2btv-a1-m12-cH_2btv-a1-m12-cR 2btv-a1-m12-cI_2btv-a1-m12-cJ 2btv-a1-m12-cI_2btv-a1-m12-cS 2btv-a1-m12-cJ_2btv-a1-m12-cS 2btv-a1-m12-cT_2btv-a1-m37-cT 2btv-a1-m12-cT_2btv-a1-m47-cT 2btv-a1-m13-cC_2btv-a1-m13-cD 2btv-a1-m13-cC_2btv-a1-m13-cP 2btv-a1-m13-cD_2btv-a1-m13-cP 2btv-a1-m13-cE_2btv-a1-m13-cF 2btv-a1-m13-cE_2btv-a1-m13-cQ 2btv-a1-m13-cF_2btv-a1-m13-cQ 2btv-a1-m13-cG_2btv-a1-m13-cH 2btv-a1-m13-cG_2btv-a1-m13-cR 2btv-a1-m13-cH_2btv-a1-m13-cR 2btv-a1-m13-cI_2btv-a1-m13-cJ 2btv-a1-m13-cI_2btv-a1-m13-cS 2btv-a1-m13-cJ_2btv-a1-m13-cS 2btv-a1-m13-cT_2btv-a1-m45-cT 2btv-a1-m13-cT_2btv-a1-m46-cT 2btv-a1-m14-cC_2btv-a1-m14-cD 2btv-a1-m14-cC_2btv-a1-m14-cP 2btv-a1-m14-cD_2btv-a1-m14-cP 2btv-a1-m14-cE_2btv-a1-m14-cF 2btv-a1-m14-cE_2btv-a1-m14-cQ 2btv-a1-m14-cF_2btv-a1-m14-cQ 2btv-a1-m14-cG_2btv-a1-m14-cH 2btv-a1-m14-cG_2btv-a1-m14-cR 2btv-a1-m14-cH_2btv-a1-m14-cR 2btv-a1-m14-cI_2btv-a1-m14-cJ 2btv-a1-m14-cI_2btv-a1-m14-cS 2btv-a1-m14-cJ_2btv-a1-m14-cS 2btv-a1-m14-cT_2btv-a1-m29-cT 2btv-a1-m14-cT_2btv-a1-m44-cT 2btv-a1-m15-cC_2btv-a1-m15-cD 2btv-a1-m15-cC_2btv-a1-m15-cP 2btv-a1-m15-cD_2btv-a1-m15-cP 2btv-a1-m15-cE_2btv-a1-m15-cF 2btv-a1-m15-cE_2btv-a1-m15-cQ 2btv-a1-m15-cF_2btv-a1-m15-cQ 2btv-a1-m15-cG_2btv-a1-m15-cH 2btv-a1-m15-cG_2btv-a1-m15-cR 2btv-a1-m15-cH_2btv-a1-m15-cR 2btv-a1-m15-cI_2btv-a1-m15-cJ 2btv-a1-m15-cI_2btv-a1-m15-cS 2btv-a1-m15-cJ_2btv-a1-m15-cS 2btv-a1-m15-cT_2btv-a1-m16-cT 2btv-a1-m15-cT_2btv-a1-m28-cT 2btv-a1-m16-cC_2btv-a1-m16-cD 2btv-a1-m16-cC_2btv-a1-m16-cP 2btv-a1-m16-cD_2btv-a1-m16-cP 2btv-a1-m16-cE_2btv-a1-m16-cF 2btv-a1-m16-cE_2btv-a1-m16-cQ 2btv-a1-m16-cF_2btv-a1-m16-cQ 2btv-a1-m16-cG_2btv-a1-m16-cH 2btv-a1-m16-cG_2btv-a1-m16-cR 2btv-a1-m16-cH_2btv-a1-m16-cR 2btv-a1-m16-cI_2btv-a1-m16-cJ 2btv-a1-m16-cI_2btv-a1-m16-cS 2btv-a1-m16-cJ_2btv-a1-m16-cS 2btv-a1-m16-cT_2btv-a1-m28-cT 2btv-a1-m17-cC_2btv-a1-m17-cD 2btv-a1-m17-cC_2btv-a1-m17-cP 2btv-a1-m17-cD_2btv-a1-m17-cP 2btv-a1-m17-cE_2btv-a1-m17-cF 2btv-a1-m17-cE_2btv-a1-m17-cQ 2btv-a1-m17-cF_2btv-a1-m17-cQ 2btv-a1-m17-cG_2btv-a1-m17-cH 2btv-a1-m17-cG_2btv-a1-m17-cR 2btv-a1-m17-cH_2btv-a1-m17-cR 2btv-a1-m17-cI_2btv-a1-m17-cJ 2btv-a1-m17-cI_2btv-a1-m17-cS 2btv-a1-m17-cJ_2btv-a1-m17-cS 2btv-a1-m17-cT_2btv-a1-m27-cT 2btv-a1-m17-cT_2btv-a1-m52-cT 2btv-a1-m18-cC_2btv-a1-m18-cD 2btv-a1-m18-cC_2btv-a1-m18-cP 2btv-a1-m18-cD_2btv-a1-m18-cP 2btv-a1-m18-cE_2btv-a1-m18-cF 2btv-a1-m18-cE_2btv-a1-m18-cQ 2btv-a1-m18-cF_2btv-a1-m18-cQ 2btv-a1-m18-cG_2btv-a1-m18-cH 2btv-a1-m18-cG_2btv-a1-m18-cR 2btv-a1-m18-cH_2btv-a1-m18-cR 2btv-a1-m18-cI_2btv-a1-m18-cJ 2btv-a1-m18-cI_2btv-a1-m18-cS 2btv-a1-m18-cJ_2btv-a1-m18-cS 2btv-a1-m18-cT_2btv-a1-m51-cT 2btv-a1-m18-cT_2btv-a1-m60-cT 2btv-a1-m19-cC_2btv-a1-m19-cD 2btv-a1-m19-cC_2btv-a1-m19-cP 2btv-a1-m19-cD_2btv-a1-m19-cP 2btv-a1-m19-cE_2btv-a1-m19-cF 2btv-a1-m19-cE_2btv-a1-m19-cQ 2btv-a1-m19-cF_2btv-a1-m19-cQ 2btv-a1-m19-cG_2btv-a1-m19-cH 2btv-a1-m19-cG_2btv-a1-m19-cR 2btv-a1-m19-cH_2btv-a1-m19-cR 2btv-a1-m19-cI_2btv-a1-m19-cJ 2btv-a1-m19-cI_2btv-a1-m19-cS 2btv-a1-m19-cJ_2btv-a1-m19-cS 2btv-a1-m19-cT_2btv-a1-m39-cT 2btv-a1-m19-cT_2btv-a1-m59-cT 2btv-a1-m1-cC_2btv-a1-m1-cD 2btv-a1-m1-cC_2btv-a1-m1-cP 2btv-a1-m1-cD_2btv-a1-m1-cP 2btv-a1-m1-cE_2btv-a1-m1-cF 2btv-a1-m1-cE_2btv-a1-m1-cQ 2btv-a1-m1-cF_2btv-a1-m1-cQ 2btv-a1-m1-cG_2btv-a1-m1-cH 2btv-a1-m1-cG_2btv-a1-m1-cR 2btv-a1-m1-cH_2btv-a1-m1-cR 2btv-a1-m1-cI_2btv-a1-m1-cJ 2btv-a1-m1-cI_2btv-a1-m1-cS 2btv-a1-m1-cJ_2btv-a1-m1-cS 2btv-a1-m1-cT_2btv-a1-m10-cT 2btv-a1-m1-cT_2btv-a1-m23-cT 2btv-a1-m20-cC_2btv-a1-m20-cD 2btv-a1-m20-cC_2btv-a1-m20-cP 2btv-a1-m20-cD_2btv-a1-m20-cP 2btv-a1-m20-cE_2btv-a1-m20-cF 2btv-a1-m20-cE_2btv-a1-m20-cQ 2btv-a1-m20-cF_2btv-a1-m20-cQ 2btv-a1-m20-cG_2btv-a1-m20-cH 2btv-a1-m20-cG_2btv-a1-m20-cR 2btv-a1-m20-cH_2btv-a1-m20-cR 2btv-a1-m20-cI_2btv-a1-m20-cJ 2btv-a1-m20-cI_2btv-a1-m20-cS 2btv-a1-m20-cJ_2btv-a1-m20-cS 2btv-a1-m20-cT_2btv-a1-m38-cT 2btv-a1-m21-cC_2btv-a1-m21-cD 2btv-a1-m21-cC_2btv-a1-m21-cP 2btv-a1-m21-cD_2btv-a1-m21-cP 2btv-a1-m21-cE_2btv-a1-m21-cF 2btv-a1-m21-cE_2btv-a1-m21-cQ 2btv-a1-m21-cF_2btv-a1-m21-cQ 2btv-a1-m21-cG_2btv-a1-m21-cH 2btv-a1-m21-cG_2btv-a1-m21-cR 2btv-a1-m21-cH_2btv-a1-m21-cR 2btv-a1-m21-cI_2btv-a1-m21-cJ 2btv-a1-m21-cI_2btv-a1-m21-cS 2btv-a1-m21-cJ_2btv-a1-m21-cS 2btv-a1-m21-cT_2btv-a1-m30-cT 2btv-a1-m21-cT_2btv-a1-m43-cT 2btv-a1-m22-cC_2btv-a1-m22-cD 2btv-a1-m22-cC_2btv-a1-m22-cP 2btv-a1-m22-cD_2btv-a1-m22-cP 2btv-a1-m22-cE_2btv-a1-m22-cF 2btv-a1-m22-cE_2btv-a1-m22-cQ 2btv-a1-m22-cF_2btv-a1-m22-cQ 2btv-a1-m22-cG_2btv-a1-m22-cH 2btv-a1-m22-cG_2btv-a1-m22-cR 2btv-a1-m22-cH_2btv-a1-m22-cR 2btv-a1-m22-cI_2btv-a1-m22-cJ 2btv-a1-m22-cI_2btv-a1-m22-cS 2btv-a1-m22-cJ_2btv-a1-m22-cS 2btv-a1-m22-cT_2btv-a1-m42-cT 2btv-a1-m23-cC_2btv-a1-m23-cD 2btv-a1-m23-cC_2btv-a1-m23-cP 2btv-a1-m23-cD_2btv-a1-m23-cP 2btv-a1-m23-cE_2btv-a1-m23-cF 2btv-a1-m23-cE_2btv-a1-m23-cQ 2btv-a1-m23-cF_2btv-a1-m23-cQ 2btv-a1-m23-cG_2btv-a1-m23-cH 2btv-a1-m23-cG_2btv-a1-m23-cR 2btv-a1-m23-cH_2btv-a1-m23-cR 2btv-a1-m23-cI_2btv-a1-m23-cJ 2btv-a1-m23-cI_2btv-a1-m23-cS 2btv-a1-m23-cJ_2btv-a1-m23-cS 2btv-a1-m24-cC_2btv-a1-m24-cD 2btv-a1-m24-cC_2btv-a1-m24-cP 2btv-a1-m24-cD_2btv-a1-m24-cP 2btv-a1-m24-cE_2btv-a1-m24-cF 2btv-a1-m24-cE_2btv-a1-m24-cQ 2btv-a1-m24-cF_2btv-a1-m24-cQ 2btv-a1-m24-cG_2btv-a1-m24-cH 2btv-a1-m24-cG_2btv-a1-m24-cR 2btv-a1-m24-cH_2btv-a1-m24-cR 2btv-a1-m24-cI_2btv-a1-m24-cJ 2btv-a1-m24-cI_2btv-a1-m24-cS 2btv-a1-m24-cJ_2btv-a1-m24-cS 2btv-a1-m24-cT_2btv-a1-m54-cT 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2btv-a1-m57-cT_2btv-a1-m7-cT 2btv-a1-m58-cC_2btv-a1-m58-cD 2btv-a1-m58-cC_2btv-a1-m58-cP 2btv-a1-m58-cD_2btv-a1-m58-cP 2btv-a1-m58-cE_2btv-a1-m58-cF 2btv-a1-m58-cE_2btv-a1-m58-cQ 2btv-a1-m58-cF_2btv-a1-m58-cQ 2btv-a1-m58-cG_2btv-a1-m58-cH 2btv-a1-m58-cG_2btv-a1-m58-cR 2btv-a1-m58-cH_2btv-a1-m58-cR 2btv-a1-m58-cI_2btv-a1-m58-cJ 2btv-a1-m58-cI_2btv-a1-m58-cS 2btv-a1-m58-cJ_2btv-a1-m58-cS 2btv-a1-m59-cC_2btv-a1-m59-cD 2btv-a1-m59-cC_2btv-a1-m59-cP 2btv-a1-m59-cD_2btv-a1-m59-cP 2btv-a1-m59-cE_2btv-a1-m59-cF 2btv-a1-m59-cE_2btv-a1-m59-cQ 2btv-a1-m59-cF_2btv-a1-m59-cQ 2btv-a1-m59-cG_2btv-a1-m59-cH 2btv-a1-m59-cG_2btv-a1-m59-cR 2btv-a1-m59-cH_2btv-a1-m59-cR 2btv-a1-m59-cI_2btv-a1-m59-cJ 2btv-a1-m59-cI_2btv-a1-m59-cS 2btv-a1-m59-cJ_2btv-a1-m59-cS 2btv-a1-m5-cC_2btv-a1-m5-cD 2btv-a1-m5-cC_2btv-a1-m5-cP 2btv-a1-m5-cD_2btv-a1-m5-cP 2btv-a1-m5-cE_2btv-a1-m5-cF 2btv-a1-m5-cE_2btv-a1-m5-cQ 2btv-a1-m5-cF_2btv-a1-m5-cQ 2btv-a1-m5-cG_2btv-a1-m5-cH 2btv-a1-m5-cG_2btv-a1-m5-cR 2btv-a1-m5-cH_2btv-a1-m5-cR 2btv-a1-m5-cI_2btv-a1-m5-cJ 2btv-a1-m5-cI_2btv-a1-m5-cS 2btv-a1-m5-cJ_2btv-a1-m5-cS 2btv-a1-m5-cT_2btv-a1-m6-cT 2btv-a1-m60-cC_2btv-a1-m60-cD 2btv-a1-m60-cC_2btv-a1-m60-cP 2btv-a1-m60-cD_2btv-a1-m60-cP 2btv-a1-m60-cE_2btv-a1-m60-cF 2btv-a1-m60-cE_2btv-a1-m60-cQ 2btv-a1-m60-cF_2btv-a1-m60-cQ 2btv-a1-m60-cG_2btv-a1-m60-cH 2btv-a1-m60-cG_2btv-a1-m60-cR 2btv-a1-m60-cH_2btv-a1-m60-cR 2btv-a1-m60-cI_2btv-a1-m60-cJ 2btv-a1-m60-cI_2btv-a1-m60-cS 2btv-a1-m60-cJ_2btv-a1-m60-cS 2btv-a1-m6-cC_2btv-a1-m6-cD 2btv-a1-m6-cC_2btv-a1-m6-cP 2btv-a1-m6-cD_2btv-a1-m6-cP 2btv-a1-m6-cE_2btv-a1-m6-cF 2btv-a1-m6-cE_2btv-a1-m6-cQ 2btv-a1-m6-cF_2btv-a1-m6-cQ 2btv-a1-m6-cG_2btv-a1-m6-cH 2btv-a1-m6-cG_2btv-a1-m6-cR 2btv-a1-m6-cH_2btv-a1-m6-cR 2btv-a1-m6-cI_2btv-a1-m6-cJ 2btv-a1-m6-cI_2btv-a1-m6-cS 2btv-a1-m6-cJ_2btv-a1-m6-cS 2btv-a1-m7-cC_2btv-a1-m7-cD 2btv-a1-m7-cC_2btv-a1-m7-cP 2btv-a1-m7-cD_2btv-a1-m7-cP 2btv-a1-m7-cE_2btv-a1-m7-cF 2btv-a1-m7-cE_2btv-a1-m7-cQ 2btv-a1-m7-cF_2btv-a1-m7-cQ 2btv-a1-m7-cG_2btv-a1-m7-cH 2btv-a1-m7-cG_2btv-a1-m7-cR 2btv-a1-m7-cH_2btv-a1-m7-cR 2btv-a1-m7-cI_2btv-a1-m7-cJ 2btv-a1-m7-cI_2btv-a1-m7-cS 2btv-a1-m7-cJ_2btv-a1-m7-cS 2btv-a1-m8-cC_2btv-a1-m8-cD 2btv-a1-m8-cC_2btv-a1-m8-cP 2btv-a1-m8-cD_2btv-a1-m8-cP 2btv-a1-m8-cE_2btv-a1-m8-cF 2btv-a1-m8-cE_2btv-a1-m8-cQ 2btv-a1-m8-cF_2btv-a1-m8-cQ 2btv-a1-m8-cG_2btv-a1-m8-cH 2btv-a1-m8-cG_2btv-a1-m8-cR 2btv-a1-m8-cH_2btv-a1-m8-cR 2btv-a1-m8-cI_2btv-a1-m8-cJ 2btv-a1-m8-cI_2btv-a1-m8-cS 2btv-a1-m8-cJ_2btv-a1-m8-cS 2btv-a1-m9-cC_2btv-a1-m9-cD 2btv-a1-m9-cC_2btv-a1-m9-cP 2btv-a1-m9-cD_2btv-a1-m9-cP 2btv-a1-m9-cE_2btv-a1-m9-cF 2btv-a1-m9-cE_2btv-a1-m9-cQ 2btv-a1-m9-cF_2btv-a1-m9-cQ 2btv-a1-m9-cG_2btv-a1-m9-cH 2btv-a1-m9-cG_2btv-a1-m9-cR 2btv-a1-m9-cH_2btv-a1-m9-cR 2btv-a1-m9-cI_2btv-a1-m9-cJ 2btv-a1-m9-cI_2btv-a1-m9-cS 2btv-a1-m9-cJ_2btv-a1-m9-cS MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAVTAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVHNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAILNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAIHGVNPMPGPLTRAIARAAYV MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAVTAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVHNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAILNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAIHGVNPMPGPLTRAIARAAYV 1bw0-a1-m1-cA_1bw0-a1-m1-cB CRYSTAL STRUCTURE OF TYROSINE AMINOTRANSFERASE FROM TRYPANOSOMA CRUZI P33447 P33447 2.5 X-RAY DIFFRACTION 231 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 411 412 WDVSMSNHAGLVFNPIRTVSDNAKPSPSPKPIIKLSVGDPTLDKNLLTSAAQIKKLKEAIDSQECNGYFPTVGSPEAREAVATWWRNSFVHKEELKSTIVKDNVVLCSGGSHGILMAITAICDAGDYALVPQPGFPHYETVCKAYGIGMHFYNCRPENDWEADLDEIRRLKDDKTKLLIVTNPSNPCGSNFSRKHVEDIVRLAEELRLPLFSDEIYAGMVFKGKDPNATFTSVADFETTVPRVILGGTANLVVPGWRLGWLLYVDPHGNGPSFLEGLKRVGMLVCGPCTVVQAALGEALLNTPQEHLDQIVAKIEESAMYLYNHIGECIGLAPTMPRGAMYLMSRIDLEKYRDIKTDVEFFEKLLEEENVQVLPGTIFHAPGFTRLTTTRPVEVYREAVERIKAFCQRHAA WDVSMSNHAGLVFNPIRTVSDNAKPSPSPKPIIKLSVGDPTLDKNLLTSAAQIKKLKEAIDSQECNGYFPTVGSPEAREAVATWWRNSFVHKEELKSTIVKDNVVLCSGGSHGILMAITAICDAGDYALVPQPGFPHYETVCKAYGIGMHFYNCRPENDWEADLDEIRRLKDDKTKLLIVTNPSNPCGSNFSRKHVEDIVRLAEELRLPLFSDEIYAGMVFKGKDPNATFTSVADFETTVPRVILGGTANLVVPGWRLGWLLYVDPHGNGPSFLEGLKRVGMLVCGPCTVVQAALGEALLNTPQEHLDQIVAKIEESAMYLYNHIGECIGLAPTMPRGAMYLMSRIDLEKYRDIKTDVEFFEKLLEEENVQVLPGTIFHAPGFTRLTTTRPVEVYREAVERIKAFCQRHAAV 1bwd-a1-m1-cA_1bwd-a1-m2-cB INOSAMINE-PHOSPHATE AMIDINOTRANSFERASE STRB1 FROM STREPTOMYCES GRISEUS P08078 P08078 3.1 X-RAY DIFFRACTION 88 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 348 348 RSLVSVHNEWDPLEEVIVGTAVGARVPTADRSVFAVEYAGDYESQEQIPSGAYPDRVLKETEEELHVLAAELTKLGVTVRRPGPRDHSALIKTPDWETDGFHDYCPRDGLLSVGQTIIETPMALRSRFLESLAYKDLLLEYFASGSRWLSAPKPRLTDDSYAPQAPAGERLTDEEPVFDAANVLRFGTDLLYLVSDSGNELGAKWLQSAVGDTYTVHPCRKLYASTHVDSTIVPLRPGLVLTNPSRVNDENMPDFLRSWENITCPELVDIGFTGDKPHCSVWIGMNLLVVRPDLAVVDRRQTALIRLLEKHGMNVLPLQLTHSRTLGGGFHCATLDVRRTGALETYQF RSLVSVHNEWDPLEEVIVGTAVGARVPTADRSVFAVEYAGDYESQEQIPSGAYPDRVLKETEEELHVLAAELTKLGVTVRRPGPRDHSALIKTPDWETDGFHDYCPRDGLLSVGQTIIETPMALRSRFLESLAYKDLLLEYFASGSRWLSAPKPRLTDDSYAPQAPAGERLTDEEPVFDAANVLRFGTDLLYLVSDSGNELGAKWLQSAVGDTYTVHPCRKLYASTHVDSTIVPLRPGLVLTNPSRVNDENMPDFLRSWENITCPELVDIGFTGDKPHCSVWIGMNLLVVRPDLAVVDRRQTALIRLLEKHGMNVLPLQLTHSRTLGGGFHCATLDVRRTGALETYQF 1bws-a1-m1-cA_1bws-a1-m2-cA CRYSTAL STRUCTURE OF GDP-4-KETO-6-DEOXY-D-MANNOSE EPIMERASE/REDUCTASE FROM ESCHERICHIA COLI A KEY ENZYME IN THE BIOSYNTHESIS OF GDP-L-FUCOSE P32055 P32055 2.2 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 314 314 1fxs-a1-m1-cA_1fxs-a1-m2-cA KQRVFIAGHRGMVGSAIRRQLEQRGDVELVLRTRDELNLLDSRAVHDFFASERIDQVYLAAAKVGGIVANNTYPADFIYQNMMIESNIIHAAHQNDVNKLLFLGSSCIYPKLAKQPMAESELLQGTLEPTNEPYAIAKIAGIKLCESYNRQYGRDYRSVMPTNLYGPHDNFHPSNSHVIPALLRRFHEATAQNAPDVVVWGSGTPMREFLHVDDMAAASIHVMELAHEVWLENTQPMLSHINVGTGVDCTIRDLAQTIAKVVGYKGRVVFDASKPDGTPRKLLDVTRLHQLGWYHEISLEAGLASTYQWFLENQ KQRVFIAGHRGMVGSAIRRQLEQRGDVELVLRTRDELNLLDSRAVHDFFASERIDQVYLAAAKVGGIVANNTYPADFIYQNMMIESNIIHAAHQNDVNKLLFLGSSCIYPKLAKQPMAESELLQGTLEPTNEPYAIAKIAGIKLCESYNRQYGRDYRSVMPTNLYGPHDNFHPSNSHVIPALLRRFHEATAQNAPDVVVWGSGTPMREFLHVDDMAAASIHVMELAHEVWLENTQPMLSHINVGTGVDCTIRDLAQTIAKVVGYKGRVVFDASKPDGTPRKLLDVTRLHQLGWYHEISLEAGLASTYQWFLENQ 1bxk-a1-m1-cA_1bxk-a1-m1-cB DTDP-GLUCOSE 4,6-DEHYDRATASE FROM E. COLI P27830 P27830 1.9 X-RAY DIFFRACTION 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 341 344 MRKILITGGAGFIGSALVRYIINETSDAVVVVDKLTYAGNLMSLAPVAQSERFAFEKVDICDRAELARVFTEHQPDCVMHLAAESHVDRSIDGPAAFIETNIVGTYTLLEAARAYWNALTEDKKSAFRFHHISTDEVYGDLHSTDDFFTETTPYAPSSPYSASKASSDHLVRAWLRTYGLPTLITNCSNNYGPYHFPEKLIPLMILNALAGKSLPVYGNGQQIRDWLYVEDHARALYCVATTGKVGETYNIGGHNERKNLDVVETICELLEELAPNKPHGVAHYRDLITFRYAIDASKIARELGCVPQETFESGMRKTVQWYLANESWWKQVQDGSYQGER MRKILITGGAGFIGSALVRYIINETSDAVVVVDKLTYAGNLMSLAPVAQSERFAFEKVDICDRAELARVFTEHQPDCVMHLAAESHVDRSIDGPAAFIETNIVGTYTLLEAARAYWNALTEDKKSAFRFHHISTDEVYGDLHSTDDFFTETTPYAPSSPYSASKASSDHLVRAWLRTYGLPTLITNCSNNYGPYHFPEKLIPLMILNALAGKSLPVYGNGQQIRDWLYVEDHARALYCVATTGKVGETYNIGGHNERKNLDVVETICELLEELAPNKPHGVAHYRDLITFVALRYAIDASKIARELGCVPQETFESGMRKTVQWYLANESWWKQVQDGSYQGER 1bxm-a1-m1-cA_1bxm-a1-m2-cA ENGINEERED BETA-CRYPTOGEIN COMPLEXED WITH ERGOSTEROL P15570 P15570 2.15 X-RAY DIFFRACTION 34 1.0 4786 (Phytophthora cryptogea) 4786 (Phytophthora cryptogea) 99 99 RGTCTATQQTAAYHTLVSILSDASFNQCSTDSGYSMLTAKALPTTAQYKLMCASTACNTMIKKIVTLNPPNCDLTVPTSGLVLNVYSYANGFSNKCSSL RGTCTATQQTAAYHTLVSILSDASFNQCSTDSGYSMLTAKALPTTAQYKLMCASTACNTMIKKIVTLNPPNCDLTVPTSGLVLNVYSYANGFSNKCSSL 1bxn-a1-m2-cK_1bxn-a1-m2-cL THE CRYSTAL STRUCTURE OF RUBISCO FROM ALCALIGENES EUTROPHUS TO 2.7 ANGSTROMS. P09658 P09658 2.7 X-RAY DIFFRACTION 18 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 129 129 1bxn-a1-m1-cI_1bxn-a1-m1-cJ 1bxn-a1-m1-cI_1bxn-a1-m1-cL 1bxn-a1-m1-cJ_1bxn-a1-m1-cK 1bxn-a1-m1-cK_1bxn-a1-m1-cL 1bxn-a1-m2-cI_1bxn-a1-m2-cJ 1bxn-a1-m2-cI_1bxn-a1-m2-cL 1bxn-a1-m2-cJ_1bxn-a1-m2-cK MRITQGTFSFLPELTDEQITKQLEYCLNQGWAVGLEYTDDPHPRNTYWEMFGLPMFDLRDAAGILMEINNARNTFPNHYIRVTAFDSTHTVESVVMSFIVNRPADEPGFRLVRQEEPGRTLRYSIESYA MRITQGTFSFLPELTDEQITKQLEYCLNQGWAVGLEYTDDPHPRNTYWEMFGLPMFDLRDAAGILMEINNARNTFPNHYIRVTAFDSTHTVESVVMSFIVNRPADEPGFRLVRQEEPGRTLRYSIESYA 1bxt-a1-m1-cA_1bxt-a1-m1-cB STREPTOCOCCAL SUPERANTIGEN (SSA) FROM STREPTOCOCCUS PYOGENES Q54971 Q54971 1.85 X-RAY DIFFRACTION 18 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 222 224 SSQPDPTPEQLNKSSQFTGVMGNLRCLYDNHFVEGTNVRSTGQLLQHDLIFPIKDLKLKNYDSVKTEFNSKDLATKYKNKDVDIFGSNYYYNCKTCMYGGVTEHHRNQIEGKFPNITVKVYEDNENILSFDITTNKKQVTVQELDCKTRKILVSRKNLYEFNNSPYETGYIKFIESSGDSFWYDMMPAPGAIFDQSKYLMLYNDNKTVSSSAIAIEVHLTKK SSQPDPTPEQLNKSSQFTGVMGNLRCLYDNHFVEGTNVRSTGQLLQHDLIFPIKDLKLKNYDSVKTEFNSKDLATKYKNKDVDIFGSNYYYNCYYKTCMYGGVTEHHRNQIEGKFPNITVKVYEDNENILSFDITTNKKQVTVQELDCKTRKILVSRKNLYEFNNSPYETGYIKFIESSGDSFWYDMMPAPGAIFDQSKYLMLYNDNKTVSSSAIAIEVHLTKK 1byf-a1-m1-cA_1byf-a1-m1-cB STRUCTURE OF TC14; A C-TYPE LECTIN FROM THE TUNICATE POLYANDROCARPA MISAKIENSIS P16108 P16108 2 X-RAY DIFFRACTION 57 1.0 7723 (Polyandrocarpa misakiensis) 7723 (Polyandrocarpa misakiensis) 123 123 1tlg-a1-m1-cA_1tlg-a1-m1-cB DYEILFSDETMNYADAGTYCQSRGMALVSSAMRDSTMVKAILAFTEVKGHDYWVGADNLQDGAYNFLWNDGVSLPTDSDLWSPNEPSNPQSWQLCVQIWSKYNLLDDVGCGGARRVICEKELD DYEILFSDETMNYADAGTYCQSRGMALVSSAMRDSTMVKAILAFTEVKGHDYWVGADNLQDGAYNFLWNDGVSLPTDSDLWSPNEPSNPQSWQLCVQIWSKYNLLDDVGCGGARRVICEKELD 1byf-a3-m1-cB_1byf-a3-m2-cA STRUCTURE OF TC14; A C-TYPE LECTIN FROM THE TUNICATE POLYANDROCARPA MISAKIENSIS P16108 P16108 2 X-RAY DIFFRACTION 13 1.0 7723 (Polyandrocarpa misakiensis) 7723 (Polyandrocarpa misakiensis) 123 123 1tlg-a3-m1-cB_1tlg-a3-m2-cA 1tlg-a4-m1-cA_1tlg-a4-m3-cB DYEILFSDETMNYADAGTYCQSRGMALVSSAMRDSTMVKAILAFTEVKGHDYWVGADNLQDGAYNFLWNDGVSLPTDSDLWSPNEPSNPQSWQLCVQIWSKYNLLDDVGCGGARRVICEKELD DYEILFSDETMNYADAGTYCQSRGMALVSSAMRDSTMVKAILAFTEVKGHDYWVGADNLQDGAYNFLWNDGVSLPTDSDLWSPNEPSNPQSWQLCVQIWSKYNLLDDVGCGGARRVICEKELD 1bys-a1-m1-cA_1bys-a1-m2-cA CRYSTAL STRUCTURE OF NUC COMPLEXED WITH TUNGSTATE Q79SE0 Q79SE0 2 X-RAY DIFFRACTION 106 1.0 152 152 1byr-a1-m1-cA_1byr-a1-m2-cA EPSVQVGYSPEGSARVLVLSAIDSAKTSIRMMAYSFTAPDIMKALVAAKKRGVDVKIVIDERGNTGRASIAAMNYIANSGIPLRTDSNFPIQHDKVIIVDNVTVETGSFNFTKAAETKNSENAVVIWNMPKLAESFLEHWQDRWNQGRDYRS EPSVQVGYSPEGSARVLVLSAIDSAKTSIRMMAYSFTAPDIMKALVAAKKRGVDVKIVIDERGNTGRASIAAMNYIANSGIPLRTDSNFPIQHDKVIIVDNVTVETGSFNFTKAAETKNSENAVVIWNMPKLAESFLEHWQDRWNQGRDYRS 1byu-a1-m1-cA_1byu-a1-m1-cB CANINE GDP-RAN P62825 P62825 2.15 X-RAY DIFFRACTION 27 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 202 215 EPQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVPTLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQTT AAQGEPQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVPTLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQTTALPDEDDDL 1byz-a1-m1-cA_1byz-a1-m1-cB DESIGNED PEPTIDE ALPHA-1, P1 FORM 0.9 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 ELLKKLLEELKG ELLKKLLEELKG 1byz-a1-m1-cC_1byz-a1-m1-cD DESIGNED PEPTIDE ALPHA-1, P1 FORM 0.9 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 ELLKKLLEELKG ELLKKLLEELKG 1bz5-a1-m1-cA_1bz5-a1-m2-cD EVIDENCE OF A COMMON DECAMER IN THREE CRYSTAL STRUCTURES OF BPTI, CRYSTALLIZE FROM THIOCYANATE, CHLORIDE OR SULFATE P00974 P00974 2.58 X-RAY DIFFRACTION 31 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 1bhc-a1-m1-cA_1bhc-a1-m1-cG 1bhc-a1-m1-cB_1bhc-a1-m1-cF 1bhc-a1-m1-cC_1bhc-a1-m1-cJ 1bhc-a1-m1-cD_1bhc-a1-m1-cI 1bhc-a1-m1-cE_1bhc-a1-m1-cH 1bz5-a1-m1-cB_1bz5-a1-m2-cC 1bz5-a1-m1-cC_1bz5-a1-m2-cB 1bz5-a1-m1-cD_1bz5-a1-m2-cA 1bz5-a1-m1-cE_1bz5-a1-m2-cE 1g6x-a2-m1-cA_1g6x-a2-m2-cA 2hex-a2-m1-cA_2hex-a2-m2-cD 2hex-a2-m1-cB_2hex-a2-m2-cC 2hex-a2-m1-cD_2hex-a2-m2-cA 2hex-a2-m1-cE_2hex-a2-m2-cE 2hex-a2-m2-cB_2hex-a2-m1-cC 3ldi-a1-m1-cA_3ldi-a1-m2-cE 3ldi-a1-m1-cB_3ldi-a1-m2-cD 3ldi-a1-m1-cC_3ldi-a1-m2-cC 3ldi-a1-m1-cD_3ldi-a1-m2-cB 3ldi-a1-m1-cE_3ldi-a1-m2-cA 3ldm-a1-m1-cA_3ldm-a1-m2-cD 3ldm-a1-m1-cB_3ldm-a1-m2-cC 3ldm-a1-m1-cC_3ldm-a1-m2-cB 3ldm-a1-m1-cD_3ldm-a1-m2-cA 3ldm-a1-m1-cE_3ldm-a1-m2-cE 6f1f-a6-m1-cA_6f1f-a6-m2-cC 6f1f-a6-m1-cB_6f1f-a6-m2-cD 6f1f-a6-m1-cC_6f1f-a6-m2-cA 6f1f-a6-m1-cD_6f1f-a6-m2-cB 6f1f-a6-m1-cE_6f1f-a6-m2-cE RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG 1bz5-a1-m1-cC_1bz5-a1-m2-cC EVIDENCE OF A COMMON DECAMER IN THREE CRYSTAL STRUCTURES OF BPTI, CRYSTALLIZE FROM THIOCYANATE, CHLORIDE OR SULFATE P00974 P00974 2.58 X-RAY DIFFRACTION 25 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 1bhc-a1-m1-cA_1bhc-a1-m1-cF 1bhc-a1-m1-cB_1bhc-a1-m1-cJ 1bhc-a1-m1-cC_1bhc-a1-m1-cI 1bhc-a1-m1-cD_1bhc-a1-m1-cH 1bhc-a1-m1-cE_1bhc-a1-m1-cG 1bz5-a1-m1-cA_1bz5-a1-m2-cE 1bz5-a1-m1-cB_1bz5-a1-m2-cD 1bz5-a1-m1-cD_1bz5-a1-m2-cB 1bz5-a1-m1-cE_1bz5-a1-m2-cA 2hex-a2-m1-cA_2hex-a2-m2-cE 2hex-a2-m1-cB_2hex-a2-m2-cD 2hex-a2-m1-cC_2hex-a2-m2-cC 2hex-a2-m1-cD_2hex-a2-m2-cB 2hex-a2-m1-cE_2hex-a2-m2-cA 3ldi-a1-m1-cA_3ldi-a1-m2-cA 3ldi-a1-m1-cC_3ldi-a1-m2-cD 3ldi-a1-m1-cE_3ldi-a1-m2-cB 3ldi-a1-m2-cC_3ldi-a1-m1-cD 3ldi-a1-m2-cE_3ldi-a1-m1-cB 3ldm-a1-m1-cA_3ldm-a1-m2-cE 3ldm-a1-m1-cB_3ldm-a1-m2-cD 3ldm-a1-m1-cC_3ldm-a1-m2-cC 3ldm-a1-m1-cD_3ldm-a1-m2-cB 3ldm-a1-m1-cE_3ldm-a1-m2-cA 6f1f-a6-m1-cA_6f1f-a6-m2-cA 6f1f-a6-m1-cB_6f1f-a6-m2-cC 6f1f-a6-m1-cC_6f1f-a6-m2-cB 6f1f-a6-m1-cD_6f1f-a6-m2-cE 6f1f-a6-m1-cE_6f1f-a6-m2-cD RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG 1bz5-a1-m2-cA_1bz5-a1-m2-cE EVIDENCE OF A COMMON DECAMER IN THREE CRYSTAL STRUCTURES OF BPTI, CRYSTALLIZE FROM THIOCYANATE, CHLORIDE OR SULFATE P00974 P00974 2.58 X-RAY DIFFRACTION 22 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 1b0c-a1-m1-cA_1b0c-a1-m1-cB 1b0c-a1-m1-cA_1b0c-a1-m1-cE 1b0c-a1-m1-cB_1b0c-a1-m1-cC 1b0c-a1-m1-cC_1b0c-a1-m1-cD 1b0c-a1-m1-cD_1b0c-a1-m1-cE 1b0c-a1-m2-cA_1b0c-a1-m2-cB 1b0c-a1-m2-cA_1b0c-a1-m2-cE 1b0c-a1-m2-cB_1b0c-a1-m2-cC 1b0c-a1-m2-cC_1b0c-a1-m2-cD 1b0c-a1-m2-cD_1b0c-a1-m2-cE 1bhc-a1-m1-cA_1bhc-a1-m1-cB 1bhc-a1-m1-cA_1bhc-a1-m1-cE 1bhc-a1-m1-cB_1bhc-a1-m1-cC 1bhc-a1-m1-cC_1bhc-a1-m1-cD 1bhc-a1-m1-cD_1bhc-a1-m1-cE 1bhc-a1-m1-cF_1bhc-a1-m1-cG 1bhc-a1-m1-cF_1bhc-a1-m1-cJ 1bhc-a1-m1-cG_1bhc-a1-m1-cH 1bhc-a1-m1-cH_1bhc-a1-m1-cI 1bhc-a1-m1-cI_1bhc-a1-m1-cJ 1bz5-a1-m1-cA_1bz5-a1-m1-cB 1bz5-a1-m1-cA_1bz5-a1-m1-cE 1bz5-a1-m1-cB_1bz5-a1-m1-cC 1bz5-a1-m1-cC_1bz5-a1-m1-cD 1bz5-a1-m1-cD_1bz5-a1-m1-cE 1bz5-a1-m2-cA_1bz5-a1-m2-cB 1bz5-a1-m2-cB_1bz5-a1-m2-cC 1bz5-a1-m2-cC_1bz5-a1-m2-cD 1bz5-a1-m2-cD_1bz5-a1-m2-cE 2hex-a1-m1-cA_2hex-a1-m1-cB 2hex-a1-m1-cA_2hex-a1-m1-cE 2hex-a1-m1-cB_2hex-a1-m1-cC 2hex-a1-m1-cD_2hex-a1-m1-cC 2hex-a1-m1-cD_2hex-a1-m1-cE 2hex-a2-m1-cA_2hex-a2-m1-cB 2hex-a2-m1-cA_2hex-a2-m1-cE 2hex-a2-m1-cB_2hex-a2-m1-cC 2hex-a2-m1-cD_2hex-a2-m1-cC 2hex-a2-m1-cD_2hex-a2-m1-cE 2hex-a2-m2-cA_2hex-a2-m2-cB 2hex-a2-m2-cA_2hex-a2-m2-cE 2hex-a2-m2-cB_2hex-a2-m2-cC 2hex-a2-m2-cD_2hex-a2-m2-cC 2hex-a2-m2-cD_2hex-a2-m2-cE 3ldi-a1-m1-cA_3ldi-a1-m1-cB 3ldi-a1-m1-cA_3ldi-a1-m1-cE 3ldi-a1-m1-cC_3ldi-a1-m1-cB 3ldi-a1-m1-cC_3ldi-a1-m1-cD 3ldi-a1-m1-cE_3ldi-a1-m1-cD 3ldi-a1-m2-cA_3ldi-a1-m2-cB 3ldi-a1-m2-cA_3ldi-a1-m2-cE 3ldi-a1-m2-cC_3ldi-a1-m2-cB 3ldi-a1-m2-cC_3ldi-a1-m2-cD 3ldi-a1-m2-cE_3ldi-a1-m2-cD 3ldm-a1-m1-cA_3ldm-a1-m1-cB 3ldm-a1-m1-cA_3ldm-a1-m1-cE 3ldm-a1-m1-cB_3ldm-a1-m1-cC 3ldm-a1-m1-cC_3ldm-a1-m1-cD 3ldm-a1-m1-cD_3ldm-a1-m1-cE 3ldm-a1-m2-cA_3ldm-a1-m2-cB 3ldm-a1-m2-cA_3ldm-a1-m2-cE 3ldm-a1-m2-cB_3ldm-a1-m2-cC 3ldm-a1-m2-cC_3ldm-a1-m2-cD 3ldm-a1-m2-cD_3ldm-a1-m2-cE 6f1f-a6-m1-cA_6f1f-a6-m1-cB 6f1f-a6-m1-cA_6f1f-a6-m1-cC 6f1f-a6-m1-cB_6f1f-a6-m1-cE 6f1f-a6-m1-cC_6f1f-a6-m1-cD 6f1f-a6-m1-cD_6f1f-a6-m1-cE 6f1f-a6-m2-cA_6f1f-a6-m2-cB 6f1f-a6-m2-cA_6f1f-a6-m2-cC 6f1f-a6-m2-cB_6f1f-a6-m2-cE 6f1f-a6-m2-cC_6f1f-a6-m2-cD 6f1f-a6-m2-cD_6f1f-a6-m2-cE RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCG 1bzo-a1-m2-cA_1bzo-a1-m1-cA THREE-DIMENSIONAL STRUCTURE OF PROKARYOTIC CU,ZN SUPEROXIDE DISMUTASE FROM P.LEIOGNATHI, SOLVED BY X-RAY CRYSTALLOGRAPHY. P00446 P00446 2.1 X-RAY DIFFRACTION 22 1.0 658 (Photobacterium leiognathi subsp. leiognathi) 658 (Photobacterium leiognathi subsp. leiognathi) 151 151 QDLTVKMTDLQTGKPVGTIELSQNKYGVVFIPELADLTPGMHGFHIHQNGSCASSEKDGKVVLGGAAGGHYDPEHTNKHGFPWTDDNHKGDLPALFVSANGLATNPVLAPRLTLKELKGHAIMIHAGGDNHSDMPKALGGGGARVACGVIQ QDLTVKMTDLQTGKPVGTIELSQNKYGVVFIPELADLTPGMHGFHIHQNGSCASSEKDGKVVLGGAAGGHYDPEHTNKHGFPWTDDNHKGDLPALFVSANGLATNPVLAPRLTLKELKGHAIMIHAGGDNHSDMPKALGGGGARVACGVIQ 1c02-a1-m1-cA_1c02-a1-m1-cB CRYSTAL STRUCTURE OF YEAST YPD1P Q07688 Q07688 1.8 X-RAY DIFFRACTION 49 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 166 166 STIPSEIINWTILNEIISMDDDDSDFSKGLIIQFIDQAQTTFAQMQRQLDGEKNLTELDNLGHFLKGSSAALGLQRIAWVCERIQNLGRKMQHFFPNKTELVNTLSDKSIINGINIDEDDEEIKIQVDDKDENSIYLILIAKALNQSRLEFKLARIELSKYYNTNL STIPSEIINWTILNEIISMDDDDSDFSKGLIIQFIDQAQTTFAQMQRQLDGEKNLTELDNLGHFLKGSSAALGLQRIAWVCERIQNLGRKMQHFFPNKTELVNTLSDKSIINGINIDEDDEEIKIQVDDKDENSIYLILIAKALNQSRLEFKLARIELSKYYNTNL 1c0p-a1-m1-cA_1c0p-a1-m2-cA D-AMINO ACIC OXIDASE IN COMPLEX WITH D-ALANINE AND A PARTIALLY OCCUPIED BIATOMIC SPECIES P80324 P80324 1.2 X-RAY DIFFRACTION 110 1.0 5286 (Rhodotorula toruloides) 5286 (Rhodotorula toruloides) 363 363 1c0i-a1-m1-cA_1c0i-a1-m2-cA 1c0k-a1-m1-cA_1c0k-a1-m2-cA 1c0l-a1-m1-cA_1c0l-a1-m2-cA LMMHSQKRVVVLGSGVIGLSSALILARKGYSVHILARDLPEDVSSQTFASPWAGANWTPFMTLTDGPRQAKWEESTFKKWVELVPTGHAMWLKGTRRFAQNEDGLLGHWYKDITPNYRPLPSSECPPGAIGVTYDTLSVHAPKYCQYLARELQKLGATFERRTVTSLEQAFDGADLVVNATGLGAKSIAGIDDQAAEPIRGQTVLVKSPCKRCTMDSSDPASPAYIIPRPGGEVICGGTYGVGDWDLSVNPETVQRILKHCLRLDPTISSDGTIEGIEVLRHNVGLRPARRGGPRVEAERIVLPLDRTKSPLSLGRGSARAAKEKEVTLVHAYGFSSAGYQQSWGAAEDVAQLVDEAFQRYHG LMMHSQKRVVVLGSGVIGLSSALILARKGYSVHILARDLPEDVSSQTFASPWAGANWTPFMTLTDGPRQAKWEESTFKKWVELVPTGHAMWLKGTRRFAQNEDGLLGHWYKDITPNYRPLPSSECPPGAIGVTYDTLSVHAPKYCQYLARELQKLGATFERRTVTSLEQAFDGADLVVNATGLGAKSIAGIDDQAAEPIRGQTVLVKSPCKRCTMDSSDPASPAYIIPRPGGEVICGGTYGVGDWDLSVNPETVQRILKHCLRLDPTISSDGTIEGIEVLRHNVGLRPARRGGPRVEAERIVLPLDRTKSPLSLGRGSARAAKEKEVTLVHAYGFSSAGYQQSWGAAEDVAQLVDEAFQRYHG 1c0w-a1-m1-cC_1c0w-a1-m1-cD CRYSTAL STRUCTURE OF THE COBALT-ACTIVATED DIPHTHERIA TOXIN REPRESSOR-DNA COMPLEX REVEALS A METAL BINDING SH-LIKE DOMAIN P0DJL7 P0DJL7 3.2 X-RAY DIFFRACTION 50 0.994 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 175 175 1c0w-a1-m1-cA_1c0w-a1-m1-cB KDLVDTTEMYLRTIYELEEEGVTPLRARIAERLEQSGPTVSQTVARMERDGLVVVASDRSLQMTPTGRTLATAVMRKHRLAERLLTDIIGLDINKVHDEACRWEHVMSDEVERRLVKVLKDVSRSPFGNPIPGLDELGVIVQINEIFQVETDQFTQLLDADIRVELLDDLAHTIR KDLVDTTEMYLRTIYELEEEGVTPLRARIAERLEQSGPTVSQTVARMERDGLVVVASDRSLQMTPTGRTLATAVMRKHRLAERLLTDIIGLDINKVHDEACRWEHVMSDEVERRLVKVLKDVSRSPFGNPIPGLDELGVVQINEIFQVETDQFTQLLDADIRVVELLDDLAHTIR 1c16-a5-m1-cA_1c16-a5-m2-cG CRYSTAL STRUCTURE ANALYSIS OF THE GAMMA/DELTA T CELL LIGAND T22 Q31615 Q31615 3.1 X-RAY DIFFRACTION 43 1.0 10090 (Mus musculus) 10090 (Mus musculus) 260 260 1c16-a5-m2-cE_1c16-a5-m1-cC GSHSLRYFYTAVSRPGLGEPWFIIVGYVDDMQVLRFSSKEETPRMAPWLEQEEADNWEQQTRIVTIQGQLSERNLMTLVHFYNKSMDDSHTLQWLQGCDVEPDRHLCLWYNQLAYDSEDLPTLNENPSSCTVGNSTVPHISQDLKSHCSDLLQKYLEKGKERLLRSDPPKAHVTRHPRPEGDVTLRCWALGFYPADITLTWQLNGEELTQDMELVETRPAGDGTFQKWAAVVVPLGKEQSYTCHVYHEGLPEPLILRWGG GSHSLRYFYTAVSRPGLGEPWFIIVGYVDDMQVLRFSSKEETPRMAPWLEQEEADNWEQQTRIVTIQGQLSERNLMTLVHFYNKSMDDSHTLQWLQGCDVEPDRHLCLWYNQLAYDSEDLPTLNENPSSCTVGNSTVPHISQDLKSHCSDLLQKYLEKGKERLLRSDPPKAHVTRHPRPEGDVTLRCWALGFYPADITLTWQLNGEELTQDMELVETRPAGDGTFQKWAAVVVPLGKEQSYTCHVYHEGLPEPLILRWGG 1c16-a5-m2-cE_1c16-a5-m2-cG CRYSTAL STRUCTURE ANALYSIS OF THE GAMMA/DELTA T CELL LIGAND T22 Q31615 Q31615 3.1 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 254 260 1c16-a5-m1-cA_1c16-a5-m1-cC GSHSLRYFYTAVSRPGLGEPWFIIVGYVDDMQVLRFSSKEETPRMAPWLEQEEADNWEQQTRIVTIQGQLSERNLMTLVHFYNKSMDDSHTLQWLQGCDVEPDRHLCLWYNQLAYDSEDLPTLNENPSSCTPHISQDLKSHCSDLLQKYLEKGKERLLRSDPPKAHVTRHPRPEGDVTLRCWALGFYPADITLTWQLNGEELTQDMELVETRPAGDGTFQKWAAVVVPLGKEQSYTCHVYHEGLPEPLILRWGG GSHSLRYFYTAVSRPGLGEPWFIIVGYVDDMQVLRFSSKEETPRMAPWLEQEEADNWEQQTRIVTIQGQLSERNLMTLVHFYNKSMDDSHTLQWLQGCDVEPDRHLCLWYNQLAYDSEDLPTLNENPSSCTVGNSTVPHISQDLKSHCSDLLQKYLEKGKERLLRSDPPKAHVTRHPRPEGDVTLRCWALGFYPADITLTWQLNGEELTQDMELVETRPAGDGTFQKWAAVVVPLGKEQSYTCHVYHEGLPEPLILRWGG 1c17-a1-m1-cA_1c17-a1-m1-cL A1C12 SUBCOMPLEX OF F1FO ATP SYNTHASE P68699 P68699 NOT SOLUTION NMR 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 79 79 MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA 1c17-a1-m1-cJ_1c17-a1-m1-cK A1C12 SUBCOMPLEX OF F1FO ATP SYNTHASE P68699 P68699 NOT SOLUTION NMR 91 1.0 562 (Escherichia coli) 562 (Escherichia coli) 79 79 1c17-a1-m1-cA_1c17-a1-m1-cB 1c17-a1-m1-cB_1c17-a1-m1-cC 1c17-a1-m1-cC_1c17-a1-m1-cD 1c17-a1-m1-cD_1c17-a1-m1-cE 1c17-a1-m1-cE_1c17-a1-m1-cF 1c17-a1-m1-cF_1c17-a1-m1-cG 1c17-a1-m1-cG_1c17-a1-m1-cH 1c17-a1-m1-cH_1c17-a1-m1-cI 1c17-a1-m1-cI_1c17-a1-m1-cJ 1c17-a1-m1-cK_1c17-a1-m1-cL MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA 1c1d-a1-m2-cB_1c1d-a1-m1-cA L-PHENYLALANINE DEHYDROGENASE STRUCTURE IN TERNARY COMPLEX WITH NADH AND L-PHENYLALANINE Q59771 Q59771 1.25 X-RAY DIFFRACTION 69 0.994 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 348 349 1bw9-a1-m2-cB_1bw9-a1-m1-cA 1bxg-a1-m1-cB_1bxg-a1-m1-cA 1c1x-a1-m2-cB_1c1x-a1-m1-cA SIDSALNWDGEMTVTRFDSMTGAHFVIRLDSTQLGPAAGGTRAAQYSQLADALTDAGKLAGAMTLKMAVSNLPMGGGKSVIALPAPRHSIDPSTWARILRIHAENIDKLSGNYWTGPDVNTNSADMDTLNDTTEFVFGRSLERGGAGSSAFTTAVGVFEAMKATVAHRGLGSLDGLTVLVQGLGAVGGSLASLAAEAGAQLLVADTDTERVAHAVALGHTAVALEDVLSTPCDVFAPCAMGGVITTEVARTLDCSVVAGAANNVIADEAASDILHARGILYAPDFVANAGGAIHLVGREVLGWSESVVHERAVAIGDTLNQVFEISDNDGVTPDEAARTLAGRRAREA SIDSALNWDGEMTVTRFDAMTGAHFVIRLDSTQLGPAAGGTRAAQYSNLADALTDAGKLAGAMTLKMAVSNLPMGGGKSVIALPAPRHSIDPSTWARILRIHAENIDKLSGNYWTGPDVNTNSADMDTLNDTTEFVFGRSLERGGAGSSAFTTAVGVFEAMKATVAHRGLGSLDGLTVLVQGLGAVGGSLASLAAEAGAQLLVADTDTERVAHAVALGHTAVALEDVLSTPCDVFAPCAMGGVITTEVARTLDCSVVAGAANNVIADEAASDILHARGILYAPDFVANAGGAIHLVGREVLGWSESVVHERAVAIGDTLNQVFEISDNDGVTPDEAARTLAGRRAREAS 1c1l-a1-m1-cA_1c1l-a1-m2-cA LACTOSE-LIGANDED CONGERIN I P26788 P26788 1.5 X-RAY DIFFRACTION 100 1.0 7943 (Conger myriaster) 7943 (Conger myriaster) 135 135 1c1f-a1-m1-cA_1c1f-a1-m2-cA GGLQVKNFDFTVGKFLTVGGFINNSPQRFSVNVGESMNSLSLHLDHRFNYGADQNTIVMNSTLKGDNGWETEQRSTNFTLSAGQYFEITLSYDINKFYIDILDGPNLEFPNRYSKEFLPFLSLAGDARLTLVKLE GGLQVKNFDFTVGKFLTVGGFINNSPQRFSVNVGESMNSLSLHLDHRFNYGADQNTIVMNSTLKGDNGWETEQRSTNFTLSAGQYFEITLSYDINKFYIDILDGPNLEFPNRYSKEFLPFLSLAGDARLTLVKLE 1c28-a1-m1-cC_1c28-a1-m1-cA THE CRYSTAL STRUCTURE OF A COMPLMENT-1Q FAMILY PROTEIN SUGGESTS AN EVOLUTIONARY LINK TO TUMOR NECROSIS FACTOR Q60994 Q60994 2.1 X-RAY DIFFRACTION 56 1.0 10090 (Mus musculus) 10090 (Mus musculus) 102 125 1c28-a1-m1-cB_1c28-a1-m1-cA MYRSAFSVGLETRVTVPIRFTKIFYNQQNHYDGSTGKFYCNIPGLYYFSYHITVDVKVSLFKKDKAVLFTQASGSVLLHLEVGDQVWLQNDSTFTGFLLYHD MYRSAFSVGLETRVTVPNVPIRFTKIFYNQQNHYDGSTGKFYCNIPGLYYFSYHITVYMKDVKVSLFKKDKAVLFTYDQYQENVDQASGSVLLHLEVGDQVWLQVYYADNVNDSTFTGFLLYHDT 1c3e-a1-m1-cA_1c3e-a1-m1-cB NEW INSIGHTS INTO INHIBITOR DESIGN FROM THE CRYSTAL STRUCTURE AND NMR STUDIES OF E. COLI GAR TRANSFORMYLATE IN COMPLEX WITH BETA-GAR AND 10-FORMYL-5,8,10-TRIDEAZAFOLIC ACID. P08179 P08179 2.1 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 209 209 1c2t-a1-m1-cA_1c2t-a1-m1-cB MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPKYPGLHTHRQALENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYA MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPKYPGLHTHRQALENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYA 1c3g-a1-m1-cA_1c3g-a1-m2-cA S. CEREVISIAE HEAT SHOCK PROTEIN 40 SIS1 P25294 P25294 2.7 X-RAY DIFFRACTION 41 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 170 170 ETVQVNLPVSLEDLFVGKKKSFKIGRKGPHGASEKTQIDIQLKPGWKAGTKITYKNQGDYNPQTGRRKTLQFVIQEKSHPNFKRDGDDLIYTLPLSFKESLLGFSKTIQTIDGRTLPLSRVQPVQPSQTSTYPGQGMPTPKNPSQRGNLIVKYKVDYPISLNDAQKRAID ETVQVNLPVSLEDLFVGKKKSFKIGRKGPHGASEKTQIDIQLKPGWKAGTKITYKNQGDYNPQTGRRKTLQFVIQEKSHPNFKRDGDDLIYTLPLSFKESLLGFSKTIQTIDGRTLPLSRVQPVQPSQTSTYPGQGMPTPKNPSQRGNLIVKYKVDYPISLNDAQKRAID 1c3r-a1-m1-cA_1c3r-a1-m1-cB CRYSTAL STRUCTURE OF AN HDAC HOMOLOG COMPLEXED WITH TRICHOSTATIN A O67135 O67135 2 X-RAY DIFFRACTION 25 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 372 372 KKVKLIGTLDYGKYRYPKNHPLKIPRVSLLLRFKDAMNLIDEKELIKSRPATKEELLLFHTEDYINTLMEAERSQSVPKGAREKYNIGGYENPVSYAMFTGSSLATGSTVQAIEEFLKGNVAFNPAGGMHHAFKSRANGFCYINNPAVGIEYLRKKGFKRILYIDLDAHHCDGVQEAFYDTDQVFVLSLHQSPEYAFPFEKGFLEEIGEGKGKGYNLNIPLPKGLNDNEFLFALEKSLEIVKEVFEPEVYLLQLGTDPLLEDYLSKFNLSNVAFLKAFNIVREVFGEGVYLGGGGYHPYALARAWTLIWCELSGREVPEKLNNKAKELLKSIDFEEFDDEVDRSYMLETLKDPWRGGEVRKEVKDTLEKAKA KKVKLIGTLDYGKYRYPKNHPLKIPRVSLLLRFKDAMNLIDEKELIKSRPATKEELLLFHTEDYINTLMEAERSQSVPKGAREKYNIGGYENPVSYAMFTGSSLATGSTVQAIEEFLKGNVAFNPAGGMHHAFKSRANGFCYINNPAVGIEYLRKKGFKRILYIDLDAHHCDGVQEAFYDTDQVFVLSLHQSPEYAFPFEKGFLEEIGEGKGKGYNLNIPLPKGLNDNEFLFALEKSLEIVKEVFEPEVYLLQLGTDPLLEDYLSKFNLSNVAFLKAFNIVREVFGEGVYLGGGGYHPYALARAWTLIWCELSGREVPEKLNNKAKELLKSIDFEEFDDEVDRSYMLETLKDPWRGGEVRKEVKDTLEKAKA 1c4d-a1-m1-cA_1c4d-a1-m1-cB GRAMICIDIN CSCL COMPLEX 2 X-RAY DIFFRACTION 15 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 1c4d-a2-m1-cC_1c4d-a2-m1-cD GRAMICIDIN CSCL COMPLEX 2 X-RAY DIFFRACTION 15 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 1c4g-a1-m1-cA_1c4g-a1-m1-cB PHOSPHOGLUCOMUTASE VANADATE BASED TRANSITION STATE ANALOG COMPLEX P00949 P00949 2.7 X-RAY DIFFRACTION 40 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 561 561 1c47-a1-m1-cA_1c47-a1-m1-cB VKIVTVKTKAYPDQKPGTSGLRKRVKVFQSSTNYAENFIQSIISTVEPAQRQEATLVVGGDGRFYMKEAIQLIVRIAAANGIGRLVIGQNGILSTPAVSCIIRKIKAIGGIILTASHNPGGPNGDFGIKFNISNGGPAPEAITDKIFQISKTIEEYAICPDLKVDLGVLGKQQFDLENKFKPFTVEIVDSVEAYATMLRNIFDFNALKELLSGPNRLKIRIDAMHGVVGPYVKKILCEELGAPANSAVNCVPLEDFGGHHPDPNLTYAADLVETMKSGEHDFGAAFDGDGDRNMILGKHGFFVNPSDSVAVIAANIFSIPYFQQTGVRGFARSMPTSGALDRVANATKIALYETPTGWKFFGNLMDASKLSLCGEESFGTGSDHIREKDGLWAVLAWLSILATRKQSVEDILKDHWHKFGRNFFTRYDYEEVEAEGATKMMKDLEALMFDRSFVGKQFSANDKVYTVEKADNFEYHDPVDGSVSKNQGLRLIFADGSRIIFRLSGTGSAGATIRLYIDSYEKDNAKINQDPQVMLAPLISIALKVSQLQERTGRTAPTVIT VKIVTVKTKAYPDQKPGTSGLRKRVKVFQSSTNYAENFIQSIISTVEPAQRQEATLVVGGDGRFYMKEAIQLIVRIAAANGIGRLVIGQNGILSTPAVSCIIRKIKAIGGIILTASHNPGGPNGDFGIKFNISNGGPAPEAITDKIFQISKTIEEYAICPDLKVDLGVLGKQQFDLENKFKPFTVEIVDSVEAYATMLRNIFDFNALKELLSGPNRLKIRIDAMHGVVGPYVKKILCEELGAPANSAVNCVPLEDFGGHHPDPNLTYAADLVETMKSGEHDFGAAFDGDGDRNMILGKHGFFVNPSDSVAVIAANIFSIPYFQQTGVRGFARSMPTSGALDRVANATKIALYETPTGWKFFGNLMDASKLSLCGEESFGTGSDHIREKDGLWAVLAWLSILATRKQSVEDILKDHWHKFGRNFFTRYDYEEVEAEGATKMMKDLEALMFDRSFVGKQFSANDKVYTVEKADNFEYHDPVDGSVSKNQGLRLIFADGSRIIFRLSGTGSAGATIRLYIDSYEKDNAKINQDPQVMLAPLISIALKVSQLQERTGRTAPTVIT 1c4k-a1-m1-cA_1c4k-a1-m2-cA ORNITHINE DECARBOXYLASE MUTANT (GLY121TYR) P43099 P43099 2.7 X-RAY DIFFRACTION 31 1.0 1593 (Lactobacillus sp. 30A) 1593 (Lactobacillus sp. 30A) 728 728 SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLEFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRYLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLEFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRYLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN 1c4p-a1-m1-cA_1c4p-a1-m1-cB BETA DOMAIN OF STREPTOKINASE Q53284 Q53284 2.4 X-RAY DIFFRACTION 22 1.0 119602 (Streptococcus dysgalactiae subsp. equisimilis) 119602 (Streptococcus dysgalactiae subsp. equisimilis) 137 137 KPIQNQAKSVDVEYTVQFTPLNPDDDFRPGLKDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAYEINKKSGLNEEINNTDLISEKYYVLKKGEKPYD KPIQNQAKSVDVEYTVQFTPLNPDDDFRPGLKDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAYEINKKSGLNEEINNTDLISEKYYVLKKGEKPYD 1c4p-a1-m1-cD_1c4p-a1-m1-cA BETA DOMAIN OF STREPTOKINASE Q53284 Q53284 2.4 X-RAY DIFFRACTION 25 1.0 119602 (Streptococcus dysgalactiae subsp. equisimilis) 119602 (Streptococcus dysgalactiae subsp. equisimilis) 132 137 1c4p-a1-m1-cC_1c4p-a1-m1-cB KPIQNQAKSVDVEYTVQFTPLNPDDDFRPGLKDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAYEINKKSGLNEEINNTDLISEKYYVLKKG KPIQNQAKSVDVEYTVQFTPLNPDDDFRPGLKDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAYEINKKSGLNEEINNTDLISEKYYVLKKGEKPYD 1c4p-a1-m1-cD_1c4p-a1-m1-cB BETA DOMAIN OF STREPTOKINASE Q53284 Q53284 2.4 X-RAY DIFFRACTION 65 1.0 119602 (Streptococcus dysgalactiae subsp. equisimilis) 119602 (Streptococcus dysgalactiae subsp. equisimilis) 132 137 1c4p-a1-m1-cC_1c4p-a1-m1-cA KPIQNQAKSVDVEYTVQFTPLNPDDDFRPGLKDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAYEINKKSGLNEEINNTDLISEKYYVLKKG KPIQNQAKSVDVEYTVQFTPLNPDDDFRPGLKDTKLLKTLAIGDTITSQELLAQAQSILNKTHPGYTIYERDSSIVTHDNDIFRTILPMDQEFTYHVKNREQAYEINKKSGLNEEINNTDLISEKYYVLKKGEKPYD 1c4z-a1-m1-cA_1c4z-a1-m1-cB STRUCTURE OF AN E6AP-UBCH7 COMPLEX: INSIGHTS INTO THE UBIQUITINATION PATHWAY Q05086 Q05086 2.6 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 350 350 1c4z-a1-m1-cA_1c4z-a1-m1-cC 1c4z-a1-m1-cB_1c4z-a1-m1-cC 1d5f-a1-m1-cA_1d5f-a1-m1-cB 1d5f-a1-m1-cA_1d5f-a1-m1-cC 1d5f-a1-m1-cB_1d5f-a1-m1-cC NPYLRLKVRRDHIIDDALVRLEMIAMENPADLKKQLYVEFEGEQGVDEGGVSKEFFQLVVEEIFNPDIGMFTYDESTKLFWFNPSSFETEGQFTLIGIVLGLAIYNNCILDVHFPMVVYRKLMGKKGTFRDLGDSHPVLYQSLKDLLEYEGNVEDDMMITFQISQTDLFGNPMMYDLKENGDKIPITNENRKEFVNLYSDYILNKSVEKQFKAFRRGFHMVTNESPLKYLFRPEEIELLICGSRNLDFQALEETTEYDGGYTRDSVLIREFWEIVHSFTDEQKRLFLQFTTGTDRAPVGGLGKLKMIIAKNGPDTERLPTSHTCFNVLLLPEYSSKEKLKERLLKAITYA NPYLRLKVRRDHIIDDALVRLEMIAMENPADLKKQLYVEFEGEQGVDEGGVSKEFFQLVVEEIFNPDIGMFTYDESTKLFWFNPSSFETEGQFTLIGIVLGLAIYNNCILDVHFPMVVYRKLMGKKGTFRDLGDSHPVLYQSLKDLLEYEGNVEDDMMITFQISQTDLFGNPMMYDLKENGDKIPITNENRKEFVNLYSDYILNKSVEKQFKAFRRGFHMVTNESPLKYLFRPEEIELLICGSRNLDFQALEETTEYDGGYTRDSVLIREFWEIVHSFTDEQKRLFLQFTTGTDRAPVGGLGKLKMIIAKNGPDTERLPTSHTCFNVLLLPEYSSKEKLKERLLKAITYA 1c5d-a1-m1-cA_1c5d-a1-m1-cL THE CRYSTAL STRUCTURE OF THE FAB FRAGMENT OF A RAT MONOCLONAL ANTIBODY AGAINST THE MAIN IMMUNOGENIC REGION OF THE HUMAN MUSCLE ACETYLCHOLINE RECEPTOR P01835 P01835 2.4 X-RAY DIFFRACTION 14 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 213 213 DIQMTQSPPSLSASLGDKVTITCQASQDINKYIAWYQQKPGKAPRQLIRYTSILVLGTPSRFSGSGSGRDFSFSISNVASEDIASYYCLQYGNLYTFGAGTKLEIKRADAAPTVSIFPPSTEQLATGGASVVCLMNNFYPRDISVKWKIDGTERRDGVLDSVTDQDSKDSTYSMSSTLSLTKADYESHNLYTCEVVHKTSSSPVVKSFNRNEC DIQMTQSPPSLSASLGDKVTITCQASQDINKYIAWYQQKPGKAPRQLIRYTSILVLGTPSRFSGSGSGRDFSFSISNVASEDIASYYCLQYGNLYTFGAGTKLEIKRADAAPTVSIFPPSTEQLATGGASVVCLMNNFYPRDISVKWKIDGTERRDGVLDSVTDQDSKDSTYSMSSTLSLTKADYESHNLYTCEVVHKTSSSPVVKSFNRNEC 1c5d-a1-m1-cH_1c5d-a1-m1-cB THE CRYSTAL STRUCTURE OF THE FAB FRAGMENT OF A RAT MONOCLONAL ANTIBODY AGAINST THE MAIN IMMUNOGENIC REGION OF THE HUMAN MUSCLE ACETYLCHOLINE RECEPTOR P20761 P20761 2.4 X-RAY DIFFRACTION 10 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 214 215 EVKLLESGPGLVQPSQTLSLTCTVSGFPLTTNGVSWVRQPPGKGLEWIAAISSGGSPYYNSALKSRLSINRDTSKSQVFLKMNSLQTEDTAIYFCTREDGWNYFDYWGPGTMVTVSSAQTTAPSVYPLAPGCGDTTSSTVTLGCLVKGYFPEPVTVTWNSGALSSDVHTFPAVLQSGLYTLTSSVTSSTWPSQTVTCNVAHPASSTKVDKKLER EVKLLESGPGLVQPSQTLSLTCTVSGFPLTTNGVSWVRQPPGKGLEWIAAISSGGSPYYNSALKSRLSINRDTSKSQVFLKMNSLQTEDTAIYFCTREDGWNYFDYWGPGTMVTVSSAQTTAPSVYPLAPGCGDTTSSTVTLGCLVKGYFPEPVTVTWNSGALSSDVHTFPAVLQSGLYTLTSSVTSSTWPSQTVTCNVAHPASSTKVDKKLERR 1c6o-a1-m1-cA_1c6o-a1-m1-cB CRYSTAL STRUCTURE OF OXIDIZED CYTOCHROME C6 FROM THE GREEN ALGAE SCENEDESMUS OBLIQUUS P57736 P57736 2 X-RAY DIFFRACTION 34 1.0 3088 (Tetradesmus obliquus) 3088 (Tetradesmus obliquus) 89 89 SADLALGKQTFEANCAACHAGGNNSVIPDHTLRKAAMEQFLQGGFNLEAITYQVENGKGAMPAWSGTLDDDEIAAVAAYVYDQASGDKW SADLALGKQTFEANCAACHAGGNNSVIPDHTLRKAAMEQFLQGGFNLEAITYQVENGKGAMPAWSGTLDDDEIAAVAAYVYDQASGDKW 1c6v-a1-m1-cB_1c6v-a1-m1-cC SIV INTEGRASE (CATALYTIC DOMAIN + DNA BIDING DOMAIN COMPRISING RESIDUES 50-293) MUTANT WITH PHE 185 REPLACED BY HIS (F185H) Q88016 Q88016 3 X-RAY DIFFRACTION 22 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 142 143 NSDLGTWQMDCTHLEGKIVIVAVHVASGFIEAEVIPQETGRQTALFLLKLAGRWPITHLHTDNGANFASQEVKMVAWWAGIEHTFGEAMNHHLKNQIDRIREQANSVETIVLMAVHCMNHKRRGGIGDMTPAERLINMITTE NSDLGTWQMDCTHLEGKIVIVAVHVASGFIEAEVIPQETGRQTALFLLKLAGRWPITHLHTDNGANFASQEVKMVAWWAGIEHTFGVEAMNHHLKNQIDRIREQANSVETIVLMAVHCMNHKRRGGIGDMTPAERLINMITTE 1c6v-a1-m1-cD_1c6v-a1-m1-cC SIV INTEGRASE (CATALYTIC DOMAIN + DNA BIDING DOMAIN COMPRISING RESIDUES 50-293) MUTANT WITH PHE 185 REPLACED BY HIS (F185H) Q88016 Q88016 3 X-RAY DIFFRACTION 61 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 142 143 1c6v-a1-m1-cB_1c6v-a1-m1-cA NSDLGTWQMDCTHLEGKIVIVAVHVASGFIEAEVIPQETGRQTALFLLKLAGRWPITHLHTDNGANFASQEVKMVAWWAGIEHTFGEAMNHHLKNQIDRIREQANSVETIVLMAVHCMNHKRRGGIGDMTPAERLINMITTE NSDLGTWQMDCTHLEGKIVIVAVHVASGFIEAEVIPQETGRQTALFLLKLAGRWPITHLHTDNGANFASQEVKMVAWWAGIEHTFGVEAMNHHLKNQIDRIREQANSVETIVLMAVHCMNHKRRGGIGDMTPAERLINMITTE 1c72-a2-m1-cC_1c72-a2-m1-cD TYR115, GLN165 AND TRP209 CONTRIBUTE TO THE 1,2-EPOXY-3-(P-NITROPHENOXY)PROPANE CONJUGATING ACTIVITIES OF GLUTATHIONE S-TRANSFERASE CGSTM1-1 P20136 P20136 2.8 X-RAY DIFFRACTION 69 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 217 217 1c72-a1-m1-cA_1c72-a1-m1-cB 1gsu-a1-m1-cA_1gsu-a1-m1-cB VVTLGYWDIRGLAHAIRLLLEYTETPYQERRYKAGPAPDFDPSDWTNEKEKLGLDFPNLPYLIDGDVKLTQSNAILRYIARKHNMCGETEVEKQRVDVLENHLMDLRMAFARLCYSPDFEKLKPAYLELLPGKLRQLSRFLGSRSWFVGDKLTFVDFLAYDVLDQQRMFVPDCPELQGNLSQFLQRFEALEKISAYMRSGRFMKAPIFWYTALWNNK VVTLGYWDIRGLAHAIRLLLEYTETPYQERRYKAGPAPDFDPSDWTNEKEKLGLDFPNLPYLIDGDVKLTQSNAILRYIARKHNMCGETEVEKQRVDVLENHLMDLRMAFARLCYSPDFEKLKPAYLELLPGKLRQLSRFLGSRSWFVGDKLTFVDFLAYDVLDQQRMFVPDCPELQGNLSQFLQRFEALEKISAYMRSGRFMKAPIFWYTALWNNK 1c76-a1-m1-cA_1c76-a1-m2-cA STAPHYLOKINASE (SAK) MONOMER P68802 P68802 2.25 X-RAY DIFFRACTION 28 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 121 121 1c77-a1-m1-cB_1c77-a1-m1-cA SYFEPTGPYLMVNVTGVDGKGNELLSPHYVEFPIKPGTTLTKEKIEYYVEWALDATAYKEFRVVELDPSAKIEVTYYDKNKKKEETKSFPITEKGFVVPDLSEHIKNPGFNLITKVVIEKK SYFEPTGPYLMVNVTGVDGKGNELLSPHYVEFPIKPGTTLTKEKIEYYVEWALDATAYKEFRVVELDPSAKIEVTYYDKNKKKEETKSFPITEKGFVVPDLSEHIKNPGFNLITKVVIEKK 1c7n-a4-m1-cG_1c7n-a4-m1-cH CRYSTAL STRUCTURE OF CYSTALYSIN FROM TREPONEMA DENTICOLA CONTAINS A PYRIDOXAL 5'-PHOSPHATE COFACTOR Q56257 Q56257 1.9 X-RAY DIFFRACTION 161 1.0 158 (Treponema denticola) 158 (Treponema denticola) 394 394 1c7n-a1-m1-cA_1c7n-a1-m1-cB 1c7n-a2-m1-cC_1c7n-a2-m1-cD 1c7n-a3-m1-cE_1c7n-a3-m1-cF 1c7o-a1-m1-cA_1c7o-a1-m1-cB 1c7o-a2-m1-cC_1c7o-a2-m1-cD 1c7o-a3-m1-cE_1c7o-a3-m1-cF 1c7o-a4-m1-cG_1c7o-a4-m1-cH MIYDFTTKISRKNLGSLKWDLMYSQNPEVGNEVVPLSVADMEFKNPPELIEGLKKYLDETVLGYTGPTEEYKKTVKKWMKDRHQWDIQTDWIINTAGVVPAVFNAVREFTKPGDGVIIITPVYYPFFMAIKNQERKIIECELLEKDGYYTIDFQKLEKLSKDKNNKALLFCSPHNPVGRVWKKDELQKIKDIVLKSDLMLWSDEIHFDLIMPGYEHTVFQSIDEQLADKTITFTAPSKTFNIAGMGMSNIIIKNPDIRERFTKSRDATSGMPFTTLGYKACEICYKECGKWLDGCIKVIDKNQRIVKDFFEVNHPEIKAPLIEGTYLQWIDFRALKMDHKAMEEFMIHKAQIFFDEGYIFGDGGIGFERINLAAPSSVIQESLERLNKALKDLK MIYDFTTKISRKNLGSLKWDLMYSQNPEVGNEVVPLSVADMEFKNPPELIEGLKKYLDETVLGYTGPTEEYKKTVKKWMKDRHQWDIQTDWIINTAGVVPAVFNAVREFTKPGDGVIIITPVYYPFFMAIKNQERKIIECELLEKDGYYTIDFQKLEKLSKDKNNKALLFCSPHNPVGRVWKKDELQKIKDIVLKSDLMLWSDEIHFDLIMPGYEHTVFQSIDEQLADKTITFTAPSKTFNIAGMGMSNIIIKNPDIRERFTKSRDATSGMPFTTLGYKACEICYKECGKWLDGCIKVIDKNQRIVKDFFEVNHPEIKAPLIEGTYLQWIDFRALKMDHKAMEEFMIHKAQIFFDEGYIFGDGGIGFERINLAAPSSVIQESLERLNKALKDLK 1c7s-a1-m1-cA_1c7s-a1-m2-cA BETA-N-ACETYLHEXOSAMINIDASE MUTANT D539A COMPLEXED WITH DI-N-ACETYL-BETA-D-GLUCOSAMINE (CHITOBIASE) Q54468 Q54468 1.8 X-RAY DIFFRACTION 54 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 858 858 1c7t-a1-m1-cA_1c7t-a1-m2-cA DQQLVDQLSQLKLNVKMLDNRAGENGVDCAALGADWASCNRVLFTLSNDGQAIDGKDWVIYFHSPRQTLRVDNDQFKIAHLTGDLYKLEPTAKFSGFPAGKAVEIPVVAEYWQLFRNDFLPRWYATSGDAKPKMLANTDTENLDQFVAPFTGDQWKRTKDDKNILMTPASRFVSNADLQTLPAGALRGKIVPTPMQVKVHAQDADLRKGVALDLSTLVKPAADVVSQRFALLGVPVQTNGYPIKTDIQPGKFKGAMAVSGAYELKIGKKEAQVIGFDQAGVFYGLQSILSLVPSDGSGKIATLDASDAPRFPYRGIFLDVARNFHKKDAVLRLLDQMAAYKLNKFHFHLSDDEGWRIEIPGLPELTEVGGQRCHDLSETTCLLPQYGQGPDVYGGFFSRQDYIDIIKYAQARQIEVIPEIDMPAHARAAVVSMEARYKKLHAAGKEQEANEFRLVDQTDTSNTTSVQFFNRQSYLNPCLDSSQRFVDKVIGEIAQMHKEAGQPIKTWHFGGAEAKNIRLGAGYTDKAKPEPGKGIIDQSNEDKPWAKSQVCQTMIKEGKVADMEHLPSYFGQEVSKLVKAHGIDRMQAWQDGLKDAESSKAFATSRVGVNFWDTLYWGGFDSVNDWANKGYEVVVSNPDYVYMDFPYEVNPDERGYYWGTRFSDERKVFSFAPDNMPQNAETSVDRDGNHFNAKSDKPWPGAYGLSAQLWSETQRTDPQMEYMIFPRALSVAERSWHRAGWEQDYRAGREYKGGETHFVDTQALEKDWLRFANILGQRELAKLDKGGVAYRLPVPGARVAGGKLEANIALPGLGIEYSTDGGKQWQRYDAKAKPAVSGEVQVRSVSPDGKRYSRAEKV DQQLVDQLSQLKLNVKMLDNRAGENGVDCAALGADWASCNRVLFTLSNDGQAIDGKDWVIYFHSPRQTLRVDNDQFKIAHLTGDLYKLEPTAKFSGFPAGKAVEIPVVAEYWQLFRNDFLPRWYATSGDAKPKMLANTDTENLDQFVAPFTGDQWKRTKDDKNILMTPASRFVSNADLQTLPAGALRGKIVPTPMQVKVHAQDADLRKGVALDLSTLVKPAADVVSQRFALLGVPVQTNGYPIKTDIQPGKFKGAMAVSGAYELKIGKKEAQVIGFDQAGVFYGLQSILSLVPSDGSGKIATLDASDAPRFPYRGIFLDVARNFHKKDAVLRLLDQMAAYKLNKFHFHLSDDEGWRIEIPGLPELTEVGGQRCHDLSETTCLLPQYGQGPDVYGGFFSRQDYIDIIKYAQARQIEVIPEIDMPAHARAAVVSMEARYKKLHAAGKEQEANEFRLVDQTDTSNTTSVQFFNRQSYLNPCLDSSQRFVDKVIGEIAQMHKEAGQPIKTWHFGGAEAKNIRLGAGYTDKAKPEPGKGIIDQSNEDKPWAKSQVCQTMIKEGKVADMEHLPSYFGQEVSKLVKAHGIDRMQAWQDGLKDAESSKAFATSRVGVNFWDTLYWGGFDSVNDWANKGYEVVVSNPDYVYMDFPYEVNPDERGYYWGTRFSDERKVFSFAPDNMPQNAETSVDRDGNHFNAKSDKPWPGAYGLSAQLWSETQRTDPQMEYMIFPRALSVAERSWHRAGWEQDYRAGREYKGGETHFVDTQALEKDWLRFANILGQRELAKLDKGGVAYRLPVPGARVAGGKLEANIALPGLGIEYSTDGGKQWQRYDAKAKPAVSGEVQVRSVSPDGKRYSRAEKV 1c7z-a1-m1-cA_1c7z-a1-m1-cB REGULATORY COMPLEX OF FRUCTOSE-2,6-BISPHOSPHATASE P07953 P07953 2.6 X-RAY DIFFRACTION 54 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 191 191 1c80-a1-m1-cA_1c80-a1-m1-cB 1fbt-a1-m1-cA_1fbt-a1-m1-cB 1tip-a1-m1-cA_1tip-a1-m1-cB MRSIYLCRHGESELNLRGRIGGDSGLSARGKQYAYALANFIRSQGISSLKVWTSHMKRTIQTAEALGVPYEQWKALNEIDAGVCEEMTYEEIQEHYPEEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKSSDELPYLKCPLHTVLKLTPVAYGCRVESIYLNV MRSIYLCRHGESELNLRGRIGGDSGLSARGKQYAYALANFIRSQGISSLKVWTSHMKRTIQTAEALGVPYEQWKALNEIDAGVCEEMTYEEIQEHYPEEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKSSDELPYLKCPLHTVLKLTPVAYGCRVESIYLNV 1c81-a1-m1-cA_1c81-a1-m2-cA MICHAELIS COMPLEX OF FRUCTOSE-2,6-BISPHOSPHATASE P07953 P07953 2.5 X-RAY DIFFRACTION 10 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 191 191 MRSIYLCRHGESELNLRGRIGGDSGLSARGKQYAYALANFIRSQGISSLKVWTSHMKRTIQTAEALGVPYEQWKALNEIDAGVCEEMTYEEIQEHYPEEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKSSDELPYLKCPLHTVLKLTPVAYGCRVESIYLNV MRSIYLCRHGESELNLRGRIGGDSGLSARGKQYAYALANFIRSQGISSLKVWTSHMKRTIQTAEALGVPYEQWKALNEIDAGVCEEMTYEEIQEHYPEEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKSSDELPYLKCPLHTVLKLTPVAYGCRVESIYLNV 1c8b-a1-m1-cB_1c8b-a1-m2-cB CRYSTAL STRUCTURE OF A NOVEL GERMINATION PROTEASE FROM SPORES OF BACILLUS MEGATERIUM: STRUCTURAL REARRANGEMENTS AND ZYMOGEN ACTIVATION P22321 P22321 3 X-RAY DIFFRACTION 81 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 320 320 1c8b-a1-m1-cA_1c8b-a1-m2-cA MEKELDLSQYSVRTDLAVEAKDIALENQPKVIVKEKEEQGVKISMVEITEEGAEAIGKKKGRYVTLESVGIREQDTEKQEEAMEEVFAKELNFFIKSLNIPDDASCLVVGLGNLSVTPDALGPKAVDNLLITRHLFELQPESVQDGFRPVSAIVPGVMGMTGIETSDIIFGVVKKVNPDFIIAIDALAARSIERVNATIQISDSGIHPGSGVGNKRKEISYETLPTVVDAVSITSDTIDFILKHFGREMKEQGLGMIGTLPDEEKRRLIHEVLAPLGHNLMVTPKEVDMFIEDMANVVAGGLNAALHHEVDQENFGAYTH MEKELDLSQYSVRTDLAVEAKDIALENQPKVIVKEKEEQGVKISMVEITEEGAEAIGKKKGRYVTLESVGIREQDTEKQEEAMEEVFAKELNFFIKSLNIPDDASCLVVGLGNLSVTPDALGPKAVDNLLITRHLFELQPESVQDGFRPVSAIVPGVMGMTGIETSDIIFGVVKKVNPDFIIAIDALAARSIERVNATIQISDSGIHPGSGVGNKRKEISYETLPTVVDAVSITSDTIDFILKHFGREMKEQGLGMIGTLPDEEKRRLIHEVLAPLGHNLMVTPKEVDMFIEDMANVVAGGLNAALHHEVDQENFGAYTH 1c8b-a2-m1-cA_1c8b-a2-m1-cB CRYSTAL STRUCTURE OF A NOVEL GERMINATION PROTEASE FROM SPORES OF BACILLUS MEGATERIUM: STRUCTURAL REARRANGEMENTS AND ZYMOGEN ACTIVATION P22321 P22321 3 X-RAY DIFFRACTION 87 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 320 320 1c8b-a1-m1-cA_1c8b-a1-m1-cB 1c8b-a1-m2-cA_1c8b-a1-m2-cB MEKELDLSQYSVRTDLAVEAKDIALENQPKVIVKEKEEQGVKISMVEITEEGAEAIGKKKGRYVTLESVGIREQDTEKQEEAMEEVFAKELNFFIKSLNIPDDASCLVVGLGNLSVTPDALGPKAVDNLLITRHLFELQPESVQDGFRPVSAIVPGVMGMTGIETSDIIFGVVKKVNPDFIIAIDALAARSIERVNATIQISDSGIHPGSGVGNKRKEISYETLPTVVDAVSITSDTIDFILKHFGREMKEQGLGMIGTLPDEEKRRLIHEVLAPLGHNLMVTPKEVDMFIEDMANVVAGGLNAALHHEVDQENFGAYTH MEKELDLSQYSVRTDLAVEAKDIALENQPKVIVKEKEEQGVKISMVEITEEGAEAIGKKKGRYVTLESVGIREQDTEKQEEAMEEVFAKELNFFIKSLNIPDDASCLVVGLGNLSVTPDALGPKAVDNLLITRHLFELQPESVQDGFRPVSAIVPGVMGMTGIETSDIIFGVVKKVNPDFIIAIDALAARSIERVNATIQISDSGIHPGSGVGNKRKEISYETLPTVVDAVSITSDTIDFILKHFGREMKEQGLGMIGTLPDEEKRRLIHEVLAPLGHNLMVTPKEVDMFIEDMANVVAGGLNAALHHEVDQENFGAYTH 1c8e-a1-m54-cA_1c8e-a1-m9-cA FELINE PANLEUKOPENIA VIRUS EMPTY CAPSID STRUCTURE P24840 P24840 3 X-RAY DIFFRACTION 400 1.0 10785 (Feline parvovirus) 10785 (Feline parvovirus) 534 534 1c8d-a1-m10-cA_1c8d-a1-m23-cA 1c8d-a1-m11-cA_1c8d-a1-m20-cA 1c8d-a1-m11-cA_1c8d-a1-m38-cA 1c8d-a1-m12-cA_1c8d-a1-m37-cA 1c8d-a1-m12-cA_1c8d-a1-m47-cA 1c8d-a1-m13-cA_1c8d-a1-m45-cA 1c8d-a1-m13-cA_1c8d-a1-m46-cA 1c8d-a1-m14-cA_1c8d-a1-m29-cA 1c8d-a1-m14-cA_1c8d-a1-m44-cA 1c8d-a1-m15-cA_1c8d-a1-m16-cA 1c8d-a1-m15-cA_1c8d-a1-m28-cA 1c8d-a1-m16-cA_1c8d-a1-m28-cA 1c8d-a1-m17-cA_1c8d-a1-m27-cA 1c8d-a1-m17-cA_1c8d-a1-m52-cA 1c8d-a1-m18-cA_1c8d-a1-m51-cA 1c8d-a1-m18-cA_1c8d-a1-m60-cA 1c8d-a1-m19-cA_1c8d-a1-m39-cA 1c8d-a1-m19-cA_1c8d-a1-m59-cA 1c8d-a1-m1-cA_1c8d-a1-m10-cA 1c8d-a1-m1-cA_1c8d-a1-m23-cA 1c8d-a1-m20-cA_1c8d-a1-m38-cA 1c8d-a1-m21-cA_1c8d-a1-m30-cA 1c8d-a1-m21-cA_1c8d-a1-m43-cA 1c8d-a1-m22-cA_1c8d-a1-m42-cA 1c8d-a1-m24-cA_1c8d-a1-m54-cA 1c8d-a1-m24-cA_1c8d-a1-m9-cA 1c8d-a1-m25-cA_1c8d-a1-m26-cA 1c8d-a1-m25-cA_1c8d-a1-m53-cA 1c8d-a1-m26-cA_1c8d-a1-m53-cA 1c8d-a1-m27-cA_1c8d-a1-m52-cA 1c8d-a1-m29-cA_1c8d-a1-m44-cA 1c8d-a1-m2-cA_1c8d-a1-m22-cA 1c8d-a1-m2-cA_1c8d-a1-m42-cA 1c8d-a1-m30-cA_1c8d-a1-m43-cA 1c8d-a1-m31-cA_1c8d-a1-m40-cA 1c8d-a1-m31-cA_1c8d-a1-m58-cA 1c8d-a1-m32-cA_1c8d-a1-m57-cA 1c8d-a1-m32-cA_1c8d-a1-m7-cA 1c8d-a1-m33-cA_1c8d-a1-m5-cA 1c8d-a1-m33-cA_1c8d-a1-m6-cA 1c8d-a1-m34-cA_1c8d-a1-m49-cA 1c8d-a1-m34-cA_1c8d-a1-m4-cA 1c8d-a1-m35-cA_1c8d-a1-m36-cA 1c8d-a1-m35-cA_1c8d-a1-m48-cA 1c8d-a1-m36-cA_1c8d-a1-m48-cA 1c8d-a1-m37-cA_1c8d-a1-m47-cA 1c8d-a1-m39-cA_1c8d-a1-m59-cA 1c8d-a1-m3-cA_1c8d-a1-m41-cA 1c8d-a1-m3-cA_1c8d-a1-m50-cA 1c8d-a1-m40-cA_1c8d-a1-m58-cA 1c8d-a1-m41-cA_1c8d-a1-m50-cA 1c8d-a1-m45-cA_1c8d-a1-m46-cA 1c8d-a1-m4-cA_1c8d-a1-m49-cA 1c8d-a1-m51-cA_1c8d-a1-m60-cA 1c8d-a1-m54-cA_1c8d-a1-m9-cA 1c8d-a1-m55-cA_1c8d-a1-m56-cA 1c8d-a1-m55-cA_1c8d-a1-m8-cA 1c8d-a1-m56-cA_1c8d-a1-m8-cA 1c8d-a1-m57-cA_1c8d-a1-m7-cA 1c8d-a1-m5-cA_1c8d-a1-m6-cA 1c8e-a1-m10-cA_1c8e-a1-m23-cA 1c8e-a1-m11-cA_1c8e-a1-m20-cA 1c8e-a1-m11-cA_1c8e-a1-m38-cA 1c8e-a1-m12-cA_1c8e-a1-m37-cA 1c8e-a1-m12-cA_1c8e-a1-m47-cA 1c8e-a1-m13-cA_1c8e-a1-m45-cA 1c8e-a1-m13-cA_1c8e-a1-m46-cA 1c8e-a1-m14-cA_1c8e-a1-m29-cA 1c8e-a1-m14-cA_1c8e-a1-m44-cA 1c8e-a1-m15-cA_1c8e-a1-m16-cA 1c8e-a1-m15-cA_1c8e-a1-m28-cA 1c8e-a1-m16-cA_1c8e-a1-m28-cA 1c8e-a1-m17-cA_1c8e-a1-m27-cA 1c8e-a1-m17-cA_1c8e-a1-m52-cA 1c8e-a1-m18-cA_1c8e-a1-m51-cA 1c8e-a1-m18-cA_1c8e-a1-m60-cA 1c8e-a1-m19-cA_1c8e-a1-m39-cA 1c8e-a1-m19-cA_1c8e-a1-m59-cA 1c8e-a1-m1-cA_1c8e-a1-m10-cA 1c8e-a1-m1-cA_1c8e-a1-m23-cA 1c8e-a1-m20-cA_1c8e-a1-m38-cA 1c8e-a1-m21-cA_1c8e-a1-m30-cA 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7m3o-a1-m17-cA_7m3o-a1-m27-cA 7m3o-a1-m17-cA_7m3o-a1-m52-cA 7m3o-a1-m18-cA_7m3o-a1-m51-cA 7m3o-a1-m18-cA_7m3o-a1-m60-cA 7m3o-a1-m19-cA_7m3o-a1-m39-cA 7m3o-a1-m19-cA_7m3o-a1-m59-cA 7m3o-a1-m1-cA_7m3o-a1-m10-cA 7m3o-a1-m1-cA_7m3o-a1-m23-cA 7m3o-a1-m20-cA_7m3o-a1-m38-cA 7m3o-a1-m21-cA_7m3o-a1-m30-cA 7m3o-a1-m21-cA_7m3o-a1-m43-cA 7m3o-a1-m22-cA_7m3o-a1-m42-cA 7m3o-a1-m24-cA_7m3o-a1-m54-cA 7m3o-a1-m24-cA_7m3o-a1-m9-cA 7m3o-a1-m25-cA_7m3o-a1-m26-cA 7m3o-a1-m25-cA_7m3o-a1-m53-cA 7m3o-a1-m26-cA_7m3o-a1-m53-cA 7m3o-a1-m27-cA_7m3o-a1-m52-cA 7m3o-a1-m29-cA_7m3o-a1-m44-cA 7m3o-a1-m2-cA_7m3o-a1-m22-cA 7m3o-a1-m2-cA_7m3o-a1-m42-cA 7m3o-a1-m30-cA_7m3o-a1-m43-cA 7m3o-a1-m31-cA_7m3o-a1-m40-cA 7m3o-a1-m31-cA_7m3o-a1-m58-cA 7m3o-a1-m32-cA_7m3o-a1-m57-cA 7m3o-a1-m32-cA_7m3o-a1-m7-cA 7m3o-a1-m33-cA_7m3o-a1-m5-cA 7m3o-a1-m33-cA_7m3o-a1-m6-cA 7m3o-a1-m34-cA_7m3o-a1-m49-cA 7m3o-a1-m34-cA_7m3o-a1-m4-cA 7m3o-a1-m35-cA_7m3o-a1-m36-cA 7m3o-a1-m35-cA_7m3o-a1-m48-cA 7m3o-a1-m36-cA_7m3o-a1-m48-cA 7m3o-a1-m37-cA_7m3o-a1-m47-cA 7m3o-a1-m39-cA_7m3o-a1-m59-cA 7m3o-a1-m3-cA_7m3o-a1-m41-cA 7m3o-a1-m3-cA_7m3o-a1-m50-cA 7m3o-a1-m40-cA_7m3o-a1-m58-cA 7m3o-a1-m41-cA_7m3o-a1-m50-cA 7m3o-a1-m45-cA_7m3o-a1-m46-cA 7m3o-a1-m4-cA_7m3o-a1-m49-cA 7m3o-a1-m51-cA_7m3o-a1-m60-cA 7m3o-a1-m54-cA_7m3o-a1-m9-cA 7m3o-a1-m55-cA_7m3o-a1-m56-cA 7m3o-a1-m55-cA_7m3o-a1-m8-cA 7m3o-a1-m56-cA_7m3o-a1-m8-cA 7m3o-a1-m57-cA_7m3o-a1-m7-cA 7m3o-a1-m5-cA_7m3o-a1-m6-cA GVGISTGTFNNQTEFKFLENGWVEITANSSRLVHLNMPESENYKRVVVNNMDKTAVKGNMALDDIHVEIVTPWSLVDANAWGVWFNPGDWQLIVNTMSELHLVSFEQEIFNVVLKTVSESATQPPTKVYNNDLTASLMVALDSNNTMPFTPAAMRSETLGFYPWKPTIPTPWRYYFQWDRTLIPSHTGTSGTPTNVYHGTDPDDVQFYTIENSVPVHLLRTGDEFATGTFFFDCKPCRLTHTWQTNRALGLPPFLNSLPQSEGATNFGDIGVQQDKRRGVTQMGNTDYITEATIMRPAEVGYSAPYYSFEASTQGPFKTPIAAGDPRYAFGRQHGQKTTTTGETPERFTYIAHQDTGRYPEGDWIQNINFNLPVTNDNVLLPTDPIGGKTGINYTNIFNTYGPLTALNNVPPVYPNGQIWDKEFDTDLKPRLHINAPFVCQNNCPGQLFVKVAPNLTNQYDPDASANMSRIVTYSDFWWKGKLVFKAKLRASHTWNPIQQMSINVDNQFNYVPNNIGAMKIVYEKSQLAPRKLY 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1c8d-a1-m46-cA_1c8d-a1-m50-cA 1c8d-a1-m47-cA_1c8d-a1-m48-cA 1c8d-a1-m48-cA_1c8d-a1-m49-cA 1c8d-a1-m49-cA_1c8d-a1-m50-cA 1c8d-a1-m4-cA_1c8d-a1-m5-cA 1c8d-a1-m51-cA_1c8d-a1-m52-cA 1c8d-a1-m51-cA_1c8d-a1-m55-cA 1c8d-a1-m52-cA_1c8d-a1-m53-cA 1c8d-a1-m53-cA_1c8d-a1-m54-cA 1c8d-a1-m54-cA_1c8d-a1-m55-cA 1c8d-a1-m56-cA_1c8d-a1-m57-cA 1c8d-a1-m56-cA_1c8d-a1-m60-cA 1c8d-a1-m57-cA_1c8d-a1-m58-cA 1c8d-a1-m58-cA_1c8d-a1-m59-cA 1c8d-a1-m59-cA_1c8d-a1-m60-cA 1c8d-a1-m6-cA_1c8d-a1-m7-cA 1c8d-a1-m7-cA_1c8d-a1-m8-cA 1c8d-a1-m8-cA_1c8d-a1-m9-cA 1c8e-a1-m10-cA_1c8e-a1-m6-cA 1c8e-a1-m10-cA_1c8e-a1-m9-cA 1c8e-a1-m11-cA_1c8e-a1-m12-cA 1c8e-a1-m11-cA_1c8e-a1-m15-cA 1c8e-a1-m12-cA_1c8e-a1-m13-cA 1c8e-a1-m13-cA_1c8e-a1-m14-cA 1c8e-a1-m14-cA_1c8e-a1-m15-cA 1c8e-a1-m16-cA_1c8e-a1-m17-cA 1c8e-a1-m16-cA_1c8e-a1-m20-cA 1c8e-a1-m17-cA_1c8e-a1-m18-cA 1c8e-a1-m18-cA_1c8e-a1-m19-cA 1c8e-a1-m19-cA_1c8e-a1-m20-cA 1c8e-a1-m1-cA_1c8e-a1-m2-cA 1c8e-a1-m1-cA_1c8e-a1-m5-cA 1c8e-a1-m21-cA_1c8e-a1-m22-cA 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7m3o-a1-m3-cA_7m3o-a1-m42-cA 7m3o-a1-m40-cA_7m3o-a1-m59-cA 7m3o-a1-m41-cA_7m3o-a1-m46-cA 7m3o-a1-m4-cA_7m3o-a1-m50-cA 7m3o-a1-m51-cA_7m3o-a1-m56-cA 7m3o-a1-m55-cA_7m3o-a1-m9-cA 7m3o-a1-m57-cA_7m3o-a1-m8-cA GVGISTGTFNNQTEFKFLENGWVEITANSSRLVHLNMPESENYKRVVVNNMDKTAVKGNMALDDIHVEIVTPWSLVDANAWGVWFNPGDWQLIVNTMSELHLVSFEQEIFNVVLKTVSESATQPPTKVYNNDLTASLMVALDSNNTMPFTPAAMRSETLGFYPWKPTIPTPWRYYFQWDRTLIPSHTGTSGTPTNVYHGTDPDDVQFYTIENSVPVHLLRTGDEFATGTFFFDCKPCRLTHTWQTNRALGLPPFLNSLPQSEGATNFGDIGVQQDKRRGVTQMGNTDYITEATIMRPAEVGYSAPYYSFEASTQGPFKTPIAAGRGGAQTDENQAADGDPRYAFGRQHGQKTTTTGETPERFTYIAHQDTGRYPEGDWIQNINFNLPVTNDNVLLPTDPIGGKTGINYTNIFNTYGPLTALNNVPPVYPNGQIWDKEFDTDLKPRLHINAPFVCQNNCPGQLFVKVAPNLTNQYDPDASANMSRIVTYSDFWWKGKLVFKAKLRASHTWNPIQQMSINVDNQFNYVPNNIGAMKIVYEKSQLAPRKLY GVGISTGTFNNQTEFKFLENGWVEITANSSRLVHLNMPESENYKRVVVNNMDKTAVKGNMALDDIHVEIVTPWSLVDANAWGVWFNPGDWQLIVNTMSELHLVSFEQEIFNVVLKTVSESATQPPTKVYNNDLTASLMVALDSNNTMPFTPAAMRSETLGFYPWKPTIPTPWRYYFQWDRTLIPSHTGTSGTPTNVYHGTDPDDVQFYTIENSVPVHLLRTGDEFATGTFFFDCKPCRLTHTWQTNRALGLPPFLNSLPQSEGATNFGDIGVQQDKRRGVTQMGNTDYITEATIMRPAEVGYSAPYYSFEASTQGPFKTPIAAGRGGAQTDENQAADGDPRYAFGRQHGQKTTTTGETPERFTYIAHQDTGRYPEGDWIQNINFNLPVTNDNVLLPTDPIGGKTGINYTNIFNTYGPLTALNNVPPVYPNGQIWDKEFDTDLKPRLHINAPFVCQNNCPGQLFVKVAPNLTNQYDPDASANMSRIVTYSDFWWKGKLVFKAKLRASHTWNPIQQMSINVDNQFNYVPNNIGAMKIVYEKSQLAPRKLY 1c8u-a1-m1-cA_1c8u-a1-m1-cB CRYSTAL STRUCTURE OF THE E.COLI THIOESTERASE II, A HOMOLOGUE OF THE HUMAN NEF-BINDING ENZYME P0AGG2 P0AGG2 1.9 X-RAY DIFFRACTION 177 1.0 562 (Escherichia coli) 562 (Escherichia coli) 285 285 SQALKNLLTLLNLEKIEEGLFRGQSEDLGLRQVFGGQVVGQALYAAKETVPEERLVHSFHSYFLRPGDSKKPIIYDVETLRDGNSFSARRVAAIQNGKPIFYMTASFQAPEAGFEHQKTMPSAPAPDGLPSETQIAQSLAHLLPPVLKDKFICDRPLEVRPVEFHNPLKGHVAEPHRQVWIRANGSVPDDLRVHQYLLGYASDLNFLPVALQPHGIGFLEPGIQIATIDHSMWFHRPFNLNEWLLYSVESTSASSARGFVRGEFYTQDGVLVASTVQEGVMRNHN SQALKNLLTLLNLEKIEEGLFRGQSEDLGLRQVFGGQVVGQALYAAKETVPEERLVHSFHSYFLRPGDSKKPIIYDVETLRDGNSFSARRVAAIQNGKPIFYMTASFQAPEAGFEHQKTMPSAPAPDGLPSETQIAQSLAHLLPPVLKDKFICDRPLEVRPVEFHNPLKGHVAEPHRQVWIRANGSVPDDLRVHQYLLGYASDLNFLPVALQPHGIGFLEPGIQIATIDHSMWFHRPFNLNEWLLYSVESTSASSARGFVRGEFYTQDGVLVASTVQEGVMRNHN 1c94-a2-m2-cA_1c94-a2-m2-cB REVERSING THE SEQUENCE OF THE GCN4 LEUCINE ZIPPER DOES NOT AFFECT ITS FOLD. 2.08 X-RAY DIFFRACTION 47 1.0 37 37 1c94-a1-m1-cA_1c94-a1-m1-cB 1c94-a2-m1-cA_1c94-a2-m1-cB 1c94-a2-m1-cA_1c94-a2-m2-cB 1c94-a2-m1-cB_1c94-a2-m2-cA GGREGVLKKLRAVENELHYNKSLLEEVKDELQKMRQL GGREGVLKKLRAVENELHYNKSLLEEVKDELQKMRQL 1c9o-a1-m1-cA_1c9o-a1-m1-cB CRYSTAL STRUCTURE ANALYSIS OF THE BACILLUS CALDOLYTICUS COLD SHOCK PROTEIN BC-CSP P41016 P41016 1.17 X-RAY DIFFRACTION 32 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 66 66 1hz9-a1-m1-cA_1hz9-a1-m1-cB 1hza-a1-m1-cA_1hza-a1-m1-cB 1hzc-a1-m1-cA_1hzc-a1-m1-cB 1i5f-a1-m1-cA_1i5f-a1-m1-cB MQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGEGFKTLEEGQEVSFEIVQGNRGPQAANVVKL MQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGEGFKTLEEGQEVSFEIVQGNRGPQAANVVKL 1ca1-a2-m1-cA_1ca1-a2-m2-cA ALPHA-TOXIN FROM CLOSTRIDIUM PERFRINGENS P0C216 P0C216 1.9 X-RAY DIFFRACTION 84 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 370 370 WDGKIDGTGTHAMIVTQGVSILENDLSKNEPESVRKNLEILKENMHELQLGSTYPDYDKNAYDLYQDHFWDPDTDNNFSKDNSWYLAYSIPDTGESQIRKFSALARYEWQRGNYKQATFYLGEAMHYFGDIDTPYHPANVTAVDSAGHVKFETFAEERKEQYKINTVGCKTNEDFYADILKNKDFNAWSKEYARGFAKTGKSIYYSHASMSHSWDDWDYAAKVTLANSQKGTAGYIYRFLHDVSEGNDPSVGKNVKELVAYISTSGEKDAGTDDYMYFGIKTKDGKTQEWEMDNPGNDFMTGSKDTYTFKLKDENLKIDDIQNMWIRKRKYTAFPDAYKPENIKVIANGKVVVDKDINEWISGNSTYNIK WDGKIDGTGTHAMIVTQGVSILENDLSKNEPESVRKNLEILKENMHELQLGSTYPDYDKNAYDLYQDHFWDPDTDNNFSKDNSWYLAYSIPDTGESQIRKFSALARYEWQRGNYKQATFYLGEAMHYFGDIDTPYHPANVTAVDSAGHVKFETFAEERKEQYKINTVGCKTNEDFYADILKNKDFNAWSKEYARGFAKTGKSIYYSHASMSHSWDDWDYAAKVTLANSQKGTAGYIYRFLHDVSEGNDPSVGKNVKELVAYISTSGEKDAGTDDYMYFGIKTKDGKTQEWEMDNPGNDFMTGSKDTYTFKLKDENLKIDDIQNMWIRKRKYTAFPDAYKPENIKVIANGKVVVDKDINEWISGNSTYNIK 1ca1-a3-m1-cA_1ca1-a3-m3-cA ALPHA-TOXIN FROM CLOSTRIDIUM PERFRINGENS P0C216 P0C216 1.9 X-RAY DIFFRACTION 14 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 370 370 WDGKIDGTGTHAMIVTQGVSILENDLSKNEPESVRKNLEILKENMHELQLGSTYPDYDKNAYDLYQDHFWDPDTDNNFSKDNSWYLAYSIPDTGESQIRKFSALARYEWQRGNYKQATFYLGEAMHYFGDIDTPYHPANVTAVDSAGHVKFETFAEERKEQYKINTVGCKTNEDFYADILKNKDFNAWSKEYARGFAKTGKSIYYSHASMSHSWDDWDYAAKVTLANSQKGTAGYIYRFLHDVSEGNDPSVGKNVKELVAYISTSGEKDAGTDDYMYFGIKTKDGKTQEWEMDNPGNDFMTGSKDTYTFKLKDENLKIDDIQNMWIRKRKYTAFPDAYKPENIKVIANGKVVVDKDINEWISGNSTYNIK WDGKIDGTGTHAMIVTQGVSILENDLSKNEPESVRKNLEILKENMHELQLGSTYPDYDKNAYDLYQDHFWDPDTDNNFSKDNSWYLAYSIPDTGESQIRKFSALARYEWQRGNYKQATFYLGEAMHYFGDIDTPYHPANVTAVDSAGHVKFETFAEERKEQYKINTVGCKTNEDFYADILKNKDFNAWSKEYARGFAKTGKSIYYSHASMSHSWDDWDYAAKVTLANSQKGTAGYIYRFLHDVSEGNDPSVGKNVKELVAYISTSGEKDAGTDDYMYFGIKTKDGKTQEWEMDNPGNDFMTGSKDTYTFKLKDENLKIDDIQNMWIRKRKYTAFPDAYKPENIKVIANGKVVVDKDINEWISGNSTYNIK 1cag-a1-m1-cA_1cag-a1-m1-cC CRYSTAL AND MOLECULAR STRUCTURE OF A COLLAGEN-LIKE PEPTIDE AT 1.9 ANGSTROM RESOLUTION 1.85 X-RAY DIFFRACTION 40 1.0 19 19 1cag-a1-m1-cA_1cag-a1-m1-cB PGPGPGPGPAPGPGPGPGP PGPGPGPGPAPGPGPGPGP 1cag-a1-m1-cC_1cag-a1-m1-cB CRYSTAL AND MOLECULAR STRUCTURE OF A COLLAGEN-LIKE PEPTIDE AT 1.9 ANGSTROM RESOLUTION 1.85 X-RAY DIFFRACTION 42 1.0 19 20 1cgd-a1-m1-cA_1cgd-a1-m1-cB 1cgd-a1-m1-cA_1cgd-a1-m1-cC 1cgd-a1-m1-cB_1cgd-a1-m1-cC PGPGPGPGPAPGPGPGPGP PGPGPGPGPAPGPGPGPGPG 1cbf-a1-m1-cA_1cbf-a1-m2-cA THE X-RAY STRUCTURE OF A COBALAMIN BIOSYNTHETIC ENZYME, COBALT PRECORRIN-4 METHYLTRANSFERASE, CBIF O87696 O87696 2.4 X-RAY DIFFRACTION 189 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 239 239 2cbf-a1-m1-cA_2cbf-a1-m2-cA GLVPRGSHMKLYIIGAGPGDPDLITVKGLKLLQQADVVLYADSLVSQDLIAKSKPGAEVLKTAGMHLEEMVGTMLDRMREGKMVVRVHTGDPAMYGAIMEQMVLLKREGVDIEIVPGVTSVFAAAAAAEAELTIPDLTQTVILTRAEGRTPVPEFEKLTDLAKHKCTIALFLSSTLTKKVMKEFINAGWSEDTPVVVVYKATWPDEKIVRTTVKDLDDAMRTNGIRKQAMILAGWALDP GLVPRGSHMKLYIIGAGPGDPDLITVKGLKLLQQADVVLYADSLVSQDLIAKSKPGAEVLKTAGMHLEEMVGTMLDRMREGKMVVRVHTGDPAMYGAIMEQMVLLKREGVDIEIVPGVTSVFAAAAAAEAELTIPDLTQTVILTRAEGRTPVPEFEKLTDLAKHKCTIALFLSSTLTKKVMKEFINAGWSEDTPVVVVYKATWPDEKIVRTTVKDLDDAMRTNGIRKQAMILAGWALDP 1cbg-a1-m1-cA_1cbg-a1-m2-cA THE CRYSTAL STRUCTURE OF A CYANOGENIC BETA-GLUCOSIDASE FROM WHITE CLOVER (TRIFOLIUM REPENS L.), A FAMILY 1 GLYCOSYL-HYDROLASE P26205 P26205 2.15 X-RAY DIFFRACTION 69 1.0 3899 (Trifolium repens) 3899 (Trifolium repens) 490 490 FKPLPISFDDFSDLNRSCFAPGFVFGTASSAFQYEGAAFEDGKGPSIWDTFTHKYPEKIKDRTNGDVAIDEYHRYKEDIGIMKDMNLDAYRFSISWPRVLPKGKLSGGVNREGINYYNNLINEVLANGMQPYVTLFHWDVPQALEDEYRGFLGRNIVDDFRDYAELCFKEFGDRVKHWITLNEPWGVSMNAYAYGTFAPGRCSDWLKLNCTGGDSGREPYLAAHYQLLAHAAAARLYKTKYQASQNGIIGITLVSHWFEPASKEKADVDAAKRGLDFMLGWFMHPLTKGRYPESMRYLVRKRLPKFSTEESKELTGSFDFLGLNYYSSYYAAKAPRIPNARPAIQTDSLINATFEHNGKPLGPMAASSWLCIYPQGIRKLLLYVKNHYNNPVIYITENGRNEFNDPTLSLQESLLDTPRIDYYYRHLYYVLTAIGDGVNVKGYFAWSLFDNMEWDSGYTVRFGLVFVDFKNNLKRHPKLSAHWFKSFLKK FKPLPISFDDFSDLNRSCFAPGFVFGTASSAFQYEGAAFEDGKGPSIWDTFTHKYPEKIKDRTNGDVAIDEYHRYKEDIGIMKDMNLDAYRFSISWPRVLPKGKLSGGVNREGINYYNNLINEVLANGMQPYVTLFHWDVPQALEDEYRGFLGRNIVDDFRDYAELCFKEFGDRVKHWITLNEPWGVSMNAYAYGTFAPGRCSDWLKLNCTGGDSGREPYLAAHYQLLAHAAAARLYKTKYQASQNGIIGITLVSHWFEPASKEKADVDAAKRGLDFMLGWFMHPLTKGRYPESMRYLVRKRLPKFSTEESKELTGSFDFLGLNYYSSYYAAKAPRIPNARPAIQTDSLINATFEHNGKPLGPMAASSWLCIYPQGIRKLLLYVKNHYNNPVIYITENGRNEFNDPTLSLQESLLDTPRIDYYYRHLYYVLTAIGDGVNVKGYFAWSLFDNMEWDSGYTVRFGLVFVDFKNNLKRHPKLSAHWFKSFLKK 1cbk-a1-m1-cA_1cbk-a1-m1-cB 7,8-DIHYDRO-6-HYDROXYMETHYLPTERIN-PYROPHOSPHOKINASE FROM HAEMOPHILUS INFLUENZAE P43777 P43777 2.02 X-RAY DIFFRACTION 39 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 160 160 MITAYIALGSNLNTPVEQLHAALKAISQLSNTHLVTTSSFYKSKPLGPQDQPDYVNAVAKIETELSPLKLLDELQRIENEQGRVRLRRWGERTLDLDILLYGNEIIQNERLTIPHYDMHNREFVIVPLFEIASDLVLPNSQIITELVKQFADHKMIKLNP MITAYIALGSNLNTPVEQLHAALKAISQLSNTHLVTTSSFYKSKPLGPQDQPDYVNAVAKIETELSPLKLLDELQRIENEQGRVRLRRWGERTLDLDILLYGNEIIQNERLTIPHYDMHNREFVIVPLFEIASDLVLPNSQIITELVKQFADHKMIKLNP 1cbm-a1-m1-cA_1cbm-a1-m1-cD THE 1.8 ANGSTROM STRUCTURE OF CARBONMONOXY-BETA4 HEMOGLOBIN: ANALYSIS OF A HOMOTETRAMER WITH THE R QUATERNARY STRUCTURE OF LIGANDED ALPHA2BETA2 HEMOGLOBIN P68871 P68871 1.74 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1cbl-a1-m1-cA_1cbl-a1-m1-cD 1cbl-a1-m1-cB_1cbl-a1-m1-cC 1cbm-a1-m1-cB_1cbm-a1-m1-cC 6fqf-a1-m1-cA_6fqf-a1-m1-cD 6fqf-a1-m1-cB_6fqf-a1-m1-cC VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 1cbm-a1-m1-cB_1cbm-a1-m1-cD THE 1.8 ANGSTROM STRUCTURE OF CARBONMONOXY-BETA4 HEMOGLOBIN: ANALYSIS OF A HOMOTETRAMER WITH THE R QUATERNARY STRUCTURE OF LIGANDED ALPHA2BETA2 HEMOGLOBIN P68871 P68871 1.74 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1cbl-a1-m1-cA_1cbl-a1-m1-cC 1cbl-a1-m1-cB_1cbl-a1-m1-cD 1cbm-a1-m1-cA_1cbm-a1-m1-cC 6fqf-a1-m1-cA_6fqf-a1-m1-cC 6fqf-a1-m1-cB_6fqf-a1-m1-cD VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 1cbu-a1-m1-cA_1cbu-a1-m1-cB ADENOSYLCOBINAMIDE KINASE/ADENOSYLCOBINAMIDE PHOSPHATE GUANYLYLTRANSFERASE (COBU) FROM SALMONELLA TYPHIMURIUM Q05599 Q05599 2.3 X-RAY DIFFRACTION 70 1.0 180 180 1c9k-a1-m1-cA_1c9k-a1-m1-cB 1c9k-a1-m1-cC_1c9k-a1-m1-cA 1c9k-a1-m1-cC_1c9k-a1-m1-cB 1cbu-a1-m1-cC_1cbu-a1-m1-cA 1cbu-a1-m1-cC_1cbu-a1-m1-cB MILVTGGARSGKSRHAEALIGDAPQVLYIATSQILDDEMAARIQHHKDGRPAHWRTAECWRHLDTLITADLAPDDAILLECITTMVTNLLFALGGENDPEQWDYAAMERAIDDEIQILIAACQRCPAKVVLVTNEVGMGIVPENRLARHFRDIAGRVNQRLAAAADEVWLVVSGIGVKIK MILVTGGARSGKSRHAEALIGDAPQVLYIATSQILDDEMAARIQHHKDGRPAHWRTAECWRHLDTLITADLAPDDAILLECITTMVTNLLFALGGENDPEQWDYAAMERAIDDEIQILIAACQRCPAKVVLVTNEVGMGIVPENRLARHFRDIAGRVNQRLAAAADEVWLVVSGIGVKIK 1cby-a1-m1-cA_1cby-a1-m2-cA DELTA-ENDOTOXIN Q04470 Q04470 2.6 X-RAY DIFFRACTION 205 1.0 44161 (Bacillus thuringiensis serovar kyushuensis) 44161 (Bacillus thuringiensis serovar kyushuensis) 227 227 CSAPIIRKPFKHIVLTVPSSDLDNFNTVFYVQPQYINQALHLANAFQGAIDPLNLNFNFEKALQIANGIPNSAIVKTLNQSVIQQTVEISVMVEQLKKIIQEVLGLVINSTSFWNSVEATIKGTFTNLDTQIDEAWIFWHSLSAHNTSYYYNILFSIQNEDTGAVMAVLPLAFEVSVDVEKQKVLFFTIKDSARYEVKMKALTLVQALHSSNAPIVDIFNVNNYNLY CSAPIIRKPFKHIVLTVPSSDLDNFNTVFYVQPQYINQALHLANAFQGAIDPLNLNFNFEKALQIANGIPNSAIVKTLNQSVIQQTVEISVMVEQLKKIIQEVLGLVINSTSFWNSVEATIKGTFTNLDTQIDEAWIFWHSLSAHNTSYYYNILFSIQNEDTGAVMAVLPLAFEVSVDVEKQKVLFFTIKDSARYEVKMKALTLVQALHSSNAPIVDIFNVNNYNLY 1cc5-a1-m1-cA_1cc5-a1-m2-cA CRYSTAL STRUCTURE OF AZOTOBACTER CYTOCHROME C5 AT 2.5 ANGSTROMS RESOLUTION P11732 P11732 2.5 X-RAY DIFFRACTION 29 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 83 83 GGGARSGDDVVAKYCNACHGTGLLNAPKVGDSAAWKTRADAKGGLDGLLAQSLSGLNAMPPKGTCADCSDDELKAAIGKMSGL GGGARSGDDVVAKYCNACHGTGLLNAPKVGDSAAWKTRADAKGGLDGLLAQSLSGLNAMPPKGTCADCSDDELKAAIGKMSGL 1ccd-a1-m1-cA_1ccd-a1-m2-cA REFINED STRUCTURE OF RAT CLARA CELL 17 KDA PROTEIN AT 3.0 ANGSTROMS RESOLUTION P17559 P17559 3 X-RAY DIFFRACTION 98 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 77 77 1utr-a1-m1-cA_1utr-a1-m1-cB SSDICPGFLQVLEALLLGSESNYEAALKPFNPASDLQNAGTQLKRLVDTLPQETRINIVKLTEKILTSPLCEQDLRV SSDICPGFLQVLEALLLGSESNYEAALKPFNPASDLQNAGTQLKRLVDTLPQETRINIVKLTEKILTSPLCEQDLRV 1ccw-a1-m1-cB_1ccw-a1-m1-cD STRUCTURE OF THE COENZYME B12 DEPENDENT ENZYME GLUTAMATE MUTASE FROM CLOSTRIDIUM COCHLEARIUM P80077 P80077 1.6 X-RAY DIFFRACTION 133 1.0 1494 (Clostridium cochlearium) 1494 (Clostridium cochlearium) 483 483 1cb7-a1-m1-cB_1cb7-a1-m1-cD 1i9c-a1-m1-cB_1i9c-a1-m1-cD 6h9e-a1-m1-cB_6h9e-a1-m1-cD 6h9f-a1-m1-cB_6h9f-a1-m1-cD MELKNKKWTDEEFHKQREEVLQQWPTGKEVDLQEAVDYLKKIPAEKNFAEKLVLAKKKGITMAQPRAGVALLDEHIELLRYLQDEGGADFLPSTIDAYTRQNRYDECENGIKESEKAGRSLLNGFPGVNFGVKGCRKVLEAVNLPLQARHGTPDSRLLAEIIHAGGWTSNEGGGISYNVPYAKNVTIEKSLLDWQYCDRLVGFYEEQGVHINREPFGPLTGTLVPPSMSNAVGITEALLAAEQGVKNITVGYGECGNMIQDIAALRCLEEQTNEYLKAYGYNDVFVTTVFHQWMGGFPQDESKAFGVIVTATTIAALAGATKVIVKTPHEAIGIPTKEANAAGIKATKMALNMLEGQRMPMSKELETEMAVIKAETKCILDKMFELGKGDLAIGTVKAFETGVMDIPFGPSKYNAGKMMPVRDNLGCVRYLEFGNVPFTEEIKNYNRERLQERAKFEGRDVSFQMVIDDIFAVGKGRLIGRPE MELKNKKWTDEEFHKQREEVLQQWPTGKEVDLQEAVDYLKKIPAEKNFAEKLVLAKKKGITMAQPRAGVALLDEHIELLRYLQDEGGADFLPSTIDAYTRQNRYDECENGIKESEKAGRSLLNGFPGVNFGVKGCRKVLEAVNLPLQARHGTPDSRLLAEIIHAGGWTSNEGGGISYNVPYAKNVTIEKSLLDWQYCDRLVGFYEEQGVHINREPFGPLTGTLVPPSMSNAVGITEALLAAEQGVKNITVGYGECGNMIQDIAALRCLEEQTNEYLKAYGYNDVFVTTVFHQWMGGFPQDESKAFGVIVTATTIAALAGATKVIVKTPHEAIGIPTKEANAAGIKATKMALNMLEGQRMPMSKELETEMAVIKAETKCILDKMFELGKGDLAIGTVKAFETGVMDIPFGPSKYNAGKMMPVRDNLGCVRYLEFGNVPFTEEIKNYNRERLQERAKFEGRDVSFQMVIDDIFAVGKGRLIGRPE 1cdd-a2-m1-cA_1cdd-a2-m2-cB STRUCTURES OF APO AND COMPLEXED ESCHERICHIA COLI GLYCINAMIDE RIBONUCLEOTIDE TRANSFORMYLASE P08179 P08179 2.8 X-RAY DIFFRACTION 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 189 189 MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYAADE MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYAADE 1cdh-a1-m1-cA_1cdh-a1-m2-cA STRUCTURES OF AN HIV AND MHC BINDING FRAGMENT FROM HUMAN CD4 AS REFINED IN TWO CRYSTAL LATTICES P01730 P01730 2.3 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 178 1cdi-a1-m1-cA_1cdi-a1-m2-cA 3cd4-a1-m1-cA_3cd4-a1-m2-cA KKVVLGKKGDTVELTCTASQKKSIQFHWKNSNQIKILGNQGSFLTKGPSKLNDRADSRRSLWDQGNFPLIIKNLKIEDSDTYICEVEDQKEEVQLLVFGLTANSDTHLLQGQSLTLTLESPPGSSPSVQCRSPRGKNIQGGKTLSVSQLELQDSGTWTCTVLQNQKKVEFKIDIVVLA KKVVLGKKGDTVELTCTASQKKSIQFHWKNSNQIKILGNQGSFLTKGPSKLNDRADSRRSLWDQGNFPLIIKNLKIEDSDTYICEVEDQKEEVQLLVFGLTANSDTHLLQGQSLTLTLESPPGSSPSVQCRSPRGKNIQGGKTLSVSQLELQDSGTWTCTVLQNQKKVEFKIDIVVLA 1cdo-a1-m1-cA_1cdo-a1-m1-cB ALCOHOL DEHYDROGENASE (E.C.1.1.1.1) (EE ISOZYME) COMPLEXED WITH NICOTINAMIDE ADENINE DINUCLEOTIDE (NAD), AND ZINC P26325 P26325 2.05 X-RAY DIFFRACTION 108 1.0 8053 (Gadus morhua callarias) 8053 (Gadus morhua callarias) 374 374 ATVGKVIKCKAAVAWEANKPLVIEEIEVDVPHANEIRIKIIATGVCHTDLYHLFEGKHKDGFPVVLGHEGAGIVESVGPGVTEFQPGEKVIPLFISQCGECRFCQSPKTNQCVKGWANESPDVMSPKETRFTCKGRKVLQFLGTSTFSQYTVVNQIAVAKIDPSAPLDTVCLLGCGVSTGFGAAVNTAKVEPGSTCAVFGLGAVGLAAVMGCHSAGAKRIIAVDLNPDKFEKAKVFGATDFVNPNDHSEPISQVLSKMTNGGVDFSLECVGNVGVMRNALESCLKGWGVSVLVGWTDLHDVATRPIQLIAGRTWKGSMFGGFKGKDGVPKMVKAYLDKKVKLDEFITHRMPLESVNDAIDLMKHGKCIRTVLSL ATVGKVIKCKAAVAWEANKPLVIEEIEVDVPHANEIRIKIIATGVCHTDLYHLFEGKHKDGFPVVLGHEGAGIVESVGPGVTEFQPGEKVIPLFISQCGECRFCQSPKTNQCVKGWANESPDVMSPKETRFTCKGRKVLQFLGTSTFSQYTVVNQIAVAKIDPSAPLDTVCLLGCGVSTGFGAAVNTAKVEPGSTCAVFGLGAVGLAAVMGCHSAGAKRIIAVDLNPDKFEKAKVFGATDFVNPNDHSEPISQVLSKMTNGGVDFSLECVGNVGVMRNALESCLKGWGVSVLVGWTDLHDVATRPIQLIAGRTWKGSMFGGFKGKDGVPKMVKAYLDKKVKLDEFITHRMPLESVNDAIDLMKHGKCIRTVLSL 1cdt-a1-m1-cA_1cdt-a1-m1-cB CARDIOTOXIN V4/II FROM NAJA MOSSAMBICA MOSSAMBICA: THE REFINED CRYSTAL STRUCTURE P01452 P01452 2.5 X-RAY DIFFRACTION 47 1.0 8644 (Naja mossambica) 8644 (Naja mossambica) 60 60 LKCNKLIPIAYKTCPEGKNLCYKMMLASKKMVPVKRGCINVCPKNSALVKYVCCSTDRCN LKCNKLIPIAYKTCPEGKNLCYKMMLASKKMVPVKRGCINVCPKNSALVKYVCCSTDRCN 1ce0-a1-m1-cA_1ce0-a1-m1-cC TRIMERIZATION SPECIFICITY IN HIV-1 GP41: ANALYSIS WITH A GCN4 LEUCINE ZIPPER MODEL 2.4 X-RAY DIFFRACTION 33 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 35 35 1ce0-a1-m1-cA_1ce0-a1-m1-cB 1ce0-a1-m1-cC_1ce0-a1-m1-cB RLLQRIKQQEDKLEETLSKIYHLENEIARVKKLLG RLLQRIKQQEDKLEETLSKIYHLENEIARVKKLLG 1ce9-a1-m1-cB_1ce9-a1-m1-cD HELIX CAPPING IN THE GCN4 LEUCINE ZIPPER P03069 P03069 1.8 X-RAY DIFFRACTION 21 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 34 34 MSVKELEDKVEELLSKNYHLENEVARLKKLVGER MSVKELEDKVEELLSKNYHLENEVARLKKLVGER 1ce9-a3-m1-cA_1ce9-a3-m1-cB HELIX CAPPING IN THE GCN4 LEUCINE ZIPPER P03069 P03069 1.8 X-RAY DIFFRACTION 46 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 34 34 1ce9-a1-m1-cA_1ce9-a1-m1-cB 1ce9-a1-m1-cC_1ce9-a1-m1-cD 1ce9-a2-m1-cC_1ce9-a2-m1-cD 1zik-a1-m1-cA_1zik-a1-m1-cB 1zil-a1-m1-cA_1zil-a1-m1-cB 2zta-a1-m1-cA_2zta-a1-m1-cB 4dmd-a1-m1-cA_4dmd-a1-m1-cB 4hu5-a1-m1-cB_4hu5-a1-m1-cA 4hu6-a1-m1-cB_4hu6-a1-m1-cA 4hu6-a2-m1-cC_4hu6-a2-m1-cD 4nj0-a1-m1-cA_4nj0-a1-m1-cB 4nj1-a1-m1-cA_4nj1-a1-m1-cB 5iir-a1-m1-cA_5iir-a1-m1-cB 5iiv-a1-m1-cA_5iiv-a1-m1-cB 6o2e-a1-m1-cA_6o2e-a1-m2-cA MSVKELEDKVEELLSKNYHLENEVARLKKLVGER MSVKELEDKVEELLSKNYHLENEVARLKKLVGER 1cf1-a5-m1-cB_1cf1-a5-m2-cD ARRESTIN FROM BOVINE ROD OUTER SEGMENTS P08168 P08168 2.8 X-RAY DIFFRACTION 74 0.997 9913 (Bos taurus) 9913 (Bos taurus) 360 368 NHVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDVEEDKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLGELTSSEVATEVPFRLMHPQPEDDENFVFEEFARQNL NHVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQEDIDVMGLSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDVEEDKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLGELTSSEVATEVPFRLMHPQPEDENFVFEEFARQNLK 1cf2-a1-m1-cO_1cf2-a1-m1-cR THREE-DIMENSIONAL STRUCTURE OF D-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM THE HYPERTHERMOPHILIC ARCHAEON METHANOTHERMUS FERVIDUS P10618 P10618 2.1 X-RAY DIFFRACTION 45 1.0 2180 (Methanothermus fervidus) 2180 (Methanothermus fervidus) 336 336 1cf2-a1-m1-cP_1cf2-a1-m1-cQ MKAVAINGYGTVGKRVADAIAQQDDMKVIGVSKTRPDFEARMALKKGYDLYVAIPERVKLFEKAGIEVAGTVDDMLDEADIVIDCTPEGIGAKNLKMYKEKGIKAIFQGGEKHEDIGLSFNSLSNYEESYGKDYTRVVSCNTTGLCRTLKPLHDSFGIKKVRAVIVRRGADPAQVSKGPINAIIPNPPKLPSHHGPDVKTVLDINIDTMAVIVPTTLMHQHNVMVEVEETPTVDDIIDVFEDTPRVILISAEDGLTSTAEIMEYAKELGRSRNDLFEIPVWRESITVVDNEIYYMQAVHQESDIVPENVDAVRAILEMEEDKYKSINKTNKAMNIL MKAVAINGYGTVGKRVADAIAQQDDMKVIGVSKTRPDFEARMALKKGYDLYVAIPERVKLFEKAGIEVAGTVDDMLDEADIVIDCTPEGIGAKNLKMYKEKGIKAIFQGGEKHEDIGLSFNSLSNYEESYGKDYTRVVSCNTTGLCRTLKPLHDSFGIKKVRAVIVRRGADPAQVSKGPINAIIPNPPKLPSHHGPDVKTVLDINIDTMAVIVPTTLMHQHNVMVEVEETPTVDDIIDVFEDTPRVILISAEDGLTSTAEIMEYAKELGRSRNDLFEIPVWRESITVVDNEIYYMQAVHQESDIVPENVDAVRAILEMEEDKYKSINKTNKAMNIL 1cf2-a1-m1-cP_1cf2-a1-m1-cR THREE-DIMENSIONAL STRUCTURE OF D-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM THE HYPERTHERMOPHILIC ARCHAEON METHANOTHERMUS FERVIDUS P10618 P10618 2.1 X-RAY DIFFRACTION 70 1.0 2180 (Methanothermus fervidus) 2180 (Methanothermus fervidus) 336 336 1cf2-a1-m1-cO_1cf2-a1-m1-cQ MKAVAINGYGTVGKRVADAIAQQDDMKVIGVSKTRPDFEARMALKKGYDLYVAIPERVKLFEKAGIEVAGTVDDMLDEADIVIDCTPEGIGAKNLKMYKEKGIKAIFQGGEKHEDIGLSFNSLSNYEESYGKDYTRVVSCNTTGLCRTLKPLHDSFGIKKVRAVIVRRGADPAQVSKGPINAIIPNPPKLPSHHGPDVKTVLDINIDTMAVIVPTTLMHQHNVMVEVEETPTVDDIIDVFEDTPRVILISAEDGLTSTAEIMEYAKELGRSRNDLFEIPVWRESITVVDNEIYYMQAVHQESDIVPENVDAVRAILEMEEDKYKSINKTNKAMNIL MKAVAINGYGTVGKRVADAIAQQDDMKVIGVSKTRPDFEARMALKKGYDLYVAIPERVKLFEKAGIEVAGTVDDMLDEADIVIDCTPEGIGAKNLKMYKEKGIKAIFQGGEKHEDIGLSFNSLSNYEESYGKDYTRVVSCNTTGLCRTLKPLHDSFGIKKVRAVIVRRGADPAQVSKGPINAIIPNPPKLPSHHGPDVKTVLDINIDTMAVIVPTTLMHQHNVMVEVEETPTVDDIIDVFEDTPRVILISAEDGLTSTAEIMEYAKELGRSRNDLFEIPVWRESITVVDNEIYYMQAVHQESDIVPENVDAVRAILEMEEDKYKSINKTNKAMNIL 1cf2-a1-m1-cQ_1cf2-a1-m1-cR THREE-DIMENSIONAL STRUCTURE OF D-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM THE HYPERTHERMOPHILIC ARCHAEON METHANOTHERMUS FERVIDUS P10618 P10618 2.1 X-RAY DIFFRACTION 138 1.0 2180 (Methanothermus fervidus) 2180 (Methanothermus fervidus) 336 336 1cf2-a1-m1-cO_1cf2-a1-m1-cP MKAVAINGYGTVGKRVADAIAQQDDMKVIGVSKTRPDFEARMALKKGYDLYVAIPERVKLFEKAGIEVAGTVDDMLDEADIVIDCTPEGIGAKNLKMYKEKGIKAIFQGGEKHEDIGLSFNSLSNYEESYGKDYTRVVSCNTTGLCRTLKPLHDSFGIKKVRAVIVRRGADPAQVSKGPINAIIPNPPKLPSHHGPDVKTVLDINIDTMAVIVPTTLMHQHNVMVEVEETPTVDDIIDVFEDTPRVILISAEDGLTSTAEIMEYAKELGRSRNDLFEIPVWRESITVVDNEIYYMQAVHQESDIVPENVDAVRAILEMEEDKYKSINKTNKAMNIL MKAVAINGYGTVGKRVADAIAQQDDMKVIGVSKTRPDFEARMALKKGYDLYVAIPERVKLFEKAGIEVAGTVDDMLDEADIVIDCTPEGIGAKNLKMYKEKGIKAIFQGGEKHEDIGLSFNSLSNYEESYGKDYTRVVSCNTTGLCRTLKPLHDSFGIKKVRAVIVRRGADPAQVSKGPINAIIPNPPKLPSHHGPDVKTVLDINIDTMAVIVPTTLMHQHNVMVEVEETPTVDDIIDVFEDTPRVILISAEDGLTSTAEIMEYAKELGRSRNDLFEIPVWRESITVVDNEIYYMQAVHQESDIVPENVDAVRAILEMEEDKYKSINKTNKAMNIL 1cf8-a2-m2-cH_1cf8-a2-m1-cH Convergence of catalytic antibody and terpene cyclase mechanisms: polyene cyclization directed by carbocation-pi interactions P01867 P01867 2.7 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 218 218 DVQLQESGPGLVKPSQSLSLTCTVTGYSITSGYAWNWIRQFPGNKLEWMGYIRYSGDTRYNPSLKSRISITRDTSKNQFFLQLNSVTTEDTATYYCAIGYGNSDYWGQGTLVTVSAAKTTPPSVYPLAPGCGDTTGSSVTLGCLVKGYFPESVTVTWNSGSLSSSVHAFPALLQSDLYTMSSSVTVPSSTWPSQTVTCSVAHPASSTTVDKKLEPKDC DVQLQESGPGLVKPSQSLSLTCTVTGYSITSGYAWNWIRQFPGNKLEWMGYIRYSGDTRYNPSLKSRISITRDTSKNQFFLQLNSVTTEDTATYYCAIGYGNSDYWGQGTLVTVSAAKTTPPSVYPLAPGCGDTTGSSVTLGCLVKGYFPESVTVTWNSGSLSSSVHAFPALLQSDLYTMSSSVTVPSSTWPSQTVTCSVAHPASSTTVDKKLEPKDC 1cfb-a2-m2-cA_1cfb-a2-m4-cA CRYSTAL STRUCTURE OF TANDEM TYPE III FIBRONECTIN DOMAINS FROM DROSOPHILA NEUROGLIAN AT 2.0 ANGSTROMS P20241 P20241 2 X-RAY DIFFRACTION 15 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 205 205 1cfb-a2-m1-cA_1cfb-a2-m3-cA 1cfb-a2-m1-cA_1cfb-a2-m4-cA 1cfb-a2-m2-cA_1cfb-a2-m3-cA IVQDVPNAPKLTGITCQADKAEIHWEQQGDNRSPILHYTIQFNTSFTPASWDAAYEKVPNTDSSFVVQMSPWANYTFRVIAFNKIGASPPSAHSDSCTTQPDVPFKNPDNVVGQGTEPNNLVISWTPMPEIEHNAPNFHYYVSWKRDIPAAAWENNNIFDWRQNNIVIADQPTFVKYLIKVVAINDRGESNVAAEEVVGYSGEDR IVQDVPNAPKLTGITCQADKAEIHWEQQGDNRSPILHYTIQFNTSFTPASWDAAYEKVPNTDSSFVVQMSPWANYTFRVIAFNKIGASPPSAHSDSCTTQPDVPFKNPDNVVGQGTEPNNLVISWTPMPEIEHNAPNFHYYVSWKRDIPAAAWENNNIFDWRQNNIVIADQPTFVKYLIKVVAINDRGESNVAAEEVVGYSGEDR 1cfm-a1-m1-cA_1cfm-a1-m1-cB CYTOCHROME F FROM CHLAMYDOMONAS REINHARDTII P23577 P23577 2 X-RAY DIFFRACTION 42 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 251 251 YPVFAQQNYANPREANGRIVCANCHLAQKAVEIEVPQAVLPDTVFEAVIELPYDKQVKQVLANGKKGDLNVGMVLILPEGFELAPPDRVPAEIKEKVGNLYYQPYSPEQKNILVVGPVPGKKYSEMVVPILSPDPAKNKNVSYLKYPIYFGGNRGRGQVYPDGKKSNNTIYNASAAGKIVAITALSEKKGGFEVSIEKANGEVVVDKIPAGPDLIVKEGQTVQADQPLTNNPNVGGFGQAETEIVLQNPAR YPVFAQQNYANPREANGRIVCANCHLAQKAVEIEVPQAVLPDTVFEAVIELPYDKQVKQVLANGKKGDLNVGMVLILPEGFELAPPDRVPAEIKEKVGNLYYQPYSPEQKNILVVGPVPGKKYSEMVVPILSPDPAKNKNVSYLKYPIYFGGNRGRGQVYPDGKKSNNTIYNASAAGKIVAITALSEKKGGFEVSIEKANGEVVVDKIPAGPDLIVKEGQTVQADQPLTNNPNVGGFGQAETEIVLQNPAR 1cfm-a1-m1-cA_1cfm-a1-m1-cC CYTOCHROME F FROM CHLAMYDOMONAS REINHARDTII P23577 P23577 2 X-RAY DIFFRACTION 31 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 251 251 YPVFAQQNYANPREANGRIVCANCHLAQKAVEIEVPQAVLPDTVFEAVIELPYDKQVKQVLANGKKGDLNVGMVLILPEGFELAPPDRVPAEIKEKVGNLYYQPYSPEQKNILVVGPVPGKKYSEMVVPILSPDPAKNKNVSYLKYPIYFGGNRGRGQVYPDGKKSNNTIYNASAAGKIVAITALSEKKGGFEVSIEKANGEVVVDKIPAGPDLIVKEGQTVQADQPLTNNPNVGGFGQAETEIVLQNPAR YPVFAQQNYANPREANGRIVCANCHLAQKAVEIEVPQAVLPDTVFEAVIELPYDKQVKQVLANGKKGDLNVGMVLILPEGFELAPPDRVPAEIKEKVGNLYYQPYSPEQKNILVVGPVPGKKYSEMVVPILSPDPAKNKNVSYLKYPIYFGGNRGRGQVYPDGKKSNNTIYNASAAGKIVAITALSEKKGGFEVSIEKANGEVVVDKIPAGPDLIVKEGQTVQADQPLTNNPNVGGFGQAETEIVLQNPAR 1cfr-a1-m1-cA_1cfr-a1-m4-cA CRYSTAL STRUCTURE OF CITROBACTER FREUNDII RESTRICTION ENDONUCLEASE CFR10I AT 2.15 ANGSTROMS RESOLUTION. P56200 P56200 2.15 X-RAY DIFFRACTION 22 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 283 283 1cfr-a1-m2-cA_1cfr-a1-m3-cA MDIISKSGEGNKYTINSAIAFVAYASHIDINTTEFSKVLSGLRDFINDEAIRLGGKISDGSFNKCNGDWYEWLIGIRAIEFFLESETNFIVVKMPNATSFDVMSIYKSCLSEFIYDLRSKLSLNNVNLITSNPDFSIIDIRGRREELKSMLKDISFSNISLSTISEIDNLYKNFIDYAELEHIKSFLSVKTTFRPDRRLQLAHEGSLMKALYTHLQTRTWTINPTGIRYYAAATSIGNADVIGLKTVATHSITDVKSLPQSAVDEIFKINSVLDVDSCLSHIL MDIISKSGEGNKYTINSAIAFVAYASHIDINTTEFSKVLSGLRDFINDEAIRLGGKISDGSFNKCNGDWYEWLIGIRAIEFFLESETNFIVVKMPNATSFDVMSIYKSCLSEFIYDLRSKLSLNNVNLITSNPDFSIIDIRGRREELKSMLKDISFSNISLSTISEIDNLYKNFIDYAELEHIKSFLSVKTTFRPDRRLQLAHEGSLMKALYTHLQTRTWTINPTGIRYYAAATSIGNADVIGLKTVATHSITDVKSLPQSAVDEIFKINSVLDVDSCLSHIL 1cfr-a1-m2-cA_1cfr-a1-m4-cA CRYSTAL STRUCTURE OF CITROBACTER FREUNDII RESTRICTION ENDONUCLEASE CFR10I AT 2.15 ANGSTROMS RESOLUTION. P56200 P56200 2.15 X-RAY DIFFRACTION 16 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 283 283 1cfr-a1-m1-cA_1cfr-a1-m3-cA MDIISKSGEGNKYTINSAIAFVAYASHIDINTTEFSKVLSGLRDFINDEAIRLGGKISDGSFNKCNGDWYEWLIGIRAIEFFLESETNFIVVKMPNATSFDVMSIYKSCLSEFIYDLRSKLSLNNVNLITSNPDFSIIDIRGRREELKSMLKDISFSNISLSTISEIDNLYKNFIDYAELEHIKSFLSVKTTFRPDRRLQLAHEGSLMKALYTHLQTRTWTINPTGIRYYAAATSIGNADVIGLKTVATHSITDVKSLPQSAVDEIFKINSVLDVDSCLSHIL MDIISKSGEGNKYTINSAIAFVAYASHIDINTTEFSKVLSGLRDFINDEAIRLGGKISDGSFNKCNGDWYEWLIGIRAIEFFLESETNFIVVKMPNATSFDVMSIYKSCLSEFIYDLRSKLSLNNVNLITSNPDFSIIDIRGRREELKSMLKDISFSNISLSTISEIDNLYKNFIDYAELEHIKSFLSVKTTFRPDRRLQLAHEGSLMKALYTHLQTRTWTINPTGIRYYAAATSIGNADVIGLKTVATHSITDVKSLPQSAVDEIFKINSVLDVDSCLSHIL 1cfr-a1-m3-cA_1cfr-a1-m4-cA CRYSTAL STRUCTURE OF CITROBACTER FREUNDII RESTRICTION ENDONUCLEASE CFR10I AT 2.15 ANGSTROMS RESOLUTION. P56200 P56200 2.15 X-RAY DIFFRACTION 102 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 283 283 1cfr-a1-m1-cA_1cfr-a1-m2-cA MDIISKSGEGNKYTINSAIAFVAYASHIDINTTEFSKVLSGLRDFINDEAIRLGGKISDGSFNKCNGDWYEWLIGIRAIEFFLESETNFIVVKMPNATSFDVMSIYKSCLSEFIYDLRSKLSLNNVNLITSNPDFSIIDIRGRREELKSMLKDISFSNISLSTISEIDNLYKNFIDYAELEHIKSFLSVKTTFRPDRRLQLAHEGSLMKALYTHLQTRTWTINPTGIRYYAAATSIGNADVIGLKTVATHSITDVKSLPQSAVDEIFKINSVLDVDSCLSHIL MDIISKSGEGNKYTINSAIAFVAYASHIDINTTEFSKVLSGLRDFINDEAIRLGGKISDGSFNKCNGDWYEWLIGIRAIEFFLESETNFIVVKMPNATSFDVMSIYKSCLSEFIYDLRSKLSLNNVNLITSNPDFSIIDIRGRREELKSMLKDISFSNISLSTISEIDNLYKNFIDYAELEHIKSFLSVKTTFRPDRRLQLAHEGSLMKALYTHLQTRTWTINPTGIRYYAAATSIGNADVIGLKTVATHSITDVKSLPQSAVDEIFKINSVLDVDSCLSHIL 1cg8-a1-m1-cA_1cg8-a1-m2-cA CO Form Hemoglobin from Dasyatis Akajei P56691 P56691 1.9 X-RAY DIFFRACTION 19 1.0 141 141 VLSSQNKKAIEELGNLIKANAEAWGADALARLFELHPQTKTYFSKFSGFEACNEQVKKHGKRVMNALADATHHLDNLHLHLEDLARKHGENLLVDPHNFHLFADCIVVTLAVNLQAFTPVTHCAVDKFLELVAYELSSCYR VLSSQNKKAIEELGNLIKANAEAWGADALARLFELHPQTKTYFSKFSGFEACNEQVKKHGKRVMNALADATHHLDNLHLHLEDLARKHGENLLVDPHNFHLFADCIVVTLAVNLQAFTPVTHCAVDKFLELVAYELSSCYR 1cg8-a1-m1-cB_1cg8-a1-m2-cB CO Form Hemoglobin from Dasyatis Akajei P56692 P56692 1.9 X-RAY DIFFRACTION 11 1.0 141 141 VKLSEDQEHYIKGVWKDVDHKQITAKALERVFVVYPWTTRLFSKLQGLFSANDIGVQQHADKVQRALGEAIDDLKKVEINFQNLSGKHQEIGVDTQNFKLLGQTFMVELALHYKKTFRPKEHAAAYKFFRLVAEALSSNYH VKLSEDQEHYIKGVWKDVDHKQITAKALERVFVVYPWTTRLFSKLQGLFSANDIGVQQHADKVQRALGEAIDDLKKVEINFQNLSGKHQEIGVDTQNFKLLGQTFMVELALHYKKTFRPKEHAAAYKFFRLVAEALSSNYH 1ch4-a1-m1-cA_1ch4-a1-m1-cD MODULE-SUBSTITUTED CHIMERA HEMOGLOBIN BETA-ALPHA (F133V) P68871 P68871 2.5 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1ch4-a1-m1-cB_1ch4-a1-m1-cC VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKVLASVSTVLTSKYR VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKVLASVSTVLTSKYR 1ch4-a1-m1-cB_1ch4-a1-m1-cD MODULE-SUBSTITUTED CHIMERA HEMOGLOBIN BETA-ALPHA (F133V) P68871 P68871 2.5 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1ch4-a1-m1-cA_1ch4-a1-m1-cC VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKVLASVSTVLTSKYR VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKVLASVSTVLTSKYR 1ch4-a1-m1-cC_1ch4-a1-m1-cD MODULE-SUBSTITUTED CHIMERA HEMOGLOBIN BETA-ALPHA (F133V) P68871 P68871 2.5 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1ch4-a1-m1-cA_1ch4-a1-m1-cB VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKVLASVSTVLTSKYR VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLRVDPVNFKLLSHCLLVTLAAHLPAEFTPAVHASLDKVLASVSTVLTSKYR 1chm-a1-m1-cA_1chm-a1-m1-cB ENZYMATIC MECHANISM OF CREATINE AMIDINOHYDROLASE AS DEDUCED FROM CRYSTAL STRUCTURES P38488 P38488 1.9 X-RAY DIFFRACTION 203 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 401 401 QMPKTLRIRNGDKVRSTFSAQEYANRQARLRAHLAAENIDAAIFTSYHNINYYSDFLYCSFGRPYALVVTEDDVISISANIDGGQPWRRTVGTDNIVYTDWQRDNYFAAIQQALPKARRIGIEHDHLNLQNRDKLAARYPDAELVDVAAACMRMRMIKSAEEHVMIRHGARIADIGGAAVVEALGDQVPEYEVALHATQAMVRAIADTFEDVELMDTWTWFQSGINTDGAHNPVTTRKVNKGDILSLNCFPMIAGYYTALERTLFLDHCSDDHLRLWQVNVEVHEAGLKLIKPGARCSDIARELNEIFLKHDVLQYRTFGYGHSFGTLSHYYGREAGLELREDIDTVLEPGMVVSMEPMIMLPEGLPGAGGYREHDILIVNENGAENITKFPYGPEKNIIR QMPKTLRIRNGDKVRSTFSAQEYANRQARLRAHLAAENIDAAIFTSYHNINYYSDFLYCSFGRPYALVVTEDDVISISANIDGGQPWRRTVGTDNIVYTDWQRDNYFAAIQQALPKARRIGIEHDHLNLQNRDKLAARYPDAELVDVAAACMRMRMIKSAEEHVMIRHGARIADIGGAAVVEALGDQVPEYEVALHATQAMVRAIADTFEDVELMDTWTWFQSGINTDGAHNPVTTRKVNKGDILSLNCFPMIAGYYTALERTLFLDHCSDDHLRLWQVNVEVHEAGLKLIKPGARCSDIARELNEIFLKHDVLQYRTFGYGHSFGTLSHYYGREAGLELREDIDTVLEPGMVVSMEPMIMLPEGLPGAGGYREHDILIVNENGAENITKFPYGPEKNIIR 1chu-a1-m1-cA_1chu-a1-m2-cA STRUCTURE OF L-ASPARTATE OXIDASE: IMPLICATIONS FOR THE SUCCINATE DEHYDROGENASE/ FUMARATE REDUCATSE FAMILY P10902 P10902 2.2 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 478 478 NTLPEHSCDVLIIGSGAAGLSLALRLADQHQVIVLSKGPVTEFDETDSIDSHVEDTLIAGAGICDRHAVEFVASNARSCVQWLIDQGVLTTLVSKALNHPNIRVLERTNAVDLIVSDKIGLPGTRRVVGAWVWNRNKETVETCHAKAVVLATGGASKVYQYTTNPDISSGDGIAMAWRAGCRVANLEFNQFHPTALYHPQARNFLLTEALRGEGAYLKRPDGTRFMPDFDERGELAPRDIVARAIDHEMKRLGADCMFLDISHKPADFIRQHFPMIYEKLLGLGIDLTQEPVPIVPAAHYTCGGVMVDDHGRTDVEGLYAIGEVSYTGLHGANRMASNSLLECLVYGWSAAEDITRRMHDISTLPPWDESRVENPDERVVIQHNWHELRLFMWDYVGIVRTTKRLERALRRITMLQQEIDEYYAHFRVSNNLLELRNLVQVAELIVRCAMMRKESRGLHFTLDYPELLTHSGPSILSP NTLPEHSCDVLIIGSGAAGLSLALRLADQHQVIVLSKGPVTEFDETDSIDSHVEDTLIAGAGICDRHAVEFVASNARSCVQWLIDQGVLTTLVSKALNHPNIRVLERTNAVDLIVSDKIGLPGTRRVVGAWVWNRNKETVETCHAKAVVLATGGASKVYQYTTNPDISSGDGIAMAWRAGCRVANLEFNQFHPTALYHPQARNFLLTEALRGEGAYLKRPDGTRFMPDFDERGELAPRDIVARAIDHEMKRLGADCMFLDISHKPADFIRQHFPMIYEKLLGLGIDLTQEPVPIVPAAHYTCGGVMVDDHGRTDVEGLYAIGEVSYTGLHGANRMASNSLLECLVYGWSAAEDITRRMHDISTLPPWDESRVENPDERVVIQHNWHELRLFMWDYVGIVRTTKRLERALRRITMLQQEIDEYYAHFRVSNNLLELRNLVQVAELIVRCAMMRKESRGLHFTLDYPELLTHSGPSILSP 1ci0-a1-m1-cB_1ci0-a1-m1-cA PNP OXIDASE FROM SACCHAROMYCES CEREVISIAE P38075 P38075 2.7 X-RAY DIFFRACTION 153 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 204 205 TLNEKQLTDDPIDLFTKWFNEAKEDPRETLPEAITFSSAELPSGRVSSRILLFKELDHRGFTIYSNWGTSRKAHDIATNPNAAIVFFWKDLQRQVRVEGITEHVNRETSERYFKTRPRGSKIGAWASRQSDVIKNREELDELTQKNTERFKDAEDIPCPDYWGGLRIVPLEIEFWQGRPSRLHDRFVYRRKTENDPWKVVRLAP FTLNEKQLTDDPIDLFTKWFNEAKEDPRETLPEAITFSSAELPSGRVSSRILLFKELDHRGFTIYSNWGTSRKAHDIATNPNAAIVFFWKDLQRQVRVEGITEHVNRETSERYFKTRPRGSKIGAWASRQSDVIKNREELDELTQKNTERFKDAEDIPCPDYWGGLRIVPLEIEFWQGRPSRLHDRFVYRRKTENDPWKVVRLAP 1ci3-a2-m2-cM_1ci3-a2-m6-cM CYTOCHROME F FROM THE B6F COMPLEX OF PHORMIDIUM LAMINOSUM P95522 P95522 1.9 X-RAY DIFFRACTION 24 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 249 249 1ci3-a2-m1-cM_1ci3-a2-m4-cM 1ci3-a2-m3-cM_1ci3-a2-m5-cM YPFWAQQNYANPREATGRIVCANCHLAAKPAEIEVPQAVLPDSVFKAVVKIPYDHSVQQVQADGSKGPLNVGAVLMLPEGFTIAPEDRIPEEMKEEVGPSYLFQPYADDKQNIVLVGPLPGDEYEEIVFPVLSPNPATNKSVAFGKYSIHLGANRGRGQIYPTGEKSNNAVYNASAAGVITAIAKADDGSAEVKIRTEDGTTIVDKIPAGPELIVSEGEEVAAGAALTNNPNVGGFGQKDTEIVLQSPN YPFWAQQNYANPREATGRIVCANCHLAAKPAEIEVPQAVLPDSVFKAVVKIPYDHSVQQVQADGSKGPLNVGAVLMLPEGFTIAPEDRIPEEMKEEVGPSYLFQPYADDKQNIVLVGPLPGDEYEEIVFPVLSPNPATNKSVAFGKYSIHLGANRGRGQIYPTGEKSNNAVYNASAAGVITAIAKADDGSAEVKIRTEDGTTIVDKIPAGPELIVSEGEEVAAGAALTNNPNVGGFGQKDTEIVLQSPN 1ci3-a2-m5-cM_1ci3-a2-m6-cM CYTOCHROME F FROM THE B6F COMPLEX OF PHORMIDIUM LAMINOSUM P95522 P95522 1.9 X-RAY DIFFRACTION 27 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 249 249 1ci3-a2-m1-cM_1ci3-a2-m2-cM 1ci3-a2-m1-cM_1ci3-a2-m3-cM 1ci3-a2-m2-cM_1ci3-a2-m3-cM 1ci3-a2-m4-cM_1ci3-a2-m5-cM 1ci3-a2-m4-cM_1ci3-a2-m6-cM YPFWAQQNYANPREATGRIVCANCHLAAKPAEIEVPQAVLPDSVFKAVVKIPYDHSVQQVQADGSKGPLNVGAVLMLPEGFTIAPEDRIPEEMKEEVGPSYLFQPYADDKQNIVLVGPLPGDEYEEIVFPVLSPNPATNKSVAFGKYSIHLGANRGRGQIYPTGEKSNNAVYNASAAGVITAIAKADDGSAEVKIRTEDGTTIVDKIPAGPELIVSEGEEVAAGAALTNNPNVGGFGQKDTEIVLQSPN YPFWAQQNYANPREATGRIVCANCHLAAKPAEIEVPQAVLPDSVFKAVVKIPYDHSVQQVQADGSKGPLNVGAVLMLPEGFTIAPEDRIPEEMKEEVGPSYLFQPYADDKQNIVLVGPLPGDEYEEIVFPVLSPNPATNKSVAFGKYSIHLGANRGRGQIYPTGEKSNNAVYNASAAGVITAIAKADDGSAEVKIRTEDGTTIVDKIPAGPELIVSEGEEVAAGAALTNNPNVGGFGQKDTEIVLQSPN 1ci3-a3-m1-cM_1ci3-a3-m7-cM CYTOCHROME F FROM THE B6F COMPLEX OF PHORMIDIUM LAMINOSUM P95522 P95522 1.9 X-RAY DIFFRACTION 49 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 249 249 YPFWAQQNYANPREATGRIVCANCHLAAKPAEIEVPQAVLPDSVFKAVVKIPYDHSVQQVQADGSKGPLNVGAVLMLPEGFTIAPEDRIPEEMKEEVGPSYLFQPYADDKQNIVLVGPLPGDEYEEIVFPVLSPNPATNKSVAFGKYSIHLGANRGRGQIYPTGEKSNNAVYNASAAGVITAIAKADDGSAEVKIRTEDGTTIVDKIPAGPELIVSEGEEVAAGAALTNNPNVGGFGQKDTEIVLQSPN YPFWAQQNYANPREATGRIVCANCHLAAKPAEIEVPQAVLPDSVFKAVVKIPYDHSVQQVQADGSKGPLNVGAVLMLPEGFTIAPEDRIPEEMKEEVGPSYLFQPYADDKQNIVLVGPLPGDEYEEIVFPVLSPNPATNKSVAFGKYSIHLGANRGRGQIYPTGEKSNNAVYNASAAGVITAIAKADDGSAEVKIRTEDGTTIVDKIPAGPELIVSEGEEVAAGAALTNNPNVGGFGQKDTEIVLQSPN 1ci9-a1-m1-cA_1ci9-a1-m1-cB DFP-INHIBITED ESTERASE ESTB FROM BURKHOLDERIA GLADIOLI Q9KX40 Q9KX40 1.8 X-RAY DIFFRACTION 11 1.0 28095 (Burkholderia gladioli) 28095 (Burkholderia gladioli) 377 377 1ci8-a1-m1-cA_1ci8-a1-m1-cB AASLAARLDAVFDQALRERRLVGAVAIVARHGEILYRRAQGLADREAGRPMREDTLFRLASVTKPIVALAVLRLVARGELALDAPVTRWLPEFRPRLADGSEPLVTIHHLLTHTSGLGYWLLEGAGSVYDRLGISDGIDLRDFDLDENLRRLASAPLSFAPGSGWQYSLALDVLGAVVERATGQPLAAAVDALVAQPLGMRDCGFVSAEPERFAVPYHDGQPEPVRMRDGIEVPLPEGHGAAVRFAPSRVFEPGAYPSGGAGMYGSADDVLRALEAIRANPGFLPETLADAARRDQAGVGAETRGPGWGFGYLSAVLDDPAAAGTPQHAGTLQWGGVYGHSWFVDRALGLSVLLLTNTAYEGMSGPLTIALRDAVYA AASLAARLDAVFDQALRERRLVGAVAIVARHGEILYRRAQGLADREAGRPMREDTLFRLASVTKPIVALAVLRLVARGELALDAPVTRWLPEFRPRLADGSEPLVTIHHLLTHTSGLGYWLLEGAGSVYDRLGISDGIDLRDFDLDENLRRLASAPLSFAPGSGWQYSLALDVLGAVVERATGQPLAAAVDALVAQPLGMRDCGFVSAEPERFAVPYHDGQPEPVRMRDGIEVPLPEGHGAAVRFAPSRVFEPGAYPSGGAGMYGSADDVLRALEAIRANPGFLPETLADAARRDQAGVGAETRGPGWGFGYLSAVLDDPAAAGTPQHAGTLQWGGVYGHSWFVDRALGLSVLLLTNTAYEGMSGPLTIALRDAVYA 1civ-a1-m1-cA_1civ-a1-m2-cA CHLOROPLAST NADP-DEPENDENT MALATE DEHYDROGENASE FROM FLAVERIA BIDENTIS P46489 P46489 2.8 X-RAY DIFFRACTION 132 1.0 4224 (Flaveria bidentis) 4224 (Flaveria bidentis) 374 374 LPAKQKPECFGVFCLTYDLKAEEETKSWKKIINVAVSGAAGMISNHLLFKLASGEVFGPDQPISLKLLGSERSFAALEGVAMELEDSLYPLLRQVSIGIDPYEIFQDAEWALLIGAKPRGPGMERADLLDINGQIFAEQGKALNAVASPNVKVMVVGNPCNTNALICLKNAPNIPPKNFHALTRLDENRAKCQLALKAGVFYDKVSNVTIWGNHSTTQVPDFLNAKIHGIPVTEVIRDRKWLEDEFTNMVQTRGGVLIKKWGRSSAASTAVSIVDAIRSLVTPTPEGDWFSTGVYTNGNPYGIAEDIVFSMPCRSKGDGDYEFVKDVIFDDYLSKKIKKSEDELLAEKKCVAHLTGEGIAVCDLPEDTMLPGEM LPAKQKPECFGVFCLTYDLKAEEETKSWKKIINVAVSGAAGMISNHLLFKLASGEVFGPDQPISLKLLGSERSFAALEGVAMELEDSLYPLLRQVSIGIDPYEIFQDAEWALLIGAKPRGPGMERADLLDINGQIFAEQGKALNAVASPNVKVMVVGNPCNTNALICLKNAPNIPPKNFHALTRLDENRAKCQLALKAGVFYDKVSNVTIWGNHSTTQVPDFLNAKIHGIPVTEVIRDRKWLEDEFTNMVQTRGGVLIKKWGRSSAASTAVSIVDAIRSLVTPTPEGDWFSTGVYTNGNPYGIAEDIVFSMPCRSKGDGDYEFVKDVIFDDYLSKKIKKSEDELLAEKKCVAHLTGEGIAVCDLPEDTMLPGEM 1cjb-a2-m1-cD_1cjb-a2-m2-cD MALARIAL PURINE PHOSPHORIBOSYLTRANSFERASE P20035 P20035 2 X-RAY DIFFRACTION 85 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 227 227 1cjb-a1-m1-cA_1cjb-a1-m1-cB 1cjb-a1-m3-cA_1cjb-a1-m3-cB 1cjb-a2-m1-cC_1cjb-a2-m2-cC 3ozf-a1-m1-cA_3ozf-a1-m1-cB 3ozf-a1-m1-cC_3ozf-a1-m1-cD 3ozg-a1-m1-cA_3ozg-a1-m1-cB 3ozg-a1-m2-cA_3ozg-a1-m2-cB 3ozg-a2-m1-cC_3ozg-a2-m3-cC 3ozg-a2-m1-cD_3ozg-a2-m3-cD PIPNNPGAGENAFDPVFVNDDDGYDLDSFMIPAHYKKYLTKVLVPNGVIKNRIEKLAYDIKKVYNNEEFHILCLLKGSRGFFTALLKHLSRIHNYSAVETSKPLFGEHYVRVKSYCNDQSTGTLEIVSEDLSCLKGKHVLIVEDIIDTGKTLVKFCEYLKKFEIKTVAIACLFIKRTPLWNGFKADFVGFSIPDHFVVGYSLDYNEIFRDLDHCCLVNDEGKKKYKA PIPNNPGAGENAFDPVFVNDDDGYDLDSFMIPAHYKKYLTKVLVPNGVIKNRIEKLAYDIKKVYNNEEFHILCLLKGSRGFFTALLKHLSRIHNYSAVETSKPLFGEHYVRVKSYCNDQSTGTLEIVSEDLSCLKGKHVLIVEDIIDTGKTLVKFCEYLKKFEIKTVAIACLFIKRTPLWNGFKADFVGFSIPDHFVVGYSLDYNEIFRDLDHCCLVNDEGKKKYKA 1ck1-a1-m1-cA_1ck1-a1-m2-cA STRUCTURE OF STAPHYLOCOCCAL ENTEROTOXIN C3 Q06535 Q06535 2.6 X-RAY DIFFRACTION 51 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 239 239 ESQPDPMPDDLHKSSEFTGTMGNMKYLYDDHYVSATKVKSVDKFLAHDLIYNINDKKLNNYDKVKTELLNEDLANKYKDEVVDVYGSNYYVNCYFSSKDNVGKVTSGKTCMYGGITKHEGNHFDNGNLQNVLIRVYENKRNTISFEVQTDKKSVTAQELDIKARNFLINKKNLYEFNSSPYETGYIKFIESNGNTFWYDMMPAPGDKFDQSKYLMIYKDNKMVDSKSVKIEVHLTTKNG ESQPDPMPDDLHKSSEFTGTMGNMKYLYDDHYVSATKVKSVDKFLAHDLIYNINDKKLNNYDKVKTELLNEDLANKYKDEVVDVYGSNYYVNCYFSSKDNVGKVTSGKTCMYGGITKHEGNHFDNGNLQNVLIRVYENKRNTISFEVQTDKKSVTAQELDIKARNFLINKKNLYEFNSSPYETGYIKFIESNGNTFWYDMMPAPGDKFDQSKYLMIYKDNKMVDSKSVKIEVHLTTKNG 1ckg-a1-m1-cA_1ckg-a1-m1-cB T52V MUTANT HUMAN LYSOZYME P61626 P61626 2.2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 KVFERCELARTLKRLGMDGYRGISLANWMCLAKWESGYNTRATNYNAGDRSVDYGIFQINSRYWCNDGKTPGAVNACHLSCSALLQDNIADAVACAKRVVRDPQGIRAWVAWRNRCQNRDVRQYVQGCGV KVFERCELARTLKRLGMDGYRGISLANWMCLAKWESGYNTRATNYNAGDRSVDYGIFQINSRYWCNDGKTPGAVNACHLSCSALLQDNIADAVACAKRVVRDPQGIRAWVAWRNRCQNRDVRQYVQGCGV 1ckn-a3-m1-cB_1ckn-a3-m1-cA STRUCTURE OF GUANYLYLATED MRNA CAPPING ENZYME COMPLEXED WITH GTP Q84424 Q84424 2.5 X-RAY DIFFRACTION 115 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 316 317 1ckm-a3-m1-cA_1ckm-a3-m1-cB 1ckm-a3-m2-cA_1ckm-a3-m2-cB 1ckm-a4-m1-cA_1ckm-a4-m1-cB NITTERAVLTLNGLQIKLHKVVGESRDDIVAKMKDLAMDDHKFPRLPGPNPVSIERKDFEKLKQNKYVVSETDGIRFMMFFTRVFGFKVCTIIDRAMTVYLLPFKNIPRVLFQGSIFDGELCVDIVEKKFAFVLFDAVVVSGVTVSQMDLASRFFAMKRSLKEFKNVPEDPAILRYKEWIPLEHPTIIKDHLKKANAIYHTDGLIIMSVDEPVIYGRNFNLFKLKPGTHHTIDFIIMSEDGTIGIFDPNLRKNVPVGKLDGYYNKGSIVECGFADGTWKYIQGRSDKNQANDRLTYEKTLLNIEENITIDELLDLF NITTERAVLTLNGLQIKLHKVVGESRDDIVAKMKDLAMDDHKFPRLPGPNPVSIERKDFEKLKQNKYVVSEKTDGIRFMMFFTRVFGFKVCTIIDRAMTVYLLPFKNIPRVLFQGSIFDGELCVDIVEKKFAFVLFDAVVVSGVTVSQMDLASRFFAMKRSLKEFKNVPEDPAILRYKEWIPLEHPTIIKDHLKKANAIYHTDGLIIMSVDEPVIYGRNFNLFKLKPGTHHTIDFIIMSEDGTIGIFDPNLRKNVPVGKLDGYYNKGSIVECGFADGTWKYIQGRSDKNQANDRLTYEKTLLNIEENITIDELLDLF 1ckn-a4-m1-cA_1ckn-a4-m2-cA STRUCTURE OF GUANYLYLATED MRNA CAPPING ENZYME COMPLEXED WITH GTP Q84424 Q84424 2.5 X-RAY DIFFRACTION 71 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 317 317 1ckm-a3-m1-cA_1ckm-a3-m2-cA 1ckm-a5-m1-cA_1ckm-a5-m2-cA NITTERAVLTLNGLQIKLHKVVGESRDDIVAKMKDLAMDDHKFPRLPGPNPVSIERKDFEKLKQNKYVVSEKTDGIRFMMFFTRVFGFKVCTIIDRAMTVYLLPFKNIPRVLFQGSIFDGELCVDIVEKKFAFVLFDAVVVSGVTVSQMDLASRFFAMKRSLKEFKNVPEDPAILRYKEWIPLEHPTIIKDHLKKANAIYHTDGLIIMSVDEPVIYGRNFNLFKLKPGTHHTIDFIIMSEDGTIGIFDPNLRKNVPVGKLDGYYNKGSIVECGFADGTWKYIQGRSDKNQANDRLTYEKTLLNIEENITIDELLDLF NITTERAVLTLNGLQIKLHKVVGESRDDIVAKMKDLAMDDHKFPRLPGPNPVSIERKDFEKLKQNKYVVSEKTDGIRFMMFFTRVFGFKVCTIIDRAMTVYLLPFKNIPRVLFQGSIFDGELCVDIVEKKFAFVLFDAVVVSGVTVSQMDLASRFFAMKRSLKEFKNVPEDPAILRYKEWIPLEHPTIIKDHLKKANAIYHTDGLIIMSVDEPVIYGRNFNLFKLKPGTHHTIDFIIMSEDGTIGIFDPNLRKNVPVGKLDGYYNKGSIVECGFADGTWKYIQGRSDKNQANDRLTYEKTLLNIEENITIDELLDLF 1cko-a2-m1-cA_1cko-a2-m2-cA STRUCTURE OF MRNA CAPPING ENZYME IN COMPLEX WITH THE CAP ANALOG GPPPG Q84424 Q84424 3.1 X-RAY DIFFRACTION 19 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 317 317 NITTERAVLTLNGLQIKLHKVVGESRDDIVAKMKDLAMDDHKFPRLPGPNPVSIERKDFEKLKQNKYVVSEKTDGIRFMMFFTRVFGFKVCTIIDRAMTVYLLPFKNIPRVLFQGSIFDGELCVDIVEKKFAFVLFDAVVVSGVTVSQMDLASRFFAMKRSLKEFKNVPEDPAILRYKEWIPLEHPTIIKDHLKKANAIYHTDGLIIMSVDEPVIYGRNFNLFKLKPGTHHTIDFIIMSEDGTIGIFDPNLRKNVPVGKLDGYYNKGSIVECGFADGTWKYIQGRSDKNQANDRLTYEKTLLNIEENITIDELLDLF NITTERAVLTLNGLQIKLHKVVGESRDDIVAKMKDLAMDDHKFPRLPGPNPVSIERKDFEKLKQNKYVVSEKTDGIRFMMFFTRVFGFKVCTIIDRAMTVYLLPFKNIPRVLFQGSIFDGELCVDIVEKKFAFVLFDAVVVSGVTVSQMDLASRFFAMKRSLKEFKNVPEDPAILRYKEWIPLEHPTIIKDHLKKANAIYHTDGLIIMSVDEPVIYGRNFNLFKLKPGTHHTIDFIIMSEDGTIGIFDPNLRKNVPVGKLDGYYNKGSIVECGFADGTWKYIQGRSDKNQANDRLTYEKTLLNIEENITIDELLDLF 1cku-a1-m1-cA_1cku-a1-m1-cB AB INITIO SOLUTION AND REFINEMENT OF TWO HIGH POTENTIAL IRON PROTEIN STRUCTURES AT ATOMIC RESOLUTION P00260 P00260 1.2 X-RAY DIFFRACTION 32 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 85 85 SAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASWTLKAG SAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWCASWTLKAG 1cl8-a1-m1-cA_1cl8-a1-m2-cA A PRE-TRANSITION STATE ECO RI ENDONUCLEASE/COGNATE DNA (TCGCGAPTTCGCG) COMPLEX WITH DNA BASE ANALOG PURINE (P) P00642 P00642 1.8 X-RAY DIFFRACTION 165 1.0 562 (Escherichia coli) 562 (Escherichia coli) 261 261 1ckq-a1-m1-cA_1ckq-a1-m2-cA 1eri-a1-m1-cA_1eri-a1-m2-cA 1qc9-a1-m1-cA_1qc9-a1-m2-cA 1qc9-a2-m1-cB_1qc9-a2-m2-cC 1qps-a1-m1-cA_1qps-a1-m2-cA 1qrh-a1-m1-cA_1qrh-a1-m2-cA 1qri-a1-m1-cA_1qri-a1-m2-cA 2oxv-a1-m1-cA_2oxv-a1-m2-cA SQGVIGIFGDYAKAHDLAVGEVSKLVKKALSNEYPQLSFRYRDSIKKTEINEALKKIDPDLGGTLFVSNSSIKPDGGIVEVKDDYGEWRVVLVAEAKHQGKDIINIRNGLLVGKRGDQDLMAAGNAIERSHKNISEIANFMLSESHFPYVLFLEGSNFLTENISITRPDGRVVNLEYNSGILNRLDRLTAANYGMPINSNLCINKFVNHKDKSIMLQAASIYTQGDGREWDSKIMFEIMFDISTTSLRVLGRDLFEQLTSK SQGVIGIFGDYAKAHDLAVGEVSKLVKKALSNEYPQLSFRYRDSIKKTEINEALKKIDPDLGGTLFVSNSSIKPDGGIVEVKDDYGEWRVVLVAEAKHQGKDIINIRNGLLVGKRGDQDLMAAGNAIERSHKNISEIANFMLSESHFPYVLFLEGSNFLTENISITRPDGRVVNLEYNSGILNRLDRLTAANYGMPINSNLCINKFVNHKDKSIMLQAASIYTQGDGREWDSKIMFEIMFDISTTSLRVLGRDLFEQLTSK 1cli-a4-m1-cB_1cli-a4-m1-cD X-RAY CRYSTAL STRUCTURE OF AMINOIMIDAZOLE RIBONUCLEOTIDE SYNTHETASE (PURM), FROM THE E. COLI PURINE BIOSYNTHETIC PATHWAY, AT 2.5 A RESOLUTION P08178 P08178 2.5 X-RAY DIFFRACTION 57 1.0 562 (Escherichia coli) 562 (Escherichia coli) 325 325 1cli-a1-m1-cB_1cli-a1-m1-cD ALVGRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTASAVISGIAEGCLQSGCSLVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVSDGDVLIALGSSGPHSNGYSLVRKILEVSGCDPQTTELDGKPLADHLLAPTRIYVKSVLELIEKVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPEVFNWLQTAGNVEHHEMYRTFNCGVGMIIALPAPEVDKALALLNANGENAWKIGIIKASDSEQRVVIE ALVGRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTASAVISGIAEGCLQSGCSLVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVSDGDVLIALGSSGPHSNGYSLVRKILEVSGCDPQTTELDGKPLADHLLAPTRIYVKSVLELIEKVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPEVFNWLQTAGNVEHHEMYRTFNCGVGMIIALPAPEVDKALALLNANGENAWKIGIIKASDSEQRVVIE 1cli-a4-m1-cD_1cli-a4-m1-cC X-RAY CRYSTAL STRUCTURE OF AMINOIMIDAZOLE RIBONUCLEOTIDE SYNTHETASE (PURM), FROM THE E. COLI PURINE BIOSYNTHETIC PATHWAY, AT 2.5 A RESOLUTION P08178 P08178 2.5 X-RAY DIFFRACTION 207 1.0 562 (Escherichia coli) 562 (Escherichia coli) 325 341 1cli-a2-m1-cD_1cli-a2-m1-cC 1cli-a3-m1-cB_1cli-a3-m1-cA 1cli-a4-m1-cB_1cli-a4-m1-cA ALVGRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTASAVISGIAEGCLQSGCSLVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVSDGDVLIALGSSGPHSNGYSLVRKILEVSGCDPQTTELDGKPLADHLLAPTRIYVKSVLELIEKVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPEVFNWLQTAGNVEHHEMYRTFNCGVGMIIALPAPEVDKALALLNANGENAWKIGIIKASDSEQRVVIE TSLSYKDAGVDIDAGNALVGRIKGVVKKTRRPEVMGGLGGFGALCALPQKYREPVLVSGTDGVGTKLRLAMDLKRHDTIGIDLVAMCVNDLVVQGAEPLFFLDYYATGKLDVDTASAVISGIAEGCLQSGCSLVGGETAEMPGMYHGEDYDVAGFCVGVVEKSEIIDGSKVSDGDVLIALGSSGPHSNGYSLVRKILEVSGCDPQTTELDGKPLADHLLAPTRIYVKSVLELIEKVDVHAIAHLTGGGFWENIPRVLPDNTQAVIDESSWQWPEVFNWLQTAGNVEHHEMYRTFNCGVGMIIALPAPEVDKALALLNANGENAWKIGIIKASDSEQRVVIE 1clx-a2-m1-cC_1clx-a2-m1-cD CATALYTIC CORE OF XYLANASE A P14768 P14768 1.8 X-RAY DIFFRACTION 91 1.0 155077 (Cellvibrio japonicus) 155077 (Cellvibrio japonicus) 345 345 1clx-a1-m1-cA_1clx-a1-m1-cB GLASLADFPIGVAVAASGGNADIFTSSARQNIVRAEFNQITAENIMKMSYMYSGSNFSFTNSDRLVSWAAQNGQTVHGHALVWHPSYQLPNWASDSNANFRQDFARHIDTVAAHFAGQVKSWDVVNEALFDSADDPDGRGSANGYRQSVFYRQFGGPEYIDEAFRRARAADPTAELYYNDFNTEENGAKTTALVNLVQRLLNNGVPIDGVGFQMHVMNDYPSIANIRQAMQKIVALSPTLKIKITELDVRLNNPYDGNSSNDYTNRNDCAVSCAGLDRQKARYKEIVQAYLEVVPPGRRGGITVWGIADPDSWLYTHQNLPDWPLLFNDNLQPKPAYQGVVEALS GLASLADFPIGVAVAASGGNADIFTSSARQNIVRAEFNQITAENIMKMSYMYSGSNFSFTNSDRLVSWAAQNGQTVHGHALVWHPSYQLPNWASDSNANFRQDFARHIDTVAAHFAGQVKSWDVVNEALFDSADDPDGRGSANGYRQSVFYRQFGGPEYIDEAFRRARAADPTAELYYNDFNTEENGAKTTALVNLVQRLLNNGVPIDGVGFQMHVMNDYPSIANIRQAMQKIVALSPTLKIKITELDVRLNNPYDGNSSNDYTNRNDCAVSCAGLDRQKARYKEIVQAYLEVVPPGRRGGITVWGIADPDSWLYTHQNLPDWPLLFNDNLQPKPAYQGVVEALS 1cm1-a2-m1-cA_1cm1-a2-m2-cA MOTIONS OF CALMODULIN-SINGLE-CONFORMER REFINEMENT P62157 P62157 2 X-RAY DIFFRACTION 18 1.0 9913 (Bos taurus) 9913 (Bos taurus) 143 143 LTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT LTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT 1cmk-a1-m2-cI_1cmk-a1-m6-cI CRYSTAL STRUCTURES OF THE MYRISTYLATED CATALYTIC SUBUNIT OF CAMP-DEPENDENT PROTEIN KINASE REVEAL OPEN AND CLOSED CONFORMATIONS P61925 P61925 2.9 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 20 20 1cmk-a1-m1-cI_1cmk-a1-m4-cI 1cmk-a1-m3-cI_1cmk-a1-m5-cI 1ctp-a1-m1-cI_1ctp-a1-m2-cI TTYADFIASGRTGRRNAIHD TTYADFIASGRTGRRNAIHD 1cmv-a1-m1-cA_1cmv-a1-m1-cB HUMAN CYTOMEGALOVIRUS PROTEASE P16753 P16753 2.27 X-RAY DIFFRACTION 102 0.99 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 197 206 1ied-a1-m1-cA_1ied-a1-m1-cB 1njt-a1-m1-cF_1njt-a1-m1-cB 1njt-a2-m1-cC_1njt-a2-m1-cD 1njt-a2-m1-cG_1njt-a2-m1-cC 1njt-a2-m1-cH_1njt-a2-m1-cD 1nkm-a1-m1-cA_1nkm-a1-m1-cB APVYVGGFLARYDQSPDLPRDVVEHWALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSPFKHVALCSVGRRRGTLAVYGRDPEWVTQRFPDLTAADRDGLRAQWGDPFRSDSYGLLGNSVDALYIRERLPKLRYDKQLVGVTERESYVKA VAPVYVGGFLARYDQSPDEAELLLPRDVVEHWLHAALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSKHVALCSVGRRRGTLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQRGDPFRSDSYGLLGNSVDALYIRERLPKLRYDKQLVGVTERESYVKA 1cmx-a1-m1-cC_1cmx-a1-m1-cA STRUCTURAL BASIS FOR THE SPECIFICITY OF UBIQUITIN C-TERMINAL HYDROLASES P35127 P35127 2.25 X-RAY DIFFRACTION 41 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 210 214 AVVPIESNPEVFTNFAHKLGLKNEWAYFDIYSLTEPELLAFLPRPVKAIVLLFPVIWFKQSVKNACGLYAILHSLSNNQSLLEPGSDLDNFLKSQSDTSSSKNRFDDVTTDQFVLNVIKENVQTFSTGQSEAPEATADTNLHYITYVEENGGIFELDGRNLSGPLYLGKSDPTATDLIEQELVRVRVASYMENANEEDVLNFAMLGLGPN RAVVPIESNPEVFTNFAHKLGLKNEWAYFDIYSLTEPELLAFLPRPVKAIVLLFPINDVIWFKQSVKNACGLYAILHSLSNNQSLLEPGSDLDNFLKSQSDTSSSKNRFDDVTTDQFVLNVIKENVQTFSTGQSEAPEATADTNLHYITYVEENGGIFELDGRNLSGPLYLGKSDPTATDLIEQELVRVRVASYMENANEEDVLNFAMLGLGPN 1cno-a1-m1-cA_1cno-a1-m1-cB STRUCTURE OF PSEUDOMONAS NAUTICA CYTOCHROME C552, BY MAD METHOD P82903 P82903 2.2 X-RAY DIFFRACTION 79 1.0 2743 (Marinobacter nauticus) 2743 (Marinobacter nauticus) 86 86 1cno-a2-m1-cC_1cno-a2-m1-cD 1cno-a3-m1-cE_1cno-a3-m1-cF 1cno-a4-m1-cH_1cno-a4-m1-cG AGDIEAGKAKAAVCAACHGQNGISQVPIYPNLAGQKEQYLVAALKAYKAGQRQGGQAPVMQGQATALSDADIANLAAYYASNPAAA AGDIEAGKAKAAVCAACHGQNGISQVPIYPNLAGQKEQYLVAALKAYKAGQRQGGQAPVMQGQATALSDADIANLAAYYASNPAAA 1cnp-a1-m1-cA_1cnp-a1-m1-cB THE STRUCTURE OF CALCYCLIN REVEALS A NOVEL HOMODIMERIC FOLD FOR S100 CA2+-BINDING PROTEINS, NMR, 22 STRUCTURES P30801 P30801 NOT SOLUTION NMR 72 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 90 90 MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG 1cnt-a1-m1-c4_1cnt-a1-m1-c1 CILIARY NEUROTROPHIC FACTOR P26441 P26441 2.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 150 HRRDLCSRSIWLARKIRSDLTALTESYVKHQGLELTEAERLQENLQAYRTFHVLLARLLEDQQEGDFHQAIHTLLLQVAAFAYQIEELMILLEYKIPRNKKLWGLKVLQELSQWTVRSIHDLRFIS PHRRDLCSRSIWLARKIRSDLTALTESYVKHQGLWSELTEAERLQENLQAYRTFHVLLARLLEDQQVHFTPTEGDFHQAIHTLLLQVAAFAYQIEELMILLEYKIPRNEADGMLFEKKLWGLKVLQELSQWTVRSIHDLRFISSHQTGIP 1cnz-a1-m1-cA_1cnz-a1-m1-cB 3-ISOPROPYLMALATE DEHYDROGENASE (IPMDH) FROM SALMONELLA TYPHIMURIUM P37412 P37412 1.76 X-RAY DIFFRACTION 172 1.0 363 363 1cm7-a1-m1-cA_1cm7-a1-m1-cB MSKNYHIAVLPGDGIGPEVMAQALKVMDAVRSRFDMRITTSHYDVGGIAIDNHGHPLPKATVEGCEQADAILFGSVGGPKWENLPPESQPERGALLPLRKHFKLFSNLRPAKLYQGLEAFCPLRADIAANGFDILCVRELTGGIYFGQPKGREGSGQYEKAFDTEVYHRFEIERIARIAFESARKRRRKVTSIDKANVLQSSILWREIVNDVAKTYPDVELAHMYIDNATMQLIKDPSQFDVLLCSNLFGDILSDECAMITGSMGMLPSASLNEQGFGLYEPAGGSAPDIAGKNIANPIAQILSLALLLRYSLDANDAATAIEQAINRALEEGVRTGDLARGAAAVSTDEMGDIIARYVAEGV MSKNYHIAVLPGDGIGPEVMAQALKVMDAVRSRFDMRITTSHYDVGGIAIDNHGHPLPKATVEGCEQADAILFGSVGGPKWENLPPESQPERGALLPLRKHFKLFSNLRPAKLYQGLEAFCPLRADIAANGFDILCVRELTGGIYFGQPKGREGSGQYEKAFDTEVYHRFEIERIARIAFESARKRRRKVTSIDKANVLQSSILWREIVNDVAKTYPDVELAHMYIDNATMQLIKDPSQFDVLLCSNLFGDILSDECAMITGSMGMLPSASLNEQGFGLYEPAGGSAPDIAGKNIANPIAQILSLALLLRYSLDANDAATAIEQAINRALEEGVRTGDLARGAAAVSTDEMGDIIARYVAEGV 1coj-a1-m1-cA_1coj-a1-m4-cA FE-SOD FROM AQUIFEX PYROPHILUS, A HYPERTHERMOPHILIC BACTERIUM Q9X6W9 Q9X6W9 1.9 X-RAY DIFFRACTION 28 1.0 2714 (Aquifex pyrophilus) 2714 (Aquifex pyrophilus) 211 211 1coj-a1-m2-cA_1coj-a1-m3-cA VHKLEPKDHLKPQNLEGISNEQIEPHFEAHYKGYVAKYNEIQEKLADQNFADRSKANQNYSEYRELKVEETFNYMGVVLHELYFGMLTPGGKGEPSEALKKKIEEDIGGLDACTNELKAAAMAFRGWAILGLDIFSGRLVVNGLDAHNVYNLTGLIPLIVIDTYEHAYYVDYKNKRPPYIDAFFKNINWDVVNERFEKAMKAYEALKDFIK VHKLEPKDHLKPQNLEGISNEQIEPHFEAHYKGYVAKYNEIQEKLADQNFADRSKANQNYSEYRELKVEETFNYMGVVLHELYFGMLTPGGKGEPSEALKKKIEEDIGGLDACTNELKAAAMAFRGWAILGLDIFSGRLVVNGLDAHNVYNLTGLIPLIVIDTYEHAYYVDYKNKRPPYIDAFFKNINWDVVNERFEKAMKAYEALKDFIK 1coj-a1-m2-cA_1coj-a1-m4-cA FE-SOD FROM AQUIFEX PYROPHILUS, A HYPERTHERMOPHILIC BACTERIUM Q9X6W9 Q9X6W9 1.9 X-RAY DIFFRACTION 35 1.0 2714 (Aquifex pyrophilus) 2714 (Aquifex pyrophilus) 211 211 1coj-a1-m1-cA_1coj-a1-m3-cA VHKLEPKDHLKPQNLEGISNEQIEPHFEAHYKGYVAKYNEIQEKLADQNFADRSKANQNYSEYRELKVEETFNYMGVVLHELYFGMLTPGGKGEPSEALKKKIEEDIGGLDACTNELKAAAMAFRGWAILGLDIFSGRLVVNGLDAHNVYNLTGLIPLIVIDTYEHAYYVDYKNKRPPYIDAFFKNINWDVVNERFEKAMKAYEALKDFIK VHKLEPKDHLKPQNLEGISNEQIEPHFEAHYKGYVAKYNEIQEKLADQNFADRSKANQNYSEYRELKVEETFNYMGVVLHELYFGMLTPGGKGEPSEALKKKIEEDIGGLDACTNELKAAAMAFRGWAILGLDIFSGRLVVNGLDAHNVYNLTGLIPLIVIDTYEHAYYVDYKNKRPPYIDAFFKNINWDVVNERFEKAMKAYEALKDFIK 1coj-a1-m3-cA_1coj-a1-m4-cA FE-SOD FROM AQUIFEX PYROPHILUS, A HYPERTHERMOPHILIC BACTERIUM Q9X6W9 Q9X6W9 1.9 X-RAY DIFFRACTION 157 1.0 2714 (Aquifex pyrophilus) 2714 (Aquifex pyrophilus) 211 211 1coj-a1-m1-cA_1coj-a1-m2-cA VHKLEPKDHLKPQNLEGISNEQIEPHFEAHYKGYVAKYNEIQEKLADQNFADRSKANQNYSEYRELKVEETFNYMGVVLHELYFGMLTPGGKGEPSEALKKKIEEDIGGLDACTNELKAAAMAFRGWAILGLDIFSGRLVVNGLDAHNVYNLTGLIPLIVIDTYEHAYYVDYKNKRPPYIDAFFKNINWDVVNERFEKAMKAYEALKDFIK VHKLEPKDHLKPQNLEGISNEQIEPHFEAHYKGYVAKYNEIQEKLADQNFADRSKANQNYSEYRELKVEETFNYMGVVLHELYFGMLTPGGKGEPSEALKKKIEEDIGGLDACTNELKAAAMAFRGWAILGLDIFSGRLVVNGLDAHNVYNLTGLIPLIVIDTYEHAYYVDYKNKRPPYIDAFFKNINWDVVNERFEKAMKAYEALKDFIK 1cp2-a1-m1-cA_1cp2-a1-m1-cB NITROGENASE IRON PROTEIN FROM CLOSTRIDIUM PASTEURIANUM P00456 P00456 1.93 X-RAY DIFFRACTION 91 1.0 1501 (Clostridium pasteurianum) 1501 (Clostridium pasteurianum) 269 269 MRQVAIYGKGGIGKSTTTQNLTSGLHAMGKTIMVVGCDPKADSTRLLLGGLAQKSVLDTLREEGEDVELDSILKEGYGGIRCVESGGPEPGVGCAGRGIITSINMLEQLGAYTDDLDYVFYDVLGDVVCGGFAMPIREGKAQEIYIVASGEMMALYAANNISKGIQKYAKSGGVRLGGIICNSRKVANEYELLDAFAKELGSQLIHFVPRSPMVTKAEINKQTVIEYDPTCEQAEEYRELARKVDANELFVIPKPMTQERLEEILMQYG MRQVAIYGKGGIGKSTTTQNLTSGLHAMGKTIMVVGCDPKADSTRLLLGGLAQKSVLDTLREEGEDVELDSILKEGYGGIRCVESGGPEPGVGCAGRGIITSINMLEQLGAYTDDLDYVFYDVLGDVVCGGFAMPIREGKAQEIYIVASGEMMALYAANNISKGIQKYAKSGGVRLGGIICNSRKVANEYELLDAFAKELGSQLIHFVPRSPMVTKAEINKQTVIEYDPTCEQAEEYRELARKVDANELFVIPKPMTQERLEEILMQYG 1cpc-a3-m2-cA_1cpc-a3-m3-cK ISOLATION, CRYSTALLIZATION, CRYSTAL STRUCTURE ANALYSIS AND REFINEMENT OF CONSTITUTIVE C-PHYCOCYANIN FROM THE CHROMATICALLY ADAPTING CYANOBACTERIUM FREMYELLA DIPLOSIPHON AT 1.66 ANGSTROMS RESOLUTION P07122 P07122 1.66 X-RAY DIFFRACTION 23 1.0 1197 (Microchaete diplosiphon) 1197 (Microchaete diplosiphon) 162 162 1cpc-a3-m1-cA_1cpc-a3-m2-cK 1cpc-a3-m1-cK_1cpc-a3-m3-cA MKTPLTEAVAAADSQGRFLSSTEIQTAFGRFRQASASLAAAKALTEKASSLASGAANAVYSKFPYTTSQNGPNFASTQTGKDKCVRDIGYYLRMVTYCLVVGGTGPLDDYLIGGIAEINRTFDLSPSWYVEALKYIKANHGLSGDPAVEANSYIDYAINALS MKTPLTEAVAAADSQGRFLSSTEIQTAFGRFRQASASLAAAKALTEKASSLASGAANAVYSKFPYTTSQNGPNFASTQTGKDKCVRDIGYYLRMVTYCLVVGGTGPLDDYLIGGIAEINRTFDLSPSWYVEALKYIKANHGLSGDPAVEANSYIDYAINALS 1cpc-a6-m1-cA_1cpc-a6-m1-cK ISOLATION, CRYSTALLIZATION, CRYSTAL STRUCTURE ANALYSIS AND REFINEMENT OF CONSTITUTIVE C-PHYCOCYANIN FROM THE CHROMATICALLY ADAPTING CYANOBACTERIUM FREMYELLA DIPLOSIPHON AT 1.66 ANGSTROMS RESOLUTION P07122 P07122 1.66 X-RAY DIFFRACTION 71 1.0 1197 (Microchaete diplosiphon) 1197 (Microchaete diplosiphon) 162 162 1cpc-a3-m1-cA_1cpc-a3-m1-cK 1cpc-a3-m2-cA_1cpc-a3-m2-cK 1cpc-a3-m3-cA_1cpc-a3-m3-cK MKTPLTEAVAAADSQGRFLSSTEIQTAFGRFRQASASLAAAKALTEKASSLASGAANAVYSKFPYTTSQNGPNFASTQTGKDKCVRDIGYYLRMVTYCLVVGGTGPLDDYLIGGIAEINRTFDLSPSWYVEALKYIKANHGLSGDPAVEANSYIDYAINALS MKTPLTEAVAAADSQGRFLSSTEIQTAFGRFRQASASLAAAKALTEKASSLASGAANAVYSKFPYTTSQNGPNFASTQTGKDKCVRDIGYYLRMVTYCLVVGGTGPLDDYLIGGIAEINRTFDLSPSWYVEALKYIKANHGLSGDPAVEANSYIDYAINALS 1cq3-a1-m1-cA_1cq3-a1-m1-cB STRUCTURE OF A SOLUBLE SECRETED CHEMOKINE INHIBITOR, VCCI, FROM COWPOX VIRUS Q85307 Q85307 1.85 X-RAY DIFFRACTION 70 1.0 10243 (Cowpox virus) 10243 (Cowpox virus) 224 224 SFSSSSSCTEEENKHHMGIDVIIKVTKQDQTPTNDKICQSVTEVTESEDESEEVVKGDPTTYYTVVGGGLTMDFGFTKCPKISSISEYSDGNTVNARLSSVSPGQGKDSPAITREEALSMIKDCEMSINIKCSEEEKDSNIKTHPVLGSNISHKKVSYEDIIGSTIVDTKCVKNLEISVRIGDMCKESSELEVKDGFKYVDGSASEDAADDTSLINSAKLIACV SFSSSSSCTEEENKHHMGIDVIIKVTKQDQTPTNDKICQSVTEVTESEDESEEVVKGDPTTYYTVVGGGLTMDFGFTKCPKISSISEYSDGNTVNARLSSVSPGQGKDSPAITREEALSMIKDCEMSINIKCSEEEKDSNIKTHPVLGSNISHKKVSYEDIIGSTIVDTKCVKNLEISVRIGDMCKESSELEVKDGFKYVDGSASEDAADDTSLINSAKLIACV 1cr6-a1-m1-cA_1cr6-a1-m1-cB CRYSTAL STRUCTURE OF MURINE SOLUBLE EPOXIDE HYDROLASE COMPLEXED WITH CPU INHIBITOR P34914 P34914 2.8 X-RAY DIFFRACTION 188 1.0 10090 (Mus musculus) 10090 (Mus musculus) 487 541 1cqz-a1-m1-cA_1cqz-a1-m1-cB 1ek1-a1-m1-cA_1ek1-a1-m1-cB 1ek2-a1-m1-cA_1ek2-a1-m1-cB RVAAFDLDGVLALPSIGPTEQLMKGKITFSQWQIFSQAMAARSINRPMLQAAIALKKKGFTTCIVTNNWLDDGDKRDSLAQMMCELSQHFDFLIESCQVGMIKPEPQIYNFLLDTLKAKPNEVVFLDDFGSNLKPARDMGMVTILVHNTASALRELEKVTGTQFPEAPLPVPCNPNDVSHGYVTVKPGIRLHFVEMGSGPALCLCHGFPESWFSWRYQIPALAQAGFRVLAIDMKGYGDSSSPPEIEEYAMELLCKEMVTFLDKLGIPQAVFIGHDWAGVMVWNMALFYPERVRAVASLNTPFMPPDPDVSPMKVIRSIPVFNYQLYFQEPGVAEAELEKNMSRTFKSFFRASDETGFIAVHKATEIGGILVNTPEDPNLSKITTEEEIEFYIQQFKKTGFRGPLNWYRNTERNWKWSCKGLGRKILVPALMVTAEKDIVLRPEMSKNMEKWIPFLKRGHIEDCGHWTQIEKPTEVNQILIKWLQTE RVAAFDLDGVLALPSIAGAFRRSEEALALPRDFLLGAYQTEFPEGPTEQLMKGKITFSQWVPLMDESYRKSSKACGANLPENFSISQIFSQAMAARSINRPMLQAAIALKKKGFTTCIVTNNWLDDGDKRDSLAQMMCELSQHFDFLIESCQVGMIKPEPQIYNFLLDTLKAKPNEVVFLDDFGSNLKPARDMGMVTILVHNTASALRELEKVTGTQFPEAPLPVPCNPNDVSHGYVTVKPGIRLHFVEMGSGPALCLCHGFPESWFSWRYQIPALAQAGFRVLAIDMKGYGDSSSPPEIEEYAMELLCKEMVTFLDKLGIPQAVFIGHDWAGVMVWNMALFYPERVRAVASLNTPFMPPDPDVSPMKVIRSIPVFNYQLYFQEPGVAEAELEKNMSRTFKSFFRASDETGFIAVHKATEIGGILVNTPEDPNLSKITTEEEIEFYIQQFKKTGFRGPLNWYRNTERNWKWSCKGLGRKILVPALMVTAEKDIVLRPEMSKNMEKWIPFLKRGHIEDCGHWTQIEKPTEVNQILIKWLQTE 1cru-a1-m1-cA_1cru-a1-m1-cB SOLUBLE QUINOPROTEIN GLUCOSE DEHYDROGENASE FROM ACINETOBACTER CALCOACETICUS IN COMPLEX WITH PQQ AND METHYLHYDRAZINE P13650 P13650 1.5 X-RAY DIFFRACTION 89 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 448 452 1c9u-a1-m1-cA_1c9u-a1-m1-cB 1cq1-a1-m1-cA_1cq1-a1-m1-cB 1qbi-a1-m1-cA_1qbi-a1-m1-cB 5min-a1-m1-cA_5min-a1-m1-cB DVPLTPSQFAKAKSENFDKKVILSNLNKPHALLWGPDNQIWLTERATGKILRVNPESGSVKTVFQVPEIVNDADGQNGLLGFAFHPDFKNNPYIYISGTFKNPKSKELPNQTIIRRYTYNKSTDTLEKPVDLLAGLPSSKDHQSGRLVIGPDQKIYYTIGDQGRNQLAYLFLPNQAQHTPTQQELNGKDYHTYMGKVLRLNLDGSIPKDNPSFNGVVSHIYTLGHRNPQGLAFTPNGKLLQSEQGPNSDDEINLIVKGGNYGWPNVAGYKDDSGYAYANYSAAANKSIKDLAQNGVKVAAGVPVTKESEWTGKNFVPPLKTLYTVQDTYNYNDPTCGEMTYICWPTVAPSSAYVYKGGKKAITGWENTLLVPSLKRGVIFRIKLDPTYSTTYDDAVPMFKSNNRYRDVIASPDGNVLYVLTDTAGNVQKDDGSVTNTLENPGSLIKFT DVPLTPSQFAKAKSENFDKKVILSNLNKPHALLWGPDNQIWLTERATGKILRVNPESGSVKTVFQVPEIVNDADGQNGLLGFAFHPDFKNNPYIYISGTFKNPKSTDKELPNQTIIRRYTYNKSTDTLEKPVDLLAGLPSSKDHQSGRLVIGPDQKIYYTIGDQGRNQLAYLFLPNQAQHTPTQQELNGKDYHTYMGKVLRLNLDGSIPKDNPSFNGVVSHIYTLGHRNPQGLAFTPNGKLLQSEQGPNSDDEINLIVKGGNYGWPNVAGYKDDSGYAYANYSAAANKSIKDLAQNGVKVAAGVPVTKESEWTGKNFVPPLKTLYTVQDTYNYNDPTCGEMTYICWPTVAPSSAYVYKGGKKAITGWENTLLVPSLKRGVIFRIKLDPTYSTTYDDAVPMFKSNNRYRDVIASPDGNVLYVLTDTAGNVQKDDGSVTNTLENPGSLIKFTYK 1cs1-a1-m1-cA_1cs1-a1-m1-cD CYSTATHIONINE GAMMA-SYNTHASE (CGS) FROM ESCHERICHIA COLI P00935 P00935 1.5 X-RAY DIFFRACTION 101 1.0 562 (Escherichia coli) 562 (Escherichia coli) 383 383 1cs1-a1-m1-cB_1cs1-a1-m1-cC RKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG RKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG 1cs1-a1-m1-cB_1cs1-a1-m1-cD CYSTATHIONINE GAMMA-SYNTHASE (CGS) FROM ESCHERICHIA COLI P00935 P00935 1.5 X-RAY DIFFRACTION 171 1.0 562 (Escherichia coli) 562 (Escherichia coli) 383 383 1cs1-a1-m1-cA_1cs1-a1-m1-cC RKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG RKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG 1cs1-a1-m1-cC_1cs1-a1-m1-cD CYSTATHIONINE GAMMA-SYNTHASE (CGS) FROM ESCHERICHIA COLI P00935 P00935 1.5 X-RAY DIFFRACTION 80 1.0 562 (Escherichia coli) 562 (Escherichia coli) 383 383 1cs1-a1-m1-cA_1cs1-a1-m1-cB RKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG RKQATIAVRSGLNDDEQYGCVVPPIHLSSTYNFTGFNEPRAHDYSRRGNPTRDVVQRALAELEGGAGAVLTNTGMSAIHLVTTVFLKPGDLLVAPHDCYGGSYRLFDSLAKRGCYRVLFVDQGDEQALRAALAEKPKLVLVESPSNPLLRVVDIAKICHLAREVGAVSVVDNTFLSPALQNPLALGADLVLHSCTYLNGHSDVVAGVVIAKDPDVVTELAWWANNIGVTGGAFDSYLLLRGLRTLVPRMELAQRNAQAIVKYLQTQPLVKKLYHPSLPENQGHEIAARQQKGFGAMLSFELDGDEQTLRRFLGGLSLFTLAESLGGVESLISHAATMTHAGMAPEARAAAGISETLLRISTGIEDGEDLIADLENGFRAANKG 1cs6-a1-m1-cA_1cs6-a1-m2-cA N-TERMINAL FRAGMENT OF AXONIN-1 FROM CHICKEN P28685 P28685 1.8 X-RAY DIFFRACTION 35 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 382 382 RSYGPVFEEQPAHTLFPEGSAEEKVTLTCRARANPPATYRWKMNGTELKMGPDSRYRLVAGDLVISNPVKAKDAGSYQCVATNARGTVVSREASLRFGFLQEFSAEERDPVKITEGWGVMFTCSPPPHYPALSYRWLLNEFPNFIPADGRRFVSQTTGNLYIAKTEASDLGNYSCFATSHIDFITKSVFSKFSQLSLAAEDARQYAPSIKAKFPADTYALTGQMVTLECFAFGNPVPQIKWRKLDGSQTSKWLSSEPLLHIQNVDFEDEGTYECEAENIKGRDTYQGRIIIHAQPDWLDVITDTEADIGSDLRWSCVASGKPRPAVRWLRDGQPLASQNRIEVSGGELRFSKLVLEDSGMYQCVAENKHGTVYASAELTVQA RSYGPVFEEQPAHTLFPEGSAEEKVTLTCRARANPPATYRWKMNGTELKMGPDSRYRLVAGDLVISNPVKAKDAGSYQCVATNARGTVVSREASLRFGFLQEFSAEERDPVKITEGWGVMFTCSPPPHYPALSYRWLLNEFPNFIPADGRRFVSQTTGNLYIAKTEASDLGNYSCFATSHIDFITKSVFSKFSQLSLAAEDARQYAPSIKAKFPADTYALTGQMVTLECFAFGNPVPQIKWRKLDGSQTSKWLSSEPLLHIQNVDFEDEGTYECEAENIKGRDTYQGRIIIHAQPDWLDVITDTEADIGSDLRWSCVASGKPRPAVRWLRDGQPLASQNRIEVSGGELRFSKLVLEDSGMYQCVAENKHGTVYASAELTVQA 1csg-a1-m1-cA_1csg-a1-m1-cB Three-dimensional structure of recombinant human granulocyte-macrophage colony-stimulating factor P04141 P04141 2.7 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 120 SPSPSTQPWEHVNAIQEARRLLNLSRDTAAEMNETVEVISEMFDLQEPTCLQTRLELYKQGLRGSLTKLKGPLTMMASHYKQHCPPTPETSCATQIITFESFKENLKDFLLVIPFDCWEP SPSPSTQPWEHVNAIQEARRLLNLSRDTAAEMNETVEVISEMFDLQEPTCLQTRLELYKQGLRGSLTKLKGPLTMMASHYKQHCPPTPETSCATQIITFESFKENLKDFLLVIPFDCWEP 1csn-a1-m1-cA_1csn-a1-m2-cA BINARY COMPLEX OF CASEIN KINASE-1 WITH MGATP P40233 P40233 2 X-RAY DIFFRACTION 54 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 293 293 2csn-a1-m1-cA_2csn-a1-m2-cA NVVGVHYKVGRRIGEGSFGVIFEGTNLLNNQQVAIKFEPRRSDAPQLRDEYRTYKLLAGCTGIPNVYYFGQEGLHNVLVIDLLGPSLEDLLDLCGRKFSVKTVAMAAKQMLARVQSIHEKSLVYRDIKPDNFLIGRPNSKNANMIYVVDFGMVKFYRDPVTKQHIPYREKKNLSGTARYMSINTHLGREQSRRDDLEALGHVFMYFLRGSLPWQGLKAATNKQKYERIGEKKQSTPLRELCAGFPEEFYKYMHYARNLAFDATPDYDYLQGLFSKVLERLNTTEDENFDWNLL NVVGVHYKVGRRIGEGSFGVIFEGTNLLNNQQVAIKFEPRRSDAPQLRDEYRTYKLLAGCTGIPNVYYFGQEGLHNVLVIDLLGPSLEDLLDLCGRKFSVKTVAMAAKQMLARVQSIHEKSLVYRDIKPDNFLIGRPNSKNANMIYVVDFGMVKFYRDPVTKQHIPYREKKNLSGTARYMSINTHLGREQSRRDDLEALGHVFMYFLRGSLPWQGLKAATNKQKYERIGEKKQSTPLRELCAGFPEEFYKYMHYARNLAFDATPDYDYLQGLFSKVLERLNTTEDENFDWNLL 1ct9-a2-m1-cB_1ct9-a2-m1-cC CRYSTAL STRUCTURE OF ASPARAGINE SYNTHETASE B FROM ESCHERICHIA COLI P22106 P22106 2 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 495 495 1ct9-a1-m1-cD_1ct9-a1-m1-cA ASIFGVFDIKTDAVELRKKALELSRLMRHRGPDWSGIYASDNAILAHERLSIVDVNAGAQPLYNQQKTHVLAVNGEIYNHQALRAEYGDRYQFQTGSDCEVILALYQEKGPEFLDDLQGMFAFALYDSEKDAYLIGRDHLGIIPLYMGYDEHGQLYVASEMKALVPVCRTIKEFPAGSYLWSQDGEIRSYYHRDWFDYDAVKDNVTDKNELRQALEDSVKSHLMSDVPYGVLLSGGLDSSIISAITKKYAWPQLHSFAVGLPGSPDLKAAQEVANHLGTVHHEIHFTVQEGLDAIRDVIYHIETYDVTTIRASTPMYLMSRKIKAMGIKMVLSGEGSDEVFGGYLYFHKAPNAKELHEETVRKLLALHMYDCARANKAMSAWGVEARVPFLDKKFLDVAMRINPQDKMCKMEKHILRECFEAYLPASVAWRQDGVGYSWIDTLKEVAAQQVSDQQLETARFRFPYNTPTSKEAYLYREIFEELFPLPSAAECVPG ASIFGVFDIKTDAVELRKKALELSRLMRHRGPDWSGIYASDNAILAHERLSIVDVNAGAQPLYNQQKTHVLAVNGEIYNHQALRAEYGDRYQFQTGSDCEVILALYQEKGPEFLDDLQGMFAFALYDSEKDAYLIGRDHLGIIPLYMGYDEHGQLYVASEMKALVPVCRTIKEFPAGSYLWSQDGEIRSYYHRDWFDYDAVKDNVTDKNELRQALEDSVKSHLMSDVPYGVLLSGGLDSSIISAITKKYAWPQLHSFAVGLPGSPDLKAAQEVANHLGTVHHEIHFTVQEGLDAIRDVIYHIETYDVTTIRASTPMYLMSRKIKAMGIKMVLSGEGSDEVFGGYLYFHKAPNAKELHEETVRKLLALHMYDCARANKAMSAWGVEARVPFLDKKFLDVAMRINPQDKMCKMEKHILRECFEAYLPASVAWRQDGVGYSWIDTLKEVAAQQVSDQQLETARFRFPYNTPTSKEAYLYREIFEELFPLPSAAECVPG 1ctd-a1-m1-cA_1ctd-a1-m1-cB DETERMINATION OF THE SOLUTION STRUCTURE OF A SYNTHETIC TWO-SITE CALCIUM-BINDING HOMODIMERIC PROTEIN DOMAIN BY NMR SPECTROSCOPY P02588 P02588 NOT SOLUTION NMR 52 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 34 34 1cta-a1-m1-cA_1cta-a1-m1-cB KSEEELANAFRIFDKNADGYIDIEELGEILRATG KSEEELANAFRIFDKNADGYIDIEELGEILRATG 1cte-a1-m1-cA_1cte-a1-m1-cB CRYSTAL STRUCTURES OF RECOMBINANT RAT CATHEPSIN B AND A CATHEPSIN B-INHIBITOR COMPLEX: IMPLICATIONS FOR STRUCTURE-BASED INHIBITOR DESIGN P00787 P00787 2.1 X-RAY DIFFRACTION 67 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 253 253 1cpj-a1-m1-cA_1cpj-a1-m1-cB LPESFDAREQWSNCPTIAQIRDQGSCGSCWAFGAVEAMSDRICIHTNGRVNVEVSAEDLLTCCGIQCGDGCNGGYPSGAWNFWTRKGLVSGGVYNSHIGCLPYTIPPCEHHVNGARPPCTGEGDTPKCNKMCEAGYSTSYKEDKHYGYTSYSVSDSEKEIMAEIYKNGPVEGAFTVFSDFLTYKSGVYKHEAGDVMGGHAIRILGWGIENGVPYWLVANSWNADWGDNGFFKILRGENHCGIESEIVAGIPRT LPESFDAREQWSNCPTIAQIRDQGSCGSCWAFGAVEAMSDRICIHTNGRVNVEVSAEDLLTCCGIQCGDGCNGGYPSGAWNFWTRKGLVSGGVYNSHIGCLPYTIPPCEHHVNGARPPCTGEGDTPKCNKMCEAGYSTSYKEDKHYGYTSYSVSDSEKEIMAEIYKNGPVEGAFTVFSDFLTYKSGVYKHEAGDVMGGHAIRILGWGIENGVPYWLVANSWNADWGDNGFFKILRGENHCGIESEIVAGIPRT 1ctf-a1-m1-cA_1ctf-a1-m2-cA STRUCTURE OF THE C-TERMINAL DOMAIN OF THE RIBOSOMAL PROTEIN L7/L12 FROM ESCHERICHIA COLI AT 1.7 ANGSTROMS P0A7K2 P0A7K2 1.7 X-RAY DIFFRACTION 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 68 68 EFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK EFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK 1ctt-a1-m1-cA_1ctt-a1-m2-cA TRANSITION-STATE SELECTIVITY FOR A SINGLE OH GROUP DURING CATALYSIS BY CYTIDINE DEAMINASE P0ABF6 P0ABF6 2.2 X-RAY DIFFRACTION 158 1.0 562 (Escherichia coli) 562 (Escherichia coli) 294 294 1af2-a1-m1-cA_1af2-a1-m2-cA 1aln-a1-m1-cA_1aln-a1-m2-cA 1ctu-a1-m1-cA_1ctu-a1-m2-cA MHPRFQTAFAQLADNLQSALEPILADKYFPALLTGEQVSSLKSATGLDEDALAFALLPLAAACARTPLSNFNVGAIARGVSGTWYFGANMEFIGATMQQTVHAEQSAISHAWLSGEKALAAITVNYTPCGHCRQFMNELNSGLDLRIHLPGREAHALRDYLPDAFGPKDLEIKTLLMDEQDHGYALTGDALSQAAIAAANRSHMPYSKSPSGVALECKDGRIFSGSYAENAAFNPTLPPLQGALILLNLKGYDYPDIQRAVLAEKADAPLIQWDATSATLKALGCHSIDRVLLA MHPRFQTAFAQLADNLQSALEPILADKYFPALLTGEQVSSLKSATGLDEDALAFALLPLAAACARTPLSNFNVGAIARGVSGTWYFGANMEFIGATMQQTVHAEQSAISHAWLSGEKALAAITVNYTPCGHCRQFMNELNSGLDLRIHLPGREAHALRDYLPDAFGPKDLEIKTLLMDEQDHGYALTGDALSQAAIAAANRSHMPYSKSPSGVALECKDGRIFSGSYAENAAFNPTLPPLQGALILLNLKGYDYPDIQRAVLAEKADAPLIQWDATSATLKALGCHSIDRVLLA 1cu1-a1-m1-cA_1cu1-a1-m1-cB CRYSTAL STRUCTURE OF AN ENZYME COMPLEX FROM HEPATITIS C VIRUS P26663 P26663 2.5 X-RAY DIFFRACTION 75 1.0 11103 () 11103 () 645 645 3o8c-a1-m1-cA_3o8c-a1-m1-cB 3o8d-a1-m1-cA_3o8d-a1-m1-cB 3o8r-a1-m1-cA_3o8r-a1-m1-cB 4a92-a1-m1-cA_4a92-a1-m1-cB 4b6e-a1-m1-cB_4b6e-a1-m1-cA 4b6f-a1-m1-cB_4b6f-a1-m1-cA 4b71-a1-m1-cB_4b71-a1-m1-cA 4b73-a1-m1-cB_4b73-a1-m1-cA 4b74-a1-m1-cB_4b74-a1-m1-cA 4b75-a1-m1-cB_4b75-a1-m1-cA 4b76-a1-m1-cB_4b76-a1-m1-cA 5fps-a1-m1-cA_5fps-a1-m1-cB 5fpt-a1-m1-cB_5fpt-a1-m1-cA 5fpy-a1-m1-cB_5fpy-a1-m1-cA GSVVIVGRIILSGSGSITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMRSPVFTDNSSPPAVPQSFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGAPVTYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSNTGEIPFYGKAIPIEAIRGGRHLIFCHSKKKCDELAAKLSGLGINAVAYYRGLDVSVIPTIGDVVVVATDALMTGYTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRRGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTLTHPITKYIMACMSADLEVVT GSVVIVGRIILSGSGSITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMRSPVFTDNSSPPAVPQSFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGAPVTYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSNTGEIPFYGKAIPIEAIRGGRHLIFCHSKKKCDELAAKLSGLGINAVAYYRGLDVSVIPTIGDVVVVATDALMTGYTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRRGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTLTHPITKYIMACMSADLEVVT 1cul-a2-m1-cC_1cul-a2-m2-cC COMPLEX OF GS-ALPHA WITH THE CATALYTIC DOMAINS OF MAMMALIAN ADENYLYL CYCLASE: COMPLEX WITH 2',5'-DIDEOXY-ADENOSINE 3'-TRIPHOSPHATE AND MG P04896 P04896 2.4 X-RAY DIFFRACTION 23 1.0 9913 (Bos taurus) 9913 (Bos taurus) 328 328 ATHRLLLLGAGESGKSTIVKQMRILHVGEKATKVQDIKNNLKEAIETIVAAMSNLVPPVELANPENQFRVDYILSVMNVPDFDFPPEFYEHAKALWEDEGVRACYERSNEYQLIDCAQYFLDKIDVIKQDDYVPSDQDLLRCRVLTSGIFETKFQVDKVNFHMFDVGGQRDERRKWIQCFNDVTAIIFVVASSSYNMVIREDNQTNRLQEALNLFKSIWNNRWLRTISVILFLNKQDLLAEKVLAGKSKIEDYFPEFARYTTPEDATPEPGEDPRVTRAKYFIRDEFLRISTASGDGRHYCYPHFTCAVDTENIRRVFNDCRDIIQRM ATHRLLLLGAGESGKSTIVKQMRILHVGEKATKVQDIKNNLKEAIETIVAAMSNLVPPVELANPENQFRVDYILSVMNVPDFDFPPEFYEHAKALWEDEGVRACYERSNEYQLIDCAQYFLDKIDVIKQDDYVPSDQDLLRCRVLTSGIFETKFQVDKVNFHMFDVGGQRDERRKWIQCFNDVTAIIFVVASSSYNMVIREDNQTNRLQEALNLFKSIWNNRWLRTISVILFLNKQDLLAEKVLAGKSKIEDYFPEFARYTTPEDATPEPGEDPRVTRAKYFIRDEFLRISTASGDGRHYCYPHFTCAVDTENIRRVFNDCRDIIQRM 1cun-a1-m1-cB_1cun-a1-m1-cC CRYSTAL STRUCTURE OF REPEATS 16 AND 17 OF CHICKEN BRAIN ALPHA SPECTRIN P07751 P07751 2 X-RAY DIFFRACTION 18 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 213 213 1cun-a1-m1-cA_1cun-a1-m1-cB 1cun-a1-m1-cA_1cun-a1-m1-cC MVHQFFRDMDDEESWIKEKKLLVSSEDYGRDLTGVQNLRKKHKRLEAELAAHEPAIQSVLDTGKKLSDDNTIGKEEIQQRLAQFVDHWKELKQLAAARGQRLEESLEYQQFVANVEEEEAWINEKMTLVASEDYGDTLAAIQGLLKKHEAFETDFTVHKDRVNDVCANGEDLIKKNNHHVENITAKMKGLKGKVSDLEKAAAQRKAKLDENSA MVHQFFRDMDDEESWIKEKKLLVSSEDYGRDLTGVQNLRKKHKRLEAELAAHEPAIQSVLDTGKKLSDDNTIGKEEIQQRLAQFVDHWKELKQLAAARGQRLEESLEYQQFVANVEEEEAWINEKMTLVASEDYGDTLAAIQGLLKKHEAFETDFTVHKDRVNDVCANGEDLIKKNNHHVENITAKMKGLKGKVSDLEKAAAQRKAKLDENSA 1cv8-a1-m1-cA_1cv8-a1-m2-cA STAPHOPAIN, CYSTEINE PROTEINASE FROM STAPHYLOCOCCUS AUREUS V8 P81297 P81297 1.75 X-RAY DIFFRACTION 25 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 173 173 NEQYVNKLENFKIRETQGNNGWCAGYTMSALLNATYNTNKYHAEAVMRFLHPNLQGQQFQFTGLTPREMIYFGQTQGRSPQLLNRMTTYNEVDNLTKNNKGIAILGSRVESRNGMHAGHAMAVVGNAKLNNGQEVIIIWNPWDNGFMTQDAKNNVIPVSNGDHYQWYSSIYGY NEQYVNKLENFKIRETQGNNGWCAGYTMSALLNATYNTNKYHAEAVMRFLHPNLQGQQFQFTGLTPREMIYFGQTQGRSPQLLNRMTTYNEVDNLTKNNKGIAILGSRVESRNGMHAGHAMAVVGNAKLNNGQEVIIIWNPWDNGFMTQDAKNNVIPVSNGDHYQWYSSIYGY 1cvs-a2-m1-cD_1cvs-a2-m2-cD CRYSTAL STRUCTURE OF A DIMERIC FGF2-FGFR1 COMPLEX P11362 P11362 2.8 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 1cvs-a2-m1-cC_1cvs-a2-m2-cC MPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPQPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL MPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPQPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL 1cvs-a2-m2-cD_1cvs-a2-m2-cC CRYSTAL STRUCTURE OF A DIMERIC FGF2-FGFR1 COMPLEX P11362 P11362 2.8 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 211 1cvs-a1-m1-cD_1cvs-a1-m1-cC 1cvs-a2-m1-cD_1cvs-a2-m1-cC 1fq9-a1-m1-cD_1fq9-a1-m1-cC MPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPQPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL MPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPQPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHIEVNGSKIGPDNLPYVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL 1cwe-a1-m1-cA_1cwe-a1-m1-cC HUMAN P56LCK TYROSINE KINASE COMPLEXED WITH PHOSPHOPEPTIDE P06239 P06239 2.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 GSWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSR GSWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSR 1cwp-a1-m10-cA_1cwp-a1-m9-cB STRUCTURES OF THE NATIVE AND SWOLLEN FORMS OF COWPEA CHLOROTIC MOTTLE VIRUS DETERMINED BY X-RAY CRYSTALLOGRAPHY AND CRYO-ELECTRON MICROSCOPY P03601 P03601 3.2 X-RAY DIFFRACTION 89 1.0 12303 (Cowpea chlorotic mottle virus) 12303 (Cowpea chlorotic mottle virus) 149 164 1cwp-a1-m10-cC_1cwp-a1-m24-cC 1cwp-a1-m11-cA_1cwp-a1-m15-cB 1cwp-a1-m11-cC_1cwp-a1-m16-cC 1cwp-a1-m12-cA_1cwp-a1-m11-cB 1cwp-a1-m12-cC_1cwp-a1-m38-cC 1cwp-a1-m13-cA_1cwp-a1-m12-cB 1cwp-a1-m13-cC_1cwp-a1-m47-cC 1cwp-a1-m14-cA_1cwp-a1-m13-cB 1cwp-a1-m14-cC_1cwp-a1-m45-cC 1cwp-a1-m15-cA_1cwp-a1-m14-cB 1cwp-a1-m15-cC_1cwp-a1-m29-cC 1cwp-a1-m16-cA_1cwp-a1-m20-cB 1cwp-a1-m17-cA_1cwp-a1-m16-cB 1cwp-a1-m17-cC_1cwp-a1-m28-cC 1cwp-a1-m18-cA_1cwp-a1-m17-cB 1cwp-a1-m18-cC_1cwp-a1-m52-cC 1cwp-a1-m19-cA_1cwp-a1-m18-cB 1cwp-a1-m19-cC_1cwp-a1-m60-cC 1cwp-a1-m1-cA_1cwp-a1-m5-cB 1cwp-a1-m1-cC_1cwp-a1-m6-cC 1cwp-a1-m20-cA_1cwp-a1-m19-cB 1cwp-a1-m20-cC_1cwp-a1-m39-cC 1cwp-a1-m21-cA_1cwp-a1-m25-cB 1cwp-a1-m21-cC_1cwp-a1-m26-cC 1cwp-a1-m22-cA_1cwp-a1-m21-cB 1cwp-a1-m22-cC_1cwp-a1-m43-cC 1cwp-a1-m23-cA_1cwp-a1-m22-cB 1cwp-a1-m24-cA_1cwp-a1-m23-cB 1cwp-a1-m25-cA_1cwp-a1-m24-cB 1cwp-a1-m25-cC_1cwp-a1-m54-cC 1cwp-a1-m26-cA_1cwp-a1-m30-cB 1cwp-a1-m27-cA_1cwp-a1-m26-cB 1cwp-a1-m27-cC_1cwp-a1-m53-cC 1cwp-a1-m28-cA_1cwp-a1-m27-cB 1cwp-a1-m29-cA_1cwp-a1-m28-cB 1cwp-a1-m2-cA_1cwp-a1-m1-cB 1cwp-a1-m2-cC_1cwp-a1-m23-cC 1cwp-a1-m30-cA_1cwp-a1-m29-cB 1cwp-a1-m30-cC_1cwp-a1-m44-cC 1cwp-a1-m31-cA_1cwp-a1-m35-cB 1cwp-a1-m31-cC_1cwp-a1-m36-cC 1cwp-a1-m32-cA_1cwp-a1-m31-cB 1cwp-a1-m32-cC_1cwp-a1-m58-cC 1cwp-a1-m33-cA_1cwp-a1-m32-cB 1cwp-a1-m33-cC_1cwp-a1-m7-cC 1cwp-a1-m34-cA_1cwp-a1-m33-cB 1cwp-a1-m34-cC_1cwp-a1-m5-cC 1cwp-a1-m35-cA_1cwp-a1-m34-cB 1cwp-a1-m35-cC_1cwp-a1-m49-cC 1cwp-a1-m36-cA_1cwp-a1-m40-cB 1cwp-a1-m37-cA_1cwp-a1-m36-cB 1cwp-a1-m37-cC_1cwp-a1-m48-cC 1cwp-a1-m38-cA_1cwp-a1-m37-cB 1cwp-a1-m39-cA_1cwp-a1-m38-cB 1cwp-a1-m3-cA_1cwp-a1-m2-cB 1cwp-a1-m3-cC_1cwp-a1-m42-cC 1cwp-a1-m40-cA_1cwp-a1-m39-cB 1cwp-a1-m40-cC_1cwp-a1-m59-cC 1cwp-a1-m41-cA_1cwp-a1-m45-cB 1cwp-a1-m41-cC_1cwp-a1-m46-cC 1cwp-a1-m42-cA_1cwp-a1-m41-cB 1cwp-a1-m43-cA_1cwp-a1-m42-cB 1cwp-a1-m44-cA_1cwp-a1-m43-cB 1cwp-a1-m45-cA_1cwp-a1-m44-cB 1cwp-a1-m46-cA_1cwp-a1-m50-cB 1cwp-a1-m47-cA_1cwp-a1-m46-cB 1cwp-a1-m48-cA_1cwp-a1-m47-cB 1cwp-a1-m49-cA_1cwp-a1-m48-cB 1cwp-a1-m4-cA_1cwp-a1-m3-cB 1cwp-a1-m4-cC_1cwp-a1-m50-cC 1cwp-a1-m50-cA_1cwp-a1-m49-cB 1cwp-a1-m51-cA_1cwp-a1-m55-cB 1cwp-a1-m51-cC_1cwp-a1-m56-cC 1cwp-a1-m52-cA_1cwp-a1-m51-cB 1cwp-a1-m53-cA_1cwp-a1-m52-cB 1cwp-a1-m54-cA_1cwp-a1-m53-cB 1cwp-a1-m55-cA_1cwp-a1-m54-cB 1cwp-a1-m55-cC_1cwp-a1-m9-cC 1cwp-a1-m56-cA_1cwp-a1-m60-cB 1cwp-a1-m57-cA_1cwp-a1-m56-cB 1cwp-a1-m57-cC_1cwp-a1-m8-cC 1cwp-a1-m58-cA_1cwp-a1-m57-cB 1cwp-a1-m59-cA_1cwp-a1-m58-cB 1cwp-a1-m5-cA_1cwp-a1-m4-cB 1cwp-a1-m60-cA_1cwp-a1-m59-cB 1cwp-a1-m6-cA_1cwp-a1-m10-cB 1cwp-a1-m7-cA_1cwp-a1-m6-cB 1cwp-a1-m8-cA_1cwp-a1-m7-cB 1cwp-a1-m9-cA_1cwp-a1-m8-cB 1za7-a1-m10-cA_1za7-a1-m9-cB 1za7-a1-m10-cC_1za7-a1-m24-cC 1za7-a1-m11-cA_1za7-a1-m15-cB 1za7-a1-m11-cC_1za7-a1-m16-cC 1za7-a1-m12-cA_1za7-a1-m11-cB 1za7-a1-m12-cC_1za7-a1-m38-cC 1za7-a1-m13-cA_1za7-a1-m12-cB 1za7-a1-m13-cC_1za7-a1-m47-cC 1za7-a1-m14-cA_1za7-a1-m13-cB 1za7-a1-m14-cC_1za7-a1-m45-cC 1za7-a1-m15-cA_1za7-a1-m14-cB 1za7-a1-m15-cC_1za7-a1-m29-cC 1za7-a1-m16-cA_1za7-a1-m20-cB 1za7-a1-m17-cA_1za7-a1-m16-cB 1za7-a1-m17-cC_1za7-a1-m28-cC 1za7-a1-m18-cA_1za7-a1-m17-cB 1za7-a1-m18-cC_1za7-a1-m52-cC 1za7-a1-m19-cA_1za7-a1-m18-cB 1za7-a1-m19-cC_1za7-a1-m60-cC 1za7-a1-m1-cA_1za7-a1-m5-cB 1za7-a1-m1-cC_1za7-a1-m6-cC 1za7-a1-m20-cA_1za7-a1-m19-cB 1za7-a1-m20-cC_1za7-a1-m39-cC 1za7-a1-m21-cA_1za7-a1-m25-cB 1za7-a1-m21-cC_1za7-a1-m26-cC 1za7-a1-m22-cA_1za7-a1-m21-cB 1za7-a1-m22-cC_1za7-a1-m43-cC 1za7-a1-m23-cA_1za7-a1-m22-cB 1za7-a1-m24-cA_1za7-a1-m23-cB 1za7-a1-m25-cA_1za7-a1-m24-cB 1za7-a1-m25-cC_1za7-a1-m54-cC 1za7-a1-m26-cA_1za7-a1-m30-cB 1za7-a1-m27-cA_1za7-a1-m26-cB 1za7-a1-m27-cC_1za7-a1-m53-cC 1za7-a1-m28-cA_1za7-a1-m27-cB 1za7-a1-m29-cA_1za7-a1-m28-cB 1za7-a1-m2-cA_1za7-a1-m1-cB 1za7-a1-m2-cC_1za7-a1-m23-cC 1za7-a1-m30-cA_1za7-a1-m29-cB 1za7-a1-m30-cC_1za7-a1-m44-cC 1za7-a1-m31-cA_1za7-a1-m35-cB 1za7-a1-m31-cC_1za7-a1-m36-cC 1za7-a1-m32-cA_1za7-a1-m31-cB 1za7-a1-m32-cC_1za7-a1-m58-cC 1za7-a1-m33-cA_1za7-a1-m32-cB 1za7-a1-m33-cC_1za7-a1-m7-cC 1za7-a1-m34-cA_1za7-a1-m33-cB 1za7-a1-m34-cC_1za7-a1-m5-cC 1za7-a1-m35-cA_1za7-a1-m34-cB 1za7-a1-m35-cC_1za7-a1-m49-cC 1za7-a1-m36-cA_1za7-a1-m40-cB 1za7-a1-m37-cA_1za7-a1-m36-cB 1za7-a1-m37-cC_1za7-a1-m48-cC 1za7-a1-m38-cA_1za7-a1-m37-cB 1za7-a1-m39-cA_1za7-a1-m38-cB 1za7-a1-m3-cA_1za7-a1-m2-cB 1za7-a1-m3-cC_1za7-a1-m42-cC 1za7-a1-m40-cA_1za7-a1-m39-cB 1za7-a1-m40-cC_1za7-a1-m59-cC 1za7-a1-m41-cA_1za7-a1-m45-cB 1za7-a1-m41-cC_1za7-a1-m46-cC 1za7-a1-m42-cA_1za7-a1-m41-cB 1za7-a1-m43-cA_1za7-a1-m42-cB 1za7-a1-m44-cA_1za7-a1-m43-cB 1za7-a1-m45-cA_1za7-a1-m44-cB 1za7-a1-m46-cA_1za7-a1-m50-cB 1za7-a1-m47-cA_1za7-a1-m46-cB 1za7-a1-m48-cA_1za7-a1-m47-cB 1za7-a1-m49-cA_1za7-a1-m48-cB 1za7-a1-m4-cA_1za7-a1-m3-cB 1za7-a1-m4-cC_1za7-a1-m50-cC 1za7-a1-m50-cA_1za7-a1-m49-cB 1za7-a1-m51-cA_1za7-a1-m55-cB 1za7-a1-m51-cC_1za7-a1-m56-cC 1za7-a1-m52-cA_1za7-a1-m51-cB 1za7-a1-m53-cA_1za7-a1-m52-cB 1za7-a1-m54-cA_1za7-a1-m53-cB 1za7-a1-m55-cA_1za7-a1-m54-cB 1za7-a1-m55-cC_1za7-a1-m9-cC 1za7-a1-m56-cA_1za7-a1-m60-cB 1za7-a1-m57-cA_1za7-a1-m56-cB 1za7-a1-m57-cC_1za7-a1-m8-cC 1za7-a1-m58-cA_1za7-a1-m57-cB 1za7-a1-m59-cA_1za7-a1-m58-cB 1za7-a1-m5-cA_1za7-a1-m4-cB 1za7-a1-m60-cA_1za7-a1-m59-cB 1za7-a1-m6-cA_1za7-a1-m10-cB 1za7-a1-m7-cA_1za7-a1-m6-cB 1za7-a1-m8-cA_1za7-a1-m7-cB 1za7-a1-m9-cA_1za7-a1-m8-cB KAIKAWTGYSVSKWTASCAAAEAKVTSAITISLPNELSSERNKQLKVGRVLLWLGLLPSVSGTVKSCVTETQTTAAASFQVALAVADNSKDVVAAMYPEAFKGITLEQLAADLTIYLYSSAALTEGDVIVHLEVEHVRPTFDDSFTPVY VVQPVIVEPIASGQGKAIKAWTGYSVSKWTASCAAAEAKVTSAITISLPNELSSERNKQLKVGRVLLWLGLLPSVSGTVKSCVTETQTTAAASFQVALAVADNSKDVVAAMYPEAFKGITLEQLAADLTIYLYSSAALTEGDVIVHLEVEHVRPTFDDSFTPVY 1cy9-a1-m1-cB_1cy9-a1-m1-cA CRYSTAL STRUCTURE OF THE 30 KDA FRAGMENT OF E. COLI DNA TOPOISOMERASE I. MONOCLINIC FORM P06612 P06612 1.8 X-RAY DIFFRACTION 17 0.996 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 243 245 PEEFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPDRILPAVNKGDALTLVELTPAQHFTK FVPEEFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMDRILPAVNKGDALTLVELTPAQHFTKP 1cyd-a1-m1-cA_1cyd-a1-m1-cD CARBONYL REDUCTASE COMPLEXED WITH NADPH AND 2-PROPANOL P08074 P08074 1.8 X-RAY DIFFRACTION 130 1.0 10090 (Mus musculus) 10090 (Mus musculus) 242 242 1cyd-a1-m1-cB_1cyd-a1-m1-cC LNFSGLRALVTGAGKGIGRDTVKALHASGAKVVAVTRTNSDLVSLAKECPGIEPVCVDLGDWDATEKALGGIGPVDLLVNNAALVIMQPFLEVTKEAFDRSFSVNLRSVFQVSQMVARDMINRGVPGSIVNVSSMVAHVTFPNLITYSSTKGAMTMLTKAMAMELGPHKIRVNSVNPTVVLTDMGKKVSADPEFARKLKERHPLRKFAEVEDVVNSILFLLSDRSASTSGGGILVDAGYLAS LNFSGLRALVTGAGKGIGRDTVKALHASGAKVVAVTRTNSDLVSLAKECPGIEPVCVDLGDWDATEKALGGIGPVDLLVNNAALVIMQPFLEVTKEAFDRSFSVNLRSVFQVSQMVARDMINRGVPGSIVNVSSMVAHVTFPNLITYSSTKGAMTMLTKAMAMELGPHKIRVNSVNPTVVLTDMGKKVSADPEFARKLKERHPLRKFAEVEDVVNSILFLLSDRSASTSGGGILVDAGYLAS 1cyd-a1-m1-cC_1cyd-a1-m1-cD CARBONYL REDUCTASE COMPLEXED WITH NADPH AND 2-PROPANOL P08074 P08074 1.8 X-RAY DIFFRACTION 115 1.0 10090 (Mus musculus) 10090 (Mus musculus) 242 242 1cyd-a1-m1-cA_1cyd-a1-m1-cB LNFSGLRALVTGAGKGIGRDTVKALHASGAKVVAVTRTNSDLVSLAKECPGIEPVCVDLGDWDATEKALGGIGPVDLLVNNAALVIMQPFLEVTKEAFDRSFSVNLRSVFQVSQMVARDMINRGVPGSIVNVSSMVAHVTFPNLITYSSTKGAMTMLTKAMAMELGPHKIRVNSVNPTVVLTDMGKKVSADPEFARKLKERHPLRKFAEVEDVVNSILFLLSDRSASTSGGGILVDAGYLAS LNFSGLRALVTGAGKGIGRDTVKALHASGAKVVAVTRTNSDLVSLAKECPGIEPVCVDLGDWDATEKALGGIGPVDLLVNNAALVIMQPFLEVTKEAFDRSFSVNLRSVFQVSQMVARDMINRGVPGSIVNVSSMVAHVTFPNLITYSSTKGAMTMLTKAMAMELGPHKIRVNSVNPTVVLTDMGKKVSADPEFARKLKERHPLRKFAEVEDVVNSILFLLSDRSASTSGGGILVDAGYLAS 1cyw-a2-m1-cA_1cyw-a2-m4-cA QUINOL OXIDASE (PERIPLASMIC FRAGMENT OF SUBUNIT II) (CYOA) P0ABJ1 P0ABJ1 2.5 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 159 159 1cyw-a2-m2-cA_1cyw-a2-m3-cA KPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMA KPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMA 1cyw-a2-m2-cA_1cyw-a2-m4-cA QUINOL OXIDASE (PERIPLASMIC FRAGMENT OF SUBUNIT II) (CYOA) P0ABJ1 P0ABJ1 2.5 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 159 159 1cyw-a2-m1-cA_1cyw-a2-m3-cA KPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMA KPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMA 1cyw-a2-m3-cA_1cyw-a2-m4-cA QUINOL OXIDASE (PERIPLASMIC FRAGMENT OF SUBUNIT II) (CYOA) P0ABJ1 P0ABJ1 2.5 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 159 159 1cyw-a1-m1-cA_1cyw-a1-m2-cA 1cyw-a2-m1-cA_1cyw-a2-m2-cA KPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMA KPITIEVVSMDWKWFFIYPEQGIATVNEIAFPANTPVYFKVTSNSVMNSFFIPRLGSQIYAMAGMQTRLHLIANEPGTYDGISASYSGPGFSGMKFKAIATPDRAAFDQWVAKAKQSPNTMSDMAAFEKLAAPSEYNQVEYFSNVKPDLFADVINKFMA 1cyy-a2-m1-cA_1cyy-a2-m2-cA CRYSTAL STRUCTURE OF THE 30 KDA FRAGMENT OF E. COLI DNA TOPOISOMERASE I. HEXAGONAL FORM P06612 P06612 2.15 X-RAY DIFFRACTION 64 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 250 EFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASKENSQEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALDRILPAVNKGDALTLVELTPAQHFTK EFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASKENSQEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALDRILPAVNKGDALTLVELTPAQHFTK 1cyy-a2-m2-cA_1cyy-a2-m2-cB CRYSTAL STRUCTURE OF THE 30 KDA FRAGMENT OF E. COLI DNA TOPOISOMERASE I. HEXAGONAL FORM P06612 P06612 2.15 X-RAY DIFFRACTION 79 0.98 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 251 1cyy-a1-m1-cA_1cyy-a1-m1-cB 1cyy-a2-m1-cA_1cyy-a2-m1-cB EFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASKENSQEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALDRILPAVNKGDALTLVELTPAQHFTK FVPEEFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALDRILPAVNKGDALTLVELTPAQHFTKPP 1cyy-a3-m1-cA_1cyy-a3-m2-cB CRYSTAL STRUCTURE OF THE 30 KDA FRAGMENT OF E. COLI DNA TOPOISOMERASE I. HEXAGONAL FORM P06612 P06612 2.15 X-RAY DIFFRACTION 30 0.98 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 251 1cyy-a2-m1-cA_1cyy-a2-m2-cB 1cyy-a2-m2-cA_1cyy-a2-m1-cB EFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASKENSQEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALDRILPAVNKGDALTLVELTPAQHFTK FVPEEFWEVDASTTTPSGEALALQVTHQNDKPFRPVNKEQTQAAVSLLEKARYSVLEREDKPTTSKPGAPFITSTLQQAASTRLGFGVKKTMMMAQRLYEAGYITYMRTDSTNLSQDAVNMVRGYISDNFGKKYLPESPNQYASEAHEAIRPSDVNVMAESLKDMEADAQKLYQLIWRQFVACQMTPAKYDSTTLTVGAGDFRLKARGRILRFDGWTKVMPALDRILPAVNKGDALTLVELTPAQHFTKPP 1cz0-a1-m1-cA_1cz0-a1-m1-cB INTRON ENCODED HOMING ENDONUCLEASE I-PPOI/DNA COMPLEX LACKING CATALYTIC METAL ION Q94702 Q94702 2.1 X-RAY DIFFRACTION 171 1.0 5791 (Physarum polycephalum) 5791 (Physarum polycephalum) 162 162 1a73-a1-m1-cA_1a73-a1-m1-cB 1a74-a1-m1-cA_1a74-a1-m1-cB 1cyq-a1-m1-cA_1cyq-a1-m1-cB 1evw-a1-m1-cA_1evw-a1-m1-cB 1evw-a2-m1-cC_1evw-a2-m1-cD 1evx-a1-m1-cA_1evx-a1-m1-cB 1ipp-a1-m1-cA_1ipp-a1-m1-cB 2o6m-a1-m1-cA_2o6m-a1-m1-cB ALTNAQILAVIDSWEETVGQFPVITHHVPLGGGLQGTLHCYEIPLAAPYGVGFAKNGPTRWQYKRTINQVVHRWGSHTVPFLLEPDNINGKTCTASHLCHNTRCHNPLHLCWESLDDNKGRNWCPGPNGGCVHAVVCLRQGPLYGPGATVAGPQQRGSHFVV ALTNAQILAVIDSWEETVGQFPVITHHVPLGGGLQGTLHCYEIPLAAPYGVGFAKNGPTRWQYKRTINQVVHRWGSHTVPFLLEPDNINGKTCTASHLCHNTRCHNPLHLCWESLDDNKGRNWCPGPNGGCVHAVVCLRQGPLYGPGATVAGPQQRGSHFVV 1cz7-a3-m1-cD_1cz7-a3-m2-cD THE CRYSTAL STRUCTURE OF A MINUS-END DIRECTED MICROTUBULE MOTOR PROTEIN NCD REVEALS VARIABLE DIMER CONFORMATIONS P20480 P20480 2.9 X-RAY DIFFRACTION 52 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 365 365 LSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAQAKSKMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRATASTAGNERSSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPINRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNSCK LSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAQAKSKMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRATASTAGNERSSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPINRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNSCK 1cz7-a3-m2-cC_1cz7-a3-m2-cD THE CRYSTAL STRUCTURE OF A MINUS-END DIRECTED MICROTUBULE MOTOR PROTEIN NCD REVEALS VARIABLE DIMER CONFORMATIONS P20480 P20480 2.9 X-RAY DIFFRACTION 85 0.997 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 364 365 1cz7-a1-m1-cB_1cz7-a1-m1-cA 1cz7-a2-m1-cC_1cz7-a2-m1-cD 1cz7-a3-m1-cC_1cz7-a3-m1-cD 2ncd-a1-m1-cA_2ncd-a1-m2-cA ALSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAQAKSKMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRATASTAGNERSSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPINRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNS LSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAQAKSKMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRATASTAGNERSSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPINRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNSCK 1czf-a3-m1-cB_1czf-a3-m2-cA ENDO-POLYGALACTURONASE II FROM ASPERGILLUS NIGER P26214 P26214 1.68 X-RAY DIFFRACTION 19 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 335 335 DSCTFTTAAAAKAGKAKCSTITLNNIEVPAGTTLDLTGLTSGTKVIFEGTTTFQYEEWAGPLISMSGEHITVTGASGHLINCDGARWWDGKGTSGKKKPKFFYAHGLDSSSITGLNIKNTPLMAFSVQANDITFTDVTINNADGDTQGGHNTDAFDVGNSVGVNIIKPWVHNQDDCLAVNSGENIWFTGGTCIGGHGLSIGSVGDRSNNVVKNVTIEHSTVSNSENAVRIKTISGATGSVSEITYSNIVMSGISDYGVVIQQDYEDGKPTGKPTNGVTIQDVKLESVTGSVDSGATEIYLLCGSGSCSDWTWDDVKVTGGKKSTACKNFPSVASC DSCTFTTAAAAKAGKAKCSTITLNNIEVPAGTTLDLTGLTSGTKVIFEGTTTFQYEEWAGPLISMSGEHITVTGASGHLINCDGARWWDGKGTSGKKKPKFFYAHGLDSSSITGLNIKNTPLMAFSVQANDITFTDVTINNADGDTQGGHNTDAFDVGNSVGVNIIKPWVHNQDDCLAVNSGENIWFTGGTCIGGHGLSIGSVGDRSNNVVKNVTIEHSTVSNSENAVRIKTISGATGSVSEITYSNIVMSGISDYGVVIQQDYEDGKPTGKPTNGVTIQDVKLESVTGSVDSGATEIYLLCGSGSCSDWTWDDVKVTGGKKSTACKNFPSVASC 1czj-a1-m1-cA_1czj-a1-m2-cA CYTOCHROME C OF CLASS III (AMBLER) 26 KD P38554 P38554 2.16 X-RAY DIFFRACTION 43 1.0 52561 (Desulfomicrobium norvegicum) 52561 (Desulfomicrobium norvegicum) 110 110 1aqe-a1-m1-cA_1aqe-a1-m2-cA TFEIPESVTMSPKQFEGYTPKKGDVTFNHASHMDIACQQCHHTVPDTYTIESCMTEGCHDNIKERTEISSVYRTFHTTKDSEKSCVGCHRELKRQGPSDAPLACNSCHVQ TFEIPESVTMSPKQFEGYTPKKGDVTFNHASHMDIACQQCHHTVPDTYTIESCMTEGCHDNIKERTEISSVYRTFHTTKDSEKSCVGCHRELKRQGPSDAPLACNSCHVQ 1d02-a1-m1-cA_1d02-a1-m1-cB CRYSTAL STRUCTURE OF MUNI RESTRICTION ENDONUCLEASE IN COMPLEX WITH COGNATE DNA P43642 P43642 1.7 X-RAY DIFFRACTION 143 1.0 2093 (Mycoplasma) 2093 (Mycoplasma) 197 200 LSGRLNWQALAGLKASGAEQNLYNVFNAVFEGTKYVLYEKPKHLKNLYAQVVLPDDVIKEIFNPLIDLSTTQWGVSPAFAIENTETHKILFGEIKRQDGWVEGKDPSAGRGNAHERSCKLFTPGLLKAYRTIGGINDEEILPFWVVFEGDITRDPKRVREITFWYDHYQDNYFMWRPNESGEKLVQHFNEKLKKYLD KSELSGRLNWQALAGLKASGAEQNLYNVFNAVFEGTKYVLYEKPKHLKNLYAQVVLPDDVIKEIFNPLIDLSTTQWGVSPAFAIENTETHKILFGEIKRQDGWVEGKDPSAGRGNAHERSCKLFTPGLLKAYRTIGGINDEEILPFWVVFEGDITRDPKRVREITFWYDHYQDNYFMWRPNESGEKLVQHFNEKLKKYLD 1d06-a2-m1-cA_1d06-a2-m2-cA STRUCTURAL BASIS OF DIMERIZATION AND SENSORY MECHANISMS OF OXYGEN-SENSING DOMAIN OF RHIZOBIUM MELILOTI FIXL DETERMINED AT 1.4A RESOLUTION P10955 P10955 1.4 X-RAY DIFFRACTION 114 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 130 130 GSHMLETEDVVRARDAHLRSILDTVPDATVVSATDGTIVSFNAAAVRQFGYAEEEVIGQNLRILMPEPYRHEHDGYLQRYMATGEKRIIGIDRVVSGQRKDGSTFPMKLAVGEMRSGGERFFTGFIRDLT GSHMLETEDVVRARDAHLRSILDTVPDATVVSATDGTIVSFNAAAVRQFGYAEEEVIGQNLRILMPEPYRHEHDGYLQRYMATGEKRIIGIDRVVSGQRKDGSTFPMKLAVGEMRSGGERFFTGFIRDLT 1d0q-a1-m1-cA_1d0q-a1-m1-cB STRUCTURE OF THE ZINC-BINDING DOMAIN OF BACILLUS STEAROTHERMOPHILUS DNA PRIMASE Q9X4D0 Q9X4D0 1.71 X-RAY DIFFRACTION 48 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 102 102 GHRIPEETIEAIRRGVDIVDVIGEYVQLKRQGRNYFGLCPFHGEKTPSFSVSPEKQIFHCFGCGAGGNAFTFLMDIEGIPFVEAAKRLAAKAGVDLSVYELD GHRIPEETIEAIRRGVDIVDVIGEYVQLKRQGRNYFGLCPFHGEKTPSFSVSPEKQIFHCFGCGAGGNAFTFLMDIEGIPFVEAAKRLAAKAGVDLSVYELD 1d1g-a1-m1-cA_1d1g-a1-m1-cB DIHYDROFOLATE REDUCTASE FROM THERMOTOGA MARITIMA Q60034 Q60034 2.1 X-RAY DIFFRACTION 105 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 164 164 1cz3-a1-m1-cA_1cz3-a1-m1-cB AKVIFVLAMDVSGKIASSVESWSSFEDRKNFRKITTEIGNVVMGRITFEEIGRPLPERLNVVLTRRPKTSNNPSLVFFNGSPADVVKFLEGKGYERVAVIGGKTVFTEFLREKLVDELFVTVEPYVFGKGIPFFDEFEGYFPLKLLEMRRLNERGTLFLKYSVE AKVIFVLAMDVSGKIASSVESWSSFEDRKNFRKITTEIGNVVMGRITFEEIGRPLPERLNVVLTRRPKTSNNPSLVFFNGSPADVVKFLEGKGYERVAVIGGKTVFTEFLREKLVDELFVTVEPYVFGKGIPFFDEFEGYFPLKLLEMRRLNERGTLFLKYSVE 1d1j-a1-m1-cB_1d1j-a1-m1-cD CRYSTAL STRUCTURE OF HUMAN PROFILIN II P35080 P35080 2.2 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 138 1d1j-a1-m1-cC_1d1j-a1-m1-cA GWQSYVDNLMCDGCCQEAAIVGYCDAKYVWAATAGGVFQSITPIEIDMIVGKDREGFFTNGLTLGAKKCSVIRDSLYVDGDCTMDIRTKSQGGEPTYNVAVGRAGRALVIVMGKEGVHGGTLNKKAYELALYLRRS AGWQSYVDNLMCDGCCQEAAIVGYCDAKYVWAATAGGVFQSITPIEIDMIVGKDREGFFTNGLTLGAKKCSVIRDSLYVDGDCTMDIRTKSQGGEPTYNVAVGRAGRALVIVMGKEGVHGGTLNKKAYELALYLRRSD 1d1j-a1-m1-cC_1d1j-a1-m1-cD CRYSTAL STRUCTURE OF HUMAN PROFILIN II P35080 P35080 2.2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 138 1d1j-a1-m1-cB_1d1j-a1-m1-cA AGWQSYVDNLMCDGCCQEAAIVGYCDAKYVWAATAGGVFQSITPIEIDMIVGKDREGFFTNGLTLGAKKCSVIRDSLYVDGDCTMDIRTKSQGGEPTYNVAVGRAGRALVIVMGKEGVHGGTLNKKAYELALYLRRS AGWQSYVDNLMCDGCCQEAAIVGYCDAKYVWAATAGGVFQSITPIEIDMIVGKDREGFFTNGLTLGAKKCSVIRDSLYVDGDCTMDIRTKSQGGEPTYNVAVGRAGRALVIVMGKEGVHGGTLNKKAYELALYLRRSD 1d1z-a1-m1-cC_1d1z-a1-m1-cD CRYSTAL STRUCTURE OF THE XLP PROTEIN SAP O60880 O60880 1.4 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 1d1z-a1-m1-cB_1d1z-a1-m1-cA VAVYHGKISRETGEKLLLATGLDGSYLLRDSESVPGVYCLCVLYHGYIYTYRVSQTETGSWSAETAPGVHKRYFRKIKNLISAFQKPDQGIVIPLQYPVEK VAVYHGKISRETGEKLLLATGLDGSYLLRDSESVPGVYCLCVLYHGYIYTYRVSQTETGSWSAETAPGVHKRYFRKIKNLISAFQKPDQGIVIPLQYPVEK 1d1z-a2-m1-cB_1d1z-a2-m1-cD CRYSTAL STRUCTURE OF THE XLP PROTEIN SAP O60880 O60880 1.4 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 101 1d1z-a1-m1-cB_1d1z-a1-m1-cD 1d1z-a2-m2-cA_1d1z-a2-m3-cC VAVYHGKISRETGEKLLLATGLDGSYLLRDSESVPGVYCLCVLYHGYIYTYRVSSAETAPGVHKRYFRKIKNLISAFQKPDQGIVIPLQYPVEK VAVYHGKISRETGEKLLLATGLDGSYLLRDSESVPGVYCLCVLYHGYIYTYRVSQTETGSWSAETAPGVHKRYFRKIKNLISAFQKPDQGIVIPLQYPVEK 1d1z-a2-m1-cD_1d1z-a2-m2-cA CRYSTAL STRUCTURE OF THE XLP PROTEIN SAP O60880 O60880 1.4 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 VAVYHGKISRETGEKLLLATGLDGSYLLRDSESVPGVYCLCVLYHGYIYTYRVSQTETGSWSAETAPGVHKRYFRKIKNLISAFQKPDQGIVIPLQYPVEK VAVYHGKISRETGEKLLLATGLDGSYLLRDSESVPGVYCLCVLYHGYIYTYRVSQTETGSWSAETAPGVHKRYFRKIKNLISAFQKPDQGIVIPLQYPVEK 1d2e-a1-m1-cA_1d2e-a1-m1-cC CRYSTAL STRUCTURE OF MITOCHONDRIAL EF-TU IN COMPLEX WITH GDP P49410 P49410 1.94 X-RAY DIFFRACTION 11 1.0 9913 (Bos taurus) 9913 (Bos taurus) 397 397 KPHVNVGTIGHVDHGKTTLTAAITKILAEGGGAKFKKYEEIDNAPEERARGITINAAHVEYSTAARHYAHTDCPGHADYVKNMITGTAPLDGCILVVAANDGPMPQTREHLLLARQIGVEHVVVYVNKADAVQDSEMVELVELEIRELLTEFGYKGEETPIIVGSALCALEQRDPELGLKSVQKLLDAVDTYIPVPTRDLEKPFLLPVESVYSIPGRGTVVTGTLERGILKKGDECEFLGHSKNIRTVVTGIEMFHKSLDRAEAGDNLGALVRGLKREDLRRGLVMAKPGSIQPHQKVEAQVYILTKEEGGRHKPFVSHFMPVMFSLTWDMACRIILPPGKELAMPGEDLKLTLILRQPMILEKGQRFTLRDGNRTIGTGLVTDTPAMTEEDKNIKW KPHVNVGTIGHVDHGKTTLTAAITKILAEGGGAKFKKYEEIDNAPEERARGITINAAHVEYSTAARHYAHTDCPGHADYVKNMITGTAPLDGCILVVAANDGPMPQTREHLLLARQIGVEHVVVYVNKADAVQDSEMVELVELEIRELLTEFGYKGEETPIIVGSALCALEQRDPELGLKSVQKLLDAVDTYIPVPTRDLEKPFLLPVESVYSIPGRGTVVTGTLERGILKKGDECEFLGHSKNIRTVVTGIEMFHKSLDRAEAGDNLGALVRGLKREDLRRGLVMAKPGSIQPHQKVEAQVYILTKEEGGRHKPFVSHFMPVMFSLTWDMACRIILPPGKELAMPGEDLKLTLILRQPMILEKGQRFTLRDGNRTIGTGLVTDTPAMTEEDKNIKW 1d2e-a1-m1-cA_1d2e-a1-m1-cD CRYSTAL STRUCTURE OF MITOCHONDRIAL EF-TU IN COMPLEX WITH GDP P49410 P49410 1.94 X-RAY DIFFRACTION 38 1.0 9913 (Bos taurus) 9913 (Bos taurus) 397 397 1d2e-a1-m1-cB_1d2e-a1-m1-cC KPHVNVGTIGHVDHGKTTLTAAITKILAEGGGAKFKKYEEIDNAPEERARGITINAAHVEYSTAARHYAHTDCPGHADYVKNMITGTAPLDGCILVVAANDGPMPQTREHLLLARQIGVEHVVVYVNKADAVQDSEMVELVELEIRELLTEFGYKGEETPIIVGSALCALEQRDPELGLKSVQKLLDAVDTYIPVPTRDLEKPFLLPVESVYSIPGRGTVVTGTLERGILKKGDECEFLGHSKNIRTVVTGIEMFHKSLDRAEAGDNLGALVRGLKREDLRRGLVMAKPGSIQPHQKVEAQVYILTKEEGGRHKPFVSHFMPVMFSLTWDMACRIILPPGKELAMPGEDLKLTLILRQPMILEKGQRFTLRDGNRTIGTGLVTDTPAMTEEDKNIKW KPHVNVGTIGHVDHGKTTLTAAITKILAEGGGAKFKKYEEIDNAPEERARGITINAAHVEYSTAARHYAHTDCPGHADYVKNMITGTAPLDGCILVVAANDGPMPQTREHLLLARQIGVEHVVVYVNKADAVQDSEMVELVELEIRELLTEFGYKGEETPIIVGSALCALEQRDPELGLKSVQKLLDAVDTYIPVPTRDLEKPFLLPVESVYSIPGRGTVVTGTLERGILKKGDECEFLGHSKNIRTVVTGIEMFHKSLDRAEAGDNLGALVRGLKREDLRRGLVMAKPGSIQPHQKVEAQVYILTKEEGGRHKPFVSHFMPVMFSLTWDMACRIILPPGKELAMPGEDLKLTLILRQPMILEKGQRFTLRDGNRTIGTGLVTDTPAMTEEDKNIKW 1d2f-a1-m1-cA_1d2f-a1-m1-cB X-RAY STRUCTURE OF MALY FROM ESCHERICHIA COLI: A PYRIDOXAL-5'-PHOSPHATE-DEPENDENT ENZYME ACTING AS A MODULATOR IN MAL GENE EXPRESSION P23256 P23256 2.5 X-RAY DIFFRACTION 155 1.0 562 (Escherichia coli) 562 (Escherichia coli) 361 368 LLPFTISDMDFATAPCIIEALNQRLMHGVFGYSRWKNDEFLAAIAHWFSTQHYTAIDSQTVVYGPSVIYMVSELIRQWSETGEGVVIHTPAYDAFYKAIEGNQRTVMPVALEKQADGWFCDMGKLEAVLAKPECKIMLLCSPQNPTGKVWTCDELEIMADLCERHGVRVISDEIHMDMVWGEQPHIPWSNVARGDWALLTSGSKSFNIPALTGAYGIIENSSSRDAYLSALKGRDGLSSPSVLALTAHIAAYQQGAPWLDALRIYLKDNLTYIADKMNAAFPELNWQIPQSTYLAWLDLRPLNIDDNALQKALIEQEKVAIMPGYTYGEEGRGFVRLNAGCPRSKLEKGVAGLINAIRAVR FDFSKVVLLPFTISDMDFATAPCIIEALNQRLMHGVFGYSRWKNDEFLAAIAHWFSTQHYTAIDSQTVVYGPSVIYMVSELIRQWSETGEGVVIHTPAYDAFYKAIEGNQRTVMPVALEKQADGWFCDMGKLEAVLAKPECKIMLLCSPQNPTGKVWTCDELEIMADLCERHGVRVISDEIHMDMVWGEQPHIPWSNVARGDWALLTSGSKSFNIPALTGAYGIIENSSSRDAYLSALKGRDGLSSPSVLALTAHIAAYQQGAPWLDALRIYLKDNLTYIADKMNAAFPELNWQIPQSTYLAWLDLRPLNIDDNALQKALIEQEKVAIMPGYTYGEEGRGFVRLNAGCPRSKLEKGVAGLINAIRAVR 1d2o-a1-m1-cA_1d2o-a1-m1-cB CRYSTAL STRUCTURE OF A SINGLE B REPEAT UNIT (B1) OF COLLAGEN BINDING SURFACE PROTEIN (CNA) OF STAPHYLOCOCCUS AUREUS. Q53654 Q53654 2 X-RAY DIFFRACTION 34 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 187 187 ETTSSIGEKVWDDKDNQDGKRPEKVSVNLLANGEKVKTLDVTSETNWKYEFKDLPKYDEGKKIEYTVTEDHVKDYTTDINGTTITNKYTPGETSATVTKNWDDNNNQDGKRPTEIKVELYQDGKATGKTAILNESNNWTHTWTGLDEKAKGQQVKYTVEELTKVKGYTTHVDNNDMGNLITTNKYTP ETTSSIGEKVWDDKDNQDGKRPEKVSVNLLANGEKVKTLDVTSETNWKYEFKDLPKYDEGKKIEYTVTEDHVKDYTTDINGTTITNKYTPGETSATVTKNWDDNNNQDGKRPTEIKVELYQDGKATGKTAILNESNNWTHTWTGLDEKAKGQQVKYTVEELTKVKGYTTHVDNNDMGNLITTNKYTP 1d2q-a3-m4-cA_1d2q-a3-m5-cA CRYSTAL STRUCTURE OF HUMAN TRAIL P50591 P50591 2.8 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 1d2q-a2-m1-cB_1d2q-a2-m2-cB 1d2q-a2-m1-cB_1d2q-a2-m3-cB 1d2q-a2-m2-cB_1d2q-a2-m3-cB 1d2q-a3-m1-cA_1d2q-a3-m4-cA 1d2q-a3-m1-cA_1d2q-a3-m5-cA RVAAHITGTRGNTLSKNEKALGRKINSWESSGHSFLSNLHLRNGELVIHEKGFYYIYSQTYFRQMVQYIYKYTSYPDPILLMKSARNSCYGLYSIYQGGIFELKENDRIFVSVTNEHLIDMDHEASFFGAFLVG RVAAHITGTRGNTLSKNEKALGRKINSWESSGHSFLSNLHLRNGELVIHEKGFYYIYSQTYFRQMVQYIYKYTSYPDPILLMKSARNSCYGLYSIYQGGIFELKENDRIFVSVTNEHLIDMDHEASFFGAFLVG 1d3y-a1-m1-cA_1d3y-a1-m1-cB STRUCTURE OF THE DNA TOPOISOMERASE VI A SUBUNIT Q57815 Q57815 2 X-RAY DIFFRACTION 154 0.997 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 289 290 QAKIFAQTTKMLEFAKQLLETDDFSTLREAYYVSKNWGEARFDDQQASNNVIEDLEAALGVLREHLGFIPEEDGSSVVGPLKIIEETPEGELVVDCTKLGTGAYNIPNDVTKLNLETDADFILAIETSGMFARLNAERFWDKHNCILVSLKGVPARATRRFIKRLHEEHDLPVLVFTDGDPYGYLNIYRTLKVDKLSIPAARLIGVTPQDIIDYDLPTHPLKEQDIKRIKDGLKNDDFVRSFPEWQKALKQMLDMGVRAEQQSLAKYGLKYVVNTYLPEKIKDESTWLP NQAKIFAQTTKMLEFAKQLLETDDFSTLREAYYVSKNWGEARFDDQQASNNVIEDLEAALGVLREHLGFIPEEDGSSVVGPLKIIEETPEGELVVDCTKLGTGAYNIPNDVTKLNLETDADFILAIETSGMFARLNAERFWDKHNCILVSLKGVPARATRRFIKRLHEEHDLPVLVFTDGDPYGYLNIYRTLKVGKLSIPAARLIGVTPQDIIDYDLPTHPLKEQDIKRIKDGLKNDDFVRSFPEWQKALKQMLDMGVRAEQQSLAKYGLKYVVNTYLPEKIKDESTWLP 1d4m-a1-m23-c2_1d4m-a1-m9-c2 THE CRYSTAL STRUCTURE OF COXSACKIEVIRUS A9 TO 2.9 A RESOLUTION P21404 P21404 2.9 X-RAY DIFFRACTION 60 1.0 12067 (Coxsackievirus A9) 12067 (Coxsackievirus A9) 252 252 1d4m-a1-m10-c2_1d4m-a1-m5-c2 1d4m-a1-m11-c2_1d4m-a1-m37-c2 1d4m-a1-m12-c2_1d4m-a1-m46-c2 1d4m-a1-m13-c2_1d4m-a1-m44-c2 1d4m-a1-m14-c2_1d4m-a1-m28-c2 1d4m-a1-m15-c2_1d4m-a1-m20-c2 1d4m-a1-m16-c2_1d4m-a1-m27-c2 1d4m-a1-m17-c2_1d4m-a1-m51-c2 1d4m-a1-m18-c2_1d4m-a1-m59-c2 1d4m-a1-m19-c2_1d4m-a1-m38-c2 1d4m-a1-m1-c2_1d4m-a1-m22-c2 1d4m-a1-m21-c2_1d4m-a1-m42-c2 1d4m-a1-m24-c2_1d4m-a1-m53-c2 1d4m-a1-m25-c2_1d4m-a1-m30-c2 1d4m-a1-m26-c2_1d4m-a1-m52-c2 1d4m-a1-m29-c2_1d4m-a1-m43-c2 1d4m-a1-m2-c2_1d4m-a1-m41-c2 1d4m-a1-m31-c2_1d4m-a1-m57-c2 1d4m-a1-m32-c2_1d4m-a1-m6-c2 1d4m-a1-m33-c2_1d4m-a1-m4-c2 1d4m-a1-m34-c2_1d4m-a1-m48-c2 1d4m-a1-m35-c2_1d4m-a1-m40-c2 1d4m-a1-m36-c2_1d4m-a1-m47-c2 1d4m-a1-m39-c2_1d4m-a1-m58-c2 1d4m-a1-m3-c2_1d4m-a1-m49-c2 1d4m-a1-m45-c2_1d4m-a1-m50-c2 1d4m-a1-m54-c2_1d4m-a1-m8-c2 1d4m-a1-m55-c2_1d4m-a1-m60-c2 1d4m-a1-m56-c2_1d4m-a1-m7-c2 3j2j-a1-m10-cC_3j2j-a1-m5-cC 3j2j-a1-m11-cC_3j2j-a1-m37-cC 3j2j-a1-m12-cC_3j2j-a1-m46-cC 3j2j-a1-m13-cC_3j2j-a1-m44-cC 3j2j-a1-m14-cC_3j2j-a1-m28-cC 3j2j-a1-m15-cC_3j2j-a1-m20-cC 3j2j-a1-m16-cC_3j2j-a1-m27-cC 3j2j-a1-m17-cC_3j2j-a1-m51-cC 3j2j-a1-m18-cC_3j2j-a1-m59-cC 3j2j-a1-m19-cC_3j2j-a1-m38-cC 3j2j-a1-m1-cC_3j2j-a1-m22-cC 3j2j-a1-m21-cC_3j2j-a1-m42-cC 3j2j-a1-m23-cC_3j2j-a1-m9-cC 3j2j-a1-m24-cC_3j2j-a1-m53-cC 3j2j-a1-m25-cC_3j2j-a1-m30-cC 3j2j-a1-m26-cC_3j2j-a1-m52-cC 3j2j-a1-m29-cC_3j2j-a1-m43-cC 3j2j-a1-m2-cC_3j2j-a1-m41-cC 3j2j-a1-m31-cC_3j2j-a1-m57-cC 3j2j-a1-m32-cC_3j2j-a1-m6-cC 3j2j-a1-m33-cC_3j2j-a1-m4-cC 3j2j-a1-m34-cC_3j2j-a1-m48-cC 3j2j-a1-m35-cC_3j2j-a1-m40-cC 3j2j-a1-m36-cC_3j2j-a1-m47-cC 3j2j-a1-m39-cC_3j2j-a1-m58-cC 3j2j-a1-m3-cC_3j2j-a1-m49-cC 3j2j-a1-m45-cC_3j2j-a1-m50-cC 3j2j-a1-m54-cC_3j2j-a1-m8-cC 3j2j-a1-m55-cC_3j2j-a1-m60-cC 3j2j-a1-m56-cC_3j2j-a1-m7-cC 8at5-a1-m10-cB_8at5-a1-m58-cB 8at5-a1-m11-cB_8at5-a1-m8-cB 8at5-a1-m12-cB_8at5-a1-m19-cB 8at5-a1-m13-cB_8at5-a1-m6-cB 8at5-a1-m14-cB_8at5-a1-m17-cB 8at5-a1-m15-cB_8at5-a1-m57-cB 8at5-a1-m16-cB_8at5-a1-m52-cB 8at5-a1-m18-cB_8at5-a1-m25-cB 8at5-a1-m1-cB_8at5-a1-m54-cB 8at5-a1-m20-cB_8at5-a1-m23-cB 8at5-a1-m21-cB_8at5-a1-m51-cB 8at5-a1-m22-cB_8at5-a1-m46-cB 8at5-a1-m24-cB_8at5-a1-m31-cB 8at5-a1-m26-cB_8at5-a1-m29-cB 8at5-a1-m27-cB_8at5-a1-m45-cB 8at5-a1-m28-cB_8at5-a1-m40-cB 8at5-a1-m2-cB_8at5-a1-m5-cB 8at5-a1-m30-cB_8at5-a1-m7-cB 8at5-a1-m32-cB_8at5-a1-m35-cB 8at5-a1-m33-cB_8at5-a1-m9-cB 8at5-a1-m34-cB_8at5-a1-m4-cB 8at5-a1-m36-cB_8at5-a1-m43-cB 8at5-a1-m37-cB_8at5-a1-m60-cB 8at5-a1-m38-cB_8at5-a1-m41-cB 8at5-a1-m3-cB_8at5-a1-m39-cB 8at5-a1-m42-cB_8at5-a1-m49-cB 8at5-a1-m44-cB_8at5-a1-m47-cB 8at5-a1-m48-cB_8at5-a1-m55-cB 8at5-a1-m50-cB_8at5-a1-m53-cB 8at5-a1-m56-cB_8at5-a1-m59-cB SDRVRSITLGNSTITTQECANVVVGYGRWPTYLRDDEATAEDQPTQPDVATCRFYTLDSIKWEKGSVGWWWKFPEALSDMGLFGQNMQYHYLGRAGYTIHVQCNASKFHQGCLLVVCVPEAEMGGAVVGQAFSATAMANGDKAYEFTSATQSDQTKVQTAIHNAGMGVGVGNLTIYPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMVIPFVKLDYADTASTYVPITVTVAPMCAEYNGLRLAQAQ SDRVRSITLGNSTITTQECANVVVGYGRWPTYLRDDEATAEDQPTQPDVATCRFYTLDSIKWEKGSVGWWWKFPEALSDMGLFGQNMQYHYLGRAGYTIHVQCNASKFHQGCLLVVCVPEAEMGGAVVGQAFSATAMANGDKAYEFTSATQSDQTKVQTAIHNAGMGVGVGNLTIYPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMVIPFVKLDYADTASTYVPITVTVAPMCAEYNGLRLAQAQ 1d4m-a1-m8-c3_1d4m-a1-m9-c3 THE CRYSTAL STRUCTURE OF COXSACKIEVIRUS A9 TO 2.9 A RESOLUTION P21404 P21404 2.9 X-RAY DIFFRACTION 51 1.0 12067 (Coxsackievirus A9) 12067 (Coxsackievirus A9) 238 238 1d4m-a1-m10-c3_1d4m-a1-m6-c3 1d4m-a1-m10-c3_1d4m-a1-m9-c3 1d4m-a1-m11-c3_1d4m-a1-m12-c3 1d4m-a1-m11-c3_1d4m-a1-m15-c3 1d4m-a1-m12-c3_1d4m-a1-m13-c3 1d4m-a1-m13-c3_1d4m-a1-m14-c3 1d4m-a1-m14-c3_1d4m-a1-m15-c3 1d4m-a1-m16-c3_1d4m-a1-m17-c3 1d4m-a1-m16-c3_1d4m-a1-m20-c3 1d4m-a1-m17-c3_1d4m-a1-m18-c3 1d4m-a1-m18-c3_1d4m-a1-m19-c3 1d4m-a1-m19-c3_1d4m-a1-m20-c3 1d4m-a1-m1-c3_1d4m-a1-m2-c3 1d4m-a1-m1-c3_1d4m-a1-m5-c3 1d4m-a1-m21-c3_1d4m-a1-m22-c3 1d4m-a1-m21-c3_1d4m-a1-m25-c3 1d4m-a1-m22-c3_1d4m-a1-m23-c3 1d4m-a1-m23-c3_1d4m-a1-m24-c3 1d4m-a1-m24-c3_1d4m-a1-m25-c3 1d4m-a1-m26-c3_1d4m-a1-m27-c3 1d4m-a1-m26-c3_1d4m-a1-m30-c3 1d4m-a1-m27-c3_1d4m-a1-m28-c3 1d4m-a1-m28-c3_1d4m-a1-m29-c3 1d4m-a1-m29-c3_1d4m-a1-m30-c3 1d4m-a1-m2-c3_1d4m-a1-m3-c3 1d4m-a1-m31-c3_1d4m-a1-m32-c3 1d4m-a1-m31-c3_1d4m-a1-m35-c3 1d4m-a1-m32-c3_1d4m-a1-m33-c3 1d4m-a1-m33-c3_1d4m-a1-m34-c3 1d4m-a1-m34-c3_1d4m-a1-m35-c3 1d4m-a1-m36-c3_1d4m-a1-m37-c3 1d4m-a1-m36-c3_1d4m-a1-m40-c3 1d4m-a1-m37-c3_1d4m-a1-m38-c3 1d4m-a1-m38-c3_1d4m-a1-m39-c3 1d4m-a1-m39-c3_1d4m-a1-m40-c3 1d4m-a1-m3-c3_1d4m-a1-m4-c3 1d4m-a1-m41-c3_1d4m-a1-m42-c3 1d4m-a1-m41-c3_1d4m-a1-m45-c3 1d4m-a1-m42-c3_1d4m-a1-m43-c3 1d4m-a1-m43-c3_1d4m-a1-m44-c3 1d4m-a1-m44-c3_1d4m-a1-m45-c3 1d4m-a1-m46-c3_1d4m-a1-m47-c3 1d4m-a1-m46-c3_1d4m-a1-m50-c3 1d4m-a1-m47-c3_1d4m-a1-m48-c3 1d4m-a1-m48-c3_1d4m-a1-m49-c3 1d4m-a1-m49-c3_1d4m-a1-m50-c3 1d4m-a1-m4-c3_1d4m-a1-m5-c3 1d4m-a1-m51-c3_1d4m-a1-m52-c3 1d4m-a1-m51-c3_1d4m-a1-m55-c3 1d4m-a1-m52-c3_1d4m-a1-m53-c3 1d4m-a1-m53-c3_1d4m-a1-m54-c3 1d4m-a1-m54-c3_1d4m-a1-m55-c3 1d4m-a1-m56-c3_1d4m-a1-m57-c3 1d4m-a1-m56-c3_1d4m-a1-m60-c3 1d4m-a1-m57-c3_1d4m-a1-m58-c3 1d4m-a1-m58-c3_1d4m-a1-m59-c3 1d4m-a1-m59-c3_1d4m-a1-m60-c3 1d4m-a1-m6-c3_1d4m-a1-m7-c3 1d4m-a1-m7-c3_1d4m-a1-m8-c3 3j2j-a1-m10-cB_3j2j-a1-m6-cB 3j2j-a1-m10-cB_3j2j-a1-m9-cB 3j2j-a1-m11-cB_3j2j-a1-m12-cB 3j2j-a1-m11-cB_3j2j-a1-m15-cB 3j2j-a1-m12-cB_3j2j-a1-m13-cB 3j2j-a1-m13-cB_3j2j-a1-m14-cB 3j2j-a1-m14-cB_3j2j-a1-m15-cB 3j2j-a1-m16-cB_3j2j-a1-m17-cB 3j2j-a1-m16-cB_3j2j-a1-m20-cB 3j2j-a1-m17-cB_3j2j-a1-m18-cB 3j2j-a1-m18-cB_3j2j-a1-m19-cB 3j2j-a1-m19-cB_3j2j-a1-m20-cB 3j2j-a1-m1-cB_3j2j-a1-m2-cB 3j2j-a1-m1-cB_3j2j-a1-m5-cB 3j2j-a1-m21-cB_3j2j-a1-m22-cB 3j2j-a1-m21-cB_3j2j-a1-m25-cB 3j2j-a1-m22-cB_3j2j-a1-m23-cB 3j2j-a1-m23-cB_3j2j-a1-m24-cB 3j2j-a1-m24-cB_3j2j-a1-m25-cB 3j2j-a1-m26-cB_3j2j-a1-m27-cB 3j2j-a1-m26-cB_3j2j-a1-m30-cB 3j2j-a1-m27-cB_3j2j-a1-m28-cB 3j2j-a1-m28-cB_3j2j-a1-m29-cB 3j2j-a1-m29-cB_3j2j-a1-m30-cB 3j2j-a1-m2-cB_3j2j-a1-m3-cB 3j2j-a1-m31-cB_3j2j-a1-m32-cB 3j2j-a1-m31-cB_3j2j-a1-m35-cB 3j2j-a1-m32-cB_3j2j-a1-m33-cB 3j2j-a1-m33-cB_3j2j-a1-m34-cB 3j2j-a1-m34-cB_3j2j-a1-m35-cB 3j2j-a1-m36-cB_3j2j-a1-m37-cB 3j2j-a1-m36-cB_3j2j-a1-m40-cB 3j2j-a1-m37-cB_3j2j-a1-m38-cB 3j2j-a1-m38-cB_3j2j-a1-m39-cB 3j2j-a1-m39-cB_3j2j-a1-m40-cB 3j2j-a1-m3-cB_3j2j-a1-m4-cB 3j2j-a1-m41-cB_3j2j-a1-m42-cB 3j2j-a1-m41-cB_3j2j-a1-m45-cB 3j2j-a1-m42-cB_3j2j-a1-m43-cB 3j2j-a1-m43-cB_3j2j-a1-m44-cB 3j2j-a1-m44-cB_3j2j-a1-m45-cB 3j2j-a1-m46-cB_3j2j-a1-m47-cB 3j2j-a1-m46-cB_3j2j-a1-m50-cB 3j2j-a1-m47-cB_3j2j-a1-m48-cB 3j2j-a1-m48-cB_3j2j-a1-m49-cB 3j2j-a1-m49-cB_3j2j-a1-m50-cB 3j2j-a1-m4-cB_3j2j-a1-m5-cB 3j2j-a1-m51-cB_3j2j-a1-m52-cB 3j2j-a1-m51-cB_3j2j-a1-m55-cB 3j2j-a1-m52-cB_3j2j-a1-m53-cB 3j2j-a1-m53-cB_3j2j-a1-m54-cB 3j2j-a1-m54-cB_3j2j-a1-m55-cB 3j2j-a1-m56-cB_3j2j-a1-m57-cB 3j2j-a1-m56-cB_3j2j-a1-m60-cB 3j2j-a1-m57-cB_3j2j-a1-m58-cB 3j2j-a1-m58-cB_3j2j-a1-m59-cB 3j2j-a1-m59-cB_3j2j-a1-m60-cB 3j2j-a1-m6-cB_3j2j-a1-m7-cB 3j2j-a1-m7-cB_3j2j-a1-m8-cB 3j2j-a1-m8-cB_3j2j-a1-m9-cB 8at5-a1-m10-cC_8at5-a1-m11-cC 8at5-a1-m10-cC_8at5-a1-m57-cC 8at5-a1-m11-cC_8at5-a1-m19-cC 8at5-a1-m12-cC_8at5-a1-m18-cC 8at5-a1-m12-cC_8at5-a1-m6-cC 8at5-a1-m13-cC_8at5-a1-m5-cC 8at5-a1-m13-cC_8at5-a1-m8-cC 8at5-a1-m14-cC_8at5-a1-m19-cC 8at5-a1-m14-cC_8at5-a1-m57-cC 8at5-a1-m15-cC_8at5-a1-m52-cC 8at5-a1-m15-cC_8at5-a1-m56-cC 8at5-a1-m16-cC_8at5-a1-m17-cC 8at5-a1-m16-cC_8at5-a1-m51-cC 8at5-a1-m17-cC_8at5-a1-m25-cC 8at5-a1-m18-cC_8at5-a1-m24-cC 8at5-a1-m1-cC_8at5-a1-m53-cC 8at5-a1-m1-cC_8at5-a1-m56-cC 8at5-a1-m20-cC_8at5-a1-m25-cC 8at5-a1-m20-cC_8at5-a1-m51-cC 8at5-a1-m21-cC_8at5-a1-m46-cC 8at5-a1-m21-cC_8at5-a1-m50-cC 8at5-a1-m22-cC_8at5-a1-m23-cC 8at5-a1-m22-cC_8at5-a1-m45-cC 8at5-a1-m23-cC_8at5-a1-m31-cC 8at5-a1-m24-cC_8at5-a1-m30-cC 8at5-a1-m26-cC_8at5-a1-m31-cC 8at5-a1-m26-cC_8at5-a1-m45-cC 8at5-a1-m27-cC_8at5-a1-m40-cC 8at5-a1-m27-cC_8at5-a1-m44-cC 8at5-a1-m28-cC_8at5-a1-m29-cC 8at5-a1-m28-cC_8at5-a1-m39-cC 8at5-a1-m29-cC_8at5-a1-m7-cC 8at5-a1-m2-cC_8at5-a1-m39-cC 8at5-a1-m2-cC_8at5-a1-m7-cC 8at5-a1-m30-cC_8at5-a1-m6-cC 8at5-a1-m32-cC_8at5-a1-m37-cC 8at5-a1-m32-cC_8at5-a1-m9-cC 8at5-a1-m33-cC_8at5-a1-m4-cC 8at5-a1-m33-cC_8at5-a1-m8-cC 8at5-a1-m34-cC_8at5-a1-m35-cC 8at5-a1-m35-cC_8at5-a1-m43-cC 8at5-a1-m36-cC_8at5-a1-m42-cC 8at5-a1-m36-cC_8at5-a1-m60-cC 8at5-a1-m37-cC_8at5-a1-m59-cC 8at5-a1-m38-cC_8at5-a1-m43-cC 8at5-a1-m3-cC_8at5-a1-m34-cC 8at5-a1-m3-cC_8at5-a1-m38-cC 8at5-a1-m40-cC_8at5-a1-m41-cC 8at5-a1-m41-cC_8at5-a1-m49-cC 8at5-a1-m42-cC_8at5-a1-m48-cC 8at5-a1-m44-cC_8at5-a1-m49-cC 8at5-a1-m46-cC_8at5-a1-m47-cC 8at5-a1-m47-cC_8at5-a1-m55-cC 8at5-a1-m48-cC_8at5-a1-m54-cC 8at5-a1-m4-cC_8at5-a1-m5-cC 8at5-a1-m50-cC_8at5-a1-m55-cC 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8axx-a1-m11-cC_8axx-a1-m19-cC 8axx-a1-m12-cC_8axx-a1-m18-cC 8axx-a1-m12-cC_8axx-a1-m6-cC 8axx-a1-m13-cC_8axx-a1-m5-cC 8axx-a1-m13-cC_8axx-a1-m8-cC 8axx-a1-m14-cC_8axx-a1-m19-cC 8axx-a1-m14-cC_8axx-a1-m57-cC 8axx-a1-m15-cC_8axx-a1-m52-cC 8axx-a1-m15-cC_8axx-a1-m56-cC 8axx-a1-m16-cC_8axx-a1-m17-cC 8axx-a1-m16-cC_8axx-a1-m51-cC 8axx-a1-m17-cC_8axx-a1-m25-cC 8axx-a1-m18-cC_8axx-a1-m24-cC 8axx-a1-m1-cC_8axx-a1-m53-cC 8axx-a1-m1-cC_8axx-a1-m56-cC 8axx-a1-m20-cC_8axx-a1-m25-cC 8axx-a1-m20-cC_8axx-a1-m51-cC 8axx-a1-m21-cC_8axx-a1-m46-cC 8axx-a1-m21-cC_8axx-a1-m50-cC 8axx-a1-m22-cC_8axx-a1-m23-cC 8axx-a1-m22-cC_8axx-a1-m45-cC 8axx-a1-m23-cC_8axx-a1-m31-cC 8axx-a1-m24-cC_8axx-a1-m30-cC 8axx-a1-m26-cC_8axx-a1-m31-cC 8axx-a1-m26-cC_8axx-a1-m45-cC 8axx-a1-m27-cC_8axx-a1-m40-cC 8axx-a1-m27-cC_8axx-a1-m44-cC 8axx-a1-m28-cC_8axx-a1-m29-cC 8axx-a1-m28-cC_8axx-a1-m39-cC 8axx-a1-m29-cC_8axx-a1-m7-cC 8axx-a1-m2-cC_8axx-a1-m39-cC 8axx-a1-m2-cC_8axx-a1-m7-cC 8axx-a1-m30-cC_8axx-a1-m6-cC 8axx-a1-m32-cC_8axx-a1-m37-cC 8axx-a1-m32-cC_8axx-a1-m9-cC 8axx-a1-m33-cC_8axx-a1-m4-cC 8axx-a1-m33-cC_8axx-a1-m8-cC 8axx-a1-m34-cC_8axx-a1-m35-cC 8axx-a1-m35-cC_8axx-a1-m43-cC 8axx-a1-m36-cC_8axx-a1-m42-cC 8axx-a1-m36-cC_8axx-a1-m60-cC 8axx-a1-m37-cC_8axx-a1-m59-cC 8axx-a1-m38-cC_8axx-a1-m43-cC 8axx-a1-m3-cC_8axx-a1-m34-cC 8axx-a1-m3-cC_8axx-a1-m38-cC 8axx-a1-m40-cC_8axx-a1-m41-cC 8axx-a1-m41-cC_8axx-a1-m49-cC 8axx-a1-m42-cC_8axx-a1-m48-cC 8axx-a1-m44-cC_8axx-a1-m49-cC 8axx-a1-m46-cC_8axx-a1-m47-cC 8axx-a1-m47-cC_8axx-a1-m55-cC 8axx-a1-m48-cC_8axx-a1-m54-cC 8axx-a1-m4-cC_8axx-a1-m5-cC 8axx-a1-m50-cC_8axx-a1-m55-cC 8axx-a1-m52-cC_8axx-a1-m53-cC 8axx-a1-m54-cC_8axx-a1-m60-cC 8axx-a1-m58-cC_8axx-a1-m59-cC 8axx-a1-m58-cC_8axx-a1-m9-cC GLPTMNTPGSTQFLTSDDFQSPCALPQFDVTPSMNIPGEVKNLMEIAEVDSVVPVNNVQDTTDQMEMFRIPVTINAPLQQQVFGLRLQPGLDSVFKHTLLGEILNYYAHWSGSMKLTFVFCGSAMATGKFLIAYSPPGANPPKTRKDAMLGTHIIWDIGLQSSCVLCVPWISQTHYRLVQQDEYTSAGYVTCWYQTGMIVPPGTPNSSSIMCFASACNDFSVRMLRDTPFISQDNKLQ GLPTMNTPGSTQFLTSDDFQSPCALPQFDVTPSMNIPGEVKNLMEIAEVDSVVPVNNVQDTTDQMEMFRIPVTINAPLQQQVFGLRLQPGLDSVFKHTLLGEILNYYAHWSGSMKLTFVFCGSAMATGKFLIAYSPPGANPPKTRKDAMLGTHIIWDIGLQSSCVLCVPWISQTHYRLVQQDEYTSAGYVTCWYQTGMIVPPGTPNSSSIMCFASACNDFSVRMLRDTPFISQDNKLQ 1d5b-a1-m1-cA_1d5b-a1-m1-cL UNLIGANDED MATURE OXY-COPE CATALYTIC ANTIBODY P01834 P01834 2.8 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 DIKMTQSPSSMYASLGERVTITCKASQDINSYLNWFQQKPGKSPKTLIYRTNRLVDGVPSRFSGSGSGQDYSLTISSLEYEDMGIYYCLQYDEFPYTFGSGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR DIKMTQSPSSMYASLGERVTITCKASQDINSYLNWFQQKPGKSPKTLIYRTNRLVDGVPSRFSGSGSGQDYSLTISSLEYEDMGIYYCLQYDEFPYTFGSGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR 1d5b-a1-m1-cH_1d5b-a1-m1-cB UNLIGANDED MATURE OXY-COPE CATALYTIC ANTIBODY P01857 P01857 2.8 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 QVQLQQSGAELMKPGASVKISCKATGYTFSSFWIEWVKQRPGHGLEWIGEILPGSGGTHYNEKFKGKATFTADKSSNTAYMQLSSLTSEDSAVYYCARGHSYYFYDGDYWGQGTSVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK QVQLQQSGAELMKPGASVKISCKATGYTFSSFWIEWVKQRPGHGLEWIGEILPGSGGTHYNEKFKGKATFTADKSSNTAYMQLSSLTSEDSAVYYCARGHSYYFYDGDYWGQGTSVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK 1d5w-a2-m1-cB_1d5w-a2-m1-cC PHOSPHORYLATED FIXJ RECEIVER DOMAIN P10958 P10958 2.3 X-RAY DIFFRACTION 29 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 121 121 1d5w-a1-m1-cA_1d5w-a1-m2-cA MQDYTVHIVDDEEPVRKSLAFMLTMNGFAVKMHQSAEAFLAFAPDVRNGVLVTLRMPDMSGVELLRNLGDLKINIPSIVITGHGDVPMAVEAMKAGAVDFIEKPFEDTVIIEAIERASEHL MQDYTVHIVDDEEPVRKSLAFMLTMNGFAVKMHQSAEAFLAFAPDVRNGVLVTLRMPDMSGVELLRNLGDLKINIPSIVITGHGDVPMAVEAMKAGAVDFIEKPFEDTVIIEAIERASEHL 1d6j-a1-m1-cA_1d6j-a1-m1-cB CRYSTAL STRUCTURE OF ADENOSINE 5'-PHOSPHOSULFATE (APS) KINASE FROM PENICILLIUM CHRYSOGENUM Q12657 Q12657 2 X-RAY DIFFRACTION 93 1.0 5076 (Penicillium chrysogenum) 5076 (Penicillium chrysogenum) 177 182 HASALTRSERTELRNQRGLTIWLTGLSASGKSTLAVELEHQLVRDRRVHAYRLDGDNIRFGLNKDLGFSEADRNENIRRIAEVAKLFADSNSIAITSFISPYRKDRDTARQLHEVATPGEETGLPFVEVYVDVPVEAPYEAPANPEVHVKNYELPVQDAVKQIIDYLDTKGYLPAKK HASALTRSERTELRNQRGLTIWLTGLSASGKSTLAVELEHQLVRDRRVHAYRLDGDNIRFGLNKDLGFSEADRNENIRRIAEVAKLFADSNSIAITSFISPYRKDRDTARQLHEVATPGEETGLPFVEVYVDVPVEVAEQRAPYEAPANPEVHVKNYELPVQDAVKQIIDYLDTKGYLPAKK 1d6r-a1-m1-cI_1d6r-a1-m2-cI CRYSTAL STRUCTURE OF CANCER CHEMOPREVENTIVE BOWMAN-BIRK INHIBITOR IN TERNARY COMPLEX WITH BOVINE TRYPSIN AT 2.3 A RESOLUTION. STRUCTURAL BASIS OF JANUS-FACED SERINE PROTEASE INHIBITOR SPECIFICITY P01055 P01055 2.3 X-RAY DIFFRACTION 496 1.0 3847 (Glycine max) 3847 (Glycine max) 58 58 KPCCDQCACTKSNPPQCRCSDMRLNSCHSACKSCICALSYPAQCFCVDITDFCYEPCK KPCCDQCACTKSNPPQCRCSDMRLNSCHSACKSCICALSYPAQCFCVDITDFCYEPCK 1d7d-a1-m1-cA_1d7d-a1-m1-cB CYTOCHROME DOMAIN OF CELLOBIOSE DEHYDROGENASE, HP3 FRAGMENT, PH 7.5 Q01738 Q01738 1.9 X-RAY DIFFRACTION 11 1.0 185 185 1d7b-a1-m1-cA_1d7b-a1-m1-cB 1d7c-a1-m1-cA_1d7c-a1-m1-cB SASQFTDPTTGFQFTGITDPVHDVTYGFVFPPLATSGAQSTEFIGEVVAPIASKWIGIALGGAMNNDLLLVAWANGNQIVSSTRWATGYVQPTAYTGTATLTTLPETTINSTHWKWVFRCQGCTEWNNGGGIDVTSQGVLAWAFSNVAVDDPSDPQSTFSEHTDFGFFGIDYSTAHSANYQNYLN SASQFTDPTTGFQFTGITDPVHDVTYGFVFPPLATSGAQSTEFIGEVVAPIASKWIGIALGGAMNNDLLLVAWANGNQIVSSTRWATGYVQPTAYTGTATLTTLPETTINSTHWKWVFRCQGCTEWNNGGGIDVTSQGVLAWAFSNVAVDDPSDPQSTFSEHTDFGFFGIDYSTAHSANYQNYLN 1d7f-a1-m1-cA_1d7f-a1-m1-cB CRYSTAL STRUCTURE OF ASPARAGINE 233-REPLACED CYCLODEXTRIN GLUCANOTRANSFERASE FROM ALKALOPHILIC BACILLUS SP. 1011 DETERMINED AT 1.9 A RESOLUTION P05618 P05618 1.9 X-RAY DIFFRACTION 41 1.0 1410 (Bacillus sp. 1011) 1410 (Bacillus sp. 1011) 686 686 1ded-a1-m1-cA_1ded-a1-m1-cB 1i75-a1-m1-cA_1i75-a1-m1-cB APDTSVSNKQNFSTDVIYQIFTDRFSDGNPANNPTGAAFDGSCTNLRLYCGGDWQGIINKINDGYLTGMGITAIWISQPVENIYSVINYSGVNNTAYHGYWARDFKKTNPAYGTMQDFKNLIDTAHAHNIKVIIDFAPNHTSPASSDDPSFAENGRLYDNGNLLGGYTNDTQNLFHHYGGTDFSTIENGIYKNLYDLADLNHNNSSVDVYLKDAIKMWLDLGVDGIRVDAVKNMPFGWQKSFMATINNYKPVFTFGEWFLGVNEISPEYHQFANESGMSLLDFRFAQKARQVFRDNTDNMYGLKAMLEGSEVDYAQVNDQVTFIDNHDMERFHTSNGDRRKLEQALAFTLTSRGVPAIYYGSEQYMSGGNDPDNRARLPSFSTTTTAYQVIQKLAPLRKSNPAIAYGSTHERWINNDVIIYERKFGNNVAVVAINRNMNTPASITGLVTSLPRGSYNDVLGGILNGNTLTVGAGGAASNFTLAPGGTAVWQYTTDATTPIIGNVGPMMAKPGVTITIDGRGFGSGKGTVYFGTTAVTGADIVAWEDTQIQVKIPAVPGGIYDIRVANAAGAASNIYDNFEVLTGDQVTVRFVINNATTALGQNVFLTGNVSELGNWDPNNAIGPMYNQVVYQYPTWYYDVSVPAGQTIEFKFLKKQGSTVTWEGGANRTFTTPTSGTATVNVNWQP APDTSVSNKQNFSTDVIYQIFTDRFSDGNPANNPTGAAFDGSCTNLRLYCGGDWQGIINKINDGYLTGMGITAIWISQPVENIYSVINYSGVNNTAYHGYWARDFKKTNPAYGTMQDFKNLIDTAHAHNIKVIIDFAPNHTSPASSDDPSFAENGRLYDNGNLLGGYTNDTQNLFHHYGGTDFSTIENGIYKNLYDLADLNHNNSSVDVYLKDAIKMWLDLGVDGIRVDAVKNMPFGWQKSFMATINNYKPVFTFGEWFLGVNEISPEYHQFANESGMSLLDFRFAQKARQVFRDNTDNMYGLKAMLEGSEVDYAQVNDQVTFIDNHDMERFHTSNGDRRKLEQALAFTLTSRGVPAIYYGSEQYMSGGNDPDNRARLPSFSTTTTAYQVIQKLAPLRKSNPAIAYGSTHERWINNDVIIYERKFGNNVAVVAINRNMNTPASITGLVTSLPRGSYNDVLGGILNGNTLTVGAGGAASNFTLAPGGTAVWQYTTDATTPIIGNVGPMMAKPGVTITIDGRGFGSGKGTVYFGTTAVTGADIVAWEDTQIQVKIPAVPGGIYDIRVANAAGAASNIYDNFEVLTGDQVTVRFVINNATTALGQNVFLTGNVSELGNWDPNNAIGPMYNQVVYQYPTWYYDVSVPAGQTIEFKFLKKQGSTVTWEGGANRTFTTPTSGTATVNVNWQP 1d7m-a2-m1-cA_1d7m-a2-m2-cA COILED-COIL DIMERIZATION DOMAIN FROM CORTEXILLIN I Q54HG2 Q54HG2 2.7 X-RAY DIFFRACTION 39 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 101 101 EMANRLAGLENSLESEKVSREQLIKQKDQLNSLLASLESEGAEREKRLRELEAKLDETLKNLELEKLARMELEARLAKTEKDRAILELKLAEAIDEKSKLE EMANRLAGLENSLESEKVSREQLIKQKDQLNSLLASLESEGAEREKRLRELEAKLDETLKNLELEKLARMELEARLAKTEKDRAILELKLAEAIDEKSKLE 1d7m-a2-m2-cA_1d7m-a2-m2-cB COILED-COIL DIMERIZATION DOMAIN FROM CORTEXILLIN I Q54HG2 Q54HG2 2.7 X-RAY DIFFRACTION 140 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 101 101 1d7m-a1-m1-cA_1d7m-a1-m1-cB 1d7m-a2-m1-cA_1d7m-a2-m1-cB EMANRLAGLENSLESEKVSREQLIKQKDQLNSLLASLESEGAEREKRLRELEAKLDETLKNLELEKLARMELEARLAKTEKDRAILELKLAEAIDEKSKLE EMANRLAGLENSLESEKVSREQLIKQKDQLNSLLASLESEGAEREKRLRELEAKLDETLKNLELEKLARMELEARLAKTEKDRAILELKLAEAIDEKSKLE 1d7y-a1-m1-cA_1d7y-a1-m2-cA CRYSTAL STRUCTURE OF NADH-DEPENDENT FERREDOXIN REDUCTASE, BPHA4 Q52437 Q52437 2.1 X-RAY DIFFRACTION 41 1.0 307 (Pseudomonas sp. KKS102) 307 (Pseudomonas sp. KKS102) 401 401 ALKAPVVVLGAGLASVSFVAELRQAGYQGLITVVGDEAERPYDRPPLSKDFMAHGDAEKIRLDCKRAPEVEWLLGVTAQSFDPQAHTVALSDGRTLPYGTLVLATGAAPRALPTLQGATMPVHTLRTLEDARRIQAGLRPQSRLLIVGGGVIGLELAATARTAGVHVSLVETQPRLMSRAAPATLADFVARYHAAQGVDLRFERSVTGSVDGVVLLDDGTRIAADMVVVGIGVLANDALARAAGLACDDGIFVDAYGRTTCPDVYALGDVTRQRNPLSGRFERIETWSNAQNQGIAVARHLVDPTAPGYAELPWYWSDQGALRIQVAGLASGDEEIVRGEVSLDAPKFTLIELQKGRIVGATCVNNARDFAPLRRLLAVGAKPDRAALADPATDLRKLAAA ALKAPVVVLGAGLASVSFVAELRQAGYQGLITVVGDEAERPYDRPPLSKDFMAHGDAEKIRLDCKRAPEVEWLLGVTAQSFDPQAHTVALSDGRTLPYGTLVLATGAAPRALPTLQGATMPVHTLRTLEDARRIQAGLRPQSRLLIVGGGVIGLELAATARTAGVHVSLVETQPRLMSRAAPATLADFVARYHAAQGVDLRFERSVTGSVDGVVLLDDGTRIAADMVVVGIGVLANDALARAAGLACDDGIFVDAYGRTTCPDVYALGDVTRQRNPLSGRFERIETWSNAQNQGIAVARHLVDPTAPGYAELPWYWSDQGALRIQVAGLASGDEEIVRGEVSLDAPKFTLIELQKGRIVGATCVNNARDFAPLRRLLAVGAKPDRAALADPATDLRKLAAA 1d8i-a2-m1-cB_1d8i-a2-m1-cC X-RAY CRYSTAL STRUCTURE OF YEAST RNA TRIPHOSPHATASE IN COMPLEX WITH A SULFATE ION. O13297 O13297 2.05 X-RAY DIFFRACTION 167 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 288 288 1d8h-a1-m1-cA_1d8h-a1-m1-cB 1d8h-a2-m1-cC_1d8h-a2-m2-cC 1d8i-a1-m1-cA_1d8i-a1-m2-cA 3kyh-a1-m1-cA_3kyh-a1-m1-cB HMYRNVPIWAQKWKPTIKALQSINVKDLKIDPSFLNIIPDDDLTKSVQDWVYATIYSIAPELRSFIELEMKFGVIIDAKGPDRVNPPVSSQCVFTELDAHLTPNIDASLFKELSKYIRGISEVTENTGKFSIIESQTRDSVYRVGPRFLRMSTDIKTGRVGQFIEKRHVAQLLLYSPKDSYDVKISLNLELPVPDNDPPEKYKSQSPISERTKDRVSYIHNDSCTRIDITKVENHSETTHEVELEINTPALLNAFDNITNDSKEYASLIRTFLNNGTIIRRKLSSLSY HMYRNVPIWAQKWKPTIKALQSINVKDLKIDPSFLNIIPDDDLTKSVQDWVYATIYSIAPELRSFIELEMKFGVIIDAKGPDRVNPPVSSQCVFTELDAHLTPNIDASLFKELSKYIRGISEVTENTGKFSIIESQTRDSVYRVGPRFLRMSTDIKTGRVGQFIEKRHVAQLLLYSPKDSYDVKISLNLELPVPDNDPPEKYKSQSPISERTKDRVSYIHNDSCTRIDITKVENHSETTHEVELEINTPALLNAFDNITNDSKEYASLIRTFLNNGTIIRRKLSSLSY 1d9c-a1-m1-cB_1d9c-a1-m1-cA BOVINE INTERFERON-GAMMA AT 2.0 ANGSTROMS P07353 P07353 2 X-RAY DIFFRACTION 204 1.0 9913 (Bos taurus) 9913 (Bos taurus) 119 121 1d9g-a1-m1-cB_1d9g-a1-m1-cA 1rfb-a1-m1-cA_1rfb-a1-m1-cB QFFREIENLKEYFNASSPDVAKGGPLFSEILKNWKDESDKKIIQSQIVSFYFKLFENLKDNQVIQRSMDIIKQDMFQKFLNGSSEKLEDFKKLIQIPVDDLQIQRKAINELIKVMNDLS QGQFFREIENLKEYFNASSPDVAKGGPLFSEILKNWKDESDKKIIQSQIVSFYFKLFENLKDNQVIQRSMDIIKQDMFQKFLNGSSEKLEDFKKLIQIPVDDLQIQRKAINELIKVMNDLS 1dab-a2-m1-cA_1dab-a2-m6-cA The Structure of Bordetella Pertussis Virulence Factor P.69 Pertactin P14283 P14283 2.5 X-RAY DIFFRACTION 157 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 539 539 1dab-a2-m2-cA_1dab-a2-m5-cA 1dab-a2-m3-cA_1dab-a2-m4-cA DWNNQSIVKTGERQHGIHIQGSDPGGVRTASGTTIKVSGRQAQGILLENPAAELQFRNGSVTSSGQLSDDGIRRFLGTVTVKAGKLVADHATLANVGDTWDDDGIALYVAGEQAQASIADSTLQGAGGVQIERGANVTVQRSAIVDGGLHIGALQSLQPEDLPPSRVVLRDTNVTAVPASGAPAAVSVLGASELTLDGGHITGGRAAGVAAMQGAVVHLQRATIRRGDALAGGAVPGGAVPGGAVPGGFGPGGFGPVLDGWYGVDVSGSSVELAQSIVEAPELGAAIRVGRGARVTVPGGSLSAPHGNVIETGGARRFAPQAAPLSITLQAGAHAQGKALLYRVLPEPVKLTLTGGADAQGDIVATELPSIPGTSIGPLDVALASQARWTGATRAVDSLSIDNATWVMTDNSNVGALRLASDGSVDFQQPAEAGRFKVLTVNTLAGSGLFRMNVFADLGLSDKLVVMQDASGQHRLWVRNSGSEPASANTLLLVQTPLGSAATFTLANKDGKVDIGTYRYRLAANGNGQWSLVGAKAPP DWNNQSIVKTGERQHGIHIQGSDPGGVRTASGTTIKVSGRQAQGILLENPAAELQFRNGSVTSSGQLSDDGIRRFLGTVTVKAGKLVADHATLANVGDTWDDDGIALYVAGEQAQASIADSTLQGAGGVQIERGANVTVQRSAIVDGGLHIGALQSLQPEDLPPSRVVLRDTNVTAVPASGAPAAVSVLGASELTLDGGHITGGRAAGVAAMQGAVVHLQRATIRRGDALAGGAVPGGAVPGGAVPGGFGPGGFGPVLDGWYGVDVSGSSVELAQSIVEAPELGAAIRVGRGARVTVPGGSLSAPHGNVIETGGARRFAPQAAPLSITLQAGAHAQGKALLYRVLPEPVKLTLTGGADAQGDIVATELPSIPGTSIGPLDVALASQARWTGATRAVDSLSIDNATWVMTDNSNVGALRLASDGSVDFQQPAEAGRFKVLTVNTLAGSGLFRMNVFADLGLSDKLVVMQDASGQHRLWVRNSGSEPASANTLLLVQTPLGSAATFTLANKDGKVDIGTYRYRLAANGNGQWSLVGAKAPP 1dab-a2-m5-cA_1dab-a2-m6-cA The Structure of Bordetella Pertussis Virulence Factor P.69 Pertactin P14283 P14283 2.5 X-RAY DIFFRACTION 130 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 539 539 1dab-a2-m1-cA_1dab-a2-m2-cA 1dab-a2-m1-cA_1dab-a2-m3-cA 1dab-a2-m2-cA_1dab-a2-m3-cA 1dab-a2-m4-cA_1dab-a2-m5-cA 1dab-a2-m4-cA_1dab-a2-m6-cA DWNNQSIVKTGERQHGIHIQGSDPGGVRTASGTTIKVSGRQAQGILLENPAAELQFRNGSVTSSGQLSDDGIRRFLGTVTVKAGKLVADHATLANVGDTWDDDGIALYVAGEQAQASIADSTLQGAGGVQIERGANVTVQRSAIVDGGLHIGALQSLQPEDLPPSRVVLRDTNVTAVPASGAPAAVSVLGASELTLDGGHITGGRAAGVAAMQGAVVHLQRATIRRGDALAGGAVPGGAVPGGAVPGGFGPGGFGPVLDGWYGVDVSGSSVELAQSIVEAPELGAAIRVGRGARVTVPGGSLSAPHGNVIETGGARRFAPQAAPLSITLQAGAHAQGKALLYRVLPEPVKLTLTGGADAQGDIVATELPSIPGTSIGPLDVALASQARWTGATRAVDSLSIDNATWVMTDNSNVGALRLASDGSVDFQQPAEAGRFKVLTVNTLAGSGLFRMNVFADLGLSDKLVVMQDASGQHRLWVRNSGSEPASANTLLLVQTPLGSAATFTLANKDGKVDIGTYRYRLAANGNGQWSLVGAKAPP DWNNQSIVKTGERQHGIHIQGSDPGGVRTASGTTIKVSGRQAQGILLENPAAELQFRNGSVTSSGQLSDDGIRRFLGTVTVKAGKLVADHATLANVGDTWDDDGIALYVAGEQAQASIADSTLQGAGGVQIERGANVTVQRSAIVDGGLHIGALQSLQPEDLPPSRVVLRDTNVTAVPASGAPAAVSVLGASELTLDGGHITGGRAAGVAAMQGAVVHLQRATIRRGDALAGGAVPGGAVPGGAVPGGFGPGGFGPVLDGWYGVDVSGSSVELAQSIVEAPELGAAIRVGRGARVTVPGGSLSAPHGNVIETGGARRFAPQAAPLSITLQAGAHAQGKALLYRVLPEPVKLTLTGGADAQGDIVATELPSIPGTSIGPLDVALASQARWTGATRAVDSLSIDNATWVMTDNSNVGALRLASDGSVDFQQPAEAGRFKVLTVNTLAGSGLFRMNVFADLGLSDKLVVMQDASGQHRLWVRNSGSEPASANTLLLVQTPLGSAATFTLANKDGKVDIGTYRYRLAANGNGQWSLVGAKAPP 1db2-a1-m1-cB_1db2-a1-m1-cA CRYSTAL STRUCTURE OF NATIVE PLASMINOGEN ACTIVATOR INHIBITOR-1 P05121 P05121 2.7 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 362 377 HPPSYVAHLASDFGVRVFQQVAQASKDRNVVFSPYGVASVLAMLQLTTGGETQQQIQAAMGFKIDDKGMAPALRHLYKELMGPWNKDEISTTDAIFVQRDLKLVQGFMPHFFRLFRSTVKQVDFSEVERARFIINDWVKTHTKGMISHLLGTGAVDQLTRLVLVNALYFNGQWKTPFPDSSTHRRLFHKSDGSTVSVPMMAQTNKFNYTEFTTPDGHYYDILELPYHGDTLSMFIAAPYEKEVPLSALTNILSAQLISHWKGNMTRLPRLLVLPKFSLETEVDLRKPLENLGMTDMFRPFQADFTSLSDQEPLHVALALQKVKIEVNESGTPEEIIIDRPFLFVVRHNPTGTVLFMGQVMEP HPPSYVAHLASDFGVRVFQQVAQASKDRNVVFSPYGVASVLAMLQLTTGGETQQQIQAAMGFKIDDKGMAPALRHLYKELMGPWNKDEISTTDAIFVQRDLKLVQGFMPHFFRLFRSTVKQVDFSEVERARFIINDWVKTHTKGMISHLLGTGAVDQLTRLVLVNALYFNGQWKTPFPDSSTHRRLFHKSDGSTVSVPMMAQTNKFNYTEFTTPDGHYYDILELPYHGDTLSMFIAAPYEKEVPLSALTNILSAQLISHWKGNMTRLPRLLVLPKFSLETEVDLRKPLENLGMTDMFRPFQADFTSLSDQEPLHVALALQKVKIEVNESGTVASSSTAVIVSARMAPEEIIIDRPFLFVVRHNPTGTVLFMGQVMEP 1db3-a1-m1-cA_1db3-a1-m2-cA E.COLI GDP-MANNOSE 4,6-DEHYDRATASE P0AC88 P0AC88 2.3 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 335 335 SKVALITGVTGQDGSYLAEFLLEKGYEVHGIKRPKFHLHYGDLSDTSNLTRILREVQPDEVYNLGAMSHVAVSFESPEYTADVDAMGTLRLLEAIRFLGLEKKTRFYQASTSELYGLVQEIPQKETTPFYPRSPYAVAKLYAYWITVNYRESYGMYACNGILFNHESPRRGETFVTRKITRAIANIAQGLESCLYLGNMDSLRDWGHAKDYVKMQWMMLQQEQPEDFVIATGVQYSVRQFVEMAAAQLGIKLRFEGTGVEEKGIVVSVTGHDAPGVKPGDVIIAVDPRYFRPAEETLLGDPTKAHEKLGWKPEITLREMVSEMVANDLEAAKKHS SKVALITGVTGQDGSYLAEFLLEKGYEVHGIKRPKFHLHYGDLSDTSNLTRILREVQPDEVYNLGAMSHVAVSFESPEYTADVDAMGTLRLLEAIRFLGLEKKTRFYQASTSELYGLVQEIPQKETTPFYPRSPYAVAKLYAYWITVNYRESYGMYACNGILFNHESPRRGETFVTRKITRAIANIAQGLESCLYLGNMDSLRDWGHAKDYVKMQWMMLQQEQPEDFVIATGVQYSVRQFVEMAAAQLGIKLRFEGTGVEEKGIVVSVTGHDAPGVKPGDVIIAVDPRYFRPAEETLLGDPTKAHEKLGWKPEITLREMVSEMVANDLEAAKKHS 1dbn-a1-m1-cA_1dbn-a1-m1-cB MAACKIA AMURENSIS LEUKOAGGLUTININ (LECTIN) WITH SIALYLLACTOSE P93248 P93248 2.75 X-RAY DIFFRACTION 59 1.0 37501 (Maackia amurensis) 37501 (Maackia amurensis) 239 239 SDELSFTINNFVPNEADLLFQGEASVSSTGVLQLTKVENGQPQKYSVGRALYAAPVRIWGNTTGSVASFSTSFTFVVKAPNPDITSDGLAFYLAPPDSQIPSGSVSKYLGLFNNSNSDSSNQIVAVEFDTYFAHSYDPWDPNYRHIGIDVNGIESIKTVQWDWINGGVAFATITYLAPNKTLIASLVYPSNQTTFSVAASVDLKEILPEWVRVGFSAATGYPTEVETHDVLSWSFTSTL SDELSFTINNFVPNEADLLFQGEASVSSTGVLQLTKVENGQPQKYSVGRALYAAPVRIWGNTTGSVASFSTSFTFVVKAPNPDITSDGLAFYLAPPDSQIPSGSVSKYLGLFNNSNSDSSNQIVAVEFDTYFAHSYDPWDPNYRHIGIDVNGIESIKTVQWDWINGGVAFATITYLAPNKTLIASLVYPSNQTTFSVAASVDLKEILPEWVRVGFSAATGYPTEVETHDVLSWSFTSTL 1dbt-a2-m1-cC_1dbt-a2-m2-cC CRYSTAL STRUCTURE OF OROTIDINE 5'-MONOPHOSPHATE DECARBOXYLASE FROM BACILLUS SUBTILIS COMPLEXED WITH UMP P25971 P25971 2.4 X-RAY DIFFRACTION 140 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 234 234 1dbt-a1-m1-cB_1dbt-a1-m1-cA NNLPIIALDFASAEETLAFLAPFQQEPLFVKVGMELFYQEGPSIVKQLKERNCELFLDLKLHDIPTTVNKAMKRLASLGVDLVNVHAAGGKKMMQAALEGLEEGTPAGKKRPSLIAVTQLTSTSEQIMKDELLIEKSLIDTVVHYSKQAEESGLDGVVCSVHEAKAIYQAVSPSFLTVTPGIRMSEDAANDQVRVATPAIAREKGSSAIVVGRSITKAEDPVKAYKAVRLEWEG NNLPIIALDFASAEETLAFLAPFQQEPLFVKVGMELFYQEGPSIVKQLKERNCELFLDLKLHDIPTTVNKAMKRLASLGVDLVNVHAAGGKKMMQAALEGLEEGTPAGKKRPSLIAVTQLTSTSEQIMKDELLIEKSLIDTVVHYSKQAEESGLDGVVCSVHEAKAIYQAVSPSFLTVTPGIRMSEDAANDQVRVATPAIAREKGSSAIVVGRSITKAEDPVKAYKAVRLEWEG 1dc1-a1-m1-cA_1dc1-a1-m1-cB RESTRICTION ENZYME BSOBI/DNA COMPLEX STRUCTURE: ENCIRCLEMENT OF THE DNA AND HISTIDINE-CATALYZED HYDROLYSIS WITHIN A CANONICAL RESTRICTION ENZYME FOLD P70985 P70985 1.7 X-RAY DIFFRACTION 127 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 310 311 KPFENHLKSVDDLKTTYEEYRAGFIAFALEKNKRSTPYIERARALKVAASVAKTPKDLLYLEDIQDALLYASGISDKAKKFLTEDDKKESINNLIENFLEPAGEEFIDELIFRYLLFQGDSLGGTMRNIAGALAQQKLTRAIISALDIANIPYKWLDSRDKKYTNWMDKPEDDYELETFAKGISWTINGKHRTLMYNITVSLVKKNVDICLFNCEPQQPEKYLLLGELKGGIDPAGADEHWKTANTALTRIRNKFSEKGLSPKTIFIGAAIEHSMAEEIWDQLQSGSLTNSANLTKTEQVGSLCRWIINI QKPFENHLKSVDDLKTTYEEYRAGFIAFALEKNKRSTPYIERARALKVAASVAKTPKDLLYLEDIQDALLYASGISDKAKKFLTEDDKKESINNLIENFLEPAGEEFIDELIFRYLLFQGDSLGGTMRNIAGALAQQKLTRAIISALDIANIPYKWLDSRDKKYTNWMDKPEDDYELETFAKGISWTINGKHRTLMYNITVSLVKKNVDICLFNCEPQQPEKYLLLGELKGGIDPAGADEHWKTANTALTRIRNKFSEKGLSPKTIFIGAAIEHSMAEEIWDQLQSGSLTNSANLTKTEQVGSLCRWIINI 1dcf-a1-m1-cA_1dcf-a1-m2-cA CRYSTAL STRUCTURE OF THE RECEIVER DOMAIN OF THE ETHYLENE RECEPTOR OF ARABIDOPSIS THALIANA P49333 P49333 2.5 X-RAY DIFFRACTION 67 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 133 133 HMSNFTGLKVLVMDENGVSRMVTKGLLVHLGCEVTTVSSNEECLRVVSHEHKVVFMDVCMPGVENYQIALRIHEKFTQRHQRPLLVALSGNTDKSTKEKCMSFGLDGVLLKPVSLDNIRDVLSDLLEPRVLYE HMSNFTGLKVLVMDENGVSRMVTKGLLVHLGCEVTTVSSNEECLRVVSHEHKVVFMDVCMPGVENYQIALRIHEKFTQRHQRPLLVALSGNTDKSTKEKCMSFGLDGVLLKPVSLDNIRDVLSDLLEPRVLYE 1ddn-a1-m1-cC_1ddn-a1-m1-cD DIPHTHERIA TOX REPRESSOR (C102D MUTANT)/TOX DNA OPERATOR COMPLEX P0DJL7 P0DJL7 3 X-RAY DIFFRACTION 50 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 118 118 1ddn-a1-m1-cA_1ddn-a1-m1-cB 1f5t-a1-m1-cA_1f5t-a1-m1-cB 1f5t-a1-m1-cC_1f5t-a1-m1-cD 1xcv-a1-m1-cA_1xcv-a1-m2-cA 2qq9-a1-m1-cA_2qq9-a1-m2-cA 2qqa-a1-m1-cA_2qqa-a1-m2-cA 2qqb-a1-m1-cA_2qqb-a1-m2-cA 2tdx-a1-m1-cA_2tdx-a1-m2-cA 3glx-a1-m1-cA_3glx-a1-m2-cA DLVDTTEMYLRTIYELEEEGVTPLRARIAERLEQSGPTVSQTVARMERDGLVVVASDRSLQMTPTGRTLATAVMRKHRLAERLLTDIIGLDINKVHDEADRWEHVMSDEVERRLVKVL DLVDTTEMYLRTIYELEEEGVTPLRARIAERLEQSGPTVSQTVARMERDGLVVVASDRSLQMTPTGRTLATAVMRKHRLAERLLTDIIGLDINKVHDEADRWEHVMSDEVERRLVKVL 1ddv-a2-m1-cA_1ddv-a2-m2-cA CRYSTAL STRUCTURE OF THE HOMER EVH1 DOMAIN WITH BOUND MGLUR PEPTIDE Q9Z214 Q9Z214 1.9 X-RAY DIFFRACTION 50 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 104 104 IFSTRAHVFQIDPNTKKNWVPTSKHAVTVSYFYDSTRNVYRIISLDGSKAIINSTITPNMTFTKTSQKFGQWADSRANTVYGLGFSSEHHLSKFAEKFQEFKEA IFSTRAHVFQIDPNTKKNWVPTSKHAVTVSYFYDSTRNVYRIISLDGSKAIINSTITPNMTFTKTSQKFGQWADSRANTVYGLGFSSEHHLSKFAEKFQEFKEA 1ddz-a1-m1-cA_1ddz-a1-m1-cB X-RAY STRUCTURE OF A BETA-CARBONIC ANHYDRASE FROM THE RED ALGA, PORPHYRIDIUM PURPUREUM R-1 Q43060 Q43060 2.2 X-RAY DIFFRACTION 281 1.0 35688 (Porphyridium purpureum) 35688 (Porphyridium purpureum) 481 481 VMSDLEKKFIELEAKLVAQPAGQAMPGKSNIFANNEAWRQEMLKQDPEFFNRLANGQSPEYLWIGCADSRVPANQLLDLPAGEVFVHRNIANQCIHSDISFLSVLQYAVQYLKVKHILVCGHYGCGGAKAALGDSRLGLIDNWLRHIRDVRRMNAKYLDKCKDGDEELNRLIELNVLEQVHNVCATSIVQDAWDAGQELTVQGVVYGVGDGKLRDLGVVVNSSDDISKFYRTKSDSGALKAGNPNAPLVQVTKGGESELDSTMEKLTAELVQQTPGKLKEGANRVFVNNENWRQKMLKQDPQFFSNLAHTQTPEILWIGCADSRVPANQIINLPAGEVFVHRNIANQCIHSDMSFLSVLQYAVQYLKVKRVVVCGHYACGGCAAALGDSRLGLIDNWLRHIRDVRRHNQAELSRITDPKDSLNRLIEINVLEQMHNVCATSIVQDAWDAGQELEVQGVVYGVGDGKLRDMGVVAKANDDIG VMSDLEKKFIELEAKLVAQPAGQAMPGKSNIFANNEAWRQEMLKQDPEFFNRLANGQSPEYLWIGCADSRVPANQLLDLPAGEVFVHRNIANQCIHSDISFLSVLQYAVQYLKVKHILVCGHYGCGGAKAALGDSRLGLIDNWLRHIRDVRRMNAKYLDKCKDGDEELNRLIELNVLEQVHNVCATSIVQDAWDAGQELTVQGVVYGVGDGKLRDLGVVVNSSDDISKFYRTKSDSGALKAGNPNAPLVQVTKGGESELDSTMEKLTAELVQQTPGKLKEGANRVFVNNENWRQKMLKQDPQFFSNLAHTQTPEILWIGCADSRVPANQIINLPAGEVFVHRNIANQCIHSDMSFLSVLQYAVQYLKVKRVVVCGHYACGGCAAALGDSRLGLIDNWLRHIRDVRRHNQAELSRITDPKDSLNRLIEINVLEQMHNVCATSIVQDAWDAGQELEVQGVVYGVGDGKLRDMGVVAKANDDIG 1deb-a3-m1-cB_1deb-a3-m2-cB CRYSTAL STRUCTURE OF THE N-TERMINAL COILED COIL DOMAIN FROM APC P25054 P25054 2.4 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 AASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI AASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI 1deb-a3-m2-cB_1deb-a3-m1-cA CRYSTAL STRUCTURE OF THE N-TERMINAL COILED COIL DOMAIN FROM APC P25054 P25054 2.4 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 54 1deb-a3-m1-cB_1deb-a3-m2-cA AASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI AAASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI 1deb-a4-m1-cB_1deb-a4-m1-cA CRYSTAL STRUCTURE OF THE N-TERMINAL COILED COIL DOMAIN FROM APC P25054 P25054 2.4 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 54 1deb-a3-m1-cB_1deb-a3-m1-cA 1deb-a3-m2-cB_1deb-a3-m2-cA AASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI AAASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI 1deb-a5-m1-cA_1deb-a5-m3-cA CRYSTAL STRUCTURE OF THE N-TERMINAL COILED COIL DOMAIN FROM APC P25054 P25054 2.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 54 54 AAASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI AAASYDQLLKQVEALKMENSNLRQELEDNSNHLTKLETEASNMKEVLKQLQGSI 1dei-a3-m1-cB_1dei-a3-m1-cD DESHEPTAPEPTIDE (B24-B30) INSULIN P01315 P01315 1.6 X-RAY DIFFRACTION 27 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 23 23 FVNQHLCGSHLVEALYLVCGERG FVNQHLCGSHLVEALYLVCGERG 1dek-a1-m1-cB_1dek-a1-m1-cA DEOXYNUCLEOSIDE MONOPHOSPHATE KINASE COMPLEXED WITH DEOXY-GMP P04531 P04531 2 X-RAY DIFFRACTION 57 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 230 240 1del-a1-m1-cB_1del-a1-m1-cA MKLIFLSGVKRSGKDTTADFIMSNYSAVKYQLAGPIKDALAYAWGVFAANTDYPLTRKEFEGIDYDRETNLNLTKLEVITIMEQAFCYLNGKSPIKGVFVFDDEGKESVNFVAFNKITDVINNIEDQWSVRRLMQALGTDLIVNNFDRMYWVKLFALDYLDKFNSGYDYYIVPDTRQDHEMDAARAMGATVIHVVRPGAGLPIRDGDLVITNDGSLEELFSKIKNTLKVL MKLIFLSGVKRSGKDTTADFIMSNYSAVKYQLAGPIKDALAYAWGVFAANTDYPLTRKEFEGIDYDRETNLNLTKLEVITIMEQAFCYLNGKSPIKGVFVFDDEGKESVNFVAFNKITDVINNIEDQWSVRRLMQALGTDLIVNNFDRMYWVKLFALDYLDKFNSGYDYYIVPDTRQDHEMDAARAMGATVIHVVRPGQKSNDTHITEAGLPIRDGDLVITNDGSLEELFSKIKNTLKVL 1deu-a3-m2-cB_1deu-a3-m1-cA CRYSTAL STRUCTURE OF HUMAN PROCATHEPSIN X: A CYSTEINE PROTEASE WITH THE PROREGION COVALENTLY LINKED TO THE ACTIVE SITE CYSTEINE Q9UBR2 Q9UBR2 1.7 X-RAY DIFFRACTION 162 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 261 275 1ef7-a3-m1-cA_1ef7-a3-m2-cB FRRGQTCYRPLREYLSPADLPKSWDWRNVDGVNYASITRNQHIPQYCGSCWAHASTSAMADRINIKRKGAWPSTLLSVQNVIDCGNAGSCEGGNDLSVWDYAHQHGIPDETCNNYQAKDQECDKFNQCGTCNEFKECHAIRNYTLWRVGDYGSLSGREKMMAEIYANGPISCGIMATERLANYTGGIYAEYQDTTYINHVVSVAGWGISDGTEYWIVRNSWGEPWGERGWLRIVTSTYKDGKGARYNLAIEEHCTFGDPIV RGQTCYRPLRGDGLAPLGRTTYPRPHEYLSPADLPKSWDWRNVDGVNYASITRNQHIPQYCGSCWAHASTSAMADRINIKRKGAWPSTLLSVQNVIDCGNAGSCEGGNDLSVWDYAHQHGIPDETCNNYQAKDQECDKFNQCGTCNEFKECHAIRNYTLWRVGDYGSLSGREKMMAEIYANGPISCGIMATERLANYTGGIYAEYQDTTYINHVVSVAGWGISDGTEYWIVRNSWGEPWGERGWLRIVTSTYKDGKGARYNLAIEEHCTFGDPIV 1dfm-a1-m1-cB_1dfm-a1-m1-cA Crystal structure of restriction endonuclease BGLII complexed with DNA 16-mer Q45488 Q45488 1.5 X-RAY DIFFRACTION 65 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 213 218 1d2i-a1-m1-cB_1d2i-a1-m1-cA KIDITDYNHADEILNPQLWKEIEETLLKPLHVKASDQASKVGSLIFDPVGTNQYIKDELVPKHWKNNIPIPKRFDFLGTDIDFGKRDTLVEVQFSNYPFLLNNTVRSELFHKSNDIDEEGKVAIIITKGHFPASNSSLYYEQAQNQLNSLAEYNVFDVPIRLVGLIEDFETDIDIVSTTYADKRYSRTITKRDTVKGKVIDTNTRKRGTIVTY KIDITDYNHADEILNPQLWKEIEETLLKPLHVKASDQASKVGSLIFDPVGTNQYIKDELVPKHWKNNIPIPKRFDFLGTDIDFGKRDTLVEVQFSNYPFLLNNTVRSELFHKSNDIDEEGKVAIIITKGHFPASNSSLYYEQAQNQLNSLAEYNVFDVPIRLVGLIEDFETDIDIVSTTYADKRYSRTITKRDTVKGKVIDTNTPNTRRRKRGTIVTY 1dfo-a2-m1-cD_1dfo-a2-m1-cC CRYSTAL STRUCTURE AT 2.4 ANGSTROM RESOLUTION OF E. COLI SERINE HYDROXYMETHYLTRANSFERASE IN COMPLEX WITH GLYCINE AND 5-FORMYL TETRAHYDROFOLATE P0A825 P0A825 2.4 X-RAY DIFFRACTION 286 1.0 562 (Escherichia coli) 562 (Escherichia coli) 416 417 1dfo-a1-m1-cA_1dfo-a1-m1-cB 1eqb-a1-m1-cA_1eqb-a1-m1-cB 1eqb-a2-m1-cC_1eqb-a2-m1-cD 3g8m-a1-m1-cA_3g8m-a1-m2-cA LKREMNIADYDAELWQAMEQEKVRQEEHIELIASENYTSPRVMQAQGSQLTNKYAEGYPGKRYYGGCEYVDIVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLEPGDTVLGMNLAHGGHLTHGSPVNFSGKLYNIVPYGIDATGHIDYADLEKQAKEHKPKMIIGGFSAYSGVVDWAKMREIADSIGAYLFVDMAHVAGLVAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGSEELYKKLNSAVFPGGQGGPLMHVIAGKAVALKEAMEPEFKTYQQQVAKNAKAMVEVFLERGYKVVSGGTDNHLFLVDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRVGTPAITRRGFKEAEAKELAGWMCDVLDSINDEAVIERIKGKVLDICARYPVYA MLKREMNIADYDAELWQAMEQEKVRQEEHIELIASENYTSPRVMQAQGSQLTNKYAEGYPGKRYYGGCEYVDIVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLEPGDTVLGMNLAHGGHLTHGSPVNFSGKLYNIVPYGIDATGHIDYADLEKQAKEHKPKMIIGGFSAYSGVVDWAKMREIADSIGAYLFVDMAHVAGLVAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGSEELYKKLNSAVFPGGQGGPLMHVIAGKAVALKEAMEPEFKTYQQQVAKNAKAMVEVFLERGYKVVSGGTDNHLFLVDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRVGTPAITRRGFKEAEAKELAGWMCDVLDSINDEAVIERIKGKVLDICARYPVYA 1dfv-a3-m1-cB_1dfv-a3-m2-cB CRYSTAL STRUCTURE OF HUMAN NEUTROPHIL GELATINASE ASSOCIATED LIPOCALIN MONOMER P80188 P80188 2.6 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 TSDLIPAPPLSKVPLQQNFQDNQFQGKWYVVGLAGNAILREDKDPQKMYATIYELKEDKSYNVTSVLFRKKKCDYWIRTFVPGCQPGEFTLGNIKSYPGLTSYLVRVVSTNYNQHAMVFFKKVSQNREYFKITLYGRTKELTSELKENFIRFSKSLGLPENHIVFPVPIDQCID TSDLIPAPPLSKVPLQQNFQDNQFQGKWYVVGLAGNAILREDKDPQKMYATIYELKEDKSYNVTSVLFRKKKCDYWIRTFVPGCQPGEFTLGNIKSYPGLTSYLVRVVSTNYNQHAMVFFKKVSQNREYFKITLYGRTKELTSELKENFIRFSKSLGLPENHIVFPVPIDQCID 1dfx-a1-m1-cA_1dfx-a1-m2-cA DESULFOFERRODOXIN FROM DESULFOVIBRIO DESULFURICANS, ATCC 27774 P22076 P22076 1.9 X-RAY DIFFRACTION 122 1.0 876 (Desulfovibrio desulfuricans) 876 (Desulfovibrio desulfuricans) 125 125 PKHLEVYKCTHCGNIVEVLHGGGAELVCCGEPMKHMVEGSTDGAMEKHVPVIEKVDGGYLIKVGSVPHPMEEKHWIEWIELLADGRSYTKFLKPGDAPEAFFAIDASKVTAREYCNLHGHWKAEN PKHLEVYKCTHCGNIVEVLHGGGAELVCCGEPMKHMVEGSTDGAMEKHVPVIEKVDGGYLIKVGSVPHPMEEKHWIEWIELLADGRSYTKFLKPGDAPEAFFAIDASKVTAREYCNLHGHWKAEN 1dg1-a1-m1-cG_1dg1-a1-m1-cH WHOLE, UNMODIFIED, EF-TU(ELONGATION FACTOR TU). P0CE48 P0CE48 2.5 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 385 385 KPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGAARAFDQIDNAPEEKARGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS KPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGAARAFDQIDNAPEEKARGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS 1dhk-a1-m1-cB_1dhk-a1-m2-cB STRUCTURE OF PORCINE PANCREATIC ALPHA-AMYLASE P02873 P02873 1.85 X-RAY DIFFRACTION 68 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 195 195 1viw-a1-m1-cB_1viw-a1-m2-cB ATETSFIIDAFNKTNLILQGDATVSSNGNLQLSYNSYDSMSRAFYSAPIQIRDSTTGNVASFDTNFTMNIRTHRSAVGLDFVLVPVDTVTVEFDTFLSRISIDVNNNDIKSVPWDVHDYDGQNAEVRITYNSSTKVFSVSLSNPSTGKSNNVSTTVELEKEVYDWVSVGFSATSGAYQWSYETHDVLSWSFSSKF ATETSFIIDAFNKTNLILQGDATVSSNGNLQLSYNSYDSMSRAFYSAPIQIRDSTTGNVASFDTNFTMNIRTHRSAVGLDFVLVPVDTVTVEFDTFLSRISIDVNNNDIKSVPWDVHDYDGQNAEVRITYNSSTKVFSVSLSNPSTGKSNNVSTTVELEKEVYDWVSVGFSATSGAYQWSYETHDVLSWSFSSKF 1dhn-a1-m2-cA_1dhn-a1-m8-cA 1.65 ANGSTROM RESOLUTION STRUCTURE OF 7,8-DIHYDRONEOPTERIN ALDOLASE FROM STAPHYLOCOCCUS AUREUS P56740 P56740 1.65 X-RAY DIFFRACTION 39 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 121 121 1dhn-a1-m1-cA_1dhn-a1-m7-cA 1dhn-a1-m3-cA_1dhn-a1-m5-cA 1dhn-a1-m4-cA_1dhn-a1-m6-cA 1rri-a1-m1-cA_1rri-a1-m7-cA 1rri-a1-m2-cA_1rri-a1-m8-cA 1rri-a1-m3-cA_1rri-a1-m5-cA 1rri-a1-m4-cA_1rri-a1-m6-cA 1rrw-a1-m1-cA_1rrw-a1-m7-cA 1rrw-a1-m2-cA_1rrw-a1-m8-cA 1rrw-a1-m3-cA_1rrw-a1-m5-cA 1rrw-a1-m4-cA_1rrw-a1-m6-cA 1rry-a1-m1-cA_1rry-a1-m7-cA 1rry-a1-m2-cA_1rry-a1-m8-cA 1rry-a1-m3-cA_1rry-a1-m5-cA 1rry-a1-m4-cA_1rry-a1-m6-cA 1rs2-a1-m1-cA_1rs2-a1-m7-cA 1rs2-a1-m2-cA_1rs2-a1-m8-cA 1rs2-a1-m3-cA_1rs2-a1-m5-cA 1rs2-a1-m4-cA_1rs2-a1-m6-cA 1rs4-a1-m1-cA_1rs4-a1-m7-cA 1rs4-a1-m2-cA_1rs4-a1-m8-cA 1rs4-a1-m3-cA_1rs4-a1-m5-cA 1rs4-a1-m4-cA_1rs4-a1-m6-cA 1rsd-a1-m1-cA_1rsd-a1-m7-cA 1rsd-a1-m2-cA_1rsd-a1-m8-cA 1rsd-a1-m3-cA_1rsd-a1-m5-cA 1rsd-a1-m4-cA_1rsd-a1-m6-cA 1rsi-a1-m1-cA_1rsi-a1-m7-cA 1rsi-a1-m2-cA_1rsi-a1-m8-cA 1rsi-a1-m3-cA_1rsi-a1-m5-cA 1rsi-a1-m4-cA_1rsi-a1-m6-cA 1u68-a1-m1-cA_1u68-a1-m7-cA 1u68-a1-m2-cA_1u68-a1-m8-cA 1u68-a1-m3-cA_1u68-a1-m5-cA 1u68-a1-m4-cA_1u68-a1-m6-cA 2dhn-a1-m1-cA_2dhn-a1-m7-cA 2dhn-a1-m2-cA_2dhn-a1-m8-cA 2dhn-a1-m3-cA_2dhn-a1-m5-cA 2dhn-a1-m4-cA_2dhn-a1-m6-cA 2nm2-a1-m1-cA_2nm2-a1-m1-cC 2nm2-a1-m1-cB_2nm2-a1-m2-cD 2nm2-a1-m1-cD_2nm2-a1-m2-cB 2nm2-a1-m2-cA_2nm2-a1-m2-cC 2nm3-a1-m1-cA_2nm3-a1-m7-cA 2nm3-a1-m2-cA_2nm3-a1-m8-cA 2nm3-a1-m3-cA_2nm3-a1-m5-cA 2nm3-a1-m4-cA_2nm3-a1-m6-cA MQDTIFLKGMRFYGYHGALSAENEIGQIFKVDVTLKVDLSEAGRTDNVIDTVHYGEVFEEVKSIMEGKAVNLLEHLAERIANRINSQYNRVMETKVRITKENPPIPGHYDGVGIEIVRENK MQDTIFLKGMRFYGYHGALSAENEIGQIFKVDVTLKVDLSEAGRTDNVIDTVHYGEVFEEVKSIMEGKAVNLLEHLAERIANRINSQYNRVMETKVRITKENPPIPGHYDGVGIEIVRENK 1dhn-a1-m6-cA_1dhn-a1-m8-cA 1.65 ANGSTROM RESOLUTION STRUCTURE OF 7,8-DIHYDRONEOPTERIN ALDOLASE FROM STAPHYLOCOCCUS AUREUS P56740 P56740 1.65 X-RAY DIFFRACTION 80 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 121 121 1dhn-a1-m1-cA_1dhn-a1-m3-cA 1dhn-a1-m1-cA_1dhn-a1-m4-cA 1dhn-a1-m2-cA_1dhn-a1-m3-cA 1dhn-a1-m2-cA_1dhn-a1-m4-cA 1dhn-a1-m5-cA_1dhn-a1-m7-cA 1dhn-a1-m5-cA_1dhn-a1-m8-cA 1dhn-a1-m6-cA_1dhn-a1-m7-cA 1rri-a1-m1-cA_1rri-a1-m3-cA 1rri-a1-m1-cA_1rri-a1-m4-cA 1rri-a1-m2-cA_1rri-a1-m3-cA 1rri-a1-m2-cA_1rri-a1-m4-cA 1rri-a1-m5-cA_1rri-a1-m7-cA 1rri-a1-m5-cA_1rri-a1-m8-cA 1rri-a1-m6-cA_1rri-a1-m7-cA 1rri-a1-m6-cA_1rri-a1-m8-cA 1rrw-a1-m1-cA_1rrw-a1-m3-cA 1rrw-a1-m1-cA_1rrw-a1-m4-cA 1rrw-a1-m2-cA_1rrw-a1-m3-cA 1rrw-a1-m2-cA_1rrw-a1-m4-cA 1rrw-a1-m5-cA_1rrw-a1-m7-cA 1rrw-a1-m5-cA_1rrw-a1-m8-cA 1rrw-a1-m6-cA_1rrw-a1-m7-cA 1rrw-a1-m6-cA_1rrw-a1-m8-cA 1rry-a1-m1-cA_1rry-a1-m3-cA 1rry-a1-m1-cA_1rry-a1-m4-cA 1rry-a1-m2-cA_1rry-a1-m3-cA 1rry-a1-m2-cA_1rry-a1-m4-cA 1rry-a1-m5-cA_1rry-a1-m7-cA 1rry-a1-m5-cA_1rry-a1-m8-cA 1rry-a1-m6-cA_1rry-a1-m7-cA 1rry-a1-m6-cA_1rry-a1-m8-cA 1rs2-a1-m1-cA_1rs2-a1-m3-cA 1rs2-a1-m1-cA_1rs2-a1-m4-cA 1rs2-a1-m2-cA_1rs2-a1-m3-cA 1rs2-a1-m2-cA_1rs2-a1-m4-cA 1rs2-a1-m5-cA_1rs2-a1-m7-cA 1rs2-a1-m5-cA_1rs2-a1-m8-cA 1rs2-a1-m6-cA_1rs2-a1-m7-cA 1rs2-a1-m6-cA_1rs2-a1-m8-cA 1rs4-a1-m1-cA_1rs4-a1-m3-cA 1rs4-a1-m1-cA_1rs4-a1-m4-cA 1rs4-a1-m2-cA_1rs4-a1-m3-cA 1rs4-a1-m2-cA_1rs4-a1-m4-cA 1rs4-a1-m5-cA_1rs4-a1-m7-cA 1rs4-a1-m5-cA_1rs4-a1-m8-cA 1rs4-a1-m6-cA_1rs4-a1-m7-cA 1rs4-a1-m6-cA_1rs4-a1-m8-cA 1rsd-a1-m1-cA_1rsd-a1-m3-cA 1rsd-a1-m1-cA_1rsd-a1-m4-cA 1rsd-a1-m2-cA_1rsd-a1-m3-cA 1rsd-a1-m2-cA_1rsd-a1-m4-cA 1rsd-a1-m5-cA_1rsd-a1-m7-cA 1rsd-a1-m5-cA_1rsd-a1-m8-cA 1rsd-a1-m6-cA_1rsd-a1-m7-cA 1rsd-a1-m6-cA_1rsd-a1-m8-cA 1rsi-a1-m1-cA_1rsi-a1-m3-cA 1rsi-a1-m1-cA_1rsi-a1-m4-cA 1rsi-a1-m2-cA_1rsi-a1-m3-cA 1rsi-a1-m2-cA_1rsi-a1-m4-cA 1rsi-a1-m5-cA_1rsi-a1-m7-cA 1rsi-a1-m5-cA_1rsi-a1-m8-cA 1rsi-a1-m6-cA_1rsi-a1-m7-cA 1rsi-a1-m6-cA_1rsi-a1-m8-cA 1u68-a1-m1-cA_1u68-a1-m3-cA 1u68-a1-m1-cA_1u68-a1-m4-cA 1u68-a1-m2-cA_1u68-a1-m3-cA 1u68-a1-m2-cA_1u68-a1-m4-cA 1u68-a1-m5-cA_1u68-a1-m7-cA 1u68-a1-m5-cA_1u68-a1-m8-cA 1u68-a1-m6-cA_1u68-a1-m7-cA 1u68-a1-m6-cA_1u68-a1-m8-cA 2dhn-a1-m1-cA_2dhn-a1-m3-cA 2dhn-a1-m1-cA_2dhn-a1-m4-cA 2dhn-a1-m2-cA_2dhn-a1-m3-cA 2dhn-a1-m2-cA_2dhn-a1-m4-cA 2dhn-a1-m5-cA_2dhn-a1-m7-cA 2dhn-a1-m5-cA_2dhn-a1-m8-cA 2dhn-a1-m6-cA_2dhn-a1-m7-cA 2dhn-a1-m6-cA_2dhn-a1-m8-cA 2nm2-a1-m1-cA_2nm2-a1-m1-cB 2nm2-a1-m1-cA_2nm2-a1-m2-cB 2nm2-a1-m1-cB_2nm2-a1-m2-cA 2nm2-a1-m1-cC_2nm2-a1-m1-cD 2nm2-a1-m1-cC_2nm2-a1-m2-cD 2nm2-a1-m1-cD_2nm2-a1-m2-cC 2nm2-a1-m2-cA_2nm2-a1-m2-cB 2nm2-a1-m2-cC_2nm2-a1-m2-cD 2nm3-a1-m1-cA_2nm3-a1-m3-cA 2nm3-a1-m1-cA_2nm3-a1-m4-cA 2nm3-a1-m2-cA_2nm3-a1-m3-cA 2nm3-a1-m2-cA_2nm3-a1-m4-cA 2nm3-a1-m5-cA_2nm3-a1-m7-cA 2nm3-a1-m5-cA_2nm3-a1-m8-cA 2nm3-a1-m6-cA_2nm3-a1-m7-cA 2nm3-a1-m6-cA_2nm3-a1-m8-cA MQDTIFLKGMRFYGYHGALSAENEIGQIFKVDVTLKVDLSEAGRTDNVIDTVHYGEVFEEVKSIMEGKAVNLLEHLAERIANRINSQYNRVMETKVRITKENPPIPGHYDGVGIEIVRENK MQDTIFLKGMRFYGYHGALSAENEIGQIFKVDVTLKVDLSEAGRTDNVIDTVHYGEVFEEVKSIMEGKAVNLLEHLAERIANRINSQYNRVMETKVRITKENPPIPGHYDGVGIEIVRENK 1di0-a2-m2-cE_1di0-a2-m1-cC CRYSTAL STRUCTURE OF LUMAZINE SYNTHASE FROM BRUCELLA ABORTUS P61711 P61711 2.7 X-RAY DIFFRACTION 12 0.993 235 (Brucella abortus) 235 (Brucella abortus) 146 146 1di0-a2-m1-cA_1di0-a2-m2-cB 1di0-a2-m1-cB_1di0-a2-m2-cA 1di0-a2-m1-cE_1di0-a2-m2-cC 1xn1-a1-m1-cB_1xn1-a1-m1-cI 1xn1-a1-m1-cE_1xn1-a1-m1-cF 1xn1-a1-m1-cH_1xn1-a1-m1-cC 1xn1-a1-m1-cJ_1xn1-a1-m1-cA TSFKIAFIQARWHADIVDEARKSFVAELAAKTGGSVEVEIFDVPGAYEIPLHAKTLARTGRYAAIVGAAFVIDGGIYDHDFVATAVINGMMQVQLETEVPVLSVVLTPHHFHESKEHHDFFHAHFKVKGVEAAHAALQIVSERSRI SFKIAFIQARWHADIVDEARKSFVAELAAKTGGSVEVEIFDVPGAYEIPLHAKTLARTGRYAAIVGAAFVIDGGIYDHDFVATAVINGMMQVQLETEVPVLSVVLTPHHFHESKEHHDFFHAHFKVKGVEAAHAALQIVSERSRIA 1di0-a2-m2-cE_1di0-a2-m2-cD CRYSTAL STRUCTURE OF LUMAZINE SYNTHASE FROM BRUCELLA ABORTUS P61711 P61711 2.7 X-RAY DIFFRACTION 78 1.0 235 (Brucella abortus) 235 (Brucella abortus) 146 147 1di0-a1-m1-cA_1di0-a1-m1-cB 1di0-a1-m1-cC_1di0-a1-m1-cB 1di0-a1-m1-cC_1di0-a1-m1-cD 1di0-a1-m1-cE_1di0-a1-m1-cA 1di0-a1-m1-cE_1di0-a1-m1-cD 1di0-a2-m1-cA_1di0-a2-m1-cB 1di0-a2-m1-cC_1di0-a2-m1-cB 1di0-a2-m1-cC_1di0-a2-m1-cD 1di0-a2-m1-cE_1di0-a2-m1-cA 1di0-a2-m1-cE_1di0-a2-m1-cD 1di0-a2-m2-cA_1di0-a2-m2-cB 1di0-a2-m2-cC_1di0-a2-m2-cB 1di0-a2-m2-cC_1di0-a2-m2-cD 1di0-a2-m2-cE_1di0-a2-m2-cA 1t13-a1-m1-cB_1t13-a1-m1-cA 1t13-a1-m1-cB_1t13-a1-m1-cC 1t13-a1-m1-cC_1t13-a1-m1-cD 1t13-a1-m1-cD_1t13-a1-m1-cE 1t13-a1-m1-cE_1t13-a1-m1-cA 1t13-a1-m2-cB_1t13-a1-m2-cA 1t13-a1-m2-cB_1t13-a1-m2-cC 1t13-a1-m2-cC_1t13-a1-m2-cD 1t13-a1-m2-cE_1t13-a1-m2-cA 1t13-a1-m2-cE_1t13-a1-m2-cD 1xn1-a1-m1-cA_1xn1-a1-m1-cE 1xn1-a1-m1-cB_1xn1-a1-m1-cA 1xn1-a1-m1-cB_1xn1-a1-m1-cC 1xn1-a1-m1-cC_1xn1-a1-m1-cD 1xn1-a1-m1-cD_1xn1-a1-m1-cE 1xn1-a1-m1-cF_1xn1-a1-m1-cG 1xn1-a1-m1-cH_1xn1-a1-m1-cG 1xn1-a1-m1-cH_1xn1-a1-m1-cI 1xn1-a1-m1-cJ_1xn1-a1-m1-cF 1xn1-a1-m1-cJ_1xn1-a1-m1-cI TSFKIAFIQARWHADIVDEARKSFVAELAAKTGGSVEVEIFDVPGAYEIPLHAKTLARTGRYAAIVGAAFVIDGGIYDHDFVATAVINGMMQVQLETEVPVLSVVLTPHHFHESKEHHDFFHAHFKVKGVEAAHAALQIVSERSRI TSFKIAFIQARWHADIVDEARKSFVAELAAKTGGSVEVEIFDVPGAYEIPLHAKTLARTGRYAAIVGAAFVIDGGIYDHDFVATAVINGMMQVQLETEVPVLSVVLTPHHFHESKEHHDFFHAHFKVKGVEAAHAALQIVSERSRIA 1di6-a1-m2-cA_1di6-a1-m3-cA 1.45 A CRYSTAL STRUCTURE OF THE MOLYBDENUMM COFACTOR BIOSYNTHESIS PROTEIN MOGA FROM ESCHERICHIA COLI P0AF03 P0AF03 1.45 X-RAY DIFFRACTION 53 1.0 562 (Escherichia coli) 562 (Escherichia coli) 183 183 1di6-a1-m1-cA_1di6-a1-m2-cA 1di6-a1-m1-cA_1di6-a1-m3-cA 1di7-a1-m1-cA_1di7-a1-m2-cA 1di7-a1-m1-cA_1di7-a1-m3-cA 1di7-a1-m2-cA_1di7-a1-m3-cA ATLRIGLVSISDRDKGIPALEEWLTSALTTPFELETRLIPDEQAIIEQTLCELVDEMSCHLVLTTGGTGPARRDVTPDATLAVADREMPGFGEQMRQISLHFVPTAILSRQVGVIRKQALILNLPGQPKSIKETLEGVKDAEGNVVVHGIFASVPYCIQLLEGPYVETAPEVVAAFRPKSARR ATLRIGLVSISDRDKGIPALEEWLTSALTTPFELETRLIPDEQAIIEQTLCELVDEMSCHLVLTTGGTGPARRDVTPDATLAVADREMPGFGEQMRQISLHFVPTAILSRQVGVIRKQALILNLPGQPKSIKETLEGVKDAEGNVVVHGIFASVPYCIQLLEGPYVETAPEVVAAFRPKSARR 1dip-a1-m1-cA_1dip-a1-m1-cB THE SOLUTION STRUCTURE OF PORCINE DELTA-SLEEP-INDUCING PEPTIDE IMMUNOREACTIVE PEPTIDE, NMR, 10 STRUCTURES P80220 P80220 NOT SOLUTION NMR 43 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 77 77 MDLVKNHLMYAVREEVEILKEQIRELVEKNSQLERENTLLKTLASPEQLEKFQSRLSPEEPAPETPEAPEAPGGSAV MDLVKNHLMYAVREEVEILKEQIRELVEKNSQLERENTLLKTLASPEQLEKFQSRLSPEEPAPETPEAPEAPGGSAV 1dir-a1-m1-cB_1dir-a1-m1-cC CRYSTAL STRUCTURE OF A MONOCLINIC FORM OF DIHYDROPTERIDINE REDUCTASE FROM RAT LIVER P11348 P11348 2.6 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 236 236 EARRVLVYGGRGALGSRCVQAFRARNWWVASIDVVENEEASASVIVKMTDSFTEQADQVTAEVGKLLGDQKVDAILCVAGGWAGGNAKSKSLFKNCDLMWKQSIWTSTISSHLATKHLKEGGLLTLAGAKAALDGTPGMIGYGMAKGAVHQLCQSLAGKNSGMPSGAAAIAVLPVTLDTPMNRKSMPEADFSSWTPLEFLVETFHDWITGNKRPNSGSLIQVVTTDGKTELTPAYF EARRVLVYGGRGALGSRCVQAFRARNWWVASIDVVENEEASASVIVKMTDSFTEQADQVTAEVGKLLGDQKVDAILCVAGGWAGGNAKSKSLFKNCDLMWKQSIWTSTISSHLATKHLKEGGLLTLAGAKAALDGTPGMIGYGMAKGAVHQLCQSLAGKNSGMPSGAAAIAVLPVTLDTPMNRKSMPEADFSSWTPLEFLVETFHDWITGNKRPNSGSLIQVVTTDGKTELTPAYF 1dir-a3-m1-cA_1dir-a3-m1-cB CRYSTAL STRUCTURE OF A MONOCLINIC FORM OF DIHYDROPTERIDINE REDUCTASE FROM RAT LIVER P11348 P11348 2.6 X-RAY DIFFRACTION 164 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 236 236 1dhr-a1-m1-cA_1dhr-a1-m2-cA 1dir-a1-m1-cA_1dir-a1-m1-cB 1dir-a1-m1-cC_1dir-a1-m1-cD 1dir-a2-m1-cC_1dir-a2-m1-cD 1hdr-a1-m1-cA_1hdr-a1-m2-cA EARRVLVYGGRGALGSRCVQAFRARNWWVASIDVVENEEASASVIVKMTDSFTEQADQVTAEVGKLLGDQKVDAILCVAGGWAGGNAKSKSLFKNCDLMWKQSIWTSTISSHLATKHLKEGGLLTLAGAKAALDGTPGMIGYGMAKGAVHQLCQSLAGKNSGMPSGAAAIAVLPVTLDTPMNRKSMPEADFSSWTPLEFLVETFHDWITGNKRPNSGSLIQVVTTDGKTELTPAYF EARRVLVYGGRGALGSRCVQAFRARNWWVASIDVVENEEASASVIVKMTDSFTEQADQVTAEVGKLLGDQKVDAILCVAGGWAGGNAKSKSLFKNCDLMWKQSIWTSTISSHLATKHLKEGGLLTLAGAKAALDGTPGMIGYGMAKGAVHQLCQSLAGKNSGMPSGAAAIAVLPVTLDTPMNRKSMPEADFSSWTPLEFLVETFHDWITGNKRPNSGSLIQVVTTDGKTELTPAYF 1div-a1-m1-cA_1div-a1-m2-cA RIBOSOMAL PROTEIN L9 P02417 P02417 2.6 X-RAY DIFFRACTION 50 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 149 149 MKVIFLKDVKGKGKKGEIKNVADGYANNFLFKQGLAIEATPANLKALEAQKQKEQRQAAEELANAKKLKEQLEKLTVTIPAKAGEGGRLFGSITSKQIAESLQAQHGLKLDKRKIELADAIRALGYTNVPVKLHPEVTATLKVHVTEQK MKVIFLKDVKGKGKKGEIKNVADGYANNFLFKQGLAIEATPANLKALEAQKQKEQRQAAEELANAKKLKEQLEKLTVTIPAKAGEGGRLFGSITSKQIAESLQAQHGLKLDKRKIELADAIRALGYTNVPVKLHPEVTATLKVHVTEQK 1dj2-a1-m1-cA_1dj2-a1-m1-cB STRUCTURES OF ADENYLOSUCCINATE SYNTHETASE FROM TRITICUM AESTIVUM AND ARABIDOPSIS THALIANA Q96529 Q96529 2.9 X-RAY DIFFRACTION 183 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 429 429 IGSLSQVSGVLGCQWGDEGKGKLVDILAQHFDIVARCQGGANAGHTIYNSEGKKFALHLVPSGILNEDTTCVIGNGVVVHLPGLFKEIDGLESNGVSCKGRILVSDRAHLLFDFHQEVDGLRESELAKSFIGTTKRGIGPAYSSKVIRNGIRVGDLRHMDTLPQKLDLLLSDAAARFQGFKYTPEMLREEVEAYKRYADRLEPYITDTVHFINDSISQKKKVLVEGGQATMLDIDFGTYPFVTSSSPSAGGICTGLGIAPSVVGDLIGVVKAYTTRVGSGPFPTENLGTGGDLLRLAGQEFGTTTGRPRRCGWLDIVALKFSCQINGFASLNLTKLDVLSDLNEIQLGVAYKRSDGTPVKSFPGDLRLLEELHVEYEVLPGWKSDISSVRNYSDLPKAAQQYVERIEELVGVPIHYIGIGPGRDALIYK IGSLSQVSGVLGCQWGDEGKGKLVDILAQHFDIVARCQGGANAGHTIYNSEGKKFALHLVPSGILNEDTTCVIGNGVVVHLPGLFKEIDGLESNGVSCKGRILVSDRAHLLFDFHQEVDGLRESELAKSFIGTTKRGIGPAYSSKVIRNGIRVGDLRHMDTLPQKLDLLLSDAAARFQGFKYTPEMLREEVEAYKRYADRLEPYITDTVHFINDSISQKKKVLVEGGQATMLDIDFGTYPFVTSSSPSAGGICTGLGIAPSVVGDLIGVVKAYTTRVGSGPFPTENLGTGGDLLRLAGQEFGTTTGRPRRCGWLDIVALKFSCQINGFASLNLTKLDVLSDLNEIQLGVAYKRSDGTPVKSFPGDLRLLEELHVEYEVLPGWKSDISSVRNYSDLPKAAQQYVERIEELVGVPIHYIGIGPGRDALIYK 1dj3-a1-m1-cA_1dj3-a1-m1-cB STRUCTURES OF ADENYLOSUCCINATE SYNTHETASE FROM TRITICUM AESTIVUM AND ARABIDOPSIS THALIANA O24396 O24396 3 X-RAY DIFFRACTION 183 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 432 432 ADRVSSLSNVSGVLGSQWGDEGKGKLVDVLAPRFDIVARCQGGANAGHTIYNSEGKKFALHLVPSGILHEGTLCVVGNGAVIHVPGFFGEIDGLQSNGVSCDGRILVSDRAHLLFDLHQTVDGLREAELANSFIGTTKRGIGPCYSSKVTRNGLRVCDLRHMDTFGDKLDVLFEDAAARFEGFKYSKGMLKEEVERYKKFAERLEPFIADTVHVLNESIRQKKKILVEGGQATMLDIDFGTYPFVTSSSPSAGGICTGLGIAPRVIGDLIGVVKAYTTRVGSGPFPTELLGEEGDVLRKAGMEFGTTTGRPRRCGWLDIVALKYCCDINGFSSLNLTKLDVLSGLPEIKLGVSYNQMDGEKLQSFPGDLDTLEQVQVNYEVLPGWDSDISSVRSYSELPQAARRYVERIEELAGVPVHYIGVGPGRDALIYK ADRVSSLSNVSGVLGSQWGDEGKGKLVDVLAPRFDIVARCQGGANAGHTIYNSEGKKFALHLVPSGILHEGTLCVVGNGAVIHVPGFFGEIDGLQSNGVSCDGRILVSDRAHLLFDLHQTVDGLREAELANSFIGTTKRGIGPCYSSKVTRNGLRVCDLRHMDTFGDKLDVLFEDAAARFEGFKYSKGMLKEEVERYKKFAERLEPFIADTVHVLNESIRQKKKILVEGGQATMLDIDFGTYPFVTSSSPSAGGICTGLGIAPRVIGDLIGVVKAYTTRVGSGPFPTELLGEEGDVLRKAGMEFGTTTGRPRRCGWLDIVALKYCCDINGFSSLNLTKLDVLSGLPEIKLGVSYNQMDGEKLQSFPGDLDTLEQVQVNYEVLPGWDSDISSVRSYSELPQAARRYVERIEELAGVPVHYIGVGPGRDALIYK 1djc-a1-m1-cA_1djc-a1-m2-cA STRUCTURE OF BETA-LACTAMASE PRECURSOR, S70A MUTANT, AT 120K P00807 P00807 2 X-RAY DIFFRACTION 38 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 257 257 1blc-a1-m1-cA_1blc-a1-m2-cA KELNDLEKKYNAHIGVYALDTKSGKEVKFNSDKRFAYAATSKAINSAILLEQVPYNKLNKKVHINKDDIVAYSPILEKYVGKDITLKALIEASMTYSDNTANNKIIKEIGGIKKVKQRLKELGDKVTNPVRYEIELNYYSPKSKKDTSTPAAFGKTLNKLIANGKLSKENKKFLLDLMLNNKSGDTLIKDGVPKDYKVADKSGQAITYASRNDVAFVYPKGQSEPIVLVIFTNKDNKSDKPNDKLISETAKSVMKEF KELNDLEKKYNAHIGVYALDTKSGKEVKFNSDKRFAYAATSKAINSAILLEQVPYNKLNKKVHINKDDIVAYSPILEKYVGKDITLKALIEASMTYSDNTANNKIIKEIGGIKKVKQRLKELGDKVTNPVRYEIELNYYSPKSKKDTSTPAAFGKTLNKLIANGKLSKENKKFLLDLMLNNKSGDTLIKDGVPKDYKVADKSGQAITYASRNDVAFVYPKGQSEPIVLVIFTNKDNKSDKPNDKLISETAKSVMKEF 1djt-a1-m1-cA_1djt-a1-m1-cB ATOMIC RESOLUTION STRUCTURE OF SCORPION ALPHA-LIKE TOXIN BMK M1 IN A NEW CRYSTAL FORM P45697 P45697 1.2 X-RAY DIFFRACTION 24 1.0 34649 (Mesobuthus martensii) 34649 (Mesobuthus martensii) 64 64 VRDAYIAKPHNCVYECARNEYCNDLCTKNGAKSGYCQWVGKYGNGCWCIELPDNVPIRVPGKCH VRDAYIAKPHNCVYECARNEYCNDLCTKNGAKSGYCQWVGKYGNGCWCIELPDNVPIRVPGKCH 1dk5-a3-m1-cB_1dk5-a3-m2-cA CRYSTAL STRUCTURE OF ANNEXIN 24(CA32) FROM CAPSICUM ANNUUM Q42657 Q42657 2.8 X-RAY DIFFRACTION 77 0.997 4072 (Capsicum annuum) 4072 (Capsicum annuum) 314 316 HMASLTVPAHVPSAAEDCEQLRSAFKGWGTNEKLIISILAHRTAAQRKLIRQTYAETFGEDLLKELDRELTHDFEKLVLVWTLDPSERDAHLAKEATKRWTKSNFVLVELACTRSPKELVLAREAYHARYKKSLEEDVAYHTTGDHRKLLVPLVSSYRYGGEEVDLRLAKAESKILHEKISDKAYSDDEVIRILATRSKAQLNATLNHYKDEHGEDILKQLEDGDEFVALLRATIKGLVYPEHYFVEVLRDAINRRGTEEDHLTRVIATRAEVDLKIIADEYQKRDSIPLGRAIAKDTRGDYESMLLALLGQEE HHHHMASLTVPAHVPSAAEDCEQLRSAFKGWGTNEKLIISILAHRTAAQRKLIRQTYAETFGEDLLKELDRELTHDFEKLVLVWTLDPSERDAHLAKEATKRWTKSNFVLVELACTRSPKELVLAREAYHARYKKSLEEDVAYHTTGDHRKLLVPLVSSYRYGGEEVDLRLAKAESKILHEKISDKAYSDDEVIRILATRSKAQLNATLNHYKDEHGEDILKQLEDGDEFVALLRATIKGLVYPEHYFVEVLRDAINRRGTEEDHLTRVIATRAEVDLKIIADEYQKRDSIPLGRAIAKDTRGDYESMLLALLGQE 1dk5-a4-m1-cB_1dk5-a4-m3-cA CRYSTAL STRUCTURE OF ANNEXIN 24(CA32) FROM CAPSICUM ANNUUM Q42657 Q42657 2.8 X-RAY DIFFRACTION 79 0.997 4072 (Capsicum annuum) 4072 (Capsicum annuum) 314 316 HMASLTVPAHVPSAAEDCEQLRSAFKGWGTNEKLIISILAHRTAAQRKLIRQTYAETFGEDLLKELDRELTHDFEKLVLVWTLDPSERDAHLAKEATKRWTKSNFVLVELACTRSPKELVLAREAYHARYKKSLEEDVAYHTTGDHRKLLVPLVSSYRYGGEEVDLRLAKAESKILHEKISDKAYSDDEVIRILATRSKAQLNATLNHYKDEHGEDILKQLEDGDEFVALLRATIKGLVYPEHYFVEVLRDAINRRGTEEDHLTRVIATRAEVDLKIIADEYQKRDSIPLGRAIAKDTRGDYESMLLALLGQEE HHHHMASLTVPAHVPSAAEDCEQLRSAFKGWGTNEKLIISILAHRTAAQRKLIRQTYAETFGEDLLKELDRELTHDFEKLVLVWTLDPSERDAHLAKEATKRWTKSNFVLVELACTRSPKELVLAREAYHARYKKSLEEDVAYHTTGDHRKLLVPLVSSYRYGGEEVDLRLAKAESKILHEKISDKAYSDDEVIRILATRSKAQLNATLNHYKDEHGEDILKQLEDGDEFVALLRATIKGLVYPEHYFVEVLRDAINRRGTEEDHLTRVIATRAEVDLKIIADEYQKRDSIPLGRAIAKDTRGDYESMLLALLGQE 1dk8-a1-m1-cA_1dk8-a1-m2-cA CRYSTAL STRUCTURE OF THE RGS-HOMOLOGOUS DOMAIN OF AXIN O15169 O15169 1.57 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 147 GSASPTPPYLKWAESLHSLLDDQDGISLFRTFLKQEGCADLLDFWFACTGFRKLEPCDSNEEKRLKLARAIYRKYILDNNGIVSRQTKPATKSFIKGCIMKQLIDPAMFDQAQTEIQATMEENTYPSFLKSDIYLEYTRTGSESPKV GSASPTPPYLKWAESLHSLLDDQDGISLFRTFLKQEGCADLLDFWFACTGFRKLEPCDSNEEKRLKLARAIYRKYILDNNGIVSRQTKPATKSFIKGCIMKQLIDPAMFDQAQTEIQATMEENTYPSFLKSDIYLEYTRTGSESPKV 1dkd-a6-m1-cB_1dkd-a6-m2-cD CRYSTAL STRUCTURE OF A GROEL (APICAL DOMAIN) AND A DODECAMERIC PEPTIDE COMPLEX P0A6F5 P0A6F5 2.1 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 146 146 1dkd-a5-m1-cA_1dkd-a5-m1-cC EGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGV EGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGV 1dkg-a1-m1-cB_1dkg-a1-m1-cA CRYSTAL STRUCTURE OF THE NUCLEOTIDE EXCHANGE FACTOR GRPE BOUND TO THE ATPASE DOMAIN OF THE MOLECULAR CHAPERONE DNAK P09372 P09372 2.8 X-RAY DIFFRACTION 123 1.0 562 (Escherichia coli) 562 (Escherichia coli) 151 158 DPRDEKVANLEAQLAEAQTRERDGILRVKAEMENLRRRTELDIEKAHKFALEKFINELLPVIDSLDRALEVMSAMVEDIELTLKSMLDVVRKFGVEVIAETNVPLDPNVHQAIAMVESDDVAPGNVLGIMQKGYTLNGRTIRAAMVTVAKA AEQVDPRDEKVANLEAQLAEAQTRERDGILRVKAEMENLRRRTELDIEKAHKFALEKFINELLPVIDSLDRALEVAMSAMVEDIELTLKSMLDVVRKFGVEVIAETNVPLDPNVHQAIAMVESDDVAPGNVLGIMQKGYTLNGRTIRAAMVTVAKAKA 1dkt-a1-m1-cB_1dkt-a1-m1-cA CKSHS1: HUMAN CYCLIN DEPENDENT KINASE SUBUNIT, TYPE 1 COMPLEX WITH METAVANADATE P61024 P61024 2.9 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 72 1dks-a1-m1-cB_1dks-a1-m1-cA QIYYSDKYDDEEFEYRHVMLPKDIAKLVPKTHLMSESEWRNLGVQQSQGWVHYMIHEPEPHILLFRRPLPK QIYYSDKYDDEEFEYRHVMLPKDIAKLVPKTHLMSESEWRNLGVQQSQGWVHYMIHEPEPHILLFRRPLPKK 1dkw-a1-m1-cB_1dkw-a1-m1-cA CRYSTAL STRUCTURE OF TRIOSE-PHOSPHATE ISOMERASE WITH MODIFIED SUBSTRATE BINDING SITE P04789 P04789 2.65 X-RAY DIFFRACTION 22 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 234 238 SKPQPIAAANWKDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNEDSLPSLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGLKPEFVDIIKATQ SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNEDSLPSLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGLKPEFVDIIKATQ 1dl5-a1-m1-cB_1dl5-a1-m1-cA PROTEIN-L-ISOASPARTATE O-METHYLTRANSFERASE Q56308 Q56308 1.8 X-RAY DIFFRACTION 42 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 316 317 MREKLFWILKKYGVSDHIAKAFLEIPREEFLTKSYPLSYVYEDIVLVSYDDGEEYSTSSQPSLMALFMEWVGLDKGMRVLEIGGGTGYNAAVMSRVVGEKGLVVSVEYSRKICEIAKRNVERLGIENVIFVCGDGYYGVPEFSPYDVIFVTVGVDEVPETWFTQLKEGGRVIVPINLKLSRRQPAFLFKKKDPYLVGNYKLETRFITAGGNLGNLLERNRKLLREFPFNREILLVRSHIFVELVDLLTRRLTEIDGTFYYAGPNGVVEFLDDRMRIYGDAPEIENLLTQWESCGYRSFEYLMLHVGYNAFSHISCS MREKLFWILKKYGVSDHIAKAFLEIPREEFLTKSYPLSYVYEDIVLVSYDDGEEYSTSSQPSLMALFMEWVGLDKGMRVLEIGGGTGYNAAVMSRVVGEKGLVVSVEYSRKICEIAKRNVERLGIENVIFVCGDGYYGVPEFSPYDVIFVTVGVDEVPETWFTQLKEGGRVIVPINLKLSRRQPAFLFKKKDPYLVGNYKLETRFITAGGNLGNLLERNRKLLREFPFNREILLVRSHIFVELVDLLTRRLTEIDGTFYYAGPNGVVEFLDDRMRIYGDAPEIENLLTQWESCGYRSFEYLMLHVGYNAFSHISCSI 1dl5-a2-m1-cB_1dl5-a2-m2-cA PROTEIN-L-ISOASPARTATE O-METHYLTRANSFERASE Q56308 Q56308 1.8 X-RAY DIFFRACTION 36 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 316 317 MREKLFWILKKYGVSDHIAKAFLEIPREEFLTKSYPLSYVYEDIVLVSYDDGEEYSTSSQPSLMALFMEWVGLDKGMRVLEIGGGTGYNAAVMSRVVGEKGLVVSVEYSRKICEIAKRNVERLGIENVIFVCGDGYYGVPEFSPYDVIFVTVGVDEVPETWFTQLKEGGRVIVPINLKLSRRQPAFLFKKKDPYLVGNYKLETRFITAGGNLGNLLERNRKLLREFPFNREILLVRSHIFVELVDLLTRRLTEIDGTFYYAGPNGVVEFLDDRMRIYGDAPEIENLLTQWESCGYRSFEYLMLHVGYNAFSHISCS MREKLFWILKKYGVSDHIAKAFLEIPREEFLTKSYPLSYVYEDIVLVSYDDGEEYSTSSQPSLMALFMEWVGLDKGMRVLEIGGGTGYNAAVMSRVVGEKGLVVSVEYSRKICEIAKRNVERLGIENVIFVCGDGYYGVPEFSPYDVIFVTVGVDEVPETWFTQLKEGGRVIVPINLKLSRRQPAFLFKKKDPYLVGNYKLETRFITAGGNLGNLLERNRKLLREFPFNREILLVRSHIFVELVDLLTRRLTEIDGTFYYAGPNGVVEFLDDRMRIYGDAPEIENLLTQWESCGYRSFEYLMLHVGYNAFSHISCSI 1dle-a1-m1-cB_1dle-a1-m1-cA FACTOR B SERINE PROTEASE DOMAIN P00751 P00751 2.1 X-RAY DIFFRACTION 52 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 282 288 SLCGMVWEHRKGTDYHKQPWQAKISVIRPSKGHESCMGAVVSEYFVLTAAHCFTVDDKEHSIKVSVGGEKRDLEIEVVLFHPNYNINGKKEAGIPEFYDYDVALIKLKNKLKYGQTIRPICLPCTEGTTRALRLPPTTTCQQQKEELLPAQDIKALFVSEEEKKLTRKEVYIKNGDKKGSCERDAQYAPGYDKVKDISEVVTPRFLCTGGVSPYADPNTCRGDSGGPLIVHKRSRFIQVGVISWGVVDVCKVPAHARDFHINLFQVLPWLKEKLQDEDLGFL ADPDESQSLSLCGMVKGTDYHKQPWQAKISVIRPSKGHESCMGAVVSEYFVLTAAHCFTVDDKEHSIKVSVGGEKRDLEIEVVLFHPNYNINGKKEAGIPEFYDYDVALIKLKNKLKYGQTIRPICLPCTEGTTRALRLPPTTTCQQQKEELLPAQDIKALFVSEEEKKLTRKEVYIKNGDKKGSCERDAQYAPGYDKVKDISEVVTPRFLCTGGVSPYADPNTCRGDSGGPLIVHKRSRFIQVGVISWGVVDVCKQVPAHARDFHINLFQVLPWLKEKLQDEDLGFL 1dlh-a1-m1-cB_1dlh-a1-m1-cE CRYSTAL STRUCTURE OF THE HUMAN CLASS II MHC PROTEIN HLA-DR1 COMPLEXED WITH AN INFLUENZA VIRUS PEPTIDE P01911 P01911 2.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 188 1a6a-a2-m1-cB_1a6a-a2-m2-cB 1bx2-a1-m1-cE_1bx2-a1-m1-cB 1seb-a1-m1-cB_1seb-a1-m1-cF 7nzh-a1-m1-cBBB_7nzh-a1-m1-cDDD TRPRFLWQLKFECHFFNGTERVRLLERCIYNQEESVRFDSDVGEYRAVTELGRPDAEYWNSQKDLLEQRRAAVDTYCRHNYGVGESFTVQRRVEPKVTVYPSKTQPLQHHNLLVCSVSGFYPGSIEVRWFRNGQEEKAGVVSTGLIQNGDWTFQTLVMLETVPRSGEVYTCQVEHPSVTSPLTVEWRA TRPRFLWQLKFECHFFNGTERVRLLERCIYNQEESVRFDSDVGEYRAVTELGRPDAEYWNSQKDLLEQRRAAVDTYCRHNYGVGESFTVQRRVEPKVTVYPSKTQPLQHHNLLVCSVSGFYPGSIEVRWFRNGQEEKAGVVSTGLIQNGDWTFQTLVMLETVPRSGEVYTCQVEHPSVTSPLTVEWRA 1dlj-a1-m1-cA_1dlj-a1-m2-cA THE FIRST STRUCTURE OF UDP-GLUCOSE DEHYDROGENASE (UDPGDH) REVEALS THE CATALYTIC RESIDUES NECESSARY FOR THE TWO-FOLD OXIDATION P0C0F4 P0C0F4 1.8 X-RAY DIFFRACTION 165 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 402 402 1dli-a1-m1-cA_1dli-a1-m2-cA MKIAVAGSGYVGLSLGVLLSLQNEVTIVDILPSKVDKINNGLSPIQDEYIEYYLKSKQLSIKATLDSKAAYKEAELVIIATPTNYNSRINYFDTQHVETVIKEVLSVNSHATLIIKSTIPIGFITEMRQKFQTDRIIFSPEFLRESKALYDNLYPSRIIVSCEENDSPKVKADAEKFALLLKSAAKKNNVPVLIMGASEAEAVKLFANTYLALRVAYFNELDTYAESRKLNSHMIIQGISYDDRIGMHYNNPSFGYGGYSLPKDTKQLLANYNNIPQTLIEAIVSSNNVRKSYIAKQIINVLKEQESPVKVVGVYRLIMKSNSDNFRESAIKDVIDILKSKDIKIIIYEPMLNKLESEDQSVLVNDLENFKKQANIIVTNRYDNELQDVKNKVYSRDIFGRD MKIAVAGSGYVGLSLGVLLSLQNEVTIVDILPSKVDKINNGLSPIQDEYIEYYLKSKQLSIKATLDSKAAYKEAELVIIATPTNYNSRINYFDTQHVETVIKEVLSVNSHATLIIKSTIPIGFITEMRQKFQTDRIIFSPEFLRESKALYDNLYPSRIIVSCEENDSPKVKADAEKFALLLKSAAKKNNVPVLIMGASEAEAVKLFANTYLALRVAYFNELDTYAESRKLNSHMIIQGISYDDRIGMHYNNPSFGYGGYSLPKDTKQLLANYNNIPQTLIEAIVSSNNVRKSYIAKQIINVLKEQESPVKVVGVYRLIMKSNSDNFRESAIKDVIDILKSKDIKIIIYEPMLNKLESEDQSVLVNDLENFKKQANIIVTNRYDNELQDVKNKVYSRDIFGRD 1dlp-a1-m1-cB_1dlp-a1-m1-cD STRUCTURAL CHARACTERIZATION OF THE NATIVE FETUIN-BINDING PROTEIN SCILLA CAMPANULATA AGGLUTININ (SCAFET): A NOVEL TWO-DOMAIN LECTIN Q9ZP48 Q9ZP48 3.3 X-RAY DIFFRACTION 68 0.995 81759 (Hyacinthoides hispanica) 81759 (Hyacinthoides hispanica) 221 223 NNILFGLSHEGSHPQTLHAAQSLELSSFRFTMQSDCNLVLFDSDVRVWASNTAGATGCRAVLQSDGLLVILTAQNTIRWSSGTKGSIGNYVLVLQPDRTVTIYGPGLWDSGTSNGNSILYSTQNHPQTLHATQSLQLSPYRLSMETDCNLVLFDRDDRVWSTNTAGTGCRAVLQPNGRMDVLTNQNIAVWTSGNSRSAGRYVFVLQPDRNLAIYGGALWTT NNILFGLSHEGSHPQTLHAAQSLELSSFRFTMQSDCNLVLFDSDVRVWASNTAGATGCRAVLQSDGLLVILTAQNTIRWSSGTKGSIGNYVLVLQPDRTVTIYGPGLWDSGTSNNGNSILYSTNHPQTLHATQSLQLSPYRLSMETDCNLVLFDRDDRVWSTNTAGKGTGCRAVLQPNGRMDVLTNQNIAVWTSGNSRSAGRYVFVLQPDRNLAIYGGALWTT 1dlp-a1-m1-cF_1dlp-a1-m1-cC STRUCTURAL CHARACTERIZATION OF THE NATIVE FETUIN-BINDING PROTEIN SCILLA CAMPANULATA AGGLUTININ (SCAFET): A NOVEL TWO-DOMAIN LECTIN Q9ZP48 Q9ZP48 3.3 X-RAY DIFFRACTION 36 1.0 81759 (Hyacinthoides hispanica) 81759 (Hyacinthoides hispanica) 216 234 1dlp-a1-m1-cB_1dlp-a1-m1-cE 1dlp-a1-m1-cD_1dlp-a1-m1-cA NNILFGLSHEGSHPQTLHAAQSLELSSFRFTMQSDCNLVLFDSDVRVWASNTAGATGCRAVLQSDGLLVILTAQNTIRWSSGTKGSIGNYVLVLQPDRTVTIYGPGLWDSGGNSILYSTNHPQTLHATQSLQLSPYRLSMETDCNLVLFDRDDRVWSTNTGTGCRAVLQPNGRMDVLTNQNIAVWTSGNSRSAGRYVFVLQPDRNLAIYGGALWTT NNILFGLSHEGSHPQTLHAAQSLELSSFRFTMQSDCNLVLFDSDVRVWASNTAGATGCRAVLQSDGLLVILTAQNTIRWSSGTKGSIGNYVLVLQPDRTVTIYGPGLWDSGTSNKGSVVVANNGNSILYSTQGNHPQTLHATQSLQLSPYRLSMETDCNLVLFDRDDRVWSTNTAGKGTGCRAVLQPNGRMDVLTNQNIAVWTSGNSRSAGRYVFVLQPDRNLAIYGGALWTTG 1dlp-a1-m1-cF_1dlp-a1-m1-cE STRUCTURAL CHARACTERIZATION OF THE NATIVE FETUIN-BINDING PROTEIN SCILLA CAMPANULATA AGGLUTININ (SCAFET): A NOVEL TWO-DOMAIN LECTIN Q9ZP48 Q9ZP48 3.3 X-RAY DIFFRACTION 59 1.0 81759 (Hyacinthoides hispanica) 81759 (Hyacinthoides hispanica) 216 231 1dlp-a1-m1-cA_1dlp-a1-m1-cC NNILFGLSHEGSHPQTLHAAQSLELSSFRFTMQSDCNLVLFDSDVRVWASNTAGATGCRAVLQSDGLLVILTAQNTIRWSSGTKGSIGNYVLVLQPDRTVTIYGPGLWDSGGNSILYSTNHPQTLHATQSLQLSPYRLSMETDCNLVLFDRDDRVWSTNTGTGCRAVLQPNGRMDVLTNQNIAVWTSGNSRSAGRYVFVLQPDRNLAIYGGALWTT NNILFGLSHEGSHPQTLHAAQSLELSSFRFTMQSDCNLVLFDSDVRVWASNTAGATGCRAVLQSDGLLVILTAQNTIRWSSGTKGSIGNYVLVLQPDRTVTIYGPGLWDSGTSNKGSVVVANNGNSILYSTNHPQTLHATQSLQLSPYRLSMETDCNLVLFDRDDRVWSTNTAGKGTGCRAVLQPNGRMDVLTNQNIAVWTSGNSRSAGRYVFVLQPDRNLAIYGGALWTT 1dmh-a1-m1-cA_1dmh-a1-m1-cB STRUCTURE OF CATECHOL 1,2-DIOXYGENASE FROM ACINETOBACTER SP. ADP1 WITH BOUND 4-METHYLCATECHOL P07773 P07773 1.7 X-RAY DIFFRACTION 198 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 309 309 1dlm-a1-m1-cA_1dlm-a1-m1-cB 1dlq-a1-m1-cA_1dlq-a1-m1-cB 1dlt-a1-m1-cA_1dlt-a1-m1-cB VKIFNTQDVQDFLRVASGLEQEGGNPRVKQIIHRVLSDLYKAIEDLNITSDEYWAGVAYLNQLGANQEAGLLSPGLGFDHYLDMRMDAEDAALGIENATPRTIEGPLYVAGAPESVGYARMDDGSDPNGHTLILHGTIFDADGKPLPNAKVEIWHANTKGFYSHFDPTGEQQAFNMRRSIITDENGQYRVRTILPAGYGCPPEGPTQQLLNQLGRHGNRPAHIHYFVSADGHRKLTTQINVAGDPYTYDDFAYATREGLVVDAVEHTDPEAIKANDVEGPFAEMVFDLKLTRLVDGVDNQVVDRPRLAV VKIFNTQDVQDFLRVASGLEQEGGNPRVKQIIHRVLSDLYKAIEDLNITSDEYWAGVAYLNQLGANQEAGLLSPGLGFDHYLDMRMDAEDAALGIENATPRTIEGPLYVAGAPESVGYARMDDGSDPNGHTLILHGTIFDADGKPLPNAKVEIWHANTKGFYSHFDPTGEQQAFNMRRSIITDENGQYRVRTILPAGYGCPPEGPTQQLLNQLGRHGNRPAHIHYFVSADGHRKLTTQINVAGDPYTYDDFAYATREGLVVDAVEHTDPEAIKANDVEGPFAEMVFDLKLTRLVDGVDNQVVDRPRLAV 1dmu-a1-m1-cA_1dmu-a1-m2-cA Crystal structure of the restriction endonuclease BglI (e.c.3.1.21.4) bound to its dna recognition sequence O68557 O68557 2.2 X-RAY DIFFRACTION 211 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 299 299 MYNLHREKIFMSYNQNKQYLEDNPEIQEKIELYGLNLLNEVISDNEEEIRADYNEANFLHPFWMNYPPLDRGKMPKGDQIPWIEVGEKAVGSKLTRLVSQREDITVREIGLPTGPDERYLLTSPTIYSLTNGFTDSIMMFVDIKSVGPRDSDYDLVLSPNQVSGNGDWAQLEGGIQNNQQTIQGPRSSQIFLPTIPPLYILSDGTIAPVVHLFIKPIYAMRSLTKGDTGQSLYKIKLASVPNGLGLFCNPGYAFDSAYKFLFRPGKDDRTKSLLQKRVRVDLRVLDKIGPRVMTIDMDK MYNLHREKIFMSYNQNKQYLEDNPEIQEKIELYGLNLLNEVISDNEEEIRADYNEANFLHPFWMNYPPLDRGKMPKGDQIPWIEVGEKAVGSKLTRLVSQREDITVREIGLPTGPDERYLLTSPTIYSLTNGFTDSIMMFVDIKSVGPRDSDYDLVLSPNQVSGNGDWAQLEGGIQNNQQTIQGPRSSQIFLPTIPPLYILSDGTIAPVVHLFIKPIYAMRSLTKGDTGQSLYKIKLASVPNGLGLFCNPGYAFDSAYKFLFRPGKDDRTKSLLQKRVRVDLRVLDKIGPRVMTIDMDK 1dmx-a1-m1-cA_1dmx-a1-m1-cB MURINE MITOCHONDRIAL CARBONIC ANYHDRASE V AT 2.45 ANGSTROMS RESOLUTION P23589 P23589 2.45 X-RAY DIFFRACTION 15 1.0 10090 (Mus musculus) 10090 (Mus musculus) 237 237 GTRQSPINIQWKDSVYDPQLAPLRVSYDAASCRYLWNTGYFFQVEFDDSCEDSGISGGPLGNHYRLKQFHFHWGATDEWGSEHAVDGHTYPAELHLVHWNSTKYENYKKASVGENGLAVIGVFLKLGAHHQALQKLVDVLPEVRHKDTQVAMGPFDPSCLMPACRDYWTYPGSLTTPPLAESVTWIVQKTPVEVSPSQLSMFRTLLFSGRGEEEDVMVNNYRPLQPLRDRKLRSSFR GTRQSPINIQWKDSVYDPQLAPLRVSYDAASCRYLWNTGYFFQVEFDDSCEDSGISGGPLGNHYRLKQFHFHWGATDEWGSEHAVDGHTYPAELHLVHWNSTKYENYKKASVGENGLAVIGVFLKLGAHHQALQKLVDVLPEVRHKDTQVAMGPFDPSCLMPACRDYWTYPGSLTTPPLAESVTWIVQKTPVEVSPSQLSMFRTLLFSGRGEEEDVMVNNYRPLQPLRDRKLRSSFR 1do5-a3-m1-cB_1do5-a3-m1-cC HUMAN COPPER CHAPERONE FOR SUPEROXIDE DISMUTASE DOMAIN II O14618 O14618 2.75 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 148 GAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSA GAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSA 1do5-a3-m1-cB_1do5-a3-m1-cD HUMAN COPPER CHAPERONE FOR SUPEROXIDE DISMUTASE DOMAIN II O14618 O14618 2.75 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 153 1do5-a3-m1-cC_1do5-a3-m1-cA GAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSA NLGAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSAGLF 1do5-a3-m1-cC_1do5-a3-m1-cD HUMAN COPPER CHAPERONE FOR SUPEROXIDE DISMUTASE DOMAIN II O14618 O14618 2.75 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 153 1do5-a1-m1-cB_1do5-a1-m1-cA 1do5-a2-m1-cC_1do5-a2-m1-cD 1do5-a3-m1-cB_1do5-a3-m1-cA 6fn8-a1-m1-cA_6fn8-a1-m1-cB GAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSA NLGAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSAGLF 1dof-a1-m1-cA_1dof-a1-m1-cD THE CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE FROM PYROBACULUM AEROPHILUM: INSIGHTS INTO THERMAL STABILITY AND HUMAN PATHOLOGY Q8ZY28 Q8ZY28 2.1 X-RAY DIFFRACTION 124 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 385 385 1dof-a1-m1-cB_1dof-a1-m1-cC HVSPFDWRYGSEEIRRLFTNEAIINAYLEVERALVCALEELGVAERGCCEKVNKASVSADEVHDILSLVLLLEQKSGCRYVHYGATSNDIIDTAWALLIRRALAAVKEKARAVGDQLASMARKYKTLEMVGRTHGQWAEPITLGFKFANYYYELYIACRQLALAEEFIRAKIGGAVGTMASWGELGLEVRRRVAERLGLPHHVITTQVAPRESFAVLASALALMAAVFERLAVEIRELSRPEIGEVVEGGANPTASERIVSLARYVRALTHVAFENVALWHERDLTNSANERVWIPEALLALDEILTSALRVLKNVYIDEERITENLQKALPYILTEFHMNRMIKEGASRAEAYKKAKEVKALTFEYQKWPVERLIEDALSLKLC HVSPFDWRYGSEEIRRLFTNEAIINAYLEVERALVCALEELGVAERGCCEKVNKASVSADEVHDILSLVLLLEQKSGCRYVHYGATSNDIIDTAWALLIRRALAAVKEKARAVGDQLASMARKYKTLEMVGRTHGQWAEPITLGFKFANYYYELYIACRQLALAEEFIRAKIGGAVGTMASWGELGLEVRRRVAERLGLPHHVITTQVAPRESFAVLASALALMAAVFERLAVEIRELSRPEIGEVVEGGANPTASERIVSLARYVRALTHVAFENVALWHERDLTNSANERVWIPEALLALDEILTSALRVLKNVYIDEERITENLQKALPYILTEFHMNRMIKEGASRAEAYKKAKEVKALTFEYQKWPVERLIEDALSLKLC 1dof-a1-m1-cB_1dof-a1-m1-cD THE CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE FROM PYROBACULUM AEROPHILUM: INSIGHTS INTO THERMAL STABILITY AND HUMAN PATHOLOGY Q8ZY28 Q8ZY28 2.1 X-RAY DIFFRACTION 48 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 385 385 1dof-a1-m1-cA_1dof-a1-m1-cC HVSPFDWRYGSEEIRRLFTNEAIINAYLEVERALVCALEELGVAERGCCEKVNKASVSADEVHDILSLVLLLEQKSGCRYVHYGATSNDIIDTAWALLIRRALAAVKEKARAVGDQLASMARKYKTLEMVGRTHGQWAEPITLGFKFANYYYELYIACRQLALAEEFIRAKIGGAVGTMASWGELGLEVRRRVAERLGLPHHVITTQVAPRESFAVLASALALMAAVFERLAVEIRELSRPEIGEVVEGGANPTASERIVSLARYVRALTHVAFENVALWHERDLTNSANERVWIPEALLALDEILTSALRVLKNVYIDEERITENLQKALPYILTEFHMNRMIKEGASRAEAYKKAKEVKALTFEYQKWPVERLIEDALSLKLC HVSPFDWRYGSEEIRRLFTNEAIINAYLEVERALVCALEELGVAERGCCEKVNKASVSADEVHDILSLVLLLEQKSGCRYVHYGATSNDIIDTAWALLIRRALAAVKEKARAVGDQLASMARKYKTLEMVGRTHGQWAEPITLGFKFANYYYELYIACRQLALAEEFIRAKIGGAVGTMASWGELGLEVRRRVAERLGLPHHVITTQVAPRESFAVLASALALMAAVFERLAVEIRELSRPEIGEVVEGGANPTASERIVSLARYVRALTHVAFENVALWHERDLTNSANERVWIPEALLALDEILTSALRVLKNVYIDEERITENLQKALPYILTEFHMNRMIKEGASRAEAYKKAKEVKALTFEYQKWPVERLIEDALSLKLC 1dof-a1-m1-cC_1dof-a1-m1-cD THE CRYSTAL STRUCTURE OF ADENYLOSUCCINATE LYASE FROM PYROBACULUM AEROPHILUM: INSIGHTS INTO THERMAL STABILITY AND HUMAN PATHOLOGY Q8ZY28 Q8ZY28 2.1 X-RAY DIFFRACTION 314 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 385 385 1dof-a1-m1-cA_1dof-a1-m1-cB HVSPFDWRYGSEEIRRLFTNEAIINAYLEVERALVCALEELGVAERGCCEKVNKASVSADEVHDILSLVLLLEQKSGCRYVHYGATSNDIIDTAWALLIRRALAAVKEKARAVGDQLASMARKYKTLEMVGRTHGQWAEPITLGFKFANYYYELYIACRQLALAEEFIRAKIGGAVGTMASWGELGLEVRRRVAERLGLPHHVITTQVAPRESFAVLASALALMAAVFERLAVEIRELSRPEIGEVVEGGANPTASERIVSLARYVRALTHVAFENVALWHERDLTNSANERVWIPEALLALDEILTSALRVLKNVYIDEERITENLQKALPYILTEFHMNRMIKEGASRAEAYKKAKEVKALTFEYQKWPVERLIEDALSLKLC HVSPFDWRYGSEEIRRLFTNEAIINAYLEVERALVCALEELGVAERGCCEKVNKASVSADEVHDILSLVLLLEQKSGCRYVHYGATSNDIIDTAWALLIRRALAAVKEKARAVGDQLASMARKYKTLEMVGRTHGQWAEPITLGFKFANYYYELYIACRQLALAEEFIRAKIGGAVGTMASWGELGLEVRRRVAERLGLPHHVITTQVAPRESFAVLASALALMAAVFERLAVEIRELSRPEIGEVVEGGANPTASERIVSLARYVRALTHVAFENVALWHERDLTNSANERVWIPEALLALDEILTSALRVLKNVYIDEERITENLQKALPYILTEFHMNRMIKEGASRAEAYKKAKEVKALTFEYQKWPVERLIEDALSLKLC 1doi-a1-m2-cA_1doi-a1-m6-cA 2FE-2S FERREDOXIN FROM HALOARCULA MARISMORTUI P00217 P00217 1.9 X-RAY DIFFRACTION 25 1.0 2238 (Haloarcula marismortui) 2238 (Haloarcula marismortui) 128 128 1doi-a1-m1-cA_1doi-a1-m4-cA 1doi-a1-m3-cA_1doi-a1-m5-cA PTVEYLNYEVVDDNGWDMYDDDVFGEASDMDLDDEDYGSLEVNEGEYILEAAEAQGYDWPFSCRAGACANCAAIVLEGDIDMDMQQILSDEEVEDKNVRLTCIGSPDADEVKIVYNAKHLDYLQNRVI PTVEYLNYEVVDDNGWDMYDDDVFGEASDMDLDDEDYGSLEVNEGEYILEAAEAQGYDWPFSCRAGACANCAAIVLEGDIDMDMQQILSDEEVEDKNVRLTCIGSPDADEVKIVYNAKHLDYLQNRVI 1doi-a1-m5-cA_1doi-a1-m6-cA 2FE-2S FERREDOXIN FROM HALOARCULA MARISMORTUI P00217 P00217 1.9 X-RAY DIFFRACTION 32 1.0 2238 (Haloarcula marismortui) 2238 (Haloarcula marismortui) 128 128 1doi-a1-m1-cA_1doi-a1-m2-cA 1doi-a1-m1-cA_1doi-a1-m3-cA 1doi-a1-m2-cA_1doi-a1-m3-cA 1doi-a1-m4-cA_1doi-a1-m5-cA 1doi-a1-m4-cA_1doi-a1-m6-cA PTVEYLNYEVVDDNGWDMYDDDVFGEASDMDLDDEDYGSLEVNEGEYILEAAEAQGYDWPFSCRAGACANCAAIVLEGDIDMDMQQILSDEEVEDKNVRLTCIGSPDADEVKIVYNAKHLDYLQNRVI PTVEYLNYEVVDDNGWDMYDDDVFGEASDMDLDDEDYGSLEVNEGEYILEAAEAQGYDWPFSCRAGACANCAAIVLEGDIDMDMQQILSDEEVEDKNVRLTCIGSPDADEVKIVYNAKHLDYLQNRVI 1dpj-a2-m2-cA_1dpj-a2-m1-cA THE STRUCTURE OF PROTEINASE A COMPLEXED WITH IA3 PEPTIDE INHIBITOR P07267 P07267 1.8 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 329 329 1dp5-a3-m3-cA_1dp5-a3-m1-cA 1g0v-a3-m3-cA_1g0v-a3-m1-cA GGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSNECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAEATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTENGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLITLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGSCISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDLGNNAVGLAKAI GGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSNECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAEATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTENGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLITLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGSCISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDLGNNAVGLAKAI 1dqe-a1-m1-cA_1dqe-a1-m1-cB BOMBYX MORI PHEROMONE BINDING PROTEIN P34174 P34174 1.8 X-RAY DIFFRACTION 28 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 137 137 SQEVMKNLSLNFGKALDECKKEMTLTDAINEDFYNFWKEGYEIKNRETGCAIMCLSTKLNMLDPEGNLHHGNAMEFAKKHGADETMAQQLIDIVHGCEKSTPANDDKCIWTLGVATCFKAEIHKLNWAPSMDVAVGE SQEVMKNLSLNFGKALDECKKEMTLTDAINEDFYNFWKEGYEIKNRETGCAIMCLSTKLNMLDPEGNLHHGNAMEFAKKHGADETMAQQLIDIVHGCEKSTPANDDKCIWTLGVATCFKAEIHKLNWAPSMDVAVGE 1dqp-a1-m1-cA_1dqp-a1-m1-cB CRYSTAL STRUCTURE OF GIARDIA GUANINE PHOSPHORIBOSYLTRANSFERASE COMPLEXED WITH IMMUCILLING Q24973 Q24973 1.75 X-RAY DIFFRACTION 117 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 230 230 1dqn-a1-m1-cA_1dqn-a1-m1-cB MICSVTGKPVKDVLSTFFKDRNDVLESEVKKFHLLATFEECKALAADTARRMNEYYKDVAEPVTLVALLTGAYLYASLLTVHLTFPYTLHFVKVSSYKGTRQESVVFDEEDLKQLKEKREVVLIDEYVDSGHTIFSIQEQIKHAKICSCFVKDVDAIKKHSALADTKMFYGYTPMPKGSWLIGFGLDDNGLRRGWAHLFDINLSESEVTEFRRRLTEHIKGLNINGVNRY MICSVTGKPVKDVLSTFFKDRNDVLESEVKKFHLLATFEECKALAADTARRMNEYYKDVAEPVTLVALLTGAYLYASLLTVHLTFPYTLHFVKVSSYKGTRQESVVFDEEDLKQLKEKREVVLIDEYVDSGHTIFSIQEQIKHAKICSCFVKDVDAIKKHSALADTKMFYGYTPMPKGSWLIGFGLDDNGLRRGWAHLFDINLSESEVTEFRRRLTEHIKGLNINGVNRY 1dqt-a3-m1-cA_1dqt-a3-m1-cD THE CRYSTAL STRUCTURE OF MURINE CTLA4 (CD152) P09793 P09793 2 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 117 117 1dqt-a3-m1-cB_1dqt-a3-m1-cC IQVTQPSVVLASSHGVASFPCEYSPSHNTDEVRVTVLRQTNDQMTEVCATTFTEKNTVGFLDYPFCSGTFNESRVNLTIQGLRAVDTGLYLCKVELMYPPPYFVGMGNGTQIYVIDP IQVTQPSVVLASSHGVASFPCEYSPSHNTDEVRVTVLRQTNDQMTEVCATTFTEKNTVGFLDYPFCSGTFNESRVNLTIQGLRAVDTGLYLCKVELMYPPPYFVGMGNGTQIYVIDP 1dqt-a3-m1-cC_1dqt-a3-m1-cD THE CRYSTAL STRUCTURE OF MURINE CTLA4 (CD152) P09793 P09793 2 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 117 117 1dqt-a1-m1-cA_1dqt-a1-m1-cB 1dqt-a2-m1-cC_1dqt-a2-m1-cD 1dqt-a3-m1-cA_1dqt-a3-m1-cB IQVTQPSVVLASSHGVASFPCEYSPSHNTDEVRVTVLRQTNDQMTEVCATTFTEKNTVGFLDYPFCSGTFNESRVNLTIQGLRAVDTGLYLCKVELMYPPPYFVGMGNGTQIYVIDP IQVTQPSVVLASSHGVASFPCEYSPSHNTDEVRVTVLRQTNDQMTEVCATTFTEKNTVGFLDYPFCSGTFNESRVNLTIQGLRAVDTGLYLCKVELMYPPPYFVGMGNGTQIYVIDP 1dqu-a1-m1-cA_1dqu-a1-m4-cA CRYSTAL STRUCTURE OF THE ISOCITRATE LYASE FROM ASPERGILLUS NIDULANS P28298 P28298 2.8 X-RAY DIFFRACTION 263 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 513 513 1dqu-a1-m2-cA_1dqu-a1-m3-cA SYIEEEDQRYWDEVAAVKNWWKDSRWRYTKRPFTAEQIVAKRGNLKIEYPSNVQAKKLWGILERNFKNKEASFTYGCLDPTMVTQMAKYLDTVYVSGWQSSSTASSTDEPSPDLADYPMNTVPNKVNHLWMAQLFHDRKQREERMTTPKDQRHKVANVDYLRPIIADADTGHGGLTAVMKLTKLFVERGAAGIHIEDQAPGTKGKVLVPISEHINRLVAIRAQADIMGTDLLAIARTDSEAATLITSTIDHRDHPFIIGSTNPDIQPLNDLMVMAEQAGKNGAELQAIEDEWLAKAGLKLFNDAVVDAINNSPLPNKKAAIEKYLTQSKGKSNLEARAIAKEIAGTDIYFDWEAPRTREGYYRYQGGTQCAINRAVAYAPFADLIWMESKLPDYKQAKEFADGVHAVWPEQKLAYNLSPSFNWKKAMPRDEQETYIKRLGALGYAWQFITLAGLHTTALISDTFAKAYAKQGMRAYGELVQEPEMANGVDVVTHQKWSGANYVDNMLKMITGG SYIEEEDQRYWDEVAAVKNWWKDSRWRYTKRPFTAEQIVAKRGNLKIEYPSNVQAKKLWGILERNFKNKEASFTYGCLDPTMVTQMAKYLDTVYVSGWQSSSTASSTDEPSPDLADYPMNTVPNKVNHLWMAQLFHDRKQREERMTTPKDQRHKVANVDYLRPIIADADTGHGGLTAVMKLTKLFVERGAAGIHIEDQAPGTKGKVLVPISEHINRLVAIRAQADIMGTDLLAIARTDSEAATLITSTIDHRDHPFIIGSTNPDIQPLNDLMVMAEQAGKNGAELQAIEDEWLAKAGLKLFNDAVVDAINNSPLPNKKAAIEKYLTQSKGKSNLEARAIAKEIAGTDIYFDWEAPRTREGYYRYQGGTQCAINRAVAYAPFADLIWMESKLPDYKQAKEFADGVHAVWPEQKLAYNLSPSFNWKKAMPRDEQETYIKRLGALGYAWQFITLAGLHTTALISDTFAKAYAKQGMRAYGELVQEPEMANGVDVVTHQKWSGANYVDNMLKMITGG 1dqu-a1-m2-cA_1dqu-a1-m4-cA CRYSTAL STRUCTURE OF THE ISOCITRATE LYASE FROM ASPERGILLUS NIDULANS P28298 P28298 2.8 X-RAY DIFFRACTION 127 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 513 513 1dqu-a1-m1-cA_1dqu-a1-m3-cA SYIEEEDQRYWDEVAAVKNWWKDSRWRYTKRPFTAEQIVAKRGNLKIEYPSNVQAKKLWGILERNFKNKEASFTYGCLDPTMVTQMAKYLDTVYVSGWQSSSTASSTDEPSPDLADYPMNTVPNKVNHLWMAQLFHDRKQREERMTTPKDQRHKVANVDYLRPIIADADTGHGGLTAVMKLTKLFVERGAAGIHIEDQAPGTKGKVLVPISEHINRLVAIRAQADIMGTDLLAIARTDSEAATLITSTIDHRDHPFIIGSTNPDIQPLNDLMVMAEQAGKNGAELQAIEDEWLAKAGLKLFNDAVVDAINNSPLPNKKAAIEKYLTQSKGKSNLEARAIAKEIAGTDIYFDWEAPRTREGYYRYQGGTQCAINRAVAYAPFADLIWMESKLPDYKQAKEFADGVHAVWPEQKLAYNLSPSFNWKKAMPRDEQETYIKRLGALGYAWQFITLAGLHTTALISDTFAKAYAKQGMRAYGELVQEPEMANGVDVVTHQKWSGANYVDNMLKMITGG SYIEEEDQRYWDEVAAVKNWWKDSRWRYTKRPFTAEQIVAKRGNLKIEYPSNVQAKKLWGILERNFKNKEASFTYGCLDPTMVTQMAKYLDTVYVSGWQSSSTASSTDEPSPDLADYPMNTVPNKVNHLWMAQLFHDRKQREERMTTPKDQRHKVANVDYLRPIIADADTGHGGLTAVMKLTKLFVERGAAGIHIEDQAPGTKGKVLVPISEHINRLVAIRAQADIMGTDLLAIARTDSEAATLITSTIDHRDHPFIIGSTNPDIQPLNDLMVMAEQAGKNGAELQAIEDEWLAKAGLKLFNDAVVDAINNSPLPNKKAAIEKYLTQSKGKSNLEARAIAKEIAGTDIYFDWEAPRTREGYYRYQGGTQCAINRAVAYAPFADLIWMESKLPDYKQAKEFADGVHAVWPEQKLAYNLSPSFNWKKAMPRDEQETYIKRLGALGYAWQFITLAGLHTTALISDTFAKAYAKQGMRAYGELVQEPEMANGVDVVTHQKWSGANYVDNMLKMITGG 1dqu-a1-m3-cA_1dqu-a1-m4-cA CRYSTAL STRUCTURE OF THE ISOCITRATE LYASE FROM ASPERGILLUS NIDULANS P28298 P28298 2.8 X-RAY DIFFRACTION 111 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 513 513 1dqu-a1-m1-cA_1dqu-a1-m2-cA SYIEEEDQRYWDEVAAVKNWWKDSRWRYTKRPFTAEQIVAKRGNLKIEYPSNVQAKKLWGILERNFKNKEASFTYGCLDPTMVTQMAKYLDTVYVSGWQSSSTASSTDEPSPDLADYPMNTVPNKVNHLWMAQLFHDRKQREERMTTPKDQRHKVANVDYLRPIIADADTGHGGLTAVMKLTKLFVERGAAGIHIEDQAPGTKGKVLVPISEHINRLVAIRAQADIMGTDLLAIARTDSEAATLITSTIDHRDHPFIIGSTNPDIQPLNDLMVMAEQAGKNGAELQAIEDEWLAKAGLKLFNDAVVDAINNSPLPNKKAAIEKYLTQSKGKSNLEARAIAKEIAGTDIYFDWEAPRTREGYYRYQGGTQCAINRAVAYAPFADLIWMESKLPDYKQAKEFADGVHAVWPEQKLAYNLSPSFNWKKAMPRDEQETYIKRLGALGYAWQFITLAGLHTTALISDTFAKAYAKQGMRAYGELVQEPEMANGVDVVTHQKWSGANYVDNMLKMITGG SYIEEEDQRYWDEVAAVKNWWKDSRWRYTKRPFTAEQIVAKRGNLKIEYPSNVQAKKLWGILERNFKNKEASFTYGCLDPTMVTQMAKYLDTVYVSGWQSSSTASSTDEPSPDLADYPMNTVPNKVNHLWMAQLFHDRKQREERMTTPKDQRHKVANVDYLRPIIADADTGHGGLTAVMKLTKLFVERGAAGIHIEDQAPGTKGKVLVPISEHINRLVAIRAQADIMGTDLLAIARTDSEAATLITSTIDHRDHPFIIGSTNPDIQPLNDLMVMAEQAGKNGAELQAIEDEWLAKAGLKLFNDAVVDAINNSPLPNKKAAIEKYLTQSKGKSNLEARAIAKEIAGTDIYFDWEAPRTREGYYRYQGGTQCAINRAVAYAPFADLIWMESKLPDYKQAKEFADGVHAVWPEQKLAYNLSPSFNWKKAMPRDEQETYIKRLGALGYAWQFITLAGLHTTALISDTFAKAYAKQGMRAYGELVQEPEMANGVDVVTHQKWSGANYVDNMLKMITGG 1dqv-a2-m1-cA_1dqv-a2-m4-cA CRYSTAL STRUCTURE OF SYNAPTOTAGMIN III C2A/C2B P40748 P40748 3.2 X-RAY DIFFRACTION 11 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 275 275 1dqv-a2-m2-cA_1dqv-a2-m3-cA GAPCGRISFALRYLYGSDQLVVRILQALDLPAKDSNGFSDPYVKIYLLPDRKKKFQTKVHRKTLNPIFNETFQFSVPLAELAQRKLHFSVYDFDRFSRHDLIGQVVLDNLLELAEQPPDRPLWRDILEGGSEKADLGELNFSLCYLPTAGLLTVTIIKASNLKAMDLTGFSDPYVKASLISEGRRLKKRKTSIKKNTLNPTYNEALVFDVAPESVENVGLSIAVVDYDCIGHNEVIGVCRVGPEAADPHGREHWAEMLANPRKPVEHWHQLVEEK GAPCGRISFALRYLYGSDQLVVRILQALDLPAKDSNGFSDPYVKIYLLPDRKKKFQTKVHRKTLNPIFNETFQFSVPLAELAQRKLHFSVYDFDRFSRHDLIGQVVLDNLLELAEQPPDRPLWRDILEGGSEKADLGELNFSLCYLPTAGLLTVTIIKASNLKAMDLTGFSDPYVKASLISEGRRLKKRKTSIKKNTLNPTYNEALVFDVAPESVENVGLSIAVVDYDCIGHNEVIGVCRVGPEAADPHGREHWAEMLANPRKPVEHWHQLVEEK 1dqv-a2-m2-cA_1dqv-a2-m4-cA CRYSTAL STRUCTURE OF SYNAPTOTAGMIN III C2A/C2B P40748 P40748 3.2 X-RAY DIFFRACTION 17 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 275 275 1dqv-a2-m1-cA_1dqv-a2-m3-cA GAPCGRISFALRYLYGSDQLVVRILQALDLPAKDSNGFSDPYVKIYLLPDRKKKFQTKVHRKTLNPIFNETFQFSVPLAELAQRKLHFSVYDFDRFSRHDLIGQVVLDNLLELAEQPPDRPLWRDILEGGSEKADLGELNFSLCYLPTAGLLTVTIIKASNLKAMDLTGFSDPYVKASLISEGRRLKKRKTSIKKNTLNPTYNEALVFDVAPESVENVGLSIAVVDYDCIGHNEVIGVCRVGPEAADPHGREHWAEMLANPRKPVEHWHQLVEEK GAPCGRISFALRYLYGSDQLVVRILQALDLPAKDSNGFSDPYVKIYLLPDRKKKFQTKVHRKTLNPIFNETFQFSVPLAELAQRKLHFSVYDFDRFSRHDLIGQVVLDNLLELAEQPPDRPLWRDILEGGSEKADLGELNFSLCYLPTAGLLTVTIIKASNLKAMDLTGFSDPYVKASLISEGRRLKKRKTSIKKNTLNPTYNEALVFDVAPESVENVGLSIAVVDYDCIGHNEVIGVCRVGPEAADPHGREHWAEMLANPRKPVEHWHQLVEEK 1dqv-a2-m3-cA_1dqv-a2-m4-cA CRYSTAL STRUCTURE OF SYNAPTOTAGMIN III C2A/C2B P40748 P40748 3.2 X-RAY DIFFRACTION 41 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 275 275 1dqv-a2-m1-cA_1dqv-a2-m2-cA GAPCGRISFALRYLYGSDQLVVRILQALDLPAKDSNGFSDPYVKIYLLPDRKKKFQTKVHRKTLNPIFNETFQFSVPLAELAQRKLHFSVYDFDRFSRHDLIGQVVLDNLLELAEQPPDRPLWRDILEGGSEKADLGELNFSLCYLPTAGLLTVTIIKASNLKAMDLTGFSDPYVKASLISEGRRLKKRKTSIKKNTLNPTYNEALVFDVAPESVENVGLSIAVVDYDCIGHNEVIGVCRVGPEAADPHGREHWAEMLANPRKPVEHWHQLVEEK GAPCGRISFALRYLYGSDQLVVRILQALDLPAKDSNGFSDPYVKIYLLPDRKKKFQTKVHRKTLNPIFNETFQFSVPLAELAQRKLHFSVYDFDRFSRHDLIGQVVLDNLLELAEQPPDRPLWRDILEGGSEKADLGELNFSLCYLPTAGLLTVTIIKASNLKAMDLTGFSDPYVKASLISEGRRLKKRKTSIKKNTLNPTYNEALVFDVAPESVENVGLSIAVVDYDCIGHNEVIGVCRVGPEAADPHGREHWAEMLANPRKPVEHWHQLVEEK 1dqx-a2-m1-cC_1dqx-a2-m1-cD CRYSTAL STRUCTURE OF OROTIDINE 5'-PHOSPHATE DECARBOXYLASE COMPLEXED TO 6-HYDROXYURIDINE 5'-PHOSPHATE (BMP) P03962 P03962 2.4 X-RAY DIFFRACTION 157 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 267 267 1dqw-a1-m1-cA_1dqw-a1-m1-cB 1dqw-a2-m1-cC_1dqw-a2-m1-cD 1dqx-a1-m1-cA_1dqx-a1-m1-cB 3gdk-a1-m1-cD_3gdk-a1-m1-cA 3gdl-a1-m1-cA_3gdl-a1-m1-cB 3gdm-a1-m1-cB_3gdm-a1-m1-cA 3gdr-a1-m1-cD_3gdr-a1-m1-cA 3gdt-a1-m1-cD_3gdt-a1-m1-cA MHKATYKERAATHPSPVAAKLFNIMHEKQTNLCASLDVRTTKELLELVEALGPKICLLKTHVDILTDFSMEGTVKPLKALSAKYNFLLFEDRKFADIGNTVKLQYSAGVYRIAEWADITNAHGVVGPGIVSGLKQAAEEVTKEPRGLLMLAELSCKGSLSTGEYTKGTVDIAKSDKDFVIGFIAQRDMGGRDEGYDWLIMTPGVGLDDKGDALGQQYRTVDDVVSTGSDIIIVGRGLFAKGRDAKVEGERYRKAGWEAYLRRCGQQD MHKATYKERAATHPSPVAAKLFNIMHEKQTNLCASLDVRTTKELLELVEALGPKICLLKTHVDILTDFSMEGTVKPLKALSAKYNFLLFEDRKFADIGNTVKLQYSAGVYRIAEWADITNAHGVVGPGIVSGLKQAAEEVTKEPRGLLMLAELSCKGSLSTGEYTKGTVDIAKSDKDFVIGFIAQRDMGGRDEGYDWLIMTPGVGLDDKGDALGQQYRTVDDVVSTGSDIIIVGRGLFAKGRDAKVEGERYRKAGWEAYLRRCGQQD 1dqz-a1-m1-cA_1dqz-a1-m1-cB CRYSTAL STRUCTURE OF ANTIGEN 85C FROM MYCOBACTERIUM TUBERCULOSIS P9WQN9 P9WQN9 1.5 X-RAY DIFFRACTION 35 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 280 280 3hrh-a3-m1-cA_3hrh-a3-m1-cB RPGLPVEYLQVPSASMGRDIKVQFQGGGPHAVYLLDGLRAQDDYNGWDINTPAFEEYYQSGLSVIMPVGGQSSFYTDWYQPSQSNGQNYTYKWETFLTREMPAWLQANKGVSPTGNAAVGLSMSGGSALILAAYYPQQFPYAASLSGFLNPSESWWPTLIGLAMNDSGGYNANSMWGPSSDPAWKRNDPMVQIPRLVANNTRIWVYCGNGTPSDLGGDNIPAKFLEGLTLRTNQTFRDTYAADGGRNGVFNFPPNGTHSWPYWNEQLVAMKADIQHVLNG RPGLPVEYLQVPSASMGRDIKVQFQGGGPHAVYLLDGLRAQDDYNGWDINTPAFEEYYQSGLSVIMPVGGQSSFYTDWYQPSQSNGQNYTYKWETFLTREMPAWLQANKGVSPTGNAAVGLSMSGGSALILAAYYPQQFPYAASLSGFLNPSESWWPTLIGLAMNDSGGYNANSMWGPSSDPAWKRNDPMVQIPRLVANNTRIWVYCGNGTPSDLGGDNIPAKFLEGLTLRTNQTFRDTYAADGGRNGVFNFPPNGTHSWPYWNEQLVAMKADIQHVLNG 1ds5-a2-m1-cC_1ds5-a2-m1-cD DIMERIC CRYSTAL STRUCTURE OF THE ALPHA SUBUNIT IN COMPLEX WITH TWO BETA PEPTIDES MIMICKING THE ARCHITECTURE OF THE TETRAMERIC PROTEIN KINASE CK2 HOLOENZYME. P28523 P28523 3.16 X-RAY DIFFRACTION 22 1.0 4577 (Zea mays) 4577 (Zea mays) 328 328 1ds5-a1-m1-cA_1ds5-a1-m1-cB MSKARVYADVNVLRPKEYWDYEALTVQWGEQDDYEVVRKVGRGKYSEVFEGINVNNNEKCIIKILKPVKKKKIKREIKILQNLCGGPNIVKLLDIVRDQHSKTPSLIFEYVNNTDFKVLYPTLTDYDIRYYIYELLKALDYCHSQGIMHRDVKPHNVMIDHELRKLRLIDWGLAEFYHPGKEYNVRVASRYFKGPELLVDLQDYDYSLDMWSLGCMFAGMIFRKEPFFYGHDNHDQLVKIAKVLGTDGLNVYLNKYRIELDPQLEALVGRHSRKPWLKFMNADNQHLVSPEAIDFLDKLLRYDHQERLTALEAMTHPYFQQVRAAENS MSKARVYADVNVLRPKEYWDYEALTVQWGEQDDYEVVRKVGRGKYSEVFEGINVNNNEKCIIKILKPVKKKKIKREIKILQNLCGGPNIVKLLDIVRDQHSKTPSLIFEYVNNTDFKVLYPTLTDYDIRYYIYELLKALDYCHSQGIMHRDVKPHNVMIDHELRKLRLIDWGLAEFYHPGKEYNVRVASRYFKGPELLVDLQDYDYSLDMWSLGCMFAGMIFRKEPFFYGHDNHDQLVKIAKVLGTDGLNVYLNKYRIELDPQLEALVGRHSRKPWLKFMNADNQHLVSPEAIDFLDKLLRYDHQERLTALEAMTHPYFQQVRAAENS 1dsu-a1-m1-cB_1dsu-a1-m1-cA HUMAN FACTOR D, COMPLEMENT ACTIVATING ENZYME P00746 P00746 2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 228 1dfp-a1-m1-cB_1dfp-a1-m1-cA ILGGREAEAHARPYMASVQLNGAHLCGGVLVAEQWVLSAAHCLEDAADGKVQVLLGAHSLSQPEPSKRLYDVLRAVPHPDSQPDTIDHDLLLLQLSEKATLGPAVRPLPWQRVDRDVAPGTLCDVAGWGIVNHAGRRPDSLQHVLLPVLDRATCNRRTHHDGAITERLMCAESNRRDSCKGDSGGPLVCGGVLEGVVTSGSRVCGNRKKPGIYTRVASYAAWIDSVLA ILGGREAEAHARPYMASVQLNGAHLCGGVLVAEQWVLSAAHCLEDAADGKVQVLLGAHSLSQPEPSKRLYDVLRAVPHPDSQPDTIDHDLLLLQLSEKATLGPAVRPLPWQRVDRDVAPGTLCDVAGWGIVNHAGRRPDSLQHVLLPVLDRATCNRRTHHDGAITERLMCAESNRRDSCKGDSGGPLVCGGVLEGVVTSGSRVCGNRKKPGIYTRVASYAAWIDSVLA 1dt0-a2-m1-cC_1dt0-a2-m2-cC CLONING, SEQUENCE, AND CRYSTALLOGRAPHIC STRUCTURE OF RECOMBINANT IRON SUPEROXIDE DISMUTASE FROM PSEUDOMONAS OVALIS P09223 P09223 2.1 X-RAY DIFFRACTION 50 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 195 195 1dt0-a1-m1-cA_1dt0-a1-m1-cB 3sdp-a1-m1-cA_3sdp-a1-m1-cB AFELPPLPYAHDALQPHISKETLEFHHDKHHNTYVVNLNNLVPGTEFEGKTLEEIVKTSSGGIFNNAAQVWNHTFYWNCLSPNAGGQPTGALADAINAAFGSFDKFKEEFTKTSVGTFGSGWGWLVKKADGSLALASTIGAGCPLTIGDTPLLTCDVWEHAYYIDYRNLRPKYVEAFWNLVNWAFVAEQFEGKTY AFELPPLPYAHDALQPHISKETLEFHHDKHHNTYVVNLNNLVPGTEFEGKTLEEIVKTSSGGIFNNAAQVWNHTFYWNCLSPNAGGQPTGALADAINAAFGSFDKFKEEFTKTSVGTFGSGWGWLVKKADGSLALASTIGAGCPLTIGDTPLLTCDVWEHAYYIDYRNLRPKYVEAFWNLVNWAFVAEQFEGKTY 1dth-a1-m1-cA_1dth-a1-m1-cB METALLOPROTEASE P15167 P15167 2 X-RAY DIFFRACTION 30 1.0 8730 (Crotalus atrox) 8730 (Crotalus atrox) 202 202 1htd-a1-m1-cA_1htd-a1-m1-cB QNLPQRYIELVVVADHRVFMKYNSDLNTIRTRVHEIVNFINGFYRSLNIHVSLTDLEIWSNEDQINIQSASSDTLNAFAEWRETDLLNRKSHDNAQLLTAIELDEETLGLAPLGTMCDPKLSIGIVQDHSPINLLMGVTMAHELGHNLGMEHDGKDCLRGASLCIMRPGLTKGRSYEFSDDSMHYYERFLKQYKPQCILNKP QNLPQRYIELVVVADHRVFMKYNSDLNTIRTRVHEIVNFINGFYRSLNIHVSLTDLEIWSNEDQINIQSASSDTLNAFAEWRETDLLNRKSHDNAQLLTAIELDEETLGLAPLGTMCDPKLSIGIVQDHSPINLLMGVTMAHELGHNLGMEHDGKDCLRGASLCIMRPGLTKGRSYEFSDDSMHYYERFLKQYKPQCILNKP 1dto-a1-m1-cA_1dto-a1-m2-cA CRYSTAL STRUCTURE OF THE COMPLETE TRANSACTIVATION DOMAIN OF E2 PROTEIN FROM THE HUMAN PAPILLOMAVIRUS TYPE 16 P03120 P03120 1.9 X-RAY DIFFRACTION 57 1.0 333760 (Human papillomavirus type 16) 333760 (Human papillomavirus type 16) 200 200 HMETLCQRLNVCQDKILTHYENDSTDLRDHIDYWKHMRLECAIYYKAREMGFKHINHQVVPTLAVSKNKALQAIELQLTLETIYNSQYSNEKWTLQDVSLEVYLTAPTGCIKKHGYTVEVQFDGDNTMHYTNWTHIYICEEASVTVVEGQVDYYGLYYVHEGIRTYFVQFKDDAEKYSKNKVWEVHAGGQVILCPTSVFS HMETLCQRLNVCQDKILTHYENDSTDLRDHIDYWKHMRLECAIYYKAREMGFKHINHQVVPTLAVSKNKALQAIELQLTLETIYNSQYSNEKWTLQDVSLEVYLTAPTGCIKKHGYTVEVQFDGDNTMHYTNWTHIYICEEASVTVVEGQVDYYGLYYVHEGIRTYFVQFKDDAEKYSKNKVWEVHAGGQVILCPTSVFS 1du5-a1-m1-cA_1du5-a1-m1-cB THE CRYSTAL STRUCTURE OF ZEAMATIN. P33679 P33679 2.5 X-RAY DIFFRACTION 23 1.0 4577 (Zea mays) 4577 (Zea mays) 206 206 AVFTVVNQCPFTVWAASVPVGGGRQLNRGESWRITAPAGTTAARIWARTGCKFDASGRGSCRTGDCGGVLQCTGYGRAPNTLAEYALKQFNNLDFFDISLIDGFNVPMSFLPDGGSGCSRGPRCAVDVNARCPAELRQDGVCNNACPVFKKDEYCCVGSAANDCHPTNYSRYFKGQCPDAYSYPKDDATSTFTCPAGTNYKVVFCP AVFTVVNQCPFTVWAASVPVGGGRQLNRGESWRITAPAGTTAARIWARTGCKFDASGRGSCRTGDCGGVLQCTGYGRAPNTLAEYALKQFNNLDFFDISLIDGFNVPMSFLPDGGSGCSRGPRCAVDVNARCPAELRQDGVCNNACPVFKKDEYCCVGSAANDCHPTNYSRYFKGQCPDAYSYPKDDATSTFTCPAGTNYKVVFCP 1dum-a1-m1-cA_1dum-a1-m1-cB NMR STRUCTURE OF [F5Y, F16W] MAGAININ 2 BOUND TO PHOSPHOLIPID VESICLES P11006 P11006 NOT SOLUTION NMR 56 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 23 23 GIGKYLHSAKKFGKAWVGEIMNS GIGKYLHSAKKFGKAWVGEIMNS 1dun-a1-m2-cA_1dun-a1-m3-cA EIAV DUTPASE NATIVE P11204 P11204 1.9 X-RAY DIFFRACTION 102 1.0 11665 (Equine infectious anemia virus) 11665 (Equine infectious anemia virus) 120 120 1duc-a1-m1-cA_1duc-a1-m2-cA 1duc-a1-m1-cA_1duc-a1-m3-cA 1duc-a1-m2-cA_1duc-a1-m3-cA 1dun-a1-m1-cA_1dun-a1-m2-cA 1dun-a1-m1-cA_1dun-a1-m3-cA MLAYQGTQIKEKRDEDAGFDLCVPYDIMIPVSDTKIIPTDVKIQVPPNSFGWVTGKSSMAKQGLLINGGIIDEGYTGEIQVICTNIGKSNIKLIEGQKFAQLIILQHHSNSRQPWDENKI MLAYQGTQIKEKRDEDAGFDLCVPYDIMIPVSDTKIIPTDVKIQVPPNSFGWVTGKSSMAKQGLLINGGIIDEGYTGEIQVICTNIGKSNIKLIEGQKFAQLIILQHHSNSRQPWDENKI 1duw-a2-m1-cA_1duw-a2-m2-cA STRUCTURE OF NONAHEME CYTOCHROME C Q9XCU0 Q9XCU0 1.89 X-RAY DIFFRACTION 113 1.0 876 (Desulfovibrio desulfuricans) 876 (Desulfovibrio desulfuricans) 289 289 EPTDSGAPSAIVMFPVSAKPNPKGAAMKPAVFNHLAHEKKIANCETCHHTGDPVACSTCHTTEGKAEGNFVTLDRAMHATNIAKRAKGNTPVSCVSCHEQQTKERRECAGCHAIVTPKRDQAWCATCHNVTSSMTPEQMQQGIKGKLPPDQNEALAAETVLNHKPVQPLTAMQGPYKVSIDALADKYEPSNFTHRRHMASLMERIKGDKLAEAFHNKPETLCATCHHRSPLSATPPKCGSCHTKEIDPANPNRPNLKAAYHLQCMGCHQGMNVGRPKNTDCTTCHKARP EPTDSGAPSAIVMFPVSAKPNPKGAAMKPAVFNHLAHEKKIANCETCHHTGDPVACSTCHTTEGKAEGNFVTLDRAMHATNIAKRAKGNTPVSCVSCHEQQTKERRECAGCHAIVTPKRDQAWCATCHNVTSSMTPEQMQQGIKGKLPPDQNEALAAETVLNHKPVQPLTAMQGPYKVSIDALADKYEPSNFTHRRHMASLMERIKGDKLAEAFHNKPETLCATCHHRSPLSATPPKCGSCHTKEIDPANPNRPNLKAAYHLQCMGCHQGMNVGRPKNTDCTTCHKARP 1dux-a1-m1-cC_1dux-a1-m1-cF ELK-1/DNA STRUCTURE REVEALS HOW RESIDUES DISTAL FROM DNA-BINDING SURFACE AFFECT DNA-RECOGNITION P19419 P19419 2.1 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 VTLWQFLLQLLREQGNGHIISWTSRDGGEFKLVDAEEVARLWGLRKNKTNMNYDKLSRALRYYYDKNIIRKVSGQKFVYKFVSYPE VTLWQFLLQLLREQGNGHIISWTSRDGGEFKLVDAEEVARLWGLRKNKTNMNYDKLSRALRYYYDKNIIRKVSGQKFVYKFVSYPE 1dvk-a1-m1-cA_1dvk-a1-m1-cB CRYSTAL STRUCTURE OF THE FUNCTIONAL DOMAIN OF THE SPLICING FACTOR PRP18 P33411 P33411 2.15 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 149 150 MRIQEAIAQDKTISVIIDPSQIGSTEGKPLLSMKCNLYIHEILSRWKASLEAYHPELFLDTKKALFPLLLQLRRNQLAPDLLISLATVLYHLQQPKEINLAVQSYMKLSIGNVAWPIGVANIMIDERTRLWITSIKRLITFEEWYTSNH MRIQEAIAQDKTISVIIDPSQIGSTEGKPLLSMKCNLYIHEILSRWKASLEAYHPELFLDTKKALFPLLLQLRRNQLAPDLLISLATVLYHLQQPKEINLAVQSYMKLSIGNVAWPIGVTANIMIDERTRLWITSIKRLITFEEWYTSNH 1dvp-a1-m1-cA_1dvp-a1-m2-cA CRYSTAL STRUCTURE OF THE VHS AND FYVE TANDEM DOMAINS OF HRS, A PROTEIN INVOLVED IN MEMBRANE TRAFFICKING AND SIGNAL TRANSDUCTION Q960X8 Q960X8 2 X-RAY DIFFRACTION 58 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 217 217 MFRSSFCKNLENATSHLRLEPDWPSILLICDEINQKDVTPKNAFAAIKKKMNSPNPHSSCYSLLVLESIVKNCGAPVHEEVFTKENCEMFSSFLESTPHENVRQKMLELVQTWAYAFRSSDKYQAIKDTMTILKAKGHTFPELREMFTADTAPNWADGRVCHRCRVEFTFTNRKHHCRNCGQVFCGQCTAKQCPLPKYGIEKEVRVCDGCFAALQRG MFRSSFCKNLENATSHLRLEPDWPSILLICDEINQKDVTPKNAFAAIKKKMNSPNPHSSCYSLLVLESIVKNCGAPVHEEVFTKENCEMFSSFLESTPHENVRQKMLELVQTWAYAFRSSDKYQAIKDTMTILKAKGHTFPELREMFTADTAPNWADGRVCHRCRVEFTFTNRKHHCRNCGQVFCGQCTAKQCPLPKYGIEKEVRVCDGCFAALQRG 1dvr-a1-m1-cA_1dvr-a1-m1-cB STRUCTURE OF A MUTANT ADENYLATE KINASE LIGATED WITH AN ATP-ANALOGUE SHOWING DOMAIN CLOSURE OVER ATP P07170 P07170 2.36 X-RAY DIFFRACTION 65 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 220 220 SSESIRMVLIGPPGAGKGTQAPNLQERFHAAHLATGDMLRSQIAKGTQLGLEAKKIMDQGGLVSDDIMVNMIKDELTNNPACKNGFILVGFPRTIPQAEKLDQMLKEQGTPLEKAIELKVDDELLVARITGRLIHPASGRSYHKIFNPPKEDMKDDVTGEALVQISDDNADALKKRLAAYHAQTEPIVDFYKKTGIWAGVDASQPPATVWADILNKLGKN SSESIRMVLIGPPGAGKGTQAPNLQERFHAAHLATGDMLRSQIAKGTQLGLEAKKIMDQGGLVSDDIMVNMIKDELTNNPACKNGFILVGFPRTIPQAEKLDQMLKEQGTPLEKAIELKVDDELLVARITGRLIHPASGRSYHKIFNPPKEDMKDDVTGEALVQISDDNADALKKRLAAYHAQTEPIVDFYKKTGIWAGVDASQPPATVWADILNKLGKN 1dwk-a1-m1-cA_1dwk-a1-m1-cJ STRUCTURE OF CYANASE WITH THE DI-ANION OXALATE BOUND AT THE ENZYME ACTIVE SITE P00816 P00816 1.65 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 152 1dw9-a1-m1-cA_1dw9-a1-m1-cJ 1dw9-a1-m1-cB_1dw9-a1-m1-cD 1dw9-a1-m1-cC_1dw9-a1-m1-cI 1dw9-a1-m1-cE_1dw9-a1-m1-cF 1dw9-a1-m1-cG_1dw9-a1-m1-cH 1dwk-a1-m1-cB_1dwk-a1-m1-cD 1dwk-a1-m1-cC_1dwk-a1-m1-cI 1dwk-a1-m1-cE_1dwk-a1-m1-cF 1dwk-a1-m1-cG_1dwk-a1-m1-cH 2iu7-a1-m1-cA_2iu7-a1-m1-cJ 2iu7-a1-m1-cB_2iu7-a1-m1-cD 2iu7-a1-m1-cC_2iu7-a1-m1-cI 2iu7-a1-m1-cE_2iu7-a1-m1-cF 2iu7-a1-m1-cG_2iu7-a1-m1-cH 2iuo-a1-m1-cA_2iuo-a1-m1-cJ 2iuo-a1-m1-cB_2iuo-a1-m1-cD 2iuo-a1-m1-cC_2iuo-a1-m1-cI 2iuo-a1-m1-cE_2iuo-a1-m1-cF 2iuo-a1-m1-cG_2iuo-a1-m1-cH 2iv1-a1-m1-cA_2iv1-a1-m1-cJ 2iv1-a1-m1-cB_2iv1-a1-m1-cD 2iv1-a1-m1-cC_2iv1-a1-m1-cI 2iv1-a1-m1-cE_2iv1-a1-m1-cF 2iv1-a1-m1-cG_2iv1-a1-m1-cH 2ivb-a1-m1-cA_2ivb-a1-m1-cJ 2ivb-a1-m1-cB_2ivb-a1-m1-cD 2ivb-a1-m1-cC_2ivb-a1-m1-cI 2ivb-a1-m1-cE_2ivb-a1-m1-cF 2ivb-a1-m1-cG_2ivb-a1-m1-cH 2ivg-a1-m1-cA_2ivg-a1-m1-cJ 2ivg-a1-m1-cB_2ivg-a1-m1-cD 2ivg-a1-m1-cC_2ivg-a1-m1-cI 2ivg-a1-m1-cE_2ivg-a1-m1-cF 2ivg-a1-m1-cG_2ivg-a1-m1-cH 2ivq-a1-m1-cA_2ivq-a1-m1-cJ 2ivq-a1-m1-cB_2ivq-a1-m1-cD 2ivq-a1-m1-cC_2ivq-a1-m1-cI 2ivq-a1-m1-cE_2ivq-a1-m1-cF 2ivq-a1-m1-cG_2ivq-a1-m1-cH IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF 1dwk-a1-m1-cD_1dwk-a1-m1-cJ STRUCTURE OF CYANASE WITH THE DI-ANION OXALATE BOUND AT THE ENZYME ACTIVE SITE P00816 P00816 1.65 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 152 1dw9-a1-m1-cA_1dw9-a1-m1-cB 1dw9-a1-m1-cA_1dw9-a1-m1-cI 1dw9-a1-m1-cB_1dw9-a1-m1-cE 1dw9-a1-m1-cC_1dw9-a1-m1-cG 1dw9-a1-m1-cC_1dw9-a1-m1-cJ 1dw9-a1-m1-cD_1dw9-a1-m1-cF 1dw9-a1-m1-cD_1dw9-a1-m1-cJ 1dw9-a1-m1-cE_1dw9-a1-m1-cH 1dw9-a1-m1-cF_1dw9-a1-m1-cG 1dw9-a1-m1-cH_1dw9-a1-m1-cI 1dwk-a1-m1-cA_1dwk-a1-m1-cB 1dwk-a1-m1-cA_1dwk-a1-m1-cI 1dwk-a1-m1-cB_1dwk-a1-m1-cE 1dwk-a1-m1-cC_1dwk-a1-m1-cG 1dwk-a1-m1-cC_1dwk-a1-m1-cJ 1dwk-a1-m1-cD_1dwk-a1-m1-cF 1dwk-a1-m1-cE_1dwk-a1-m1-cH 1dwk-a1-m1-cF_1dwk-a1-m1-cG 1dwk-a1-m1-cH_1dwk-a1-m1-cI 2iu7-a1-m1-cA_2iu7-a1-m1-cB 2iu7-a1-m1-cA_2iu7-a1-m1-cI 2iu7-a1-m1-cB_2iu7-a1-m1-cE 2iu7-a1-m1-cC_2iu7-a1-m1-cG 2iu7-a1-m1-cC_2iu7-a1-m1-cJ 2iu7-a1-m1-cD_2iu7-a1-m1-cF 2iu7-a1-m1-cD_2iu7-a1-m1-cJ 2iu7-a1-m1-cE_2iu7-a1-m1-cH 2iu7-a1-m1-cF_2iu7-a1-m1-cG 2iu7-a1-m1-cH_2iu7-a1-m1-cI 2iuo-a1-m1-cA_2iuo-a1-m1-cB 2iuo-a1-m1-cA_2iuo-a1-m1-cI 2iuo-a1-m1-cB_2iuo-a1-m1-cE 2iuo-a1-m1-cC_2iuo-a1-m1-cG 2iuo-a1-m1-cC_2iuo-a1-m1-cJ 2iuo-a1-m1-cD_2iuo-a1-m1-cF 2iuo-a1-m1-cD_2iuo-a1-m1-cJ 2iuo-a1-m1-cE_2iuo-a1-m1-cH 2iuo-a1-m1-cF_2iuo-a1-m1-cG 2iuo-a1-m1-cH_2iuo-a1-m1-cI 2iv1-a1-m1-cA_2iv1-a1-m1-cB 2iv1-a1-m1-cA_2iv1-a1-m1-cI 2iv1-a1-m1-cB_2iv1-a1-m1-cE 2iv1-a1-m1-cC_2iv1-a1-m1-cG 2iv1-a1-m1-cC_2iv1-a1-m1-cJ 2iv1-a1-m1-cD_2iv1-a1-m1-cF 2iv1-a1-m1-cD_2iv1-a1-m1-cJ 2iv1-a1-m1-cE_2iv1-a1-m1-cH 2iv1-a1-m1-cF_2iv1-a1-m1-cG 2iv1-a1-m1-cH_2iv1-a1-m1-cI 2ivb-a1-m1-cA_2ivb-a1-m1-cB 2ivb-a1-m1-cA_2ivb-a1-m1-cI 2ivb-a1-m1-cB_2ivb-a1-m1-cE 2ivb-a1-m1-cC_2ivb-a1-m1-cG 2ivb-a1-m1-cC_2ivb-a1-m1-cJ 2ivb-a1-m1-cD_2ivb-a1-m1-cF 2ivb-a1-m1-cD_2ivb-a1-m1-cJ 2ivb-a1-m1-cE_2ivb-a1-m1-cH 2ivb-a1-m1-cF_2ivb-a1-m1-cG 2ivb-a1-m1-cH_2ivb-a1-m1-cI 2ivg-a1-m1-cA_2ivg-a1-m1-cB 2ivg-a1-m1-cA_2ivg-a1-m1-cI 2ivg-a1-m1-cB_2ivg-a1-m1-cE 2ivg-a1-m1-cC_2ivg-a1-m1-cG 2ivg-a1-m1-cC_2ivg-a1-m1-cJ 2ivg-a1-m1-cD_2ivg-a1-m1-cF 2ivg-a1-m1-cD_2ivg-a1-m1-cJ 2ivg-a1-m1-cE_2ivg-a1-m1-cH 2ivg-a1-m1-cF_2ivg-a1-m1-cG 2ivg-a1-m1-cH_2ivg-a1-m1-cI 2ivq-a1-m1-cA_2ivq-a1-m1-cB 2ivq-a1-m1-cA_2ivq-a1-m1-cI 2ivq-a1-m1-cB_2ivq-a1-m1-cE 2ivq-a1-m1-cC_2ivq-a1-m1-cG 2ivq-a1-m1-cC_2ivq-a1-m1-cJ 2ivq-a1-m1-cD_2ivq-a1-m1-cF 2ivq-a1-m1-cD_2ivq-a1-m1-cJ 2ivq-a1-m1-cE_2ivq-a1-m1-cH 2ivq-a1-m1-cF_2ivq-a1-m1-cG 2ivq-a1-m1-cH_2ivq-a1-m1-cI IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF 1dwk-a1-m1-cH_1dwk-a1-m1-cJ STRUCTURE OF CYANASE WITH THE DI-ANION OXALATE BOUND AT THE ENZYME ACTIVE SITE P00816 P00816 1.65 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 152 1dw9-a1-m1-cA_1dw9-a1-m1-cF 1dw9-a1-m1-cB_1dw9-a1-m1-cG 1dw9-a1-m1-cC_1dw9-a1-m1-cE 1dw9-a1-m1-cD_1dw9-a1-m1-cI 1dw9-a1-m1-cH_1dw9-a1-m1-cJ 1dwk-a1-m1-cA_1dwk-a1-m1-cF 1dwk-a1-m1-cB_1dwk-a1-m1-cG 1dwk-a1-m1-cC_1dwk-a1-m1-cE 1dwk-a1-m1-cD_1dwk-a1-m1-cI 2iu7-a1-m1-cA_2iu7-a1-m1-cF 2iu7-a1-m1-cB_2iu7-a1-m1-cG 2iu7-a1-m1-cC_2iu7-a1-m1-cE 2iu7-a1-m1-cD_2iu7-a1-m1-cI 2iu7-a1-m1-cH_2iu7-a1-m1-cJ 2iuo-a1-m1-cA_2iuo-a1-m1-cF 2iuo-a1-m1-cB_2iuo-a1-m1-cG 2iuo-a1-m1-cC_2iuo-a1-m1-cE 2iuo-a1-m1-cD_2iuo-a1-m1-cI 2iuo-a1-m1-cH_2iuo-a1-m1-cJ 2iv1-a1-m1-cA_2iv1-a1-m1-cF 2iv1-a1-m1-cB_2iv1-a1-m1-cG 2iv1-a1-m1-cC_2iv1-a1-m1-cE 2iv1-a1-m1-cD_2iv1-a1-m1-cI 2iv1-a1-m1-cH_2iv1-a1-m1-cJ 2ivb-a1-m1-cA_2ivb-a1-m1-cF 2ivb-a1-m1-cB_2ivb-a1-m1-cG 2ivb-a1-m1-cC_2ivb-a1-m1-cE 2ivb-a1-m1-cD_2ivb-a1-m1-cI 2ivb-a1-m1-cH_2ivb-a1-m1-cJ 2ivg-a1-m1-cA_2ivg-a1-m1-cF 2ivg-a1-m1-cB_2ivg-a1-m1-cG 2ivg-a1-m1-cC_2ivg-a1-m1-cE 2ivg-a1-m1-cD_2ivg-a1-m1-cI 2ivg-a1-m1-cH_2ivg-a1-m1-cJ 2ivq-a1-m1-cA_2ivq-a1-m1-cF 2ivq-a1-m1-cB_2ivq-a1-m1-cG 2ivq-a1-m1-cC_2ivq-a1-m1-cE 2ivq-a1-m1-cD_2ivq-a1-m1-cI 2ivq-a1-m1-cH_2ivq-a1-m1-cJ IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF 1dwk-a1-m1-cI_1dwk-a1-m1-cJ STRUCTURE OF CYANASE WITH THE DI-ANION OXALATE BOUND AT THE ENZYME ACTIVE SITE P00816 P00816 1.65 X-RAY DIFFRACTION 207 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 152 1dw9-a1-m1-cA_1dw9-a1-m1-cD 1dw9-a1-m1-cB_1dw9-a1-m1-cF 1dw9-a1-m1-cC_1dw9-a1-m1-cH 1dw9-a1-m1-cE_1dw9-a1-m1-cG 1dw9-a1-m1-cI_1dw9-a1-m1-cJ 1dwk-a1-m1-cA_1dwk-a1-m1-cD 1dwk-a1-m1-cB_1dwk-a1-m1-cF 1dwk-a1-m1-cC_1dwk-a1-m1-cH 1dwk-a1-m1-cE_1dwk-a1-m1-cG 2iu7-a1-m1-cA_2iu7-a1-m1-cD 2iu7-a1-m1-cB_2iu7-a1-m1-cF 2iu7-a1-m1-cC_2iu7-a1-m1-cH 2iu7-a1-m1-cE_2iu7-a1-m1-cG 2iu7-a1-m1-cI_2iu7-a1-m1-cJ 2iuo-a1-m1-cA_2iuo-a1-m1-cD 2iuo-a1-m1-cB_2iuo-a1-m1-cF 2iuo-a1-m1-cC_2iuo-a1-m1-cH 2iuo-a1-m1-cE_2iuo-a1-m1-cG 2iuo-a1-m1-cI_2iuo-a1-m1-cJ 2iv1-a1-m1-cA_2iv1-a1-m1-cD 2iv1-a1-m1-cB_2iv1-a1-m1-cF 2iv1-a1-m1-cC_2iv1-a1-m1-cH 2iv1-a1-m1-cE_2iv1-a1-m1-cG 2iv1-a1-m1-cI_2iv1-a1-m1-cJ 2ivb-a1-m1-cA_2ivb-a1-m1-cD 2ivb-a1-m1-cB_2ivb-a1-m1-cF 2ivb-a1-m1-cC_2ivb-a1-m1-cH 2ivb-a1-m1-cE_2ivb-a1-m1-cG 2ivb-a1-m1-cI_2ivb-a1-m1-cJ 2ivg-a1-m1-cA_2ivg-a1-m1-cD 2ivg-a1-m1-cB_2ivg-a1-m1-cF 2ivg-a1-m1-cC_2ivg-a1-m1-cH 2ivg-a1-m1-cE_2ivg-a1-m1-cG 2ivg-a1-m1-cI_2ivg-a1-m1-cJ 2ivq-a1-m1-cA_2ivq-a1-m1-cD 2ivq-a1-m1-cB_2ivq-a1-m1-cF 2ivq-a1-m1-cC_2ivq-a1-m1-cH 2ivq-a1-m1-cE_2ivq-a1-m1-cG 2ivq-a1-m1-cI_2ivq-a1-m1-cJ IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF IQSQINRNIRLDLADAILLSKAKKDLSFAEIADGTGLAEAFVTAALLGQQALPADAARLVGAKLDLDEDSILLLQIPLRGCIDDRIPTDPTYRFYELQVYGTTLKALVHEKFGDGIISAINFKLDVKKVADPEGGERAVITLDGKYLPTKPF 1dxg-a1-m1-cA_1dxg-a1-m1-cB CRYSTAL STRUCTURE OF DESULFOREDOXIN FROM DESULFOVIBRIO GIGAS AT 1.8 A RESOLUTION P00273 P00273 1.8 X-RAY DIFFRACTION 71 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 36 36 1cfw-a1-m1-cA_1cfw-a1-m1-cB 1dcd-a1-m1-cA_1dcd-a1-m1-cB 1dhg-a1-m1-cA_1dhg-a1-m1-cB 2lk5-a1-m1-cA_2lk5-a1-m1-cB 2lk6-a1-m1-cA_2lk6-a1-m1-cB ANEGDVYKCELCGQVVKVLEEGGGTLVCCGEDMVKQ ANEGDVYKCELCGQVVKVLEEGGGTLVCCGEDMVKQ 1dxh-a1-m3-cA_1dxh-a1-m9-cA Catabolic ornithine carbamoyltransferase from Pseudomonas aeruginosa P08308 P08308 2.5 X-RAY DIFFRACTION 25 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 335 335 1dxh-a1-m10-cA_1dxh-a1-m8-cA 1dxh-a1-m11-cA_1dxh-a1-m4-cA 1dxh-a1-m12-cA_1dxh-a1-m5-cA 1dxh-a1-m1-cA_1dxh-a1-m2-cA 1dxh-a1-m6-cA_1dxh-a1-m7-cA 1ort-a1-m1-cA_1ort-a1-m1-cD 1ort-a1-m1-cB_1ort-a1-m1-cE 1ort-a1-m1-cC_1ort-a1-m1-cF 1ort-a1-m1-cG_1ort-a1-m1-cJ 1ort-a1-m1-cH_1ort-a1-m1-cK 1ort-a1-m1-cI_1ort-a1-m1-cL AFNMHNRNLLSLMHHSTRELRYLLDLSRDLKRAKYTGTEQQHLKRKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIEYRGFKQEIVEELAKFAGVPVFNGLTDEYHPTQMLADVLTMREHSDKPLHDISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKALWPHDEFVAQCKKFAEESGAKLTLTEDPKEAVKGVDFVHTDVWVSMGEPVEAWGERIKELLPYQVNMEIMKATGNPRAKFMHCLPAFHNSETKVGKQIAEQYPNLANGIEVTEDVFESPYNIAFEQAENRMHTIKAILVSTLADI AFNMHNRNLLSLMHHSTRELRYLLDLSRDLKRAKYTGTEQQHLKRKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIEYRGFKQEIVEELAKFAGVPVFNGLTDEYHPTQMLADVLTMREHSDKPLHDISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKALWPHDEFVAQCKKFAEESGAKLTLTEDPKEAVKGVDFVHTDVWVSMGEPVEAWGERIKELLPYQVNMEIMKATGNPRAKFMHCLPAFHNSETKVGKQIAEQYPNLANGIEVTEDVFESPYNIAFEQAENRMHTIKAILVSTLADI 1dxh-a1-m7-cA_1dxh-a1-m9-cA Catabolic ornithine carbamoyltransferase from Pseudomonas aeruginosa P08308 P08308 2.5 X-RAY DIFFRACTION 27 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 335 335 1dxh-a1-m10-cA_1dxh-a1-m5-cA 1dxh-a1-m10-cA_1dxh-a1-m6-cA 1dxh-a1-m11-cA_1dxh-a1-m3-cA 1dxh-a1-m11-cA_1dxh-a1-m8-cA 1dxh-a1-m12-cA_1dxh-a1-m2-cA 1dxh-a1-m12-cA_1dxh-a1-m4-cA 1dxh-a1-m1-cA_1dxh-a1-m7-cA 1dxh-a1-m1-cA_1dxh-a1-m9-cA 1dxh-a1-m2-cA_1dxh-a1-m4-cA 1dxh-a1-m3-cA_1dxh-a1-m8-cA 1dxh-a1-m5-cA_1dxh-a1-m6-cA 1ort-a1-m1-cA_1ort-a1-m1-cI 1ort-a1-m1-cA_1ort-a1-m1-cK 1ort-a1-m1-cB_1ort-a1-m1-cG 1ort-a1-m1-cB_1ort-a1-m1-cL 1ort-a1-m1-cC_1ort-a1-m1-cH 1ort-a1-m1-cC_1ort-a1-m1-cJ 1ort-a1-m1-cD_1ort-a1-m1-cE 1ort-a1-m1-cD_1ort-a1-m1-cF 1ort-a1-m1-cE_1ort-a1-m1-cF 1ort-a1-m1-cG_1ort-a1-m1-cL 1ort-a1-m1-cH_1ort-a1-m1-cJ 1ort-a1-m1-cI_1ort-a1-m1-cK AFNMHNRNLLSLMHHSTRELRYLLDLSRDLKRAKYTGTEQQHLKRKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIEYRGFKQEIVEELAKFAGVPVFNGLTDEYHPTQMLADVLTMREHSDKPLHDISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKALWPHDEFVAQCKKFAEESGAKLTLTEDPKEAVKGVDFVHTDVWVSMGEPVEAWGERIKELLPYQVNMEIMKATGNPRAKFMHCLPAFHNSETKVGKQIAEQYPNLANGIEVTEDVFESPYNIAFEQAENRMHTIKAILVSTLADI AFNMHNRNLLSLMHHSTRELRYLLDLSRDLKRAKYTGTEQQHLKRKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIEYRGFKQEIVEELAKFAGVPVFNGLTDEYHPTQMLADVLTMREHSDKPLHDISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKALWPHDEFVAQCKKFAEESGAKLTLTEDPKEAVKGVDFVHTDVWVSMGEPVEAWGERIKELLPYQVNMEIMKATGNPRAKFMHCLPAFHNSETKVGKQIAEQYPNLANGIEVTEDVFESPYNIAFEQAENRMHTIKAILVSTLADI 1dxl-a2-m1-cC_1dxl-a2-m1-cD Dihydrolipoamide dehydrogenase of glycine decarboxylase from Pisum Sativum P31023 P31023 3.15 X-RAY DIFFRACTION 261 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 467 467 1dxl-a1-m1-cA_1dxl-a1-m1-cB SDENDVVIIGGGPGGYVAAIKAAQLGFKTTCIEKRGALGGTCLNVGCIPSKALLHSSHMYHEAKHSFANHGVKVSNVEIDLAAMMGQKDKAVSNLTRGIEGLFKKNKVTYVKGYGKFVSPSEISVDTIEGENTVVKGKHIIIATGSDVKSLPGVTIDEKKIVSSTGALALSEIPKKLVVIGAGYIGLEMGSVWGRIGSEVTVVEFASEIVPTMDAEIRKQFQRSLEKQGMKFKLKTKVVGVDTSGDGVKLTVEPSAGGEQTIIEADVVLVSAGRTPFTSGLNLDKIGVETDKLGRILVNERFSTNVSGVYAIGDVIPGPMLAHKAEEDGVACVEYLAGKVGHVDYDKVPGVVYTNPEVASVGKTEEQVKETGVEYRVGKFPFMANSRAKAIDNAEGLVKIIAEKETDKILGVHIMAPNAGELIHEAAIALQYDASSEDIARVCHAHPTMSEAIKEAAMATYDKPIHI SDENDVVIIGGGPGGYVAAIKAAQLGFKTTCIEKRGALGGTCLNVGCIPSKALLHSSHMYHEAKHSFANHGVKVSNVEIDLAAMMGQKDKAVSNLTRGIEGLFKKNKVTYVKGYGKFVSPSEISVDTIEGENTVVKGKHIIIATGSDVKSLPGVTIDEKKIVSSTGALALSEIPKKLVVIGAGYIGLEMGSVWGRIGSEVTVVEFASEIVPTMDAEIRKQFQRSLEKQGMKFKLKTKVVGVDTSGDGVKLTVEPSAGGEQTIIEADVVLVSAGRTPFTSGLNLDKIGVETDKLGRILVNERFSTNVSGVYAIGDVIPGPMLAHKAEEDGVACVEYLAGKVGHVDYDKVPGVVYTNPEVASVGKTEEQVKETGVEYRVGKFPFMANSRAKAIDNAEGLVKIIAEKETDKILGVHIMAPNAGELIHEAAIALQYDASSEDIARVCHAHPTMSEAIKEAAMATYDKPIHI 1dxx-a2-m1-cC_1dxx-a2-m1-cD N-terminal Actin-binding Domain of Human Dystrophin P11532 P11532 2.6 X-RAY DIFFRACTION 175 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 238 238 1dxx-a1-m1-cA_1dxx-a1-m1-cB DSYEREDVQKKTFTKWVNAQFSKFGKQHIENLFSDLQDGRRLLDLLEGLTGQKLPKEKGSTRVHALNNVNKALRVLQNNNVDLVNIGSTDIVDGNHKLTLGLIWNIILHWQVKNVMKNIMAGLQQTNSEKILLSWVRQSTRNYPQVNVINFTTSWSDGLALNALIHSHRPDLFDWNSVVSQQSATQRLEHAFNIARYQLGIEKLLDPEDVDTTYPDKKSILMYITSLFQVLPQQVSIE DSYEREDVQKKTFTKWVNAQFSKFGKQHIENLFSDLQDGRRLLDLLEGLTGQKLPKEKGSTRVHALNNVNKALRVLQNNNVDLVNIGSTDIVDGNHKLTLGLIWNIILHWQVKNVMKNIMAGLQQTNSEKILLSWVRQSTRNYPQVNVINFTTSWSDGLALNALIHSHRPDLFDWNSVVSQQSATQRLEHAFNIARYQLGIEKLLDPEDVDTTYPDKKSILMYITSLFQVLPQQVSIE 1dxy-a2-m3-cA_1dxy-a2-m6-cA STRUCTURE OF D-2-HYDROXYISOCAPROATE DEHYDROGENASE P17584 P17584 1.86 X-RAY DIFFRACTION 144 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 330 330 1dxy-a1-m1-cA_1dxy-a1-m2-cA 1dxy-a2-m1-cA_1dxy-a2-m2-cA 1dxy-a2-m4-cA_1dxy-a2-m5-c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dxy-a2-m5-cA_1dxy-a2-m6-cA STRUCTURE OF D-2-HYDROXYISOCAPROATE DEHYDROGENASE P17584 P17584 1.86 X-RAY DIFFRACTION 32 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 330 330 1dxy-a2-m1-cA_1dxy-a2-m3-cA 1dxy-a2-m1-cA_1dxy-a2-m4-cA 1dxy-a2-m2-cA_1dxy-a2-m5-cA 1dxy-a2-m2-cA_1dxy-a2-m6-cA 1dxy-a2-m3-cA_1dxy-a2-m4-c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dy7-a1-m1-cA_1dy7-a1-m1-cB Cytochrome cd1 Nitrite Reductase, CO complex P72181 P72181 1.6 X-RAY DIFFRACTION 91 1.0 82367 (Paracoccus pantotrophus) 82367 (Paracoccus pantotrophus) 434 536 1aof-a1-m1-cA_1aof-a1-m1-cB 1aom-a1-m1-cA_1aom-a1-m1-cB 1aoq-a1-m1-cA_1aoq-a1-m1-cB 1e2r-a1-m1-cA_1e2r-a1-m1-cB 1gq1-a1-m1-cA_1gq1-a1-m1-cB 1h9x-a1-m1-cA_1h9x-a1-m1-cB 1h9y-a1-m1-cB_1h9y-a1-m1-cA 1hcm-a1-m1-cA_1hcm-a1-m1-cB 1hj3-a1-m1-cB_1hj3-a1-m1-cA 1hj4-a1-m1-cB_1hj4-a1-m1-cA 1hj5-a1-m1-cA_1hj5-a1-m1-cB 1qks-a1-m1-cA_1qks-a1-m1-cB PPEFGMKEMRESWKVHVAPEDRPTQQENDWDLENLFSVTLRDAGQIALIDGATYEIKSVLDTGYAVHISRLSASGRYLFVIGRDGKVNMIDLWMKEPTTVAEIKIGSEARSIETSKMEGWEDKYAIAGAYWPPQYVIMDGETLEPKKIQSTRGMTYDEQEYHPEPRVAAILASHYRPEFIVNVKETGKILLVDYTDLDNLKTTEISAERFLHDGGLDGSHRYFITAANARNKLVVIDTKEGKLVAIEDTGGQTPHPGRGANFVHPTFGPVWATSHMGDDSVALIGTDPEGHPDNAWKILDSFPALGGGSLFIKTHPNSQYLYVDATLNPEAEISGSVAVFDIKAMTGDGSDPEFKTLPIAEWAGITEGQPRVVQGEFNKDGTEVWFSVWNGKDQESALVVVDDKTLELKHVIKDERLVTPTGKFNVYNTMTDTY LAQQDVAAPGAPEGVSALSDAQYNEANKIYFERCAGCHGVLRKGATGKALTPDLTRDLGFDYLQSFITYGSPAGMPNWGTSGELSAEQVDLMANYLLLDPAAPPEFGMKEMRESWKVHVAPEDRPTQQENDWDLENLFSVTLRDAGQIALIDGATYEIKSVLDTGYAVHISRLSASGRYLFVIGRDGKVNMIDLWMKEPTTVAEIKIGSEARSIETSKMEGWEDKYAIAGAYWPPQYVIMDGETLEPKKIQSTRGMTYDEQEYHPEPRVAAILASHYRPEFIVNVKETGKILLVDYTDLDNLKTTEISAERFLHDGGLDGSHRYFITAANARNKLVVIDTKEGKLVAIEDTGGQTPHPGRGANFVHPTFGPVWATSHMGDDSVALIGTDPEGHPDNAWKILDSFPALGGGSLFIKTHPNSQYLYVDATLNPEAEISGSVAVFDIKAMTGDGSDPEFKTLPIAEWAGITEGQPRVVQGEFNKDGTEVWFSVWNGKDQESALVVVDDKTLELKHVIKDERLVTPTGKFNVYNTMTDTY 1dys-a1-m1-cA_1dys-a1-m1-cB Endoglucanase CEL6B from Humicola insolens Q7SIG5 Q7SIG5 1.6 X-RAY DIFFRACTION 37 1.0 34413 (Humicola insolens) 34413 (Humicola insolens) 345 345 GNPFSGRTLLVNSDYSSKLDQTRQAFLSRGDQTNAAKVKYVQEKVGTFYWISNIFLLRDIDVAIQNARAAKARGENPIVGLVLYNLPDRDCSAGESSGELKLSQNGLNRYKNEYVNPFAQKLKAASDVQFAVILEPDAIGNMVTGTSAFCRNARGPQQEAIGYAISQLQASHIHLYLDVANGGWLGWADKLEPTAQEVATILQKAGNNAKIRGFSSNVSNYNPYSTSNPPPYTSGSPSPDESRYATNIANAMRQRGLPTQFIIDQSRVALSGARSEWGQWCNVNPAGFGQPFTTNTNNPNVDAIVWVKPGGESDGQCGMGGAPAAGMWFDAYAQMLTQNAHDEIA GNPFSGRTLLVNSDYSSKLDQTRQAFLSRGDQTNAAKVKYVQEKVGTFYWISNIFLLRDIDVAIQNARAAKARGENPIVGLVLYNLPDRDCSAGESSGELKLSQNGLNRYKNEYVNPFAQKLKAASDVQFAVILEPDAIGNMVTGTSAFCRNARGPQQEAIGYAISQLQASHIHLYLDVANGGWLGWADKLEPTAQEVATILQKAGNNAKIRGFSSNVSNYNPYSTSNPPPYTSGSPSPDESRYATNIANAMRQRGLPTQFIIDQSRVALSGARSEWGQWCNVNPAGFGQPFTTNTNNPNVDAIVWVKPGGESDGQCGMGGAPAAGMWFDAYAQMLTQNAHDEIA 1dz3-a1-m1-cA_1dz3-a1-m2-cA DOMAIN-SWAPPING IN THE SPORULATION RESPONSE REGULATOR SPO0A P52934 P52934 1.65 X-RAY DIFFRACTION 102 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 123 123 SIKVCIADDNRELVSLLDEYISSQPDMEVIGTAYNGQDCLQMLEEKRPDILLLDIIMPHLDGLAVLERIRAGFEHQPNVIMLTAFGQEDVTKKAVELGASYFILKPFDMENLAHHIRQVYGKT SIKVCIADDNRELVSLLDEYISSQPDMEVIGTAYNGQDCLQMLEEKRPDILLLDIIMPHLDGLAVLERIRAGFEHQPNVIMLTAFGQEDVTKKAVELGASYFILKPFDMENLAHHIRQVYGKT 1dzi-a1-m1-cB_1dzi-a1-m1-cC integrin alpha2 I domain / collagen complex 2.1 X-RAY DIFFRACTION 36 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 GPGPGFGERGPGPGP GPGPGFGERGPGPGP 1dzi-a1-m1-cB_1dzi-a1-m1-cD integrin alpha2 I domain / collagen complex 2.1 X-RAY DIFFRACTION 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 GPGPGFGERGPGPGP GPGPGFGERGPGPGP 1dzi-a1-m1-cC_1dzi-a1-m1-cD integrin alpha2 I domain / collagen complex 2.1 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 GPGPGFGERGPGPGP GPGPGFGERGPGPGP 1dzr-a1-m1-cA_1dzr-a1-m1-cB RmlC from Salmonella typhimurium P26394 P26394 2.17 X-RAY DIFFRACTION 87 1.0 183 183 1dzt-a1-m1-cA_1dzt-a1-m1-cB MMIVIKTAIPDVLILEPKVFGDERGFFFESYNQQTFEELIGRKVTFVQDNHSKSKKNVLRGLHFQRGENAQGKLVRCAVGEVFDVAVDIRKESPTFGQWVGVNLSAENKRQLWIPEGFAHGFVTLSEYAEFLYKATNYYSPSSEGSILWNDEAIGIEWPFSQLPELSAKDAAAPLLDQALLTE MMIVIKTAIPDVLILEPKVFGDERGFFFESYNQQTFEELIGRKVTFVQDNHSKSKKNVLRGLHFQRGENAQGKLVRCAVGEVFDVAVDIRKESPTFGQWVGVNLSAENKRQLWIPEGFAHGFVTLSEYAEFLYKATNYYSPSSEGSILWNDEAIGIEWPFSQLPELSAKDAAAPLLDQALLTE 1dzv-a1-m3-cP_1dzv-a1-m4-cP L-Fuculose-1-Phosphate Aldolase from Escherichia coli Mutant Y113F/Y209F P0AB87 P0AB87 1.86 X-RAY DIFFRACTION 55 1.0 562 (Escherichia coli) 562 (Escherichia coli) 206 206 1dzu-a1-m1-cP_1dzu-a1-m2-cP 1dzu-a1-m1-cP_1dzu-a1-m3-cP 1dzu-a1-m2-cP_1dzu-a1-m4-cP 1dzu-a1-m3-cP_1dzu-a1-m4-cP 1dzv-a1-m1-cP_1dzv-a1-m2-cP 1dzv-a1-m1-cP_1dzv-a1-m3-cP 1dzv-a1-m2-cP_1dzv-a1-m4-cP 1dzw-a1-m1-cP_1dzw-a1-m2-cP 1dzw-a1-m1-cP_1dzw-a1-m3-cP 1dzw-a1-m2-cP_1dzw-a1-m4-cP 1dzw-a1-m3-cP_1dzw-a1-m4-cP 1dzx-a1-m1-cP_1dzx-a1-m2-cP 1dzx-a1-m1-cP_1dzx-a1-m3-cP 1dzx-a1-m2-cP_1dzx-a1-m4-cP 1dzx-a1-m3-cP_1dzx-a1-m4-cP 1dzy-a1-m1-cP_1dzy-a1-m2-cP 1dzy-a1-m1-cP_1dzy-a1-m3-cP 1dzy-a1-m2-cP_1dzy-a1-m4-cP 1dzy-a1-m3-cP_1dzy-a1-m4-cP 1dzz-a1-m1-cP_1dzz-a1-m2-cP 1dzz-a1-m1-cP_1dzz-a1-m3-cP 1dzz-a1-m2-cP_1dzz-a1-m4-cP 1dzz-a1-m3-cP_1dzz-a1-m4-cP 1e46-a1-m1-cP_1e46-a1-m2-cP 1e46-a1-m1-cP_1e46-a1-m3-cP 1e46-a1-m2-cP_1e46-a1-m4-cP 1e46-a1-m3-cP_1e46-a1-m4-cP 1e47-a1-m1-cP_1e47-a1-m2-cP 1e47-a1-m1-cP_1e47-a1-m3-cP 1e47-a1-m2-cP_1e47-a1-m4-cP 1e47-a1-m3-cP_1e47-a1-m4-cP 1e48-a1-m1-cP_1e48-a1-m2-cP 1e48-a1-m1-cP_1e48-a1-m3-cP 1e48-a1-m2-cP_1e48-a1-m4-cP 1e48-a1-m3-cP_1e48-a1-m4-cP 1e49-a1-m1-cP_1e49-a1-m2-cP 1e49-a1-m1-cP_1e49-a1-m3-cP 1e49-a1-m2-cP_1e49-a1-m4-cP 1e49-a1-m3-cP_1e49-a1-m4-cP 1e4a-a1-m1-cP_1e4a-a1-m2-cP 1e4a-a1-m1-cP_1e4a-a1-m3-cP 1e4a-a1-m2-cP_1e4a-a1-m4-cP 1e4a-a1-m3-cP_1e4a-a1-m4-cP 1e4b-a1-m1-cP_1e4b-a1-m2-cP 1e4b-a1-m1-cP_1e4b-a1-m3-cP 1e4b-a1-m2-cP_1e4b-a1-m4-cP 1e4b-a1-m3-cP_1e4b-a1-m4-cP 1e4c-a1-m1-cP_1e4c-a1-m2-cP 1e4c-a1-m1-cP_1e4c-a1-m3-cP 1e4c-a1-m2-cP_1e4c-a1-m4-cP 1e4c-a1-m3-cP_1e4c-a1-m4-cP 1fua-a1-m1-cA_1fua-a1-m3-cA 1fua-a1-m1-cA_1fua-a1-m4-cA 1fua-a1-m2-cA_1fua-a1-m3-cA 1fua-a1-m2-cA_1fua-a1-m4-cA 2fua-a1-m1-cA_2fua-a1-m3-cA 2fua-a1-m1-cA_2fua-a1-m4-cA 2fua-a1-m2-cA_2fua-a1-m3-cA 2fua-a1-m2-cA_2fua-a1-m4-cA 3fua-a1-m1-cA_3fua-a1-m3-cA 3fua-a1-m1-cA_3fua-a1-m4-cA 3fua-a1-m2-cA_3fua-a1-m3-cA 3fua-a1-m2-cA_3fua-a1-m4-cA 3fua-a2-m10-cA_3fua-a2-m19-cA 3fua-a2-m10-cA_3fua-a2-m21-cA 3fua-a2-m11-cA_3fua-a2-m15-cA 3fua-a2-m11-cA_3fua-a2-m17-cA 3fua-a2-m12-cA_3fua-a2-m16-cA 3fua-a2-m12-cA_3fua-a2-m18-cA 3fua-a2-m13-cA_3fua-a2-m15-cA 3fua-a2-m13-cA_3fua-a2-m17-cA 3fua-a2-m14-cA_3fua-a2-m16-cA 3fua-a2-m14-cA_3fua-a2-m18-cA 3fua-a2-m19-cA_3fua-a2-m8-cA 3fua-a2-m1-cA_3fua-a2-m3-cA 3fua-a2-m1-cA_3fua-a2-m4-cA 3fua-a2-m20-cA_3fua-a2-m7-cA 3fua-a2-m20-cA_3fua-a2-m9-cA 3fua-a2-m21-cA_3fua-a2-m8-cA 3fua-a2-m22-cA_3fua-a2-m7-cA 3fua-a2-m22-cA_3fua-a2-m9-cA 3fua-a2-m23-cA_3fua-a2-m5-cA 3fua-a2-m23-cA_3fua-a2-m6-cA 3fua-a2-m24-cA_3fua-a2-m5-cA 3fua-a2-m24-cA_3fua-a2-m6-cA 3fua-a2-m2-cA_3fua-a2-m3-cA 3fua-a2-m2-cA_3fua-a2-m4-cA 4fua-a1-m1-cA_4fua-a1-m3-cA 4fua-a1-m1-cA_4fua-a1-m4-cA 4fua-a1-m2-cA_4fua-a1-m3-cA 4fua-a1-m2-cA_4fua-a1-m4-cA 4fua-a2-m10-cA_4fua-a2-m19-cA 4fua-a2-m10-cA_4fua-a2-m21-cA 4fua-a2-m11-cA_4fua-a2-m15-cA 4fua-a2-m11-cA_4fua-a2-m17-cA 4fua-a2-m12-cA_4fua-a2-m16-cA 4fua-a2-m12-cA_4fua-a2-m18-cA 4fua-a2-m13-cA_4fua-a2-m15-cA 4fua-a2-m13-cA_4fua-a2-m17-cA 4fua-a2-m14-cA_4fua-a2-m16-cA 4fua-a2-m14-cA_4fua-a2-m18-cA 4fua-a2-m19-cA_4fua-a2-m8-cA 4fua-a2-m1-cA_4fua-a2-m3-cA 4fua-a2-m1-cA_4fua-a2-m4-cA 4fua-a2-m20-cA_4fua-a2-m7-cA 4fua-a2-m20-cA_4fua-a2-m9-cA 4fua-a2-m21-cA_4fua-a2-m8-cA 4fua-a2-m22-cA_4fua-a2-m7-cA 4fua-a2-m22-cA_4fua-a2-m9-cA 4fua-a2-m23-cA_4fua-a2-m5-cA 4fua-a2-m23-cA_4fua-a2-m6-cA 4fua-a2-m24-cA_4fua-a2-m5-cA 4fua-a2-m24-cA_4fua-a2-m6-cA 4fua-a2-m2-cA_4fua-a2-m3-cA 4fua-a2-m2-cA_4fua-a2-m4-cA MERNKLARQIIDTCLEMTRLGLNQGTAGNVSVRYQDGMLITPTGIPYEKLTESHIVFIDGNGKHEEGKLPSSEWRFHMAAYQSRPDANAVVHNHAVHCTAVSILNRSIPAIHFMIAAAGGNSIPCAPYATFGTRELSEHVALALKNRKATLLQHHGLIACEVNLEKALWLAHEVEVLAQLYLTTLAITDPVPVLSDEEIAVVLEKF MERNKLARQIIDTCLEMTRLGLNQGTAGNVSVRYQDGMLITPTGIPYEKLTESHIVFIDGNGKHEEGKLPSSEWRFHMAAYQSRPDANAVVHNHAVHCTAVSILNRSIPAIHFMIAAAGGNSIPCAPYATFGTRELSEHVALALKNRKATLLQHHGLIACEVNLEKALWLAHEVEVLAQLYLTTLAITDPVPVLSDEEIAVVLEKF 1e0e-a1-m1-cA_1e0e-a1-m1-cB N-terminal zinc-binding HHCC domain of HIV-2 integrase P04584 P04584 NOT SOLUTION NMR 10 1.0 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 46 46 FLEKIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCQQK FLEKIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCQQK 1e0r-a1-m1-cB_1e0r-a1-m2-cB Beta-apical domain of thermosome P48425 P48425 2.8 X-RAY DIFFRACTION 68 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 154 154 MNGIIVDKEKVHPGMPDVVKDAKIALLDAPLEIKKPEFDTNLRIEDPSMIQKFLAQEENMLREMVDKIKSVGANVVITQKGIDDMAQHYLSRAGIYAVRRVKKSDMDKLAKATGASIVSTIDEISSSDLGTAERVEQVKVGEDYMTFVTGSKNH MNGIIVDKEKVHPGMPDVVKDAKIALLDAPLEIKKPEFDTNLRIEDPSMIQKFLAQEENMLREMVDKIKSVGANVVITQKGIDDMAQHYLSRAGIYAVRRVKKSDMDKLAKATGASIVSTIDEISSSDLGTAERVEQVKVGEDYMTFVTGSKNH 1e19-a1-m1-cA_1e19-a1-m1-cB Structure of the carbamate kinase-like carbamoyl phosphate synthetase from the hyperthermophilic archaeon Pyrococcus furiosus bound to ADP P95474 P95474 1.5 X-RAY DIFFRACTION 167 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 313 313 GKRVVIALGGNALQQRGQKGSYEEMMDNVRKTARQIAEIIARGYEVVITHGNGPQVGSLLLHMDAGQATYGIPAQPMDVAGAMSQGWIGYMIQQALKNELRKRGMEKKVVTIITQTIVDKNDPAFQNPTKPVGPFYDEETAKRLAREKGWIVKEDSGRGWRRVVPSPDPKGHVEAETIKKLVERGVIVIASGGGGVPVILEDGEIKGVEAVIDKDLAGEKLAEEVNADIFMILTDVNGAALYYGTEKEQWLREVKVEELRKYYEEGHFKAGSMGPKVLAAIRFIEWGGERAIIAHLEKAVEALEGKTGTQVLP GKRVVIALGGNALQQRGQKGSYEEMMDNVRKTARQIAEIIARGYEVVITHGNGPQVGSLLLHMDAGQATYGIPAQPMDVAGAMSQGWIGYMIQQALKNELRKRGMEKKVVTIITQTIVDKNDPAFQNPTKPVGPFYDEETAKRLAREKGWIVKEDSGRGWRRVVPSPDPKGHVEAETIKKLVERGVIVIASGGGGVPVILEDGEIKGVEAVIDKDLAGEKLAEEVNADIFMILTDVNGAALYYGTEKEQWLREVKVEELRKYYEEGHFKAGSMGPKVLAAIRFIEWGGERAIIAHLEKAVEALEGKTGTQVLP 1e1h-a1-m1-cA_1e1h-a1-m1-cC Crystal Structure of recombinant Botulinum Neurotoxin Type A Light Chain, self-inhibiting Zn endopeptidase. Q45894 Q45894 1.8 X-RAY DIFFRACTION 38 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 235 235 3k3q-a1-m1-cB_3k3q-a1-m2-cB MAYKDPVNGVDIAYIKIPNAGQMQPVKAFKIHNKIWVIPERDTFTNPEEGDLNPPPEAKQVPVSYYDSTYLSTDNEKDNYLKGVTKLFERIYSTDLGRMLLTSIVRGIPFWGGSTIDTELKVIDTNCINVIQPDGSYRSEELNLVIIGPSADIIQFECKSFGHDVLNLTRNGYGSTQYIRFSPDFTFGFEESLGAGKFATDPAVTLAHELIHAEHRLYGIAINPNRVFKVNTNAY MAYKDPVNGVDIAYIKIPNAGQMQPVKAFKIHNKIWVIPERDTFTNPEEGDLNPPPEAKQVPVSYYDSTYLSTDNEKDNYLKGVTKLFERIYSTDLGRMLLTSIVRGIPFWGGSTIDTELKVIDTNCINVIQPDGSYRSEELNLVIIGPSADIIQFECKSFGHDVLNLTRNGYGSTQYIRFSPDFTFGFEESLGAGKFATDPAVTLAHELIHAEHRLYGIAINPNRVFKVNTNAY 1e1h-a1-m1-cB_1e1h-a1-m1-cD Crystal Structure of recombinant Botulinum Neurotoxin Type A Light Chain, self-inhibiting Zn endopeptidase. Q45894 Q45894 1.8 X-RAY DIFFRACTION 38 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 164 165 3k3q-a1-m1-cC_3k3q-a1-m2-cC EMSGLEVSFEELRTFGGHDAKFIDSLQENEFRLYYYNKFKDVASTLNKAKSIIGTTASLQYMKNVFKEKYLLSEDTSGKFSVDKLKFDKLYKMLTEIYTEDNFVNFFKVINRKTYLNFDKAVFRINIVPDENYTIKDGFNLKANLSTNFNGQNTEINSRNFTRL YEMSGLEVSFEELRTFGGHDAKFIDSLQENEFRLYYYNKFKDVASTLNKAKSIIGTTASLQYMKNVFKEKYLLSEDTSGKFSVDKLKFDKLYKMLTEIYTEDNFVNFFKVINRKTYLNFDKAVFRINIVPDENYTIKDGFNLKANLSTNFNGQNTEINSRNFTRL 1e24-a1-m1-cA_1e24-a1-m2-cA LYSYL-TRNA SYNTHETASE (LYSU) HEXAGONAL FORM complexed with lysine and ATP and MN2+ P0A8N5 P0A8N5 2.35 X-RAY DIFFRACTION 292 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 485 485 1e1o-a1-m1-cA_1e1o-a1-m2-cA 1e1t-a1-m1-cA_1e1t-a1-m2-cA 1e22-a1-m1-cA_1e22-a1-m2-cA 1lyl-a1-m1-cA_1lyl-a1-m1-cC 1lyl-a2-m1-cB_1lyl-a2-m2-cB 5yzx-a1-m1-cA_5yzx-a1-m1-cC 5yzx-a2-m1-cB_5yzx-a2-m2-cB AIDFNDELRNRREKLAALRQQGVAFPNDFRRDHTSDQLHEEFDAKDNQELESLNIEVSVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDSLPEGVYNDQFKKWDLGDIIGARGTLFKTQTGELSIHCTELRLLTKALRPLPDQEVRYRQRYLDLIANDKSRQTFVVRSKILAAIRQFMVARGFMEVETPMMQVIPGGASARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYHDLIELTESLFRTLAQEVLGTTKVTYGEHVFDFGKPFEKLTMREAIKKYRPETDMADLDNFDAAKALAESIGITVEKSWGLGRIVTEIFDEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAERFQEQVNAKAAGDDEAMFYDEDYVTALEYGLPPTAGLGIGIDRMIMLFTNSHTIRDVILFPAMRP AIDFNDELRNRREKLAALRQQGVAFPNDFRRDHTSDQLHEEFDAKDNQELESLNIEVSVAGRMMTRRIMGKASFVTLQDVGGRIQLYVARDSLPEGVYNDQFKKWDLGDIIGARGTLFKTQTGELSIHCTELRLLTKALRPLPDQEVRYRQRYLDLIANDKSRQTFVVRSKILAAIRQFMVARGFMEVETPMMQVIPGGASARPFITHHNALDLDMYLRIAPELYLKRLVVGGFERVFEINRNFRNEGISVRHNPEFTMMELYMAYADYHDLIELTESLFRTLAQEVLGTTKVTYGEHVFDFGKPFEKLTMREAIKKYRPETDMADLDNFDAAKALAESIGITVEKSWGLGRIVTEIFDEVAEAHLIQPTFITEYPAEVSPLARRNDVNPEITDRFEFFIGGREIGNGFSELNDAEDQAERFQEQVNAKAAGDDEAMFYDEDYVTALEYGLPPTAGLGIGIDRMIMLFTNSHTIRDVILFPAMRP 1e2a-a2-m1-cB_1e2a-a2-m2-cC ENZYME IIA FROM THE LACTOSE SPECIFIC PTS FROM LACTOCOCCUS LACTIS P23532 P23532 2.3 X-RAY DIFFRACTION 23 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 102 102 1e2a-a2-m1-cC_1e2a-a2-m2-cB MNREEMTLLGFEIVAYAGDARSKLLEALKAAENGDFAKADSLVVEAGSCIAEAHSSQTGMLAREASGEELPYSVTMMHGQDHLMTTILLKDVIHHLIELYKR MNREEMTLLGFEIVAYAGDARSKLLEALKAAENGDFAKADSLVVEAGSCIAEAHSSQTGMLAREASGEELPYSVTMMHGQDHLMTTILLKDVIHHLIELYKR 1e2a-a2-m2-cA_1e2a-a2-m2-cB ENZYME IIA FROM THE LACTOSE SPECIFIC PTS FROM LACTOCOCCUS LACTIS P23532 P23532 2.3 X-RAY DIFFRACTION 41 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 102 102 1e2a-a1-m1-cA_1e2a-a1-m1-cB 1e2a-a1-m1-cA_1e2a-a1-m1-cC 1e2a-a1-m1-cB_1e2a-a1-m1-cC 1e2a-a2-m1-cA_1e2a-a2-m1-cB 1e2a-a2-m1-cA_1e2a-a2-m1-cC 1e2a-a2-m1-cB_1e2a-a2-m1-cC 1e2a-a2-m2-cA_1e2a-a2-m2-cC 1e2a-a2-m2-cB_1e2a-a2-m2-cC 2e2a-a1-m1-cA_2e2a-a1-m1-cB 2e2a-a1-m1-cC_2e2a-a1-m1-cA 2e2a-a1-m1-cC_2e2a-a1-m1-cB MNREEMTLLGFEIVAYAGDARSKLLEALKAAENGDFAKADSLVVEAGSCIAEAHSSQTGMLAREASGEELPYSVTMMHGQDHLMTTILLKDVIHHLIELYKR MNREEMTLLGFEIVAYAGDARSKLLEALKAAENGDFAKADSLVVEAGSCIAEAHSSQTGMLAREASGEELPYSVTMMHGQDHLMTTILLKDVIHHLIELYKR 1e2y-a1-m1-cE_1e2y-a1-m1-cD Tryparedoxin peroxidase from Crithidia fasciculata Q9TZX2 Q9TZX2 3.2 X-RAY DIFFRACTION 48 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 159 160 1e2y-a1-m1-cC_1e2y-a1-m1-cB 1e2y-a1-m1-cF_1e2y-a1-m1-cG 1e2y-a1-m1-cH_1e2y-a1-m1-cI 1e2y-a1-m1-cJ_1e2y-a1-m1-cA AKLNHPAPEFDDALPNGTFKKVSLSSYKGKYVVLFFYPDFTFVCPTEIIQFSDDAKRFAEINTEVISCSCDSEYSHLQWTSVDRKKGGLGPAIPLADKTKAIARAYGVLDEDSGVAYRGVFIIDPNGKLRQIIINDPIGRNVEEVIRLVEALQFVEEHG AAKLNHPAPEFDDALPNGTFKKVSLSSYKGKYVVLFFYPDFTFVCPTEIIQFSDDAKRFAEINTEVISCSCDSEYSHLQWTSVDRKKGGLGPAIPLADKTKAIARAYGVLDEDSGVAYRGVFIIDPNGKLRQIIINDPIGRNVEEVIRLVEALQFVEEHG 1e2y-a1-m1-cF_1e2y-a1-m1-cE Tryparedoxin peroxidase from Crithidia fasciculata Q9TZX2 Q9TZX2 3.2 X-RAY DIFFRACTION 51 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 155 159 1e2y-a1-m1-cA_1e2y-a1-m1-cB 1e2y-a1-m1-cD_1e2y-a1-m1-cC 1e2y-a1-m1-cH_1e2y-a1-m1-cG 1e2y-a1-m1-cJ_1e2y-a1-m1-cI AKLNHPAPEFDDALPNGTFKKVSLSSYKGKYVVLFFYPDFTFVCPTEIIQFSDDAKRFAEINTEVISCSCDSEYSHLQWTSVDRKKGGLGPAIPLADKTKAIARAYGVLDEDSGVAYRGVFIIDPNGKLRQIIINDPIGRNVEEVIRLVEALQFV AKLNHPAPEFDDALPNGTFKKVSLSSYKGKYVVLFFYPDFTFVCPTEIIQFSDDAKRFAEINTEVISCSCDSEYSHLQWTSVDRKKGGLGPAIPLADKTKAIARAYGVLDEDSGVAYRGVFIIDPNGKLRQIIINDPIGRNVEEVIRLVEALQFVEEHG 1e3i-a1-m1-cB_1e3i-a1-m1-cA Mouse class II alcohol dehydrogenase complex with NADH and inhibitor Q9QYY9 Q9QYY9 2.08 X-RAY DIFFRACTION 123 1.0 10090 (Mus musculus) 10090 (Mus musculus) 373 376 1e3e-a1-m1-cB_1e3e-a1-m1-cA 1e3l-a1-m1-cB_1e3l-a1-m1-cA GKVIKCKAAIAWKTGSPLCIEEIEVSPPKACEVRIQVIATCVCPTDINATDPKKKALFPVVLGHECAGIVESVGPGVTNFKPGDKVIPFFAPQCKRCKLCLSPLTNLCGKLRNFKYPTIDQELMEDRTSRFTCKGRSIYHFMGVSSFSQYTVVSEANLARVDDEANLERVCLIGCGFSSGYGAAINTAKVTPGSTCAVFGLGCVGLSAIIGCKIAGASRIIAIDINGEKFPKAKALGATDCLNPRELDKPVQDVITELTAGGVDYSLDCAGTAQTLKAAVDCTVLGWGSCTVVGAKVDEMTIPTVDVILGRSINGTFFGGWKSVDSVPNLVSDYKNKKFDLDLLVTHALPFESINDAIDLMKEGKSIRTILTF GTQGKVIKCKAAIAWKTGSPLCIEEIEVSPPKACEVRIQVIATCVCPTDINATDPKKKALFPVVLGHECAGIVESVGPGVTNFKPGDKVIPFFAPQCKRCKLCLSPLTNLCGKLRNFKYPTIDQELMEDRTSRFTCKGRSIYHFMGVSSFSQYTVVSEANLARVDDEANLERVCLIGCGFSSGYGAAINTAKVTPGSTCAVFGLGCVGLSAIIGCKIAGASRIIAIDINGEKFPKAKALGATDCLNPRELDKPVQDVITELTAGGVDYSLDCAGTAQTLKAAVDCTVLGWGSCTVVGAKVDEMTIPTVDVILGRSINGTFFGGWKSVDSVPNLVSDYKNKKFDLDLLVTHALPFESINDAIDLMKEGKSIRTILTF 1e3j-a1-m1-cA_1e3j-a1-m4-cA Ketose reductase (sorbitol dehydrogenase) from silverleaf whitefly O96496 O96496 2.3 X-RAY DIFFRACTION 112 1.0 77855 (Bemisia argentifolii) 77855 (Bemisia argentifolii) 348 348 1e3j-a1-m2-cA_1e3j-a1-m3-cA DNLSAVLYKQNDLRLEQRPIPEPKEDEVLLQMAYVGICGSDVHYYEHGRIADFIVKDPMVIGHEASGTVVKVGKNVKHLKKGDRVAVEPGVPCRRCQFCKEGKYNLCPDLTFCATPPDDGNLARYYVHAADFCHKLPDNVSLEEGALLEPLSVGVHACRRAGVQLGTTVLVIGAGPIGLVSVLAAKAYGAFVVCTARSPRRLEVAKNCGADVTLVVDPAKEEESSIIERIRSAIGDLPNVTIDCSGNEKCITIGINITRTGGTLMLVGMGSQMVTVPLVNACAREIDIKSVFRYCNDYPIALEMVASGRCNVKQLVTHSFKLEQTVDAFEAARKKADNTIKVMISCRQ DNLSAVLYKQNDLRLEQRPIPEPKEDEVLLQMAYVGICGSDVHYYEHGRIADFIVKDPMVIGHEASGTVVKVGKNVKHLKKGDRVAVEPGVPCRRCQFCKEGKYNLCPDLTFCATPPDDGNLARYYVHAADFCHKLPDNVSLEEGALLEPLSVGVHACRRAGVQLGTTVLVIGAGPIGLVSVLAAKAYGAFVVCTARSPRRLEVAKNCGADVTLVVDPAKEEESSIIERIRSAIGDLPNVTIDCSGNEKCITIGINITRTGGTLMLVGMGSQMVTVPLVNACAREIDIKSVFRYCNDYPIALEMVASGRCNVKQLVTHSFKLEQTVDAFEAARKKADNTIKVMISCRQ 1e3j-a1-m2-cA_1e3j-a1-m4-cA Ketose reductase (sorbitol dehydrogenase) from silverleaf whitefly O96496 O96496 2.3 X-RAY DIFFRACTION 28 1.0 77855 (Bemisia argentifolii) 77855 (Bemisia argentifolii) 348 348 1e3j-a1-m1-cA_1e3j-a1-m3-cA DNLSAVLYKQNDLRLEQRPIPEPKEDEVLLQMAYVGICGSDVHYYEHGRIADFIVKDPMVIGHEASGTVVKVGKNVKHLKKGDRVAVEPGVPCRRCQFCKEGKYNLCPDLTFCATPPDDGNLARYYVHAADFCHKLPDNVSLEEGALLEPLSVGVHACRRAGVQLGTTVLVIGAGPIGLVSVLAAKAYGAFVVCTARSPRRLEVAKNCGADVTLVVDPAKEEESSIIERIRSAIGDLPNVTIDCSGNEKCITIGINITRTGGTLMLVGMGSQMVTVPLVNACAREIDIKSVFRYCNDYPIALEMVASGRCNVKQLVTHSFKLEQTVDAFEAARKKADNTIKVMISCRQ DNLSAVLYKQNDLRLEQRPIPEPKEDEVLLQMAYVGICGSDVHYYEHGRIADFIVKDPMVIGHEASGTVVKVGKNVKHLKKGDRVAVEPGVPCRRCQFCKEGKYNLCPDLTFCATPPDDGNLARYYVHAADFCHKLPDNVSLEEGALLEPLSVGVHACRRAGVQLGTTVLVIGAGPIGLVSVLAAKAYGAFVVCTARSPRRLEVAKNCGADVTLVVDPAKEEESSIIERIRSAIGDLPNVTIDCSGNEKCITIGINITRTGGTLMLVGMGSQMVTVPLVNACAREIDIKSVFRYCNDYPIALEMVASGRCNVKQLVTHSFKLEQTVDAFEAARKKADNTIKVMISCRQ 1e3j-a1-m3-cA_1e3j-a1-m4-cA Ketose reductase (sorbitol dehydrogenase) from silverleaf whitefly O96496 O96496 2.3 X-RAY DIFFRACTION 19 1.0 77855 (Bemisia argentifolii) 77855 (Bemisia argentifolii) 348 348 1e3j-a1-m1-cA_1e3j-a1-m2-cA DNLSAVLYKQNDLRLEQRPIPEPKEDEVLLQMAYVGICGSDVHYYEHGRIADFIVKDPMVIGHEASGTVVKVGKNVKHLKKGDRVAVEPGVPCRRCQFCKEGKYNLCPDLTFCATPPDDGNLARYYVHAADFCHKLPDNVSLEEGALLEPLSVGVHACRRAGVQLGTTVLVIGAGPIGLVSVLAAKAYGAFVVCTARSPRRLEVAKNCGADVTLVVDPAKEEESSIIERIRSAIGDLPNVTIDCSGNEKCITIGINITRTGGTLMLVGMGSQMVTVPLVNACAREIDIKSVFRYCNDYPIALEMVASGRCNVKQLVTHSFKLEQTVDAFEAARKKADNTIKVMISCRQ DNLSAVLYKQNDLRLEQRPIPEPKEDEVLLQMAYVGICGSDVHYYEHGRIADFIVKDPMVIGHEASGTVVKVGKNVKHLKKGDRVAVEPGVPCRRCQFCKEGKYNLCPDLTFCATPPDDGNLARYYVHAADFCHKLPDNVSLEEGALLEPLSVGVHACRRAGVQLGTTVLVIGAGPIGLVSVLAAKAYGAFVVCTARSPRRLEVAKNCGADVTLVVDPAKEEESSIIERIRSAIGDLPNVTIDCSGNEKCITIGINITRTGGTLMLVGMGSQMVTVPLVNACAREIDIKSVFRYCNDYPIALEMVASGRCNVKQLVTHSFKLEQTVDAFEAARKKADNTIKVMISCRQ 1e3o-a1-m1-cC_1e3o-a1-m2-cC Crystal structure of Oct-1 POU dimer bound to MORE P14859 P14859 1.9 X-RAY DIFFRACTION 276 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 132 EEPSDLEELEQFAKTFKQRRIKLGFTQGDVGLAMGKLYGNDFSQTTISRFEALNLSFKNMSKLKPLLEKWLNDAEKRTSIETNIRVALEKSFMENQKPTSEDITLIAEQLNMEKEVIRVWFSNRRQKEKRIN EEPSDLEELEQFAKTFKQRRIKLGFTQGDVGLAMGKLYGNDFSQTTISRFEALNLSFKNMSKLKPLLEKWLNDAEKRTSIETNIRVALEKSFMENQKPTSEDITLIAEQLNMEKEVIRVWFSNRRQKEKRIN 1e3p-a1-m2-cA_1e3p-a1-m3-cA tungstate derivative of Streptomyces antibioticus PNPase/GPSI enzyme Q53597 Q53597 2.5 X-RAY DIFFRACTION 109 1.0 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 645 645 1e3h-a1-m1-cA_1e3h-a1-m2-cA 1e3h-a1-m1-cA_1e3h-a1-m3-cA 1e3h-a1-m2-cA_1e3h-a1-m3-cA 1e3p-a1-m1-cA_1e3p-a1-m2-cA 1e3p-a1-m1-cA_1e3p-a1-m3-cA NETHYAEAVIDNGAFGTRTIRFETGRLARQAAGSAVAYLDDDTMVLSATTASKNPKDQLDFFPLTVDVEERMYAAGKIPGSFFRREGRPSEDAILTCRLIDRPLRPSFKKGLRNEIQVVATIMALNPDHLYDVVAINAASASTQLAGLPFSGPIGGVRVALIRGQWVAFPTHTELEDAVFDMVVAGRVLEDGDVAIMMVEAEATEKTIQLVKDGAEAPTEEVVAAGLDAAKPFIKVLCKAQADLAAKAAKPTGEFPVFLDYQDDVLEALSAAVRPELSAALTIAGKQDREAELDRVKALAAEKLLPEFEGREKEISAAYRALTKSLVRERVIAEKKRIDGRGVTDIRTLAAEVEAIPRVHGSALFERGETQILGVTTLNMLRMEQQLDTLSPVTRKRYMHNYNFPPYSVGETGRVGSPKRREIGHGALAERAIVPVLPTREEFPYAIRQVSEALGSNGSTSMGSVCASTMSLLNAGVPLKAPVAGIAMGLISQEINGETHYVALTDILGAEDAFGDMDFKVAGTKEFVTALQLDTKLDGIPASVLAAALKQARDARLHILDVMMEAIDTPDEMSPNAPRIITVNQIQEDTGAEIYIGAADGPAAEAGSVVKTTFGAFVSLLDGLLHLGVGQKVQVEIAEIDSRGK NETHYAEAVIDNGAFGTRTIRFETGRLARQAAGSAVAYLDDDTMVLSATTASKNPKDQLDFFPLTVDVEERMYAAGKIPGSFFRREGRPSEDAILTCRLIDRPLRPSFKKGLRNEIQVVATIMALNPDHLYDVVAINAASASTQLAGLPFSGPIGGVRVALIRGQWVAFPTHTELEDAVFDMVVAGRVLEDGDVAIMMVEAEATEKTIQLVKDGAEAPTEEVVAAGLDAAKPFIKVLCKAQADLAAKAAKPTGEFPVFLDYQDDVLEALSAAVRPELSAALTIAGKQDREAELDRVKALAAEKLLPEFEGREKEISAAYRALTKSLVRERVIAEKKRIDGRGVTDIRTLAAEVEAIPRVHGSALFERGETQILGVTTLNMLRMEQQLDTLSPVTRKRYMHNYNFPPYSVGETGRVGSPKRREIGHGALAERAIVPVLPTREEFPYAIRQVSEALGSNGSTSMGSVCASTMSLLNAGVPLKAPVAGIAMGLISQEINGETHYVALTDILGAEDAFGDMDFKVAGTKEFVTALQLDTKLDGIPASVLAAALKQARDARLHILDVMMEAIDTPDEMSPNAPRIITVNQIQEDTGAEIYIGAADGPAAEAGSVVKTTFGAFVSLLDGLLHLGVGQKVQVEIAEIDSRGK 1e4e-a1-m1-cB_1e4e-a1-m2-cB D-alanyl-D-lacate ligase P25051 P25051 2.5 X-RAY DIFFRACTION 27 1.0 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 340 340 NRIKVAILFGGCSEEHDVSVKSAIEIAANINKEKYEPLYIGITKSGVWKMCEKPCAEWENENCYSAVLSPDKKMHGLLVKKNHEYEINHVDVAFSALHGKSGEDGSIQGLFELSGIPFVGCDIQSSAICMDKSLTYIVAKNAGIATPAFWVINKDDRPVAATFTYPVFVKPARSGSSFGVKKVNSADELDYAIESARQYDSKILIEQAVSGCEVGCAVLGNSAALVVGEVDQIRLQYGIFRIHQEVEPEKGSENAVITVPADLSAEERGRIQETVKKIYKTLGCRGLARVDMFLQDRGRIVLNEVNTLPGFTSYSRYPRMMAAAGISLPELIDRLIVLAL NRIKVAILFGGCSEEHDVSVKSAIEIAANINKEKYEPLYIGITKSGVWKMCEKPCAEWENENCYSAVLSPDKKMHGLLVKKNHEYEINHVDVAFSALHGKSGEDGSIQGLFELSGIPFVGCDIQSSAICMDKSLTYIVAKNAGIATPAFWVINKDDRPVAATFTYPVFVKPARSGSSFGVKKVNSADELDYAIESARQYDSKILIEQAVSGCEVGCAVLGNSAALVVGEVDQIRLQYGIFRIHQEVEPEKGSENAVITVPADLSAEERGRIQETVKKIYKTLGCRGLARVDMFLQDRGRIVLNEVNTLPGFTSYSRYPRMMAAAGISLPELIDRLIVLAL 1e4e-a1-m2-cB_1e4e-a1-m1-cA D-alanyl-D-lacate ligase P25051 P25051 2.5 X-RAY DIFFRACTION 39 0.997 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 340 341 1e4e-a1-m1-cB_1e4e-a1-m2-cA NRIKVAILFGGCSEEHDVSVKSAIEIAANINKEKYEPLYIGITKSGVWKMCEKPCAEWENENCYSAVLSPDKKMHGLLVKKNHEYEINHVDVAFSALHGKSGEDGSIQGLFELSGIPFVGCDIQSSAICMDKSLTYIVAKNAGIATPAFWVINKDDRPVAATFTYPVFVKPARSGSSFGVKKVNSADELDYAIESARQYDSKILIEQAVSGCEVGCAVLGNSAALVVGEVDQIRLQYGIFRIHQEVEPEKGSENAVITVPADLSAEERGRIQETVKKIYKTLGCRGLARVDMFLQDRGRIVLNEVNTLPGFTSYSRYPRMMAAAGISLPELIDRLIVLAL NRIKVAILFGGCSEEHDVSVKSAIEIAANINKEKYEPLYIGITKSGVWKMCEKPCAEWENENCYSAVLSPDKKMHGLLVKKNHEYEINHVDVAFSALHGKSGEDGSIQGLFELSGIPFVGCDIQSSAICMDKSLTYIVAKNAGIATPAFWVINKDDRPVAATFTYPVFVKPARSGSSFGVKKVNSADELDYAIESARQYDSKILIEQAVSGCEVGCAVLGNSAALVVGEVDQIRLQYGIFRIHQEVEPEKGSENAVITVPADLSAEERGRIQETVKKIYKTLGCRGLARVDMFLQDNGRIVLNEVNTLPGFTSYSRYPRMMAAAGISLPELIDRLIVLALK 1e4e-a1-m2-cB_1e4e-a1-m2-cA D-alanyl-D-lacate ligase P25051 P25051 2.5 X-RAY DIFFRACTION 122 0.997 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 340 341 1e4e-a1-m1-cB_1e4e-a1-m1-cA NRIKVAILFGGCSEEHDVSVKSAIEIAANINKEKYEPLYIGITKSGVWKMCEKPCAEWENENCYSAVLSPDKKMHGLLVKKNHEYEINHVDVAFSALHGKSGEDGSIQGLFELSGIPFVGCDIQSSAICMDKSLTYIVAKNAGIATPAFWVINKDDRPVAATFTYPVFVKPARSGSSFGVKKVNSADELDYAIESARQYDSKILIEQAVSGCEVGCAVLGNSAALVVGEVDQIRLQYGIFRIHQEVEPEKGSENAVITVPADLSAEERGRIQETVKKIYKTLGCRGLARVDMFLQDRGRIVLNEVNTLPGFTSYSRYPRMMAAAGISLPELIDRLIVLAL NRIKVAILFGGCSEEHDVSVKSAIEIAANINKEKYEPLYIGITKSGVWKMCEKPCAEWENENCYSAVLSPDKKMHGLLVKKNHEYEINHVDVAFSALHGKSGEDGSIQGLFELSGIPFVGCDIQSSAICMDKSLTYIVAKNAGIATPAFWVINKDDRPVAATFTYPVFVKPARSGSSFGVKKVNSADELDYAIESARQYDSKILIEQAVSGCEVGCAVLGNSAALVVGEVDQIRLQYGIFRIHQEVEPEKGSENAVITVPADLSAEERGRIQETVKKIYKTLGCRGLARVDMFLQDNGRIVLNEVNTLPGFTSYSRYPRMMAAAGISLPELIDRLIVLALK 1e52-a1-m1-cA_1e52-a1-m1-cB Solution structure of Escherichia coli UvrB C-terminal domain P0A8F8 P0A8F8 NOT SOLUTION NMR 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 56 56 LEPDNVPMDMSPKALQQKIHELEGLMMQHAQNLEFEEAAQIRDQLHQLRELFIAAS LEPDNVPMDMSPKALQQKIHELEGLMMQHAQNLEFEEAAQIRDQLHQLRELFIAAS 1e57-a1-m10-cA_1e57-a1-m9-cB PHYSALIS MOTTLE VIRUS: EMPTY CAPSID P36351 P36351 3.2 X-RAY DIFFRACTION 38 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 160 183 1e57-a1-m10-cC_1e57-a1-m24-cC 1e57-a1-m11-cA_1e57-a1-m15-cB 1e57-a1-m11-cC_1e57-a1-m16-cC 1e57-a1-m12-cA_1e57-a1-m11-cB 1e57-a1-m12-cC_1e57-a1-m38-cC 1e57-a1-m13-cA_1e57-a1-m12-cB 1e57-a1-m13-cC_1e57-a1-m47-cC 1e57-a1-m14-cA_1e57-a1-m13-cB 1e57-a1-m14-cC_1e57-a1-m45-cC 1e57-a1-m15-cA_1e57-a1-m14-cB 1e57-a1-m15-cC_1e57-a1-m29-cC 1e57-a1-m16-cA_1e57-a1-m20-cB 1e57-a1-m17-cA_1e57-a1-m16-cB 1e57-a1-m17-cC_1e57-a1-m28-cC 1e57-a1-m18-cA_1e57-a1-m17-cB 1e57-a1-m18-cC_1e57-a1-m52-cC 1e57-a1-m19-cA_1e57-a1-m18-cB 1e57-a1-m19-cC_1e57-a1-m60-cC 1e57-a1-m1-cA_1e57-a1-m5-cB 1e57-a1-m1-cC_1e57-a1-m6-cC 1e57-a1-m20-cA_1e57-a1-m19-cB 1e57-a1-m20-cC_1e57-a1-m39-cC 1e57-a1-m21-cA_1e57-a1-m25-cB 1e57-a1-m21-cC_1e57-a1-m26-cC 1e57-a1-m22-cA_1e57-a1-m21-cB 1e57-a1-m22-cC_1e57-a1-m43-cC 1e57-a1-m23-cA_1e57-a1-m22-cB 1e57-a1-m24-cA_1e57-a1-m23-cB 1e57-a1-m25-cA_1e57-a1-m24-cB 1e57-a1-m25-cC_1e57-a1-m54-cC 1e57-a1-m26-cA_1e57-a1-m30-cB 1e57-a1-m27-cA_1e57-a1-m26-cB 1e57-a1-m27-cC_1e57-a1-m53-cC 1e57-a1-m28-cA_1e57-a1-m27-cB 1e57-a1-m29-cA_1e57-a1-m28-cB 1e57-a1-m2-cA_1e57-a1-m1-cB 1e57-a1-m2-cC_1e57-a1-m23-cC 1e57-a1-m30-cA_1e57-a1-m29-cB 1e57-a1-m30-cC_1e57-a1-m44-cC 1e57-a1-m31-cA_1e57-a1-m35-cB 1e57-a1-m31-cC_1e57-a1-m36-cC 1e57-a1-m32-cA_1e57-a1-m31-cB 1e57-a1-m32-cC_1e57-a1-m58-cC 1e57-a1-m33-cA_1e57-a1-m32-cB 1e57-a1-m33-cC_1e57-a1-m7-cC 1e57-a1-m34-cA_1e57-a1-m33-cB 1e57-a1-m34-cC_1e57-a1-m5-cC 1e57-a1-m35-cA_1e57-a1-m34-cB 1e57-a1-m35-cC_1e57-a1-m49-cC 1e57-a1-m36-cA_1e57-a1-m40-cB 1e57-a1-m37-cA_1e57-a1-m36-cB 1e57-a1-m37-cC_1e57-a1-m48-cC 1e57-a1-m38-cA_1e57-a1-m37-cB 1e57-a1-m39-cA_1e57-a1-m38-cB 1e57-a1-m3-cA_1e57-a1-m2-cB 1e57-a1-m3-cC_1e57-a1-m42-cC 1e57-a1-m40-cA_1e57-a1-m39-cB 1e57-a1-m40-cC_1e57-a1-m59-cC 1e57-a1-m41-cA_1e57-a1-m45-cB 1e57-a1-m41-cC_1e57-a1-m46-cC 1e57-a1-m42-cA_1e57-a1-m41-cB 1e57-a1-m43-cA_1e57-a1-m42-cB 1e57-a1-m44-cA_1e57-a1-m43-cB 1e57-a1-m45-cA_1e57-a1-m44-cB 1e57-a1-m46-cA_1e57-a1-m50-cB 1e57-a1-m47-cA_1e57-a1-m46-cB 1e57-a1-m48-cA_1e57-a1-m47-cB 1e57-a1-m49-cA_1e57-a1-m48-cB 1e57-a1-m4-cA_1e57-a1-m3-cB 1e57-a1-m4-cC_1e57-a1-m50-cC 1e57-a1-m50-cA_1e57-a1-m49-cB 1e57-a1-m51-cA_1e57-a1-m55-cB 1e57-a1-m51-cC_1e57-a1-m56-cC 1e57-a1-m52-cA_1e57-a1-m51-cB 1e57-a1-m53-cA_1e57-a1-m52-cB 1e57-a1-m54-cA_1e57-a1-m53-cB 1e57-a1-m55-cA_1e57-a1-m54-cB 1e57-a1-m55-cC_1e57-a1-m9-cC 1e57-a1-m56-cA_1e57-a1-m60-cB 1e57-a1-m57-cA_1e57-a1-m56-cB 1e57-a1-m57-cC_1e57-a1-m8-cC 1e57-a1-m58-cA_1e57-a1-m57-cB 1e57-a1-m59-cA_1e57-a1-m58-cB 1e57-a1-m5-cA_1e57-a1-m4-cB 1e57-a1-m60-cA_1e57-a1-m59-cB 1e57-a1-m6-cA_1e57-a1-m10-cB 1e57-a1-m7-cA_1e57-a1-m6-cB 1e57-a1-m8-cA_1e57-a1-m7-cB 1e57-a1-m9-cA_1e57-a1-m8-cB 1qjz-a1-m10-cA_1qjz-a1-m9-cB 1qjz-a1-m10-cC_1qjz-a1-m24-cC 1qjz-a1-m11-cA_1qjz-a1-m15-cB 1qjz-a1-m11-cC_1qjz-a1-m16-cC 1qjz-a1-m12-cA_1qjz-a1-m11-cB 1qjz-a1-m12-cC_1qjz-a1-m38-cC 1qjz-a1-m13-cA_1qjz-a1-m12-cB 1qjz-a1-m13-cC_1qjz-a1-m47-cC 1qjz-a1-m14-cA_1qjz-a1-m13-cB 1qjz-a1-m14-cC_1qjz-a1-m45-cC 1qjz-a1-m15-cA_1qjz-a1-m14-cB 1qjz-a1-m15-cC_1qjz-a1-m29-cC 1qjz-a1-m16-cA_1qjz-a1-m20-cB 1qjz-a1-m17-cA_1qjz-a1-m16-cB 1qjz-a1-m17-cC_1qjz-a1-m28-cC 1qjz-a1-m18-cA_1qjz-a1-m17-cB 1qjz-a1-m18-cC_1qjz-a1-m52-cC 1qjz-a1-m19-cA_1qjz-a1-m18-cB 1qjz-a1-m19-cC_1qjz-a1-m60-cC 1qjz-a1-m1-cA_1qjz-a1-m5-cB 1qjz-a1-m1-cC_1qjz-a1-m6-cC 1qjz-a1-m20-cA_1qjz-a1-m19-cB 1qjz-a1-m20-cC_1qjz-a1-m39-cC 1qjz-a1-m21-cA_1qjz-a1-m25-cB 1qjz-a1-m21-cC_1qjz-a1-m26-cC 1qjz-a1-m22-cA_1qjz-a1-m21-cB 1qjz-a1-m22-cC_1qjz-a1-m43-cC 1qjz-a1-m23-cA_1qjz-a1-m22-cB 1qjz-a1-m24-cA_1qjz-a1-m23-cB 1qjz-a1-m25-cA_1qjz-a1-m24-cB 1qjz-a1-m25-cC_1qjz-a1-m54-cC 1qjz-a1-m26-cA_1qjz-a1-m30-cB 1qjz-a1-m27-cA_1qjz-a1-m26-cB 1qjz-a1-m27-cC_1qjz-a1-m53-cC 1qjz-a1-m28-cA_1qjz-a1-m27-cB 1qjz-a1-m29-cA_1qjz-a1-m28-cB 1qjz-a1-m2-cA_1qjz-a1-m1-cB 1qjz-a1-m2-cC_1qjz-a1-m23-cC 1qjz-a1-m30-cA_1qjz-a1-m29-cB 1qjz-a1-m30-cC_1qjz-a1-m44-cC 1qjz-a1-m31-cA_1qjz-a1-m35-cB 1qjz-a1-m31-cC_1qjz-a1-m36-cC 1qjz-a1-m32-cA_1qjz-a1-m31-cB 1qjz-a1-m32-cC_1qjz-a1-m58-cC 1qjz-a1-m33-cA_1qjz-a1-m32-cB 1qjz-a1-m33-cC_1qjz-a1-m7-cC 1qjz-a1-m34-cA_1qjz-a1-m33-cB 1qjz-a1-m34-cC_1qjz-a1-m5-cC 1qjz-a1-m35-cA_1qjz-a1-m34-cB 1qjz-a1-m35-cC_1qjz-a1-m49-cC 1qjz-a1-m36-cA_1qjz-a1-m40-cB 1qjz-a1-m37-cA_1qjz-a1-m36-cB 1qjz-a1-m37-cC_1qjz-a1-m48-cC 1qjz-a1-m38-cA_1qjz-a1-m37-cB 1qjz-a1-m39-cA_1qjz-a1-m38-cB 1qjz-a1-m3-cA_1qjz-a1-m2-cB 1qjz-a1-m3-cC_1qjz-a1-m42-cC 1qjz-a1-m40-cA_1qjz-a1-m39-cB 1qjz-a1-m40-cC_1qjz-a1-m59-cC 1qjz-a1-m41-cA_1qjz-a1-m45-cB 1qjz-a1-m41-cC_1qjz-a1-m46-cC 1qjz-a1-m42-cA_1qjz-a1-m41-cB 1qjz-a1-m43-cA_1qjz-a1-m42-cB 1qjz-a1-m44-cA_1qjz-a1-m43-cB 1qjz-a1-m45-cA_1qjz-a1-m44-cB 1qjz-a1-m46-cA_1qjz-a1-m50-cB 1qjz-a1-m47-cA_1qjz-a1-m46-cB 1qjz-a1-m48-cA_1qjz-a1-m47-cB 1qjz-a1-m49-cA_1qjz-a1-m48-cB 1qjz-a1-m4-cA_1qjz-a1-m3-cB 1qjz-a1-m4-cC_1qjz-a1-m50-cC 1qjz-a1-m50-cA_1qjz-a1-m49-cB 1qjz-a1-m51-cA_1qjz-a1-m55-cB 1qjz-a1-m51-cC_1qjz-a1-m56-cC 1qjz-a1-m52-cA_1qjz-a1-m51-cB 1qjz-a1-m53-cA_1qjz-a1-m52-cB 1qjz-a1-m54-cA_1qjz-a1-m53-cB 1qjz-a1-m55-cA_1qjz-a1-m54-cB 1qjz-a1-m55-cC_1qjz-a1-m9-cC 1qjz-a1-m56-cA_1qjz-a1-m60-cB 1qjz-a1-m57-cA_1qjz-a1-m56-cB 1qjz-a1-m57-cC_1qjz-a1-m8-cC 1qjz-a1-m58-cA_1qjz-a1-m57-cB 1qjz-a1-m59-cA_1qjz-a1-m58-cB 1qjz-a1-m5-cA_1qjz-a1-m4-cB 1qjz-a1-m60-cA_1qjz-a1-m59-cB 1qjz-a1-m6-cA_1qjz-a1-m10-cB 1qjz-a1-m7-cA_1qjz-a1-m6-cB 1qjz-a1-m8-cA_1qjz-a1-m7-cB 1qjz-a1-m9-cA_1qjz-a1-m8-cB 2xpj-a1-m10-cA_2xpj-a1-m9-cB 2xpj-a1-m10-cC_2xpj-a1-m24-cC 2xpj-a1-m11-cA_2xpj-a1-m15-cB 2xpj-a1-m11-cC_2xpj-a1-m16-cC 2xpj-a1-m12-cA_2xpj-a1-m11-cB 2xpj-a1-m12-cC_2xpj-a1-m38-cC 2xpj-a1-m13-cA_2xpj-a1-m12-cB 2xpj-a1-m13-cC_2xpj-a1-m47-cC 2xpj-a1-m14-cA_2xpj-a1-m13-cB 2xpj-a1-m14-cC_2xpj-a1-m45-cC 2xpj-a1-m15-cA_2xpj-a1-m14-cB 2xpj-a1-m15-cC_2xpj-a1-m29-cC 2xpj-a1-m16-cA_2xpj-a1-m20-cB 2xpj-a1-m17-cA_2xpj-a1-m16-cB 2xpj-a1-m17-cC_2xpj-a1-m28-cC 2xpj-a1-m18-cA_2xpj-a1-m17-cB 2xpj-a1-m18-cC_2xpj-a1-m52-cC 2xpj-a1-m19-cA_2xpj-a1-m18-cB 2xpj-a1-m19-cC_2xpj-a1-m60-cC 2xpj-a1-m1-cA_2xpj-a1-m5-cB 2xpj-a1-m1-cC_2xpj-a1-m6-cC 2xpj-a1-m20-cA_2xpj-a1-m19-cB 2xpj-a1-m20-cC_2xpj-a1-m39-cC 2xpj-a1-m21-cA_2xpj-a1-m25-cB 2xpj-a1-m21-cC_2xpj-a1-m26-cC 2xpj-a1-m22-cA_2xpj-a1-m21-cB 2xpj-a1-m22-cC_2xpj-a1-m43-cC 2xpj-a1-m23-cA_2xpj-a1-m22-cB 2xpj-a1-m24-cA_2xpj-a1-m23-cB 2xpj-a1-m25-cA_2xpj-a1-m24-cB 2xpj-a1-m25-cC_2xpj-a1-m54-cC 2xpj-a1-m26-cA_2xpj-a1-m30-cB 2xpj-a1-m27-cA_2xpj-a1-m26-cB 2xpj-a1-m27-cC_2xpj-a1-m53-cC 2xpj-a1-m28-cA_2xpj-a1-m27-cB 2xpj-a1-m29-cA_2xpj-a1-m28-cB 2xpj-a1-m2-cA_2xpj-a1-m1-cB 2xpj-a1-m2-cC_2xpj-a1-m23-cC 2xpj-a1-m30-cA_2xpj-a1-m29-cB 2xpj-a1-m30-cC_2xpj-a1-m44-cC 2xpj-a1-m31-cA_2xpj-a1-m35-cB 2xpj-a1-m31-cC_2xpj-a1-m36-cC 2xpj-a1-m32-cA_2xpj-a1-m31-cB 2xpj-a1-m32-cC_2xpj-a1-m58-cC 2xpj-a1-m33-cA_2xpj-a1-m32-cB 2xpj-a1-m33-cC_2xpj-a1-m7-cC 2xpj-a1-m34-cA_2xpj-a1-m33-cB 2xpj-a1-m34-cC_2xpj-a1-m5-cC 2xpj-a1-m35-cA_2xpj-a1-m34-cB 2xpj-a1-m35-cC_2xpj-a1-m49-cC 2xpj-a1-m36-cA_2xpj-a1-m40-cB 2xpj-a1-m37-cA_2xpj-a1-m36-cB 2xpj-a1-m37-cC_2xpj-a1-m48-cC 2xpj-a1-m38-cA_2xpj-a1-m37-cB 2xpj-a1-m39-cA_2xpj-a1-m38-cB 2xpj-a1-m3-cA_2xpj-a1-m2-cB 2xpj-a1-m3-cC_2xpj-a1-m42-cC 2xpj-a1-m40-cA_2xpj-a1-m39-cB 2xpj-a1-m40-cC_2xpj-a1-m59-cC 2xpj-a1-m41-cA_2xpj-a1-m45-cB 2xpj-a1-m41-cC_2xpj-a1-m46-cC 2xpj-a1-m42-cA_2xpj-a1-m41-cB 2xpj-a1-m43-cA_2xpj-a1-m42-cB 2xpj-a1-m44-cA_2xpj-a1-m43-cB 2xpj-a1-m45-cA_2xpj-a1-m44-cB 2xpj-a1-m46-cA_2xpj-a1-m50-cB 2xpj-a1-m47-cA_2xpj-a1-m46-cB 2xpj-a1-m48-cA_2xpj-a1-m47-cB 2xpj-a1-m49-cA_2xpj-a1-m48-cB 2xpj-a1-m4-cA_2xpj-a1-m3-cB 2xpj-a1-m4-cC_2xpj-a1-m50-cC 2xpj-a1-m50-cA_2xpj-a1-m49-cB 2xpj-a1-m51-cA_2xpj-a1-m55-cB 2xpj-a1-m51-cC_2xpj-a1-m56-cC 2xpj-a1-m52-cA_2xpj-a1-m51-cB 2xpj-a1-m53-cA_2xpj-a1-m52-cB 2xpj-a1-m54-cA_2xpj-a1-m53-cB 2xpj-a1-m55-cA_2xpj-a1-m54-cB 2xpj-a1-m55-cC_2xpj-a1-m9-cC 2xpj-a1-m56-cA_2xpj-a1-m60-cB 2xpj-a1-m57-cA_2xpj-a1-m56-cB 2xpj-a1-m57-cC_2xpj-a1-m8-cC 2xpj-a1-m58-cA_2xpj-a1-m57-cB 2xpj-a1-m59-cA_2xpj-a1-m58-cB 2xpj-a1-m5-cA_2xpj-a1-m4-cB 2xpj-a1-m60-cA_2xpj-a1-m59-cB 2xpj-a1-m6-cA_2xpj-a1-m10-cB 2xpj-a1-m7-cA_2xpj-a1-m6-cB 2xpj-a1-m8-cA_2xpj-a1-m7-cB 2xpj-a1-m9-cA_2xpj-a1-m8-cB SPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN VVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 1e58-a1-m1-cA_1e58-a1-m2-cA E.coli cofactor-dependent phosphoglycerate mutase P62707 P62707 1.25 X-RAY DIFFRACTION 34 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 246 246 1e59-a1-m1-cA_1e59-a1-m2-cA AVTKLVLVRGESQWNKENRFTGWYDVDLSEKGVSEAKAAGKLLKEEGYSFDFAYTSVLKRAIHTLWNVLDELDQAWLPVEKSWKLNERHYGALQGLNKAETAEKYGDEQVKQWRRGFAVTPPELTKDDERYPGHDPRYAKLSEKELPLTESLALTIDRVIPYWNETILPRMKSGERVIIAAHGNSLRALVKYLDNMSEEEILELNIPTGVPLVYEFDENFKPLKRYYLGNADEIAAKAAAVANQGK AVTKLVLVRGESQWNKENRFTGWYDVDLSEKGVSEAKAAGKLLKEEGYSFDFAYTSVLKRAIHTLWNVLDELDQAWLPVEKSWKLNERHYGALQGLNKAETAEKYGDEQVKQWRRGFAVTPPELTKDDERYPGHDPRYAKLSEKELPLTESLALTIDRVIPYWNETILPRMKSGERVIIAAHGNSLRALVKYLDNMSEEEILELNIPTGVPLVYEFDENFKPLKRYYLGNADEIAAKAAAVANQGK 1e5d-a1-m1-cA_1e5d-a1-m1-cB RUBREDOXIN OXYGEN:OXIDOREDUCTASE (ROO) FROM ANAEROBE DESULFOVIBRIO GIGAS Q9F0J6 Q9F0J6 2.5 X-RAY DIFFRACTION 96 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 401 401 QATKIIDGFHLVGAIDWNSRDFHGYTLSPMGTTYNAYLVEDEKTTLFDTVKAEYKGELLCGIASVIDPKKIDYLVIQHLELDHAGALPALIEACQPEKIFTSSLGQKAMESHFHYKDWPVQVVKHGETLSLGKRTVTFYETRMLHWPDSMVSWFADEKVLISNDIFGQNIAASERFSDQIPVHTLERAMREYYANIVNPYAPQTLKAIETLVGAGVAPEFICPDHGVIFRGADQCTFAVQKYVEYAEQKPTNKVVIFYDSMWHSTEKMARVLAESFRDEGCTVKLMWCKACHHSQIMSEISDAGAVIVGSPTHNNGILPYVAGTLQYIKGLRPQNKIGGAFGSFGWSGESTKVLAEWLTGMGFDMPATPVKVKNVPTHADYEQLKTMAQTIARALKAKLAA QATKIIDGFHLVGAIDWNSRDFHGYTLSPMGTTYNAYLVEDEKTTLFDTVKAEYKGELLCGIASVIDPKKIDYLVIQHLELDHAGALPALIEACQPEKIFTSSLGQKAMESHFHYKDWPVQVVKHGETLSLGKRTVTFYETRMLHWPDSMVSWFADEKVLISNDIFGQNIAASERFSDQIPVHTLERAMREYYANIVNPYAPQTLKAIETLVGAGVAPEFICPDHGVIFRGADQCTFAVQKYVEYAEQKPTNKVVIFYDSMWHSTEKMARVLAESFRDEGCTVKLMWCKACHHSQIMSEISDAGAVIVGSPTHNNGILPYVAGTLQYIKGLRPQNKIGGAFGSFGWSGESTKVLAEWLTGMGFDMPATPVKVKNVPTHADYEQLKTMAQTIARALKAKLAA 1e5m-a1-m1-cA_1e5m-a1-m2-cA Beta ketoacyl acyl carrier protein synthase II (KASII) from Synechocystis sp. P73283 P73283 1.54 X-RAY DIFFRACTION 265 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 411 411 KKRVVVTGLGAITPIGNTLQDYWQGLMEGRNGIGPITRFDASDQACRFGGEVKDFDATQFLDRKEAKRMDRFCHFAVCASQQAINDAKLVINELNADEIGVLIGTGIGGLKVLEDQQTILLDKGPSRCSPFMIPMMIANMASGLTAINLGAKGPNNCTVTACAAGSNAIGDAFRLVQNGYAKAMICGGTEAAITPLSYAGFASARALSFRNDDPLHASRPFDKDRDGFVMGEGSGILILEELESALARGAKIYGEMVGYAMTCDAYHITAPVPDGRGATRAIAWALKDSGLKPEMVSYINAHGTSTPANDVTETRAIKQALGNHAYNIAVSSTKSMTGHLLGGSGGIEAVATVMAIAEDKVPPTINLENPDPECDLDYVPGQSRALIVDVALSNSFGFGGHNVTLAFKKYQ KKRVVVTGLGAITPIGNTLQDYWQGLMEGRNGIGPITRFDASDQACRFGGEVKDFDATQFLDRKEAKRMDRFCHFAVCASQQAINDAKLVINELNADEIGVLIGTGIGGLKVLEDQQTILLDKGPSRCSPFMIPMMIANMASGLTAINLGAKGPNNCTVTACAAGSNAIGDAFRLVQNGYAKAMICGGTEAAITPLSYAGFASARALSFRNDDPLHASRPFDKDRDGFVMGEGSGILILEELESALARGAKIYGEMVGYAMTCDAYHITAPVPDGRGATRAIAWALKDSGLKPEMVSYINAHGTSTPANDVTETRAIKQALGNHAYNIAVSSTKSMTGHLLGGSGGIEAVATVMAIAEDKVPPTINLENPDPECDLDYVPGQSRALIVDVALSNSFGFGGHNVTLAFKKYQ 1e5q-a4-m1-cG_1e5q-a4-m1-cH Ternary complex of saccharopine reductase from Magnaporthe grisea, NADPH and saccharopine Q9P4R4 Q9P4R4 2.1 X-RAY DIFFRACTION 65 1.0 148305 (Pyricularia grisea) 148305 (Pyricularia grisea) 449 449 1e5l-a1-m1-cA_1e5l-a1-m1-cB 1e5q-a1-m1-cA_1e5q-a1-m1-cB 1e5q-a2-m1-cC_1e5q-a2-m1-cD 1e5q-a3-m1-cE_1e5q-a3-m1-cF 1ff9-a1-m1-cA_1ff9-a1-m2-cA ATKSVLMLGSGFVTRPTLDVLTDSGIKVTVACRTLESAKKLSAGVQHSTPISLDVNDDAALDAEVAKHDLVISLIPYTFHATVIKSAIRQKKHVVTTSYVSPAMMELDQAAKDAGITVMNEIGLDPGIDHLYAIKTIEEVHAAGGKIKTFLSYCGGLPAPESSDNPLGYKFSWSSRGVLLALRNAASFYKDGKVTNVAGPELMATAKPYFIYPGFAFVAYPNRDSTPYKERYQIPEADNIVRGTLRYQGFPQFIKVLVDIGFLSDEEQPFLKEAIPWKEATQKIVKASSASEQDIVSTIVSNATFESTEEQKRIVAGLKWLGIFSDKKITPRGNALDTLCATLEEKMQFEEGERDLVMLQHKFEIENKDGSRETRTSSLCEYGAPIGSGGYSAMAKLVGVPCAVAVKFVLDGTISDRGVLAPMNSKINDPLMKELKEKYGIECKEKVVA ATKSVLMLGSGFVTRPTLDVLTDSGIKVTVACRTLESAKKLSAGVQHSTPISLDVNDDAALDAEVAKHDLVISLIPYTFHATVIKSAIRQKKHVVTTSYVSPAMMELDQAAKDAGITVMNEIGLDPGIDHLYAIKTIEEVHAAGGKIKTFLSYCGGLPAPESSDNPLGYKFSWSSRGVLLALRNAASFYKDGKVTNVAGPELMATAKPYFIYPGFAFVAYPNRDSTPYKERYQIPEADNIVRGTLRYQGFPQFIKVLVDIGFLSDEEQPFLKEAIPWKEATQKIVKASSASEQDIVSTIVSNATFESTEEQKRIVAGLKWLGIFSDKKITPRGNALDTLCATLEEKMQFEEGERDLVMLQHKFEIENKDGSRETRTSSLCEYGAPIGSGGYSAMAKLVGVPCAVAVKFVLDGTISDRGVLAPMNSKINDPLMKELKEKYGIECKEKVVA 1e5r-a1-m1-cA_1e5r-a1-m2-cB Proline 3-hydroxylase (type II) -apo form O09345 O09345 2.3 X-RAY DIFFRACTION 37 0.996 60871 (Streptomyces sp. TH1) 60871 (Streptomyces sp. TH1) 260 262 1e5s-a1-m2-cB_1e5s-a1-m1-cA MRSHILGKIELDQTRLAPDLAYLAAVPTVEEFSNGFWKHVPLWNQPTAHVEHVPYLKEIVTTVFDGTHLQMARSRNLKNAIVIPHRDFRYFRTFMVLEDSPLAFHSNEDTVIHMRPGEIWFLDAATVHSAVNFSEISRQSLCVDFAFDGPFDEKEIFADATLYAPGSTPDLPERRPFTAEHRRRILSLGQVIERENFRDILFLLSKVHYKYDVHPSETYDWLIEISKQAGDEKMVVKAEQIRDFAVEARALSERFSLTSW MRSHILGKIELDQTRLAPDLAYLAAVPTVEEFSNGFWKHVPLWNAPTAHVEHVPYLKEIVTTVFDGTHLQMARSRNLKNAIVIPHRDFVERYFRTFMVLEDSPLAFHSNEDTVIHMRPGEIWFLDAATVHSAVNFSEISRQSLCVDFAFDGPFDEKEIFADATLYAPGSTPDLPERRPFTAEHRRRILSLGQVIERENFRDILFLLSKVHYKYDVHPSETYDWLIEISKQAGDEKMVVKAEQIRDFAVEARALSERFSLTSW 1e6b-a1-m1-cA_1e6b-a1-m2-cA Crystal structure of a Zeta class glutathione S-transferase from Arabidopsis thaliana Q9ZVQ3 Q9ZVQ3 1.65 X-RAY DIFFRACTION 83 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 194 194 KLKLYSYWRSSCAHRVRIALALKGLDYEYIPVNLLKGDQFDSDFKKINPMGTVPALVDGDVVINDSFAIIMYLDEKYPEPPLLPRDLHKRAVNYQAMSIVLSGIQPTAWVNNAITKGFTALEKLLVNCAGKHATGDEIYLADLFLAPQIHGAINRFQINMEPYPTLAKCYESYNELPAFQNALPEKQPDAPSST KLKLYSYWRSSCAHRVRIALALKGLDYEYIPVNLLKGDQFDSDFKKINPMGTVPALVDGDVVINDSFAIIMYLDEKYPEPPLLPRDLHKRAVNYQAMSIVLSGIQPTAWVNNAITKGFTALEKLLVNCAGKHATGDEIYLADLFLAPQIHGAINRFQINMEPYPTLAKCYESYNELPAFQNALPEKQPDAPSST 1e6v-a1-m1-cA_1e6v-a1-m1-cD Methyl-coenzyme M reductase from Methanopyrus kandleri Q49605 Q49605 2.7 X-RAY DIFFRACTION 355 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 545 545 LFMKALKEKFEESPEEKYTKFYIFGGWKQSERKKEFKEWADKIVEERGVPHYNPDIGVPLGQRKLMSYQVSGTDVFVEGDDLTFVNNAAMQQMWDDIRRTVIVGMDTAHRVLERRLGKEVTPETINEYMETLNHALPGGAVVQEHMVEIHPGLTWDCYAKIITGDLELADEIDDKFLIDIEKLFPEEQAEQLIKAIGNRTYQVCRMPTIVGHVCDGATMYRWAAMQIAMSFICAYKIAAGEAAVSDFAFASKHAEVINMGEMLPARRARGENEPGGVPFGVLADCVQTMRKYPDDPAKVALEVIAAGAMLYDQIWLGSYMSGGVGFTQYATAVYPDNILDDYVYYGLEYVEDKYGIAEAEPSMDVVKDVATEVTLYGLEQYERYPAAMETHFGGSQRAAVCAAAAGCSTAFATGHAQAGLNGWYLSQILHKEGQGRLGFYGYALQDQCGAANSLSVRSDEGLPLELRGPNYPNYAMNVGHLGEYAGIVQAAHAARGDAFCVHPVIKVAFADENLVFDFTEPRKEFAKGALREFEPAGERDLIVPA LFMKALKEKFEESPEEKYTKFYIFGGWKQSERKKEFKEWADKIVEERGVPHYNPDIGVPLGQRKLMSYQVSGTDVFVEGDDLTFVNNAAMQQMWDDIRRTVIVGMDTAHRVLERRLGKEVTPETINEYMETLNHALPGGAVVQEHMVEIHPGLTWDCYAKIITGDLELADEIDDKFLIDIEKLFPEEQAEQLIKAIGNRTYQVCRMPTIVGHVCDGATMYRWAAMQIAMSFICAYKIAAGEAAVSDFAFASKHAEVINMGEMLPARRARGENEPGGVPFGVLADCVQTMRKYPDDPAKVALEVIAAGAMLYDQIWLGSYMSGGVGFTQYATAVYPDNILDDYVYYGLEYVEDKYGIAEAEPSMDVVKDVATEVTLYGLEQYERYPAAMETHFGGSQRAAVCAAAAGCSTAFATGHAQAGLNGWYLSQILHKEGQGRLGFYGYALQDQCGAANSLSVRSDEGLPLELRGPNYPNYAMNVGHLGEYAGIVQAAHAARGDAFCVHPVIKVAFADENLVFDFTEPRKEFAKGALREFEPAGERDLIVPA 1e6v-a1-m1-cB_1e6v-a1-m1-cE Methyl-coenzyme M reductase from Methanopyrus kandleri Q49601 Q49601 2.7 X-RAY DIFFRACTION 154 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 436 436 DTVDLYDDRGNCVAEEVPIEVLSPMRNEAIQSIVNDIKRTVAVDLEGIENALQNATVGGKGMKIPGREMDVDIVDNAEAIADEIEKMIRVYQDDDTNVEPMYDGKRLLVQLPSERVKVMADPYSGTLQAGMAVVHAIIDVCEVDMWDANMVKAAVFGRYPQTIDYFGGNVASMLDVPMKQEGVGYALRNIMVNHIVAATRKNTMQAVCLAATLQQTAMFEMGDALGPFERLHLLGYAYQGLNADNMVYDIVKKHGKEGTVGTVVREVVERALEDGVIEVKEELPSFKVYKANDMDLWNAYAAAGLVAAVMVNQGAARAAQGVSATILYYNDLLEYETGLPGVDFGRAEGTAVGFSFFSHSIYGGGGPGIFHGNHIVTRHSKGFAIPPVAAAMALDAGTQMFSPEVTSKLIGDVFGEIDEFREPMKYITEAAAEEAK DTVDLYDDRGNCVAEEVPIEVLSPMRNEAIQSIVNDIKRTVAVDLEGIENALQNATVGGKGMKIPGREMDVDIVDNAEAIADEIEKMIRVYQDDDTNVEPMYDGKRLLVQLPSERVKVMADPYSGTLQAGMAVVHAIIDVCEVDMWDANMVKAAVFGRYPQTIDYFGGNVASMLDVPMKQEGVGYALRNIMVNHIVAATRKNTMQAVCLAATLQQTAMFEMGDALGPFERLHLLGYAYQGLNADNMVYDIVKKHGKEGTVGTVVREVVERALEDGVIEVKEELPSFKVYKANDMDLWNAYAAAGLVAAVMVNQGAARAAQGVSATILYYNDLLEYETGLPGVDFGRAEGTAVGFSFFSHSIYGGGGPGIFHGNHIVTRHSKGFAIPPVAAAMALDAGTQMFSPEVTSKLIGDVFGEIDEFREPMKYITEAAAEEAK 1e6y-a1-m1-cA_1e6y-a1-m1-cD Methyl-coenzyme M reductase from Methanosarcina barkeri P07962 P07962 1.6 X-RAY DIFFRACTION 361 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 564 564 AADIFSKFKKDMEVKFAQEFGSNKQTGGDITDKTAKFLRLGPEQDPRKVEMIKAGKEIAEKRGIAFYNPMMHSGAPLGQRAITPYTISGTDIVCEPDDLHYVNNAAMQQMWDDIRRTCIVGLDMAHETLEKRLGKEVTPETINHYLEVLNHAMPGAAVVQEMMVETHPALVDDCYVKVFTGDDALADEIDKQFLIDINKEFSEEQAAQIKASIGKTSWQAIHIPTIVSRTTDGAQTSRWAAMQIGMSFISAYAMCAGEAAVADLSFAAKAALVSMGEMLPARARGPNEPGGLSFGHLSDIVQTSRVSEDPAKIALEVVGAGCMLYDQIWLGSYMSGGVGFTQYATAAYTDDILDNNTYYDVDYINDKYNGAATVGKDNKVKASLEVVKDIATESTLYGIETYEKFPTALEDHFGGSQRATVLAAAAGVACSLATGNANAGLSGWYLSMYLHKEAWGRLGFFFDLQDQGATNVLSYQGDEGLPDELRGPNYPNYAMNVGHQGGYAGIAQAAHSGRGDAFTVNPLLKVCFADDLLPFNFAEPRREFGRGAIREFVPAGERSLVIPA AADIFSKFKKDMEVKFAQEFGSNKQTGGDITDKTAKFLRLGPEQDPRKVEMIKAGKEIAEKRGIAFYNPMMHSGAPLGQRAITPYTISGTDIVCEPDDLHYVNNAAMQQMWDDIRRTCIVGLDMAHETLEKRLGKEVTPETINHYLEVLNHAMPGAAVVQEMMVETHPALVDDCYVKVFTGDDALADEIDKQFLIDINKEFSEEQAAQIKASIGKTSWQAIHIPTIVSRTTDGAQTSRWAAMQIGMSFISAYAMCAGEAAVADLSFAAKAALVSMGEMLPARARGPNEPGGLSFGHLSDIVQTSRVSEDPAKIALEVVGAGCMLYDQIWLGSYMSGGVGFTQYATAAYTDDILDNNTYYDVDYINDKYNGAATVGKDNKVKASLEVVKDIATESTLYGIETYEKFPTALEDHFGGSQRATVLAAAAGVACSLATGNANAGLSGWYLSMYLHKEAWGRLGFFFDLQDQGATNVLSYQGDEGLPDELRGPNYPNYAMNVGHQGGYAGIAQAAHSGRGDAFTVNPLLKVCFADDLLPFNFAEPRREFGRGAIREFVPAGERSLVIPA 1e6y-a1-m1-cB_1e6y-a1-m1-cE Methyl-coenzyme M reductase from Methanosarcina barkeri P07955 P07955 1.6 X-RAY DIFFRACTION 179 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 432 433 SDTVDIYDDRGKLLESNVDIMSLAPTRNAAIQSIIMDTKRSVAVNLAGIQGALASGKMGGKGRQILGRGLNYDIVGNADAIAENVKKLVQVDEGDDTNVIKVKGGKSLLIQSPKSRIIAGADFMSATTVGAAAVTQTIMDMFGTDPYDAPIVKSAVWGSYPQTMDLMGGQVQGILSIPQNNEGLGFSLRNIMANHVAAISNRNAMNASALSSIYEQSGIFEMGGAVGMFERHQLLGLAYQGLNANNLLYDIVKENGKDGTIGTVIESVVRRAIEAGIISVDKTAPSGYNFYKANDVPKWNACAAVGTLAATLVNCGAGRAAQNVSSTLLYFNDILEKETGLPGCDYGKVEGTAVGFSFFSHSIYGGGGPGVFNGNHVVTRHSRGFAIPCVCAAVALDAGTQMFSIESTSGLIGDVFGAIPEFREPIKAVAGV SDTVDIYDDRGKLLESNVDIMSLAPTRNAAIQSIIMDTKRSVAVNLAGIQGALASGKMGGKGRQILGRGLNYDIVGNADAIAENVKKLVQVDEGDDTNVIKVKGGKSLLIQSPKSRIIAGADFMSATTVGAAAVTQTIMDMFGTDPYDAPIVKSAVWGSYPQTMDLMGGQVQGILSIPQNNEGLGFSLRNIMANHVAAISNRNAMNASALSSIYEQSGIFEMGGAVGMFERHQLLGLAYQGLNANNLLYDIVKENGKDGTIGTVIESVVRRAIEAGIISVDKTAPSGYNFYKANDVPKWNACAAVGTLAATLVNCGAGRAAQNVSSTLLYFNDILEKETGLPGCDYGKVEGTAVGFSFFSHSIYGGGGPGVFNGNHVVTRHSRGFAIPCVCAAVALDAGTQMFSIESTSGLIGDVFGAIPEFREPIKAVAGVL 1e7s-a1-m1-cA_1e7s-a1-m2-cA GDP 4-keto-6-deoxy-D-mannose epimerase reductase K140R P32055 P32055 1.5 X-RAY DIFFRACTION 94 1.0 562 (Escherichia coli) 562 (Escherichia coli) 314 314 1bsv-a1-m1-cA_1bsv-a1-m2-cA 1bws-a2-m1-cA_1bws-a2-m3-cA 1e6u-a1-m1-cA_1e6u-a1-m2-cA 1e7q-a1-m1-cA_1e7q-a1-m2-cA 1e7r-a1-m1-cA_1e7r-a1-m2-cA 1fxs-a2-m1-cA_1fxs-a2-m3-cA 1gfs-a1-m1-cA_1gfs-a1-m2-cA KQRVFIAGHRGMVGSAIRRQLEQRGDVELVLRTRDELNLLDSRAVHDFFASERIDQVYLAAAKVGGIVANNTYPADFIYQNMMIESNIIHAAHQNDVNKLLFLGSSCIYPKLAKQPMAESELLQGTLEPTNEPYAIARIAGIKLCESYNRQYGRDYRSVMPTNLYGPHDNFHPSNSHVIPALLRRFHEATAQSAPDVVVWGSGTPMREFLHVDDMAAASIHVMELAHEVWLENTQPMLSHINVGTGVDCTIRELAQTIAKVVGYKGRVVFDASKPDGTPRKLLDVTRLHQLGWYHEISLEAGLASTYQWFLENQ KQRVFIAGHRGMVGSAIRRQLEQRGDVELVLRTRDELNLLDSRAVHDFFASERIDQVYLAAAKVGGIVANNTYPADFIYQNMMIESNIIHAAHQNDVNKLLFLGSSCIYPKLAKQPMAESELLQGTLEPTNEPYAIARIAGIKLCESYNRQYGRDYRSVMPTNLYGPHDNFHPSNSHVIPALLRRFHEATAQSAPDVVVWGSGTPMREFLHVDDMAAASIHVMELAHEVWLENTQPMLSHINVGTGVDCTIRELAQTIAKVVGYKGRVVFDASKPDGTPRKLLDVTRLHQLGWYHEISLEAGLASTYQWFLENQ 1e8u-a1-m1-cA_1e8u-a1-m1-cB Structure of the multifunctional paramyxovirus hemagglutinin-neuraminidase Q9Q2W5 Q9Q2W5 2 X-RAY DIFFRACTION 53 1.0 446 449 1e8t-a1-m1-cA_1e8t-a1-m1-cB GAPIHDPDFIGGIGKELIVDNASDVTSFYPSAFQEHLNFIPAPTTGSGCTRIPSFDMSATHYCYTHNVILSGCRDHSHSHQYLALGVLRTTATGRIFFSTLRSISLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYNSAVPTLMAHGRLGFDGQYHEKDLDVTTLFEDWVANYPGVGGGSFIDGRVWFSVYGGLKPNSPSDTVQEGKYVIYKRYNDTCPDEQDYQIRMAKSSYKPGRFGGKRIQQAILSIKVSTSLGEDPVLTVPPNTVTLMGAEGRILTVGTSHFLYQRGSSYFSPALLYPMTVSNKTATLHSPYTFNAFTRPGSIPCQASARCPNSCVTGVYTDPYPLIFYRNHTLRGVFGTMLDSEQARLNPASAVFDSTSRSRITRVSSSSTKAAYTTSTCFKVVKTNKTYCLSIAEISNTLFGEFRIVPLLVEILKND GAPIHDPDFIGGIGKELIVDNASDVTSFYPSAFQEHLNFIPAPTTGSGCTRIPSFDMSATHYCYTHNVILSGCRDHSHSHQYLALGVLRTTATGRIFFSTLRSISLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYNSAVPTLMAHGRLGFDGQYHEKDLDVTTLFEDWVANYPGVGGGSFIDGRVWFSVYGGLKPNSPSDTVQEGKYVIYKRYNDTCPDEQDYQIRMAKSSYKPGRFGGKRIQQAILSIKVSTSLGEDPVLTVPPNTVTLMGAEGRILTVGTSHFLYQRGSSYFSPALLYPMTVSNKTATLHSPYTFNAFTRPGSIPCQASARCPNSCVTGVYTDPYPLIFYRNHTLRGVFGTMLDSEQARLNPASAVFDSTSRSRITRVSSSSTKAAYTTSTCFKVVKTNKTYCLSIAEISNTLFGEFRIVPLLVEILKNDGVR 1ea9-a2-m1-cD_1ea9-a2-m2-cD Cyclomaltodextrinase Q59226 Q59226 3.2 X-RAY DIFFRACTION 152 1.0 1409 (Bacillus sp. (in: firmicutes)) 1409 (Bacillus sp. (in: firmicutes)) 583 583 1ea9-a1-m1-cC_1ea9-a1-m2-cC MFLEAVYHRPRKNFSYAYNGTTVHLRIRTKKDDMTAVYALAGDKYMWDHTMEYVPMTKLATDELFDYWECEVTPPYRRVKYGFLLQQGHEKRWMTEYDFLTEPPANPDRLFEYPFINPVDVFQPPAWVKDAIFYQIFPERFANGDTRNDPEGTLPWGSADPTPSCFFGGDLQGVIDHLDHLSKLGVNAVYFTPLFKATTNHKYDTEDYFQIDPQFGDKDTLKKLVDLCHERGIRVLLDAVFNHSGRTFPPFVDVLKNGEKSKYKDWFHIRSLPLEVVDGIPTYDTFAFEPLMPKLNTEHPDVKEYLLKAAEYWIRETGIDGWRLDVANEVSHQFWREFRRVVKQANPDAYILGEVWHESSIWLEGDQFDAVMNYPFTNAVLDFFIHQIADAEKFSFMLGKQLAGYPRQASEVMFNLLDSHDTARLLTQADGDKRKMKLAVLFQFTYFGTPCIYYGDEVGLDGGHDPGCRKCMEWDETKHDKDLFAFYQTVIRLRQAHAALRTGTFKFLTAEKNSRQIAYLREDDQDTILVVMNNDKAGHTLTLPVRHAQWTHLWQDDVLTAAHGQLTVKLPAYGFAVLKASSD MFLEAVYHRPRKNFSYAYNGTTVHLRIRTKKDDMTAVYALAGDKYMWDHTMEYVPMTKLATDELFDYWECEVTPPYRRVKYGFLLQQGHEKRWMTEYDFLTEPPANPDRLFEYPFINPVDVFQPPAWVKDAIFYQIFPERFANGDTRNDPEGTLPWGSADPTPSCFFGGDLQGVIDHLDHLSKLGVNAVYFTPLFKATTNHKYDTEDYFQIDPQFGDKDTLKKLVDLCHERGIRVLLDAVFNHSGRTFPPFVDVLKNGEKSKYKDWFHIRSLPLEVVDGIPTYDTFAFEPLMPKLNTEHPDVKEYLLKAAEYWIRETGIDGWRLDVANEVSHQFWREFRRVVKQANPDAYILGEVWHESSIWLEGDQFDAVMNYPFTNAVLDFFIHQIADAEKFSFMLGKQLAGYPRQASEVMFNLLDSHDTARLLTQADGDKRKMKLAVLFQFTYFGTPCIYYGDEVGLDGGHDPGCRKCMEWDETKHDKDLFAFYQTVIRLRQAHAALRTGTFKFLTAEKNSRQIAYLREDDQDTILVVMNNDKAGHTLTLPVRHAQWTHLWQDDVLTAAHGQLTVKLPAYGFAVLKASSD 1eag-a1-m1-cA_1eag-a1-m2-cA Secreted aspartic proteinase (SAP2) from Candida albicans complexed with A70450 P0CS83 P0CS83 2.1 X-RAY DIFFRACTION 80 1.0 5476 (Candida albicans) 5476 (Candida albicans) 339 339 QAVPVTLHNEQVTYAADITVGSNNQKLNVIVDTGSSDLWVPDVNVDCQVTYSDQTADFCKQKGTYDPSGSSASQDLNTPFKIGYGDGSSSQGTLYKDTVGFGGVSIKNQVLADVDSTSIDQGILGVGYKTNEAGGSYDNVPVTLKKQGVIAKNAYSLYLNSPDAATGQIIFGGVDNAKYSGSLIALPVTSDRELRISLGSVEVSGKTINTDNVDVLLDSGTTITYLQQDLADQIIKAFNGKLTQDSNGNSFYEVDCNLSGDVVFNFSKNAKISVPASEFAASLDGQPYDKCQLLFDVNDANILGDNFLRSAYIVYDLDDNEISLAQVKYTSASSISALT QAVPVTLHNEQVTYAADITVGSNNQKLNVIVDTGSSDLWVPDVNVDCQVTYSDQTADFCKQKGTYDPSGSSASQDLNTPFKIGYGDGSSSQGTLYKDTVGFGGVSIKNQVLADVDSTSIDQGILGVGYKTNEAGGSYDNVPVTLKKQGVIAKNAYSLYLNSPDAATGQIIFGGVDNAKYSGSLIALPVTSDRELRISLGSVEVSGKTINTDNVDVLLDSGTTITYLQQDLADQIIKAFNGKLTQDSNGNSFYEVDCNLSGDVVFNFSKNAKISVPASEFAASLDGQPYDKCQLLFDVNDANILGDNFLRSAYIVYDLDDNEISLAQVKYTSASSISALT 1eaj-a1-m1-cB_1eaj-a1-m1-cA DIMERIC STRUCTURE OF THE COXSACKIE VIRUS AND ADENOVIRUS RECEPTOR D1 DOMAIN AT 1.35 ANGSTROM RESOLUTION P78310 P78310 1.35 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 124 1f5w-a1-m1-cB_1f5w-a1-m1-cA 3jz7-a1-m1-cA_3jz7-a1-m2-cA LSITTPEEMIEKAKGETAYLPCKFTLSPEDQGPLDIEWLISPADNQKVDQVIILYSGDKIYDDYYPDLKGRVHFTSNDLKSGDASINVTNLQLSDIGTYQCKVKKAPGVANKKIHLVVLV FARSLSITTPEEMIEKAKGETAYLPCKFTLSPEDQGPLDIEWLISPADNQKVDQVIILYSGDKIYDDYYPDLKGRVHFTSNDLKSGDASINVTNLQLSDIGTYQCKVKKAPGVANKKIHLVVLV 1eak-a2-m1-cB_1eak-a2-m1-cD Catalytic domain of proMMP-2 E404Q mutant P08253 P08253 2.66 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 419 419 1eak-a1-m1-cC_1eak-a1-m1-cA SPIIKFPGDVAPKTDKELAVQYLNTFYGCPKESCNLFVLKDTLKKMQKFFGLPQTGDLDQNTIETMRKPRCGNPDVANYNFFPRKPKWDKNQITYRIIGYTPDLDPETVDDAFARAFQVWSDVTPLRFSRIHDGEADIMINFGRWEHGDGYPFDGKDGLLAHAFAPGTGVGGDSHFDDDELWTLGEGQVVRVKYGNADGEYCKFPFLFNGKEYNSCTDTGRSDGFLWCSTTYNFEKDGKYGFCPHEALFTMGGNAEGQPCKFPFRFQGTSYDSCTTEGRTDGYRWCGTTEDYDRDKKYGFCPETAMSTVGGNSEGAPCVFPFTFLGNKYESCTSAGRSDGKMWCATTANYDDDRKWGFCPDQGYSLFLVAAHQFGHAMGLEHSQDPGALMAPIYTYTKNFRLSQDDIKGIQELYGASPD SPIIKFPGDVAPKTDKELAVQYLNTFYGCPKESCNLFVLKDTLKKMQKFFGLPQTGDLDQNTIETMRKPRCGNPDVANYNFFPRKPKWDKNQITYRIIGYTPDLDPETVDDAFARAFQVWSDVTPLRFSRIHDGEADIMINFGRWEHGDGYPFDGKDGLLAHAFAPGTGVGGDSHFDDDELWTLGEGQVVRVKYGNADGEYCKFPFLFNGKEYNSCTDTGRSDGFLWCSTTYNFEKDGKYGFCPHEALFTMGGNAEGQPCKFPFRFQGTSYDSCTTEGRTDGYRWCGTTEDYDRDKKYGFCPETAMSTVGGNSEGAPCVFPFTFLGNKYESCTSAGRSDGKMWCATTANYDDDRKWGFCPDQGYSLFLVAAHQFGHAMGLEHSQDPGALMAPIYTYTKNFRLSQDDIKGIQELYGASPD 1ear-a1-m1-cA_1ear-a1-m2-cA Crystal structure of Bacillus pasteurii UreE at 1.7 A. Type II crystal form. P50049 P50049 1.7 X-RAY DIFFRACTION 61 1.0 1474 (Sporosarcina pasteurii) 1474 (Sporosarcina pasteurii) 142 142 1eb0-a1-m1-cA_1eb0-a1-m2-cA 4l3k-a1-m1-cA_4l3k-a1-m1-cB MVITKIVGHIDDLSHQIKKVDWLEVEWEDLNKRILRKETENGTDIAIKLENSGTLRYGDVLYESDDTLIAIRTKLEKVYVIKPQTMQEMGKMAFEIGNRHTMCIIEDDEILVRYDKTLEKLIDEVGVSYEQSERRFKEPFKY MVITKIVGHIDDLSHQIKKVDWLEVEWEDLNKRILRKETENGTDIAIKLENSGTLRYGDVLYESDDTLIAIRTKLEKVYVIKPQTMQEMGKMAFEIGNRHTMCIIEDDEILVRYDKTLEKLIDEVGVSYEQSERRFKEPFKY 1eba-a3-m1-cC_1eba-a3-m1-cD COMPLEX BETWEEN THE EXTRACELLULAR DOMAIN OF ERYTHROPOIETIN (EPO) RECEPTOR [EBP] AND AN INACTIVE PEPTIDE [EMP33] CONTAINS 3,5-DIBROMOTYROSINE IN POSITION 4 (DENOTED DBY) 2.7 X-RAY DIFFRACTION 18 1.0 15 15 1eba-a1-m1-cC_1eba-a1-m1-cD 1eba-a2-m1-cC_1eba-a2-m1-cD 1ebp-a1-m1-cC_1ebp-a1-m1-cD TSCHFGPLTWVCKPQ TSCHFGPLTWVCKPQ 1eba-a3-m3-cB_1eba-a3-m1-cA COMPLEX BETWEEN THE EXTRACELLULAR DOMAIN OF ERYTHROPOIETIN (EPO) RECEPTOR [EBP] AND AN INACTIVE PEPTIDE [EMP33] CONTAINS 3,5-DIBROMOTYROSINE IN POSITION 4 (DENOTED DBY) P19235 P19235 2.7 X-RAY DIFFRACTION 124 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 207 212 1eba-a2-m1-cB_1eba-a2-m2-cA KFESKAALLAARGPEELLCFTERLEDLVCFWEEAASAGVGPGNYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLASGHVVLRWLPPPETPMTSHIRYEVDVSAGNGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLT KFESKAALLAARGPEELLCFTERLEDLVCFWEEAASAGVGPGNYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPSDL 1ebd-a1-m1-cA_1ebd-a1-m1-cB DIHYDROLIPOAMIDE DEHYDROGENASE COMPLEXED WITH THE BINDING DOMAIN OF THE DIHYDROLIPOAMIDE ACETYLASE P11959 P11959 2.6 X-RAY DIFFRACTION 245 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 455 455 AIETETLVVGAGPGGYVAAIRAAQLGQKVTIVEKGNLGGVCLNVGCIPSKALISASHRYEQAKHSEEMGIKAENVTIDFAKVQEWKASVVKKLTGGVEGLLKGNKVEIVKGEAYFVDANTVRVVNGDSAQTYTFKNAIIATGSRPIELPNFKFSNRILDSTGALNLGEVPKSLVVIGGGYIGIELGTAYANFGTKVTILEGAGEILSGFEKQMAAIIKKRLKKKGVEVVTNALAKGAEEREDGVTVTYEANGETKTIDADYVLVTVGRRPNTDELGLEQIGIKMTNRGLIEVDQQCRTSVPNIFAIGDIVPGPALAHKASYEGKVAAEAIAGHPSAVDYVAIPAVVFSDPECASVGYFEQQAKDEGIDVIAAKFPFAANGRALALNDTDGFLKLVVRKEDGVIIGAQIIGPNASDMIAELGLAIEAGMTAEDIALTIHAHPTLGEIAMEAAEVAL AIETETLVVGAGPGGYVAAIRAAQLGQKVTIVEKGNLGGVCLNVGCIPSKALISASHRYEQAKHSEEMGIKAENVTIDFAKVQEWKASVVKKLTGGVEGLLKGNKVEIVKGEAYFVDANTVRVVNGDSAQTYTFKNAIIATGSRPIELPNFKFSNRILDSTGALNLGEVPKSLVVIGGGYIGIELGTAYANFGTKVTILEGAGEILSGFEKQMAAIIKKRLKKKGVEVVTNALAKGAEEREDGVTVTYEANGETKTIDADYVLVTVGRRPNTDELGLEQIGIKMTNRGLIEVDQQCRTSVPNIFAIGDIVPGPALAHKASYEGKVAAEAIAGHPSAVDYVAIPAVVFSDPECASVGYFEQQAKDEGIDVIAAKFPFAANGRALALNDTDGFLKLVVRKEDGVIIGAQIIGPNASDMIAELGLAIEAGMTAEDIALTIHAHPTLGEIAMEAAEVAL 1ebu-a2-m1-cC_1ebu-a2-m1-cD HOMOSERINE DEHYDROGENASE COMPLEX WITH NAD ANALOGUE AND L-HOMOSERINE P31116 P31116 2.6 X-RAY DIFFRACTION 121 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 358 358 1ebf-a1-m1-cA_1ebf-a1-m1-cB 1ebu-a1-m1-cA_1ebu-a1-m1-cB 1q7g-a1-m1-cA_1q7g-a1-m1-cB 1tve-a1-m1-cA_1tve-a1-m1-cB STKVVNVAVIGAGVVGSAFLDQLLAMKSTITYNLVLLAEAERSLISKDFSPLNVGSDWKAALAASTTKTLPLDDLIAHLKTSPKPVILVDNTSSAYIAGFYTKFVENGISIATPNKKAFSSDLATWKALFSNKPTNGFVYHEATVGAGLPIISFLREIIQTGDEVEKIEGIFSGTLSYIFNEFSTSQANDVKFSDVVKVAKKLGYTEPDPRDDLNGLDVARKVTIVGRISGVEVESPTSFPVQSLIPKPLESVKSADEFLEKLSDYDKDLTQLKKEAATENKVLRFIGKVDVATKSVSVGIEKYDYSHPFASLKGSDNVISIKTKRYTNPVVIQGAGAGAAVTAAGVLGDVIKIAQRL STKVVNVAVIGAGVVGSAFLDQLLAMKSTITYNLVLLAEAERSLISKDFSPLNVGSDWKAALAASTTKTLPLDDLIAHLKTSPKPVILVDNTSSAYIAGFYTKFVENGISIATPNKKAFSSDLATWKALFSNKPTNGFVYHEATVGAGLPIISFLREIIQTGDEVEKIEGIFSGTLSYIFNEFSTSQANDVKFSDVVKVAKKLGYTEPDPRDDLNGLDVARKVTIVGRISGVEVESPTSFPVQSLIPKPLESVKSADEFLEKLSDYDKDLTQLKKEAATENKVLRFIGKVDVATKSVSVGIEKYDYSHPFASLKGSDNVISIKTKRYTNPVVIQGAGAGAAVTAAGVLGDVIKIAQRL 1ecm-a1-m1-cB_1ecm-a1-m2-cB ATOMIC STRUCTURE OF THE BURIED CATALYTIC POCKET OF ESCHERICHIA COLI CHORISMATE MUTASE P0A9J8 P0A9J8 2.2 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 95 95 PLLALREKISALDEKLLALLAERRELAVEVGKAKLLSHRPVRDIDRERDLLERLITLGKAHHLDAHYITRLFQLIIEDSVLTQQALLQQHLNKIN PLLALREKISALDEKLLALLAERRELAVEVGKAKLLSHRPVRDIDRERDLLERLITLGKAHHLDAHYITRLFQLIIEDSVLTQQALLQQHLNKIN 1ecm-a2-m1-cA_1ecm-a2-m1-cB ATOMIC STRUCTURE OF THE BURIED CATALYTIC POCKET OF ESCHERICHIA COLI CHORISMATE MUTASE P0A9J8 P0A9J8 2.2 X-RAY DIFFRACTION 118 0.989 562 (Escherichia coli) 562 (Escherichia coli) 91 95 1ecm-a1-m1-cA_1ecm-a1-m1-cB 1ecm-a1-m2-cA_1ecm-a1-m2-cB 5vht-a1-m1-cA_5vht-a1-m1-cB NPLLALREKISALDEKLLALLAERRELAVEVGKAKLLSHRPVRDIDRERDLLERLITLGKAHHLDAHYITRLFQLIIEDSVLTQQALLQQH PLLALREKISALDEKLLALLAERRELAVEVGKAKLLSHRPVRDIDRERDLLERLITLGKAHHLDAHYITRLFQLIIEDSVLTQQALLQQHLNKIN 1ecx-a1-m1-cA_1ecx-a1-m1-cB NIFS-LIKE PROTEIN Q9X218 Q9X218 2.7 X-RAY DIFFRACTION 33 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 364 365 MRVYFDNNATTRVDDRVLEEMIVFYREKYGNPNSAHGMGIEANLHMEKAREKVAKVLGVSPSEIFFTSCATESINWILKTVAETFEKRKRTIITTPIEHKAVLETMKYLSMKGFKVKYVPVDSRGVVKLEELEKLVDEDTFLVSIMAANNEVGTIQPVEDVTRIVKKKNKETLVHVDAVQTIGKIPFSLEKLEVDYASFSAHKFHGPKGVGITYIRKGVPIRPLIHGGGQERGLRSGTQNVPGIVGAARAMEIAVEELSEAAKHMEKLRSKLVSGLMNLGAHIITPLEISLPNTLSVSFPNIRGSTLQNLLSGYGIYVSTHVLDAMGVDRRIAQGAIRISLCKYNTEEEVDYFLKKIEEILSFL MRVYFDNNATTRVDDRVLEEMIVFYREKYGNPNSAHGMGIEANLHMEKAREKVAKVLGVSPSEIFFTSCATESINWILKTVAETFEKRKRTIITTPIEHKAVLETMKYLSMKGFKVKYVPVDSRGVVKLEELEKLVDEDTFLVSIMAANNEVGTIQPVEDVTRIVKKKNKETLVHVDAVQTIGKIPFSLEKLEVDYASFSAHKFHGPKGVGITYIRKGVPIRPLIHGGGQERGLRSGTQNVPGIVGAARAMEIAVEELSEAAKHMEKLRSKLVSGLMNLGAHIITPLEISLPNTLSVSFPNIRGSTLQNLLSGYGIYVSTRHVLDAMGVDRRIAQGAIRISLCKYNTEEEVDYFLKKIEEILSFL 1ed1-a1-m2-cA_1ed1-a1-m3-cA CRYSTAL STRUCTURE OF SIMIAN IMMUNODEFICIENCY VIRUS MATRIX ANTIGEN (SIV MA) AT 100K. P05897 P05897 2.1 X-RAY DIFFRACTION 22 1.0 11711 (Simian immunodeficiency virus - mac) 11711 (Simian immunodeficiency virus - mac) 114 114 1ecw-a1-m1-cA_1ecw-a1-m2-cA 1ecw-a1-m1-cA_1ecw-a1-m3-cA 1ecw-a1-m2-cA_1ecw-a1-m3-cA 1ed1-a1-m1-cA_1ed1-a1-m2-cA 1ed1-a1-m1-cA_1ed1-a1-m3-cA SVLSGKKADELEKIRLRPGGKKKYMLKHVVWAANELDRFGLAESLLENKEGCQKILSVLAPLVPTGSENLKSLYNTVCVIWCIHAEEKVKHTEEAKQIVQRHLVVETGTAETMP SVLSGKKADELEKIRLRPGGKKKYMLKHVVWAANELDRFGLAESLLENKEGCQKILSVLAPLVPTGSENLKSLYNTVCVIWCIHAEEKVKHTEEAKQIVQRHLVVETGTAETMP 1edh-a1-m1-cA_1edh-a1-m1-cB E-CADHERIN DOMAINS 1 AND 2 IN COMPLEX WITH CALCIUM P09803 P09803 2 X-RAY DIFFRACTION 52 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 1ff5-a1-m1-cA_1ff5-a1-m1-cB 3lng-a1-m1-cA_3lng-a1-m1-cB 3lnh-a1-m1-cA_3lnh-a1-m1-cB 3lni-a1-m1-cB_3lni-a1-m1-cA VIPPISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD VIPPISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD 1edm-a1-m1-cB_1edm-a1-m1-cC EPIDERMAL GROWTH FACTOR-LIKE DOMAIN FROM HUMAN FACTOR IX P00740 P00740 1.5 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 39 39 VDGDQCESNPCLNGGSCKDDINSYECWCPFGFEGKNCEL VDGDQCESNPCLNGGSCKDDINSYECWCPFGFEGKNCEL 1edn-a1-m1-cA_1edn-a1-m2-cA HUMAN ENDOTHELIN-1 P05305 P05305 2.18 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 CSCSSLMDKECVYFCHLDIIW CSCSSLMDKECVYFCHLDIIW 1edo-a1-m2-cA_1edo-a1-m4-cA THE X-RAY STRUCTURE OF BETA-KETO ACYL CARRIER PROTEIN REDUCTASE FROM BRASSICA NAPUS COMPLEXED WITH NADP+ Q93X62 Q93X62 2.3 X-RAY DIFFRACTION 102 1.0 3708 (Brassica napus) 3708 (Brassica napus) 244 244 1edo-a1-m1-cA_1edo-a1-m3-cA SPVVVVTGASRGIGKAIALSLGKAGCKVLVNYARSAKAAEEVSKQIEAYGGQAITFGGDVSKEADVEAMMKTAIDAWGTIDVVVNNAGITRDTLLIRMKKSQWDEVIDLNLTGVFLCTQAATKIMMKKRKGRIINIASVVGLIGNIGQANYAAAKAGVIGFSKTAAREGASRNINVNVVCPGFIASDMTAKLGEDMEKKILGTIPLGRTGQPENVAGLVEFLALSPAASYITGQAFTIDGGIAI SPVVVVTGASRGIGKAIALSLGKAGCKVLVNYARSAKAAEEVSKQIEAYGGQAITFGGDVSKEADVEAMMKTAIDAWGTIDVVVNNAGITRDTLLIRMKKSQWDEVIDLNLTGVFLCTQAATKIMMKKRKGRIINIASVVGLIGNIGQANYAAAKAGVIGFSKTAAREGASRNINVNVVCPGFIASDMTAKLGEDMEKKILGTIPLGRTGQPENVAGLVEFLALSPAASYITGQAFTIDGGIAI 1edt-a1-m1-cA_1edt-a1-m2-cA CRYSTAL STRUCTURE OF ENDO-BETA-N-ACETYLGLUCOSAMINIDASE H AT 1.9 ANGSTROMS RESOLUTION: ACTIVE SITE GEOMETRY AND SUBSTRATE RECOGNITION P04067 P04067 1.9 X-RAY DIFFRACTION 64 1.0 1922 (Streptomyces plicatus) 1922 (Streptomyces plicatus) 265 265 KQGPTSVAYVEVNNNSMLNVGKYTLADGGGNAFDVAVIFAANINYDTGTKTAYLHFNENVQRVLDNAVTQIRPLQQQGIKVLLSVLGNHQGAGFANFPSQQAASAFAKQLSDAVAKYGLDGVDFDDEYAEYGNNGTAQPNDSSFVHLVTALRANMPDKIISLYNIGPAASRLSYGGVDVSDKFDYAWNPYYGTWQVPGIALPKAQLSPAAVEIGRTSRSTVADLARRTVDEGYGVYLTYNLDGGDRTADVSAFTRELYGSEAVRT KQGPTSVAYVEVNNNSMLNVGKYTLADGGGNAFDVAVIFAANINYDTGTKTAYLHFNENVQRVLDNAVTQIRPLQQQGIKVLLSVLGNHQGAGFANFPSQQAASAFAKQLSDAVAKYGLDGVDFDDEYAEYGNNGTAQPNDSSFVHLVTALRANMPDKIISLYNIGPAASRLSYGGVDVSDKFDYAWNPYYGTWQVPGIALPKAQLSPAAVEIGRTSRSTVADLARRTVDEGYGVYLTYNLDGGDRTADVSAFTRELYGSEAVRT 1edy-a1-m2-cB_1edy-a1-m2-cA CRYSTAL STRUCTURE OF RAT ALPHA 1-MACROGLOBULIN RECEPTOR BINDING DOMAIN Q63041 Q63041 2.3 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 130 134 1edy-a1-m1-cB_1edy-a1-m1-cA EAPFTLKVNTLPLNFDKAEHHRKFQIHINVSYIGERPNSNMVIVDVKMVSGFIPVKPSVKKLQDQSNIQRTEVNTNHVLIYIEKLTNQTMGFSFAVEQDIPVKNLKPAPVKVYDYYETDEFAIEEYSAPF EAPFTLKVNTLPLNFDKAEHHRKFQIHINVSYIGERPNSNMVIVDVKMVSGFIPVKPSVKKLQDQSNIQRTEVNTNHVLIYIEKLTNQTMGFSFAVEQDIPVKNLKPAPVKVYDYYETDEFAIEEYSAPFSSDS 1edz-a1-m1-cA_1edz-a1-m2-cA STRUCTURE OF THE NAD-DEPENDENT 5,10-METHYLENETETRAHYDROFOLATE DEHYDROGENASE FROM SACCHAROMYCES CEREVISIAE Q02046 Q02046 2.8 X-RAY DIFFRACTION 60 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 317 317 1ee9-a1-m1-cA_1ee9-a1-m2-cA KPGRTILASKVAETFNTEIINNVEEYKKTHNGQGPLLVGFLANNDPAAKMYATWTQKTSESMGFRYDLRVIEDKDFLEEAIIQANGDDSVNGIMVYFPVFGNAQDQYLQQVVCKEKDVEGLNHVYYQNLYHNVRYLDKENRLKSILPCTPLAIVKILEFLKIYNNLLPEGNRLYGKKCIVINRSEIVGRPLAALLANDGATVYSVDVNNIQKFTRGESLKLNKHHVEDLGEYSEDLLKKCSLDSDVVITGVPSENYKFPTEYIKEGAVCINFACTKNFSDDVKEKASLYVPMTGKVTIAMLLRNMLRLVRNVELSKE KPGRTILASKVAETFNTEIINNVEEYKKTHNGQGPLLVGFLANNDPAAKMYATWTQKTSESMGFRYDLRVIEDKDFLEEAIIQANGDDSVNGIMVYFPVFGNAQDQYLQQVVCKEKDVEGLNHVYYQNLYHNVRYLDKENRLKSILPCTPLAIVKILEFLKIYNNLLPEGNRLYGKKCIVINRSEIVGRPLAALLANDGATVYSVDVNNIQKFTRGESLKLNKHHVEDLGEYSEDLLKKCSLDSDVVITGVPSENYKFPTEYIKEGAVCINFACTKNFSDDVKEKASLYVPMTGKVTIAMLLRNMLRLVRNVELSKE 1ee0-a1-m1-cB_1ee0-a1-m1-cA 2-PYRONE SYNTHASE COMPLEXED WITH ACETOACETYL-COA P48391 P48391 2.05 X-RAY DIFFRACTION 130 1.0 18101 (Gerbera hybrid cultivar) 18101 (Gerbera hybrid cultivar) 374 375 1qlv-a1-m1-cB_1qlv-a1-m1-cA GLATILAIGTATPPNCVAQADYADYYFRVTKSEHMVDLKEKFKRICEKTAIKKRYLALTEDYLQENPTMCEFMAPSLNARQDLVVTGVPMLGKEAAVKAIDEWGLPKSKITHLIFCTTAGVDMPGADYQLVKLLGLSPSVKRYMLYQQGAAGGTVLRLAKDLAENNKGSRVLIVCSEITAILFHGPNENHLDSLVAQALFGDGAAALIVGSGPHLAVERPIFEIVSTDQTILPDTEKAMKLHLREGGLTFQLHRDVPLMVAKNIENAAEKALSPLGITDWNSVFWMVHPGGRAILDQVERKLNLKEDKLRASRHVLSEYGNLISACVLFIIDEVRKRSMAEGKSTTGEGLDCGVLFGFGPGMTVETVVLRSVRV GLATILAIGTATPPNCVAQADYADYYFRVTKSEHMVDLKEKFKRICEKTAIKKRYLALTEDYLQENPTMCEFMAPSLNARQDLVVTGVPMLGKEAAVKAIDEWGLPKSKITHLIFCTTAGVDMPGADYQLVKLLGLSPSVKRYMLYQQGAAGGTVLRLAKDLAENNKGSRVLIVCSEITAILFHGPNENHLDSLVAQALFGDGAAALIVGSGPHLAVERPIFEIVSTDQTILPDTEKAMKLHLREGGLTFQLHRDVPLMVAKNIENAAEKALSPLGITDWNSVFWMVHPGGRAILDQVERKLNLKEDKLRASRHVLSEYGNLISACVLFIIDEVRKRSMAEGKSTTGEGLDCGVLFGFGPGMTVETVVLRSVRVT 1ee8-a1-m1-cA_1ee8-a1-m1-cB CRYSTAL STRUCTURE OF MUTM (FPG) PROTEIN FROM THERMUS THERMOPHILUS HB8 O50606 O50606 1.9 X-RAY DIFFRACTION 26 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 266 266 PELPEVETTRRRLRPLVLGQTLRQVVHRDPARYRNTALAEGRRILEVDRRGKFLLFALEGGVELVAHLGMTGGFRLEPTPHTRAALVLEGRTLYFHDPRRFGRLFGVRRGDYREIPLLLRLGPEPLSEAFAFPGFFRGLKESARPLKALLLDQRLAAGVGNIYADEALFRARLSPFRPARSLTEEEARRLYRALREVLAEAVELGGSTLSDQSYRQPDGLPGGFQTRHAVYGREGLPCPACGRPVERRVVAGRGTHFCPTCQGEGP PELPEVETTRRRLRPLVLGQTLRQVVHRDPARYRNTALAEGRRILEVDRRGKFLLFALEGGVELVAHLGMTGGFRLEPTPHTRAALVLEGRTLYFHDPRRFGRLFGVRRGDYREIPLLLRLGPEPLSEAFAFPGFFRGLKESARPLKALLLDQRLAAGVGNIYADEALFRARLSPFRPARSLTEEEARRLYRALREVLAEAVELGGSTLSDQSYRQPDGLPGGFQTRHAVYGREGLPCPACGRPVERRVVAGRGTHFCPTCQGEGP 1eeu-a1-m1-cB_1eeu-a1-m1-cA M4L/Y(27D)D/Q89D/T94H mutant of LEN P06312 P06312 1.6 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 112 1eeq-a1-m1-cB_1eeq-a1-m1-cA 1lve-a1-m2-cA_1lve-a1-m1-cA DIVLTQSPDSLAVSLGERATINCKSSQSVLDSSNSKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCDQYYSHPYSFGQGTKLEIK DIVLTQSPDSLAVSLGERATINCKSSQSVLDSSNSKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCDQYYSHPYSFGQGTKLEI 1ef1-a3-m1-cA_1ef1-a3-m3-cA CRYSTAL STRUCTURE OF THE MOESIN FERM DOMAIN/TAIL DOMAIN COMPLEX P26038 P26038 1.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 289 1ef1-a2-m1-cB_1ef1-a2-m2-cB TISVRVTTDAELEFAIQPNTTGKQLFDQVVKTIGLREVWFFGLQYQDTKGFSTWLKLNKKVTAQDVRKESPLLFKFRAKFYPEDVSEELIQDITQRLFFLQVKEGILNDDIYCPPETAVLLASYAVQSKYGDFNKEVHKSGYLAGDKLLPQRVLEQHKLNKDQWEERIQVWHEEHRGLREDAVLEYLKIAQDLEYGVNYFSIKNKKGSELWLGVDALGLNIYEQNDRLTPKIGFPWSEIRNISFNDKKFVIKPIDKKAPDFVFYAPRLRINKRILALCGNHELYRRRKP TISVRVTTDAELEFAIQPNTTGKQLFDQVVKTIGLREVWFFGLQYQDTKGFSTWLKLNKKVTAQDVRKESPLLFKFRAKFYPEDVSEELIQDITQRLFFLQVKEGILNDDIYCPPETAVLLASYAVQSKYGDFNKEVHKSGYLAGDKLLPQRVLEQHKLNKDQWEERIQVWHEEHRGLREDAVLEYLKIAQDLEYGVNYFSIKNKKGSELWLGVDALGLNIYEQNDRLTPKIGFPWSEIRNISFNDKKFVIKPIDKKAPDFVFYAPRLRINKRILALCGNHELYRRRKP 1ef3-a1-m1-cA_1ef3-a1-m1-cB FIDARESTAT BOUND TO HUMAN ALDOSE REDUCTASE P15121 P15121 2.8 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 315 ASRLLLNNGAKMPILGLGTWKSPPGQVTEAVKVAIDVGYRHIDCAHVYQNENEVGVAIQEKLREQVVKREELFIVSKLWCTYHEKGLVKGACQKTLSDLKLDYLDLYLIHWPTGFKPGKEFFPLDESGNVVPSDTNILDTWAAMEELVDEGLVKAIGISNFNHLQVEMILNKPGLKYKPAVNQIECHPYLTQEKLIQYCQSKGIVVTAYSPLGSPDRPWAKPEDPSLLEDPRIKAIAAKHNKTTAQVLIRFPMQRNLVVIPKSVTPERIAENFKVFDFELSSQDMTTLLSYNRNWRVCALLSCTSHKDYPFHEEF ASRLLLNNGAKMPILGLGTWKSPPGQVTEAVKVAIDVGYRHIDCAHVYQNENEVGVAIQEKLREQVVKREELFIVSKLWCTYHEKGLVKGACQKTLSDLKLDYLDLYLIHWPTGFKPGKEFFPLDESGNVVPSDTNILDTWAAMEELVDEGLVKAIGISNFNHLQVEMILNKPGLKYKPAVNQIECHPYLTQEKLIQYCQSKGIVVTAYSPLGSPDRPWAKPEDPSLLEDPRIKAIAAKHNKTTAQVLIRFPMQRNLVVIPKSVTPERIAENFKVFDFELSSQDMTTLLSYNRNWRVCALLSCTSHKDYPFHEEF 1efh-a1-m1-cA_1efh-a1-m1-cB CRYSTAL STRUCTURE OF THE HUMAN HYDROXYSTEROID SULFOTRANSFERASE IN THE PRESENCE OF PAP Q06520 Q06520 2.4 X-RAY DIFFRACTION 41 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 281 282 DFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYSLLSVDYVVDQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRKLAAALE DFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYSLLSVDYVKAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRKLAAALEH 1efn-a1-m1-cB_1efn-a1-m1-cD HIV-1 NEF PROTEIN IN COMPLEX WITH R96I MUTANT FYN SH3 DOMAIN P03406 P03406 2.5 X-RAY DIFFRACTION 15 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 104 104 1avz-a1-m1-cA_1avz-a1-m1-cB RPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQRRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPVREVLEWRFDSRLAFHHVARELHPEYF RPQVPLRPMTYKAAVDLSHFLKEKGGLEGLIHSQRRQDILDLWIYHTQGYFPDWQNYTPGPGVRYPLTFGWCYKLVPVREVLEWRFDSRLAFHHVARELHPEYF 1efu-a1-m1-cA_1efu-a1-m1-cC ELONGATION FACTOR COMPLEX EF-TU/EF-TS FROM ESCHERICHIA COLI P0CE48 P0CE48 2.5 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 363 363 KPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS KPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS 1efu-a1-m1-cB_1efu-a1-m1-cD ELONGATION FACTOR COMPLEX EF-TU/EF-TS FROM ESCHERICHIA COLI P0A6P1 P0A6P1 2.5 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 282 282 AEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIDGNYGIILEVNCQTDFVAKDAGFQAFADKVLDAAVAGKITDVEVLKAQFEEERVALVAKIGENINIRRVAALEGDVLGSYQHGARIGVLVAAKGADEELVKHIAMHVAASKPEFIKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKTVGQLLKEHNAEVTGFIRFEVGEGIEKVETDFAAEVAAMSKQS AEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIDGNYGIILEVNCQTDFVAKDAGFQAFADKVLDAAVAGKITDVEVLKAQFEEERVALVAKIGENINIRRVAALEGDVLGSYQHGARIGVLVAAKGADEELVKHIAMHVAASKPEFIKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKTVGQLLKEHNAEVTGFIRFEVGEGIEKVETDFAAEVAAMSKQS 1efx-a1-m1-cD_1efx-a1-m1-cE STRUCTURE OF A COMPLEX BETWEEN THE HUMAN NATURAL KILLER CELL RECEPTOR KIR2DL2 AND A CLASS I MHC LIGAND HLA-CW3 P43627 P43627 3 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 VHRKPSLLAHPGRLVKSEETVILQCWSDVRFEHFLLHREGKFKDTLHLIGEHHDGVSKANFSIGPMMQDLAGTYRCYGSVTHSPYQLSAPSDPLDIVITGLYEKPSLSAQPGPTVLAGESVTLSCSSRSSYDMYHLSREGEAHECRFSAGPKVNGTFQADFPLGPATHGGTYRCFGSFRDSPYEWSNSSDPLLVSVI VHRKPSLLAHPGRLVKSEETVILQCWSDVRFEHFLLHREGKFKDTLHLIGEHHDGVSKANFSIGPMMQDLAGTYRCYGSVTHSPYQLSAPSDPLDIVITGLYEKPSLSAQPGPTVLAGESVTLSCSSRSSYDMYHLSREGEAHECRFSAGPKVNGTFQADFPLGPATHGGTYRCFGSFRDSPYEWSNSSDPLLVSVI 1eg1-a1-m1-cA_1eg1-a1-m2-cA ENDOGLUCANASE I FROM TRICHODERMA REESEI P07981 P07981 3.6 X-RAY DIFFRACTION 58 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 370 370 QPGTSTPEVHPKLTTYKCTKSGGCVAQDTSVVLDWNYRWMHDANYNSCTVNGGVNTTLCPDEATCGKNCFIEGVDYAASGVTTSGSSLTMNQYMPSSSGGYSSVSPRLYLLDSDGEYVMLKLNGQELSFDVDLSALPCGENGSLYLSQMDENGGANQYNTAGANYGSGYCDAQCPVQTWRNGTLNTSHQGFCCNEMDILEGNSRANALTPHSCTATACDSAGCGFNPYGSGYKSYYGPGDTVDTSKTFTIITQFNTDNGSPSGNLVSITRKYQQNGVDIPSAQPGGDTISSCPSASAYGGLATMGKALSSGMVLVFSIWNDNSQYMNWLDSGNAGPCSSTEGNPSNILANNPNTHVVFSNIRWGDIGSTT QPGTSTPEVHPKLTTYKCTKSGGCVAQDTSVVLDWNYRWMHDANYNSCTVNGGVNTTLCPDEATCGKNCFIEGVDYAASGVTTSGSSLTMNQYMPSSSGGYSSVSPRLYLLDSDGEYVMLKLNGQELSFDVDLSALPCGENGSLYLSQMDENGGANQYNTAGANYGSGYCDAQCPVQTWRNGTLNTSHQGFCCNEMDILEGNSRANALTPHSCTATACDSAGCGFNPYGSGYKSYYGPGDTVDTSKTFTIITQFNTDNGSPSGNLVSITRKYQQNGVDIPSAQPGGDTISSCPSASAYGGLATMGKALSSGMVLVFSIWNDNSQYMNWLDSGNAGPCSSTEGNPSNILANNPNTHVVFSNIRWGDIGSTT 1eg1-a1-m2-cA_1eg1-a1-m2-cC ENDOGLUCANASE I FROM TRICHODERMA REESEI P07981 P07981 3.6 X-RAY DIFFRACTION 77 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 370 370 1eg1-a1-m1-cA_1eg1-a1-m1-cC QPGTSTPEVHPKLTTYKCTKSGGCVAQDTSVVLDWNYRWMHDANYNSCTVNGGVNTTLCPDEATCGKNCFIEGVDYAASGVTTSGSSLTMNQYMPSSSGGYSSVSPRLYLLDSDGEYVMLKLNGQELSFDVDLSALPCGENGSLYLSQMDENGGANQYNTAGANYGSGYCDAQCPVQTWRNGTLNTSHQGFCCNEMDILEGNSRANALTPHSCTATACDSAGCGFNPYGSGYKSYYGPGDTVDTSKTFTIITQFNTDNGSPSGNLVSITRKYQQNGVDIPSAQPGGDTISSCPSASAYGGLATMGKALSSGMVLVFSIWNDNSQYMNWLDSGNAGPCSSTEGNPSNILANNPNTHVVFSNIRWGDIGSTT QPGTSTPEVHPKLTTYKCTKSGGCVAQDTSVVLDWNYRWMHDANYNSCTVNGGVNTTLCPDEATCGKNCFIEGVDYAASGVTTSGSSLTMNQYMPSSSGGYSSVSPRLYLLDSDGEYVMLKLNGQELSFDVDLSALPCGENGSLYLSQMDENGGANQYNTAGANYGSGYCDAQCPVQTWRNGTLNTSHQGFCCNEMDILEGNSRANALTPHSCTATACDSAGCGFNPYGSGYKSYYGPGDTVDTSKTFTIITQFNTDNGSPSGNLVSITRKYQQNGVDIPSAQPGGDTISSCPSASAYGGLATMGKALSSGMVLVFSIWNDNSQYMNWLDSGNAGPCSSTEGNPSNILANNPNTHVVFSNIRWGDIGSTT 1eg2-a2-m1-cA_1eg2-a2-m2-cA CRYSTAL STRUCTURE OF RHODOBACTER SPHEROIDES (N6 ADENOSINE) METHYLTRANSFERASE (M.RSRI) P14751 P14751 1.75 X-RAY DIFFRACTION 88 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 270 270 1nw5-a2-m1-cA_1nw5-a2-m2-cA 1nw6-a2-m1-cA_1nw6-a2-m2-cA 1nw7-a2-m1-cA_1nw7-a2-m2-cA 1nw8-a2-m1-cA_1nw8-a2-m2-cA GTTRHVYDVCDCLDTLAKLPDDSVQLIICDPPYNIMLADWDDHMDYIGWAKRWLAEAERVLSPTGSIAIFGGLQYQGEAGSGDLISIISHMRQNSKMLLANLIIWNYPNGMSAQRFFANRHEEIAWFAKTKKYFFDLDAVREPYDEETKAAYMKDKRLNPESVEKGRNPTNVWRMSRLNGNSLERVGHPTQKPAAVIERLVRALSHPGSTVLDFFAGSGVTARVAIQEGRNSICTDAAPVFKEYYQKQLTFLRSYEIVEGAANFGAALQR GTTRHVYDVCDCLDTLAKLPDDSVQLIICDPPYNIMLADWDDHMDYIGWAKRWLAEAERVLSPTGSIAIFGGLQYQGEAGSGDLISIISHMRQNSKMLLANLIIWNYPNGMSAQRFFANRHEEIAWFAKTKKYFFDLDAVREPYDEETKAAYMKDKRLNPESVEKGRNPTNVWRMSRLNGNSLERVGHPTQKPAAVIERLVRALSHPGSTVLDFFAGSGVTARVAIQEGRNSICTDAAPVFKEYYQKQLTFLRSYEIVEGAANFGAALQR 1eg5-a1-m1-cA_1eg5-a1-m1-cB NIFS-LIKE PROTEIN Q9X218 Q9X218 2 X-RAY DIFFRACTION 205 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 353 354 1ecx-a2-m1-cA_1ecx-a2-m2-cB RVYFDNNATTRVDDRVLEEIVFYREKYGNPNSAHGGIEANLHEKAREKVAKVLGVSPSEIFFTSCATESINWILKTVAETFEKRKRTIITTPIEHKAVLETKYLSKGFKVKYVPVDSRGVVKLEELEKLVDEDTFLVSIAANNEVGTIQPVEDVTRIVKKKNKETLVHVDAVQTIGKIPFSLEKLEVDYASFSAHKFHGPKGVGITYIRKGVPIRPLIHGGGQERGLRSGTQNVPGIVGAARAEIAVEELSEAAKHEKLRSKLVSGLNLGAHIITPLEISLPNTLSVSFPNIRGSTLQNLLSGYGIYVSTHVLDAGVDRRIAQGAIRISLCKYNTEEEVDYFLKKIEEILSFL RVYFDNNATTRVDDRVLEEIVFYREKYGNPNSAHGGIEANLHEKAREKVAKVLGVSPSEIFFTSCATESINWILKTVAETFEKRKRTIITTPIEHKAVLETKYLSKGFKVKYVPVDSRGVVKLEELEKLVDEDTFLVSIAANNEVGTIQPVEDVTRIVKKKNKETLVHVDAVQTIGKIPFSLEKLEVDYASFSAHKFHGPKGVGITYIRKGVPIRPLIHGGGQERGLRSGTQNVPGIVGAARAEIAVEELSEAAKHEKLRSKLVSGLNLGAHIITPLEISLPNTLSVSFPNIRGSTLQNLLSGYGIYVSTRHVLDAGVDRRIAQGAIRISLCKYNTEEEVDYFLKKIEEILSFL 1ega-a1-m1-cA_1ega-a1-m1-cB CRYSTAL STRUCTURE OF A WIDELY CONSERVED GTPASE ERA P06616 P06616 2.4 X-RAY DIFFRACTION 73 1.0 562 (Escherichia coli) 562 (Escherichia coli) 292 293 DKSYCGFIAIVGRPNVGKSTLLNKLLGQKISITSRKAQTTRHRIVGIHTEGAYQAIYVDTPGLHMEEKRAINRLMNKAASSSIGDVELVIFVVEGTRWTPDDEMVLNKLREGKAPVILAVNKVDNVQEKADLLPHLQFLASQMNFLDIVPISAETGLNVDTIAAIVRKHLPEATHHFPEDYITDRSQRFMASEIIREKLMRFLGAELPYSVTVEIERFVSNERGGYDINGLILVEREGQKKMVIGNKGAKIKTIGIEARKDMQEMFEAPVHLELWVKVKSGWADDERALRSL DKSYCGFIAIVGRPNVGKSTLLNKLLGQKISITSRKAQTTRHRIVGIHTEGAYQAIYVDTPGLHMEEKRAINRLMNKAASSSIGDVELVIFVVEGTRWTPDDEMVLNKLREGKAPVILAVNKVDNVQEKADLLPHLQFLASQMNFLDIVPISAETGLNVDTIAAIVRKHLPEATHHFPEDYITDRSQRFMASEIIREKLMRFLGAELPYSVTVEIERFVSNERGGYDINGLILVEREGQKKMVIGNKGAKIKTIGIEARKDMQEMFEAPVHLELWVKVKSGWADDERALRSLG 1egc-a1-m1-cA_1egc-a1-m1-cC STRUCTURE OF T255E, E376G MUTANT OF HUMAN MEDIUM CHAIN ACYL-COA DEHYDROGENASE COMPLEXED WITH OCTANOYL-COA P11310 P11310 2.6 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 387 387 1ege-a1-m1-cA_1ege-a1-m1-cC LGFSFEFTEQQKEFQATARKFAREEIIPVAAEYDKTGEYPVPLIRRAWELGLMNTHIPENCGGLGLGTFDACLISEELAYGCTGVQTAIEGNSLGQMPIIIAGNDQQKKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPANKAFTGFIVEADTPGIQIGRKELNMGQRCSDTRGIVFEDVKVPKENVLIGDGAGFKVAMGAFDKERPVVAAGAVGLAQRALDEATKYALERKTFGKLLVEHQAISFMLAEMAMKVELARMSYQRAAWEVDSGRRNTYYASIAKAFAGDIANQLATDAVQILGGNGFNTEYPVEKLMRDAKIYQIYGGTSQIQRLIVAREHIDKYKN LGFSFEFTEQQKEFQATARKFAREEIIPVAAEYDKTGEYPVPLIRRAWELGLMNTHIPENCGGLGLGTFDACLISEELAYGCTGVQTAIEGNSLGQMPIIIAGNDQQKKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPANKAFTGFIVEADTPGIQIGRKELNMGQRCSDTRGIVFEDVKVPKENVLIGDGAGFKVAMGAFDKERPVVAAGAVGLAQRALDEATKYALERKTFGKLLVEHQAISFMLAEMAMKVELARMSYQRAAWEVDSGRRNTYYASIAKAFAGDIANQLATDAVQILGGNGFNTEYPVEKLMRDAKIYQIYGGTSQIQRLIVAREHIDKYKN 1ehw-a1-m2-cB_1ehw-a1-m3-cB HUMAN NUCLEOSIDE DIPHOSPHATE KINASE 4 O00746 O00746 2.4 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 142 1ehw-a1-m1-cA_1ehw-a1-m2-cA 1ehw-a1-m1-cA_1ehw-a1-m3-cA 1ehw-a1-m1-cB_1ehw-a1-m2-cB 1ehw-a1-m1-cB_1ehw-a1-m3-cB 1ehw-a1-m2-cA_1ehw-a1-m3-cA MGTRERTLVAVKPDGVQRRLVGDVIQRFERRGFTLVGMKMLQAPESVLAEHYQDLRRKPFYPALIRYMSSGPVVAMVWEGYNVVRASRAMIGHTDSAEAAPGTIRGDFSVHISRNVIHASDSVEGAQREIQLWFQSSELVSW MGTRERTLVAVKPDGVQRRLVGDVIQRFERRGFTLVGMKMLQAPESVLAEHYQDLRRKPFYPALIRYMSSGPVVAMVWEGYNVVRASRAMIGHTDSAEAAPGTIRGDFSVHISRNVIHASDSVEGAQREIQLWFQSSELVSW 1ehw-a1-m3-cB_1ehw-a1-m3-cA HUMAN NUCLEOSIDE DIPHOSPHATE KINASE 4 O00746 O00746 2.4 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 143 1ehw-a1-m1-cB_1ehw-a1-m1-cA 1ehw-a1-m2-cB_1ehw-a1-m2-cA MGTRERTLVAVKPDGVQRRLVGDVIQRFERRGFTLVGMKMLQAPESVLAEHYQDLRRKPFYPALIRYMSSGPVVAMVWEGYNVVRASRAMIGHTDSAEAAPGTIRGDFSVHISRNVIHASDSVEGAQREIQLWFQSSELVSW HMGTRERTLVAVKPDGVQRRLVGDVIQRFERRGFTLVGMKMLQAPESVLAEHYQDLRRKPFYPALIRYMSSGPVVAMVWEGYNVVRASRAMIGHTDSAEAAPGTIRGDFSVHISRNVIHASDSVEGAQREIQLWFQSSELVSW 1ei5-a1-m1-cA_1ei5-a1-m2-cA CRYSTAL STRUCTURE OF A D-AMINOPEPTIDASE FROM OCHROBACTRUM ANTHROPI Q9ZBA9 Q9ZBA9 1.9 X-RAY DIFFRACTION 92 1.0 529 (Brucella anthropi) 529 (Brucella anthropi) 518 518 KFDTSALEAFVRHIPQNYKGPGGVVAVVKDGEVVLQHAWGFADLRTRTPMTLDTRMPICSVSKQFTCAVLLDAVGEPELLDDALEAYLDKFEDERPAVRDLCNNQSGLRDYWALSVLCGADPEGVFLPAQAQSLLRRLKTTHFEPGSHYSYCNGNFRILADLIEAHTGRTLVDILSERIFAPAGMKRAELISDTALFDECTGYEGDTVRGFLPATNRIQWMGDAGICASLNDMIAWEQFIDATRDDESGLYRRLSGPQTFKDGVAAPYGFGLNLHETGGKRLTGHGGALRGWRCQRWHCADERLSTIAMFNFEGGASEVAFKLMNIALGVSSSEVSRVEADSAWFGSWLDDETGLVLSLEDAGHGRMKARFGTSPEMMDVVSANEARSAVTTIRRDGETIELVRASENLRLSMKRVKGEAKHDIIGRYHSDELDADLLLVSEGGAIYGAFEGFLGKSDMYPLYSVGSDVWLLPVQRSMDAPSPGEWKLVFRRDDKGEITGLSVGCWLARGVEYRRVQP KFDTSALEAFVRHIPQNYKGPGGVVAVVKDGEVVLQHAWGFADLRTRTPMTLDTRMPICSVSKQFTCAVLLDAVGEPELLDDALEAYLDKFEDERPAVRDLCNNQSGLRDYWALSVLCGADPEGVFLPAQAQSLLRRLKTTHFEPGSHYSYCNGNFRILADLIEAHTGRTLVDILSERIFAPAGMKRAELISDTALFDECTGYEGDTVRGFLPATNRIQWMGDAGICASLNDMIAWEQFIDATRDDESGLYRRLSGPQTFKDGVAAPYGFGLNLHETGGKRLTGHGGALRGWRCQRWHCADERLSTIAMFNFEGGASEVAFKLMNIALGVSSSEVSRVEADSAWFGSWLDDETGLVLSLEDAGHGRMKARFGTSPEMMDVVSANEARSAVTTIRRDGETIELVRASENLRLSMKRVKGEAKHDIIGRYHSDELDADLLLVSEGGAIYGAFEGFLGKSDMYPLYSVGSDVWLLPVQRSMDAPSPGEWKLVFRRDDKGEITGLSVGCWLARGVEYRRVQP 1ei6-a2-m1-cC_1ei6-a2-m1-cB CRYSTAL STRUCTURE OF PHOSPHONOACETATE HYDROLASE COMPLEXED WITH PHOSPHONOFORMATE Q51782 Q51782 2.1 X-RAY DIFFRACTION 96 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 401 403 1ei6-a1-m1-cD_1ei6-a1-m1-cA TNLISVNSRSYRLSSAPTIVICVDGCEQEYINQAIQAGQAPFLAELTGFGTVLTGDCVVPSFTNPNNLSIVTGAPPSVHGICGNFFFDQTQEEVLMNDAKYLRAPTILAEMAKAGQLVAVVTAKDKLRNLLGHQLKGICFSAEKADQVNLEEHGVENILARVGMPVPSVYSADLSEFVFAAGLSLLTNERPDFMYLSTTDYVQHKHAPGTPEANAFYAMMDSYFKRYHEQGAIVAITADHGMNAKTDAIGRPNILFLQDLLDAQYGAQRTRVLLPITDPYVVHHGALGSYATVYLRDAVPQRDAIDFLAGIAGVEAVLTRSQACQRFELPEDRIGDLVVLGERLTVLGSAADKHDLSGLTVPLRSHGGVSEQKVPLIFNRKLVGLRLRNFDIIDLALNHLA TNLISVNSRSYRLSSAPTIVICVDGCEQEYINQAIQAGQAPFLAELTGFGTVLTGDCVVPSFTNPNNLSIVTGAPPSVHGICGNFFFDQETQEEVLMNDAKYLRAPTILAEMAKAGQLVAVVTAKDKLRNLLGHQLKGICFSAEKADQVNLEEHGVENILARVGMPVPSVYSADLSEFVFAAGLSLLTNERPDFMYLSTTDYVQHKHAPGTPEANAFYAMMDSYFKRYHEQGAIVAITADHGMNAKTDAIGRPNILFLQDLLDAQYGAQRTRVLLPITDPYVVHHGALGSYATVYLRDAVPQRDAIDFLAGIAGVEAVLTRSQACQRFELPEDRIGDLVVLGERLTVLGSAADKHDLSGLTVPLRSHGGVSEQKVPLIFNRKLVGLDRLRNFDIIDLALNHLA 1ei8-a3-m1-cA_1ei8-a3-m1-cB STRUCTURAL CONSEQUENCES OF A DISCONTINUITY IN THE REPEATING TRIPEPTIDE SEQUENCE OF A COLLAGEN-LIKE TRIPLE-HELICAL PEPTIDE Q8T018 Q8T018 2 X-RAY DIFFRACTION 42 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 20 20 1ei8-a1-m1-cA_1ei8-a1-m1-cB 1ei8-a1-m1-cC_1ei8-a1-m1-cB 1ei8-a2-m1-cD_1ei8-a2-m1-cE 1ei8-a2-m1-cE_1ei8-a2-m1-cF 1ei8-a3-m1-cC_1ei8-a3-m1-cB 1ei8-a3-m1-cD_1ei8-a3-m1-cE 1ei8-a3-m1-cE_1ei8-a3-m1-cF PGPGPGPGPGPGPGPGPGPG PGPGPGPGPGPGPGPGPGPG 1ei8-a3-m1-cB_1ei8-a3-m1-cE STRUCTURAL CONSEQUENCES OF A DISCONTINUITY IN THE REPEATING TRIPEPTIDE SEQUENCE OF A COLLAGEN-LIKE TRIPLE-HELICAL PEPTIDE Q8T018 Q8T018 2 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 20 20 PGPGPGPGPGPGPGPGPGPG PGPGPGPGPGPGPGPGPGPG 1ei8-a3-m1-cD_1ei8-a3-m1-cF STRUCTURAL CONSEQUENCES OF A DISCONTINUITY IN THE REPEATING TRIPEPTIDE SEQUENCE OF A COLLAGEN-LIKE TRIPLE-HELICAL PEPTIDE Q8T018 Q8T018 2 X-RAY DIFFRACTION 43 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 20 20 1ei8-a1-m1-cC_1ei8-a1-m1-cA 1ei8-a2-m1-cD_1ei8-a2-m1-cF 1ei8-a3-m1-cC_1ei8-a3-m1-cA PGPGPGPGPGPGPGPGPGPG PGPGPGPGPGPGPGPGPGPG 1ej6-a1-m10-cB_1ej6-a1-m9-cC Reovirus core P15024 P15024 3.6 X-RAY DIFFRACTION 259 0.992 10891 (Reovirus sp.) 10891 (Reovirus sp.) 1031 1221 1ej6-a1-m11-cB_1ej6-a1-m15-cC 1ej6-a1-m12-cB_1ej6-a1-m11-cC 1ej6-a1-m13-cB_1ej6-a1-m12-cC 1ej6-a1-m14-cB_1ej6-a1-m13-cC 1ej6-a1-m15-cB_1ej6-a1-m14-cC 1ej6-a1-m16-cB_1ej6-a1-m20-cC 1ej6-a1-m17-cB_1ej6-a1-m16-cC 1ej6-a1-m18-cB_1ej6-a1-m17-cC 1ej6-a1-m19-cB_1ej6-a1-m18-cC 1ej6-a1-m1-cB_1ej6-a1-m5-cC 1ej6-a1-m20-cB_1ej6-a1-m19-cC 1ej6-a1-m21-cB_1ej6-a1-m25-cC 1ej6-a1-m22-cB_1ej6-a1-m21-cC 1ej6-a1-m23-cB_1ej6-a1-m22-cC 1ej6-a1-m24-cB_1ej6-a1-m23-cC 1ej6-a1-m25-cB_1ej6-a1-m24-cC 1ej6-a1-m26-cB_1ej6-a1-m30-cC 1ej6-a1-m27-cB_1ej6-a1-m26-cC 1ej6-a1-m28-cB_1ej6-a1-m27-cC 1ej6-a1-m29-cB_1ej6-a1-m28-cC 1ej6-a1-m2-cB_1ej6-a1-m1-cC 1ej6-a1-m30-cB_1ej6-a1-m29-cC 1ej6-a1-m31-cB_1ej6-a1-m35-cC 1ej6-a1-m32-cB_1ej6-a1-m31-cC 1ej6-a1-m33-cB_1ej6-a1-m32-cC 1ej6-a1-m34-cB_1ej6-a1-m33-cC 1ej6-a1-m35-cB_1ej6-a1-m34-cC 1ej6-a1-m36-cB_1ej6-a1-m40-cC 1ej6-a1-m37-cB_1ej6-a1-m36-cC 1ej6-a1-m38-cB_1ej6-a1-m37-cC 1ej6-a1-m39-cB_1ej6-a1-m38-cC 1ej6-a1-m3-cB_1ej6-a1-m2-cC 1ej6-a1-m40-cB_1ej6-a1-m39-cC 1ej6-a1-m41-cB_1ej6-a1-m45-cC 1ej6-a1-m42-cB_1ej6-a1-m41-cC 1ej6-a1-m43-cB_1ej6-a1-m42-cC 1ej6-a1-m44-cB_1ej6-a1-m43-cC 1ej6-a1-m45-cB_1ej6-a1-m44-cC 1ej6-a1-m46-cB_1ej6-a1-m50-cC 1ej6-a1-m47-cB_1ej6-a1-m46-cC 1ej6-a1-m48-cB_1ej6-a1-m47-cC 1ej6-a1-m49-cB_1ej6-a1-m48-cC 1ej6-a1-m4-cB_1ej6-a1-m3-cC 1ej6-a1-m50-cB_1ej6-a1-m49-cC 1ej6-a1-m51-cB_1ej6-a1-m55-cC 1ej6-a1-m52-cB_1ej6-a1-m51-cC 1ej6-a1-m53-cB_1ej6-a1-m52-cC 1ej6-a1-m54-cB_1ej6-a1-m53-cC 1ej6-a1-m55-cB_1ej6-a1-m54-cC 1ej6-a1-m56-cB_1ej6-a1-m60-cC 1ej6-a1-m57-cB_1ej6-a1-m56-cC 1ej6-a1-m58-cB_1ej6-a1-m57-cC 1ej6-a1-m59-cB_1ej6-a1-m58-cC 1ej6-a1-m5-cB_1ej6-a1-m4-cC 1ej6-a1-m60-cB_1ej6-a1-m59-cC 1ej6-a1-m6-cB_1ej6-a1-m10-cC 1ej6-a1-m7-cB_1ej6-a1-m6-cC 1ej6-a1-m8-cB_1ej6-a1-m7-cC 1ej6-a1-m9-cB_1ej6-a1-m8-cC 2cse-a1-m10-cV_2cse-a1-m10-cW 2cse-a1-m11-cV_2cse-a1-m11-cW 2cse-a1-m12-cV_2cse-a1-m12-cW 2cse-a1-m13-cV_2cse-a1-m13-cW 2cse-a1-m14-cV_2cse-a1-m14-cW 2cse-a1-m15-cV_2cse-a1-m15-cW 2cse-a1-m16-cV_2cse-a1-m16-cW 2cse-a1-m17-cV_2cse-a1-m17-cW 2cse-a1-m18-cV_2cse-a1-m18-cW 2cse-a1-m19-cV_2cse-a1-m19-cW 2cse-a1-m1-cV_2cse-a1-m1-cW 2cse-a1-m20-cV_2cse-a1-m20-cW 2cse-a1-m21-cV_2cse-a1-m21-cW 2cse-a1-m22-cV_2cse-a1-m22-cW 2cse-a1-m23-cV_2cse-a1-m23-cW 2cse-a1-m24-cV_2cse-a1-m24-cW 2cse-a1-m25-cV_2cse-a1-m25-cW 2cse-a1-m26-cV_2cse-a1-m26-cW 2cse-a1-m27-cV_2cse-a1-m27-cW 2cse-a1-m28-cV_2cse-a1-m28-cW 2cse-a1-m29-cV_2cse-a1-m29-cW 2cse-a1-m2-cV_2cse-a1-m2-cW 2cse-a1-m30-cV_2cse-a1-m30-cW 2cse-a1-m31-cV_2cse-a1-m31-cW 2cse-a1-m32-cV_2cse-a1-m32-cW 2cse-a1-m33-cV_2cse-a1-m33-cW 2cse-a1-m34-cV_2cse-a1-m34-cW 2cse-a1-m35-cV_2cse-a1-m35-cW 2cse-a1-m36-cV_2cse-a1-m36-cW 2cse-a1-m37-cV_2cse-a1-m37-cW 2cse-a1-m38-cV_2cse-a1-m38-cW 2cse-a1-m39-cV_2cse-a1-m39-cW 2cse-a1-m3-cV_2cse-a1-m3-cW 2cse-a1-m40-cV_2cse-a1-m40-cW 2cse-a1-m41-cV_2cse-a1-m41-cW 2cse-a1-m42-cV_2cse-a1-m42-cW 2cse-a1-m43-cV_2cse-a1-m43-cW 2cse-a1-m44-cV_2cse-a1-m44-cW 2cse-a1-m45-cV_2cse-a1-m45-cW 2cse-a1-m46-cV_2cse-a1-m46-cW 2cse-a1-m47-cV_2cse-a1-m47-cW 2cse-a1-m48-cV_2cse-a1-m48-cW 2cse-a1-m49-cV_2cse-a1-m49-cW 2cse-a1-m4-cV_2cse-a1-m4-cW 2cse-a1-m50-cV_2cse-a1-m50-cW 2cse-a1-m51-cV_2cse-a1-m51-cW 2cse-a1-m52-cV_2cse-a1-m52-cW 2cse-a1-m53-cV_2cse-a1-m53-cW 2cse-a1-m54-cV_2cse-a1-m54-cW 2cse-a1-m55-cV_2cse-a1-m55-cW 2cse-a1-m56-cV_2cse-a1-m56-cW 2cse-a1-m57-cV_2cse-a1-m57-cW 2cse-a1-m58-cV_2cse-a1-m58-cW 2cse-a1-m59-cV_2cse-a1-m59-cW 2cse-a1-m5-cV_2cse-a1-m5-cW 2cse-a1-m60-cV_2cse-a1-m60-cW 2cse-a1-m6-cV_2cse-a1-m6-cW 2cse-a1-m7-cV_2cse-a1-m7-cW 2cse-a1-m8-cV_2cse-a1-m8-cW 2cse-a1-m9-cV_2cse-a1-m9-cW 6xf7-a1-m1-cB_6xf7-a1-m1-cC 6xf8-a1-m1-cB_6xf8-a1-m1-cC 6ztz-a1-m1-cC_6ztz-a1-m1-cB 7elh-a1-m1-cD_7elh-a1-m1-cM 7elh-a1-m1-cF_7elh-a1-m1-cE 7elh-a1-m1-cH_7elh-a1-m1-cG 7elh-a1-m1-cJ_7elh-a1-m1-cI 7elh-a1-m1-cL_7elh-a1-m1-cK 7yed-a1-m1-cB_7yed-a1-m1-ca 7yed-a1-m1-cb_7yed-a1-m1-cC 7yed-a1-m1-cD_7yed-a1-m1-cc 7yed-a1-m1-ce_7yed-a1-m1-cA 7yed-a1-m1-cE_7yed-a1-m1-cd 7yev-a1-m1-cB_7yev-a1-m1-ca 7yev-a1-m1-cb_7yev-a1-m1-cC 7yev-a1-m1-cD_7yev-a1-m1-cc 7yev-a1-m1-ce_7yev-a1-m1-cA 7yev-a1-m1-cE_7yev-a1-m1-cd 7yez-a1-m1-cB_7yez-a1-m1-ca 7yez-a1-m1-cC_7yez-a1-m1-cb 7yez-a1-m1-cD_7yez-a1-m1-cc 7yez-a1-m1-ce_7yez-a1-m1-cA 7yez-a1-m1-cE_7yez-a1-m1-cd 7yf0-a1-m1-cB_7yf0-a1-m1-ca 7yf0-a1-m1-cC_7yf0-a1-m1-cb 7yf0-a1-m1-cD_7yf0-a1-m1-cc 7yf0-a1-m1-cE_7yf0-a1-m1-cd 7yfe-a1-m1-cB_7yfe-a1-m1-ca 7yfe-a1-m1-cb_7yfe-a1-m1-cC 7yfe-a1-m1-cD_7yfe-a1-m1-cc 7yfe-a1-m1-cE_7yfe-a1-m1-cd NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP MKRIPRKTKGKSPATTEPGTSNREQYRARPGIASVQRATESAELPMKNNDEGTPDKKGNTRGDLVNEHSEAKDEADEATQKQAKDTDKSKAQVTYSDTGINNANELSRSGNVDNEGGSNQKPMSTRIAEATSAIVSKHPAYQCHVCSAVLFSPLDLDAHVASHGLHGNEIQRHITEFISSWQNHPIVQVSADVENKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTLSPASSILGKLRPSNSDFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP 1ej6-a1-m24-cB_1ej6-a1-m9-cC Reovirus core P15024 P15024 3.6 X-RAY DIFFRACTION 83 0.992 10891 (Reovirus sp.) 10891 (Reovirus sp.) 1031 1221 1ej6-a1-m10-cB_1ej6-a1-m23-cC 1ej6-a1-m11-cB_1ej6-a1-m20-cC 1ej6-a1-m12-cB_1ej6-a1-m37-cC 1ej6-a1-m13-cB_1ej6-a1-m46-cC 1ej6-a1-m14-cB_1ej6-a1-m44-cC 1ej6-a1-m15-cB_1ej6-a1-m28-cC 1ej6-a1-m16-cB_1ej6-a1-m15-cC 1ej6-a1-m17-cB_1ej6-a1-m27-cC 1ej6-a1-m18-cB_1ej6-a1-m51-cC 1ej6-a1-m19-cB_1ej6-a1-m59-cC 1ej6-a1-m1-cB_1ej6-a1-m10-cC 1ej6-a1-m20-cB_1ej6-a1-m38-cC 1ej6-a1-m21-cB_1ej6-a1-m30-cC 1ej6-a1-m22-cB_1ej6-a1-m42-cC 1ej6-a1-m23-cB_1ej6-a1-m1-cC 1ej6-a1-m25-cB_1ej6-a1-m53-cC 1ej6-a1-m26-cB_1ej6-a1-m25-cC 1ej6-a1-m27-cB_1ej6-a1-m52-cC 1ej6-a1-m28-cB_1ej6-a1-m16-cC 1ej6-a1-m29-cB_1ej6-a1-m14-cC 1ej6-a1-m2-cB_1ej6-a1-m22-cC 1ej6-a1-m30-cB_1ej6-a1-m43-cC 1ej6-a1-m31-cB_1ej6-a1-m40-cC 1ej6-a1-m32-cB_1ej6-a1-m57-cC 1ej6-a1-m33-cB_1ej6-a1-m6-cC 1ej6-a1-m34-cB_1ej6-a1-m4-cC 1ej6-a1-m35-cB_1ej6-a1-m48-cC 1ej6-a1-m36-cB_1ej6-a1-m35-cC 1ej6-a1-m37-cB_1ej6-a1-m47-cC 1ej6-a1-m38-cB_1ej6-a1-m11-cC 1ej6-a1-m39-cB_1ej6-a1-m19-cC 1ej6-a1-m3-cB_1ej6-a1-m41-cC 1ej6-a1-m40-cB_1ej6-a1-m58-cC 1ej6-a1-m41-cB_1ej6-a1-m50-cC 1ej6-a1-m42-cB_1ej6-a1-m2-cC 1ej6-a1-m43-cB_1ej6-a1-m21-cC 1ej6-a1-m44-cB_1ej6-a1-m29-cC 1ej6-a1-m45-cB_1ej6-a1-m13-cC 1ej6-a1-m46-cB_1ej6-a1-m45-cC 1ej6-a1-m47-cB_1ej6-a1-m12-cC 1ej6-a1-m48-cB_1ej6-a1-m36-cC 1ej6-a1-m49-cB_1ej6-a1-m34-cC 1ej6-a1-m4-cB_1ej6-a1-m49-cC 1ej6-a1-m50-cB_1ej6-a1-m3-cC 1ej6-a1-m51-cB_1ej6-a1-m60-cC 1ej6-a1-m52-cB_1ej6-a1-m17-cC 1ej6-a1-m53-cB_1ej6-a1-m26-cC 1ej6-a1-m54-cB_1ej6-a1-m24-cC 1ej6-a1-m55-cB_1ej6-a1-m8-cC 1ej6-a1-m56-cB_1ej6-a1-m55-cC 1ej6-a1-m57-cB_1ej6-a1-m7-cC 1ej6-a1-m58-cB_1ej6-a1-m31-cC 1ej6-a1-m59-cB_1ej6-a1-m39-cC 1ej6-a1-m5-cB_1ej6-a1-m33-cC 1ej6-a1-m60-cB_1ej6-a1-m18-cC 1ej6-a1-m6-cB_1ej6-a1-m5-cC 1ej6-a1-m7-cB_1ej6-a1-m32-cC 1ej6-a1-m8-cB_1ej6-a1-m56-cC 1ej6-a1-m9-cB_1ej6-a1-m54-cC 2cse-a1-m10-cV_2cse-a1-m24-cW 2cse-a1-m11-cV_2cse-a1-m16-cW 2cse-a1-m12-cV_2cse-a1-m38-cW 2cse-a1-m13-cV_2cse-a1-m47-cW 2cse-a1-m14-cV_2cse-a1-m45-cW 2cse-a1-m15-cV_2cse-a1-m29-cW 2cse-a1-m16-cV_2cse-a1-m11-cW 2cse-a1-m17-cV_2cse-a1-m28-cW 2cse-a1-m18-cV_2cse-a1-m52-cW 2cse-a1-m19-cV_2cse-a1-m60-cW 2cse-a1-m1-cV_2cse-a1-m6-cW 2cse-a1-m20-cV_2cse-a1-m39-cW 2cse-a1-m21-cV_2cse-a1-m26-cW 2cse-a1-m22-cV_2cse-a1-m43-cW 2cse-a1-m23-cV_2cse-a1-m2-cW 2cse-a1-m24-cV_2cse-a1-m10-cW 2cse-a1-m25-cV_2cse-a1-m54-cW 2cse-a1-m26-cV_2cse-a1-m21-cW 2cse-a1-m27-cV_2cse-a1-m53-cW 2cse-a1-m28-cV_2cse-a1-m17-cW 2cse-a1-m29-cV_2cse-a1-m15-cW 2cse-a1-m2-cV_2cse-a1-m23-cW 2cse-a1-m30-cV_2cse-a1-m44-cW 2cse-a1-m31-cV_2cse-a1-m36-cW 2cse-a1-m32-cV_2cse-a1-m58-cW 2cse-a1-m33-cV_2cse-a1-m7-cW 2cse-a1-m34-cV_2cse-a1-m5-cW 2cse-a1-m35-cV_2cse-a1-m49-cW 2cse-a1-m36-cV_2cse-a1-m31-cW 2cse-a1-m37-cV_2cse-a1-m48-cW 2cse-a1-m38-cV_2cse-a1-m12-cW 2cse-a1-m39-cV_2cse-a1-m20-cW 2cse-a1-m3-cV_2cse-a1-m42-cW 2cse-a1-m40-cV_2cse-a1-m59-cW 2cse-a1-m41-cV_2cse-a1-m46-cW 2cse-a1-m42-cV_2cse-a1-m3-cW 2cse-a1-m43-cV_2cse-a1-m22-cW 2cse-a1-m44-cV_2cse-a1-m30-cW 2cse-a1-m45-cV_2cse-a1-m14-cW 2cse-a1-m46-cV_2cse-a1-m41-cW 2cse-a1-m47-cV_2cse-a1-m13-cW 2cse-a1-m48-cV_2cse-a1-m37-cW 2cse-a1-m49-cV_2cse-a1-m35-cW 2cse-a1-m4-cV_2cse-a1-m50-cW 2cse-a1-m50-cV_2cse-a1-m4-cW 2cse-a1-m51-cV_2cse-a1-m56-cW 2cse-a1-m52-cV_2cse-a1-m18-cW 2cse-a1-m53-cV_2cse-a1-m27-cW 2cse-a1-m54-cV_2cse-a1-m25-cW 2cse-a1-m55-cV_2cse-a1-m9-cW 2cse-a1-m56-cV_2cse-a1-m51-cW 2cse-a1-m57-cV_2cse-a1-m8-cW 2cse-a1-m58-cV_2cse-a1-m32-cW 2cse-a1-m59-cV_2cse-a1-m40-cW 2cse-a1-m5-cV_2cse-a1-m34-cW 2cse-a1-m60-cV_2cse-a1-m19-cW 2cse-a1-m6-cV_2cse-a1-m1-cW 2cse-a1-m7-cV_2cse-a1-m33-cW 2cse-a1-m8-cV_2cse-a1-m57-cW 2cse-a1-m9-cV_2cse-a1-m55-cW NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP MKRIPRKTKGKSPATTEPGTSNREQYRARPGIASVQRATESAELPMKNNDEGTPDKKGNTRGDLVNEHSEAKDEADEATQKQAKDTDKSKAQVTYSDTGINNANELSRSGNVDNEGGSNQKPMSTRIAEATSAIVSKHPAYQCHVCSAVLFSPLDLDAHVASHGLHGNEIQRHITEFISSWQNHPIVQVSADVENKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTLSPASSILGKLRPSNSDFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP 1ej6-a1-m54-cC_1ej6-a1-m9-cC Reovirus core P15024 P15024 3.6 X-RAY DIFFRACTION 121 1.0 10891 (Reovirus sp.) 10891 (Reovirus sp.) 1221 1221 1ej6-a1-m10-cC_1ej6-a1-m23-cC 1ej6-a1-m11-cC_1ej6-a1-m20-cC 1ej6-a1-m11-cC_1ej6-a1-m38-cC 1ej6-a1-m12-cC_1ej6-a1-m37-cC 1ej6-a1-m12-cC_1ej6-a1-m47-cC 1ej6-a1-m13-cC_1ej6-a1-m45-cC 1ej6-a1-m13-cC_1ej6-a1-m46-cC 1ej6-a1-m14-cC_1ej6-a1-m29-cC 1ej6-a1-m14-cC_1ej6-a1-m44-cC 1ej6-a1-m15-cC_1ej6-a1-m16-cC 1ej6-a1-m15-cC_1ej6-a1-m28-cC 1ej6-a1-m16-cC_1ej6-a1-m28-cC 1ej6-a1-m17-cC_1ej6-a1-m27-cC 1ej6-a1-m17-cC_1ej6-a1-m52-cC 1ej6-a1-m18-cC_1ej6-a1-m51-cC 1ej6-a1-m18-cC_1ej6-a1-m60-cC 1ej6-a1-m19-cC_1ej6-a1-m39-cC 1ej6-a1-m19-cC_1ej6-a1-m59-cC 1ej6-a1-m1-cC_1ej6-a1-m10-cC 1ej6-a1-m1-cC_1ej6-a1-m23-cC 1ej6-a1-m20-cC_1ej6-a1-m38-cC 1ej6-a1-m21-cC_1ej6-a1-m30-cC 1ej6-a1-m21-cC_1ej6-a1-m43-cC 1ej6-a1-m22-cC_1ej6-a1-m42-cC 1ej6-a1-m24-cC_1ej6-a1-m54-cC 1ej6-a1-m24-cC_1ej6-a1-m9-cC 1ej6-a1-m25-cC_1ej6-a1-m26-cC 1ej6-a1-m25-cC_1ej6-a1-m53-cC 1ej6-a1-m26-cC_1ej6-a1-m53-cC 1ej6-a1-m27-cC_1ej6-a1-m52-cC 1ej6-a1-m29-cC_1ej6-a1-m44-cC 1ej6-a1-m2-cC_1ej6-a1-m22-cC 1ej6-a1-m2-cC_1ej6-a1-m42-cC 1ej6-a1-m30-cC_1ej6-a1-m43-cC 1ej6-a1-m31-cC_1ej6-a1-m40-cC 1ej6-a1-m31-cC_1ej6-a1-m58-cC 1ej6-a1-m32-cC_1ej6-a1-m57-cC 1ej6-a1-m32-cC_1ej6-a1-m7-cC 1ej6-a1-m33-cC_1ej6-a1-m5-cC 1ej6-a1-m33-cC_1ej6-a1-m6-cC 1ej6-a1-m34-cC_1ej6-a1-m49-cC 1ej6-a1-m34-cC_1ej6-a1-m4-cC 1ej6-a1-m35-cC_1ej6-a1-m36-cC 1ej6-a1-m35-cC_1ej6-a1-m48-cC 1ej6-a1-m36-cC_1ej6-a1-m48-cC 1ej6-a1-m37-cC_1ej6-a1-m47-cC 1ej6-a1-m39-cC_1ej6-a1-m59-cC 1ej6-a1-m3-cC_1ej6-a1-m41-cC 1ej6-a1-m3-cC_1ej6-a1-m50-cC 1ej6-a1-m40-cC_1ej6-a1-m58-cC 1ej6-a1-m41-cC_1ej6-a1-m50-cC 1ej6-a1-m45-cC_1ej6-a1-m46-cC 1ej6-a1-m4-cC_1ej6-a1-m49-cC 1ej6-a1-m51-cC_1ej6-a1-m60-cC 1ej6-a1-m55-cC_1ej6-a1-m56-cC 1ej6-a1-m55-cC_1ej6-a1-m8-cC 1ej6-a1-m56-cC_1ej6-a1-m8-cC 1ej6-a1-m57-cC_1ej6-a1-m7-cC 1ej6-a1-m5-cC_1ej6-a1-m6-cC 2cse-a1-m10-cW_2cse-a1-m25-cW 2cse-a1-m10-cW_2cse-a1-m55-cW 2cse-a1-m11-cW_2cse-a1-m17-cW 2cse-a1-m11-cW_2cse-a1-m29-cW 2cse-a1-m12-cW_2cse-a1-m16-cW 2cse-a1-m12-cW_2cse-a1-m39-cW 2cse-a1-m13-cW_2cse-a1-m38-cW 2cse-a1-m13-cW_2cse-a1-m48-cW 2cse-a1-m14-cW_2cse-a1-m41-cW 2cse-a1-m14-cW_2cse-a1-m47-cW 2cse-a1-m15-cW_2cse-a1-m30-cW 2cse-a1-m15-cW_2cse-a1-m45-cW 2cse-a1-m16-cW_2cse-a1-m39-cW 2cse-a1-m17-cW_2cse-a1-m29-cW 2cse-a1-m18-cW_2cse-a1-m28-cW 2cse-a1-m18-cW_2cse-a1-m53-cW 2cse-a1-m19-cW_2cse-a1-m52-cW 2cse-a1-m19-cW_2cse-a1-m56-cW 2cse-a1-m1-cW_2cse-a1-m34-cW 2cse-a1-m1-cW_2cse-a1-m7-cW 2cse-a1-m20-cW_2cse-a1-m40-cW 2cse-a1-m20-cW_2cse-a1-m60-cW 2cse-a1-m21-cW_2cse-a1-m27-cW 2cse-a1-m21-cW_2cse-a1-m54-cW 2cse-a1-m22-cW_2cse-a1-m26-cW 2cse-a1-m22-cW_2cse-a1-m44-cW 2cse-a1-m23-cW_2cse-a1-m3-cW 2cse-a1-m23-cW_2cse-a1-m43-cW 2cse-a1-m24-cW_2cse-a1-m6-cW 2cse-a1-m25-cW_2cse-a1-m55-cW 2cse-a1-m26-cW_2cse-a1-m44-cW 2cse-a1-m27-cW_2cse-a1-m54-cW 2cse-a1-m28-cW_2cse-a1-m53-cW 2cse-a1-m2-cW_2cse-a1-m24-cW 2cse-a1-m2-cW_2cse-a1-m6-cW 2cse-a1-m30-cW_2cse-a1-m45-cW 2cse-a1-m31-cW_2cse-a1-m37-cW 2cse-a1-m31-cW_2cse-a1-m49-cW 2cse-a1-m32-cW_2cse-a1-m36-cW 2cse-a1-m32-cW_2cse-a1-m59-cW 2cse-a1-m33-cW_2cse-a1-m58-cW 2cse-a1-m33-cW_2cse-a1-m8-cW 2cse-a1-m34-cW_2cse-a1-m7-cW 2cse-a1-m35-cW_2cse-a1-m50-cW 2cse-a1-m35-cW_2cse-a1-m5-cW 2cse-a1-m36-cW_2cse-a1-m59-cW 2cse-a1-m37-cW_2cse-a1-m49-cW 2cse-a1-m38-cW_2cse-a1-m48-cW 2cse-a1-m3-cW_2cse-a1-m43-cW 2cse-a1-m40-cW_2cse-a1-m60-cW 2cse-a1-m41-cW_2cse-a1-m47-cW 2cse-a1-m42-cW_2cse-a1-m46-cW 2cse-a1-m4-cW_2cse-a1-m42-cW 2cse-a1-m4-cW_2cse-a1-m46-cW 2cse-a1-m51-cW_2cse-a1-m57-cW 2cse-a1-m51-cW_2cse-a1-m9-cW 2cse-a1-m52-cW_2cse-a1-m56-cW 2cse-a1-m57-cW_2cse-a1-m9-cW 2cse-a1-m58-cW_2cse-a1-m8-cW 2cse-a1-m5-cW_2cse-a1-m50-cW MKRIPRKTKGKSPATTEPGTSNREQYRARPGIASVQRATESAELPMKNNDEGTPDKKGNTRGDLVNEHSEAKDEADEATQKQAKDTDKSKAQVTYSDTGINNANELSRSGNVDNEGGSNQKPMSTRIAEATSAIVSKHPAYQCHVCSAVLFSPLDLDAHVASHGLHGNEIQRHITEFISSWQNHPIVQVSADVENKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTLSPASSILGKLRPSNSDFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP MKRIPRKTKGKSPATTEPGTSNREQYRARPGIASVQRATESAELPMKNNDEGTPDKKGNTRGDLVNEHSEAKDEADEATQKQAKDTDKSKAQVTYSDTGINNANELSRSGNVDNEGGSNQKPMSTRIAEATSAIVSKHPAYQCHVCSAVLFSPLDLDAHVASHGLHGNEIQRHITEFISSWQNHPIVQVSADVENKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTLSPASSILGKLRPSNSDFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP 1ej6-a1-m55-cB_1ej6-a1-m9-cB Reovirus core P15024 P15024 3.6 X-RAY DIFFRACTION 35 1.0 10891 (Reovirus sp.) 10891 (Reovirus sp.) 1031 1031 1ej6-a1-m10-cB_1ej6-a1-m24-cB 1ej6-a1-m11-cB_1ej6-a1-m16-cB 1ej6-a1-m12-cB_1ej6-a1-m38-cB 1ej6-a1-m13-cB_1ej6-a1-m47-cB 1ej6-a1-m14-cB_1ej6-a1-m45-cB 1ej6-a1-m15-cB_1ej6-a1-m29-cB 1ej6-a1-m17-cB_1ej6-a1-m28-cB 1ej6-a1-m18-cB_1ej6-a1-m52-cB 1ej6-a1-m19-cB_1ej6-a1-m60-cB 1ej6-a1-m1-cB_1ej6-a1-m6-cB 1ej6-a1-m20-cB_1ej6-a1-m39-cB 1ej6-a1-m21-cB_1ej6-a1-m26-cB 1ej6-a1-m22-cB_1ej6-a1-m43-cB 1ej6-a1-m25-cB_1ej6-a1-m54-cB 1ej6-a1-m27-cB_1ej6-a1-m53-cB 1ej6-a1-m2-cB_1ej6-a1-m23-cB 1ej6-a1-m30-cB_1ej6-a1-m44-cB 1ej6-a1-m31-cB_1ej6-a1-m36-cB 1ej6-a1-m32-cB_1ej6-a1-m58-cB 1ej6-a1-m33-cB_1ej6-a1-m7-cB 1ej6-a1-m34-cB_1ej6-a1-m5-cB 1ej6-a1-m35-cB_1ej6-a1-m49-cB 1ej6-a1-m37-cB_1ej6-a1-m48-cB 1ej6-a1-m3-cB_1ej6-a1-m42-cB 1ej6-a1-m40-cB_1ej6-a1-m59-cB 1ej6-a1-m41-cB_1ej6-a1-m46-cB 1ej6-a1-m4-cB_1ej6-a1-m50-cB 1ej6-a1-m51-cB_1ej6-a1-m56-cB 1ej6-a1-m57-cB_1ej6-a1-m8-cB 2cse-a1-m10-cV_2cse-a1-m24-cV 2cse-a1-m11-cV_2cse-a1-m16-cV 2cse-a1-m12-cV_2cse-a1-m38-cV 2cse-a1-m13-cV_2cse-a1-m47-cV 2cse-a1-m14-cV_2cse-a1-m45-cV 2cse-a1-m15-cV_2cse-a1-m29-cV 2cse-a1-m17-cV_2cse-a1-m28-cV 2cse-a1-m18-cV_2cse-a1-m52-cV 2cse-a1-m19-cV_2cse-a1-m60-cV 2cse-a1-m1-cV_2cse-a1-m6-cV 2cse-a1-m20-cV_2cse-a1-m39-cV 2cse-a1-m21-cV_2cse-a1-m26-cV 2cse-a1-m22-cV_2cse-a1-m43-cV 2cse-a1-m25-cV_2cse-a1-m54-cV 2cse-a1-m27-cV_2cse-a1-m53-cV 2cse-a1-m2-cV_2cse-a1-m23-cV 2cse-a1-m30-cV_2cse-a1-m44-cV 2cse-a1-m31-cV_2cse-a1-m36-cV 2cse-a1-m32-cV_2cse-a1-m58-cV 2cse-a1-m33-cV_2cse-a1-m7-cV 2cse-a1-m34-cV_2cse-a1-m5-cV 2cse-a1-m35-cV_2cse-a1-m49-cV 2cse-a1-m37-cV_2cse-a1-m48-cV 2cse-a1-m3-cV_2cse-a1-m42-cV 2cse-a1-m40-cV_2cse-a1-m59-cV 2cse-a1-m41-cV_2cse-a1-m46-cV 2cse-a1-m4-cV_2cse-a1-m50-cV 2cse-a1-m51-cV_2cse-a1-m56-cV 2cse-a1-m55-cV_2cse-a1-m9-cV 2cse-a1-m57-cV_2cse-a1-m8-cV NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP 1ej6-a1-m8-cB_1ej6-a1-m9-cB Reovirus core P15024 P15024 3.6 X-RAY DIFFRACTION 70 1.0 10891 (Reovirus sp.) 10891 (Reovirus sp.) 1031 1031 1ej6-a1-m10-cB_1ej6-a1-m6-cB 1ej6-a1-m10-cB_1ej6-a1-m9-cB 1ej6-a1-m11-cB_1ej6-a1-m12-cB 1ej6-a1-m11-cB_1ej6-a1-m15-cB 1ej6-a1-m12-cB_1ej6-a1-m13-cB 1ej6-a1-m13-cB_1ej6-a1-m14-cB 1ej6-a1-m14-cB_1ej6-a1-m15-cB 1ej6-a1-m16-cB_1ej6-a1-m17-cB 1ej6-a1-m16-cB_1ej6-a1-m20-cB 1ej6-a1-m17-cB_1ej6-a1-m18-cB 1ej6-a1-m18-cB_1ej6-a1-m19-cB 1ej6-a1-m19-cB_1ej6-a1-m20-cB 1ej6-a1-m1-cB_1ej6-a1-m2-cB 1ej6-a1-m1-cB_1ej6-a1-m5-cB 1ej6-a1-m21-cB_1ej6-a1-m22-cB 1ej6-a1-m21-cB_1ej6-a1-m25-cB 1ej6-a1-m22-cB_1ej6-a1-m23-cB 1ej6-a1-m23-cB_1ej6-a1-m24-cB 1ej6-a1-m24-cB_1ej6-a1-m25-cB 1ej6-a1-m26-cB_1ej6-a1-m27-cB 1ej6-a1-m26-cB_1ej6-a1-m30-cB 1ej6-a1-m27-cB_1ej6-a1-m28-cB 1ej6-a1-m28-cB_1ej6-a1-m29-cB 1ej6-a1-m29-cB_1ej6-a1-m30-cB 1ej6-a1-m2-cB_1ej6-a1-m3-cB 1ej6-a1-m31-cB_1ej6-a1-m32-cB 1ej6-a1-m31-cB_1ej6-a1-m35-cB 1ej6-a1-m32-cB_1ej6-a1-m33-cB 1ej6-a1-m33-cB_1ej6-a1-m34-cB 1ej6-a1-m34-cB_1ej6-a1-m35-cB 1ej6-a1-m36-cB_1ej6-a1-m37-cB 1ej6-a1-m36-cB_1ej6-a1-m40-cB 1ej6-a1-m37-cB_1ej6-a1-m38-cB 1ej6-a1-m38-cB_1ej6-a1-m39-cB 1ej6-a1-m39-cB_1ej6-a1-m40-cB 1ej6-a1-m3-cB_1ej6-a1-m4-cB 1ej6-a1-m41-cB_1ej6-a1-m42-cB 1ej6-a1-m41-cB_1ej6-a1-m45-cB 1ej6-a1-m42-cB_1ej6-a1-m43-cB 1ej6-a1-m43-cB_1ej6-a1-m44-cB 1ej6-a1-m44-cB_1ej6-a1-m45-cB 1ej6-a1-m46-cB_1ej6-a1-m47-cB 1ej6-a1-m46-cB_1ej6-a1-m50-cB 1ej6-a1-m47-cB_1ej6-a1-m48-cB 1ej6-a1-m48-cB_1ej6-a1-m49-cB 1ej6-a1-m49-cB_1ej6-a1-m50-cB 1ej6-a1-m4-cB_1ej6-a1-m5-cB 1ej6-a1-m51-cB_1ej6-a1-m52-cB 1ej6-a1-m51-cB_1ej6-a1-m55-cB 1ej6-a1-m52-cB_1ej6-a1-m53-cB 1ej6-a1-m53-cB_1ej6-a1-m54-cB 1ej6-a1-m54-cB_1ej6-a1-m55-cB 1ej6-a1-m56-cB_1ej6-a1-m57-cB 1ej6-a1-m56-cB_1ej6-a1-m60-cB 1ej6-a1-m57-cB_1ej6-a1-m58-cB 1ej6-a1-m58-cB_1ej6-a1-m59-cB 1ej6-a1-m59-cB_1ej6-a1-m60-cB 1ej6-a1-m6-cB_1ej6-a1-m7-cB 1ej6-a1-m7-cB_1ej6-a1-m8-cB 2cse-a1-m10-cV_2cse-a1-m6-cV 2cse-a1-m10-cV_2cse-a1-m9-cV 2cse-a1-m11-cV_2cse-a1-m12-cV 2cse-a1-m11-cV_2cse-a1-m15-cV 2cse-a1-m12-cV_2cse-a1-m13-cV 2cse-a1-m13-cV_2cse-a1-m14-cV 2cse-a1-m14-cV_2cse-a1-m15-cV 2cse-a1-m16-cV_2cse-a1-m17-cV 2cse-a1-m16-cV_2cse-a1-m20-cV 2cse-a1-m17-cV_2cse-a1-m18-cV 2cse-a1-m18-cV_2cse-a1-m19-cV 2cse-a1-m19-cV_2cse-a1-m20-cV 2cse-a1-m1-cV_2cse-a1-m2-cV 2cse-a1-m1-cV_2cse-a1-m5-cV 2cse-a1-m21-cV_2cse-a1-m22-cV 2cse-a1-m21-cV_2cse-a1-m25-cV 2cse-a1-m22-cV_2cse-a1-m23-cV 2cse-a1-m23-cV_2cse-a1-m24-cV 2cse-a1-m24-cV_2cse-a1-m25-cV 2cse-a1-m26-cV_2cse-a1-m27-cV 2cse-a1-m26-cV_2cse-a1-m30-cV 2cse-a1-m27-cV_2cse-a1-m28-cV 2cse-a1-m28-cV_2cse-a1-m29-cV 2cse-a1-m29-cV_2cse-a1-m30-cV 2cse-a1-m2-cV_2cse-a1-m3-cV 2cse-a1-m31-cV_2cse-a1-m32-cV 2cse-a1-m31-cV_2cse-a1-m35-cV 2cse-a1-m32-cV_2cse-a1-m33-cV 2cse-a1-m33-cV_2cse-a1-m34-cV 2cse-a1-m34-cV_2cse-a1-m35-cV 2cse-a1-m36-cV_2cse-a1-m37-cV 2cse-a1-m36-cV_2cse-a1-m40-cV 2cse-a1-m37-cV_2cse-a1-m38-cV 2cse-a1-m38-cV_2cse-a1-m39-cV 2cse-a1-m39-cV_2cse-a1-m40-cV 2cse-a1-m3-cV_2cse-a1-m4-cV 2cse-a1-m41-cV_2cse-a1-m42-cV 2cse-a1-m41-cV_2cse-a1-m45-cV 2cse-a1-m42-cV_2cse-a1-m43-cV 2cse-a1-m43-cV_2cse-a1-m44-cV 2cse-a1-m44-cV_2cse-a1-m45-cV 2cse-a1-m46-cV_2cse-a1-m47-cV 2cse-a1-m46-cV_2cse-a1-m50-cV 2cse-a1-m47-cV_2cse-a1-m48-cV 2cse-a1-m48-cV_2cse-a1-m49-cV 2cse-a1-m49-cV_2cse-a1-m50-cV 2cse-a1-m4-cV_2cse-a1-m5-cV 2cse-a1-m51-cV_2cse-a1-m52-cV 2cse-a1-m51-cV_2cse-a1-m55-cV 2cse-a1-m52-cV_2cse-a1-m53-cV 2cse-a1-m53-cV_2cse-a1-m54-cV 2cse-a1-m54-cV_2cse-a1-m55-cV 2cse-a1-m56-cV_2cse-a1-m57-cV 2cse-a1-m56-cV_2cse-a1-m60-cV 2cse-a1-m57-cV_2cse-a1-m58-cV 2cse-a1-m58-cV_2cse-a1-m59-cV 2cse-a1-m59-cV_2cse-a1-m60-cV 2cse-a1-m6-cV_2cse-a1-m7-cV 2cse-a1-m7-cV_2cse-a1-m8-cV 2cse-a1-m8-cV_2cse-a1-m9-cV 7elh-a1-m1-cD_7elh-a1-m1-cF 7elh-a1-m1-cH_7elh-a1-m1-cF 7elh-a1-m1-cJ_7elh-a1-m1-cH 7elh-a1-m1-cL_7elh-a1-m1-cD 7elh-a1-m1-cL_7elh-a1-m1-cJ 7yed-a1-m1-cB_7yed-a1-m1-cA 7yed-a1-m1-cB_7yed-a1-m1-cC 7yed-a1-m1-cD_7yed-a1-m1-cC 7yed-a1-m1-cD_7yed-a1-m1-cE 7yed-a1-m1-cE_7yed-a1-m1-cA 7yev-a1-m1-cB_7yev-a1-m1-cA 7yev-a1-m1-cB_7yev-a1-m1-cC 7yev-a1-m1-cD_7yev-a1-m1-cC 7yev-a1-m1-cD_7yev-a1-m1-cE 7yev-a1-m1-cE_7yev-a1-m1-cA 7yez-a1-m1-cB_7yez-a1-m1-cA 7yez-a1-m1-cB_7yez-a1-m1-cC 7yez-a1-m1-cD_7yez-a1-m1-cC 7yez-a1-m1-cD_7yez-a1-m1-cE 7yez-a1-m1-cE_7yez-a1-m1-cA 7yf0-a1-m1-cB_7yf0-a1-m1-cC 7yf0-a1-m1-cD_7yf0-a1-m1-cC 7yf0-a1-m1-cD_7yf0-a1-m1-cE 7yf0-a1-m1-cE_7yf0-a1-m1-cA 7yfe-a1-m1-cB_7yfe-a1-m1-cC 7yfe-a1-m1-cD_7yfe-a1-m1-cC 7yfe-a1-m1-cD_7yfe-a1-m1-cE 7yfe-a1-m1-cE_7yfe-a1-m1-cA NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP 1ej6-a1-m9-cB_1ej6-a1-m9-cC Reovirus core P15024 P15024 3.6 X-RAY DIFFRACTION 234 0.992 10891 (Reovirus sp.) 10891 (Reovirus sp.) 1031 1221 1ej6-a1-m10-cB_1ej6-a1-m10-cC 1ej6-a1-m11-cB_1ej6-a1-m11-cC 1ej6-a1-m12-cB_1ej6-a1-m12-cC 1ej6-a1-m13-cB_1ej6-a1-m13-cC 1ej6-a1-m14-cB_1ej6-a1-m14-cC 1ej6-a1-m15-cB_1ej6-a1-m15-cC 1ej6-a1-m16-cB_1ej6-a1-m16-cC 1ej6-a1-m17-cB_1ej6-a1-m17-cC 1ej6-a1-m18-cB_1ej6-a1-m18-cC 1ej6-a1-m19-cB_1ej6-a1-m19-cC 1ej6-a1-m1-cB_1ej6-a1-m1-cC 1ej6-a1-m20-cB_1ej6-a1-m20-cC 1ej6-a1-m21-cB_1ej6-a1-m21-cC 1ej6-a1-m22-cB_1ej6-a1-m22-cC 1ej6-a1-m23-cB_1ej6-a1-m23-cC 1ej6-a1-m24-cB_1ej6-a1-m24-cC 1ej6-a1-m25-cB_1ej6-a1-m25-cC 1ej6-a1-m26-cB_1ej6-a1-m26-cC 1ej6-a1-m27-cB_1ej6-a1-m27-cC 1ej6-a1-m28-cB_1ej6-a1-m28-cC 1ej6-a1-m29-cB_1ej6-a1-m29-cC 1ej6-a1-m2-cB_1ej6-a1-m2-cC 1ej6-a1-m30-cB_1ej6-a1-m30-cC 1ej6-a1-m31-cB_1ej6-a1-m31-cC 1ej6-a1-m32-cB_1ej6-a1-m32-cC 1ej6-a1-m33-cB_1ej6-a1-m33-cC 1ej6-a1-m34-cB_1ej6-a1-m34-cC 1ej6-a1-m35-cB_1ej6-a1-m35-cC 1ej6-a1-m36-cB_1ej6-a1-m36-cC 1ej6-a1-m37-cB_1ej6-a1-m37-cC 1ej6-a1-m38-cB_1ej6-a1-m38-cC 1ej6-a1-m39-cB_1ej6-a1-m39-cC 1ej6-a1-m3-cB_1ej6-a1-m3-cC 1ej6-a1-m40-cB_1ej6-a1-m40-cC 1ej6-a1-m41-cB_1ej6-a1-m41-cC 1ej6-a1-m42-cB_1ej6-a1-m42-cC 1ej6-a1-m43-cB_1ej6-a1-m43-cC 1ej6-a1-m44-cB_1ej6-a1-m44-cC 1ej6-a1-m45-cB_1ej6-a1-m45-cC 1ej6-a1-m46-cB_1ej6-a1-m46-cC 1ej6-a1-m47-cB_1ej6-a1-m47-cC 1ej6-a1-m48-cB_1ej6-a1-m48-cC 1ej6-a1-m49-cB_1ej6-a1-m49-cC 1ej6-a1-m4-cB_1ej6-a1-m4-cC 1ej6-a1-m50-cB_1ej6-a1-m50-cC 1ej6-a1-m51-cB_1ej6-a1-m51-cC 1ej6-a1-m52-cB_1ej6-a1-m52-cC 1ej6-a1-m53-cB_1ej6-a1-m53-cC 1ej6-a1-m54-cB_1ej6-a1-m54-cC 1ej6-a1-m55-cB_1ej6-a1-m55-cC 1ej6-a1-m56-cB_1ej6-a1-m56-cC 1ej6-a1-m57-cB_1ej6-a1-m57-cC 1ej6-a1-m58-cB_1ej6-a1-m58-cC 1ej6-a1-m59-cB_1ej6-a1-m59-cC 1ej6-a1-m5-cB_1ej6-a1-m5-cC 1ej6-a1-m60-cB_1ej6-a1-m60-cC 1ej6-a1-m6-cB_1ej6-a1-m6-cC 1ej6-a1-m7-cB_1ej6-a1-m7-cC 1ej6-a1-m8-cB_1ej6-a1-m8-cC 2cse-a1-m10-cV_2cse-a1-m6-cW 2cse-a1-m11-cV_2cse-a1-m12-cW 2cse-a1-m12-cV_2cse-a1-m13-cW 2cse-a1-m13-cV_2cse-a1-m14-cW 2cse-a1-m14-cV_2cse-a1-m15-cW 2cse-a1-m15-cV_2cse-a1-m11-cW 2cse-a1-m16-cV_2cse-a1-m17-cW 2cse-a1-m17-cV_2cse-a1-m18-cW 2cse-a1-m18-cV_2cse-a1-m19-cW 2cse-a1-m19-cV_2cse-a1-m20-cW 2cse-a1-m1-cV_2cse-a1-m2-cW 2cse-a1-m20-cV_2cse-a1-m16-cW 2cse-a1-m21-cV_2cse-a1-m22-cW 2cse-a1-m22-cV_2cse-a1-m23-cW 2cse-a1-m23-cV_2cse-a1-m24-cW 2cse-a1-m24-cV_2cse-a1-m25-cW 2cse-a1-m25-cV_2cse-a1-m21-cW 2cse-a1-m26-cV_2cse-a1-m27-cW 2cse-a1-m27-cV_2cse-a1-m28-cW 2cse-a1-m28-cV_2cse-a1-m29-cW 2cse-a1-m29-cV_2cse-a1-m30-cW 2cse-a1-m2-cV_2cse-a1-m3-cW 2cse-a1-m30-cV_2cse-a1-m26-cW 2cse-a1-m31-cV_2cse-a1-m32-cW 2cse-a1-m32-cV_2cse-a1-m33-cW 2cse-a1-m33-cV_2cse-a1-m34-cW 2cse-a1-m34-cV_2cse-a1-m35-cW 2cse-a1-m35-cV_2cse-a1-m31-cW 2cse-a1-m36-cV_2cse-a1-m37-cW 2cse-a1-m37-cV_2cse-a1-m38-cW 2cse-a1-m38-cV_2cse-a1-m39-cW 2cse-a1-m39-cV_2cse-a1-m40-cW 2cse-a1-m3-cV_2cse-a1-m4-cW 2cse-a1-m40-cV_2cse-a1-m36-cW 2cse-a1-m41-cV_2cse-a1-m42-cW 2cse-a1-m42-cV_2cse-a1-m43-cW 2cse-a1-m43-cV_2cse-a1-m44-cW 2cse-a1-m44-cV_2cse-a1-m45-cW 2cse-a1-m45-cV_2cse-a1-m41-cW 2cse-a1-m46-cV_2cse-a1-m47-cW 2cse-a1-m47-cV_2cse-a1-m48-cW 2cse-a1-m48-cV_2cse-a1-m49-cW 2cse-a1-m49-cV_2cse-a1-m50-cW 2cse-a1-m4-cV_2cse-a1-m5-cW 2cse-a1-m50-cV_2cse-a1-m46-cW 2cse-a1-m51-cV_2cse-a1-m52-cW 2cse-a1-m52-cV_2cse-a1-m53-cW 2cse-a1-m53-cV_2cse-a1-m54-cW 2cse-a1-m54-cV_2cse-a1-m55-cW 2cse-a1-m55-cV_2cse-a1-m51-cW 2cse-a1-m56-cV_2cse-a1-m57-cW 2cse-a1-m57-cV_2cse-a1-m58-cW 2cse-a1-m58-cV_2cse-a1-m59-cW 2cse-a1-m59-cV_2cse-a1-m60-cW 2cse-a1-m5-cV_2cse-a1-m1-cW 2cse-a1-m60-cV_2cse-a1-m56-cW 2cse-a1-m6-cV_2cse-a1-m7-cW 2cse-a1-m7-cV_2cse-a1-m8-cW 2cse-a1-m8-cV_2cse-a1-m9-cW 2cse-a1-m9-cV_2cse-a1-m10-cW 6zts-a1-m1-cB_6zts-a1-m1-cA 7elh-a1-m1-cD_7elh-a1-m1-cE 7elh-a1-m1-cF_7elh-a1-m1-cG 7elh-a1-m1-cH_7elh-a1-m1-cI 7elh-a1-m1-cJ_7elh-a1-m1-cK 7elh-a1-m1-cL_7elh-a1-m1-cM 7yed-a1-m1-ca_7yed-a1-m1-cA 7yed-a1-m1-cB_7yed-a1-m1-cb 7yed-a1-m1-cc_7yed-a1-m1-cC 7yed-a1-m1-cD_7yed-a1-m1-cd 7yed-a1-m1-cE_7yed-a1-m1-ce 7yev-a1-m1-ca_7yev-a1-m1-cA 7yev-a1-m1-cB_7yev-a1-m1-cb 7yev-a1-m1-cc_7yev-a1-m1-cC 7yev-a1-m1-cD_7yev-a1-m1-cd 7yev-a1-m1-cE_7yev-a1-m1-ce 7yez-a1-m1-ca_7yez-a1-m1-cA 7yez-a1-m1-cB_7yez-a1-m1-cb 7yez-a1-m1-cc_7yez-a1-m1-cC 7yez-a1-m1-cD_7yez-a1-m1-cd 7yez-a1-m1-cE_7yez-a1-m1-ce 7yf0-a1-m1-cB_7yf0-a1-m1-cb 7yf0-a1-m1-cC_7yf0-a1-m1-cc 7yf0-a1-m1-cD_7yf0-a1-m1-cd 7yf0-a1-m1-cE_7yf0-a1-m1-ce 7yfe-a1-m1-cB_7yfe-a1-m1-cb 7yfe-a1-m1-cC_7yfe-a1-m1-cc 7yfe-a1-m1-cD_7yfe-a1-m1-cd 7yfe-a1-m1-cE_7yfe-a1-m1-ce NKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTVSESTTQTLSPASSILGKLRPFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP MKRIPRKTKGKSPATTEPGTSNREQYRARPGIASVQRATESAELPMKNNDEGTPDKKGNTRGDLVNEHSEAKDEADEATQKQAKDTDKSKAQVTYSDTGINNANELSRSGNVDNEGGSNQKPMSTRIAEATSAIVSKHPAYQCHVCSAVLFSPLDLDAHVASHGLHGNEIQRHITEFISSWQNHPIVQVSADVENKKTAQLLHADTPRLVTWDAGLCTSFKIVPIVPAQVPQDVLAYTFFTSSYAIQSPFPEAAVSRIVVHTRWASNVDFDRDSSVIMAPPTENNIHLFKQLLNTETLSVRGANPLMFRANVLHMLLEFVLDNLYLNRHTGFSQDHTPFTEGANLRSLPGPDAEKWYSIMYPTRMGTPNVSKICNFVASCVRNRVGRFDRAQMMNGAMSEWVDVFETSDALTVSIRGRWMARLARMNINPTEIEWALTECAQGYVTVTSPYAPSVNRLMPYRISNAERQISQIIRIMNIGNNATVIQPVLQDISVLLQRISPLQIDPTIISNTMSTLSPASSILGKLRPSNSDFSSFRVALAGWLYNGVVTTVIDDSSYPKDGGSVTSLENLWDFFILALALPLTTDPCAPVKAFMTLANMMVGFETIPMDNQIYTQSRRASAFSTPHTWPRCFMNIQLISPIDAPILRQWAEIIHRYWPNPSQIRYGAPNVFGSANLFTPPEVLLLPIDHQPANVTTPTLDFTNELTNWRARVCELMKNLVDNQRYQPGWTQSLVSSMRGTLDKLKLIKSMTPMYLQQLAPVELAVIAPMLPFPPFQVPYVRLDRDRVPTMVGVTRQSRDTITQPALSLSTTNTTVGVPLALDARAITVALLSGKYPPDLVTNVWYADAIYPMYADTEVFSNLQRDMITCEAVQTLVTLVAQISETQYPVDRYLDWIPSLRASAATAATFAEWVNTSMKTAFDLSDMLLEPLLSGDPRMTQLAIQYQQYNGRTFNVIPEMPGSVIADCVQLTAEVFNHEYNLFGIARGDIIIGRVQSTHLWSPLAPPPDLVFDRDTPGVHIFGRDCRISFGMNGAAPMIRDETGMMVPFEGNWIFPLALWQMNTRYFNQQFDAWIKTGELRIRIEMGAYPYMLHYYDPRQYANAWNLTSAWLEEITPTSIPSVPFMVPISSDHDISSAPAVQYIISTEYNDRSLFCTNSSSPQTIAGPDKHIPVERYNILTNPDAPPTQIQLPEVVDLYNVVTRYAYETPPITAVVMGVP 1ejb-a1-m1-cA_1ejb-a1-m1-cE LUMAZINE SYNTHASE FROM SACCHAROMYCES CEREVISIAE P50861 P50861 1.85 X-RAY DIFFRACTION 75 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 168 168 1ejb-a1-m1-cA_1ejb-a1-m1-cB 1ejb-a1-m1-cB_1ejb-a1-m1-cC 1ejb-a1-m1-cC_1ejb-a1-m1-cD 1ejb-a1-m1-cD_1ejb-a1-m1-cE AVKGLGKPDQVYDGSKIRVGIIHARWNRVIIDALVKGAIERMASLGVEENNIIIETVPGSYELPWGTKRFVDRQAKLGKPLDVVIPIGVLIKGSTMHFEYISDSTTHALMNLQEKVDMPVIFGLLTCMTEEQALARAGIDEAHSMHNHGEDWGAAAVEMAVKFGKNAF AVKGLGKPDQVYDGSKIRVGIIHARWNRVIIDALVKGAIERMASLGVEENNIIIETVPGSYELPWGTKRFVDRQAKLGKPLDVVIPIGVLIKGSTMHFEYISDSTTHALMNLQEKVDMPVIFGLLTCMTEEQALARAGIDEAHSMHNHGEDWGAAAVEMAVKFGKNAF 1eje-a1-m1-cA_1eje-a1-m2-cA CRYSTAL STRUCTURE OF AN FMN-BINDING PROTEIN O26255 O26255 2.2 X-RAY DIFFRACTION 322 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 192 192 GSQAAHMMSMDFEDFPVESAHRILTPRPTVMVTTVDEEGNINAAPFSFTMPVSIDPPVVAFASAPDHHTARNIESTHEFVINITPADIIERMWVTARDIPAGENELEAAGLAWTSSRRVKPPRIVEAPGHLECELLRMFEVGDHNLITGSVVSASVRSGAVKEGLLDVESVKPVLHVGGNKFVVGDHVRHVE GSQAAHMMSMDFEDFPVESAHRILTPRPTVMVTTVDEEGNINAAPFSFTMPVSIDPPVVAFASAPDHHTARNIESTHEFVINITPADIIERMWVTARDIPAGENELEAAGLAWTSSRRVKPPRIVEAPGHLECELLRMFEVGDHNLITGSVVSASVRSGAVKEGLLDVESVKPVLHVGGNKFVVGDHVRHVE 1ejf-a1-m1-cA_1ejf-a1-m1-cB CRYSTAL STRUCTURE OF THE HUMAN CO-CHAPERONE P23 Q15185 Q15185 2.49 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 MQPASAKWYDRRDYVFIEFCVEDSKDVNVNFEKSKLTFSCLGGSDNFKHLNEIDLFHCIDPNDSKHKRTDRSILCCLRKGESGQSWPRLTKERAKLNWLSVDFNNWKDWE MQPASAKWYDRRDYVFIEFCVEDSKDVNVNFEKSKLTFSCLGGSDNFKHLNEIDLFHCIDPNDSKHKRTDRSILCCLRKGESGQSWPRLTKERAKLNWLSVDFNNWKDWE 1eji-a1-m1-cB_1eji-a1-m1-cD RECOMBINANT SERINE HYDROXYMETHYLTRANSFERASE (MOUSE) P50431 P50431 2.9 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 467 467 1eji-a1-m1-cA_1eji-a1-m1-cC MADRDATLWASHEKLSQPLKDSDAEVYSIIKKESNRQRVGLELIASENFASRAVLEALGSSLNNKYSEGYPGQRYYGGTEFIDELELCQKRALQAYHLDPQCWGVNVQPYSGSPANFAVYTALVEPHGRIGLDLPDGGHLTHGFTDKKKISATSIFFESPYKVYPETGYINYDQLEENASLFHPKLIIAGTSCYSRNLDYARLRKIADDNGAYLADAHISGLVAAGVVPSPFEHCHVVTTTTHKTLRGCRAGIFYRKGVRSVDPKTGKETYYELESLINSAVFPGLQGGPHNHAIAGVAVALKQATTEFKIYQLQVLANCRALSDALTELGYKIVTGGSDNHLILDLRSKGTDGGRAEKVLEACSIACNKNTCPGDKSALRPSGLRLGTPALTSRGLLEEDFQKVAHFIHRGIELTLQIQSHATKATLKEFKEKLAGDEKIQSAVATLREEVENFASNFSLPGLPDF MADRDATLWASHEKLSQPLKDSDAEVYSIIKKESNRQRVGLELIASENFASRAVLEALGSSLNNKYSEGYPGQRYYGGTEFIDELELCQKRALQAYHLDPQCWGVNVQPYSGSPANFAVYTALVEPHGRIGLDLPDGGHLTHGFTDKKKISATSIFFESPYKVYPETGYINYDQLEENASLFHPKLIIAGTSCYSRNLDYARLRKIADDNGAYLADAHISGLVAAGVVPSPFEHCHVVTTTTHKTLRGCRAGIFYRKGVRSVDPKTGKETYYELESLINSAVFPGLQGGPHNHAIAGVAVALKQATTEFKIYQLQVLANCRALSDALTELGYKIVTGGSDNHLILDLRSKGTDGGRAEKVLEACSIACNKNTCPGDKSALRPSGLRLGTPALTSRGLLEEDFQKVAHFIHRGIELTLQIQSHATKATLKEFKEKLAGDEKIQSAVATLREEVENFASNFSLPGLPDF 1eji-a1-m1-cC_1eji-a1-m1-cD RECOMBINANT SERINE HYDROXYMETHYLTRANSFERASE (MOUSE) P50431 P50431 2.9 X-RAY DIFFRACTION 305 1.0 10090 (Mus musculus) 10090 (Mus musculus) 467 467 1eji-a1-m1-cA_1eji-a1-m1-cB MADRDATLWASHEKLSQPLKDSDAEVYSIIKKESNRQRVGLELIASENFASRAVLEALGSSLNNKYSEGYPGQRYYGGTEFIDELELCQKRALQAYHLDPQCWGVNVQPYSGSPANFAVYTALVEPHGRIGLDLPDGGHLTHGFTDKKKISATSIFFESPYKVYPETGYINYDQLEENASLFHPKLIIAGTSCYSRNLDYARLRKIADDNGAYLADAHISGLVAAGVVPSPFEHCHVVTTTTHKTLRGCRAGIFYRKGVRSVDPKTGKETYYELESLINSAVFPGLQGGPHNHAIAGVAVALKQATTEFKIYQLQVLANCRALSDALTELGYKIVTGGSDNHLILDLRSKGTDGGRAEKVLEACSIACNKNTCPGDKSALRPSGLRLGTPALTSRGLLEEDFQKVAHFIHRGIELTLQIQSHATKATLKEFKEKLAGDEKIQSAVATLREEVENFASNFSLPGLPDF MADRDATLWASHEKLSQPLKDSDAEVYSIIKKESNRQRVGLELIASENFASRAVLEALGSSLNNKYSEGYPGQRYYGGTEFIDELELCQKRALQAYHLDPQCWGVNVQPYSGSPANFAVYTALVEPHGRIGLDLPDGGHLTHGFTDKKKISATSIFFESPYKVYPETGYINYDQLEENASLFHPKLIIAGTSCYSRNLDYARLRKIADDNGAYLADAHISGLVAAGVVPSPFEHCHVVTTTTHKTLRGCRAGIFYRKGVRSVDPKTGKETYYELESLINSAVFPGLQGGPHNHAIAGVAVALKQATTEFKIYQLQVLANCRALSDALTELGYKIVTGGSDNHLILDLRSKGTDGGRAEKVLEACSIACNKNTCPGDKSALRPSGLRLGTPALTSRGLLEEDFQKVAHFIHRGIELTLQIQSHATKATLKEFKEKLAGDEKIQSAVATLREEVENFASNFSLPGLPDF 1ejp-a1-m1-cA_1ejp-a1-m1-cB SOLUTION STRUCTURE OF THE SYNDECAN-4 WHOLE CYTOPLASMIC DOMAIN P31431 P31431 NOT SOLUTION NMR 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 RMKKKDEGSYDLGKKPIYKKAPTNEFYA RMKKKDEGSYDLGKKPIYKKAPTNEFYA 1ejq-a1-m1-cA_1ejq-a1-m1-cB SOLUTION STRUCTURE OF THE SYNDECAN-4 WHOLE CYTOPLASMIC DOMAIN IN THE PRESENCE OF PHOSPHATIDYLINOSITOL 4,5-BISPHOSPHATE P31431 P31431 NOT SOLUTION NMR 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 RMKKKDEGSYDLGKKPIYKKAPTNEFYA RMKKKDEGSYDLGKKPIYKKAPTNEFYA 1eke-a1-m1-cA_1eke-a1-m1-cB CRYSTAL STRUCTURE OF CLASS II RIBONUCLEASE H (RNASE HII) WITH MES LIGAND Q57599 Q57599 2 X-RAY DIFFRACTION 17 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 219 222 IIIGIDEAGRGPVLGPVVCAFAIEKEREEELKKLGVKELTKNKRAYLKKLLENLGYVEKRILEAEEINQLNSINLNDIEINAFSKVAKNLIEKLNIRDDEIEIYIDACSTNTKKFEDSFKDKIEDIIKERNLNIKIIAEHKADAKYPVVSAASIIAKAERDEIIDYYKKIYGDIGSGYPSDPKTIKFLEDYFKKHKKLPDIARTHWKTCKRILDKSKQT IIIGIDEAGRGPVLGPVVCAFAIEKEREEELKKLGVKDSKELTKNKRAYLKKLLENLGYVEKRILEAEEINQLNSINLNDIEINAFSKVAKNLIEKLNIRDDEIEIYIDACSTNTKKFEDSFKDKIEDIIKERNLNIKIIAEHKADAKYPVVSAASIIAKAERDEIIDYYKKIYGDIGSGYPSDPKTIKFLEDYFKKHKKLPDIARTHWKTCKRILDKSKQT 1elu-a1-m1-cA_1elu-a1-m1-cB COMPLEX BETWEEN THE CYSTINE C-S LYASE C-DES AND ITS REACTION PRODUCT CYSTEINE PERSULFIDE. Q9ZHG9 Q9ZHG9 1.55 X-RAY DIFFRACTION 246 1.0 1147 (Synechocystis sp. PCC 6714) 1147 (Synechocystis sp. PCC 6714) 381 381 1elq-a1-m1-cA_1elq-a1-m1-cB 1n2t-a1-m1-cA_1n2t-a1-m1-cB 1n31-a1-m1-cA_1n31-a1-m1-cB QFPGLANKTYFNFGGQGILPTVALEAITAMYGYLQENGPFSIAANQHIQQLIAQLRQALAETFNVDPNTITITDNVTTGCDIVLWGLDWHQGDEILLTDCEHPGIIAIVQAIAARFGITYRFFPVAATLNQGDAAAVLANHLGPKTRLVILSHLLWNTGQVLPLAEIMAVCRRHQGNYPVRVLVDGAQSAGSLPLDFSRLEVDYYAFTGHKWFAGPAGVGGLYIHGDCLGEINPTYVGWRSITYGAKGEPTGWAEGGKRFEVATSAYPQYAGLLAALQLHQRQGTAEERYQAICQRSEFLWRGLNQLPHVHCLATSAPQAGLVSFTVDSPLGHRAIVQKLEEQRIYLRTIADPDCIRACCHYITDEEEINHLLARLADFGP QFPGLANKTYFNFGGQGILPTVALEAITAMYGYLQENGPFSIAANQHIQQLIAQLRQALAETFNVDPNTITITDNVTTGCDIVLWGLDWHQGDEILLTDCEHPGIIAIVQAIAARFGITYRFFPVAATLNQGDAAAVLANHLGPKTRLVILSHLLWNTGQVLPLAEIMAVCRRHQGNYPVRVLVDGAQSAGSLPLDFSRLEVDYYAFTGHKWFAGPAGVGGLYIHGDCLGEINPTYVGWRSITYGAKGEPTGWAEGGKRFEVATSAYPQYAGLLAALQLHQRQGTAEERYQAICQRSEFLWRGLNQLPHVHCLATSAPQAGLVSFTVDSPLGHRAIVQKLEEQRIYLRTIADPDCIRACCHYITDEEEINHLLARLADFGP 1ems-a1-m1-cB_1ems-a1-m2-cB CRYSTAL STRUCTURE OF THE C. ELEGANS NITFHIT PROTEIN O76463 O76463 2.8 X-RAY DIFFRACTION 244 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 410 410 1ems-a1-m1-cA_1ems-a1-m2-cA MATGRHFIAVCQMTSDNDLEKNFQAAKNMIERAGEKKCEMVFLPECFDFIGLNKNEQIDLAMATDCEYMEKYRELARKHNIWLSLGGLHHKDPSDAAHPWNTHLIIDSDGVTRAEYNKLHLFDLEIPGKVRLMESEFSKAGTEMIPPVDTPIGRLGLSICYDVRFPELSLWNRKRGAQLLSFPSAFTLNTGLAHWETLLRARAIENQCYVVAAAQTGAHNPKRQSYGHSMVVDPWGAVVAQCSERVDMCFAEIDLSYVDTLREMQPVFSHRRSDLYTLHINEKSSETGGLKFARFNIPADHIFYSTPHSFVFVNLKPVTDGHVLVSPKRVVPRLTDLTDAETADLFIVAKKVQAMLEKHHNVTSTTICVQDGKDAGQTVPHVHIHILPRRAGDRSNEQMAEEAVVYRNLM MATGRHFIAVCQMTSDNDLEKNFQAAKNMIERAGEKKCEMVFLPECFDFIGLNKNEQIDLAMATDCEYMEKYRELARKHNIWLSLGGLHHKDPSDAAHPWNTHLIIDSDGVTRAEYNKLHLFDLEIPGKVRLMESEFSKAGTEMIPPVDTPIGRLGLSICYDVRFPELSLWNRKRGAQLLSFPSAFTLNTGLAHWETLLRARAIENQCYVVAAAQTGAHNPKRQSYGHSMVVDPWGAVVAQCSERVDMCFAEIDLSYVDTLREMQPVFSHRRSDLYTLHINEKSSETGGLKFARFNIPADHIFYSTPHSFVFVNLKPVTDGHVLVSPKRVVPRLTDLTDAETADLFIVAKKVQAMLEKHHNVTSTTICVQDGKDAGQTVPHVHIHILPRRAGDRSNEQMAEEAVVYRNLM 1ems-a1-m2-cB_1ems-a1-m2-cA CRYSTAL STRUCTURE OF THE C. ELEGANS NITFHIT PROTEIN O76463 O76463 2.8 X-RAY DIFFRACTION 61 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 410 412 1ems-a1-m1-cB_1ems-a1-m1-cA MATGRHFIAVCQMTSDNDLEKNFQAAKNMIERAGEKKCEMVFLPECFDFIGLNKNEQIDLAMATDCEYMEKYRELARKHNIWLSLGGLHHKDPSDAAHPWNTHLIIDSDGVTRAEYNKLHLFDLEIPGKVRLMESEFSKAGTEMIPPVDTPIGRLGLSICYDVRFPELSLWNRKRGAQLLSFPSAFTLNTGLAHWETLLRARAIENQCYVVAAAQTGAHNPKRQSYGHSMVVDPWGAVVAQCSERVDMCFAEIDLSYVDTLREMQPVFSHRRSDLYTLHINEKSSETGGLKFARFNIPADHIFYSTPHSFVFVNLKPVTDGHVLVSPKRVVPRLTDLTDAETADLFIVAKKVQAMLEKHHNVTSTTICVQDGKDAGQTVPHVHIHILPRRAGDRSNEQMAEEAVVYRNLM MATGRHFIAVCQMTSDNDLEKNFQAAKNMIERAGEKKCEMVFLPECFDFIGLNKNEQIDLAMATDCEYMEKYRELARKHNIWLSLGGLHHKDPSDAAHPWNTHLIIDSDGVTRAEYNKLHLFDLEIPGKVRLMESEFSKAGTEMIPPVDTPIGRLGLSICYDVRFPELSLWNRKRGAQLLSFPSAFTLNTGLAHWETLLRARAIENQCYVVAAAQTGAHNPKRQSYGHSMVVDPWGAVVAQCSERVDMCFAEIDLSYVDTLREMQPVFSHRRSDLYTLHINEKSSETGGLKFARFNIPADHIFYSTPHSFVFVNLKPVTDGHVLVSPKRVVPRLTDLTDAETADLFIVAKKVQAMLEKHHNVTSTTICVQDGKDAGQTVPHVHIHILPRRAGDFPRSNEQMAEEAVVYRNLM 1en4-a2-m1-cC_1en4-a2-m1-cD CRYSTAL STRUCTURE ANALYSIS OF THE E. COLI MANGANESE SUPEROXIDE DISMUTASE Q146H MUTANT P00448 P00448 2 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 205 205 1d5n-a1-m1-cA_1d5n-a1-m1-cB 1d5n-a2-m1-cC_1d5n-a2-m1-cD 1en4-a1-m1-cA_1en4-a1-m1-cB 1en5-a1-m1-cA_1en5-a1-m1-cB 1en5-a2-m1-cC_1en5-a2-m1-cD 1en6-a1-m1-cA_1en6-a1-m1-cB 1en6-a2-m1-cC_1en6-a2-m1-cD 1i08-a1-m1-cA_1i08-a1-m1-cB 1i08-a2-m1-cC_1i08-a2-m1-cD 1i0h-a1-m1-cA_1i0h-a1-m1-cB 1ix9-a1-m1-cA_1ix9-a1-m1-cB 1ixb-a1-m1-cA_1ixb-a1-m1-cB 1mmm-a1-m1-cA_1mmm-a1-m1-cB 1vew-a1-m1-cA_1vew-a1-m1-cB 1vew-a2-m1-cC_1vew-a2-m1-cD 1zlz-a1-m1-cA_1zlz-a1-m1-cB 3k9s-a1-m1-cA_3k9s-a1-m1-cB 3k9s-a2-m1-cC_3k9s-a2-m1-cD 3ot7-a1-m1-cA_3ot7-a1-m1-cB 3ot7-a2-m1-cC_3ot7-a2-m1-cD SYTLPSLPYAYDALEPHFDKQTMEIHHTKHHQTYVNNANAALESLPEFANLPVEELITKLDQLPADKKTVLRNNAGGHANHSLFWKGLKKGTTLQGDLKAAIERDFGSVDNFKAEFEKAAASRFGSGWAWLVLKGDKLAVVSTANHDSPLMGEAISGASGFPIMGLDVWEHAYYLKFQNRRPDYIKEFWNVVNWDEAAARFAAKK SYTLPSLPYAYDALEPHFDKQTMEIHHTKHHQTYVNNANAALESLPEFANLPVEELITKLDQLPADKKTVLRNNAGGHANHSLFWKGLKKGTTLQGDLKAAIERDFGSVDNFKAEFEKAAASRFGSGWAWLVLKGDKLAVVSTANHDSPLMGEAISGASGFPIMGLDVWEHAYYLKFQNRRPDYIKEFWNVVNWDEAAARFAAKK 1eo6-a1-m1-cA_1eo6-a1-m1-cB CRYSTAL STRUCTURE OF GATE-16 P60519 P60519 1.8 X-RAY DIFFRACTION 55 1.0 9913 (Bos taurus) 9913 (Bos taurus) 116 117 MKWMFKEDHSLEHRCVESAKIRAKYPDRVPVIVEKVSGSQIVDIDKRKYLVPSDITVAQFMWIIRKRIQLPSEKAIFLFVDKTVPQSSLTMGQLYEKEKDEDGFLYVAYSGENTFG MKWMFKEDHSLEHRCVESAKIRAKYPDRVPVIVEKVSGSQIVDIDKRKYLVPSDITVAQFMWIIRKRIQLPSEKAIFLFVDKTVPQSSLTMGQLYEKEKDEDGFLYVAYSGENTFGF 1ep0-a1-m1-cA_1ep0-a1-m2-cA HIGH RESOLUTION CRYSTAL STRUCTURE OF DTDP-6-DEOXY-D-XYLO-4-HEXULOSE 3,5-EPIMERASE FROM METHANOBACTERIUM THERMOAUTOTROPHICUM O27818 O27818 1.5 X-RAY DIFFRACTION 97 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 183 183 1epz-a1-m1-cA_1epz-a1-m2-cA EFRFIKTSLDGAIIIEPEVYTDERGYFMETFNEAIFQENGLEVRFVQDNESMSVRGVLRGLHFQREKPQGKLVRVIRGEIFDVAVDLRKNSDTYGEWTGVRLSDENRREFFIPEGFAHGFLALSDECIVNYKCTELYHPEYDSGIPWDDPDIGIDWPLEMVDDLIISEKDRNWKPLRENPVYL EFRFIKTSLDGAIIIEPEVYTDERGYFMETFNEAIFQENGLEVRFVQDNESMSVRGVLRGLHFQREKPQGKLVRVIRGEIFDVAVDLRKNSDTYGEWTGVRLSDENRREFFIPEGFAHGFLALSDECIVNYKCTELYHPEYDSGIPWDDPDIGIDWPLEMVDDLIISEKDRNWKPLRENPVYL 1ep3-a1-m1-cA_1ep3-a1-m2-cA CRYSTAL STRUCTURE OF LACTOCOCCUS LACTIS DIHYDROOROTATE DEHYDROGENASE B. DATA COLLECTED UNDER CRYOGENIC CONDITIONS. P54322 P54322 2.1 X-RAY DIFFRACTION 119 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 311 311 1ep1-a1-m1-cA_1ep1-a1-m2-cA 1ep2-a1-m1-cA_1ep2-a1-m2-cA 5ksw-a1-m1-cA_5ksw-a1-m3-cA 5ksw-a2-m1-cC_5ksw-a2-m2-cC 5ue9-a1-m1-cA_5ue9-a1-m3-cA 5ue9-a2-m1-cC_5ue9-a2-m2-cC MTENNRLSVKLPGLDLKNPIIPASGCFGFGEEYAKYYDLNKLGSIMVKATTLHPRFGNPTPRVAETASGMLNAIGLQNPGLEVIMTEKLPWLNENFPELPIIANVAGSEEADYVAVCAKIGDAANVKAIELNISCPNVKHGGQAFGTDPEVAAALVKACKAVSKVPLYVKLSPNVTDIVPIAKAVEAAGADGLTMINTLMGVRFDLKTRQPILANITGGLSGPAIKPVALKLIHQVAQDVDIPIIGMGGVANAQDVLEMYMAGASAVAVGTANFADPFVCPKIIDKLPELMDQYRIESLESLIQEVKEGKK MTENNRLSVKLPGLDLKNPIIPASGCFGFGEEYAKYYDLNKLGSIMVKATTLHPRFGNPTPRVAETASGMLNAIGLQNPGLEVIMTEKLPWLNENFPELPIIANVAGSEEADYVAVCAKIGDAANVKAIELNISCPNVKHGGQAFGTDPEVAAALVKACKAVSKVPLYVKLSPNVTDIVPIAKAVEAAGADGLTMINTLMGVRFDLKTRQPILANITGGLSGPAIKPVALKLIHQVAQDVDIPIIGMGGVANAQDVLEMYMAGASAVAVGTANFADPFVCPKIIDKLPELMDQYRIESLESLIQEVKEGKK 1epa-a1-m1-cA_1epa-a1-m1-cB STRUCTURE OF THE EPIDIDYMAL RETINOIC ACID-BINDING PROTEIN AT 2.1 ANGSTROMS RESOLUTION P06911 P06911 2.1 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 160 164 1epb-a1-m1-cA_1epb-a1-m1-cB VKDFDISKFLGFWYEIAFASKMGTPGLAHKEEKMGAMVVELKENLLALTTTYYSEDHCVLEKVTATEGDGPAKFQVTRLSGKKEVVVEATDYLTYAIIDITSLVAGAVHRTMKLYSRSLDDNGEALYNFRKITSDHGFSETDLYILKHDLTCVKVLQSAA AVVKDFDISKFLGFWYEIAFASKMGTPGLAHKEEKMGAMVVELKENLLALTTTYYSEDHCVLEKVTATEGDGPAKFQVTRLSGKKEVVVEATDYLTYAIIDITSLVAGAVHRTMKLYSRSLDDNGEALYNFRKITSDHGFSETDLYILKHDLTCVKVLQSAAES 1epf-a2-m1-cC_1epf-a2-m1-cD CRYSTAL STRUCTURE OF THE TWO N-TERMINAL IMMUNOGLOBULIN DOMAINS OF THE NEURAL CELL ADHESION MOLECULE (NCAM) P13596 P13596 1.85 X-RAY DIFFRACTION 42 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 190 191 1epf-a1-m1-cA_1epf-a1-m1-cB VLQVDIVPSQGEISVGESKFFLCQVAGDAKDKDISWFSPNGEKLSPNQQRISVVWNDDDSSTLTIYNANIDDAGIYKCVVTAEDGTQSEATVNVKIFQKLMFKNAPTPQEFKEGEDAVIVCDVVSSLPPTIIWKHKGRDVILKKDVRFIVLSNNYLQIRGIKKTDEGTYRCEGRILARGEINFKDIQVIV RVLQVDIVPSQGEISVGESKFFLCQVAGDAKDKDISWFSPNGEKLSPNQQRISVVWNDDDSSTLTIYNANIDDAGIYKCVVTAEDGTQSEATVNVKIFQKLMFKNAPTPQEFKEGEDAVIVCDVVSSLPPTIIWKHKGRDVILKKDVRFIVLSNNYLQIRGIKKTDEGTYRCEGRILARGEINFKDIQVIV 1eq8-a1-m1-cD_1eq8-a1-m1-cE THREE-DIMENSIONAL STRUCTURE OF THE PENTAMERIC HELICAL BUNDLE OF THE ACETYLCHOLINE RECEPTOR M2 TRANSMEMBRANE SEGMENT P02718 P02718 NOT SOLID-STATE NMR 24 1.0 7787 (Tetronarce californica) 7787 (Tetronarce californica) 23 23 1eq8-a1-m1-cA_1eq8-a1-m1-cB 1eq8-a1-m1-cA_1eq8-a1-m1-cE 1eq8-a1-m1-cB_1eq8-a1-m1-cC 1eq8-a1-m1-cC_1eq8-a1-m1-cD EKMSTAISVLLAQAVFLLLTSQR EKMSTAISVLLAQAVFLLLTSQR 1eq9-a1-m1-cB_1eq9-a1-m1-cA CRYSTAL STRUCTURE OF FIRE ANT CHYMOTRYPSIN COMPLEXED TO PMSF Q7SIG2 Q7SIG2 1.7 X-RAY DIFFRACTION 52 1.0 13686 (Solenopsis invicta) 13686 (Solenopsis invicta) 222 222 IVGGKDAPVGKYPYQVSLRLSGSHRCGASILDNNNVLTAAHCVDGLSNLNRLKVHVGTNYLSESGDVYDVEDAVVNKNYDDFLLRNDVALVHLTNPIKFNDLVQPIKLSTNDEDLESNPCTLTGWGSTRLGGNTPNALQEIELIVHPQKQCERDQWRVIDSHICTLTKRGEGACHGDSGGPLVANGAQIGIVSFGSPCALGEPDVYTRVSSFVSWINANLKK IVGGKDAPVGKYPYQVSLRLSGSHRCGASILDNNNVLTAAHCVDGLSNLNRLKVHVGTNYLSESGDVYDVEDAVVNKNYDDFLLRNDVALVHLTNPIKFNDLVQPIKLSTNDEDLESNPCTLTGWGSTRLGGNTPNALQEIELIVHPQKQCERDQWRVIDSHICTLTKRGEGACHGDSGGPLVANGAQIGIVSFGSPCALGEPDVYTRVSSFVSWINANLKK 1eqr-a1-m1-cA_1eqr-a1-m1-cB CRYSTAL STRUCTURE OF FREE ASPARTYL-TRNA SYNTHETASE FROM ESCHERICHIA COLI P21889 P21889 2.7 X-RAY DIFFRACTION 355 1.0 562 (Escherichia coli) 562 (Escherichia coli) 590 590 MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN 1eqr-a1-m1-cA_1eqr-a1-m1-cC CRYSTAL STRUCTURE OF FREE ASPARTYL-TRNA SYNTHETASE FROM ESCHERICHIA COLI P21889 P21889 2.7 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 590 590 MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN 1eqr-a1-m1-cB_1eqr-a1-m1-cC CRYSTAL STRUCTURE OF FREE ASPARTYL-TRNA SYNTHETASE FROM ESCHERICHIA COLI P21889 P21889 2.7 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 590 590 MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN MRTEYCGQLRLSHVGQQVTLCGWVNRRRDLGSLIFIDMRDREGIVQVFFDPDRADALKLASELRNEFCIQVTGTVRARDEKNINRDMATGEIEVLASSLTIINRADVLPLDSNHVNTEEARLKYRYLDLRRPEMAQRLKTRAKITSLVRRFMDDHGFLDIETPMLTKATPEGARDYLVPSRVHKGKFYALPQSPQLFKQLLMMSGFDRYYQIVKCFRDEDLRADRQPEFTQIDVETSFMTAPQVREVMEALVRHLWLEVKGVDLGDFPVMTFAEAERRYGSDKPDLRNPMELTDVADLLKSVEFAVFAGPANDPKGRVAALRVPGGASLTRKQIDEYGNFVKIYGAKGLAYIKVNERAKGLEGINSPVAKFLNAEIIEDILDRTAAQDGDMIFFGADNKKIVADAMGALRLKVGKDLGLTDESKWAPLWVIDFPMFEDDGEGGLTAMHHPFTSPKDMTAAELKAAPENAVANAYDMVINGYEVGGGSVRIHNGDMQQTVFGILGINEEEQREKFGFLLDALKYGTPPHAGLAFGLDRLTMLLTGTDNIRDVIAFPKTTAAACLMTEAPSFANPTALAELSIQVVKKAENN 1ern-a1-m1-cA_1ern-a1-m1-cB NATIVE STRUCTURE OF THE EXTRACELLULAR DOMAIN OF ERYTHROPOIETIN (EPO) RECEPTOR [EBP] P19235 P19235 2.4 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 209 KFESKAALLAAEELLCFTERLEDLVCFWEEAASAGVGPGNYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADEGHVVLRWLPPPETPMTSHIRYEVDVSAGGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTP KFESKAALLAAEELLCFTERLEDLVCFWEEAASAGVGPGNYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPS 1es8-a1-m1-cA_1es8-a1-m2-cA Crystal structure of free BglII Q45488 Q45488 2.3 X-RAY DIFFRACTION 21 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 192 192 KIDITDYNHADEILNPQLWKEIEETLLKPLHVKASSLIFDPVGTNQYIKDELVPKHWKNNIPIPKRFDFLGTDIDFGKRDTLVEVQFSNYPFLLNNTVRSELFHKGKVAIIITKGHFPASNSSLYYEQAQNQLNSLAEYNVFDVPIRLVGLIEDFETDIDIVSTTYADKSRTITKRDTVKGKVIDRGTIVTY KIDITDYNHADEILNPQLWKEIEETLLKPLHVKASSLIFDPVGTNQYIKDELVPKHWKNNIPIPKRFDFLGTDIDFGKRDTLVEVQFSNYPFLLNNTVRSELFHKGKVAIIITKGHFPASNSSLYYEQAQNQLNSLAEYNVFDVPIRLVGLIEDFETDIDIVSTTYADKSRTITKRDTVKGKVIDRGTIVTY 1es9-a1-m1-cA_1es9-a1-m2-cA X-RAY CRYSTAL STRUCTURE OF R22K MUTANT OF THE MAMMALIAN BRAIN PLATELET-ACTIVATING FACTOR ACETYLHYDROLASES (PAF-AH) Q29460 Q29460 1.3 X-RAY DIFFRACTION 83 1.0 9913 (Bos taurus) 9913 (Bos taurus) 212 212 1bwp-a1-m1-cA_1bwp-a1-m2-cA 1bwq-a1-m1-cA_1bwq-a1-m2-cA 1bwr-a1-m1-cA_1bwr-a1-m2-cA 1wab-a1-m1-cA_1wab-a1-m2-cA ENPASKPTPVQDVQGDGKWMSLHHRFVADSKDKEPEVVFIGDSLVQLMHQCEIWRELFSPLHALNFGIGGDSTQHVLWRLENGELEHIRPKIVVVWVGTNNHGHTAEQVTGGIKAIVQLVNERQPQARVVVLGLLPRGQHPNPLREKNRRVNELVRAALAGHPRAHFLDADPGFVHSDGTISHHDMYDYLHLSRLGYTPVCRALHSLLLRLL ENPASKPTPVQDVQGDGKWMSLHHRFVADSKDKEPEVVFIGDSLVQLMHQCEIWRELFSPLHALNFGIGGDSTQHVLWRLENGELEHIRPKIVVVWVGTNNHGHTAEQVTGGIKAIVQLVNERQPQARVVVLGLLPRGQHPNPLREKNRRVNELVRAALAGHPRAHFLDADPGFVHSDGTISHHDMYDYLHLSRLGYTPVCRALHSLLLRLL 1esr-a1-m1-cA_1esr-a1-m2-cA CRYSTAL STRUCTURE OF HUMAN MONOCYTE CHEMOTACTIC PROTEIN-2 P80075 P80075 2 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 PDSVSIPITCCFNVINRKIPIQRLESYTRITNIQCPKEAVIFKTQRGKEVCADPKERWVRDSMKHLDQIFQNLKP PDSVSIPITCCFNVINRKIPIQRLESYTRITNIQCPKEAVIFKTQRGKEVCADPKERWVRDSMKHLDQIFQNLKP 1et1-a1-m1-cA_1et1-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN PARATHYROID HORMONE 1-34 AT 0.9 A RESOLUTION P01270 P01270 0.9 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 SVSEIQLMHNLGKHLNSMERVEWLRKKLQDVHNF SVSEIQLMHNLGKHLNSMERVEWLRKKLQDVHNF 1eth-a2-m1-cA_1eth-a2-m1-cC TRIACYLGLYCEROL LIPASE/COLIPASE COMPLEX P00591 P00591 2.8 X-RAY DIFFRACTION 26 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 448 448 1eth-a1-m1-cA_1eth-a1-m1-cC SEVCFPRLGCFSDDAPWAGIVQRPLKILPWSPKDVDTRFLLYTNQNQNNYQELVADPSTITNSNFRMDRKTRFIIHGFIDKGEEDWLSNICKNLFKVESVNCICVDWKGGSRTGYTQASQNIRIVGAEVAYFVEVLKSSLGYSPSNVHVIGHSLGSHAAGEAGRRTNGTIERITGLDPAEPCFQGTPELVRLDPSDAKFVDVIHTDAAPIIPNLGFGMSQTVGHLDFFPNGGKQMPGCQKNILSQIVDIDGIWEGTRDFVACNHLRSYKYYADSILNPDGFAGFPCDSYNVFTANKCFPCPSEGCPQMGHYADRFPGKTNGVSQVFYLNTGDASNFARWRYKVSVTLSGKKVTGHILVSLFGNEGNSRQYEIYKGTLQPDNTHSDEFDSDVEVGDLQKVKFIWYNVINPTLPRVGASKITVERNDGKVYDFCSQETVREEVLLTLNPC SEVCFPRLGCFSDDAPWAGIVQRPLKILPWSPKDVDTRFLLYTNQNQNNYQELVADPSTITNSNFRMDRKTRFIIHGFIDKGEEDWLSNICKNLFKVESVNCICVDWKGGSRTGYTQASQNIRIVGAEVAYFVEVLKSSLGYSPSNVHVIGHSLGSHAAGEAGRRTNGTIERITGLDPAEPCFQGTPELVRLDPSDAKFVDVIHTDAAPIIPNLGFGMSQTVGHLDFFPNGGKQMPGCQKNILSQIVDIDGIWEGTRDFVACNHLRSYKYYADSILNPDGFAGFPCDSYNVFTANKCFPCPSEGCPQMGHYADRFPGKTNGVSQVFYLNTGDASNFARWRYKVSVTLSGKKVTGHILVSLFGNEGNSRQYEIYKGTLQPDNTHSDEFDSDVEVGDLQKVKFIWYNVINPTLPRVGASKITVERNDGKVYDFCSQETVREEVLLTLNPC 1ety-a1-m1-cA_1ety-a1-m1-cB THE CRYSTAL STRUCTURE OF E. COLI WILD-TYPE FIS P0A6R3 P0A6R3 2 X-RAY DIFFRACTION 138 0.986 562 (Escherichia coli) 562 (Escherichia coli) 74 78 1etk-a1-m1-cA_1etk-a1-m1-cB 1etv-a1-m1-cA_1etv-a1-m1-cB 1etw-a1-m1-cA_1etw-a1-m1-cB 1etx-a1-m1-cA_1etx-a1-m1-cB VLTVKPLRDSVKQALKNYFAQLVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN VNSDVLTVKPLRDSVKQALKNYFAQDVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN 1eua-a1-m1-cA_1eua-a1-m1-cB SCHIFF BASE INTERMEDIATE IN KDPG ALDOLASE FROM ESCHERICHIA COLI P0A955 P0A955 1.95 X-RAY DIFFRACTION 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 213 213 1eua-a1-m1-cA_1eua-a1-m1-cC 1eua-a1-m1-cB_1eua-a1-m1-cC 1eun-a1-m1-cA_1eun-a1-m1-cB 1eun-a1-m1-cA_1eun-a1-m1-cC 1eun-a1-m1-cB_1eun-a1-m1-cC 1fq0-a1-m1-cA_1fq0-a1-m1-cB 1fq0-a1-m1-cA_1fq0-a1-m1-cC 1fq0-a1-m1-cB_1fq0-a1-m1-cC 1fwr-a1-m1-cA_1fwr-a1-m1-cB 1fwr-a1-m1-cA_1fwr-a1-m1-cC 1fwr-a1-m1-cB_1fwr-a1-m1-cC 1wau-a1-m1-cA_1wau-a1-m2-cA 1wau-a1-m1-cA_1wau-a1-m3-cA 1wau-a1-m2-cA_1wau-a1-m3-cA 1wbh-a1-m1-cA_1wbh-a1-m1-cB 1wbh-a1-m1-cA_1wbh-a1-m1-cC 1wbh-a1-m1-cC_1wbh-a1-m1-cB 2c0a-a1-m1-cA_2c0a-a1-m1-cB 2c0a-a1-m1-cA_2c0a-a1-m1-cC 2c0a-a1-m1-cC_2c0a-a1-m1-cB MKNWKTSAESILTTGPVVPVIVVKKLEHAVPMAKALVAGGVRVLEVTLRTECAVDAIRAIAKEVPEAIVGAGTVLNPQQLAEVTEAGAQFAISPGLTEPLLKAATEGTIPLIPGISTVSELMLGMDYGLKEFKFFPAEANGGVKALQAIAGPFSQVRFCPTGGISPANYRDYLALKSVLCIGGSWLVPADALEAGDYDRITKLAREAVEGAKL MKNWKTSAESILTTGPVVPVIVVKKLEHAVPMAKALVAGGVRVLEVTLRTECAVDAIRAIAKEVPEAIVGAGTVLNPQQLAEVTEAGAQFAISPGLTEPLLKAATEGTIPLIPGISTVSELMLGMDYGLKEFKFFPAEANGGVKALQAIAGPFSQVRFCPTGGISPANYRDYLALKSVLCIGGSWLVPADALEAGDYDRITKLAREAVEGAKL 1eui-a1-m1-cB_1eui-a1-m1-cA ESCHERICHIA COLI URACIL-DNA GLYCOSYLASE COMPLEX WITH URACIL-DNA GLYCOSYLASE INHIBITOR PROTEIN P12295 P12295 3.2 X-RAY DIFFRACTION 17 1.0 562 (Escherichia coli) 562 (Escherichia coli) 220 221 TWHDVLAEEKQQPYFLNTLQTVASERQSGVTIYPPQKDVFNAFRFTELGDVKVVILGQDPYHGPGQAHGLAFSVRPGIAIPPSLLNMYKELENTIPGFTRPNHGYLESWARQGVLLLNTVLTVRAGQAHSHASLGWETFTDKVISLINQHREGVVFLLWGSHAQKKGAIIDKQRHHVLKAPHPSPLSAHRGFFGCNHFVLANQWLEQRGETPIDWMPVLP TWHDVLAEEKQQPYFLNTLQTVASERQSGVTIYPPQKDVFNAFRFTELGDVKVVILGQDPYHGPGQAHGLAFSVRPGIAIPPSLLNMYKELENTIPGFTRPNHGYLESWARQGVLLLNTVLTVRAGQAHSHASLGWETFTDKVISLINQHREGVVFLLWGSHAQKKGAIIDKQRHHVLKAPHPSPLSAHRGFFGCNHFVLANQWLEQRGETPIDWMPVLPA 1ev0-a1-m1-cA_1ev0-a1-m1-cB SOLUTION STRUCTURE OF THE MINE TOPOLOGICAL SPECIFICITY DOMAIN P0A734 P0A734 NOT SOLUTION NMR 87 1.0 562 (Escherichia coli) 562 (Escherichia coli) 58 58 RSDAEPHYLPQLRKDILEVICKYVQIDPEMVTVQLEQKDGDISILELNVTLPEAEELK RSDAEPHYLPQLRKDILEVICKYVQIDPEMVTVQLEQKDGDISILELNVTLPEAEELK 1ev7-a1-m1-cB_1ev7-a1-m1-cA CRYSTAL STRUCTURE OF DNA RESTRICTION ENDONUCLEASE NAEI P50187 P50187 2.38 X-RAY DIFFRACTION 78 1.0 68170 (Lentzea aerocolonigenes) 68170 (Lentzea aerocolonigenes) 293 295 1iaw-a1-m1-cA_1iaw-a1-m1-cB EPDDDLERVRATLYSLDPDGDRTAGVLRDTLDQLYDGQRTGRWNFDQLHKTEKTHMGTLVEINLHREFQFGDGFETDYEIAGVQVDCKFSMSQGAWMLPPESIGHICLVIWASDQQCAWTAGLVKVIPQFLGTANRDLKRRLTPEGRAQVVKLWPDHGKLQENLLLHIPGDVRDQIFSAKSQHGQARVNELFRRVHGRLIGRAVIATVAQQDDFMKRVRGSGGARSILRPEGIIILGHQDANDLGLPVPRKGQVVAARVVPADEGDQRQTAEIQGRRWAVAVPGDPIVEAPVV EPDDDLERVRATLYSLDPDGDRTAGVLRDTLDQLYDGQRTGRWNFDQLHKTEKTHMGTLVEINLHREFQFGDGFETDYEIAGVQVDCKFSMSQGAWMLPPESIGHICLVIWASDQQCAWTAGLVKVIPQFLGTANRDLKRRLTPEGRAQVVKLWPDHGKLQENLLLHIPGDVRDQIFSAKSQHGQARVNELFRRVHGRLIGRAVIATVAQQDDFMKRVRGSGGARSILRPEGIIILGHQDKVANDLGLPVPRKGQVVAARVVPADEGDQRQTAEIQGRRWAVAVPGDPIVEAPVV 1evt-a1-m1-cC_1evt-a1-m1-cD CRYSTAL STRUCTURE OF FGF1 IN COMPLEX WITH THE EXTRACELLULAR LIGAND BINDING DOMAIN OF FGF RECEPTOR 1 (FGFR1) P11362 P11362 2.8 X-RAY DIFFRACTION 73 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 191 192 NRMPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPNPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHINLPYVQILEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL NRMPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPNPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHIPYVQILKTAEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL 1evy-a1-m1-cA_1evy-a1-m2-cA CRYSTAL STRUCTURE OF LEISHMANIA MEXICANA GLYCEROL-3-PHOSPHATE DEHYDROGENASE P90551 P90551 1.75 X-RAY DIFFRACTION 228 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 346 346 1evz-a1-m1-cA_1evz-a1-m2-cA 1jdj-a1-m1-cA_1jdj-a1-m2-cA 1m66-a1-m1-cA_1m66-a1-m2-cA 1m67-a1-m1-cA_1m67-a1-m2-cA 1n1e-a1-m1-cA_1n1e-a1-m1-cB 1n1g-a1-m1-cA_1n1g-a1-m2-cA KDELLYLNKAVVFGSGAFGTALAMVLSKKCREVCVWHMNEEEVRLVNEKRENVLFLKGVQLASNITFTSDVEKAYNGAEIILFVIPTQFLRGFFEKSGGNLIAYAKEKQVPVLVCTKGIERSTLKFPAEIIGEFLPSPLLSVLAGPSFAIEVATGVFTCVSIASADINVARRLQRIMSTGDRSFVCWATTDTVGCEVASAVKNVLAIGSGVANGLGMGLNARAALIMRGLLEIRDLTAALGGDGSAVFGLAGLGDLQLTCSSELSRNFTVGKKLGKGLPIEEIQRAVAEGVATADPLMRLAKQLKVKMPLCHQIYEIVYKKKNPRDALADLLSCGLQDEGLPPLFK KDELLYLNKAVVFGSGAFGTALAMVLSKKCREVCVWHMNEEEVRLVNEKRENVLFLKGVQLASNITFTSDVEKAYNGAEIILFVIPTQFLRGFFEKSGGNLIAYAKEKQVPVLVCTKGIERSTLKFPAEIIGEFLPSPLLSVLAGPSFAIEVATGVFTCVSIASADINVARRLQRIMSTGDRSFVCWATTDTVGCEVASAVKNVLAIGSGVANGLGMGLNARAALIMRGLLEIRDLTAALGGDGSAVFGLAGLGDLQLTCSSELSRNFTVGKKLGKGLPIEEIQRAVAEGVATADPLMRLAKQLKVKMPLCHQIYEIVYKKKNPRDALADLLSCGLQDEGLPPLFK 1ew3-a1-m1-cA_1ew3-a1-m2-cA CRYSTAL STRUCTURE OF THE MAJOR HORSE ALLERGEN EQU C 1 Q95182 Q95182 2.3 X-RAY DIFFRACTION 58 1.0 9796 (Equus caballus) 9796 (Equus caballus) 159 159 VAIRNFDISKISGEWYSIFLASDVKEKIEENGSMRVFVDVIRALDNSSLYAEYQTKVNGECTEFPMVFDKTEEDGVYSLNYDGYNVFRISEFENDEHIILYLVNFDKDRPFQLFEFYAREPDVSPEIKEEFVKIVQKRGIVKENIIDLTKIDRCFQLRG VAIRNFDISKISGEWYSIFLASDVKEKIEENGSMRVFVDVIRALDNSSLYAEYQTKVNGECTEFPMVFDKTEEDGVYSLNYDGYNVFRISEFENDEHIILYLVNFDKDRPFQLFEFYAREPDVSPEIKEEFVKIVQKRGIVKENIIDLTKIDRCFQLRG 1ewj-a4-m1-cG_1ewj-a4-m1-cH CRYSTAL STRUCTURE OF BLEOMYCIN-BINDING PROTEIN COMPLEXED WITH BLEOMYCIN P13081 P13081 2.5 X-RAY DIFFRACTION 86 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 119 119 1ecs-a1-m1-cA_1ecs-a1-m1-cB 1ewj-a1-m1-cA_1ewj-a1-m1-cB 1ewj-a2-m1-cC_1ewj-a2-m1-cD 1ewj-a3-m1-cE_1ewj-a3-m1-cF 1mh6-a1-m1-cA_1mh6-a1-m1-cB 1niq-a1-m1-cB_1niq-a1-m1-cC TDQATPNLPSRDFDSTAAFYERLGFGIVFRDAGWMILQRGDLMLEFFAHPGLDPLASWFSCCLRLDDLAEFYRQCKSVGIQETSSGYPRIHAPELQEWGGTMAALVDPDGTLLRLIQNE TDQATPNLPSRDFDSTAAFYERLGFGIVFRDAGWMILQRGDLMLEFFAHPGLDPLASWFSCCLRLDDLAEFYRQCKSVGIQETSSGYPRIHAPELQEWGGTMAALVDPDGTLLRLIQNE 1ewk-a1-m1-cA_1ewk-a1-m1-cB CRYSTAL STRUCTURE OF METABOTROPIC GLUTAMATE RECEPTOR SUBTYPE 1 COMPLEXED WITH GLUTAMATE P23385 P23385 2.2 X-RAY DIFFRACTION 41 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 448 449 1ewv-a1-m1-cA_1ewv-a1-m1-cB 1isr-a1-m1-cA_1isr-a1-m2-cA 3ks9-a1-m1-cB_3ks9-a1-m1-cA 7dge-a1-m1-cA_7dge-a1-m1-cB RSVARMDGDVIIGALFSVHHQPPAEKVPERKCGEIREQYGIQRVEAMFHTLDKINADPVLLPNITLGSEIRDSCWHSSVALEQSIEFIRKPIAGVIGPGSSSVAIQVQNLLQLFDIPQIAYSATSIDLSDKTLYKYFLRVVPSDTLQARAMLDIVKRYNWTYVSAVHTEGNYGESGMDAFKELAAQEGLCIAHSDKIYSNAGEKSFDRLLRKLRERLPKARVVVCFCEGMTVRGLLSAMRRLGVVGEFSLIGSDGWADRDEVIEGYEVEANGGITIKLQSPEVRSFDDYFLKLRLDTNTRNPWFPEFWQHRFQCRLPGHLLENPNFKKVCTGNESLEENYVQDSKMGFVINAIYAMAHGLQNMHHALCPGHVGLCDAMKPIDGRKLLDFLIKSSFVGVSGEEVWFDEKGDAPGRYDIMNLQYTEANRYDYVHVGTWHEGVLNIDDYKI QRSVARMDGDVIIGALFSVHHQPPAEKVPERKCGEIREQYGIQRVEAMFHTLDKINADPVLLPNITLGSEIRDSCWHSSVALEQSIEFIRKPIAGVIGPGSSSVAIQVQNLLQLFDIPQIAYSATSIDLSDKTLYKYFLRVVPSDTLQARAMLDIVKRYNWTYVSAVHTEGNYGESGMDAFKELAAQEGLCIAHSDKIYSNAGEKSFDRLLRKLRERLPKARVVVCFCEGMTVRGLLSAMRRLGVVGEFSLIGSDGWADRDEVIEGYEVEANGGITIKLQSPEVRSFDDYFLKLRLDTNTRNPWFPEFWQHRFQCRLPGHLLENPNFKKVCTGNESLEENYVQDSKMGFVINAIYAMAHGLQNMHHALCPGHVGLCDAMKPIDGRKLLDFLIKSSFVGVSGEEVWFDEKGDAPGRYDIMNLQYTEANRYDYVHVGTWHEGVLNIDDYKI 1ewq-a1-m1-cB_1ewq-a1-m1-cA CRYSTAL STRUCTURE TAQ MUTS COMPLEXED WITH A HETERODUPLEX DNA AT 2.2 A RESOLUTION Q56215 Q56215 2.2 X-RAY DIFFRACTION 172 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 736 746 1fw6-a1-m1-cB_1fw6-a1-m1-cA 1nne-a1-m1-cA_1nne-a1-m1-cB EGLKGEGPGPLPPLLQQYVELRDQYPDYLLLFQVGDFYECFGEDAERLARALGLVLTHKTSKDFTTPAGIPLRAFEAYAERLLKGFRLAVADQVEPVRREVTQLLTPGTLLQESLLPREANYLAAIATGDGWGLAFLDVSTGEFKGTVLKSKSALYDELFRHRPAEVLLAPELLENGAFLDEFRKRFPVLSEAPFEPEGEGPLALRRARGALLAYAQRTQGGALSLQPFRFYDPGAFRLPEATLRALEVFEPLRGQDTLFSVLDETRTAPGRRLLQSWLRHPLLDRGPLEARLDRVEGFVREGALREGVRRLLYRLADLERLATRLELGRASPKDLGALRRSLQILPELRALLGEEVGLPDLSPLKEELEAALVEDPPLKVSEGGLIREGYDPDLDALRAAHREGVAYFLELEERERERTGIPTLKVGYNAVFGYYLEVTRPYYERVPKEYRPVQTLKDRQRYTLPEKEKEREVYRLEALIRRREEEVFLEVRERAKRQAEALREAARILAELDVYAALAEVAVRYGYVRPRFGDRLQIRAGRHPVVERRTEFVPNDLEAHELVLITGPNAGKSTFLRQTALIALLAQVGSFVPAEEAHLPLFDGIYTRIGAGKSTFVEEEVALILKEATENSLVLLDEVGRGTSSLDGVAIATAVAEALHERRAYTLFATHYFELTALGLPRLKNLHVAAREEAGGLVFYHQVLPGPASKSYGVEVAAAGLPKEVVARARALLQA EGLKGEGPGPLPPLLQQYVELRDQYPDYLLLFQVGDFYECFGEDAERLARALGLVLTHKTSKDFTTPAGIPLRAFEAYAERLLKGFRLAVADQVEPAEEAEGLVRREVTQLLTPGTLLQESLLPREANYLAAIATGDGWGLAFLDVSTGEFKGTVLKSKSALYDELFRHRPAEVLLAPELLENGAFLDEFRKRFPVLSEAPFEPEGEGPLALRRARGALLAYAQRTQGGALSLQPFRFYDPGAFRLPEATLRALEVFEPLRGQDTLFSVLDETRTAPGRRLLQSWLRHPLLDRGPLEARLDRVEGFVREGALREGVRRLLYRLADLERLATRLELGRASPKDLGALRRSLQILPELRALLGEEVGLPDLSPLKEELEAALVEDPPLKVSEGGLIREGYDPDLDALRAAHREGVAYFLELEERERERTGIPTLKVGYNAVFGYYLEVTRPYYERVPKEYRPVQTLKDRQRYTLPEKEKEREVYRLEALIRRREEEVFLEVRERAKRQAEALREAARILAELDVYAALAEVAVRYGYVRPRFGDRLQIRAGRHPVVERRTEFVPNDLEAHELVLITGPNAGKSTFLRQTALIALLAQVGSFVPAEEAHLPLFDGIYTRIGAGKSTFVEEEVALILKEATENSLVLLDEVGRGTSSLDGVAIATAVAEALHERRAYTLFATHYFELTALGLPRLKNLHVAAREEAGGLVFYHQVLPGPASKSYGVEVAAAGLPKEVVARARALLQAAAR 1ewr-a1-m1-cA_1ewr-a1-m1-cB CRYSTAL STRUCTURE OF TAQ MUTS Q56215 Q56215 3.19 X-RAY DIFFRACTION 142 0.991 271 (Thermus aquaticus) 271 (Thermus aquaticus) 440 522 ANYLAAIATGDGWGLAFLDVSTGEFKGTVLKSKSALYDELFRHRPAEVLLAPELLENGAFLDEFRKRSEAPFEPEGEGPLALRRARGALLAYAQRTQGGALSLQPFRFYDPGAFRLPEATLRALEVFEPLRGQDTLFSVLDETRTAPGRRLLQSWLRHPLLDRGPLEARLDRVEGFVREGALREGVRRLLYELGRASPKDLGALREAARILAELDVYAALAEVAVRYGYVRPRFGDRLQIRAGRHPVVERRTEFVPNDLEAHELVLITGPNAGKSTFLRQTALIALLAQVGSFVPAEEAHLPLFDGIYTRIGAGKSTFVEEEVALILKEATENSLVLLDEVGRGTSSLDGVAIATAVAEALHERRAYTLFATHYFELTALGLPRLKNLHVAAREEAGGLVFYHQVLPGPASKSYGVEVAAAGLPKEVVARARALLQAAAR TPGTLLQESLLPREANYLAAIATGDGWGLAFLDVSTGEFKGTVLKSKSALYDELFRHRPAEVLLAPELLENGAFLDEFRKLSEAPFEPEGEGPLALRRARGALLAYAQRTQGGALSLQPFRFYDPGAFRLPEATLRALEVFEPLRGQDTLFSVLDETRTAPGRRLLQSWLRHPLLDRGPLEARLDRVEGFVREGALREGVRRLLYRLADLERLATRLELGRASPKDLGALRRSLQILPELRALLGEEVGLPDLSPLKEELEAALVEDPPREEEVFLEVRERAKRQAEALREAARILAELDVYAALAEVAVRYGYVRPRFGDRLQIRAGRHPVVERRTEFVPNDLEAHELVLITGPNAGKSTFLRQTALIALLAQVGSFVPAEEAHLPLFDGIYTRIGAGKSTFVEEEVALILKEATENSLVLLDEVGRGTSSLDGVAIATAVAEALHERRAYTLFATHYFELTALGLPRLKNLHVAAREEAGGLVFYHQVLPGPASKSYGVEVAAAGLPKEVVARARALLQA 1ex0-a1-m1-cA_1ex0-a1-m1-cB HUMAN FACTOR XIII, MUTANT W279F ZYMOGEN P00488 P00488 2 X-RAY DIFFRACTION 153 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 705 716 1evu-a1-m1-cA_1evu-a1-m1-cB 1f13-a1-m1-cB_1f13-a1-m1-cA 1fie-a1-m1-cA_1fie-a1-m1-cB 1ggu-a1-m1-cA_1ggu-a1-m1-cB 1ggy-a1-m1-cA_1ggy-a1-m1-cB 1qrk-a1-m1-cA_1qrk-a1-m1-cB AFGGRRAVPPNNSNAAEDDLPTVEQEFLNVTSVHLFKERWDTNKVDHHTDKYENNKLIVRRGQSFYVQIDFSRPYDPRRDLFRVEYVIGRYPQENKGTYIPVPIVSELQSGKWGAKIVMREDRSVRLSIQSSPKCIVGKFRMYVAVWTPYGVLRTSRNPETDTYILFNPWCEDDAVYLDNEKEREEYVLNDIGVIFYGEVNDIKTRSWSYGQFEDGILDTCLYVMDRAQMDLSGRGNPIKVSRVGSAMVNAKDDEGVLVGSFDNIYAYGVPPSAWTGSVDILLEYRSSENPVRYGQCWVFAGVFNTFLRCLGIPARIVTNYFSAHDNDANLQMDIFLEEDGNVNSKLTKDSVWNYHCWNEAWMTRPDLPVGFGGWQAVDSTPQENSDGMYRCGPASVQAIKHGHVCFQFDAPFVFAEVNSDLIYITAKKDGTHVVENVDATHIGKLIVTKQIGGDGMMDITDTYKFQEGQEEERLALETALMYGAKKPLNTSRSNVDMDFEVENAVLGKDFKLSITFRNNSHNRYTITAYLSANITFYTGVPKAEFKKETFDVTLEPLSFKKEAVLIQAGEYMGQLLEQASLHFFVTARINETRDVLAKQKSTVLTIPEIIIKVRGTQVVGSDMTVTVQFTNPLKETLRNVWVHLDGPGVTRPMKKMFREIRPNSTVQWEEVCRPWVSGHRKLIASMSSDSLRHVYGELDVQIQR RTAFGGRRAVPPNNSNAAEDDLPTVELQGVNLQEFLNVTSVHLFKERWDTNKVDHHTDKYENNKLIVRRGQSFYVQIDFSRPYDPRRDLFRVEYVIGRYPQENKGTYIPVPIVSELQSGKWGAKIVMREDRSVRLSIQSSPKCIVGKFRMYVAVWTPYGVLRTSRNPETDTYILFNPWCEDDAVYLDNEKEREEYVLNDIGVIFYGEVNDIKTRSWSYGQFEDGILDTCLYVMDRAQMDLSGRGNPIKVSRVGSAMVNAKDDEGVLVGSFDNIYAYGVPPSAWTGSVDILLEYRSSENPVRYGQCWVFAGVFNTFLRCLGIPARIVTNYFSAHDNDANLQMDIFLEEDGNVNSKLTKDSVWNYHCWNEAWMTRPDLPVGFGGWQAVDSTPQENSDGMYRCGPASVQAIKHGHVCFQFDAPFVFAEVNSDLIYITAKKDGTHVVENVDATHIGKLIVTKQIGGDGMMDITDTYKFQEGQEEERLALETALMYGAKKPLNTSRSNVDMDFEVENAVLGKDFKLSITFRNNSHNRYTITAYLSANITFYTGVPKAEFKKETFDVTLEPLSFKKEAVLIQAGEYMGQLLEQASLHFFVTARINETRDVLAKQKSTVLTIPEIIIKVRGTQVVGSDMTVTVQFTNPLKETLRNVWVHLDGPGVTRPMKKMFREIRPNSTVQWEEVCRPWVSGHRKLIASMSSDSLRHVYGELDVQIQRRPS 1ex2-a1-m1-cA_1ex2-a1-m1-cB CRYSTAL STRUCTURE OF BACILLUS SUBTILIS MAF PROTEIN Q02169 Q02169 1.85 X-RAY DIFFRACTION 33 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 185 185 1exc-a1-m1-cA_1exc-a1-m1-cB MTKPLILASQSPRRKELLDLLQLPYSIIVSEVEEKLNRNFSPEENVQWLAKQKAKAVADLHPHAIVIGADTMVCLDGECLGKPQDQEEAASMLRRLSGRSHSVITAVSIQAENHSETFYDKTEVAFWSLSEEEIWTYIETKEPMDKAGAYGIQGRGALFVKKIDGDYYSVMGLPISKTMRALRHF MTKPLILASQSPRRKELLDLLQLPYSIIVSEVEEKLNRNFSPEENVQWLAKQKAKAVADLHPHAIVIGADTMVCLDGECLGKPQDQEEAASMLRRLSGRSHSVITAVSIQAENHSETFYDKTEVAFWSLSEEEIWTYIETKEPMDKAGAYGIQGRGALFVKKIDGDYYSVMGLPISKTMRALRHF 1ex6-a1-m1-cA_1ex6-a1-m1-cB CRYSTAL STRUCTURE OF UNLIGANDED FORM OF GUANYLATE KINASE FROM YEAST P15454 P15454 2.3 X-RAY DIFFRACTION 12 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 186 186 SRPIVISGPSGTGKSTLLKKLFAEYPDSFGFSVSSTTRTPRAGEVNGKDYNFVSVDEFKSMIKNNEFIEWAQFSGNYYGSTVASVKQVSKSGKTCILDIDMQGVKSVKAIPELNARFLFIAPPSVEDLKKRLEGRGTETEESINKRLSAAQAELAYAETGAHDKVIVNDDLDKAYKELKDFIFAEK SRPIVISGPSGTGKSTLLKKLFAEYPDSFGFSVSSTTRTPRAGEVNGKDYNFVSVDEFKSMIKNNEFIEWAQFSGNYYGSTVASVKQVSKSGKTCILDIDMQGVKSVKAIPELNARFLFIAPPSVEDLKKRLEGRGTETEESINKRLSAAQAELAYAETGAHDKVIVNDDLDKAYKELKDFIFAEK 1exe-a1-m1-cA_1exe-a1-m1-cB SOLUTION STRUCTURE OF A MUTANT OF TRANSCRIPTION FACTOR 1. P04445 P04445 NOT SOLUTION NMR 273 1.0 10685 (Okubovirus SPO1) 10685 (Okubovirus SPO1) 99 99 MNKTELIKAIAQDTGLTQVSVSKMLASFEKIITETVAKGDKVQLTGFLNIKPVARQARKGFNPQTQEALEIAPSVGVSVKPGESLKKAAEGLKYEDFAK MNKTELIKAIAQDTGLTQVSVSKMLASFEKIITETVAKGDKVQLTGFLNIKPVARQARKGFNPQTQEALEIAPSVGVSVKPGESLKKAAEGLKYEDFAK 1exs-a1-m1-cA_1exs-a1-m2-cA STRUCTURE OF PORCINE BETA-LACTOGLOBULIN P04119 P04119 2.39 X-RAY DIFFRACTION 146 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 160 160 VEVTPIMTELDTQKVAGTWHTVAMAVSDVSLLDAKSSPLKAYVEGLKPTPEGDLEILLQKRENDKCAQEVLLAKKTDIPAVFKINALDENQLFLLDTDYDSHLLLCMENSASPEHSLVCQSLARTLEVDDQIREKFEDALKTLSVPMRILPAQLEEQCRV VEVTPIMTELDTQKVAGTWHTVAMAVSDVSLLDAKSSPLKAYVEGLKPTPEGDLEILLQKRENDKCAQEVLLAKKTDIPAVFKINALDENQLFLLDTDYDSHLLLCMENSASPEHSLVCQSLARTLEVDDQIREKFEDALKTLSVPMRILPAQLEEQCRV 1ext-a1-m1-cB_1ext-a1-m1-cA EXTRACELLULAR DOMAIN OF THE 55KDA TUMOR NECROSIS FACTOR RECEPTOR. CRYSTALLIZED AT PH3.7 IN P 21 21 21. P19438 P19438 1.85 X-RAY DIFFRACTION 65 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 158 160 MDSVCPQGKYIHPQNNSICCTKCHKGTYLYNDCPGPGQDTDCRECESGSFTASENHLRHCLSCSKCRKEMGQVEISSCTVDRDTVCGCRKNQYRHYWSENLFQCFNCSLCLNGTVHLSCQEKQNTVCTCHAGFFLRENECVSCSNCKKSLECTKLCLP SVCPQGKYIHPQNNSICCTKCHKGTYLYNDCPGPGQDTDCRECESGSFTASENHLRHCLSCSKCRKEMGQVEISSCTVDRDTVCGCRKNQYRHYWSENLFQCFNCSLCLNGTVHLSCQEKQNTVCTCHAGFFLRENECVSCSNCKKSLECTKLCLPQIEN 1exz-a3-m1-cC_1exz-a3-m1-cB STRUCTURE OF STEM CELL FACTOR P21583 P21583 2.3 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 140 TNNVKDVTKLVANLPKDYMITLKYVPGMDVLPSHCWISEMVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKENSSKDLKKSFKSPEPRLFTPEEFFRIFNRSIDAFKDFVVASETSDCV GICRNRVTNNVKDVTKLVANLPKDYMITLKYVPGMDVLPSHCWISEMVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKENSSKDLKKSFKSPEPRLFTPEEFFRIFNRSIDAFKDFVVASETSDCVVS 1exz-a3-m1-cD_1exz-a3-m1-cB STRUCTURE OF STEM CELL FACTOR P21583 P21583 2.3 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 140 TNNVKDVTKLVANLPKDYMITLKYVPGMDVLPSHCWISEMVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKENSSKDLKKSFKSPEPRLFTPEEFFRIFNRSIDAFKDFVVA GICRNRVTNNVKDVTKLVANLPKDYMITLKYVPGMDVLPSHCWISEMVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKENSSKDLKKSFKSPEPRLFTPEEFFRIFNRSIDAFKDFVVASETSDCVVS 1exz-a3-m1-cD_1exz-a3-m1-cC STRUCTURE OF STEM CELL FACTOR P21583 P21583 2.3 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 131 1exz-a1-m1-cA_1exz-a1-m1-cB 1exz-a2-m1-cD_1exz-a2-m1-cC 1exz-a3-m1-cA_1exz-a3-m1-cB 8dfm-a1-m1-cC_8dfm-a1-m1-cD 8dfp-a1-m1-cD_8dfp-a1-m1-cC 8dfq-a1-m1-cC_8dfq-a1-m1-cD TNNVKDVTKLVANLPKDYMITLKYVPGMDVLPSHCWISEMVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKENSSKDLKKSFKSPEPRLFTPEEFFRIFNRSIDAFKDFVVA TNNVKDVTKLVANLPKDYMITLKYVPGMDVLPSHCWISEMVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKENSSKDLKKSFKSPEPRLFTPEEFFRIFNRSIDAFKDFVVASETSDCV 1eye-a1-m1-cA_1eye-a1-m2-cA 1.7 ANGSTROM RESOLUTION CRYSTAL STRUCTURE OF 6-HYDROXYMETHYL-7,8-DIHYDROPTEROATE SYNTHASE (DHPS) FROM MYCOBACTERIUM TUBERCULOSIS IN COMPLEX WITH 6-HYDROXYMETHYLPTERIN MONOPHOSPHATE P9WND1 P9WND1 1.7 X-RAY DIFFRACTION 90 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 256 256 PVQVMGVLNVTDDSFSDGGCYLDLDDAVKHGLAMAAAGAGIVDVGGETSRVIPVVKELAAQGITVSIDTMRADVARAALQNGAQMVNDVSGGRADPAMGPLLAEADVPWVLMHWRAVSADTPHVPVRYGNVVAEVRADLLASVADAVAAGVDPARLVLDPGLGFAKTAQHNWAILHALPELVATGIPVLVGASRKRFLGALLAGPDGVMRPTDGRDTATAVISALAALHGAWGVRVHDVRASVDAIKVVEAWMGAE PVQVMGVLNVTDDSFSDGGCYLDLDDAVKHGLAMAAAGAGIVDVGGETSRVIPVVKELAAQGITVSIDTMRADVARAALQNGAQMVNDVSGGRADPAMGPLLAEADVPWVLMHWRAVSADTPHVPVRYGNVVAEVRADLLASVADAVAAGVDPARLVLDPGLGFAKTAQHNWAILHALPELVATGIPVLVGASRKRFLGALLAGPDGVMRPTDGRDTATAVISALAALHGAWGVRVHDVRASVDAIKVVEAWMGAE 1eyl-a2-m1-cA_1eyl-a2-m2-cA STRUCTURE OF A RECOMBINANT WINGED BEAN CHYMOTRYPSIN INHIBITOR P10822 P10822 1.9 X-RAY DIFFRACTION 10 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 179 179 1fmz-a2-m1-cA_1fmz-a2-m2-cA 1fn0-a2-m1-cA_1fn0-a2-m2-cA 2esu-a2-m1-cA_2esu-a2-m2-cA 2et2-a2-m1-cA_2et2-a2-m2-cA 4wbc-a2-m1-cA_4wbc-a2-m2-cA EFDDDLVDAEGNLVENGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSQFLSLFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKAKS EFDDDLVDAEGNLVENGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSQFLSLFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKAKS 1eyv-a1-m1-cA_1eyv-a1-m1-cB THE CRYSTAL STRUCTURE OF NUSB FROM MYCOBACTERIUM TUBERCULOSIS P9WIV1 P9WIV1 1.6 X-RAY DIFFRACTION 63 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 131 133 GRHQARKRAVALLFEAEVRGISAAEVVDTRAALAEAKPDIARLHPYTAAVARGVSEHAAHIDDLITAHLRGWTLDRLPAVDRAILRVSVWELLHAADVPEPVVVDEAVQLAKELSTDDSPGFVNGVLGQVM VRGRHQARKRAVALLFEAEVRGISAAEVVDTRAALAEAKPDIARLHPYTAAVARGVSEHAAHIDDLITAHLRGWTLDRLPAVDRAILRVSVWELLHAADVPEPVVVDEAVQLAKELSTDDSPGFVNGVLGQVM 1eyx-a2-m1-cA_1eyx-a2-m3-cK CRYSTAL STRUCTURE OF R-PHYCOERYTHRIN AT 2.2 ANGSTROMS Q7SIG0 Q7SIG0 2.25 X-RAY DIFFRACTION 22 1.0 164 164 1eyx-a2-m1-cK_1eyx-a2-m2-cA 1eyx-a2-m2-cK_1eyx-a2-m3-cA MKSVITTVISAADSAGRFPSSSDLESVQGNIQRASARLEAAEKLASNHEAVVKEAGDACFGKYGYLKNPGEAGENQEKINKCYRDIDHYMRLVNYSLVIGGTGPLDEWGIAGAREVYRTLNLPTSAYIAAFAFTRDRLCGPRDMSAQAGVEYSTALDYIINSLS MKSVITTVISAADSAGRFPSSSDLESVQGNIQRASARLEAAEKLASNHEAVVKEAGDACFGKYGYLKNPGEAGENQEKINKCYRDIDHYMRLVNYSLVIGGTGPLDEWGIAGAREVYRTLNLPTSAYIAAFAFTRDRLCGPRDMSAQAGVEYSTALDYIINSLS 1eyx-a2-m3-cA_1eyx-a2-m3-cK CRYSTAL STRUCTURE OF R-PHYCOERYTHRIN AT 2.2 ANGSTROMS Q7SIG0 Q7SIG0 2.25 X-RAY DIFFRACTION 85 1.0 164 164 1eyx-a1-m1-cA_1eyx-a1-m1-cK 1eyx-a2-m1-cA_1eyx-a2-m1-cK 1eyx-a2-m2-cA_1eyx-a2-m2-cK MKSVITTVISAADSAGRFPSSSDLESVQGNIQRASARLEAAEKLASNHEAVVKEAGDACFGKYGYLKNPGEAGENQEKINKCYRDIDHYMRLVNYSLVIGGTGPLDEWGIAGAREVYRTLNLPTSAYIAAFAFTRDRLCGPRDMSAQAGVEYSTALDYIINSLS MKSVITTVISAADSAGRFPSSSDLESVQGNIQRASARLEAAEKLASNHEAVVKEAGDACFGKYGYLKNPGEAGENQEKINKCYRDIDHYMRLVNYSLVIGGTGPLDEWGIAGAREVYRTLNLPTSAYIAAFAFTRDRLCGPRDMSAQAGVEYSTALDYIINSLS 1ez0-a3-m1-cD_1ez0-a3-m2-cC CRYSTAL STRUCTURE OF THE NADP+ DEPENDENT ALDEHYDE DEHYDROGENASE FROM VIBRIO HARVEYI. Q56694 Q56694 2.1 X-RAY DIFFRACTION 41 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 502 502 1eyy-a3-m1-cD_1eyy-a3-m2-cC NVFYATNAFTGEALPLAFPVHTEVEVNQAATAAAKVARDFRRLNNSKRASLLRTIASELEARSDDIIARAHLETALPEVRLTGEIARTANQLRLFADVVNSGSYHQAILDTPNPTRAPLPKPDIRRQQIALGPVAVFGASNFPLAFSAAGGDTASALAAGCPVIVKGHTAHPGTSQIVAECIEQALKQEQLPQAIFTLLQGNQRALGQALVSHPEIKAVGFTGSVGGGRALFNLAHERPEPIPFYGELGAINPTFIFPSAMRAKADLADQFVASMTMGCGQFCTKPGVVFALNTPETQAFIETAQSLIRQQSPSTLLTPGIRDSYQSQVVSRGSDDGIDVTFSQAESPCVASALFVTSSENWRKHPAWEEEIFGPQSLIVVCENVADMLSLSEMLAGSLTATIHATEEDYPQVSQLIPRLEEIAGRLVFNGWPTGVEVGYAMVHGGPYPASTHSASTSVGAEAIHRWLRPVAYQALPESLLPDSLKAENPLEIARAVDGKAA NVFYATNAFTGEALPLAFPVHTEVEVNQAATAAAKVARDFRRLNNSKRASLLRTIASELEARSDDIIARAHLETALPEVRLTGEIARTANQLRLFADVVNSGSYHQAILDTPNPTRAPLPKPDIRRQQIALGPVAVFGASNFPLAFSAAGGDTASALAAGCPVIVKGHTAHPGTSQIVAECIEQALKQEQLPQAIFTLLQGNQRALGQALVSHPEIKAVGFTGSVGGGRALFNLAHERPEPIPFYGELGAINPTFIFPSAMRAKADLADQFVASMTMGCGQFCTKPGVVFALNTPETQAFIETAQSLIRQQSPSTLLTPGIRDSYQSQVVSRGSDDGIDVTFSQAESPCVASALFVTSSENWRKHPAWEEEIFGPQSLIVVCENVADMLSLSEMLAGSLTATIHATEEDYPQVSQLIPRLEEIAGRLVFNGWPTGVEVGYAMVHGGPYPASTHSASTSVGAEAIHRWLRPVAYQALPESLLPDSLKAENPLEIARAVDGKAA 1ez0-a3-m2-cB_1ez0-a3-m2-cC CRYSTAL STRUCTURE OF THE NADP+ DEPENDENT ALDEHYDE DEHYDROGENASE FROM VIBRIO HARVEYI. Q56694 Q56694 2.1 X-RAY DIFFRACTION 192 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 502 502 1eyy-a1-m1-cD_1eyy-a1-m1-cA 1eyy-a2-m1-cB_1eyy-a2-m1-cC 1eyy-a3-m1-cD_1eyy-a3-m1-cA 1eyy-a3-m2-cB_1eyy-a3-m2-cC 1ez0-a1-m1-cD_1ez0-a1-m1-cA 1ez0-a2-m1-cB_1ez0-a2-m1-cC 1ez0-a3-m1-cD_1ez0-a3-m1-cA NVFYATNAFTGEALPLAFPVHTEVEVNQAATAAAKVARDFRRLNNSKRASLLRTIASELEARSDDIIARAHLETALPEVRLTGEIARTANQLRLFADVVNSGSYHQAILDTPNPTRAPLPKPDIRRQQIALGPVAVFGASNFPLAFSAAGGDTASALAAGCPVIVKGHTAHPGTSQIVAECIEQALKQEQLPQAIFTLLQGNQRALGQALVSHPEIKAVGFTGSVGGGRALFNLAHERPEPIPFYGELGAINPTFIFPSAMRAKADLADQFVASMTMGCGQFCTKPGVVFALNTPETQAFIETAQSLIRQQSPSTLLTPGIRDSYQSQVVSRGSDDGIDVTFSQAESPCVASALFVTSSENWRKHPAWEEEIFGPQSLIVVCENVADMLSLSEMLAGSLTATIHATEEDYPQVSQLIPRLEEIAGRLVFNGWPTGVEVGYAMVHGGPYPASTHSASTSVGAEAIHRWLRPVAYQALPESLLPDSLKAENPLEIARAVDGKAA NVFYATNAFTGEALPLAFPVHTEVEVNQAATAAAKVARDFRRLNNSKRASLLRTIASELEARSDDIIARAHLETALPEVRLTGEIARTANQLRLFADVVNSGSYHQAILDTPNPTRAPLPKPDIRRQQIALGPVAVFGASNFPLAFSAAGGDTASALAAGCPVIVKGHTAHPGTSQIVAECIEQALKQEQLPQAIFTLLQGNQRALGQALVSHPEIKAVGFTGSVGGGRALFNLAHERPEPIPFYGELGAINPTFIFPSAMRAKADLADQFVASMTMGCGQFCTKPGVVFALNTPETQAFIETAQSLIRQQSPSTLLTPGIRDSYQSQVVSRGSDDGIDVTFSQAESPCVASALFVTSSENWRKHPAWEEEIFGPQSLIVVCENVADMLSLSEMLAGSLTATIHATEEDYPQVSQLIPRLEEIAGRLVFNGWPTGVEVGYAMVHGGPYPASTHSASTSVGAEAIHRWLRPVAYQALPESLLPDSLKAENPLEIARAVDGKAA 1ez4-a1-m1-cA_1ez4-a1-m1-cD CRYSTAL STRUCTURE OF NON-ALLOSTERIC L-LACTATE DEHYDROGENASE FROM LACTOBACILLUS PENTOSUS AT 2.3 ANGSTROM RESOLUTION P56511 P56511 2.3 X-RAY DIFFRACTION 46 1.0 1589 (Lactiplantibacillus pentosus) 1589 (Lactiplantibacillus pentosus) 307 318 1ez4-a1-m1-cC_1ez4-a1-m1-cB SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGALVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELEN SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGAPQKPGESRLDLVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELENK 1ez4-a1-m1-cB_1ez4-a1-m1-cD CRYSTAL STRUCTURE OF NON-ALLOSTERIC L-LACTATE DEHYDROGENASE FROM LACTOBACILLUS PENTOSUS AT 2.3 ANGSTROM RESOLUTION P56511 P56511 2.3 X-RAY DIFFRACTION 90 1.0 1589 (Lactiplantibacillus pentosus) 1589 (Lactiplantibacillus pentosus) 318 318 1ez4-a1-m1-cA_1ez4-a1-m1-cC SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGAPQKPGESRLDLVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELENK SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGAPQKPGESRLDLVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELENK 1ez4-a2-m1-cB_1ez4-a2-m2-cD CRYSTAL STRUCTURE OF NON-ALLOSTERIC L-LACTATE DEHYDROGENASE FROM LACTOBACILLUS PENTOSUS AT 2.3 ANGSTROM RESOLUTION P56511 P56511 2.3 X-RAY DIFFRACTION 52 1.0 1589 (Lactiplantibacillus pentosus) 1589 (Lactiplantibacillus pentosus) 318 318 SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGAPQKPGESRLDLVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELENK SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGAPQKPGESRLDLVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELENK 1ez4-a2-m2-cC_1ez4-a2-m2-cD CRYSTAL STRUCTURE OF NON-ALLOSTERIC L-LACTATE DEHYDROGENASE FROM LACTOBACILLUS PENTOSUS AT 2.3 ANGSTROM RESOLUTION P56511 P56511 2.3 X-RAY DIFFRACTION 143 1.0 1589 (Lactiplantibacillus pentosus) 1589 (Lactiplantibacillus pentosus) 307 318 1ez4-a1-m1-cA_1ez4-a1-m1-cB 1ez4-a1-m1-cC_1ez4-a1-m1-cD 1ez4-a2-m1-cA_1ez4-a2-m1-cB SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGALVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELEN SMPNHQKVVLVGDGAVGSSYAFAMAQQGIAEEFVIVDVVKDRTKGDALDLEDAQAFTAPKKIYSGEYSDCKDADLVVITAGAPQKPGESRLDLVNKNLNILSSIVKPVVDSGFDGIFLVAANPVDILTYATWKFSGFPKERVIGSGTSLDSSRLRVALGKQFNVDPRSVDAYIMGEHGDSEFAAYSTATIGTRPVRDVAKEQGVSDDDLAKLEDGVRNKAYDIINLKGATFYGIGTALMRISKAILRDENAVLPVGAYMDGQYGLNDIYIGTPAIIGGTGLKQIIESPLSADELKKMQDSAATLKKVLNDGLAELENK 1ezg-a1-m1-cA_1ezg-a1-m1-cB CRYSTAL STRUCTURE OF ANTIFREEZE PROTEIN FROM THE BEETLE, TENEBRIO MOLITOR O16119 O16119 1.4 X-RAY DIFFRACTION 61 1.0 7067 (Tenebrio molitor) 7067 (Tenebrio molitor) 82 82 QCTGGADCTSCTGACTGCGNCPNAVTCTNSQHCVKANTCTGSTDCNTAQTCTNSKDCFEANTCTDSTNCYKATACTNSSGCP QCTGGADCTSCTGACTGCGNCPNAVTCTNSQHCVKANTCTGSTDCNTAQTCTNSKDCFEANTCTDSTNCYKATACTNSSGCP 1ezj-a1-m2-cA_1ezj-a1-m4-cA CRYSTAL STRUCTURE OF THE MULTIMERIZATION DOMAIN OF THE PHOSPHOPROTEIN FROM SENDAI VIRUS P04859 P04859 1.9 X-RAY DIFFRACTION 100 1.0 11196 (Sendai virus (strain Harris)) 11196 (Sendai virus (strain Harris)) 114 114 1ezj-a1-m1-cA_1ezj-a1-m3-cA 1ezj-a1-m1-cA_1ezj-a1-m4-cA 1ezj-a1-m2-cA_1ezj-a1-m3-cA ENTSSMKEMATLLTSLGVIQSAQEFESSRDASYVFARRALKSANYAEMTFNVCGLILSAEKSSARKVDENKQLLKQIQESVESFRDIYKRFSEYQKEQNSLLMSNLSTLHIITD ENTSSMKEMATLLTSLGVIQSAQEFESSRDASYVFARRALKSANYAEMTFNVCGLILSAEKSSARKVDENKQLLKQIQESVESFRDIYKRFSEYQKEQNSLLMSNLSTLHIITD 1ezr-a1-m1-cA_1ezr-a1-m1-cD CRYSTAL STRUCTURE OF NUCLEOSIDE HYDROLASE FROM LEISHMANIA MAJOR P83851 P83851 2.5 X-RAY DIFFRACTION 49 1.0 5664 (Leishmania major) 5664 (Leishmania major) 312 312 1ezr-a1-m1-cB_1ezr-a1-m1-cC PRKIILDCDPGIDDAVAIFLAHGNPEIELLAITTVVGNQSLEKVTQNARLVADVAGIVGVPVAAGCTKPLVRGVRNASHIHGETGMGNVSYPPEFKTKLDGRHAVQLIIDLIMSHEPKTITLVPTGGLTNIAMAVRLEPRIVDRVKEVVLMGGGYHTGNASPVAEFNVFIDPEAAHIVFNESWNVTMVGLDLTHLALATPAVQKRVREVGTKPAAFMLQILDFYTKVYEKEHDTYGKVHDPCAVAYVIDPTVMTTERVPVDIELNGALTTGMTVADFRYPRPKNCRTQVAVKLDFDKFWCLVIDALERIGDP PRKIILDCDPGIDDAVAIFLAHGNPEIELLAITTVVGNQSLEKVTQNARLVADVAGIVGVPVAAGCTKPLVRGVRNASHIHGETGMGNVSYPPEFKTKLDGRHAVQLIIDLIMSHEPKTITLVPTGGLTNIAMAVRLEPRIVDRVKEVVLMGGGYHTGNASPVAEFNVFIDPEAAHIVFNESWNVTMVGLDLTHLALATPAVQKRVREVGTKPAAFMLQILDFYTKVYEKEHDTYGKVHDPCAVAYVIDPTVMTTERVPVDIELNGALTTGMTVADFRYPRPKNCRTQVAVKLDFDKFWCLVIDALERIGDP 1ezr-a1-m1-cC_1ezr-a1-m1-cD CRYSTAL STRUCTURE OF NUCLEOSIDE HYDROLASE FROM LEISHMANIA MAJOR P83851 P83851 2.5 X-RAY DIFFRACTION 61 1.0 5664 (Leishmania major) 5664 (Leishmania major) 312 312 1ezr-a1-m1-cA_1ezr-a1-m1-cB PRKIILDCDPGIDDAVAIFLAHGNPEIELLAITTVVGNQSLEKVTQNARLVADVAGIVGVPVAAGCTKPLVRGVRNASHIHGETGMGNVSYPPEFKTKLDGRHAVQLIIDLIMSHEPKTITLVPTGGLTNIAMAVRLEPRIVDRVKEVVLMGGGYHTGNASPVAEFNVFIDPEAAHIVFNESWNVTMVGLDLTHLALATPAVQKRVREVGTKPAAFMLQILDFYTKVYEKEHDTYGKVHDPCAVAYVIDPTVMTTERVPVDIELNGALTTGMTVADFRYPRPKNCRTQVAVKLDFDKFWCLVIDALERIGDP PRKIILDCDPGIDDAVAIFLAHGNPEIELLAITTVVGNQSLEKVTQNARLVADVAGIVGVPVAAGCTKPLVRGVRNASHIHGETGMGNVSYPPEFKTKLDGRHAVQLIIDLIMSHEPKTITLVPTGGLTNIAMAVRLEPRIVDRVKEVVLMGGGYHTGNASPVAEFNVFIDPEAAHIVFNESWNVTMVGLDLTHLALATPAVQKRVREVGTKPAAFMLQILDFYTKVYEKEHDTYGKVHDPCAVAYVIDPTVMTTERVPVDIELNGALTTGMTVADFRYPRPKNCRTQVAVKLDFDKFWCLVIDALERIGDP 1ezw-a1-m1-cA_1ezw-a1-m4-cA STRUCTURE OF COENZYME F420 DEPENDENT TETRAHYDROMETHANOPTERIN REDUCTASE FROM METHANOPYRUS KANDLERI Q8TXY4 Q8TXY4 1.65 X-RAY DIFFRACTION 154 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 347 347 1ezw-a1-m2-cA_1ezw-a1-m3-cA AEVSFGIELLPDDKPTKIAHLIKVAEDNGFEYAWICDHYNNYSYMGVLTLAAVITSKIKLGPGITNPYTRHPLITASNIATLDWISGGRAIIGMGPGDKATFDKMGLPFPCKIPIWNPEAEDEVGPATAIREVKEVIYQYLEGGPVEYEGKYVKTGTADVKARSIQGSDIPFYMGAQGPIMLKTAGEIANGVLVNASNPKDFEVAVPKIEEGAKEAGRSLDEIDVAAYTCFSIDKDEDKAIEATKIVVAFIVMGSPDVVLERHGIDTEKAEQIAEAIGKGDFGTAIGLVDEDMIEAFSIAGDPDTVVDKIEELLKAGVTQVVVGSPIGPDKEKAIELVGQEVIPHFK AEVSFGIELLPDDKPTKIAHLIKVAEDNGFEYAWICDHYNNYSYMGVLTLAAVITSKIKLGPGITNPYTRHPLITASNIATLDWISGGRAIIGMGPGDKATFDKMGLPFPCKIPIWNPEAEDEVGPATAIREVKEVIYQYLEGGPVEYEGKYVKTGTADVKARSIQGSDIPFYMGAQGPIMLKTAGEIANGVLVNASNPKDFEVAVPKIEEGAKEAGRSLDEIDVAAYTCFSIDKDEDKAIEATKIVVAFIVMGSPDVVLERHGIDTEKAEQIAEAIGKGDFGTAIGLVDEDMIEAFSIAGDPDTVVDKIEELLKAGVTQVVVGSPIGPDKEKAIELVGQEVIPHFK 1ezw-a1-m2-cA_1ezw-a1-m4-cA STRUCTURE OF COENZYME F420 DEPENDENT TETRAHYDROMETHANOPTERIN REDUCTASE FROM METHANOPYRUS KANDLERI Q8TXY4 Q8TXY4 1.65 X-RAY DIFFRACTION 23 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 347 347 1ezw-a1-m1-cA_1ezw-a1-m3-cA AEVSFGIELLPDDKPTKIAHLIKVAEDNGFEYAWICDHYNNYSYMGVLTLAAVITSKIKLGPGITNPYTRHPLITASNIATLDWISGGRAIIGMGPGDKATFDKMGLPFPCKIPIWNPEAEDEVGPATAIREVKEVIYQYLEGGPVEYEGKYVKTGTADVKARSIQGSDIPFYMGAQGPIMLKTAGEIANGVLVNASNPKDFEVAVPKIEEGAKEAGRSLDEIDVAAYTCFSIDKDEDKAIEATKIVVAFIVMGSPDVVLERHGIDTEKAEQIAEAIGKGDFGTAIGLVDEDMIEAFSIAGDPDTVVDKIEELLKAGVTQVVVGSPIGPDKEKAIELVGQEVIPHFK AEVSFGIELLPDDKPTKIAHLIKVAEDNGFEYAWICDHYNNYSYMGVLTLAAVITSKIKLGPGITNPYTRHPLITASNIATLDWISGGRAIIGMGPGDKATFDKMGLPFPCKIPIWNPEAEDEVGPATAIREVKEVIYQYLEGGPVEYEGKYVKTGTADVKARSIQGSDIPFYMGAQGPIMLKTAGEIANGVLVNASNPKDFEVAVPKIEEGAKEAGRSLDEIDVAAYTCFSIDKDEDKAIEATKIVVAFIVMGSPDVVLERHGIDTEKAEQIAEAIGKGDFGTAIGLVDEDMIEAFSIAGDPDTVVDKIEELLKAGVTQVVVGSPIGPDKEKAIELVGQEVIPHFK 1ezw-a1-m3-cA_1ezw-a1-m4-cA STRUCTURE OF COENZYME F420 DEPENDENT TETRAHYDROMETHANOPTERIN REDUCTASE FROM METHANOPYRUS KANDLERI Q8TXY4 Q8TXY4 1.65 X-RAY DIFFRACTION 28 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 347 347 1ezw-a1-m1-cA_1ezw-a1-m2-cA AEVSFGIELLPDDKPTKIAHLIKVAEDNGFEYAWICDHYNNYSYMGVLTLAAVITSKIKLGPGITNPYTRHPLITASNIATLDWISGGRAIIGMGPGDKATFDKMGLPFPCKIPIWNPEAEDEVGPATAIREVKEVIYQYLEGGPVEYEGKYVKTGTADVKARSIQGSDIPFYMGAQGPIMLKTAGEIANGVLVNASNPKDFEVAVPKIEEGAKEAGRSLDEIDVAAYTCFSIDKDEDKAIEATKIVVAFIVMGSPDVVLERHGIDTEKAEQIAEAIGKGDFGTAIGLVDEDMIEAFSIAGDPDTVVDKIEELLKAGVTQVVVGSPIGPDKEKAIELVGQEVIPHFK AEVSFGIELLPDDKPTKIAHLIKVAEDNGFEYAWICDHYNNYSYMGVLTLAAVITSKIKLGPGITNPYTRHPLITASNIATLDWISGGRAIIGMGPGDKATFDKMGLPFPCKIPIWNPEAEDEVGPATAIREVKEVIYQYLEGGPVEYEGKYVKTGTADVKARSIQGSDIPFYMGAQGPIMLKTAGEIANGVLVNASNPKDFEVAVPKIEEGAKEAGRSLDEIDVAAYTCFSIDKDEDKAIEATKIVVAFIVMGSPDVVLERHGIDTEKAEQIAEAIGKGDFGTAIGLVDEDMIEAFSIAGDPDTVVDKIEELLKAGVTQVVVGSPIGPDKEKAIELVGQEVIPHFK 1f06-a3-m1-cA_1f06-a3-m1-cB THREE DIMENSIONAL STRUCTURE OF THE TERNARY COMPLEX OF CORYNEBACTERIUM GLUTAMICUM DIAMINOPIMELATE DEHYDROGENASE NADPH-L-2-AMINO-6-METHYLENE-PIMELATE P04964 P04964 2.1 X-RAY DIFFRACTION 203 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 320 320 1dap-a1-m1-cA_1dap-a1-m1-cB 2dap-a1-m1-cA_2dap-a1-m2-cA 3dap-a1-m1-cA_3dap-a1-m1-cB 5loa-a1-m1-cA_5loa-a1-m1-cB 5loc-a1-m1-cB_5loc-a1-m1-cA MTNIRVAIVGYGNLGRSVEKLIAKQPDMDLVGIFSRRATLDTKTPVFDVADVDKHADDVDVLFLCMGSATDIPEQAPKFAQFACTVDTYDNHRDIPRHRQVMNEAATAAGNVALVSTGWDPGMFSINRVYAAAVLAEHQQHTFWGPGLSQGHSDALRRIPGVQKAVQYTLPSEDALEKARRGEAGDLTGKQTHKRQCFVVADAADHERIENDIRTMPDYFVGYEVEVNFIDEATFDSEHTGMPHGGHVITTGDTGGFNHTVEYILKLDRNPDFTASSQIAFGRAAHRMKQQGQSGAFTVLEVAPYLLSPENLDDLIARDV MTNIRVAIVGYGNLGRSVEKLIAKQPDMDLVGIFSRRATLDTKTPVFDVADVDKHADDVDVLFLCMGSATDIPEQAPKFAQFACTVDTYDNHRDIPRHRQVMNEAATAAGNVALVSTGWDPGMFSINRVYAAAVLAEHQQHTFWGPGLSQGHSDALRRIPGVQKAVQYTLPSEDALEKARRGEAGDLTGKQTHKRQCFVVADAADHERIENDIRTMPDYFVGYEVEVNFIDEATFDSEHTGMPHGGHVITTGDTGGFNHTVEYILKLDRNPDFTASSQIAFGRAAHRMKQQGQSGAFTVLEVAPYLLSPENLDDLIARDV 1f07-a1-m1-cA_1f07-a1-m1-cC STRUCTURE OF COENZYME F420 DEPENDENT TETRAHYDROMETHANOPTERIN REDUCTASE FROM METHANOBACTERIUM THERMOAUTOTROPHICUM Q50744 Q50744 2 X-RAY DIFFRACTION 27 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 321 321 MKFGIEFVPNEPIEKIVKLVKLAEDVGFEYAWITDHYNNKNVYETLALIAEGTETIKLGPGVTNPYVRSPAITASAIATLDELSNGRATLGIGPGDKATFDALGIEWVKPVSTIRDAIAMMRTLLAGEKTESGAQLMGVKAVQEKIPIYMGAQGPMMLKTAGEISDGALINASNPKDFEAAVPLIKEGAEAAGKSIADIDVAAYTCCSIDEDAAAAANAAKIVVAFIAAGSPPPVFERHGLPADTGKKFGELLGKGDFGGAIGAVDDALMEAFSVVGTPDEFIPKIEALGEMGVTQYVAGSPIGPDKEKSIKLLGEVIASF MKFGIEFVPNEPIEKIVKLVKLAEDVGFEYAWITDHYNNKNVYETLALIAEGTETIKLGPGVTNPYVRSPAITASAIATLDELSNGRATLGIGPGDKATFDALGIEWVKPVSTIRDAIAMMRTLLAGEKTESGAQLMGVKAVQEKIPIYMGAQGPMMLKTAGEISDGALINASNPKDFEAAVPLIKEGAEAAGKSIADIDVAAYTCCSIDEDAAAAANAAKIVVAFIAAGSPPPVFERHGLPADTGKKFGELLGKGDFGGAIGAVDDALMEAFSVVGTPDEFIPKIEALGEMGVTQYVAGSPIGPDKEKSIKLLGEVIASF 1f07-a3-m1-cC_1f07-a3-m1-cD STRUCTURE OF COENZYME F420 DEPENDENT TETRAHYDROMETHANOPTERIN REDUCTASE FROM METHANOBACTERIUM THERMOAUTOTROPHICUM Q50744 Q50744 2 X-RAY DIFFRACTION 153 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 321 321 1f07-a1-m1-cA_1f07-a1-m1-cB 1f07-a1-m1-cC_1f07-a1-m1-cD 1f07-a2-m1-cA_1f07-a2-m1-cB MKFGIEFVPNEPIEKIVKLVKLAEDVGFEYAWITDHYNNKNVYETLALIAEGTETIKLGPGVTNPYVRSPAITASAIATLDELSNGRATLGIGPGDKATFDALGIEWVKPVSTIRDAIAMMRTLLAGEKTESGAQLMGVKAVQEKIPIYMGAQGPMMLKTAGEISDGALINASNPKDFEAAVPLIKEGAEAAGKSIADIDVAAYTCCSIDEDAAAAANAAKIVVAFIAAGSPPPVFERHGLPADTGKKFGELLGKGDFGGAIGAVDDALMEAFSVVGTPDEFIPKIEALGEMGVTQYVAGSPIGPDKEKSIKLLGEVIASF MKFGIEFVPNEPIEKIVKLVKLAEDVGFEYAWITDHYNNKNVYETLALIAEGTETIKLGPGVTNPYVRSPAITASAIATLDELSNGRATLGIGPGDKATFDALGIEWVKPVSTIRDAIAMMRTLLAGEKTESGAQLMGVKAVQEKIPIYMGAQGPMMLKTAGEISDGALINASNPKDFEAAVPLIKEGAEAAGKSIADIDVAAYTCCSIDEDAAAAANAAKIVVAFIAAGSPPPVFERHGLPADTGKKFGELLGKGDFGGAIGAVDDALMEAFSVVGTPDEFIPKIEALGEMGVTQYVAGSPIGPDKEKSIKLLGEVIASF 1f0k-a1-m1-cA_1f0k-a1-m1-cB THE 1.9 ANGSTROM CRYSTAL STRUCTURE OF E. COLI MURG P17443 P17443 1.9 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 351 351 KRLMVMAGGTGGHVFPGLAVAHHLMAQGWQVRWLGTADRMEADLVPKHGIEIDFIRISGLRGKGIKALIAAPLRIFNAWRQARAIMKAYKPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVMQAFPGAFPNAEVVGNPVRTDVLALPLPQQRLAGREGPVRVLVVGGSQGARILNQTMPQVAAKLGDSVTIWHQSGKGSQQSVEQAYAEAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKIIEQPQLSVDAVANTLAGWSRETLLTMAERARAASIPDATERVANEVSRVARAL KRLMVMAGGTGGHVFPGLAVAHHLMAQGWQVRWLGTADRMEADLVPKHGIEIDFIRISGLRGKGIKALIAAPLRIFNAWRQARAIMKAYKPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVMQAFPGAFPNAEVVGNPVRTDVLALPLPQQRLAGREGPVRVLVVGGSQGARILNQTMPQVAAKLGDSVTIWHQSGKGSQQSVEQAYAEAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKIIEQPQLSVDAVANTLAGWSRETLLTMAERARAASIPDATERVANEVSRVARAL 1f1c-a1-m1-cA_1f1c-a1-m1-cB CRYSTAL STRUCTURE OF CYTOCHROME C549 P82603 P82603 2.3 X-RAY DIFFRACTION 35 1.0 129910 (Limnospira maxima) 129910 (Limnospira maxima) 129 129 LTEELRTFPINAQGDTAVLSLKEIKKGQQVFNAACAQCHALGVTRTNPDVNLSPEALALATPPRDNIAALVDYIKNPTTYDGFVEISELHPSLKSSDIFPKMRNISEDDLYNVAGYILLQPKVRGEQWG LTEELRTFPINAQGDTAVLSLKEIKKGQQVFNAACAQCHALGVTRTNPDVNLSPEALALATPPRDNIAALVDYIKNPTTYDGFVEISELHPSLKSSDIFPKMRNISEDDLYNVAGYILLQPKVRGEQWG 1f1e-a1-m1-cA_1f1e-a1-m2-cA CRYSTAL STRUCTURE OF THE HISTONE FROM METHANOPYRUS KANDLERI O93641 O93641 1.37 X-RAY DIFFRACTION 72 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 147 147 ELPKAAIERIFRQGIGERRLSQDAKDTIYDFVPTAEYVANAAKSVLDASGKKTLEEHLKALADVLVEGVEDYDGELFGRATVRRILKRAGIERASSDAVDLYNKLICRATEELGEKAAEYADEDGRKTVQGEDVEKAITYSPKGGEL ELPKAAIERIFRQGIGERRLSQDAKDTIYDFVPTAEYVANAAKSVLDASGKKTLEEHLKALADVLVEGVEDYDGELFGRATVRRILKRAGIERASSDAVDLYNKLICRATEELGEKAAEYADEDGRKTVQGEDVEKAITYSPKGGEL 1f1m-a2-m1-cC_1f1m-a2-m1-cD CRYSTAL STRUCTURE OF OUTER SURFACE PROTEIN C (OSPC) Q9AGB1 Q9AGB1 1.8 X-RAY DIFFRACTION 192 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 162 162 1f1m-a1-m1-cA_1f1m-a1-m1-cB PNLTEISKKITESNAVVLAVKEVETLLTSIDELAKAIGKKIKSDVSLDNEADHNGSLMSGAYLISTLITKKISAIKDSGELKAEIEKAKKCSEEFTAKLKGEHTDLGKEGVTDDNAKKAILKTNNDKTKGADELEKLFESVKNLSKAAKEMLTNSVKELTSP PNLTEISKKITESNAVVLAVKEVETLLTSIDELAKAIGKKIKSDVSLDNEADHNGSLMSGAYLISTLITKKISAIKDSGELKAEIEKAKKCSEEFTAKLKGEHTDLGKEGVTDDNAKKAILKTNNDKTKGADELEKLFESVKNLSKAAKEMLTNSVKELTSP 1f1w-a2-m1-cA_1f1w-a2-m2-cA SRC SH2 THREF1TRP MUTANT COMPLEXED WITH THE PHOSPHOPEPTIDE S(PTR)VNVQN P00523 P00523 2.1 X-RAY DIFFRACTION 25 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 104 104 MAEEWYFGKITRRESERLLLNPENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYIWSRTQFSSLQQLVAYYSKHADGLCHRLTNVCPT MAEEWYFGKITRRESERLLLNPENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYIWSRTQFSSLQQLVAYYSKHADGLCHRLTNVCPT 1f1w-a2-m1-cB_1f1w-a2-m2-cB SRC SH2 THREF1TRP MUTANT COMPLEXED WITH THE PHOSPHOPEPTIDE S(PTR)VNVQN 2.1 X-RAY DIFFRACTION 11 1.0 6 6 SVNVQN SVNVQN 1f1w-a3-m1-cA_1f1w-a3-m3-cA SRC SH2 THREF1TRP MUTANT COMPLEXED WITH THE PHOSPHOPEPTIDE S(PTR)VNVQN P00523 P00523 2.1 X-RAY DIFFRACTION 21 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 104 104 MAEEWYFGKITRRESERLLLNPENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYIWSRTQFSSLQQLVAYYSKHADGLCHRLTNVCPT MAEEWYFGKITRRESERLLLNPENPRGTFLVRESETTKGAYCLSVSDFDNAKGLNVKHYKIRKLDSGGFYIWSRTQFSSLQQLVAYYSKHADGLCHRLTNVCPT 1f28-a2-m1-cC_1f28-a2-m1-cD CRYSTAL STRUCTURE OF THYMIDYLATE SYNTHASE FROM PNEUMOCYSTIS CARINII BOUND TO DUMP AND BW1843U89 P13100 P13100 1.9 X-RAY DIFFRACTION 112 1.0 4754 (Pneumocystis carinii) 4754 (Pneumocystis carinii) 295 295 1ci7-a1-m1-cA_1ci7-a1-m1-cB 1f28-a1-m1-cA_1f28-a1-m1-cB NAEEQQYLNLVQYIINHGEDRPDRTGTGTLSVFAPSPLKFSLRNKTFPLLTTKRVFIRGVIEELLWFIRGETDSLKLREKNIHIWDANGSREYLDSIGLTKRQEGDLGPIYGFQWRHFGAEYIDCKTNYIGQGVDQLANIIQKIRTSPYDRRLILSAWNPADLEKMALPPCHMFCQFYVHIPSNNHRPELSCQLYQRSCDMGLGVPFNIASYALLTCMIAHVCDLDPGDFIHVMGDCHIYKDHIEALQQQLTRSPRPFPTLSLNRSITDIEDFTLDDFNIQNYHPYETIKMKMSI NAEEQQYLNLVQYIINHGEDRPDRTGTGTLSVFAPSPLKFSLRNKTFPLLTTKRVFIRGVIEELLWFIRGETDSLKLREKNIHIWDANGSREYLDSIGLTKRQEGDLGPIYGFQWRHFGAEYIDCKTNYIGQGVDQLANIIQKIRTSPYDRRLILSAWNPADLEKMALPPCHMFCQFYVHIPSNNHRPELSCQLYQRSCDMGLGVPFNIASYALLTCMIAHVCDLDPGDFIHVMGDCHIYKDHIEALQQQLTRSPRPFPTLSLNRSITDIEDFTLDDFNIQNYHPYETIKMKMSI 1f2d-a2-m1-cC_1f2d-a2-m1-cD 1-AMINOCYCLOPROPANE-1-CARBOXYLATE DEAMINASE Q7M523 Q7M523 2 X-RAY DIFFRACTION 140 1.0 341 341 1f2d-a1-m1-cA_1f2d-a1-m1-cB 1j0c-a1-m1-cA_1j0c-a1-m1-cB 1j0c-a2-m1-cC_1j0c-a2-m1-cD 1j0d-a1-m1-cA_1j0d-a1-m1-cB 1j0d-a2-m1-cC_1j0d-a2-m1-cD 1j0e-a1-m1-cA_1j0e-a1-m1-cB 1j0e-a2-m1-cC_1j0e-a2-m1-cD AGVAKFAKYPLTFGPSPISNLNRLSQHLGSKVNVYAKREDCNSGLAFGGNKLRKLEYIVPDIVEGDYTHLVSIGGRQSNQTRMVAALAAKLGKKCVLIQEDWVPIPEAEKDVYNRVGNIELSRIMGADVRVIEDGFDIGMRKSFANALQELEDAGHKPYPIPAGCSEHKYGGLGFVGFADEVINQEVELGIKFDKIVVCCVTGSTTAGILAGMAQYGRQDDVIAIDASFTSEKTKEQTLRIANNTAKLIGVEHEFKDFTLDTRFAYPCYGVPNEGTIEAIRTCAEQEGVLTDPVYEGKSMQGLIALIKEDYFKPGANVLYVHLGGAPALSAYSSFFPTKTA AGVAKFAKYPLTFGPSPISNLNRLSQHLGSKVNVYAKREDCNSGLAFGGNKLRKLEYIVPDIVEGDYTHLVSIGGRQSNQTRMVAALAAKLGKKCVLIQEDWVPIPEAEKDVYNRVGNIELSRIMGADVRVIEDGFDIGMRKSFANALQELEDAGHKPYPIPAGCSEHKYGGLGFVGFADEVINQEVELGIKFDKIVVCCVTGSTTAGILAGMAQYGRQDDVIAIDASFTSEKTKEQTLRIANNTAKLIGVEHEFKDFTLDTRFAYPCYGVPNEGTIEAIRTCAEQEGVLTDPVYEGKSMQGLIALIKEDYFKPGANVLYVHLGGAPALSAYSSFFPTKTA 1f2e-a3-m1-cA_1f2e-a3-m1-cD STRUCTURE OF SPHINGOMONAD, GLUTATHIONE S-TRANSFERASE COMPLEXED WITH GLUTATHIONE O33705 O33705 2.3 X-RAY DIFFRACTION 71 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 201 201 MKLFISPGACSLAPHIALRETGADFEAVKVDLAVRKTEAGEDFLTVNPSGKVPALTLDSGETLTENPAILLYIADQNPASGLAPAEGSLDRYRLLSRLSFLGSEFHKAFVPLFAPATSDEAKAAAAESVKNHLAALDKELAGRDHYAGNAFSVADIYLYVMLGWPAYVGIDMAAYPALGAYAGKIAQRPAVGAALKAEGLA MKLFISPGACSLAPHIALRETGADFEAVKVDLAVRKTEAGEDFLTVNPSGKVPALTLDSGETLTENPAILLYIADQNPASGLAPAEGSLDRYRLLSRLSFLGSEFHKAFVPLFAPATSDEAKAAAAESVKNHLAALDKELAGRDHYAGNAFSVADIYLYVMLGWPAYVGIDMAAYPALGAYAGKIAQRPAVGAALKAEGLA 1f2e-a3-m1-cC_1f2e-a3-m1-cD STRUCTURE OF SPHINGOMONAD, GLUTATHIONE S-TRANSFERASE COMPLEXED WITH GLUTATHIONE O33705 O33705 2.3 X-RAY DIFFRACTION 82 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 201 201 1f2e-a1-m1-cA_1f2e-a1-m1-cB 1f2e-a2-m1-cC_1f2e-a2-m1-cD 1f2e-a3-m1-cA_1f2e-a3-m1-cB MKLFISPGACSLAPHIALRETGADFEAVKVDLAVRKTEAGEDFLTVNPSGKVPALTLDSGETLTENPAILLYIADQNPASGLAPAEGSLDRYRLLSRLSFLGSEFHKAFVPLFAPATSDEAKAAAAESVKNHLAALDKELAGRDHYAGNAFSVADIYLYVMLGWPAYVGIDMAAYPALGAYAGKIAQRPAVGAALKAEGLA MKLFISPGACSLAPHIALRETGADFEAVKVDLAVRKTEAGEDFLTVNPSGKVPALTLDSGETLTENPAILLYIADQNPASGLAPAEGSLDRYRLLSRLSFLGSEFHKAFVPLFAPATSDEAKAAAAESVKNHLAALDKELAGRDHYAGNAFSVADIYLYVMLGWPAYVGIDMAAYPALGAYAGKIAQRPAVGAALKAEGLA 1f2i-a2-m1-cI_1f2i-a2-m1-cJ COCRYSTAL STRUCTURE OF SELECTED ZINC FINGER DIMER BOUND TO DNA P08046 P08046 2.35 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 66 66 1f2i-a1-m1-cG_1f2i-a1-m1-cH 1f2i-a3-m1-cK_1f2i-a3-m1-cL NLLNYVVPKMRPYACPVESCDRRFSRSDELTRHIRIHTGQKPFQCRICMRNFSRSDHLTTHIRTHT NLLNYVVPKMRPYACPVESCDRRFSRSDELTRHIRIHTGQKPFQCRICMRNFSRSDHLTTHIRTHT 1f2l-a1-m1-cA_1f2l-a1-m1-cD CRYSTAL STRUCTURE OF CHEMOKINE DOMAIN OF FRACTALKINE P78423 P78423 2 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 70 1f2l-a1-m1-cB_1f2l-a1-m1-cC VTKCNITCSKMTSKIPVALLIHYQQNQASCGKRAIILETRQHRLFCADPKEQWVKDAMQHLDRQ VTKCNITCSKMTSKIPVALLIHYQQNQASCGKRAIILETRQHRLFCADPKEQWVKDAMQHLDRQAAALTR 1f2l-a1-m1-cC_1f2l-a1-m1-cD CRYSTAL STRUCTURE OF CHEMOKINE DOMAIN OF FRACTALKINE P78423 P78423 2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 70 VTKCNITCSKMTSKIPVALLIHYQQNQASCGKRAIILETRQHRLFCADPKEQWVKDAMQHLDRQ VTKCNITCSKMTSKIPVALLIHYQQNQASCGKRAIILETRQHRLFCADPKEQWVKDAMQHLDRQAAALTR 1f2v-a1-m1-cA_1f2v-a1-m2-cA CRYSTAL STRUCTURE ANALYSIS OF PRECORRIN-8X METHYLMUTASE OF AEROBIC VITAMIN B12 SYNTHESIS P21638 P21638 2.1 X-RAY DIFFRACTION 123 1.0 43306 (Pseudomonas denitrificans (nom. rej.)) 43306 (Pseudomonas denitrificans (nom. rej.)) 209 209 1i1h-a1-m1-cA_1i1h-a1-m2-cA PEYDYIRDGNAIYERSFAIIRAEADLSRFSEEEADLAVRMVHACGSVEATRQFVFSPDFVSSARAALKAGAPILCDAEMVAHGVTRARLPAGNEVICTLRDPRTPALAAEIGNTRSAAALKLWSERLAGSVVAIGNAPTALFFLLEMLRDGAPKPAAILGMPVGFVGAAESKDALAENSYGVPFAIVRGRLGGSAMTAAALNSLARPGL PEYDYIRDGNAIYERSFAIIRAEADLSRFSEEEADLAVRMVHACGSVEATRQFVFSPDFVSSARAALKAGAPILCDAEMVAHGVTRARLPAGNEVICTLRDPRTPALAAEIGNTRSAAALKLWSERLAGSVVAIGNAPTALFFLLEMLRDGAPKPAAILGMPVGFVGAAESKDALAENSYGVPFAIVRGRLGGSAMTAAALNSLARPGL 1f35-a3-m1-cA_1f35-a3-m2-cB CRYSTAL STRUCTURE OF MURINE OLFACTORY MARKER PROTEIN Q64288 Q64288 2.3 X-RAY DIFFRACTION 45 1.0 10090 (Mus musculus) 10090 (Mus musculus) 157 157 1job-a2-m1-cA_1job-a2-m2-cA AEDGPQKQQLEPLVLDQDLTQQRLRVESLKQRGEKKQDGEKLIRPAESVYRLDFIQQQKLQFDHWNVVLDKPGKVTITGTSQNWTPDLTNLTRQLLDPAAIFWRKEDSDADWNEADALEFGERLSDLAKIRKVYFLITFGEGVEPANLKASVVFNQL AEDGPQKQQLEPLVLDQDLTQQRLRVESLKQRGEKKQDGEKLIRPAESVYRLDFIQQQKLQFDHWNVVLDKPGKVTITGTSQNWTPDLTNLTRQLLDPAAIFWRKEDSDADWNEADALEFGERLSDLAKIRKVYFLITFGEGVEPANLKASVVFNQL 1f37-a2-m1-cA_1f37-a2-m2-cA STRUCTURE OF A THIOREDOXIN-LIKE [2FE-2S] FERREDOXIN FROM AQUIFEX AEOLICUS O66511 O66511 2.3 X-RAY DIFFRACTION 25 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 109 109 AEFKHVFVCVQDRPPGHPQGSCAQRGSREVFQAFMEKIQTDPQLFMTTVITPTGCMNACMMGPVVVVYPDGVWYGQVKPEDVDEIVEKHLKGGEPVERLVISKGKPPGM AEFKHVFVCVQDRPPGHPQGSCAQRGSREVFQAFMEKIQTDPQLFMTTVITPTGCMNACMMGPVVVVYPDGVWYGQVKPEDVDEIVEKHLKGGEPVERLVISKGKPPGM 1f3a-a1-m1-cA_1f3a-a1-m1-cB CRYSTAL STRUCTURE OF MGSTA1-1 IN COMPLEX WITH GSH P13745 P13745 1.9 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 1ev4-a1-m1-cA_1ev4-a1-m2-cA 1ev4-a2-m1-cC_1ev4-a2-m1-cD 1ev9-a1-m1-cA_1ev9-a1-m2-cA 1ev9-a2-m1-cC_1ev9-a2-m1-cD 1f3b-a1-m1-cA_1f3b-a1-m1-cB 1ml6-a1-m1-cA_1ml6-a1-m1-cB 5ld0-a1-m1-cA_5ld0-a1-m2-cA AGKPVLHYFNARGRMECIRWLLAAAGVEFEEKFIQSPEDLEKLKKDGNLMFDQVPMVEIDGMKLAQTRAILNYIATKYDLYGKDMKERALIDMYSEGILDLTEMIGQLVLCPPDQREAKTALAKDRTKNRYLPAFEKVLKSHGQDYLVGNRLTRVDIHLLEVLLYVEEFDASLLTPFPLLKAFKSRISSLPNVKKFLQPGSQRKPPMDAKQIQEARKAFKI AGKPVLHYFNARGRMECIRWLLAAAGVEFEEKFIQSPEDLEKLKKDGNLMFDQVPMVEIDGMKLAQTRAILNYIATKYDLYGKDMKERALIDMYSEGILDLTEMIGQLVLCPPDQREAKTALAKDRTKNRYLPAFEKVLKSHGQDYLVGNRLTRVDIHLLEVLLYVEEFDASLLTPFPLLKAFKSRISSLPNVKKFLQPGSQRKPPMDAKQIQEARKAFKI 1f3g-a1-m2-cA_1f3g-a1-m3-cA THREE-DIMENSIONAL STRUCTURE OF THE ESCHERICHIA COLI PHOSPHOCARRIER PROTEIN III GLC P69783 P69783 2.1 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 150 1f3g-a1-m1-cA_1f3g-a1-m2-cA 1f3g-a1-m1-cA_1f3g-a1-m3-cA TIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK TIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK 1f3j-a1-m1-cE_1f3j-a1-m1-cB HISTOCOMPATIBILITY ANTIGEN I-AG7 Q31135 Q31135 3.1 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 187 187 ERHFVHQFKGECYFTNGTQRIRLVTRYIYNREEYLRFDSDVGEYRAVTELGRHSAEYYNKQYLERTRAELDTACRHNYEETEVPTSLRRLEQPNVAISLSRTEALNHHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPHQGEVYTCHVEHPSLKSPITVEWRAQ ERHFVHQFKGECYFTNGTQRIRLVTRYIYNREEYLRFDSDVGEYRAVTELGRHSAEYYNKQYLERTRAELDTACRHNYEETEVPTSLRRLEQPNVAISLSRTEALNHHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPHQGEVYTCHVEHPSLKSPITVEWRAQ 1f3m-a1-m1-cA_1f3m-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN SERINE/THREONINE KINASE PAK1 Q13153 Q13153 2.3 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 70 PSDFEHTIHVGFDAVTGEFTGMPEQWARLLQTSNITKSEQKKNPQAVLDVLEFYNSKKTSNSQKYMSFTD PSDFEHTIHVGFDAVTGEFTGMPEQWARLLQTSNITKSEQKKNPQAVLDVLEFYNSKKTSNSQKYMSFTD 1f3o-a1-m1-cA_1f3o-a1-m2-cA Crystal structure of MJ0796 ATP-binding cassette Q58206 Q58206 2.7 X-RAY DIFFRACTION 36 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 225 225 IKLKNVTKTYKGEEIIYALKNVNLNIKEGEFVSIGPSGSGKSTLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGASGEERRKRALECLKAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADEPTGALDSKTGEKIQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLRGF IKLKNVTKTYKGEEIIYALKNVNLNIKEGEFVSIGPSGSGKSTLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGASGEERRKRALECLKAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADEPTGALDSKTGEKIQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLRGF 1f3z-a1-m1-cA_1f3z-a1-m2-cA IIAGLC-ZN COMPLEX P69783 P69783 1.98 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 150 TIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK TIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK 1f46-a1-m1-cA_1f46-a1-m1-cB THE BACTERIAL CELL-DIVISION PROTEIN ZIPA AND ITS INTERACTION WITH AN FTSZ FRAGMENT REVEALED BY X-RAY CRYSTALLOGRAPHY P77173 P77173 1.5 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 139 140 RKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTPGVTIFMQVPSYGDELQLFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA KRKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTPGVTIFMQVPSYGDELQLFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA 1f4c-a1-m1-cB_1f4c-a1-m1-cA CRYSTAL STRUCTURE OF E. COLI THYMIDYLATE SYNTHASE COVALENTLY MODIFIED AT C146 WITH N-[TOSYL-D-PROLINYL]AMINO-ETHANETHIOL P0A884 P0A884 2 X-RAY DIFFRACTION 129 1.0 562 (Escherichia coli) 562 (Escherichia coli) 260 261 1aiq-a1-m1-cA_1aiq-a1-m1-cB 1ajm-a1-m1-cA_1ajm-a1-m2-cA 1an5-a1-m1-cA_1an5-a1-m1-cB 1aob-a1-m1-cA_1aob-a1-m2-cA 1axw-a1-m1-cA_1axw-a1-m1-cB 1bdu-a1-m1-cA_1bdu-a1-m2-cA 1bid-a1-m1-cA_1bid-a1-m2-cA 1bjg-a1-m1-cA_1bjg-a1-m2-cA 1bq1-a1-m1-cA_1bq1-a1-m1-cB 1bq2-a1-m1-cA_1bq2-a1-m2-cA 1ddu-a1-m1-cA_1ddu-a1-m1-cB 1dna-a1-m1-cA_1dna-a1-m1-cB 1ev5-a1-m1-cA_1ev5-a1-m2-cA 1ev8-a1-m1-cA_1ev8-a1-m2-cA 1evf-a1-m1-cA_1evf-a1-m2-cA 1evg-a1-m1-cA_1evg-a1-m2-cA 1f4b-a1-m1-cA_1f4b-a1-m2-cA 1f4d-a1-m1-cA_1f4d-a1-m1-cB 1f4e-a1-m1-cA_1f4e-a1-m2-cA 1f4f-a1-m1-cB_1f4f-a1-m1-cA 1f4g-a1-m1-cB_1f4g-a1-m1-cA 1ffl-a1-m1-cA_1ffl-a1-m2-cA 1fwm-a1-m1-cA_1fwm-a1-m1-cB 1jg0-a1-m1-cA_1jg0-a1-m1-cB 1jtq-a1-m1-cA_1jtq-a1-m1-cB 1jtu-a1-m1-cA_1jtu-a1-m1-cB 1jut-a1-m1-cA_1jut-a1-m1-cB 1kce-a1-m1-cA_1kce-a1-m1-cB 1kzi-a1-m1-cA_1kzi-a1-m1-cB 1kzj-a1-m1-cA_1kzj-a1-m1-cB 1kzj-a2-m1-cC_1kzj-a2-m1-cD 1kzj-a3-m1-cE_1kzj-a3-m1-cF 1nce-a1-m1-cA_1nce-a1-m1-cB 1qqq-a2-m1-cA_1qqq-a2-m2-cA 1syn-a1-m1-cA_1syn-a1-m1-cB 1tdu-a1-m1-cA_1tdu-a1-m1-cB 1tjs-a1-m1-cA_1tjs-a1-m2-cA 1tlc-a1-m1-cA_1tlc-a1-m1-cB 1tls-a1-m1-cA_1tls-a1-m1-cB 1trg-a1-m1-cA_1trg-a1-m2-cA 1tsd-a1-m1-cA_1tsd-a1-m1-cB 1tsn-a1-m1-cA_1tsn-a1-m2-cA 1tys-a1-m1-cA_1tys-a1-m2-cA 1zpr-a1-m1-cA_1zpr-a1-m1-cB 2a9w-a1-m1-cA_2a9w-a1-m1-cB 2a9w-a2-m1-cC_2a9w-a2-m1-cD 2bbq-a1-m1-cA_2bbq-a1-m1-cB 2ftn-a1-m1-cA_2ftn-a1-m2-cA 2fto-a1-m1-cX_2fto-a1-m2-cX 2ftq-a1-m1-cA_2ftq-a1-m2-cA 2g8x-a1-m1-cA_2g8x-a1-m1-cB 2kce-a1-m1-cA_2kce-a1-m1-cB 2tsc-a1-m1-cA_2tsc-a1-m1-cB 2vet-a1-m1-cA_2vet-a1-m2-cA 2vf0-a1-m1-cA_2vf0-a1-m1-cB 3b5b-a1-m1-cA_3b5b-a1-m1-cB 3b9h-a1-m1-cA_3b9h-a1-m2-cA 3bfi-a1-m1-cA_3bfi-a1-m2-cA 3bgx-a1-m1-cA_3bgx-a1-m2-cA 3bhl-a1-m1-cA_3bhl-a1-m1-cB 3bhr-a1-m1-cA_3bhr-a1-m2-cA 3tms-a1-m1-cA_3tms-a1-m2-cA 4f2v-a1-m1-cB_4f2v-a1-m1-cA 4gev-a1-m1-cA_4gev-a1-m1-cB 4isk-a1-m1-cA_4isk-a1-m1-cE 4isk-a2-m1-cB_4isk-a2-m1-cD 4isk-a3-m1-cC_4isk-a3-m1-cF 4isk-a4-m1-cG_4isk-a4-m1-cH 4lrr-a1-m1-cA_4lrr-a1-m2-cA 6cdz-a1-m1-cA_6cdz-a1-m1-cB 6nnr-a1-m1-cA_6nnr-a1-m1-cB 7jx1-a1-m1-cA_7jx1-a1-m1-cB 7jxf-a1-m1-cA_7jxf-a1-m1-cB KQYLELMQKVLDEGTQKNDRTGTGTLSIFGHQMRFNLQDGFPLVTTKRCHLRSIIHELLWFLQGDTNIAYLHENNVTIWDEWADENGDLGPVYGKQWRAWPTPDGRHIDQITTVLNQLKNDPDSRRIIVSAWNVGELDKMALAPCHAFFQFYVADGKLSCQLYQRSCDVFLGLPFNIASYALLVHMMAQQCDLEVGDFVWTGGDTHLYSNHMDQTHLQLSREPRPLPKLIIKRKPESIFDYRFEDFEIEGYDPHPGIKAP KQYLELMQKVLDEGTQKNDRTGTGTLSIFGHQMRFNLQDGFPLVTTKRCHLRSIIHELLWFLQGDTNIAYLHENNVTIWDEWADENGDLGPVYGKQWRAWPTPDGRHIDQITTVLNQLKNDPDSRRIIVSAWNVGELDKMALAPCHAFFQFYVADGKLSCQLYQRSCDVFLGLPFNIASYALLVHMMAQQCDLEVGDFVWTGGDTHLYSNHMDQTHLQLSREPRPLPKLIIKRKPESIFDYRFEDFEIEGYDPHPGIKAPV 1f4l-a1-m1-cA_1f4l-a1-m2-cA CRYSTAL STRUCTURE OF THE E.COLI METHIONYL-TRNA SYNTHETASE COMPLEXED WITH METHIONINE P00959 P00959 1.85 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 545 545 AKKILVTCALPYANGSIHLGHMLEHIQADVWVRYQRMRGHEVNFICADDAHGTPIMLKAQQLGITPEQMIGEMSQEHQTDFAGFNISYDNYHSTHSEENRQLSELIYSRLKENGFIKNRTISQLYDPEKGMFLPDRFVKGTCPKCKSPDQYGDNCEVCGATYSPTELIEPKSVVSGATPVMRDSEHFFFDLPSFSEMLQAWTRSGALQEQVANKMQEWFESGLQQWDISRDAPYFGFEIPNAPGKYFYVWLDAPIGYMGSFKNLCDKRGDSVSFDEYWKKDSTAELYHFIGKDIVYFHSLFWPAMLEGSNFRKPSNLFVHGYVTVNGAKMSKSRGTFIKASTWLNHFDADSLRYYYTAKLSSRIDDIDLNLEDFVQRVNADIVNKVVNLASRNAGFINKRFDGVLASELADPQLYKTFTDAAEVIGEAWESREFGKAVREIMALADLANRYVDEQAPWVVAKQEGRDADLQAICSMGINLFRVLMTYLKPVLPKLTERAEAFLNTELTWDGIQQPLLGHKVNPFKALYNRIDMRQVEALVEASKE AKKILVTCALPYANGSIHLGHMLEHIQADVWVRYQRMRGHEVNFICADDAHGTPIMLKAQQLGITPEQMIGEMSQEHQTDFAGFNISYDNYHSTHSEENRQLSELIYSRLKENGFIKNRTISQLYDPEKGMFLPDRFVKGTCPKCKSPDQYGDNCEVCGATYSPTELIEPKSVVSGATPVMRDSEHFFFDLPSFSEMLQAWTRSGALQEQVANKMQEWFESGLQQWDISRDAPYFGFEIPNAPGKYFYVWLDAPIGYMGSFKNLCDKRGDSVSFDEYWKKDSTAELYHFIGKDIVYFHSLFWPAMLEGSNFRKPSNLFVHGYVTVNGAKMSKSRGTFIKASTWLNHFDADSLRYYYTAKLSSRIDDIDLNLEDFVQRVNADIVNKVVNLASRNAGFINKRFDGVLASELADPQLYKTFTDAAEVIGEAWESREFGKAVREIMALADLANRYVDEQAPWVVAKQEGRDADLQAICSMGINLFRVLMTYLKPVLPKLTERAEAFLNTELTWDGIQQPLLGHKVNPFKALYNRIDMRQVEALVEASKE 1f4n-a2-m1-cB_1f4n-a2-m2-cB C2 CRYSTAL STRUCTURE OF ALA2ILE2-6, A VERSION OF ROP WITH A REPACKED HYDROPHOBIC CORE AND A NEW FOLD. P03051 P03051 1.9 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 50 50 KTILNMARFIRSQALTILEKANELDADEIADIAESIHDHADEIYRSALAR KTILNMARFIRSQALTILEKANELDADEIADIAESIHDHADEIYRSALAR 1f4n-a2-m2-cB_1f4n-a2-m2-cA C2 CRYSTAL STRUCTURE OF ALA2ILE2-6, A VERSION OF ROP WITH A REPACKED HYDROPHOBIC CORE AND A NEW FOLD. P03051 P03051 1.9 X-RAY DIFFRACTION 83 1.0 562 (Escherichia coli) 562 (Escherichia coli) 50 59 1f4m-a1-m1-cA_1f4m-a1-m1-cB 1f4m-a2-m1-cC_1f4m-a2-m1-cD 1f4m-a3-m1-cE_1f4m-a3-m1-cF 1f4n-a1-m1-cB_1f4n-a1-m1-cA 1f4n-a2-m1-cB_1f4n-a2-m1-cA KTILNMARFIRSQALTILEKANELDADEIADIAESIHDHADEIYRSALAR GTKQEKTILNMARFIRSQALTILEKANELDADEIADIAESIHDHADEIYRSALARFGDD 1f4o-a1-m1-cA_1f4o-a1-m1-cB CRYSTAL STRUCTURE OF GRANCALCIN WITH BOUND CALCIUM P28676 P28676 2.5 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 1f4q-a1-m1-cA_1f4q-a1-m1-cB 1k94-a1-m1-cA_1k94-a1-m1-cB 1k95-a2-m1-cA_1k95-a2-m2-cA SVYTYFSAVAGQDGEVDAEELQRCLTQSGINGTYSPFSLETCRIMIAMLDRDHTGKMGFNAFKELWAALNAWKENFMTVDQDGSGTVEHHELRQAIGLMGYRLSPQTLTTIVKRYSKNGRIFFDDYVACCVKLRALTDFFKKRDHLQQGSADFIYDDFLQGTMAI SVYTYFSAVAGQDGEVDAEELQRCLTQSGINGTYSPFSLETCRIMIAMLDRDHTGKMGFNAFKELWAALNAWKENFMTVDQDGSGTVEHHELRQAIGLMGYRLSPQTLTTIVKRYSKNGRIFFDDYVACCVKLRALTDFFKKRDHLQQGSADFIYDDFLQGTMAI 1f4t-a3-m1-cA_1f4t-a3-m1-cB THERMOPHILIC P450: CYP119 FROM SULFOLOBUS SOLFACTARICUS WITH 4-PHENYLIMIDAZOLE BOUND Q55080 Q55080 1.93 X-RAY DIFFRACTION 14 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 367 367 MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRLGKPGEIFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKSN MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRLGKPGEIFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKSN 1f56-a4-m1-cA_1f56-a4-m3-cB SPINACH PLANTACYANIN O82080 O82080 2.05 X-RAY DIFFRACTION 19 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 91 91 AVYNIGWSFNVNGARGKSFRAGDVLVFKYIKGQHNVVAVNGRGYASCSAPRGARTYSSGQDRIKLTRGQNYFICSFPGHCGGGMKIAINAK AVYNIGWSFNVNGARGKSFRAGDVLVFKYIKGQHNVVAVNGRGYASCSAPRGARTYSSGQDRIKLTRGQNYFICSFPGHCGGGMKIAINAK 1f56-a4-m2-cC_1f56-a4-m3-cB SPINACH PLANTACYANIN O82080 O82080 2.05 X-RAY DIFFRACTION 18 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 91 91 AVYNIGWSFNVNGARGKSFRAGDVLVFKYIKGQHNVVAVNGRGYASCSAPRGARTYSSGQDRIKLTRGQNYFICSFPGHCGGGMKIAINAK AVYNIGWSFNVNGARGKSFRAGDVLVFKYIKGQHNVVAVNGRGYASCSAPRGARTYSSGQDRIKLTRGQNYFICSFPGHCGGGMKIAINAK 1f56-a5-m1-cA_1f56-a5-m2-cC SPINACH PLANTACYANIN O82080 O82080 2.05 X-RAY DIFFRACTION 22 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 91 91 1f56-a4-m1-cA_1f56-a4-m2-cC AVYNIGWSFNVNGARGKSFRAGDVLVFKYIKGQHNVVAVNGRGYASCSAPRGARTYSSGQDRIKLTRGQNYFICSFPGHCGGGMKIAINAK AVYNIGWSFNVNGARGKSFRAGDVLVFKYIKGQHNVVAVNGRGYASCSAPRGARTYSSGQDRIKLTRGQNYFICSFPGHCGGGMKIAINAK 1f5m-a2-m1-cB_1f5m-a2-m2-cB STRUCTURE OF THE GAF DOMAIN P36088 P36088 1.9 X-RAY DIFFRACTION 37 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 177 177 SSTGFHHADHVNYSSNLNKEEILEQLLLSYEGLSDGQVNWVCNLSNASSLIWHAYKSLAVDINWAGFYVTQASEENTLILGPFQGKVACQMIQFGKGVCGTAASTKETQIVPDVNKYPGHIACDGETKSEIVVPIISNDGKTLGVIDIDCLDYEGFDHVDKEFLEKLAKLINKSCVF SSTGFHHADHVNYSSNLNKEEILEQLLLSYEGLSDGQVNWVCNLSNASSLIWHAYKSLAVDINWAGFYVTQASEENTLILGPFQGKVACQMIQFGKGVCGTAASTKETQIVPDVNKYPGHIACDGETKSEIVVPIISNDGKTLGVIDIDCLDYEGFDHVDKEFLEKLAKLINKSCVF 1f5m-a3-m1-cA_1f5m-a3-m3-cA STRUCTURE OF THE GAF DOMAIN P36088 P36088 1.9 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 176 176 STGFHHADHVNYSSNLNKEEILEQLLLSYEGLSDGQVNWVCNLSNASSLIWHAYKSLAVDINWAGFYVTQASEENTLILGPFQGKVACQMIQFGKGVCGTAASTKETQIVPDVNKYPGHIACDGETKSEIVVPIISNDGKTLGVIDIDCLDYEGFDHVDKEFLEKLAKLINKSCVF STGFHHADHVNYSSNLNKEEILEQLLLSYEGLSDGQVNWVCNLSNASSLIWHAYKSLAVDINWAGFYVTQASEENTLILGPFQGKVACQMIQFGKGVCGTAASTKETQIVPDVNKYPGHIACDGETKSEIVVPIISNDGKTLGVIDIDCLDYEGFDHVDKEFLEKLAKLINKSCVF 1f5m-a3-m3-cA_1f5m-a3-m3-cB STRUCTURE OF THE GAF DOMAIN P36088 P36088 1.9 X-RAY DIFFRACTION 130 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 176 177 1f5m-a1-m1-cA_1f5m-a1-m1-cB 1f5m-a2-m1-cA_1f5m-a2-m1-cB 1f5m-a2-m2-cA_1f5m-a2-m2-cB 1f5m-a3-m1-cA_1f5m-a3-m1-cB 3ko6-a1-m1-cA_3ko6-a1-m1-cB STGFHHADHVNYSSNLNKEEILEQLLLSYEGLSDGQVNWVCNLSNASSLIWHAYKSLAVDINWAGFYVTQASEENTLILGPFQGKVACQMIQFGKGVCGTAASTKETQIVPDVNKYPGHIACDGETKSEIVVPIISNDGKTLGVIDIDCLDYEGFDHVDKEFLEKLAKLINKSCVF SSTGFHHADHVNYSSNLNKEEILEQLLLSYEGLSDGQVNWVCNLSNASSLIWHAYKSLAVDINWAGFYVTQASEENTLILGPFQGKVACQMIQFGKGVCGTAASTKETQIVPDVNKYPGHIACDGETKSEIVVPIISNDGKTLGVIDIDCLDYEGFDHVDKEFLEKLAKLINKSCVF 1f5w-a2-m1-cB_1f5w-a2-m2-cA DIMERIC STRUCTURE OF THE COXSACKIE VIRUS AND ADENOVIRUS RECEPTOR D1 DOMAIN P78310 P78310 1.7 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 124 SLSITTPEEMIEKAKGETAYLPCKFTLSPEDQGPLDIEWLISPADNQKVDQVIILYSGDKIYDDYYPDLKGRVHFTSNDLKSGDASINVTNLQLSDIGTYQCKVKKAPGVANKKIHLVVLV FARSLSITTPEEMIEKAKGETAYLPCKFTLSPEDQGPLDIEWLISPADNQKVDQVIILYSGDKIYDDYYPDLKGRVHFTSNDLKSGDASINVTNLQLSDIGTYQCKVKKAPGVANKKIHLVVLV 1f6b-a1-m1-cA_1f6b-a1-m1-cB CRYSTAL STRUCTURE OF SAR1-GDP COMPLEX Q9QVY3 Q9QVY3 1.7 X-RAY DIFFRACTION 58 1.0 10029 (Cricetulus griseus) 10029 (Cricetulus griseus) 176 180 SSVLQFLGLYKKTGKLVFLGLDNAGKTTLLHMLKDDPTLHPTSEELTIAGMTFTTFDLGGRRVWKNYLPAINGIVFLVDCADHERLLESKEELDSLMTDETIANVPILILGNKIDRPEAISEERLREMFGLYGQTTGKGSVSLKELNARPLEVFMCSVLKRQGYGEGFRWMAQYID SSVLQFLGLYKKTGKLVFLGLDNAGKTTLLHMLKDDPTLHPTSEELTIAGMTFTTFDLGGHIQARRVWKNYLPAINGIVFLVDCADHERLLESKEELDSLMTDETIANVPILILGNKIDRPEAISEERLREMFGLYGQTTGKGSVSLKELNARPLEVFMCSVLKRQGYGEGFRWMAQYID 1f75-a1-m1-cB_1f75-a1-m1-cA CRYSTAL STRUCTURE OF UNDECAPRENYL DIPHOSPHATE SYNTHASE FROM MICROCOCCUS LUTEUS B-P 26 O82827 O82827 2.2 X-RAY DIFFRACTION 101 1.0 1270 (Micrococcus luteus) 1270 (Micrococcus luteus) 212 217 QIPKHIAIIMDGNGRWAKQKKMPRIKGHYEGMQTVRKITRYASDLGVKYLTLYAFNYLMKLPGDFLNTFLPELIEKNVKVETIGFIDDLPDHTKKAVLEAKEKTKHNTGLTLVFALNYGGRKEIISAVQLIAERYKSGEISLDEISETHFNEYLFTANMPDPELLIRTSGEERLSNFLIWQCSYSEFVFIDEFWPDFNEESLAQCISIYQNR NINAAQIPKHIAIIMDGNGRWAKQKKMPRIKGHYEGMQTVRKITRYASDLGVKYLTLYAFNYLMKLPGDFLNTFLPELIEKNVKVETIGFIDDLPDHTKKAVLEAKEKTKHNTGLTLVFALNYGGRKEIISAVQLIAERYKSGEISLDEISETHFNEYLFTANMPDPELLIRTSGEERLSNFLIWQCSYSEFVFIDEFWPDFNEESLAQCISIYQNR 1f89-a1-m1-cA_1f89-a1-m1-cB Crystal structure of Saccharomyces cerevisiae Nit3, a member of branch 10 of the nitrilase superfamily P49954 P49954 2.4 X-RAY DIFFRACTION 64 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 271 271 SASKILSQKIKVALVQLSGSSPDKMANLQRAATFIERAMKEQPDTKLVVLPECFNSPYSTDQFRKYSEVINPKEPSTSVQFLSNLANKFKIILVGGTIPELDPKTDKIYNTSIIFNEDGKLIDKHRKVHLFHESETLSPGEKSTTIDTKYGKFGVGICYDMRFPELAMLSARKGAFAMIYPSAFNTVTGPLHWHLLARSRAVDNQVYVMLCSPARNLQSSYHAYGHSIVVDPRGKIVAEAGEGEEIIYAELDPEVIESFRQAVPLTKQRRF SASKILSQKIKVALVQLSGSSPDKMANLQRAATFIERAMKEQPDTKLVVLPECFNSPYSTDQFRKYSEVINPKEPSTSVQFLSNLANKFKIILVGGTIPELDPKTDKIYNTSIIFNEDGKLIDKHRKVHLFHESETLSPGEKSTTIDTKYGKFGVGICYDMRFPELAMLSARKGAFAMIYPSAFNTVTGPLHWHLLARSRAVDNQVYVMLCSPARNLQSSYHAYGHSIVVDPRGKIVAEAGEGEEIIYAELDPEVIESFRQAVPLTKQRRF 1f8f-a1-m1-cA_1f8f-a1-m4-cA CRYSTAL STRUCTURE OF BENZYL ALCOHOL DEHYDROGENASE FROM ACINETOBACTER CALCOACETICUS Q59096 Q59096 2.2 X-RAY DIFFRACTION 120 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 362 362 1f8f-a1-m2-cA_1f8f-a1-m3-cA LKDIIAAVTPCKGADFELQALKIRQPQGDEVLVKVVATGMCHTDLIVRDQKYPVPLPAVLGHEGSGIIEAIGPNVTELQVGDHVVLSYGYCGKCTQCNTGNPAYCSEFFGRNFSGADSEGNHALCVNDHFFAQSSFATYALSRENNTVKVTKDVPIELLGPLGCGIQTGAGACINALKVTPASSFVTWGAGAVGLSALLAAKVCGASIIIAVDIVESRLELAKQLGATHVINSKTQDPVAAIKEITDGGVNFALESTGSPEILKQGVDALGILGKIAVVGAPQLGTTAQFDVNDLLLGGKTILGVVEGSGSPKKFIPELVRLYQQGKFPFDQLVKFYAFDEINQAAIDSRKGITLKPIIKIA LKDIIAAVTPCKGADFELQALKIRQPQGDEVLVKVVATGMCHTDLIVRDQKYPVPLPAVLGHEGSGIIEAIGPNVTELQVGDHVVLSYGYCGKCTQCNTGNPAYCSEFFGRNFSGADSEGNHALCVNDHFFAQSSFATYALSRENNTVKVTKDVPIELLGPLGCGIQTGAGACINALKVTPASSFVTWGAGAVGLSALLAAKVCGASIIIAVDIVESRLELAKQLGATHVINSKTQDPVAAIKEITDGGVNFALESTGSPEILKQGVDALGILGKIAVVGAPQLGTTAQFDVNDLLLGGKTILGVVEGSGSPKKFIPELVRLYQQGKFPFDQLVKFYAFDEINQAAIDSRKGITLKPIIKIA 1f8f-a1-m2-cA_1f8f-a1-m4-cA CRYSTAL STRUCTURE OF BENZYL ALCOHOL DEHYDROGENASE FROM ACINETOBACTER CALCOACETICUS Q59096 Q59096 2.2 X-RAY DIFFRACTION 38 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 362 362 1f8f-a1-m1-cA_1f8f-a1-m3-cA LKDIIAAVTPCKGADFELQALKIRQPQGDEVLVKVVATGMCHTDLIVRDQKYPVPLPAVLGHEGSGIIEAIGPNVTELQVGDHVVLSYGYCGKCTQCNTGNPAYCSEFFGRNFSGADSEGNHALCVNDHFFAQSSFATYALSRENNTVKVTKDVPIELLGPLGCGIQTGAGACINALKVTPASSFVTWGAGAVGLSALLAAKVCGASIIIAVDIVESRLELAKQLGATHVINSKTQDPVAAIKEITDGGVNFALESTGSPEILKQGVDALGILGKIAVVGAPQLGTTAQFDVNDLLLGGKTILGVVEGSGSPKKFIPELVRLYQQGKFPFDQLVKFYAFDEINQAAIDSRKGITLKPIIKIA LKDIIAAVTPCKGADFELQALKIRQPQGDEVLVKVVATGMCHTDLIVRDQKYPVPLPAVLGHEGSGIIEAIGPNVTELQVGDHVVLSYGYCGKCTQCNTGNPAYCSEFFGRNFSGADSEGNHALCVNDHFFAQSSFATYALSRENNTVKVTKDVPIELLGPLGCGIQTGAGACINALKVTPASSFVTWGAGAVGLSALLAAKVCGASIIIAVDIVESRLELAKQLGATHVINSKTQDPVAAIKEITDGGVNFALESTGSPEILKQGVDALGILGKIAVVGAPQLGTTAQFDVNDLLLGGKTILGVVEGSGSPKKFIPELVRLYQQGKFPFDQLVKFYAFDEINQAAIDSRKGITLKPIIKIA 1f8f-a1-m3-cA_1f8f-a1-m4-cA CRYSTAL STRUCTURE OF BENZYL ALCOHOL DEHYDROGENASE FROM ACINETOBACTER CALCOACETICUS Q59096 Q59096 2.2 X-RAY DIFFRACTION 39 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 362 362 1f8f-a1-m1-cA_1f8f-a1-m2-cA LKDIIAAVTPCKGADFELQALKIRQPQGDEVLVKVVATGMCHTDLIVRDQKYPVPLPAVLGHEGSGIIEAIGPNVTELQVGDHVVLSYGYCGKCTQCNTGNPAYCSEFFGRNFSGADSEGNHALCVNDHFFAQSSFATYALSRENNTVKVTKDVPIELLGPLGCGIQTGAGACINALKVTPASSFVTWGAGAVGLSALLAAKVCGASIIIAVDIVESRLELAKQLGATHVINSKTQDPVAAIKEITDGGVNFALESTGSPEILKQGVDALGILGKIAVVGAPQLGTTAQFDVNDLLLGGKTILGVVEGSGSPKKFIPELVRLYQQGKFPFDQLVKFYAFDEINQAAIDSRKGITLKPIIKIA LKDIIAAVTPCKGADFELQALKIRQPQGDEVLVKVVATGMCHTDLIVRDQKYPVPLPAVLGHEGSGIIEAIGPNVTELQVGDHVVLSYGYCGKCTQCNTGNPAYCSEFFGRNFSGADSEGNHALCVNDHFFAQSSFATYALSRENNTVKVTKDVPIELLGPLGCGIQTGAGACINALKVTPASSFVTWGAGAVGLSALLAAKVCGASIIIAVDIVESRLELAKQLGATHVINSKTQDPVAAIKEITDGGVNFALESTGSPEILKQGVDALGILGKIAVVGAPQLGTTAQFDVNDLLLGGKTILGVVEGSGSPKKFIPELVRLYQQGKFPFDQLVKFYAFDEINQAAIDSRKGITLKPIIKIA 1f93-a2-m1-cH_1f93-a2-m1-cG CRYSTAL STRUCTURE OF A COMPLEX BETWEEN THE DIMERIZATION DOMAIN OF HNF-1 ALPHA AND THE COACTIVATOR DCOH P22361 P22361 2.6 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 26 27 1f93-a1-m1-cF_1f93-a1-m1-cE LSQLQTELLAALLESGLSKEALIQAL KLSQLQTELLAALLESGLSKEALIQAL 1f99-a1-m1-cA_1f99-a1-m2-cM CRYSTAL STRUCTURE OF R-PHYCOCYANIN FROM POLYSIPHONIA AT 2.4 A RESOLUTION P59858 P59858 2.4 X-RAY DIFFRACTION 23 1.0 65404 (Polysiphonia urceolata) 65404 (Polysiphonia urceolata) 162 162 1f99-a1-m1-cK_1f99-a1-m2-cK 1f99-a1-m1-cM_1f99-a1-m2-cA MKTPLTEAIAAADSQGRFLSNTELQVVNGRYNRATSSLEAAKALTANADRLISGAANAVYSKFPYTTQMPGPNYSSTAIGKAKCARDIGYYLRMVTYCLVVGGTGPMDDYLVAGLEEINRTFELSPSWYIEALKYIKNNHGLSGDVANEANTYIDYAINTLS MKTPLTEAIAAADSQGRFLSNTELQVVNGRYNRATSSLEAAKALTANADRLISGAANAVYSKFPYTTQMPGPNYSSTAIGKAKCARDIGYYLRMVTYCLVVGGTGPMDDYLVAGLEEINRTFELSPSWYIEALKYIKNNHGLSGDVANEANTYIDYAINTLS 1f99-a1-m1-cK_1f99-a1-m2-cM CRYSTAL STRUCTURE OF R-PHYCOCYANIN FROM POLYSIPHONIA AT 2.4 A RESOLUTION P59858 P59858 2.4 X-RAY DIFFRACTION 69 1.0 65404 (Polysiphonia urceolata) 65404 (Polysiphonia urceolata) 162 162 1f99-a1-m1-cA_1f99-a1-m2-cA 1f99-a1-m1-cM_1f99-a1-m2-cK MKTPLTEAIAAADSQGRFLSNTELQVVNGRYNRATSSLEAAKALTANADRLISGAANAVYSKFPYTTQMPGPNYSSTAIGKAKCARDIGYYLRMVTYCLVVGGTGPMDDYLVAGLEEINRTFELSPSWYIEALKYIKNNHGLSGDVANEANTYIDYAINTLS MKTPLTEAIAAADSQGRFLSNTELQVVNGRYNRATSSLEAAKALTANADRLISGAANAVYSKFPYTTQMPGPNYSSTAIGKAKCARDIGYYLRMVTYCLVVGGTGPMDDYLVAGLEEINRTFELSPSWYIEALKYIKNNHGLSGDVANEANTYIDYAINTLS 1f9f-a2-m1-cC_1f9f-a2-m1-cD CRYSTAL STRUCTURE OF THE HPV-18 E2 DNA-BINDING DOMAIN P06790 P06790 1.9 X-RAY DIFFRACTION 54 1.0 333761 (human papillomavirus 18) 333761 (human papillomavirus 18) 76 82 1f9f-a1-m1-cA_1f9f-a1-m1-cB 1jj4-a1-m1-cA_1jj4-a1-m1-cB SHMTPIIHLKGDRNSLKCLRYRLRKHSDHYRDISSTWHWTTGILTVTYHSETQRTKFLNTVAIPDSVQILVGYMTM SHMTPIIHLKGDRNSLKCLRYRLRKHSDHYRDISSTWHWTGAGNEKTGILTVTYHSETQRTKFLNTVAIPDSVQILVGYMTM 1f9k-a1-m1-cA_1f9k-a1-m1-cB WINGED BEAN ACIDIC LECTIN COMPLEXED WITH METHYL-ALPHA-D-GALACTOSE Q9SM56 Q9SM56 3 X-RAY DIFFRACTION 52 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 234 234 1fay-a1-m1-cA_1fay-a1-m1-cB 1fay-a2-m1-cC_1fay-a2-m1-cD 1fay-a3-m1-cE_1fay-a3-m1-cF 1fay-a4-m1-cG_1fay-a4-m1-cH ETQSFNFDHFEENSKELNLQRQASIKSNGVLELTKLTKNGVPVWKSTGRALYAEPIKIWDSTTGNVASFETRFSFNITQPYAYPEPADGLTFFMVPPNSPQGEDGGNLGVFKPPEGDNAFAVEFDTFQNTWDPQVPHIGIDVNSIVSSKTLHFQLENGGVANVVIKYDSPTKILNVVLAFHSVGTVYTLSNIVDLKQEFPNSEWVNVGLSATTGYQKNAVETHEIISWSFTSSL ETQSFNFDHFEENSKELNLQRQASIKSNGVLELTKLTKNGVPVWKSTGRALYAEPIKIWDSTTGNVASFETRFSFNITQPYAYPEPADGLTFFMVPPNSPQGEDGGNLGVFKPPEGDNAFAVEFDTFQNTWDPQVPHIGIDVNSIVSSKTLHFQLENGGVANVVIKYDSPTKILNVVLAFHSVGTVYTLSNIVDLKQEFPNSEWVNVGLSATTGYQKNAVETHEIISWSFTSSL 1f9q-a1-m1-cB_1f9q-a1-m1-cC CRYSTAL STRUCTURE OF PLATELET FACTOR 4 P02776 P02776 2 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 62 1f9r-a1-m1-cB_1f9r-a1-m1-cC 1f9s-a1-m1-cB_1f9s-a1-m1-cC 1rhp-a1-m1-cA_1rhp-a1-m1-cC 4hsv-a1-m1-cB_4hsv-a1-m1-cC 4r9w-a1-m1-cA_4r9w-a1-m2-cA QCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES QCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES 1f9w-a1-m1-cA_1f9w-a1-m1-cB CRYSTAL STRUCTURES OF MUTANTS REVEAL A SIGNALLING PATHWAY FOR ACTIVATION OF THE KINESIN MOTOR ATPASE P17119 P17119 2.5 X-RAY DIFFRACTION 31 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 300 300 GNIRVYCRIRPALKNLEDTSLINVNEFDDNSGVQSMEVTVHEFKFDKIFDQQDTNVDVFKEVGQLVQSSLDGYNVCIFAYGQTGSGKTFTMLNPGDGIIPSTISHIFNWINKLKTKGWDYKVNCEFIEIYNENIVDLLRLKHEIRHDQETKTTTITNVTSCKLESEEMVEIILKKANKLRSTHSSRSHSIFIIHLSGSNAKTGAHSYGTLNLVDLAGSARLRETQNINKSLSCLGDVIHALGQPDSTKRHIPFRNSKLTYLLQYSLTGDSKTLMFVNISPSSSHINETLNSLRFASKVNS GNIRVYCRIRPALKNLEDTSLINVNEFDDNSGVQSMEVTVHEFKFDKIFDQQDTNVDVFKEVGQLVQSSLDGYNVCIFAYGQTGSGKTFTMLNPGDGIIPSTISHIFNWINKLKTKGWDYKVNCEFIEIYNENIVDLLRLKHEIRHDQETKTTTITNVTSCKLESEEMVEIILKKANKLRSTHSSRSHSIFIIHLSGSNAKTGAHSYGTLNLVDLAGSARLRETQNINKSLSCLGDVIHALGQPDSTKRHIPFRNSKLTYLLQYSLTGDSKTLMFVNISPSSSHINETLNSLRFASKVNS 1f9z-a1-m1-cA_1f9z-a1-m1-cB CRYSTAL STRUCTURE OF THE NI(II)-BOUND GLYOXALASE I FROM ESCHERICHIA COLI P0AC81 P0AC81 1.5 X-RAY DIFFRACTION 132 1.0 562 (Escherichia coli) 562 (Escherichia coli) 128 128 1fa5-a1-m1-cA_1fa5-a1-m1-cB 1fa6-a1-m1-cA_1fa6-a1-m1-cB 1fa7-a1-m1-cA_1fa7-a1-m1-cB 1fa8-a1-m1-cA_1fa8-a1-m1-cB MRLLHTMLRVGDLQRSIDFYTKVLGMKLLRTSENPEYKYSLAFVGYGPETEEAVIELTYNWGVDKYELGTAYGHIALSVDNAAEACEKIRQNGGNVTREAGPVKGGTTVIAFVEDPDGYKIELIEEGN MRLLHTMLRVGDLQRSIDFYTKVLGMKLLRTSENPEYKYSLAFVGYGPETEEAVIELTYNWGVDKYELGTAYGHIALSVDNAAEACEKIRQNGGNVTREAGPVKGGTTVIAFVEDPDGYKIELIEEGN 1fa2-a1-m1-cA_1fa2-a1-m4-cA CRYSTAL STRUCTURE OF BETA-AMYLASE FROM SWEET POTATO P10537 P10537 2.3 X-RAY DIFFRACTION 27 1.0 4120 (Ipomoea batatas) 4120 (Ipomoea batatas) 498 498 1fa2-a1-m2-cA_1fa2-a1-m3-cA APIPGVMPIGNYVSLYVMLPLGVVNADNVFPDKEKVEDELKQVKAGGCDGVMVDVWWGIIEAKGPKQYDWSAYRELFQLVKKCGLKIQAIMSFHQCGGNVGDAVFIPIPQWILQIGDKNPDIFYTNRAGNRNQEYLSLGVDNQRLFQGRTALEMYRDFMESFRDNMADFLKAGDIVDIEVGCGAAGELRYPSYPETQGWVFPGIGEFQCYDKYMVADWKEAVKQAGNADWEMPGKGAGTYNDTPDKTEFFRPNGTYKTDMGKFFLTWYSNKLIIHGDQVLEEANKVFVGLRVNIAAKVSGIHWWYNHVSHAAELTAGFYNVAGRDGYRPIARMLARHHATLNFTCLEMRDSEQPAEAKSAPQELVQQVLSSGWKEYIDVAGENALPRYDATAYNQMLLKLRPNGVNLNGPPKLKMSGLTYLRLSDDLLQTDNFELFKKFVKKMHADLDPSPNAISPAVLERSNSAITIDELMEATKGSRPFPWYDVTDMPVDGSNPFD APIPGVMPIGNYVSLYVMLPLGVVNADNVFPDKEKVEDELKQVKAGGCDGVMVDVWWGIIEAKGPKQYDWSAYRELFQLVKKCGLKIQAIMSFHQCGGNVGDAVFIPIPQWILQIGDKNPDIFYTNRAGNRNQEYLSLGVDNQRLFQGRTALEMYRDFMESFRDNMADFLKAGDIVDIEVGCGAAGELRYPSYPETQGWVFPGIGEFQCYDKYMVADWKEAVKQAGNADWEMPGKGAGTYNDTPDKTEFFRPNGTYKTDMGKFFLTWYSNKLIIHGDQVLEEANKVFVGLRVNIAAKVSGIHWWYNHVSHAAELTAGFYNVAGRDGYRPIARMLARHHATLNFTCLEMRDSEQPAEAKSAPQELVQQVLSSGWKEYIDVAGENALPRYDATAYNQMLLKLRPNGVNLNGPPKLKMSGLTYLRLSDDLLQTDNFELFKKFVKKMHADLDPSPNAISPAVLERSNSAITIDELMEATKGSRPFPWYDVTDMPVDGSNPFD 1fa2-a1-m2-cA_1fa2-a1-m4-cA CRYSTAL STRUCTURE OF BETA-AMYLASE FROM SWEET POTATO P10537 P10537 2.3 X-RAY DIFFRACTION 70 1.0 4120 (Ipomoea batatas) 4120 (Ipomoea batatas) 498 498 1fa2-a1-m1-cA_1fa2-a1-m3-cA APIPGVMPIGNYVSLYVMLPLGVVNADNVFPDKEKVEDELKQVKAGGCDGVMVDVWWGIIEAKGPKQYDWSAYRELFQLVKKCGLKIQAIMSFHQCGGNVGDAVFIPIPQWILQIGDKNPDIFYTNRAGNRNQEYLSLGVDNQRLFQGRTALEMYRDFMESFRDNMADFLKAGDIVDIEVGCGAAGELRYPSYPETQGWVFPGIGEFQCYDKYMVADWKEAVKQAGNADWEMPGKGAGTYNDTPDKTEFFRPNGTYKTDMGKFFLTWYSNKLIIHGDQVLEEANKVFVGLRVNIAAKVSGIHWWYNHVSHAAELTAGFYNVAGRDGYRPIARMLARHHATLNFTCLEMRDSEQPAEAKSAPQELVQQVLSSGWKEYIDVAGENALPRYDATAYNQMLLKLRPNGVNLNGPPKLKMSGLTYLRLSDDLLQTDNFELFKKFVKKMHADLDPSPNAISPAVLERSNSAITIDELMEATKGSRPFPWYDVTDMPVDGSNPFD APIPGVMPIGNYVSLYVMLPLGVVNADNVFPDKEKVEDELKQVKAGGCDGVMVDVWWGIIEAKGPKQYDWSAYRELFQLVKKCGLKIQAIMSFHQCGGNVGDAVFIPIPQWILQIGDKNPDIFYTNRAGNRNQEYLSLGVDNQRLFQGRTALEMYRDFMESFRDNMADFLKAGDIVDIEVGCGAAGELRYPSYPETQGWVFPGIGEFQCYDKYMVADWKEAVKQAGNADWEMPGKGAGTYNDTPDKTEFFRPNGTYKTDMGKFFLTWYSNKLIIHGDQVLEEANKVFVGLRVNIAAKVSGIHWWYNHVSHAAELTAGFYNVAGRDGYRPIARMLARHHATLNFTCLEMRDSEQPAEAKSAPQELVQQVLSSGWKEYIDVAGENALPRYDATAYNQMLLKLRPNGVNLNGPPKLKMSGLTYLRLSDDLLQTDNFELFKKFVKKMHADLDPSPNAISPAVLERSNSAITIDELMEATKGSRPFPWYDVTDMPVDGSNPFD 1fb8-a2-m2-cA_1fb8-a2-m4-cA STRUCTURE OF THE PLECKSTRIN HOMOLOGY DOMAIN FROM DAPP1/PHISH Q9UN19 Q9UN19 2.4 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 1fb8-a2-m1-cA_1fb8-a2-m3-cA 1fb8-a2-m1-cA_1fb8-a2-m4-cA 1fb8-a2-m2-cA_1fb8-a2-m3-cA LVPTAPSLGTKEGYLTKQGGLVKTWKTRWFTLHRNELKYFKDQMSPEPIRILDLTECSAVQFDYSQERVNCFCLVFPFRTFYLCAKTGVEADEWIKILRWKLSQIR LVPTAPSLGTKEGYLTKQGGLVKTWKTRWFTLHRNELKYFKDQMSPEPIRILDLTECSAVQFDYSQERVNCFCLVFPFRTFYLCAKTGVEADEWIKILRWKLSQIR 1fba-a1-m1-cA_1fba-a1-m1-cD THE CRYSTAL STRUCTURE OF FRUCTOSE-1,6-BISPHOSPHATE ALDOLASE FROM DROSOPHILA MELANOGASTER AT 2.5 ANGSTROMS RESOLUTION P07764 P07764 1.9 X-RAY DIFFRACTION 67 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 360 360 1fba-a1-m1-cB_1fba-a1-m1-cC TTYFNYPSKELQDELREIAQKIVAPGKGILAADESGPTMGKRLQDIGVENTEDNRRAYRQLLFSTDPKLAENISGVILFHETLYQKADDGTPFAEILKKKGIILGIKVDKGVVPLFGSEDEVTTQGLDDLAARCAQYKKDGCDFAKWRCVLKIGKNTPSYQSILENANVLARYASICQSQRIVPIVEPEVLPDGDHDLDRAQKVTETVLAAVYKALSDHHVYLEGTLLKPNMVTAGQSAKKNTPEEIALATVQALRRTVPAAVTGVTFLSGGQSEEEATVNLSAINNVPLIRPWALTFSYGRALQASVLRAWAGKKENIAAGQNELLKRAKANGDAAQGKYVAGSAGAGSGSLFVANHAY TTYFNYPSKELQDELREIAQKIVAPGKGILAADESGPTMGKRLQDIGVENTEDNRRAYRQLLFSTDPKLAENISGVILFHETLYQKADDGTPFAEILKKKGIILGIKVDKGVVPLFGSEDEVTTQGLDDLAARCAQYKKDGCDFAKWRCVLKIGKNTPSYQSILENANVLARYASICQSQRIVPIVEPEVLPDGDHDLDRAQKVTETVLAAVYKALSDHHVYLEGTLLKPNMVTAGQSAKKNTPEEIALATVQALRRTVPAAVTGVTFLSGGQSEEEATVNLSAINNVPLIRPWALTFSYGRALQASVLRAWAGKKENIAAGQNELLKRAKANGDAAQGKYVAGSAGAGSGSLFVANHAY 1fba-a1-m1-cC_1fba-a1-m1-cD THE CRYSTAL STRUCTURE OF FRUCTOSE-1,6-BISPHOSPHATE ALDOLASE FROM DROSOPHILA MELANOGASTER AT 2.5 ANGSTROMS RESOLUTION P07764 P07764 1.9 X-RAY DIFFRACTION 98 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 360 360 1fba-a1-m1-cA_1fba-a1-m1-cB TTYFNYPSKELQDELREIAQKIVAPGKGILAADESGPTMGKRLQDIGVENTEDNRRAYRQLLFSTDPKLAENISGVILFHETLYQKADDGTPFAEILKKKGIILGIKVDKGVVPLFGSEDEVTTQGLDDLAARCAQYKKDGCDFAKWRCVLKIGKNTPSYQSILENANVLARYASICQSQRIVPIVEPEVLPDGDHDLDRAQKVTETVLAAVYKALSDHHVYLEGTLLKPNMVTAGQSAKKNTPEEIALATVQALRRTVPAAVTGVTFLSGGQSEEEATVNLSAINNVPLIRPWALTFSYGRALQASVLRAWAGKKENIAAGQNELLKRAKANGDAAQGKYVAGSAGAGSGSLFVANHAY TTYFNYPSKELQDELREIAQKIVAPGKGILAADESGPTMGKRLQDIGVENTEDNRRAYRQLLFSTDPKLAENISGVILFHETLYQKADDGTPFAEILKKKGIILGIKVDKGVVPLFGSEDEVTTQGLDDLAARCAQYKKDGCDFAKWRCVLKIGKNTPSYQSILENANVLARYASICQSQRIVPIVEPEVLPDGDHDLDRAQKVTETVLAAVYKALSDHHVYLEGTLLKPNMVTAGQSAKKNTPEEIALATVQALRRTVPAAVTGVTFLSGGQSEEEATVNLSAINNVPLIRPWALTFSYGRALQASVLRAWAGKKENIAAGQNELLKRAKANGDAAQGKYVAGSAGAGSGSLFVANHAY 1fbl-a1-m1-cA_1fbl-a1-m2-cA STRUCTURE OF FULL-LENGTH PORCINE SYNOVIAL COLLAGENASE (MMP1) REVEALS A C-TERMINAL DOMAIN CONTAINING A CALCIUM-LINKED, FOUR-BLADED BETA-PROPELLER P21692 P21692 2.5 X-RAY DIFFRACTION 63 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 367 367 FVLTPGNPRWENTHLTYRIENYTPDLSREDVDRAIEKAFQLWSNVSPLTFTKVSEGQADIMISFVRGDHRDNSPFDGPGGNLAHAFQPGPGIGGDAHFDEDERWTKNFRDYNLYRVAAHELGHSLGLSHSTDIGALMYPNYIYTGDVQLSQDDIDGIQAIYGPSENPVQPSGPQTPQVCDSKLTFDAITTLRGELMFFKDRFYMRTNSFYPEVELNFISVFWPQVPNGLQAAYEIADRDEVRFFKGNKYWAVRGQDVLYGYPKDIHRSFGFPSTVKNIDAAVFEEDTGKTYFFVAHECWRYDEYKQSMDTGYPKMIAEEFPGIGNKVDAVFQKDGFLYFFHGTRQYQFDFKTKRILTLQKANSWFNC FVLTPGNPRWENTHLTYRIENYTPDLSREDVDRAIEKAFQLWSNVSPLTFTKVSEGQADIMISFVRGDHRDNSPFDGPGGNLAHAFQPGPGIGGDAHFDEDERWTKNFRDYNLYRVAAHELGHSLGLSHSTDIGALMYPNYIYTGDVQLSQDDIDGIQAIYGPSENPVQPSGPQTPQVCDSKLTFDAITTLRGELMFFKDRFYMRTNSFYPEVELNFISVFWPQVPNGLQAAYEIADRDEVRFFKGNKYWAVRGQDVLYGYPKDIHRSFGFPSTVKNIDAAVFEEDTGKTYFFVAHECWRYDEYKQSMDTGYPKMIAEEFPGIGNKVDAVFQKDGFLYFFHGTRQYQFDFKTKRILTLQKANSWFNC 1fbs-a1-m1-cA_1fbs-a1-m1-cB HEAT SHOCK TRANSCRIPTION FACTOR DNA BINDING DOMAIN CONTAINING THE P237A MUTATION P22121 P22121 2 X-RAY DIFFRACTION 19 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 87 90 1fbq-a1-m1-cA_1fbq-a1-m1-cB 1fbu-a1-m1-cA_1fbu-a1-m1-cB PAFVNKLWSMVNDKSNEKFIHWSTSGESIVVPNRERFVQEVLAKYFKHSNFASFVRQLNMYGWHKVQDVKSGSMLSNNDSRWEFENE PAFVNKLWSMVNDKSNEKFIHWSTSGESIVVPNRERFVQEVLAKYFKHSNFASFVRQLNMYGWHKVQDVKSGSMLSNNDSRWEFENERHA 1fc3-a1-m1-cC_1fc3-a1-m1-cA THE CRYSTAL STRUCTURE OF TRANS-ACTIVATION DOMAIN OF THE SPORULATION RESPONSE REGULATOR, SPO0A P52934 P52934 2 X-RAY DIFFRACTION 26 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 116 119 1fc3-a1-m1-cB_1fc3-a1-m1-cA NKPKNLDASITSIIHEIGVPAHIKGYLYLREAIAMVYHDIELLGSITKVLYPDIAKKYNTTASRVERAIRHAIEVAWSRGNLESISSLFGYTVSVSKAKPTNSEFIAMVADKLRLE NKPKNLDASITSIIHEIGVPAHIKGYLYLREAIAMVYHDIELLGSITKVLYPDIAKKYNTTASRVERAIRHAIEVAWSRGNLESISSLFGYTVSVSKAKPTNSEFIAMVADKLRLEHKA 1fc4-a1-m1-cA_1fc4-a1-m1-cB 2-AMINO-3-KETOBUTYRATE COA LIGASE P0AB77 P0AB77 2 X-RAY DIFFRACTION 316 1.0 562 (Escherichia coli) 562 (Escherichia coli) 389 389 GSHRGEFYQQLTNDLETARAEGLFKEERIITSAQQADITVADGSHVINFCANNYLGLANHPDLIAAAKAGDSHGFGASVRFICGTQDSHKELEQKLAAFLGEDAILYSSCFDANGGLFETLLGAEDAIISDALNHASIIDGVRLCKAKRYRYANNDQELEARLKEAREAGARHVLIATDGVFSDGVIANLKGVCDLADKYDALVVDDSHAVGFVGENGRGSHEYCDVGRVDIITGTLGKALGGASGGYTAARKEVVEWLRQRSRPYLFSNSLAPAIVAASIKVLEVEAGSELRDRLWANARQFREQSAAGFTLAGADHAIIPVLGDAVVAQKFARELQKEGIYVTGFFYPVVPKGQARIRTQSAAHTPEQITRAVEAFTRIGKQLGVIA GSHRGEFYQQLTNDLETARAEGLFKEERIITSAQQADITVADGSHVINFCANNYLGLANHPDLIAAAKAGDSHGFGASVRFICGTQDSHKELEQKLAAFLGEDAILYSSCFDANGGLFETLLGAEDAIISDALNHASIIDGVRLCKAKRYRYANNDQELEARLKEAREAGARHVLIATDGVFSDGVIANLKGVCDLADKYDALVVDDSHAVGFVGENGRGSHEYCDVGRVDIITGTLGKALGGASGGYTAARKEVVEWLRQRSRPYLFSNSLAPAIVAASIKVLEVEAGSELRDRLWANARQFREQSAAGFTLAGADHAIIPVLGDAVVAQKFARELQKEGIYVTGFFYPVVPKGQARIRTQSAAHTPEQITRAVEAFTRIGKQLGVIA 1fcf-a2-m2-cA_1fcf-a2-m3-cA PHOTOSYSTEM II D1 C-TERMINAL PROCESSING PROTEASE O04073 O04073 2.1 X-RAY DIFFRACTION 52 1.0 3088 (Tetradesmus obliquus) 3088 (Tetradesmus obliquus) 387 387 1fcf-a2-m1-cA_1fcf-a2-m2-cA 1fcf-a2-m1-cA_1fcf-a2-m3-cA MVTSEQLLFLEAWRAVDRAYVDKSFNGQSWFKLRETYLKKEPMDRRAQTYDAIRKLLAVLDDPFTRFLEPSRLAALRRGTAGSVTGVGLEITYDGGSGKDVVVLTPAPGGPAEKAGARAGDVIVTVDGTAVKGLSLYDVSDLLQGEADSQVEVVLHAPGAPSNTRTLQLTRQKVTINPVTFTTCSNVAAAALPPGAAKQQLGYVRLATFNSNTTAAAQQAFTELSKQGVAGLVLDIRNNGGGLFPAGVNVARMLVDRGDLVLIADSQGIRDIYSADGNSIDSATPLVVLVNRGTASASEVLAGALKDSKRGLIAGERTFGKGLIQTVVDLSDGSGVAVTVARYQTPAGVDINKIGVSPDVQLDPEVLPTDLEGVCRVLGSDAAPRLF MVTSEQLLFLEAWRAVDRAYVDKSFNGQSWFKLRETYLKKEPMDRRAQTYDAIRKLLAVLDDPFTRFLEPSRLAALRRGTAGSVTGVGLEITYDGGSGKDVVVLTPAPGGPAEKAGARAGDVIVTVDGTAVKGLSLYDVSDLLQGEADSQVEVVLHAPGAPSNTRTLQLTRQKVTINPVTFTTCSNVAAAALPPGAAKQQLGYVRLATFNSNTTAAAQQAFTELSKQGVAGLVLDIRNNGGGLFPAGVNVARMLVDRGDLVLIADSQGIRDIYSADGNSIDSATPLVVLVNRGTASASEVLAGALKDSKRGLIAGERTFGKGLIQTVVDLSDGSGVAVTVARYQTPAGVDINKIGVSPDVQLDPEVLPTDLEGVCRVLGSDAAPRLF 1fcg-a1-m1-cA_1fcg-a1-m2-cA ECTODOMAIN OF HUMAN FC GAMMA RECEPTOR, FCGRIIA P12318 P12318 2 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 APPKAVLKLEPPWINVLQEDSVTLTCQGARSPESDSIQWFHNGNLIPTHTQPSYRFKANNNDSGEYTCQTGQTSLSDPVHLTVLFEWLVLQTPHLEFQEGETIMLRCHSWKDKPLVKVTFFQNGKSQKFSHLDPTFSIPQANHSHSGDYHCTGNIGYTLFSSKPVTITVQV APPKAVLKLEPPWINVLQEDSVTLTCQGARSPESDSIQWFHNGNLIPTHTQPSYRFKANNNDSGEYTCQTGQTSLSDPVHLTVLFEWLVLQTPHLEFQEGETIMLRCHSWKDKPLVKVTFFQNGKSQKFSHLDPTFSIPQANHSHSGDYHCTGNIGYTLFSSKPVTITVQV 1fch-a5-m2-cB_1fch-a5-m1-cA CRYSTAL STRUCTURE OF THE PTS1 COMPLEXED TO THE TPR REGION OF HUMAN PEX5 P50542 P50542 2.2 X-RAY DIFFRACTION 56 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 297 302 1fch-a3-m1-cB_1fch-a3-m1-cA 1fch-a3-m1-cB_1fch-a3-m2-cA 1fch-a3-m2-cB_1fch-a3-m1-cA 1fch-a3-m2-cB_1fch-a3-m2-cA 1fch-a4-m1-cB_1fch-a4-m1-cA KGYQFEEENPLRDHPQPFEEGLRRLQEGDLPNAVLLFEAAVQQDPKHMEAWQYLGTTQAENEQELLAISALRRCLELKPDNQTALMALAVSFTNESLQRQACEILRDWLRYTPAYAHLVTPRILGSLLSDSLFLEVKELFLAAVRLDPTSIDPDVQCGLGVLFNLSGEYDKAVDCFTAALSVRPNDYLLWNKLGATLANGNQSEEAVAAYRRALELQPGYIRSRYNLGISCINLGAHREAVEHFLEALNMQRKSGAMSENIWSTLRLALSMLGQSDAYGAADARDLSTLLTMFGLPQ SATYDKGYQFEEENPLRDHPQPFEEGLRRLQEGDLPNAVLLFEAAVQQDPKHMEAWQYLGTTQAENEQELLAISALRRCLELKPDNQTALMALAVSFTNESLQRQACEILRDWLRYTPAYAHLVTRILGSLLSDSLFLEVKELFLAAVRLDPTSIDPDVQCGLGVLFNLSGEYDKAVDCFTAALSVRPNDYLLWNKLGATLANGNQSEEAVAAYRRALELQPGYIRSRYNLGISCINLGAHREAVEHFLEALNMQRKSGGAMSENIWSTLRLALSMLGQSDAYGAADARDLSTLLTMFGLPQ 1fd9-a1-m1-cA_1fd9-a1-m2-cA CRYSTAL STRUCTURE OF THE MACROPHAGE INFECTIVITY POTENTIATOR PROTEIN (MIP) A MAJOR VIRULENCE FACTOR FROM LEGIONELLA PNEUMOPHILA Q5ZXE0 Q5ZXE0 2.41 X-RAY DIFFRACTION 142 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 204 204 TDKDKLSYSIGADLGKNFKNQGIDVNPEAMAKGMQDAMSGAQLALTEQQMKDVLNKFQKDLMAKRTAEFNKKADENKVKGEAFLTENKNKPGVVVLPSGLQYKVINSGNGVKPGKSDTVTVEYTGRLIDGTVFDSTEKTGKPATFQVSQVIPGWTEALQLMPAGSTWEIYVPSGLAYGPRSVGGPIGPNETLIFKIHLISVKKS TDKDKLSYSIGADLGKNFKNQGIDVNPEAMAKGMQDAMSGAQLALTEQQMKDVLNKFQKDLMAKRTAEFNKKADENKVKGEAFLTENKNKPGVVVLPSGLQYKVINSGNGVKPGKSDTVTVEYTGRLIDGTVFDSTEKTGKPATFQVSQVIPGWTEALQLMPAGSTWEIYVPSGLAYGPRSVGGPIGPNETLIFKIHLISVKKS 1fdy-a1-m1-cB_1fdy-a1-m1-cD N-ACETYLNEURAMINATE LYASE IN COMPLEX WITH HYDROXYPYRUVATE P0A6L4 P0A6L4 2.45 X-RAY DIFFRACTION 80 1.0 562 (Escherichia coli) 562 (Escherichia coli) 291 291 1fdy-a1-m1-cC_1fdy-a1-m1-cA 1fdz-a1-m1-cB_1fdz-a1-m1-cD 1fdz-a1-m1-cC_1fdz-a1-m1-cA 1hl2-a1-m1-cA_1hl2-a1-m1-cC 1hl2-a1-m1-cB_1hl2-a1-m1-cD 1nal-a1-m1-c1_1nal-a1-m1-c3 1nal-a1-m1-c2_1nal-a1-m1-c4 2wkj-a1-m1-cA_2wkj-a1-m1-cC 2wkj-a1-m1-cB_2wkj-a1-m1-cD 2wnn-a1-m1-cB_2wnn-a1-m1-cD 2wnn-a1-m1-cC_2wnn-a1-m1-cA 2wnq-a1-m1-cB_2wnq-a1-m1-cD 2wnq-a1-m1-cC_2wnq-a1-m1-cA 2wnz-a1-m1-cB_2wnz-a1-m1-cD 2wnz-a1-m1-cC_2wnz-a1-m1-cA 2wo5-a1-m1-cB_2wo5-a1-m1-cD 2wo5-a1-m1-cC_2wo5-a1-m1-cA 2wpb-a1-m1-cB_2wpb-a1-m1-cD 2wpb-a1-m1-cC_2wpb-a1-m1-cA 2xfw-a1-m1-cA_2xfw-a1-m1-cC 2xfw-a1-m1-cB_2xfw-a1-m1-cD 2ygy-a1-m1-cB_2ygy-a1-m1-cD 2ygy-a1-m1-cC_2ygy-a1-m1-cA 3lbc-a1-m1-cA_3lbc-a1-m1-cC 3lbc-a1-m1-cB_3lbc-a1-m1-cD 3lbm-a1-m1-cB_3lbm-a1-m1-cD 3lbm-a1-m1-cC_3lbm-a1-m1-cA 3lcf-a1-m1-cA_3lcf-a1-m1-cC 3lcf-a1-m1-cB_3lcf-a1-m1-cD 3lcg-a1-m1-cA_3lcg-a1-m1-cC 3lcg-a1-m1-cB_3lcg-a1-m1-cD 3lch-a1-m1-cA_3lch-a1-m1-cC 3lch-a1-m1-cB_3lch-a1-m1-cD 3lci-a1-m1-cA_3lci-a1-m1-cC 3lci-a1-m1-cB_3lci-a1-m1-cD 3lcl-a1-m1-cA_3lcl-a1-m1-cC 3lcl-a1-m1-cB_3lcl-a1-m1-cD 3lcw-a1-m1-cA_3lcw-a1-m1-cC 3lcw-a1-m1-cB_3lcw-a1-m1-cD 3lcx-a1-m1-cA_3lcx-a1-m1-cC 3lcx-a1-m1-cB_3lcx-a1-m1-cD 4bwl-a1-m1-cB_4bwl-a1-m1-cD 4bwl-a1-m1-cC_4bwl-a1-m1-cA 4uui-a1-m1-cB_4uui-a1-m1-cD 4uui-a1-m1-cC_4uui-a1-m1-cA NLRGVMAALLTPFDQQQALDKASLRRLVQFNIQQGIDGLYVGGSTGEAFVQSLSEREQVLEIVAEEGKGKIKLIAHVGCVTTAESQQLAASAKRYGFDAVSAVTPFYYPFSFEEHCDHYRAIIDSADGLPMVVYNIPALSGVKLTLDQINTLVTLPGVGALKQTSGDLYQMEQIRREHPDLVLYNGYDEIFASGLLAGADGGIGSTYNIMGWRYQGIVKALKEGDIQTAQKLQTECNKVIDLLIKTGVFRGLKTVLHYMDVVSVPLCRKPFGPVDEKYLPELKALAQQLMQ NLRGVMAALLTPFDQQQALDKASLRRLVQFNIQQGIDGLYVGGSTGEAFVQSLSEREQVLEIVAEEGKGKIKLIAHVGCVTTAESQQLAASAKRYGFDAVSAVTPFYYPFSFEEHCDHYRAIIDSADGLPMVVYNIPALSGVKLTLDQINTLVTLPGVGALKQTSGDLYQMEQIRREHPDLVLYNGYDEIFASGLLAGADGGIGSTYNIMGWRYQGIVKALKEGDIQTAQKLQTECNKVIDLLIKTGVFRGLKTVLHYMDVVSVPLCRKPFGPVDEKYLPELKALAQQLMQ 1fe8-a4-m1-cL_1fe8-a4-m2-cM CRYSTAL STRUCTURE OF THE VON WILLEBRAND FACTOR A3 DOMAIN IN COMPLEX WITH A FAB FRAGMENT OF IGG RU5 THAT INHIBITS COLLAGEN BINDING 2.03 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 1fe8-a4-m1-cM_1fe8-a4-m2-cL DIAMTQTTSSLSASLGQKVTISCRASQDIGNYLNWYQQKPDGTVRLLIYYTSRLHSGVPSRFSGSGSGTDYSLTISNLESEDIATYFCQNGGTNPWTFGGGTKLEVKRADAAPTTSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR DIAMTQTTSSLSASLGQKVTISCRASQDIGNYLNWYQQKPDGTVRLLIYYTSRLHSGVPSRFSGSGSGTDYSLTISNLESEDIATYFCQNGGTNPWTFGGGTKLEVKRADAAPTTSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR 1fe8-a4-m2-cM_1fe8-a4-m2-cN CRYSTAL STRUCTURE OF THE VON WILLEBRAND FACTOR A3 DOMAIN IN COMPLEX WITH A FAB FRAGMENT OF IGG RU5 THAT INHIBITS COLLAGEN BINDING 2.03 X-RAY DIFFRACTION 67 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 1fe8-a4-m1-cL_1fe8-a4-m2-cL 1fe8-a4-m1-cM_1fe8-a4-m1-cN DIAMTQTTSSLSASLGQKVTISCRASQDIGNYLNWYQQKPDGTVRLLIYYTSRLHSGVPSRFSGSGSGTDYSLTISNLESEDIATYFCQNGGTNPWTFGGGTKLEVKRADAAPTTSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR DIAMTQTTSSLSASLGQKVTISCRASQDIGNYLNWYQQKPDGTVRLLIYYTSRLHSGVPSRFSGSGSGTDYSLTISNLESEDIATYFCQNGGTNPWTFGGGTKLEVKRADAAPTTSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR 1fec-a1-m1-cA_1fec-a1-m1-cB UNLIGANDED CRITHIDIA FASCICULATA TRYPANOTHIONE REDUCTASE AT 1.7 ANGSTROM RESOLUTION P39040 P39040 1.7 X-RAY DIFFRACTION 251 0.998 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 485 485 1fea-a1-m1-cB_1fea-a1-m1-cA 1fea-a2-m1-cD_1fea-a2-m1-cC 1feb-a1-m1-cB_1feb-a1-m1-cA 1typ-a1-m1-cB_1typ-a1-m1-cA 1tyt-a1-m1-cB_1tyt-a1-m1-cA 2tpr-a1-m1-cA_2tpr-a1-m1-cB SRAYDLVVIGAGSGGLEAGWNAASLHKKRVAVIDLQKHHGPPHYAALGGTCVNVGCVPKKLMVTGANYMDTIRESAGFGWELDRESVRPNWKALIAAKNKAVSGINDSYEGMFADTEGLTFHQGFGALQDNHTVLVRESADPNSAVLETLDTEYILLATGSWPQHLGIEGDDLCITSNEAFYLDEAPKRALCVGGGYISIEFAGIFNAYKARGGQVDLAYRGDMILRGFDSELRKQLTEQLRANGINVRTHENPAKVTKNADGTRHVVFESGAEADYDVVMLAIGRVPRSQTLQLEKAGVEVAKNGAIKVDAYSKTNVDNIYAIGDVTDRVMLTPVAINEGAAFVDTVFANKPRATDHTKVACAVFSIPPMGVCGYVEEDAAKKYDQVAVYESSFTPLMHNISGSTYKKFMVRIVTNHADGEVLGVHMLGDSSPEIIQSVAICLKMGAKISDFYNTIGVHPTSAEELCSMRTPAYFYEKGKRVEK RAYDLVVIGAGSGGLEAGWNAASLHKKRVAVIDLQKHHGPPHYAALGGTCVNVGCVPKKLMVTGANYMDTIRESAGFGWELDRESVRPNWKALIAAKNKAVSGINDSYEGMFADTEGLTFHQGFGALQDNHTVLVRESADPNSAVLETLDTEYILLATGSWPQHLGIEGDDLCITSNEAFYLDEAPKRALCVGGGYISIEFAGIFNAYKARGGQVDLAYRGDMILRGFDSELRKQLTEQLRANGINVRTHENPAKVTKNADGTRHVVFESGAEADYDVVMLAIGRVPRSQTLQLEKAGVEVAKNGAIKVDAYSKTNVDNIYAIGDVTDRVMLTPVAINEGAAFVDTVFANKPRATDHTKVACAVFSIPPMGVCGYVEEDAAKKYDQVAVYESSFTPLMHNISGSTYKKFMVRIVTNHADGEVLGVHMLGDSSPEIIQSVAICLKMGAKISDFYNTIGVHPTSAEELCSMRTPAYFYEKGKRVEKI 1few-a1-m1-cA_1few-a1-m2-cA CRYSTAL STRUCTURE OF SMAC/DIABLO Q9NR28 Q9NR28 2.2 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 6jx6-a1-m1-cD_6jx6-a1-m1-cA SLSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELKQKTQEEGEERAESEQEAYLRED SLSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELKQKTQEEGEERAESEQEAYLRED 1few-a2-m1-cA_1few-a2-m3-cA CRYSTAL STRUCTURE OF SMAC/DIABLO Q9NR28 Q9NR28 2.2 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 SLSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELKQKTQEEGEERAESEQEAYLRED SLSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELKQKTQEEGEERAESEQEAYLRED 1ff4-a1-m1-cA_1ff4-a1-m2-cA X-RAY STRUCTURE OF MUSCARINIC TOXIN 2 AT 1.5 ANGSTROM RESOLUTION P18328 P18328 1.5 X-RAY DIFFRACTION 40 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 65 65 LTCVTTKSIGGVTTEDCPAGQNVCFKRWHYVTPKNYDIIKGCAATCPKVDNNDPIRCCGTDKCND LTCVTTKSIGGVTTEDCPAGQNVCFKRWHYVTPKNYDIIKGCAATCPKVDNNDPIRCCGTDKCND 1ff4-a2-m1-cA_1ff4-a2-m3-cA X-RAY STRUCTURE OF MUSCARINIC TOXIN 2 AT 1.5 ANGSTROM RESOLUTION P18328 P18328 1.5 X-RAY DIFFRACTION 27 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 65 65 LTCVTTKSIGGVTTEDCPAGQNVCFKRWHYVTPKNYDIIKGCAATCPKVDNNDPIRCCGTDKCND LTCVTTKSIGGVTTEDCPAGQNVCFKRWHYVTPKNYDIIKGCAATCPKVDNNDPIRCCGTDKCND 1ffv-a1-m1-cB_1ffv-a1-m1-cE CARBON MONOXIDE DEHYDROGENASE FROM HYDROGENOPHAGA PSEUDOFLAVA P19913 P19913 2.25 X-RAY DIFFRACTION 145 1.0 47421 (Hydrogenophaga pseudoflava) 47421 (Hydrogenophaga pseudoflava) 795 795 1ffu-a1-m1-cB_1ffu-a1-m1-cE DAEARELALAGMGASRLRKEDARFIQGKGNYVDDIKMPGMLHMDIVRAPIAHGRIKKIHKDAALAMPGVHAVLTAEDLKPLKLHWMPTLAGDVAAVLADEKVHFQMQEVAIVIADDRYIAADAVEAVKVEYDELPVVIDPIDALKPDAPVLREDLAGKTSGAHGPREHHNHIFTWGAGDKAATDAVFANAPVTVSQHMYYPRVHPCPLETCGCVASFDPIKGDLTTYITSQAPHVVRTVVSMLSGIPESKVRIVSPDIGGGFGNKVGIYPGYVCAIVASIVLGRPVKWVEDRVENISTTAFARDYHMDGELAATPDGKILGLRVNVVADHGAFDACADPTKFPAGLFHICSGSYDIPRAHCSVKGVYTNKAPGGVAYSFRVTEAVYLIERMVDVLAQKLNMDKAEIRAKNFIRKEQFPYTTQFGFEYDSGDYHTALKKVLDAVDYPALRAEQAARRADPNSPTLMGIGLVTFTEVVGAGPSKMCDILGVGMFDSCEIRIHPTGSAIARMGTITQGQGHQTTYAQIIATELGIPSEVIQVEEGDTSTAPYGLGTYGSRSTPVAGAAIALAARKIHAKARKIAAHMLEVNENDLDWEVDRFKVKGDDSKFKTMADIAWQAYHQPPAGLEPGLEAVHYYDPPNFTYPFGIYLCVVDIDRATGETKVRRFYALDDCGTRINPMIIEGQIHGGLTEGYAVAMGQQMPFDAQGNLLGNTLMDYFLPTAVETPHWETDHTVTPSPHHPIGAKGVAESPHVGSIPTFTAAVVDAFAHVGVTHLDMPHTSYRVWKSLKEHNLAL DAEARELALAGMGASRLRKEDARFIQGKGNYVDDIKMPGMLHMDIVRAPIAHGRIKKIHKDAALAMPGVHAVLTAEDLKPLKLHWMPTLAGDVAAVLADEKVHFQMQEVAIVIADDRYIAADAVEAVKVEYDELPVVIDPIDALKPDAPVLREDLAGKTSGAHGPREHHNHIFTWGAGDKAATDAVFANAPVTVSQHMYYPRVHPCPLETCGCVASFDPIKGDLTTYITSQAPHVVRTVVSMLSGIPESKVRIVSPDIGGGFGNKVGIYPGYVCAIVASIVLGRPVKWVEDRVENISTTAFARDYHMDGELAATPDGKILGLRVNVVADHGAFDACADPTKFPAGLFHICSGSYDIPRAHCSVKGVYTNKAPGGVAYSFRVTEAVYLIERMVDVLAQKLNMDKAEIRAKNFIRKEQFPYTTQFGFEYDSGDYHTALKKVLDAVDYPALRAEQAARRADPNSPTLMGIGLVTFTEVVGAGPSKMCDILGVGMFDSCEIRIHPTGSAIARMGTITQGQGHQTTYAQIIATELGIPSEVIQVEEGDTSTAPYGLGTYGSRSTPVAGAAIALAARKIHAKARKIAAHMLEVNENDLDWEVDRFKVKGDDSKFKTMADIAWQAYHQPPAGLEPGLEAVHYYDPPNFTYPFGIYLCVVDIDRATGETKVRRFYALDDCGTRINPMIIEGQIHGGLTEGYAVAMGQQMPFDAQGNLLGNTLMDYFLPTAVETPHWETDHTVTPSPHHPIGAKGVAESPHVGSIPTFTAAVVDAFAHVGVTHLDMPHTSYRVWKSLKEHNLAL 1fg9-a1-m1-cE_1fg9-a1-m1-cC 3:1 COMPLEX OF INTERFERON-GAMMA RECEPTOR WITH INTERFERON-GAMMA DIMER P15260 P15260 2.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 210 PTPTNVTIESYNMNPIVYWEYQIMPQVPVFTVEVKNYGVKNSEWIDACINISHHYCNISDHVGDPSNSLWVRVKARVGQKESASEEFAVCRDGKIGPPKLDIRKEEKQIMIDIFHPSPETTCYIRVYNVYVRMNGSEIQYKILTQKEDDCDEIQCQLAIPVSSLNSQYCVSAEGVLHVWGVTTEKSKEVCITI VPTPTNVTIESYNMNPIVYWEYQIMPQVPVFTVEVKNYGVKNSEWIDACINISHHYCNISDHVGDPSNSLWVRVKARVGQKESAYAKSEEFAVCRDGKIGPPKLDIRKEEKQIMIDIFHPSVFVNGDEQEDPETTCYIRVYNVYVRMNGSEIQYKILTQKEDDCDEIQCQLAIPVSSLNSQYCVSAEGVLHVWGVTTEKSKEVCITIFNS 1fgu-a1-m1-cB_1fgu-a1-m1-cA SSDNA-BINDING DOMAIN OF THE LARGE SUBUNIT OF REPLICATION PROTEIN A P27694 P27694 2.5 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 238 246 MSKVVPIASLTPYQSKWTICARVTNKSQIRTWSNSRGEGKLFSLELVDESGEIRATAFNEQVDKFFPLIEVNKVYYFSKGTLKIANKQFTAVKNDYEMTFNNETSVMPCVQFDFTGIDDLENKSKDSLVDIIGICKSYEDATKITVRSNNREVAKRNIYLMDTSGKVVTATLWGEDADKFDGSRQPVLAIKGARVSDFGGRSLSVLSSSTIIANPDIPEAYKLRGWFDAEGQALDGVS MSKVVPIASLTPYQSKWTICARVTNKSQIRTWSNSRGEGKLFSLELVDESGEIRATAFNEQVDKFFPLIEVNKVYYFSKGTLKIANKQFTAVKNDYEMTFNNETSVMPCEDDHHLPTVQFDFTGIDDLENKSKDSLVDIIGICKSYEDATKITVRSNNREVAKRNIYLMDTSGKVVTATLWGEDADKFDGSRQPVLAIKGARVSDFGGRSLSVLSSSTIIANPDIPEAYKLRGWFDAEGQALDGVS 1fhe-a1-m1-cA_1fhe-a1-m2-cA GLUTATHIONE TRANSFERASE (FH47) FROM FASCIOLA HEPATICA P31670 P31670 3 X-RAY DIFFRACTION 86 1.0 6192 (Fasciola hepatica) 6192 (Fasciola hepatica) 214 214 PAKLGYWKLRGLAQPVRLFLEYLGEEYEEHLYGRDDREKWMSEKFNMGLDLPNLPYYIDDKCKLTQSVAIMRYIADKHGMLGTTPEERARISMIEGAAMDLRIGFGRVCYNPKFEEVKEEYVKELPKTLKMWSDFLGDRHYLTGSSVSHVDFMLYETLDSIRYLAPHCLDEFPKLKEFKSRIEALPKIKAYMESKRFIKWPLNGWAASFGAGDA PAKLGYWKLRGLAQPVRLFLEYLGEEYEEHLYGRDDREKWMSEKFNMGLDLPNLPYYIDDKCKLTQSVAIMRYIADKHGMLGTTPEERARISMIEGAAMDLRIGFGRVCYNPKFEEVKEEYVKELPKTLKMWSDFLGDRHYLTGSSVSHVDFMLYETLDSIRYLAPHCLDEFPKLKEFKSRIEALPKIKAYMESKRFIKWPLNGWAASFGAGDA 1fhw-a3-m1-cA_1fhw-a3-m1-cB Structure of the pleckstrin homology domain from GRP1 in complex with inositol(1,3,4,5,6)pentakisphosphate O08967 O08967 1.9 X-RAY DIFFRACTION 64 0.992 10090 (Mus musculus) 10090 (Mus musculus) 122 126 1fhx-a3-m1-cA_1fhx-a3-m1-cB PDREGWLLKLGGRVKTWKRRWFILTDNCLYYFEYTTDKEPRGIIPLENLSIREVEDPRKPNCFELYNPSHKGQVIKACKTEADGRVVEGNHVVYRISAPSPEEKEEWMKSIKASISRDPFYD DREGWLLKLGGRVKTWKRRWFILTDNCLYYFEYTTDKEPRGIIPLENLSIREVEDPRKPNCFELYNPSHKGQVIKACKTEADGRVVEGNHVVYRISAPSPEEKEEWMKSIKASISRDPFYDMLATR 1fi4-a1-m1-cA_1fi4-a1-m2-cA THE X-RAY CRYSTAL STRUCTURE OF MEVALONATE 5-DIPHOSPHATE DECARBOXYLASE AT 2.3 ANGSTROM RESOLUTION. P32377 P32377 2.27 X-RAY DIFFRACTION 63 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 382 382 VYTASVTAPVNIATLKYWGKRDTKLNLPTNSSISVTLSQDDLRTLTSAATAPEFERDTLWLNGEPHSIDNERTQNCLRDLRQLRKEESKDASLPTLSQWKLHIVSENNFPTAAGLASSAAGFAALVSAIAKLYQLPQSTSEISRIARKGSGSACRSLFGGYVAWEGKAEDGHDSAVQIADSSDWPQKACVLVVSDIKKDVSSTQGQLTVATSELFKERIEHVVPKRFEVRKAIVEKDFATFAKETDSNSFHATCLDSFPPIFYNDTSKRIISWCHTINQFYGETIVAYTFDAGPNAVLYYLAENESKLFAFIYKLFGSVPGWDKKFTTEQLEAFNHQFESSNFTARELDLELQKDVARVILTQVGSGPQETNESLIDAKTGL VYTASVTAPVNIATLKYWGKRDTKLNLPTNSSISVTLSQDDLRTLTSAATAPEFERDTLWLNGEPHSIDNERTQNCLRDLRQLRKEESKDASLPTLSQWKLHIVSENNFPTAAGLASSAAGFAALVSAIAKLYQLPQSTSEISRIARKGSGSACRSLFGGYVAWEGKAEDGHDSAVQIADSSDWPQKACVLVVSDIKKDVSSTQGQLTVATSELFKERIEHVVPKRFEVRKAIVEKDFATFAKETDSNSFHATCLDSFPPIFYNDTSKRIISWCHTINQFYGETIVAYTFDAGPNAVLYYLAENESKLFAFIYKLFGSVPGWDKKFTTEQLEAFNHQFESSNFTARELDLELQKDVARVILTQVGSGPQETNESLIDAKTGL 1fic-a1-m1-cB_1fic-a1-m1-cA STRUCTURE OF HUMAN GAMMA FIBRINOGEN 30 KD CARBOXYL TERMINAL FRAGMENT P02679 P02679 2.5 X-RAY DIFFRACTION 55 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 257 260 VQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLGQQHHLG QIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLTIGEGQQHHLG 1fiq-a1-m1-cC_1fiq-a1-m2-cC CRYSTAL STRUCTURE OF XANTHINE OXIDASE FROM BOVINE MILK P80457 P80457 2.5 X-RAY DIFFRACTION 161 1.0 9913 (Bos taurus) 9913 (Bos taurus) 745 745 1wyg-a2-m1-cA_1wyg-a2-m2-cA 2ckj-a1-m1-cA_2ckj-a1-m2-cA 2ckj-a2-m1-cB_2ckj-a2-m3-cB 2ckj-a3-m1-cC_2ckj-a3-m1-cD 2e1q-a1-m1-cA_2e1q-a1-m1-cB 2e1q-a2-m1-cC_2e1q-a2-m1-cD 2e3t-a1-m1-cB_2e3t-a1-m1-cA 3an1-a1-m1-cB_3an1-a1-m1-cA 3etr-a1-m1-cN_3etr-a1-m1-cC 3eub-a1-m1-cL_3eub-a1-m1-cC 3eub-a2-m1-cU_3eub-a2-m1-c4 3nrz-a1-m1-cL_3nrz-a1-m1-cC 3ns1-a1-m1-cL_3ns1-a1-m1-cC 3nvv-a1-m1-cL_3nvv-a1-m1-cC 3nvw-a1-m1-cL_3nvw-a1-m1-cC 3nvy-a1-m1-cL_3nvy-a1-m1-cC 3nvz-a1-m1-cL_3nvz-a1-m1-cC 3sr6-a1-m1-cC_3sr6-a1-m1-cL 4yrw-a1-m1-cB_4yrw-a1-m1-cA 4ysw-a1-m1-cA_4ysw-a1-m1-cB 4yty-a1-m1-cB_4yty-a1-m1-cA 4ytz-a1-m1-cB_4ytz-a1-m1-cA 6a7x-a1-m1-cB_6a7x-a1-m1-cA 6abu-a1-m1-cB_6abu-a1-m1-cA 6ac1-a1-m1-cB_6ac1-a1-m1-cA 6ac4-a1-m1-cA_6ac4-a1-m1-cB 6ad4-a1-m1-cB_6ad4-a1-m1-cA 6adj-a1-m1-cB_6adj-a1-m1-cA 6aju-a1-m1-cA_6aju-a1-m1-cF DTVGRPLPHLAAAMQASGEAVYCDDIPRYENELFLRLVTSTRAHAKIKSIDVSEAQKVPGFVCFLSADDIPGSNETGLFNDETVFAKDTVTCVGHIIGAVVADTPEHAERAAHVVKVTYEDLPAIITIEDAIKNNSFYGSELKIEKGDLKKGFSEADNVVSGELYIGGQDHFYLETHCTIAIPKGEEGEMELFVSTQNAMKTQSFVAKMLGVPVNRILVRVKRMGGGFGGKETRSTLVSVAVALAAYKTGHPVRCMLDRNEDMLITGGRHPFLARYKVGFMKTGTIVALEVDHYSNAGNSRDLSHSIMERALFHMDNCYKIPNIRGTGRLCKTNLSSNTAFRGFGGPQALFIAENWMSEVAVTCGLPAEEVRWKNMYKEGDLTHFNQRLEGFSVPRCWDECLKSSQYYARKSEVDKFNKENCWKKRGLCIIPTKFGISFTVPFLNQAGALIHVYTDGSVLVSHGGTEMGQGLHTKMVQVASKALKIPISKIYISETSTNTVPNSSPTAASVSTDIYGQAVYEACQTILKRLEPFKKKNPDGSWEDWVMAAYQDRVSLSTTGFYRTPNLGYSFETNSGNAFHYFTYGVACSEVEIDCLTGDHKNLRTDIVMDVGSSLNPAIDIGQVEGAFVQGLGLFTLEELHYSPEGSLHTRGPSTYKIPAFGSIPTEFRVSLLRDCPNKKAIYASKAVGEPPLFLGASVFFAIKDAIRAARAQHTNNNTKELFRLDSPATPEKIRNACVDKFTT DTVGRPLPHLAAAMQASGEAVYCDDIPRYENELFLRLVTSTRAHAKIKSIDVSEAQKVPGFVCFLSADDIPGSNETGLFNDETVFAKDTVTCVGHIIGAVVADTPEHAERAAHVVKVTYEDLPAIITIEDAIKNNSFYGSELKIEKGDLKKGFSEADNVVSGELYIGGQDHFYLETHCTIAIPKGEEGEMELFVSTQNAMKTQSFVAKMLGVPVNRILVRVKRMGGGFGGKETRSTLVSVAVALAAYKTGHPVRCMLDRNEDMLITGGRHPFLARYKVGFMKTGTIVALEVDHYSNAGNSRDLSHSIMERALFHMDNCYKIPNIRGTGRLCKTNLSSNTAFRGFGGPQALFIAENWMSEVAVTCGLPAEEVRWKNMYKEGDLTHFNQRLEGFSVPRCWDECLKSSQYYARKSEVDKFNKENCWKKRGLCIIPTKFGISFTVPFLNQAGALIHVYTDGSVLVSHGGTEMGQGLHTKMVQVASKALKIPISKIYISETSTNTVPNSSPTAASVSTDIYGQAVYEACQTILKRLEPFKKKNPDGSWEDWVMAAYQDRVSLSTTGFYRTPNLGYSFETNSGNAFHYFTYGVACSEVEIDCLTGDHKNLRTDIVMDVGSSLNPAIDIGQVEGAFVQGLGLFTLEELHYSPEGSLHTRGPSTYKIPAFGSIPTEFRVSLLRDCPNKKAIYASKAVGEPPLFLGASVFFAIKDAIRAARAQHTNNNTKELFRLDSPATPEKIRNACVDKFTT 1fit-a1-m1-cA_1fit-a1-m2-cA FHIT (FRAGILE HISTIDINE TRIAD PROTEIN) P49789 P49789 1.85 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 1fhi-a1-m1-cA_1fhi-a1-m2-cA 2fhi-a1-m1-cA_2fhi-a1-m2-cA 2fit-a1-m1-cA_2fit-a1-m2-cA 3fit-a1-m1-cA_3fit-a1-m2-cA 4fit-a1-m1-cA_4fit-a1-m2-cA 5fit-a1-m1-cA_5fit-a1-m2-cA 6fit-a1-m1-cA_6fit-a1-m2-cA 7p8p-a1-m1-cA_7p8p-a1-m1-cD SFRFGQHLIKPSVVFLKTELSFALVNRKPVVPGHVLVCPLRPVERFHDLRPDEVADLFQTTQRVGTVVEKHFHGTSLTFSQDGPEAGQTVKHVHVHVLPRKAGDASWRSEEEAAEAAALRVYFQ SFRFGQHLIKPSVVFLKTELSFALVNRKPVVPGHVLVCPLRPVERFHDLRPDEVADLFQTTQRVGTVVEKHFHGTSLTFSQDGPEAGQTVKHVHVHVLPRKAGDASWRSEEEAAEAAALRVYFQ 1fiu-a1-m1-cA_1fiu-a1-m1-cD TETRAMERIC RESTRICTION ENDONUCLEASE NGOMIV IN COMPLEX WITH CLEAVED DNA P31032 P31032 1.6 X-RAY DIFFRACTION 190 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 286 286 1fiu-a1-m1-cB_1fiu-a1-m1-cC 4abt-a1-m1-cA_4abt-a1-m1-cB 4abt-a1-m2-cA_4abt-a1-m2-cB MQPLFTQERRIFHKKLLDGNILATNNRGVVSNADGSNTRSFNIAKGIADLLHSETVSERLPGQTSGNAFEAICSEFVQSAFEKLQHIRPGDWNVKQVGSRNRLEIARYQQYAHLTALAKAAEENPELAAALGSDYTITPDIIVTRNLIADAEINRNEFLVDENIATYASLRAGNGNMPLLHASISCKWTIRSDRAQNARSEGLNLVRNRKGRLPHIVVVTAEPTPSRISSIALGTGEIDCVYHFALYELEQILQSLNYEDALDLFYIMVNGKRLKDISDLPLDLAV MQPLFTQERRIFHKKLLDGNILATNNRGVVSNADGSNTRSFNIAKGIADLLHSETVSERLPGQTSGNAFEAICSEFVQSAFEKLQHIRPGDWNVKQVGSRNRLEIARYQQYAHLTALAKAAEENPELAAALGSDYTITPDIIVTRNLIADAEINRNEFLVDENIATYASLRAGNGNMPLLHASISCKWTIRSDRAQNARSEGLNLVRNRKGRLPHIVVVTAEPTPSRISSIALGTGEIDCVYHFALYELEQILQSLNYEDALDLFYIMVNGKRLKDISDLPLDLAV 1fiu-a1-m1-cB_1fiu-a1-m1-cD TETRAMERIC RESTRICTION ENDONUCLEASE NGOMIV IN COMPLEX WITH CLEAVED DNA P31032 P31032 1.6 X-RAY DIFFRACTION 28 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 286 286 1fiu-a1-m1-cA_1fiu-a1-m1-cC 4abt-a1-m1-cA_4abt-a1-m2-cB 4abt-a1-m1-cB_4abt-a1-m2-cA MQPLFTQERRIFHKKLLDGNILATNNRGVVSNADGSNTRSFNIAKGIADLLHSETVSERLPGQTSGNAFEAICSEFVQSAFEKLQHIRPGDWNVKQVGSRNRLEIARYQQYAHLTALAKAAEENPELAAALGSDYTITPDIIVTRNLIADAEINRNEFLVDENIATYASLRAGNGNMPLLHASISCKWTIRSDRAQNARSEGLNLVRNRKGRLPHIVVVTAEPTPSRISSIALGTGEIDCVYHFALYELEQILQSLNYEDALDLFYIMVNGKRLKDISDLPLDLAV MQPLFTQERRIFHKKLLDGNILATNNRGVVSNADGSNTRSFNIAKGIADLLHSETVSERLPGQTSGNAFEAICSEFVQSAFEKLQHIRPGDWNVKQVGSRNRLEIARYQQYAHLTALAKAAEENPELAAALGSDYTITPDIIVTRNLIADAEINRNEFLVDENIATYASLRAGNGNMPLLHASISCKWTIRSDRAQNARSEGLNLVRNRKGRLPHIVVVTAEPTPSRISSIALGTGEIDCVYHFALYELEQILQSLNYEDALDLFYIMVNGKRLKDISDLPLDLAV 1fiu-a1-m1-cC_1fiu-a1-m1-cD TETRAMERIC RESTRICTION ENDONUCLEASE NGOMIV IN COMPLEX WITH CLEAVED DNA P31032 P31032 1.6 X-RAY DIFFRACTION 85 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 286 286 1fiu-a1-m1-cA_1fiu-a1-m1-cB 4abt-a1-m1-cA_4abt-a1-m2-cA 4abt-a1-m1-cB_4abt-a1-m2-cB MQPLFTQERRIFHKKLLDGNILATNNRGVVSNADGSNTRSFNIAKGIADLLHSETVSERLPGQTSGNAFEAICSEFVQSAFEKLQHIRPGDWNVKQVGSRNRLEIARYQQYAHLTALAKAAEENPELAAALGSDYTITPDIIVTRNLIADAEINRNEFLVDENIATYASLRAGNGNMPLLHASISCKWTIRSDRAQNARSEGLNLVRNRKGRLPHIVVVTAEPTPSRISSIALGTGEIDCVYHFALYELEQILQSLNYEDALDLFYIMVNGKRLKDISDLPLDLAV MQPLFTQERRIFHKKLLDGNILATNNRGVVSNADGSNTRSFNIAKGIADLLHSETVSERLPGQTSGNAFEAICSEFVQSAFEKLQHIRPGDWNVKQVGSRNRLEIARYQQYAHLTALAKAAEENPELAAALGSDYTITPDIIVTRNLIADAEINRNEFLVDENIATYASLRAGNGNMPLLHASISCKWTIRSDRAQNARSEGLNLVRNRKGRLPHIVVVTAEPTPSRISSIALGTGEIDCVYHFALYELEQILQSLNYEDALDLFYIMVNGKRLKDISDLPLDLAV 1fiz-a2-m2-cA_1fiz-a2-m1-cA THREE DIMENSIONAL STRUCTURE OF BETA-ACROSIN FROM BOAR SPERMATOZOA P08001 P08001 2.9 X-RAY DIFFRACTION 19 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 263 263 VVGGMSAEPGAWPWMVSLQIFMYHNNRRYHTCGGILLNSHWVLTAAHCFKNKKKVTDWRLIFGANEVVWGSNKPVKPPLQERFVEEIIIHEKYVSGLEINDIALIKITPPVPCGPFIGPGCLPQFKAGPPRAPQTCWVTGWGYLKEKGPRTSPTLQEARVALIDLELCNSTRWYNGRIRSTNVCAGYPRGKIDTCQGDSGGPLMCRDRAENTFVVVGITSWGVGCARAKRPGVYTSTWPYLNWIASKIGSNALQMVQLGTPPR VVGGMSAEPGAWPWMVSLQIFMYHNNRRYHTCGGILLNSHWVLTAAHCFKNKKKVTDWRLIFGANEVVWGSNKPVKPPLQERFVEEIIIHEKYVSGLEINDIALIKITPPVPCGPFIGPGCLPQFKAGPPRAPQTCWVTGWGYLKEKGPRTSPTLQEARVALIDLELCNSTRWYNGRIRSTNVCAGYPRGKIDTCQGDSGGPLMCRDRAENTFVVVGITSWGVGCARAKRPGVYTSTWPYLNWIASKIGSNALQMVQLGTPPR 1fj2-a3-m1-cA_1fj2-a3-m1-cB Crystal structure of the human acyl protein thioesterase 1 at 1.5 A resolution O75608 O75608 1.5 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 229 MDPEFMSTPLPAIVPAARKATAAVIFLHGLGDTGHGWAEAFAGIRSSHIKYICPHAPVRPVTLNMNVAMPSWFDIIGLSPDSQEDESGIKQAAENIKALIDQEVKNGIPSNRIILGGFSQGGALSLYTALTTQQKLAGVTALSCWLPLRASFPQGPIGGANRDISILQCHGDCDPLVPLMFGSLTVEKLKTLVNPANVTFKTYEGMMHSSCQQEMMDVKQFIDKLLPPI MDPEFMSTPLPAIVPAARKATAAVIFLHGLGDTGHGWAEAFAGIRSSHIKYICPHAPVRPVTLNMNVAMPSWFDIIGLSPDSQEDESGIKQAAENIKALIDQEVKNGIPSNRIILGGFSQGGALSLYTALTTQQKLAGVTALSCWLPLRASFPQGPIGGANRDISILQCHGDCDPLVPLMFGSLTVEKLKTLVNPANVTFKTYEGMMHSSCQQEMMDVKQFIDKLLPPI 1fjh-a1-m1-cA_1fjh-a1-m1-cB THE CRYSTAL STRUCTURE OF 3-ALPHA-HYDROXYSTEROID DEHYDROGENASE FROM COMAMONAS TESTOSTERONI, A MEMBER OF THE SHORT CHAIN DEHYDROGENASE/REDUCTASE FAMILY P80702 P80702 1.68 X-RAY DIFFRACTION 165 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 236 236 1fk8-a1-m1-cB_1fk8-a1-m1-cA MSIIVISGCATGIGAATRKVLEAAGHQIVGIDIRDAEVIADLSTAEGRKQAIADVLAKCSKGMDGLVLCAGLGPQTKVLGNVVSVNYFGATELMDAFLPALKKGHQPAAVVISSVASAHLAFDKNPLALALEAGEEAKARAIVEHAGEQGGNLAYAGSKNALTVAVRKRAAAWGEAGVRLNTIAPGAFVPPMGRRAEPSEMASVIAFLMSPAASYVHGAQIVIDGGIDAVMRPTQF MSIIVISGCATGIGAATRKVLEAAGHQIVGIDIRDAEVIADLSTAEGRKQAIADVLAKCSKGMDGLVLCAGLGPQTKVLGNVVSVNYFGATELMDAFLPALKKGHQPAAVVISSVASAHLAFDKNPLALALEAGEEAKARAIVEHAGEQGGNLAYAGSKNALTVAVRKRAAAWGEAGVRLNTIAPGAFVPPMGRRAEPSEMASVIAFLMSPAASYVHGAQIVIDGGIDAVMRPTQF 1fjj-a1-m1-cA_1fjj-a1-m2-cA CRYSTAL STRUCTURE OF E.COLI YBHB PROTEIN, A NEW MEMBER OF THE MAMMALIAN PEBP FAMILY P12994 P12994 1.66 X-RAY DIFFRACTION 72 1.0 562 (Escherichia coli) 562 (Escherichia coli) 154 154 AKLISNDLRDGDKLPHRHVFNGGYDGDNISPHLAWDDVPAGTKSFVVTCYDPDAPTGSGWWHWVVVNLPADTRVLPQGFGSGLVAPDGVLQTRTDFGKTGYDGAAPPKGETHRYIFTVHALDIERIDVDEGASGAVGFNVHFHSLASASITAFS AKLISNDLRDGDKLPHRHVFNGGYDGDNISPHLAWDDVPAGTKSFVVTCYDPDAPTGSGWWHWVVVNLPADTRVLPQGFGSGLVAPDGVLQTRTDFGKTGYDGAAPPKGETHRYIFTVHALDIERIDVDEGASGAVGFNVHFHSLASASITAFS 1fjl-a2-m1-cC_1fjl-a2-m2-cC HOMEODOMAIN FROM THE DROSOPHILA PAIRED PROTEIN BOUND TO A DNA OLIGONUCLEOTIDE P06601 P06601 2 X-RAY DIFFRACTION 24 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 59 59 1fjl-a1-m1-cB_1fjl-a1-m1-cA KQRRSRTTFSASQLDELERAFERTQYPDIYTREELAQRTNLTEARIQVWFQNRRARLRK KQRRSRTTFSASQLDELERAFERTQYPDIYTREELAQRTNLTEARIQVWFQNRRARLRK 1fl1-a2-m1-cB_1fl1-a2-m2-cB KSHV PROTEASE O36607 O36607 2.2 X-RAY DIFFRACTION 24 1.0 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 207 207 AQGLYVGGFVDVVDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPLETLMAKAIDAGFIRDRLDLLKTDRGVASILSPVYLKA AQGLYVGGFVDVVDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPLETLMAKAIDAGFIRDRLDLLKTDRGVASILSPVYLKA 1fl1-a2-m2-cA_1fl1-a2-m2-cB KSHV PROTEASE O36607 O36607 2.2 X-RAY DIFFRACTION 79 0.995 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 192 207 1fl1-a1-m1-cA_1fl1-a1-m1-cB 1fl1-a2-m1-cA_1fl1-a2-m1-cB AQGLYVGGFVDVVSEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPLETLMAKAIDAGFIRDRLDLLKTDRGVASILSPVYLKA AQGLYVGGFVDVVDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPLETLMAKAIDAGFIRDRLDLLKTDRGVASILSPVYLKA 1fl7-a3-m1-cA_1fl7-a3-m1-cC HUMAN FOLLICLE STIMULATING HORMONE P01215 P01215 3 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 88 QDCPECTLQENPFFSQPGAPILQCMGCCFSRAYPTPLRSKKTMLVQKNVTSESTCCVAKSYNRVTVMGGFKVENHTACHCSTCYYH QDCPECTLQENPFFSQPGAPILQCMGCCFSRAYPTPLRSKKTMLVQKNVTSESTCCVAKSYNRVTVMGGFKVENHTACHCSTCYYHKS 1fl7-a3-m1-cD_1fl7-a3-m1-cB HUMAN FOLLICLE STIMULATING HORMONE P01225 P01225 3 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 107 CELTNITIAIEKEECRFCISINTAWCAGYCYTRDLVYKDPARPKIQKTCTFKELVYETVRVPGCAHHADSLYTYPVATQCHCGKCDSDSTDCTVRGLGPSYCSFGE CELTNITIAIEKEECRFCISINTAWCAGYCYTRDLVYKDPARPKIQKTCTFKELVYETVRVPGCAHHADSLYTYPVATQCHCGKCDSDSTDCTVRGLGPSYCSFGEM 1flc-a1-m1-cC_1flc-a1-m1-cE X-RAY STRUCTURE OF THE HAEMAGGLUTININ-ESTERASE-FUSION GLYCOPROTEIN OF INFLUENZA C VIRUS P07975 P07975 3.2 X-RAY DIFFRACTION 32 1.0 100673 (Influenza C virus (C/Johannesburg/1/66)) 100673 (Influenza C virus (C/Johannesburg/1/66)) 427 427 1flc-a1-m1-cA_1flc-a1-m1-cC 1flc-a1-m1-cA_1flc-a1-m1-cE EKIKICLQKQVNSSFSLHNGFGGNLYATEEKRMFELVKPKAGASVLNQSTWIGFGDSRTDKSNSAFPRSADVSAKTADKFRFLSGGSLMLSMFGPPGKVDYLYQGCGKHKVFYEGVNWSPHAAINCYRKNWTDIKLNFQKNIYELASQSHCMSLVNALDKTIPLQVTAGTAGNCNNSFLKNPALYTQEVKPSENKCGKENLAFFTLPTQFGTYECKLHLVASCYFIYDSKEVYNKRGCDNYFQVIYDSFGKVVGGLDNRVSPYTGNSGDTPTMQCDMLQLKPGRYSVRSSPRFLLMPERSYCFDMKEKGPVTAVQSIWGKGRESDYAVDQACLSTPGCMLIQKQKPYIGEADDHHGDQEMRELLSGLDYEARCISQSGWVNETSPFTEKYLLPPKFGRCPLAAKEESIPKIPDGLLIPTSGTDTTVT EKIKICLQKQVNSSFSLHNGFGGNLYATEEKRMFELVKPKAGASVLNQSTWIGFGDSRTDKSNSAFPRSADVSAKTADKFRFLSGGSLMLSMFGPPGKVDYLYQGCGKHKVFYEGVNWSPHAAINCYRKNWTDIKLNFQKNIYELASQSHCMSLVNALDKTIPLQVTAGTAGNCNNSFLKNPALYTQEVKPSENKCGKENLAFFTLPTQFGTYECKLHLVASCYFIYDSKEVYNKRGCDNYFQVIYDSFGKVVGGLDNRVSPYTGNSGDTPTMQCDMLQLKPGRYSVRSSPRFLLMPERSYCFDMKEKGPVTAVQSIWGKGRESDYAVDQACLSTPGCMLIQKQKPYIGEADDHHGDQEMRELLSGLDYEARCISQSGWVNETSPFTEKYLLPPKFGRCPLAAKEESIPKIPDGLLIPTSGTDTTVT 1flc-a1-m1-cD_1flc-a1-m1-cF X-RAY STRUCTURE OF THE HAEMAGGLUTININ-ESTERASE-FUSION GLYCOPROTEIN OF INFLUENZA C VIRUS P07975 P07975 3.2 X-RAY DIFFRACTION 34 1.0 100673 (Influenza C virus (C/Johannesburg/1/66)) 100673 (Influenza C virus (C/Johannesburg/1/66)) 162 162 1flc-a1-m1-cB_1flc-a1-m1-cD 1flc-a1-m1-cB_1flc-a1-m1-cF 6yi5-a1-m1-cB_6yi5-a1-m1-cD 6yi5-a1-m1-cB_6yi5-a1-m1-cF 6yi5-a1-m1-cD_6yi5-a1-m1-cF IDDLIIGVLFVAIVETGIGGYLLGSRKESGGGVTKESAEKGFEKIGNDIQILKSSINIAIEKLNDRISHDEQAIRDLTLEIENARSEALLGELGIIRALLVGNISIGLQESLWELASEITNRAGDLAVEVSPGCWIIDNNICDQSCQNFIFKFNETAPVPTI IDDLIIGVLFVAIVETGIGGYLLGSRKESGGGVTKESAEKGFEKIGNDIQILKSSINIAIEKLNDRISHDEQAIRDLTLEIENARSEALLGELGIIRALLVGNISIGLQESLWELASEITNRAGDLAVEVSPGCWIIDNNICDQSCQNFIFKFNETAPVPTI 1flg-a1-m1-cA_1flg-a1-m1-cB CRYSTAL STRUCTURE OF THE QUINOPROTEIN ETHANOL DEHYDROGENASE FROM PSEUDOMONAS AERUGINOSA Q9Z4J7 Q9Z4J7 2.6 X-RAY DIFFRACTION 87 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 582 582 KDVTWEDIANDDKTTGDVLQYGMGTHAQRWSPLKQVNADNVFKLTPAWSYSFGDEKQRGQESQAIVSDGVIYVTASYSRLFALDAKTGKRLWTYNHRLPDDIRPCCDVVNRGAAIYGDKVFFGTLDASVVALNKNTGKVVWKKKFADHGAGYTMTGAPTIVKDGKTGKVLLIHGSSGDEFGVVGRLFARDPDTGEEIWMRPFVEGHMGRLNGKDSTVTGDVKAPSWPDDRNSPTGKVESWSHGGGAPWQSASFDAETNTIIVGAGNPGPWNTWARTAKGGNPHDYDSLYTSGQVGVDPSSGEVKWFYQHTPNDAWDFSGNNELVLFDYKAKDGKIVKATAHADRNGFFYVVDRSNGKLQNAFPFVDNITWASHIDLKTGRPVEREGQRPPLPEPGQKHGKAVEVSPPFLGGKNWNPMAYSQDTGLFYVPANHWKEDYWTEEVSYTKGSAYLGMGFRIKRMYDDHVGSLRAMDPVSGKVVWEHKEHLPLWAGVLATAGNLVFTGTGDGYFKAFDAKSGKELWKFQTGSGIVSPPITWEQDGEQYLGVTVGYGGAVPLWGGDMADLTRPVAQGGSFWVFKLPSW KDVTWEDIANDDKTTGDVLQYGMGTHAQRWSPLKQVNADNVFKLTPAWSYSFGDEKQRGQESQAIVSDGVIYVTASYSRLFALDAKTGKRLWTYNHRLPDDIRPCCDVVNRGAAIYGDKVFFGTLDASVVALNKNTGKVVWKKKFADHGAGYTMTGAPTIVKDGKTGKVLLIHGSSGDEFGVVGRLFARDPDTGEEIWMRPFVEGHMGRLNGKDSTVTGDVKAPSWPDDRNSPTGKVESWSHGGGAPWQSASFDAETNTIIVGAGNPGPWNTWARTAKGGNPHDYDSLYTSGQVGVDPSSGEVKWFYQHTPNDAWDFSGNNELVLFDYKAKDGKIVKATAHADRNGFFYVVDRSNGKLQNAFPFVDNITWASHIDLKTGRPVEREGQRPPLPEPGQKHGKAVEVSPPFLGGKNWNPMAYSQDTGLFYVPANHWKEDYWTEEVSYTKGSAYLGMGFRIKRMYDDHVGSLRAMDPVSGKVVWEHKEHLPLWAGVLATAGNLVFTGTGDGYFKAFDAKSGKELWKFQTGSGIVSPPITWEQDGEQYLGVTVGYGGAVPLWGGDMADLTRPVAQGGSFWVFKLPSW 1fm5-a1-m1-cA_1fm5-a1-m2-cA CRYSTAL STRUCTURE OF HUMAN CD69 Q07108 Q07108 2.27 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 SDSCSEDWVGYQRKCYFISTVKRSWTSAQNACSEHGATLAVIDSEKDMNFLKRYAGREEHWVGLKKEPGHPWKWSNGKEFNNWFNVTGSDKCVFLKNTEVSSMECEKNLYWICNKPY SDSCSEDWVGYQRKCYFISTVKRSWTSAQNACSEHGATLAVIDSEKDMNFLKRYAGREEHWVGLKKEPGHPWKWSNGKEFNNWFNVTGSDKCVFLKNTEVSSMECEKNLYWICNKPY 1fmd-a1-m55-c2_1fmd-a1-m9-c2 THE STRUCTURE AND ANTIGENICITY OF A TYPE C FOOT-AND-MOUTH DISEASE VIRUS P15072 P15072 3.5 X-RAY DIFFRACTION 30 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 218 218 1fmd-a1-m10-c2_1fmd-a1-m24-c2 1fmd-a1-m11-c2_1fmd-a1-m16-c2 1fmd-a1-m12-c2_1fmd-a1-m38-c2 1fmd-a1-m13-c2_1fmd-a1-m47-c2 1fmd-a1-m14-c2_1fmd-a1-m45-c2 1fmd-a1-m15-c2_1fmd-a1-m29-c2 1fmd-a1-m17-c2_1fmd-a1-m28-c2 1fmd-a1-m18-c2_1fmd-a1-m52-c2 1fmd-a1-m19-c2_1fmd-a1-m60-c2 1fmd-a1-m1-c2_1fmd-a1-m6-c2 1fmd-a1-m20-c2_1fmd-a1-m39-c2 1fmd-a1-m21-c2_1fmd-a1-m26-c2 1fmd-a1-m22-c2_1fmd-a1-m43-c2 1fmd-a1-m25-c2_1fmd-a1-m54-c2 1fmd-a1-m27-c2_1fmd-a1-m53-c2 1fmd-a1-m2-c2_1fmd-a1-m23-c2 1fmd-a1-m30-c2_1fmd-a1-m44-c2 1fmd-a1-m31-c2_1fmd-a1-m36-c2 1fmd-a1-m32-c2_1fmd-a1-m58-c2 1fmd-a1-m33-c2_1fmd-a1-m7-c2 1fmd-a1-m34-c2_1fmd-a1-m5-c2 1fmd-a1-m35-c2_1fmd-a1-m49-c2 1fmd-a1-m37-c2_1fmd-a1-m48-c2 1fmd-a1-m3-c2_1fmd-a1-m42-c2 1fmd-a1-m40-c2_1fmd-a1-m59-c2 1fmd-a1-m41-c2_1fmd-a1-m46-c2 1fmd-a1-m4-c2_1fmd-a1-m50-c2 1fmd-a1-m51-c2_1fmd-a1-m56-c2 1fmd-a1-m57-c2_1fmd-a1-m8-c2 1qgc-a1-m10-c2_1qgc-a1-m24-c2 1qgc-a1-m11-c2_1qgc-a1-m16-c2 1qgc-a1-m12-c2_1qgc-a1-m38-c2 1qgc-a1-m13-c2_1qgc-a1-m47-c2 1qgc-a1-m14-c2_1qgc-a1-m45-c2 1qgc-a1-m15-c2_1qgc-a1-m29-c2 1qgc-a1-m17-c2_1qgc-a1-m28-c2 1qgc-a1-m18-c2_1qgc-a1-m52-c2 1qgc-a1-m19-c2_1qgc-a1-m60-c2 1qgc-a1-m1-c2_1qgc-a1-m6-c2 1qgc-a1-m20-c2_1qgc-a1-m39-c2 1qgc-a1-m21-c2_1qgc-a1-m26-c2 1qgc-a1-m22-c2_1qgc-a1-m43-c2 1qgc-a1-m25-c2_1qgc-a1-m54-c2 1qgc-a1-m27-c2_1qgc-a1-m53-c2 1qgc-a1-m2-c2_1qgc-a1-m23-c2 1qgc-a1-m30-c2_1qgc-a1-m44-c2 1qgc-a1-m31-c2_1qgc-a1-m36-c2 1qgc-a1-m32-c2_1qgc-a1-m58-c2 1qgc-a1-m33-c2_1qgc-a1-m7-c2 1qgc-a1-m34-c2_1qgc-a1-m5-c2 1qgc-a1-m35-c2_1qgc-a1-m49-c2 1qgc-a1-m37-c2_1qgc-a1-m48-c2 1qgc-a1-m3-c2_1qgc-a1-m42-c2 1qgc-a1-m40-c2_1qgc-a1-m59-c2 1qgc-a1-m41-c2_1qgc-a1-m46-c2 1qgc-a1-m4-c2_1qgc-a1-m50-c2 1qgc-a1-m51-c2_1qgc-a1-m56-c2 1qgc-a1-m55-c2_1qgc-a1-m9-c2 1qgc-a1-m57-c2_1qgc-a1-m8-c2 DKKTEETTLLEDRILTTRNGHTTSTTQSSVGVTFGYATAEDSTSGPNTSALETRVHQAERFFKMALFDWVPSQNFGHMHKVVLPHEPKGVYGGLVKSYAYMRNGWDVEVTAVGNQFNGGCLLVALVPEMGDISDREKYQLTLYPHQFINPRTNMTAHITVPYVGVNRYDQYKQHRPWTLVVMVVAPLTTNTAGAQQIKVYANIAPTNVHVAGELPSKE DKKTEETTLLEDRILTTRNGHTTSTTQSSVGVTFGYATAEDSTSGPNTSALETRVHQAERFFKMALFDWVPSQNFGHMHKVVLPHEPKGVYGGLVKSYAYMRNGWDVEVTAVGNQFNGGCLLVALVPEMGDISDREKYQLTLYPHQFINPRTNMTAHITVPYVGVNRYDQYKQHRPWTLVVMVVAPLTTNTAGAQQIKVYANIAPTNVHVAGELPSKE 1fmd-a1-m57-c2_1fmd-a1-m9-c2 THE STRUCTURE AND ANTIGENICITY OF A TYPE C FOOT-AND-MOUTH DISEASE VIRUS P15072 P15072 3.5 X-RAY DIFFRACTION 36 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 218 218 1fmd-a1-m10-c2_1fmd-a1-m25-c2 1fmd-a1-m10-c2_1fmd-a1-m55-c2 1fmd-a1-m11-c2_1fmd-a1-m17-c2 1fmd-a1-m11-c2_1fmd-a1-m29-c2 1fmd-a1-m12-c2_1fmd-a1-m16-c2 1fmd-a1-m12-c2_1fmd-a1-m39-c2 1fmd-a1-m13-c2_1fmd-a1-m38-c2 1fmd-a1-m13-c2_1fmd-a1-m48-c2 1fmd-a1-m14-c2_1fmd-a1-m41-c2 1fmd-a1-m14-c2_1fmd-a1-m47-c2 1fmd-a1-m15-c2_1fmd-a1-m30-c2 1fmd-a1-m15-c2_1fmd-a1-m45-c2 1fmd-a1-m16-c2_1fmd-a1-m39-c2 1fmd-a1-m17-c2_1fmd-a1-m29-c2 1fmd-a1-m18-c2_1fmd-a1-m28-c2 1fmd-a1-m18-c2_1fmd-a1-m53-c2 1fmd-a1-m19-c2_1fmd-a1-m52-c2 1fmd-a1-m19-c2_1fmd-a1-m56-c2 1fmd-a1-m1-c2_1fmd-a1-m34-c2 1fmd-a1-m1-c2_1fmd-a1-m7-c2 1fmd-a1-m20-c2_1fmd-a1-m40-c2 1fmd-a1-m20-c2_1fmd-a1-m60-c2 1fmd-a1-m21-c2_1fmd-a1-m27-c2 1fmd-a1-m21-c2_1fmd-a1-m54-c2 1fmd-a1-m22-c2_1fmd-a1-m26-c2 1fmd-a1-m22-c2_1fmd-a1-m44-c2 1fmd-a1-m23-c2_1fmd-a1-m3-c2 1fmd-a1-m23-c2_1fmd-a1-m43-c2 1fmd-a1-m24-c2_1fmd-a1-m6-c2 1fmd-a1-m25-c2_1fmd-a1-m55-c2 1fmd-a1-m26-c2_1fmd-a1-m44-c2 1fmd-a1-m27-c2_1fmd-a1-m54-c2 1fmd-a1-m28-c2_1fmd-a1-m53-c2 1fmd-a1-m2-c2_1fmd-a1-m24-c2 1fmd-a1-m2-c2_1fmd-a1-m6-c2 1fmd-a1-m30-c2_1fmd-a1-m45-c2 1fmd-a1-m31-c2_1fmd-a1-m37-c2 1fmd-a1-m31-c2_1fmd-a1-m49-c2 1fmd-a1-m32-c2_1fmd-a1-m36-c2 1fmd-a1-m32-c2_1fmd-a1-m59-c2 1fmd-a1-m33-c2_1fmd-a1-m58-c2 1fmd-a1-m33-c2_1fmd-a1-m8-c2 1fmd-a1-m34-c2_1fmd-a1-m7-c2 1fmd-a1-m35-c2_1fmd-a1-m50-c2 1fmd-a1-m35-c2_1fmd-a1-m5-c2 1fmd-a1-m36-c2_1fmd-a1-m59-c2 1fmd-a1-m37-c2_1fmd-a1-m49-c2 1fmd-a1-m38-c2_1fmd-a1-m48-c2 1fmd-a1-m3-c2_1fmd-a1-m43-c2 1fmd-a1-m40-c2_1fmd-a1-m60-c2 1fmd-a1-m41-c2_1fmd-a1-m47-c2 1fmd-a1-m42-c2_1fmd-a1-m46-c2 1fmd-a1-m4-c2_1fmd-a1-m42-c2 1fmd-a1-m4-c2_1fmd-a1-m46-c2 1fmd-a1-m51-c2_1fmd-a1-m57-c2 1fmd-a1-m51-c2_1fmd-a1-m9-c2 1fmd-a1-m52-c2_1fmd-a1-m56-c2 1fmd-a1-m58-c2_1fmd-a1-m8-c2 1fmd-a1-m5-c2_1fmd-a1-m50-c2 1qgc-a1-m10-c2_1qgc-a1-m25-c2 1qgc-a1-m10-c2_1qgc-a1-m55-c2 1qgc-a1-m11-c2_1qgc-a1-m17-c2 1qgc-a1-m11-c2_1qgc-a1-m29-c2 1qgc-a1-m12-c2_1qgc-a1-m16-c2 1qgc-a1-m12-c2_1qgc-a1-m39-c2 1qgc-a1-m13-c2_1qgc-a1-m38-c2 1qgc-a1-m13-c2_1qgc-a1-m48-c2 1qgc-a1-m14-c2_1qgc-a1-m41-c2 1qgc-a1-m14-c2_1qgc-a1-m47-c2 1qgc-a1-m15-c2_1qgc-a1-m30-c2 1qgc-a1-m15-c2_1qgc-a1-m45-c2 1qgc-a1-m16-c2_1qgc-a1-m39-c2 1qgc-a1-m17-c2_1qgc-a1-m29-c2 1qgc-a1-m18-c2_1qgc-a1-m28-c2 1qgc-a1-m18-c2_1qgc-a1-m53-c2 1qgc-a1-m19-c2_1qgc-a1-m52-c2 1qgc-a1-m19-c2_1qgc-a1-m56-c2 1qgc-a1-m1-c2_1qgc-a1-m34-c2 1qgc-a1-m1-c2_1qgc-a1-m7-c2 1qgc-a1-m20-c2_1qgc-a1-m40-c2 1qgc-a1-m20-c2_1qgc-a1-m60-c2 1qgc-a1-m21-c2_1qgc-a1-m27-c2 1qgc-a1-m21-c2_1qgc-a1-m54-c2 1qgc-a1-m22-c2_1qgc-a1-m26-c2 1qgc-a1-m22-c2_1qgc-a1-m44-c2 1qgc-a1-m23-c2_1qgc-a1-m3-c2 1qgc-a1-m23-c2_1qgc-a1-m43-c2 1qgc-a1-m24-c2_1qgc-a1-m6-c2 1qgc-a1-m25-c2_1qgc-a1-m55-c2 1qgc-a1-m26-c2_1qgc-a1-m44-c2 1qgc-a1-m27-c2_1qgc-a1-m54-c2 1qgc-a1-m28-c2_1qgc-a1-m53-c2 1qgc-a1-m2-c2_1qgc-a1-m24-c2 1qgc-a1-m2-c2_1qgc-a1-m6-c2 1qgc-a1-m30-c2_1qgc-a1-m45-c2 1qgc-a1-m31-c2_1qgc-a1-m37-c2 1qgc-a1-m31-c2_1qgc-a1-m49-c2 1qgc-a1-m32-c2_1qgc-a1-m36-c2 1qgc-a1-m32-c2_1qgc-a1-m59-c2 1qgc-a1-m33-c2_1qgc-a1-m58-c2 1qgc-a1-m33-c2_1qgc-a1-m8-c2 1qgc-a1-m34-c2_1qgc-a1-m7-c2 1qgc-a1-m35-c2_1qgc-a1-m50-c2 1qgc-a1-m35-c2_1qgc-a1-m5-c2 1qgc-a1-m36-c2_1qgc-a1-m59-c2 1qgc-a1-m37-c2_1qgc-a1-m49-c2 1qgc-a1-m38-c2_1qgc-a1-m48-c2 1qgc-a1-m3-c2_1qgc-a1-m43-c2 1qgc-a1-m40-c2_1qgc-a1-m60-c2 1qgc-a1-m41-c2_1qgc-a1-m47-c2 1qgc-a1-m42-c2_1qgc-a1-m46-c2 1qgc-a1-m4-c2_1qgc-a1-m42-c2 1qgc-a1-m4-c2_1qgc-a1-m46-c2 1qgc-a1-m51-c2_1qgc-a1-m57-c2 1qgc-a1-m51-c2_1qgc-a1-m9-c2 1qgc-a1-m52-c2_1qgc-a1-m56-c2 1qgc-a1-m57-c2_1qgc-a1-m9-c2 1qgc-a1-m58-c2_1qgc-a1-m8-c2 1qgc-a1-m5-c2_1qgc-a1-m50-c2 DKKTEETTLLEDRILTTRNGHTTSTTQSSVGVTFGYATAEDSTSGPNTSALETRVHQAERFFKMALFDWVPSQNFGHMHKVVLPHEPKGVYGGLVKSYAYMRNGWDVEVTAVGNQFNGGCLLVALVPEMGDISDREKYQLTLYPHQFINPRTNMTAHITVPYVGVNRYDQYKQHRPWTLVVMVVAPLTTNTAGAQQIKVYANIAPTNVHVAGELPSKE DKKTEETTLLEDRILTTRNGHTTSTTQSSVGVTFGYATAEDSTSGPNTSALETRVHQAERFFKMALFDWVPSQNFGHMHKVVLPHEPKGVYGGLVKSYAYMRNGWDVEVTAVGNQFNGGCLLVALVPEMGDISDREKYQLTLYPHQFINPRTNMTAHITVPYVGVNRYDQYKQHRPWTLVVMVVAPLTTNTAGAQQIKVYANIAPTNVHVAGELPSKE 1fmd-a1-m7-c3_1fmd-a1-m9-c3 THE STRUCTURE AND ANTIGENICITY OF A TYPE C FOOT-AND-MOUTH DISEASE VIRUS P15072 P15072 3.5 X-RAY DIFFRACTION 16 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 219 219 1fmd-a1-m10-c3_1fmd-a1-m7-c3 1fmd-a1-m10-c3_1fmd-a1-m8-c3 1fmd-a1-m11-c3_1fmd-a1-m13-c3 1fmd-a1-m11-c3_1fmd-a1-m14-c3 1fmd-a1-m12-c3_1fmd-a1-m14-c3 1fmd-a1-m12-c3_1fmd-a1-m15-c3 1fmd-a1-m13-c3_1fmd-a1-m15-c3 1fmd-a1-m16-c3_1fmd-a1-m18-c3 1fmd-a1-m16-c3_1fmd-a1-m19-c3 1fmd-a1-m17-c3_1fmd-a1-m19-c3 1fmd-a1-m17-c3_1fmd-a1-m20-c3 1fmd-a1-m18-c3_1fmd-a1-m20-c3 1fmd-a1-m1-c3_1fmd-a1-m3-c3 1fmd-a1-m1-c3_1fmd-a1-m4-c3 1fmd-a1-m21-c3_1fmd-a1-m23-c3 1fmd-a1-m21-c3_1fmd-a1-m24-c3 1fmd-a1-m22-c3_1fmd-a1-m24-c3 1fmd-a1-m22-c3_1fmd-a1-m25-c3 1fmd-a1-m23-c3_1fmd-a1-m25-c3 1fmd-a1-m26-c3_1fmd-a1-m28-c3 1fmd-a1-m26-c3_1fmd-a1-m29-c3 1fmd-a1-m27-c3_1fmd-a1-m29-c3 1fmd-a1-m27-c3_1fmd-a1-m30-c3 1fmd-a1-m28-c3_1fmd-a1-m30-c3 1fmd-a1-m2-c3_1fmd-a1-m4-c3 1fmd-a1-m2-c3_1fmd-a1-m5-c3 1fmd-a1-m31-c3_1fmd-a1-m33-c3 1fmd-a1-m31-c3_1fmd-a1-m34-c3 1fmd-a1-m32-c3_1fmd-a1-m34-c3 1fmd-a1-m32-c3_1fmd-a1-m35-c3 1fmd-a1-m33-c3_1fmd-a1-m35-c3 1fmd-a1-m36-c3_1fmd-a1-m38-c3 1fmd-a1-m36-c3_1fmd-a1-m39-c3 1fmd-a1-m37-c3_1fmd-a1-m39-c3 1fmd-a1-m37-c3_1fmd-a1-m40-c3 1fmd-a1-m38-c3_1fmd-a1-m40-c3 1fmd-a1-m3-c3_1fmd-a1-m5-c3 1fmd-a1-m41-c3_1fmd-a1-m43-c3 1fmd-a1-m41-c3_1fmd-a1-m44-c3 1fmd-a1-m42-c3_1fmd-a1-m44-c3 1fmd-a1-m42-c3_1fmd-a1-m45-c3 1fmd-a1-m43-c3_1fmd-a1-m45-c3 1fmd-a1-m46-c3_1fmd-a1-m48-c3 1fmd-a1-m46-c3_1fmd-a1-m49-c3 1fmd-a1-m47-c3_1fmd-a1-m49-c3 1fmd-a1-m47-c3_1fmd-a1-m50-c3 1fmd-a1-m48-c3_1fmd-a1-m50-c3 1fmd-a1-m51-c3_1fmd-a1-m53-c3 1fmd-a1-m51-c3_1fmd-a1-m54-c3 1fmd-a1-m52-c3_1fmd-a1-m54-c3 1fmd-a1-m52-c3_1fmd-a1-m55-c3 1fmd-a1-m53-c3_1fmd-a1-m55-c3 1fmd-a1-m56-c3_1fmd-a1-m58-c3 1fmd-a1-m56-c3_1fmd-a1-m59-c3 1fmd-a1-m57-c3_1fmd-a1-m59-c3 1fmd-a1-m57-c3_1fmd-a1-m60-c3 1fmd-a1-m58-c3_1fmd-a1-m60-c3 1fmd-a1-m6-c3_1fmd-a1-m8-c3 1fmd-a1-m6-c3_1fmd-a1-m9-c3 1qgc-a1-m10-c3_1qgc-a1-m7-c3 1qgc-a1-m10-c3_1qgc-a1-m8-c3 1qgc-a1-m11-c3_1qgc-a1-m13-c3 1qgc-a1-m11-c3_1qgc-a1-m14-c3 1qgc-a1-m12-c3_1qgc-a1-m14-c3 1qgc-a1-m12-c3_1qgc-a1-m15-c3 1qgc-a1-m13-c3_1qgc-a1-m15-c3 1qgc-a1-m16-c3_1qgc-a1-m18-c3 1qgc-a1-m16-c3_1qgc-a1-m19-c3 1qgc-a1-m17-c3_1qgc-a1-m19-c3 1qgc-a1-m17-c3_1qgc-a1-m20-c3 1qgc-a1-m18-c3_1qgc-a1-m20-c3 1qgc-a1-m1-c3_1qgc-a1-m3-c3 1qgc-a1-m1-c3_1qgc-a1-m4-c3 1qgc-a1-m21-c3_1qgc-a1-m23-c3 1qgc-a1-m21-c3_1qgc-a1-m24-c3 1qgc-a1-m22-c3_1qgc-a1-m24-c3 1qgc-a1-m22-c3_1qgc-a1-m25-c3 1qgc-a1-m23-c3_1qgc-a1-m25-c3 1qgc-a1-m26-c3_1qgc-a1-m28-c3 1qgc-a1-m26-c3_1qgc-a1-m29-c3 1qgc-a1-m27-c3_1qgc-a1-m29-c3 1qgc-a1-m27-c3_1qgc-a1-m30-c3 1qgc-a1-m28-c3_1qgc-a1-m30-c3 1qgc-a1-m2-c3_1qgc-a1-m4-c3 1qgc-a1-m2-c3_1qgc-a1-m5-c3 1qgc-a1-m31-c3_1qgc-a1-m33-c3 1qgc-a1-m31-c3_1qgc-a1-m34-c3 1qgc-a1-m32-c3_1qgc-a1-m34-c3 1qgc-a1-m32-c3_1qgc-a1-m35-c3 1qgc-a1-m33-c3_1qgc-a1-m35-c3 1qgc-a1-m36-c3_1qgc-a1-m38-c3 1qgc-a1-m36-c3_1qgc-a1-m39-c3 1qgc-a1-m37-c3_1qgc-a1-m39-c3 1qgc-a1-m37-c3_1qgc-a1-m40-c3 1qgc-a1-m38-c3_1qgc-a1-m40-c3 1qgc-a1-m3-c3_1qgc-a1-m5-c3 1qgc-a1-m41-c3_1qgc-a1-m43-c3 1qgc-a1-m41-c3_1qgc-a1-m44-c3 1qgc-a1-m42-c3_1qgc-a1-m44-c3 1qgc-a1-m42-c3_1qgc-a1-m45-c3 1qgc-a1-m43-c3_1qgc-a1-m45-c3 1qgc-a1-m46-c3_1qgc-a1-m48-c3 1qgc-a1-m46-c3_1qgc-a1-m49-c3 1qgc-a1-m47-c3_1qgc-a1-m49-c3 1qgc-a1-m47-c3_1qgc-a1-m50-c3 1qgc-a1-m48-c3_1qgc-a1-m50-c3 1qgc-a1-m51-c3_1qgc-a1-m53-c3 1qgc-a1-m51-c3_1qgc-a1-m54-c3 1qgc-a1-m52-c3_1qgc-a1-m54-c3 1qgc-a1-m52-c3_1qgc-a1-m55-c3 1qgc-a1-m53-c3_1qgc-a1-m55-c3 1qgc-a1-m56-c3_1qgc-a1-m58-c3 1qgc-a1-m56-c3_1qgc-a1-m59-c3 1qgc-a1-m57-c3_1qgc-a1-m59-c3 1qgc-a1-m57-c3_1qgc-a1-m60-c3 1qgc-a1-m58-c3_1qgc-a1-m60-c3 1qgc-a1-m6-c3_1qgc-a1-m8-c3 1qgc-a1-m6-c3_1qgc-a1-m9-c3 1qgc-a1-m7-c3_1qgc-a1-m9-c3 GIFPVACSDGYGNMVTTDPKTADPAYGKVYNPPRTALPGRFTNYLDVAEACPTFLMFENVPYVSTRTDGQRLLAKFDVSLAAKHMSNTYLAGLAQYYTQYTGTINLHFMFTGPTDAKARYMVAYVPPGMDAPDNPEEAAHCIHAEWDTGLNSKFTFSIPYISAADYTYTASHEAETTCVQGWVCVYQITHGKADADALVVSASAGKDFELRLPVDARQQ GIFPVACSDGYGNMVTTDPKTADPAYGKVYNPPRTALPGRFTNYLDVAEACPTFLMFENVPYVSTRTDGQRLLAKFDVSLAAKHMSNTYLAGLAQYYTQYTGTINLHFMFTGPTDAKARYMVAYVPPGMDAPDNPEEAAHCIHAEWDTGLNSKFTFSIPYISAADYTYTASHEAETTCVQGWVCVYQITHGKADADALVVSASAGKDFELRLPVDARQQ 1fmd-a1-m8-c3_1fmd-a1-m9-c3 THE STRUCTURE AND ANTIGENICITY OF A TYPE C FOOT-AND-MOUTH DISEASE VIRUS P15072 P15072 3.5 X-RAY DIFFRACTION 48 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 219 219 1fmd-a1-m10-c3_1fmd-a1-m6-c3 1fmd-a1-m10-c3_1fmd-a1-m9-c3 1fmd-a1-m11-c3_1fmd-a1-m12-c3 1fmd-a1-m11-c3_1fmd-a1-m15-c3 1fmd-a1-m12-c3_1fmd-a1-m13-c3 1fmd-a1-m13-c3_1fmd-a1-m14-c3 1fmd-a1-m14-c3_1fmd-a1-m15-c3 1fmd-a1-m16-c3_1fmd-a1-m17-c3 1fmd-a1-m16-c3_1fmd-a1-m20-c3 1fmd-a1-m17-c3_1fmd-a1-m18-c3 1fmd-a1-m18-c3_1fmd-a1-m19-c3 1fmd-a1-m19-c3_1fmd-a1-m20-c3 1fmd-a1-m1-c3_1fmd-a1-m2-c3 1fmd-a1-m1-c3_1fmd-a1-m5-c3 1fmd-a1-m21-c3_1fmd-a1-m22-c3 1fmd-a1-m21-c3_1fmd-a1-m25-c3 1fmd-a1-m22-c3_1fmd-a1-m23-c3 1fmd-a1-m23-c3_1fmd-a1-m24-c3 1fmd-a1-m24-c3_1fmd-a1-m25-c3 1fmd-a1-m26-c3_1fmd-a1-m27-c3 1fmd-a1-m26-c3_1fmd-a1-m30-c3 1fmd-a1-m27-c3_1fmd-a1-m28-c3 1fmd-a1-m28-c3_1fmd-a1-m29-c3 1fmd-a1-m29-c3_1fmd-a1-m30-c3 1fmd-a1-m2-c3_1fmd-a1-m3-c3 1fmd-a1-m31-c3_1fmd-a1-m32-c3 1fmd-a1-m31-c3_1fmd-a1-m35-c3 1fmd-a1-m32-c3_1fmd-a1-m33-c3 1fmd-a1-m33-c3_1fmd-a1-m34-c3 1fmd-a1-m34-c3_1fmd-a1-m35-c3 1fmd-a1-m36-c3_1fmd-a1-m37-c3 1fmd-a1-m36-c3_1fmd-a1-m40-c3 1fmd-a1-m37-c3_1fmd-a1-m38-c3 1fmd-a1-m38-c3_1fmd-a1-m39-c3 1fmd-a1-m39-c3_1fmd-a1-m40-c3 1fmd-a1-m3-c3_1fmd-a1-m4-c3 1fmd-a1-m41-c3_1fmd-a1-m42-c3 1fmd-a1-m41-c3_1fmd-a1-m45-c3 1fmd-a1-m42-c3_1fmd-a1-m43-c3 1fmd-a1-m43-c3_1fmd-a1-m44-c3 1fmd-a1-m44-c3_1fmd-a1-m45-c3 1fmd-a1-m46-c3_1fmd-a1-m47-c3 1fmd-a1-m46-c3_1fmd-a1-m50-c3 1fmd-a1-m47-c3_1fmd-a1-m48-c3 1fmd-a1-m48-c3_1fmd-a1-m49-c3 1fmd-a1-m49-c3_1fmd-a1-m50-c3 1fmd-a1-m4-c3_1fmd-a1-m5-c3 1fmd-a1-m51-c3_1fmd-a1-m52-c3 1fmd-a1-m51-c3_1fmd-a1-m55-c3 1fmd-a1-m52-c3_1fmd-a1-m53-c3 1fmd-a1-m53-c3_1fmd-a1-m54-c3 1fmd-a1-m54-c3_1fmd-a1-m55-c3 1fmd-a1-m56-c3_1fmd-a1-m57-c3 1fmd-a1-m56-c3_1fmd-a1-m60-c3 1fmd-a1-m57-c3_1fmd-a1-m58-c3 1fmd-a1-m58-c3_1fmd-a1-m59-c3 1fmd-a1-m59-c3_1fmd-a1-m60-c3 1fmd-a1-m6-c3_1fmd-a1-m7-c3 1fmd-a1-m7-c3_1fmd-a1-m8-c3 1qgc-a1-m10-c3_1qgc-a1-m6-c3 1qgc-a1-m10-c3_1qgc-a1-m9-c3 1qgc-a1-m11-c3_1qgc-a1-m12-c3 1qgc-a1-m11-c3_1qgc-a1-m15-c3 1qgc-a1-m12-c3_1qgc-a1-m13-c3 1qgc-a1-m13-c3_1qgc-a1-m14-c3 1qgc-a1-m14-c3_1qgc-a1-m15-c3 1qgc-a1-m16-c3_1qgc-a1-m17-c3 1qgc-a1-m16-c3_1qgc-a1-m20-c3 1qgc-a1-m17-c3_1qgc-a1-m18-c3 1qgc-a1-m18-c3_1qgc-a1-m19-c3 1qgc-a1-m19-c3_1qgc-a1-m20-c3 1qgc-a1-m1-c3_1qgc-a1-m2-c3 1qgc-a1-m1-c3_1qgc-a1-m5-c3 1qgc-a1-m21-c3_1qgc-a1-m22-c3 1qgc-a1-m21-c3_1qgc-a1-m25-c3 1qgc-a1-m22-c3_1qgc-a1-m23-c3 1qgc-a1-m23-c3_1qgc-a1-m24-c3 1qgc-a1-m24-c3_1qgc-a1-m25-c3 1qgc-a1-m26-c3_1qgc-a1-m27-c3 1qgc-a1-m26-c3_1qgc-a1-m30-c3 1qgc-a1-m27-c3_1qgc-a1-m28-c3 1qgc-a1-m28-c3_1qgc-a1-m29-c3 1qgc-a1-m29-c3_1qgc-a1-m30-c3 1qgc-a1-m2-c3_1qgc-a1-m3-c3 1qgc-a1-m31-c3_1qgc-a1-m32-c3 1qgc-a1-m31-c3_1qgc-a1-m35-c3 1qgc-a1-m32-c3_1qgc-a1-m33-c3 1qgc-a1-m33-c3_1qgc-a1-m34-c3 1qgc-a1-m34-c3_1qgc-a1-m35-c3 1qgc-a1-m36-c3_1qgc-a1-m37-c3 1qgc-a1-m36-c3_1qgc-a1-m40-c3 1qgc-a1-m37-c3_1qgc-a1-m38-c3 1qgc-a1-m38-c3_1qgc-a1-m39-c3 1qgc-a1-m39-c3_1qgc-a1-m40-c3 1qgc-a1-m3-c3_1qgc-a1-m4-c3 1qgc-a1-m41-c3_1qgc-a1-m42-c3 1qgc-a1-m41-c3_1qgc-a1-m45-c3 1qgc-a1-m42-c3_1qgc-a1-m43-c3 1qgc-a1-m43-c3_1qgc-a1-m44-c3 1qgc-a1-m44-c3_1qgc-a1-m45-c3 1qgc-a1-m46-c3_1qgc-a1-m47-c3 1qgc-a1-m46-c3_1qgc-a1-m50-c3 1qgc-a1-m47-c3_1qgc-a1-m48-c3 1qgc-a1-m48-c3_1qgc-a1-m49-c3 1qgc-a1-m49-c3_1qgc-a1-m50-c3 1qgc-a1-m4-c3_1qgc-a1-m5-c3 1qgc-a1-m51-c3_1qgc-a1-m52-c3 1qgc-a1-m51-c3_1qgc-a1-m55-c3 1qgc-a1-m52-c3_1qgc-a1-m53-c3 1qgc-a1-m53-c3_1qgc-a1-m54-c3 1qgc-a1-m54-c3_1qgc-a1-m55-c3 1qgc-a1-m56-c3_1qgc-a1-m57-c3 1qgc-a1-m56-c3_1qgc-a1-m60-c3 1qgc-a1-m57-c3_1qgc-a1-m58-c3 1qgc-a1-m58-c3_1qgc-a1-m59-c3 1qgc-a1-m59-c3_1qgc-a1-m60-c3 1qgc-a1-m6-c3_1qgc-a1-m7-c3 1qgc-a1-m7-c3_1qgc-a1-m8-c3 1qgc-a1-m8-c3_1qgc-a1-m9-c3 GIFPVACSDGYGNMVTTDPKTADPAYGKVYNPPRTALPGRFTNYLDVAEACPTFLMFENVPYVSTRTDGQRLLAKFDVSLAAKHMSNTYLAGLAQYYTQYTGTINLHFMFTGPTDAKARYMVAYVPPGMDAPDNPEEAAHCIHAEWDTGLNSKFTFSIPYISAADYTYTASHEAETTCVQGWVCVYQITHGKADADALVVSASAGKDFELRLPVDARQQ GIFPVACSDGYGNMVTTDPKTADPAYGKVYNPPRTALPGRFTNYLDVAEACPTFLMFENVPYVSTRTDGQRLLAKFDVSLAAKHMSNTYLAGLAQYYTQYTGTINLHFMFTGPTDAKARYMVAYVPPGMDAPDNPEEAAHCIHAEWDTGLNSKFTFSIPYISAADYTYTASHEAETTCVQGWVCVYQITHGKADADALVVSASAGKDFELRLPVDARQQ 1fn0-a3-m1-cA_1fn0-a3-m3-cA STRUCTURE OF A MUTANT WINGED BEAN CHYMOTRYPSIN INHIBITOR PROTEIN, N14D. P10822 P10822 2 X-RAY DIFFRACTION 20 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 177 177 1eyl-a3-m1-cA_1eyl-a3-m3-cA 1fmz-a3-m1-cA_1fmz-a3-m3-cA 4wbc-a3-m1-cA_4wbc-a3-m3-cA DDDLVDAEGNLVEDGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSQFLSLFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKAKS DDDLVDAEGNLVEDGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSQFLSLFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKAKS 1fn4-a1-m1-cD_1fn4-a1-m1-cB CRYSTAL STRUCTURE OF FAB198, AN EFFICIENT PROTECTOR OF ACETYLCHOLINE RECEPTOR AGAINST MYASTHENOGENIC ANTIBODIES P20760 P20760 2.8 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 218 218 QVQLLESGPGLVRPSETLSLTCTVSGFSLTSFSVSWVRHPSGKGPEWMGRMWYDGYTAYNSALKSRLSISRDTSKNQVFLKMNSLQTDDTGTYYCTRDLYGGYPLGFWYFDFWGPGTMVTVSSVFPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGALSSGVHTFPAVLQSGLYTLTSSVTVPSSTWSSQAVTCNVAHPASSTKVDKKIVPRDC QVQLLESGPGLVRPSETLSLTCTVSGFSLTSFSVSWVRHPSGKGPEWMGRMWYDGYTAYNSALKSRLSISRDTSKNQVFLKMNSLQTDDTGTYYCTRDLYGGYPLGFWYFDFWGPGTMVTVSSVFPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGALSSGVHTFPAVLQSGLYTLTSSVTVPSSTWSSQAVTCNVAHPASSTKVDKKIVPRDC 1fn9-a1-m1-cA_1fn9-a1-m1-cB CRYSTAL STRUCTURE OF THE REOVIRUS OUTER CAPSID PROTEIN SIGMA 3 P03527 P03527 1.8 X-RAY DIFFRACTION 74 1.0 10891 (Reovirus sp.) 10891 (Reovirus sp.) 365 365 MEVCLPNGHQVVDLINNAFEGRVSIYSAQEGWDKTISAQPDMMVCGGAVVCMHCLGVVGSLQRKLKHLPHHRCNQQIRHQDYVDVQFADRVTAHWKRGMLSFVAQMHEMMNDVSPDDLDRVRTEGGSLVELNWLQVDPNSMFRSIHSSWTDPLQVVDDLDTKLDQYWTALNLMIDSSDLIPNFMMRDPSHAFNGVKLGGDARQTQFSRTFDSRSSLEWGVMVYDYSELEHDPSKGRAYRKELVTPARDFGHFGLSHYSRATTPILGKMPAVFSGMLTGNCKMYPFIKGTAKLKTVRKLVEAVNHAWGVEKIRYALGPGGMTGWYNRTMQQAPIVLTPAALTMFPDTIKFGDLNYPVMIGDPMILG MEVCLPNGHQVVDLINNAFEGRVSIYSAQEGWDKTISAQPDMMVCGGAVVCMHCLGVVGSLQRKLKHLPHHRCNQQIRHQDYVDVQFADRVTAHWKRGMLSFVAQMHEMMNDVSPDDLDRVRTEGGSLVELNWLQVDPNSMFRSIHSSWTDPLQVVDDLDTKLDQYWTALNLMIDSSDLIPNFMMRDPSHAFNGVKLGGDARQTQFSRTFDSRSSLEWGVMVYDYSELEHDPSKGRAYRKELVTPARDFGHFGLSHYSRATTPILGKMPAVFSGMLTGNCKMYPFIKGTAKLKTVRKLVEAVNHAWGVEKIRYALGPGGMTGWYNRTMQQAPIVLTPAALTMFPDTIKFGDLNYPVMIGDPMILG 1fng-a4-m1-cC_1fng-a4-m2-cC HISTOCOMPATIBILITY ANTIGEN P04224 P04224 1.9 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 182 182 1fne-a3-m1-cC_1fne-a3-m2-cC 1i3r-a1-m1-cC_1i3r-a1-m1-cE 1r5w-a1-m1-cA_1r5w-a1-m1-cC IKEEHTIIQAEFYLLPDKRGEFMFDFDGDEIFHVDIEKSETIWRLEEFAKFASFEAQGALANIAVDKANLDVMKERSNNTPDANVAPEVTVLSRSPVNLGEPNILICFIDKFSPPVVNVTWLRNGRPVTEGVSETVFLPRDDHLFRKFHYLTFLPSTDDFYDCEVDHWGLEEPLRKHWEFEE IKEEHTIIQAEFYLLPDKRGEFMFDFDGDEIFHVDIEKSETIWRLEEFAKFASFEAQGALANIAVDKANLDVMKERSNNTPDANVAPEVTVLSRSPVNLGEPNILICFIDKFSPPVVNVTWLRNGRPVTEGVSETVFLPRDDHLFRKFHYLTFLPSTDDFYDCEVDHWGLEEPLRKHWEFEE 1fno-a1-m1-cA_1fno-a1-m2-cA PEPTIDASE T (TRIPEPTIDASE) P26311 P26311 2.4 X-RAY DIFFRACTION 95 1.0 393 393 1vix-a1-m1-cB_1vix-a1-m1-cA DKLLERFLHYVSLDTQSKSGVRQVPSTEGQWKLLRLLKQQLEEGLVNITLSEKGTLATLPANVEGDIPAIGFISHVDTSPDFSGKNVNPQIVENYRGGDIALGIGDEVLSPVFPVLHQLLGQTLITTDGKTLLGADDKAGVAEITALAVLKGNPIPHGDIKVAFTPDEEVGKGAKHFDVEAFGAQWAYTVDGGGVGELEFENFNAASVNIKIVGNNVHPGTAKGVVNALSLAARIHAEVPADEAPETTEGYEGFYHLASKGTVDRAEHYIIRDFDRKQFEARKRKEIAKKVGKGLHPDCYIELVIEDSYYNREKVVEHPHILDIAQQARDCHITPEKPIRGGTDGAQLSFGLPCPNLFTGGYNYHGKHEFVTLEGEKAVQVIVRIAELTAKRG DKLLERFLHYVSLDTQSKSGVRQVPSTEGQWKLLRLLKQQLEEGLVNITLSEKGTLATLPANVEGDIPAIGFISHVDTSPDFSGKNVNPQIVENYRGGDIALGIGDEVLSPVFPVLHQLLGQTLITTDGKTLLGADDKAGVAEITALAVLKGNPIPHGDIKVAFTPDEEVGKGAKHFDVEAFGAQWAYTVDGGGVGELEFENFNAASVNIKIVGNNVHPGTAKGVVNALSLAARIHAEVPADEAPETTEGYEGFYHLASKGTVDRAEHYIIRDFDRKQFEARKRKEIAKKVGKGLHPDCYIELVIEDSYYNREKVVEHPHILDIAQQARDCHITPEKPIRGGTDGAQLSFGLPCPNLFTGGYNYHGKHEFVTLEGEKAVQVIVRIAELTAKRG 1fnw-a2-m1-cE_1fnw-a2-m1-cF CRYSTAL STRUCTURE OF STREPTOCOCCAL PYROGENIC EXOTOXIN A P0DJY7 P0DJY7 3.9 X-RAY DIFFRACTION 38 1.0 35344 (Streptococcus phage T12) 35344 (Streptococcus phage T12) 221 221 1b1z-a1-m1-cA_1b1z-a1-m1-cB 1b1z-a1-m1-cC_1b1z-a1-m1-cD 1fnu-a1-m1-cA_1fnu-a1-m1-cB 1fnu-a1-m1-cC_1fnu-a1-m1-cD 1fnv-a1-m1-cA_1fnv-a1-m1-cB 1fnv-a1-m1-cC_1fnv-a1-m1-cD 1fnw-a1-m1-cA_1fnw-a1-m1-cB 1fnw-a1-m1-cC_1fnw-a1-m1-cD 1fnw-a2-m1-cG_1fnw-a2-m1-cH 1uup-a1-m1-cA_1uup-a1-m1-cD 1uup-a2-m1-cB_1uup-a2-m1-cC QQDPDPSQLHRSSLVKNLQNIYFLYEGDPVTHENVKSVDQLLSHDLIYNVSGPNYDKLKTELKNQEMATLFKDKNVDIYGVEYYHLCYLCENAERSACIYGGVTNHEGNHLEIPKKIVVKVSIDGIQSLSFDIETNKKMVTAQELDYKVRKYTIDNKQLYTNGPSKYETGYIKFIPKNKESFWFDFFPEPEFTQSKYLMIYKDNETLDNKTSQIEVYLTTK QQDPDPSQLHRSSLVKNLQNIYFLYEGDPVTHENVKSVDQLLSHDLIYNVSGPNYDKLKTELKNQEMATLFKDKNVDIYGVEYYHLCYLCENAERSACIYGGVTNHEGNHLEIPKKIVVKVSIDGIQSLSFDIETNKKMVTAQELDYKVRKYTIDNKQLYTNGPSKYETGYIKFIPKNKESFWFDFFPEPEFTQSKYLMIYKDNETLDNKTSQIEVYLTTK 1fnw-a2-m1-cE_1fnw-a2-m1-cH CRYSTAL STRUCTURE OF STREPTOCOCCAL PYROGENIC EXOTOXIN A P0DJY7 P0DJY7 3.9 X-RAY DIFFRACTION 32 1.0 35344 (Streptococcus phage T12) 35344 (Streptococcus phage T12) 221 221 1b1z-a1-m1-cA_1b1z-a1-m1-cD 1b1z-a1-m1-cB_1b1z-a1-m1-cC 1fnu-a1-m1-cA_1fnu-a1-m1-cD 1fnu-a1-m1-cB_1fnu-a1-m1-cC 1fnv-a1-m1-cA_1fnv-a1-m1-cD 1fnv-a1-m1-cB_1fnv-a1-m1-cC 1fnw-a1-m1-cA_1fnw-a1-m1-cD 1fnw-a1-m1-cB_1fnw-a1-m1-cC 1fnw-a2-m1-cF_1fnw-a2-m1-cG QQDPDPSQLHRSSLVKNLQNIYFLYEGDPVTHENVKSVDQLLSHDLIYNVSGPNYDKLKTELKNQEMATLFKDKNVDIYGVEYYHLCYLCENAERSACIYGGVTNHEGNHLEIPKKIVVKVSIDGIQSLSFDIETNKKMVTAQELDYKVRKYTIDNKQLYTNGPSKYETGYIKFIPKNKESFWFDFFPEPEFTQSKYLMIYKDNETLDNKTSQIEVYLTTK QQDPDPSQLHRSSLVKNLQNIYFLYEGDPVTHENVKSVDQLLSHDLIYNVSGPNYDKLKTELKNQEMATLFKDKNVDIYGVEYYHLCYLCENAERSACIYGGVTNHEGNHLEIPKKIVVKVSIDGIQSLSFDIETNKKMVTAQELDYKVRKYTIDNKQLYTNGPSKYETGYIKFIPKNKESFWFDFFPEPEFTQSKYLMIYKDNETLDNKTSQIEVYLTTK 1fny-a1-m2-cA_1fny-a1-m4-cA LEGUME LECTIN OF THE BARK OF ROBINIA PSEUDOACACIA. Q41159 Q41159 1.81 X-RAY DIFFRACTION 67 1.0 35938 (Robinia pseudoacacia) 35938 (Robinia pseudoacacia) 234 234 1fny-a1-m1-cA_1fny-a1-m3-cA 1fnz-a1-m1-cA_1fnz-a1-m3-cA 1fnz-a1-m2-cA_1fnz-a1-m4-cA TGSLSFSFPKFAPNQPYLINQGDALVTSTGVLQLTNVVNGVPSSKSLGRALYAAPFQIWDSTTGNVASFVTSFTFIIQAPNPATTADGLAFFLAPVDTQPLDLGGMLGIFKFNKSNQIVAVEFDTFSNGDWDPKGRHLGINVNSIESIKTVPWNWTNGEVANVFISYEASTKSLTASLVYPSLETSFIIDAIVDVKIVLPEWVRFGFSATTGIDKGYVQTNDVLSWSFESNLPG TGSLSFSFPKFAPNQPYLINQGDALVTSTGVLQLTNVVNGVPSSKSLGRALYAAPFQIWDSTTGNVASFVTSFTFIIQAPNPATTADGLAFFLAPVDTQPLDLGGMLGIFKFNKSNQIVAVEFDTFSNGDWDPKGRHLGINVNSIESIKTVPWNWTNGEVANVFISYEASTKSLTASLVYPSLETSFIIDAIVDVKIVLPEWVRFGFSATTGIDKGYVQTNDVLSWSFESNLPG 1fny-a1-m3-cA_1fny-a1-m4-cA LEGUME LECTIN OF THE BARK OF ROBINIA PSEUDOACACIA. Q41159 Q41159 1.81 X-RAY DIFFRACTION 65 1.0 35938 (Robinia pseudoacacia) 35938 (Robinia pseudoacacia) 234 234 1fny-a1-m1-cA_1fny-a1-m2-cA 1fnz-a1-m1-cA_1fnz-a1-m2-cA 1fnz-a1-m3-cA_1fnz-a1-m4-cA TGSLSFSFPKFAPNQPYLINQGDALVTSTGVLQLTNVVNGVPSSKSLGRALYAAPFQIWDSTTGNVASFVTSFTFIIQAPNPATTADGLAFFLAPVDTQPLDLGGMLGIFKFNKSNQIVAVEFDTFSNGDWDPKGRHLGINVNSIESIKTVPWNWTNGEVANVFISYEASTKSLTASLVYPSLETSFIIDAIVDVKIVLPEWVRFGFSATTGIDKGYVQTNDVLSWSFESNLPG TGSLSFSFPKFAPNQPYLINQGDALVTSTGVLQLTNVVNGVPSSKSLGRALYAAPFQIWDSTTGNVASFVTSFTFIIQAPNPATTADGLAFFLAPVDTQPLDLGGMLGIFKFNKSNQIVAVEFDTFSNGDWDPKGRHLGINVNSIESIKTVPWNWTNGEVANVFISYEASTKSLTASLVYPSLETSFIIDAIVDVKIVLPEWVRFGFSATTGIDKGYVQTNDVLSWSFESNLPG 1fo1-a1-m1-cB_1fo1-a1-m1-cA CRYSTAL STRUCTURE OF THE RNA-BINDING DOMAIN OF THE MRNA EXPORT FACTOR TAP Q9UBU9 Q9UBU9 2.9 X-RAY DIFFRACTION 27 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 163 215 ELKPEQVEQLKLIMSKRYDGSQQVLDLKGLRSDPDLVAQNIDVVLNRRSCMAATLRIIEENIPELLSLNLSNNRLYRLDDMSSIVQKAPNLKILNLSGNELKSERELDKIKGLKLEELWLDGNSLCDTFRDQSTYISAIRERFPKLLRLDGHELPPPIAFDVE TIPYGRKYDKAWLLSMIQSKCFTPIEFHYENTRAALKAVNYKILDRENRRISIIIELKPEQVEQLKLIMSKRYDGSQQVLDLKGLRSDPDLVAQNIDVVLNRRSCMAATLRIIEENIPELLSLNLSNNRLYRLDDMSSIVQKAPNLKILNLSGNELKSERELDKIKGLKLEELWLDGNSLCDTFRDQSTYISAIRERFPKLLRLDGHELPPPIAF 1foc-a1-m1-cA_1foc-a1-m1-cB Cytochrome C557: improperly folded thermus thermophilus C552 Q5SME3 Q5SME3 3 X-RAY DIFFRACTION 37 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 128 128 GAKIYAQCAGCHQQNGQGIPGAFPPLAGHVAEILAKEGGREYLILVLLYGLQGQIEVKGMKYNGVMSSFAQLKDEEIAAVLNHIATAWGDAKKVKGFKPFTAEEVKKLRAKKLTPQQVLAERKKLGLK GAKIYAQCAGCHQQNGQGIPGAFPPLAGHVAEILAKEGGREYLILVLLYGLQGQIEVKGMKYNGVMSSFAQLKDEEIAAVLNHIATAWGDAKKVKGFKPFTAEEVKKLRAKKLTPQQVLAERKKLGLK 1foe-a5-m1-cC_1foe-a5-m1-cG CRYSTAL STRUCTURE OF RAC1 IN COMPLEX WITH THE GUANINE NUCLEOTIDE EXCHANGE REGION OF TIAM1 Q60610 Q60610 2.8 X-RAY DIFFRACTION 79 1.0 10090 (Mus musculus) 10090 (Mus musculus) 360 361 SDADKLRKVICELLETERTYVKDLNCLERYLKPLQKETFLTQDELDVLFGNLTEVEFQVEFLKTLEDGVRLVPDLEKLEKVDQFKKVLFSLGGSFLYYADRFKLYSAFCASHTKVPKVLVKAKTDTAFKAFLDAQNPRQQHSSTLESYLIKPIQRVLKYPLLLRELFALTDAESEEHYHLDVAIKTNKVASHINEQKIHEEFGAVFDQLIAEQTGEKKEVADLSGDLLLHTSVIWLNPPASLGKWKKEPELAAFVFKTAVVLVYKDGSKQKKKLVGSHRLSIYEEWDPFRFRHIPTEALQVRALPSADAEANAVCEIVHVKSESEGRPERVFHLCCSSPESRKDFLKSVHSILRDKHRRQ LSDADKLRKVICELLETERTYVKDLNCLERYLKPLQKETFLTQDELDVLFGNLTEVEFQVEFLKTLEDGVRLVPDLEKLEKVDQFKKVLFSLGGSFLYYADRFKLYSAFCASHTKVPKVLVKAKTDTAFKAFLDAQNPRQQHSSTLESYLIKPIQRVLKYPLLLRELFALTDAESEEHYHLDVAIKTNKVASHINEQKIHEEFGAVFDQLIAEQTGEKKEVADLSGDLLLHTSVIWLNPPASLGKWKKEPELAAFVFKTAVVLVYKDGSKQKKKLVGSHRLSIYEEWDPFRFRHIPTEALQVRALPSADAEANAVCEIVHVKSESEGRPERVFHLCCSSPESRKDFLKSVHSILRDKHRRQ 1foe-a5-m1-cE_1foe-a5-m1-cA CRYSTAL STRUCTURE OF RAC1 IN COMPLEX WITH THE GUANINE NUCLEOTIDE EXCHANGE REGION OF TIAM1 Q60610 Q60610 2.8 X-RAY DIFFRACTION 30 1.0 10090 (Mus musculus) 10090 (Mus musculus) 361 362 LSDADKLRKVICELLETERTYVKDLNCLERYLKPLQKETFLTQDELDVLFGNLTEVEFQVEFLKTLEDGVRLVPDLEKLEKVDQFKKVLFSLGGSFLYYADRFKLYSAFCASHTKVPKVLVKAKTDTAFKAFLDAQNPRQQHSSTLESYLIKPIQRVLKYPLLLRELFALTDAESEEHYHLDVAIKTNKVASHINEQKIHEEFGAVFDQLIAEQTGEKKEVADLSGDLLLHTSVIWLNPPASLGKWKKEPELAAFVFKTAVVLVYKDGSKQKKKLVGSHRLSIYEEWDPFRFRHIPTEALQVRALPSADAEANAVCEIVHVKSESEGRPERVFHLCCSSPESRKDFLKSVHSILRDKHRRQ QLSDADKLRKVICELLETERTYVKDLNCLERYLKPLQKETFLTQDELDVLFGNLTEVEFQVEFLKTLEDGVRLVPDLEKLEKVDQFKKVLFSLGGSFLYYADRFKLYSAFCASHTKVPKVLVKAKTDTAFKAFLDAQNPRQQHSSTLESYLIKPIQRVLKYPLLLRELFALTDAESEEHYHLDVAIKTNKVASHINEQKIHEEFGAVFDQLIAEQTGEKKEVADLSGDLLLHTSVIWLNPPASLGKWKKEPELAAFVFKTAVVLVYKDGSKQKKKLVGSHRLSIYEEWDPFRFRHIPTEALQVRALPSADAEANAVCEIVHVKSESEGRPERVFHLCCSSPESRKDFLKSVHSILRDKHRRQ 1foe-a7-m1-cC_1foe-a7-m1-cE CRYSTAL STRUCTURE OF RAC1 IN COMPLEX WITH THE GUANINE NUCLEOTIDE EXCHANGE REGION OF TIAM1 Q60610 Q60610 2.8 X-RAY DIFFRACTION 52 1.0 10090 (Mus musculus) 10090 (Mus musculus) 360 361 1foe-a5-m1-cC_1foe-a5-m1-cE 1foe-a5-m1-cG_1foe-a5-m1-cA 1foe-a6-m1-cG_1foe-a6-m1-cA SDADKLRKVICELLETERTYVKDLNCLERYLKPLQKETFLTQDELDVLFGNLTEVEFQVEFLKTLEDGVRLVPDLEKLEKVDQFKKVLFSLGGSFLYYADRFKLYSAFCASHTKVPKVLVKAKTDTAFKAFLDAQNPRQQHSSTLESYLIKPIQRVLKYPLLLRELFALTDAESEEHYHLDVAIKTNKVASHINEQKIHEEFGAVFDQLIAEQTGEKKEVADLSGDLLLHTSVIWLNPPASLGKWKKEPELAAFVFKTAVVLVYKDGSKQKKKLVGSHRLSIYEEWDPFRFRHIPTEALQVRALPSADAEANAVCEIVHVKSESEGRPERVFHLCCSSPESRKDFLKSVHSILRDKHRRQ LSDADKLRKVICELLETERTYVKDLNCLERYLKPLQKETFLTQDELDVLFGNLTEVEFQVEFLKTLEDGVRLVPDLEKLEKVDQFKKVLFSLGGSFLYYADRFKLYSAFCASHTKVPKVLVKAKTDTAFKAFLDAQNPRQQHSSTLESYLIKPIQRVLKYPLLLRELFALTDAESEEHYHLDVAIKTNKVASHINEQKIHEEFGAVFDQLIAEQTGEKKEVADLSGDLLLHTSVIWLNPPASLGKWKKEPELAAFVFKTAVVLVYKDGSKQKKKLVGSHRLSIYEEWDPFRFRHIPTEALQVRALPSADAEANAVCEIVHVKSESEGRPERVFHLCCSSPESRKDFLKSVHSILRDKHRRQ 1fon-a1-m1-cA_1fon-a1-m1-cB CRYSTAL STRUCTURE OF BOVINE PROCARBOXYPEPTIDASE A-S6 SUBUNIT III, A HIGHLY STRUCTURED TRUNCATED ZYMOGEN E P05805 P05805 1.7 X-RAY DIFFRACTION 74 1.0 9913 (Bos taurus) 9913 (Bos taurus) 232 232 SWSWQVSLQYEKDGAFHHTCGGSLIAPDWVVTAGHCISTSRTYQVVLGEYDRSVLEGSEQVIPINAGDLFVHPLWNSNCVACGNDIALVKLSRSAQLGDKVQLANLPPAGDILPNEAPCYISGWGRLYTGGPLPDKLQQALLPTVDYEHCSQWDWWGITVKKTMVCAGGDTRSGCNGDSGGPLNCPAADGSWQVHGVTSFVSAFGCNTIKKPTVFTRVSAFIDWIDETIASN SWSWQVSLQYEKDGAFHHTCGGSLIAPDWVVTAGHCISTSRTYQVVLGEYDRSVLEGSEQVIPINAGDLFVHPLWNSNCVACGNDIALVKLSRSAQLGDKVQLANLPPAGDILPNEAPCYISGWGRLYTGGPLPDKLQQALLPTVDYEHCSQWDWWGITVKKTMVCAGGDTRSGCNGDSGGPLNCPAADGSWQVHGVTSFVSAFGCNTIKKPTVFTRVSAFIDWIDETIASN 1fp1-a1-m1-cD_1fp1-a1-m2-cD CRYSTAL STRUCTURE ANALYSIS OF CHALCONE O-METHYLTRANSFERASE P93324 P93324 1.82 X-RAY DIFFRACTION 322 1.0 3879 (Medicago sativa) 3879 (Medicago sativa) 340 340 QTEDSACLSAMVLTTNLVYPAVLNAAIDLNLFEIIAKATPPGAFMSPSEIASKLPASTQHSDLPNRLDRMLRLLASYSVLTSTTRTIEDGGAERVYGLSMVGKYLVPDESRGYLASFTTFLCYPALLQVWMNFKEAVVDEDFMGKDKKMNQIFNKSMVDVCATEMKRMLEIYTGFEGISTLVDVGGGSGRNLELIISKYPLIKGINFDLPQVIENAPPLSGIEHVGGDMFASVPQGDAMILKAVCHNWSDEKCIEFLSNCHKALSPNGKVIIVEFILPEEPNTSEESKLVSTLDNLMFITVGGRERTEKQYEKLSKLSGFSKFQVACRAFNSLGVMEFYK QTEDSACLSAMVLTTNLVYPAVLNAAIDLNLFEIIAKATPPGAFMSPSEIASKLPASTQHSDLPNRLDRMLRLLASYSVLTSTTRTIEDGGAERVYGLSMVGKYLVPDESRGYLASFTTFLCYPALLQVWMNFKEAVVDEDFMGKDKKMNQIFNKSMVDVCATEMKRMLEIYTGFEGISTLVDVGGGSGRNLELIISKYPLIKGINFDLPQVIENAPPLSGIEHVGGDMFASVPQGDAMILKAVCHNWSDEKCIEFLSNCHKALSPNGKVIIVEFILPEEPNTSEESKLVSTLDNLMFITVGGRERTEKQYEKLSKLSGFSKFQVACRAFNSLGVMEFYK 1fp2-a1-m1-cA_1fp2-a1-m2-cA CRYSTAL STRUCTURE ANALYSIS OF ISOFLAVONE O-METHYLTRANSFERASE O24529 O24529 1.4 X-RAY DIFFRACTION 239 1.0 3879 (Medicago sativa) 3879 (Medicago sativa) 345 345 6cig-a1-m1-cA_6cig-a1-m2-cA RKPSEIFKAQALLYKHIYAFIDSMSLKWAVEMNIPNIIQNHGKPISLSNLVSILQVPSSKIGNVRRLMRYLAHNGFFEIITKEEESYALTVASELLVRGSDLCLAPMVECVLDPTLSGSYHELKKWIYEEDLTLFGVTLGSGFWDFLDKNPEYNTSFNDAMASDSKLINLALRDCDFVFDGLESIVDVGGGTGTTAKIICETFPKLKCIVFDRPQVVENLSGSNNLTYVGGDMFTSIPNADAVLLKYILHNWTDKDCLRILKKCKEAVTNDGKRGKVTIIDMVIDKKKDENQVTQIKLLMDVNMACLNGKERNEEEWKKLFIEAGFQHYKISPLTGFLSLIEIYP RKPSEIFKAQALLYKHIYAFIDSMSLKWAVEMNIPNIIQNHGKPISLSNLVSILQVPSSKIGNVRRLMRYLAHNGFFEIITKEEESYALTVASELLVRGSDLCLAPMVECVLDPTLSGSYHELKKWIYEEDLTLFGVTLGSGFWDFLDKNPEYNTSFNDAMASDSKLINLALRDCDFVFDGLESIVDVGGGTGTTAKIICETFPKLKCIVFDRPQVVENLSGSNNLTYVGGDMFTSIPNADAVLLKYILHNWTDKDCLRILKKCKEAVTNDGKRGKVTIIDMVIDKKKDENQVTQIKLLMDVNMACLNGKERNEEEWKKLFIEAGFQHYKISPLTGFLSLIEIYP 1fp3-a1-m1-cA_1fp3-a1-m1-cB CRYSTAL STRUCTURE OF N-ACYL-D-GLUCOSAMINE 2-EPIMERASE FROM PORCINE KIDNEY P17560 P17560 2 X-RAY DIFFRACTION 55 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 402 402 MEKERETLQAWKERVGQELDRVMAFWLEHSHDREHGGFFTCLGRDGRVYDDLKYVWLQGRQVWMYCRLYRKLERFHRPELLDAAKAGGEFLLRHARVAPPEKKCAFVLTRDGRPVKVQRSIFSECFYTMAMNELWRVTAEARYQSEAVDMMDQIVHWVREDPSGLGRPQLPGAVASESMAVPMMLLCLVEQLGEEDEELAGRYAQLGHWCARRILQHVQRDGQAVLENVSEDGEELSGCLGRHQNPGHALEAGWFLLRHSSRSGDAKLRAHVIDTFLLLPFRSGWDADHGGLFYFQDADGLCPTQLEWAMKLWWPHSEAMIAFLMGYSESGDPALLRLFYQVAEYTFRQFRDPEYGEWFGYLNREGKVALTIKGGPFKGCFHVPRCLAMCEEMLSALLSRLA MEKERETLQAWKERVGQELDRVMAFWLEHSHDREHGGFFTCLGRDGRVYDDLKYVWLQGRQVWMYCRLYRKLERFHRPELLDAAKAGGEFLLRHARVAPPEKKCAFVLTRDGRPVKVQRSIFSECFYTMAMNELWRVTAEARYQSEAVDMMDQIVHWVREDPSGLGRPQLPGAVASESMAVPMMLLCLVEQLGEEDEELAGRYAQLGHWCARRILQHVQRDGQAVLENVSEDGEELSGCLGRHQNPGHALEAGWFLLRHSSRSGDAKLRAHVIDTFLLLPFRSGWDADHGGLFYFQDADGLCPTQLEWAMKLWWPHSEAMIAFLMGYSESGDPALLRLFYQVAEYTFRQFRDPEYGEWFGYLNREGKVALTIKGGPFKGCFHVPRCLAMCEEMLSALLSRLA 1fp3-a2-m1-cA_1fp3-a2-m2-cB CRYSTAL STRUCTURE OF N-ACYL-D-GLUCOSAMINE 2-EPIMERASE FROM PORCINE KIDNEY P17560 P17560 2 X-RAY DIFFRACTION 100 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 402 402 MEKERETLQAWKERVGQELDRVMAFWLEHSHDREHGGFFTCLGRDGRVYDDLKYVWLQGRQVWMYCRLYRKLERFHRPELLDAAKAGGEFLLRHARVAPPEKKCAFVLTRDGRPVKVQRSIFSECFYTMAMNELWRVTAEARYQSEAVDMMDQIVHWVREDPSGLGRPQLPGAVASESMAVPMMLLCLVEQLGEEDEELAGRYAQLGHWCARRILQHVQRDGQAVLENVSEDGEELSGCLGRHQNPGHALEAGWFLLRHSSRSGDAKLRAHVIDTFLLLPFRSGWDADHGGLFYFQDADGLCPTQLEWAMKLWWPHSEAMIAFLMGYSESGDPALLRLFYQVAEYTFRQFRDPEYGEWFGYLNREGKVALTIKGGPFKGCFHVPRCLAMCEEMLSALLSRLA MEKERETLQAWKERVGQELDRVMAFWLEHSHDREHGGFFTCLGRDGRVYDDLKYVWLQGRQVWMYCRLYRKLERFHRPELLDAAKAGGEFLLRHARVAPPEKKCAFVLTRDGRPVKVQRSIFSECFYTMAMNELWRVTAEARYQSEAVDMMDQIVHWVREDPSGLGRPQLPGAVASESMAVPMMLLCLVEQLGEEDEELAGRYAQLGHWCARRILQHVQRDGQAVLENVSEDGEELSGCLGRHQNPGHALEAGWFLLRHSSRSGDAKLRAHVIDTFLLLPFRSGWDADHGGLFYFQDADGLCPTQLEWAMKLWWPHSEAMIAFLMGYSESGDPALLRLFYQVAEYTFRQFRDPEYGEWFGYLNREGKVALTIKGGPFKGCFHVPRCLAMCEEMLSALLSRLA 1fpn-a1-m23-c2_1fpn-a1-m9-c2 HUMAN RHINOVIRUS SEROTYPE 2 (HRV2) P04936 P04936 2.6 X-RAY DIFFRACTION 60 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 250 250 1fpn-a1-m10-c2_1fpn-a1-m5-c2 1fpn-a1-m11-c2_1fpn-a1-m37-c2 1fpn-a1-m12-c2_1fpn-a1-m46-c2 1fpn-a1-m13-c2_1fpn-a1-m44-c2 1fpn-a1-m14-c2_1fpn-a1-m28-c2 1fpn-a1-m15-c2_1fpn-a1-m20-c2 1fpn-a1-m16-c2_1fpn-a1-m27-c2 1fpn-a1-m17-c2_1fpn-a1-m51-c2 1fpn-a1-m18-c2_1fpn-a1-m59-c2 1fpn-a1-m19-c2_1fpn-a1-m38-c2 1fpn-a1-m1-c2_1fpn-a1-m22-c2 1fpn-a1-m21-c2_1fpn-a1-m42-c2 1fpn-a1-m24-c2_1fpn-a1-m53-c2 1fpn-a1-m25-c2_1fpn-a1-m30-c2 1fpn-a1-m26-c2_1fpn-a1-m52-c2 1fpn-a1-m29-c2_1fpn-a1-m43-c2 1fpn-a1-m2-c2_1fpn-a1-m41-c2 1fpn-a1-m31-c2_1fpn-a1-m57-c2 1fpn-a1-m32-c2_1fpn-a1-m6-c2 1fpn-a1-m33-c2_1fpn-a1-m4-c2 1fpn-a1-m34-c2_1fpn-a1-m48-c2 1fpn-a1-m35-c2_1fpn-a1-m40-c2 1fpn-a1-m36-c2_1fpn-a1-m47-c2 1fpn-a1-m39-c2_1fpn-a1-m58-c2 1fpn-a1-m3-c2_1fpn-a1-m49-c2 1fpn-a1-m45-c2_1fpn-a1-m50-c2 1fpn-a1-m54-c2_1fpn-a1-m8-c2 1fpn-a1-m55-c2_1fpn-a1-m60-c2 1fpn-a1-m56-c2_1fpn-a1-m7-c2 1v9u-a1-m10-c2_1v9u-a1-m5-c2 1v9u-a1-m11-c2_1v9u-a1-m37-c2 1v9u-a1-m12-c2_1v9u-a1-m46-c2 1v9u-a1-m13-c2_1v9u-a1-m44-c2 1v9u-a1-m14-c2_1v9u-a1-m28-c2 1v9u-a1-m15-c2_1v9u-a1-m20-c2 1v9u-a1-m16-c2_1v9u-a1-m27-c2 1v9u-a1-m17-c2_1v9u-a1-m51-c2 1v9u-a1-m18-c2_1v9u-a1-m59-c2 1v9u-a1-m19-c2_1v9u-a1-m38-c2 1v9u-a1-m1-c2_1v9u-a1-m22-c2 1v9u-a1-m21-c2_1v9u-a1-m42-c2 1v9u-a1-m23-c2_1v9u-a1-m9-c2 1v9u-a1-m24-c2_1v9u-a1-m53-c2 1v9u-a1-m25-c2_1v9u-a1-m30-c2 1v9u-a1-m26-c2_1v9u-a1-m52-c2 1v9u-a1-m29-c2_1v9u-a1-m43-c2 1v9u-a1-m2-c2_1v9u-a1-m41-c2 1v9u-a1-m31-c2_1v9u-a1-m57-c2 1v9u-a1-m32-c2_1v9u-a1-m6-c2 1v9u-a1-m33-c2_1v9u-a1-m4-c2 1v9u-a1-m34-c2_1v9u-a1-m48-c2 1v9u-a1-m35-c2_1v9u-a1-m40-c2 1v9u-a1-m36-c2_1v9u-a1-m47-c2 1v9u-a1-m39-c2_1v9u-a1-m58-c2 1v9u-a1-m3-c2_1v9u-a1-m49-c2 1v9u-a1-m45-c2_1v9u-a1-m50-c2 1v9u-a1-m54-c2_1v9u-a1-m8-c2 1v9u-a1-m55-c2_1v9u-a1-m60-c2 1v9u-a1-m56-c2_1v9u-a1-m7-c2 3dpr-a1-m10-cB_3dpr-a1-m5-cB 3dpr-a1-m11-cB_3dpr-a1-m37-cB 3dpr-a1-m12-cB_3dpr-a1-m46-cB 3dpr-a1-m13-cB_3dpr-a1-m44-cB 3dpr-a1-m14-cB_3dpr-a1-m28-cB 3dpr-a1-m15-cB_3dpr-a1-m20-cB 3dpr-a1-m16-cB_3dpr-a1-m27-cB 3dpr-a1-m17-cB_3dpr-a1-m51-cB 3dpr-a1-m18-cB_3dpr-a1-m59-cB 3dpr-a1-m19-cB_3dpr-a1-m38-cB 3dpr-a1-m1-cB_3dpr-a1-m22-cB 3dpr-a1-m21-cB_3dpr-a1-m42-cB 3dpr-a1-m23-cB_3dpr-a1-m9-cB 3dpr-a1-m24-cB_3dpr-a1-m53-cB 3dpr-a1-m25-cB_3dpr-a1-m30-cB 3dpr-a1-m26-cB_3dpr-a1-m52-cB 3dpr-a1-m29-cB_3dpr-a1-m43-cB 3dpr-a1-m2-cB_3dpr-a1-m41-cB 3dpr-a1-m31-cB_3dpr-a1-m57-cB 3dpr-a1-m32-cB_3dpr-a1-m6-cB 3dpr-a1-m33-cB_3dpr-a1-m4-cB 3dpr-a1-m34-cB_3dpr-a1-m48-cB 3dpr-a1-m35-cB_3dpr-a1-m40-cB 3dpr-a1-m36-cB_3dpr-a1-m47-cB 3dpr-a1-m39-cB_3dpr-a1-m58-cB 3dpr-a1-m3-cB_3dpr-a1-m49-cB 3dpr-a1-m45-cB_3dpr-a1-m50-cB 3dpr-a1-m54-cB_3dpr-a1-m8-cB 3dpr-a1-m55-cB_3dpr-a1-m60-cB 3dpr-a1-m56-cB_3dpr-a1-m7-cB 3tn9-a1-m10-c2_3tn9-a1-m5-c2 3tn9-a1-m11-c2_3tn9-a1-m37-c2 3tn9-a1-m12-c2_3tn9-a1-m46-c2 3tn9-a1-m13-c2_3tn9-a1-m44-c2 3tn9-a1-m14-c2_3tn9-a1-m28-c2 3tn9-a1-m15-c2_3tn9-a1-m20-c2 3tn9-a1-m16-c2_3tn9-a1-m27-c2 3tn9-a1-m17-c2_3tn9-a1-m51-c2 3tn9-a1-m18-c2_3tn9-a1-m59-c2 3tn9-a1-m19-c2_3tn9-a1-m38-c2 3tn9-a1-m1-c2_3tn9-a1-m22-c2 3tn9-a1-m21-c2_3tn9-a1-m42-c2 3tn9-a1-m23-c2_3tn9-a1-m9-c2 3tn9-a1-m24-c2_3tn9-a1-m53-c2 3tn9-a1-m25-c2_3tn9-a1-m30-c2 3tn9-a1-m26-c2_3tn9-a1-m52-c2 3tn9-a1-m29-c2_3tn9-a1-m43-c2 3tn9-a1-m2-c2_3tn9-a1-m41-c2 3tn9-a1-m31-c2_3tn9-a1-m57-c2 3tn9-a1-m32-c2_3tn9-a1-m6-c2 3tn9-a1-m33-c2_3tn9-a1-m4-c2 3tn9-a1-m34-c2_3tn9-a1-m48-c2 3tn9-a1-m35-c2_3tn9-a1-m40-c2 3tn9-a1-m36-c2_3tn9-a1-m47-c2 3tn9-a1-m39-c2_3tn9-a1-m58-c2 3tn9-a1-m3-c2_3tn9-a1-m49-c2 3tn9-a1-m45-c2_3tn9-a1-m50-c2 3tn9-a1-m54-c2_3tn9-a1-m8-c2 3tn9-a1-m55-c2_3tn9-a1-m60-c2 3tn9-a1-m56-c2_3tn9-a1-m7-c2 3vdd-a1-m10-cB_3vdd-a1-m5-cB 3vdd-a1-m11-cB_3vdd-a1-m37-cB 3vdd-a1-m12-cB_3vdd-a1-m46-cB 3vdd-a1-m13-cB_3vdd-a1-m44-cB 3vdd-a1-m14-cB_3vdd-a1-m28-cB 3vdd-a1-m15-cB_3vdd-a1-m20-cB 3vdd-a1-m16-cB_3vdd-a1-m27-cB 3vdd-a1-m17-cB_3vdd-a1-m51-cB 3vdd-a1-m18-cB_3vdd-a1-m59-cB 3vdd-a1-m19-cB_3vdd-a1-m38-cB 3vdd-a1-m1-cB_3vdd-a1-m22-cB 3vdd-a1-m21-cB_3vdd-a1-m42-cB 3vdd-a1-m23-cB_3vdd-a1-m9-cB 3vdd-a1-m24-cB_3vdd-a1-m53-cB 3vdd-a1-m25-cB_3vdd-a1-m30-cB 3vdd-a1-m26-cB_3vdd-a1-m52-cB 3vdd-a1-m29-cB_3vdd-a1-m43-cB 3vdd-a1-m2-cB_3vdd-a1-m41-cB 3vdd-a1-m31-cB_3vdd-a1-m57-cB 3vdd-a1-m32-cB_3vdd-a1-m6-cB 3vdd-a1-m33-cB_3vdd-a1-m4-cB 3vdd-a1-m34-cB_3vdd-a1-m48-cB 3vdd-a1-m35-cB_3vdd-a1-m40-cB 3vdd-a1-m36-cB_3vdd-a1-m47-cB 3vdd-a1-m39-cB_3vdd-a1-m58-cB 3vdd-a1-m3-cB_3vdd-a1-m49-cB 3vdd-a1-m45-cB_3vdd-a1-m50-cB 3vdd-a1-m54-cB_3vdd-a1-m8-cB 3vdd-a1-m55-cB_3vdd-a1-m60-cB 3vdd-a1-m56-cB_3vdd-a1-m7-cB 4l3b-a1-m10-cB_4l3b-a1-m5-cB 4l3b-a1-m11-cB_4l3b-a1-m37-cB 4l3b-a1-m12-cB_4l3b-a1-m46-cB 4l3b-a1-m13-cB_4l3b-a1-m44-cB 4l3b-a1-m14-cB_4l3b-a1-m28-cB 4l3b-a1-m15-cB_4l3b-a1-m20-cB 4l3b-a1-m16-cB_4l3b-a1-m27-cB 4l3b-a1-m17-cB_4l3b-a1-m51-cB 4l3b-a1-m18-cB_4l3b-a1-m59-cB 4l3b-a1-m19-cB_4l3b-a1-m38-cB 4l3b-a1-m1-cB_4l3b-a1-m22-cB 4l3b-a1-m21-cB_4l3b-a1-m42-cB 4l3b-a1-m23-cB_4l3b-a1-m9-cB 4l3b-a1-m24-cB_4l3b-a1-m53-cB 4l3b-a1-m25-cB_4l3b-a1-m30-cB 4l3b-a1-m26-cB_4l3b-a1-m52-cB 4l3b-a1-m29-cB_4l3b-a1-m43-cB 4l3b-a1-m2-cB_4l3b-a1-m41-cB 4l3b-a1-m31-cB_4l3b-a1-m57-cB 4l3b-a1-m32-cB_4l3b-a1-m6-cB 4l3b-a1-m33-cB_4l3b-a1-m4-cB 4l3b-a1-m34-cB_4l3b-a1-m48-cB 4l3b-a1-m35-cB_4l3b-a1-m40-cB 4l3b-a1-m36-cB_4l3b-a1-m47-cB 4l3b-a1-m39-cB_4l3b-a1-m58-cB 4l3b-a1-m3-cB_4l3b-a1-m49-cB 4l3b-a1-m45-cB_4l3b-a1-m50-cB 4l3b-a1-m54-cB_4l3b-a1-m8-cB 4l3b-a1-m55-cB_4l3b-a1-m60-cB 4l3b-a1-m56-cB_4l3b-a1-m7-cB RIIQITRGDSTITSQDVANAIVAYGVWPHYLSSKDASAIDKPSQPDTSSNRFYTLRSVTWSSSSKGWWWKLPDALKDMGIFGENMFYHYLGRSGYTIHVQCNASKFHQGTLIVALIPEHQIASALHGNVNVGYNYTHPGETGREVKAETRLNPDLQPTEEYWLNFDGTLLGNITIFPHQFINLRSNNSATIIAPYVNAVPMDSMRSHNNWSLVIIPICPLETSSAINTIPITISISPMCAEFSGARAKRQ RIIQITRGDSTITSQDVANAIVAYGVWPHYLSSKDASAIDKPSQPDTSSNRFYTLRSVTWSSSSKGWWWKLPDALKDMGIFGENMFYHYLGRSGYTIHVQCNASKFHQGTLIVALIPEHQIASALHGNVNVGYNYTHPGETGREVKAETRLNPDLQPTEEYWLNFDGTLLGNITIFPHQFINLRSNNSATIIAPYVNAVPMDSMRSHNNWSLVIIPICPLETSSAINTIPITISISPMCAEFSGARAKRQ 1fpn-a1-m8-c1_1fpn-a1-m9-c1 HUMAN RHINOVIRUS SEROTYPE 2 (HRV2) P04936 P04936 2.6 X-RAY DIFFRACTION 75 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 269 269 1fpn-a1-m10-c1_1fpn-a1-m6-c1 1fpn-a1-m10-c1_1fpn-a1-m9-c1 1fpn-a1-m11-c1_1fpn-a1-m12-c1 1fpn-a1-m11-c1_1fpn-a1-m15-c1 1fpn-a1-m12-c1_1fpn-a1-m13-c1 1fpn-a1-m13-c1_1fpn-a1-m14-c1 1fpn-a1-m14-c1_1fpn-a1-m15-c1 1fpn-a1-m16-c1_1fpn-a1-m17-c1 1fpn-a1-m16-c1_1fpn-a1-m20-c1 1fpn-a1-m17-c1_1fpn-a1-m18-c1 1fpn-a1-m18-c1_1fpn-a1-m19-c1 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4l3b-a1-m46-cA_4l3b-a1-m50-cA 4l3b-a1-m47-cA_4l3b-a1-m48-cA 4l3b-a1-m48-cA_4l3b-a1-m49-cA 4l3b-a1-m49-cA_4l3b-a1-m50-cA 4l3b-a1-m4-cA_4l3b-a1-m5-cA 4l3b-a1-m51-cA_4l3b-a1-m52-cA 4l3b-a1-m51-cA_4l3b-a1-m55-cA 4l3b-a1-m52-cA_4l3b-a1-m53-cA 4l3b-a1-m53-cA_4l3b-a1-m54-cA 4l3b-a1-m54-cA_4l3b-a1-m55-cA 4l3b-a1-m56-cA_4l3b-a1-m57-cA 4l3b-a1-m56-cA_4l3b-a1-m60-cA 4l3b-a1-m57-cA_4l3b-a1-m58-cA 4l3b-a1-m58-cA_4l3b-a1-m59-cA 4l3b-a1-m59-cA_4l3b-a1-m60-cA 4l3b-a1-m6-cA_4l3b-a1-m7-cA 4l3b-a1-m7-cA_4l3b-a1-m8-cA 4l3b-a1-m8-cA_4l3b-a1-m9-cA LVVPNINSSNPTTSNSAPALDAAETGHTSSVQPEDVIETRYVQTSQTRDEMSLESFLGRSGCIHESKLEVTLANYNKENFTVWAINLQEMAQIRRKFELFTYTRFDSEITLVPCISALSQDIGHITMQYMYVPPGAPVPNSRDDYAWQSGTNASVFWQHGQAYPRFSLPFLSVASAYYMFYDGYDEQDQNYGTANTNNMGSLCSRIVTEKHIHKVHIMTRIYHKAKHVKAWCPRPPRALEYTRAHRTNFKIEDRSIQTAIVTRPIITTA LVVPNINSSNPTTSNSAPALDAAETGHTSSVQPEDVIETRYVQTSQTRDEMSLESFLGRSGCIHESKLEVTLANYNKENFTVWAINLQEMAQIRRKFELFTYTRFDSEITLVPCISALSQDIGHITMQYMYVPPGAPVPNSRDDYAWQSGTNASVFWQHGQAYPRFSLPFLSVASAYYMFYDGYDEQDQNYGTANTNNMGSLCSRIVTEKHIHKVHIMTRIYHKAKHVKAWCPRPPRALEYTRAHRTNFKIEDRSIQTAIVTRPIITTA 1fpn-a1-m8-c3_1fpn-a1-m9-c3 HUMAN RHINOVIRUS SEROTYPE 2 (HRV2) P04936 P04936 2.6 X-RAY DIFFRACTION 55 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 237 237 1fpn-a1-m10-c3_1fpn-a1-m6-c3 1fpn-a1-m10-c3_1fpn-a1-m9-c3 1fpn-a1-m11-c3_1fpn-a1-m12-c3 1fpn-a1-m11-c3_1fpn-a1-m15-c3 1fpn-a1-m12-c3_1fpn-a1-m13-c3 1fpn-a1-m13-c3_1fpn-a1-m14-c3 1fpn-a1-m14-c3_1fpn-a1-m15-c3 1fpn-a1-m16-c3_1fpn-a1-m17-c3 1fpn-a1-m16-c3_1fpn-a1-m20-c3 1fpn-a1-m17-c3_1fpn-a1-m18-c3 1fpn-a1-m18-c3_1fpn-a1-m19-c3 1fpn-a1-m19-c3_1fpn-a1-m20-c3 1fpn-a1-m1-c3_1fpn-a1-m2-c3 1fpn-a1-m1-c3_1fpn-a1-m5-c3 1fpn-a1-m21-c3_1fpn-a1-m22-c3 1fpn-a1-m21-c3_1fpn-a1-m25-c3 1fpn-a1-m22-c3_1fpn-a1-m23-c3 1fpn-a1-m23-c3_1fpn-a1-m24-c3 1fpn-a1-m24-c3_1fpn-a1-m25-c3 1fpn-a1-m26-c3_1fpn-a1-m27-c3 1fpn-a1-m26-c3_1fpn-a1-m30-c3 1fpn-a1-m27-c3_1fpn-a1-m28-c3 1fpn-a1-m28-c3_1fpn-a1-m29-c3 1fpn-a1-m29-c3_1fpn-a1-m30-c3 1fpn-a1-m2-c3_1fpn-a1-m3-c3 1fpn-a1-m31-c3_1fpn-a1-m32-c3 1fpn-a1-m31-c3_1fpn-a1-m35-c3 1fpn-a1-m32-c3_1fpn-a1-m33-c3 1fpn-a1-m33-c3_1fpn-a1-m34-c3 1fpn-a1-m34-c3_1fpn-a1-m35-c3 1fpn-a1-m36-c3_1fpn-a1-m37-c3 1fpn-a1-m36-c3_1fpn-a1-m40-c3 1fpn-a1-m37-c3_1fpn-a1-m38-c3 1fpn-a1-m38-c3_1fpn-a1-m39-c3 1fpn-a1-m39-c3_1fpn-a1-m40-c3 1fpn-a1-m3-c3_1fpn-a1-m4-c3 1fpn-a1-m41-c3_1fpn-a1-m42-c3 1fpn-a1-m41-c3_1fpn-a1-m45-c3 1fpn-a1-m42-c3_1fpn-a1-m43-c3 1fpn-a1-m43-c3_1fpn-a1-m44-c3 1fpn-a1-m44-c3_1fpn-a1-m45-c3 1fpn-a1-m46-c3_1fpn-a1-m47-c3 1fpn-a1-m46-c3_1fpn-a1-m50-c3 1fpn-a1-m47-c3_1fpn-a1-m48-c3 1fpn-a1-m48-c3_1fpn-a1-m49-c3 1fpn-a1-m49-c3_1fpn-a1-m50-c3 1fpn-a1-m4-c3_1fpn-a1-m5-c3 1fpn-a1-m51-c3_1fpn-a1-m52-c3 1fpn-a1-m51-c3_1fpn-a1-m55-c3 1fpn-a1-m52-c3_1fpn-a1-m53-c3 1fpn-a1-m53-c3_1fpn-a1-m54-c3 1fpn-a1-m54-c3_1fpn-a1-m55-c3 1fpn-a1-m56-c3_1fpn-a1-m57-c3 1fpn-a1-m56-c3_1fpn-a1-m60-c3 1fpn-a1-m57-c3_1fpn-a1-m58-c3 1fpn-a1-m58-c3_1fpn-a1-m59-c3 1fpn-a1-m59-c3_1fpn-a1-m60-c3 1fpn-a1-m6-c3_1fpn-a1-m7-c3 1fpn-a1-m7-c3_1fpn-a1-m8-c3 1v9u-a1-m10-c3_1v9u-a1-m6-c3 1v9u-a1-m10-c3_1v9u-a1-m9-c3 1v9u-a1-m11-c3_1v9u-a1-m12-c3 1v9u-a1-m11-c3_1v9u-a1-m15-c3 1v9u-a1-m12-c3_1v9u-a1-m13-c3 1v9u-a1-m13-c3_1v9u-a1-m14-c3 1v9u-a1-m14-c3_1v9u-a1-m15-c3 1v9u-a1-m16-c3_1v9u-a1-m17-c3 1v9u-a1-m16-c3_1v9u-a1-m20-c3 1v9u-a1-m17-c3_1v9u-a1-m18-c3 1v9u-a1-m18-c3_1v9u-a1-m19-c3 1v9u-a1-m19-c3_1v9u-a1-m20-c3 1v9u-a1-m1-c3_1v9u-a1-m2-c3 1v9u-a1-m1-c3_1v9u-a1-m5-c3 1v9u-a1-m21-c3_1v9u-a1-m22-c3 1v9u-a1-m21-c3_1v9u-a1-m25-c3 1v9u-a1-m22-c3_1v9u-a1-m23-c3 1v9u-a1-m23-c3_1v9u-a1-m24-c3 1v9u-a1-m24-c3_1v9u-a1-m25-c3 1v9u-a1-m26-c3_1v9u-a1-m27-c3 1v9u-a1-m26-c3_1v9u-a1-m30-c3 1v9u-a1-m27-c3_1v9u-a1-m28-c3 1v9u-a1-m28-c3_1v9u-a1-m29-c3 1v9u-a1-m29-c3_1v9u-a1-m30-c3 1v9u-a1-m2-c3_1v9u-a1-m3-c3 1v9u-a1-m31-c3_1v9u-a1-m32-c3 1v9u-a1-m31-c3_1v9u-a1-m35-c3 1v9u-a1-m32-c3_1v9u-a1-m33-c3 1v9u-a1-m33-c3_1v9u-a1-m34-c3 1v9u-a1-m34-c3_1v9u-a1-m35-c3 1v9u-a1-m36-c3_1v9u-a1-m37-c3 1v9u-a1-m36-c3_1v9u-a1-m40-c3 1v9u-a1-m37-c3_1v9u-a1-m38-c3 1v9u-a1-m38-c3_1v9u-a1-m39-c3 1v9u-a1-m39-c3_1v9u-a1-m40-c3 1v9u-a1-m3-c3_1v9u-a1-m4-c3 1v9u-a1-m41-c3_1v9u-a1-m42-c3 1v9u-a1-m41-c3_1v9u-a1-m45-c3 1v9u-a1-m42-c3_1v9u-a1-m43-c3 1v9u-a1-m43-c3_1v9u-a1-m44-c3 1v9u-a1-m44-c3_1v9u-a1-m45-c3 1v9u-a1-m46-c3_1v9u-a1-m47-c3 1v9u-a1-m46-c3_1v9u-a1-m50-c3 1v9u-a1-m47-c3_1v9u-a1-m48-c3 1v9u-a1-m48-c3_1v9u-a1-m49-c3 1v9u-a1-m49-c3_1v9u-a1-m50-c3 1v9u-a1-m4-c3_1v9u-a1-m5-c3 1v9u-a1-m51-c3_1v9u-a1-m52-c3 1v9u-a1-m51-c3_1v9u-a1-m55-c3 1v9u-a1-m52-c3_1v9u-a1-m53-c3 1v9u-a1-m53-c3_1v9u-a1-m54-c3 1v9u-a1-m54-c3_1v9u-a1-m55-c3 1v9u-a1-m56-c3_1v9u-a1-m57-c3 1v9u-a1-m56-c3_1v9u-a1-m60-c3 1v9u-a1-m57-c3_1v9u-a1-m58-c3 1v9u-a1-m58-c3_1v9u-a1-m59-c3 1v9u-a1-m59-c3_1v9u-a1-m60-c3 1v9u-a1-m6-c3_1v9u-a1-m7-c3 1v9u-a1-m7-c3_1v9u-a1-m8-c3 1v9u-a1-m8-c3_1v9u-a1-m9-c3 3dpr-a1-m10-cC_3dpr-a1-m6-cC 3dpr-a1-m10-cC_3dpr-a1-m9-cC 3dpr-a1-m11-cC_3dpr-a1-m12-cC 3dpr-a1-m11-cC_3dpr-a1-m15-cC 3dpr-a1-m12-cC_3dpr-a1-m13-cC 3dpr-a1-m13-cC_3dpr-a1-m14-cC 3dpr-a1-m14-cC_3dpr-a1-m15-cC 3dpr-a1-m16-cC_3dpr-a1-m17-cC 3dpr-a1-m16-cC_3dpr-a1-m20-cC 3dpr-a1-m17-cC_3dpr-a1-m18-cC 3dpr-a1-m18-cC_3dpr-a1-m19-cC 3dpr-a1-m19-cC_3dpr-a1-m20-cC 3dpr-a1-m1-cC_3dpr-a1-m2-cC 3dpr-a1-m1-cC_3dpr-a1-m5-cC 3dpr-a1-m21-cC_3dpr-a1-m22-cC 3dpr-a1-m21-cC_3dpr-a1-m25-cC 3dpr-a1-m22-cC_3dpr-a1-m23-cC 3dpr-a1-m23-cC_3dpr-a1-m24-cC 3dpr-a1-m24-cC_3dpr-a1-m25-cC 3dpr-a1-m26-cC_3dpr-a1-m27-cC 3dpr-a1-m26-cC_3dpr-a1-m30-cC 3dpr-a1-m27-cC_3dpr-a1-m28-cC 3dpr-a1-m28-cC_3dpr-a1-m29-cC 3dpr-a1-m29-cC_3dpr-a1-m30-cC 3dpr-a1-m2-cC_3dpr-a1-m3-cC 3dpr-a1-m31-cC_3dpr-a1-m32-cC 3dpr-a1-m31-cC_3dpr-a1-m35-cC 3dpr-a1-m32-cC_3dpr-a1-m33-cC 3dpr-a1-m33-cC_3dpr-a1-m34-cC 3dpr-a1-m34-cC_3dpr-a1-m35-cC 3dpr-a1-m36-cC_3dpr-a1-m37-cC 3dpr-a1-m36-cC_3dpr-a1-m40-cC 3dpr-a1-m37-cC_3dpr-a1-m38-cC 3dpr-a1-m38-cC_3dpr-a1-m39-cC 3dpr-a1-m39-cC_3dpr-a1-m40-cC 3dpr-a1-m3-cC_3dpr-a1-m4-cC 3dpr-a1-m41-cC_3dpr-a1-m42-cC 3dpr-a1-m41-cC_3dpr-a1-m45-cC 3dpr-a1-m42-cC_3dpr-a1-m43-cC 3dpr-a1-m43-cC_3dpr-a1-m44-cC 3dpr-a1-m44-cC_3dpr-a1-m45-cC 3dpr-a1-m46-cC_3dpr-a1-m47-cC 3dpr-a1-m46-cC_3dpr-a1-m50-cC 3dpr-a1-m47-cC_3dpr-a1-m48-cC 3dpr-a1-m48-cC_3dpr-a1-m49-cC 3dpr-a1-m49-cC_3dpr-a1-m50-cC 3dpr-a1-m4-cC_3dpr-a1-m5-cC 3dpr-a1-m51-cC_3dpr-a1-m52-cC 3dpr-a1-m51-cC_3dpr-a1-m55-cC 3dpr-a1-m52-cC_3dpr-a1-m53-cC 3dpr-a1-m53-cC_3dpr-a1-m54-cC 3dpr-a1-m54-cC_3dpr-a1-m55-cC 3dpr-a1-m56-cC_3dpr-a1-m57-cC 3dpr-a1-m56-cC_3dpr-a1-m60-cC 3dpr-a1-m57-cC_3dpr-a1-m58-cC 3dpr-a1-m58-cC_3dpr-a1-m59-cC 3dpr-a1-m59-cC_3dpr-a1-m60-cC 3dpr-a1-m6-cC_3dpr-a1-m7-cC 3dpr-a1-m7-cC_3dpr-a1-m8-cC 3dpr-a1-m8-cC_3dpr-a1-m9-cC 3tn9-a1-m10-c3_3tn9-a1-m6-c3 3tn9-a1-m10-c3_3tn9-a1-m9-c3 3tn9-a1-m11-c3_3tn9-a1-m12-c3 3tn9-a1-m11-c3_3tn9-a1-m15-c3 3tn9-a1-m12-c3_3tn9-a1-m13-c3 3tn9-a1-m13-c3_3tn9-a1-m14-c3 3tn9-a1-m14-c3_3tn9-a1-m15-c3 3tn9-a1-m16-c3_3tn9-a1-m17-c3 3tn9-a1-m16-c3_3tn9-a1-m20-c3 3tn9-a1-m17-c3_3tn9-a1-m18-c3 3tn9-a1-m18-c3_3tn9-a1-m19-c3 3tn9-a1-m19-c3_3tn9-a1-m20-c3 3tn9-a1-m1-c3_3tn9-a1-m2-c3 3tn9-a1-m1-c3_3tn9-a1-m5-c3 3tn9-a1-m21-c3_3tn9-a1-m22-c3 3tn9-a1-m21-c3_3tn9-a1-m25-c3 3tn9-a1-m22-c3_3tn9-a1-m23-c3 3tn9-a1-m23-c3_3tn9-a1-m24-c3 3tn9-a1-m24-c3_3tn9-a1-m25-c3 3tn9-a1-m26-c3_3tn9-a1-m27-c3 3tn9-a1-m26-c3_3tn9-a1-m30-c3 3tn9-a1-m27-c3_3tn9-a1-m28-c3 3tn9-a1-m28-c3_3tn9-a1-m29-c3 3tn9-a1-m29-c3_3tn9-a1-m30-c3 3tn9-a1-m2-c3_3tn9-a1-m3-c3 3tn9-a1-m31-c3_3tn9-a1-m32-c3 3tn9-a1-m31-c3_3tn9-a1-m35-c3 3tn9-a1-m32-c3_3tn9-a1-m33-c3 3tn9-a1-m33-c3_3tn9-a1-m34-c3 3tn9-a1-m34-c3_3tn9-a1-m35-c3 3tn9-a1-m36-c3_3tn9-a1-m37-c3 3tn9-a1-m36-c3_3tn9-a1-m40-c3 3tn9-a1-m37-c3_3tn9-a1-m38-c3 3tn9-a1-m38-c3_3tn9-a1-m39-c3 3tn9-a1-m39-c3_3tn9-a1-m40-c3 3tn9-a1-m3-c3_3tn9-a1-m4-c3 3tn9-a1-m41-c3_3tn9-a1-m42-c3 3tn9-a1-m41-c3_3tn9-a1-m45-c3 3tn9-a1-m42-c3_3tn9-a1-m43-c3 3tn9-a1-m43-c3_3tn9-a1-m44-c3 3tn9-a1-m44-c3_3tn9-a1-m45-c3 3tn9-a1-m46-c3_3tn9-a1-m47-c3 3tn9-a1-m46-c3_3tn9-a1-m50-c3 3tn9-a1-m47-c3_3tn9-a1-m48-c3 3tn9-a1-m48-c3_3tn9-a1-m49-c3 3tn9-a1-m49-c3_3tn9-a1-m50-c3 3tn9-a1-m4-c3_3tn9-a1-m5-c3 3tn9-a1-m51-c3_3tn9-a1-m52-c3 3tn9-a1-m51-c3_3tn9-a1-m55-c3 3tn9-a1-m52-c3_3tn9-a1-m53-c3 3tn9-a1-m53-c3_3tn9-a1-m54-c3 3tn9-a1-m54-c3_3tn9-a1-m55-c3 3tn9-a1-m56-c3_3tn9-a1-m57-c3 3tn9-a1-m56-c3_3tn9-a1-m60-c3 3tn9-a1-m57-c3_3tn9-a1-m58-c3 3tn9-a1-m58-c3_3tn9-a1-m59-c3 3tn9-a1-m59-c3_3tn9-a1-m60-c3 3tn9-a1-m6-c3_3tn9-a1-m7-c3 3tn9-a1-m7-c3_3tn9-a1-m8-c3 3tn9-a1-m8-c3_3tn9-a1-m9-c3 3vdd-a1-m10-cC_3vdd-a1-m6-cC 3vdd-a1-m10-cC_3vdd-a1-m9-cC 3vdd-a1-m11-cC_3vdd-a1-m12-cC 3vdd-a1-m11-cC_3vdd-a1-m15-cC 3vdd-a1-m12-cC_3vdd-a1-m13-cC 3vdd-a1-m13-cC_3vdd-a1-m14-cC 3vdd-a1-m14-cC_3vdd-a1-m15-cC 3vdd-a1-m16-cC_3vdd-a1-m17-cC 3vdd-a1-m16-cC_3vdd-a1-m20-cC 3vdd-a1-m17-cC_3vdd-a1-m18-cC 3vdd-a1-m18-cC_3vdd-a1-m19-cC 3vdd-a1-m19-cC_3vdd-a1-m20-cC 3vdd-a1-m1-cC_3vdd-a1-m2-cC 3vdd-a1-m1-cC_3vdd-a1-m5-cC 3vdd-a1-m21-cC_3vdd-a1-m22-cC 3vdd-a1-m21-cC_3vdd-a1-m25-cC 3vdd-a1-m22-cC_3vdd-a1-m23-cC 3vdd-a1-m23-cC_3vdd-a1-m24-cC 3vdd-a1-m24-cC_3vdd-a1-m25-cC 3vdd-a1-m26-cC_3vdd-a1-m27-cC 3vdd-a1-m26-cC_3vdd-a1-m30-cC 3vdd-a1-m27-cC_3vdd-a1-m28-cC 3vdd-a1-m28-cC_3vdd-a1-m29-cC 3vdd-a1-m29-cC_3vdd-a1-m30-cC 3vdd-a1-m2-cC_3vdd-a1-m3-cC 3vdd-a1-m31-cC_3vdd-a1-m32-cC 3vdd-a1-m31-cC_3vdd-a1-m35-cC 3vdd-a1-m32-cC_3vdd-a1-m33-cC 3vdd-a1-m33-cC_3vdd-a1-m34-cC 3vdd-a1-m34-cC_3vdd-a1-m35-cC 3vdd-a1-m36-cC_3vdd-a1-m37-cC 3vdd-a1-m36-cC_3vdd-a1-m40-cC 3vdd-a1-m37-cC_3vdd-a1-m38-cC 3vdd-a1-m38-cC_3vdd-a1-m39-cC 3vdd-a1-m39-cC_3vdd-a1-m40-cC 3vdd-a1-m3-cC_3vdd-a1-m4-cC 3vdd-a1-m41-cC_3vdd-a1-m42-cC 3vdd-a1-m41-cC_3vdd-a1-m45-cC 3vdd-a1-m42-cC_3vdd-a1-m43-cC 3vdd-a1-m43-cC_3vdd-a1-m44-cC 3vdd-a1-m44-cC_3vdd-a1-m45-cC 3vdd-a1-m46-cC_3vdd-a1-m47-cC 3vdd-a1-m46-cC_3vdd-a1-m50-cC 3vdd-a1-m47-cC_3vdd-a1-m48-cC 3vdd-a1-m48-cC_3vdd-a1-m49-cC 3vdd-a1-m49-cC_3vdd-a1-m50-cC 3vdd-a1-m4-cC_3vdd-a1-m5-cC 3vdd-a1-m51-cC_3vdd-a1-m52-cC 3vdd-a1-m51-cC_3vdd-a1-m55-cC 3vdd-a1-m52-cC_3vdd-a1-m53-cC 3vdd-a1-m53-cC_3vdd-a1-m54-cC 3vdd-a1-m54-cC_3vdd-a1-m55-cC 3vdd-a1-m56-cC_3vdd-a1-m57-cC 3vdd-a1-m56-cC_3vdd-a1-m60-cC 3vdd-a1-m57-cC_3vdd-a1-m58-cC 3vdd-a1-m58-cC_3vdd-a1-m59-cC 3vdd-a1-m59-cC_3vdd-a1-m60-cC 3vdd-a1-m6-cC_3vdd-a1-m7-cC 3vdd-a1-m7-cC_3vdd-a1-m8-cC 3vdd-a1-m8-cC_3vdd-a1-m9-cC 4l3b-a1-m10-cC_4l3b-a1-m6-cC 4l3b-a1-m10-cC_4l3b-a1-m9-cC 4l3b-a1-m11-cC_4l3b-a1-m12-cC 4l3b-a1-m11-cC_4l3b-a1-m15-cC 4l3b-a1-m12-cC_4l3b-a1-m13-cC 4l3b-a1-m13-cC_4l3b-a1-m14-cC 4l3b-a1-m14-cC_4l3b-a1-m15-cC 4l3b-a1-m16-cC_4l3b-a1-m17-cC 4l3b-a1-m16-cC_4l3b-a1-m20-cC 4l3b-a1-m17-cC_4l3b-a1-m18-cC 4l3b-a1-m18-cC_4l3b-a1-m19-cC 4l3b-a1-m19-cC_4l3b-a1-m20-cC 4l3b-a1-m1-cC_4l3b-a1-m2-cC 4l3b-a1-m1-cC_4l3b-a1-m5-cC 4l3b-a1-m21-cC_4l3b-a1-m22-cC 4l3b-a1-m21-cC_4l3b-a1-m25-cC 4l3b-a1-m22-cC_4l3b-a1-m23-cC 4l3b-a1-m23-cC_4l3b-a1-m24-cC 4l3b-a1-m24-cC_4l3b-a1-m25-cC 4l3b-a1-m26-cC_4l3b-a1-m27-cC 4l3b-a1-m26-cC_4l3b-a1-m30-cC 4l3b-a1-m27-cC_4l3b-a1-m28-cC 4l3b-a1-m28-cC_4l3b-a1-m29-cC 4l3b-a1-m29-cC_4l3b-a1-m30-cC 4l3b-a1-m2-cC_4l3b-a1-m3-cC 4l3b-a1-m31-cC_4l3b-a1-m32-cC 4l3b-a1-m31-cC_4l3b-a1-m35-cC 4l3b-a1-m32-cC_4l3b-a1-m33-cC 4l3b-a1-m33-cC_4l3b-a1-m34-cC 4l3b-a1-m34-cC_4l3b-a1-m35-cC 4l3b-a1-m36-cC_4l3b-a1-m37-cC 4l3b-a1-m36-cC_4l3b-a1-m40-cC 4l3b-a1-m37-cC_4l3b-a1-m38-cC 4l3b-a1-m38-cC_4l3b-a1-m39-cC 4l3b-a1-m39-cC_4l3b-a1-m40-cC 4l3b-a1-m3-cC_4l3b-a1-m4-cC 4l3b-a1-m41-cC_4l3b-a1-m42-cC 4l3b-a1-m41-cC_4l3b-a1-m45-cC 4l3b-a1-m42-cC_4l3b-a1-m43-cC 4l3b-a1-m43-cC_4l3b-a1-m44-cC 4l3b-a1-m44-cC_4l3b-a1-m45-cC 4l3b-a1-m46-cC_4l3b-a1-m47-cC 4l3b-a1-m46-cC_4l3b-a1-m50-cC 4l3b-a1-m47-cC_4l3b-a1-m48-cC 4l3b-a1-m48-cC_4l3b-a1-m49-cC 4l3b-a1-m49-cC_4l3b-a1-m50-cC 4l3b-a1-m4-cC_4l3b-a1-m5-cC 4l3b-a1-m51-cC_4l3b-a1-m52-cC 4l3b-a1-m51-cC_4l3b-a1-m55-cC 4l3b-a1-m52-cC_4l3b-a1-m53-cC 4l3b-a1-m53-cC_4l3b-a1-m54-cC 4l3b-a1-m54-cC_4l3b-a1-m55-cC 4l3b-a1-m56-cC_4l3b-a1-m57-cC 4l3b-a1-m56-cC_4l3b-a1-m60-cC 4l3b-a1-m57-cC_4l3b-a1-m58-cC 4l3b-a1-m58-cC_4l3b-a1-m59-cC 4l3b-a1-m59-cC_4l3b-a1-m60-cC 4l3b-a1-m6-cC_4l3b-a1-m7-cC 4l3b-a1-m7-cC_4l3b-a1-m8-cC 4l3b-a1-m8-cC_4l3b-a1-m9-cC GLPVFITPGSGQFLTTDDFQSPCALPWYHPTKEISIPGEVKNLVEICQVDSLVPINNTDTYINSENMYSVVLQSSINAPDKIFSIRTDVASQPLATTLIGEISSYFTHWTGSLRFSFMFCGTANTTVKLLLAYTPPGIAEPTTRKDAMLGTHVIWDVGLQSTISMVVPWISASHYRNTSPGRSTSGYITCWYQTRLVIPPQTPPTARLLCFVSGCKDFCLRMARDTNLHLQSGAIAQ GLPVFITPGSGQFLTTDDFQSPCALPWYHPTKEISIPGEVKNLVEICQVDSLVPINNTDTYINSENMYSVVLQSSINAPDKIFSIRTDVASQPLATTLIGEISSYFTHWTGSLRFSFMFCGTANTTVKLLLAYTPPGIAEPTTRKDAMLGTHVIWDVGLQSTISMVVPWISASHYRNTSPGRSTSGYITCWYQTRLVIPPQTPPTARLLCFVSGCKDFCLRMARDTNLHLQSGAIAQ 1fpo-a4-m1-cA_1fpo-a4-m2-cB HSC20 (HSCB), A J-TYPE CO-CHAPERONE FROM E. COLI P0A6L9 P0A6L9 1.8 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 171 171 MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF 1fpo-a4-m1-cC_1fpo-a4-m1-cA HSC20 (HSCB), A J-TYPE CO-CHAPERONE FROM E. COLI P0A6L9 P0A6L9 1.8 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 157 171 MDYFTLFGLPARYQLDTQALSLRFQDLQRQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF 1fpo-a6-m1-cA_1fpo-a6-m4-cB HSC20 (HSCB), A J-TYPE CO-CHAPERONE FROM E. COLI P0A6L9 P0A6L9 1.8 X-RAY DIFFRACTION 53 1.0 562 (Escherichia coli) 562 (Escherichia coli) 171 171 1fpo-a5-m1-cA_1fpo-a5-m4-cB MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF 1fpo-a7-m2-cC_1fpo-a7-m1-cB HSC20 (HSCB), A J-TYPE CO-CHAPERONE FROM E. COLI P0A6L9 P0A6L9 1.8 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 157 171 1fpo-a4-m1-cC_1fpo-a4-m2-cB 1fpo-a5-m3-cC_1fpo-a5-m4-cB MDYFTLFGLPARYQLDTQALSLRFQDLQRQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF MDYFTLFGLPARYQLDTQALSLRFQDLQRQYHPDKFASGSQAEQLAAVQQSATINQAWQTLRHPLMRAEYLLSLHGFDLASEQHTVRDTAFLMEQLELREELDEIEQAKDEARLESFIKRVKKMFDTRHQLMVEQLDNETWDAAADTCRKLRFLDKLRSSAEQLEEKLLDF 1fpq-a1-m1-cA_1fpq-a1-m2-cA CRYSTAL STRUCTURE ANALYSIS OF SELENOMETHIONINE SUBSTITUTED CHALCONE O-METHYLTRANSFERASE P93324 P93324 2 X-RAY DIFFRACTION 215 1.0 3879 (Medicago sativa) 3879 (Medicago sativa) 320 320 TEDSACLSAVLTTNLVYPAVLNAAIDLNLFEIIAKATPPGAFSPSEIASKLPASTQHSDLPNRLDRLRLLASYSVLTSTTRTIEDGGAERVYGLSVGKYLVPDESRGYLASFTTFLCYPALLQVWNFKEAVVDEDKNQIFNKSVDVCATEKRLEIYTGFEGISTLVDVGGGSGRNLELIISKYPLIKGINFDLPQVIENAPPLSGIEHVGGDFASVPQGDAILKAVCHNWSDEKCIEFLSNCHKALSPNGKVIIVEFILPEEPNTSEESKLVSTLDNLFITVGGRERTEKQYEKLSKLSGFSKFQVACRAFNSLGVEFYK TEDSACLSAVLTTNLVYPAVLNAAIDLNLFEIIAKATPPGAFSPSEIASKLPASTQHSDLPNRLDRLRLLASYSVLTSTTRTIEDGGAERVYGLSVGKYLVPDESRGYLASFTTFLCYPALLQVWNFKEAVVDEDKNQIFNKSVDVCATEKRLEIYTGFEGISTLVDVGGGSGRNLELIISKYPLIKGINFDLPQVIENAPPLSGIEHVGGDFASVPQGDAILKAVCHNWSDEKCIEFLSNCHKALSPNGKVIIVEFILPEEPNTSEESKLVSTLDNLFITVGGRERTEKQYEKLSKLSGFSKFQVACRAFNSLGVEFYK 1fpr-a2-m1-cA_1fpr-a2-m2-cA CRYSTAL STRUCTURE OF THE COMPLEX FORMED BETWEEN THE CATALYTIC DOMAIN OF SHP-1 AND AN IN VITRO PEPTIDE SUBSTRATE PY469 DERIVED FROM SHPS-1. P29350 P29350 2.5 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 284 284 GFWEEFESLQKQEVKNLHQRLEGQRPENKGKNRYKNILPFDHSRVILQGRDSNIPGSDYINANYIKNQLLGPDENAKTYIASQGCLEATVNDFWQMAWQENSRVIVMTTREVEKGRNKCVPYWPEVGMQRAYGPYSVTNCGEHDTTEYKLRTLQVSPLDNGDLIREIWHYQYLSWPDHGVPSEPGGVLSFLDQINQRQESLPHAGPIIVHSSAGIGRTGTIIVIDMLMENISTKGLDCDIDIQKTIQMVRAQRSGMVQTEAQYKFIYVAIAQFIETTKKKLEVL GFWEEFESLQKQEVKNLHQRLEGQRPENKGKNRYKNILPFDHSRVILQGRDSNIPGSDYINANYIKNQLLGPDENAKTYIASQGCLEATVNDFWQMAWQENSRVIVMTTREVEKGRNKCVPYWPEVGMQRAYGPYSVTNCGEHDTTEYKLRTLQVSPLDNGDLIREIWHYQYLSWPDHGVPSEPGGVLSFLDQINQRQESLPHAGPIIVHSSAGIGRTGTIIVIDMLMENISTKGLDCDIDIQKTIQMVRAQRSGMVQTEAQYKFIYVAIAQFIETTKKKLEVL 1fq3-a1-m1-cB_1fq3-a1-m1-cA CRYSTAL STRUCTURE OF HUMAN GRANZYME B P10144 P10144 3.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 227 IIGGHEAKPHSRPYMAYLMIWDQKSLKRCGGFLIQDDFVLTAAHCWGSSINVTLGAHNIKEQEPTQQFIPVKRPIPHPAYNPKNFSNDIMLLQLERKAKRTRAVQPLRLPSNKAQVKPGQTCSVAGWGQTAPLGKHSHTLQEVKMTVQEDRKCESDLRHYYDSTIELCVGDPEIKKTSFKGDSGGPLVCNKVAQGIVSYGRNNGMPPRACTKVSSFVHWIKKTMKRY IIGGHEAKPHSRPYMAYLMIWDQKSLKRCGGFLIQDDFVLTAAHCWGSSINVTLGAHNIKEQEPTQQFIPVKRPIPHPAYNPKNFSNDIMLLQLERKAKRTRAVQPLRLPSNKAQVKPGQTCSVAGWGQTAPLGKHSHTLQEVKMTVQEDRKCESDLRHYYDSTIELCVGDPEIKKTSFKGDSGGPLVCNKVAQGIVSYGRNNGMPPRACTKVSSFVHWIKKTMKRY 1fqt-a1-m1-cA_1fqt-a1-m1-cB CRYSTAL STRUCTURE OF THE RIESKE-TYPE FERREDOXIN ASSOCIATED WITH BIPHENYL DIOXYGENASE P37332 P37332 1.6 X-RAY DIFFRACTION 20 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 109 109 MKFTRVCDRRDVPEGEALKVESGGTSVAIFNVDGELFATQDRCTHGDWSLSDGGYLEGDVVECSLHMGKFCVRTGKVKSPPPCEALKIFPIRIEDNDVLVDFEAGYLAP MKFTRVCDRRDVPEGEALKVESGGTSVAIFNVDGELFATQDRCTHGDWSLSDGGYLEGDVVECSLHMGKFCVRTGKVKSPPPCEALKIFPIRIEDNDVLVDFEAGYLAP 1fr8-a1-m1-cA_1fr8-a1-m1-cB CRYSTAL STRUCTURE OF THE BOVINE BETA 1,4 GALACTOSYLTRANSFERASE (B4GALT1) CATALYTIC DOMAIN COMPLEXED WITH URIDINE DIPHOSPHOGALACTOSE P08037 P08037 2.4 X-RAY DIFFRACTION 40 1.0 9913 (Bos taurus) 9913 (Bos taurus) 271 271 TACPEESPLLVGPMLIEFNIPVDLKLVEQQNPKVKLGGRYTPMDCISPHKVAIIIPFRNRQEHLKYWLYYLHPILQRQQLDYGIYVINQAGESMFNRAKLLNVGFKEALKDYDYNCFVFSDVDLIPMNDHNTYRCFSQPRHISVAMDKFGFSLPYVQYFGGVSALSKQQFLSINGFPNNYWGWGGEDDDIYNRLAFRGMSVSRPNAVIGKCRMIRHSRDKKNEPNPQRFDRIAHTKETMLSDGLNSLTYMVLEVQRYPLYTKITVDIGTPS TACPEESPLLVGPMLIEFNIPVDLKLVEQQNPKVKLGGRYTPMDCISPHKVAIIIPFRNRQEHLKYWLYYLHPILQRQQLDYGIYVINQAGESMFNRAKLLNVGFKEALKDYDYNCFVFSDVDLIPMNDHNTYRCFSQPRHISVAMDKFGFSLPYVQYFGGVSALSKQQFLSINGFPNNYWGWGGEDDDIYNRLAFRGMSVSRPNAVIGKCRMIRHSRDKKNEPNPQRFDRIAHTKETMLSDGLNSLTYMVLEVQRYPLYTKITVDIGTPS 1fs0-a2-m1-cG_1fs0-a2-m2-cG COMPLEX OF GAMMA/EPSILON ATP SYNTHASE FROM E.COLI P0ABA6 P0ABA6 2.1 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 219 219 KITKAMEMVAASKMRKSQDRMAASRPYAETMRKVIGHLAHYKHPYLEDRDVKRVGYLVVSTDRGLCGGLNINLFKKLLAEMKTWTDKGVQCDLAMIGSKGVSFFNSVGGNVVAQVTGMGDNPSLSELIGPVKVMLQAYDEGRLDKLYIVSNKFINTMSQVPTISQLLPLPKHKSWDYLYEPDPKALLDTLLRRYVESQVYQGVVENLASEQAARMVAMK KITKAMEMVAASKMRKSQDRMAASRPYAETMRKVIGHLAHYKHPYLEDRDVKRVGYLVVSTDRGLCGGLNINLFKKLLAEMKTWTDKGVQCDLAMIGSKGVSFFNSVGGNVVAQVTGMGDNPSLSELIGPVKVMLQAYDEGRLDKLYIVSNKFINTMSQVPTISQLLPLPKHKSWDYLYEPDPKALLDTLLRRYVESQVYQGVVENLASEQAARMVAMK 1fs1-a1-m1-cB_1fs1-a1-m1-cD INSIGHTS INTO SCF UBIQUITIN LIGASES FROM THE STRUCTURE OF THE SKP1-SKP2 COMPLEX P63208 P63208 1.8 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 118 PSIKLQSSDGEIFEVDVEIAKQSVTIKTMLEDLGMDPVPLPNVNAAILKKVIQWCTHHKDDPVWDQEFLKVDQGTLFELILAANYLDIKGLLDVTCKTVANMIKGKTPEEIRKTFN PSIKLQSSDGEIFEVDVEIAKQSVTIKTMLEDLGMDPVPLPNVNAAILKKVIQWCTHHKDDDIPVWDQEFLKVDQGTLFELILAANYLDIKGLLDVTCKTVANMIKGKTPEEIRKTFN 1fs2-a1-m1-cA_1fs2-a1-m1-cC INSIGHTS INTO SCF UBIQUITIN LIGASES FROM THE STRUCTURE OF THE SKP1-SKP2 COMPLEX Q13309 Q13309 2.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 PGVSWDSLPDELLLGIFSCLCLPELLKVSGVCKRWYRLASDESLWQTLDEFRVQHMDLSNSVIEVSTLHGILSQCSKLQNLSLEGLRLSDPIVNTLAKNSNLVRLNLSGCSGFSEFALQTLLSSCSRLDELNLSWCFDFTEKHVQVAVAHVSETITQLNLSGYRKNLQKSDLSTLVRRCPNLVHLDLSDSVMLKNDCFQEFFQLNYLQHLSLSRCYDIIPETLLELGEIPTLKTLQVFGIVPDGTLQLLKEALPHLQIN PGVSWDSLPDELLLGIFSCLCLPELLKVSGVCKRWYRLASDESLWQTLDEFRVQHMDLSNSVIEVSTLHGILSQCSKLQNLSLEGLRLSDPIVNTLAKNSNLVRLNLSGCSGFSEFALQTLLSSCSRLDELNLSWCFDFTEKHVQVAVAHVSETITQLNLSGYRKNLQKSDLSTLVRRCPNLVHLDLSDSVMLKNDCFQEFFQLNYLQHLSLSRCYDIIPETLLELGEIPTLKTLQVFGIVPDGTLQLLKEALPHLQIN 1fsc-a1-m1-cA_1fsc-a1-m2-cA Crystal Structure of Fasciculin 2 from Green Mamba Snake Venom: Evidence for Unusual Loop Flexibility P0C1Z0 P0C1Z0 2 X-RAY DIFFRACTION 39 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 61 61 TMCYSHTTTSRAILTNCGENSCYRKSRRHPPKMVLGRGCGCPPGDDNLEVKCCTSPDKCNY TMCYSHTTTSRAILTNCGENSCYRKSRRHPPKMVLGRGCGCPPGDDNLEVKCCTSPDKCNY 1fse-a2-m1-cF_1fse-a2-m1-cC CRYSTAL STRUCTURE OF THE BACILLUS SUBTILIS REGULATORY PROTEIN GERE P11470 P11470 2.05 X-RAY DIFFRACTION 27 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 50 67 PLLTKREREVFELLVQDKVRNHISNAMQKLGVKGRSQAVVELLRMGELEL SKPLLTKREREVFELLVQDKTTKEIASELFISEKTVRNHISNAMQKLGVKGRSQAVVELLRMGELEL 1fse-a3-m1-cE_1fse-a3-m1-cD CRYSTAL STRUCTURE OF THE BACILLUS SUBTILIS REGULATORY PROTEIN GERE P11470 P11470 2.05 X-RAY DIFFRACTION 33 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 64 66 1fse-a1-m1-cA_1fse-a1-m1-cB LLTKREREVFELLVQDKTTKEIASELFISEKTVRNHISNAMQKLGVKGRSQAVVELLRMGELEL KPLLTKREREVFELLVQDKTTKEIASELFISEKTVRNHISNAMQKLGVKGRSQAVVELLRMGELEL 1ft3-a4-m1-cB_1ft3-a4-m2-cB CRYSTAL STRUCTURE OF TRUNCATED RHOGDI K141A MUTANT P52565 P52565 2.8 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 MVPNVVVTGLTLVCSSAPGPLELDLTGDLESFKKQSFVLKEGVEYRIKISFRVNREIVSGMKYIQHTYRKGVKIDATDYMVGSYGPRAEEYEFLTPVEEAPKGMLARGSYSIKSRFTDDDKTDHLSWEWNLTIKKDWK MVPNVVVTGLTLVCSSAPGPLELDLTGDLESFKKQSFVLKEGVEYRIKISFRVNREIVSGMKYIQHTYRKGVKIDATDYMVGSYGPRAEEYEFLTPVEEAPKGMLARGSYSIKSRFTDDDKTDHLSWEWNLTIKKDWK 1fte-a1-m1-cA_1fte-a1-m1-cB CRYSTAL STRUCTURE OF STREPTOCOCCUS PNEUMONIAE ACYL CARRIER PROTEIN SYNTHASE (NATIVE 1) P0A2W6 P0A2W6 2.4 X-RAY DIFFRACTION 59 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 116 116 1fte-a1-m1-cC_1fte-a1-m1-cA 1fte-a1-m1-cC_1fte-a1-m1-cB 1ftf-a1-m1-cA_1ftf-a1-m1-cB 1ftf-a1-m1-cC_1ftf-a1-m1-cA 1ftf-a1-m1-cC_1ftf-a1-m1-cB 1fth-a1-m1-cB_1fth-a1-m1-cA 1fth-a1-m1-cC_1fth-a1-m1-cA 1fth-a1-m1-cC_1fth-a1-m1-cB MIVGHGIDIEELASIESAVTRHEGFAKRVLTALEMERFTSLKGRRQIEYLAGRWSAKEAFSKAMGTGISKLGFQDLEVLNNERGAPYFSQAPFSGKIWLSISHTDQFVTASVILEE MIVGHGIDIEELASIESAVTRHEGFAKRVLTALEMERFTSLKGRRQIEYLAGRWSAKEAFSKAMGTGISKLGFQDLEVLNNERGAPYFSQAPFSGKIWLSISHTDQFVTASVILEE 1ftp-a1-m1-cA_1ftp-a1-m1-cB THREE-DIMENSIONAL STRUCTURE OF THE MUSCLE FATTY-ACID-BINDING PROTEIN ISOLATED FROM THE DESERT LOCUST, SCHISTOCERCA GREGARIA P41496 P41496 2.2 X-RAY DIFFRACTION 35 1.0 7010 (Schistocerca gregaria) 7010 (Schistocerca gregaria) 133 133 VKEFAGIKYKLDSQTNFEEYMKAIGVGAIERKAGLALSPVIELEILDGDKFKLTSKTAIKNTEFTFKLGEEFDEETLDGRKVKSTITQDGPNKLVHEQKGDHPTIIIREFSKEQCVITIKLGDLVATRIYKAQ VKEFAGIKYKLDSQTNFEEYMKAIGVGAIERKAGLALSPVIELEILDGDKFKLTSKTAIKNTEFTFKLGEEFDEETLDGRKVKSTITQDGPNKLVHEQKGDHPTIIIREFSKEQCVITIKLGDLVATRIYKAQ 1ftr-a1-m1-cA_1ftr-a1-m1-cD FORMYLMETHANOFURAN:TETRAHYDROMETHANOPTERIN FORMYLTRANSFERASE FROM METHANOPYRUS KANDLERI Q49610 Q49610 1.7 X-RAY DIFFRACTION 80 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 296 296 1ftr-a1-m1-cB_1ftr-a1-m1-cC 2fhj-a1-m1-cB_2fhj-a1-m1-cC 2fhj-a1-m1-cD_2fhj-a1-m1-cA 2fhk-a1-m1-cA_2fhk-a1-m1-cD 2fhk-a1-m1-cB_2fhk-a1-m1-cC MEINGVEIEDTFAEAFEAKMARVLITAASHKWAMIAVKEATGFGTSVIMCPAEAGIDCGYVPPEETPDGRPGVTIMIGHNDEDELKEQLLDRIGQCVMTAPTASAFDAMPEAEKEDEDRVGYKLSFFGDGYQEEDELDGRKVWKIPVVEGEFIVEDSFGITTGVAGGNFYIMAESQPAGLQAAEAAVDAIKGVEGAYAPFPGGIVASASKVGSKQYDFLPASTNDAYCPTVEDNELPEGVKCVYEIVINGLNEEAVKEAMRVGIEAACQQPGVVKISAGNFGGKLGQYEIHLHDLF MEINGVEIEDTFAEAFEAKMARVLITAASHKWAMIAVKEATGFGTSVIMCPAEAGIDCGYVPPEETPDGRPGVTIMIGHNDEDELKEQLLDRIGQCVMTAPTASAFDAMPEAEKEDEDRVGYKLSFFGDGYQEEDELDGRKVWKIPVVEGEFIVEDSFGITTGVAGGNFYIMAESQPAGLQAAEAAVDAIKGVEGAYAPFPGGIVASASKVGSKQYDFLPASTNDAYCPTVEDNELPEGVKCVYEIVINGLNEEAVKEAMRVGIEAACQQPGVVKISAGNFGGKLGQYEIHLHDLF 1ftr-a1-m1-cB_1ftr-a1-m1-cD FORMYLMETHANOFURAN:TETRAHYDROMETHANOPTERIN FORMYLTRANSFERASE FROM METHANOPYRUS KANDLERI Q49610 Q49610 1.7 X-RAY DIFFRACTION 33 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 296 296 1ftr-a1-m1-cA_1ftr-a1-m1-cC 2fhj-a1-m1-cA_2fhj-a1-m1-cC 2fhj-a1-m1-cD_2fhj-a1-m1-cB 2fhk-a1-m1-cA_2fhk-a1-m1-cC 2fhk-a1-m1-cB_2fhk-a1-m1-cD MEINGVEIEDTFAEAFEAKMARVLITAASHKWAMIAVKEATGFGTSVIMCPAEAGIDCGYVPPEETPDGRPGVTIMIGHNDEDELKEQLLDRIGQCVMTAPTASAFDAMPEAEKEDEDRVGYKLSFFGDGYQEEDELDGRKVWKIPVVEGEFIVEDSFGITTGVAGGNFYIMAESQPAGLQAAEAAVDAIKGVEGAYAPFPGGIVASASKVGSKQYDFLPASTNDAYCPTVEDNELPEGVKCVYEIVINGLNEEAVKEAMRVGIEAACQQPGVVKISAGNFGGKLGQYEIHLHDLF MEINGVEIEDTFAEAFEAKMARVLITAASHKWAMIAVKEATGFGTSVIMCPAEAGIDCGYVPPEETPDGRPGVTIMIGHNDEDELKEQLLDRIGQCVMTAPTASAFDAMPEAEKEDEDRVGYKLSFFGDGYQEEDELDGRKVWKIPVVEGEFIVEDSFGITTGVAGGNFYIMAESQPAGLQAAEAAVDAIKGVEGAYAPFPGGIVASASKVGSKQYDFLPASTNDAYCPTVEDNELPEGVKCVYEIVINGLNEEAVKEAMRVGIEAACQQPGVVKISAGNFGGKLGQYEIHLHDLF 1ftr-a1-m1-cC_1ftr-a1-m1-cD FORMYLMETHANOFURAN:TETRAHYDROMETHANOPTERIN FORMYLTRANSFERASE FROM METHANOPYRUS KANDLERI Q49610 Q49610 1.7 X-RAY DIFFRACTION 273 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 296 296 1ftr-a1-m1-cA_1ftr-a1-m1-cB 2fhj-a1-m1-cA_2fhj-a1-m1-cB 2fhj-a1-m1-cD_2fhj-a1-m1-cC 2fhk-a1-m1-cA_2fhk-a1-m1-cB 2fhk-a1-m1-cC_2fhk-a1-m1-cD MEINGVEIEDTFAEAFEAKMARVLITAASHKWAMIAVKEATGFGTSVIMCPAEAGIDCGYVPPEETPDGRPGVTIMIGHNDEDELKEQLLDRIGQCVMTAPTASAFDAMPEAEKEDEDRVGYKLSFFGDGYQEEDELDGRKVWKIPVVEGEFIVEDSFGITTGVAGGNFYIMAESQPAGLQAAEAAVDAIKGVEGAYAPFPGGIVASASKVGSKQYDFLPASTNDAYCPTVEDNELPEGVKCVYEIVINGLNEEAVKEAMRVGIEAACQQPGVVKISAGNFGGKLGQYEIHLHDLF MEINGVEIEDTFAEAFEAKMARVLITAASHKWAMIAVKEATGFGTSVIMCPAEAGIDCGYVPPEETPDGRPGVTIMIGHNDEDELKEQLLDRIGQCVMTAPTASAFDAMPEAEKEDEDRVGYKLSFFGDGYQEEDELDGRKVWKIPVVEGEFIVEDSFGITTGVAGGNFYIMAESQPAGLQAAEAAVDAIKGVEGAYAPFPGGIVASASKVGSKQYDFLPASTNDAYCPTVEDNELPEGVKCVYEIVINGLNEEAVKEAMRVGIEAACQQPGVVKISAGNFGGKLGQYEIHLHDLF 1fuj-a1-m1-cD_1fuj-a1-m1-cA PR3 (MYELOBLASTIN) P24158 P24158 2.2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 1fuj-a1-m1-cB_1fuj-a1-m1-cC IVGGHEAQPHSRPYMASLQMRGNPGSHFCGGTLIHPSFVLTAAHCLRDIPQRLVNVVLGAHNVRTQEPTQQHFSVAQVFLNNYDAENKLNDILLIQLSSPANLSASVATVQLPQQDQPVPHGTQCLAMGWGRVGAHDPPAQVLQELNVTVVTFFCRPHNICTFVPRRKAGICFGDSGGPLICDGIIQGIDSFVIWGCATRLFPDFFTRVALYVDWIRSTLR IVGGHEAQPHSRPYMASLQMRGNPGSHFCGGTLIHPSFVLTAAHCLRDIPQRLVNVVLGAHNVRTQEPTQQHFSVAQVFLNNYDAENKLNDILLIQLSSPANLSASVATVQLPQQDQPVPHGTQCLAMGWGRVGAHDPPAQVLQELNVTVVTFFCRPHNICTFVPRRKAGICFGDSGGPLICDGIIQGIDSFVIWGCATRLFPDFFTRVALYVDWIRSTLR 1fuj-a1-m1-cD_1fuj-a1-m1-cC PR3 (MYELOBLASTIN) P24158 P24158 2.2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 1fuj-a1-m1-cA_1fuj-a1-m1-cB IVGGHEAQPHSRPYMASLQMRGNPGSHFCGGTLIHPSFVLTAAHCLRDIPQRLVNVVLGAHNVRTQEPTQQHFSVAQVFLNNYDAENKLNDILLIQLSSPANLSASVATVQLPQQDQPVPHGTQCLAMGWGRVGAHDPPAQVLQELNVTVVTFFCRPHNICTFVPRRKAGICFGDSGGPLICDGIIQGIDSFVIWGCATRLFPDFFTRVALYVDWIRSTLR IVGGHEAQPHSRPYMASLQMRGNPGSHFCGGTLIHPSFVLTAAHCLRDIPQRLVNVVLGAHNVRTQEPTQQHFSVAQVFLNNYDAENKLNDILLIQLSSPANLSASVATVQLPQQDQPVPHGTQCLAMGWGRVGAHDPPAQVLQELNVTVVTFFCRPHNICTFVPRRKAGICFGDSGGPLICDGIIQGIDSFVIWGCATRLFPDFFTRVALYVDWIRSTLR 1fuu-a1-m1-cA_1fuu-a1-m1-cB YEAST INITIATION FACTOR 4A P10081 P10081 2.5 X-RAY DIFFRACTION 15 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 206 369 QIQTNYDKVVYKFDDELDENLLRGVFGYGFEEPSAIQQRAIPIIEGHDVLAQAQSGTGKTGTFSIAALQRIDTSVKAPQALLAPTRELALQIQKVVALAFHDIKVHACIGGTSFVEDAEGLRDAQIVVGTPGRVFDNIQRRRFRTDKIKFILDEADELSSGFKEQIYQIFTLLPPTTQVVLLSATPNDVLEVTTKFRNPVRILVKK QIQTNYDKVVYKFDDELDENLLRGVFGYGFEEPSAIQQRAIPIIEGHDVLAQAQSGTGKTGTFSIAALQRIDTSVKAPQALLAPTRELALQIQKVVALAFHDIKVHACIGGTSFVEDAEGLRDAQIVVGTPGRVFDNIQRRRFRTDKIKFILDEADELSSGFKEQIYQIFTLLPPTTQVVLLSATPNDVLEVTTKFRNPVRILVKKDELTLEGIKQFYVNVEEEEYKYECLTDLYDSISVTQAVIFCNTRRKVEELTTKLRNDKFTVSAIYSDLPQQERDTIKEFRSGSSRILISTDLLARGIDVQQVSLVINYDLPANKENYIHRIGRGGKGVAINFVTNEDVGARELEKFYSTQIEELPSDIATLLN 1fux-a1-m1-cB_1fux-a1-m1-cA CRYSTAL STRUCTURE OF E.COLI YBCL, A NEW MEMBER OF THE MAMMALIAN PEBP FAMILY P77368 P77368 1.81 X-RAY DIFFRACTION 72 0.994 562 (Escherichia coli) 562 (Escherichia coli) 163 164 AEFQVTSNEIKTGEQLTTSHVFSGFGCEGGNTSPSLTWSGVPEGTKSFAVTVYDPDAPTGSGWWHWTVVNIPATVTYLPVDAGRRDGTKLPTGAVQGRNDFGYAGFGGACPPKGDKPHHYQFKVWALKTEKIPVDSNSSGALVGYLNANKIATAEITPVYEIK EFQVTSNEIKTGEQLTTSHVFSGFGCEGGNTSPSLTWSGVPEGTKSFAVTVYDPDAPTGSGWWHWTVVNIPATVTYLPVDAGRRDGTKLPTGAVQGRNDFGYAGFGGACPPKGDKPHHYQFKVWALKTEKIPVDSNSSGALVGYLNANKIATAEITPVYEIKLE 1fvf-a1-m1-cA_1fvf-a1-m1-cB CRYSTAL STRUCTURE ANALYSIS OF NEURONAL SEC1 FROM THE SQUID L. PEALEI O62547 O62547 3.2 X-RAY DIFFRACTION 77 1.0 543 543 ALKTAVHEKIMNDVVLAVKKNAEWKVLIVDQLSMRMVSACCKMHEIMSEGITLVEDINRRREPLPLLEAVYLITPTEESVKCLMADFQNPDNPQYRGAHIFFTEACPEELFKELCKSTTARFIKTLKEINIAFLPYESQIFSLDSPDTFQVYYNPSRAQGGIPNKERCAEQIATLCATLGEYPSVRYRSDFDENASFAQLVQQKLDAYRADDPTMGEGPQKDRSQLLILDRGFDPISPLLHELTFQAMAYDLLPIENDVYKYVEKEVLLDEKDDLWVEMRHQHIAVVSQNVTKKLKQFADEKRLSQMLKKMPQYQKELSKYSTHLHLAEDCMKQYQQHVDKLCKVEQDLAMGTDADGEKIRDHMRNIVPILLDQKISAYDKIRIILLYIIHKGGISEENLAKLVQHAHIPAEEKWIINDMQNLGVPIIQDGGRRKIPQPYHTHNRKERQADHTYQMSRWTPYMKDIMEAAVEDKLDTRHYPFLNGGGGPRLIIFVVGGISYSEMRSAYEVTQTAKNNWEVILGSTHILTPEGLLRDLRKISNP ALKTAVHEKIMNDVVLAVKKNAEWKVLIVDQLSMRMVSACCKMHEIMSEGITLVEDINRRREPLPLLEAVYLITPTEESVKCLMADFQNPDNPQYRGAHIFFTEACPEELFKELCKSTTARFIKTLKEINIAFLPYESQIFSLDSPDTFQVYYNPSRAQGGIPNKERCAEQIATLCATLGEYPSVRYRSDFDENASFAQLVQQKLDAYRADDPTMGEGPQKDRSQLLILDRGFDPISPLLHELTFQAMAYDLLPIENDVYKYVEKEVLLDEKDDLWVEMRHQHIAVVSQNVTKKLKQFADEKRLSQMLKKMPQYQKELSKYSTHLHLAEDCMKQYQQHVDKLCKVEQDLAMGTDADGEKIRDHMRNIVPILLDQKISAYDKIRIILLYIIHKGGISEENLAKLVQHAHIPAEEKWIINDMQNLGVPIIQDGGRRKIPQPYHTHNRKERQADHTYQMSRWTPYMKDIMEAAVEDKLDTRHYPFLNGGGGPRLIIFVVGGISYSEMRSAYEVTQTAKNNWEVILGSTHILTPEGLLRDLRKISNP 1fvp-a1-m1-cA_1fvp-a1-m1-cB FLAVOPROTEIN 390 P12745 P12745 2.7 X-RAY DIFFRACTION 79 1.0 659 (Photobacterium phosphoreum) 659 (Photobacterium phosphoreum) 231 231 MNKWNYGVFFVNFYNKGQQEPSKTMNNALETLRIIDEDTSIYDVINIDDHYLVKKDSEDKKLAPFITLGEKLYVLATSENTVDIAAKYALPLVFKWDDINEERLKLLSFYNASASKYNKNIDLVRHQLMLHVNVNEAETVAKEELKLYIENYVACTQPSNFNGSIDSIIQSNVTGSYKDCLSYVANLAGKFDNTVDFLLCFESMQDQNKKKSVMIDLNNQVIKFRQDNNLI MNKWNYGVFFVNFYNKGQQEPSKTMNNALETLRIIDEDTSIYDVINIDDHYLVKKDSEDKKLAPFITLGEKLYVLATSENTVDIAAKYALPLVFKWDDINEERLKLLSFYNASASKYNKNIDLVRHQLMLHVNVNEAETVAKEELKLYIENYVACTQPSNFNGSIDSIIQSNVTGSYKDCLSYVANLAGKFDNTVDFLLCFESMQDQNKKKSVMIDLNNQVIKFRQDNNLI 1fvu-a1-m1-cB_1fvu-a1-m1-cD CRYSTAL STRUCTURE OF BOTROCETIN P22030 P22030 1.8 X-RAY DIFFRACTION 28 1.0 8724 (Bothrops jararaca) 8724 (Bothrops jararaca) 121 121 DCPPDWSSYEGHCYRFFKEWMHWDDAEEFCTEQQTGAHLVSFQSKEEADFVRSLTSEMLKGDVVWIGLSDVWNKCRFEWTDGMEFDYLIAEYECVASKPTNNKWWIIPCTRFKNFVCEFQA DCPPDWSSYEGHCYRFFKEWMHWDDAEEFCTEQQTGAHLVSFQSKEEADFVRSLTSEMLKGDVVWIGLSDVWNKCRFEWTDGMEFDYLIAEYECVASKPTNNKWWIIPCTRFKNFVCEFQA 1fw1-a1-m1-cA_1fw1-a1-m2-cA Glutathione transferase zeta/maleylacetoacetate isomerase O43708 O43708 1.9 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 KPILYSYFRSSCSWRVRIALALKGIDYKTVPINLIKDGGQQFSKDFQALNPMKQVPTLKIDGITIHQSLAIIEYLEETRPTPRLLPQDPKKRASVRMISDLIAGGIQPLQNLSVLKQVGEEMQLTWAQNAITCGFNALEQILQSTAGIYCVGDEVTMADLCLVPQVANAERFKVDLTPYPTISSINKRLLVLEAFQVSHPCRQPDTPT KPILYSYFRSSCSWRVRIALALKGIDYKTVPINLIKDGGQQFSKDFQALNPMKQVPTLKIDGITIHQSLAIIEYLEETRPTPRLLPQDPKKRASVRMISDLIAGGIQPLQNLSVLKQVGEEMQLTWAQNAITCGFNALEQILQSTAGIYCVGDEVTMADLCLVPQVANAERFKVDLTPYPTISSINKRLLVLEAFQVSHPCRQPDTPT 1fwx-a2-m1-cD_1fwx-a2-m1-cC CRYSTAL STRUCTURE OF NITROUS OXIDE REDUCTASE FROM P. DENITRIFICANS Q51705 Q51705 1.6 X-RAY DIFFRACTION 434 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 588 590 1fwx-a1-m1-cB_1fwx-a1-m1-cA 2iwf-a1-m1-cA_2iwf-a1-m1-cB 2iwk-a1-m1-cA_2iwk-a1-m1-cB GSVAPGQLDDYYGFWSSGQSGEMRILGIPSMRELMRVPVFNRCSATGWGQTNESVRIHERTMSERTKKFLAANGKRIHDNGDLHHVHMSFTEGKYDGRFLFMNDKANTRVARVRCDVMKCDAILEIPNAKGIHGLRPQKWPRSNYVFCNGEDETPLVNDGTNMEDVANYVNVFTAVDADKWEVAWQVLVSGNLDNCDADYEGKWAFSTSYNSEKGMTLPEMTAAEMDHIVVFNIAEIEKAIAAGDYQELNGVKVVDGRKEASSLFTRYIPIANNPHGCNMAPDKKHLCVAGKLSPTVTVLDVTRFDAVFYENADPRSAVVAEPELGLGPLHTAFDGRGNAYTSLFLDSQVVKWNIEDAIRAYAGEKVDPIKDKLDVHYQPGHLKTVMGETLDATNDWLVCLSKFSKDRFLNVGPLKPENDQLIDISGDKMVLVHDGPTFAEPHDAIAVHPSILSDIKSVWDRNDPMWAETRAQAEADGVDIDNWTEEVIRDGNKVRVYMSSVAPSFSIESFTVKEGDEVTVIVTNLDEIDDLTHGFTMGNYGVAMEIGPQMTSSVTFVAANPGVYWYYCQWFCHALHMEMRGRMLVEP DGSVAPGQLDDYYGFWSSGQSGEMRILGIPSMRELMRVPVFNRCSATGWGQTNESVRIHERTMSERTKKFLAANGKRIHDNGDLHHVHMSFTEGKYDGRFLFMNDKANTRVARVRCDVMKCDAILEIPNAKGIHGLRPQKWPRSNYVFCNGEDETPLVNDGTNMEDVANYVNVFTAVDADKWEVAWQVLVSGNLDNCDADYEGKWAFSTSYNSEKGMTLPEMTAAEMDHIVVFNIAEIEKAIAAGDYQELNGVKVVDGRKEASSLFTRYIPIANNPHGCNMAPDKKHLCVAGKLSPTVTVLDVTRFDAVFYENADPRSAVVAEPELGLGPLHTAFDGRGNAYTSLFLDSQVVKWNIEDAIRAYAGEKVDPIKDKLDVHYQPGHLKTVMGETLDATNDWLVCLSKFSKDRFLNVGPLKPENDQLIDISGDKMVLVHDGPTFAEPHDAIAVHPSILSDIKSVWDRNDPMWAETRAQAEADGVDIDNWTEEVIRDGNKVRVYMSSVAPSFSIESFTVKEGDEVTVIVTNLDEIDDLTHGFTMGNYGVAMEIGPQMTSSVTFVAANPGVYWYYCQWFCHALHMEMRGRMLVEPK 1fx2-a1-m1-cA_1fx2-a1-m2-cA STRUCTURAL ANALYSIS OF ADENYLATE CYCLASES FROM TRYPANOSOMA BRUCEI IN THEIR MONOMERIC STATE Q99279 Q99279 1.46 X-RAY DIFFRACTION 38 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 235 235 NNNRAPKEPTDPVTLIFTDIESSTALWAAHPDLMPDAVAAHHRMVRSLIGRYKCYEVKTVGDSFMIASKSPFAAVQLAQELQLCFLHHDWGTNALDDSYREFEEQRAEGECEYTPPTAHMDPEVYSRLWNGLRVRVGIHTGLCDIRHDEVTKGYDYYGRTPNMAARTESVANGGQVLMTHAAYMSLSAEDRKQIDVTALGDVALRGVSDPVKMYQLNTVPSRNFAALRLDREYFD NNNRAPKEPTDPVTLIFTDIESSTALWAAHPDLMPDAVAAHHRMVRSLIGRYKCYEVKTVGDSFMIASKSPFAAVQLAQELQLCFLHHDWGTNALDDSYREFEEQRAEGECEYTPPTAHMDPEVYSRLWNGLRVRVGIHTGLCDIRHDEVTKGYDYYGRTPNMAARTESVANGGQVLMTHAAYMSLSAEDRKQIDVTALGDVALRGVSDPVKMYQLNTVPSRNFAALRLDREYFD 1fx4-a1-m1-cA_1fx4-a1-m2-cA STRUCTURE ANALYSIS OF ADENYLATE CYCLASES FROM TRYPANOSOMA BRUCEI IN THEIR MONOMERIC STATE Q99280 Q99280 1.9 X-RAY DIFFRACTION 31 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 231 231 DNDSAPKEPTGPVTLIFTDIESSTALWAAHPDLMPDAVATHHRLIRSLITRYECYEVKTVGDSFMIASKSPFAAVQLAQELQLCFLRLDWETNAVDESYREFEEQRAEGECEYTPPTASLDPEVYSRLWNGLRVRVGIHTGLCDIRYDEVTKGYDYYGRTSNMAARTESVANGGQVLMTHAAYMSLSGEDRNQLDVTTLGATVLRGVPEPVRMYQLNAVPGRNFAALRLDR DNDSAPKEPTGPVTLIFTDIESSTALWAAHPDLMPDAVATHHRLIRSLITRYECYEVKTVGDSFMIASKSPFAAVQLAQELQLCFLRLDWETNAVDESYREFEEQRAEGECEYTPPTASLDPEVYSRLWNGLRVRVGIHTGLCDIRYDEVTKGYDYYGRTSNMAARTESVANGGQVLMTHAAYMSLSGEDRNQLDVTTLGATVLRGVPEPVRMYQLNAVPGRNFAALRLDR 1fxd-a1-m1-cA_1fxd-a1-m2-cA REFINED CRYSTAL STRUCTURE OF FERREDOXIN II FROM DESULFOVIBRIO GIGAS AT 1.7 ANGSTROMS P00209 P00209 1.7 X-RAY DIFFRACTION 22 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 57 57 PIEVNDDCMAEACVEICPDVFEMNEEGDKAVVINPDSDLDCVEEAIDSCPAEAIVRS PIEVNDDCMAEACVEICPDVFEMNEEGDKAVVINPDSDLDCVEEAIDSCPAEAIVRS 1fxk-a1-m1-cA_1fxk-a1-m2-cB CRYSTAL STRUCTURE OF ARCHAEAL PREFOLDIN (GIMC). O26774 O26774 2.3 X-RAY DIFFRACTION 40 0.99 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 103 105 1fxk-a1-m2-cA_1fxk-a1-m1-cB QNVQHQLAQFQQLQQQAQAISVQKQTVEQINETQKALEELSRAADDAEVYKSSGNILIRVAKDELTEELQEKLETLQLREKTIERQEERVKKLQEQVNIQEAK NVQHQLAQFQQLQQQAQAISVQKQTVEQINETQKALEELSRAADDAEVYKSSGNILIRVAKDELTEELQEKLETLQLREKTIERQEERVKKLQEQVNIQEAKGAG 1fxk-a1-m1-cC_1fxk-a1-m2-cC CRYSTAL STRUCTURE OF ARCHAEAL PREFOLDIN (GIMC). O27646 O27646 2.3 X-RAY DIFFRACTION 105 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 133 133 AALAEIVAQLNIYQSQVELIQQQMEAVRATISELEILEKTLSDIQGKDGSETLVPVGAGSFIKAELKDTSEVIMSVGAGVAIKKNFEDAMESIKSQKNELESTLQKMGENLRAITDIMMKLSPQAEELLAAVA AALAEIVAQLNIYQSQVELIQQQMEAVRATISELEILEKTLSDIQGKDGSETLVPVGAGSFIKAELKDTSEVIMSVGAGVAIKKNFEDAMESIKSQKNELESTLQKMGENLRAITDIMMKLSPQAEELLAAVA 1fxr-a1-m1-cA_1fxr-a1-m1-cB CRYSTAL STRUCTURE OF THE FERREDOXIN I FROM DESULFOVIBRIO AFRICANUS AT 2.3 ANGSTROMS RESOLUTION P00210 P00210 2.3 X-RAY DIFFRACTION 46 1.0 873 (Desulfocurvibacter africanus) 873 (Desulfocurvibacter africanus) 64 64 ARKFYVDQDECIACESCVEIAPGAFAMDPEIEKAYVKDVEGASQEEVEEAMDTCPVQCIHWEDE ARKFYVDQDECIACESCVEIAPGAFAMDPEIEKAYVKDVEGASQEEVEEAMDTCPVQCIHWEDE 1fxy-a1-m2-cA_1fxy-a1-m1-cA COAGULATION FACTOR XA-TRYPSIN CHIMERA INHIBITED WITH D-PHE-PRO-ARG-CHLOROMETHYLKETONE P07477 P07477 2.15 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 228 IVGGYNCKDGEVPWQALLINEENEGFCGGTILSEFYILTAAHCLYQAKRFKVRVGDRNTEQEEGGEAVHEVEVVIKHNRFTKETYDFDIAVLRLKTPITFRMNVAPASLPTAPPATGTKCLISGWGNTASSGADYPDELQCLDAPVLSQAKCEASYPGKITSNMFCVGFLEGGKDSCQGDSGGPVVCNGQLQGVVSWGDGCAQKNKPGVYTKVYNYVKWIKNTIAANS IVGGYNCKDGEVPWQALLINEENEGFCGGTILSEFYILTAAHCLYQAKRFKVRVGDRNTEQEEGGEAVHEVEVVIKHNRFTKETYDFDIAVLRLKTPITFRMNVAPASLPTAPPATGTKCLISGWGNTASSGADYPDELQCLDAPVLSQAKCEASYPGKITSNMFCVGFLEGGKDSCQGDSGGPVVCNGQLQGVVSWGDGCAQKNKPGVYTKVYNYVKWIKNTIAANS 1fxz-a1-m1-cB_1fxz-a1-m1-cC CRYSTAL STRUCTURE OF SOYBEAN PROGLYCININ A1AB1B HOMOTRIMER P04776 P04776 2.8 X-RAY DIFFRACTION 175 1.0 3847 (Glycine max) 3847 (Glycine max) 371 371 1fxz-a1-m1-cA_1fxz-a1-m1-cB 1fxz-a1-m1-cA_1fxz-a1-m1-cC 1ucx-a1-m1-cA_1ucx-a1-m1-cB 1ucx-a1-m1-cA_1ucx-a1-m1-cC 1ucx-a1-m1-cB_1ucx-a1-m1-cC 1ud1-a1-m1-cA_1ud1-a1-m1-cB 1ud1-a1-m1-cA_1ud1-a1-m1-cC 1ud1-a1-m1-cB_1ud1-a1-m1-cC NECQIQKLNALKPDNRIESEGGLIETWNPNNKPFQCAGVALSRCTLNRNALRRPSYTNGPQEIYIQQGKGIFGMIYPGCPSTRHQKIYNFREGDLIAVPTGVAWWMYNNEDTPVVAVSIIDTNSLENQLDQMPRRFYLAGNQEQEFLKYQQGGSILSGFTLEFLEHAFSVDKQIAKNLQGEKGAIVTVKGGLSVIKPICTMRLRHNIGQTSSPDIYNPQAGSVTTATSLDFPALSWLRLSAEFGSLRKNAMFVPHYNLNANSIIYALNGRALIQVVNCNGERVFDGELQEGRVLIVPQNFVVAARSQSDNFEYVSFKTNDTPMIGTLAGANSLLNALPEEVIQHTFNLKSQQARQIKNNNPFKFLVPPQES NECQIQKLNALKPDNRIESEGGLIETWNPNNKPFQCAGVALSRCTLNRNALRRPSYTNGPQEIYIQQGKGIFGMIYPGCPSTRHQKIYNFREGDLIAVPTGVAWWMYNNEDTPVVAVSIIDTNSLENQLDQMPRRFYLAGNQEQEFLKYQQGGSILSGFTLEFLEHAFSVDKQIAKNLQGEKGAIVTVKGGLSVIKPICTMRLRHNIGQTSSPDIYNPQAGSVTTATSLDFPALSWLRLSAEFGSLRKNAMFVPHYNLNANSIIYALNGRALIQVVNCNGERVFDGELQEGRVLIVPQNFVVAARSQSDNFEYVSFKTNDTPMIGTLAGANSLLNALPEEVIQHTFNLKSQQARQIKNNNPFKFLVPPQES 1fy7-a3-m3-cA_1fy7-a3-m6-cA CRYSTAL STRUCTURE OF YEAST ESA1 HISTONE ACETYLTRANSFERASE DOMAIN COMPLEXED WITH COENZYME A Q08649 Q08649 2 X-RAY DIFFRACTION 14 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 273 273 1fy7-a3-m1-cA_1fy7-a3-m5-cA 1fy7-a3-m2-cA_1fy7-a3-m4-cA 1mj9-a3-m1-cA_1mj9-a3-m6-cA 1mj9-a3-m2-cA_1mj9-a3-m5-cA 1mj9-a3-m3-cA_1mj9-a3-m4-cA 1mja-a3-m1-cA_1mja-a3-m6-cA 1mja-a3-m2-cA_1mja-a3-m5-cA 1mja-a3-m3-cA_1mja-a3-m4-cA 1mjb-a3-m1-cA_1mjb-a3-m6-cA 1mjb-a3-m2-cA_1mjb-a3-m5-cA 1mjb-a3-m3-cA_1mjb-a3-m4-cA ARVRNLNRIIMGKYEIEPWYFSPYPIELTDEDFIYIDDFTLQYFGSKKQYERYRKKCTLRHPPGNEIYRDDYVSFFEIDGRKQRTWCRNLCLLSKLFLDHKTLYYDVDPFLFYCMTRRDELGHHLVGYFSKEKESADGYNVACILTLPQYQRMGYGKLLIEFSYELSKKENKVGSPEKPLSDLGLLSYRAYWSDTLITLLVEHQKEITIDEISSMTSMTTTDILHTAKTLNILRYYKGQHIIFLNEDILDRYNRLKAKKRRTIDPNRLIWKPP ARVRNLNRIIMGKYEIEPWYFSPYPIELTDEDFIYIDDFTLQYFGSKKQYERYRKKCTLRHPPGNEIYRDDYVSFFEIDGRKQRTWCRNLCLLSKLFLDHKTLYYDVDPFLFYCMTRRDELGHHLVGYFSKEKESADGYNVACILTLPQYQRMGYGKLLIEFSYELSKKENKVGSPEKPLSDLGLLSYRAYWSDTLITLLVEHQKEITIDEISSMTSMTTTDILHTAKTLNILRYYKGQHIIFLNEDILDRYNRLKAKKRRTIDPNRLIWKPP 1fyx-a2-m1-cA_1fyx-a2-m2-cA CRYSTAL STRUCTURE OF P681H MUTANT OF TIR DOMAIN OF HUMAN TLR2 O60603 O60603 2.8 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 145 1fyw-a2-m1-cA_1fyw-a2-m2-cA SRNIYDAFVSYSERDAYWVENLMVQELENFNPPFKLLHKRDFIHGKWIIDNIIDSIEKSHKTVFVLSENFVKSEWKYELDFSHFRLFDENNDAAILILLEPIEKKAIPQRFKLRKIMNTKTYLEWPMDEAQREGFWVNLRAAIKS SRNIYDAFVSYSERDAYWVENLMVQELENFNPPFKLLHKRDFIHGKWIIDNIIDSIEKSHKTVFVLSENFVKSEWKYELDFSHFRLFDENNDAAILILLEPIEKKAIPQRFKLRKIMNTKTYLEWPMDEAQREGFWVNLRAAIKS 1fza-a1-m1-cC_1fza-a1-m1-cF CRYSTAL STRUCTURE OF FIBRINOGEN FRAGMENT D P02679 P02679 2.9 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 309 309 KMLEEIMKYEASILTHDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLTIGE KMLEEIMKYEASILTHDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLTIGE 1fzd-a1-m1-cC_1fzd-a1-m1-cD STRUCTURE OF RECOMBINANT ALPHAEC DOMAIN FROM HUMAN FIBRINOGEN-420 P02671 P02671 2.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 1fzd-a1-m1-cA_1fzd-a1-m1-cB 1fzd-a2-m1-cE_1fzd-a2-m1-cF 1fzd-a2-m1-cG_1fzd-a2-m1-cH GGWLLIQQRMDGSLNFNRTWQDYKRGFGSLNDEGEGEFWLGNDYLHLLTQRGSVLRVELEDWAGNEAYAEYHFRVGSEAEGYALQVSSYEGTAGDALIEGSVEEGAEYTSHNNMQFSTFDRDADQWEENCAEVYGGGWWYNNCQAANLNGIYYPGGSYDPRNNSPYEIENGVVWVSFRGADYSLRAVRMKIRPLVTQ GGWLLIQQRMDGSLNFNRTWQDYKRGFGSLNDEGEGEFWLGNDYLHLLTQRGSVLRVELEDWAGNEAYAEYHFRVGSEAEGYALQVSSYEGTAGDALIEGSVEEGAEYTSHNNMQFSTFDRDADQWEENCAEVYGGGWWYNNCQAANLNGIYYPGGSYDPRNNSPYEIENGVVWVSFRGADYSLRAVRMKIRPLVTQ 1fzd-a2-m1-cF_1fzd-a2-m1-cH STRUCTURE OF RECOMBINANT ALPHAEC DOMAIN FROM HUMAN FIBRINOGEN-420 P02671 P02671 2.1 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 1fzd-a1-m1-cA_1fzd-a1-m1-cC 1fzd-a1-m1-cB_1fzd-a1-m1-cC 1fzd-a1-m1-cB_1fzd-a1-m1-cD 1fzd-a2-m1-cE_1fzd-a2-m1-cG 1fzd-a2-m1-cE_1fzd-a2-m1-cH GGWLLIQQRMDGSLNFNRTWQDYKRGFGSLNDEGEGEFWLGNDYLHLLTQRGSVLRVELEDWAGNEAYAEYHFRVGSEAEGYALQVSSYEGTAGDALIEGSVEEGAEYTSHNNMQFSTFDRDADQWEENCAEVYGGGWWYNNCQAANLNGIYYPGGSYDPRNNSPYEIENGVVWVSFRGADYSLRAVRMKIRPLVTQ GGWLLIQQRMDGSLNFNRTWQDYKRGFGSLNDEGEGEFWLGNDYLHLLTQRGSVLRVELEDWAGNEAYAEYHFRVGSEAEGYALQVSSYEGTAGDALIEGSVEEGAEYTSHNNMQFSTFDRDADQWEENCAEVYGGGWWYNNCQAANLNGIYYPGGSYDPRNNSPYEIENGVVWVSFRGADYSLRAVRMKIRPLVTQ 1fzg-a1-m1-cF_1fzg-a1-m1-cC CRYSTAL STRUCTURE OF FRAGMENT D FROM HUMAN FIBRINOGEN WITH THE PEPTIDE LIGAND GLY-HIS-ARG-PRO-AMIDE P02679 P02679 2.5 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 292 1fzb-a1-m1-cC_1fzb-a1-m1-cF 1fzc-a1-m1-cC_1fzc-a1-m1-cF 1fze-a1-m1-cF_1fze-a1-m1-cC 1fzf-a1-m1-cF_1fzf-a1-m1-cC 1n86-a1-m1-cC_1n86-a1-m1-cF 2z4e-a1-m1-cF_2z4e-a1-m1-cC 3h32-a1-m1-cF_3h32-a1-m1-cC YLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLT THDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLT 1fzk-a2-m1-cA_1fzk-a2-m2-cA MHC CLASS I NATURAL MUTANT H-2KBM1 HEAVY CHAIN COMPLEXED WITH BETA-2 MICROGLOBULIN AND SENDAI VIRUS NUCLEOPROTEIN P01901 P01901 1.7 X-RAY DIFFRACTION 49 1.0 10090 (Mus musculus) 10090 (Mus musculus) 273 273 1fzj-a2-m1-cA_1fzj-a2-m2-cA 1kpv-a2-m1-cA_1kpv-a2-m2-cA GPHSLRYFVTAVSRPGLGEPRYMEVGYVDDTEFVRFDSDAENPRYEPRARWMEQEGPEYWERETQKAKGNEQSFRVDLRTLLGYYNQSKGGSHTIQVISGCEVGSDGRLLRGYQQYAYDGDYIALNEDLKTWTAADMAALITKHKWEQAGAAEYYRAYLEGTCVEWLRRYLKNGNATLLRTDSPKAHVTHHSRPEDKVTLRCWALGFYPADITLTWQLNGEELIQDMELVETRPAGDGTFQKWASVVVPLGKEQYYTCHVYHQGLPEPLTLRW GPHSLRYFVTAVSRPGLGEPRYMEVGYVDDTEFVRFDSDAENPRYEPRARWMEQEGPEYWERETQKAKGNEQSFRVDLRTLLGYYNQSKGGSHTIQVISGCEVGSDGRLLRGYQQYAYDGDYIALNEDLKTWTAADMAALITKHKWEQAGAAEYYRAYLEGTCVEWLRRYLKNGNATLLRTDSPKAHVTHHSRPEDKVTLRCWALGFYPADITLTWQLNGEELIQDMELVETRPAGDGTFQKWASVVVPLGKEQYYTCHVYHQGLPEPLTLRW 1fzv-a1-m1-cA_1fzv-a1-m1-cB THE CRYSTAL STRUCTURE OF HUMAN PLACENTA GROWTH FACTOR-1 (PLGF-1), AN ANGIOGENIC PROTEIN AT 2.0A RESOLUTION P49763 P49763 2 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 1rv6-a1-m1-cV_1rv6-a1-m1-cW SSEVEVVPFQEVWGRSYCRALERLVDVVSEYPSEVEHMFSPSCVSLLRCTGCCGDENLHCVPVETANVTMQLLKIRSGDRPSYVELTFSQHVRCECRPLR SSEVEVVPFQEVWGRSYCRALERLVDVVSEYPSEVEHMFSPSCVSLLRCTGCCGDENLHCVPVETANVTMQLLKIRSGDRPSYVELTFSQHVRCECRPLR 1g0a-a1-m1-cA_1g0a-a1-m1-cC CARBONMONOXY LIGANDED BOVINE HEMOGLOBIN PH 8.5 P01966 P01966 2.04 X-RAY DIFFRACTION 24 1.0 9913 (Bos taurus) 9913 (Bos taurus) 141 141 1fsx-a1-m1-cA_1fsx-a1-m1-cC 1g09-a1-m1-cA_1g09-a1-m1-cC 2ri4-a1-m1-cC_2ri4-a1-m1-cA 2ri4-a2-m1-cI_2ri4-a2-m1-cK 3ciu-a1-m1-cA_3ciu-a1-m1-cC 3d1a-a1-m1-cA_3d1a-a1-m1-cC 3eu1-a1-m1-cA_3eu1-a1-m1-cC 3pi8-a1-m1-cA_3pi8-a1-m1-cC 3pi9-a1-m1-cA_3pi9-a1-m1-cC 3pia-a1-m1-cA_3pia-a1-m1-cC VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHFDLSHGSAQVKGHGAKVAAALTKAVEHLDDLPGALSELSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR VLSAADKGNVKAAWGKVGGHAAEYGAEALERMFLSFPTTKTYFPHFDLSHGSAQVKGHGAKVAAALTKAVEHLDDLPGALSELSDLHAHKLRVDPVNFKLLSHSLLVTLASHLPSDFTPAVHASLDKFLANVSTVLTSKYR 1g0b-a1-m1-cB_1g0b-a1-m2-cB CARBONMONOXY LIGANDED EQUINE HEMOGLOBIN PH 8.5 P02062 P02062 1.9 X-RAY DIFFRACTION 10 1.0 9796 (Equus caballus) 9796 (Equus caballus) 146 146 1ibe-a1-m1-cB_1ibe-a1-m2-cB 1iwh-a1-m1-cB_1iwh-a1-m2-cB 1ns6-a1-m1-cB_1ns6-a1-m2-cB 1y8i-a1-m1-cB_1y8i-a1-m1-cD 2d5x-a1-m1-cB_2d5x-a1-m2-cB 2zlw-a1-m1-cB_2zlw-a1-m1-cD 5c6e-a1-m1-cB_5c6e-a1-m2-cB 6sva-a1-m1-cB_6sva-a1-m2-cB VQLSGEEKAAVLALWDKVNEEEVGGEALGRLLVVYPWTQRFFDSFGDLSNPGAVMGNPKVKAHGKKVLHSFGEGVHHLDNLKGTFAALSELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPELQASYQKVVAGVANALAHKYH VQLSGEEKAAVLALWDKVNEEEVGGEALGRLLVVYPWTQRFFDSFGDLSNPGAVMGNPKVKAHGKKVLHSFGEGVHHLDNLKGTFAALSELHCDKLHVDPENFRLLGNVLVVVLARHFGKDFTPELQASYQKVVAGVANALAHKYH 1g0i-a1-m1-cA_1g0i-a1-m1-cB CRYSTAL STRUCTURE OF MJ0109 GENE PRODUCT INOSITOL MONOPHOSPHATASE-FRUCTOSE 1,6 BISPHOSPHATASE Q57573 Q57573 2.4 X-RAY DIFFRACTION 48 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 252 252 1dk4-a1-m1-cA_1dk4-a1-m1-cB 1g0h-a1-m1-cA_1g0h-a1-m1-cB MKWDEIGKNIAKEIEKEILPYFGRKDKSYVVGTSPSGDETEIFDKISEDIALKYLKSLNVNIVSEELGVIDNSSEWTVVIDPIDGSFNFINGIPFFAFCFGVFKNNEPYYGLTYEFLTKSFYEAYKGKGAYLNGRKIKVKDFNPNNIVISYYPSKKIDLEKLRNKVKRVRIFGAFGLEMCYVAKGTLDAVFDVRPKVRAVDIASSYIICKEAGALITDENGDELKFDLNATDRLNIIVANSKEMLDIILDLL MKWDEIGKNIAKEIEKEILPYFGRKDKSYVVGTSPSGDETEIFDKISEDIALKYLKSLNVNIVSEELGVIDNSSEWTVVIDPIDGSFNFINGIPFFAFCFGVFKNNEPYYGLTYEFLTKSFYEAYKGKGAYLNGRKIKVKDFNPNNIVISYYPSKKIDLEKLRNKVKRVRIFGAFGLEMCYVAKGTLDAVFDVRPKVRAVDIASSYIICKEAGALITDENGDELKFDLNATDRLNIIVANSKEMLDIILDLL 1g0r-a1-m1-cC_1g0r-a1-m1-cD THE STRUCTURAL BASIS OF THE CATALYTIC MECHANISM AND REGULATION OF GLUCOSE-1-PHOSPHATE THYMIDYLYLTRANSFERASE (RMLA). THYMIDINE/GLUCOSE-1-PHOSPHATE COMPLEX. Q9HU22 Q9HU22 1.87 X-RAY DIFFRACTION 94 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 292 292 1fxo-a1-m1-cA_1fxo-a1-m1-cB 1fxo-a1-m1-cC_1fxo-a1-m1-cD 1fxo-a2-m1-cE_1fxo-a2-m1-cF 1fxo-a2-m1-cH_1fxo-a2-m1-cG 1fzw-a1-m1-cA_1fzw-a1-m1-cB 1fzw-a1-m1-cD_1fzw-a1-m1-cC 1fzw-a2-m1-cE_1fzw-a2-m1-cF 1fzw-a2-m1-cG_1fzw-a2-m1-cH 1g0r-a1-m1-cA_1g0r-a1-m1-cB 1g0r-a2-m1-cE_1g0r-a2-m1-cF 1g0r-a2-m1-cG_1g0r-a2-m1-cH 1g1l-a1-m1-cA_1g1l-a1-m1-cB 1g1l-a1-m1-cC_1g1l-a1-m1-cD 1g1l-a2-m1-cE_1g1l-a2-m1-cF 1g1l-a2-m1-cG_1g1l-a2-m1-cH 1g23-a1-m1-cA_1g23-a1-m1-cB 1g23-a1-m1-cC_1g23-a1-m1-cD 1g23-a2-m1-cE_1g23-a2-m1-cF 1g23-a2-m1-cG_1g23-a2-m1-cH 1g2v-a1-m1-cA_1g2v-a1-m1-cB 1g2v-a1-m1-cC_1g2v-a1-m1-cD 1g2v-a2-m1-cE_1g2v-a2-m1-cF 1g2v-a2-m1-cG_1g2v-a2-m1-cH 1g3l-a1-m1-cA_1g3l-a1-m1-cB 1g3l-a1-m1-cC_1g3l-a1-m1-cD 3zlk-a1-m1-cB_3zlk-a1-m1-cA 3zlk-a1-m2-cB_3zlk-a1-m2-cA 3zlk-a2-m1-cC_3zlk-a2-m1-cD 3zlk-a2-m3-cC_3zlk-a2-m3-cD 3zll-a1-m1-cC_3zll-a1-m1-cB 3zll-a1-m1-cD_3zll-a1-m1-cA 4arw-a1-m1-cD_4arw-a1-m1-cA 4arw-a1-m2-cD_4arw-a1-m2-cA 4arw-a2-m1-cC_4arw-a2-m1-cB 4arw-a2-m3-cC_4arw-a2-m3-cB 4asy-a1-m1-cA_4asy-a1-m1-cC 4asy-a1-m1-cB_4asy-a1-m1-cD 4b2w-a1-m1-cD_4b2w-a1-m1-cA 4b2w-a1-m2-cD_4b2w-a1-m2-cA 4b2w-a2-m1-cC_4b2w-a2-m1-cB 4b2w-a2-m3-cC_4b2w-a2-m3-cB 4b2x-a1-m1-cC_4b2x-a1-m1-cA 4b2x-a1-m2-cC_4b2x-a1-m2-cA 4b2x-a2-m1-cD_4b2x-a2-m1-cB 4b2x-a2-m3-cD_4b2x-a2-m3-cB 4b3u-a1-m1-cB_4b3u-a1-m1-cA 4b3u-a1-m2-cB_4b3u-a1-m2-cA 4b3u-a2-m1-cD_4b3u-a2-m1-cC 4b3u-a2-m3-cD_4b3u-a2-m3-cC 4b42-a1-m1-cA_4b42-a1-m1-cC 4b42-a1-m2-cA_4b42-a1-m2-cC 4b42-a2-m1-cB_4b42-a2-m1-cD 4b42-a2-m3-cB_4b42-a2-m3-cD 4b4b-a1-m1-cB_4b4b-a1-m1-cC 4b4b-a1-m2-cB_4b4b-a1-m2-cC 4b4b-a2-m1-cD_4b4b-a2-m1-cA 4b4b-a2-m3-cD_4b4b-a2-m3-cA 4b4g-a1-m1-cD_4b4g-a1-m1-cA 4b4g-a1-m2-cD_4b4g-a1-m2-cA 4b4g-a2-m1-cB_4b4g-a2-m1-cC 4b4g-a2-m3-cB_4b4g-a2-m3-cC 4b4m-a1-m1-cB_4b4m-a1-m1-cA 4b4m-a1-m2-cB_4b4m-a1-m2-cA 4b4m-a2-m1-cC_4b4m-a2-m1-cD 4b4m-a2-m3-cC_4b4m-a2-m3-cD 4b5b-a1-m1-cA_4b5b-a1-m1-cB 4b5b-a1-m2-cA_4b5b-a1-m2-cB 4b5b-a2-m1-cC_4b5b-a2-m1-cD 4b5b-a2-m3-cC_4b5b-a2-m3-cD 5fts-a1-m1-cA_5fts-a1-m1-cC 5fts-a1-m2-cA_5fts-a1-m2-cC 5fts-a2-m1-cB_5fts-a2-m1-cD 5fts-a2-m3-cB_5fts-a2-m3-cD 5ftv-a1-m1-cB_5ftv-a1-m1-cA 5ftv-a1-m2-cB_5ftv-a1-m2-cA 5ftv-a2-m1-cD_5ftv-a2-m1-cC 5ftv-a2-m3-cD_5ftv-a2-m3-cC 5fu0-a1-m1-cD_5fu0-a1-m1-cC 5fu0-a1-m2-cD_5fu0-a1-m2-cC 5fu0-a2-m1-cB_5fu0-a2-m1-cA 5fu0-a2-m3-cB_5fu0-a2-m3-cA 5fu8-a1-m1-cD_5fu8-a1-m1-cC 5fu8-a1-m2-cD_5fu8-a1-m2-cC 5fu8-a2-m1-cB_5fu8-a2-m1-cA 5fu8-a2-m3-cB_5fu8-a2-m3-cA 5fuh-a1-m1-cB_5fuh-a1-m1-cA 5fuh-a1-m2-cB_5fuh-a1-m2-cA 5fuh-a2-m1-cD_5fuh-a2-m1-cC 5fuh-a2-m3-cD_5fuh-a2-m3-cC 5fye-a1-m1-cD_5fye-a1-m1-cC 5fye-a1-m2-cD_5fye-a1-m2-cC 5fye-a2-m1-cB_5fye-a2-m1-cA 5fye-a2-m3-cB_5fye-a2-m3-cA 6t37-a1-m1-cA_6t37-a1-m1-cB 6t37-a1-m2-cA_6t37-a1-m2-cB 6t37-a2-m1-cC_6t37-a2-m1-cD 6t37-a2-m3-cC_6t37-a2-m3-cD 6t38-a1-m1-cA_6t38-a1-m1-cB 6tqg-a1-m1-cB_6tqg-a1-m1-cA 6tqg-a1-m1-cC_6tqg-a1-m1-cD KRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY KRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY 1g16-a1-m1-cB_1g16-a1-m1-cC CRYSTAL STRUCTURE OF SEC4-GDP P07560 P07560 1.8 X-RAY DIFFRACTION 13 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 158 164 SIKILLIGDSGVGKSCLLVRFVEDKFNPIDFKIKTVDINGKKVKLQIWDTAGQERFRTITTAYYRGAGIILVYDITDERTFTNIKQWFKTVNEHANDEAQLLLVGNKSDETRVVTADQGEALAKELGIPFIESSAKNDDNVNEIFFTLAKLIQEKIDS SIKILLIGDSGVGKSCLLVRFVEDKFNPSFITTIGIDFKIKTVDINGKKVKLQIWDTAGQERFRTITTAYYRGAGIILVYDITDERTFTNIKQWFKTVNEHANDEAQLLLVGNKSDETRVVTADQGEALAKELGIPFIESSAKNDDNVNEIFFTLAKLIQEKID 1g16-a1-m1-cD_1g16-a1-m1-cC CRYSTAL STRUCTURE OF SEC4-GDP P07560 P07560 1.8 X-RAY DIFFRACTION 39 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 157 164 IKILLIGDSGVGKSCLLVRFVEDKFNPIDFKIKTVDINGKKVKLQIWDTAGQERFRTITTAYYRGAGIILVYDITDERTFTNIKQWFKTVNEHANDEAQLLLVGNKSDETRVVTADQGEALAKELGIPFIESSAKNDDNVNEIFFTLAKLIQEKIDS SIKILLIGDSGVGKSCLLVRFVEDKFNPSFITTIGIDFKIKTVDINGKKVKLQIWDTAGQERFRTITTAYYRGAGIILVYDITDERTFTNIKQWFKTVNEHANDEAQLLLVGNKSDETRVVTADQGEALAKELGIPFIESSAKNDDNVNEIFFTLAKLIQEKID 1g1q-a1-m1-cA_1g1q-a1-m1-cD Crystal structure of P-selectin lectin/EGF domains P16109 P16109 2.4 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 1g1r-a1-m1-cA_1g1r-a1-m1-cD WTYHYSTKAYSWNISRKYCQNRYTDLVAIQNKNEIDYLNKVLPYYSSYYWIGIRKNNKTWTWVGTKKALTNEAENWADNEPNNKRNNEDCVEIYIKSPSAPGKWNDEHCLKKKHALCYTASCQDMSCSKQGECLETIGNYTCSCYPGFYGPECEYVRDDD WTYHYSTKAYSWNISRKYCQNRYTDLVAIQNKNEIDYLNKVLPYYSSYYWIGIRKNNKTWTWVGTKKALTNEAENWADNEPNNKRNNEDCVEIYIKSPSAPGKWNDEHCLKKKHALCYTASCQDMSCSKQGECLETIGNYTCSCYPGFYGPECEYVRDDD 1g1q-a1-m1-cC_1g1q-a1-m1-cD Crystal structure of P-selectin lectin/EGF domains P16109 P16109 2.4 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 160 1g1r-a1-m1-cC_1g1r-a1-m1-cD WTYHYSTKAYSWNISRKYCQNRYTDLVAIQNKNEIDYLNKVLPYYSSYYWIGIRKNNKTWTWVGTKKALTNEAENWADNEPNNKRNNEDCVEIYIKSPSAPGKWNDEHCLKKKHALCYTASCQDMSCSKQGECLETIGNYTCSCYPGFYGPECEYVRDD WTYHYSTKAYSWNISRKYCQNRYTDLVAIQNKNEIDYLNKVLPYYSSYYWIGIRKNNKTWTWVGTKKALTNEAENWADNEPNNKRNNEDCVEIYIKSPSAPGKWNDEHCLKKKHALCYTASCQDMSCSKQGECLETIGNYTCSCYPGFYGPECEYVRDDD 1g1s-a1-m1-cB_1g1s-a1-m1-cA P-SELECTIN LECTIN/EGF DOMAINS COMPLEXED WITH PSGL-1 PEPTIDE P16109 P16109 1.9 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 158 WTYHYSTKAYSWNISRKYCQNRYTDLVAIQNKNEIDYLNKVLPYYSSYYWIGIRKNNKTWTWVGTKKALTNEAENWADNEPNNKRNNEDCVEIYIKSPSAPGKWNDEHCLKKKHALCYTASCQDMSCSKQGECLETIGNYTCSCYPGFYGPECEYVR WTYHYSTKAYSWNISRKYCQNRYTDLVAIQNKNEIDYLNKVLPYYSSYYWIGIRKNNKTWTWVGTKKALTNEAENWADNEPNNKRNNEDCVEIYIKSPSAPGKWNDEHCLKKKHALCYTASCQDMSCSKQGECLETIGNYTCSCYPGFYGPECEYVRD 1g29-a1-m1-c1_1g29-a1-m1-c2 MALK Q9YGA6 Q9YGA6 1.9 X-RAY DIFFRACTION 82 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 372 372 MAGVRLVDVWKVFGEVTAVREMSLEVKDGEFMILLGPSGCGKTTTLRMIAGLEEPSRGQIYIGDKLVADPEKGIFVPPKDRDIAMVFQSYALYPHMTVYDNIAFPLKLRKVPRQEIDQRVREVAELLGLTELLNRKPRELSGGQRQRVALGRAIVRKPQVFLMDEPLSNLDAKLRVRMRAELKKLQRQLGVTTIYVTHDQVEAMTMGDRIAVMNRGVLQQVGSPDEVYDKPANTFVAGFIGSPPMNFLDAIVTEDGFVDFGEFRLKLLPDQFEVLGELGYVGREVIFGIRPEDLYDAMFAQVRVPGENLVRAVVEIVENLGSERIVRLRVGGVTFVGSFRSESRVREGVEVDVVFDMKKIHIFDKTTGKAIF MAGVRLVDVWKVFGEVTAVREMSLEVKDGEFMILLGPSGCGKTTTLRMIAGLEEPSRGQIYIGDKLVADPEKGIFVPPKDRDIAMVFQSYALYPHMTVYDNIAFPLKLRKVPRQEIDQRVREVAELLGLTELLNRKPRELSGGQRQRVALGRAIVRKPQVFLMDEPLSNLDAKLRVRMRAELKKLQRQLGVTTIYVTHDQVEAMTMGDRIAVMNRGVLQQVGSPDEVYDKPANTFVAGFIGSPPMNFLDAIVTEDGFVDFGEFRLKLLPDQFEVLGELGYVGREVIFGIRPEDLYDAMFAQVRVPGENLVRAVVEIVENLGSERIVRLRVGGVTFVGSFRSESRVREGVEVDVVFDMKKIHIFDKTTGKAIF 1g29-a2-m1-c1_1g29-a2-m4-c2 MALK Q9YGA6 Q9YGA6 1.9 X-RAY DIFFRACTION 16 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 372 372 1g29-a2-m2-c1_1g29-a2-m3-c2 MAGVRLVDVWKVFGEVTAVREMSLEVKDGEFMILLGPSGCGKTTTLRMIAGLEEPSRGQIYIGDKLVADPEKGIFVPPKDRDIAMVFQSYALYPHMTVYDNIAFPLKLRKVPRQEIDQRVREVAELLGLTELLNRKPRELSGGQRQRVALGRAIVRKPQVFLMDEPLSNLDAKLRVRMRAELKKLQRQLGVTTIYVTHDQVEAMTMGDRIAVMNRGVLQQVGSPDEVYDKPANTFVAGFIGSPPMNFLDAIVTEDGFVDFGEFRLKLLPDQFEVLGELGYVGREVIFGIRPEDLYDAMFAQVRVPGENLVRAVVEIVENLGSERIVRLRVGGVTFVGSFRSESRVREGVEVDVVFDMKKIHIFDKTTGKAIF MAGVRLVDVWKVFGEVTAVREMSLEVKDGEFMILLGPSGCGKTTTLRMIAGLEEPSRGQIYIGDKLVADPEKGIFVPPKDRDIAMVFQSYALYPHMTVYDNIAFPLKLRKVPRQEIDQRVREVAELLGLTELLNRKPRELSGGQRQRVALGRAIVRKPQVFLMDEPLSNLDAKLRVRMRAELKKLQRQLGVTTIYVTHDQVEAMTMGDRIAVMNRGVLQQVGSPDEVYDKPANTFVAGFIGSPPMNFLDAIVTEDGFVDFGEFRLKLLPDQFEVLGELGYVGREVIFGIRPEDLYDAMFAQVRVPGENLVRAVVEIVENLGSERIVRLRVGGVTFVGSFRSESRVREGVEVDVVFDMKKIHIFDKTTGKAIF 1g29-a3-m1-c1_1g29-a3-m3-c2 MALK Q9YGA6 Q9YGA6 1.9 X-RAY DIFFRACTION 67 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 372 372 1g29-a2-m1-c1_1g29-a2-m3-c2 1g29-a2-m2-c1_1g29-a2-m4-c2 MAGVRLVDVWKVFGEVTAVREMSLEVKDGEFMILLGPSGCGKTTTLRMIAGLEEPSRGQIYIGDKLVADPEKGIFVPPKDRDIAMVFQSYALYPHMTVYDNIAFPLKLRKVPRQEIDQRVREVAELLGLTELLNRKPRELSGGQRQRVALGRAIVRKPQVFLMDEPLSNLDAKLRVRMRAELKKLQRQLGVTTIYVTHDQVEAMTMGDRIAVMNRGVLQQVGSPDEVYDKPANTFVAGFIGSPPMNFLDAIVTEDGFVDFGEFRLKLLPDQFEVLGELGYVGREVIFGIRPEDLYDAMFAQVRVPGENLVRAVVEIVENLGSERIVRLRVGGVTFVGSFRSESRVREGVEVDVVFDMKKIHIFDKTTGKAIF MAGVRLVDVWKVFGEVTAVREMSLEVKDGEFMILLGPSGCGKTTTLRMIAGLEEPSRGQIYIGDKLVADPEKGIFVPPKDRDIAMVFQSYALYPHMTVYDNIAFPLKLRKVPRQEIDQRVREVAELLGLTELLNRKPRELSGGQRQRVALGRAIVRKPQVFLMDEPLSNLDAKLRVRMRAELKKLQRQLGVTTIYVTHDQVEAMTMGDRIAVMNRGVLQQVGSPDEVYDKPANTFVAGFIGSPPMNFLDAIVTEDGFVDFGEFRLKLLPDQFEVLGELGYVGREVIFGIRPEDLYDAMFAQVRVPGENLVRAVVEIVENLGSERIVRLRVGGVTFVGSFRSESRVREGVEVDVVFDMKKIHIFDKTTGKAIF 1g2x-a1-m1-cB_1g2x-a1-m1-cC Sequence induced trimerization of krait PLA2: crystal structure of the trimeric form of krait PLA2 Q6SLM0 Q6SLM0 2.5 X-RAY DIFFRACTION 20 1.0 132961 (Bungarus caeruleus) 132961 (Bungarus caeruleus) 118 118 1g2x-a1-m1-cA_1g2x-a1-m1-cB 1g2x-a1-m1-cA_1g2x-a1-m1-cC NLQQFKNMIQCAGTRTWTAYINYGCYCGKGGSGTPVDKLDRCCYTHDHCYNQADSIPGCNPNIKTYSYTCTQPNITCTRTADACAKFLCDCDRTAAICFASAPYNINNIMISASNSCQ NLQQFKNMIQCAGTRTWTAYINYGCYCGKGGSGTPVDKLDRCCYTHDHCYNQADSIPGCNPNIKTYSYTCTQPNITCTRTADACAKFLCDCDRTAAICFASAPYNINNIMISASNSCQ 1g39-a4-m2-cB_1g39-a4-m2-cD WILD-TYPE HNF-1ALPHA DIMERIZATION DOMAIN P22361 P22361 1.22 X-RAY DIFFRACTION 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 30 30 1g39-a1-m1-cA_1g39-a1-m1-cC 1g39-a2-m1-cB_1g39-a2-m1-cD 1g39-a3-m1-cA_1g39-a3-m1-cC 1g39-a3-m1-cB_1g39-a3-m1-cD 1g39-a4-m1-cA_1g39-a4-m1-cC VSKLSQLQTELLAALLESGLSKEALIQALG VSKLSQLQTELLAALLESGLSKEALIQALG 1g3m-a1-m1-cB_1g3m-a1-m1-cA CRYSTAL STRUCTURE OF HUMAN ESTROGEN SULFOTRANSFERASE IN COMPLEX WITH IN-ACTIVE COFACTOR PAP AND 3,5,3',5'-TETRACHLORO-BIPHENYL-4,4'-DIOL P49888 P49888 1.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 290 1hy3-a1-m1-cA_1hy3-a1-m1-cB SELDYYEKFEEVHGILMYKDFVKYWDNVEAFQARPDDLVIATYPKSGTTWVSEIVYMIYKEGDVEKCKEDVIFNRIPFLECRNGVKQLDEMNSPRIVKTHLPPELLPASFWEKDCKIIYLCRNAKDVAVSFYYFFLMVAGHPNPGSFPEFVEKFMQGQVPYGSWYKHVKSWWEKGKSPRVLFLFYEDLKEDIRKEVIKLIHFLERKPSEELVDRIIHHTSFQEMKNNPSTNYTTLPDEIMNQKLSPFMRKGITGDWKNHFTVALNEKFDKHYEQQMKESTLKFRT SELDYYEKFEEVHGILMYKDFVKYWDNVEAFQARPDDLVIATYPKSGTTWVSEIVYMIYKEGDVEKCKEDVIFNRIPFLECRKENLMNGVKQLDEMNSPRIVKTHLPPELLPASFWEKDCKIIYLCRNAKDVAVSFYYFFLMVAGHPNPGSFPEFVEKFMQGQVPYGSWYKHVKSWWEKGKSPRVLFLFYEDLKEDIRKEVIKLIHFLERKPSEELVDRIIHHTSFQEMKNNPSTNYTTLPDEIMNQKLSPFMRKGITGDWKNHFTVALNEKFDKHYEQQMKESTLKFRT 1g3n-a3-m1-cC_1g3n-a3-m1-cG STRUCTURE OF A P18(INK4C)-CDK6-K-CYCLIN TERNARY COMPLEX Q98147 Q98147 2.9 X-RAY DIFFRACTION 15 1.0 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 233 233 LCEDRIFYNILEIEPRFLTSDSVFGTFQQSLTSHMRKLLGTWMFSVCQEYNLEPNVVALALNLLDRLLLIKQVSKEHFQKTGSACLLVASKLRSLTPISTSSLCYAAADSFSRQELIDQEKELLEKLAWRTEAVLATDVTSFLLLKLVGGSQHLDFWHHEVNTLITKALVDPLTGSLPASIISAAGCALLVPANVIPQGVVPQLASILGCDVSVLQAAVEQILTSVSDFDLRI LCEDRIFYNILEIEPRFLTSDSVFGTFQQSLTSHMRKLLGTWMFSVCQEYNLEPNVVALALNLLDRLLLIKQVSKEHFQKTGSACLLVASKLRSLTPISTSSLCYAAADSFSRQELIDQEKELLEKLAWRTEAVLATDVTSFLLLKLVGGSQHLDFWHHEVNTLITKALVDPLTGSLPASIISAAGCALLVPANVIPQGVVPQLASILGCDVSVLQAAVEQILTSVSDFDLRI 1g3n-a4-m1-cA_1g3n-a4-m1-cE STRUCTURE OF A P18(INK4C)-CDK6-K-CYCLIN TERNARY COMPLEX Q00534 Q00534 2.9 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 1g3n-a3-m1-cA_1g3n-a3-m1-cE ADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDRETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKDMMFQLLRGLDFLHSHRVVHRDLKPQNILVTSSGQIKLADFGLARIYSFQMALTSVVVTLWYRAPEVLLQSSYATPVDLWSVGCIFAEMFRRKPLFRGSSDVDQLGKILDVIGLPGEEDWPRDVALPRQAFHSKSAQPIEKFVTDIDELGKDLLLKCLTFNPAKRISAYSALSHPYFQ ADQQYECVAEIGEGAYGKVFKARDLKNGGRFVALKRVRVQTGEEGMPLSTIREVAVLRHLETFEHPNVVRLFDVCTVSRTDRETKLTLVFEHVDQDLTTYLDKVPEPGVPTETIKDMMFQLLRGLDFLHSHRVVHRDLKPQNILVTSSGQIKLADFGLARIYSFQMALTSVVVTLWYRAPEVLLQSSYATPVDLWSVGCIFAEMFRRKPLFRGSSDVDQLGKILDVIGLPGEEDWPRDVALPRQAFHSKSAQPIEKFVTDIDELGKDLLLKCLTFNPAKRISAYSALSHPYFQ 1g3s-a1-m1-cA_1g3s-a1-m2-cA CYS102SER DTXR P0DJL7 P0DJL7 2.4 X-RAY DIFFRACTION 54 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 212 212 1bi2-a1-m1-cB_1bi2-a1-m1-cA 1bi3-a1-m1-cB_1bi3-a1-m1-cA 1dpr-a1-m1-cA_1dpr-a1-m1-cB 1fwz-a1-m1-cA_1fwz-a1-m2-cA 1g3t-a1-m1-cB_1g3t-a1-m1-cA 1g3w-a1-m1-cA_1g3w-a1-m2-cA 1g3y-a1-m1-cA_1g3y-a1-m2-cA 1p92-a2-m1-cA_1p92-a2-m2-cA 2dtr-a1-m1-cA_2dtr-a1-m2-cA LVDTTEMYLRTIYELEEEGVTPLRARIAERLEQSGPTVSQTVARMERDGLVVVASDRSLQMTPTGRTLATAVMRKHRLAERLLTDIIGLDINKVHDEASRWEHVMSDEVERRLVKVLKDVSRSPFGNPIPGLDELGVPGTRVIDAATSMPRKVRIVQINEIFQVETDQFTQLLDADIRVGSEVEIVDHITLSHNGKDVELLDDLAHTIRIEE LVDTTEMYLRTIYELEEEGVTPLRARIAERLEQSGPTVSQTVARMERDGLVVVASDRSLQMTPTGRTLATAVMRKHRLAERLLTDIIGLDINKVHDEASRWEHVMSDEVERRLVKVLKDVSRSPFGNPIPGLDELGVPGTRVIDAATSMPRKVRIVQINEIFQVETDQFTQLLDADIRVGSEVEIVDHITLSHNGKDVELLDDLAHTIRIEE 1g43-a2-m1-cA_1g43-a2-m2-cA CRYSTAL STRUCTURE OF A FAMILY IIIA CBD FROM CLOSTRIDIUM CELLULOLYTICUM Q45996 Q45996 2.2 X-RAY DIFFRACTION 28 1.0 1521 (Ruminiclostridium cellulolyticum) 1521 (Ruminiclostridium cellulolyticum) 160 160 AGTGVVSVQFNNGSSPASSNSIYARFKVTNTSGSPINLADLKLRYYYTQDADKPLTFWCDHAGYMSGSNYIDATSKVTGSFKAVSPAVTNADHYLEVALNSDAGSLPAGGSIEIQTRFARNDWSNFDQSNDWSYTAAGSYMDWQKISAFVGGTLAYGSTP AGTGVVSVQFNNGSSPASSNSIYARFKVTNTSGSPINLADLKLRYYYTQDADKPLTFWCDHAGYMSGSNYIDATSKVTGSFKAVSPAVTNADHYLEVALNSDAGSLPAGGSIEIQTRFARNDWSNFDQSNDWSYTAAGSYMDWQKISAFVGGTLAYGSTP 1g5b-a4-m3-cC_1g5b-a4-m4-cC BACTERIOPHAGE LAMBDA SER/THR PROTEIN PHOSPHATASE P03772 P03772 2.15 X-RAY DIFFRACTION 35 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 221 221 MRYYEKIDGSKYRNIWVVGDLHGCYTNLMNKLDTIGFDNKKDLLISVGDLVDRGAENVECLELITFPWFRAVRGNHEQMMIDGLSERGNVNHWLLNGGGWFFNLDYDKEILAKALAHKADELPLIIELVSKDKKYVICHADYPFDEYEFGKPVDHQQVIWNRERISNSQNGIVKEIKGADTFIFGHTPAVKPLKFANQMYIDTGAVFCGNLTLIQVQGAGA MRYYEKIDGSKYRNIWVVGDLHGCYTNLMNKLDTIGFDNKKDLLISVGDLVDRGAENVECLELITFPWFRAVRGNHEQMMIDGLSERGNVNHWLLNGGGWFFNLDYDKEILAKALAHKADELPLIIELVSKDKKYVICHADYPFDEYEFGKPVDHQQVIWNRERISNSQNGIVKEIKGADTFIFGHTPAVKPLKFANQMYIDTGAVFCGNLTLIQVQGAGA 1g5b-a5-m1-cB_1g5b-a5-m3-cC BACTERIOPHAGE LAMBDA SER/THR PROTEIN PHOSPHATASE P03772 P03772 2.15 X-RAY DIFFRACTION 35 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 221 221 1g5b-a4-m1-cB_1g5b-a4-m3-cC 1g5b-a4-m2-cB_1g5b-a4-m4-cC MRYYEKIDGSKYRNIWVVGDLHGCYTNLMNKLDTIGFDNKKDLLISVGDLVDRGAENVECLELITFPWFRAVRGNHEQMMIDGLSERGNVNHWLLNGGGWFFNLDYDKEILAKALAHKADELPLIIELVSKDKKYVICHADYPFDEYEFGKPVDHQQVIWNRERISNSQNGIVKEIKGADTFIFGHTPAVKPLKFANQMYIDTGAVFCGNLTLIQVQGAGA MRYYEKIDGSKYRNIWVVGDLHGCYTNLMNKLDTIGFDNKKDLLISVGDLVDRGAENVECLELITFPWFRAVRGNHEQMMIDGLSERGNVNHWLLNGGGWFFNLDYDKEILAKALAHKADELPLIIELVSKDKKYVICHADYPFDEYEFGKPVDHQQVIWNRERISNSQNGIVKEIKGADTFIFGHTPAVKPLKFANQMYIDTGAVFCGNLTLIQVQGAGA 1g5c-a2-m1-cD_1g5c-a2-m1-cC CRYSTAL STRUCTURE OF THE 'CAB' TYPE BETA CLASS CARBONIC ANHYDRASE FROM METHANOBACTERIUM THERMOAUTOTROPHICUM Q50565 Q50565 2.1 X-RAY DIFFRACTION 146 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 158 169 1g5c-a1-m1-cB_1g5c-a1-m1-cA 1g5c-a3-m1-cF_1g5c-a3-m1-cE IIKDILRENQDSPKLCIITCMDSRLIDLLERALGIGRGDAKVIKNAGNIVDDGVIRSAAVAIYALGDNEIIIVGHTDCGMARLDEDLIVSRMRELGVEEEVIENFSIDVLNPVGDEEENVIEGVKRLKSSPLIPESIGVHGLIIDINTGRLKPLYLDE IIKDILRENQDFRFRDLSDLKHSPKLCIITCMDSRLIDLLERALGIGRGDAKVIKNAGNIVDDGVIRSAAVAIYALGDNEIIIVGHTDCGMARLDEDLIVSRMRELGVEEEVIENFSIDVLNPVGDEEENVIEGVKRLKSSPLIPESIGVHGLIIDINTGRLKPLYLDE 1g5g-a2-m1-cE_1g5g-a2-m1-cF FRAGMENT OF FUSION PROTEIN FROM NEWCASTLE DISEASE VIRUS P35936 P35936 3.3 X-RAY DIFFRACTION 254 1.0 2560319 (Avian orthoavulavirus 1) 2560319 (Avian orthoavulavirus 1) 357 357 1g5g-a1-m1-cA_1g5g-a1-m1-cB 1g5g-a1-m1-cA_1g5g-a1-m1-cC 1g5g-a1-m1-cB_1g5g-a1-m1-cC 1g5g-a2-m1-cD_1g5g-a2-m1-cE 1g5g-a2-m1-cD_1g5g-a2-m1-cF 3maw-a1-m1-cA_3maw-a1-m2-cA 3maw-a1-m1-cA_3maw-a1-m3-cA 3maw-a1-m2-cA_3maw-a1-m3-cA 3maw-a2-m1-cB_3maw-a2-m4-cB 3maw-a2-m1-cB_3maw-a2-m5-cB 3maw-a2-m4-cB_3maw-a2-m5-cB DGRPLAAAGIVVTGDKAVNIYTSSQTGSIIIKLLPNMPKDKEACAKAPLEAYNRTLTTLLTPLGDSIRRIQESGLSQLAVAVGKMQQFVNDQFNKTAQELDCIKITQQVGVELNLYLTELTTVFGPQITSPALTQLTIQALYNLAGGNMDYLLTKLGVGNNQLSSLISSGLITGNPILYDSQTQLLGIQVTLPSVGNLNNMRATYLETLSVSTTKGFASALVPKVVTQVGSVIEELDTSYCIETDLDLYCTRIVTFPMSPGIYSCLSGNTSACMYSKTEGALTTPYMTLKGSVIANCKMTTCRCADPPGIISQNYGEAVSLIDRQSCNILSLDGITLRLSGEFDATYQKNISIQDSQ DGRPLAAAGIVVTGDKAVNIYTSSQTGSIIIKLLPNMPKDKEACAKAPLEAYNRTLTTLLTPLGDSIRRIQESGLSQLAVAVGKMQQFVNDQFNKTAQELDCIKITQQVGVELNLYLTELTTVFGPQITSPALTQLTIQALYNLAGGNMDYLLTKLGVGNNQLSSLISSGLITGNPILYDSQTQLLGIQVTLPSVGNLNNMRATYLETLSVSTTKGFASALVPKVVTQVGSVIEELDTSYCIETDLDLYCTRIVTFPMSPGIYSCLSGNTSACMYSKTEGALTTPYMTLKGSVIANCKMTTCRCADPPGIISQNYGEAVSLIDRQSCNILSLDGITLRLSGEFDATYQKNISIQDSQ 1g5i-a2-m1-cC_1g5i-a2-m1-cD CRYSTAL STRUCTURE OF THE ACCESSORY SUBUNIT OF MURINE MITOCHONDRIAL POLYMERASE GAMMA Q9QZM2 Q9QZM2 2.3 X-RAY DIFFRACTION 205 0.985 10090 (Mus musculus) 10090 (Mus musculus) 405 415 1g5h-a1-m1-cB_1g5h-a1-m1-cA 1g5h-a2-m1-cC_1g5h-a2-m1-cD 1g5i-a1-m1-cB_1g5i-a1-m1-cA EALVDLCRRRHFLSGTPQQLSTAALLSGCHARFGPLGVELRKNLASQWWSSMVVFREQVFAVDSLHQEPGSSQPRDSAFRLVSPESIREILQDSKEQLVAFLENLLKTSGKLRATLLHGALEHYVNCLDLVNRKLPFGLAQIGVCFHPVSTRVGEKTEASLVWFTPTRTSSQWLDFWLRHRLLWWRKFAMSPSNFSSADCQDELGRKGSKLYYSFPWGKEPIETLWNLGDQELLHTYPGNVSTIQGRDGRKNVVPCVLSVSGDVDLGTLAYLYDSFQLRKVLKLHPCLAPIKVALDVGKGPTVELRQVCQGLLNELLENGISVWPGYSETVHSSLEQLHSKYDEMSVLFSVLVTETTLENGLIQLRSRDTTMKEMMHISKLRDFLVKYLASASNVAAALDHHHHH REALVDLCRRRHFLSGTPQQLSTAALLSGCHARFGPLGVELRKNLASQWWSSMVVFREQVFAVDSLHQEPGRDSAFRLVSPESIREILQDREPSKEQLVAFLENLLKTSGKLRATLLHGALEHYVNCLDLVNRKLPFGLAQIGVCFHPVSRVGEKTEASLVWFTPTRTSSQWLDFWLRHRLLWWRKFAMSPSNFSSADCQDELGRKGSKLYYSFPWGKEPIETLWNLGDQELLHTYPGNVSTIQGRDGRKNVVPCVLSVSGDVDLGTLAYLYDSFQLAENSFARKKSLQRKVLKLHPCLAPIKVALDVGKGPTVELRQVCQGLLNELLENGISVWPGYSETVHSSLEQLHSKYDEMSVLFSVLVTETTLENGLIQLRSRDTTMKEMMHISKLRDFLVKYLASASNVAAALDHHHH 1g5t-a1-m1-cA_1g5t-a1-m2-cA THE THREE-DIMENSIONAL STRUCTURE OF ATP:CORRINOID ADENOSYLTRANSFERASE FROM SALMONELLA TYPHIMURIUM. APO-ATP FORM P31570 P31570 1.8 X-RAY DIFFRACTION 25 1.0 157 157 1g5r-a1-m1-cA_1g5r-a1-m2-cA ERGIIIVFTGNGKGKTTAAFGTAARAVGHGKNVGVVQFIKGTWPNGERNLLEPHGVEFQVMATGFTWETQNREADTAACMAVWQHGKRMLADPLLDMVVLDELTYMVAYDYLPLEEVISALNARPGHQTVIITGRGCHRDILDLADTVSELRPVKHA ERGIIIVFTGNGKGKTTAAFGTAARAVGHGKNVGVVQFIKGTWPNGERNLLEPHGVEFQVMATGFTWETQNREADTAACMAVWQHGKRMLADPLLDMVVLDELTYMVAYDYLPLEEVISALNARPGHQTVIITGRGCHRDILDLADTVSELRPVKHA 1g5t-a2-m1-cA_1g5t-a2-m3-cA THE THREE-DIMENSIONAL STRUCTURE OF ATP:CORRINOID ADENOSYLTRANSFERASE FROM SALMONELLA TYPHIMURIUM. APO-ATP FORM P31570 P31570 1.8 X-RAY DIFFRACTION 131 1.0 157 157 1g5r-a2-m1-cA_1g5r-a2-m3-cA 1g64-a1-m1-cA_1g64-a1-m1-cB 4hut-a1-m1-cB_4hut-a1-m1-cA ERGIIIVFTGNGKGKTTAAFGTAARAVGHGKNVGVVQFIKGTWPNGERNLLEPHGVEFQVMATGFTWETQNREADTAACMAVWQHGKRMLADPLLDMVVLDELTYMVAYDYLPLEEVISALNARPGHQTVIITGRGCHRDILDLADTVSELRPVKHA ERGIIIVFTGNGKGKTTAAFGTAARAVGHGKNVGVVQFIKGTWPNGERNLLEPHGVEFQVMATGFTWETQNREADTAACMAVWQHGKRMLADPLLDMVVLDELTYMVAYDYLPLEEVISALNARPGHQTVIITGRGCHRDILDLADTVSELRPVKHA 1g5z-a1-m1-cA_1g5z-a1-m2-cA CRYSTAL STRUCTURE OF LYME DISEASE ANTIGEN OUTER SURFACE PROTEIN C (OSPC) FROM BORRELIA BURGDORFERI STRAIN N40 Q44717 Q44717 2.51 X-RAY DIFFRACTION 194 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 164 164 PNLTEISKKITESNAVVLAVKEVETLLASIDELATKAIGKKIGNNGLEANQSKNTSLLSGAYAISDLIAEKLNVLKNEELKEKIDTAKQCSTEFTNKLKSEHAVLGLDNLTDDNAQRAILKKHANKDKGAAELEKLFKAVENLSKAAQDTLKNAVKELTSPIVA PNLTEISKKITESNAVVLAVKEVETLLASIDELATKAIGKKIGNNGLEANQSKNTSLLSGAYAISDLIAEKLNVLKNEELKEKIDTAKQCSTEFTNKLKSEHAVLGLDNLTDDNAQRAILKKHANKDKGAAELEKLFKAVENLSKAAQDTLKNAVKELTSPIVA 1g60-a1-m1-cB_1g60-a1-m1-cA Crystal Structure of Methyltransferase MboIIa (Moraxella bovis) P23192 P23192 1.74 X-RAY DIFFRACTION 121 0.991 476 (Moraxella bovis) 476 (Moraxella bovis) 228 238 MLEINKIHQMNCFDFLDQVENKSVQLAVIDPPYNLSKADWDSFDSHNEFLAFTYRWIDKVLDKLDKDGSLYIFNTPFNCAFICQYLVSKGMIFQNWITWDKRDGMGSAKRRFSTGQETILFFSKSKNHTFNYDEVRVPYGILKNGKRWFPNPNGRLCGEVWHFSSITPKPRDLIERIIRASSNPNDLVLDCFMGSGTTAIVAKKLGRNFIGCDMNAEYVNQANFVLNQ MLEINKIHQMNCFDFLDQVENKSVQLAVIDPPYNLSKADWDSFDSHNEFLAFTYRWIDKVLDKLDKDGSLYIFNTPFNCAFICQYLVSKGMIFQNWITWDKRDGMGSAKRRFSTGQETILFFSKSKNHTFNYDEVRVPYESTDRIKHASEKGILKNGKRWFPNPNGRLCGEVWHFSTPKPRDLIERIIRASSNPNDLVLDCFMGSGTTAIVAKKLGRNFIGCDMNAEYVNQANFVLNQ 1g6g-a1-m1-cB_1g6g-a1-m1-cA X-RAY STRUCTURE OF THE N-TERMINAL FHA DOMAIN FROM S. CEREVISIAE RAD53P IN COMPLEX WITH A PHOSPHOTHREONINE PEPTIDE AT 1.6 A RESOLUTION P22216 P22216 1.6 X-RAY DIFFRACTION 20 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 124 127 IVCRVICTTGQIPIRDLSADISQVLKEKRSIKKVWTFGRNPACDYHLGNISRLSNKHFQILLGEDGNLLLNDISTNGTWLNGQKVEKNSNQLLSQGDEITVGVGVESDILSLVIFINDKFKQCL GENIVCRVICTTGQIPIRDLSADISQVLKEKRSIKKVWTFGRNPACDYHLGNISRLSNKHFQILLGEDGNLLLNDISTNGTWLNGQKVEKNSNQLLSQGDEITVGVGVESDILSLVIFINDKFKQCL 1g6o-a2-m3-cB_1g6o-a2-m6-cB CRYSTAL STRUCTURE OF THE HELICOBACTER PYLORI ATPASE, HP0525, IN COMPLEX WITH ADP Q7BK04 Q7BK04 2.5 X-RAY DIFFRACTION 14 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 317 317 1g6o-a2-m1-cA_1g6o-a2-m6-cA 1g6o-a2-m1-cB_1g6o-a2-m5-cB 1g6o-a2-m2-cA_1g6o-a2-m5-cA 1g6o-a2-m2-cB_1g6o-a2-m4-cB 1g6o-a2-m3-cA_1g6o-a2-m4-cA 1opx-a2-m1-cA_1opx-a2-m6-cA 1opx-a2-m1-cB_1opx-a2-m5-cB 1opx-a2-m2-cA_1opx-a2-m5-cA 1opx-a2-m2-cB_1opx-a2-m4-cB 1opx-a2-m3-cA_1opx-a2-m4-cA 1opx-a2-m3-cB_1opx-a2-m6-cB LSAEDKKFLEVERALKEAALNPLRHATEELFGDFLKENITEICYNGNKVVWVLKNNGEWQPFDVRDRKAFSLSRLHFARCCASFKKKTIDNYENPILSSNLANGERVQIVLSPVTVNDETISISIRIPSKTTYPHSFFEEQGFYNLLDNKEQAISAIKDGIAIGKNVIVCGGTGSGKTTYIKSIEFIPKEERIISIEDTEEIVFKHHKNYTQLFFGGNITSADCLKSCLRRPDRIILGELRSSEAYDFYNVLCSGHKGTLTTLHAGSSEEAFIRLANSSSNSAARNIKFESLIEGFKDLIDIVHINHHKQCDEFYIK LSAEDKKFLEVERALKEAALNPLRHATEELFGDFLKENITEICYNGNKVVWVLKNNGEWQPFDVRDRKAFSLSRLHFARCCASFKKKTIDNYENPILSSNLANGERVQIVLSPVTVNDETISISIRIPSKTTYPHSFFEEQGFYNLLDNKEQAISAIKDGIAIGKNVIVCGGTGSGKTTYIKSIEFIPKEERIISIEDTEEIVFKHHKNYTQLFFGGNITSADCLKSCLRRPDRIILGELRSSEAYDFYNVLCSGHKGTLTTLHAGSSEEAFIRLANSSSNSAARNIKFESLIEGFKDLIDIVHINHHKQCDEFYIK 1g6q-a1-m1-c2_1g6q-a1-m1-c6 CRYSTAL STRUCTURE OF YEAST ARGININE METHYLTRANSFERASE, HMT1 P38074 P38074 2.9 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 320 320 1g6q-a1-m1-c3_1g6q-a1-m1-c1 1g6q-a1-m1-c4_1g6q-a1-m1-c2 1g6q-a1-m1-c5_1g6q-a1-m1-c1 HYGIHEEMLQDTVRTLSYRNAIIQNKDLFKDKIVLDVGCGTGILSMFAAKHGAKHVIGVDMSSIIEMAKELVELNGFSDKITLLRGKLEDVHLPFPKVDIIISEWMGYFLLYESMMDTVLYARDHYLVEGGLIFPDKCSIHLAGLEDSQYKDEKLNYWQDVYGFDYSPFVPLVLHEPIVDTVERNNVNTTSDKLIEFDLNTVKISDLAFKSNFKLTAKRQDMINGIVTWFDIVFPAPKGKRPVEFSTGPHAPYTHWKQTIFYFPDDLDAETGDTIEGELVCSPNEKNNRDLNIKISYKFESNGIDGNSRSRKNEGSYLMH HYGIHEEMLQDTVRTLSYRNAIIQNKDLFKDKIVLDVGCGTGILSMFAAKHGAKHVIGVDMSSIIEMAKELVELNGFSDKITLLRGKLEDVHLPFPKVDIIISEWMGYFLLYESMMDTVLYARDHYLVEGGLIFPDKCSIHLAGLEDSQYKDEKLNYWQDVYGFDYSPFVPLVLHEPIVDTVERNNVNTTSDKLIEFDLNTVKISDLAFKSNFKLTAKRQDMINGIVTWFDIVFPAPKGKRPVEFSTGPHAPYTHWKQTIFYFPDDLDAETGDTIEGELVCSPNEKNNRDLNIKISYKFESNGIDGNSRSRKNEGSYLMH 1g6q-a3-m1-c6_1g6q-a3-m1-c5 CRYSTAL STRUCTURE OF YEAST ARGININE METHYLTRANSFERASE, HMT1 P38074 P38074 2.9 X-RAY DIFFRACTION 67 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 320 321 1g6q-a1-m1-c2_1g6q-a1-m1-c1 1g6q-a1-m1-c4_1g6q-a1-m1-c3 1g6q-a1-m1-c6_1g6q-a1-m1-c5 1g6q-a2-m1-c2_1g6q-a2-m1-c1 1g6q-a4-m1-c4_1g6q-a4-m1-c3 HYGIHEEMLQDTVRTLSYRNAIIQNKDLFKDKIVLDVGCGTGILSMFAAKHGAKHVIGVDMSSIIEMAKELVELNGFSDKITLLRGKLEDVHLPFPKVDIIISEWMGYFLLYESMMDTVLYARDHYLVEGGLIFPDKCSIHLAGLEDSQYKDEKLNYWQDVYGFDYSPFVPLVLHEPIVDTVERNNVNTTSDKLIEFDLNTVKISDLAFKSNFKLTAKRQDMINGIVTWFDIVFPAPKGKRPVEFSTGPHAPYTHWKQTIFYFPDDLDAETGDTIEGELVCSPNEKNNRDLNIKISYKFESNGIDGNSRSRKNEGSYLMH DHYGIHEEMLQDTVRTLSYRNAIIQNKDLFKDKIVLDVGCGTGILSMFAAKHGAKHVIGVDMSSIIEMAKELVELNGFSDKITLLRGKLEDVHLPFPKVDIIISEWMGYFLLYESMMDTVLYARDHYLVEGGLIFPDKCSIHLAGLEDSQYKDEKLNYWQDVYGFDYSPFVPLVLHEPIVDTVERNNVNTTSDKLIEFDLNTVKISDLAFKSNFKLTAKRQDMINGIVTWFDIVFPAPKGKRPVEFSTGPHAPYTHWKQTIFYFPDDLDAETGDTIEGELVCSPNEKNNRDLNIKISYKFESNGIDGNSRSRKNEGSYLMH 1g6u-a2-m1-cA_1g6u-a2-m3-cB CRYSTAL STRUCTURE OF A DOMAIN SWAPPED DIMER 1.48 X-RAY DIFFRACTION 67 1.0 48 48 1g6u-a2-m1-cB_1g6u-a2-m2-cA 1g6u-a2-m2-cB_1g6u-a2-m3-cA SLAALKSELQALKKEGFSPEELAALESELQALEKKLAALKSKLQALKG SLAALKSELQALKKEGFSPEELAALESELQALEKKLAALKSKLQALKG 1g6u-a2-m3-cA_1g6u-a2-m3-cB CRYSTAL STRUCTURE OF A DOMAIN SWAPPED DIMER 1.48 X-RAY DIFFRACTION 54 1.0 48 48 1g6u-a1-m1-cA_1g6u-a1-m1-cB 1g6u-a2-m1-cA_1g6u-a2-m1-cB 1g6u-a2-m2-cA_1g6u-a2-m2-cB SLAALKSELQALKKEGFSPEELAALESELQALEKKLAALKSKLQALKG SLAALKSELQALKKEGFSPEELAALESELQALEKKLAALKSKLQALKG 1g77-a1-m1-cA_1g77-a1-m2-cA X-RAY STRUCTURE OF ESCHERICHIA COLI PYRIDOXINE 5`-PHOSPHATE OXIDASE COMPLEXED WITH PYRIDOXAL 5'-PHOSPHATE AT 2.0 A RESOLUTION P0AFI7 P0AFI7 2.1 X-RAY DIFFRACTION 175 1.0 562 (Escherichia coli) 562 (Escherichia coli) 195 195 1dnl-a1-m1-cA_1dnl-a1-m2-cA 1g76-a1-m1-cA_1g76-a1-m2-cA 1g78-a1-m1-cA_1g78-a1-m2-cA 1g79-a1-m1-cA_1g79-a1-m2-cA 1jnw-a1-m1-cA_1jnw-a1-m2-cA 6ylz-a1-m1-cAAA_6ylz-a1-m2-cAAA GGLRRRDLPADPLTLFERWLSQACEAKLADPTAVVATVDEHGQPYQRIVLLKHYDEKGVFYTNLGSRKAHQIENNPRVSLLFPWHTLERQVVIGKAERLSTLEVKYFHSRPRDSQIGAWVSKQSSRISARGILESKFLELKQKFQQGEVPLPSFWGGFRVSLEQIEFWQGGEHRLHDRFLYQRENDAWKIDRLAP GGLRRRDLPADPLTLFERWLSQACEAKLADPTAVVATVDEHGQPYQRIVLLKHYDEKGVFYTNLGSRKAHQIENNPRVSLLFPWHTLERQVVIGKAERLSTLEVKYFHSRPRDSQIGAWVSKQSSRISARGILESKFLELKQKFQQGEVPLPSFWGGFRVSLEQIEFWQGGEHRLHDRFLYQRENDAWKIDRLAP 1g7y-a2-m1-cC_1g7y-a2-m1-cD THE CRYSTAL STRUCTURE OF THE 58KD VEGETATIVE LECTIN FROM THE TROPICAL LEGUME DOLICHOS BIFLORUS P19588 P19588 2.5 X-RAY DIFFRACTION 69 1.0 3840 (Vigna unguiculata subsp. cylindrica) 3840 (Vigna unguiculata subsp. cylindrica) 251 253 1g7y-a1-m1-cB_1g7y-a1-m1-cA ADIQSFSFKNFNSSSFILQGDATVSSSKLRLTKVKGNGLPTLSSLGRAFYSSPIQIYDKSTGAVASWATSFTANIFAPNKSSSADGIAFALVPVGSEPKSNSGFLGVFDSDVYDNSAQTVAVEFDTFSNTDWDPTSRHIGIDVNSIKSIRTASWGLANGQNAEILITYNAATSLLVASLVHPSRRTSYIVSERVDITNELPEYVSIGFSATTGLSEGYTETHDVLSWSFASKLPDDSEPLDIASYLVRNVL ADIQSFSFKNFNSSSFILQGDATVSSSKLRLTKVKGNGLPTLSSLGRAFYSSPIQIYDKSTGAVASWATSFTANIFAPNKSSSADGIAFALVPVGSEPKSNSGFLGVFDSDVYDNSAQTVAVEFDTFSNTDWDPTSRHIGIDVNSIKSIRTASWGLANGQNAEILITYNAATSLLVASLVHPSRRTSYIVSERVDITNELPEYVSIGFSATTGLSEGYTETHDVLSWSFASKLPDDSTTEPLDIASYLVRNVL 1g82-a4-m1-cC_1g82-a4-m1-cA STRUCTURE OF FIBROBLAST GROWTH FACTOR 9 P31371 P31371 2.6 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 155 157 1g82-a3-m1-cD_1g82-a3-m2-cC TDLDHLKGILRRRQLYCRTGFHLEIFPNGTIQGTRKDHSRFGILEFISIAVGLVSIRGVDSGLYLGMNEKGELYGSEKLTQECVFREQFEENWYNTYSSNLYKHVDTGRRYYVALNKDGTPREGTRTKRHQKFTHFLPRPVDPDKVPELYKDILS TDLDHLKGILRRRQLYCRTGFHLEIFPNGTIQGTRKDHSRFGILEFISIAVGLVSIRGVDSGLYLGMNEKGELYGSEKLTQECVFREQFEENWYNTYSSNLYKHVDTGRRYYVALNKDGTPREGTRTKRHQKFTHFLPRPVDPDKVPELYKDILSQS 1g82-a4-m1-cC_1g82-a4-m1-cB STRUCTURE OF FIBROBLAST GROWTH FACTOR 9 P31371 P31371 2.6 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 155 157 1g82-a1-m1-cD_1g82-a1-m1-cA 1g82-a2-m1-cC_1g82-a2-m1-cB 1g82-a3-m1-cD_1g82-a3-m1-cA 1g82-a3-m2-cC_1g82-a3-m2-cB 1g82-a4-m1-cD_1g82-a4-m1-cA 1ihk-a1-m1-cA_1ihk-a1-m2-cA TDLDHLKGILRRRQLYCRTGFHLEIFPNGTIQGTRKDHSRFGILEFISIAVGLVSIRGVDSGLYLGMNEKGELYGSEKLTQECVFREQFEENWYNTYSSNLYKHVDTGRRYYVALNKDGTPREGTRTKRHQKFTHFLPRPVDPDKVPELYKDILS VTDLDHLKGILRRRQLYCRTGFHLEIFPNGTIQGTRKDHSRFGILEFISIAVGLVSIRGVDSGLYLGMNEKGELYGSEKLTQECVFREQFEENWYNTYSSNLYKHVDTGRRYYVALNKDGTPREGTRTKRHQKFTHFLPRPVDPDKVPELYKDILSQ 1g8k-a6-m1-cA_1g8k-a6-m1-cC CRYSTAL STRUCTURE ANALYSIS OF ARSENITE OXIDASE FROM ALCALIGENES FAECALIS Q7SIF4 Q7SIF4 1.64 X-RAY DIFFRACTION 151 1.0 511 (Alcaligenes faecalis) 511 (Alcaligenes faecalis) 822 822 1g8k-a5-m1-cE_1g8k-a5-m1-cG NDRITLPPANAQRTNMTCHFCIVGCGYHVYKWPELEEGGRAPEQNALGLDFRKQLPPLAVTLTPAMTNVVTEHDGARYDIMVVPDKACVVNSGLSSTRGGKMASYMYTPTGDGKERLSAPRLYAADEWVDTTWDHAMALYAGLIKKTLDKDGPQGVFFSCFDHGGAGGGFENTWGTGKLMFSAIQTPMVRIHNRPAYNSECHATREMGIGELNNAYEDAQLADVIWSIGNNPYESQTNYFLNHWLPNLQGATTSKKKERFPNENFPQARIIFVDPRETPSVAIARHVAGNDRVLHLAIEPGTDTALFNGLFTYVVEQGWIDKPFIEAHTKGFDDAVKTNRLSLDECSNITGVPVDMLKRAAEWSYKPKASGQAPRTMHAYEKGIIWGNDNYVIQSALLDLVIATHNVGRRGTGCVRMGGHQEGYTRPPYPGDKKIYIDQELIKGKGRIMTWWGCNNFQTSNNAQALREAILQRSAIVKQAMQKARGATTEEMVDVIYEATQNGGLFVTSINLYPTKLAEAAHLMLPAAHPGEMNLTSMNGERRIRLSEKFMDPPGTAMADCLIAARIANALRDMYQKDGKAEMAAQFEGFDWKTEEDAFNDGFRRAGQPGAPAIDSQGGSTGHLVTYDRLRKSGNNGVQLPVVSWDESKGLVGTEMLYTEGKFDTDDGKAHFKPAPWNGLPATVQQQKDKYRFWLNNGRNNEVWQTAYHDQYNSLMQERYPMAYIEMNPDDCKQLDVTGGDIVEVYNDFGSTFAMVYPVAEIKRGQTFMLFGYVNGIQGDVTTDWTDRDIIPYYKGTWGDIRKVGSMSEFKRTVSFKSRRFG NDRITLPPANAQRTNMTCHFCIVGCGYHVYKWPELEEGGRAPEQNALGLDFRKQLPPLAVTLTPAMTNVVTEHDGARYDIMVVPDKACVVNSGLSSTRGGKMASYMYTPTGDGKERLSAPRLYAADEWVDTTWDHAMALYAGLIKKTLDKDGPQGVFFSCFDHGGAGGGFENTWGTGKLMFSAIQTPMVRIHNRPAYNSECHATREMGIGELNNAYEDAQLADVIWSIGNNPYESQTNYFLNHWLPNLQGATTSKKKERFPNENFPQARIIFVDPRETPSVAIARHVAGNDRVLHLAIEPGTDTALFNGLFTYVVEQGWIDKPFIEAHTKGFDDAVKTNRLSLDECSNITGVPVDMLKRAAEWSYKPKASGQAPRTMHAYEKGIIWGNDNYVIQSALLDLVIATHNVGRRGTGCVRMGGHQEGYTRPPYPGDKKIYIDQELIKGKGRIMTWWGCNNFQTSNNAQALREAILQRSAIVKQAMQKARGATTEEMVDVIYEATQNGGLFVTSINLYPTKLAEAAHLMLPAAHPGEMNLTSMNGERRIRLSEKFMDPPGTAMADCLIAARIANALRDMYQKDGKAEMAAQFEGFDWKTEEDAFNDGFRRAGQPGAPAIDSQGGSTGHLVTYDRLRKSGNNGVQLPVVSWDESKGLVGTEMLYTEGKFDTDDGKAHFKPAPWNGLPATVQQQKDKYRFWLNNGRNNEVWQTAYHDQYNSLMQERYPMAYIEMNPDDCKQLDVTGGDIVEVYNDFGSTFAMVYPVAEIKRGQTFMLFGYVNGIQGDVTTDWTDRDIIPYYKGTWGDIRKVGSMSEFKRTVSFKSRRFG 1g8r-a1-m1-cA_1g8r-a1-m1-cB MOEA P12281 P12281 2.65 X-RAY DIFFRACTION 176 1.0 562 (Escherichia coli) 562 (Escherichia coli) 403 403 1fc5-a1-m1-cB_1fc5-a1-m1-cA 1g8l-a1-m1-cA_1g8l-a1-m1-cB 2nqk-a1-m1-cA_2nqk-a1-m1-cB 2nqn-a1-m1-cA_2nqn-a1-m1-cB 2nqq-a1-m1-cA_2nqq-a1-m1-cB 2nqq-a2-m1-cC_2nqq-a2-m1-cD 2nqr-a1-m1-cB_2nqr-a1-m1-cA 2nqs-a1-m1-cA_2nqs-a1-m1-cB 2nqu-a1-m1-cA_2nqu-a1-m1-cB 2nqv-a1-m1-cB_2nqv-a1-m1-cA 2nro-a1-m1-cA_2nro-a1-m1-cB 2nrp-a1-m1-cA_2nrp-a1-m1-cB 2nrs-a1-m1-cA_2nrs-a1-m1-cB LMSLDTALNEMLSRVTPLTAQETLPLVQCFGRILASDVVSPLDVPGFDNSAMDGYAVRLADIASGQPLPVAGKSFAGQPYHGEWPAGTCIRIMTGAPVPEGCEAVVMQEQTEQMDNGVRFTAEVRSGQNIRRRGEDISAGAVVFPAGTRLTTAELPVIASLGIAEVPVIRKVRVALFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIRDDPHALRAAFIEADSQADVVISSGGVSVGEADYTKTILEELGEIAFWKLAIKPGKPFAFGKLSNSWFCGLPGNPVSATLTFYQLVQPLLAKLSGNTASGLPARQRVRTASRLKKTPGRLDFQRGVLQRNADGELEVTTTGHQGSHIFSSFSLGNCFIVLERDRGNVEVGEWVEVEPFNALFG LMSLDTALNEMLSRVTPLTAQETLPLVQCFGRILASDVVSPLDVPGFDNSAMDGYAVRLADIASGQPLPVAGKSFAGQPYHGEWPAGTCIRIMTGAPVPEGCEAVVMQEQTEQMDNGVRFTAEVRSGQNIRRRGEDISAGAVVFPAGTRLTTAELPVIASLGIAEVPVIRKVRVALFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIRDDPHALRAAFIEADSQADVVISSGGVSVGEADYTKTILEELGEIAFWKLAIKPGKPFAFGKLSNSWFCGLPGNPVSATLTFYQLVQPLLAKLSGNTASGLPARQRVRTASRLKKTPGRLDFQRGVLQRNADGELEVTTTGHQGSHIFSSFSLGNCFIVLERDRGNVEVGEWVEVEPFNALFG 1g8w-a1-m1-cB_1g8w-a1-m1-cD IMPROVED STRUCTURE OF PHYTOHEMAGGLUTININ-L FROM THE KIDNEY BEAN P05087 P05087 2.8 X-RAY DIFFRACTION 40 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 233 233 1fat-a1-m1-cA_1fat-a1-m1-cC 1fat-a1-m1-cD_1fat-a1-m1-cB 1g8w-a1-m1-cA_1g8w-a1-m1-cC SNDIYFNFQRFNETNLILQRDASVSSSGQLRLTNLNGNGEPRVGSLGRAFYSAPIQIWDNTTGTVASFATSFTFNIQVPNNAGPADGLAFALVPVGSQPKDKGGFLGLFDGSNSNFHTVAVEFDTLYNKDWDPTERHIGIDVNSIRSIKTTRWDFVNGENAEVLITYDSSTNLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATTGINKGNVETNDVLSWSFASKLS SNDIYFNFQRFNETNLILQRDASVSSSGQLRLTNLNGNGEPRVGSLGRAFYSAPIQIWDNTTGTVASFATSFTFNIQVPNNAGPADGLAFALVPVGSQPKDKGGFLGLFDGSNSNFHTVAVEFDTLYNKDWDPTERHIGIDVNSIRSIKTTRWDFVNGENAEVLITYDSSTNLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATTGINKGNVETNDVLSWSFASKLS 1g8w-a1-m1-cC_1g8w-a1-m1-cD IMPROVED STRUCTURE OF PHYTOHEMAGGLUTININ-L FROM THE KIDNEY BEAN P05087 P05087 2.8 X-RAY DIFFRACTION 56 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 233 233 1fat-a1-m1-cA_1fat-a1-m1-cB 1fat-a1-m1-cD_1fat-a1-m1-cC 1g8w-a1-m1-cA_1g8w-a1-m1-cB SNDIYFNFQRFNETNLILQRDASVSSSGQLRLTNLNGNGEPRVGSLGRAFYSAPIQIWDNTTGTVASFATSFTFNIQVPNNAGPADGLAFALVPVGSQPKDKGGFLGLFDGSNSNFHTVAVEFDTLYNKDWDPTERHIGIDVNSIRSIKTTRWDFVNGENAEVLITYDSSTNLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATTGINKGNVETNDVLSWSFASKLS SNDIYFNFQRFNETNLILQRDASVSSSGQLRLTNLNGNGEPRVGSLGRAFYSAPIQIWDNTTGTVASFATSFTFNIQVPNNAGPADGLAFALVPVGSQPKDKGGFLGLFDGSNSNFHTVAVEFDTLYNKDWDPTERHIGIDVNSIRSIKTTRWDFVNGENAEVLITYDSSTNLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATTGINKGNVETNDVLSWSFASKLS 1g8x-a1-m1-cA_1g8x-a1-m1-cB STRUCTURE OF A GENETICALLY ENGINEERED MOLECULAR MOTOR P05095 P05095 2.8 X-RAY DIFFRACTION 41 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 1009 1009 NPIHDRTSDYHKYLKVKQGDSDLFKLTVSDKRYIWYNPDPDERDSYECGEIVSETSDSFTFKTVDGQDRQVKKDDANQRNPIKFDGVEDMSELSYLNEPAVFHNLRVRYNQDLIYTYSGLFLVAVNPFKRIPIYTQEMVDIFKGRRRNEVAPHIFAISDVAYRSMLDDRQNQSLLITGESGAGKTENTKKVIQYLASVAGRNQANGSGVLEQQILQANPILEAFGNAKTTRNNNSSEFGKFIEIQFNNAGFISGASIQSYLLEKSRVVFQSETERNYHIFYQLLAGATAEEKKALHLAGPESFNYLNQSGCVDIKGVSDEDEFKITRQAMDIVGFSQEEQMSIFKIIAGILHLGNIKFEKGAGEGAVLKDKTALNAASTVFGVNPSVLEKALMEPRILAGRDLVAQHLNVEKSSSSRDALVKALYGRLFLWLVKKINNVLCSERKAYFIGVLDISGFEIFKVNSFEQLCINYTNEKLQQFFNHHMFKVEQEEYLKEKINWTFIDFGLDSQATIDLIDGRQPPGILALLDEQSVFPNATDNTLITKLHSHFSKKNAKYEEPRFSKTEFGVTHYAGQVMYEIQDWLEKNKDPLQQDLELCFKDSSDNVVTKLFNDPNIASRAKKGANFITVAAQYKEQLASLMATLETTNPHFVRCIIPNNKQLPAKLEDKVVLDQLRCNGVLEGIRITRKGFPNRIIYADFVKRYYLLAPNVPRDAEDSQKATDAVLKHLNIDPEQYRFGITKIFFRAGQLARIEEAREQRLGSEQTKSDYLKRANELVQWINDKQASLESRDFGDSIESVQSFMNAHKEYKKTEKPPKGQEVSELEAIYNSLQTKLRLIKREPFVAPAGLTPNEIDSTWSALEKAEQEHAEALRIELKRQKKIAVLLQKYNRILKKLENWATTKSVYLGSNETGDSITAVQAKLKNLEAFDGECQSLEGQSNSDLLSILAQLTELNYNGVPELTERKDTFFAQQWTGVKSSAETYKNTLLAELERLQKIEDLHHHHHHH NPIHDRTSDYHKYLKVKQGDSDLFKLTVSDKRYIWYNPDPDERDSYECGEIVSETSDSFTFKTVDGQDRQVKKDDANQRNPIKFDGVEDMSELSYLNEPAVFHNLRVRYNQDLIYTYSGLFLVAVNPFKRIPIYTQEMVDIFKGRRRNEVAPHIFAISDVAYRSMLDDRQNQSLLITGESGAGKTENTKKVIQYLASVAGRNQANGSGVLEQQILQANPILEAFGNAKTTRNNNSSEFGKFIEIQFNNAGFISGASIQSYLLEKSRVVFQSETERNYHIFYQLLAGATAEEKKALHLAGPESFNYLNQSGCVDIKGVSDEDEFKITRQAMDIVGFSQEEQMSIFKIIAGILHLGNIKFEKGAGEGAVLKDKTALNAASTVFGVNPSVLEKALMEPRILAGRDLVAQHLNVEKSSSSRDALVKALYGRLFLWLVKKINNVLCSERKAYFIGVLDISGFEIFKVNSFEQLCINYTNEKLQQFFNHHMFKVEQEEYLKEKINWTFIDFGLDSQATIDLIDGRQPPGILALLDEQSVFPNATDNTLITKLHSHFSKKNAKYEEPRFSKTEFGVTHYAGQVMYEIQDWLEKNKDPLQQDLELCFKDSSDNVVTKLFNDPNIASRAKKGANFITVAAQYKEQLASLMATLETTNPHFVRCIIPNNKQLPAKLEDKVVLDQLRCNGVLEGIRITRKGFPNRIIYADFVKRYYLLAPNVPRDAEDSQKATDAVLKHLNIDPEQYRFGITKIFFRAGQLARIEEAREQRLGSEQTKSDYLKRANELVQWINDKQASLESRDFGDSIESVQSFMNAHKEYKKTEKPPKGQEVSELEAIYNSLQTKLRLIKREPFVAPAGLTPNEIDSTWSALEKAEQEHAEALRIELKRQKKIAVLLQKYNRILKKLENWATTKSVYLGSNETGDSITAVQAKLKNLEAFDGECQSLEGQSNSDLLSILAQLTELNYNGVPELTERKDTFFAQQWTGVKSSAETYKNTLLAELERLQKIEDLHHHHHHH 1gam-a1-m1-cA_1gam-a1-m1-cB GAMMA B CRYSTALLIN TRUNCATED C-TERMINAL DOMAIN P02526 P02526 2.6 X-RAY DIFFRACTION 29 1.0 9913 (Bos taurus) 9913 (Bos taurus) 86 86 TFRMRIYERDDFRGQMSEITADCPSLQDRFHLTEVHSLNVLEGSWVLYEMPSYRGRQYLLRPGEYRRYLDWGAMNAKVGSLRRVMD TFRMRIYERDDFRGQMSEITADCPSLQDRFHLTEVHSLNVLEGSWVLYEMPSYRGRQYLLRPGEYRRYLDWGAMNAKVGSLRRVMD 1gc2-a1-m1-cA_1gc2-a1-m1-cC CRYSTAL STRUCTURE OF THE PYRIDOXAL-5'-PHOSPHATE DEPENDENT L-METHIONINE GAMMA-LYASE FROM PSEUDOMONAS PUTIDA P13254 P13254 2 X-RAY DIFFRACTION 190 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 372 374 1gc0-a1-m1-cA_1gc0-a1-m1-cC 1gc0-a1-m1-cD_1gc0-a1-m1-cB 1gc2-a1-m1-cB_1gc2-a1-m1-cD 1pg8-a1-m1-cA_1pg8-a1-m1-cC 1pg8-a1-m1-cB_1pg8-a1-m1-cD 1ukj-a1-m1-cA_1ukj-a1-m1-cB 1ukj-a1-m1-cC_1ukj-a1-m1-cD 2o7c-a1-m1-cA_2o7c-a1-m1-cB 2o7c-a1-m1-cC_2o7c-a1-m1-cD 3vk2-a1-m1-cA_3vk2-a1-m1-cB 3vk2-a2-m1-cC_3vk2-a2-m1-cD 3vk3-a1-m1-cB_3vk3-a1-m1-cA 3vk3-a2-m1-cC_3vk3-a2-m1-cD 3vk4-a1-m1-cA_3vk4-a1-m1-cB 3vk4-a2-m1-cC_3vk4-a2-m1-cD 5x2v-a1-m1-cA_5x2v-a1-m1-cB 5x2v-a1-m1-cC_5x2v-a1-m1-cD 5x2w-a1-m1-cA_5x2w-a1-m1-cB 5x2w-a1-m1-cC_5x2w-a1-m1-cD 5x2x-a1-m1-cA_5x2x-a1-m1-cB 5x2x-a1-m1-cC_5x2x-a1-m1-cD 5x2y-a1-m1-cA_5x2y-a1-m1-cB 5x2y-a1-m1-cC_5x2y-a1-m1-cD 5x2z-a1-m1-cA_5x2z-a1-m1-cB 5x2z-a1-m1-cC_5x2z-a1-m1-cD 5x30-a1-m1-cA_5x30-a1-m1-cB 5x30-a1-m1-cC_5x30-a1-m1-cD 7f1p-a1-m1-cA_7f1p-a1-m1-cB 7f1p-a1-m1-cD_7f1p-a1-m1-cC 7f1u-a1-m1-cB_7f1u-a1-m1-cA 7f1u-a1-m1-cC_7f1u-a1-m1-cD 7f1v-a1-m1-cB_7f1v-a1-m1-cA 7f1v-a1-m1-cD_7f1v-a1-m1-cC LPGFATRAIHHGYDPQDHGGALVPPVYQTATFTFPTVSNPTLNLLEARMASLEGGEAGLALASGMGAITSTLWTLLRPGDEVLLGNTLYGCTFAFLHHGIGEFGVKLRHVDMADLQALEAAMTPATRVIYFESPANPNMHMADIAGVAKIARKHGATVVVDNTYCTPYLQRPLELGADLVVHSATYLSGHGDITAGIVVGSQALVDRIRLQGLKDMTGAVLSPHDAALLMRGIKTLNLRMDRHCANAQVLAEFLARQPQVELIHYPGLASFPQYTLARQQMSQPGGMIAFELKGGIGAGRRFMNALQLFSRAVSLGDAESLAQHPASMTHSSYTPEERAHYGISEGLVRLSVGLEDIDDLLADVQQALKASA LPGFATRAIHHGYDPQDHGGALVPPVYQTATFTFPTVEISNPTLNLLEARMASLEGGEAGLALASGMGAITSTLWTLLRPGDEVLLGNTLYGCTFAFLHHGIGEFGVKLRHVDMADLQALEAAMTPATRVIYFESPANPNMHMADIAGVAKIARKHGATVVVDNTYCTPYLQRPLELGADLVVHSATYLSGHGDITAGIVVGSQALVDRIRLQGLKDMTGAVLSPHDAALLMRGIKTLNLRMDRHCANAQVLAEFLARQPQVELIHYPGLASFPQYTLARQQMSQPGGMIAFELKGGIGAGRRFMNALQLFSRAVSLGDAESLAQHPASMTHSSYTPEERAHYGISEGLVRLSVGLEDIDDLLADVQQALKASA 1gc2-a1-m1-cB_1gc2-a1-m1-cA CRYSTAL STRUCTURE OF THE PYRIDOXAL-5'-PHOSPHATE DEPENDENT L-METHIONINE GAMMA-LYASE FROM PSEUDOMONAS PUTIDA P13254 P13254 2 X-RAY DIFFRACTION 94 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 369 372 1gc0-a1-m1-cA_1gc0-a1-m1-cB 1gc0-a1-m1-cD_1gc0-a1-m1-cC 1gc2-a1-m1-cD_1gc2-a1-m1-cC 1pg8-a1-m1-cA_1pg8-a1-m1-cD 1pg8-a1-m1-cB_1pg8-a1-m1-cC 1ukj-a1-m1-cA_1ukj-a1-m1-cC 1ukj-a1-m1-cB_1ukj-a1-m1-cD 2o7c-a1-m1-cA_2o7c-a1-m1-cC 2o7c-a1-m1-cB_2o7c-a1-m1-cD 5x2v-a1-m1-cA_5x2v-a1-m1-cC 5x2v-a1-m1-cB_5x2v-a1-m1-cD 5x2w-a1-m1-cA_5x2w-a1-m1-cC 5x2w-a1-m1-cB_5x2w-a1-m1-cD 5x2x-a1-m1-cA_5x2x-a1-m1-cC 5x2x-a1-m1-cB_5x2x-a1-m1-cD 5x2y-a1-m1-cC_5x2y-a1-m1-cA 5x2y-a1-m1-cD_5x2y-a1-m1-cB 5x2z-a1-m1-cA_5x2z-a1-m1-cC 5x2z-a1-m1-cB_5x2z-a1-m1-cD 5x30-a1-m1-cA_5x30-a1-m1-cC 5x30-a1-m1-cB_5x30-a1-m1-cD 7f1p-a1-m1-cA_7f1p-a1-m1-cD 7f1p-a1-m1-cB_7f1p-a1-m1-cC 7f1u-a1-m1-cB_7f1u-a1-m1-cC 7f1u-a1-m1-cD_7f1u-a1-m1-cA 7f1v-a1-m1-cB_7f1v-a1-m1-cC 7f1v-a1-m1-cD_7f1v-a1-m1-cA LPGFATRAIHHGYDPQDHGGALVPPVYQTATFTFSNPTLNLLEARMASLEGGEAGLALASGMGAITSTLWTLLRPGDEVLLGNTLYGCTFAFLHHGIGEFGVKLRHVDMADLQALEAAMTPATRVIYFESPANPNMHMADIAGVAKIARKHGATVVVDNTYCTPYLQRPLELGADLVVHSATYLSGHGDITAGIVVGSQALVDRIRLQGLKDMTGAVLSPHDAALLMRGIKTLNLRMDRHCANAQVLAEFLARQPQVELIHYPGLASFPQYTLARQQMSQPGGMIAFELKGGIGAGRRFMNALQLFSRAVSLGDAESLAQHPASMTHSSYTPEERAHYGISEGLVRLSVGLEDIDDLLADVQQALKASA LPGFATRAIHHGYDPQDHGGALVPPVYQTATFTFPTVSNPTLNLLEARMASLEGGEAGLALASGMGAITSTLWTLLRPGDEVLLGNTLYGCTFAFLHHGIGEFGVKLRHVDMADLQALEAAMTPATRVIYFESPANPNMHMADIAGVAKIARKHGATVVVDNTYCTPYLQRPLELGADLVVHSATYLSGHGDITAGIVVGSQALVDRIRLQGLKDMTGAVLSPHDAALLMRGIKTLNLRMDRHCANAQVLAEFLARQPQVELIHYPGLASFPQYTLARQQMSQPGGMIAFELKGGIGAGRRFMNALQLFSRAVSLGDAESLAQHPASMTHSSYTPEERAHYGISEGLVRLSVGLEDIDDLLADVQQALKASA 1gc2-a1-m1-cB_1gc2-a1-m1-cC CRYSTAL STRUCTURE OF THE PYRIDOXAL-5'-PHOSPHATE DEPENDENT L-METHIONINE GAMMA-LYASE FROM PSEUDOMONAS PUTIDA P13254 P13254 2 X-RAY DIFFRACTION 61 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 369 374 1gc0-a1-m1-cA_1gc0-a1-m1-cD 1gc0-a1-m1-cB_1gc0-a1-m1-cC 1gc2-a1-m1-cD_1gc2-a1-m1-cA 1pg8-a1-m1-cA_1pg8-a1-m1-cB 1pg8-a1-m1-cC_1pg8-a1-m1-cD 1ukj-a1-m1-cA_1ukj-a1-m1-cD 1ukj-a1-m1-cB_1ukj-a1-m1-cC 2o7c-a1-m1-cA_2o7c-a1-m1-cD 2o7c-a1-m1-cB_2o7c-a1-m1-cC 5x2v-a1-m1-cA_5x2v-a1-m1-cD 5x2v-a1-m1-cB_5x2v-a1-m1-cC 5x2w-a1-m1-cA_5x2w-a1-m1-cD 5x2w-a1-m1-cB_5x2w-a1-m1-cC 5x2x-a1-m1-cA_5x2x-a1-m1-cD 5x2x-a1-m1-cB_5x2x-a1-m1-cC 5x2y-a1-m1-cC_5x2y-a1-m1-cB 5x2y-a1-m1-cD_5x2y-a1-m1-cA 5x2z-a1-m1-cA_5x2z-a1-m1-cD 5x2z-a1-m1-cB_5x2z-a1-m1-cC 5x30-a1-m1-cA_5x30-a1-m1-cD 5x30-a1-m1-cB_5x30-a1-m1-cC 7f1p-a1-m1-cA_7f1p-a1-m1-cC 7f1p-a1-m1-cB_7f1p-a1-m1-cD 7f1u-a1-m1-cB_7f1u-a1-m1-cD 7f1u-a1-m1-cC_7f1u-a1-m1-cA 7f1v-a1-m1-cB_7f1v-a1-m1-cD 7f1v-a1-m1-cC_7f1v-a1-m1-cA LPGFATRAIHHGYDPQDHGGALVPPVYQTATFTFSNPTLNLLEARMASLEGGEAGLALASGMGAITSTLWTLLRPGDEVLLGNTLYGCTFAFLHHGIGEFGVKLRHVDMADLQALEAAMTPATRVIYFESPANPNMHMADIAGVAKIARKHGATVVVDNTYCTPYLQRPLELGADLVVHSATYLSGHGDITAGIVVGSQALVDRIRLQGLKDMTGAVLSPHDAALLMRGIKTLNLRMDRHCANAQVLAEFLARQPQVELIHYPGLASFPQYTLARQQMSQPGGMIAFELKGGIGAGRRFMNALQLFSRAVSLGDAESLAQHPASMTHSSYTPEERAHYGISEGLVRLSVGLEDIDDLLADVQQALKASA LPGFATRAIHHGYDPQDHGGALVPPVYQTATFTFPTVEISNPTLNLLEARMASLEGGEAGLALASGMGAITSTLWTLLRPGDEVLLGNTLYGCTFAFLHHGIGEFGVKLRHVDMADLQALEAAMTPATRVIYFESPANPNMHMADIAGVAKIARKHGATVVVDNTYCTPYLQRPLELGADLVVHSATYLSGHGDITAGIVVGSQALVDRIRLQGLKDMTGAVLSPHDAALLMRGIKTLNLRMDRHCANAQVLAEFLARQPQVELIHYPGLASFPQYTLARQQMSQPGGMIAFELKGGIGAGRRFMNALQLFSRAVSLGDAESLAQHPASMTHSSYTPEERAHYGISEGLVRLSVGLEDIDDLLADVQQALKASA 1gcj-a1-m1-cA_1gcj-a1-m1-cB N-TERMINAL FRAGMENT OF IMPORTIN-BETA P70168 P70168 2.6 X-RAY DIFFRACTION 95 1.0 10090 (Mus musculus) 10090 (Mus musculus) 447 447 PDYASGELITILEKTVSPDRLELEAAQKFLERAAVENLPTFLVELSRVLANPGNSQVARVAAGLQIKNSLTSKDPDIKAQYQQRWLAIDANARREVKNYVLQTLGTETYRPSSASQCVAGIACAEIPVSQWPELIPQLVANVTNPNSTEHKESTLEAIGYICQDIDPEQLQDKSNEILTAIIQGRKEEPSNNVKLAATNALLNSLEFTKANFDKESERHFIQVVCEATQCPDTRVRVAALQNLVKISLYYQYETYGPALFAITIEAKSDIDEVALQGIEFWSNVCDEEDLAIEASEAAEQGRPPEHTSKFYAKGALQYLVPILTQTLTKQDENDDDDDWNPCKAAGVCLLLSTCCEDDIVPHVLPFIKEHIKNPDWRYRDAAVAFGSILEGPEPNQLKPLVIQAPTLIELKDPSVVVRDTTAWTVGRICELLPEAAINDVYLVPNSS PDYASGELITILEKTVSPDRLELEAAQKFLERAAVENLPTFLVELSRVLANPGNSQVARVAAGLQIKNSLTSKDPDIKAQYQQRWLAIDANARREVKNYVLQTLGTETYRPSSASQCVAGIACAEIPVSQWPELIPQLVANVTNPNSTEHKESTLEAIGYICQDIDPEQLQDKSNEILTAIIQGRKEEPSNNVKLAATNALLNSLEFTKANFDKESERHFIQVVCEATQCPDTRVRVAALQNLVKISLYYQYETYGPALFAITIEAKSDIDEVALQGIEFWSNVCDEEDLAIEASEAAEQGRPPEHTSKFYAKGALQYLVPILTQTLTKQDENDDDDDWNPCKAAGVCLLLSTCCEDDIVPHVLPFIKEHIKNPDWRYRDAAVAFGSILEGPEPNQLKPLVIQAPTLIELKDPSVVVRDTTAWTVGRICELLPEAAINDVYLVPNSS 1gd1-a1-m1-cR_1gd1-a1-m1-cO STRUCTURE OF HOLO-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM BACILLUS STEAROTHERMOPHILUS AT 1.8 ANGSTROMS RESOLUTION P00362 P00362 1.8 X-RAY DIFFRACTION 98 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 334 334 1dbv-a1-m1-cP_1dbv-a1-m1-cQ 1dbv-a1-m1-cR_1dbv-a1-m1-cO 1gd1-a1-m1-cP_1gd1-a1-m1-cQ 1npt-a1-m1-cP_1npt-a1-m1-cQ 1npt-a1-m1-cR_1npt-a1-m1-cO 1nq5-a1-m1-cQ_1nq5-a1-m2-cO 1nq5-a1-m2-cQ_1nq5-a1-m1-cO 1nq5-a3-m1-cA_1nq5-a3-m3-cA 1nq5-a3-m3-cC_1nq5-a3-m1-cC 1nqa-a1-m1-cP_1nqa-a1-m1-cQ 1nqa-a1-m1-cR_1nqa-a1-m1-cO 1nqo-a1-m1-cQ_1nqo-a1-m2-cO 1nqo-a1-m2-cQ_1nqo-a1-m1-cO 1nqo-a3-m1-cA_1nqo-a3-m3-cA 1nqo-a3-m3-cC_1nqo-a3-m1-cC 2dbv-a1-m1-cP_2dbv-a1-m1-cQ 2dbv-a1-m1-cR_2dbv-a1-m1-cO 2gd1-a1-m1-cP_2gd1-a1-m1-cQ 2gd1-a1-m1-cR_2gd1-a1-m1-cO 3cmc-a1-m1-cP_3cmc-a1-m1-cQ 3cmc-a1-m1-cR_3cmc-a1-m1-cO 3dbv-a1-m1-cP_3dbv-a1-m1-cQ 3dbv-a1-m1-cR_3dbv-a1-m1-cO 4dbv-a1-m1-cP_4dbv-a1-m1-cQ 4dbv-a1-m1-cR_4dbv-a1-m1-cO AVKVGINGFGRIGRNVFRAALKNPDIEVVAVNDLTDANTLAHLLKYDSVHGRLDAEVSVNGNNLVVNGKEIIVKAERDPENLAWGEIGVDIVVESTGRFTKREDAAKHLEAGAKKVIISAPAKNEDITIVMGVNQDKYDPKAHHVISNASCTTNCLAPFAKVLHEQFGIVRGMMTTVHSYTNDQRILDLPHKDLRRARAAAESIIPTTTGAAKAVALVLPELKGKLNGMAMRVPTPNVSVVDLVAELEKEVTVEEVNAALKAAAEGELKGILAYSEEPLVSRDYNGSTVSSTIDALSTMVIDGKMVKVVSWYDNETGYSHRVVDLAAYIASKGL AVKVGINGFGRIGRNVFRAALKNPDIEVVAVNDLTDANTLAHLLKYDSVHGRLDAEVSVNGNNLVVNGKEIIVKAERDPENLAWGEIGVDIVVESTGRFTKREDAAKHLEAGAKKVIISAPAKNEDITIVMGVNQDKYDPKAHHVISNASCTTNCLAPFAKVLHEQFGIVRGMMTTVHSYTNDQRILDLPHKDLRRARAAAESIIPTTTGAAKAVALVLPELKGKLNGMAMRVPTPNVSVVDLVAELEKEVTVEEVNAALKAAAEGELKGILAYSEEPLVSRDYNGSTVSSTIDALSTMVIDGKMVKVVSWYDNETGYSHRVVDLAAYIASKGL 1gd2-a2-m1-cG_1gd2-a2-m1-cH CRYSTAL STRUCTURE OF BZIP TRANSCRIPTION FACTOR PAP1 BOUND TO DNA Q01663 Q01663 2 X-RAY DIFFRACTION 57 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 64 64 1gd2-a1-m1-cF_1gd2-a1-m1-cE QEPSSKRKAQNRAAQRAFRKRKEDHLKALETQVVTLKELHSSTTLENDQLRQKVRQLEEELRIL QEPSSKRKAQNRAAQRAFRKRKEDHLKALETQVVTLKELHSSTTLENDQLRQKVRQLEEELRIL 1gd2-a3-m1-cJ_1gd2-a3-m1-cI CRYSTAL STRUCTURE OF BZIP TRANSCRIPTION FACTOR PAP1 BOUND TO DNA Q01663 Q01663 2 X-RAY DIFFRACTION 16 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 11 40 TQVVTLKELHS RKAQNRETQVVTLKELHSSTTLENDQLRVRQLEEELRILK 1gd7-a2-m1-cC_1gd7-a2-m1-cD CRYSTAL STRUCTURE OF A BIFUNCTIONAL PROTEIN (CSAA) WITH EXPORT-RELATED CHAPERONE AND TRNA-BINDING ACTIVITIES. Q9AQH8 Q9AQH8 2 X-RAY DIFFRACTION 121 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 109 109 1gd7-a1-m1-cA_1gd7-a1-m1-cB MTPLEAFQILDLRVGRVLRAEPHEKARKPSYKLWVDLGPLGVKQSSAQITELYRPEDLVGRLVVCAVNLGAKRVAGFLSEVLVLGVPDEAGRVVLLAPDREVPLGGKVF MTPLEAFQILDLRVGRVLRAEPHEKARKPSYKLWVDLGPLGVKQSSAQITELYRPEDLVGRLVVCAVNLGAKRVAGFLSEVLVLGVPDEAGRVVLLAPDREVPLGGKVF 1gd9-a1-m1-cA_1gd9-a1-m1-cB CRYSTALL STRUCTURE OF PYROCOCCUS PROTEIN-A1 O59096 O59096 1.8 X-RAY DIFFRACTION 192 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 388 388 1dju-a1-m1-cB_1dju-a1-m1-cA 1gde-a1-m1-cA_1gde-a1-m1-cB ALSDRLELVSASEIRKLFDIAAGMKDVISLGIGEPDFDTPQHIKEYAKEALDKGLTHYGPNIGLLELREAIAEKLKKQNGIEADPKTEIMVLLGANQAFLMGLSAFLKDGEEVLIPTPAFVSYAPAVILAGGKPVEVPTYEEDEFRLNVDELKKYVTDKTRALIINSPCNPTGAVLTKKDLEEIADFVVEHDLIVISDEVYEHFIYDDARHYSIASLDGMFERTITVNGFSKTFAMTGWRLGFVAAPSWIIERMVKFQMYNATCPVTFIQYAAAKALKDERSWKAVEEMRKEYDRRRKLVWKRLNEMGLPTVKPKGAFYIFPRIRDTGLTSKKFSELMLKEARVAVVPGSAFGKAGEGYVRISYATAYEKLEEAMDRMERVLKERKLV ALSDRLELVSASEIRKLFDIAAGMKDVISLGIGEPDFDTPQHIKEYAKEALDKGLTHYGPNIGLLELREAIAEKLKKQNGIEADPKTEIMVLLGANQAFLMGLSAFLKDGEEVLIPTPAFVSYAPAVILAGGKPVEVPTYEEDEFRLNVDELKKYVTDKTRALIINSPCNPTGAVLTKKDLEEIADFVVEHDLIVISDEVYEHFIYDDARHYSIASLDGMFERTITVNGFSKTFAMTGWRLGFVAAPSWIIERMVKFQMYNATCPVTFIQYAAAKALKDERSWKAVEEMRKEYDRRRKLVWKRLNEMGLPTVKPKGAFYIFPRIRDTGLTSKKFSELMLKEARVAVVPGSAFGKAGEGYVRISYATAYEKLEEAMDRMERVLKERKLV 1gdh-a1-m1-cA_1gdh-a1-m1-cB CRYSTAL STRUCTURE OF A NAD-DEPENDENT D-GLYCERATE DEHYDROGENASE AT 2.4 ANGSTROMS RESOLUTION P36234 P36234 2.4 X-RAY DIFFRACTION 213 1.0 84 (Hyphomicrobium methylovorum) 84 (Hyphomicrobium methylovorum) 320 320 KKKILITWPLPEAAMARARESYDVIAHGDDPKITIDEMIETAKSVDALLITLNEKCRKEVIDRIPENIKCISTYSIGFDHIDLDACKARGIKVGNAPHGVTVATAEIAMLLLLGSARRAGEGEKMIRTRSWPGWEPLELVGEKLDNKTLGIYGFGSIGQALAKRAQGFDMDIDYFDTHRASSSDEASYQATFHDSLDSLLSVSQFFSLNAPSTPETRYFFNKATIKSLPQGAIVVNTARGDLVDNELVVAALEAGRLAYAGFDVFAGEPNINEGYYDLPNTFLFPHIGSAATQAREDMAHQANDLIDALFGGADMSYALA KKKILITWPLPEAAMARARESYDVIAHGDDPKITIDEMIETAKSVDALLITLNEKCRKEVIDRIPENIKCISTYSIGFDHIDLDACKARGIKVGNAPHGVTVATAEIAMLLLLGSARRAGEGEKMIRTRSWPGWEPLELVGEKLDNKTLGIYGFGSIGQALAKRAQGFDMDIDYFDTHRASSSDEASYQATFHDSLDSLLSVSQFFSLNAPSTPETRYFFNKATIKSLPQGAIVVNTARGDLVDNELVVAALEAGRLAYAGFDVFAGEPNINEGYYDLPNTFLFPHIGSAATQAREDMAHQANDLIDALFGGADMSYALA 1gdq-a1-m1-cB_1gdq-a1-m1-cA FUSARIUM OXYSPORUM TRYPSIN AT ATOMIC RESOLUTION P35049 0.93 X-RAY DIFFRACTION 13 1.0 5507 (Fusarium oxysporum) 1 224 1pq8-a1-m1-cC_1pq8-a1-m1-cA R IVGGTSASAGDFPFIVSISRNGGPWCGGSLLNANTVLTAAHCVSGYAQSGFQIRAGSLSRTSGGITSSLSSVRVHPSYSGNNNDLAILKLSTSIPSGGNIGYARLAASGSDPVAGSSATVAGWGATSEGGSSTPVNLLKVTVPIVSRATCRAQYGTSAITNQMFCAGVSSGGKDSCQGDSGGPIVDSSNTLIGAVSWGNGCARPNYSGVYASVGALRSFIDTYA 1ge7-a1-m1-cA_1ge7-a1-m1-cB ZINC PEPTIDASE FROM GRIFOLA FRONDOSA P81054 P81054 2 X-RAY DIFFRACTION 15 1.0 5627 (Grifola frondosa) 5627 (Grifola frondosa) 167 167 TYNGCSSSEQSALAAAASAAQSYVAESLSYLQTHTAATPRYTTWFGSYISSRHSTVLQHYTDMNSNDFSSYSFDCTCTAAGTFAYVYPNRFGTVYLCGAFWKAPTTGTDSQAGTLVHESSHFTRNGGTKDYAYGQAAAKSLATMDPDKAVMNADNHEYFSENNPAQS TYNGCSSSEQSALAAAASAAQSYVAESLSYLQTHTAATPRYTTWFGSYISSRHSTVLQHYTDMNSNDFSSYSFDCTCTAAGTFAYVYPNRFGTVYLCGAFWKAPTTGTDSQAGTLVHESSHFTRNGGTKDYAYGQAAAKSLATMDPDKAVMNADNHEYFSENNPAQS 1ge8-a1-m2-cA_1ge8-a1-m3-cA PROLIFERATING CELL NUCLEAR ANTIGEN (PCNA) HOMOLOG FROM PYROCOCCUS FURIOSUS O73947 O73947 2.1 X-RAY DIFFRACTION 46 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 238 238 1ge8-a1-m1-cA_1ge8-a1-m2-cA 1ge8-a1-m1-cA_1ge8-a1-m3-cA 1isq-a1-m1-cA_1isq-a1-m2-cA 1isq-a1-m1-cA_1isq-a1-m3-cA 1isq-a1-m2-cA_1isq-a1-m3-cA 5auj-a1-m1-cA_5auj-a1-m2-cA 5auj-a1-m1-cA_5auj-a1-m3-cA 5auj-a1-m2-cA_5auj-a1-m3-cA PFEIVFEGAKEFAQLIDTASKLIDEAAFKVTEDGISMRAMDPSRVVLIDLNLPSSIFSKYEVVEPETIGVNLDHLKKILKRGKAKDTLILKKGEENFLEITIQGTATRTFRVPLIDPELPFTAKVVVLGEVLKDAVKDASLVSDSIKFIARENEFIMKAEGETQEVEIKLTLEDEGLLDIEVQEETKSAYGVSYLSDMVKGLGKADEVTIKFGNEMPMQMEYYIRDEGRLTFLLAPRV PFEIVFEGAKEFAQLIDTASKLIDEAAFKVTEDGISMRAMDPSRVVLIDLNLPSSIFSKYEVVEPETIGVNLDHLKKILKRGKAKDTLILKKGEENFLEITIQGTATRTFRVPLIDPELPFTAKVVVLGEVLKDAVKDASLVSDSIKFIARENEFIMKAEGETQEVEIKLTLEDEGLLDIEVQEETKSAYGVSYLSDMVKGLGKADEVTIKFGNEMPMQMEYYIRDEGRLTFLLAPRV 1gef-a1-m1-cE_1gef-a1-m1-cA Crystal structure of the archaeal holliday junction resolvase HJC E7FHX4 E7FHX4 2 X-RAY DIFFRACTION 63 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 114 120 1gef-a2-m1-cD_1gef-a2-m1-cB 1ipi-a1-m1-cA_1ipi-a1-m1-cB MYRKGAQAERELIKLLEKHGFAVVRSAGSKKVDLVAGNGKKYLCIEVKVTKKDHLYVGKRDMGRLIEFSRRFGGIPVLAVKFLNVGWRFIEVSPKIEKFVFTPSSGVSLEVLLG MYRKGAQAERELIKLLEKHGFAVVRSAGSKKVDLVAGNGKKYLCIEVKVTKKDHLYVGKRDMGRLIEFSRRFGGIPVLAVKFLNVGWRFIEVSPKIEKFVFTPSSGVSLEVLLGIQKTLE 1geg-a2-m1-cG_1geg-a2-m1-cH CRYATAL STRUCTURE ANALYSIS OF MESO-2,3-BUTANEDIOL DEHYDROGENASE Q48436 Q48436 1.7 X-RAY DIFFRACTION 115 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 255 255 1geg-a1-m1-cA_1geg-a1-m1-cB 1geg-a1-m1-cC_1geg-a1-m1-cD 1geg-a2-m1-cF_1geg-a2-m1-cE KKVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGVAPSTPIESITPEIVDKVYNINVKGVIWGIQAAVEAFKKEGHGGKIINACSQAGHVGNPELAVYSSSKFAVRGLTQTAARDLAPLGITVNGYCPGIVKTPMWAEIDRQVSEAAGKPLGYGTAEFAKRITLGRLSEPEDVAACVSYLASPDSDYMTGQSLLIDGGMVFN KKVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGVAPSTPIESITPEIVDKVYNINVKGVIWGIQAAVEAFKKEGHGGKIINACSQAGHVGNPELAVYSSSKFAVRGLTQTAARDLAPLGITVNGYCPGIVKTPMWAEIDRQVSEAAGKPLGYGTAEFAKRITLGRLSEPEDVAACVSYLASPDSDYMTGQSLLIDGGMVFN 1geg-a2-m1-cH_1geg-a2-m1-cE CRYATAL STRUCTURE ANALYSIS OF MESO-2,3-BUTANEDIOL DEHYDROGENASE Q48436 Q48436 1.7 X-RAY DIFFRACTION 96 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 255 256 1geg-a1-m1-cA_1geg-a1-m1-cD 1geg-a1-m1-cB_1geg-a1-m1-cC 1geg-a2-m1-cF_1geg-a2-m1-cG KKVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGVAPSTPIESITPEIVDKVYNINVKGVIWGIQAAVEAFKKEGHGGKIINACSQAGHVGNPELAVYSSSKFAVRGLTQTAARDLAPLGITVNGYCPGIVKTPMWAEIDRQVSEAAGKPLGYGTAEFAKRITLGRLSEPEDVAACVSYLASPDSDYMTGQSLLIDGGMVFN MKKVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGVAPSTPIESITPEIVDKVYNINVKGVIWGIQAAVEAFKKEGHGGKIINACSQAGHVGNPELAVYSSSKFAVRGLTQTAARDLAPLGITVNGYCPGIVKTPMWAEIDRQVSEAAGKPLGYGTAEFAKRITLGRLSEPEDVAACVSYLASPDSDYMTGQSLLIDGGMVFN 1ges-a1-m1-cA_1ges-a1-m1-cB ANATOMY OF AN ENGINEERED NAD-BINDING SITE P06715 P06715 1.74 X-RAY DIFFRACTION 257 1.0 562 (Escherichia coli) 562 (Escherichia coli) 448 449 1ger-a1-m1-cA_1ger-a1-m1-cB 1get-a1-m1-cA_1get-a1-m1-cB 1geu-a1-m1-cA_1geu-a1-m1-cB KHYDYIAIGGGSGGIASINRAAMYGQKCALIEAKELGGTCVNVGCVPKKVMWHAAQIREAIHMYGPDYGFDTTINKFNWETLIASRTAYIDRIHTSYENVLGKNNVDVIKGFARFVDAKTLEVNGETITADHILIATGGRPSHPDIPGVEYGIDSDGFFALPALPERVAVVGAGYIGVELGGVINGLGAKTHLFEMFDAPLPSFDPMISETLVEVMNAEGPQLHTNAIPKAVVKNTDGSLTLELEDGRSETVDCLIWAIGREPANDNINLEAAGVKTNEKGYIVVDKYQNTNIEGIYAVGDNTGAVELTPVAVAAGRRLSERLFNNKPDEHLDYSNIPTVVFSHPPIGTVGLTEPQAREQYGDDQVKVYKSSFTAMYTAVTTHRQPCRMKLVCVGSEEKIVGIHGIGFGMDEMLQGFAVALKMGATKKDFDNTVAIHPTAAEEFVTMR TKHYDYIAIGGGSGGIASINRAAMYGQKCALIEAKELGGTCVNVGCVPKKVMWHAAQIREAIHMYGPDYGFDTTINKFNWETLIASRTAYIDRIHTSYENVLGKNNVDVIKGFARFVDAKTLEVNGETITADHILIATGGRPSHPDIPGVEYGIDSDGFFALPALPERVAVVGAGYIGVELGGVINGLGAKTHLFEMFDAPLPSFDPMISETLVEVMNAEGPQLHTNAIPKAVVKNTDGSLTLELEDGRSETVDCLIWAIGREPANDNINLEAAGVKTNEKGYIVVDKYQNTNIEGIYAVGDNTGAVELTPVAVAAGRRLSERLFNNKPDEHLDYSNIPTVVFSHPPIGTVGLTEPQAREQYGDDQVKVYKSSFTAMYTAVTTHRQPCRMKLVCVGSEEKIVGIHGIGFGMDEMLQGFAVALKMGATKKDFDNTVAIHPTAAEEFVTMR 1ggd-a3-m1-cB_1ggd-a3-m2-cB CRYSTAL STRUCTURE OF GAMMA CHYMOTRYPSIN WITH N-ACETYL-LEUCIL-PHENYLALANINE ALDEHYDE BOUND AT THE ACTIVE SITE P00766 P00766 1.5 X-RAY DIFFRACTION 53 1.0 9913 (Bos taurus) 9913 (Bos taurus) 131 131 1ab9-a2-m1-cB_1ab9-a2-m2-cB 1ab9-a3-m1-cB_1ab9-a3-m2-cB 1gcd-a1-m1-cA_1gcd-a1-m2-cA 1gct-a1-m1-cB_1gct-a1-m2-cB 1ggd-a2-m1-cB_1ggd-a2-m2-cB 1gha-a1-m1-cF_1gha-a1-m2-cF 1ghb-a1-m1-cF_1ghb-a1-m2-cF 1ghb-a2-m4-cF_1ghb-a2-m5-cF 1gmc-a1-m1-cF_1gmc-a1-m2-cF 1gmd-a1-m1-cF_1gmd-a1-m2-cF 1gmh-a2-m1-cF_1gmh-a2-m2-cF 1gmh-a3-m1-cF_1gmh-a3-m2-cF 1k2i-a2-m1-c1_1k2i-a2-m2-c1 1vgc-a2-m1-cB_1vgc-a2-m2-cB 1vgc-a3-m1-cB_1vgc-a3-m2-cB 2gch-a1-m1-cF_2gch-a1-m2-cF 2gct-a1-m1-cB_2gct-a1-m2-cB 2gmt-a1-m1-cB_2gmt-a1-m2-cB 2p8o-a2-m1-cB_2p8o-a2-m2-cB 2p8o-a3-m1-cB_2p8o-a3-m2-cB 2vgc-a2-m1-cB_2vgc-a2-m2-cB 2vgc-a3-m1-cB_2vgc-a3-m2-cB 3gch-a1-m1-cB_3gch-a1-m2-cB 3gct-a1-m1-cF_3gct-a1-m2-cF 3vgc-a2-m1-cB_3vgc-a2-m2-cB 3vgc-a3-m1-cB_3vgc-a3-m2-cB 4gch-a1-m1-cF_4gch-a1-m2-cF 4vgc-a2-m1-cB_4vgc-a2-m2-cB 4vgc-a3-m1-cB_4vgc-a3-m2-cB 5gch-a1-m1-cF_5gch-a1-m2-cF 6gch-a1-m1-cF_6gch-a1-m2-cF 8gch-a2-m1-cF_8gch-a2-m2-cF 8gch-a3-m1-cF_8gch-a3-m2-cF IVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRY IVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRY 1ggg-a1-m1-cA_1ggg-a1-m1-cB GLUTAMINE BINDING PROTEIN OPEN LIGAND-FREE STRUCTURE P0AEQ3 P0AEQ3 2.3 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 220 220 LVVATDTAFVPFEFKQGDLYVGFDVDLWAAIAKELKLDYELKPMDFSGIIPALQTKNVDLALAGITITDERKKAIDFSDGYYKSGLLVMVKANNNDVKSVKDLDGKVVAVKSGTGSVDYAKANIKTKDLRQFPNIDNAYMELGTNRADAVLHDTPNILYFIKTAGNGQFKAVGDSLEAQQYGIAFPKGSDELRDKVNGALKTLRENGTYNEIYKKWFGTE LVVATDTAFVPFEFKQGDLYVGFDVDLWAAIAKELKLDYELKPMDFSGIIPALQTKNVDLALAGITITDERKKAIDFSDGYYKSGLLVMVKANNNDVKSVKDLDGKVVAVKSGTGSVDYAKANIKTKDLRQFPNIDNAYMELGTNRADAVLHDTPNILYFIKTAGNGQFKAVGDSLEAQQYGIAFPKGSDELRDKVNGALKTLRENGTYNEIYKKWFGTE 1ggm-a1-m1-cA_1ggm-a1-m1-cB GLYCYL-TRNA SYNTHETASE FROM THERMUS THERMOPHILUS COMPLEXED WITH GLYCYL-ADENYLATE P56206 P56206 3.4 X-RAY DIFFRACTION 230 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 442 442 1ati-a1-m1-cB_1ati-a1-m1-cA 1b76-a1-m1-cA_1b76-a1-m1-cB AASSLDELVALCKRRGFIFQSSEIYGGLQGVYDYGPLGVELKNNLKQAWWRRNVYERDDMEGLDASVLTHRLVLHYSGHEATFADPMVDNAKARYWTPPRYFNMMFQDLRGPRGGRGLLAYLRPETAQGIFVNFKNVLDATSRKLGFGIAQIGKAFRNEITPRNFIFRVREFEQMEIEYFVRPGEDEYWHRYWVEERLKWWQEMGLSRENLVPYQQPPESSAHYAKATVDILYRFPHGSLELEGIAQRTDFDLGSHTKDQEALGITARVLRNEHSTQRLAYRDPETGKWFVPYVIEPSAGVDRGVLALLAEAFTREELPNGEERIVLKLKPQLAPIKVAVIPLVKNRPEITEYAKRLKARLLALGLGRVLYEDTGNIGKAYRRHDEVGTPFAVTVDYDTIGQSKDGTTRLKDTVTVRDRDTMEQIRLHVDELEGFLRERLRW AASSLDELVALCKRRGFIFQSSEIYGGLQGVYDYGPLGVELKNNLKQAWWRRNVYERDDMEGLDASVLTHRLVLHYSGHEATFADPMVDNAKARYWTPPRYFNMMFQDLRGPRGGRGLLAYLRPETAQGIFVNFKNVLDATSRKLGFGIAQIGKAFRNEITPRNFIFRVREFEQMEIEYFVRPGEDEYWHRYWVEERLKWWQEMGLSRENLVPYQQPPESSAHYAKATVDILYRFPHGSLELEGIAQRTDFDLGSHTKDQEALGITARVLRNEHSTQRLAYRDPETGKWFVPYVIEPSAGVDRGVLALLAEAFTREELPNGEERIVLKLKPQLAPIKVAVIPLVKNRPEITEYAKRLKARLLALGLGRVLYEDTGNIGKAYRRHDEVGTPFAVTVDYDTIGQSKDGTTRLKDTVTVRDRDTMEQIRLHVDELEGFLRERLRW 1ggq-a3-m1-cA_1ggq-a3-m1-cC OUTER SURFACE PROTEIN C (OSPC) OF BORRELIA BURGDORFERI STRAIN B31 Q07337 Q07337 2.51 X-RAY DIFFRACTION 12 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 162 162 GPNLTEISKKITDSNAVLLAVKEVEALLSSIDEIAAKAIGKKIHQNNGLDTENNHNGSLLAGAYAISTLIKQKLDGLKNEGLKEKIDAAKKCSETFTNKLKEKHTDLGKEGVTDADAKEAILKTNGTKTKGAEELGKLFESVEVLSKAAKEMLANSVKELTS GPNLTEISKKITDSNAVLLAVKEVEALLSSIDEIAAKAIGKKIHQNNGLDTENNHNGSLLAGAYAISTLIKQKLDGLKNEGLKEKIDAAKKCSETFTNKLKEKHTDLGKEGVTDADAKEAILKTNGTKTKGAEELGKLFESVEVLSKAAKEMLANSVKELTS 1ggq-a3-m1-cC_1ggq-a3-m1-cD OUTER SURFACE PROTEIN C (OSPC) OF BORRELIA BURGDORFERI STRAIN B31 Q07337 Q07337 2.51 X-RAY DIFFRACTION 209 0.994 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 162 162 1ggq-a1-m1-cA_1ggq-a1-m1-cB 1ggq-a2-m1-cC_1ggq-a2-m1-cD 1ggq-a3-m1-cA_1ggq-a3-m1-cB 7uij-a1-m1-cC_7uij-a1-m1-cD GPNLTEISKKITDSNAVLLAVKEVEALLSSIDEIAAKAIGKKIHQNNGLDTENNHNGSLLAGAYAISTLIKQKLDGLKNEGLKEKIDAAKKCSETFTNKLKEKHTDLGKEGVTDADAKEAILKTNGTKTKGAEELGKLFESVEVLSKAAKEMLANSVKELTS PNLTEISKKITDSNAVLLAVKEVEALLSSIDEIAAKAIGKKIHQNNGLDTENNHNGSLLAGAYAISTLIKQKLDGLKNEGLKEKIDAAKKCSETFTNKLKEKHTDLGKEGVTDADAKEAILKTNGTKTKGAEELGKLFESVEVLSKAAKEMLANSVKELTSP 1ggt-a1-m1-cB_1ggt-a1-m1-cA THREE-DIMENSIONAL STRUCTURE OF A TRANSGLUTAMINASE: HUMAN BLOOD COAGULATION FACTOR XIII P00488 P00488 2.65 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 708 710 FGGRRAVPPNNSNAAEDDLPTVEEFLNVTSVHLFKERWDTNKVDHHTDKYENNKLIVRRGQSFYVQIDFSRPYDPRRDLFRVEYVIGRYPQENKGTYIPVPIVSELQSGKWGAKIVMREDRSVRLSIQSSPKCIVGKFRMYVAVWTPYGVLRTSRNPETDTYILFNPWCEDDAVYLDNEKEREEYVLNDIGVIFYGEVNDIKTRSWSYGQFEDGILDTCLYVMDRAQMDLSGRGNPIKVSRVGSAMVNAKDDEGVLVGSWDNIYAYGVPPSAWTGSVDILLEYRSSENPVRYGQCWVFAGVFNTFLRCLGIPARIVTNYFSAHDNDANLQMDIFLEEDGNVNSKLTKDSVWNYHCWNEAWMTRPDLPVGFGGWQAVDSTPQENSDGMYRCGPASVQAIKHGHVCFQFDAPFVFAEVNSDLIYITAKKDGTHVVENVDATHIGKLIVTKQIGGDGMMDITDTYKFQEGQEEERLALETALMYGAKKPLNTEGVMKSRSNVDMDFEVENAVLGKDFKLSITFRNNSHNRYTITAYLSANITFYTGVPKAEFKKETFDVTLEPLSFKKEAVLIQAGEYMGQLLEQASLHFFVTARINETRDVLAKQKSTVLTIPEIIIKVRGTQVVGSDMTVTVEFTNPLKETLRNVWVHLDGPGVTRPMKKMFREIRPNSTVQWEEVCRPWVSGHRKLIASMSSDSLRHVYGELDVQIQR FGGRRAVPPNNSNAAEDDLPTVEEFLNVTSVHLFKERWDTNKVDHHTDKYENNKLIVRRGQSFYVQIDFSRPYDPRRDLFRVEYVIGRYPQENKGTYIPVPIVSELQSGKWGAKIVMREDRSVRLSIQSSPKCIVGKFRMYVAVWTPYGVLRTSRNPETDTYILFNPWCEDDAVYLDNEKEREEYVLNDIGVIFYGEVNDIKTRSWSYGQFEDGILDTCLYVMDRAQMDLSGRGNPIKVSRVGSAMVNAKDDEGVLVGSWDNIYAYGVPPSAWTGSVDILLEYRSSENPVRYGQCWVFAGVFNTFLRCLGIPARIVTNYFSAHDNDANLQMDIFLEEDGNVNSKLTKDSVWNYHCWNEAWMTRPDLPVGFGGWQAVDSTPQENSDGMYRCGPASVQAIKHGHVCFQFDAPFVFAEVNSDLIYITAKKDGTHVVENVDATHIGKLIVTKQIGGDGMMDITDTYKFQEGQEEERLALETALMYGAKKPLNTEGVMKSRSNVDMDFEVENAVLGKDFKLSITFRNNSHNRYTITAYLSANITFYTGVPKAEFKKETFDVTLEPLSFKKEAVLIQAGEYMGQLLEQASLHFFVTARINETRDVLAKQKSTVLTIPEIIIKVRGTQVVGSDMTVTVEFTNPLKETLRNVWVHLDGPGVTRPMKKMFREIRPNSTVQWEEVCRPWVSGHRKLIASMSSDSLRHVYGELDVQIQRRP 1gh0-a4-m1-cB_1gh0-a4-m2-cN CRYSTAL STRUCTURE OF C-PHYCOCYANIN FROM SPIRULINA PLATENSIS P72508 P72508 2.2 X-RAY DIFFRACTION 28 1.0 118562 (Arthrospira platensis) 118562 (Arthrospira platensis) 171 171 1gh0-a3-m1-cJ_1gh0-a3-m1-cV MFDAFTKVVSQADTRGEMLSTAQIDALSQMVAESNKRLDVVNRITSNASTIVSNAARSLFAEQPQLIAPGGAYTSRRMAACLRDMEIILRYVTYAVFAGDASVLEDRCLNGLRETYLALGTPGSSVAVGVGKMKEAALAIVNDPAGITPGDCSALASEIAGYFDRAAAAVS MFDAFTKVVSQADTRGEMLSTAQIDALSQMVAESNKRLDVVNRITSNASTIVSNAARSLFAEQPQLIAPGGAYTSRRMAACLRDMEIILRYVTYAVFAGDASVLEDRCLNGLRETYLALGTPGSSVAVGVGKMKEAALAIVNDPAGITPGDCSALASEIAGYFDRAAAAVS 1gh0-a4-m2-cQ_1gh0-a4-m2-cS CRYSTAL STRUCTURE OF C-PHYCOCYANIN FROM SPIRULINA PLATENSIS P72509 P72509 2.2 X-RAY DIFFRACTION 76 1.0 118562 (Arthrospira platensis) 118562 (Arthrospira platensis) 162 162 1gh0-a1-m1-cA_1gh0-a1-m1-cK 1gh0-a1-m1-cC_1gh0-a1-m1-cI 1gh0-a1-m1-cE_1gh0-a1-m1-cG 1gh0-a2-m1-cM_1gh0-a2-m1-cW 1gh0-a2-m1-cO_1gh0-a2-m1-cU 1gh0-a2-m1-cQ_1gh0-a2-m1-cS 1gh0-a3-m1-cA_1gh0-a3-m1-cK 1gh0-a3-m1-cC_1gh0-a3-m1-cI 1gh0-a3-m1-cE_1gh0-a3-m1-cG 1gh0-a3-m1-cM_1gh0-a3-m1-cW 1gh0-a3-m1-cO_1gh0-a3-m1-cU 1gh0-a3-m1-cQ_1gh0-a3-m1-cS 1gh0-a4-m1-cA_1gh0-a4-m1-cK 1gh0-a4-m1-cC_1gh0-a4-m1-cI 1gh0-a4-m1-cE_1gh0-a4-m1-cG 1gh0-a4-m2-cM_1gh0-a4-m2-cW 1gh0-a4-m2-cO_1gh0-a4-m2-cU 1ha7-a1-m1-cA_1ha7-a1-m1-cG 1ha7-a1-m1-cC_1ha7-a1-m1-cK 1ha7-a1-m1-cE_1ha7-a1-m1-cI 1ha7-a2-m1-cM_1ha7-a2-m1-cS 1ha7-a2-m1-cO_1ha7-a2-m1-cW 1ha7-a2-m1-cQ_1ha7-a2-m1-cU 2uul-a1-m1-cA_2uul-a1-m1-cG 2uul-a1-m1-cC_2uul-a1-m1-cK 2uul-a1-m1-cE_2uul-a1-m1-cI 2uul-a2-m1-cM_2uul-a2-m1-cS 2uul-a2-m1-cO_2uul-a2-m1-cW 2uul-a2-m1-cQ_2uul-a2-m1-cU 2uum-a1-m1-cA_2uum-a1-m1-cK 2uum-a1-m1-cC_2uum-a1-m1-cI 2uum-a1-m1-cE_2uum-a1-m1-cG 2uum-a2-m1-cM_2uum-a2-m1-cW 2uum-a2-m1-cO_2uum-a2-m1-cU 2uum-a2-m1-cQ_2uum-a2-m1-cS 2uun-a1-m1-cA_2uun-a1-m1-cG 2uun-a1-m1-cC_2uun-a1-m1-cK 2uun-a1-m1-cE_2uun-a1-m1-cI 2uun-a2-m1-cM_2uun-a2-m1-cS 2uun-a2-m1-cO_2uun-a2-m1-cW 2uun-a2-m1-cQ_2uun-a2-m1-cU 4l1e-a1-m1-cA_4l1e-a1-m1-cC 4l1e-a1-m1-cE_4l1e-a1-m1-cG 4l1e-a1-m1-cI_4l1e-a1-m1-cK MKTPLTEAVSVADSQGRFLSSTEIQVAFGRFRQAKAGLEAAKALTSKADSLISGAAQAVYNKFPYTTQMQGPNYAADQRGKDKCARDIGYYLRMVTYCLIAGGTGPMDEYLIAGIDEINRTFELSPSWYIEALKYIKANHGLSGDAAVEANSYLDYAINALS MKTPLTEAVSVADSQGRFLSSTEIQVAFGRFRQAKAGLEAAKALTSKADSLISGAAQAVYNKFPYTTQMQGPNYAADQRGKDKCARDIGYYLRMVTYCLIAGGTGPMDEYLIAGIDEINRTFELSPSWYIEALKYIKANHGLSGDAAVEANSYLDYAINALS 1ghq-a1-m1-cB_1ghq-a1-m1-cC CR2-C3D COMPLEX STRUCTURE P20023 P20023 2.04 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 134 AISCGSPPPILNGRISYYSTPIAVGTVIRYSCSGTFRLIGEKSLLCITKDKVDGTWDKPAPKCEYFNKYSSCPEPIVPGGYKIRGSTPYRHGDSVTFACKTNFSMNGNKSVWCQANNMWGPTRLPTCVS AISCGSPPPILNGRISYYSTPIAVGTVIRYSCSGTFRLIGEKSLLCITKDKVDGTWDKPAPKCEYFNKYSSCPEPIVPGGYKIRGSTPYRHGDSVTFACKTNFSMNGNKSVWCQANNMWGPTRLPTCVSVFPLE 1gji-a1-m1-cA_1gji-a1-m1-cB Crystal structure of c-Rel bound to DNA P16236 P16236 2.85 X-RAY DIFFRACTION 36 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 275 275 PYIEIFEQPRQRGMRFRYKCEGRSAGSIPGEHSTDNNKTFPSIQILNYFGKVKIRTTLVTKNEPYKPHPHDLVGKDCRDGYYEAEFGPERRVLSFQNLGIQCVKKKDLKESISLRISKKINPFNVPEEQLHNIDEYDLNVVRLCFQAFLPDEHGNYTLALPPLISNPIYDNRAPNTAELRICRVNKNCGSVKGGDEIFILCDKVQKDDIEVRFVLDNWEAKGSFSQADVHRQVAIVFRTPPFLRDITEPITVKMQLRRPSDQEVSEPMDFRYLPD PYIEIFEQPRQRGMRFRYKCEGRSAGSIPGEHSTDNNKTFPSIQILNYFGKVKIRTTLVTKNEPYKPHPHDLVGKDCRDGYYEAEFGPERRVLSFQNLGIQCVKKKDLKESISLRISKKINPFNVPEEQLHNIDEYDLNVVRLCFQAFLPDEHGNYTLALPPLISNPIYDNRAPNTAELRICRVNKNCGSVKGGDEIFILCDKVQKDDIEVRFVLDNWEAKGSFSQADVHRQVAIVFRTPPFLRDITEPITVKMQLRRPSDQEVSEPMDFRYLPD 1gjw-a1-m1-cA_1gjw-a1-m2-cA Thermotoga maritima maltosyltransferase complex with maltose O33838 O33838 2.1 X-RAY DIFFRACTION 117 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 636 636 1gju-a1-m1-cA_1gju-a1-m2-cA MLLREINRYCKEKATGKRIYAVPKLWIPGFFKKFDEKSGRCFVDPYELGAEITDWILNQSREWDYSQPLSFLKGEKTPDWIKRSVVYGSLPRTTAAYNHKGSGYYEENDVLGFREAGTFFKMMLLLPFVKSLGADAIYLLPVSRMSDLFKKGDAPSPYSVKNPMELDERYHDPLLEPFKVDEEFKAFVEACHILGIRVILDFIPRTAARDSDLIREHPDWFYWIKVEELADYTPPRAEELPFKVPDEDELEIIYNKENVKRHLKKFTLPPNLIDPQKWEKIKREEGNILELIVKEFGIITPPGFSDLINDPQPTWDDVTFLRLYLDHPEASKRFLDPNQPPYVLYDVIKASKFPGKEPNRELWEYLAGVIPHYQKKYGIDGARLDMGHALPKELLDLIIKNVKEYDPAFVMIAEELDMEKDKASKEAGYDVILGSSWYFAGRVEEIGKLPDIAEELVLPFLASVETPDTPRIATRKYASKMKKLAPFVTYFLPNSIPYVNTGQEIGEKQPMNLGLDTDPNLRKVLSPTDEFFGKLAFFDHYVLHWDSPDRGVLNFIKKLIKVRHEFLDFVLNGKFENLTTKDLVMYSYEKNGQKIVIAANVGKEPKEITGGRVWNGKWSDEEKVVLKPLEFALVVQ MLLREINRYCKEKATGKRIYAVPKLWIPGFFKKFDEKSGRCFVDPYELGAEITDWILNQSREWDYSQPLSFLKGEKTPDWIKRSVVYGSLPRTTAAYNHKGSGYYEENDVLGFREAGTFFKMMLLLPFVKSLGADAIYLLPVSRMSDLFKKGDAPSPYSVKNPMELDERYHDPLLEPFKVDEEFKAFVEACHILGIRVILDFIPRTAARDSDLIREHPDWFYWIKVEELADYTPPRAEELPFKVPDEDELEIIYNKENVKRHLKKFTLPPNLIDPQKWEKIKREEGNILELIVKEFGIITPPGFSDLINDPQPTWDDVTFLRLYLDHPEASKRFLDPNQPPYVLYDVIKASKFPGKEPNRELWEYLAGVIPHYQKKYGIDGARLDMGHALPKELLDLIIKNVKEYDPAFVMIAEELDMEKDKASKEAGYDVILGSSWYFAGRVEEIGKLPDIAEELVLPFLASVETPDTPRIATRKYASKMKKLAPFVTYFLPNSIPYVNTGQEIGEKQPMNLGLDTDPNLRKVLSPTDEFFGKLAFFDHYVLHWDSPDRGVLNFIKKLIKVRHEFLDFVLNGKFENLTTKDLVMYSYEKNGQKIVIAANVGKEPKEITGGRVWNGKWSDEEKVVLKPLEFALVVQ 1gk1-a2-m1-cD_1gk1-a2-m3-cD Structure-based prediction of modifications in glutarylamidase to allow single-step enzymatic production of 7-aminocephalosporanic acid from cephalosporin C P07662 P07662 2.4 X-RAY DIFFRACTION 62 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 522 522 1ghd-a2-m1-cB_1ghd-a2-m2-cB 1gk0-a1-m1-cB_1gk0-a1-m2-cB 1gk0-a2-m1-cD_1gk0-a2-m3-cD 1gk1-a1-m1-cB_1gk1-a1-m2-cB SNSWAVAPGKTANGNALLLQNPHLSWTTDYFTYYEAHLVTPDFEIYGATQIGLPVIRFAFNQRMGITNTVNGMVGATNYRLTLQDGGYLYDGQVRPFERRQASYRLRQADGTTVDKPLEIRSSVHGPVFERADGTAVAVRVAGLDRPGMLEQYFDMITADSFDDYEAALARMQVPTFNIVYADREGTINYSFNGVAPKRAEGDIAFWQGLVPGDSSRYLWTETHPLDDLPRVTNPPGGFVQNSNDPPWTPTWPVTYTPKDFPSYLAPQTPHSLRAQQSVRLMSENDDLTLERFMALQLSHRAVMADRTLPDLIPAALIDPDPEVQAAARLLAAWDREFTSDSRAALLFEEWARLFAGQNFAGQAGFATPWSLDKPVSTPYGVRDPKAAVDQLRTAIANTKRKYGAIDRPFGDASRMILNDVNVPGAAGYGNLGSFRVFTWSDPDENGVRTPVHGETWVAMIEFSTPVRAYGLMSYGNSRQPGTTHYSDQIERVSRADFRELLLRREQVEAAVQERTPFNFKP SNSWAVAPGKTANGNALLLQNPHLSWTTDYFTYYEAHLVTPDFEIYGATQIGLPVIRFAFNQRMGITNTVNGMVGATNYRLTLQDGGYLYDGQVRPFERRQASYRLRQADGTTVDKPLEIRSSVHGPVFERADGTAVAVRVAGLDRPGMLEQYFDMITADSFDDYEAALARMQVPTFNIVYADREGTINYSFNGVAPKRAEGDIAFWQGLVPGDSSRYLWTETHPLDDLPRVTNPPGGFVQNSNDPPWTPTWPVTYTPKDFPSYLAPQTPHSLRAQQSVRLMSENDDLTLERFMALQLSHRAVMADRTLPDLIPAALIDPDPEVQAAARLLAAWDREFTSDSRAALLFEEWARLFAGQNFAGQAGFATPWSLDKPVSTPYGVRDPKAAVDQLRTAIANTKRKYGAIDRPFGDASRMILNDVNVPGAAGYGNLGSFRVFTWSDPDENGVRTPVHGETWVAMIEFSTPVRAYGLMSYGNSRQPGTTHYSDQIERVSRADFRELLLRREQVEAAVQERTPFNFKP 1gk4-a3-m1-cE_1gk4-a3-m1-cF HUMAN VIMENTIN COIL 2B FRAGMENT (CYS2) P08670 P08670 2.3 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 74 1gk4-a1-m1-cA_1gk4-a1-m1-cB 1gk4-a2-m1-cC_1gk4-a2-m1-cD NESLERQMREMEENFAVEAANYQDTIGRLQDEIQNMKEEMARHLREYQDLLNVKMALDIEIATYRKLLEG LKGTNESLERQMREMEENFAVEAANYQDTIGRLQDEIQNMKEEMARHLREYQDLLNVKMALDIEIATYRKLLEG 1gk6-a1-m1-cB_1gk6-a1-m1-cA Human vimentin coil 2B fragment linked to GCN4 leucine zipper (Z2B) P08670 P08670 1.9 X-RAY DIFFRACTION 69 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 52 55 MKQLEDKVEELLSKNYHLENEVARLKKLVGDLLNVKMALDIEIATYRKLLEG MKQLEDKVEELLSKNYHLENEVARLKKLVGDLLNVKMALDIEIATYRKLLEGEES 1gk8-a1-m2-cE_1gk8-a1-m2-cG Rubisco from Chlamydomonas reinhardtii P00877 P00877 1.4 X-RAY DIFFRACTION 24 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 460 462 1gk8-a1-m1-cA_1gk8-a1-m1-cC 1gk8-a1-m1-cE_1gk8-a1-m1-cC 1gk8-a1-m1-cE_1gk8-a1-m1-cG 1gk8-a1-m1-cG_1gk8-a1-m1-cA 1gk8-a1-m2-cA_1gk8-a1-m2-cC 1gk8-a1-m2-cE_1gk8-a1-m2-cC 1gk8-a1-m2-cG_1gk8-a1-m2-cA 1ir2-a1-m1-cB_1ir2-a1-m1-cA 1ir2-a1-m1-cC_1ir2-a1-m1-cB 1ir2-a1-m1-cC_1ir2-a1-m1-cD 1ir2-a1-m1-cD_1ir2-a1-m1-cA 1ir2-a1-m1-cE_1ir2-a1-m1-cF 1ir2-a1-m1-cE_1ir2-a1-m1-cH 1ir2-a1-m1-cF_1ir2-a1-m1-cG 1ir2-a1-m1-cG_1ir2-a1-m1-cH 1ir2-a2-m1-cS_1ir2-a2-m1-cT 1ir2-a2-m1-cS_1ir2-a2-m1-cV 1ir2-a2-m1-cT_1ir2-a2-m1-cU 1ir2-a2-m1-cU_1ir2-a2-m1-cV 1ir2-a2-m1-cW_1ir2-a2-m1-cX 1ir2-a2-m1-cW_1ir2-a2-m1-cZ 1ir2-a2-m1-cY_1ir2-a2-m1-cX 1ir2-a2-m1-cY_1ir2-a2-m1-cZ 1uw9-a1-m1-cA_1uw9-a1-m1-cK 1uw9-a1-m1-cA_1uw9-a1-m1-cO 1uw9-a1-m1-cE_1uw9-a1-m1-cB 1uw9-a1-m1-cE_1uw9-a1-m1-cH 1uw9-a1-m1-cR_1uw9-a1-m1-cK 1uw9-a1-m1-cR_1uw9-a1-m1-cO 1uw9-a1-m1-cV_1uw9-a1-m1-cB 1uw9-a1-m1-cV_1uw9-a1-m1-cH 1uwa-a1-m1-cA_1uwa-a1-m1-cE 1uwa-a1-m1-cA_1uwa-a1-m1-cK 1uwa-a1-m1-cB_1uwa-a1-m1-cH 1uwa-a1-m1-cB_1uwa-a1-m1-cO 1uwa-a1-m1-cR_1uwa-a1-m1-cH 1uwa-a1-m1-cR_1uwa-a1-m1-cO 1uwa-a1-m1-cV_1uwa-a1-m1-cE 1uwa-a1-m1-cV_1uwa-a1-m1-cK 1uzd-a1-m1-cA_1uzd-a1-m1-cK 1uzd-a1-m1-cA_1uzd-a1-m1-cO 1uzd-a1-m1-cE_1uzd-a1-m1-cB 1uzd-a1-m1-cE_1uzd-a1-m1-cH 1uzd-a1-m1-cR_1uzd-a1-m1-cK 1uzd-a1-m1-cR_1uzd-a1-m1-cO 1uzd-a1-m1-cV_1uzd-a1-m1-cB 1uzd-a1-m1-cV_1uzd-a1-m1-cH 1uzh-a1-m1-cA_1uzh-a1-m1-cK 1uzh-a1-m1-cA_1uzh-a1-m1-cO 1uzh-a1-m1-cB_1uzh-a1-m1-cE 1uzh-a1-m1-cB_1uzh-a1-m1-cV 1uzh-a1-m1-cE_1uzh-a1-m1-cH 1uzh-a1-m1-cH_1uzh-a1-m1-cV 1uzh-a1-m1-cK_1uzh-a1-m1-cR 1uzh-a1-m1-cO_1uzh-a1-m1-cR 2v63-a1-m1-cA_2v63-a1-m1-cC 2v63-a1-m1-cA_2v63-a1-m1-cG 2v63-a1-m1-cB_2v63-a1-m1-cH 2v63-a1-m1-cD_2v63-a1-m1-cB 2v63-a1-m1-cD_2v63-a1-m1-cF 2v63-a1-m1-cE_2v63-a1-m1-cC 2v63-a1-m1-cE_2v63-a1-m1-cG 2v63-a1-m1-cF_2v63-a1-m1-cH 2v67-a1-m1-cA_2v67-a1-m1-cC 2v67-a1-m1-cA_2v67-a1-m1-cG 2v67-a1-m1-cD_2v67-a1-m1-cB 2v67-a1-m1-cD_2v67-a1-m1-cF 2v67-a1-m1-cE_2v67-a1-m1-cC 2v67-a1-m1-cE_2v67-a1-m1-cG 2v67-a1-m1-cH_2v67-a1-m1-cB 2v67-a1-m1-cH_2v67-a1-m1-cF 2v68-a1-m1-cA_2v68-a1-m1-cC 2v68-a1-m1-cA_2v68-a1-m1-cG 2v68-a1-m1-cD_2v68-a1-m1-cB 2v68-a1-m1-cD_2v68-a1-m1-cF 2v68-a1-m1-cE_2v68-a1-m1-cC 2v68-a1-m1-cE_2v68-a1-m1-cG 2v68-a1-m1-cH_2v68-a1-m1-cB 2v68-a1-m1-cH_2v68-a1-m1-cF 2v69-a1-m1-cA_2v69-a1-m1-cC 2v69-a1-m1-cA_2v69-a1-m1-cG 2v69-a1-m1-cB_2v69-a1-m1-cD 2v69-a1-m1-cC_2v69-a1-m1-cE 2v69-a1-m1-cE_2v69-a1-m1-cG 2v69-a1-m1-cF_2v69-a1-m1-cD 2v69-a1-m1-cH_2v69-a1-m1-cB 2v69-a1-m1-cH_2v69-a1-m1-cF 2v6a-a1-m1-cA_2v6a-a1-m1-cC 2v6a-a1-m1-cB_2v6a-a1-m1-cH 2v6a-a1-m1-cD_2v6a-a1-m1-cB 2v6a-a1-m1-cE_2v6a-a1-m1-cC 2v6a-a1-m1-cE_2v6a-a1-m1-cG 2v6a-a1-m1-cF_2v6a-a1-m1-cD 2v6a-a1-m1-cF_2v6a-a1-m1-cH 2v6a-a1-m1-cG_2v6a-a1-m1-cA 2vdh-a1-m1-cA_2vdh-a1-m1-cC 2vdh-a1-m1-cA_2vdh-a1-m1-cG 2vdh-a1-m1-cD_2vdh-a1-m1-cB 2vdh-a1-m1-cD_2vdh-a1-m1-cF 2vdh-a1-m1-cE_2vdh-a1-m1-cC 2vdh-a1-m1-cE_2vdh-a1-m1-cG 2vdh-a1-m1-cH_2vdh-a1-m1-cB 2vdh-a1-m1-cH_2vdh-a1-m1-cF 2vdi-a1-m1-cA_2vdi-a1-m1-cC 2vdi-a1-m1-cA_2vdi-a1-m1-cG 2vdi-a1-m1-cC_2vdi-a1-m1-cE 2vdi-a1-m1-cD_2vdi-a1-m1-cB 2vdi-a1-m1-cD_2vdi-a1-m1-cF 2vdi-a1-m1-cE_2vdi-a1-m1-cG 2vdi-a1-m1-cF_2vdi-a1-m1-cH 2vdi-a1-m1-cH_2vdi-a1-m1-cB 7jfo-a1-m1-cA_7jfo-a1-m1-cE 7jfo-a1-m1-cA_7jfo-a1-m1-cM 7jfo-a1-m1-cC_7jfo-a1-m1-cG 7jfo-a1-m1-cC_7jfo-a1-m1-cO 7jfo-a1-m1-cE_7jfo-a1-m1-cI 7jfo-a1-m1-cG_7jfo-a1-m1-cK 7jfo-a1-m1-cI_7jfo-a1-m1-cM 7jfo-a1-m1-cK_7jfo-a1-m1-cO 7jn4-a1-m1-cA_7jn4-a1-m1-cE 7jn4-a1-m1-cA_7jn4-a1-m1-cM 7jn4-a1-m1-cC_7jn4-a1-m1-cG 7jn4-a1-m1-cC_7jn4-a1-m1-cO 7jn4-a1-m1-cE_7jn4-a1-m1-cI 7jn4-a1-m1-cG_7jn4-a1-m1-cK 7jn4-a1-m1-cI_7jn4-a1-m1-cM 7jn4-a1-m1-cK_7jn4-a1-m1-cO 7jsx-a1-m1-cA_7jsx-a1-m1-cE 7jsx-a1-m1-cA_7jsx-a1-m1-cM 7jsx-a1-m1-cC_7jsx-a1-m1-cG 7jsx-a1-m1-cC_7jsx-a1-m1-cO 7jsx-a1-m1-cE_7jsx-a1-m1-cI 7jsx-a1-m1-cG_7jsx-a1-m1-cK 7jsx-a1-m1-cI_7jsx-a1-m1-cM 7jsx-a1-m1-cK_7jsx-a1-m1-cO AGFKAGVKDYRLTYYTPDYVVRDTDILAAFRMTPQPGVPPEECGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYDIEPVPGEDNQYIAYVAYIDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPPAYVKTFVGPHGIQVERDKLNKYGRGLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFVAEAIYKAQAETGEVKGHYLNATAGTCEEMMKRAVAKELGVPIIMHDYLTGGFTANTSLAIYCRDNGLLLHIHRAMHAVIDRQRNHGIHFRVLAKALRMSGGDHLHSGTVVGKLEGEREVTLGFVDLMRDDYVEKDRSRGIYFTQDWSMPGVMPVASGGIHVWHMPALVEIFGDDACLQFGGGTLGHPWGNAPGAAANRVALEACTQARNEGRDLAREGGDVIRSACKWSPELAAACEVWKEIKFEFDTIDKL AGAGFKAGVKDYRLTYYTPDYVVRDTDILAAFRMTPQPGVPPEECGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYDIEPVPGEDNQYIAYVAYIDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPPAYVKTFVGPHGIQVERDKLNKYGRGLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFVAEAIYKAQAETGEVKGHYLNATAGTCEEMMKRAVAKELGVPIIMHDYLTGGFTANTSLAIYCRDNGLLLHIHRAMHAVIDRQRNHGIHFRVLAKALRMSGGDHLHSGTVVGKLEGEREVTLGFVDLMRDDYVEKDRSRGIYFTQDWSMPGVMPVASGGIHVWHMPALVEIFGDDACLQFGGGTLGHPWGNAPGAAANRVALEACTQARNEGRDLAREGGDVIRSACKWSPELAAACEVWKEIKFEFDTIDKL 1gk8-a1-m2-cG_1gk8-a1-m1-cA Rubisco from Chlamydomonas reinhardtii P00877 P00877 1.4 X-RAY DIFFRACTION 25 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 462 464 1gk8-a1-m1-cE_1gk8-a1-m2-cC 1gk8-a1-m1-cG_1gk8-a1-m2-cA 1gk8-a1-m2-cE_1gk8-a1-m1-cC 1ir2-a1-m1-cC_1ir2-a1-m1-cH 1ir2-a1-m1-cE_1ir2-a1-m1-cD 1ir2-a1-m1-cF_1ir2-a1-m1-cA 1ir2-a1-m1-cG_1ir2-a1-m1-cB 1ir2-a2-m1-cS_1ir2-a2-m1-cX 1ir2-a2-m1-cW_1ir2-a2-m1-cV 1ir2-a2-m1-cY_1ir2-a2-m1-cT 1ir2-a2-m1-cZ_1ir2-a2-m1-cU 1uw9-a1-m1-cA_1uw9-a1-m1-cE 1uw9-a1-m1-cB_1uw9-a1-m1-cO 1uw9-a1-m1-cH_1uw9-a1-m1-cK 1uw9-a1-m1-cR_1uw9-a1-m1-cV 1uwa-a1-m1-cA_1uwa-a1-m1-cR 1uwa-a1-m1-cB_1uwa-a1-m1-cV 1uwa-a1-m1-cE_1uwa-a1-m1-cO 1uwa-a1-m1-cH_1uwa-a1-m1-cK 1uzd-a1-m1-cA_1uzd-a1-m1-cE 1uzd-a1-m1-cB_1uzd-a1-m1-cO 1uzd-a1-m1-cH_1uzd-a1-m1-cK 1uzd-a1-m1-cR_1uzd-a1-m1-cV 1uzh-a1-m1-cA_1uzh-a1-m1-cE 1uzh-a1-m1-cB_1uzh-a1-m1-cO 1uzh-a1-m1-cH_1uzh-a1-m1-cK 1uzh-a1-m1-cR_1uzh-a1-m1-cV 2v63-a1-m1-cB_2v63-a1-m1-cG 2v63-a1-m1-cC_2v63-a1-m1-cF 2v63-a1-m1-cD_2v63-a1-m1-cA 2v63-a1-m1-cE_2v63-a1-m1-cH 2v67-a1-m1-cB_2v67-a1-m1-cG 2v67-a1-m1-cC_2v67-a1-m1-cF 2v67-a1-m1-cD_2v67-a1-m1-cA 2v67-a1-m1-cE_2v67-a1-m1-cH 2v68-a1-m1-cC_2v68-a1-m1-cF 2v68-a1-m1-cD_2v68-a1-m1-cA 2v68-a1-m1-cE_2v68-a1-m1-cH 2v68-a1-m1-cG_2v68-a1-m1-cB 2v69-a1-m1-cA_2v69-a1-m1-cD 2v69-a1-m1-cB_2v69-a1-m1-cG 2v69-a1-m1-cC_2v69-a1-m1-cF 2v69-a1-m1-cH_2v69-a1-m1-cE 2v6a-a1-m1-cD_2v6a-a1-m1-cA 2v6a-a1-m1-cE_2v6a-a1-m1-cH 2v6a-a1-m1-cF_2v6a-a1-m1-cC 2v6a-a1-m1-cG_2v6a-a1-m1-cB 2vdh-a1-m1-cA_2vdh-a1-m1-cD 2vdh-a1-m1-cC_2vdh-a1-m1-cF 2vdh-a1-m1-cE_2vdh-a1-m1-cH 2vdh-a1-m1-cG_2vdh-a1-m1-cB 2vdi-a1-m1-cA_2vdi-a1-m1-cD 2vdi-a1-m1-cC_2vdi-a1-m1-cF 2vdi-a1-m1-cE_2vdi-a1-m1-cH 2vdi-a1-m1-cG_2vdi-a1-m1-cB 7jfo-a1-m1-cA_7jfo-a1-m1-cO 7jfo-a1-m1-cC_7jfo-a1-m1-cE 7jfo-a1-m1-cG_7jfo-a1-m1-cI 7jfo-a1-m1-cK_7jfo-a1-m1-cM 7jn4-a1-m1-cA_7jn4-a1-m1-cO 7jn4-a1-m1-cC_7jn4-a1-m1-cE 7jn4-a1-m1-cG_7jn4-a1-m1-cI 7jn4-a1-m1-cK_7jn4-a1-m1-cM 7jsx-a1-m1-cA_7jsx-a1-m1-cO 7jsx-a1-m1-cC_7jsx-a1-m1-cE 7jsx-a1-m1-cG_7jsx-a1-m1-cI 7jsx-a1-m1-cK_7jsx-a1-m1-cM AGAGFKAGVKDYRLTYYTPDYVVRDTDILAAFRMTPQPGVPPEECGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYDIEPVPGEDNQYIAYVAYIDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPPAYVKTFVGPHGIQVERDKLNKYGRGLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFVAEAIYKAQAETGEVKGHYLNATAGTCEEMMKRAVAKELGVPIIMHDYLTGGFTANTSLAIYCRDNGLLLHIHRAMHAVIDRQRNHGIHFRVLAKALRMSGGDHLHSGTVVGKLEGEREVTLGFVDLMRDDYVEKDRSRGIYFTQDWSMPGVMPVASGGIHVWHMPALVEIFGDDACLQFGGGTLGHPWGNAPGAAANRVALEACTQARNEGRDLAREGGDVIRSACKWSPELAAACEVWKEIKFEFDTIDKL TKAGAGFKAGVKDYRLTYYTPDYVVRDTDILAAFRMTPQPGVPPEECGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYDIEPVPGEDNQYIAYVAYIDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPPAYVKTFVGPHGIQVERDKLNKYGRGLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFVAEAIYKAQAETGEVKGHYLNATAGTCEEMMKRAVAKELGVPIIMHDYLTGGFTANTSLAIYCRDNGLLLHIHRAMHAVIDRQRNHGIHFRVLAKALRMSGGDHLHSGTVVGKLEGEREVTLGFVDLMRDDYVEKDRSRGIYFTQDWSMPGVMPVASGGIHVWHMPALVEIFGDDACLQFGGGTLGHPWGNAPGAAANRVALEACTQARNEGRDLAREGGDVIRSACKWSPELAAACEVWKEIKFEFDTIDKL 1gk8-a1-m2-cG_1gk8-a1-m1-cC Rubisco from Chlamydomonas reinhardtii P00877 P00877 1.4 X-RAY DIFFRACTION 406 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 462 464 1gk8-a1-m1-cA_1gk8-a1-m2-cA 1gk8-a1-m1-cE_1gk8-a1-m2-cE 1gk8-a1-m1-cG_1gk8-a1-m2-cC 1ir2-a1-m1-cC_1ir2-a1-m1-cG 1ir2-a1-m1-cD_1ir2-a1-m1-cH 1ir2-a1-m1-cE_1ir2-a1-m1-cA 1ir2-a1-m1-cF_1ir2-a1-m1-cB 1ir2-a2-m1-cS_1ir2-a2-m1-cW 1ir2-a2-m1-cT_1ir2-a2-m1-cX 1ir2-a2-m1-cY_1ir2-a2-m1-cU 1ir2-a2-m1-cZ_1ir2-a2-m1-cV 1uw9-a1-m1-cA_1uw9-a1-m1-cB 1uw9-a1-m1-cE_1uw9-a1-m1-cK 1uw9-a1-m1-cR_1uw9-a1-m1-cH 1uw9-a1-m1-cV_1uw9-a1-m1-cO 1uwa-a1-m1-cA_1uwa-a1-m1-cO 1uwa-a1-m1-cB_1uwa-a1-m1-cE 1uwa-a1-m1-cR_1uwa-a1-m1-cK 1uwa-a1-m1-cV_1uwa-a1-m1-cH 1uzd-a1-m1-cA_1uzd-a1-m1-cB 1uzd-a1-m1-cE_1uzd-a1-m1-cK 1uzd-a1-m1-cR_1uzd-a1-m1-cH 1uzd-a1-m1-cV_1uzd-a1-m1-cO 1uzh-a1-m1-cA_1uzh-a1-m1-cB 1uzh-a1-m1-cE_1uzh-a1-m1-cK 1uzh-a1-m1-cH_1uzh-a1-m1-cR 1uzh-a1-m1-cO_1uzh-a1-m1-cV 2v63-a1-m1-cA_2v63-a1-m1-cB 2v63-a1-m1-cD_2v63-a1-m1-cC 2v63-a1-m1-cE_2v63-a1-m1-cF 2v63-a1-m1-cG_2v63-a1-m1-cH 2v67-a1-m1-cA_2v67-a1-m1-cB 2v67-a1-m1-cD_2v67-a1-m1-cC 2v67-a1-m1-cE_2v67-a1-m1-cF 2v67-a1-m1-cH_2v67-a1-m1-cG 2v68-a1-m1-cA_2v68-a1-m1-cB 2v68-a1-m1-cD_2v68-a1-m1-cC 2v68-a1-m1-cE_2v68-a1-m1-cF 2v68-a1-m1-cG_2v68-a1-m1-cH 2v69-a1-m1-cA_2v69-a1-m1-cB 2v69-a1-m1-cC_2v69-a1-m1-cD 2v69-a1-m1-cE_2v69-a1-m1-cF 2v69-a1-m1-cH_2v69-a1-m1-cG 2v6a-a1-m1-cA_2v6a-a1-m1-cB 2v6a-a1-m1-cD_2v6a-a1-m1-cC 2v6a-a1-m1-cE_2v6a-a1-m1-cF 2v6a-a1-m1-cG_2v6a-a1-m1-cH 2vdh-a1-m1-cA_2vdh-a1-m1-cB 2vdh-a1-m1-cD_2vdh-a1-m1-cC 2vdh-a1-m1-cE_2vdh-a1-m1-cF 2vdh-a1-m1-cH_2vdh-a1-m1-cG 2vdi-a1-m1-cA_2vdi-a1-m1-cB 2vdi-a1-m1-cC_2vdi-a1-m1-cD 2vdi-a1-m1-cE_2vdi-a1-m1-cF 2vdi-a1-m1-cH_2vdi-a1-m1-cG 7jfo-a1-m1-cA_7jfo-a1-m1-cC 7jfo-a1-m1-cE_7jfo-a1-m1-cG 7jfo-a1-m1-cI_7jfo-a1-m1-cK 7jfo-a1-m1-cM_7jfo-a1-m1-cO 7jn4-a1-m1-cA_7jn4-a1-m1-cC 7jn4-a1-m1-cE_7jn4-a1-m1-cG 7jn4-a1-m1-cI_7jn4-a1-m1-cK 7jn4-a1-m1-cM_7jn4-a1-m1-cO 7jsx-a1-m1-cA_7jsx-a1-m1-cC 7jsx-a1-m1-cE_7jsx-a1-m1-cG 7jsx-a1-m1-cI_7jsx-a1-m1-cK 7jsx-a1-m1-cM_7jsx-a1-m1-cO AGAGFKAGVKDYRLTYYTPDYVVRDTDILAAFRMTPQPGVPPEECGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYDIEPVPGEDNQYIAYVAYIDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPPAYVKTFVGPHGIQVERDKLNKYGRGLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFVAEAIYKAQAETGEVKGHYLNATAGTCEEMMKRAVAKELGVPIIMHDYLTGGFTANTSLAIYCRDNGLLLHIHRAMHAVIDRQRNHGIHFRVLAKALRMSGGDHLHSGTVVGKLEGEREVTLGFVDLMRDDYVEKDRSRGIYFTQDWSMPGVMPVASGGIHVWHMPALVEIFGDDACLQFGGGTLGHPWGNAPGAAANRVALEACTQARNEGRDLAREGGDVIRSACKWSPELAAACEVWKEIKFEFDTIDKL TKAGAGFKAGVKDYRLTYYTPDYVVRDTDILAAFRMTPQPGVPPEECGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYDIEPVPGEDNQYIAYVAYIDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPPAYVKTFVGPHGIQVERDKLNKYGRGLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTDDENVNSQPFMRWRDRFLFVAEAIYKAQAETGEVKGHYLNATAGTCEEMMKRAVAKELGVPIIMHDYLTGGFTANTSLAIYCRDNGLLLHIHRAMHAVIDRQRNHGIHFRVLAKALRMSGGDHLHSGTVVGKLEGEREVTLGFVDLMRDDYVEKDRSRGIYFTQDWSMPGVMPVASGGIHVWHMPALVEIFGDDACLQFGGGTLGHPWGNAPGAAANRVALEACTQARNEGRDLAREGGDVIRSACKWSPELAAACEVWKEIKFEFDTIDKL 1gk8-a1-m2-cM_1gk8-a1-m2-cO Rubisco from Chlamydomonas reinhardtii P00873 P00873 1.4 X-RAY DIFFRACTION 24 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 125 125 1gk8-a1-m1-cI_1gk8-a1-m1-cK 1gk8-a1-m1-cI_1gk8-a1-m1-cO 1gk8-a1-m1-cK_1gk8-a1-m1-cM 1gk8-a1-m1-cM_1gk8-a1-m1-cO 1gk8-a1-m2-cI_1gk8-a1-m2-cK 1gk8-a1-m2-cI_1gk8-a1-m2-cO 1gk8-a1-m2-cK_1gk8-a1-m2-cM 1ir2-a1-m1-cI_1ir2-a1-m1-cJ 1ir2-a1-m1-cI_1ir2-a1-m1-cL 1ir2-a1-m1-cJ_1ir2-a1-m1-cK 1ir2-a1-m1-cK_1ir2-a1-m1-cL 1ir2-a1-m1-cM_1ir2-a1-m1-cN 1ir2-a1-m1-cM_1ir2-a1-m1-cP 1ir2-a1-m1-cN_1ir2-a1-m1-cO 1ir2-a1-m1-cO_1ir2-a1-m1-cP 1ir2-a2-m1-c1_1ir2-a2-m1-c2 1ir2-a2-m1-c1_1ir2-a2-m1-c4 1ir2-a2-m1-c2_1ir2-a2-m1-c3 1ir2-a2-m1-c3_1ir2-a2-m1-c4 1ir2-a2-m1-c5_1ir2-a2-m1-c6 1ir2-a2-m1-c5_1ir2-a2-m1-c8 1ir2-a2-m1-c6_1ir2-a2-m1-c7 1ir2-a2-m1-c7_1ir2-a2-m1-c8 1uw9-a1-m1-cC_1uw9-a1-m1-cF 1uw9-a1-m1-cC_1uw9-a1-m1-cW 1uw9-a1-m1-cF_1uw9-a1-m1-cJ 1uw9-a1-m1-cI_1uw9-a1-m1-cP 1uw9-a1-m1-cI_1uw9-a1-m1-cT 1uw9-a1-m1-cJ_1uw9-a1-m1-cW 1uw9-a1-m1-cM_1uw9-a1-m1-cP 1uw9-a1-m1-cM_1uw9-a1-m1-cT 1uwa-a1-m1-cC_1uwa-a1-m1-cJ 1uwa-a1-m1-cC_1uwa-a1-m1-cT 1uwa-a1-m1-cF_1uwa-a1-m1-cI 1uwa-a1-m1-cF_1uwa-a1-m1-cW 1uwa-a1-m1-cI_1uwa-a1-m1-cP 1uwa-a1-m1-cJ_1uwa-a1-m1-cM 1uwa-a1-m1-cM_1uwa-a1-m1-cT 1uwa-a1-m1-cP_1uwa-a1-m1-cW 2v63-a1-m1-cI_2v63-a1-m1-cK 2v63-a1-m1-cI_2v63-a1-m1-cO 2v63-a1-m1-cJ_2v63-a1-m1-cL 2v63-a1-m1-cJ_2v63-a1-m1-cP 2v63-a1-m1-cK_2v63-a1-m1-cM 2v63-a1-m1-cL_2v63-a1-m1-cN 2v63-a1-m1-cM_2v63-a1-m1-cO 2v63-a1-m1-cN_2v63-a1-m1-cP 2v67-a1-m1-cI_2v67-a1-m1-cK 2v67-a1-m1-cI_2v67-a1-m1-cO 2v67-a1-m1-cJ_2v67-a1-m1-cL 2v67-a1-m1-cJ_2v67-a1-m1-cP 2v67-a1-m1-cK_2v67-a1-m1-cM 2v67-a1-m1-cL_2v67-a1-m1-cN 2v67-a1-m1-cM_2v67-a1-m1-cO 2v67-a1-m1-cN_2v67-a1-m1-cP 2v68-a1-m1-cI_2v68-a1-m1-cK 2v68-a1-m1-cI_2v68-a1-m1-cO 2v68-a1-m1-cJ_2v68-a1-m1-cL 2v68-a1-m1-cJ_2v68-a1-m1-cP 2v68-a1-m1-cK_2v68-a1-m1-cM 2v68-a1-m1-cL_2v68-a1-m1-cN 2v68-a1-m1-cM_2v68-a1-m1-cO 2v68-a1-m1-cN_2v68-a1-m1-cP 2v69-a1-m1-cI_2v69-a1-m1-cK 2v69-a1-m1-cI_2v69-a1-m1-cO 2v69-a1-m1-cJ_2v69-a1-m1-cL 2v69-a1-m1-cJ_2v69-a1-m1-cP 2v69-a1-m1-cK_2v69-a1-m1-cM 2v69-a1-m1-cL_2v69-a1-m1-cN 2v69-a1-m1-cM_2v69-a1-m1-cO 2v69-a1-m1-cN_2v69-a1-m1-cP 2v6a-a1-m1-cI_2v6a-a1-m1-cK 2v6a-a1-m1-cI_2v6a-a1-m1-cO 2v6a-a1-m1-cJ_2v6a-a1-m1-cL 2v6a-a1-m1-cJ_2v6a-a1-m1-cP 2v6a-a1-m1-cK_2v6a-a1-m1-cM 2v6a-a1-m1-cL_2v6a-a1-m1-cN 2v6a-a1-m1-cM_2v6a-a1-m1-cO 2v6a-a1-m1-cN_2v6a-a1-m1-cP 2vdh-a1-m1-cI_2vdh-a1-m1-cK 2vdh-a1-m1-cI_2vdh-a1-m1-cO 2vdh-a1-m1-cJ_2vdh-a1-m1-cL 2vdh-a1-m1-cJ_2vdh-a1-m1-cP 2vdh-a1-m1-cK_2vdh-a1-m1-cM 2vdh-a1-m1-cL_2vdh-a1-m1-cN 2vdh-a1-m1-cM_2vdh-a1-m1-cO 2vdh-a1-m1-cN_2vdh-a1-m1-cP 2vdi-a1-m1-cI_2vdi-a1-m1-cK 2vdi-a1-m1-cI_2vdi-a1-m1-cO 2vdi-a1-m1-cJ_2vdi-a1-m1-cL 2vdi-a1-m1-cJ_2vdi-a1-m1-cP 2vdi-a1-m1-cK_2vdi-a1-m1-cM 2vdi-a1-m1-cL_2vdi-a1-m1-cN 2vdi-a1-m1-cM_2vdi-a1-m1-cO 2vdi-a1-m1-cN_2vdi-a1-m1-cP 7jfo-a1-m1-cB_7jfo-a1-m1-cF 7jfo-a1-m1-cB_7jfo-a1-m1-cN 7jfo-a1-m1-cD_7jfo-a1-m1-cH 7jfo-a1-m1-cD_7jfo-a1-m1-cP 7jfo-a1-m1-cF_7jfo-a1-m1-cJ 7jfo-a1-m1-cH_7jfo-a1-m1-cL 7jfo-a1-m1-cJ_7jfo-a1-m1-cN 7jfo-a1-m1-cL_7jfo-a1-m1-cP 7jn4-a1-m1-cB_7jn4-a1-m1-cF 7jn4-a1-m1-cB_7jn4-a1-m1-cN 7jn4-a1-m1-cD_7jn4-a1-m1-cH 7jn4-a1-m1-cD_7jn4-a1-m1-cP 7jn4-a1-m1-cF_7jn4-a1-m1-cJ 7jn4-a1-m1-cH_7jn4-a1-m1-cL 7jn4-a1-m1-cJ_7jn4-a1-m1-cN 7jn4-a1-m1-cL_7jn4-a1-m1-cP 7jsx-a1-m1-cB_7jsx-a1-m1-cF 7jsx-a1-m1-cB_7jsx-a1-m1-cN 7jsx-a1-m1-cD_7jsx-a1-m1-cH 7jsx-a1-m1-cD_7jsx-a1-m1-cP 7jsx-a1-m1-cF_7jsx-a1-m1-cJ 7jsx-a1-m1-cH_7jsx-a1-m1-cL 7jsx-a1-m1-cJ_7jsx-a1-m1-cN 7jsx-a1-m1-cL_7jsx-a1-m1-cP MVWTPVNNKMFETFSYLPPLTDEQIAAQVDYIVANGWIPCLEFAEADKAYVSNESAIRFGSVSCLYYDNRYWTMWKLPMFGCRDPMQVLREIVACTKAFPDAYVRLVAFDNQKQVQIMGFLVQRP MVWTPVNNKMFETFSYLPPLTDEQIAAQVDYIVANGWIPCLEFAEADKAYVSNESAIRFGSVSCLYYDNRYWTMWKLPMFGCRDPMQVLREIVACTKAFPDAYVRLVAFDNQKQVQIMGFLVQRP 1gkr-a1-m1-cB_1gkr-a1-m1-cD L-Hydantoinase (Dihydropyrimidinase) from Arthrobacter aurescens P81006 P81006 2.6 X-RAY DIFFRACTION 53 1.0 43663 (Paenarthrobacter aurescens) 43663 (Paenarthrobacter aurescens) 450 450 1gkr-a1-m1-cA_1gkr-a1-m1-cC MFDVIVKNCRLVSSDGITEADILVKDGKVAAISADTSDVEASRTIDAGGKFVMPGVVDEHVHIIDMDLKNRYGRFELDSESAAVGGITTIIEMPITFPPTTTLDAFLEKKKQAGQRLKVDFALYGGGVPGNLPEIRKMHDAGAVGFSMMAASVPGMFDAVSDGELFEIFQEIAACGSVIVVHAENETIIQALQKQIKAAGGKDMAAYEASQPVFQENEAIQRALLLQKEAGCRLIVLHVSNPDGVELIHQAQSEGQDVHCESGPQYLNITTDDAERIGPYMKVAPPVRSAEMNIRLWEQLENGLIDTLGSDHGGHPVEDKEPGWKDVWKAGNGALGLETSLPMMLTNGVNKGRLSLERLVEVMCEKPAKLFGIYPQKGTLQVGSDADLLILDLDIDTKVDASQFRSLHKYSPFDGMPVTGAPVLTMVRGTVVAEKGEVLVEQGFGQFVTR MFDVIVKNCRLVSSDGITEADILVKDGKVAAISADTSDVEASRTIDAGGKFVMPGVVDEHVHIIDMDLKNRYGRFELDSESAAVGGITTIIEMPITFPPTTTLDAFLEKKKQAGQRLKVDFALYGGGVPGNLPEIRKMHDAGAVGFSMMAASVPGMFDAVSDGELFEIFQEIAACGSVIVVHAENETIIQALQKQIKAAGGKDMAAYEASQPVFQENEAIQRALLLQKEAGCRLIVLHVSNPDGVELIHQAQSEGQDVHCESGPQYLNITTDDAERIGPYMKVAPPVRSAEMNIRLWEQLENGLIDTLGSDHGGHPVEDKEPGWKDVWKAGNGALGLETSLPMMLTNGVNKGRLSLERLVEVMCEKPAKLFGIYPQKGTLQVGSDADLLILDLDIDTKVDASQFRSLHKYSPFDGMPVTGAPVLTMVRGTVVAEKGEVLVEQGFGQFVTR 1gkr-a1-m1-cC_1gkr-a1-m1-cD L-Hydantoinase (Dihydropyrimidinase) from Arthrobacter aurescens P81006 P81006 2.6 X-RAY DIFFRACTION 58 1.0 43663 (Paenarthrobacter aurescens) 43663 (Paenarthrobacter aurescens) 450 450 1gkr-a1-m1-cA_1gkr-a1-m1-cB MFDVIVKNCRLVSSDGITEADILVKDGKVAAISADTSDVEASRTIDAGGKFVMPGVVDEHVHIIDMDLKNRYGRFELDSESAAVGGITTIIEMPITFPPTTTLDAFLEKKKQAGQRLKVDFALYGGGVPGNLPEIRKMHDAGAVGFSMMAASVPGMFDAVSDGELFEIFQEIAACGSVIVVHAENETIIQALQKQIKAAGGKDMAAYEASQPVFQENEAIQRALLLQKEAGCRLIVLHVSNPDGVELIHQAQSEGQDVHCESGPQYLNITTDDAERIGPYMKVAPPVRSAEMNIRLWEQLENGLIDTLGSDHGGHPVEDKEPGWKDVWKAGNGALGLETSLPMMLTNGVNKGRLSLERLVEVMCEKPAKLFGIYPQKGTLQVGSDADLLILDLDIDTKVDASQFRSLHKYSPFDGMPVTGAPVLTMVRGTVVAEKGEVLVEQGFGQFVTR MFDVIVKNCRLVSSDGITEADILVKDGKVAAISADTSDVEASRTIDAGGKFVMPGVVDEHVHIIDMDLKNRYGRFELDSESAAVGGITTIIEMPITFPPTTTLDAFLEKKKQAGQRLKVDFALYGGGVPGNLPEIRKMHDAGAVGFSMMAASVPGMFDAVSDGELFEIFQEIAACGSVIVVHAENETIIQALQKQIKAAGGKDMAAYEASQPVFQENEAIQRALLLQKEAGCRLIVLHVSNPDGVELIHQAQSEGQDVHCESGPQYLNITTDDAERIGPYMKVAPPVRSAEMNIRLWEQLENGLIDTLGSDHGGHPVEDKEPGWKDVWKAGNGALGLETSLPMMLTNGVNKGRLSLERLVEVMCEKPAKLFGIYPQKGTLQVGSDADLLILDLDIDTKVDASQFRSLHKYSPFDGMPVTGAPVLTMVRGTVVAEKGEVLVEQGFGQFVTR 1glq-a1-m1-cA_1glq-a1-m1-cB 1.8 ANGSTROMS MOLECULAR STRUCTURE OF MOUSE LIVER CLASS PI GLUTATHIONE S-TRANSFERASE COMPLEXED WITH S-(P-NITROBENZYL)GLUTATHIONE AND OTHER INHIBITORS P19157 P19157 1.8 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 209 209 1bay-a1-m1-cA_1bay-a1-m1-cB 1glp-a1-m1-cA_1glp-a1-m1-cB 1gsy-a1-m1-cA_1gsy-a1-m1-cB 1gsy-a2-m1-cA_1gsy-a2-m1-cB 1gsy-a2-m2-cA_1gsy-a2-m2-cB 1gti-a1-m1-cC_1gti-a1-m1-cD 1gti-a2-m1-cA_1gti-a2-m1-cB 1gti-a3-m1-cE_1gti-a3-m1-cF 2glr-a1-m1-cA_2glr-a1-m1-cB 2oa7-a1-m1-cA_2oa7-a1-m1-cB 2oac-a1-m1-cA_2oac-a1-m1-cB 2oad-a1-m1-cA_2oad-a1-m1-cB 3o76-a1-m1-cA_3o76-a1-m1-cB 8c5d-a1-m1-cA_8c5d-a1-m1-cB PPYTIVYFPVRGRCEAMRMLLADQGQSWKEEVVTIDTWMQGLLKPTCLYGQLPKFEDGDLTLYQSNAILRHLGRSLGLYGKNQREAAQMDMVNDGVEDLRGKYVTLIYTNYENGKNDYVKALPGHLKPFETLLSQNQGGKAFIVGDQISFADYNLLDLLLIHQVLAPGCLDNFPLLSAYVARLSARPKIKAFLSSPEHVNRPINGNGKQ PPYTIVYFPVRGRCEAMRMLLADQGQSWKEEVVTIDTWMQGLLKPTCLYGQLPKFEDGDLTLYQSNAILRHLGRSLGLYGKNQREAAQMDMVNDGVEDLRGKYVTLIYTNYENGKNDYVKALPGHLKPFETLLSQNQGGKAFIVGDQISFADYNLLDLLLIHQVLAPGCLDNFPLLSAYVARLSARPKIKAFLSSPEHVNRPINGNGKQ 1gmg-a2-m1-cB_1gmg-a2-m3-cB ALANINE 31 PROLINE MUTANT OF ROP PROTEIN, MONOCLINIC FORM P03051 P03051 1.9 X-RAY DIFFRACTION 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 54 54 1gmg-a1-m1-cA_1gmg-a1-m2-cA KQEKTALNMARFIRSQTLTLLEKLNELDPDEQADICESLHDHADELYRSCLARF KQEKTALNMARFIRSQTLTLLEKLNELDPDEQADICESLHDHADELYRSCLARF 1gmj-a1-m1-cB_1gmj-a1-m1-cA The structure of bovine IF1, the regulatory subunit of mitochondrial F-ATPase P01096 P01096 2.2 X-RAY DIFFRACTION 54 1.0 9913 (Bos taurus) 9913 (Bos taurus) 60 65 GAFGKREQAEEERYFRARAKEQLAALKKHKENEISHHAKEIERLQKEIERHKQSIKKLKQ GGAFGKREQAEEERYFRARAKEQLAALKKHKENEISHHAKEIERLQKEIERHKQSIKKLKQSEDD 1gmj-a2-m1-cD_1gmj-a2-m1-cC The structure of bovine IF1, the regulatory subunit of mitochondrial F-ATPase P01096 P01096 2.2 X-RAY DIFFRACTION 45 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 59 GKREQAEEERYFRARAKEQLAALKKHKENEISHHAKEIERLQKEIERHKQSIKKLK GAFGKREQAEEERYFRARAKEQLAALKKHKENEISHHAKEIERLQKEIERHKQSIKKLK 1gmk-a1-m1-cC_1gmk-a1-m1-cD GRAMICIDIN/KSCN COMPLEX 2.5 X-RAY DIFFRACTION 17 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 1gmk-a2-m1-cA_1gmk-a2-m1-cB GRAMICIDIN/KSCN COMPLEX 2.5 X-RAY DIFFRACTION 17 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 1gml-a2-m1-cB_1gml-a2-m1-cC crystal structure of the mouse CCT gamma apical domain (triclinic) P80318 P80318 2.2 X-RAY DIFFRACTION 34 0.993 10090 (Mus musculus) 10090 (Mus musculus) 152 154 1gml-a1-m1-cD_1gml-a1-m1-cA 1gn1-a3-m1-cE_1gn1-a3-m1-cF 1gn1-a4-m1-cH_1gn1-a4-m1-cG VLRGVMINKDVTHPRMRRYIKNPRIVLLDSSLEYKEDFTRILQMEEEYIHQLCEDIIQLKPDVVITEKGISDLAQHYLMRANVTAIRRVRKTDNNRIARACGARIVSRPEELREDDVGTGAGLLEIKKIGDEYFTFITDCKDPKACTILLRG DSCVLRGVMINKDVTHPRMRRYIKNPRIVLLDSSLEYKDFTRILQMEEEYIHQLCEDIIQLKPDVVITEKGISDLAQHYLMRANVTAIRRVRKTDNNRIARACGARIVSRPEELREDDVGTGAGLLEIKKIGDEYFTFITDCKDPKACTILLRG 1gmw-a1-m1-cA_1gmw-a1-m1-cB Structure of UreE P18317 P18317 1.5 X-RAY DIFFRACTION 39 1.0 134 134 LYLTQRLEIPAAATASVTLPIDVRVKSRVKVTLNDGRDAGLLLPRGLLLRGGDVLSNEEGTEFVQVIAADEEVSVVRCDDPFLAKACYALGNRHVPLQIPGELRYHHDHVLDDLRQFGLTVTFGQLPFEPEAGA LYLTQRLEIPAAATASVTLPIDVRVKSRVKVTLNDGRDAGLLLPRGLLLRGGDVLSNEEGTEFVQVIAADEEVSVVRCDDPFLAKACYALGNRHVPLQIPGELRYHHDHVLDDLRQFGLTVTFGQLPFEPEAGA 1gmw-a1-m1-cB_1gmw-a1-m1-cD Structure of UreE P18317 P18317 1.5 X-RAY DIFFRACTION 58 0.993 134 134 1gmv-a1-m1-cB_1gmv-a1-m1-cA 1gmw-a1-m1-cA_1gmw-a1-m1-cC LYLTQRLEIPAAATASVTLPIDVRVKSRVKVTLNDGRDAGLLLPRGLLLRGGDVLSNEEGTEFVQVIAADEEVSVVRCDDPFLAKACYALGNRHVPLQIPGELRYHHDHVLDDLRQFGLTVTFGQLPFEPEAGA LYLTQRLEIPAAATASVTLPIDVRVKSRVKVTLNDGRDAGLLLPRGLLLRGGDVLSNEEGTDFVQVIAADEEVSVVRCDDPFLAKACYALGNRHVPLQIPGELRYHHDHVLDDLRQFGLTVTFGQLPFEPEAGA 1gmw-a1-m1-cC_1gmw-a1-m1-cD Structure of UreE P18317 P18317 1.5 X-RAY DIFFRACTION 13 0.993 134 134 LYLTQRLEIPAAATASVTLPIDVRVKSRVKVTLNDGRDAGLLLPRGLLLRGGDVLSNEEGTEFVQVIAADEEVSVVRCDDPFLAKACYALGNRHVPLQIPGELRYHHDHVLDDLRQFGLTVTFGQLPFEPEAGA LYLTQRLEIPAAATASVTLPIDVRVKSRVKVTLNDGRDAGLLLPRGLLLRGGDVLSNEEGTDFVQVIAADEEVSVVRCDDPFLAKACYALGNRHVPLQIPGELRYHHDHVLDDLRQFGLTVTFGQLPFEPEAGA 1gmz-a2-m1-cB_1gmz-a2-m3-cB Crystal structure of the D49 phospholipase A2 piratoxin III from Bothrops pirajai. P58464 P58464 2.4 X-RAY DIFFRACTION 38 1.0 113192 (Bothrops pirajai) 113192 (Bothrops pirajai) 120 120 1gmz-a1-m1-cA_1gmz-a1-m2-cA DLWQFGKMILKETGKLPFPYYVTYGCYCGVGGRGGPKDATDRCCFVHDCCYGKLTSCKPKTDRYSYSRKDGTIVCGEDPCRKEICECDKAAAVCFRENLDTYNKKYMSYLKSLCKKADDC DLWQFGKMILKETGKLPFPYYVTYGCYCGVGGRGGPKDATDRCCFVHDCCYGKLTSCKPKTDRYSYSRKDGTIVCGEDPCRKEICECDKAAAVCFRENLDTYNKKYMSYLKSLCKKADDC 1gnx-a1-m1-cA_1gnx-a1-m1-cB b-glucosidase from Streptomyces sp Q59976 Q59976 1.68 X-RAY DIFFRACTION 67 0.998 1931 (Streptomyces sp.) 1931 (Streptomyces sp.) 447 447 ALTFPEGFLWGSATASYQIEGAAAEDGRTPSIWDTYARTPGRVRNGDTGDVATDHYHRWREDVALMAELGLGAYRFSLAWPRIQPTGRGPALQKGLDFYRRLADELLAKGIQPVATLYHWDLPQELENAGGWPERATAERFAEYAAIAADALGDRVKTWTTLNEPWCSAFLGYGSGVHAPGRTDPVAALRAAHHLNLGHGLAVQALRDRLPADAQCSVTLNIHHVRPLTDSDADADAVRRIDALANRVFTGPMLQGAYPEDLVKDTAGLTDWSFVRDGDLRLAHQKLDFLGVNYYSPTLVSAHSPWPGADRVAFHQPPGETTAMGWAVDPSGLYELLRRLSSDFPALPLVITENGAAFHDYADPEGNVNDPERIAYVRDHLAAVHRAIKDGSDVRGYFLWSLLDNFEWAHGYSKRFGAVYVDYPTGTRIPKASARWYAEVARTGVLP ALTFPEGFLWGSATASYQIEGAAAEDGRTPSIWDTYARTPGRVRNGDTGDVATDHYHRWREDVALMAELGLGAYRFSLAWPRIQPTGRGPALQKGLDFYRRLADELLAKGIQPVATLYHWDLPQELENAGGWPERATAERFAEYAAIAADALGDRVKTWTTLNEPWCSAFLGYGSGVHAPGRTDPVAALRAAHHLNLGHGLAVQALRDRLPADAQCSVTLNIHHVRPLTDSDADADAVRRIDALANRVFTGPMLQGAYPEDLVKDTAGLTDWSFVRDGDLRLAHQKLDFLGVNYYSPTLVSHSPWPGADRVAFHQPPGETTAMGWAVDPSGLYELLRRLSSDFPALPLVITENGAAFHDYADPEGNVNDPERIAYVRDHLAAVHRAIKDGSDVRGYFLWSLLDNFEWAHGYSKRFGAVYVDYPTGTRIPKASARWYAEVARTGVLPT 1go4-a1-m1-cD_1go4-a1-m1-cA Crystal structure of Mad1-Mad2 reveals a conserved Mad2 binding motif in Mad1 and Cdc20. Q13257 Q13257 2.05 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 196 1go4-a1-m1-cB_1go4-a1-m1-cC ITLRGSAEIVAEFFSFGINSILYQRGIYPSETFTRVQKYGLTLLVTTDLELIKYLNNVVEQLKDWLYKCSVQKLVVVISNIESGEVLERWQFDIECDKTAKDDSAPREKSQKAIQDEIRSVIAQITATVTFLPLLEVSCSFDLLIYTDKDLVVPEKWEESGPQFITNSEEVRLRSFTTTIHKVNSMVAYKIPV EQGITLRGSAEIVAEFFSFGINSILYQRGIYPSETFTRVQKYGLTLLVTTDLELIKYLNNVVEQLKDWLYKCSVQKLVVVISNIESGEVLERWQFDIECDKTAKDDSAPREKSQKAIQDEIRSVIAQITATVTFLPLLEVSCSFDLLIYTDKDLVVPEKWEESGPQFITNSEEVRLRSFTTTIHKVNSMVAYKIPV 1go4-a1-m1-cE_1go4-a1-m1-cF Crystal structure of Mad1-Mad2 reveals a conserved Mad2 binding motif in Mad1 and Cdc20. Q9Y6D9 Q9Y6D9 2.05 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 FSREEADTLRLKVEELEGERSRLEEEKRMLEAQLERRALQGDYDQSRTKVLHMSLNPTSVARQRLREDHSQLQAECERLRGLLRAME FSREEADTLRLKVEELEGERSRLEEEKRMLEAQLERRALQGDYDQSRTKVLHMSLNPTSVARQRLREDHSQLQAECERLRGLLRAME 1go4-a1-m1-cE_1go4-a1-m1-cH Crystal structure of Mad1-Mad2 reveals a conserved Mad2 binding motif in Mad1 and Cdc20. Q9Y6D9 Q9Y6D9 2.05 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 93 FSREEADTLRLKVEELEGERSRLEEEKRMLEAQLERRALQGDYDQSRTKVLHMSLNPTSVARQRLREDHSQLQAECERLRGLLRAME AEQSFLFSREEADTLRLKVEELEGERSRLEEEKRMLEAQLERRALQGDYDQSRTKVLHMSLNPTSVARQRLREDHSQLQAECERLRGLLRAME 1go4-a1-m1-cH_1go4-a1-m1-cG Crystal structure of Mad1-Mad2 reveals a conserved Mad2 binding motif in Mad1 and Cdc20. Q9Y6D9 Q9Y6D9 2.05 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 100 AEQSFLFSREEADTLRLKVEELEGERSRLEEEKRMLEAQLERRALQGDYDQSRTKVLHMSLNPTSVARQRLREDHSQLQAECERLRGLLRAME SSAEQSFLFSREEADTLRLKVEELEGERSRLEEEKRMLEAQLERRALQGDYDQSRTKVLHMSLNPTSVARQRLREDHSQLQAECERLRGLLRAMERGGTV 1go8-a1-m1-cP_1go8-a1-m2-cP The metzincin's methionine: PrtC M226L mutant P16317 P16317 2 X-RAY DIFFRACTION 92 1.0 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 460 460 1go7-a1-m1-cP_1go7-a1-m2-cP TSSAYNSVYDFLRYHDRGDGLTVNGKTSYSIDQAAAQITRENVSWNGTNVFGKSANLTFKFLQSVSSIPSGDTGFVKFNAEQIEQAKLSLQSWSDVANLTFTEVTGNKSANITFGNYTRDASGNLDYGTQAYAYYPGNYQGAGSSWYNYNQSNIRNPGSEEYGRQTFTHEIGHALGLAHPGEYNAGEGDPSYNDAVYAEDSYQFSILSYWGENETGADYNGHYGGAPMIDDIAAIQRLYGANMTTRTGDSVYGFNSNTDRDFYTATDSSKALIFSVWDAGGTDTFDFSGYSNNQRINLNEGSFSDVGGLKGNVSIAHGVTIENAIGGSGNDILVGNSADNILQGGAGNDVLYGGAGADTLYGGAGRDTFVYGSGQDSTVAAYDWIADFQKGIDKIDLSAFRNEGQLSFVQDQFTGKGQEVMLQWDAANSITNLWLHEAGHSSVDFLVRIVGQAAQSDIIV TSSAYNSVYDFLRYHDRGDGLTVNGKTSYSIDQAAAQITRENVSWNGTNVFGKSANLTFKFLQSVSSIPSGDTGFVKFNAEQIEQAKLSLQSWSDVANLTFTEVTGNKSANITFGNYTRDASGNLDYGTQAYAYYPGNYQGAGSSWYNYNQSNIRNPGSEEYGRQTFTHEIGHALGLAHPGEYNAGEGDPSYNDAVYAEDSYQFSILSYWGENETGADYNGHYGGAPMIDDIAAIQRLYGANMTTRTGDSVYGFNSNTDRDFYTATDSSKALIFSVWDAGGTDTFDFSGYSNNQRINLNEGSFSDVGGLKGNVSIAHGVTIENAIGGSGNDILVGNSADNILQGGAGNDVLYGGAGADTLYGGAGRDTFVYGSGQDSTVAAYDWIADFQKGIDKIDLSAFRNEGQLSFVQDQFTGKGQEVMLQWDAANSITNLWLHEAGHSSVDFLVRIVGQAAQSDIIV 1gpe-a1-m1-cA_1gpe-a1-m1-cB GLUCOSE OXIDASE FROM PENICILLIUM AMAGASAKIENSE P81156 P81156 1.8 X-RAY DIFFRACTION 99 1.0 63559 (Penicillium amagasakiense) 63559 (Penicillium amagasakiense) 587 587 YLPAQQIDVQSSLLSDPSKVAGKTYDYIIAGGGLTGLTVAAKLTENPKIKVLVIEKGFYESNDGAIIEDPNAYGQIFGTTVDQNYLTVPLINNRTNNIKAGKGLGGSTLINGDSWTRPDKVQIDSWEKVFGMEGWNWDNMFEYMKKAEAARTPTAAQLAAGHSFNATCHGTNGTVQSGARDNGQPWSPIMKALMNTVSALGVPVQQDFLCGHPRGVSMIMNNLDENQVRVDAARAWLLPNYQRSNLEILTGQMVGKVLFKQTASGPQAVGVNFGTNKAVNFDVFAKHEVLLAAGSAISPLILEYSGIGLKSVLDQANVTQLLDLPVGINMQDQTTTTVSSRASSAGAGQGQAVFFANFTETFGDYAPQARDLLNTKLDQWAEETVARGGFHNVTALKVQYENYRNWLLDEDVAFAELFMDTEGKINFDLWDLIPFTRGSVHILSSDPYLWQFANDPKFFLNEFDLLGQAAASKLARDLTSQGAMKEYFAGETLPGYNLVQNATLSQWSDYVLQNFRPNWHAVSSCSMMSRELGGVVDATAKVYGTQGLRVIDGSIPPTQVSSHVMTIFYGMALKVADAILDDYAKSA YLPAQQIDVQSSLLSDPSKVAGKTYDYIIAGGGLTGLTVAAKLTENPKIKVLVIEKGFYESNDGAIIEDPNAYGQIFGTTVDQNYLTVPLINNRTNNIKAGKGLGGSTLINGDSWTRPDKVQIDSWEKVFGMEGWNWDNMFEYMKKAEAARTPTAAQLAAGHSFNATCHGTNGTVQSGARDNGQPWSPIMKALMNTVSALGVPVQQDFLCGHPRGVSMIMNNLDENQVRVDAARAWLLPNYQRSNLEILTGQMVGKVLFKQTASGPQAVGVNFGTNKAVNFDVFAKHEVLLAAGSAISPLILEYSGIGLKSVLDQANVTQLLDLPVGINMQDQTTTTVSSRASSAGAGQGQAVFFANFTETFGDYAPQARDLLNTKLDQWAEETVARGGFHNVTALKVQYENYRNWLLDEDVAFAELFMDTEGKINFDLWDLIPFTRGSVHILSSDPYLWQFANDPKFFLNEFDLLGQAAASKLARDLTSQGAMKEYFAGETLPGYNLVQNATLSQWSDYVLQNFRPNWHAVSSCSMMSRELGGVVDATAKVYGTQGLRVIDGSIPPTQVSSHVMTIFYGMALKVADAILDDYAKSA 1gpj-a1-m1-cA_1gpj-a1-m2-cA Glutamyl-tRNA Reductase from Methanopyrus kandleri Q9UXR8 Q9UXR8 1.95 X-RAY DIFFRACTION 103 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 399 399 MEDLVSVGITHKEAEVEELEKARFESDEAVRDIVESFGLSGSVLLQTSNRVEVYASGARDRAEELGDLIHDDAWVKRGSEAVRHLFRVASGLESMMVGEQEILRQVKKAYDRAARLGTLDEALKIVFRRAINLGKRAREETRISEGAVSIGSAAVELAERELGSLHDKTVLVVGAGEMGKTVAKSLVDRGVRAVLVANRTYERAVELARDLGGEAVRFDELVDHLARSDVVVSATAAPHPVIHVDDVREALRKRDRRSPILIIDIANPRDVEEGVENIEDVEVRTIDDLRVIARENLERRRKEIPKVEKLIEEELSTVEEELEKLKERRLVADVAKSLHEIKDRELERALRRLKTVLQDFAEAYTKRLINVLTSAIMELPDEYRRAASRALRRASELNG MEDLVSVGITHKEAEVEELEKARFESDEAVRDIVESFGLSGSVLLQTSNRVEVYASGARDRAEELGDLIHDDAWVKRGSEAVRHLFRVASGLESMMVGEQEILRQVKKAYDRAARLGTLDEALKIVFRRAINLGKRAREETRISEGAVSIGSAAVELAERELGSLHDKTVLVVGAGEMGKTVAKSLVDRGVRAVLVANRTYERAVELARDLGGEAVRFDELVDHLARSDVVVSATAAPHPVIHVDDVREALRKRDRRSPILIIDIANPRDVEEGVENIEDVEVRTIDDLRVIARENLERRRKEIPKVEKLIEEELSTVEEELEKLKERRLVADVAKSLHEIKDRELERALRRLKTVLQDFAEAYTKRLINVLTSAIMELPDEYRRAASRALRRASELNG 1gpm-a1-m1-cB_1gpm-a1-m1-cD ESCHERICHIA COLI GMP SYNTHETASE COMPLEXED WITH AMP AND PYROPHOSPHATE P04079 P04079 2.2 X-RAY DIFFRACTION 105 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 499 499 1gpm-a1-m1-cA_1gpm-a1-m1-cC ENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIRDFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEASNEREFGYAQVEVVNDSALVRGIEDALTADGKPLLDVWMSHGDKVTAIPSDFITVASTESCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVARIREQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAEQVLDMFGDHFGLNIVHVPAEDRFLSALAGENDPEAKRKIIGRVFVEVFDEEALKLEDVKWLAQGTIYPDVIEMKMGLVEPLKELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELRKADLYDKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE ENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIRDFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEASNEREFGYAQVEVVNDSALVRGIEDALTADGKPLLDVWMSHGDKVTAIPSDFITVASTESCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVARIREQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAEQVLDMFGDHFGLNIVHVPAEDRFLSALAGENDPEAKRKIIGRVFVEVFDEEALKLEDVKWLAQGTIYPDVIEMKMGLVEPLKELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELRKADLYDKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE 1gpm-a1-m1-cD_1gpm-a1-m1-cC ESCHERICHIA COLI GMP SYNTHETASE COMPLEXED WITH AMP AND PYROPHOSPHATE P04079 P04079 2.2 X-RAY DIFFRACTION 70 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 499 501 1gpm-a1-m1-cB_1gpm-a1-m1-cA ENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIRDFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEASNEREFGYAQVEVVNDSALVRGIEDALTADGKPLLDVWMSHGDKVTAIPSDFITVASTESCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVARIREQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAEQVLDMFGDHFGLNIVHVPAEDRFLSALAGENDPEAKRKIIGRVFVEVFDEEALKLEDVKWLAQGTIYPDVIEMKMGLVEPLKELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELRKADLYDKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE ENIHKHRILILDFGSQYTQLVARRVRELGVYCELWAWDVTEAQIRDFNPSGIILSGGPESTTEENSPRAPQYVFEAGVPVFGVCYGMQTMAMQLGGHVEASNEREFGYAQVEVVNDSALVRGIEDALTADGKPLLDVWMSHGDKVTAIPSDFITVASTESCPFAIMANEEKRFYGVQFHPEVTHTRQGMRMLERFVRDICQCEALWTPAKIIDDAVARIREQVGDDKVILGLSGGVDSSVTAMLLHRAIGKNLTCVFVDNGLLRLNEAEQVLDMFGDHFGLNIVHVPAEDRFLSALAGENDPEAKRKIIGRVFVEVFDEEALKLEDVKWLAQGTIYPDVIESAAKMGLVEPLKELFKDEVRKIGLELGLPYDMLYRHPFPGPGLGVRVLGEVKKEYCDLLRRADAIFIEELRKADLYDKVSQAFTVFLPVRSVGVMGDGRKYDWVVSLRAVETIDFMTAHWAHLPYDFLGRVSNRIINEVNGISRVVYDISGKPPATIEWE 1gpr-a1-m1-cA_1gpr-a1-m2-cA REFINED CRYSTAL STRUCTURE OF IIA DOMAIN OF THE GLUCOSE PERMEASE OF BACILLUS SUBTILIS AT 1.9 ANGSTROMS RESOLUTION Q59250 Q59250 1.9 X-RAY DIFFRACTION 48 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 158 158 EPLQNEIGEEVFVSPITGEIHPITDVPDQVFSGKMMGDGFAILPSEGIVVSPVRGKILNVFPTKHAIGLQSDGGREILIHFGIDTVSLKGEGFTSFVSEGDRVEPGQKLLEVDLDAVKPNVPSLMTPIVFTNLAEGETVSIKASGSVNREQEDIVKIE EPLQNEIGEEVFVSPITGEIHPITDVPDQVFSGKMMGDGFAILPSEGIVVSPVRGKILNVFPTKHAIGLQSDGGREILIHFGIDTVSLKGEGFTSFVSEGDRVEPGQKLLEVDLDAVKPNVPSLMTPIVFTNLAEGETVSIKASGSVNREQEDIVKIE 1gpu-a1-m1-cA_1gpu-a1-m1-cB Transketolase complex with reaction intermediate P23254 P23254 1.86 X-RAY DIFFRACTION 349 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 678 678 1ay0-a1-m1-cA_1ay0-a1-m1-cB 1ngs-a1-m1-cA_1ngs-a1-m1-cB 1tka-a1-m1-cA_1tka-a1-m1-cB 1tkb-a1-m1-cA_1tkb-a1-m1-cB 1tkc-a1-m1-cA_1tkc-a1-m1-cB 1trk-a1-m1-cA_1trk-a1-m1-cB QFTDIDKLAVSTIRILAVDTVSKANSGHPGAPLGMAPAAHVLWSQMRMNPTNPDWINRDRFVLSNGHAVALLYSMLHLTGYDLSIEDLKQFRQLGSRTPGHPEFELPGVEVTTGPLGQGISNAVGMAMAQANLAATYNKPGFTLSDNYTYVFLGDGCLQEGISSEASSLAGHLKLGNLIAIYDDNKITIDGATSISFDEDVAKRYEAYGWEVLYVENGNEDLAGIAKAIAQAKLSKDKPTLIKMTTTIGYGSLHAGSHSVHGAPLKADDVKQLKSKFGFNPDKSFVVPQEVYDHYQKTILKPGVEANNKWNKLFSEYQKKFPELGAELARRLSGQLPANWESKLPTYTAKDSAVATRKLSETVLEDVYNQLPELIGGSADLTPSNLTRWKEALDFQPPSSGSGNYSGRYIRYGIREHAMGAIMNGISAFGANYKPYGGTFLNFVSYAAGAVRLSALSGHPVIWVATHDSIGVGEDGPTHQPIETLAHFRSLPNIQVWRPADGNEVSAAYKNSLESKHTPSIIALSRQNLPQLEGSSIESASKGGYVLQDVANPDIILVATGSEVSLSVEAAKTLAAKNIKARVVSLPDFFTFDKQPLEYRLSVLPDNVPIMSVEVLATTCWGKYAHQSFGIDRFGASGKAPEVFKFFGFTPEGVAERAQKTIAFYKGDKLISPLKKAF QFTDIDKLAVSTIRILAVDTVSKANSGHPGAPLGMAPAAHVLWSQMRMNPTNPDWINRDRFVLSNGHAVALLYSMLHLTGYDLSIEDLKQFRQLGSRTPGHPEFELPGVEVTTGPLGQGISNAVGMAMAQANLAATYNKPGFTLSDNYTYVFLGDGCLQEGISSEASSLAGHLKLGNLIAIYDDNKITIDGATSISFDEDVAKRYEAYGWEVLYVENGNEDLAGIAKAIAQAKLSKDKPTLIKMTTTIGYGSLHAGSHSVHGAPLKADDVKQLKSKFGFNPDKSFVVPQEVYDHYQKTILKPGVEANNKWNKLFSEYQKKFPELGAELARRLSGQLPANWESKLPTYTAKDSAVATRKLSETVLEDVYNQLPELIGGSADLTPSNLTRWKEALDFQPPSSGSGNYSGRYIRYGIREHAMGAIMNGISAFGANYKPYGGTFLNFVSYAAGAVRLSALSGHPVIWVATHDSIGVGEDGPTHQPIETLAHFRSLPNIQVWRPADGNEVSAAYKNSLESKHTPSIIALSRQNLPQLEGSSIESASKGGYVLQDVANPDIILVATGSEVSLSVEAAKTLAAKNIKARVVSLPDFFTFDKQPLEYRLSVLPDNVPIMSVEVLATTCWGKYAHQSFGIDRFGASGKAPEVFKFFGFTPEGVAERAQKTIAFYKGDKLISPLKKAF 1gqa-a1-m1-cA_1gqa-a1-m1-cD Cytochrome c' from Rhodobacter Spheriodes P00148 P00148 1.8 X-RAY DIFFRACTION 65 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 130 130 ADAEHVVEARKGYFSLVALEFGPLAAMAKGEMPYDAAAAKAHASDLVTLTKYDPSDLYAPGTSADDVKGTAAKAAIWQDADGFQAKGMAFFEAVAALEPAAGAGQKELAAAVGKVGGTCKSCHDDFRVKR ADAEHVVEARKGYFSLVALEFGPLAAMAKGEMPYDAAAAKAHASDLVTLTKYDPSDLYAPGTSADDVKGTAAKAAIWQDADGFQAKGMAFFEAVAALEPAAGAGQKELAAAVGKVGGTCKSCHDDFRVKR 1gqh-a1-m1-cD_1gqh-a1-m1-cB Quercetin 2,3-dioxygenase in complex with the inhibitor kojic acid Q7SIC2 Q7SIC2 2.15 X-RAY DIFFRACTION 177 1.0 34381 (Aspergillus japonicus) 34381 (Aspergillus japonicus) 331 334 1gqg-a1-m1-cA_1gqg-a1-m1-cC 1gqg-a2-m1-cD_1gqg-a2-m1-cB 1gqh-a2-m1-cC_1gqh-a2-m1-cA 1h1i-a1-m1-cC_1h1i-a1-m1-cA 1h1i-a2-m1-cD_1h1i-a2-m1-cB 1h1m-a1-m1-cC_1h1m-a1-m1-cA 1h1m-a2-m1-cD_1h1m-a2-m1-cB 1juh-a1-m1-cA_1juh-a1-m1-cC 1juh-a2-m2-cD_1juh-a2-m1-cB SLIVEDAPDHVRPYVIRHYSHARAVTVDTQLYRFYVTGPSSGYAFTLMGTNAPHSDALGVLPHIHQKHYENFYCNKGSFQLWAQSGNETQQTRVLSSGDYGSVPRNVTHTFQIQDPDTEMTGVIVPGGFEDLFYYLGTNATDTTHTPYIPSTLQSFDVYAELSFTPRTDTVNGTAPANTVWHTGANALASTAGDPYFIANGWGPKYLNSQYGYQIVAPFVTATQAQDTNYTLSTISMSTTPSTVTVPTWSFPGACAFQVQEGRVVVQIGDYAATELGSGDVAFIPGGVEFKYYSEAYFSKVLFVSSGSDGLDQNLVNGGEEWSSVSFPADW SSLIVEDAPDHVRPYVIRHYSHARAVTVDTQLYRFYVTGPSSGYAFTLMGTNAPHSDALGVLPHIHQKHYENFYCNKGSFQLWAQSGNETQQTRVLSSGDYGSVPRNVTHTFQIQDPDTEMTGVIVPGGFEDLFYYLGTNATDTTHTPYIPTISTLQSFDVYAELSFTPRTDTVNGTAPANTVWHTGANALASTAGDPYFIANGWGPKYLNSQYGYQIVAPFVTATQAQDTNYTLSTISMSTTPSTVTVPTWSFPGACAFQVQEGRVVVQIGDYAATELGSGDVAFIPGGVEFKYYSEAYFSKVLFVSSGSDGLDQNLVNGGEEWSSVSFPADW 1gqi-a1-m1-cA_1gqi-a1-m1-cB Structure of Pseudomonas cellulosa alpha-D-glucuronidase B3PC73 B3PC73 1.48 X-RAY DIFFRACTION 125 1.0 155077 (Cellvibrio japonicus) 155077 (Cellvibrio japonicus) 708 708 1gqj-a1-m1-cA_1gqj-a1-m1-cB 1gqk-a1-m1-cA_1gqk-a1-m1-cB 1gql-a1-m1-cB_1gql-a1-m1-cA 1h41-a1-m1-cA_1h41-a1-m1-cB EDGYDMWLRYQPIADQTLLKTYQKQIRHLHVAGDSPTINAAAAELQRGLSGLLNKPIVARDEKLKDYSLVIGTPDNSPLIASLNLGERLQALGAEGYLLEQTRINKRHVVIVAANSDVGVLYGSFHLLRLIQTQHALEKLSLSSAPRLQHRVVNHWDNLNRVVERGYAGLSLWDWGSLPNYLAPRYTDYARINASLGINGTVINNVNADPRVLSDQFLQKIAALADAFRPYGIKMYLSINFNSPRAFGDVDTADPLDPRVQQWWKTRAQKIYSYIPDFGGFLVKADSEGQPGPQGYGRDHAEGANMLAAALKPFGGVVFWRAFVYHPDIEDRFRGAYDEFMPLDGKFADNVILQIKNGPIDFQPREPFSALFAGMSRTNMMMEFQITQEYFGFATHLAYQGPLFEESLKTETHARGEGSTIGNILEGKVFKTRHTGMAGVINPGTDRNWTGHPFVQSSWYAFGRMAWDHQISAATAADEWLRMTFSNQPAFIEPVKQMMLVSREAGVNYRSPLGLTHLYSQGDHYGPAPWTDDLPRADWTAVYYHRASKTGIGFNRTKTGSNALAQYPEPIAKAWGDLNSVPEDLILWFHHLSWDHRMQSGRNLWQELVHKYYQGVEQVRAMQRTWDQQEAYVDAARFAQVKALLQVQEREAVRWRNSCVLYFQSVAGRPIPANYEQPEHDLEYYKMLARTTYVPEPWHPASSSRVLK EDGYDMWLRYQPIADQTLLKTYQKQIRHLHVAGDSPTINAAAAELQRGLSGLLNKPIVARDEKLKDYSLVIGTPDNSPLIASLNLGERLQALGAEGYLLEQTRINKRHVVIVAANSDVGVLYGSFHLLRLIQTQHALEKLSLSSAPRLQHRVVNHWDNLNRVVERGYAGLSLWDWGSLPNYLAPRYTDYARINASLGINGTVINNVNADPRVLSDQFLQKIAALADAFRPYGIKMYLSINFNSPRAFGDVDTADPLDPRVQQWWKTRAQKIYSYIPDFGGFLVKADSEGQPGPQGYGRDHAEGANMLAAALKPFGGVVFWRAFVYHPDIEDRFRGAYDEFMPLDGKFADNVILQIKNGPIDFQPREPFSALFAGMSRTNMMMEFQITQEYFGFATHLAYQGPLFEESLKTETHARGEGSTIGNILEGKVFKTRHTGMAGVINPGTDRNWTGHPFVQSSWYAFGRMAWDHQISAATAADEWLRMTFSNQPAFIEPVKQMMLVSREAGVNYRSPLGLTHLYSQGDHYGPAPWTDDLPRADWTAVYYHRASKTGIGFNRTKTGSNALAQYPEPIAKAWGDLNSVPEDLILWFHHLSWDHRMQSGRNLWQELVHKYYQGVEQVRAMQRTWDQQEAYVDAARFAQVKALLQVQEREAVRWRNSCVLYFQSVAGRPIPANYEQPEHDLEYYKMLARTTYVPEPWHPASSSRVLK 1gqm-a1-m1-cC_1gqm-a1-m1-cD The structure of S100A12 in a hexameric form and its proposed role in receptor signalling P80511 P80511 2.7 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 1e8a-a1-m1-cA_1e8a-a1-m1-cB 1gqm-a1-m1-cA_1gqm-a1-m1-cB 1gqm-a1-m1-cE_1gqm-a1-m1-cF 1gqm-a2-m1-cG_1gqm-a2-m1-cH 1gqm-a2-m1-cI_1gqm-a2-m1-cJ 1gqm-a2-m1-cL_1gqm-a2-m1-cK 1odb-a1-m1-cC_1odb-a1-m1-cD 1odb-a2-m1-cF_1odb-a2-m1-cE 1odb-a3-m1-cA_1odb-a3-m1-cB 2m9g-a1-m1-cA_2m9g-a1-m1-cB TKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYH TKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYH 1gqm-a2-m1-cG_1gqm-a2-m1-cI The structure of S100A12 in a hexameric form and its proposed role in receptor signalling P80511 P80511 2.7 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 1gqm-a1-m1-cA_1gqm-a1-m1-cD 1gqm-a1-m1-cA_1gqm-a1-m1-cE 1gqm-a1-m1-cC_1gqm-a1-m1-cB 1gqm-a1-m1-cC_1gqm-a1-m1-cF 1gqm-a1-m1-cD_1gqm-a1-m1-cE 1gqm-a1-m1-cF_1gqm-a1-m1-cB 1gqm-a2-m1-cG_1gqm-a2-m1-cK 1gqm-a2-m1-cI_1gqm-a2-m1-cK 1gqm-a2-m1-cJ_1gqm-a2-m1-cH 1gqm-a2-m1-cL_1gqm-a2-m1-cH 1gqm-a2-m1-cL_1gqm-a2-m1-cJ TKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYH TKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYH 1gqy-a1-m1-cA_1gqy-a1-m1-cB MURC - CRYSTAL STRUCTURE OF THE ENZYME FROM HAEMOPHILUS INFLUENZAE COMPLEXED WITH AMPPCP P45066 P45066 1.8 X-RAY DIFFRACTION 44 0.987 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 468 469 1gqq-a1-m1-cB_1gqq-a1-m1-cA MKHSHEEIRKIIPEMRRVQQIHFIGIGGAGMSGIAEILLNEGYQISGSDIADGVVTQRLAQAGAKIYIGHAEEHIEGASVVVVSSAIKDDNPELVTSKQKRIPVIQRAQMLAEIMRFRHGIAVAGTHGKTTTTAMISMIYTQAKLDPTFVNGGLVKSAGKNAHLGASRYLIAEADESDASFLHLQPMVSVVTNMEPDDFEKMKATYVKFLHNLPFYGLAVMCADDPVLMELVPKVGRQVITYGFSEQADYRIEDYEQTGFQGHYTVICPNNERINVLLNVPGKHNALNATAALAVAKEEGIANEAILEALADFQGAGRRFDQLGEFIRPNGKVRLVDDYGHHPTEVGVTIKAAREGWGDKRIVMIFQPHRYSRTRDLFDDFVQVLSQVDALIMLDVYAAGEAPIVGADSKSLCRSIRNLGKVDPILVSDTSQLGDVLDQIIQDGDLILAQGAGSVSKISRGLAESWKN EEIRKIIPEMRRVQQIHFIGIGGAGMSGIAEILLNEGYQISGSDIADGVVTQRLAQAGAKIYIGHAEEHIEGASVVVVSSAIKDDNPELVTSKQKRIPVIQRAQMLAEIMRFRHGIAVAGTHGKTTTTAMISMIYTQAKLDPTFVNGGLVKSAGKNAHLGASRYLIAEADESDASFLHLQPMVSVVTNMEPDHMDTYEGDFEKMKATYVKFLHNLPFYGLAVMCADDPVLMELVPKVGRQVITYGFSEQADYRIEDYEQTGFQGHYTVICPNNERINVLLNVPGKHNALNATAALAVAKEEGIANEAILEALADFQGAGRRFDQLGEFIRPNGKVRLVDDYGHHPTEVGVTIKAAREGWGDKRIVMIFQPHRYSRTRDLFDDFVQVLSQVDALIMLDVYAAGEAPIVGADSKSLCRSIRNLGKVDPILVSDTSQLGDVLDQIIQDGDLILAQGAGSVSKISRGLAESWK 1gr0-a1-m2-cA_1gr0-a1-m4-cA myo-inositol 1-phosphate synthase from Mycobacterium tuberculosis in complex with NAD and zinc. P9WKI1 P9WKI1 1.95 X-RAY DIFFRACTION 40 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 328 328 1gr0-a1-m1-cA_1gr0-a1-m3-cA TEVRVAIVGVGNCASSLVQGVEYYYNADDTSTVPGLMHVRFGPYHVRDVKFVAAFDVDAKKVGFDLSDAIFASENNTIKIADVAPTNVIVQRGPTLDGIGKYYADTIELSDAEPVDVVQALKEAKVDVLVSYLPVGSEEADKFYAQCAIDAGVAFVNALPVFIASDPVWAKKFTDARVPIVGDDIKSQVGATITHRVLAKLFEDRGVQLDRTMQLNVGGNMDFLNMLEDVHIGPSDHVGWLDDRKWAYVRLEGRAFGDVPLNLEYKLEVWDSPNSAGVIIDAVRAAKIAKDRGIGGPVIPASAYLMKSPPEQLPDDIARAQLEEFIIG TEVRVAIVGVGNCASSLVQGVEYYYNADDTSTVPGLMHVRFGPYHVRDVKFVAAFDVDAKKVGFDLSDAIFASENNTIKIADVAPTNVIVQRGPTLDGIGKYYADTIELSDAEPVDVVQALKEAKVDVLVSYLPVGSEEADKFYAQCAIDAGVAFVNALPVFIASDPVWAKKFTDARVPIVGDDIKSQVGATITHRVLAKLFEDRGVQLDRTMQLNVGGNMDFLNMLEDVHIGPSDHVGWLDDRKWAYVRLEGRAFGDVPLNLEYKLEVWDSPNSAGVIIDAVRAAKIAKDRGIGGPVIPASAYLMKSPPEQLPDDIARAQLEEFIIG 1gr0-a1-m3-cA_1gr0-a1-m4-cA myo-inositol 1-phosphate synthase from Mycobacterium tuberculosis in complex with NAD and zinc. P9WKI1 P9WKI1 1.95 X-RAY DIFFRACTION 155 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 328 328 1gr0-a1-m1-cA_1gr0-a1-m2-cA TEVRVAIVGVGNCASSLVQGVEYYYNADDTSTVPGLMHVRFGPYHVRDVKFVAAFDVDAKKVGFDLSDAIFASENNTIKIADVAPTNVIVQRGPTLDGIGKYYADTIELSDAEPVDVVQALKEAKVDVLVSYLPVGSEEADKFYAQCAIDAGVAFVNALPVFIASDPVWAKKFTDARVPIVGDDIKSQVGATITHRVLAKLFEDRGVQLDRTMQLNVGGNMDFLNMLEDVHIGPSDHVGWLDDRKWAYVRLEGRAFGDVPLNLEYKLEVWDSPNSAGVIIDAVRAAKIAKDRGIGGPVIPASAYLMKSPPEQLPDDIARAQLEEFIIG TEVRVAIVGVGNCASSLVQGVEYYYNADDTSTVPGLMHVRFGPYHVRDVKFVAAFDVDAKKVGFDLSDAIFASENNTIKIADVAPTNVIVQRGPTLDGIGKYYADTIELSDAEPVDVVQALKEAKVDVLVSYLPVGSEEADKFYAQCAIDAGVAFVNALPVFIASDPVWAKKFTDARVPIVGDDIKSQVGATITHRVLAKLFEDRGVQLDRTMQLNVGGNMDFLNMLEDVHIGPSDHVGWLDDRKWAYVRLEGRAFGDVPLNLEYKLEVWDSPNSAGVIIDAVRAAKIAKDRGIGGPVIPASAYLMKSPPEQLPDDIARAQLEEFIIG 1gr3-a1-m2-cA_1gr3-a1-m3-cA Structure of the human collagen X NC1 trimer Q03692 Q03692 2 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 132 1gr3-a1-m1-cA_1gr3-a1-m2-cA 1gr3-a1-m1-cA_1gr3-a1-m3-cA MPVSAFTVILSKAYPAIGTPIPFDKILYNRQQHYDPRTGIFTCQIPGIYYFSYHVHVKGTHVWVGLYKNGTPVMYTYDEYTKGYLDQASGSAIIDLTENDQVWLQLPNAESNGLYSSEYVHSSFSGFLVAPM MPVSAFTVILSKAYPAIGTPIPFDKILYNRQQHYDPRTGIFTCQIPGIYYFSYHVHVKGTHVWVGLYKNGTPVMYTYDEYTKGYLDQASGSAIIDLTENDQVWLQLPNAESNGLYSSEYVHSSFSGFLVAPM 1grc-a1-m1-cB_1grc-a1-m1-cA CRYSTAL STRUCTURE OF GLYCINAMIDE RIBONUCLEOTIDE TRANSFORMYLASE FROM ESCHERICHIA COLI AT 3.0 ANGSTROMS RESOLUTION: A TARGET ENZYME FOR CHEMOTHERAPY P08179 P08179 3 X-RAY DIFFRACTION 54 0.995 562 (Escherichia coli) 562 (Escherichia coli) 191 193 1cdd-a1-m1-cA_1cdd-a1-m1-cB 1gar-a1-m1-cB_1gar-a1-m1-cA MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYA MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYA 1gs5-a1-m1-cA_1gs5-a1-m2-cA N-acetyl-L-glutamate kinase from Escherichia coli complexed with its substrate N-acetylglutamate and its substrate analog AMPPNP P0A6C8 P0A6C8 1.5 X-RAY DIFFRACTION 116 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 258 258 1gsj-a1-m1-cA_1gsj-a1-m2-cA 1oh9-a1-m1-cA_1oh9-a1-m2-cA 1oha-a1-m1-cA_1oha-a1-m2-cA 1ohb-a1-m1-cA_1ohb-a1-m2-cA 2wxb-a1-m1-cA_2wxb-a1-m1-cB 2x2w-a1-m1-cA_2x2w-a1-m1-cB MMNPLIIKLGGVLLDSEEALERLFSALVNYRESHQRPLVIVHGGGCVVDELMKGLNLPVKKKNGLRVTPADQIDIITGALAGTANKTLLAWAKKHQIAAVGLFLGDGDSVKVTQLDEELGHVGLAQPGSPKLINSLLENGYLPVVSSIGVTDEGQLMNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAEMTAAKAEQLIEQGIITDGMIVKVNAALDAARTLGRPVDIASWRHAEQLPALFNGMPMGTRILA MMNPLIIKLGGVLLDSEEALERLFSALVNYRESHQRPLVIVHGGGCVVDELMKGLNLPVKKKNGLRVTPADQIDIITGALAGTANKTLLAWAKKHQIAAVGLFLGDGDSVKVTQLDEELGHVGLAQPGSPKLINSLLENGYLPVVSSIGVTDEGQLMNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAEMTAAKAEQLIEQGIITDGMIVKVNAALDAARTLGRPVDIASWRHAEQLPALFNGMPMGTRILA 1gsy-a2-m1-cB_1gsy-a2-m2-cB GLUTATHIONE S-TRANSFERASE YFYF, CLASS PI, COMPLEXED WITH GLUTATHIONE P19157 P19157 2.44 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 209 209 PPYTIVYFPVRGRCEAMRMLLADQGQSWKEEVVTIDTWMQGLLKPTCLYGQLPKFEDGDLTLYQSNAILRHLGRSLGLYGKNQREAAQMDMVNDGVEDLRGKYVTLIYTNYENGKNDYVKALPGHLKPFETLLSQNQGGKAFIVGDQISFADYNLLDLLLIHQVLAPGCLDNFPLLSAYVARLSARPKIKAFLSSPEHVNRPINGNGKQ PPYTIVYFPVRGRCEAMRMLLADQGQSWKEEVVTIDTWMQGLLKPTCLYGQLPKFEDGDLTLYQSNAILRHLGRSLGLYGKNQREAAQMDMVNDGVEDLRGKYVTLIYTNYENGKNDYVKALPGHLKPFETLLSQNQGGKAFIVGDQISFADYNLLDLLLIHQVLAPGCLDNFPLLSAYVARLSARPKIKAFLSSPEHVNRPINGNGKQ 1gt1-a1-m1-cB_1gt1-a1-m1-cA Complex of Bovine Odorant Binding Protein with Aminoanthracene and pyrazine P07435 P07435 1.71 X-RAY DIFFRACTION 164 1.0 9913 (Bos taurus) 9913 (Bos taurus) 155 158 1g85-a1-m1-cB_1g85-a1-m1-cA 1gt3-a1-m1-cB_1gt3-a1-m1-cA 1gt4-a1-m1-cB_1gt4-a1-m1-cA 1gt5-a1-m1-cB_1gt5-a1-m1-cA 1hn2-a1-m1-cB_1hn2-a1-m1-cA 1obp-a1-m1-cB_1obp-a1-m1-cA 1pbo-a1-m1-cB_1pbo-a1-m1-cA EEEAEQNLSELSGPWRTVYIGSTNPEKIQENGPFRTYFRELVFDDEKGTVDFYFSVKRDGKWKNVHVKATKQDDGTYVADYEGQNVFKIVSLSRTHLVAHNINVDKHGQTTELTELFVKLNVEDEDLEKFWKLTEDKGIDKKNVVNFLENENHPH QEEEAEQNLSELSGPWRTVYIGSTNPEKIQENGPFRTYFRELVFDDEKGTVDFYFSVKRDGKWKNVHVKATKQDDGTYVADYEGQNVFKIVSLSRTHLVAHNINVDKHGQTTELTELFVKLNVEDEDLEKFWKLTEDKGIDKKNVVNFLENENHPHPE 1gt7-a5-m1-cR_1gt7-a5-m2-cH L-rhamnulose-1-phosphate aldolase from Escherichia coli P32169 P32169 2.7 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 1gt7-a1-m1-cA_1gt7-a1-m2-cD 1gt7-a1-m1-cB_1gt7-a1-m2-cC 1gt7-a1-m1-cC_1gt7-a1-m2-cB 1gt7-a1-m1-cD_1gt7-a1-m2-cA 1gt7-a2-m1-cE_1gt7-a2-m2-cQ 1gt7-a2-m1-cF_1gt7-a2-m2-cT 1gt7-a2-m1-cG_1gt7-a2-m2-cS 1gt7-a2-m1-cH_1gt7-a2-m2-cR 1gt7-a3-m1-cI_1gt7-a3-m2-cM 1gt7-a3-m1-cJ_1gt7-a3-m2-cP 1gt7-a3-m1-cK_1gt7-a3-m2-cO 1gt7-a3-m1-cL_1gt7-a3-m2-cN 1gt7-a4-m1-cM_1gt7-a4-m2-cI 1gt7-a4-m1-cN_1gt7-a4-m2-cL 1gt7-a4-m1-cO_1gt7-a4-m2-cK 1gt7-a4-m1-cP_1gt7-a4-m2-cJ 1gt7-a5-m1-cQ_1gt7-a5-m2-cE 1gt7-a5-m1-cS_1gt7-a5-m2-cG 1gt7-a5-m1-cT_1gt7-a5-m2-cF 2uyu-a1-m1-cA_2uyu-a1-m4-cA 2uyu-a1-m2-cA_2uyu-a1-m5-cA 2uyu-a1-m3-cA_2uyu-a1-m7-cA 2uyu-a1-m6-cA_2uyu-a1-m8-cA 2uyu-a2-m10-cE_2uyu-a2-m11-cE 2uyu-a2-m13-cE_2uyu-a2-m14-cE 2uyu-a2-m15-cE_2uyu-a2-m9-cE 2uyu-a2-m1-cE_2uyu-a2-m12-cE MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 1gt7-a5-m1-cS_1gt7-a5-m2-cH L-rhamnulose-1-phosphate aldolase from Escherichia coli P32169 P32169 2.7 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 1gt7-a1-m1-cA_1gt7-a1-m2-cA 1gt7-a1-m1-cB_1gt7-a1-m2-cD 1gt7-a1-m1-cC_1gt7-a1-m2-cC 1gt7-a1-m1-cD_1gt7-a1-m2-cB 1gt7-a2-m1-cE_1gt7-a2-m2-cR 1gt7-a2-m1-cF_1gt7-a2-m2-cQ 1gt7-a2-m1-cG_1gt7-a2-m2-cT 1gt7-a2-m1-cH_1gt7-a2-m2-cS 1gt7-a3-m1-cI_1gt7-a3-m2-cN 1gt7-a3-m1-cJ_1gt7-a3-m2-cM 1gt7-a3-m1-cK_1gt7-a3-m2-cP 1gt7-a3-m1-cL_1gt7-a3-m2-cO 1gt7-a4-m1-cM_1gt7-a4-m2-cJ 1gt7-a4-m1-cN_1gt7-a4-m2-cI 1gt7-a4-m1-cO_1gt7-a4-m2-cL 1gt7-a4-m1-cP_1gt7-a4-m2-cK 1gt7-a5-m1-cQ_1gt7-a5-m2-cF 1gt7-a5-m1-cR_1gt7-a5-m2-cE 1gt7-a5-m1-cT_1gt7-a5-m2-cG 2uyu-a1-m1-cA_2uyu-a1-m5-cA 2uyu-a1-m2-cA_2uyu-a1-m8-cA 2uyu-a1-m3-cA_2uyu-a1-m4-cA 2uyu-a1-m6-cA_2uyu-a1-m7-cA 2uyu-a2-m10-cE_2uyu-a2-m14-cE 2uyu-a2-m12-cE_2uyu-a2-m9-cE 2uyu-a2-m13-cE_2uyu-a2-m15-cE 2uyu-a2-m1-cE_2uyu-a2-m11-cE MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDEIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 1gt9-a1-m1-c1_1gt9-a1-m1-c2 High resolution crystal structure of a thermostable serine-carboxyl type proteinase, kumamolisin (kscp) Q8RR56 Q8RR56 1.38 X-RAY DIFFRACTION 54 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 357 357 1gtj-a1-m1-c3_1gtj-a1-m1-c1 1gtj-a2-m1-c4_1gtj-a2-m1-c2 AAPTAYTPLDVAQAYQFPEGLDGQGQCIAIIELGGGYDETSLAQYFASLGVSAPQVVSVSVDGATNQPTGDPNGPDGEVELDIEVAGALAPGAKIAVYFAPNTDAGFLNAITTAVHDPTHKPSIVSISWGGPEDSWAPASIAAMNRAFLDAAALGVTVLAAAGDSGSTDGEQDGLYHVDFPAASPYVLACGGTRLVASAGRIERETVWNDGPDGGSTGGGVSRIFPLPSWQERANVPPSANPGAGSGRGVPDVAGNADPATGYEVVIDGETTVIGGTSAVAPLFAALVARINQKLGKPVGYLNPTLYQLPPEVFHDITEGNNDIANRARIYQAGPGWDPCTGLGSPIGIRLLQALLP AAPTAYTPLDVAQAYQFPEGLDGQGQCIAIIELGGGYDETSLAQYFASLGVSAPQVVSVSVDGATNQPTGDPNGPDGEVELDIEVAGALAPGAKIAVYFAPNTDAGFLNAITTAVHDPTHKPSIVSISWGGPEDSWAPASIAAMNRAFLDAAALGVTVLAAAGDSGSTDGEQDGLYHVDFPAASPYVLACGGTRLVASAGRIERETVWNDGPDGGSTGGGVSRIFPLPSWQERANVPPSANPGAGSGRGVPDVAGNADPATGYEVVIDGETTVIGGTSAVAPLFAALVARINQKLGKPVGYLNPTLYQLPPEVFHDITEGNNDIANRARIYQAGPGWDPCTGLGSPIGIRLLQALLP 1gtd-a1-m1-cA_1gtd-a1-m2-cB NORTHEAST STRUCTURAL GENOMICS CONSORTIUM (NESG ID TT50) STRUCTURE OF MTH169, THE PURS SUBUNIT OF FGAM SYNTHETASE O26271 O26271 2.56 X-RAY DIFFRACTION 43 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 76 79 1gtd-a1-m2-cA_1gtd-a1-m1-cB KFVEVRIRLKKGLNPEAATIERALALLGYEVEDTDTTDVITFTDEDSLEAVEREVEDCQRLLCNPVIHDYDVSINE KFVEVRIRLKKGLNPEAATIERALALLGYEVEDTDTTDVITFTDEDSLEAVEREVEDCQRLLCNPVIHDYDVSINESSH 1gtd-a1-m2-cA_1gtd-a1-m2-cB NORTHEAST STRUCTURAL GENOMICS CONSORTIUM (NESG ID TT50) STRUCTURE OF MTH169, THE PURS SUBUNIT OF FGAM SYNTHETASE O26271 O26271 2.56 X-RAY DIFFRACTION 68 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 76 79 1gtd-a1-m1-cA_1gtd-a1-m1-cB KFVEVRIRLKKGLNPEAATIERALALLGYEVEDTDTTDVITFTDEDSLEAVEREVEDCQRLLCNPVIHDYDVSINE KFVEVRIRLKKGLNPEAATIERALALLGYEVEDTDTTDVITFTDEDSLEAVEREVEDCQRLLCNPVIHDYDVSINESSH 1gu3-a1-m1-cA_1gu3-a1-m2-cA CBM4 structure and function P14090 P14090 2.3 X-RAY DIFFRACTION 67 1.0 1708 (Cellulomonas fimi) 1708 (Cellulomonas fimi) 142 142 TFDDGPEGWVAYGTDGPLDTSTGALCVAVPAGSAQYGVGVVLNGVAIEEGTTYTLRYTATASTDVTVRALVGQNGAPYGTVLDTSPALTSEPRQVTETFTASATYPATPAADDPEGQIAFQLGGFSADAWTLCLDDVALDSE TFDDGPEGWVAYGTDGPLDTSTGALCVAVPAGSAQYGVGVVLNGVAIEEGTTYTLRYTATASTDVTVRALVGQNGAPYGTVLDTSPALTSEPRQVTETFTASATYPATPAADDPEGQIAFQLGGFSADAWTLCLDDVALDSE 1guq-a1-m1-cB_1guq-a1-m1-cA STRUCTURE OF NUCLEOTIDYLTRANSFERASE COMPLEXED WITH UDP-GLUCOSE P09148 P09148 1.8 X-RAY DIFFRACTION 265 1.0 562 (Escherichia coli) 562 (Escherichia coli) 344 347 1gup-a1-m1-cB_1gup-a1-m1-cA 1gup-a2-m1-cC_1gup-a2-m1-cD 1guq-a2-m1-cC_1guq-a2-m1-cD 1hxp-a1-m1-cB_1hxp-a1-m1-cA 1hxq-a1-m1-cB_1hxq-a1-m1-cA TQFNPVDHPHRRYNPLTGQWILVSPHRAKRPWQGAQETPAKQVLPAHDPDCFLCAGNVRVTGDKNPDYTGTYVFTNDFAALMSDTPDAPESHDPLMRCQSARGTSRVICFSPDHSKTLPELSVAALTEIVKTWQEQTAELGKTYPWVQVFENKGAAMGCSNPHPGGQIWANSFLPNEAEREDRLQKEYFAEQKSPMLVDYVQRELADGSRTVVETEHWLAVVPYWAAWPFETLLLPKAHVLRITDLTDAQRSDLALALKKLTSRYDNLFQCSFPYSMGWHGAPFNGEENQHWQLHAHFYPPLLRSATVRKFMVGYEMLAETQRDLTAEQAAERLRAVSDIHFRE TQFNPVDHPHRRYNPLTGQWILVSPHRAKRPWQGAQETPAKQVLPAHDPDCFLCAGNVRVTGDKNPDYTGTYVFTNDFAALMSDTPDAPESHDPLMRCQSARGTSRVICFSPDHSKTLPELSVAALTEIVKTWQEQTAELGKTYPWVQVFENKGAAMGCSNPHPGGQIWANSFLPNEAEREDRLQKEYFAEQKSPMLVDYVQRELADGSRTVVETEHWLAVVPYWAAWPFETLLLPKAHVLRITDLTDAQRSDLALALKKLTSRYDNLFQCSFPYSMGWHGAPFNGEENQHWQLHAHFYPPLLRSATVRKFMVGYEMLAETQRDLTAEQAAERLRAVSDIHFRESGV 1gv0-a1-m1-cB_1gv0-a1-m2-cB Structural Basis for Thermophilic Protein Stability: Structures of Thermophilic and Mesophilic Malate Dehydrogenases P80039 P80039 2.5 X-RAY DIFFRACTION 12 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 295 295 1gv0-a1-m1-cA_1gv0-a1-m2-cA MKITVIGAGNVGATTAFRLAEKQLARELVLLDVVEGIPQGKALDMYESGPVGLFDTKVTGSNDYADTANSDIVVITAGLLLSMNAGIVREVTGRIMEHSKNPIIVVVSNPLDIMTHVAWQKSGLPKERVIGMAGVLDSARFRSFIAMELGVSMQDVTACVLGGHGDAMVPVVKYTTVAGIPVADLISAERIAELVERTRTGGAEIVNHLKQGSAFYSPATSVVEMVESIVLDRKRVLTCAVSLDGQYGIDGTFVGVPVKLGKNGVEHIYEIKLDQSDLDLLQKSAKIVDENCKML MKITVIGAGNVGATTAFRLAEKQLARELVLLDVVEGIPQGKALDMYESGPVGLFDTKVTGSNDYADTANSDIVVITAGLLLSMNAGIVREVTGRIMEHSKNPIIVVVSNPLDIMTHVAWQKSGLPKERVIGMAGVLDSARFRSFIAMELGVSMQDVTACVLGGHGDAMVPVVKYTTVAGIPVADLISAERIAELVERTRTGGAEIVNHLKQGSAFYSPATSVVEMVESIVLDRKRVLTCAVSLDGQYGIDGTFVGVPVKLGKNGVEHIYEIKLDQSDLDLLQKSAKIVDENCKML 1gv0-a1-m2-cB_1gv0-a1-m1-cA Structural Basis for Thermophilic Protein Stability: Structures of Thermophilic and Mesophilic Malate Dehydrogenases P80039 P80039 2.5 X-RAY DIFFRACTION 85 0.997 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 295 301 1gv0-a1-m1-cB_1gv0-a1-m2-cA MKITVIGAGNVGATTAFRLAEKQLARELVLLDVVEGIPQGKALDMYESGPVGLFDTKVTGSNDYADTANSDIVVITAGLLLSMNAGIVREVTGRIMEHSKNPIIVVVSNPLDIMTHVAWQKSGLPKERVIGMAGVLDSARFRSFIAMELGVSMQDVTACVLGGHGDAMVPVVKYTTVAGIPVADLISAERIAELVERTRTGGAEIVNHLKQGSAFYSPATSVVEMVESIVLDRKRVLTCAVSLDGQYGIDGTFVGVPVKLGKNGVEHIYEIKLDQSDLDLLQKSAKIVDENCKML MKITVIGAGNVGATTAFRLAEKQLARELVLLDVVEGIPQGKALDMYESGPVGLFDTKVTGSNDYADTANSDIVVITAGLPRKPGMTLSMNAGIVREVTGRIMEHSKNPIIVVVSNPLDIMTHVAWQKSGLPKERVIGMAGVLDSARFRSFIAMELGVSMQDVTACVLGGHGDAMVPVVKYTTVAGIPVADLISAERIAELVERTRTGGAEIVNHLKQGSAFYSPATSVVEMVESIVLDRKRVLTCAVSLDGQYGIDGTFVGVPVKLGKNGVEHIYEIKLDQSDLDLLQKSAKIVDENCKML 1gv0-a1-m2-cB_1gv0-a1-m2-cA Structural Basis for Thermophilic Protein Stability: Structures of Thermophilic and Mesophilic Malate Dehydrogenases P80039 P80039 2.5 X-RAY DIFFRACTION 126 0.997 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 295 301 1gv0-a1-m1-cB_1gv0-a1-m1-cA MKITVIGAGNVGATTAFRLAEKQLARELVLLDVVEGIPQGKALDMYESGPVGLFDTKVTGSNDYADTANSDIVVITAGLLLSMNAGIVREVTGRIMEHSKNPIIVVVSNPLDIMTHVAWQKSGLPKERVIGMAGVLDSARFRSFIAMELGVSMQDVTACVLGGHGDAMVPVVKYTTVAGIPVADLISAERIAELVERTRTGGAEIVNHLKQGSAFYSPATSVVEMVESIVLDRKRVLTCAVSLDGQYGIDGTFVGVPVKLGKNGVEHIYEIKLDQSDLDLLQKSAKIVDENCKML MKITVIGAGNVGATTAFRLAEKQLARELVLLDVVEGIPQGKALDMYESGPVGLFDTKVTGSNDYADTANSDIVVITAGLPRKPGMTLSMNAGIVREVTGRIMEHSKNPIIVVVSNPLDIMTHVAWQKSGLPKERVIGMAGVLDSARFRSFIAMELGVSMQDVTACVLGGHGDAMVPVVKYTTVAGIPVADLISAERIAELVERTRTGGAEIVNHLKQGSAFYSPATSVVEMVESIVLDRKRVLTCAVSLDGQYGIDGTFVGVPVKLGKNGVEHIYEIKLDQSDLDLLQKSAKIVDENCKML 1gv3-a1-m1-cA_1gv3-a1-m1-cB The 2.0 Angstrom resolution structure of the catalytic portion of a cyanobacterial membrane-bound manganese superoxide dismutase Q8Z0M1 Q8Z0M1 2 X-RAY DIFFRACTION 48 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 213 213 SIGFIDRQLGTNPAELPPLPYGYDALEKAIDAETMKLHHDKHHAAYVNNLNNALKKHPELQNSSVEALLRDLNSVPEDIRTTVRNNGGGHLNHTIFWQIMSPDGGGQPTGDIAQEINQTFGSFEEFKKQFNQAGGDRFGSGWVWLVRNPQGQLQVVSTPNQDNPIMEGSYPIMGNDVWEHAYYLRYQNRRPEYLNNWWNVVNWSEINRRTQAS SIGFIDRQLGTNPAELPPLPYGYDALEKAIDAETMKLHHDKHHAAYVNNLNNALKKHPELQNSSVEALLRDLNSVPEDIRTTVRNNGGGHLNHTIFWQIMSPDGGGQPTGDIAQEINQTFGSFEEFKKQFNQAGGDRFGSGWVWLVRNPQGQLQVVSTPNQDNPIMEGSYPIMGNDVWEHAYYLRYQNRRPEYLNNWWNVVNWSEINRRTQAS 1gve-a1-m1-cB_1gve-a1-m1-cA Aflatoxin aldehyde reductase (AKR7A1) from Rat Liver P38918 P38918 1.38 X-RAY DIFFRACTION 65 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 301 324 ARPATVLGAMEMGRRMDVTSSSASVRAFLQRGHTEIDTAFVYANGQSETILGDLGLGLGRSGCKVKIATKAAPMFGKTLKPADVRFQLETSLKRLQCPRVDLFYLHFPDHGTPIEETLQACHQLHQEGKFVELGLSNYVSWEVAEICTLCKKNGWIMPTVYQGMYNAITRQVETELFPCLRHFGLRFYAFNPLAGGLLTGRYKYQYWKEEHFNGIALVEKALKTTYGPTAPSMISAAVRWMYHHSQLKGTQGDAVILGMSSLEQLEQNLALVEEGPLEPAVVDAFDQAWNLVAHECPNYFR ARPATVLGAMEMGRRMDVTSSSASVRAFLQRGHTEIDTAFVYANGQSETILGDLGLGLGRSGCKVKIATKAAPMFGKTLKPADVRFQLETSLKRLQCPRVDLFYLHFPDHGTPIEETLQACHQLHQEGKFVELGLSNYVSWEVAEICTLCKKNGWIMPTVYQGMYNAITRQVETELFPCLRHFGLRFYAFNPLAGGLLTGRYKYQDKDGKNPESRFFGNPFSQLYMDRYWKEEHFNGIALVEKALKTTYGPTAPSMISAAVRWMYHHSQLKGTQGDAVILGMSSLEQLEQNLALVEEGPLEPAVVDAFDQAWNLVAHECPNYFR 1gvf-a1-m1-cB_1gvf-a1-m2-cB Structure of tagatose-1,6-bisphosphate aldolase P0AB74 P0AB74 1.45 X-RAY DIFFRACTION 106 1.0 562 (Escherichia coli) 562 (Escherichia coli) 275 275 1gvf-a1-m1-cA_1gvf-a1-m2-cA SIISTKYLLQDAQANGYAVPAFNIHNAETIQAILEVCSEMRSPVILAGTPGTFKHIALEEIYALCSAYSTTYNMPLALHLDHHESLDDIRRKVHAGVRSAMIDGSHFPFAENVKLVKSVVDFCHSQDCSVEAELGRLGGVESAFLTDPQEAKRFVELTGVDSLAVAIGTAHGLYSKTPKIDFQRLAEIREVVDVPLVLHGASDVPDEFVRRTIELGVTKVNVATELKIAFAGAVKAWFAENPQGNDPRYYMRVGMDAMKEVVRNKINVCGSANRI SIISTKYLLQDAQANGYAVPAFNIHNAETIQAILEVCSEMRSPVILAGTPGTFKHIALEEIYALCSAYSTTYNMPLALHLDHHESLDDIRRKVHAGVRSAMIDGSHFPFAENVKLVKSVVDFCHSQDCSVEAELGRLGGVESAFLTDPQEAKRFVELTGVDSLAVAIGTAHGLYSKTPKIDFQRLAEIREVVDVPLVLHGASDVPDEFVRRTIELGVTKVNVATELKIAFAGAVKAWFAENPQGNDPRYYMRVGMDAMKEVVRNKINVCGSANRI 1gvf-a1-m2-cA_1gvf-a1-m2-cB Structure of tagatose-1,6-bisphosphate aldolase P0AB74 P0AB74 1.45 X-RAY DIFFRACTION 36 0.996 562 (Escherichia coli) 562 (Escherichia coli) 273 275 1gvf-a1-m1-cA_1gvf-a1-m1-cB SIISTKYLLQDAQANGYAVPAFNIHNAETIQAILEVCSEMRSPVILAGTPGTFKHIALEEIYALCSAYSTTYNMPLALHLDHHESLDDIRRKVHAGVRSAMIDGSHFPFAENVKLVKSVVDFCHSQDCSVEAELGRLGSAFLTDPQEAKRFVELTGVDSLAVAIGTAHGLYSKTPKIDFQRLAEIREVVDVPLVLHGASDVPDEFVRRTIELGVTKVNVATELKIAFAGAVKAWFAENPQGNDPRYYMRVGMDAMKEVVRNKINVCGSANRIS SIISTKYLLQDAQANGYAVPAFNIHNAETIQAILEVCSEMRSPVILAGTPGTFKHIALEEIYALCSAYSTTYNMPLALHLDHHESLDDIRRKVHAGVRSAMIDGSHFPFAENVKLVKSVVDFCHSQDCSVEAELGRLGGVESAFLTDPQEAKRFVELTGVDSLAVAIGTAHGLYSKTPKIDFQRLAEIREVVDVPLVLHGASDVPDEFVRRTIELGVTKVNVATELKIAFAGAVKAWFAENPQGNDPRYYMRVGMDAMKEVVRNKINVCGSANRI 1gvj-a1-m1-cA_1gvj-a1-m1-cB ETS-1 DNA BINDING AND AUTOINHIBITORY DOMAINS P14921 P14921 1.53 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 146 1md0-a1-m1-cA_1md0-a1-m1-cB 3ri4-a1-m1-cA_3ri4-a1-m1-cD 6da1-a1-m1-cA_6da1-a1-m1-cB MNHKPKGTFKDYVRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHAMLDVK MNHKPKGTFKDYVRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHAMLDVKPDADE 1gvn-a1-m1-cC_1gvn-a1-m1-cA Crystal Structure of the Plasmid Maintenance System epsilon/zeta: Meachnism of toxin inactivation and toxin function Q57231 Q57231 1.95 X-RAY DIFFRACTION 59 0.988 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 85 87 3q8x-a1-m1-cA_3q8x-a1-m1-cC AVTYEKTFEIEIINELSASVYNRVLNYVLNHELNKNDSQLLEVNLLNQLKLAKRVNLFDYSLEELQAVHEYWRSMNRYSKQVLNK VTYEKTFEIEIINELSASVYNRVLNYVLNHELNKNDSQLLEVNLLNQLKLAKRVNLFDYSLEELQAVHEYWRSMNRYSKQVLNKEKV 1gvp-a1-m1-cA_1gvp-a1-m2-cA GENE V PROTEIN (SINGLE-STRANDED DNA BINDING PROTEIN) P69543 P69543 1.6 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 87 1ae2-a1-m1-cA_1ae2-a1-m2-cA 1ae3-a1-m1-cA_1ae3-a1-m2-cA 1gkh-a1-m1-cA_1gkh-a1-m2-cA 1vqa-a1-m1-cA_1vqa-a1-m2-cA 1vqb-a1-m1-cA_1vqb-a1-m2-cA 1vqc-a1-m1-cA_1vqc-a1-m2-cA 1vqd-a1-m1-cA_1vqd-a1-m2-cA 1vqe-a1-m1-cA_1vqe-a1-m2-cA 1vqf-a1-m1-cA_1vqf-a1-m2-cA 1vqg-a1-m1-cA_1vqg-a1-m2-cA 1vqh-a1-m1-cA_1vqh-a1-m2-cA 1vqi-a1-m1-cA_1vqi-a1-m2-cA 1vqj-a1-m1-cA_1vqj-a1-m2-cA 1yha-a1-m1-cA_1yha-a1-m1-cB 1yhb-a1-m1-cA_1yhb-a1-m2-cA 2gn5-a1-m1-cA_2gn5-a1-m2-cA MIKVEIKPSQAQFTTRSGVSRQGKPYSLNEQLCYVDLGNEYPVLVKITLDEGQPAYAPGLYTVHLSSFKVGQFGSLMIDRLRLVPAK MIKVEIKPSQAQFTTRSGVSRQGKPYSLNEQLCYVDLGNEYPVLVKITLDEGQPAYAPGLYTVHLSSFKVGQFGSLMIDRLRLVPAK 1gwl-a1-m1-cA_1gwl-a1-m2-cA Carbohydrate binding module family29 complexed with mannohexaose Q9C171 Q9C171 1.51 X-RAY DIFFRACTION 28 1.0 99929 (Piromyces sp. 'equi') 99929 (Piromyces sp. 'equi') 141 141 NVRATYTVIFKNASGLPNGYDNWGWGCTLSYYGGAMIINPQEGKYGAVSLKRNSGSFRGGSLRFDMKNEGKVKILVENSEADEKFEVETISPSDEYVTYILDVDFDLPFDRIDFQDAPGNGDRIWIKNLVHSTGSADDFVD NVRATYTVIFKNASGLPNGYDNWGWGCTLSYYGGAMIINPQEGKYGAVSLKRNSGSFRGGSLRFDMKNEGKVKILVENSEADEKFEVETISPSDEYVTYILDVDFDLPFDRIDFQDAPGNGDRIWIKNLVHSTGSADDFVD 1gx5-a1-m1-cA_1gx5-a1-m2-cA Hepatitis C Virus RNA Polymerase in Complex with GTP and Manganese P26663 P26663 1.7 X-RAY DIFFRACTION 69 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 518 518 1csj-a1-m1-cA_1csj-a1-m1-cB 1gx6-a1-m1-cA_1gx6-a1-m2-cA 2wrm-a1-m1-cA_2wrm-a1-m2-cA SSYTWTGALITPCAAEESKLPINALSNSLLRHHNVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKALYDVVSTLPQVVGSSYGFQYSPGQRVEFLVNTWKSKKNPGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTLVNGDDLVVICESAGTQEDAASLRVFTEATRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIYAPTLWARILTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAV SSYTWTGALITPCAAEESKLPINALSNSLLRHHNVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKALYDVVSTLPQVVGSSYGFQYSPGQRVEFLVNTWKSKKNPGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTLVNGDDLVVICESAGTQEDAASLRVFTEATRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIYAPTLWARILTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAV 1gxb-a1-m1-cA_1gxb-a1-m2-cD ANTHRANILATE PHOSPHORIBOSYLTRANSFERASE IN COMPLEX WITH PYROPHOSPHATE AND MAGNESIUM P50384 P50384 2.65 X-RAY DIFFRACTION 66 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 339 345 1gxb-a2-m3-cB_1gxb-a2-m1-cC 1o17-a1-m1-cA_1o17-a1-m1-cD 1o17-a2-m1-cB_1o17-a2-m1-cC 1zxy-a1-m1-cA_1zxy-a1-m1-cD 1zxy-a2-m1-cB_1zxy-a2-m1-cC 1zyk-a1-m1-cA_1zyk-a1-m1-cD 1zyk-a2-m1-cC_1zyk-a2-m1-cB 2gvq-a1-m1-cA_2gvq-a1-m1-cD 2gvq-a2-m1-cB_2gvq-a2-m1-cC 3gbr-a1-m1-cA_3gbr-a1-m1-cB MNINEILKKLINKSDLEINEAEELAKAIIRGEVPEILVSAILVALRMKGESKNEIVGFARAMRELAIKIDVPNAIDTAGGLGTVNVSTASAILLSLVNPVAKHGNRAVSGKSGSADVLEALGYNIIVPPERAKELVNKTNFVFLFAQYYHPAMKNVANVRKTLGIRTIFNILGPLTNPANAKYQLMGVFSKDHLDLLSKSAYELDFNKIILVYGEPGIDEVSPIGNTFMKIVSKRGIEEVKLNVTDFGISPIPIEKLIVNSAEDSAIKIVRAFLGKDEHVAEFIKINTAVALFALDRVGDFREGYEYADHLIEKSLDKLNEIISMNGDVTKLKTIVVKS MNINEILKKLINKSDLEINEAEELAKAIIRGEVPEILVSAILVALRMKGESKNEIVGFARAMRELAIKIDVPNAIDTAGTGGDGLGTVNVSTASAILLSLVNPVAKHGNRAVSGKSGSADVLEALGYNIIVPPERAKELVNKTNFVFLFAQYYHPAMKNVANVRKTLGIRTIFNILGPLTNPANAKYQLMGVFSKDHLDLLSKSAYELDFNKIILVYGEPGIDEVSPIGNTFMKIVSKRGIEEVKLNVTDFGISPIPIEKLIVNSAEDSAIKIVRAFLGKDEHVAEFIKINTAVALFALDRVGDFREGYEYADHLIEKSLDKLNEIISMNGDVTKLKTIVVKSSG 1gxl-a1-m1-cA_1gxl-a1-m1-cB SMC hinge domain from T. maritima with coiled coil Q9X0R4 Q9X0R4 3 X-RAY DIFFRACTION 138 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 205 205 1gxj-a1-m1-cA_1gxj-a1-m1-cB 1gxk-a1-m1-cA_1gxk-a1-m1-cB 1gxk-a2-m1-cD_1gxk-a2-m1-cC 1gxl-a2-m1-cD_1gxl-a2-m1-cC KEKRLREIQFEKEMIERDMREYRGFSRAVRAVFEEKERFPGLVDVVSNLIEVDEKYSLAVSVLLGGTAQNIVVRNVDTAKAIVEFLKQNEAGRVTILPLDLIDGSFNRISGLENERGFVGYAVDLVKFPSDLEVLGGFLFGNSVVVETLDDAIRMKKKYRLNTRIATLDGELISGRGAITGGREERSSNVFERRIKLKHLEQEME KEKRLREIQFEKEMIERDMREYRGFSRAVRAVFEEKERFPGLVDVVSNLIEVDEKYSLAVSVLLGGTAQNIVVRNVDTAKAIVEFLKQNEAGRVTILPLDLIDGSFNRISGLENERGFVGYAVDLVKFPSDLEVLGGFLFGNSVVVETLDDAIRMKKKYRLNTRIATLDGELISGRGAITGGREERSSNVFERRIKLKHLEQEME 1gxr-a1-m1-cB_1gxr-a1-m1-cA WD40 Region of Human Groucho/TLE1 Q04724 Q04724 1.65 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 335 2ce8-a1-m1-cA_2ce8-a1-m1-cB 2ce8-a2-m1-cC_2ce8-a2-m1-cD 2ce9-a1-m1-cA_2ce9-a1-m1-cB 2ce9-a2-m1-cD_2ce9-a2-m1-cC 5mwj-a1-m1-cB_5mwj-a1-m1-cA DYFQGAMGSKPAYSFHVMQPVPFPPDALIGPGIPRHARQINTLNHGEVVCAVTISNPTRHVYTGGKGCVKVWDISHKSPVSQLDCLNRDNYIRSCKLLPDGCTLIVGGEASTLSIWDLAPRIKAELTSSAPACYALAISPDSKVCFSCCSDGNIAVWDLHNQTLVRQFQGHTDGASCIDISNDGTKLWTGGLDNTVRSWDLREGRQLQQHDFTSQIFSLGYCPTGEWLAVGMESSNVEVLHKPDKYQLHLHESCVLSLKFAYCGKWFVSTGKDNLLNAWRTPYGASIFQSKESSSVLSCDISVDDKYIVTGSGDKKATVYEVIY DYFQGAMGSKPAYSFHVTADGQMQPVPFPPDALIGPGIPRHARQINTLNHGEVVCAVTISNPTRHVYTGGKGCVKVWDISHPGNKSPVSQLDCLNRDNYIRSCKLLPDGCTLIVGGEASTLSIWDLAAPRIKAELTSSAPACYALAISPDSKVCFSCCSDGNIAVWDLHNQTLVRQFQGHTDGASCIDISNDGTKLWTGGLDNTVRSWDLREGRQLQQHDFTSQIFSLGYCPTGEWLAVGMESSNVEVLHVNKPDKYQLHLHESCVLSLKFAYCGKWFVSTGKDNLLNAWRTPYGASIFQSKESSSVLSCDISVDDKYIVTGSGDKKATVYEVIY 1gy7-a1-m1-cA_1gy7-a1-m1-cB N77Y point mutant of S.Cerevisiae NTF2 P33331 P33331 1.6 X-RAY DIFFRACTION 67 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 121 122 1gy7-a2-m1-cC_1gy7-a2-m1-cD 1gyb-a1-m1-cA_1gyb-a1-m1-cB 1gyb-a2-m1-cC_1gyb-a2-m1-cD DFNTLAQNFTQFYYNQFDTDRSQLGNLYRNESMLTFETSQLQGAKDIVEKLVSLPFQKVQHRITTLDAQPASPYGDVLVMITGDLLIDEEQNPQRFSQVFHLIPDGNSYYVFNDIFRLNYS LDFNTLAQNFTQFYYNQFDTDRSQLGNLYRNESMLTFETSQLQGAKDIVEKLVSLPFQKVQHRITTLDAQPASPYGDVLVMITGDLLIDEEQNPQRFSQVFHLIPDGNSYYVFNDIFRLNYS 1gy8-a2-m1-cD_1gy8-a2-m1-cC Trypanosoma brucei UDP-galactose 4' epimerase Q8T8E9 Q8T8E9 2 X-RAY DIFFRACTION 67 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 364 370 1gy8-a1-m1-cB_1gy8-a1-m1-cA 2cnb-a1-m1-cB_2cnb-a1-m1-cA 2cnb-a2-m1-cD_2cnb-a2-m1-cC SHMRVLVCGGAGYIGSHFVRALLRDTNHSVVIVDSLVGTHGKSDHVETRENVARKLQQSDGPKPPWADRYAALEVGDVRNEDFLNGVFTRHGPIDAVVHMCAFLAVGESVRDPLKYYDNNVVGILRLLQAMLLHKCDKIIFSSSAAIFGNPTNAEPIDINAKKSPESPYGESKLIAERMIRDCAEAYGIKGICLRYFNACGAHEDGDIGEHYQGSTHLIPIILGRVMSDIADKRMPIFGTDYPTPDGTCVRDYVHVCDLASAHILALDYVEKLGPNDKSKYFSVFNLGTSRGYSVREVIEVARKTTGHPIPVRECGRREGDPAYLVAASDKAREVLGWKPKYDTLEAIMETSWKFQRTHPNGYA SHMRVLVCGGAGYIGSHFVRALLRDTNHSVVIVDSLVGTHGKSDHVETRENVARKLQQSDGPKPPWADRYAALEVGDVRNEDFLNGVFTRHGPIDAVVHMCAFLAVGESVRDPLKYYDNNVVGILRLLQAMLLHKCDKIIFSSSAAIFGNPTMNAEPIDINAKKSPESPYGESKLIAERMIRDCAEAYGIKGICLRYFNACGAHEDGDIGEHYQGSTHLIPIILGRVMSDIAPDASTDKRMPIFGTDYPTPDGTCVRDYVHVCDLASAHILALDYVEKLGPNDKSKYFSVFNLGTSRGYSVREVIEVARKTTGHPIPVRECGRREGDPAYLVAASDKAREVLGWKPKYDTLEAIMETSWKFQRTHPNGYA 1gyg-a2-m2-cB_1gyg-a2-m3-cB R32 CLOSED FORM OF ALPHA-TOXIN FROM CLOSTRIDIUM PERFRINGENS STRAIN CER89L43 P0C216 P0C216 1.9 X-RAY DIFFRACTION 117 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 370 370 1gyg-a1-m1-cA_1gyg-a1-m2-cA 1gyg-a1-m1-cA_1gyg-a1-m3-cA 1gyg-a1-m2-cA_1gyg-a1-m3-cA 1gyg-a2-m1-cB_1gyg-a2-m2-cB 1gyg-a2-m1-cB_1gyg-a2-m3-cB WDGKIDGTGTHAMIVTQGVSILENDLSKNEPESVRKNLEILKENMHELQLGSTYPDYDKNAYDLYQDHFWDPDTDNNFSKDNSWYLAYSIPDTGESQIRKFSALARYEWQRGNYKQATFYLGEAMHYFGDIDTPYHPANVTAVDSAGHVKFETFAEERKEQYKINTVGCKTNEDFYADILKNKDFNAWSKEYARGFAKTGKSIYYSHASMSHSWDDWDYAAKVTLANSQKGTAGYIYRFLHDVSEGNDPSVGKNVKELVAYISTSGEKDAGTDDYMYFGIKTKDGKTQEWEMDNPGNDFMTGSKDTYTFKLKDENLKIDDIQNMWIRKRKYTAFPDAYKPENIKVIANGKVVVDKDINEWISGNSTYNIK WDGKIDGTGTHAMIVTQGVSILENDLSKNEPESVRKNLEILKENMHELQLGSTYPDYDKNAYDLYQDHFWDPDTDNNFSKDNSWYLAYSIPDTGESQIRKFSALARYEWQRGNYKQATFYLGEAMHYFGDIDTPYHPANVTAVDSAGHVKFETFAEERKEQYKINTVGCKTNEDFYADILKNKDFNAWSKEYARGFAKTGKSIYYSHASMSHSWDDWDYAAKVTLANSQKGTAGYIYRFLHDVSEGNDPSVGKNVKELVAYISTSGEKDAGTDDYMYFGIKTKDGKTQEWEMDNPGNDFMTGSKDTYTFKLKDENLKIDDIQNMWIRKRKYTAFPDAYKPENIKVIANGKVVVDKDINEWISGNSTYNIK 1gyo-a1-m1-cA_1gyo-a1-m1-cB Crystal structure of the di-tetraheme cytochrome c3 from Desulfovibrio gigas at 1.2 Angstrom resolution Q9R638 Q9R638 1.2 X-RAY DIFFRACTION 54 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 106 106 LDVPCKVVITAPEGEDPHPRFGKVEMSHAKHRNVSCVSCHHMFDGCGDFQKCADCHIDRDDRSYERGFYKAWHSESEISCRGCHKAMKAKNEQTGPIGCLQGCHEA LDVPCKVVITAPEGEDPHPRFGKVEMSHAKHRNVSCVSCHHMFDGCGDFQKCADCHIDRDDRSYERGFYKAWHSESEISCRGCHKAMKAKNEQTGPIGCLQGCHEA 1gyy-a1-m1-cA_1gyy-a1-m1-cB The Crystal Structure of YdcE, a 4-Oxalocrotonate Tautomerase Homologue from Escherichia coli, Confirms the Structural Basis for Oligomer Diversity P31992 P31992 1.35 X-RAY DIFFRACTION 126 1.0 562 (Escherichia coli) 562 (Escherichia coli) 76 76 1gyj-a1-m1-cA_1gyj-a1-m1-cB 1gyx-a1-m1-cA_1gyx-a1-m1-cB PHIDIKCFPRELDEQQKAALAADITDVIIRHLNSKDSSISIALQQIQPESWQAIWDAEIAPQMEALIKKPGYSMNA PHIDIKCFPRELDEQQKAALAADITDVIIRHLNSKDSSISIALQQIQPESWQAIWDAEIAPQMEALIKKPGYSMNA 1gz0-a3-m1-cC_1gz0-a3-m1-cH 23S RIBOSOMAL RNA G2251 2'O-METHYLTRANSFERASE RLMB P63177 P63177 2.5 X-RAY DIFFRACTION 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 242 1gz0-a1-m1-cA_1gz0-a1-m1-cF 1gz0-a2-m1-cG_1gz0-a2-m1-cB 1gz0-a4-m1-cE_1gz0-a4-m1-cD SEIYGIHAVQALLERAPERFQEVFILKGREDKRLLPLIHALESQGVVIQLANRQYLDEKSDGAVHQGIIARVKPGRQYQENDLPDLIASLDQPFLLILDGVTDPHNLGACLRSADAAGVHAVIVPKDRSAQLNATAKKVACGAAESVPLIRVTNLARTRLQEENIWIVGTAGEADHTLYQSKTGRLALVGAEGEGRRLTREHCDELISIPAGSVSSLNVSVATGICLFEAVRQRS LVPRGSHSEIYGIHAVQALLERAPERFQEVFILKGREDKRLLPLIHALESQGVVIQLANRQYLDEKSDGAVHQGIIARVKPGRQYQENDLPDLIASLDQPFLLILDGVTDPHNLGACLRSADAAGVHAVIVPKDRSAQLNATAKKVACGAAESVPLIRVTNLARTRLQEENIWIVGTAGEADHTLYQSKTGRLALVGAEGEGRRLTREHCDELISIPAGSVSSLNVSVATGICLFEAVRQRS 1h0s-a1-m7-cA_1h0s-a1-m9-cA 3-dehydroquinate dehydratase from Mycobacterium tuberculosis in complex with 3-hydroxyimino-quinic acid P9WPX7 P9WPX7 1.7 X-RAY DIFFRACTION 16 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 137 137 1h0s-a1-m10-cA_1h0s-a1-m11-cA 1h0s-a1-m10-cA_1h0s-a1-m4-cA 1h0s-a1-m11-cA_1h0s-a1-m4-cA 1h0s-a1-m12-cA_1h0s-a1-m2-cA 1h0s-a1-m1-cA_1h0s-a1-m12-cA 1h0s-a1-m1-cA_1h0s-a1-m2-cA 1h0s-a1-m3-cA_1h0s-a1-m5-cA 1h0s-a1-m3-cA_1h0s-a1-m8-cA 1h0s-a1-m5-cA_1h0s-a1-m8-cA 1h0s-a1-m6-cA_1h0s-a1-m7-cA 1h0s-a1-m6-cA_1h0s-a1-m9-cA ELIVNVINGPNLGRLGRRGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEHV ELIVNVINGPNLGRLGRRGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEHV 1h0x-a1-m1-cA_1h0x-a1-m1-cB Structure of Alba: an archaeal chromatin protein modulated by acetylation P60849 P60849 2.6 X-RAY DIFFRACTION 54 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 89 89 1h0y-a1-m1-cA_1h0y-a1-m2-cA 1y9x-a1-m1-cA_1y9x-a1-m1-cB 3wbm-a1-m1-cB_3wbm-a1-m1-cA SNVVLIGKKPVMNYVLAALTLLNQGVSEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIKEIRVGSQVVTSQDGRQSRVSTIEIAIRKK SNVVLIGKKPVMNYVLAALTLLNQGVSEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIKEIRVGSQVVTSQDGRQSRVSTIEIAIRKK 1h16-a1-m1-cA_1h16-a1-m2-cA Pyruvate Formate-Lyase (E.coli) in complex with Pyruvate and CoA P09373 P09373 1.53 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 759 759 1cm5-a1-m1-cA_1cm5-a1-m1-cB 1h17-a1-m1-cA_1h17-a1-m2-cA 1h18-a1-m1-cA_1h18-a1-m1-cB 1mzo-a1-m1-cA_1mzo-a1-m1-cB 1qhm-a1-m1-cA_1qhm-a1-m1-cB 2pfl-a1-m1-cA_2pfl-a1-m1-cB 3pfl-a1-m1-cA_3pfl-a1-m1-cB SELNEKLATAWEGFTKGDWQNEVNVRDFIQKNYTPYEGDESFLAGATEATTTLWDKVMEGVKLENRTHAPVDFDTAVASTITSHDAGYINKQLEKIVGLQTEAPLKRALIPFGGIKMIEGSCKAYNRELDPMIKKIFTEYRKTHNQGVFDVYTPDILRCRKSGVLTGLPDAYGRGRIIGDYRRVALYGIDYLMKDKLAQFTSLQADLENGVNLEQTIRLREEIAEQHRALGQMKEMAAKYGYDISGPATNAQEAIQWTYFGYLAAVKSQNGAAMSFGRTSTFLDVYIERDLKAGKITEQEAQEMVDHLVMKLRMVRFLRTPEYDELFSGDPIWATESIGGMGLDGRTLVTKNSFRFLNTLYTMGPSPEPNMTILWSEKLPLNFKKFAAKVSIDTSSLQYENDDLMRPDFNNDDYAIACCVSPMIVGKQMQFFGARANLAKTMLYAINGGVDEKLKMQVGPKSEPIKGDVLNYDEVMERMDHFMDWLAKQYITALNIIHYMHDKYSYEASLMALHDRDVIRTMACGIAGLSVAADSLSAIKYAKVKPIRDEDGLAIDFEIEGEYPQFGNNDPRVDDLAVDLVERFMKKIQKLHTYRDAIPTQSVLTITSNVVYGKKTGNTPDGRRAGAPFGPGANPMHGRDQKGAVASLTSVAKLPFAYAKDGISYTFSIVPNALGKDDEVRKTNLAGLMDGYFHHEASIEGGQHLNVNVMNREMLLDAMENPEKYPQLTIRVSGYAVRFNSLTKEQQQDVITRTFTQSM SELNEKLATAWEGFTKGDWQNEVNVRDFIQKNYTPYEGDESFLAGATEATTTLWDKVMEGVKLENRTHAPVDFDTAVASTITSHDAGYINKQLEKIVGLQTEAPLKRALIPFGGIKMIEGSCKAYNRELDPMIKKIFTEYRKTHNQGVFDVYTPDILRCRKSGVLTGLPDAYGRGRIIGDYRRVALYGIDYLMKDKLAQFTSLQADLENGVNLEQTIRLREEIAEQHRALGQMKEMAAKYGYDISGPATNAQEAIQWTYFGYLAAVKSQNGAAMSFGRTSTFLDVYIERDLKAGKITEQEAQEMVDHLVMKLRMVRFLRTPEYDELFSGDPIWATESIGGMGLDGRTLVTKNSFRFLNTLYTMGPSPEPNMTILWSEKLPLNFKKFAAKVSIDTSSLQYENDDLMRPDFNNDDYAIACCVSPMIVGKQMQFFGARANLAKTMLYAINGGVDEKLKMQVGPKSEPIKGDVLNYDEVMERMDHFMDWLAKQYITALNIIHYMHDKYSYEASLMALHDRDVIRTMACGIAGLSVAADSLSAIKYAKVKPIRDEDGLAIDFEIEGEYPQFGNNDPRVDDLAVDLVERFMKKIQKLHTYRDAIPTQSVLTITSNVVYGKKTGNTPDGRRAGAPFGPGANPMHGRDQKGAVASLTSVAKLPFAYAKDGISYTFSIVPNALGKDDEVRKTNLAGLMDGYFHHEASIEGGQHLNVNVMNREMLLDAMENPEKYPQLTIRVSGYAVRFNSLTKEQQQDVITRTFTQSM 1h1b-a1-m1-cB_1h1b-a1-m1-cA Crystal structure of human neutrophil elastase complexed with an inhibitor (GW475151) P08246 P08246 2 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 IVGGRRARPHAWPFMVSLQLRGGHFCGATLIAPNFVMSAAHCVANVNVRAVRVVLGAHNLSRREPTRQVFAVQRIFENGYDPVNLLNDIVILQLNGSATINANVQVAQLPAQGRRLGNGVQCLAMGWGLLGRNRGIASVLQELNVTVVTSLCRRSNVCTLVRGRQAGVCFGDSGSPLVCNGLIHGIASFVRGGCASGLYPDAFAPVAQFVNWIDSIIQ IVGGRRARPHAWPFMVSLQLRGGHFCGATLIAPNFVMSAAHCVANVNVRAVRVVLGAHNLSRREPTRQVFAVQRIFENGYDPVNLLNDIVILQLNGSATINANVQVAQLPAQGRRLGNGVQCLAMGWGLLGRNRGIASVLQELNVTVVTSLCRRSNVCTLVRGRQAGVCFGDSGSPLVCNGLIHGIASFVRGGCASGLYPDAFAPVAQFVNWIDSIIQ 1h1y-a1-m1-cA_1h1y-a1-m1-cB The structure of the cytosolic D-ribulose-5-phosphate 3-epimerase from rice complexed with sulfate Q9SE42 Q9SE42 1.87 X-RAY DIFFRACTION 100 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 219 219 1h1z-a1-m1-cA_1h1z-a1-m1-cB AAKIAPSMLSSDFANLAAEADRMVRLGADWLHMDIMDGHFVPNLTIGAPVIQSLRKHTKAYLDCHLMVTNPSDYVEPLAKAGASGFTFHIEVSRDNWQELIQSIKAKGMRPGVSLRPGTPVEEVFPLVEAENPVELVLVMTVEPGFGGQKFMPEMMEKVRALRKKYPSLDIEVDGGLGPSTIDVAASAGANCIVAGSSIFGAAEPGEVISALRKSVEGS AAKIAPSMLSSDFANLAAEADRMVRLGADWLHMDIMDGHFVPNLTIGAPVIQSLRKHTKAYLDCHLMVTNPSDYVEPLAKAGASGFTFHIEVSRDNWQELIQSIKAKGMRPGVSLRPGTPVEEVFPLVEAENPVELVLVMTVEPGFGGQKFMPEMMEKVRALRKKYPSLDIEVDGGLGPSTIDVAASAGANCIVAGSSIFGAAEPGEVISALRKSVEGS 1h21-a2-m1-cC_1h21-a2-m1-cD A novel iron centre in the split-Soret cytochrome c from Desulfovibrio desulfuricans ATCC 27774 P81040 P81040 2.5 X-RAY DIFFRACTION 278 1.0 876 (Desulfovibrio desulfuricans) 876 (Desulfovibrio desulfuricans) 240 240 1h21-a1-m1-cA_1h21-a1-m1-cB GRFDQVGGAFGWKPHKLDPKECAQVAYDGYWYKGFGCGFGAFYSIVGLMGEKYGAPYNQFPFAMLEANKGGISDWGTICGALYGAAATFSLFWGRKEVHPMVNELFRWYEVTKLPIFNPGDAAQGVKGDLPMSASDSVLCHISVSKWCYENKIEATSKQRSERCGRLTADAAFKAAEIINTKIDQGKDFKSTFPMQASVSSCGECHMTKGNDANWAKGIMDCTPCHSGTAATQNKFVNHP GRFDQVGGAFGWKPHKLDPKECAQVAYDGYWYKGFGCGFGAFYSIVGLMGEKYGAPYNQFPFAMLEANKGGISDWGTICGALYGAAATFSLFWGRKEVHPMVNELFRWYEVTKLPIFNPGDAAQGVKGDLPMSASDSVLCHISVSKWCYENKIEATSKQRSERCGRLTADAAFKAAEIINTKIDQGKDFKSTFPMQASVSSCGECHMTKGNDANWAKGIMDCTPCHSGTAATQNKFVNHP 1h2b-a1-m1-cA_1h2b-a1-m2-cB Crystal Structure of the Alcohol Dehydrogenase from the Hyperthermophilic Archaeon Aeropyrum pernix at 1.65A Resolution Q9Y9P9 Q9Y9P9 1.62 X-RAY DIFFRACTION 28 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 343 344 1h2b-a1-m2-cA_1h2b-a1-m1-cB KAARLHEYNKPLRIEDVDYPRLEGRFDVIVRIAGAGVCHTDLHLVQGMWHELLQPKLPYTLGHENVGYIEEVAEGVEGLEKGDPVILHPAVTDGTCLACRAGEDMHCENLEFPGLNIDGGFAEFMRTSHRSVIKLPKDISREKLVEMAPLADAGITAYRAVKKAARTLYPGAYVAIVGVGGLGHIAVQLLKVMTPATVIALDVKEEKLKLAERLGADHVVDARRDPVKQVMELTRGRGVNVAMDFVGSQATVDYTPYLLGRMGRLIIVGYGGELRFPTIRVISSEVSFEGSLVGNYVELHELVTLALQGKVRVEVDIHKLDEINDVLERLEKGEVLGRAVLIP LKAARLHEYNKPLRIEDVDYPRLEGRFDVIVRIAGAGVCHTDLHLVQGMWHELLQPKLPYTLGHENVGYIEEVAEGVEGLEKGDPVILHPAVTDGTCLACRAGEDMHCENLEFPGLNIDGGFAEFMRTSHRSVIKLPKDISREKLVEMAPLADAGITAYRAVKKAARTLYPGAYVAIVGVGGLGHIAVQLLKVMTPATVIALDVKEEKLKLAERLGADHVVDARRDPVKQVMELTRGRGVNVAMDFVGSQATVDYTPYLLGRMGRLIIVGYGGELRFPTIRVISSEVSFEGSLVGNYVELHELVTLALQGKVRVEVDIHKLDEINDVLERLEKGEVLGRAVLIP 1h2b-a1-m1-cB_1h2b-a1-m2-cB Crystal Structure of the Alcohol Dehydrogenase from the Hyperthermophilic Archaeon Aeropyrum pernix at 1.65A Resolution Q9Y9P9 Q9Y9P9 1.62 X-RAY DIFFRACTION 117 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 344 344 1h2b-a1-m1-cA_1h2b-a1-m2-cA LKAARLHEYNKPLRIEDVDYPRLEGRFDVIVRIAGAGVCHTDLHLVQGMWHELLQPKLPYTLGHENVGYIEEVAEGVEGLEKGDPVILHPAVTDGTCLACRAGEDMHCENLEFPGLNIDGGFAEFMRTSHRSVIKLPKDISREKLVEMAPLADAGITAYRAVKKAARTLYPGAYVAIVGVGGLGHIAVQLLKVMTPATVIALDVKEEKLKLAERLGADHVVDARRDPVKQVMELTRGRGVNVAMDFVGSQATVDYTPYLLGRMGRLIIVGYGGELRFPTIRVISSEVSFEGSLVGNYVELHELVTLALQGKVRVEVDIHKLDEINDVLERLEKGEVLGRAVLIP LKAARLHEYNKPLRIEDVDYPRLEGRFDVIVRIAGAGVCHTDLHLVQGMWHELLQPKLPYTLGHENVGYIEEVAEGVEGLEKGDPVILHPAVTDGTCLACRAGEDMHCENLEFPGLNIDGGFAEFMRTSHRSVIKLPKDISREKLVEMAPLADAGITAYRAVKKAARTLYPGAYVAIVGVGGLGHIAVQLLKVMTPATVIALDVKEEKLKLAERLGADHVVDARRDPVKQVMELTRGRGVNVAMDFVGSQATVDYTPYLLGRMGRLIIVGYGGELRFPTIRVISSEVSFEGSLVGNYVELHELVTLALQGKVRVEVDIHKLDEINDVLERLEKGEVLGRAVLIP 1h2b-a1-m2-cA_1h2b-a1-m2-cB Crystal Structure of the Alcohol Dehydrogenase from the Hyperthermophilic Archaeon Aeropyrum pernix at 1.65A Resolution Q9Y9P9 Q9Y9P9 1.62 X-RAY DIFFRACTION 21 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 343 344 1h2b-a1-m1-cA_1h2b-a1-m1-cB KAARLHEYNKPLRIEDVDYPRLEGRFDVIVRIAGAGVCHTDLHLVQGMWHELLQPKLPYTLGHENVGYIEEVAEGVEGLEKGDPVILHPAVTDGTCLACRAGEDMHCENLEFPGLNIDGGFAEFMRTSHRSVIKLPKDISREKLVEMAPLADAGITAYRAVKKAARTLYPGAYVAIVGVGGLGHIAVQLLKVMTPATVIALDVKEEKLKLAERLGADHVVDARRDPVKQVMELTRGRGVNVAMDFVGSQATVDYTPYLLGRMGRLIIVGYGGELRFPTIRVISSEVSFEGSLVGNYVELHELVTLALQGKVRVEVDIHKLDEINDVLERLEKGEVLGRAVLIP LKAARLHEYNKPLRIEDVDYPRLEGRFDVIVRIAGAGVCHTDLHLVQGMWHELLQPKLPYTLGHENVGYIEEVAEGVEGLEKGDPVILHPAVTDGTCLACRAGEDMHCENLEFPGLNIDGGFAEFMRTSHRSVIKLPKDISREKLVEMAPLADAGITAYRAVKKAARTLYPGAYVAIVGVGGLGHIAVQLLKVMTPATVIALDVKEEKLKLAERLGADHVVDARRDPVKQVMELTRGRGVNVAMDFVGSQATVDYTPYLLGRMGRLIIVGYGGELRFPTIRVISSEVSFEGSLVGNYVELHELVTLALQGKVRVEVDIHKLDEINDVLERLEKGEVLGRAVLIP 1h34-a1-m1-cA_1h34-a1-m2-cA Crystal structure of lima bean trypsin inhibitor P01056 P01056 2.04 X-RAY DIFFRACTION 27 1.0 3884 (Phaseolus lunatus) 3884 (Phaseolus lunatus) 57 57 KPCCDHCSCTKSIPPQCRCTDLRLDSCHSACKSCICTLSIPAQCVCDDIDDFCYEPC KPCCDHCSCTKSIPPQCRCTDLRLDSCHSACKSCICTLSIPAQCVCDDIDDFCYEPC 1h3d-a1-m4-cA_1h3d-a1-m6-cA STRUCTURE OF THE E.COLI ATP-PHOSPHORIBOSYLTRANSFERASE P60757 P60757 2.7 X-RAY DIFFRACTION 76 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 288 288 1h3d-a1-m1-cA_1h3d-a1-m2-cA 1h3d-a1-m3-cA_1h3d-a1-m5-cA 1q1k-a1-m1-cA_1q1k-a1-m5-cA 1q1k-a1-m2-cA_1q1k-a1-m4-cA 1q1k-a1-m3-cA_1q1k-a1-m6-cA TRLRIAMQKSGRLSDDSRELLARCGIKINLHTQRLIAMAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLNRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWDGPLSLNGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMEESKQQLIDKLLTRIQGVIQARESKYIMMHAPTERLDEVIALLPGAERPTILPLAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME TRLRIAMQKSGRLSDDSRELLARCGIKINLHTQRLIAMAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLNRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWDGPLSLNGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMEESKQQLIDKLLTRIQGVIQARESKYIMMHAPTERLDEVIALLPGAERPTILPLAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME 1h3d-a1-m5-cA_1h3d-a1-m6-cA STRUCTURE OF THE E.COLI ATP-PHOSPHORIBOSYLTRANSFERASE P60757 P60757 2.7 X-RAY DIFFRACTION 46 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 288 288 1h3d-a1-m1-cA_1h3d-a1-m3-cA 1h3d-a1-m1-cA_1h3d-a1-m4-cA 1h3d-a1-m2-cA_1h3d-a1-m5-cA 1h3d-a1-m2-cA_1h3d-a1-m6-cA 1h3d-a1-m3-cA_1h3d-a1-m4-cA 1q1k-a1-m1-cA_1q1k-a1-m2-cA 1q1k-a1-m1-cA_1q1k-a1-m3-cA 1q1k-a1-m2-cA_1q1k-a1-m3-cA 1q1k-a1-m4-cA_1q1k-a1-m5-cA 1q1k-a1-m4-cA_1q1k-a1-m6-cA 1q1k-a1-m5-cA_1q1k-a1-m6-cA TRLRIAMQKSGRLSDDSRELLARCGIKINLHTQRLIAMAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLNRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWDGPLSLNGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMEESKQQLIDKLLTRIQGVIQARESKYIMMHAPTERLDEVIALLPGAERPTILPLAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME TRLRIAMQKSGRLSDDSRELLARCGIKINLHTQRLIAMAENMPIDILRVRDDDIPGLVMDGVVDLGIIGENVLEEELLNRRAQGEDPRYFTLRRLDFGGCRLSLATPVDEAWDGPLSLNGKRIATSYPHLLKRYLDQKGISFKSCLLNGSVEVAPRAGLADAICDLVSTGATLEANGLREVEVIYRSKACLIQRDGEMEESKQQLIDKLLTRIQGVIQARESKYIMMHAPTERLDEVIALLPGAERPTILPLAMHMVSSETLFWETMEKLKALGASSILVLPIEKMME 1h3f-a1-m1-cA_1h3f-a1-m1-cB Tyrosyl-tRNA synthetase from Thermus thermophilus complexed with tyrosinol P83453 P83453 2 X-RAY DIFFRACTION 100 0.988 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 403 406 1h3e-a1-m1-cA_1h3e-a1-m2-cA GHTPEEALALLKRGAEEIVPEEELLAKLKEGRPLTVKLGADPTRPDLHLGHAVVLRKMRQFQELGHKVVLIIGDFTRENAKTYVAQAGKILRQEPHLFELRYNSEWLEGLTFKEVVRLTSLMTVAQMLEREDFKKRYEAGIPISLHELLYPFAQAYDSVAIRADVEMGGTDQRFNLLVGREVQRAYGQSPQVCFLMPLLVGLDGREKMSKSLDNYIGLTEPPEAMFKKLMRVPDPLLPSYFRLLTDLEEEEIEALLKAGPVPAHRVLARLLTAAYALPQIPPRIDRAFYESLGYAWEAFGRDKEAGPEEVRRAEARYDEVAKEEIPEVTIPASELKEGRIWVARLFTLAGLTPSNAEARRLIQNRGLRLDGEVLTDPMLQVDLSRPRILQRGKDRFVRVRLSD GHTPEEALALLKRGAEEIVPEEELLAKLKEGRPLTVKLGADPTRPDLHLGHAVVLRKMRQFQELGHKVVLIIGDFTGMITLEETRENAKTYVAQAGKILRQEPHLFELRYNSEWLEGLTFKEVVRLTSLMTVAQMLEREDFKKRYEAGIPISLHELLYPFAQAYDSVAIRADVEMGGTDQRFNLLVGREVQRAYGQSPQVCFLMPLLVGLDGREKMSKSLDNYIGLTEPPEAMFKKLMRVPDPLLPSYFRLLTDLEEEEIEALLKAGPVPAHRVLARLLTAAYALPQIPPRIDRAFYESLGYAWEAFGRDKEAGPEEVRRAEARYDEIPEVTIPASELKEGRIWVARLFTLAGLTPSNAEARRLIQNRGLRLDGEVLTDPMLQVDLSRPRILQRGKDRFVRVRLSD 1h3y-a1-m1-cB_1h3y-a1-m2-cB Crystal structure of a human IgG1 Fc-fragment,high salt condition P01857 P01857 4.1 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 206 4j12-a2-m1-cA_4j12-a2-m2-cA 7q3p-a1-m1-cC_7q3p-a1-m1-cA 7x13-a1-m1-cB_7x13-a1-m1-cC 7x13-a1-m1-cD_7x13-a1-m1-cE 7x13-a1-m1-cG_7x13-a1-m1-cF 7x13-a1-m1-cH_7x13-a1-m1-cI 7x13-a1-m1-cK_7x13-a1-m1-cJ 7x13-a1-m1-cL_7x13-a1-m1-cA PSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL PSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 1h48-a1-m1-cA_1h48-a1-m1-cB The structure of 2C-Methyl-D-erythritol 2,4-cyclodiphosphate synthase in complex with CMP and product P62617 P62617 2.3 X-RAY DIFFRACTION 80 1.0 511693 (Escherichia coli BL21) 511693 (Escherichia coli BL21) 157 158 1gx1-a1-m1-cA_1gx1-a1-m1-cB 1gx1-a1-m1-cA_1gx1-a1-m1-cC 1gx1-a1-m1-cB_1gx1-a1-m1-cC 1h47-a1-m1-cA_1h47-a1-m1-cB 1h47-a1-m1-cA_1h47-a1-m1-cC 1h47-a1-m1-cC_1h47-a1-m1-cB 1h47-a2-m1-cD_1h47-a2-m1-cE 1h47-a2-m1-cD_1h47-a2-m1-cF 1h47-a2-m1-cF_1h47-a2-m1-cE 1h48-a1-m1-cA_1h48-a1-m1-cC 1h48-a1-m1-cB_1h48-a1-m1-cC 1h48-a2-m1-cD_1h48-a2-m1-cF 1h48-a2-m1-cE_1h48-a2-m1-cD 1h48-a2-m1-cE_1h48-a2-m1-cF 1jy8-a1-m1-cA_1jy8-a1-m2-cA 1jy8-a1-m1-cA_1jy8-a1-m3-cA 1jy8-a1-m2-cA_1jy8-a1-m3-cA 1knj-a1-m1-cA_1knj-a1-m2-cA 1knj-a1-m1-cA_1knj-a1-m3-cA 1knj-a1-m2-cA_1knj-a1-m3-cA 1knk-a1-m1-cA_1knk-a1-m2-cA 1knk-a1-m1-cA_1knk-a1-m3-cA 1knk-a1-m2-cA_1knk-a1-m3-cA 1u3l-a1-m1-cA_1u3l-a1-m2-cA 1u3l-a1-m1-cA_1u3l-a1-m3-cA 1u3l-a1-m2-cA_1u3l-a1-m3-cA 1u3p-a1-m1-cA_1u3p-a1-m2-cA 1u3p-a1-m1-cA_1u3p-a1-m3-cA 1u3p-a1-m2-cA_1u3p-a1-m3-cA 1u40-a1-m1-cA_1u40-a1-m2-cA 1u40-a1-m1-cA_1u40-a1-m3-cA 1u40-a1-m2-cA_1u40-a1-m3-cA 1u43-a1-m1-cA_1u43-a1-m2-cA 1u43-a1-m1-cA_1u43-a1-m3-cA 1u43-a1-m2-cA_1u43-a1-m3-cA 1yqn-a1-m1-cA_1yqn-a1-m2-cA 1yqn-a1-m1-cA_1yqn-a1-m3-cA 1yqn-a1-m2-cA_1yqn-a1-m3-cA 2amt-a1-m1-cA_2amt-a1-m1-cB 2amt-a1-m1-cA_2amt-a1-m1-cC 2amt-a1-m1-cB_2amt-a1-m1-cC 2amt-a2-m1-cD_2amt-a2-m1-cE 2amt-a2-m1-cD_2amt-a2-m1-cF 2amt-a2-m1-cE_2amt-a2-m1-cF 2gzl-a1-m1-cA_2gzl-a1-m2-cA 2gzl-a1-m1-cA_2gzl-a1-m3-cA 2gzl-a1-m2-cA_2gzl-a1-m3-cA 3elc-a1-m1-cA_3elc-a1-m1-cB 3elc-a1-m1-cA_3elc-a1-m1-cC 3elc-a1-m1-cB_3elc-a1-m1-cC 3eor-a1-m1-cA_3eor-a1-m2-cA 3eor-a1-m1-cA_3eor-a1-m3-cA 3eor-a1-m2-cA_3eor-a1-m3-cA 3ern-a1-m1-cA_3ern-a1-m1-cB 3ern-a1-m1-cC_3ern-a1-m1-cA 3ern-a1-m1-cC_3ern-a1-m1-cB 3ern-a2-m1-cD_3ern-a2-m1-cE 3ern-a2-m1-cF_3ern-a2-m1-cD 3ern-a2-m1-cF_3ern-a2-m1-cE 3esj-a1-m1-cA_3esj-a1-m2-cA 3esj-a1-m1-cA_3esj-a1-m3-cA 3esj-a1-m2-cA_3esj-a1-m3-cA 3fba-a1-m1-cA_3fba-a1-m2-cA 3fba-a1-m1-cA_3fba-a1-m3-cA 3fba-a1-m2-cA_3fba-a1-m3-cA 3ghz-a1-m1-cA_3ghz-a1-m1-cC 3ghz-a1-m1-cB_3ghz-a1-m1-cA 3ghz-a1-m1-cB_3ghz-a1-m1-cC 3t80-a1-m1-cB_3t80-a1-m1-cA 3t80-a1-m1-cB_3t80-a1-m1-cC 3t80-a1-m1-cC_3t80-a1-m1-cA 3t80-a2-m1-cD_3t80-a2-m1-cE 3t80-a2-m1-cF_3t80-a2-m1-cD 3t80-a2-m1-cF_3t80-a2-m1-cE EMRIGHGFDVHAFGGEGPIIIGGVRIPYEKGLLAHSDGDVALHALTDALLGAAALGDIGKLFPDTDPAFKGADSRELLREAWRRIQAKGYTLGNVDVTIIAQAPKMLPHIPQMRVFIAEDLGCHMDDVNVKATTTEKLGFTGRGEGIACEAVALLIK LEMRIGHGFDVHAFGGEGPIIIGGVRIPYEKGLLAHSDGDVALHALTDALLGAAALGDIGKLFPDTDPAFKGADSRELLREAWRRIQAKGYTLGNVDVTIIAQAPKMLPHIPQMRVFIAEDLGCHMDDVNVKATTTEKLGFTGRGEGIACEAVALLIK 1h4r-a1-m1-cA_1h4r-a1-m1-cB Crystal Structure of the FERM domain of Merlin, the Neurofibromatosis 2 Tumor Suppressor Protein. P35240 P35240 1.8 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 KTFTVRIVTMDAEMEFNCEMKWKGKDLFDLVCRTLGLRETWFFGLQYTIKDTVAWLKMDKKVLDHDVSKEEPVTFHFLAKFYPENAEEELVQEITQHLFFLQVKKQILDEKIYCPPEASVLLASYAVQAKYGDYDPSVHKRGFLAQEELLPKRVINLYQMTPEMWEERITAWYAEHRGRARDEAEMEYLKIAQDLEMYGVNYFAIRNKKGTELLLGVDALGLHIYDPENRLTPKISFPWNEIRNISYSDKEFTIKPLDKKIDVFKFNSSKLRVNKLILQLCIGNHDLFMRRRKA KTFTVRIVTMDAEMEFNCEMKWKGKDLFDLVCRTLGLRETWFFGLQYTIKDTVAWLKMDKKVLDHDVSKEEPVTFHFLAKFYPENAEEELVQEITQHLFFLQVKKQILDEKIYCPPEASVLLASYAVQAKYGDYDPSVHKRGFLAQEELLPKRVINLYQMTPEMWEERITAWYAEHRGRARDEAEMEYLKIAQDLEMYGVNYFAIRNKKGTELLLGVDALGLHIYDPENRLTPKISFPWNEIRNISYSDKEFTIKPLDKKIDVFKFNSSKLRVNKLILQLCIGNHDLFMRRRKA 1h54-a1-m1-cA_1h54-a1-m1-cB Maltose phosphorylase from Lactobacillus brevis Q7SIE1 Q7SIE1 2.15 X-RAY DIFFRACTION 125 1.0 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 752 754 MKRIFEVQPWNVITHTFDPKDKRLQESMTSLGNGYMGMRGDFEEGYSGDSLQGIYLGGVWYPDKTRVGWWKNGYPKYFGKVVNAVNFIKLPIEINGEPVDLAKDKISDFTLDLDMHQGVLNRSFVVERGAVRVALNFQRFLSVAQPELSVQKVTVKNLSDAEVDVTLKPSIDADVMNEEANYDRFWDVLATDQQADRGSIVAKTTPNPFGTPRFTSGMEMRLVTDLKNVAITQPNEKEVTTAYTGKLAPQASAELEKRVIVVTSRDYDTQESLTAAMHQLSDKVAQSSYEDLLNAHTAIWAQRWEKSDVVIKGDDESQQGIRFNLFQLFSTYYGEDARLNIGPKGFTGEKYGGATYWDTEAFAFPVYLGITDPKVTRNLLMYRYKQLDGAYINAQEQGLKGALFPMVTFDGIECHNEWEITFEEIHRNGDIAFAIYNYTRYTGDDSYVLHEGAKVLTEISRFWADRVHFSKRNNQYMIHGVTGADEYENNVDNNWDTNMLAQWTLKYTLEILGKVDQDTAKQLDVSDEEKTKWQDIVDRMYLPYDKDLNIFVQHDGFLDKDIEPVSSIPADQRPINQNWSWDKILRSPYIKQGDVLQGIWDFIDDYTPEQKKANFDFYEPLTVHESSLSPAIHSVLAADLHYEDKAVELYSRTARLDLDNYNNDTTDGLHITSMTGAWIAVVQGFAGMRVRDGQLHYAPFLPKTWTSYTFRQVFRDRLIEVSVHADGPHFKLLSGEPLTIDVAGAAAAAAAA MKRIFEVQPWNVITHTFDPKDKRLQESMTSLGNGYMGMRGDFEEGYSGDSLQGIYLGGVWYPDKTRVGWWKNGYPKYFGKVVNAVNFIKLPIEINGEPVDLAKDKISDFTLDLDMHQGVLNRSFVVERGAVRVALNFQRFLSVAQPELSVQKVTVKNLSDAEVDVTLKPSIDADVMNEEANYDERFWDVLATDQQADRGSIVAKTTPNPFGTPRFTSGMEMRLVTDLKNVAITQPNEKEVTTAYTGKLAPQASAELEKRVIVVTSRDYDTQESLTAAMHQLSDKVAQSSYEDLLNAHTAIWAQRWEKSDVVIKGDDESQQGIRFNLFQLFSTYYGEDARLNIGPKGFTGEKYGGATYWDTEAFAFPVYLGITDPKVTRNLLMYRYKQLDGAYINAQEQGLKGALFPMVTFDGIECHNEWEITFEEIHRNGDIAFAIYNYTRYTGDDSYVLHEGAKVLTEISRFWADRVHFSKRNNQYMIHGVTGADEYENNVDNNWDTNMLAQWTLKYTLEILGKVDQDTAKQLDVSDEEKTKWQDIVDRMYLPYDKDLNIFVQHDGFLDKDIEPVSSIPADQRPINQNWSWDKILRSPYIKQGDVLQGIWDFIDDYTPEQKKANFDFYEPLTVHESSLSPAIHSVLAADLHYEDKAVELYSRTARLDLDNYNNDTTDGLHITSMTGAWIAVVQGFAGMRVRDGQLHYAPFLPKTWTSYTFRQVFRDRLIEVSVHADGPHFKLLSGEPLTIDVAGAAAAAAAAA 1h5b-a2-m1-cD_1h5b-a2-m1-cC T cell receptor Valpha11 (AV11S5) domain 1.85 X-RAY DIFFRACTION 44 0.991 10090 (Mus musculus) 10090 (Mus musculus) 111 113 GDQVEQSPSALSLHEGTDSALRCNFTTTMRSVQWFRQNSRGSLISLFYLASGTKENGRLKSAFDSKERRYSTLHIRDAQLEDSGTYFCAAEASSGAWQLIFGSGTQLTVMP GDQVEQSPSALSLHEGTDSALRCNFTTTMRSVQWFRQNSRGSLISLFYLASGTKENGRLKSAFDSKERRYSTLHIRDAQLEDSGTYFCAAEASSGSWQLIFGSGTQLTVMPVT 1h6f-a1-m1-cA_1h6f-a1-m1-cB Human TBX3, a transcription factor responsible for ulnar-mammary syndrome, bound to a palindromic DNA site O15119 O15119 1.7 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 186 DPKVHLEAKELWDQFHKRGTEMVITKSGRRMFPPFKVRCSGLDKKAKYILLMDIIAADDCRYKFHNSRWMVAGKADPEMPKRMYIHPDSPATGEQWMSKVVTFHKLKLTNNISDKHGFTILNSMHKYQPRFHIVRANDILKLPYSTFRTYLFPETEFIAVTAYQNDKITQLKIDNNPFAKGFRD KDDPKVHLEAKELWDQFHKRGTEMVITKSGRRMFPPFKVRCSGLDKKAKYILLMDIIAADDCRYKFHNSRWMVAGKADPEMPKRMYIHPDSPATGEQWMSKVVTFHKLKLTNNISDKHGFTILNSMHKYQPRFHIVRANDILKLPYSTFRTYLFPETEFIAVTAYQNDKITQLKIDNNPFAKGFRD 1h6u-a1-m1-cA_1h6u-a1-m2-cA Internalin H: crystal structure of fused N-terminal domains. Q9ZEY1 Q9ZEY1 1.8 X-RAY DIFFRACTION 67 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 308 308 GSITQPTAINVIFPDPALANAIKIAAGKSNVTDTVTQADLDGITTLSAFGTGVTTIEGVQYLNNLIGLELKDNQITDLAPLKNLTKITELELSGNPLKNVSAIAGLQSIKTLDLTSTQITDVTPLAGLSNLQVLYLDLNQITNISPLAGLTNLQYLSIGNAQVSDLTPLANLSKLTTLKADDNKISDISPLASLPNLIEVHLKNNQISDVSPLANTSNLFIVTLTNQTITNQPVFYNNNLVVPNVVKGPSGAPIAPATISDNGTYASPNLTWNLTSFINNVSYTFNQSVTFKNTTVPFSGTVTQPLTE GSITQPTAINVIFPDPALANAIKIAAGKSNVTDTVTQADLDGITTLSAFGTGVTTIEGVQYLNNLIGLELKDNQITDLAPLKNLTKITELELSGNPLKNVSAIAGLQSIKTLDLTSTQITDVTPLAGLSNLQVLYLDLNQITNISPLAGLTNLQYLSIGNAQVSDLTPLANLSKLTTLKADDNKISDISPLASLPNLIEVHLKNNQISDVSPLANTSNLFIVTLTNQTITNQPVFYNNNLVVPNVVKGPSGAPIAPATISDNGTYASPNLTWNLTSFINNVSYTFNQSVTFKNTTVPFSGTVTQPLTE 1h7e-a1-m1-cB_1h7e-a1-m1-cA The structure of CMP:2-keto-3-deoxy-manno-octonic acid synthetase and of its complexes with substrates and substrate analogues, Apo-enzyme P42216 P42216 1.83 X-RAY DIFFRACTION 110 1.0 562 (Escherichia coli) 562 (Escherichia coli) 241 245 1gq9-a1-m1-cA_1gq9-a1-m1-cB 1gqc-a1-m1-cB_1gqc-a1-m1-cA 1h6j-a1-m1-cA_1h6j-a1-m1-cB 1h7f-a1-m1-cB_1h7f-a1-m1-cA 1h7g-a1-m1-cB_1h7g-a1-m1-cA 1h7h-a1-m1-cB_1h7h-a1-m1-cA 1h7t-a1-m1-cB_1h7t-a1-m1-cA SKAVIVIPARYGSSRLPGKPLLDIVGKPMIQHVYERALQVAGVAEVWVATDDPRVEQAVQAFGGKAIMTRNDHESGTDRLVEVMHKVEADIYINLQGDEPMIRPRDVETLLQGMRDDPALPVATLCHAISAAEAAEPSTVKVVVNTRQDALYFSRSPIPYPRNAEKARYLKHVGIYAYRRDVLQNYSQLPESMPEQAESLEQLRLMNAGINIRTFEVAATGPGVDTPACLEKVRALMAQEL SKAVIVIPARYGSSRLPGKPLLDIVGKPMIQHVYERALQVAGVAEVWVATDDPRVEQAVQAFGGKAIMTRNDHESGTDRLVEVMHKVEADIYINLQGDEPMIRPRDVETLLQGMRDDPALPVATLCHAISAAEAAEPSTVKVVVNTRQDALYFSRSPIPYPRNAEKARYLKHVGIYAYRRDVLQNYSQLPESMPEQAESLEQLRLMNAGINIRTFEVAATGPGVDTPACLEKVRALMAQELAENA 1h83-a1-m1-cA_1h83-a1-m1-cB STRUCTURE OF POLYAMINE OXIDASE IN COMPLEX WITH 1,8-DIAMINOOCTANE O64411 O64411 1.9 X-RAY DIFFRACTION 91 1.0 4577 (Zea mays) 4577 (Zea mays) 459 462 1b37-a4-m1-cA_1b37-a4-m1-cB 1b37-a4-m2-cA_1b37-a4-m2-cB 1b37-a4-m3-cC_1b37-a4-m4-cC 1b37-a5-m1-cA_1b37-a5-m1-cB 1b37-a6-m1-cC_1b37-a6-m5-cC 1b5q-a1-m1-cA_1b5q-a1-m1-cB 1b5q-a1-m2-cA_1b5q-a1-m2-cB 1b5q-a1-m3-cC_1b5q-a1-m4-cC 1b5q-a2-m1-cC_1b5q-a2-m5-cC 1b5q-a3-m1-cA_1b5q-a3-m1-cB 1h81-a1-m1-cA_1h81-a1-m1-cB 1h81-a2-m1-cC_1h81-a2-m2-cC 1h82-a1-m1-cA_1h82-a1-m1-cB 1h82-a2-m1-cC_1h82-a2-m2-cC 1h83-a2-m1-cC_1h83-a2-m2-cC 1h84-a1-m1-cA_1h84-a1-m1-cB 1h84-a2-m1-cC_1h84-a2-m2-cC 1h86-a1-m1-cA_1h86-a1-m1-cB 1h86-a2-m1-cC_1h86-a2-m2-cC 3kpf-a3-m1-cB_3kpf-a3-m1-cA 3ku9-a3-m1-cB_3ku9-a3-m1-cA 3l1r-a3-m1-cB_3l1r-a3-m1-cA PRVIVVGAGMSGISAAKRLSEAGITDLLILEATDHIGGRMHKTNFAGINVELGANWVEGVNGGKMNPIWPIVNSTLKLRNFRSDFDYLAQNVYKEDGGVYDEDYVQKRIELADSVEEMGEKLSATLHASGRDDMSILAMQRLNEHQPNGPATPVDMVVDYYKFDYEFAEPPRVTSLQNTVPLATFSDFGDDVYFVADQRGYEAVVYYLAGQYLKTDDKSGKIVDPRLQLNKVVREIKYSPGGVTVKTEDNSVYSADYVMVSASLGVLQSDLIQFKPKLPTWKVRAIYQFDMAVYTKIFLKFPRKFWPEGKGREFFLYASSRRGYYGVWQEFEKQYPDANVLLVTVTDEESRRIEQQSDEQTKAEIMQVLRKMFPGKDVPDATDILVPRWWSDRFYKGTFSNWPVGVNRYEYDQLRAPVGRVYFTGEHTSEHYNGYVHGAYLSGIDSAEILINCAQKKMC PRVIVVGAGMSGISAAKRLSEAGITDLLILEATDHIGGRMHKTNFAGINVELGANWVEGVNGGKMNPIWPIVNSTLKLRNFRSDFDYLAQNVYKEDGGVYDEDYVQKRIELADSVEEMGEKLSATLHASGRDDMSILAMQRLNEHQPNGPATPVDMVVDYYKFDYEFAEPPRVTSLQNTVPLATFSDFGDDVYFVADQRGYEAVVYYLAGQYLKTDDKSGKIVDPRLQLNKVVREIKYSPGGVTVKTEDNSVYSADYVMVSASLGVLQSDLIQFKPKLPTWKVRAIYQFDMAVYTKIFLKFPRKFWPEGKGREFFLYASSRRGYYGVWQEFEKQYPDANVLLVTVTDEESRRIEQQSDEQTKAEIMQVLRKMFPGKDVPDATDILVPRWWSDRFYKGTFSNWPVGVNRYEYDQLRAPVGRVYFTGEHTSEHYNGYVHGAYLSGIDSAEILINCAQKKMCKYH 1h8p-a1-m1-cA_1h8p-a1-m2-cB Bull seminal plasma PDC-109 fibronectin type II module P02784 P02784 1.82 X-RAY DIFFRACTION 21 1.0 9913 (Bos taurus) 9913 (Bos taurus) 88 88 1h8p-a1-m1-cB_1h8p-a1-m2-cA EECVFPFVYRNRKHFDCTVHGSLFPWCSLDADYVGRWKYCAQRDYAKCVFPFIYGGKKYETCTKIGSMWMSWCSLSPNYDKDRAWKYC EECVFPFVYRNRKHFDCTVHGSLFPWCSLDADYVGRWKYCAQRDYAKCVFPFIYGGKKYETCTKIGSMWMSWCSLSPNYDKDRAWKYC 1h8p-a1-m2-cA_1h8p-a1-m2-cB Bull seminal plasma PDC-109 fibronectin type II module P02784 P02784 1.82 X-RAY DIFFRACTION 19 1.0 9913 (Bos taurus) 9913 (Bos taurus) 88 88 1h8p-a1-m1-cA_1h8p-a1-m1-cB EECVFPFVYRNRKHFDCTVHGSLFPWCSLDADYVGRWKYCAQRDYAKCVFPFIYGGKKYETCTKIGSMWMSWCSLSPNYDKDRAWKYC EECVFPFVYRNRKHFDCTVHGSLFPWCSLDADYVGRWKYCAQRDYAKCVFPFIYGGKKYETCTKIGSMWMSWCSLSPNYDKDRAWKYC 1h8t-a1-m8-cA_1h8t-a1-m9-cA Echovirus 11 Q8JKE8 Q8JKE8 2.9 X-RAY DIFFRACTION 97 1.0 12078 (Echovirus E11) 12078 (Echovirus E11) 289 289 1h8t-a1-m10-cA_1h8t-a1-m6-cA 1h8t-a1-m10-cA_1h8t-a1-m9-cA 1h8t-a1-m11-cA_1h8t-a1-m12-cA 1h8t-a1-m11-cA_1h8t-a1-m15-cA 1h8t-a1-m12-cA_1h8t-a1-m13-cA 1h8t-a1-m13-cA_1h8t-a1-m14-cA 1h8t-a1-m14-cA_1h8t-a1-m15-cA 1h8t-a1-m16-cA_1h8t-a1-m17-cA 1h8t-a1-m16-cA_1h8t-a1-m20-cA 1h8t-a1-m17-cA_1h8t-a1-m18-cA 1h8t-a1-m18-cA_1h8t-a1-m19-cA 1h8t-a1-m19-cA_1h8t-a1-m20-cA 1h8t-a1-m1-cA_1h8t-a1-m2-cA 1h8t-a1-m1-cA_1h8t-a1-m5-cA 1h8t-a1-m21-cA_1h8t-a1-m22-cA 1h8t-a1-m21-cA_1h8t-a1-m25-cA 1h8t-a1-m22-cA_1h8t-a1-m23-cA 1h8t-a1-m23-cA_1h8t-a1-m24-cA 1h8t-a1-m24-cA_1h8t-a1-m25-cA 1h8t-a1-m26-cA_1h8t-a1-m27-cA 1h8t-a1-m26-cA_1h8t-a1-m30-cA 1h8t-a1-m27-cA_1h8t-a1-m28-cA 1h8t-a1-m28-cA_1h8t-a1-m29-cA 1h8t-a1-m29-cA_1h8t-a1-m30-cA 1h8t-a1-m2-cA_1h8t-a1-m3-cA 1h8t-a1-m31-cA_1h8t-a1-m32-cA 1h8t-a1-m31-cA_1h8t-a1-m35-cA 1h8t-a1-m32-cA_1h8t-a1-m33-cA 1h8t-a1-m33-cA_1h8t-a1-m34-cA 1h8t-a1-m34-cA_1h8t-a1-m35-cA 1h8t-a1-m36-cA_1h8t-a1-m37-cA 1h8t-a1-m36-cA_1h8t-a1-m40-cA 1h8t-a1-m37-cA_1h8t-a1-m38-cA 1h8t-a1-m38-cA_1h8t-a1-m39-cA 1h8t-a1-m39-cA_1h8t-a1-m40-cA 1h8t-a1-m3-cA_1h8t-a1-m4-cA 1h8t-a1-m41-cA_1h8t-a1-m42-cA 1h8t-a1-m41-cA_1h8t-a1-m45-cA 1h8t-a1-m42-cA_1h8t-a1-m43-cA 1h8t-a1-m43-cA_1h8t-a1-m44-cA 1h8t-a1-m44-cA_1h8t-a1-m45-cA 1h8t-a1-m46-cA_1h8t-a1-m47-cA 1h8t-a1-m46-cA_1h8t-a1-m50-cA 1h8t-a1-m47-cA_1h8t-a1-m48-cA 1h8t-a1-m48-cA_1h8t-a1-m49-cA 1h8t-a1-m49-cA_1h8t-a1-m50-cA 1h8t-a1-m4-cA_1h8t-a1-m5-cA 1h8t-a1-m51-cA_1h8t-a1-m52-cA 1h8t-a1-m51-cA_1h8t-a1-m55-cA 1h8t-a1-m52-cA_1h8t-a1-m53-cA 1h8t-a1-m53-cA_1h8t-a1-m54-cA 1h8t-a1-m54-cA_1h8t-a1-m55-cA 1h8t-a1-m56-cA_1h8t-a1-m57-cA 1h8t-a1-m56-cA_1h8t-a1-m60-cA 1h8t-a1-m57-cA_1h8t-a1-m58-cA 1h8t-a1-m58-cA_1h8t-a1-m59-cA 1h8t-a1-m59-cA_1h8t-a1-m60-cA 1h8t-a1-m6-cA_1h8t-a1-m7-cA 1h8t-a1-m7-cA_1h8t-a1-m8-cA 1upn-a1-m10-cA_1upn-a1-m6-cA 1upn-a1-m10-cA_1upn-a1-m9-cA 1upn-a1-m11-cA_1upn-a1-m12-cA 1upn-a1-m11-cA_1upn-a1-m15-cA 1upn-a1-m12-cA_1upn-a1-m13-cA 1upn-a1-m13-cA_1upn-a1-m14-cA 1upn-a1-m14-cA_1upn-a1-m15-cA 1upn-a1-m16-cA_1upn-a1-m17-cA 1upn-a1-m16-cA_1upn-a1-m20-cA 1upn-a1-m17-cA_1upn-a1-m18-cA 1upn-a1-m18-cA_1upn-a1-m19-cA 1upn-a1-m19-cA_1upn-a1-m20-cA 1upn-a1-m1-cA_1upn-a1-m2-cA 1upn-a1-m1-cA_1upn-a1-m5-cA 1upn-a1-m21-cA_1upn-a1-m22-cA 1upn-a1-m21-cA_1upn-a1-m25-cA 1upn-a1-m22-cA_1upn-a1-m23-cA 1upn-a1-m23-cA_1upn-a1-m24-cA 1upn-a1-m24-cA_1upn-a1-m25-cA 1upn-a1-m26-cA_1upn-a1-m27-cA 1upn-a1-m26-cA_1upn-a1-m30-cA 1upn-a1-m27-cA_1upn-a1-m28-cA 1upn-a1-m28-cA_1upn-a1-m29-cA 1upn-a1-m29-cA_1upn-a1-m30-cA 1upn-a1-m2-cA_1upn-a1-m3-cA 1upn-a1-m31-cA_1upn-a1-m32-cA 1upn-a1-m31-cA_1upn-a1-m35-cA 1upn-a1-m32-cA_1upn-a1-m33-cA 1upn-a1-m33-cA_1upn-a1-m34-cA 1upn-a1-m34-cA_1upn-a1-m35-cA 1upn-a1-m36-cA_1upn-a1-m37-cA 1upn-a1-m36-cA_1upn-a1-m40-cA 1upn-a1-m37-cA_1upn-a1-m38-cA 1upn-a1-m38-cA_1upn-a1-m39-cA 1upn-a1-m39-cA_1upn-a1-m40-cA 1upn-a1-m3-cA_1upn-a1-m4-cA 1upn-a1-m41-cA_1upn-a1-m42-cA 1upn-a1-m41-cA_1upn-a1-m45-cA 1upn-a1-m42-cA_1upn-a1-m43-cA 1upn-a1-m43-cA_1upn-a1-m44-cA 1upn-a1-m44-cA_1upn-a1-m45-cA 1upn-a1-m46-cA_1upn-a1-m47-cA 1upn-a1-m46-cA_1upn-a1-m50-cA 1upn-a1-m47-cA_1upn-a1-m48-cA 1upn-a1-m48-cA_1upn-a1-m49-cA 1upn-a1-m49-cA_1upn-a1-m50-cA 1upn-a1-m4-cA_1upn-a1-m5-cA 1upn-a1-m51-cA_1upn-a1-m52-cA 1upn-a1-m51-cA_1upn-a1-m55-cA 1upn-a1-m52-cA_1upn-a1-m53-cA 1upn-a1-m53-cA_1upn-a1-m54-cA 1upn-a1-m54-cA_1upn-a1-m55-cA 1upn-a1-m56-cA_1upn-a1-m57-cA 1upn-a1-m56-cA_1upn-a1-m60-cA 1upn-a1-m57-cA_1upn-a1-m58-cA 1upn-a1-m58-cA_1upn-a1-m59-cA 1upn-a1-m59-cA_1upn-a1-m60-cA 1upn-a1-m6-cA_1upn-a1-m7-cA 1upn-a1-m7-cA_1upn-a1-m8-cA 1upn-a1-m8-cA_1upn-a1-m9-cA 2c8i-a1-m10-cA_2c8i-a1-m6-cA 2c8i-a1-m10-cA_2c8i-a1-m9-cA 2c8i-a1-m11-cA_2c8i-a1-m12-cA 2c8i-a1-m11-cA_2c8i-a1-m15-cA 2c8i-a1-m12-cA_2c8i-a1-m13-cA 2c8i-a1-m13-cA_2c8i-a1-m14-cA 2c8i-a1-m14-cA_2c8i-a1-m15-cA 2c8i-a1-m16-cA_2c8i-a1-m17-cA 2c8i-a1-m16-cA_2c8i-a1-m20-cA 2c8i-a1-m17-cA_2c8i-a1-m18-cA 2c8i-a1-m18-cA_2c8i-a1-m19-cA 2c8i-a1-m19-cA_2c8i-a1-m20-cA 2c8i-a1-m1-cA_2c8i-a1-m2-cA 2c8i-a1-m1-cA_2c8i-a1-m5-cA 2c8i-a1-m21-cA_2c8i-a1-m22-cA 2c8i-a1-m21-cA_2c8i-a1-m25-cA 2c8i-a1-m22-cA_2c8i-a1-m23-cA 2c8i-a1-m23-cA_2c8i-a1-m24-cA 2c8i-a1-m24-cA_2c8i-a1-m25-cA 2c8i-a1-m26-cA_2c8i-a1-m27-cA 2c8i-a1-m26-cA_2c8i-a1-m30-cA 2c8i-a1-m27-cA_2c8i-a1-m28-cA 2c8i-a1-m28-cA_2c8i-a1-m29-cA 2c8i-a1-m29-cA_2c8i-a1-m30-cA 2c8i-a1-m2-cA_2c8i-a1-m3-cA 2c8i-a1-m31-cA_2c8i-a1-m32-cA 2c8i-a1-m31-cA_2c8i-a1-m35-cA 2c8i-a1-m32-cA_2c8i-a1-m33-cA 2c8i-a1-m33-cA_2c8i-a1-m34-cA 2c8i-a1-m34-cA_2c8i-a1-m35-cA 2c8i-a1-m36-cA_2c8i-a1-m37-cA 2c8i-a1-m36-cA_2c8i-a1-m40-cA 2c8i-a1-m37-cA_2c8i-a1-m38-cA 2c8i-a1-m38-cA_2c8i-a1-m39-cA 2c8i-a1-m39-cA_2c8i-a1-m40-cA 2c8i-a1-m3-cA_2c8i-a1-m4-cA 2c8i-a1-m41-cA_2c8i-a1-m42-cA 2c8i-a1-m41-cA_2c8i-a1-m45-cA 2c8i-a1-m42-cA_2c8i-a1-m43-cA 2c8i-a1-m43-cA_2c8i-a1-m44-cA 2c8i-a1-m44-cA_2c8i-a1-m45-cA 2c8i-a1-m46-cA_2c8i-a1-m47-cA 2c8i-a1-m46-cA_2c8i-a1-m50-cA 2c8i-a1-m47-cA_2c8i-a1-m48-cA 2c8i-a1-m48-cA_2c8i-a1-m49-cA 2c8i-a1-m49-cA_2c8i-a1-m50-cA 2c8i-a1-m4-cA_2c8i-a1-m5-cA 2c8i-a1-m51-cA_2c8i-a1-m52-cA 2c8i-a1-m51-cA_2c8i-a1-m55-cA 2c8i-a1-m52-cA_2c8i-a1-m53-cA 2c8i-a1-m53-cA_2c8i-a1-m54-cA 2c8i-a1-m54-cA_2c8i-a1-m55-cA 2c8i-a1-m56-cA_2c8i-a1-m57-cA 2c8i-a1-m56-cA_2c8i-a1-m60-cA 2c8i-a1-m57-cA_2c8i-a1-m58-cA 2c8i-a1-m58-cA_2c8i-a1-m59-cA 2c8i-a1-m59-cA_2c8i-a1-m60-cA 2c8i-a1-m6-cA_2c8i-a1-m7-cA 2c8i-a1-m7-cA_2c8i-a1-m8-cA 2c8i-a1-m8-cA_2c8i-a1-m9-cA 6la3-a1-m10-cA_6la3-a1-m6-cA 6la3-a1-m10-cA_6la3-a1-m9-cA 6la3-a1-m11-cA_6la3-a1-m12-cA 6la3-a1-m11-cA_6la3-a1-m15-cA 6la3-a1-m12-cA_6la3-a1-m13-cA 6la3-a1-m13-cA_6la3-a1-m14-cA 6la3-a1-m14-cA_6la3-a1-m15-cA 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6lap-a1-m41-cA_6lap-a1-m45-cA 6lap-a1-m42-cA_6lap-a1-m43-cA 6lap-a1-m43-cA_6lap-a1-m44-cA 6lap-a1-m44-cA_6lap-a1-m45-cA 6lap-a1-m46-cA_6lap-a1-m47-cA 6lap-a1-m46-cA_6lap-a1-m50-cA 6lap-a1-m47-cA_6lap-a1-m48-cA 6lap-a1-m48-cA_6lap-a1-m49-cA 6lap-a1-m49-cA_6lap-a1-m50-cA 6lap-a1-m4-cA_6lap-a1-m5-cA 6lap-a1-m51-cA_6lap-a1-m52-cA 6lap-a1-m51-cA_6lap-a1-m55-cA 6lap-a1-m52-cA_6lap-a1-m53-cA 6lap-a1-m53-cA_6lap-a1-m54-cA 6lap-a1-m54-cA_6lap-a1-m55-cA 6lap-a1-m56-cA_6lap-a1-m57-cA 6lap-a1-m56-cA_6lap-a1-m60-cA 6lap-a1-m57-cA_6lap-a1-m58-cA 6lap-a1-m58-cA_6lap-a1-m59-cA 6lap-a1-m59-cA_6lap-a1-m60-cA 6lap-a1-m6-cA_6lap-a1-m7-cA 6lap-a1-m7-cA_6lap-a1-m8-cA 6lap-a1-m8-cA_6lap-a1-m9-cA 6lb1-a1-m10-cA_6lb1-a1-m6-cA 6lb1-a1-m10-cA_6lb1-a1-m9-cA 6lb1-a1-m11-cA_6lb1-a1-m12-cA 6lb1-a1-m11-cA_6lb1-a1-m15-cA 6lb1-a1-m12-cA_6lb1-a1-m13-cA 6lb1-a1-m13-cA_6lb1-a1-m14-cA 6lb1-a1-m14-cA_6lb1-a1-m15-cA 6lb1-a1-m16-cA_6lb1-a1-m17-cA 6lb1-a1-m16-cA_6lb1-a1-m20-cA 6lb1-a1-m17-cA_6lb1-a1-m18-cA 6lb1-a1-m18-cA_6lb1-a1-m19-cA 6lb1-a1-m19-cA_6lb1-a1-m20-cA 6lb1-a1-m1-cA_6lb1-a1-m2-cA 6lb1-a1-m1-cA_6lb1-a1-m5-cA 6lb1-a1-m21-cA_6lb1-a1-m22-cA 6lb1-a1-m21-cA_6lb1-a1-m25-cA 6lb1-a1-m22-cA_6lb1-a1-m23-cA 6lb1-a1-m23-cA_6lb1-a1-m24-cA 6lb1-a1-m24-cA_6lb1-a1-m25-cA 6lb1-a1-m26-cA_6lb1-a1-m27-cA 6lb1-a1-m26-cA_6lb1-a1-m30-cA 6lb1-a1-m27-cA_6lb1-a1-m28-cA 6lb1-a1-m28-cA_6lb1-a1-m29-cA 6lb1-a1-m29-cA_6lb1-a1-m30-cA 6lb1-a1-m2-cA_6lb1-a1-m3-cA 6lb1-a1-m31-cA_6lb1-a1-m32-cA 6lb1-a1-m31-cA_6lb1-a1-m35-cA 6lb1-a1-m32-cA_6lb1-a1-m33-cA 6lb1-a1-m33-cA_6lb1-a1-m34-cA 6lb1-a1-m34-cA_6lb1-a1-m35-cA 6lb1-a1-m36-cA_6lb1-a1-m37-cA 6lb1-a1-m36-cA_6lb1-a1-m40-cA 6lb1-a1-m37-cA_6lb1-a1-m38-cA 6lb1-a1-m38-cA_6lb1-a1-m39-cA 6lb1-a1-m39-cA_6lb1-a1-m40-cA 6lb1-a1-m3-cA_6lb1-a1-m4-cA 6lb1-a1-m41-cA_6lb1-a1-m42-cA 6lb1-a1-m41-cA_6lb1-a1-m45-cA 6lb1-a1-m42-cA_6lb1-a1-m43-cA 6lb1-a1-m43-cA_6lb1-a1-m44-cA 6lb1-a1-m44-cA_6lb1-a1-m45-cA 6lb1-a1-m46-cA_6lb1-a1-m47-cA 6lb1-a1-m46-cA_6lb1-a1-m50-cA 6lb1-a1-m47-cA_6lb1-a1-m48-cA 6lb1-a1-m48-cA_6lb1-a1-m49-cA 6lb1-a1-m49-cA_6lb1-a1-m50-cA 6lb1-a1-m4-cA_6lb1-a1-m5-cA 6lb1-a1-m51-cA_6lb1-a1-m52-cA 6lb1-a1-m51-cA_6lb1-a1-m55-cA 6lb1-a1-m52-cA_6lb1-a1-m53-cA 6lb1-a1-m53-cA_6lb1-a1-m54-cA 6lb1-a1-m54-cA_6lb1-a1-m55-cA 6lb1-a1-m56-cA_6lb1-a1-m57-cA 6lb1-a1-m56-cA_6lb1-a1-m60-cA 6lb1-a1-m57-cA_6lb1-a1-m58-cA 6lb1-a1-m58-cA_6lb1-a1-m59-cA 6lb1-a1-m59-cA_6lb1-a1-m60-cA 6lb1-a1-m6-cA_6lb1-a1-m7-cA 6lb1-a1-m7-cA_6lb1-a1-m8-cA 6lb1-a1-m8-cA_6lb1-a1-m9-cA 6lbo-a1-m10-cA_6lbo-a1-m6-cA 6lbo-a1-m10-cA_6lbo-a1-m9-cA 6lbo-a1-m11-cA_6lbo-a1-m12-cA 6lbo-a1-m11-cA_6lbo-a1-m15-cA 6lbo-a1-m12-cA_6lbo-a1-m13-cA 6lbo-a1-m13-cA_6lbo-a1-m14-cA 6lbo-a1-m14-cA_6lbo-a1-m15-cA 6lbo-a1-m16-cA_6lbo-a1-m17-cA 6lbo-a1-m16-cA_6lbo-a1-m20-cA 6lbo-a1-m17-cA_6lbo-a1-m18-cA 6lbo-a1-m18-cA_6lbo-a1-m19-cA 6lbo-a1-m19-cA_6lbo-a1-m20-cA 6lbo-a1-m1-cA_6lbo-a1-m2-cA 6lbo-a1-m1-cA_6lbo-a1-m5-cA 6lbo-a1-m21-cA_6lbo-a1-m22-cA 6lbo-a1-m21-cA_6lbo-a1-m25-cA 6lbo-a1-m22-cA_6lbo-a1-m23-cA 6lbo-a1-m23-cA_6lbo-a1-m24-cA 6lbo-a1-m24-cA_6lbo-a1-m25-cA 6lbo-a1-m26-cA_6lbo-a1-m27-cA 6lbo-a1-m26-cA_6lbo-a1-m30-cA 6lbo-a1-m27-cA_6lbo-a1-m28-cA 6lbo-a1-m28-cA_6lbo-a1-m29-cA 6lbo-a1-m29-cA_6lbo-a1-m30-cA 6lbo-a1-m2-cA_6lbo-a1-m3-cA 6lbo-a1-m31-cA_6lbo-a1-m32-cA 6lbo-a1-m31-cA_6lbo-a1-m35-cA 6lbo-a1-m32-cA_6lbo-a1-m33-cA 6lbo-a1-m33-cA_6lbo-a1-m34-cA 6lbo-a1-m34-cA_6lbo-a1-m35-cA 6lbo-a1-m36-cA_6lbo-a1-m37-cA 6lbo-a1-m36-cA_6lbo-a1-m40-cA 6lbo-a1-m37-cA_6lbo-a1-m38-cA 6lbo-a1-m38-cA_6lbo-a1-m39-cA 6lbo-a1-m39-cA_6lbo-a1-m40-cA 6lbo-a1-m3-cA_6lbo-a1-m4-cA 6lbo-a1-m41-cA_6lbo-a1-m42-cA 6lbo-a1-m41-cA_6lbo-a1-m45-cA 6lbo-a1-m42-cA_6lbo-a1-m43-cA 6lbo-a1-m43-cA_6lbo-a1-m44-cA 6lbo-a1-m44-cA_6lbo-a1-m45-cA 6lbo-a1-m46-cA_6lbo-a1-m47-cA 6lbo-a1-m46-cA_6lbo-a1-m50-cA 6lbo-a1-m47-cA_6lbo-a1-m48-cA 6lbo-a1-m48-cA_6lbo-a1-m49-cA 6lbo-a1-m49-cA_6lbo-a1-m50-cA 6lbo-a1-m4-cA_6lbo-a1-m5-cA 6lbo-a1-m51-cA_6lbo-a1-m52-cA 6lbo-a1-m51-cA_6lbo-a1-m55-cA 6lbo-a1-m52-cA_6lbo-a1-m53-cA 6lbo-a1-m53-cA_6lbo-a1-m54-cA 6lbo-a1-m54-cA_6lbo-a1-m55-cA 6lbo-a1-m56-cA_6lbo-a1-m57-cA 6lbo-a1-m56-cA_6lbo-a1-m60-cA 6lbo-a1-m57-cA_6lbo-a1-m58-cA 6lbo-a1-m58-cA_6lbo-a1-m59-cA 6lbo-a1-m59-cA_6lbo-a1-m60-cA 6lbo-a1-m6-cA_6lbo-a1-m7-cA 6lbo-a1-m7-cA_6lbo-a1-m8-cA 6lbo-a1-m8-cA_6lbo-a1-m9-cA 6lbq-a1-m10-cA_6lbq-a1-m6-cA 6lbq-a1-m10-cA_6lbq-a1-m9-cA 6lbq-a1-m11-cA_6lbq-a1-m12-cA 6lbq-a1-m11-cA_6lbq-a1-m15-cA 6lbq-a1-m12-cA_6lbq-a1-m13-cA 6lbq-a1-m13-cA_6lbq-a1-m14-cA 6lbq-a1-m14-cA_6lbq-a1-m15-cA 6lbq-a1-m16-cA_6lbq-a1-m17-cA 6lbq-a1-m16-cA_6lbq-a1-m20-cA 6lbq-a1-m17-cA_6lbq-a1-m18-cA 6lbq-a1-m18-cA_6lbq-a1-m19-cA 6lbq-a1-m19-cA_6lbq-a1-m20-cA 6lbq-a1-m1-cA_6lbq-a1-m2-cA 6lbq-a1-m1-cA_6lbq-a1-m5-cA 6lbq-a1-m21-cA_6lbq-a1-m22-cA 6lbq-a1-m21-cA_6lbq-a1-m25-cA 6lbq-a1-m22-cA_6lbq-a1-m23-cA 6lbq-a1-m23-cA_6lbq-a1-m24-cA 6lbq-a1-m24-cA_6lbq-a1-m25-cA 6lbq-a1-m26-cA_6lbq-a1-m27-cA 6lbq-a1-m26-cA_6lbq-a1-m30-cA 6lbq-a1-m27-cA_6lbq-a1-m28-cA 6lbq-a1-m28-cA_6lbq-a1-m29-cA 6lbq-a1-m29-cA_6lbq-a1-m30-cA 6lbq-a1-m2-cA_6lbq-a1-m3-cA 6lbq-a1-m31-cA_6lbq-a1-m32-cA 6lbq-a1-m31-cA_6lbq-a1-m35-cA 6lbq-a1-m32-cA_6lbq-a1-m33-cA 6lbq-a1-m33-cA_6lbq-a1-m34-cA 6lbq-a1-m34-cA_6lbq-a1-m35-cA 6lbq-a1-m36-cA_6lbq-a1-m37-cA 6lbq-a1-m36-cA_6lbq-a1-m40-cA 6lbq-a1-m37-cA_6lbq-a1-m38-cA 6lbq-a1-m38-cA_6lbq-a1-m39-cA 6lbq-a1-m39-cA_6lbq-a1-m40-cA 6lbq-a1-m3-cA_6lbq-a1-m4-cA 6lbq-a1-m41-cA_6lbq-a1-m42-cA 6lbq-a1-m41-cA_6lbq-a1-m45-cA 6lbq-a1-m42-cA_6lbq-a1-m43-cA 6lbq-a1-m43-cA_6lbq-a1-m44-cA 6lbq-a1-m44-cA_6lbq-a1-m45-cA 6lbq-a1-m46-cA_6lbq-a1-m47-cA 6lbq-a1-m46-cA_6lbq-a1-m50-cA 6lbq-a1-m47-cA_6lbq-a1-m48-cA 6lbq-a1-m48-cA_6lbq-a1-m49-cA 6lbq-a1-m49-cA_6lbq-a1-m50-cA 6lbq-a1-m4-cA_6lbq-a1-m5-cA 6lbq-a1-m51-cA_6lbq-a1-m52-cA 6lbq-a1-m51-cA_6lbq-a1-m55-cA 6lbq-a1-m52-cA_6lbq-a1-m53-cA 6lbq-a1-m53-cA_6lbq-a1-m54-cA 6lbq-a1-m54-cA_6lbq-a1-m55-cA 6lbq-a1-m56-cA_6lbq-a1-m57-cA 6lbq-a1-m56-cA_6lbq-a1-m60-cA 6lbq-a1-m57-cA_6lbq-a1-m58-cA 6lbq-a1-m58-cA_6lbq-a1-m59-cA 6lbq-a1-m59-cA_6lbq-a1-m60-cA 6lbq-a1-m6-cA_6lbq-a1-m7-cA 6lbq-a1-m7-cA_6lbq-a1-m8-cA 6lbq-a1-m8-cA_6lbq-a1-m9-cA GDVVEAVENAVARVADTIGSGPSNSQAVPALTAVETGHTSQVTPSDTVQTRHVKNYHSRSESSIENFLSRSACVYMGEYHTTNSDQTKLFASWTISARRMVQMRRKLEIFTYVRFDVEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSVTDYTWQTSTNPSIFWTEGNAPPRMSIPFISIGNAYSNFYDGWSHFSQNGVYGYNTLNHMGQIYVRHVNGSSPLPMTSTVRMYFKPKHVKAWVPRPPRLCQYKNASTVNFSPTDITDKRNSITYIPDTVKPDV GDVVEAVENAVARVADTIGSGPSNSQAVPALTAVETGHTSQVTPSDTVQTRHVKNYHSRSESSIENFLSRSACVYMGEYHTTNSDQTKLFASWTISARRMVQMRRKLEIFTYVRFDVEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSVTDYTWQTSTNPSIFWTEGNAPPRMSIPFISIGNAYSNFYDGWSHFSQNGVYGYNTLNHMGQIYVRHVNGSSPLPMTSTVRMYFKPKHVKAWVPRPPRLCQYKNASTVNFSPTDITDKRNSITYIPDTVKPDV 1h8x-a1-m1-cA_1h8x-a1-m1-cB Domain-swapped Dimer of a Human Pancreatic Ribonuclease Variant P07998 P07998 2 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 KESAAAKFERQHMDSGNSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSQKERHIIVACEGSPYVPVHFDASVE KESAAAKFERQHMDSGNSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSQKERHIIVACEGSPYVPVHFDASVE 1h94-a1-m1-cA_1h94-a1-m2-cA COMPLEX OF ACTIVE MUTANT (S215->C) OF GLUCOSE 6-PHOSPHATE DEHYDROGENASE FROM L.MESENTEROIDES WITH COENZYME NAD P11411 P11411 2.5 X-RAY DIFFRACTION 149 1.0 1245 (Leuconostoc mesenteroides) 1245 (Leuconostoc mesenteroides) 485 485 1dpg-a1-m1-cA_1dpg-a1-m1-cB 1e77-a1-m1-cA_1e77-a1-m2-cA 1e7m-a1-m1-cA_1e7m-a1-m2-cA 1e7y-a1-m1-cA_1e7y-a1-m2-cA 1h93-a1-m1-cA_1h93-a1-m2-cA 1h9a-a1-m1-cA_1h9a-a1-m2-cA 1h9b-a1-m1-cA_1h9b-a1-m2-cA 2dpg-a1-m1-cA_2dpg-a1-m2-cA VSEIKTLVTFFGGTGDLAKRKLYPSVFNLYKKGYLQKHFAIVGTARQALNDDEFKQLVRDSIKDFTDDQAQAEAFIEHFSYRAHDVTDAASYAVLKEAIEEAADKFDIDGNRIFYMSVAPRFFGTIAKYLKSEGLLADTGYNRLMIEKPFGTSYDTAAELQNDLENAFDDNQLFRIDHYLGKEMVQNIAALRFGNPIFDAAWNKDYIKNVQVTLCEVLGVEERAGYYDTAGALLDMIQNHTMQIVGWLAMEKPESFTDKDIRAAKNAAFNALKIYDEAEVNKYFVRAQYGAGDSADFKPYLEELDVPADSKNNTFIAGELQFDLPRWEGVPFYVRSGKRLAAKQTRVDIVFKAGTFNFGSEQEAQEAVLSIIIDPKGAIELKLNAKSVEDAFNTRTIDLGWTVSDEDKKNTPEPYERMIHDTMNGDGSNFADWNGVSIAWKFVDAISAVYTADKAPLETYKSGSMGPEASDKLLAANGDAWVFKG VSEIKTLVTFFGGTGDLAKRKLYPSVFNLYKKGYLQKHFAIVGTARQALNDDEFKQLVRDSIKDFTDDQAQAEAFIEHFSYRAHDVTDAASYAVLKEAIEEAADKFDIDGNRIFYMSVAPRFFGTIAKYLKSEGLLADTGYNRLMIEKPFGTSYDTAAELQNDLENAFDDNQLFRIDHYLGKEMVQNIAALRFGNPIFDAAWNKDYIKNVQVTLCEVLGVEERAGYYDTAGALLDMIQNHTMQIVGWLAMEKPESFTDKDIRAAKNAAFNALKIYDEAEVNKYFVRAQYGAGDSADFKPYLEELDVPADSKNNTFIAGELQFDLPRWEGVPFYVRSGKRLAAKQTRVDIVFKAGTFNFGSEQEAQEAVLSIIIDPKGAIELKLNAKSVEDAFNTRTIDLGWTVSDEDKKNTPEPYERMIHDTMNGDGSNFADWNGVSIAWKFVDAISAVYTADKAPLETYKSGSMGPEASDKLLAANGDAWVFKG 1h99-a1-m1-cA_1h99-a1-m2-cA PRD of LicT antiterminator from Bacillus subtilis P39805 P39805 1.55 X-RAY DIFFRACTION 158 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 220 220 GAMEKFKTLLYDIPIECMEVSEEIISYAKLQLGKKLNDSIYVSLTDHINFAIQRNQKGLDIKNALLWETKRLYKDEFAIGKEALVMVKNKTGVSLPEDEAGFIALHIVNAELNEEMPNIINITKVMEEILSIVKYHFKIEFNEESLHYYRFVTDLKFFAQRLFNGTHMEDDFLLDTVKEKYHRAYECTKKIQTYIEREYEHKLTSDELLYLTIDIERVVK GAMEKFKTLLYDIPIECMEVSEEIISYAKLQLGKKLNDSIYVSLTDHINFAIQRNQKGLDIKNALLWETKRLYKDEFAIGKEALVMVKNKTGVSLPEDEAGFIALHIVNAELNEEMPNIINITKVMEEILSIVKYHFKIEFNEESLHYYRFVTDLKFFAQRLFNGTHMEDDFLLDTVKEKYHRAYECTKKIQTYIEREYEHKLTSDELLYLTIDIERVVK 1h9s-a1-m1-cB_1h9s-a1-m1-cA Molybdate bound complex of Dimop domain of ModE from E.coli P0A9G8 P0A9G8 1.82 X-RAY DIFFRACTION 107 0.993 562 (Escherichia coli) 562 (Escherichia coli) 137 138 1h9r-a1-m1-cA_1h9r-a1-m1-cB 1o7l-a1-m1-cA_1o7l-a1-m1-cB 1o7l-a2-m1-cD_1o7l-a2-m1-cC QTSARNQWFGTITARDHDDVQQHVDVLLADGKTRLKVAITAQSGARLGLDEGKEVLILLKAPWVGITQDEAVAQNADNQLPGIISHIERGAEQCEVLMALPDGQTLCATVPVNEATSLEQGQNVTAYFNADSVIIAT MQTSARNQWFGTITARDHDDVQQHVDVLLADGKTRLKVAITAQSGARLGLDEGKEVLILLKAPWVGITQDEAVAQNADNQLPGIISHIERGAEQCEVLMALPDGQTLCATVPVNEATSLQQGQNVTAYFNADSVIIAT 1h9w-a1-m1-cB_1h9w-a1-m1-cA Native Dioclea Guianensis seed lectin P81637 P81637 2 X-RAY DIFFRACTION 60 1.0 99571 (Dioclea guianensis) 99571 (Dioclea guianensis) 230 232 1dgl-a1-m1-cA_1dgl-a1-m1-cB 1dgl-a1-m2-cA_1dgl-a1-m2-cB 1h9p-a1-m1-cA_1h9p-a1-m2-cA 1h9p-a1-m3-cA_1h9p-a1-m4-cA 2gdf-a1-m1-cA_2gdf-a1-m1-cB 2gdf-a1-m1-cC_2gdf-a1-m1-cD 2jdz-a1-m1-cA_2jdz-a1-m2-cA 2jdz-a1-m3-cA_2jdz-a1-m4-cA 2je7-a1-m1-cA_2je7-a1-m2-cA 2je7-a1-m3-cA_2je7-a1-m4-cA 2je9-a1-m1-cA_2je9-a1-m1-cB 2je9-a1-m1-cC_2je9-a1-m1-cD 2jec-a1-m1-cA_2jec-a1-m1-cB 2jec-a1-m1-cC_2jec-a1-m1-cD 2zbj-a1-m1-cA_2zbj-a1-m4-cA 2zbj-a1-m2-cA_2zbj-a1-m3-cA 3a0k-a1-m1-cA_3a0k-a1-m1-cC 3a0k-a1-m1-cE_3a0k-a1-m1-cG 3ax4-a1-m1-cA_3ax4-a1-m4-cA 3ax4-a1-m2-cA_3ax4-a1-m3-cA 3rrd-a1-m1-cA_3rrd-a1-m4-cA 3rrd-a1-m2-cA_3rrd-a1-m3-cA 3rs6-a1-m1-cA_3rs6-a1-m4-cA 3rs6-a1-m2-cA_3rs6-a1-m3-cA 3sh3-a1-m1-cA_3sh3-a1-m4-cA 3sh3-a1-m2-cA_3sh3-a1-m3-cA 4mye-a1-m1-cA_4mye-a1-m4-cA 4mye-a1-m2-cA_4mye-a1-m3-cA 4z8b-a1-m1-cA_4z8b-a1-m2-cA 5tg3-a1-m1-cA_5tg3-a1-m1-cB 5tg3-a1-m1-cC_5tg3-a1-m1-cD 5uuy-a1-m1-cA_5uuy-a1-m4-cA 5uuy-a1-m2-cA_5uuy-a1-m3-cA 6cj9-a1-m1-cA_6cj9-a1-m4-cA 6cj9-a1-m2-cA_6cj9-a1-m3-cA ADTIVAVELDSYPNTDIGDPSYPHIGIDIKSIRSKSTARWNMQTGKVGTAHISYNSVAKRLSAVVSYTGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSKLKANSLHFSFNQFSQNPKDLILQGDATTDSDGNLELTKVSSSGDPQGSSVGRALFYAPVHIWEKSAVVASFDATFTFLIKSPDRDPADGITFFIANTDTSIPSGSGGRLLGLFPDA ADTIVAVELDSYPNTDIGDPSYPHIGIDIKSIRSKSTARWNMQTGKVGTAHISYNSVAKRLSAVVSYTGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKETNTILSWSFTSKLKTANSLHFSFNQFSQNPKDLILQGDATTDSDGNLELTKVSSSGDPQGSSVGRALFYAPVHIWEKSAVVASFDATFTFLIKSPDRDPADGITFFIANTDTSIPSGSGGRLLGLFPDAN 1ha7-a2-m1-cQ_1ha7-a2-m1-cW STRUCTURE OF A LIGHT-HARVESTING PHYCOBILIPROTEIN, C-PHYCOCYANIN FROM SPIRULINA PLATENSIS AT 2.2A RESOLUTION P72509 P72509 2.2 X-RAY DIFFRACTION 23 1.0 118562 (Arthrospira platensis) 118562 (Arthrospira platensis) 162 162 1gh0-a1-m1-cA_1gh0-a1-m1-cI 1gh0-a1-m1-cC_1gh0-a1-m1-cG 1gh0-a1-m1-cE_1gh0-a1-m1-cK 1gh0-a2-m1-cM_1gh0-a2-m1-cU 1gh0-a2-m1-cO_1gh0-a2-m1-cS 1gh0-a2-m1-cQ_1gh0-a2-m1-cW 1gh0-a3-m1-cA_1gh0-a3-m1-cI 1gh0-a3-m1-cC_1gh0-a3-m1-cG 1gh0-a3-m1-cE_1gh0-a3-m1-cK 1gh0-a3-m1-cM_1gh0-a3-m1-cU 1gh0-a3-m1-cO_1gh0-a3-m1-cS 1gh0-a3-m1-cQ_1gh0-a3-m1-cW 1gh0-a4-m1-cA_1gh0-a4-m1-cI 1gh0-a4-m1-cC_1gh0-a4-m1-cG 1gh0-a4-m1-cE_1gh0-a4-m1-cK 1gh0-a4-m2-cM_1gh0-a4-m2-cU 1gh0-a4-m2-cO_1gh0-a4-m2-cS 1gh0-a4-m2-cQ_1gh0-a4-m2-cW 1ha7-a1-m1-cA_1ha7-a1-m1-cI 1ha7-a1-m1-cC_1ha7-a1-m1-cG 1ha7-a1-m1-cE_1ha7-a1-m1-cK 1ha7-a2-m1-cM_1ha7-a2-m1-cU 1ha7-a2-m1-cO_1ha7-a2-m1-cS 2uul-a1-m1-cA_2uul-a1-m1-cK 2uul-a1-m1-cC_2uul-a1-m1-cI 2uul-a1-m1-cE_2uul-a1-m1-cG 2uul-a2-m1-cM_2uul-a2-m1-cW 2uul-a2-m1-cO_2uul-a2-m1-cU 2uul-a2-m1-cQ_2uul-a2-m1-cS 2uum-a1-m1-cA_2uum-a1-m1-cI 2uum-a1-m1-cC_2uum-a1-m1-cG 2uum-a1-m1-cE_2uum-a1-m1-cK 2uum-a2-m1-cM_2uum-a2-m1-cU 2uum-a2-m1-cO_2uum-a2-m1-cS 2uum-a2-m1-cQ_2uum-a2-m1-cW 2uun-a1-m1-cA_2uun-a1-m1-cK 2uun-a1-m1-cC_2uun-a1-m1-cI 2uun-a1-m1-cE_2uun-a1-m1-cG 2uun-a2-m1-cM_2uun-a2-m1-cW 2uun-a2-m1-cO_2uun-a2-m1-cU 2uun-a2-m1-cQ_2uun-a2-m1-cS 4l1e-a1-m1-cA_4l1e-a1-m1-cE 4l1e-a1-m1-cC_4l1e-a1-m1-cI 4l1e-a1-m1-cG_4l1e-a1-m1-cK MKTPLTEAVSIADSQGRFLSSTEIQVAFGRFRQAKAGLEAAKALTSKADSLISGAAQAVYNKFPYTTQMQGPNYAADQRGKDKCARDIGYYLRMVTYCLIAGGTGPMDEYLIAGIDEINRTFELSPSWYIEALKYIKANHGLSGDAATEANSYLDYAINALS MKTPLTEAVSIADSQGRFLSSTEIQVAFGRFRQAKAGLEAAKALTSKADSLISGAAQAVYNKFPYTTQMQGPNYAADQRGKDKCARDIGYYLRMVTYCLIAGGTGPMDEYLIAGIDEINRTFELSPSWYIEALKYIKANHGLSGDAATEANSYLDYAINALS 1hak-a1-m1-cA_1hak-a1-m1-cB CRYSTAL STRUCTURE OF RECOMBINANT HUMAN PLACENTAL ANNEXIN V COMPLEXED WITH K-201 AS A CALCIUM CHANNEL ACTIVITY INHIBITOR P08758 P08758 3 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 QVLRGTVTDFPGFDERADAETLRKAMKGLGTDEESILTLLTSRSNAQRQEISAAFKTLFGRDLLDDLKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTNEKVLTEIIASRTPEELRAIKQVYEEEYGSSLEDDVVGDTSGYYQRMLVVLLQANRDPDAGIDEAQVEQDAQALFQAGELKWGTDEEKFITIFGTRSVSHLRKVFDKYMTISGFQIEETIDRETSGNLEQLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVMVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGEDD QVLRGTVTDFPGFDERADAETLRKAMKGLGTDEESILTLLTSRSNAQRQEISAAFKTLFGRDLLDDLKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTNEKVLTEIIASRTPEELRAIKQVYEEEYGSSLEDDVVGDTSGYYQRMLVVLLQANRDPDAGIDEAQVEQDAQALFQAGELKWGTDEEKFITIFGTRSVSHLRKVFDKYMTISGFQIEETIDRETSGNLEQLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVMVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGEDD 1hbw-a1-m1-cA_1hbw-a1-m1-cB Solution nmr structure of the dimerization domain of the yeast transcriptional activator Gal4 (residues 50-106) P04386 P04386 NOT SOLUTION NMR 83 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 57 57 TRAHLTEVESRLERLEQLFLLIFPREDLDMILKMDSLRDIEALLTGLFVQDNVNKDA TRAHLTEVESRLERLEQLFLLIFPREDLDMILKMDSLRDIEALLTGLFVQDNVNKDA 1hbx-a1-m1-cB_1hbx-a1-m1-cA Ternary Complex of SAP-1 and SRF with specific SRE DNA P11831 P11831 3.15 X-RAY DIFFRACTION 147 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 87 1hbx-a2-m1-cD_1hbx-a2-m1-cE 1k6o-a1-m1-cC_1k6o-a1-m1-cB 1srs-a1-m1-cB_1srs-a1-m1-cA KKTRGRVKIKMEFIDNKLRRYTTFSKRKTGIMKKAYELSTLTGTQVLLLVASETGHVYTFATRKLQPMITSETGKALIQTCLNSPD GKKTRGRVKIKMEFIDNKLRRYTTFSKRKTGIMKKAYELSTLTGTQVLLLVASETGHVYTFATRKLQPMITSETGKALIQTCLNSPD 1hc7-a2-m1-cC_1hc7-a2-m1-cD Prolyl-tRNA synthetase from Thermus thermophilus Q5SM28 Q5SM28 2.43 X-RAY DIFFRACTION 164 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 464 464 1h4q-a1-m1-cB_1h4q-a1-m1-cA 1h4s-a1-m1-cA_1h4s-a1-m1-cB 1h4t-a1-m1-cA_1h4t-a1-m1-cB 1h4t-a2-m1-cC_1h4t-a2-m1-cD 1hc7-a1-m1-cA_1hc7-a1-m1-cB KGLTPQSQDFSEWYLEVIQKAELADYGPVRGTIVVRPYGYAIWENIQQVLDRMFKETGHQNAYFPLFIPMSFLFSPELAVVTHAGGEELEEPLAVRPTSETVIGYMWSKWIRSWRDLPQLLNQWGNVVRWEMRTRPFLRTSEFLWQEGHTAHATREEAEEEVRRMLSIYARLAREYAAIPVIEGLKTEKEKFAGAVYTTTIEALMKDGKALQAGTSHYLGENFARAFDIKFQDRDLQVKYVHTTSWGLSWRFIGAIIMTHGDDRGLVLPPRLAPIQVVIVPIYKDESRERVLEAAQGLRQALLAQGLRVHLDDRDQHTPGYKFHEWELKGVPFRVELGPKDLEGGQAVLASRLGGKETLPLAALPEALPGKLDAFHEELYRRALAFREDHTRKVDTYEAFKEAVQEGFALAFHCGDKACERLIQEETTATTRCVPFEAEPEEGFCVRCGRPSAYGKRVVFAKAY KGLTPQSQDFSEWYLEVIQKAELADYGPVRGTIVVRPYGYAIWENIQQVLDRMFKETGHQNAYFPLFIPMSFLFSPELAVVTHAGGEELEEPLAVRPTSETVIGYMWSKWIRSWRDLPQLLNQWGNVVRWEMRTRPFLRTSEFLWQEGHTAHATREEAEEEVRRMLSIYARLAREYAAIPVIEGLKTEKEKFAGAVYTTTIEALMKDGKALQAGTSHYLGENFARAFDIKFQDRDLQVKYVHTTSWGLSWRFIGAIIMTHGDDRGLVLPPRLAPIQVVIVPIYKDESRERVLEAAQGLRQALLAQGLRVHLDDRDQHTPGYKFHEWELKGVPFRVELGPKDLEGGQAVLASRLGGKETLPLAALPEALPGKLDAFHEELYRRALAFREDHTRKVDTYEAFKEAVQEGFALAFHCGDKACERLIQEETTATTRCVPFEAEPEEGFCVRCGRPSAYGKRVVFAKAY 1hcn-a2-m1-cB_1hcn-a2-m2-cB STRUCTURE OF HUMAN CHORIONIC GONADOTROPIN AT 2.6 ANGSTROMS RESOLUTION FROM MAD ANALYSIS OF THE SELENOMETHIONYL PROTEIN P0DN86 P0DN86 2.6 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 KEPLRPRCRPINATLAVEKEGCPVCITVNTTICAGYCPTMTRVLQGVLPALPQVVCNYRDVRFESIRLPGCPRGVNPVVSYAVALSCQCALCRRSTTDCGGPKDHPLTCD KEPLRPRCRPINATLAVEKEGCPVCITVNTTICAGYCPTMTRVLQGVLPALPQVVCNYRDVRFESIRLPGCPRGVNPVVSYAVALSCQCALCRRSTTDCGGPKDHPLTCD 1hcq-a2-m1-cF_1hcq-a2-m1-cE THE CRYSTAL STRUCTURE OF THE ESTROGEN RECEPTOR DNA-BINDING DOMAIN BOUND TO DNA: HOW RECEPTORS DISCRIMINATE BETWEEN THEIR RESPONSE ELEMENTS P03372 P03372 2.4 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 74 1hcq-a1-m1-cB_1hcq-a1-m1-cA KETRYCAVCNDYASGYHYGVWSCEGCKAFFKRSIQGDYMCPATNQCTIDKNRRKSCQACRLRKCYEVGMMK MKETRYCAVCNDYASGYHYGVWSCEGCKAFFKRSIQGHNDYMCPATNQCTIDKNRRKSCQACRLRKCYEVGMMK 1hdf-a1-m1-cA_1hdf-a1-m2-cB Evolution of the eye lens beta-gamma-crystallin domain fold P09353 P09353 2.35 X-RAY DIFFRACTION 36 1.0 5791 (Physarum polycephalum) 5791 (Physarum polycephalum) 99 99 1hdf-a1-m1-cB_1hdf-a1-m2-cA SVCKGVSGNPAKGEVFLYKHVNFQGDSWKVTGNVYDFRSVSGLNDVVSSVKVGPNTKAFIFKDDRFNGNFIRLEESSQVTDLTTRNLNDAISSIVATFE SVCKGVSGNPAKGEVFLYKHVNFQGDSWKVTGNVYDFRSVSGLNDVVSSVKVGPNTKAFIFKDDRFNGNFIRLEESSQVTDLTTRNLNDAISSIVATFE 1hdf-a1-m2-cA_1hdf-a1-m2-cB Evolution of the eye lens beta-gamma-crystallin domain fold P09353 P09353 2.35 X-RAY DIFFRACTION 11 1.0 5791 (Physarum polycephalum) 5791 (Physarum polycephalum) 99 99 1hdf-a1-m1-cA_1hdf-a1-m1-cB SVCKGVSGNPAKGEVFLYKHVNFQGDSWKVTGNVYDFRSVSGLNDVVSSVKVGPNTKAFIFKDDRFNGNFIRLEESSQVTDLTTRNLNDAISSIVATFE SVCKGVSGNPAKGEVFLYKHVNFQGDSWKVTGNVYDFRSVSGLNDVVSSVKVGPNTKAFIFKDDRFNGNFIRLEESSQVTDLTTRNLNDAISSIVATFE 1hdg-a1-m2-cQ_1hdg-a1-m1-cO THE CRYSTAL STRUCTURE OF HOLO-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM THE HYPERTHERMOPHILIC BACTERIUM THERMOTOGA MARITIMA AT 2.5 ANGSTROMS RESOLUTION P17721 P17721 2.5 X-RAY DIFFRACTION 98 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 332 332 1hdg-a1-m1-cQ_1hdg-a1-m2-cO ARVAINGFGRIGRLVYRIIYERKNPDIEVVAINDLTDTKTLAHLLKYDSVHKKFPGKVEYTENSLIVDGKEIKVFAEPDPSKLPWKDLGVDFVIESTGVFRNREKAELHLQAGAKKVIITAPAKGEDITVVIGCNEDQLKPEHTIISCASCTTNSIAPIVKVLHEKFGIVSGMLTTVHSYTNDQRVLDLPHKDLRRARAAAVNIIPTTTGAAKAVALVVPEVKGKLDGMAIRVPTPDGSITDLTVLVEKETTVEEVNAVMKEATEGRLKGIIGYNDEPIVSSDIIGTTFSGIFDATITNVIGGKLVKVASWYDNEYGYSNRVVDTLELLLKM ARVAINGFGRIGRLVYRIIYERKNPDIEVVAINDLTDTKTLAHLLKYDSVHKKFPGKVEYTENSLIVDGKEIKVFAEPDPSKLPWKDLGVDFVIESTGVFRNREKAELHLQAGAKKVIITAPAKGEDITVVIGCNEDQLKPEHTIISCASCTTNSIAPIVKVLHEKFGIVSGMLTTVHSYTNDQRVLDLPHKDLRRARAAAVNIIPTTTGAAKAVALVVPEVKGKLDGMAIRVPTPDGSITDLTVLVEKETTVEEVNAVMKEATEGRLKGIIGYNDEPIVSSDIIGTTFSGIFDATITNVIGGKLVKVASWYDNEYGYSNRVVDTLELLLKM 1hdg-a1-m2-cQ_1hdg-a1-m1-cQ THE CRYSTAL STRUCTURE OF HOLO-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM THE HYPERTHERMOPHILIC BACTERIUM THERMOTOGA MARITIMA AT 2.5 ANGSTROMS RESOLUTION P17721 P17721 2.5 X-RAY DIFFRACTION 129 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 332 332 1hdg-a1-m1-cO_1hdg-a1-m2-cO ARVAINGFGRIGRLVYRIIYERKNPDIEVVAINDLTDTKTLAHLLKYDSVHKKFPGKVEYTENSLIVDGKEIKVFAEPDPSKLPWKDLGVDFVIESTGVFRNREKAELHLQAGAKKVIITAPAKGEDITVVIGCNEDQLKPEHTIISCASCTTNSIAPIVKVLHEKFGIVSGMLTTVHSYTNDQRVLDLPHKDLRRARAAAVNIIPTTTGAAKAVALVVPEVKGKLDGMAIRVPTPDGSITDLTVLVEKETTVEEVNAVMKEATEGRLKGIIGYNDEPIVSSDIIGTTFSGIFDATITNVIGGKLVKVASWYDNEYGYSNRVVDTLELLLKM ARVAINGFGRIGRLVYRIIYERKNPDIEVVAINDLTDTKTLAHLLKYDSVHKKFPGKVEYTENSLIVDGKEIKVFAEPDPSKLPWKDLGVDFVIESTGVFRNREKAELHLQAGAKKVIITAPAKGEDITVVIGCNEDQLKPEHTIISCASCTTNSIAPIVKVLHEKFGIVSGMLTTVHSYTNDQRVLDLPHKDLRRARAAAVNIIPTTTGAAKAVALVVPEVKGKLDGMAIRVPTPDGSITDLTVLVEKETTVEEVNAVMKEATEGRLKGIIGYNDEPIVSSDIIGTTFSGIFDATITNVIGGKLVKVASWYDNEYGYSNRVVDTLELLLKM 1hdg-a1-m2-cQ_1hdg-a1-m2-cO THE CRYSTAL STRUCTURE OF HOLO-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE FROM THE HYPERTHERMOPHILIC BACTERIUM THERMOTOGA MARITIMA AT 2.5 ANGSTROMS RESOLUTION P17721 P17721 2.5 X-RAY DIFFRACTION 22 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 332 332 1hdg-a1-m1-cO_1hdg-a1-m1-cQ ARVAINGFGRIGRLVYRIIYERKNPDIEVVAINDLTDTKTLAHLLKYDSVHKKFPGKVEYTENSLIVDGKEIKVFAEPDPSKLPWKDLGVDFVIESTGVFRNREKAELHLQAGAKKVIITAPAKGEDITVVIGCNEDQLKPEHTIISCASCTTNSIAPIVKVLHEKFGIVSGMLTTVHSYTNDQRVLDLPHKDLRRARAAAVNIIPTTTGAAKAVALVVPEVKGKLDGMAIRVPTPDGSITDLTVLVEKETTVEEVNAVMKEATEGRLKGIIGYNDEPIVSSDIIGTTFSGIFDATITNVIGGKLVKVASWYDNEYGYSNRVVDTLELLLKM ARVAINGFGRIGRLVYRIIYERKNPDIEVVAINDLTDTKTLAHLLKYDSVHKKFPGKVEYTENSLIVDGKEIKVFAEPDPSKLPWKDLGVDFVIESTGVFRNREKAELHLQAGAKKVIITAPAKGEDITVVIGCNEDQLKPEHTIISCASCTTNSIAPIVKVLHEKFGIVSGMLTTVHSYTNDQRVLDLPHKDLRRARAAAVNIIPTTTGAAKAVALVVPEVKGKLDGMAIRVPTPDGSITDLTVLVEKETTVEEVNAVMKEATEGRLKGIIGYNDEPIVSSDIIGTTFSGIFDATITNVIGGKLVKVASWYDNEYGYSNRVVDTLELLLKM 1hdm-a3-m1-cA_1hdm-a3-m3-cA HISTOCOMPATIBILITY ANTIGEN HLA-DM P28067 P28067 2.5 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 LQNHTFLHTVYCQDGSPSVGLSEAYDEDQLFFFDFSQNTRVPRLPEFADWAQEQGDAILFDKEFCEWMIQQIPKLDGKIPVSRGFPIAEVFTLKPLEFGKPNTLVCFVSNLFPPMLTVNWHDHSVPVEGFGPTFVSAVDGLSFQAFSYLNFTPEPSDIFSCIVTHEPDRYTAIAYWVPRNALPS LQNHTFLHTVYCQDGSPSVGLSEAYDEDQLFFFDFSQNTRVPRLPEFADWAQEQGDAILFDKEFCEWMIQQIPKLDGKIPVSRGFPIAEVFTLKPLEFGKPNTLVCFVSNLFPPMLTVNWHDHSVPVEGFGPTFVSAVDGLSFQAFSYLNFTPEPSDIFSCIVTHEPDRYTAIAYWVPRNALPS 1hds-a1-m1-cA_1hds-a1-m1-cC MACROMOLECULAR STRUCTURE REFINEMENT BY RESTRAINED LEAST-SQUARES AND INTERACTIVE GRAPHICS AS APPLIED TO SICKLING DEER TYPE III HEMOGLOBIN P01972 P01972 1.98 X-RAY DIFFRACTION 19 1.0 9874 (Odocoileus virginianus) 9874 (Odocoileus virginianus) 141 141 VLSAANKSNVKAAWGKVGGNAPAYGAQALQRMFLSFPTTKTYFPHFDLSHGSAQQKAHGQKVANALTKAQGHLNDLPGTLSNLSNLHAHKLRVNPVNFKLLSHSLLVTLASHLPTNFTPAVHANLNKFLANDSTVLTSKYR VLSAANKSNVKAAWGKVGGNAPAYGAQALQRMFLSFPTTKTYFPHFDLSHGSAQQKAHGQKVANALTKAQGHLNDLPGTLSNLSNLHAHKLRVNPVNFKLLSHSLLVTLASHLPTNFTPAVHANLNKFLANDSTVLTSKYR 1he7-a1-m1-cA_1he7-a1-m2-cA Human Nerve growth factor receptor TrkA P04629 P04629 2 X-RAY DIFFRACTION 179 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 SHMPASVQLHTAVEMHHWCIPFSVDGQPAPSLRWLFNGSVLNETSFIFTEFLEPAANETVRHGCLRLNQPTHVNNGNYTLLAANPFGQASASIMAAFMDNPFEFNPE SHMPASVQLHTAVEMHHWCIPFSVDGQPAPSLRWLFNGSVLNETSFIFTEFLEPAANETVRHGCLRLNQPTHVNNGNYTLLAANPFGQASASIMAAFMDNPFEFNPE 1he9-a1-m1-cA_1he9-a1-m2-cA Crystal structure of the GAP domain of the Pseudomonas aeruginosa ExoS toxin Q51451 Q51451 2.4 X-RAY DIFFRACTION 34 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 131 131 KQVLQQALPTLKGLDKASELATLTPEGLAREHSRLASGDGALRSLSTALAGIRAGSQVEESRIQAGRLLERSIGGIALQQWGTTGGAASQLVLDASPELRREITDQLHQVSEVALLRQAVESEVSRVSADY KQVLQQALPTLKGLDKASELATLTPEGLAREHSRLASGDGALRSLSTALAGIRAGSQVEESRIQAGRLLERSIGGIALQQWGTTGGAASQLVLDASPELRREITDQLHQVSEVALLRQAVESEVSRVSADY 1hf0-a1-m1-cA_1hf0-a1-m1-cB Crystal structure of the DNA-binding domain of Oct-1 bound to DNA as a dimer P14859 P14859 2.7 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 LEELEQFAKTFKQRRIKLGFTQGDVGLAMGKLYGNDFSQTTISRFEALNLSFKNMSKLKPLLEKWLNDAERKKRTSIETNIRVALEKSFLENQKPTSEEITMIADQLNMEKEVIRVWFSNRRQKEKRI LEELEQFAKTFKQRRIKLGFTQGDVGLAMGKLYGNDFSQTTISRFEALNLSFKNMSKLKPLLEKWLNDAERKKRTSIETNIRVALEKSFLENQKPTSEEITMIADQLNMEKEVIRVWFSNRRQKEKRI 1hf2-a1-m1-cA_1hf2-a1-m1-cB Crystal structure of the bacterial cell-division inhibitor MinC from T. maritima Q9X0D7 Q9X0D7 2.2 X-RAY DIFFRACTION 64 0.995 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 196 206 MVDFKMTKEGLVLLIKDYQNLEEVLNAISARITQMGGFFAKGDRISLMIENHNKHSQDIPRIVSHLRNLGLEVSQILVGKVQSRTTVESTGKVIKRNIRSGQTVVHSGDVIVFGNVNKGAEILAGGSVVVFGKAQGNIRAGLNEGGQAVVAALDLQTSLIQIAGFITHSKGEENVPSIAHVKGNRIVIEPFDKVSF VDFKMTKEGLVLLIKDYQNLEEVLNAISARITQMGGFFAKGDRISLMIENHNKHSQDIPRIVSHLRNLGLEVSQILVGSTVEGKENDLKVQSRTTVESTGKVIKRNIRSGQTVVHSGDVIVFGNVNKGAEILAGGSVVVFGKAQGNIRAGLNEGGQAVVAALDLQTSLIQIAGFITHSKGEENVPSIAHVKGNRIVIEPFDKVSFE 1hf2-a2-m1-cD_1hf2-a2-m1-cC Crystal structure of the bacterial cell-division inhibitor MinC from T. maritima Q9X0D7 Q9X0D7 2.2 X-RAY DIFFRACTION 66 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 190 202 DFKMTKEGLVLLIKDYQNLEEVLNAISARITQMGGFFAKGDRISLMIENHNKHSQDIPRIVSHLRNLGLEVSQILVSRTTVESTGKVIKRNIRSGQTVVHSGDVIVFGNVNKGAEILAGGSVVVFGKAQGNIRAGLNEGGQAVVAALDLQTSLIQIAGFITHSKGEENVPSIAHVKGNRIVIEPFDKVSF MVDFKMTKEGLVLLIKDYQNLEEVLNAISARITQMGGFFAKGDRISLMIENHNKHSQDIPRIVSHLRNLGLEVSQILVGSTVEDLKVQSRTTVESTGKVIKRNIRSGQTVVHSGDVIVFGNVNKGAEILAGGSVVVFGKAQGNIRAGLNEGGQAVVAALDLQTSLIQIAGFITHSKGEENVPSIAHVKGNRIVIEPFDKVSF 1hf9-a1-m1-cA_1hf9-a1-m1-cB C-Terminal Coiled-Coil Domain from Bovine IF1 P01096 P01096 NOT SOLUTION NMR 51 1.0 9913 (Bos taurus) 9913 (Bos taurus) 41 41 ALKKHHENEISHHAKEIERLQKEIERHKQSIKKLKQSEDDD ALKKHHENEISHHAKEIERLQKEIERHKQSIKKLKQSEDDD 1hfe-a3-m1-cL_1hfe-a3-m1-cM 1.6 A RESOLUTION STRUCTURE OF THE FE-ONLY HYDROGENASE FROM DESULFOVIBRIO DESULFURICANS P07598 P07598 1.6 X-RAY DIFFRACTION 26 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 396 396 SRTVMERIEYEMHTPDPKADPDKLHFVQIDEAKCIGCDTCSQYCPTAAIFGEMGEPHSIPHIEACINCGQCLTHCPENAIYEAQSWVPEVEKKLKDGKVKCIAMPAPAVRYALGDAFGMPVGSVTTGKMLAALQKLGFAHCWDTEFTADVTIWEEGSEFVERLTKKSDMPLPQFTSCCPGWQKYAETYYPELLPHFSTCKSPIGMNGALAKTYGAERMKYDPKQVYTVSIMPCIAKKYEGLRPELKSSGMRDIDATLTTRELAYMIKKAGIDFAKLPDGKRDSLMGESTGGATIFGVTGGVMEAALRFAYEAVTGKKPDSWDFKAVRGLDGIKEATVNVGGTDVKVAVVHGAKRFKQVCDDVKAGKSPYHFIEYMACPGGCVCGGGQPVMPGVLEA SRTVMERIEYEMHTPDPKADPDKLHFVQIDEAKCIGCDTCSQYCPTAAIFGEMGEPHSIPHIEACINCGQCLTHCPENAIYEAQSWVPEVEKKLKDGKVKCIAMPAPAVRYALGDAFGMPVGSVTTGKMLAALQKLGFAHCWDTEFTADVTIWEEGSEFVERLTKKSDMPLPQFTSCCPGWQKYAETYYPELLPHFSTCKSPIGMNGALAKTYGAERMKYDPKQVYTVSIMPCIAKKYEGLRPELKSSGMRDIDATLTTRELAYMIKKAGIDFAKLPDGKRDSLMGESTGGATIFGVTGGVMEAALRFAYEAVTGKKPDSWDFKAVRGLDGIKEATVNVGGTDVKVAVVHGAKRFKQVCDDVKAGKSPYHFIEYMACPGGCVCGGGQPVMPGVLEA 1hfo-a2-m1-cD_1hfo-a2-m1-cF The Structure of the Macrophage Migration Inhibitory Factor from Trichinella Spiralis. P81529 P81529 1.65 X-RAY DIFFRACTION 96 1.0 6334 (Trichinella spiralis) 6334 (Trichinella spiralis) 113 113 1hfo-a1-m1-cA_1hfo-a1-m1-cB 1hfo-a1-m1-cA_1hfo-a1-m1-cC 1hfo-a1-m1-cB_1hfo-a1-m1-cC 1hfo-a2-m1-cD_1hfo-a2-m1-cE 1hfo-a2-m1-cE_1hfo-a2-m1-cF PIFTLNTNIKATDVPSDFLSSTSALVGNILSKPGSYVAVHINTDQQLSFGGSTNPAAFGTLMSIGGIEPSRNRDHSAKLFDHLNTKLGIPKNRMYIHFVNLNGDDVGWNGTTF PIFTLNTNIKATDVPSDFLSSTSALVGNILSKPGSYVAVHINTDQQLSFGGSTNPAAFGTLMSIGGIEPSRNRDHSAKLFDHLNTKLGIPKNRMYIHFVNLNGDDVGWNGTTF 1hfs-a1-m1-cA_1hfs-a1-m2-cA CRYSTAL STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN FIBROBLAST STROMELYSIN-1 INHIBITED WITH THE N-CARBOXY-ALKYL INHIBITOR L-764,004 P08254 P08254 1.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 GIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYHSLTDLTRFRLSQDDINGIQSLYG GIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYHSLTDLTRFRLSQDDINGIQSLYG 1hg2-a1-m1-cA_1hg2-a1-m2-cA CALM-N N-terminal domain of clathrin assembly lymphoid myeloid leukaemia protein, Inositol(4,5)P2 complex O55012 O55012 2 X-RAY DIFFRACTION 60 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 263 263 1hf8-a1-m1-cA_1hf8-a1-m2-cA 1hfa-a1-m1-cA_1hfa-a1-m2-cA GSAVSKTVCKATTHEIMGPKKKHLDYLIQCTNEMNVNIPQLADSLFERTTNSSWVVVFKSLITTHHLMVYGNERFIQYLASRNTLFNLSNFLDKSGLQGYDMSTFIRRYSRYLNEKAVSYRQVAFDFTKVKRGADGVMRTMNTEKLLKTVPIIQNQMDALLDFNVNSNELTNGVINAAFMLLFKDAIRLFAAYNEGIINLLEKYFDMKKNQCKEGLDIYKKFLTRMTRISEFLKVAEQVGIDRGDIPDLSQAPSSLLDALEQH GSAVSKTVCKATTHEIMGPKKKHLDYLIQCTNEMNVNIPQLADSLFERTTNSSWVVVFKSLITTHHLMVYGNERFIQYLASRNTLFNLSNFLDKSGLQGYDMSTFIRRYSRYLNEKAVSYRQVAFDFTKVKRGADGVMRTMNTEKLLKTVPIIQNQMDALLDFNVNSNELTNGVINAAFMLLFKDAIRLFAAYNEGIINLLEKYFDMKKNQCKEGLDIYKKFLTRMTRISEFLKVAEQVGIDRGDIPDLSQAPSSLLDALEQH 1hg3-a2-m1-cF_1hg3-a2-m1-cH Crystal structure of tetrameric TIM from Pyrococcus woesei. P62003 P62003 2.7 X-RAY DIFFRACTION 66 1.0 2262 (Pyrococcus woesei) 2262 (Pyrococcus woesei) 224 224 1hg3-a1-m1-cA_1hg3-a1-m1-cC 1hg3-a1-m1-cB_1hg3-a1-m1-cD 1hg3-a2-m1-cE_1hg3-a2-m1-cG AKLKEPIIAINFKTYIEATGKRALEIAKAAEKVYKETGVTIVVAPQLVDLRMIAESVEIPVFAQHIDPIKPGSHTGHVLPEAVKEAGAVGTLLNHSENRMILADLEAAIRRAEEVGLMTMVCSNNPAVSAAVAALNPDYVAVEPPELIGTGIPVSKAKPEVITNTVELVKKVNPEVKVLCGAGISTGEDVKKAIELGTVGVLLASGVTKAKDPEKAIWDLVSGI AKLKEPIIAINFKTYIEATGKRALEIAKAAEKVYKETGVTIVVAPQLVDLRMIAESVEIPVFAQHIDPIKPGSHTGHVLPEAVKEAGAVGTLLNHSENRMILADLEAAIRRAEEVGLMTMVCSNNPAVSAAVAALNPDYVAVEPPELIGTGIPVSKAKPEVITNTVELVKKVNPEVKVLCGAGISTGEDVKKAIELGTVGVLLASGVTKAKDPEKAIWDLVSGI 1hg3-a2-m1-cG_1hg3-a2-m1-cH Crystal structure of tetrameric TIM from Pyrococcus woesei. P62003 P62003 2.7 X-RAY DIFFRACTION 146 1.0 2262 (Pyrococcus woesei) 2262 (Pyrococcus woesei) 224 224 1hg3-a1-m1-cA_1hg3-a1-m1-cB 1hg3-a1-m1-cC_1hg3-a1-m1-cD 1hg3-a2-m1-cE_1hg3-a2-m1-cF AKLKEPIIAINFKTYIEATGKRALEIAKAAEKVYKETGVTIVVAPQLVDLRMIAESVEIPVFAQHIDPIKPGSHTGHVLPEAVKEAGAVGTLLNHSENRMILADLEAAIRRAEEVGLMTMVCSNNPAVSAAVAALNPDYVAVEPPELIGTGIPVSKAKPEVITNTVELVKKVNPEVKVLCGAGISTGEDVKKAIELGTVGVLLASGVTKAKDPEKAIWDLVSGI AKLKEPIIAINFKTYIEATGKRALEIAKAAEKVYKETGVTIVVAPQLVDLRMIAESVEIPVFAQHIDPIKPGSHTGHVLPEAVKEAGAVGTLLNHSENRMILADLEAAIRRAEEVGLMTMVCSNNPAVSAAVAALNPDYVAVEPPELIGTGIPVSKAKPEVITNTVELVKKVNPEVKVLCGAGISTGEDVKKAIELGTVGVLLASGVTKAKDPEKAIWDLVSGI 1hg4-a2-m1-cE_1hg4-a2-m1-cF Ultraspiracle ligand binding domain from Drosophila melanogaster P20153 P20153 2.4 X-RAY DIFFRACTION 35 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 240 240 1hg4-a1-m1-cC_1hg4-a1-m1-cA 1hg4-a1-m1-cC_1hg4-a1-m1-cD 1hg4-a1-m1-cD_1hg4-a1-m1-cA 1hg4-a2-m1-cB_1hg4-a2-m1-cE 1hg4-a2-m1-cB_1hg4-a2-m1-cF FSIERIIEAEQRAETQCGDRALTFLRVGPYSTVQPDYKGAVSALCQVVNKQLFQMVEYARMMPHFAQVPLDDQVILLKAAWIELLIANVAWCSIVSLQPQQLFLNQSFSYHRNSAIKAGVSAIFDRILSELSVKMKRLNLDRRELSCLKAIILYNPDIRGIKSRAEIEMCREKVYACLDEHCRLEHPGDDGRFAQLLLRLPALRSISLKCQDHLFLFRITSDRPLEELFLEQLEAPPPPG FSIERIIEAEQRAETQCGDRALTFLRVGPYSTVQPDYKGAVSALCQVVNKQLFQMVEYARMMPHFAQVPLDDQVILLKAAWIELLIANVAWCSIVSLQPQQLFLNQSFSYHRNSAIKAGVSAIFDRILSELSVKMKRLNLDRRELSCLKAIILYNPDIRGIKSRAEIEMCREKVYACLDEHCRLEHPGDDGRFAQLLLRLPALRSISLKCQDHLFLFRITSDRPLEELFLEQLEAPPPPG 1hh2-a1-m1-cP_1hh2-a1-m2-cP Crystal structure of NusA from Thermotoga maritima Q9X298 Q9X298 2.1 X-RAY DIFFRACTION 34 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 344 344 MNIGLLEALDQLEEEKGISKEEVIPILEKALVSAYRKNFGNSKNVEVVIDRNTGNIKVYQLLEVVEEVEDPATQISLEEAKKIDPLAEVGSIVKKELNVKNFGRIAAQTAKQVLIQRIRELEKEKQFEKYSELKGTVTTAEVIRVMGEWADIRIGKLETRLPKKEWIPGEEIKAGDLVKVYIIDVVKTTKGPKILVSRRVPEFVIGLMKLEIPEVENGIVEIKAIAREPGVRTKVAVASNDPNVDPIGACIGEGGSRIAAILKELKGEKLDVLKWSDDPKQLIANALAPATVIEVEILDKENKAARVLVPPTQLSLAIGKGGQNARLAAKLTGWKIDIKPIMNL MNIGLLEALDQLEEEKGISKEEVIPILEKALVSAYRKNFGNSKNVEVVIDRNTGNIKVYQLLEVVEEVEDPATQISLEEAKKIDPLAEVGSIVKKELNVKNFGRIAAQTAKQVLIQRIRELEKEKQFEKYSELKGTVTTAEVIRVMGEWADIRIGKLETRLPKKEWIPGEEIKAGDLVKVYIIDVVKTTKGPKILVSRRVPEFVIGLMKLEIPEVENGIVEIKAIAREPGVRTKVAVASNDPNVDPIGACIGEGGSRIAAILKELKGEKLDVLKWSDDPKQLIANALAPATVIEVEILDKENKAARVLVPPTQLSLAIGKGGQNARLAAKLTGWKIDIKPIMNL 1hi7-a1-m1-cA_1hi7-a1-m1-cB NMR SOLUTION STRUCTURE OF THE DISULPHIDE-LINKED HOMODIMER OF HUMAN TFF1, 10 STRUCTURES P04155 P04155 NOT SOLUTION NMR 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 EAQTETCTVAPRERQNCGFPGVTPSQCANKGCCFDDTVRGVPWCFYPNTIDVPPEEECEF EAQTETCTVAPRERQNCGFPGVTPSQCANKGCCFDDTVRGVPWCFYPNTIDVPPEEECEF 1hik-a1-m1-cA_1hik-a1-m2-cA INTERLEUKIN-4 (WILD-TYPE) P05112 P05112 2.6 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 1hij-a1-m1-cA_1hij-a1-m2-cA 1rcb-a1-m1-cA_1rcb-a1-m2-cA 2int-a1-m1-cA_2int-a1-m2-cA HKCDITLQEIIKTLNSLTEQKTLCTELTVTDIFAASKNTTEKETFCRAATVLRQFYSHHEKDTRCLGATAQQFHRHKQLIRFLKRLDRNLWGLAGLNSCPVKEANQSTLENFLERLKTIMREKYSKCSS HKCDITLQEIIKTLNSLTEQKTLCTELTVTDIFAASKNTTEKETFCRAATVLRQFYSHHEKDTRCLGATAQQFHRHKQLIRFLKRLDRNLWGLAGLNSCPVKEANQSTLENFLERLKTIMREKYSKCSS 1hix-a2-m4-cB_1hix-a2-m5-cB CRYSTALLOGRAPHIC ANALYSES OF FAMILY 11 ENDO-BETA-1,4-XYLANASE XYL1 FROM STREPTOMYCES SP. S38 Q59962 Q59962 2 X-RAY DIFFRACTION 17 1.0 181109 (Streptomyces sp. S38) 181109 (Streptomyces sp. S38) 187 187 1hix-a1-m1-cA_1hix-a1-m2-cA 1hix-a1-m1-cA_1hix-a1-m3-cA 1hix-a1-m2-cA_1hix-a1-m3-cA 1hix-a2-m1-cB_1hix-a2-m4-cB 1hix-a2-m1-cB_1hix-a2-m5-cB VITTNQTGTNNGYYYSFWTDGGGSVSMNLASGGSYGTSWTNCGNFVAGKGWANGARRTVNYSGSFNPSGNAYLTLYGWTANPLVEYYIVDNWGTYRPTGTYKGTVTSDGGTYDVYQTTRVNAPSVEGTKTFNQYWSVRQSKRTGGSITAGNHFDAWARYGMPLGSFNYYMIMATEGYQSSGSSSISV VITTNQTGTNNGYYYSFWTDGGGSVSMNLASGGSYGTSWTNCGNFVAGKGWANGARRTVNYSGSFNPSGNAYLTLYGWTANPLVEYYIVDNWGTYRPTGTYKGTVTSDGGTYDVYQTTRVNAPSVEGTKTFNQYWSVRQSKRTGGSITAGNHFDAWARYGMPLGSFNYYMIMATEGYQSSGSSSISV 1hjr-a2-m1-cB_1hjr-a2-m1-cD ATOMIC STRUCTURE OF THE RUVC RESOLVASE: A HOLLIDAY JUNCTION-SPECIFIC ENDONUCLEASE FROM E. COLI P0A814 P0A814 2.5 X-RAY DIFFRACTION 86 1.0 562 (Escherichia coli) 562 (Escherichia coli) 158 158 1hjr-a1-m1-cA_1hjr-a1-m1-cC AIILGIDPGSRVTGYGVIRQVGRQLSYLGSGCIRTKVDDLPSRLKLIYAGVTEIITQFQPDYFAIEQVFMAKNADSALKLGQARGVAIVAAVNQELPVFEYAARQVKQTVVGIGSAEKSQVQHMVRTLLKLPANPQADAADALAIAITHCHVSQNAMQ AIILGIDPGSRVTGYGVIRQVGRQLSYLGSGCIRTKVDDLPSRLKLIYAGVTEIITQFQPDYFAIEQVFMAKNADSALKLGQARGVAIVAAVNQELPVFEYAARQVKQTVVGIGSAEKSQVQHMVRTLLKLPANPQADAADALAIAITHCHVSQNAMQ 1hjv-a1-m1-cA_1hjv-a1-m1-cD Crystal structure of hcgp-39 in complex with chitin tetramer P36222 P36222 2.75 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 362 362 1hjv-a1-m1-cB_1hjv-a1-m1-cC 1hjx-a1-m1-cC_1hjx-a1-m1-cB 1hjx-a1-m1-cD_1hjx-a1-m1-cA YKLVCYYTSWSQYREGDGSCFPDALDRFLCTHIIYSFANISNDHIDTWEWNDVTLYGMLNTLKNRNPNLKTLLSVGGWNFGSQRFSKIASNTQSRRTFIKSVPPFLRTHGFDGLDLAWLYPGRRDKQHFTTLIKEMKAEFIKEAQPGKKQLLLSAALSAGKVTIDSSYDIAKISQHLDFISIMTYDFHGAWRGTTGHHSPLFRGQEDASPDRFSNTDYAVGYMLRLGAPASKLVMGIPTFGRSFTLASSETGVGAPISGPGIPGRFTKEAGTLAYYEICDFLRGATVHRILGQQVPYATKGNQWVGYDDQESVKSKVQYLKDRQLAGAMVWALDLDDFQGSFCGQDLRFPLTNAIKDALAAT YKLVCYYTSWSQYREGDGSCFPDALDRFLCTHIIYSFANISNDHIDTWEWNDVTLYGMLNTLKNRNPNLKTLLSVGGWNFGSQRFSKIASNTQSRRTFIKSVPPFLRTHGFDGLDLAWLYPGRRDKQHFTTLIKEMKAEFIKEAQPGKKQLLLSAALSAGKVTIDSSYDIAKISQHLDFISIMTYDFHGAWRGTTGHHSPLFRGQEDASPDRFSNTDYAVGYMLRLGAPASKLVMGIPTFGRSFTLASSETGVGAPISGPGIPGRFTKEAGTLAYYEICDFLRGATVHRILGQQVPYATKGNQWVGYDDQESVKSKVQYLKDRQLAGAMVWALDLDDFQGSFCGQDLRFPLTNAIKDALAAT 1hjx-a1-m1-cA_1hjx-a1-m1-cB Ligand-induced signalling and conformational change of the 39 kD glycoprotein from human articular chondrocytes P36222 P36222 1.85 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 361 361 1hjv-a1-m1-cA_1hjv-a1-m1-cB YKLVCYYTSWSQYREGDGSCFPDALDRFLCTHIIYSFANISNDHIDTWEWNDVTLYGMLNTLKNRNPNLKTLLSVGGWNFGSQRFSKIASNTQSRRTFIKSVPPFLRTHGFDGLDLAWLYPGRRDKQHFTTLIKEMKAEFIKEAQPGKKQLLLSAALSAGKVTIDSSYDIAKISQHLDFISIMTYDFHGAWRGTTGHHSPLFRGQEDASPDRFSNTDYAVGYMLRLGAPASKLVMGIPTFGRSFTLASSETGVGAPISGPGIPGRFTKEAGTLAYYEICDFLRGATVHRILGQQVPYATKGNQWVGYDDQESVKSKVQYLKDRQLAGAMVWALDLDDFQGSFCGQDLRFPLTNAIKDALAA YKLVCYYTSWSQYREGDGSCFPDALDRFLCTHIIYSFANISNDHIDTWEWNDVTLYGMLNTLKNRNPNLKTLLSVGGWNFGSQRFSKIASNTQSRRTFIKSVPPFLRTHGFDGLDLAWLYPGRRDKQHFTTLIKEMKAEFIKEAQPGKKQLLLSAALSAGKVTIDSSYDIAKISQHLDFISIMTYDFHGAWRGTTGHHSPLFRGQEDASPDRFSNTDYAVGYMLRLGAPASKLVMGIPTFGRSFTLASSETGVGAPISGPGIPGRFTKEAGTLAYYEICDFLRGATVHRILGQQVPYATKGNQWVGYDDQESVKSKVQYLKDRQLAGAMVWALDLDDFQGSFCGQDLRFPLTNAIKDALAA 1hjx-a1-m1-cC_1hjx-a1-m1-cA Ligand-induced signalling and conformational change of the 39 kD glycoprotein from human articular chondrocytes P36222 P36222 1.85 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 358 361 1hjv-a1-m1-cB_1hjv-a1-m1-cD YKLVCYYTSWSQYREGDGSCFPDALDRFLCTHIIYSFANISNDHIDTWEWNDVTLYGMLNTLKNRNPNLKTLLSVGGWNFGSQRFSKIASNTQSRRTFIKSVPPFLRTHGFDGLDLAWLYPGRRDKQHFTTLIKEMKAEFIKEAKKQLLLSAALSAGKVTIDSSYDIAKISQHLDFISIMTYDFHGAWRGTTGHHSPLFRGQEDASPDRFSNTDYAVGYMLRLGAPASKLVMGIPTFGRSFTLASSETGVGAPISGPGIPGRFTKEAGTLAYYEICDFLRGATVHRILGQQVPYATKGNQWVGYDDQESVKSKVQYLKDRQLAGAMVWALDLDDFQGSFCGQDLRFPLTNAIKDALAA YKLVCYYTSWSQYREGDGSCFPDALDRFLCTHIIYSFANISNDHIDTWEWNDVTLYGMLNTLKNRNPNLKTLLSVGGWNFGSQRFSKIASNTQSRRTFIKSVPPFLRTHGFDGLDLAWLYPGRRDKQHFTTLIKEMKAEFIKEAQPGKKQLLLSAALSAGKVTIDSSYDIAKISQHLDFISIMTYDFHGAWRGTTGHHSPLFRGQEDASPDRFSNTDYAVGYMLRLGAPASKLVMGIPTFGRSFTLASSETGVGAPISGPGIPGRFTKEAGTLAYYEICDFLRGATVHRILGQQVPYATKGNQWVGYDDQESVKSKVQYLKDRQLAGAMVWALDLDDFQGSFCGQDLRFPLTNAIKDALAA 1hk8-a1-m1-cA_1hk8-a1-m2-cA STRUCTURAL BASIS FOR ALLOSTERIC SUBSTRATE SPECIFICITY REGULATION IN CLASS III RIBONUCLEOTIDE REDUCTASES: NRDD IN COMPLEX WITH DGTP P07071 P07071 2.45 X-RAY DIFFRACTION 176 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 561 561 1h78-a1-m1-cA_1h78-a1-m2-cA 1h79-a1-m1-cA_1h79-a1-m2-cA 1h7a-a1-m1-cA_1h7a-a1-m2-cA 1h7b-a1-m1-cA_1h7b-a1-m2-cA DSRVFPTQRDLMAGIVSKHIAKNMVPSFIMKAHESGIIHVHDIDYSPALPFTNCCLVDLKGMLENGFKLGNAQIETPKSIGVATAIMAQITAQVASHQYGGTTFANVDKVLSPYVKRTYAKHIEDAEKWQIADALNYAQSKTEKDVYDAFQAYEYEVNTLFSSNGQTPFVTITFGTGTDWTERMIQKAILKNRIKGLGRDGITPIFPKLVMFVEEGVNLYKDDPNYDIKQLALECASKRMYPDIISAKNNKAITGSSVPVSPMGCRSFLSVWKDSTGNEILDGRNNLGVVTLNLPRIALDSYIGTQFNEQKFVELFNERMDLCFEALMCRISSLKGVKATVAPILYQEGAFGVRLKPDDDIIELFKNGRSSVSLGYIGIHELNILVGRDIGREILTKMNAHLKQWTERTGFAFSLYSTPAENLCYRFCKLDTEKYGSVKDVTDKGWYTNSFHVSVEENITPFEKISREAPYHFIATGGHISYVELPDMKNNLKGLEAVWDYAAQHLDYFGVNMPVDKCFTCGSTHEMTPTENGFVCSICGETDPKKMNTIRRTCAYLGNPN DSRVFPTQRDLMAGIVSKHIAKNMVPSFIMKAHESGIIHVHDIDYSPALPFTNCCLVDLKGMLENGFKLGNAQIETPKSIGVATAIMAQITAQVASHQYGGTTFANVDKVLSPYVKRTYAKHIEDAEKWQIADALNYAQSKTEKDVYDAFQAYEYEVNTLFSSNGQTPFVTITFGTGTDWTERMIQKAILKNRIKGLGRDGITPIFPKLVMFVEEGVNLYKDDPNYDIKQLALECASKRMYPDIISAKNNKAITGSSVPVSPMGCRSFLSVWKDSTGNEILDGRNNLGVVTLNLPRIALDSYIGTQFNEQKFVELFNERMDLCFEALMCRISSLKGVKATVAPILYQEGAFGVRLKPDDDIIELFKNGRSSVSLGYIGIHELNILVGRDIGREILTKMNAHLKQWTERTGFAFSLYSTPAENLCYRFCKLDTEKYGSVKDVTDKGWYTNSFHVSVEENITPFEKISREAPYHFIATGGHISYVELPDMKNNLKGLEAVWDYAAQHLDYFGVNMPVDKCFTCGSTHEMTPTENGFVCSICGETDPKKMNTIRRTCAYLGNPN 1hk9-a1-m1-cB_1hk9-a1-m1-cA Crystal structure of the Hfq protein from Escherichia coli P0A6X3 P0A6X3 2.15 X-RAY DIFFRACTION 55 1.0 562 (Escherichia coli) 562 (Escherichia coli) 63 64 1hk9-a1-m1-cA_1hk9-a1-m1-cF 1hk9-a1-m1-cB_1hk9-a1-m1-cC 1hk9-a1-m1-cC_1hk9-a1-m1-cD 1hk9-a1-m1-cD_1hk9-a1-m1-cE 1hk9-a1-m1-cF_1hk9-a1-m1-cE 1u1s-a1-m1-cA_1u1s-a1-m1-cB 1u1s-a1-m1-cC_1u1s-a1-m1-cB 1u1s-a1-m1-cC_1u1s-a1-m1-cD 1u1s-a1-m1-cF_1u1s-a1-m1-cA 1u1s-a1-m1-cF_1u1s-a1-m1-cE 1u1t-a1-m1-cA_1u1t-a1-m1-cB 1u1t-a1-m1-cA_1u1t-a1-m1-cF 1u1t-a1-m1-cC_1u1t-a1-m1-cB 1u1t-a1-m1-cC_1u1t-a1-m1-cD 1u1t-a1-m1-cD_1u1t-a1-m1-cE 1u1t-a1-m1-cF_1u1t-a1-m1-cE 2y90-a1-m1-cA_2y90-a1-m3-cA 2y90-a1-m1-cA_2y90-a1-m6-cA 2y90-a1-m2-cA_2y90-a1-m4-cA 2y90-a1-m2-cA_2y90-a1-m6-cA 2y90-a1-m3-cA_2y90-a1-m5-cA 2y90-a1-m4-cA_2y90-a1-m5-cA 2yht-a1-m1-cA_2yht-a1-m1-cB 2yht-a1-m1-cA_2yht-a1-m1-cF 2yht-a1-m1-cB_2yht-a1-m1-cC 2yht-a1-m1-cC_2yht-a1-m1-cD 2yht-a1-m1-cD_2yht-a1-m1-cE 2yht-a1-m1-cE_2yht-a1-m1-cF 2yht-a2-m1-cG_2yht-a2-m1-cH 2yht-a2-m1-cG_2yht-a2-m1-cL 2yht-a2-m1-cH_2yht-a2-m1-cI 2yht-a2-m1-cI_2yht-a2-m1-cJ 2yht-a2-m1-cJ_2yht-a2-m1-cK 2yht-a2-m1-cK_2yht-a2-m1-cL 2ylb-a1-m1-cA_2ylb-a1-m1-cB 2ylb-a1-m1-cA_2ylb-a1-m1-cF 2ylb-a1-m1-cB_2ylb-a1-m1-cC 2ylb-a1-m1-cC_2ylb-a1-m1-cD 2ylb-a1-m1-cD_2ylb-a1-m1-cE 2ylb-a1-m1-cF_2ylb-a1-m1-cE 2ylc-a1-m1-cA_2ylc-a1-m3-cA 2ylc-a1-m1-cA_2ylc-a1-m6-cA 2ylc-a1-m2-cA_2ylc-a1-m4-cA 2ylc-a1-m2-cA_2ylc-a1-m6-cA 2ylc-a1-m3-cA_2ylc-a1-m5-cA 2ylc-a1-m4-cA_2ylc-a1-m5-cA 3gib-a1-m1-cA_3gib-a1-m1-cB 3gib-a1-m1-cC_3gib-a1-m1-cB 3gib-a1-m1-cC_3gib-a1-m2-cA 3gib-a1-m2-cA_3gib-a1-m2-cB 3gib-a1-m2-cC_3gib-a1-m1-cA 3gib-a1-m2-cC_3gib-a1-m2-cB 3inz-a1-m1-cA_3inz-a1-m1-cF 3inz-a1-m1-cB_3inz-a1-m1-cA 3inz-a1-m1-cC_3inz-a1-m1-cB 3inz-a1-m1-cC_3inz-a1-m1-cD 3inz-a1-m1-cD_3inz-a1-m1-cE 3inz-a1-m1-cE_3inz-a1-m1-cF 3m4g-a1-m1-cA_3m4g-a1-m1-cB 3m4g-a1-m1-cA_3m4g-a1-m1-cF 3m4g-a1-m1-cB_3m4g-a1-m1-cC 3m4g-a1-m1-cD_3m4g-a1-m1-cC 3m4g-a1-m1-cD_3m4g-a1-m1-cE 3m4g-a1-m1-cE_3m4g-a1-m1-cF 3m4g-a2-m1-cG_3m4g-a2-m1-cH 3m4g-a2-m1-cG_3m4g-a2-m1-cL 3m4g-a2-m1-cH_3m4g-a2-m1-cI 3m4g-a2-m1-cJ_3m4g-a2-m1-cI 3m4g-a2-m1-cJ_3m4g-a2-m1-cK 3m4g-a2-m1-cK_3m4g-a2-m1-cL 3qhs-a1-m1-cA_3qhs-a1-m1-cB 3qhs-a1-m1-cA_3qhs-a1-m1-cF 3qhs-a1-m1-cB_3qhs-a1-m1-cC 3qhs-a1-m1-cD_3qhs-a1-m1-cC 3qhs-a1-m1-cE_3qhs-a1-m1-cD 3qhs-a1-m1-cE_3qhs-a1-m1-cF 3qhs-a2-m1-cG_3qhs-a2-m1-cL 3qhs-a2-m1-cH_3qhs-a2-m1-cG 3qhs-a2-m1-cH_3qhs-a2-m1-cI 3qhs-a2-m1-cJ_3qhs-a2-m1-cI 3qhs-a2-m1-cJ_3qhs-a2-m1-cK 3qhs-a2-m1-cL_3qhs-a2-m1-cK 3qo3-a1-m1-cA_3qo3-a1-m1-cB 3qo3-a1-m1-cA_3qo3-a1-m1-cF 3qo3-a1-m1-cB_3qo3-a1-m1-cC 3qo3-a1-m1-cC_3qo3-a1-m1-cD 3qo3-a1-m1-cD_3qo3-a1-m1-cE 3qo3-a1-m1-cE_3qo3-a1-m1-cF 3qui-a1-m1-cB_3qui-a1-m1-cA 3qui-a1-m1-cB_3qui-a1-m1-cC 3qui-a1-m1-cF_3qui-a1-m1-cA 3qui-a1-m1-cF_3qui-a1-m1-cE 3rer-a1-m1-cA_3rer-a1-m1-cB 3rer-a1-m1-cA_3rer-a1-m1-cF 3rer-a1-m1-cB_3rer-a1-m1-cC 3rer-a1-m1-cD_3rer-a1-m1-cC 3rer-a1-m1-cD_3rer-a1-m1-cE 3rer-a1-m1-cE_3rer-a1-m1-cF 3res-a1-m1-cB_3res-a1-m1-cA 3res-a1-m1-cB_3res-a1-m1-cC 3res-a1-m1-cC_3res-a1-m1-cD 3res-a1-m1-cE_3res-a1-m1-cD 3res-a1-m1-cE_3res-a1-m1-cF 3res-a1-m1-cF_3res-a1-m1-cA 3res-a2-m1-cG_3res-a2-m1-cH 3res-a2-m1-cG_3res-a2-m1-cL 3res-a2-m1-cH_3res-a2-m1-cI 3res-a2-m1-cI_3res-a2-m1-cJ 3res-a2-m1-cK_3res-a2-m1-cJ 3res-a2-m1-cK_3res-a2-m1-cL 3vu3-a1-m1-cC_3vu3-a1-m1-cD 3vu3-a1-m1-cC_3vu3-a1-m1-cH 3vu3-a1-m1-cE_3vu3-a1-m1-cF 3vu3-a1-m1-cF_3vu3-a1-m1-cG 3vu3-a1-m1-cG_3vu3-a1-m1-cH 3vu3-a1-m2-cC_3vu3-a1-m2-cD 3vu3-a1-m2-cC_3vu3-a1-m2-cH 3vu3-a1-m2-cE_3vu3-a1-m2-cF 3vu3-a1-m2-cF_3vu3-a1-m2-cG 3vu3-a1-m2-cG_3vu3-a1-m2-cH 3vu3-a1-m3-cC_3vu3-a1-m3-cD 3vu3-a1-m3-cC_3vu3-a1-m3-cH 3vu3-a1-m3-cE_3vu3-a1-m3-cF 3vu3-a1-m3-cF_3vu3-a1-m3-cG 3vu3-a1-m3-cG_3vu3-a1-m3-cH 3vu3-a1-m4-cC_3vu3-a1-m4-cD 3vu3-a1-m4-cC_3vu3-a1-m4-cH 3vu3-a1-m4-cE_3vu3-a1-m4-cF 3vu3-a1-m4-cF_3vu3-a1-m4-cG 3vu3-a1-m4-cG_3vu3-a1-m4-cH 4ht8-a1-m1-cB_4ht8-a1-m1-cA 4ht8-a1-m1-cB_4ht8-a1-m1-cC 4ht8-a1-m1-cC_4ht8-a1-m1-cD 4ht8-a1-m1-cE_4ht8-a1-m1-cD 4ht8-a1-m1-cE_4ht8-a1-m1-cF 4ht8-a1-m1-cF_4ht8-a1-m1-cA 4ht9-a1-m1-cA_4ht9-a1-m1-cB 4ht9-a1-m1-cA_4ht9-a1-m1-cC 4ht9-a1-m1-cC_4ht9-a1-m2-cB 4ht9-a1-m2-cA_4ht9-a1-m2-cB 4ht9-a1-m2-cA_4ht9-a1-m2-cC 4ht9-a1-m2-cC_4ht9-a1-m1-cB 4j5y-a1-m1-cA_4j5y-a1-m1-cB 4j5y-a1-m1-cA_4j5y-a1-m1-cF 4j5y-a1-m1-cB_4j5y-a1-m1-cC 4j5y-a1-m1-cC_4j5y-a1-m1-cD 4j5y-a1-m1-cD_4j5y-a1-m1-cE 4j5y-a1-m1-cE_4j5y-a1-m1-cF 4j6w-a1-m1-cB_4j6w-a1-m1-cA 4j6w-a1-m1-cC_4j6w-a1-m1-cE 4j6w-a1-m1-cC_4j6w-a1-m1-cF 4j6w-a1-m1-cD_4j6w-a1-m1-cB 4j6w-a1-m1-cD_4j6w-a1-m1-cF 4j6w-a1-m1-cE_4j6w-a1-m1-cA 4j6x-a1-m1-cA_4j6x-a1-m1-cB 4j6x-a1-m1-cA_4j6x-a1-m1-cF 4j6x-a1-m1-cC_4j6x-a1-m1-cB 4j6x-a1-m1-cC_4j6x-a1-m1-cD 4j6x-a1-m1-cD_4j6x-a1-m1-cE 4j6x-a1-m1-cE_4j6x-a1-m1-cF 4j6y-a1-m1-cA_4j6y-a1-m1-cB 4j6y-a1-m1-cA_4j6y-a1-m1-cF 4j6y-a1-m1-cB_4j6y-a1-m1-cC 4j6y-a1-m1-cD_4j6y-a1-m1-cC 4j6y-a1-m1-cD_4j6y-a1-m1-cE 4j6y-a1-m1-cE_4j6y-a1-m1-cF 4jli-a1-m1-cB_4jli-a1-m1-cA 4jli-a1-m1-cB_4jli-a1-m3-cA 4jli-a1-m2-cB_4jli-a1-m1-cA 4jli-a1-m2-cB_4jli-a1-m2-cA 4jli-a1-m3-cB_4jli-a1-m2-cA 4jli-a1-m3-cB_4jli-a1-m3-cA 4jri-a1-m1-cA_4jri-a1-m1-cB 4jri-a1-m1-cA_4jri-a1-m2-cB 4jri-a1-m2-cA_4jri-a1-m2-cB 4jri-a1-m2-cA_4jri-a1-m3-cB 4jri-a1-m3-cA_4jri-a1-m1-cB 4jri-a1-m3-cA_4jri-a1-m3-cB 4jri-a2-m1-cC_4jri-a2-m1-cD 4jri-a2-m1-cC_4jri-a2-m4-cD 4jri-a2-m1-cD_4jri-a2-m5-cC 4jri-a2-m4-cC_4jri-a2-m4-cD 4jri-a2-m4-cC_4jri-a2-m5-cD 4jri-a2-m5-cC_4jri-a2-m5-cD 4jrk-a1-m1-cA_4jrk-a1-m1-cB 4jrk-a1-m1-cC_4jrk-a1-m1-cA 4jrk-a1-m2-cA_4jrk-a1-m2-cB 4jrk-a1-m2-cC_4jrk-a1-m2-cA 4juv-a1-m1-cA_4juv-a1-m1-cB 4juv-a1-m1-cA_4juv-a1-m1-cF 4juv-a1-m1-cC_4juv-a1-m1-cB 4juv-a1-m1-cC_4juv-a1-m1-cD 4juv-a1-m1-cD_4juv-a1-m1-cE 4juv-a1-m1-cE_4juv-a1-m1-cF 4mmk-a1-m1-cA_4mmk-a1-m1-cB 4mmk-a1-m1-cB_4mmk-a1-m1-cC 4mmk-a1-m1-cD_4mmk-a1-m1-cC 4mmk-a1-m1-cD_4mmk-a1-m1-cE 4mmk-a1-m1-cF_4mmk-a1-m1-cA 4mmk-a1-m1-cF_4mmk-a1-m1-cE 4mmk-a2-m1-cG_4mmk-a2-m1-cH 4mmk-a2-m1-cG_4mmk-a2-m1-cL 4mmk-a2-m1-cH_4mmk-a2-m1-cI 4mmk-a2-m1-cJ_4mmk-a2-m1-cI 4mmk-a2-m1-cJ_4mmk-a2-m1-cK 4mmk-a2-m1-cK_4mmk-a2-m1-cL 4mml-a1-m1-cA_4mml-a1-m5-cA 4mml-a1-m1-cA_4mml-a1-m6-cA 4mml-a1-m2-cA_4mml-a1-m4-cA 4mml-a1-m2-cA_4mml-a1-m6-cA 4mml-a1-m3-cA_4mml-a1-m4-cA 4mml-a1-m3-cA_4mml-a1-m5-cA 4pno-a1-m1-cA_4pno-a1-m5-cA 4pno-a1-m1-cA_4pno-a1-m6-cA 4pno-a1-m2-cA_4pno-a1-m4-cA 4pno-a1-m2-cA_4pno-a1-m6-cA 4pno-a1-m3-cA_4pno-a1-m4-cA 4pno-a1-m3-cA_4pno-a1-m5-cA 4qvc-a1-m1-cA_4qvc-a1-m1-cB 4qvc-a1-m1-cA_4qvc-a1-m1-cF 4qvc-a1-m1-cB_4qvc-a1-m1-cC 4qvc-a1-m1-cD_4qvc-a1-m1-cC 4qvc-a1-m1-cD_4qvc-a1-m1-cE 4qvc-a1-m1-cE_4qvc-a1-m1-cF 4qvd-a1-m1-cA_4qvd-a1-m1-cB 4qvd-a1-m1-cA_4qvd-a1-m1-cF 4qvd-a1-m1-cB_4qvd-a1-m1-cC 4qvd-a1-m1-cD_4qvd-a1-m1-cC 4qvd-a1-m1-cD_4qvd-a1-m1-cE 4qvd-a1-m1-cE_4qvd-a1-m1-cF 4rcb-a1-m1-cA_4rcb-a1-m5-cA 4rcb-a1-m1-cA_4rcb-a1-m6-cA 4rcb-a1-m2-cA_4rcb-a1-m4-cA 4rcb-a1-m2-cA_4rcb-a1-m6-cA 4rcb-a1-m3-cA_4rcb-a1-m4-cA 4rcb-a1-m3-cA_4rcb-a1-m5-cA 4rcc-a1-m1-cA_4rcc-a1-m5-cA 4rcc-a1-m1-cA_4rcc-a1-m6-cA 4rcc-a1-m2-cA_4rcc-a1-m4-cA 4rcc-a1-m2-cA_4rcc-a1-m6-cA 4rcc-a1-m3-cA_4rcc-a1-m4-cA 4rcc-a1-m3-cA_4rcc-a1-m5-cA 4v2s-a1-m1-cC_4v2s-a1-m1-cB 4v2s-a1-m1-cC_4v2s-a1-m1-cD 4v2s-a1-m1-cE_4v2s-a1-m1-cD 4v2s-a1-m1-cE_4v2s-a1-m1-cF 5i21-a1-m1-cA_5i21-a1-m1-cC 5i21-a1-m1-cA_5i21-a1-m4-cC 5i21-a1-m1-cC_5i21-a1-m2-cA 5i21-a1-m2-cA_5i21-a1-m2-cC 5i21-a1-m2-cC_5i21-a1-m4-cA 5i21-a1-m4-cA_5i21-a1-m4-cC 5i21-a2-m1-cB_5i21-a2-m7-cB 5i21-a2-m1-cB_5i21-a2-m8-cB 5i21-a2-m3-cB_5i21-a2-m6-cB 5i21-a2-m3-cB_5i21-a2-m8-cB 5i21-a2-m5-cB_5i21-a2-m6-cB 5i21-a2-m5-cB_5i21-a2-m7-cB 5new-a1-m1-cA_5new-a1-m1-cB 5new-a1-m1-cA_5new-a1-m2-cB 5new-a1-m1-cB_5new-a1-m3-cA 5new-a1-m2-cA_5new-a1-m2-cB 5new-a1-m2-cA_5new-a1-m3-cB 5new-a1-m3-cA_5new-a1-m3-cB 5uk7-a1-m1-cA_5uk7-a1-m1-cB 5uk7-a1-m1-cB_5uk7-a1-m1-cC 5uk7-a1-m1-cC_5uk7-a1-m1-cG 5uk7-a1-m1-cH_5uk7-a1-m1-cG 5uk7-a1-m1-cH_5uk7-a1-m1-cI 5uk7-a2-m1-cE_5uk7-a2-m1-cD 5uk7-a2-m1-cF_5uk7-a2-m1-cE 5uk7-a2-m1-cF_5uk7-a2-m1-cJ 5uk7-a2-m1-cJ_5uk7-a2-m1-cK 5uk7-a2-m1-cL_5uk7-a2-m1-cD 5uk7-a2-m1-cL_5uk7-a2-m1-cK 6bdg-a1-m1-cA_6bdg-a1-m5-cA 6bdg-a1-m1-cA_6bdg-a1-m6-cA 6bdg-a1-m2-cA_6bdg-a1-m4-cA 6bdg-a1-m2-cA_6bdg-a1-m6-cA 6bdg-a1-m3-cA_6bdg-a1-m4-cA 6bdg-a1-m3-cA_6bdg-a1-m5-cA 6o1k-a1-m1-cC_6o1k-a1-m1-cD 6o1k-a1-m1-cC_6o1k-a1-m1-cG 6o1k-a1-m1-cD_6o1k-a1-m1-cE 6o1k-a1-m1-cF_6o1k-a1-m1-cE 6o1k-a1-m1-cF_6o1k-a1-m1-cH 6o1k-a1-m1-cG_6o1k-a1-m1-cH 6o1k-a1-m1-cJ_6o1k-a1-m1-cI 6o1k-a1-m1-cJ_6o1k-a1-m1-cK 6o1k-a1-m1-cK_6o1k-a1-m1-cL 6o1k-a1-m1-cL_6o1k-a1-m1-cM 6o1k-a1-m1-cN_6o1k-a1-m1-cI 6o1k-a1-m1-cN_6o1k-a1-m1-cM 6o1l-a1-m1-cC_6o1l-a1-m1-cD 6o1l-a1-m1-cC_6o1l-a1-m1-cG 6o1l-a1-m1-cD_6o1l-a1-m1-cE 6o1l-a1-m1-cF_6o1l-a1-m1-cE 6o1l-a1-m1-cF_6o1l-a1-m1-cH 6o1l-a1-m1-cG_6o1l-a1-m1-cH 6o1l-a1-m1-cJ_6o1l-a1-m1-cI 6o1l-a1-m1-cJ_6o1l-a1-m1-cK 6o1l-a1-m1-cK_6o1l-a1-m1-cL 6o1l-a1-m1-cL_6o1l-a1-m1-cM 6o1l-a1-m1-cN_6o1l-a1-m1-cI 6o1l-a1-m1-cN_6o1l-a1-m1-cM 6o1m-a1-m1-cC_6o1m-a1-m1-cD 6o1m-a1-m1-cC_6o1m-a1-m1-cG 6o1m-a1-m1-cD_6o1m-a1-m1-cE 6o1m-a1-m1-cF_6o1m-a1-m1-cE 6o1m-a1-m1-cF_6o1m-a1-m1-cH 6o1m-a1-m1-cG_6o1m-a1-m1-cH 6o1m-a1-m1-cJ_6o1m-a1-m1-cI 6o1m-a1-m1-cJ_6o1m-a1-m1-cK 6o1m-a1-m1-cK_6o1m-a1-m1-cL 6o1m-a1-m1-cL_6o1m-a1-m1-cM 6o1m-a1-m1-cN_6o1m-a1-m1-cI 6o1m-a1-m1-cN_6o1m-a1-m1-cM 6qlb-a1-m1-cE_6qlb-a1-m1-cF 6qlb-a1-m1-cG_6qlb-a1-m1-cH 7ogm-a1-m1-cE_7ogm-a1-m1-cD 7ogm-a1-m1-cE_7ogm-a1-m1-cF 7ogm-a1-m1-cF_7ogm-a1-m1-cK 7ogm-a1-m1-cI_7ogm-a1-m1-cJ 7ogm-a1-m1-cK_7ogm-a1-m1-cJ 8bvj-a1-m1-cD_8bvj-a1-m1-cE 8bvj-a1-m1-cD_8bvj-a1-m1-cM 8bvj-a1-m1-cE_8bvj-a1-m1-cF 8bvj-a1-m1-cI_8bvj-a1-m1-cF 8bvj-a1-m1-cI_8bvj-a1-m1-cK 8bvj-a1-m1-cJ_8bvj-a1-m1-cT 8bvj-a1-m1-cL_8bvj-a1-m1-cJ 8bvj-a1-m1-cL_8bvj-a1-m1-cN 8bvj-a1-m1-cM_8bvj-a1-m1-cK 8bvj-a1-m1-cN_8bvj-a1-m1-cP 8bvj-a1-m1-cR_8bvj-a1-m1-cP 8bvj-a1-m1-cR_8bvj-a1-m1-cT 8bvj-a1-m1-cS_8bvj-a1-m1-cY 8bvj-a1-m1-cU_8bvj-a1-m1-cS 8bvj-a1-m1-cU_8bvj-a1-m1-cV 8bvj-a1-m1-cV_8bvj-a1-m1-cW 8bvj-a1-m1-cX_8bvj-a1-m1-cW 8bvj-a1-m1-cX_8bvj-a1-m1-cY 8bvm-a1-m1-cB_8bvm-a1-m1-cO 8bvm-a1-m1-cC_8bvm-a1-m1-cB 8bvm-a1-m1-cC_8bvm-a1-m1-cD 8bvm-a1-m1-cD_8bvm-a1-m1-cE 8bvm-a1-m1-cF_8bvm-a1-m1-cE 8bvm-a1-m1-cF_8bvm-a1-m1-cO 8bvm-a1-m1-cG_8bvm-a1-m1-cI 8bvm-a1-m1-cG_8bvm-a1-m1-cM 8bvm-a1-m1-cJ_8bvm-a1-m1-cI 8bvm-a1-m1-cJ_8bvm-a1-m1-cK 8bvm-a1-m1-cK_8bvm-a1-m1-cL 8bvm-a1-m1-cM_8bvm-a1-m1-cL SLQDPFLNALRRERVPVSIYLVNGIKLQGQIESFDQFVILLKNTVSQMVYKHAISTVVPSRPV SLQDPFLNALRRERVPVSIYLVNGIKLQGQIESFDQFVILLKNTVSQMVYKHAISTVVPSRPVS 1hkf-a1-m1-cA_1hkf-a1-m2-cA The three dimensional structure of NK cell receptor Nkp44, a triggering partner in natural cytotoxicity O95944 O95944 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 SKAQVLQSVAGQTLTVRCQYPPTGSLYEKKGWCKEASALVCIRLVTSSKPRTMAWTSRFTIWDDPDAGFFTVTMTDLREEDSGHYWCRIYRPSDNSVSKSVRFYLVVS SKAQVLQSVAGQTLTVRCQYPPTGSLYEKKGWCKEASALVCIRLVTSSKPRTMAWTSRFTIWDDPDAGFFTVTMTDLREEDSGHYWCRIYRPSDNSVSKSVRFYLVVS 1hkq-a1-m1-cA_1hkq-a1-m1-cB PPS10 plasmid DNA replication initiator protein RepA. Replication inactive, dimeric N-terminal domain. Q52546 Q52546 2.75 X-RAY DIFFRACTION 57 1.0 29438 (Pseudomonas savastanoi) 29438 (Pseudomonas savastanoi) 125 125 QSNKLIESSHTLTLNEKRLVLCAASLIDSRKPLPKDGYLTIRADTFAEVFGIDVKHAYAALDDAATKLFNRDIRRYVKGKVVERMRWVFHVKYREGQGCVELGFSPTIIPHLTMLHKEFTSYQLK QSNKLIESSHTLTLNEKRLVLCAASLIDSRKPLPKDGYLTIRADTFAEVFGIDVKHAYAALDDAATKLFNRDIRRYVKGKVVERMRWVFHVKYREGQGCVELGFSPTIIPHLTMLHKEFTSYQLK 1hle-a1-m2-cA_1hle-a1-m1-cA CRYSTAL STRUCTURE OF CLEAVED EQUINE LEUCOCYTE ELASTASE INHIBITOR DETERMINED AT 1.95 ANGSTROMS RESOLUTION P05619 P05619 1.95 X-RAY DIFFRACTION 59 1.0 9796 (Equus caballus) 9796 (Equus caballus) 344 344 MEQLSTANTHFAVDLFRALNESDPTGNIFISPLSISSALAMIFLGTRGNTAAQVSKALYFDTVEDIHSRFQSLNADINKPGAPYILKLANRLYGEKTYNFLADFLASTQKMYGAELASVDFQQAPEDARKEINEWVKGQTEGKIPELLVKGMVDNMTKLVLVNAIYFKGNWQQKFMKEATRDAPFRLNKKDTKTVKMMYQKKKFPYNYIEDLKCRVLELPYQGKELSMIILLPDDIEDESTGLEKIEKQLTLDKLREWTKPENLYLAEVNVHLPRFKLEESYDLTSHLARLGVQDLFNRGKADLSGMSGARDLFVSKIIHKSFVDLNEEGTEAAAATAGTILLA MEQLSTANTHFAVDLFRALNESDPTGNIFISPLSISSALAMIFLGTRGNTAAQVSKALYFDTVEDIHSRFQSLNADINKPGAPYILKLANRLYGEKTYNFLADFLASTQKMYGAELASVDFQQAPEDARKEINEWVKGQTEGKIPELLVKGMVDNMTKLVLVNAIYFKGNWQQKFMKEATRDAPFRLNKKDTKTVKMMYQKKKFPYNYIEDLKCRVLELPYQGKELSMIILLPDDIEDESTGLEKIEKQLTLDKLREWTKPENLYLAEVNVHLPRFKLEESYDLTSHLARLGVQDLFNRGKADLSGMSGARDLFVSKIIHKSFVDLNEEGTEAAAATAGTILLA 1hlg-a1-m1-cA_1hlg-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN GASTRIC LIPASE P07098 P07098 3 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 368 368 SPEVTMNISQMITYWGYPNEEYEVVTEDGYILEVNRIPYGKKNSGQRPVVFLQHGLLASATNWISNLPNNSLAFILADAGYDVWLGNSRGNTWARRNLYYSPDSVEFWAFSFDEMAKYDLPATIDFIVKKTGQKQLHYVGHSQGTTIGFIAFSTNPSLAKRIKTFYALAPVATVKYTKSLINKLRFVPQSLFKFIFGDKIFYPHNFFDQFLATEVCSREMLNLLCSNALFIICGFDSKNFNTSRLDVYLSHNPAGTSVQNMFHWTQAVKSGKFQAYDWGSPVQNRMHYDQSQPPYYNVTAMNVPIAVWNGGKDLLADPQDVGLLLPKLPNLIYHKEIPFYNHLDFIWAMDAPQEVYNDIVSMISEDKK SPEVTMNISQMITYWGYPNEEYEVVTEDGYILEVNRIPYGKKNSGQRPVVFLQHGLLASATNWISNLPNNSLAFILADAGYDVWLGNSRGNTWARRNLYYSPDSVEFWAFSFDEMAKYDLPATIDFIVKKTGQKQLHYVGHSQGTTIGFIAFSTNPSLAKRIKTFYALAPVATVKYTKSLINKLRFVPQSLFKFIFGDKIFYPHNFFDQFLATEVCSREMLNLLCSNALFIICGFDSKNFNTSRLDVYLSHNPAGTSVQNMFHWTQAVKSGKFQAYDWGSPVQNRMHYDQSQPPYYNVTAMNVPIAVWNGGKDLLADPQDVGLLLPKLPNLIYHKEIPFYNHLDFIWAMDAPQEVYNDIVSMISEDKK 1hlm-a1-m1-cA_1hlm-a1-m2-cA AMINO ACID SEQUENCE OF A GLOBIN FROM THE SEA CUCUMBER CAUDINA (MOLPADIA) ARENICOLA P80017 P80017 2.9 X-RAY DIFFRACTION 56 1.0 7698 (Molpadia arenicola) 7698 (Molpadia arenicola) 158 158 GATQSFQSVGDLTPAEKDLIRSTWDQLMTHRTGFVADVFIRIFHNDPTAQRKFPQMAGLSPAELRTSRQMHAHAIRVSALMTTYIDEMDTEVLPELLATLTRTHDKNHVGKKNYDLFGKVLMEAIKAELGVGFTKQVHDAWAKTFAIVQGVLITKHAS GATQSFQSVGDLTPAEKDLIRSTWDQLMTHRTGFVADVFIRIFHNDPTAQRKFPQMAGLSPAELRTSRQMHAHAIRVSALMTTYIDEMDTEVLPELLATLTRTHDKNHVGKKNYDLFGKVLMEAIKAELGVGFTKQVHDAWAKTFAIVQGVLITKHAS 1hlq-a1-m1-cB_1hlq-a1-m1-cA CRYSTAL STRUCTURE OF RHODOFERAX FERMENTANS HIGH POTENTIAL IRON-SULFUR PROTEIN REFINED TO 1.45 A P80882 P80882 1.45 X-RAY DIFFRACTION 48 1.0 28066 (Rhodoferax fermentans) 28066 (Rhodoferax fermentans) 74 75 APLVAETDANAKSLGYVADTTKADKTKYPKHTKDQSCSTCALYQGKTAPQGACPLFAGKEVVAKGWCSAWAKKA AAPLVAETDANAKSLGYVADTTKADKTKYPKHTKDQSCSTCALYQGKTAPQGACPLFAGKEVVAKGWCSAWAKKA 1hlq-a1-m1-cB_1hlq-a1-m1-cC CRYSTAL STRUCTURE OF RHODOFERAX FERMENTANS HIGH POTENTIAL IRON-SULFUR PROTEIN REFINED TO 1.45 A P80882 P80882 1.45 X-RAY DIFFRACTION 27 0.986 28066 (Rhodoferax fermentans) 28066 (Rhodoferax fermentans) 74 74 APLVAETDANAKSLGYVADTTKADKTKYPKHTKDQSCSTCALYQGKTAPQGACPLFAGKEVVAKGWCSAWAKKA AAPLVAETDANAKSLGYVADTTKADKTKYPKHTKDQSCSTCALYQGKTAPQGACPLFAGKEVVAKGWCSAWAKK 1hlq-a1-m1-cC_1hlq-a1-m1-cA CRYSTAL STRUCTURE OF RHODOFERAX FERMENTANS HIGH POTENTIAL IRON-SULFUR PROTEIN REFINED TO 1.45 A P80882 P80882 1.45 X-RAY DIFFRACTION 29 1.0 28066 (Rhodoferax fermentans) 28066 (Rhodoferax fermentans) 74 75 AAPLVAETDANAKSLGYVADTTKADKTKYPKHTKDQSCSTCALYQGKTAPQGACPLFAGKEVVAKGWCSAWAKK AAPLVAETDANAKSLGYVADTTKADKTKYPKHTKDQSCSTCALYQGKTAPQGACPLFAGKEVVAKGWCSAWAKKA 1hne-a1-m3-cE_1hne-a1-m2-cE Structure of human neutrophil elastase in complex with a peptide chloromethyl ketone inhibitor at 1.84-angstroms resolution P08246 P08246 1.84 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 1hne-a1-m1-cE_1hne-a1-m2-cE 1hne-a1-m3-cE_1hne-a1-m1-cE 1ppg-a1-m1-cE_1ppg-a1-m2-cE 1ppg-a1-m3-cE_1ppg-a1-m1-cE 1ppg-a1-m3-cE_1ppg-a1-m2-cE 4wvp-a2-m1-cE_4wvp-a2-m2-cE 4wvp-a2-m3-cE_4wvp-a2-m1-cE 4wvp-a2-m3-cE_4wvp-a2-m2-cE IVGGRRARPHAWPFMVSLQLRGGHFCGATLIAPNFVMSAAHCVANVNVRAVRVVLGAHNLSRREPTRQVFAVQRIFEDGYDPVNLLNDIVILQLNGSATINANVQVAQLPAQGRRLGNGVQCLAMGWGLLGRNRGIASVLQELNVTVVTSLCRRSNVCTLVRGRQAGVCFGDSGSPLVCNGLIHGIASFVRGGCASGLYPDAFAPVAQFVNWIDSIIQ IVGGRRARPHAWPFMVSLQLRGGHFCGATLIAPNFVMSAAHCVANVNVRAVRVVLGAHNLSRREPTRQVFAVQRIFEDGYDPVNLLNDIVILQLNGSATINANVQVAQLPAQGRRLGNGVQCLAMGWGLLGRNRGIASVLQELNVTVVTSLCRRSNVCTLVRGRQAGVCFGDSGSPLVCNGLIHGIASFVRGGCASGLYPDAFAPVAQFVNWIDSIIQ 1hnk-a1-m1-cA_1hnk-a1-m2-cA CRYSTAL STRUCTURE OF BETA-KETOACYL-ACP SYNTHASE III, APO TETRAGONAL FORM P0A6R0 P0A6R0 1.9 X-RAY DIFFRACTION 137 1.0 562 (Escherichia coli) 562 (Escherichia coli) 271 271 MYTKIIGTGSYLPEQVRTNADLEKMVDTSDEWIVTRTGIRERHIAAPNETVSTMGFEAATRAIEMAGIEKDQIGLIVVATTSAFPSAACQIQSMLGIKGCPAFDVAAACAGFTYALSVADQYVKSGAVKYALVVGSDVLARTTIIIFGDGAGAAVLAASEEPGIISTHLHADGSTELAHIVDETLAANNLDRSQLDWLVPHQANLRIISATAKKLGMSMDNVVVTLDRHGNTSAASVPCALDEAVRDGRIKPGQLVLLEAFFTWGSALVRF MYTKIIGTGSYLPEQVRTNADLEKMVDTSDEWIVTRTGIRERHIAAPNETVSTMGFEAATRAIEMAGIEKDQIGLIVVATTSAFPSAACQIQSMLGIKGCPAFDVAAACAGFTYALSVADQYVKSGAVKYALVVGSDVLARTTIIIFGDGAGAAVLAASEEPGIISTHLHADGSTELAHIVDETLAANNLDRSQLDWLVPHQANLRIISATAKKLGMSMDNVVVTLDRHGNTSAASVPCALDEAVRDGRIKPGQLVLLEAFFTWGSALVRF 1hp7-a2-m1-cA_1hp7-a2-m2-cA A 2.1 ANGSTROM STRUCTURE OF AN UNCLEAVED ALPHA-1-ANTITRYPSIN SHOWS VARIABILITY OF THE REACTIVE CENTER AND OTHER LOOPS P01009 P01009 2.1 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 DHPTFNKITPNLAEFAFSLYRQLAHQSNSTNIFFSPVSIATAFAMLSLGTKGDTHDEILEGLNFNLTEIPEAQIHEGFQELLHTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHCKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLSITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLTIDEKGTEAAGAMFLEAIPMSIPPEVKFNKPFVFLMIDQNTKSPLFMGKVVNPTQK DHPTFNKITPNLAEFAFSLYRQLAHQSNSTNIFFSPVSIATAFAMLSLGTKGDTHDEILEGLNFNLTEIPEAQIHEGFQELLHTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHCKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLSITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLTIDEKGTEAAGAMFLEAIPMSIPPEVKFNKPFVFLMIDQNTKSPLFMGKVVNPTQK 1hp7-a3-m1-cA_1hp7-a3-m3-cA A 2.1 ANGSTROM STRUCTURE OF AN UNCLEAVED ALPHA-1-ANTITRYPSIN SHOWS VARIABILITY OF THE REACTIVE CENTER AND OTHER LOOPS P01009 P01009 2.1 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 DHPTFNKITPNLAEFAFSLYRQLAHQSNSTNIFFSPVSIATAFAMLSLGTKGDTHDEILEGLNFNLTEIPEAQIHEGFQELLHTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHCKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLSITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLTIDEKGTEAAGAMFLEAIPMSIPPEVKFNKPFVFLMIDQNTKSPLFMGKVVNPTQK DHPTFNKITPNLAEFAFSLYRQLAHQSNSTNIFFSPVSIATAFAMLSLGTKGDTHDEILEGLNFNLTEIPEAQIHEGFQELLHTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHCKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLSITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLTIDEKGTEAAGAMFLEAIPMSIPPEVKFNKPFVFLMIDQNTKSPLFMGKVVNPTQK 1hpc-a1-m1-cA_1hpc-a1-m1-cB REFINED STRUCTURES AT 2 ANGSTROMS AND 2.2 ANGSTROMS OF THE TWO FORMS OF THE H-PROTEIN, A LIPOAMIDE-CONTAINING PROTEIN OF THE GLYCINE DECARBOXYLASE P16048 P16048 2 X-RAY DIFFRACTION 47 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 131 131 SNVLDGLKYAPSHEWVKHEGSVATIGITDHAQDHLGEVVFVELPEPGVSVTKGKGFGAVESVKATSDVNSPISGEVIEVNTGLTGKPGLINSSPYEDGWMIKIKPTSPDELESLLGAKEYTKFCEEEDAAH SNVLDGLKYAPSHEWVKHEGSVATIGITDHAQDHLGEVVFVELPEPGVSVTKGKGFGAVESVKATSDVNSPISGEVIEVNTGLTGKPGLINSSPYEDGWMIKIKPTSPDELESLLGAKEYTKFCEEEDAAH 1hql-a1-m1-cB_1hql-a1-m2-cB The xenograft antigen in complex with the B4 isolectin of Griffonia simplicifolia lectin-1 Q8W1R6 Q8W1R6 2.2 X-RAY DIFFRACTION 76 1.0 3850 (Griffonia simplicifolia) 3850 (Griffonia simplicifolia) 236 236 1gnz-a1-m1-cA_1gnz-a1-m2-cA 1hql-a1-m1-cA_1hql-a1-m2-cA SVSFTFPNFWSDVEDSIIFQGDANTTAGTLQLCKTNQYGTPLQWSAGRALYSDPVQLWDNKTESVASFYTEFTFFLKITGNGPADGLAFFLAPPDSDVKDAGEYLGLFNKSTATQPSKNQVVAVEFDTWTNPNFPEPSYRHIGINVNSIVSVATKRWEDSDIFSGKIATARISYDGSAEILTVVLSYPDGSDYILSHSVDMRQNLPESVRVGISASTGNNQFLTVYILSWRFSSNL SVSFTFPNFWSDVEDSIIFQGDANTTAGTLQLCKTNQYGTPLQWSAGRALYSDPVQLWDNKTESVASFYTEFTFFLKITGNGPADGLAFFLAPPDSDVKDAGEYLGLFNKSTATQPSKNQVVAVEFDTWTNPNFPEPSYRHIGINVNSIVSVATKRWEDSDIFSGKIATARISYDGSAEILTVVLSYPDGSDYILSHSVDMRQNLPESVRVGISASTGNNQFLTVYILSWRFSSNL 1hql-a1-m2-cA_1hql-a1-m2-cB The xenograft antigen in complex with the B4 isolectin of Griffonia simplicifolia lectin-1 Q8W1R6 Q8W1R6 2.2 X-RAY DIFFRACTION 31 1.0 3850 (Griffonia simplicifolia) 3850 (Griffonia simplicifolia) 236 236 1hql-a1-m1-cA_1hql-a1-m1-cB SVSFTFPNFWSDVEDSIIFQGDANTTAGTLQLCKTNQYGTPLQWSAGRALYSDPVQLWDNKTESVASFYTEFTFFLKITGNGPADGLAFFLAPPDSDVKDAGEYLGLFNKSTATQPSKNQVVAVEFDTWTNPNFPEPSYRHIGINVNSIVSVATKRWEDSDIFSGKIATARISYDGSAEILTVVLSYPDGSDYILSHSVDMRQNLPESVRVGISASTGNNQFLTVYILSWRFSSNL SVSFTFPNFWSDVEDSIIFQGDANTTAGTLQLCKTNQYGTPLQWSAGRALYSDPVQLWDNKTESVASFYTEFTFFLKITGNGPADGLAFFLAPPDSDVKDAGEYLGLFNKSTATQPSKNQVVAVEFDTWTNPNFPEPSYRHIGINVNSIVSVATKRWEDSDIFSGKIATARISYDGSAEILTVVLSYPDGSDYILSHSVDMRQNLPESVRVGISASTGNNQFLTVYILSWRFSSNL 1hqo-a1-m1-cB_1hqo-a1-m1-cA CRYSTAL STRUCTURE OF THE NITROGEN REGULATION FRAGMENT OF THE YEAST PRION PROTEIN URE2P P23202 P23202 2.3 X-RAY DIFFRACTION 115 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 217 221 PLEGYTLFSHRSAPNGFKVAIVLSELGFHYNTIFLDFNLGEHRAPEFVSVNPNARVPALIDHGDNLSIWESGAILLHLVNKYYKETGNPLLWSDDLADQSQINAWLFFQTSGHAPIGQALHFRYFHSQKIASAVERYTDEVRRVYGVVEALAERREALVFDYPVWLVGDKLTIADLAFVPWNNVVDRIGINIKIEFPEVYKWTKHRRPAVIKALRGE FQEQPLEGYTLFSHRSAPNGFKVAIVLSELGFHYNTIFLDFNLGEHRAPEFVSVNPNARVPALIDHGDNLSIWESGAILLHLVNKYYKETGNPLLWSDDLADQSQINAWLFFQTSGHAPIGQALHFRYFHSQKIASAVERYTDEVRRVYGVVEALAERREALVFDYPVWLVGDKLTIADLAFVPWNNVVDRIGINIKIEFPEVYKWTKHRRPAVIKALRGE 1hqs-a1-m1-cA_1hqs-a1-m1-cB CRYSTAL STRUCTURE OF ISOCITRATE DEHYDROGENASE FROM BACILLUS SUBTILIS P39126 P39126 1.55 X-RAY DIFFRACTION 291 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 422 422 MAQGEKITVSNGVLNVPNNPIIPFIEGDGTGPDIWNAASKVLEAAVEKAYKGEKKITWKEVYAGEKAYNKTGEWLPAETLDVIREYFIAIKGPLTTPVGGGIRSLNVALRQELDLFVLRPVRYFTGVPSPVKRPEDTDMVIFRENTEDIYAGIEYAKGSEEVQKLISFLQNELNVNKIRFPETSGIGIKPVSEEGTSRLVRAAIDYAIEHGRKSVTLVHKGNIMKFTEGAFKNWGYELAEKEYGDKVFTWAQYDRIAEEQGKDAANKAQSEAEAAGKIIIKDSIADIFLQQILTRPNEFDVVATMNLNGDYISDALAAQVGGIGIAPGANINYETGHAIFEATHGTAPKYAGLDKVNPSSVILSGVLLLEHLGWNEAADLVIKSMEKTIASKVVTYDFARLMDGATEVKCSEFGEELIKNMD MAQGEKITVSNGVLNVPNNPIIPFIEGDGTGPDIWNAASKVLEAAVEKAYKGEKKITWKEVYAGEKAYNKTGEWLPAETLDVIREYFIAIKGPLTTPVGGGIRSLNVALRQELDLFVLRPVRYFTGVPSPVKRPEDTDMVIFRENTEDIYAGIEYAKGSEEVQKLISFLQNELNVNKIRFPETSGIGIKPVSEEGTSRLVRAAIDYAIEHGRKSVTLVHKGNIMKFTEGAFKNWGYELAEKEYGDKVFTWAQYDRIAEEQGKDAANKAQSEAEAAGKIIIKDSIADIFLQQILTRPNEFDVVATMNLNGDYISDALAAQVGGIGIAPGANINYETGHAIFEATHGTAPKYAGLDKVNPSSVILSGVLLLEHLGWNEAADLVIKSMEKTIASKVVTYDFARLMDGATEVKCSEFGEELIKNMD 1hqz-a10-m1-c9_1hqz-a10-m2-c9 Cofilin homology domain of a yeast actin-binding protein ABP1P P15891 P15891 2.1 X-RAY DIFFRACTION 82 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 137 137 ALEPIDYTTHSREIDAEYLKIVRGSDPDTTWLIISPNAKKEYEPESTGSSFHDFLQLFDETKVQYGLARVSPPGSDVEKIIIIGWCPDSAPLKTRASFAANFAAVANNLFKGYHVQVTARDEDDLDENELLMKISNA ALEPIDYTTHSREIDAEYLKIVRGSDPDTTWLIISPNAKKEYEPESTGSSFHDFLQLFDETKVQYGLARVSPPGSDVEKIIIIGWCPDSAPLKTRASFAANFAAVANNLFKGYHVQVTARDEDDLDENELLMKISNA 1hr8-a5-m1-cE_1hr8-a5-m2-cC Yeast Mitochondrial Processing Peptidase beta-E73Q Mutant Complexed with Cytochrome C Oxidase IV Signal Peptide P11914 P11914 2.7 X-RAY DIFFRACTION 41 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 445 448 1hr8-a5-m1-cG_1hr8-a5-m1-cA ARTDNFKLSSLANGLKVATSNTPGHFSALGLYIDAGSRFEGRNLKGCTHILDRLAFKSTEHVEGRAMAETLELLGGNYQCTSSRENLMYQASVFNQDVGKMLQLMSETVRFPKITEQELQEQKLSAEYEIDEVWMKPELVLPELLHTAAYSGETLGSPLICPRGLIPSISKYYLLDYRNKFYTPENTVAAFVGVPHEKALELTGKYLGDWQSTHPPITKKVAQYTGGESCIPPAPVFGNLPELFHIQIGFEGLPIDHPDIYALATLQTLLGGGGMYSRLYTHVLNQYYFVENCVAFNHSYSDSGIFGISLSCIPQAAPQAVEVIAQQMYNTFANKDLRLTEDEVSRAKNQLKSSLLMNLESKLVELEDMGRQVLMHGRKIPVNEMISKIEDLKPDDISRVAEMIFTGNVNNAGNGKGRATVVMQGDRGSFGDVENVLKAYGLGNS TDNFKLSSLANGLKVATSNTPGHFSALGLYIDAGSRFEGRNLKGCTHILDRLAFKSTEHVEGRAMAETLELLGGNYQCTSSRENLMYQASVFNQDVGKMLQLMSETVRFPKITEQELQEQKLSAEYEIDEVWMKPELVLPELLHTAAYSGETLGSPLICPRGLIPSISKYYLLDYRNKFYTPENTVAAFVGVPHEKALELTGKYLGDWQSTHPPITKKVAQYTGGESCIPPAPVFGNLPELFHIQIGFEGLPIDHPDIYALATLQTLLGGGGGPGKGMYSRLYTHVLNQYYFVENCVAFNHSYSDSGIFGISLSCIPQAAPQAVEVIAQQMYNTFANKDLRLTEDEVSRAKNQLKSSLLMNLESKLVELEDMGRQVLMHGRKIPVNEMISKIEDLKPDDISRVAEMIFTGNVNNAGNGKGRATVVMQGDRGSFGDVENVLKAYGLGNS 1hr8-a5-m1-cG_1hr8-a5-m2-cC Yeast Mitochondrial Processing Peptidase beta-E73Q Mutant Complexed with Cytochrome C Oxidase IV Signal Peptide P11914 P11914 2.7 X-RAY DIFFRACTION 66 0.991 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 448 448 1hr8-a5-m1-cE_1hr8-a5-m1-cA ARTDNFKLSSLANGLKVATSNTPGHFSALGLYIDAGSRFEGRNLKGCTHILDRLAFKSTEHVEGRAMAETLELLGGNYQCTSSRENLMYQASVFNQDVGKMLQLMSETVRFPKITEQELQEQKLSAEYEIDEVWMKPELVLPELLHTAAYSGETLGSPLICPRGLIPSISKYYLLDYRNKFYTPENTVAAFVGVPHEKALELTGKYLGDWQSTHPPITKKVAQYTGGESCIPPAPVFGNLPELFHIQIGFEGLPIDHPDIYALATLQTLLGGGGGMYSRLYTHVLNQYYFVENCVAFNHSYSDSGIFGISLSCIPQAAPQAVEVIAQQMYNTFANKDLRLTEDEVSRAKNQLKSSLLMNLESKLVELEDMGRQVLMHGRKIPVNEMISKIEDLKPDDISRVAEMIFTGNVNNAGNGKGRATVVMQGDRGSFGDVENVLKAYGLGNSSS TDNFKLSSLANGLKVATSNTPGHFSALGLYIDAGSRFEGRNLKGCTHILDRLAFKSTEHVEGRAMAETLELLGGNYQCTSSRENLMYQASVFNQDVGKMLQLMSETVRFPKITEQELQEQKLSAEYEIDEVWMKPELVLPELLHTAAYSGETLGSPLICPRGLIPSISKYYLLDYRNKFYTPENTVAAFVGVPHEKALELTGKYLGDWQSTHPPITKKVAQYTGGESCIPPAPVFGNLPELFHIQIGFEGLPIDHPDIYALATLQTLLGGGGGPGKGMYSRLYTHVLNQYYFVENCVAFNHSYSDSGIFGISLSCIPQAAPQAVEVIAQQMYNTFANKDLRLTEDEVSRAKNQLKSSLLMNLESKLVELEDMGRQVLMHGRKIPVNEMISKIEDLKPDDISRVAEMIFTGNVNNAGNGKGRATVVMQGDRGSFGDVENVLKAYGLGNS 1hrh-a1-m1-cB_1hrh-a1-m1-cA CRYSTAL STRUCTURE OF THE RIBONUCLEASE H DOMAIN OF HIV-1 REVERSE TRANSCRIPTASE P03366 P03366 2.4 X-RAY DIFFRACTION 24 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 122 125 YQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNKGRQKVVPLTNTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDKSESELVNQIIEQLIKKEKVYLAWVPGNEQVDKLVSA YQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNKGRQKVVPLTNTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDKSESELVNQIIEQLIKKEKVYLAWVPGGNEQVDKLVSAGI 1hrj-a1-m1-cA_1hrj-a1-m1-cB HUMAN RANTES, NMR, 13 STRUCTURES P13501 P13501 NOT SOLUTION NMR 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 SPYSSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS SPYSSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 1hru-a1-m1-cB_1hru-a1-m1-cA THE STRUCTURE OF THE YRDC GENE PRODUCT FROM E.COLI P45748 P45748 2 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 182 184 NLQRDAIAAAIDVLNEERVIAYPTEAVFGVGCDPDSETAVRLLELKQRPVDKGLILIAANYEQLKPYIDDTLTDVQRETIFSRWPGPVTFVFPAPATTPRWLTGRFDSLAVRVTDHPLVVALCQAYGKPLVSTSANLSGLPPCRTVDEVRAQFGAAFPVVPGETGGRLNPSEIRDALTGELF NNLQRDAIAAAIDVLNEERVIAYPTEAVFGVGCDPDSETAVRLLELKQRPVDKGLILIAANYEQLKPYIDDTLTDVQRETIFSRWPGPVTFVFPAPATTPRWLTGRFDSLAVRVTDHPLVVALCQAYGKPLVSTSANLSGLPPCRTVDEVRAQFGAAFPVVPGETGGRLNPSEIRDALTGELFR 1hs5-a1-m1-cA_1hs5-a1-m1-cB NMR SOLUTION STRUCTURE OF DESIGNED P53 DIMER P04637 P04637 NOT SOLUTION NMR 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 DGEYFTLQIRGRERFEQFRERNEALELKDAQAGK DGEYFTLQIRGRERFEQFRERNEALELKDAQAGK 1hsj-a1-m1-cA_1hsj-a1-m1-cB SARR MBP FUSION STRUCTURE Q9F0R1 Q9F0R1 2.3 X-RAY DIFFRACTION 115 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 487 487 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALAAAQTNAAAEFMSKINDINDLVNATFQVKKFFRDTKKKFNLNYEEIYILNHILRSESNEISSKEIAKCSEFKPYYLTKALQKLKDLKLLSKKRSLQDERTVIVYVTDTQKANIQKLISELEEYIKN KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALAAAQTNAAAEFMSKINDINDLVNATFQVKKFFRDTKKKFNLNYEEIYILNHILRSESNEISSKEIAKCSEFKPYYLTKALQKLKDLKLLSKKRSLQDERTVIVYVTDTQKANIQKLISELEEYIKN 1hsl-a1-m1-cA_1hsl-a1-m1-cB REFINED 1.89 ANGSTROMS STRUCTURE OF THE HISTIDINE-BINDING PROTEIN COMPLEXED WITH HISTIDINE AND ITS RELATIONSHIP WITH MANY OTHER ACTIVE TRANSPORT(SLASH)CHEMOSENSORY RECEPTORS P0AEU0 P0AEU0 1.89 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 238 238 AIPQKIRIGTDPTYAPFESKNAQGELVGFDIDLAKELCKRINTQCTFVENPLDALIPSLKAKKIDAIMSSLSITEKRQQEIAFTDKLYAADSRLVVAKNSDIQPTVASLKGKRVGVLQGTTQETFGNEHWAPKGIEIVSYQGQDNIYSDLTAGRIDAAFQDEVAASEGFLKQPVGKDYKFGGPAVKDEKLFGVGTGMGLRKEDNELREALNKAFAEMRADGTYEKLAKKYFDFDVYGG AIPQKIRIGTDPTYAPFESKNAQGELVGFDIDLAKELCKRINTQCTFVENPLDALIPSLKAKKIDAIMSSLSITEKRQQEIAFTDKLYAADSRLVVAKNSDIQPTVASLKGKRVGVLQGTTQETFGNEHWAPKGIEIVSYQGQDNIYSDLTAGRIDAAFQDEVAASEGFLKQPVGKDYKFGGPAVKDEKLFGVGTGMGLRKEDNELREALNKAFAEMRADGTYEKLAKKYFDFDVYGG 1hss-a2-m1-cC_1hss-a2-m1-cD 0.19 ALPHA-AMYLASE INHIBITOR FROM WHEAT P01085 P01085 2.06 X-RAY DIFFRACTION 85 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 111 111 1hss-a1-m1-cA_1hss-a1-m1-cB MCYPGQAFQVPALPACRPLLRLQCNGSQVPEAVLRDCCQQLAHISEWCRCGALYSMLDSMYKEHGAFPRCRREVVKLTAASITAVCRLPIVVDASGDGAYVCKDVAAYPDA MCYPGQAFQVPALPACRPLLRLQCNGSQVPEAVLRDCCQQLAHISEWCRCGALYSMLDSMYKEHGAFPRCRREVVKLTAASITAVCRLPIVVDASGDGAYVCKDVAAYPDA 1ht9-a1-m1-cA_1ht9-a1-m1-cB DOMAIN SWAPPING EF-HANDS P02633 P02633 1.76 X-RAY DIFFRACTION 103 1.0 9913 (Bos taurus) 9913 (Bos taurus) 76 76 MKSPEELKGIFEKYAAKEGDPNNLSKEELKLLLQTEFPSLLKGMSTLDELFEELDKNGDGEVSFEEFQVLVKKISQ MKSPEELKGIFEKYAAKEGDPNNLSKEELKLLLQTEFPSLLKGMSTLDELFEELDKNGDGEVSFEEFQVLVKKISQ 1htn-a1-m2-cA_1htn-a1-m3-cA HUMAN TETRANECTIN, A TRIMERIC PLASMINOGEN BINDING PROTEIN WITH AN ALPHA-HELICAL COILED COIL P05452 P05452 2.8 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 1htn-a1-m1-cA_1htn-a1-m2-cA 1htn-a1-m1-cA_1htn-a1-m3-cA LKSRLDTLSQEVALLKEQQALQTVCLKGTKVHMKCFLAFTQTKTFHEASEDCISRGGTLSTPQTGSENDALYEYLRQSVGNEAEIWLGLNDMAAEGTWVDMTGARIAYKNWETEITAQPDGGKTENCAVLSGAANGKWFDKRCRDQLPYICQFGIV LKSRLDTLSQEVALLKEQQALQTVCLKGTKVHMKCFLAFTQTKTFHEASEDCISRGGTLSTPQTGSENDALYEYLRQSVGNEAEIWLGLNDMAAEGTWVDMTGARIAYKNWETEITAQPDGGKTENCAVLSGAANGKWFDKRCRDQLPYICQFGIV 1htr-a1-m1-cB_1htr-a1-m2-cB CRYSTAL AND MOLECULAR STRUCTURES OF HUMAN PROGASTRICSIN AT 1.62 ANGSTROMS RESOLUTION P20142 P20142 1.62 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 SVTYEPMAYMDAAYFGEISIGTPPQNFLVLFDTGSSNLWVPSVYCQSQACTSHSRFNPSESSTYSTNGQTFSLQYGSGSLTGFFGYDTLTVQSIQVPNQEFGLSENEPGTNFVYAQFDGIMGLAYPALSVDEATTAMQGMVQEGALTSPVFSVYLSNQQGSSGGAVVFGGVDSSLYTGQIYWAPVTQELYWQIGIEEFLIGGQASGWCSEGCQAIVDTGTSLLTVPQQYMSALLQATGAQEDEYGQFLVNCNSIQNLPSLTFIINGVEFPLPPSSYILSNNGYCTVGVEPTYLSSQNGQPLWILGDVFLRSYYSVYDLGNNRVGFATAA SVTYEPMAYMDAAYFGEISIGTPPQNFLVLFDTGSSNLWVPSVYCQSQACTSHSRFNPSESSTYSTNGQTFSLQYGSGSLTGFFGYDTLTVQSIQVPNQEFGLSENEPGTNFVYAQFDGIMGLAYPALSVDEATTAMQGMVQEGALTSPVFSVYLSNQQGSSGGAVVFGGVDSSLYTGQIYWAPVTQELYWQIGIEEFLIGGQASGWCSEGCQAIVDTGTSLLTVPQQYMSALLQATGAQEDEYGQFLVNCNSIQNLPSLTFIINGVEFPLPPSSYILSNNGYCTVGVEPTYLSSQNGQPLWILGDVFLRSYYSVYDLGNNRVGFATAA 1htr-a1-m1-cP_1htr-a1-m2-cP CRYSTAL AND MOLECULAR STRUCTURES OF HUMAN PROGASTRICSIN AT 1.62 ANGSTROMS RESOLUTION P20142 P20142 1.62 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 AVVKVPLKKFKSIRETMKEKGLLGEFLRTHKYDPAWKYRFGDL AVVKVPLKKFKSIRETMKEKGLLGEFLRTHKYDPAWKYRFGDL 1htt-a2-m1-cD_1htt-a2-m1-cC HISTIDYL-TRNA SYNTHETASE P60906 P60906 2.6 X-RAY DIFFRACTION 248 1.0 562 (Escherichia coli) 562 (Escherichia coli) 357 366 1htt-a1-m1-cB_1htt-a1-m1-cA 1kmm-a1-m1-cB_1kmm-a1-m1-cA 1kmm-a2-m1-cD_1kmm-a2-m1-cC 1kmn-a1-m1-cB_1kmn-a1-m1-cA 1kmn-a2-m1-cD_1kmn-a2-m1-cC 2el9-a1-m1-cA_2el9-a1-m1-cB 2el9-a2-m1-cC_2el9-a2-m1-cD NIQAIRGMNDYLPGETAIWQRIEGTLKNVLGSYGYSEIRLPIVEQTPLFKRAIGEVTDVVEKEMYTFEDRNGDSLTLRPEGTAGCVRAGIEHGLLYNQEQRLWYIGPMFRHERPQKGRYRQFHQLGCEVFGLQGPDIDAELIMLTARWWRALGISEHVTLELNSIGDEESREHFAGLCKLLESAGIAYTVNQRLVRGLDYYNRTVFEWVTNQGTVCAGGRYDGLVEQLGGRATPAVGFAMGLERLVLLVQAVNPEFKADPVVDIYLVASGADTQSAAMALAERLRDELPGVKLMTNHGGGNFKKQFARADKWGARVAVVLGESEVANGTAVVKDLRSGEQTAVAQDSVAAHLRTLLG NIQAIRGMNDYLPGETAIWQRIEGTLKNVLGSYGYSEIRLPIVEQTPLFKRAIGEVTDVVEKEMYTFEDRNGDSLTLRPEGTAGCVRAGIEHGLLYNQEQRLWYIGPMFRHERPQKGRYRQFHQLGCEVFGLQGPDIDAELIMLTARWWRALGISEHVTLELNSIGSLEARANYLDEESREHFAGLCKLLESAGIAYTVNQRLVRGLDYYNRTVFEWVTNQGTVCAGGRYDGLVEQLGGRATPAVGFAMGLERLVLLVQAVNPEFKADPVVDIYLVASGADTQSAAMALAERLRDELPGVKLMTNHGGGNFKKQFARADKWGARVAVVLGESEVANGTAVVKDLRSGEQTAVAQDSVAAHLRTLLG 1htv-a1-m1-cB_1htv-a1-m1-cD CRYSTAL STRUCTURE OF DESTRIPEPTIDE (B28-B30) INSULIN P01308 P01308 1.9 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 27 1htv-a1-m1-cF_1htv-a1-m1-cH 1htv-a1-m1-cJ_1htv-a1-m1-cL FVNQHLCGSHLVEALYLVCGERGFFYT FVNQHLCGSHLVEALYLVCGERGFFYT 1htv-a1-m1-cF_1htv-a1-m1-cL CRYSTAL STRUCTURE OF DESTRIPEPTIDE (B28-B30) INSULIN P01308 P01308 1.9 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 27 1htv-a1-m1-cB_1htv-a1-m1-cH FVNQHLCGSHLVEALYLVCGERGFFYT FVNQHLCGSHLVEALYLVCGERGFFYT 1hue-a1-m1-cA_1hue-a1-m1-cB HISTONE-LIKE PROTEIN P0A3H0 P0A3H0 NOT SOLUTION NMR 137 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 90 90 MNKTELINAVAETSGLSKKDATKAVDAVFDSITEALRKGDKVQLIGFGNFEVRERAARKGRNPQTGEEMEIPASKVPAFKPGKALKDAVK MNKTELINAVAETSGLSKKDATKAVDAVFDSITEALRKGDKVQLIGFGNFEVRERAARKGRNPQTGEEMEIPASKVPAFKPGKALKDAVK 1hup-a1-m2-cA_1hup-a1-m3-cA HUMAN MANNOSE BINDING PROTEIN CARBOHYDRATE RECOGNITION DOMAIN TRIMERIZES THROUGH A TRIPLE ALPHA-HELICAL COILED-COIL P11226 P11226 2.5 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 1hup-a1-m1-cA_1hup-a1-m2-cA 1hup-a1-m1-cA_1hup-a1-m3-cA AASERKALQTEMARIKKWLTFSLGKQVGNKFFLTNGEIMTFEKVKALCVKFQASVATPRNAAENGAIQNLIKEEAFLGITDEKTEGQFVDLTGNRLTYTNWNEGEPNNAGSDEDCVLLLKNGQWNDVPCSTSHLAVCEFPI AASERKALQTEMARIKKWLTFSLGKQVGNKFFLTNGEIMTFEKVKALCVKFQASVATPRNAAENGAIQNLIKEEAFLGITDEKTEGQFVDLTGNRLTYTNWNEGEPNNAGSDEDCVLLLKNGQWNDVPCSTSHLAVCEFPI 1huu-a4-m1-cB_1huu-a4-m3-cB DNA-BINDING PROTEIN HU FROM BACILLUS STEAROTHERMOPHILUS P0A3H0 P0A3H0 2 X-RAY DIFFRACTION 147 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 74 74 1huu-a1-m1-cA_1huu-a1-m2-cA 1huu-a5-m1-cC_1huu-a5-m4-cC MNKTELINAVAETSGLSKKDATKAVDAVFDSITEALRKGDKVQLIGFGNFEVRERAASKVPAFKPGKALKDAVK MNKTELINAVAETSGLSKKDATKAVDAVFDSITEALRKGDKVQLIGFGNFEVRERAASKVPAFKPGKALKDAVK 1huw-a1-m1-cA_1huw-a1-m2-cA THE CRYSTAL STRUCTURE OF AFFINITY-MATURED HUMAN GROWTH HORMONE AT 2 ANGSTROMS RESOLUTION P01241 P01241 2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 FPTIPLSRLADNAWLRADRLNQLAFDTYQEFEEAYIPKEQIHSFWWNPQTSLCPSESIPTPSNKEETQQKSNLELLRISLLLIQSWLEPVQFLRSVFANSLVYGASDSNVYDLLKDLEEGIQTLMGRLEALLKNYGLLYCFNKDMSKVSTYLRTVQCRSVEGSCGF FPTIPLSRLADNAWLRADRLNQLAFDTYQEFEEAYIPKEQIHSFWWNPQTSLCPSESIPTPSNKEETQQKSNLELLRISLLLIQSWLEPVQFLRSVFANSLVYGASDSNVYDLLKDLEEGIQTLMGRLEALLKNYGLLYCFNKDMSKVSTYLRTVQCRSVEGSCGF 1hux-a1-m1-cA_1hux-a1-m1-cB CRYSTAL STRUCTURE OF THE ACIDAMINOCOCCUS FERMENTANS (R)-2-HYDROXYGLUTARYL-COA DEHYDRATASE COMPONENT A P11568 P11568 3 X-RAY DIFFRACTION 32 1.0 905 (Acidaminococcus fermentans) 905 (Acidaminococcus fermentans) 259 259 SIYTLGIDVGSTASKCIILKDGKEIVAKSLVAVGTGTSGPARSISEVLENAHMKKEDMAFTLATGYGRNSLEGIADKQMSELSCHAMGASFIWPNVHTVIDIGGQDVKVIHVENGTMTNFQMNDKCAAGTGRFLDVMANILEVKVSDLAELGAKSTKRVAISSTCTVFAESEVISQLSKGTDKIDIIAGIHRSVASRVIGLANRVGIVKDVVMTGGVAQNYGVRGALEEGLGVEIKTSPLAQYNGALGAALYAYKKAAK SIYTLGIDVGSTASKCIILKDGKEIVAKSLVAVGTGTSGPARSISEVLENAHMKKEDMAFTLATGYGRNSLEGIADKQMSELSCHAMGASFIWPNVHTVIDIGGQDVKVIHVENGTMTNFQMNDKCAAGTGRFLDVMANILEVKVSDLAELGAKSTKRVAISSTCTVFAESEVISQLSKGTDKIDIIAGIHRSVASRVIGLANRVGIVKDVVMTGGVAQNYGVRGALEEGLGVEIKTSPLAQYNGALGAALYAYKKAAK 1hv8-a1-m1-cA_1hv8-a1-m1-cB CRYSTAL STRUCTURE OF A DEAD BOX PROTEIN FROM THE HYPERTHERMOPHILE METHANOCOCCUS JANNASCHII Q58083 Q58083 3 X-RAY DIFFRACTION 33 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 353 353 VEYNFNELNLSDNILNAIRNKGFEKPTDIQKVIPLFLNDEYNIVAQARTGSGKTASFAIPLIELVNENNGIEAIILTPTRELAIQVADEIESLKGNKNLKIAKIYGGKAIYPQIKALKNANIVVGTPGRILDHINRGTLNLKNVKYFILDEADELNGFIKDVEKILNACNKDKRILLFSATPREILNLAKKYGDYSFIKAKINANIEQSYVEVNENERFEALCRLLKNKEFYGLVFCKTKRDTKELASLRDIGFKAGAIHGDLSQSQREKVIRLFKQKKIRILIATDVSRGIDVNDLNCVINYHLPQNPESYHRIGRTGRAGKKGKAISIINRREYKKLRYIERAKLKIKKLK VEYNFNELNLSDNILNAIRNKGFEKPTDIQKVIPLFLNDEYNIVAQARTGSGKTASFAIPLIELVNENNGIEAIILTPTRELAIQVADEIESLKGNKNLKIAKIYGGKAIYPQIKALKNANIVVGTPGRILDHINRGTLNLKNVKYFILDEADELNGFIKDVEKILNACNKDKRILLFSATPREILNLAKKYGDYSFIKAKINANIEQSYVEVNENERFEALCRLLKNKEFYGLVFCKTKRDTKELASLRDIGFKAGAIHGDLSQSQREKVIRLFKQKKIRILIATDVSRGIDVNDLNCVINYHLPQNPESYHRIGRTGRAGKKGKAISIINRREYKKLRYIERAKLKIKKLK 1hv9-a2-m2-cB_1hv9-a2-m3-cB STRUCTURE OF E. COLI GLMU: ANALYSIS OF PYROPHOSPHORYLASE AND ACETYLTRANSFERASE ACTIVE SITES P0ACC7 P0ACC7 2.1 X-RAY DIFFRACTION 151 1.0 562 (Escherichia coli) 562 (Escherichia coli) 450 450 1hv9-a2-m1-cB_1hv9-a2-m2-cB 1hv9-a2-m1-cB_1hv9-a2-m3-cB 2oi5-a2-m1-cB_2oi5-a2-m2-cB 2oi5-a2-m1-cB_2oi5-a2-m3-cB 2oi5-a2-m2-cB_2oi5-a2-m3-cB 2oi6-a2-m1-cB_2oi6-a2-m2-cB 2oi6-a2-m1-cB_2oi6-a2-m3-cB 2oi6-a2-m2-cB_2oi6-a2-m3-cB 2oi7-a2-m1-cB_2oi7-a2-m2-cB 2oi7-a2-m1-cB_2oi7-a2-m3-cB 2oi7-a2-m2-cB_2oi7-a2-m3-cB 2oi7-a3-m1-cB_2oi7-a3-m2-cB 2oi7-a3-m1-cB_2oi7-a3-m3-cB 2oi7-a3-m2-cB_2oi7-a3-m3-cB 3twd-a1-m1-cA_3twd-a1-m2-cA 3twd-a1-m1-cA_3twd-a1-m3-cA 3twd-a1-m2-cA_3twd-a1-m3-cA 3twd-a2-m1-cB_3twd-a2-m4-cB 3twd-a2-m1-cB_3twd-a2-m5-cB 3twd-a2-m4-cB_3twd-a2-m5-cB 3twd-a3-m1-cA_3twd-a3-m2-cA 3twd-a3-m1-cA_3twd-a3-m3-cA 3twd-a3-m2-cA_3twd-a3-m3-cA 3twd-a3-m6-cB_3twd-a3-m7-cB 3twd-a3-m6-cB_3twd-a3-m8-cB 3twd-a3-m7-cB_3twd-a3-m8-cB 4aa7-a1-m1-cA_4aa7-a1-m2-cA 4aa7-a1-m1-cA_4aa7-a1-m3-cA 4aa7-a1-m2-cA_4aa7-a1-m3-cA 4aa7-a2-m1-cB_4aa7-a2-m4-cB 4aa7-a2-m1-cB_4aa7-a2-m5-cB 4aa7-a2-m4-cB_4aa7-a2-m5-cB NNAMSVVILAAGKGTRMYSDLPKVLHTLAGKAMVQHVIDAANELGAAHVHLVYGHGGDLLKQALKDDNLNWVLQAEQLGTGHAMQQAAPFFADDEDILMLYGDVPLISVETLQRLRDAKPQGGIGLLTVKLDDPTGYGRITRENGKVTGIVEHKDATDEQRQIQEINTGILIANGADMKRWLAKLTNNNAQGEYYITDIIALAYQEGREIVAVHPQRLSEVEGVNNRLQLSRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRP NNAMSVVILAAGKGTRMYSDLPKVLHTLAGKAMVQHVIDAANELGAAHVHLVYGHGGDLLKQALKDDNLNWVLQAEQLGTGHAMQQAAPFFADDEDILMLYGDVPLISVETLQRLRDAKPQGGIGLLTVKLDDPTGYGRITRENGKVTGIVEHKDATDEQRQIQEINTGILIANGADMKRWLAKLTNNNAQGEYYITDIIALAYQEGREIVAVHPQRLSEVEGVNNRLQLSRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRP 1hvv-a1-m1-cD_1hvv-a1-m1-cA SELF-ASSOCIATION OF THE H3 REGION OF SYNTAXIN 1A: IMPLICATIONS FOR SNARE COMPLEX ASSEMBLY P32851 P32851 2.4 X-RAY DIFFRACTION 21 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 61 67 1hvv-a1-m1-cB_1hvv-a1-m1-cC SEIETRHSEIIKLENSIRELHDMFMDMAMLVESQGEMIDRIEYNVEHAVDYVERAVSDTKK QALSEIETRHSEIIKLENSIRELHDMFMDMAMLVESQGEMIDRIEYNVEHAVDYVERAVSDTKKAVK 1hvv-a1-m1-cD_1hvv-a1-m1-cB SELF-ASSOCIATION OF THE H3 REGION OF SYNTAXIN 1A: IMPLICATIONS FOR SNARE COMPLEX ASSEMBLY P32851 P32851 2.4 X-RAY DIFFRACTION 59 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 61 62 1hvv-a1-m1-cC_1hvv-a1-m1-cA SEIETRHSEIIKLENSIRELHDMFMDMAMLVESQGEMIDRIEYNVEHAVDYVERAVSDTKK SEIETRHSEIIKLENSIRELHDMFMDMAMLVESQGEMIDRIEYNVEHAVDYVERAVSDTKKA 1hvv-a1-m1-cD_1hvv-a1-m1-cC SELF-ASSOCIATION OF THE H3 REGION OF SYNTAXIN 1A: IMPLICATIONS FOR SNARE COMPLEX ASSEMBLY P32851 P32851 2.4 X-RAY DIFFRACTION 64 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 61 66 1hvv-a1-m1-cB_1hvv-a1-m1-cA SEIETRHSEIIKLENSIRELHDMFMDMAMLVESQGEMIDRIEYNVEHAVDYVERAVSDTKK QALSEIETRHSEIIKLENSIRELHDMFMDMAMLVESQGEMIDRIEYNVEHAVDYVERAVSDTKKAV 1hw1-a1-m1-cA_1hw1-a1-m1-cB THE FADR-DNA COMPLEX: TRANSCRIPTIONAL CONTROL OF FATTY ACID METABOLISM IN ESCHERICHIA COLI P0A8V6 P0A8V6 1.5 X-RAY DIFFRACTION 92 1.0 562 (Escherichia coli) 562 (Escherichia coli) 226 226 1e2x-a1-m1-cA_1e2x-a1-m2-cA 1h9g-a1-m1-cA_1h9g-a1-m2-cA 1h9t-a1-m1-cB_1h9t-a1-m1-cA 1hw2-a1-m1-cA_1hw2-a1-m1-cB AQSPAGFAEEYIIESIWNNRFPPGTILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNNFWETSGLNILETLARLDHESVPQLIDNLLSVRTNISTIFIRTAFRQHPDKAQEVLATANEVADHADAFAELDYNIFRGLAFASGNPIYGLILNGMKGLYTRIGRHYFANPEARSLALGFYHKLSALCSEGAHDQVYETVRRYGHESGEIWHRMQKNL AQSPAGFAEEYIIESIWNNRFPPGTILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNNFWETSGLNILETLARLDHESVPQLIDNLLSVRTNISTIFIRTAFRQHPDKAQEVLATANEVADHADAFAELDYNIFRGLAFASGNPIYGLILNGMKGLYTRIGRHYFANPEARSLALGFYHKLSALCSEGAHDQVYETVRRYGHESGEIWHRMQKNL 1hw7-a1-m1-cA_1hw7-a1-m2-cA HSP33, HEAT SHOCK PROTEIN WITH REDOX-REGULATED CHAPERONE ACTIVITY P0A6Y5 P0A6Y5 2.2 X-RAY DIFFRACTION 338 1.0 562 (Escherichia coli) 562 (Escherichia coli) 229 229 1i7f-a1-m1-cA_1i7f-a1-m2-cA HDQLHRYLFENFAVRGELVTVSETLQQILENHDYPQPVKNVLAELLVATSLLTATLKFDGDITVQLQGDGPMNLAVINGNNNQQMRGVARVQGEIPENADLKTLVGNGYVVITITPSEGERYQGVVGLEGDTLAACLEDYFMRSEQLPTRLFIRTGDVDGKPAAGGMLLQVMPAQNAQQDDFDHLATLTETIKTEELLTLPANEVLWRLYHEEEVTVYDPQDVEFKCTC HDQLHRYLFENFAVRGELVTVSETLQQILENHDYPQPVKNVLAELLVATSLLTATLKFDGDITVQLQGDGPMNLAVINGNNNQQMRGVARVQGEIPENADLKTLVGNGYVVITITPSEGERYQGVVGLEGDTLAACLEDYFMRSEQLPTRLFIRTGDVDGKPAAGGMLLQVMPAQNAQQDDFDHLATLTETIKTEELLTLPANEVLWRLYHEEEVTVYDPQDVEFKCTC 1hw8-a1-m1-cD_1hw8-a1-m1-cC COMPLEX OF THE CATALYTIC PORTION OF HUMAN HMG-COA REDUCTASE WITH COMPACTIN (ALSO KNOWN AS MEVASTATIN) P04035 P04035 2.1 X-RAY DIFFRACTION 405 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 372 373 1dq8-a1-m1-cB_1dq8-a1-m1-cA 1dq8-a1-m1-cC_1dq8-a1-m1-cD 1dq9-a1-m1-cA_1dq9-a1-m1-cB 1dq9-a1-m1-cC_1dq9-a1-m1-cD 1dqa-a1-m1-cB_1dqa-a1-m1-cA 1dqa-a1-m1-cD_1dqa-a1-m1-cC 1hw8-a1-m1-cA_1hw8-a1-m1-cB 1hw9-a1-m1-cB_1hw9-a1-m1-cA 1hw9-a1-m1-cD_1hw9-a1-m1-cC 1hwi-a1-m1-cA_1hwi-a1-m1-cB 1hwi-a1-m1-cC_1hwi-a1-m1-cD 1hwj-a1-m1-cB_1hwj-a1-m1-cA 1hwj-a1-m1-cD_1hwj-a1-m1-cC 1hwk-a1-m1-cB_1hwk-a1-m1-cA 1hwk-a1-m1-cD_1hwk-a1-m1-cC 1hwl-a1-m1-cB_1hwl-a1-m1-cA 1hwl-a1-m1-cD_1hwl-a1-m1-cC 2q1l-a1-m1-cA_2q1l-a1-m1-cB 2q1l-a1-m1-cD_2q1l-a1-m1-cC 2q6b-a1-m1-cB_2q6b-a1-m1-cA 2q6b-a1-m1-cD_2q6b-a1-m1-cC 2q6c-a1-m1-cB_2q6c-a1-m1-cA 2q6c-a1-m1-cD_2q6c-a1-m1-cC 2r4f-a1-m1-cB_2r4f-a1-m1-cA 2r4f-a1-m1-cD_2r4f-a1-m1-cC 3bgl-a1-m1-cA_3bgl-a1-m1-cB 3bgl-a1-m1-cD_3bgl-a1-m1-cC 3cct-a1-m1-cA_3cct-a1-m1-cB 3cct-a1-m1-cD_3cct-a1-m1-cC 3ccw-a1-m1-cA_3ccw-a1-m1-cB 3ccw-a1-m1-cD_3ccw-a1-m1-cC 3ccz-a1-m1-cB_3ccz-a1-m1-cA 3ccz-a1-m1-cD_3ccz-a1-m1-cC 3cd0-a1-m1-cA_3cd0-a1-m1-cB 3cd0-a1-m1-cD_3cd0-a1-m1-cC 3cd5-a1-m1-cA_3cd5-a1-m1-cB 3cd5-a1-m1-cD_3cd5-a1-m1-cC 3cd7-a1-m1-cA_3cd7-a1-m1-cB 3cd7-a1-m1-cD_3cd7-a1-m1-cC 3cda-a1-m1-cB_3cda-a1-m1-cA 3cda-a1-m1-cD_3cda-a1-m1-cC 3cdb-a1-m1-cA_3cdb-a1-m1-cB 3cdb-a1-m1-cD_3cdb-a1-m1-cC HERGVSIRRQLLSKKLSEPSSLQYLPYRDYNYSLVMGACCENVIGYMPIPVGVAGPLCLDEKEFQVPMATTEGCLVASTNRGCRAIGLGGGASSRVLADGMTRGPVVRLPRACDSAEVKAWLETSEGFAVIKEAFDSTSRFARLQKLHTSIAGRNLYIRFQSRSGDAMGMNMISKGTEKALSKLHEYFPEMQILAVSGNYCTDKKPAAINWIEGRGKSVVCEAVIPAKVVREVLKTTTEAMIEVNINKNLVGSAMAGSIGGYNAHAANIVTAIYIACGQDAAQNVGSSNCITLMEASGPTNEDLYISCTMPSIEIGTVGGGTNLLPQQACLQMLGVQGACKDNPGENARQLARIVCGTVMAGELSLMAALAA HERGVSIRRQLLSKKLSEPSSLQYLPYRDYNYSLVMGACCENVIGYMPIPVGVAGPLCLDEKEFQVPMATTEGCLVASTNRGCRAIGLGGGASSRVLADGMTRGPVVRLPRACDSAEVKAWLETSEGFAVIKEAFDSTSRFARLQKLHTSIAGRNLYIRFQSRSGDAMGMNMISKGTEKALSKLHEYFPEMQILAVSGNYCTDKKPAAINWIEGRGKSVVCEAVIPAKVVREVLKTTTEAMIEVNINKNLVGSAMAGSIGGYNAHAANIVTAIYIACGQDAAQNVGSSNCITLMEASGPTNEDLYISCTMPSIEIGTVGGGTNLLPQQACLQMLGVQGACKDNPGENARQLARIVCGTVMAGELSLMAALAAG 1hwg-a1-m1-cC_1hwg-a1-m1-cB 1:2 COMPLEX OF HUMAN GROWTH HORMONE WITH ITS SOLUBLE BINDING PROTEIN P10912 P10912 2.5 X-RAY DIFFRACTION 38 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 191 194 1kf9-a1-m1-cC_1kf9-a1-m1-cB 1kf9-a2-m1-cF_1kf9-a2-m1-cE 3hhr-a1-m1-cC_3hhr-a1-m1-cB EPKFTKCRSPERETFSCHWTDPIQLFYTRRNQEWKECPDYVSAGENSCYFNSSFTSIWIPYCIKLTSNGGTVDEKCFSVDEIVQPDPPIALNWTLLNVSLTGIHADIQVRWEAPRNADIQKGWMVLEYELQYKEVNETKWKMMDPILTTSVPVYSLKVDKEYEVRVRSKQRNSGNYGEFSEVLYVTLPQMS EPKFTKCRSPERETFSCHWTDEPIQLFYTRRNTQEWTQEWKECPDYVSAGENSCYFNSSFTSIWIPYCIKLTSNGGTVDEKCFSVDEIVQPDPPIALNWTLLNVSLTGIHADIQVRWEAPRNADIQKGWMVLEYELQYKEVNETKWKMMDPILTTSVPVYSLKVDKEYEVRVRSKQRNSGNYGEFSEVLYVTLP 1hwh-a1-m1-cB_1hwh-a1-m2-cB 1:1 COMPLEX OF HUMAN GROWTH HORMONE MUTANT G120R WITH ITS SOLUBLE BINDING PROTEIN P10912 P10912 2.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 1a22-a2-m1-cB_1a22-a2-m2-cB 1axi-a1-m1-cB_1axi-a1-m2-cB EPKFTKCRSPERETFSCHWTDPIQLFYTRRNTQEWTQEWKECPDYVSAGENSCYFNSSFTSIWIPYCIKLTSNGGTVDEKCFSVDEIVQPDPPIALNWTLLNVSLTGIHADIQVRWEAPRNADIQKGWMVLEYELQYKEVNETKWKMMDPILTTSVPVYSLKVDKEYEVRVRSKQRNSGNYGEFSEVLYVTLPQMS EPKFTKCRSPERETFSCHWTDPIQLFYTRRNTQEWTQEWKECPDYVSAGENSCYFNSSFTSIWIPYCIKLTSNGGTVDEKCFSVDEIVQPDPPIALNWTLLNVSLTGIHADIQVRWEAPRNADIQKGWMVLEYELQYKEVNETKWKMMDPILTTSVPVYSLKVDKEYEVRVRSKQRNSGNYGEFSEVLYVTLPQMS 1hwi-a1-m1-cD_1hwi-a1-m1-cB COMPLEX OF THE CATALYTIC PORTION OF HUMAN HMG-COA REDUCTASE WITH FLUVASTATIN P04035 P04035 2.3 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 374 399 1dq8-a1-m1-cB_1dq8-a1-m1-cD 1dq8-a1-m1-cC_1dq8-a1-m1-cA 1dq9-a1-m1-cA_1dq9-a1-m1-cC 1dq9-a1-m1-cB_1dq9-a1-m1-cD 1dqa-a1-m1-cC_1dqa-a1-m1-cA 1dqa-a1-m1-cD_1dqa-a1-m1-cB 1hw8-a1-m1-cC_1hw8-a1-m1-cA 1hw8-a1-m1-cD_1hw8-a1-m1-cB 1hw9-a1-m1-cC_1hw9-a1-m1-cA 1hw9-a1-m1-cD_1hw9-a1-m1-cB 1hwi-a1-m1-cC_1hwi-a1-m1-cA 1hwj-a1-m1-cC_1hwj-a1-m1-cA 1hwj-a1-m1-cD_1hwj-a1-m1-cB 1hwk-a1-m1-cC_1hwk-a1-m1-cA 1hwk-a1-m1-cD_1hwk-a1-m1-cB 1hwl-a1-m1-cC_1hwl-a1-m1-cA 1hwl-a1-m1-cD_1hwl-a1-m1-cB 2q1l-a1-m1-cA_2q1l-a1-m1-cC 2q1l-a1-m1-cD_2q1l-a1-m1-cB 2q6b-a1-m1-cC_2q6b-a1-m1-cA 2q6b-a1-m1-cD_2q6b-a1-m1-cB 2q6c-a1-m1-cC_2q6c-a1-m1-cA 2q6c-a1-m1-cD_2q6c-a1-m1-cB 2r4f-a1-m1-cC_2r4f-a1-m1-cA 2r4f-a1-m1-cD_2r4f-a1-m1-cB 3bgl-a1-m1-cC_3bgl-a1-m1-cA 3bgl-a1-m1-cD_3bgl-a1-m1-cB 3cct-a1-m1-cC_3cct-a1-m1-cA 3cct-a1-m1-cD_3cct-a1-m1-cB 3ccw-a1-m1-cC_3ccw-a1-m1-cA 3ccw-a1-m1-cD_3ccw-a1-m1-cB 3ccz-a1-m1-cC_3ccz-a1-m1-cA 3ccz-a1-m1-cD_3ccz-a1-m1-cB 3cd0-a1-m1-cC_3cd0-a1-m1-cA 3cd0-a1-m1-cD_3cd0-a1-m1-cB 3cd5-a1-m1-cC_3cd5-a1-m1-cA 3cd5-a1-m1-cD_3cd5-a1-m1-cB 3cd7-a1-m1-cA_3cd7-a1-m1-cC 3cd7-a1-m1-cD_3cd7-a1-m1-cB 3cda-a1-m1-cC_3cda-a1-m1-cA 3cda-a1-m1-cD_3cda-a1-m1-cB 3cdb-a1-m1-cC_3cdb-a1-m1-cA 3cdb-a1-m1-cD_3cdb-a1-m1-cB THERGVSIRRQLLSKKLSEPSSLQYLPYRDYNYSLVMGACCENVIGYMPIPVGVAGPLCLDEKEFQVPMATTEGCLVASTNRGCRAIGLGGGASSRVLADGMTRGPVVRLPRACDSAEVKAWLETSEGFAVIKEAFDSTSRFARLQKLHTSIAGRNLYIRFQSRSGDAMGMNMISKGTEKALSKLHEYFPEMQILAVSGNYCTDKKPAAINWIEGRGKSVVCEAVIPAKVVREVLKTTTEAMIEVNINKNLVGSAMAGSIGGYNAHAANIVTAIYIACGQDAAQNVGSSNCITLMEASGPTNEDLYISCTMPSIEIGTVGGGTNLLPQQACLQMLGVQGACKDNPGENARQLARIVCGTVMAGELSLMAALAAG LSDAEIIQLVNAKHIPAYKLETLIETHERGVSIRRQLLSKKLSEPSSLQYLPYRDYNYSLVMGACCENVIGYMPIPVGVAGPLCLDEKEFQVPMATTEGCLVASTNRGCRAIGLGGGASSRVLADGMTRGPVVRLPRACDSAEVKAWLETSEGFAVIKEAFDSTSRFARLQKLHTSIAGRNLYIRFQSRSGDAMGMNMISKGTEKALSKLHEYFPEMQILAVSGNYCTDKKPAAINWIEGRGKSVVCEAVIPAKVVREVLKTTTEAMIEVNINKNLVGSAMAGSIGGYNAHAANIVTAIYIACGQDAAQNVGSSNCITLMEASGPTNEDLYISCTMPSIEIGTVGGGTNLLPQQACLQMLGVQGACKDNPGENARQLARIVCGTVMAGELSLMAALAAG 1hwt-a2-m1-cG_1hwt-a2-m1-cH STRUCTURE OF A HAP1/DNA COMPLEX REVEALS DRAMATICALLY ASYMMETRIC DNA BINDING BY A HOMODIMERIC PROTEIN P0CS82 P0CS82 2.5 X-RAY DIFFRACTION 57 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 70 73 1hwt-a1-m1-cC_1hwt-a1-m1-cD 1qp9-a1-m1-cB_1qp9-a1-m1-cA 1qp9-a2-m1-cC_1qp9-a2-m1-cD 2hap-a1-m1-cD_2hap-a1-m1-cC RIPLSCTICRKRKVKCDKLRPHCQQCTKTGVAHLCHYMEQTWAEEAEKELLKDNELKKLRERVKSLEKTL KRNRIPLSCTICRKRKVKCDKLRPHCQQCTKTGVAHLCHYMEQTWAEEAEKELLKDNELKKLRERVKSLEKTL 1hwu-a3-m1-cA_1hwu-a3-m2-cD STRUCTURE OF PII PROTEIN FROM HERBASPIRILLUM SEROPEDICAE P94852 P94852 2.1 X-RAY DIFFRACTION 17 0.99 964 (Herbaspirillum seropedicae) 964 (Herbaspirillum seropedicae) 99 99 MKQVTAIIKPFKLDEVRESLAEVGVTGLTVTEVKGFGYVVDFLPKVKIEVVVDDKVVEQAVDAIIKAARTGKIGDGKIFVQEVEQVIRIRTGETGPDAV MKQVTAIIKPFKLDEVRESLAEVGVTGLTVTEVKGFEYVVDFLPKVKIEVVVDDKVVEQAVDAIIKAARTGKIGDGKIFVQEVEQVIRIRTGETGPDAV 1hwu-a3-m2-cE_1hwu-a3-m2-cF STRUCTURE OF PII PROTEIN FROM HERBASPIRILLUM SEROPEDICAE P94852 P94852 2.1 X-RAY DIFFRACTION 65 1.0 964 (Herbaspirillum seropedicae) 964 (Herbaspirillum seropedicae) 84 91 1hwu-a1-m1-cC_1hwu-a1-m1-cA 1hwu-a2-m1-cE_1hwu-a2-m1-cD 1hwu-a2-m1-cE_1hwu-a2-m1-cF 1hwu-a2-m1-cF_1hwu-a2-m1-cD 1hwu-a3-m1-cC_1hwu-a3-m1-cA 1hwu-a3-m2-cE_1hwu-a3-m2-cD 1hwu-a3-m2-cF_1hwu-a3-m2-cD MKQVTAIIKPFKLDEVRESLAEVGVTGLTVTEVKGPKVKIEVVVDDKVVEQAVDAIIKAARTGKIGDGKIFVQEVEQVIRIRTG MKQVTAIIKPFKLDEVRESLAEVGVTGLTVTEVKGPKVKIEVVVDDKVVEQAVDAIIKAARTGKIGDGKIFVQEVEQVIRIRTGETGPDAV 1hwu-a3-m2-cF_1hwu-a3-m1-cA STRUCTURE OF PII PROTEIN FROM HERBASPIRILLUM SEROPEDICAE P94852 P94852 2.1 X-RAY DIFFRACTION 11 1.0 964 (Herbaspirillum seropedicae) 964 (Herbaspirillum seropedicae) 91 99 MKQVTAIIKPFKLDEVRESLAEVGVTGLTVTEVKGPKVKIEVVVDDKVVEQAVDAIIKAARTGKIGDGKIFVQEVEQVIRIRTGETGPDAV MKQVTAIIKPFKLDEVRESLAEVGVTGLTVTEVKGFGYVVDFLPKVKIEVVVDDKVVEQAVDAIIKAARTGKIGDGKIFVQEVEQVIRIRTGETGPDAV 1hx5-a1-m1-cB_1hx5-a1-m1-cC Crystal structure of M. tuberculosis chaperonin-10 P9WPE5 P9WPE5 3.5 X-RAY DIFFRACTION 51 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 82 82 1hx5-a1-m1-cA_1hx5-a1-m1-cB 1hx5-a1-m1-cA_1hx5-a1-m1-cG 1hx5-a1-m1-cC_1hx5-a1-m1-cE 1hx5-a1-m1-cD_1hx5-a1-m1-cE 1hx5-a1-m1-cD_1hx5-a1-m1-cF 1hx5-a1-m1-cF_1hx5-a1-m1-cG IKPLEDKILVQATTASGLVIPPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVV IKPLEDKILVQATTASGLVIPPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVV 1hxh-a1-m1-cA_1hxh-a1-m1-cD COMAMONAS TESTOSTERONI 3BETA/17BETA HYDROXYSTEROID DEHYDROGENASE P19871 P19871 1.22 X-RAY DIFFRACTION 111 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 253 253 1hxh-a1-m1-cB_1hxh-a1-m1-cC TNRLQGKVALVTGGASGVGLEVVKLLLGEGAKVAFSDINEAAGQQLAAELGERSMFVRHDVSSEADWTLVMAAVQRRLGTLNVLVNNAGILLPGDMETGRLEDFSRLLKINTESVFIGCQQGIAAMKETGGSIINMASVSSWLPIEQYAGYSASKAAVSALTRAAALSCRKQGYAIRVNSIHPDGIYTPMMQASLPKGVSKEMVLHDPKLNRAGRAYMPERIAQLVLFLASDESSVMSGSELHADNSILGMGL TNRLQGKVALVTGGASGVGLEVVKLLLGEGAKVAFSDINEAAGQQLAAELGERSMFVRHDVSSEADWTLVMAAVQRRLGTLNVLVNNAGILLPGDMETGRLEDFSRLLKINTESVFIGCQQGIAAMKETGGSIINMASVSSWLPIEQYAGYSASKAAVSALTRAAALSCRKQGYAIRVNSIHPDGIYTPMMQASLPKGVSKEMVLHDPKLNRAGRAYMPERIAQLVLFLASDESSVMSGSELHADNSILGMGL 1hxh-a1-m1-cB_1hxh-a1-m1-cD COMAMONAS TESTOSTERONI 3BETA/17BETA HYDROXYSTEROID DEHYDROGENASE P19871 P19871 1.22 X-RAY DIFFRACTION 146 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 253 253 1hxh-a1-m1-cA_1hxh-a1-m1-cC TNRLQGKVALVTGGASGVGLEVVKLLLGEGAKVAFSDINEAAGQQLAAELGERSMFVRHDVSSEADWTLVMAAVQRRLGTLNVLVNNAGILLPGDMETGRLEDFSRLLKINTESVFIGCQQGIAAMKETGGSIINMASVSSWLPIEQYAGYSASKAAVSALTRAAALSCRKQGYAIRVNSIHPDGIYTPMMQASLPKGVSKEMVLHDPKLNRAGRAYMPERIAQLVLFLASDESSVMSGSELHADNSILGMGL TNRLQGKVALVTGGASGVGLEVVKLLLGEGAKVAFSDINEAAGQQLAAELGERSMFVRHDVSSEADWTLVMAAVQRRLGTLNVLVNNAGILLPGDMETGRLEDFSRLLKINTESVFIGCQQGIAAMKETGGSIINMASVSSWLPIEQYAGYSASKAAVSALTRAAALSCRKQGYAIRVNSIHPDGIYTPMMQASLPKGVSKEMVLHDPKLNRAGRAYMPERIAQLVLFLASDESSVMSGSELHADNSILGMGL 1hxh-a1-m1-cC_1hxh-a1-m1-cD COMAMONAS TESTOSTERONI 3BETA/17BETA HYDROXYSTEROID DEHYDROGENASE P19871 P19871 1.22 X-RAY DIFFRACTION 26 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 253 253 1hxh-a1-m1-cA_1hxh-a1-m1-cB TNRLQGKVALVTGGASGVGLEVVKLLLGEGAKVAFSDINEAAGQQLAAELGERSMFVRHDVSSEADWTLVMAAVQRRLGTLNVLVNNAGILLPGDMETGRLEDFSRLLKINTESVFIGCQQGIAAMKETGGSIINMASVSSWLPIEQYAGYSASKAAVSALTRAAALSCRKQGYAIRVNSIHPDGIYTPMMQASLPKGVSKEMVLHDPKLNRAGRAYMPERIAQLVLFLASDESSVMSGSELHADNSILGMGL TNRLQGKVALVTGGASGVGLEVVKLLLGEGAKVAFSDINEAAGQQLAAELGERSMFVRHDVSSEADWTLVMAAVQRRLGTLNVLVNNAGILLPGDMETGRLEDFSRLLKINTESVFIGCQQGIAAMKETGGSIINMASVSSWLPIEQYAGYSASKAAVSALTRAAALSCRKQGYAIRVNSIHPDGIYTPMMQASLPKGVSKEMVLHDPKLNRAGRAYMPERIAQLVLFLASDESSVMSGSELHADNSILGMGL 1hxm-a5-m1-cE_1hxm-a5-m2-cA Crystal Structure of a Human Vgamma9/Vdelta2 T Cell Receptor B7Z8K6 B7Z8K6 3.12 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 206 AIELVPEHQTVPVSIGVPATLRCSMKGEAIGNYYINWYRKTQGNTMTFIYREKDIYGPGFKDNFQGDIDIAKNLAVLKILAPSERDEGSYYCACDTLGMGGEYTDKLIFGKGTRVTVEPRSQPHTKPSVFVMKNGTNVACLVKEFYPKDIRINLVSSKKITEFDPAIVISPSGKYNAVKLGKYEDSNSVTCSVQHDNKTVHSTDFE AIELVPEHQTVPVSIGVPATLRCSMKGEAIGNYYINWYRKTQGNTMTFIYREKDIYGPGFKDNFQGDIDIAKNLAVLKILAPSERDEGSYYCACDTLGMGGEYTDKLIFGKGTRVTVEPRSQPHTKPSVFVMKNGTNVACLVKEFYPKDIRINLVSSKKITEFDPAIVISPSGKYNAVKLGKYEDSNSVTCSVQHDNKTVHSTDFE 1hxm-a6-m1-cD_1hxm-a6-m3-cH Crystal Structure of a Human Vgamma9/Vdelta2 T Cell Receptor P03986 P03986 3.12 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 1hxm-a5-m1-cF_1hxm-a5-m2-cB AGHLEQPQISSTKTLSKTARLECVVSGITISATSVYWYRERPGEVIQFLVSISYDGTVRKESGIPSGKFEVDRIPETSTSTLTIHNVEKQDIATYYCALWEAQQELGKKIKVFGPGTKLIITDKQLDADVSPKPTIFLPSIAETKLQKAGTYLCLLEKFFPDVIKIHWEEKKSNTILGSQEGNTMKTNDTYMKFSWLTVPEKSLDKEHRCIVRHENNKNGVDQEIIFPPI AGHLEQPQISSTKTLSKTARLECVVSGITISATSVYWYRERPGEVIQFLVSISYDGTVRKESGIPSGKFEVDRIPETSTSTLTIHNVEKQDIATYYCALWEAQQELGKKIKVFGPGTKLIITDKQLDADVSPKPTIFLPSIAETKLQKAGTYLCLLEKFFPDVIKIHWEEKKSNTILGSQEGNTMKTNDTYMKFSWLTVPEKSLDKEHRCIVRHENNKNGVDQEIIFPPI 1hxs-a1-m23-c2_1hxs-a1-m9-c2 CRYSTAL STRUCTURE OF MAHONEY STRAIN OF POLIOVIRUS AT 2.2A RESOLUTION P03300 P03300 2.2 X-RAY DIFFRACTION 56 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 267 267 1al2-a1-m10-c2_1al2-a1-m5-c2 1al2-a1-m11-c2_1al2-a1-m37-c2 1al2-a1-m12-c2_1al2-a1-m46-c2 1al2-a1-m13-c2_1al2-a1-m44-c2 1al2-a1-m14-c2_1al2-a1-m28-c2 1al2-a1-m15-c2_1al2-a1-m20-c2 1al2-a1-m16-c2_1al2-a1-m27-c2 1al2-a1-m17-c2_1al2-a1-m51-c2 1al2-a1-m18-c2_1al2-a1-m59-c2 1al2-a1-m19-c2_1al2-a1-m38-c2 1al2-a1-m1-c2_1al2-a1-m22-c2 1al2-a1-m21-c2_1al2-a1-m42-c2 1al2-a1-m23-c2_1al2-a1-m9-c2 1al2-a1-m24-c2_1al2-a1-m53-c2 1al2-a1-m25-c2_1al2-a1-m30-c2 1al2-a1-m26-c2_1al2-a1-m52-c2 1al2-a1-m29-c2_1al2-a1-m43-c2 1al2-a1-m2-c2_1al2-a1-m41-c2 1al2-a1-m31-c2_1al2-a1-m57-c2 1al2-a1-m32-c2_1al2-a1-m6-c2 1al2-a1-m33-c2_1al2-a1-m4-c2 1al2-a1-m34-c2_1al2-a1-m48-c2 1al2-a1-m35-c2_1al2-a1-m40-c2 1al2-a1-m36-c2_1al2-a1-m47-c2 1al2-a1-m39-c2_1al2-a1-m58-c2 1al2-a1-m3-c2_1al2-a1-m49-c2 1al2-a1-m45-c2_1al2-a1-m50-c2 1al2-a1-m54-c2_1al2-a1-m8-c2 1al2-a1-m55-c2_1al2-a1-m60-c2 1al2-a1-m56-c2_1al2-a1-m7-c2 1ar6-a1-m10-c2_1ar6-a1-m5-c2 1ar6-a1-m11-c2_1ar6-a1-m37-c2 1ar6-a1-m12-c2_1ar6-a1-m46-c2 1ar6-a1-m13-c2_1ar6-a1-m44-c2 1ar6-a1-m14-c2_1ar6-a1-m28-c2 1ar6-a1-m15-c2_1ar6-a1-m20-c2 1ar6-a1-m16-c2_1ar6-a1-m27-c2 1ar6-a1-m17-c2_1ar6-a1-m51-c2 1ar6-a1-m18-c2_1ar6-a1-m59-c2 1ar6-a1-m19-c2_1ar6-a1-m38-c2 1ar6-a1-m1-c2_1ar6-a1-m22-c2 1ar6-a1-m21-c2_1ar6-a1-m42-c2 1ar6-a1-m23-c2_1ar6-a1-m9-c2 1ar6-a1-m24-c2_1ar6-a1-m53-c2 1ar6-a1-m25-c2_1ar6-a1-m30-c2 1ar6-a1-m26-c2_1ar6-a1-m52-c2 1ar6-a1-m29-c2_1ar6-a1-m43-c2 1ar6-a1-m2-c2_1ar6-a1-m41-c2 1ar6-a1-m31-c2_1ar6-a1-m57-c2 1ar6-a1-m32-c2_1ar6-a1-m6-c2 1ar6-a1-m33-c2_1ar6-a1-m4-c2 1ar6-a1-m34-c2_1ar6-a1-m48-c2 1ar6-a1-m35-c2_1ar6-a1-m40-c2 1ar6-a1-m36-c2_1ar6-a1-m47-c2 1ar6-a1-m39-c2_1ar6-a1-m58-c2 1ar6-a1-m3-c2_1ar6-a1-m49-c2 1ar6-a1-m45-c2_1ar6-a1-m50-c2 1ar6-a1-m54-c2_1ar6-a1-m8-c2 1ar6-a1-m55-c2_1ar6-a1-m60-c2 1ar6-a1-m56-c2_1ar6-a1-m7-c2 1ar7-a1-m10-c2_1ar7-a1-m5-c2 1ar7-a1-m11-c2_1ar7-a1-m37-c2 1ar7-a1-m12-c2_1ar7-a1-m46-c2 1ar7-a1-m13-c2_1ar7-a1-m44-c2 1ar7-a1-m14-c2_1ar7-a1-m28-c2 1ar7-a1-m15-c2_1ar7-a1-m20-c2 1ar7-a1-m16-c2_1ar7-a1-m27-c2 1ar7-a1-m17-c2_1ar7-a1-m51-c2 1ar7-a1-m18-c2_1ar7-a1-m59-c2 1ar7-a1-m19-c2_1ar7-a1-m38-c2 1ar7-a1-m1-c2_1ar7-a1-m22-c2 1ar7-a1-m21-c2_1ar7-a1-m42-c2 1ar7-a1-m23-c2_1ar7-a1-m9-c2 1ar7-a1-m24-c2_1ar7-a1-m53-c2 1ar7-a1-m25-c2_1ar7-a1-m30-c2 1ar7-a1-m26-c2_1ar7-a1-m52-c2 1ar7-a1-m29-c2_1ar7-a1-m43-c2 1ar7-a1-m2-c2_1ar7-a1-m41-c2 1ar7-a1-m31-c2_1ar7-a1-m57-c2 1ar7-a1-m32-c2_1ar7-a1-m6-c2 1ar7-a1-m33-c2_1ar7-a1-m4-c2 1ar7-a1-m34-c2_1ar7-a1-m48-c2 1ar7-a1-m35-c2_1ar7-a1-m40-c2 1ar7-a1-m36-c2_1ar7-a1-m47-c2 1ar7-a1-m39-c2_1ar7-a1-m58-c2 1ar7-a1-m3-c2_1ar7-a1-m49-c2 1ar7-a1-m45-c2_1ar7-a1-m50-c2 1ar7-a1-m54-c2_1ar7-a1-m8-c2 1ar7-a1-m55-c2_1ar7-a1-m60-c2 1ar7-a1-m56-c2_1ar7-a1-m7-c2 1ar8-a1-m10-c2_1ar8-a1-m5-c2 1ar8-a1-m11-c2_1ar8-a1-m37-c2 1ar8-a1-m12-c2_1ar8-a1-m46-c2 1ar8-a1-m13-c2_1ar8-a1-m44-c2 1ar8-a1-m14-c2_1ar8-a1-m28-c2 1ar8-a1-m15-c2_1ar8-a1-m20-c2 1ar8-a1-m16-c2_1ar8-a1-m27-c2 1ar8-a1-m17-c2_1ar8-a1-m51-c2 1ar8-a1-m18-c2_1ar8-a1-m59-c2 1ar8-a1-m19-c2_1ar8-a1-m38-c2 1ar8-a1-m1-c2_1ar8-a1-m22-c2 1ar8-a1-m21-c2_1ar8-a1-m42-c2 1ar8-a1-m23-c2_1ar8-a1-m9-c2 1ar8-a1-m24-c2_1ar8-a1-m53-c2 1ar8-a1-m25-c2_1ar8-a1-m30-c2 1ar8-a1-m26-c2_1ar8-a1-m52-c2 1ar8-a1-m29-c2_1ar8-a1-m43-c2 1ar8-a1-m2-c2_1ar8-a1-m41-c2 1ar8-a1-m31-c2_1ar8-a1-m57-c2 1ar8-a1-m32-c2_1ar8-a1-m6-c2 1ar8-a1-m33-c2_1ar8-a1-m4-c2 1ar8-a1-m34-c2_1ar8-a1-m48-c2 1ar8-a1-m35-c2_1ar8-a1-m40-c2 1ar8-a1-m36-c2_1ar8-a1-m47-c2 1ar8-a1-m39-c2_1ar8-a1-m58-c2 1ar8-a1-m3-c2_1ar8-a1-m49-c2 1ar8-a1-m45-c2_1ar8-a1-m50-c2 1ar8-a1-m54-c2_1ar8-a1-m8-c2 1ar8-a1-m55-c2_1ar8-a1-m60-c2 1ar8-a1-m56-c2_1ar8-a1-m7-c2 1ar9-a1-m10-c2_1ar9-a1-m5-c2 1ar9-a1-m11-c2_1ar9-a1-m37-c2 1ar9-a1-m12-c2_1ar9-a1-m46-c2 1ar9-a1-m13-c2_1ar9-a1-m44-c2 1ar9-a1-m14-c2_1ar9-a1-m28-c2 1ar9-a1-m15-c2_1ar9-a1-m20-c2 1ar9-a1-m16-c2_1ar9-a1-m27-c2 1ar9-a1-m17-c2_1ar9-a1-m51-c2 1ar9-a1-m18-c2_1ar9-a1-m59-c2 1ar9-a1-m19-c2_1ar9-a1-m38-c2 1ar9-a1-m1-c2_1ar9-a1-m22-c2 1ar9-a1-m21-c2_1ar9-a1-m42-c2 1ar9-a1-m23-c2_1ar9-a1-m9-c2 1ar9-a1-m24-c2_1ar9-a1-m53-c2 1ar9-a1-m25-c2_1ar9-a1-m30-c2 1ar9-a1-m26-c2_1ar9-a1-m52-c2 1ar9-a1-m29-c2_1ar9-a1-m43-c2 1ar9-a1-m2-c2_1ar9-a1-m41-c2 1ar9-a1-m31-c2_1ar9-a1-m57-c2 1ar9-a1-m32-c2_1ar9-a1-m6-c2 1ar9-a1-m33-c2_1ar9-a1-m4-c2 1ar9-a1-m34-c2_1ar9-a1-m48-c2 1ar9-a1-m35-c2_1ar9-a1-m40-c2 1ar9-a1-m36-c2_1ar9-a1-m47-c2 1ar9-a1-m39-c2_1ar9-a1-m58-c2 1ar9-a1-m3-c2_1ar9-a1-m49-c2 1ar9-a1-m45-c2_1ar9-a1-m50-c2 1ar9-a1-m54-c2_1ar9-a1-m8-c2 1ar9-a1-m55-c2_1ar9-a1-m60-c2 1ar9-a1-m56-c2_1ar9-a1-m7-c2 1asj-a1-m10-c2_1asj-a1-m5-c2 1asj-a1-m11-c2_1asj-a1-m37-c2 1asj-a1-m12-c2_1asj-a1-m46-c2 1asj-a1-m13-c2_1asj-a1-m44-c2 1asj-a1-m14-c2_1asj-a1-m28-c2 1asj-a1-m15-c2_1asj-a1-m20-c2 1asj-a1-m16-c2_1asj-a1-m27-c2 1asj-a1-m17-c2_1asj-a1-m51-c2 1asj-a1-m18-c2_1asj-a1-m59-c2 1asj-a1-m19-c2_1asj-a1-m38-c2 1asj-a1-m1-c2_1asj-a1-m22-c2 1asj-a1-m21-c2_1asj-a1-m42-c2 1asj-a1-m23-c2_1asj-a1-m9-c2 1asj-a1-m24-c2_1asj-a1-m53-c2 1asj-a1-m25-c2_1asj-a1-m30-c2 1asj-a1-m26-c2_1asj-a1-m52-c2 1asj-a1-m29-c2_1asj-a1-m43-c2 1asj-a1-m2-c2_1asj-a1-m41-c2 1asj-a1-m31-c2_1asj-a1-m57-c2 1asj-a1-m32-c2_1asj-a1-m6-c2 1asj-a1-m33-c2_1asj-a1-m4-c2 1asj-a1-m34-c2_1asj-a1-m48-c2 1asj-a1-m35-c2_1asj-a1-m40-c2 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5kwl-a1-m23-c2_5kwl-a1-m9-c2 5kwl-a1-m24-c2_5kwl-a1-m53-c2 5kwl-a1-m25-c2_5kwl-a1-m30-c2 5kwl-a1-m26-c2_5kwl-a1-m52-c2 5kwl-a1-m29-c2_5kwl-a1-m43-c2 5kwl-a1-m2-c2_5kwl-a1-m41-c2 5kwl-a1-m31-c2_5kwl-a1-m57-c2 5kwl-a1-m32-c2_5kwl-a1-m6-c2 5kwl-a1-m33-c2_5kwl-a1-m4-c2 5kwl-a1-m34-c2_5kwl-a1-m48-c2 5kwl-a1-m35-c2_5kwl-a1-m40-c2 5kwl-a1-m36-c2_5kwl-a1-m47-c2 5kwl-a1-m39-c2_5kwl-a1-m58-c2 5kwl-a1-m3-c2_5kwl-a1-m49-c2 5kwl-a1-m45-c2_5kwl-a1-m50-c2 5kwl-a1-m54-c2_5kwl-a1-m8-c2 5kwl-a1-m55-c2_5kwl-a1-m60-c2 5kwl-a1-m56-c2_5kwl-a1-m7-c2 ACGYSDRVLQLTLGNSTITTQEAANSVVAYGRWPEYLRDSEANPVDQPTEPDVAACRFYTLDTVSWTKESRGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAVPEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDNNQTSPARRFCPVDYLLGNGTLLGNAFVFPHQIINLRTNNCATLVLPYVNSLSIDSMVKHNNWGIAILPLAPLNFASESSPEIPITLTIAPMCCEFNGLRNITLPRLQ 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5o5b-a1-m1-c4_5o5b-a1-m2-c4 5o5b-a1-m1-c4_5o5b-a1-m5-c4 5o5b-a1-m21-c4_5o5b-a1-m22-c4 5o5b-a1-m21-c4_5o5b-a1-m25-c4 5o5b-a1-m22-c4_5o5b-a1-m23-c4 5o5b-a1-m23-c4_5o5b-a1-m24-c4 5o5b-a1-m24-c4_5o5b-a1-m25-c4 5o5b-a1-m26-c4_5o5b-a1-m27-c4 5o5b-a1-m26-c4_5o5b-a1-m30-c4 5o5b-a1-m27-c4_5o5b-a1-m28-c4 5o5b-a1-m28-c4_5o5b-a1-m29-c4 5o5b-a1-m29-c4_5o5b-a1-m30-c4 5o5b-a1-m2-c4_5o5b-a1-m3-c4 5o5b-a1-m31-c4_5o5b-a1-m32-c4 5o5b-a1-m31-c4_5o5b-a1-m35-c4 5o5b-a1-m32-c4_5o5b-a1-m33-c4 5o5b-a1-m33-c4_5o5b-a1-m34-c4 5o5b-a1-m34-c4_5o5b-a1-m35-c4 5o5b-a1-m36-c4_5o5b-a1-m37-c4 5o5b-a1-m36-c4_5o5b-a1-m40-c4 5o5b-a1-m37-c4_5o5b-a1-m38-c4 5o5b-a1-m38-c4_5o5b-a1-m39-c4 5o5b-a1-m39-c4_5o5b-a1-m40-c4 5o5b-a1-m3-c4_5o5b-a1-m4-c4 5o5b-a1-m41-c4_5o5b-a1-m42-c4 5o5b-a1-m41-c4_5o5b-a1-m45-c4 5o5b-a1-m42-c4_5o5b-a1-m43-c4 5o5b-a1-m43-c4_5o5b-a1-m44-c4 5o5b-a1-m44-c4_5o5b-a1-m45-c4 5o5b-a1-m46-c4_5o5b-a1-m47-c4 5o5b-a1-m46-c4_5o5b-a1-m50-c4 5o5b-a1-m47-c4_5o5b-a1-m48-c4 5o5b-a1-m48-c4_5o5b-a1-m49-c4 5o5b-a1-m49-c4_5o5b-a1-m50-c4 5o5b-a1-m4-c4_5o5b-a1-m5-c4 5o5b-a1-m51-c4_5o5b-a1-m52-c4 5o5b-a1-m51-c4_5o5b-a1-m55-c4 5o5b-a1-m52-c4_5o5b-a1-m53-c4 5o5b-a1-m53-c4_5o5b-a1-m54-c4 5o5b-a1-m54-c4_5o5b-a1-m55-c4 5o5b-a1-m56-c4_5o5b-a1-m57-c4 5o5b-a1-m56-c4_5o5b-a1-m60-c4 5o5b-a1-m57-c4_5o5b-a1-m58-c4 5o5b-a1-m58-c4_5o5b-a1-m59-c4 5o5b-a1-m59-c4_5o5b-a1-m60-c4 5o5b-a1-m6-c4_5o5b-a1-m7-c4 5o5b-a1-m7-c4_5o5b-a1-m8-c4 5o5b-a1-m8-c4_5o5b-a1-m9-c4 5o5p-a1-m10-c4_5o5p-a1-m6-c4 5o5p-a1-m10-c4_5o5p-a1-m9-c4 5o5p-a1-m11-c4_5o5p-a1-m12-c4 5o5p-a1-m11-c4_5o5p-a1-m15-c4 5o5p-a1-m12-c4_5o5p-a1-m13-c4 5o5p-a1-m13-c4_5o5p-a1-m14-c4 5o5p-a1-m14-c4_5o5p-a1-m15-c4 5o5p-a1-m16-c4_5o5p-a1-m17-c4 5o5p-a1-m16-c4_5o5p-a1-m20-c4 5o5p-a1-m17-c4_5o5p-a1-m18-c4 5o5p-a1-m18-c4_5o5p-a1-m19-c4 5o5p-a1-m19-c4_5o5p-a1-m20-c4 5o5p-a1-m1-c4_5o5p-a1-m2-c4 5o5p-a1-m1-c4_5o5p-a1-m5-c4 5o5p-a1-m21-c4_5o5p-a1-m22-c4 5o5p-a1-m21-c4_5o5p-a1-m25-c4 5o5p-a1-m22-c4_5o5p-a1-m23-c4 5o5p-a1-m23-c4_5o5p-a1-m24-c4 5o5p-a1-m24-c4_5o5p-a1-m25-c4 5o5p-a1-m26-c4_5o5p-a1-m27-c4 5o5p-a1-m26-c4_5o5p-a1-m30-c4 5o5p-a1-m27-c4_5o5p-a1-m28-c4 5o5p-a1-m28-c4_5o5p-a1-m29-c4 5o5p-a1-m29-c4_5o5p-a1-m30-c4 5o5p-a1-m2-c4_5o5p-a1-m3-c4 5o5p-a1-m31-c4_5o5p-a1-m32-c4 5o5p-a1-m31-c4_5o5p-a1-m35-c4 5o5p-a1-m32-c4_5o5p-a1-m33-c4 5o5p-a1-m33-c4_5o5p-a1-m34-c4 5o5p-a1-m34-c4_5o5p-a1-m35-c4 5o5p-a1-m36-c4_5o5p-a1-m37-c4 5o5p-a1-m36-c4_5o5p-a1-m40-c4 5o5p-a1-m37-c4_5o5p-a1-m38-c4 5o5p-a1-m38-c4_5o5p-a1-m39-c4 5o5p-a1-m39-c4_5o5p-a1-m40-c4 5o5p-a1-m3-c4_5o5p-a1-m4-c4 5o5p-a1-m41-c4_5o5p-a1-m42-c4 5o5p-a1-m41-c4_5o5p-a1-m45-c4 5o5p-a1-m42-c4_5o5p-a1-m43-c4 5o5p-a1-m43-c4_5o5p-a1-m44-c4 5o5p-a1-m44-c4_5o5p-a1-m45-c4 5o5p-a1-m46-c4_5o5p-a1-m47-c4 5o5p-a1-m46-c4_5o5p-a1-m50-c4 5o5p-a1-m47-c4_5o5p-a1-m48-c4 5o5p-a1-m48-c4_5o5p-a1-m49-c4 5o5p-a1-m49-c4_5o5p-a1-m50-c4 5o5p-a1-m4-c4_5o5p-a1-m5-c4 5o5p-a1-m51-c4_5o5p-a1-m52-c4 5o5p-a1-m51-c4_5o5p-a1-m55-c4 5o5p-a1-m52-c4_5o5p-a1-m53-c4 5o5p-a1-m53-c4_5o5p-a1-m54-c4 5o5p-a1-m54-c4_5o5p-a1-m55-c4 5o5p-a1-m56-c4_5o5p-a1-m57-c4 5o5p-a1-m56-c4_5o5p-a1-m60-c4 5o5p-a1-m57-c4_5o5p-a1-m58-c4 5o5p-a1-m58-c4_5o5p-a1-m59-c4 5o5p-a1-m59-c4_5o5p-a1-m60-c4 5o5p-a1-m6-c4_5o5p-a1-m7-c4 5o5p-a1-m7-c4_5o5p-a1-m8-c4 5o5p-a1-m8-c4_5o5p-a1-m9-c4 GAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTAPMLN GAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTAPMLN 1hy7-a3-m1-cA_1hy7-a3-m2-cB A CARBOXYLIC ACID BASED INHIBITOR IN COMPLEX WITH MMP3 P08254 P08254 1.5 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 171 1b3d-a1-m1-cA_1b3d-a1-m1-cB 1bqo-a2-m1-cA_1bqo-a2-m2-cB 1bqo-a3-m1-cA_1bqo-a3-m2-cB 1c3i-a2-m1-cA_1c3i-a2-m2-cB 1cqr-a3-m1-cA_1cqr-a3-m2-cB 1d7x-a1-m1-cA_1d7x-a1-m1-cB FRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLLTRFRLSQDDINGIQSLYGPPP FRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYLTDLTRFRLSQDDINGIQSLYGPPPDSPET 1hy7-a4-m1-cA_1hy7-a4-m1-cB A CARBOXYLIC ACID BASED INHIBITOR IN COMPLEX WITH MMP3 P08254 P08254 1.5 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 171 1b8y-a2-m1-cA_1b8y-a2-m2-cA 1biw-a1-m1-cA_1biw-a1-m1-cB 1bqo-a1-m1-cA_1bqo-a1-m1-cB 1bqo-a3-m1-cA_1bqo-a3-m1-cB 1c3i-a1-m1-cA_1c3i-a1-m1-cB 1caq-a2-m1-cA_1caq-a2-m2-cA 1ciz-a2-m1-cA_1ciz-a2-m2-cA 1cqr-a4-m1-cA_1cqr-a4-m1-cB 1usn-a3-m1-cA_1usn-a3-m4-cA 3ohl-a2-m1-cA_3ohl-a2-m2-cA 3oho-a2-m1-cA_3oho-a2-m2-cA FRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLLTRFRLSQDDINGIQSLYGPPP FRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYLTDLTRFRLSQDDINGIQSLYGPPPDSPET 1hyg-a1-m1-cB_1hyg-a1-m2-cB Crystal structure of MJ0490 gene product, the family of lactate/malate dehydrogenase Q60176 Q60176 2.8 X-RAY DIFFRACTION 85 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 313 313 1hye-a1-m1-cA_1hye-a1-m2-cA 1hyg-a1-m1-cA_1hyg-a1-m2-cA MKVTIIGASGRVGSATALLLAKEPFMKDLVLIGREHSINKLEGLREDIYDALAGTRSDANIYVESDENLRIIDESDVVIITSGVPRKEGMSRMDLAKTNAKIVGKYAKKIAEICDTKIFVITNPVDVMTYKALVDSKFERNQVFGLGTHLDSLRFKVAIAKFFGVHIDEVRTRIIGEHGDSMVPLLSATSIGGIPIQKFERFKELPIDEIIEDVKTKGEQIIRLKGGSEFGPAAAILNVVRCIVNNEKRLLTLSAYVDGEFDGIRDVCIGVPVKIGRDGIEEVVSIELDKDEIIAFRKSAEIIKKYCEEVKNL MKVTIIGASGRVGSATALLLAKEPFMKDLVLIGREHSINKLEGLREDIYDALAGTRSDANIYVESDENLRIIDESDVVIITSGVPRKEGMSRMDLAKTNAKIVGKYAKKIAEICDTKIFVITNPVDVMTYKALVDSKFERNQVFGLGTHLDSLRFKVAIAKFFGVHIDEVRTRIIGEHGDSMVPLLSATSIGGIPIQKFERFKELPIDEIIEDVKTKGEQIIRLKGGSEFGPAAAILNVVRCIVNNEKRLLTLSAYVDGEFDGIRDVCIGVPVKIGRDGIEEVVSIELDKDEIIAFRKSAEIIKKYCEEVKNL 1hyg-a1-m2-cA_1hyg-a1-m2-cB Crystal structure of MJ0490 gene product, the family of lactate/malate dehydrogenase Q60176 Q60176 2.8 X-RAY DIFFRACTION 130 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 313 313 1hyg-a1-m1-cA_1hyg-a1-m1-cB MKVTIIGASGRVGSATALLLAKEPFMKDLVLIGREHSINKLEGLREDIYDALAGTRSDANIYVESDENLRIIDESDVVIITSGVPRKEGMSRMDLAKTNAKIVGKYAKKIAEICDTKIFVITNPVDVMTYKALVDSKFERNQVFGLGTHLDSLRFKVAIAKFFGVHIDEVRTRIIGEHGDSMVPLLSATSIGGIPIQKFERFKELPIDEIIEDVKTKGEQIIRLKGGSEFGPAAAILNVVRCIVNNEKRLLTLSAYVDGEFDGIRDVCIGVPVKIGRDGIEEVVSIELDKDEIIAFRKSAEIIKKYCEEVKNL MKVTIIGASGRVGSATALLLAKEPFMKDLVLIGREHSINKLEGLREDIYDALAGTRSDANIYVESDENLRIIDESDVVIITSGVPRKEGMSRMDLAKTNAKIVGKYAKKIAEICDTKIFVITNPVDVMTYKALVDSKFERNQVFGLGTHLDSLRFKVAIAKFFGVHIDEVRTRIIGEHGDSMVPLLSATSIGGIPIQKFERFKELPIDEIIEDVKTKGEQIIRLKGGSEFGPAAAILNVVRCIVNNEKRLLTLSAYVDGEFDGIRDVCIGVPVKIGRDGIEEVVSIELDKDEIIAFRKSAEIIKKYCEEVKNL 1hyh-a1-m1-cA_1hyh-a1-m1-cD CRYSTAL STRUCTURE OF L-2-HYDROXYISOCAPROATE DEHYDROGENASE FROM LACTOBACILLUS CONFUSUS AT 2.2 ANGSTROMS RESOLUTION-AN EXAMPLE OF STRONG ASYMMETRY BETWEEN SUBUNITS P14295 P14295 2.2 X-RAY DIFFRACTION 50 0.98 1583 (Weissella confusa) 1583 (Weissella confusa) 297 297 1hyh-a1-m1-cB_1hyh-a1-m1-cC ARKIGIIGLGNVGAAVAHGLIAQGVADDYVFIDANEAKVKADQIDFQDAMANLEAHGNIVINDWAALADADVVISTLGNIKLQQFAELKFTSSMVQSVGTNLKESGFHGVLVVISNPVDVITALFQHVTGFPAHKVIGTGTLLDTARMQRAVGEAFDLDPRSVSGYNLGEHGNSQFVAWSTVRVMGQPIVTLIDLAAIEEEARKGGFTVLNGKGYTSYGVATSAIRIAKAVMADAHAELVVSNRRDDMGMYLSYPAIIGRDGVLAETTLDLTTDEQEKLLQSRDYIQQRFDEIVDTL ARKIGIIGLGNVGAAVAHGLIAQGVADDYVFIDANEAKVKADQIDFQDAMANLEAHGNIVINDWAALADADVVISTLGGDRFAELKFTSSMVQSVGTNLKESGFHGVLVVISNPVDVITALFQHVTGFPAHKVIGTGTLLDTARMQRAVGEAFDLDPRSVSGYNLGEHGNSQFVAWSTVRVMGQPIVTLADAIDLAAIEEEARKGGFTVLNGKGYTSYGVATSAIRIAKAVMADAHAELVVSNRRDDMGMYLSYPAIIGRDGVLAETTLDLTTDEQEKLLQSRDYIQQRFDEIVDTL 1hyh-a1-m1-cB_1hyh-a1-m1-cD CRYSTAL STRUCTURE OF L-2-HYDROXYISOCAPROATE DEHYDROGENASE FROM LACTOBACILLUS CONFUSUS AT 2.2 ANGSTROMS RESOLUTION-AN EXAMPLE OF STRONG ASYMMETRY BETWEEN SUBUNITS P14295 P14295 2.2 X-RAY DIFFRACTION 153 0.98 1583 (Weissella confusa) 1583 (Weissella confusa) 294 297 1hyh-a1-m1-cA_1hyh-a1-m1-cC ARKIGIIGLGNVGAAVAHGLIAQGVADDYVFIDANEAKVKADQIDFQDAMANLEAHGNIVINDWAALADADVVISTLGNIKLQQFAELKFTSSMVQSVGTNLKESGFHGVLVVISNPVDVITALFQHVTGFPAHKVIGTGTLLDTARMQRAVGEAFDLDPRSVSGYNLGEHGNSQFVAWSTVRVMGQPIVTLIDLAAIEEEARKGGFTVLNGKGYTSYGVATSAIRIAKAVMADAHAELVVSNRRDDMGMYLSYPAIIGRDGVLAETTLDLTTDEQEKLLQSRDYIQQRFDEIV ARKIGIIGLGNVGAAVAHGLIAQGVADDYVFIDANEAKVKADQIDFQDAMANLEAHGNIVINDWAALADADVVISTLGGDRFAELKFTSSMVQSVGTNLKESGFHGVLVVISNPVDVITALFQHVTGFPAHKVIGTGTLLDTARMQRAVGEAFDLDPRSVSGYNLGEHGNSQFVAWSTVRVMGQPIVTLADAIDLAAIEEEARKGGFTVLNGKGYTSYGVATSAIRIAKAVMADAHAELVVSNRRDDMGMYLSYPAIIGRDGVLAETTLDLTTDEQEKLLQSRDYIQQRFDEIVDTL 1hyh-a1-m1-cC_1hyh-a1-m1-cD CRYSTAL STRUCTURE OF L-2-HYDROXYISOCAPROATE DEHYDROGENASE FROM LACTOBACILLUS CONFUSUS AT 2.2 ANGSTROMS RESOLUTION-AN EXAMPLE OF STRONG ASYMMETRY BETWEEN SUBUNITS P14295 P14295 2.2 X-RAY DIFFRACTION 67 1.0 1583 (Weissella confusa) 1583 (Weissella confusa) 297 297 1hyh-a1-m1-cB_1hyh-a1-m1-cA ARKIGIIGLGNVGAAVAHGLIAQGVADDYVFIDANEAKVKADQIDFQDAMANLEAHGNIVINDWAALADADVVISTLGGDRFAELKFTSSMVQSVGTNLKESGFHGVLVVISNPVDVITALFQHVTGFPAHKVIGTGTLLDTARMQRAVGEAFDLDPRSVSGYNLGEHGNSQFVAWSTVRVMGQPIVTLADAIDLAAIEEEARKGGFTVLNGKGYTSYGVATSAIRIAKAVMADAHAELVVSNRRDDMGMYLSYPAIIGRDGVLAETTLDLTTDEQEKLLQSRDYIQQRFDEIVDTL ARKIGIIGLGNVGAAVAHGLIAQGVADDYVFIDANEAKVKADQIDFQDAMANLEAHGNIVINDWAALADADVVISTLGGDRFAELKFTSSMVQSVGTNLKESGFHGVLVVISNPVDVITALFQHVTGFPAHKVIGTGTLLDTARMQRAVGEAFDLDPRSVSGYNLGEHGNSQFVAWSTVRVMGQPIVTLADAIDLAAIEEEARKGGFTVLNGKGYTSYGVATSAIRIAKAVMADAHAELVVSNRRDDMGMYLSYPAIIGRDGVLAETTLDLTTDEQEKLLQSRDYIQQRFDEIVDTL 1hyo-a1-m1-cA_1hyo-a1-m1-cB CRYSTAL STRUCTURE OF FUMARYLACETOACETATE HYDROLASE COMPLEXED WITH 4-(HYDROXYMETHYLPHOSPHINOYL)-3-OXO-BUTANOIC ACID P35505 P35505 1.3 X-RAY DIFFRACTION 187 1.0 10090 (Mus musculus) 10090 (Mus musculus) 416 419 1qcn-a1-m1-cA_1qcn-a1-m1-cB 1qco-a1-m1-cA_1qco-a1-m1-cB 1qqj-a1-m1-cA_1qqj-a1-m1-cB 2hzy-a1-m1-cA_2hzy-a1-m1-cB MSFIPVAEDSDFPIQNLPYGVFSTQSNPKPRIGVAIGDQILDLSVIKHLFTGPALSKHQHVFDETTLNNFMGLGQAAWKEARASLQNLLSASQARLRDDKELRQRAFTSQASATMHLPATIGDYTDFYSSRQHATNVGIMFRGKENALLPNWLHLPVGYHGRASSIVVSGTPIRRPMGQMRPDNSKPPVYGACRLLDMELEMAFFVGPGNRFGEPIPISKAHEHIFGMVLMNDWSARDIQQWEYVPLGPFLGKSFGTTISPWVVPMDALMPFVVPNPKQDPKPLPYLCHSQPYTFDINLSVSLKGEGMSQAATICRSNFKHMYWTMLQQLTHHSVNGCNLRPGDLLASGTISGSDPESFGSMLELSWKGTKAIDVGQGQTRTFLLDGDEVIITGHCQGDGYRVGFGQCAGKVLPAL GSMSFIPVAEDSDFPIQNLPYGVFSTQSNPKPRIGVAIGDQILDLSVIKHLFTGPALSKHQHVFDETTLNNFMGLGQAAWKEARASLQNLLSASQARLRDDKELRQRAFTSQASATMHLPATIGDYTDFYSSRQHATNVGIMFRGKENALLPNWLHLPVGYHGRASSIVVSGTPIRRPMGQMRPDNSKPPVYGACRLLDMELEMAFFVGPGNRFGEPIPISKAHEHIFGMVLMNDWSARDIQQWEYVPLGPFLGKSFGTTISPWVVPMDALMPFVVPNPKQDPKPLPYLCHSQPYTFDINLSVSLKGEGMSQAATICRSNFKHMYWTMLQQLTHHSVNGCNLRPGDLLASGTISGSDPESFGSMLELSWKGTKAIDVGQGQTRTFLLDGDEVIITGHCQGDGYRVGFGQCAGKVLPALS 1hyu-a1-m1-cA_1hyu-a1-m2-cA CRYSTAL STRUCTURE OF INTACT AHPF P19480 P19480 2 X-RAY DIFFRACTION 147 1.0 521 521 MLDTNMKTQLRAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNTLPVRKPSFLITNPGSQQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRDIDGDFEFETYYSLSCHNCPDVVQALNLMAVLNPRIKHTAIDGGTFQNEITERNVMGVPAVFVNGKEFGQGRMTLTEIVAKVDTGAEKRAAEALNKRDAYDVLIVGSGPAGAAAAVYSARKGIRTGLMGERFGGQVLDTVDIENYISVPKTEGQKLAGALKAHVSDYDVDVIDSQSASKLVPAATEGGLHQIETASGAVLKARSIIIATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKVRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHSVALAGIFVQIGLLPNTHWLEGALERNRMGEIIIDAKCETSVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTKIA MLDTNMKTQLRAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNTLPVRKPSFLITNPGSQQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRDIDGDFEFETYYSLSCHNCPDVVQALNLMAVLNPRIKHTAIDGGTFQNEITERNVMGVPAVFVNGKEFGQGRMTLTEIVAKVDTGAEKRAAEALNKRDAYDVLIVGSGPAGAAAAVYSARKGIRTGLMGERFGGQVLDTVDIENYISVPKTEGQKLAGALKAHVSDYDVDVIDSQSASKLVPAATEGGLHQIETASGAVLKARSIIIATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKVRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHSVALAGIFVQIGLLPNTHWLEGALERNRMGEIIIDAKCETSVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTKIA 1hz4-a1-m1-cA_1hz4-a1-m2-cA CRYSTAL STRUCTURE OF TRANSCRIPTION FACTOR MALT DOMAIN III P06993 P06993 1.45 X-RAY DIFFRACTION 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 366 366 EIKDIREDTMHAEFNALRAQVAINDGNPDEAERLAKLALEELPPGWFYSRIVATSVLGEVLHCKGELTRSLALMQQTEQMARQHDVWHYALWSLIQQSEILFAQGFLQTAWETQEKAFQLINEQHLEQLPMHEFLVRIRAQLLWAWARLDEAEASARSGIEVLSSYQPQQQLQCLAMLIQCSLARGDLDNARSQLNRLENLLGNGKYHSDWISNANKVRVIYWQMTGDKAAAANWLRHTAKPEFANNHFLQGQWRNIARAQILLGEFEPAEIVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSDAQRVLLDALKLANRTGFISHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILREIN EIKDIREDTMHAEFNALRAQVAINDGNPDEAERLAKLALEELPPGWFYSRIVATSVLGEVLHCKGELTRSLALMQQTEQMARQHDVWHYALWSLIQQSEILFAQGFLQTAWETQEKAFQLINEQHLEQLPMHEFLVRIRAQLLWAWARLDEAEASARSGIEVLSSYQPQQQLQCLAMLIQCSLARGDLDNARSQLNRLENLLGNGKYHSDWISNANKVRVIYWQMTGDKAAAANWLRHTAKPEFANNHFLQGQWRNIARAQILLGEFEPAEIVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSDAQRVLLDALKLANRTGFISHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILREIN 1hz4-a2-m1-cA_1hz4-a2-m3-cA CRYSTAL STRUCTURE OF TRANSCRIPTION FACTOR MALT DOMAIN III P06993 P06993 1.45 X-RAY DIFFRACTION 99 1.0 562 (Escherichia coli) 562 (Escherichia coli) 366 366 EIKDIREDTMHAEFNALRAQVAINDGNPDEAERLAKLALEELPPGWFYSRIVATSVLGEVLHCKGELTRSLALMQQTEQMARQHDVWHYALWSLIQQSEILFAQGFLQTAWETQEKAFQLINEQHLEQLPMHEFLVRIRAQLLWAWARLDEAEASARSGIEVLSSYQPQQQLQCLAMLIQCSLARGDLDNARSQLNRLENLLGNGKYHSDWISNANKVRVIYWQMTGDKAAAANWLRHTAKPEFANNHFLQGQWRNIARAQILLGEFEPAEIVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSDAQRVLLDALKLANRTGFISHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILREIN EIKDIREDTMHAEFNALRAQVAINDGNPDEAERLAKLALEELPPGWFYSRIVATSVLGEVLHCKGELTRSLALMQQTEQMARQHDVWHYALWSLIQQSEILFAQGFLQTAWETQEKAFQLINEQHLEQLPMHEFLVRIRAQLLWAWARLDEAEASARSGIEVLSSYQPQQQLQCLAMLIQCSLARGDLDNARSQLNRLENLLGNGKYHSDWISNANKVRVIYWQMTGDKAAAANWLRHTAKPEFANNHFLQGQWRNIARAQILLGEFEPAEIVLEELNENARSLRLMSDLNRNLLLLNQLYWQAGRKSDAQRVLLDALKLANRTGFISHFVIEGEAMAQQLRQLIQLNTLPELEQHRAQRILREIN 1hzb-a1-m1-cA_1hzb-a1-m1-cB BACILLUS CALDOLYTICUS COLD-SHOCK PROTEIN MUTANTS TO STUDY DETERMINANTS OF PROTEIN STABILITY P41016 P41016 1.28 X-RAY DIFFRACTION 21 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 66 66 MQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGEGFKTLEEGQEVSFEIVQGNRGPQAANVVKE MQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGEGFKTLEEGQEVSFEIVQGNRGPQAANVVKE 1hzd-a1-m1-cB_1hzd-a1-m1-cF CRYSTAL STRUCTURE OF HUMAN AUH PROTEIN, AN RNA-BINDING HOMOLOGUE OF ENOYL-COA HYDRATASE Q13825 Q13825 2.2 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 265 1hzd-a1-m1-cC_1hzd-a1-m1-cE 1hzd-a1-m1-cD_1hzd-a1-m1-cA 2zqr-a1-m1-cB_2zqr-a1-m1-cF 2zqr-a1-m1-cC_2zqr-a1-m1-cE 2zqr-a1-m1-cD_2zqr-a1-m1-cA DELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE DELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE 1hzh-a1-m1-cK_1hzh-a1-m1-cH CRYSTAL STRUCTURE OF THE INTACT HUMAN IGG B12 WITH BROAD AND POTENT ACTIVITY AGAINST PRIMARY HIV-1 ISOLATES: A TEMPLATE FOR HIV VACCINE DESIGN P01857 P01857 2.7 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 444 457 5k64-a1-m1-cB_5k64-a1-m1-cA 5k65-a1-m1-cB_5k65-a1-m1-cA QVQLVQSGAEVKKPGASVKVSCQASGYRFSNFVIHWVRQAPGQRFEWMGWINPYNGNKEFSAKFQDRVTFTADTSANTAYMELRSLRSADTAVYYCARVGPYSWDDSPQDNYYMDVWGKGTTVIVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKAEPKSCDKCPPCPAPELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS QVQLVQSGAEVKKPGASVKVSCQASGYRFSNFVIHWVRQAPGQRFEWMGWINPYNGNKEFSAKFQDRVTFTADTSANTAYMELRSLRSADTAVYYCARVGPYSWDDSPQDNYYMDVWGKGTTVIVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKAEPKSCDKTHTCPPCPAPELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK 1i01-a2-m1-cG_1i01-a2-m1-cF CRYSTAL STRUCTURE OF BETA-KETOACYL [ACYL CARRIER PROTEIN] REDUCTASE FROM E. COLI. P0AEK2 P0AEK2 2.6 X-RAY DIFFRACTION 83 0.987 562 (Escherichia coli) 562 (Escherichia coli) 224 225 1i01-a1-m1-cD_1i01-a1-m1-cA MNFEGKIALVTGASRGIGRAIAETLAARGAKVIGTATSENGAQAISDYLGANGKGLMLNVTDPASIESVLEKIRAEFGEVDILVNNADNLLMRMKDEEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGYAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALSDDQRAGILAQVPAGRLGGAQEIANAVAFLASDEAAYITGETLHVNGGM NFEGKIALVTGASRGIGRAIAETLAARGAKVIGTATSENGAQAISDYLGANGKGLMLNVTDPASIESVLEKIRAEFGEVDILVNNAGNLLMRMKDEEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGSVVAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALSDDQRAGILAQVPAGRLGGAQEIANAVAFLASDEAAYITGETLHVNGGM 1i01-a2-m1-cH_1i01-a2-m1-cG CRYSTAL STRUCTURE OF BETA-KETOACYL [ACYL CARRIER PROTEIN] REDUCTASE FROM E. COLI. P0AEK2 P0AEK2 2.6 X-RAY DIFFRACTION 88 0.991 562 (Escherichia coli) 562 (Escherichia coli) 221 224 FEGKIALVTGASRGIGRAIAETLAARGAKVIGTATSENGAQAISDYLGANGKGLMLNVTDPASIESVLEKIRAEFGEVDILVNNADNLLMRMKDEEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGANYAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALQRAGILAQVPAGRLGGAQEIANAVAFLASDEAAYITGETLHVNGGM MNFEGKIALVTGASRGIGRAIAETLAARGAKVIGTATSENGAQAISDYLGANGKGLMLNVTDPASIESVLEKIRAEFGEVDILVNNADNLLMRMKDEEWNDIIETNLSSVFRLSKAVMRAMMKKRHGRIITIGYAAAKAGLIGFSKSLAREVASRGITVNVVAPGFIETDMTRALSDDQRAGILAQVPAGRLGGAQEIANAVAFLASDEAAYITGETLHVNGGM 1i07-a1-m1-cA_1i07-a1-m1-cB EPS8 SH3 DOMAIN INTERTWINED DIMER Q08509 Q08509 1.8 X-RAY DIFFRACTION 147 1.0 10090 (Mus musculus) 10090 (Mus musculus) 59 59 1aoj-a1-m1-cA_1aoj-a1-m1-cB KKYAKSKYDFVARNSSELSVMKDDVLEILDDRRQWWKVRNASGDSGFVPNNILDIMRTP KKYAKSKYDFVARNSSELSVMKDDVLEILDDRRQWWKVRNASGDSGFVPNNILDIMRTP 1i0a-a1-m1-cD_1i0a-a1-m1-cA CRYSTAL STRUCTURE OF WILD TYPE TURKEY DELTA 1 CRYSTALLIN (EYE LENS PROTEIN) Q7SIE0 Q7SIE0 2.5 X-RAY DIFFRACTION 135 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 443 453 1i0a-a1-m1-cB_1i0a-a1-m1-cC IMEILSSSISTEQRLTEVDIQASMAYAKALEKASILTKTELEKILSGLEKISEESSKGVLVMTQSDEDIQTAIERRLKELIGDIAGKLQTGRSRNEQVVTDLKLLLKSSISVISTHLLQLIKTLVERAAIEIDIIMPGYTHLQKALPIRWSQFLLSHAVALTRDSERLGEVKKRITVLPLGSGVLAGNPLEIDRELLRSELDMTSITLNSIDAISERDFVVELISVATLLMIHLSKLAEDLIIFSTTEFGFVTLSDAYSTGSSLLPQKKNPDSLELIRSKAGRVFGRLAAILMVLKGIPSTFSKDLQEDKEAVLDVVDTLTAVLQVATGVISTLQINKENMEKALTPELLSTDLALYLVRKGMPIRQAQTASGKAVHLAETKGITINNLTLEDLKSISPLFASDVSQVFSVVNSVEQYTAVGGTAKSSVTAQIEQLRELLKKQ GRFVGSVDPIMEILSSSISTEQRLTEVDIQASMAYAKALEKASILTKTELEKILSGLEKISEESSKGVLVMTQSDEDIQTAIERRLKELIGDIAGKLQTGRSRNEQVVTDLKLLLKSSISVISTHLLQLIKTLVERAAIEIDIIMPGYTHLQKALPIRWSQFLLSHAVALTRDSERLGEVKKRITVLPLGSGVLAGNPLEIDRELLRSELDMTSITLNSIDAISERDFVVELISVATLLMIHLSKLAEDLIIFSTTEFGFVTLSDAYSTGSSLLPQKKNPDSLELIRSKAGRVFGRLAAILMVLKGIPSTFSKDLQEDKEAVLDVVDTLTAVLQVATGVISTLQINKENMEKALTPELLSTDLALYLVRKGMPIRQAQTASGKAVHLAETKGITINNLTLEDLKSISPLFASDVSQVFSVVNSVEQYTAVGGTAKSSVTAQIEQLRELLKKQK 1i0a-a1-m1-cD_1i0a-a1-m1-cB CRYSTAL STRUCTURE OF WILD TYPE TURKEY DELTA 1 CRYSTALLIN (EYE LENS PROTEIN) Q7SIE0 Q7SIE0 2.5 X-RAY DIFFRACTION 296 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 443 444 1i0a-a1-m1-cC_1i0a-a1-m1-cA IMEILSSSISTEQRLTEVDIQASMAYAKALEKASILTKTELEKILSGLEKISEESSKGVLVMTQSDEDIQTAIERRLKELIGDIAGKLQTGRSRNEQVVTDLKLLLKSSISVISTHLLQLIKTLVERAAIEIDIIMPGYTHLQKALPIRWSQFLLSHAVALTRDSERLGEVKKRITVLPLGSGVLAGNPLEIDRELLRSELDMTSITLNSIDAISERDFVVELISVATLLMIHLSKLAEDLIIFSTTEFGFVTLSDAYSTGSSLLPQKKNPDSLELIRSKAGRVFGRLAAILMVLKGIPSTFSKDLQEDKEAVLDVVDTLTAVLQVATGVISTLQINKENMEKALTPELLSTDLALYLVRKGMPIRQAQTASGKAVHLAETKGITINNLTLEDLKSISPLFASDVSQVFSVVNSVEQYTAVGGTAKSSVTAQIEQLRELLKKQ IMEILSSSISTEQRLTEVDIQASMAYAKALEKASILTKTELEKILSGLEKISEESSKGVLVMTQSDEDIQTAIERRLKELIGDIAGKLQTGRSRNEQVVTDLKLLLKSSISVISTHLLQLIKTLVERAAIEIDIIMPGYTHLQKALPIRWSQFLLSHAVALTRDSERLGEVKKRITVLPLGSGVLAGNPLEIDRELLRSELDMTSITLNSIDAISERDFVVELISVATLLMIHLSKLAEDLIIFSTTEFGFVTLSDAYSTGSSLLPQKKNPDSLELIRSKAGRVFGRLAAILMVLKGIPSTFSKDLQEDKEAVLDVVDTLTAVLQVATGVISTLQINKENMEKALTPELLSTDLALYLVRKGMPIRQAQTASGKAVHLAETKGITINNLTLEDLKSISPLFASDVSQVFSVVNSVEQYTAVGGTAKSSVTAQIEQLRELLKKQK 1i0a-a1-m1-cD_1i0a-a1-m1-cC CRYSTAL STRUCTURE OF WILD TYPE TURKEY DELTA 1 CRYSTALLIN (EYE LENS PROTEIN) Q7SIE0 Q7SIE0 2.5 X-RAY DIFFRACTION 101 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 443 445 1i0a-a1-m1-cB_1i0a-a1-m1-cA IMEILSSSISTEQRLTEVDIQASMAYAKALEKASILTKTELEKILSGLEKISEESSKGVLVMTQSDEDIQTAIERRLKELIGDIAGKLQTGRSRNEQVVTDLKLLLKSSISVISTHLLQLIKTLVERAAIEIDIIMPGYTHLQKALPIRWSQFLLSHAVALTRDSERLGEVKKRITVLPLGSGVLAGNPLEIDRELLRSELDMTSITLNSIDAISERDFVVELISVATLLMIHLSKLAEDLIIFSTTEFGFVTLSDAYSTGSSLLPQKKNPDSLELIRSKAGRVFGRLAAILMVLKGIPSTFSKDLQEDKEAVLDVVDTLTAVLQVATGVISTLQINKENMEKALTPELLSTDLALYLVRKGMPIRQAQTASGKAVHLAETKGITINNLTLEDLKSISPLFASDVSQVFSVVNSVEQYTAVGGTAKSSVTAQIEQLRELLKKQ DPIMEILSSSISTEQRLTEVDIQASMAYAKALEKASILTKTELEKILSGLEKISEESSKGVLVMTQSDEDIQTAIERRLKELIGDIAGKLQTGRSRNEQVVTDLKLLLKSSISVISTHLLQLIKTLVERAAIEIDIIMPGYTHLQKALPIRWSQFLLSHAVALTRDSERLGEVKKRITVLPLGSGVLAGNPLEIDRELLRSELDMTSITLNSIDAISERDFVVELISVATLLMIHLSKLAEDLIIFSTTEFGFVTLSDAYSTGSSLLPQKKNPDSLELIRSKAGRVFGRLAAILMVLKGIPSTFSKDLQEDKEAVLDVVDTLTAVLQVATGVISTLQINKENMEKALTPELLSTDLALYLVRKGMPIRQAQTASGKAVHLAETKGITINNLTLEDLKSISPLFASDVSQVFSVVNSVEQYTAVGGTAKSSVTAQIEQLRELLKKQ 1i0e-a4-m1-cD_1i0e-a4-m2-cC CRYSTAL STRUCTURE OF CREATINE KINASE FROM HUMAN MUSCLE P06732 P06732 3.5 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 365 365 1i0e-a1-m1-cA_1i0e-a1-m2-cA 1i0e-a2-m1-cB_1i0e-a2-m3-cB 1i0e-a3-m1-cC_1i0e-a3-m2-cD 1u6r-a1-m1-cA_1u6r-a1-m1-cB 2crk-a1-m1-cA_2crk-a1-m2-cA NKFKLNYKPEEEYPDLSKHNNHMAKVLTLELYKKLRDKETPSGFTVDDVIQTGVDNPGHPFIMTVGCVAGDEESYEVFKELFDPIISDRHGGYKPTDKHKTDLNHENLKGGDDLDPNYVLSSRVRTGRSIKGYTLPPHCSRGERRAVEKLSVEALNSLTGEFKGKYYPLKSMTEKEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKSFLVWVNEEDHLRVISMEKGGNMKEVFRRFCVGLQKIEEIFKKAGHPFMWNQHLGYVLTCPSNLGTGLRGGVHVKLAHLSKHPKFEEILTRLRLQKRGTSVFDVSNADRLGSSEVEQVQLVVDGVKLMVEMEKKLEKGQSIDDMIPAQK NKFKLNYKPEEEYPDLSKHNNHMAKVLTLELYKKLRDKETPSGFTVDDVIQTGVDNPGHPFIMTVGCVAGDEESYEVFKELFDPIISDRHGGYKPTDKHKTDLNHENLKGGDDLDPNYVLSSRVRTGRSIKGYTLPPHCSRGERRAVEKLSVEALNSLTGEFKGKYYPLKSMTEKEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKSFLVWVNEEDHLRVISMEKGGNMKEVFRRFCVGLQKIEEIFKKAGHPFMWNQHLGYVLTCPSNLGTGLRGGVHVKLAHLSKHPKFEEILTRLRLQKRGTSVFDVSNADRLGSSEVEQVQLVVDGVKLMVEMEKKLEKGQSIDDMIPAQK 1i0r-a1-m1-cA_1i0r-a1-m1-cB CRYSTAL STRUCTURE OF FERRIC REDUCTASE FROM ARCHAEOGLOBUS FULGIDUS O29428 O29428 1.5 X-RAY DIFFRACTION 153 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 161 168 1i0s-a1-m1-cA_1i0s-a1-m1-cB MDVEAFYKISYGLYIVTSESNGRKCGQIANTVFQLTSKPVQIAVCLNKENDTHNAVKESGAFGVSVLELETPMEFIGRFGFRKSSEFEKFDGVEYKTGKTGVPLVTQHAVAVIEAKVVKECDVGTHTLFVGEAVDAEVLKDAEVLTYADYHLMKKGKTPRT MDVEAFYKISYGLYIVTSESNGRKCGQIANTVFQLTSKPVQIAVCLNKENDTHNAVKESGAFGVSVLELETPMEFIGRFGFRKSSEFEKFDGVEYKTGKTGVPLVTQHAVAVIEAKVVKECDVGTHTLFVGEAVDAEVLKDAEVLTYADYHLMKKGKTPRTATVYFES 1i0x-a5-m1-cD_1i0x-a5-m2-cC RIBONUCLEASE T1 IN COMPLEX WITH 2'GMP (FORM II CRYSTAL) P00651 P00651 1.65 X-RAY DIFFRACTION 40 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 103 104 5bir-a3-m1-cB_5bir-a3-m2-cB CDYTCGSNCYSSSDVSTAQAAGYKLHEDGETVGSNSYPHKYNNYEGFDFSVSSPYYEWPILSSGDVYSGGSPGADRVVFNENNQLAGVITHTGASGNNFVECT ACDYTCGSNCYSSSDVSTAQAAGYKLHEDGETVGSNSYPHKYNNYEGFDFSVSSPYYEWPILSSGDVYSGGSPGADRVVFNENNQLAGVITHTGASGNNFVECT 1i13-a1-m1-cA_1i13-a1-m1-cB ANALYSIS OF AN INVARIANT ASPARTIC ACID IN HPRTS-ALANINE MUTANT Q4DRC4 Q4DRC4 1.84 X-RAY DIFFRACTION 89 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 187 193 1i0i-a1-m1-cA_1i0i-a1-m1-cB 1i0l-a1-m1-cA_1i0l-a1-m1-cB 1i14-a1-m1-cA_1i14-a1-m1-cB 1p17-a1-m1-cA_1p17-a1-m1-cB 1p17-a2-m1-cD_1p17-a2-m1-cC 1p17-a3-m1-cA_1p17-a3-m1-cB 1p17-a3-m1-cD_1p17-a3-m1-cC 1p18-a1-m1-cA_1p18-a1-m1-cB 1tc1-a1-m1-cA_1tc1-a1-m1-cB 1tc2-a1-m1-cA_1tc2-a1-m1-cB 5euc-a1-m1-cC_5euc-a1-m1-cA 5euc-a1-m1-cD_5euc-a1-m1-cB YEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLKGSFMFTADLCRALCDFNVPVRMEFICVSSYGEGLTSSGQVRMLLDTRHSIEGHHVLIVEDIVATALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYA YEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLKGSFMFTADLCRALCDFNVPVRMEFICVSSYGEGLTSSGQVRMLLDTRHSIEGHHVLIVEDIVATALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYAEREAAR 1i1c-a1-m1-cA_1i1c-a1-m1-cB NON-FCRN BINDING FC FRAGMENT OF RAT IGG2A P20760 P20760 2.7 X-RAY DIFFRACTION 71 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 205 205 SVFIFPPKTKDVLGGGLTPKVTCVVVDISQNDPEVRFSWFIDDVEVHTAQTHAPEKQSNSTLRSVSELPIVERDWLNGKTFKCKVNSGAFPAPIEKSISKPEGTPRGPQVYTMAPPKEEMTQSQVSITCMVKGFYPPDIYTEWKMNGQPQENYKNTPPTMDTDGSYFLYSKLNVKKETWQQGNTFTCSVLHEGLENEHTEKSLSH SVFIFPPKTKDVLGGGLTPKVTCVVVDISQNDPEVRFSWFIDDVEVHTAQTHAPEKQSNSTLRSVSELPIVERDWLNGKTFKCKVNSGAFPAPIEKSISKPEGTPRGPQVYTMAPPKEEMTQSQVSITCMVKGFYPPDIYTEWKMNGQPQENYKNTPPTMDTDGSYFLYSKLNVKKETWQQGNTFTCSVLHEGLENEHTEKSLSH 1i1d-a1-m1-cA_1i1d-a1-m1-cD CRYSTAL STRUCTURE OF YEAST GNA1 BOUND TO COA AND GLNAC-6P P43577 P43577 1.8 X-RAY DIFFRACTION 196 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 156 161 1i12-a1-m1-cA_1i12-a1-m1-cC 1i12-a2-m1-cB_1i12-a2-m1-cD 1i1d-a2-m1-cB_1i1d-a2-m1-cC 1i21-a1-m1-cA_1i21-a1-m1-cB 1i21-a2-m1-cN_1i21-a2-m1-cM 1i21-a3-m1-cX_1i21-a3-m1-cY MSLPDGFYIRRMEEGDLEQVTETLKVLTTVGTITPESFCKLIKYWNEATVWNDKKIMQYNPMVIVDKRTETVAATGNIIIERKIIHELGLCGHIEDIAVNSKYQGQGLGKLLIDQLVTIGFDYGCYKIILDCDEKNVKFYEKCGFSNAGVEMQIRK GSMSLPDGFYIRRMEEGDLEQVTETLKVLTTVGTITPESFCKLIKYWNEATVWNDNEDKKIMQYNPMVIVDKRTETVAATGNIIIERKIIHELGLCGHIEDIAVNSKYQGQGLGKLLIDQLVTIGFDYGCYKIILDCDEKNVKFYEKCGFSNAGVEMQIRK 1i1i-a2-m1-cP_1i1i-a2-m2-cP NEUROLYSIN (ENDOPEPTIDASE 24.16) CRYSTAL STRUCTURE P42676 P42676 2.3 X-RAY DIFFRACTION 23 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 665 665 MSSYTAAGRNVLRWDLSPEQIKTRTEQLIAQTKQVYDTVGTIALKEVTYENCLQVLADIEVTYIVERTMLDFPQHVSSDREVRAASTEADKKLSRFDIEMSMREDVFQRIVHLQETCDLEKIKPEARRYLEKSIKMGKRNGLHLSEHIRNEIKSMKKRMSELCIDFNKNLNEDDTSLVFSKAELGALPDDFIDSLEKTDEDKYKVTLKYPHYFPVMKKCCVPETRRKMEMAFHTRCKQENTAILQQLLPLRAQVAKLLGYNTHADFVLELNTAKSTSRVAAFLDDLSQKLKPLGEAEREFILSLKKKECEERGFEYDGKINAWDLHYYMTQTEELKYSVDQESLKEYFPIEVVTEGLLSIYQELLGLSFEQVPDAHVWNKSVSLYTVKDKATGEVLGQFYLDLYPREGKYNHAACFGLQPGCLLPDGSRMMSVAALVVNFSQPVAGRPSLLRHDEVRTYFHEFGHVMHQICAQTDFARFSGTNVETDFVEVPSQMLENWVWDVDSLRKLSKHYKDGHPITDELLEKLVASRLVNTGLLTLRQIVLSKVDQSLHTNATLDAASEYAKYCTEILGVAATPGTNMPATFGHLAGGYDGQYYGYLWSEVFSMDMFHSCFKKEGIMNPEVGMKYRNLILKPGGSLDGMDMLQNFLQREPNQKAFLMSRGL MSSYTAAGRNVLRWDLSPEQIKTRTEQLIAQTKQVYDTVGTIALKEVTYENCLQVLADIEVTYIVERTMLDFPQHVSSDREVRAASTEADKKLSRFDIEMSMREDVFQRIVHLQETCDLEKIKPEARRYLEKSIKMGKRNGLHLSEHIRNEIKSMKKRMSELCIDFNKNLNEDDTSLVFSKAELGALPDDFIDSLEKTDEDKYKVTLKYPHYFPVMKKCCVPETRRKMEMAFHTRCKQENTAILQQLLPLRAQVAKLLGYNTHADFVLELNTAKSTSRVAAFLDDLSQKLKPLGEAEREFILSLKKKECEERGFEYDGKINAWDLHYYMTQTEELKYSVDQESLKEYFPIEVVTEGLLSIYQELLGLSFEQVPDAHVWNKSVSLYTVKDKATGEVLGQFYLDLYPREGKYNHAACFGLQPGCLLPDGSRMMSVAALVVNFSQPVAGRPSLLRHDEVRTYFHEFGHVMHQICAQTDFARFSGTNVETDFVEVPSQMLENWVWDVDSLRKLSKHYKDGHPITDELLEKLVASRLVNTGLLTLRQIVLSKVDQSLHTNATLDAASEYAKYCTEILGVAATPGTNMPATFGHLAGGYDGQYYGYLWSEVFSMDMFHSCFKKEGIMNPEVGMKYRNLILKPGGSLDGMDMLQNFLQREPNQKAFLMSRGL 1i1q-a1-m1-cA_1i1q-a1-m2-cA STRUCTURE OF THE COOPERATIVE ALLOSTERIC ANTHRANILATE SYNTHASE FROM SALMONELLA TYPHIMURIUM P00898 P00898 1.9 X-RAY DIFFRACTION 39 1.0 512 512 KPTLELLTCDAAYRENPTALFHQVCGDRPATLLLESADIDSKDDLKSLLLVDSALRITALGDTVTIQALSDNGASLLPLLDTALPAGVENDVLPAGRVLRFPPVSPLLDENARLCSLSVFDAFRLLQGVVNIPTQEREAMFFGGLFAYDLVAGFEALPHLEAGNNCPDYCFYLAETLMVIDHQKKSTRIQASLFTASDREKQRLNARLAYLSQQLTQPAPPLPVTPVPDMRCECNQSDDAFGAVVRQLQKAIRAGEIFQVVPSRRFSLPCPSPLAAYYVLKKSNPSPYMFFMQDNDFTLFGASPESSLKYDAASRQIEIYPIAGTRPRGRRADGTLDRDLDSRIELDMRTDHKELSEHLMLVDLARNDLARICTPGSRYVADLTKVDRYSYVMHLVSRVVGELRHDLDALHAYRACMNMGTLSGAPKVRAMQLIADAEGQRRGSYGGAVGYFTAHGDLDTCIVIRSALVENGIATVQAGAGIVLDSVPQSEADETRNKARAVLRAIATAHHA KPTLELLTCDAAYRENPTALFHQVCGDRPATLLLESADIDSKDDLKSLLLVDSALRITALGDTVTIQALSDNGASLLPLLDTALPAGVENDVLPAGRVLRFPPVSPLLDENARLCSLSVFDAFRLLQGVVNIPTQEREAMFFGGLFAYDLVAGFEALPHLEAGNNCPDYCFYLAETLMVIDHQKKSTRIQASLFTASDREKQRLNARLAYLSQQLTQPAPPLPVTPVPDMRCECNQSDDAFGAVVRQLQKAIRAGEIFQVVPSRRFSLPCPSPLAAYYVLKKSNPSPYMFFMQDNDFTLFGASPESSLKYDAASRQIEIYPIAGTRPRGRRADGTLDRDLDSRIELDMRTDHKELSEHLMLVDLARNDLARICTPGSRYVADLTKVDRYSYVMHLVSRVVGELRHDLDALHAYRACMNMGTLSGAPKVRAMQLIADAEGQRRGSYGGAVGYFTAHGDLDTCIVIRSALVENGIATVQAGAGIVLDSVPQSEADETRNKARAVLRAIATAHHA 1i2k-a1-m1-cA_1i2k-a1-m2-cA AMINODEOXYCHORISMATE LYASE FROM ESCHERICHIA COLI P28305 P28305 1.79 X-RAY DIFFRACTION 169 1.0 562 (Escherichia coli) 562 (Escherichia coli) 269 269 1et0-a2-m1-cA_1et0-a2-m2-cA 1i2l-a1-m1-cA_1i2l-a1-m2-cA MFLINGHKQESLAVSDRATQFGDGCFTTARVIDGKVSLLSAHIQRLQDACQRLMISCDFWPQLEQEMKTLAAEQQNGVLKVVISRGSGGRGYSTLNSGPATRILSVTAYPAHYDRLRNEGITLALSPVRLGRNPHLAGIKHLNRLEQVLIRSHLEQTNADEALVLDSEGWVTECCAANLFWRKGNVVYTPRLDQAGVNGIMRQFCIRLLAQSSYQLVEVQASLEESLQADEMVICNALMPVMPVCACGDVSFSSATLYEYLAPLCERPN MFLINGHKQESLAVSDRATQFGDGCFTTARVIDGKVSLLSAHIQRLQDACQRLMISCDFWPQLEQEMKTLAAEQQNGVLKVVISRGSGGRGYSTLNSGPATRILSVTAYPAHYDRLRNEGITLALSPVRLGRNPHLAGIKHLNRLEQVLIRSHLEQTNADEALVLDSEGWVTECCAANLFWRKGNVVYTPRLDQAGVNGIMRQFCIRLLAQSSYQLVEVQASLEESLQADEMVICNALMPVMPVCACGDVSFSSATLYEYLAPLCERPN 1i2m-a3-m1-cB_1i2m-a3-m1-cD RAN-RCC1-SO4 COMPLEX P18754 P18754 1.76 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 388 390 KVSHRSHSTEPGLVLTLGQGDVGQLGLGENVMERKKPALVSIPEDVVQAEAGGMHTVCLSKSGQVYSFGCNDEGALGRDTSVEGSEMVPGKVELQEKVVQVSAGDSHTAALTDDGRVFLWGSFRDNNGVIGLLEPMKKSMVPVQVQLDVPVVKVASGNDHLVMLTADGDLYTLGCGEQGQLGRVPELFANRGGRQGLERLLVPKCVMLKHVRFQDAFCGAYFTFAISHEGHVYGFGLSNYHQLGTPGTESCFIPQNLTSFKNSTKSWVGFSGGQHHTVCMDSEGKAYSLGRAEYGRLGLGEGAEEKSIPTLISRLPAVSSVACGASVGYAVTKDGRVFAWGMGTNYQLGTGQDEDAWSPVEMMGKQLENRVVLSVSSGGQHTVLLVKD KVSHRSHSTEPGLVLTLGQGDVGQLGLGENVMERKKPALVSIPEDVVQAEAGGMHTVCLSKSGQVYSFGCNDEGALGRDTSVEGSEMVPGKVELQEKVVQVSAGDSHTAALTDDGRVFLWGSFRDNNGVIGLLEPMKKSMVPVQVQLDVPVVKVASGNDHLVMLTADGDLYTLGCGEQGQLGRVPELFANRGGRQGLERLLVPKCVMLKHVRFQDAFCGAYFTFAISHEGHVYGFGLSNYHQLGTPGTESCFIPQNLTSFKNSTKSWVGFSGGQHHTVCMDSEGKAYSLGRAEYGRLGLGEGAEEKSIPTLISRLPAVSSVACGASVGYAVTKDGRVFAWGMGTNYQLGTGQDEDAWSPVEMMGKQLENRVVLSVSSGGQHTVLLVKDKE 1i2w-a1-m1-cA_1i2w-a1-m1-cB BETA-LACTAMASE FROM BACILLUS LICHENIFORMIS BS3 COMPLEXED WITH CEFOXITIN P00808 P00808 1.7 X-RAY DIFFRACTION 36 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 255 256 1i2s-a1-m1-cA_1i2s-a1-m1-cB 3b3x-a1-m1-cA_3b3x-a1-m1-cB DDFAKLEEQFDAKLGIFALDTGTNRTVTYRPDERFAFASTIKALTVGVLLQQKSIEDLNQRITYTRDDLVNYNPITEKHVDTGMTLKELADASLRYSDNTAQNLILKQIGGPESLKKELRKIGDEVTNPERFEPELNEVNPGETQDTSTARALATSLQAFALEDKLPSEKRELLIDWMKRNTTGDALIRAGVPEGWEVADKTGAGSYGTRNDIAIIWPPKGDPVVLAVLSSRDKKDAKYDDKLIAEATKVVLKAL KDDFAKLEEQFDAKLGIFALDTGTNRTVTYRPDERFAFASTIKALTVGVLLQQKSIEDLNQRITYTRDDLVNYNPITEKHVDTGMTLKELADASLRYSDNTAQNLILKQIGGPESLKKELRKIGDEVTNPERFEPELNEVNPGETQDTSTARALATSLQAFALEDKLPSEKRELLIDWMKRNTTGDALIRAGVPEGWEVADKTGAGSYGTRNDIAIIWPPKGDPVVLAVLSSRDKKDAKYDDKLIAEATKVVLKAL 1i36-a3-m1-cB_1i36-a3-m3-cB Structure of Conserved Protein MTH1747 of Unknown Function Reveals Structural Similarity with 3-Hydroxyacid Dehydrogenases O27779 O27779 2 X-RAY DIFFRACTION 16 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 258 258 1i36-a2-m1-cA_1i36-a2-m2-cA LRVGFIGFGEVAQTLASRLRSRGVEVVTSLEGRSPSTIERARTVGVTETSEEDVYSCPVVISAVTPGVALGAARRAGRHVRGIYVDINNISPETVRMASSLIEKGGFVDAAIMGSVRRKGADIRIIASGRDAEEFMKLNRYGLNIEVRGREPGDASAIKMLRSSYTKGVSALLWETLTAAHRLGLEEDVLEMLEYTEGNDFRESAISRLKSSCIHARRRYEEMKEVQDMLAEVIDPVMPTCIIRIFDKLKDARLQGCA LRVGFIGFGEVAQTLASRLRSRGVEVVTSLEGRSPSTIERARTVGVTETSEEDVYSCPVVISAVTPGVALGAARRAGRHVRGIYVDINNISPETVRMASSLIEKGGFVDAAIMGSVRRKGADIRIIASGRDAEEFMKLNRYGLNIEVRGREPGDASAIKMLRSSYTKGVSALLWETLTAAHRLGLEEDVLEMLEYTEGNDFRESAISRLKSSCIHARRRYEEMKEVQDMLAEVIDPVMPTCIIRIFDKLKDARLQGCA 1i36-a3-m3-cA_1i36-a3-m3-cB Structure of Conserved Protein MTH1747 of Unknown Function Reveals Structural Similarity with 3-Hydroxyacid Dehydrogenases O27779 O27779 2 X-RAY DIFFRACTION 141 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 258 258 1i36-a1-m1-cA_1i36-a1-m1-cB 1i36-a2-m1-cA_1i36-a2-m1-cB 1i36-a2-m2-cA_1i36-a2-m2-cB 1i36-a3-m1-cA_1i36-a3-m1-cB LRVGFIGFGEVAQTLASRLRSRGVEVVTSLEGRSPSTIERARTVGVTETSEEDVYSCPVVISAVTPGVALGAARRAGRHVRGIYVDINNISPETVRMASSLIEKGGFVDAAIMGSVRRKGADIRIIASGRDAEEFMKLNRYGLNIEVRGREPGDASAIKMLRSSYTKGVSALLWETLTAAHRLGLEEDVLEMLEYTEGNDFRESAISRLKSSCIHARRRYEEMKEVQDMLAEVIDPVMPTCIIRIFDKLKDARLQGCA LRVGFIGFGEVAQTLASRLRSRGVEVVTSLEGRSPSTIERARTVGVTETSEEDVYSCPVVISAVTPGVALGAARRAGRHVRGIYVDINNISPETVRMASSLIEKGGFVDAAIMGSVRRKGADIRIIASGRDAEEFMKLNRYGLNIEVRGREPGDASAIKMLRSSYTKGVSALLWETLTAAHRLGLEEDVLEMLEYTEGNDFRESAISRLKSSCIHARRRYEEMKEVQDMLAEVIDPVMPTCIIRIFDKLKDARLQGCA 1i3c-a1-m1-cB_1i3c-a1-m1-cA RESPONSE REGULATOR FOR CYANOBACTERIAL PHYTOCHROME, RCP1 Q55169 Q55169 1.9 X-RAY DIFFRACTION 72 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 138 142 1jlk-a1-m1-cB_1jlk-a1-m1-cA PPKVILLVEDSKADSRLVQEVLKTSTIDHELIILRDGLAAAFLQQQGEYENSPRPNLILLDLNLPKKDGREVLAEIKQNPDLKRIPVVVLTTSHNEDDVIASYELHVNCYLTKSRNLKDLFKVQGIESFWLETVTLPA NPPKVILLVEDSKADSRLVQEVLKTSTIDHELIILRDGLAAAFLQQQGEYENSPRPNLILLDLNLPKKDGREVLAEIKQNPDLKRIPVVVLTTSHNEDDVIASYELHVNCYLTKSRNLKDLFKVQGIESFWLETVTLPAAPG 1i3n-a1-m1-cB_1i3n-a1-m1-cA MOLECULAR BASIS FOR SEVERE EPIMERASE-DEFICIENCY GALACTOSEMIA: X-RAY STRUCTURE OF THE HUMAN V94M-SUBSTITUTED UDP-GALACTOSE 4-EPIMERASE Q14376 Q14376 1.5 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 345 347 1ek5-a1-m1-cA_1ek5-a1-m2-cA 1ek6-a1-m1-cB_1ek6-a1-m1-cA 1hzj-a1-m1-cA_1hzj-a1-m1-cB 1i3k-a1-m1-cB_1i3k-a1-m1-cA 1i3l-a1-m1-cB_1i3l-a1-m1-cA 1i3m-a1-m1-cB_1i3m-a1-m1-cA AEKVLVTGGAGYIGSHTVLELLEAGYLPVVIDNFHNAFRGGGSLPESLRRVQELTGRSVEFEEMDILDQGALQRLFKKYSFMAVIHFAGLKAMGESVQKPLDYYRVNLTGTIQLLEIMKAHGVKNLVFSSSATVYGNPQYLPLDEAHPTGGCTNPYGKSKFFIEEMIRDLCQADKTWNVVLLRYFNPTGAHASGCIGEDPQGIPNNLMPYVSQVAIGRREALNVFGNDYDTEDGTGVRDYIHVVDLAKGHIAALRKLKEQCGCRIYNLGTGTGYSVLQMVQAMEKASGKKIPYKVVARREGDVAACYANPSLAQEELGWTAALGLDRMCEDLWRWQKQNPSGFGT AEKVLVTGGAGYIGSHTVLELLEAGYLPVVIDNFHNAFRGGGSLPESLRRVQELTGRSVEFEEMDILDQGALQRLFKKYSFMAVIHFAGLKAMGESVQKPLDYYRVNLTGTIQLLEIMKAHGVKNLVFSSSATVYGNPQYLPLDEAHPTGGCTNPYGKSKFFIEEMIRDLCQADKTWNVVLLRYFNPTGAHASGCIGEDPQGIPNNLMPYVSQVAIGRREALNVFGNDYDTEDGTGVRDYIHVVDLAKGHIAALRKLKEQCGCRIYNLGTGTGYSVLQMVQAMEKASGKKIPYKVVARREGDVAACYANPSLAQEELGWTAALGLDRMCEDLWRWQKQNPSGFGTQA 1i4a-a2-m2-cA_1i4a-a2-m3-cA CRYSTAL STRUCTURE OF PHOSPHORYLATION-MIMICKING MUTANT T6D OF ANNEXIN IV P13214 P13214 2 X-RAY DIFFRACTION 34 1.0 9913 (Bos taurus) 9913 (Bos taurus) 309 309 1i4a-a2-m1-cA_1i4a-a2-m2-cA 1i4a-a2-m1-cA_1i4a-a2-m3-cA ASGFNAAEDAQTLRKAMKGLGTDEDAIINVLAYRSTAQRQEIRTAYKTTIGRDLMDDLKSELSGNFEQVILGMMTPTVLYDVQELRKAMKGAGTDEGCLIEILASRTPEEIRRINQTYQLQYGRSLEDDIRSDTSFMFQRVLVSLSAGGRDESNYLDDALMRQDAQDLYEAGEKKWGTDEVKFLTVLCSRNRNHLLHVFDEYKRIAQKDIEQSIKSETSGSFEDALLAIVKCMRNKSAYFAERLYKSMKGLGTDDDTLIRVMVSRAEIDMLDIRANFKRLYGKSLYSFIKGDTSGDYRKVLLILCGGDD ASGFNAAEDAQTLRKAMKGLGTDEDAIINVLAYRSTAQRQEIRTAYKTTIGRDLMDDLKSELSGNFEQVILGMMTPTVLYDVQELRKAMKGAGTDEGCLIEILASRTPEEIRRINQTYQLQYGRSLEDDIRSDTSFMFQRVLVSLSAGGRDESNYLDDALMRQDAQDLYEAGEKKWGTDEVKFLTVLCSRNRNHLLHVFDEYKRIAQKDIEQSIKSETSGSFEDALLAIVKCMRNKSAYFAERLYKSMKGLGTDDDTLIRVMVSRAEIDMLDIRANFKRLYGKSLYSFIKGDTSGDYRKVLLILCGGDD 1i4j-a1-m1-cA_1i4j-a1-m1-cB CRYSTAL STRUCTURE OF L22 RIBOSOMAL PROTEIN MUTANT P48286 P48286 1.8 X-RAY DIFFRACTION 41 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 110 110 MEAKAIARYVRISPRKVRLVVDLIRGKSLEEARNILRYTNKRGAYFVAKVLESAAANAVNNHDALEDRLYVKAAYVDEGPAVLPRARGRADIIKKRTSHITVILGEKHGK MEAKAIARYVRISPRKVRLVVDLIRGKSLEEARNILRYTNKRGAYFVAKVLESAAANAVNNHDALEDRLYVKAAYVDEGPAVLPRARGRADIIKKRTSHITVILGEKHGK 1i4l-a2-m2-cB_1i4l-a2-m2-cA CRYSTAL STRUCTURE ANALYSIS OF RAC1-GDP IN COMPLEX WITH ARFAPTIN (P41) P53365 P53365 2.7 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 185 1i49-a1-m1-cA_1i49-a1-m1-cB 1i4d-a1-m1-cB_1i4d-a1-m1-cA 1i4l-a1-m1-cB_1i4l-a1-m1-cA 4dcn-a1-m1-cC_4dcn-a1-m1-cD DLELELQIELLRETKRKYESVLQLGRALTAHLYSLLQTQHALGDAFADLSQKSPELQEEFGYNAETQKLLCKNGETLLGAVNFFVSSINTLVTKTMEDTLMTVKQYEAARLEYDAYRTDLEELSLGPRDKYEKLRGDVAIKLKFLEENKIKVMHKQLLLFHNAVSAYFAGNQKQLEQT SRTVDLELELQIELLRETKRKYESVLQLGRALTAHLYSLLQTQHALGDAFADLSQKSPELQEEFGYNAETQKLLCKNGETLLGAVNFFVSSINTLVTKTMEDTLMTVKQYEAARLEYDAYRTDLEELSLGPRDAGDKYEKLRGDVAIKLKFLEENKIKVMHKQLLLFHNAVSAYFAGNQKQLEQT 1i4u-a1-m1-cB_1i4u-a1-m1-cA THE C1 SUBUNIT OF ALPHA-CRUSTACYANIN P80029 P80029 1.15 X-RAY DIFFRACTION 69 1.0 6707 (Homarus gammarus) 6707 (Homarus gammarus) 180 181 1h91-a1-m1-cA_1h91-a1-m1-cB 1obq-a1-m1-cB_1obq-a1-m1-cA 1obu-a1-m1-cB_1obu-a1-m1-cA 1s2p-a1-m1-cA_1s2p-a1-m1-cB 1s44-a1-m1-cA_1s44-a1-m1-cB 4alo-a1-m1-cA_4alo-a1-m1-cB KIPDFVVPGKCASVDRNKLWAEQTPNRNSYAGVWYQFALTNNPYQLIEKCVRNEYSFDGKQFVIESTGIAYDGNLLKRNGKLYPNPFGEPHLSIDYENSFAAPLVILETDYSNYACLYSCIDYNFGYHSDFSFIFSRSANLADQYVKKCEAAFKNINVDTTRFVKTVQGSSCPYDTQKTL DKIPDFVVPGKCASVDRNKLWAEQTPNRNSYAGVWYQFALTNNPYQLIEKCVRNEYSFDGKQFVIESTGIAYDGNLLKRNGKLYPNPFGEPHLSIDYENSFAAPLVILETDYSNYACLYSCIDYNFGYHSDFSFIFSRSANLADQYVKKCEAAFKNINVDTTRFVKTVQGSSCPYDTQKTL 1i4v-a1-m1-cA_1i4v-a1-m1-cB SOLUTION STRUCTURE OF THE UMUD' HOMODIMER P0AG11 P0AG11 NOT SOLUTION NMR 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 AFPSPAADYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR AFPSPAADYVEQRIDLNQLLIQHPSATYFVKASGDSMIDGGISDGDLLIVDSAITASHGDIVIAAVDGEFTVKKLQLRPTVQLIPMNSAYSPITISSEDTLDVFGVVIHVVKAMR 1i52-a1-m1-cA_1i52-a1-m2-cA CRYSTAL STRUCTURE OF 4-DIPHOSPHOCYTIDYL-2-C-METHYLERYTHRITOL (CDP-ME) SYNTHASE (YGBP) INVOLVED IN MEVALONATE INDEPENDENT ISOPRENOID BIOSYNTHESIS Q46893 Q46893 1.5 X-RAY DIFFRACTION 121 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 225 225 1h3m-a1-m1-cA_1h3m-a1-m1-cB 1ini-a1-m1-cA_1ini-a1-m2-cA 1inj-a1-m1-cA_1inj-a1-m2-cA 1vgt-a1-m1-cA_1vgt-a1-m1-cB 1vgu-a1-m1-cB_1vgu-a1-m1-cA 3n9w-a1-m1-cA_3n9w-a1-m1-cB HLDVCAVVPAAGFGRRMQTECPKQYLSIGNQTILEHSVHALLAHPRVKRVVIAISPGDSRFAQLPLANHPQITVVDGGDERADSVLAGLKAAGDAQWVLVHDAARPCLHQDDLARLLALSETSRTGGILAAPVRDTMKRAEPGKNAIAHTVDRNGLWHALTPQFFPRELLHDCLTRALNEGATITDEASALEYCGFHPQLVEGRADNIKVTRPEDLALAEFYLTR HLDVCAVVPAAGFGRRMQTECPKQYLSIGNQTILEHSVHALLAHPRVKRVVIAISPGDSRFAQLPLANHPQITVVDGGDERADSVLAGLKAAGDAQWVLVHDAARPCLHQDDLARLLALSETSRTGGILAAPVRDTMKRAEPGKNAIAHTVDRNGLWHALTPQFFPRELLHDCLTRALNEGATITDEASALEYCGFHPQLVEGRADNIKVTRPEDLALAEFYLTR 1i58-a1-m1-cB_1i58-a1-m1-cA STRUCTURE OF THE HISTIDINE KINASE CHEA ATP-BINDING DOMAIN IN COMPLEX WITH ATP ANALOG ADPCP AND MAGNESIUM Q56310 Q56310 1.6 X-RAY DIFFRACTION 57 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 175 189 1i5c-a1-m1-cB_1i5c-a1-m1-cA HMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSVGMDVVKNVVESLNGSISIESEKDKGTKVTIRLPLT GSHMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKEKVSEVSGRGVGMDVVKNVVESLNGSISIESEKDKGTKVTIRLPLT 1i59-a1-m1-cA_1i59-a1-m1-cB STRUCTURE OF THE HISTIDINE KINASE CHEA ATP-BINDING DOMAIN IN COMPLEX WITH ADPNP AND MAGENSIUM Q56310 Q56310 1.8 X-RAY DIFFRACTION 30 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 180 188 1i5a-a1-m1-cB_1i5a-a1-m1-cA 1i5b-a1-m1-cB_1i5b-a1-m1-cA SHMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKRGVGMDVVKNVVESLNGSISIESEKDKGTKVTIRLPLT SHMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKEKVSEVSGRGVGMDVVKNVVESLNGSISIESEKDKGTKVTIRLPLT 1i5e-a1-m1-cA_1i5e-a1-m1-cB CRYSTAL STRUCTURE OF BACILLUS CALDOLYTICUS URACIL PHOSPHORIBOSYLTRANSFERASE WITH BOUND UMP P70881 P70881 3 X-RAY DIFFRACTION 127 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 208 208 GKVYVFDHPLIQHKLTYIRDKNTGTKEFRELVDEVATLMAFEITRDLPLEEVEIETPVSKARAKVIAGKKLGVIPILRAGIGMVDGILKLIPAAKVGHIGLYRDPQTLKPVEYYVKLPSDVEERDFIIVDPMLATGGSAVAAIDALKKRGAKSIKFMCLIAAPEGVKAVETAHPDVDIYIAALDERLNDHGYIVPGLGDAGDRLFGTK GKVYVFDHPLIQHKLTYIRDKNTGTKEFRELVDEVATLMAFEITRDLPLEEVEIETPVSKARAKVIAGKKLGVIPILRAGIGMVDGILKLIPAAKVGHIGLYRDPQTLKPVEYYVKLPSDVEERDFIIVDPMLATGGSAVAAIDALKKRGAKSIKFMCLIAAPEGVKAVETAHPDVDIYIAALDERLNDHGYIVPGLGDAGDRLFGTK 1i69-a1-m1-cA_1i69-a1-m1-cB CRYSTAL STRUCTURE OF THE REDUCED FORM OF OXYR P0ACQ4 P0ACQ4 2.7 X-RAY DIFFRACTION 95 0.995 562 (Escherichia coli) 562 (Escherichia coli) 206 206 ETMSGPLHIGLIPTVGPYLLPHIIPMLHQTFPKLEMYLHEAQTHQLLAQLDSGKLDAVILALVKESEAFIEVPLFDEPMLLAIYEDHPWANREAVPMADLAGEKLLMLEDGHSLRDQAMGFCFDTHFRATSLETLRNMVAAGSGITLLPALAVPPERKRDGVVYLPAIKPEPRRTIGLVYRPGSPLRSRYEQLAEAIRARMDGHFD ETMSGPLHIGLIPTVGPYLLPHIIPMLHQTFPKLEMYLHEAQTHQLLAQLDSGKLDAVILALVKESEAFIEVPLFDEPMLLAIYEDHPWANREAVPMADLAGEKLLMLEDGHSLRDQAMGFCFETHFRATSLETLRNMVAAGSGITLLPALAVPPERKRDGVVYLPAIKPEPRRTIGLVYRPGSPLRSRYEQLAEAIRARMDGHFD 1i6o-a1-m1-cA_1i6o-a1-m2-cB CRYSTAL STRUCTURE OF E. COLI BETA CARBONIC ANHYDRASE (ECCA) P61517 P61517 2.2 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 209 210 1i6o-a1-m2-cA_1i6o-a1-m1-cB DIDTLISNNALWSKLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEPQERRLDTLCELNVEQVYNLGHSTIQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLK KDIDTLISNNALWSKLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEPQERRLDTLCELNVEQVYNLGHSTIQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLK 1i6o-a1-m1-cB_1i6o-a1-m2-cB CRYSTAL STRUCTURE OF E. COLI BETA CARBONIC ANHYDRASE (ECCA) P61517 P61517 2.2 X-RAY DIFFRACTION 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 210 210 1i6o-a1-m1-cA_1i6o-a1-m2-cA KDIDTLISNNALWSKLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEPQERRLDTLCELNVEQVYNLGHSTIQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLK KDIDTLISNNALWSKLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEPQERRLDTLCELNVEQVYNLGHSTIQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLK 1i6o-a1-m2-cA_1i6o-a1-m2-cB CRYSTAL STRUCTURE OF E. COLI BETA CARBONIC ANHYDRASE (ECCA) P61517 P61517 2.2 X-RAY DIFFRACTION 198 1.0 562 (Escherichia coli) 562 (Escherichia coli) 209 210 1i6o-a1-m1-cA_1i6o-a1-m1-cB DIDTLISNNALWSKLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEPQERRLDTLCELNVEQVYNLGHSTIQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLK KDIDTLISNNALWSKLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEPQERRLDTLCELNVEQVYNLGHSTIQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNLKLK 1i73-a1-m1-cB_1i73-a1-m1-cA COMPLEX OF PRO-LEU-L-TRP PHOSPHONATE WITH THE CATALITIC DOMAIN OF MATRIX METALLO PROTEINASE-8 (MET80 FORM) P22894 1.4 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 2 163 PL MLTPGNPKWERTNLTYRIRNYTPQLSEAEVERAIKDAFELWSVASPLIFTRISQGEADINIAFYQRDHGDNSPFDGPNGILAHAFQPGQGIGGDAHFDAEETWTNTSANYNLFLVAAHEFGHSLGLAHSSDPGALMYPNYAFRETSNYSLPQDDIDGIQAIYG 1i74-a1-m1-cA_1i74-a1-m1-cB STREPTOCOCCUS MUTANS INORGANIC PYROPHOSPHATASE O68579 O68579 2.2 X-RAY DIFFRACTION 52 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 304 304 SKILVFGHQNPDSDAIGSSAYAYLKRQLGVDAQAVALGNPNEETAFVLDYFGIQAPPVVKSAQAEGAKQVILTDHNEFQQSIADIREVEVVEVVDHHRVANFETANPLYRLEPVGSASSIVYRLYKENGVAIPKEIAGVLSGLISDTLLLKSPTTHASDPAVAEDLAKIAGVDLQEYGLALKAGTNLASKTAAQLVDIDAKTFELNGSQVRVAQVNTVDINEVLERQNEIEEAIKASQAANGYSDFVLITDILNSNSEILALGNNTDKVEAAFNFTLKNNHAFLAGAVSRKKQVVPQLTESFNG SKILVFGHQNPDSDAIGSSAYAYLKRQLGVDAQAVALGNPNEETAFVLDYFGIQAPPVVKSAQAEGAKQVILTDHNEFQQSIADIREVEVVEVVDHHRVANFETANPLYRLEPVGSASSIVYRLYKENGVAIPKEIAGVLSGLISDTLLLKSPTTHASDPAVAEDLAKIAGVDLQEYGLALKAGTNLASKTAAQLVDIDAKTFELNGSQVRVAQVNTVDINEVLERQNEIEEAIKASQAANGYSDFVLITDILNSNSEILALGNNTDKVEAAFNFTLKNNHAFLAGAVSRKKQVVPQLTESFNG 1i78-a3-m1-cB_1i78-a3-m1-cA CRYSTAL STRUCTURE OF OUTER MEMBRANE PROTEASE OMPT FROM ESCHERICHIA COLI P09169 P09169 2.6 X-RAY DIFFRACTION 51 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 287 297 NINADISLGTLSGKTKERVYLAEEGGRKVSQLDWKFNNAAIIKGAINWDLMPQISIGAAGWTTLGSRGGNMVDQDWMDSSNPGTWTDEARHPDTQLNYANEFDLNIKGWLLNEPNYRLGLMAGYQESRYSFTARGGSYIYSSEEGFRDDIGSFPNGERAIGYKQRFKMPYIGLTGSYRYEDFELGGTFKYSGWVESSDNDEHYDPKGRITYRSKVKDQNYYSVAVNAGYYVTPNAKVYVEGAWNRVTNKKGNTSLYDHNNNTSDYSKNGAGIENYNFITTAGLKYTF STETLSFTPDNINADISLGTLSGKTKERVYLAEEGGRKVSQLDWKFNNAAIIKGAINWDLMPQISIGAAGWTTLGSRGGNMVDQDWMDSSNPGTWTDEARHPDTQLNYANEFDLNIKGWLLNEPNYRLGLMAGYQESRYSFTARGGSYIYSSEEGFRDDIGSFPNGERAIGYKQRFKMPYIGLTGSYRYEDFELGGTFKYSGWVESSDNDEHYDPKGRITYRSKVKDQNYYSVAVNAGYYVTPNAKVYVEGAWNRVTNKKGNTSLYDHNNNTSDYSKNGAGIENYNFITTAGLKYTF 1i78-a4-m1-cB_1i78-a4-m2-cA CRYSTAL STRUCTURE OF OUTER MEMBRANE PROTEASE OMPT FROM ESCHERICHIA COLI P09169 P09169 2.6 X-RAY DIFFRACTION 64 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 287 297 NINADISLGTLSGKTKERVYLAEEGGRKVSQLDWKFNNAAIIKGAINWDLMPQISIGAAGWTTLGSRGGNMVDQDWMDSSNPGTWTDEARHPDTQLNYANEFDLNIKGWLLNEPNYRLGLMAGYQESRYSFTARGGSYIYSSEEGFRDDIGSFPNGERAIGYKQRFKMPYIGLTGSYRYEDFELGGTFKYSGWVESSDNDEHYDPKGRITYRSKVKDQNYYSVAVNAGYYVTPNAKVYVEGAWNRVTNKKGNTSLYDHNNNTSDYSKNGAGIENYNFITTAGLKYTF STETLSFTPDNINADISLGTLSGKTKERVYLAEEGGRKVSQLDWKFNNAAIIKGAINWDLMPQISIGAAGWTTLGSRGGNMVDQDWMDSSNPGTWTDEARHPDTQLNYANEFDLNIKGWLLNEPNYRLGLMAGYQESRYSFTARGGSYIYSSEEGFRDDIGSFPNGERAIGYKQRFKMPYIGLTGSYRYEDFELGGTFKYSGWVESSDNDEHYDPKGRITYRSKVKDQNYYSVAVNAGYYVTPNAKVYVEGAWNRVTNKKGNTSLYDHNNNTSDYSKNGAGIENYNFITTAGLKYTF 1i7a-a8-m1-cB_1i7a-a8-m2-cD EVH1 DOMAIN FROM MURINE HOMER 2B/VESL 2 Q9QWW1 Q9QWW1 2.24 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 103 103 1i7a-a5-m1-cB_1i7a-a5-m2-cD 1i7a-a6-m1-cA_1i7a-a6-m3-cC 1i7a-a7-m1-cA_1i7a-a7-m3-cC EQPIFTTRAHVFQINWVPASKQAVTVSYFYDVTRNSYRIISVDGAKVIINSTITPNMTFTKTSQKFGQWADSRANTVFGLGFSSELQLTKFAEKFQEVREAAR EQPIFTTRAHVFQINWVPASKQAVTVSYFYDVTRNSYRIISVDGAKVIINSTITPNMTFTKTSQKFGQWADSRANTVFGLGFSSELQLTKFAEKFQEVREAAR 1i7b-a1-m1-cA_1i7b-a1-m2-cA HUMAN S-ADENOSYLMETHIONINE DECARBOXYLASE WITH COVALENTLY BOUND PYRUVOYL GROUP AND COVALENTLY BOUND S-ADENOSYLMETHIONINE METHYL ESTER P17707 P17707 1.9 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 1i72-a1-m1-cA_1i72-a1-m2-cA 1i79-a1-m1-cA_1i79-a1-m2-cA 1i7c-a1-m1-cA_1i7c-a1-m2-cA 1i7m-a1-m1-cA_1i7m-a1-m1-cC 1jl0-a1-m1-cA_1jl0-a1-m1-cB 1msv-a1-m1-cA_1msv-a1-m1-cB SMFVSKRRFILKTCGTTLLLKALVPLLKLARDYSGFDSIQSFFYSRKNFMKPSHQGYPHRNFQEEIEFLNAIFPNGAGYCMGRMNSDCWYLYTLDFPESQPDQTLEILMSELDPAVMDQFYMKDGVTAKDVTRESGIRDLIPGSVIDATMFNPCGYSMNGMKSDGTYWTIHITPEPEFSYVSFETNLSQTSYDDLIRKVVEVFKPGKFVTTLFVNQSSKCPQKIEGFKRLDCQSAMFNDYNFVFTSFAKK SMFVSKRRFILKTCGTTLLLKALVPLLKLARDYSGFDSIQSFFYSRKNFMKPSHQGYPHRNFQEEIEFLNAIFPNGAGYCMGRMNSDCWYLYTLDFPESQPDQTLEILMSELDPAVMDQFYMKDGVTAKDVTRESGIRDLIPGSVIDATMFNPCGYSMNGMKSDGTYWTIHITPEPEFSYVSFETNLSQTSYDDLIRKVVEVFKPGKFVTTLFVNQSSKCPQKIEGFKRLDCQSAMFNDYNFVFTSFAKK 1i7l-a2-m1-cB_1i7l-a2-m2-cB CRYSTAL STRUCTURE ANALYSIS OF THE COMPLEX OF THE C DOMAIN OF SYNAPSIN II FROM RAT WITH ATP Q63537 Q63537 2.35 X-RAY DIFFRACTION 75 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 309 309 1i7l-a2-m1-cA_1i7l-a2-m2-cA 1i7n-a2-m1-cA_1i7n-a2-m2-cA 1i7n-a2-m1-cB_1i7n-a2-m2-cB KAKVLLVVDEPHTDWAKCFRGKKILGDYDIKVEQAEFSELNLVAHADGTYAVDMQVLRNGTKVVRSFRPDFVLIRQHAFGMAENEDFRHLVIGMQYAGLPSINSLESIYNFCDKPWVFAQMVAIFKTLGGEKFPLIEQTYYPNHREMLTLPTFPVVVKIGHAHSGMGKVKVENHYDFQDIASVVALTQTYATAEPFIDAKYDIRVQKIGNNYKAYMRTSISGNWKTNTGSAMLEQIAMSDRYKLWVDACSEMFGGLDICAVKAVHGKDGKDYIFEVMDCSMPLIGEHQVEDRQLITDLVISKMNQLLSR KAKVLLVVDEPHTDWAKCFRGKKILGDYDIKVEQAEFSELNLVAHADGTYAVDMQVLRNGTKVVRSFRPDFVLIRQHAFGMAENEDFRHLVIGMQYAGLPSINSLESIYNFCDKPWVFAQMVAIFKTLGGEKFPLIEQTYYPNHREMLTLPTFPVVVKIGHAHSGMGKVKVENHYDFQDIASVVALTQTYATAEPFIDAKYDIRVQKIGNNYKAYMRTSISGNWKTNTGSAMLEQIAMSDRYKLWVDACSEMFGGLDICAVKAVHGKDGKDYIFEVMDCSMPLIGEHQVEDRQLITDLVISKMNQLLSR 1i7n-a2-m2-cA_1i7n-a2-m2-cB CRYSTAL STRUCTURE ANALYSIS OF THE C DOMAIN OF SYNAPSIN II FROM RAT BRAIN Q63537 Q63537 1.9 X-RAY DIFFRACTION 124 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 308 308 1i7l-a1-m1-cA_1i7l-a1-m1-cB 1i7l-a2-m1-cA_1i7l-a2-m1-cB 1i7l-a2-m2-cA_1i7l-a2-m2-cB 1i7n-a1-m1-cA_1i7n-a1-m1-cB 1i7n-a2-m1-cA_1i7n-a2-m1-cB KAKVLLVVDEPHTDWAKCFRGKKILGDYDIKVEQAEFSELNLVAHADGTYAVDMQVLRNGTKVVRSFRPDFVLIRQHAFGMAENEDFRHLVIGMQYAGLPSINSLESIYNFCDKPWVFAQMVAIFKTLGGEKFPLIEQTYYPNHREMLTLPTFPVVVKIGHAHSGMGKVKVENHYDFQDIASVVALTQTYATAEPFIDAKYDIRVQKIGNNYKAYMRTSISGNWKTNTGSAMLEQIAMSDRYKLWVDACSEMFGGLDICAVKAVHGKDGKDYIFEVMDCSMPLIGEHQVEDRQLITDLVISKMNQLLS KAKVLLVVDEPHTDWAKCFRGKKILGDYDIKVEQAEFSELNLVAHADGTYAVDMQVLRNGTKVVRSFRPDFVLIRQHAFGMAENEDFRHLVIGMQYAGLPSINSLESIYNFCDKPWVFAQMVAIFKTLGGEKFPLIEQTYYPNHREMLTLPTFPVVVKIGHAHSGMGKVKVENHYDFQDIASVVALTQTYATAEPFIDAKYDIRVQKIGNNYKAYMRTSISGNWKTNTGSAMLEQIAMSDRYKLWVDACSEMFGGLDICAVKAVHGKDGKDYIFEVMDCSMPLIGEHQVEDRQLITDLVISKMNQLLS 1i7q-a1-m1-cA_1i7q-a1-m1-cC ANTHRANILATE SYNTHASE FROM S. MARCESCENS P00897 P00897 1.95 X-RAY DIFFRACTION 35 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 517 517 1i7s-a1-m1-cA_1i7s-a1-m1-cC TKPQLTLLKVQASYRGDPTTLFHQLCGARPATLLLESAEINDKQNLQSLLVIDSALRITALGHTVSVQALTANGPALLPLLDEALPPEVRNQARPNGRELTFPAIDAVQDEDARLRSLSVFDALRTILTLVDSPADEREAVMLGGLFAYDLVAGFENLPALRQDQRCPDFCFYLAETLLVLDHQRGSARLQASVFSEQASEAQRLQHRLEQLQAELQQPPQPIPHQKLENMQLSCNQSDEEYGAVVSELQEAIRQGEIFQVVPSRRFSLPCPAPLGPYQTLKDNNPSPYMFFMQDDDFTLFGASPESALKYDAGNRQIEIYPIAGTRPRGRRADGSLDLDLDSRIELEMRTDHKELAEHLMLVDLARNDLARICQAGSRYVADLTKVDRYSFVMHLVSRVVGTLRADLDVLHAYQACMNMGTLSGAPKVRAMQLIAALRSTRRGSYGGRVGYFTAVRNLDTCIVIRSAYVEDGHRTVQAGAGVVQDSIPEREADETRNKARAVLRAIATAHHAKEVF TKPQLTLLKVQASYRGDPTTLFHQLCGARPATLLLESAEINDKQNLQSLLVIDSALRITALGHTVSVQALTANGPALLPLLDEALPPEVRNQARPNGRELTFPAIDAVQDEDARLRSLSVFDALRTILTLVDSPADEREAVMLGGLFAYDLVAGFENLPALRQDQRCPDFCFYLAETLLVLDHQRGSARLQASVFSEQASEAQRLQHRLEQLQAELQQPPQPIPHQKLENMQLSCNQSDEEYGAVVSELQEAIRQGEIFQVVPSRRFSLPCPAPLGPYQTLKDNNPSPYMFFMQDDDFTLFGASPESALKYDAGNRQIEIYPIAGTRPRGRRADGSLDLDLDSRIELEMRTDHKELAEHLMLVDLARNDLARICQAGSRYVADLTKVDRYSFVMHLVSRVVGTLRADLDVLHAYQACMNMGTLSGAPKVRAMQLIAALRSTRRGSYGGRVGYFTAVRNLDTCIVIRSAYVEDGHRTVQAGAGVVQDSIPEREADETRNKARAVLRAIATAHHAKEVF 1i7w-a1-m1-cA_1i7w-a1-m1-cC BETA-CATENIN/PHOSPHORYLATED E-CADHERIN COMPLEX Q02248 Q02248 2 X-RAY DIFFRACTION 56 1.0 10090 (Mus musculus) 10090 (Mus musculus) 500 509 ATRAIPELTKLLNDEDQVVVNKAAVMVHQLSKKEASRHAIMRSPQMVSAIVRTMQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKMLGSPVDSVLFYAITTLHNLLLHQEGAKMAVRLAGGLQKMVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIMRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGMQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGMEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKMMVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEMAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRVRMEEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFRM QDDAELATRAIPELTKLLNDEDQVVVNKAAVMVHQLSKKEASRHAIMRSPQMVSAIVRTMQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKMLGSPVDSVLFYAITTLHNLLLHQEGAKMAVRLAGGLQKMVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIMRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGMQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGMEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKMMVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEMAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRRTVRMEEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFRMS 1i7x-a1-m1-cC_1i7x-a1-m1-cA BETA-CATENIN/E-CADHERIN COMPLEX Q02248 Q02248 3 X-RAY DIFFRACTION 47 0.994 10090 (Mus musculus) 10090 (Mus musculus) 521 522 HAVVNLINYQDDAELATRAIPELTKLLNDEDQVVVNKAAVMVHQLSKKEASRHAIMRSPQMVSAIVRTMQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKMLGSPVDSVLFYAITTLHNLLLHQEGAKMAVRLAGGLQKMVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIMRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGMQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGMEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKMMVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEMAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRFVEGVRMEEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFRMSE VNLINYQDDAELATRAIPELTKLLNDEDQVVVNKAAVMVHQLSKKEASRHAIMRSPQMVSAIVRTMQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKMLGSPVDSVLFYAITTLHNLLLHQEGAKMAVRLAGGLQKMVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIMRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGMQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGMEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKMMVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEMAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRRTSFVEGVRMEEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFRMSED 1i85-a1-m1-cB_1i85-a1-m1-cA CRYSTAL STRUCTURE OF THE CTLA-4/B7-2 COMPLEX P42081 P42081 3.2 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 110 LKIQAYFNETADLPCQFANSQNQSLSELVVFWQDQENLVLNEVYLGKEKFDSVHSKYMGRTSFDSDSWTLRLHNLQIKDKGLYQCIIHHKKPTGMIRIHQMNSELSVLA MLKIQAYFNETADLPCQFANSQNQSLSELVVFWQDQENLVLNEVYLGKEKFDSVHSKYMGRTSFDSDSWTLRLHNLQIKDKGLYQCIIHHKKPTGMIRIHQMNSELSVLA 1i85-a1-m1-cD_1i85-a1-m1-cC CRYSTAL STRUCTURE OF THE CTLA-4/B7-2 COMPLEX P16410 P16410 3.2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 118 3bx7-a1-m1-cC_3bx7-a1-m2-cC 3osk-a1-m1-cA_3osk-a1-m1-cB MHVAQPAVVLASSRGIASFVCEYAATEVRVTVLRQQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVIDPE MHVAQPAVVLASSRGIASFVCEYASPGKATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVIDPE 1i8d-a1-m1-cC_1i8d-a1-m1-cA CRYSTAL STRUCTURE OF RIBOFLAVIN SYNTHASE P0AFU8 P0AFU8 2 X-RAY DIFFRACTION 105 1.0 562 (Escherichia coli) 562 (Escherichia coli) 185 206 MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERAAKFHLMSGHIMTTAEVAIWFKVQDSQLMKYILYKGFIGIDGISLTVGEVTPTRFCVHLIPETLERTTLGKKKLGARVNIEIDPQTQAVVDTVERVLAA MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERAAKFSDEIGGHLMSGHIMTTAEVAKILTSENNRQIWFKVQDSQLMKYILYKGFIGIDGISLTVGEVTPTRFCVHLIPETLERTTLGKKKLGARVNIEIDPQTQAVVDTVERVLAARENAM 1i8d-a1-m1-cC_1i8d-a1-m1-cB CRYSTAL STRUCTURE OF RIBOFLAVIN SYNTHASE P0AFU8 P0AFU8 2 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 185 201 1i8d-a1-m1-cB_1i8d-a1-m1-cA MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERAAKFHLMSGHIMTTAEVAIWFKVQDSQLMKYILYKGFIGIDGISLTVGEVTPTRFCVHLIPETLERTTLGKKKLGARVNIEIDPQTQAVVDTVERVLAA MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERAAKFSDEIGGHLMSGHIMTTAEVAKILRQIWFKVQDSQLMKYILYKGFIGIDGISLTVGEVTPTRFCVHLIPETLERTTLGKKKLGARVNIEIDPQTQAVVDTVERVLAARENAM 1i8o-a2-m1-cA_1i8o-a2-m2-cA RHODOPSEUDOMONAS PALUSTRIS CYT C2 AMMONIA COMPLEX AT 1.15 ANGSTROM RESOLUTION P00091 P00091 1.15 X-RAY DIFFRACTION 14 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 113 113 DAKAGEAVFKQCMTCHRADKNMVGPALAGVVGRKAGTAAGFTYSPLNHNSGEAGLVWTADNIVPYLADPNAFLKKFLTEKGKADQAVGVTKMTFKLANEQQRKDVVAYLATLK DAKAGEAVFKQCMTCHRADKNMVGPALAGVVGRKAGTAAGFTYSPLNHNSGEAGLVWTADNIVPYLADPNAFLKKFLTEKGKADQAVGVTKMTFKLANEQQRKDVVAYLATLK 1i8t-a1-m1-cA_1i8t-a1-m1-cB STRUCTURE OF UDP-GALACTOPYRANOSE MUTASE FROM E.COLI P37747 P37747 2.4 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 367 367 MYDYIIVGSGLFGAVCANELKKLNKKVLVIEKRNHIGGNAYTEDCEGIQIHKYGAHIFHTNDKYIWDYVNDLVEFNRFTNSPLAIYKDKLFNLPFNMNTFHQMWGVKDPQEAQNIINAQKKKYGDKVPENLEEQAISLVGEDLYQALIKGYTEKQWGRSAKELPAFIIKRIPVRFTFDNNYFSDRYQGIPVGGYTKLIEKMLEGVDVKLGIDFLKDKDSLASKAHRIIYTGPIDQYFDYRFGALEYRSLKFETERHEFPNFQGNAVINFTDANVPYTRIIEHKHFDYVETKHTVVTKEYPLEWKVGDEPYYPVNDNKNMELFKKYRELASREDKVIFGGRLAEYKYYDMHQVISAALYQVKNIMSTD MYDYIIVGSGLFGAVCANELKKLNKKVLVIEKRNHIGGNAYTEDCEGIQIHKYGAHIFHTNDKYIWDYVNDLVEFNRFTNSPLAIYKDKLFNLPFNMNTFHQMWGVKDPQEAQNIINAQKKKYGDKVPENLEEQAISLVGEDLYQALIKGYTEKQWGRSAKELPAFIIKRIPVRFTFDNNYFSDRYQGIPVGGYTKLIEKMLEGVDVKLGIDFLKDKDSLASKAHRIIYTGPIDQYFDYRFGALEYRSLKFETERHEFPNFQGNAVINFTDANVPYTRIIEHKHFDYVETKHTVVTKEYPLEWKVGDEPYYPVNDNKNMELFKKYRELASREDKVIFGGRLAEYKYYDMHQVISAALYQVKNIMSTD 1i9g-a2-m2-cA_1i9g-a2-m4-cA CRYSTAL STRUCTURE OF AN ADOMET DEPENDENT METHYLTRANSFERASE P9WFZ1 P9WFZ1 1.98 X-RAY DIFFRACTION 57 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 264 264 1i9g-a2-m1-cA_1i9g-a2-m3-cA TGPFSIGERVQLTDAKGRRYTMSLTPGAEFHTHRGSIAHDAVIGLEQGSVVKSSNGALFLVLRPLLVDYVMSMPRGPQVIYPKDAAQIVHEGDIFPGARVLEAGAGSGALTLSLLRAVGPAGQVISYEQRADHAEHARRNVSGCYGQPPDNWRLVVSDLADSELPDGSVDRAVLDMLAPWEVLDAVSRLLVAGGVLMVYVATVTQLSRIVEALRAKQCWTEPRAWETLQRGWNVVGLAVRPQHSMRGHTAFLVATRRLAPGAVA TGPFSIGERVQLTDAKGRRYTMSLTPGAEFHTHRGSIAHDAVIGLEQGSVVKSSNGALFLVLRPLLVDYVMSMPRGPQVIYPKDAAQIVHEGDIFPGARVLEAGAGSGALTLSLLRAVGPAGQVISYEQRADHAEHARRNVSGCYGQPPDNWRLVVSDLADSELPDGSVDRAVLDMLAPWEVLDAVSRLLVAGGVLMVYVATVTQLSRIVEALRAKQCWTEPRAWETLQRGWNVVGLAVRPQHSMRGHTAFLVATRRLAPGAVA 1i9g-a2-m3-cA_1i9g-a2-m4-cA CRYSTAL STRUCTURE OF AN ADOMET DEPENDENT METHYLTRANSFERASE P9WFZ1 P9WFZ1 1.98 X-RAY DIFFRACTION 190 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 264 264 1i9g-a2-m1-cA_1i9g-a2-m2-cA TGPFSIGERVQLTDAKGRRYTMSLTPGAEFHTHRGSIAHDAVIGLEQGSVVKSSNGALFLVLRPLLVDYVMSMPRGPQVIYPKDAAQIVHEGDIFPGARVLEAGAGSGALTLSLLRAVGPAGQVISYEQRADHAEHARRNVSGCYGQPPDNWRLVVSDLADSELPDGSVDRAVLDMLAPWEVLDAVSRLLVAGGVLMVYVATVTQLSRIVEALRAKQCWTEPRAWETLQRGWNVVGLAVRPQHSMRGHTAFLVATRRLAPGAVA TGPFSIGERVQLTDAKGRRYTMSLTPGAEFHTHRGSIAHDAVIGLEQGSVVKSSNGALFLVLRPLLVDYVMSMPRGPQVIYPKDAAQIVHEGDIFPGARVLEAGAGSGALTLSLLRAVGPAGQVISYEQRADHAEHARRNVSGCYGQPPDNWRLVVSDLADSELPDGSVDRAVLDMLAPWEVLDAVSRLLVAGGVLMVYVATVTQLSRIVEALRAKQCWTEPRAWETLQRGWNVVGLAVRPQHSMRGHTAFLVATRRLAPGAVA 1i9s-a2-m1-cA_1i9s-a2-m2-cA CRYSTAL STRUCTURE OF THE RNA TRIPHOSPHATASE DOMAIN OF MOUSE MRNA CAPPING ENZYME O55236 O55236 1.65 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 189 1i9t-a2-m1-cA_1i9t-a2-m2-cA KIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMSLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFPELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPVLPDWCFEDED KIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMSLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFPELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPVLPDWCFEDED 1i9t-a3-m1-cA_1i9t-a3-m3-cA CRYSTAL STRUCTURE OF THE OXIDIZED RNA TRIPHOSPHATASE DOMAIN OF MOUSE MRNA CAPPING ENZYME O55236 O55236 1.7 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 189 KIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMSLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFNERSPPELIGVHTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPVLPDWCF KIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMSLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFNERSPPELIGVHTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPVLPDWCF 1ia9-a1-m1-cA_1ia9-a1-m1-cB CRYSTAL STRUCTURE OF THE ATYPICAL PROTEIN KINASE DOMAIN OF A TRP CA-CHANNEL, CHAK (AMPPNP COMPLEX) Q923J1 Q923J1 2 X-RAY DIFFRACTION 166 1.0 10090 (Mus musculus) 10090 (Mus musculus) 276 280 1iah-a1-m1-cA_1iah-a1-m1-cB 1iaj-a1-m1-cA_1iaj-a1-m1-cB YYYSAVERNNLMRLSQSIPFVPVPPRGEPVTVYRLEESSPSILNNSMSSWSQLGLCAKIEFLSKMGGGLRRAVKVLCTWSEHDILKSGHLYIIKSFLPEVINTWSSIYKEDTVLHLCLREIQQQRAAQKLTFAFNQMKPKSIPYSPRFLEVFLLYCHSAGQWFAVEECMTGEFRKYNNNNGDEIIPTNTLEEIMLAFSHWTYEYTRGELLVLDLQGVGENLTDPSVIKAEEKRSCDMVFGPANLGEDAIKNFRAKHHCNSCCRKLKLPDLKRNDYT TNYYYSAVERNNLMRLSQSIPFVPVPPRGEPVTVYRLEESSPSILNNSMSSWSQLGLCAKIEFLSKEEMGGGLRRAVKVLCTWSEHDILKSGHLYIIKSFLPEVINTWSSIYKEDTVLHLCLREIQQQRAAQKLTFAFNQMKPKSIPYSPRFLEVFLLYCHSAGQWFAVEECMTGEFRKYNNNNGDEIIPTNTLEEIMLAFSHWTYEYTRGELLVLDLQGVGENLTDPSVIKAEEKRSCDMVFGPANLGEDAIKNFRAKHHCNSCCRKLKLPDLKRNDYT 1iai-a1-m1-cM_1iai-a1-m2-cM IDIOTYPE-ANTI-IDIOTYPE FAB COMPLEX P01837 P01837 2.9 X-RAY DIFFRACTION 68 1.0 10090 (Mus musculus) 10090 (Mus musculus) 215 215 DIQLTQSPAFMAASPGEKVTITCSVSSSISSSNLHWYQQKSETSPKPWIYGTSNLASGVPVRFSGSGSGTSYSLTISSMEAEDAATYYCQQWNSYPYTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DIQLTQSPAFMAASPGEKVTITCSVSSSISSSNLHWYQQKSETSPKPWIYGTSNLASGVPVRFSGSGSGTSYSLTISSMEAEDAATYYCQQWNSYPYTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 1iam-a1-m1-cA_1iam-a1-m2-cA STRUCTURE OF THE TWO AMINO-TERMINAL DOMAINS OF HUMAN INTERCELLULAR ADHESION MOLECULE-1, ICAM-1 P05362 P05362 2.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 1ic1-a1-m1-cA_1ic1-a1-m2-cA QTSVSPSKVILPRGGSVLVTCSTSCDQPKLLGIETPLPKKELLLPGNNRKVYELSNVQEDSQPMCYSNCPDGQSTAKTFLTVYWTPERVELAPLPSWQPVGKQLTLRCQVEGGAPRAQLTVVLLRGEKELKREPAVGEPAEVTTTVLVRRDHHGAQFSCRTELDLRPQGLELFENTSAPYQLQTF QTSVSPSKVILPRGGSVLVTCSTSCDQPKLLGIETPLPKKELLLPGNNRKVYELSNVQEDSQPMCYSNCPDGQSTAKTFLTVYWTPERVELAPLPSWQPVGKQLTLRCQVEGGAPRAQLTVVLLRGEKELKREPAVGEPAEVTTTVLVRRDHHGAQFSCRTELDLRPQGLELFENTSAPYQLQTF 1ias-a1-m1-cC_1ias-a1-m1-cE CYTOPLASMIC DOMAIN OF UNPHOSPHORYLATED TYPE I TGF-BETA RECEPTOR CRYSTALLIZED WITHOUT FKBP12 P36897 P36897 2.9 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 1ias-a1-m1-cA_1ias-a1-m1-cD 1ias-a1-m1-cB_1ias-a1-m1-cA 1ias-a1-m1-cB_1ias-a1-m1-cC 1ias-a1-m1-cD_1ias-a1-m1-cE ISEGTTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEG ISEGTTLKDLIYDMTTSGSGSGLPLLVQRTIARTIVLQESIGKGRFGEVWRGKWRGEEVAVKIFSSREERSWFREAEIYQTVMLRHENILGFIAADNKDNGTWTQLWLVSDYHEHGSLFDYLNRYTVTVEGMIKLALSTASGLAHLHMEIVGTQGKPAIAHRDLKSKNILVKKNGTCCIADLGLAVRHDSATDTIDIAPNHRVGTKRYMAPEVLDDSINMKHFESFKRADIYAMGLVFWEIARRCSIGGIHEDYQLPYYDLVPSDPSVEEMRKVVCEQKLRPNIPNRWQSCEALRVMAKIMRECWYANGAARLTALRIKKTLSQLSQQEG 1iay-a1-m1-cA_1iay-a1-m2-cA CRYSTAL STRUCTURE OF ACC SYNTHASE COMPLEXED WITH COFACTOR PLP AND INHIBITOR AVG P18485 P18485 2.7 X-RAY DIFFRACTION 182 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 419 419 1iax-a1-m1-cA_1iax-a1-m1-cB ILSKLATNESPYFDGWKAYDSDPFHPLKNPNGVIQMGLAENQLCLDLIEDWIKRNPKGSICSSFKAIANFQDYHGLPEFRKAIAKFMEKTRGGRVRFDPERVVMAGGATGANETIIFCLADPGDAFLVPSPYYPAFNRDLRWRTGVQLIPIHCESSNNFKITSKAVKEAYENAQKSNIKVKGLILTNPSNPLGTTLDKDTLKSVLSFTNQHNIHLVCDEIYAATVFDTPQFVSIAEILDEQEMTYCNKDLVHIVYSLSKDMGLPGFRVGIIYSFNDDVVNCARKMSSFGLVSTQTQYFLAAMLSDEKFVDNFLRESAMRLGKRHKHFTNGLEVVGIKCLKNNAGLFCWMDLRPLLRESTFDSEMSLWRVIINDVKLNVSPGSSFECQEPGWFRVCFANMDDGTVDIALARIRRFVGVEK ILSKLATNESPYFDGWKAYDSDPFHPLKNPNGVIQMGLAENQLCLDLIEDWIKRNPKGSICSSFKAIANFQDYHGLPEFRKAIAKFMEKTRGGRVRFDPERVVMAGGATGANETIIFCLADPGDAFLVPSPYYPAFNRDLRWRTGVQLIPIHCESSNNFKITSKAVKEAYENAQKSNIKVKGLILTNPSNPLGTTLDKDTLKSVLSFTNQHNIHLVCDEIYAATVFDTPQFVSIAEILDEQEMTYCNKDLVHIVYSLSKDMGLPGFRVGIIYSFNDDVVNCARKMSSFGLVSTQTQYFLAAMLSDEKFVDNFLRESAMRLGKRHKHFTNGLEVVGIKCLKNNAGLFCWMDLRPLLRESTFDSEMSLWRVIINDVKLNVSPGSSFECQEPGWFRVCFANMDDGTVDIALARIRRFVGVEK 1iaz-a1-m1-cA_1iaz-a1-m1-cB EQUINATOXIN II P61914 P61914 1.9 X-RAY DIFFRACTION 41 1.0 6106 (Actinia equina) 6106 (Actinia equina) 175 175 AGAVIDGASLSFDILKTVLEALGNVKRKIAVGVDNESGKTWTALNTYFRSGTSDIVLPHKVPHGKALLYNGQKDRGPVATGAVGVLAYLMSDGNTLAVLFSVPYDYNWYSNWWNVRIYKGKRRADQRMYEELYYNLSPFRGDNGWHTRNLGYGLKSRGFMNSSGHAILEIHVSKA AGAVIDGASLSFDILKTVLEALGNVKRKIAVGVDNESGKTWTALNTYFRSGTSDIVLPHKVPHGKALLYNGQKDRGPVATGAVGVLAYLMSDGNTLAVLFSVPYDYNWYSNWWNVRIYKGKRRADQRMYEELYYNLSPFRGDNGWHTRNLGYGLKSRGFMNSSGHAILEIHVSKA 1ib1-a2-m1-cG_1ib1-a2-m1-cH CRYSTAL STRUCTURE OF THE 14-3-3 ZETA:SEROTONIN N-ACETYLTRANSFERASE COMPLEX Q29495 Q29495 2.7 X-RAY DIFFRACTION 37 1.0 9940 (Ovis aries) 9940 (Ovis aries) 178 178 1ib1-a1-m1-cE_1ib1-a1-m1-cF SGIPGSPGRQRRHLPANEFRCLTPEDAAGVFEIEREAFISVSGNCPLNLDEVQHFLTLCPELSLGWFVEGRLVAFIIGSLWDEERLTQESLALHRPRGHSAHLHALAVHRSFRQQGKGSVLLWRYLHHVGAQPAVRRAVLMCEDALVPFYQRFGFHPAGPCAIVVGSLTFTEMHCSLR SGIPGSPGRQRRHLPANEFRCLTPEDAAGVFEIEREAFISVSGNCPLNLDEVQHFLTLCPELSLGWFVEGRLVAFIIGSLWDEERLTQESLALHRPRGHSAHLHALAVHRSFRQQGKGSVLLWRYLHHVGAQPAVRRAVLMCEDALVPFYQRFGFHPAGPCAIVVGSLTFTEMHCSLR 1ibg-a2-m2-cH_1ibg-a2-m1-cH STRUCTURE AND SPECIFICITY OF THE ANTI-DIGOXIN ANTIBODY 40-50 2.7 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 217 217 VHLVQSGPGLVAPSQSLSITCTVSGFSLTTYGVHWFRQPPGKGLEWLGLIWAGGNTDYNSALMSRLSINKDNSKSQVFLKMNSLQADDTAMYYCARFRFASYYDYAVDYWGQGTSVTVSSAKTTPPSVYPLAPGCGDTTGSSVTSGCLVKGYFPEPVTVTWNSGSLSSSVHTFPALLQSGLYTMSSSVTVPSSTWPSQTVTCSVAHPASSTTVDKKL VHLVQSGPGLVAPSQSLSITCTVSGFSLTTYGVHWFRQPPGKGLEWLGLIWAGGNTDYNSALMSRLSINKDNSKSQVFLKMNSLQADDTAMYYCARFRFASYYDYAVDYWGQGTSVTVSSAKTTPPSVYPLAPGCGDTTGSSVTSGCLVKGYFPEPVTVTWNSGSLSSSVHTFPALLQSGLYTMSSSVTVPSSTWPSQTVTCSVAHPASSTTVDKKL 1ibj-a1-m1-cA_1ibj-a1-m2-cC Crystal structure of cystathionine beta-lyase from Arabidopsis thaliana P53780 P53780 2.3 X-RAY DIFFRACTION 72 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 380 380 1ibj-a1-m1-cC_1ibj-a1-m2-cA ASVSTLLVNLDNKFDPFDAMSTPLYQTATFKQPSAIENGPYDYTRSGNPTRDALESLLAKLDKADRAFCFTSGMAALSAVTHLIKNGEEIVAGDDVYGGSDRLLSQVVPRSGVVVKRVNTTKLDEVAAAIGPQTKLVWLESPTNPRQQISDIRKISEMAHAQGALVLVDNSIMSPVLSRPLELGADIVMHSATKFIAGHSDVMAGVLAVKGEKLAKEVYFLQNSEGSGLAPFDCWLCLRGIKTMALRIEKQQENARKIAMYLSSHPRVKKVYYAGLPDHPGHHLHFSQAKGAGSVFSFITGSVALSKHLVETTKYFSIAVSFGSVKSLISMPCFMSHASIPAEVREARGLTEDLVRISAGIEDVDDLISDLDIAFKTFPL ASVSTLLVNLDNKFDPFDAMSTPLYQTATFKQPSAIENGPYDYTRSGNPTRDALESLLAKLDKADRAFCFTSGMAALSAVTHLIKNGEEIVAGDDVYGGSDRLLSQVVPRSGVVVKRVNTTKLDEVAAAIGPQTKLVWLESPTNPRQQISDIRKISEMAHAQGALVLVDNSIMSPVLSRPLELGADIVMHSATKFIAGHSDVMAGVLAVKGEKLAKEVYFLQNSEGSGLAPFDCWLCLRGIKTMALRIEKQQENARKIAMYLSSHPRVKKVYYAGLPDHPGHHLHFSQAKGAGSVFSFITGSVALSKHLVETTKYFSIAVSFGSVKSLISMPCFMSHASIPAEVREARGLTEDLVRISAGIEDVDDLISDLDIAFKTFPL 1ibj-a1-m1-cC_1ibj-a1-m2-cC Crystal structure of cystathionine beta-lyase from Arabidopsis thaliana P53780 P53780 2.3 X-RAY DIFFRACTION 89 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 380 380 1ibj-a1-m1-cA_1ibj-a1-m2-cA ASVSTLLVNLDNKFDPFDAMSTPLYQTATFKQPSAIENGPYDYTRSGNPTRDALESLLAKLDKADRAFCFTSGMAALSAVTHLIKNGEEIVAGDDVYGGSDRLLSQVVPRSGVVVKRVNTTKLDEVAAAIGPQTKLVWLESPTNPRQQISDIRKISEMAHAQGALVLVDNSIMSPVLSRPLELGADIVMHSATKFIAGHSDVMAGVLAVKGEKLAKEVYFLQNSEGSGLAPFDCWLCLRGIKTMALRIEKQQENARKIAMYLSSHPRVKKVYYAGLPDHPGHHLHFSQAKGAGSVFSFITGSVALSKHLVETTKYFSIAVSFGSVKSLISMPCFMSHASIPAEVREARGLTEDLVRISAGIEDVDDLISDLDIAFKTFPL ASVSTLLVNLDNKFDPFDAMSTPLYQTATFKQPSAIENGPYDYTRSGNPTRDALESLLAKLDKADRAFCFTSGMAALSAVTHLIKNGEEIVAGDDVYGGSDRLLSQVVPRSGVVVKRVNTTKLDEVAAAIGPQTKLVWLESPTNPRQQISDIRKISEMAHAQGALVLVDNSIMSPVLSRPLELGADIVMHSATKFIAGHSDVMAGVLAVKGEKLAKEVYFLQNSEGSGLAPFDCWLCLRGIKTMALRIEKQQENARKIAMYLSSHPRVKKVYYAGLPDHPGHHLHFSQAKGAGSVFSFITGSVALSKHLVETTKYFSIAVSFGSVKSLISMPCFMSHASIPAEVREARGLTEDLVRISAGIEDVDDLISDLDIAFKTFPL 1ibj-a1-m2-cA_1ibj-a1-m2-cC Crystal structure of cystathionine beta-lyase from Arabidopsis thaliana P53780 P53780 2.3 X-RAY DIFFRACTION 198 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 380 380 1ibj-a1-m1-cA_1ibj-a1-m1-cC ASVSTLLVNLDNKFDPFDAMSTPLYQTATFKQPSAIENGPYDYTRSGNPTRDALESLLAKLDKADRAFCFTSGMAALSAVTHLIKNGEEIVAGDDVYGGSDRLLSQVVPRSGVVVKRVNTTKLDEVAAAIGPQTKLVWLESPTNPRQQISDIRKISEMAHAQGALVLVDNSIMSPVLSRPLELGADIVMHSATKFIAGHSDVMAGVLAVKGEKLAKEVYFLQNSEGSGLAPFDCWLCLRGIKTMALRIEKQQENARKIAMYLSSHPRVKKVYYAGLPDHPGHHLHFSQAKGAGSVFSFITGSVALSKHLVETTKYFSIAVSFGSVKSLISMPCFMSHASIPAEVREARGLTEDLVRISAGIEDVDDLISDLDIAFKTFPL ASVSTLLVNLDNKFDPFDAMSTPLYQTATFKQPSAIENGPYDYTRSGNPTRDALESLLAKLDKADRAFCFTSGMAALSAVTHLIKNGEEIVAGDDVYGGSDRLLSQVVPRSGVVVKRVNTTKLDEVAAAIGPQTKLVWLESPTNPRQQISDIRKISEMAHAQGALVLVDNSIMSPVLSRPLELGADIVMHSATKFIAGHSDVMAGVLAVKGEKLAKEVYFLQNSEGSGLAPFDCWLCLRGIKTMALRIEKQQENARKIAMYLSSHPRVKKVYYAGLPDHPGHHLHFSQAKGAGSVFSFITGSVALSKHLVETTKYFSIAVSFGSVKSLISMPCFMSHASIPAEVREARGLTEDLVRISAGIEDVDDLISDLDIAFKTFPL 1ic1-a2-m1-cB_1ic1-a2-m3-cB THE CRYSTAL STRUCTURE FOR THE N-TERMINAL TWO DOMAINS OF ICAM-1 P05362 P05362 3 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 190 QTSVSPSKVILPRGGSVLVTCSTSCDQPKLLGIETPLPKKELLLPGNNRKVYELSNVQEDSQPMCYSNCPDGQSTAKTFLTVYWTPERVELAPLPSWQPVGKNLTLRCQVEGGAPRANLTVVLLRGEKELKREPAVGEPAEVTTTVLVRRDHHGANFSCRTELDLRPQGLELFENTSAPYQLQTFVLPAT QTSVSPSKVILPRGGSVLVTCSTSCDQPKLLGIETPLPKKELLLPGNNRKVYELSNVQEDSQPMCYSNCPDGQSTAKTFLTVYWTPERVELAPLPSWQPVGKNLTLRCQVEGGAPRANLTVVLLRGEKELKREPAVGEPAEVTTTVLVRRDHHGANFSCRTELDLRPQGLELFENTSAPYQLQTFVLPAT 1ic8-a1-m1-cA_1ic8-a1-m1-cB HEPATOCYTE NUCLEAR FACTOR 1A BOUND TO DNA : MODY3 GENE PRODUCT P20823 P20823 2.6 X-RAY DIFFRACTION 11 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 170 173 KELENLSPEEAAHQKAVVETLLQEDPWRVAKMVKSYLQQHNIPQREVVDTTGLNQSHLSQHLNKGTPMKTQKRAALYTWYVRKQREVAQQFTHARNRFKWGPASQQILFQAYERQKNPSKEERETLVEECNRAECIQRGVSPSQAQGLGSNLVTEVRVYNWFANRRKEEA ILKELENLSPEEAAHQKAVVETLLQEDPWRVAKMVKSYLQQHNIPQREVVDTTGLNQSHLSQHLNKGTPMKTQKRAALYTWYVRKQREVAQQFTHRNRFKWGPASQQILFQAYERQKNPSKEERETLVEECNRAECIQRGVSPSQAQGLGSNLVTEVRVYNWFANRRKEEAFR 1icc-a5-m2-cC_1icc-a5-m1-cB RAT OUTER MITOCHONDRIAL MEMBRANE CYTOCHROME B5 P04166 P04166 2 X-RAY DIFFRACTION 13 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 83 87 1lj0-a5-m2-cC_1lj0-a5-m1-cB 2i89-a5-m2-cC_2i89-a5-m1-cB VTYYRLEEVAKRNTSEETWMVIHGRVYDLTRFLSEHPGGEEVLREQAGADATESFEDVGHSPDAREMLKQYYIGDVHPNDLKP DPAVTYYRLEEVAKRNTSEETWMVIHGRVYDLTRFLSEHPGGEEVLREQAGADATESFEDVGHSPDAREMLKQYYIGDVHPNDLKPK 1ici-a1-m1-cB_1ici-a1-m1-cA CRYSTAL STRUCTURE OF A SIR2 HOMOLOG-NAD COMPLEX O28597 O28597 2.1 X-RAY DIFFRACTION 33 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 244 256 DEKLLKTIAESKYLVALTGAGVSAESGIPTFRGKDGLWNRYRPEELANPQAFAKDPEKVWKWYAWRMEKVFNAQPNKAHQAFAELERLGVLKCLITQNVDDLHERAGSRNVIHLHGSLRVVRCTSCNNSFEVESAPKIPPLPKCDKCGSLLRPGVVWFGEMLPPDVLDRAMREVERADVIIVAGTSAVVQPAASLPLIVKQRGGAIIEINPDETPLTPIADYSLRGKAGEVMDELVRHVRKALS GSHHHHHHGSHMDEKLLKTIAESKYLVALTGAGVSAESGIPTFRGKDGLWNRYRPEELANPQAFAKDPEKVWKWYAWRMEKVFNAQPNKAHQAFAELERLGVLKCLITQNVDDLHERAGSRNVIHLHGSLRVVRCTSCNNSFEVESAPKIPPLPKCDKCGSLLRPGVVWFGEMLPPDVLDRAMREVERADVIIVAGTSAVVQPAASLPLIVKQRGGAIIEINPDETPLTPIADYSLRGKAGEVMDELVRHVRKALS 1ici-a3-m1-cB_1ici-a3-m3-cB CRYSTAL STRUCTURE OF A SIR2 HOMOLOG-NAD COMPLEX O28597 O28597 2.1 X-RAY DIFFRACTION 67 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 244 244 1ici-a2-m1-cA_1ici-a2-m2-cA DEKLLKTIAESKYLVALTGAGVSAESGIPTFRGKDGLWNRYRPEELANPQAFAKDPEKVWKWYAWRMEKVFNAQPNKAHQAFAELERLGVLKCLITQNVDDLHERAGSRNVIHLHGSLRVVRCTSCNNSFEVESAPKIPPLPKCDKCGSLLRPGVVWFGEMLPPDVLDRAMREVERADVIIVAGTSAVVQPAASLPLIVKQRGGAIIEINPDETPLTPIADYSLRGKAGEVMDELVRHVRKALS DEKLLKTIAESKYLVALTGAGVSAESGIPTFRGKDGLWNRYRPEELANPQAFAKDPEKVWKWYAWRMEKVFNAQPNKAHQAFAELERLGVLKCLITQNVDDLHERAGSRNVIHLHGSLRVVRCTSCNNSFEVESAPKIPPLPKCDKCGSLLRPGVVWFGEMLPPDVLDRAMREVERADVIIVAGTSAVVQPAASLPLIVKQRGGAIIEINPDETPLTPIADYSLRGKAGEVMDELVRHVRKALS 1icj-a1-m1-cA_1icj-a1-m1-cC PDF PROTEIN IS CRYSTALLIZED AS NI2+ CONTAINING FORM, COCRYSTALLIZED WITH INHIBITOR POLYETHYLENE GLYCOL (PEG) P0A6K3 P0A6K3 1.9 X-RAY DIFFRACTION 12 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 168 168 SVLQVLHIPDERLRKVAKPVEEVNAEIQRIVDDMFETMYAEEGIGLAATQVDIHQRIIVIDVSENRDERLVLINPELLEKSGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFMDYLSPLKQQRIRQKVEKLDRLKARA SVLQVLHIPDERLRKVAKPVEEVNAEIQRIVDDMFETMYAEEGIGLAATQVDIHQRIIVIDVSENRDERLVLINPELLEKSGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFMDYLSPLKQQRIRQKVEKLDRLKARA 1icj-a1-m1-cB_1icj-a1-m1-cC PDF PROTEIN IS CRYSTALLIZED AS NI2+ CONTAINING FORM, COCRYSTALLIZED WITH INHIBITOR POLYETHYLENE GLYCOL (PEG) P0A6K3 P0A6K3 1.9 X-RAY DIFFRACTION 31 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 168 168 1lru-a4-m2-cC_1lru-a4-m1-cB SVLQVLHIPDERLRKVAKPVEEVNAEIQRIVDDMFETMYAEEGIGLAATQVDIHQRIIVIDVSENRDERLVLINPELLEKSGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFMDYLSPLKQQRIRQKVEKLDRLKARA SVLQVLHIPDERLRKVAKPVEEVNAEIQRIVDDMFETMYAEEGIGLAATQVDIHQRIIVIDVSENRDERLVLINPELLEKSGETGIEEGCLSIPEQRALVPRAEKVKIRALDRDGKPFELEADGLLAICIQHEMDHLVGKLFMDYLSPLKQQRIRQKVEKLDRLKARA 1id1-a1-m1-cB_1id1-a1-m1-cA CRYSTAL STRUCTURE OF THE RCK DOMAIN FROM E.COLI POTASSIUM CHANNEL P31069 P31069 2.4 X-RAY DIFFRACTION 111 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 153 RKDHFIVCGHSILAINTILQLNQRGQNVTVISNLPEDDIKQLEQRLGDNADVIPGDSNDSSVLKKAGIDRCRAILALSDNDADNAFVVLSAKDMSSDVKTVLAVSDSKNLNKIKMVHPDIILSPQLFGSEILARVLNGEEINNDMLVSMLLN HRKDHFIVCGHSILAINTILQLNQRGQNVTVISNLPEDDIKQLEQRLGDNADVIPGDSNDSSVLKKAGIDRCRAILALSDNDADNAFVVLSAKDMSSDVKTVLAVSDSKNLNKIKMVHPDIILSPQLFGSEILARVLNGEEINNDMLVSMLLN 1idn-a1-m1-c1_1idn-a1-m1-c2 MAC-1 I DOMAIN METAL FREE P11215 P11215 2.7 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 1bho-a1-m1-c1_1bho-a1-m1-c2 1bhq-a1-m1-c1_1bhq-a1-m1-c2 SDIAFLIDGSGSIIPHDFRRMKEFVSTVMEQLKKSKTLFSLMQYSEEFRIHFTFKEFQNNPNPRSLVKPITQLLGRTHTATGIRKVVRELFNITNGARKNAFKILVVITDGEKFGDPLGYEDVIPEADREGVIRYVIGVGDAFRSEKSRQELNTIASKPPRDHVFQVNNFEALKTIQNQLREKIFAIEG SDIAFLIDGSGSIIPHDFRRMKEFVSTVMEQLKKSKTLFSLMQYSEEFRIHFTFKEFQNNPNPRSLVKPITQLLGRTHTATGIRKVVRELFNITNGARKNAFKILVVITDGEKFGDPLGYEDVIPEADREGVIRYVIGVGDAFRSEKSRQELNTIASKPPRDHVFQVNNFEALKTIQNQLREKIFAIEG 1idq-a2-m2-cA_1idq-a2-m3-cA CRYSTAL STRUCTURE OF NATIVE VANADIUM-CONTAINING CHLOROPEROXIDASE FROM CURVULARIA INAEQUALIS P49053 P49053 2.03 X-RAY DIFFRACTION 47 1.0 38902 (Curvularia inaequalis) 38902 (Curvularia inaequalis) 574 574 1idq-a2-m1-cA_1idq-a2-m2-cA 1idq-a2-m1-cA_1idq-a2-m3-cA 1vnc-a2-m1-cA_1vnc-a2-m2-cA 1vnc-a2-m1-cA_1vnc-a2-m3-cA 1vnc-a2-m2-cA_1vnc-a2-m3-cA VTPIPLPKIDEPEEYNTNYILFWNHVGLELNRVTHTVGGPLTGPPLSARALGMLHLAIHDAYFSICPPTDFTTFLSPDTENAAYRLPSPNGANDARQAVAGAALKMLSSLYMKPVEQPNPNPGANISDNAYAQLGLVLDRSVLEAPGGVDRESASFMFGEDVADVFFALLNDPRGASQEGYHPTPGRYKFDDEPTHPVVLIPVDPNNPNGPKMPFRQYHAPFYGKTTKRFATQSEHFLADPPGLRSNADETAEYDDAVRVAIAMGGAQALNSTKRSPWQTAQGLYWAYDGSNLIGTPPRFYNQIVRRIAVTYKKEEDLANSEVNNADFARLFALVDVACTDAGIFSWKEKWEFEFWRPLSGVRDDGRPDHGDPFWLTLGAPATNTNDIPFKPPFPAYPSGHATFGGAVFQMVRRYYNGRVGTWKDDEPDNIAIDMMISEELNGVNRDLRQPYDPTAPIEDQPGIVRTRIVRHFDSAWELMFENAISRIFLGVHWRFDAAAARDILIPTTTKDVYAVDNNGATVFQNVEDIRYTTRGTREDEEGLFPIGGVPLGIEIADEIFNNGLKPTPPEIQP VTPIPLPKIDEPEEYNTNYILFWNHVGLELNRVTHTVGGPLTGPPLSARALGMLHLAIHDAYFSICPPTDFTTFLSPDTENAAYRLPSPNGANDARQAVAGAALKMLSSLYMKPVEQPNPNPGANISDNAYAQLGLVLDRSVLEAPGGVDRESASFMFGEDVADVFFALLNDPRGASQEGYHPTPGRYKFDDEPTHPVVLIPVDPNNPNGPKMPFRQYHAPFYGKTTKRFATQSEHFLADPPGLRSNADETAEYDDAVRVAIAMGGAQALNSTKRSPWQTAQGLYWAYDGSNLIGTPPRFYNQIVRRIAVTYKKEEDLANSEVNNADFARLFALVDVACTDAGIFSWKEKWEFEFWRPLSGVRDDGRPDHGDPFWLTLGAPATNTNDIPFKPPFPAYPSGHATFGGAVFQMVRRYYNGRVGTWKDDEPDNIAIDMMISEELNGVNRDLRQPYDPTAPIEDQPGIVRTRIVRHFDSAWELMFENAISRIFLGVHWRFDAAAARDILIPTTTKDVYAVDNNGATVFQNVEDIRYTTRGTREDEEGLFPIGGVPLGIEIADEIFNNGLKPTPPEIQP 1ifi-a1-m20-cA_1ifi-a1-m9-cA MOLECULAR MODELS AND STRUCTURAL COMPARISONS OF NATIVE AND MUTANT CLASS I FILAMENTOUS BACTERIOPHAGES FF (FD, F1, M13), IF1 AND IKE P69539 P69539 3.3 FIBER DIFFRACTION 42 1.0 10864 (Enterobacteria phage fd) 10864 (Enterobacteria phage fd) 50 50 1ifd-a1-m10-cA_1ifd-a1-m16-cA 1ifd-a1-m11-cA_1ifd-a1-m22-cA 1ifd-a1-m11-cA_1ifd-a1-m5-cA 1ifd-a1-m12-cA_1ifd-a1-m23-cA 1ifd-a1-m13-cA_1ifd-a1-m24-cA 1ifd-a1-m13-cA_1ifd-a1-m2-cA 1ifd-a1-m14-cA_1ifd-a1-m25-cA 1ifd-a1-m14-cA_1ifd-a1-m3-cA 1ifd-a1-m15-cA_1ifd-a1-m21-cA 1ifd-a1-m15-cA_1ifd-a1-m4-cA 1ifd-a1-m16-cA_1ifd-a1-m27-cA 1ifd-a1-m17-cA_1ifd-a1-m28-cA 1ifd-a1-m17-cA_1ifd-a1-m6-cA 1ifd-a1-m18-cA_1ifd-a1-m29-cA 1ifd-a1-m18-cA_1ifd-a1-m7-cA 1ifd-a1-m19-cA_1ifd-a1-m30-cA 1ifd-a1-m19-cA_1ifd-a1-m8-cA 1ifd-a1-m1-cA_1ifd-a1-m12-cA 1ifd-a1-m20-cA_1ifd-a1-m9-cA 1ifd-a1-m21-cA_1ifd-a1-m32-cA 1ifd-a1-m22-cA_1ifd-a1-m33-cA 1ifd-a1-m23-cA_1ifd-a1-m34-cA 1ifd-a1-m24-cA_1ifd-a1-m35-cA 1ifd-a1-m25-cA_1ifd-a1-m31-cA 1ifd-a1-m27-cA_1ifd-a1-m38-cA 1ifd-a1-m28-cA_1ifd-a1-m39-cA 1ifd-a1-m29-cA_1ifd-a1-m40-cA 1ifd-a1-m30-cA_1ifd-a1-m36-cA 1ifd-a1-m31-cA_1ifd-a1-m42-cA 1ifd-a1-m32-cA_1ifd-a1-m43-cA 1ifd-a1-m33-cA_1ifd-a1-m44-cA 1ifd-a1-m34-cA_1ifd-a1-m45-cA 1ifd-a1-m35-cA_1ifd-a1-m41-cA 1ifd-a1-m36-cA_1ifd-a1-m47-cA 1ifd-a1-m37-cA_1ifd-a1-m48-cA 1ifd-a1-m38-cA_1ifd-a1-m49-cA 1ifd-a1-m39-cA_1ifd-a1-m50-cA 1ifd-a1-m40-cA_1ifd-a1-m46-cA 1ifd-a1-m41-cA_1ifd-a1-m52-cA 1ifd-a1-m42-cA_1ifd-a1-m53-cA 1ifd-a1-m43-cA_1ifd-a1-m54-cA 1ifd-a1-m44-cA_1ifd-a1-m55-cA 1ifd-a1-m45-cA_1ifd-a1-m51-cA 1ifi-a1-m10-cA_1ifi-a1-m16-cA 1ifi-a1-m11-cA_1ifi-a1-m22-cA 1ifi-a1-m11-cA_1ifi-a1-m5-cA 1ifi-a1-m12-cA_1ifi-a1-m23-cA 1ifi-a1-m13-cA_1ifi-a1-m24-cA 1ifi-a1-m13-cA_1ifi-a1-m2-cA 1ifi-a1-m14-cA_1ifi-a1-m25-cA 1ifi-a1-m14-cA_1ifi-a1-m3-cA 1ifi-a1-m15-cA_1ifi-a1-m21-cA 1ifi-a1-m15-cA_1ifi-a1-m4-cA 1ifi-a1-m16-cA_1ifi-a1-m27-cA 1ifi-a1-m17-cA_1ifi-a1-m28-cA 1ifi-a1-m17-cA_1ifi-a1-m6-cA 1ifi-a1-m18-cA_1ifi-a1-m29-cA 1ifi-a1-m18-cA_1ifi-a1-m7-cA 1ifi-a1-m19-cA_1ifi-a1-m30-cA 1ifi-a1-m19-cA_1ifi-a1-m8-cA 1ifi-a1-m1-cA_1ifi-a1-m20-cA 1ifi-a1-m1-cA_1ifi-a1-m37-cA 1ifi-a1-m21-cA_1ifi-a1-m32-cA 1ifi-a1-m22-cA_1ifi-a1-m33-cA 1ifi-a1-m23-cA_1ifi-a1-m34-cA 1ifi-a1-m24-cA_1ifi-a1-m35-cA 1ifi-a1-m25-cA_1ifi-a1-m31-cA 1ifi-a1-m27-cA_1ifi-a1-m38-cA 1ifi-a1-m28-cA_1ifi-a1-m39-cA 1ifi-a1-m29-cA_1ifi-a1-m40-cA 1ifi-a1-m30-cA_1ifi-a1-m36-cA 1ifi-a1-m31-cA_1ifi-a1-m42-cA 1ifi-a1-m32-cA_1ifi-a1-m43-cA 1ifi-a1-m33-cA_1ifi-a1-m44-cA 1ifi-a1-m34-cA_1ifi-a1-m45-cA 1ifi-a1-m35-cA_1ifi-a1-m41-cA 1ifi-a1-m36-cA_1ifi-a1-m47-cA 1ifi-a1-m37-cA_1ifi-a1-m48-cA 1ifi-a1-m38-cA_1ifi-a1-m49-cA 1ifi-a1-m39-cA_1ifi-a1-m50-cA 1ifi-a1-m40-cA_1ifi-a1-m46-cA 1ifi-a1-m41-cA_1ifi-a1-m52-cA 1ifi-a1-m42-cA_1ifi-a1-m53-cA 1ifi-a1-m43-cA_1ifi-a1-m54-cA 1ifi-a1-m44-cA_1ifi-a1-m55-cA 1ifi-a1-m45-cA_1ifi-a1-m51-cA 1ifj-a1-m10-cA_1ifj-a1-m16-cA 1ifj-a1-m11-cA_1ifj-a1-m22-cA 1ifj-a1-m11-cA_1ifj-a1-m5-cA 1ifj-a1-m12-cA_1ifj-a1-m23-cA 1ifj-a1-m13-cA_1ifj-a1-m24-cA 1ifj-a1-m13-cA_1ifj-a1-m2-cA 1ifj-a1-m14-cA_1ifj-a1-m25-cA 1ifj-a1-m14-cA_1ifj-a1-m3-cA 1ifj-a1-m15-cA_1ifj-a1-m21-cA 1ifj-a1-m15-cA_1ifj-a1-m4-cA 1ifj-a1-m16-cA_1ifj-a1-m27-cA 1ifj-a1-m17-cA_1ifj-a1-m28-cA 1ifj-a1-m17-cA_1ifj-a1-m6-cA 1ifj-a1-m18-cA_1ifj-a1-m29-cA 1ifj-a1-m18-cA_1ifj-a1-m7-cA 1ifj-a1-m19-cA_1ifj-a1-m30-cA 1ifj-a1-m19-cA_1ifj-a1-m8-cA 1ifj-a1-m1-cA_1ifj-a1-m20-cA 1ifj-a1-m1-cA_1ifj-a1-m37-cA 1ifj-a1-m20-cA_1ifj-a1-m9-cA 1ifj-a1-m21-cA_1ifj-a1-m32-cA 1ifj-a1-m22-cA_1ifj-a1-m33-cA 1ifj-a1-m23-cA_1ifj-a1-m34-cA 1ifj-a1-m24-cA_1ifj-a1-m35-cA 1ifj-a1-m25-cA_1ifj-a1-m31-cA 1ifj-a1-m27-cA_1ifj-a1-m38-cA 1ifj-a1-m28-cA_1ifj-a1-m39-cA 1ifj-a1-m29-cA_1ifj-a1-m40-cA 1ifj-a1-m30-cA_1ifj-a1-m36-cA 1ifj-a1-m31-cA_1ifj-a1-m42-cA 1ifj-a1-m32-cA_1ifj-a1-m43-cA 1ifj-a1-m33-cA_1ifj-a1-m44-cA 1ifj-a1-m34-cA_1ifj-a1-m45-cA 1ifj-a1-m35-cA_1ifj-a1-m41-cA 1ifj-a1-m36-cA_1ifj-a1-m47-cA 1ifj-a1-m37-cA_1ifj-a1-m48-cA 1ifj-a1-m38-cA_1ifj-a1-m49-cA 1ifj-a1-m39-cA_1ifj-a1-m50-cA 1ifj-a1-m40-cA_1ifj-a1-m46-cA 1ifj-a1-m41-cA_1ifj-a1-m52-cA 1ifj-a1-m42-cA_1ifj-a1-m53-cA 1ifj-a1-m43-cA_1ifj-a1-m54-cA 1ifj-a1-m44-cA_1ifj-a1-m55-cA 1ifj-a1-m45-cA_1ifj-a1-m51-cA 2c0w-a1-m10-cA_2c0w-a1-m16-cA 2c0w-a1-m11-cA_2c0w-a1-m22-cA 2c0w-a1-m11-cA_2c0w-a1-m5-cA 2c0w-a1-m12-cA_2c0w-a1-m23-cA 2c0w-a1-m13-cA_2c0w-a1-m24-cA 2c0w-a1-m13-cA_2c0w-a1-m2-cA 2c0w-a1-m14-cA_2c0w-a1-m25-cA 2c0w-a1-m14-cA_2c0w-a1-m3-cA 2c0w-a1-m15-cA_2c0w-a1-m21-cA 2c0w-a1-m15-cA_2c0w-a1-m4-cA 2c0w-a1-m16-cA_2c0w-a1-m27-cA 2c0w-a1-m17-cA_2c0w-a1-m28-cA 2c0w-a1-m17-cA_2c0w-a1-m6-cA 2c0w-a1-m18-cA_2c0w-a1-m29-cA 2c0w-a1-m18-cA_2c0w-a1-m7-cA 2c0w-a1-m19-cA_2c0w-a1-m30-cA 2c0w-a1-m19-cA_2c0w-a1-m8-cA 2c0w-a1-m1-cA_2c0w-a1-m12-cA 2c0w-a1-m20-cA_2c0w-a1-m9-cA 2c0w-a1-m21-cA_2c0w-a1-m32-cA 2c0w-a1-m22-cA_2c0w-a1-m33-cA 2c0w-a1-m23-cA_2c0w-a1-m34-cA 2c0w-a1-m24-cA_2c0w-a1-m35-cA 2c0w-a1-m25-cA_2c0w-a1-m31-cA 2c0w-a1-m27-cA_2c0w-a1-m38-cA 2c0w-a1-m28-cA_2c0w-a1-m39-cA 2c0w-a1-m29-cA_2c0w-a1-m40-cA 2c0w-a1-m30-cA_2c0w-a1-m36-cA 2c0w-a1-m31-cA_2c0w-a1-m42-cA 2c0w-a1-m32-cA_2c0w-a1-m43-cA 2c0w-a1-m33-cA_2c0w-a1-m44-cA 2c0w-a1-m34-cA_2c0w-a1-m45-cA 2c0w-a1-m35-cA_2c0w-a1-m41-cA 2c0w-a1-m36-cA_2c0w-a1-m47-cA 2c0w-a1-m37-cA_2c0w-a1-m48-cA 2c0w-a1-m38-cA_2c0w-a1-m49-cA 2c0w-a1-m39-cA_2c0w-a1-m50-cA 2c0w-a1-m40-cA_2c0w-a1-m46-cA 2c0w-a1-m41-cA_2c0w-a1-m52-cA 2c0w-a1-m42-cA_2c0w-a1-m53-cA 2c0w-a1-m43-cA_2c0w-a1-m54-cA 2c0w-a1-m44-cA_2c0w-a1-m55-cA 2c0w-a1-m45-cA_2c0w-a1-m51-cA 2c0x-a1-m10-cA_2c0x-a1-m16-cA 2c0x-a1-m11-cA_2c0x-a1-m22-cA 2c0x-a1-m11-cA_2c0x-a1-m5-cA 2c0x-a1-m12-cA_2c0x-a1-m23-cA 2c0x-a1-m12-cA_2c0x-a1-m55-cA 2c0x-a1-m13-cA_2c0x-a1-m24-cA 2c0x-a1-m13-cA_2c0x-a1-m2-cA 2c0x-a1-m14-cA_2c0x-a1-m25-cA 2c0x-a1-m14-cA_2c0x-a1-m3-cA 2c0x-a1-m15-cA_2c0x-a1-m21-cA 2c0x-a1-m15-cA_2c0x-a1-m4-cA 2c0x-a1-m16-cA_2c0x-a1-m26-cA 2c0x-a1-m17-cA_2c0x-a1-m27-cA 2c0x-a1-m17-cA_2c0x-a1-m6-cA 2c0x-a1-m18-cA_2c0x-a1-m28-cA 2c0x-a1-m18-cA_2c0x-a1-m7-cA 2c0x-a1-m19-cA_2c0x-a1-m29-cA 2c0x-a1-m19-cA_2c0x-a1-m8-cA 2c0x-a1-m21-cA_2c0x-a1-m31-cA 2c0x-a1-m22-cA_2c0x-a1-m32-cA 2c0x-a1-m23-cA_2c0x-a1-m33-cA 2c0x-a1-m24-cA_2c0x-a1-m34-cA 2c0x-a1-m25-cA_2c0x-a1-m30-cA 2c0x-a1-m26-cA_2c0x-a1-m37-cA 2c0x-a1-m27-cA_2c0x-a1-m38-cA 2c0x-a1-m28-cA_2c0x-a1-m39-cA 2c0x-a1-m29-cA_2c0x-a1-m35-cA 2c0x-a1-m30-cA_2c0x-a1-m41-cA 2c0x-a1-m31-cA_2c0x-a1-m42-cA 2c0x-a1-m32-cA_2c0x-a1-m43-cA 2c0x-a1-m33-cA_2c0x-a1-m44-cA 2c0x-a1-m34-cA_2c0x-a1-m40-cA 2c0x-a1-m35-cA_2c0x-a1-m46-cA 2c0x-a1-m37-cA_2c0x-a1-m48-cA 2c0x-a1-m38-cA_2c0x-a1-m49-cA 2c0x-a1-m39-cA_2c0x-a1-m45-cA 2c0x-a1-m40-cA_2c0x-a1-m51-cA 2c0x-a1-m41-cA_2c0x-a1-m52-cA 2c0x-a1-m42-cA_2c0x-a1-m53-cA 2c0x-a1-m43-cA_2c0x-a1-m54-cA 2c0x-a1-m44-cA_2c0x-a1-m50-cA 2mjz-a1-m1-cA_2mjz-a1-m1-ca 2mjz-a1-m1-cB_2mjz-a1-m1-cb 2mjz-a1-m1-cC_2mjz-a1-m1-cc 2mjz-a1-m1-cD_2mjz-a1-m1-cY 2mjz-a1-m1-cE_2mjz-a1-m1-ce 2mjz-a1-m1-cF_2mjz-a1-m1-cf 2mjz-a1-m1-cG_2mjz-a1-m1-cg 2mjz-a1-m1-cH_2mjz-a1-m1-ch 2mjz-a1-m1-cI_2mjz-a1-m1-cd 2mjz-a1-m1-cJ_2mjz-a1-m1-cX 2mjz-a1-m1-cK_2mjz-a1-m1-cT 2mjz-a1-m1-cL_2mjz-a1-m1-cU 2mjz-a1-m1-cM_2mjz-a1-m1-cV 2mjz-a1-m1-cN_2mjz-a1-m1-cW 2mjz-a1-m1-cO_2mjz-a1-m1-cc 2mjz-a1-m1-cP_2mjz-a1-m1-cY 2mjz-a1-m1-cQ_2mjz-a1-m1-cZ 2mjz-a1-m1-cR_2mjz-a1-m1-ca 2mjz-a1-m1-cS_2mjz-a1-m1-cb 2mjz-a1-m1-cT_2mjz-a1-m1-ch 2mjz-a1-m1-cU_2mjz-a1-m1-cd 2mjz-a1-m1-cV_2mjz-a1-m1-ce 2mjz-a1-m1-cW_2mjz-a1-m1-cf 2mjz-a1-m1-cX_2mjz-a1-m1-cg 2mjz-a1-m1-cZ_2mjz-a1-m1-ci AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS 1ifi-a1-m3-cA_1ifi-a1-m9-cA MOLECULAR MODELS AND STRUCTURAL COMPARISONS OF NATIVE AND MUTANT CLASS I FILAMENTOUS BACTERIOPHAGES FF (FD, F1, M13), IF1 AND IKE P69539 P69539 3.3 FIBER DIFFRACTION 54 1.0 10864 (Enterobacteria phage fd) 10864 (Enterobacteria phage fd) 50 50 1ifd-a1-m10-cA_1ifd-a1-m11-cA 1ifd-a1-m10-cA_1ifd-a1-m4-cA 1ifd-a1-m11-cA_1ifd-a1-m17-cA 1ifd-a1-m12-cA_1ifd-a1-m18-cA 1ifd-a1-m12-cA_1ifd-a1-m6-cA 1ifd-a1-m13-cA_1ifd-a1-m19-cA 1ifd-a1-m13-cA_1ifd-a1-m7-cA 1ifd-a1-m14-cA_1ifd-a1-m20-cA 1ifd-a1-m14-cA_1ifd-a1-m8-cA 1ifd-a1-m15-cA_1ifd-a1-m16-cA 1ifd-a1-m15-cA_1ifd-a1-m9-cA 1ifd-a1-m16-cA_1ifd-a1-m22-cA 1ifd-a1-m17-cA_1ifd-a1-m23-cA 1ifd-a1-m18-cA_1ifd-a1-m24-cA 1ifd-a1-m19-cA_1ifd-a1-m25-cA 1ifd-a1-m1-cA_1ifd-a1-m7-cA 1ifd-a1-m20-cA_1ifd-a1-m21-cA 1ifd-a1-m21-cA_1ifd-a1-m27-cA 1ifd-a1-m22-cA_1ifd-a1-m28-cA 1ifd-a1-m23-cA_1ifd-a1-m29-cA 1ifd-a1-m24-cA_1ifd-a1-m30-cA 1ifd-a1-m27-cA_1ifd-a1-m33-cA 1ifd-a1-m28-cA_1ifd-a1-m34-cA 1ifd-a1-m29-cA_1ifd-a1-m35-cA 1ifd-a1-m2-cA_1ifd-a1-m8-cA 1ifd-a1-m30-cA_1ifd-a1-m31-cA 1ifd-a1-m31-cA_1ifd-a1-m37-cA 1ifd-a1-m32-cA_1ifd-a1-m38-cA 1ifd-a1-m33-cA_1ifd-a1-m39-cA 1ifd-a1-m34-cA_1ifd-a1-m40-cA 1ifd-a1-m35-cA_1ifd-a1-m36-cA 1ifd-a1-m36-cA_1ifd-a1-m42-cA 1ifd-a1-m37-cA_1ifd-a1-m43-cA 1ifd-a1-m38-cA_1ifd-a1-m44-cA 1ifd-a1-m39-cA_1ifd-a1-m45-cA 1ifd-a1-m3-cA_1ifd-a1-m9-cA 1ifd-a1-m40-cA_1ifd-a1-m41-cA 1ifd-a1-m41-cA_1ifd-a1-m47-cA 1ifd-a1-m42-cA_1ifd-a1-m48-cA 1ifd-a1-m43-cA_1ifd-a1-m49-cA 1ifd-a1-m44-cA_1ifd-a1-m50-cA 1ifd-a1-m45-cA_1ifd-a1-m46-cA 1ifd-a1-m46-cA_1ifd-a1-m52-cA 1ifd-a1-m47-cA_1ifd-a1-m53-cA 1ifd-a1-m48-cA_1ifd-a1-m54-cA 1ifd-a1-m49-cA_1ifd-a1-m55-cA 1ifd-a1-m50-cA_1ifd-a1-m51-cA 1ifd-a1-m5-cA_1ifd-a1-m6-cA 1ifi-a1-m10-cA_1ifi-a1-m11-cA 1ifi-a1-m10-cA_1ifi-a1-m4-cA 1ifi-a1-m11-cA_1ifi-a1-m17-cA 1ifi-a1-m12-cA_1ifi-a1-m18-cA 1ifi-a1-m12-cA_1ifi-a1-m6-cA 1ifi-a1-m13-cA_1ifi-a1-m19-cA 1ifi-a1-m13-cA_1ifi-a1-m7-cA 1ifi-a1-m14-cA_1ifi-a1-m20-cA 1ifi-a1-m14-cA_1ifi-a1-m8-cA 1ifi-a1-m15-cA_1ifi-a1-m16-cA 1ifi-a1-m15-cA_1ifi-a1-m9-cA 1ifi-a1-m16-cA_1ifi-a1-m22-cA 1ifi-a1-m17-cA_1ifi-a1-m23-cA 1ifi-a1-m18-cA_1ifi-a1-m24-cA 1ifi-a1-m19-cA_1ifi-a1-m25-cA 1ifi-a1-m1-cA_1ifi-a1-m25-cA 1ifi-a1-m1-cA_1ifi-a1-m32-cA 1ifi-a1-m20-cA_1ifi-a1-m21-cA 1ifi-a1-m21-cA_1ifi-a1-m27-cA 1ifi-a1-m22-cA_1ifi-a1-m28-cA 1ifi-a1-m23-cA_1ifi-a1-m29-cA 1ifi-a1-m24-cA_1ifi-a1-m30-cA 1ifi-a1-m27-cA_1ifi-a1-m33-cA 1ifi-a1-m28-cA_1ifi-a1-m34-cA 1ifi-a1-m29-cA_1ifi-a1-m35-cA 1ifi-a1-m2-cA_1ifi-a1-m8-cA 1ifi-a1-m30-cA_1ifi-a1-m31-cA 1ifi-a1-m31-cA_1ifi-a1-m37-cA 1ifi-a1-m32-cA_1ifi-a1-m38-cA 1ifi-a1-m33-cA_1ifi-a1-m39-cA 1ifi-a1-m34-cA_1ifi-a1-m40-cA 1ifi-a1-m35-cA_1ifi-a1-m36-cA 1ifi-a1-m36-cA_1ifi-a1-m42-cA 1ifi-a1-m37-cA_1ifi-a1-m43-cA 1ifi-a1-m38-cA_1ifi-a1-m44-cA 1ifi-a1-m39-cA_1ifi-a1-m45-cA 1ifi-a1-m40-cA_1ifi-a1-m41-cA 1ifi-a1-m41-cA_1ifi-a1-m47-cA 1ifi-a1-m42-cA_1ifi-a1-m48-cA 1ifi-a1-m43-cA_1ifi-a1-m49-cA 1ifi-a1-m44-cA_1ifi-a1-m50-cA 1ifi-a1-m45-cA_1ifi-a1-m46-cA 1ifi-a1-m46-cA_1ifi-a1-m52-cA 1ifi-a1-m47-cA_1ifi-a1-m53-cA 1ifi-a1-m48-cA_1ifi-a1-m54-cA 1ifi-a1-m49-cA_1ifi-a1-m55-cA 1ifi-a1-m50-cA_1ifi-a1-m51-cA 1ifi-a1-m5-cA_1ifi-a1-m6-cA 1ifj-a1-m10-cA_1ifj-a1-m11-cA 1ifj-a1-m10-cA_1ifj-a1-m4-cA 1ifj-a1-m11-cA_1ifj-a1-m17-cA 1ifj-a1-m12-cA_1ifj-a1-m18-cA 1ifj-a1-m12-cA_1ifj-a1-m6-cA 1ifj-a1-m13-cA_1ifj-a1-m19-cA 1ifj-a1-m13-cA_1ifj-a1-m7-cA 1ifj-a1-m14-cA_1ifj-a1-m20-cA 1ifj-a1-m14-cA_1ifj-a1-m8-cA 1ifj-a1-m15-cA_1ifj-a1-m16-cA 1ifj-a1-m15-cA_1ifj-a1-m9-cA 1ifj-a1-m16-cA_1ifj-a1-m22-cA 1ifj-a1-m17-cA_1ifj-a1-m23-cA 1ifj-a1-m18-cA_1ifj-a1-m24-cA 1ifj-a1-m19-cA_1ifj-a1-m25-cA 1ifj-a1-m1-cA_1ifj-a1-m25-cA 1ifj-a1-m1-cA_1ifj-a1-m32-cA 1ifj-a1-m20-cA_1ifj-a1-m21-cA 1ifj-a1-m21-cA_1ifj-a1-m27-cA 1ifj-a1-m22-cA_1ifj-a1-m28-cA 1ifj-a1-m23-cA_1ifj-a1-m29-cA 1ifj-a1-m24-cA_1ifj-a1-m30-cA 1ifj-a1-m27-cA_1ifj-a1-m33-cA 1ifj-a1-m28-cA_1ifj-a1-m34-cA 1ifj-a1-m29-cA_1ifj-a1-m35-cA 1ifj-a1-m2-cA_1ifj-a1-m8-cA 1ifj-a1-m30-cA_1ifj-a1-m31-cA 1ifj-a1-m31-cA_1ifj-a1-m37-cA 1ifj-a1-m32-cA_1ifj-a1-m38-cA 1ifj-a1-m33-cA_1ifj-a1-m39-cA 1ifj-a1-m34-cA_1ifj-a1-m40-cA 1ifj-a1-m35-cA_1ifj-a1-m36-cA 1ifj-a1-m36-cA_1ifj-a1-m42-cA 1ifj-a1-m37-cA_1ifj-a1-m43-cA 1ifj-a1-m38-cA_1ifj-a1-m44-cA 1ifj-a1-m39-cA_1ifj-a1-m45-cA 1ifj-a1-m3-cA_1ifj-a1-m9-cA 1ifj-a1-m40-cA_1ifj-a1-m41-cA 1ifj-a1-m41-cA_1ifj-a1-m47-cA 1ifj-a1-m42-cA_1ifj-a1-m48-cA 1ifj-a1-m43-cA_1ifj-a1-m49-cA 1ifj-a1-m44-cA_1ifj-a1-m50-cA 1ifj-a1-m45-cA_1ifj-a1-m46-cA 1ifj-a1-m46-cA_1ifj-a1-m52-cA 1ifj-a1-m47-cA_1ifj-a1-m53-cA 1ifj-a1-m48-cA_1ifj-a1-m54-cA 1ifj-a1-m49-cA_1ifj-a1-m55-cA 1ifj-a1-m50-cA_1ifj-a1-m51-cA 1ifj-a1-m5-cA_1ifj-a1-m6-cA 2c0w-a1-m10-cA_2c0w-a1-m11-cA 2c0w-a1-m10-cA_2c0w-a1-m4-cA 2c0w-a1-m11-cA_2c0w-a1-m17-cA 2c0w-a1-m12-cA_2c0w-a1-m18-cA 2c0w-a1-m12-cA_2c0w-a1-m6-cA 2c0w-a1-m13-cA_2c0w-a1-m19-cA 2c0w-a1-m13-cA_2c0w-a1-m7-cA 2c0w-a1-m14-cA_2c0w-a1-m20-cA 2c0w-a1-m14-cA_2c0w-a1-m8-cA 2c0w-a1-m15-cA_2c0w-a1-m16-cA 2c0w-a1-m15-cA_2c0w-a1-m9-cA 2c0w-a1-m16-cA_2c0w-a1-m22-cA 2c0w-a1-m17-cA_2c0w-a1-m23-cA 2c0w-a1-m18-cA_2c0w-a1-m24-cA 2c0w-a1-m19-cA_2c0w-a1-m25-cA 2c0w-a1-m1-cA_2c0w-a1-m7-cA 2c0w-a1-m20-cA_2c0w-a1-m21-cA 2c0w-a1-m21-cA_2c0w-a1-m27-cA 2c0w-a1-m22-cA_2c0w-a1-m28-cA 2c0w-a1-m23-cA_2c0w-a1-m29-cA 2c0w-a1-m24-cA_2c0w-a1-m30-cA 2c0w-a1-m27-cA_2c0w-a1-m33-cA 2c0w-a1-m28-cA_2c0w-a1-m34-cA 2c0w-a1-m29-cA_2c0w-a1-m35-cA 2c0w-a1-m2-cA_2c0w-a1-m8-cA 2c0w-a1-m30-cA_2c0w-a1-m31-cA 2c0w-a1-m31-cA_2c0w-a1-m37-cA 2c0w-a1-m32-cA_2c0w-a1-m38-cA 2c0w-a1-m33-cA_2c0w-a1-m39-cA 2c0w-a1-m34-cA_2c0w-a1-m40-cA 2c0w-a1-m35-cA_2c0w-a1-m36-cA 2c0w-a1-m36-cA_2c0w-a1-m42-cA 2c0w-a1-m37-cA_2c0w-a1-m43-cA 2c0w-a1-m38-cA_2c0w-a1-m44-cA 2c0w-a1-m39-cA_2c0w-a1-m45-cA 2c0w-a1-m3-cA_2c0w-a1-m9-cA 2c0w-a1-m40-cA_2c0w-a1-m41-cA 2c0w-a1-m41-cA_2c0w-a1-m47-cA 2c0w-a1-m42-cA_2c0w-a1-m48-cA 2c0w-a1-m43-cA_2c0w-a1-m49-cA 2c0w-a1-m44-cA_2c0w-a1-m50-cA 2c0w-a1-m45-cA_2c0w-a1-m46-cA 2c0w-a1-m46-cA_2c0w-a1-m52-cA 2c0w-a1-m47-cA_2c0w-a1-m53-cA 2c0w-a1-m48-cA_2c0w-a1-m54-cA 2c0w-a1-m49-cA_2c0w-a1-m55-cA 2c0w-a1-m50-cA_2c0w-a1-m51-cA 2c0w-a1-m5-cA_2c0w-a1-m6-cA 2c0x-a1-m10-cA_2c0x-a1-m11-cA 2c0x-a1-m10-cA_2c0x-a1-m4-cA 2c0x-a1-m11-cA_2c0x-a1-m17-cA 2c0x-a1-m12-cA_2c0x-a1-m18-cA 2c0x-a1-m12-cA_2c0x-a1-m6-cA 2c0x-a1-m13-cA_2c0x-a1-m19-cA 2c0x-a1-m13-cA_2c0x-a1-m7-cA 2c0x-a1-m14-cA_2c0x-a1-m8-cA 2c0x-a1-m15-cA_2c0x-a1-m16-cA 2c0x-a1-m16-cA_2c0x-a1-m22-cA 2c0x-a1-m17-cA_2c0x-a1-m23-cA 2c0x-a1-m18-cA_2c0x-a1-m24-cA 2c0x-a1-m19-cA_2c0x-a1-m25-cA 2c0x-a1-m1-cA_2c0x-a1-m25-cA 2c0x-a1-m1-cA_2c0x-a1-m31-cA 2c0x-a1-m21-cA_2c0x-a1-m26-cA 2c0x-a1-m22-cA_2c0x-a1-m27-cA 2c0x-a1-m23-cA_2c0x-a1-m28-cA 2c0x-a1-m24-cA_2c0x-a1-m29-cA 2c0x-a1-m26-cA_2c0x-a1-m32-cA 2c0x-a1-m27-cA_2c0x-a1-m33-cA 2c0x-a1-m28-cA_2c0x-a1-m34-cA 2c0x-a1-m29-cA_2c0x-a1-m30-cA 2c0x-a1-m2-cA_2c0x-a1-m8-cA 2c0x-a1-m31-cA_2c0x-a1-m37-cA 2c0x-a1-m32-cA_2c0x-a1-m38-cA 2c0x-a1-m33-cA_2c0x-a1-m39-cA 2c0x-a1-m34-cA_2c0x-a1-m35-cA 2c0x-a1-m35-cA_2c0x-a1-m41-cA 2c0x-a1-m37-cA_2c0x-a1-m43-cA 2c0x-a1-m38-cA_2c0x-a1-m44-cA 2c0x-a1-m39-cA_2c0x-a1-m40-cA 2c0x-a1-m40-cA_2c0x-a1-m46-cA 2c0x-a1-m42-cA_2c0x-a1-m48-cA 2c0x-a1-m43-cA_2c0x-a1-m49-cA 2c0x-a1-m44-cA_2c0x-a1-m45-cA 2c0x-a1-m45-cA_2c0x-a1-m51-cA 2c0x-a1-m46-cA_2c0x-a1-m52-cA 2c0x-a1-m48-cA_2c0x-a1-m54-cA 2c0x-a1-m49-cA_2c0x-a1-m50-cA 2c0x-a1-m55-cA_2c0x-a1-m7-cA 2c0x-a1-m5-cA_2c0x-a1-m6-cA 2mjz-a1-m1-cA_2mjz-a1-m1-ce 2mjz-a1-m1-ca_2mjz-a1-m1-cf 2mjz-a1-m1-cA_2mjz-a1-m1-cF 2mjz-a1-m1-cB_2mjz-a1-m1-cf 2mjz-a1-m1-cb_2mjz-a1-m1-cg 2mjz-a1-m1-cB_2mjz-a1-m1-cG 2mjz-a1-m1-cC_2mjz-a1-m1-cg 2mjz-a1-m1-cc_2mjz-a1-m1-ch 2mjz-a1-m1-cC_2mjz-a1-m1-cH 2mjz-a1-m1-cD_2mjz-a1-m1-ch 2mjz-a1-m1-cd_2mjz-a1-m1-ci 2mjz-a1-m1-cD_2mjz-a1-m1-cI 2mjz-a1-m1-cE_2mjz-a1-m1-ci 2mjz-a1-m1-cJ_2mjz-a1-m1-cO 2mjz-a1-m1-cK_2mjz-a1-m1-cP 2mjz-a1-m1-cL_2mjz-a1-m1-cQ 2mjz-a1-m1-cM_2mjz-a1-m1-cR 2mjz-a1-m1-cN_2mjz-a1-m1-cS 2mjz-a1-m1-cO_2mjz-a1-m1-cT 2mjz-a1-m1-cP_2mjz-a1-m1-cU 2mjz-a1-m1-cQ_2mjz-a1-m1-cV 2mjz-a1-m1-cR_2mjz-a1-m1-cW 2mjz-a1-m1-cS_2mjz-a1-m1-cX 2mjz-a1-m1-cT_2mjz-a1-m1-cY 2mjz-a1-m1-cU_2mjz-a1-m1-cZ 2mjz-a1-m1-cV_2mjz-a1-m1-ca 2mjz-a1-m1-cW_2mjz-a1-m1-cb 2mjz-a1-m1-cX_2mjz-a1-m1-cc 2mjz-a1-m1-cY_2mjz-a1-m1-cd 2mjz-a1-m1-cZ_2mjz-a1-m1-ce AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS 1ifj-a1-m4-cA_1ifj-a1-m9-cA MOLECULAR MODELS AND STRUCTURAL COMPARISONS OF NATIVE AND MUTANT CLASS I FILAMENTOUS BACTERIOPHAGES FF (FD, F1, M13), IF1 AND IKE P69539 P69539 3.3 FIBER DIFFRACTION 10 1.0 10864 (Enterobacteria phage fd) 10864 (Enterobacteria phage fd) 50 50 1ifj-a1-m10-cA_1ifj-a1-m15-cA 1ifj-a1-m10-cA_1ifj-a1-m5-cA 1ifj-a1-m11-cA_1ifj-a1-m16-cA 1ifj-a1-m11-cA_1ifj-a1-m6-cA 1ifj-a1-m12-cA_1ifj-a1-m17-cA 1ifj-a1-m12-cA_1ifj-a1-m7-cA 1ifj-a1-m13-cA_1ifj-a1-m18-cA 1ifj-a1-m13-cA_1ifj-a1-m8-cA 1ifj-a1-m14-cA_1ifj-a1-m19-cA 1ifj-a1-m14-cA_1ifj-a1-m9-cA 1ifj-a1-m15-cA_1ifj-a1-m20-cA 1ifj-a1-m16-cA_1ifj-a1-m21-cA 1ifj-a1-m17-cA_1ifj-a1-m22-cA 1ifj-a1-m18-cA_1ifj-a1-m23-cA 1ifj-a1-m19-cA_1ifj-a1-m24-cA 1ifj-a1-m1-cA_1ifj-a1-m21-cA 1ifj-a1-m1-cA_1ifj-a1-m31-cA 1ifj-a1-m20-cA_1ifj-a1-m25-cA 1ifj-a1-m22-cA_1ifj-a1-m27-cA 1ifj-a1-m23-cA_1ifj-a1-m28-cA 1ifj-a1-m24-cA_1ifj-a1-m29-cA 1ifj-a1-m25-cA_1ifj-a1-m30-cA 1ifj-a1-m27-cA_1ifj-a1-m32-cA 1ifj-a1-m28-cA_1ifj-a1-m33-cA 1ifj-a1-m29-cA_1ifj-a1-m34-cA 1ifj-a1-m2-cA_1ifj-a1-m7-cA 1ifj-a1-m30-cA_1ifj-a1-m35-cA 1ifj-a1-m31-cA_1ifj-a1-m36-cA 1ifj-a1-m32-cA_1ifj-a1-m37-cA 1ifj-a1-m33-cA_1ifj-a1-m38-cA 1ifj-a1-m34-cA_1ifj-a1-m39-cA 1ifj-a1-m35-cA_1ifj-a1-m40-cA 1ifj-a1-m36-cA_1ifj-a1-m41-cA 1ifj-a1-m37-cA_1ifj-a1-m42-cA 1ifj-a1-m38-cA_1ifj-a1-m43-cA 1ifj-a1-m39-cA_1ifj-a1-m44-cA 1ifj-a1-m3-cA_1ifj-a1-m8-cA 1ifj-a1-m40-cA_1ifj-a1-m45-cA 1ifj-a1-m41-cA_1ifj-a1-m46-cA 1ifj-a1-m42-cA_1ifj-a1-m47-cA 1ifj-a1-m43-cA_1ifj-a1-m48-cA 1ifj-a1-m44-cA_1ifj-a1-m49-cA 1ifj-a1-m45-cA_1ifj-a1-m50-cA 1ifj-a1-m46-cA_1ifj-a1-m51-cA 1ifj-a1-m47-cA_1ifj-a1-m52-cA 1ifj-a1-m48-cA_1ifj-a1-m53-cA 1ifj-a1-m49-cA_1ifj-a1-m54-cA 1ifj-a1-m50-cA_1ifj-a1-m55-cA 8b3o-a1-m1-ceee_8b3o-a1-m1-cjjj 8b3o-a1-m1-cfff_8b3o-a1-m1-ckkk 8b3o-a1-m1-cggg_8b3o-a1-m1-clll 8b3o-a1-m1-chhh_8b3o-a1-m1-cmmm 8b3o-a1-m1-ciii_8b3o-a1-m1-cnnn AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS AEGDDPAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTSKAS 1ifn-a1-m20-cA_1ifn-a1-m9-cA TWO FORMS OF PF1 INOVIRUS: X-RAY DIFFRACTION STUDIES ON A STRUCTURAL PHASE TRANSITION AND A CALCULATED LIBRATION NORMAL MODE OF THE ASYMMETRIC UNIT P03621 P03621 4 FIBER DIFFRACTION 17 1.0 46 46 1ifn-a1-m10-cA_1ifn-a1-m21-cA 1ifn-a1-m11-cA_1ifn-a1-m22-cA 1ifn-a1-m12-cA_1ifn-a1-m23-cA 1ifn-a1-m13-cA_1ifn-a1-m24-cA 1ifn-a1-m13-cA_1ifn-a1-m2-cA 1ifn-a1-m14-cA_1ifn-a1-m25-cA 1ifn-a1-m14-cA_1ifn-a1-m3-cA 1ifn-a1-m15-cA_1ifn-a1-m26-cA 1ifn-a1-m15-cA_1ifn-a1-m4-cA 1ifn-a1-m16-cA_1ifn-a1-m27-cA 1ifn-a1-m16-cA_1ifn-a1-m5-cA 1ifn-a1-m17-cA_1ifn-a1-m28-cA 1ifn-a1-m17-cA_1ifn-a1-m6-cA 1ifn-a1-m19-cA_1ifn-a1-m30-cA 1ifn-a1-m19-cA_1ifn-a1-m8-cA 1ifn-a1-m1-cA_1ifn-a1-m29-cA 1ifn-a1-m1-cA_1ifn-a1-m7-cA 1ifn-a1-m20-cA_1ifn-a1-m31-cA 1ifn-a1-m21-cA_1ifn-a1-m32-cA 1ifn-a1-m22-cA_1ifn-a1-m33-cA 1ifn-a1-m23-cA_1ifn-a1-m34-cA 1ifn-a1-m24-cA_1ifn-a1-m35-cA 1ql2-a1-m10-cA_1ql2-a1-m13-cC 1ql2-a1-m10-cA_1ql2-a1-m6-cB 1ql2-a1-m11-cC_1ql2-a1-m8-cA 1ql2-a1-m12-cA_1ql2-a1-m8-cB 1ql2-a1-m12-cC_1ql2-a1-m9-cA 1ql2-a1-m13-cA_1ql2-a1-m9-cB 1ql2-a1-m1-cA_1ql2-a1-m4-cC 1ql2-a1-m1-cB_1ql2-a1-m11-cA 1ql2-a1-m2-cA_1ql2-a1-m5-cC 1ql2-a1-m2-cB_1ql2-a1-m6-cA 1ql2-a1-m3-cA_1ql2-a1-m6-cC 1ql2-a1-m4-cB_1ql2-a1-m8-cA 1ql2-a1-m5-cA_1ql2-a1-m8-cC 1ql2-a1-m5-cB_1ql2-a1-m9-cA 1ql2-a1-m6-cA_1ql2-a1-m9-cC GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 1ifv-a1-m1-cA_1ifv-a1-m1-cB CRYSTAL STRUCTURE OF PATHOGENESIS-RELATED PROTEIN LLPR10.1B FROM YELLOW LUPINE P52779 P52779 2.25 X-RAY DIFFRACTION 45 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 155 155 GVFAFEDEHPSAVAQAKLFKALTKDSDDIIPKVIEQIQSVEIVEGNGGPGTVKKITASHGGHTSYVLHKIDAIDEASFEYNYSIVGGTGLDESLEKITFESKLLSGPDGGSIGKIKVKFHTKGDVLSDAVREEAKARGTGLFKAVEGYVLANPNY GVFAFEDEHPSAVAQAKLFKALTKDSDDIIPKVIEQIQSVEIVEGNGGPGTVKKITASHGGHTSYVLHKIDAIDEASFEYNYSIVGGTGLDESLEKITFESKLLSGPDGGSIGKIKVKFHTKGDVLSDAVREEAKARGTGLFKAVEGYVLANPNY 1ig0-a1-m1-cA_1ig0-a1-m1-cB Crystal Structure of yeast Thiamin Pyrophosphokinase P35202 P35202 1.8 X-RAY DIFFRACTION 143 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 317 319 EECIENPERIKIGTDLINIRNKMNLKELIHPNEDENSTLLILNQKIDIPRPLFYKIWKLHDLKVCADGAANRLYDYLDDDETLRIKYLPNYIIGDLDSLSEKVYKYYRKNKVTIIKQTTQYSTDFTKCVNLISLHFNSPEFRSLISNKDNLQSNHGIELEKGIHTLYNTMTESLVFSKVTPISLLALGGIGGRFDQTVHSITQLYTLSENASYFKLCYMTPTDLIFLIKKNGTLIEYDPQFRNTCIGNCGLLPIGEATLVKETRGLKWDVKNWPTSVVTGRVSSSNRFVGDNCCFIDTKDDIILNVEIFVDKLIDFL MSEECIENPERIKIGTDLINIRNKMNLKELIHPNEDENSTLLILNQKIDIPRPLFYKIWKLHDLKVCADGAANRLYDYLDDDETLRIKYLPNYIIGDLDSLSEKVYKYYRKNKVTIIKQTTQYSTDFTKCVNLISLHFNSPEFRSLISNKDNLQSNHGIELEKGIHTLYNTMTESLVFSKVTPISLLALGGIGGRFDQTVHSITQLYTLSENASYFKLCYMTPTDLIFLIKKNGTLIEYDPQFRNTCIGNCGLLPIGEATLVKETRGLKWDVKNWPTSVVTGRVSSSNRFVGDNCCFIDTKDDIILNVEIFVDKLIDFL 1ig3-a2-m4-cB_1ig3-a2-m1-cA Mouse Thiamin Pyrophosphokinase Complexed with Thiamin Q9R0M5 Q9R0M5 1.9 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 243 254 1ig3-a2-m3-cB_1ig3-a2-m2-cA MEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS HSSGLVPRGSHMEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS 1ig3-a2-m4-cB_1ig3-a2-m2-cA Mouse Thiamin Pyrophosphokinase Complexed with Thiamin Q9R0M5 Q9R0M5 1.9 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 243 254 1ig3-a2-m3-cB_1ig3-a2-m1-cA MEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS HSSGLVPRGSHMEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS 1ig3-a3-m1-cA_1ig3-a3-m2-cA Mouse Thiamin Pyrophosphokinase Complexed with Thiamin Q9R0M5 Q9R0M5 1.9 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 254 254 1ig3-a2-m1-cA_1ig3-a2-m2-cA 2f17-a2-m1-cA_2f17-a2-m2-cA HSSGLVPRGSHMEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS HSSGLVPRGSHMEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS 1ig3-a3-m2-cB_1ig3-a3-m2-cA Mouse Thiamin Pyrophosphokinase Complexed with Thiamin Q9R0M5 Q9R0M5 1.9 X-RAY DIFFRACTION 111 1.0 10090 (Mus musculus) 10090 (Mus musculus) 243 254 1ig3-a1-m1-cB_1ig3-a1-m1-cA 1ig3-a3-m1-cB_1ig3-a3-m1-cA 2f17-a1-m1-cB_2f17-a1-m1-cA 2f17-a2-m1-cB_2f17-a2-m1-cA 2f17-a2-m2-cB_2f17-a2-m2-cA MEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS HSSGLVPRGSHMEHAFTPLEPLLPTGNLKYCLVVLNQPLDARFRHLWKKALLRACADGGANHLYDLTEGERESFLPEFVSGDFDSIRPEVKEYYTKKGCDLISTPDQDHTDFTKCLQVLQRKIEEKELQVDVIVTLGGLGGRFDQIMASVNTLFQATHITPVPIIIIQKDSLIYLLQPGKHRLHVDTGMEGSWCGLIPVGQPCNQVTTTGLKWNLTNDVLGFGTLVSTSNTYDGSGLVTVETDHPLLWTMAIKS 1igf-a1-m1-cM_1igf-a1-m1-cL CRYSTAL STRUCTURES OF AN ANTIBODY TO A PEPTIDE AND ITS COMPLEX WITH PEPTIDE ANTIGEN AT 2.8 ANGSTROMS 2.8 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 DVLMTQTPLSLPVSLGDQASISCRSNQTILLSDGDTYLEWYLQKPGQSPKLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGVYYCFQGSHVPPTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DVLMTQTPLSLPVSLGDQASISCRSNQTILLSDGDTYLEWYLQKPGQSPKLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGVYYCFQGSHVPPTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 1igq-a2-m1-cB_1igq-a2-m1-cD C-terminal Domain of Transcriptional Repressor Protein KorB P07674 P07674 1.7 X-RAY DIFFRACTION 73 1.0 562 (Escherichia coli) 562 (Escherichia coli) 57 59 1igq-a1-m1-cA_1igq-a1-m1-cC 1igu-a1-m1-cA_1igu-a1-m1-cB DKLKKAIVQVEHDERPARLILNRRPPAEGYAWLKYEDDGQEFEANLADVKLVALIEG DPDKLKKAIVQVEHDERPARLILNRRPPAEGYAWLKYEDDGQEFEANLADVKLVALIEG 1igt-a1-m1-cD_1igt-a1-m1-cB STRUCTURE OF IMMUNOGLOBULIN P01863 P01863 2.8 X-RAY DIFFRACTION 81 1.0 10090 (Mus musculus) 10090 (Mus musculus) 444 444 3zo0-a1-m1-cA_3zo0-a1-m2-cA 5vaa-a1-m1-cB_5vaa-a1-m1-cA EVKLQESGGGLVQPGGSLKLSCATSGFTFSDYYMYWVRQTPEKRLEWVAYISNGGGSTYYPDTVKGRFTISRDNAKNTLYLQMSRLKSEDTAMYYCARHGGYYAMDYWGQGTTVTVSSAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPRGPTIKPCPPCKCPAPNLLGGPSVFIFPPKIKDVLMISLSPIVTCVVVDVSEDDPDVQISWFVNNVEVHTAQTQTHREDYNSTLRVVSALPIQHQDWMSGKEFKCKVNNKDLPAPIERTISKPKGSVRAPQVYVLPPPEEEMTKKQVTLTCMVTDFMPEDIYVEWTNNGKTELNYKNTEPVLDSDGSYFMYSKLRVEKKNWVERNSYSCSVVHEGLHNHHTTKSFSR EVKLQESGGGLVQPGGSLKLSCATSGFTFSDYYMYWVRQTPEKRLEWVAYISNGGGSTYYPDTVKGRFTISRDNAKNTLYLQMSRLKSEDTAMYYCARHGGYYAMDYWGQGTTVTVSSAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPRGPTIKPCPPCKCPAPNLLGGPSVFIFPPKIKDVLMISLSPIVTCVVVDVSEDDPDVQISWFVNNVEVHTAQTQTHREDYNSTLRVVSALPIQHQDWMSGKEFKCKVNNKDLPAPIERTISKPKGSVRAPQVYVLPPPEEEMTKKQVTLTCMVTDFMPEDIYVEWTNNGKTELNYKNTEPVLDSDGSYFMYSKLRVEKKNWVERNSYSCSVVHEGLHNHHTTKSFSR 1igw-a1-m1-cA_1igw-a1-m1-cD Crystal Structure of the Isocitrate Lyase from the A219C mutant of Escherichia coli P0A9G6 P0A9G6 2.1 X-RAY DIFFRACTION 280 0.992 562 (Escherichia coli) 562 (Escherichia coli) 396 405 1igw-a1-m1-cB_1igw-a1-m1-cC KTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVKKCGKVLVPTQEAIQKLVAARLCADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQG KTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVGKVLVPTQEAIQKLVAARLCADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQG 1igw-a1-m1-cD_1igw-a1-m1-cB Crystal Structure of the Isocitrate Lyase from the A219C mutant of Escherichia coli P0A9G6 P0A9G6 2.1 X-RAY DIFFRACTION 115 1.0 562 (Escherichia coli) 562 (Escherichia coli) 405 411 1igw-a1-m1-cA_1igw-a1-m1-cC KTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVGKVLVPTQEAIQKLVAARLCADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQG KTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVKKGKVLVPTQEAIQKLVAARLCADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWQKNLDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQG 1igw-a1-m1-cD_1igw-a1-m1-cC Crystal Structure of the Isocitrate Lyase from the A219C mutant of Escherichia coli P0A9G6 P0A9G6 2.1 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 405 416 1igw-a1-m1-cA_1igw-a1-m1-cB KTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVGKVLVPTQEAIQKLVAARLCADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQG KTRTQQIEELQKEWTQPRWEGITRPYSAEDVVKLRGSVNPECTLAQLGAAKMWRLLHGESKKGYINSLGALTGGQALQQAKAGIEAVYLSGWQVAADANLAASMYPDQSLYPANSVPAVVERINNTFRRADQIQWSAGIEPGDPRYVDYFLPIVADAEAGFGGVLNAFELMKAMIEAGAAAVHFEDQLASVKKCGHMGGKVLVPTQEAIQKLVAARLCADVTGVPTLLVARTDADAADLITSDCDPYDSEFITGERTSEGFFRTHAGIEQAISRGLAYAPYADLVWCETSTPDLELARRFAQAIHAKYPGKLLAYNCSPSFNWQKNLDDKTIASFQQQLSDMGYKFQFITLAGIHSMWFNMFDLANAYAQGEGMKHYVEKVQQPEFAAAKDGYTFVSHQQEVGTGYFDKVTTIIQG 1igy-a1-m1-cD_1igy-a1-m1-cB STRUCTURE OF IMMUNOGLOBULIN P01869 P01869 3.2 X-RAY DIFFRACTION 85 1.0 10090 (Mus musculus) 10090 (Mus musculus) 434 434 VKLQESGAELARPGASVKMSCKASGYTFTTYTIHWIKQRPGQGLEWIGYINPSSVYTNYNQRFKDKATLTRDRSSNTANIHLSSLTSDDSAVYYCVREGEVPYWGQGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPRDCGCKPCICTVPEVSSVFIFPPKPKDTLLITVTPKVTCVVVDISKDDPEVQFSWFVDNVEVHTAQTQPREEQFNSTFRVVSALPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGKPRAPQVYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQSDGQAPENYKNTQPIMDTDGSYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLSH VKLQESGAELARPGASVKMSCKASGYTFTTYTIHWIKQRPGQGLEWIGYINPSSVYTNYNQRFKDKATLTRDRSSNTANIHLSSLTSDDSAVYYCVREGEVPYWGQGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPRDCGCKPCICTVPEVSSVFIFPPKPKDTLLITVTPKVTCVVVDISKDDPEVQFSWFVDNVEVHTAQTQPREEQFNSTFRVVSALPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGKPRAPQVYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQSDGQAPENYKNTQPIMDTDGSYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLSH 1ihb-a1-m1-cA_1ihb-a1-m1-cB CRYSTAL STRUCTURE OF P18-INK4C(INK6) P42773 P42773 1.95 X-RAY DIFFRACTION 11 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 WGNELASAAARGDLEQLTSLLQNNVNVNAQNGFGRTALQVMKLGNPEIARRLLLRGANPDLKDRTGFAVIHDAARAGFLDTLQTLLEFQADVNIEDNEGNLPLHLAAKEGHLRVVEFLVKHTASNVGHRNHKGDTACDLARLYGRNEVVSLMQANG NELASAAARGDLEQLTSLLQNNVNVNAQNGFGRTALQVMKLGNPEIARRLLLRGANPDLKDRTGFAVIHDAARAGFLDTLQTLLEFQADVNIEDNEGNLPLHLAAKEGHLRVVEFLVKHTASNVGHRNHKGDTACDLARLYGRNEVVSLMQANGAG 1ihr-a1-m1-cA_1ihr-a1-m1-cB Crystal structure of the dimeric C-terminal domain of TonB P02929 P02929 1.55 X-RAY DIFFRACTION 230 1.0 562 (Escherichia coli) 562 (Escherichia coli) 73 74 1qxx-a1-m1-cA_1qxx-a1-m2-cA ARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTE ARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTEI 1ii2-a1-m1-cB_1ii2-a1-m1-cA Crystal Structure of Phosphoenolpyruvate Carboxykinase (PEPCK) from Trypanosoma cruzi P51058 P51058 2 X-RAY DIFFRACTION 49 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 514 522 PPTIHRNLLSPELVQWALKIEKDSRLTARGALAVMSYAKTGRSPLDKRIVDTDDVRENVDWGKVNMKLSEESFARVRKIAKEFLDTREHLFVVDCFAGHDERYRLKVRVFTTRPYHALFMRDMLIVPTPEELATFGEPDYVIYNAGECKADPSIPGLTSTTCVALNFKTREQVILGTEYAGEMKKGILTVMFELMPQMNHLCMHASANVGKQGDVTVFFGLSGTGKTTLSADPHRNLIGDDEHVWTDRGVFNIEGGCYAKAIGLNPKTEKDIYDAVRFGAVAENCVLDKRTGEIDFYDESICKNTRVAYPLSHIEGALSKAIAGHPKNVIFLTNDAFGVMPPVARLTSAQAMFWFVMGYTANVPTARPIFSSCFGGPFLVRHATFYGEQLAEKMQKHNSRVWLLNTGYAGGRADRGAKRMPLRVTRAIIDAIHDGTLDRTEYEEYPGWGLHIPKYVAKVPEHLLNPRKAWKDVRQFNETSKELVAMFQESFSARFAAKASQEMKSAVPRYVEFA PPTIHRNLLSPELVQWALKIEKDSRLTARGALAVMSYAKTGRSPLDKRIVDTDDVRENVDWGKVNMKLSEESFARVRKIAKEFLDTREHLFVVDCFAGHDERYRLKVRVFTTRPYHALFMRDMLIVPTPEELATFGEPDYVIYNAGECKADPSIPGLTSTTCVALNFKTREQVILGTEYAGEMKKGILTVMFELMPQMNHLCMHASANVGKQGDVTVFFGLSGTGKTTLSADPHRNLIGDDEHVWTDRGVFNIEGGCYAKAIGLNPKTEKDIYDAVRFGAVAENCVLDKRTGEIDFYDESICKNTRVAYPLSHIEGALSKAIAGHPKNVIFLTNDAFGVMPPVARLTSAQAMFWFVMGYTANVPGVEAGGTRTARPIFSSCFGGPFLVRHATFYGEQLAEKMQKHNSRVWLLNTGYAGGRADRGAKRMPLRVTRAIIDAIHDGTLDRTEYEEYPGWGLHIPKYVAKVPEHLLNPRKAWKDVRQFNETSKELVAMFQESFSARFAAKASQEMKSAVPRYVEFA 1ii5-a1-m1-cA_1ii5-a1-m2-cA CRYSTAL STRUCTURE OF THE GLUR0 LIGAND BINDING CORE COMPLEX WITH L-GLUTAMATE P73797 P73797 1.6 X-RAY DIFFRACTION 54 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 221 221 1iit-a1-m1-cA_1iit-a1-m2-cA 1iiw-a1-m1-cA_1iiw-a1-m2-cA GSAMALKVGVVGNPPFVFYGAFTGISLDVWRAVAESQKWNSEYVRQNSISAGITAVAEGELDILIGPISVTPERAAIEGITFTQPYFSSGIGLLIPGTATPLFRSVGDLKNKEVAVVRDTTAVDWANFYQADVRETNNLTAAITLLQKKQVEAVMFDRPALIYYTRQNPNLNLEVTEIRVSLEPYGFVLKENSPLQKTINVEMLNLLYSRVIAEFTERWLG GSAMALKVGVVGNPPFVFYGAFTGISLDVWRAVAESQKWNSEYVRQNSISAGITAVAEGELDILIGPISVTPERAAIEGITFTQPYFSSGIGLLIPGTATPLFRSVGDLKNKEVAVVRDTTAVDWANFYQADVRETNNLTAAITLLQKKQVEAVMFDRPALIYYTRQNPNLNLEVTEIRVSLEPYGFVLKENSPLQKTINVEMLNLLYSRVIAEFTERWLG 1ii7-a1-m1-cB_1ii7-a1-m1-cA Crystal structure of P. furiosus Mre11 with manganese and dAMP Q8U1N9 Q8U1N9 2.2 X-RAY DIFFRACTION 47 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 332 333 3dsc-a1-m1-cA_3dsc-a1-m2-cA 3dsd-a1-m1-cA_3dsd-a1-m1-cB 4hd0-a1-m1-cB_4hd0-a1-m1-cA MKFAHLADIHLGYEQFHKPQREEEFAEAFKNALEIAVQENVDFILIAGDLFHSSRPSPGTLKKAIALLQIPKEHSIPVFAIEGNHDRTQRGPSVLNLLEDFGLVYVIGMRKEKVENEYLTSERLGNGEYLVKGVYKDLEIHGMKYMSSAWFEANKEILKRLFRPTDNAILMLHQGVREVSEARGEDYFEIGLGDLPEGYLYYALGHIHKRYETSYSGSPVVYPGSLERWDFGDYEVRYEWDGIKFKERYGVNKGFYIVEDFKPRFVEIKVRPFIDVKIKGSEEEIRKAIKRLIPLIPKNAYVRLNIGWRKPFDLTEIKELLNVEYLKIDTWR MKFAHLADIHLGYEQFHKPQREEEFAEAFKNALEIAVQENVDFILIAGDLFHSSRPSPGTLKKAIALLQIPKEHSIPVFAIEGNHDRTQRGPSVLNLLEDFGLVYVIGMRKEKVENEYLTSERLGNGEYLVKGVYKDLEIHGMKYMSSAWFEANKEILKRLFRPTDNAILMLHQGVREVSEARGEDYFEIGLGDLPEGYLYYALGHIHKRYETSYSGSPVVYPGSLERWDFGDYEVRYEWDGIKFKERYGVNKGFYIVEDFKPRFVEIKVRPFIDVKIKGSEEEIRKAIKRLIPLIPKNAYVRLNIGWRKPFDLTEIKELLNVEYLKIDTWRI 1ii8-a2-m1-cA_1ii8-a2-m2-cA Crystal structure of the P. furiosus Rad50 ATPase domain P58301 P58301 3.02 X-RAY DIFFRACTION 42 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 195 195 MKLERVTVKNFRSHSDTVVEFKEGINLIIGQNGSGKSSLLDAILVGLYWPLRIKDIKKDEFTKVGARDTYIDLIFEKDGTKYRITRRFLKGYSSGEIHAMKRLVGNEWKHVTEPSSKAISAFMEKLIPYNIFLNAIYIRQGQIDAILESDEAREKVVREVLNLDKFETAYKKLSELKKTINNRIKEYRDILARTE MKLERVTVKNFRSHSDTVVEFKEGINLIIGQNGSGKSSLLDAILVGLYWPLRIKDIKKDEFTKVGARDTYIDLIFEKDGTKYRITRRFLKGYSSGEIHAMKRLVGNEWKHVTEPSSKAISAFMEKLIPYNIFLNAIYIRQGQIDAILESDEAREKVVREVLNLDKFETAYKKLSELKKTINNRIKEYRDILARTE 1ii8-a2-m1-cB_1ii8-a2-m2-cB Crystal structure of the P. furiosus Rad50 ATPase domain P58301 P58301 3.02 X-RAY DIFFRACTION 25 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 174 174 RERVKKEIKDLEKAKDFTEELIEKVKKYKALAREAALSKIGELASEIFAEFTEGKYSEVVVRAEENKVRLFVVWEGKERPLTFLSGGERIALGLAFRLAMSLYLAGEISLLILDEPTPYLDEERRRKLITIMERYLKKIPQVILVSHDEELKDAADHVIRISLENGSSKVEVVS RERVKKEIKDLEKAKDFTEELIEKVKKYKALAREAALSKIGELASEIFAEFTEGKYSEVVVRAEENKVRLFVVWEGKERPLTFLSGGERIALGLAFRLAMSLYLAGEISLLILDEPTPYLDEERRRKLITIMERYLKKIPQVILVSHDEELKDAADHVIRISLENGSSKVEVVS 1iie-a1-m1-cB_1iie-a1-m1-cC HLA-DR ANTIGENS ASSOCIATED INVARIANT CHAIN P04233 P04233 NOT SOLUTION NMR 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 1iie-a1-m1-cA_1iie-a1-m1-cB 1iie-a1-m1-cA_1iie-a1-m1-cC YGNMTEDHVMHLLQNADPLKVYPPLKGSFPENLRHLKNTMETIDWKVFESWMHHWLLFEMSRHSLEQKPTDAPPK YGNMTEDHVMHLLQNADPLKVYPPLKGSFPENLRHLKNTMETIDWKVFESWMHHWLLFEMSRHSLEQKPTDAPPK 1iip-a2-m2-cA_1iip-a2-m4-cA Bovine Cyclophilin 40, Tetragonal Form P26882 P26882 2 X-RAY DIFFRACTION 29 1.0 9913 (Bos taurus) 9913 (Bos taurus) 297 297 1iip-a2-m1-cA_1iip-a2-m3-cA SHPSPQAKPSNPSNPRVFFDVDIGGERVGRIVLELFADIVPKTAENFRALCTGEKGIGPTTGKPLHFKGCPFHRIIKKFMIQGGDFSNQNGTGGESIYGEKFEDENFHYKHDKEGLLSMANAGSNTNGSQFFITTVPTPHLDGKHVVFGQVIKGMGVAKILENVEVKGEKPAKLCVIAECGELKEGDDWGIFPKDGSGDSHPDFPEDADVDLKDVDKILLISEDLKNIGNTFFKSQNWEMAIKKYTKVLRYVEGSRAAAEDADGAKLQPVALSCVLNIGACKLKMSDWQGAVDSCLE SHPSPQAKPSNPSNPRVFFDVDIGGERVGRIVLELFADIVPKTAENFRALCTGEKGIGPTTGKPLHFKGCPFHRIIKKFMIQGGDFSNQNGTGGESIYGEKFEDENFHYKHDKEGLLSMANAGSNTNGSQFFITTVPTPHLDGKHVVFGQVIKGMGVAKILENVEVKGEKPAKLCVIAECGELKEGDDWGIFPKDGSGDSHPDFPEDADVDLKDVDKILLISEDLKNIGNTFFKSQNWEMAIKKYTKVLRYVEGSRAAAEDADGAKLQPVALSCVLNIGACKLKMSDWQGAVDSCLE 1iip-a2-m3-cA_1iip-a2-m4-cA Bovine Cyclophilin 40, Tetragonal Form P26882 P26882 2 X-RAY DIFFRACTION 22 1.0 9913 (Bos taurus) 9913 (Bos taurus) 297 297 1iip-a2-m1-cA_1iip-a2-m2-cA SHPSPQAKPSNPSNPRVFFDVDIGGERVGRIVLELFADIVPKTAENFRALCTGEKGIGPTTGKPLHFKGCPFHRIIKKFMIQGGDFSNQNGTGGESIYGEKFEDENFHYKHDKEGLLSMANAGSNTNGSQFFITTVPTPHLDGKHVVFGQVIKGMGVAKILENVEVKGEKPAKLCVIAECGELKEGDDWGIFPKDGSGDSHPDFPEDADVDLKDVDKILLISEDLKNIGNTFFKSQNWEMAIKKYTKVLRYVEGSRAAAEDADGAKLQPVALSCVLNIGACKLKMSDWQGAVDSCLE SHPSPQAKPSNPSNPRVFFDVDIGGERVGRIVLELFADIVPKTAENFRALCTGEKGIGPTTGKPLHFKGCPFHRIIKKFMIQGGDFSNQNGTGGESIYGEKFEDENFHYKHDKEGLLSMANAGSNTNGSQFFITTVPTPHLDGKHVVFGQVIKGMGVAKILENVEVKGEKPAKLCVIAECGELKEGDDWGIFPKDGSGDSHPDFPEDADVDLKDVDKILLISEDLKNIGNTFFKSQNWEMAIKKYTKVLRYVEGSRAAAEDADGAKLQPVALSCVLNIGACKLKMSDWQGAVDSCLE 1iip-a3-m1-cA_1iip-a3-m4-cA Bovine Cyclophilin 40, Tetragonal Form P26882 P26882 2 X-RAY DIFFRACTION 129 1.0 9913 (Bos taurus) 9913 (Bos taurus) 297 297 1iip-a2-m1-cA_1iip-a2-m4-cA 1iip-a2-m2-cA_1iip-a2-m3-cA SHPSPQAKPSNPSNPRVFFDVDIGGERVGRIVLELFADIVPKTAENFRALCTGEKGIGPTTGKPLHFKGCPFHRIIKKFMIQGGDFSNQNGTGGESIYGEKFEDENFHYKHDKEGLLSMANAGSNTNGSQFFITTVPTPHLDGKHVVFGQVIKGMGVAKILENVEVKGEKPAKLCVIAECGELKEGDDWGIFPKDGSGDSHPDFPEDADVDLKDVDKILLISEDLKNIGNTFFKSQNWEMAIKKYTKVLRYVEGSRAAAEDADGAKLQPVALSCVLNIGACKLKMSDWQGAVDSCLE SHPSPQAKPSNPSNPRVFFDVDIGGERVGRIVLELFADIVPKTAENFRALCTGEKGIGPTTGKPLHFKGCPFHRIIKKFMIQGGDFSNQNGTGGESIYGEKFEDENFHYKHDKEGLLSMANAGSNTNGSQFFITTVPTPHLDGKHVVFGQVIKGMGVAKILENVEVKGEKPAKLCVIAECGELKEGDDWGIFPKDGSGDSHPDFPEDADVDLKDVDKILLISEDLKNIGNTFFKSQNWEMAIKKYTKVLRYVEGSRAAAEDADGAKLQPVALSCVLNIGACKLKMSDWQGAVDSCLE 1ij2-a1-m1-cA_1ij2-a1-m1-cC GCN4-pVTL Coiled-coil Trimer with Threonine at the a(16) position P03069 P03069 1.7 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 30 31 1ij0-a1-m1-cA_1ij0-a1-m1-cB 1ij0-a1-m1-cA_1ij0-a1-m1-cC 1ij0-a1-m1-cB_1ij0-a1-m1-cC 1ij1-a1-m1-cA_1ij1-a1-m1-cB 1ij1-a1-m1-cA_1ij1-a1-m1-cC 1ij1-a1-m1-cB_1ij1-a1-m1-cC 1ij2-a1-m1-cA_1ij2-a1-m1-cB 1ij2-a1-m1-cC_1ij2-a1-m1-cB 1ij3-a1-m1-cB_1ij3-a1-m1-cA 1ij3-a1-m1-cB_1ij3-a1-m1-cC 1ij3-a1-m1-cC_1ij3-a1-m1-cA 1rb4-a1-m1-cA_1rb4-a1-m1-cB 1swi-a1-m1-cB_1swi-a1-m1-cA 1swi-a1-m1-cB_1swi-a1-m1-cC 1swi-a1-m1-cC_1swi-a1-m1-cA 1zim-a1-m1-cA_1zim-a1-m1-cB 1zim-a1-m1-cA_1zim-a1-m1-cC 1zim-a1-m1-cB_1zim-a1-m1-cC 3k7z-a1-m1-cA_3k7z-a1-m1-cB 4dme-a1-m1-cA_4dme-a1-m1-cB 4dme-a1-m1-cA_4dme-a1-m1-cC 4dme-a1-m1-cB_4dme-a1-m1-cC 6xne-a1-m1-cB_6xne-a1-m1-cC 6xnf-a1-m1-cB_6xnf-a1-m1-cC 6xnl-a1-m1-cB_6xnl-a1-m1-cC 6xnm-a1-m1-cA_6xnm-a1-m1-cC RMKQLEDKVEELLSKTYHLENEVARLKKLV RMKQLEDKVEELLSKTYHLENEVARLKKLVG 1iji-a1-m1-cA_1iji-a1-m2-cA Crystal Structure of L-Histidinol Phosphate Aminotransferase with PLP P06986 P06986 2.2 X-RAY DIFFRACTION 237 1.0 562 (Escherichia coli) 562 (Escherichia coli) 354 354 1fg3-a1-m1-cA_1fg3-a1-m2-cA 1fg7-a1-m1-cA_1fg7-a1-m2-cA 1gew-a1-m1-cA_1gew-a1-m2-cA 1gex-a1-m1-cA_1gex-a1-m2-cA 1gey-a1-m1-cA_1gey-a1-m2-cA TVTITDLARENVRNLTPYQSARRLGGNGDVWLNANEYPTAVEFQLTQQTLNRYPECQPKAVIENYAQYAGVKPEQVLVSRGADEGIELLIRAFCEPGKDAILYCPPTYGMYSVSAETIGVECRTVPTLDNWQLDLQGISDKLDGVKVVYVCSPNNPTGQLINPQDFRTLLELTRGKAIVVADEAYIEFCPQASLAGWLAEYPHLAILRTLSKAFALAGLRCGFTLANEEVINLLMKVIAPYPLSTPVADIAAQALSPQGIVAMRERVAQIIAEREYLIAALKEIPCVEQVFDSETNYILARFKASSAVFKSLWDQGIILRDQNKQPSLSGCLRITVGTREESQRVIDALRAEQV TVTITDLARENVRNLTPYQSARRLGGNGDVWLNANEYPTAVEFQLTQQTLNRYPECQPKAVIENYAQYAGVKPEQVLVSRGADEGIELLIRAFCEPGKDAILYCPPTYGMYSVSAETIGVECRTVPTLDNWQLDLQGISDKLDGVKVVYVCSPNNPTGQLINPQDFRTLLELTRGKAIVVADEAYIEFCPQASLAGWLAEYPHLAILRTLSKAFALAGLRCGFTLANEEVINLLMKVIAPYPLSTPVADIAAQALSPQGIVAMRERVAQIIAEREYLIAALKEIPCVEQVFDSETNYILARFKASSAVFKSLWDQGIILRDQNKQPSLSGCLRITVGTREESQRVIDALRAEQV 1ijl-a1-m1-cA_1ijl-a1-m1-cB Crystal structure of acidic phospholipase A2 from deinagkistrodon acutus Q7SID6 Q7SID6 2.6 X-RAY DIFFRACTION 42 1.0 36307 (Deinagkistrodon acutus) 36307 (Deinagkistrodon acutus) 123 123 SLIQFETLIMKVVKKSGMFWYSAYGCYCGWGGHGRPQDATDRCCFVHDCCYGKVTGCDPKMDSYTYSEENGDIVCGGDDPCKREICECDRVAADCFRDNLDTYNSDTYWRYPRQDCEESPEPC SLIQFETLIMKVVKKSGMFWYSAYGCYCGWGGHGRPQDATDRCCFVHDCCYGKVTGCDPKMDSYTYSEENGDIVCGGDDPCKREICECDRVAADCFRDNLDTYNSDTYWRYPRQDCEESPEPC 1ijx-a1-m1-cA_1ijx-a1-m1-cC CRYSTAL STRUCTURE OF THE CYSTEINE-RICH DOMAIN OF SECRETED FRIZZLED-RELATED PROTEIN 3 (SFRP-3;FZB) P97401 P97401 1.9 X-RAY DIFFRACTION 102 1.0 10090 (Mus musculus) 10090 (Mus musculus) 125 125 1ijx-a2-m1-cB_1ijx-a2-m1-cE 1ijx-a3-m1-cD_1ijx-a3-m2-cF AACEPVRIPLCKSLPWEMTKMPNHLHHSTQANAILAMEQFEGLLGTHCSPDLLFFLCAMYAPICTIDFQHEPIKPCKSVCERARQGCEPILIKYRHSWPESLACDELPVYDRGVCISPEAIVTAD AACEPVRIPLCKSLPWEMTKMPNHLHHSTQANAILAMEQFEGLLGTHCSPDLLFFLCAMYAPICTIDFQHEPIKPCKSVCERARQGCEPILIKYRHSWPESLACDELPVYDRGVCISPEAIVTAD 1ijy-a1-m1-cA_1ijy-a1-m1-cB CRYSTAL STRUCTURE OF THE CYSTEINE-RICH DOMAIN OF MOUSE FRIZZLED 8 (MFZ8) Q61091 Q61091 1.35 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 122 122 ELACQEITVPLCKGIGYEYTYMPNQFNHDTQDEAGLEVHQFWPLVEIQCSPDLKFFLCSMYTPICLEDYKKPLPPCRSVCERAKAGCAPLMRQYGFAWPDRMRCDRLPEQGNPDTLCMDYER ELACQEITVPLCKGIGYEYTYMPNQFNHDTQDEAGLEVHQFWPLVEIQCSPDLKFFLCSMYTPICLEDYKKPLPPCRSVCERAKAGCAPLMRQYGFAWPDRMRCDRLPEQGNPDTLCMDYER 1ik6-a1-m2-cA_1ik6-a1-m4-cA 3D structure of the E1beta subunit of pyruvate dehydrogenase from the archeon Pyrobaculum aerophilum Q8ZUR7 Q8ZUR7 2 X-RAY DIFFRACTION 69 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 284 284 1ik6-a1-m1-cA_1ik6-a1-m3-cA VAGVVMMANMAKAINMALHEEMERDERVVVLGELVTEGLYERFGPERVIDTPLNEGGILGFAMGMAMAGLKPVAEIQFVLGADELLNHIAKLRYKAPLVVRTPVGSPEAIFVHTPGLVVVMPSTPYNAKGLLKAAIRGDDPVVFLEPKILYRAPREEVPEGDYVVEIGKARVAREGDDVTLVTYGAVVHKALEAAERVKASVEVVDLQTLNPLDFDTVLKSVSKTGRLIIAHDSPKTGGLGAEVRALVAEKALDRLTAPVIRLAGPDVPTVERIIKAIEYVMRY VAGVVMMANMAKAINMALHEEMERDERVVVLGELVTEGLYERFGPERVIDTPLNEGGILGFAMGMAMAGLKPVAEIQFVLGADELLNHIAKLRYKAPLVVRTPVGSPEAIFVHTPGLVVVMPSTPYNAKGLLKAAIRGDDPVVFLEPKILYRAPREEVPEGDYVVEIGKARVAREGDDVTLVTYGAVVHKALEAAERVKASVEVVDLQTLNPLDFDTVLKSVSKTGRLIIAHDSPKTGGLGAEVRALVAEKALDRLTAPVIRLAGPDVPTVERIIKAIEYVMRY 1ik6-a1-m3-cA_1ik6-a1-m4-cA 3D structure of the E1beta subunit of pyruvate dehydrogenase from the archeon Pyrobaculum aerophilum Q8ZUR7 Q8ZUR7 2 X-RAY DIFFRACTION 88 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 284 284 1ik6-a1-m1-cA_1ik6-a1-m2-cA VAGVVMMANMAKAINMALHEEMERDERVVVLGELVTEGLYERFGPERVIDTPLNEGGILGFAMGMAMAGLKPVAEIQFVLGADELLNHIAKLRYKAPLVVRTPVGSPEAIFVHTPGLVVVMPSTPYNAKGLLKAAIRGDDPVVFLEPKILYRAPREEVPEGDYVVEIGKARVAREGDDVTLVTYGAVVHKALEAAERVKASVEVVDLQTLNPLDFDTVLKSVSKTGRLIIAHDSPKTGGLGAEVRALVAEKALDRLTAPVIRLAGPDVPTVERIIKAIEYVMRY VAGVVMMANMAKAINMALHEEMERDERVVVLGELVTEGLYERFGPERVIDTPLNEGGILGFAMGMAMAGLKPVAEIQFVLGADELLNHIAKLRYKAPLVVRTPVGSPEAIFVHTPGLVVVMPSTPYNAKGLLKAAIRGDDPVVFLEPKILYRAPREEVPEGDYVVEIGKARVAREGDDVTLVTYGAVVHKALEAAERVKASVEVVDLQTLNPLDFDTVLKSVSKTGRLIIAHDSPKTGGLGAEVRALVAEKALDRLTAPVIRLAGPDVPTVERIIKAIEYVMRY 1ilr-a1-m1-c2_1ilr-a1-m1-c1 CRYSTAL STRUCTURE OF THE INTERLEUKIN-1 RECEPTOR ANTAGONIST P18510 P18510 2.1 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 145 KMQAFRIWDVNQKTFYLRNNQLVAGYLQGPNVNLEEKIDVVPIEPHALFLGIHGGKMCLSCVKSGDETRLQLEAVNITDLSENRKQDKRFAFIRSDSGPTTSFESAACPGWFLCTAMEADQPVSLTNMPDEGVMVTKFYFQEDE SKMQAFRIWDVNQKTFYLRNNQLVAGYLQGPNVNLEEKIDVVPIEPHALFLGIHGGKMCLSCVKSGDETRLQLEAVNITDLSENRKQDKRFAFIRSDSGPTTSFESAACPGWFLCTAMEADQPVSLTNMPDEGVMVTKFYFQEDE 1im8-a4-m1-cB_1im8-a4-m3-cB Crystal structure of YecO from Haemophilus influenzae (HI0319), a methyltransferase with a bound S-adenosylhomocysteine P43985 P43985 2.2 X-RAY DIFFRACTION 57 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 217 217 1im8-a3-m1-cA_1im8-a3-m2-cA FDENVAEVFPDIQRSVPGYSNIITAIGLAERFVTADSNVYDLGCSRGAATLSARRNINQPNVKIIGIDNSQPVERCRQHIAAYHSEIPVEILCNDIRHVEIKNASVILNFTLQFLPPEDRIALLTKIYEGLNPNGVLVLSEKFRFEDTKINHLLIDLHHQFKRANGYSELEVSQKRTALENVRTDSIETHKVRLKNVGFSQVELWFQCFNFGSIAVK FDENVAEVFPDIQRSVPGYSNIITAIGLAERFVTADSNVYDLGCSRGAATLSARRNINQPNVKIIGIDNSQPVERCRQHIAAYHSEIPVEILCNDIRHVEIKNASVILNFTLQFLPPEDRIALLTKIYEGLNPNGVLVLSEKFRFEDTKINHLLIDLHHQFKRANGYSELEVSQKRTALENVRTDSIETHKVRLKNVGFSQVELWFQCFNFGSIAVK 1imh-a1-m1-cC_1imh-a1-m1-cD TonEBP/DNA COMPLEX O94916 O94916 2.86 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 KKSPMLCGQYPVKSEGKELKIVVQPETQHRARYLTEGSRGSVKDRTQQGFPTVKLEGHNEPVVLQVFVGNDSGRVKPHGFYQACRVTGRNTTPCKEVDIEGTTVIEVGLDPSNNMTLAVDCVGILKLRNADVEARIGIAGSKKKSTRARLVFRVNIMRKDGSTLTLQTPSSPILCTQPAGVPEILKKSLHSCSVKGEEEVFLIGKNFLKGTKVIFQENVSDENSWKSEAEIDMELFHQNHLIVKVPPYHDQHITLPVSVGIYVVTNAGRSHDVQPFTYTPD KKSPMLCGQYPVKSEGKELKIVVQPETQHRARYLTEGSRGSVKDRTQQGFPTVKLEGHNEPVVLQVFVGNDSGRVKPHGFYQACRVTGRNTTPCKEVDIEGTTVIEVGLDPSNNMTLAVDCVGILKLRNADVEARIGIAGSKKKSTRARLVFRVNIMRKDGSTLTLQTPSSPILCTQPAGVPEILKKSLHSCSVKGEEEVFLIGKNFLKGTKVIFQENVSDENSWKSEAEIDMELFHQNHLIVKVPPYHDQHITLPVSVGIYVVTNAGRSHDVQPFTYTPD 1inl-a1-m1-cD_1inl-a1-m1-cA Crystal Structure of Spermidine Synthase from Thermotoga Maritima Q9WZC2 Q9WZC2 1.5 X-RAY DIFFRACTION 129 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 282 285 1inl-a1-m1-cB_1inl-a1-m1-cC 1jq3-a1-m1-cB_1jq3-a1-m1-cC 1jq3-a1-m1-cD_1jq3-a1-m1-cA LKELERELQPRQHLWYFEYYTGNNVGLFMKMNRVIYSGQSDIQRIDIFENPDLGVVFALDGITMTTEKDEFMYHEMLAHVPMFLHPNPKKVLIIGGGDGGTLREVLKHDSVEKAILCEVDGLVIEAARKYLKQTSCGFDDPRAEIVIANGAEYVRKFKNEFDVIIIDSFTEEFYQACYDALKEDGVFSAETEDPFYDIGWFKLAYRRISKVFPITRVYLGFMTTYPSGMWSYTFASKGIDPIKDFDPEKVRKFNKELKYYNEEVHVASFALPNFVKKELGLM RTLKELERELQPRQHLWYFEYYTGNNVGLFMKMNRVIYSGQSDIQRIDIFENPDLGVVFALDGITMTTEKDEFMYHEMLAHVPMFLHPNPKKVLIIGGGDGGTLREVLKHDSVEKAILCEVDGLVIEAARKYLKQTSCGFDDPRAEIVIANGAEYVRKFKNEFDVIIIDSLFTEEFYQACYDALKEDGVFSAETEDPFYDIGWFKLAYRRISKVFPITRVYLGFMTTYPSGMWSYTFASKGIDPIKDFDPEKVRKFNKELKYYNEEVHVASFALPNFVKKELGLM 1inr-a1-m1-cA_1inr-a1-m2-cA CYTOKINE SYNTHESIS P22301 P22301 2 X-RAY DIFFRACTION 241 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 132 1ilk-a1-m1-cA_1ilk-a1-m2-cA 1j7v-a1-m1-cL_1j7v-a1-m2-cL 1vlk-a1-m1-cA_1vlk-a1-m2-cA 1y6k-a1-m1-cL_1y6k-a1-m2-cL 1y6m-a1-m1-cL_1y6m-a1-m2-cL 2h24-a1-m1-cA_2h24-a1-m2-cA 2ilk-a1-m1-cA_2ilk-a1-m2-cA NLPNMLRDLRDAFSRVKTFFNLLLKESLLEDFKGYLGCQALSEMIQFYLEEVMPQAENQDPDIKAHVNSLGENLKTLRLRLRRFLPCENKSKAVEQVKNAFNKLQEKGIYKAMSEFDIFINYIEAYMTMKIR NLPNMLRDLRDAFSRVKTFFNLLLKESLLEDFKGYLGCQALSEMIQFYLEEVMPQAENQDPDIKAHVNSLGENLKTLRLRLRRFLPCENKSKAVEQVKNAFNKLQEKGIYKAMSEFDIFINYIEAYMTMKIR 1io8-a3-m3-cB_1io8-a3-m4-cB Thermophilic cytochrome P450 (CYP119) from sulfolobus solfataricus: High resolution structural origin of its thermostability and functional properties Q55080 Q55080 2 X-RAY DIFFRACTION 43 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 359 359 MYDWFSEMRKKDPVYYDGNIWQVLSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS MYDWFSEMRKKDPVYYDGNIWQVLSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS 1io8-a3-m4-cB_1io8-a3-m1-cA Thermophilic cytochrome P450 (CYP119) from sulfolobus solfataricus: High resolution structural origin of its thermostability and functional properties Q55080 Q55080 2 X-RAY DIFFRACTION 52 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 359 366 1io8-a3-m3-cB_1io8-a3-m2-cA 1io9-a3-m2-cB_1io9-a3-m1-cA MYDWFSEMRKKDPVYYDGNIWQVLSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS MYDWFSEMRKKDPVYYDGNIWQVLSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRLGKPGEIFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS 1iod-a3-m1-cA_1iod-a3-m3-cA CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN THE COAGULATION FACTOR X BINDING PROTEIN FROM SNAKE VENOM AND THE GLA DOMAIN OF FACTOR X Q9IAM1 Q9IAM1 2.3 X-RAY DIFFRACTION 16 1.0 36307 (Deinagkistrodon acutus) 36307 (Deinagkistrodon acutus) 129 129 DCSSGWSSYEGHCYKVFKQSKTWADAESFCTKQVNGGHLVSIESSGEADFVGQLIAQKIKSAKIHVWIGLRAQNKEKQCSIEWSDGSSISYENWIEEESKKCLGVHIETGFHKWENFYCEQQDPFVCEA DCSSGWSSYEGHCYKVFKQSKTWADAESFCTKQVNGGHLVSIESSGEADFVGQLIAQKIKSAKIHVWIGLRAQNKEKQCSIEWSDGSSISYENWIEEESKKCLGVHIETGFHKWENFYCEQQDPFVCEA 1ips-a1-m1-cA_1ips-a1-m1-cB ISOPENICILLIN N SYNTHASE FROM ASPERGILLUS NIDULANS (MANGANESE COMPLEX) P05326 P05326 2.5 X-RAY DIFFRACTION 40 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 328 328 VSKANVPKIDVSPLFGDDQAAKMRVAQQIDAASRDTGFFYAVNHGINVQRLSQKTKEFHMSITPEEKWDLAIRAYNKEHQDQVRAGYYLSIPGKKAVESFCYLNPNFTPDHPRIQAKTPTHEVNVWPDETKHPGFQDFAEQYYWDVFGLSSALLKGYALALGKEENFFARHFKPDDTLASVVLIRYPYLDPYPEAAIKTAADGTKLSFEWHEDVSLITVLYQSNVQNLQVETAAGYQDIEADDTGYLINCGSYMAHLTNNYYKAPIHRVKWVNAERQSLPFFVNLGYDSVIDPFDPREPNGKSDREPLSYGDYLQNGLVSLINKNGQT VSKANVPKIDVSPLFGDDQAAKMRVAQQIDAASRDTGFFYAVNHGINVQRLSQKTKEFHMSITPEEKWDLAIRAYNKEHQDQVRAGYYLSIPGKKAVESFCYLNPNFTPDHPRIQAKTPTHEVNVWPDETKHPGFQDFAEQYYWDVFGLSSALLKGYALALGKEENFFARHFKPDDTLASVVLIRYPYLDPYPEAAIKTAADGTKLSFEWHEDVSLITVLYQSNVQNLQVETAAGYQDIEADDTGYLINCGSYMAHLTNNYYKAPIHRVKWVNAERQSLPFFVNLGYDSVIDPFDPREPNGKSDREPLSYGDYLQNGLVSLINKNGQT 1iq6-a1-m1-cA_1iq6-a1-m1-cB (R)-HYDRATASE FROM A. CAVIAE INVOLVED IN PHA BIOSYNTHESIS O32472 O32472 1.5 X-RAY DIFFRACTION 123 1.0 648 (Aeromonas caviae) 648 (Aeromonas caviae) 132 133 AQSLEVGQKARLSKRFGAAEVAAFAALSEDFNPLHLDPAFAATTAFERPIVHGMLLASLFSGLLGQQLPGKGSIYLGQSLSFKLPVFVGDEVTAEVEVTALREDKPIATLTTRIFTQGGALAVTGEAVVKLP SAQSLEVGQKARLSKRFGAAEVAAFAALSEDFNPLHLDPAFAATTAFERPIVHGMLLASLFSGLLGQQLPGKGSIYLGQSLSFKLPVFVGDEVTAEVEVTALREDKPIATLTTRIFTQGGALAVTGEAVVKLP 1iqc-a2-m1-cB_1iqc-a2-m1-cD Crystal structure of Di-Heme Peroxidase from Nitrosomonas europaea P55929 P55929 1.8 X-RAY DIFFRACTION 94 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 308 308 1iqc-a1-m1-cA_1iqc-a1-m1-cC ANEPIQPIKAVTPENADMAELGKMLFFDPRLSKSGFISCNSCHNLSMGGTDNITTSIGHKWQQGPINAPTVLNSSMNLAQFWDGRAKDLKEQAAGPIANPKEMASTHEIAEKVVASMPQYRERFKKVFGSDEVTIDRITTAIAQFEETLVTPGSKFDKWLEGDKNALNQDELEGYNLFKGSGCVQCHNGPAVGGSSYQKMGVFKPYETKNPAAGRMDVTGNEADRNVFKVPTLRNIELTYPYFHDGGAATLEQAVETMGRIQLNREFNKDEVSKIVAFLKTLTGDQPDFKLPILPPSNNDTPRSQPYE ANEPIQPIKAVTPENADMAELGKMLFFDPRLSKSGFISCNSCHNLSMGGTDNITTSIGHKWQQGPINAPTVLNSSMNLAQFWDGRAKDLKEQAAGPIANPKEMASTHEIAEKVVASMPQYRERFKKVFGSDEVTIDRITTAIAQFEETLVTPGSKFDKWLEGDKNALNQDELEGYNLFKGSGCVQCHNGPAVGGSSYQKMGVFKPYETKNPAAGRMDVTGNEADRNVFKVPTLRNIELTYPYFHDGGAATLEQAVETMGRIQLNREFNKDEVSKIVAFLKTLTGDQPDFKLPILPPSNNDTPRSQPYE 1iqp-a1-m1-cA_1iqp-a1-m1-cF Crystal Structure of the Clamp Loader Small Subunit from Pyrococcus furiosus Q8U4J3 Q8U4J3 2.8 X-RAY DIFFRACTION 18 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 326 326 1iqp-a1-m1-cC_1iqp-a1-m1-cD SEEIREVKVLEKPWVEKYRPQRLDDIVGQEHIVKRLKHYVKTGSMPHLLFAGPPGVGKTTAALALARELFGENWRHNFLELNASDERGINVIREKVKEFARTKPIGGASFKIIFLDEADALTQDAQQALRRTMEMFSSNVRFILSCNYSSKIIEPIQSRCAIFRFRPLRDEDIAKRLRYIAENEGLELTEEGLQAILYIAEGDMRRAINILQAAAALDKKITDENVFMVASRARPEDIREMMLLALKGNFLKAREKLREILLKQGLSGEDVLVQMHKEVFNLPIEEPKKVLLADKIGEYNFRLVEGANEIIQLEALLAQFTLIGKK SEEIREVKVLEKPWVEKYRPQRLDDIVGQEHIVKRLKHYVKTGSMPHLLFAGPPGVGKTTAALALARELFGENWRHNFLELNASDERGINVIREKVKEFARTKPIGGASFKIIFLDEADALTQDAQQALRRTMEMFSSNVRFILSCNYSSKIIEPIQSRCAIFRFRPLRDEDIAKRLRYIAENEGLELTEEGLQAILYIAEGDMRRAINILQAAAALDKKITDENVFMVASRARPEDIREMMLLALKGNFLKAREKLREILLKQGLSGEDVLVQMHKEVFNLPIEEPKKVLLADKIGEYNFRLVEGANEIIQLEALLAQFTLIGKK 1iqp-a1-m1-cC_1iqp-a1-m1-cF Crystal Structure of the Clamp Loader Small Subunit from Pyrococcus furiosus Q8U4J3 Q8U4J3 2.8 X-RAY DIFFRACTION 131 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 319 326 KVLEKPWVEKYRPQRLDDIVGQEHIVKRLKHYVKTGSMPHLLFAGPPGVGKTTAALALARELFGENWRHNFLELNASDERGINVIREKVKEFARTKPIGGASFKIIFLDEADALTQDAQQALRRTMEMFSSNVRFILSCNYSSKIIEPIQSRCAIFRFRPLRDEDIAKRLRYIAENEGLELTEEGLQAILYIAEGDMRRAINILQAAAALDKKITDENVFMVASRARPEDIREMMLLALKGNFLKAREKLREILLKQGLSGEDVLVQMHKEVFNLPIEEPKKVLLADKIGEYNFRLVEGANEIIQLEALLAQFTLIGKK SEEIREVKVLEKPWVEKYRPQRLDDIVGQEHIVKRLKHYVKTGSMPHLLFAGPPGVGKTTAALALARELFGENWRHNFLELNASDERGINVIREKVKEFARTKPIGGASFKIIFLDEADALTQDAQQALRRTMEMFSSNVRFILSCNYSSKIIEPIQSRCAIFRFRPLRDEDIAKRLRYIAENEGLELTEEGLQAILYIAEGDMRRAINILQAAAALDKKITDENVFMVASRARPEDIREMMLLALKGNFLKAREKLREILLKQGLSGEDVLVQMHKEVFNLPIEEPKKVLLADKIGEYNFRLVEGANEIIQLEALLAQFTLIGKK 1iqp-a1-m1-cE_1iqp-a1-m1-cF Crystal Structure of the Clamp Loader Small Subunit from Pyrococcus furiosus Q8U4J3 Q8U4J3 2.8 X-RAY DIFFRACTION 122 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 326 326 1iqp-a1-m1-cA_1iqp-a1-m1-cB 1iqp-a1-m1-cC_1iqp-a1-m1-cB 1iqp-a1-m1-cD_1iqp-a1-m1-cE SEEIREVKVLEKPWVEKYRPQRLDDIVGQEHIVKRLKHYVKTGSMPHLLFAGPPGVGKTTAALALARELFGENWRHNFLELNASDERGINVIREKVKEFARTKPIGGASFKIIFLDEADALTQDAQQALRRTMEMFSSNVRFILSCNYSSKIIEPIQSRCAIFRFRPLRDEDIAKRLRYIAENEGLELTEEGLQAILYIAEGDMRRAINILQAAAALDKKITDENVFMVASRARPEDIREMMLLALKGNFLKAREKLREILLKQGLSGEDVLVQMHKEVFNLPIEEPKKVLLADKIGEYNFRLVEGANEIIQLEALLAQFTLIGKK SEEIREVKVLEKPWVEKYRPQRLDDIVGQEHIVKRLKHYVKTGSMPHLLFAGPPGVGKTTAALALARELFGENWRHNFLELNASDERGINVIREKVKEFARTKPIGGASFKIIFLDEADALTQDAQQALRRTMEMFSSNVRFILSCNYSSKIIEPIQSRCAIFRFRPLRDEDIAKRLRYIAENEGLELTEEGLQAILYIAEGDMRRAINILQAAAALDKKITDENVFMVASRARPEDIREMMLLALKGNFLKAREKLREILLKQGLSGEDVLVQMHKEVFNLPIEEPKKVLLADKIGEYNFRLVEGANEIIQLEALLAQFTLIGKK 1ir3-a1-m1-cA_1ir3-a1-m2-cA PHOSPHORYLATED INSULIN RECEPTOR TYROSINE KINASE IN COMPLEX WITH PEPTIDE SUBSTRATE AND ATP ANALOG P06213 P06213 1.9 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 300 300 1gag-a2-m1-cA_1gag-a2-m2-cA 4xlv-a1-m1-cA_4xlv-a1-m2-cA SSVFVPDEWEVSREKITLLRELGQGSFGMVYEGNARDIIKGEAETRVAVKTVNESASLRERIEFLNEASVMKGFTCHHVVRLLGVVSKGQPTLVVMELMAHGDLKSYLRSLRPEAENNPGRPPPTLQEMIQMAAEIADGMAYLNAKKFVHRDLAARNCMVAHDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMAPESLKDGVFTTSSDMWSFGVVLWEITSLAEQPYQGLSNEQVLKFVMDGGYLDQPDNCPERVTDLMRMCWQFNPKMRPTFLEIVNLLKDDLHPSFPEVSFFHSEENK SSVFVPDEWEVSREKITLLRELGQGSFGMVYEGNARDIIKGEAETRVAVKTVNESASLRERIEFLNEASVMKGFTCHHVVRLLGVVSKGQPTLVVMELMAHGDLKSYLRSLRPEAENNPGRPPPTLQEMIQMAAEIADGMAYLNAKKFVHRDLAARNCMVAHDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMAPESLKDGVFTTSSDMWSFGVVLWEITSLAEQPYQGLSNEQVLKFVMDGGYLDQPDNCPERVTDLMRMCWQFNPKMRPTFLEIVNLLKDDLHPSFPEVSFFHSEENK 1is3-a1-m1-cA_1is3-a1-m2-cA LACTOSE AND MES-LIGANDED CONGERIN II Q9YIC2 Q9YIC2 1.45 X-RAY DIFFRACTION 59 1.0 7943 (Conger myriaster) 7943 (Conger myriaster) 134 134 1is4-a1-m1-cA_1is4-a1-m2-cA 1is5-a1-m1-cA_1is5-a1-m2-cA 1is6-a1-m1-cA_1is6-a1-m2-cA 1wlc-a1-m1-cA_1wlc-a1-m2-cA 1wld-a1-m1-cA_1wld-a1-m2-cA 1wlw-a1-m1-cA_1wlw-a1-m2-cA DRAEVRNIPFKLGMYLTVGGVVNSNATRFSINVGESTDSIAMHMDHRFSYGADQNVLVLNSLVHNVGWQQEERSKKFPFTKGDHFQTTITFDTHTFYIQLSNGETVEFPNRNKDAAFNLIYLAGDARLTFVRLE DRAEVRNIPFKLGMYLTVGGVVNSNATRFSINVGESTDSIAMHMDHRFSYGADQNVLVLNSLVHNVGWQQEERSKKFPFTKGDHFQTTITFDTHTFYIQLSNGETVEFPNRNKDAAFNLIYLAGDARLTFVRLE 1isi-a1-m1-cA_1isi-a1-m1-cB Crystal Structure Analysis of BST-1/CD157 complexed with ethenoNAD Q10588 Q10588 2.1 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 1isf-a1-m1-cA_1isf-a1-m1-cB 1isg-a1-m1-cA_1isg-a1-m1-cB 1ish-a1-m1-cA_1ish-a1-m1-cB 1isj-a1-m1-cA_1isj-a1-m1-cB 1ism-a1-m1-cA_1ism-a1-m1-cB WRAEGTSAHLRDIFLGRCAEYRALLSPEQRNKDCTAIWEAFKVALDKDPCSVLPSDYDLFITLSRHSIPRDKSLFWENSHLLVNSFADNTRRFMPLSDVLYGRVADFLSWCRQKADSGLDYQSCPTSEDCENNPVDSFWKRASIQYSKDSSGVIHVMLNGSEPTGAYPIKGFFADYEIPNLQKEKITRIEIWVMHEIGGPNVESCGEGSMKVLEKRLKDMGFQYSCINDYRPVKLLQCVDHSTHPDCALK WRAEGTSAHLRDIFLGRCAEYRALLSPEQRNKDCTAIWEAFKVALDKDPCSVLPSDYDLFITLSRHSIPRDKSLFWENSHLLVNSFADNTRRFMPLSDVLYGRVADFLSWCRQKADSGLDYQSCPTSEDCENNPVDSFWKRASIQYSKDSSGVIHVMLNGSEPTGAYPIKGFFADYEIPNLQKEKITRIEIWVMHEIGGPNVESCGEGSMKVLEKRLKDMGFQYSCINDYRPVKLLQCVDHSTHPDCALK 1iss-a1-m1-cA_1iss-a1-m1-cB Crystal Structure of Metabotropic Glutamate Receptor Subtype 1 Complexed with an antagonist P23385 P23385 3.3 X-RAY DIFFRACTION 23 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 452 452 1ewt-a1-m1-cA_1ewt-a1-m1-cB 7dgd-a1-m1-cA_7dgd-a1-m1-cB RSVARMDGDVIIGALFSVHHQPPAEKVPERKCGEIREQYGIQRVEAMFHTLDKINADPVLLPNITLGSEIRDSCWHSSVALEQSIEFIRDSLIKPIAGVIGPGSSSVAIQVQNLLQLFDIPQIAYSATSIDLSDKTLYKYFLRVVPSDTLQARAMLDIVKRYNWTYVSAVHTEGNYGESGMDAFKELAAQEGLCIAHSDKIYSNAGEKSFDRLLRKLRERLPKARVVVCFCEGMTVRGLLSAMRRLGVVGEFSLIGSDGWADRDEVIEGYEVEANGGITIKLQSPEVRSFDDYFLKLRLDTNTRNPWFPEFWQHRFQCRLPGHLLENPNFKKVCTGNESLEENYVQDSKMGFVINAIYAMAHGLQNMHHALCPGHVGLCDAMKPIDGRKLLDFLIKSSFVGVSGEEVWFDEKGDAPGRYDIMNLQYTEANRYDYVHVGTWHEGVLNIDDYKI RSVARMDGDVIIGALFSVHHQPPAEKVPERKCGEIREQYGIQRVEAMFHTLDKINADPVLLPNITLGSEIRDSCWHSSVALEQSIEFIRDSLIKPIAGVIGPGSSSVAIQVQNLLQLFDIPQIAYSATSIDLSDKTLYKYFLRVVPSDTLQARAMLDIVKRYNWTYVSAVHTEGNYGESGMDAFKELAAQEGLCIAHSDKIYSNAGEKSFDRLLRKLRERLPKARVVVCFCEGMTVRGLLSAMRRLGVVGEFSLIGSDGWADRDEVIEGYEVEANGGITIKLQSPEVRSFDDYFLKLRLDTNTRNPWFPEFWQHRFQCRLPGHLLENPNFKKVCTGNESLEENYVQDSKMGFVINAIYAMAHGLQNMHHALCPGHVGLCDAMKPIDGRKLLDFLIKSSFVGVSGEEVWFDEKGDAPGRYDIMNLQYTEANRYDYVHVGTWHEGVLNIDDYKI 1isu-a1-m1-cA_1isu-a1-m1-cB THE THREE-DIMENSIONAL STRUCTURE OF THE HIGH-POTENTIAL IRON-SULFUR PROTEIN ISOLATED FROM THE PURPLE PHOTOTROPHIC BACTERIUM RHODOCYCLUS TENUIS DETERMINED AND REFINED AT 1.5 ANGSTROMS RESOLUTION P33678 P33678 1.5 X-RAY DIFFRACTION 22 1.0 1066 (Rhodocyclus tenuis) 1066 (Rhodocyclus tenuis) 62 62 GTNAAMRKAFNYQDTAKNGKKCSGCAQFVPGASPTAAGGCKVIPGDNQIAPGGYCDAFIVKK GTNAAMRKAFNYQDTAKNGKKCSGCAQFVPGASPTAAGGCKVIPGDNQIAPGGYCDAFIVKK 1it7-a1-m1-cA_1it7-a1-m1-cB Crystal structure of archaeosine tRNA-guanine transglycosylase complexed with guanine O58843 O58843 2.3 X-RAY DIFFRACTION 117 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 577 577 1iq8-a1-m1-cA_1iq8-a1-m1-cB 1it8-a1-m1-cA_1it8-a1-m1-cB 1j2b-a1-m1-cA_1j2b-a1-m1-cB KMLKFEIKARDGAGRIGKLEVNGKKIETPAIMPVVNPKQMVVEPKELEKMGFEIIITNSYIIYKDEELRRKALELGIHRMLDYNGIIEVDSGSFQLMKYGSIEVSNREIIEFQHRIGVDIGTFLDIPTPPDAPREQAVKELEITLSRAREAEEIKEIPMNATIQGSTYTDLRRYAARRLSSMNFEIHPIGGVVPLLESYRFRDVVDIVISSKMALRPDRPVHLFGAGHPIVFALAVAMGVDLFDSASYALYAKDDRYMTPEGTKRLDELDYFPCSCPVCSKYTPQELREMPKEERTRLLALHNLWVIKEEIKRVKQAIKEGELWRLVDERARSHPKLYSAYKRLLEHYTFLEEFEPITKKSALFKISNESLRWPVVRRAKERAKSINERFGELVEHPIFGRVSRYLSLTYPFAQSEAEDDFKIEKPTKEDAIKYVMAIAEYQFGEGASRAFDDAKVELSKTGMPRQVKVNGKRLATVRADDGLLTLGIEGAKRLHRVLPYPRMRVVVNKEAEPFARKGKDVFAKFVIFADPGIRPYDEVLVVNENDELLATGQALLSGREMIVFQYGRAVKVRKGVE KMLKFEIKARDGAGRIGKLEVNGKKIETPAIMPVVNPKQMVVEPKELEKMGFEIIITNSYIIYKDEELRRKALELGIHRMLDYNGIIEVDSGSFQLMKYGSIEVSNREIIEFQHRIGVDIGTFLDIPTPPDAPREQAVKELEITLSRAREAEEIKEIPMNATIQGSTYTDLRRYAARRLSSMNFEIHPIGGVVPLLESYRFRDVVDIVISSKMALRPDRPVHLFGAGHPIVFALAVAMGVDLFDSASYALYAKDDRYMTPEGTKRLDELDYFPCSCPVCSKYTPQELREMPKEERTRLLALHNLWVIKEEIKRVKQAIKEGELWRLVDERARSHPKLYSAYKRLLEHYTFLEEFEPITKKSALFKISNESLRWPVVRRAKERAKSINERFGELVEHPIFGRVSRYLSLTYPFAQSEAEDDFKIEKPTKEDAIKYVMAIAEYQFGEGASRAFDDAKVELSKTGMPRQVKVNGKRLATVRADDGLLTLGIEGAKRLHRVLPYPRMRVVVNKEAEPFARKGKDVFAKFVIFADPGIRPYDEVLVVNENDELLATGQALLSGREMIVFQYGRAVKVRKGVE 1ith-a1-m1-cB_1ith-a1-m2-cB STRUCTURE DETERMINATION AND REFINEMENT OF HOMOTETRAMERIC HEMOGLOBIN FROM URECHIS CAUPO AT 2.5 ANGSTROMS RESOLUTION P06148 P06148 2.5 X-RAY DIFFRACTION 31 1.0 6431 (Urechis caupo) 6431 (Urechis caupo) 141 141 1ith-a1-m1-cA_1ith-a1-m2-cA GLTAAQIKAIQDHWFLNIKGCLQAAADSIFFKYLTAYPGDLAFFHKFSSVPLYGLRSNPAYKAQTLTVINYLDKVVDALGGNAGALMKAKVPSHDAMGITPKHFGQLLKLVGGVFQEEFSADPTTVAAWGDAAGVLVAAMK GLTAAQIKAIQDHWFLNIKGCLQAAADSIFFKYLTAYPGDLAFFHKFSSVPLYGLRSNPAYKAQTLTVINYLDKVVDALGGNAGALMKAKVPSHDAMGITPKHFGQLLKLVGGVFQEEFSADPTTVAAWGDAAGVLVAAMK 1ith-a1-m2-cA_1ith-a1-m2-cB STRUCTURE DETERMINATION AND REFINEMENT OF HOMOTETRAMERIC HEMOGLOBIN FROM URECHIS CAUPO AT 2.5 ANGSTROMS RESOLUTION P06148 P06148 2.5 X-RAY DIFFRACTION 32 1.0 6431 (Urechis caupo) 6431 (Urechis caupo) 141 141 1ith-a1-m1-cA_1ith-a1-m1-cB GLTAAQIKAIQDHWFLNIKGCLQAAADSIFFKYLTAYPGDLAFFHKFSSVPLYGLRSNPAYKAQTLTVINYLDKVVDALGGNAGALMKAKVPSHDAMGITPKHFGQLLKLVGGVFQEEFSADPTTVAAWGDAAGVLVAAMK GLTAAQIKAIQDHWFLNIKGCLQAAADSIFFKYLTAYPGDLAFFHKFSSVPLYGLRSNPAYKAQTLTVINYLDKVVDALGGNAGALMKAKVPSHDAMGITPKHFGQLLKLVGGVFQEEFSADPTTVAAWGDAAGVLVAAMK 1itk-a2-m1-cA_1itk-a2-m2-cA Crystal structure of catalase-peroxidase from Haloarcula marismortui O59651 O59651 2 X-RAY DIFFRACTION 57 1.0 2238 (Haloarcula marismortui) 2238 (Haloarcula marismortui) 707 707 KRPKSNQDWWPSKLNLEILDQNARDVGPVEDDFDYAEEFQKLDLEAVKSDLEELMTSSQDWWPADYGHYGPLFIRMAWHSAGTYRTADGRGGAAGGRQRFAPINSWPDNANLDKARRLLLPIKQKYGQKISWADLMILAGNVAIESMGFKTFGYAGGREDAFEEDKAVNWGPEDEFETQERFDEPGEIQEGLGASVMGLIYVNPEGPDGNPDPEASAKNIRQTFDRMAMNDKETAALIAGGHTFGKVHGADDPEENLGPEPEAAPIEQQGLGWQNKNMITSGIEGPWTQSPTEWDMGYINNLLDYEWEPEKGPGGAWQWAPKSEELKNSVPDAHDPDEKQTPMMLTTDIALKRDPDYREVMETFQENPMEFGMNFAKAWYKLTHRDMGPPERFLGPEVPDEEMIWQDPLPDADYDLIGDEEIAELKEEILDSDLSVSQLVKTAWASASTYRDSDKRGGANGARLRLEPQKNWEVNEPEQLETVLGTLENIQTEFNDSRSDGTQVSLADLIVLGGNAAVEQAAANAGYDVEIPFEPGRVDAGPEHTDAPSFDALKPKVDGVRNYIQDDITRPAEEVLVDNADLLNLTASELTALIGGMRSIGANYQDTDLGVFTDEPETLTNDFFVNLLDMGTEWEPAADSEHRYKGLDRDTGEVKWEATRIDLIFGSNDRLRAISEVYGSADAEKKLVHDFVDTWSKVMKLDRFDLE KRPKSNQDWWPSKLNLEILDQNARDVGPVEDDFDYAEEFQKLDLEAVKSDLEELMTSSQDWWPADYGHYGPLFIRMAWHSAGTYRTADGRGGAAGGRQRFAPINSWPDNANLDKARRLLLPIKQKYGQKISWADLMILAGNVAIESMGFKTFGYAGGREDAFEEDKAVNWGPEDEFETQERFDEPGEIQEGLGASVMGLIYVNPEGPDGNPDPEASAKNIRQTFDRMAMNDKETAALIAGGHTFGKVHGADDPEENLGPEPEAAPIEQQGLGWQNKNMITSGIEGPWTQSPTEWDMGYINNLLDYEWEPEKGPGGAWQWAPKSEELKNSVPDAHDPDEKQTPMMLTTDIALKRDPDYREVMETFQENPMEFGMNFAKAWYKLTHRDMGPPERFLGPEVPDEEMIWQDPLPDADYDLIGDEEIAELKEEILDSDLSVSQLVKTAWASASTYRDSDKRGGANGARLRLEPQKNWEVNEPEQLETVLGTLENIQTEFNDSRSDGTQVSLADLIVLGGNAAVEQAAANAGYDVEIPFEPGRVDAGPEHTDAPSFDALKPKVDGVRNYIQDDITRPAEEVLVDNADLLNLTASELTALIGGMRSIGANYQDTDLGVFTDEPETLTNDFFVNLLDMGTEWEPAADSEHRYKGLDRDTGEVKWEATRIDLIFGSNDRLRAISEVYGSADAEKKLVHDFVDTWSKVMKLDRFDLE 1itu-a1-m1-cA_1itu-a1-m1-cB HUMAN RENAL DIPEPTIDASE COMPLEXED WITH CILASTATIN P16444 P16444 2 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 369 369 1itq-a1-m1-cA_1itq-a1-m1-cB DFFRDEAERIMRDSPVIDGHNDLPWQLLDMFNNRLQDERANLTTLAGTHTNIPKLRAGFVGGQFWSVYTPCDTQNKDAVRRTLEQMDVVHRMCRMYPETFLYVTSSAGIRQAFREGKVASLIGVEGGHSIDSSLGVLRALYQLGMRYLTLTHSCNTPWADNWLVDTGDSEPQSQGLSPFGQRVVKELNRLGVLIDLAHVSVATMKATLQLSRAPVIFSHSSAYSVCASRRNVPDDVLRLVKQTDSLVMVNFYNNYISCTNKANLSQVADHLDHIKEVAGARAVGFGGDFDGVPRVPEGLEDVSKYPDLIAELLRRNWTEAEVKGALADNLLRVFEAVEQASNLTQAPEEEPIPLDQLGGSCRTHYGYSS DFFRDEAERIMRDSPVIDGHNDLPWQLLDMFNNRLQDERANLTTLAGTHTNIPKLRAGFVGGQFWSVYTPCDTQNKDAVRRTLEQMDVVHRMCRMYPETFLYVTSSAGIRQAFREGKVASLIGVEGGHSIDSSLGVLRALYQLGMRYLTLTHSCNTPWADNWLVDTGDSEPQSQGLSPFGQRVVKELNRLGVLIDLAHVSVATMKATLQLSRAPVIFSHSSAYSVCASRRNVPDDVLRLVKQTDSLVMVNFYNNYISCTNKANLSQVADHLDHIKEVAGARAVGFGGDFDGVPRVPEGLEDVSKYPDLIAELLRRNWTEAEVKGALADNLLRVFEAVEQASNLTQAPEEEPIPLDQLGGSCRTHYGYSS 1itv-a1-m1-cA_1itv-a1-m1-cB Dimeric form of the haemopexin domain of MMP9 P14780 P14780 1.95 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 DDACNVNIFDAIAEIGNQLYLFKDGKYWRFSEGRGSRPQGPFLIADKWPALPRKLDSVFEEPLSKKLFFFSGRQVWVYTGASVLGPRRLDKLGLGADVAQVTGALRSGRGKMLLFSGRRLWRFDVKAQMVDPRSASEVDRMFPGVPLDTHDVFQFREKAYFCQDRFYWRVSSRSELNQVDQVGYVTYDILQCPED DDACNVNIFDAIAEIGNQLYLFKDGKYWRFSEGRGSRPQGPFLIADKWPALPRKLDSVFEEPLSKKLFFFSGRQVWVYTGASVLGPRRLDKLGLGADVAQVTGALRSGRGKMLLFSGRRLWRFDVKAQMVDPRSASEVDRMFPGVPLDTHDVFQFREKAYFCQDRFYWRVSSRSELNQVDQVGYVTYDILQCPED 1iu8-a2-m1-cB_1iu8-a2-m2-cB The X-ray Crystal Structure of Pyrrolidone-Carboxylate Peptidase from Hyperthermophilic Archaeon Pyrococcus horikoshii O58321 O58321 1.6 X-RAY DIFFRACTION 52 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 206 206 1iu8-a2-m1-cA_1iu8-a2-m2-cA MKILLTGFEPFGGDDKNPTMDIVEALSERIPEVVGEILPVSFKRAREKLLKVLDDVRPDITINLGLAPGRTHISVERVAVNMIDARIPDNDGEQPKDEPIVEGGPAAYFATIPTREIVEEMKKNGIPAVLSYTAGTYLCNFAMYLTLHTSATKGYPKIAGFIHVPYTPDQVLEKKNTPSMSLDLEIKGVEIAIRVAQSALHSSQLR MKILLTGFEPFGGDDKNPTMDIVEALSERIPEVVGEILPVSFKRAREKLLKVLDDVRPDITINLGLAPGRTHISVERVAVNMIDARIPDNDGEQPKDEPIVEGGPAAYFATIPTREIVEEMKKNGIPAVLSYTAGTYLCNFAMYLTLHTSATKGYPKIAGFIHVPYTPDQVLEKKNTPSMSLDLEIKGVEIAIRVAQSALHSSQLR 1iu8-a2-m2-cA_1iu8-a2-m2-cB The X-ray Crystal Structure of Pyrrolidone-Carboxylate Peptidase from Hyperthermophilic Archaeon Pyrococcus horikoshii O58321 O58321 1.6 X-RAY DIFFRACTION 47 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 206 206 1iu8-a1-m1-cA_1iu8-a1-m1-cB 1iu8-a2-m1-cA_1iu8-a2-m1-cB MKILLTGFEPFGGDDKNPTMDIVEALSERIPEVVGEILPVSFKRAREKLLKVLDDVRPDITINLGLAPGRTHISVERVAVNMIDARIPDNDGEQPKDEPIVEGGPAAYFATIPTREIVEEMKKNGIPAVLSYTAGTYLCNFAMYLTLHTSATKGYPKIAGFIHVPYTPDQVLEKKNTPSMSLDLEIKGVEIAIRVAQSALHSSQLR MKILLTGFEPFGGDDKNPTMDIVEALSERIPEVVGEILPVSFKRAREKLLKVLDDVRPDITINLGLAPGRTHISVERVAVNMIDARIPDNDGEQPKDEPIVEGGPAAYFATIPTREIVEEMKKNGIPAVLSYTAGTYLCNFAMYLTLHTSATKGYPKIAGFIHVPYTPDQVLEKKNTPSMSLDLEIKGVEIAIRVAQSALHSSQLR 1iug-a1-m1-cA_1iug-a1-m1-cB The crystal structure of aspartate aminotransferase which belongs to subgroup IV from Thermus thermophilus P83786 P83786 2.2 X-RAY DIFFRACTION 132 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 347 347 DWLLTPGPVRLHPKALEALARPQLHHRTEAAREVFLKARGLLREAFRTEGEVLILTGSGTLAMEALVKNLFAPGERVLVPVYGKFSERFYEIALEAGLVVERLDYPYGDTPRPEDVAKEGYAGLLLVHSETSTGALADLPALARAFKEKNPEGLVGADMVTSLLVGEVALEAMGVDAAASGSQGLMCPPGLGFVALSPRALERLKPRGYYLDLARELKAQKEGESAWTPAINLVLAVAAVLEEVLPRLEEHLALKAWQNALLYGVGEEGGLRPVPKRFSPAVAAFYLPEGVPYARVKEAFAQRGAVIAGGQGPLKGKVFRLSLMGAYDRYEALGVAGMFREVLEEIL DWLLTPGPVRLHPKALEALARPQLHHRTEAAREVFLKARGLLREAFRTEGEVLILTGSGTLAMEALVKNLFAPGERVLVPVYGKFSERFYEIALEAGLVVERLDYPYGDTPRPEDVAKEGYAGLLLVHSETSTGALADLPALARAFKEKNPEGLVGADMVTSLLVGEVALEAMGVDAAASGSQGLMCPPGLGFVALSPRALERLKPRGYYLDLARELKAQKEGESAWTPAINLVLAVAAVLEEVLPRLEEHLALKAWQNALLYGVGEEGGLRPVPKRFSPAVAAFYLPEGVPYARVKEAFAQRGAVIAGGQGPLKGKVFRLSLMGAYDRYEALGVAGMFREVLEEIL 1iuj-a2-m1-cA_1iuj-a2-m2-cA The structure of TT1380 protein from thermus thermophilus P83693 P83693 1.6 X-RAY DIFFRACTION 10 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 102 102 MFVTMNRIPVRPEYAEQFEEAFRQRARLVDRMPGFIRNLVLRPKNPGDPYVVMTLWESEEAFRAWTESPAFKEGHARSGTLPKEAFLGPNRLEAFEVVLDSE MFVTMNRIPVRPEYAEQFEEAFRQRARLVDRMPGFIRNLVLRPKNPGDPYVVMTLWESEEAFRAWTESPAFKEGHARSGTLPKEAFLGPNRLEAFEVVLDSE 1iuj-a2-m1-cA_1iuj-a2-m2-cB The structure of TT1380 protein from thermus thermophilus P83693 P83693 1.6 X-RAY DIFFRACTION 25 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 102 103 1iuj-a2-m2-cA_1iuj-a2-m1-cB MFVTMNRIPVRPEYAEQFEEAFRQRARLVDRMPGFIRNLVLRPKNPGDPYVVMTLWESEEAFRAWTESPAFKEGHARSGTLPKEAFLGPNRLEAFEVVLDSE MFVTMNRIPVRPEYAEQFEEAFRQRARLVDRMPGFIRNLVLRPKNPGDPYVVMTLWESEEAFRAWTESPAFKEGHARSGTLPKEAFLGPNRLEAFEVVLDSEG 1iuj-a2-m2-cA_1iuj-a2-m2-cB The structure of TT1380 protein from thermus thermophilus P83693 P83693 1.6 X-RAY DIFFRACTION 87 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 102 103 1iuj-a1-m1-cA_1iuj-a1-m1-cB 1iuj-a2-m1-cA_1iuj-a2-m1-cB MFVTMNRIPVRPEYAEQFEEAFRQRARLVDRMPGFIRNLVLRPKNPGDPYVVMTLWESEEAFRAWTESPAFKEGHARSGTLPKEAFLGPNRLEAFEVVLDSE MFVTMNRIPVRPEYAEQFEEAFRQRARLVDRMPGFIRNLVLRPKNPGDPYVVMTLWESEEAFRAWTESPAFKEGHARSGTLPKEAFLGPNRLEAFEVVLDSEG 1iup-a1-m1-cA_1iup-a1-m2-cA meta-Cleavage product hydrolase from Pseudomonas fluorescens IP01 (CumD) S103A mutant complexed with isobutyrates P96965 P96965 1.6 X-RAY DIFFRACTION 42 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 271 271 1iun-a1-m1-cA_1iun-a1-m1-cB 1iuo-a1-m1-cA_1iuo-a1-m2-cA 1uk6-a1-m1-cA_1uk6-a1-m2-cA 1uk7-a1-m1-cA_1uk7-a1-m2-cA 1uk8-a1-m1-cA_1uk8-a1-m2-cA 1uk9-a1-m1-cA_1uk9-a1-m2-cA 1uka-a1-m1-cA_1uka-a1-m2-cA 1ukb-a1-m1-cA_1ukb-a1-m2-cA 2d0d-a1-m1-cA_2d0d-a1-m2-cA NLEIGKSILAAGVLTNYHDVGEGQPVILIHGSGPGVSAYANWRLTIPALSKFYRVIAPDMVGFGFTDRPENYNYSKDSWVDHIIGIMDALEIEKAHIVGNAFGGGLAIATALRYSERVDRMVLMGAAGTRFDVTEGLNAVWGYTPSIENMRNLLDIFAYDRSLVTDELARLRYEASIQPGFQESFSSMFPEPRQRWIDALASSDEDIKTLPNETLIIHGREDQVVPLSSSLRLGELIDRAQLHVFGRCGHWTQIEQTDRFNRLVVEFFNEA NLEIGKSILAAGVLTNYHDVGEGQPVILIHGSGPGVSAYANWRLTIPALSKFYRVIAPDMVGFGFTDRPENYNYSKDSWVDHIIGIMDALEIEKAHIVGNAFGGGLAIATALRYSERVDRMVLMGAAGTRFDVTEGLNAVWGYTPSIENMRNLLDIFAYDRSLVTDELARLRYEASIQPGFQESFSSMFPEPRQRWIDALASSDEDIKTLPNETLIIHGREDQVVPLSSSLRLGELIDRAQLHVFGRCGHWTQIEQTDRFNRLVVEFFNEA 1ivh-a1-m1-cA_1ivh-a1-m1-cD STRUCTURE OF HUMAN ISOVALERYL-COA DEHYDROGENASE AT 2.6 ANGSTROMS RESOLUTION: STRUCTURAL BASIS FOR SUBSTRATE SPECIFICITY P26440 P26440 2.6 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 387 387 1ivh-a1-m1-cB_1ivh-a1-m1-cC VDDAINGLSEEQRQLRQTMAKFLQEHLAPKAQEIDRSNEFKNLREFWKQLGNLGVLGITAPVQYGGSGLGYLEHVLVMEEISRASGAVGLSYGAHSNLCINQLVRNGNEAQKEKYLPKLISGEYIGALAMSEPNAGSDVVSMKLKAEKKGNHYILNGNKFWITNGPDADVLIVYAKTDLAAVPASRGITAFIVEKGMPGFSTSKKLDKLGMRGSNTCELIFEDCKIPAANILGHENKGVYVLMSGLDLERLVLAGGPLGLMQAVLDHTIPYLHVREAFGQKIGHFQLMQGKMADMYTRLMACRQYVYNVAKACDEGHCTAKDCAGVILYSAECATQVALDGIQCFGGNGYINDFPMGRFLRDAKLYEIGAGTSEVRRLVIGRAFNAD VDDAINGLSEEQRQLRQTMAKFLQEHLAPKAQEIDRSNEFKNLREFWKQLGNLGVLGITAPVQYGGSGLGYLEHVLVMEEISRASGAVGLSYGAHSNLCINQLVRNGNEAQKEKYLPKLISGEYIGALAMSEPNAGSDVVSMKLKAEKKGNHYILNGNKFWITNGPDADVLIVYAKTDLAAVPASRGITAFIVEKGMPGFSTSKKLDKLGMRGSNTCELIFEDCKIPAANILGHENKGVYVLMSGLDLERLVLAGGPLGLMQAVLDHTIPYLHVREAFGQKIGHFQLMQGKMADMYTRLMACRQYVYNVAKACDEGHCTAKDCAGVILYSAECATQVALDGIQCFGGNGYINDFPMGRFLRDAKLYEIGAGTSEVRRLVIGRAFNAD 1ivh-a1-m1-cC_1ivh-a1-m1-cD STRUCTURE OF HUMAN ISOVALERYL-COA DEHYDROGENASE AT 2.6 ANGSTROMS RESOLUTION: STRUCTURAL BASIS FOR SUBSTRATE SPECIFICITY P26440 P26440 2.6 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 387 387 1ivh-a1-m1-cA_1ivh-a1-m1-cB VDDAINGLSEEQRQLRQTMAKFLQEHLAPKAQEIDRSNEFKNLREFWKQLGNLGVLGITAPVQYGGSGLGYLEHVLVMEEISRASGAVGLSYGAHSNLCINQLVRNGNEAQKEKYLPKLISGEYIGALAMSEPNAGSDVVSMKLKAEKKGNHYILNGNKFWITNGPDADVLIVYAKTDLAAVPASRGITAFIVEKGMPGFSTSKKLDKLGMRGSNTCELIFEDCKIPAANILGHENKGVYVLMSGLDLERLVLAGGPLGLMQAVLDHTIPYLHVREAFGQKIGHFQLMQGKMADMYTRLMACRQYVYNVAKACDEGHCTAKDCAGVILYSAECATQVALDGIQCFGGNGYINDFPMGRFLRDAKLYEIGAGTSEVRRLVIGRAFNAD VDDAINGLSEEQRQLRQTMAKFLQEHLAPKAQEIDRSNEFKNLREFWKQLGNLGVLGITAPVQYGGSGLGYLEHVLVMEEISRASGAVGLSYGAHSNLCINQLVRNGNEAQKEKYLPKLISGEYIGALAMSEPNAGSDVVSMKLKAEKKGNHYILNGNKFWITNGPDADVLIVYAKTDLAAVPASRGITAFIVEKGMPGFSTSKKLDKLGMRGSNTCELIFEDCKIPAANILGHENKGVYVLMSGLDLERLVLAGGPLGLMQAVLDHTIPYLHVREAFGQKIGHFQLMQGKMADMYTRLMACRQYVYNVAKACDEGHCTAKDCAGVILYSAECATQVALDGIQCFGGNGYINDFPMGRFLRDAKLYEIGAGTSEVRRLVIGRAFNAD 1ivl-a1-m1-cA_1ivl-a1-m1-cB THE DE NOVO DESIGN OF AN ANTIBODY COMBINING SITE: CRYSTALLOGRAPHIC ANALYSIS OF THE VL DOMAIN CONFIRMS THE STRUCTURAL MODEL 2.17 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 107 107 DIELTQSPATLSVTPGNSVSISCRASQSIGNRLFWYQQKSHESPRLLIKYASQSISGIPSRFSGSGSGTDFTLSINSVETEDLAVYFCQQVSEWPFTFGGGTKLEIK DIELTQSPATLSVTPGNSVSISCRASQSIGNRLFWYQQKSHESPRLLIKYASQSISGIPSRFSGSGSGTDFTLSINSVETEDLAVYFCQQVSEWPFTFGGGTKLEIK 1iw1-a4-m2-cB_1iw1-a4-m1-cA Crystal structure of a heme oxygenase (HmuO) from Corynebacterium diphtheriae complexed with heme in the ferrous state P71119 P71119 1.5 X-RAY DIFFRACTION 32 0.99 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 209 212 GLAVELKQSTAQAHEKAEHSTFMSDLLKGRLGVAEFTRLQEQAWLFYTALEQAVDAVRASGFAESLLDPALNRAEVLARDLDKLNGSSEWRSRITASPAVIDYVNRLEEIRDNVDGPALVAHHYVRYLGDLSGGQVIARMMQRHYGVDPEALGFYHFEGIAKLKVYKDEYREKLNNLELSDEQREHLLKEATDAFVFNHQVFADLGKGL TTATAGLAVELKQSTAQAHEKAEHSTFMSDLLKGRLGVAEFTRLQEQAWLFYTALEQAVDAVRASGFAESLLDPALNRAEVLARDLDKLNGSSEWRSRITASPAVIDYVNRLEEIRDNVDGPALVAHHYVRYLGDLSGGQVIARMMQRHYGVDPEALGFYHFEGIAKLKVYKDEYREKLNNLELSDEQREHLLKEATDAFVFNHQVFADLGK 1iwp-a1-m1-cA_1iwp-a1-m1-cL Glycerol Dehydratase-cyanocobalamin Complex of Klebsiella pneumoniae Q59476 Q59476 2.1 X-RAY DIFFRACTION 294 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 555 555 1mmf-a3-m1-cA_1mmf-a3-m1-cL MKRSKRFAVLAQRPVNQDGLIGEWPEEGLIAMDSPFDPVSSVKVDNGLIVELDGKRRDQFDMIDRFIADYAINVERTEQAMRLEAVEIARMLVDIHVSREEIIAITTAITPAKAVEVMAQMNVVEMMMALQKMRARRTPSNQCHVTNLKDNPVQIAADAAEAGIRGFSEQETTVGIARYAPFNALALLVGSQCGRPGVLTQCSVEEATELELGMRGLTSYAETVSVYGTEAVFTDGDDTPWSKAFLASAYASRGLKMRYTSGTGSEALMGYSESKSMLYLESRCIFITKGAGVQGLQNGAVSCIGMTGAVPSGIRAVLAENLIASMLDLEVASANDQTFSHSDIRRTARTLMQMLPGTDFIFSGYSAVPNYDNMFAGSNFDAEDFDDYNILQRDLMVDGGLRPVTEAETIAIRQKAARAIQAVFRELGLPPIADEEVEAATYAHGSNEMPPRNVVEDLSAVEEMMKRNITGLDIVGALSRSGFEDIASNILNMLRQRVTGDYLQTSAILDRQFEVVSAVNDINDYQGPGTGYRISAERWAEIKNIPGVVQPDTIE MKRSKRFAVLAQRPVNQDGLIGEWPEEGLIAMDSPFDPVSSVKVDNGLIVELDGKRRDQFDMIDRFIADYAINVERTEQAMRLEAVEIARMLVDIHVSREEIIAITTAITPAKAVEVMAQMNVVEMMMALQKMRARRTPSNQCHVTNLKDNPVQIAADAAEAGIRGFSEQETTVGIARYAPFNALALLVGSQCGRPGVLTQCSVEEATELELGMRGLTSYAETVSVYGTEAVFTDGDDTPWSKAFLASAYASRGLKMRYTSGTGSEALMGYSESKSMLYLESRCIFITKGAGVQGLQNGAVSCIGMTGAVPSGIRAVLAENLIASMLDLEVASANDQTFSHSDIRRTARTLMQMLPGTDFIFSGYSAVPNYDNMFAGSNFDAEDFDDYNILQRDLMVDGGLRPVTEAETIAIRQKAARAIQAVFRELGLPPIADEEVEAATYAHGSNEMPPRNVVEDLSAVEEMMKRNITGLDIVGALSRSGFEDIASNILNMLRQRVTGDYLQTSAILDRQFEVVSAVNDINDYQGPGTGYRISAERWAEIKNIPGVVQPDTIE 1ix1-a1-m1-cA_1ix1-a1-m1-cB Crystal Structure of P.aeruginosa Peptide deformylase Complexed with Antibiotic Actinonin Q9I7A8 Q9I7A8 1.85 X-RAY DIFFRACTION 17 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 169 169 AILNILEFPDPRLRTIAKPVEVVDDAVRQLIDDMFETMYEAPGIGLAATQVNVHKRIVVMDLSEDKSEPRVFINPEFEPLTEDMDQYQEGCLSVPGFYENVDRPQKVRIKALDRDGNPFEEVAEGLLAVCIQHECDHLNGKLFVDYLSTLKRDRIRKKLEKQHRQQAHH AILNILEFPDPRLRTIAKPVEVVDDAVRQLIDDMFETMYEAPGIGLAATQVNVHKRIVVMDLSEDKSEPRVFINPEFEPLTEDMDQYQEGCLSVPGFYENVDRPQKVRIKALDRDGNPFEEVAEGLLAVCIQHECDHLNGKLFVDYLSTLKRDRIRKKLEKQHRQQAHH 1ix2-a1-m1-cA_1ix2-a1-m1-cB Crystal Structure of Selenomethionine PcoC, a Copper Resistance Protein from Escherichia coli Q47454 Q47454 1.55 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 98 PELKSSVPQADSAVAAPEKIQLNFSENLTVKFSGAKLTTGKGSSHSPPVAAKVAPGADPKSVIIPREPLPAGTYRVDWRAVSSDTHPITGNYTFTVK HPELKSSVPQADSAVAAPEKIQLNFSENLTVKFSGAKLTTGKGSSHSPPVAAKVAPGADPKSVIIPREPLPAGTYRVDWRAVSSDTHPITGNYTFTVK 1ixe-a1-m1-cB_1ixe-a1-m1-cA Crystal structure of citrate synthase from Thermus thermophilus HB8 Q5SIM6 Q5SIM6 2.3 X-RAY DIFFRACTION 385 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 370 371 1iom-a1-m1-cA_1iom-a1-m2-cA 1ixe-a2-m1-cC_1ixe-a2-m1-cD VARGLEGVLFTESRMCYIDGQQGKLYYYGIPIQELAEKSSFEETTFLLLHGRLPRRQELEEFSAALARRRALPAHLLESFKRYPVSAHPMSFLRTAVSEFGMLDPTEGDISREALYEKGLDLIAKFATIVAANKRLKEGKEPIPPREDLSHAANFLYMANGVEPSPEQARLMDAALILHAEHGFNASTFTAIAAFSTETDLYSAITAAVASLKGPRHGGANEAVMRMIQEIGTPERAREWVREKLAKKERIMGMGHRVYKAFDPRAGVLEKLARLVAESKEYQILKIVEEEAGKVLNPRGIYPNVDFYSGVVYSDLGFSLEFFTPIFAVARISGWVGHILEYQELDNRLLRPGAKYVGELDVPYVPLEAR VARGLEGVLFTESRMCYIDGQQGKLYYYGIPIQELAEKSSFEETTFLLLHGRLPRRQELEEFSAALARRRALPAHLLESFKRYPVSAHPMSFLRTAVSEFGMLDPTEGDISREALYEKGLDLIAKFATIVAANKRLKEGKEPIPPREDLSHAANFLYMANGVEPSPEQARLMDAALILHAEHGFNASTFTAIAAFSTETDLYSAITAAVASLKGPRHGGANEAVMRMIQEIGTPERAREWVREKLAKKERIMGMGHRVYKAFDPRAGVLEKLARLVAEHSKEYQILKIVEEEAGKVLNPRGIYPNVDFYSGVVYSDLGFSLEFFTPIFAVARISGWVGHILEYQELDNRLLRPGAKYVGELDVPYVPLEAR 1ixl-a2-m1-cA_1ixl-a2-m2-cA Crystal structure of uncharacterized protein PH1136 from Pyrococcus horikoshii O58863 O58863 1.94 X-RAY DIFFRACTION 124 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 127 127 IPVEQRTHKLTSRILVGKPILIKEGYAEVELETIDEKVDEKGLVHGGFTFGLADYAALAVNEPTVVLGKAEVRFTKPVKVGDKLVAKAKIIEDLGKKKIVEVKVYREEEVVLEGKFYCYVLEKHVLD IPVEQRTHKLTSRILVGKPILIKEGYAEVELETIDEKVDEKGLVHGGFTFGLADYAALAVNEPTVVLGKAEVRFTKPVKVGDKLVAKAKIIEDLGKKKIVEVKVYREEEVVLEGKFYCYVLEKHVLD 1ixx-a1-m1-cD_1ixx-a1-m1-cF CRYSTAL STRUCTURE OF COAGULATION FACTORS IX/X-BINDING PROTEIN (IX/X-BP) FROM VENOM OF HABU SNAKE WITH A HETERODIMER OF C-TYPE LECTIN DOMAINS P23807 P23807 2.5 X-RAY DIFFRACTION 17 1.0 88087 (Protobothrops flavoviridis) 88087 (Protobothrops flavoviridis) 123 123 1ixx-a1-m1-cB_1ixx-a1-m1-cD 1ixx-a1-m1-cB_1ixx-a1-m1-cF DCPSDWSSYEGHCYKPFSEPKNWADAENFCTQQHAGGHLVSFQSSEEADFVVKLAFQTFGHSIFWMGLSNVWNQCNWQWSNAAMLRYKAWAEESYCVYFKSTNNKWRSRACRMMAQFVCEFQA DCPSDWSSYEGHCYKPFSEPKNWADAENFCTQQHAGGHLVSFQSSEEADFVVKLAFQTFGHSIFWMGLSNVWNQCNWQWSNAAMLRYKAWAEESYCVYFKSTNNKWRSRACRMMAQFVCEFQA 1iy9-a1-m1-cA_1iy9-a1-m1-cD Crystal structure of spermidine synthase P70998 P70998 2.3 X-RAY DIFFRACTION 111 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 274 274 1iy9-a1-m1-cB_1iy9-a1-m1-cC SELWYTEKQTKNFGITMKVNKTLHTEQTEFQHLEMVETEEFGNMLFLDGMVMTSEKDEFVYHEMVAHVPLFTHPNPEHVLVVGGGDGGVIREILKHPSVKKATLVDIDGKVIEYSKKFLPSIAGKLDDPRVDVQVDDGFMHIAKSENQYDVIMVDSTEPVGPAVNLFTKGFYAGIAKALKEDGIFVAQTDNPWFTPELITNVQRDVKEIFPITKLYTANIPTYPSGLWTFTIGSKKYDPLAVEDSRFFDIETKYYTKDIHKAAFVLPKFVSDLI SELWYTEKQTKNFGITMKVNKTLHTEQTEFQHLEMVETEEFGNMLFLDGMVMTSEKDEFVYHEMVAHVPLFTHPNPEHVLVVGGGDGGVIREILKHPSVKKATLVDIDGKVIEYSKKFLPSIAGKLDDPRVDVQVDDGFMHIAKSENQYDVIMVDSTEPVGPAVNLFTKGFYAGIAKALKEDGIFVAQTDNPWFTPELITNVQRDVKEIFPITKLYTANIPTYPSGLWTFTIGSKKYDPLAVEDSRFFDIETKYYTKDIHKAAFVLPKFVSDLI 1iy9-a1-m1-cC_1iy9-a1-m1-cD Crystal structure of spermidine synthase P70998 P70998 2.3 X-RAY DIFFRACTION 43 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 274 274 1iy9-a1-m1-cA_1iy9-a1-m1-cB SELWYTEKQTKNFGITMKVNKTLHTEQTEFQHLEMVETEEFGNMLFLDGMVMTSEKDEFVYHEMVAHVPLFTHPNPEHVLVVGGGDGGVIREILKHPSVKKATLVDIDGKVIEYSKKFLPSIAGKLDDPRVDVQVDDGFMHIAKSENQYDVIMVDSTEPVGPAVNLFTKGFYAGIAKALKEDGIFVAQTDNPWFTPELITNVQRDVKEIFPITKLYTANIPTYPSGLWTFTIGSKKYDPLAVEDSRFFDIETKYYTKDIHKAAFVLPKFVSDLI SELWYTEKQTKNFGITMKVNKTLHTEQTEFQHLEMVETEEFGNMLFLDGMVMTSEKDEFVYHEMVAHVPLFTHPNPEHVLVVGGGDGGVIREILKHPSVKKATLVDIDGKVIEYSKKFLPSIAGKLDDPRVDVQVDDGFMHIAKSENQYDVIMVDSTEPVGPAVNLFTKGFYAGIAKALKEDGIFVAQTDNPWFTPELITNVQRDVKEIFPITKLYTANIPTYPSGLWTFTIGSKKYDPLAVEDSRFFDIETKYYTKDIHKAAFVLPKFVSDLI 1iyb-a1-m1-cA_1iyb-a1-m1-cB Crystal Structure of the Nicotiana glutinosa Ribonuclease NW Q7XZV5 Q7XZV5 1.5 X-RAY DIFFRACTION 48 1.0 35889 (Nicotiana glutinosa) 35889 (Nicotiana glutinosa) 208 208 YVEFAQDFDFFYFVQQWPGSYCDTKQSCCYPKTGKPASDFGIHGLWPNNNDGSYPSNCDSNSPYDQSQVSDLISRMQQNWPTLACPSGTGSAFWSHEWEKHGTCAENVFDQHGYFKKALDLKNQINLLEILQGAGIHPDGGFYSLNSIKNAIRSAIGYAPGIECNVDESGNSQLYQIYICVDGSGSNLIECPIFPRGKCGSSIEFPTF YVEFAQDFDFFYFVQQWPGSYCDTKQSCCYPKTGKPASDFGIHGLWPNNNDGSYPSNCDSNSPYDQSQVSDLISRMQQNWPTLACPSGTGSAFWSHEWEKHGTCAENVFDQHGYFKKALDLKNQINLLEILQGAGIHPDGGFYSLNSIKNAIRSAIGYAPGIECNVDESGNSQLYQIYICVDGSGSNLIECPIFPRGKCGSSIEFPTF 1iyh-a2-m1-cB_1iyh-a2-m1-cD Crystal structure of hematopoietic prostaglandin D synthase O60760 O60760 1.7 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 1iyh-a1-m1-cA_1iyh-a1-m1-cC 1iyi-a1-m1-cA_1iyi-a1-m1-cD 1iyi-a2-m1-cB_1iyi-a2-m1-cC 1v40-a1-m1-cA_1v40-a1-m1-cD 1v40-a2-m1-cB_1v40-a2-m1-cC 2cvd-a1-m1-cA_2cvd-a1-m1-cD 2cvd-a2-m1-cB_2cvd-a2-m1-cC 2vcq-a1-m1-cA_2vcq-a1-m1-cB 2vcq-a2-m1-cD_2vcq-a2-m1-cC 2vcw-a1-m1-cA_2vcw-a1-m1-cB 2vcw-a2-m1-cD_2vcw-a2-m1-cC 2vcx-a1-m1-cA_2vcx-a1-m1-cB 2vcx-a2-m1-cC_2vcx-a2-m1-cD 2vcz-a1-m1-cA_2vcz-a1-m1-cB 2vcz-a2-m1-cC_2vcz-a2-m1-cD 2vd0-a1-m1-cA_2vd0-a1-m1-cB 2vd0-a2-m1-cC_2vd0-a2-m1-cD 2vd1-a1-m1-cA_2vd1-a1-m1-cB 2vd1-a2-m1-cC_2vd1-a2-m1-cD 3ee2-a1-m1-cA_3ee2-a1-m1-cB 3kxo-a1-m1-cA_3kxo-a1-m1-cB 3vi5-a1-m1-cA_3vi5-a1-m1-cD 3vi5-a2-m1-cB_3vi5-a2-m1-cC 3vi7-a1-m1-cA_3vi7-a1-m1-cD 3vi7-a2-m1-cB_3vi7-a2-m1-cC 4ec0-a1-m1-cA_4ec0-a1-m1-cB 4edy-a1-m1-cB_4edy-a1-m1-cA 4edz-a1-m1-cB_4edz-a1-m1-cA 4edz-a2-m1-cC_4edz-a2-m1-cD 4ee0-a1-m1-cA_4ee0-a1-m1-cB 5ais-a1-m1-cA_5ais-a1-m1-cB 5ais-a2-m1-cC_5ais-a2-m1-cD 5aiv-a1-m1-cA_5aiv-a1-m1-cB 5aiv-a2-m1-cC_5aiv-a2-m1-cD 5aix-a1-m1-cA_5aix-a1-m1-cB 5aix-a2-m1-cC_5aix-a2-m1-cD 5ywe-a1-m1-cA_5ywe-a1-m1-cB 5ywe-a2-m1-cC_5ywe-a2-m1-cD 5ywx-a1-m1-cA_5ywx-a1-m1-cB 5ywx-a2-m1-cC_5ywx-a2-m1-cD 5yx1-a1-m1-cA_5yx1-a1-m1-cB 5yx1-a2-m1-cC_5yx1-a2-m1-cD 6n4e-a1-m1-cA_6n4e-a1-m2-cA 6w58-a1-m1-cA_6w58-a1-m1-cB 6w8h-a1-m1-cA_6w8h-a1-m1-cC 6ztc-a1-m1-cA_6ztc-a1-m1-cB 7jr6-a1-m1-cA_7jr6-a1-m1-cB 7jr8-a1-m1-cA_7jr8-a1-m1-cB PNYKLTYFNMRGRAEIIRYIFAYLDIQYEDHRIEQADWPEIKSTLPFGKIPILEVDGLTLHQSLAIARYLTKNTDLAGNTEMEQCHVDAIVDTLDDFMSCFPWAEKKQDVKEQMFNELLTYNAPHLMQDLDTYLGGREWLIGMSVTWADFYWEICSTTLLVFKPDLLDNHPRLVTLRKKVQAIPAVANWIKRRPQTKL PNYKLTYFNMRGRAEIIRYIFAYLDIQYEDHRIEQADWPEIKSTLPFGKIPILEVDGLTLHQSLAIARYLTKNTDLAGNTEMEQCHVDAIVDTLDDFMSCFPWAEKKQDVKEQMFNELLTYNAPHLMQDLDTYLGGREWLIGMSVTWADFYWEICSTTLLVFKPDLLDNHPRLVTLRKKVQAIPAVANWIKRRPQTKL 1iyl-a6-m1-cD_1iyl-a6-m1-cC Crystal Structure of Candida albicans N-myristoyltransferase with Non-peptidic Inhibitor P30418 P30418 3.2 X-RAY DIFFRACTION 59 1.0 5476 (Candida albicans) 5476 (Candida albicans) 380 381 1iyk-a3-m1-cA_1iyk-a3-m1-cB 1iyl-a5-m1-cB_1iyl-a5-m1-cA VPNDPLPLISDFEWSTLDIDDNLQLDELYKLLYDNYVEDIDATFRFKYSHEFFQWALKPPGWRKDWHVGVRVKSTGKLVAFIAATPVTFKLNKSNKVIDSVEINFLCIHKKLRNKRLAPVLIKEITRRVNKQNIWQALYTGGSILPTPLTTCRYQHRPINWSKLHDVGFSHLPPNQTKSSMVASYTLPNNPKLKGLRPMTGKDVSTVLSLLYKYQERFDIVQLFTEEEFKHWMLGHDENSDSNVVKSYVVEDENGIITDYFSYYLLPFTVLDNAQHDELGIAYLFYYASDSFEKPNYKKRLNELITDALITSKKFGVDVFNCLTCQDNTYFLKDCKFGSGDGFLNYYLFNYRTFPMDGGIDKKTKEVVEDQTSGIGVVLL DVPNDPLPLISDFEWSTLDIDDNLQLDELYKLLYDNYVEDIDATFRFKYSHEFFQWALKPPGWRKDWHVGVRVKSTGKLVAFIAATPVTFKLNKSNKVIDSVEINFLCIHKKLRNKRLAPVLIKEITRRVNKQNIWQALYTGGSILPTPLTTCRYQHRPINWSKLHDVGFSHLPPNQTKSSMVASYTLPNNPKLKGLRPMTGKDVSTVLSLLYKYQERFDIVQLFTEEEFKHWMLGHDENSDSNVVKSYVVEDENGIITDYFSYYLLPFTVLDNAQHDELGIAYLFYYASDSFEKPNYKKRLNELITDALITSKKFGVDVFNCLTCQDNTYFLKDCKFGSGDGFLNYYLFNYRTFPMDGGIDKKTKEVVEDQTSGIGVVLL 1iyx-a1-m1-cA_1iyx-a1-m1-cB Crystal structure of enolase from Enterococcus hirae Q8GR70 Q8GR70 2.8 X-RAY DIFFRACTION 108 1.0 1354 (Enterococcus hirae) 1354 (Enterococcus hirae) 431 431 SIITDVYAREILDSRGNPTIEVEVYTESGAFGRGMVPSGASTGEYEAVELRDGDKARYGGKGVTKAVDNVNNIIAEAIIGYDVRDQMAIDKAMIALDGTPNKGKLGANAILGVSIAVARAAADYLEVPLYHYLGGFNTKVLPTPMMNIINGGSHADNSIDFQEFMIMPVGAPTFKEALRMGAEVFHALAAILKSRGLATSVGDEGGFAPNLGSNEEGFEVIIEAIEKAGYVPGKDVVLAMDAASSEFYDKEKGVYVLADSGEGEKTTDEMIKFYEELVSKYPIISIEDGLDENDWDGFKKLTDVLGDKVQLVGDDLFVTNTQKLSEGIEKGIANSILIKVNQIGTLTETFEAIEMAKEAGYTAVVSHRSGETEDSTISDIAVATNAGQIKTGSLSRTDRIAKYNQLLRIEDQLGEVAEYKGLKSFYNLKAA SIITDVYAREILDSRGNPTIEVEVYTESGAFGRGMVPSGASTGEYEAVELRDGDKARYGGKGVTKAVDNVNNIIAEAIIGYDVRDQMAIDKAMIALDGTPNKGKLGANAILGVSIAVARAAADYLEVPLYHYLGGFNTKVLPTPMMNIINGGSHADNSIDFQEFMIMPVGAPTFKEALRMGAEVFHALAAILKSRGLATSVGDEGGFAPNLGSNEEGFEVIIEAIEKAGYVPGKDVVLAMDAASSEFYDKEKGVYVLADSGEGEKTTDEMIKFYEELVSKYPIISIEDGLDENDWDGFKKLTDVLGDKVQLVGDDLFVTNTQKLSEGIEKGIANSILIKVNQIGTLTETFEAIEMAKEAGYTAVVSHRSGETEDSTISDIAVATNAGQIKTGSLSRTDRIAKYNQLLRIEDQLGEVAEYKGLKSFYNLKAA 1iyz-a1-m1-cA_1iyz-a1-m2-cA Crystal Structures of the Quinone Oxidoreductase from Thermus thermophilus HB8 and Its Complex with NADPH Q8L3C8 Q8L3C8 2.8 X-RAY DIFFRACTION 30 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 299 299 MKAWVLKRLGGPLELVDLPEPEAEEGEVVLRVEAVGLNFADHLMRLGAYLTRLHPPFIPGMEVVGVVEGRRYAALVPQGGLAERVAVPKGALLPLPEGLSPEEAAAFPVSFLTAYLALKRAQARPGEKVLVQAAAGALGTAAVQVARAMGLRVLAAASRPEKLALPLALGAEEAATYAEVPERAKAWGGLDLVLEVRGKEVEESLGLLAHGGRLVYIGAAEAPIPPLRLMRRNLAVLGFWLTPLLREGALVEEALGFLLPRLGRELRPVVGPVFPFAEAEAAFRALLDRGHTGKVVVRL MKAWVLKRLGGPLELVDLPEPEAEEGEVVLRVEAVGLNFADHLMRLGAYLTRLHPPFIPGMEVVGVVEGRRYAALVPQGGLAERVAVPKGALLPLPEGLSPEEAAAFPVSFLTAYLALKRAQARPGEKVLVQAAAGALGTAAVQVARAMGLRVLAAASRPEKLALPLALGAEEAATYAEVPERAKAWGGLDLVLEVRGKEVEESLGLLAHGGRLVYIGAAEAPIPPLRLMRRNLAVLGFWLTPLLREGALVEEALGFLLPRLGRELRPVVGPVFPFAEAEAAFRALLDRGHTGKVVVRL 1izm-a1-m1-cA_1izm-a1-m2-cA Structure of ygfB from Haemophilus influenzae (HI0817), a Conserved Hypothetical Protein P44882 P44882 1.95 X-RAY DIFFRACTION 85 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 168 168 LISHSDNQQLKSAGIGFNATELHGFLSGLLCGGLKDQSWLPLLYQFSNDNHAYPTGLVQPVTELYEQISQTLSDVEGFTFELGLTEDENVFTQADSLSDWANQFLLGIGLAQPELAKEKGEIGEAVDDLQDICQLGYDEDDNEEELAEALEEIIEYVRTIALFYSHFN LISHSDNQQLKSAGIGFNATELHGFLSGLLCGGLKDQSWLPLLYQFSNDNHAYPTGLVQPVTELYEQISQTLSDVEGFTFELGLTEDENVFTQADSLSDWANQFLLGIGLAQPELAKEKGEIGEAVDDLQDICQLGYDEDDNEEELAEALEEIIEYVRTIALFYSHFN 1izy-a1-m1-cA_1izy-a1-m1-cB Crystal structure of Hsp31 P31658 P31658 2.8 X-RAY DIFFRACTION 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 276 276 SKNPQVDIAEDNAFFPSEYSLSQYTSPVSDLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPQKDEKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAY SKNPQVDIAEDNAFFPSEYSLSQYTSPVSDLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPQKDEKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAY 1j00-a2-m1-cA_1j00-a2-m2-cA E. coli Thioesterase I/Protease I/Lysophospholipase L1 in complexed with diethyl phosphono moiety P0ADA1 P0ADA1 2 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 176 176 1ivn-a2-m1-cA_1ivn-a2-m2-cA 1jrl-a2-m1-cA_1jrl-a2-m2-cA 1u8u-a2-m1-cA_1u8u-a2-m2-cA 1v2g-a2-m1-cA_1v2g-a2-m2-cA ADTLLILGDLSAGYRMSASAAWPALLNDKWSKTSVVNASISGDTSQQGLARLPALLKQHQPRWVLVELGGNDGLRGFQPQQTEQTLRQILQDVKAANAEPLLMQIRLPANYGRRYNEAFSAIYPKLAKEFDVPLLPFFMEEVYLKPQWMQDDGIHPNRDAQPFIADWMAKQLQPLV ADTLLILGDLSAGYRMSASAAWPALLNDKWSKTSVVNASISGDTSQQGLARLPALLKQHQPRWVLVELGGNDGLRGFQPQQTEQTLRQILQDVKAANAEPLLMQIRLPANYGRRYNEAFSAIYPKLAKEFDVPLLPFFMEEVYLKPQWMQDDGIHPNRDAQPFIADWMAKQLQPLV 1j05-a3-m2-cL_1j05-a3-m1-cA The crystal structure of anti-carcinoembryonic antigen monoclonal antibody T84.66 Fv fragment P01660 P01660 1.5 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 111 111 DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIK DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIK 1j0j-a1-m1-cA_1j0j-a1-m1-cB Crystal structure of neopullulanase E357Q complex with maltotetraose P38940 P38940 2.8 X-RAY DIFFRACTION 120 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 588 588 1j0h-a1-m1-cA_1j0h-a1-m1-cB 1j0i-a1-m1-cA_1j0i-a1-m1-cB 1j0k-a1-m1-cA_1j0k-a1-m1-cB MRKEAIYHRPADNFAYAYDSETLHLRLRTKKDDIDRVELLHGDPYDWQNGAWQFQMMPMRKTGSDELFDYWFAEVKPPYRRLRYGFVLYSGEEKLVYTEKGFYFEVPTDDTAYYFCFPFLHRVDLFEAPDWVKDTVWYQIFPERFANGNPSISPEGSRPWGSEDPTPTSFFGGDLQGIIDHLDYLVDLGITGIYLTPIFRSPSNHKYDTADYFEVDPHFGDKETLKTLIDRCHEKGIRVMLDAVFNHCGYEFAPFQDVWKNGESSKYKDWFHIHEFPLQTEPRPNYDTFAFVPQMPKLNTANPEVKRYLLDVATYWIREFDIDGWRLDVANEIDHEFWREFRQEVKALKPDVYILGQIWHDAMPWLRGDQFDAVMNYPFTDGVLRFFAKEEISARQFANQMMHVLHSYPNNVNEAAFNLLGSHDTSRILTVCGGDIRKVKLLFLFQLTFTGSPCIYYGDEIGMTGGNDPECRKCMVWDPMQQNKELHQHVKQLIALRKQYRSLRRGEISFLHADDEMNYLIYKKTDGDETVLVIINRSDQKADIPIPLDARGTWLVNLLTGERFAAEAETLCTSLPPYGFVLYAIEHW MRKEAIYHRPADNFAYAYDSETLHLRLRTKKDDIDRVELLHGDPYDWQNGAWQFQMMPMRKTGSDELFDYWFAEVKPPYRRLRYGFVLYSGEEKLVYTEKGFYFEVPTDDTAYYFCFPFLHRVDLFEAPDWVKDTVWYQIFPERFANGNPSISPEGSRPWGSEDPTPTSFFGGDLQGIIDHLDYLVDLGITGIYLTPIFRSPSNHKYDTADYFEVDPHFGDKETLKTLIDRCHEKGIRVMLDAVFNHCGYEFAPFQDVWKNGESSKYKDWFHIHEFPLQTEPRPNYDTFAFVPQMPKLNTANPEVKRYLLDVATYWIREFDIDGWRLDVANEIDHEFWREFRQEVKALKPDVYILGQIWHDAMPWLRGDQFDAVMNYPFTDGVLRFFAKEEISARQFANQMMHVLHSYPNNVNEAAFNLLGSHDTSRILTVCGGDIRKVKLLFLFQLTFTGSPCIYYGDEIGMTGGNDPECRKCMVWDPMQQNKELHQHVKQLIALRKQYRSLRRGEISFLHADDEMNYLIYKKTDGDETVLVIINRSDQKADIPIPLDARGTWLVNLLTGERFAAEAETLCTSLPPYGFVLYAIEHW 1j0r-a1-m1-cA_1j0r-a1-m2-cA Crystal structure of the replication termination protein mutant C110S P0CI76 P0CI76 2.5 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 114 114 1bm9-a1-m1-cA_1bm9-a1-m2-cA 1bm9-a2-m1-cB_1bm9-a2-m3-cB 1f4k-a1-m1-cA_1f4k-a1-m1-cB 1j0r-a2-m1-cB_1j0r-a2-m3-cB 2dpd-a1-m1-cA_2dpd-a1-m1-cB 2dpu-a1-m1-cA_2dpu-a1-m2-cA 2efw-a1-m1-cA_2efw-a1-m1-cB 2efw-a2-m1-cG_2efw-a2-m1-cF TGFLVKQRAFLKLYMITMTEQERLYGLKLLEVLRSEFKEIGFKPNHTEVYRSLHELLDDGILKQIKVKKEGAKLQEVVLYQFKDYEAAKLYKKQLKVELDRSKKLIEKALSDNF TGFLVKQRAFLKLYMITMTEQERLYGLKLLEVLRSEFKEIGFKPNHTEVYRSLHELLDDGILKQIKVKKEGAKLQEVVLYQFKDYEAAKLYKKQLKVELDRSKKLIEKALSDNF 1j1i-a1-m1-cA_1j1i-a1-m2-cA Crystal structure of a His-tagged Serine Hydrolase Involved in the Carbazole Degradation (CarC enzyme) Q84II3 Q84II3 1.86 X-RAY DIFFRACTION 55 1.0 29580 (Janthinobacterium) 29580 (Janthinobacterium) 258 258 AYVERFVNAGGVETRYLEAGKGQPVILIHGGGAGAESEGNWRNVIPILARHYRVIAMDMLGFGKTAKPDIEYTQDRRIRHLHDFIKAMNFDGKVSIVGNSMGGATGLGVSVLHSELVNALVLMGSAGLVVEYDFTREGMVHLVKALTNDGFKIDDAMINSRYTYATDEATRKAYVATMQWIREQGGLFYDPEFIRKVQVPTLVVQGKDDKVVPVETAYKFLDLIDDSWGYIIPHCGHWAMIEHPEDFANATLSFLSLR AYVERFVNAGGVETRYLEAGKGQPVILIHGGGAGAESEGNWRNVIPILARHYRVIAMDMLGFGKTAKPDIEYTQDRRIRHLHDFIKAMNFDGKVSIVGNSMGGATGLGVSVLHSELVNALVLMGSAGLVVEYDFTREGMVHLVKALTNDGFKIDDAMINSRYTYATDEATRKAYVATMQWIREQGGLFYDPEFIRKVQVPTLVVQGKDDKVVPVETAYKFLDLIDDSWGYIIPHCGHWAMIEHPEDFANATLSFLSLR 1j1y-a1-m1-cB_1j1y-a1-m2-cB Crystal Structure of PaaI from Thermus thermophilus HB8 Q5SJP3 Q5SJP3 1.7 X-RAY DIFFRACTION 111 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 115 115 1j1y-a1-m1-cA_1j1y-a1-m2-cA 1wlu-a1-m1-cA_1wlu-a1-m3-cA 1wlu-a1-m2-cA_1wlu-a1-m4-cA 1wlv-a1-m1-cC_1wlv-a1-m1-cA 1wlv-a1-m1-cD_1wlv-a1-m1-cB 1wlv-a2-m1-cE_1wlv-a2-m1-cG 1wlv-a2-m1-cF_1wlv-a2-m1-cH 1wm6-a1-m1-cA_1wm6-a1-m1-cC 1wm6-a1-m1-cB_1wm6-a1-m1-cD 1wm6-a2-m1-cE_1wm6-a2-m1-cG 1wm6-a2-m1-cH_1wm6-a2-m1-cF 1wn3-a1-m1-cB_1wn3-a1-m1-cD 1wn3-a1-m1-cC_1wn3-a1-m1-cA 1wn3-a2-m1-cE_1wn3-a2-m1-cG 1wn3-a2-m1-cF_1wn3-a2-m1-cH 2dsl-a1-m1-cA_2dsl-a1-m2-cA 2dsl-a1-m1-cB_2dsl-a1-m2-cB DPFMEALGLKVLHLAPGEAVVAGEVRADHLNLHGTAHGGFLYALADSAFALASNTRGPAVALSCRMDYFRPLGAGARVEARAVEVNLSRRTATYRVEVVSEGKLVALFTGTVFRL DPFMEALGLKVLHLAPGEAVVAGEVRADHLNLHGTAHGGFLYALADSAFALASNTRGPAVALSCRMDYFRPLGAGARVEARAVEVNLSRRTATYRVEVVSEGKLVALFTGTVFRL 1j25-a1-m1-cA_1j25-a1-m2-cA Crystal structure of archaeal XPF/Mus81 homolog, Hef from Pyrococcus furiosus, nuclease domain, Mn cocrystal Q8TZH8 Q8TZH8 1.78 X-RAY DIFFRACTION 55 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 133 133 1j22-a1-m1-cA_1j22-a1-m2-cA 1j23-a1-m1-cA_1j23-a1-m2-cA 1j24-a1-m1-cA_1j24-a1-m2-cA GVKVVVDSRELRSEVVKRLKLLGVKLEVKTLDVGDYIISEDVAIERKSANDLIQSIIDGGLFDQVKRLKEAYSRPIMIVEGSLYGIRNVHPNAIRGAIAAVTVDFGVPIIFSSTPEETAQYIFLIAKREQEER GVKVVVDSRELRSEVVKRLKLLGVKLEVKTLDVGDYIISEDVAIERKSANDLIQSIIDGGLFDQVKRLKEAYSRPIMIVEGSLYGIRNVHPNAIRGAIAAVTVDFGVPIIFSSTPEETAQYIFLIAKREQEER 1j27-a2-m1-cA_1j27-a2-m2-cA Crystal structure of a hypothetical protein, TT1725, from Thermus thermophilus HB8 at 1.7A resolution Q84BR1 Q84BR1 1.7 X-RAY DIFFRACTION 80 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 98 98 MKAYLGLYTARLETPARSLKEKRALIKPALERLKARFPVSAARLYGLDAWGYEVVGFTLLGNDPAWVEETMRAAARFLAEAGGFQVALEEFRLEAFEL MKAYLGLYTARLETPARSLKEKRALIKPALERLKARFPVSAARLYGLDAWGYEVVGFTLLGNDPAWVEETMRAAARFLAEAGGFQVALEEFRLEAFEL 1j2r-a1-m1-cB_1j2r-a1-m1-cD Crystal structure of Escherichia coli gene product Yecd at 1.3 A resolution P0ADI7 P0ADI7 1.3 X-RAY DIFFRACTION 40 1.0 562 (Escherichia coli) 562 (Escherichia coli) 185 188 1j2r-a1-m1-cC_1j2r-a1-m1-cA LNAKTTALVVIDLQEGILPFAGGPHTADEVVNRAGKLAAKFRASGQPVFLVRVGWSADYAEALKQPVDAPSPAKVLPENWWQHPAALGTTDSDIEIIKRQWGAFYGTDLELQLRRRGIDTIVLCGISTNIGVESTARNAWELGFNLVIAEDACSAASAEQHNNSINHIYPRIARVRSVEEILNAL MLELNAKTTALVVIDLQEGILPFAGGPHTADEVVNRAGKLAAKFRASGQPVFLVRVGWSADYAEALKQPVDAPSPAKVLPENWWQHPAALGTTDSDIEIIKRQWGAFYGTDLELQLRRRGIDTIVLCGISTNIGVESTARNAWELGFNLVIAEDACSAASAEQHNNSINHIYPRIARVRSVEEILNAL 1j2r-a3-m1-cC_1j2r-a3-m1-cD Crystal structure of Escherichia coli gene product Yecd at 1.3 A resolution P0ADI7 P0ADI7 1.3 X-RAY DIFFRACTION 92 1.0 562 (Escherichia coli) 562 (Escherichia coli) 187 188 1j2r-a1-m1-cB_1j2r-a1-m1-cA 1j2r-a1-m1-cC_1j2r-a1-m1-cD 1j2r-a2-m1-cB_1j2r-a2-m1-cA LELNAKTTALVVIDLQEGILPFAGGPHTADEVVNRAGKLAAKFRASGQPVFLVRVGWSADYAEALKQPVDAPSPAKVLPENWWQHPAALGTTDSDIEIIKRQWGAFYGTDLELQLRRRGIDTIVLCGISTNIGVESTARNAWELGFNLVIAEDACSAASAEQHNNSINHIYPRIARVRSVEEILNAL MLELNAKTTALVVIDLQEGILPFAGGPHTADEVVNRAGKLAAKFRASGQPVFLVRVGWSADYAEALKQPVDAPSPAKVLPENWWQHPAALGTTDSDIEIIKRQWGAFYGTDLELQLRRRGIDTIVLCGISTNIGVESTARNAWELGFNLVIAEDACSAASAEQHNNSINHIYPRIARVRSVEEILNAL 1j31-a1-m1-cA_1j31-a1-m1-cB Crystal Structure of Hypothetical Protein PH0642 from Pyrococcus horikoshii O58376 O58376 1.6 X-RAY DIFFRACTION 96 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 255 255 1j31-a2-m1-cC_1j31-a2-m1-cD 6ypa-a1-m1-cA_6ypa-a1-m1-cB 6ypa-a2-m1-cC_6ypa-a2-m1-cD 7ovg-a1-m1-cA_7ovg-a1-m1-cB VKVGYIQEPKILELDKNYSKAEKLIKEASKEGAKLVVLPELFDTGYNFESREEVFDVAQQIPEGETTTFLELARELGLYIVAGTAEKSGNYLYNSAVVVGPRGYIGKYRKIHLFYREKVFFEPGDLGFKVFDIGFAKVGVICFDWFFPESARTLALKGAEIIAHPANLVPYAPRAPIRALENRVYTITADRVGEERGLKFIGKSLIASPKAEVLSIASETEEEIGVVEIDLNLARNKRLNDNDIFKDRREEYYFR VKVGYIQEPKILELDKNYSKAEKLIKEASKEGAKLVVLPELFDTGYNFESREEVFDVAQQIPEGETTTFLELARELGLYIVAGTAEKSGNYLYNSAVVVGPRGYIGKYRKIHLFYREKVFFEPGDLGFKVFDIGFAKVGVICFDWFFPESARTLALKGAEIIAHPANLVPYAPRAPIRALENRVYTITADRVGEERGLKFIGKSLIASPKAEVLSIASETEEEIGVVEIDLNLARNKRLNDNDIFKDRREEYYFR 1j32-a1-m1-cA_1j32-a1-m1-cB Aspartate Aminotransferase from Phormidium lapideum Q8RR70 Q8RR70 2.1 X-RAY DIFFRACTION 174 1.0 32060 (Phormidium lapideum) 32060 (Phormidium lapideum) 388 388 MKLAARVESVSPSMTLIIDAKAKAMKAEGIDVCSFSAGEPDFNTPKHIVEAAKAALEQGKTRYGPAAGEPRLREAIAQKLQRDNGLCYGADNILVTNGGKQSIFNLMLAMIEPGDEVIIPAPFWVSYPEMVKLAEGTPVILPTTVETQFKVSPEQIRQAITPKTKLLVFNTPSNPTGMVYTPDEVRAIAQVAVEAGLWVLSDEIYEKILYDDAQHLSIGAASPEAYERSVVCSGFAKTYAMTGWRVGFLAGPVPLVKAATKIQGHSTSNVCTFAQYGAIAAYENSQDCVQEMLAAFAERRRYMLDALNAMPGLECPKPDGAFYMFPSIAKTGRSSLDFCSELLDQHQVATVPGAAFGADDCIRLSYATDLDTIKRGMERLEKFLHGIL MKLAARVESVSPSMTLIIDAKAKAMKAEGIDVCSFSAGEPDFNTPKHIVEAAKAALEQGKTRYGPAAGEPRLREAIAQKLQRDNGLCYGADNILVTNGGKQSIFNLMLAMIEPGDEVIIPAPFWVSYPEMVKLAEGTPVILPTTVETQFKVSPEQIRQAITPKTKLLVFNTPSNPTGMVYTPDEVRAIAQVAVEAGLWVLSDEIYEKILYDDAQHLSIGAASPEAYERSVVCSGFAKTYAMTGWRVGFLAGPVPLVKAATKIQGHSTSNVCTFAQYGAIAAYENSQDCVQEMLAAFAERRRYMLDALNAMPGLECPKPDGAFYMFPSIAKTGRSSLDFCSELLDQHQVATVPGAAFGADDCIRLSYATDLDTIKRGMERLEKFLHGIL 1j3b-a1-m1-cA_1j3b-a1-m1-cB Crystal structure of ATP-dependent phosphoenolpyruvate carboxykinase from Thermus thermophilus HB8 Q5SLL5 Q5SLL5 2 X-RAY DIFFRACTION 75 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 513 518 1xkv-a1-m1-cA_1xkv-a1-m1-cB QRLEALGIHPKKRVFWNTVSPVLVEHTLLRGEGLLAHHGPLVVDTTPYTGRSPKDKFVVREPEVEGEIWWGEVNQPFAPEAFEALYQRVVQYLSERDLYVQDLYAGADRRYRLAVRVVTESPWHALFARNMFILPRRFGAFVPGFTVVHAPYFQAVPERDGTRSEVFVGISFQRRLVLIVGTKYAGEIKKSIFTVMNYLMPKRGVFPMHASANVGKEGDVAVFFGLSGTGKTTLSTDPERPLIGDDEHGWSEDGVFNFEGGCYAKVIRLSPEHEPLIYKASNQFEAILENVVVNPESRRVQWDDDSKTENTRSSYPIAHLENVVESGVAGHPRAIFFLSADAYGVLPPIARLSPEEAMYYFLSGYTARVPRATFSACFGAPFLPMHPGVYARMLGEKIRKHAPRVYLVNTGWTGGPYGVGYRFPLPVTRALLKAALSGALENVPYRRDPVFGFEVPLEAPGVPQELLNPRETWADKEAYDQQARKLARLFQENFQKYASGVAKEVAEAGPRTE QRLEALGIHPKKRVFWNTVSPVLVEHTLLRGEGLLAHHGPLVVDTTPYTGRSPKDKFVVREPEVEGEIWWGEVNQPFAPEAFEALYQRVVQYLSERDLYVQDLYAGADRRYRLAVRVVTESPWHALFARNMFILPRRFGNDDEVEAFVPGFTVVHAPYFQAVPERDGTRSEVFVGISFQRRLVLIVGTKYAGEIKKSIFTVMNYLMPKRGVFPMHASANVGKEGDVAVFFGLSGTGKTTLSTDPERPLIGDDEHGWSEDGVFNFEGGCYAKVIRLSPEHEPLIYKASNQFEAILENVVVNPESRRVQWDDDSKTENTRSSYPIAHLENVVESGVAGHPRAIFFLSADAYGVLPPIARLSPEEAMYYFLSGYTARVPRATFSACFGAPFLPMHPGVYARMLGEKIRKHAPRVYLVNTGWTGGPYGVGYRFPLPVTRALLKAALSGALENVPYRRDPVFGFEVPLEAPGVPQELLNPRETWADKEAYDQQARKLARLFQENFQKYASGVAKEVAEAGPRT 1j3l-a2-m1-cF_1j3l-a2-m1-cE Structure of the RNA-processing inhibitor RraA from Thermus thermophilis Q5SIP7 Q5SIP7 2.3 X-RAY DIFFRACTION 44 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 156 163 1j3l-a1-m1-cA_1j3l-a1-m1-cB 1j3l-a1-m1-cC_1j3l-a1-m1-cA 1j3l-a1-m1-cC_1j3l-a1-m1-cB 1j3l-a2-m1-cD_1j3l-a2-m1-cE 1j3l-a2-m1-cF_1j3l-a2-m1-cD MEARTTDLSDLYPEGEALPVFKSFGGRARFAGRVRTLRVFEDNALVRKVLEEEGAGQVLFVDGGGSLRTALLGGNLARRAWEKGWAGVVVHGAVRDTEELREVPIGLLALAATPKKSAKEGKGEVDVPLKVLGVEVLPGSFLLADEDGLLLLPEPP MEARTTDLSDLYPEGEALPVFKSFGGRARFAGRVRTLRVFEDNALVRKVLEEEGAGQVLFVDGGGSLRTALLGGNLARRAWEKGWAGVVVHGAVRDTEELREVPIGLLALAATPKKSAKEGKGEVDVPLKVLGVEVLPGSFLLADEDGLLLLPEPPSGVRSGG 1j3m-a1-m1-cA_1j3m-a1-m1-cB Crystal structure of the conserved hypothetical protein TT1751 from Thermus thermophilus HB8 Q84BQ8 Q84BQ8 2 X-RAY DIFFRACTION 91 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 127 127 GMRKTLKATLAEARAQVEAALKEEGFGILTEIDVAATLKAKLGLEKPPYLILGACNPNLAARALEALPEIGLLLPCNVVLREAEEGVEVLIQDPKEMFRVLPEATQRALAPVAEEARTRLSRALSRL GMRKTLKATLAEARAQVEAALKEEGFGILTEIDVAATLKAKLGLEKPPYLILGACNPNLAARALEALPEIGLLLPCNVVLREAEEGVEVLIQDPKEMFRVLPEATQRALAPVAEEARTRLSRALSRL 1j3n-a2-m1-cA_1j3n-a2-m2-cB Crystal Structure of 3-oxoacyl-(acyl-carrier protein) Synthase II from Thermus thermophilus HB8 Q5SL80 Q5SL80 2 X-RAY DIFFRACTION 15 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 408 408 1j3n-a2-m1-cB_1j3n-a2-m2-cA MRRVVVTGLGALTPIGVGQEAFHKAQLAGKSGVRPITRFDASALPVRIAAEVDVDPGAYLDRKELRRLDRFVQYALIAAQLALEDAGLKPEDLDPERVGTLVGTGIGGMETWEAQSRVFLERGPNRISPFFIPMMIANMASAHIAMRYGFTGPSSTVVTACATGADALGSALRMIQLGEADLVLAGGTEAAITPMAIGAFAVMRALSTRNEEPEKASRPFTLSRDGFVMGEGAGVLVLEAYEHAKKRGARIYAELVGFGRSADAHHITEPHPEGKGAALAMARALKDAGIAPEQVGYINAHGTSTPVGDRAEVLAIKRVFGDHAKRLMVSSTKSMIGHLLGAAGAVEAIATVQALYHGVIPPTINLEDPDPELDLDFVPEPREAKVDYALSNSFAFGGHNAVLAFKRV MRRVVVTGLGALTPIGVGQEAFHKAQLAGKSGVRPITRFDASALPVRIAAEVDVDPGAYLDRKELRRLDRFVQYALIAAQLALEDAGLKPEDLDPERVGTLVGTGIGGMETWEAQSRVFLERGPNRISPFFIPMMIANMASAHIAMRYGFTGPSSTVVTACATGADALGSALRMIQLGEADLVLAGGTEAAITPMAIGAFAVMRALSTRNEEPEKASRPFTLSRDGFVMGEGAGVLVLEAYEHAKKRGARIYAELVGFGRSADAHHITEPHPEGKGAALAMARALKDAGIAPEQVGYINAHGTSTPVGDRAEVLAIKRVFGDHAKRLMVSSTKSMIGHLLGAAGAVEAIATVQALYHGVIPPTINLEDPDPELDLDFVPEPREAKVDYALSNSFAFGGHNAVLAFKRV 1j3n-a2-m2-cA_1j3n-a2-m2-cB Crystal Structure of 3-oxoacyl-(acyl-carrier protein) Synthase II from Thermus thermophilus HB8 Q5SL80 Q5SL80 2 X-RAY DIFFRACTION 267 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 408 408 1j3n-a1-m1-cA_1j3n-a1-m1-cB 1j3n-a2-m1-cA_1j3n-a2-m1-cB MRRVVVTGLGALTPIGVGQEAFHKAQLAGKSGVRPITRFDASALPVRIAAEVDVDPGAYLDRKELRRLDRFVQYALIAAQLALEDAGLKPEDLDPERVGTLVGTGIGGMETWEAQSRVFLERGPNRISPFFIPMMIANMASAHIAMRYGFTGPSSTVVTACATGADALGSALRMIQLGEADLVLAGGTEAAITPMAIGAFAVMRALSTRNEEPEKASRPFTLSRDGFVMGEGAGVLVLEAYEHAKKRGARIYAELVGFGRSADAHHITEPHPEGKGAALAMARALKDAGIAPEQVGYINAHGTSTPVGDRAEVLAIKRVFGDHAKRLMVSSTKSMIGHLLGAAGAVEAIATVQALYHGVIPPTINLEDPDPELDLDFVPEPREAKVDYALSNSFAFGGHNAVLAFKRV MRRVVVTGLGALTPIGVGQEAFHKAQLAGKSGVRPITRFDASALPVRIAAEVDVDPGAYLDRKELRRLDRFVQYALIAAQLALEDAGLKPEDLDPERVGTLVGTGIGGMETWEAQSRVFLERGPNRISPFFIPMMIANMASAHIAMRYGFTGPSSTVVTACATGADALGSALRMIQLGEADLVLAGGTEAAITPMAIGAFAVMRALSTRNEEPEKASRPFTLSRDGFVMGEGAGVLVLEAYEHAKKRGARIYAELVGFGRSADAHHITEPHPEGKGAALAMARALKDAGIAPEQVGYINAHGTSTPVGDRAEVLAIKRVFGDHAKRLMVSSTKSMIGHLLGAAGAVEAIATVQALYHGVIPPTINLEDPDPELDLDFVPEPREAKVDYALSNSFAFGGHNAVLAFKRV 1j3q-a1-m1-cB_1j3q-a1-m1-cA Crystal structure of Thermococcus litoralis phosphogrucose isomerase soaked with FeSO4 P84140 P84140 1.85 X-RAY DIFFRACTION 148 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 183 187 1j3p-a1-m1-cB_1j3p-a1-m1-cA 1j3r-a1-m1-cB_1j3r-a1-m1-cA YKEPFGVKLDFETGIIENAKKSVRRLSDMKGYFIDEEAWKKMVEEGDPVVYEVYAIEQEEKEGDLNFATTVLYPGKVGNEFFMTKGHYHSKIDRAEVYFALKGKGGMLLQTPEGEARFIEMEPGTIVYVPPYWAHRTINTGDKPFIFLALYPADAGHDYGTIAEKGFSKIVVEENGKVVVKDN MKYKEPFGVKLDFETGIIENAKKSVRRLSDMKGYFIDEEAWKKMVEEGDPVVYEVYAIEQEEKEGDLNFATTVLYPGKVGNEFFMTKGHYHSKIDRAEVYFALKGKGGMLLQTPEGEARFIEMEPGTIVYVPPYWAHRTINTGDKPFIFLALYPADAGHDYGTIAEKGFSKIVVEENGKVVVKDNPK 1j3w-a1-m1-cC_1j3w-a1-m1-cB Structure of Gliding protein-mglB from Thermus Thermophilus HB8 Q9X9L0 Q9X9L0 1.5 X-RAY DIFFRACTION 14 0.985 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 135 1j3w-a1-m1-cD_1j3w-a1-m1-cA 3t1r-a3-m1-cA_3t1r-a3-m1-cD 3t1r-a3-m1-cB_3t1r-a3-m1-cC LVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEALA VEPSLVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEA 1j3w-a1-m1-cD_1j3w-a1-m1-cB Structure of Gliding protein-mglB from Thermus Thermophilus HB8 Q9X9L0 Q9X9L0 1.5 X-RAY DIFFRACTION 42 0.985 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 135 1j3w-a1-m1-cC_1j3w-a1-m1-cA 3t1r-a3-m1-cA_3t1r-a3-m1-cC 3t1r-a3-m1-cB_3t1r-a3-m1-cD LVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEALA VEPSLVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEA 1j3w-a2-m1-cD_1j3w-a2-m4-cB Structure of Gliding protein-mglB from Thermus Thermophilus HB8 Q9X9L0 Q9X9L0 1.5 X-RAY DIFFRACTION 14 0.985 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 135 1j3w-a2-m1-cC_1j3w-a2-m4-cA 1j3w-a2-m2-cC_1j3w-a2-m3-cA 1j3w-a2-m2-cD_1j3w-a2-m3-cB LVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEALA VEPSLVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEA 1j3w-a2-m2-cC_1j3w-a2-m2-cD Structure of Gliding protein-mglB from Thermus Thermophilus HB8 Q9X9L0 Q9X9L0 1.5 X-RAY DIFFRACTION 92 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 133 1j3w-a1-m1-cC_1j3w-a1-m1-cD 1j3w-a2-m1-cC_1j3w-a2-m1-cD 3t12-a1-m1-cB_3t12-a1-m1-cC 3t1q-a1-m1-cB_3t1q-a1-m1-cC 3t1r-a2-m1-cD_3t1r-a2-m1-cC 3t1r-a3-m1-cD_3t1r-a3-m1-cC 3t1s-a1-m1-cA_3t1s-a1-m2-cA 3t1x-a1-m1-cA_3t1x-a1-m2-cA LVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEALA LVLYGAPYERAVEVLEETLRETGARYALLIDRKGFVLAHKEALWAPKPPPLDTLATLVAGNAAATQALAKLLGEARFQEEVHQGERMGLYVDEAGEHALLVLVFDETAPLGKVKLHGKRASEALARIAEEALA 1j4a-a1-m1-cA_1j4a-a1-m1-cB INSIGHTS INTO DOMAIN CLOSURE, SUBSTRATE SPECIFICITY AND CATALYSIS OF D-LACTATE DEHYDROGENASE FROM LACTOBACILLUS BULGARICUS P26297 P26297 1.9 X-RAY DIFFRACTION 180 1.0 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 331 331 1j49-a1-m1-cA_1j49-a1-m1-cB 1j4a-a2-m1-cC_1j4a-a2-m1-cD TKIFAYAIREDEKPFLKEWEDAHKDVEVEYTDKLLTPETVALAKGADGVVVYQQLDYIAETLQALADNGITKMSLRNVGVDNIDMAKAKELGFQITNVPVYSPNAIAEHAAIQAARILRQDKAMDEKVARHDLRWAPTIGREVRDQVVGVVGTGHIGQVFMQIMEGFGAKVITYDIFRNPELEKKGYYVDSLDDLYKQADVISLHVPDVPANVHMINDESIAKMKQDVVIVNVSRGPLVDTDAVIRGLDSGKIFGYAMDVYEGEVGIFNEDWEGKEFPDARLADLIARPNVLVTPKTAFYTTHAVRNMVVKAFDNNLELVEGKEAETPVKV TKIFAYAIREDEKPFLKEWEDAHKDVEVEYTDKLLTPETVALAKGADGVVVYQQLDYIAETLQALADNGITKMSLRNVGVDNIDMAKAKELGFQITNVPVYSPNAIAEHAAIQAARILRQDKAMDEKVARHDLRWAPTIGREVRDQVVGVVGTGHIGQVFMQIMEGFGAKVITYDIFRNPELEKKGYYVDSLDDLYKQADVISLHVPDVPANVHMINDESIAKMKQDVVIVNVSRGPLVDTDAVIRGLDSGKIFGYAMDVYEGEVGIFNEDWEGKEFPDARLADLIARPNVLVTPKTAFYTTHAVRNMVVKAFDNNLELVEGKEAETPVKV 1j55-a1-m1-cA_1j55-a1-m2-cA The Crystal Structure of Ca+-bound Human S100P Determined at 2.0A Resolution by X-ray P25815 P25815 2 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 1ozo-a1-m1-cA_1ozo-a1-m1-cB 2mjw-a1-m1-cB_2mjw-a1-m1-cD MTELETAMGMIIDVFSRYSGSEGSTQTLTKGELKVLMEKELPGFLDAVDKLLKDLDANGDAQVDFSEFIVFVAAITSACHKYFEKAGL MTELETAMGMIIDVFSRYSGSEGSTQTLTKGELKVLMEKELPGFLDAVDKLLKDLDANGDAQVDFSEFIVFVAAITSACHKYFEKAGL 1j5p-a1-m1-cA_1j5p-a1-m2-cA Crystal structure of aspartate dehydrogenase (TM1643) from Thermotoga maritima at 1.9 A resolution Q9X1X6 Q9X1X6 1.9 X-RAY DIFFRACTION 160 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 235 235 1h2h-a1-m1-cA_1h2h-a1-m2-cA HHMTVLIIGMGNIGKKLVELGNFEKIYAYDRISKDIPGVVRLDEFQVPSDVSTVVECASPEAVKEYSLQILKNPVNYIIISTSAFADEVFRERFFSELKNSPARVFFPSGAIGGLDVLSSIKDFVKNVRIETIKPPKSLGLDLKGKTVVFEGSVEEASKLFPRNINVASTIGLIVGFEKVKVTIVADPAMDHNIHIVRISSAIGNYEFKIENISMLTVYSILRTLRNLESKIIFG HHMTVLIIGMGNIGKKLVELGNFEKIYAYDRISKDIPGVVRLDEFQVPSDVSTVVECASPEAVKEYSLQILKNPVNYIIISTSAFADEVFRERFFSELKNSPARVFFPSGAIGGLDVLSSIKDFVKNVRIETIKPPKSLGLDLKGKTVVFEGSVEEASKLFPRNINVASTIGLIVGFEKVKVTIVADPAMDHNIHIVRISSAIGNYEFKIENISMLTVYSILRTLRNLESKIIFG 1j5s-a1-m1-cB_1j5s-a1-m1-cC Crystal structure of uronate isomerase (TM0064) from Thermotoga maritima at 2.85 A resolution Q9WXR9 Q9WXR9 2.85 X-RAY DIFFRACTION 139 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 450 450 1j5s-a1-m1-cB_1j5s-a1-m1-cA 1j5s-a1-m1-cC_1j5s-a1-m1-cA MFLGEDYLLTNRAAVRLFNEVKDLPIVDPHNHLDAKDIVENKPWNDIWEVEGATDHYVWELMRRCGVSEEYITGSRSNKEKWLALAKVFPRFVGNPTYEWIHLDLWRRFNIKKVISEETAEEIWEETKKKLPEMTPQKLLRDMKVEILCTTDDPVSTLEHHRKAKEAVEGVTILPTWRPDRAMNVDKEGWREYVEKMGERYGEDTSTLDGFLNALWKSHEHFKEHGCVASDHALLEPSVYYVDENRARAVHEKAFSGEKLTQDEINDYKAFMMVQFGKMNQETNWVTQLHIGALRDYRDSLFKTLGPDSGGDISTNFLRIAEGLRYFLNEFDGKLKIVLYVLDPTHLPTISTIARAFPNVYVGAPWWFNDSPFGMEMHLKYLASVDLLYNLAGMVTDSRKLLSFGSRTEMFRRVLSNVVGEMVEKGQIPIKEARELVKHVSYDGPKALFF MFLGEDYLLTNRAAVRLFNEVKDLPIVDPHNHLDAKDIVENKPWNDIWEVEGATDHYVWELMRRCGVSEEYITGSRSNKEKWLALAKVFPRFVGNPTYEWIHLDLWRRFNIKKVISEETAEEIWEETKKKLPEMTPQKLLRDMKVEILCTTDDPVSTLEHHRKAKEAVEGVTILPTWRPDRAMNVDKEGWREYVEKMGERYGEDTSTLDGFLNALWKSHEHFKEHGCVASDHALLEPSVYYVDENRARAVHEKAFSGEKLTQDEINDYKAFMMVQFGKMNQETNWVTQLHIGALRDYRDSLFKTLGPDSGGDISTNFLRIAEGLRYFLNEFDGKLKIVLYVLDPTHLPTISTIARAFPNVYVGAPWWFNDSPFGMEMHLKYLASVDLLYNLAGMVTDSRKLLSFGSRTEMFRRVLSNVVGEMVEKGQIPIKEARELVKHVSYDGPKALFF 1j5t-a2-m1-cA_1j5t-a2-m4-cA Crystal structure of indole-3-glycerol phosphate synthase (TM0140) from Thermotoga maritima at 3.0 A resolution Q56319 Q56319 3 X-RAY DIFFRACTION 23 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 233 233 1j5t-a2-m2-cA_1j5t-a2-m3-cA HHHMIVQRRNHRFLEVLSGKERVKIIAEFKKASPSAGDINADASLEDFIRMYDELADAISILTEKHYFKGDPAFVRAARNLTCRPILAKDFYIDTVQVKLASSVGADAILIIARILTAEQIKEIYEAAEELGMDSLVEVHSREDLEKVFSVIRPKIIGINTRDLDTFEIKKNVLWELLPLVPDDTVVVAESGIKDPRELKDLRGKVNAVLVGTSIMKAENPRRFLEEMRAWSE HHHMIVQRRNHRFLEVLSGKERVKIIAEFKKASPSAGDINADASLEDFIRMYDELADAISILTEKHYFKGDPAFVRAARNLTCRPILAKDFYIDTVQVKLASSVGADAILIIARILTAEQIKEIYEAAEELGMDSLVEVHSREDLEKVFSVIRPKIIGINTRDLDTFEIKKNVLWELLPLVPDDTVVVAESGIKDPRELKDLRGKVNAVLVGTSIMKAENPRRFLEEMRAWSE 1j5t-a2-m2-cA_1j5t-a2-m4-cA Crystal structure of indole-3-glycerol phosphate synthase (TM0140) from Thermotoga maritima at 3.0 A resolution Q56319 Q56319 3 X-RAY DIFFRACTION 77 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 233 233 1j5t-a2-m1-cA_1j5t-a2-m3-cA HHHMIVQRRNHRFLEVLSGKERVKIIAEFKKASPSAGDINADASLEDFIRMYDELADAISILTEKHYFKGDPAFVRAARNLTCRPILAKDFYIDTVQVKLASSVGADAILIIARILTAEQIKEIYEAAEELGMDSLVEVHSREDLEKVFSVIRPKIIGINTRDLDTFEIKKNVLWELLPLVPDDTVVVAESGIKDPRELKDLRGKVNAVLVGTSIMKAENPRRFLEEMRAWSE HHHMIVQRRNHRFLEVLSGKERVKIIAEFKKASPSAGDINADASLEDFIRMYDELADAISILTEKHYFKGDPAFVRAARNLTCRPILAKDFYIDTVQVKLASSVGADAILIIARILTAEQIKEIYEAAEELGMDSLVEVHSREDLEKVFSVIRPKIIGINTRDLDTFEIKKNVLWELLPLVPDDTVVVAESGIKDPRELKDLRGKVNAVLVGTSIMKAENPRRFLEEMRAWSE 1j5t-a2-m3-cA_1j5t-a2-m4-cA Crystal structure of indole-3-glycerol phosphate synthase (TM0140) from Thermotoga maritima at 3.0 A resolution Q56319 Q56319 3 X-RAY DIFFRACTION 68 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 233 233 1j5t-a2-m1-cA_1j5t-a2-m2-cA HHHMIVQRRNHRFLEVLSGKERVKIIAEFKKASPSAGDINADASLEDFIRMYDELADAISILTEKHYFKGDPAFVRAARNLTCRPILAKDFYIDTVQVKLASSVGADAILIIARILTAEQIKEIYEAAEELGMDSLVEVHSREDLEKVFSVIRPKIIGINTRDLDTFEIKKNVLWELLPLVPDDTVVVAESGIKDPRELKDLRGKVNAVLVGTSIMKAENPRRFLEEMRAWSE HHHMIVQRRNHRFLEVLSGKERVKIIAEFKKASPSAGDINADASLEDFIRMYDELADAISILTEKHYFKGDPAFVRAARNLTCRPILAKDFYIDTVQVKLASSVGADAILIIARILTAEQIKEIYEAAEELGMDSLVEVHSREDLEKVFSVIRPKIIGINTRDLDTFEIKKNVLWELLPLVPDDTVVVAESGIKDPRELKDLRGKVNAVLVGTSIMKAENPRRFLEEMRAWSE 1j5w-a1-m1-cA_1j5w-a1-m1-cB Crystal structure of Glycyl-tRNA synthetase alpha chain (TM0216) from Thermotoga maritima at 1.95 A resolution Q9WY59 Q9WY59 1.95 X-RAY DIFFRACTION 114 0.989 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 270 272 YLQDVIKLNDFWASKGCLLEQPYDEVGAGTFHPATFFGSLRKGPWKVAYVQPSRRPTENPNRLQRYFQYQVIIKPSPENSQELYLESLEYLGINLKEHDIRFVEDNWESPTLGAWGVGWEVWLDGEITQFTYFQQIGGISLKDIPLEITYGLERIAYLQGVDNVYEVQWNENVKYGDVFLENEREFSVFNFEEANVGLLFRHFDEYEKEFYRLVEKNLYLPAYDYILKCSHTFNLLDARGAISVSQRQTYVKRIQAARKAARVFLEVQAN YLQDVIKLNDFWASKGCLLEQPYDEVGAGTFHPATFFGSLRKGPWKVAYVQPSRRPTDGRYGENPNRLQRYFQYQVIIKPSPENSQELYLESLEYLGIKEHDIRFVEDNWESPTLGAWGVGWEVWLDGEITQFTYFQQIGGISLKDIPLEITYGLERIAYLQGVDNVYEVQWNENVKYGDVFLENEREFSVFNFEEANVGLLFRHFDEYEKEFYRLVEKNLYLPAYDYILKCSHTFNLLDARGAISVSQRQTYVKRIQAARKAARVFLEVQA 1j5x-a2-m1-cA_1j5x-a2-m2-cA Crystal structure of Glucosamine-6-phosphate deaminase (TM0813) from Thermotoga maritima at 1.8 A resolution Q9WZS0 Q9WZS0 1.8 X-RAY DIFFRACTION 137 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 312 312 SKTLKEITDQKNELKKFFENFVLNLEKITDEVLFVGCGSSYNLALTISYYFERVLKIRTKAIPAGEVAFQKIPDLEERGLAFLFSRTGNTTEVLLANDVLKKRNHRTIGITIEEESRLAKESDLPLVFPVREEAIVTKSFSILLSLFLADKIAGNSTERFSELVGYSPEFFDISWKVIEKIDLKEHDHFVFLGSEFFGVSLESALKCIESLTFSEAYSTLEYRHGPKALVKKGTLVFQKVSGDEQEKRLRKELESLGATVLEVGEGGDIPVSNDWKSAFLRTVPAQILGYQKAISRGISPDKPPHLEKTVVL SKTLKEITDQKNELKKFFENFVLNLEKITDEVLFVGCGSSYNLALTISYYFERVLKIRTKAIPAGEVAFQKIPDLEERGLAFLFSRTGNTTEVLLANDVLKKRNHRTIGITIEEESRLAKESDLPLVFPVREEAIVTKSFSILLSLFLADKIAGNSTERFSELVGYSPEFFDISWKVIEKIDLKEHDHFVFLGSEFFGVSLESALKCIESLTFSEAYSTLEYRHGPKALVKKGTLVFQKVSGDEQEKRLRKELESLGATVLEVGEGGDIPVSNDWKSAFLRTVPAQILGYQKAISRGISPDKPPHLEKTVVL 1j5y-a2-m1-cA_1j5y-a2-m4-cA Crystal structure of transcriptional regulator (TM1602) from Thermotoga maritima at 2.3 A resolution Q9X1T8 Q9X1T8 2.3 X-RAY DIFFRACTION 51 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 167 167 1j5y-a2-m2-cA_1j5y-a2-m3-cA KTVRQERLKSIVRILERSKEPVSGAQLAEELSVSRQVIVQDIAYLRSLGYNIVATPRGYVLAGGKSGVSRLVAVKHAPEEIKEELLCVVRNGGRIVDVIVEHPVYGEIRGIIDVSSEEEVLKFVNLEAKTEPLLTLSGGVHLHTIEAPDEETERIRELKKKGFLIEE KTVRQERLKSIVRILERSKEPVSGAQLAEELSVSRQVIVQDIAYLRSLGYNIVATPRGYVLAGGKSGVSRLVAVKHAPEEIKEELLCVVRNGGRIVDVIVEHPVYGEIRGIIDVSSEEEVLKFVNLEAKTEPLLTLSGGVHLHTIEAPDEETERIRELKKKGFLIEE 1j5y-a2-m2-cA_1j5y-a2-m4-cA Crystal structure of transcriptional regulator (TM1602) from Thermotoga maritima at 2.3 A resolution Q9X1T8 Q9X1T8 2.3 X-RAY DIFFRACTION 98 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 167 167 1j5y-a2-m1-cA_1j5y-a2-m3-cA KTVRQERLKSIVRILERSKEPVSGAQLAEELSVSRQVIVQDIAYLRSLGYNIVATPRGYVLAGGKSGVSRLVAVKHAPEEIKEELLCVVRNGGRIVDVIVEHPVYGEIRGIIDVSSEEEVLKFVNLEAKTEPLLTLSGGVHLHTIEAPDEETERIRELKKKGFLIEE KTVRQERLKSIVRILERSKEPVSGAQLAEELSVSRQVIVQDIAYLRSLGYNIVATPRGYVLAGGKSGVSRLVAVKHAPEEIKEELLCVVRNGGRIVDVIVEHPVYGEIRGIIDVSSEEEVLKFVNLEAKTEPLLTLSGGVHLHTIEAPDEETERIRELKKKGFLIEE 1j5y-a2-m3-cA_1j5y-a2-m4-cA Crystal structure of transcriptional regulator (TM1602) from Thermotoga maritima at 2.3 A resolution Q9X1T8 Q9X1T8 2.3 X-RAY DIFFRACTION 32 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 167 167 1j5y-a2-m1-cA_1j5y-a2-m2-cA KTVRQERLKSIVRILERSKEPVSGAQLAEELSVSRQVIVQDIAYLRSLGYNIVATPRGYVLAGGKSGVSRLVAVKHAPEEIKEELLCVVRNGGRIVDVIVEHPVYGEIRGIIDVSSEEEVLKFVNLEAKTEPLLTLSGGVHLHTIEAPDEETERIRELKKKGFLIEE KTVRQERLKSIVRILERSKEPVSGAQLAEELSVSRQVIVQDIAYLRSLGYNIVATPRGYVLAGGKSGVSRLVAVKHAPEEIKEELLCVVRNGGRIVDVIVEHPVYGEIRGIIDVSSEEEVLKFVNLEAKTEPLLTLSGGVHLHTIEAPDEETERIRELKKKGFLIEE 1j6x-a1-m1-cA_1j6x-a1-m1-cB CRYSTAL STRUCTURE OF HELICOBACTER PYLORI LUXS Q9ZMW8 Q9ZMW8 2.38 X-RAY DIFFRACTION 157 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 145 146 KNVESFNLDHTKVKAPYVRIADRKKGVNGDLIVKYDVRFKQPNRDHDPSLHSLEHLVAEIIRNHANYVVDWSPGCQTGFYLTVLNHDNYTEILEVLEKTQDVLKAKEVPASNEKQCGWAANHTLEGAQNLARAFLDKRAEWSEVG KNVESFNLDHTKVKAPYVRIADRKKGVNGDLIVKYDVRFKQPNRDHDPSLHSLEHLVAEIIRNHANYVVDWSPGCQTGFYLTVLNHDNYTEILEVLEKTQDVLKAKEVPASNEKQCGWAANHTLEGAQNLARAFLDKRAEWSEVGV 1j72-a2-m1-cA_1j72-a2-m2-cA Crystal Structure of Mutant Macrophage Capping Protein (Cap G) with Actin-severing Activity in the Ca2+-Free Form P40121 P40121 2.5 X-RAY DIFFRACTION 220 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 337 337 1jhw-a2-m1-cA_1jhw-a2-m2-cA PFPGSVQDPGLHVWRVEKLKPVPVAQENQGVFFSGDSYLVLHNGPEEVSHLHLWIGQQSSRDEQGACAVLAVQLDDYLGGRPVQHREVQGNESDLFMSYFPRGLKYQEGGVESGFKHVVPNEVVVQRLYQVKGKKNIRATERALNWDSFNTGDCFILDLGQNIFAWCGGKSNILERNKARDLALAIRDSERQGKAQVEIVTDGEEPAEMIQVLGPKPALKEGNPEEDLTADKANAQAAALYKVSDATGQMNLTKVADSSPFALELLISDDCFVLDNGLCGKIYIWKGRKANEKERQAALQVAEGFISRMQYAPNTQVEILPQGRESPIFKQFFKDWK PFPGSVQDPGLHVWRVEKLKPVPVAQENQGVFFSGDSYLVLHNGPEEVSHLHLWIGQQSSRDEQGACAVLAVQLDDYLGGRPVQHREVQGNESDLFMSYFPRGLKYQEGGVESGFKHVVPNEVVVQRLYQVKGKKNIRATERALNWDSFNTGDCFILDLGQNIFAWCGGKSNILERNKARDLALAIRDSERQGKAQVEIVTDGEEPAEMIQVLGPKPALKEGNPEEDLTADKANAQAAALYKVSDATGQMNLTKVADSSPFALELLISDDCFVLDNGLCGKIYIWKGRKANEKERQAALQVAEGFISRMQYAPNTQVEILPQGRESPIFKQFFKDWK 1j79-a1-m1-cB_1j79-a1-m1-cA Molecular Structure of Dihydroorotase: A Paradigm for Catalysis Through the Use of a Binuclear Metal Center P05020 P05020 1.7 X-RAY DIFFRACTION 79 1.0 562 (Escherichia coli) 562 (Escherichia coli) 338 342 1xge-a1-m1-cA_1xge-a1-m1-cB 2e25-a1-m1-cA_2e25-a1-m2-cA 2eg6-a1-m1-cB_2eg6-a1-m1-cA 2eg7-a1-m1-cA_2eg7-a1-m1-cB 2eg8-a1-m1-cB_2eg8-a1-m1-cA 2z24-a1-m1-cB_2z24-a1-m1-cA 2z25-a1-m1-cA_2z25-a1-m1-cB 2z26-a1-m1-cB_2z26-a1-m1-cA 2z27-a1-m1-cB_2z27-a1-m1-cA 2z28-a1-m1-cB_2z28-a1-m1-cA 2z29-a1-m1-cB_2z29-a1-m1-cA 2z2a-a1-m1-cB_2z2a-a1-m1-cA 2z2b-a1-m1-cA_2z2b-a1-m2-cA 3mjm-a1-m1-cB_3mjm-a1-m1-cA SQVLKIRRPDDWHLHLRDGDMLKTVVPYTSEIYGRAIVMPNLAPPVTTVEAAVAYRQRILDAVPAPHDFTPLMTCYLTDSLDPNELERGFNEGVFTAALYPANASHGVTSVDAIMPVLERMEKIGMPLLVHGEVTHADIDIFDREARFIESVMEPLRQRLTALKVVFEHITTKDAADYVRDGNERLAATITPQHLMFNRNHMLVGGVRPHLYCLPILKRNIHQQALRELVASGFQRVFLGTDSAPHARHRKESSCGCAGCFNAPTALGSYATVFEEMNALQHFEAFCSVNGPQFYGLPVNDTFIELVREEQQVAESIALTDDTLVPFLAGETVRWSVK SQVLKIRRPDDWHLHLRDGDMLKTVVPYTSEIYGRAIVMPNLAPPVTTVEAAVAYRQRILDAVPAPHDFTPLMTCYLTDSLDPNELERGFNEGVFTAALYPANATTNSSHGVTSVDAIMPVLERMEKIGMPLLVHGEVTHADIDIFDREARFIESVMEPLRQRLTALKVVFEHITTKDAADYVRDGNERLAATITPQHLMFNRNHMLVGGVRPHLYCLPILKRNIHQQALRELVASGFQRVFLGTDSAPHARHRKESSCGCAGCFNAPTALGSYATVFEEMNALQHFEAFCSVNGPQFYGLPVNDTFIELVREEQQVAESIALTDDTLVPFLAGETVRWSVK 1j7g-a1-m1-cA_1j7g-a1-m2-cA Structure of YihZ from Haemophilus influenzae (HI0670), a D-Tyr-tRNA(Tyr) deacylase P44814 P44814 1.64 X-RAY DIFFRACTION 100 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 144 144 MIALIQRVSQAKVDVKGETIGKIGKGLLVLLGVEKEDNREKADKLAEKVLNYRIFSDENDKMNLNVQQAQGELLIVSQFTLAADTQKGLRPSFSKGASPALANELYEYFIQKCAEKLPVSTGQFAADMQVSLTNDGPVTFWLNV MIALIQRVSQAKVDVKGETIGKIGKGLLVLLGVEKEDNREKADKLAEKVLNYRIFSDENDKMNLNVQQAQGELLIVSQFTLAADTQKGLRPSFSKGASPALANELYEYFIQKCAEKLPVSTGQFAADMQVSLTNDGPVTFWLNV 1j7h-a1-m1-cB_1j7h-a1-m1-cC Solution Structure of HI0719, a Hypothetical Protein From Haemophilus Influenzae P44839 P44839 NOT SOLUTION NMR 73 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 130 130 1j7h-a1-m1-cA_1j7h-a1-m1-cB 1j7h-a1-m1-cA_1j7h-a1-m1-cC MMTQIIHTEKAPAAIGPYVQAVDLGNLVLTSGQIPVNPATGEVPADIVAQARQSLENVKAIIEKAGLTAADIVKTTVFVKDLNDFAAVNAEYERFFKENNHPNFPARSCVEVARLPKDVGLEIEAIAVRK MMTQIIHTEKAPAAIGPYVQAVDLGNLVLTSGQIPVNPATGEVPADIVAQARQSLENVKAIIEKAGLTAADIVKTTVFVKDLNDFAAVNAEYERFFKENNHPNFPARSCVEVARLPKDVGLEIEAIAVRK 1j7i-a1-m1-cA_1j7i-a1-m2-cA Crystal Structure of 3',5""-Aminoglycoside Phosphotransferase Type IIIa Apoenzyme P0A3Y5 P0A3Y5 3.2 X-RAY DIFFRACTION 73 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 260 260 RISPELKKLIEKYRCVKDTEGMSPAKVYKLVGENENLYLKMTDSRYKGTTYDVEREKDMMLWLEGKLPVPKVLHFERHDGWSNLLMSEADGVLCSEEYEDEQSPEKIIELYAECIRLFHSIDISDCPYTNSLDSRLAELDYLLNNDLADVDCENWEEDTPFKDPRELYDFLKTEKPEEELVFSHGDLGDSNIFVKDGKVSGFIDLGRSGRADKWYDIAFCVRSIREDIGEEQYVELFFDLLGIKPDWEKIKYYILLDELF RISPELKKLIEKYRCVKDTEGMSPAKVYKLVGENENLYLKMTDSRYKGTTYDVEREKDMMLWLEGKLPVPKVLHFERHDGWSNLLMSEADGVLCSEEYEDEQSPEKIIELYAECIRLFHSIDISDCPYTNSLDSRLAELDYLLNNDLADVDCENWEEDTPFKDPRELYDFLKTEKPEEELVFSHGDLGDSNIFVKDGKVSGFIDLGRSGRADKWYDIAFCVRSIREDIGEEQYVELFFDLLGIKPDWEKIKYYILLDELF 1j7l-a1-m1-cA_1j7l-a1-m1-cB Crystal Structure of 3',5""-Aminoglycoside Phosphotransferase Type IIIa ADP Complex P0A3Y5 P0A3Y5 2.2 X-RAY DIFFRACTION 68 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 263 263 1j7u-a1-m1-cA_1j7u-a1-m1-cB 3q2j-a1-m1-cA_3q2j-a1-m1-cB AKMRISPELKKLIEKYRCVKDTEGMSPAKVYKLVGENENLYLKMTDSRYKGTTYDVEREKDMMLWLEGKLPVPKVLHFERHDGWSNLLMSEADGVLCSEEYEDEQSPEKIIELYAECIRLFHSIDISDCPYTNSLDSRLAELDYLLNNDLADVDCENWEEDTPFKDPRELYDFLKTEKPEEELVFSHGDLGDSNIFVKDGKVSGFIDLGRSGRADKWYDIAFCVRSIREDIGEEQYVELFFDLLGIKPDWEKIKYYILLDELF AKMRISPELKKLIEKYRCVKDTEGMSPAKVYKLVGENENLYLKMTDSRYKGTTYDVEREKDMMLWLEGKLPVPKVLHFERHDGWSNLLMSEADGVLCSEEYEDEQSPEKIIELYAECIRLFHSIDISDCPYTNSLDSRLAELDYLLNNDLADVDCENWEEDTPFKDPRELYDFLKTEKPEEELVFSHGDLGDSNIFVKDGKVSGFIDLGRSGRADKWYDIAFCVRSIREDIGEEQYVELFFDLLGIKPDWEKIKYYILLDELF 1j7n-a1-m1-cA_1j7n-a1-m1-cB Anthrax Toxin Lethal factor P15917 P15917 2.3 X-RAY DIFFRACTION 46 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 725 736 1pwv-a3-m1-cA_1pwv-a3-m1-cB 1pww-a3-m1-cA_1pww-a3-m1-cB ERNKTQEEHLKEIMKHIVKIEVKGEEAVKKEAAEKLLEKVPSDVLEMYKAIGGKIYIVDGDITKHISLEALSEDKKKIKDIYGKDALLHEHYVYAKEGYEPVLVIQSSEDYVENTEKALNVYYEIGKILSRDILSKINQPYQKFLDVLNTIKNASDSDGQDLLFTNQLKEHPTDFSVEFLEQNSNEVQEVFAKAFAYYIEPQHRDVLQLYAPEAFNYMDKFNEQEINLSLEELKDQRMLSRYEKWEKIKQHYQHWSDSLSEEGRGLLKKLQIPIEPKKDDIIHSLSQEEKELLKRIQIDSSDFLSTEEKEFLKKLQIDILSEKEKEFLKKLKLDIQPYDINQRLQDTGGLIDSPSINLDVRKQYKRDIQNIDALLHQSIGSTLYNKIYLYENMNINNLTATLGADLVDSTDNTKINRGIFNEFKKNFKYSISSNYMIVDINERPALDNERLKWRIQLSPDTRAGYLENGKLILQRNIGLEIKDVQIIKQSEKEYIRIDAKVVPKSKIDTKIQEAQLNINQEWNKALGLPKYTKLITFNVHNRYASNIVESAYLILNEWKNNIQSDLIKKVTNYLVDGNGRFVFTDITLPNIAEQYTHQDEIYEQVHSKGLYVPESRSILLHGPSKGVELRNDSEGFIHEFGHAVDDYAGYLLDKNQSDLVTNSKKFIDIFKEEGSNLTSYGRTNEAEFFAEAFRLMHSTDHAERLKVQKNAPKTFQFINDQIKFI ERNKTQEEHLKEIMKHIVKIEVKGEEAVKKEAAEKLLEKVPSDVLEMYKAIGGKIYIVDGDITKHISLEALSEDKKKIKDIYGKDALLHEHYVYAKEGYEPVLVIQSSEDYVENTEKALNVYYEIGKILSRDILSKINQPYQKFLDVLNTIKNASDSDGQDLLFTNQLKEHPTDFSVEFLEQNSNEVQEVFAKAFAYYIEPQHRDVLQLYAPEAFNYMDKFNEQEINLSLEELKDQRMLSRYEKWEKIKQHYQHWSDSLSEEGRGLLKKLQIPIEPKKDDIIHSLSQEEKELLKRIQIDSSDFLSTEEKEFLKKLQIDIRDSDSSNPLSEKEKEFLKKLKLDIQPYDINQRLQDTGGLIDSPSINLDVRKQYKRDIQNIDALLHQSIGSTLYNKIYLYENMNINNLTATLGADLVDSTDNTKINRGIFNEFKKNFKYSISSNYMIVDINERPALDNERLKWRIQLSPDTRAGYLENGKLILQRNIGLEIKDVQIIKQSEKEYIRIDAKVVPKSKIDTKIQEAQLNINQEWNKALGLPKYTKLITFNVHNRYASNIVESAYLILNEWKNNIQSDLIKKVTNYLVDGNGRFVFTDITLPNIAEQYTHQDEIYEQVHSKGLYVPESRSILLHGPSKGVELRNDSEGFIHEFGHAVDDYAGYLLDKNQSDLVTNSKKFIDIFKEEGSNLTSYGRTNEAEFFAEAFRLMHSTDHAERLKVQKNAPKTFQFINDQIKFIINS 1j8b-a1-m1-cA_1j8b-a1-m2-cA Structure of YbaB from Haemophilus influenzae (HI0442), a protein of unknown function P44711 P44711 1.75 X-RAY DIFFRACTION 47 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 85 85 LGGLKQAQQQEKQKQEEIAQLEVTGESGAGLVKITINGAHNCRRIDIDPSLEDDKELEDLIAAAFNDAVRRAEELQKEKASVTAG LGGLKQAQQQEKQKQEEIAQLEVTGESGAGLVKITINGAHNCRRIDIDPSLEDDKELEDLIAAAFNDAVRRAEELQKEKASVTAG 1j93-a1-m1-cA_1j93-a1-m2-cA Crystal Structure and Substrate Binding Modeling of the Uroporphyrinogen-III Decarboxylase from Nicotiana tabacum: Implications for the Catalytic Mechanism Q42967 Q42967 2.3 X-RAY DIFFRACTION 113 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 343 343 TQPLLLDAVRGKEVERPPVWLMRQAGRYMKSYQLLCEKYPLFRDRSENVDLVVEISLQPWKVFRPDGVILFSDILTPLSGMNIPFDIIKGKGPVIFDPLRTAADVEKVREFIPEKSVPYVGEALTILRKEVNNQAAVLGFVGAPFTLASYVVEGGSSKNFTKIKRLAFAEPKVLHALLQKFATSMAKYIRYQADSGAQAVQIFDSWATELSPVDFEEFSLPYLKQIVDSVKLTHPNLPLILYASGSGGLLERLPLTGVDVVSLDWTVDMADGRRRLGPNVAIQGNVDPGVLFGSKEFITNRINDTVKKAGKGKHILNLGHGIKVGTPEENFAHFFEIAKGLRY TQPLLLDAVRGKEVERPPVWLMRQAGRYMKSYQLLCEKYPLFRDRSENVDLVVEISLQPWKVFRPDGVILFSDILTPLSGMNIPFDIIKGKGPVIFDPLRTAADVEKVREFIPEKSVPYVGEALTILRKEVNNQAAVLGFVGAPFTLASYVVEGGSSKNFTKIKRLAFAEPKVLHALLQKFATSMAKYIRYQADSGAQAVQIFDSWATELSPVDFEEFSLPYLKQIVDSVKLTHPNLPLILYASGSGGLLERLPLTGVDVVSLDWTVDMADGRRRLGPNVAIQGNVDPGVLFGSKEFITNRINDTVKKAGKGKHILNLGHGIKVGTPEENFAHFFEIAKGLRY 1j98-a1-m1-cA_1j98-a1-m2-cA The 1.2 Angstrom Structure of Bacillus subtilis LuxS O34667 O34667 1.2 X-RAY DIFFRACTION 175 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 153 153 1ie0-a1-m1-cA_1ie0-a1-m2-cA 1jqw-a1-m1-cA_1jqw-a1-m2-cA 1jvi-a1-m1-cA_1jvi-a1-m2-cA 1ycl-a1-m1-cA_1ycl-a1-m2-cA 2fqo-a1-m1-cA_2fqo-a1-m2-cA 2fqt-a1-m1-cA_2fqt-a1-m2-cA VESFELDHNAVVAPYVRHCGVHKVGTDGVVNKFDIRFCQPNKQAMKPDTIHTLEHLLAFTIRSHAEKYDHFDIIDISPMGQTGYYLVVSGETTSAEIVDLLEDTMKEAVEITEIPAANEKQCGQAKLHDLEGAKRLMRFWLSQDKEELLKVFG VESFELDHNAVVAPYVRHCGVHKVGTDGVVNKFDIRFCQPNKQAMKPDTIHTLEHLLAFTIRSHAEKYDHFDIIDISPMGQTGYYLVVSGETTSAEIVDLLEDTMKEAVEITEIPAANEKQCGQAKLHDLEGAKRLMRFWLSQDKEELLKVFG 1j9a-a1-m1-cA_1j9a-a1-m2-cA OLIGORIBONUCLEASE P45340 P45340 2.5 X-RAY DIFFRACTION 71 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 179 179 SHSFDKQNLIWIDLETGLDPEKERIIEIATIVTDKNLNILAEGPVLAVHQSDELLNKNDWCQKTHSENGLIERIKASKLTERAAELQTLDFLKKWVPKGASPICGNSIAQDKRFLVKYPDLADYFHYRHLDVSTLKELAARWKPEILEGFKKENTHLALDDIRESIKELAYYREHFKLD SHSFDKQNLIWIDLETGLDPEKERIIEIATIVTDKNLNILAEGPVLAVHQSDELLNKNDWCQKTHSENGLIERIKASKLTERAAELQTLDFLKKWVPKGASPICGNSIAQDKRFLVKYPDLADYFHYRHLDVSTLKELAARWKPEILEGFKKENTHLALDDIRESIKELAYYREHFKLD 1j9b-a2-m1-cA_1j9b-a2-m2-cA ARSENATE REDUCTASE+0.4M ARSENITE FROM E. COLI P08692 P08692 1.26 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 137 137 1i9d-a3-m1-cA_1i9d-a3-m3-cA 1jzw-a2-m1-cA_1jzw-a2-m2-cA 1sd8-a2-m1-cA_1sd8-a2-m2-cA 1sd9-a2-m1-cA_1sd9-a2-m2-cA 1sjz-a2-m1-cA_1sjz-a2-m2-cA NITIYHNPAGTSRNTLEMIRNSGTEPTIILYLENPPSRDELVKLIADMGISVRALLRKNVEPYEQLGLAEDKFTDDQLIDFMLQHPILINRPIVVTPLGTRLCRPSEVVLDILQDAQKGAFTKEDGEKVVDEAGKRL NITIYHNPAGTSRNTLEMIRNSGTEPTIILYLENPPSRDELVKLIADMGISVRALLRKNVEPYEQLGLAEDKFTDDQLIDFMLQHPILINRPIVVTPLGTRLCRPSEVVLDILQDAQKGAFTKEDGEKVVDEAGKRL 1ja3-a1-m1-cB_1ja3-a1-m1-cA Crystal Structure of the Murine NK Cell Inhibitory Receptor Ly-49I Q9JHN9 Q9JHN9 3 X-RAY DIFFRACTION 35 0.982 10090 (Mus musculus) 10090 (Mus musculus) 113 115 VKYWFCYGTKCYYFIMNKTTWSGCKANCQHYSVPIVKIEDEDELKFLQRHVIPEGYWIGLSYDKKKKEWAWIDNKFDMKFKSRGCVFLSKARIEDTDCNIPYYCICGKKLDKF VKYWFCYGTKCYYFIMNKTTWSGCKANCQHYSVPIVKIEDEDELKFLQRHVIPEGYWIGLSYDKKKKEWAWIDNGPSKFDMKSRGCVFLSKARIEDTDCNIPYYCICGKKLDKFP 1ja9-a1-m1-cA_1ja9-a1-m4-cA Crystal structure of 1,3,6,8-tetrahydroxynaphthalene reductase in complex with NADPH and pyroquilon Q9HFV6 Q9HFV6 1.5 X-RAY DIFFRACTION 109 1.0 148305 (Pyricularia grisea) 148305 (Pyricularia grisea) 259 259 1ja9-a1-m2-cA_1ja9-a1-m3-cA SKPLAGKVALTTGAGRGIGRGIAIELGRRGASVVVNYGSSSKAAEEVVAELKKLGAQGVAIQADISKPSEVVALFDKAVSHFGGLDFVMSNSGMEVWCDELEVTQELFDKVFNLNTRGQFFVAQQGLKHCRRGGRIILTSSIAAVMTGIPNHALYAGSKAAVEGFCRAFAVDCGAKGVTVNCIAPGGVKTDMFDENSWHYAPGGYKGMPQEKIDEGLANMNPLKRIGYPADIGRAVSALCQEESEWINGQVIKLTGGGI SKPLAGKVALTTGAGRGIGRGIAIELGRRGASVVVNYGSSSKAAEEVVAELKKLGAQGVAIQADISKPSEVVALFDKAVSHFGGLDFVMSNSGMEVWCDELEVTQELFDKVFNLNTRGQFFVAQQGLKHCRRGGRIILTSSIAAVMTGIPNHALYAGSKAAVEGFCRAFAVDCGAKGVTVNCIAPGGVKTDMFDENSWHYAPGGYKGMPQEKIDEGLANMNPLKRIGYPADIGRAVSALCQEESEWINGQVIKLTGGGI 1ja9-a1-m2-cA_1ja9-a1-m4-cA Crystal structure of 1,3,6,8-tetrahydroxynaphthalene reductase in complex with NADPH and pyroquilon Q9HFV6 Q9HFV6 1.5 X-RAY DIFFRACTION 19 1.0 148305 (Pyricularia grisea) 148305 (Pyricularia grisea) 259 259 1ja9-a1-m1-cA_1ja9-a1-m3-cA SKPLAGKVALTTGAGRGIGRGIAIELGRRGASVVVNYGSSSKAAEEVVAELKKLGAQGVAIQADISKPSEVVALFDKAVSHFGGLDFVMSNSGMEVWCDELEVTQELFDKVFNLNTRGQFFVAQQGLKHCRRGGRIILTSSIAAVMTGIPNHALYAGSKAAVEGFCRAFAVDCGAKGVTVNCIAPGGVKTDMFDENSWHYAPGGYKGMPQEKIDEGLANMNPLKRIGYPADIGRAVSALCQEESEWINGQVIKLTGGGI SKPLAGKVALTTGAGRGIGRGIAIELGRRGASVVVNYGSSSKAAEEVVAELKKLGAQGVAIQADISKPSEVVALFDKAVSHFGGLDFVMSNSGMEVWCDELEVTQELFDKVFNLNTRGQFFVAQQGLKHCRRGGRIILTSSIAAVMTGIPNHALYAGSKAAVEGFCRAFAVDCGAKGVTVNCIAPGGVKTDMFDENSWHYAPGGYKGMPQEKIDEGLANMNPLKRIGYPADIGRAVSALCQEESEWINGQVIKLTGGGI 1ja9-a1-m3-cA_1ja9-a1-m4-cA Crystal structure of 1,3,6,8-tetrahydroxynaphthalene reductase in complex with NADPH and pyroquilon Q9HFV6 Q9HFV6 1.5 X-RAY DIFFRACTION 135 1.0 148305 (Pyricularia grisea) 148305 (Pyricularia grisea) 259 259 1ja9-a1-m1-cA_1ja9-a1-m2-cA SKPLAGKVALTTGAGRGIGRGIAIELGRRGASVVVNYGSSSKAAEEVVAELKKLGAQGVAIQADISKPSEVVALFDKAVSHFGGLDFVMSNSGMEVWCDELEVTQELFDKVFNLNTRGQFFVAQQGLKHCRRGGRIILTSSIAAVMTGIPNHALYAGSKAAVEGFCRAFAVDCGAKGVTVNCIAPGGVKTDMFDENSWHYAPGGYKGMPQEKIDEGLANMNPLKRIGYPADIGRAVSALCQEESEWINGQVIKLTGGGI SKPLAGKVALTTGAGRGIGRGIAIELGRRGASVVVNYGSSSKAAEEVVAELKKLGAQGVAIQADISKPSEVVALFDKAVSHFGGLDFVMSNSGMEVWCDELEVTQELFDKVFNLNTRGQFFVAQQGLKHCRRGGRIILTSSIAAVMTGIPNHALYAGSKAAVEGFCRAFAVDCGAKGVTVNCIAPGGVKTDMFDENSWHYAPGGYKGMPQEKIDEGLANMNPLKRIGYPADIGRAVSALCQEESEWINGQVIKLTGGGI 1jad-a1-m1-cA_1jad-a1-m1-cB C-terminal Domain of Turkey PLC-beta Q91086 Q91086 2.4 X-RAY DIFFRACTION 70 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 235 235 NKEVTQLPEPQTASLAELQQKLFLKLLKKQEKELKELERKGSKRREELLQKYSVLFLEPVYPRGLDSQVVELKERLEELIHLGEEYHDGIRRRKEQHATEQTAKITELAREKQIAELKALKESSESNIKDIKKKLEAKRLDRIQVRSTSDKAAQERLKKEINNSHIQEVVQTIKLLTEKTARYQQKLEEKQAENLRAIQEKEGQLQQEAVAEYEEKLKTLTVEVQEVKNYKEVFP NKEVTQLPEPQTASLAELQQKLFLKLLKKQEKELKELERKGSKRREELLQKYSVLFLEPVYPRGLDSQVVELKERLEELIHLGEEYHDGIRRRKEQHATEQTAKITELAREKQIAELKALKESSESNIKDIKKKLEAKRLDRIQVRSTSDKAAQERLKKEINNSHIQEVVQTIKLLTEKTARYQQKLEEKQAENLRAIQEKEGQLQQEAVAEYEEKLKTLTVEVQEVKNYKEVFP 1jaf-a1-m1-cA_1jaf-a1-m2-cA CRYSTAL STRUCTURE OF CYTOCHROME C' FROM RHODOCYCLUS GELATINOSUS AT 2.5 ANGSTOMS RESOLUTION P00142 P00142 2.5 X-RAY DIFFRACTION 32 1.0 28068 (Rubrivivax gelatinosus) 28068 (Rubrivivax gelatinosus) 128 128 QFQKPGDAIEYRQSAFTLIANHFGRVAAMAQGKAPFDAKVAAENIALVSTLSKLPLTAFGPGTDKGHGTEAKPAVWSDAAGFKAAADKFAAAVDKLDAAGKTGDFAQIKAAVGETGGACKGCHDKFKE QFQKPGDAIEYRQSAFTLIANHFGRVAAMAQGKAPFDAKVAAENIALVSTLSKLPLTAFGPGTDKGHGTEAKPAVWSDAAGFKAAADKFAAAVDKLDAAGKTGDFAQIKAAVGETGGACKGCHDKFKE 1jay-a1-m1-cA_1jay-a1-m1-cB Structure of Coenzyme F420H2:NADP+ Oxidoreductase (FNO) with its substrates bound O29370 O29370 1.65 X-RAY DIFFRACTION 100 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 212 212 1jax-a1-m1-cA_1jax-a1-m1-cB MRVALLGGTGNLGKGLALRLATLGHEIVVGSRREEKAEAKAAEYRRIAGDASITGMKNEDAAEACDIAVLTIPWEHAIDTARDLKNILREKIVVSPLVPVSRGAKGFTYSSERSAAEIVAEVLESEKVVSALHTIPAARFANLDEKFDWDVPVCGDDDESKKVVMSLISEIDGLRPLDAGPLSNSRLVESLTPLILNIMRFNGMGELGIKFL MRVALLGGTGNLGKGLALRLATLGHEIVVGSRREEKAEAKAAEYRRIAGDASITGMKNEDAAEACDIAVLTIPWEHAIDTARDLKNILREKIVVSPLVPVSRGAKGFTYSSERSAAEIVAEVLESEKVVSALHTIPAARFANLDEKFDWDVPVCGDDDESKKVVMSLISEIDGLRPLDAGPLSNSRLVESLTPLILNIMRFNGMGELGIKFL 1jc5-a3-m1-cF_1jc5-a3-m1-cE Crystal Structure of Native Methylmalonyl-CoA Epimerase Q8VQN0 Q8VQN0 2.2 X-RAY DIFFRACTION 99 1.0 1752 (Propionibacterium freudenreichii subsp. shermanii) 1752 (Propionibacterium freudenreichii subsp. shermanii) 144 145 1jc4-a1-m1-cB_1jc4-a1-m1-cA 1jc4-a2-m1-cC_1jc4-a2-m1-cD 1jc5-a1-m1-cA_1jc5-a1-m1-cB 1jc5-a2-m1-cC_1jc5-a2-m1-cD EDLFICIDHVAYACPDADEASKYYQETFGWHELHREENPEQGVVEIMMAPAAKLTEHMTQVQVMAPLNDESTVAKWLAKHNGRAGLHHMAWRVDDIDAVSATLRERGVQLLYDEPKLGTGGNRINFMHPKSGKGVLIELTQYPK EDLFICIDHVAYACPDADEASKYYQETFGWHELHREENPEQGVVEIMMAPAAKLTEHMTQVQVMAPLNDESTVAKWLAKHNGRAGLHHMAWRVDDIDAVSATLRERGVQLLYDEPKLGTGGNRINFMHPKSGKGVLIELTQYPKN 1jch-a1-m1-cA_1jch-a1-m1-cC Crystal Structure of Colicin E3 in Complex with its Immunity Protein P00646 P00646 3.02 X-RAY DIFFRACTION 81 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 468 468 VAAPVAFGFPALSTPGAGGLAVSISAGALSAAIADIMAALKGPFKFGLWGVALYGVLPSQIAKDDPNMMSKIVTSLPADDITESPVSSLPLDKATVNVNVRVVDDVKDERQNISVVSGVPMSVPVVDAKPTERPGVFTASIPGAPVLNISVNNSTPAVQTLSPGVTNNTDKDVRPAFGTQGGNTRDAVIRFPKDSGHNAVYVSVSDVLSPDQVKQRQDEENRRQQEWDATHPVEAAERNYERARAELNQANEDVARNQERQAKAVQVYNSRKSELDAANKTLADAIAEIKQFNRFAHDPMAGGHRMWQMAGLKAQRAQTDVNNKQAAFDAAAKEKSDADAALSSAMESRKKKEDKKRSAENNLNDEKNKPRKGFKDYGHDYHPAPKTENIKGLGDLKPGIPKTPKQNGGGKRKRWTGDKGRKIYEWDSQHGELEGYRASDGQHLGSFDPKTGNQLKGPDPKRNIKKYL VAAPVAFGFPALSTPGAGGLAVSISAGALSAAIADIMAALKGPFKFGLWGVALYGVLPSQIAKDDPNMMSKIVTSLPADDITESPVSSLPLDKATVNVNVRVVDDVKDERQNISVVSGVPMSVPVVDAKPTERPGVFTASIPGAPVLNISVNNSTPAVQTLSPGVTNNTDKDVRPAFGTQGGNTRDAVIRFPKDSGHNAVYVSVSDVLSPDQVKQRQDEENRRQQEWDATHPVEAAERNYERARAELNQANEDVARNQERQAKAVQVYNSRKSELDAANKTLADAIAEIKQFNRFAHDPMAGGHRMWQMAGLKAQRAQTDVNNKQAAFDAAAKEKSDADAALSSAMESRKKKEDKKRSAENNLNDEKNKPRKGFKDYGHDYHPAPKTENIKGLGDLKPGIPKTPKQNGGGKRKRWTGDKGRKIYEWDSQHGELEGYRASDGQHLGSFDPKTGNQLKGPDPKRNIKKYL 1jcm-a2-m2-cP_1jcm-a2-m3-cP TRPC STABILITY MUTANT CONTAINING AN ENGINEERED DISULPHIDE BRIDGE AND IN COMPLEX WITH A CDRP-RELATED SUBSTRATE P00909 P00909 2.1 X-RAY DIFFRACTION 44 1.0 562 (Escherichia coli) 562 (Escherichia coli) 259 259 1jcm-a2-m1-cP_1jcm-a2-m2-cP 1jcm-a2-m1-cP_1jcm-a2-m3-cP MQCVLAKIVADKAIWVEARKQQQPLASFQNEVQPSTRHFYDALQGARTAFILECKKASPSKGVIRDDFDPARIAAIYKHYASAISVLTDEKYFQGSFNFLPIVSQIAPQPILCKDFIIDPYQIYLARYYQADACLLMLSVLDDDQYRQLAAVAHSLEMGVLTEVSNEEEQERAIALGAKVVGINNRDLCDLSIDLNRTRELAPKLGHNVTVISESGINTYAQVRELSHFANGFLIGSALMAHDDLHAAVRRVLLGENKV MQCVLAKIVADKAIWVEARKQQQPLASFQNEVQPSTRHFYDALQGARTAFILECKKASPSKGVIRDDFDPARIAAIYKHYASAISVLTDEKYFQGSFNFLPIVSQIAPQPILCKDFIIDPYQIYLARYYQADACLLMLSVLDDDQYRQLAAVAHSLEMGVLTEVSNEEEQERAIALGAKVVGINNRDLCDLSIDLNRTRELAPKLGHNVTVISESGINTYAQVRELSHFANGFLIGSALMAHDDLHAAVRRVLLGENKV 1jd1-a2-m1-cE_1jd1-a2-m1-cD Crystal Structure of YEO7_yeast P40037 P40037 1.7 X-RAY DIFFRACTION 79 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 123 124 1jd1-a1-m1-cB_1jd1-a1-m1-cA 1jd1-a1-m1-cB_1jd1-a1-m1-cF 1jd1-a1-m1-cF_1jd1-a1-m1-cA 1jd1-a2-m1-cD_1jd1-a2-m1-cC 1jd1-a2-m1-cE_1jd1-a2-m1-cC LTPVICESAPAAAASYSHAMKVNNLIFLSGQIPVTPDNKLVEGSIADKAEQVIQNIKNVLEASNSSLDRVVKVNIFLADINHFAEFNSVYAKYFNTHKPARSCVAVAALPLGVDMEMEAIAAE TLTPVICESAPAAAASYSHAMKVNNLIFLSGQIPVTPDNKLVEGSIADKAEQVIQNIKNVLEASNSSLDRVVKVNIFLADINHFAEFNSVYAKYFNTHKPARSCVAVAALPLGVDMEMEAIAAE 1jdp-a1-m1-cB_1jdp-a1-m1-cA Crystal Structure of Hormone/Receptor Complex P17342 P17342 2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 395 396 1jdn-a1-m1-cA_1jdn-a1-m2-cA 1yk0-a1-m1-cA_1yk0-a1-m1-cB 1yk1-a1-m1-cA_1yk1-a1-m1-cB ALPPQKIEVLVLLPQDDSYLFSLTRVRPAIEYALRSVEGRLLPPGTRFQVAYEDSDCGNRALFSLVDRVAAARGAKPDLILGPVCEYAAAPVARLASHWDLPMLSAGALAAGFQHKDSEYSHLTRVAPAYAKMGEMMLALFRHHHWSRAALVYSDDKLERNCYFTLEGVHEVFQEEGLHTSIYSFDETKDLDLEDIVRNIQASERVVIMCASSDTIRSIMLVAHRHGMTSGDYAFFNIELFNSSSYGDGSWKRGDKHDFEAKQAYSSLQTVTLLRTVKPEFEKFSMEVKSSVEKQGLNMEDYVNMFVEGFHDAILLYVLALHEVLRAGYSKKDGGKIIQQTWNRTFEGIAGQVSIDANGDRYGDFSVIAMTDVEAGTQEVIGDYFGKEGRFEMRP EALPPQKIEVLVLLPQDDSYLFSLTRVRPAIEYALRSVEGRLLPPGTRFQVAYEDSDCGNRALFSLVDRVAAARGAKPDLILGPVCEYAAAPVARLASHWDLPMLSAGALAAGFQHKDSEYSHLTRVAPAYAKMGEMMLALFRHHHWSRAALVYSDDKLERNCYFTLEGVHEVFQEEGLHTSIYSFDETKDLDLEDIVRNIQASERVVIMCASSDTIRSIMLVAHRHGMTSGDYAFFNIELFNSSSYGDGSWKRGDKHDFEAKQAYSSLQTVTLLRTVKPEFEKFSMEVKSSVEKQGLNMEDYVNMFVEGFHDAILLYVLALHEVLRAGYSKKDGGKIIQQTWNRTFEGIAGQVSIDANGDRYGDFSVIAMTDVEAGTQEVIGDYFGKEGRFEMRP 1je6-a2-m2-cA_1je6-a2-m4-cA Structure of the MHC Class I Homolog MICB Q29980 Q29980 2.5 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 275 1je6-a2-m1-cA_1je6-a2-m3-cA 1je6-a2-m1-cA_1je6-a2-m4-cA 1je6-a2-m2-cA_1je6-a2-m3-cA MEPHSLRYNLMVLSQDGSVQSGFLAEGHLDGQPFLRYDRQKRRAKPQGQWAEDVLGAETWDTETEDLTENGQDLRRTLTHIKDQKGGLHSLQEIRVCEIHEDSSTRGSRHFYYNGELFLSQNLETQESTVPQSSRAQTLAMNVTNFWKEDAMKTKTHYRAMQADCLQKLQRYLKSGVAIRRTVPPMVNVTCSEVSEGNITVTCRASSFYPRNITLTWRQDGVSLSHNTQQWGDVLPDGNGTYQTWVATRIRQGEEQRFTCYMEHSGNHGTHPVPS MEPHSLRYNLMVLSQDGSVQSGFLAEGHLDGQPFLRYDRQKRRAKPQGQWAEDVLGAETWDTETEDLTENGQDLRRTLTHIKDQKGGLHSLQEIRVCEIHEDSSTRGSRHFYYNGELFLSQNLETQESTVPQSSRAQTLAMNVTNFWKEDAMKTKTHYRAMQADCLQKLQRYLKSGVAIRRTVPPMVNVTCSEVSEGNITVTCRASSFYPRNITLTWRQDGVSLSHNTQQWGDVLPDGNGTYQTWVATRIRQGEEQRFTCYMEHSGNHGTHPVPS 1je8-a2-m1-cF_1je8-a2-m1-cE Two-Component response regulator NarL/DNA Complex: DNA Bending Found in a High Affinity Site P0AF28 P0AF28 2.12 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 63 64 1je8-a1-m1-cA_1je8-a1-m1-cB 1zg1-a1-m1-cA_1zg1-a1-m1-cB 1zg1-a2-m1-cE_1zg1-a2-m1-cF 1zg5-a1-m1-cA_1zg5-a1-m1-cB 1zg5-a2-m1-cF_1zg5-a2-m1-cE RDVNQLTPRERDILKLIAQGLPNKIARRLDITESTVKVHVKHLKKKLKSRVEAAVWVHQERIF ERDVNQLTPRERDILKLIAQGLPNKIARRLDITESTVKVHVKHLKKKLKSRVEAAVWVHQERIF 1jeb-a1-m1-cB_1jeb-a1-m1-cD Chimeric Human/Mouse Carbonmonoxy Hemoglobin (Human Zeta2 / Mouse Beta2) P02088 P02088 2.1 X-RAY DIFFRACTION 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 143 146 3hrw-a1-m1-cB_3hrw-a1-m1-cD VHLTDAEKAAVSGLWGKVNADEVGGEALGRLLVVYPWTQRYFDSFGDLSSASAIMGNAKVKAHGKKVITAFNDGLNHLDSLKGTFASLSELHCDKLHVDPENFRLLGNMIVIVLGHHLGKDFTPAAQAAFQKVVAGVAAALAH VHLTDAEKAAVSGLWGKVNADEVGGEALGRLLVVYPWTQRYFDSFGDLSSASAIMGNAKVKAHGKKVITAFNDGLNHLDSLKGTFASLSELHCDKLHVDPENFRLLGNMIVIVLGHHLGKDFTPAAQAAFQKVVAGVAAALAHKYH 1jek-a1-m2-cA_1jek-a1-m3-cA Visna TM CORE STRUCTURE P35954 P35954 1.5 X-RAY DIFFRACTION 34 1.0 36374 (Visna/maedi virus EV1 KV1772) 36374 (Visna/maedi virus EV1 KV1772) 40 40 1jek-a1-m1-cA_1jek-a1-m2-cA 1jek-a1-m1-cA_1jek-a1-m3-cA QSLANATAAQQEVLEASYAMVQHIAKGIRILEARVARVEA QSLANATAAQQEVLEASYAMVQHIAKGIRILEARVARVEA 1jeo-a2-m1-cA_1jeo-a2-m4-cA Crystal Structure of the Hypothetical Protein MJ1247 from Methanococcus jannaschii at 2.0 A Resolution Infers a Molecular Function of 3-Hexulose-6-Phosphate isomerase. Q58644 Q58644 2 X-RAY DIFFRACTION 78 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 174 174 1jeo-a2-m2-cA_1jeo-a2-m3-cA LEELDIVSNNILILKKFYTNDEWKNKLDSLIDRIIKAKKIFIFGVGRSGYIGRCFAMRLMHLGFKSYFVGETTTPSYEKDDLLILISGSGRTESVLTVAKKAKNINNNIIAIVEGNVVEFADLTIPLEVKKSKYLPMGTTFEETALIFLDLVIAEIMKRLNLDESEIIKRHNLL LEELDIVSNNILILKKFYTNDEWKNKLDSLIDRIIKAKKIFIFGVGRSGYIGRCFAMRLMHLGFKSYFVGETTTPSYEKDDLLILISGSGRTESVLTVAKKAKNINNNIIAIVEGNVVEFADLTIPLEVKKSKYLPMGTTFEETALIFLDLVIAEIMKRLNLDESEIIKRHNLL 1jeo-a2-m2-cA_1jeo-a2-m4-cA Crystal Structure of the Hypothetical Protein MJ1247 from Methanococcus jannaschii at 2.0 A Resolution Infers a Molecular Function of 3-Hexulose-6-Phosphate isomerase. Q58644 Q58644 2 X-RAY DIFFRACTION 14 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 174 174 1jeo-a2-m1-cA_1jeo-a2-m3-cA LEELDIVSNNILILKKFYTNDEWKNKLDSLIDRIIKAKKIFIFGVGRSGYIGRCFAMRLMHLGFKSYFVGETTTPSYEKDDLLILISGSGRTESVLTVAKKAKNINNNIIAIVEGNVVEFADLTIPLEVKKSKYLPMGTTFEETALIFLDLVIAEIMKRLNLDESEIIKRHNLL LEELDIVSNNILILKKFYTNDEWKNKLDSLIDRIIKAKKIFIFGVGRSGYIGRCFAMRLMHLGFKSYFVGETTTPSYEKDDLLILISGSGRTESVLTVAKKAKNINNNIIAIVEGNVVEFADLTIPLEVKKSKYLPMGTTFEETALIFLDLVIAEIMKRLNLDESEIIKRHNLL 1jeo-a2-m3-cA_1jeo-a2-m4-cA Crystal Structure of the Hypothetical Protein MJ1247 from Methanococcus jannaschii at 2.0 A Resolution Infers a Molecular Function of 3-Hexulose-6-Phosphate isomerase. Q58644 Q58644 2 X-RAY DIFFRACTION 107 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 174 174 1jeo-a2-m1-cA_1jeo-a2-m2-cA LEELDIVSNNILILKKFYTNDEWKNKLDSLIDRIIKAKKIFIFGVGRSGYIGRCFAMRLMHLGFKSYFVGETTTPSYEKDDLLILISGSGRTESVLTVAKKAKNINNNIIAIVEGNVVEFADLTIPLEVKKSKYLPMGTTFEETALIFLDLVIAEIMKRLNLDESEIIKRHNLL LEELDIVSNNILILKKFYTNDEWKNKLDSLIDRIIKAKKIFIFGVGRSGYIGRCFAMRLMHLGFKSYFVGETTTPSYEKDDLLILISGSGRTESVLTVAKKAKNINNNIIAIVEGNVVEFADLTIPLEVKKSKYLPMGTTFEETALIFLDLVIAEIMKRLNLDESEIIKRHNLL 1jer-a1-m1-cA_1jer-a1-m2-cA CUCUMBER STELLACYANIN, CU2+, PH 7.0 P29602 P29602 1.6 X-RAY DIFFRACTION 45 1.0 3659 (Cucumis sativus) 3659 (Cucumis sativus) 110 110 MQSTVHIVGDNTGWSVPSSPNFYSQWAAGKTFRVGDSLQFNFPANAHNVHEMETKQSFDACNFVNSDNDVERTSPVIERLDELGMHYFVCTVGTHCSNGQKLSINVVAAN MQSTVHIVGDNTGWSVPSSPNFYSQWAAGKTFRVGDSLQFNFPANAHNVHEMETKQSFDACNFVNSDNDVERTSPVIERLDELGMHYFVCTVGTHCSNGQKLSINVVAAN 1jfl-a1-m1-cA_1jfl-a1-m1-cB CRYSTAL STRUCTURE DETERMINATION OF ASPARTATE RACEMASE FROM AN ARCHAEA O58403 O58403 1.9 X-RAY DIFFRACTION 103 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 228 228 2dx7-a1-m1-cA_2dx7-a1-m1-cB MKTIGILGGMGPLATAELFRRIVIKTPAKRDQEHPKVIIFNNPQIPDRTAYILGKGEDPRPQLIWTAKRLEECGADFIIMPCNTAHAFVEDIRKAIKIPIISMIEETAKKVKELGFKKAGLLATTGTIVSGVYEKEFSKYGVEIMTPTEDEQKDVMRGIYEGVKAGNLKLGRELLLKTAKILEERGAECIIAGCTEVSVVLKQDDLKVPLIDPMDVIAEVAVKVALEK MKTIGILGGMGPLATAELFRRIVIKTPAKRDQEHPKVIIFNNPQIPDRTAYILGKGEDPRPQLIWTAKRLEECGADFIIMPCNTAHAFVEDIRKAIKIPIISMIEETAKKVKELGFKKAGLLATTGTIVSGVYEKEFSKYGVEIMTPTEDEQKDVMRGIYEGVKAGNLKLGRELLLKTAKILEERGAECIIAGCTEVSVVLKQDDLKVPLIDPMDVIAEVAVKVALEK 1jfz-a2-m1-cD_1jfz-a2-m1-cC Crystal Structure of MN(II)-Complex of RNAse III Endonuclease Domain from Aquifex Aeolicus at 2.10 Angstrom Resolution O67082 O67082 2.1 X-RAY DIFFRACTION 63 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 148 149 1i4s-a1-m1-cA_1i4s-a1-m1-cB 1jfz-a1-m1-cA_1jfz-a1-m1-cB 1rc5-a1-m1-cA_1rc5-a1-m1-cB 1rc5-a2-m1-cD_1rc5-a2-m1-cC 1rc7-a1-m1-cA_1rc7-a1-m2-cA 1yyk-a1-m1-cA_1yyk-a1-m1-cB 1yyo-a1-m1-cB_1yyo-a1-m1-cA 1yz9-a1-m1-cB_1yz9-a1-m1-cA 2nue-a1-m1-cA_2nue-a1-m1-cB GMKMLEQLEKKLGYTFKDKSLLEKALTHVSYSKKEHYETLEFLGDALVNFFIVDLLVQYSPNKREGFLSPLKAYLISEEFFNLLAQKLELHKFIRIKRGKINETIIGDVFEALWAAVYIDSGRDANFTRELFYKLFKEDILSAIKEGR GMKMLEQLEKKLGYTFKDKSLLEKALTHVSYSKKEHYETLEFLGDALVNFFIVDLLVQYSPNKREGFLSPLKAYLISEEFFNLLAQKLELHKFIRIKRGKINETIIGDVFEALWAAVYIDSGRDANFTRELFYKLFKEDILSAIKEGRH 1jgt-a1-m1-cA_1jgt-a1-m1-cB CRYSTAL STRUCTURE OF BETA-LACTAM SYNTHETASE P0DJQ7 P0DJQ7 1.95 X-RAY DIFFRACTION 92 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 490 500 PVLPAAFGFLASARTGGGPVFATRGSHTDIDTPQGERSLAATLVHAPSVAPDRAVARSLTGAPTTAVLAGEIYNRDELLSVLPAGPAPEGDAELVLRLLERYDLHAFRLVNGRFATVVRTGDRVLLATDHAGSVPLYTCVAPGEVRASTEAKALAAHPKGFPLADARRVAGLTGVYQVPAGAVMDIDLGSGTAVTHRTWTPGLSRRILPEGEAVAAVRAALEKAVAQRVTPGDTPLVVLSGGIDSSGVAACAHRAAGELDTVSMGTDTSNEFREARAVVDHLRTRHREITIPTTELLAQLPYAVWASESVDPDIIEYLLPLTALYRALDGPERRILTGYGADIPLGGMHREDRLPALDTVLAHDMATFDGLNEMSPVLSTLAGHWTTHPYWDREVLDLLVSLEAGLKRRHGRDKWVLRAAMADALPAETVNRPKLSSFSRLLLDHGVAEDRVHEAKRQVVRELFDLTVGGGRHPSEVDTDDVVRSVADRT GAPVLPAAFGFLASARTGGGPGPVFATRGSHTDIDTPQGERSLAATLVHAPSVAPDRAVARSLTGAPTTAVLAGEIYNRDELLSVLPAGPAPEGDAELVLRLLERYDLHAFRLVNGRFATVVRTGDRVLLATDHAGSVPLYTCVAPGEVRASTEAKALAAHRDPKGFPLADARRVAGLTGVYQVPAGAVMDIDLGSGTAVTHRTWTPGLSRRILPEGEAVAAVRAALEKAVAQRVTPGDTPLVVLSGGIDSSGVAACAHRAAGELDTVSMGTDTSNEFREARAVVDHLRTRHREITIPTTELLAQLPYAVWASESVDPDIIEYLLPLTALYRALDGPERRILTGYGADIPLGGMHREDRLPALDTVLAHDMATFDGLNEMSPVLSTLAGHWTTHPYWDREVLDLLVSLEAGLKRRHGRDKWVLRAAMADALPAETVNRPKLSGTTSSFSRLLLDHGVAEDRVHEAKRQVVRELFDLTVGGGRHPSEVDTDDVVRSVADRT 1jhd-a1-m1-cA_1jhd-a1-m2-cA Crystal Structure of Bacterial ATP Sulfurylase from the Riftia pachyptila Symbiont Q54506 Q54506 1.7 X-RAY DIFFRACTION 86 1.0 35843 (sulfur-oxidizing endosymbiont of Riftia pachyptila) 35843 (sulfur-oxidizing endosymbiont of Riftia pachyptila) 396 396 MIKPVGSDELKPLFVYDPEEHHKLSHEAESLPSVVISSQAAGNAVMMGAGYFSPLQGFMNVADAMGAAEKMTLSDGSFFPVPVLCLLENTDAIGDAKRIALRDPNVEGNPVLAVMDIEAIEEVSDEQMAVMTDKVYRTTDMDHIGVKTFNSQGRVAVSGPIQVLNFSYFQADFPDTFRTAVEIRNEIKEHGWSKVVAFQTRNPMHRAHEELCRMAMESLDADGVVVHMLLGKLKKGDIPAPVRDAAIRTMAEVYFPPNTVMVTGYGFDMLYAGPREAVLHAYFRQNMGATHFIIGRDHAGVGDYYGAFDAQTIFDDEVPEGAMEIEIFRADHTAYSKKLNKIVMMRDVPDHTKEDFVLLSGTKVREMLGQGIAPPPEFSRPEVAKILMDYYQSINS MIKPVGSDELKPLFVYDPEEHHKLSHEAESLPSVVISSQAAGNAVMMGAGYFSPLQGFMNVADAMGAAEKMTLSDGSFFPVPVLCLLENTDAIGDAKRIALRDPNVEGNPVLAVMDIEAIEEVSDEQMAVMTDKVYRTTDMDHIGVKTFNSQGRVAVSGPIQVLNFSYFQADFPDTFRTAVEIRNEIKEHGWSKVVAFQTRNPMHRAHEELCRMAMESLDADGVVVHMLLGKLKKGDIPAPVRDAAIRTMAEVYFPPNTVMVTGYGFDMLYAGPREAVLHAYFRQNMGATHFIIGRDHAGVGDYYGAFDAQTIFDDEVPEGAMEIEIFRADHTAYSKKLNKIVMMRDVPDHTKEDFVLLSGTKVREMLGQGIAPPPEFSRPEVAKILMDYYQSINS 1ji4-a1-m1-cJ_1ji4-a1-m1-cK NAP protein from helicobacter pylori P43313 P43313 2.52 X-RAY DIFFRACTION 74 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 144 144 1ji4-a1-m1-cA_1ji4-a1-m1-cD 1ji4-a1-m1-cB_1ji4-a1-m1-cC 1ji4-a1-m1-cE_1ji4-a1-m1-cH 1ji4-a1-m1-cF_1ji4-a1-m1-cG 1ji4-a1-m1-cI_1ji4-a1-m1-cL 3t9j-a1-m11-cA_3t9j-a1-m8-cA 3t9j-a1-m12-cA_3t9j-a1-m6-cA 3t9j-a1-m1-cA_3t9j-a1-m10-cA 3t9j-a1-m2-cA_3t9j-a1-m5-cA 3t9j-a1-m3-cA_3t9j-a1-m9-cA 3t9j-a1-m4-cA_3t9j-a1-m7-cA 3ta8-a1-m11-cA_3ta8-a1-m8-cA 3ta8-a1-m12-cA_3ta8-a1-m6-cA 3ta8-a1-m1-cA_3ta8-a1-m10-cA 3ta8-a1-m2-cA_3ta8-a1-m5-cA 3ta8-a1-m3-cA_3ta8-a1-m9-cA 3ta8-a1-m4-cA_3ta8-a1-m7-cA 4evb-a1-m11-cA_4evb-a1-m8-cA 4evb-a1-m12-cA_4evb-a1-m6-cA 4evb-a1-m1-cA_4evb-a1-m10-cA 4evb-a1-m2-cA_4evb-a1-m5-cA 4evb-a1-m3-cA_4evb-a1-m9-cA 4evb-a1-m4-cA_4evb-a1-m7-cA 4evc-a1-m11-cA_4evc-a1-m8-cA 4evc-a1-m12-cA_4evc-a1-m6-cA 4evc-a1-m1-cA_4evc-a1-m10-cA 4evc-a1-m2-cA_4evc-a1-m5-cA 4evc-a1-m3-cA_4evc-a1-m9-cA 4evc-a1-m4-cA_4evc-a1-m7-cA 4evd-a1-m11-cA_4evd-a1-m8-cA 4evd-a1-m12-cA_4evd-a1-m6-cA 4evd-a1-m1-cA_4evd-a1-m10-cA 4evd-a1-m2-cA_4evd-a1-m5-cA 4evd-a1-m3-cA_4evd-a1-m9-cA 4evd-a1-m4-cA_4evd-a1-m7-cA 4eve-a1-m11-cA_4eve-a1-m8-cA 4eve-a1-m12-cA_4eve-a1-m6-cA 4eve-a1-m1-cA_4eve-a1-m10-cA 4eve-a1-m2-cA_4eve-a1-m5-cA 4eve-a1-m3-cA_4eve-a1-m9-cA 4eve-a1-m4-cA_4eve-a1-m7-cA MKTFEILKHLQADAIVLFMKVHNFHWNVKGTDFFNVHKATEEIYEEFADMFDDLAERIVQLGHHPLVTLSEAIKLTRVKEETKTSFHSKDIFKEILEDYKYLEKEFKELSNTAEKEGDKVTVTYADDQLAKLQKSIWMLQAHLA MKTFEILKHLQADAIVLFMKVHNFHWNVKGTDFFNVHKATEEIYEEFADMFDDLAERIVQLGHHPLVTLSEAIKLTRVKEETKTSFHSKDIFKEILEDYKYLEKEFKELSNTAEKEGDKVTVTYADDQLAKLQKSIWMLQAHLA 1jia-a1-m1-cA_1jia-a1-m1-cB STRUCTURE OF A BASIC PHOSPHOLIPASE A2 FROM AGKISTRODON HALYS PALLAS AT 2.13A RESOLUTION O42187 O42187 2.13 X-RAY DIFFRACTION 10 1.0 8714 (Gloydius halys) 8714 (Gloydius halys) 122 122 HLLQFRKMIKKMTGKEPVVSYAFYGCYCGSGGRGKPKDATDRCCFVHDCCYEKVTGCDPKWDDYTYSWKNGTIVCGGDDPCKKEVCECDKAAAICFRDNLKTYKKRYMAYPDILCSSKSEKC HLLQFRKMIKKMTGKEPVVSYAFYGCYCGSGGRGKPKDATDRCCFVHDCCYEKVTGCDPKWDDYTYSWKNGTIVCGGDDPCKKEVCECDKAAAICFRDNLKTYKKRYMAYPDILCSSKSEKC 1jie-a1-m1-cA_1jie-a1-m1-cB Crystal structure of bleomycin-binding protein from bleomycin-producing Streptomyces verticillus complexed with metal-free bleomycin Q53793 Q53793 1.8 X-RAY DIFFRACTION 124 1.0 29309 (Streptomyces verticillus) 29309 (Streptomyces verticillus) 122 122 1jif-a1-m1-cA_1jif-a1-m1-cB 1qto-a1-m1-cA_1qto-a1-m2-cA MVKFLGAVPVLTAVDVPANVSFWVDTLGFEKDFGDRDFAGVRRGDIRLHISRTEHQIVADNTSAWIEVTDPDALHEEWARAVSTDYADTSGPAMTPVGESPAGREFAVRDPAGNCVHFTAGE MVKFLGAVPVLTAVDVPANVSFWVDTLGFEKDFGDRDFAGVRRGDIRLHISRTEHQIVADNTSAWIEVTDPDALHEEWARAVSTDYADTSGPAMTPVGESPAGREFAVRDPAGNCVHFTAGE 1jij-a1-m1-cA_1jij-a1-m2-cA Crystal structure of S. aureus TyrRS in complex with SB-239629 A6QHR2 A6QHR2 3.2 X-RAY DIFFRACTION 48 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 319 319 1jii-a1-m1-cA_1jii-a1-m2-cA TNVLIEDLKWRGLIYQQTDEQGIEDLLNKEQVTLYCGADPTADSLHIGHLLPFLTLRRFQEHGHRPIVLIGGGTGMIGDPSGKSEERVLQTEEQVDKNIEGISKQMHNIFEFGTDHGAVLVNNRDWLGQISLISFLRDYGKHVGVNYMLGKDSIQSRLEHGISYTEFTYTILQAIDFGHLNRELNCKIQVGGSDQWGNITSGIELMRRMYGQTDAYGLTIPLVTKSDGKKFGKSESGAVWLDAEKTSPYEFYQFWINQSDEDVIKFLKYFTFLGKEEIDRLEQSKNEAPHLREAQKTLAEEVTKFIHGEDALNDAIRIS TNVLIEDLKWRGLIYQQTDEQGIEDLLNKEQVTLYCGADPTADSLHIGHLLPFLTLRRFQEHGHRPIVLIGGGTGMIGDPSGKSEERVLQTEEQVDKNIEGISKQMHNIFEFGTDHGAVLVNNRDWLGQISLISFLRDYGKHVGVNYMLGKDSIQSRLEHGISYTEFTYTILQAIDFGHLNRELNCKIQVGGSDQWGNITSGIELMRRMYGQTDAYGLTIPLVTKSDGKKFGKSESGAVWLDAEKTSPYEFYQFWINQSDEDVIKFLKYFTFLGKEEIDRLEQSKNEAPHLREAQKTLAEEVTKFIHGEDALNDAIRIS 1jij-a2-m1-cA_1jij-a2-m3-cA Crystal structure of S. aureus TyrRS in complex with SB-239629 A6QHR2 A6QHR2 3.2 X-RAY DIFFRACTION 106 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 319 319 1jii-a2-m1-cA_1jii-a2-m3-cA 1jik-a2-m1-cA_1jik-a2-m3-cA 1jil-a2-m1-cA_1jil-a2-m3-cA TNVLIEDLKWRGLIYQQTDEQGIEDLLNKEQVTLYCGADPTADSLHIGHLLPFLTLRRFQEHGHRPIVLIGGGTGMIGDPSGKSEERVLQTEEQVDKNIEGISKQMHNIFEFGTDHGAVLVNNRDWLGQISLISFLRDYGKHVGVNYMLGKDSIQSRLEHGISYTEFTYTILQAIDFGHLNRELNCKIQVGGSDQWGNITSGIELMRRMYGQTDAYGLTIPLVTKSDGKKFGKSESGAVWLDAEKTSPYEFYQFWINQSDEDVIKFLKYFTFLGKEEIDRLEQSKNEAPHLREAQKTLAEEVTKFIHGEDALNDAIRIS TNVLIEDLKWRGLIYQQTDEQGIEDLLNKEQVTLYCGADPTADSLHIGHLLPFLTLRRFQEHGHRPIVLIGGGTGMIGDPSGKSEERVLQTEEQVDKNIEGISKQMHNIFEFGTDHGAVLVNNRDWLGQISLISFLRDYGKHVGVNYMLGKDSIQSRLEHGISYTEFTYTILQAIDFGHLNRELNCKIQVGGSDQWGNITSGIELMRRMYGQTDAYGLTIPLVTKSDGKKFGKSESGAVWLDAEKTSPYEFYQFWINQSDEDVIKFLKYFTFLGKEEIDRLEQSKNEAPHLREAQKTLAEEVTKFIHGEDALNDAIRIS 1jil-a1-m1-cA_1jil-a1-m2-cA Crystal structure of S. aureus TyrRS in complex with SB284485 A6QHR2 A6QHR2 2.2 X-RAY DIFFRACTION 88 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 323 323 1jik-a1-m1-cA_1jik-a1-m2-cA TNVLIEDLKWRGLIYQQTDEQGIEDLLNKEQVTLYCGADPTADSLHIGHLLPFLTLRRFQEHGHRPIVLIGGGTGMIGDPSGKSEERVLQTEEQVDKNIEGISKQMHNIFEFGTDHGAVLVNNRDWLGQISLISFLRDYGKHVGVNYMLGKDSIQSRLEHGISYTEFTYTILQAIDFGHLNRELNCKIQVGGSDQWGNITSGIELMRRMYGQTDAYGLTIPLVTKSDGKKFGKSESGAVWLDAEKTSPYEFYQFWINQSDEDVIKFLKYFTFLGKEEIDRLEQSKNEAPHLREAQKTLAEEVTKFIHGEDALNDAIRISQALF TNVLIEDLKWRGLIYQQTDEQGIEDLLNKEQVTLYCGADPTADSLHIGHLLPFLTLRRFQEHGHRPIVLIGGGTGMIGDPSGKSEERVLQTEEQVDKNIEGISKQMHNIFEFGTDHGAVLVNNRDWLGQISLISFLRDYGKHVGVNYMLGKDSIQSRLEHGISYTEFTYTILQAIDFGHLNRELNCKIQVGGSDQWGNITSGIELMRRMYGQTDAYGLTIPLVTKSDGKKFGKSESGAVWLDAEKTSPYEFYQFWINQSDEDVIKFLKYFTFLGKEEIDRLEQSKNEAPHLREAQKTLAEEVTKFIHGEDALNDAIRISQALF 1jje-a3-m1-cA_1jje-a3-m2-cB IMP-1 METALLO BETA-LACTAMASE FROM PSEUDOMONAS AERUGINOSA IN COMPLEX WITH A BIARYL SUCCINIC ACID INHIBITOR (11) Q79MP6 Q79MP6 1.8 X-RAY DIFFRACTION 77 0.995 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 220 221 1jjt-a3-m1-cA_1jjt-a3-m2-cB 1vgn-a1-m1-cA_1vgn-a1-m1-cB 6jka-a1-m1-cA_6jka-a1-m1-cC 6jka-a2-m1-cB_6jka-a2-m1-cD SLPDLKIEKLDEGVYVHTSFEEVNGWGVVPKHGLVVLVNAEAYLIDTPFTAKDTEKLVTWFVERGYKIKGSISSHFHSDSTGGIEWLNSRSIPTYASELTNELLKKDGKVQATNSFSGVNYWLVKNKIEVFYPGPGHTPDNVVVWLPERKILFGGCFIKPYGLGNLGDANIEAWPKSAKLLKSKYGKAKLVVPSHSEVGDASLLKLTLEQAVKGLNESKK AESLPDLKIEKLDEGVYVHTSFEEVNGWGVVPKHGLVVLVNAEAYLIDTPFTAKDTEKLVTWFVERGYKIKGSISSHFHSDSTGGIEWLNSRSIPTYASELTNELLKKDGKVQATNSFSGVNYWLVKNKIEVFYPGPGHTPDNVVVWLPERKILFGGCFIKPYGLGNLGDANIEAWPKSAKLLKSKYGKAKLVVPSHSEVGDASLLKLTLEQAVKGLNESK 1jjh-a1-m1-cA_1jjh-a1-m2-cA E2 DNA-binding Domain from Bovine Papillomavirus Type 1 P03122 P03122 2.5 X-RAY DIFFRACTION 10 1.0 77 77 ASCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFTVQAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF ASCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFTVQAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF 1jjh-a2-m1-cB_1jjh-a2-m3-cB E2 DNA-binding Domain from Bovine Papillomavirus Type 1 P03122 P03122 2.5 X-RAY DIFFRACTION 20 1.0 78 78 ASCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFTVAQAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF ASCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFTVAQAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF 1jjh-a3-m1-cC_1jjh-a3-m3-cC E2 DNA-binding Domain from Bovine Papillomavirus Type 1 P03122 P03122 2.5 X-RAY DIFFRACTION 20 1.0 73 73 SCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF SCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF 1jk3-a2-m1-cA_1jk3-a2-m2-cA Crystal structure of human MMP-12 (Macrophage Elastase) at true atomic resolution P39900 P39900 1.09 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 158 158 GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHAIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYG GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHAIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYG 1jk4-a1-m1-cA_1jk4-a1-m2-cA DES 1-6 BOVINE NEUROPHYSIN II COMPLEX WITH VASOPRESSIN P01180 P01180 2.3 X-RAY DIFFRACTION 52 1.0 9913 (Bos taurus) 9913 (Bos taurus) 79 79 1jk6-a1-m1-cA_1jk6-a1-m1-cC 1npo-a1-m1-cC_1npo-a1-m1-cA 2bn2-a1-m1-cC_2bn2-a1-m1-cA 2bn2-a2-m1-cE_2bn2-a2-m1-cG LRQCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCNDESCVTEPEC LRQCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCNDESCVTEPEC 1jk9-a4-m3-cB_1jk9-a4-m3-cD Heterodimer between H48F-ySOD1 and yCCS P40202 P40202 2.9 X-RAY DIFFRACTION 60 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 243 243 1jk9-a3-m1-cB_1jk9-a3-m1-cD TNDTYEATYAIPMHCENCVNDIKACLKNVPGINSLNFDIEQQIMSVESSVAPSTIINTLRNCGKDAIIRGAGKPNSSAVAILETFQKYTIDQKKDTAVRGLARIVQVGENKTLFDITVNGVPEAGNYHASIHEKGDVSKGVESTGKVWHKFDEPIECFNESDLGKNLYSGKTFLSAPLPTWQLIGRSFVISKSLNHPENEPSSVKDYSFLGVIARSAGVWENNKQVCACTGKTVWEERKDALA TNDTYEATYAIPMHCENCVNDIKACLKNVPGINSLNFDIEQQIMSVESSVAPSTIINTLRNCGKDAIIRGAGKPNSSAVAILETFQKYTIDQKKDTAVRGLARIVQVGENKTLFDITVNGVPEAGNYHASIHEKGDVSKGVESTGKVWHKFDEPIECFNESDLGKNLYSGKTFLSAPLPTWQLIGRSFVISKSLNHPENEPSSVKDYSFLGVIARSAGVWENNKQVCACTGKTVWEERKDALA 1jkm-a1-m1-cA_1jkm-a1-m2-cB BREFELDIN A ESTERASE, A BACTERIAL HOMOLOGUE OF HUMAN HORMONE SENSITIVE LIPASE O68884 O68884 1.85 X-RAY DIFFRACTION 488 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 358 361 1jkm-a1-m2-cA_1jkm-a1-m1-cB PGRLGDESSGPRTDPRFSPAMVEALATFGLDAVAAAPPVSASDDLPTVLAAVGASHDGFQAVYDSIALDLPTDRDDVETSTETILGVDGNEITLHVFRPAGVEGVLPGLVYTHGGGMTILTTDNRVHRRWCTDLAAAGSVVVMVDFRNAWTAEGHHPFPSGVEDCLAAVLWVDEHRESLGLSGVVVQGESGGGNLAIATTLLAKRRGRLDAIDGVYASIPYISGGYAWDHERRLTELPSLVENDGYFIENGGMALLVRAYDPTGEHAEDPIAWPYFASEDELRGLPPFVVAVNELDPLRDEGIAFARRLARAGVDVAARVNIGLVHGADVIFRHWLPAALESTVRDVAGFAADRARLR YTPPGRLGDESSGPRTDPRFSPAMVEALATFGLDAVAAAPPVSASDDLPTVLAAVGASHDGFQAVYDSIALDLPTDRDDVETSTETILGVDGNEITLHVFRPAGVEGVLPGLVYTHGGGMTILTTDNRVHRRWCTDLAAAGSVVVMVDFRNAWTAEGHHPFPSGVEDCLAAVLWVDEHRESLGLSGVVVQGESGGGNLAIATTLLAKRRGRLDAIDGVYASIPYISGGYAWDHERRLTELPSLVENDGYFIENGGMALLVRAYDPTGEHAEDPIAWPYFASEDELRGLPPFVVAVNELDPLRDEGIAFARRLARAGVDVAARVNIGLVHGADVIFRHWLPAALESTVRDVAGFAADRARLR 1jkm-a1-m1-cB_1jkm-a1-m2-cB BREFELDIN A ESTERASE, A BACTERIAL HOMOLOGUE OF HUMAN HORMONE SENSITIVE LIPASE O68884 O68884 1.85 X-RAY DIFFRACTION 134 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 361 361 YTPPGRLGDESSGPRTDPRFSPAMVEALATFGLDAVAAAPPVSASDDLPTVLAAVGASHDGFQAVYDSIALDLPTDRDDVETSTETILGVDGNEITLHVFRPAGVEGVLPGLVYTHGGGMTILTTDNRVHRRWCTDLAAAGSVVVMVDFRNAWTAEGHHPFPSGVEDCLAAVLWVDEHRESLGLSGVVVQGESGGGNLAIATTLLAKRRGRLDAIDGVYASIPYISGGYAWDHERRLTELPSLVENDGYFIENGGMALLVRAYDPTGEHAEDPIAWPYFASEDELRGLPPFVVAVNELDPLRDEGIAFARRLARAGVDVAARVNIGLVHGADVIFRHWLPAALESTVRDVAGFAADRARLR YTPPGRLGDESSGPRTDPRFSPAMVEALATFGLDAVAAAPPVSASDDLPTVLAAVGASHDGFQAVYDSIALDLPTDRDDVETSTETILGVDGNEITLHVFRPAGVEGVLPGLVYTHGGGMTILTTDNRVHRRWCTDLAAAGSVVVMVDFRNAWTAEGHHPFPSGVEDCLAAVLWVDEHRESLGLSGVVVQGESGGGNLAIATTLLAKRRGRLDAIDGVYASIPYISGGYAWDHERRLTELPSLVENDGYFIENGGMALLVRAYDPTGEHAEDPIAWPYFASEDELRGLPPFVVAVNELDPLRDEGIAFARRLARAGVDVAARVNIGLVHGADVIFRHWLPAALESTVRDVAGFAADRARLR 1jkm-a1-m2-cA_1jkm-a1-m2-cB BREFELDIN A ESTERASE, A BACTERIAL HOMOLOGUE OF HUMAN HORMONE SENSITIVE LIPASE O68884 O68884 1.85 X-RAY DIFFRACTION 98 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 358 361 1jkm-a1-m1-cA_1jkm-a1-m1-cB PGRLGDESSGPRTDPRFSPAMVEALATFGLDAVAAAPPVSASDDLPTVLAAVGASHDGFQAVYDSIALDLPTDRDDVETSTETILGVDGNEITLHVFRPAGVEGVLPGLVYTHGGGMTILTTDNRVHRRWCTDLAAAGSVVVMVDFRNAWTAEGHHPFPSGVEDCLAAVLWVDEHRESLGLSGVVVQGESGGGNLAIATTLLAKRRGRLDAIDGVYASIPYISGGYAWDHERRLTELPSLVENDGYFIENGGMALLVRAYDPTGEHAEDPIAWPYFASEDELRGLPPFVVAVNELDPLRDEGIAFARRLARAGVDVAARVNIGLVHGADVIFRHWLPAALESTVRDVAGFAADRARLR YTPPGRLGDESSGPRTDPRFSPAMVEALATFGLDAVAAAPPVSASDDLPTVLAAVGASHDGFQAVYDSIALDLPTDRDDVETSTETILGVDGNEITLHVFRPAGVEGVLPGLVYTHGGGMTILTTDNRVHRRWCTDLAAAGSVVVMVDFRNAWTAEGHHPFPSGVEDCLAAVLWVDEHRESLGLSGVVVQGESGGGNLAIATTLLAKRRGRLDAIDGVYASIPYISGGYAWDHERRLTELPSLVENDGYFIENGGMALLVRAYDPTGEHAEDPIAWPYFASEDELRGLPPFVVAVNELDPLRDEGIAFARRLARAGVDVAARVNIGLVHGADVIFRHWLPAALESTVRDVAGFAADRARLR 1jkx-a2-m1-cD_1jkx-a2-m2-cC Unexpected formation of an epoxide-derived multisubstrate adduct inhibitor on the active site of GAR transformylase P08179 P08179 1.6 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 209 209 1jkx-a1-m1-cA_1jkx-a1-m1-cB 3gar-a1-m1-cA_3gar-a1-m2-cA MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPKYPGLHTHRQALENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYA MNIVVLISGNGSNLQAIIDACKTNKIKGTVRAVFSNKADAFGLERARQAGIATHTLIASAFDSREAYDRELIHEIDMYAPDVVVLAGFMRILSPAFVSHYAGRLLNIHPSLLPKYPGLHTHRQALENGDEEHGTSVHFVTDELDGGPVILQAKVPVFAGDSEDDITARVQTQEHAIYPLVISWFADGRLKMHENAAWLDGQRLPPQGYA 1jl2-a1-m1-cB_1jl2-a1-m1-cA Crystal structure of TCEO RNase H-a chimera combining the folding core from T. thermophilus RNase H and the remaining region of E. coli RNase H P0A7Y4 P0A7Y4 1.76 X-RAY DIFFRACTION 12 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 150 KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGY KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEGWLEGWRKRGWRTAEGKPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGY 1jl2-a1-m1-cB_1jl2-a1-m1-cC Crystal structure of TCEO RNase H-a chimera combining the folding core from T. thermophilus RNase H and the remaining region of E. coli RNase H P0A7Y4 P0A7Y4 1.76 X-RAY DIFFRACTION 28 0.992 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 133 KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGY KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGYQ 1jl2-a1-m1-cB_1jl2-a1-m1-cD Crystal structure of TCEO RNase H-a chimera combining the folding core from T. thermophilus RNase H and the remaining region of E. coli RNase H P0A7Y4 P0A7Y4 1.76 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 146 KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGY KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEGWLEGWRTAEGKPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGYQ 1jl2-a1-m1-cC_1jl2-a1-m1-cA Crystal structure of TCEO RNase H-a chimera combining the folding core from T. thermophilus RNase H and the remaining region of E. coli RNase H P0A7Y4 P0A7Y4 1.76 X-RAY DIFFRACTION 16 0.992 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 133 150 KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGYQ KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEGWLEGWRKRGWRTAEGKPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGY 1jl2-a1-m1-cD_1jl2-a1-m1-cA Crystal structure of TCEO RNase H-a chimera combining the folding core from T. thermophilus RNase H and the remaining region of E. coli RNase H P0A7Y4 P0A7Y4 1.76 X-RAY DIFFRACTION 21 0.993 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 146 150 KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEGWLEGWRTAEGKPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGYQ KQVEIFTDGSALGNPGPGGYGAILRYRGREKTFSAGYTRTTNNRMELKAAIEGLKALKEPAEVDLYTDSHYLKKAFTEGWLEGWRKRGWRTAEGKPVKNRDLWEALLLAMAPHRVRFHFVKGHAGHPENERADELARAAAMNPTLEDTGY 1jl9-a1-m1-cA_1jl9-a1-m1-cB Crystal Structure of Human Epidermal Growth Factor P01133 P01133 3 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 45 CPLSHDGYCLHDGVCMYIEALDKYACNCVVGYIGERCQYRDL CPLSHDGYCLHDGVCMYIEALDKYACNCVVGYIGERCQYRDLKWW 1jlj-a1-m1-cB_1jlj-a1-m1-cC 1.6 Angstrom crystal structure of the human neuroreceptor anchoring and molybdenum cofactor biosynthesis protein gephyrin Q9NQX3 Q9NQX3 1.6 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 169 169 1ihc-a1-m1-cA_1ihc-a1-m2-cA 1ihc-a1-m1-cA_1ihc-a1-m3-cA 1ihc-a1-m2-cA_1ihc-a1-m3-cA 1jlj-a1-m1-cA_1jlj-a1-m1-cB 1jlj-a1-m1-cA_1jlj-a1-m1-cC HQIRVGVLTVSDSCFRNLAEDRSGINLKDLVQDPSLLGGTISAYKIVPDEIEEIKETLIDWCDEKELNLILTTGGTGFAPRDVTPEATKEVIEREAPGMALAMLMGSLNVTPLGMLSRPVCGIRGKTLIINLPGSKKGSQECFQFILPALPHAIDLLRDAIVKVKEVHD HQIRVGVLTVSDSCFRNLAEDRSGINLKDLVQDPSLLGGTISAYKIVPDEIEEIKETLIDWCDEKELNLILTTGGTGFAPRDVTPEATKEVIEREAPGMALAMLMGSLNVTPLGMLSRPVCGIRGKTLIINLPGSKKGSQECFQFILPALPHAIDLLRDAIVKVKEVHD 1jlv-a2-m1-cC_1jlv-a2-m1-cD Anopheles dirus species B glutathione S-transferases 1-3 Q7KIF2 Q7KIF2 1.75 X-RAY DIFFRACTION 84 1.0 123217 (Anopheles cracens) 123217 (Anopheles cracens) 207 207 1jlv-a1-m1-cA_1jlv-a1-m1-cB 1jlv-a3-m1-cE_1jlv-a3-m1-cF MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTNLMAGEHMKPEFLKINPQHCIPTLVDNGFALWESRAICTYLAEKYGKDDKLYPKDPQKRAVVNQRLYFDMGTLYQRFADYYYPQIFAKQPANAENEKKMKDAVDFLNTFLDGHKYVAGDSLTIADLTVLATVSTYDVAGFELAKYPHVAAWYERTRKEAPGAAINEAGIEEFRKYF MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTNLMAGEHMKPEFLKINPQHCIPTLVDNGFALWESRAICTYLAEKYGKDDKLYPKDPQKRAVVNQRLYFDMGTLYQRFADYYYPQIFAKQPANAENEKKMKDAVDFLNTFLDGHKYVAGDSLTIADLTVLATVSTYDVAGFELAKYPHVAAWYERTRKEAPGAAINEAGIEEFRKYF 1jly-a1-m1-cA_1jly-a1-m1-cB CRYSTAL STRUCTURE OF AMARANTHUS CAUDATUS AGGLUTININ Q71QF2 Q71QF2 2.2 X-RAY DIFFRACTION 147 1.0 3567 (Amaranthus caudatus) 3567 (Amaranthus caudatus) 299 299 1jlx-a1-m1-cA_1jlx-a1-m1-cB AGLPVIMCLKSNNHQKYLRYQSDNIQQYGLLQFSADKILDPLAQFEVEPSKTYDGLVHIKSRYTNKYLVRWSPNHYWITASANEPDENKSNWACTLFKPLYVEEGNMKKVRLLHVQLGHYTQNYTVGGSFVSYLFAESSQIDTGSKDVFHVIDWKSIFQFPKGYVTFKGNNGKYLGVITINQLPCLQFGYDNLNDPKVAHQMFVTSNGTICIKSNYMNKFWRLSTDDWILVDGNDPRETNEAAALFRSDVHDFNVISLLNMQKTWFIKRFTSGKPGFINCMNAATQNVDETAILEIIEL AGLPVIMCLKSNNHQKYLRYQSDNIQQYGLLQFSADKILDPLAQFEVEPSKTYDGLVHIKSRYTNKYLVRWSPNHYWITASANEPDENKSNWACTLFKPLYVEEGNMKKVRLLHVQLGHYTQNYTVGGSFVSYLFAESSQIDTGSKDVFHVIDWKSIFQFPKGYVTFKGNNGKYLGVITINQLPCLQFGYDNLNDPKVAHQMFVTSNGTICIKSNYMNKFWRLSTDDWILVDGNDPRETNEAAALFRSDVHDFNVISLLNMQKTWFIKRFTSGKPGFINCMNAATQNVDETAILEIIEL 1jmj-a1-m1-cB_1jmj-a1-m1-cA Crystal Structure of Native Heparin Cofactor II P05546 P05546 2.35 X-RAY DIFFRACTION 58 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 387 397 ILQLFHGKSRIQRLNILNAKFAFNLYRVLKDQVNTFDNIFIAPVGISTAMGMISLGLKGETHEQVHSILHFKDFVNASSKYEITTIHNLFRKLTHRLFRRNFGYTLRSVNDLYIQKQFPILLDFKTKVREYYFAEAQIADFSDPAFISKTNNHIMKLTKGLIKDALENIDPATQMMILNCIYFKGSWVNKFPVEMTHNHNFRLNEREVVKVSMMQTKGNFLAANDQELDCDILQLEYVGGISMLIVVPHKMSGMKTLEAQLTPRVVERWQKSMTNRTREVLLPKFKLEKNYNLVESLKLMGIRMLFDKNGNMAGISDQRIAIDLFKHQGTITVNEEGTQATTVTTVGFMPLSTQVRFTVDRPFLFLIYEHRTSCLLFMGRVANPSRS LDLEKIFSEDDLQLFHGKSRIQRLNILNAKFAFNLYRVLKDQVNTFDNIFIAPVGISTAMGMISLGLKGETHEQVHSILHFKDFVNASSKYEITTIHNLFRKLTHRLFRRNFGYTLRSVNDLYIQKQFPILLDFKTKVREYYFAEAQIADFSDPAFISKTNNHIMKLTKGLIKDALENIDPATQMMILNCIYFKGSWVNKFPVEMTHNHNFRLNEREVVKVSMMQTKGNFLAANDQELDCDILQLEYVGGISMLIVVPHKMSGMKTLEAQLTPRVVERWQKSMTNRTREVLLPKFKLEKNYNLVESLKLMGIRMLFDKNGNMAGISDQRIAIDLFKHQGTITVNEEGTQATTVTTVGFMPLSTQVRFTVDRPFLFLIYEHRTSCLLFMGRVANPSRS 1jmk-a1-m1-cC_1jmk-a1-m1-cO Structural Basis for the Cyclization of the Lipopeptide Antibiotic Surfactin by the Thioesterase Domain SrfTE Q08787 Q08787 1.71 X-RAY DIFFRACTION 37 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 222 230 GGSDGLQDVTIMNQDQEQIIFAFPPVLGYGLMYQNLSSRLPSYKLCAFDFIEEEDRLDRYADLIQKLQPEGPLTLFGYSAGCSLAFEAAKKLEGQGRIVQRIIMVDSYKKQGVSSDVEALMNVNRDNEALNSEAVKHGLKQKTHAFYSYYVNLISTGQVKADIDLLTSGADFDIPEWLASWEEATTGAYRMKRGFGTHAEMLQGETLDRNAGILLEFLNTQT GGSDGLQDVTIMNQDQEQIIFAFPPVLGYGLMYQNLSSRLPSYKLCAFDFIEEEDRLDRYADLIQKLQPEGPLTLFGYSAGCSLAFEAAKKLEGQGRIVQRIIMVDSYKKQGVSDLDGRTVESDVEALMNVNRDNEALNSEAVKHGLKQKTHAFYSYYVNLISTGQVKADIDLLTSGADFDIPEWLASWEEATTGAYRMKRGFGTHAEMLQGETLDRNAGILLEFLNTQT 1jmu-a1-m1-cD_1jmu-a1-m1-cF Crystal Structure of the Reovirus mu1/sigma3 Complex P11077 P11077 2.8 X-RAY DIFFRACTION 319 1.0 10891 (Reovirus sp.) 10891 (Reovirus sp.) 608 608 1jmu-a1-m1-cB_1jmu-a1-m1-cD 1jmu-a1-m1-cB_1jmu-a1-m1-cF 2cse-a1-m10-cA_2cse-a1-m10-cB 2cse-a1-m10-cB_2cse-a1-m10-cC 2cse-a1-m10-cJ_2cse-a1-m10-cL 2cse-a1-m10-cK_2cse-a1-m10-cL 2cse-a1-m10-cP_2cse-a1-m10-cQ 2cse-a1-m10-cP_2cse-a1-m10-cR 2cse-a1-m10-cT_2cse-a1-m25-cT 2cse-a1-m10-cT_2cse-a1-m55-cT 2cse-a1-m11-cA_2cse-a1-m11-cB 2cse-a1-m11-cB_2cse-a1-m11-cC 2cse-a1-m11-cJ_2cse-a1-m11-cL 2cse-a1-m11-cK_2cse-a1-m11-cL 2cse-a1-m11-cP_2cse-a1-m11-cQ 2cse-a1-m11-cP_2cse-a1-m11-cR 2cse-a1-m11-cT_2cse-a1-m17-cT 2cse-a1-m11-cT_2cse-a1-m29-cT 2cse-a1-m12-cA_2cse-a1-m12-cB 2cse-a1-m12-cB_2cse-a1-m12-cC 2cse-a1-m12-cJ_2cse-a1-m12-cL 2cse-a1-m12-cK_2cse-a1-m12-cL 2cse-a1-m12-cP_2cse-a1-m12-cQ 2cse-a1-m12-cP_2cse-a1-m12-cR 2cse-a1-m12-cT_2cse-a1-m16-cT 2cse-a1-m12-cT_2cse-a1-m39-cT 2cse-a1-m13-cA_2cse-a1-m13-cB 2cse-a1-m13-cB_2cse-a1-m13-cC 2cse-a1-m13-cJ_2cse-a1-m13-cL 2cse-a1-m13-cK_2cse-a1-m13-cL 2cse-a1-m13-cP_2cse-a1-m13-cQ 2cse-a1-m13-cP_2cse-a1-m13-cR 2cse-a1-m13-cT_2cse-a1-m38-cT 2cse-a1-m13-cT_2cse-a1-m48-cT 2cse-a1-m14-cA_2cse-a1-m14-cB 2cse-a1-m14-cB_2cse-a1-m14-cC 2cse-a1-m14-cJ_2cse-a1-m14-cL 2cse-a1-m14-cK_2cse-a1-m14-cL 2cse-a1-m14-cP_2cse-a1-m14-cQ 2cse-a1-m14-cP_2cse-a1-m14-cR 2cse-a1-m14-cT_2cse-a1-m41-cT 2cse-a1-m14-cT_2cse-a1-m47-cT 2cse-a1-m15-cA_2cse-a1-m15-cB 2cse-a1-m15-cB_2cse-a1-m15-cC 2cse-a1-m15-cJ_2cse-a1-m15-cL 2cse-a1-m15-cK_2cse-a1-m15-cL 2cse-a1-m15-cP_2cse-a1-m15-cQ 2cse-a1-m15-cP_2cse-a1-m15-cR 2cse-a1-m15-cT_2cse-a1-m30-cT 2cse-a1-m15-cT_2cse-a1-m45-cT 2cse-a1-m16-cA_2cse-a1-m16-cB 2cse-a1-m16-cB_2cse-a1-m16-cC 2cse-a1-m16-cJ_2cse-a1-m16-cL 2cse-a1-m16-cK_2cse-a1-m16-cL 2cse-a1-m16-cP_2cse-a1-m16-cQ 2cse-a1-m16-cP_2cse-a1-m16-cR 2cse-a1-m16-cT_2cse-a1-m39-cT 2cse-a1-m17-cA_2cse-a1-m17-cB 2cse-a1-m17-cB_2cse-a1-m17-cC 2cse-a1-m17-cJ_2cse-a1-m17-cL 2cse-a1-m17-cK_2cse-a1-m17-cL 2cse-a1-m17-cP_2cse-a1-m17-cQ 2cse-a1-m17-cP_2cse-a1-m17-cR 2cse-a1-m17-cT_2cse-a1-m29-cT 2cse-a1-m18-cA_2cse-a1-m18-cB 2cse-a1-m18-cB_2cse-a1-m18-cC 2cse-a1-m18-cJ_2cse-a1-m18-cL 2cse-a1-m18-cK_2cse-a1-m18-cL 2cse-a1-m18-cP_2cse-a1-m18-cQ 2cse-a1-m18-cP_2cse-a1-m18-cR 2cse-a1-m18-cT_2cse-a1-m28-cT 2cse-a1-m18-cT_2cse-a1-m53-cT 2cse-a1-m19-cA_2cse-a1-m19-cB 2cse-a1-m19-cB_2cse-a1-m19-cC 2cse-a1-m19-cJ_2cse-a1-m19-cL 2cse-a1-m19-cK_2cse-a1-m19-cL 2cse-a1-m19-cP_2cse-a1-m19-cQ 2cse-a1-m19-cP_2cse-a1-m19-cR 2cse-a1-m19-cT_2cse-a1-m52-cT 2cse-a1-m19-cT_2cse-a1-m56-cT 2cse-a1-m1-cA_2cse-a1-m1-cB 2cse-a1-m1-cB_2cse-a1-m1-cC 2cse-a1-m1-cJ_2cse-a1-m1-cL 2cse-a1-m1-cK_2cse-a1-m1-cL 2cse-a1-m1-cP_2cse-a1-m1-cQ 2cse-a1-m1-cP_2cse-a1-m1-cR 2cse-a1-m1-cT_2cse-a1-m34-cT 2cse-a1-m1-cT_2cse-a1-m7-cT 2cse-a1-m20-cA_2cse-a1-m20-cB 2cse-a1-m20-cB_2cse-a1-m20-cC 2cse-a1-m20-cJ_2cse-a1-m20-cL 2cse-a1-m20-cK_2cse-a1-m20-cL 2cse-a1-m20-cP_2cse-a1-m20-cQ 2cse-a1-m20-cP_2cse-a1-m20-cR 2cse-a1-m20-cT_2cse-a1-m40-cT 2cse-a1-m20-cT_2cse-a1-m60-cT 2cse-a1-m21-cA_2cse-a1-m21-cB 2cse-a1-m21-cB_2cse-a1-m21-cC 2cse-a1-m21-cJ_2cse-a1-m21-cL 2cse-a1-m21-cK_2cse-a1-m21-cL 2cse-a1-m21-cP_2cse-a1-m21-cQ 2cse-a1-m21-cP_2cse-a1-m21-cR 2cse-a1-m21-cT_2cse-a1-m27-cT 2cse-a1-m21-cT_2cse-a1-m54-cT 2cse-a1-m22-cA_2cse-a1-m22-cB 2cse-a1-m22-cB_2cse-a1-m22-cC 2cse-a1-m22-cJ_2cse-a1-m22-cL 2cse-a1-m22-cK_2cse-a1-m22-cL 2cse-a1-m22-cP_2cse-a1-m22-cQ 2cse-a1-m22-cP_2cse-a1-m22-cR 2cse-a1-m22-cT_2cse-a1-m26-cT 2cse-a1-m22-cT_2cse-a1-m44-cT 2cse-a1-m23-cA_2cse-a1-m23-cB 2cse-a1-m23-cB_2cse-a1-m23-cC 2cse-a1-m23-cJ_2cse-a1-m23-cL 2cse-a1-m23-cK_2cse-a1-m23-cL 2cse-a1-m23-cP_2cse-a1-m23-cQ 2cse-a1-m23-cP_2cse-a1-m23-cR 2cse-a1-m23-cT_2cse-a1-m3-cT 2cse-a1-m23-cT_2cse-a1-m43-cT 2cse-a1-m24-cA_2cse-a1-m24-cB 2cse-a1-m24-cB_2cse-a1-m24-cC 2cse-a1-m24-cJ_2cse-a1-m24-cL 2cse-a1-m24-cK_2cse-a1-m24-cL 2cse-a1-m24-cP_2cse-a1-m24-cQ 2cse-a1-m24-cP_2cse-a1-m24-cR 2cse-a1-m24-cT_2cse-a1-m6-cT 2cse-a1-m25-cA_2cse-a1-m25-cB 2cse-a1-m25-cB_2cse-a1-m25-cC 2cse-a1-m25-cJ_2cse-a1-m25-cL 2cse-a1-m25-cK_2cse-a1-m25-cL 2cse-a1-m25-cP_2cse-a1-m25-cQ 2cse-a1-m25-cP_2cse-a1-m25-cR 2cse-a1-m25-cT_2cse-a1-m55-cT 2cse-a1-m26-cA_2cse-a1-m26-cB 2cse-a1-m26-cB_2cse-a1-m26-cC 2cse-a1-m26-cJ_2cse-a1-m26-cL 2cse-a1-m26-cK_2cse-a1-m26-cL 2cse-a1-m26-cP_2cse-a1-m26-cQ 2cse-a1-m26-cP_2cse-a1-m26-cR 2cse-a1-m26-cT_2cse-a1-m44-cT 2cse-a1-m27-cA_2cse-a1-m27-cB 2cse-a1-m27-cB_2cse-a1-m27-cC 2cse-a1-m27-cJ_2cse-a1-m27-cL 2cse-a1-m27-cK_2cse-a1-m27-cL 2cse-a1-m27-cP_2cse-a1-m27-cQ 2cse-a1-m27-cP_2cse-a1-m27-cR 2cse-a1-m27-cT_2cse-a1-m54-cT 2cse-a1-m28-cA_2cse-a1-m28-cB 2cse-a1-m28-cB_2cse-a1-m28-cC 2cse-a1-m28-cJ_2cse-a1-m28-cL 2cse-a1-m28-cK_2cse-a1-m28-cL 2cse-a1-m28-cP_2cse-a1-m28-cQ 2cse-a1-m28-cP_2cse-a1-m28-cR 2cse-a1-m28-cT_2cse-a1-m53-cT 2cse-a1-m29-cA_2cse-a1-m29-cB 2cse-a1-m29-cB_2cse-a1-m29-cC 2cse-a1-m29-cJ_2cse-a1-m29-cL 2cse-a1-m29-cK_2cse-a1-m29-cL 2cse-a1-m29-cP_2cse-a1-m29-cQ 2cse-a1-m29-cP_2cse-a1-m29-cR 2cse-a1-m2-cA_2cse-a1-m2-cB 2cse-a1-m2-cB_2cse-a1-m2-cC 2cse-a1-m2-cJ_2cse-a1-m2-cL 2cse-a1-m2-cK_2cse-a1-m2-cL 2cse-a1-m2-cP_2cse-a1-m2-cQ 2cse-a1-m2-cP_2cse-a1-m2-cR 2cse-a1-m2-cT_2cse-a1-m24-cT 2cse-a1-m2-cT_2cse-a1-m6-cT 2cse-a1-m30-cA_2cse-a1-m30-cB 2cse-a1-m30-cB_2cse-a1-m30-cC 2cse-a1-m30-cJ_2cse-a1-m30-cL 2cse-a1-m30-cK_2cse-a1-m30-cL 2cse-a1-m30-cP_2cse-a1-m30-cQ 2cse-a1-m30-cP_2cse-a1-m30-cR 2cse-a1-m30-cT_2cse-a1-m45-cT 2cse-a1-m31-cA_2cse-a1-m31-cB 2cse-a1-m31-cB_2cse-a1-m31-cC 2cse-a1-m31-cJ_2cse-a1-m31-cL 2cse-a1-m31-cK_2cse-a1-m31-cL 2cse-a1-m31-cP_2cse-a1-m31-cQ 2cse-a1-m31-cP_2cse-a1-m31-cR 2cse-a1-m31-cT_2cse-a1-m37-cT 2cse-a1-m31-cT_2cse-a1-m49-cT 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2cse-a1-m59-cK_2cse-a1-m59-cL 2cse-a1-m59-cP_2cse-a1-m59-cQ 2cse-a1-m59-cP_2cse-a1-m59-cR 2cse-a1-m5-cA_2cse-a1-m5-cB 2cse-a1-m5-cB_2cse-a1-m5-cC 2cse-a1-m5-cJ_2cse-a1-m5-cL 2cse-a1-m5-cK_2cse-a1-m5-cL 2cse-a1-m5-cP_2cse-a1-m5-cQ 2cse-a1-m5-cP_2cse-a1-m5-cR 2cse-a1-m5-cT_2cse-a1-m50-cT 2cse-a1-m60-cA_2cse-a1-m60-cB 2cse-a1-m60-cB_2cse-a1-m60-cC 2cse-a1-m60-cJ_2cse-a1-m60-cL 2cse-a1-m60-cK_2cse-a1-m60-cL 2cse-a1-m60-cP_2cse-a1-m60-cQ 2cse-a1-m60-cP_2cse-a1-m60-cR 2cse-a1-m6-cA_2cse-a1-m6-cB 2cse-a1-m6-cB_2cse-a1-m6-cC 2cse-a1-m6-cJ_2cse-a1-m6-cL 2cse-a1-m6-cK_2cse-a1-m6-cL 2cse-a1-m6-cP_2cse-a1-m6-cQ 2cse-a1-m6-cP_2cse-a1-m6-cR 2cse-a1-m7-cA_2cse-a1-m7-cB 2cse-a1-m7-cB_2cse-a1-m7-cC 2cse-a1-m7-cJ_2cse-a1-m7-cL 2cse-a1-m7-cK_2cse-a1-m7-cL 2cse-a1-m7-cP_2cse-a1-m7-cQ 2cse-a1-m7-cP_2cse-a1-m7-cR 2cse-a1-m8-cA_2cse-a1-m8-cB 2cse-a1-m8-cB_2cse-a1-m8-cC 2cse-a1-m8-cJ_2cse-a1-m8-cL 2cse-a1-m8-cK_2cse-a1-m8-cL 2cse-a1-m8-cP_2cse-a1-m8-cQ 2cse-a1-m8-cP_2cse-a1-m8-cR 2cse-a1-m9-cA_2cse-a1-m9-cB 2cse-a1-m9-cB_2cse-a1-m9-cC 2cse-a1-m9-cJ_2cse-a1-m9-cL 2cse-a1-m9-cK_2cse-a1-m9-cL 2cse-a1-m9-cP_2cse-a1-m9-cQ 2cse-a1-m9-cP_2cse-a1-m9-cR 6xf8-a1-m1-cF_6xf8-a1-m1-cK 6zty-a1-m1-cH_6zty-a1-m1-cI 6zty-a1-m1-cH_6zty-a1-m1-cJ 6zty-a1-m1-cI_6zty-a1-m1-cJ 6ztz-a1-m1-cK_6ztz-a1-m1-cL 6ztz-a1-m1-cK_6ztz-a1-m1-cM 6ztz-a1-m1-cL_6ztz-a1-m1-cM 7ell-a1-m1-ca_7ell-a1-m1-cb 7ell-a1-m1-ca_7ell-a1-m1-cc 7ell-a1-m1-cb_7ell-a1-m1-cc 7ell-a1-m1-cd_7ell-a1-m1-ce 7ell-a1-m1-cd_7ell-a1-m1-cf 7ell-a1-m1-ce_7ell-a1-m1-cf 7ell-a1-m1-cg_7ell-a1-m1-ci 7ell-a1-m1-ch_7ell-a1-m1-cg 7ell-a1-m1-ch_7ell-a1-m1-ci PGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP PGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP 1jmv-a3-m1-cD_1jmv-a3-m1-cA Structure of Haemophylus influenzae Universal Stress Protein At 1.85A Resolution P44880 P44880 1.85 X-RAY DIFFRACTION 12 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 127 140 MYKHILVAVDLSEESPILLKKAVGIAKRHDAKLSIIHVDVNFSLYTGLIDVNMSTQKALLDLAESVDYPISEKLSGSGDLGQVLSDAIEQYDVDLLVTGHHQDFWSKLMSSTRQVMNTIKIDMLVVP MYKHILVAVDLSEESPILLKKAVGIAKRHDAKLSIIHVDVNFSDLYTGLIDVNMSSMQDRISTETQKALLDLAESVDYPISEKLSGSGDLGQVLSDAIEQYDVDLLVTGHHQDFWSKLMSSTRQVMNTIKIDMLVVPLRD 1jmv-a3-m1-cD_1jmv-a3-m1-cB Structure of Haemophylus influenzae Universal Stress Protein At 1.85A Resolution P44880 P44880 1.85 X-RAY DIFFRACTION 23 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 127 137 MYKHILVAVDLSEESPILLKKAVGIAKRHDAKLSIIHVDVNFSLYTGLIDVNMSTQKALLDLAESVDYPISEKLSGSGDLGQVLSDAIEQYDVDLLVTGHHQDFWSKLMSSTRQVMNTIKIDMLVVP MYKHILVAVDLSEESPILLKKAVGIAKRHDAKLSIIHVDVNFSDLYTGLIDVNMSQDRISTETQKALLDLAESVDYPISEKLSGSGDLGQVLSDAIEQYDVDLLVTGHHQDFWSKLMSSTRQVMNTIKIDMLVVPLR 1jmv-a3-m1-cD_1jmv-a3-m1-cC Structure of Haemophylus influenzae Universal Stress Protein At 1.85A Resolution P44880 P44880 1.85 X-RAY DIFFRACTION 56 0.992 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 127 133 1jmv-a1-m1-cB_1jmv-a1-m1-cA 1jmv-a2-m1-cD_1jmv-a2-m1-cC 1jmv-a3-m1-cB_1jmv-a3-m1-cA MYKHILVAVDLSEESPILLKKAVGIAKRHDAKLSIIHVDVNFSLYTGLIDVNMSTQKALLDLAESVDYPISEKLSGSGDLGQVLSDAIEQYDVDLLVTGHHQDFWSKLMSSTRQVMNTIKIDMLVVP MYKHILVAVDLSEESPILLKKAVGIAKRHDAKLSIIHVDVNFSYTGLIDVNMSSMQDTETQKALLDLAESVDYPISEKLSGSGDLGQVLSDAIEQYDVDLLVTGHHQDFWSKLMSSTRQVMNTIKIDMLVVPL 1jmx-a2-m1-cB_1jmx-a2-m2-cB crystal structure of a quinohemoprotein amine dehydrogenase from pseudomonas putida Q8VW82 Q8VW82 1.9 X-RAY DIFFRACTION 21 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 339 339 1jmz-a2-m1-cB_1jmz-a2-m2-cB GPALKAGHEYMIVTNYPNNLHVVDVASDTVYKSCVMPDKFGPGTAMMAPDNRTAYVLNNHYGDIYGIDLDTCKNTFHANLSSVPGEVGRSMYSFAISPDGKEVYATVNPTQRLNDHYVVKPPRLEVFSTADGLEAKPVRTFPMPRQVYLMRAADDGSLYVAGPDIYKMDVKTGKYTVALPLRNWNRKGYSAPDVLYFWPHQSPRHEFSMLYTIARFATADLLYGYLSVDLKTGKTHTQEFADLTELYFTGLRSPKDPNQIYGVLNRLAKYDLKQRKLIKAANLDHTYYCVAFDKKGDKLYLGGTFNDLAVFNPDTLEKVKNIKLPGGDMSTTTPQVFIR GPALKAGHEYMIVTNYPNNLHVVDVASDTVYKSCVMPDKFGPGTAMMAPDNRTAYVLNNHYGDIYGIDLDTCKNTFHANLSSVPGEVGRSMYSFAISPDGKEVYATVNPTQRLNDHYVVKPPRLEVFSTADGLEAKPVRTFPMPRQVYLMRAADDGSLYVAGPDIYKMDVKTGKYTVALPLRNWNRKGYSAPDVLYFWPHQSPRHEFSMLYTIARFATADLLYGYLSVDLKTGKTHTQEFADLTELYFTGLRSPKDPNQIYGVLNRLAKYDLKQRKLIKAANLDHTYYCVAFDKKGDKLYLGGTFNDLAVFNPDTLEKVKNIKLPGGDMSTTTPQVFIR 1jnp-a1-m1-cA_1jnp-a1-m1-cB Crystal Structure of Murine Tcl1 at 2.5 Resolution P56280 P56280 2.5 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 101 101 RAETPAHPNRLWIWEKHVYLDEFRRSWLPVVIKSNEKFQVILRQEDVTLGEAMSPSQLVPYELPLMWQLYPKDRYRSADSMYWQILYHIKFRDVEDMLLEL RAETPAHPNRLWIWEKHVYLDEFRRSWLPVVIKSNEKFQVILRQEDVTLGEAMSPSQLVPYELPLMWQLYPKDRYRSADSMYWQILYHIKFRDVEDMLLEL 1jnr-a1-m1-cA_1jnr-a1-m1-cC Structure of adenylylsulfate reductase from the hyperthermophilic Archaeoglobus fulgidus at 1.6 resolution O28603 O28603 1.6 X-RAY DIFFRACTION 71 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 642 642 1jnz-a1-m1-cA_1jnz-a1-m1-cC 2fja-a1-m1-cA_2fja-a1-m1-cC 2fjb-a1-m1-cA_2fjb-a1-m1-cC 2fjd-a1-m1-cA_2fjd-a1-m1-cC 2fje-a1-m1-cA_2fje-a1-m1-cC VYYPKKYELYKADEVPTEVVETDILIIGGGFSGCGAAYEAAYWAKLGGLKVTLVEKAAVERSGAVAQGLSAINTYIDLTGRSERQNTLEDYVRYVTLDMMGLAREDLVADYARHVDGTVHLFEKWGLPIWKTPDGKYVREGQWQIMIHGESYKPIIAEAAKMAVGEENIYERVFIFELLKDNNDPNAVAGAVGFSVREPKFYVFKAKAVILATGGATLLFRPRSTGEAAGRTWYAIFDTGSGYYMGLKAGAMLTQFEHRFIPFRFKDGYGPVGAWFLFFKCKAKNAYGEEYIKTRAAELEKYKPYGAAQPIPTPLRNHQVMLEIMDGNQPIYMHTEEALAELAGGDKKKLKHIYEEAFEDFLDMTVSQALLWACQNIDPQEQPSEAAPAEPYIMGSHSGEAGFWVCGPEDLMPEEYAKLFPLKYNRMTTVKGLFAIGDCAGANPHKFSSGSFTEGRIAAKAAVRFILEQKPNPEIDDAVVEELKKKAYAPMERFMQYKDLSTADDVNPEYILPWQGLVRLQKIMDEYAAGIATIYKTNEKMLQRALELLAFLKEDLEKLAARDLHELMRAWELVHRVWTAEAHVRHMLFRKETRWPGYYYRTDYPELNDEEWKCFVCSKYDAEKDEWTFEKVPYVQVIEWSF VYYPKKYELYKADEVPTEVVETDILIIGGGFSGCGAAYEAAYWAKLGGLKVTLVEKAAVERSGAVAQGLSAINTYIDLTGRSERQNTLEDYVRYVTLDMMGLAREDLVADYARHVDGTVHLFEKWGLPIWKTPDGKYVREGQWQIMIHGESYKPIIAEAAKMAVGEENIYERVFIFELLKDNNDPNAVAGAVGFSVREPKFYVFKAKAVILATGGATLLFRPRSTGEAAGRTWYAIFDTGSGYYMGLKAGAMLTQFEHRFIPFRFKDGYGPVGAWFLFFKCKAKNAYGEEYIKTRAAELEKYKPYGAAQPIPTPLRNHQVMLEIMDGNQPIYMHTEEALAELAGGDKKKLKHIYEEAFEDFLDMTVSQALLWACQNIDPQEQPSEAAPAEPYIMGSHSGEAGFWVCGPEDLMPEEYAKLFPLKYNRMTTVKGLFAIGDCAGANPHKFSSGSFTEGRIAAKAAVRFILEQKPNPEIDDAVVEELKKKAYAPMERFMQYKDLSTADDVNPEYILPWQGLVRLQKIMDEYAAGIATIYKTNEKMLQRALELLAFLKEDLEKLAARDLHELMRAWELVHRVWTAEAHVRHMLFRKETRWPGYYYRTDYPELNDEEWKCFVCSKYDAEKDEWTFEKVPYVQVIEWSF 1joc-a1-m1-cA_1joc-a1-m1-cB EEA1 homodimer of C-terminal FYVE domain bound to inositol 1,3-diphosphate Q15075 Q15075 2.2 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 123 QDERRALLERCLKGEGEIEKLQTKVLELQRKLDNTTAAVQELGRENQSLQIKHTQALNRKWAEDNEVQNCMACGKGFSVTVRRHHCRQCGNIFCAECSAKNALTPSSKKPVRVCDACFNDLQG QDERRALLERCLKGEGEIEKLQTKVLELQRKLDNTTAAVQELGRENQSLQIKHTQALNRKWAEDNEVQNCMACGKGFSVTVRRHHCRQCGNIFCAECSAKNALTPSSKKPVRVCDACFNDLQG 1joe-a2-m1-cC_1joe-a2-m1-cD Crystal Structure of Autoinducer-2 Production Protein (LuxS) from Heamophilus influenzae P44007 P44007 2.4 X-RAY DIFFRACTION 134 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 148 148 1j6w-a1-m1-cB_1j6w-a1-m1-cA 1joe-a1-m1-cA_1joe-a1-m1-cB VDHTKMNAPAVRIAKTMLTPKGDNITVFDLRFCIPNKEILSPKGIHTLEHLFAGFMRDHLNGDSIEIIDISPMGCRTGFYMSLIGTPNEQKVSEAWLASMQDVLGVQDQASIPELNIYQCGSYTEHSLEDAHEIAKNVIARGIGVNKN VDHTKMNAPAVRIAKTMLTPKGDNITVFDLRFCIPNKEILSPKGIHTLEHLFAGFMRDHLNGDSIEIIDISPMGCRTGFYMSLIGTPNEQKVSEAWLASMQDVLGVQDQASIPELNIYQCGSYTEHSLEDAHEIAKNVIARGIGVNKN 1jof-a2-m1-cE_1jof-a2-m1-cH Neurospora crassa 3-carboxy-cis,cis-mucoante lactonizing enzyme P38677 P38677 2.5 X-RAY DIFFRACTION 34 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 355 355 1jof-a1-m1-cA_1jof-a1-m1-cD 1jof-a1-m1-cB_1jof-a1-m1-cC 1jof-a2-m1-cF_1jof-a2-m1-cG PLHHLIGTWTPPGAIFTVQFDDEKLTCKLIKRTEIPQDEPISWTFDHERKNIYGAAKKWSSFAVKSPTEIVHEASHPIGGHPRANDADTNTRAIFLLAAKQPPYAVYANPFYKFAGYGNVFSVSETGKLEKNVQNYEYQENTGIHGVFDPTETYLYSADLTANKLWTHRKLASGEVELVGSVDAPDPGDHPRWVAHPTGNYLYALEAGNRICEYVIDPATHPVYTHHSFPLIPPGIPDRDPETGKGLYRADVCALTFSGKYFASSRANKFELQGYIAGFKLRDCGSIEKQLFLSPTPTSGGHSNAVSPCPWSDEWAITDDQEGWLEIYRWKDEFLHRVARVRIPEPGFGNAIWYD PLHHLIGTWTPPGAIFTVQFDDEKLTCKLIKRTEIPQDEPISWTFDHERKNIYGAAKKWSSFAVKSPTEIVHEASHPIGGHPRANDADTNTRAIFLLAAKQPPYAVYANPFYKFAGYGNVFSVSETGKLEKNVQNYEYQENTGIHGVFDPTETYLYSADLTANKLWTHRKLASGEVELVGSVDAPDPGDHPRWVAHPTGNYLYALEAGNRICEYVIDPATHPVYTHHSFPLIPPGIPDRDPETGKGLYRADVCALTFSGKYFASSRANKFELQGYIAGFKLRDCGSIEKQLFLSPTPTSGGHSNAVSPCPWSDEWAITDDQEGWLEIYRWKDEFLHRVARVRIPEPGFGNAIWYD 1jof-a2-m1-cG_1jof-a2-m1-cH Neurospora crassa 3-carboxy-cis,cis-mucoante lactonizing enzyme P38677 P38677 2.5 X-RAY DIFFRACTION 53 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 355 355 1jof-a1-m1-cA_1jof-a1-m1-cB 1jof-a1-m1-cC_1jof-a1-m1-cD 1jof-a2-m1-cE_1jof-a2-m1-cF PLHHLIGTWTPPGAIFTVQFDDEKLTCKLIKRTEIPQDEPISWTFDHERKNIYGAAKKWSSFAVKSPTEIVHEASHPIGGHPRANDADTNTRAIFLLAAKQPPYAVYANPFYKFAGYGNVFSVSETGKLEKNVQNYEYQENTGIHGVFDPTETYLYSADLTANKLWTHRKLASGEVELVGSVDAPDPGDHPRWVAHPTGNYLYALEAGNRICEYVIDPATHPVYTHHSFPLIPPGIPDRDPETGKGLYRADVCALTFSGKYFASSRANKFELQGYIAGFKLRDCGSIEKQLFLSPTPTSGGHSNAVSPCPWSDEWAITDDQEGWLEIYRWKDEFLHRVARVRIPEPGFGNAIWYD PLHHLIGTWTPPGAIFTVQFDDEKLTCKLIKRTEIPQDEPISWTFDHERKNIYGAAKKWSSFAVKSPTEIVHEASHPIGGHPRANDADTNTRAIFLLAAKQPPYAVYANPFYKFAGYGNVFSVSETGKLEKNVQNYEYQENTGIHGVFDPTETYLYSADLTANKLWTHRKLASGEVELVGSVDAPDPGDHPRWVAHPTGNYLYALEAGNRICEYVIDPATHPVYTHHSFPLIPPGIPDRDPETGKGLYRADVCALTFSGKYFASSRANKFELQGYIAGFKLRDCGSIEKQLFLSPTPTSGGHSNAVSPCPWSDEWAITDDQEGWLEIYRWKDEFLHRVARVRIPEPGFGNAIWYD 1jog-a2-m1-cC_1jog-a2-m1-cD Structure of HI0074 from Heamophilus Influenzae reveals the fold of a substrate binding domain of a nucleotidyltransferase P43934 P43934 2.4 X-RAY DIFFRACTION 76 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 129 130 1jog-a1-m1-cA_1jog-a1-m1-cB NLNVLDAAFYSLEQTVVQISDRNWFDQPSIVQDTLIAGAIQKFEFVYELSLKKRQLQQDAINTDDIGAYGFKDILREALRFGLIGDSKWVAYRDRNITSHTYDQEKAAVYAQIDDFLIESSFLLEQLRQ NLNVLDAAFYSLEQTVVQISDRNWFDQPSIVQDTLIAGAIQKFEFVYELSLKKRQLQQDAINTDDIGAYGFKDILREALRFGLIGDSKWVAYRDRNITSHTYDQEKAAVYAQIDDFLIESSFLLEQLRQR 1joy-a1-m1-cA_1joy-a1-m1-cB SOLUTION STRUCTURE OF THE HOMODIMERIC DOMAIN OF ENVZ FROM ESCHERICHIA COLI BY MULTI-DIMENSIONAL NMR. P0AEJ4 P0AEJ4 NOT SOLUTION NMR 66 1.0 562 (Escherichia coli) 562 (Escherichia coli) 67 67 MAAGVKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR MAAGVKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR 1jpx-a1-m2-cA_1jpx-a1-m3-cA Mutation that destabilize the gp41 core: determinants for stabilizing the SIV/CPmac envelope glycoprotein complex. Wild type. S4WCF9 S4WCF9 2.3 X-RAY DIFFRACTION 65 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 59 59 1jpx-a1-m1-cA_1jpx-a1-m2-cA 1jpx-a1-m1-cA_1jpx-a1-m3-cA 1jpx-a2-m1-cD_1jpx-a2-m4-cD 1jpx-a2-m1-cD_1jpx-a2-m5-cD 1jpx-a2-m4-cD_1jpx-a2-m5-cD 1jpx-a3-m1-cG_1jpx-a3-m6-cG 1jpx-a3-m1-cG_1jpx-a3-m7-cG 1jpx-a3-m6-cG_1jpx-a3-m7-cG GIVQQQQQLLDVVKRQQELLRLTVWGTKQEWERKVDFLEENITALLEEAQIQQEKNMYE GIVQQQQQLLDVVKRQQELLRLTVWGTKQEWERKVDFLEENITALLEEAQIQQEKNMYE 1jpy-a1-m1-cA_1jpy-a1-m1-cB Crystal structure of IL-17F Q96PD4 Q96PD4 2.85 X-RAY DIFFRACTION 233 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 1jpy-a2-m1-cX_1jpy-a2-m1-cY 6hg4-a1-m1-cA_6hg4-a1-m2-cA 6hg9-a1-m1-cA_6hg9-a1-m2-cA 6hgo-a1-m1-cB_6hgo-a1-m1-cA 6hgo-a2-m1-cD_6hgo-a2-m1-cC 6ppg-a1-m1-cF_6ppg-a1-m1-cG HTFFQKPESCPPVPGGSMKLDIGIINENQRVSMSRNIESRSTSPWNYTVTWDPNRYPSEVVQAQCRNLGCINAQGKEDISMNSVPIQQETLVVRRKHQGCSVSFQLEKVLVTVGCTCVTPV HTFFQKPESCPPVPGGSMKLDIGIINENQRVSMSRNIESRSTSPWNYTVTWDPNRYPSEVVQAQCRNLGCINAQGKEDISMNSVPIQQETLVVRRKHQGCSVSFQLEKVLVTVGCTCVTPV 1jq0-a1-m2-cA_1jq0-a1-m3-cA Mutation that destabilize the gp41 core: determinants for stabilizing the SIV/CPmac envelope glycoprotein complex. Mutant structure. S4WCF9 S4WCF9 1.7 X-RAY DIFFRACTION 67 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 71 71 1jq0-a1-m1-cA_1jq0-a1-m2-cA 1jq0-a1-m1-cA_1jq0-a1-m3-cA LAGIVQQQQQLLDLVTRQQELLRLTVWGIKNLQTGGWQEWKRKVDFLEENITALLEEAQIQQEKNMYELQK LAGIVQQQQQLLDLVTRQQELLRLTVWGIKNLQTGGWQEWKRKVDFLEENITALLEEAQIQQEKNMYELQK 1jq3-a1-m1-cC_1jq3-a1-m1-cD Crystal Structure of Spermidine Synthase in Complex with Transition State Analogue AdoDATO Q9WZC2 Q9WZC2 1.8 X-RAY DIFFRACTION 97 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 293 293 1inl-a1-m1-cA_1inl-a1-m1-cB 1inl-a1-m1-cD_1inl-a1-m1-cC 1jq3-a1-m1-cB_1jq3-a1-m1-cA LKELERELQPRQHLWYFEYYTGNNVGLFMKMNRVIYSGQSDIQRIDIFENPDLGVVFALDGITMTTEKDEFMYHEMLAHVPMFLHPNPKKVLIIGGGDGGTLREVLKHDSVEKAILCEVDGLVIEAARKYLKQTSCGFDDPRAEIVIANGAEYVRKFKNEFDVIIIDSTDPTAGQGGHLFTEEFYQACYDALKEDGVFSAETEDPFYDIGWFKLAYRRISKVFPITRVYLGFMTTYPSGMWSYTFASKGIDPIKDFDPEKVRKFNKELKYYNEEVHVASFALPNFVKKELGLM LKELERELQPRQHLWYFEYYTGNNVGLFMKMNRVIYSGQSDIQRIDIFENPDLGVVFALDGITMTTEKDEFMYHEMLAHVPMFLHPNPKKVLIIGGGDGGTLREVLKHDSVEKAILCEVDGLVIEAARKYLKQTSCGFDDPRAEIVIANGAEYVRKFKNEFDVIIIDSTDPTAGQGGHLFTEEFYQACYDALKEDGVFSAETEDPFYDIGWFKLAYRRISKVFPITRVYLGFMTTYPSGMWSYTFASKGIDPIKDFDPEKVRKFNKELKYYNEEVHVASFALPNFVKKELGLM 1jq6-a1-m1-cA_1jq6-a1-m2-cA HUMAN CYTOMEGALOVIRUS PROTEASE DIMER-INTERFACE MUTANT, S225Y P16753 P16753 2.3 X-RAY DIFFRACTION 88 1.0 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 170 170 VAPVYVGGFLARYDLPRDVVEHWVALPLNINHDDTAVVGHVAAMQSVRDGLFCLGVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSFKHVALSVLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQRGSTAVDASGDPFRSDSYGLLGNYVDALY VAPVYVGGFLARYDLPRDVVEHWVALPLNINHDDTAVVGHVAAMQSVRDGLFCLGVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSFKHVALSVLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQRGSTAVDASGDPFRSDSYGLLGNYVDALY 1jqj-a5-m1-cD_1jqj-a5-m3-cC Mechanism of Processivity Clamp Opening by the Delta Subunit Wrench of the Clamp Loader Complex of E. coli DNA Polymerase III: Structure of the beta-delta complex P28630 P28630 2.9 X-RAY DIFFRACTION 63 1.0 562 (Escherichia coli) 562 (Escherichia coli) 325 328 1jqj-a3-m2-cD_1jqj-a3-m1-cC 1jqj-a4-m2-cD_1jqj-a4-m1-cC MIRLYPEQLRAQLNEGLRAAYLLLGNDPLLLQESQDAVRQVAAAQGFEEHHTFSIDPNTDWNAIFSLCQAMSLFASRQTLLLLLPENGPNAAINEQLLTLTGLLHDDLLLIVRGNKLSKAQENAAWFTALANRSVQVTCQTPEQAQLPRWVAARAKQLNLELDDAANQVLCYCYEGNLLALAQALERLSLLWPDGKLTLPRVEQAVNDATPFHWVDALLMGKSKRALHILQQLRLEGSEPVILLRTLQRELLLLVNLKRQSAHTPLRALFDKHRVWRRGMMGEALNRLSQTQLRQAVQLLTRTELTLKQDYGQAELEGLSLLLCH MIRLYPEQLRAQLNEGLRAAYLLLGNDPLLLQESQDAVRQVAAAQGFEEHHTFSIDPNTDWNAIFSLCQAMSLFASRQTLLLLLPENGPNAAINEQLLTLTGLLHDDLLLIVRGNKLSKAQENAAWFTALANRSVQVTCQTPEQAQLPRWVAARAKQLNLELDDAANQVLCYCYEGNLLALAQALERLSLLWPDGKLTLPRVEQAVNDAAHFTPFHWVDALLMGKSKRALHILQQLRLEGSEPVILLRTLQRELLLLVNLKRQSAHTPLRALFDKHRVWRRGMMGEALNRLSQTQLRQAVQLLTRTELTLKQDYGQAELEGLSLLLCH 1jqk-a3-m1-cE_1jqk-a3-m1-cF Crystal structure of carbon monoxide dehydrogenase from Rhodospirillum rubrum P31896 P31896 2.8 X-RAY DIFFRACTION 304 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 610 610 1jqk-a1-m1-cA_1jqk-a1-m1-cB 1jqk-a2-m1-cC_1jqk-a2-m1-cD ETAWHRYEKQQPQCGFGSAGLCCRICLKGPCRIDPFGEGPKYGVCGADRDTIVARHLVRMIAAGTAAHSEHGRHIALAMQHISQGELHDYSIRDEAKLYAIAKTLGVATEGRGLLAIVGDLAAITLGDFQNQDYDKPCAWLAASLTPRRVKRLGDLGLLPHNIDASVAQTMSRTHVGCDADPTNLILGGLRVAMADLDGSMLATELSDALFGTPQPVVSAANLGVMKRGAVNIAVNGHNPMLSDIICDVAADLRDEAIAAGAAEGINIIGICCTGHEVMMRHGVPLATNYLSQELPILTGALEAMVVDVQCIMPSLPRIAECFHTQIITTDKHNKISGATHVPFDEHKAVETAKTIIRMAIAAFGRRDPNRVAIPAFKQKSIVGFSAEAVVAALAKVNADDPLKPLVDNVVNGNIQGIVLFVGCNTTKVQQDSAYVDLAKSLAKRNVLVLATGCAAGAFAKAGLMTSEATTQYAGEGLKGVLSAIGTAAGLGGPLPLVMHMGSCVDNSRAVALATALANKLGVDLSDLPLVASAPECMSEKALAIGSWAVTIGLPTHVGSVPPVIGSQIVTKLVTETAKDLVGGYFIVDTDPKSAGDKLYAAIQERRAGL ETAWHRYEKQQPQCGFGSAGLCCRICLKGPCRIDPFGEGPKYGVCGADRDTIVARHLVRMIAAGTAAHSEHGRHIALAMQHISQGELHDYSIRDEAKLYAIAKTLGVATEGRGLLAIVGDLAAITLGDFQNQDYDKPCAWLAASLTPRRVKRLGDLGLLPHNIDASVAQTMSRTHVGCDADPTNLILGGLRVAMADLDGSMLATELSDALFGTPQPVVSAANLGVMKRGAVNIAVNGHNPMLSDIICDVAADLRDEAIAAGAAEGINIIGICCTGHEVMMRHGVPLATNYLSQELPILTGALEAMVVDVQCIMPSLPRIAECFHTQIITTDKHNKISGATHVPFDEHKAVETAKTIIRMAIAAFGRRDPNRVAIPAFKQKSIVGFSAEAVVAALAKVNADDPLKPLVDNVVNGNIQGIVLFVGCNTTKVQQDSAYVDLAKSLAKRNVLVLATGCAAGAFAKAGLMTSEATTQYAGEGLKGVLSAIGTAAGLGGPLPLVMHMGSCVDNSRAVALATALANKLGVDLSDLPLVASAPECMSEKALAIGSWAVTIGLPTHVGSVPPVIGSQIVTKLVTETAKDLVGGYFIVDTDPKSAGDKLYAAIQERRAGL 1jqp-a1-m1-cA_1jqp-a1-m4-cA dipeptidyl peptidase I (cathepsin C), a tetrameric cysteine protease of the papain family P80067 P80067 2.4 X-RAY DIFFRACTION 56 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 348 348 1jqp-a1-m2-cA_1jqp-a1-m3-cA DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL 1jqp-a1-m3-cA_1jqp-a1-m4-cA dipeptidyl peptidase I (cathepsin C), a tetrameric cysteine protease of the papain family P80067 P80067 2.4 X-RAY DIFFRACTION 12 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 348 348 1jqp-a1-m1-cA_1jqp-a1-m2-cA DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL 1jqp-a2-m1-cA_1jqp-a2-m3-cA dipeptidyl peptidase I (cathepsin C), a tetrameric cysteine protease of the papain family P80067 P80067 2.4 X-RAY DIFFRACTION 81 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 348 348 1jqp-a1-m1-cA_1jqp-a1-m3-cA 1jqp-a1-m2-cA_1jqp-a1-m4-cA DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL 1jqp-a3-m1-cA_1jqp-a3-m5-cA dipeptidyl peptidase I (cathepsin C), a tetrameric cysteine protease of the papain family P80067 P80067 2.4 X-RAY DIFFRACTION 50 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 348 348 DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL DTPANCTYPDLLGTWVFQVGPRHPRSHINCSVMEPTEEKVVIHLKKLDTAYDEVGNSGYFTLIYNQGFEIVLNDYKWFAFFKYEVKGSRAISYCHETMTGWVHDVLGRNWACFVGKKMLSLPESWDWRNVRGINFVSPVRNQESCGSCYSFASLGMLEARIRILTNNSQTPILSPQEVVSCSPYAQGCDGGFPYLIAGKYAQDFGVVEENCFPYTATDAPCKPKENCLRYYSSEYYYVGGFYGGCNEALMKLELVKHGPMAVAFEVHDDFLHYHSGIYHHPFNPFELTNHAVLLVGYGKDPVTGLDYWIVKNSWGSQWGESGYFRIRRGTDECAIESIAMAAIPIPKL 1jqq-a1-m1-cA_1jqq-a1-m1-cB Crystal structure of Pex13p(301-386) SH3 domain P80667 P80667 2.65 X-RAY DIFFRACTION 13 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 79 82 ISEFGSEPIDPSKLEFARALYDFVPENPEMEVALKKGDLMAILSKKDPLGRDSDWWKVRTKNGNIGYIPYNYIEIIKRR ISEFGSEPIDPSKLEFARALYDFVPENPEMEVALKKGDLMAILSKKDPLGRDSDWWKVRTKNGNIGYIPYNYIEIIKRRKKI 1jqq-a1-m1-cC_1jqq-a1-m1-cD Crystal structure of Pex13p(301-386) SH3 domain P80667 P80667 2.65 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 70 73 SEPIDPSKLEFARALYDFVPEEMEVALKKGDLMAILSKKDPLGRDSDWWKVRTKNGNIGYIPYNYIEIIK SEPIDPSKLEFARALYDFVPENPEMEVALKKGDLMAILSKKDPLGRDSDWWKVRTKNGNIGYIPYNYIEIIKR 1jqq-a1-m1-cD_1jqq-a1-m1-cA Crystal structure of Pex13p(301-386) SH3 domain P80667 P80667 2.65 X-RAY DIFFRACTION 11 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 73 79 1jqq-a1-m1-cC_1jqq-a1-m1-cB SEPIDPSKLEFARALYDFVPENPEMEVALKKGDLMAILSKKDPLGRDSDWWKVRTKNGNIGYIPYNYIEIIKR ISEFGSEPIDPSKLEFARALYDFVPENPEMEVALKKGDLMAILSKKDPLGRDSDWWKVRTKNGNIGYIPYNYIEIIKRR 1jr9-a1-m1-cA_1jr9-a1-m2-cA Crystal Structure of manganese superoxide dismutases from Bacillus halodenitrificans Q7SIC3 Q7SIC3 2.8 X-RAY DIFFRACTION 51 1.0 1482 (Virgibacillus halodenitrificans) 1482 (Virgibacillus halodenitrificans) 201 201 KFELPELPYAYDALEPTIDKETMNIHHTKHHNTYVTKLNGALEGHEDLKNKSLNDLISNLDAVPENIRTAVRNNGGGHANHSLFWKLMSPNGGGKPTGEVADKINDKYGSFEKFQEEFAAAAAGRFGSGWAWLVVNNGEIEIMSTPIQDNPLMEGKKPILGLDVWEHAYYLKYQNKRPDYISAFWNVVNWDEVAAQYSQAA KFELPELPYAYDALEPTIDKETMNIHHTKHHNTYVTKLNGALEGHEDLKNKSLNDLISNLDAVPENIRTAVRNNGGGHANHSLFWKLMSPNGGGKPTGEVADKINDKYGSFEKFQEEFAAAAAGRFGSGWAWLVVNNGEIEIMSTPIQDNPLMEGKKPILGLDVWEHAYYLKYQNKRPDYISAFWNVVNWDEVAAQYSQAA 1jra-a1-m1-cA_1jra-a1-m1-cB Crystal Structure of Erv2p Q12284 Q12284 2 X-RAY DIFFRACTION 82 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 106 106 1jr8-a1-m1-cA_1jr8-a1-m1-cB 1jra-a2-m1-cD_1jra-a2-m1-cC DDKVKKEVGRASWKYFHTLLARFPDEPTPEEREKLHTFIGLYAELYPCGECSYHFVKLIEKYPVQTSSRTAAAMWGCHIHNKVNEYLKKDIYDCATILEDYDCGCS DDKVKKEVGRASWKYFHTLLARFPDEPTPEEREKLHTFIGLYAELYPCGECSYHFVKLIEKYPVQTSSRTAAAMWGCHIHNKVNEYLKKDIYDCATILEDYDCGCS 1jrk-a3-m1-cB_1jrk-a3-m1-cA Crystal Structure of a Nudix Protein from Pyrobaculum aerophilum Reveals a Dimer with Intertwined Beta Sheets Q8ZTD8 Q8ZTD8 2.4 X-RAY DIFFRACTION 95 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 147 148 1jrk-a1-m1-cB_1jrk-a1-m1-cA 1jrk-a2-m1-cC_1jrk-a2-m1-cD 1jrk-a3-m1-cC_1jrk-a3-m1-cD 1k26-a1-m1-cB_1k26-a1-m1-cA 1k2e-a1-m1-cB_1k2e-a1-m1-cA MIVTSGVLVENGKVLLVKHKRLGVYIYPGGHVEHNETPIEAVKREFEEETGIVVEPIGFTYGIIDENAVERPMPLVILEEVVKYPEETHIHFDLIYLVKRVGGDLKNGEWIDVREIDRIETFPNVRKVVSLALSTLYRLGKISKLAA MIVTSGVLVENGKVLLVKHKRLGVYIYPGGHVEHNETPIEAVKREFEEETGIVVEPIGFTYGIIDENAVERPMPLVILEEVVKYPEETHIHFDLIYLVKRVGGDLKNGEWIDVREIDRIETFPNVRKVVSLALSTLYRLGKISKLAAA 1jrk-a3-m1-cB_1jrk-a3-m1-cD Crystal Structure of a Nudix Protein from Pyrobaculum aerophilum Reveals a Dimer with Intertwined Beta Sheets Q8ZTD8 Q8ZTD8 2.4 X-RAY DIFFRACTION 39 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 147 150 1jrk-a3-m1-cA_1jrk-a3-m1-cC MIVTSGVLVENGKVLLVKHKRLGVYIYPGGHVEHNETPIEAVKREFEEETGIVVEPIGFTYGIIDENAVERPMPLVILEEVVKYPEETHIHFDLIYLVKRVGGDLKNGEWIDVREIDRIETFPNVRKVVSLALSTLYRLGKISKLAA MIVTSGVLVENGKVLLVKHKRLGVYIYPGGHVEHNETPIEAVKREFEEETGIVVEPIGFTYGIIDENAVERPMPLVILEEVVKYPEETHIHFDLIYLVKRVGGDLKNGEWIDVREIDRIETFPNVRKVVSLALSTLYRLGKISKLAAALE 1jro-a2-m1-cF_1jro-a2-m1-cH Crystal Structure of Xanthine Dehydrogenase from Rhodobacter capsulatus O54051 O54051 2.7 X-RAY DIFFRACTION 139 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 760 760 1jro-a1-m1-cB_1jro-a1-m1-cD 1jrp-a1-m1-cB_1jrp-a1-m1-cD 1jrp-a2-m1-cF_1jrp-a2-m1-cH SVGKPLPHDSARAHVTGQARYLDDLPCPANTLHLAFGLSTEASAAITGLDLEPVRESPGVIAVFTAADLPHDNDASPAPSPEPVLATGEVHFVGQPIFLVAATSHRAARIAARKARITYAPRPAILTLDQALAADSRFEGGPVIWARGDVETALAGAAHLAEGCFEIGGQEHFYLEGQAALALPAEGGVVIHCSSQHPSEIQHKVAHALGLAFHDVRVEMRRMGGGFGGKESQGNHLAIACAVAARATGRPCKMRYDRDDDMVITGKRHDFRIRYRIGADASGKLLGADFVHLARCGWSADLSLPVCDRAMLHADGSYFVPALRIESHRLRTNTQSNTAFRGFGGPQGALGMERAIEHLARGMGRDPAELRALNFYDPPEKKTQTTHYGQEVADCVLGELVTRLQKSANFTTRRAEIAAWNSTNRTLARGIALSPVKFGISFTLTHLNQAGALVQIYTDGSVALNHGGTEMGQGLHAKMVQVAAAVLGIDPVQVRITATDTSKVPNTSATAASSGADMNGMAVKDACETLRGRLAGFVAAREGCAARDVIFDAGQVQASGKSWRFAEIVAAAYMARISLSATGFYATPKLSWDRLRGQGRPFLYFAYGAAITEVVIDRLTGENRILRTDILHDAGASLNPALDIGQIEGAYVQGAGWLTTEELVWDHCGRLMTHAPSTYKIPAFSDRPRIFNVALWDQPNREETIFRSKAVGEPPFLLGISAFLALHDACAACGPHWPDLQAPATPEAVLAAVRRAEGRA SVGKPLPHDSARAHVTGQARYLDDLPCPANTLHLAFGLSTEASAAITGLDLEPVRESPGVIAVFTAADLPHDNDASPAPSPEPVLATGEVHFVGQPIFLVAATSHRAARIAARKARITYAPRPAILTLDQALAADSRFEGGPVIWARGDVETALAGAAHLAEGCFEIGGQEHFYLEGQAALALPAEGGVVIHCSSQHPSEIQHKVAHALGLAFHDVRVEMRRMGGGFGGKESQGNHLAIACAVAARATGRPCKMRYDRDDDMVITGKRHDFRIRYRIGADASGKLLGADFVHLARCGWSADLSLPVCDRAMLHADGSYFVPALRIESHRLRTNTQSNTAFRGFGGPQGALGMERAIEHLARGMGRDPAELRALNFYDPPEKKTQTTHYGQEVADCVLGELVTRLQKSANFTTRRAEIAAWNSTNRTLARGIALSPVKFGISFTLTHLNQAGALVQIYTDGSVALNHGGTEMGQGLHAKMVQVAAAVLGIDPVQVRITATDTSKVPNTSATAASSGADMNGMAVKDACETLRGRLAGFVAAREGCAARDVIFDAGQVQASGKSWRFAEIVAAAYMARISLSATGFYATPKLSWDRLRGQGRPFLYFAYGAAITEVVIDRLTGENRILRTDILHDAGASLNPALDIGQIEGAYVQGAGWLTTEELVWDHCGRLMTHAPSTYKIPAFSDRPRIFNVALWDQPNREETIFRSKAVGEPPFLLGISAFLALHDACAACGPHWPDLQAPATPEAVLAAVRRAEGRA 1js2-a1-m1-cA_1js2-a1-m1-cB Crystal structure of C77S HiPIP: a serine ligated [4Fe-4S] cluster P00260 P00260 1.9 X-RAY DIFFRACTION 31 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 89 89 MEFMSAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWSASWTLKAG MEFMSAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWSASWTLKAG 1js2-a1-m1-cA_1js2-a1-m1-cC Crystal structure of C77S HiPIP: a serine ligated [4Fe-4S] cluster P00260 P00260 1.9 X-RAY DIFFRACTION 26 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 89 89 MEFMSAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWSASWTLKAG MEFMSAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWSASWTLKAG 1js2-a1-m1-cA_1js2-a1-m1-cD Crystal structure of C77S HiPIP: a serine ligated [4Fe-4S] cluster P00260 P00260 1.9 X-RAY DIFFRACTION 24 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 89 89 MEFMSAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWSASWTLKAG MEFMSAPANAVAADDATAIALKYNQDATKSERVAAARPGLPPEEQHCANCQFMQADAAGATDEWKGCQLFPGKLINVNGWSASWTLKAG 1js3-a1-m1-cA_1js3-a1-m1-cB Crystal structure of dopa decarboxylase in complex with the inhibitor carbidopa P80041 P80041 2.25 X-RAY DIFFRACTION 368 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 464 464 1js6-a1-m1-cA_1js6-a1-m1-cB MNASDFRRRGKEMVDYMADYLEGIEGRQVYPDVQPGYLRPLIPATAPQEPDTFEDILQDVEKIIMPGVTHWHSPYFFAYFPTASSYPAMLADMLCGAIGCIGFSWAASPACTELETVMMDWLGKMLQLPEAFLAGEAGEGGGVIQGSASEATLVALLAARTKVVRRLQAASPGLTQGAVLEKLVAYASDQAHSSVERAGLIGGVKLKAIPSDGKFAMRASALQEALERDKAAGLIPFFVVATLGTTSCCSFDNLLEVGPICHEEDIWLHVDAAYAGSAFICPEFRHLLNGVEFADSFNFNPHKWLLVNFDCSAMWVKRRTDLTGAFKSGLITDYRHWQLPLGRRFRSLKMWFVFRMYGVKGLQAYIRKHVQLSHEFEAFVLQDPRFEVCAEVTLGLVCFRLKGSDGLNEALLERINSARKIHLVPCRLRGQFVLRFAICSRKVESGHVRLAWEHIRGLAAELLA MNASDFRRRGKEMVDYMADYLEGIEGRQVYPDVQPGYLRPLIPATAPQEPDTFEDILQDVEKIIMPGVTHWHSPYFFAYFPTASSYPAMLADMLCGAIGCIGFSWAASPACTELETVMMDWLGKMLQLPEAFLAGEAGEGGGVIQGSASEATLVALLAARTKVVRRLQAASPGLTQGAVLEKLVAYASDQAHSSVERAGLIGGVKLKAIPSDGKFAMRASALQEALERDKAAGLIPFFVVATLGTTSCCSFDNLLEVGPICHEEDIWLHVDAAYAGSAFICPEFRHLLNGVEFADSFNFNPHKWLLVNFDCSAMWVKRRTDLTGAFKSGLITDYRHWQLPLGRRFRSLKMWFVFRMYGVKGLQAYIRKHVQLSHEFEAFVLQDPRFEVCAEVTLGLVCFRLKGSDGLNEALLERINSARKIHLVPCRLRGQFVLRFAICSRKVESGHVRLAWEHIRGLAAELLA 1jsd-a2-m2-cA_1jsd-a2-m3-cA CRYSTAL STRUCTURE OF SWINE H9 HAEMAGGLUTININ Q91CD4 Q91CD4 1.8 X-RAY DIFFRACTION 30 1.0 145307 (Influenza A virus (A/swine/Hong Kong/9/98(H9N2))) 145307 (Influenza A virus (A/swine/Hong Kong/9/98(H9N2))) 317 317 1jsd-a2-m1-cA_1jsd-a2-m2-cA 1jsd-a2-m1-cA_1jsd-a2-m3-cA 1jsh-a2-m1-cA_1jsh-a2-m2-cA 1jsh-a2-m1-cA_1jsh-a2-m3-cA 1jsh-a2-m2-cA_1jsh-a2-m3-cA 1jsi-a2-m1-cA_1jsi-a2-m2-cA 1jsi-a2-m1-cA_1jsi-a2-m3-cA 1jsi-a2-m2-cA_1jsi-a2-m3-cA DKICIGYQSTNSTETVDTLTETNVPVTHAKELLHTSHNGMLCATNLGHPLILDTCTIEGLIYGNPSCDLLLGGREWSYIVERPSAVNGMCYPGNVENLEELRSLFSSASSYQRIQIFPDTIWNVSYSGTSSACSDSFYRSMRWLTQKNNAYPIQDAQYTNNRGKSILFMWGINHPPTDTVQTNLYTRTDTTTSVTTEDINRTFKPVIGPRPLVNGLHGRIDYYWSVLKPGQTLRVRSNGNLIAPWYGHILSGESHGRILKTDLNSGNCVVQCQTERGGLNTTLPFHNVSKYAFGNCPKYVGVKSLKLAVGLRNVPAR DKICIGYQSTNSTETVDTLTETNVPVTHAKELLHTSHNGMLCATNLGHPLILDTCTIEGLIYGNPSCDLLLGGREWSYIVERPSAVNGMCYPGNVENLEELRSLFSSASSYQRIQIFPDTIWNVSYSGTSSACSDSFYRSMRWLTQKNNAYPIQDAQYTNNRGKSILFMWGINHPPTDTVQTNLYTRTDTTTSVTTEDINRTFKPVIGPRPLVNGLHGRIDYYWSVLKPGQTLRVRSNGNLIAPWYGHILSGESHGRILKTDLNSGNCVVQCQTERGGLNTTLPFHNVSKYAFGNCPKYVGVKSLKLAVGLRNVPAR 1jsd-a2-m2-cB_1jsd-a2-m3-cB CRYSTAL STRUCTURE OF SWINE H9 HAEMAGGLUTININ Q91CD4 Q91CD4 1.8 X-RAY DIFFRACTION 55 1.0 145307 (Influenza A virus (A/swine/Hong Kong/9/98(H9N2))) 145307 (Influenza A virus (A/swine/Hong Kong/9/98(H9N2))) 160 160 1jsd-a2-m1-cB_1jsd-a2-m2-cB 1jsd-a2-m1-cB_1jsd-a2-m3-cB 1jsh-a2-m1-cB_1jsh-a2-m2-cB 1jsh-a2-m1-cB_1jsh-a2-m3-cB 1jsh-a2-m2-cB_1jsh-a2-m3-cB 1jsi-a2-m1-cB_1jsi-a2-m2-cB 1jsi-a2-m1-cB_1jsi-a2-m3-cB 1jsi-a2-m2-cB_1jsi-a2-m3-cB GLFGAIAGFIEGGWPGLVAGWYGFQHSNDQGVGMAADSDSTQKAIDKITSKVNNIVDKMNKQYGIIDHEFSEIETRLNMINNKIDDQIQDIWTYNAELLVLLENQKTLDEHDANVNNLYNKVKRALGSNAMEDGKGCFELYHKCDDQCMETIRNGTYNRR GLFGAIAGFIEGGWPGLVAGWYGFQHSNDQGVGMAADSDSTQKAIDKITSKVNNIVDKMNKQYGIIDHEFSEIETRLNMINNKIDDQIQDIWTYNAELLVLLENQKTLDEHDANVNNLYNKVKRALGSNAMEDGKGCFELYHKCDDQCMETIRNGTYNRR 1jsg-a1-m1-cA_1jsg-a1-m2-cA CRYSTAL STRUCTURE OF P14TCL1, AN ONCOGENE PRODUCT INVOLVED IN T-CELL PROLYMPHOCYTIC LEUKEMIA, REVEALS A NOVEL B-BARREL TOPOLOGY P56279 P56279 2.5 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 CPTLGEAVTDHPDRLWAWEKFVYLDEKQHAWLPLTIEIKDRLQLRVLLRREDVVLGRPMTPTQIGPSLLPIMWQLYPDGRYRSSDSSFWRLVYHIKIDGVEDMLLELLPDD CPTLGEAVTDHPDRLWAWEKFVYLDEKQHAWLPLTIEIKDRLQLRVLLRREDVVLGRPMTPTQIGPSLLPIMWQLYPDGRYRSSDSSFWRLVYHIKIDGVEDMLLELLPDD 1jsw-a1-m1-cA_1jsw-a1-m1-cD NATIVE L-ASPARTATE AMMONIA LYASE P0AC38 P0AC38 2.7 X-RAY DIFFRACTION 177 1.0 37762 (Escherichia coli B) 37762 (Escherichia coli B) 459 459 1jsw-a1-m1-cC_1jsw-a1-m1-cB MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSV MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSV 1jsw-a1-m1-cC_1jsw-a1-m1-cD NATIVE L-ASPARTATE AMMONIA LYASE P0AC38 P0AC38 2.7 X-RAY DIFFRACTION 136 1.0 37762 (Escherichia coli B) 37762 (Escherichia coli B) 413 459 1jsw-a1-m1-cA_1jsw-a1-m1-cB IRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNP MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSV 1jsw-a1-m1-cD_1jsw-a1-m1-cB NATIVE L-ASPARTATE AMMONIA LYASE P0AC38 P0AC38 2.7 X-RAY DIFFRACTION 195 1.0 37762 (Escherichia coli B) 37762 (Escherichia coli B) 459 460 1jsw-a1-m1-cC_1jsw-a1-m1-cA MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSV MSNNIRIEEDLLGTREVPADAYYGVHTLRAIENFYISNNKISDIPEFVRGMVMVKKAAAMANKELQTIPKSVANAIIAACDEVLNNGKCMDQFPVDVYQGGAGTSVNMNTNEVLANIGLELMGHQKGEYQYLNPNDHVNKCQSTNDAYPTGFRIAVYSSLIKLVDAINQLREGFERKAVEFQDILKMGRTQLQDAVPMTLGQEFRAFSILLKEEVKNIQRTAELLLEVNLGATAIGTGLNTPKEYSPLAVKKLAEVTGFPCVPAEDLIEATSDCGAYVMVHGALKRLAVKMSKICNDLRLLSSGPRAGLNEINLPELQAGSSIMPAKVNPVVPEVVNQVCFKVIGNDTTVTMAAEAGQLQLNVMEPVIGQAMFESVHILTNACYNLLEKCINGITANKEVCEGYVYNSIGIVTYLNPFIGHHNGDIVGKICAETGKSVREVVLERGLLTEAELDDIFSVQ 1jub-a1-m1-cA_1jub-a1-m1-cB The K136E mutant of lactococcus lactis dihydroorotate dehydrogenase A A2RJT9 A2RJT9 1.4 X-RAY DIFFRACTION 172 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 311 311 1dor-a1-m1-cA_1dor-a1-m1-cB 1jqv-a1-m1-cA_1jqv-a1-m1-cB 1jqx-a1-m1-cA_1jqx-a1-m1-cB 1jrb-a1-m1-cA_1jrb-a1-m1-cB 1jrc-a1-m1-cA_1jrc-a1-m1-cB 1jue-a1-m1-cA_1jue-a1-m1-cB 1ovd-a1-m1-cA_1ovd-a1-m1-cB 2bsl-a1-m1-cA_2bsl-a1-m1-cB 2bx7-a1-m1-cA_2bx7-a1-m1-cB 2dor-a1-m1-cA_2dor-a1-m1-cB MLNTTFANAKFANPFMNASGVHCMTIEDLEELKASQAGAYITKSSTLEKREGNPLPRYVDLELGSINSMGLPNLGFDYYLDYVLKNQKENAQEGPIFFSIAGMSAAENIAMLKKIQESDFSGITELNLSCPNVPGEPQLAYDFEATEKLLKEVFTFFTKPLGVKLPPYFDLVHFDIMAEILNQFPLTYVNSVNSIGNGLFIDPEAESVVIKPKDGFGGIGGAYIKPTALANVRAFYTRLKPEIQIIGTGGIETGQDAFEHLLCGATMLQIGTALHKEGPAIFDRIIKELEEIMNQKGYQSIADFHGKLKSL MLNTTFANAKFANPFMNASGVHCMTIEDLEELKASQAGAYITKSSTLEKREGNPLPRYVDLELGSINSMGLPNLGFDYYLDYVLKNQKENAQEGPIFFSIAGMSAAENIAMLKKIQESDFSGITELNLSCPNVPGEPQLAYDFEATEKLLKEVFTFFTKPLGVKLPPYFDLVHFDIMAEILNQFPLTYVNSVNSIGNGLFIDPEAESVVIKPKDGFGGIGGAYIKPTALANVRAFYTRLKPEIQIIGTGGIETGQDAFEHLLCGATMLQIGTALHKEGPAIFDRIIKELEEIMNQKGYQSIADFHGKLKSL 1jun-a1-m1-cA_1jun-a1-m1-cB NMR STUDY OF C-JUN HOMODIMER P05412 P05412 NOT SOLUTION NMR 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 CGGRIARLEEKVKTLKAQNSELASTANMLREQVAQLKQKVMNY CGGRIARLEEKVKTLKAQNSELASTANMLREQVAQLKQKVMNY 1juv-a1-m1-cA_1juv-a1-m2-cA Crystal structure analysis of Dihydrofolate reductase from Bacteriophage T4 P04382 P04382 1.7 X-RAY DIFFRACTION 41 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 193 193 MIKLVFRYSPTKTVDGFNELAFGLGDGLPWGRVKKDLQNFKARTEGTIMIMGAKTFQSLPTLLPGRSHIVVCDLARDYPVTKDGDLAHFYITWEQYITYISGGEIQVSSPNAPFETMLDQNSKVSVIGGPALLYAALPYADEVVVSRIVKRHRVNSTVQLDASFLDDISKREMVETHWYKIDEVTTLTESVYK MIKLVFRYSPTKTVDGFNELAFGLGDGLPWGRVKKDLQNFKARTEGTIMIMGAKTFQSLPTLLPGRSHIVVCDLARDYPVTKDGDLAHFYITWEQYITYISGGEIQVSSPNAPFETMLDQNSKVSVIGGPALLYAALPYADEVVVSRIVKRHRVNSTVQLDASFLDDISKREMVETHWYKIDEVTTLTESVYK 1jv1-a1-m1-cB_1jv1-a1-m1-cA CRYSTAL STRUCTURE OF HUMAN AGX1 COMPLEXED WITH UDPGLCNAC Q16222 Q16222 1.9 X-RAY DIFFRACTION 157 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 485 490 1jv3-a1-m1-cB_1jv3-a1-m1-cA 1jvd-a1-m1-cA_1jvd-a1-m1-cB 1jvg-a1-m1-cB_1jvg-a1-m1-cA INDLKLTLSKAGQEHLLRFWNEQVELYAELQAMNFEELNFFFQKAIEGFVDARMEPVPREVLGSATRDQDQLQAWESEGLFQISQNKVAVLLLAGGQGTRLGVAYPKGMYDVGLPSRKTLFQIQAERILKLQQVAEKYYGNKCIIPWYIMTSGRTMESTKEFFTKHKYFGLKKENVIFFQQGMLPAMSFDGKIILEEKNKVSMAPDGNGGLYRALAAQNIVEDMEQRGIWSIHVYCVDNILVKVADPRFIGFCIQKGADCGAKVVEKTNPTEPVGVVCRVDGVYQVVEYSEISLATAQKRSSDGRLLFNAGNIANHFFTVPFLRDVVNVYEPQLQHHVAQKKIPYVDTQGQLIKPDKPNGIKMEKFVFDIFQFAKKFVVYEVLREDEFSPLKNADSQNGKDNPTTARHALMSLHHCWVLNAGGHFIDENGSRLPAIPRLKDANDVPIQCEISPLISYAGEGLESYVADKEFHAPLIIDENGVHEL MNINDLKLTLSKAGQEHLLRFWNELEEAQQVELYAELQAMNFEELNFFFQKAIEGFRMEPVPREVLGSATRDQDQLQAWESEGLFQISQNKVAVLLLAGGQGTRLGVAYPKGMYDVGLPSRKTLFQIQAERILKLQQVAEKYYGNKCIIPWYIMTSGRTMESTKEFFTKHKYFGLKKENVIFFQQGMLPAMSFDGKIILEEKNKVSMAPDGNGGLYRALAAQNIVEDMEQRGIWSIHVYCVDNILVKVADPRFIGFCIQKGADCGAKVVEKTNPTEPVGVVCRVDGVYQVVEYSEISLATAQKRSSDGRLLFNAGNIANHFFTVPFLRDVVNVYEPQLQHHVAQKKIPYVDTQGQLIKPDKPNGIKMEKFVFDIFQFAKKFVVYEVLREDEFSPLKNADSQNGKDNPTTARHALMSLHHCWVLNAGGHFIDENGSRLPAIPRLKDANDVPIQCEISPLISYAGEGLESYVADKEFHAPLIIDENGVHELV 1jvk-a1-m1-cB_1jvk-a1-m1-cA THREE-DIMENSIONAL STRUCTURE OF AN IMMUNOGLOBULIN LIGHT CHAIN DIMER ACTING AS A LETHAL AMYLOID PRECURSOR Q6PJG0 Q6PJG0 1.94 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 215 1lgv-a1-m1-cA_1lgv-a1-m1-cB 1lhz-a1-m1-cA_1lhz-a1-m1-cB TALTQPASVSGSPGQSITVSCTGVSSIVGSYNLVSWYQQHPGKAPKLLTYEVNKRPSGVSDRFSGSKSGNSASLTISGLQAEDEADYYCSSYDGSSTSVVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTA TALTQPASVSGSPGQSITVSCTGVSSIVGSYNLVSWYQQHPGKAPKLLTYEVNKRPSGVSDRFSGSKSGNSASLTISGLQAEDEADYYCSSYDGSSTSVVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTAC 1jw9-a1-m1-cB_1jw9-a1-m2-cB Structure of the Native MoeB-MoaD Protein Complex P12282 P12282 1.7 X-RAY DIFFRACTION 196 1.0 562 (Escherichia coli) 562 (Escherichia coli) 240 240 1jwa-a1-m1-cB_1jwa-a1-m2-cB 1jwb-a1-m1-cB_1jwb-a1-m2-cB AELSDQEMLRYNRQIILRGFDFDGQEALKDSRVLIVGLGGLGCAASQYLASAGVGNLTLLDFDTVSLSNLQRQTLHSDATVGQPKVESARDALTRINPHIAITPVNALLDDAELAALIAEHDLVLDCTDNVAVRNQLNAGCFAAKVPLVSGAAIRMEGQITVFTYQDGEPCYRCLSRLFGEAGVMAPLIGVIGSLQAMEAIKMLAGYGKPASGKIVMYDAMTCQFREMKLMRNPGCEVCG AELSDQEMLRYNRQIILRGFDFDGQEALKDSRVLIVGLGGLGCAASQYLASAGVGNLTLLDFDTVSLSNLQRQTLHSDATVGQPKVESARDALTRINPHIAITPVNALLDDAELAALIAEHDLVLDCTDNVAVRNQLNAGCFAAKVPLVSGAAIRMEGQITVFTYQDGEPCYRCLSRLFGEAGVMAPLIGVIGSLQAMEAIKMLAGYGKPASGKIVMYDAMTCQFREMKLMRNPGCEVCG 1jwd-a1-m1-cA_1jwd-a1-m1-cB Ca2+-induced Structural Changes in Calcyclin: High-resolution Solution Structure of Ca2+-bound Calcyclin. P30801 P30801 NOT SOLUTION NMR 113 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 90 90 2jtt-a1-m1-cA_2jtt-a1-m1-cB 2m1k-a1-m1-cB_2m1k-a1-m1-cD MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG 1jxh-a1-m1-cA_1jxh-a1-m1-cB 4-Amino-5-hydroxymethyl-2-methylpyrimidine Phosphate Kinase from Salmonella typhimurium P55882 P55882 2.3 X-RAY DIFFRACTION 154 1.0 248 248 1jxi-a1-m1-cA_1jxi-a1-m1-cB MQRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSVITALVAENTCGVQSVYRIEPDFVAAQLDSVFSDVRIDTTKIGMLAETDIVEAVAERLQRHHVRNVVLDTVMLLLSPSAIETLRVRLLPQVSLITPNLPEAAALLDAPHARTEQEMLAQGRALLAMGCEAVLMKGDWLFTREGEQRFRVNTKNTHGTGCTLSAALAALRPRHRSWGETVNEAKAWLSAALAQADTLEVGKGIGPVHHFHAWW MQRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSVITALVAENTCGVQSVYRIEPDFVAAQLDSVFSDVRIDTTKIGMLAETDIVEAVAERLQRHHVRNVVLDTVMLLLSPSAIETLRVRLLPQVSLITPNLPEAAALLDAPHARTEQEMLAQGRALLAMGCEAVLMKGDWLFTREGEQRFRVNTKNTHGTGCTLSAALAALRPRHRSWGETVNEAKAWLSAALAQADTLEVGKGIGPVHHFHAWW 1jxn-a2-m1-cD_1jxn-a2-m1-cC Crystal Structure of the Lectin I from Ulex europaeus in complex with the methyl glycoside of alpha-L-fucose P22972 P22972 2.3 X-RAY DIFFRACTION 75 1.0 3902 (Ulex europaeus) 3902 (Ulex europaeus) 239 240 1fx5-a1-m1-cB_1fx5-a1-m1-cA 1jxn-a1-m1-cA_1jxn-a1-m1-cB SDDLSFKFKNFSQNGKDLSFQGNASVIETGVLQLNKVGNNLPDETGGIARYIAPIHIWNCNTGELASFITSFSFFMETSANPKAATDGLTFFLAPPDSPLRRAGGYFGLFNDTKCDSSYQTVAVEFDTIGSPVNFWDPGFPHIGIDVNCVKSINAERWNKRYGLNNVANVEIIYEASSKTLTASLTYPSDQTSISVTSIVDLKEILPEWVSVGFSGSTYIGRQATHEVLNWYFTSTFIN SDDLSFKFKNFSQNGKDLSFQGNASVIETGVLQLNKVGNNLPDETGGIARYIAPIHIWNCNTGELASFITSFSFFMETSANPKAATDGLTFFLAPPDSPLRRAGGYFGLFNDTKCDSSYQTVAVEFDTIGSPVNFWDPGFPHIGIDVNCVKSINAERWNKRYGLNNVANVEIIYEASSKTLTASLTYPSDQTSISVTSIVDLKEILPEWVSVGFSGSTYIGRQATHEVLNWYFTSTFINT 1jxp-a2-m1-cA_1jxp-a2-m6-cB BK STRAIN HEPATITIS C VIRUS (HCV) NS3-NS4A P26663 P26663 2.2 X-RAY DIFFRACTION 25 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 177 177 1jxp-a2-m1-cB_1jxp-a2-m6-cA 1jxp-a2-m2-cA_1jxp-a2-m5-cB 1jxp-a2-m2-cB_1jxp-a2-m5-cA 1jxp-a2-m3-cA_1jxp-a2-m4-cB 1jxp-a2-m3-cB_1jxp-a2-m4-cA 1ns3-a4-m1-cA_1ns3-a4-m6-cB 1ns3-a4-m1-cB_1ns3-a4-m6-cA 1ns3-a4-m2-cA_1ns3-a4-m5-cB 1ns3-a4-m2-cB_1ns3-a4-m5-cA 1ns3-a4-m3-cA_1ns3-a4-m4-cB 1ns3-a4-m3-cB_1ns3-a4-m4-cA ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTM ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTM 1jxp-a2-m2-cA_1jxp-a2-m6-cA BK STRAIN HEPATITIS C VIRUS (HCV) NS3-NS4A P26663 P26663 2.2 X-RAY DIFFRACTION 23 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 177 177 1jxp-a2-m1-cA_1jxp-a2-m4-cA 1jxp-a2-m3-cA_1jxp-a2-m5-cA 1ns3-a4-m1-cA_1ns3-a4-m4-cA 1ns3-a4-m2-cA_1ns3-a4-m6-cA 1ns3-a4-m3-cA_1ns3-a4-m5-cA ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTM ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTM 1jxp-a2-m4-cA_1jxp-a2-m6-cB BK STRAIN HEPATITIS C VIRUS (HCV) NS3-NS4A P26663 P26663 2.2 X-RAY DIFFRACTION 17 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 177 177 1jxp-a2-m1-cA_1jxp-a2-m3-cB 1jxp-a2-m1-cB_1jxp-a2-m2-cA 1jxp-a2-m2-cB_1jxp-a2-m3-cA 1jxp-a2-m4-cB_1jxp-a2-m5-cA 1jxp-a2-m5-cB_1jxp-a2-m6-cA ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTM ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTM 1jxq-a2-m1-cD_1jxq-a2-m1-cC Structure of cleaved, CARD domain deleted Caspase-9 P55211 P55211 2.8 X-RAY DIFFRACTION 108 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 226 242 1jxq-a1-m1-cB_1jxq-a1-m1-cA 2ar9-a1-m1-cA_2ar9-a1-m1-cB 2ar9-a2-m1-cC_2ar9-a2-m1-cD NADLAYILSMEPCGHCLIINNVNFCRESGLRTRTGSNIDCEKLRRRFSSLHFMVEVKGDLTAKKMVLALLELARQDHGALDCCVVVILSHGCQASHLQFPGAVYGTDGCPVSVEKIVNIFNGTSCPSLGGKPKLFFIQACGGSSLPTPSDIFVSYSTFPGFVSWRDPKSGSWYVETLDDIFEQWAHSEDLQSLLLRVANAVSVKGIYKQMPGCFNFLRKKLFFKTS MGALESLRGNADLAYILSMEPCGHCLIINNVNFCRESGLRTRTGSNIDCEKLRRRFSSLHFMVEVKGDLTAKKMVLALLELARQDHGALDCCVVVILSHGCQASHLQFPGAVYGTDGCPVSVEKIVNIFNGTSCPSLGGKPKLFFIQACGGEQKDHGFEVLPTPSDIFVSYSTFPGFVSWRDPKSGSWYVETLDDIFEQWAHSEDLQSLLLRVANAVSVKGIYKQMPGCFNFLRKKLFFKTS 1jy2-a1-m1-cP_1jy2-a1-m1-cS Crystal Structure of the Central Region of Bovine Fibrinogen (E5 fragment) at 1.4 Angstroms Resolution P12799 P12799 1.4 X-RAY DIFFRACTION 55 1.0 9913 (Bos taurus) 9913 (Bos taurus) 44 47 1jy3-a1-m1-cP_1jy3-a1-m1-cS RDNCCILDERFGSYCPTTCGIADFLNNYQTSVDKDLRTLEGILY VATRDNCCILDERFGSYCPTTCGIADFLNNYQTSVDKDLRTLEGILY 1jy4-a1-m1-cA_1jy4-a1-m1-cB B4DIMER: A DE NOVO DESIGNED EIGHT-STRANDED BETA-SHEET ASSEMBLED USING A DISULFIDE BOND NOT SOLUTION NMR 25 1.0 32 32 RGECKFTVGRTALNTAVQKWHFVLGYKCEILA RGECKFTVGRTALNTAVQKWHFVLGYKCEILA 1jy6-a1-m1-cA_1jy6-a1-m1-cB B4DIMERA: A DE NOVO DESIGNED FOUR-STRANDED BETA-SHEET ASSEMBLED USING A DISULFIDE BOND NOT SOLUTION NMR 18 1.0 22 22 TALNTAVQKWHFVLGYKCEILA TALNTAVQKWHFVLGYKCEILA 1jyl-a1-m1-cA_1jyl-a1-m1-cD Catalytic Mechanism of CTP:phosphocholine Cytidylyltransferase from Streptococcus pneumoniae (LicC) A0A0H2UQB5 A0A0H2UQB5 2.4 X-RAY DIFFRACTION 20 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 228 228 IRVKAIILAAGLGTRLRPLTENTPKALVQVNQKPLIEYQIEFLKEKGINDIIIIVGYLKEQFDYLKEKYGVRLVFNDKYADYNNFYSLYLVKEELANSYVIDADNYLFKNMFRNDLTRSTYFSVYREDCTNEWFLVYGDDYKVQDIIVDSKAGRILSGVSFWDAPTAEKIVSFIDKAYVSGEFVDLYWDNMVKDNIKELDVYVEELEGNSIYEIDSVQDYRKLEEILK IRVKAIILAAGLGTRLRPLTENTPKALVQVNQKPLIEYQIEFLKEKGINDIIIIVGYLKEQFDYLKEKYGVRLVFNDKYADYNNFYSLYLVKEELANSYVIDADNYLFKNMFRNDLTRSTYFSVYREDCTNEWFLVYGDDYKVQDIIVDSKAGRILSGVSFWDAPTAEKIVSFIDKAYVSGEFVDLYWDNMVKDNIKELDVYVEELEGNSIYEIDSVQDYRKLEEILK 1jyl-a1-m1-cB_1jyl-a1-m1-cC Catalytic Mechanism of CTP:phosphocholine Cytidylyltransferase from Streptococcus pneumoniae (LicC) A0A0H2UQB5 A0A0H2UQB5 2.4 X-RAY DIFFRACTION 12 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 228 228 IRVKAIILAAGLGTRLRPLTENTPKALVQVNQKPLIEYQIEFLKEKGINDIIIIVGYLKEQFDYLKEKYGVRLVFNDKYADYNNFYSLYLVKEELANSYVIDADNYLFKNMFRNDLTRSTYFSVYREDCTNEWFLVYGDDYKVQDIIVDSKAGRILSGVSFWDAPTAEKIVSFIDKAYVSGEFVDLYWDNMVKDNIKELDVYVEELEGNSIYEIDSVQDYRKLEEILK IRVKAIILAAGLGTRLRPLTENTPKALVQVNQKPLIEYQIEFLKEKGINDIIIIVGYLKEQFDYLKEKYGVRLVFNDKYADYNNFYSLYLVKEELANSYVIDADNYLFKNMFRNDLTRSTYFSVYREDCTNEWFLVYGDDYKVQDIIVDSKAGRILSGVSFWDAPTAEKIVSFIDKAYVSGEFVDLYWDNMVKDNIKELDVYVEELEGNSIYEIDSVQDYRKLEEILK 1jyl-a1-m1-cC_1jyl-a1-m1-cD Catalytic Mechanism of CTP:phosphocholine Cytidylyltransferase from Streptococcus pneumoniae (LicC) A0A0H2UQB5 A0A0H2UQB5 2.4 X-RAY DIFFRACTION 32 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 228 228 1jyl-a1-m1-cA_1jyl-a1-m1-cB IRVKAIILAAGLGTRLRPLTENTPKALVQVNQKPLIEYQIEFLKEKGINDIIIIVGYLKEQFDYLKEKYGVRLVFNDKYADYNNFYSLYLVKEELANSYVIDADNYLFKNMFRNDLTRSTYFSVYREDCTNEWFLVYGDDYKVQDIIVDSKAGRILSGVSFWDAPTAEKIVSFIDKAYVSGEFVDLYWDNMVKDNIKELDVYVEELEGNSIYEIDSVQDYRKLEEILK IRVKAIILAAGLGTRLRPLTENTPKALVQVNQKPLIEYQIEFLKEKGINDIIIIVGYLKEQFDYLKEKYGVRLVFNDKYADYNNFYSLYLVKEELANSYVIDADNYLFKNMFRNDLTRSTYFSVYREDCTNEWFLVYGDDYKVQDIIVDSKAGRILSGVSFWDAPTAEKIVSFIDKAYVSGEFVDLYWDNMVKDNIKELDVYVEELEGNSIYEIDSVQDYRKLEEILK 1jym-a1-m1-cA_1jym-a1-m1-cB Crystals of Peptide Deformylase from Plasmodium falciparum with Ten Subunits per Asymmetric Unit Reveal Critical Characteristics of the Active Site for Drug Design Q8I372 Q8I372 2.8 X-RAY DIFFRACTION 32 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 176 176 1jym-a1-m1-cC_1jym-a1-m1-cD 1jym-a1-m1-cF_1jym-a1-m1-cH 1jym-a1-m1-cG_1jym-a1-m1-cI 1jym-a1-m1-cJ_1jym-a1-m1-cE DEIKIVKYPDPILRRRSEVTNFDDNLKRVVRKFDIYESKGIGLSAPQVNISKRIIVWNALYEKRKEENERIFINPSIVEQSLVKLKLIEGCLSFGIEGKVERPSIVSISYYDINGYKHLKILKGIHSRIFQHEFDHLNGTLFIDKTQVDKKKVRPKLNELIRDYKATHSEEPLEHH DEIKIVKYPDPILRRRSEVTNFDDNLKRVVRKFDIYESKGIGLSAPQVNISKRIIVWNALYEKRKEENERIFINPSIVEQSLVKLKLIEGCLSFGIEGKVERPSIVSISYYDINGYKHLKILKGIHSRIFQHEFDHLNGTLFIDKTQVDKKKVRPKLNELIRDYKATHSEEPLEHH 1jym-a1-m1-cD_1jym-a1-m1-cA Crystals of Peptide Deformylase from Plasmodium falciparum with Ten Subunits per Asymmetric Unit Reveal Critical Characteristics of the Active Site for Drug Design Q8I372 Q8I372 2.8 X-RAY DIFFRACTION 28 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 170 176 1jym-a1-m1-cD_1jym-a1-m1-cE 1jym-a1-m1-cI_1jym-a1-m1-cH 1jym-a1-m1-cI_1jym-a1-m1-cJ EIKIVKYPDPILRRRSEVTNFDDNLKRVVRKFDIYESKGIGLSAPQVNISKRIIVWNALYEKRKEENERIFINPSIVEQSLVKLKLIEGCLSFGIEGKVERPSIVSISYYDINGYKHLKILKGIHSRIFQHEFDHLNGTLFIDKTQVDKKKVRPKLNELIRDYKATHSEE DEIKIVKYPDPILRRRSEVTNFDDNLKRVVRKFDIYESKGIGLSAPQVNISKRIIVWNALYEKRKEENERIFINPSIVEQSLVKLKLIEGCLSFGIEGKVERPSIVSISYYDINGYKHLKILKGIHSRIFQHEFDHLNGTLFIDKTQVDKKKVRPKLNELIRDYKATHSEEPLEHH 1jyo-a1-m1-cB_1jyo-a1-m1-cD Structure of the Salmonella Virulence Effector SptP in Complex with its Secretion Chaperone SicP P0CL16 P0CL16 1.9 X-RAY DIFFRACTION 97 1.0 130 130 1jyo-a1-m1-cA_1jyo-a1-m1-cC LQAHQDIIANIGEKLGLPLTFDDNNQCLLLLDSDIFTSIEAKDDIWLLNGMIIPLSPVCGDSIWRQIMVINGELAANNEGTLAYIDAAETLLLIHAITDLTNTYHIISQLESFVNQQEALKNILQEYAKV LQAHQDIIANIGEKLGLPLTFDDNNQCLLLLDSDIFTSIEAKDDIWLLNGMIIPLSPVCGDSIWRQIMVINGELAANNEGTLAYIDAAETLLLIHAITDLTNTYHIISQLESFVNQQEALKNILQEYAKV 1jyo-a1-m1-cE_1jyo-a1-m1-cF Structure of the Salmonella Virulence Effector SptP in Complex with its Secretion Chaperone SicP P74873 P74873 1.9 X-RAY DIFFRACTION 34 1.0 102 104 DKAYVAPEKFSSKVLTWLGKMPLFKNTEVVQKHTENIRVQDQKILQTFLHALTEKYGETAVNDALLMSRINMNKPLTQRLAVQITECVKAADEGFINLIKSK DKAYVAPEKFSSKVLTWLGKMPLFKNTEVVQKHTENIRVQDQKILQTFLHALTEKYGETAVNDALLMSRINMNKPLTQRLAVQITECVKAADEGFINLIKSKDN 1jzo-a1-m1-cA_1jzo-a1-m1-cB DsbC C101S P0AEG6 P0AEG6 1.92 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 215 216 1eej-a1-m1-cA_1eej-a1-m1-cB 1g0t-a1-m1-cA_1g0t-a1-m1-cB 1jzd-a1-m1-cB_1jzd-a1-m1-cA 2iyj-a1-m1-cA_2iyj-a1-m1-cB DDAAIQQTLAKMGIKSSDIQPAPVAGMKTVLTNSGVLYITDDGKHIIQGPMYDVSGTAPVNVTNKMLLKQLNALEKEMIVYKAPQEKHVITVFTDITCGYSHKLHEQMADYNALGITVRYLAFPRQGLDSDAEKEMKAIWCAKDKNKAFDDVMAGKSVAPASCDVDIADHYALGVQLGVSGTPAVVLSNGTLVPGYQPPKEMKEFLDEHQKMTSG DDAAIQQTLAKMGIKSSDIQPAPVAGMKTVLTNSGVLYITDDGKHIIQGPMYDVSGTAPVNVTNKMLLKQLNALEKEMIVYKAPQEKHVITVFTDITCGYSHKLHEQMADYNALGITVRYLAFPRQGLDSDAEKEMKAIWCAKDKNKAFDDVMAGKSVAPASCDVDIADHYALGVQLGVSGTPAVVLSNGTLVPGYQPPKEMKEFLDEHQKMTSGK 1jzt-a3-m1-cA_1jzt-a3-m1-cB Crystal structure of yeast ynu0, YNL200c P40165 P40165 1.94 X-RAY DIFFRACTION 71 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 240 240 LKVVSSKLAAEIDKELGPQIGFTLQQLELAGFSVAQAVCRQFPLRGKTETEKGKHVFVIAGPGNNGGDGLVCARHLKLFGYNPVVFYPKRSERTEFYKQLVHQLNFFKVPVLSQDEGNWLEYLKPEKTLCIVDAIFGFSFKPPREPFKGIVEELCKVQNIIPIVSVDVPTGWDVDKGPISQPSINPAVLVSLTVPKPCSSHIRENQTTHYVGGRFIPRDFANKFGFEPFGYESTDQILKL LKVVSSKLAAEIDKELGPQIGFTLQQLELAGFSVAQAVCRQFPLRGKTETEKGKHVFVIAGPGNNGGDGLVCARHLKLFGYNPVVFYPKRSERTEFYKQLVHQLNFFKVPVLSQDEGNWLEYLKPEKTLCIVDAIFGFSFKPPREPFKGIVEELCKVQNIIPIVSVDVPTGWDVDKGPISQPSINPAVLVSLTVPKPCSSHIRENQTTHYVGGRFIPRDFANKFGFEPFGYESTDQILKL 1k0g-a3-m2-cB_1k0g-a3-m1-cA THE CRYSTAL STRUCTURE OF AMINODEOXYCHORISMATE SYNTHASE FROM PHOSPHATE GROWN CRYSTALS P05041 P05041 2.05 X-RAY DIFFRACTION 116 0.998 562 (Escherichia coli) 562 (Escherichia coli) 415 420 MKTLSPAVITLLWRQDAAEFYFSRLSHLPWAMLLHSGYADHPYSRFDIVVAEPICTLTTFGKETVVSESEKRTTTTDDPLQVLQQVLDRADIRPTHNEDLPFQGGALGLFGYDLGRRFESLPEIAEQDIVLPDMAVGIYDWALIVDHQRHTVSLLSHNDVNARRAWLESQQFSPQEDFTLTSDWQSNMTREQYGEKFRQVQEYLHSGDCYQVNLAQRFHATYSGDEWQAFLQLNQANRAPFSAFLRLEQGAILSLSPERFILCDNSEIQTRPIKGAENLMIVDLMRNDIGRVAVAGSVKVPELLVSTITAQLPEQLHASDLLRAAFPGGSITGAPKVRAMEIIDELEPQRRNAWCGSIGYLSFCGNMDTSITIRTLTAINGQIFCSAGGGIVADSQEEAEYQETFDKVNRILKQL MKTLSPAVITLLWRQDAAEFYFSRLSHLPWAMLLHSGYADHPYSRFDIVVAEPICTLTTFGKETVVSESEKRTTTTDDPLQVLQQVLDRADIRPTHNEDLPFQGGALGLFGYDLGRRFESLPEIAEQDIVLPDMAVGIYDWALIVDHQRHTVSLLSHNDVNARRAWLESQQFSPQEDFTLTSDWQSNMTREQYGEKFRQVQEYLHSGDCYQVNLAQRFHATYSGDEWQAFLQLNQANRAPFSAFLRLEQGAILSLSPERFILCDNSEIQTRPIKDRAENLMIVDLMRNDIGRVAVAGSVKVPELFVLVSTITAQLPEQLHASDLLRAAFPGGSITGAPKVRAMEIIDELEPQRRNAWCGSIGYLSFCGNMDTSITIRTLTAINGQIFCSAGGGIVADSQEEAEYQETFDKVNRILKQLEK 1k0z-a1-m1-cA_1k0z-a1-m1-cB Crystal Structure of the PvuII endonuclease with Pr3+ and SO4 ions bound in the active site at 2.05A. P23657 P23657 2.05 X-RAY DIFFRACTION 87 1.0 585 (Proteus vulgaris) 585 (Proteus vulgaris) 151 154 1h56-a1-m1-cA_1h56-a1-m1-cB 1ni0-a2-m1-cB_1ni0-a2-m1-cC 1pvu-a1-m1-cA_1pvu-a1-m1-cB DLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIY SHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIY 1k1d-a2-m1-cC_1k1d-a2-m1-cF Crystal structure of D-hydantoinase Q45515 Q45515 3.01 X-RAY DIFFRACTION 53 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 459 459 1k1d-a1-m1-cA_1k1d-a1-m1-cH 1k1d-a1-m1-cB_1k1d-a1-m1-cG 1k1d-a2-m1-cD_1k1d-a2-m1-cE MTKIIKNGTIVTATDTYEAHLLIKDGKIAMIGQNLEEKGAEVIDAKGCYVFPGGIDPHTHLDMPLGGTVTKDDFESGTIAAAFGGTTTIIDFCLTNKGEPLKKAIETWHNKANGKAVIDYGFHLMISEITDDVLEELPKVLEEEGITSLVFMAYKNVFQADDGTLYCTLLAAKELGALVMVHAENGDVIDYLTKKALADGNTDPIYHALTRPPELEGEATGRACQLTELAGSQLYVVHVTCAQAVEKIAEARNKGLDVWGETCPQYLVLDQSYLEKPNFEGAKYVWSPPLREKWHQEVLWNALKNGQLQTLGSDQCSFDFKGQKELGRGDFTKIPNGGPIIEDRVSILFSEGVKKGRITLNQFVDIVSTRIAKLFGLFPKKGTIVVGSDADLVIFDPNIERVISAETHHMAVDYNAFEGMKVTGEPVSVLCRGEFVVRDKQFVGKPGYGQYLKRAKYGT MTKIIKNGTIVTATDTYEAHLLIKDGKIAMIGQNLEEKGAEVIDAKGCYVFPGGIDPHTHLDMPLGGTVTKDDFESGTIAAAFGGTTTIIDFCLTNKGEPLKKAIETWHNKANGKAVIDYGFHLMISEITDDVLEELPKVLEEEGITSLVFMAYKNVFQADDGTLYCTLLAAKELGALVMVHAENGDVIDYLTKKALADGNTDPIYHALTRPPELEGEATGRACQLTELAGSQLYVVHVTCAQAVEKIAEARNKGLDVWGETCPQYLVLDQSYLEKPNFEGAKYVWSPPLREKWHQEVLWNALKNGQLQTLGSDQCSFDFKGQKELGRGDFTKIPNGGPIIEDRVSILFSEGVKKGRITLNQFVDIVSTRIAKLFGLFPKKGTIVVGSDADLVIFDPNIERVISAETHHMAVDYNAFEGMKVTGEPVSVLCRGEFVVRDKQFVGKPGYGQYLKRAKYGT 1k1d-a2-m1-cE_1k1d-a2-m1-cF Crystal structure of D-hydantoinase Q45515 Q45515 3.01 X-RAY DIFFRACTION 73 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 459 459 1k1d-a1-m1-cA_1k1d-a1-m1-cB 1k1d-a1-m1-cG_1k1d-a1-m1-cH 1k1d-a2-m1-cC_1k1d-a2-m1-cD MTKIIKNGTIVTATDTYEAHLLIKDGKIAMIGQNLEEKGAEVIDAKGCYVFPGGIDPHTHLDMPLGGTVTKDDFESGTIAAAFGGTTTIIDFCLTNKGEPLKKAIETWHNKANGKAVIDYGFHLMISEITDDVLEELPKVLEEEGITSLVFMAYKNVFQADDGTLYCTLLAAKELGALVMVHAENGDVIDYLTKKALADGNTDPIYHALTRPPELEGEATGRACQLTELAGSQLYVVHVTCAQAVEKIAEARNKGLDVWGETCPQYLVLDQSYLEKPNFEGAKYVWSPPLREKWHQEVLWNALKNGQLQTLGSDQCSFDFKGQKELGRGDFTKIPNGGPIIEDRVSILFSEGVKKGRITLNQFVDIVSTRIAKLFGLFPKKGTIVVGSDADLVIFDPNIERVISAETHHMAVDYNAFEGMKVTGEPVSVLCRGEFVVRDKQFVGKPGYGQYLKRAKYGT MTKIIKNGTIVTATDTYEAHLLIKDGKIAMIGQNLEEKGAEVIDAKGCYVFPGGIDPHTHLDMPLGGTVTKDDFESGTIAAAFGGTTTIIDFCLTNKGEPLKKAIETWHNKANGKAVIDYGFHLMISEITDDVLEELPKVLEEEGITSLVFMAYKNVFQADDGTLYCTLLAAKELGALVMVHAENGDVIDYLTKKALADGNTDPIYHALTRPPELEGEATGRACQLTELAGSQLYVVHVTCAQAVEKIAEARNKGLDVWGETCPQYLVLDQSYLEKPNFEGAKYVWSPPLREKWHQEVLWNALKNGQLQTLGSDQCSFDFKGQKELGRGDFTKIPNGGPIIEDRVSILFSEGVKKGRITLNQFVDIVSTRIAKLFGLFPKKGTIVVGSDADLVIFDPNIERVISAETHHMAVDYNAFEGMKVTGEPVSVLCRGEFVVRDKQFVGKPGYGQYLKRAKYGT 1k1y-a3-m1-cA_1k1y-a3-m1-cB Crystal structure of thermococcus litoralis 4-alpha-glucanotransferase complexed with acarbose O32462 O32462 2.4 X-RAY DIFFRACTION 150 0.998 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 636 636 1k1x-a3-m1-cA_1k1x-a3-m1-cB MERINFIFGIHNHQPLGNFGWVFEEAYNRSYRPFMEILEEFPEMKVNVHFSGPLLEWIEENKPDYLDLLRSLIKRGQLEIVVAGFYEPVLAAIPKEDRLVQIEMLKDYARKLGYDAKGVWLTERVWQPELVKSLREAGIEYVVVDDYHFMSAGLSKEELFWPYYTEDGGEVITVFPIDEKLRYLIPFRPVKKTIEYLESLTSDDPSKVAVFHDDGEKFGVWPGTYEWVYEKGWLREFFDAITSNEKINLMTYSEYLSKFTPRGLVYLPIASYFEMSEWSLPAKQAKLFVEFVEQLKEEGKFEKYRVFVRGGIWKNFFFKYPESNFMHKRMLMVSKAVRDNPEARKYILKAQCNDAYWHGVFGGIYLPHLRRTVWENIIKAQRYLKPENKILDVDFDGRAEIMVENDGFIATIKPHYGGSIFELSSKRKAVNYNDVLPRRWEHYHEQIPEEIRRELAYDWQLRAILQDHFIKPEETLDNYRLVKYHELGDFVNQPYEYEMIENGVKLWREGGVYAEEKIPARVEKKIELTEDGFIAKYRVLLEKPYKALFGVEINLAVHSVMEKPEEFEAKEFEVNDPYGIGKVRIELDKAAKVWKFPIKTLSQSEAGWDFIQQGVSYTMLFPIEKELEFTVRFREL ERINFIFGIHNHQPLGNFGWVFEEAYNRSYRPFMEILEEFPEMKVNVHFSGPLLEWIEENKPDYLDLLRSLIKRGQLEIVVAGFYEPVLAAIPKEDRLVQIEMLKDYARKLGYDAKGVWLTERVWQPELVKSLREAGIEYVVVDDYHFMSAGLSKEELFWPYYTEDGGEVITVFPIDEKLRYLIPFRPVKKTIEYLESLTSDDPSKVAVFHDDGEKFGVWPGTYEWVYEKGWLREFFDAITSNEKINLMTYSEYLSKFTPRGLVYLPIASYFEMSEWSLPAKQAKLFVEFVEQLKEEGKFEKYRVFVRGGIWKNFFFKYPESNFMHKRMLMVSKAVRDNPEARKYILKAQCNDAYWHGVFGGIYLPHLRRTVWENIIKAQRYLKPENKILDVDFDGRAEIMVENDGFIATIKPHYGGSIFELSSKRKAVNYNDVLPRRWEHYHEVQIPEEIRRELAYDWQLRAILQDHFIKPEETLDNYRLVKYHELGDFVNQPYEYEMIENGVKLWREGGVYAEEKIPARVEKKIELTEDGFIAKYRVLLEKPYKALFGVEINLAVHSVMEKPEEFEAKEFEVNDPYGIGKVRIELDKAAKVWKFPIKTLSQSEAGWDFIQQGVSYTMLFPIEKELEFTVRFREL 1k20-a1-m1-cA_1k20-a1-m1-cB Inorganic Pyrophosphatase (family II) from Streptococcus gordonii at 1.5 A resolution P95765 P95765 1.5 X-RAY DIFFRACTION 79 1.0 1302 (Streptococcus gordonii) 1302 (Streptococcus gordonii) 310 310 1wpp-a1-m1-cA_1wpp-a1-m1-cB SKILVFGHQNPDSDAIGSSYAFAYLAREAYGLDTEAVALGEPNEETAFVLDYFGVAAPRVITSAKAEGAEQVILTDHNEFQQSVADIAEVEVYGVVDHHRVANFETANPLYMRLEPVGSASSIVYRMFKEHSVAVSKEIAGLMLSGLISDTLLLKSPTTHPTDKAIAPELAELAGVNLEEYGLAMLKAGTNLASKSAEELIDIDAKTFELNGNNVRVAQVNTVDIAEVLERQAEIEAAIEKAIADNGYSDFVLMITDIINSNSEILAIGSNMDKVEAAFNFVLENNHAFLAGAVSRKKQVVPQLTESFNA SKILVFGHQNPDSDAIGSSYAFAYLAREAYGLDTEAVALGEPNEETAFVLDYFGVAAPRVITSAKAEGAEQVILTDHNEFQQSVADIAEVEVYGVVDHHRVANFETANPLYMRLEPVGSASSIVYRMFKEHSVAVSKEIAGLMLSGLISDTLLLKSPTTHPTDKAIAPELAELAGVNLEEYGLAMLKAGTNLASKSAEELIDIDAKTFELNGNNVRVAQVNTVDIAEVLERQAEIEAAIEKAIADNGYSDFVLMITDIINSNSEILAIGSNMDKVEAAFNFVLENNHAFLAGAVSRKKQVVPQLTESFNA 1k23-a2-m1-cD_1k23-a2-m1-cC Inorganic Pyrophosphatase (Family II) from Bacillus subtilis P37487 P37487 3 X-RAY DIFFRACTION 54 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 226 303 1k23-a1-m1-cA_1k23-a1-m1-cB EKILIFGHQNPDTDTICSAIAYADLKNKLGFNAEPVRLGQVNGETQYALDYFKQESPRLVETAANEVNGVILVDHNERQQSIKDIEEVQVLEVIDHHRIANFETAEPLYYRAEPVGCTATILNKYKENNVKIEKEIAGLLSAIISDSLLFKSPTCTDQDVAAAKELAEIAGVDAEEYGLNLKAGADLSKIAQVNTVDIEDVLVITDILENDSVSRKKQVVPVLTDA EKILIFGHQNPDTDTICSAIAYADLKNKLGFNAEPVRLGQVNGETQYALDYFKQESPRLVETAANEVNGVILVDHNERQQSIKDIEEVQVLEVIDHHRIANFETAEPLYYRAEPVGCTATILNKYKENNVKIEKEIAGLLSAIISDSLLFKSPTCTDQDVAAAKELAEIAGVDAEEYGLNLKAGADLSKKTVEELISLDAKEFTLGSKKVEIAQVNTVDIEDVKKRQAELEAVISKVVAEKNLDLFLLVITDILENDSLALAIGNEAAKVEKAFNVTLENNTALLKGVVSRKKQVVPVLTDAA 1k24-a2-m1-cA_1k24-a2-m2-cA Crystal Structure of the OpcA Outer Membrane Adhesin/Invasin from Neisseria meningitidis Q51227 Q51227 2.03 X-RAY DIFFRACTION 14 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 249 249 QTANEFTVHTDLSSISSTRAFLKEKHKAAKHIGVRADIPFDANQGIRLEAGFGRSKKNIINLETDENKLGKTKNVKLPTGVPENRIDLYTGYTYTQTLSDSLNFRVGAGLGFESSKDSIKTTKHTLHSSRQSWLAKVHADLLSQLGNGWYINPWSEVKFDLNSRYKLNTGVTNLKKDINQKTNGWGFGLGANIGKKLGESASIEAGPFYKQRTYKESGEFSVTTKSGDVSLTIPKTSIREYGLRVGIKF QTANEFTVHTDLSSISSTRAFLKEKHKAAKHIGVRADIPFDANQGIRLEAGFGRSKKNIINLETDENKLGKTKNVKLPTGVPENRIDLYTGYTYTQTLSDSLNFRVGAGLGFESSKDSIKTTKHTLHSSRQSWLAKVHADLLSQLGNGWYINPWSEVKFDLNSRYKLNTGVTNLKKDINQKTNGWGFGLGANIGKKLGESASIEAGPFYKQRTYKESGEFSVTTKSGDVSLTIPKTSIREYGLRVGIKF 1k2f-a2-m1-cA_1k2f-a2-m2-cB siah, Seven In Absentia Homolog P61092 P61092 2.6 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 190 190 SVLFPCKYASSGCEITLPHTEKAEHEELCEFRPYSCPCPGASCKWQGSLDAVMPHLMHQHKSITTLQGEDIVFLATDINLPGAVDWVMMQSCFGFHFMLVLEKQEKYDGHQQFFAIVQLIGTRKQAENFAYRLELNGHRRRLTWEATPRSIHEGIATAIMNSDCLVFDTSIAQLFAENGNLGINVTISMC SVLFPCKYASSGCEITLPHTEKAEHEELCEFRPYSCPCPGASCKWQGSLDAVMPHLMHQHKSITTLQGEDIVFLATDINLPGAVDWVMMQSCFGFHFMLVLEKQEKYDGHQQFFAIVQLIGTRKQAENFAYRLELNGHRRRLTWEATPRSIHEGIATAIMNSDCLVFDTSIAQLFAENGNLGINVTISMC 1k2h-a1-m1-cA_1k2h-a1-m1-cB Three-dimensional Solution Structure of apo-S100A1. P35467 P35467 NOT SOLUTION NMR 69 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 93 93 GSELETAMETLINVFHAHSGKEGDKYKLSKKELKDLLQTELSSFLDVQKDADAVDKIMKELDENGDGEVDFQEFVVLVAALTVACNNFFWENS GSELETAMETLINVFHAHSGKEGDKYKLSKKELKDLLQTELSSFLDVQKDADAVDKIMKELDENGDGEVDFQEFVVLVAALTVACNNFFWENS 1k2p-a1-m1-cA_1k2p-a1-m1-cB Crystal structure of Bruton's tyrosine kinase domain Q06187 Q06187 2.1 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 258 3p08-a3-m1-cA_3p08-a3-m1-cB IDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDV IDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDV 1k2w-a2-m2-cA_1k2w-a2-m2-cB Crystal structure of sorbitol dehydrogenase from R. sphaeroides Q59787 Q59787 2.4 X-RAY DIFFRACTION 117 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 256 256 1k2w-a1-m1-cA_1k2w-a1-m1-cB 1k2w-a2-m1-cA_1k2w-a2-m1-cB MRLDGKTALITGSARGIGRAFAEAYVREGARVAIADINLEAARATAAEIGPAACAIALDVTDQASIDRCVAELLDRWGSIDILVNNAALFDLAPIVEITRESYDRLFAINVSGTLFMMQAVARAMIAGGRGGKIINMASQAGRRGEALVGVYCATKAAVISLTQSAGLNLIRHGINVNAIAPGVVDGEHWDGVDAKFADYENLPRGEKKRQVGAAVPFGRMGRAEDLTGMAIFLATPEADYIVAQTYNVDGGNWMS MRLDGKTALITGSARGIGRAFAEAYVREGARVAIADINLEAARATAAEIGPAACAIALDVTDQASIDRCVAELLDRWGSIDILVNNAALFDLAPIVEITRESYDRLFAINVSGTLFMMQAVARAMIAGGRGGKIINMASQAGRRGEALVGVYCATKAAVISLTQSAGLNLIRHGINVNAIAPGVVDGEHWDGVDAKFADYENLPRGEKKRQVGAAVPFGRMGRAEDLTGMAIFLATPEADYIVAQTYNVDGGNWMS 1k2w-a3-m1-cA_1k2w-a3-m2-cB Crystal structure of sorbitol dehydrogenase from R. sphaeroides Q59787 Q59787 2.4 X-RAY DIFFRACTION 96 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 256 256 1k2w-a2-m1-cA_1k2w-a2-m2-cB 1k2w-a2-m1-cB_1k2w-a2-m2-cA MRLDGKTALITGSARGIGRAFAEAYVREGARVAIADINLEAARATAAEIGPAACAIALDVTDQASIDRCVAELLDRWGSIDILVNNAALFDLAPIVEITRESYDRLFAINVSGTLFMMQAVARAMIAGGRGGKIINMASQAGRRGEALVGVYCATKAAVISLTQSAGLNLIRHGINVNAIAPGVVDGEHWDGVDAKFADYENLPRGEKKRQVGAAVPFGRMGRAEDLTGMAIFLATPEADYIVAQTYNVDGGNWMS MRLDGKTALITGSARGIGRAFAEAYVREGARVAIADINLEAARATAAEIGPAACAIALDVTDQASIDRCVAELLDRWGSIDILVNNAALFDLAPIVEITRESYDRLFAINVSGTLFMMQAVARAMIAGGRGGKIINMASQAGRRGEALVGVYCATKAAVISLTQSAGLNLIRHGINVNAIAPGVVDGEHWDGVDAKFADYENLPRGEKKRQVGAAVPFGRMGRAEDLTGMAIFLATPEADYIVAQTYNVDGGNWMS 1k38-a1-m1-cB_1k38-a1-m1-cA CRYSTAL STRUCTURE OF THE CLASS D BETA-LACTAMASE OXA-2 P0A1V8 P0A1V8 1.5 X-RAY DIFFRACTION 50 1.0 234 238 TLERSDWRKFFSEFQAKGTIVVADERQADRAMLVFDPVRSKKRYSPASTFIPHTLFALDAGAVRDEFQIFRWDGVNRGHNQDQDLRSAMRNSTVWVYELFAKEIGDDKARRYLKKIDYGNADPSTDYWIEGSLAISAQEQIAFLRKLYRNELPFRVEHQRLVKDLMIVEAGRNWILRAKTGWEGRMGWWVGWVEWPTGSVFFALNIDTPNRMDDLFKREAIVRAILRSIEALPP TLERSDWRKFFSEFQAKGTIVVADERQADRAMLVFDPVRSKKRYSPASTFIPHTLFALDAGAVRDEFQIFRWDGVNRGFAGHNQDQDLRSAMRNSTVWVYELFAKEIGDDKARRYLKKIDYGNADPSTGDYWIEGSLAISAQEQIAFLRKLYRNELPFRVEHQRLVKDLMIVEAGRNWILRAKTGWEGRMGWWVGWVEWPTGSVFFALNIDTPNRMDDLFKREAIVRAILRSIEALPP 1k3e-a1-m1-cA_1k3e-a1-m1-cB Type III secretion chaperone CesT P58233 P58233 2.8 X-RAY DIFFRACTION 92 0.986 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 141 144 MSSRSELLLEKFAEKIGIGSISFNENRLCSFAIDEIYYISLSDANDEYMMIYGVCGKFPTDNSNFALEILNANLWFAENGGPYLCYEAGAQSLLLALRFPLDDATPEKLENEIEVVVKSMENLYLVLHNQGITLKIEEISS SRSELLLEKFAEKIGIGSISFNENRLCSFAIDEIYYISLSDANDEYMMIYGVCGKFPTDNSNFALEILNANLWFAENGGPYLCYEAGAQSLLLALRFPLDDATPEKLENEIEVVVKSMENLYLVLHNQGITLENEHMKIEEISS 1k3e-a2-m1-cA_1k3e-a2-m2-cB Type III secretion chaperone CesT P58233 P58233 2.8 X-RAY DIFFRACTION 148 0.986 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 141 144 MSSRSELLLEKFAEKIGIGSISFNENRLCSFAIDEIYYISLSDANDEYMMIYGVCGKFPTDNSNFALEILNANLWFAENGGPYLCYEAGAQSLLLALRFPLDDATPEKLENEIEVVVKSMENLYLVLHNQGITLKIEEISS SRSELLLEKFAEKIGIGSISFNENRLCSFAIDEIYYISLSDANDEYMMIYGVCGKFPTDNSNFALEILNANLWFAENGGPYLCYEAGAQSLLLALRFPLDDATPEKLENEIEVVVKSMENLYLVLHNQGITLENEHMKIEEISS 1k3r-a1-m1-cA_1k3r-a1-m1-cB Crystal Structure of the Methyltransferase with a Knot from Methanobacterium thermoautotrophicum O26109 O26109 2.3 X-RAY DIFFRACTION 117 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 262 264 MNRVDLSLFIPDSLTAETGDLKIKTYKVVLIARAASIFGVKRIVIYHDDADGEARFIRDILTYMDTPQYLRRKVFPIMRELKHVGILPPLRTPHHPTGKPVTGEYRQGLTVKRVKKGTLVDIGADKLALCREKLTVNRIMSFRVVRLGKEILIEPDEPEDRYWGYEVLDTRRNLAESLKTVGADVVVATSRNASPITSILDEVKTRMRGAREAAILFGGPYKGLPEIDADIWVNTLPGQCTETVRTEEAVLATLSVFNMLTQ MNRVDLSLFIPDSLTAETGDLKIKTYKVVLIARAASIFGVKRIVIYHDDADGEARFIRDILTYMDTPQYLRRKVFPIMRELKHVGILPPLRTPHHPTGKPVTGEYRQGLTVKRVKKGTLVDIGADKLALCREKLTVNRIMSFRVVRLGKEILIEPDEPEDRYWGYEVLDTRRNLAESLKTVGADVVVATSRNASPITSILDEVKTRMRGAREAAILFGGPYKGLPEIDADIWVNTLPGQCTETVRTEEAVLATLSVFNMLTQID 1k3s-a1-m1-cB_1k3s-a1-m1-cA Type III Secretion Chaperone SigE A0A0F6AZQ4 A0A0F6AZQ4 1.9 X-RAY DIFFRACTION 77 0.99 28901 (Salmonella enterica) 28901 (Salmonella enterica) 104 106 ESLLNRLYDALGLDAPLLIIDDGIQVYFNESDHTLECCPFPLPDDILTLQHFLRLNYTSAVTIGADADNTALVALYRLPQTSTEEEALTGFELFISNVKQLKEH ESLLNRLYDALGLDEPLLIIDDGIQVYFNESDHTLECCPFPLPDDILTLQHFLRLNYTSAVTIGADADNTALVALYRLPQTSTEEEALTGFELFISNVKQLKEHYA 1k3y-a1-m1-cA_1k3y-a1-m1-cB Crystal Structure Analysis of human Glutathione S-transferase with S-hexyl glutatione and glycerol at 1.3 Angstrom P08263 P08263 1.3 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 1ags-a1-m1-cA_1ags-a1-m1-cB 1gsd-a1-m1-cA_1gsd-a1-m1-cB 1gsd-a2-m1-cC_1gsd-a2-m1-cD 1gse-a1-m1-cA_1gse-a1-m1-cB 1gsf-a1-m1-cA_1gsf-a1-m1-cB 1gsf-a2-m1-cC_1gsf-a2-m1-cD 1guh-a1-m1-cA_1guh-a1-m1-cB 1guh-a2-m1-cC_1guh-a2-m1-cD 1k3l-a1-m1-cB_1k3l-a1-m1-cA 1k3o-a1-m1-cA_1k3o-a1-m1-cB 1pkw-a1-m1-cA_1pkw-a1-m1-cB 1pkz-a1-m1-cA_1pkz-a1-m1-cB 1pl1-a1-m1-cA_1pl1-a1-m1-cB 1pl2-a1-m1-cA_1pl2-a1-m1-cB 1tdi-a1-m1-cA_1tdi-a1-m1-cB 1usb-a1-m1-cB_1usb-a1-m1-cA 1xwg-a1-m1-cA_1xwg-a1-m1-cB 1ydk-a1-m1-cA_1ydk-a1-m1-cB 2r3x-a1-m1-cB_2r3x-a1-m1-cA 2r6k-a1-m1-cB_2r6k-a1-m1-cA 2vct-a1-m1-cA_2vct-a1-m1-cB 2vct-a2-m1-cC_2vct-a2-m1-cD 2vct-a3-m1-cE_2vct-a3-m1-cF 2vct-a4-m1-cG_2vct-a4-m1-cH 2vcv-a1-m1-cA_2vcv-a1-m1-cB 2vcv-a2-m1-cC_2vcv-a2-m1-cD 2vcv-a3-m1-cE_2vcv-a3-m1-cF 2vcv-a4-m1-cG_2vcv-a4-m1-cH 2vcv-a5-m1-cI_2vcv-a5-m1-cJ 2vcv-a6-m1-cK_2vcv-a6-m1-cL 2vcv-a7-m1-cM_2vcv-a7-m1-cN 2vcv-a8-m1-cO_2vcv-a8-m1-cP 2wju-a1-m1-cA_2wju-a1-m1-cB 2wju-a2-m1-cC_2wju-a2-m1-cD 2wju-a3-m1-cE_2wju-a3-m1-cF 2wju-a4-m1-cG_2wju-a4-m1-cH 3i69-a1-m1-cA_3i69-a1-m1-cB 3i69-a2-m1-cC_3i69-a2-m1-cD 3i69-a3-m1-cF_3i69-a3-m1-cE 3i69-a4-m1-cG_3i69-a4-m1-cH 3i6a-a1-m1-cA_3i6a-a1-m1-cB 3i6a-a2-m1-cC_3i6a-a2-m1-cD 3i6a-a3-m1-cF_3i6a-a3-m1-cE 3i6a-a4-m1-cG_3i6a-a4-m1-cH 3ik9-a1-m1-cA_3ik9-a1-m1-cB 3ik9-a2-m1-cC_3ik9-a2-m1-cD 3ik9-a3-m1-cF_3ik9-a3-m1-cE 3ik9-a4-m1-cG_3ik9-a4-m1-cH 3ktl-a1-m1-cB_3ktl-a1-m1-cA 3l0h-a1-m1-cB_3l0h-a1-m1-cA 3q74-a1-m1-cA_3q74-a1-m1-cB 3u6v-a1-m1-cA_3u6v-a1-m1-cB 3zfb-a1-m1-cB_3zfb-a1-m1-cA 3zfl-a1-m1-cB_3zfl-a1-m1-cA 4acs-a1-m1-cB_4acs-a1-m1-cA 4acs-a2-m1-cD_4acs-a2-m1-cC 4hj2-a1-m1-cB_4hj2-a1-m1-cA 5jcu-a1-m1-cA_5jcu-a1-m1-cB 5jcu-a2-m1-cC_5jcu-a2-m1-cD 6yaw-a1-m1-cB_6yaw-a1-m1-cA 7bib-a1-m1-cA_7bib-a1-m1-cB 7bic-a1-m1-cA_7bic-a1-m1-cB 7bic-a2-m1-cC_7bic-a2-m1-cD 8bhc-a1-m1-cD_8bhc-a1-m1-cC 8bhc-a2-m1-cB_8bhc-a2-m1-cA 8bhe-a1-m1-cB_8bhe-a1-m1-cA AEKPKLHYFNARGRMESTRWLLAAAGVEFEEKFIKSAEDLDKLRNDGYLMFQQVPMVEIDGMKLVQTRAILNYIASKYNLYGKDIKERALIDMYIEGIADLGEMILLLPVCPPEEKDAKLALIKEKIKNRYFPAFEKVLKSHGQDYLVGNKLSRADIHLVELLYYVEELDSSLISSFPLLKALKTRISNLPTVKKFLQPGSPRKPPMDEKSLEEARKIFRF AEKPKLHYFNARGRMESTRWLLAAAGVEFEEKFIKSAEDLDKLRNDGYLMFQQVPMVEIDGMKLVQTRAILNYIASKYNLYGKDIKERALIDMYIEGIADLGEMILLLPVCPPEEKDAKLALIKEKIKNRYFPAFEKVLKSHGQDYLVGNKLSRADIHLVELLYYVEELDSSLISSFPLLKALKTRISNLPTVKKFLQPGSPRKPPMDEKSLEEARKIFRF 1k3z-a1-m1-cB_1k3z-a1-m1-cA X-ray crystal structure of the IkBb/NF-kB p65 homodimer complex Q04207 Q04207 2.5 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 118 130 TAELKICRVNRNSGSCLGGDEIFLLCDKVQKEDIEVYFTGPGWEARGSFSQADVHRQVAIVFRTPPYADPSLQAPVRVSMQLRRPSDRELSEPMEFQYLPDTDDRHRIEEKRKRTYET TAELKICRVNRNSGSCLGGDEIFLLCDKVQKEDIEVYFTGPGWEARGSFSQADVHRQVAIVFRTPPYADPSLQAPVRVSMQLRRPSDRELSEPMEFQYLPDTDDRHRIEEKRKRTYETFKSIMKKSPFNG 1k46-a2-m1-cA_1k46-a2-m2-cA Crystal Structure of the Type III Secretory Domain of Yersinia YopH Reveals a Domain-Swapped Dimer P08538 P08538 2.2 X-RAY DIFFRACTION 211 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 124 124 NLSLSDLHRQVSRLVQQESGDCTGKLRGNVAANKETTFQGLTIASGARESEKVFAQTVLSHVANVVLTQEDTAKLLQSTVKHNLNNYDLRSVGNGNSVLVSLRSDQMTLQDAKVLLEAALRQES NLSLSDLHRQVSRLVQQESGDCTGKLRGNVAANKETTFQGLTIASGARESEKVFAQTVLSHVANVVLTQEDTAKLLQSTVKHNLNNYDLRSVGNGNSVLVSLRSDQMTLQDAKVLLEAALRQES 1k4i-a1-m1-cA_1k4i-a1-m2-cA Crystal Structure of 3,4-dihydroxy-2-butanone 4-phosphate synthase in complex with two Magnesium ions Q8TG90 Q8TG90 0.98 X-RAY DIFFRACTION 167 1.0 148305 (Pyricularia grisea) 148305 (Pyricularia grisea) 216 216 1k49-a1-m1-cA_1k49-a1-m2-cA 1k4l-a1-m1-cA_1k4l-a1-m2-cA 1k4o-a1-m1-cA_1k4o-a1-m2-cA 1k4p-a1-m1-cA_1k4p-a1-m2-cA FDAIPDVIQAFKNGEFVVVLDDPSRENEADLIIAAESVTTEQMAFMVRHSSGLICAPLTPERTTALDLPQMVTHNADPRGTAYTVSVDAEHPSTTTGISAHDRALACRMLAAPDAQPSHFRRPGHVFPLRAVAGGVRARRGHTEAGVELCRLAGKRPVAVISEIVDDGQEVEGRAVRAAPGMLRGDECVAFARRWGLKVCTIEDMIAHVEKTEGKL FDAIPDVIQAFKNGEFVVVLDDPSRENEADLIIAAESVTTEQMAFMVRHSSGLICAPLTPERTTALDLPQMVTHNADPRGTAYTVSVDAEHPSTTTGISAHDRALACRMLAAPDAQPSHFRRPGHVFPLRAVAGGVRARRGHTEAGVELCRLAGKRPVAVISEIVDDGQEVEGRAVRAAPGMLRGDECVAFARRWGLKVCTIEDMIAHVEKTEGKL 1k4z-a1-m1-cA_1k4z-a1-m2-cA C-terminal Domain of Cyclase Associated Protein P17555 P17555 2.3 X-RAY DIFFRACTION 83 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 157 157 1k4z-a2-m1-cB_1k4z-a2-m3-cB 1kq5-a3-m1-cB_1kq5-a3-m2-cB 1kq5-a4-m1-cA_1kq5-a4-m3-cA MPPRKELVGNKWFIENYENETESLVIDANKDESIFIGKCSQVLVQIKGKVNAISLSETESCSVVLDSSISGMDVIKSNKFGIQVNHSLPQISIDKSDGGNIYLSKESLNTEIYTSCSTAINVNLPIGEDDDYVEFPIPEQMKHSFADGKFKSAVFEH MPPRKELVGNKWFIENYENETESLVIDANKDESIFIGKCSQVLVQIKGKVNAISLSETESCSVVLDSSISGMDVIKSNKFGIQVNHSLPQISIDKSDGGNIYLSKESLNTEIYTSCSTAINVNLPIGEDDDYVEFPIPEQMKHSFADGKFKSAVFEH 1k5j-a1-m1-cC_1k5j-a1-m1-cD The Crystal Structure of Nucleoplasmin-Core P05221 P05221 2.3 X-RAY DIFFRACTION 72 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 89 90 1k5j-a1-m1-cA_1k5j-a1-m1-cB 1k5j-a1-m1-cC_1k5j-a1-m1-cB 1k5j-a1-m1-cD_1k5j-a1-m1-cE 1k5j-a1-m1-cE_1k5j-a1-m1-cA 2vtx-a1-m1-cA_2vtx-a1-m1-cB 2vtx-a1-m1-cC_2vtx-a1-m1-cB 2vtx-a1-m1-cC_2vtx-a1-m1-cD 2vtx-a1-m1-cD_2vtx-a1-m1-cE 2vtx-a1-m1-cE_2vtx-a1-m1-cA 2vtx-a2-m1-cH_2vtx-a2-m1-cI 2vtx-a2-m1-cJ_2vtx-a2-m1-cI SLIWGCELNEQNKTFEFKEHQLALRTVCLGDKAKDEFHIVEIVTKSVPIATLKPSILPMATMVGIELTPPVTFRLKAGSGPLYISGQHV SLIWGCELNEQNKTFEFKEHQLALRTVCLGDKAKDEFHIVEIVTEKSVPIATLKPSILPMATMVGIELTPPVTFRLKAGSGPLYISGQHV 1k66-a1-m1-cA_1k66-a1-m1-cB Crystal Structure of the Cyanobacterial Phytochrome Response Regulator, RcpB Q8RTM8 Q8RTM8 1.75 X-RAY DIFFRACTION 80 1.0 1188 (Tolypothrix sp. PCC 7601) 1188 (Tolypothrix sp. PCC 7601) 149 149 AVGNATQPLLVVEDSDEDFSTFQRLLQREGVVNPIYRCITGDQALDFLYQTGSYCNPDIAPRPAVILLDLNLPGTDGREVLQEIKQDEVLKKIPVVIMTTSSNPKDIEICYSYSISSYIVKPLEIDRLTETVQTFIKYWLDIVVLPEMG AVGNATQPLLVVEDSDEDFSTFQRLLQREGVVNPIYRCITGDQALDFLYQTGSYCNPDIAPRPAVILLDLNLPGTDGREVLQEIKQDEVLKKIPVVIMTTSSNPKDIEICYSYSISSYIVKPLEIDRLTETVQTFIKYWLDIVVLPEMG 1k68-a1-m1-cA_1k68-a1-m1-cB Crystal Structure of the Phosphorylated Cyanobacterial Phytochrome Response Regulator RcpA Q8RTN0 Q8RTN0 1.9 X-RAY DIFFRACTION 20 1.0 1188 (Tolypothrix sp. PCC 7601) 1188 (Tolypothrix sp. PCC 7601) 139 139 AHKKIFLVEDNKADIRLIQEALANSTVPHEVVTVRDGMEAMAYLRQEGEYANASRPDLILLLNLPKKDGREVLAEIKSDPTLKRIPVVVLSTSINEDDIFHSYDLHVNCYITKSANLSQLFQIVKGIEEFWLSTATLPS AHKKIFLVEDNKADIRLIQEALANSTVPHEVVTVRDGMEAMAYLRQEGEYANASRPDLILLLNLPKKDGREVLAEIKSDPTLKRIPVVVLSTSINEDDIFHSYDLHVNCYITKSANLSQLFQIVKGIEEFWLSTATLPS 1k6c-a1-m1-cB_1k6c-a1-m1-cA LACK OF SYNERGY FOR INHIBITORS TARGETING A MULTI-DRUG RESISTANT HIV-1 PROTEASE P35963 P35963 2.2 X-RAY DIFFRACTION 105 0.989 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 93 94 PQITLWKRPLVTIRIGGQLKEALLDTGADDTLMNLPGRWKPKMIGGGFIKVRQYDQIPIEICGHKAIGTVLVGPTPTNIGRNLLTQIGCTLNF PQITLWKRPLVTIRIGGQLKEALLDTGADDTVLMNLPGRWKPKMGGGFIKVRQYDQIPIEICGHKAIGTVLVGPTPTNVIGRNLLTQIGCTLNF 1k6m-a2-m1-cB_1k6m-a2-m3-cB Crystal Structure of Human Liver 6-Phosphofructo-2-Kinase/Fructose-2,6-Bisphosphatase P16118 P16118 2.4 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 432 432 1k6m-a1-m1-cA_1k6m-a1-m2-cA NSPTMVIMVGLPARGKTYISTKLTRYLNFIGTPTKVFNLGQYRREAVSYKNYEFFLPDNMEALQIRKQCALAALKDVHNYLSHEEGHVAVFDATNTTRERRSLILQFAKEHGYKVFFIESICNDPGIIAENIRQVKLGSPDYIDCDREKVLEDFLKRIECYEVNYQPLDEELDSHLSYIKIFDVGTRYMVNRVQDHIQSRTVYYLMNIHVTPRSIYLCRHGESELNIRGRIGGDSGLSVRGKQYAYALANFIQSQGISSLKVFTSRMKRTIQTAEALGVPYEQFKALNEIDAGVCEEMTYEEIQEHYPEEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKSSEELPYLKCPLHTVLKLTPVAYGCKVESIYLNVEAVNTHREKPENVDITREPEEALDTVPAHY NSPTMVIMVGLPARGKTYISTKLTRYLNFIGTPTKVFNLGQYRREAVSYKNYEFFLPDNMEALQIRKQCALAALKDVHNYLSHEEGHVAVFDATNTTRERRSLILQFAKEHGYKVFFIESICNDPGIIAENIRQVKLGSPDYIDCDREKVLEDFLKRIECYEVNYQPLDEELDSHLSYIKIFDVGTRYMVNRVQDHIQSRTVYYLMNIHVTPRSIYLCRHGESELNIRGRIGGDSGLSVRGKQYAYALANFIQSQGISSLKVFTSRMKRTIQTAEALGVPYEQFKALNEIDAGVCEEMTYEEIQEHYPEEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKSSEELPYLKCPLHTVLKLTPVAYGCKVESIYLNVEAVNTHREKPENVDITREPEEALDTVPAHY 1k72-a1-m1-cA_1k72-a1-m1-cB The X-ray Crystal Structure Of Cel9G Complexed With cellotriose P37700 P37700 1.8 X-RAY DIFFRACTION 21 1.0 1521 (Ruminiclostridium cellulolyticum) 1521 (Ruminiclostridium cellulolyticum) 611 612 1kfg-a1-m1-cA_1kfg-a1-m1-cB TYNYGEALQKSIMFYEFQRSGDLPADKRDNWRDDSGMKDGSDVGVDLTGGWYDAGDHVKFNLPMSYTSAMLAWSLYEDKDAYDKSGQTKYIMDGIKWANDYFIKCNPTPGVYYYQVGDGGKDHSWWGPAEVMQMERPSFKVDASKPGSAVCASTAASLASAAVVFKSSDPTYAEKCISHAKNLFDMADKAKSDAGYTAASGYYSSSSFYDDLSWAAVWLYLATNDSTYLDKAESYVPNWGKEQQTDIIAYKWGQWDDVHYGAELLLAKLTNKQLYKDSIEMNLDFWTTGVNGTRVSYTPKGLAWLFQWGSLRHATTQAFLAGVYAEWEGCTPSKVSVYKDFLKSQIDYALGSTGRSFVVGYGVNPPQHPHHRTAHGSWTDQMTSPTYHRHTIYGALVGGPDNADGYTDEINNYVNNEIACDYNAGFTGALAKMYKHSGGDPIPNFKAIEKITNDEVIIKAGLNSTGPNYTEIKAVVYNQTGWPARVTDKISFKYFMDLSEIVAAGIDPLSLVTSSNYSEGKNTKVSGVLPWDVSNNVYYVNVDLTGENIYPGGQSACRREVQFRIAAPQGTTYWNPKNDFSYDGLPTTSTVNTVTNIPVYDNGVKVFGNEP GTYNYGEALQKSIMFYEFQRSGDLPADKRDNWRDDSGMKDGSDVGVDLTGGWYDAGDHVKFNLPMSYTSAMLAWSLYEDKDAYDKSGQTKYIMDGIKWANDYFIKCNPTPGVYYYQVGDGGKDHSWWGPAEVMQMERPSFKVDASKPGSAVCASTAASLASAAVVFKSSDPTYAEKCISHAKNLFDMADKAKSDAGYTAASGYYSSSSFYDDLSWAAVWLYLATNDSTYLDKAESYVPNWGKEQQTDIIAYKWGQWDDVHYGAELLLAKLTNKQLYKDSIEMNLDFWTTGVNGTRVSYTPKGLAWLFQWGSLRHATTQAFLAGVYAEWEGCTPSKVSVYKDFLKSQIDYALGSTGRSFVVGYGVNPPQHPHHRTAHGSWTDQMTSPTYHRHTIYGALVGGPDNADGYTDEINNYVNNEIACDYNAGFTGALAKMYKHSGGDPIPNFKAIEKITNDEVIIKAGLNSTGPNYTEIKAVVYNQTGWPARVTDKISFKYFMDLSEIVAAGIDPLSLVTSSNYSEGKNTKVSGVLPWDVSNNVYYVNVDLTGENIYPGGQSACRREVQFRIAAPQGTTYWNPKNDFSYDGLPTTSTVNTVTNIPVYDNGVKVFGNEP 1k7h-a2-m1-cA_1k7h-a2-m2-cB CRYSTAL STRUCTURE OF SHRIMP ALKALINE PHOSPHATASE Q9BHT8 Q9BHT8 1.92 X-RAY DIFFRACTION 336 1.0 6703 (Pandalus borealis) 6703 (Pandalus borealis) 476 476 1shn-a1-m1-cA_1shn-a1-m1-cB 1shq-a1-m1-cA_1shq-a1-m1-cB EEDKAYWNKDAQDALDKQLGIKLREKQAKNVIFFLGDGMSLSTVTAARIYKGGLTGKFEREKISWEEFDFAALSKTYNTDKQVTDSAASATAYLTGVKTNQGVIGLDANTVRTNCSYQLDESLFTYSIAHWFQEAGRSTGVVTSTRVTHATPAGTYAHVADRDWENDSDVVHDREDPEICDDIAEQLVFREPGKNFKVIMGGGRRGFFPEEALDIEDGIPGEREDGKHLITDWLDDKASQGATASYVWNRDDLLAVDIANTDYLMGLFSYTHLDTVLTRDAEMDPTLPEMTKVAIEMLTKDENGFFLLVEGGRIDHMHHANQIRQSLAETLDMEEAVSMALSMTDPEETIILVTADHGHTLTITGYADRNTDILDFAGISDLDDRRYTILDYGSGPGYHITEDGKRYEPTEEDLKDINFRYASAAPKHSATHDGTDVGIWVNGPFAHLFTGVYEENYIPHALAYAACVGTGRTFCD EEDKAYWNKDAQDALDKQLGIKLREKQAKNVIFFLGDGMSLSTVTAARIYKGGLTGKFEREKISWEEFDFAALSKTYNTDKQVTDSAASATAYLTGVKTNQGVIGLDANTVRTNCSYQLDESLFTYSIAHWFQEAGRSTGVVTSTRVTHATPAGTYAHVADRDWENDSDVVHDREDPEICDDIAEQLVFREPGKNFKVIMGGGRRGFFPEEALDIEDGIPGEREDGKHLITDWLDDKASQGATASYVWNRDDLLAVDIANTDYLMGLFSYTHLDTVLTRDAEMDPTLPEMTKVAIEMLTKDENGFFLLVEGGRIDHMHHANQIRQSLAETLDMEEAVSMALSMTDPEETIILVTADHGHTLTITGYADRNTDILDFAGISDLDDRRYTILDYGSGPGYHITEDGKRYEPTEEDLKDINFRYASAAPKHSATHDGTDVGIWVNGPFAHLFTGVYEENYIPHALAYAACVGTGRTFCD 1k8c-a3-m1-cA_1k8c-a3-m2-cD Crystal structure of dimeric xylose reductase in complex with NADP(H) O74237 O74237 2.1 X-RAY DIFFRACTION 44 1.0 317 319 1mi3-a3-m1-cA_1mi3-a3-m2-cC 1r38-a3-m1-cA_1r38-a3-m2-cC 1sm9-a3-m1-cA_1sm9-a3-m4-cC 1sm9-a3-m1-cB_1sm9-a3-m2-cB 1sm9-a3-m2-cA_1sm9-a3-m3-cC 1sm9-a3-m3-cD_1sm9-a3-m4-cD 1sm9-a4-m1-cA_1sm9-a4-m4-cC 1sm9-a5-m1-cB_1sm9-a5-m2-cB 1sm9-a6-m1-cD_1sm9-a6-m2-cD 1ye4-a3-m1-cA_1ye4-a3-m2-cC 1ye6-a3-m1-cA_1ye6-a3-m4-cC 1ye6-a3-m1-cB_1ye6-a3-m2-cB 1ye6-a3-m2-cA_1ye6-a3-m3-cC 1ye6-a3-m3-cD_1ye6-a3-m4-cD 1ye6-a4-m1-cA_1ye6-a4-m4-cC 1z9a-a3-m1-cA_1z9a-a3-m2-cC SIPDIKLSSGHLMPSIGFGCWKLANATAGEQVYQAIKAGYRLFDGAEDYGNEKEVGDGVKRAIDEGLVKREEIFLTSKLWNNYHDPKNVETALNKTLADLKVDYVDLFLIHFPIAFKFVPIEEKYPPGFYCGDGNNFVYEDVPILETWKALEKLVAAGKIKSIGVSNFPGALLLDLLRGATIKPAVLQVEHHPYLQQPKLIEFAQKAGVTITAYSSFGPQSFVNQGRALNTPTLFAHDTIKAIAAKYNKTPAEVLLRWAAQRGIAVIPKSNLPERLVQNRSFNTFDLTKEDFEEIAKLDIGLRFNDPWDWDNIPIFV SIPDIKLSSGHLMPSIGFGCWKLANATAGEQVYQAIKAGYRLFDGAEDYGNEKEVGDGVKRAIDEGLVKREEIFLTSKLWNNYHDPKNVETALNKTLADLKVDYVDLFLIHFPIAFKFVPIEEKYPPGFYCGDGNNFVYEDVPILETWKALEKLVAAGKIKSIGVSNFPGALLLDLLRGATIKPAVLQVEHHPYLQQPKLIEFAQKAGVTITAYSSFGPQSFVEMNQGRALNTPTLFAHDTIKAIAAKYNKTPAEVLLRWAAQRGIAVIPKSNLPERLVQNRSFNTFDLTKEDFEEIAKLDIGLRFNDPWDWDNIPIFV 1k8f-a2-m1-cC_1k8f-a2-m1-cD CRYSTAL STRUCTURE OF THE HUMAN C-TERMINAL CAP1-ADENYLYL CYCLASE ASSOCIATED PROTEIN Q01518 Q01518 2.8 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 1k8f-a1-m1-cA_1k8f-a1-m1-cB 6fm2-a1-m1-cB_6fm2-a1-m2-cB PAVLELEGKKWRVENQENVSNLVIEDTELKQVAYIYKCVNTTLQIKGKINSITVDNCKKLGLVFDDVVGIVEIINSKDVKVQVMGKVPTISINKTDGCHAYLSKNSLDCEIVSAKSSEMNVLIPTEGGDFNEFPVPEQFKTLWNGQKLVTTVTEIAG PAVLELEGKKWRVENQENVSNLVIEDTELKQVAYIYKCVNTTLQIKGKINSITVDNCKKLGLVFDDVVGIVEIINSKDVKVQVMGKVPTISINKTDGCHAYLSKNSLDCEIVSAKSSEMNVLIPTEGGDFNEFPVPEQFKTLWNGQKLVTTVTEIAG 1k8t-a2-m1-cA_1k8t-a2-m2-cA Crystal structure of the adenylyl cyclase domain of anthrax edema factor (EF) P40136 P40136 2.6 X-RAY DIFFRACTION 85 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 498 498 DRIDVLKGEKALKASGLVPEHADAFKKIARELNTYILFRPVNKLATNLIKSGVATKGLNVHGKSSDWGPVAGYIPFDQDLSKKHGQQLAVEKGNLENKKSITEHEGEIGKIPLKLDHLRIEELKENGIILKGKKEIDNGKKYYLLESNNQVYEFRISDENNEVQYKTKEGKITVLGEKFNWRNIEVMAKNVEGVLKPLTADYDLFALAPSLTEIKKQIPQKEWDKVVNTPNSLEKQKGVTNLLIKYGIERKPDSTKGTLSNWQKQMLDRLNEAVKYTGYTGGDVVNHGTNEIFIINPEGEFILTKNWEMTGRFIEKNITGKDYLYYFNRSYNKIAPGNKAYIEWTDPITKAKINTIPTSAEFIKNLSSIRRSSNVGVYKDSGDKDEFAKKESVKKIAGYLSDYYNSANHIFSQEKKRKISIFRGIQAYNEIENVLKSKQIAPEYKNYFQYLKERITNQVQLLLTHQKSNIEFKLLYKQLNFTENETDNFEVFQKIIDE DRIDVLKGEKALKASGLVPEHADAFKKIARELNTYILFRPVNKLATNLIKSGVATKGLNVHGKSSDWGPVAGYIPFDQDLSKKHGQQLAVEKGNLENKKSITEHEGEIGKIPLKLDHLRIEELKENGIILKGKKEIDNGKKYYLLESNNQVYEFRISDENNEVQYKTKEGKITVLGEKFNWRNIEVMAKNVEGVLKPLTADYDLFALAPSLTEIKKQIPQKEWDKVVNTPNSLEKQKGVTNLLIKYGIERKPDSTKGTLSNWQKQMLDRLNEAVKYTGYTGGDVVNHGTNEIFIINPEGEFILTKNWEMTGRFIEKNITGKDYLYYFNRSYNKIAPGNKAYIEWTDPITKAKINTIPTSAEFIKNLSSIRRSSNVGVYKDSGDKDEFAKKESVKKIAGYLSDYYNSANHIFSQEKKRKISIFRGIQAYNEIENVLKSKQIAPEYKNYFQYLKERITNQVQLLLTHQKSNIEFKLLYKQLNFTENETDNFEVFQKIIDE 1k8u-a1-m1-cA_1k8u-a1-m2-cA CRYSTAL STRUCTURE OF CALCIUM-FREE (OR APO) HUMAN S100A6; CYS3MET MUTANT (SELENOMETHIONINE DERIVATIVE) P06703 P06703 1.15 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 1k9p-a1-m1-cA_1k9p-a1-m2-cA APLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG APLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG 1k90-a1-m1-cA_1k90-a1-m1-cC Crystal structure of the adenylyl cyclase domain of anthrax edema factor (EF) in complex with calmodulin and 3' deoxy-ATP P40136 P40136 2.75 X-RAY DIFFRACTION 27 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 485 503 1k90-a1-m1-cB_1k90-a1-m1-cA 1k90-a1-m1-cB_1k90-a1-m1-cC 1pk0-a1-m1-cA_1pk0-a1-m1-cC 1pk0-a1-m1-cB_1pk0-a1-m1-cA 1pk0-a1-m1-cB_1pk0-a1-m1-cC RIDVLKGEKALKASGLVPEHADAFKKIARELNTYILFRPVNKLATNLIKSGVATKGLNVHGKSSDWGPVAGYIPFDQDLSKKHGQQLAVEKGNLENKKSITEHEGEIGKIPLKLDHLRIEELKENGIILKGKKEIDNGKKYYLLESNNQVYEFRISDENNEVQYKTKEGKITVLGEKFNWRNIEVMAKNVEGVLKPLTADYDLFALAPSLTEIKKQIPQKEWDKVVNTPNSLEKQKGVTNLLIKYGIERKPDSTKGTLSNWQKQMLDRLNEAVKYTGYTGGDVVNHGTEQDNEEFPEKDNEIFIINPEGEFILTKNWEMTGRFIEKNITGKDYLYYFNRSYNKIAPGNKAYIEWTDPITKAKINTIPTSAEFIKNLSSIRRSSSVKKIAGYLSDYYNSANHIFSQEKKRKISIFRGIQAYNEIENVLKSKQIAPEYKNYFQYLKERITNQVQLLLTHQKFKLLYKQLNFTENETDNFEVFQKIID RIDVLKGEKALKASGLVPEHADAFKKIARELNTYILFRPVNKLATNLIKSGVATKGLNVHGKSSDWGPVAGYIPFDQDLSKKHGQQLAVEKGNLENKKSITEHEGEIGKIPLKLDHLRIEELKENGIILKGKKEIDNGKKYYLLESNNQVYEFRISDENNEVQYKTKEGKITVLGEKFNWRNIEVMAKNVEGVLKPLTADYDLFALAPSLTEIKKQIPQKEWDKVVNTPNSLEKQKGVTNLLIKYGIERKPDSTKGTLSNWQKQMLDRLNEAVKYTGYTGGDVVNHGTEQDNEEFPEKDNEIFIINPEGEFILTKNWEMTGRFIEKNITGKDYLYYFNRSYNKIAPGNKAYIEWTDPITKAKINTIPTSAEFIKNLSSIRRSSNVGVYKDSGDKDEFAKKESVKKIAGYLSDYYNSANHIFSQEKKRKISIFRGIQAYNEIENVLKSKQIAPEYKNYFQYLKERITNQVQLLLTHQKFKLLYKQLNFTENETDNFEVFQKIID 1k9a-a7-m2-cD_1k9a-a7-m1-cC Crystal structure analysis of full-length carboxyl-terminal Src kinase at 2.5 A resolution P32577 P32577 2.5 X-RAY DIFFRACTION 74 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 433 438 ASWPSGTECIAKYNFHGTAEQDLPFCKGDVLTIVAVTKDPNWYKAKNKVGREGIIPANYVQKREGVKAGTKLSLMPWFHGKITREQAERLLYPPETGLFLVREYTLCVSCEGKVEHYRIMYHASKLSIDEEVYFENLMQLVEHYTTDADGLCTRLIKPKVMEGTVAAQDEFYRSGWALNMKELKLLQTIGKGEFGDVMLGDYRGNKVAVKCIKNDATAQAFLAEASVMTQLRHSNLVQLLGVIVEEKGGLYIVTEYMAKGSLVDYLRSRGRSVLGGDCLLKFSLDVCEAMEYLEGNNFVHRDLAARNVLVSEDNVAKVSDFGLTKEASSTLPVKWTAPEALREKKFSTKSDVWSFGILLWEIYSFGRVPYPRIPLKDVVPRVEKGYKMDAPDGCPPAVYDVMKNCWHLDAATRPTFLQLREQLEHIRTHELHL ASWPSGTECIAKYNFHGTAEQDLPFCKGDVLTIVAVTKDPNWYKAKNKVGREGIIPANYVQKREGVKAGTKLSLMPWFHGKITREQAERLLYPPETGLFLVRESTNYPGDYTLCVSCEGKVEHYRIMYHASKLSIDEEVYFENLMQLVEHYTTDADGLCTRLIKPKVMEGTVAAQDEFYRSGWALNMKELKLLQTIGKGEFGDVMLGDYRGNKVAVKCIKNDATAQAFLAEASVMTQLRHSNLVQLLGVIVEEKGGLYIVTEYMAKGSLVDYLRSRGRSVLGGDCLLKFSLDVCEAMEYLEGNNFVHRDLAARNVLVSEDNVAKVSDFGLTKEASLPVKWTAPEALREKKFSTKSDVWSFGILLWEIYSFGRVPYPRIPLKDVVPRVEKGYKMDAPDGCPPAVYDVMKNCWHLDAATRPTFLQLREQLEHIRTHELHL 1k9i-a1-m1-cB_1k9i-a1-m1-cG Complex of DC-SIGN and GlcNAc2Man3 Q9NNX6 Q9NNX6 2.5 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA 1k9i-a1-m1-cC_1k9i-a1-m1-cF Complex of DC-SIGN and GlcNAc2Man3 Q9NNX6 Q9NNX6 2.5 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 1k9i-a1-m1-cA_1k9i-a1-m1-cB 1k9i-a1-m1-cE_1k9i-a1-m1-cJ 1k9i-a1-m1-cI_1k9i-a1-m1-cD PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA 1k9i-a1-m1-cH_1k9i-a1-m1-cB Complex of DC-SIGN and GlcNAc2Man3 Q9NNX6 Q9NNX6 2.5 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 128 1k9i-a1-m1-cE_1k9i-a1-m1-cG PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSA PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA 1k9i-a1-m1-cH_1k9i-a1-m1-cC Complex of DC-SIGN and GlcNAc2Man3 Q9NNX6 Q9NNX6 2.5 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 128 1k9i-a1-m1-cE_1k9i-a1-m1-cD PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSA PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA 1k9i-a1-m1-cH_1k9i-a1-m1-cF Complex of DC-SIGN and GlcNAc2Man3 Q9NNX6 Q9NNX6 2.5 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 128 PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSA PCPWEWTFFQGNCYFMSNSQRNWHDSITACKEVGAQLVVIKSAEEQNFLQLQSSRSNRFTWMGLSDLNQEGTWQWVDGSPLLPSFKQYWNRGEPNNVGEEDCAEFSGNGWNDDKCNLAKFWICKKSAA 1k9j-a1-m1-cB_1k9j-a1-m1-cA Complex of DC-SIGNR and GlcNAc2Man3 Q9H2X3 Q9H2X3 1.9 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 130 HCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAA CRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAA 1k9k-a2-m1-cA_1k9k-a2-m2-cB CRYSTAL STRUCTURE OF CALCIUM BOUND HUMAN S100A6 P06703 P06703 1.76 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 1k9k-a2-m1-cB_1k9k-a2-m2-cA ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG 1k9k-a2-m1-cB_1k9k-a2-m2-cB CRYSTAL STRUCTURE OF CALCIUM BOUND HUMAN S100A6 P06703 P06703 1.76 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG 1k9k-a2-m2-cA_1k9k-a2-m2-cB CRYSTAL STRUCTURE OF CALCIUM BOUND HUMAN S100A6 P06703 P06703 1.76 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 1k96-a1-m1-cA_1k96-a1-m2-cA 1k9k-a1-m1-cA_1k9k-a1-m1-cB 1k9k-a2-m1-cA_1k9k-a2-m1-cB ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG 1k9t-a1-m1-cA_1k9t-a1-m2-cA Chitinase a complexed with tetra-N-acetylchitotriose P07254 P07254 1.8 X-RAY DIFFRACTION 80 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 538 538 1ctn-a1-m1-cA_1ctn-a1-m2-cA AAPGKPTIAWGNTKFAIVEVDQAATAYNNLVKVKNAADVSVSWNLWNGDTGTTAKVLLNGKEAWSGPSTGSSGTANFKVNKGGRYQMQVALCNADGCTASDATEIVVADTDGSHLAPLKEPLLEKNKPYKQNSGKVVGSYFVEWGVYGRNFTVDKIPAQNLTHLLYGFIPICGGNGINDSLKEIEGSFQALQRSCQGREDFKVSIHDPFAALQKAQKGVTAWDDPYKGNFGQLMALKQAHPDLKILPSIGGWTLSDPFFFMGDKVKRDRFVGSVKEFLQTWKFFDGVDIDWEFPGGKGANPNLGSPQDGETYVLLMKELRAMLDQLSVETGRKYELTSAISAGKDKIDKVAYNVAQNSMDHIFLMSYAFYGAFDLKNLGHQTALNAPAWKPDTAYTTVNGVNALLAQGVKPGKIVVGTAMYGRGWTGVNGYQNNIPFTGTATGPVKGTWENGIVDYRQIAGQFMSGEWQYTYDATAEAPYVFKPSTGDLITFDDARSVQAKGKYVLDKQLGGLFSWEIDADNGDILNSMNASLGNSAG AAPGKPTIAWGNTKFAIVEVDQAATAYNNLVKVKNAADVSVSWNLWNGDTGTTAKVLLNGKEAWSGPSTGSSGTANFKVNKGGRYQMQVALCNADGCTASDATEIVVADTDGSHLAPLKEPLLEKNKPYKQNSGKVVGSYFVEWGVYGRNFTVDKIPAQNLTHLLYGFIPICGGNGINDSLKEIEGSFQALQRSCQGREDFKVSIHDPFAALQKAQKGVTAWDDPYKGNFGQLMALKQAHPDLKILPSIGGWTLSDPFFFMGDKVKRDRFVGSVKEFLQTWKFFDGVDIDWEFPGGKGANPNLGSPQDGETYVLLMKELRAMLDQLSVETGRKYELTSAISAGKDKIDKVAYNVAQNSMDHIFLMSYAFYGAFDLKNLGHQTALNAPAWKPDTAYTTVNGVNALLAQGVKPGKIVVGTAMYGRGWTGVNGYQNNIPFTGTATGPVKGTWENGIVDYRQIAGQFMSGEWQYTYDATAEAPYVFKPSTGDLITFDDARSVQAKGKYVLDKQLGGLFSWEIDADNGDILNSMNASLGNSAG 1k9u-a1-m1-cA_1k9u-a1-m1-cB Crystal Structure of the Calcium-Binding Pollen Allergen Phl p 7 (Polcalcin) at 1.75 Angstroem O82040 O82040 1.75 X-RAY DIFFRACTION 157 1.0 15957 (Phleum pratense) 15957 (Phleum pratense) 76 76 DDMERIFKRFDTNGDGKISLSELTDALRTLGSTSADEVQRMMAEIDTDGDGFIDFNEFISFCNANPGLMKDVAKVF DDMERIFKRFDTNGDGKISLSELTDALRTLGSTSADEVQRMMAEIDTDGDGFIDFNEFISFCNANPGLMKDVAKVF 1k9x-a1-m1-cA_1k9x-a1-m1-cD Structure of Pyrococcus furiosus carboxypeptidase Apo-Yb Q8U3L0 Q8U3L0 2.3 X-RAY DIFFRACTION 126 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 497 497 1k9x-a2-m1-cB_1k9x-a2-m1-cC 1ka2-a1-m1-cA_1ka2-a1-m2-cA 1ka4-a1-m1-cA_1ka4-a1-m2-cA EVFQNETIKQILAKYRRIWAIGHAQSVLGWDLEVNMPKEGILERSVAQGELSVLSHELLLHPEFVNLVEKAKGLENLNEYERGIVRVLDRSIRIARAFPPEFIREVSETTSLATKAWEEAKAKDDFSKFEPWLDKIISLAKRAAEYLGYEEEPYDALLDLYEEGLRTRDVEKMFEVLEKKLKPLLDKILEEGKVPREHPLEKEKYEREWMERVNLWILQKFGFPLGTRARLDVSAHPFTTEFGIRDVRITTRYEGYDFRRTILSTVHEFGHALYELQQDERFMFTPIAGGVSLGIHESQSRFWENIIGRSKEFVELIYPVLKENLPFMSNYTPEDVYLYFNIVRPDFIRTEADVVTYNFHILLRFKLERLMVSEEIKAKDLPEMWNDEMERLLGIRPRKYSEGILQDIHWAHGSIGYFPTYTIGTLLSAQLYYHIKKDIPDFEEKVAKAEFDPIKAWLREKIHRWGSIYPPKELLKKAIGEDMDAEYFVRWVKEKYL EVFQNETIKQILAKYRRIWAIGHAQSVLGWDLEVNMPKEGILERSVAQGELSVLSHELLLHPEFVNLVEKAKGLENLNEYERGIVRVLDRSIRIARAFPPEFIREVSETTSLATKAWEEAKAKDDFSKFEPWLDKIISLAKRAAEYLGYEEEPYDALLDLYEEGLRTRDVEKMFEVLEKKLKPLLDKILEEGKVPREHPLEKEKYEREWMERVNLWILQKFGFPLGTRARLDVSAHPFTTEFGIRDVRITTRYEGYDFRRTILSTVHEFGHALYELQQDERFMFTPIAGGVSLGIHESQSRFWENIIGRSKEFVELIYPVLKENLPFMSNYTPEDVYLYFNIVRPDFIRTEADVVTYNFHILLRFKLERLMVSEEIKAKDLPEMWNDEMERLLGIRPRKYSEGILQDIHWAHGSIGYFPTYTIGTLLSAQLYYHIKKDIPDFEEKVAKAEFDPIKAWLREKIHRWGSIYPPKELLKKAIGEDMDAEYFVRWVKEKYL 1ka8-a3-m1-cE_1ka8-a3-m1-cF Crystal Structure of the Phage P4 Origin-Binding Domain P10277 P10277 2.95 X-RAY DIFFRACTION 45 1.0 10680 (Enterobacteria phage P4) 10680 (Enterobacteria phage P4) 100 100 1ka8-a1-m1-cA_1ka8-a1-m1-cB 1ka8-a2-m1-cC_1ka8-a2-m1-cD DADPTFDFIGYLETLPQTSGMYMGNASIIPRNYRKYLYHAYLAYMEANGYRNVLSLKMFGLGLPVMLKEYGLNYEKRHTKQGIQTNLTLKEESYGDWLPK DADPTFDFIGYLETLPQTSGMYMGNASIIPRNYRKYLYHAYLAYMEANGYRNVLSLKMFGLGLPVMLKEYGLNYEKRHTKQGIQTNLTLKEESYGDWLPK 1kac-a1-m2-cA_1kac-a1-m3-cA KNOB DOMAIN FROM ADENOVIRUS SEROTYPE 12 IN COMPLEX WITH DOMAIN 1 OF ITS CELLULAR RECEPTOR CAR P36711 P36711 2.6 X-RAY DIFFRACTION 89 1.0 28282 (Human adenovirus 12) 28282 (Human adenovirus 12) 185 185 1kac-a1-m1-cA_1kac-a1-m2-cA 1kac-a1-m1-cA_1kac-a1-m3-cA 1nob-a1-m1-cA_1nob-a1-m1-cB 1nob-a1-m1-cA_1nob-a1-m1-cC 1nob-a1-m1-cB_1nob-a1-m1-cC 1nob-a2-m1-cD_1nob-a2-m1-cE 1nob-a2-m1-cD_1nob-a2-m1-cF 1nob-a2-m1-cE_1nob-a2-m1-cF TPYDPLTLWTTPDPPPNCSLIQELDAKLTLCLTKNGSIVNGIVSLVGVKGNLLNIQSTTTTVGVHLVFDEQGRLITSTPTALVPQASWGYRQGQSVSTNTVTNGLGFMPNVSAYPRPNASEAKSQMVSLTYLQGDTSKPITMKVAFNGITSLNGYSLTFMWSGLSNYINQPFSTPSCSFSYITQE TPYDPLTLWTTPDPPPNCSLIQELDAKLTLCLTKNGSIVNGIVSLVGVKGNLLNIQSTTTTVGVHLVFDEQGRLITSTPTALVPQASWGYRQGQSVSTNTVTNGLGFMPNVSAYPRPNASEAKSQMVSLTYLQGDTSKPITMKVAFNGITSLNGYSLTFMWSGLSNYINQPFSTPSCSFSYITQE 1kae-a1-m1-cA_1kae-a1-m1-cB L-HISTIDINOL DEHYDROGENASE (HISD) STRUCTURE COMPLEXED WITH L-HISTIDINOL (SUBSTRATE), ZINC AND NAD (COFACTOR) P06988 P06988 1.7 X-RAY DIFFRACTION 366 1.0 562 (Escherichia coli) 562 (Escherichia coli) 427 427 1k75-a1-m1-cA_1k75-a1-m1-cB 1kah-a1-m1-cA_1kah-a1-m1-cB 1kar-a1-m1-cA_1kar-a1-m1-cB SFNTIIDWNSCTAEQQRQLLRPAISASESITRTVNDILDNVKARGDEALREYSAKFDKTTVTALKVSAEEIAAASERLSDELKQAAVAVKNIETFHTAQKLPPVDVETQPGVRCQQVTRPVASVGLYIPGGSAPLFSTVLLATPASIAGCKKVVLCSPPPIADEILYAAQLCGVQDVFNVGGAQAIAALAFGTESVPKVDKIFGPGNAFVTEAKRQVSQRLDGAAIDPAGPSEVLVIADSGATPDFVASDLLSQAEHGPDSQVILLTPAADARRVAEAVERQLAELPRAETARQALNASRLIVTKDLAQCVEISNQYGPEHLIIQTRNARELVDSITSAGSVFLGDWSPESAGDYASGTNHVLPTYGYTATCSSLGLADFQKRTVQELSKEGFSALASTIETLAAAERLTAHKNAVTLRVNALKEQA SFNTIIDWNSCTAEQQRQLLRPAISASESITRTVNDILDNVKARGDEALREYSAKFDKTTVTALKVSAEEIAAASERLSDELKQAAVAVKNIETFHTAQKLPPVDVETQPGVRCQQVTRPVASVGLYIPGGSAPLFSTVLLATPASIAGCKKVVLCSPPPIADEILYAAQLCGVQDVFNVGGAQAIAALAFGTESVPKVDKIFGPGNAFVTEAKRQVSQRLDGAAIDPAGPSEVLVIADSGATPDFVASDLLSQAEHGPDSQVILLTPAADARRVAEAVERQLAELPRAETARQALNASRLIVTKDLAQCVEISNQYGPEHLIIQTRNARELVDSITSAGSVFLGDWSPESAGDYASGTNHVLPTYGYTATCSSLGLADFQKRTVQELSKEGFSALASTIETLAAAERLTAHKNAVTLRVNALKEQA 1kam-a1-m1-cD_1kam-a1-m1-cA Structure of Bacillus subtilis Nicotinic Acid Mononucleotide Adenylyl Transferase P54455 P54455 2.1 X-RAY DIFFRACTION 125 0.994 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 174 180 1kam-a1-m1-cB_1kam-a1-m1-cC SKKIGIFGGTFDPPHNGHLLMANEVLYQAGLDEIWFMPNQITDSFHRVEMLKLAIQSNPSFKLELVEMEREGPSYTFDTVSLLKQRYPNDQLFFIIGADMIEYLPKWYKLLIQFIGVKRPGFHVETPYPLLFADVPEFEVSSTMIRERFKSKKPTDYLIPDKVKKYVEENGLYE SKKIGIFGGTFDPPHNGHLLMANEVLYQAGLDEIWFMPNQIPDSFHRVEMLKLAIQSNPSFKLELVEMEREGPSYTFDTVSLLKQRYPNDQLFFIIGADMIEYLPKWYKLDELLNLIQFIGVKRPGFHVETPYPLLFADVPEFEVSSTMIRERFKSKKPTDYLIPDKVKKYVEENGLYES 1kaq-a1-m1-cA_1kaq-a1-m1-cD Structure of Bacillus subtilis Nicotinic Acid Mononucleotide Adenylyl Transferase P54455 P54455 3.2 X-RAY DIFFRACTION 55 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 186 186 1kam-a1-m1-cB_1kam-a1-m1-cA 1kam-a1-m1-cD_1kam-a1-m1-cC 1kaq-a2-m1-cB_1kaq-a2-m1-cC 1kaq-a3-m1-cF_1kaq-a3-m1-cE KKIGIFGGTFDPPHNGHLLMANEVLYQAGLDEIWFMPNQIPPHKQNEDYTDSFHRVEMLKLAIQSNPSFKLELVEMEREGPSYTFDTVSLLKQRYPNDQLFFIIGADMIEYLPKWYKLDELLNLIQFIGVKRPGFHVETPYPLLFADVPEFEVSSTMIRERFKSKKPTDYLIPDKVKKYVEENGLY KKIGIFGGTFDPPHNGHLLMANEVLYQAGLDEIWFMPNQIPPHKQNEDYTDSFHRVEMLKLAIQSNPSFKLELVEMEREGPSYTFDTVSLLKQRYPNDQLFFIIGADMIEYLPKWYKLDELLNLIQFIGVKRPGFHVETPYPLLFADVPEFEVSSTMIRERFKSKKPTDYLIPDKVKKYVEENGLY 1kaw-a1-m1-cA_1kaw-a1-m1-cC STRUCTURE OF SINGLE STRANDED DNA BINDING PROTEIN (SSB) P0AGE0 P0AGE0 2.9 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 96 96 RGVNKVILVGNLGQDPEVRYMAVANITLATSESEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQML RGVNKVILVGNLGQDPEVRYMAVANITLATSESEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQML 1kaw-a1-m1-cC_1kaw-a1-m1-cD STRUCTURE OF SINGLE STRANDED DNA BINDING PROTEIN (SSB) P0AGE0 P0AGE0 2.9 X-RAY DIFFRACTION 72 1.0 562 (Escherichia coli) 562 (Escherichia coli) 96 96 1kaw-a1-m1-cA_1kaw-a1-m1-cB 1sru-a1-m1-cC_1sru-a1-m1-cD RGVNKVILVGNLGQDPEVRYMAVANITLATSESEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQML RGVNKVILVGNLGQDPEVRYMAVANITLATSESEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQML 1kc6-a1-m1-cB_1kc6-a1-m1-cA HincII Bound to Cognate DNA P17743 P17743 2.6 X-RAY DIFFRACTION 76 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 247 249 1tw8-a1-m1-cB_1tw8-a1-m1-cA 1tw8-a2-m1-cD_1tw8-a2-m1-cC 1tx3-a1-m1-cA_1tx3-a1-m1-cB 1tx3-a2-m1-cD_1tx3-a2-m1-cC 1xhu-a1-m1-cB_1xhu-a1-m1-cA 1xhu-a2-m1-cC_1xhu-a2-m1-cD 1xhv-a1-m1-cB_1xhv-a1-m1-cA 1xhv-a2-m1-cC_1xhv-a2-m1-cD 2gie-a1-m1-cB_2gie-a1-m1-cA 2gie-a2-m1-cD_2gie-a2-m1-cC 2gig-a1-m1-cB_2gig-a1-m1-cA 2gih-a1-m1-cB_2gih-a1-m1-cA 2gii-a1-m1-cB_2gii-a1-m1-cA 2gij-a1-m1-cB_2gij-a1-m1-cA 3e3y-a1-m1-cB_3e3y-a1-m1-cA 3e40-a1-m1-cB_3e40-a1-m1-cA 3e41-a1-m1-cB_3e41-a1-m1-cA 3e42-a1-m1-cB_3e42-a1-m1-cA 3e43-a1-m1-cB_3e43-a1-m1-cA 3e44-a1-m1-cB_3e44-a1-m1-cA 3e45-a1-m1-cA_3e45-a1-m1-cB 3ebc-a1-m1-cA_3ebc-a1-m1-cB SFIKPIYQDINSILIGQKVKRAAGEPFEKLVYKFLKENLSDLTFKQYEYLNDLFMKNPAIIGHEARYKLFNSPTLLFLLSRGKAATENWSIENLFEEKQNDTADILLVKDQFYELLDVKTRNISKSAQAPNIISAYKLAQTCAKMIDNKEFDLFDINYLEVDWELNGEDLVCVSTSFAELFKSEPSELYINWAAAMQIQFHVRDLDQGFNGTREEWAKSYLKHFVTQAEQRAISMIDKFVKPFKKYI SFIKPIYQDINSILIGQKVKRPAAGEPFEKLVYKFLKENLSDLTFKQYEYLNDLFMKNPAIIGHEARYKLFNSPTLLFLLSRGKAATENWSIENLFEEKQNDTADILLVKDQFYELLDVKTRNISKSAQAPNIISAYKLAQTCAKMIDNKEFDLFDINYLEVDWELNGEDLVCVSTSFAELFKSEPSELYINWAAAMQIQFHVRDLDQGFNGTREEWAKSYLKHFVTQAEQRAISMIDKFVKPFKKYIL 1kca-a2-m1-cE_1kca-a2-m2-cE Crystal Structure of the lambda Repressor C-terminal Domain Octamer P03034 P03034 2.91 X-RAY DIFFRACTION 38 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 101 101 1kca-a2-m1-cA_1kca-a2-m2-cA ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG 1kca-a2-m2-cA_1kca-a2-m2-cD Crystal Structure of the lambda Repressor C-terminal Domain Octamer P03034 P03034 2.91 X-RAY DIFFRACTION 27 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 101 101 1f39-a1-m1-cA_1f39-a1-m2-cB 1f39-a1-m1-cB_1f39-a1-m2-cA 1kca-a1-m1-cA_1kca-a1-m1-cD 1kca-a1-m1-cB_1kca-a1-m1-cC 1kca-a1-m1-cC_1kca-a1-m1-cH 1kca-a1-m1-cD_1kca-a1-m1-cG 1kca-a1-m1-cE_1kca-a1-m1-cH 1kca-a1-m1-cF_1kca-a1-m1-cG 1kca-a2-m1-cA_1kca-a2-m1-cD 1kca-a2-m1-cB_1kca-a2-m1-cC 1kca-a2-m1-cC_1kca-a2-m1-cH 1kca-a2-m1-cD_1kca-a2-m1-cG 1kca-a2-m1-cE_1kca-a2-m1-cH 1kca-a2-m1-cF_1kca-a2-m1-cG 1kca-a2-m2-cB_1kca-a2-m2-cC 1kca-a2-m2-cC_1kca-a2-m2-cH 1kca-a2-m2-cD_1kca-a2-m2-cG 1kca-a2-m2-cE_1kca-a2-m2-cH 1kca-a2-m2-cF_1kca-a2-m2-cG ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG 1kca-a2-m2-cA_1kca-a2-m2-cE Crystal Structure of the lambda Repressor C-terminal Domain Octamer P03034 P03034 2.91 X-RAY DIFFRACTION 13 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 101 101 1kca-a1-m1-cA_1kca-a1-m1-cE 1kca-a2-m1-cA_1kca-a2-m1-cE ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG 1kca-a2-m2-cE_1kca-a2-m2-cG Crystal Structure of the lambda Repressor C-terminal Domain Octamer P03034 P03034 2.91 X-RAY DIFFRACTION 17 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 101 101 1f39-a1-m1-cA_1f39-a1-m2-cA 1kca-a1-m1-cA_1kca-a1-m1-cC 1kca-a1-m1-cD_1kca-a1-m1-cH 1kca-a1-m1-cE_1kca-a1-m1-cG 1kca-a2-m1-cA_1kca-a2-m1-cC 1kca-a2-m1-cD_1kca-a2-m1-cH 1kca-a2-m1-cE_1kca-a2-m1-cG 1kca-a2-m2-cA_1kca-a2-m2-cC 1kca-a2-m2-cD_1kca-a2-m2-cH ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG ASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRDSGQVFLQPLNPQYPMIPCNESCSVVGKVIASQWPEETFG 1kcm-a1-m1-cA_1kcm-a1-m2-cA Crystal Structure of Mouse PITP Alpha Void of Bound Phospholipid at 2.0 Angstroms Resolution P53810 P53810 2 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 256 256 VLLKEYRVILPVSVDEYQVGQLYSVAEASKNETGGGEGVEVLVNEPYEKDDGEKGQYTHKIYHLQSKVPTFVRMLAPEGALNIHEKAWNAYPYCRTVITNEYMKEDFLIKIETWHKPDLGTQENVHKLEPEAWKHVEAIYIDIADRSQVLSKDYKAEEDPAKFKSVKTGRGPLGPNWKQELVNQKDCPYMCAYKLVTVKFKWWGLQNKVENFIHKQEKRLFTNFHRQLFCWLDKWVDLTMDDIRRMEEETKRQLDE VLLKEYRVILPVSVDEYQVGQLYSVAEASKNETGGGEGVEVLVNEPYEKDDGEKGQYTHKIYHLQSKVPTFVRMLAPEGALNIHEKAWNAYPYCRTVITNEYMKEDFLIKIETWHKPDLGTQENVHKLEPEAWKHVEAIYIDIADRSQVLSKDYKAEEDPAKFKSVKTGRGPLGPNWKQELVNQKDCPYMCAYKLVTVKFKWWGLQNKVENFIHKQEKRLFTNFHRQLFCWLDKWVDLTMDDIRRMEEETKRQLDE 1kcx-a1-m1-cA_1kcx-a1-m1-cB X-ray structure of NYSGRC target T-45 P97427 P97427 2.12 X-RAY DIFFRACTION 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 476 476 4b3z-a1-m1-cB_4b3z-a1-m1-cA 4b3z-a1-m1-cC_4b3z-a1-m1-cD DRLLIRGGRIINDDQSFYADVYLEDGLIKQIGENLIVPGGVKTIEANGRMVIPGGIDVNTYLQKPSQGMTSADDFFQGTKAALAGGTTMIIDHVVPEPGSSLLTSFEKWHEAADTKSCCDYSLHVDITSWYDGVREELEVLVQDKGVNSFQVYMAYKDLYQMSDSQLYEAFTFLKGLGAVILVHAENGDLIAQEQKRILEMGITGPEGHALSRPEELEAEAVFRAIAIAGRINCPVYITKVMSKSAADIIALARKKGPLVFGEPIAASLGTDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYLTSLLACGDLQVTGSGHCPYSTAQKAVGKDNFTLIPEGVNGIEERMTVVWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRIAVGSDADVVIWDPDKMKTITAKSHKSTVEYNIFEGMECHGSPLVVISQGKIVFEDGNISVSKGMGRFIPRKPFPEHLYQRVRIRSKVFG DRLLIRGGRIINDDQSFYADVYLEDGLIKQIGENLIVPGGVKTIEANGRMVIPGGIDVNTYLQKPSQGMTSADDFFQGTKAALAGGTTMIIDHVVPEPGSSLLTSFEKWHEAADTKSCCDYSLHVDITSWYDGVREELEVLVQDKGVNSFQVYMAYKDLYQMSDSQLYEAFTFLKGLGAVILVHAENGDLIAQEQKRILEMGITGPEGHALSRPEELEAEAVFRAIAIAGRINCPVYITKVMSKSAADIIALARKKGPLVFGEPIAASLGTDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYLTSLLACGDLQVTGSGHCPYSTAQKAVGKDNFTLIPEGVNGIEERMTVVWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRIAVGSDADVVIWDPDKMKTITAKSHKSTVEYNIFEGMECHGSPLVVISQGKIVFEDGNISVSKGMGRFIPRKPFPEHLYQRVRIRSKVFG 1kdg-a2-m2-cA_1kdg-a2-m3-cA Crystal structure of the flavin domain of cellobiose dehydrogenase Q01738 Q01738 1.5 X-RAY DIFFRACTION 22 1.0 541 541 1kdg-a2-m1-cA_1kdg-a2-m2-cA 1kdg-a2-m1-cA_1kdg-a2-m3-cA TPYDYIIVGAGPGGIIAADRLSEAGKKVLLLERGGPSTKQTGGTYVAPWATSSGLTKFDIPGLFESLFTDSNPFWWCKDITVFAGCLVGGGTSVNGALYWYPNDGDFSSSVGWPSSWTNHAPYTSKLSSRLPSTDHPSTDGQRYLEQSFNVVSQLLKGQGYNQATINDNPNYKDHVFGYSAFDFLNGKRAGPVATYLQTALARPNFTFKTNVMVSNVVRNGSQILGVQTNDPTLGPNGFIPVTPKGRVILSAGAFGTSRILFQSGIGPTDMIQTVQSNPTAAAALPPQNQWINLPVGMNAQDNPSINLVFTHPSIDAYENWADVWSNPRPADAAQYLANQSGVFAGASPKLNFWRAYSGSDGFTRYAQGTVRPGAASVNSSLPYNASQIFTITVYLSTGIQSRGRIGIDAALRGTVLTPPWLVNPVDKTVLLQALHDVVSNIGSIPGLTMITPDVTQTLEEYVDAYDPATMNSNHWVSSTTIGSSPQSAVVDSNVKVFGTNNLFIVDAGIIPHLPTGNPQGTLMSAAEQAAAKILALAGGP TPYDYIIVGAGPGGIIAADRLSEAGKKVLLLERGGPSTKQTGGTYVAPWATSSGLTKFDIPGLFESLFTDSNPFWWCKDITVFAGCLVGGGTSVNGALYWYPNDGDFSSSVGWPSSWTNHAPYTSKLSSRLPSTDHPSTDGQRYLEQSFNVVSQLLKGQGYNQATINDNPNYKDHVFGYSAFDFLNGKRAGPVATYLQTALARPNFTFKTNVMVSNVVRNGSQILGVQTNDPTLGPNGFIPVTPKGRVILSAGAFGTSRILFQSGIGPTDMIQTVQSNPTAAAALPPQNQWINLPVGMNAQDNPSINLVFTHPSIDAYENWADVWSNPRPADAAQYLANQSGVFAGASPKLNFWRAYSGSDGFTRYAQGTVRPGAASVNSSLPYNASQIFTITVYLSTGIQSRGRIGIDAALRGTVLTPPWLVNPVDKTVLLQALHDVVSNIGSIPGLTMITPDVTQTLEEYVDAYDPATMNSNHWVSSTTIGSSPQSAVVDSNVKVFGTNNLFIVDAGIIPHLPTGNPQGTLMSAAEQAAAKILALAGGP 1kdg-a2-m3-cA_1kdg-a2-m3-cB Crystal structure of the flavin domain of cellobiose dehydrogenase Q01738 Q01738 1.5 X-RAY DIFFRACTION 77 1.0 541 546 1kdg-a1-m1-cA_1kdg-a1-m1-cB 1kdg-a2-m1-cA_1kdg-a2-m1-cB 1kdg-a2-m2-cA_1kdg-a2-m2-cB TPYDYIIVGAGPGGIIAADRLSEAGKKVLLLERGGPSTKQTGGTYVAPWATSSGLTKFDIPGLFESLFTDSNPFWWCKDITVFAGCLVGGGTSVNGALYWYPNDGDFSSSVGWPSSWTNHAPYTSKLSSRLPSTDHPSTDGQRYLEQSFNVVSQLLKGQGYNQATINDNPNYKDHVFGYSAFDFLNGKRAGPVATYLQTALARPNFTFKTNVMVSNVVRNGSQILGVQTNDPTLGPNGFIPVTPKGRVILSAGAFGTSRILFQSGIGPTDMIQTVQSNPTAAAALPPQNQWINLPVGMNAQDNPSINLVFTHPSIDAYENWADVWSNPRPADAAQYLANQSGVFAGASPKLNFWRAYSGSDGFTRYAQGTVRPGAASVNSSLPYNASQIFTITVYLSTGIQSRGRIGIDAALRGTVLTPPWLVNPVDKTVLLQALHDVVSNIGSIPGLTMITPDVTQTLEEYVDAYDPATMNSNHWVSSTTIGSSPQSAVVDSNVKVFGTNNLFIVDAGIIPHLPTGNPQGTLMSAAEQAAAKILALAGGP PTVSATPYDYIIVGAGPGGIIAADRLSEAGKKVLLLERGGPSTKQTGGTYVAPWATSSGLTKFDIPGLFESLFTDSNPFWWCKDITVFAGCLVGGGTSVNGALYWYPNDGDFSSSVGWPSSWTNHAPYTSKLSSRLPSTDHPSTDGQRYLEQSFNVVSQLLKGQGYNQATINDNPNYKDHVFGYSAFDFLNGKRAGPVATYLQTALARPNFTFKTNVMVSNVVRNGSQILGVQTNDPTLGPNGFIPVTPKGRVILSAGAFGTSRILFQSGIGPTDMIQTVQSNPTAAAALPPQNQWINLPVGMNAQDNPSINLVFTHPSIDAYENWADVWSNPRPADAAQYLANQSGVFAGASPKLNFWRAYSGSDGFTRYAQGTVRPGAASVNSSLPYNASQIFTITVYLSTGIQSRGRIGIDAALRGTVLTPPWLVNPVDKTVLLQALHDVVSNIGSIPGLTMITPDVTQTLEEYVDAYDPATMNSNHWVSSTTIGSSPQSAVVDSNVKVFGTNNLFIVDAGIIPHLPTGNPQGTLMSAAEQAAAKILALAGGP 1kea-a2-m1-cA_1kea-a2-m2-cA STRUCTURE OF A THERMOSTABLE THYMINE-DNA GLYCOSYLASE P29588 P29588 2 X-RAY DIFFRACTION 33 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 217 217 DATNKKRKVFVSTILTFWNTDRRDFPWRHTRDPYVILITEILLRRTTAGHVKKIYDKFFVKYKCFEDILKTPKSEIAKDIKEIGLSNQRAEQLKELARVVINDYGGRVPRNRKAILDLPGVGKYTCAAVMCLAFGKKAAMVDANFVRVINRYFGGSYENLNYNHKALWELAETLVPGGKCRDFNLGLMDFSAIICAPRKPKCEKCGMSKLCSYYEKC DATNKKRKVFVSTILTFWNTDRRDFPWRHTRDPYVILITEILLRRTTAGHVKKIYDKFFVKYKCFEDILKTPKSEIAKDIKEIGLSNQRAEQLKELARVVINDYGGRVPRNRKAILDLPGVGKYTCAAVMCLAFGKKAAMVDANFVRVINRYFGGSYENLNYNHKALWELAETLVPGGKCRDFNLGLMDFSAIICAPRKPKCEKCGMSKLCSYYEKC 1kew-a1-m1-cA_1kew-a1-m1-cB The crystal structure of dTDP-D-glucose 4,6-dehydratase (RmlB) from Salmonella enterica serovar Typhimurium with thymidine diphosphate bound P26391 P26391 1.8 X-RAY DIFFRACTION 88 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 361 361 1g1a-a1-m1-cA_1g1a-a1-m1-cB 1g1a-a2-m1-cC_1g1a-a2-m1-cD 1keu-a1-m1-cA_1keu-a1-m1-cB MKILITGGAGFIGSAVVRHIIKNTQDTVVNIDKLTYAGNLESLSDISESNRYNFEHADICDSAEITRIFEQYQPDAVMHLAAESHVDRSITGPAAFIETNIVGTYALLEVARKYWSALGEDKKNNFRFHHISTDEVYGDLPHPDEVENSVTLPLFTETTAYAPSSPYSASKASSDHLVRAWRRTYGLPTIVTNCSNNYGPYHFPEKLIPLVILNALEGKPLPIYGKGDQIRDWLYVEDHARALHMVVTEGKAGETYNIGGHNEKKNLDVVFTICDLLDEIVPKATSYREQITYVADRPGHDRRYAIDAGKISRELGWKPLETFESGIRKTVEWYLANTQWVNNVKSGAYQSWIEQNYEGRQ MKILITGGAGFIGSAVVRHIIKNTQDTVVNIDKLTYAGNLESLSDISESNRYNFEHADICDSAEITRIFEQYQPDAVMHLAAESHVDRSITGPAAFIETNIVGTYALLEVARKYWSALGEDKKNNFRFHHISTDEVYGDLPHPDEVENSVTLPLFTETTAYAPSSPYSASKASSDHLVRAWRRTYGLPTIVTNCSNNYGPYHFPEKLIPLVILNALEGKPLPIYGKGDQIRDWLYVEDHARALHMVVTEGKAGETYNIGGHNEKKNLDVVFTICDLLDEIVPKATSYREQITYVADRPGHDRRYAIDAGKISRELGWKPLETFESGIRKTVEWYLANTQWVNNVKSGAYQSWIEQNYEGRQ 1kez-a2-m1-cC_1kez-a2-m2-cC Crystal Structure of the Macrocycle-forming Thioesterase Domain of Erythromycin Polyketide Synthase (DEBS TE) Q03133 Q03133 2.8 X-RAY DIFFRACTION 68 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 267 267 1kez-a1-m1-cA_1kez-a1-m1-cB 1mo2-a1-m1-cA_1mo2-a1-m1-cB SSALRDGYRQAGVSGRVRSYLDLLAGLSDFREHFDGSDGFSLDLVDMADGPGEVTVICCAGTAAISGPHEFTRLAGALRGIAPVRAVPQPGYEEGEPLPSSMAAVAAVQADAVIRTQGDKPFVVAGHSAGALMAYALATELLDRGHPPRGVVLIDVYPPGHQDAMNAWLEELTATLFDRETVRMDDTRLTALGAYDRLTGQWRPRETGLPTLLVSAGEPMGPWPDDSWKPTWPFEHDTVAVPGDHFTMVQEHADAIARHIDAWLGGG SSALRDGYRQAGVSGRVRSYLDLLAGLSDFREHFDGSDGFSLDLVDMADGPGEVTVICCAGTAAISGPHEFTRLAGALRGIAPVRAVPQPGYEEGEPLPSSMAAVAAVQADAVIRTQGDKPFVVAGHSAGALMAYALATELLDRGHPPRGVVLIDVYPPGHQDAMNAWLEELTATLFDRETVRMDDTRLTALGAYDRLTGQWRPRETGLPTLLVSAGEPMGPWPDDSWKPTWPFEHDTVAVPGDHFTMVQEHADAIARHIDAWLGGG 1kf6-a3-m1-cD_1kf6-a3-m1-cP E. coli Quinol-Fumarate Reductase with Bound Inhibitor HQNO P0A8Q3 P0A8Q3 2.7 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 119 119 1kfy-a3-m1-cD_1kfy-a3-m1-cP 1l0v-a3-m1-cD_1l0v-a3-m1-cP MINPNPKRSDEPVFWGLFGAGGMWSAIIAPVMILLVGILLPLGLFPGDALSYERVLAFAQSFIGRVFLFLMIVLPLWCGLHRMHHAMHDLKIHVPAGKWVFYGLAAILTVVTLIGVVTI MINPNPKRSDEPVFWGLFGAGGMWSAIIAPVMILLVGILLPLGLFPGDALSYERVLAFAQSFIGRVFLFLMIVLPLWCGLHRMHHAMHDLKIHVPAGKWVFYGLAAILTVVTLIGVVTI 1kfq-a1-m1-cA_1kfq-a1-m1-cB Crystal Structure of Exocytosis-Sensitive Phosphoprotein, pp63/parafusin (Phosphoglucomutse) from Paramecium. OPEN FORM P47244 P47244 2.4 X-RAY DIFFRACTION 68 1.0 5888 (Paramecium tetraurelia) 5888 (Paramecium tetraurelia) 571 571 1kfi-a1-m1-cA_1kfi-a1-m1-cB QQVIPAPRVQVTQPYAGQKPGTSGLRKKVSEATQPNYLENFVQSIFNTLRKDELKPKNVLFVGGDGRYFNRQAIFSIIRLAYANDISEVHVGQAGLMSTPASSHYIRKVNEEVGNCIGGIILTASHNPGGKEHGDFGIKFNVRTGAPAPEDFTDQIYTHTTKIKEYLTVDYEFEKHINLDQIGVYKFEGTRLEKSHFEVKVVDTVQDYTQLMQKLFDFDLLKGLFSNKDFSFRFDGMHGVAGPYAKHIFGTLLGCSKESLLNCDPSEDFGGGHPDPNLTYAHDLVELLDIHKKKDVGTVPQFGAACDGDADRNMILGRQFFVTPSDSLAVIAANANLIFKNGLLGAARSMPTSGALDKVAAKNGIKLFETPTGWKFFGNLMDAGLINLCGEESFGTGSNHIREKDGIWAVLAWLTILAHKNKNTDHFVTVEEIVTQYWQQFGRNYYSRYDYEQVDSAGANKMMEHLKTKFQYFEQLKQGNKADIYDYVDPVDQSVSKNQGVRFVFGDGSRIIFRLSGTGSVGATIRIYFEQFEQQQIQHETATALANIIKLGLEISDIAQFTGRNEPTVIT QQVIPAPRVQVTQPYAGQKPGTSGLRKKVSEATQPNYLENFVQSIFNTLRKDELKPKNVLFVGGDGRYFNRQAIFSIIRLAYANDISEVHVGQAGLMSTPASSHYIRKVNEEVGNCIGGIILTASHNPGGKEHGDFGIKFNVRTGAPAPEDFTDQIYTHTTKIKEYLTVDYEFEKHINLDQIGVYKFEGTRLEKSHFEVKVVDTVQDYTQLMQKLFDFDLLKGLFSNKDFSFRFDGMHGVAGPYAKHIFGTLLGCSKESLLNCDPSEDFGGGHPDPNLTYAHDLVELLDIHKKKDVGTVPQFGAACDGDADRNMILGRQFFVTPSDSLAVIAANANLIFKNGLLGAARSMPTSGALDKVAAKNGIKLFETPTGWKFFGNLMDAGLINLCGEESFGTGSNHIREKDGIWAVLAWLTILAHKNKNTDHFVTVEEIVTQYWQQFGRNYYSRYDYEQVDSAGANKMMEHLKTKFQYFEQLKQGNKADIYDYVDPVDQSVSKNQGVRFVFGDGSRIIFRLSGTGSVGATIRIYFEQFEQQQIQHETATALANIIKLGLEISDIAQFTGRNEPTVIT 1kgn-a2-m1-cC_1kgn-a2-m1-cD R2F from Corynebacterium Ammoniagenes in its oxidised, Fe containing, form O69274 O69274 1.85 X-RAY DIFFRACTION 175 1.0 1697 (Corynebacterium ammoniagenes) 1697 (Corynebacterium ammoniagenes) 296 296 1kgn-a1-m1-cA_1kgn-a1-m1-cB 1kgo-a1-m1-cA_1kgo-a1-m1-cB 1kgo-a2-m1-cC_1kgo-a2-m1-cD 1kgp-a1-m1-cA_1kgp-a1-m1-cB 1kgp-a2-m1-cC_1kgp-a2-m1-cD 1oqu-a1-m1-cA_1oqu-a1-m1-cB 1oqu-a2-m1-cD_1oqu-a2-m1-cC 3dhz-a1-m1-cA_3dhz-a1-m1-cB 3mjo-a1-m1-cA_3mjo-a1-m1-cB SNEYDEYIANHTDPVKAINWNVIPDEKDLEVWDRLTGNFWLPEKIPVSNDIQSWNKMTPQEQLATMRVFTGLTLLDTIQGTVGAISLLPDAETMHEEAVYTNIAFMESVHAKSYSNIFMTLASTPQINEAFRWSEENENLQRKAKIIMSYYNGDDPLKKKVASTLLESFLFYSGFYLPMYLSSRAKLTNTADIIRLIIRDESVHGYYIGYKYQQGVKKLSEAEQEEYKAYTFDLMYDLYENEIEYTEDIYDDLGWTEDVKRFLRYNANKALNNLGYEGLFPTDETKVSPAILSSLS SNEYDEYIANHTDPVKAINWNVIPDEKDLEVWDRLTGNFWLPEKIPVSNDIQSWNKMTPQEQLATMRVFTGLTLLDTIQGTVGAISLLPDAETMHEEAVYTNIAFMESVHAKSYSNIFMTLASTPQINEAFRWSEENENLQRKAKIIMSYYNGDDPLKKKVASTLLESFLFYSGFYLPMYLSSRAKLTNTADIIRLIIRDESVHGYYIGYKYQQGVKKLSEAEQEEYKAYTFDLMYDLYENEIEYTEDIYDDLGWTEDVKRFLRYNANKALNNLGYEGLFPTDETKVSPAILSSLS 1kgz-a1-m1-cA_1kgz-a1-m1-cB Crystal Structure Analysis of the Anthranilate Phosphoribosyltransferase from Erwinia carotovora (current name, Pectobacterium carotovorum) Q8VP84 Q8VP84 2.4 X-RAY DIFFRACTION 66 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 328 330 1khd-a1-m1-cA_1khd-a1-m1-cD 1khd-a2-m1-cC_1khd-a2-m1-cB THQPILEKLFKSQSMTQEESHQLFAAIVRGELEDSQLAAALISMKMRGERPEEIAGAASALLADAQPFPRPDYDFADIVGTGGDGTNSINISTASAFVAASCGAKVAKHGNRSAGSCDLLQAFGIRLDMSAEDSRQALDDLNVCFLFAPQYHTGFRHAMPVRQQLKTRTIFNVLGPLINPARPPKALIGVYSPELVLPIAQALKVLGYKNAAVVHGGGMDEVAIHTPTQVAELNNGEIESYQLSPQDFGLQSYSLNALQGGTPEENRDILARLLQGKGDAAHARQVAANVALLLKLFGQDNLRHNAQLALETIRSGTAFERVTALAAR THQPILEKLFKSQSMTQEESHQLFAAIVRGELEDSQLAAALISMKMRGERPEEIAGAASALLADAQPFPRPDYDFADIVGTGGDGTNSINISTASAFVAASCGAKVAKHGNRSVLAGSCDLLQAFGIRLDMSAEDSRQALDDLNVCFLFAPQYHTGFRHAMPVRQQLKTRTIFNVLGPLINPARPPKALIGVYSPELVLPIAQALKVLGYKNAAVVHGGGMDEVAIHTPTQVAELNNGEIESYQLSPQDFGLQSYSLNALQGGTPEENRDILARLLQGKGDAAHARQVAANVALLLKLFGQDNLRHNAQLALETIRSGTAFERVTALAAR 1ki8-a2-m1-cA_1ki8-a2-m2-cA CRYSTAL STRUCTURE OF THYMIDINE KINASE FROM HERPES SIMPLEX VIRUS TYPE I COMPLEXED WITH 5-BROMOVINYLDEOXYURIDINE P0DTH5 P0DTH5 2.2 X-RAY DIFFRACTION 73 1.0 10299 (Human alphaherpesvirus 1 strain 17) 10299 (Human alphaherpesvirus 1 strain 17) 304 304 1e2m-a1-m1-cA_1e2m-a1-m2-cA 1e2n-a1-m1-cA_1e2n-a1-m2-cA 1ki2-a2-m1-cA_1ki2-a2-m2-cA 1ki7-a2-m1-cA_1ki7-a2-m2-cA MPTLLRVYIDGPHGMGKTTTTQLLVADIVYVPEPMTYWRVLGASETIANIYTTQHRLDQGEISAGDAAVVMTSAQITMGMPYAVTDAVLAPHIGGEAGSAPPPALTLIFDRHPIAALLCYPAARYLMGSMTPQAVLAFVALIPPTLPGTNIVLGALPEDRHIDRLAKRQRPGERLDLAMLAAIRRVYGLLANTVRYLQCGGSWREDWGQPRPHIGDTLFTLFRAPELLAPNGDLYNVFAWALDVLAKRLRSMHVFILDYDQSPAGCRDALLQLTSGMVQTHVTTPGSIPTICDLARTFAREMGE MPTLLRVYIDGPHGMGKTTTTQLLVADIVYVPEPMTYWRVLGASETIANIYTTQHRLDQGEISAGDAAVVMTSAQITMGMPYAVTDAVLAPHIGGEAGSAPPPALTLIFDRHPIAALLCYPAARYLMGSMTPQAVLAFVALIPPTLPGTNIVLGALPEDRHIDRLAKRQRPGERLDLAMLAAIRRVYGLLANTVRYLQCGGSWREDWGQPRPHIGDTLFTLFRAPELLAPNGDLYNVFAWALDVLAKRLRSMHVFILDYDQSPAGCRDALLQLTSGMVQTHVTTPGSIPTICDLARTFAREMGE 1kic-a1-m1-cB_1kic-a1-m1-cA Inosine-adenosine-guanosine preferring nucleoside hydrolase from Trypanosoma vivax: Asp10Ala mutant in complex with inosine Q9GPQ4 Q9GPQ4 1.6 X-RAY DIFFRACTION 80 1.0 5699 (Trypanosoma vivax) 5699 (Trypanosoma vivax) 314 317 1hoz-a1-m1-cB_1hoz-a1-m1-cA 1hp0-a1-m1-cA_1hp0-a1-m1-cB 1kie-a1-m1-cB_1kie-a1-m1-cA 1r4f-a1-m1-cA_1r4f-a1-m1-cB 2ff1-a1-m1-cA_2ff1-a1-m1-cB 2ff2-a1-m1-cA_2ff2-a1-m1-cB 3b9g-a1-m1-cB_3b9g-a1-m1-cA 3epw-a1-m1-cA_3epw-a1-m1-cB 3epx-a1-m1-cA_3epx-a1-m1-cB AKNVVLDHAGNLDDFVAMVLLASNTEKVRLIGALCTDADCFVENGFNVTGKIMCLMHNNMNLPLFPIGKSAATAVNPFPKEWRCLAKNMDDMPILNIPENVELWDKIKAENEKYEGQQLLADLVMNSEEKVTICVTGPLSNVAWCIDKYGEKFTSKVEECVIMGGAVDVRGNVFLPSTDGTAEWNIYWDPASAKTVFGCPGLRRIMFSLDSTNTVPVRSPYVQRFGEQTNFLLSILVGTMWAMYYAWDALTAAYVVDQKVANVDPVPIDVVVDKQPNEGATVRTDAENYPLTFVARNPEAEFFLDMLLRSARAC SAKNVVLDHAGNLDDFVAMVLLASNTEKVRLIGALCTDADCFVENGFNVTGKIMCLMHNNMNLPLFPIGKSAATAVNPFPKEWRCLAKNMDDMPILNIPENVELWDKIKAENEKYEGQQLLADLVMNSEEKVTICVTGPLSNVAWCIDKYGEKFTSKVEECVIMGGAVDVRGNVFLPSTDGTAEWNIYWDPASAKTVFGCPGLRRIMFSLDSTNTVPVRSPYVQRFGEQTNFLLSILVGTMWAMCTYYAWDALTAAYVVDQKVANVDPVPIDVVVDKQPNEGATVRTDAENYPLTFVARNPEAEFFLDMLLRSARAC 1kij-a1-m1-cA_1kij-a1-m1-cB Crystal structure of the 43K ATPase domain of Thermus thermophilus gyrase B in complex with novobiocin Q5SHZ4 Q5SHZ4 2.3 X-RAY DIFFRACTION 161 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 384 384 AIRVLKGLEGVRHRPAMYIGGTGVEGYHHLFKEILDNAVDEALAGYATEILVRLNEDGSLTVEDNGRGIPVDLMPEEGKPAVEVIYNTLHSGGKFEQGAYKVSGGLHGVGASVVNALSEWTVVEVFREGKHHRIAFSRGEVTEPLRVVGEAPRGKTGTRVTFKPDPEIFGNLRFDPSKIRARLREVAYLVAGLKLVFQDRQHGKEEVFLDKGGVASFAKALAEGEDLLYEKPFLIRGTHGEVEVEVGFLHTQGYNAEILTYANMIPTRDGGTHLTAFKSAYSRALNQYAKKAGLNKEKGPQPTGDDLLEGLYAVVSVKLPNPQFEGQTKGKLLNPEAGTAVGQVVYERLLEILEENPRIAKAVYEKALRAAQAREAARKARELV AIRVLKGLEGVRHRPAMYIGGTGVEGYHHLFKEILDNAVDEALAGYATEILVRLNEDGSLTVEDNGRGIPVDLMPEEGKPAVEVIYNTLHSGGKFEQGAYKVSGGLHGVGASVVNALSEWTVVEVFREGKHHRIAFSRGEVTEPLRVVGEAPRGKTGTRVTFKPDPEIFGNLRFDPSKIRARLREVAYLVAGLKLVFQDRQHGKEEVFLDKGGVASFAKALAEGEDLLYEKPFLIRGTHGEVEVEVGFLHTQGYNAEILTYANMIPTRDGGTHLTAFKSAYSRALNQYAKKAGLNKEKGPQPTGDDLLEGLYAVVSVKLPNPQFEGQTKGKLLNPEAGTAVGQVVYERLLEILEENPRIAKAVYEKALRAAQAREAARKARELV 1kim-a1-m1-cA_1kim-a1-m1-cB CRYSTAL STRUCTURE OF THYMIDINE KINASE FROM HERPES SIMPLEX VIRUS TYPE I COMPLEXED WITH DEOXYTHYMIDINE P0DTH5 P0DTH5 2.14 X-RAY DIFFRACTION 122 0.997 10299 (Human alphaherpesvirus 1 strain 17) 10299 (Human alphaherpesvirus 1 strain 17) 300 304 1e2h-a1-m1-cA_1e2h-a1-m1-cB 1e2i-a1-m1-cA_1e2i-a1-m1-cB 1e2j-a1-m1-cA_1e2j-a1-m1-cB 1e2k-a1-m1-cA_1e2k-a1-m1-cB 1e2m-a1-m1-cA_1e2m-a1-m1-cB 1e2m-a1-m2-cA_1e2m-a1-m2-cB 1e2n-a1-m1-cB_1e2n-a1-m1-cA 1e2n-a1-m2-cB_1e2n-a1-m2-cA 1e2n-a2-m1-cB_1e2n-a2-m1-cA 1e2p-a1-m1-cA_1e2p-a1-m1-cB 1ki2-a1-m1-cA_1ki2-a1-m1-cB 1ki2-a2-m1-cA_1ki2-a2-m1-cB 1ki2-a2-m2-cA_1ki2-a2-m2-cB 1ki3-a1-m1-cA_1ki3-a1-m1-cB 1ki4-a1-m1-cA_1ki4-a1-m1-cB 1ki6-a1-m1-cA_1ki6-a1-m1-cB 1ki7-a1-m1-cA_1ki7-a1-m1-cB 1ki7-a2-m1-cA_1ki7-a2-m1-cB 1ki7-a2-m2-cA_1ki7-a2-m2-cB 1ki8-a1-m1-cA_1ki8-a1-m1-cB 1ki8-a2-m1-cA_1ki8-a2-m1-cB 1ki8-a2-m2-cA_1ki8-a2-m2-cB 1of1-a1-m1-cA_1of1-a1-m1-cB 1p7c-a1-m1-cA_1p7c-a1-m1-cB 1qhi-a1-m1-cA_1qhi-a1-m1-cB 1vtk-a1-m1-cA_1vtk-a1-m2-cA 2ki5-a1-m1-cA_2ki5-a1-m1-cB 2vtk-a1-m1-cA_2vtk-a1-m2-cA 3f0t-a1-m1-cA_3f0t-a1-m1-cB 3rdp-a1-m1-cA_3rdp-a1-m1-cB 3vtk-a1-m1-cA_3vtk-a1-m2-cA 4ivp-a1-m1-cA_4ivp-a1-m1-cB 4ivq-a1-m1-cB_4ivq-a1-m1-cA 4ivr-a1-m1-cB_4ivr-a1-m1-cA 4jby-a1-m1-cA_4jby-a1-m1-cB 4oql-a1-m1-cA_4oql-a1-m1-cB 4oqm-a1-m1-cA_4oqm-a1-m1-cB 4oqn-a1-m1-cA_4oqn-a1-m1-cB 4oqx-a1-m1-cA_4oqx-a1-m1-cB MPTLLRVYIDGPHGMGKTTTTQLLDIVYVPEPMTYWRVLGASETIANIYTTQHRLDQGEISAGDAAVVMTSAQITMGMPYAVTDAVLAPHIGGEAPPALTLIFDRHPIAALLCYPAARYLMGSMTPQAVLAFVALIPPTLPGTNIVLGALPEDRHIDRLAKRQRPGERLDLAMLAAIRRVYGLLANTVRYLQCGGSWREDWGQLSPRPHIGDTLFTLFRAPELLAPNGDLYNVFAWALDVLAKRLRSMHVFILDYDQSPAGCRDALLQLTSGMVQTHVTTPGSIPTICDLARTFAREMGE MPTLLRVYIDGPHGMGKTTTTQLLVALDIVYVPEPMTYWRVLGASETIANIYTTQHRLDQGEISAGDAAVVMTSAQITMGMPYAVTDAVLAPHIGGEAPPALTLIFDRHPIAALLCYPAARYLMGSMTPQAVLAFVALIPPTLPGTNIVLGALPEDRHIDRLAKRQRPGERLDLAMLAAIRRVYGLLANTVRYLQCGGSWREDWGQLAGPRPHIGDTLFTLFRAPELLAPNGDLYNVFAWALDVLAKRLRSMHVFILDYDQSPAGCRDALLQLTSGMVQTHVTTPGSIPTICDLARTFAREMGE 1kiu-a9-m3-cI_1kiu-a9-m4-cI FimH adhesin Q133N mutant-FimC chaperone complex with methyl-alpha-D-mannose P31697 P31697 3 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 205 205 1kiu-a10-m1-cO_1kiu-a10-m5-cK 1kiu-a11-m7-cM_1kiu-a11-m8-cM GVALGATRVIYPAGQKQVQLAVTNNDENSTYLIQSWVENADGVKDGRFIVTPPLFAMKGKKENTLRILDATNNQLPQDRESLFWMNVKAIPSMDKSKLTENTLQLAIISRIKLYYRPAKLALPPDQAAEKLRFRRSANSLTLINPTPYYLTVTELNAGTRVLENALVPPMGESTVKLPSDAGSNITYRTINDYGALTPKMTGVME GVALGATRVIYPAGQKQVQLAVTNNDENSTYLIQSWVENADGVKDGRFIVTPPLFAMKGKKENTLRILDATNNQLPQDRESLFWMNVKAIPSMDKSKLTENTLQLAIISRIKLYYRPAKLALPPDQAAEKLRFRRSANSLTLINPTPYYLTVTELNAGTRVLENALVPPMGESTVKLPSDAGSNITYRTINDYGALTPKMTGVME 1kix-a1-m1-cA_1kix-a1-m2-cA Dimeric Structure of the O. nova Telomere End Binding Protein Alpha Subunit with Bound ssDNA P29549 P29549 2.7 X-RAY DIFFRACTION 233 1.0 200597 (Sterkiella nova) 200597 (Sterkiella nova) 446 446 YEYVELAKASLTSAQPQHFYAVVIDATFPYKTNQERYICSLKIVDPTLYLKQQKGAGDASDYATLVLYAKRFEDLPIIHRAGDIIRVHRATLRLYNGQRQFNANVFYSSSWALFSTDKRSVTQEINNQDTTPFSFSSKHATIEKNEISILQNLRKWANQYFSSYSVISSDMYTALNKAQAQKGDFDVVAKILQVHELDEYTNELKLKDASGQVFYTLSLKLKFPHVRTGEVVRIRSATYDETSTQKKVLILSHYSNIITFIQSSKLAKELRAKIQDDHSSLNAVVLTEVDKKHAALPSTSLQDLFHHADSDKELQAQDTFRTQFYVTKIEPSDVKEWVKGYDRKTKKSSSLKGASGKGDNIFQVQFLVKDASTQLNNNTYRVLLYTQDGLGANFFNVKADNLHKNADARKKLEDSAELLTKFNSYVDAVVERRNGFYLIKDTKLIY YEYVELAKASLTSAQPQHFYAVVIDATFPYKTNQERYICSLKIVDPTLYLKQQKGAGDASDYATLVLYAKRFEDLPIIHRAGDIIRVHRATLRLYNGQRQFNANVFYSSSWALFSTDKRSVTQEINNQDTTPFSFSSKHATIEKNEISILQNLRKWANQYFSSYSVISSDMYTALNKAQAQKGDFDVVAKILQVHELDEYTNELKLKDASGQVFYTLSLKLKFPHVRTGEVVRIRSATYDETSTQKKVLILSHYSNIITFIQSSKLAKELRAKIQDDHSSLNAVVLTEVDKKHAALPSTSLQDLFHHADSDKELQAQDTFRTQFYVTKIEPSDVKEWVKGYDRKTKKSSSLKGASGKGDNIFQVQFLVKDASTQLNNNTYRVLLYTQDGLGANFFNVKADNLHKNADARKKLEDSAELLTKFNSYVDAVVERRNGFYLIKDTKLIY 1kj4-a3-m2-cB_1kj4-a3-m4-cB SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES P03369 P03369 2.9 X-RAY DIFFRACTION 10 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1kj4-a3-m1-cB_1kj4-a3-m3-cB PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1kj4-a3-m2-cB_1kj4-a3-m4-cC SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES P03369 P03369 2.9 X-RAY DIFFRACTION 25 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1kj4-a3-m1-cB_1kj4-a3-m3-cC 1kj4-a3-m1-cC_1kj4-a3-m3-cB 1kj4-a3-m2-cC_1kj4-a3-m4-cB PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1kj4-a3-m3-cA_1kj4-a3-m4-cD SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES P03369 P03369 2.9 X-RAY DIFFRACTION 30 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1kj4-a3-m1-cA_1kj4-a3-m2-cD 1kj4-a3-m1-cD_1kj4-a3-m2-cA 1kj4-a3-m3-cD_1kj4-a3-m4-cA PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1kj4-a3-m4-cA_1kj4-a3-m4-cD SUBSTRATE SHAPE DETERMINES SPECIFICITY OF RECOGNITION RECOGNITION FOR HIV-1 PROTEASE: ANALYSIS OF CRYSTAL STRUCTURES OF SIX SUBSTRATE COMPLEXES P03369 P03369 2.9 X-RAY DIFFRACTION 15 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1kj4-a3-m1-cA_1kj4-a3-m1-cD 1kj4-a3-m1-cB_1kj4-a3-m1-cC 1kj4-a3-m2-cA_1kj4-a3-m2-cD 1kj4-a3-m2-cB_1kj4-a3-m2-cC 1kj4-a3-m3-cA_1kj4-a3-m3-cD 1kj4-a3-m3-cB_1kj4-a3-m3-cC 1kj4-a3-m4-cB_1kj4-a3-m4-cC PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1kji-a1-m1-cA_1kji-a1-m1-cB Crystal structure of glycinamide ribonucleotide transformylase in complex with Mg-AMPPCP P33221 P33221 1.6 X-RAY DIFFRACTION 161 1.0 562 (Escherichia coli) 562 (Escherichia coli) 389 389 1eyz-a1-m1-cA_1eyz-a1-m1-cB 1ez1-a1-m1-cA_1ez1-a1-m1-cB 1kj8-a1-m1-cB_1kj8-a1-m1-cA 1kj9-a1-m1-cA_1kj9-a1-m1-cB 1kjj-a1-m1-cB_1kjj-a1-m1-cA 1kjq-a1-m1-cB_1kjq-a1-m1-cA TLLGTALRPAATRVMLLGSGELGKEVAIECQRLGVEVIAVDRYADAPAMHVAHRSHVINMLDGDALRRVVELEKPHYIVPEIEAIATDMLIQLEEEGLNVVPCARATKLTMNREGIRRLAAEELQLPTSTYRFADSESLFREAVADIGYPCIVKPVMSSSGKGQTFIRSAEQLAQAWKYAQQGGRAGRVIVEGVVKFDFEITLLTVSAVDGVHFCAPVGHRQEDGDYRESWQPQQMSPLALERAQEIARKVVLALGGYGLFGVELFVCGDEVIFSEVSPRPHDTGMVTLISQDLSEFALHVRAFLGLPVGGIRQYGPAASAVILPQLTSQNVTFDNVQNAVGADLQIRLFGKPEIDGSRRLGVALATAESVVDAIERAKHAAGQVKVQG TLLGTALRPAATRVMLLGSGELGKEVAIECQRLGVEVIAVDRYADAPAMHVAHRSHVINMLDGDALRRVVELEKPHYIVPEIEAIATDMLIQLEEEGLNVVPCARATKLTMNREGIRRLAAEELQLPTSTYRFADSESLFREAVADIGYPCIVKPVMSSSGKGQTFIRSAEQLAQAWKYAQQGGRAGRVIVEGVVKFDFEITLLTVSAVDGVHFCAPVGHRQEDGDYRESWQPQQMSPLALERAQEIARKVVLALGGYGLFGVELFVCGDEVIFSEVSPRPHDTGMVTLISQDLSEFALHVRAFLGLPVGGIRQYGPAASAVILPQLTSQNVTFDNVQNAVGADLQIRLFGKPEIDGSRRLGVALATAESVVDAIERAKHAAGQVKVQG 1kjn-a1-m1-cA_1kjn-a1-m1-cB Structure of MT0777 O26871 O26871 2.2 X-RAY DIFFRACTION 90 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 148 148 TGKALVLGCPESPVQIPLAIYTSHKLKKKGFRVTVTANPAALRLVQVADPEGIYTDEVDLESCINELAEGDYEFLAGFVPNDAAAAYLVTFAGILNTETLAIIFDRDADVLEELVNEIETLDAEIIAARAHHNPAPLRVRIDRFEEKP TGKALVLGCPESPVQIPLAIYTSHKLKKKGFRVTVTANPAALRLVQVADPEGIYTDEVDLESCINELAEGDYEFLAGFVPNDAAAAYLVTFAGILNTETLAIIFDRDADVLEELVNEIETLDAEIIAARAHHNPAPLRVRIDRFEEKP 1kjy-a3-m1-cC_1kjy-a3-m2-cA Crystal Structure of Human G[alpha]i1 Bound to the GoLoco Motif of RGS14 P63096 P63096 2.7 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 320 GAREVKLLLLGAGESGKSTIVKQMKIIHEAGYSEEECKQYKAVVYSNTIQSIIAIIRAMGRLKIDFGDSARADDARQLFVLAGAAEEGFMTAELAGVIKRLWKDSGVQACFNRSREYQLNDSAAYYLNDLDRIAQPNYIPTQQDVLRTRVKTTGIVETHFTFKDLHFKMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMKLFDSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAAAYIQCQFEDLNKRKDTKEIYTHFTCATDTKNVQFVFDAVTDVIIKNN GAREVKLLLLGAGESGKSTIVKQMKIIHEAGYSEEECKQYKAVVYSNTIQSIIAIIRAMGRLKIDFGDSARADDARQLFVLAGAAEEGFMTAELAGVIKRLWKDSGVQACFNRSREYQLNDSAAYYLNDLDRIAQPNYIPTQQDVLRTRVKTTGIVETHFTFKDLHFKMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMKLFDSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAAAYIQCQFEDLNKRKDTKEIYTHFTCATDTKNVQFVFDAVTDVIIKNNLK 1kkc-a1-m1-cB_1kkc-a1-m1-cY Crystal structure of Aspergillus fumigatus MnSOD Q92450 Q92450 2 X-RAY DIFFRACTION 55 1.0 199 200 1kkc-a1-m1-cA_1kkc-a1-m1-cX QYTLPPLPYPYDALQPYISQQIMELHHKKHHQTYVNGLNAALEAQKKAAEATDVPKLVSVQQAIKFNGGGHINHSLFWKNLAPEKSGGGKIDQAPVLKAAIEQRWGSFDKFKDAFNTTLLGIQGSGWGWLVTDGPKGKLDITTTHDQDPVTGAAPVFGVDMWEHAYYLQYLNDKASYAKGIWNVINWAEAENRYIAGDK QQYTLPPLPYPYDALQPYISQQIMELHHKKHHQTYVNGLNAALEAQKKAAEATDVPKLVSVQQAIKFNGGGHINHSLFWKNLAPEKSGGGKIDQAPVLKAAIEQRWGSFDKFKDAFNTTLLGIQGSGWGWLVTDGPKGKLDITTTHDQDPVTGAAPVFGVDMWEHAYYLQYLNDKASYAKGIWNVINWAEAENRYIAGDK 1kkc-a1-m1-cX_1kkc-a1-m1-cY Crystal structure of Aspergillus fumigatus MnSOD Q92450 Q92450 2 X-RAY DIFFRACTION 52 0.995 200 200 1kkc-a1-m1-cB_1kkc-a1-m1-cA QYTLPPLPYPYDALQPYISQQIMELHHKKHHQTYVNGLNAALEAQKKAAEATDVPKLVSVQQAIKFNGGGHINHSLFWKNLAPEKSGGGKIDQAPVLKAAIEQRWGSFDKFKDAFNTTLLGIQGSGWGWLVTDGPKGKLDITTTHDQDPVTGAAPVFGVDMWEHAYYLQYLNDKASYAKGIWNVINWAEAENRYIAGDKG QQYTLPPLPYPYDALQPYISQQIMELHHKKHHQTYVNGLNAALEAQKKAAEATDVPKLVSVQQAIKFNGGGHINHSLFWKNLAPEKSGGGKIDQAPVLKAAIEQRWGSFDKFKDAFNTTLLGIQGSGWGWLVTDGPKGKLDITTTHDQDPVTGAAPVFGVDMWEHAYYLQYLNDKASYAKGIWNVINWAEAENRYIAGDK 1kkm-a1-m1-cA_1kkm-a1-m2-cA L.casei HprK/P in complex with B.subtilis P-Ser-HPr Q9RE09 Q9RE09 2.8 X-RAY DIFFRACTION 21 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 176 176 1jb1-a1-m1-cA_1jb1-a1-m5-cA 1jb1-a1-m2-cA_1jb1-a1-m4-cA 1jb1-a1-m3-cA_1jb1-a1-m6-cA 1kkl-a1-m1-cA_1kkl-a1-m2-cC 1kkl-a1-m1-cB_1kkl-a1-m2-cB 1kkl-a1-m2-cA_1kkl-a1-m1-cC 1kkm-a1-m1-cC_1kkm-a1-m2-cB 1kkm-a1-m2-cC_1kkm-a1-m1-cB 2qmh-a1-m1-cA_2qmh-a1-m1-cD 2qmh-a1-m1-cE_2qmh-a1-m1-cB 2qmh-a1-m1-cF_2qmh-a1-m1-cC 2qmh-a2-m1-cG_2qmh-a2-m1-cJ 2qmh-a2-m1-cI_2qmh-a2-m1-cL 2qmh-a2-m1-cK_2qmh-a2-m1-cH ERRSMHGVLVDIYGLGVLITGDSGVGKSETALELVQRGHRLIADDRVDVYQQDEQTIVGAAPPILSHLLEIRGLGIIDVMNLFGAGAVREDTTISLIVHLENWTPDKTFDRLGSGEQTQLIFDVPVPKITVPVKVGRNLAIIIEVAAMNFRAKSMGYDATKTFEKNLNHLIEHNEE ERRSMHGVLVDIYGLGVLITGDSGVGKSETALELVQRGHRLIADDRVDVYQQDEQTIVGAAPPILSHLLEIRGLGIIDVMNLFGAGAVREDTTISLIVHLENWTPDKTFDRLGSGEQTQLIFDVPVPKITVPVKVGRNLAIIIEVAAMNFRAKSMGYDATKTFEKNLNHLIEHNEE 1kkm-a1-m1-cA_1kkm-a1-m2-cB L.casei HprK/P in complex with B.subtilis P-Ser-HPr Q9RE09 Q9RE09 2.8 X-RAY DIFFRACTION 16 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 176 177 1jb1-a1-m1-cA_1jb1-a1-m6-cA 1jb1-a1-m2-cA_1jb1-a1-m5-cA 1jb1-a1-m3-cA_1jb1-a1-m4-cA 1kkl-a1-m1-cA_1kkl-a1-m2-cA 1kkl-a1-m1-cB_1kkl-a1-m2-cC 1kkl-a1-m2-cB_1kkl-a1-m1-cC 1kkm-a1-m1-cC_1kkm-a1-m2-cC 1kkm-a1-m2-cA_1kkm-a1-m1-cB 2qmh-a1-m1-cB_2qmh-a1-m1-cD 2qmh-a1-m1-cC_2qmh-a1-m1-cE 2qmh-a1-m1-cF_2qmh-a1-m1-cA 2qmh-a2-m1-cG_2qmh-a2-m1-cL 2qmh-a2-m1-cH_2qmh-a2-m1-cJ 2qmh-a2-m1-cI_2qmh-a2-m1-cK ERRSMHGVLVDIYGLGVLITGDSGVGKSETALELVQRGHRLIADDRVDVYQQDEQTIVGAAPPILSHLLEIRGLGIIDVMNLFGAGAVREDTTISLIVHLENWTPDKTFDRLGSGEQTQLIFDVPVPKITVPVKVGRNLAIIIEVAAMNFRAKSMGYDATKTFEKNLNHLIEHNEE ERRSMHGVLVDIYGLGVLITGDSGVGKSETALELVQRGHRLIADDRVDVYQQDEQTIVGAAPPILSHLLEIRGLGIIDVMNLFGAGAVREDTTISLIVHLENWTPDKTFDRLGSGEQTQLIFDVPVPKITVPVKVGRNLAIIIEVAAMNFRAKSMGYDATKTFEKNLNHLIEHNEET 1kkm-a1-m2-cA_1kkm-a1-m2-cB L.casei HprK/P in complex with B.subtilis P-Ser-HPr Q9RE09 Q9RE09 2.8 X-RAY DIFFRACTION 84 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 176 177 1jb1-a1-m1-cA_1jb1-a1-m2-cA 1jb1-a1-m1-cA_1jb1-a1-m3-cA 1jb1-a1-m2-cA_1jb1-a1-m3-cA 1jb1-a1-m4-cA_1jb1-a1-m5-cA 1jb1-a1-m4-cA_1jb1-a1-m6-cA 1jb1-a1-m5-cA_1jb1-a1-m6-cA 1kkl-a1-m1-cA_1kkl-a1-m1-cC 1kkl-a1-m1-cB_1kkl-a1-m1-cA 1kkl-a1-m1-cB_1kkl-a1-m1-cC 1kkl-a1-m2-cA_1kkl-a1-m2-cC 1kkl-a1-m2-cB_1kkl-a1-m2-cA 1kkl-a1-m2-cB_1kkl-a1-m2-cC 1kkm-a1-m1-cA_1kkm-a1-m1-cB 1kkm-a1-m1-cC_1kkm-a1-m1-cA 1kkm-a1-m1-cC_1kkm-a1-m1-cB 1kkm-a1-m2-cC_1kkm-a1-m2-cA 1kkm-a1-m2-cC_1kkm-a1-m2-cB 2qmh-a1-m1-cA_2qmh-a1-m1-cB 2qmh-a1-m1-cA_2qmh-a1-m1-cC 2qmh-a1-m1-cC_2qmh-a1-m1-cB 2qmh-a1-m1-cE_2qmh-a1-m1-cD 2qmh-a1-m1-cF_2qmh-a1-m1-cD 2qmh-a1-m1-cF_2qmh-a1-m1-cE 2qmh-a2-m1-cG_2qmh-a2-m1-cH 2qmh-a2-m1-cG_2qmh-a2-m1-cI 2qmh-a2-m1-cI_2qmh-a2-m1-cH 2qmh-a2-m1-cK_2qmh-a2-m1-cJ 2qmh-a2-m1-cL_2qmh-a2-m1-cJ 2qmh-a2-m1-cL_2qmh-a2-m1-cK ERRSMHGVLVDIYGLGVLITGDSGVGKSETALELVQRGHRLIADDRVDVYQQDEQTIVGAAPPILSHLLEIRGLGIIDVMNLFGAGAVREDTTISLIVHLENWTPDKTFDRLGSGEQTQLIFDVPVPKITVPVKVGRNLAIIIEVAAMNFRAKSMGYDATKTFEKNLNHLIEHNEE ERRSMHGVLVDIYGLGVLITGDSGVGKSETALELVQRGHRLIADDRVDVYQQDEQTIVGAAPPILSHLLEIRGLGIIDVMNLFGAGAVREDTTISLIVHLENWTPDKTFDRLGSGEQTQLIFDVPVPKITVPVKVGRNLAIIIEVAAMNFRAKSMGYDATKTFEKNLNHLIEHNEET 1kko-a1-m1-cA_1kko-a1-m1-cB CRYSTAL STRUCTURE OF CITROBACTER AMALONATICUS METHYLASPARTATE AMMONIA LYASE O66145 O66145 1.33 X-RAY DIFFRACTION 148 1.0 35703 (Citrobacter amalonaticus) 35703 (Citrobacter amalonaticus) 401 401 1kkr-a1-m1-cA_1kkr-a1-m1-cB KIKQALFTAGYSSFYFDDQQAIKNGAGHDGFIYTGDPVTPGFTSVRQAGECVSVQLILENGAVAVGDCAAVQYSGAGGRDPLFLAEHFIPFLNDHIKPLLEGRDVDAFLPNARFFDKLRIDGNLLHTAVRYGLSQALLDATALASGRLKTEVVCDEWQLPCVPEAIPLFGQSGDDRYIAVDKILKGVDVLPHALINNVEEKLGFKGEKLREYVRWLSDRILSLRSSPRYHPTLHIDVYGTIGLIFDDPVRCAEYIASLEKEAQGLPLYIEGPVDAGNKPDQIRLTAITKELTRLGSGVKIVADEWCNTYQDIVDFTDAGSCHVQIKTPDLGGIHNIVDAVLYCNKHGEAYQGGTCNETEISARTCVHVALAARPRLIKPGGFDEGLNIVFNENRTIALLQT KIKQALFTAGYSSFYFDDQQAIKNGAGHDGFIYTGDPVTPGFTSVRQAGECVSVQLILENGAVAVGDCAAVQYSGAGGRDPLFLAEHFIPFLNDHIKPLLEGRDVDAFLPNARFFDKLRIDGNLLHTAVRYGLSQALLDATALASGRLKTEVVCDEWQLPCVPEAIPLFGQSGDDRYIAVDKILKGVDVLPHALINNVEEKLGFKGEKLREYVRWLSDRILSLRSSPRYHPTLHIDVYGTIGLIFDDPVRCAEYIASLEKEAQGLPLYIEGPVDAGNKPDQIRLTAITKELTRLGSGVKIVADEWCNTYQDIVDFTDAGSCHVQIKTPDLGGIHNIVDAVLYCNKHGEAYQGGTCNETEISARTCVHVALAARPRLIKPGGFDEGLNIVFNENRTIALLQT 1kl9-a2-m1-cA_1kl9-a2-m2-cA Crystal structure of the N-terminal segment of Human eukaryotic initiation factor 2alpha P05198 P05198 1.9 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 LSCRFYQHKFPEVEDVVVNVRSIAEGAYVSLLEYNNIEGILLSELRIGRNECVVVIRVDKEKGYIDLSKRRVSPEEAIKCEDKFTKSKTVYSILRHVAEVLEYTKDEQLESLFQRTAWVFDDKYKRPGYGAYDAFKHAVSDPSILDSLDLNEDEREVLINNINRR LSCRFYQHKFPEVEDVVVNVRSIAEGAYVSLLEYNNIEGILLSELRIGRNECVVVIRVDKEKGYIDLSKRRVSPEEAIKCEDKFTKSKTVYSILRHVAEVLEYTKDEQLESLFQRTAWVFDDKYKRPGYGAYDAFKHAVSDPSILDSLDLNEDEREVLINNINRR 1kl9-a3-m1-cA_1kl9-a3-m3-cA Crystal structure of the N-terminal segment of Human eukaryotic initiation factor 2alpha P05198 P05198 1.9 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 LSCRFYQHKFPEVEDVVVNVRSIAEGAYVSLLEYNNIEGILLSELRIGRNECVVVIRVDKEKGYIDLSKRRVSPEEAIKCEDKFTKSKTVYSILRHVAEVLEYTKDEQLESLFQRTAWVFDDKYKRPGYGAYDAFKHAVSDPSILDSLDLNEDEREVLINNINRR LSCRFYQHKFPEVEDVVVNVRSIAEGAYVSLLEYNNIEGILLSELRIGRNECVVVIRVDKEKGYIDLSKRRVSPEEAIKCEDKFTKSKTVYSILRHVAEVLEYTKDEQLESLFQRTAWVFDDKYKRPGYGAYDAFKHAVSDPSILDSLDLNEDEREVLINNINRR 1klo-a1-m1-cA_1klo-a1-m4-cA CRYSTAL STRUCTURE OF THREE CONSECUTIVE LAMININ-TYPE EPIDERMAL GROWTH FACTOR-LIKE (LE) MODULES OF LAMININ GAMMA1 CHAIN HARBORING THE NIDOGEN BINDING SITE P02468 P02468 2.1 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 162 162 1klo-a1-m2-cA_1klo-a1-m3-cA CPCPGGSSCAIVPKTKEVVCTHCPTGTAGKRCELCDDGYFGDPLGSNGPVRLCRPCQCNDNIDPNAVGNCNRLTGECLKCIYNTAGFYCDRCKEGFFGNPLAPNPADKCKACACNPYGTVQQQSSCNPVTGQCQCLPHVSGRDCGTCDPGYYNLQSGQGCER CPCPGGSSCAIVPKTKEVVCTHCPTGTAGKRCELCDDGYFGDPLGSNGPVRLCRPCQCNDNIDPNAVGNCNRLTGECLKCIYNTAGFYCDRCKEGFFGNPLAPNPADKCKACACNPYGTVQQQSSCNPVTGQCQCLPHVSGRDCGTCDPGYYNLQSGQGCER 1klo-a1-m2-cA_1klo-a1-m4-cA CRYSTAL STRUCTURE OF THREE CONSECUTIVE LAMININ-TYPE EPIDERMAL GROWTH FACTOR-LIKE (LE) MODULES OF LAMININ GAMMA1 CHAIN HARBORING THE NIDOGEN BINDING SITE P02468 P02468 2.1 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 162 162 1klo-a1-m1-cA_1klo-a1-m3-cA CPCPGGSSCAIVPKTKEVVCTHCPTGTAGKRCELCDDGYFGDPLGSNGPVRLCRPCQCNDNIDPNAVGNCNRLTGECLKCIYNTAGFYCDRCKEGFFGNPLAPNPADKCKACACNPYGTVQQQSSCNPVTGQCQCLPHVSGRDCGTCDPGYYNLQSGQGCER CPCPGGSSCAIVPKTKEVVCTHCPTGTAGKRCELCDDGYFGDPLGSNGPVRLCRPCQCNDNIDPNAVGNCNRLTGECLKCIYNTAGFYCDRCKEGFFGNPLAPNPADKCKACACNPYGTVQQQSSCNPVTGQCQCLPHVSGRDCGTCDPGYYNLQSGQGCER 1kmi-a1-m1-cZ_1kmi-a1-m2-cZ CRYSTAL STRUCTURE OF AN E.COLI CHEMOTAXIS PROTEIN, CHEZ P0A9H9 P0A9H9 2.9 X-RAY DIFFRACTION 198 1.0 562 (Escherichia coli) 562 (Escherichia coli) 177 177 SIKPADEHSAGDIIARIGSLTRMLRDSLRELGLDQAIAEAAEAIPDARDRLYYVVQMTAQAAERALNSVEASQPHQDQMEKSAKALTQRWDDWFADPIDLADARELVTDTRQFLADVPAHTSFTNAQLLKIMMAQDFQDLTGQVIKRMMDVIQEIERQLLMVLLSQDQVDDLLDSLG SIKPADEHSAGDIIARIGSLTRMLRDSLRELGLDQAIAEAAEAIPDARDRLYYVVQMTAQAAERALNSVEASQPHQDQMEKSAKALTQRWDDWFADPIDLADARELVTDTRQFLADVPAHTSFTNAQLLKIMMAQDFQDLTGQVIKRMMDVIQEIERQLLMVLLSQDQVDDLLDSLG 1kmz-a1-m1-cA_1kmz-a1-m2-cA MOLECULAR BASIS OF MITOMYCIN C RESICTANCE IN STREPTOMYCES: CRYSTAL STRUCTURES OF THE MRD PROTEIN WITH AND WITHOUT A DRUG DERIVATIVE O05205 O05205 1.5 X-RAY DIFFRACTION 13 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 125 125 ARISLFAVVVEDMAKSLEFYRKLGVEIPAEADSAPHTEAVLDGGIRLAWDTVETVRSYDPEWQAGHRFAIAFEFPDTASVDKKYAELVDAGYEGHLKPWNAVWGQRYAIVKDPDGNVVDLFAPLP ARISLFAVVVEDMAKSLEFYRKLGVEIPAEADSAPHTEAVLDGGIRLAWDTVETVRSYDPEWQAGHRFAIAFEFPDTASVDKKYAELVDAGYEGHLKPWNAVWGQRYAIVKDPDGNVVDLFAPLP 1kmz-a2-m1-cA_1kmz-a2-m3-cA MOLECULAR BASIS OF MITOMYCIN C RESICTANCE IN STREPTOMYCES: CRYSTAL STRUCTURES OF THE MRD PROTEIN WITH AND WITHOUT A DRUG DERIVATIVE O05205 O05205 1.5 X-RAY DIFFRACTION 96 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 125 125 ARISLFAVVVEDMAKSLEFYRKLGVEIPAEADSAPHTEAVLDGGIRLAWDTVETVRSYDPEWQAGHRFAIAFEFPDTASVDKKYAELVDAGYEGHLKPWNAVWGQRYAIVKDPDGNVVDLFAPLP ARISLFAVVVEDMAKSLEFYRKLGVEIPAEADSAPHTEAVLDGGIRLAWDTVETVRSYDPEWQAGHRFAIAFEFPDTASVDKKYAELVDAGYEGHLKPWNAVWGQRYAIVKDPDGNVVDLFAPLP 1kn1-a1-m1-cA_1kn1-a1-m6-cA Crystal structure of allophycocyanin P59856 P59856 2.2 X-RAY DIFFRACTION 24 1.0 2788 (Neopyropia yezoensis) 2788 (Neopyropia yezoensis) 160 160 1kn1-a1-m2-cA_1kn1-a1-m5-cA 1kn1-a1-m3-cA_1kn1-a1-m4-cA SIVTKSIVNADAEARYLSPGELDRIKSFVLSGARRVRIAQTLTENRERIVKQAGDQLFQKRPDVVSPGGNAYGEEMTATCLRDLDYYLRLVTYGIVSGDVTPIEEIGLVGVREMYKSLGTPISAVAEGVKCMKSVASSLLSGEDSAEAGFYFDYVVGAMQ SIVTKSIVNADAEARYLSPGELDRIKSFVLSGARRVRIAQTLTENRERIVKQAGDQLFQKRPDVVSPGGNAYGEEMTATCLRDLDYYLRLVTYGIVSGDVTPIEEIGLVGVREMYKSLGTPISAVAEGVKCMKSVASSLLSGEDSAEAGFYFDYVVGAMQ 1kn1-a1-m2-cA_1kn1-a1-m6-cA Crystal structure of allophycocyanin P59856 P59856 2.2 X-RAY DIFFRACTION 50 1.0 2788 (Neopyropia yezoensis) 2788 (Neopyropia yezoensis) 160 160 1kn1-a1-m1-cA_1kn1-a1-m4-cA 1kn1-a1-m3-cA_1kn1-a1-m5-cA SIVTKSIVNADAEARYLSPGELDRIKSFVLSGARRVRIAQTLTENRERIVKQAGDQLFQKRPDVVSPGGNAYGEEMTATCLRDLDYYLRLVTYGIVSGDVTPIEEIGLVGVREMYKSLGTPISAVAEGVKCMKSVASSLLSGEDSAEAGFYFDYVVGAMQ SIVTKSIVNADAEARYLSPGELDRIKSFVLSGARRVRIAQTLTENRERIVKQAGDQLFQKRPDVVSPGGNAYGEEMTATCLRDLDYYLRLVTYGIVSGDVTPIEEIGLVGVREMYKSLGTPISAVAEGVKCMKSVASSLLSGEDSAEAGFYFDYVVGAMQ 1knb-a1-m2-cA_1knb-a1-m3-cA CRYSTAL STRUCTURE OF THE RECEPTOR-BINDING DOMAIN OF ADENOVIRUS TYPE 5 FIBER PROTEIN AT 1.7 ANGSTROMS RESOLUTION P11818 P11818 1.7 X-RAY DIFFRACTION 81 1.0 28285 (Human adenovirus 5) 28285 (Human adenovirus 5) 186 186 1knb-a1-m1-cA_1knb-a1-m2-cA 1knb-a1-m1-cA_1knb-a1-m3-cA 4atz-a1-m1-cB_4atz-a1-m1-cA 4atz-a1-m1-cB_4atz-a1-m1-cC 4atz-a1-m1-cC_4atz-a1-m1-cA 6hcn-a1-m1-cA_6hcn-a1-m1-cB 6hcn-a1-m1-cA_6hcn-a1-m1-cC 6hcn-a1-m1-cC_6hcn-a1-m1-cB NDKLTLWTTPAPSPNCRLNAEKDAKLTLVLTKCGSQILATVSVLAVKGSLAPISGTVQSAHLIIRFDENGVLLNNSFLDPEYWNFRNGDLTEGTAYTNAVGFMPNLSAYPKSHGKTAKSNIVSQVYLNGDKTKPVTLTITLNGTQETGDTTPSAYSMSFSWDWSGHNYINEIFATSSYTFSYIAQE NDKLTLWTTPAPSPNCRLNAEKDAKLTLVLTKCGSQILATVSVLAVKGSLAPISGTVQSAHLIIRFDENGVLLNNSFLDPEYWNFRNGDLTEGTAYTNAVGFMPNLSAYPKSHGKTAKSNIVSQVYLNGDKTKPVTLTITLNGTQETGDTTPSAYSMSFSWDWSGHNYINEIFATSSYTFSYIAQE 1knw-a1-m1-cA_1knw-a1-m2-cA Crystal structure of diaminopimelate decarboxylase P00861 P00861 2.1 X-RAY DIFFRACTION 292 1.0 562 (Escherichia coli) 562 (Escherichia coli) 421 421 1ko0-a1-m1-cA_1ko0-a1-m2-cA PHSLFSTDTDLTAENLLRLPAEFGCPVWVYDAQIIRRQIAALKQFDVVRFAQKACSNIHILRLMREQGVKVDSVSLGEIERALAAGYNPQTHPDDIVFTADVIDQATLERVSELQIPVNAGSVDMLDQLGQVSPGHRVWLRVNPGFGHGHSQKTNTGGENSKHGIWYTDLPAALDVIQRHHLQLVGIHMHIGSGVDYAHLEQVCGAMVRQVIEFGQDLQAISAGGGLSVPYQQGEEAVDTEHYYGLWNAAREQIARHLGHPVKLEIEPGRFLVAQSGVLITQVRSVKQMGSRHFVLVDAGFNDLMRPAMYGSYHHISALAADGRSLEHAPTVETVVAGPLCESGDVFTQQEGGNVETRALPEVKAGDYLVLHDTGAYGASMSSNYNSRPLLPEVLFDNGQARLIRRRQTIEELLALELLHH PHSLFSTDTDLTAENLLRLPAEFGCPVWVYDAQIIRRQIAALKQFDVVRFAQKACSNIHILRLMREQGVKVDSVSLGEIERALAAGYNPQTHPDDIVFTADVIDQATLERVSELQIPVNAGSVDMLDQLGQVSPGHRVWLRVNPGFGHGHSQKTNTGGENSKHGIWYTDLPAALDVIQRHHLQLVGIHMHIGSGVDYAHLEQVCGAMVRQVIEFGQDLQAISAGGGLSVPYQQGEEAVDTEHYYGLWNAAREQIARHLGHPVKLEIEPGRFLVAQSGVLITQVRSVKQMGSRHFVLVDAGFNDLMRPAMYGSYHHISALAADGRSLEHAPTVETVVAGPLCESGDVFTQQEGGNVETRALPEVKAGDYLVLHDTGAYGASMSSNYNSRPLLPEVLFDNGQARLIRRRQTIEELLALELLHH 1knx-a1-m1-cD_1knx-a1-m1-cE HPr kinase/phosphatase from Mycoplasma pneumoniae P75548 P75548 2.5 X-RAY DIFFRACTION 96 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 304 310 1knx-a1-m1-cA_1knx-a1-m1-cF 1knx-a1-m1-cB_1knx-a1-m1-cD 1knx-a1-m1-cB_1knx-a1-m1-cE 1knx-a1-m1-cC_1knx-a1-m1-cA 1knx-a1-m1-cC_1knx-a1-m1-cF MKKLLVKELIEQFQDCVNLIDGHTNTSNVIRVPGLKRVVFEMLGLFSSQIGSVAILGKREFGFLSQKTLVEQQQILHNLLKLNPPAIILTKSFTDPTVLLQVNQTYQVPILKTDFFSTELSFTVETYINEQFATVAQIHGVLLEVFGVGVLLTGRSGIGKSECALDLINKNHLFVGDDAIEIYRLGNRLFGRAQEVAKKFMEIRGLGIINVERFYGLQITKQRTEIQLMVNLLSLETVTFERLGTELKKQRLLGVDLSFYEIPISPGRKTSEIIESAVIDFKLKHSGYNSALDFIENQKAILKR MKKLLVKELIEQFQDCVNLIDGHTNTSNVIRVPGLKRVVFEMLGLFSSQIGSVAILGKREFGFLSQKTLVEQQQILHNLLKLNPPAIILTKSFTDPTVLLQVNQTYQVPILKTDFFSTELSFTVETYINEQFATVAQIHGVLLEVFGVGVLLTGRSGIGKSECALDLINKNHLFVGDDAIEIYRLGNRLFGRAQEVAKKFMEIRGLGIINVERFYGLQITKQRTEIQLMVNLLSLEKQTVTFERLGTELKKQRLLGVDLSFYEIPISPGRKTSEIIESAVIDFKLKHSGYNSALDFIENQKAILKRKKDE 1knx-a1-m1-cF_1knx-a1-m1-cE HPr kinase/phosphatase from Mycoplasma pneumoniae P75548 P75548 2.5 X-RAY DIFFRACTION 122 0.997 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 306 310 1knx-a1-m1-cA_1knx-a1-m1-cB 1knx-a1-m1-cC_1knx-a1-m1-cD MKKLLVKELIEQFQDCVNLIDGHTNTSNVIRVPGLKRVVFEMLGLFSSQIGSVAILGKREFGFLSQKTLVEQQQILHNLLKLNPPAIILTKSFTDPTVLLQVNQTYQVPILKTDFFSTELSFTVETYINEQFATVAQIHGVLLEVFGVGVLLTGRSGIGKSECALDLINKNHLFVGDDAIEIYRLGNRLFGRAQEVAKKFMEIRGLGIINVERFYGLQITKQRTEIQLMVNLLSLEKTTVTFERLGTELKKQRLLGVDLSFYEIPISPGRKTSEIIESAVIDFKLKHSGYNSALDFIENQKAILKR MKKLLVKELIEQFQDCVNLIDGHTNTSNVIRVPGLKRVVFEMLGLFSSQIGSVAILGKREFGFLSQKTLVEQQQILHNLLKLNPPAIILTKSFTDPTVLLQVNQTYQVPILKTDFFSTELSFTVETYINEQFATVAQIHGVLLEVFGVGVLLTGRSGIGKSECALDLINKNHLFVGDDAIEIYRLGNRLFGRAQEVAKKFMEIRGLGIINVERFYGLQITKQRTEIQLMVNLLSLEKQTVTFERLGTELKKQRLLGVDLSFYEIPISPGRKTSEIIESAVIDFKLKHSGYNSALDFIENQKAILKRKKDE 1ko6-a1-m1-cC_1ko6-a1-m1-cA Crystal Structure of C-terminal Autoproteolytic Domain of Nucleoporin Nup98 P52948 P52948 3 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 152 HPAGIILTKVGYYTIPSMDDLAKITNECIVSDFTIGRKGYGSIYFEGDVNLTNLNLDDIVHIRRKEVVVYLDDNQKPPVGEGLNRKAEVTLDGVWPTDKTSRCLIKSPDRLADINYEGRLEAVSRKQGAQFKEYRPETGSWVFKVSHF MHPAGIILTKVGYYTIPSMDDLAKITNEKGECIVSDFTIGRKGYGSIYFEGDVNLTNLNLDDIVHIRRKEVVVYLDDNQKPPVGEGLNRKAEVTLDGVWPTDKTSRCLIKSPDRLADINYEGRLEAVSRKQGAQFKEYRPETGSWVFKVSHF 1ko7-a2-m2-cA_1ko7-a2-m3-cA X-ray structure of the HPr kinase/phosphatase from Staphylococcus xylosus at 1.95 A resolution Q9S1H5 Q9S1H5 1.95 X-RAY DIFFRACTION 68 1.0 1288 (Staphylococcus xylosus) 1288 (Staphylococcus xylosus) 285 285 1ko7-a1-m1-cB_1ko7-a1-m2-cB 1ko7-a1-m1-cB_1ko7-a1-m3-cB 1ko7-a1-m2-cB_1ko7-a1-m3-cB 1ko7-a2-m1-cA_1ko7-a2-m2-cA 1ko7-a2-m1-cA_1ko7-a2-m3-cA MLTTKSLVERFELEMIAGEAGLNKQIKNTDISRPGLEMAGYFSHYASDRIQLLGTTELSFYNLLPDEERKGRMRKLCRPETPAIIVTRDLEPPEELIEAAKEHETPLITSKIATTQLMSRLTTFLEHELARTTSLHGVLVDVYGVGVLITGDSGIGKSETALELIKRGHRLVADDNVEIREISKDELIGRAPKLIEHLLEIRGLGIINVMTLFGAGSILTEKRLRLNIHLENEETLRILDTEITKKTIPVRPGRNVAVIIEVAAMNYRLNIMGINTAEEFNDRLN MLTTKSLVERFELEMIAGEAGLNKQIKNTDISRPGLEMAGYFSHYASDRIQLLGTTELSFYNLLPDEERKGRMRKLCRPETPAIIVTRDLEPPEELIEAAKEHETPLITSKIATTQLMSRLTTFLEHELARTTSLHGVLVDVYGVGVLITGDSGIGKSETALELIKRGHRLVADDNVEIREISKDELIGRAPKLIEHLLEIRGLGIINVMTLFGAGSILTEKRLRLNIHLENEETLRILDTEITKKTIPVRPGRNVAVIIEVAAMNYRLNIMGINTAEEFNDRLN 1koa-a1-m1-cA_1koa-a1-m2-cA TWITCHIN KINASE FRAGMENT (C.ELEGANS), AUTOREGULATED PROTEIN KINASE AND IMMUNOGLOBULIN DOMAINS Q23551 Q23551 3.3 X-RAY DIFFRACTION 95 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 447 447 YDNYVFDIWKQYYPQPVEIKHDHVLDHYDIHEELGTGAFGVVHRVTERATGNNFAAKFVMTPHESDKETVRKEIQTMSVLRHPTLVNLHDAFEDDNEMVMIYEFMSGGELFEKVADEHNKMSEDEAVEYMRQVCKGLCHMHENNYVHLDLKPENIMFTTKRSNELKLIDFGLTAHLDPKQSVKVTTGTAEFAAPEVAEGKPVGYYTDMWSVGVLSYILLSGLSPFGGENDDETLRNVKSCDWNMDDSAFSGISEDGKDFIRKLLLADPNTRMTIHQALEHPWLTPGNAPGRDSQIPSSRYTKIRDSIKTKYDAWPEPLPPLGRISNYSSLRKHRPQEYSIRDAFWDRSEAQPRFIVKPYGTEVGEGQSANFYCRVIASSPPVVTWHKDDRELKQSVKYMKRYNGNDYGLTINRVKGDDKGEYTVRAKNSYGTKEEIVFLNVTRHSEP YDNYVFDIWKQYYPQPVEIKHDHVLDHYDIHEELGTGAFGVVHRVTERATGNNFAAKFVMTPHESDKETVRKEIQTMSVLRHPTLVNLHDAFEDDNEMVMIYEFMSGGELFEKVADEHNKMSEDEAVEYMRQVCKGLCHMHENNYVHLDLKPENIMFTTKRSNELKLIDFGLTAHLDPKQSVKVTTGTAEFAAPEVAEGKPVGYYTDMWSVGVLSYILLSGLSPFGGENDDETLRNVKSCDWNMDDSAFSGISEDGKDFIRKLLLADPNTRMTIHQALEHPWLTPGNAPGRDSQIPSSRYTKIRDSIKTKYDAWPEPLPPLGRISNYSSLRKHRPQEYSIRDAFWDRSEAQPRFIVKPYGTEVGEGQSANFYCRVIASSPPVVTWHKDDRELKQSVKYMKRYNGNDYGLTINRVKGDDKGEYTVRAKNSYGTKEEIVFLNVTRHSEP 1kob-a1-m1-cA_1kob-a1-m1-cB TWITCHIN KINASE FRAGMENT (APLYSIA), AUTOREGULATED PROTEIN KINASE DOMAIN Q16980 Q16980 2.3 X-RAY DIFFRACTION 48 1.0 6500 (Aplysia californica) 6500 (Aplysia californica) 352 352 INDYDKFYEDIWKKYVPQPVEVKQGSVYDYYDILEELGSGAFGVVHRCVEKATGRVFVAKFINTPYPLDKYTVKNEISIMNQLHHPKLINLHDAFEDKYEMVLILEFLSGGELFDRIAAEDYKMSEAEVINYMRQACEGLKHMHEHSIVHLDIKPENIMCETKKASSVKIIDFGLATKLNPDEIVKVTTATAEFAAPEIVDREPVGFYTDMWAIGVLGYVLLSGLSPFAGEDDLETLQNVKRCDWEFDEDAFSSVSPEAKDFIKNLLQKEPRKRLTVHDALEHPWLKGDHSNLTSRIPSSRYNKIRQKIKEKYADWPAPQPAIGRIANFSSLRKHRPQEYQIYDSYFDRKEA INDYDKFYEDIWKKYVPQPVEVKQGSVYDYYDILEELGSGAFGVVHRCVEKATGRVFVAKFINTPYPLDKYTVKNEISIMNQLHHPKLINLHDAFEDKYEMVLILEFLSGGELFDRIAAEDYKMSEAEVINYMRQACEGLKHMHEHSIVHLDIKPENIMCETKKASSVKIIDFGLATKLNPDEIVKVTTATAEFAAPEIVDREPVGFYTDMWAIGVLGYVLLSGLSPFAGEDDLETLQNVKRCDWEFDEDAFSSVSPEAKDFIKNLLQKEPRKRLTVHDALEHPWLKGDHSNLTSRIPSSRYNKIRQKIKEKYADWPAPQPAIGRIANFSSLRKHRPQEYQIYDSYFDRKEA 1kof-a1-m1-cA_1kof-a1-m1-cB Crystal structure of gluconate kinase P46859 P46859 2.8 X-RAY DIFFRACTION 55 1.0 562 (Escherichia coli) 562 (Escherichia coli) 171 171 1knq-a1-m1-cA_1knq-a1-m1-cB 1ko4-a1-m1-cA_1ko4-a1-m1-cB 1ko5-a1-m1-cA_1ko5-a1-m1-cB 1ko8-a1-m1-cB_1ko8-a1-m1-cA TTNHDHHIYVLMGVSGSGKSAVASEVAHQLHAAFLDGDFLHPRRNIEKMASGEPLNDDDRKPWLQALNDAAFAMQRTNKVSLIVCSALKKHYRDLLREGNPNLSFIYLKGDFDVIESRLKARKGHFFKTQMLVTQFETLQEPGADETDVLVVDIDQPLEGVVASTIEVIKK TTNHDHHIYVLMGVSGSGKSAVASEVAHQLHAAFLDGDFLHPRRNIEKMASGEPLNDDDRKPWLQALNDAAFAMQRTNKVSLIVCSALKKHYRDLLREGNPNLSFIYLKGDFDVIESRLKARKGHFFKTQMLVTQFETLQEPGADETDVLVVDIDQPLEGVVASTIEVIKK 1kol-a1-m1-cA_1kol-a1-m2-cB Crystal structure of formaldehyde dehydrogenase P46154 P46154 1.65 X-RAY DIFFRACTION 39 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 396 396 1kol-a1-m1-cB_1kol-a1-m2-cA GNRGVVYLGSGKVEVQKIDYPKMQDPRGKKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGRDVENLQIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDLNPARLAHAKAQGFEIADLSLDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHEGAKHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGSLSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPRGYGEFDAGVPKKFVIDPHKTFSA GNRGVVYLGSGKVEVQKIDYPKMQDPRGKKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGRDVENLQIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDLNPARLAHAKAQGFEIADLSLDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHEGAKHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGSLSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPRGYGEFDAGVPKKFVIDPHKTFSA 1kol-a1-m1-cB_1kol-a1-m2-cB Crystal structure of formaldehyde dehydrogenase P46154 P46154 1.65 X-RAY DIFFRACTION 138 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 396 396 1kol-a1-m1-cA_1kol-a1-m2-cA GNRGVVYLGSGKVEVQKIDYPKMQDPRGKKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGRDVENLQIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDLNPARLAHAKAQGFEIADLSLDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHEGAKHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGSLSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPRGYGEFDAGVPKKFVIDPHKTFSA GNRGVVYLGSGKVEVQKIDYPKMQDPRGKKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGRDVENLQIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDLNPARLAHAKAQGFEIADLSLDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHEGAKHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGSLSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPRGYGEFDAGVPKKFVIDPHKTFSA 1kol-a1-m2-cA_1kol-a1-m2-cB Crystal structure of formaldehyde dehydrogenase P46154 P46154 1.65 X-RAY DIFFRACTION 64 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 396 396 1kol-a1-m1-cA_1kol-a1-m1-cB GNRGVVYLGSGKVEVQKIDYPKMQDPRGKKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGRDVENLQIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDLNPARLAHAKAQGFEIADLSLDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHEGAKHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGSLSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPRGYGEFDAGVPKKFVIDPHKTFSA GNRGVVYLGSGKVEVQKIDYPKMQDPRGKKIEHGVILKVVSTNICGSDQHMVRGRTTAQVGLVLGHEITGEVIEKGRDVENLQIGDLVSVPFNVACGRCRSCKEMHTGVCLTVNPARAGGAYGYVDMGDWTGGQAEYVLVPYADFNLLKLPDRDKAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYVAGAGPVGLAAAASARLLGAAVVIVGDLNPARLAHAKAQGFEIADLSLDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHEGAKHEAPATVLNSLMQVTRVAGKIGIPGLYVTEDPGAVDAAAKIGSLSIRFGLGWAKSHSFHTGQTPVMKYNRALMQAIMWDRINIAEVVGVQVISLDDAPRGYGEFDAGVPKKFVIDPHKTFSA 1koq-a1-m1-cB_1koq-a1-m1-cA NEISSERIA GONORRHOEAE CARBONIC ANHYDRASE Q50940 Q50940 1.9 X-RAY DIFFRACTION 16 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 221 222 1kop-a1-m1-cA_1kop-a1-m1-cB HWGYTGHDSPESWGNLSEEFRLCSTGKNQSPVNITETVSGKLPAIKVNYKPSMVDVENNGHTIQVNYPEGGNTLTVNGRTYTLKQFHFHVPSENQIKGRTFPMEAHFVHLDENKQPLVLAVLYEAGKTNGRLSSIWNVMPMTAGKVKLNQPFDASTLLPKRLKYYRFAGSLTTPPCTEGVSWLVLKTYDHIDQAQAEKFTRAVGSENNRPVQPLNARVVIE THWGYTGHDSPESWGNLSEEFRLCSTGKNQSPVNITETVSGKLPAIKVNYKPSMVDVENNGHTIQVNYPEGGNTLTVNGRTYTLKQFHFHVPSENQIKGRTFPMEAHFVHLDENKQPLVLAVLYEAGKTNGRLSSIWNVMPMTAGKVKLNQPFDASTLLPKRLKYYRFAGSLTTPPCTEGVSWLVLKTYDHIDQAQAEKFTRAVGSENNRPVQPLNARVVIE 1kp0-a1-m1-cA_1kp0-a1-m1-cB The Crystal Structure Analysis of Creatine Amidinohydrolase from Actinobacillus Q7SIB5 Q7SIB5 2.7 X-RAY DIFFRACTION 223 1.0 713 (Actinobacillus) 713 (Actinobacillus) 402 402 AAMIZTZKYHNGZKKYTPFSZAEMTRRZBRLRAWMAKSBIDAVLFTSYHNINYYSGWLYCYFGRKYAZVIBZVKAVTISKGIDGGMPWRRSFGBNIVYTDWKRDNFYSAVKKLVKGAKZIGIEHDHVTLBHRRZLZKALPGTEFVDVGZPVMWZRVIKSSEEZBLIRZGARISDIGGAATAAAISAGVPEYEVAIATTBAMVRZIARBFPYVELMDTWIWFQSGINTDGAHNPVTBRVVZRGDILSLNCFPMIFGYYTALERTLFLZZVBDASLZIWZKNTAVHRRGLZLIKPGARCKDIASELNBMYRZWDLLRYRTFGYGHSFGVLBHYYGREAGVELREDIZTVLEPGMVVSMEPMVMBPEGEPGAGGYREHDILVIKENBTENITGFPFGPEHNIIKA AAMIZTZKYHNGZKKYTPFSZAEMTRRZBRLRAWMAKSBIDAVLFTSYHNINYYSGWLYCYFGRKYAZVIBZVKAVTISKGIDGGMPWRRSFGBNIVYTDWKRDNFYSAVKKLVKGAKZIGIEHDHVTLBHRRZLZKALPGTEFVDVGZPVMWZRVIKSSEEZBLIRZGARISDIGGAATAAAISAGVPEYEVAIATTBAMVRZIARBFPYVELMDTWIWFQSGINTDGAHNPVTBRVVZRGDILSLNCFPMIFGYYTALERTLFLZZVBDASLZIWZKNTAVHRRGLZLIKPGARCKDIASELNBMYRZWDLLRYRTFGYGHSFGVLBHYYGREAGVELREDIZTVLEPGMVVSMEPMVMBPEGEPGAGGYREHDILVIKENBTENITGFPFGPEHNIIKA 1kpl-a2-m1-cC_1kpl-a2-m1-cD Crystal Structure of the ClC Chloride Channel from S. typhimurium Q8ZRP8 Q8ZRP8 3 X-RAY DIFFRACTION 135 1.0 430 451 1kpl-a1-m1-cA_1kpl-a1-m1-cB TPLAILFMAAVVGTLTGLVGVAFEKAVSWVQNMRIGALVQVADHAFLLWPLAFILSALLAMVGYFLVRKFAPEAGGSGIPEIEGALEELRPVRWWRVLPVKFIGGMGTLGAGMVLGREGPTVQIGGNLGRMVLDVFRMRSAEARHTLLATGAAAGLSAAFNAPLAGILFIIEEMRPQFRYNLISIKAVFTGVIMSSIVFRIFNGEAPIIEVGKLSDAPVNTLWLYLILGIIFGVVGPVFNSLVLRTQDMFQRFHGGEIKKWVLMGGAIGGLCGILGLIEPAAAGGGFNLIPIAAAGNFSVGLLLFIFITRVVTTLLCFSSGAPGGIFAPMLALGTLLGTAFGMAAAVLFPQYHLEAGTFAIAGMGALMAASVRAPLTGIVLVLEMTDNYQLILPMIITCLGATLLAQFLGGKPLYSTILARTLAKQDAEQ QIVRLRRRDQIRRLLQRDKTPLAILFMAAVVGTLTGLVGVAFEKAVSWVQNMRIGALVQVADHAFLLWPLAFILSALLAMVGYFLVRKFAPEAGGSGIPEIEGALEELRPVRWWRVLPVKFIGGMGTLGAGMVLGREGPTVQIGGNLGRMVLDVFRMRSAEARHTLLATGAAAGLSAAFNAPLAGILFIIEEMRPQFRYNLISIKAVFTGVIMSSIVFRIFNGEAPIIEVGKLSDAPVNTLWLYLILGIIFGVVGPVFNSLVLRTQDMFQRFHGGEIKKWVLMGGAIGGLCGILGLIEPAAAGGGFNLIPIAAAGNFSVGLLLFIFITRVVTTLLCFSSGAPGGIFAPMLALGTLLGTAFGMAAAVLFPQYHLEAGTFAIAGMGALMAASVRAPLTGIVLVLEMTDNYQLILPMIITCLGATLLAQFLGGKPLYSTILARTLAKQDAEQAE 1kpt-a1-m1-cA_1kpt-a1-m1-cB STRUCTURE AND FUNCTION OF A VIRALLY ENCODED FUNGAL TOXIN FROM USTILAGO MAYDIS: A FUNGAL AND MAMMALIAN CALCIUM CHANNEL INHIBITOR Q90121 Q90121 1.75 X-RAY DIFFRACTION 38 1.0 5270 (Ustilago maydis) 5270 (Ustilago maydis) 105 105 LGINCRGSSQCGLSGGNLMVRIRDQACGNQGQTWCPGERRAKVCGTGNSISAYVQSTNNCISGTEACRHLTNLVNHGCRVCGSDPLYAGNDVSRGQLTVNYVNSC LGINCRGSSQCGLSGGNLMVRIRDQACGNQGQTWCPGERRAKVCGTGNSISAYVQSTNNCISGTEACRHLTNLVNHGCRVCGSDPLYAGNDVSRGQLTVNYVNSC 1kqe-a1-m1-cA_1kqe-a1-m1-cE Solution structure of a linked shortened gramicidin A in benzene/acetone 10:1 NOT SOLUTION NMR 10 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 6 6 1kqe-a1-m1-cB_1kqe-a1-m1-cD AVWWWW AVWWWW 1kqf-a1-m2-cA_1kqf-a1-m3-cA FORMATE DEHYDROGENASE N FROM E. COLI P24183 P24183 1.6 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 982 982 1kqf-a1-m1-cA_1kqf-a1-m2-cA 1kqf-a1-m1-cA_1kqf-a1-m3-cA 1kqg-a1-m1-cA_1kqg-a1-m2-cA 1kqg-a1-m1-cA_1kqg-a1-m3-cA 1kqg-a1-m2-cA_1kqg-a1-m3-cA QARNYKLLRAKEIRNTCTYCSVGCGLLMYSLGDGAKNAREAIYHIEGDPDHPVSRGALCPKGAGLLDYVNSENRLRYPEYRAPGSDKWQRISWEEAFSRIAKLMKADRDANFIEKNEQGVTVNRWLSTGMLCASGASNETGMLTQKFARSLGMLAVDNQARVUHGPTVASLAPTFGRGAMTNHWVDIKNANVVMVMGGNAAEAHPVGFRWAMEAKNNNDATLIVVDPRFTRTASVADIYAPIRSGTDITFLSGVLRYLIENNKINAEYVKHYTNASLLVRDDFAFEDGLFSGYDAEKRQYDKSSWNYQLDENGYAKRDETLTHPRCVWNLLKEHVSRYTPDVVENICGTPKADFLKVCEVLASTSAPDRTTTFLYALGWTQHTVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSTSLPGYLTLPSEKQVDLQSYLEANTPKATLADQVNYWSNYPKFFVSLMKSFYGDAAQKENNWGYDWLPKWDQTYDVIKYFNMMDEGKVTGYFCQGFNPVASFPDKNKVVSCLSKLKYMVVIDPLVTETSTFWQNHGESNDVDPASIQTEVFRLPSTCFAEEDGSIANSGRWLQWHWKGQDAPGEARNDGEILAGIYHHLRELYQSEGGKGVEPLMKMSWNYKQPHEPQSDEVAKENNGYALEDLYDANGVLIAKKGQLLSSFAHLRDDGTTASSCWIYTGSWTEQGNQMANRDNSDPSGLGNTLGWAWAWPLNRRVLYNRASADINGKPWDPKRMLIQWNGSKWTGNDIPDFGNAAPGTPTGPFIMQPEGMGRLFAINKMAEGPFPEHYEPIETPLGTNPLHPNVVSNPVVRLYEQDALRMGKKEQFPYVGTTYRLTEHFHTWTKHALLNAIAQPEQFVEISETLAAAKGINNGDRVTVSSKRGFIRAVAVVTRRLKPLNVNGQQVETVGIPIHWGFEGVARKGYIANTLTPNVGDANSQTPEYKAFLVNIEKA QARNYKLLRAKEIRNTCTYCSVGCGLLMYSLGDGAKNAREAIYHIEGDPDHPVSRGALCPKGAGLLDYVNSENRLRYPEYRAPGSDKWQRISWEEAFSRIAKLMKADRDANFIEKNEQGVTVNRWLSTGMLCASGASNETGMLTQKFARSLGMLAVDNQARVUHGPTVASLAPTFGRGAMTNHWVDIKNANVVMVMGGNAAEAHPVGFRWAMEAKNNNDATLIVVDPRFTRTASVADIYAPIRSGTDITFLSGVLRYLIENNKINAEYVKHYTNASLLVRDDFAFEDGLFSGYDAEKRQYDKSSWNYQLDENGYAKRDETLTHPRCVWNLLKEHVSRYTPDVVENICGTPKADFLKVCEVLASTSAPDRTTTFLYALGWTQHTVGAQNIRTMAMIQLLLGNMGMAGGGVNALRGHSNIQGLTDLGLLSTSLPGYLTLPSEKQVDLQSYLEANTPKATLADQVNYWSNYPKFFVSLMKSFYGDAAQKENNWGYDWLPKWDQTYDVIKYFNMMDEGKVTGYFCQGFNPVASFPDKNKVVSCLSKLKYMVVIDPLVTETSTFWQNHGESNDVDPASIQTEVFRLPSTCFAEEDGSIANSGRWLQWHWKGQDAPGEARNDGEILAGIYHHLRELYQSEGGKGVEPLMKMSWNYKQPHEPQSDEVAKENNGYALEDLYDANGVLIAKKGQLLSSFAHLRDDGTTASSCWIYTGSWTEQGNQMANRDNSDPSGLGNTLGWAWAWPLNRRVLYNRASADINGKPWDPKRMLIQWNGSKWTGNDIPDFGNAAPGTPTGPFIMQPEGMGRLFAINKMAEGPFPEHYEPIETPLGTNPLHPNVVSNPVVRLYEQDALRMGKKEQFPYVGTTYRLTEHFHTWTKHALLNAIAQPEQFVEISETLAAAKGINNGDRVTVSSKRGFIRAVAVVTRRLKPLNVNGQQVETVGIPIHWGFEGVARKGYIANTLTPNVGDANSQTPEYKAFLVNIEKA 1kqf-a1-m2-cB_1kqf-a1-m3-cB FORMATE DEHYDROGENASE N FROM E. COLI P0AAJ3 P0AAJ3 1.6 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 289 289 1kqf-a1-m1-cB_1kqf-a1-m2-cB 1kqf-a1-m1-cB_1kqf-a1-m3-cB 1kqg-a1-m1-cB_1kqg-a1-m2-cB 1kqg-a1-m1-cB_1kqg-a1-m3-cB 1kqg-a1-m2-cB_1kqg-a1-m3-cB AMETQDIIKRSATNSITPPSQVRDYKAEVAKLIDVSTCIGCKACQVACSEWNDIRDEVGHCVGVYDNPADLSAKSWTVMRFSETEQNGKLEWLIRKDGCMHCEDPGCLKACPSAGAIIQYANGIVDFQSENCIGCGYCIAGCPFNIPRLNKEDNRVYKCTLCVDRVSVGQEPACVKTCPTGAIHFGTKKEMLELAEQRVAKLKARGYEHAGVYNPEGVGGTHVMYVLHHADQPELYHGLPKDPKIDTSVSLWKGALKPLAAAGFIATFAGLIFHYIGIGPNKEVDDDEE AMETQDIIKRSATNSITPPSQVRDYKAEVAKLIDVSTCIGCKACQVACSEWNDIRDEVGHCVGVYDNPADLSAKSWTVMRFSETEQNGKLEWLIRKDGCMHCEDPGCLKACPSAGAIIQYANGIVDFQSENCIGCGYCIAGCPFNIPRLNKEDNRVYKCTLCVDRVSVGQEPACVKTCPTGAIHFGTKKEMLELAEQRVAKLKARGYEHAGVYNPEGVGGTHVMYVLHHADQPELYHGLPKDPKIDTSVSLWKGALKPLAAAGFIATFAGLIFHYIGIGPNKEVDDDEE 1kqf-a1-m2-cC_1kqf-a1-m3-cC FORMATE DEHYDROGENASE N FROM E. COLI P0AEK7 P0AEK7 1.6 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 216 216 1kqf-a1-m1-cC_1kqf-a1-m2-cC 1kqf-a1-m1-cC_1kqf-a1-m3-cC 1kqg-a1-m1-cC_1kqg-a1-m2-cC 1kqg-a1-m1-cC_1kqg-a1-m3-cC 1kqg-a1-m2-cC_1kqg-a1-m3-cC SKSKMIVRTKFIDRACHWTVVICFFLVALSGISFFFPTLQWLTQTFGTPQMGRILHPFFGIAIFVALMFMFVRFVHHNIPDKKDIPWLLNIVEVLKGNEHKVADVGKYNAGQKMMFWSIMSMIFVLLVTGVIIWRPYFAQYFPMQVVRYSLLIHAAAGIILIHAILIHMYMAFWVKGSIKGMIEGKVSRRWAKKHHPRWYREIEKAEAKKESEEGI SKSKMIVRTKFIDRACHWTVVICFFLVALSGISFFFPTLQWLTQTFGTPQMGRILHPFFGIAIFVALMFMFVRFVHHNIPDKKDIPWLLNIVEVLKGNEHKVADVGKYNAGQKMMFWSIMSMIFVLLVTGVIIWRPYFAQYFPMQVVRYSLLIHAAAGIILIHAILIHMYMAFWVKGSIKGMIEGKVSRRWAKKHHPRWYREIEKAEAKKESEEGI 1kqp-a1-m1-cA_1kqp-a1-m1-cB NH3-DEPENDENT NAD+ SYNTHETASE FROM BACILLUS SUBTILIS AT 1 A RESOLUTION P08164 P08164 1.03 X-RAY DIFFRACTION 168 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 271 271 1ee1-a1-m1-cB_1ee1-a1-m1-cA 1fyd-a1-m1-cB_1fyd-a1-m1-cA 1ifx-a1-m1-cA_1ifx-a1-m1-cB 1ih8-a1-m1-cB_1ih8-a1-m1-cA 1nsy-a1-m1-cA_1nsy-a1-m1-cB 2nsy-a1-m1-cA_2nsy-a1-m1-cB SMQEKIMRELHVKPSIDPKQEIEDRVNFLKQYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVESIREEGGDAQFIAVRLPHGTQQDEDDAQLALKFIKPDKSWKFDIKSTVSAFSDQYQQETGDQLTDFNKGNVKARTRMIAQYAIGGQEGLLVLGTDHAAEAVTGFFTKYGDGGADLLPLTGLTKRQGRTLLKELGAPERLYLKEPTADLLDEKPQQSDETELGISYDEIDDYLEGKEVSAKVSEALEKRYSMTEHKRQVPASMFDDWWK SMQEKIMRELHVKPSIDPKQEIEDRVNFLKQYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVESIREEGGDAQFIAVRLPHGTQQDEDDAQLALKFIKPDKSWKFDIKSTVSAFSDQYQQETGDQLTDFNKGNVKARTRMIAQYAIGGQEGLLVLGTDHAAEAVTGFFTKYGDGGADLLPLTGLTKRQGRTLLKELGAPERLYLKEPTADLLDEKPQQSDETELGISYDEIDDYLEGKEVSAKVSEALEKRYSMTEHKRQVPASMFDDWWK 1kr4-a1-m2-cA_1kr4-a1-m3-cA Structure Genomics, Protein TM1056, cutA Q9X0E6 Q9X0E6 1.4 X-RAY DIFFRACTION 79 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 107 107 1kr4-a1-m1-cA_1kr4-a1-m2-cA 1kr4-a1-m1-cA_1kr4-a1-m3-cA 1o5j-a1-m1-cA_1o5j-a1-m2-cA 1o5j-a1-m1-cA_1o5j-a1-m3-cA 1o5j-a1-m2-cA_1o5j-a1-m3-cA 1vhf-a2-m1-cA_1vhf-a2-m2-cA 1vhf-a2-m1-cA_1vhf-a2-m3-cA 1vhf-a2-m2-cA_1vhf-a2-m3-cA ALYFGHILVYSTFPNEEKALEIGRKLLEKRLIACFNAFEIRSGYWWKGEIVQDKEWAAIFKTTEEKEKELYEELRKLHPYETPAIFTLKVENILTEYNWLRESVLGS ALYFGHILVYSTFPNEEKALEIGRKLLEKRLIACFNAFEIRSGYWWKGEIVQDKEWAAIFKTTEEKEKELYEELRKLHPYETPAIFTLKVENILTEYNWLRESVLGS 1ks2-a1-m1-cA_1ks2-a1-m1-cB Crystal Structure Analysis of the rpiA, Structural Genomics, protein EC1268. P0A7Z0 P0A7Z0 1.5 X-RAY DIFFRACTION 79 1.0 562 (Escherichia coli) 562 (Escherichia coli) 212 212 1lkz-a1-m1-cA_1lkz-a1-m1-cB TQDELKKAVGWAALQYVQPGTIVGVGTGSTAAHFIDALGTKGQIEGAVSSSDASTEKLKSLGIHVFDLNEVDSLGIYVDGADEINGHQIKGGGAALTREKIIASVAEKFICIADASKQVDILGKFPLPVEVIPARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGEILDPIAENAINAIPGVVTVGLFANRGADVALIGTPDGVKTIVK TQDELKKAVGWAALQYVQPGTIVGVGTGSTAAHFIDALGTKGQIEGAVSSSDASTEKLKSLGIHVFDLNEVDSLGIYVDGADEINGHQIKGGGAALTREKIIASVAEKFICIADASKQVDILGKFPLPVEVIPARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGEILDPIAENAINAIPGVVTVGLFANRGADVALIGTPDGVKTIVK 1ksi-a1-m1-cA_1ksi-a1-m1-cB CRYSTAL STRUCTURE OF A EUKARYOTIC (PEA SEEDLING) COPPER-CONTAINING AMINE OXIDASE AT 2.2A RESOLUTION Q43077 Q43077 2.2 X-RAY DIFFRACTION 518 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 641 641 1w2z-a1-m1-cA_1w2z-a1-m1-cB 1w2z-a2-m1-cC_1w2z-a2-m1-cD VQHPLDPLTKEEFLAVQTIVQNKYPISNNRLAFHYIGLDDPEKDHVLRYETHPTLVSIPRKIFVVAIINSQTHEILINLRIRSIVSDNIHNGYGFPILSVDEQSLAIKLPLKYPPFIDSVKKRGLNLSEIVCSSFTMGWFGEEKNVRTVRLDCFMKESTVNIYVRPITGITIVADLDLMKIVEYHDRDIEAVPTAENTEYQVSKQSPPFGPKQHSLTSHQPQGPGFQINGHSVSWANWKFHIGFDVRAGIVISLASIYDLEKHKSRRVLYKGYISELFVPYQDPTEEFYFKTFFDSGEFGFGLSTVSLIPNRDCPPHAQFIDTYVHSANGTPILLKNAICVFEQYGNIMWRHTENGIPNESIEESRTEVNLIVRTIVTVGNDNVIDWEFKASGSIKPSIALSGILEIKGTNIKHKDEIKEDLHGKLVSANSIGIYHDHFYIYYLDFDIDGTHNSFEKTSLKTVRIKDGSSKRKSYWTTETQTAKTESDAKITIGLAPAELVVVNPNIKTAVGNEVGYRLIPAIPAHPLLTEDDYPQIRGAFTNYNVWVTAYNRTEKWAGGLYVDHSRGDDTLAVWTKQNREIVNKDIVMWHVVGIHHVPAQEDFPIMPLLSTSFELRPTNFFERNPVLKTLSPRDVAWPGC VQHPLDPLTKEEFLAVQTIVQNKYPISNNRLAFHYIGLDDPEKDHVLRYETHPTLVSIPRKIFVVAIINSQTHEILINLRIRSIVSDNIHNGYGFPILSVDEQSLAIKLPLKYPPFIDSVKKRGLNLSEIVCSSFTMGWFGEEKNVRTVRLDCFMKESTVNIYVRPITGITIVADLDLMKIVEYHDRDIEAVPTAENTEYQVSKQSPPFGPKQHSLTSHQPQGPGFQINGHSVSWANWKFHIGFDVRAGIVISLASIYDLEKHKSRRVLYKGYISELFVPYQDPTEEFYFKTFFDSGEFGFGLSTVSLIPNRDCPPHAQFIDTYVHSANGTPILLKNAICVFEQYGNIMWRHTENGIPNESIEESRTEVNLIVRTIVTVGNDNVIDWEFKASGSIKPSIALSGILEIKGTNIKHKDEIKEDLHGKLVSANSIGIYHDHFYIYYLDFDIDGTHNSFEKTSLKTVRIKDGSSKRKSYWTTETQTAKTESDAKITIGLAPAELVVVNPNIKTAVGNEVGYRLIPAIPAHPLLTEDDYPQIRGAFTNYNVWVTAYNRTEKWAGGLYVDHSRGDDTLAVWTKQNREIVNKDIVMWHVVGIHHVPAQEDFPIMPLLSTSFELRPTNFFERNPVLKTLSPRDVAWPGC 1ksx-a1-m1-cA_1ksx-a1-m1-cF Crystal Structures of Two Intermediates in the Assembly of the Papillomavirus Replication Initiation Complex P03116 P03116 3.2 X-RAY DIFFRACTION 22 1.0 10571 (Bovine papillomavirus) 10571 (Bovine papillomavirus) 145 145 1f08-a1-m1-cB_1f08-a1-m1-cA 1ksx-a1-m1-cB_1ksx-a1-m1-cE 1ksx-a2-m1-cI_1ksx-a2-m1-cN 1ksx-a2-m1-cJ_1ksx-a2-m1-cM 1ksy-a1-m1-cA_1ksy-a1-m1-cC 1ksy-a2-m1-cB_1ksy-a2-m2-cB ATVFKLGLFKSLFLCSFHDITRLFKNDKTTNQQWVLAVFGLAEVFFEASFELLKKQCSFLQMQKRSHEGGTCAVYLICFNTAKSRETVRNLMANMLNVREECLMLQPPKIRGLSAALFWFKSSLSPATLKHGALPEWIRAQTTLN ATVFKLGLFKSLFLCSFHDITRLFKNDKTTNQQWVLAVFGLAEVFFEASFELLKKQCSFLQMQKRSHEGGTCAVYLICFNTAKSRETVRNLMANMLNVREECLMLQPPKIRGLSAALFWFKSSLSPATLKHGALPEWIRAQTTLN 1kt0-a2-m1-cA_1kt0-a2-m2-cA Structure of the Large FKBP-like Protein, FKBP51, Involved in Steroid Receptor Complexes Q13451 Q13451 2.7 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 357 357 VLKIVTPMIGDKVYVHYKGKLFDSPFVFSLGKGQVIKAWDIGVATMKRGEICHLLCKPEYAYGSAGSLPKIPSNATLFFEIELLDFKGEDLFEDGGIIRRTKRKGEGYSNPNEGATVEIHLEGRCGGRMFDCRDVAFTVGEGEDHDIPIGIDKALEKMQREEQCILYLGPRYGFGEAGKPKFGIEPNAELIYEVTLKSFEKAKESWEMDTKEKLEQAAIVKEKGTVYFKGGKYMQAVIQYGKIVSWLEMEYGLSEKESKASESFLLAAFLNLAMCYLKLREYTKAVECCDKALGLDSANEKGLYRRGEAQLLMNEFESAKGDFEKVLEVNAARLQISMCQKKAKEHNERDRRIYANM VLKIVTPMIGDKVYVHYKGKLFDSPFVFSLGKGQVIKAWDIGVATMKRGEICHLLCKPEYAYGSAGSLPKIPSNATLFFEIELLDFKGEDLFEDGGIIRRTKRKGEGYSNPNEGATVEIHLEGRCGGRMFDCRDVAFTVGEGEDHDIPIGIDKALEKMQREEQCILYLGPRYGFGEAGKPKFGIEPNAELIYEVTLKSFEKAKESWEMDTKEKLEQAAIVKEKGTVYFKGGKYMQAVIQYGKIVSWLEMEYGLSEKESKASESFLLAAFLNLAMCYLKLREYTKAVECCDKALGLDSANEKGLYRRGEAQLLMNEFESAKGDFEKVLEVNAARLQISMCQKKAKEHNERDRRIYANM 1ktb-a1-m1-cA_1ktb-a1-m2-cA The Structure of alpha-N-Acetylgalactosaminidase Q90744 Q90744 1.9 X-RAY DIFFRACTION 73 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 388 388 1ktc-a1-m1-cA_1ktc-a1-m2-cA LENGLARTPPMGWLAWERFRCNVNCREDPRQCISEMLFMEMADRIAEDGWRELGYKYINIDDCWAAKQRDAEGRLVPDPERFPRGIKALADYVHARGLKLGIYGDLGRLTCGGYPGTTLDRVEQDAQTFAEWGVDMLKLDGCYSSGKEQAQGYPQMARALNATGRPIVYSCSWPAYQGGLPPKVNYTLLGEICNLWRNYDDIQDSWDSVLSIVDWFFTNQDVLQPFAGPGHWNDPDMLIIGNFGLSYEQSRSQMALWTIMAAPLLMSTDLRTISPSAKKILQNRLMIQINQDPLGIQGRRIIKEGSHIEVFLRPLSQAASALVFFSRRTDMPFRYTTSLAKLGFPMGAAYEVQDVYSGKIISGLKTGDNFTVIINPSGVVMWYLCPKA LENGLARTPPMGWLAWERFRCNVNCREDPRQCISEMLFMEMADRIAEDGWRELGYKYINIDDCWAAKQRDAEGRLVPDPERFPRGIKALADYVHARGLKLGIYGDLGRLTCGGYPGTTLDRVEQDAQTFAEWGVDMLKLDGCYSSGKEQAQGYPQMARALNATGRPIVYSCSWPAYQGGLPPKVNYTLLGEICNLWRNYDDIQDSWDSVLSIVDWFFTNQDVLQPFAGPGHWNDPDMLIIGNFGLSYEQSRSQMALWTIMAAPLLMSTDLRTISPSAKKILQNRLMIQINQDPLGIQGRRIIKEGSHIEVFLRPLSQAASALVFFSRRTDMPFRYTTSLAKLGFPMGAAYEVQDVYSGKIISGLKTGDNFTVIINPSGVVMWYLCPKA 1ktj-a1-m1-cA_1ktj-a1-m1-cB X-ray Structure Of Der P 2, The Major House Dust Mite Allergen P49278 P49278 2.15 X-RAY DIFFRACTION 48 1.0 6956 (Dermatophagoides pteronyssinus) 6956 (Dermatophagoides pteronyssinus) 129 129 SEVDVKDCANHEIKKVLVPGCHGSEPCIIHRGKPFQLEAVFEANQNTKTAKIEIKASIDGLEVDVPGIDPNACHYMKCPLVKGQQYDIKYTWNVPKIAPKSENVVVTVKVMGDDGVLACAIATHAKIRD SEVDVKDCANHEIKKVLVPGCHGSEPCIIHRGKPFQLEAVFEANQNTKTAKIEIKASIDGLEVDVPGIDPNACHYMKCPLVKGQQYDIKYTWNVPKIAPKSENVVVTVKVMGDDGVLACAIATHAKIRD 1ktk-a1-m1-cA_1ktk-a1-m1-cC Complex of Streptococcal pyrogenic enterotoxin C (SpeC) with a human T cell receptor beta chain (Vbeta2.1) Q8NKX2 Q8NKX2 3 X-RAY DIFFRACTION 33 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 203 208 KKDISNVKSDLLYAYTITPYDYKDCRVNFSTTHTLNIDTQKYRGKDYYISSEMSYEASFKRDDHVDVFGLFYILNSHTGEYIYGGITPAQNNKVNHKLLGNLFISESQQNLNNKIILEKDIVTFQEIDFKIRKYLMDNYKIYDATSPYVSGRIEIGTKDGKHEQIDLFDSPNEGTRSDIFAKYKDNRIINMKNFSHFDIYLEK DSKKDISNVKSDLLYAYTITPYDYKDCRVNFSTTHTLNIDTQKYRGKDYYISSEMSYEASQKFKRDDHVDVFGLFYILNSHTGEYIYGGITPAQNNKVNHKLLGNLFISGESQQNLNNKIILEKDIVTFQEIDFKIRKYLMDNYKIYDATSPYVSGRIEIGTKDGKHEQIDLFDSPNEGTRSDIFAKYKDNRIINMKNFSHFDIYLEK 1ktn-a1-m1-cB_1ktn-a1-m1-cA Structural Genomics, Protein EC1535 P0A6L0 P0A6L0 1.4 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 249 250 6z9j-a1-m1-cB_6z9j-a1-m1-cA TDLKASSLRALKLMDLTTLNDDDTDEKVIALCHQAKTPVGNTAAICIYPRFIPIARKTLKEQGTPEIRIATVTNFPHGNDDIDIALAETRAAIAYGADEVDVVFPYRALMAGNEQVGFDLVKACKEACAAANVLLKVIIETGELKDEALIRKASEISIKAGADFIKTSTGKVAVNATPESARIMMEVIRDMGVEKTVGFKPAGGVRTAEDAQKYLAIADELFGADWADARHYRFGASSLLASLLKALGH MTDLKASSLRALKLMDLTTLNDDDTDEKVIALCHQAKTPVGNTAAICIYPRFIPIARKTLKEQGTPEIRIATVTNFPHGNDDIDIALAETRAAIAYGADEVDVVFPYRALMAGNEQVGFDLVKACKEACAAANVLLKVIIETGELKDEALIRKASEISIKAGADFIKTSTGKVAVNATPESARIMMEVIRDMGVEKTVGFKPAGGVRTAEDAQKYLAIADELFGADWADARHYRFGASSLLASLLKALGH 1ktz-a1-m1-cA_1ktz-a1-m2-cA Crystal Structure of the Human TGF-beta Type II Receptor Extracellular Domain in Complex with TGF-beta3 P10600 P10600 2.15 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 ENCCVRPLYIDFRQDLGWKWVHEPKGYYANFCSGPCPYLRSASASPCCVPQDLEPLTILYYVGRTPKVEQLSNMVVKSCKCS ENCCVRPLYIDFRQDLGWKWVHEPKGYYANFCSGPCPYLRSASASPCCVPQDLEPLTILYYVGRTPKVEQLSNMVVKSCKCS 1ku2-a1-m1-cA_1ku2-a1-m1-cB Crystal Structure of Thermus aquaticus RNA Polymerase Sigma Subunit Fragment Containing Regions 1.2 to 3.1 Q9EZJ8 Q9EZJ8 2.9 X-RAY DIFFRACTION 95 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 240 240 SDPVRQYLHEIGQVPLLTLEEEIDLARKVEEGMEAIKKLSEATGLDQELIREVVRAKILGTARIQKIPGLKEKPDPKTVEEVDGKLKSLPKELKRYLHIAREGEAARQHLIEANLRLVVSIAKKYTGRGLSFLDLIQEGNQGLIRAVEKFEYKRRFKFSTYATWWIRQAINRAIADQARTIRIPVHMVETINKLSRTARQLQQELGREPSYEEIAEAMGPGWDAKRVEETLKIAQEPVSL SDPVRQYLHEIGQVPLLTLEEEIDLARKVEEGMEAIKKLSEATGLDQELIREVVRAKILGTARIQKIPGLKEKPDPKTVEEVDGKLKSLPKELKRYLHIAREGEAARQHLIEANLRLVVSIAKKYTGRGLSFLDLIQEGNQGLIRAVEKFEYKRRFKFSTYATWWIRQAINRAIADQARTIRIPVHMVETINKLSRTARQLQQELGREPSYEEIAEAMGPGWDAKRVEETLKIAQEPVSL 1ku5-a1-m1-cA_1ku5-a1-m1-cB Crystal Structure of recombinant histone HPhA from hyperthermophilic archaeon Pyrococcus horikoshii OT3 O74098 O74098 2.3 X-RAY DIFFRACTION 143 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 66 66 GELPIAPVDRLIRKAGAERVSEQAAKVLAEYLEEYAIEIAKKAVEFARHAGRKTVKVEDIKLAIKS GELPIAPVDRLIRKAGAERVSEQAAKVLAEYLEEYAIEIAKKAVEFARHAGRKTVKVEDIKLAIKS 1ku7-a1-m1-cD_1ku7-a1-m1-cA Crystal Structure of Thermus aquatics RNA Polymerase SigmaA Subunit Region 4 Bound to-35 Element DNA Q9EZJ8 Q9EZJ8 2.4 X-RAY DIFFRACTION 61 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 68 73 3n97-a1-m1-cD_3n97-a1-m1-cA KALSKLSEREAMVLKMRKGLIDGREHTLEEVGAYFGVTRERIRQIENKALRKLKYHESRTRKLRDFLE SEELEKALSKLSEREAMVLKMRKGLIDGREHTLEEVGAYFGVTRERIRQIENKALRKLKYHESRTRKLRDFLE 1ku9-a1-m1-cA_1ku9-a1-m1-cB X-ray Structure of a Methanococcus jannaschii DNA-Binding Protein: Implications for Antibiotic Resistance in Staphylococcus aureus Q58958 Q58958 2.8 X-RAY DIFFRACTION 108 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 146 146 IIEEAKKLIIELFSELAKIHGLNKSVGAVYAILYLSDKPLTISDIEELKISKGNVSSLKKLEELGFVRKVWIKGERKNYYEAVDGFSSIKDIAKRKHDLIAKTYEDLKKLEEKCNEEEKEFIKQKIKGIERKKISEKILEALNDLD IIEEAKKLIIELFSELAKIHGLNKSVGAVYAILYLSDKPLTISDIEELKISKGNVSSLKKLEELGFVRKVWIKGERKNYYEAVDGFSSIKDIAKRKHDLIAKTYEDLKKLEEKCNEEEKEFIKQKIKGIERKKISEKILEALNDLD 1kut-a1-m1-cA_1kut-a1-m1-cB Structural Genomics, Protein TM1243, (SAICAR synthetase) Q9X0X0 Q9X0X0 2.2 X-RAY DIFFRACTION 39 0.99 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 209 218 TKIVKVTGDYALLEFKDDLTGKGSICAETTAILKYLSEKGIKTHLVEYIPPRTLKVIPLKFPLEVVVRLKKAGSFVRRYGGAEGEDLPVPLVEFFIKDDERHDPVCVDHLEILGIATKKQAEKKEAAVKITLALKEFFERANFELWDIKYEFGLDKDGNVVLGDEISPDTFRLRKKGEIFDKDVYRRDLGDPLKKYREVLELCRSLNSQ NYEGKTKIVKVTGDYALLEFKDDITKHDVLTGKGSICAETTAILKYLSEKGIKTHLVEYIPPRTLKVIPLKFPLEVVVRLKKAGSFVRRYGGAEGEDLPVPLVEFFIKDDERHDPVCVDHLEILGIATKKQAEKKEAAVKITLALKEFFERANFELWDIKYEFGLDKDGNVVLGDEISPDTFRLRKKGFDKDVYRRDLGDPLKKYREVLELCRSLNSQ 1kv0-a1-m1-cA_1kv0-a1-m1-cB Cis/trans Isomerization of Non-prolyl Peptide Bond Observed in Crystal Structure of an Scorpion Toxin P59854 P59854 1.4 X-RAY DIFFRACTION 28 1.0 34649 (Mesobuthus martensii) 34649 (Mesobuthus martensii) 66 66 VRDGYIALPHNCAYGCLNNEYCNNLCTKDGAKIGYCNIVGKYGNACWCIQLPDNVPIRVPGRCHPA VRDGYIALPHNCAYGCLNNEYCNNLCTKDGAKIGYCNIVGKYGNACWCIQLPDNVPIRVPGRCHPA 1kv3-a3-m1-cD_1kv3-a3-m1-cE HUMAN TISSUE TRANSGLUTAMINASE IN GDP BOUND FORM P21980 P21980 2.8 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 651 651 1kv3-a1-m1-cA_1kv3-a1-m1-cC 1kv3-a2-m1-cB_1kv3-a2-m1-cF 6kzb-a1-m1-cA_6kzb-a1-m2-cA 6kzb-a2-m1-cC_6kzb-a2-m1-cB ETNGRDHHTADLCREKLVVRRGQPFWLTLSLTFSVVTGPAPSQEAGTKARFPLRDAVEEGDWTATVVDQQDCTLSLQLTTPANAPIGLYRLSLEASGHFILLFNAWCPADAVYLDSEEERQEYVLTQQGFIYQGSAKFIKNIPWNFGQFQDGILDICLILLDVNPKFLKNAGRDCSRRSSPVYVGRVGSGMVNCNDDQGVLLGRWDNNYGDGVSPMSWIGSVDILRRWKNHGCQRVKYGQCWVFAAVACTVLRCLGIPTRVVTNYNSAHDQNSNLLIEYFRNEFGEIQGDKSEMIWNFHCWVESWMTRPDLQPGYEGWQALDPTPQEKSEGTYCCGPVPVRAIKEGDLSTKYDAPFVFAEVNADVVDWIQQDDGSVHKSINRSLIVGLKISTKSVGRDEREDITHTYKYPEGSSEEREAFTRANHLNKLAEKEETGMAMRIRVGQSMNMGSDFDVFAHITNNTAEEYVCRLLLCARTVSYNGILGPECGTKYLLNLTLEPFSEKSVPLCILYEKYRDCLTESNLIKVRALLVEPVINSYLLAERDLYLENPEIKIRILGEPKQKRKLVAEVSLQNPLPVALEGCTFTVEGAGLTEEQKTVEIPDPVEAGEEVKVRMDLVPLHMGLHKLVVNFESDKLKAVKGFRNVIIGPA ETNGRDHHTADLCREKLVVRRGQPFWLTLSLTFSVVTGPAPSQEAGTKARFPLRDAVEEGDWTATVVDQQDCTLSLQLTTPANAPIGLYRLSLEASGHFILLFNAWCPADAVYLDSEEERQEYVLTQQGFIYQGSAKFIKNIPWNFGQFQDGILDICLILLDVNPKFLKNAGRDCSRRSSPVYVGRVGSGMVNCNDDQGVLLGRWDNNYGDGVSPMSWIGSVDILRRWKNHGCQRVKYGQCWVFAAVACTVLRCLGIPTRVVTNYNSAHDQNSNLLIEYFRNEFGEIQGDKSEMIWNFHCWVESWMTRPDLQPGYEGWQALDPTPQEKSEGTYCCGPVPVRAIKEGDLSTKYDAPFVFAEVNADVVDWIQQDDGSVHKSINRSLIVGLKISTKSVGRDEREDITHTYKYPEGSSEEREAFTRANHLNKLAEKEETGMAMRIRVGQSMNMGSDFDVFAHITNNTAEEYVCRLLLCARTVSYNGILGPECGTKYLLNLTLEPFSEKSVPLCILYEKYRDCLTESNLIKVRALLVEPVINSYLLAERDLYLENPEIKIRILGEPKQKRKLVAEVSLQNPLPVALEGCTFTVEGAGLTEEQKTVEIPDPVEAGEEVKVRMDLVPLHMGLHKLVVNFESDKLKAVKGFRNVIIGPA 1kvd-a4-m1-cB_1kvd-a4-m4-cD KILLER TOXIN FROM HALOTOLERANT YEAST P19972 P19972 1.8 X-RAY DIFFRACTION 28 1.0 4920 (Millerozyma farinosa) 4920 (Millerozyma farinosa) 77 77 1kvd-a3-m1-cB_1kvd-a3-m4-cD 1kvd-a3-m2-cB_1kvd-a3-m3-cD GEATTIWGVGADEAIDKGTPSKNDLQNMSADLAKNGFKGHQGVACSTVKDGNKDVYMIKFSLAGGSNDPGGSPCSDD GEATTIWGVGADEAIDKGTPSKNDLQNMSADLAKNGFKGHQGVACSTVKDGNKDVYMIKFSLAGGSNDPGGSPCSDD 1kwa-a4-m1-cB_1kwa-a4-m1-cA HUMAN CASK/LIN-2 PDZ DOMAIN O14936 O14936 1.93 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 88 1kwa-a3-m1-cB_1kwa-a3-m1-cA 1kwa-a3-m2-cB_1kwa-a3-m2-cA RSRLVQFQKNTDEPMGITLKMLNHCIVARIMHGGMIHRQGTLHVGDEIREINGISVANQTVEQLQKMLREMRGSITFKIVPSYREF RSRLVQFQKNTDEPMGITLKMNELNHCIVARIMHGGMIHRQGTLHVGDEIREINGISVANQTVEQLQKMLREMRGSITFKIVPSYREF 1kwa-a5-m2-cB_1kwa-a5-m1-cA HUMAN CASK/LIN-2 PDZ DOMAIN O14936 O14936 1.93 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 88 1kwa-a3-m1-cB_1kwa-a3-m2-cA 1kwa-a3-m2-cB_1kwa-a3-m1-cA RSRLVQFQKNTDEPMGITLKMLNHCIVARIMHGGMIHRQGTLHVGDEIREINGISVANQTVEQLQKMLREMRGSITFKIVPSYREF RSRLVQFQKNTDEPMGITLKMNELNHCIVARIMHGGMIHRQGTLHVGDEIREINGISVANQTVEQLQKMLREMRGSITFKIVPSYREF 1kwg-a1-m2-cA_1kwg-a1-m3-cA Crystal structure of Thermus thermophilus A4 beta-galactosidase O69315 O69315 1.6 X-RAY DIFFRACTION 166 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 644 644 1kwg-a1-m1-cA_1kwg-a1-m2-cA 1kwg-a1-m1-cA_1kwg-a1-m3-cA 1kwk-a1-m1-cA_1kwk-a1-m2-cA 1kwk-a1-m1-cA_1kwk-a1-m3-cA 1kwk-a1-m2-cA_1kwk-a1-m3-cA MLGVCYYPEHWPKERWKEDARRMREAGLSHVRIGEFAWALLEPEPGRLEWGWLDEAIATLAAEGLKVVLGTPTATPPKWLVDRYPEILPVDREGRRRRFGGRRHYCFSSPVYREEARRIVTLLAERYGGLEAVAGFQTDNEYGCHDTVRCYCPRCQEAFRGWLEARYGTIEALNEAWGTAFWSQRYRSFAEVELPHLTVAEPNPSHLLDYYRFASDQVRAFNRLQVEILRAHAPGKFVTHNFMGFFTDLDAFALAQDLDFASWDSYPLGFTDLMPLPPEEKLRYARTGHPDVAAFHHDLYRGVGRGRFWVMEQQPGPVNWAPHNPSPAPGMVRLWTWEALAHGAEVVSYFRWRQAPFAQEQMHAGLHRPDSAPDQGFFEAKRVAEELAALALPPVAQAPVALVFDYEAAWIYEVQPQGAEWSYLGLVYLFYSALRRLGLDVDVVPPGASLRGYAFAVVPSLPIVREEALEAFREAEGPVLFGPRSGSKTETFQIPKELPPGPLQALLPLKVVRVESLPPGLLEVAEGALGRFPLGLWREWVEAPLKPLLTFQDGKGALYREGRYLYLAAWPSPELAGRLLSALAAEAGLKVLSLPEGLRLRRRGTWVFAFNYGPEAVEAPASEGARFLLGSRRVGPYDLAVWEE MLGVCYYPEHWPKERWKEDARRMREAGLSHVRIGEFAWALLEPEPGRLEWGWLDEAIATLAAEGLKVVLGTPTATPPKWLVDRYPEILPVDREGRRRRFGGRRHYCFSSPVYREEARRIVTLLAERYGGLEAVAGFQTDNEYGCHDTVRCYCPRCQEAFRGWLEARYGTIEALNEAWGTAFWSQRYRSFAEVELPHLTVAEPNPSHLLDYYRFASDQVRAFNRLQVEILRAHAPGKFVTHNFMGFFTDLDAFALAQDLDFASWDSYPLGFTDLMPLPPEEKLRYARTGHPDVAAFHHDLYRGVGRGRFWVMEQQPGPVNWAPHNPSPAPGMVRLWTWEALAHGAEVVSYFRWRQAPFAQEQMHAGLHRPDSAPDQGFFEAKRVAEELAALALPPVAQAPVALVFDYEAAWIYEVQPQGAEWSYLGLVYLFYSALRRLGLDVDVVPPGASLRGYAFAVVPSLPIVREEALEAFREAEGPVLFGPRSGSKTETFQIPKELPPGPLQALLPLKVVRVESLPPGLLEVAEGALGRFPLGLWREWVEAPLKPLLTFQDGKGALYREGRYLYLAAWPSPELAGRLLSALAAEAGLKVLSLPEGLRLRRRGTWVFAFNYGPEAVEAPASEGARFLLGSRRVGPYDLAVWEE 1kxi-a1-m1-cA_1kxi-a1-m1-cB STRUCTURE OF CYTOTOXIN HOMOLOG PRECURSOR P62375 P62375 2.19 X-RAY DIFFRACTION 41 1.0 8656 (Naja atra) 8656 (Naja atra) 62 62 LKCHNTQLPFIYKTCPEGKNLCFKATLKKFPLKFPVKRGCADNCPKNSALLKYVCCSTDKCN LKCHNTQLPFIYKTCPEGKNLCFKATLKKFPLKFPVKRGCADNCPKNSALLKYVCCSTDKCN 1kxu-a1-m1-cA_1kxu-a1-m2-cA CYCLIN H, A POSITIVE REGULATORY SUBUNIT OF CDK ACTIVATING KINASE P51946 P51946 2.6 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 276 276 1jkw-a1-m1-cA_1jkw-a1-m2-cA WTFSSEEQLARLRADANRKFRCKAVANGKVLPNDPVFLEPHEEMTLCKYYEKRLLEFCSVFKPAMPRSVVGTACMYFKRFYLNNSVMEYHPRIIMLTCAFLACKVDEFNVSSPQFVGNLRESPLGQEKALEQILEYELLLIQQLNFHLIVHNPYRPFEGFLIDLKTRYPILENPEILRKTADDFLNRIALTDAYLLYTPSQIALTAILSSASRAGITMESYLSESLMLKENRTCLSQLLDIMKSMRNLVKKYEPPRSEEVAVLKQKLERCHSAELA WTFSSEEQLARLRADANRKFRCKAVANGKVLPNDPVFLEPHEEMTLCKYYEKRLLEFCSVFKPAMPRSVVGTACMYFKRFYLNNSVMEYHPRIIMLTCAFLACKVDEFNVSSPQFVGNLRESPLGQEKALEQILEYELLLIQQLNFHLIVHNPYRPFEGFLIDLKTRYPILENPEILRKTADDFLNRIALTDAYLLYTPSQIALTAILSSASRAGITMESYLSESLMLKENRTCLSQLLDIMKSMRNLVKKYEPPRSEEVAVLKQKLERCHSAELA 1ky9-a1-m1-cA_1ky9-a1-m6-cA Crystal Structure of DegP (HtrA) P0C0V0 P0C0V0 2.8 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 299 299 1ky9-a1-m2-cA_1ky9-a1-m5-cA 1ky9-a1-m3-cA_1ky9-a1-m4-cA 3mh4-a1-m1-cA_3mh4-a1-m6-cA 3mh4-a1-m2-cA_3mh4-a1-m5-cA 3mh4-a1-m3-cA_3mh4-a1-m4-cA QPSLAPLEKVPSVVSINVEGSTTVNTPRPRNFQQFFGGQQQKFALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKVGKDPRSDIALIQIQNPKNLTAIKADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNVKNLTSQVEYGQVKRGELGIGTELNSELAKAKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTPVGSKLTLGLLRDGKQVNVNLE QPSLAPLEKVPSVVSINVEGSTTVNTPRPRNFQQFFGGQQQKFALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKVGKDPRSDIALIQIQNPKNLTAIKADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNVKNLTSQVEYGQVKRGELGIGTELNSELAKAKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTPVGSKLTLGLLRDGKQVNVNLE 1ky9-a1-m5-cA_1ky9-a1-m6-cA Crystal Structure of DegP (HtrA) P0C0V0 P0C0V0 2.8 X-RAY DIFFRACTION 53 1.0 562 (Escherichia coli) 562 (Escherichia coli) 299 299 1ky9-a1-m1-cA_1ky9-a1-m2-cA 1ky9-a1-m1-cA_1ky9-a1-m3-cA 1ky9-a1-m2-cA_1ky9-a1-m3-cA 1ky9-a1-m4-cA_1ky9-a1-m5-cA 1ky9-a1-m4-cA_1ky9-a1-m6-cA 3mh4-a1-m1-cA_3mh4-a1-m2-cA 3mh4-a1-m1-cA_3mh4-a1-m3-cA 3mh4-a1-m2-cA_3mh4-a1-m3-cA 3mh4-a1-m4-cA_3mh4-a1-m5-cA 3mh4-a1-m4-cA_3mh4-a1-m6-cA 3mh4-a1-m5-cA_3mh4-a1-m6-cA QPSLAPLEKVPSVVSINVEGSTTVNTPRPRNFQQFFGGQQQKFALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKVGKDPRSDIALIQIQNPKNLTAIKADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNVKNLTSQVEYGQVKRGELGIGTELNSELAKAKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTPVGSKLTLGLLRDGKQVNVNLE QPSLAPLEKVPSVVSINVEGSTTVNTPRPRNFQQFFGGQQQKFALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKVGKDPRSDIALIQIQNPKNLTAIKADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNVKNLTSQVEYGQVKRGELGIGTELNSELAKAKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTPVGSKLTLGLLRDGKQVNVNLE 1ky9-a2-m7-cB_1ky9-a2-m9-cB Crystal Structure of DegP (HtrA) P0C0V0 P0C0V0 2.8 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 383 383 1ky9-a2-m11-cB_1ky9-a2-m8-cB 1ky9-a2-m1-cB_1ky9-a2-m10-cB 3mh4-a2-m10-cB_3mh4-a2-m7-cB 3mh4-a2-m1-cB_3mh4-a2-m11-cB 3mh4-a2-m8-cB_3mh4-a2-m9-cB QPSLAPLEKVPSVVSINVEGSTTVNTPRPRNFQQFFGGQQQKFALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKVGKDPRSDIALIQIQNPKNLTAIKADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNVKNLTSQVEYGQVKRGELGIGTELNSELAKAKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNESNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL QPSLAPLEKVPSVVSINVEGSTTVNTPRPRNFQQFFGGQQQKFALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKVGKDPRSDIALIQIQNPKNLTAIKADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNVKNLTSQVEYGQVKRGELGIGTELNSELAKAKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNESNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL 1kyc-a1-m2-cA_1kyc-a1-m3-cA CRYSTAL STRUCTURE OF A DE NOVO DESIGNED TRIMERIC COILED-COIL PEPTIDE STABLIZED BY IONIC INTERACTIONS 1.45 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 1kyc-a1-m1-cA_1kyc-a1-m2-cA 1kyc-a1-m1-cA_1kyc-a1-m3-cA EELRRRIEELERRIR EELRRRIEELERRIR 1kyq-a2-m1-cC_1kyq-a2-m2-cC Met8p: A bifunctional NAD-dependent dehydrogenase and ferrochelatase involved in siroheme synthesis. P15807 P15807 2.2 X-RAY DIFFRACTION 232 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 256 256 1kyq-a1-m1-cA_1kyq-a1-m1-cB VKSLQLAHQLKDKRILLIGGGEVGLTRLYKLPTGCKLTLVSPDLHKSIIPKFGKFIQKRFINPNWDPTKNEIYEYIRSDFKDEYLDLENENDAWYIITCIPDHPESARIYHLCKERFGKQQLVNVADKPDLCDFYFGANLEIGDRLQILISTNGLSPRFGALVRDEIRNLFTQGDLALEDAVVKLGELRRGIRLLAPDDKDVKYRDWARRCTDLFGIQHCHNIDVKRLLDLFKVFQEQNCSLQFPPRERLLSEYCS VKSLQLAHQLKDKRILLIGGGEVGLTRLYKLPTGCKLTLVSPDLHKSIIPKFGKFIQKRFINPNWDPTKNEIYEYIRSDFKDEYLDLENENDAWYIITCIPDHPESARIYHLCKERFGKQQLVNVADKPDLCDFYFGANLEIGDRLQILISTNGLSPRFGALVRDEIRNLFTQGDLALEDAVVKLGELRRGIRLLAPDDKDVKYRDWARRCTDLFGIQHCHNIDVKRLLDLFKVFQEQNCSLQFPPRERLLSEYCS 1kyz-a1-m1-cA_1kyz-a1-m1-cE Crystal Structure Analysis of Caffeic acid/5-hydroxyferulic acid 3/5-O-methyltransferase Ferulic Acid Complex P28002 P28002 2.2 X-RAY DIFFRACTION 308 1.0 3879 (Medicago sativa) 3879 (Medicago sativa) 350 361 1kyw-a1-m1-cA_1kyw-a1-m1-cF 1kyw-a2-m1-cC_1kyw-a2-m2-cC 1kyz-a2-m1-cC_1kyz-a2-m2-cC HISDEEANLFAMQLASASVLPMILKSALELDLLEIIAKAGPGAQISPIEIASQLPTTNPDAPVMLDRMLRLLACYIILTCSVRTQQDGKVQRLYGLATVAKYLVKNEDGVSISALNLMNQDKVLMESWYHLKDAVLDGGIPFNKAYGMTAFEYHGTDPRFNKVFNKGMSDHSTITMKKILETYTGFEGLKSLVDVGGGTGAVINTIVSKYPTIKGINFDLPHVIEDAPSYPGVEHVGGDMFVSIPKADAVFMKWICHDWSDEHCLKFLKNCYEALPDNGKVIVAECILPVAPDSSLATKGVVHIDVIMLAHNPGGKERTQKEFEDLAKGAGFQGFKVHCNAFNTYIMEFL GETQITPTHISDEEANLFAMQLASASVLPMILKSALELDLLEIIAKAGPGAQISPIEIASQLPTTNPDAPVMLDRMLRLLACYIILTCSVRTQQDGKVQRLYGLATVAKYLVKNEDGVSISALNLMNQDKVLMESWYHLKDAVLDGGIPFNKAYGMTAFEYHGTDPRFNKVFNKGMSDHSTITMKKILETYTGFEGLKSLVDVGGGTGAVINTIVSKYPTIKGINFDLPHVIEDAPSYPGVEHVGGDMFVSIPKADAVFMKWICHDWSDEHCLKFLKNCYEALPDNGKVIVAECILPVAPDSSLATKGVVHIDVIMLAHNPGGKERTQKEFEDLAKGAGFQGFKVHCNAFNTYIMEFLKKV 1kz8-a1-m1-cA_1kz8-a1-m2-cF CRYSTAL STRUCTURE OF PORCINE FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH A NOVEL ALLOSTERIC-SITE INHIBITOR P00636 P00636 2 X-RAY DIFFRACTION 32 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 319 319 1eyj-a1-m1-cA_1eyj-a1-m2-cB 1eyj-a1-m1-cB_1eyj-a1-m2-cA 1eyk-a1-m1-cA_1eyk-a1-m2-cB 1eyk-a1-m1-cB_1eyk-a1-m2-cA 1fj9-a1-m1-cA_1fj9-a1-m2-cB 1fj9-a1-m1-cB_1fj9-a1-m2-cA 1fpd-a1-m1-cA_1fpd-a1-m2-cB 1fpd-a1-m1-cB_1fpd-a1-m2-cA 1fpe-a1-m1-cA_1fpe-a1-m2-cB 1fpe-a1-m1-cB_1fpe-a1-m2-cA 1fpf-a1-m1-cA_1fpf-a1-m2-cB 1fpf-a1-m1-cB_1fpf-a1-m2-cA 1fpg-a1-m1-cA_1fpg-a1-m2-cB 1fpg-a1-m1-cB_1fpg-a1-m2-cA 1fpi-a1-m1-cA_1fpi-a1-m2-cB 1fpi-a1-m1-cB_1fpi-a1-m2-cA 1fpj-a1-m1-cA_1fpj-a1-m2-cB 1fpj-a1-m1-cB_1fpj-a1-m2-cA 1fpl-a1-m1-cA_1fpl-a1-m2-cB 1fpl-a1-m1-cB_1fpl-a1-m2-cA 1frp-a1-m1-cA_1frp-a1-m2-cB 1frp-a1-m1-cB_1frp-a1-m2-cA 1fsa-a1-m1-cA_1fsa-a1-m2-cB 1fsa-a1-m1-cB_1fsa-a1-m2-cA 1kz8-a1-m1-cF_1kz8-a1-m2-cA 1nv7-a2-m1-cA_1nv7-a2-m2-cB 1nv7-a2-m1-cB_1nv7-a2-m2-cA 1q9d-a2-m1-cA_1q9d-a2-m2-cB 1q9d-a2-m1-cB_1q9d-a2-m2-cA 1rdy-a1-m1-cA_1rdy-a1-m2-cB 1rdy-a1-m1-cB_1rdy-a1-m2-cA 1rdz-a1-m1-cA_1rdz-a1-m2-cB 1rdz-a1-m1-cB_1rdz-a1-m2-cA 2qvu-a1-m1-cA_2qvu-a1-m2-cB 2qvu-a1-m1-cB_2qvu-a1-m2-cA 2qvv-a1-m1-cA_2qvv-a1-m2-cB 2qvv-a1-m1-cB_2qvv-a1-m2-cA 4fbp-a1-m1-cA_4fbp-a1-m1-cD 4fbp-a1-m1-cB_4fbp-a1-m1-cC 4gws-a1-m1-cA_4gws-a1-m2-cB 4gws-a1-m1-cB_4gws-a1-m2-cA 4gwz-a1-m1-cA_4gwz-a1-m2-cB 4gwz-a1-m1-cB_4gwz-a1-m2-cA 4gx3-a1-m1-cA_4gx3-a1-m2-cB 4gx3-a1-m1-cB_4gx3-a1-m2-cA 4gx4-a1-m1-cA_4gx4-a1-m2-cB 4gx4-a1-m1-cB_4gx4-a1-m2-cA 4gx6-a1-m1-cA_4gx6-a1-m2-cB 4gx6-a1-m1-cB_4gx6-a1-m2-cA NIVTLTRFVMEQGRKARGTGEMTQLLNSLCTAVKAISTAVRKAGIAHLYGIAGVKKLDVLSNDLVINVLKSSFATCVLVTEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKNSTDEPSEKDALQPGRNLVAAGYALYGSATMLVLAMVNGVNCFMLDPAIGEFILVDRNVKIKKKGSIYSINEGYAKEFDPAITEYIQRKKFPPDNSAPYGARYVGSMVADVHRTLVYGGIFMYPANKKSPKGKLRLLYECNPMAYVMEKAGGLATTGKEAVLDIVPTDIHQRAPIILGSPEDVTELLEIYQKHA NIVTLTRFVMEQGRKARGTGEMTQLLNSLCTAVKAISTAVRKAGIAHLYGIAGVKKLDVLSNDLVINVLKSSFATCVLVTEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKNSTDEPSEKDALQPGRNLVAAGYALYGSATMLVLAMVNGVNCFMLDPAIGEFILVDRNVKIKKKGSIYSINEGYAKEFDPAITEYIQRKKFPPDNSAPYGARYVGSMVADVHRTLVYGGIFMYPANKKSPKGKLRLLYECNPMAYVMEKAGGLATTGKEAVLDIVPTDIHQRAPIILGSPEDVTELLEIYQKHA 1kz8-a1-m2-cA_1kz8-a1-m2-cF CRYSTAL STRUCTURE OF PORCINE FRUCTOSE-1,6-BISPHOSPHATASE COMPLEXED WITH A NOVEL ALLOSTERIC-SITE INHIBITOR P00636 P00636 2 X-RAY DIFFRACTION 187 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 319 319 1cnq-a1-m1-cA_1cnq-a1-m2-cA 1cnq-a1-m3-cA_1cnq-a1-m4-cA 1eyi-a1-m1-cA_1eyi-a1-m2-cA 1eyi-a1-m3-cA_1eyi-a1-m4-cA 1eyj-a1-m1-cA_1eyj-a1-m1-cB 1eyj-a1-m2-cA_1eyj-a1-m2-cB 1eyk-a1-m1-cA_1eyk-a1-m1-cB 1eyk-a1-m2-cA_1eyk-a1-m2-cB 1fbc-a1-m1-cA_1fbc-a1-m1-cB 1fbc-a1-m2-cA_1fbc-a1-m2-cB 1fbd-a1-m1-cA_1fbd-a1-m1-cB 1fbd-a1-m2-cA_1fbd-a1-m2-cB 1fbe-a1-m1-cA_1fbe-a1-m1-cB 1fbe-a1-m2-cA_1fbe-a1-m2-cB 1fbf-a1-m1-cA_1fbf-a1-m1-cB 1fbf-a1-m2-cA_1fbf-a1-m2-cB 1fbg-a1-m1-cA_1fbg-a1-m1-cB 1fbg-a1-m2-cA_1fbg-a1-m2-cB 1fbh-a1-m1-cA_1fbh-a1-m1-cB 1fbh-a1-m2-cA_1fbh-a1-m2-cB 1fbp-a1-m1-cA_1fbp-a1-m1-cB 1fbp-a1-m2-cA_1fbp-a1-m2-cB 1fj6-a1-m1-cA_1fj6-a1-m2-cA 1fj6-a1-m3-cA_1fj6-a1-m4-cA 1fj9-a1-m1-cA_1fj9-a1-m1-cB 1fj9-a1-m2-cA_1fj9-a1-m2-cB 1fpb-a1-m1-cA_1fpb-a1-m1-cB 1fpb-a1-m2-cA_1fpb-a1-m2-cB 1fpd-a1-m1-cA_1fpd-a1-m1-cB 1fpd-a1-m2-cA_1fpd-a1-m2-cB 1fpe-a1-m1-cA_1fpe-a1-m1-cB 1fpe-a1-m2-cA_1fpe-a1-m2-cB 1fpf-a1-m1-cA_1fpf-a1-m1-cB 1fpf-a1-m2-cA_1fpf-a1-m2-cB 1fpg-a1-m1-cA_1fpg-a1-m1-cB 1fpg-a1-m2-cA_1fpg-a1-m2-cB 1fpi-a1-m1-cA_1fpi-a1-m1-cB 1fpi-a1-m2-cA_1fpi-a1-m2-cB 1fpj-a1-m1-cA_1fpj-a1-m1-cB 1fpj-a1-m2-cA_1fpj-a1-m2-cB 1fpk-a1-m1-cA_1fpk-a1-m1-cB 1fpk-a1-m2-cA_1fpk-a1-m2-cB 1fpl-a1-m1-cA_1fpl-a1-m1-cB 1fpl-a1-m2-cA_1fpl-a1-m2-cB 1frp-a1-m1-cA_1frp-a1-m1-cB 1frp-a1-m2-cA_1frp-a1-m2-cB 1fsa-a1-m1-cA_1fsa-a1-m1-cB 1fsa-a1-m2-cA_1fsa-a1-m2-cB 1kz8-a1-m1-cA_1kz8-a1-m1-cF 1lev-a1-m1-cA_1lev-a1-m1-cF 1lev-a1-m2-cA_1lev-a1-m2-cF 1nuw-a2-m1-cA_1nuw-a2-m2-cA 1nuw-a2-m3-cA_1nuw-a2-m4-cA 1nux-a2-m1-cA_1nux-a2-m2-cA 1nux-a2-m3-cA_1nux-a2-m4-cA 1nuy-a2-m1-cA_1nuy-a2-m2-cA 1nuy-a2-m3-cA_1nuy-a2-m4-cA 1nuz-a2-m1-cA_1nuz-a2-m2-cA 1nuz-a2-m3-cA_1nuz-a2-m4-cA 1nv0-a2-m1-cA_1nv0-a2-m2-cA 1nv0-a2-m3-cA_1nv0-a2-m4-cA 1nv1-a2-m1-cA_1nv1-a2-m2-cA 1nv1-a2-m3-cA_1nv1-a2-m4-cA 1nv2-a2-m1-cA_1nv2-a2-m2-cA 1nv2-a2-m3-cA_1nv2-a2-m4-cA 1nv3-a2-m1-cA_1nv3-a2-m2-cA 1nv3-a2-m3-cA_1nv3-a2-m4-cA 1nv4-a2-m1-cA_1nv4-a2-m2-cA 1nv4-a2-m3-cA_1nv4-a2-m4-cA 1nv5-a2-m1-cA_1nv5-a2-m2-cA 1nv5-a2-m3-cA_1nv5-a2-m4-cA 1nv6-a2-m1-cA_1nv6-a2-m2-cA 1nv6-a2-m3-cA_1nv6-a2-m4-cA 1nv7-a1-m1-cA_1nv7-a1-m1-cB 1nv7-a2-m1-cA_1nv7-a2-m1-cB 1nv7-a2-m2-cA_1nv7-a2-m2-cB 1q9d-a1-m1-cA_1q9d-a1-m1-cB 1q9d-a2-m1-cA_1q9d-a2-m1-cB 1q9d-a2-m2-cA_1q9d-a2-m2-cB 1rdx-a1-m1-cA_1rdx-a1-m1-cB 1rdx-a1-m2-cA_1rdx-a1-m2-cB 1rdy-a1-m1-cA_1rdy-a1-m1-cB 1rdy-a1-m2-cA_1rdy-a1-m2-cB 1rdz-a1-m1-cA_1rdz-a1-m1-cB 1rdz-a1-m2-cA_1rdz-a1-m2-cB 1yxi-a1-m1-cA_1yxi-a1-m2-cA 1yxi-a1-m3-cA_1yxi-a1-m4-cA 1yyz-a1-m1-cA_1yyz-a1-m2-cA 1yyz-a1-m3-cA_1yyz-a1-m4-cA 1yz0-a1-m1-cA_1yz0-a1-m1-cB 1yz0-a1-m2-cA_1yz0-a1-m2-cB 2f3b-a1-m1-cA_2f3b-a1-m2-cA 2f3b-a1-m3-cA_2f3b-a1-m4-cA 2f3d-a1-m1-cA_2f3d-a1-m2-cA 2f3d-a1-m3-cA_2f3d-a1-m4-cA 2fbp-a1-m1-cA_2fbp-a1-m1-cB 2fbp-a1-m2-cA_2fbp-a1-m2-cB 2qvu-a1-m1-cA_2qvu-a1-m1-cB 2qvu-a1-m2-cA_2qvu-a1-m2-cB 2qvv-a1-m1-cA_2qvv-a1-m1-cB 2qvv-a1-m2-cA_2qvv-a1-m2-cB 3fbp-a1-m1-cA_3fbp-a1-m1-cB 3fbp-a1-m2-cA_3fbp-a1-m2-cB 4fbp-a1-m1-cA_4fbp-a1-m1-cB 4fbp-a1-m1-cC_4fbp-a1-m1-cD 4gbv-a1-m1-cA_4gbv-a1-m2-cA 4gbv-a1-m3-cA_4gbv-a1-m4-cA 4gbw-a1-m1-cA_4gbw-a1-m2-cA 4gbw-a1-m3-cA_4gbw-a1-m4-cA 4gws-a1-m1-cA_4gws-a1-m1-cB 4gws-a1-m2-cA_4gws-a1-m2-cB 4gwu-a1-m1-cA_4gwu-a1-m2-cA 4gwu-a1-m3-cA_4gwu-a1-m4-cA 4gww-a1-m1-cA_4gww-a1-m2-cA 4gww-a1-m3-cA_4gww-a1-m4-cA 4gwx-a1-m1-cA_4gwx-a1-m2-cA 4gwx-a1-m3-cA_4gwx-a1-m4-cA 4gwy-a1-m1-cA_4gwy-a1-m2-cA 4gwy-a1-m3-cA_4gwy-a1-m4-cA 4gwz-a1-m1-cA_4gwz-a1-m1-cB 4gwz-a1-m2-cA_4gwz-a1-m2-cB 4gx3-a1-m1-cA_4gx3-a1-m1-cB 4gx3-a1-m2-cA_4gx3-a1-m2-cB 4gx4-a1-m1-cA_4gx4-a1-m1-cB 4gx4-a1-m2-cA_4gx4-a1-m2-cB 4gx6-a1-m1-cA_4gx6-a1-m1-cB 4gx6-a1-m2-cA_4gx6-a1-m2-cB 4h45-a1-m1-cA_4h45-a1-m2-cA 4h45-a1-m3-cA_4h45-a1-m4-cA 4kxp-a1-m1-cA_4kxp-a1-m1-cB 4kxp-a1-m2-cA_4kxp-a1-m2-cB 5fbp-a1-m1-cA_5fbp-a1-m1-cB 5fbp-a1-m2-cA_5fbp-a1-m2-cB NIVTLTRFVMEQGRKARGTGEMTQLLNSLCTAVKAISTAVRKAGIAHLYGIAGVKKLDVLSNDLVINVLKSSFATCVLVTEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKNSTDEPSEKDALQPGRNLVAAGYALYGSATMLVLAMVNGVNCFMLDPAIGEFILVDRNVKIKKKGSIYSINEGYAKEFDPAITEYIQRKKFPPDNSAPYGARYVGSMVADVHRTLVYGGIFMYPANKKSPKGKLRLLYECNPMAYVMEKAGGLATTGKEAVLDIVPTDIHQRAPIILGSPEDVTELLEIYQKHA NIVTLTRFVMEQGRKARGTGEMTQLLNSLCTAVKAISTAVRKAGIAHLYGIAGVKKLDVLSNDLVINVLKSSFATCVLVTEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKNSTDEPSEKDALQPGRNLVAAGYALYGSATMLVLAMVNGVNCFMLDPAIGEFILVDRNVKIKKKGSIYSINEGYAKEFDPAITEYIQRKKFPPDNSAPYGARYVGSMVADVHRTLVYGGIFMYPANKKSPKGKLRLLYECNPMAYVMEKAGGLATTGKEAVLDIVPTDIHQRAPIILGSPEDVTELLEIYQKHA 1kzq-a1-m1-cA_1kzq-a1-m1-cB crystal structure of a parasite protein P13664 P13664 1.7 X-RAY DIFFRACTION 90 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 253 253 PLVANQVVTCPDKKSTAAVILTPTENHFTLKCPKTALTEPPTLAYSPNRQICPAGTTSSCTSKAVTLSSLIPEAEDSWWTGDSASLDTAGIKLTVPIEKFPVTTQTFVVGCIKGDDAQSCMVTVTVQARASSVVNNVARCSYGADSTLGPVKLSAEGPTTMTLVCGKDGVKVPQDNNQYCSGTTLTGCNEKSFKDILPKLTENPWQGNASSDKGATLTIKKEAFPAESKSVIIGCTGGSPEKHHCTVKLEFAG PLVANQVVTCPDKKSTAAVILTPTENHFTLKCPKTALTEPPTLAYSPNRQICPAGTTSSCTSKAVTLSSLIPEAEDSWWTGDSASLDTAGIKLTVPIEKFPVTTQTFVVGCIKGDDAQSCMVTVTVQARASSVVNNVARCSYGADSTLGPVKLSAEGPTTMTLVCGKDGVKVPQDNNQYCSGTTLTGCNEKSFKDILPKLTENPWQGNASSDKGATLTIKKEAFPAESKSVIIGCTGGSPEKHHCTVKLEFAG 1kzy-a1-m1-cC_1kzy-a1-m1-cD Crystal Structure of the 53bp1 BRCT Region Complexed to Tumor Suppressor P53 Q12888 Q12888 2.5 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 ALEEQRGPLPLNKTLFLGYAFLLTMATIPPFNKQYTESQLRAGAGYILEDFNEAQCNTAYQCLLIADQHCRTRKYFLCLASGIPCVSHVWVHDSCHANQLQNYRNYLLPAGYSLEEQRILDWQPRENPFQNLKVLLVSDQQQNFLELWSEILMTGGAASVKQHHSSAHNKDIALGVFDVVVTDPSCPASVLKCAEALQLPVVSQEWVIQCLIVGERIGFKQHPKYKHDYVSH ALEEQRGPLPLNKTLFLGYAFLLTMATIPPFNKQYTESQLRAGAGYILEDFNEAQCNTAYQCLLIADQHCRTRKYFLCLASGIPCVSHVWVHDSCHANQLQNYRNYLLPAGYSLEEQRILDWQPRENPFQNLKVLLVSDQQQNFLELWSEILMTGGAASVKQHHSSAHNKDIALGVFDVVVTDPSCPASVLKCAEALQLPVVSQEWVIQCLIVGERIGFKQHPKYKHDYVSH 1l1o-a1-m1-cF_1l1o-a1-m1-cC Structure of the human Replication Protein A (RPA) trimerization core P27694 P27694 2.8 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 173 NTNWKTLYEVKSENLGQGDKPDYFSSVATVVYLRKENCMYQACPTQDCNKKVIDQQNGLYRCEKCDTEFPNFKYRMILSVNIADFQENQWVTCFQESAEAILGQNAAYLGELKDKNEQAFEEVFQNANFRSFIFRVRVKVEIKATVMDVKPVDYREYGRRLVMSIRRSALM NTNWKTLYEVKSENLGQGDKPDYFSSVATVVYLRKENCMYQACPTQDCNKKVIDQQNGLYRCEKCDTEFPNFKYRMILSVNIADFQENQWVTCFQESAEAILGQNAAYLGELKDKNEQAFEEVFQNANFRSFIFRVRVKVETYIKATVMDVKPVDYREYGRRLVMSIRRSALM 1l1q-a1-m1-cA_1l1q-a1-m2-cA Crystal Structure of APRTase from Giardia lamblia Complexed with 9-deazaadenine Q967M2 Q967M2 1.85 X-RAY DIFFRACTION 106 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 181 181 1l1r-a1-m1-cA_1l1r-a1-m2-cA TMSVADAHALIKTIPDFPTKGIAFKDLSDILSTPAALDAVRKEVTAHYKDVPITKVVGIESRGFILGGIVANSLGVGFVALRKAGKLPGDVCKCTFDMEYQKGVTIEVQKRQLGPHDVVLLHDDVLATGGTLLAAIELCETAGVKPENIYINVLYEIEALKGREKVGQKCTRLFSVIREHH TMSVADAHALIKTIPDFPTKGIAFKDLSDILSTPAALDAVRKEVTAHYKDVPITKVVGIESRGFILGGIVANSLGVGFVALRKAGKLPGDVCKCTFDMEYQKGVTIEVQKRQLGPHDVVLLHDDVLATGGTLLAAIELCETAGVKPENIYINVLYEIEALKGREKVGQKCTRLFSVIREHH 1l1s-a1-m2-cA_1l1s-a1-m3-cA Structure of Protein of Unknown Function MTH1491 from Methanobacterium thermoautotrophicum O27535 O27535 2.3 X-RAY DIFFRACTION 43 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 108 108 1l1s-a1-m1-cA_1l1s-a1-m2-cA 1l1s-a1-m1-cA_1l1s-a1-m3-cA DYRVVFHIDEDDESRVLLLISNVRNLADLESVRIEVVAYSGVNVLRRDSEYSGDVSELTGQGVRFCACSNTLRASGDGDDLLEGVDVVSSGVGHIVRRQTEGWAYIRP DYRVVFHIDEDDESRVLLLISNVRNLADLESVRIEVVAYSGVNVLRRDSEYSGDVSELTGQGVRFCACSNTLRASGDGDDLLEGVDVVSSGVGHIVRRQTEGWAYIRP 1l2i-a2-m2-cB_1l2i-a2-m1-cA Human Estrogen Receptor alpha Ligand-binding Domain in Complex with (R,R)-5,11-cis-diethyl-5,6,11,12-tetrahydrochrysene-2,8-diol and a Glucocorticoid Receptor Interacting Protein 1 NR box II Peptide P03372 P03372 1.95 X-RAY DIFFRACTION 21 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 231 233 5dxb-a1-m1-cB_5dxb-a1-m2-cA 7rrx-a1-m1-cB_7rrx-a1-m2-cA SLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEMLDAH SLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKCKNVVPLYDLLLEMLDAH 1l2j-a3-m2-cB_1l2j-a3-m3-cB Human Estrogen Receptor beta Ligand-binding Domain in Complex with (R,R)-5,11-cis-diethyl-5,6,11,12-tetrahydrochrysene-2,8-diol Q92731 Q92731 2.95 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 1l2j-a3-m1-cB_1l2j-a3-m2-cB 1l2j-a3-m1-cB_1l2j-a3-m3-cB MRELLLDALSPEQLVLTLLEAEPPHVMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMLVTATQDADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMVPVYDLLLEMLNA MRELLLDALSPEQLVLTLLEAEPPHVMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMLVTATQDADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMVPVYDLLLEMLNA 1l2t-a2-m1-cB_1l2t-a2-m2-cB Dimeric Structure of MJ0796, a Bacterial ABC Transporter Cassette Q58206 Q58206 1.9 X-RAY DIFFRACTION 14 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 232 232 MIKLKNVTKTYKMGEEIIYALKNVNLNIKEGEFVSIMGPSGSGKSTMLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGAMSGEERRKRALECLKMAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADQPTGALDSKTGEKIMQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLRGF MIKLKNVTKTYKMGEEIIYALKNVNLNIKEGEFVSIMGPSGSGKSTMLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGAMSGEERRKRALECLKMAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADQPTGALDSKTGEKIMQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLRGF 1l3a-a1-m1-cA_1l3a-a1-m1-cD Structure of the plant transcriptional regulator PBF-2 Q9LL85 Q9LL85 2.3 X-RAY DIFFRACTION 94 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 166 171 1l3a-a1-m1-cA_1l3a-a1-m1-cB 1l3a-a1-m1-cB_1l3a-a1-m1-cC 1l3a-a1-m1-cD_1l3a-a1-m1-cC TPKVFVGYSIYKGKAALTVEPRSPEFSPLDSGAFKLSREGMVMLQFAPAAGVRQYDWSRKQVFSLSVTEIGSIISLGTKDSCEFFHDPNKGRSDEGRVRKVLKVEPLPDGSGHFFNLSVQNKLINLDENIYIPVTKAEFAVLVSAFNFVMPYLLGWHTAVNSFKPE TPKVFVGYSIYKGKAALTVEPRSPEFSPLDSGAFKLSREGMVMLQFAPAAGVRQYDWSRKQVFSLSVTEIGSIISLGTKDSCEFFHDPNKGRSDEGRVRKVLKVEPLPDGSGHFFNLSVQNKLINLDENIYIPVTKAEFAVLVSAFNFVMPYLLGWHTAVNSFKPEGAELE 1l3l-a2-m1-cC_1l3l-a2-m1-cA Crystal structure of a bacterial quorum-sensing transcription factor complexed with pheromone and DNA P33905 P33905 1.66 X-RAY DIFFRACTION 146 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 219 228 1h0m-a1-m1-cA_1h0m-a1-m1-cB 1h0m-a2-m1-cC_1h0m-a2-m1-cD 1l3l-a1-m1-cD_1l3l-a1-m1-cB QHWLDKLTDLAAIEGDECILKTGLADIADHFGFTGYAYLHIQHRHITAVTNYHRQWQSTYFDKKFEALDPVVKRARSRKHIFTWSGEHERPTLSKDERAFYDHASDFGIRSGITIPIKTANGFSFTASDKPVIDLDREIDAVAAAATIGQIHARISFLAWLDPKEATYLRWIAVGKTEEIADVEGVKYNSVRVKLREAKRFDVRSKAHLTALAIRRKLI QHWLDKLTDLAAIEGDECILKTGLADIADHFGFTGYAYLHIQHRHITAVTNYHRQWQSTYFDKKFEALDPVVKRARSRKHIFTWSGEHERPTLSKDERAFYDHASDFGIRSGITIPIKTANGFSFTASDKPVIDLDREIDAVAAAATIGQIHARISFLRTTPTAEDAAWLDPKEATYLRWIAVGKTEEIADVEGVKYNSVRVKLREAKRFDVRSKAHLTALAIRRKLI 1l3p-a1-m1-cA_1l3p-a1-m2-cA CRYSTAL STRUCTURE OF THE FUNCTIONAL DOMAIN OF THE MAJOR GRASS POLLEN ALLERGEN Phl p 5b Q40963 Q40963 1.98 X-RAY DIFFRACTION 49 1.0 15957 (Phleum pratense) 15957 (Phleum pratense) 102 102 IPAGELQIIDKIDAAFKVAATAAATAPADDKFTVFEAAFNKAIKETTGGAYDTYKCIPSLEAAVKQAYAATVAAAPQVKYAVFEAALTKAITAMSEVQKVSQ IPAGELQIIDKIDAAFKVAATAAATAPADDKFTVFEAAFNKAIKETTGGAYDTYKCIPSLEAAVKQAYAATVAAAPQVKYAVFEAALTKAITAMSEVQKVSQ 1l4i-a1-m1-cA_1l4i-a1-m1-cB Crystal Structure of the Periplasmic Chaperone SfaE P62609 P62609 2.2 X-RAY DIFFRACTION 62 0.989 562 (Escherichia coli) 562 (Escherichia coli) 189 189 GVALGATRVIYPEGQKQVQLAVTNNDDKSSYLIQSWIENAEGKKDARFVITPPLFSMQGKKENTLRIIDATNGQMPEDRESLFWVNVKAIPAMDLQFAIVSRIKLLYRPQGLVIPPEQAPGKLEFTRELTLFNPTPYYLTVTDLKAGNKSLENTMVPPQGKVTVNIGGDITYKTINDYGALTEQVRGVV GVALGATRVIYPEGQKQVQLAVTNNDDKSSYLIQSWIENAEGKKDARFVITPPLFSMQGKKENTLRIIDATNGQMPEDRESLFWVNVKAIPAMQFAIVSRIKLLYRPQGLVIPPEQAPGKLEFTRELTLFNPTPYYLTVTDLKAGNKSLENTMVPPQGKVTVNIPGGDITYKTINDYGALTEQVRGVVK 1l4x-a1-m1-cA_1l4x-a1-m1-cH Octameric de novo designed peptide 2 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 1l4x-a1-m1-cD_1l4x-a1-m1-cE DELERAIRELAARIK DELERAIRELAARIK 1l4x-a1-m1-cE_1l4x-a1-m1-cF Octameric de novo designed peptide 2 X-RAY DIFFRACTION 13 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 1l4x-a1-m1-cA_1l4x-a1-m1-cB DELERAIRELAARIK DELERAIRELAARIK 1l4x-a1-m1-cF_1l4x-a1-m1-cG Octameric de novo designed peptide 2 X-RAY DIFFRACTION 23 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 1l4x-a1-m1-cB_1l4x-a1-m1-cC DELERAIRELAARIK DELERAIRELAARIK 1l4x-a1-m1-cG_1l4x-a1-m1-cH Octameric de novo designed peptide 2 X-RAY DIFFRACTION 26 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 15 1l4x-a1-m1-cC_1l4x-a1-m1-cD DELERAIRELAARIK DELERAIRELAARIK 1l4z-a2-m1-cB_1l4z-a2-m2-cB X-RAY CRYSTAL STRUCTURE OF THE COMPLEX OF MICROPLASMINOGEN WITH ALPHA DOMAIN OF STREPTOKINASE IN THE PRESENCE CADMIUM IONS P00779 P00779 2.8 X-RAY DIFFRACTION 60 1.0 119602 (Streptococcus dysgalactiae subsp. equisimilis) 119602 (Streptococcus dysgalactiae subsp. equisimilis) 125 125 MIAGPEALLDRPSVNNSQLVVSVAGTVEGTNQDISLKFFEIDLTSRAMPHKLEKADLLKAIQEQLIANVHSNDDYFEVIDFASDATITDRNGKVYFADKDGSVTLPTQPVQEFLLSGHVRVRPYK MIAGPEALLDRPSVNNSQLVVSVAGTVEGTNQDISLKFFEIDLTSRAMPHKLEKADLLKAIQEQLIANVHSNDDYFEVIDFASDATITDRNGKVYFADKDGSVTLPTQPVQEFLLSGHVRVRPYK 1l5e-a1-m1-cA_1l5e-a1-m1-cB The domain-swapped dimer of CV-N in solution P81180 P81180 NOT SOLUTION NMR 264 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 1j4v-a1-m1-cA_1j4v-a1-m1-cB LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQPSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQPSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 1l5x-a2-m1-cA_1l5x-a2-m2-cB The 2.0-Angstrom resolution crystal structure of a survival protein E (SurE) homolog from Pyrobaculum aerophilum Q8ZU79 Q8ZU79 2 X-RAY DIFFRACTION 26 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 270 272 1l5x-a2-m2-cA_1l5x-a2-m1-cB KILVTNDDGVHSPGLRLLYQFALSLGDVDVVAPESPKSATGLGITLHKPLRYEVDLCGFRAIATSGTPSDTVYLATFGLGRKYDIVLSGINLGDNTSLQVILSSGTLGAAFQAALLGIPALAYSAYLENWNELLNNKEAVEIGAVVSSTASYVLKNGPQGVDVISVNFPRRLGRGVRAKLVKAAKLRYAQQVVERVDPRGVRYYWLYGRDLAPEPETDVYVVLKEGGIAITPLTLNLNAVDAHREVDDSLNRVEYINASLSKLAAALEHH KILVTNDDGVHSPGLRLLYQFALSLGDVDVVAPESPKSATGLGITLHKPLRYEVDLCGFRAIATSGTPSDTVYLATFGLGRKYDIVLSGINLGDNTSLQVILSSGTLGAAFQAALLGIPALAYSAYLENWNELLNNKEAVEIGAVVSSTASYVLKNGPQGVDVISVNFPRRLGRGVRAKLVKAAKLRYAQQVVERVDPRGVRYYWLYGRDLAPEPETDVYVVLKEGGIAITPLTLNLNAVDAHREVDDSLNRVEYINASLSKLAAALEHHHH 1l5x-a2-m1-cB_1l5x-a2-m2-cB The 2.0-Angstrom resolution crystal structure of a survival protein E (SurE) homolog from Pyrobaculum aerophilum Q8ZU79 Q8ZU79 2 X-RAY DIFFRACTION 30 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 272 272 1l5x-a2-m1-cA_1l5x-a2-m2-cA KILVTNDDGVHSPGLRLLYQFALSLGDVDVVAPESPKSATGLGITLHKPLRYEVDLCGFRAIATSGTPSDTVYLATFGLGRKYDIVLSGINLGDNTSLQVILSSGTLGAAFQAALLGIPALAYSAYLENWNELLNNKEAVEIGAVVSSTASYVLKNGPQGVDVISVNFPRRLGRGVRAKLVKAAKLRYAQQVVERVDPRGVRYYWLYGRDLAPEPETDVYVVLKEGGIAITPLTLNLNAVDAHREVDDSLNRVEYINASLSKLAAALEHHHH KILVTNDDGVHSPGLRLLYQFALSLGDVDVVAPESPKSATGLGITLHKPLRYEVDLCGFRAIATSGTPSDTVYLATFGLGRKYDIVLSGINLGDNTSLQVILSSGTLGAAFQAALLGIPALAYSAYLENWNELLNNKEAVEIGAVVSSTASYVLKNGPQGVDVISVNFPRRLGRGVRAKLVKAAKLRYAQQVVERVDPRGVRYYWLYGRDLAPEPETDVYVVLKEGGIAITPLTLNLNAVDAHREVDDSLNRVEYINASLSKLAAALEHHHH 1l5x-a2-m2-cA_1l5x-a2-m2-cB The 2.0-Angstrom resolution crystal structure of a survival protein E (SurE) homolog from Pyrobaculum aerophilum Q8ZU79 Q8ZU79 2 X-RAY DIFFRACTION 188 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 270 272 1l5x-a1-m1-cA_1l5x-a1-m1-cB 1l5x-a2-m1-cA_1l5x-a2-m1-cB KILVTNDDGVHSPGLRLLYQFALSLGDVDVVAPESPKSATGLGITLHKPLRYEVDLCGFRAIATSGTPSDTVYLATFGLGRKYDIVLSGINLGDNTSLQVILSSGTLGAAFQAALLGIPALAYSAYLENWNELLNNKEAVEIGAVVSSTASYVLKNGPQGVDVISVNFPRRLGRGVRAKLVKAAKLRYAQQVVERVDPRGVRYYWLYGRDLAPEPETDVYVVLKEGGIAITPLTLNLNAVDAHREVDDSLNRVEYINASLSKLAAALEHH KILVTNDDGVHSPGLRLLYQFALSLGDVDVVAPESPKSATGLGITLHKPLRYEVDLCGFRAIATSGTPSDTVYLATFGLGRKYDIVLSGINLGDNTSLQVILSSGTLGAAFQAALLGIPALAYSAYLENWNELLNNKEAVEIGAVVSSTASYVLKNGPQGVDVISVNFPRRLGRGVRAKLVKAAKLRYAQQVVERVDPRGVRYYWLYGRDLAPEPETDVYVVLKEGGIAITPLTLNLNAVDAHREVDDSLNRVEYINASLSKLAAALEHHHH 1l5y-a1-m1-cA_1l5y-a1-m1-cB CRYSTAL STRUCTURE OF MG2+ / BEF3-BOUND RECEIVER DOMAIN OF SINORHIZOBIUM MELILOTI DCTD P13632 P13632 2.1 X-RAY DIFFRACTION 31 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 143 151 PSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA AAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAAALEHHH 1l5z-a2-m1-cA_1l5z-a2-m4-cA CRYSTAL STRUCTURE OF THE E121K SUBSTITUTION OF THE RECEIVER DOMAIN OF SINORHIZOBIUM MELILOTI DCTD P13632 P13632 2 X-RAY DIFFRACTION 31 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 146 146 1l5z-a2-m2-cA_1l5z-a2-m3-cA SAAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA SAAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA 1l5z-a2-m2-cA_1l5z-a2-m4-cA CRYSTAL STRUCTURE OF THE E121K SUBSTITUTION OF THE RECEIVER DOMAIN OF SINORHIZOBIUM MELILOTI DCTD P13632 P13632 2 X-RAY DIFFRACTION 27 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 146 146 1l5z-a2-m1-cA_1l5z-a2-m3-cA SAAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA SAAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA 1l5z-a2-m3-cA_1l5z-a2-m4-cA CRYSTAL STRUCTURE OF THE E121K SUBSTITUTION OF THE RECEIVER DOMAIN OF SINORHIZOBIUM MELILOTI DCTD P13632 P13632 2 X-RAY DIFFRACTION 45 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 146 146 1l5z-a1-m1-cA_1l5z-a1-m2-cA 1l5z-a2-m1-cA_1l5z-a2-m2-cA 1qkk-a1-m1-cA_1qkk-a1-m2-cA SAAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA SAAPSVFLIDDDRDLRKAMQQTLELAGFTVSSFASATEALAGLSADFAGIVISDIRMPGMDGLALFRKILALDPDLPMILVTGHGDIPMAVQAIQDGAYDFIAKPFAADRLVQSARRAEKKRRLVMENRSLRRAAEAASEGLKLAA 1l6o-a1-m1-cB_1l6o-a1-m1-cA XENOPUS DISHEVELLED PDZ DOMAIN P51142 P51142 2.2 X-RAY DIFFRACTION 24 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 88 90 IITVTLNEKYNFLGISIVGQSNERGDGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKLEH IITVTLNEKYNFLGISIVGQSNERGDGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKLEHHH 1l6o-a1-m1-cC_1l6o-a1-m1-cA XENOPUS DISHEVELLED PDZ DOMAIN P51142 P51142 2.2 X-RAY DIFFRACTION 10 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 87 90 IITVTLNEKYNFLGISIVGQSNERGDGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKLE IITVTLNEKYNFLGISIVGQSNERGDGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKLEHHH 1l6r-a1-m1-cA_1l6r-a1-m1-cB Crystal Structure of Thermoplasma acidophilum 0175 (APC0014) Q9HLQ2 Q9HLQ2 1.4 X-RAY DIFFRACTION 42 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 225 225 1kyt-a1-m1-cA_1kyt-a1-m1-cB HMIRLAAIDVDGNLTDRDRLISTKAIESIRSAEKKGLTVSLLSGNVIPVVYALKIFLGINGPVFGENGGIMFDNDGSIKKFFSNEGTNKFLEEMSKRTSMRSILTNRWREASTGFDIDPEDVDYVRKEAESRGFVIFYSGYSWHLMNRGEDKAFAVNKLKEMYSLEYDEILVIGDSNNDMPMFQLPVRKACPANATDNIKAVSDFVSDYSYGEEIGQIFKHFELM HMIRLAAIDVDGNLTDRDRLISTKAIESIRSAEKKGLTVSLLSGNVIPVVYALKIFLGINGPVFGENGGIMFDNDGSIKKFFSNEGTNKFLEEMSKRTSMRSILTNRWREASTGFDIDPEDVDYVRKEAESRGFVIFYSGYSWHLMNRGEDKAFAVNKLKEMYSLEYDEILVIGDSNNDMPMFQLPVRKACPANATDNIKAVSDFVSDYSYGEEIGQIFKHFELM 1l6r-a2-m1-cA_1l6r-a2-m2-cB Crystal Structure of Thermoplasma acidophilum 0175 (APC0014) Q9HLQ2 Q9HLQ2 1.4 X-RAY DIFFRACTION 61 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 225 225 1kyt-a2-m1-cA_1kyt-a2-m2-cB HMIRLAAIDVDGNLTDRDRLISTKAIESIRSAEKKGLTVSLLSGNVIPVVYALKIFLGINGPVFGENGGIMFDNDGSIKKFFSNEGTNKFLEEMSKRTSMRSILTNRWREASTGFDIDPEDVDYVRKEAESRGFVIFYSGYSWHLMNRGEDKAFAVNKLKEMYSLEYDEILVIGDSNNDMPMFQLPVRKACPANATDNIKAVSDFVSDYSYGEEIGQIFKHFELM HMIRLAAIDVDGNLTDRDRLISTKAIESIRSAEKKGLTVSLLSGNVIPVVYALKIFLGINGPVFGENGGIMFDNDGSIKKFFSNEGTNKFLEEMSKRTSMRSILTNRWREASTGFDIDPEDVDYVRKEAESRGFVIFYSGYSWHLMNRGEDKAFAVNKLKEMYSLEYDEILVIGDSNNDMPMFQLPVRKACPANATDNIKAVSDFVSDYSYGEEIGQIFKHFELM 1l7o-a3-m1-cA_1l7o-a3-m1-cB CRYSTAL STRUCTURE OF PHOSPHOSERINE PHOSPHATASE IN APO FORM Q58989 Q58989 2.2 X-RAY DIFFRACTION 15 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 199 206 KKKLILFNFDSTLVNNETIDEIAREAGVEEEVKKITNFEQSLRKRVSLLKDLPIEKVEKAIKRITPTEGAEETIKELKNRGYVVAVVSGGFDIAVNKIKEKLGLDYAFANRLIVKDGKLTGDVEGEVLKENAKGEILEKIAKIEGINLEDTVAVGDGANDISFKKAGLKIAFCAKPILKEKADICIEKRDLREILKYIK KKKLILFNFDSTLVNNETIDEIAREAGVEEEVKKITKEAEGKLNFEQSLRKRVSLLKDLPIEKVEKAIKRITPTEGAEETIKELKNRGYVVAVVSGGFDIAVNKIKEKLGLDYAFANRLIVKDGKLTGDVEGEVLKENAKGEILEKIAKIEGINLEDTVAVGDGANDISFKKAGLKIAFCAKPILKEKADICIEKRDLREILKYIK 1l8d-a1-m1-cB_1l8d-a1-m1-cA Rad50 coiled-coil Zn hook P58301 P58301 2.2 X-RAY DIFFRACTION 51 0.99 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 102 103 MKKLLEELETKKTTIEEERNEITQRIGELKNKIGDLKTAIEELKKAKGKCPVCGRELTDEHREELLSKYHLDLNNSKNTLAKLIDRKSELERELRRIDMEIK KKLLEELETKKTTIEEERNEITQRIGELKNKIGDLKTAIEELKKAKGKCPVCGRELTDEHREELLSKYHLDLNNSKNTLAKLIDRKSELERELRRIDMEIKRL 1l8l-a1-m1-cA_1l8l-a1-m1-cB Molecular basis for the local confomational rearrangement of human phosphoserine phosphatase P78330 P78330 2.51 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 222 222 1l8o-a1-m1-cA_1l8o-a1-m1-cB HSELRKLFYSADAVCFDVDSTVIREEGIDELAKICGVEDAVSEMTRRAMGGAVPFKAALTERLALIQPSREQVQRLIAEQPPHLTPGIRELVSRLQERNVQVFLISGGFRSIVEHVASKLNIPATNVFANRLKFYFNGEYAGFDETQPTAESGGKGKVIKFLKEKFHFKKIIMIGDGATDMEACPPADAFIGFGGNVIRQQVKDNAKWYITDFVELLGELEE HSELRKLFYSADAVCFDVDSTVIREEGIDELAKICGVEDAVSEMTRRAMGGAVPFKAALTERLALIQPSREQVQRLIAEQPPHLTPGIRELVSRLQERNVQVFLISGGFRSIVEHVASKLNIPATNVFANRLKFYFNGEYAGFDETQPTAESGGKGKVIKFLKEKFHFKKIIMIGDGATDMEACPPADAFIGFGGNVIRQQVKDNAKWYITDFVELLGELEE 1l8p-a2-m1-cC_1l8p-a2-m1-cD Mg-phosphonoacetohydroxamate complex of S39A yeast enolase 1 P00924 P00924 2.1 X-RAY DIFFRACTION 139 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 436 436 1ebg-a1-m1-cA_1ebg-a1-m1-cB 1ebh-a1-m1-cA_1ebh-a1-m1-cB 1els-a1-m1-cA_1els-a1-m2-cA 1l8p-a1-m1-cA_1l8p-a1-m1-cB 1nel-a1-m1-cA_1nel-a1-m2-cA 1one-a1-m1-cA_1one-a1-m1-cB 1p43-a1-m1-cA_1p43-a1-m1-cB 1p48-a1-m1-cA_1p48-a1-m1-cB 2al1-a1-m1-cB_2al1-a1-m1-cA 2al2-a1-m1-cB_2al2-a1-m1-cA 2one-a1-m1-cA_2one-a1-m1-cB 2xgz-a1-m1-cA_2xgz-a1-m1-cB 2xh0-a1-m1-cA_2xh0-a1-m1-cB 2xh0-a2-m1-cC_2xh0-a2-m1-cD 2xh2-a1-m1-cC_2xh2-a1-m1-cD 2xh2-a2-m1-cA_2xh2-a2-m1-cB 2xh4-a1-m1-cD_2xh4-a1-m1-cC 2xh4-a2-m1-cB_2xh4-a2-m1-cA 2xh7-a1-m1-cA_2xh7-a1-m1-cB 3enl-a1-m1-cA_3enl-a1-m2-cA 4enl-a1-m1-cA_4enl-a1-m2-cA 5enl-a1-m1-cA_5enl-a1-m2-cA 6enl-a1-m1-cA_6enl-a1-m2-cA 7enl-a1-m1-cA_7enl-a1-m2-cA AVSKVYARSVYDSRGNPTVEVELTTEKGVFRSIVPSGAATGVHEALEMRDGDKSKWMGKGVLHAVKNVNDVIAPAFVKANIDVKDQKAVDDFLISLDGTANKSKLGANAILGVSLAASRAAAAEKNVPLYKHLADLSKSKTSPYVLPVPFLNVLNGGSHAGGALALQEFMIAPTGAKTFAEALRIGSEVYHNLKSLTKKRYGASAGNVGDEGGVAPNIQTAEEALDLIVDAIKAAGHDGKVKIGLDCASSEFFKDGKYDLDFKNPNSDKSKWLTGPQLADLYHSLMKRYPIVSIEDPFAEDDWEAWSHFFKTAGIQIVADDLTVTNPKRIATAIEKKAADALLLKVNQIGTLSESIKAAQDSFAAGWGVMVSHRSGETEDTFIADLVVGLRTGQIKTGAPARSERLAKLNQLLRIEEELGDNAVFAGENFHHGDKL AVSKVYARSVYDSRGNPTVEVELTTEKGVFRSIVPSGAATGVHEALEMRDGDKSKWMGKGVLHAVKNVNDVIAPAFVKANIDVKDQKAVDDFLISLDGTANKSKLGANAILGVSLAASRAAAAEKNVPLYKHLADLSKSKTSPYVLPVPFLNVLNGGSHAGGALALQEFMIAPTGAKTFAEALRIGSEVYHNLKSLTKKRYGASAGNVGDEGGVAPNIQTAEEALDLIVDAIKAAGHDGKVKIGLDCASSEFFKDGKYDLDFKNPNSDKSKWLTGPQLADLYHSLMKRYPIVSIEDPFAEDDWEAWSHFFKTAGIQIVADDLTVTNPKRIATAIEKKAADALLLKVNQIGTLSESIKAAQDSFAAGWGVMVSHRSGETEDTFIADLVVGLRTGQIKTGAPARSERLAKLNQLLRIEEELGDNAVFAGENFHHGDKL 1l8s-a1-m1-cA_1l8s-a1-m1-cB CARBOXYLIC ESTER HYDROLASE COMPLEX (DIMERIC PLA2 + LPC-ether + ACETATE + PHOSPHATE IONS) P00592 P00592 1.55 X-RAY DIFFRACTION 47 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 124 124 1fx9-a1-m1-cA_1fx9-a1-m1-cB 1fxf-a1-m1-cA_1fxf-a1-m1-cB 1y6o-a3-m1-cA_1y6o-a3-m1-cB ALWQFRSMIKCAIPGSHPLMDFNNYGCYCGLGGSGTPVDELDRCCETHDNCYRDAKNLDSCKFLVDNPYTESYSYSCSNTEITCNSKNNACEAFICNCDRNAAICFSKAPYNKEHKNLDTKKYC ALWQFRSMIKCAIPGSHPLMDFNNYGCYCGLGGSGTPVDELDRCCETHDNCYRDAKNLDSCKFLVDNPYTESYSYSCSNTEITCNSKNNACEAFICNCDRNAAICFSKAPYNKEHKNLDTKKYC 1l8w-a6-m1-cA_1l8w-a6-m1-cC Crystal Structure of Lyme Disease Variable Surface Antigen VlsE of Borrelia burgdorferi O06878 O06878 2.3 X-RAY DIFFRACTION 158 0.993 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 269 272 1l8w-a5-m1-cB_1l8w-a5-m1-cD GGLVAEAFGFKSDPKKSDVKTYFTTVAAKLEKTKTDLNSLPTAVEGAIKEVSELLDKLVKAVKTAEGASSGTAAIGEVVADADAAKVADKASVKGIAKGIKEIVEAAGGSEKLKAVAAAKGENNKGAGKLFGKAGAAAHGDSEAASKAAGAVSAVSGEQILSAIVTAADAAEQDGKKPEEAKNPIAAAIGDKDGGAEFGQDEKKDDQIAAAIALRGAKDGKFAVKDGEKEKAEGAIKGAAESAVRKVLGAITGLIGDAVSSGLRKVGDS GGLVAEAFGFKSDPKKSDVKTYFTTVAAKLEKTKTDLNSTAVEGAIKEVSELLDKLVKAVKTAEGASSGTAAIGEVVADADAAKVADKASVKGIAKGIKEIVEAAGGSEKLKAVAAAKGENNKGAGKLFGKAGAAAHGDSEAASKAAGAVSAVSGEQILSAIVTAADAAEQDGKKPEEAKNPIAAAIGDKDGGAEFGQDEKKDDQIAAAIALRGAKDGKFAVKDGEKEKAEGAIKGAAESAVRKVLGAITGLIGDAVSSGLRKVGDSVKAAS 1l9n-a1-m1-cA_1l9n-a1-m1-cB Three-dimensional structure of the human transglutaminase 3 enzyme: binding of calcium ions change structure for activation Q08188 Q08188 2.1 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 673 673 1l9m-a1-m1-cA_1l9m-a1-m1-cB AALGVQSINWQTAFNRQAHHTDKFSSQELILRRGQNFQVLMIMNKGLGSNERLEFIVSTGPYPSESAMTKAVFPLSNGSSGGWSAVLQASNGNTLTISISSPASAPIGRYTMALQIFSQGGISSVKLGTFILLFNPWLNVDSVFMGNHAEREEYVQEDAGIIFVGSTNRIGMIGWNFGQFEEDILSICLSILDRSLNFRRDAATDVASRNDPKYVGRVLSAMINSNDDNGVLAGNWSGTYTGGRDPRSWDGSVEILKNWKKSGLSPVRYGQCWVFAGTLNTALRSLGIPSRVITNFNSAHDTDRNLSVDVYYDPMGNPLDKGSDSVWNFHVWNEGWFVRSDLGPSYGGWQVLDATPQERSQGVFQCGPASVIGVREGDVQLNFDMPFIFAEVNADRITWLYDNTTGKQWKNSVNSHTIGRYISTKAVGSNARMDVTDKYKYPEGSDQERQVFQKALGKLKPSIIGKLKVAGMLAVGKEVNLVLLLKNLSRDTKTVTVNMTAWTIIYNGTLVHEVWKDSATMSLDPEEEAEHPIKISYAQYERYLKSDNMIRITAVCKVPDESEVVVERDIILDNPTLTLEVLNEARVRKPVNVQMLFSNPLDEPVRDCVLMVEGSGLLLGNLKIDVPTLGPKERSRVRFDILPSRSGTKQLLADFSCNKFPAIKAMLSIDVAE AALGVQSINWQTAFNRQAHHTDKFSSQELILRRGQNFQVLMIMNKGLGSNERLEFIVSTGPYPSESAMTKAVFPLSNGSSGGWSAVLQASNGNTLTISISSPASAPIGRYTMALQIFSQGGISSVKLGTFILLFNPWLNVDSVFMGNHAEREEYVQEDAGIIFVGSTNRIGMIGWNFGQFEEDILSICLSILDRSLNFRRDAATDVASRNDPKYVGRVLSAMINSNDDNGVLAGNWSGTYTGGRDPRSWDGSVEILKNWKKSGLSPVRYGQCWVFAGTLNTALRSLGIPSRVITNFNSAHDTDRNLSVDVYYDPMGNPLDKGSDSVWNFHVWNEGWFVRSDLGPSYGGWQVLDATPQERSQGVFQCGPASVIGVREGDVQLNFDMPFIFAEVNADRITWLYDNTTGKQWKNSVNSHTIGRYISTKAVGSNARMDVTDKYKYPEGSDQERQVFQKALGKLKPSIIGKLKVAGMLAVGKEVNLVLLLKNLSRDTKTVTVNMTAWTIIYNGTLVHEVWKDSATMSLDPEEEAEHPIKISYAQYERYLKSDNMIRITAVCKVPDESEVVVERDIILDNPTLTLEVLNEARVRKPVNVQMLFSNPLDEPVRDCVLMVEGSGLLLGNLKIDVPTLGPKERSRVRFDILPSRSGTKQLLADFSCNKFPAIKAMLSIDVAE 1lam-a1-m2-cA_1lam-a1-m6-cA LEUCINE AMINOPEPTIDASE (UNLIGATED) P00727 P00727 1.6 X-RAY DIFFRACTION 33 1.0 9913 (Bos taurus) 9913 (Bos taurus) 484 484 1bll-a1-m1-cE_1bll-a1-m4-cE 1bll-a1-m2-cE_1bll-a1-m6-cE 1bll-a1-m3-cE_1bll-a1-m5-cE 1bpm-a1-m1-cA_1bpm-a1-m4-cA 1bpm-a1-m2-cA_1bpm-a1-m6-cA 1bpm-a1-m3-cA_1bpm-a1-m5-cA 1bpn-a1-m1-cA_1bpn-a1-m4-cA 1bpn-a1-m2-cA_1bpn-a1-m6-cA 1bpn-a1-m3-cA_1bpn-a1-m5-cA 1lam-a1-m1-cA_1lam-a1-m4-cA 1lam-a1-m3-cA_1lam-a1-m5-cA 1lan-a1-m1-cA_1lan-a1-m4-cA 1lan-a1-m2-cA_1lan-a1-m6-cA 1lan-a1-m3-cA_1lan-a1-m5-cA 1lap-a1-m1-cA_1lap-a1-m4-cA 1lap-a1-m2-cA_1lap-a1-m6-cA 1lap-a1-m3-cA_1lap-a1-m5-cA 1lcp-a1-m1-cA_1lcp-a1-m3-cB 1lcp-a1-m1-cB_1lcp-a1-m2-cA 1lcp-a1-m2-cB_1lcp-a1-m3-cA 2ewb-a1-m1-cA_2ewb-a1-m4-cA 2ewb-a1-m2-cA_2ewb-a1-m6-cA 2ewb-a1-m3-cA_2ewb-a1-m5-cA 2j9a-a1-m1-cA_2j9a-a1-m6-cA 2j9a-a1-m2-cA_2j9a-a1-m5-cA 2j9a-a1-m3-cA_2j9a-a1-m4-cA TKGLVLGIYSKEKEEDEPQFTSAGENFNKLVSGKLREILNISGPPLKAGKTRTFYGLHEDFPSVVVVGLGKKTAGIDEQENWHEGKENIRAAVAAGCRQIQDLEIPSVEVDPCGDAQAAAEGAVLGLYEYDDLKQKRKVVVSAKLHGSEDQEAWQRGVLFASGQNLARRLMETPANEMTPTKFAEIVEENLKSASIKTDVFIRPKSWIEEQEMGSFLSVAKGSEEPPVFLEIHYKGSPNASEPPLVFVGKGITFDSGGISIKAAANMDLMRADMGGAATICSAIVSAAKLDLPINIVGLAPLCENMPSGKANKPGDVVRARNGKTIQVDNTDAEGRLILADALCYAHTFNPKVIINAATLTGAMDIALGSGATGVFTNSSWLWNKLFEASIETGDRVWRMPLFEHYTRQVIDCQLADVNNIGKYRSAGACTAAAFLKEFVTHPKWAHLDIAGVMTNKDEVPYLRKGMAGRPTRTLIEFLFRFSQ TKGLVLGIYSKEKEEDEPQFTSAGENFNKLVSGKLREILNISGPPLKAGKTRTFYGLHEDFPSVVVVGLGKKTAGIDEQENWHEGKENIRAAVAAGCRQIQDLEIPSVEVDPCGDAQAAAEGAVLGLYEYDDLKQKRKVVVSAKLHGSEDQEAWQRGVLFASGQNLARRLMETPANEMTPTKFAEIVEENLKSASIKTDVFIRPKSWIEEQEMGSFLSVAKGSEEPPVFLEIHYKGSPNASEPPLVFVGKGITFDSGGISIKAAANMDLMRADMGGAATICSAIVSAAKLDLPINIVGLAPLCENMPSGKANKPGDVVRARNGKTIQVDNTDAEGRLILADALCYAHTFNPKVIINAATLTGAMDIALGSGATGVFTNSSWLWNKLFEASIETGDRVWRMPLFEHYTRQVIDCQLADVNNIGKYRSAGACTAAAFLKEFVTHPKWAHLDIAGVMTNKDEVPYLRKGMAGRPTRTLIEFLFRFSQ 1lam-a1-m3-cA_1lam-a1-m6-cA LEUCINE AMINOPEPTIDASE (UNLIGATED) P00727 P00727 1.6 X-RAY DIFFRACTION 93 1.0 9913 (Bos taurus) 9913 (Bos taurus) 484 484 1bll-a1-m1-cE_1bll-a1-m5-cE 1bll-a1-m2-cE_1bll-a1-m4-cE 1bll-a1-m3-cE_1bll-a1-m6-cE 1bpm-a1-m1-cA_1bpm-a1-m5-cA 1bpm-a1-m2-cA_1bpm-a1-m4-cA 1bpm-a1-m3-cA_1bpm-a1-m6-cA 1bpn-a1-m1-cA_1bpn-a1-m5-cA 1bpn-a1-m2-cA_1bpn-a1-m4-cA 1bpn-a1-m3-cA_1bpn-a1-m6-cA 1lam-a1-m1-cA_1lam-a1-m5-cA 1lam-a1-m2-cA_1lam-a1-m4-cA 1lan-a1-m1-cA_1lan-a1-m5-cA 1lan-a1-m2-cA_1lan-a1-m4-cA 1lan-a1-m3-cA_1lan-a1-m6-cA 1lap-a1-m1-cA_1lap-a1-m5-cA 1lap-a1-m2-cA_1lap-a1-m4-cA 1lap-a1-m3-cA_1lap-a1-m6-cA 1lcp-a1-m1-cA_1lcp-a1-m1-cB 1lcp-a1-m2-cA_1lcp-a1-m2-cB 1lcp-a1-m3-cA_1lcp-a1-m3-cB 2ewb-a1-m1-cA_2ewb-a1-m5-cA 2ewb-a1-m2-cA_2ewb-a1-m4-cA 2ewb-a1-m3-cA_2ewb-a1-m6-cA 2j9a-a1-m1-cA_2j9a-a1-m2-cA 2j9a-a1-m3-cA_2j9a-a1-m5-cA 2j9a-a1-m4-cA_2j9a-a1-m6-cA TKGLVLGIYSKEKEEDEPQFTSAGENFNKLVSGKLREILNISGPPLKAGKTRTFYGLHEDFPSVVVVGLGKKTAGIDEQENWHEGKENIRAAVAAGCRQIQDLEIPSVEVDPCGDAQAAAEGAVLGLYEYDDLKQKRKVVVSAKLHGSEDQEAWQRGVLFASGQNLARRLMETPANEMTPTKFAEIVEENLKSASIKTDVFIRPKSWIEEQEMGSFLSVAKGSEEPPVFLEIHYKGSPNASEPPLVFVGKGITFDSGGISIKAAANMDLMRADMGGAATICSAIVSAAKLDLPINIVGLAPLCENMPSGKANKPGDVVRARNGKTIQVDNTDAEGRLILADALCYAHTFNPKVIINAATLTGAMDIALGSGATGVFTNSSWLWNKLFEASIETGDRVWRMPLFEHYTRQVIDCQLADVNNIGKYRSAGACTAAAFLKEFVTHPKWAHLDIAGVMTNKDEVPYLRKGMAGRPTRTLIEFLFRFSQ TKGLVLGIYSKEKEEDEPQFTSAGENFNKLVSGKLREILNISGPPLKAGKTRTFYGLHEDFPSVVVVGLGKKTAGIDEQENWHEGKENIRAAVAAGCRQIQDLEIPSVEVDPCGDAQAAAEGAVLGLYEYDDLKQKRKVVVSAKLHGSEDQEAWQRGVLFASGQNLARRLMETPANEMTPTKFAEIVEENLKSASIKTDVFIRPKSWIEEQEMGSFLSVAKGSEEPPVFLEIHYKGSPNASEPPLVFVGKGITFDSGGISIKAAANMDLMRADMGGAATICSAIVSAAKLDLPINIVGLAPLCENMPSGKANKPGDVVRARNGKTIQVDNTDAEGRLILADALCYAHTFNPKVIINAATLTGAMDIALGSGATGVFTNSSWLWNKLFEASIETGDRVWRMPLFEHYTRQVIDCQLADVNNIGKYRSAGACTAAAFLKEFVTHPKWAHLDIAGVMTNKDEVPYLRKGMAGRPTRTLIEFLFRFSQ 1lam-a1-m5-cA_1lam-a1-m6-cA LEUCINE AMINOPEPTIDASE (UNLIGATED) P00727 P00727 1.6 X-RAY DIFFRACTION 82 1.0 9913 (Bos taurus) 9913 (Bos taurus) 484 484 1bll-a1-m1-cE_1bll-a1-m2-cE 1bll-a1-m1-cE_1bll-a1-m3-cE 1bll-a1-m2-cE_1bll-a1-m3-cE 1bll-a1-m4-cE_1bll-a1-m5-cE 1bll-a1-m4-cE_1bll-a1-m6-cE 1bll-a1-m5-cE_1bll-a1-m6-cE 1bpm-a1-m1-cA_1bpm-a1-m2-cA 1bpm-a1-m1-cA_1bpm-a1-m3-cA 1bpm-a1-m2-cA_1bpm-a1-m3-cA 1bpm-a1-m4-cA_1bpm-a1-m5-cA 1bpm-a1-m4-cA_1bpm-a1-m6-cA 1bpm-a1-m5-cA_1bpm-a1-m6-cA 1bpn-a1-m1-cA_1bpn-a1-m2-cA 1bpn-a1-m1-cA_1bpn-a1-m3-cA 1bpn-a1-m2-cA_1bpn-a1-m3-cA 1bpn-a1-m4-cA_1bpn-a1-m5-cA 1bpn-a1-m4-cA_1bpn-a1-m6-cA 1bpn-a1-m5-cA_1bpn-a1-m6-cA 1lam-a1-m1-cA_1lam-a1-m2-cA 1lam-a1-m1-cA_1lam-a1-m3-cA 1lam-a1-m2-cA_1lam-a1-m3-cA 1lam-a1-m4-cA_1lam-a1-m5-cA 1lam-a1-m4-cA_1lam-a1-m6-cA 1lan-a1-m1-cA_1lan-a1-m2-cA 1lan-a1-m1-cA_1lan-a1-m3-cA 1lan-a1-m2-cA_1lan-a1-m3-cA 1lan-a1-m4-cA_1lan-a1-m5-cA 1lan-a1-m4-cA_1lan-a1-m6-cA 1lan-a1-m5-cA_1lan-a1-m6-cA 1lap-a1-m1-cA_1lap-a1-m2-cA 1lap-a1-m1-cA_1lap-a1-m3-cA 1lap-a1-m2-cA_1lap-a1-m3-cA 1lap-a1-m4-cA_1lap-a1-m5-cA 1lap-a1-m4-cA_1lap-a1-m6-cA 1lap-a1-m5-cA_1lap-a1-m6-cA 1lcp-a1-m1-cA_1lcp-a1-m2-cA 1lcp-a1-m1-cA_1lcp-a1-m3-cA 1lcp-a1-m1-cB_1lcp-a1-m2-cB 1lcp-a1-m1-cB_1lcp-a1-m3-cB 1lcp-a1-m2-cA_1lcp-a1-m3-cA 1lcp-a1-m2-cB_1lcp-a1-m3-cB 2ewb-a1-m1-cA_2ewb-a1-m2-cA 2ewb-a1-m1-cA_2ewb-a1-m3-cA 2ewb-a1-m2-cA_2ewb-a1-m3-cA 2ewb-a1-m4-cA_2ewb-a1-m5-cA 2ewb-a1-m4-cA_2ewb-a1-m6-cA 2ewb-a1-m5-cA_2ewb-a1-m6-cA 2j9a-a1-m1-cA_2j9a-a1-m4-cA 2j9a-a1-m1-cA_2j9a-a1-m5-cA 2j9a-a1-m2-cA_2j9a-a1-m3-cA 2j9a-a1-m2-cA_2j9a-a1-m6-cA 2j9a-a1-m3-cA_2j9a-a1-m6-cA 2j9a-a1-m4-cA_2j9a-a1-m5-cA TKGLVLGIYSKEKEEDEPQFTSAGENFNKLVSGKLREILNISGPPLKAGKTRTFYGLHEDFPSVVVVGLGKKTAGIDEQENWHEGKENIRAAVAAGCRQIQDLEIPSVEVDPCGDAQAAAEGAVLGLYEYDDLKQKRKVVVSAKLHGSEDQEAWQRGVLFASGQNLARRLMETPANEMTPTKFAEIVEENLKSASIKTDVFIRPKSWIEEQEMGSFLSVAKGSEEPPVFLEIHYKGSPNASEPPLVFVGKGITFDSGGISIKAAANMDLMRADMGGAATICSAIVSAAKLDLPINIVGLAPLCENMPSGKANKPGDVVRARNGKTIQVDNTDAEGRLILADALCYAHTFNPKVIINAATLTGAMDIALGSGATGVFTNSSWLWNKLFEASIETGDRVWRMPLFEHYTRQVIDCQLADVNNIGKYRSAGACTAAAFLKEFVTHPKWAHLDIAGVMTNKDEVPYLRKGMAGRPTRTLIEFLFRFSQ TKGLVLGIYSKEKEEDEPQFTSAGENFNKLVSGKLREILNISGPPLKAGKTRTFYGLHEDFPSVVVVGLGKKTAGIDEQENWHEGKENIRAAVAAGCRQIQDLEIPSVEVDPCGDAQAAAEGAVLGLYEYDDLKQKRKVVVSAKLHGSEDQEAWQRGVLFASGQNLARRLMETPANEMTPTKFAEIVEENLKSASIKTDVFIRPKSWIEEQEMGSFLSVAKGSEEPPVFLEIHYKGSPNASEPPLVFVGKGITFDSGGISIKAAANMDLMRADMGGAATICSAIVSAAKLDLPINIVGLAPLCENMPSGKANKPGDVVRARNGKTIQVDNTDAEGRLILADALCYAHTFNPKVIINAATLTGAMDIALGSGATGVFTNSSWLWNKLFEASIETGDRVWRMPLFEHYTRQVIDCQLADVNNIGKYRSAGACTAAAFLKEFVTHPKWAHLDIAGVMTNKDEVPYLRKGMAGRPTRTLIEFLFRFSQ 1lay-a1-m1-cA_1lay-a1-m2-cA CRYSTAL STRUCTURE OF CYTOMEGALOVIRUS PROTEASE P16753 P16753 2.5 X-RAY DIFFRACTION 98 1.0 10358 (Cytomegalovirus) 10358 (Cytomegalovirus) 202 202 QAVAPVYVGGFLARYDALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSSRRCDDVEPFKHVALCSVGRRRGTLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQRCGSASGDPFRSDSYGLLGNSVDALYIRERLPKLRYDKQLVGVTERESYVKA QAVAPVYVGGFLARYDALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSSRRCDDVEPFKHVALCSVGRRRGTLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQRCGSASGDPFRSDSYGLLGNSVDALYIRERLPKLRYDKQLVGVTERESYVKA 1lbq-a1-m1-cB_1lbq-a1-m1-cA The crystal structure of Saccharomyces cerevisiae ferrochelatase P16622 P16622 2.4 X-RAY DIFFRACTION 103 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 354 356 1l8x-a1-m1-cB_1l8x-a1-m1-cA 7l78-a1-m1-cB_7l78-a1-m1-cA PTGIVLMNMGGPSKVEETYDFLYQLFADNDLIPISAKYQKTIAKYIAKFRTPKIEKQYREIGGGSPIRKWSEYQATEVCKILDKTCPETAPHKPYVAFRYAKPLTAETYKQMLKDGVKKAVAFSQYPHFSYSTTGSSINELWRQIKALDSERSISWSVIDRWPTNEGLIKAFSENITKKLQEFPQPVRDKVVLLFSAHSLPMDVVNTGDAYPAEVAATVYNIMQKLKFKNPYRLVWQSQVGPKPWLGAQTAEIAEFLGPKVDGLMFIPIAFTSDHIETLHEIDLGVIGESEYKDKFKRCESLNGNQTFIEGMADLVKSHLQSNQLYSNQLPLDFALGKSNDPVKDLSLVFGNHE RSPTGIVLMNMGGPSKVEETYDFLYQLFADNDLIPISAKYQKTIAKYIAKFRTPKIEKQYREIGGGSPIRKWSEYQATEVCKILDKTCPETAPHKPYVAFRYAKPLTAETYKQMLKDGVKKAVAFSQYPHFSYSTTGSSINELWRQIKALDSERSISWSVIDRWPTNEGLIKAFSENITKKLQEFPQPVRDKVVLLFSAHSLPMDVVNTGDAYPAEVAATVYNIMQKLKFKNPYRLVWQSQVGPKPWLGAQTAEIAEFLGPKVDGLMFIPIAFTSDHIETLHEIDLGVIGESEYKDKFKRCESLNGNQTFIEGMADLVKSHLQSNQLYSNQLPLDFALGKSNDPVKDLSLVFGNHE 1lc8-a1-m1-cA_1lc8-a1-m2-cA Crystal Structure of L-Threonine-O-3-phosphate Decarboxylase from S. enterica complexed with its reaction intermediate P97084 P97084 1.8 X-RAY DIFFRACTION 154 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 356 356 1lc5-a1-m1-cA_1lc5-a1-m2-cA 1lc7-a1-m1-cA_1lc7-a1-m2-cA 1lkc-a1-m1-cA_1lkc-a1-m2-cA AHGGNIREPATVLGISPDQLLDFSANINPLGMPVSVKRALIDNLDCIERYPDADYFHLHQALARHHQVPASWILAGNGETESIFTVASGLKPRRAMIVTPGFAEYGRALAQSGCEIRRWSLREADGWQLTDAILEALTPDLDCLFLCTPNNPTGLLPERPLLQAIADRCKSLNINLILDEAFIDFIPHETGFIPALKDNPHIWVLRSLTKFYAIPGLRLGYLVNSDDAAMARMRRQQMPWSVNALAALAGEVALQDSAWQQATWHWLREEGARFYQALCQLPLLTVYPGRANYLLLRCEREDIDLQRRLLTQRILIRSCANYPGLDSRYYRVAIRSAAQNERLLAALRNVLTGIAP AHGGNIREPATVLGISPDQLLDFSANINPLGMPVSVKRALIDNLDCIERYPDADYFHLHQALARHHQVPASWILAGNGETESIFTVASGLKPRRAMIVTPGFAEYGRALAQSGCEIRRWSLREADGWQLTDAILEALTPDLDCLFLCTPNNPTGLLPERPLLQAIADRCKSLNINLILDEAFIDFIPHETGFIPALKDNPHIWVLRSLTKFYAIPGLRLGYLVNSDDAAMARMRRQQMPWSVNALAALAGEVALQDSAWQQATWHWLREEGARFYQALCQLPLLTVYPGRANYLLLRCEREDIDLQRRLLTQRILIRSCANYPGLDSRYYRVAIRSAAQNERLLAALRNVLTGIAP 1lcs-a3-m1-cB_1lcs-a3-m4-cA RECEPTOR-BINDING DOMAIN FROM SUBGROUP B FELINE LEUKEMIA VIRUS P11261 P11261 2.5 X-RAY DIFFRACTION 31 1.0 103916 (Feline leukemia virus strain B/lambda-B1) 103916 (Feline leukemia virus strain B/lambda-B1) 205 205 1lcs-a3-m2-cB_1lcs-a3-m3-cA PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP 1lcs-a3-m2-cB_1lcs-a3-m4-cA RECEPTOR-BINDING DOMAIN FROM SUBGROUP B FELINE LEUKEMIA VIRUS P11261 P11261 2.5 X-RAY DIFFRACTION 35 1.0 103916 (Feline leukemia virus strain B/lambda-B1) 103916 (Feline leukemia virus strain B/lambda-B1) 205 205 1lcs-a3-m1-cB_1lcs-a3-m3-cA PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP 1lcs-a3-m3-cA_1lcs-a3-m4-cA RECEPTOR-BINDING DOMAIN FROM SUBGROUP B FELINE LEUKEMIA VIRUS P11261 P11261 2.5 X-RAY DIFFRACTION 30 1.0 103916 (Feline leukemia virus strain B/lambda-B1) 103916 (Feline leukemia virus strain B/lambda-B1) 205 205 PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP 1lcs-a4-m1-cB_1lcs-a4-m5-cA RECEPTOR-BINDING DOMAIN FROM SUBGROUP B FELINE LEUKEMIA VIRUS P11261 P11261 2.5 X-RAY DIFFRACTION 104 1.0 103916 (Feline leukemia virus strain B/lambda-B1) 103916 (Feline leukemia virus strain B/lambda-B1) 205 205 PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP PHQVYNVTWTITNLVTGTKANATSMLGTLTDAFPTMYFDLCDIIGNTWNPSDQEPFPGYGCDQPMRRWQQRNTPFYVCPGHANRKQCGGPQDGFCAVWGCETTGETYWRPTSSWDYITVKKGVTQGIYQCSGGGWCGPCYDKAVHSSTTGASEGGRCNPLILQFTQKGRQTSWDGPKSWGLRLYRSGYDPIALFSVSRQVMTITP 1ldd-a1-m1-cA_1ldd-a1-m1-cD Structure of the Cul1-Rbx1-Skp1-F boxSkp2 SCF Ubiquitin Ligase Complex Q12440 Q12440 2 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 74 74 1ldd-a1-m1-cB_1ldd-a1-m1-cC KYELTLQRSLPFIEGMLTNLGAMKLHKIHSFLKITVPKDWGYNRITLQQLEGYLNTLADEGRLKYIANGSYEIV KYELTLQRSLPFIEGMLTNLGAMKLHKIHSFLKITVPKDWGYNRITLQQLEGYLNTLADEGRLKYIANGSYEIV 1ldd-a1-m1-cB_1ldd-a1-m1-cD Structure of the Cul1-Rbx1-Skp1-F boxSkp2 SCF Ubiquitin Ligase Complex Q12440 Q12440 2 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 74 74 1ldd-a1-m1-cA_1ldd-a1-m1-cC KYELTLQRSLPFIEGMLTNLGAMKLHKIHSFLKITVPKDWGYNRITLQQLEGYLNTLADEGRLKYIANGSYEIV KYELTLQRSLPFIEGMLTNLGAMKLHKIHSFLKITVPKDWGYNRITLQQLEGYLNTLADEGRLKYIANGSYEIV 1ldk-a2-m1-cC_1ldk-a2-m2-cC Structure of the Cul1-Rbx1-Skp1-F boxSkp2 SCF Ubiquitin Ligase Complex P62877 P62877 3.1 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 KKRFEVKKWNAVALWAWDIVVDNCAICRNHIMDLCIECQANQASATSEECTVAWGVCNHAFHFHCISRWLKTRQVCPLDNREWEFQKY KKRFEVKKWNAVALWAWDIVVDNCAICRNHIMDLCIECQANQASATSEECTVAWGVCNHAFHFHCISRWLKTRQVCPLDNREWEFQKY 1ldk-a2-m1-cE_1ldk-a2-m2-cE Structure of the Cul1-Rbx1-Skp1-F boxSkp2 SCF Ubiquitin Ligase Complex Q13309 Q13309 3.1 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 WDSLPDELLLGIFSCLCLPELLKVSGVCKRWYRLASDESLW WDSLPDELLLGIFSCLCLPELLKVSGVCKRWYRLASDESLW 1led-a1-m1-cA_1led-a1-m2-cA STRUCTURES OF THE LECTIN IV OF GRIFFONIA SIMPLICIFOLIA AND ITS COMPLEX WITH THE LEWIS B HUMAN BLOOD GROUP DETERMINANT AT 2.0 ANGSTROMS RESOLUTION P24146 P24146 2 X-RAY DIFFRACTION 84 1.0 3850 (Griffonia simplicifolia) 3850 (Griffonia simplicifolia) 242 242 1gsl-a1-m1-cA_1gsl-a1-m2-cA 1lec-a1-m1-cA_1lec-a1-m2-cA NTVNFTYPDFWSYSLKNGTEITFLGDATRIPGALQLTKTDANGNPVRSSAGQASYSEPVFLWDSTGKAASFYTSFTFLLKNYGAPTADGLAFFLAPVDSSVKDYGGFLGLFRHETAADPSKNQVVAVEFDTWINKDWNDPPYPHIGIDVNSIVSVATTRWENDDAYGSSIATAHITYDARSKILTVLLSYEHGRDYILSHVVDLAKVLPQKVRIGFSAGVGYDEVTYILSWHFFSTLDGTNK NTVNFTYPDFWSYSLKNGTEITFLGDATRIPGALQLTKTDANGNPVRSSAGQASYSEPVFLWDSTGKAASFYTSFTFLLKNYGAPTADGLAFFLAPVDSSVKDYGGFLGLFRHETAADPSKNQVVAVEFDTWINKDWNDPPYPHIGIDVNSIVSVATTRWENDDAYGSSIATAHITYDARSKILTVLLSYEHGRDYILSHVVDLAKVLPQKVRIGFSAGVGYDEVTYILSWHFFSTLDGTNK 1lee-a3-m3-cA_1lee-a3-m4-cA CRYSTAL STRUCTURE OF PLASMEPSIN FROM P. FALCIPARUM IN COMPLEX WITH INHIBITOR RS367 P46925 P46925 1.9 X-RAY DIFFRACTION 133 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 331 331 1lee-a2-m1-cA_1lee-a2-m2-cA 1lee-a3-m1-cA_1lee-a3-m2-cA LGSSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL LGSSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 1lep-a1-m1-cF_1lep-a1-m1-cG THREE-DIMENSIONAL STRUCTURE OF THE IMMUNODOMINANT HEAT-SHOCK PROTEIN CHAPERONIN-10 OF MYCOBACTERIUM LEPRAE P24301 P24301 3.5 X-RAY DIFFRACTION 43 1.0 1769 (Mycobacterium leprae) 1769 (Mycobacterium leprae) 81 81 1lep-a1-m1-cA_1lep-a1-m1-cB 1lep-a1-m1-cA_1lep-a1-m1-cG 1lep-a1-m1-cB_1lep-a1-m1-cC 1lep-a1-m1-cC_1lep-a1-m1-cE 1lep-a1-m1-cD_1lep-a1-m1-cE 1lep-a1-m1-cD_1lep-a1-m1-cF AKVKIKPLEDKILVQAEKPQEGTVVAVGPGRWDEDGAKRIPVDVSEGDIVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK AKVKIKPLEDKILVQAEKPQEGTVVAVGPGRWDEDGAKRIPVDVSEGDIVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK 1lfa-a1-m1-cB_1lfa-a1-m1-cA CD11A I-DOMAIN WITH BOUND MN++ P20701 P20701 1.8 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 183 GNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKRKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKKIYVI GNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKRKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKKIYVIE 1lfb-a1-m1-cA_1lfb-a1-m2-cA THE X-RAY STRUCTURE OF AN ATYPICAL HOMEODOMAIN PRESENT IN THE RAT LIVER TRANSCRIPTION FACTOR LFB1(SLASH)HNF1 AND IMPLICATIONS FOR DNA BINDING P15257 P15257 2.8 X-RAY DIFFRACTION 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 77 77 RFKWGPASQQILFQAYERQKNPSKEERETLVEECNRAECIQRGVSPSQAQGLGSNLVTEVRVYNWFANRRKEEAFRH RFKWGPASQQILFQAYERQKNPSKEERETLVEECNRAECIQRGVSPSQAQGLGSNLVTEVRVYNWFANRRKEEAFRH 1lgp-a1-m1-cA_1lgp-a1-m2-cA Crystal structure of the FHA domain of the Chfr mitotic checkpoint protein complexed with tungstate Q96EP1 Q96EP1 2 X-RAY DIFFRACTION 237 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 1lgq-a1-m1-cA_1lgq-a1-m1-cB MQPWGRLLRLGAEEGEPHVLLRKREWTIGRRRGCDLSFPSNKLVSGDHCRIVVDEKSGQVTLEDTSTSGTVINKLKVVKKQTCPLQTGDVIYLVYRKNEPEHNVAYLYESLSE MQPWGRLLRLGAEEGEPHVLLRKREWTIGRRRGCDLSFPSNKLVSGDHCRIVVDEKSGQVTLEDTSTSGTVINKLKVVKKQTCPLQTGDVIYLVYRKNEPEHNVAYLYESLSE 1lia-a3-m3-cK_1lia-a3-m2-cA CRYSTAL STRUCTURE OF R-PHYCOERYTHRIN FROM POLYSIPHONIA AT 2.8 A RESOLUTION P84861 P84861 2.8 X-RAY DIFFRACTION 23 1.0 65404 (Polysiphonia urceolata) 65404 (Polysiphonia urceolata) 164 164 1lia-a3-m1-cK_1lia-a3-m3-cA 1lia-a3-m2-cK_1lia-a3-m1-cA MKSVITTTISAADAAGRYPSTSDLQSVQGNIQRAAARLEAAEKLGSNHEAVVKEAGDACFSKYGYNKNPGEAGENQEKINKCYRDIDHYMRLINYTLVVGGTGPLDEWGIAGAREVYRTLNLPSAAYIAAFVFTRDRLCIPRDMSAQAGVEFCTALDYLINSLS MKSVITTTISAADAAGRYPSTSDLQSVQGNIQRAAARLEAAEKLGSNHEAVVKEAGDACFSKYGYNKNPGEAGENQEKINKCYRDIDHYMRLINYTLVVGGTGPLDEWGIAGAREVYRTLNLPSAAYIAAFVFTRDRLCIPRDMSAQAGVEFCTALDYLINSLS 1lia-a6-m1-cK_1lia-a6-m1-cA CRYSTAL STRUCTURE OF R-PHYCOERYTHRIN FROM POLYSIPHONIA AT 2.8 A RESOLUTION P84861 P84861 2.8 X-RAY DIFFRACTION 85 1.0 65404 (Polysiphonia urceolata) 65404 (Polysiphonia urceolata) 164 164 1lia-a3-m1-cA_1lia-a3-m1-cK 1lia-a3-m2-cK_1lia-a3-m2-cA 1lia-a3-m3-cK_1lia-a3-m3-cA MKSVITTTISAADAAGRYPSTSDLQSVQGNIQRAAARLEAAEKLGSNHEAVVKEAGDACFSKYGYNKNPGEAGENQEKINKCYRDIDHYMRLINYTLVVGGTGPLDEWGIAGAREVYRTLNLPSAAYIAAFVFTRDRLCIPRDMSAQAGVEFCTALDYLINSLS MKSVITTTISAADAAGRYPSTSDLQSVQGNIQRAAARLEAAEKLGSNHEAVVKEAGDACFSKYGYNKNPGEAGENQEKINKCYRDIDHYMRLINYTLVVGGTGPLDEWGIAGAREVYRTLNLPSAAYIAAFVFTRDRLCIPRDMSAQAGVEFCTALDYLINSLS 1lif-a1-m1-cA_1lif-a1-m2-cA THE ADIPOCYTE LIPID-BINDING PROTEIN AT 1.6 ANGSTROMS RESOLUTION: CRYSTAL STRUCTURES OF THE APOPROTEIN AND WITH BOUND SATURATED AND UNSATURATED FATTY ACIDS P04117 P04117 1.6 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 1adl-a1-m1-cA_1adl-a1-m2-cA 1lib-a1-m1-cA_1lib-a1-m2-cA 1lic-a1-m1-cA_1lic-a1-m2-cA 1lie-a1-m1-cA_1lie-a1-m2-cA CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA 1lil-a1-m1-cB_1lil-a1-m1-cA BENCE JONES PROTEIN CLE, A LAMBDA III IMMUNOGLOBULIN LIGHT-CHAIN DIMER P0DOY2 P0DOY2 2.65 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 YEVTQPPSLSVSPGQTARITCSGEKLGDAYVCWYQQRPGQSPVVVIYQDNRRPSGIPERFSGSSSGNTATLTISGTQTLDEADYYCQVWDSNASVVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS YEVTQPPSLSVSPGQTARITCSGEKLGDAYVCWYQQRPGQSPVVVIYQDNRRPSGIPERFSGSSSGNTATLTISGTQTLDEADYYCQVWDSNASVVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS 1lj0-a1-m1-cA_1lj0-a1-m1-cB Structure of quintuple mutant of the rat outer mitocondrial cytochrome b5. P04166 P04166 2 X-RAY DIFFRACTION 32 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 89 89 1awp-a1-m1-cA_1awp-a1-m1-cB 1lj0-a3-m1-cD_1lj0-a3-m1-cC GSDPAVTYYRLEEVAKRNTSEETWMVLHGRVYDLTRFLSEHPGGEEVLREQAGADATESFEDVGHSPDAREMSKQYYIGDVHPNDLKPK GSDPAVTYYRLEEVAKRNTSEETWMVLHGRVYDLTRFLSEHPGGEEVLREQAGADATESFEDVGHSPDAREMSKQYYIGDVHPNDLKPK 1lj0-a2-m1-cC_1lj0-a2-m1-cB Structure of quintuple mutant of the rat outer mitocondrial cytochrome b5. P04166 P04166 2 X-RAY DIFFRACTION 11 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 88 89 GSDPAVTYYRLEEVAKRNTSEETWMVLHGRVYDLTRFLSEHPGGEEVLREQAGADATESFEDVGHSPDAREMSKQYYIGDVHPNDLKP GSDPAVTYYRLEEVAKRNTSEETWMVLHGRVYDLTRFLSEHPGGEEVLREQAGADATESFEDVGHSPDAREMSKQYYIGDVHPNDLKPK 1lj2-a1-m1-cA_1lj2-a1-m1-cB Recognition of eIF4G by Rotavirus NSP3 reveals a basis for mRNA circularization P03536 P03536 2.38 X-RAY DIFFRACTION 149 1.0 10923 (Simian rotavirus A/SA11) 10923 (Simian rotavirus A/SA11) 106 110 HSLQNVIPQQQAHIAELQVYNNKLERDLQNKIGSLTSSIEWYLRSMELDPEIKADIEQQINSIDAINPLHAFDDLESVIRNLISDYDKLFLMFKGLIQRSNYQYSF MHSLQNVIPQQQAHIAELQVYNNKLERDLQNKIGSLTSSIEWYLRSMELDPEIKADIEQQINSIDAINPLHAFDDLESVIRNLISDYDKLFLMFKGLIQRSNYQYSFGSE 1lj9-a1-m1-cB_1lj9-a1-m1-cA The crystal structure of the transcriptional regulator SlyA Q82ZP8 Q82ZP8 1.6 X-RAY DIFFRACTION 177 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 142 144 TDILREIGMIARALDSISNIEFKELSLTRGQYLYLVRVCENPGIIQEKIAELIKVDRTTAARAIKRLEEQGFIYRQEDASNKKIKRIYATEKGKNVYPIIVRENQHSNQVALQGLSEVEISQLADYLVRMRKNVSEDWEFVK TDILREIGMIARALDSISNIEFKELSLTRGQYLYLVRVCENPGIIQEKIAELIKVDRTTAARAIKRLEEQGFIYRQEDASNKKIKRIYATEKGKNVYPIIVRENQHSNQVALQGLSEVEISQLADYLVRMRKNVSEDWEFVKKG 1ljm-a3-m1-cA_1ljm-a3-m2-cB DNA recognition is mediated by conformational transition and by DNA bending Q01196 Q01196 2.5 X-RAY DIFFRACTION 18 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 1ljm-a3-m1-cB_1ljm-a3-m2-cA ELVRTDSPNFLCSVLPTHWRCNKTLPIAFKVVALGDVPDGTLVTVMAGNDENYSAELRNATAAMKNQVARFNDLRFVGRSGRGKSFTLTITVFTNPPQVATYHRAIKITVDGPR GELVRTDSPNFLCSVLPTHWRCNKTLPIAFKVVALGDVPDGTLVTVMAGNDENYSAELRNATAAMKNQVARFNDLRFVGRSGRGKSFTLTITVFTNPPQVATYHRAIKITVDGP 1ljm-a3-m2-cA_1ljm-a3-m2-cB DNA recognition is mediated by conformational transition and by DNA bending Q01196 Q01196 2.5 X-RAY DIFFRACTION 42 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 1ljm-a3-m1-cA_1ljm-a3-m1-cB ELVRTDSPNFLCSVLPTHWRCNKTLPIAFKVVALGDVPDGTLVTVMAGNDENYSAELRNATAAMKNQVARFNDLRFVGRSGRGKSFTLTITVFTNPPQVATYHRAIKITVDGPR GELVRTDSPNFLCSVLPTHWRCNKTLPIAFKVVALGDVPDGTLVTVMAGNDENYSAELRNATAAMKNQVARFNDLRFVGRSGRGKSFTLTITVFTNPPQVATYHRAIKITVDGP 1ljm-a4-m1-cB_1ljm-a4-m2-cB DNA recognition is mediated by conformational transition and by DNA bending Q01196 Q01196 2.5 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 1ljm-a3-m1-cB_1ljm-a3-m2-cB GELVRTDSPNFLCSVLPTHWRCNKTLPIAFKVVALGDVPDGTLVTVMAGNDENYSAELRNATAAMKNQVARFNDLRFVGRSGRGKSFTLTITVFTNPPQVATYHRAIKITVDGP GELVRTDSPNFLCSVLPTHWRCNKTLPIAFKVVALGDVPDGTLVTVMAGNDENYSAELRNATAAMKNQVARFNDLRFVGRSGRGKSFTLTITVFTNPPQVATYHRAIKITVDGP 1ljo-a1-m2-cA_1ljo-a1-m6-cA CRYSTAL STRUCTURE OF AN SM-LIKE PROTEIN (AF-SM2) FROM ARCHAEOGLOBUS FULGIDUS AT 1.95A RESOLUTION O29885 O29885 1.95 X-RAY DIFFRACTION 66 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 75 75 1ljo-a1-m1-cA_1ljo-a1-m5-cA 1ljo-a1-m1-cA_1ljo-a1-m6-cA 1ljo-a1-m2-cA_1ljo-a1-m4-cA 1ljo-a1-m3-cA_1ljo-a1-m4-cA 1ljo-a1-m3-cA_1ljo-a1-m5-cA GAMVLPNQMVKSMVGKIIRVEMKGEENQLVGKLEGVDDYMNLYLTNAMECKGEEKVRSLGEIVLRGNNVVLIQPQ GAMVLPNQMVKSMVGKIIRVEMKGEENQLVGKLEGVDDYMNLYLTNAMECKGEEKVRSLGEIVLRGNNVVLIQPQ 1lk5-a1-m1-cA_1lk5-a1-m1-cB Structure of the D-Ribose-5-Phosphate Isomerase from Pyrococcus horikoshii O50083 O50083 1.75 X-RAY DIFFRACTION 72 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 229 229 1lk5-a1-m1-cC_1lk5-a1-m1-cD 1lk7-a1-m1-cA_1lk7-a1-m1-cB 1lk7-a1-m1-cC_1lk7-a1-m1-cD MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER 1lk5-a1-m1-cB_1lk5-a1-m1-cC Structure of the D-Ribose-5-Phosphate Isomerase from Pyrococcus horikoshii O50083 O50083 1.75 X-RAY DIFFRACTION 12 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 229 229 MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER 1lk5-a1-m1-cB_1lk5-a1-m1-cD Structure of the D-Ribose-5-Phosphate Isomerase from Pyrococcus horikoshii O50083 O50083 1.75 X-RAY DIFFRACTION 70 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 229 229 1lk5-a1-m1-cA_1lk5-a1-m1-cC 1lk7-a1-m1-cA_1lk7-a1-m1-cC 1lk7-a1-m1-cB_1lk7-a1-m1-cD MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER MNVEEMKKIAAKEALKFIEDDMVIGLGTGSTTAYFIKLLGEKLKRGEISDIVGVPTSYQAKLLAIEHDIPIASLDQVDAIDVAVDGADEVDPNLNLIKGRGAALTMEKIIEYRAGTFIVLVDERKLVDYLCQKMPVPIEVIPQAWKAIIEELSIFNAKAELRMGVNKDGPVITDNGNFIIDAKFPRIDDPLDMEIELNTIPGVIENGIFADIADIVIVGTREGVKKLER 1lkv-a2-m1-cX_1lkv-a2-m4-cX Crystal Structure of the Middle and C-terminal Domains of the Flagellar Rotor Protein FliG Q9WY63 Q9WY63 2.8 X-RAY DIFFRACTION 10 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 213 213 1lkv-a2-m2-cX_1lkv-a2-m3-cX DPVQLVNFLQSEHPQTIAVVLSYLDPPVAAQILGALPEELQTEVLKRIALLERTSPEVVKEIERNLEKKISGFVSRTFSKVGGIDTAAEIMNNLDRTTEKKIMDKLVQENPELADEIRRRMFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIAR DPVQLVNFLQSEHPQTIAVVLSYLDPPVAAQILGALPEELQTEVLKRIALLERTSPEVVKEIERNLEKKISGFVSRTFSKVGGIDTAAEIMNNLDRTTEKKIMDKLVQENPELADEIRRRMFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIAR 1lkv-a2-m2-cX_1lkv-a2-m4-cX Crystal Structure of the Middle and C-terminal Domains of the Flagellar Rotor Protein FliG Q9WY63 Q9WY63 2.8 X-RAY DIFFRACTION 188 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 213 213 1lkv-a2-m1-cX_1lkv-a2-m3-cX DPVQLVNFLQSEHPQTIAVVLSYLDPPVAAQILGALPEELQTEVLKRIALLERTSPEVVKEIERNLEKKISGFVSRTFSKVGGIDTAAEIMNNLDRTTEKKIMDKLVQENPELADEIRRRMFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIAR DPVQLVNFLQSEHPQTIAVVLSYLDPPVAAQILGALPEELQTEVLKRIALLERTSPEVVKEIERNLEKKISGFVSRTFSKVGGIDTAAEIMNNLDRTTEKKIMDKLVQENPELADEIRRRMFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIAR 1lkv-a2-m3-cX_1lkv-a2-m4-cX Crystal Structure of the Middle and C-terminal Domains of the Flagellar Rotor Protein FliG Q9WY63 Q9WY63 2.8 X-RAY DIFFRACTION 70 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 213 213 1lkv-a2-m1-cX_1lkv-a2-m2-cX DPVQLVNFLQSEHPQTIAVVLSYLDPPVAAQILGALPEELQTEVLKRIALLERTSPEVVKEIERNLEKKISGFVSRTFSKVGGIDTAAEIMNNLDRTTEKKIMDKLVQENPELADEIRRRMFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIAR DPVQLVNFLQSEHPQTIAVVLSYLDPPVAAQILGALPEELQTEVLKRIALLERTSPEVVKEIERNLEKKISGFVSRTFSKVGGIDTAAEIMNNLDRTTEKKIMDKLVQENPELADEIRRRMFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIAR 1llf-a1-m1-cA_1llf-a1-m1-cB Cholesterol Esterase (Candida Cylindracea) Crystal Structure at 1.4A resolution Q6S5M9 Q6S5M9 1.4 X-RAY DIFFRACTION 36 1.0 44322 (Limtongozyma cylindracea) 44322 (Limtongozyma cylindracea) 534 534 APTAKLANGDTITGLNAIINEAFLGIPFAEPPVGNLRFKDPVPYSGSLNGQKFTSYGPSCMQQNPEGTFEENLGKTALDLVMQSKVFQAVLPQSEDCLTINVVRPPGTKAGANLPVMLWIFGGGFEIGSPTIFPPAQMVTKSVLMGKPIIHVAVNYRVASWGFLAGDDIKAEGSGNAGLKDQRLGMQWVADNIAGFGGDPSKVTIFGESAGSMSVLCHLIWNDGDNTYKGKPLFRAGIMQSGAMVPSDPVDGTYGNEIYDLFVSSAGCGSASDKLACLRSASSDTLLDATNNTPGFLAYSSLRLSYLPRPDGKNITDDMYKLVRDGKYASVPVIIGDQNDEGTIFGLSSLNVTTNAQARAYFKQSFIHASDAEIDTLMAAYPQDITQGSPFDTGIFNAITPQFKRISAVLGDLAFIHARRYFLNHFQGGTKYSFLSKQLSGLPIMGTFHANDIVWQDYLLGSGSVIYNNAFIAFATDLDPNTAGLLVNWPKYTSSSQSGNNLMMINALGLYTGKDNFRTAGYDALMTNPSSFFV APTAKLANGDTITGLNAIINEAFLGIPFAEPPVGNLRFKDPVPYSGSLNGQKFTSYGPSCMQQNPEGTFEENLGKTALDLVMQSKVFQAVLPQSEDCLTINVVRPPGTKAGANLPVMLWIFGGGFEIGSPTIFPPAQMVTKSVLMGKPIIHVAVNYRVASWGFLAGDDIKAEGSGNAGLKDQRLGMQWVADNIAGFGGDPSKVTIFGESAGSMSVLCHLIWNDGDNTYKGKPLFRAGIMQSGAMVPSDPVDGTYGNEIYDLFVSSAGCGSASDKLACLRSASSDTLLDATNNTPGFLAYSSLRLSYLPRPDGKNITDDMYKLVRDGKYASVPVIIGDQNDEGTIFGLSSLNVTTNAQARAYFKQSFIHASDAEIDTLMAAYPQDITQGSPFDTGIFNAITPQFKRISAVLGDLAFIHARRYFLNHFQGGTKYSFLSKQLSGLPIMGTFHANDIVWQDYLLGSGSVIYNNAFIAFATDLDPNTAGLLVNWPKYTSSSQSGNNLMMINALGLYTGKDNFRTAGYDALMTNPSSFFV 1llm-a1-m1-cD_1llm-a1-m1-cC Crystal Structure of a Zif23-GCN4 Chimera Bound to DNA P03069 P03069 1.5 X-RAY DIFFRACTION 59 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 85 87 MKPFQCRICMRNFSRSDHLTTHIRTHTGEKPFACDICGRKFARSDERKRHRDIQHILPILEDKVEELLSKNYHLENEVARLKKLV MKPFQCRICMRNFSRSDHLTTHIRTHTGEKPFACDICGRKFARSDERKRHRDIQHILPILEDKVEELLSKNYHLENEVARLKKLVGE 1lm5-a1-m1-cA_1lm5-a1-m1-cB Structures of two intermediate filament-binding fragments of desmoplakin reveal a unique repeat motif structure P15924 P15924 1.8 X-RAY DIFFRACTION 56 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 189 193 SSPIAAIFDTENLEKISITEGIERGIVDSITGQRLLEAQACTGGIIHPTTGQKLSLQDAVSQGVIDQDMATRLKPAQKAFIGFKMSAAEAVKEKWLPYEAGQRFLEFQYLTGGLVDPEVHGRISTEEAIRKGFIDGRAAQRLQDTSSYAKILTCPKTKLKISYKDAINRSMVEDITGLRLLEAASVSSK LEESSPIAAIFDTENLEKISITEGIERGIVDSITGQRLLEAQACTGGIIHPTTGQKLSLQDAVSQGVIDQDMATRLKPAQKAFIGFEGVKKMSAAEAVKEKWLPYEAGQRFLEFQYLTGGLVDPEVHGRISTEEAIRKGFIDGRAAQRLQDTSSYAKILTCPKTKLKISYKDAINRSMVEDITGLRLLEAASV 1lm7-a1-m1-cA_1lm7-a1-m1-cB Structures of two intermediate filament-binding fragments of desmoplakin reveal a unique repeat motif structure P15924 P15924 3 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 238 238 SFQGIRQPVTVTELVDSGILRPSTVNELESGSYDEVGERIKDFLQGSSCIAGIYNETTKQKLGIYEAMKIGLVRPGTALELLEAQAATGFIVDPVSNLRLPVEEAYKRGLVGIEFKEKLLSAERAVTGYNDPETGNIISLFQAMNKELIEKGHGIRLLEAQIATGGIIDPKESHRLPVDIAYKRGYFNEELSEILSDPSDDTKGFFDPNTEENLTYLQLKERCIKDEETGLCLLPLKE SFQGIRQPVTVTELVDSGILRPSTVNELESGSYDEVGERIKDFLQGSSCIAGIYNETTKQKLGIYEAMKIGLVRPGTALELLEAQAATGFIVDPVSNLRLPVEEAYKRGLVGIEFKEKLLSAERAVTGYNDPETGNIISLFQAMNKELIEKGHGIRLLEAQIATGGIIDPKESHRLPVDIAYKRGYFNEELSEILSDPSDDTKGFFDPNTEENLTYLQLKERCIKDEETGLCLLPLKE 1lmb-a1-m1-c3_1lmb-a1-m1-c4 REFINED 1.8 ANGSTROM CRYSTAL STRUCTURE OF THE LAMBDA REPRESSOR-OPERATOR COMPLEX P03034 P03034 1.8 X-RAY DIFFRACTION 61 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 87 92 1lli-a1-m1-cA_1lli-a1-m1-cB 1lrp-a1-m1-cA_1lrp-a1-m2-cA 1rio-a1-m1-cB_1rio-a1-m1-cA PLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVS STKKKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVS 1lmk-a2-m1-cE_1lmk-a2-m1-cG THE STRUCTURE OF A BIVALENT DIABODY 2.6 X-RAY DIFFRACTION 168 1.0 10090 (Mus musculus) 10090 (Mus musculus) 238 238 1lmk-a1-m1-cA_1lmk-a1-m1-cC VQLQQSGTELMKPGRSLKISCKTTGYIFSNYWIEWVKQRPGHGLEWIGKILPGGGSNTYNDKFKGKATFTADTSSNIAYMQLSSLTSEDSAVYYCARGEDYYAYWYVLDYWGQGTTVTVSSGGGGSDIELTQSPLSLPVSLGDQASISCRSSQSLVHSNGNTSLHWYLKKPGQSPKLLIYKVSTRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGVYFCSQSTHVPFTFGSGTKLELK VQLQQSGTELMKPGRSLKISCKTTGYIFSNYWIEWVKQRPGHGLEWIGKILPGGGSNTYNDKFKGKATFTADTSSNIAYMQLSSLTSEDSAVYYCARGEDYYAYWYVLDYWGQGTTVTVSSGGGGSDIELTQSPLSLPVSLGDQASISCRSSQSLVHSNGNTSLHWYLKKPGQSPKLLIYKVSTRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGVYFCSQSTHVPFTFGSGTKLELK 1lnl-a1-m1-cA_1lnl-a1-m2-cC Structure of deoxygenated hemocyanin from Rapana thomasiana P83040 P83040 3.3 X-RAY DIFFRACTION 69 1.0 408 408 1lnl-a1-m1-cB_1lnl-a1-m2-cB 1lnl-a1-m1-cC_1lnl-a1-m2-cA GHRNLVRKSVRNLSPAERASLVAALKSLQEDSSADGFQSLASFHAQPPLCPAPAANKAFACCVHGMATFPEWHRLYTVQFEDALRRHGSVVGIPYWDTVVPQEDLPAFFNDEIWDDALFHANFTNPFNGADIDFNHQKIARDINVDKLAKEGPKGYDTWSFKQYIYALEQEDYCDFEVQFEIAHNAIHAWVGGTEEYSMGHLHYASYDPVFILHHSNTDRLFALWQELQKFRGHDPNEVNCALEMMREPLKPFSFGAPYNLNPTTKEHSKPEDTFDYKGHFHYEYDHLELQGMNVQRLHDYINQQKEADRVFAGFLLEGIGTSAHLDFSICAIDGECTHAGYFDVLGGSLETPWQFDRLYKYEITDVLESKGLDVHDVFDIKITQTSWDNEDISTDRFPPPSVIYVPK GHRNLVRKSVRNLSPAERASLVAALKSLQEDSSADGFQSLASFHAQPPLCPAPAANKAFACCVHGMATFPEWHRLYTVQFEDALRRHGSVVGIPYWDTVVPQEDLPAFFNDEIWDDALFHANFTNPFNGADIDFNHQKIARDINVDKLAKEGPKGYDTWSFKQYIYALEQEDYCDFEVQFEIAHNAIHAWVGGTEEYSMGHLHYASYDPVFILHHSNTDRLFALWQELQKFRGHDPNEVNCALEMMREPLKPFSFGAPYNLNPTTKEHSKPEDTFDYKGHFHYEYDHLELQGMNVQRLHDYINQQKEADRVFAGFLLEGIGTSAHLDFSICAIDGECTHAGYFDVLGGSLETPWQFDRLYKYEITDVLESKGLDVHDVFDIKITQTSWDNEDISTDRFPPPSVIYVPK 1lnl-a1-m1-cB_1lnl-a1-m2-cC Structure of deoxygenated hemocyanin from Rapana thomasiana P83040 P83040 3.3 X-RAY DIFFRACTION 12 1.0 408 408 1lnl-a1-m1-cC_1lnl-a1-m2-cB GHRNLVRKSVRNLSPAERASLVAALKSLQEDSSADGFQSLASFHAQPPLCPAPAANKAFACCVHGMATFPEWHRLYTVQFEDALRRHGSVVGIPYWDTVVPQEDLPAFFNDEIWDDALFHANFTNPFNGADIDFNHQKIARDINVDKLAKEGPKGYDTWSFKQYIYALEQEDYCDFEVQFEIAHNAIHAWVGGTEEYSMGHLHYASYDPVFILHHSNTDRLFALWQELQKFRGHDPNEVNCALEMMREPLKPFSFGAPYNLNPTTKEHSKPEDTFDYKGHFHYEYDHLELQGMNVQRLHDYINQQKEADRVFAGFLLEGIGTSAHLDFSICAIDGECTHAGYFDVLGGSLETPWQFDRLYKYEITDVLESKGLDVHDVFDIKITQTSWDNEDISTDRFPPPSVIYVPK GHRNLVRKSVRNLSPAERASLVAALKSLQEDSSADGFQSLASFHAQPPLCPAPAANKAFACCVHGMATFPEWHRLYTVQFEDALRRHGSVVGIPYWDTVVPQEDLPAFFNDEIWDDALFHANFTNPFNGADIDFNHQKIARDINVDKLAKEGPKGYDTWSFKQYIYALEQEDYCDFEVQFEIAHNAIHAWVGGTEEYSMGHLHYASYDPVFILHHSNTDRLFALWQELQKFRGHDPNEVNCALEMMREPLKPFSFGAPYNLNPTTKEHSKPEDTFDYKGHFHYEYDHLELQGMNVQRLHDYINQQKEADRVFAGFLLEGIGTSAHLDFSICAIDGECTHAGYFDVLGGSLETPWQFDRLYKYEITDVLESKGLDVHDVFDIKITQTSWDNEDISTDRFPPPSVIYVPK 1lnl-a1-m2-cB_1lnl-a1-m2-cC Structure of deoxygenated hemocyanin from Rapana thomasiana P83040 P83040 3.3 X-RAY DIFFRACTION 18 1.0 408 408 1lnl-a1-m1-cA_1lnl-a1-m1-cB 1lnl-a1-m1-cB_1lnl-a1-m1-cC 1lnl-a1-m2-cA_1lnl-a1-m2-cB GHRNLVRKSVRNLSPAERASLVAALKSLQEDSSADGFQSLASFHAQPPLCPAPAANKAFACCVHGMATFPEWHRLYTVQFEDALRRHGSVVGIPYWDTVVPQEDLPAFFNDEIWDDALFHANFTNPFNGADIDFNHQKIARDINVDKLAKEGPKGYDTWSFKQYIYALEQEDYCDFEVQFEIAHNAIHAWVGGTEEYSMGHLHYASYDPVFILHHSNTDRLFALWQELQKFRGHDPNEVNCALEMMREPLKPFSFGAPYNLNPTTKEHSKPEDTFDYKGHFHYEYDHLELQGMNVQRLHDYINQQKEADRVFAGFLLEGIGTSAHLDFSICAIDGECTHAGYFDVLGGSLETPWQFDRLYKYEITDVLESKGLDVHDVFDIKITQTSWDNEDISTDRFPPPSVIYVPK GHRNLVRKSVRNLSPAERASLVAALKSLQEDSSADGFQSLASFHAQPPLCPAPAANKAFACCVHGMATFPEWHRLYTVQFEDALRRHGSVVGIPYWDTVVPQEDLPAFFNDEIWDDALFHANFTNPFNGADIDFNHQKIARDINVDKLAKEGPKGYDTWSFKQYIYALEQEDYCDFEVQFEIAHNAIHAWVGGTEEYSMGHLHYASYDPVFILHHSNTDRLFALWQELQKFRGHDPNEVNCALEMMREPLKPFSFGAPYNLNPTTKEHSKPEDTFDYKGHFHYEYDHLELQGMNVQRLHDYINQQKEADRVFAGFLLEGIGTSAHLDFSICAIDGECTHAGYFDVLGGSLETPWQFDRLYKYEITDVLESKGLDVHDVFDIKITQTSWDNEDISTDRFPPPSVIYVPK 1lns-a1-m1-cA_1lns-a1-m2-cA Crystal Structure Analysis of the X-Prolyl Dipeptidyl Aminopeptidase From Lactococcus lactis P22346 P22346 2.2 X-RAY DIFFRACTION 95 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 763 763 MRFNHFSIVDKNFDEQLAELDQLGFRWSVFWDEKKILKDFLIQSPSDMTALQATAELDVIEFLKSSIELDWEIFWNIALQLLDFVPNFDFEIGKAFEYAKNSNLPQIEAEMTTENIISAFYYLLCTRRKTGMILVEHWVSEGLLPLDNHYHFFNDKSLATFDSSLLEREVLWVESPVDSEQRGENDLIKIQIIRPKSTEKLPVVMTASPYHLGINDKANDLALHDMNVELEEKTSHEIHVEQKLPQKLSAKAKELPIVDKAPYRFTHGWTYSLNDYFLTRGFASIYVAGVGTRSSDGFQTSGDYQQIYSMTAVIDWLNGRARAYTSRKKTHEIKASWANGKVAMTGKSYLGTMAYGAATTGVEGLELILAEAGISSWYNYYRENGLVRSPGGFPGEDLDVLAALTYSRNLDGADFLKGNAEYEKRLAEMTAALDRKSGDYNQFWHDRNYLINTDKVKADVLIVHGLQDWNVTPEQAYNFWKALPEGHAKHAFLHRGAHIYMNSWQSIDFSETINAYFVAKLLDRDLNLNLPPVILQENSKDQVWTMMNDFGANTQIKLPLGKTAVSFAQFDNNYDDETFKKYSKDFNVFKKDLFENKANEAVIDLELPSMLTINGPVELELRLKLNDTKGFLSAQILDFGQKKRLEDKVRVKDFKVLDRGRNFMLDDLVELPLVESPYQLVTKGFTNLQNQSLLTVSDLKADEWFTIKFELQPTIYHLEKADKLRVILYSTDFEHTVRDNRKVTYEIDLSQSKLIIPIESVKN MRFNHFSIVDKNFDEQLAELDQLGFRWSVFWDEKKILKDFLIQSPSDMTALQATAELDVIEFLKSSIELDWEIFWNIALQLLDFVPNFDFEIGKAFEYAKNSNLPQIEAEMTTENIISAFYYLLCTRRKTGMILVEHWVSEGLLPLDNHYHFFNDKSLATFDSSLLEREVLWVESPVDSEQRGENDLIKIQIIRPKSTEKLPVVMTASPYHLGINDKANDLALHDMNVELEEKTSHEIHVEQKLPQKLSAKAKELPIVDKAPYRFTHGWTYSLNDYFLTRGFASIYVAGVGTRSSDGFQTSGDYQQIYSMTAVIDWLNGRARAYTSRKKTHEIKASWANGKVAMTGKSYLGTMAYGAATTGVEGLELILAEAGISSWYNYYRENGLVRSPGGFPGEDLDVLAALTYSRNLDGADFLKGNAEYEKRLAEMTAALDRKSGDYNQFWHDRNYLINTDKVKADVLIVHGLQDWNVTPEQAYNFWKALPEGHAKHAFLHRGAHIYMNSWQSIDFSETINAYFVAKLLDRDLNLNLPPVILQENSKDQVWTMMNDFGANTQIKLPLGKTAVSFAQFDNNYDDETFKKYSKDFNVFKKDLFENKANEAVIDLELPSMLTINGPVELELRLKLNDTKGFLSAQILDFGQKKRLEDKVRVKDFKVLDRGRNFMLDDLVELPLVESPYQLVTKGFTNLQNQSLLTVSDLKADEWFTIKFELQPTIYHLEKADKLRVILYSTDFEHTVRDNRKVTYEIDLSQSKLIIPIESVKN 1lnw-a6-m2-cG_1lnw-a6-m1-cA CRYSTAL STRUCTURE OF THE MEXR REPRESSOR OF THE MEXAB-OPRM MULTIDRUG EFFLUX OPERON OF PSEUDOMONAS AERUGINOSA P52003 P52003 2.1 X-RAY DIFFRACTION 15 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 130 137 1lnw-a5-m2-cG_1lnw-a5-m1-cA PVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERNRSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLAA NYPVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERNPSDQRSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLAAQ 1lnw-a6-m2-cG_1lnw-a6-m2-cH CRYSTAL STRUCTURE OF THE MEXR REPRESSOR OF THE MEXAB-OPRM MULTIDRUG EFFLUX OPERON OF PSEUDOMONAS AERUGINOSA P52003 P52003 2.1 X-RAY DIFFRACTION 111 0.992 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 130 135 1lnw-a3-m1-cF_1lnw-a3-m1-cE 1lnw-a4-m1-cG_1lnw-a4-m1-cH 1lnw-a5-m2-cG_1lnw-a5-m2-cH 3mex-a1-m1-cA_3mex-a1-m1-cB PVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERNRSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLAA NYPVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERNPSDQRSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLA 1lnw-a7-m1-cB_1lnw-a7-m1-cC CRYSTAL STRUCTURE OF THE MEXR REPRESSOR OF THE MEXAB-OPRM MULTIDRUG EFFLUX OPERON OF PSEUDOMONAS AERUGINOSA P52003 P52003 2.1 X-RAY DIFFRACTION 36 0.993 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 135 135 1lnw-a5-m1-cB_1lnw-a5-m1-cC 1lnw-a5-m2-cG_1lnw-a5-m1-cB 1lnw-a6-m2-cG_1lnw-a6-m1-cB YPVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLAAQPLEDI NYPVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLAAQPLEDI 1lnw-a7-m1-cD_1lnw-a7-m1-cA CRYSTAL STRUCTURE OF THE MEXR REPRESSOR OF THE MEXAB-OPRM MULTIDRUG EFFLUX OPERON OF PSEUDOMONAS AERUGINOSA P52003 P52003 2.1 X-RAY DIFFRACTION 12 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 134 137 1lnw-a5-m1-cD_1lnw-a5-m1-cA NYPVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERNPSDQRSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCL NYPVNPDLPALAVFQHVRTRIQSELDCQRLDLTPPDVHVLKLIDEQRGLNLQDLGRQCRDKALITRKIRELEGRNLVRRERNPSDQRSFQLFLTDEGLAIHQHAEAISRVHDELFAPLTPVEQATLVHLLDQCLAAQ 1lny-a1-m1-cA_1lny-a1-m1-cB Crystal structure of the recombinant mouse-muscle adenylosuccinate synthetase complexed with 6-phosphoryl-IMP, GDP and Mg P28650 P28650 2.2 X-RAY DIFFRACTION 194 1.0 10090 (Mus musculus) 10090 (Mus musculus) 430 431 1iwe-a1-m1-cA_1iwe-a1-m1-cB 1j4b-a1-m1-cA_1j4b-a1-m2-cA 1lon-a1-m1-cA_1lon-a1-m2-cA 1loo-a1-m1-cA_1loo-a1-m2-cA 1mez-a1-m1-cA_1mez-a1-m2-cA 1mf0-a1-m1-cA_1mf0-a1-m2-cA 1mf1-a1-m1-cA_1mf1-a1-m2-cA 2dgn-a1-m1-cA_2dgn-a1-m2-cA ATGSRVTVVLGAQWGDEGKGKVVDLLATDADIVSRCQGGNNAGHTVVVDGKEYDFHLLPSGIINTKAVSFIGNGVVIHLPGLFEEAEKNEKKGLKDWEKRLIISDRAHLVFDFHQAVDGLQEVQRQAQEGKNIGTTKKGIGPTYSSKAARTGLRICDLLSDFDEFSARFKNLAHQHQSMFPTLEIDVEGQLKRLKGFAERIRPMVRDGVYFMYEALHGPPKKVLVEGANAALLDIDFGTYPFVTSSNCTVGGVCTGLGIPPQNIGDVYGVVKAYTTRVGIGAFPTEQINEIGDLLQNRGHEWGVTTGRKRRCGWLDLMILRYAHMVNGFTALALTKLDILDVLSEIKVGISYKLNGKRIPYFPANQEILQKVEVEYETLPGWKADTTGARKWEDLPPQAQSYVRFVENHMGVAVKWVGVGKSRESMIQLF AATGSRVTVVLGAQWGDEGKGKVVDLLATDADIVSRCQGGNNAGHTVVVDGKEYDFHLLPSGIINTKAVSFIGNGVVIHLPGLFEEAEKNEKKGLKDWEKRLIISDRAHLVFDFHQAVDGLQEVQRQAQEGKNIGTTKKGIGPTYSSKAARTGLRICDLLSDFDEFSARFKNLAHQHQSMFPTLEIDVEGQLKRLKGFAERIRPMVRDGVYFMYEALHGPPKKVLVEGANAALLDIDFGTYPFVTSSNCTVGGVCTGLGIPPQNIGDVYGVVKAYTTRVGIGAFPTEQINEIGDLLQNRGHEWGVTTGRKRRCGWLDLMILRYAHMVNGFTALALTKLDILDVLSEIKVGISYKLNGKRIPYFPANQEILQKVEVEYETLPGWKADTTGARKWEDLPPQAQSYVRFVENHMGVAVKWVGVGKSRESMIQLF 1lpp-a2-m1-cA_1lpp-a2-m2-cA ANALOGS OF REACTION INTERMEDIATES IDENTIFY A UNIQUE SUBSTRATE BINDING SITE IN CANDIDA RUGOSA LIPASE P20261 P20261 2.18 X-RAY DIFFRACTION 46 1.0 5481 (Diutina rugosa) 5481 (Diutina rugosa) 534 534 1lpn-a2-m1-cA_1lpn-a2-m2-cA APTATLANGDTITGLNAIINEAFLGIPFAEPPVGNLRFKDPVPYSGSLDGQKFTSYGPSCMQQNPEGTYEENLPKAALDLVMQSKVFEAVSPSSEDCLTINVVRPPGTKAGANLPVMLWIFGGGFEVGGTSTFPPAQMITKSIAMGKPIIHVSVNYRVSSWGFLAGDEIKAEGSANAGLKDQRLGMQWVADNIAAFGGDPTKVTIFGESAGSMSVMCHILWNDGDNTYKGKPLFRAGIMQSGAMVPSDAVDGIYGNEIFDLLASNAGCGSASDKLACLRGVSSDTLEDATNNTPGFLAYSSLRLSYLPRPDGVNITDDMYALVREGKYANIPVIIGDQNDEGTFFGTSSLNVTTDAQAREYFKQSFVHASDAEIDTLMTAYPGDITQGSPFDTGILNALTPQFKRISAVLGDLGFTLARRYFLNHYTGGTKYSFLSKQLSGLPVLGTFHSNDIVFQDYLLGSGSLIYNNAFIAFATDLDPNTAGLLVKWPEYTSSSQSGNNLMMINALGLYTGKDNFRTAGYDALFSNPPSFFV APTATLANGDTITGLNAIINEAFLGIPFAEPPVGNLRFKDPVPYSGSLDGQKFTSYGPSCMQQNPEGTYEENLPKAALDLVMQSKVFEAVSPSSEDCLTINVVRPPGTKAGANLPVMLWIFGGGFEVGGTSTFPPAQMITKSIAMGKPIIHVSVNYRVSSWGFLAGDEIKAEGSANAGLKDQRLGMQWVADNIAAFGGDPTKVTIFGESAGSMSVMCHILWNDGDNTYKGKPLFRAGIMQSGAMVPSDAVDGIYGNEIFDLLASNAGCGSASDKLACLRGVSSDTLEDATNNTPGFLAYSSLRLSYLPRPDGVNITDDMYALVREGKYANIPVIIGDQNDEGTFFGTSSLNVTTDAQAREYFKQSFVHASDAEIDTLMTAYPGDITQGSPFDTGILNALTPQFKRISAVLGDLGFTLARRYFLNHYTGGTKYSFLSKQLSGLPVLGTFHSNDIVFQDYLLGSGSLIYNNAFIAFATDLDPNTAGLLVKWPEYTSSSQSGNNLMMINALGLYTGKDNFRTAGYDALFSNPPSFFV 1lq1-a2-m1-cB_1lq1-a2-m1-cA DNA Complexed Structure of the Key Transcription Factor Initiating Development in Sporulation Bacteria P06534 P06534 2.3 X-RAY DIFFRACTION 23 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 103 107 1lq1-a1-m1-cD_1lq1-a1-m1-cC NLDASITSIIHEIGVPAHIKGYLYLREAISMVYNDIELLGSITKVLYPDIAKKFNTTASRVERAIRHAIEVAWSRGNIDSISSLFAKPTNSEFIAMVADKLRL KKNLDASITSIIHEIGVPAHIKGYLYLREAISMVYNDIELLGSITKVLYPDIAKKFNTTASRVERAIRHAIEVAWSRGNIDSISSLFAKPTNSEFIAMVADKLRLEH 1lqa-a3-m1-cA_1lqa-a3-m1-cB TAS PROTEIN FROM ESCHERICHIA COLI IN COMPLEX WITH NADPH P0A9T4 P0A9T4 1.604 X-RAY DIFFRACTION 116 1.0 562 (Escherichia coli) 562 (Escherichia coli) 346 346 MQYHRIPHSSLEVSTLGLGTMTFGEQNSEADAHAQLDYAVAQGINLIDVAEMYPVPPRPETQGLTETYVGNWLAKHGSREKLIIASKVSGPSRNNDKGIRPDQALDRKNIREALHDSLKRLQTDYLDLYQVHWPQRPTNCFGKLGYSWTDSAPAVSLLDTLDALAEYQRAGKIRYIGVSNETAFGVMRYLHLADKHDLPRIVTIQNPYSLLNRSFEVGLAEVSQYEGVELLAYSCLGFGTLTGKYLNGAKPAGARNTLFSRFTRYSGEQTQKAVAAYVDIARRHGLDPAQMALAFVRRQPFVASTLLGATTMDQLKTNIESLHLELSEDVLAEIEAVHQVYTYPAP MQYHRIPHSSLEVSTLGLGTMTFGEQNSEADAHAQLDYAVAQGINLIDVAEMYPVPPRPETQGLTETYVGNWLAKHGSREKLIIASKVSGPSRNNDKGIRPDQALDRKNIREALHDSLKRLQTDYLDLYQVHWPQRPTNCFGKLGYSWTDSAPAVSLLDTLDALAEYQRAGKIRYIGVSNETAFGVMRYLHLADKHDLPRIVTIQNPYSLLNRSFEVGLAEVSQYEGVELLAYSCLGFGTLTGKYLNGAKPAGARNTLFSRFTRYSGEQTQKAVAAYVDIARRHGLDPAQMALAFVRRQPFVASTLLGATTMDQLKTNIESLHLELSEDVLAEIEAVHQVYTYPAP 1lqg-a3-m2-cD_1lqg-a3-m1-cC ESCHERICHIA COLI URACIL-DNA GLYCOSYLASE COMPLEX WITH URACIL-DNA GLYCOSYLASE INHIBITOR PROTEIN P14739 P14739 2.9 X-RAY DIFFRACTION 55 1.0 10684 (Bacillus phage PBS2) 10684 (Bacillus phage PBS2) 70 73 QLVIQESILMLPEEVEEVIGNKPESDILVHTAYDESTDENVMLLTSDAPEYKPWALVIQDSNGENKIKML TGKQLVIQESILMLPEEVEEVIGNKPESDILVHTAYDESTDENVMLLTSDAPEYKPWALVIQDSNGENKIKML 1lql-a4-m1-cG_1lql-a4-m1-cH Crystal structure of OsmC like protein from Mycoplasma pneumoniae P75170 P75170 2.85 X-RAY DIFFRACTION 289 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 141 141 1lql-a1-m1-cA_1lql-a1-m1-cB 1lql-a2-m1-cC_1lql-a2-m1-cD 1lql-a3-m1-cE_1lql-a3-m1-cF 1lql-a5-m1-cJ_1lql-a5-m1-cI MDKKYDITAVLNEDSSMTAISDQFQITLDARPKHTAKGFGPLAALLSGLAACELATANLMAPAKMITINKLLMNVTGSRSTNPTDGYFGLREINLHWEIHSPNSETEIKEFIDFVSKRCPAHNTLQGVSQLKINVNVTLVH MDKKYDITAVLNEDSSMTAISDQFQITLDARPKHTAKGFGPLAALLSGLAACELATANLMAPAKMITINKLLMNVTGSRSTNPTDGYFGLREINLHWEIHSPNSETEIKEFIDFVSKRCPAHNTLQGVSQLKINVNVTLVH 1lqo-a1-m1-cA_1lqo-a1-m1-cB Crystal Strutcure of the Fosfomycin Resistance Protein A (FosA) Containing Bound Thallium Cations Q9I4K6 Q9I4K6 2 X-RAY DIFFRACTION 199 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 134 134 1lqk-a1-m1-cA_1lqk-a1-m1-cB 1lqp-a1-m1-cA_1lqp-a1-m1-cB 1nki-a1-m1-cA_1nki-a1-m1-cB 1nnr-a1-m1-cA_1nnr-a1-m1-cB MLTGLNHLTLAVADLPASIAFYRDLLGFRLEARWDQGAYLELGSLWLCLSREPQYGGPAADYTHYAFGIAAADFARFAAQLRAHGVREWKQNRSEGDSFYFLDPDGHRLEAHVGDLRSRLAACRQAPYAGMRFA MLTGLNHLTLAVADLPASIAFYRDLLGFRLEARWDQGAYLELGSLWLCLSREPQYGGPAADYTHYAFGIAAADFARFAAQLRAHGVREWKQNRSEGDSFYFLDPDGHRLEAHVGDLRSRLAACRQAPYAGMRFA 1lqs-a1-m1-cL_1lqs-a1-m1-cM CRYSTAL STRUCTURE OF HUMAN CYTOMEGALOVIRUS IL-10 BOUND TO SOLUBLE HUMAN IL-10R1 P17150 P17150 2.7 X-RAY DIFFRACTION 216 1.0 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 142 142 TKPQCRPEDYATRLQDLRVTFHRVKPTLQREDDYSVWLDGTVVKGCWGCSVMDWLLRRYLEIVFPAGDHVYPGLKTELHSMRSTLESIYKDMRQCPLLGCGDKSVISRLSQEAERKSDNGTRKGLSELDTLFSRLEEYLHSR TKPQCRPEDYATRLQDLRVTFHRVKPTLQREDDYSVWLDGTVVKGCWGCSVMDWLLRRYLEIVFPAGDHVYPGLKTELHSMRSTLESIYKDMRQCPLLGCGDKSVISRLSQEAERKSDNGTRKGLSELDTLFSRLEEYLHSR 1lr0-a2-m2-cA_1lr0-a2-m3-cA Pseudomonas aeruginosa TolA Domain III, Seleno-methionine Derivative P50600 P50600 1.914 X-RAY DIFFRACTION 24 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 123 123 1lr0-a2-m1-cA_1lr0-a2-m2-cA 1lr0-a2-m1-cA_1lr0-a2-m3-cA ALAELLSDTTERQQALADEVGSEVTGSLDDLIVNLVSQQWRRPPSARNGSVEVLIELPDGTITNASVSRSSGDKPFDSSAVAAVRNVGRIPEQQLPRATFDSLYRQRRIIFKPEDLSLHHHHH ALAELLSDTTERQQALADEVGSEVTGSLDDLIVNLVSQQWRRPPSARNGSVEVLIELPDGTITNASVSRSSGDKPFDSSAVAAVRNVGRIPEQQLPRATFDSLYRQRRIIFKPEDLSLHHHHH 1lr1-a1-m1-cA_1lr1-a1-m1-cB Solution Structure of the Oligomerization Domain of the Bacterial Chromatin-Structuring Protein H-NS P0ACF8 P0ACF8 NOT SOLUTION NMR 124 1.0 562 (Escherichia coli) 562 (Escherichia coli) 57 57 SEALKILNNIRTLRAQARESTLETLEEMLEKLEVVVNERREEESAAAAEVEERTRKL SEALKILNNIRTLRAQARESTLETLEEMLEKLEVVVNERREEESAAAAEVEERTRKL 1lrh-a2-m1-cB_1lrh-a2-m1-cC Crystal structure of auxin-binding protein 1 in complex with 1-naphthalene acetic acid P13689 P13689 1.9 X-RAY DIFFRACTION 101 1.0 4577 (Zea mays) 4577 (Zea mays) 160 160 1lr5-a1-m1-cA_1lr5-a1-m1-cD 1lr5-a2-m1-cB_1lr5-a2-m1-cC 1lrh-a1-m1-cA_1lrh-a1-m1-cD SCVRDNSLVRDISQMPQSSYGIEGLSHITVAGALNHGMKEVEVWLQTISPGQRTPIHRHSCEEVFTVLKGKGTLLMGSSSLKYPGQPQEIPFFQNTTFSIPVNDPHQVWNSDEHEDLQVLVIISRPPAKIFLYDDWSMPHTAAVLKFPFVWDEDCFEAAK SCVRDNSLVRDISQMPQSSYGIEGLSHITVAGALNHGMKEVEVWLQTISPGQRTPIHRHSCEEVFTVLKGKGTLLMGSSSLKYPGQPQEIPFFQNTTFSIPVNDPHQVWNSDEHEDLQVLVIISRPPAKIFLYDDWSMPHTAAVLKFPFVWDEDCFEAAK 1lrp-a2-m1-cB_1lrp-a2-m1-cC COMPARISON OF THE STRUCTURES OF CRO AND LAMBDA REPRESSOR PROTEINS FROM BACTERIOPHAGE LAMBDA P03034 P03034 3.2 X-RAY DIFFRACTION 10 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 89 89 KKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVS KKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVS 1lrw-a1-m1-cA_1lrw-a1-m1-cC Crystal structure of methanol dehydrogenase from P. denitrificans P12293 P12293 2.5 X-RAY DIFFRACTION 144 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 600 600 NDQLVELAKDPANWVMTGRDYNAQNYSEMTDINKENVKQLRPAWSFSTGVLHGHEGTPLVVGDRMFIHTPFPNTTFALDLNEPGKILWQNKPKQNPTARTVACCDVVNRGLAYWPGDDQVKPLIFRTQLDGHIVAMDAETGETRWIMENSDIKVGSTLTIAPYVIKDLVLVGSSGAELGVRGYVTAYDVKSGEMRWRAFATGPDEELLLAEDFNAPNPHYGQKNLGLETWEGDAWKIGGGTNWGWYAYDPEVDLFYYGSGNPAPWNETMRPGDNKWTMAIWGREATTGEAKFAYQKTPHDEWDYAGVNVMMLSEQEDKQGQMRKLLTHPDRNGIVYTLDRTNGDLISADKMDDTVNWVKEVQLDTGLPVRDPEFGTRMDHKARDICPSAMGYHNQGHDSYDPERKVFMLGINHICMDWEPFMLPYRAGQFFVGATLTMYPGPKGDRGNASGLGQIKAYDAISGEMKWEKMERFSVWGGTMATAGGLTFYATLDGFIKARDSDTGDLLWKFKLPSGVIGHPMTYKHDGRQYVAIMYGVGGWPGVGLVFDLADPTAGLGSVGAFKRLQEFTQMGGGVMVFSLDGESPYSDPNVGEYAPGEPT NDQLVELAKDPANWVMTGRDYNAQNYSEMTDINKENVKQLRPAWSFSTGVLHGHEGTPLVVGDRMFIHTPFPNTTFALDLNEPGKILWQNKPKQNPTARTVACCDVVNRGLAYWPGDDQVKPLIFRTQLDGHIVAMDAETGETRWIMENSDIKVGSTLTIAPYVIKDLVLVGSSGAELGVRGYVTAYDVKSGEMRWRAFATGPDEELLLAEDFNAPNPHYGQKNLGLETWEGDAWKIGGGTNWGWYAYDPEVDLFYYGSGNPAPWNETMRPGDNKWTMAIWGREATTGEAKFAYQKTPHDEWDYAGVNVMMLSEQEDKQGQMRKLLTHPDRNGIVYTLDRTNGDLISADKMDDTVNWVKEVQLDTGLPVRDPEFGTRMDHKARDICPSAMGYHNQGHDSYDPERKVFMLGINHICMDWEPFMLPYRAGQFFVGATLTMYPGPKGDRGNASGLGQIKAYDAISGEMKWEKMERFSVWGGTMATAGGLTFYATLDGFIKARDSDTGDLLWKFKLPSGVIGHPMTYKHDGRQYVAIMYGVGGWPGVGLVFDLADPTAGLGSVGAFKRLQEFTQMGGGVMVFSLDGESPYSDPNVGEYAPGEPT 1ls5-a3-m1-cA_1ls5-a3-m2-cB Crystal structure of plasmepsin IV from P. falciparum in complex with pepstatin A Q8IM16 Q8IM16 2.8 X-RAY DIFFRACTION 20 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 328 328 1ls5-a3-m1-cB_1ls5-a3-m2-cA SENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL SENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL 1ls5-a3-m1-cB_1ls5-a3-m2-cB Crystal structure of plasmepsin IV from P. falciparum in complex with pepstatin A Q8IM16 Q8IM16 2.8 X-RAY DIFFRACTION 46 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 328 328 SENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL SENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL 1ls5-a4-m1-cA_1ls5-a4-m1-cB Crystal structure of plasmepsin IV from P. falciparum in complex with pepstatin A Q8IM16 Q8IM16 2.8 X-RAY DIFFRACTION 84 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 328 328 1ls5-a3-m1-cA_1ls5-a3-m1-cB 1ls5-a3-m2-cA_1ls5-a3-m2-cB SENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL SENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL 1lss-a1-m1-cD_1lss-a1-m2-cD KTN Mja218 CRYSTAL STRUCTURE IN COMPLEX WITH NAD+ Q58505 Q58505 2.3 X-RAY DIFFRACTION 37 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 132 132 1lss-a1-m1-cB_1lss-a1-m2-cB MYIIIAGIGRVGYTLAKSLSEKGHDIVLIDIDKDICKKASAEIDALVINGDCTKIKTLEDAGIEDADMYIAVTGKEEVNLMSSLLAKSYGINKTIARISEIEYKDVFERLGVDVVVSPELIAANYIEKLIER MYIIIAGIGRVGYTLAKSLSEKGHDIVLIDIDKDICKKASAEIDALVINGDCTKIKTLEDAGIEDADMYIAVTGKEEVNLMSSLLAKSYGINKTIARISEIEYKDVFERLGVDVVVSPELIAANYIEKLIER 1lss-a1-m2-cA_1lss-a1-m2-cC KTN Mja218 CRYSTAL STRUCTURE IN COMPLEX WITH NAD+ Q58505 Q58505 2.3 X-RAY DIFFRACTION 40 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 132 132 1lss-a1-m1-cA_1lss-a1-m1-cC MYIIIAGIGRVGYTLAKSLSEKGHDIVLIDIDKDICKKASAEIDALVINGDCTKIKTLEDAGIEDADMYIAVTGKEEVNLMSSLLAKSYGINKTIARISEIEYKDVFERLGVDVVVSPELIAANYIEKLIER MYIIIAGIGRVGYTLAKSLSEKGHDIVLIDIDKDICKKASAEIDALVINGDCTKIKTLEDAGIEDADMYIAVTGKEEVNLMSSLLAKSYGINKTIARISEIEYKDVFERLGVDVVVSPELIAANYIEKLIER 1lss-a1-m2-cC_1lss-a1-m2-cD KTN Mja218 CRYSTAL STRUCTURE IN COMPLEX WITH NAD+ Q58505 Q58505 2.3 X-RAY DIFFRACTION 93 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 132 132 1lss-a1-m1-cA_1lss-a1-m1-cB 1lss-a1-m1-cC_1lss-a1-m1-cD 1lss-a1-m2-cA_1lss-a1-m2-cB MYIIIAGIGRVGYTLAKSLSEKGHDIVLIDIDKDICKKASAEIDALVINGDCTKIKTLEDAGIEDADMYIAVTGKEEVNLMSSLLAKSYGINKTIARISEIEYKDVFERLGVDVVVSPELIAANYIEKLIER MYIIIAGIGRVGYTLAKSLSEKGHDIVLIDIDKDICKKASAEIDALVINGDCTKIKTLEDAGIEDADMYIAVTGKEEVNLMSSLLAKSYGINKTIARISEIEYKDVFERLGVDVVVSPELIAANYIEKLIER 1lt7-a1-m1-cA_1lt7-a1-m2-cB Oxidized Homo sapiens betaine-homocysteine S-methyltransferase in complex with four Sm(III) ions Q93088 Q93088 2.15 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 305 315 1lt7-a1-m2-cA_1lt7-a1-m1-cB 1umy-a1-m1-cA_1umy-a1-m1-cC 1umy-a1-m1-cB_1umy-a1-m1-cD 4m3p-a1-m1-cA_4m3p-a1-m1-cD KGILERLNAGEIVIGDGGFVFALEKRGYHPEAVRQLHREFLRAGSNVMQTFTVNEAAADIARQVADEGDALVAGGVSQTPSYLSAKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMAIGPEGDLHGVPPGEAAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDANKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPRARARKEYWENLRIASGRPYNPSMSKPD KGILERLNAGEIVIGDGGFVFALEKRGYHPEAVRQLHREFLRAGSNVMQTFTVNEAAADIARQVADEGDALVAGGVSQTPSYLSAKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMAIGPEGDLHGVPPGEAAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDANKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPGLDMHTKPWVRARARKEYWENLRIASGRPYNPSMSKPD 1lt7-a1-m1-cB_1lt7-a1-m2-cB Oxidized Homo sapiens betaine-homocysteine S-methyltransferase in complex with four Sm(III) ions Q93088 Q93088 2.15 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 315 1lt7-a1-m1-cA_1lt7-a1-m2-cA 1lt8-a1-m1-cA_1lt8-a1-m2-cA 1umy-a1-m1-cA_1umy-a1-m1-cD 1umy-a1-m1-cB_1umy-a1-m1-cC 4m3p-a1-m1-cC_4m3p-a1-m1-cA KGILERLNAGEIVIGDGGFVFALEKRGYHPEAVRQLHREFLRAGSNVMQTFTVNEAAADIARQVADEGDALVAGGVSQTPSYLSAKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMAIGPEGDLHGVPPGEAAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDANKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPGLDMHTKPWVRARARKEYWENLRIASGRPYNPSMSKPD KGILERLNAGEIVIGDGGFVFALEKRGYHPEAVRQLHREFLRAGSNVMQTFTVNEAAADIARQVADEGDALVAGGVSQTPSYLSAKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMAIGPEGDLHGVPPGEAAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDANKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPGLDMHTKPWVRARARKEYWENLRIASGRPYNPSMSKPD 1lt7-a2-m1-cA_1lt7-a2-m1-cB Oxidized Homo sapiens betaine-homocysteine S-methyltransferase in complex with four Sm(III) ions Q93088 Q93088 2.15 X-RAY DIFFRACTION 186 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 305 315 1lt7-a1-m1-cA_1lt7-a1-m1-cB 1lt7-a1-m2-cA_1lt7-a1-m2-cB 1lt8-a1-m1-cB_1lt8-a1-m1-cA 1lt8-a1-m2-cB_1lt8-a1-m2-cA 1umy-a1-m1-cA_1umy-a1-m1-cB 4m3p-a1-m1-cA_4m3p-a1-m1-cB 4m3p-a1-m1-cC_4m3p-a1-m1-cD KGILERLNAGEIVIGDGGFVFALEKRGYHPEAVRQLHREFLRAGSNVMQTFTVNEAAADIARQVADEGDALVAGGVSQTPSYLSAKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMAIGPEGDLHGVPPGEAAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDANKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPRARARKEYWENLRIASGRPYNPSMSKPD KGILERLNAGEIVIGDGGFVFALEKRGYHPEAVRQLHREFLRAGSNVMQTFTVNEAAADIARQVADEGDALVAGGVSQTPSYLSAKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMAIGPEGDLHGVPPGEAAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDANKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPGLDMHTKPWVRARARKEYWENLRIASGRPYNPSMSKPD 1lu0-a1-m1-cA_1lu0-a1-m2-cB Atomic Resolution Structure of Squash Trypsin Inhibitor: Unexpected Metal Coordination P01074 P01074 1.03 X-RAY DIFFRACTION 14 1.0 3661 (Cucurbita maxima) 3661 (Cucurbita maxima) 29 29 1lu0-a1-m1-cB_1lu0-a1-m2-cA RVCPRILLECKKDSDCLAECVCLEHGYCG RVCPRILLECKKDSDCLAECVCLEHGYCG 1lul-a3-m1-cF_1lul-a3-m1-cE DB58, A LEGUME LECTIN FROM DOLICHOS BIFLORUS P19588 P19588 3.3 X-RAY DIFFRACTION 78 1.0 3840 (Vigna unguiculata subsp. cylindrica) 3840 (Vigna unguiculata subsp. cylindrica) 228 246 1g7y-a3-m1-cF_1g7y-a3-m1-cE 1lul-a1-m1-cA_1lul-a1-m1-cB 1lul-a2-m1-cD_1lul-a2-m1-cC ADIQSFSFKNFSSFILQGDATVSSSKLRLTKVKGNGLPTLSSLGRAFYSSPIQIYDKSTGAVASWATSFTANIFAPNKSSSADGIAFALVPVGSEPKSNFLGVFDSDVYDNSAQTVAVEFDTFSNTWDPTSRHIGIDVNSIKSIRTASWGLANGQNAEILITYNAATSLLVASLVHPSRRTSYIVSERVDITNELPEYVSIGFSATTGLSYTETHDVLSWSFASKLPD ADIQSFSFKNFSSFILQGDATVSSSKLRLTKVKGNGLPTLSSLGRAFYSSPIQIYDKSTGAVASWATSFTANIFAPNKSSSADGIAFALVPVGSEPKSNFLGVFDSDVYDNSAQTVAVEFDTFSNTWDPTSRHIGIDVNSIKSIRTASWGLANGQNAEILITYNAATSLLVASLVHPSRRTSYIVSERVDITNELPEYVSIGFSATTGLSYTETHDVLSWSFASKLPDDSTTEPLDIASYLVRNVL 1lv7-a2-m1-cA_1lv7-a2-m2-cA Crystal Structure of the AAA domain of FtsH P0AAI3 P0AAI3 1.5 X-RAY DIFFRACTION 180 1.0 562 (Escherichia coli) 562 (Escherichia coli) 251 251 MLTEDQIKTTFADVAGCDEAKEEVAELVEYLREPSRFKIPKGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKAAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQMLVEMDGFEGNEGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDVRGREQILKVHMRRVPLAPDIDAAIIARGTPGFSGADLANLVNEAALFAARGNKRVVSMVEFEKAKDKIMMGL MLTEDQIKTTFADVAGCDEAKEEVAELVEYLREPSRFKIPKGVLMVGPPGTGKTLLAKAIAGEAKVPFFTISGSDFVEMFVGVGASRVRDMFEQAKKAAPCIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQMLVEMDGFEGNEGIIVIAATNRPDVLDPALLRPGRFDRQVVVGLPDVRGREQILKVHMRRVPLAPDIDAAIIARGTPGFSGADLANLVNEAALFAARGNKRVVSMVEFEKAKDKIMMGL 1lv8-a1-m1-cB_1lv8-a1-m1-cF Crystal structure of calf spleen purine nucleoside phosphorylase in a new space group with full trimer in the asymmetric unit P55859 P55859 2.3 X-RAY DIFFRACTION 13 1.0 9913 (Bos taurus) 9913 (Bos taurus) 265 266 1lv8-a1-m1-cA_1lv8-a1-m1-cD 1lv8-a1-m1-cE_1lv8-a1-m1-cC 1lvu-a1-m1-cA_1lvu-a1-m1-cD 1lvu-a1-m1-cE_1lvu-a1-m1-cC 1lvu-a1-m1-cF_1lvu-a1-m1-cB NGYTYEDYQDTAKWLLSHTEQRPQVAVICGSGLGGLVNKLTQAQTFDYSEIPNFPESTVPGHAGRLVFGILNGRACVMMQGRFHMYEGYPFWKVTFPVRVFRLLGVETLVVTNAAGGLNPNFEVGDIMLIRDHINLPGFSGQNPLRGPNEERFGVRFPAMSDAYDRDMRQKAHSTWKQMGEQRELQEGTYVMLGGPNFETVAECRLLRNLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDQAAQKLEQFVSLLMASIPV NGYTYEDYQDTAKWLLSHTEQRPQVAVICGSGLGGLVNKLTQAQTFDYSEIPNFPESTVPGHAGRLVFGILNGRACVMMQGRFHMYEGYPFWKVTFPVRVFRLLGVETLVVTNAAGGLNPNFEVGDIMLIRDHINLPGFSGQNPLRGPNEERFGVRFPAMSDAYDRDMRQKAHSTWKQMGEQRELQEGTYVMLGGPNFETVAECRLLRNLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDKQAAQKLEQFVSLLMASIPV 1lvl-a1-m1-cA_1lvl-a1-m2-cA THE REFINED STRUCTURE OF PSEUDOMONAS PUTIDA LIPOAMIDE DEHYDROGENASE COMPLEXED WITH NAD+ AT 2.45 ANGSTROMS RESOLUTION P09063 P09063 2.45 X-RAY DIFFRACTION 271 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 458 458 QQTIQTTLLIIGGGPGGYVAAIRAGQLGIPTVLVEGQALGGTCLNIGCIPSKALIHVAEQFHQASRFTEPSPLGISVASPRLDIGQSVAWKDGIVDRLTTGVAALLKKHGVKVVHGWAKVLDGKQVEVDGQRIQCEHLLLATGSSSVELPMLPLGGPVISSTEALAPKALPQHLVVVGGGYIGLELGIAYRKLGAQVSVVEARERILPTYDSELTAPVAESLKKLGIALHLGHSVEGYENGCLLANDGKGGQLRLEADRVLVAVGRRPRTKGFNLECLDLKMNGAAIAIDERCQTSMHNVWAIGDVAGEPMLAHRAMAQGEMVAEIIAGKARRFEPAAIAAVCFTDPEVVVVGKTPEQASQQGLDCIVAQFPFAANGRAMSLESKSGFVRVVARRDNHLILGWQAVGVAVSELSTAFAQSLEMGACLEDVAGTIHAHPTLGEAVQEAALRALGHALHI QQTIQTTLLIIGGGPGGYVAAIRAGQLGIPTVLVEGQALGGTCLNIGCIPSKALIHVAEQFHQASRFTEPSPLGISVASPRLDIGQSVAWKDGIVDRLTTGVAALLKKHGVKVVHGWAKVLDGKQVEVDGQRIQCEHLLLATGSSSVELPMLPLGGPVISSTEALAPKALPQHLVVVGGGYIGLELGIAYRKLGAQVSVVEARERILPTYDSELTAPVAESLKKLGIALHLGHSVEGYENGCLLANDGKGGQLRLEADRVLVAVGRRPRTKGFNLECLDLKMNGAAIAIDERCQTSMHNVWAIGDVAGEPMLAHRAMAQGEMVAEIIAGKARRFEPAAIAAVCFTDPEVVVVGKTPEQASQQGLDCIVAQFPFAANGRAMSLESKSGFVRVVARRDNHLILGWQAVGVAVSELSTAFAQSLEMGACLEDVAGTIHAHPTLGEAVQEAALRALGHALHI 1lvw-a1-m1-cD_1lvw-a1-m1-cA Crystal structure of glucose-1-phosphate thymidylyltransferase, RmlA, complex with dTDP O27819 O27819 1.7 X-RAY DIFFRACTION 99 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 291 295 1lvw-a1-m1-cB_1lvw-a1-m1-cC HMKGIVLAGGTRLYPITRAVSKQLLPIYDKPMIYYPLSVLMLAGIRDILIISTPRDLPLYRDLLGDGSQFGVRFSYRVQEEPRGIADAFIVGKDFIGDSKVALVLGDNVFYGHRFSEILRRAASLEDGAVIFGYYVRDPRPFGVVEFDSEGRVISIEEKPSRPKSNYVVPGLYFYDNQVVEIARRIEPSDRGELEITSVNEEYLRMGKLRVELMGRGMAWLDTGTHDGLLEASSFIETIQKRQGFYIACLEEIAYNNGWITREDVLEMAEKLEKTDYGKYLRDLAEGNFHG GAHMKGIVLAGGSGTRLYPITRAVSKQLLPIYDKPMIYYPLSVLMLAGIRDILIISTPRDLPLYRDLLGDGSQFGVRFSYRVQEEPRGIADAFIVGKDFIGDSKVALVLGDNVFYGHRFSEILRRAASLEDGAVIFGYYVRDPRPFGVVEFDSEGRVISIEEKPSRPKSNYVVPGLYFYDNQVVEIARRIEPSDRGELEITSVNEEYLRMGKLRVELMGRGMAWLDTGTHDGLLEASSFIETIQKRQGFYIACLEEIAYNNGWITREDVLEMAEKLEKTDYGKYLRDLAEGNFHG 1lvw-a1-m1-cD_1lvw-a1-m1-cB Crystal structure of glucose-1-phosphate thymidylyltransferase, RmlA, complex with dTDP O27819 O27819 1.7 X-RAY DIFFRACTION 121 0.997 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 291 292 1lvw-a1-m1-cC_1lvw-a1-m1-cA HMKGIVLAGGTRLYPITRAVSKQLLPIYDKPMIYYPLSVLMLAGIRDILIISTPRDLPLYRDLLGDGSQFGVRFSYRVQEEPRGIADAFIVGKDFIGDSKVALVLGDNVFYGHRFSEILRRAASLEDGAVIFGYYVRDPRPFGVVEFDSEGRVISIEEKPSRPKSNYVVPGLYFYDNQVVEIARRIEPSDRGELEITSVNEEYLRMGKLRVELMGRGMAWLDTGTHDGLLEASSFIETIQKRQGFYIACLEEIAYNNGWITREDVLEMAEKLEKTDYGKYLRDLAEGNFHG HMKGIVLAGGSGTRLYPITRAVSKQLLPIYDKPMIYYPLSVLMLAGIRDILIISTPRDLPLYRDLLGDGSQFGVRFSYRVQEEPRGIADAFIVGKDFIGDSKVALVLGDNVFYGHRFSEILRRAASLEDGAVIFGYYVRDPRPFGVVEFDSEGRVISIEEKPSRPKSNYVVPGLYFYDNQVVEIARRIEPSDRGELEITSVNEEYLRMGKLRVELMGRGMAWLDTGTHDGLLEASSFIETIQKRQGFYIACLEEIAYNNGWITREDVLEMAEKLEKTDYGKYLRDLAEGNFH 1lw7-a1-m1-cA_1lw7-a1-m4-cA NADR PROTEIN FROM HAEMOPHILUS INFLUENZAE P44308 P44308 2.9 X-RAY DIFFRACTION 38 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 338 338 1lw7-a1-m2-cA_1lw7-a1-m3-cA EKKVGVIFGKFYPVHTGHINIYEAFSKVDELHVIVCSDTVRDLKLFYDSKKRPTVQDRLRWQQIFKYQKNQIFIHHLVEDGIPSYPNGWQSWSEAVKTLFHEKHFEPSIVFSSEPQDKAPYEKYLGLEVSLVDPDRTFFNVSATKIRTTPFQYWKFIPKEARPFFAKTVAILGGESSGKSVLVNKLAAVFNTTSAWEYGREFVFEKLGGDEQAMQYSDYPQALGHQRYIDYAVRHSHKIAFIDTDFITTQAFCIQYEGKAHPFLDSIKEYPFDVTILLKNNTEQKQRQQFQQLLKKLLDKYKVPYIEIESPSYLDRYNQVKAVIEKVLNEEEISELQN EKKVGVIFGKFYPVHTGHINIYEAFSKVDELHVIVCSDTVRDLKLFYDSKKRPTVQDRLRWQQIFKYQKNQIFIHHLVEDGIPSYPNGWQSWSEAVKTLFHEKHFEPSIVFSSEPQDKAPYEKYLGLEVSLVDPDRTFFNVSATKIRTTPFQYWKFIPKEARPFFAKTVAILGGESSGKSVLVNKLAAVFNTTSAWEYGREFVFEKLGGDEQAMQYSDYPQALGHQRYIDYAVRHSHKIAFIDTDFITTQAFCIQYEGKAHPFLDSIKEYPFDVTILLKNNTEQKQRQQFQQLLKKLLDKYKVPYIEIESPSYLDRYNQVKAVIEKVLNEEEISELQN 1lw7-a1-m2-cA_1lw7-a1-m4-cA NADR PROTEIN FROM HAEMOPHILUS INFLUENZAE P44308 P44308 2.9 X-RAY DIFFRACTION 12 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 338 338 1lw7-a1-m1-cA_1lw7-a1-m3-cA EKKVGVIFGKFYPVHTGHINIYEAFSKVDELHVIVCSDTVRDLKLFYDSKKRPTVQDRLRWQQIFKYQKNQIFIHHLVEDGIPSYPNGWQSWSEAVKTLFHEKHFEPSIVFSSEPQDKAPYEKYLGLEVSLVDPDRTFFNVSATKIRTTPFQYWKFIPKEARPFFAKTVAILGGESSGKSVLVNKLAAVFNTTSAWEYGREFVFEKLGGDEQAMQYSDYPQALGHQRYIDYAVRHSHKIAFIDTDFITTQAFCIQYEGKAHPFLDSIKEYPFDVTILLKNNTEQKQRQQFQQLLKKLLDKYKVPYIEIESPSYLDRYNQVKAVIEKVLNEEEISELQN EKKVGVIFGKFYPVHTGHINIYEAFSKVDELHVIVCSDTVRDLKLFYDSKKRPTVQDRLRWQQIFKYQKNQIFIHHLVEDGIPSYPNGWQSWSEAVKTLFHEKHFEPSIVFSSEPQDKAPYEKYLGLEVSLVDPDRTFFNVSATKIRTTPFQYWKFIPKEARPFFAKTVAILGGESSGKSVLVNKLAAVFNTTSAWEYGREFVFEKLGGDEQAMQYSDYPQALGHQRYIDYAVRHSHKIAFIDTDFITTQAFCIQYEGKAHPFLDSIKEYPFDVTILLKNNTEQKQRQQFQQLLKKLLDKYKVPYIEIESPSYLDRYNQVKAVIEKVLNEEEISELQN 1lw7-a1-m3-cA_1lw7-a1-m4-cA NADR PROTEIN FROM HAEMOPHILUS INFLUENZAE P44308 P44308 2.9 X-RAY DIFFRACTION 69 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 338 338 1lw7-a1-m1-cA_1lw7-a1-m2-cA EKKVGVIFGKFYPVHTGHINIYEAFSKVDELHVIVCSDTVRDLKLFYDSKKRPTVQDRLRWQQIFKYQKNQIFIHHLVEDGIPSYPNGWQSWSEAVKTLFHEKHFEPSIVFSSEPQDKAPYEKYLGLEVSLVDPDRTFFNVSATKIRTTPFQYWKFIPKEARPFFAKTVAILGGESSGKSVLVNKLAAVFNTTSAWEYGREFVFEKLGGDEQAMQYSDYPQALGHQRYIDYAVRHSHKIAFIDTDFITTQAFCIQYEGKAHPFLDSIKEYPFDVTILLKNNTEQKQRQQFQQLLKKLLDKYKVPYIEIESPSYLDRYNQVKAVIEKVLNEEEISELQN EKKVGVIFGKFYPVHTGHINIYEAFSKVDELHVIVCSDTVRDLKLFYDSKKRPTVQDRLRWQQIFKYQKNQIFIHHLVEDGIPSYPNGWQSWSEAVKTLFHEKHFEPSIVFSSEPQDKAPYEKYLGLEVSLVDPDRTFFNVSATKIRTTPFQYWKFIPKEARPFFAKTVAILGGESSGKSVLVNKLAAVFNTTSAWEYGREFVFEKLGGDEQAMQYSDYPQALGHQRYIDYAVRHSHKIAFIDTDFITTQAFCIQYEGKAHPFLDSIKEYPFDVTILLKNNTEQKQRQQFQQLLKKLLDKYKVPYIEIESPSYLDRYNQVKAVIEKVLNEEEISELQN 1lwi-a1-m1-cA_1lwi-a1-m1-cB 3-ALPHA-HYDROXYSTEROID/DIHYDRODIOL DEHYDROGENASE FROM RATTUS NORVEGICUS P23457 P23457 2.7 X-RAY DIFFRACTION 63 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 305 305 MDSISLRVALNDGNFIPVLGFGTTVPAKDEVIKATKIAIDNGFRHFDSAYLYEVEEEVGQAIRSKIEDGTVKREDIFYTSKLWSTFHRPELVRTCLEKTLKSTQLDYVDLYIIHFPMALQPGDIFFPRDEHGKLLFETVDICDTWEAMEKCKDAGLAKSIGVSNFNCRQLERILNKPGLKYKPVCNQVECHLYLNQSKMLDYCKSKDIILVSYCTLGSKTWVDQKSPVLLDDPVLCAIAKKYKQTPALVALRYQLQRGVVPLIRSFNAKRIKELTQVFEFQLASEDMKALDGLNRNFRYNNAKYF MDSISLRVALNDGNFIPVLGFGTTVPAKDEVIKATKIAIDNGFRHFDSAYLYEVEEEVGQAIRSKIEDGTVKREDIFYTSKLWSTFHRPELVRTCLEKTLKSTQLDYVDLYIIHFPMALQPGDIFFPRDEHGKLLFETVDICDTWEAMEKCKDAGLAKSIGVSNFNCRQLERILNKPGLKYKPVCNQVECHLYLNQSKMLDYCKSKDIILVSYCTLGSKTWVDQKSPVLLDDPVLCAIAKKYKQTPALVALRYQLQRGVVPLIRSFNAKRIKELTQVFEFQLASEDMKALDGLNRNFRYNNAKYF 1lwj-a1-m1-cA_1lwj-a1-m1-cB CRYSTAL STRUCTURE OF T. MARITIMA 4-ALPHA-GLUCANOTRANSFERASE/ACARBOSE COMPLEX P80099 P80099 2.5 X-RAY DIFFRACTION 107 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 441 441 1lwh-a1-m1-cA_1lwh-a1-m1-cB MIGYQIYVRSFRDGNLDGVGDFRGLKNAVSYLKELGIDFVWLMPVFSSISFHGYDVVDFYSFKAEYGSEREFKEMIEAFHDSGIKVVLDLPIHHTGFLHTWFQKALKGDPHYRDYYVWANKETDLDERREWDGEKIWHPLEDGRFYRGLFGPFSPDLNYDNPQVFDEMKRLVLHLLDMGVDGFRFDAAKHMRDTIEQNVRFWKYFLSDLKGIFLAEIWAEARMVDEHGRIFGYMLNFDTSHCIKEAVWKENTRVLIESIERAVIAKDYLPVNFTSNHDMSRLASFEGGFSKEKIKLSISILFTLPGVPLVFYGDELGMKGVYQKPNTEVVLDPFPWNESMCVEGQTFWKWPAYNGPFSGISVEYQKRDPDSILSHTLGWTRFRKENQWIDRAKLEFLCKEDKFLVYRLYDDQHSLKVFHNLSGEEVVFEGVKMKPYKTEVV MIGYQIYVRSFRDGNLDGVGDFRGLKNAVSYLKELGIDFVWLMPVFSSISFHGYDVVDFYSFKAEYGSEREFKEMIEAFHDSGIKVVLDLPIHHTGFLHTWFQKALKGDPHYRDYYVWANKETDLDERREWDGEKIWHPLEDGRFYRGLFGPFSPDLNYDNPQVFDEMKRLVLHLLDMGVDGFRFDAAKHMRDTIEQNVRFWKYFLSDLKGIFLAEIWAEARMVDEHGRIFGYMLNFDTSHCIKEAVWKENTRVLIESIERAVIAKDYLPVNFTSNHDMSRLASFEGGFSKEKIKLSISILFTLPGVPLVFYGDELGMKGVYQKPNTEVVLDPFPWNESMCVEGQTFWKWPAYNGPFSGISVEYQKRDPDSILSHTLGWTRFRKENQWIDRAKLEFLCKEDKFLVYRLYDDQHSLKVFHNLSGEEVVFEGVKMKPYKTEVV 1lwu-a2-m1-cD_1lwu-a2-m1-cG Crystal structure of fragment D from lamprey fibrinogen complexed with the peptide Gly-His-Arg-Pro-amide P02674 P02674 2.8 X-RAY DIFFRACTION 16 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 99 99 1lwu-a1-m1-cA_1lwu-a1-m1-cJ NELEVRYSEVLRELERRIIHLQRRINMQLQQLTLLQHNIKTQVSQILRVEVDIDVALRACKGSCARYLEYRLDKEKNLQLEKAASYIANLKFERFEEVV NELEVRYSEVLRELERRIIHLQRRINMQLQQLTLLQHNIKTQVSQILRVEVDIDVALRACKGSCARYLEYRLDKEKNLQLEKAASYIANLKFERFEEVV 1lxe-a1-m1-cA_1lxe-a1-m2-cA CRYSTAL STRUCTURE OF THE CATHELICIDIN MOTIF OF PROTEGRINS P32196 P32196 2.5 X-RAY DIFFRACTION 183 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 92 92 ALSYREAVLRAVDRLNEQSSEANLYRLLELDQPPKADEDPGTPKPVSFTVKETVCPRPTRQPPELCDFKENGRVKQCVGTVTLDDITCNEVQ ALSYREAVLRAVDRLNEQSSEANLYRLLELDQPPKADEDPGTPKPVSFTVKETVCPRPTRQPPELCDFKENGRVKQCVGTVTLDDITCNEVQ 1lxj-a1-m1-cA_1lxj-a1-m4-cA X-RAY STRUCTURE OF YBL001c NORTHEAST STRUCTURAL GENOMICS (NESG) CONSORTIUM TARGET YTYst72 P35195 P35195 1.8 X-RAY DIFFRACTION 35 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 101 101 1lxj-a1-m2-cA_1lxj-a1-m3-cA PKIFCLADVCVPIGTDSASISDFVALIEKKIRESPLKSTLHSAGTTIEGPWDDVGLIGEIHEYGHEKGYVRVHTDIRVGTRTDKHQTAQDKIDVVLKKISQ PKIFCLADVCVPIGTDSASISDFVALIEKKIRESPLKSTLHSAGTTIEGPWDDVGLIGEIHEYGHEKGYVRVHTDIRVGTRTDKHQTAQDKIDVVLKKISQ 1lxj-a1-m2-cA_1lxj-a1-m4-cA X-RAY STRUCTURE OF YBL001c NORTHEAST STRUCTURAL GENOMICS (NESG) CONSORTIUM TARGET YTYst72 P35195 P35195 1.8 X-RAY DIFFRACTION 86 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 101 101 1lxj-a1-m1-cA_1lxj-a1-m3-cA PKIFCLADVCVPIGTDSASISDFVALIEKKIRESPLKSTLHSAGTTIEGPWDDVGLIGEIHEYGHEKGYVRVHTDIRVGTRTDKHQTAQDKIDVVLKKISQ PKIFCLADVCVPIGTDSASISDFVALIEKKIRESPLKSTLHSAGTTIEGPWDDVGLIGEIHEYGHEKGYVRVHTDIRVGTRTDKHQTAQDKIDVVLKKISQ 1lxj-a1-m3-cA_1lxj-a1-m4-cA X-RAY STRUCTURE OF YBL001c NORTHEAST STRUCTURAL GENOMICS (NESG) CONSORTIUM TARGET YTYst72 P35195 P35195 1.8 X-RAY DIFFRACTION 90 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 101 101 1lxj-a1-m1-cA_1lxj-a1-m2-cA PKIFCLADVCVPIGTDSASISDFVALIEKKIRESPLKSTLHSAGTTIEGPWDDVGLIGEIHEYGHEKGYVRVHTDIRVGTRTDKHQTAQDKIDVVLKKISQ PKIFCLADVCVPIGTDSASISDFVALIEKKIRESPLKSTLHSAGTTIEGPWDDVGLIGEIHEYGHEKGYVRVHTDIRVGTRTDKHQTAQDKIDVVLKKISQ 1lxn-a5-m1-cB_1lxn-a5-m1-cD X-RAY STRUCTURE OF MTH1187 NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET TT272 O27255 O27255 2.3 X-RAY DIFFRACTION 63 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 96 96 1lxn-a5-m1-cA_1lxn-a5-m1-cC ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI 1lxn-a5-m1-cC_1lxn-a5-m1-cD X-RAY STRUCTURE OF MTH1187 NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET TT272 O27255 O27255 2.3 X-RAY DIFFRACTION 69 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 96 96 1lxn-a5-m1-cA_1lxn-a5-m1-cB ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI 1lxn-a6-m1-cA_1lxn-a6-m2-cB X-RAY STRUCTURE OF MTH1187 NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET TT272 O27255 O27255 2.3 X-RAY DIFFRACTION 39 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 96 96 ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI 1lxn-a6-m2-cB_1lxn-a6-m2-cC X-RAY STRUCTURE OF MTH1187 NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET TT272 O27255 O27255 2.3 X-RAY DIFFRACTION 30 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 96 96 1lxn-a5-m1-cA_1lxn-a5-m1-cD 1lxn-a5-m1-cB_1lxn-a5-m1-cC 1lxn-a6-m1-cA_1lxn-a6-m1-cD ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI ITAELTVIPLGTCSTSLSSYVAAAVEALKKLNVRYEISGGTLLEAEDLDELEAVKAAHEAVLQAGSDRVYTTLKIDDRRDADRGLRDKVESVKEKI 1lyw-a5-m2-cE_1lyw-a5-m2-cG CATHEPSIN D AT PH 7.5 P07339 P07339 2.5 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 1lyw-a11-m1-cE_1lyw-a11-m1-cG 1lyw-a12-m1-cC_1lyw-a12-m3-cC 1lyw-a5-m1-cE_1lyw-a5-m1-cG 1lyw-a6-m1-cC_1lyw-a6-m3-cC IPEVLKNYMDAQYYGEIGIGTPPQCFTVVFDTGSSNLWVPSIHCKLLDIACWIHHKYNSDKSSTYVKNGTSFDIHYGSGSLSGYLSQDTVSVPCQ IPEVLKNYMDAQYYGEIGIGTPPQCFTVVFDTGSSNLWVPSIHCKLLDIACWIHHKYNSDKSSTYVKNGTSFDIHYGSGSLSGYLSQDTVSVPCQ 1lzw-a2-m1-cB_1lzw-a2-m2-cB Structural basis of ClpS-mediated switch in ClpA substrate recognition P0ABH9 P0ABH9 2.5 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 146 146 MLNQELELSLNMAFARAREHRHEFMTVEHLLLALLSNPSAREALEACSVDLVALRQELEAFIEQTTPVLPASEEERDTQPTLSFQRVLQRAVFHVQSSGRNEVTGANVLVAIFSEQESQAAYLLRKHEVSRLDVVNFISHGTRKDE MLNQELELSLNMAFARAREHRHEFMTVEHLLLALLSNPSAREALEACSVDLVALRQELEAFIEQTTPVLPASEEERDTQPTLSFQRVLQRAVFHVQSSGRNEVTGANVLVAIFSEQESQAAYLLRKHEVSRLDVVNFISHGTRKDE 1m03-a2-m1-cA_1m03-a2-m2-cA Mutant Streptomyces plicatus beta-hexosaminidase (D313A) in complex with product (GlcNAc) O85361 O85361 1.9 X-RAY DIFFRACTION 100 1.0 1922 (Streptomyces plicatus) 1922 (Streptomyces plicatus) 499 499 1hp4-a2-m1-cA_1hp4-a2-m2-cA 1hp5-a2-m1-cA_1hp5-a2-m2-cA 1m01-a2-m1-cA_1m01-a2-m2-cA 1m04-a2-m1-cA_1m04-a2-m2-cA 5fcz-a2-m1-cA_5fcz-a2-m2-cA DRKAPVRPTPLDRVIPAPASVDPGGAPYRITRGTHIRVDDSREARRVGDYLADLLRPATGYRLPVTAHGHGGIRLRLAGGPYGDEGYRLDSGPAGVTITARKAAGLFHGVQTLRQLLPPAVEKDSAQPGPWLVAGGTIEDTPRYAWRSAMLDVSRHFFGVDEVKRYIDRVARYKYNKLHLHLSDDQGWRIAIDSWPRLATYGGSTEVGGGPGGYYTKAEYKEIVRYAASRHLEVVPEIDMPGHTNAALASYAELNCDGVAPPLYTGTKVGFSSLCVDKDVTYDFVDDVIGELAALTPGRYLHIGGAEAHSTPKADFVAFMKRVQPIVAKYGKTVVGWHQLAGAEPVEGALVQYWGLDRTGDAEKAEVAEAARNGTGLILSPADRTYLDMKYTKDTPLGLSWAGYVEVQRSYDWDPAGYLPGAPADAVRGVEAPLWTETLSDPDQLDYMAFPRLPGVAELGWSPASTHDWDTYKVRLAAQAPYWEAAGIDFYRSPQVPWT DRKAPVRPTPLDRVIPAPASVDPGGAPYRITRGTHIRVDDSREARRVGDYLADLLRPATGYRLPVTAHGHGGIRLRLAGGPYGDEGYRLDSGPAGVTITARKAAGLFHGVQTLRQLLPPAVEKDSAQPGPWLVAGGTIEDTPRYAWRSAMLDVSRHFFGVDEVKRYIDRVARYKYNKLHLHLSDDQGWRIAIDSWPRLATYGGSTEVGGGPGGYYTKAEYKEIVRYAASRHLEVVPEIDMPGHTNAALASYAELNCDGVAPPLYTGTKVGFSSLCVDKDVTYDFVDDVIGELAALTPGRYLHIGGAEAHSTPKADFVAFMKRVQPIVAKYGKTVVGWHQLAGAEPVEGALVQYWGLDRTGDAEKAEVAEAARNGTGLILSPADRTYLDMKYTKDTPLGLSWAGYVEVQRSYDWDPAGYLPGAPADAVRGVEAPLWTETLSDPDQLDYMAFPRLPGVAELGWSPASTHDWDTYKVRLAAQAPYWEAAGIDFYRSPQVPWT 1m08-a1-m1-cA_1m08-a1-m1-cB Crystal structure of the unbound nuclease domain of ColE7 Q47112 Q47112 2.1 X-RAY DIFFRACTION 32 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 131 131 MRNKPGKATGKGKPVNNKWLNNAGKDLGSPVPDRIANKLRDKEFKSFDDFRKKFWEEVSKDPELSKQFSRNNNDRMKVGKAPKTRTQDVSGKRTSFELHHEKPISQNGGVYDMDNISVVTPKRHIDIHRGK MRNKPGKATGKGKPVNNKWLNNAGKDLGSPVPDRIANKLRDKEFKSFDDFRKKFWEEVSKDPELSKQFSRNNNDRMKVGKAPKTRTQDVSGKRTSFELHHEKPISQNGGVYDMDNISVVTPKRHIDIHRGK 1m0i-a1-m1-cA_1m0i-a1-m1-cB Crystal Structure of Bacteriophage T7 Endonuclease I with a Wild-Type Active Site P00641 P00641 2.55 X-RAY DIFFRACTION 199 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 129 129 1fzr-a1-m1-cA_1fzr-a1-m1-cB 1fzr-a2-m1-cC_1fzr-a2-m1-cD 1m0d-a1-m1-cA_1m0d-a1-m1-cB 1m0d-a2-m1-cC_1m0d-a2-m1-cD 1m0i-a2-m1-cC_1m0i-a2-m1-cD 2pfj-a1-m1-cA_2pfj-a1-m1-cB SGLEDKVSKQLESKGIKFEYEEWKVPYVIPASNHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK SGLEDKVSKQLESKGIKFEYEEWKVPYVIPASNHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK 1m0s-a1-m1-cA_1m0s-a1-m1-cB NORTHEAST STRUCTURAL GENOMICS CONSORTIUM (NESG ID IR21) P44725 P44725 1.9 X-RAY DIFFRACTION 74 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 219 219 MNQLEMKKLAAQAALQYVKADRIVGVGSGSTVNCFIEALGTIKDKIQGAVAASKESEELLRKQGIEVFNANDVSSLDIYVDGADEINPQKMMIKGGGAALTREKIVAALAKKFICIVDSSKQVDVLGSTFPLPVEVIPMARSQVGRKLAALGGSPEYREGVVTDNGNVILDVHNFSILNPVEIEKELNNVAGVVTNGIFALRGADVVIVGTPEGAKVID MNQLEMKKLAAQAALQYVKADRIVGVGSGSTVNCFIEALGTIKDKIQGAVAASKESEELLRKQGIEVFNANDVSSLDIYVDGADEINPQKMMIKGGGAALTREKIVAALAKKFICIVDSSKQVDVLGSTFPLPVEVIPMARSQVGRKLAALGGSPEYREGVVTDNGNVILDVHNFSILNPVEIEKELNNVAGVVTNGIFALRGADVVIVGTPEGAKVID 1m0t-a2-m2-cA_1m0t-a2-m2-cB Yeast Glutathione Synthase Q08220 Q08220 2.3 X-RAY DIFFRACTION 96 0.998 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 454 455 1m0t-a1-m1-cA_1m0t-a1-m1-cB 1m0t-a2-m1-cA_1m0t-a2-m1-cB 1m0w-a1-m1-cB_1m0w-a1-m1-cA PPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQGNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKGCLDSIILY PPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLEFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKFGCLDSIILY 1m0t-a3-m1-cA_1m0t-a3-m3-cA Yeast Glutathione Synthase Q08220 Q08220 2.3 X-RAY DIFFRACTION 33 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 454 454 PPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQGNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKGCLDSIILY PPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQGNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKGCLDSIILY 1m0t-a3-m3-cA_1m0t-a3-m4-cB Yeast Glutathione Synthase Q08220 Q08220 2.3 X-RAY DIFFRACTION 81 0.998 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 454 455 1m0t-a2-m1-cA_1m0t-a2-m2-cB 1m0t-a2-m2-cA_1m0t-a2-m1-cB 1m0t-a3-m1-cA_1m0t-a3-m2-cB PPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQGNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKGCLDSIILY PPSKDQLNELIQEVNQWAITNGLSMYPPKFEENPSNASVSPVTIYPTPIPRKCFDEAVQIQPVFNELYARITQDMAQPDSYLEFTGKLWSLYLATLKSAQYKKQNFRLGIFRSDYLIDKKEQIKQVEFNTVSVSFAGLSEKVDRLHSYLNRANKYDPKGPIYNDQNMVISDSGYLLSKALAKAVESYKSQQSSSTTSDPIVAFIVQRNERNVFDQKVLELNLLEKFGTKSVRLTFDDVNDKLFIDDKTGKLFIRDTEQEIAVVYYRTGYTTTDYTSEKDWEARLFLEKSFAIKAPDLLTQLSGSKKIQQLLTDEGVLGKYISDAEKKSSLLKTFVKIYPLDDTKLGREGKRLALSEPSKYVLKPQNNVYKENIPNFLKGIEERHWDAYILMELIEPELNENNIILRDNKSYNEPIISELGIYGCVLFNDEQVLSNEFSGSLLRSKFGCLDSIILY 1m0u-a1-m1-cA_1m0u-a1-m1-cB Crystal Structure of the Drosophila Glutathione S-transferase-2 in Complex with Glutathione P41043 P41043 1.75 X-RAY DIFFRACTION 55 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 203 203 KHSYTLFYFNVKALAEPLRYLFAYGNQEYEDVRVTRDEWPALKPTMPMGQMPVLEVDGKRVHQSISMARFLAKTVGLCGATPWEDLQIDIVVDTINDFRLKIAVVSYEPEDEIKEKKLVTLNAEVIPFYLEKLEQTVKDNDGHLALGKLTWADVYFAGITDYMNYMVKRDLLEPYPALRGVVDAVNALEPIKAWIEKRPVTEV KHSYTLFYFNVKALAEPLRYLFAYGNQEYEDVRVTRDEWPALKPTMPMGQMPVLEVDGKRVHQSISMARFLAKTVGLCGATPWEDLQIDIVVDTINDFRLKIAVVSYEPEDEIKEKKLVTLNAEVIPFYLEKLEQTVKDNDGHLALGKLTWADVYFAGITDYMNYMVKRDLLEPYPALRGVVDAVNALEPIKAWIEKRPVTEV 1m11-a1-m55-cR_1m11-a1-m9-cR structural model of human decay-accelerating factor bound to echovirus 7 from cryo-electron microscopy P08174 P08174 16.0 ELECTRON MICROSCOPY 968 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 243 1m11-a1-m10-cR_1m11-a1-m24-cR 1m11-a1-m11-cR_1m11-a1-m16-cR 1m11-a1-m12-cR_1m11-a1-m38-cR 1m11-a1-m13-cR_1m11-a1-m47-cR 1m11-a1-m14-cR_1m11-a1-m45-cR 1m11-a1-m15-cR_1m11-a1-m29-cR 1m11-a1-m17-cR_1m11-a1-m28-cR 1m11-a1-m18-cR_1m11-a1-m52-cR 1m11-a1-m19-cR_1m11-a1-m60-cR 1m11-a1-m1-cR_1m11-a1-m6-cR 1m11-a1-m20-cR_1m11-a1-m39-cR 1m11-a1-m21-cR_1m11-a1-m26-cR 1m11-a1-m22-cR_1m11-a1-m43-cR 1m11-a1-m25-cR_1m11-a1-m54-cR 1m11-a1-m27-cR_1m11-a1-m53-cR 1m11-a1-m2-cR_1m11-a1-m23-cR 1m11-a1-m30-cR_1m11-a1-m44-cR 1m11-a1-m31-cR_1m11-a1-m36-cR 1m11-a1-m32-cR_1m11-a1-m58-cR 1m11-a1-m33-cR_1m11-a1-m7-cR 1m11-a1-m34-cR_1m11-a1-m5-cR 1m11-a1-m35-cR_1m11-a1-m49-cR 1m11-a1-m37-cR_1m11-a1-m48-cR 1m11-a1-m3-cR_1m11-a1-m42-cR 1m11-a1-m40-cR_1m11-a1-m59-cR 1m11-a1-m41-cR_1m11-a1-m46-cR 1m11-a1-m4-cR_1m11-a1-m50-cR 1m11-a1-m51-cR_1m11-a1-m56-cR 1m11-a1-m57-cR_1m11-a1-m8-cR DCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTMIGEHSIYCTVNNDEGEWS DCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTMIGEHSIYCTVNNDEGEWS 1m1f-a1-m1-cB_1m1f-a1-m1-cA Kid toxin protein from E.coli plasmid R1 P13976 P13976 1.4 X-RAY DIFFRACTION 88 1.0 562 (Escherichia coli) 562 (Escherichia coli) 105 107 2c06-a1-m1-cA_2c06-a1-m1-cB MERGEIWLVSLDPTAGHEQQGTRPVLIVTPAAFNRVTRLPVVVPVTSRTAGFAVSLDGVGIRTTGVVRCDQPRTIDMKARGGKRLERVPETIMNEVLGRLSTILT MERGEIWLVSLDPTAGHEQQGTRPVLIVTPAAFNRVTRLPVVVPVTSFARTAGFAVSLDGVGIRTTGVVRCDQPRTIDMKARGGKRLERVPETIMNEVLGRLSTILT 1m1g-a6-m1-cA_1m1g-a6-m3-cB Crystal Structure of Aquifex aeolicus N-utilization substance G (NusG), Space Group P2(1) O67757 O67757 2 X-RAY DIFFRACTION 190 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 240 242 LEKKWYALQVEPGKENEAKENLLKVLELEGLKDLVDEVIVPAEEKVVIRAQGKEKYRLSLKGNARDISVLGKKGVTTFRIENGEVKVVESVEGDTCVNAPPISKPGQKITCKENKTEAKIVLDNKIFPGYILIKAHMNDKLLMAIEKTPHVFRPVMVGGKPVPLKEEEVQNILNQIKRGVKPSKVEFEKGDQVRVIEGPFMNFTGTVEEVHPEKRKLTVMISIFGRMTPVELDFDQVEKI QELEKKWYALQVEPGKENEAKENLLKVLELEGLKDLVDEVIVPAEEKVVIRAQGKEKYRLSLKGNARDISVLGKKGVTTFRIENGEVKVVESVEGDTCVNAPPISKPGQKITCKENKTEAKIVLDNKIFPGYILIKAHMNDKLLMAIEKTPHVFRPVMVGGKPVPLKEEEVQNILNQIKRGVKPSKVEFEKGDQVRVIEGPFMNFTGTVEEVHPEKRKLTVMISIFGRMTPVELDFDQVEKI 1m1j-a1-m1-cF_1m1j-a1-m1-cC Crystal structure of native chicken fibrinogen with two different bound ligands O93568 O93568 2.7 X-RAY DIFFRACTION 61 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 389 390 1ei3-a1-m1-cC_1ei3-a1-m1-cF RENCCILDERFGSYCPTTCGIADFFNKYRLTTDGELLEIEGLLQQATNSTGSIEYLIQHIKTIYPSEKQTLPQSIEQLTQKSKKIIEEIIRYENTILAHENTIQQLTDMHIMNSNKITQLKQKIAQLESHCQEPCKDTAEIQETTGRDCQDIANKGARKSGLYFIKPQKAKQSFLVYCEIDTYGNGWTVLQRRLDGSEDFRRNWVQYKEGFGHLSPDDTTEFWLGNEKIHLITTQSTLPYALRIELEDWSGKKGTADYAVFKVGTEEDKYRLTYAYFIGGEAGDAFDGFNFGDDPSDKSYTYHNGMRFSTFDNDNDNFEGNCAEQDGSGWWMNRCHAGHLNGPYYIGGVYSRDTGTNSYDNGIIWATWRDRWYSMKKTTMKIIPFNRLS TRENCCILDERFGSYCPTTCGIADFFNKYRLTTDGELLEIEGLLQQATNSTGSIEYLIQHIKTIYPSEKQTLPQSIEQLTQKSKKIIEEIIRYENTILAHENTIQQLTDMHIMNSNKITQLKQKIAQLESHCQEPCKDTAEIQETTGRDCQDIANKGARKSGLYFIKPQKAKQSFLVYCEIDTYGNGWTVLQRRLDGSEDFRRNWVQYKEGFGHLSPDDTTEFWLGNEKIHLITTQSTLPYALRIELEDWSGKKGTADYAVFKVGTEEDKYRLTYAYFIGGEAGDAFDGFNFGDDPSDKSYTYHNGMRFSTFDNDNDNFEGNCAEQDGSGWWMNRCHAGHLNGPYYIGGVYSRDTGTNSYDNGIIWATWRDRWYSMKKTTMKIIPFNRLS 1m1l-a1-m1-cA_1m1l-a1-m1-cB Human Suppressor of Fused (N-terminal domain) Q9UMX1 Q9UMX1 2.65 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 236 236 ASLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETD ASLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETD 1m1l-a1-m1-cD_1m1l-a1-m1-cA Human Suppressor of Fused (N-terminal domain) Q9UMX1 Q9UMX1 2.65 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 236 1m1l-a1-m1-cC_1m1l-a1-m1-cB LFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETD ASLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETD 1m2d-a1-m1-cA_1m2d-a1-m1-cB Crystal structure at 1.05 Angstroms resolution of the Cys59Ser variant of the thioredoxin-like [2Fe-2S] ferredoxin from Aquifex aeolicus O66511 O66511 1.05 X-RAY DIFFRACTION 38 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 101 101 1f37-a1-m1-cA_1f37-a1-m1-cB 1f37-a2-m1-cA_1f37-a2-m1-cB 1f37-a2-m2-cA_1f37-a2-m2-cB 1m2a-a1-m1-cB_1m2a-a1-m1-cA 1m2b-a1-m1-cA_1m2b-a1-m1-cB FKHVFVCVQDRPPGHPQGSCAQRGSREVFQAFMEKIQTDPQLFMTTVITPTGCMNASMMGPVVVVYPDGVWYGQVKPEDVDEIVEKHLKGGEPVERLVISK FKHVFVCVQDRPPGHPQGSCAQRGSREVFQAFMEKIQTDPQLFMTTVITPTGCMNASMMGPVVVVYPDGVWYGQVKPEDVDEIVEKHLKGGEPVERLVISK 1m2n-a1-m1-cA_1m2n-a1-m1-cB Sir2 homologues (D102G/F159A/R170A) mutant-2'-O-acetyl ADP ribose complex O28597 O28597 2.6 X-RAY DIFFRACTION 11 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 249 249 MDEKLLKTIAESKYLVALTGAGVSAESGIPTFRGKDGLWNRYRPEELANPQAFAKDPEKVWKWYAWRMEKVFNAQPNKAHQAFAELERLGVLKCLITQNVDGLHERAGSRNVIHLHGSLRVVRCTSCNNSFEVESAPKIPPLPKCDKCGSLLRPGVVWAGEMLPPDVLDAAMREVERADVIIVAGTSAVVQPAASLPLIVKQRGGAIIEINPDETPLTPIADYSLRGKAGEVMDELVRHVRKALSLKLN MDEKLLKTIAESKYLVALTGAGVSAESGIPTFRGKDGLWNRYRPEELANPQAFAKDPEKVWKWYAWRMEKVFNAQPNKAHQAFAELERLGVLKCLITQNVDGLHERAGSRNVIHLHGSLRVVRCTSCNNSFEVESAPKIPPLPKCDKCGSLLRPGVVWAGEMLPPDVLDAAMREVERADVIIVAGTSAVVQPAASLPLIVKQRGGAIIEINPDETPLTPIADYSLRGKAGEVMDELVRHVRKALSLKLN 1m2o-a1-m1-cA_1m2o-a1-m1-cC Crystal Structure of the Sec23-Sar1 complex P15303 P15303 2.5 X-RAY DIFFRACTION 50 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 718 718 DFETNEDINGVRFTWNVFPSTRSDANSNVVPVGCLYTPLKEYDELNVAPYNPVVCSGPHCKSILNPYCVIDPRNSSWSCPICNSRNHLPPQYTNENMPLELQSTTIEYITNKPVTVPPIFFFVVDLTSETENLDSLKESIITSLSLLPPNALIGLITYGNVVQLHDLSSETIDRCNVFRGDREYQLEALTEMLTGQKPTVTPFSLNRFFLPLEQVEFKLNQLLENLSPDQWSVPAGHRPLRATGSALNIASLLLQGCYKNIPARIILFASGPGTVAPGLIVNSELKDPLRSHHDIDSDHAQHYKKACKFYNQIAQRVAANGHTVDIFAGCYDQIGMSEMKQLTDSTGGVLLLTDAFSTAIFKQSYLRLFAKDEEGYLKMAFNGNMAVKTSKDLKVQGLIGHASAVKKTDANNISESEIGIGATSTWKMASLSPYHSYAIFFEIANTHLAYTQFITTYQHSSGTNRIRVTTVANQLLPFGTPAIAASFDQEAAAVLMARIAVHKAETDDGADVIRWLDRTLIKLCQKYADYNKDDPQSFRLAPNFSLYPQFTYYLRRSQFLSVFNNSPDETAFYRHIFTREDTTNSLIMIQPTLTSFSMEDDPQPVLLDSISVKPNTILLLDTFFFILIYHGEQIAQWRKAGYQDDPQYADFKALLEEPKLEAAELLVDRFPLPRFIDTEAGGSQARFLLSKLNPSTIVLTDDVSLQNFMTHLQQVAVS DFETNEDINGVRFTWNVFPSTRSDANSNVVPVGCLYTPLKEYDELNVAPYNPVVCSGPHCKSILNPYCVIDPRNSSWSCPICNSRNHLPPQYTNENMPLELQSTTIEYITNKPVTVPPIFFFVVDLTSETENLDSLKESIITSLSLLPPNALIGLITYGNVVQLHDLSSETIDRCNVFRGDREYQLEALTEMLTGQKPTVTPFSLNRFFLPLEQVEFKLNQLLENLSPDQWSVPAGHRPLRATGSALNIASLLLQGCYKNIPARIILFASGPGTVAPGLIVNSELKDPLRSHHDIDSDHAQHYKKACKFYNQIAQRVAANGHTVDIFAGCYDQIGMSEMKQLTDSTGGVLLLTDAFSTAIFKQSYLRLFAKDEEGYLKMAFNGNMAVKTSKDLKVQGLIGHASAVKKTDANNISESEIGIGATSTWKMASLSPYHSYAIFFEIANTHLAYTQFITTYQHSSGTNRIRVTTVANQLLPFGTPAIAASFDQEAAAVLMARIAVHKAETDDGADVIRWLDRTLIKLCQKYADYNKDDPQSFRLAPNFSLYPQFTYYLRRSQFLSVFNNSPDETAFYRHIFTREDTTNSLIMIQPTLTSFSMEDDPQPVLLDSISVKPNTILLLDTFFFILIYHGEQIAQWRKAGYQDDPQYADFKALLEEPKLEAAELLVDRFPLPRFIDTEAGGSQARFLLSKLNPSTIVLTDDVSLQNFMTHLQQVAVS 1m32-a3-m1-cE_1m32-a3-m1-cF Crystal Structure of 2-aminoethylphosphonate Transaminase P96060 P96060 2.2 X-RAY DIFFRACTION 159 1.0 350 351 1m32-a1-m1-cA_1m32-a1-m1-cB 1m32-a2-m1-cC_1m32-a2-m1-cD YLLLTPGPLTTSRTVKEALFDSCTWDDDYNIGVVEQIRQQLTALATASEGYTSVLLQGSGSYAVEAVLGSALGPQDKVLIVSNGAYGARVEAGLGIAHHAYDCGEVARPDVQAIDAILNADPTISHIAVHSETTTGLNPIDEVGALAHRYGKTYIVDASSFGGIPDIAALHIDYLISSANKCIQGVPGFAFVIAREQKLAACKGHSRSLSLDLYAQWRCEDNHGKWRFTSPTHTVLAFAQALKELAKEGGVAARHQRYQQNQRSLVAGRALGFNTLLDDELHSPIITAFYSPEDPQYRFSEFYRRLKEQGFVIYPGKVSQSDCFRIGNIGEVYAADITALLTAIRTAYWT NYLLLTPGPLTTSRTVKEALFDSCTWDDDYNIGVVEQIRQQLTALATASEGYTSVLLQGSGSYAVEAVLGSALGPQDKVLIVSNGAYGARVEAGLGIAHHAYDCGEVARPDVQAIDAILNADPTISHIAVHSETTTGLNPIDEVGALAHRYGKTYIVDASSFGGIPDIAALHIDYLISSANKCIQGVPGFAFVIAREQKLAACKGHSRSLSLDLYAQWRCEDNHGKWRFTSPTHTVLAFAQALKELAKEGGVAARHQRYQQNQRSLVAGRALGFNTLLDDELHSPIITAFYSPEDPQYRFSEFYRRLKEQGFVIYPGKVSQSDCFRIGNIGEVYAADITALLTAIRTAYWT 1m3s-a2-m1-cA_1m3s-a2-m2-cB Crystal structure of YckF from Bacillus subtilis P42404 P42404 1.95 X-RAY DIFFRACTION 158 0.983 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 181 183 1m3s-a1-m1-cA_1m3s-a1-m2-cB 1m3s-a1-m2-cA_1m3s-a1-m1-cB 1viv-a1-m1-cB_1viv-a1-m1-cA 1viv-a2-m1-cB_1viv-a2-m1-cA 1viv-a2-m2-cB_1viv-a2-m2-cA GMKTTEYVAEILNELHNSAAYISNEEADQLADHILSSHQIFTAGAGRSGLMAKSFAMRLMHMGFNAHIVGEILTPPLAEGDLVIIGSGSGETKSLIHTAAKAKSLHGIVAALTINPESSIGKQADLIIRMPGSPKDYKTIQPMGSLFEQTLLLFYDAVILKLMEKKGLDSETMFTHHANLE GMKTTEYVAEILNELHNSAAYISNEEADQLADHILSSHQIFTAGAGRSGLMAKSFAMRLMHMGFNAHIVGEILTPPLAEGDLVIIGSGSGETKSLIHTAAKAKSLHGIVAALTINPESSIGKQADLIIRMPGSPKDQSNGSYKTIQPMGSLFEQTLLLFYDAVILKLMEKKGLTMFTHHANLE 1m3w-a1-m1-cB_1m3w-a1-m1-cD Crystal Structure of a Molecular Maquette Scaffold 2.8 X-RAY DIFFRACTION 26 1.0 30 30 1m3w-a1-m1-cA_1m3w-a1-m1-cC GGGEIWKLHEEFLKKFEELLKLHEERLKKM GGGEIWKLHEEFLKKFEELLKLHEERLKKM 1m3w-a1-m1-cC_1m3w-a1-m1-cD Crystal Structure of a Molecular Maquette Scaffold 2.8 X-RAY DIFFRACTION 32 1.0 30 30 1m3w-a1-m1-cA_1m3w-a1-m1-cB GGGEIWKLHEEFLKKFEELLKLHEERLKKM GGGEIWKLHEEFLKKFEELLKLHEERLKKM 1m46-a2-m1-cA_1m46-a2-m2-cA CRYSTAL STRUCTURE OF MLC1P BOUND TO IQ4 OF MYO2P, A CLASS V MYOSIN P53141 P53141 2.103 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 148 148 SATRANKDIFTLFDKKGQGAIAKDSLGDYLRAIGYNPTNQLVQDIINADSSLRDASSLTLDQITGLIEVNEKELDATTKAKTEDFVKAFQVFDKESTGKVSVGDLRYMLTGLGEKLTDAEVDELLKGVEVDSNGEIDYKKFIEDVLRQ SATRANKDIFTLFDKKGQGAIAKDSLGDYLRAIGYNPTNQLVQDIINADSSLRDASSLTLDQITGLIEVNEKELDATTKAKTEDFVKAFQVFDKESTGKVSVGDLRYMLTGLGEKLTDAEVDELLKGVEVDSNGEIDYKKFIEDVLRQ 1m4i-a1-m1-cB_1m4i-a1-m1-cA Aminoglycoside 2'-N-acetyltransferase from Mycobacterium tuberculosis-Complex with Coenzyme A and Kanamycin A P9WQG9 P9WQG9 1.5 X-RAY DIFFRACTION 97 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 176 181 1m44-a1-m1-cA_1m44-a1-m1-cB 1m4d-a1-m1-cB_1m4d-a1-m1-cA 1m4g-a1-m1-cB_1m4g-a1-m1-cA HTARLVHTADLDSETRQDIRQMVTGAFAGDFTETDWEHTLGGMHALIWHHGAIIAHAAVIQRRLIYRGNALRCGYVEGVAVRADWRGQRLVSALLDAVEQVMRGAYQLGALSSSARARRLYASRGWLPWHGPTSVLAPTGPVRTPDDDGTVFVLPIDISLDTSAELMCDWRAGDVW MHTQVHTARLVHTADLDSETRQDIRQMVTGAFAGDFTETDWEHTLGGMHALIWHHGAIIAHAAVIQRRLIYRGNALRCGYVEGVAVRADWRGQRLVSALLDAVEQVMRGAYQLGALSSSARARRLYASRGWLPWHGPTSVLAPTGPVRTPDDDGTVFVLPIDISLDTSAELMCDWRAGDVW 1m4j-a1-m1-cA_1m4j-a1-m1-cB CRYSTAL STRUCTURE OF THE N-TERMINAL ADF-H DOMAIN OF MOUSE TWINFILIN ISOFORM-1 Q91YR1 Q91YR1 1.6 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 133 133 IQASEDVKEIFARARNGKYRLLKISIENEQLVVGSCSPPSDSWEQDYDSFVLPLLEDKQPCYVLFRLDSQNAQGYEWIFIAWSPDHSHVRQKMLYAATRATLKKEFGGGHIKDEVFGTVKEDVSLHGYKKYLL IQASEDVKEIFARARNGKYRLLKISIENEQLVVGSCSPPSDSWEQDYDSFVLPLLEDKQPCYVLFRLDSQNAQGYEWIFIAWSPDHSHVRQKMLYAATRATLKKEFGGGHIKDEVFGTVKEDVSLHGYKKYLL 1m4m-a2-m1-cA_1m4m-a2-m2-cA Mouse Survivin O70201 O70201 2.8 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 112 112 PQIWQLYLKNYRIATFKNWPFLEDCACTPERMAEAGFIHCPTENEPDLAQCFFCFKELEGWEPDDNPIEEHRKHSPGCAFLTVKKQMEELTVSEFLKLDRQRAKNKIAKETN PQIWQLYLKNYRIATFKNWPFLEDCACTPERMAEAGFIHCPTENEPDLAQCFFCFKELEGWEPDDNPIEEHRKHSPGCAFLTVKKQMEELTVSEFLKLDRQRAKNKIAKETN 1m4m-a3-m1-cA_1m4m-a3-m3-cA Mouse Survivin O70201 O70201 2.8 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 112 112 PQIWQLYLKNYRIATFKNWPFLEDCACTPERMAEAGFIHCPTENEPDLAQCFFCFKELEGWEPDDNPIEEHRKHSPGCAFLTVKKQMEELTVSEFLKLDRQRAKNKIAKETN PQIWQLYLKNYRIATFKNWPFLEDCACTPERMAEAGFIHCPTENEPDLAQCFFCFKELEGWEPDDNPIEEHRKHSPGCAFLTVKKQMEELTVSEFLKLDRQRAKNKIAKETN 1m4u-a1-m1-cA_1m4u-a1-m2-cA Crystal structure of Bone Morphogenetic Protein-7 (BMP-7) in complex with the secreted antagonist Noggin Q13253 Q13253 2.42 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 199 MQHYLHIRPAPSDNLPLVDLIEHPDPIFDPKEKDLNETLLRSLLGGHYDPGFMATSPPEDRPGGAEDLAELDQLLRQRPSGAMPSEIKGLEFSEGLAQGKKQRLSKKLRRKLQMWLWSQTFCPVLYAWNDLGSRFWPRYVKVGSCFSKRSCSVPEGMVCKPSKSVHLTVLRWRCQRRGGQRCGWIPIQYPIISECKCSC MQHYLHIRPAPSDNLPLVDLIEHPDPIFDPKEKDLNETLLRSLLGGHYDPGFMATSPPEDRPGGAEDLAELDQLLRQRPSGAMPSEIKGLEFSEGLAQGKKQRLSKKLRRKLQMWLWSQTFCPVLYAWNDLGSRFWPRYVKVGSCFSKRSCSVPEGMVCKPSKSVHLTVLRWRCQRRGGQRCGWIPIQYPIISECKCSC 1m4z-a2-m1-cA_1m4z-a2-m2-cB Crystal structure of the N-terminal BAH domain of Orc1p P54784 P54784 2.2 X-RAY DIFFRACTION 66 0.995 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 203 203 1m4z-a2-m1-cB_1m4z-a2-m2-cA AMTMAKTLKDLQGWEIITTDEQGNITEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLP MTMAKTLKDLQGWEIITTDEQGNITEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPS 1m4z-a2-m1-cB_1m4z-a2-m2-cB Crystal structure of the N-terminal BAH domain of Orc1p P54784 P54784 2.2 X-RAY DIFFRACTION 58 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 203 203 1m4z-a2-m1-cA_1m4z-a2-m2-cA MTMAKTLKDLQGWEIITTDEQGNITEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPS MTMAKTLKDLQGWEIITTDEQGNITEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPS 1m4z-a2-m2-cA_1m4z-a2-m2-cB Crystal structure of the N-terminal BAH domain of Orc1p P54784 P54784 2.2 X-RAY DIFFRACTION 21 0.995 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 203 203 1m4z-a1-m1-cA_1m4z-a1-m1-cB 1m4z-a2-m1-cA_1m4z-a2-m1-cB AMTMAKTLKDLQGWEIITTDEQGNITEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLP MTMAKTLKDLQGWEIITTDEQGNITEHYLKRSSDGIKLGRGDSVVMHNEAAGTYSVYMIQELRLNTLNNVVELWALTYLRWFEVNPLAHYRQFNPDANILNRPLNYYNKLFSETANKNELYLTAELAELQLFNFIRVANVMDGSKWEVLKGNVDPERDFTVRYICEPTGEKFVDINIEDVKAYIKKVEPREAQEYLKDLTLPS 1m5s-a1-m1-cA_1m5s-a1-m1-cD Formylmethanofuran:tetrahydromethanopterin fromyltransferase from Methanosarcina barkeri P55301 P55301 1.85 X-RAY DIFFRACTION 68 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 297 297 1m5s-a1-m1-cB_1m5s-a1-m1-cC MEINGVEIEDTYAEAFPIKIARVLITAATKRWALVAATEATGFATSVIMCPAEAGIERLASPSETPDGRPGVYVQICTFKYEALEEQLLERIGQCVLTAPTTAVFNGLPEAEKQDNVGFKLKFFADGMESETQIAGRKVYKVPIMEGDFLAEENIGAIAGIAGGNFFIFGDSQMTALTAAEAAVDTIAELEGTITPFPGGIVASGSKSGANKYKFLKATANERFCPSIKDKIENTEIPADVNAVYEIVINGLDEESIKAAMKAGIKAAVTVPGVKKISAGNYGGKLGKYQFKLHELF MEINGVEIEDTYAEAFPIKIARVLITAATKRWALVAATEATGFATSVIMCPAEAGIERLASPSETPDGRPGVYVQICTFKYEALEEQLLERIGQCVLTAPTTAVFNGLPEAEKQDNVGFKLKFFADGMESETQIAGRKVYKVPIMEGDFLAEENIGAIAGIAGGNFFIFGDSQMTALTAAEAAVDTIAELEGTITPFPGGIVASGSKSGANKYKFLKATANERFCPSIKDKIENTEIPADVNAVYEIVINGLDEESIKAAMKAGIKAAVTVPGVKKISAGNYGGKLGKYQFKLHELF 1m5s-a1-m1-cB_1m5s-a1-m1-cD Formylmethanofuran:tetrahydromethanopterin fromyltransferase from Methanosarcina barkeri P55301 P55301 1.85 X-RAY DIFFRACTION 34 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 297 297 1m5s-a1-m1-cA_1m5s-a1-m1-cC MEINGVEIEDTYAEAFPIKIARVLITAATKRWALVAATEATGFATSVIMCPAEAGIERLASPSETPDGRPGVYVQICTFKYEALEEQLLERIGQCVLTAPTTAVFNGLPEAEKQDNVGFKLKFFADGMESETQIAGRKVYKVPIMEGDFLAEENIGAIAGIAGGNFFIFGDSQMTALTAAEAAVDTIAELEGTITPFPGGIVASGSKSGANKYKFLKATANERFCPSIKDKIENTEIPADVNAVYEIVINGLDEESIKAAMKAGIKAAVTVPGVKKISAGNYGGKLGKYQFKLHELF MEINGVEIEDTYAEAFPIKIARVLITAATKRWALVAATEATGFATSVIMCPAEAGIERLASPSETPDGRPGVYVQICTFKYEALEEQLLERIGQCVLTAPTTAVFNGLPEAEKQDNVGFKLKFFADGMESETQIAGRKVYKVPIMEGDFLAEENIGAIAGIAGGNFFIFGDSQMTALTAAEAAVDTIAELEGTITPFPGGIVASGSKSGANKYKFLKATANERFCPSIKDKIENTEIPADVNAVYEIVINGLDEESIKAAMKAGIKAAVTVPGVKKISAGNYGGKLGKYQFKLHELF 1m5s-a1-m1-cC_1m5s-a1-m1-cD Formylmethanofuran:tetrahydromethanopterin fromyltransferase from Methanosarcina barkeri P55301 P55301 1.85 X-RAY DIFFRACTION 265 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 297 297 1m5s-a1-m1-cA_1m5s-a1-m1-cB MEINGVEIEDTYAEAFPIKIARVLITAATKRWALVAATEATGFATSVIMCPAEAGIERLASPSETPDGRPGVYVQICTFKYEALEEQLLERIGQCVLTAPTTAVFNGLPEAEKQDNVGFKLKFFADGMESETQIAGRKVYKVPIMEGDFLAEENIGAIAGIAGGNFFIFGDSQMTALTAAEAAVDTIAELEGTITPFPGGIVASGSKSGANKYKFLKATANERFCPSIKDKIENTEIPADVNAVYEIVINGLDEESIKAAMKAGIKAAVTVPGVKKISAGNYGGKLGKYQFKLHELF MEINGVEIEDTYAEAFPIKIARVLITAATKRWALVAATEATGFATSVIMCPAEAGIERLASPSETPDGRPGVYVQICTFKYEALEEQLLERIGQCVLTAPTTAVFNGLPEAEKQDNVGFKLKFFADGMESETQIAGRKVYKVPIMEGDFLAEENIGAIAGIAGGNFFIFGDSQMTALTAAEAAVDTIAELEGTITPFPGGIVASGSKSGANKYKFLKATANERFCPSIKDKIENTEIPADVNAVYEIVINGLDEESIKAAMKAGIKAAVTVPGVKKISAGNYGGKLGKYQFKLHELF 1m5x-a1-m1-cA_1m5x-a1-m1-cB Crystal structure of the homing endonuclease I-MsoI bound to its DNA substrate C0JWR6 C0JWR6 2.25 X-RAY DIFFRACTION 66 1.0 141716 (Monomastix sp. OKE-1) 141716 (Monomastix sp. OKE-1) 161 161 2fld-a1-m1-cA_2fld-a1-m1-cB 3ko2-a1-m1-cA_3ko2-a1-m1-cB 3ko2-a2-m1-cF_3ko2-a2-m1-cG 3mip-a1-m1-cA_3mip-a1-m1-cB 3mis-a1-m1-cA_3mis-a1-m1-cB TLQPTEAAYIAGFLDGDGSIYAKLIPRPDYKDIKYQVSLAISFIQRKDKFPYLQDIYDQLGKRGNLRKDRGDGIADYTIIGSTHLSIILPDLVPYLRIKKKQANRILHIINLYPQAQKNPSKFLDLVKIVDDVQNLNKRADELKSTNYDRLLEEFLKAGKI TLQPTEAAYIAGFLDGDGSIYAKLIPRPDYKDIKYQVSLAISFIQRKDKFPYLQDIYDQLGKRGNLRKDRGDGIADYTIIGSTHLSIILPDLVPYLRIKKKQANRILHIINLYPQAQKNPSKFLDLVKIVDDVQNLNKRADELKSTNYDRLLEEFLKAGKI 1m5y-a1-m4-cB_1m5y-a1-m1-cA Crystallographic Structure of SurA, a Molecular Chaperone that Facilitates Outer Membrane Porin Folding P0ABZ6 P0ABZ6 3 X-RAY DIFFRACTION 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 377 388 1m5y-a1-m1-cA_1m5y-a1-m2-cD 1m5y-a1-m3-cC_1m5y-a1-m4-cB VDKVAAVVNNGVVLESDVDGLMQSVKLNAAQARQQLPDDATLRHQIMERLIMDQIILQMGQKMGVKISDEQLDQAIANIAKQNNMTLDQMRSRLAYDGLNYNTYRNQIRKEMIISEVRNNEVRRRITILPQEVESLAQQTELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNGADFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLRTEVHARHILLKPSPIMTDEQARVKLEQIAADIKSGKTTFAAAAKEFSQDPGSANQGGDLGWATPDIFDPAFRDALTRLNKGQMSAPVHSSFGWHLIELLDTRNRAYRMLMNRKFSEEAASWMQEQRASAYVKILS VDKVAAVVNNGVVLESDVDGLMQSVKLNAAQARQQLPDDATLRHQIMERLIMDQIILQMGQKMGVKISDEQLDQAIANIAKQNNMTLDQMRSRLAYDGLNYNTYRNQIRKEMIISEVRNNEVRRRITILPQEVESLAQQVTELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNGADFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLRGESKNISVTEVHARHILLKPSPIMTDEQARVKLEQIAADIKSGKTTFAAAAKEFSQDPGSANQGGDLGWATPDIFDPAFRDALTRLNKGQMSAPVHSSFGWHLIELLDTRNVDRAYRMLMNRKFSEEAASWMQEQRASAYVKILS 1m65-a1-m2-cA_1m65-a1-m3-cA YCDX PROTEIN P75914 P75914 1.57 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 234 234 1m65-a1-m1-cA_1m65-a1-m2-cA 1m65-a1-m1-cA_1m65-a1-m3-cA 1m68-a1-m1-cA_1m68-a1-m2-cA 1m68-a1-m1-cA_1m68-a1-m3-cA 1m68-a1-m2-cA_1m68-a1-m3-cA 1pb0-a1-m1-cB_1pb0-a1-m1-cA 1pb0-a1-m1-cB_1pb0-a1-m1-cC 1pb0-a1-m1-cC_1pb0-a1-m1-cA YPVDLHMHTVASTHAYSTLSDYIAQAKQKGIKLFAITDHGPDMEDAPHHWHFINMRIWPRVVDGVGILRGIEANIKNVDGEIDCSGKMFDSLDLIIAGFHEPVFAPHDKATNTQAMIATIASGNVHIISHPGNPKYEIDVKAVAEAAAKHQVALEINNSSNCREVAAAVRDAGGWVALGSDSHTAFTMGEFEECLKILDAVDFPPERILNVSPRRLLNFLESRGMAPIAEFADL YPVDLHMHTVASTHAYSTLSDYIAQAKQKGIKLFAITDHGPDMEDAPHHWHFINMRIWPRVVDGVGILRGIEANIKNVDGEIDCSGKMFDSLDLIIAGFHEPVFAPHDKATNTQAMIATIASGNVHIISHPGNPKYEIDVKAVAEAAAKHQVALEINNSSNCREVAAAVRDAGGWVALGSDSHTAFTMGEFEECLKILDAVDFPPERILNVSPRRLLNFLESRGMAPIAEFADL 1m6d-a1-m1-cB_1m6d-a1-m1-cA Crystal structure of human cathepsin F Q9UBX1 Q9UBX1 1.7 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 APPEWDWRSKGAVTKVKDQGMCGSCWAFSVTGNVEGQWFLNQGTLLSLSEQELLDCDKMDKACMGGLPSNAYSAIKNLGGLETEDDYSYQGHMQSCQFSAEKAKVYIQDSVELSQNEQKLAAWLAKRGPISVAINAFGMQFYRHGISRPLRPLCSPWLIDHAVLLVGYGQRSDVPFWAIKNSWGTDWGEKGYYYLHRGSGACGVNTMASSAVVD APPEWDWRSKGAVTKVKDQGMCGSCWAFSVTGNVEGQWFLNQGTLLSLSEQELLDCDKMDKACMGGLPSNAYSAIKNLGGLETEDDYSYQGHMQSCQFSAEKAKVYIQDSVELSQNEQKLAAWLAKRGPISVAINAFGMQFYRHGISRPLRPLCSPWLIDHAVLLVGYGQRSDVPFWAIKNSWGTDWGEKGYYYLHRGSGACGVNTMASSAVVD 1m6e-a1-m1-cX_1m6e-a1-m2-cX CRYSTAL STRUCTURE OF SALICYLIC ACID CARBOXYL METHYLTRANSFERASE (SAMT) Q9SPV4 Q9SPV4 3 X-RAY DIFFRACTION 70 1.0 36903 (Clarkia breweri) 36903 (Clarkia breweri) 359 359 MDVRQVLHMKGGAGENSYAMNSFIQRQVISITKPITEAAITALYSGDTVTTRLAIADLGCSSGPNALFAVTELIKTVEELRKKMGRENSPEYQIFLNDLPGNDFNAIFRSLPIENDVDGVCFINGVPGSFYGRLFPRNTLHFIHSSYSLMWLSQVPIGIESNKGNIYMANTCPQSVLNAYYKQFQEDHALFLRCRAQEVVPGGRMVLTILGRRSEDRASTECCLIWQLLAMALNQMVSEGLIEEEKMDKFNIPQYTPSPTEVEAEILKEGSFLIDHIEASEIYWSSCTKDGDGGGSVEEEGYNVARCMRAVAEPLLLDHFGEAIIEDVFHRYKLLIIERMSKEKTKFINVIVSLIRKSD MDVRQVLHMKGGAGENSYAMNSFIQRQVISITKPITEAAITALYSGDTVTTRLAIADLGCSSGPNALFAVTELIKTVEELRKKMGRENSPEYQIFLNDLPGNDFNAIFRSLPIENDVDGVCFINGVPGSFYGRLFPRNTLHFIHSSYSLMWLSQVPIGIESNKGNIYMANTCPQSVLNAYYKQFQEDHALFLRCRAQEVVPGGRMVLTILGRRSEDRASTECCLIWQLLAMALNQMVSEGLIEEEKMDKFNIPQYTPSPTEVEAEILKEGSFLIDHIEASEIYWSSCTKDGDGGGSVEEEGYNVARCMRAVAEPLLLDHFGEAIIEDVFHRYKLLIIERMSKEKTKFINVIVSLIRKSD 1m6j-a1-m1-cA_1m6j-a1-m1-cB CRYSTAL STRUCTURE OF TRIOSEPHOSPHATE ISOMERASE FROM ENTAMOEBA HISTOLYTICA O02611 O02611 1.5 X-RAY DIFFRACTION 126 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 260 260 GAGKFVVGGNWKCNGTLASIETLTKGVAASVDAELAKKVEVIVGVPFIYIPKVQQILAGEANGANILVSAENAWTKSGAYTGEVHVGMLVDCQVPYVILGHSERRQIFHESNEQVAEKVKVAIDAGLKVIACIGETEAQRIANQTEEVVAAQLKAINNAISKEAWKNIILAYEPVWAIGTGKTATPDQAQEVHQYIRKWMTENISKEVAEATRIQYGGSVNPANCNELAKKADIDGFLVGGASLDAAKFKTIINSVSEKL GAGKFVVGGNWKCNGTLASIETLTKGVAASVDAELAKKVEVIVGVPFIYIPKVQQILAGEANGANILVSAENAWTKSGAYTGEVHVGMLVDCQVPYVILGHSERRQIFHESNEQVAEKVKVAIDAGLKVIACIGETEAQRIANQTEEVVAAQLKAINNAISKEAWKNIILAYEPVWAIGTGKTATPDQAQEVHQYIRKWMTENISKEVAEATRIQYGGSVNPANCNELAKKADIDGFLVGGASLDAAKFKTIINSVSEKL 1m6k-a1-m1-cA_1m6k-a1-m1-cB Structure of the OXA-1 class D beta-lactamase P13661 P13661 1.5 X-RAY DIFFRACTION 14 1.0 562 (Escherichia coli) 562 (Escherichia coli) 249 249 STDISTVASPLFEGTEGCFLLYDASTNAEIAQFNKAKCATQMAPDSTFIALSLMAFDAEIIDQKTIFKWDKTPKGMEIWNSNHTPKTWMQFSVVWVSQEITQKIGLNKIKNYLKDFDYGNQDFSGDERNNGLTEAWLESSLKISPEEQIQFLRKIINHNLPVKNSAIENTIENMYLQDLDNSTKLYGKTGAGFTANRTLQNGWFEGFIISKSGHKYVFVSALTGNLGSNLTSSIKAKKNAITILNTLNL STDISTVASPLFEGTEGCFLLYDASTNAEIAQFNKAKCATQMAPDSTFIALSLMAFDAEIIDQKTIFKWDKTPKGMEIWNSNHTPKTWMQFSVVWVSQEITQKIGLNKIKNYLKDFDYGNQDFSGDERNNGLTEAWLESSLKISPEEQIQFLRKIINHNLPVKNSAIENTIENMYLQDLDNSTKLYGKTGAGFTANRTLQNGWFEGFIISKSGHKYVFVSALTGNLGSNLTSSIKAKKNAITILNTLNL 1m6u-a4-m3-cB_1m6u-a4-m1-cA Crystal Structure of a Novel DNA-binding domain from Ndt80, a Transcriptional Activator Required for Meiosis in Yeast P38830 P38830 2.3 X-RAY DIFFRACTION 79 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 250 265 1m6u-a3-m3-cB_1m6u-a3-m1-cA 1m6u-a3-m4-cB_1m6u-a3-m2-cA VGPPFELVRDYCPVVESHTGRTLDLRIIPRIDRGFDHIDEEWVGYKRNYFTLVSTFETANCDLDTFLKSSFDLLVEDSSVESRLRVQYFAIKIKAKNDDDDTEINLVQHTAKRDKGPQFCPSVCPLVPSPLPKHQIIREASNVRNITKTKKYDSTFYLHRNHVNYEEYGVDSLLFSYPEDSIQKVARYERVQFASSIKHFSLHVILGAVVDPDTFHGENPGIPYDELALKNGSKGMFVYLQEMKTPPLII FKVGPPFELVRDYCPVVESHTGRTLDLRIIPRIDRGFDHIDEEWVGYKRNYFTLVSTFETANCDLDTFLKSSFDLLVEDSSVESRLRVQYFAIKIKAKNDDDDTEINLVQHTAKRDKGPQFCPSVCPLVPSPLPKHQIIREASNVRNITKTKKYDSTFYLHRNHVNYEEYGVDSLLFSYPEDSIQKVARYERVQFASSISVKKPFQQNKHFSLHVILGAVVDPDTFHGENPGIPYDELALKNGSKGMFVYLQEMKTPPLIIRGRS 1m6u-a5-m1-cA_1m6u-a5-m2-cA Crystal Structure of a Novel DNA-binding domain from Ndt80, a Transcriptional Activator Required for Meiosis in Yeast P38830 P38830 2.3 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 265 265 1m6u-a3-m1-cA_1m6u-a3-m2-cA FKVGPPFELVRDYCPVVESHTGRTLDLRIIPRIDRGFDHIDEEWVGYKRNYFTLVSTFETANCDLDTFLKSSFDLLVEDSSVESRLRVQYFAIKIKAKNDDDDTEINLVQHTAKRDKGPQFCPSVCPLVPSPLPKHQIIREASNVRNITKTKKYDSTFYLHRNHVNYEEYGVDSLLFSYPEDSIQKVARYERVQFASSISVKKPFQQNKHFSLHVILGAVVDPDTFHGENPGIPYDELALKNGSKGMFVYLQEMKTPPLIIRGRS FKVGPPFELVRDYCPVVESHTGRTLDLRIIPRIDRGFDHIDEEWVGYKRNYFTLVSTFETANCDLDTFLKSSFDLLVEDSSVESRLRVQYFAIKIKAKNDDDDTEINLVQHTAKRDKGPQFCPSVCPLVPSPLPKHQIIREASNVRNITKTKKYDSTFYLHRNHVNYEEYGVDSLLFSYPEDSIQKVARYERVQFASSISVKKPFQQNKHFSLHVILGAVVDPDTFHGENPGIPYDELALKNGSKGMFVYLQEMKTPPLIIRGRS 1m72-a2-m1-cC_1m72-a2-m2-cC Crystal Structure of Caspase-1 from Spodoptera frugiperda P89116 P89116 2.3 X-RAY DIFFRACTION 202 1.0 7108 (Spodoptera frugiperda) 7108 (Spodoptera frugiperda) 252 252 1m72-a1-m1-cA_1m72-a1-m1-cB 2nn3-a1-m1-cC_2nn3-a1-m1-cD RVARMPVDRNAPYYNMNHKHRGMAIIFNHEHFDIHSLKSRTGTNVDSDNLSKVLKTLGFKVTVFPNLKSEEINKFIQQTAEMDHSDADCLLVAVLTHGELGMLYAKDTHYKPDNLWYYFTADKCPTLAGKPKLFFIQACQGDRLDGGITLSRSYRIPVHADFLIAFSTVPGYFSWRNTTRGSWFMQALCEELRYAGTERDILTLLTFVCQKVALDFESNAPDSAMMHQQKQVPCITSMLTRLLVFGKKQSHL RVARMPVDRNAPYYNMNHKHRGMAIIFNHEHFDIHSLKSRTGTNVDSDNLSKVLKTLGFKVTVFPNLKSEEINKFIQQTAEMDHSDADCLLVAVLTHGELGMLYAKDTHYKPDNLWYYFTADKCPTLAGKPKLFFIQACQGDRLDGGITLSRSYRIPVHADFLIAFSTVPGYFSWRNTTRGSWFMQALCEELRYAGTERDILTLLTFVCQKVALDFESNAPDSAMMHQQKQVPCITSMLTRLLVFGKKQSHL 1m7l-a1-m1-cB_1m7l-a1-m1-cC Solution Structure of the Coiled-Coil Trimerization Domain from Lung Surfactant Protein D P35247 P35247 NOT SOLUTION NMR 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 1m7l-a1-m1-cA_1m7l-a1-m1-cB 1m7l-a1-m1-cA_1m7l-a1-m1-cC GLPDVASLRQQVEALQGQVQHLQAAFSQYKKVELFPNGGI GLPDVASLRQQVEALQGQVQHLQAAFSQYKKVELFPNGGI 1m7s-a1-m1-cA_1m7s-a1-m1-cD Crystal Structure Analysis of Catalase CatF of Pseudomonas syringae P46206 P46206 1.8 X-RAY DIFFRACTION 290 1.0 317 (Pseudomonas syringae) 317 (Pseudomonas syringae) 484 484 1m7s-a1-m1-cB_1m7s-a1-m1-cC TDTLTRDNGAVVGDNQNSQTAGAQGPVLLQDVQLLQKLQRFDRERIPERVVHARGTGVKGEFTASADISDLSKATVFKSGEKTPVFVRFSSVVHGNHSPETLRDPHGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDNDSRRFDFFSHVPEATRTLTLLYSNEGTPAGYRFMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGIKNLDPKEVAQVQSKDYSHLTNDLVGAIKKGDFPKWDLYVQVLKPEELAKFDFDPLDATKIWPDVPEKKIGQMVLNKNVDNFFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLSLPVNQPKVAVNNGNQDGALNTGHTTSGVNYEPSRLEPRPADDKARYSELPLSGTTQQAKITREQNFKQAGDLYRSYSAKEKTDLVQKFGESLADTLTESKNIMLSYLYKEDPNYGTRVAEVAKGDLSKVKSLAASLKD TDTLTRDNGAVVGDNQNSQTAGAQGPVLLQDVQLLQKLQRFDRERIPERVVHARGTGVKGEFTASADISDLSKATVFKSGEKTPVFVRFSSVVHGNHSPETLRDPHGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDNDSRRFDFFSHVPEATRTLTLLYSNEGTPAGYRFMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGIKNLDPKEVAQVQSKDYSHLTNDLVGAIKKGDFPKWDLYVQVLKPEELAKFDFDPLDATKIWPDVPEKKIGQMVLNKNVDNFFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLSLPVNQPKVAVNNGNQDGALNTGHTTSGVNYEPSRLEPRPADDKARYSELPLSGTTQQAKITREQNFKQAGDLYRSYSAKEKTDLVQKFGESLADTLTESKNIMLSYLYKEDPNYGTRVAEVAKGDLSKVKSLAASLKD 1m7s-a1-m1-cB_1m7s-a1-m1-cD Crystal Structure Analysis of Catalase CatF of Pseudomonas syringae P46206 P46206 1.8 X-RAY DIFFRACTION 319 1.0 317 (Pseudomonas syringae) 317 (Pseudomonas syringae) 483 484 1m7s-a1-m1-cC_1m7s-a1-m1-cA DTLTRDNGAVVGDNQNSQTAGAQGPVLLQDVQLLQKLQRFDRERIPERVVHARGTGVKGEFTASADISDLSKATVFKSGEKTPVFVRFSSVVHGNHSPETLRDPHGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDNDSRRFDFFSHVPEATRTLTLLYSNEGTPAGYRFMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGIKNLDPKEVAQVQSKDYSHLTNDLVGAIKKGDFPKWDLYVQVLKPEELAKFDFDPLDATKIWPDVPEKKIGQMVLNKNVDNFFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLSLPVNQPKVAVNNGNQDGALNTGHTTSGVNYEPSRLEPRPADDKARYSELPLSGTTQQAKITREQNFKQAGDLYRSYSAKEKTDLVQKFGESLADTLTESKNIMLSYLYKEDPNYGTRVAEVAKGDLSKVKSLAASLKD TDTLTRDNGAVVGDNQNSQTAGAQGPVLLQDVQLLQKLQRFDRERIPERVVHARGTGVKGEFTASADISDLSKATVFKSGEKTPVFVRFSSVVHGNHSPETLRDPHGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDNDSRRFDFFSHVPEATRTLTLLYSNEGTPAGYRFMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGIKNLDPKEVAQVQSKDYSHLTNDLVGAIKKGDFPKWDLYVQVLKPEELAKFDFDPLDATKIWPDVPEKKIGQMVLNKNVDNFFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLSLPVNQPKVAVNNGNQDGALNTGHTTSGVNYEPSRLEPRPADDKARYSELPLSGTTQQAKITREQNFKQAGDLYRSYSAKEKTDLVQKFGESLADTLTESKNIMLSYLYKEDPNYGTRVAEVAKGDLSKVKSLAASLKD 1m7s-a1-m1-cC_1m7s-a1-m1-cD Crystal Structure Analysis of Catalase CatF of Pseudomonas syringae P46206 P46206 1.8 X-RAY DIFFRACTION 140 1.0 317 (Pseudomonas syringae) 317 (Pseudomonas syringae) 483 484 1m7s-a1-m1-cB_1m7s-a1-m1-cA DTLTRDNGAVVGDNQNSQTAGAQGPVLLQDVQLLQKLQRFDRERIPERVVHARGTGVKGEFTASADISDLSKATVFKSGEKTPVFVRFSSVVHGNHSPETLRDPHGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDNDSRRFDFFSHVPEATRTLTLLYSNEGTPAGYRFMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGIKNLDPKEVAQVQSKDYSHLTNDLVGAIKKGDFPKWDLYVQVLKPEELAKFDFDPLDATKIWPDVPEKKIGQMVLNKNVDNFFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLSLPVNQPKVAVNNGNQDGALNTGHTTSGVNYEPSRLEPRPADDKARYSELPLSGTTQQAKITREQNFKQAGDLYRSYSAKEKTDLVQKFGESLADTLTESKNIMLSYLYKEDPNYGTRVAEVAKGDLSKVKSLAASLKD TDTLTRDNGAVVGDNQNSQTAGAQGPVLLQDVQLLQKLQRFDRERIPERVVHARGTGVKGEFTASADISDLSKATVFKSGEKTPVFVRFSSVVHGNHSPETLRDPHGFATKFYTADGNWDLVGNNFPTFFIRDAIKFPDMVHAFKPDPRTNLDNDSRRFDFFSHVPEATRTLTLLYSNEGTPAGYRFMDGNGVHAYKLVNAKGEVHYVKFHWKSLQGIKNLDPKEVAQVQSKDYSHLTNDLVGAIKKGDFPKWDLYVQVLKPEELAKFDFDPLDATKIWPDVPEKKIGQMVLNKNVDNFFQETEQVAMAPANLVPGIEPSEDRLLQGRVFSYADTQMYRLGANGLSLPVNQPKVAVNNGNQDGALNTGHTTSGVNYEPSRLEPRPADDKARYSELPLSGTTQQAKITREQNFKQAGDLYRSYSAKEKTDLVQKFGESLADTLTESKNIMLSYLYKEDPNYGTRVAEVAKGDLSKVKSLAASLKD 1m85-a1-m1-cA_1m85-a1-m4-cA Structure of Proteus mirabilis catalase for the native form P42321 P42321 2 X-RAY DIFFRACTION 276 1.0 584 (Proteus mirabilis) 584 (Proteus mirabilis) 475 475 1e93-a1-m1-cA_1e93-a1-m3-cA 1e93-a1-m2-cA_1e93-a1-m4-cA 1h6n-a1-m1-cA_1h6n-a1-m4-cA 1h6n-a1-m2-cA_1h6n-a1-m3-cA 1h7k-a1-m1-cA_1h7k-a1-m3-cA 1h7k-a1-m2-cA_1h7k-a1-m4-cA 1m85-a1-m2-cA_1m85-a1-m3-cA 1mqf-a1-m1-cA_1mqf-a1-m4-cA 1mqf-a1-m2-cA_1mqf-a1-m3-cA 1nm0-a2-m1-cA_1nm0-a2-m4-cA 1nm0-a2-m2-cA_1nm0-a2-m3-cA 2cag-a1-m1-cA_2cag-a1-m4-cA 2cag-a1-m2-cA_2cag-a1-m3-cA 2cah-a1-m1-cA_2cah-a1-m4-cA 2cah-a1-m2-cA_2cah-a1-m3-cA 3hb6-a1-m1-cA_3hb6-a1-m4-cA 3hb6-a1-m2-cA_3hb6-a1-m3-cA KKLTTAAGAPVVDNNNVITAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSGAFGTFTVTHDITKYTRAKIFSEVGKKTEMFARFSTVAGERGAADAERDIRGFALKFYTEEGNWDMVGNNTPVFYLRDPLKFPDLNHIVKRDPRTNMRNMAYKWDFFSHLPESLHQLTIDMSDRGLPLSYRFVHGFGSHTYSFINKDNERFWVKFHFRCQQGIKNLMDDEAEALVGKDRESSQRDLFEAIERGDYPRWKLQIQIMPEKEASTVPYNPFDLTKVWPHADYPLMDVGYFELNRNPDNYFSDVEQAAFSPANIVPGISFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAPKCPFHNYHRDGAMRVDGNSGNGITYEPNSGGVFQEQPDFKEPPLSIEGAADHWNHREDEDYFSQPRALYELLSDDEHQRMFARIAGELSQASKETQQRQIDLFTKVHPEYGAGVEKAIKVLE KKLTTAAGAPVVDNNNVITAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSGAFGTFTVTHDITKYTRAKIFSEVGKKTEMFARFSTVAGERGAADAERDIRGFALKFYTEEGNWDMVGNNTPVFYLRDPLKFPDLNHIVKRDPRTNMRNMAYKWDFFSHLPESLHQLTIDMSDRGLPLSYRFVHGFGSHTYSFINKDNERFWVKFHFRCQQGIKNLMDDEAEALVGKDRESSQRDLFEAIERGDYPRWKLQIQIMPEKEASTVPYNPFDLTKVWPHADYPLMDVGYFELNRNPDNYFSDVEQAAFSPANIVPGISFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAPKCPFHNYHRDGAMRVDGNSGNGITYEPNSGGVFQEQPDFKEPPLSIEGAADHWNHREDEDYFSQPRALYELLSDDEHQRMFARIAGELSQASKETQQRQIDLFTKVHPEYGAGVEKAIKVLE 1m85-a1-m2-cA_1m85-a1-m4-cA Structure of Proteus mirabilis catalase for the native form P42321 P42321 2 X-RAY DIFFRACTION 284 1.0 584 (Proteus mirabilis) 584 (Proteus mirabilis) 475 475 1e93-a1-m1-cA_1e93-a1-m4-cA 1e93-a1-m2-cA_1e93-a1-m3-cA 1h6n-a1-m1-cA_1h6n-a1-m2-cA 1h6n-a1-m3-cA_1h6n-a1-m4-cA 1h7k-a1-m1-cA_1h7k-a1-m4-cA 1h7k-a1-m2-cA_1h7k-a1-m3-cA 1m85-a1-m1-cA_1m85-a1-m3-cA 1mqf-a1-m1-cA_1mqf-a1-m3-cA 1mqf-a1-m2-cA_1mqf-a1-m4-cA 1nm0-a2-m1-cA_1nm0-a2-m3-cA 1nm0-a2-m2-cA_1nm0-a2-m4-cA 2cag-a1-m1-cA_2cag-a1-m3-cA 2cag-a1-m2-cA_2cag-a1-m4-cA 2cah-a1-m1-cA_2cah-a1-m3-cA 2cah-a1-m2-cA_2cah-a1-m4-cA 3hb6-a1-m1-cA_3hb6-a1-m3-cA 3hb6-a1-m2-cA_3hb6-a1-m4-cA KKLTTAAGAPVVDNNNVITAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSGAFGTFTVTHDITKYTRAKIFSEVGKKTEMFARFSTVAGERGAADAERDIRGFALKFYTEEGNWDMVGNNTPVFYLRDPLKFPDLNHIVKRDPRTNMRNMAYKWDFFSHLPESLHQLTIDMSDRGLPLSYRFVHGFGSHTYSFINKDNERFWVKFHFRCQQGIKNLMDDEAEALVGKDRESSQRDLFEAIERGDYPRWKLQIQIMPEKEASTVPYNPFDLTKVWPHADYPLMDVGYFELNRNPDNYFSDVEQAAFSPANIVPGISFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAPKCPFHNYHRDGAMRVDGNSGNGITYEPNSGGVFQEQPDFKEPPLSIEGAADHWNHREDEDYFSQPRALYELLSDDEHQRMFARIAGELSQASKETQQRQIDLFTKVHPEYGAGVEKAIKVLE KKLTTAAGAPVVDNNNVITAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSGAFGTFTVTHDITKYTRAKIFSEVGKKTEMFARFSTVAGERGAADAERDIRGFALKFYTEEGNWDMVGNNTPVFYLRDPLKFPDLNHIVKRDPRTNMRNMAYKWDFFSHLPESLHQLTIDMSDRGLPLSYRFVHGFGSHTYSFINKDNERFWVKFHFRCQQGIKNLMDDEAEALVGKDRESSQRDLFEAIERGDYPRWKLQIQIMPEKEASTVPYNPFDLTKVWPHADYPLMDVGYFELNRNPDNYFSDVEQAAFSPANIVPGISFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAPKCPFHNYHRDGAMRVDGNSGNGITYEPNSGGVFQEQPDFKEPPLSIEGAADHWNHREDEDYFSQPRALYELLSDDEHQRMFARIAGELSQASKETQQRQIDLFTKVHPEYGAGVEKAIKVLE 1m85-a1-m3-cA_1m85-a1-m4-cA Structure of Proteus mirabilis catalase for the native form P42321 P42321 2 X-RAY DIFFRACTION 117 1.0 584 (Proteus mirabilis) 584 (Proteus mirabilis) 475 475 1e93-a1-m1-cA_1e93-a1-m2-cA 1e93-a1-m3-cA_1e93-a1-m4-cA 1h6n-a1-m1-cA_1h6n-a1-m3-cA 1h6n-a1-m2-cA_1h6n-a1-m4-cA 1h7k-a1-m1-cA_1h7k-a1-m2-cA 1h7k-a1-m3-cA_1h7k-a1-m4-cA 1m85-a1-m1-cA_1m85-a1-m2-cA 1mqf-a1-m1-cA_1mqf-a1-m2-cA 1mqf-a1-m3-cA_1mqf-a1-m4-cA 1nm0-a2-m1-cA_1nm0-a2-m2-cA 1nm0-a2-m3-cA_1nm0-a2-m4-cA 2cag-a1-m1-cA_2cag-a1-m2-cA 2cag-a1-m3-cA_2cag-a1-m4-cA 2cah-a1-m1-cA_2cah-a1-m2-cA 2cah-a1-m3-cA_2cah-a1-m4-cA 3hb6-a1-m1-cA_3hb6-a1-m2-cA 3hb6-a1-m3-cA_3hb6-a1-m4-cA KKLTTAAGAPVVDNNNVITAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSGAFGTFTVTHDITKYTRAKIFSEVGKKTEMFARFSTVAGERGAADAERDIRGFALKFYTEEGNWDMVGNNTPVFYLRDPLKFPDLNHIVKRDPRTNMRNMAYKWDFFSHLPESLHQLTIDMSDRGLPLSYRFVHGFGSHTYSFINKDNERFWVKFHFRCQQGIKNLMDDEAEALVGKDRESSQRDLFEAIERGDYPRWKLQIQIMPEKEASTVPYNPFDLTKVWPHADYPLMDVGYFELNRNPDNYFSDVEQAAFSPANIVPGISFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAPKCPFHNYHRDGAMRVDGNSGNGITYEPNSGGVFQEQPDFKEPPLSIEGAADHWNHREDEDYFSQPRALYELLSDDEHQRMFARIAGELSQASKETQQRQIDLFTKVHPEYGAGVEKAIKVLE KKLTTAAGAPVVDNNNVITAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSGAFGTFTVTHDITKYTRAKIFSEVGKKTEMFARFSTVAGERGAADAERDIRGFALKFYTEEGNWDMVGNNTPVFYLRDPLKFPDLNHIVKRDPRTNMRNMAYKWDFFSHLPESLHQLTIDMSDRGLPLSYRFVHGFGSHTYSFINKDNERFWVKFHFRCQQGIKNLMDDEAEALVGKDRESSQRDLFEAIERGDYPRWKLQIQIMPEKEASTVPYNPFDLTKVWPHADYPLMDVGYFELNRNPDNYFSDVEQAAFSPANIVPGISFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAPKCPFHNYHRDGAMRVDGNSGNGITYEPNSGGVFQEQPDFKEPPLSIEGAADHWNHREDEDYFSQPRALYELLSDDEHQRMFARIAGELSQASKETQQRQIDLFTKVHPEYGAGVEKAIKVLE 1m9h-a2-m1-cA_1m9h-a2-m2-cA Corynebacterium 2,5-DKGR A and Phe 22 replaced with Tyr (F22Y), Lys 232 replaced with Gly (K232G), Arg 238 replaced with His (R238H)and Ala 272 replaced with Gly (A272G)in presence of NADH cofactor P06632 P06632 2 X-RAY DIFFRACTION 62 1.0 1720 (Corynebacterium sp.) 1720 (Corynebacterium sp.) 277 277 TVPSIVLNDGNSIPQLGYGVYKVPPADTQRAVEEALEVGYRHIDTAAIYGNEEGVGAAIAASGIARDDLFITTKLWNDRHDGDEPAAAIAESLAKLALDQVDLYLVHWPTPAADNYVHAWEKMIELRAAGLTRSIGVSNHLVPHLERIVAATGVVPAVNQIELHPAYQQREITDWAAAHDVKIESWGPLGQGKYDLFGAEPVTAAAAAHGKTPAQAVLRWHLQKGFVVFPGSVRREHLEENLDVFDFDLTDTEIAAIDAMDPGDGSGRVSGHPDEVD TVPSIVLNDGNSIPQLGYGVYKVPPADTQRAVEEALEVGYRHIDTAAIYGNEEGVGAAIAASGIARDDLFITTKLWNDRHDGDEPAAAIAESLAKLALDQVDLYLVHWPTPAADNYVHAWEKMIELRAAGLTRSIGVSNHLVPHLERIVAATGVVPAVNQIELHPAYQQREITDWAAAHDVKIESWGPLGQGKYDLFGAEPVTAAAAAHGKTPAQAVLRWHLQKGFVVFPGSVRREHLEENLDVFDFDLTDTEIAAIDAMDPGDGSGRVSGHPDEVD 1mah-a1-m1-cA_1mah-a1-m2-cA FASCICULIN2-MOUSE ACETYLCHOLINESTERASE COMPLEX P21836 P21836 3.2 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 533 533 EDPQLLVRVRGGQLRGIRLKAPGGPVSAFLGIPFAEPPVGSRRFMPPEPKRPWSGVLDATTFQNVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPASPTPVLIWIYGGGFYSGAASLDVYDGRFLAQVEGAVLVSMNYRVGTFGFLALPGSREAPGNVGLLDQRLALQWVQENIAAFGGDPMSVTLFGESAGAASVGMHILSLPSRSLFHRAVLQSGTPNGPWATVSAGEARRRATLLARLVGCNDTELIACLRTRPAQDLVDHEWHVLPQESIFRFSFVPVVDGDFLSDTPEALINTGDFQDLQVLVGVVKDEGSYFLVYGVPGFSKDNESLISRAQFLAGVRIGVPQASDLAAEAVVLHYTDWLHPEDPTHLRDAMSAVVGDHNVVCPVAQLAGRLAAQGARVYAYIFEHRASTLTWPLWMGVPHGYEIEFIFGLPLDPSLNYTTEERIFAQRLMKYWTNFARTGDPNDPRDSKSPQWPPYTTAAQQYVSLNLKPLEVRRGLRAQTCAFWNRFLPKLLSAT EDPQLLVRVRGGQLRGIRLKAPGGPVSAFLGIPFAEPPVGSRRFMPPEPKRPWSGVLDATTFQNVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPASPTPVLIWIYGGGFYSGAASLDVYDGRFLAQVEGAVLVSMNYRVGTFGFLALPGSREAPGNVGLLDQRLALQWVQENIAAFGGDPMSVTLFGESAGAASVGMHILSLPSRSLFHRAVLQSGTPNGPWATVSAGEARRRATLLARLVGCNDTELIACLRTRPAQDLVDHEWHVLPQESIFRFSFVPVVDGDFLSDTPEALINTGDFQDLQVLVGVVKDEGSYFLVYGVPGFSKDNESLISRAQFLAGVRIGVPQASDLAAEAVVLHYTDWLHPEDPTHLRDAMSAVVGDHNVVCPVAQLAGRLAAQGARVYAYIFEHRASTLTWPLWMGVPHGYEIEFIFGLPLDPSLNYTTEERIFAQRLMKYWTNFARTGDPNDPRDSKSPQWPPYTTAAQQYVSLNLKPLEVRRGLRAQTCAFWNRFLPKLLSAT 1mas-a1-m1-cB_1mas-a1-m2-cB PURINE NUCLEOSIDE HYDROLASE Q27546 Q27546 2.5 X-RAY DIFFRACTION 42 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 295 295 1mas-a1-m1-cA_1mas-a1-m2-cA 2mas-a1-m1-cA_2mas-a1-m1-cC 2mas-a1-m1-cB_2mas-a1-m1-cD AKKIILDCDPGLDDAVAILLAHGNPEIELLAITTVVGNQTLAKVTRNAQLVADIAGITGVPIAAGCDKPLVRKIMTKNKVDERHAVNLIIDLVMSHEPKTITLVPTGGLTNIAMAARLEPRIVDRVKEVVLMGGGYHEGNATSVAEFNIIIDPEAAHIVFNESWQVTMVGLDLTHQALATPPILQRVKEVDTNPARFMLEIMDYYTKIYQSNRYMAAAAVHDPCAVAYVIDPSVMTTERVPVDIELTGKLTLGMTVADFRNPRPEHCHTQVAVKLDFEKFWGLVLDALERIGDPQ AKKIILDCDPGLDDAVAILLAHGNPEIELLAITTVVGNQTLAKVTRNAQLVADIAGITGVPIAAGCDKPLVRKIMTKNKVDERHAVNLIIDLVMSHEPKTITLVPTGGLTNIAMAARLEPRIVDRVKEVVLMGGGYHEGNATSVAEFNIIIDPEAAHIVFNESWQVTMVGLDLTHQALATPPILQRVKEVDTNPARFMLEIMDYYTKIYQSNRYMAAAAVHDPCAVAYVIDPSVMTTERVPVDIELTGKLTLGMTVADFRNPRPEHCHTQVAVKLDFEKFWGLVLDALERIGDPQ 1mau-a1-m1-cA_1mau-a1-m2-cA Crystal structure of Tryptophanyl-tRNA Synthetase Complexed with ATP and Tryptophanamide in a Pre-Transition state Conformation P00953 P00953 2.15 X-RAY DIFFRACTION 148 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 328 328 1d2r-a1-m1-cA_1d2r-a1-m1-cD 1d2r-a2-m1-cB_1d2r-a2-m1-cE 1d2r-a3-m1-cC_1d2r-a3-m1-cF 1i6m-a1-m1-cA_1i6m-a1-m2-cA 1m83-a1-m1-cA_1m83-a1-m2-cA 1maw-a1-m1-cA_1maw-a1-m1-cD 1maw-a2-m1-cB_1maw-a2-m1-cE 1maw-a3-m1-cC_1maw-a3-m1-cF 1mb2-a1-m1-cA_1mb2-a1-m1-cD 1mb2-a2-m1-cB_1mb2-a2-m1-cE 1mb2-a3-m1-cC_1mb2-a3-m1-cF 2ov4-a1-m1-cA_2ov4-a1-m2-cA 3fhj-a1-m1-cB_3fhj-a1-m1-cA 7cki-a1-m1-cA_7cki-a1-m2-cA 7cms-a1-m1-cB_7cms-a1-m1-cA 7eer-a1-m1-cA_7eer-a1-m2-cA 7eer-a2-m1-cB_7eer-a2-m3-cB 7eer-a3-m1-cC_7eer-a3-m1-cD MKTIFSGIQPSGVITIGNYIGALRQFVELQHEYNCYFCIVDQHAITVWQDPHELRQNIRRLAALYLAVGIDPTQATLFIQSEVPAHAQAAWMLQCIVYIGELERMTQFKEKSAGKEAVSAGLLTYPPLMAADILLYNTDIVPVGEDQKQHIELTRDLAERFNKRYGELFTIPEARIPKVGARIMSLVDPTKKMSKSDPNPKAYITLLDDAKTIEKKIKSAVTDSEGTIRYDKEAKPGISNLLNIYSTLSGQSIEELERQYEGKGYGVFKADLAQVVIETLRPIQERYHHWMESEELDRVLDEGAEKANRVASEMVRKMEQAMGLGRRR MKTIFSGIQPSGVITIGNYIGALRQFVELQHEYNCYFCIVDQHAITVWQDPHELRQNIRRLAALYLAVGIDPTQATLFIQSEVPAHAQAAWMLQCIVYIGELERMTQFKEKSAGKEAVSAGLLTYPPLMAADILLYNTDIVPVGEDQKQHIELTRDLAERFNKRYGELFTIPEARIPKVGARIMSLVDPTKKMSKSDPNPKAYITLLDDAKTIEKKIKSAVTDSEGTIRYDKEAKPGISNLLNIYSTLSGQSIEELERQYEGKGYGVFKADLAQVVIETLRPIQERYHHWMESEELDRVLDEGAEKANRVASEMVRKMEQAMGLGRRR 1mc0-a3-m1-cA_1mc0-a3-m4-cA Regulatory Segment of Mouse 3',5'-Cyclic Nucleotide Phosphodiesterase 2A, Containing the GAF A and GAF B Domains Q922S4 Q922S4 2.86 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 341 341 1mc0-a3-m2-cA_1mc0-a3-m3-cA YTDHDRKILQLCGELFDLDATSLQLKVLQYLQQETQATHCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTMGRLGQVVEDKQCIQLKDLTSDDVQQLQNMLGCELQAMLCVPVISRATDQVVALACAFNKLGGDFFTDEDEHVIQHCFHYTGTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFYRGVDDSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQY YTDHDRKILQLCGELFDLDATSLQLKVLQYLQQETQATHCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTMGRLGQVVEDKQCIQLKDLTSDDVQQLQNMLGCELQAMLCVPVISRATDQVVALACAFNKLGGDFFTDEDEHVIQHCFHYTGTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFYRGVDDSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQY 1mc0-a3-m2-cA_1mc0-a3-m4-cA Regulatory Segment of Mouse 3',5'-Cyclic Nucleotide Phosphodiesterase 2A, Containing the GAF A and GAF B Domains Q922S4 Q922S4 2.86 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 341 341 1mc0-a3-m1-cA_1mc0-a3-m3-cA YTDHDRKILQLCGELFDLDATSLQLKVLQYLQQETQATHCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTMGRLGQVVEDKQCIQLKDLTSDDVQQLQNMLGCELQAMLCVPVISRATDQVVALACAFNKLGGDFFTDEDEHVIQHCFHYTGTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFYRGVDDSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQY YTDHDRKILQLCGELFDLDATSLQLKVLQYLQQETQATHCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTMGRLGQVVEDKQCIQLKDLTSDDVQQLQNMLGCELQAMLCVPVISRATDQVVALACAFNKLGGDFFTDEDEHVIQHCFHYTGTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFYRGVDDSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQY 1mc0-a3-m3-cA_1mc0-a3-m4-cA Regulatory Segment of Mouse 3',5'-Cyclic Nucleotide Phosphodiesterase 2A, Containing the GAF A and GAF B Domains Q922S4 Q922S4 2.86 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 341 341 1mc0-a3-m1-cA_1mc0-a3-m2-cA YTDHDRKILQLCGELFDLDATSLQLKVLQYLQQETQATHCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTMGRLGQVVEDKQCIQLKDLTSDDVQQLQNMLGCELQAMLCVPVISRATDQVVALACAFNKLGGDFFTDEDEHVIQHCFHYTGTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFYRGVDDSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQY YTDHDRKILQLCGELFDLDATSLQLKVLQYLQQETQATHCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTMGRLGQVVEDKQCIQLKDLTSDDVQQLQNMLGCELQAMLCVPVISRATDQVVALACAFNKLGGDFFTDEDEHVIQHCFHYTGTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFYRGVDDSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQY 1mc3-a1-m1-cA_1mc3-a1-m2-cB CRYSTAL STRUCTURE OF RFFH P61887 P61887 2.6 X-RAY DIFFRACTION 100 1.0 562 (Escherichia coli) 562 (Escherichia coli) 286 286 1mc3-a1-m1-cB_1mc3-a1-m2-cA HKGIILAGGSGTRLHPITRGVSKQLLPIYDKPIYYPLSVLLAGIREILIITTPEDKGYFQRLLGDGSEFGIQLEYAEQPSPDGLAQAFIIGETFLNGEPSCLVLGDNIFFGQGFSPKLRHVAARTEGATVFGYQVDPERFGVVEFDDNFRAISLEEKPKQPKSNWAVTGLYFYDSKVVEYAKQVKPSERGELEITSINQYLEAGNLTVELLGRGFAWLDTGTHDSLIEASTFVQTVEKRQGFKIACLEEIAWRNGWLDDEGVKRAASSLAKTGYGQYLLELLRARP HKGIILAGGSGTRLHPITRGVSKQLLPIYDKPIYYPLSVLLAGIREILIITTPEDKGYFQRLLGDGSEFGIQLEYAEQPSPDGLAQAFIIGETFLNGEPSCLVLGDNIFFGQGFSPKLRHVAARTEGATVFGYQVDPERFGVVEFDDNFRAISLEEKPKQPKSNWAVTGLYFYDSKVVEYAKQVKPSERGELEITSINQYLEAGNLTVELLGRGFAWLDTGTHDSLIEASTFVQTVEKRQGFKIACLEEIAWRNGWLDDEGVKRAASSLAKTGYGQYLLELLRARP 1mc3-a1-m2-cA_1mc3-a1-m2-cB CRYSTAL STRUCTURE OF RFFH P61887 P61887 2.6 X-RAY DIFFRACTION 51 1.0 562 (Escherichia coli) 562 (Escherichia coli) 286 286 1mc3-a1-m1-cA_1mc3-a1-m1-cB HKGIILAGGSGTRLHPITRGVSKQLLPIYDKPIYYPLSVLLAGIREILIITTPEDKGYFQRLLGDGSEFGIQLEYAEQPSPDGLAQAFIIGETFLNGEPSCLVLGDNIFFGQGFSPKLRHVAARTEGATVFGYQVDPERFGVVEFDDNFRAISLEEKPKQPKSNWAVTGLYFYDSKVVEYAKQVKPSERGELEITSINQYLEAGNLTVELLGRGFAWLDTGTHDSLIEASTFVQTVEKRQGFKIACLEEIAWRNGWLDDEGVKRAASSLAKTGYGQYLLELLRARP HKGIILAGGSGTRLHPITRGVSKQLLPIYDKPIYYPLSVLLAGIREILIITTPEDKGYFQRLLGDGSEFGIQLEYAEQPSPDGLAQAFIIGETFLNGEPSCLVLGDNIFFGQGFSPKLRHVAARTEGATVFGYQVDPERFGVVEFDDNFRAISLEEKPKQPKSNWAVTGLYFYDSKVVEYAKQVKPSERGELEITSINQYLEAGNLTVELLGRGFAWLDTGTHDSLIEASTFVQTVEKRQGFKIACLEEIAWRNGWLDDEGVKRAASSLAKTGYGQYLLELLRARP 1mc8-a1-m1-cA_1mc8-a1-m1-cB Crystal Structure of Flap Endonuclease-1 R42E mutant from Pyrococcus horikoshii O50123 O50123 3.1 X-RAY DIFFRACTION 64 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 331 331 GVPIGDLVPRKEIDLENLYGKKIAIDALNAIYQFLSTIRQEDGTPLMDSKGRITSHLSGLFYRTINLMEAGIKPAYVFDGKPPEFKRKELEKRREAREEAELKWKEALAKGNLEEARKYAQRATKVNEMLIEDAKKLLQLMGIPIIQAPSEGEAQAAYMASKGDVYASASQDYDSLLFGAPRLIRNLTITGKRKMPGKDVYVEIKPELVVLDEVLKELKITREKLIELAILVGTDYNPGGVKGIGPKKALEIVRYSRDPLAKFQRQSDVDLYAIKEFFLNPPVTNEYSLSWKEPDEEGILKFLCDEHNFSEERVKNGIERLKKAIKAGRQS GVPIGDLVPRKEIDLENLYGKKIAIDALNAIYQFLSTIRQEDGTPLMDSKGRITSHLSGLFYRTINLMEAGIKPAYVFDGKPPEFKRKELEKRREAREEAELKWKEALAKGNLEEARKYAQRATKVNEMLIEDAKKLLQLMGIPIIQAPSEGEAQAAYMASKGDVYASASQDYDSLLFGAPRLIRNLTITGKRKMPGKDVYVEIKPELVVLDEVLKELKITREKLIELAILVGTDYNPGGVKGIGPKKALEIVRYSRDPLAKFQRQSDVDLYAIKEFFLNPPVTNEYSLSWKEPDEEGILKFLCDEHNFSEERVKNGIERLKKAIKAGRQS 1mco-a1-m1-cH_1mco-a1-m2-cH THREE-DIMENSIONAL STRUCTURE OF A HUMAN IMMUNOGLOBULIN WITH A HINGE DELETION 3.2 X-RAY DIFFRACTION 161 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 428 428 PLVLQESGPGLVKPSEALSLTCTVSGDSINTILYYWSWIRQPPGKGLEWIGYIYYSGSTYGNPSLKSRVTISVNTSKNQFYSKLSSVTAADTAVYYCARVPLVVNPWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVAPELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL PLVLQESGPGLVKPSEALSLTCTVSGDSINTILYYWSWIRQPPGKGLEWIGYIYYSGSTYGNPSLKSRVTISVNTSKNQFYSKLSSVTAADTAVYYCARVPLVVNPWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVAPELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 1mda-a1-m1-cH_1mda-a1-m1-cJ CRYSTAL STRUCTURE OF AN ELECTRON-TRANSFER COMPLEX BETWEEN METHYLAMINE DEHYDROGENASE AND AMICYANIN 2.5 X-RAY DIFFRACTION 32 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 368 368 EKSKVAGSAAAASAAAASDGSSCDHGPGAISRRSHITLPAYFAGTTENWVSCAGCGVTLGHSLGAFLSLAVAGHSGSDFALASTSFARSAKGKRTDYVEVFDPVTFLPIADIELPDAPRFSVGPRVHIIGNCASSACLLFFLFGSSAAAGLSVPGASDDQLTKSASCFHIHPGAAATHYLGSCPASLAASDLAAAPAAAGIVGAQCTGAQNCSSQAAQANYPGMLVWAVASSILQGDIPAAGATMKAAIDGNESGRKADNFRSAGFQMVAKLKNTDGIMILTVEHSRSCLAAAENTSSVTASVGQTSGPISNGHDSDAIIAAQDGASDNYANSAGTEVLDIYDAASDQDQSSVELDKGPESLSVQNEA EKSKVAGSAAAASAAAASDGSSCDHGPGAISRRSHITLPAYFAGTTENWVSCAGCGVTLGHSLGAFLSLAVAGHSGSDFALASTSFARSAKGKRTDYVEVFDPVTFLPIADIELPDAPRFSVGPRVHIIGNCASSACLLFFLFGSSAAAGLSVPGASDDQLTKSASCFHIHPGAAATHYLGSCPASLAASDLAAAPAAAGIVGAQCTGAQNCSSQAAQANYPGMLVWAVASSILQGDIPAAGATMKAAIDGNESGRKADNFRSAGFQMVAKLKNTDGIMILTVEHSRSCLAAAENTSSVTASVGQTSGPISNGHDSDAIIAAQDGASDNYANSAGTEVLDIYDAASDQDQSSVELDKGPESLSVQNEA 1mdv-a3-m4-cB_1mdv-a3-m2-cA KEY ROLE OF PHENYLALANINE 20 IN CYTOCHROME C3: STRUCTURE, STABILITY AND FUNCTION STUDIES P00131 P00131 2.3 X-RAY DIFFRACTION 18 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 100 101 1mdv-a3-m1-cB_1mdv-a3-m4-cA 1mdv-a3-m2-cB_1mdv-a3-m3-cA 1mdv-a3-m3-cB_1mdv-a3-m1-cA GLKMEATKQPVVLNHSTHKSVKCGDCHHPVNGKEDYRKCGTAGCHDSMDKKDKSAKGYYHVMHDKNTKFKSCVGCHVEVAGADAAKKKDLTGCKKSKCHE DGLKMEATKQPVVLNHSTHKSVKCGDCHHPVNGKEDYRKCGTAGCHDSMDKKDKSAKGYYHVMHDKNTKFKSCVGCHVEVAGADAAKKKDLTGCKKSKCHE 1mdv-a3-m4-cB_1mdv-a3-m4-cA KEY ROLE OF PHENYLALANINE 20 IN CYTOCHROME C3: STRUCTURE, STABILITY AND FUNCTION STUDIES P00131 P00131 2.3 X-RAY DIFFRACTION 33 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 100 101 1mdv-a3-m1-cB_1mdv-a3-m1-cA 1mdv-a3-m2-cB_1mdv-a3-m2-cA 1mdv-a3-m3-cB_1mdv-a3-m3-cA GLKMEATKQPVVLNHSTHKSVKCGDCHHPVNGKEDYRKCGTAGCHDSMDKKDKSAKGYYHVMHDKNTKFKSCVGCHVEVAGADAAKKKDLTGCKKSKCHE DGLKMEATKQPVVLNHSTHKSVKCGDCHHPVNGKEDYRKCGTAGCHDSMDKKDKSAKGYYHVMHDKNTKFKSCVGCHVEVAGADAAKKKDLTGCKKSKCHE 1mdx-a2-m1-cA_1mdx-a2-m2-cA Crystal structure of ArnB transferase with pyridoxal 5' phosphate Q8ZNF3 Q8ZNF3 1.96 X-RAY DIFFRACTION 159 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 366 366 1mdo-a2-m1-cA_1mdo-a2-m2-cA 1mdz-a2-m1-cA_1mdz-a2-m2-cA 4oca-a1-m1-cA_4oca-a1-m2-cA DFLPFSRPAMGAEELAAVKTVLDSGWITTGPKNQELEAAFCRLTGNQYAVAVSSATAGMHIALMALGIGEGDEVITPSMTWVSTLNMIVLLGANPVMVDVDRDTLMVTPEHIEAAITPQTKAIIPVHYAGAPADLDAIYALGERYGIPVIEDAAHATGTSYKGRHIGARGTAIFSFHAIKNITCAEGGIVVTDNPQFADKLRSLKFHGLGRAPQAEVLAPGYKYNLPDLNAAIALAQLQKLDALNARRAAIAAQYHQAMADLPFQPLSLPSWEHIHAWHLFIIRVDEARCGITRDALMASLKTKGIGTGLHFRAAHTQKYYRERFPTLTLPDTEWNSERICSLPLFPDMTESDFDRVITALHQIAG DFLPFSRPAMGAEELAAVKTVLDSGWITTGPKNQELEAAFCRLTGNQYAVAVSSATAGMHIALMALGIGEGDEVITPSMTWVSTLNMIVLLGANPVMVDVDRDTLMVTPEHIEAAITPQTKAIIPVHYAGAPADLDAIYALGERYGIPVIEDAAHATGTSYKGRHIGARGTAIFSFHAIKNITCAEGGIVVTDNPQFADKLRSLKFHGLGRAPQAEVLAPGYKYNLPDLNAAIALAQLQKLDALNARRAAIAAQYHQAMADLPFQPLSLPSWEHIHAWHLFIIRVDEARCGITRDALMASLKTKGIGTGLHFRAAHTQKYYRERFPTLTLPDTEWNSERICSLPLFPDMTESDFDRVITALHQIAG 1mdy-a2-m1-cC_1mdy-a2-m1-cD CRYSTAL STRUCTURE OF MYOD BHLH DOMAIN BOUND TO DNA: PERSPECTIVES ON DNA RECOGNITION AND IMPLICATIONS FOR TRANSCRIPTIONAL ACTIVATION P10085 P10085 2.8 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 62 62 1mdy-a1-m1-cB_1mdy-a1-m1-cA TTNADRRKAATMRERRRLSKVNEAFETLKRSTSSNPNQRLPKVEILRNAIRYIEGLQALLRD TTNADRRKAATMRERRRLSKVNEAFETLKRSTSSNPNQRLPKVEILRNAIRYIEGLQALLRD 1mg5-a1-m1-cA_1mg5-a1-m1-cB Crystal structure of Drosophila melanogaster alcohol dehydrogenase complexed with NADH and acetate at 1.6 A P00334 P00334 1.63 X-RAY DIFFRACTION 183 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 255 255 SFTLTNKNVIFVAGLGGIGLDTSKELLKRDLKNLVILDRIENPAAIAELKAINPKVTVTFYPYDVTVPIAETTKLLKTIFAQLKTVDVLINGAGILDDHQIERTIAVNYTGLVNTTTAILDFWDKRKGGPGGIICNIGSVTGFNAIYQVPVYSGTKAAVVNFTSSLAKLAPITGVTAYTVNPGITRTTLVHKFNSWLDVEPQVAEKLLAHPTQPSLACAENFVKAIELNQNGAIWKLDLGTLEAIQWTKHWDSGI SFTLTNKNVIFVAGLGGIGLDTSKELLKRDLKNLVILDRIENPAAIAELKAINPKVTVTFYPYDVTVPIAETTKLLKTIFAQLKTVDVLINGAGILDDHQIERTIAVNYTGLVNTTTAILDFWDKRKGGPGGIICNIGSVTGFNAIYQVPVYSGTKAAVVNFTSSLAKLAPITGVTAYTVNPGITRTTLVHKFNSWLDVEPQVAEKLLAHPTQPSLACAENFVKAIELNQNGAIWKLDLGTLEAIQWTKHWDSGI 1mhc-a3-m1-cD_1mhc-a3-m2-cA MODEL OF MHC CLASS I H2-M3 WITH NONAPEPTIDE FROM RAT ND1 REFINED AT 2.3 ANGSTROMS RESOLUTION Q31093 Q31093 2.1 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 276 276 GSHSLRYFHTAVSRPGRGEPQYISVGYVDDVQFQRCDSIEEIPRMEPRAPWMEKERPEYWKELKLKVKNIAQSARANLRTLLRYYNQSEGGSHILQWMVSCEVGPDMRLLGAHYQAAYDGSDYITLNEDLSSWTAVDMVSQITKSRLESAGTAEYFRAYVEGECLELLHRFLRNGKEILQRADPPKAHVAHHPRPKGDVTLRCWALGFYPADITLTWQKDEEDLTQDMELVETRPSGDGTFQKWAAVVVPSGEEQRYTCYVHHEGLTEPLALKWRS GSHSLRYFHTAVSRPGRGEPQYISVGYVDDVQFQRCDSIEEIPRMEPRAPWMEKERPEYWKELKLKVKNIAQSARANLRTLLRYYNQSEGGSHILQWMVSCEVGPDMRLLGAHYQAAYDGSDYITLNEDLSSWTAVDMVSQITKSRLESAGTAEYFRAYVEGECLELLHRFLRNGKEILQRADPPKAHVAHHPRPKGDVTLRCWALGFYPADITLTWQKDEEDLTQDMELVETRPSGDGTFQKWAAVVVPSGEEQRYTCYVHHEGLTEPLALKWRS 1mi1-a1-m1-cB_1mi1-a1-m1-cA Crystal Structure of the PH-BEACH Domain of Human Neurobeachin Q8NFP9 Q8NFP9 2.9 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 392 406 GPVVLSTPAQLIAPVVVAKGTLSITTTEIYFEVDEDDSAFKKIDTKVLAYTEGLHGKWFSEIRAVFSRRYLLQNTALEVFANRTSVFNFPDQATVKKVVYSLPRVGVGTSYGLPQARRISLATPRQLYKSSNTQRWQRREISNFEYLFLNTIAGRTYNDLNQYPVFPWVLTNYESEELDLTLPGNFRDLSKPIGALNPKRAVFYAERYETWEDDQSPPYHYNTHYSTATSTLSWLVRIEPFTTFFLNANDGKFDHPDRTFSSVARSWRTSQRDTSDVKELIPEFYYLPEFVNSNDVDLPPWAKKPEDFVRINRALESEFVSCQLHQWIDLIFGYKQRGPEAVRALNVFHYLTYEGSVNLDSITDPVLREAEAQIQNFGQTPSQLLIEPHPPR GPVVLSTPAQLIAPVVVAKGTLSITTTEIYFEVDEDDSAFKKIDTKVLAYTEGLHGKWFSEIRAVFSRRYLLQNTALEVFANRTSVFNFPDQATVKKVVYSLPRVGVGTSYGLPQARRISLATPRQLYKSSNTQRWQRREISNFEYLFLNTIAGRTYNDLNQYPVFPWVLTNYESEELDLTLPGNFRDLSKPIGALNPKRAVFYAERYETWEDDQSPPYHYNTHYSTATSTLSWLVRIEPFTTFFLNANDGKFDHPDRTFSSVARSWRTSQRDTSDVKELIPEFYYLPEFVNSNGYNLGVREDEVVVNDVDLPPWAKKPEDFVRINRALESEFVSCQLHQWIDLIFGYKQRGPEAVRALNVFHYLTYEGSVNLDSITDPVLREAEAQIQNFGQTPSQLLIEPHPPR 1mi2-a1-m1-cA_1mi2-a1-m1-cB SOLUTION STRUCTURE OF MURINE MACROPHAGE INFLAMMATORY PROTEIN-2, NMR, 20 STRUCTURES P10889 P10889 NOT SOLUTION NMR 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 73 73 AVVASELRCQCLKTLPRVDFKNIQSLSVTPPGPHCAQTEVIATLKGGQKVCLDPEAPLVQKIIQKILNKGKAN AVVASELRCQCLKTLPRVDFKNIQSLSVTPPGPHCAQTEVIATLKGGQKVCLDPEAPLVQKIIQKILNKGKAN 1mi3-a3-m1-cA_1mi3-a3-m1-cB 1.8 Angstrom structure of xylose reductase from Candida tenuis in complex with NAD O74237 O74237 1.8 X-RAY DIFFRACTION 88 1.0 319 319 1jez-a1-m1-cB_1jez-a1-m1-cA 1k8c-a1-m1-cA_1k8c-a1-m1-cB 1k8c-a2-m1-cC_1k8c-a2-m1-cD 1k8c-a3-m1-cA_1k8c-a3-m1-cB 1k8c-a3-m2-cC_1k8c-a3-m2-cD 1mi3-a1-m1-cA_1mi3-a1-m1-cB 1mi3-a2-m1-cC_1mi3-a2-m1-cD 1mi3-a3-m2-cC_1mi3-a3-m2-cD 1r38-a1-m1-cA_1r38-a1-m1-cB 1r38-a2-m1-cC_1r38-a2-m1-cD 1r38-a3-m1-cA_1r38-a3-m1-cB 1r38-a3-m2-cC_1r38-a3-m2-cD 1sm9-a1-m1-cA_1sm9-a1-m1-cB 1sm9-a2-m1-cC_1sm9-a2-m1-cD 1sm9-a3-m1-cA_1sm9-a3-m1-cB 1sm9-a3-m2-cA_1sm9-a3-m2-cB 1sm9-a3-m3-cC_1sm9-a3-m3-cD 1sm9-a3-m4-cC_1sm9-a3-m4-cD 1sm9-a4-m1-cA_1sm9-a4-m1-cB 1sm9-a4-m4-cC_1sm9-a4-m4-cD 1sm9-a5-m1-cA_1sm9-a5-m1-cB 1sm9-a5-m2-cA_1sm9-a5-m2-cB 1sm9-a6-m1-cC_1sm9-a6-m1-cD 1sm9-a6-m2-cC_1sm9-a6-m2-cD 1ye4-a1-m1-cA_1ye4-a1-m1-cB 1ye4-a2-m1-cC_1ye4-a2-m1-cD 1ye4-a3-m1-cA_1ye4-a3-m1-cB 1ye4-a3-m2-cC_1ye4-a3-m2-cD 1ye4-a4-m1-cA_1ye4-a4-m1-cB 1ye4-a4-m3-cC_1ye4-a4-m3-cD 1ye6-a1-m1-cA_1ye6-a1-m1-cB 1ye6-a2-m1-cC_1ye6-a2-m1-cD 1ye6-a3-m1-cA_1ye6-a3-m1-cB 1ye6-a3-m2-cA_1ye6-a3-m2-cB 1ye6-a3-m3-cC_1ye6-a3-m3-cD 1ye6-a3-m4-cC_1ye6-a3-m4-cD 1ye6-a4-m1-cA_1ye6-a4-m1-cB 1ye6-a4-m4-cC_1ye6-a4-m4-cD 1ye6-a5-m1-cA_1ye6-a5-m1-cB 1ye6-a5-m5-cC_1ye6-a5-m5-cD 1z9a-a1-m1-cA_1z9a-a1-m1-cB 1z9a-a2-m1-cC_1z9a-a2-m1-cD 1z9a-a3-m1-cA_1z9a-a3-m1-cB 1z9a-a3-m2-cC_1z9a-a3-m2-cD SIPDIKLSSGHLMPSIGFGCWKLANATAGEQVYQAIKAGYRLFDGAEDYGNEKEVGDGVKRAIDEGLVKREEIFLTSKLWNNYHDPKNVETALNKTLADLKVDYVDLFLIHFPIAFKFVPIEEKYPPGFYCGDGNNFVYEDVPILETWKALEKLVAAGKIKSIGVSNFPGALLLDLLRGATIKPAVLQVEHHPYLQQPKLIEFAQKAGVTITAYSSFGPQSFVEMNQGRALNTPTLFAHDTIKAIAAKYNKTPAEVLLRWAAQRGIAVIPKSNLPERLVQNRSFNTFDLTKEDFEEIAKLDIGLRFNDPWDWDNIPIFV SIPDIKLSSGHLMPSIGFGCWKLANATAGEQVYQAIKAGYRLFDGAEDYGNEKEVGDGVKRAIDEGLVKREEIFLTSKLWNNYHDPKNVETALNKTLADLKVDYVDLFLIHFPIAFKFVPIEEKYPPGFYCGDGNNFVYEDVPILETWKALEKLVAAGKIKSIGVSNFPGALLLDLLRGATIKPAVLQVEHHPYLQQPKLIEFAQKAGVTITAYSSFGPQSFVEMNQGRALNTPTLFAHDTIKAIAAKYNKTPAEVLLRWAAQRGIAVIPKSNLPERLVQNRSFNTFDLTKEDFEEIAKLDIGLRFNDPWDWDNIPIFV 1mi8-a1-m1-cA_1mi8-a1-m2-cA 2.0 Angstrom crystal structure of a DnaB intein from Synechocystis sp. PCC 6803 Q55418 Q55418 2 X-RAY DIFFRACTION 48 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 141 141 SGAISGDSLISLASTGKRVSIKDLLDEKDFEIWAINEQTMKLESAKVSRVFMTGKKLVYILKTRLGRTIKATANHRFLTIDGWKRLDELSLKEHIALPRKSDISWDSIVSITETGVEEVFDLTVPGPHNFVANDIIVHASI SGAISGDSLISLASTGKRVSIKDLLDEKDFEIWAINEQTMKLESAKVSRVFMTGKKLVYILKTRLGRTIKATANHRFLTIDGWKRLDELSLKEHIALPRKSDISWDSIVSITETGVEEVFDLTVPGPHNFVANDIIVHASI 1mic-a1-m1-cA_1mic-a1-m1-cB GRAMICIDIN A: LEFT-HANDED PARALLEL DOUBLE HELICAL FORM IN METHANOL IN THE PRESENCE OF CACL2, NMR, 20 STRUCTURES NOT SOLUTION NMR 18 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 1miu-a2-m1-cA_1miu-a2-m4-cA Structure of a BRCA2-DSS1 complex P97929 P97929 3.1 X-RAY DIFFRACTION 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 671 671 1miu-a2-m2-cA_1miu-a2-m3-cA KDLMSSLQSARDLQDMRIKNKERRHLRLQPGSLYLTKSSTLPRISLQAAVGDRAPSACSPKQLYIYGVSKECINVNSKNAEYFQFDIQDHFGKEDLCAGKGFQLADGGWLIPSNDGKAGKEEFYRALCDTPGVDPKLISSIWVANHYRWIVWKLAAMEFAFPKEFANRCLNPERVLLQLKYRYDVEIDNSRRSALKKILERDDTAAKTLVLCISDIVDTIELTDGWYAVRAQLDPPLMALVKSGKLTVGQKIITQGAELVGSPDACAPLEAPDSLRLKISANSTRPARWHSRLGFFRDPRPFPLPLSSLFSDGGNVGCVDIIVQRVYPLQWVEKTVSGLYIFRSEREEEKEALRFAEAQQKKLEALFTKVHTEFKSRTLTRQQVHALQDGAELYAAVQYASDPDHLEACFSEEQLRALNNYRQMLNDKKQARIQSEFRKALESAEKEEGLSRDVTTVWKLRVTSYKKKEKSALLSIWRPSSDLSSLLTEGKRYRIYHLAVSKSKSKFERPSIQLTATKRTQYQQLPVSSETLLQVYQPRESLHFSRLSDPAFQPPCSEVDVVGVVVSVVKPIGLAPLVYLSDECLNLLVVKFGIDLNEDIKPRVLIAASNLQCQPESTSGVPTLFAGHFSIFSASPKEAYFQEKVNNLKHAIENIDTFYKEAEKKLIHVLE KDLMSSLQSARDLQDMRIKNKERRHLRLQPGSLYLTKSSTLPRISLQAAVGDRAPSACSPKQLYIYGVSKECINVNSKNAEYFQFDIQDHFGKEDLCAGKGFQLADGGWLIPSNDGKAGKEEFYRALCDTPGVDPKLISSIWVANHYRWIVWKLAAMEFAFPKEFANRCLNPERVLLQLKYRYDVEIDNSRRSALKKILERDDTAAKTLVLCISDIVDTIELTDGWYAVRAQLDPPLMALVKSGKLTVGQKIITQGAELVGSPDACAPLEAPDSLRLKISANSTRPARWHSRLGFFRDPRPFPLPLSSLFSDGGNVGCVDIIVQRVYPLQWVEKTVSGLYIFRSEREEEKEALRFAEAQQKKLEALFTKVHTEFKSRTLTRQQVHALQDGAELYAAVQYASDPDHLEACFSEEQLRALNNYRQMLNDKKQARIQSEFRKALESAEKEEGLSRDVTTVWKLRVTSYKKKEKSALLSIWRPSSDLSSLLTEGKRYRIYHLAVSKSKSKFERPSIQLTATKRTQYQQLPVSSETLLQVYQPRESLHFSRLSDPAFQPPCSEVDVVGVVVSVVKPIGLAPLVYLSDECLNLLVVKFGIDLNEDIKPRVLIAASNLQCQPESTSGVPTLFAGHFSIFSASPKEAYFQEKVNNLKHAIENIDTFYKEAEKKLIHVLE 1miu-a2-m2-cA_1miu-a2-m4-cA Structure of a BRCA2-DSS1 complex P97929 P97929 3.1 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 671 671 1miu-a2-m1-cA_1miu-a2-m3-cA KDLMSSLQSARDLQDMRIKNKERRHLRLQPGSLYLTKSSTLPRISLQAAVGDRAPSACSPKQLYIYGVSKECINVNSKNAEYFQFDIQDHFGKEDLCAGKGFQLADGGWLIPSNDGKAGKEEFYRALCDTPGVDPKLISSIWVANHYRWIVWKLAAMEFAFPKEFANRCLNPERVLLQLKYRYDVEIDNSRRSALKKILERDDTAAKTLVLCISDIVDTIELTDGWYAVRAQLDPPLMALVKSGKLTVGQKIITQGAELVGSPDACAPLEAPDSLRLKISANSTRPARWHSRLGFFRDPRPFPLPLSSLFSDGGNVGCVDIIVQRVYPLQWVEKTVSGLYIFRSEREEEKEALRFAEAQQKKLEALFTKVHTEFKSRTLTRQQVHALQDGAELYAAVQYASDPDHLEACFSEEQLRALNNYRQMLNDKKQARIQSEFRKALESAEKEEGLSRDVTTVWKLRVTSYKKKEKSALLSIWRPSSDLSSLLTEGKRYRIYHLAVSKSKSKFERPSIQLTATKRTQYQQLPVSSETLLQVYQPRESLHFSRLSDPAFQPPCSEVDVVGVVVSVVKPIGLAPLVYLSDECLNLLVVKFGIDLNEDIKPRVLIAASNLQCQPESTSGVPTLFAGHFSIFSASPKEAYFQEKVNNLKHAIENIDTFYKEAEKKLIHVLE KDLMSSLQSARDLQDMRIKNKERRHLRLQPGSLYLTKSSTLPRISLQAAVGDRAPSACSPKQLYIYGVSKECINVNSKNAEYFQFDIQDHFGKEDLCAGKGFQLADGGWLIPSNDGKAGKEEFYRALCDTPGVDPKLISSIWVANHYRWIVWKLAAMEFAFPKEFANRCLNPERVLLQLKYRYDVEIDNSRRSALKKILERDDTAAKTLVLCISDIVDTIELTDGWYAVRAQLDPPLMALVKSGKLTVGQKIITQGAELVGSPDACAPLEAPDSLRLKISANSTRPARWHSRLGFFRDPRPFPLPLSSLFSDGGNVGCVDIIVQRVYPLQWVEKTVSGLYIFRSEREEEKEALRFAEAQQKKLEALFTKVHTEFKSRTLTRQQVHALQDGAELYAAVQYASDPDHLEACFSEEQLRALNNYRQMLNDKKQARIQSEFRKALESAEKEEGLSRDVTTVWKLRVTSYKKKEKSALLSIWRPSSDLSSLLTEGKRYRIYHLAVSKSKSKFERPSIQLTATKRTQYQQLPVSSETLLQVYQPRESLHFSRLSDPAFQPPCSEVDVVGVVVSVVKPIGLAPLVYLSDECLNLLVVKFGIDLNEDIKPRVLIAASNLQCQPESTSGVPTLFAGHFSIFSASPKEAYFQEKVNNLKHAIENIDTFYKEAEKKLIHVLE 1miu-a2-m3-cA_1miu-a2-m4-cA Structure of a BRCA2-DSS1 complex P97929 P97929 3.1 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 671 671 1miu-a2-m1-cA_1miu-a2-m2-cA KDLMSSLQSARDLQDMRIKNKERRHLRLQPGSLYLTKSSTLPRISLQAAVGDRAPSACSPKQLYIYGVSKECINVNSKNAEYFQFDIQDHFGKEDLCAGKGFQLADGGWLIPSNDGKAGKEEFYRALCDTPGVDPKLISSIWVANHYRWIVWKLAAMEFAFPKEFANRCLNPERVLLQLKYRYDVEIDNSRRSALKKILERDDTAAKTLVLCISDIVDTIELTDGWYAVRAQLDPPLMALVKSGKLTVGQKIITQGAELVGSPDACAPLEAPDSLRLKISANSTRPARWHSRLGFFRDPRPFPLPLSSLFSDGGNVGCVDIIVQRVYPLQWVEKTVSGLYIFRSEREEEKEALRFAEAQQKKLEALFTKVHTEFKSRTLTRQQVHALQDGAELYAAVQYASDPDHLEACFSEEQLRALNNYRQMLNDKKQARIQSEFRKALESAEKEEGLSRDVTTVWKLRVTSYKKKEKSALLSIWRPSSDLSSLLTEGKRYRIYHLAVSKSKSKFERPSIQLTATKRTQYQQLPVSSETLLQVYQPRESLHFSRLSDPAFQPPCSEVDVVGVVVSVVKPIGLAPLVYLSDECLNLLVVKFGIDLNEDIKPRVLIAASNLQCQPESTSGVPTLFAGHFSIFSASPKEAYFQEKVNNLKHAIENIDTFYKEAEKKLIHVLE KDLMSSLQSARDLQDMRIKNKERRHLRLQPGSLYLTKSSTLPRISLQAAVGDRAPSACSPKQLYIYGVSKECINVNSKNAEYFQFDIQDHFGKEDLCAGKGFQLADGGWLIPSNDGKAGKEEFYRALCDTPGVDPKLISSIWVANHYRWIVWKLAAMEFAFPKEFANRCLNPERVLLQLKYRYDVEIDNSRRSALKKILERDDTAAKTLVLCISDIVDTIELTDGWYAVRAQLDPPLMALVKSGKLTVGQKIITQGAELVGSPDACAPLEAPDSLRLKISANSTRPARWHSRLGFFRDPRPFPLPLSSLFSDGGNVGCVDIIVQRVYPLQWVEKTVSGLYIFRSEREEEKEALRFAEAQQKKLEALFTKVHTEFKSRTLTRQQVHALQDGAELYAAVQYASDPDHLEACFSEEQLRALNNYRQMLNDKKQARIQSEFRKALESAEKEEGLSRDVTTVWKLRVTSYKKKEKSALLSIWRPSSDLSSLLTEGKRYRIYHLAVSKSKSKFERPSIQLTATKRTQYQQLPVSSETLLQVYQPRESLHFSRLSDPAFQPPCSEVDVVGVVVSVVKPIGLAPLVYLSDECLNLLVVKFGIDLNEDIKPRVLIAASNLQCQPESTSGVPTLFAGHFSIFSASPKEAYFQEKVNNLKHAIENIDTFYKEAEKKLIHVLE 1miw-a1-m1-cA_1miw-a1-m1-cB Crystal structure of Bacillus stearothermophilus CCA-adding enzyme in complex with ATP Q7SIB1 Q7SIB1 3 X-RAY DIFFRACTION 31 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 385 385 1miv-a1-m1-cA_1miv-a1-m1-cB 1miy-a1-m1-cA_1miy-a1-m1-cB KPPFQEALGIIQQLKQHGYDAYFVGGAVRDLLLGRPIGDVDIATSALPEDVAIFPKTIDVGSKHGTVVVVHKGKAYEVTTFKTDGSVTFVRSLEEDLKRRDFTNAIADEYGTIIDPFGGREAIRRRIIRTVGEAEKRFREDALRRAVRFVSELGFALAPDTEQAIVQNAPLLAHISVERTEEKLLGGPFAARALPLLAETGLNAYLPGLAGKEKQLRLAAAYRWPWLAAREERWALLCHALGVQESRPFLRAWKLPNKVVDEAGAILTALADIPRPEAWTNEQLFSAGLERALSVETVRAAFTGAPPGPWHEKLRRRFASLPIKTKGELAVNGKDVIEWVGKPAGPWVKEALDAIWRAVVNGEVENEKERIYAWLERNRTREKNC KPPFQEALGIIQQLKQHGYDAYFVGGAVRDLLLGRPIGDVDIATSALPEDVAIFPKTIDVGSKHGTVVVVHKGKAYEVTTFKTDGSVTFVRSLEEDLKRRDFTNAIADEYGTIIDPFGGREAIRRRIIRTVGEAEKRFREDALRRAVRFVSELGFALAPDTEQAIVQNAPLLAHISVERTEEKLLGGPFAARALPLLAETGLNAYLPGLAGKEKQLRLAAAYRWPWLAAREERWALLCHALGVQESRPFLRAWKLPNKVVDEAGAILTALADIPRPEAWTNEQLFSAGLERALSVETVRAAFTGAPPGPWHEKLRRRFASLPIKTKGELAVNGKDVIEWVGKPAGPWVKEALDAIWRAVVNGEVENEKERIYAWLERNRTREKNC 1mjf-a1-m1-cB_1mjf-a1-m1-cA PUTATIVE SPERMIDINE SYNTHETASE FROM PYROCOCCUS FURIOSUS PFU-132382 Q8U4G1 Q8U4G1 1.798 X-RAY DIFFRACTION 119 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 269 271 AFIEWYPRGYGVAFKIKKKIYEKLSKYQKIEVYETEGFGRLLALDGTVQLVTLGERSYHEPLVHPAMLAHPKPKRVLVIGGGDGGTVREVLQHDVDEVIMVEIDEDVIMVSKDLIKIDNGLLEAMLNGKHEKAKLTIGDGFEFNNRGFDVIIADSTDPVLFSEEFYRYVYDALNNPGIYVTQAGSVYLFTDELISAYKEMKKVFDRVYYYSFPVIGYASPWAFLVGVKGDIDFTKIDRERAKKLQLEYYDPLMHETLFQMPKYIRETLQ AFIEWYPRGYGVAFKIKKKIYEKLSKYQKIEVYETEGFGRLLALDGTVQLVTLGERSYHEPLVHPAMLAHPKPKRVLVIGGGDGGTVREVLQHDVDEVIMVEIDEDVIMVSKDLIKIDNGLLEAMLNGKHEKAKLTIGDGFEFIKNNRGFDVIIADSTDPVLFSEEFYRYVYDALNNPGIYVTQAGSVYLFTDELISAYKEMKKVFDRVYYYSFPVIGYASPWAFLVGVKGDIDFTKIDRERAKKLQLEYYDPLMHETLFQMPKYIRETLQ 1mjh-a1-m1-cA_1mjh-a1-m1-cB Structure-based assignment of the biochemical function of hypothetical protein MJ0577: A test case of structural genomics Q57997 Q57997 1.7 X-RAY DIFFRACTION 58 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 143 144 VMYKKILYPTDFSETAEIALKHVKAFKTLKAEEVILLHVIDEREIKVEEFENELKNKLTEEAKNKMENIKKELEDVGFKVKDIIVVGIPHEEIVKIAEDEGVDIIIMGSHGKTNLKEILLGSVTENVIKKSNKPVLVVKRKNS VMYKKILYPTDFSETAEIALKHVKAFKTLKAEEVILLHVIDEREIKSVEEFENELKNKLTEEAKNKMENIKKELEDVGFKVKDIIVVGIPHEEIVKIAEDEGVDIIIMGSHGKTNLKEILLGSVTENVIKKSNKPVLVVKRKNS 1mji-a1-m1-cB_1mji-a1-m1-cA DETAILED ANALYSIS OF RNA-PROTEIN INTERACTIONS WITHIN THE BACTERIAL RIBOSOMAL PROTEIN L5/5S RRNA COMPLEX P41201 P41201 2.5 X-RAY DIFFRACTION 14 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 177 178 DVALKRKYYEEVRPELIRRFGYQNVWEVPRLEKVVINQGLGEAKEDARILEKAAQELALITGQKPAVTRAKKSISNFKLRKGMPIGLRVTLRRDRWIFLEKLLNVALPRIRDFRGLNPNSFDGRGNYNLGLREQLIFPEITYDMVDALRGDIAVVTTAETDEEARALLELLGFPFRK LDVALKRKYYEEVRPELIRRFGYQNVWEVPRLEKVVINQGLGEAKEDARILEKAAQELALITGQKPAVTRAKKSISNFKLRKGMPIGLRVTLRRDRWIFLEKLLNVALPRIRDFRGLNPNSFDGRGNYNLGLREQLIFPEITYDMVDALRGDIAVVTTAETDEEARALLELLGFPFRK 1mjt-a1-m1-cA_1mjt-a1-m1-cB CRYSTAL STRUCTURE OF SANOS, A BACTERIAL NITRIC OXIDE SYNTHASE OXYGENASE PROTEIN, IN COMPLEX WITH NAD+ AND SEITU P0A004 P0A004 2.4 X-RAY DIFFRACTION 79 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 346 347 HLFKEAQAFIENMYKECHYETQIINKRLHDIELEIKETGTYTHTEEELIYGAKMAWRNSNRCIGRLFWDSLNVIDARDVTDEASFLSSITYHITQATNEGKLKPYITIYAPKDGPKIFNNQLIRYAGYDNCGDPAEKEVTRLANHLGWKGKGTNFDVLPLIYQLPNESVKFYEYPTSLIKEVPIEHNHYPKLRKLNLKWYAVPIISNMDLKIGGIVYPTAPFNGWYMVTEIGVRNFIDDYRYNLLEKVADAFEFDTLKNNSFNKDRALVELNYAVYHSFKKEGVSIVDHLTAAKQFELFERNEAQQGRQVTGKWSWLAPPLSPTLTSNYHHGYDNTVKDPNFFYKK HHLFKEAQAFIENMYKECHYETQIINKRLHDIELEIKETGTYTHTEEELIYGAKMAWRNSNRCIGRLFWDSLNVIDARDVTDEASFLSSITYHITQATNEGKLKPYITIYAPKDGPKIFNNQLIRYAGYDNCGDPAEKEVTRLANHLGWKGKGTNFDVLPLIYQLPNESVKFYEYPTSLIKEVPIEHNHYPKLRKLNLKWYAVPIISNMDLKIGGIVYPTAPFNGWYMVTEIGVRNFIDDYRYNLLEKVADAFEFDTLKNNSFNKDRALVELNYAVYHSFKKEGVSIVDHLTAAKQFELFERNEAQQGRQVTGKWSWLAPPLSPTLTSNYHHGYDNTVKDPNFFYKK 1mk1-a1-m1-cA_1mk1-a1-m2-cA Structure of the MT-ADPRase in complex with ADPR, a Nudix enzyme O33199 O33199 2 X-RAY DIFFRACTION 197 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 187 187 1mp2-a1-m1-cA_1mp2-a1-m2-cA 1mqe-a1-m1-cA_1mqe-a1-m2-cA 1mqw-a1-m1-cA_1mqw-a1-m2-cA 1mr2-a1-m1-cA_1mr2-a1-m2-cA 5i8u-a1-m1-cG_5i8u-a1-m2-cG 5i8u-a2-m1-cA_5i8u-a2-m1-cB 5i8u-a3-m1-cD_5i8u-a3-m1-cC 5i8u-a4-m1-cE_5i8u-a4-m1-cF FETISSETLHTGAIFALRRDQVRIVTREVVEHFGAVAIVAMDDNGNIPMVYQYRHTYGRRLWELPAGLLDVAGEPPHLTAARELREEVGLQASTWQVLVDLDTAPGFSDESVRVYLATGLREVGRTMGWYPIAEAARRVLRGEIVNSIAIAGVLAVHAVTTGFAQPRPLDTEWIDRPTAFAARRAER FETISSETLHTGAIFALRRDQVRIVTREVVEHFGAVAIVAMDDNGNIPMVYQYRHTYGRRLWELPAGLLDVAGEPPHLTAARELREEVGLQASTWQVLVDLDTAPGFSDESVRVYLATGLREVGRTMGWYPIAEAARRVLRGEIVNSIAIAGVLAVHAVTTGFAQPRPLDTEWIDRPTAFAARRAER 1mk4-a1-m1-cA_1mk4-a1-m1-cB Structure of Protein of Unknown Function YqjY from Bacillus subtilis, Probable Acetyltransferase P54562 P54562 1.7 X-RAY DIFFRACTION 65 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 157 157 HMDIRTITSSDYEMVTSVLNEWWGGRQLKEKLPRLFFEHFQDTSFITSEHNSMTGFLIGFQSQSDPETAYIHFSGVHPDFRKMQIGKQLYDVFIETVKQRGCTRVKCVTSPVNKVSIAYHTKLGFDIEKGTKTVNGISVFANYDGPGQDRVLFVKNI HMDIRTITSSDYEMVTSVLNEWWGGRQLKEKLPRLFFEHFQDTSFITSEHNSMTGFLIGFQSQSDPETAYIHFSGVHPDFRKMQIGKQLYDVFIETVKQRGCTRVKCVTSPVNKVSIAYHTKLGFDIEKGTKTVNGISVFANYDGPGQDRVLFVKNI 1mkb-a1-m1-cA_1mkb-a1-m1-cB ESCHERICHIA COLI BETA-HYDROXYDECANOYL THIOL ESTER DEHYDRASE AT PH 5 AND 21 DEGREES C P0A6Q3 P0A6Q3 2 X-RAY DIFFRACTION 112 1.0 562 (Escherichia coli) 562 (Escherichia coli) 171 171 1mka-a1-m1-cA_1mka-a1-m1-cB 4keh-a1-m1-cB_4keh-a1-m1-cA VDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAF VDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAF 1mkf-a2-m1-cA_1mkf-a2-m2-cB VIRAL CHEMOKINE BINDING PROTEIN M3 FROM MURINE GAMMAHERPESVIRUS 68 O41925 O41925 2.1 X-RAY DIFFRACTION 31 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 371 371 1mkf-a2-m1-cB_1mkf-a2-m2-cA HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH 1mkf-a2-m1-cB_1mkf-a2-m2-cB VIRAL CHEMOKINE BINDING PROTEIN M3 FROM MURINE GAMMAHERPESVIRUS 68 O41925 O41925 2.1 X-RAY DIFFRACTION 25 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 371 371 HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH 1mkh-a1-m1-cA_1mkh-a1-m2-cA C-terminal domain of methionyl-tRNA synthetase from Pyrococcus abyssi Q9V011 Q9V011 2.01 X-RAY DIFFRACTION 128 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 106 106 MYVKFDDFAKLDLRVGKIIEVKDHPNADKLYVVKVDLGDEVRTLVAGLKKYYKPEELLNRYVVVVANLEPKKLGIGSQGMLLAADDGERVALLMPDKEVKLGAKVR MYVKFDDFAKLDLRVGKIIEVKDHPNADKLYVVKVDLGDEVRTLVAGLKKYYKPEELLNRYVVVVANLEPKKLGIGSQGMLLAADDGERVALLMPDKEVKLGAKVR 1mkm-a1-m1-cA_1mkm-a1-m2-cA CRYSTAL STRUCTURE OF THE THERMOTOGA MARITIMA ICLR Q9WXS0 Q9WXS0 2.2 X-RAY DIFFRACTION 24 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 246 246 MNTLKKAFEILDFIVKNPGDVSVSEIAEKFNMSVSNAYKYMVVLEEKGFVLRKKDKRYVPGYKLIEYGSFVLRRFNIRDIAHDHLVDIMKRTGETVHLILKDGFEGVYIDKVEGEQSIPMVSRLGMKVDLYSTASGKSILAFVPEKELKEYLKIVELKPKTPNTITNPRVLKRELEKIRKRGYAVDNEENEIGIMCVGVPIFDHNGYPVAGVSISGVARKFTEEKIEEYSDVLKEKAEEISRKLGY MNTLKKAFEILDFIVKNPGDVSVSEIAEKFNMSVSNAYKYMVVLEEKGFVLRKKDKRYVPGYKLIEYGSFVLRRFNIRDIAHDHLVDIMKRTGETVHLILKDGFEGVYIDKVEGEQSIPMVSRLGMKVDLYSTASGKSILAFVPEKELKEYLKIVELKPKTPNTITNPRVLKRELEKIRKRGYAVDNEENEIGIMCVGVPIFDHNGYPVAGVSISGVARKFTEEKIEEYSDVLKEKAEEISRKLGY 1mkm-a1-m1-cA_1mkm-a1-m2-cB CRYSTAL STRUCTURE OF THE THERMOTOGA MARITIMA ICLR Q9WXS0 Q9WXS0 2.2 X-RAY DIFFRACTION 46 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 246 247 1mkm-a1-m2-cA_1mkm-a1-m1-cB MNTLKKAFEILDFIVKNPGDVSVSEIAEKFNMSVSNAYKYMVVLEEKGFVLRKKDKRYVPGYKLIEYGSFVLRRFNIRDIAHDHLVDIMKRTGETVHLILKDGFEGVYIDKVEGEQSIPMVSRLGMKVDLYSTASGKSILAFVPEKELKEYLKIVELKPKTPNTITNPRVLKRELEKIRKRGYAVDNEENEIGIMCVGVPIFDHNGYPVAGVSISGVARKFTEEKIEEYSDVLKEKAEEISRKLGY HMNTLKKAFEILDFIVKNPGDVSVSEIAEKFNMSVSNAYKYMVVLEEKGFVLRKKDKRYVPGYKLIEYGSFVLRRFNIRDIAHDHLVDIMKRTGETVHLILKDGFEGVYIDKVEGEQSIPMVSRLGMKVDLYSTASGKSILAFVPEKELKEYLKIVELKPKTPNTITNPRVLKRELEKIRKRGYAVDNEENEIGIMCVGVPIFDHNGYPVAGVSISGVARKFTEEKIEEYSDVLKEKAEEISRKLGY 1mkm-a1-m2-cA_1mkm-a1-m2-cB CRYSTAL STRUCTURE OF THE THERMOTOGA MARITIMA ICLR Q9WXS0 Q9WXS0 2.2 X-RAY DIFFRACTION 113 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 246 247 1mkm-a1-m1-cA_1mkm-a1-m1-cB MNTLKKAFEILDFIVKNPGDVSVSEIAEKFNMSVSNAYKYMVVLEEKGFVLRKKDKRYVPGYKLIEYGSFVLRRFNIRDIAHDHLVDIMKRTGETVHLILKDGFEGVYIDKVEGEQSIPMVSRLGMKVDLYSTASGKSILAFVPEKELKEYLKIVELKPKTPNTITNPRVLKRELEKIRKRGYAVDNEENEIGIMCVGVPIFDHNGYPVAGVSISGVARKFTEEKIEEYSDVLKEKAEEISRKLGY HMNTLKKAFEILDFIVKNPGDVSVSEIAEKFNMSVSNAYKYMVVLEEKGFVLRKKDKRYVPGYKLIEYGSFVLRRFNIRDIAHDHLVDIMKRTGETVHLILKDGFEGVYIDKVEGEQSIPMVSRLGMKVDLYSTASGKSILAFVPEKELKEYLKIVELKPKTPNTITNPRVLKRELEKIRKRGYAVDNEENEIGIMCVGVPIFDHNGYPVAGVSISGVARKFTEEKIEEYSDVLKEKAEEISRKLGY 1mkt-a1-m1-cA_1mkt-a1-m2-cA CARBOXYLIC ESTER HYDROLASE, 1.72 ANGSTROM TRIGONAL FORM OF THE BOVINE RECOMBINANT PLA2 ENZYME P00593 P00593 1.72 X-RAY DIFFRACTION 45 1.0 9913 (Bos taurus) 9913 (Bos taurus) 123 123 1bpq-a1-m1-cA_1bpq-a1-m2-cA 1ceh-a1-m1-cA_1ceh-a1-m2-cA 1fdk-a1-m1-cA_1fdk-a1-m2-cA 1irb-a1-m1-cA_1irb-a1-m2-cA 1kvy-a1-m1-cA_1kvy-a1-m2-cA 1mkv-a1-m1-cA_1mkv-a1-m2-cA 2bpp-a1-m1-cA_2bpp-a1-m2-cA ALWQFNGMIKCKIPSSEPLLDFNNYGCYCGLGGSGTPVDDLDRCCQTHDNCYKQAKKLDSCKVLVDNPYTNNYSYSCSNNEITCSSENNACEAFICNCDRNAAICFSKVPYNKEHKNLDKKNC ALWQFNGMIKCKIPSSEPLLDFNNYGCYCGLGGSGTPVDDLDRCCQTHDNCYKQAKKLDSCKVLVDNPYTNNYSYSCSNNEITCSSENNACEAFICNCDRNAAICFSKVPYNKEHKNLDKKNC 1ml0-a2-m3-cA_1ml0-a2-m6-cA VIRAL CHEMOKINE BINDING PROTEIN M3 FROM MURINE GAMMAHERPESVIRUS68 IN COMPLEX WITH THE P8A VARIANT OF CC-CHEMOKINE MCP-1 O41925 O41925 2.8 X-RAY DIFFRACTION 14 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 371 371 1ml0-a2-m1-cA_1ml0-a2-m5-cA 1ml0-a2-m2-cA_1ml0-a2-m4-cA HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH 1ml1-a2-m1-cE_1ml1-a2-m1-cG PROTEIN ENGINEERING WITH MONOMERIC TRIOSEPHOSPHATE ISOMERASE: THE MODELLING AND STRUCTURE VERIFICATION OF A SEVEN RESIDUE LOOP P04789 P04789 2.6 X-RAY DIFFRACTION 33 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 241 241 SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ 1ml4-a3-m4-cA_1ml4-a3-m5-cA The PALA-liganded Aspartate transcarbamoylase catalytic subunit from Pyrococcus abyssi P77918 P77918 1.8 X-RAY DIFFRACTION 74 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 307 307 1ml4-a3-m1-cA_1ml4-a3-m4-cA 1ml4-a3-m1-cA_1ml4-a3-m5-cA DWKGRDVISIRDFSKEDIETVLATAERLERELKEKGQLEYAKGKILATLFFEPSTRTRLSFESAMHRLGGAVIGFAEASTSSVKKGESLRDTIKTVEQYCDVIVIRHPKEGAARLAAEVAEVPVINAGDGSNQHPTQTLLDLYTIKKEFGRIDGLKIGLLGDLKYGRTVHSLAEALTFYDVELYLISPELLRMPRHIVEELREKGMKVVETTTLEDVIGKLDVLYVTRIQKERFPDEQEYLKVKGSYQVNLKVLEKAKDELRIMHPLPRVDEIHPEVDNTKHAIYFRQVFNGVPVRMALLALVLGVI DWKGRDVISIRDFSKEDIETVLATAERLERELKEKGQLEYAKGKILATLFFEPSTRTRLSFESAMHRLGGAVIGFAEASTSSVKKGESLRDTIKTVEQYCDVIVIRHPKEGAARLAAEVAEVPVINAGDGSNQHPTQTLLDLYTIKKEFGRIDGLKIGLLGDLKYGRTVHSLAEALTFYDVELYLISPELLRMPRHIVEELREKGMKVVETTTLEDVIGKLDVLYVTRIQKERFPDEQEYLKVKGSYQVNLKVLEKAKDELRIMHPLPRVDEIHPEVDNTKHAIYFRQVFNGVPVRMALLALVLGVI 1ml8-a1-m1-cA_1ml8-a1-m2-cA structural genomics P0ADX1 P0ADX1 2.6 X-RAY DIFFRACTION 215 1.0 562 (Escherichia coli) 562 (Escherichia coli) 131 131 MQARVKWVEGLTFLGESASGHQILMDGNSGDKAPSPMEMVLMAAGGCSAIDVVSILQKGRQDVVDCEVKLTSERRERLFTHINLHFIVTGRDLKDAAVARAVDLSAEKYCSVALMLEKAVNITHSYEVVAA MQARVKWVEGLTFLGESASGHQILMDGNSGDKAPSPMEMVLMAAGGCSAIDVVSILQKGRQDVVDCEVKLTSERRERLFTHINLHFIVTGRDLKDAAVARAVDLSAEKYCSVALMLEKAVNITHSYEVVAA 1mld-a3-m1-cC_1mld-a3-m1-cD REFINED STRUCTURE OF MITOCHONDRIAL MALATE DEHYDROGENASE FROM PORCINE HEART AND THE CONSENSUS STRUCTURE FOR DICARBOXYLIC ACID OXIDOREDUCTASES P00346 P00346 1.83 X-RAY DIFFRACTION 126 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 313 313 1mld-a1-m1-cA_1mld-a1-m1-cB 1mld-a2-m1-cC_1mld-a2-m1-cD 1mld-a3-m1-cA_1mld-a3-m1-cB 2dfd-a1-m1-cA_2dfd-a1-m1-cB 2dfd-a2-m1-cC_2dfd-a2-m1-cD 2dfd-a3-m1-cA_2dfd-a3-m1-cB 2dfd-a3-m1-cC_2dfd-a3-m1-cD 4wle-a1-m1-cA_4wle-a1-m1-cB 4wle-a1-m1-cC_4wle-a1-m1-cD 4wlf-a1-m1-cA_4wlf-a1-m1-cB 4wlf-a1-m1-cC_4wlf-a1-m1-cD 4wln-a1-m1-cA_4wln-a1-m1-cB 4wln-a1-m1-cC_4wln-a1-m1-cD 4wlo-a1-m1-cA_4wlo-a1-m1-cB 4wlo-a1-m1-cC_4wlo-a1-m1-cD 4wlu-a1-m1-cA_4wlu-a1-m1-cB 4wlu-a1-m1-cC_4wlu-a1-m1-cD 4wlv-a1-m1-cA_4wlv-a1-m1-cB 4wlv-a1-m1-cC_4wlv-a1-m1-cD AKVAVLGASGGIGQPLSLLLKNSPLVSRLTLYDIAHTPGVAADLSHIETRATVKGYLGPEQLPDCLKGCDVVVIPAGVPRKPGMTRDDLFNTNATIVATLTAACAQHCPDAMICIISNPVNSTIPITAEVFKKHGVYNPNKIFGVTTLDIVRANAFVAELKGLDPARVSVPVIGGHAGKTIIPLISQCTPKVDFPQDQLSTLTGRIQEAGTEVVKAKAGAGSATLSMAYAGARFVFSLVDAMNGKEGVVECSFVKSQETDCPYFSTPLLLGKKGIEKNLGIGKISPFEEKMIAEAIPELKASIKKGEEFVKNM AKVAVLGASGGIGQPLSLLLKNSPLVSRLTLYDIAHTPGVAADLSHIETRATVKGYLGPEQLPDCLKGCDVVVIPAGVPRKPGMTRDDLFNTNATIVATLTAACAQHCPDAMICIISNPVNSTIPITAEVFKKHGVYNPNKIFGVTTLDIVRANAFVAELKGLDPARVSVPVIGGHAGKTIIPLISQCTPKVDFPQDQLSTLTGRIQEAGTEVVKAKAGAGSATLSMAYAGARFVFSLVDAMNGKEGVVECSFVKSQETDCPYFSTPLLLGKKGIEKNLGIGKISPFEEKMIAEAIPELKASIKKGEEFVKNM 1mlv-a5-m1-cA_1mlv-a5-m2-cB Structure and Catalytic Mechanism of a SET Domain Protein Methyltransferase Q43088 Q43088 2.6 X-RAY DIFFRACTION 40 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 424 440 1mlv-a5-m2-cA_1mlv-a5-m1-cB LSPAVQTFWKWLQEEGVITAKTPVKASVVTEGLGLVALKDISRNDVILQVPKRLWINPDAVAASEIGRVCSELKPWLSVILFLIRERSREDSVWKHYFGILPQETDSTIYWSEEELQELQGSQLLKTTVSVKEYVKNECLKLEQEIILPNKRLFPDPVTLDDFFWAFGILRSRAFSRLNLVVVPMADLINHSAGVTTEDHAYEVYLFSLKSPLSVKAGEQVYIQYDLNKSNAELALDYGFIEPNENRHAYTLTLEISESDPFFDDKLDVAESNGFAQTAYFDIFYNRTLPPGLLPYLRLVALGGTDAFLLESLFRDTIWGHLELSVSRDNEELLCKAVREACKSALAGYHTTIEQDRELKEGNLDSRLAIAVGIREGEKMVLQQIDGIFEQKELELDQLEYYQERRLKDLGLCGENGDILENLY SLSPAVQTFWKWLQEEGVITAKTPVKASVVTEGLGLVALKDISRNDVILQVPKRLWINPDAVAASEIGRVCSELKPWLSVILFLIRERSREDSVWKHYFGILPQETDSTIYWSEEELQELQGSQLLKTTVSVKEYVKNECLKLEQEIILPNKRLFPDPVTLDDFFWAFGILRSRAFSRLRNENLVVVPMADLINHSAGVTTEDHAYEVKGAAGLFSWDYLFSLKSPLSVKAGEQVYIQYDLNKSNAELALDYGFIEPNENRHAYTLTLEISESDPFFDDKLDVAESNGFAQTAYFDIFYNRTLPPGLLPYLRLVALGGTDAFLLESLFRDTIWGHLELSVSRDNEELLCKAVREACKSALAGYHTTIEQDRELKEGNLDSRLAIAVGIREGEKMVLQQIDGIFEQKELELDQLEYYQERRLKDLGLCGENGDILENLYFQ 1mml-a1-m1-cA_1mml-a1-m2-cA MECHANISTIC IMPLICATIONS FROM THE STRUCTURE OF A CATALYTIC FRAGMENT OF MMLV REVERSE TRANSCRIPTASE P03355 P03355 1.8 X-RAY DIFFRACTION 70 1.0 11801 (Moloney murine leukemia virus) 11801 (Moloney murine leukemia virus) 251 251 TWLSDFPQAWAETGGMGLAVRQAPLIIPLKATSTPVSIKQYPMSQEARLGIKPHIQRLLDQGILVPCQSPWNTPLLPVKKPGTNDYRPVQDLREVNKRVEDIHPTVPNPYNLLSGLPPSHQWYTVLDLKDAFFCLRLHPTSQPLFAFEWRDPEMGISGQLTWTRLPQGFKNSPTLFDEALHRDLADFRIQHPDLILLQYVDDLLLAATSELDCQQGTRALLQTLGNLGYRASAKKAQICQKQVKYLGYLLK TWLSDFPQAWAETGGMGLAVRQAPLIIPLKATSTPVSIKQYPMSQEARLGIKPHIQRLLDQGILVPCQSPWNTPLLPVKKPGTNDYRPVQDLREVNKRVEDIHPTVPNPYNLLSGLPPSHQWYTVLDLKDAFFCLRLHPTSQPLFAFEWRDPEMGISGQLTWTRLPQGFKNSPTLFDEALHRDLADFRIQHPDLILLQYVDDLLLAATSELDCQQGTRALLQTLGNLGYRASAKKAQICQKQVKYLGYLLK 1mn3-a2-m1-cA_1mn3-a2-m2-cA Cue domain of yeast Vps9p P54787 P54787 2.3 X-RAY DIFFRACTION 46 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 52 52 SSLIKKIEENERKDTLNTLQNFPDDPSLIEDVCIAKKSRIEPCVDALLSLSE SSLIKKIEENERKDTLNTLQNFPDDPSLIEDVCIAKKSRIEPCVDALLSLSE 1mnm-a1-m1-cB_1mnm-a1-m1-cA YEAST MATALPHA2/MCM1/DNA TERNARY TRANSCRIPTION COMPLEX CRYSTAL STRUCTURE P11746 P11746 2.25 X-RAY DIFFRACTION 131 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 81 85 RRKIEIKFIENKTRRHVTFSKRKHGIMKKAFELSVLTGTQVLLLVVSETGLVYTFSTPKFEPIVTQQEGRNLIQACLNAPD QKERRKIEIKFIENKTRRHVTFSKRKHGIMKKAFELSVLTGTQVLLLVVSETGLVYTFSTPKFEPIVTQQEGRNLIQACLNAPDD 1mnt-a1-m1-cA_1mnt-a1-m1-cB SOLUTION STRUCTURE OF DIMERIC MNT REPRESSOR (1-76) P03049 P03049 NOT SOLUTION NMR 177 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 66 66 ARDDPHFNFRMPMEVREKLKFRAEANGRSMNSELLQIVQDALSKPSPVTGYRNDAERLADEQSELV ARDDPHFNFRMPMEVREKLKFRAEANGRSMNSELLQIVQDALSKPSPVTGYRNDAERLADEQSELV 1mo0-a1-m1-cB_1mo0-a1-m1-cA Structural Genomics Of Caenorhabditis Elegans: Triose Phosphate Isomerase Q10657 Q10657 1.7 X-RAY DIFFRACTION 135 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 245 257 RKFFVGGNWKMNGDYASVDGIVTFLNASADNSSVDVVVAPPAPYLAYAKSKLKAGVLVAAQNCYKVPKGAFTGEISPAMIKDLGLEWVILGHSERRHVFGESDALIAEKTVHALEAGIKVVFCIGEKLEEREAGHTKDVNFRQLQAIVDKGVSWENIVIAYEPVWAIGTGKTASGEQAQEVHEWIRAFLKEKVSPAVADATRIIYGGSVTADNAAELGKKPDIDGFLVGGASLKPDFVKIINARS STSLYKAGLTRKFFVGGNWKMNGDYASVDGIVTFLNASADNSSVDVVVAPPAPYLAYAKSKLKAGVLVAAQNCYKVPKGAFTGEISPAMIKDLGLEWVILGHSERRHVFGESDALIAEKTVHALEAGIKVVFCIGEKLEEREAGHTKDVNFRQLQAIVDKGVSWENIVIAYEPVWAIGTGKTASGEQAQEVHEWIRAFLKEKVSPAVADATRIIYGGSVTADNAAELGKKPDIDGFLVGGASLKPDFVKIINARSTA 1mo9-a1-m1-cA_1mo9-a1-m1-cB NADPH DEPENDENT 2-KETOPROPYL COENZYME M OXIDOREDUCTASE/CARBOXYLASE COMPLEXED WITH 2-KETOPROPYL COENZYME M Q56839 Q56839 1.65 X-RAY DIFFRACTION 295 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 522 522 1mok-a1-m1-cA_1mok-a1-m1-cB 1mok-a2-m1-cC_1mok-a2-m1-cD 2c3c-a1-m1-cA_2c3c-a1-m1-cB 2c3d-a1-m1-cA_2c3d-a1-m1-cB 3q6j-a1-m1-cA_3q6j-a1-m1-cB 7mgn-a1-m1-cA_7mgn-a1-m1-cB 7mgo-a1-m1-cA_7mgo-a1-m1-cB KVWNARNDHLTINQWATRIDEILEAPDGGEVIYNVDENDPREYDAIFIGGGAAGRFGSAYLRAMGGRQLIVDRWPFLGGSCPHNACVPHHLFSDCAAELMLARTFSGQYWFPDMTEKVVGIKEVVDLFRAGRNGPHGIMNFQSKEQLNLEYILNCPAKVIDNHTVEAAGKVFKAKNLILAVGAGPGTLDVPGVNAKGVFDHATLVEELDYEPGSTVVVVGGSKTAVEYGCFFNATGRRTVMLVRTEPLKLIKDNETRAYVLDRMKEQGMEIISGSNVTRIEEDANGRVQAVVAMTPNGEMRIETDFVFLGLGEQPRSAELAKILGLDLGPKGEVLVNEYLQTSVPNVYAVGDLIGGPMEMFKARKSGCYAARNVMGEKISYTPKNYPDFLHTHYEVSFLGMGEEEARAAGHEIVTIKMPPDTENGLNVALPASDRTMLYAFGKGTAHMSGFQKIVIDAKTRKVLGAHHVGYGAKDAFQYLNVLIKQGLTVDELGDMDELFLNPTHFIQLSRLRAGSKNLVSL KVWNARNDHLTINQWATRIDEILEAPDGGEVIYNVDENDPREYDAIFIGGGAAGRFGSAYLRAMGGRQLIVDRWPFLGGSCPHNACVPHHLFSDCAAELMLARTFSGQYWFPDMTEKVVGIKEVVDLFRAGRNGPHGIMNFQSKEQLNLEYILNCPAKVIDNHTVEAAGKVFKAKNLILAVGAGPGTLDVPGVNAKGVFDHATLVEELDYEPGSTVVVVGGSKTAVEYGCFFNATGRRTVMLVRTEPLKLIKDNETRAYVLDRMKEQGMEIISGSNVTRIEEDANGRVQAVVAMTPNGEMRIETDFVFLGLGEQPRSAELAKILGLDLGPKGEVLVNEYLQTSVPNVYAVGDLIGGPMEMFKARKSGCYAARNVMGEKISYTPKNYPDFLHTHYEVSFLGMGEEEARAAGHEIVTIKMPPDTENGLNVALPASDRTMLYAFGKGTAHMSGFQKIVIDAKTRKVLGAHHVGYGAKDAFQYLNVLIKQGLTVDELGDMDELFLNPTHFIQLSRLRAGSKNLVSL 1moe-a2-m1-cA_1moe-a2-m2-cA The three-dimensional structure of an engineered scFv T84.66 dimer or diabody in VL to VH linkage. Q5R3X1 Q5R3X1 2.6 X-RAY DIFFRACTION 16 1.0 10090 (Mus musculus) 10090 (Mus musculus) 240 240 DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIKGGGSGGGGEVQLQQSGAELVEPGASVKLSCTASGFNIKDTYMHWVKQRPEQGLEWIGRIDPANGNSKYVPKFQGKATITADTSSNTAYLQLTSLTSEDTAVYYCAPFGYYVSDYAMAYWGQGTSVTVSS DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIKGGGSGGGGEVQLQQSGAELVEPGASVKLSCTASGFNIKDTYMHWVKQRPEQGLEWIGRIDPANGNSKYVPKFQGKATITADTSSNTAYLQLTSLTSEDTAVYYCAPFGYYVSDYAMAYWGQGTSVTVSS 1moe-a2-m1-cA_1moe-a2-m2-cB The three-dimensional structure of an engineered scFv T84.66 dimer or diabody in VL to VH linkage. Q5R3X1 Q5R3X1 2.6 X-RAY DIFFRACTION 58 1.0 10090 (Mus musculus) 10090 (Mus musculus) 240 240 1moe-a2-m1-cB_1moe-a2-m2-cA DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIKGGGSGGGGEVQLQQSGAELVEPGASVKLSCTASGFNIKDTYMHWVKQRPEQGLEWIGRIDPANGNSKYVPKFQGKATITADTSSNTAYLQLTSLTSEDTAVYYCAPFGYYVSDYAMAYWGQGTSVTVSS DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIKGGGSGGGGEVQLQQSGAELVEPGASVKLSCTASGFNIKDTYMHWVKQRPEQGLEWIGRIDPANGNSKYVPKFQGKATITADTSSNTAYLQLTSLTSEDTAVYYCAPFGYYVSDYAMAYWGQGTSVTVSS 1moe-a2-m2-cA_1moe-a2-m2-cB The three-dimensional structure of an engineered scFv T84.66 dimer or diabody in VL to VH linkage. Q5R3X1 Q5R3X1 2.6 X-RAY DIFFRACTION 107 1.0 10090 (Mus musculus) 10090 (Mus musculus) 240 240 1moe-a1-m1-cA_1moe-a1-m1-cB 1moe-a2-m1-cA_1moe-a2-m1-cB DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIKGGGSGGGGEVQLQQSGAELVEPGASVKLSCTASGFNIKDTYMHWVKQRPEQGLEWIGRIDPANGNSKYVPKFQGKATITADTSSNTAYLQLTSLTSEDTAVYYCAPFGYYVSDYAMAYWGQGTSVTVSS DIVLTQSPASLAVSLGQRATMSCRAGESVDIFGVGFLHWYQQKPGQPPKLLIYRASNLESGIPVRFSGTGSRTDFTLIIDPVEADDVATYYCQQTNEDPYTFGGGTKLEIKGGGSGGGGEVQLQQSGAELVEPGASVKLSCTASGFNIKDTYMHWVKQRPEQGLEWIGRIDPANGNSKYVPKFQGKATITADTSSNTAYLQLTSLTSEDTAVYYCAPFGYYVSDYAMAYWGQGTSVTVSS 1mof-a1-m2-cA_1mof-a1-m3-cA COAT PROTEIN P03385 P03385 1.7 X-RAY DIFFRACTION 56 1.0 11801 (Moloney murine leukemia virus) 11801 (Moloney murine leukemia virus) 53 53 1mof-a1-m1-cA_1mof-a1-m2-cA 1mof-a1-m1-cA_1mof-a1-m3-cA DLREVEKSISNLEKSLTSLSEVVLQNRRGLDLLFLKEGGLCAALKEECAFYAD DLREVEKSISNLEKSLTSLSEVVLQNRRGLDLLFLKEGGLCAALKEECAFYAD 1mp9-a1-m1-cB_1mp9-a1-m1-cA TBP from a mesothermophilic archaeon, Sulfolobus acidocaldarius Q9UWN7 Q9UWN7 2 X-RAY DIFFRACTION 59 0.989 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 189 193 IPDEIPYKAVVNIENIVATVTLDQTLDLYAMERSVPNVEYDPDQFPGLIFRLESPKITSLIFKSGKMVVTGAKSTDELIKAVKRIIKTLKKYGMQLTGKPKIQIQNIVASANLHVIVNLDKAAFLLENNMYEPEQFPGLIYRMDEPRVVLLIFSSGKMVITGAKREDEVHKAVKKIFDKLVELDCVKPV DEIPYKAVVNIENIVATVTLDQTLDLYAMERSVPNVEYDPDQFPGLIFRLESPKITSLIFKSGKMVVTGAKSTDELIKAVKRIIKTLKKYGMQLTGKPKIQIQNIVASANLHVIVNLDKAAFLLENNMYEPEQFPGLIYRMDEPRVVLLIFSSGKMVITGAKREDEVHKAVKKIFDKLVELDCVKPVEEEELE 1mpe-a1-m1-cA_1mpe-a1-m1-cD Ensemble of 20 structures of the tetrameric mutant of the B1 domain of streptococcal protein G P06654 P06654 NOT SOLUTION NMR 32 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 1mpe-a1-m1-cB_1mpe-a1-m1-cC MQYKVILNGKTLKGETTTEAVDAATFEKVVKQFFNDNGVDGEWTYDDATKTFTVTE MQYKVILNGKTLKGETTTEAVDAATFEKVVKQFFNDNGVDGEWTYDDATKTFTVTE 1mpe-a1-m1-cB_1mpe-a1-m1-cD Ensemble of 20 structures of the tetrameric mutant of the B1 domain of streptococcal protein G P06654 P06654 NOT SOLUTION NMR 68 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 1mpe-a1-m1-cA_1mpe-a1-m1-cC MQYKVILNGKTLKGETTTEAVDAATFEKVVKQFFNDNGVDGEWTYDDATKTFTVTE MQYKVILNGKTLKGETTTEAVDAATFEKVVKQFFNDNGVDGEWTYDDATKTFTVTE 1mpe-a1-m1-cC_1mpe-a1-m1-cD Ensemble of 20 structures of the tetrameric mutant of the B1 domain of streptococcal protein G P06654 P06654 NOT SOLUTION NMR 52 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 1mpe-a1-m1-cA_1mpe-a1-m1-cB MQYKVILNGKTLKGETTTEAVDAATFEKVVKQFFNDNGVDGEWTYDDATKTFTVTE MQYKVILNGKTLKGETTTEAVDAATFEKVVKQFFNDNGVDGEWTYDDATKTFTVTE 1mpx-a1-m1-cA_1mpx-a1-m1-cD ALPHA-AMINO ACID ESTER HYDROLASE LABELED WITH SELENOMETHIONINE Q6YBS3 Q6YBS3 1.9 X-RAY DIFFRACTION 83 1.0 346 (Xanthomonas citri) 346 (Xanthomonas citri) 596 596 1mpx-a1-m1-cB_1mpx-a1-m1-cC TSPTPDITGKPFVAADASNDYIKREVIPRDGVKLHTVIVLPKGAKNAPIVLTRTPYDASGRTERLASPHKDLLSAGDDVFVEGGYIRVFQDVRGKYGSEGDYVTRPLRGPLNPSEVDHATDAWDTIDWLVKNVSESNGKVGIGSSYEGFTVVALTNPHPALKVAVPESPIDGWGDDWFNYGAFRQVNFDYFTGQLSKRGKGAGIARQGHDDYSNFLQAGSAGDFAKAAGLEQLPWWHKLTEHAAYDAFWQEQALDKVARTPLKVPTWLQGLWDQEDWGAIHSYAAEPRDKRNTLNYLVGPWRHSQVNYDGSALGALNFEGDTARQFRHDVLRPFFDQYLVDGAPKADTPPVFIYNTGENHWDRLKAWPRSCDKGCAATSKPLYLQAGGKLSFQPPVAGQAGFEEYVSDPAKPVPFVPRPVDFADRAWTTWLVHDQRFVDGRPDVLTFVTEPLTEPLQIAGAPDVHLQASTSGSDSDWVVKLIDVYPEEASNPKGGYELPVSLAIFRGRYRESFSTPKPLTSNQPLAFQFGLPTANHTFQPGHRVVQVQSSLFPLYDRNPQTYVPNIFFAKPGDYQKATQRVYVSPEQPSYISLPVR TSPTPDITGKPFVAADASNDYIKREVIPRDGVKLHTVIVLPKGAKNAPIVLTRTPYDASGRTERLASPHKDLLSAGDDVFVEGGYIRVFQDVRGKYGSEGDYVTRPLRGPLNPSEVDHATDAWDTIDWLVKNVSESNGKVGIGSSYEGFTVVALTNPHPALKVAVPESPIDGWGDDWFNYGAFRQVNFDYFTGQLSKRGKGAGIARQGHDDYSNFLQAGSAGDFAKAAGLEQLPWWHKLTEHAAYDAFWQEQALDKVARTPLKVPTWLQGLWDQEDWGAIHSYAAEPRDKRNTLNYLVGPWRHSQVNYDGSALGALNFEGDTARQFRHDVLRPFFDQYLVDGAPKADTPPVFIYNTGENHWDRLKAWPRSCDKGCAATSKPLYLQAGGKLSFQPPVAGQAGFEEYVSDPAKPVPFVPRPVDFADRAWTTWLVHDQRFVDGRPDVLTFVTEPLTEPLQIAGAPDVHLQASTSGSDSDWVVKLIDVYPEEASNPKGGYELPVSLAIFRGRYRESFSTPKPLTSNQPLAFQFGLPTANHTFQPGHRVVQVQSSLFPLYDRNPQTYVPNIFFAKPGDYQKATQRVYVSPEQPSYISLPVR 1mpx-a1-m1-cB_1mpx-a1-m1-cD ALPHA-AMINO ACID ESTER HYDROLASE LABELED WITH SELENOMETHIONINE Q6YBS3 Q6YBS3 1.9 X-RAY DIFFRACTION 127 1.0 346 (Xanthomonas citri) 346 (Xanthomonas citri) 596 596 1mpx-a1-m1-cA_1mpx-a1-m1-cC TSPTPDITGKPFVAADASNDYIKREVIPRDGVKLHTVIVLPKGAKNAPIVLTRTPYDASGRTERLASPHKDLLSAGDDVFVEGGYIRVFQDVRGKYGSEGDYVTRPLRGPLNPSEVDHATDAWDTIDWLVKNVSESNGKVGIGSSYEGFTVVALTNPHPALKVAVPESPIDGWGDDWFNYGAFRQVNFDYFTGQLSKRGKGAGIARQGHDDYSNFLQAGSAGDFAKAAGLEQLPWWHKLTEHAAYDAFWQEQALDKVARTPLKVPTWLQGLWDQEDWGAIHSYAAEPRDKRNTLNYLVGPWRHSQVNYDGSALGALNFEGDTARQFRHDVLRPFFDQYLVDGAPKADTPPVFIYNTGENHWDRLKAWPRSCDKGCAATSKPLYLQAGGKLSFQPPVAGQAGFEEYVSDPAKPVPFVPRPVDFADRAWTTWLVHDQRFVDGRPDVLTFVTEPLTEPLQIAGAPDVHLQASTSGSDSDWVVKLIDVYPEEASNPKGGYELPVSLAIFRGRYRESFSTPKPLTSNQPLAFQFGLPTANHTFQPGHRVVQVQSSLFPLYDRNPQTYVPNIFFAKPGDYQKATQRVYVSPEQPSYISLPVR TSPTPDITGKPFVAADASNDYIKREVIPRDGVKLHTVIVLPKGAKNAPIVLTRTPYDASGRTERLASPHKDLLSAGDDVFVEGGYIRVFQDVRGKYGSEGDYVTRPLRGPLNPSEVDHATDAWDTIDWLVKNVSESNGKVGIGSSYEGFTVVALTNPHPALKVAVPESPIDGWGDDWFNYGAFRQVNFDYFTGQLSKRGKGAGIARQGHDDYSNFLQAGSAGDFAKAAGLEQLPWWHKLTEHAAYDAFWQEQALDKVARTPLKVPTWLQGLWDQEDWGAIHSYAAEPRDKRNTLNYLVGPWRHSQVNYDGSALGALNFEGDTARQFRHDVLRPFFDQYLVDGAPKADTPPVFIYNTGENHWDRLKAWPRSCDKGCAATSKPLYLQAGGKLSFQPPVAGQAGFEEYVSDPAKPVPFVPRPVDFADRAWTTWLVHDQRFVDGRPDVLTFVTEPLTEPLQIAGAPDVHLQASTSGSDSDWVVKLIDVYPEEASNPKGGYELPVSLAIFRGRYRESFSTPKPLTSNQPLAFQFGLPTANHTFQPGHRVVQVQSSLFPLYDRNPQTYVPNIFFAKPGDYQKATQRVYVSPEQPSYISLPVR 1mpx-a1-m1-cC_1mpx-a1-m1-cD ALPHA-AMINO ACID ESTER HYDROLASE LABELED WITH SELENOMETHIONINE Q6YBS3 Q6YBS3 1.9 X-RAY DIFFRACTION 50 1.0 346 (Xanthomonas citri) 346 (Xanthomonas citri) 596 596 1mpx-a1-m1-cA_1mpx-a1-m1-cB TSPTPDITGKPFVAADASNDYIKREVIPRDGVKLHTVIVLPKGAKNAPIVLTRTPYDASGRTERLASPHKDLLSAGDDVFVEGGYIRVFQDVRGKYGSEGDYVTRPLRGPLNPSEVDHATDAWDTIDWLVKNVSESNGKVGIGSSYEGFTVVALTNPHPALKVAVPESPIDGWGDDWFNYGAFRQVNFDYFTGQLSKRGKGAGIARQGHDDYSNFLQAGSAGDFAKAAGLEQLPWWHKLTEHAAYDAFWQEQALDKVARTPLKVPTWLQGLWDQEDWGAIHSYAAEPRDKRNTLNYLVGPWRHSQVNYDGSALGALNFEGDTARQFRHDVLRPFFDQYLVDGAPKADTPPVFIYNTGENHWDRLKAWPRSCDKGCAATSKPLYLQAGGKLSFQPPVAGQAGFEEYVSDPAKPVPFVPRPVDFADRAWTTWLVHDQRFVDGRPDVLTFVTEPLTEPLQIAGAPDVHLQASTSGSDSDWVVKLIDVYPEEASNPKGGYELPVSLAIFRGRYRESFSTPKPLTSNQPLAFQFGLPTANHTFQPGHRVVQVQSSLFPLYDRNPQTYVPNIFFAKPGDYQKATQRVYVSPEQPSYISLPVR TSPTPDITGKPFVAADASNDYIKREVIPRDGVKLHTVIVLPKGAKNAPIVLTRTPYDASGRTERLASPHKDLLSAGDDVFVEGGYIRVFQDVRGKYGSEGDYVTRPLRGPLNPSEVDHATDAWDTIDWLVKNVSESNGKVGIGSSYEGFTVVALTNPHPALKVAVPESPIDGWGDDWFNYGAFRQVNFDYFTGQLSKRGKGAGIARQGHDDYSNFLQAGSAGDFAKAAGLEQLPWWHKLTEHAAYDAFWQEQALDKVARTPLKVPTWLQGLWDQEDWGAIHSYAAEPRDKRNTLNYLVGPWRHSQVNYDGSALGALNFEGDTARQFRHDVLRPFFDQYLVDGAPKADTPPVFIYNTGENHWDRLKAWPRSCDKGCAATSKPLYLQAGGKLSFQPPVAGQAGFEEYVSDPAKPVPFVPRPVDFADRAWTTWLVHDQRFVDGRPDVLTFVTEPLTEPLQIAGAPDVHLQASTSGSDSDWVVKLIDVYPEEASNPKGGYELPVSLAIFRGRYRESFSTPKPLTSNQPLAFQFGLPTANHTFQPGHRVVQVQSSLFPLYDRNPQTYVPNIFFAKPGDYQKATQRVYVSPEQPSYISLPVR 1mpy-a1-m1-cA_1mpy-a1-m1-cD STRUCTURE OF CATECHOL 2,3-DIOXYGENASE (METAPYROCATECHASE) FROM PSEUDOMONAS PUTIDA MT-2 P06622 P06622 2.8 X-RAY DIFFRACTION 18 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 307 307 1mpy-a1-m1-cB_1mpy-a1-m1-cC MNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAGELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKAHDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRILNERFMTVLT MNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAGELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKAHDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRILNERFMTVLT 1mpy-a1-m1-cB_1mpy-a1-m1-cD STRUCTURE OF CATECHOL 2,3-DIOXYGENASE (METAPYROCATECHASE) FROM PSEUDOMONAS PUTIDA MT-2 P06622 P06622 2.8 X-RAY DIFFRACTION 82 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 307 307 1mpy-a1-m1-cA_1mpy-a1-m1-cC MNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAGELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKAHDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRILNERFMTVLT MNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAGELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKAHDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRILNERFMTVLT 1mpy-a1-m1-cC_1mpy-a1-m1-cD STRUCTURE OF CATECHOL 2,3-DIOXYGENASE (METAPYROCATECHASE) FROM PSEUDOMONAS PUTIDA MT-2 P06622 P06622 2.8 X-RAY DIFFRACTION 51 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 307 307 1mpy-a1-m1-cA_1mpy-a1-m1-cB MNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAGELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKAHDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRILNERFMTVLT MNKGVMRPGHVQLRVLDMSKALEHYVELLGLIEMDRDDQGRVYLKAWTEVDKFSLVLREADEPGMDFMGFKVVDEDALRQLERDLMAYGCAVEQLPAGELNSCGRRVRFQAPSGHHFELYADKEYTGKWGLNDVNPEAWPRDLKGMAAVRFDHALMYGDELPATYDLFTKVLGFYLAEQVLDENGTRVAQFLSLSTKAHDVAFIHHPEKGRLHHVSFHLETWEDLLRAADLISMTDTSIDIGPTRHGLTHGKTIYFFDPSGNRNEVFCGGDYNYPDHKPVTWTTDQLGKAIFYHDRILNERFMTVLT 1mq0-a1-m1-cA_1mq0-a1-m2-cB Crystal Structure of Human Cytidine Deaminase P32320 P32320 2.4 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 1mq0-a1-m1-cB_1mq0-a1-m2-cA ECVQQLLVCSQEAKQSAYCPYSHFPVGAALLTQEGRIFKGCNIENACYPLGICAERTAIQKAVSEGYKDFRAIAIASDMQDDFISPCGACRQVMREFGTNWPVYMTKPDGTYIVMTVQELLPSSFGPEDL ECVQQLLVCSQEAKQSAYCPYSHFPVGAALLTQEGRIFKGCNIENACYPLGICAERTAIQKAVSEGYKDFRAIAIASDMQDDFISPCGACRQVMREFGTNWPVYMTKPDGTYIVMTVQELLPSSFGPEDL 1mq0-a1-m1-cB_1mq0-a1-m2-cB Crystal Structure of Human Cytidine Deaminase P32320 P32320 2.4 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 1mq0-a1-m1-cA_1mq0-a1-m2-cA ECVQQLLVCSQEAKQSAYCPYSHFPVGAALLTQEGRIFKGCNIENACYPLGICAERTAIQKAVSEGYKDFRAIAIASDMQDDFISPCGACRQVMREFGTNWPVYMTKPDGTYIVMTVQELLPSSFGPEDL ECVQQLLVCSQEAKQSAYCPYSHFPVGAALLTQEGRIFKGCNIENACYPLGICAERTAIQKAVSEGYKDFRAIAIASDMQDDFISPCGACRQVMREFGTNWPVYMTKPDGTYIVMTVQELLPSSFGPEDL 1mq0-a1-m2-cA_1mq0-a1-m2-cB Crystal Structure of Human Cytidine Deaminase P32320 P32320 2.4 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 1mq0-a1-m1-cA_1mq0-a1-m1-cB ECVQQLLVCSQEAKQSAYCPYSHFPVGAALLTQEGRIFKGCNIENACYPLGICAERTAIQKAVSEGYKDFRAIAIASDMQDDFISPCGACRQVMREFGTNWPVYMTKPDGTYIVMTVQELLPSSFGPEDL ECVQQLLVCSQEAKQSAYCPYSHFPVGAALLTQEGRIFKGCNIENACYPLGICAERTAIQKAVSEGYKDFRAIAIASDMQDDFISPCGACRQVMREFGTNWPVYMTKPDGTYIVMTVQELLPSSFGPEDL 1mqq-a1-m1-cA_1mqq-a1-m2-cA THE CRYSTAL STRUCTURE OF ALPHA-D-GLUCURONIDASE FROM BACILLUS STEAROTHERMOPHILUS T-1 COMPLEXED WITH GLUCURONIC ACID Q8VVD2 Q8VVD2 1.65 X-RAY DIFFRACTION 53 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 675 675 1k9d-a1-m1-cA_1k9d-a1-m2-cA 1k9e-a1-m1-cA_1k9e-a1-m2-cA 1k9f-a1-m1-cA_1k9f-a1-m2-cA 1l8n-a1-m1-cA_1l8n-a1-m2-cA 1mqp-a1-m1-cA_1mqp-a1-m2-cA 1mqr-a1-m1-cA_1mqr-a1-m2-cA GYEPCWLRYERKDQYSRLRFEEIVAKRTSPIFQAAVEELQKGLRSMMEIEPQVVQEVNETANSIWLGTLEDEEFERPLEGTLVHPEGYVIRSDVDDGPFRIYIIGKTDAGVLYGVFHFLRLLQMGENIAQLSIIEQPKNRLRMINHWDNMDGSIERGYAGRSIFFVDDQFVKQNQRIKDYARLLASVGINAISINNVNVHKTETKLITDHFLPDVAEVADIFRTYGIKTFLSINYASPIEIGGLPTADPLDPEVRWWWKETAKRIYQYIPDFGGFVVKADSEFRPGPFTYGRDHAEGANMLAEALAPFGGLVIWRCFVYNCQQDWRDRTTDRAKAAYDHFKPLDGQFRENVILQIKNGPMDFQVREPVSPLFGAMPKTNQMMEVQITQEYTGQQKHLCFLIPQWKEVLDFDTYAKGKGSEVKKVIDGSLFDYRYSGIAGVSNIGSDPNWTGHTLAQANLYGFGRLAWNPDLSAEEIANEWVVQTFGDDSQVVETISWMLLSSWRIYENYTSPLGVGWMVNPGHHYGPNVDGYEYSHWGTYHYADRDGIGVDRTVATGTGYTAQYFPENAAMYESLDTCPDELLLFFHHVPYTHRLHSGETVIQHIYNTHFEGVEQAKQLRKRWEQLKGKIDEKRYHDVLERLTIQVEHAKEWRDVINTYFYRKSGIDDQYGRKIY GYEPCWLRYERKDQYSRLRFEEIVAKRTSPIFQAAVEELQKGLRSMMEIEPQVVQEVNETANSIWLGTLEDEEFERPLEGTLVHPEGYVIRSDVDDGPFRIYIIGKTDAGVLYGVFHFLRLLQMGENIAQLSIIEQPKNRLRMINHWDNMDGSIERGYAGRSIFFVDDQFVKQNQRIKDYARLLASVGINAISINNVNVHKTETKLITDHFLPDVAEVADIFRTYGIKTFLSINYASPIEIGGLPTADPLDPEVRWWWKETAKRIYQYIPDFGGFVVKADSEFRPGPFTYGRDHAEGANMLAEALAPFGGLVIWRCFVYNCQQDWRDRTTDRAKAAYDHFKPLDGQFRENVILQIKNGPMDFQVREPVSPLFGAMPKTNQMMEVQITQEYTGQQKHLCFLIPQWKEVLDFDTYAKGKGSEVKKVIDGSLFDYRYSGIAGVSNIGSDPNWTGHTLAQANLYGFGRLAWNPDLSAEEIANEWVVQTFGDDSQVVETISWMLLSSWRIYENYTSPLGVGWMVNPGHHYGPNVDGYEYSHWGTYHYADRDGIGVDRTVATGTGYTAQYFPENAAMYESLDTCPDELLLFFHHVPYTHRLHSGETVIQHIYNTHFEGVEQAKQLRKRWEQLKGKIDEKRYHDVLERLTIQVEHAKEWRDVINTYFYRKSGIDDQYGRKIY 1mqs-a2-m1-cA_1mqs-a2-m2-cA Crystal structure of Sly1p in complex with an N-terminal peptide of Sed5p P22213 P22213 3 X-RAY DIFFRACTION 118 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 578 578 KDISLRDQISAILKLFLNKDLNNNDNITTITDDIFNQQEIIWKVLILDIKSTATISSVLRVNDLLKAGITVHSLIKQDRSPLPDVPAIYFVSPTKENIDIIVNDLKSDKYSEFYINFTSSLPRNLLEDLAQQVSITGKSDKIKQVYDQYLDFIVTEPELFSLEISNAYLTLNDPKTTEEEITGLCANIADGLFNTVLTINSIPIIRAAKGGPAEIIAEKLGTKLRDFVINTNSERGVLIILDRNIDFASFSHSWIYQCVFDIFKLSRNTVTIPLATKKYDIEPNDFFWENSHLPFPEAAENVEAALNTYKEEAAEITRKTEVVKKLPELTAKKNTIDTHNIFAALLSQLESKSLDTFFEVEQDPGSTKTRSRFLDILKDGKTNNLEDKLRSFIVLYLTSTTGLPKDFVQNVENYFKENDYDINALKYVYKLREFQLSNSLQNKSLYGLTEGKLQGGVGSLISGIKKLLPEKKTIPITNVVDAIDPLNSSQKNLETTDSYLYIDPKITRGSHTRKPKRQSYNKSLVFVVGGGNYLEYQNLQEWAHSQLHNPKKVYGSTAITTPAEFLNEISRLGASNSS KDISLRDQISAILKLFLNKDLNNNDNITTITDDIFNQQEIIWKVLILDIKSTATISSVLRVNDLLKAGITVHSLIKQDRSPLPDVPAIYFVSPTKENIDIIVNDLKSDKYSEFYINFTSSLPRNLLEDLAQQVSITGKSDKIKQVYDQYLDFIVTEPELFSLEISNAYLTLNDPKTTEEEITGLCANIADGLFNTVLTINSIPIIRAAKGGPAEIIAEKLGTKLRDFVINTNSERGVLIILDRNIDFASFSHSWIYQCVFDIFKLSRNTVTIPLATKKYDIEPNDFFWENSHLPFPEAAENVEAALNTYKEEAAEITRKTEVVKKLPELTAKKNTIDTHNIFAALLSQLESKSLDTFFEVEQDPGSTKTRSRFLDILKDGKTNNLEDKLRSFIVLYLTSTTGLPKDFVQNVENYFKENDYDINALKYVYKLREFQLSNSLQNKSLYGLTEGKLQGGVGSLISGIKKLLPEKKTIPITNVVDAIDPLNSSQKNLETTDSYLYIDPKITRGSHTRKPKRQSYNKSLVFVVGGGNYLEYQNLQEWAHSQLHNPKKVYGSTAITTPAEFLNEISRLGASNSS 1mrp-a1-m1-cA_1mrp-a1-m2-cA FERRIC-BINDING PROTEIN FROM HAEMOPHILUS INFLUENZAE P35755 P35755 1.6 X-RAY DIFFRACTION 35 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 309 309 DITVYNGQHKEAATAVAKAFEQETGIKVTLNSGKSEQLAGQLKEEGDKTPADVFYTEQTATFADLSEAGLLAPISEQTIQQTAQKGVPLAPKKDWIALSGRSRVVVYDHTKLSEKDMEKSVLDYATPKWKGKIGYVSTSGAFLEQVVALSKMKGDKVALNWLKGLKENGKLYAKNSVALQAVENGEVPAALINNYYWYNLAKEKGVENLKSRLYFVRHQDPGALVSYSGAAVLKASKNQAEAQKFVDFLASKKGQEALVAARAEYPLRADVVSPFNLEPYEKLEAPVVSATTAQDKEHAIKLIEEAGLK DITVYNGQHKEAATAVAKAFEQETGIKVTLNSGKSEQLAGQLKEEGDKTPADVFYTEQTATFADLSEAGLLAPISEQTIQQTAQKGVPLAPKKDWIALSGRSRVVVYDHTKLSEKDMEKSVLDYATPKWKGKIGYVSTSGAFLEQVVALSKMKGDKVALNWLKGLKENGKLYAKNSVALQAVENGEVPAALINNYYWYNLAKEKGVENLKSRLYFVRHQDPGALVSYSGAAVLKASKNQAEAQKFVDFLASKKGQEALVAARAEYPLRADVVSPFNLEPYEKLEAPVVSATTAQDKEHAIKLIEEAGLK 1msh-a1-m1-cA_1msh-a1-m1-cB SOLUTION STRUCTURE OF GRO(SLASH)MELANOMA GROWTH STIMULATORY ACTIVITY DETERMINED BY 1H NMR SPECTROSCOPY P09341 P09341 NOT SOLUTION NMR 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 1msg-a1-m1-cA_1msg-a1-m1-cB ASVATELRCQCLQTLQGIHPKNIQSVNVKSPGPHCAQTEVIATLKNGRKACLNPASPIVKKIIEKMLNSDKS ASVATELRCQCLQTLQGIHPKNIQSVNVKSPGPHCAQTEVIATLKNGRKACLNPASPIVKKIIEKMLNSDKS 1mss-a1-m1-cA_1mss-a1-m1-cB LARGE SCALE STRUCTURAL REARRANGEMENTS OF THE FRONT LOOPS IN MONOMERISED TRIOSEPHOSPHATE ISOMERASE, AS DEDUCED FROM THE COMPARISON OF THE STRUCTURAL PROPERTIES OF MONOTIM AND ITS POINT MUTATION VARIANT MONOSS P04789 P04789 2.4 X-RAY DIFFRACTION 81 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 242 242 SKPQPIAAANWKCNGSQQSLSELIDLFNSTSINHDVQCVVASTSSHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRAYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ SKPQPIAAANWKCNGSQQSLSELIDLFNSTSINHDVQCVVASTSSHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRAYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ 1mt9-a1-m1-cA_1mt9-a1-m1-cB Viability of a drug-resistant HIV-1 protease mutant: structural insights for better antiviral therapy P03369 P03369 2 X-RAY DIFFRACTION 144 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1f7a-a1-m1-cA_1f7a-a1-m1-cB 1k6t-a1-m1-cB_1k6t-a1-m1-cA 1kj7-a1-m1-cA_1kj7-a1-m1-cB 1kjg-a1-m1-cA_1kjg-a1-m1-cB 1kjh-a1-m1-cA_1kjh-a1-m1-cB 1mt7-a1-m1-cA_1mt7-a1-m1-cB 1mt8-a1-m1-cA_1mt8-a1-m1-cB 1mtb-a1-m1-cA_1mtb-a1-m1-cB 1n49-a1-m1-cA_1n49-a1-m1-cB 1n49-a2-m1-cC_1n49-a2-m1-cD 1tsq-a1-m1-cA_1tsq-a1-m1-cB 2azb-a1-m1-cA_2azb-a1-m2-cA 2azc-a1-m1-cA_2azc-a1-m1-cB 2azc-a2-m1-cA_2azc-a2-m1-cB 2azc-a2-m2-cA_2azc-a2-m2-cB 2fgu-a1-m1-cA_2fgu-a1-m1-cB 2fnt-a1-m1-cA_2fnt-a1-m1-cB 2hb2-a1-m1-cA_2hb2-a1-m2-cA 2hc0-a1-m1-cA_2hc0-a1-m1-cB 3ekp-a1-m1-cA_3ekp-a1-m1-cB 3ekp-a2-m1-cC_3ekp-a2-m1-cD 3ekq-a1-m1-cA_3ekq-a1-m1-cB 3ekt-a1-m1-cA_3ekt-a1-m1-cB 3ekt-a2-m1-cC_3ekt-a2-m1-cD 3ekw-a1-m1-cA_3ekw-a1-m1-cB 3el0-a1-m1-cA_3el0-a1-m1-cB 3el9-a1-m1-cA_3el9-a1-m1-cB 3em4-a1-m1-cA_3em4-a1-m1-cB 3em4-a2-m1-cU_3em4-a2-m1-cV 3em6-a1-m1-cA_3em6-a1-m1-cB 3lzs-a1-m1-cA_3lzs-a1-m1-cB 3oxw-a1-m1-cA_3oxw-a1-m1-cB 3oxw-a2-m1-cC_3oxw-a2-m1-cD 3oxx-a1-m1-cA_3oxx-a1-m1-cB 3oxx-a2-m1-cC_3oxx-a2-m1-cD 4qj2-a1-m1-cA_4qj2-a1-m1-cB 4qj2-a2-m1-cC_4qj2-a2-m1-cD 4qj6-a1-m1-cA_4qj6-a1-m1-cB 4qj6-a2-m1-cC_4qj6-a2-m1-cD 4qj7-a1-m1-cA_4qj7-a1-m1-cB 4qj7-a2-m1-cC_4qj7-a2-m1-cD 4qj8-a1-m1-cA_4qj8-a1-m1-cB 4qj8-a2-m1-cC_4qj8-a2-m1-cD 7mar-a1-m1-cC_7mar-a1-m1-cD 7mar-a2-m1-cA_7mar-a2-m1-cB 7mas-a1-m1-cA_7mas-a1-m1-cB 7mas-a2-m1-cC_7mas-a2-m1-cD PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPANIIGRNLLTQIGCTLNF PQITLWKRPLVTIRIGGQLKEALLNTGADDTVLEEMNLPGKWKPKMIGGIGGFIKVRQYDQIPVEICGHKAIGTVLVGPTPANIIGRNLLTQIGCTLNF 1mtl-a1-m1-cA_1mtl-a1-m1-cB Non-productive MUG-DNA complex P0A9H1 P0A9H1 2.8 X-RAY DIFFRACTION 26 0.994 562 (Escherichia coli) 562 (Escherichia coli) 157 160 VEDILAPGLRVVFCGINPGLSSAGTGFPFAHPANRFWKVIYQAGFTDRQLKPQEAQHLLDYRCGVTKLVANEVSKQELHAGGRKLIEKIEDYQPQALAILGKQAYEQGFSQRGAQWGKQTLTIGSTQIWVLPNPSGLSRVSLEKLVEAYRELDQALV MVEDILAPGLRVVFCGINPGLSSAGTGFPFAHPANRFWKVIYQAGFTDRQLKPQEAQHLLDYRCGVTKLVDRPNEVSKQELHAGGRKLIEKIEDYQPQALAILGKQAYEQGFSQRGAQWGKQTLTIGSTQIWVLPNPSGLSRVSLEKLVEAYRELDQALV 1mty-a1-m1-cB_1mty-a1-m1-cC METHANE MONOOXYGENASE HYDROXYLASE FROM METHYLOCOCCUS CAPSULATUS (BATH) P18798 P18798 1.7 X-RAY DIFFRACTION 112 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 384 384 1fyz-a1-m1-cD_1fyz-a1-m1-cC 1fz0-a1-m1-cD_1fz0-a1-m1-cC 1fz1-a1-m1-cD_1fz1-a1-m1-cC 1fz2-a1-m1-cD_1fz2-a1-m1-cC 1fz3-a1-m1-cC_1fz3-a1-m1-cD 1fz4-a1-m1-cD_1fz4-a1-m1-cC 1fz5-a1-m1-cD_1fz5-a1-m1-cC 1fz6-a1-m1-cC_1fz6-a1-m1-cD 1fz7-a1-m1-cC_1fz7-a1-m1-cD 1fz8-a1-m1-cC_1fz8-a1-m1-cD 1fz9-a1-m1-cC_1fz9-a1-m1-cD 1fzh-a1-m1-cC_1fzh-a1-m1-cD 1fzi-a1-m1-cC_1fzi-a1-m1-cD 1mmo-a1-m1-cB_1mmo-a1-m1-cC 1xmf-a1-m1-cC_1xmf-a1-m1-cD 1xmg-a1-m1-cC_1xmg-a1-m1-cD 1xmh-a1-m1-cC_1xmh-a1-m1-cD 1xu3-a1-m1-cC_1xu3-a1-m1-cD 1xu5-a1-m1-cC_1xu5-a1-m1-cD 1xvb-a1-m1-cC_1xvb-a1-m1-cD 1xvc-a1-m1-cD_1xvc-a1-m1-cC 1xvd-a1-m1-cC_1xvd-a1-m1-cD 1xve-a1-m1-cC_1xve-a1-m1-cD 1xvf-a1-m1-cC_1xvf-a1-m1-cD 1xvg-a1-m1-cC_1xvg-a1-m1-cD 4gam-a1-m1-cB_4gam-a1-m1-cG 4gam-a2-m1-cL_4gam-a2-m1-cQ 7tc7-a1-m1-cB_7tc7-a1-m1-cC 7tc8-a1-m1-cB_7tc8-a1-m1-cC ERRRGLTDPEMAAVILKALPEAPLDGNNKMGYFVTPRWKRLTEYEALTVYAQPNADWIAGGLDWGDWTQKFHGGRPSWGNETTELRTVDWFKHRDPLRRWHAPYVKDKAEEWRYTDRFLQGYSADGQIRAMNPTWRDEFINRYWGAFLFNEYGLFNAHSQGAREALSDVTRVSLAFWGFDKIDIAQMIQLERGFLAKIVPGFDESTAVPKAEWTNGEVYKSARLAVEGLWQEVFDWNESAFSVHAVYDALFGQFVRREFFQRLAPRFGDNLTPFFINQAQTYFQIAKQGVQDLYYNCLGDDPEFSDYNRTVMRNWTGKWLEPTIAALRDFMGLFAKLPAGTTDKEEITASLYRVVDDWIEDYASRIDFKADRDQIVKAVLAGLK ERRRGLTDPEMAAVILKALPEAPLDGNNKMGYFVTPRWKRLTEYEALTVYAQPNADWIAGGLDWGDWTQKFHGGRPSWGNETTELRTVDWFKHRDPLRRWHAPYVKDKAEEWRYTDRFLQGYSADGQIRAMNPTWRDEFINRYWGAFLFNEYGLFNAHSQGAREALSDVTRVSLAFWGFDKIDIAQMIQLERGFLAKIVPGFDESTAVPKAEWTNGEVYKSARLAVEGLWQEVFDWNESAFSVHAVYDALFGQFVRREFFQRLAPRFGDNLTPFFINQAQTYFQIAKQGVQDLYYNCLGDDPEFSDYNRTVMRNWTGKWLEPTIAALRDFMGLFAKLPAGTTDKEEITASLYRVVDDWIEDYASRIDFKADRDQIVKAVLAGLK 1mum-a1-m1-cA_1mum-a1-m2-cB Structure of the 2-Methylisocitrate Lyase (PrpB) from Escherichia coli P77541 P77541 1.9 X-RAY DIFFRACTION 78 1.0 562 (Escherichia coli) 562 (Escherichia coli) 289 289 1mum-a1-m1-cB_1mum-a1-m2-cA 1oqf-a1-m1-cA_1oqf-a1-m2-cB 1oqf-a1-m1-cB_1oqf-a1-m2-cA 1xg3-a1-m1-cC_1xg3-a1-m1-cA 1xg3-a1-m1-cD_1xg3-a1-m1-cB 1xg4-a1-m1-cA_1xg4-a1-m1-cC 1xg4-a1-m1-cD_1xg4-a1-m1-cB LHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFA LHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFA 1mum-a1-m1-cB_1mum-a1-m2-cB Structure of the 2-Methylisocitrate Lyase (PrpB) from Escherichia coli P77541 P77541 1.9 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 289 289 1mum-a1-m1-cA_1mum-a1-m2-cA 1oqf-a1-m1-cA_1oqf-a1-m2-cA 1oqf-a1-m1-cB_1oqf-a1-m2-cB 1xg3-a1-m1-cB_1xg3-a1-m1-cC 1xg3-a1-m1-cD_1xg3-a1-m1-cA 1xg4-a1-m1-cB_1xg4-a1-m1-cC 1xg4-a1-m1-cD_1xg4-a1-m1-cA LHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFA LHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFA 1mun-a1-m1-cA_1mun-a1-m2-cA CATALYTIC DOMAIN OF MUTY FROM ESCHERICHIA COLI D138N MUTANT P17802 P17802 1.2 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 225 225 1muy-a1-m1-cA_1muy-a1-m2-cA MQASQFSAQVLDWYDKYGRKTLPWQIDKTPYKVWLSEVMLQQTQVATVIPYFERFMARFPTVTDLANAPLDEVLHLWTGLGYYARARNLHKAAQQVATLHGGKFPETFEEVAALPGVGRSTAGAILSLSLGKHFPILNGNVKRVLARCYAVSGWPGKKEVENKLWSLSEQVTPAVGVERFNQAMMDLGAMICTRSKPKCSLCPLQNGCIAAANNSWALYPGKKPK MQASQFSAQVLDWYDKYGRKTLPWQIDKTPYKVWLSEVMLQQTQVATVIPYFERFMARFPTVTDLANAPLDEVLHLWTGLGYYARARNLHKAAQQVATLHGGKFPETFEEVAALPGVGRSTAGAILSLSLGKHFPILNGNVKRVLARCYAVSGWPGKKEVENKLWSLSEQVTPAVGVERFNQAMMDLGAMICTRSKPKCSLCPLQNGCIAAANNSWALYPGKKPK 1mus-a1-m1-cA_1mus-a1-m2-cA crystal structure of Tn5 transposase complexed with resolved outside end DNA Q46731 Q46731 1.9 X-RAY DIFFRACTION 112 1.0 562 (Escherichia coli) 562 (Escherichia coli) 458 458 1mm8-a1-m1-cA_1mm8-a1-m2-cA 1muh-a1-m1-cA_1muh-a1-m2-cA 3ecp-a1-m1-cA_3ecp-a1-m2-cA 4dm0-a1-m1-cA_4dm0-a1-m2-cA SALHRAADWAKSVFSSAALGDPRRTARLVNVAAQLAKYSGKSITISSEGSKAAQEGAYRFIRNPNVSAEAIRKAGAMQTVKLAQEFPELLAIEDTTSLSYRHQVAEELGKLGSIQKASRGWWVHSVLLLEATTFRTVGLLHQEWWMRPDDPADADEKESGKWLAAAATSRLRMGSMMSNVIAVCDREADIHAYLQDKLAHNERFVVRSKHPRKDVESGLYLYDHLKNQPELGGYQISIPQKGVVDKRGKRKNRPARKASLSLRSGRITLKQGNITLNAVLAEEINPPKGETPLKWLLLTSEPVESLAQALRVIDIYTHRWRIEEFHKAWKTGAGAERQRMEKPDNLERMVSILSFVAVRLLQLRESFTPPSQSAETVLTPDECQLLGYLDKGKRKRKEKAGSLQWAYMAIARLGGFMDSKRTGIASWGALWEGWEALQSKLDGFLAAKDLMAQGIKIG SALHRAADWAKSVFSSAALGDPRRTARLVNVAAQLAKYSGKSITISSEGSKAAQEGAYRFIRNPNVSAEAIRKAGAMQTVKLAQEFPELLAIEDTTSLSYRHQVAEELGKLGSIQKASRGWWVHSVLLLEATTFRTVGLLHQEWWMRPDDPADADEKESGKWLAAAATSRLRMGSMMSNVIAVCDREADIHAYLQDKLAHNERFVVRSKHPRKDVESGLYLYDHLKNQPELGGYQISIPQKGVVDKRGKRKNRPARKASLSLRSGRITLKQGNITLNAVLAEEINPPKGETPLKWLLLTSEPVESLAQALRVIDIYTHRWRIEEFHKAWKTGAGAERQRMEKPDNLERMVSILSFVAVRLLQLRESFTPPSQSAETVLTPDECQLLGYLDKGKRKRKEKAGSLQWAYMAIARLGGFMDSKRTGIASWGALWEGWEALQSKLDGFLAAKDLMAQGIKIG 1mv5-a1-m1-cA_1mv5-a1-m1-cC Crystal structure of LmrA ATP-binding domain Q9CHL8 Q9CHL8 3.1 X-RAY DIFFRACTION 12 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 242 242 MLSARHVDFAYDDSEQILRDISFEAQPNSIIAFAGPSGGGKSTIFSLLERFYQPTAGEITIDGQPIDNISLENWRSQIGFVSQDSAIMAGTIRENLTYGLEGDYTDEDLWQVLDLAFARSFVENMPDQLNTEVGERGVKISGGQRQRLAIARAFLRNPKILMLDEATASLDSESESMVQKALDSLMKGRTTLVIAHRLSTIVDADKIYFIEKGQITGSGKHNELVATHPLYAKYVSEQLTVG MLSARHVDFAYDDSEQILRDISFEAQPNSIIAFAGPSGGGKSTIFSLLERFYQPTAGEITIDGQPIDNISLENWRSQIGFVSQDSAIMAGTIRENLTYGLEGDYTDEDLWQVLDLAFARSFVENMPDQLNTEVGERGVKISGGQRQRLAIARAFLRNPKILMLDEATASLDSESESMVQKALDSLMKGRTTLVIAHRLSTIVDADKIYFIEKGQITGSGKHNELVATHPLYAKYVSEQLTVG 1mv5-a1-m1-cD_1mv5-a1-m1-cA Crystal structure of LmrA ATP-binding domain Q9CHL8 Q9CHL8 3.1 X-RAY DIFFRACTION 13 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 241 242 1mv5-a1-m1-cB_1mv5-a1-m1-cC MLSARHVDFAYDDSEQILRDISFEAQPNSIIAFAGPSGGGKSTIFSLLERFYQPTAGEITIDGQPIDNISLENWRSQIGFVSQDSAIMAGTIRENLTYGLEGDYTDEDLWQVLDLAFARSFVENMPDQLNTEVGERGVKISGGQRQRLAIARAFLRNPKILMLDEATASLDSESESMVQKALDSLMKGRTTLVIAHRLSTIVDADKIYFIEKGQITGSGKHNELVATHPLYAKYVSEQLTV MLSARHVDFAYDDSEQILRDISFEAQPNSIIAFAGPSGGGKSTIFSLLERFYQPTAGEITIDGQPIDNISLENWRSQIGFVSQDSAIMAGTIRENLTYGLEGDYTDEDLWQVLDLAFARSFVENMPDQLNTEVGERGVKISGGQRQRLAIARAFLRNPKILMLDEATASLDSESESMVQKALDSLMKGRTTLVIAHRLSTIVDADKIYFIEKGQITGSGKHNELVATHPLYAKYVSEQLTVG 1mv5-a1-m1-cD_1mv5-a1-m1-cC Crystal structure of LmrA ATP-binding domain Q9CHL8 Q9CHL8 3.1 X-RAY DIFFRACTION 34 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 241 242 1mv5-a1-m1-cA_1mv5-a1-m1-cB MLSARHVDFAYDDSEQILRDISFEAQPNSIIAFAGPSGGGKSTIFSLLERFYQPTAGEITIDGQPIDNISLENWRSQIGFVSQDSAIMAGTIRENLTYGLEGDYTDEDLWQVLDLAFARSFVENMPDQLNTEVGERGVKISGGQRQRLAIARAFLRNPKILMLDEATASLDSESESMVQKALDSLMKGRTTLVIAHRLSTIVDADKIYFIEKGQITGSGKHNELVATHPLYAKYVSEQLTV MLSARHVDFAYDDSEQILRDISFEAQPNSIIAFAGPSGGGKSTIFSLLERFYQPTAGEITIDGQPIDNISLENWRSQIGFVSQDSAIMAGTIRENLTYGLEGDYTDEDLWQVLDLAFARSFVENMPDQLNTEVGERGVKISGGQRQRLAIARAFLRNPKILMLDEATASLDSESESMVQKALDSLMKGRTTLVIAHRLSTIVDADKIYFIEKGQITGSGKHNELVATHPLYAKYVSEQLTVG 1mv8-a2-m1-cC_1mv8-a2-m1-cD 1.55 A crystal structure of a ternary complex of GDP-mannose dehydrogenase from Psuedomonas aeruginosa P11759 P11759 1.55 X-RAY DIFFRACTION 470 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 436 436 1mfz-a1-m1-cA_1mfz-a1-m1-cB 1mfz-a2-m1-cC_1mfz-a2-m1-cD 1muu-a1-m1-cA_1muu-a1-m1-cB 1muu-a2-m1-cC_1muu-a2-m1-cD 1mv8-a1-m1-cA_1mv8-a1-m1-cB MRISIFGLGYVGAVCAGCLSARGHEVIGVDVSSTKIDLINQGKSPIVEPGLEALLQQGRQTGRLSGTTDFKKAVLDSDVSFICVGTPSKKNGDLDLGYIETVCREIGFAIREKSERHTVVVRSTVLPGTVNNVVIPLIEDCSGKKAGVDFGVGTNPEFLRESTAIKDYDFPPMTVIGELDKQTGDLLEEIYRELDAPIIRKTVEVAEMIKYTCNVWHAAKVTFANEIGNIAKAVGVDGREVMDVICQDHKLNLSRYYMRPGFAFGGSCLPKDVRALTYRASQLDVEHPMLGSLMRSNSNQVQKAFDLITSHDTRKVGLLGLSFKAGTDDLRESPLVELAEMLIGKGYELRIFDRNVEYARVHGANKEYIESKIPHVSSLLVSDLDEVVASSDVLVLGNGDELFVDLVNKTPSGKKLVDLVGFMPHTTTAQAEGICW MRISIFGLGYVGAVCAGCLSARGHEVIGVDVSSTKIDLINQGKSPIVEPGLEALLQQGRQTGRLSGTTDFKKAVLDSDVSFICVGTPSKKNGDLDLGYIETVCREIGFAIREKSERHTVVVRSTVLPGTVNNVVIPLIEDCSGKKAGVDFGVGTNPEFLRESTAIKDYDFPPMTVIGELDKQTGDLLEEIYRELDAPIIRKTVEVAEMIKYTCNVWHAAKVTFANEIGNIAKAVGVDGREVMDVICQDHKLNLSRYYMRPGFAFGGSCLPKDVRALTYRASQLDVEHPMLGSLMRSNSNQVQKAFDLITSHDTRKVGLLGLSFKAGTDDLRESPLVELAEMLIGKGYELRIFDRNVEYARVHGANKEYIESKIPHVSSLLVSDLDEVVASSDVLVLGNGDELFVDLVNKTPSGKKLVDLVGFMPHTTTAQAEGICW 1mvl-a1-m2-cA_1mvl-a1-m3-cA PPC decarboxylase mutant C175S Q9SWE5 Q9SWE5 2 X-RAY DIFFRACTION 38 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 173 173 1e20-a1-m1-cA_1e20-a1-m2-cA 1e20-a1-m1-cA_1e20-a1-m3-cA 1e20-a1-m2-cA_1e20-a1-m3-cA 1mvl-a1-m1-cA_1mvl-a1-m2-cA 1mvl-a1-m1-cA_1mvl-a1-m3-cA 1mvn-a1-m1-cA_1mvn-a1-m2-cA 1mvn-a1-m1-cA_1mvn-a1-m3-cA 1mvn-a1-m2-cA_1mvn-a1-m3-cA KPRVLLAASGSVAAIKFGNLCHCFTEWAEVRAVVTKSSLHFLDKLSLPQEVTLYTDEDEWSSWNKIGDPVLHIELRRWADVLVIAPLSANTLGKIAGGLCDNLLTCIIRAWDYTKPLFVAPAMNTLMWNNPFTERHLLSLDELGITLIPPIKNGAMAEPSLIYSTVRLFWESQ KPRVLLAASGSVAAIKFGNLCHCFTEWAEVRAVVTKSSLHFLDKLSLPQEVTLYTDEDEWSSWNKIGDPVLHIELRRWADVLVIAPLSANTLGKIAGGLCDNLLTCIIRAWDYTKPLFVAPAMNTLMWNNPFTERHLLSLDELGITLIPPIKNGAMAEPSLIYSTVRLFWESQ 1mvo-a1-m1-cA_1mvo-a1-m2-cA Crystal structure of the PhoP receiver domain from Bacillus subtilis P13792 P13792 1.6 X-RAY DIFFRACTION 22 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 121 121 MNKKILVVDDEESIVTLLQYNLERSGYDVITASDGEEALKKAETEKPDLIVLDVMLPKLDGIEVCKQLRQQKLMFPILMLTAKDEEFDKVLGLELGADDYMTKPFSPREVNARVKAILRRS MNKKILVVDDEESIVTLLQYNLERSGYDVITASDGEEALKKAETEKPDLIVLDVMLPKLDGIEVCKQLRQQKLMFPILMLTAKDEEFDKVLGLELGADDYMTKPFSPREVNARVKAILRRS 1mw5-a1-m1-cA_1mw5-a1-m2-cB Structure of HI1480 from Haemophilus influenzae P44209 P44209 2.1 X-RAY DIFFRACTION 30 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 159 159 1mw5-a1-m1-cB_1mw5-a1-m2-cA ETDLLKVRQPVKLYSVATLFHEFSEVITKLEHSVQKEPTSLLSEENWHKQFLKFAQALPAHGSASWLNLDDALQAVVGNSRSAFLHQLIAKLKSRHLQVLELNKIGSEPLDLSNLPAPFYVLLPESFAARITLLVQDKALPYVRVSEYWHALEYKGELN ETDLLKVRQPVKLYSVATLFHEFSEVITKLEHSVQKEPTSLLSEENWHKQFLKFAQALPAHGSASWLNLDDALQAVVGNSRSAFLHQLIAKLKSRHLQVLELNKIGSEPLDLSNLPAPFYVLLPESFAARITLLVQDKALPYVRVSEYWHALEYKGELN 1mw5-a1-m1-cB_1mw5-a1-m2-cB Structure of HI1480 from Haemophilus influenzae P44209 P44209 2.1 X-RAY DIFFRACTION 14 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 159 159 1mw5-a1-m1-cA_1mw5-a1-m2-cA ETDLLKVRQPVKLYSVATLFHEFSEVITKLEHSVQKEPTSLLSEENWHKQFLKFAQALPAHGSASWLNLDDALQAVVGNSRSAFLHQLIAKLKSRHLQVLELNKIGSEPLDLSNLPAPFYVLLPESFAARITLLVQDKALPYVRVSEYWHALEYKGELN ETDLLKVRQPVKLYSVATLFHEFSEVITKLEHSVQKEPTSLLSEENWHKQFLKFAQALPAHGSASWLNLDDALQAVVGNSRSAFLHQLIAKLKSRHLQVLELNKIGSEPLDLSNLPAPFYVLLPESFAARITLLVQDKALPYVRVSEYWHALEYKGELN 1mw5-a1-m2-cA_1mw5-a1-m2-cB Structure of HI1480 from Haemophilus influenzae P44209 P44209 2.1 X-RAY DIFFRACTION 102 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 159 159 1mw5-a1-m1-cA_1mw5-a1-m1-cB ETDLLKVRQPVKLYSVATLFHEFSEVITKLEHSVQKEPTSLLSEENWHKQFLKFAQALPAHGSASWLNLDDALQAVVGNSRSAFLHQLIAKLKSRHLQVLELNKIGSEPLDLSNLPAPFYVLLPESFAARITLLVQDKALPYVRVSEYWHALEYKGELN ETDLLKVRQPVKLYSVATLFHEFSEVITKLEHSVQKEPTSLLSEENWHKQFLKFAQALPAHGSASWLNLDDALQAVVGNSRSAFLHQLIAKLKSRHLQVLELNKIGSEPLDLSNLPAPFYVLLPESFAARITLLVQDKALPYVRVSEYWHALEYKGELN 1mwq-a1-m1-cB_1mwq-a1-m1-cA Structure of HI0828, a Hypothetical Protein from Haemophilus influenzae with a Putative Active-Site Phosphohistidine P44887 P44887 0.99 X-RAY DIFFRACTION 88 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 98 99 HYYVIFAQDIPNTLEKRLAVREQHLARLKQLQAENRLLTAGPNPAIDDENPSEAGFTGSTVIAQFENLQAAKDWAAQDPYVEAGVYADVIVKPFKKVF SHYYVIFAQDIPNTLEKRLAVREQHLARLKQLQAENRLLTAGPNPAIDDENPSEAGFTGSTVIAQFENLQAAKDWAAQDPYVEAGVYADVIVKPFKKVF 1mww-a1-m1-cA_1mww-a1-m1-cC THE STRUCTURE OF THE HYPOTHETICAL PROTEIN HI1388.1 FROM HAEMOPHILUS INFLUENZAE REVEALS A TAUTOMERASE/MIF FOLD O86237 O86237 2.08 X-RAY DIFFRACTION 75 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 120 120 1mww-a1-m1-cB_1mww-a1-m1-cA 1mww-a1-m1-cB_1mww-a1-m1-cC MITVFGLKSKLAPRREKLAEVIYNSLHLGLDIPKGKHAIRFLCLEKEDFYYPFDRSDDYTVIEINLMAGRMEGTKKRLIKMLFSELEYKLGIRAHDVEITIKEQPAHCWGFRGMTGDEAR MITVFGLKSKLAPRREKLAEVIYNSLHLGLDIPKGKHAIRFLCLEKEDFYYPFDRSDDYTVIEINLMAGRMEGTKKRLIKMLFSELEYKLGIRAHDVEITIKEQPAHCWGFRGMTGDEAR 1mx3-a3-m1-cA_1mx3-a3-m4-cA Crystal structure of CtBP dehydrogenase core holo form Q13363 Q13363 1.95 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 1mx3-a3-m2-cA_1mx3-a3-m3-cA 4u6s-a2-m1-cA_4u6s-a2-m3-cA 4u6s-a2-m2-cA_4u6s-a2-m4-cA 6cdf-a1-m1-cA_6cdf-a1-m3-cA 6cdf-a1-m2-cA_6cdf-a1-m4-cA 6cdr-a1-m1-cA_6cdr-a1-m3-cA 6cdr-a1-m2-cA_6cdr-a1-m4-cA 7kwm-a1-m1-cA_7kwm-a1-m3-cA 7kwm-a1-m2-cA_7kwm-a1-m4-cA MPLVALLDGRDCTVEMPILKDVATVAFCDAQSTQEIHEKVLNEAVGALMYHTITLTREDLEKFKALRIIVRIGSGFDNIDIKSAGDLGIAVCNVPAASVEETADSTLCHILNLYRRATWLHQALREGTRVQSVEQIREVASGAARIRGETLGIIGLGRVGQAVALRAKAFGFNVLFYDPYLSDGVERALGLQRVSTLQDLLFHSDCVTLHCGLNEHNHHLINDFTVKQMRQGAFLVNTARGGLVDEKALAQALKEGRIRGAALDVHESEPFSFSQGPLKDAPNLICTPHAAWYSEQASIEMREEAAREIRRAITGRIPDSLKNCVN MPLVALLDGRDCTVEMPILKDVATVAFCDAQSTQEIHEKVLNEAVGALMYHTITLTREDLEKFKALRIIVRIGSGFDNIDIKSAGDLGIAVCNVPAASVEETADSTLCHILNLYRRATWLHQALREGTRVQSVEQIREVASGAARIRGETLGIIGLGRVGQAVALRAKAFGFNVLFYDPYLSDGVERALGLQRVSTLQDLLFHSDCVTLHCGLNEHNHHLINDFTVKQMRQGAFLVNTARGGLVDEKALAQALKEGRIRGAALDVHESEPFSFSQGPLKDAPNLICTPHAAWYSEQASIEMREEAAREIRRAITGRIPDSLKNCVN 1mx3-a3-m3-cA_1mx3-a3-m4-cA Crystal structure of CtBP dehydrogenase core holo form Q13363 Q13363 1.95 X-RAY DIFFRACTION 209 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 1hku-a1-m1-cA_1hku-a1-m2-cA 1hl3-a1-m1-cA_1hl3-a1-m2-cA 1mx3-a2-m1-cA_1mx3-a2-m2-cA 1mx3-a3-m1-cA_1mx3-a3-m2-cA 2hu2-a1-m1-cA_2hu2-a1-m2-cA 3ga0-a2-m1-cA_3ga0-a2-m2-cA 4lce-a1-m1-cA_4lce-a1-m2-cA 4u6q-a1-m1-cA_4u6q-a1-m2-cA 4u6s-a1-m1-cA_4u6s-a1-m4-cA 4u6s-a2-m1-cA_4u6s-a2-m4-cA 4u6s-a2-m2-cA_4u6s-a2-m3-cA 6cdf-a1-m1-cA_6cdf-a1-m4-cA 6cdf-a1-m2-cA_6cdf-a1-m3-cA 6cdf-a2-m1-cA_6cdf-a2-m4-cA 6cdr-a1-m1-cA_6cdr-a1-m4-cA 6cdr-a1-m2-cA_6cdr-a1-m3-cA 6cdr-a2-m1-cA_6cdr-a2-m4-cA 6v89-a1-m1-cA_6v89-a1-m2-cA 6v8a-a1-m1-cA_6v8a-a1-m2-cA 7kwm-a1-m1-cA_7kwm-a1-m4-cA 7kwm-a1-m2-cA_7kwm-a1-m3-cA MPLVALLDGRDCTVEMPILKDVATVAFCDAQSTQEIHEKVLNEAVGALMYHTITLTREDLEKFKALRIIVRIGSGFDNIDIKSAGDLGIAVCNVPAASVEETADSTLCHILNLYRRATWLHQALREGTRVQSVEQIREVASGAARIRGETLGIIGLGRVGQAVALRAKAFGFNVLFYDPYLSDGVERALGLQRVSTLQDLLFHSDCVTLHCGLNEHNHHLINDFTVKQMRQGAFLVNTARGGLVDEKALAQALKEGRIRGAALDVHESEPFSFSQGPLKDAPNLICTPHAAWYSEQASIEMREEAAREIRRAITGRIPDSLKNCVN MPLVALLDGRDCTVEMPILKDVATVAFCDAQSTQEIHEKVLNEAVGALMYHTITLTREDLEKFKALRIIVRIGSGFDNIDIKSAGDLGIAVCNVPAASVEETADSTLCHILNLYRRATWLHQALREGTRVQSVEQIREVASGAARIRGETLGIIGLGRVGQAVALRAKAFGFNVLFYDPYLSDGVERALGLQRVSTLQDLLFHSDCVTLHCGLNEHNHHLINDFTVKQMRQGAFLVNTARGGLVDEKALAQALKEGRIRGAALDVHESEPFSFSQGPLKDAPNLICTPHAAWYSEQASIEMREEAAREIRRAITGRIPDSLKNCVN 1mxi-a1-m1-cA_1mxi-a1-m2-cA Structure of YibK from Haemophilus influenzae (HI0766): a Methyltransferase with a Cofactor Bound at a Site Formed by a Knot P44868 P44868 1.7 X-RAY DIFFRACTION 103 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 156 156 1j85-a1-m1-cA_1j85-a1-m2-cA 7d51-a1-m1-cA_7d51-a1-m1-cB MLDIVLYEPEIPQNTGNIIRLCANTGFRLHLIEPLGFTWDDKRLRRSGLDYHEFAEIKRHKTFEAFLESEKPKRLFALTTKGCPAHSQVKFKLGDYLMFGPETRGIPMSILNEMPMEQKIRIPMTANSRSMNLSNSVAVTVYEAWRQLGYKGAVNL MLDIVLYEPEIPQNTGNIIRLCANTGFRLHLIEPLGFTWDDKRLRRSGLDYHEFAEIKRHKTFEAFLESEKPKRLFALTTKGCPAHSQVKFKLGDYLMFGPETRGIPMSILNEMPMEQKIRIPMTANSRSMNLSNSVAVTVYEAWRQLGYKGAVNL 1mxs-a1-m2-cA_1mxs-a1-m3-cA Crystal structure of 2-keto-3-deoxy-6-phosphogluconate (KDPG) aldolase from Pseudomonas putida. P00885 P00885 2.2 X-RAY DIFFRACTION 48 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 216 216 1mxs-a1-m1-cA_1mxs-a1-m2-cA 1mxs-a1-m1-cA_1mxs-a1-m3-cA LSMADKAARIDAICEKARILPVITIAREEDILPLADALAAGGIRTLEVTLRSQHGLKAIQVLREQRPELCVGAGTVLDRSMFAAVEAAGAQFVVTPGITEDILEAGVDSEIPLLPGISTPSEIMMGYALGYRRFKLFPAEISGGVAAIKAFGGPFGDIRFCPTGGVNPANVRNYMALPNVMCVGTTWMLDSSWIKNGDWARIEACSAEAIALLDAN LSMADKAARIDAICEKARILPVITIAREEDILPLADALAAGGIRTLEVTLRSQHGLKAIQVLREQRPELCVGAGTVLDRSMFAAVEAAGAQFVVTPGITEDILEAGVDSEIPLLPGISTPSEIMMGYALGYRRFKLFPAEISGGVAAIKAFGGPFGDIRFCPTGGVNPANVRNYMALPNVMCVGTTWMLDSSWIKNGDWARIEACSAEAIALLDAN 1my6-a1-m1-cA_1my6-a1-m1-cB The 1.6 A Structure of Fe-Superoxide Dismutase from the thermophilic cyanobacterium Thermosynechococcus elongatus : Correlation of EPR and Structural Characteristics Q8DIR2 Q8DIR2 1.6 X-RAY DIFFRACTION 48 1.0 146786 (Thermosynechococcus vestitus) 146786 (Thermosynechococcus vestitus) 198 198 AFVQEPLPFDPGALEPYGMSAKTLEFHYGKHHKGYVDNLNKLTQDTELADKSLEDVIRTTYGDAAKVGIFNNAAQVWNHTFFWNSLKPGGGGVPTGDVAARINSAFGSYDEFKAQFKNAAATQFGSGWAWLVLEAGTLKVTKTANAENPLVHGQVPLLTIDVWEHAYYLDYQNRRPDFIDNFLNQLVNWDFVAKNLAA AFVQEPLPFDPGALEPYGMSAKTLEFHYGKHHKGYVDNLNKLTQDTELADKSLEDVIRTTYGDAAKVGIFNNAAQVWNHTFFWNSLKPGGGGVPTGDVAARINSAFGSYDEFKAQFKNAAATQFGSGWAWLVLEAGTLKVTKTANAENPLVHGQVPLLTIDVWEHAYYLDYQNRRPDFIDNFLNQLVNWDFVAKNLAA 1mzg-a1-m1-cB_1mzg-a1-m1-cA X-Ray Structure of SufE from E.coli Northeast Structural Genomics (NESG) Consortium Target ER30 P76194 P76194 2 X-RAY DIFFRACTION 35 0.993 562 (Escherichia coli) 562 (Escherichia coli) 139 140 ALLPDKEKLLRNFLRCANWEEKYLYIIELGQRLPELRDEDRSPQNSIQGCQSQVWIVRQNAQGIIELQGDSDAAIVKGLIAVVFILYDQTPQDIVNFDVRPWFEKALTQHLTPSRSQGLEAIRAIRAKAAALSLEHHHH LLPDKEKLLRNFLRCANWEEKYLYIIELGQRLPELRDEDRSPQNSIQGCQSQVWIVRQNAQGIIELQGDSDAAIVKGLIAVVFILYDQTPQDIVNFDVRPWFEKALTQHLTPSRSQGLEAIRAIRAKAAALSLEHHHHHH 1mzh-a1-m1-cB_1mzh-a1-m1-cA QR15, an Aldolase O66540 O66540 2 X-RAY DIFFRACTION 112 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 221 225 MIDVRKYIDNAALKPHLSEKEIEEFVLKSEELGIYAVCVNPYHVKLASSIAKKVKVCCVIGFPLGLNKTSVKVKEAVEAVRDGAQELDIVWNLSAFKSEKYDFVVEELKEIFRETPSAVHKVIVETPYLNEEEIKKAVEICIEAGADFIKTSTGFAPRGTTLEEVRLIKSSAKGRIKVKASGGIRDLETAISMIEAGADRIGTSSGISIAEEFLKRHLILE MIDVRKYIDNAALKPHLSEKEIEEFVLKSEELGIYAVCVNPYHVKLASSIAKKVKVCCVIGFPLGLNKTSVKVKEAVEAVRDGAQELDIVWNLSAFKSEKYDFVVEELKEIFRETPSAVHKVIVETPYLNEEEIKKAVEICIEAGADFIKTSTGFAPRGTTLEEVRLIKSSAKGRIKVKASGGIRDLETAISMIEAGADRIGTSSGISIAEEFLKRHLILEHHHH 1mzj-a1-m1-cA_1mzj-a1-m1-cB Crystal Structure of the Priming beta-Ketosynthase from the R1128 Polyketide Biosynthetic Pathway Q9F6D4 Q9F6D4 2.1 X-RAY DIFFRACTION 267 0.997 140437 (Streptomyces sp. R1128) 140437 (Streptomyces sp. R1128) 334 334 GLRVPERRFSRVLGVGSYRPRREVSNKEVCTWIDSTEEWIETRTGIRSRRIAEPDETIQVMGVAASRRALEHAGVDPAEIDLVVVSTMTNFVHTPPLSVAIAHELGADNAGGFDLSAACAGFCHALSIAADAVESGGSRHVLVVATERMTDVIDLADRSLSFLFGDGAGAAVVGPSDVPGIGPVVRGIDGTGLGSLHMSSSWDQYVEDPSVGRPALVMDGKRVFRWAVADVVPAAREALEVAGLTVGDLVAFVPHQANLRIIDVLVDRLGVPEHVVVSRDAEDTGNTSSASVALALDRLVRSGAVPGGGPALMIGFGAGLSYAGQALLLPDPPS PGLRVPERRFSRVLGVGSYRPRREVSNKEVCTWIDSTEEWIETRTGIRSRRIAEPDETIQVMGVAASRRALEHAGVDPAEIDLVVVSTMTNFVHTPPLSVAIAHELGADNAGGFDLSAACAGFCHALSIAADAVESGGSRHVLVVATERMTDVIDLADRSLSFLFGDGAGAAVVGPSDVPGIGPVVRGIDGTGLGSLHMSSSWDQYVEDPSVGRPALVMDGKRVFRWAVADVVPAAREALEVAGLTVGDLVAFVPHQANLRIIDVLVDRLGVPEHVVVSRDAEDTGNTSSASVALALDRLVRSGAVPGGGPALMIGFGAGLSYAGQALLLPDPP 1mzv-a1-m1-cA_1mzv-a1-m2-cA Crystal Structure of Adenine Phosphoribosyltransferase (APRT) From Leishmania tarentolae O77103 O77103 2.2 X-RAY DIFFRACTION 124 1.0 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 216 216 SLKEIGPNSLLLEDSHSLSQLLKKNYRWYSPIFSPRNVPRFADVSSITESPETLKAIRDFLVERYRTMSPAPTHILGFDARGFLFGPMIAVELGIPFVLMRKADKNAGLLIRSEPYEKEYKEAAPEVMTIRHGSIGKNSRVVLIDDVLATGGTALSGLQLVEASGAEVVEMVSILTIPFLKAAERIHSTAGGRYKNVRFIGLLSEDVLTEANCGDL SLKEIGPNSLLLEDSHSLSQLLKKNYRWYSPIFSPRNVPRFADVSSITESPETLKAIRDFLVERYRTMSPAPTHILGFDARGFLFGPMIAVELGIPFVLMRKADKNAGLLIRSEPYEKEYKEAAPEVMTIRHGSIGKNSRVVLIDDVLATGGTALSGLQLVEASGAEVVEMVSILTIPFLKAAERIHSTAGGRYKNVRFIGLLSEDVLTEANCGDL 1n0q-a1-m1-cA_1n0q-a1-m1-cB 3ANK: A designed ankyrin repeat protein with three identical consensus repeats 1.26 X-RAY DIFFRACTION 20 1.0 91 93 RTPLHLAARNGHLEVVKLLLEAGADVNAKDKNGRTPLHLAARNGHLEVVKLLLEAGADVNAKDKNGRTPLHLAARNGHLEVVKLLLEAGAY NGRTPLHLAARNGHLEVVKLLLEAGADVNAKDKNGRTPLHLAARNGHLEVVKLLLEAGADVNAKDKNGRTPLHLAARNGHLEVVKLLLEAGAY 1n0w-a1-m3-cL_1n0w-a1-m1-cA Crystal structure of a RAD51-BRCA2 BRC repeat complex Q06609 1.7 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 3 203 TGS EIIQITTGSKELDKLLQGGIETGSITEFGEFRTGKTQICHTLAVTCQLPIDRGGGEGKAYIDTEGTFRPERLLAVAERYGLSGSDVLDNVAYARAFNTDHQTQLLYQASAVESRYALLIVDSATALYRELSARQHLARFLRLLRLADEFGVAVVITNAHASTTRLYLRKGRGETRICKIYDSPCLPEAEAFAINADGVGDAKD 1n0x-a1-m1-cR_1n0x-a1-m1-cP Crystal Structure of a Broadly Neutralizing Anti-HIV-1 Antibody in Complex with a Peptide Mimotope 1.8 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 20 HERSYMFSDLENRCIAAEK HERSYMFSDLENRCIAAEKK 1n1a-a1-m1-cA_1n1a-a1-m1-cB Crystal Structure of the N-terminal domain of human FKBP52 Q02790 Q02790 2.4 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 APLPMEGVDISPKQDEGVLKVIKREGTGTEMPMIGDRVFVHYTGWLLDGTKFDSSLKFSFDLGKGEVIKAWDIAIATMKVGEVCHITCKPEYAYGSAGSPPKIPPNATLVFEVELFEFKGE APLPMEGVDISPKQDEGVLKVIKREGTGTEMPMIGDRVFVHYTGWLLDGTKFDSSLKFSFDLGKGEVIKAWDIAIATMKVGEVCHITCKPEYAYGSAGSPPKIPPNATLVFEVELFEFKGE 1n1d-a2-m1-cC_1n1d-a2-m1-cD Glycerol-3-phosphate cytidylyltransferase complexed with CDP-glycerol P27623 P27623 2 X-RAY DIFFRACTION 50 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 126 126 1coz-a1-m1-cA_1coz-a1-m1-cB 1n1d-a1-m1-cA_1n1d-a1-m1-cB MKKVITYGTFDLLHWGHIKLLERAKQLGDYLVVAISTDEFNLQKQKKAYHSYEHRKLILETIRYVDEVIPEKNWEQKKQDIIDHNIDVFVMGDDWEGKFDFLKDQCEVVYLPRTEGISTTKIKEEI MKKVITYGTFDLLHWGHIKLLERAKQLGDYLVVAISTDEFNLQKQKKAYHSYEHRKLILETIRYVDEVIPEKNWEQKKQDIIDHNIDVFVMGDDWEGKFDFLKDQCEVVYLPRTEGISTTKIKEEI 1n20-a1-m1-cB_1n20-a1-m1-cA (+)-Bornyl Diphosphate Synthase: Complex with Mg and 3-aza-2,3-dihydrogeranyl diphosphate O81192 O81192 2.3 X-RAY DIFFRACTION 53 0.994 38868 (Salvia officinalis) 38868 (Salvia officinalis) 527 532 1n1b-a1-m1-cA_1n1b-a1-m1-cB 1n1z-a1-m1-cB_1n1z-a1-m1-cA 1n21-a1-m1-cA_1n21-a1-m2-cA 1n22-a1-m1-cB_1n22-a1-m1-cA 1n23-a1-m1-cB_1n23-a1-m1-cA 1n24-a1-m1-cB_1n24-a1-m1-cA QPALWDSNYIQSLNTPYTEERHLDRKAELIVQVRILLKEKMEPVQQLELIHDLKYLGLSDFFQDEIKEILGVIYNEHKCFDLYFTALGFRLLRQHGFNISQDVFNCFKNEKGIDFKASLAQDTKGMLQLYEASFLLRKGEDTLELAREFATKCLQKKLDNEIDENLLLWIRHSLDLPLHWRIQSVEARWFIDAYARRPDMNPLIFELAKLNFNIIQATHQQELKDLSRWWSRLCFPEKLPFVRDRLVESFFWAVGMFEPHQHGYQRKMAATIIVLATVIDDIYDVYGTLDELELFTDTFKRWDTESITRLPYYMQLCYWGVHNYISDAAYDILKEHGFFCLQYLRKSVVDLVEAYFHEAKWYHSGYTPSLDEYLNIAKISVASPAIISPTYFTFANASHDTAVIDSLYQYHDILCLAGIILRLPDDLGTSYFELARGDVPKTIQCYMKETNASEEEAVEHVKFLIREAWKDMNTAIAAGYPFPDGMVAGAANIGRVAQFIYLHGDGFGVQHSKTYEHIAGLLFEPYA IRRSGNYQPALWDSNYIQSLNTPYTEERHLDRKAELIVQVRILLKEKMEPVQQLELIHDLKYLGLSDFFQDEIKEILGVIYNEHKCFHDLYFTALGFRLLRQHGFNISQDVFNCFKNEKGIDFKASLAQDTKGMLQLYEASFLLRKGEDTLELAREFATKCLQKKLDDENLLLWIRHSLDLPLHWRIQSVEARWFIDAYARRPDMNPLIFELAKLNFNIIQATHQQELKDLSRWWSRLCFPEKLPFVRDRLVESFFWAVGMFEPHQHGYQRKMAATIIVLATVIDDIYDVYGTLDELELFTDTFKRWDTESITRLPYYMQLCYWGVHNYISDAAYDILKEHGFFCLQYLRKSVVDLVEAYFHEAKWYHSGYTPSLDEYLNIAKISVASPAIISPTYFTFANASHDTAVIDSLYQYHDILCLAGIILRLPDDLGTSYFELARGDVPKTIQCYMKETNASEEEAVEHVKFLIREAWKDMNTAIAAGYPFPDGMVAGAANIGRVAQFIYLHGDGFGVQHSKTYEHIAGLLFEPYA 1n26-a1-m1-cA_1n26-a1-m2-cA Crystal Structure of the extra-cellular domains of Human Interleukin-6 Receptor alpha chain P08887 P08887 2.4 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 299 299 LAPRRCPAQEVARGVLTSLPGDSVTLTCPGVEPEDNATVHWVLRKPAAGSHPSRWAGMGRRLLLRSVQLHDSGNYSCYRAGRPAGTVHLLVDVPPEEPQLSCFRKSPLSNVVCEWGPRSTPSLTTKAVLLVRKFQNSPAEDFQEPCQYSQESQKFSCQLAVPEGDSSFYIVSMCVASSVGSKFSKTQTFQGCGILQPDPPANITVTAVARNPRWLSVTWQDPHSWNSSFYRLRFELRYRAERSKTFTTWMVKDLQHHCVIHDAWSGLRHVVQLRAQEEFGQGEWSEWSPEAMGTPWTES LAPRRCPAQEVARGVLTSLPGDSVTLTCPGVEPEDNATVHWVLRKPAAGSHPSRWAGMGRRLLLRSVQLHDSGNYSCYRAGRPAGTVHLLVDVPPEEPQLSCFRKSPLSNVVCEWGPRSTPSLTTKAVLLVRKFQNSPAEDFQEPCQYSQESQKFSCQLAVPEGDSSFYIVSMCVASSVGSKFSKTQTFQGCGILQPDPPANITVTAVARNPRWLSVTWQDPHSWNSSFYRLRFELRYRAERSKTFTTWMVKDLQHHCVIHDAWSGLRHVVQLRAQEEFGQGEWSEWSPEAMGTPWTES 1n2f-a1-m1-cA_1n2f-a1-m1-cB CRYSTAL STRUCTURE OF P. AERUGINOSA OHR Q9HZZ3 Q9HZZ3 2.01 X-RAY DIFFRACTION 330 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 142 142 MQTIKALYTATATATGGRDGRAVSSDGVLDVKLSTPREMGGQGGAATNPEQLFAAGYSACFIGAMKFVAGQRKQTLPADASITGKVGIGQIPGGFGLEVELHINLPGMEREAAEALVAAAHQVCPYSNATRGNIDVRLNVSV MQTIKALYTATATATGGRDGRAVSSDGVLDVKLSTPREMGGQGGAATNPEQLFAAGYSACFIGAMKFVAGQRKQTLPADASITGKVGIGQIPGGFGLEVELHINLPGMEREAAEALVAAAHQVCPYSNATRGNIDVRLNVSV 1n2s-a1-m1-cA_1n2s-a1-m2-cA CRYSTAL STRUCTURE OF DTDP-6-DEOXY-L-LYXO-4-HEXULOSE REDUCTASE (RMLD) IN COMPLEX WITH NADH P26392 P26392 2 X-RAY DIFFRACTION 84 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 298 298 1kbz-a1-m1-cA_1kbz-a1-m2-cA 1kc1-a1-m1-cA_1kc1-a1-m2-cA 1kc3-a1-m1-cA_1kc3-a1-m2-cA MNILLFGKTGQVGWELQRSLAPVGNLIALDVHSKEFCGDFSNPKGVAETVRKLRPDVIVNAAAHTAVDKAESEPELAQLLNATSVEAIAKAANETGAWVVHYSTDYVFPGTGDIPWQETDATSPLNVYGKTKLAGEKALQDNCPKHLIFRTSWVYAGKGNNFAKTMLRLAKERQTLSVINDQYGAPTGAELLADCTAHAIRVALNKPEVAGLYHLVAGGTTTWHDYAALVFDEARKAGITLALTELNAVPTSAYPTPASRPGNSRLNTEKFQRNFDLILPQWELGVKRMLTEMFTTTT MNILLFGKTGQVGWELQRSLAPVGNLIALDVHSKEFCGDFSNPKGVAETVRKLRPDVIVNAAAHTAVDKAESEPELAQLLNATSVEAIAKAANETGAWVVHYSTDYVFPGTGDIPWQETDATSPLNVYGKTKLAGEKALQDNCPKHLIFRTSWVYAGKGNNFAKTMLRLAKERQTLSVINDQYGAPTGAELLADCTAHAIRVALNKPEVAGLYHLVAGGTTTWHDYAALVFDEARKAGITLALTELNAVPTSAYPTPASRPGNSRLNTEKFQRNFDLILPQWELGVKRMLTEMFTTTT 1n2z-a3-m1-cA_1n2z-a3-m1-cB 2.0 Angstrom structure of BtuF, the vitamin B12 binding protein of E. coli P37028 P37028 2 X-RAY DIFFRACTION 57 1.0 562 (Escherichia coli) 562 (Escherichia coli) 245 245 AAPRVITLSPANTELAFAAGITPVGVSSYSDYPPQAQKIEQVSTWQGMNLERIVALKPDLVIAWRGGNAERQVDQLASLGIKVMWVDATSIEQIANALRQLAPWSPQPDKAEQAAQSLLDQYAQLKAQYADKPKKRVFLQFGINPPFTSGKESIQNQVLEVCGGENIFKDSRVPWPQVSREQVLARSPQAIVITGGPDQIPKIKQYWGEQLKIPVIPLTSDWFERASPRIILAAQQLCNALSQVD AAPRVITLSPANTELAFAAGITPVGVSSYSDYPPQAQKIEQVSTWQGMNLERIVALKPDLVIAWRGGNAERQVDQLASLGIKVMWVDATSIEQIANALRQLAPWSPQPDKAEQAAQSLLDQYAQLKAQYADKPKKRVFLQFGINPPFTSGKESIQNQVLEVCGGENIFKDSRVPWPQVSREQVLARSPQAIVITGGPDQIPKIKQYWGEQLKIPVIPLTSDWFERASPRIILAAQQLCNALSQVD 1n2z-a4-m1-cA_1n2z-a4-m2-cB 2.0 Angstrom structure of BtuF, the vitamin B12 binding protein of E. coli P37028 P37028 2 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 245 245 AAPRVITLSPANTELAFAAGITPVGVSSYSDYPPQAQKIEQVSTWQGMNLERIVALKPDLVIAWRGGNAERQVDQLASLGIKVMWVDATSIEQIANALRQLAPWSPQPDKAEQAAQSLLDQYAQLKAQYADKPKKRVFLQFGINPPFTSGKESIQNQVLEVCGGENIFKDSRVPWPQVSREQVLARSPQAIVITGGPDQIPKIKQYWGEQLKIPVIPLTSDWFERASPRIILAAQQLCNALSQVD AAPRVITLSPANTELAFAAGITPVGVSSYSDYPPQAQKIEQVSTWQGMNLERIVALKPDLVIAWRGGNAERQVDQLASLGIKVMWVDATSIEQIANALRQLAPWSPQPDKAEQAAQSLLDQYAQLKAQYADKPKKRVFLQFGINPPFTSGKESIQNQVLEVCGGENIFKDSRVPWPQVSREQVLARSPQAIVITGGPDQIPKIKQYWGEQLKIPVIPLTSDWFERASPRIILAAQQLCNALSQVD 1n3b-a1-m1-cA_1n3b-a1-m1-cC Crystal Structure of Dephosphocoenzyme A kinase from Escherichia coli P0A6I9 P0A6I9 1.8 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 174 203 1n3b-a1-m1-cA_1n3b-a1-m1-cB RYIVALTGGIGSGKSTVANAFADLGINVIDADIIARQVVEPGAPALHAPEEKNWLNALLHPLIQQETQHQIQQATSPYVLWVVPLLVENSLYKKANRVLVVDVSPETQLKRTQRDDVTREHVEQILAAQATREARLAVADDVIDNNGAPDAIASDVARLHAHYLQLASQFVSQE RYIVALTGGIGSGKSTVANAFADLGINVIDADIIARQVVEPGAPALHAIADHFGANIAADGTLQRRALRERIFANPEEKNWLNALLHPLIQQETQHQIQQATSPYVLWVVPLLVENSLYKKANRVLVVDVSPETQLKRTQRDDVTREHVEQILAAQATREARLAVADDVIDNNGAPDAIASDVARLHAHYLQLASQFVSQEKP 1n3j-a1-m1-cA_1n3j-a1-m1-cB Structure and Substrate of a Histone H3 Lysine Methyltransferase from Paramecium Bursaria Chlorella Virus 1 O41094 O41094 NOT SOLUTION NMR 44 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 119 119 MFNDRVIVKKSPLGGYGVFARKSFEKGELVEECLCIVRHNDDWGTALEDYLFSRKNMSAMALGFGAIFNHSKDPNARHELTAGLKRMRIFTIKPIAIGEEITISYGDDYWLSRPRLTQN MFNDRVIVKKSPLGGYGVFARKSFEKGELVEECLCIVRHNDDWGTALEDYLFSRKNMSAMALGFGAIFNHSKDPNARHELTAGLKRMRIFTIKPIAIGEEITISYGDDYWLSRPRLTQN 1n46-a1-m1-cB_1n46-a1-m1-cA CRYSTAL STRUCTURE OF HUMAN TR BETA LIGAND-BINDING DOMAIN COMPLEXED WITH A POTENT SUBTYPE-SELECTIVE THYROMIMETIC P10828 P10828 2.2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 248 KPEPTDEEWELIKTVTEAHVATNAQWKQKRKFLPEDIGQAKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFDLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFED KPEPTDEEWELIKTVTEAHVATNAQWKQKRKFLPEDIGQAPIVNAPEGGKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFDLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFED 1n47-a1-m1-cA_1n47-a1-m1-cD Isolectin B4 from Vicia villosa in complex with the Tn antigen P56625 P56625 2.7 X-RAY DIFFRACTION 67 1.0 3911 (Vicia villosa) 3911 (Vicia villosa) 233 233 1n47-a1-m1-cB_1n47-a1-m1-cC TESTSFSFTNFNPNQNNLILQEDALVNSAGTLELTAVAAGAPVPDSLGRALYAAPIHIHDNTTLASFTTSFSFVMAAPAAAAVADGLAFFLAPPDTQPQARGGFLGLFADRAHDASYQTVAVEFDTYSNAWDPNYTHIGIDTNGIESKKTTPFDMVYGEKANIVITYQASTKALAASLVFPVSQTSYAVSARVDLRDILPEYVRVGFSATTGLNAGVVETHDIVSWSFAVSLA TESTSFSFTNFNPNQNNLILQEDALVNSAGTLELTAVAAGAPVPDSLGRALYAAPIHIHDNTTLASFTTSFSFVMAAPAAAAVADGLAFFLAPPDTQPQARGGFLGLFADRAHDASYQTVAVEFDTYSNAWDPNYTHIGIDTNGIESKKTTPFDMVYGEKANIVITYQASTKALAASLVFPVSQTSYAVSARVDLRDILPEYVRVGFSATTGLNAGVVETHDIVSWSFAVSLA 1n47-a1-m1-cC_1n47-a1-m1-cD Isolectin B4 from Vicia villosa in complex with the Tn antigen P56625 P56625 2.7 X-RAY DIFFRACTION 68 1.0 3911 (Vicia villosa) 3911 (Vicia villosa) 233 233 1n47-a1-m1-cA_1n47-a1-m1-cB TESTSFSFTNFNPNQNNLILQEDALVNSAGTLELTAVAAGAPVPDSLGRALYAAPIHIHDNTTLASFTTSFSFVMAAPAAAAVADGLAFFLAPPDTQPQARGGFLGLFADRAHDASYQTVAVEFDTYSNAWDPNYTHIGIDTNGIESKKTTPFDMVYGEKANIVITYQASTKALAASLVFPVSQTSYAVSARVDLRDILPEYVRVGFSATTGLNAGVVETHDIVSWSFAVSLA TESTSFSFTNFNPNQNNLILQEDALVNSAGTLELTAVAAGAPVPDSLGRALYAAPIHIHDNTTLASFTTSFSFVMAAPAAAAVADGLAFFLAPPDTQPQARGGFLGLFADRAHDASYQTVAVEFDTYSNAWDPNYTHIGIDTNGIESKKTTPFDMVYGEKANIVITYQASTKALAASLVFPVSQTSYAVSARVDLRDILPEYVRVGFSATTGLNAGVVETHDIVSWSFAVSLA 1n4o-a1-m1-cA_1n4o-a1-m1-cB Crystal structure of the Class A beta-lactamase L2 from Stenotrophomonas maltophilia Q9RBQ1 Q9RBQ1 1.85 X-RAY DIFFRACTION 27 1.0 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 267 272 TDAAITAASDFAALEKACAGRLGVTLLDTASGRRIGHRQDERFPMCSTFKSMLAATVLSQAERMPALLDRRVPVGEADLLSHAPVTRRHAGKDMTVRDLCRATIITSDNTAANLLFGVVGGPPAVTAFLRASGDTVSRSDRLEPELNSFAKGDPRDTTTPAAMAATLQRVVLGEVLQPASRQQLADWLIDNETGDACLRAGLGKRWRVGDKTGSNGEDARNDIAVLWPVAGGAPWVLTAYLQAGAISYEQRASVLAQVGRIADRLIG TANAPTDAAITAASDFAALEKACAGRLGVTLLDTASGRRIGHRQDERFPMCSTFKSMLAATVLSQAERMPALLDRRVPVGEADLLSHAPVTRRHAGKDMTVRDLCRATIITSDNTAANLLFGVVGGPPAVTAFLRASGDTVSRSDRLEPELNSFAKGDPRDTTTPAAMAATLQRVVLGEVLQPASRQQLADWLIDNETGDACLRAGLGKRWRVGDKTGSNGEDARNDIAVLWPVAGGAPWVLTAYLQAGAISYEQRASVLAQVGRIADRLIG 1n5s-a1-m1-cA_1n5s-a1-m1-cB Crystal structure of a Monooxygenase from the gene ActVA-Orf6 of Streptomyces coelicolor in complex with the ligand Acetyl Dithranol Q53908 Q53908 1.7 X-RAY DIFFRACTION 136 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 112 112 1lq9-a1-m1-cA_1lq9-a1-m1-cB 1n5q-a1-m1-cA_1n5q-a1-m1-cB 1n5t-a1-m1-cA_1n5t-a1-m1-cB 1n5v-a1-m1-cA_1n5v-a1-m1-cB AEVNDPRVGFVAVVTFPVDGPATQHKLVELATGGVQEWIREVPGFLSATYHASTDGTAVVNYAQWESEQAYRVNFGADPRSAELREALSSLPGLMGPPKAVFMTPRGAILPS AEVNDPRVGFVAVVTFPVDGPATQHKLVELATGGVQEWIREVPGFLSATYHASTDGTAVVNYAQWESEQAYRVNFGADPRSAELREALSSLPGLMGPPKAVFMTPRGAILPS 1n60-a1-m1-cE_1n60-a1-m1-cB Crystal Structure of the Cu,Mo-CO Dehydrogenase (CODH); Cyanide-inactivated Form P19919 P19919 1.19 X-RAY DIFFRACTION 137 1.0 504832 (Afipia carboxidovorans OM5) 504832 (Afipia carboxidovorans OM5) 796 803 1n5w-a1-m1-cE_1n5w-a1-m1-cB 1n61-a1-m1-cE_1n61-a1-m1-cB 1n62-a1-m1-cE_1n62-a1-m1-cB 1n63-a1-m1-cE_1n63-a1-m1-cB 1zxi-a1-m1-cE_1zxi-a1-m1-cB RAEKLQGMGCKRKRVEDIRFTQGKGNYVDDVKLPGMLFGDFVRSSHAHARIKSIDTSKAKALPGVFAVLTAADLKPLNLHYMPTLAGDVQAVLADEKVLFQNQEVAFVVAKDRYVAADAIELVEVDYEPLPVLVDPFKAMEPDAPLLREDIKDKMTGAHGARKHHNHIFRWEIGDKEGTDATFAKAEVVSKDMFTYHRVHPSPLETCQCVASMDKIKGELTLWGTFQAPHVIRTVVSLISGLPEHKIHVIAPDIGGGFGNKVGAYSGYVCAVVASIVLGVPVKWVEDRMENLSTTSFARDYHMTTELAATKDGKILAMRCHVLADHGAFDACADPSKWPAGFMNICTGSYDMPVAHLAVDGVYTNKASGGVAYRCSFRVTEAVYAIERAIETLAQRLEMDSADLRIKNFIQPEQFPYMAPLGWEYDSGNYPLAMKKAMDTVGYHQLRAEQKAKQEAFKRGETREIMGIGISFFTEIVGAGPSKNCDILGVSMFDSAEIRIHPTGSVIARMGTKSQGQGHETTYAQIIATELGIPADDIMIEEGNTDTAPYGLGTYGSRSTPTAGAATAVAARKIKAKAQMIAAHMLEVHEGDLEWDVDRFRVKGLPEKFKTMKELAWASYNSPPPNLEPGLEAVNYYDPPNMTYPFGAYFCIMDIDVDTGVAKTRRFYALDDCGTRINPMIIEGQVHGGLTEAFAVAMGQEIRYDEQGNVLGASFMDFFLPTAVETPKWETDYTVTPSPHHPIGAKGVGESPHVGGVPCFSNAVNDAYAFLNAGHIQMPHDAWRLWKVGEQLGLHV VEPTSAERAEKLQGMGCKRKRVEDIRFTQGKGNYVDDVKLPGMLFGDFVRSSHAHARIKSIDTSKAKALPGVFAVLTAADLKPLNLHYMPTLAGDVQAVLADEKVLFQNQEVAFVVAKDRYVAADAIELVEVDYEPLPVLVDPFKAMEPDAPLLREDIKDKMTGAHGARKHHNHIFRWEIGDKEGTDATFAKAEVVSKDMFTYHRVHPSPLETCQCVASMDKIKGELTLWGTFQAPHVIRTVVSLISGLPEHKIHVIAPDIGGGFGNKVGAYSGYVCAVVASIVLGVPVKWVEDRMENLSTTSFARDYHMTTELAATKDGKILAMRCHVLADHGAFDACADPSKWPAGFMNICTGSYDMPVAHLAVDGVYTNKASGGVAYRCSFRVTEAVYAIERAIETLAQRLEMDSADLRIKNFIQPEQFPYMAPLGWEYDSGNYPLAMKKAMDTVGYHQLRAEQKAKQEAFKRGETREIMGIGISFFTEIVGAGPSKNCDILGVSMFDSAEIRIHPTGSVIARMGTKSQGQGHETTYAQIIATELGIPADDIMIEEGNTDTAPYGLGTYGSRSTPTAGAATAVAARKIKAKAQMIAAHMLEVHEGDLEWDVDRFRVKGLPEKFKTMKELAWASYNSPPPNLEPGLEAVNYYDPPNMTYPFGAYFCIMDIDVDTGVAKTRRFYALDDCGTRINPMIIEGQVHGGLTEAFAVAMGQEIRYDEQGNVLGASFMDFFLPTAVETPKWETDYTVTPSPHHPIGAKGVGESPHVGGVPCFSNAVNDAYAFLNAGHIQMPHDAWRLWKVGEQLGLHV 1n6b-a2-m2-cA_1n6b-a2-m4-cA Microsomal Cytochrome P450 2C5/3LVdH Complex with a dimethyl derivative of sulfaphenazole P00179 P00179 2.3 X-RAY DIFFRACTION 12 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 462 462 1dt6-a2-m1-cA_1dt6-a2-m3-cA 1dt6-a2-m2-cA_1dt6-a2-m4-cA 1n6b-a2-m1-cA_1n6b-a2-m3-cA GKLPPGPTPFPIIGNILQIDAKDISKSLTKFSECYGPVFTVYLGMKPTVVLHGYEAVKEALVDLGEEFAGRGSVPILEKVSKGLGIAFSNAKTWKEMRRFSLMTLRNFGMGKRSIEDRIQEEARCLVEELRKTNASPCDPTFILGCAPCNVICSVIFHNRFDYKDEEFLKLMESLHENVELLGTPWLQVYNNFPALLDYFPGIHKTLLKNADYIKNFIMEKVKEHQKLLDVNNPRDFIDCFLIKMEQENNLEFTLESLVIAVSDLFGAGTETTSTTLRYSLLLLLKHPEVAARVQEEIERVIGRHRSPCMQDRSRMPYTDAVIHEIQRFIDLLPTNLPHAVTRDVRFRNYFIPKGTDIITSLTSVLHDEKAFPNPKVFDPGHFLDESGNFKKSDYFMPFSAGKRMCVGEGLARMELFLFLTSILQNFKLQSLVEPKDLDITAVVNGFVSVPPSYQLCFIPIH GKLPPGPTPFPIIGNILQIDAKDISKSLTKFSECYGPVFTVYLGMKPTVVLHGYEAVKEALVDLGEEFAGRGSVPILEKVSKGLGIAFSNAKTWKEMRRFSLMTLRNFGMGKRSIEDRIQEEARCLVEELRKTNASPCDPTFILGCAPCNVICSVIFHNRFDYKDEEFLKLMESLHENVELLGTPWLQVYNNFPALLDYFPGIHKTLLKNADYIKNFIMEKVKEHQKLLDVNNPRDFIDCFLIKMEQENNLEFTLESLVIAVSDLFGAGTETTSTTLRYSLLLLLKHPEVAARVQEEIERVIGRHRSPCMQDRSRMPYTDAVIHEIQRFIDLLPTNLPHAVTRDVRFRNYFIPKGTDIITSLTSVLHDEKAFPNPKVFDPGHFLDESGNFKKSDYFMPFSAGKRMCVGEGLARMELFLFLTSILQNFKLQSLVEPKDLDITAVVNGFVSVPPSYQLCFIPIH 1n6b-a2-m3-cA_1n6b-a2-m4-cA Microsomal Cytochrome P450 2C5/3LVdH Complex with a dimethyl derivative of sulfaphenazole P00179 P00179 2.3 X-RAY DIFFRACTION 53 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 462 462 1dt6-a2-m1-cA_1dt6-a2-m2-cA 1dt6-a2-m3-cA_1dt6-a2-m4-cA 1n6b-a2-m1-cA_1n6b-a2-m2-cA GKLPPGPTPFPIIGNILQIDAKDISKSLTKFSECYGPVFTVYLGMKPTVVLHGYEAVKEALVDLGEEFAGRGSVPILEKVSKGLGIAFSNAKTWKEMRRFSLMTLRNFGMGKRSIEDRIQEEARCLVEELRKTNASPCDPTFILGCAPCNVICSVIFHNRFDYKDEEFLKLMESLHENVELLGTPWLQVYNNFPALLDYFPGIHKTLLKNADYIKNFIMEKVKEHQKLLDVNNPRDFIDCFLIKMEQENNLEFTLESLVIAVSDLFGAGTETTSTTLRYSLLLLLKHPEVAARVQEEIERVIGRHRSPCMQDRSRMPYTDAVIHEIQRFIDLLPTNLPHAVTRDVRFRNYFIPKGTDIITSLTSVLHDEKAFPNPKVFDPGHFLDESGNFKKSDYFMPFSAGKRMCVGEGLARMELFLFLTSILQNFKLQSLVEPKDLDITAVVNGFVSVPPSYQLCFIPIH GKLPPGPTPFPIIGNILQIDAKDISKSLTKFSECYGPVFTVYLGMKPTVVLHGYEAVKEALVDLGEEFAGRGSVPILEKVSKGLGIAFSNAKTWKEMRRFSLMTLRNFGMGKRSIEDRIQEEARCLVEELRKTNASPCDPTFILGCAPCNVICSVIFHNRFDYKDEEFLKLMESLHENVELLGTPWLQVYNNFPALLDYFPGIHKTLLKNADYIKNFIMEKVKEHQKLLDVNNPRDFIDCFLIKMEQENNLEFTLESLVIAVSDLFGAGTETTSTTLRYSLLLLLKHPEVAARVQEEIERVIGRHRSPCMQDRSRMPYTDAVIHEIQRFIDLLPTNLPHAVTRDVRFRNYFIPKGTDIITSLTSVLHDEKAFPNPKVFDPGHFLDESGNFKKSDYFMPFSAGKRMCVGEGLARMELFLFLTSILQNFKLQSLVEPKDLDITAVVNGFVSVPPSYQLCFIPIH 1n6m-a2-m1-cA_1n6m-a2-m2-cA Rotation of the stalk/neck and one head in a new crystal structure of the kinesin motor protein, Ncd P20480 P20480 2.5 X-RAY DIFFRACTION 46 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 362 362 MHAALSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAQMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRASSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPKTETKNIKRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNSCK MHAALSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAQMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRASSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPKTETKNIKRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNSCK 1n73-a1-m1-cC_1n73-a1-m1-cF Fibrin D-Dimer, Lamprey complexed with the PEPTIDE LIGAND: GLY-HIS-ARG-PRO-AMIDE P04115 P04115 2.9 X-RAY DIFFRACTION 58 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 322 322 KTVQKILEEVRILEQIGVSHDAQIQELSEMWRVNQQFVTRLQQQLVDIRQTCSRSCQDTTANKISPITGKDCQQVVDNGGKDSGLYYIKPLKAKQPFLVFCEIENGNGWTVIQHRHDGSVNFTRDWVSYREGFGYLAPTLTTEFWLGNEKIHLLTGQQAYRLRIDLTDWENTHRYADYGHFKLTPESDEYRLFYSMYLDGDAGNAFDGFDFGDDPQDKFYTTHLGMLFSTPERDNDKYEGSCAEQDGSGWWMNRCHAGHLNGKYYFGGNYRKTDVEFPYDDGIIWATWHDRWYSLKMTTMKLLPMGRDLSGHGGQQQSKGNS KTVQKILEEVRILEQIGVSHDAQIQELSEMWRVNQQFVTRLQQQLVDIRQTCSRSCQDTTANKISPITGKDCQQVVDNGGKDSGLYYIKPLKAKQPFLVFCEIENGNGWTVIQHRHDGSVNFTRDWVSYREGFGYLAPTLTTEFWLGNEKIHLLTGQQAYRLRIDLTDWENTHRYADYGHFKLTPESDEYRLFYSMYLDGDAGNAFDGFDFGDDPQDKFYTTHLGMLFSTPERDNDKYEGSCAEQDGSGWWMNRCHAGHLNGKYYFGGNYRKTDVEFPYDDGIIWATWHDRWYSLKMTTMKLLPMGRDLSGHGGQQQSKGNS 1n7f-a1-m1-cA_1n7f-a1-m1-cB Crystal structure of the sixth PDZ domain of GRIP1 in complex with liprin C-terminal peptide P97879 P97879 1.8 X-RAY DIFFRACTION 43 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 86 86 AIIYTVELKRYGGPLGITISGTEEPFDPIIISSLTKGGLAERTGAIHIGDRILAINSSSLKGKPLSEAIHLLQMAGETVTLKIKKQ AIIYTVELKRYGGPLGITISGTEEPFDPIIISSLTKGGLAERTGAIHIGDRILAINSSSLKGKPLSEAIHLLQMAGETVTLKIKKQ 1n7k-a1-m1-cA_1n7k-a1-m2-cB Unique tetrameric structure of deoxyribose phosphate aldolase from Aeropyrum pernix Q9Y948 Q9Y948 2 X-RAY DIFFRACTION 79 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 234 234 1n7k-a1-m1-cB_1n7k-a1-m2-cA PSARDILQQGLDRLGSPEDLASRIDSTLLSPRATEEDVRNLVREASDYGFRCAVLTPVYTVKISGLAEKLGVKLCSVIGFPLGQAPLEVKLVEAQTVLEAGATELDVVPHLSLGPEAVYREVSGIVKLAKSYGAVVKVILEAPLWDDKTLSLLVDSSRRAGADIVKTSTGVYTKGGDPVTVFRLASLAKPLGMGVKASGGIRSGIDAVLAVGAGADIIGTSSAVKVLESFKSLV PSARDILQQGLDRLGSPEDLASRIDSTLLSPRATEEDVRNLVREASDYGFRCAVLTPVYTVKISGLAEKLGVKLCSVIGFPLGQAPLEVKLVEAQTVLEAGATELDVVPHLSLGPEAVYREVSGIVKLAKSYGAVVKVILEAPLWDDKTLSLLVDSSRRAGADIVKTSTGVYTKGGDPVTVFRLASLAKPLGMGVKASGGIRSGIDAVLAVGAGADIIGTSSAVKVLESFKSLV 1n7k-a1-m2-cA_1n7k-a1-m2-cB Unique tetrameric structure of deoxyribose phosphate aldolase from Aeropyrum pernix Q9Y948 Q9Y948 2 X-RAY DIFFRACTION 94 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 234 234 1n7k-a1-m1-cA_1n7k-a1-m1-cB PSARDILQQGLDRLGSPEDLASRIDSTLLSPRATEEDVRNLVREASDYGFRCAVLTPVYTVKISGLAEKLGVKLCSVIGFPLGQAPLEVKLVEAQTVLEAGATELDVVPHLSLGPEAVYREVSGIVKLAKSYGAVVKVILEAPLWDDKTLSLLVDSSRRAGADIVKTSTGVYTKGGDPVTVFRLASLAKPLGMGVKASGGIRSGIDAVLAVGAGADIIGTSSAVKVLESFKSLV PSARDILQQGLDRLGSPEDLASRIDSTLLSPRATEEDVRNLVREASDYGFRCAVLTPVYTVKISGLAEKLGVKLCSVIGFPLGQAPLEVKLVEAQTVLEAGATELDVVPHLSLGPEAVYREVSGIVKLAKSYGAVVKVILEAPLWDDKTLSLLVDSSRRAGADIVKTSTGVYTKGGDPVTVFRLASLAKPLGMGVKASGGIRSGIDAVLAVGAGADIIGTSSAVKVLESFKSLV 1n7v-a1-m1-cA_1n7v-a1-m2-cA THE RECEPTOR-BINDING PROTEIN P2 OF BACTERIOPHAGE PRD1: CRYSTAL FORM III P27378 P27378 2.2 X-RAY DIFFRACTION 45 1.0 10658 (Enterobacteria phage PRD1) 10658 (Enterobacteria phage PRD1) 533 533 1n7u-a1-m1-cA_1n7u-a1-m2-cA ANFNVPKLGVFPVAAVFDIDNVPEDSSATGSRWLPSIYQGGNYWGGGPQALHAQVSNFDSSNRLPYNPRTENNPAGNCAFAFNPFGQYISNISSAQSVHRRIYGIDLNDEPLFSPNAASITNGGNPTMSQDTGYHNIGPINTAYKAEIFRPVNPLPMSDTAPDPETLEPGQTEPLIKSDGVYSNSGIASFIFDRPVTEPNPNWPPLPPPVIPIIYPTPALGIGAAAAYGFGYQVTVYRWEEIPVEFLNPEGSPCAYEAGIILVRQTSNPMNAVAGRLVPYVEDIAVDIFLTGKFFTLNPPLRITNNYFADDEVKENTVTIGNYTTTLSSAYYAVYKTDGYGGATCFIASGGAGISALVQLQDNSVLDVLYYSLPLSLGGSKAAIDEWVANNCGLFPMSGGLDKTTLLEIPRRQLEAINPQDGPGQYDLFILDDSGAYASFSSFIGYPEAAYYVAGAATFMDVENPDEIIFILRNGAGWYACEIGDALKIADDEFDSVDYFAYRGGVMFIGSARYTEGGDPLPIKYRAIIPGLP ANFNVPKLGVFPVAAVFDIDNVPEDSSATGSRWLPSIYQGGNYWGGGPQALHAQVSNFDSSNRLPYNPRTENNPAGNCAFAFNPFGQYISNISSAQSVHRRIYGIDLNDEPLFSPNAASITNGGNPTMSQDTGYHNIGPINTAYKAEIFRPVNPLPMSDTAPDPETLEPGQTEPLIKSDGVYSNSGIASFIFDRPVTEPNPNWPPLPPPVIPIIYPTPALGIGAAAAYGFGYQVTVYRWEEIPVEFLNPEGSPCAYEAGIILVRQTSNPMNAVAGRLVPYVEDIAVDIFLTGKFFTLNPPLRITNNYFADDEVKENTVTIGNYTTTLSSAYYAVYKTDGYGGATCFIASGGAGISALVQLQDNSVLDVLYYSLPLSLGGSKAAIDEWVANNCGLFPMSGGLDKTTLLEIPRRQLEAINPQDGPGQYDLFILDDSGAYASFSSFIGYPEAAYYVAGAATFMDVENPDEIIFILRNGAGWYACEIGDALKIADDEFDSVDYFAYRGGVMFIGSARYTEGGDPLPIKYRAIIPGLP 1n8e-a1-m1-cC_1n8e-a1-m1-cF Fragment Double-D from Human Fibrin P02679 P02679 4.5 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 295 EASILTHDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNR EASILTHDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNR 1n8p-a1-m1-cA_1n8p-a1-m1-cD Crystal Structure of cystathionine gamma-lyase from yeast P31373 P31373 2.6 X-RAY DIFFRACTION 108 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 393 393 1n8p-a1-m1-cB_1n8p-a1-m1-cC TLQESDKFATKAIHAGEHVDVHGSVIEPISLSTTFKQSSPANPIGTYEYSRSQNPNRENLERAVAALENAQYGLAFSSGSATTATILQSLPQGSHAVSIGDVYGGTHRYFTKVANAHGVETSFTNDLLNDLPQLIKENTKLVWIETPTNPTLKVTDIQKVADLIKKHAAGQDVILVVDNTFLSPYISNPLNFGADIVVHSATKYINGHSDVVLGVLATNNKPLYERLQFLQNAIGAIPSPFDAWLTHRGLKTLHLRVRQAALSANKIAEFLAADKENVVAVNYPGLKTHPNYDVVLKQHRDALGGGMISFRIKGGAEAASKFASSTRLFTLAESLGGIESLLEVPAVMTHGGIPKEAREASGVFDDLVRISVGIEDTDDLLEDIKQALKQATN TLQESDKFATKAIHAGEHVDVHGSVIEPISLSTTFKQSSPANPIGTYEYSRSQNPNRENLERAVAALENAQYGLAFSSGSATTATILQSLPQGSHAVSIGDVYGGTHRYFTKVANAHGVETSFTNDLLNDLPQLIKENTKLVWIETPTNPTLKVTDIQKVADLIKKHAAGQDVILVVDNTFLSPYISNPLNFGADIVVHSATKYINGHSDVVLGVLATNNKPLYERLQFLQNAIGAIPSPFDAWLTHRGLKTLHLRVRQAALSANKIAEFLAADKENVVAVNYPGLKTHPNYDVVLKQHRDALGGGMISFRIKGGAEAASKFASSTRLFTLAESLGGIESLLEVPAVMTHGGIPKEAREASGVFDDLVRISVGIEDTDDLLEDIKQALKQATN 1n8p-a1-m1-cB_1n8p-a1-m1-cD Crystal Structure of cystathionine gamma-lyase from yeast P31373 P31373 2.6 X-RAY DIFFRACTION 83 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 393 393 1n8p-a1-m1-cA_1n8p-a1-m1-cC TLQESDKFATKAIHAGEHVDVHGSVIEPISLSTTFKQSSPANPIGTYEYSRSQNPNRENLERAVAALENAQYGLAFSSGSATTATILQSLPQGSHAVSIGDVYGGTHRYFTKVANAHGVETSFTNDLLNDLPQLIKENTKLVWIETPTNPTLKVTDIQKVADLIKKHAAGQDVILVVDNTFLSPYISNPLNFGADIVVHSATKYINGHSDVVLGVLATNNKPLYERLQFLQNAIGAIPSPFDAWLTHRGLKTLHLRVRQAALSANKIAEFLAADKENVVAVNYPGLKTHPNYDVVLKQHRDALGGGMISFRIKGGAEAASKFASSTRLFTLAESLGGIESLLEVPAVMTHGGIPKEAREASGVFDDLVRISVGIEDTDDLLEDIKQALKQATN TLQESDKFATKAIHAGEHVDVHGSVIEPISLSTTFKQSSPANPIGTYEYSRSQNPNRENLERAVAALENAQYGLAFSSGSATTATILQSLPQGSHAVSIGDVYGGTHRYFTKVANAHGVETSFTNDLLNDLPQLIKENTKLVWIETPTNPTLKVTDIQKVADLIKKHAAGQDVILVVDNTFLSPYISNPLNFGADIVVHSATKYINGHSDVVLGVLATNNKPLYERLQFLQNAIGAIPSPFDAWLTHRGLKTLHLRVRQAALSANKIAEFLAADKENVVAVNYPGLKTHPNYDVVLKQHRDALGGGMISFRIKGGAEAASKFASSTRLFTLAESLGGIESLLEVPAVMTHGGIPKEAREASGVFDDLVRISVGIEDTDDLLEDIKQALKQATN 1n8p-a1-m1-cC_1n8p-a1-m1-cD Crystal Structure of cystathionine gamma-lyase from yeast P31373 P31373 2.6 X-RAY DIFFRACTION 190 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 393 393 1n8p-a1-m1-cA_1n8p-a1-m1-cB TLQESDKFATKAIHAGEHVDVHGSVIEPISLSTTFKQSSPANPIGTYEYSRSQNPNRENLERAVAALENAQYGLAFSSGSATTATILQSLPQGSHAVSIGDVYGGTHRYFTKVANAHGVETSFTNDLLNDLPQLIKENTKLVWIETPTNPTLKVTDIQKVADLIKKHAAGQDVILVVDNTFLSPYISNPLNFGADIVVHSATKYINGHSDVVLGVLATNNKPLYERLQFLQNAIGAIPSPFDAWLTHRGLKTLHLRVRQAALSANKIAEFLAADKENVVAVNYPGLKTHPNYDVVLKQHRDALGGGMISFRIKGGAEAASKFASSTRLFTLAESLGGIESLLEVPAVMTHGGIPKEAREASGVFDDLVRISVGIEDTDDLLEDIKQALKQATN TLQESDKFATKAIHAGEHVDVHGSVIEPISLSTTFKQSSPANPIGTYEYSRSQNPNRENLERAVAALENAQYGLAFSSGSATTATILQSLPQGSHAVSIGDVYGGTHRYFTKVANAHGVETSFTNDLLNDLPQLIKENTKLVWIETPTNPTLKVTDIQKVADLIKKHAAGQDVILVVDNTFLSPYISNPLNFGADIVVHSATKYINGHSDVVLGVLATNNKPLYERLQFLQNAIGAIPSPFDAWLTHRGLKTLHLRVRQAALSANKIAEFLAADKENVVAVNYPGLKTHPNYDVVLKQHRDALGGGMISFRIKGGAEAASKFASSTRLFTLAESLGGIESLLEVPAVMTHGGIPKEAREASGVFDDLVRISVGIEDTDDLLEDIKQALKQATN 1n93-a1-m2-cX_1n93-a1-m4-cX Crystal Structure of the Borna Disease Virus Nucleoprotein P0C796 P0C796 1.76 X-RAY DIFFRACTION 144 1.0 12455 (Borna disease virus) 12455 (Borna disease virus) 335 335 1n93-a1-m1-cX_1n93-a1-m3-cX 1n93-a1-m1-cX_1n93-a1-m4-cX 1n93-a1-m2-cX_1n93-a1-m3-cX 1pp1-a1-m1-cX_1pp1-a1-m3-cX 1pp1-a1-m1-cX_1pp1-a1-m4-cX 1pp1-a1-m2-cX_1pp1-a1-m3-cX 1pp1-a1-m2-cX_1pp1-a1-m4-cX KLPGKFLQYTVGGSDPHPGIGHEKDIRQNAVALLDQSRRDMFHTVTPSLVFLCLLIPGLHAAFVHGGVPRESYLSTPVTRGEQTVVKTAKFYGEKTTQRDLTELEISSIFSHCCSLLIGVVIGSSSKIKAGAEQIKKRFKTMMAALNRPSHGETATLLQMFNPHEAIDWINGQPWVGSFVLSLLTTDFESPGKEFMDQIKLVASYAQMTTYTTIKEYLAECMDATLTIPVVAYEIRDFLEVSAKLKEDHADLFPFLGAIRHPDAIKLAPRSFPNLASAAFYWSKKENSTIQPGASVKETQLARYRRREISRGEDGAELSGEISAIMKMIGVTGLN KLPGKFLQYTVGGSDPHPGIGHEKDIRQNAVALLDQSRRDMFHTVTPSLVFLCLLIPGLHAAFVHGGVPRESYLSTPVTRGEQTVVKTAKFYGEKTTQRDLTELEISSIFSHCCSLLIGVVIGSSSKIKAGAEQIKKRFKTMMAALNRPSHGETATLLQMFNPHEAIDWINGQPWVGSFVLSLLTTDFESPGKEFMDQIKLVASYAQMTTYTTIKEYLAECMDATLTIPVVAYEIRDFLEVSAKLKEDHADLFPFLGAIRHPDAIKLAPRSFPNLASAAFYWSKKENSTIQPGASVKETQLARYRRREISRGEDGAELSGEISAIMKMIGVTGLN 1n9j-a1-m1-cA_1n9j-a1-m1-cB Solution Structure of the 3D domain swapped dimer of Stefin A P01040 P01040 NOT SOLUTION NMR 172 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 MIPGGLSEAKPATPEIQEIVDKVKPQLEEKTNETYGKLEAVQYKTQVVAGTNYYIKVRAGDNKYMHLKVFKSLPGQNEDLVLTGYQVDKNKDDELTGF MIPGGLSEAKPATPEIQEIVDKVKPQLEEKTNETYGKLEAVQYKTQVVAGTNYYIKVRAGDNKYMHLKVFKSLPGQNEDLVLTGYQVDKNKDDELTGF 1n9l-a2-m1-cA_1n9l-a2-m2-cA Crystal structure of the Phot-LOV1 domain from Chlamydomonas reinhardtii in the dark state. Q8LPD9 Q8LPD9 1.9 X-RAY DIFFRACTION 24 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 109 109 1n9o-a2-m1-cA_1n9o-a2-m2-cA GLRHTFVVADATLPDCPLVYASEGFYAMTGYGPDEVLGHNCRFLQGEGTDPKEVQKIRDAIKKGEACSVRLLNYRKDGTPFWNLLTVTPIKTPDGRVSKFVGVQVDVTS GLRHTFVVADATLPDCPLVYASEGFYAMTGYGPDEVLGHNCRFLQGEGTDPKEVQKIRDAIKKGEACSVRLLNYRKDGTPFWNLLTVTPIKTPDGRVSKFVGVQVDVTS 1n9l-a3-m1-cA_1n9l-a3-m3-cA Crystal structure of the Phot-LOV1 domain from Chlamydomonas reinhardtii in the dark state. Q8LPD9 Q8LPD9 1.9 X-RAY DIFFRACTION 60 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 109 109 1n9o-a3-m1-cA_1n9o-a3-m3-cA GLRHTFVVADATLPDCPLVYASEGFYAMTGYGPDEVLGHNCRFLQGEGTDPKEVQKIRDAIKKGEACSVRLLNYRKDGTPFWNLLTVTPIKTPDGRVSKFVGVQVDVTS GLRHTFVVADATLPDCPLVYASEGFYAMTGYGPDEVLGHNCRFLQGEGTDPKEVQKIRDAIKKGEACSVRLLNYRKDGTPFWNLLTVTPIKTPDGRVSKFVGVQVDVTS 1n9w-a1-m1-cA_1n9w-a1-m1-cB Crystal structure of the non-discriminating and archaeal-type aspartyl-tRNA synthetase from Thermus thermophilus Q5SIC2 Q5SIC2 2.3 X-RAY DIFFRACTION 177 0.997 274 (Thermus thermophilus) 274 (Thermus thermophilus) 356 359 3kfu-a1-m1-cA_3kfu-a1-m1-cB 3kfu-a1-m1-cD_3kfu-a1-m1-cC MRVLVRDLKAHVGQEVELLGFLHWRRDLGRIQFLLLRDRSGVVQVVTGGLKLPLPESALRVRGLVVENAKAPGGLEVQAKEVEVLSPALEPTPYRYVTLRGEKARAPLKVQAALVRGFRRYLDRQDFTEIFTPPQLYKQIMVGVFERVYEVAPVEYLSLDVEMGFIADEEDLMRLEEALLAEMLEEALNTAGDEIRLLGATWPSFPQDIPRLTHAEAKRILKEELGYPVGQDLSEEAERLLGEYAKERWGSDWLFVTRYPRSVRPFYTYPEEDGTTRSFDLLFRGLEITSGGQRIHRYEELLESLKAKGMDPEAFHGYLEVFKYGMPPHGGFAIGAERLTQKLLGLPNVRYARAFP MRVLVRDLKAHVGQEVELLGFLHWRRDLGRIQFLLLRDRSGVVQVVTGGLKLPLPESALRVRGLVVENAKAPGGLEVQAKEVEVLSPALEPTPVEIPYRYVTLRGEKARAPLKVQAALVRGFRRYLDRQDFTEIFTPQLYKQIMVGVFERVYEVAPVEYLSLDVEMGFIADEEDLMRLEEALLAEMLEEALNTAGDEIRLLGATWPSFPQDIPRLTHAEAKRILKEELGYPVGQDLSEEAERLLGEYAKERWGSDWLFVTRYPRSVRPFYTYPEEDGTTRSFDLLFRGLEITSGGQRIHRYEELLESLKAKGMDPEAFHGYLEVFKYGMPPHGGFAIGAERLTQKLLGLPNVRYARAFP 1na6-a1-m1-cA_1na6-a1-m1-cB Crystal structure of restriction endonuclease EcoRII mutant R88A P14633 P14633 2.1 X-RAY DIFFRACTION 159 0.986 562 (Escherichia coli) 562 (Escherichia coli) 365 395 SVFHNWLLEIACENYFVYIKRLSANDTGATQVGLYIPSGIVEKLFPSINHTRELNPSVFLTAHVSSHDCPDSEARAIYYNSAHFGKTRNEKRITRWGRGSPLQDPENTGALTLLAFKLDEQGGDCKEVNIWVCASTDEEDVIETAIGEVIPGALISGPAGQILGGLSLQQAPVNHKYILPEDWHLRFPSGSEIIQYAASHYDPDEQLLDRRRVEYDIFLLVEELHVLDIIRKGFGSVDEFIALANSVSNRRKSRAGKSLELHLEHLFIEHGLRHFATQAPDFLFPSAGAYHPLRMLAVKTTCKDRWRQILNHLFTLQEGVSLAQYREMRESGVRLVVPSSLHKKYPEAVRAELMTLGAFIAELTG SVFHNWLLEIACENYFVYIKRLSANDTGATGGHQVGLYIPSGIVEKLFPSINHTRELNPSVFLTAHVSSHDCPDSEARAIYYNSAHFGKTRNEKRITRWGRGSPLQDPENTGALTLLAFKLDEQGGDCKEVNIWVCASTDEEDVIETAIGEVIPGALISGPAGQILGGLSLQQAPYILPEDWHLRFPSGSEIIQYAASHYVKNSLDPDEQLLDRRRVEYDIFLLVEELHVLDIIRKGFGSVDEFIALANSVSNRRKSRAGKSLELHLEHLFIEHGLRHFATQAITEGNKKPDFLFPSAGAYHDTEFPVENLRMLAVKTTCKDRWRQILNEADKIHQVHLFTLQEGVSLAQYREMRESGVRLVVPSSLHKKYPEAVRAELMTLGAFIAELTGLYAD 1na8-a1-m1-cB_1na8-a1-m1-cA Crystal structure of ADP-ribosylation factor binding protein GGA1 Q9UJY5 Q9UJY5 2.3 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 151 1om9-a3-m1-cA_1om9-a3-m1-cB LSLASITVPLESIKPSNILPVTVYDQHGFRILFHFARDPLPGRSDVLVVVVSMLSTAPQPIRNIVFQSAVPKVMKVKLQPPSGMELPAFNPIVHPSAITQVLLLANPQKEKVRLRYKLTFTMGDQTYNEMGDVDQFPPPETWGSL HHHHMELSLASITVPLESIKPSNILPVTVYDQHGFRILFHFARDPLPGRSDVLVVVVSMLSTAPQPIRNIVFQSAVPKVMKVKLQPPSGMELPAFNPIVHPSAITQVLLLANPQKEKVRLRYKLTFTMGDQTYNEMGDVDQFPPPETWGSL 1nan-a1-m1-cH_1nan-a1-m1-cL MCH CLASS I H-2KB MOLECULE COMPLEXED WITH PBM1 PEPTIDE P01901 P01901 2.3 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 278 278 GPHSLRYFVTAVSRPGLGEPRYMEVGYVDDTEFVRFDSDAENPRYEPRARWMEQEGPEYWERETQKAKGNEQSFRVDLRTLLGYYNQSKGGSHTIQVISGCEVGSDGRLLRGYQQYAYDGCDYIALNEDLKTWTAADMAALITKHKWEQAGEAERLRAYLEGTCVEWLRRYLKNGNATLLRTDSPKAHVTHHSRPEDKVTLRCWALGFYPADITLTWQLNGEELIQDMELVETRPAGDGTFQKWASVVVPLGKEQYYTCHVYHQGLPEPLTLRWEPPP GPHSLRYFVTAVSRPGLGEPRYMEVGYVDDTEFVRFDSDAENPRYEPRARWMEQEGPEYWERETQKAKGNEQSFRVDLRTLLGYYNQSKGGSHTIQVISGCEVGSDGRLLRGYQQYAYDGCDYIALNEDLKTWTAADMAALITKHKWEQAGEAERLRAYLEGTCVEWLRRYLKNGNATLLRTDSPKAHVTHHSRPEDKVTLRCWALGFYPADITLTWQLNGEELIQDMELVETRPAGDGTFQKWASVVVPLGKEQYYTCHVYHQGLPEPLTLRWEPPP 1naq-a3-m1-cC_1naq-a3-m1-cF Crystal structure of CUTA1 from E.coli at 1.7 A resolution P69488 P69488 1.7 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 105 105 1naq-a3-m1-cB_1naq-a3-m1-cD 1naq-a3-m1-cE_1naq-a3-m1-cA NTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR NTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR 1naq-a3-m1-cF_1naq-a3-m1-cA Crystal structure of CUTA1 from E.coli at 1.7 A resolution P69488 P69488 1.7 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 105 106 1naq-a3-m1-cB_1naq-a3-m1-cE 1naq-a3-m1-cD_1naq-a3-m1-cC NTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR SNTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR 1nax-a2-m1-cA_1nax-a2-m2-cA Thyroid receptor beta1 in complex with a beta-selective ligand P10828 P10828 2.7 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 KPEPTDEEWELIKTVTEAHVATNAQGSHWKQKRKFLPEDIGQAPIVNAPEGGKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFDLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFE KPEPTDEEWELIKTVTEAHVATNAQGSHWKQKRKFLPEDIGQAPIVNAPEGGKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFDLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFE 1nb2-a1-m2-cA_1nb2-a1-m6-cA Crystal Structure of Nucleoside Diphosphate Kinase from Bacillus Halodenitrificans Q7SIA9 Q7SIA9 2.2 X-RAY DIFFRACTION 93 1.0 1482 (Virgibacillus halodenitrificans) 1482 (Virgibacillus halodenitrificans) 149 149 1nb2-a1-m1-cA_1nb2-a1-m4-cA 1nb2-a1-m3-cA_1nb2-a1-m5-cA KERTFLMVKPDGVQRNLVGEVVKRFESKGLKLAGAKLMVISKDGAAAHYAELGGGPFFGGLVGGATSGPVFAMVWEGLNAAATARQILGATNPSDAAPGTIRGDFGVSAGRNAIHGSDSAGSAAKEIGAFFGGGEAASGTPAAAADIYG KERTFLMVKPDGVQRNLVGEVVKRFESKGLKLAGAKLMVISKDGAAAHYAELGGGPFFGGLVGGATSGPVFAMVWEGLNAAATARQILGATNPSDAAPGTIRGDFGVSAGRNAIHGSDSAGSAAKEIGAFFGGGEAASGTPAAAADIYG 1nb2-a1-m5-cA_1nb2-a1-m6-cA Crystal Structure of Nucleoside Diphosphate Kinase from Bacillus Halodenitrificans Q7SIA9 Q7SIA9 2.2 X-RAY DIFFRACTION 47 1.0 1482 (Virgibacillus halodenitrificans) 1482 (Virgibacillus halodenitrificans) 149 149 1nb2-a1-m1-cA_1nb2-a1-m2-cA 1nb2-a1-m1-cA_1nb2-a1-m3-cA 1nb2-a1-m2-cA_1nb2-a1-m3-cA 1nb2-a1-m4-cA_1nb2-a1-m5-cA 1nb2-a1-m4-cA_1nb2-a1-m6-cA KERTFLMVKPDGVQRNLVGEVVKRFESKGLKLAGAKLMVISKDGAAAHYAELGGGPFFGGLVGGATSGPVFAMVWEGLNAAATARQILGATNPSDAAPGTIRGDFGVSAGRNAIHGSDSAGSAAKEIGAFFGGGEAASGTPAAAADIYG KERTFLMVKPDGVQRNLVGEVVKRFESKGLKLAGAKLMVISKDGAAAHYAELGGGPFFGGLVGGATSGPVFAMVWEGLNAAATARQILGATNPSDAAPGTIRGDFGVSAGRNAIHGSDSAGSAAKEIGAFFGGGEAASGTPAAAADIYG 1nba-a1-m1-cA_1nba-a1-m1-cD CRYSTAL STRUCTURE ANALYSIS, REFINEMENT AND ENZYMATIC REACTION MECHANISM OF N-CARBAMOYLSARCOSINE AMIDOHYDROLASE FROM ARTHROBACTER SP. AT 2.0 ANGSTROMS RESOLUTION P32400 P32400 2 X-RAY DIFFRACTION 42 1.0 1667 (Arthrobacter sp.) 1667 (Arthrobacter sp.) 253 253 1nba-a1-m1-cB_1nba-a1-m1-cC TFNDIEARLAAVLEEAFEAGTSIYNERGFKRRIGYGNRPAVIHIDLANAWTQPGHPFSCPGMETIIPNVQRINEAARAKGVPVFYTTNVYRNRDASSGTNDMGLWYSKIPTETLPADSYWAQIDDRIAPADGEVVIEKNRASAFPGTNLELFLTSNRIDTLIVTGATAAGCVRHTVEDAIAKGFRPIIPRETIGDRVPGVVQWNLYDIDNKFGDVESTDSVVQYLDALPQFEDTVPKTLSDPQPEVEAPADPV TFNDIEARLAAVLEEAFEAGTSIYNERGFKRRIGYGNRPAVIHIDLANAWTQPGHPFSCPGMETIIPNVQRINEAARAKGVPVFYTTNVYRNRDASSGTNDMGLWYSKIPTETLPADSYWAQIDDRIAPADGEVVIEKNRASAFPGTNLELFLTSNRIDTLIVTGATAAGCVRHTVEDAIAKGFRPIIPRETIGDRVPGVVQWNLYDIDNKFGDVESTDSVVQYLDALPQFEDTVPKTLSDPQPEVEAPADPV 1nba-a1-m1-cB_1nba-a1-m1-cD CRYSTAL STRUCTURE ANALYSIS, REFINEMENT AND ENZYMATIC REACTION MECHANISM OF N-CARBAMOYLSARCOSINE AMIDOHYDROLASE FROM ARTHROBACTER SP. AT 2.0 ANGSTROMS RESOLUTION P32400 P32400 2 X-RAY DIFFRACTION 72 1.0 1667 (Arthrobacter sp.) 1667 (Arthrobacter sp.) 252 253 1nba-a1-m1-cA_1nba-a1-m1-cC FNDIEARLAAVLEEAFEAGTSIYNERGFKRRIGYGNRPAVIHIDLANAWTQPGHPFSCPGMETIIPNVQRINEAARAKGVPVFYTTNVYRNRDASSGTNDMGLWYSKIPTETLPADSYWAQIDDRIAPADGEVVIEKNRASAFPGTNLELFLTSNRIDTLIVTGATAAGCVRHTVEDAIAKGFRPIIPRETIGDRVPGVVQWNLYDIDNKFGDVESTDSVVQYLDALPQFEDTVPKTLSDPQPEVEAPADPV TFNDIEARLAAVLEEAFEAGTSIYNERGFKRRIGYGNRPAVIHIDLANAWTQPGHPFSCPGMETIIPNVQRINEAARAKGVPVFYTTNVYRNRDASSGTNDMGLWYSKIPTETLPADSYWAQIDDRIAPADGEVVIEKNRASAFPGTNLELFLTSNRIDTLIVTGATAAGCVRHTVEDAIAKGFRPIIPRETIGDRVPGVVQWNLYDIDNKFGDVESTDSVVQYLDALPQFEDTVPKTLSDPQPEVEAPADPV 1nba-a1-m1-cC_1nba-a1-m1-cD CRYSTAL STRUCTURE ANALYSIS, REFINEMENT AND ENZYMATIC REACTION MECHANISM OF N-CARBAMOYLSARCOSINE AMIDOHYDROLASE FROM ARTHROBACTER SP. AT 2.0 ANGSTROMS RESOLUTION P32400 P32400 2 X-RAY DIFFRACTION 245 1.0 1667 (Arthrobacter sp.) 1667 (Arthrobacter sp.) 253 253 1nba-a1-m1-cB_1nba-a1-m1-cA TFNDIEARLAAVLEEAFEAGTSIYNERGFKRRIGYGNRPAVIHIDLANAWTQPGHPFSCPGMETIIPNVQRINEAARAKGVPVFYTTNVYRNRDASSGTNDMGLWYSKIPTETLPADSYWAQIDDRIAPADGEVVIEKNRASAFPGTNLELFLTSNRIDTLIVTGATAAGCVRHTVEDAIAKGFRPIIPRETIGDRVPGVVQWNLYDIDNKFGDVESTDSVVQYLDALPQFEDTVPKTLSDPQPEVEAPADPV TFNDIEARLAAVLEEAFEAGTSIYNERGFKRRIGYGNRPAVIHIDLANAWTQPGHPFSCPGMETIIPNVQRINEAARAKGVPVFYTTNVYRNRDASSGTNDMGLWYSKIPTETLPADSYWAQIDDRIAPADGEVVIEKNRASAFPGTNLELFLTSNRIDTLIVTGATAAGCVRHTVEDAIAKGFRPIIPRETIGDRVPGVVQWNLYDIDNKFGDVESTDSVVQYLDALPQFEDTVPKTLSDPQPEVEAPADPV 1nbc-a1-m1-cA_1nbc-a1-m1-cB BACTERIAL TYPE 3A CELLULOSE-BINDING DOMAIN Q06851 Q06851 1.75 X-RAY DIFFRACTION 22 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 155 155 NLKVEFYNSNPSDTTNSINPQFKVTNTGSSAIDLSKLTLRYYYTVDGQKDQTFWCDHAAIIGSNGSYNGITSNVKGTFVKMSSSTNNADTYLEISFTGGTLEPGAHVQIQGRFAKNDWSNYTQSNDYSFKSASQFVEWDQVTAYLNGVLVWGKEP NLKVEFYNSNPSDTTNSINPQFKVTNTGSSAIDLSKLTLRYYYTVDGQKDQTFWCDHAAIIGSNGSYNGITSNVKGTFVKMSSSTNNADTYLEISFTGGTLEPGAHVQIQGRFAKNDWSNYTQSNDYSFKSASQFVEWDQVTAYLNGVLVWGKEP 1nbq-a1-m1-cB_1nbq-a1-m1-cA Crystal Structure of Human Junctional Adhesion Molecule Type 1 Q9Y624 Q9Y624 2.9 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 209 MGSVTVHSSEPEVRIPENNPVKLSCAYSGFSSPRVEWKFDQGDTTRLVCYNNKITASYEDRVTFLPTGITFKSVTREDTGTYTCMVSEEGGNSYGEVKVKLIVLVPPSKPTVNIPSSATIGNRAVLTCSEQDGSPPSEYTWFKDGIVMPTNPKSTRAFSNSSYVLNPTTGELVFDPLSASDTGEYSCEARNGYGTPMTSNAVRMEAVE AMGSVTVHSSEPEVRIPENNPVKLSCAYSGFSSPRVEWKFDQGDTTRLVCYNNKITASYEDRVTFLPTGITFKSVTREDTGTYTCMVSEEGGNSYGEVKVKLIVLVPPSKPTVNIPSSATIGNRAVLTCSEQDGSPPSEYTWFKDGIVMPTNPKSTRAFSNSSYVLNPTTGELVFDPLSASDTGEYSCEARNGYGTPMTSNAVRMEAVE 1nbw-a1-m1-cC_1nbw-a1-m1-cA Glycerol dehydratase reactivase Q59474 Q59474 2.4 X-RAY DIFFRACTION 179 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 604 606 LIAGIDIGNATTEVALASDYPQARAFVASGIVATTGMKGTRDNIAGTLAALEQALAKTPWSMSDVSRIYLNEAAPVIGDVAMETITETIITESTMIGHNPQTPGGVGVGVGTTIALGRLATLPAAQYAEGWIVLIDDAVDFLDAVWWLNEALDRGINVVAAILKKDDGVLVNNRLRKTLPVVDEVTLLEQVPEGVMAAVEVAAPGQVVRILSNPYGIATFFGLSPEETQAIVPIARALIGNRSAVVLKTPQGDVQSRVIPAGNLYISGEKRRGEADVAEGAEAIMQAMSACAPVRDIRGEPGTHAGGMLERVRKVMASLTGHEMSAIYIQDLLAVDTFIPRKVQGGMAGECAMENAVGMAAMVKADRLQMQVIARELSARLQTEVVVGGVEANMAIAGALTTPGCAAPLAILDLGAGSTDAAIVNAEGQITAVHLAGAGNMVSLLIKTELGLEDLSLAEAIKKYPLAKVESLFSIRHENGAVEFFREALSPAVFAKVVYIKEGELVPIDNASPLEKIRLVRRQAKEKVFVTNCLRALRQVSPGGSIRDIAFVVLVGGSSLDFEIPQLITEALSHYGVVAGQGNIRGTEGPRNAVATGLLLAGQA PLIAGIDIGNATTEVALASDYPQARAFVASGIVATTGMKGTRDNIAGTLAALEQALAKTPWSMSDVSRIYLNEAAPVIGDVAMETITETIITESTMIGHNPQTPGGVGVGVGTTIALGRLATLPAAQYAEGWIVLIDDAVDFLDAVWWLNEALDRGINVVAAILKKDDGVLVNNRLRKTLPVVDEVTLLEQVPEGVMAAVEVAAPGQVVRILSNPYGIATFFGLSPEETQAIVPIARALIGNRSAVVLKTPQGDVQSRVIPAGNLYISGEKRRGEADVAEGAEAIMQAMSACAPVRDIRGEPGTHAGGMLERVRKVMASLTGHEMSAIYIQDLLAVDTFIPRKVQGGMAGECAMENAVGMAAMVKADRLQMQVIARELSARLQTEVVVGGVEANMAIAGALTTPGCAAPLAILDLGAGSTDAAIVNAEGQITAVHLAGAGNMVSLLIKTELGLEDLSLAEAIKKYPLAKVESLFSIRHENGAVEFFREALSPAVFAKVVYIKEGELVPIDNASPLEKIRLVRRQAKEKVFVTNCLRALRQVSPGGSIRDIAFVVLVGGSSLDFEIPQLITEALSHYGVVAGQGNIRGTEGPRNAVATGLLLAGQAN 1nc7-a1-m1-cC_1nc7-a1-m1-cD Crystal Structure of Thermotoga maritima 1070 Q9X0F9 Q9X0F9 1.55 X-RAY DIFFRACTION 72 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 110 111 1nc7-a1-m1-cA_1nc7-a1-m1-cB 1nc7-a1-m1-cA_1nc7-a1-m1-cD 1nc7-a1-m1-cB_1nc7-a1-m1-cC NGARKWFFPDGYIPNGKRGYLVSHESLCINTGDETAKIRITFLFEDSKPVVHEVEISPKSLHLRLDKLGIPKCKPYSIAESNVPVVQLSRLDVGKNHYTLTTIGYWEEGS HNGARKWFFPDGYIPNGKRGYLVSHESLCINTGDETAKIRITFLFEDSKPVVHEVEISPKSLHLRLDKLGIPKCKPYSIAESNVPVVQLSRLDVGKNHYTLTTIGYWEEGS 1nch-a1-m1-cA_1nch-a1-m1-cB STRUCTURAL BASIS OF CELL-CELL ADHESION BY CADHERINS P15116 P15116 2.1 X-RAY DIFFRACTION 51 0.98 10090 (Mus musculus) 10090 (Mus musculus) 98 100 GSDWVIPPINLPENSGPFPQELVRIRSGRDLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRAHAVDINGNQVENPIDIVINVI DWVIPPINLPENSRGPFPQELVRIRSGRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRAHAVDINGNQVENPIDIVINVID 1nco-a1-m1-cA_1nco-a1-m1-cB STRUCTURE OF THE ANTITUMOR PROTEIN-CHROMOPHORE COMPLEX NEOCARZINOSTATIN P0A3R9 P0A3R9 1.8 X-RAY DIFFRACTION 41 1.0 1897 (Streptomyces carzinostaticus) 1897 (Streptomyces carzinostaticus) 113 113 AAPTATVTPSSGLSDGTVVKVAGAGLQAGTAYDVGQCAWVDTGVLACNPADFSSVTADANGSASTSLTVRRSFEGFLFDGTRWGTVDCTTAACQVGLSDAAGNGPEGVAISFN AAPTATVTPSSGLSDGTVVKVAGAGLQAGTAYDVGQCAWVDTGVLACNPADFSSVTADANGSASTSLTVRRSFEGFLFDGTRWGTVDCTTAACQVGLSDAAGNGPEGVAISFN 1ncv-a1-m1-cA_1ncv-a1-m1-cB DETERMINATION CC-CHEMOKINE MCP-3, NMR, 7 STRUCTURES P80098 P80098 NOT SOLUTION NMR 173 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 QPVGINTSTTCCYRFINKKIPKQRLESYRRTTSSHCPREAVIFKTKLDKEICADPTQKWVQDFMKHLDKKTQTPKL QPVGINTSTTCCYRFINKKIPKQRLESYRRTTSSHCPREAVIFKTKLDKEICADPTQKWVQDFMKHLDKKTQTPKL 1nd0-a2-m2-cH_1nd0-a2-m1-cF CATIONIC CYCLIZATION ANTIBODY 4C6 COMPLEX WITH TRANSITION STATE ANALOG P01865 P01865 2.45 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 222 222 1nd0-a1-m2-cD_1nd0-a1-m1-cB RVQLQQSGPGLVKPSQSLSLTCTVTGYSITSDFAWNWIRQFPGNKLEWMGYINYSGFTSHNPSLKSRISITRDTSKNQFFLQLNSVTTEDTATYYCAGLLWYDGGAGSWGQGTLVTVSAAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPRGPT RVQLQQSGPGLVKPSQSLSLTCTVTGYSITSDFAWNWIRQFPGNKLEWMGYINYSGFTSHNPSLKSRISITRDTSKNQFFLQLNSVTTEDTATYYCAGLLWYDGGAGSWGQGTLVTVSAAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPRGPT 1nd4-a1-m1-cA_1nd4-a1-m1-cB Crystal structure of aminoglycoside-3'-phosphotransferase-IIa P00552 P00552 2.1 X-RAY DIFFRACTION 19 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 255 255 GSPAAWVERLFGYDWAQQTIGCSDAAVFRLSAQGRPVLFVKTDLSGALNELQDEAARLSWLATTGVPCAAVLDVVTEAGRDWLLLGEVPGQDLLSSHLAPAEKVSIMADAMRRLHTLDPATCPFDHQAKHRIERARTRMEAGLVDQDDLDEEHQGLAPAELFARLKARMPDGEDLVVTHGDACLPNIMVENGRFSGFIDCGRLGVADRYQDIALATRDIAEELGGEWADRFLVLYGIAAPDSQRIAFYRLLDEFF GSPAAWVERLFGYDWAQQTIGCSDAAVFRLSAQGRPVLFVKTDLSGALNELQDEAARLSWLATTGVPCAAVLDVVTEAGRDWLLLGEVPGQDLLSSHLAPAEKVSIMADAMRRLHTLDPATCPFDHQAKHRIERARTRMEAGLVDQDDLDEEHQGLAPAELFARLKARMPDGEDLVVTHGDACLPNIMVENGRFSGFIDCGRLGVADRYQDIALATRDIAEELGGEWADRFLVLYGIAAPDSQRIAFYRLLDEFF 1ndd-a5-m1-cC_1ndd-a5-m1-cD STRUCTURE OF NEDD8 Q15843 Q15843 1.6 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 73 MLIKVKTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGSVLHLVLAL MLIKVKTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGSVLHLVLAL 1ndd-a5-m1-cD_1ndd-a5-m1-cA STRUCTURE OF NEDD8 Q15843 Q15843 1.6 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 74 1ndd-a5-m1-cC_1ndd-a5-m1-cB MLIKVKTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGSVLHLVLAL MLIKVKTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGSVLHLVLALR 1ndd-a5-m1-cD_1ndd-a5-m1-cB STRUCTURE OF NEDD8 Q15843 Q15843 1.6 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 76 1ndd-a5-m1-cC_1ndd-a5-m1-cA MLIKVKTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGSVLHLVLAL MLIKVKTLTGKEIEIDIEPTDKVERIKERVEEKEGIPPQQQRLIYSGKQMNDEKTAADYKILGGSVLHLVLALRGG 1nde-a3-m1-cA_1nde-a3-m3-cA Estrogen Receptor beta with Selective Triazine Modulator Q92731 Q92731 3 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 231 DALSPEQLVLTLLEAEPPHVLISRPSFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMYATQDADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKPVYDLLLEMLNAHVL DALSPEQLVLTLLEAEPPHVLISRPSFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMYATQDADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKPVYDLLLEMLNAHVL 1ne8-a1-m1-cA_1ne8-a1-m2-cA YDCE protein from Bacillus subtilis P96622 P96622 2.1 X-RAY DIFFRACTION 98 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 116 116 4hke-a1-m1-cA_4hke-a1-m1-cB 4mdx-a1-m1-cA_4mdx-a1-m1-cB 7bxy-a1-m1-cA_7bxy-a1-m2-cA LIVKRGDVYFADLSPVVGSEQGGVRPVLVIQNDIGNRFSPTAIVAAITAQIQKAKLPTHVEIDAKRYGFERDSVILLEQIRTIDKQRLTDKITHLDDEMMDKVDEALQISLALIDF LIVKRGDVYFADLSPVVGSEQGGVRPVLVIQNDIGNRFSPTAIVAAITAQIQKAKLPTHVEIDAKRYGFERDSVILLEQIRTIDKQRLTDKITHLDDEMMDKVDEALQISLALIDF 1nei-a1-m1-cA_1nei-a1-m1-cB Solution NMR Structure of Protein yoaG from Escherichia coli. Ontario Centre for Structural Proteomics Target EC0264_1_60; Northeast Structural Genomics Consortium Target ET94. P64496 P64496 NOT SOLUTION NMR 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 60 60 MGKATYTVTVTNNSNGVSVDYETETPMTLLVPEVAAEVIKDLVNTVRSYDTENEHDVCGW MGKATYTVTVTNNSNGVSVDYETETPMTLLVPEVAAEVIKDLVNTVRSYDTENEHDVCGW 1nek-a2-m2-cD_1nek-a2-m3-cD Complex II (Succinate Dehydrogenase) From E. Coli with ubiquinone bound P0AC44 P0AC44 2.6 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 113 113 1nek-a2-m1-cD_1nek-a2-m2-cD 1nek-a2-m1-cD_1nek-a2-m3-cD 1nen-a2-m1-cD_1nen-a2-m2-cD 1nen-a2-m1-cD_1nen-a2-m3-cD 1nen-a2-m2-cD_1nen-a2-m3-cD 2acz-a1-m1-cD_2acz-a1-m2-cD 2acz-a1-m1-cD_2acz-a1-m3-cD 2acz-a1-m2-cD_2acz-a1-m3-cD 6wu6-a1-m1-cD_6wu6-a1-m1-cH 6wu6-a1-m1-cD_6wu6-a1-m1-cL 6wu6-a1-m1-cH_6wu6-a1-m1-cL 7jz2-a1-m1-cD_7jz2-a1-m1-cH 7jz2-a1-m1-cD_7jz2-a1-m1-cL 7jz2-a1-m1-cH_7jz2-a1-m1-cL SNASALGRNGVHDFILVRATAIVLTLYIIYMVGFFATSGELTYEVWIGFFASAFTKVFTLLALFSILIHAWIGMWQVLTDYVKPLALRLMLQLVIVVALVVYVIYGFVVVWGV SNASALGRNGVHDFILVRATAIVLTLYIIYMVGFFATSGELTYEVWIGFFASAFTKVFTLLALFSILIHAWIGMWQVLTDYVKPLALRLMLQLVIVVALVVYVIYGFVVVWGV 1nek-a3-m1-cC_1nek-a3-m4-cC Complex II (Succinate Dehydrogenase) From E. Coli with ubiquinone bound P69054 P69054 2.6 X-RAY DIFFRACTION 14 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 129 1nen-a3-m1-cC_1nen-a3-m4-cC MIRNVKKQRPVNLDLQTIRFPITAIASILHRVSGVITFVAVGILLWLLGTSLSSPEGFEQASAIMGSFFVKFIMWGILTALAYHVVVGIRHMMMDFGYLEETFEAGKRSAKISFVITVVLSLLAGVLVW MIRNVKKQRPVNLDLQTIRFPITAIASILHRVSGVITFVAVGILLWLLGTSLSSPEGFEQASAIMGSFFVKFIMWGILTALAYHVVVGIRHMMMDFGYLEETFEAGKRSAKISFVITVVLSLLAGVLVW 1neu-a1-m1-cA_1neu-a1-m2-cA STRUCTURE OF MYELIN MEMBRANE ADHESION MOLECULE P0 P06907 P06907 1.9 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 115 115 IVVYTDREVYGAVGSQVTLHCSFWSSEWVSDDISFTWRYQPEGGRDAISIFHYAKGQPYIDEVGTFKERIQWVGDPSWKDGSIVIHNLDYSDNGTFTCDVKNVGKTSQVTLYVFE IVVYTDREVYGAVGSQVTLHCSFWSSEWVSDDISFTWRYQPEGGRDAISIFHYAKGQPYIDEVGTFKERIQWVGDPSWKDGSIVIHNLDYSDNGTFTCDVKNVGKTSQVTLYVFE 1ney-a1-m1-cA_1ney-a1-m1-cB Triosephosphate Isomerase in Complex with DHAP P00942 P00942 1.2 X-RAY DIFFRACTION 137 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 246 246 1i45-a1-m1-cA_1i45-a1-m1-cB 1nf0-a1-m1-cA_1nf0-a1-m1-cB 1ypi-a1-m1-cA_1ypi-a1-m1-cB 2ypi-a1-m1-cA_2ypi-a1-m1-cB 3ypi-a1-m1-cA_3ypi-a1-m1-cB 4ff7-a1-m1-cA_4ff7-a1-m1-cB 7tim-a1-m1-cA_7tim-a1-m1-cB ARTFFVGGNFKLNGSKQSIKEIVERLNTASIPENVEVVICPPATYLDYSVSLVKKPQVTVGAQNAYLKASGAFTGENSVDQIKDVGAKYVILGHSERRSYFHEDDKFIADKTKFALGQGVGVILCIGETLEEKKAGKTLDVVERQLNAVLEEVKDFTNVVVAYEPVAIGTGLAATPEDAQDIHASIRKFLASKLGDKAASELRILYGGSANGSNAVTFKDKADVDGFLVGGASLKPEFVDIINSRN ARTFFVGGNFKLNGSKQSIKEIVERLNTASIPENVEVVICPPATYLDYSVSLVKKPQVTVGAQNAYLKASGAFTGENSVDQIKDVGAKYVILGHSERRSYFHEDDKFIADKTKFALGQGVGVILCIGETLEEKKAGKTLDVVERQLNAVLEEVKDFTNVVVAYEPVAIGTGLAATPEDAQDIHASIRKFLASKLGDKAASELRILYGGSANGSNAVTFKDKADVDGFLVGGASLKPEFVDIINSRN 1nf2-a4-m2-cA_1nf2-a4-m2-cB X-ray crystal structure of TM0651 from Thermotoga maritima Q9WZB9 Q9WZB9 2.2 X-RAY DIFFRACTION 42 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 267 267 1nf2-a4-m1-cA_1nf2-a4-m1-cB 1nf2-a4-m3-cC_1nf2-a4-m4-cC MYRVFVFDLDGTLLNDNLEISEKDRRNIEKLSRKCYVVFASGRMLVSTLNVEKKYFKRTFPTIAYNGAIVYLPEEGVILNEKIPPEVAKDIIEYIKPLNVHWQAYIDDVLYSEKDNEEIKSYARHSNVDYRVEPNLSELVSKMGTTKLLLIDTPERLDELKEILSERFKDVVKVFKSFPTYLEIVPKNVDKGKALRFLRERMNWKKEEIVVFGDNENDLFMFEEAGLRVAMENAIEKVKEASDIVTLTNNDSGVSYVLERISTDCLD MYRVFVFDLDGTLLNDNLEISEKDRRNIEKLSRKCYVVFASGRMLVSTLNVEKKYFKRTFPTIAYNGAIVYLPEEGVILNEKIPPEVAKDIIEYIKPLNVHWQAYIDDVLYSEKDNEEIKSYARHSNVDYRVEPNLSELVSKMGTTKLLLIDTPERLDELKEILSERFKDVVKVFKSFPTYLEIVPKNVDKGKALRFLRERMNWKKEEIVVFGDNENDLFMFEEAGLRVAMENAIEKVKEASDIVTLTNNDSGVSYVLERISTDCLD 1nf9-a1-m1-cA_1nf9-a1-m2-cA Crystal Structure of PhzD protein from Pseudomonas aeruginosa P0DPB9 P0DPB9 1.5 X-RAY DIFFRACTION 50 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 207 207 1nf8-a1-m1-cA_1nf8-a1-m2-cA MSGIPEITAYPLPTAQQLPANLARWSLEPRRAVLLVHDMQRYFLRPLPESLRAGLVANAARLRRWCVEQGVQIAYTAQPGSMTEEQRGLLKDFWGPGMRASPADREVVEELAPGPDDWLLTKWRYSAFFHSDLLQRMRAAGRDQLVLCGVYAHVGVLISTVDAYSNDIQPFLVADAIADFSEAHHRMALEYAASRCAMVVTTDEVLE MSGIPEITAYPLPTAQQLPANLARWSLEPRRAVLLVHDMQRYFLRPLPESLRAGLVANAARLRRWCVEQGVQIAYTAQPGSMTEEQRGLLKDFWGPGMRASPADREVVEELAPGPDDWLLTKWRYSAFFHSDLLQRMRAAGRDQLVLCGVYAHVGVLISTVDAYSNDIQPFLVADAIADFSEAHHRMALEYAASRCAMVVTTDEVLE 1nfb-a2-m2-cB_1nfb-a2-m4-cB Ternary complex of the human type II Inosine Monophosphate Dedhydrogenase with 6Cl-IMP and NAD P12268 P12268 2.9 X-RAY DIFFRACTION 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 396 396 1nfb-a1-m1-cA_1nfb-a1-m3-cA 1nfb-a1-m1-cA_1nfb-a1-m4-cA 1nfb-a1-m2-cA_1nfb-a1-m3-cA 1nfb-a1-m2-cA_1nfb-a1-m4-cA 1nfb-a2-m1-cB_1nfb-a2-m3-cB 1nfb-a2-m1-cB_1nfb-a2-m4-cB 1nfb-a2-m2-cB_1nfb-a2-m3-cB TSYVPDDGLTAQQLFNCGDGLTYNDFLILPGYIDFTADQVDLTSALTKKITLKTPLVSSPMDTVTEAGMAIAMALTGGIGFIHHNCTPEFQANEVRKVKKYEQGFITDPVVLSPGIPITDTGRMGSAPAGITLKEANEILQRSKKGKLPIVNEDDEVAIIANRDYPLASKDAKKQLLCGAAIGTHEDDKYRLDLLAQAGVDVVVLDSSQGNSIFQINMIKYIKDKYPNLQVIGGNVVTAAQAKNLIDAGVDALRVGMGSGSICITQEVLACGRPQATAVYKVSEYARRFGVPVIADGGIQNVGHIAKALALGASTVMMGSLLAATTEAPGEYFFSDGIRLKKYRGMDKGSIHKFVPYLIAGIQHSCQDIGAKSLTQVRAMMYSGELKFEKRTSSAQ TSYVPDDGLTAQQLFNCGDGLTYNDFLILPGYIDFTADQVDLTSALTKKITLKTPLVSSPMDTVTEAGMAIAMALTGGIGFIHHNCTPEFQANEVRKVKKYEQGFITDPVVLSPGIPITDTGRMGSAPAGITLKEANEILQRSKKGKLPIVNEDDEVAIIANRDYPLASKDAKKQLLCGAAIGTHEDDKYRLDLLAQAGVDVVVLDSSQGNSIFQINMIKYIKDKYPNLQVIGGNVVTAAQAKNLIDAGVDALRVGMGSGSICITQEVLACGRPQATAVYKVSEYARRFGVPVIADGGIQNVGHIAKALALGASTVMMGSLLAATTEAPGEYFFSDGIRLKKYRGMDKGSIHKFVPYLIAGIQHSCQDIGAKSLTQVRAMMYSGELKFEKRTSSAQ 1nfg-a1-m1-cB_1nfg-a1-m1-cD Structure of D-hydantoinase Q8VTT5 Q8VTT5 2.7 X-RAY DIFFRACTION 66 1.0 329 (Ralstonia pickettii) 329 (Ralstonia pickettii) 456 456 1nfg-a1-m1-cA_1nfg-a1-m1-cC MDIIIKNGTIVTADGISRADLGIKDGKITQIGGALGPAERTIDAAGRYVFPGGIDVHTHVETVSFNTQSADTFATATVAAACGGTTTIVDFCQQDRGHSLAEAVAKWDGMAGGKSAIDYGYHIIVLDPTDSVIEELEVLPDLGITSFVFMAYRGMNMIDDVTLLKTLDKAVKTGSLVMVHAENGDAADYLRDKFVAEGKTAPIYHALSRPPRVEAEATARALALAEIVNAPIYIVHVTCEESLEEVMRAKSRGVRALAETCTHYLYLTKEDLERPDFEGAKYVFTPPARAKKDHDVLWNALRNGVFETVSSDHCSWLFKGHKDRGRNDFRAIPNGAPGVEERLMMVYQGVNEGRISLTQFVELVATRPAKVFGMFPQKGTIAVGSDADIVLWDPEAEMVIEQTAMHNAMDYSSYEGHKVKGVPKTVLLRGKVIVDEGSYVGEPTDGKFLKRRKYKQ MDIIIKNGTIVTADGISRADLGIKDGKITQIGGALGPAERTIDAAGRYVFPGGIDVHTHVETVSFNTQSADTFATATVAAACGGTTTIVDFCQQDRGHSLAEAVAKWDGMAGGKSAIDYGYHIIVLDPTDSVIEELEVLPDLGITSFVFMAYRGMNMIDDVTLLKTLDKAVKTGSLVMVHAENGDAADYLRDKFVAEGKTAPIYHALSRPPRVEAEATARALALAEIVNAPIYIVHVTCEESLEEVMRAKSRGVRALAETCTHYLYLTKEDLERPDFEGAKYVFTPPARAKKDHDVLWNALRNGVFETVSSDHCSWLFKGHKDRGRNDFRAIPNGAPGVEERLMMVYQGVNEGRISLTQFVELVATRPAKVFGMFPQKGTIAVGSDADIVLWDPEAEMVIEQTAMHNAMDYSSYEGHKVKGVPKTVLLRGKVIVDEGSYVGEPTDGKFLKRRKYKQ 1nfg-a1-m1-cC_1nfg-a1-m1-cD Structure of D-hydantoinase Q8VTT5 Q8VTT5 2.7 X-RAY DIFFRACTION 118 1.0 329 (Ralstonia pickettii) 329 (Ralstonia pickettii) 456 456 1nfg-a1-m1-cA_1nfg-a1-m1-cB MDIIIKNGTIVTADGISRADLGIKDGKITQIGGALGPAERTIDAAGRYVFPGGIDVHTHVETVSFNTQSADTFATATVAAACGGTTTIVDFCQQDRGHSLAEAVAKWDGMAGGKSAIDYGYHIIVLDPTDSVIEELEVLPDLGITSFVFMAYRGMNMIDDVTLLKTLDKAVKTGSLVMVHAENGDAADYLRDKFVAEGKTAPIYHALSRPPRVEAEATARALALAEIVNAPIYIVHVTCEESLEEVMRAKSRGVRALAETCTHYLYLTKEDLERPDFEGAKYVFTPPARAKKDHDVLWNALRNGVFETVSSDHCSWLFKGHKDRGRNDFRAIPNGAPGVEERLMMVYQGVNEGRISLTQFVELVATRPAKVFGMFPQKGTIAVGSDADIVLWDPEAEMVIEQTAMHNAMDYSSYEGHKVKGVPKTVLLRGKVIVDEGSYVGEPTDGKFLKRRKYKQ MDIIIKNGTIVTADGISRADLGIKDGKITQIGGALGPAERTIDAAGRYVFPGGIDVHTHVETVSFNTQSADTFATATVAAACGGTTTIVDFCQQDRGHSLAEAVAKWDGMAGGKSAIDYGYHIIVLDPTDSVIEELEVLPDLGITSFVFMAYRGMNMIDDVTLLKTLDKAVKTGSLVMVHAENGDAADYLRDKFVAEGKTAPIYHALSRPPRVEAEATARALALAEIVNAPIYIVHVTCEESLEEVMRAKSRGVRALAETCTHYLYLTKEDLERPDFEGAKYVFTPPARAKKDHDVLWNALRNGVFETVSSDHCSWLFKGHKDRGRNDFRAIPNGAPGVEERLMMVYQGVNEGRISLTQFVELVATRPAKVFGMFPQKGTIAVGSDADIVLWDPEAEMVIEQTAMHNAMDYSSYEGHKVKGVPKTVLLRGKVIVDEGSYVGEPTDGKFLKRRKYKQ 1nfh-a1-m1-cA_1nfh-a1-m2-cB Structure of a Sir2 substrate, alba, reveals a mechanism for deactylation-induced enhancement of DNA-binding O28323 O28323 2.65 X-RAY DIFFRACTION 18 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 86 86 HVVYVGNKPVMNYVLATLTQLNEGADEVVIKARGRAISRAVDVAEIVRNRFMPGVKVKEIKIDTEELESEQGRRSNVSTIEIVLAK HVVYVGNKPVMNYVLATLTQLNEGADEVVIKARGRAISRAVDVAEIVRNRFMPGVKVKEIKIDTEELESEQGRRSNVSTIEIVLAK 1nfj-a1-m1-cA_1nfj-a1-m3-cA Structure of a Sir2 substrate, alba, reveals a mechanism for deactylation-induced enhancement of DNA-binding O28323 O28323 2 X-RAY DIFFRACTION 18 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 87 87 EHVVYVGNKPVMNYVLATLTQLNEGADEVVIKARGRAISRAVDVAEIVRNRFMPGVKVKEIKIDTEELESEQGRRSNVSTIEIVLAK EHVVYVGNKPVMNYVLATLTQLNEGADEVVIKARGRAISRAVDVAEIVRNRFMPGVKVKEIKIDTEELESEQGRRSNVSTIEIVLAK 1nfj-a1-m1-cA_1nfj-a1-m4-cA Structure of a Sir2 substrate, alba, reveals a mechanism for deactylation-induced enhancement of DNA-binding O28323 O28323 2 X-RAY DIFFRACTION 52 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 87 87 1nfh-a1-m1-cA_1nfh-a1-m1-cB 1nfh-a1-m2-cA_1nfh-a1-m2-cB 1nfj-a1-m2-cA_1nfj-a1-m3-cA EHVVYVGNKPVMNYVLATLTQLNEGADEVVIKARGRAISRAVDVAEIVRNRFMPGVKVKEIKIDTEELESEQGRRSNVSTIEIVLAK EHVVYVGNKPVMNYVLATLTQLNEGADEVVIKARGRAISRAVDVAEIVRNRFMPGVKVKEIKIDTEELESEQGRRSNVSTIEIVLAK 1nfk-a1-m1-cA_1nfk-a1-m1-cB STRUCTURE OF THE NUCLEAR FACTOR KAPPA-B (NF-KB) P50 HOMODIMER P25799 P25799 2.3 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 312 312 1bfs-a1-m1-cA_1bfs-a1-m2-cA 1svc-a1-m1-cP_1svc-a1-m2-cP 1u36-a1-m1-cA_1u36-a1-m2-cA 1u3j-a1-m1-cA_1u3j-a1-m2-cA 1u3y-a1-m1-cA_1u3y-a1-m2-cA 1u3z-a1-m1-cA_1u3z-a1-m2-cA 1u41-a1-m1-cB_1u41-a1-m1-cA 1u41-a2-m1-cC_1u41-a2-m1-cD GPYLQILEQPKQRGFRFRYVCEGPSHGGLPGASSEKNKKSYPQVKICNYVGPAKVIVQLVTNGKNIHLHAHSLVGKHCEDGVCTVTAGPKDMVVGFANLGILHVTKKKVFETLEARMTEACIRGYNPGLLVHSDLAYLQAEGGGDRQLTDREKEIIRQAAVQQTKEMDLSVVRLMFTAFLPDSTGSFTRRLEPVVSDAIYDSKAPNASNLKIVRMDRTAGCVTGGEEIYLLCDKVQKDDIQIRFYEEEENGGVWEGFGDFSPTDVHRQFAIVFKTPKYKDVNITKPASVFVQLRRKSDLETSEPKPFLYYPE GPYLQILEQPKQRGFRFRYVCEGPSHGGLPGASSEKNKKSYPQVKICNYVGPAKVIVQLVTNGKNIHLHAHSLVGKHCEDGVCTVTAGPKDMVVGFANLGILHVTKKKVFETLEARMTEACIRGYNPGLLVHSDLAYLQAEGGGDRQLTDREKEIIRQAAVQQTKEMDLSVVRLMFTAFLPDSTGSFTRRLEPVVSDAIYDSKAPNASNLKIVRMDRTAGCVTGGEEIYLLCDKVQKDDIQIRFYEEEENGGVWEGFGDFSPTDVHRQFAIVFKTPKYKDVNITKPASVFVQLRRKSDLETSEPKPFLYYPE 1nfp-a1-m1-cA_1nfp-a1-m2-cA STRUCTURAL REFINEMENT OF THE NON-FLUORESCENT FLAVOPROTEIN FROM PHOTOBACTERIUM LEIOGNATHI AT 1.60 ANGSTROMS RESOLUTION P09142 P09142 1.6 X-RAY DIFFRACTION 72 1.0 658 (Photobacterium leiognathi subsp. leiognathi) 658 (Photobacterium leiognathi subsp. leiognathi) 228 228 4j2p-a1-m1-cA_4j2p-a1-m2-cA MTKWNYGVFFLNFYHVGQQEPSLTMSNALETLRIIDEDTSIYDVVAFSEHHIDKSYNDETKLAPFVSLGKQIHVLATSPETVVKAAKYGMPLLFKWDDSQQKRIELLNHYQAAAAKFNVDIANVRHRLMLFVNVNDNPTQAKAELSIYLEDYLSYTQAETSIDEIINSNAAGNFDTCLHHVAEMAQGLNNKVDFLFCFESMKDQENKKSLMINFDKRVINYRKEHNLN MTKWNYGVFFLNFYHVGQQEPSLTMSNALETLRIIDEDTSIYDVVAFSEHHIDKSYNDETKLAPFVSLGKQIHVLATSPETVVKAAKYGMPLLFKWDDSQQKRIELLNHYQAAAAKFNVDIANVRHRLMLFVNVNDNPTQAKAELSIYLEDYLSYTQAETSIDEIINSNAAGNFDTCLHHVAEMAQGLNNKVDFLFCFESMKDQENKKSLMINFDKRVINYRKEHNLN 1ng4-a1-m1-cB_1ng4-a1-m2-cB Structure of ThiO (glycine oxidase) from Bacillus subtilis O31616 O31616 2.3 X-RAY DIFFRACTION 69 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 364 364 1ng3-a1-m1-cA_1ng3-a1-m2-cA 1ng3-a1-m1-cB_1ng3-a1-m2-cB 1ng4-a1-m1-cA_1ng4-a1-m2-cA 1ryi-a1-m1-cA_1ryi-a1-m2-cB 1ryi-a1-m1-cB_1ryi-a1-m2-cA 1ryi-a2-m1-cC_1ryi-a2-m1-cD 1ryi-a2-m3-cC_1ryi-a2-m3-cD 3if9-a1-m1-cB_3if9-a1-m2-cA 3if9-a1-m2-cB_3if9-a1-m1-cA 3if9-a2-m1-cC_3if9-a2-m1-cD 3if9-a2-m3-cC_3if9-a2-m3-cD MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPPIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRK MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPPIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRK 1ng7-a1-m1-cA_1ng7-a1-m1-cB The Solution Structure of the Soluble Domain of Poliovirus 3A Protein P03300 P03300 NOT SOLUTION NMR 45 1.0 12080 (Poliovirus 1) 12080 (Poliovirus 1) 60 60 MGPLQYKDLKIDIKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTERNINRA MGPLQYKDLKIDIKTSPPPECINDLLQAVDSQEVRDYCEKKGWIVNITSQVQTERNINRA 1ngk-a1-m1-cA_1ngk-a1-m1-cD Crystallographic Structure of Mycobacterium tuberculosis Hemoglobin O P9WN23 P9WN23 2.11 X-RAY DIFFRACTION 17 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 126 126 1ngk-a1-m1-cB_1ngk-a1-m1-cE 1ngk-a1-m1-cC_1ngk-a1-m1-cF 2qrw-a7-m1-cE_2qrw-a7-m1-cB 2qrw-a8-m1-cA_2qrw-a8-m1-cD 2qrw-a9-m1-cF_2qrw-a9-m1-cC KSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAWLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF KSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAWLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF 1ngk-a1-m1-cE_1ngk-a1-m1-cL Crystallographic Structure of Mycobacterium tuberculosis Hemoglobin O P9WN23 P9WN23 2.11 X-RAY DIFFRACTION 14 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 127 127 1ngk-a1-m1-cA_1ngk-a1-m1-cH 1ngk-a1-m1-cB_1ngk-a1-m1-cI 1ngk-a1-m1-cC_1ngk-a1-m1-cG 1ngk-a1-m1-cD_1ngk-a1-m1-cK 1ngk-a1-m1-cF_1ngk-a1-m1-cJ PKSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAWLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF PKSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAWLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF 1ngk-a1-m1-cG_1ngk-a1-m1-cK Crystallographic Structure of Mycobacterium tuberculosis Hemoglobin O P9WN23 P9WN23 2.11 X-RAY DIFFRACTION 10 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 127 127 1ngk-a1-m1-cH_1ngk-a1-m1-cL 1ngk-a1-m1-cI_1ngk-a1-m1-cJ PKSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAWLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF PKSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAWLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF 1nhk-a1-m1-cL_1nhk-a1-m2-cL CRYSTAL STRUCTURE OF MYXOCOCCUS XANTHUS NUCLEOSIDE DIPHOSPHATE KINASE AND ITS INTERACTION WITH A NUCLEOTIDE SUBSTRATE AT 2.0 ANGSTROMS RESOLUTION P15266 P15266 1.9 X-RAY DIFFRACTION 22 1.0 34 (Myxococcus xanthus) 34 (Myxococcus xanthus) 143 143 1nhk-a1-m1-cR_1nhk-a1-m2-cR 1nlk-a2-m1-cL_1nlk-a2-m2-cL 1nlk-a2-m1-cR_1nlk-a2-m2-cR 2nck-a1-m1-cL_2nck-a1-m2-cL 2nck-a1-m1-cR_2nck-a1-m2-cR AIERTLSIIKPDGLEKGVIGKIISRFEEKGLKPVAIRLQHLSQAQAEGFYAVHKARPFFKDLVQFMISGPVVLMVLEGENAVLANRDIMGATNPAQAAEGTIRKDFATSIDKNTVHGSDSLENAKIEIAYFFRETEIHSYPYQ AIERTLSIIKPDGLEKGVIGKIISRFEEKGLKPVAIRLQHLSQAQAEGFYAVHKARPFFKDLVQFMISGPVVLMVLEGENAVLANRDIMGATNPAQAAEGTIRKDFATSIDKNTVHGSDSLENAKIEIAYFFRETEIHSYPYQ 1nhk-a1-m2-cL_1nhk-a1-m2-cR CRYSTAL STRUCTURE OF MYXOCOCCUS XANTHUS NUCLEOSIDE DIPHOSPHATE KINASE AND ITS INTERACTION WITH A NUCLEOTIDE SUBSTRATE AT 2.0 ANGSTROMS RESOLUTION P15266 P15266 1.9 X-RAY DIFFRACTION 91 1.0 34 (Myxococcus xanthus) 34 (Myxococcus xanthus) 143 144 1nhk-a1-m1-cL_1nhk-a1-m1-cR 1nlk-a1-m1-cL_1nlk-a1-m1-cR 1nlk-a2-m1-cL_1nlk-a2-m1-cR 1nlk-a2-m2-cL_1nlk-a2-m2-cR 2nck-a1-m1-cL_2nck-a1-m1-cR 2nck-a1-m2-cL_2nck-a1-m2-cR AIERTLSIIKPDGLEKGVIGKIISRFEEKGLKPVAIRLQHLSQAQAEGFYAVHKARPFFKDLVQFMISGPVVLMVLEGENAVLANRDIMGATNPAQAAEGTIRKDFATSIDKNTVHGSDSLENAKIEIAYFFRETEIHSYPYQ AIERTLSIIKPDGLEKGVIGKIISRFEEKGLKPVAIRLQHLSQAQAEGFYAVHKARPFFKDLVQFMISGPVVLMVLEGENAVLANRDIMGATNPAQAAEGTIRKDFATSIDKNTVHGSDSLENAKIEIAYFFRETEIHSYPYQK 1nhl-a2-m2-cA_1nhl-a2-m4-cA SNAP-23N Structure O00161 O00161 2.3 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 1nhl-a2-m1-cA_1nhl-a2-m3-cA 1nhl-a2-m1-cA_1nhl-a2-m4-cA 1nhl-a2-m2-cA_1nhl-a2-m3-cA STRRILGLAIESQDAGIKTITLDEQKEQLNRIEEGLDQINKDRETEKTLTEL STRRILGLAIESQDAGIKTITLDEQKEQLNRIEEGLDQINKDRETEKTLTEL 1ni0-a1-m1-cA_1ni0-a1-m2-cA Structure of the Y94F mutant of the restriction endonuclease PvuII P23657 P23657 2.5 X-RAY DIFFRACTION 39 1.0 585 (Proteus vulgaris) 585 (Proteus vulgaris) 157 157 HPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGREGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKFRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYAA HPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGREGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKFRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYAA 1ni5-a1-m1-cA_1ni5-a1-m2-cA Structure of the MesJ PP-ATPase from Escherichia Coli P52097 P52097 2.65 X-RAY DIFFRACTION 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 428 428 STLTLNRQLLTSRQILVAFSGGLDSTVLLHQLVQWRTENPGVALRAIHVHHGLSANADAWVTHCENVCQQWQVPLVVERVQLAQEGLGIEAQARQARYQAFARTLLPGEVLVTAQHLDDQCETFLLALKRGSGPAGLSAAEVSEFAGTRLIRPLLARTRGELVQWARQYDLRWIEDESNQDDSYDRNFLRLRVVPLLQQRWPHFAEATARSAALCAEQESLLDELLADDLAHCQSPQGTLQIVPLASDARRAAIIRRWLAGQNAPPSRDALVRIWQEVALAREDASPCLRLGAFEIRRYQSQLWWIKSVTGQSENIVPWQTWLQPLELPAGLGSVQLNAGGDIRPPRADEAVSVRFKAPGLLHIVGRNGGRKLKKIWQELGVPPWLRDTTPLLFYGETLIAAAGVFVTQEGVAEGENGVSFVWQKTLS STLTLNRQLLTSRQILVAFSGGLDSTVLLHQLVQWRTENPGVALRAIHVHHGLSANADAWVTHCENVCQQWQVPLVVERVQLAQEGLGIEAQARQARYQAFARTLLPGEVLVTAQHLDDQCETFLLALKRGSGPAGLSAAEVSEFAGTRLIRPLLARTRGELVQWARQYDLRWIEDESNQDDSYDRNFLRLRVVPLLQQRWPHFAEATARSAALCAEQESLLDELLADDLAHCQSPQGTLQIVPLASDARRAAIIRRWLAGQNAPPSRDALVRIWQEVALAREDASPCLRLGAFEIRRYQSQLWWIKSVTGQSENIVPWQTWLQPLELPAGLGSVQLNAGGDIRPPRADEAVSVRFKAPGLLHIVGRNGGRKLKKIWQELGVPPWLRDTTPLLFYGETLIAAAGVFVTQEGVAEGENGVSFVWQKTLS 1nig-a2-m2-cA_1nig-a2-m3-cA 2.0 A Structure of Protein of Unknown Function from Thermoplasma acidophilum Q9HIT9 Q9HIT9 2 X-RAY DIFFRACTION 74 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 146 146 1nig-a2-m1-cA_1nig-a2-m2-cA 1nig-a2-m1-cA_1nig-a2-m3-cA MDIKRYCPVTDSELPADHVYFKFRSEIEAAEAYLGLAISEGIKVRETREILDIIDTVYNSLSDSKLNDFQEKRLNFTEEDWYDIKEKANNGNRWSLYMFLARSAVDSAVYWSYRMKETEEFKEIVKEEMISKLLKAGYVILRESLG MDIKRYCPVTDSELPADHVYFKFRSEIEAAEAYLGLAISEGIKVRETREILDIIDTVYNSLSDSKLNDFQEKRLNFTEEDWYDIKEKANNGNRWSLYMFLARSAVDSAVYWSYRMKETEEFKEIVKEEMISKLLKAGYVILRESLG 1nj1-a1-m1-cA_1nj1-a1-m2-cA Crystal structure of Prolyl-tRNA Synthetase from Methanothermobacter thermautotrophicus bound to cysteine sulfamoyl adenylate O26708 O26708 2.55 X-RAY DIFFRACTION 144 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 463 463 1nj2-a1-m1-cA_1nj2-a1-m2-cA 1nj5-a1-m1-cA_1nj5-a1-m2-cA 1nj6-a1-m1-cA_1nj6-a1-m2-cA EFSEWFHNILEEAEIIDQRYPVKGMHVWMPHGFMIRKNTLKILRRILDRDHEEVLFPLLVPEDELAKEAIHVKGFEDEVYWVTHGGLSKLQRKLALRPTSETVMYPMFALWVRSHTDLPMRFYQVVNTFRYETKHTRPLIRVREITTFKEAHTIHATASEAEEQVERAVEIYKEFFNSLGIPYLITRRPPWDKFPGSEYTVAFDTLMPDGKTLQIGTVHNLGQTFARTFEIKFETPEGDHEYVHQTCYGLSDRVIASVIAIHGDESGLCLPPDVAAHQVVIVPIIFKKAAEEVMEACRELRSRLEAAGFRVHLDDRDIRAGRKYYEWEMRGVPLRVEIGPRDLEKGAAVISRRDTGEKVTADLQGIEETLRELMKDILENLRTRAWERMESEIREAETLEEASRIVDEKRGIISFMWCGEEECGMDVEEKVRVDILGIQEEGSGTCINCGREAPYRAYLARTY EFSEWFHNILEEAEIIDQRYPVKGMHVWMPHGFMIRKNTLKILRRILDRDHEEVLFPLLVPEDELAKEAIHVKGFEDEVYWVTHGGLSKLQRKLALRPTSETVMYPMFALWVRSHTDLPMRFYQVVNTFRYETKHTRPLIRVREITTFKEAHTIHATASEAEEQVERAVEIYKEFFNSLGIPYLITRRPPWDKFPGSEYTVAFDTLMPDGKTLQIGTVHNLGQTFARTFEIKFETPEGDHEYVHQTCYGLSDRVIASVIAIHGDESGLCLPPDVAAHQVVIVPIIFKKAAEEVMEACRELRSRLEAAGFRVHLDDRDIRAGRKYYEWEMRGVPLRVEIGPRDLEKGAAVISRRDTGEKVTADLQGIEETLRELMKDILENLRTRAWERMESEIREAETLEEASRIVDEKRGIISFMWCGEEECGMDVEEKVRVDILGIQEEGSGTCINCGREAPYRAYLARTY 1nj8-a2-m1-cC_1nj8-a2-m1-cD Crystal Structure of Prolyl-tRNA Synthetase from Methanocaldococcus janaschii Q58635 Q58635 3.2 X-RAY DIFFRACTION 139 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 456 456 1nj8-a1-m1-cA_1nj8-a1-m1-cB MLEFSEWYSDILEKAEIYDVRYPIKGCGVYLPYGFKIRRYTFEIIRNLLDESGHDEALFPMLIPEDLLAKEAEHIKGFEDEVYWVTHGGKTQLDVKLALRPTSETPIYYMMKLWVKVHTDLPIKIYQIVNTFRYETKHTRPLIRLREIMTFKEAHTAHSTKEEAENQVKEAISIYKKFFDTLGIPYLISKRPEWDKFPGAEYTMAFDTIFPDGRTMQIATVHNLGQNFSKTFEIIFETPTGDKDYAYQTCYGISDRVIASIIAIHGDEKGLILPPIVAPIQVVIVPLIFKGKEDIVMEKAKEIYEKLKGKFRVHIDDRDIRPGRKFNDWEIKGVPLRIEVGPKDIENKKITLFRRDTMEKFQVDETQLMEVVEKTLNNIMENIKNRAWEKFENFITILEDINPDEIKNILSEKRGVILVPFKEEIYNEELEEKVEATILGETEYKGNKYIAIAKTY MLEFSEWYSDILEKAEIYDVRYPIKGCGVYLPYGFKIRRYTFEIIRNLLDESGHDEALFPMLIPEDLLAKEAEHIKGFEDEVYWVTHGGKTQLDVKLALRPTSETPIYYMMKLWVKVHTDLPIKIYQIVNTFRYETKHTRPLIRLREIMTFKEAHTAHSTKEEAENQVKEAISIYKKFFDTLGIPYLISKRPEWDKFPGAEYTMAFDTIFPDGRTMQIATVHNLGQNFSKTFEIIFETPTGDKDYAYQTCYGISDRVIASIIAIHGDEKGLILPPIVAPIQVVIVPLIFKGKEDIVMEKAKEIYEKLKGKFRVHIDDRDIRPGRKFNDWEIKGVPLRIEVGPKDIENKKITLFRRDTMEKFQVDETQLMEVVEKTLNNIMENIKNRAWEKFENFITILEDINPDEIKNILSEKRGVILVPFKEEIYNEELEEKVEATILGETEYKGNKYIAIAKTY 1njh-a1-m1-cA_1njh-a1-m2-cA Crystal Structure of Bacillus subtilis YojF protein O31858 O31858 1.7 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 105 105 NAKAIIKEDVQASLERYADRPVYIHLETTTGTVVAYIRNAKVTYHQAKIKGNGPYRVGLKTEEGWIYAEGLTEYTVDEENRLLAGHLPGGKLAISLQISEKPFTV NAKAIIKEDVQASLERYADRPVYIHLETTTGTVVAYIRNAKVTYHQAKIKGNGPYRVGLKTEEGWIYAEGLTEYTVDEENRLLAGHLPGGKLAISLQISEKPFTV 1njk-a1-m1-cA_1njk-a1-m1-cD Crystal Structure of YbaW Probable Thioesterase from Escherichia coli P77712 P77712 1.9 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1njk-a1-m1-cB_1njk-a1-m1-cC HQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQVK HQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQVK 1njk-a1-m1-cB_1njk-a1-m1-cD Crystal Structure of YbaW Probable Thioesterase from Escherichia coli P77712 P77712 1.9 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1njk-a1-m1-cA_1njk-a1-m1-cC HQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQVK HQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQVK 1njk-a1-m1-cC_1njk-a1-m1-cD Crystal Structure of YbaW Probable Thioesterase from Escherichia coli P77712 P77712 1.9 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1njk-a1-m1-cA_1njk-a1-m1-cB HQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQVK HQTQIKVRGYHLDVYQHVNNARYLEFLEEARWDGLENSDSFQWTAHNIAFVVVNININYRRPAVLSDLLTITSQLQQLNGKSGILSQVITLEPEGQVVADALITFVCIDLKTQKALALEGELREKLEQVK 1nju-a3-m1-cA_1nju-a3-m1-cD Complex structure of HCMV Protease and a peptidomimetic inhibitor P16753 P16753 2.7 X-RAY DIFFRACTION 28 1.0 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 230 230 DEQQSQAVAPVYVGGFLARYDQSPDEAELLLPRDVVEHWLHAQLSVALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSSRRCDDVEQTTPFKHVALCSVGRRRGTLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQSGDPFRSDSYGLLGNSVDALYIRERLPKLRYDKQLVGVTERESYVKA DEQQSQAVAPVYVGGFLARYDQSPDEAELLLPRDVVEHWLHAQLSVALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSSRRCDDVEQTTPFKHVALCSVGRRRGTLAVYGRDPEWVTQRFPDLTAADRDGLRAQWQSGDPFRSDSYGLLGNSVDALYIRERLPKLRYDKQLVGVTERESYVKA 1nkd-a1-m1-cA_1nkd-a1-m2-cA ATOMIC RESOLUTION (1.07 ANGSTROMS) STRUCTURE OF THE ROP MUTANT <2AA> P03051 P03051 1.09 X-RAY DIFFRACTION 88 1.0 562 (Escherichia coli) 562 (Escherichia coli) 59 59 1gto-a1-m1-cA_1gto-a1-m2-cA 1gto-a2-m1-cB_1gto-a2-m1-cC 1rop-a1-m1-cA_1rop-a1-m2-cA 1rpo-a1-m1-cA_1rpo-a1-m2-cA 1rpr-a1-m1-cA_1rpr-a1-m1-cB 2ghy-a1-m1-cA_2ghy-a1-m1-cB 2ijh-a1-m1-cA_2ijh-a1-m1-cB 2ijh-a2-m1-cC_2ijh-a2-m2-cC 2iji-a1-m1-cA_2iji-a1-m2-cA 2ijj-a1-m1-cB_2ijj-a1-m1-cA 2ijj-a2-m1-cC_2ijj-a2-m2-cC 2ijk-a1-m1-cA_2ijk-a1-m1-cB 3k79-a1-m1-cA_3k79-a1-m2-cA 4do2-a1-m1-cA_4do2-a1-m1-cB 7kae-a1-m1-cB_7kae-a1-m1-cA MTKQEKTALNMARFIRSQTLTLLEKLNELADAADEQADICESLHDHADELYRSCLARFG MTKQEKTALNMARFIRSQTLTLLEKLNELADAADEQADICESLHDHADELYRSCLARFG 1nkg-a2-m1-cA_1nkg-a2-m2-cA Rhamnogalacturonan lyase from Aspergillus aculeatus Q00019 Q00019 1.5 X-RAY DIFFRACTION 31 1.0 5053 (Aspergillus aculeatus) 5053 (Aspergillus aculeatus) 508 508 AFGITTSSSAYVIDTNAPNQLKFTVSRSSCDITSIIHYGTELQYSSQGSHIGSGLGSATVTATQSGDYIKVTCVTDTLTQYMVVHNGDPIIHMATYITAEPSIGELRFIARLNSDLLPNEEPFGDVSTTADGTAIEGSDVFLVGSETRSKFYSSERFIDDQRHCIAGDAHRVCMILNQYESSSGGPFHRDINSNNGGSYNALYWYMNSGHVQTESYRMGLHGPYSMYFSRSGTPSTSIDTSFFADLDIKGYVAASGRGKVAGTASGADSSMDWVVHWYNDAAQYWTYTSSSGSFTSPAMKPGTYTMVYYQGEYAVATSSVTVSAGSTTTKNISGSVKTGTTIFKIGEWDGQPTGFRNAANQLRMHPSDSRMSSWGPLTYTVGSSALTDFPMAVFKSVNNPVTIKFTATSAQTGAATLRIGTTLSFAGGRPQATINSYTGSAPAAPTNLDSRGVTRGAYRGLGEVYDVSIPSGTIVAGTNTITINVISGSSGDTYLSPNFIFDCVELFQ AFGITTSSSAYVIDTNAPNQLKFTVSRSSCDITSIIHYGTELQYSSQGSHIGSGLGSATVTATQSGDYIKVTCVTDTLTQYMVVHNGDPIIHMATYITAEPSIGELRFIARLNSDLLPNEEPFGDVSTTADGTAIEGSDVFLVGSETRSKFYSSERFIDDQRHCIAGDAHRVCMILNQYESSSGGPFHRDINSNNGGSYNALYWYMNSGHVQTESYRMGLHGPYSMYFSRSGTPSTSIDTSFFADLDIKGYVAASGRGKVAGTASGADSSMDWVVHWYNDAAQYWTYTSSSGSFTSPAMKPGTYTMVYYQGEYAVATSSVTVSAGSTTTKNISGSVKTGTTIFKIGEWDGQPTGFRNAANQLRMHPSDSRMSSWGPLTYTVGSSALTDFPMAVFKSVNNPVTIKFTATSAQTGAATLRIGTTLSFAGGRPQATINSYTGSAPAAPTNLDSRGVTRGAYRGLGEVYDVSIPSGTIVAGTNTITINVISGSSGDTYLSPNFIFDCVELFQ 1nkq-a4-m1-cB_1nkq-a4-m1-cA Crystal structure of yeast ynq8, a fumarylacetoacetate hydrolase family protein P53889 P53889 2.2 X-RAY DIFFRACTION 139 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 239 242 1nkq-a1-m1-cB_1nkq-a1-m1-cA 1nkq-a2-m1-cD_1nkq-a2-m1-cC 1nkq-a3-m1-cF_1nkq-a3-m1-cE 1nkq-a4-m2-cF_1nkq-a4-m2-cE 1nkq-a4-m3-cD_1nkq-a4-m3-cC SYNYLKAARKIICIGRNYAAHIKELQPFFFLKPTSSIVTPLSSPANSTFNGLNEDGTNPGPIFIPRGVKVHHEIELALIVSKHLSNVTKKPEEVYDSISGVALALDLTARNVQDEAKKKGLPWTISKGFDTFPISAIVSREKFSSYKSNLQDIFRVKCSVNGQLRQDGGTNLLHPLHKILQHISTISLEPGDIILTGTPAGVGELKPGDRVHCELLQNNDNIVDNFECENRPGPYEFRE SYNYLKAARKIICIGRNYAAHIKELNNQPFFFLKPTSSIVTPLSSSPANSTFNGLNEDGTNPGPIFIPRGVKVHHEIELALIVSKHLSNVTKKPEEVYDSISGVALALDLTARNVQDEAKKKGLPWTISKGFDTFPISAIVSREKFSSYKSNLQDIFRVKCSVNGQLRQDGGTNLLHPLHKILQHISTISLEPGDIILTGTPAGVGELKPGDRVHCELLQNNDNIVDNFECENRPGPYEFRE 1nkq-a4-m3-cC_1nkq-a4-m1-cA Crystal structure of yeast ynq8, a fumarylacetoacetate hydrolase family protein P53889 P53889 2.2 X-RAY DIFFRACTION 42 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 240 242 1nkq-a4-m1-cB_1nkq-a4-m2-cE SYNYLKAARKIICIGRNYAAHIKELQPFFFLKPTSSIVTPLSSSPANSTFNGLNEDGTNPGPIFIPRGVKVHHEIELALIVSKHLSNVTKKPEEVYDSISGVALALDLTARNVQDEAKKKGLPWTISKGFDTFPISAIVSREKFSSYKSNLQDIFRVKCSVNGQLRQDGGTNLLHPLHKILQHISTISLEPGDIILTGTPAGVGELKPGDRVHCELLQNNDNIVDNFECENRPGPYEFRE SYNYLKAARKIICIGRNYAAHIKELNNQPFFFLKPTSSIVTPLSSSPANSTFNGLNEDGTNPGPIFIPRGVKVHHEIELALIVSKHLSNVTKKPEEVYDSISGVALALDLTARNVQDEAKKKGLPWTISKGFDTFPISAIVSREKFSSYKSNLQDIFRVKCSVNGQLRQDGGTNLLHPLHKILQHISTISLEPGDIILTGTPAGVGELKPGDRVHCELLQNNDNIVDNFECENRPGPYEFRE 1nkt-a2-m1-cB_1nkt-a2-m2-cB CRYSTAL STRUCTURE OF THE SECA PROTEIN TRANSLOCATION ATPASE FROM MYCOBACTERIUM TUBERCULOSIS COMPLEX WITH ADPBS P9WGP5 P9WGP5 2.601 X-RAY DIFFRACTION 116 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 836 836 1nkt-a2-m1-cA_1nkt-a2-m2-cA 1nl3-a2-m1-cA_1nl3-a2-m2-cA 1nl3-a2-m1-cB_1nl3-a2-m2-cB DSPDLGTLVPRGSMADILSKLLRLGEGRMVKRLKKVADYVGTLSDDVEKLTDAELRAKTDEFKRRLADQKNPETLDDLLPEAFAVAREAAWRVLDQRPFDVQVMGAAALHLGNVAEMKTGEGKTLTCVLPAYLNALAGNGVHIVTVNDYLAKRDSEWMGRVHRFLGLQVGVILATMTPDERRVAYNADITYGTNNEFGFDYLRDNMAHSLDDLVQRGHHYAIVDEVDSILIDEARTPLIISGPADGASNWYTEFARLAPLMEKDVHYEVDLRKRTVGVHEKGVEFVEDQLGIDNLYEAANSPLVSYLNNALKAKELFSRDKDYIVRDGEVLIVDEFTGRVLIGRRYNEGMHQAIEAKEHVEIKAENQTLATITLQNYFRLYDKLAGMTGTAQTEAAELHEIYKLGVVSIPTNMPMIREDQSDLIYKTEEAKYIAVVDDVAERYAKGQPVLIGTTSVERSEYLSRQFTKRRIPHNVLNAKYHEQEATIIAVAGRRGGVTVATNMAGRGTDIVLGGNVDFLTDQRLRERGLDPVETPEEYEAAWHSELPIVKEEASKEAKEVIEAGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLGDELMRRFNGAALETLLTRLNLPDDVPIEAKMVTRAIKSAQTQVEQQNFEVRKNVLKYDEVMNQQRKVIYAERRRILEGENLKDQALDMVRDVITAYVDGATGEGYAEDWDLDALWTALKTLYPVGITADSLTLLEALLKDAERAYAAREAELEEIAGEGAMRQLERNVLLNVIDRKWREHLYEMDYLKEGIGLRAMAQRDPLVEYQREGYDMFMAMLDGMKEESVGFLFNVTV DSPDLGTLVPRGSMADILSKLLRLGEGRMVKRLKKVADYVGTLSDDVEKLTDAELRAKTDEFKRRLADQKNPETLDDLLPEAFAVAREAAWRVLDQRPFDVQVMGAAALHLGNVAEMKTGEGKTLTCVLPAYLNALAGNGVHIVTVNDYLAKRDSEWMGRVHRFLGLQVGVILATMTPDERRVAYNADITYGTNNEFGFDYLRDNMAHSLDDLVQRGHHYAIVDEVDSILIDEARTPLIISGPADGASNWYTEFARLAPLMEKDVHYEVDLRKRTVGVHEKGVEFVEDQLGIDNLYEAANSPLVSYLNNALKAKELFSRDKDYIVRDGEVLIVDEFTGRVLIGRRYNEGMHQAIEAKEHVEIKAENQTLATITLQNYFRLYDKLAGMTGTAQTEAAELHEIYKLGVVSIPTNMPMIREDQSDLIYKTEEAKYIAVVDDVAERYAKGQPVLIGTTSVERSEYLSRQFTKRRIPHNVLNAKYHEQEATIIAVAGRRGGVTVATNMAGRGTDIVLGGNVDFLTDQRLRERGLDPVETPEEYEAAWHSELPIVKEEASKEAKEVIEAGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLGDELMRRFNGAALETLLTRLNLPDDVPIEAKMVTRAIKSAQTQVEQQNFEVRKNVLKYDEVMNQQRKVIYAERRRILEGENLKDQALDMVRDVITAYVDGATGEGYAEDWDLDALWTALKTLYPVGITADSLTLLEALLKDAERAYAAREAELEEIAGEGAMRQLERNVLLNVIDRKWREHLYEMDYLKEGIGLRAMAQRDPLVEYQREGYDMFMAMLDGMKEESVGFLFNVTV 1nkt-a2-m2-cA_1nkt-a2-m2-cB CRYSTAL STRUCTURE OF THE SECA PROTEIN TRANSLOCATION ATPASE FROM MYCOBACTERIUM TUBERCULOSIS COMPLEX WITH ADPBS P9WGP5 P9WGP5 2.601 X-RAY DIFFRACTION 84 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 836 836 1nkt-a1-m1-cA_1nkt-a1-m1-cB 1nkt-a2-m1-cA_1nkt-a2-m1-cB 1nl3-a1-m1-cB_1nl3-a1-m1-cA 1nl3-a2-m1-cB_1nl3-a2-m1-cA 1nl3-a2-m2-cB_1nl3-a2-m2-cA DSPDLGTLVPRGSMADILSKLLRLGEGRMVKRLKKVADYVGTLSDDVEKLTDAELRAKTDEFKRRLADQKNPETLDDLLPEAFAVAREAAWRVLDQRPFDVQVMGAAALHLGNVAEMKTGEGKTLTCVLPAYLNALAGNGVHIVTVNDYLAKRDSEWMGRVHRFLGLQVGVILATMTPDERRVAYNADITYGTNNEFGFDYLRDNMAHSLDDLVQRGHHYAIVDEVDSILIDEARTPLIISGPADGASNWYTEFARLAPLMEKDVHYEVDLRKRTVGVHEKGVEFVEDQLGIDNLYEAANSPLVSYLNNALKAKELFSRDKDYIVRDGEVLIVDEFTGRVLIGRRYNEGMHQAIEAKEHVEIKAENQTLATITLQNYFRLYDKLAGMTGTAQTEAAELHEIYKLGVVSIPTNMPMIREDQSDLIYKTEEAKYIAVVDDVAERYAKGQPVLIGTTSVERSEYLSRQFTKRRIPHNVLNAKYHEQEATIIAVAGRRGGVTVATNMAGRGTDIVLGGNVDFLTDQRLRERGLDPVETPEEYEAAWHSELPIVKEEASKEAKEVIEAGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLGDELMRRFNGAALETLLTRLNLPDDVPIEAKMVTRAIKSAQTQVEQQNFEVRKNVLKYDEVMNQQRKVIYAERRRILEGENLKDQALDMVRDVITAYVDGATGEGYAEDWDLDALWTALKTLYPVGITADSLTLLEALLKDAERAYAAREAELEEIAGEGAMRQLERNVLLNVIDRKWREHLYEMDYLKEGIGLRAMAQRDPLVEYQREGYDMFMAMLDGMKEESVGFLFNVTV DSPDLGTLVPRGSMADILSKLLRLGEGRMVKRLKKVADYVGTLSDDVEKLTDAELRAKTDEFKRRLADQKNPETLDDLLPEAFAVAREAAWRVLDQRPFDVQVMGAAALHLGNVAEMKTGEGKTLTCVLPAYLNALAGNGVHIVTVNDYLAKRDSEWMGRVHRFLGLQVGVILATMTPDERRVAYNADITYGTNNEFGFDYLRDNMAHSLDDLVQRGHHYAIVDEVDSILIDEARTPLIISGPADGASNWYTEFARLAPLMEKDVHYEVDLRKRTVGVHEKGVEFVEDQLGIDNLYEAANSPLVSYLNNALKAKELFSRDKDYIVRDGEVLIVDEFTGRVLIGRRYNEGMHQAIEAKEHVEIKAENQTLATITLQNYFRLYDKLAGMTGTAQTEAAELHEIYKLGVVSIPTNMPMIREDQSDLIYKTEEAKYIAVVDDVAERYAKGQPVLIGTTSVERSEYLSRQFTKRRIPHNVLNAKYHEQEATIIAVAGRRGGVTVATNMAGRGTDIVLGGNVDFLTDQRLRERGLDPVETPEEYEAAWHSELPIVKEEASKEAKEVIEAGGLYVLGTERHESRRIDNQLRGRSGRQGDPGESRFYLSLGDELMRRFNGAALETLLTRLNLPDDVPIEAKMVTRAIKSAQTQVEQQNFEVRKNVLKYDEVMNQQRKVIYAERRRILEGENLKDQALDMVRDVITAYVDGATGEGYAEDWDLDALWTALKTLYPVGITADSLTLLEALLKDAERAYAAREAELEEIAGEGAMRQLERNVLLNVIDRKWREHLYEMDYLKEGIGLRAMAQRDPLVEYQREGYDMFMAMLDGMKEESVGFLFNVTV 1nkv-a1-m1-cA_1nkv-a1-m1-cC X-RAY STRUCTURE OF YJHP FROM E.COLI NORTHEAST STRUCTURAL GENOMICS RESEARCH CONSORTIUM (NESG) TARGET ER13 P39367 P39367 2.9 X-RAY DIFFRACTION 43 0.983 562 (Escherichia coli) 562 (Escherichia coli) 239 242 1nkv-a1-m1-cB_1nkv-a1-m1-cA 1nkv-a1-m1-cB_1nkv-a1-m1-cC PRIFTISESEHRIHNPFTEEKYATLGRVLRKPGTRILDLGSGSGELCTWARDHGITGTGIDSSLFTAQAKRRAEELGVSERVHFIHNDAAGYVANEKCDVAACVGATWIAGGFAGAEELLAQSLKPGGILIGEPYWRQLPATEEIAQACGVSSTSDFLTLPGLVGAFDDLGYDVVEVLADQEGWDRYEAAKWLTRRWLEANPDDDFAAEVRAELNIAPKRYVTYARECFGWGVFALIAR DIPRIFTISESEHRIHNPFTEEKYATLGRVLRKPGTRILDLGSGSGELCTWARDHGITGTGIDSSLFTAQAKRRAEELGVSERVHFIHNDAAGYVANEKCDVAACVGATWIAGGEELLAQSLKPGGILIGEPYWRQLPATEEIAQACGVSSTSDFLTLPGLVGAFDDLGYDVVEVLADQEGWDRYEAAKWLTRRWLEANPDDDFAAEVRAELNIAPKRYVTYARECFGWGVFALIARLEHHH 1nl0-a2-m2-cH_1nl0-a2-m1-cH Crystal structure of human factor IX Gla domain in complex of an inhibitory antibody, 10C12 2.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 216 GVQLVESGGGVVQPGRSLRLSCAASGFTFSTYAMHWVRQAPGKGLEWVAIISYDGSKKYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARASIAAARVLDYWGRGTMVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCD GVQLVESGGGVVQPGRSLRLSCAASGFTFSTYAMHWVRQAPGKGLEWVAIISYDGSKKYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARASIAAARVLDYWGRGTMVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCD 1nl0-a2-m2-cL_1nl0-a2-m1-cL Crystal structure of human factor IX Gla domain in complex of an inhibitory antibody, 10C12 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 QSVLTQPPSVSAAPGQKVTISCSGSTSNIGNNYVSWYQQHPGKAPKLMIYDVSKRPSGVPDRFSGSKSGNSASLDISGLQSEDEADYYCAAWDDSLSEFLFGTGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPT QSVLTQPPSVSAAPGQKVTISCSGSTSNIGNNYVSWYQQHPGKAPKLMIYDVSKRPSGVPDRFSGSKSGNSASLDISGLQSEDEADYYCAAWDDSLSEFLFGTGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPT 1nlm-a1-m1-cA_1nlm-a1-m1-cB CRYSTAL STRUCTURE OF MURG:GLCNAC COMPLEX P17443 P17443 2.5 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 350 350 KRLMVMAGGTGGHVFPGLAVAHHLMAQGWQVRWLGTADRMEADLVPKHGIEIDFIRISGLRGKGIKALIAAPLRIFNAWRQARAIMKAYKPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVMQAFPGAFPNAEVVGNPVRTDVLALPLPQQRLAGREGPVRVLVVGGSQGARILNQTMPQVAAKLGDSVTIWHQSGKGSQQSVEQAYAEAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKIIEQPQLSVDAVANTLAGWSRETLLTMAERARAASIPDATERVANEVSRVARA KRLMVMAGGTGGHVFPGLAVAHHLMAQGWQVRWLGTADRMEADLVPKHGIEIDFIRISGLRGKGIKALIAAPLRIFNAWRQARAIMKAYKPDVVLGMGGYVSGPGGLAAWSLGIPVVLHEQNGIAGLTNKWLAKIATKVMQAFPGAFPNAEVVGNPVRTDVLALPLPQQRLAGREGPVRVLVVGGSQGARILNQTMPQVAAKLGDSVTIWHQSGKGSQQSVEQAYAEAGQPQHKVTEFIDDMAAAYAWADVVVCRSGALTVSEIAAAGLPALFVPFQHKDRQQYWNALPLEKAGAAKIIEQPQLSVDAVANTLAGWSRETLLTMAERARAASIPDATERVANEVSRVARA 1nlq-a1-m1-cC_1nlq-a1-m1-cE The crystal structure of Drosophila NLP-core provides insight into pentamer formation and histone binding Q27415 Q27415 1.5 X-RAY DIFFRACTION 68 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 96 98 1nlq-a1-m1-cB_1nlq-a1-m1-cA 1nlq-a1-m1-cD_1nlq-a1-m1-cB 1nlq-a1-m1-cD_1nlq-a1-m1-cC 1nlq-a1-m1-cE_1nlq-a1-m1-cA ESFYGVTLTAESDSVTWDVGQKLVIKQILLGAEAKENEFNVVEVNTPKDSVQIPIAVLKAGETRAVNPDVEFYESKVTFKLIKGSGPVYIHGHNIK ESFYGVTLTAESDSVTWDVARGQKLVIKQILLGAEAKENEFNVVEVNTPKDSVQIPIAVLKAGETRAVNPDVEFYESKVTFKLIKGSGPVYIHGHNIK 1nlr-a1-m1-cA_1nlr-a1-m2-cA ENDO-1,4-BETA-GLUCANASE CELB2, CELLULASE, NATIVE STRUCTURE Q54331 Q54331 1.75 X-RAY DIFFRACTION 62 1.0 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 221 221 DTTICEPFGTTTIQGRYVVQNNRWGSTAPQCVTATDTGFRVTQADGSAPTNGAPKSYPSVFNGCHYTNCSPGTDLPVRLDTVSAAPSSISYGFVDGAVYNASYDIWLDPTARTDGVNQTEIIWFNRVGPIQPIGSPVGTASVGGRTWEVWSGGNGSNDVLSFVAPSAISGWSFDVMDFVRATVARGLAENDWYLTSVQAGFEPWQNGAGLAVNSFSSTVET DTTICEPFGTTTIQGRYVVQNNRWGSTAPQCVTATDTGFRVTQADGSAPTNGAPKSYPSVFNGCHYTNCSPGTDLPVRLDTVSAAPSSISYGFVDGAVYNASYDIWLDPTARTDGVNQTEIIWFNRVGPIQPIGSPVGTASVGGRTWEVWSGGNGSNDVLSFVAPSAISGWSFDVMDFVRATVARGLAENDWYLTSVQAGFEPWQNGAGLAVNSFSSTVET 1nly-a1-m3-cA_1nly-a1-m3-cB Crystal structure of the traffic ATPase of the Helicobacter pylori type IV secretion system in complex with ATPgammaS Q7BK04 Q7BK04 2.8 X-RAY DIFFRACTION 116 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 317 317 1g6o-a1-m1-cA_1g6o-a1-m1-cB 1g6o-a1-m1-cA_1g6o-a1-m3-cB 1g6o-a1-m1-cB_1g6o-a1-m2-cA 1g6o-a1-m2-cA_1g6o-a1-m2-cB 1g6o-a1-m2-cB_1g6o-a1-m3-cA 1g6o-a1-m3-cA_1g6o-a1-m3-cB 1g6o-a2-m1-cA_1g6o-a2-m1-cB 1g6o-a2-m1-cA_1g6o-a2-m3-cB 1g6o-a2-m1-cB_1g6o-a2-m2-cA 1g6o-a2-m2-cA_1g6o-a2-m2-cB 1g6o-a2-m2-cB_1g6o-a2-m3-cA 1g6o-a2-m3-cA_1g6o-a2-m3-cB 1g6o-a2-m4-cA_1g6o-a2-m4-cB 1g6o-a2-m4-cA_1g6o-a2-m6-cB 1g6o-a2-m4-cB_1g6o-a2-m5-cA 1g6o-a2-m5-cA_1g6o-a2-m5-cB 1g6o-a2-m5-cB_1g6o-a2-m6-cA 1g6o-a2-m6-cA_1g6o-a2-m6-cB 1nly-a1-m1-cA_1nly-a1-m1-cB 1nly-a1-m1-cA_1nly-a1-m3-cB 1nly-a1-m1-cB_1nly-a1-m2-cA 1nly-a1-m2-cA_1nly-a1-m2-cB 1nly-a1-m2-cB_1nly-a1-m3-cA 1nlz-a1-m1-cB_1nlz-a1-m1-cA 1nlz-a1-m1-cC_1nlz-a1-m1-cB 1nlz-a1-m1-cC_1nlz-a1-m1-cD 1nlz-a1-m1-cE_1nlz-a1-m1-cD 1nlz-a1-m1-cE_1nlz-a1-m1-cF 1nlz-a1-m1-cF_1nlz-a1-m1-cA 1opx-a1-m1-cA_1opx-a1-m1-cB 1opx-a1-m1-cA_1opx-a1-m3-cB 1opx-a1-m1-cB_1opx-a1-m2-cA 1opx-a1-m2-cA_1opx-a1-m2-cB 1opx-a1-m2-cB_1opx-a1-m3-cA 1opx-a1-m3-cA_1opx-a1-m3-cB 1opx-a2-m1-cA_1opx-a2-m1-cB 1opx-a2-m1-cA_1opx-a2-m3-cB 1opx-a2-m1-cB_1opx-a2-m2-cA 1opx-a2-m2-cA_1opx-a2-m2-cB 1opx-a2-m2-cB_1opx-a2-m3-cA 1opx-a2-m3-cA_1opx-a2-m3-cB 1opx-a2-m4-cA_1opx-a2-m4-cB 1opx-a2-m4-cA_1opx-a2-m6-cB 1opx-a2-m4-cB_1opx-a2-m5-cA 1opx-a2-m5-cA_1opx-a2-m5-cB 1opx-a2-m5-cB_1opx-a2-m6-cA 1opx-a2-m6-cA_1opx-a2-m6-cB 2pt7-a1-m1-cB_2pt7-a1-m1-cA 2pt7-a1-m1-cC_2pt7-a1-m1-cB 2pt7-a1-m1-cC_2pt7-a1-m1-cD 2pt7-a1-m1-cE_2pt7-a1-m1-cD 2pt7-a1-m1-cF_2pt7-a1-m1-cA 2pt7-a1-m1-cF_2pt7-a1-m1-cE 6bge-a1-m1-cA_6bge-a1-m4-cB 6bge-a1-m1-cA_6bge-a1-m6-cB 6bge-a1-m2-cB_6bge-a1-m3-cA 6bge-a1-m2-cB_6bge-a1-m5-cA 6bge-a1-m3-cA_6bge-a1-m6-cB 6bge-a1-m4-cB_6bge-a1-m5-cA LSAEDKKFLEVERALKEAALNPLRHATEELFGDFLKENITEICYNGNKVVWVLKNNGEWQPFDVRDRKAFSLSRLHFARCCASFKKKTIDNYENPILSSNLANGERVQIVLSPVTVNDETISISIRIPSKTTYPHSFFEEQGFYNLLDNKEQAISAIKDGIAIGKNVIVCGGTGSGKTTYIKSIEFIPKEERIISIEDTEEIVFKHHKNYTQLFFGGNITSADCLKSCLRRPDRIILGELRSSEAYDFYNVLCSGHKGTLTTLHAGSSEEAFIRLANSSSNSAARNIKFESLIEGFKDLIDIVHINHHKQCDEFYIK LSAEDKKFLEVERALKEAALNPLRHATEELFGDFLKENITEICYNGNKVVWVLKNNGEWQPFDVRDRKAFSLSRLHFARCCASFKKKTIDNYENPILSSNLANGERVQIVLSPVTVNDETISISIRIPSKTTYPHSFFEEQGFYNLLDNKEQAISAIKDGIAIGKNVIVCGGTGSGKTTYIKSIEFIPKEERIISIEDTEEIVFKHHKNYTQLFFGGNITSADCLKSCLRRPDRIILGELRSSEAYDFYNVLCSGHKGTLTTLHAGSSEEAFIRLANSSSNSAARNIKFESLIEGFKDLIDIVHINHHKQCDEFYIK 1nm3-a1-m1-cA_1nm3-a1-m2-cB Crystal structure of Heamophilus influenza hybrid-Prx5 P44758 P44758 2.8 X-RAY DIFFRACTION 116 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 230 232 1nm3-a1-m2-cA_1nm3-a1-m1-cB SEGKKVPQVTFRTRQGDKWVDVTTSELFDNKTVIVFSLPGAFTPTCSSSHLPRYNELAPVFKKYGVDDILVVSVNDTFVNAWKEDEKSENISFIPDGNGEFTEGGLVGKEDLGFGKRSWRYSLVKNGVVEKFIEPNEPGDPFKVSDADTLKYLAPQHQVQESISIFTKPGCPFCAKAKQLLHDKGLSFEEIILGHDATIVSVRAVSGRTTVPQVFIGGKHIGGSDDLEKY SEGKKVPQVTFRTRQGDKWVDVTTSELFDNKTVIVFSLPGAFTPTCSSSHLPRYNELAPVFKKYGVDDILVVSVNDTFVNAWKEDEKSENISFIPDGNGEFTEGGLVGKEDLGFGKRSWRYSLVKNGVVEKFIEPNEPGDPFKVSDADTLKYLAPQHQVQESISIFTKPGCPFCAKAKQLLHDKGLSFEEIILGHDATIVSVRAVSGRTTVPQVFIGGKHIGGSDDLEKYFA 1nm3-a1-m2-cA_1nm3-a1-m2-cB Crystal structure of Heamophilus influenza hybrid-Prx5 P44758 P44758 2.8 X-RAY DIFFRACTION 64 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 230 232 1nm3-a1-m1-cA_1nm3-a1-m1-cB SEGKKVPQVTFRTRQGDKWVDVTTSELFDNKTVIVFSLPGAFTPTCSSSHLPRYNELAPVFKKYGVDDILVVSVNDTFVNAWKEDEKSENISFIPDGNGEFTEGGLVGKEDLGFGKRSWRYSLVKNGVVEKFIEPNEPGDPFKVSDADTLKYLAPQHQVQESISIFTKPGCPFCAKAKQLLHDKGLSFEEIILGHDATIVSVRAVSGRTTVPQVFIGGKHIGGSDDLEKY SEGKKVPQVTFRTRQGDKWVDVTTSELFDNKTVIVFSLPGAFTPTCSSSHLPRYNELAPVFKKYGVDDILVVSVNDTFVNAWKEDEKSENISFIPDGNGEFTEGGLVGKEDLGFGKRSWRYSLVKNGVVEKFIEPNEPGDPFKVSDADTLKYLAPQHQVQESISIFTKPGCPFCAKAKQLLHDKGLSFEEIILGHDATIVSVRAVSGRTTVPQVFIGGKHIGGSDDLEKYFA 1nml-a2-m1-cA_1nml-a2-m2-cA Di-haemic Cytochrome c Peroxidase from Pseudomonas nautica 617, form IN (pH 4.0) P83787 P83787 2.2 X-RAY DIFFRACTION 72 1.0 2743 (Marinobacter nauticus) 2743 (Marinobacter nauticus) 316 316 1rz5-a2-m1-cA_1rz5-a2-m2-cA 1rz6-a2-m1-cA_1rz6-a2-m2-cA DNLMERANSMFEPIPKYPPVIDGNELTQAKVELGKMEFFEPRLSSSHLISCNTCHNVGLGGDDELPTSIGHGWQKGPRNSPTVFNAVFNAAQFWDGRAADLAEQAKGPVQAGVEMSSTPDRVVATLKSMPEYIERFEDAFPGQENPVTFDNMAVAIEAYEATLITPEAPFDKYLRGDTSALNESEKEGLALFMDRGCTACHSGVNLGGQNYYPFGLVAKKGRFSVTETASDEYVFRASPLRNIELTAPYFHSGAVWSLEEAVAVMGTAQLGTELNNDEVKSIVAFLKTLTGNVPEVTYPVLPPSTANTPKPVDMIP DNLMERANSMFEPIPKYPPVIDGNELTQAKVELGKMEFFEPRLSSSHLISCNTCHNVGLGGDDELPTSIGHGWQKGPRNSPTVFNAVFNAAQFWDGRAADLAEQAKGPVQAGVEMSSTPDRVVATLKSMPEYIERFEDAFPGQENPVTFDNMAVAIEAYEATLITPEAPFDKYLRGDTSALNESEKEGLALFMDRGCTACHSGVNLGGQNYYPFGLVAKKGRFSVTETASDEYVFRASPLRNIELTAPYFHSGAVWSLEEAVAVMGTAQLGTELNNDEVKSIVAFLKTLTGNVPEVTYPVLPPSTANTPKPVDMIP 1nmt-a1-m1-cC_1nmt-a1-m1-cB N-MYRISTOYL TRANSFERASE FROM CANDIDA ALBICANS AT 2.45 A P30418 P30418 2.45 X-RAY DIFFRACTION 43 1.0 5476 (Candida albicans) 5476 (Candida albicans) 389 392 1nmt-a1-m1-cA_1nmt-a1-m1-cB EGPIDKLKTPEDVPNDPLPLISDFEWSTLDIDDNLQLDELYKLLYDNYVDATFRFKYSHEFFQWALKPPGWRKDWHVGVRVKSTGKLVAFIAATPVTFKLNKSNKVIDSVEINFLCIHKKLRNKRLAPVLIKEITRRVNKQNIWQALYTGGSILPTPLTTCRYQHRPINWSKLHDVGFSHLPPNQTKSSMVASYTLPNNPKLKGLRPMTGKDVSTVLSLLYKYQERFDIVQLFTEEEFKHWMLGHDENSDSNVVKSYVVEDENGIITDYFSYYLLPFTVLDNAQHDELGIAYLFYYASDSFEKPNYKKRLNELITDALITSKKFGVDVFNCLTCQDNTYFLKDCKFGSGDGFLNYYLFNYRTFPMDGGIDKKTKEVVEDQTSGIGVVLL EGPIDKLKTPEDVPNDPLPLISDFEWSTLDIDDNLQLDELYKLLYDNYVEDIDATFRFKYSHEFFQWALKPPGWRKDWHVGVRVKSTGKLVAFIAATPVTFKLNKSNKVIDSVEINFLCIHKKLRNKRLAPVLIKEITRRVNKQNIWQALYTGGSILPTPLTTCRYQHRPINWSKLHDVGFSHLPPNQTKSSMVASYTLPNNPKLKGLRPMTGKDVSTVLSLLYKYQERFDIVQLFTEEEFKHWMLGHDENSDSNVVKSYVVEDENGIITDYFSYYLLPFTVLDNAQHDELGIAYLFYYASDSFEKPNYKKRLNELITDALITSKKFGVDVFNCLTCQDNTYFLKDCKFGSGDGFLNYYLFNYRTFPMDGGIDKKTKEVVEDQTSGIGVVLL 1nn7-a2-m1-cA_1nn7-a2-m5-cA Crystal Structure Of The Tetramerization Domain Of The Shal Voltage-Gated Potassium Channel Q63881 Q63881 2.1 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 105 105 LIVLNVSGTRFQTWQDTLERYPDTLLGSSERDFFYHPETQQYFFDRDPDIFRHILNFYRTGKLHYPRHECISAYDEELAFFGLIPEIIGDCCYEEYKDRRRENAE LIVLNVSGTRFQTWQDTLERYPDTLLGSSERDFFYHPETQQYFFDRDPDIFRHILNFYRTGKLHYPRHECISAYDEELAFFGLIPEIIGDCCYEEYKDRRRENAE 1nnh-a2-m1-cA_1nnh-a2-m2-cA Hypothetical protein from Pyrococcus furiosus Pfu-1801964 Q8TZN6 Q8TZN6 1.65 X-RAY DIFFRACTION 193 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 293 293 NAVEIISREISPTLDIQTKILEYMTDFFVKEGFKWLLPVIISPITDPLWPDPAGEGMEPAEVEIYGVKMRLTHSMILHKQLAIAMGLKKIFVLSPNIRLESRQKDDGRHAYEFTQLDFEVERAKMEDIMRLIERLVYGLFRKAEEWTGREFPKTKRFEVFEYSEVLEEFGSDEKASQEMEEPFWIINIPREFYDREVDGFWRNYDLILPYGYGEVASGGEREWEYEKIVAKIRKAGLNEDSFRPYLEIAKAGKLKPSAGAGIGVERLVRFIVGAKHIAEVQPFPRIPGIPAVI NAVEIISREISPTLDIQTKILEYMTDFFVKEGFKWLLPVIISPITDPLWPDPAGEGMEPAEVEIYGVKMRLTHSMILHKQLAIAMGLKKIFVLSPNIRLESRQKDDGRHAYEFTQLDFEVERAKMEDIMRLIERLVYGLFRKAEEWTGREFPKTKRFEVFEYSEVLEEFGSDEKASQEMEEPFWIINIPREFYDREVDGFWRNYDLILPYGYGEVASGGEREWEYEKIVAKIRKAGLNEDSFRPYLEIAKAGKLKPSAGAGIGVERLVRFIVGAKHIAEVQPFPRIPGIPAVI 1nnq-a2-m1-cA_1nnq-a2-m2-cB rubrerythrin from Pyrococcus furiosus Pfu-1210814 Q9UWP7 Q9UWP7 2.35 X-RAY DIFFRACTION 14 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 170 170 1nnq-a2-m1-cB_1nnq-a2-m2-cA 2hr5-a2-m1-cA_2hr5-a2-m2-cB 2hr5-a2-m1-cB_2hr5-a2-m2-cA 3mps-a5-m1-cA_3mps-a5-m1-cH 3mps-a5-m1-cB_3mps-a5-m1-cG 3mps-a6-m1-cD_3mps-a6-m1-cK 3mps-a6-m1-cF_3mps-a6-m1-cI 3pwf-a2-m1-cA_3pwf-a2-m2-cB 3pwf-a2-m1-cB_3pwf-a2-m2-cA 3pza-a2-m1-cA_3pza-a2-m2-cB 3pza-a2-m1-cB_3pza-a2-m2-cA 3qvd-a5-m1-cA_3qvd-a5-m1-cH 3qvd-a5-m1-cB_3qvd-a5-m1-cG 3qvd-a6-m1-cC_3qvd-a6-m1-cF 3qvd-a6-m1-cD_3qvd-a6-m1-cE VVKRTMTKKFLEEAFAGESMAHMRYLIFAEKAEQEGFPNIAKLFRAIAYAEFVHAKNHFIALGKLGKTPENLQMGIEGETFEVEEMYPVYNKAAEFQGEKEAVRTTHYALEAEKIHAELYRKAKEKAEKGEDIEIKKVYICPICGYTAVDEAPEYCPVCGAPKEKFVVFE VVKRTMTKKFLEEAFAGESMAHMRYLIFAEKAEQEGFPNIAKLFRAIAYAEFVHAKNHFIALGKLGKTPENLQMGIEGETFEVEEMYPVYNKAAEFQGEKEAVRTTHYALEAEKIHAELYRKAKEKAEKGEDIEIKKVYICPICGYTAVDEAPEYCPVCGAPKEKFVVFE 1nnq-a2-m1-cB_1nnq-a2-m2-cB rubrerythrin from Pyrococcus furiosus Pfu-1210814 Q9UWP7 Q9UWP7 2.35 X-RAY DIFFRACTION 12 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 170 170 1nnq-a2-m1-cA_1nnq-a2-m2-cA 2hr5-a2-m1-cA_2hr5-a2-m2-cA 2hr5-a2-m1-cB_2hr5-a2-m2-cB 3mps-a5-m1-cA_3mps-a5-m1-cG 3mps-a5-m1-cB_3mps-a5-m1-cH 3mps-a6-m1-cD_3mps-a6-m1-cF 3mps-a6-m1-cI_3mps-a6-m1-cK 3pwf-a2-m1-cA_3pwf-a2-m2-cA 3pwf-a2-m1-cB_3pwf-a2-m2-cB 3pza-a2-m1-cA_3pza-a2-m2-cA 3pza-a2-m1-cB_3pza-a2-m2-cB 3qvd-a5-m1-cA_3qvd-a5-m1-cG 3qvd-a5-m1-cB_3qvd-a5-m1-cH 3qvd-a6-m1-cC_3qvd-a6-m1-cE 3qvd-a6-m1-cD_3qvd-a6-m1-cF VVKRTMTKKFLEEAFAGESMAHMRYLIFAEKAEQEGFPNIAKLFRAIAYAEFVHAKNHFIALGKLGKTPENLQMGIEGETFEVEEMYPVYNKAAEFQGEKEAVRTTHYALEAEKIHAELYRKAKEKAEKGEDIEIKKVYICPICGYTAVDEAPEYCPVCGAPKEKFVVFE VVKRTMTKKFLEEAFAGESMAHMRYLIFAEKAEQEGFPNIAKLFRAIAYAEFVHAKNHFIALGKLGKTPENLQMGIEGETFEVEEMYPVYNKAAEFQGEKEAVRTTHYALEAEKIHAELYRKAKEKAEKGEDIEIKKVYICPICGYTAVDEAPEYCPVCGAPKEKFVVFE 1nnq-a2-m2-cA_1nnq-a2-m2-cB rubrerythrin from Pyrococcus furiosus Pfu-1210814 Q9UWP7 Q9UWP7 2.35 X-RAY DIFFRACTION 298 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 170 170 1nnq-a1-m1-cA_1nnq-a1-m1-cB 1nnq-a2-m1-cA_1nnq-a2-m1-cB 2hr5-a1-m1-cA_2hr5-a1-m1-cB 2hr5-a2-m1-cA_2hr5-a2-m1-cB 2hr5-a2-m2-cA_2hr5-a2-m2-cB 3mps-a1-m1-cA_3mps-a1-m1-cB 3mps-a2-m1-cD_3mps-a2-m1-cI 3mps-a3-m1-cF_3mps-a3-m1-cK 3mps-a4-m1-cG_3mps-a4-m1-cH 3mps-a5-m1-cA_3mps-a5-m1-cB 3mps-a5-m1-cG_3mps-a5-m1-cH 3mps-a6-m1-cD_3mps-a6-m1-cI 3mps-a6-m1-cF_3mps-a6-m1-cK 3pwf-a1-m1-cA_3pwf-a1-m1-cB 3pwf-a2-m1-cA_3pwf-a2-m1-cB 3pwf-a2-m2-cA_3pwf-a2-m2-cB 3pza-a1-m1-cA_3pza-a1-m1-cB 3pza-a2-m1-cA_3pza-a2-m1-cB 3pza-a2-m2-cA_3pza-a2-m2-cB 3qvd-a1-m1-cA_3qvd-a1-m1-cB 3qvd-a2-m1-cC_3qvd-a2-m1-cD 3qvd-a3-m1-cE_3qvd-a3-m1-cF 3qvd-a4-m1-cG_3qvd-a4-m1-cH 3qvd-a5-m1-cA_3qvd-a5-m1-cB 3qvd-a5-m1-cG_3qvd-a5-m1-cH 3qvd-a6-m1-cC_3qvd-a6-m1-cD 3qvd-a6-m1-cE_3qvd-a6-m1-cF VVKRTMTKKFLEEAFAGESMAHMRYLIFAEKAEQEGFPNIAKLFRAIAYAEFVHAKNHFIALGKLGKTPENLQMGIEGETFEVEEMYPVYNKAAEFQGEKEAVRTTHYALEAEKIHAELYRKAKEKAEKGEDIEIKKVYICPICGYTAVDEAPEYCPVCGAPKEKFVVFE VVKRTMTKKFLEEAFAGESMAHMRYLIFAEKAEQEGFPNIAKLFRAIAYAEFVHAKNHFIALGKLGKTPENLQMGIEGETFEVEEMYPVYNKAAEFQGEKEAVRTTHYALEAEKIHAELYRKAKEKAEKGEDIEIKKVYICPICGYTAVDEAPEYCPVCGAPKEKFVVFE 1nnw-a1-m1-cA_1nnw-a1-m1-cB hypothetical protein from Pyrococcus furiosus Pfu-1218608 Q8U1C6 Q8U1C6 1.9 X-RAY DIFFRACTION 50 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 251 251 VYVAVLANIAGNLPALTAALSRIEEMREEGYEIEKYYILGNIVGLFPYPKEVIEVIKDLTKKENVKIIRGKYDQIIAMSDPHATDPGYIDKLELPGHVKKALKFTWEKLGHEGREYLRDLPIYLVDKIGGNEVFGVYGSPINPFDGEVLAEQPTSYYEAIMRPVKDYEMLIVASPMYPVDAMTRYGRVVCPGSVGFPPGKEHKATFALVDVDTLKPKFIEVEYDKKIIEERIRAEGLPEEIIKILYHGGRP VYVAVLANIAGNLPALTAALSRIEEMREEGYEIEKYYILGNIVGLFPYPKEVIEVIKDLTKKENVKIIRGKYDQIIAMSDPHATDPGYIDKLELPGHVKKALKFTWEKLGHEGREYLRDLPIYLVDKIGGNEVFGVYGSPINPFDGEVLAEQPTSYYEAIMRPVKDYEMLIVASPMYPVDAMTRYGRVVCPGSVGFPPGKEHKATFALVDVDTLKPKFIEVEYDKKIIEERIRAEGLPEEIIKILYHGGRP 1nnw-a2-m1-cA_1nnw-a2-m2-cB hypothetical protein from Pyrococcus furiosus Pfu-1218608 Q8U1C6 Q8U1C6 1.9 X-RAY DIFFRACTION 12 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 251 251 VYVAVLANIAGNLPALTAALSRIEEMREEGYEIEKYYILGNIVGLFPYPKEVIEVIKDLTKKENVKIIRGKYDQIIAMSDPHATDPGYIDKLELPGHVKKALKFTWEKLGHEGREYLRDLPIYLVDKIGGNEVFGVYGSPINPFDGEVLAEQPTSYYEAIMRPVKDYEMLIVASPMYPVDAMTRYGRVVCPGSVGFPPGKEHKATFALVDVDTLKPKFIEVEYDKKIIEERIRAEGLPEEIIKILYHGGRP VYVAVLANIAGNLPALTAALSRIEEMREEGYEIEKYYILGNIVGLFPYPKEVIEVIKDLTKKENVKIIRGKYDQIIAMSDPHATDPGYIDKLELPGHVKKALKFTWEKLGHEGREYLRDLPIYLVDKIGGNEVFGVYGSPINPFDGEVLAEQPTSYYEAIMRPVKDYEMLIVASPMYPVDAMTRYGRVVCPGSVGFPPGKEHKATFALVDVDTLKPKFIEVEYDKKIIEERIRAEGLPEEIIKILYHGGRP 1noc-a1-m2-cA_1noc-a1-m3-cA MURINE INDUCIBLE NITRIC OXIDE SYNTHASE OXYGENASE DOMAIN (DELTA 114) COMPLEXED WITH TYPE I E. COLI CHLORAMPHENICOL ACETYL TRANSFERASE AND IMIDAZOLE P29477 P29477 2.6 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 372 372 1noc-a1-m1-cA_1noc-a1-m2-cA 1noc-a1-m1-cA_1noc-a1-m3-cA PKSLTRGPRDKPTPLEELLPHAIEFINQYYGSFKEAKIEEHLARLEAVTKEIETTGTYQLTLDELIFATKMAWRNAPRCIGRIQWSNLQVFDARNCSTAQEMFQHICRHILYATNNGNIRSAITVFPQRSDGKHDFRLWNSQLIRYAGYQMPDGTIRGDAATLEFTQLCIDLGWKPRYGRFDVLPLVLQADGQDPEVFEIPPDLVLEVTMEHPKYEWFQELGLKWYALPAVANMLLEVGGLEFPACPFNGWYMGTEIGVRDFCDTQRYNILEEVGRRMGLETHTLASLWKDRAVTEINVAVLHSFQKQNVTIMDHHTASESFMKHMQNEYRARLVPPVSGSITPVFHQEMLNYVLSPFYYYQIEPWKTHIWQ PKSLTRGPRDKPTPLEELLPHAIEFINQYYGSFKEAKIEEHLARLEAVTKEIETTGTYQLTLDELIFATKMAWRNAPRCIGRIQWSNLQVFDARNCSTAQEMFQHICRHILYATNNGNIRSAITVFPQRSDGKHDFRLWNSQLIRYAGYQMPDGTIRGDAATLEFTQLCIDLGWKPRYGRFDVLPLVLQADGQDPEVFEIPPDLVLEVTMEHPKYEWFQELGLKWYALPAVANMLLEVGGLEFPACPFNGWYMGTEIGVRDFCDTQRYNILEEVGRRMGLETHTLASLWKDRAVTEINVAVLHSFQKQNVTIMDHHTASESFMKHMQNEYRARLVPPVSGSITPVFHQEMLNYVLSPFYYYQIEPWKTHIWQ 1nox-a1-m1-cA_1nox-a1-m2-cA NADH OXIDASE FROM THERMUS THERMOPHILUS Q60049 Q60049 1.59 X-RAY DIFFRACTION 196 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 200 200 PVLDAKTAALKRRSIRRYRKDPVPEGLLREILEAALRAPSAWNLQPWRIVVVRDPATKRALREAAFGQAHVEEAPVVLVLYADLEDALAHLDEVIHPGVQGERREAQKQAIQRAFAAMGQEARKAWASGQSYILLGYLLLLLEAYGLGSVPMLGFDPERVRAILGLPSRAAIPALVALGYPAEEGYPSHRLPLERVVLWR PVLDAKTAALKRRSIRRYRKDPVPEGLLREILEAALRAPSAWNLQPWRIVVVRDPATKRALREAAFGQAHVEEAPVVLVLYADLEDALAHLDEVIHPGVQGERREAQKQAIQRAFAAMGQEARKAWASGQSYILLGYLLLLLEAYGLGSVPMLGFDPERVRAILGLPSRAAIPALVALGYPAEEGYPSHRLPLERVVLWR 1noz-a2-m1-cA_1noz-a2-m2-cA T4 DNA POLYMERASE FRAGMENT (RESIDUES 1-388) AT 110K P04415 P04415 2.2 X-RAY DIFFRACTION 13 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 346 346 DEFYISIETVGNNIVERYIDENGKERTREVEYLPTMFRHCKEGKNCAPQKFPSMKDARDWMKRGMNDFKLAYISDTYGSEIVYDRKFVRVANCDIEVTGDKFPDPMKAEYEIDAITHYDSIDDRFYVFDLLNSMYGSVSKWDAKLAAKLDCEGGDEVPQEILDRVIYMPFDNERDMLMEYINLWEQKRPAIFTGWNIEGFDVPYIMNRVKMILGERSMKRFSPIGRVKSKLSKEIYSIDGVSILDYLDLYKKFAFTNLPSFSLESVAQHETKKGKLPYDGPINKLRETNHQRYISYNIIDVESVQAIDKIRGFIDLVLSMSYYAKMPFSGVMSPIKTWDAIIFNSL DEFYISIETVGNNIVERYIDENGKERTREVEYLPTMFRHCKEGKNCAPQKFPSMKDARDWMKRGMNDFKLAYISDTYGSEIVYDRKFVRVANCDIEVTGDKFPDPMKAEYEIDAITHYDSIDDRFYVFDLLNSMYGSVSKWDAKLAAKLDCEGGDEVPQEILDRVIYMPFDNERDMLMEYINLWEQKRPAIFTGWNIEGFDVPYIMNRVKMILGERSMKRFSPIGRVKSKLSKEIYSIDGVSILDYLDLYKKFAFTNLPSFSLESVAQHETKKGKLPYDGPINKLRETNHQRYISYNIIDVESVQAIDKIRGFIDLVLSMSYYAKMPFSGVMSPIKTWDAIIFNSL 1noz-a2-m1-cA_1noz-a2-m2-cB T4 DNA POLYMERASE FRAGMENT (RESIDUES 1-388) AT 110K P04415 P04415 2.2 X-RAY DIFFRACTION 37 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 346 346 1noz-a2-m1-cB_1noz-a2-m2-cA DEFYISIETVGNNIVERYIDENGKERTREVEYLPTMFRHCKEGKNCAPQKFPSMKDARDWMKRGMNDFKLAYISDTYGSEIVYDRKFVRVANCDIEVTGDKFPDPMKAEYEIDAITHYDSIDDRFYVFDLLNSMYGSVSKWDAKLAAKLDCEGGDEVPQEILDRVIYMPFDNERDMLMEYINLWEQKRPAIFTGWNIEGFDVPYIMNRVKMILGERSMKRFSPIGRVKSKLSKEIYSIDGVSILDYLDLYKKFAFTNLPSFSLESVAQHETKKGKLPYDGPINKLRETNHQRYISYNIIDVESVQAIDKIRGFIDLVLSMSYYAKMPFSGVMSPIKTWDAIIFNSL DEFYISIETVGNNIVERYIDENGKERTREVEYLPTMFRHCKEGKNCAPQKFPSMKDARDWMKRGMNDFKLAYISDTYGSEIVYDRKFVRVANCDIEVTGDKFPDPMKAEYEIDAITHYDSIDDRFYVFDLLNSMYGSVSKWDAKLAAKLDCEGGDEVPQEILDRVIYMPFDNERDMLMEYINLWEQKRPAIFTGWNIEGFDVPYIMNRVKMILGERSMKRFSPIGRVKSKLSKEIYSIDGVSILDYLDLYKKFAFTNLPSFSLESVAQHETKKGKLPYDGPINKLRETNHQRYISYNIIDVESVQAIDKIRGFIDLVLSMSYYAKMPFSGVMSPIKTWDAIIFNSL 1noz-a2-m2-cA_1noz-a2-m2-cB T4 DNA POLYMERASE FRAGMENT (RESIDUES 1-388) AT 110K P04415 P04415 2.2 X-RAY DIFFRACTION 89 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 346 346 1noy-a1-m1-cB_1noy-a1-m1-cA 1noz-a1-m1-cA_1noz-a1-m1-cB 1noz-a2-m1-cA_1noz-a2-m1-cB DEFYISIETVGNNIVERYIDENGKERTREVEYLPTMFRHCKEGKNCAPQKFPSMKDARDWMKRGMNDFKLAYISDTYGSEIVYDRKFVRVANCDIEVTGDKFPDPMKAEYEIDAITHYDSIDDRFYVFDLLNSMYGSVSKWDAKLAAKLDCEGGDEVPQEILDRVIYMPFDNERDMLMEYINLWEQKRPAIFTGWNIEGFDVPYIMNRVKMILGERSMKRFSPIGRVKSKLSKEIYSIDGVSILDYLDLYKKFAFTNLPSFSLESVAQHETKKGKLPYDGPINKLRETNHQRYISYNIIDVESVQAIDKIRGFIDLVLSMSYYAKMPFSGVMSPIKTWDAIIFNSL DEFYISIETVGNNIVERYIDENGKERTREVEYLPTMFRHCKEGKNCAPQKFPSMKDARDWMKRGMNDFKLAYISDTYGSEIVYDRKFVRVANCDIEVTGDKFPDPMKAEYEIDAITHYDSIDDRFYVFDLLNSMYGSVSKWDAKLAAKLDCEGGDEVPQEILDRVIYMPFDNERDMLMEYINLWEQKRPAIFTGWNIEGFDVPYIMNRVKMILGERSMKRFSPIGRVKSKLSKEIYSIDGVSILDYLDLYKKFAFTNLPSFSLESVAQHETKKGKLPYDGPINKLRETNHQRYISYNIIDVESVQAIDKIRGFIDLVLSMSYYAKMPFSGVMSPIKTWDAIIFNSL 1np6-a1-m1-cA_1np6-a1-m1-cB Crystal structure of Escherichia coli MobB P32125 P32125 1.9 X-RAY DIFFRACTION 178 0.994 562 (Escherichia coli) 562 (Escherichia coli) 158 169 1p9n-a1-m1-cA_1p9n-a1-m1-cB MIPLLAFAAWSGTGKTTLLKKLIPALCARGIRPGLIKHTHHELRKAGAAQTIVASQQRWALMTETPDEEELDLQFLASRMDTSKLDLILVEGFKHEEIAKIVLFRDGAGHRPEELVIDRHVIAVASDVPLNLDVALLDINDVEGLADFVVEWMQKQNG MIPLLAFAAWSGTGKTTLLKKLIPALCARGIRPGLIKHTHHDMDVDKPGKDSYELRKAGAAQTIVASQQRWALMTETPDEEELDLQFLASRMDTSKLDLILVEGFKHEEIAKIVLFRDGAGHRPEELVIDRHVIAVASDVPLNLDVALLDINDVEGLADFVVEWMQKQN 1npb-a2-m1-cD_1npb-a2-m1-cC Crystal structure of the fosfomycin resistance protein from transposon Tn2921 Q56415 Q56415 2.5 X-RAY DIFFRACTION 192 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 137 138 1npb-a1-m1-cB_1npb-a1-m1-cA 1npb-a3-m1-cE_1npb-a3-m1-cF MLQSLNHLTLAVSDLQKSVTFWHELLGLTLHARWNTGAYLTCGDLWVCLSYDEARQYVPPQESDYTHYAFTVAEEDFEPLSQRLEQAGVTIWKQNKSEGASFYFLDPDGHKLELHVGSLAARLAACREKPYAGMVFT MLQSLNHLTLAVSDLQKSVTFWHELLGLTLHARWNTGAYLTCGDLWVCLSYDEARQYVPPQESDYTHYAFTVAEEDFEPLSQRLEQAGVTIWKQNKSEGASFYFLDPDGHKLELHVGSLAARLAACREKPYAGMVFTS 1npo-a2-m1-cA_1npo-a2-m2-cA BOVINE NEUROPHYSIN II COMPLEX WITH OXYTOCIN P01180 P01180 3 X-RAY DIFFRACTION 12 1.0 9913 (Bos taurus) 9913 (Bos taurus) 81 81 LELRQCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCNDESCVTEPEC LELRQCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCNDESCVTEPEC 1npo-a2-m4-cC_1npo-a2-m1-cA BOVINE NEUROPHYSIN II COMPLEX WITH OXYTOCIN P01180 P01180 3 X-RAY DIFFRACTION 19 0.987 9913 (Bos taurus) 9913 (Bos taurus) 79 81 1npo-a2-m3-cC_1npo-a2-m2-cA LRQCLPCGPGGAGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCNDESCVTEPEC LELRQCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCNDESCVTEPEC 1npp-a5-m1-cB_1npp-a5-m1-cA CRYSTAL STRUCTURE OF AQUIFEX AEOLICUS NUSG IN P2(1) O67757 O67757 2 X-RAY DIFFRACTION 64 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 241 244 1m1g-a5-m2-cD_1m1g-a5-m1-cC ELEKKWYALQVEPGKENEAKENLLKVLELEGLKDLVDEVIVPAEEKVVIRAQGKEKYRLSLKGNARDISVLGKKGVTTFRIENGEVKVVESVEGDTCVNAPPISKPGQKITCKENKTEAKIVLDNKIFPGYILIKAHMNDKLLMAIEKTPHVFRPVMVGGKPVPLKEEEVQNILNQIKRGVKPSKVEFEKGDQVRVIEGPFMNFTGTVEEVHPEKRKLTVMISIFGRMTPVELDFDQVEKI QVQELEKKWYALQVEPGKENEAKENLLKVLELEGLKDLVDEVIVPAEEKVVIRAQGKEKYRLSLKGNARDISVLGKKGVTTFRIENGEVKVVESVEGDTCVNAPPISKPGQKITCKENKTEAKIVLDNKIFPGYILIKAHMNDKLLMAIEKTPHVFRPVMVGGKPVPLKEEEVQNILNQIKRGVKPSKVEFEKGDQVRVIEGPFMNFTGTVEEVHPEKRKLTVMISIFGRMTPVELDFDQVEKI 1nq0-a2-m1-cA_1nq0-a2-m2-cA TR Receptor Mutations Conferring Hormone Resistance and Reduced Corepressor Release Exhibit Decreased Stability in the Nterminal LBD P10828 P10828 2.4 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 253 1nq1-a2-m1-cA_1nq1-a2-m2-cA 1nq2-a2-m1-cA_1nq2-a2-m2-cA 1xzx-a2-m1-cX_1xzx-a2-m2-cX 1y0x-a2-m1-cX_1y0x-a2-m2-cX 3imy-a2-m1-cA_3imy-a2-m2-cA AAMEELQKSIGHKPEPTDEEWELIKTVTEAHVATNTQGSHWKQKRKFLPEDIGQKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFDLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFED AAMEELQKSIGHKPEPTDEEWELIKTVTEAHVATNTQGSHWKQKRKFLPEDIGQKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFDLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFED 1nq3-a2-m1-cD_1nq3-a2-m1-cF Crystal structure of the mammalian tumor associated antigen UK114 P80601 P80601 2.2 X-RAY DIFFRACTION 94 1.0 9925 (Capra hircus) 9925 (Capra hircus) 132 133 1nq3-a1-m1-cA_1nq3-a1-m1-cB 1nq3-a1-m1-cA_1nq3-a1-m1-cC 1nq3-a1-m1-cB_1nq3-a1-m1-cC 1nq3-a2-m1-cD_1nq3-a2-m1-cE 1nq3-a2-m1-cE_1nq3-a2-m1-cF SLVRRIISTAKAPAAIGPYSQAVLVDRTIYISGQLGMDPASGQLVPGGVVEEAKQALTNIGEILKAAGCDFTNVVKATVLLADINDFSAVNDVYKQYFQSSFPARAAYQVAALPKGGRVEIEAIAVQGPLTT SLVRRIISTAKAPAAIGPYSQAVLVDRTIYISGQLGMDPASGQLVPGGVVEEAKQALTNIGEILKAAGCDFTNVVKATVLLADINDFSAVNDVYKQYFQSSFPARAAYQVAALPKGGRVEIEAIAVQGPLTTA 1nr4-a5-m1-cA_1nr4-a5-m3-cE High resolution crystal structures of thymus and activation-regulated chemokine Q92583 Q92583 1.72 X-RAY DIFFRACTION 10 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 67 69 RGTNVGRECCLEYFKGAIPLRKLKTWYQTSEDCSRDAIVFVTVQGRAICSDPNNKRVKNAVKYLQSL GTNVGRECCLEYFKGAIPLRKLKTWYQTSEDCSRDAIVFVTVQGRAICSDPNNKRVKNAVKYLQSLERS 1nr4-a5-m3-cF_1nr4-a5-m3-cE High resolution crystal structures of thymus and activation-regulated chemokine Q92583 Q92583 1.72 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 69 1nr4-a2-m1-cD_1nr4-a2-m1-cC 1nr4-a3-m1-cF_1nr4-a3-m1-cE 1nr4-a5-m2-cD_1nr4-a5-m2-cC VGRECCLEYFKGAIPLRKLKTWYQTSEDCSRDAIVFVTVQGRAICSDPNNKRVKNAVKYLQSLERS GTNVGRECCLEYFKGAIPLRKLKTWYQTSEDCSRDAIVFVTVQGRAICSDPNNKRVKNAVKYLQSLERS 1nr4-a5-m4-cG_1nr4-a5-m3-cE High resolution crystal structures of thymus and activation-regulated chemokine Q92583 Q92583 1.72 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 69 1nr4-a5-m2-cC_1nr4-a5-m1-cA GTNVGRECCLEYFKGAIPLRKLKTWYQTSEDCSRDAIVFVTVQGRAICSDPNNKRVKNAVKYLQSL GTNVGRECCLEYFKGAIPLRKLKTWYQTSEDCSRDAIVFVTVQGRAICSDPNNKRVKNAVKYLQSLERS 1nr7-a3-m1-cA_1nr7-a3-m1-cH Crystal structure of apo bovine glutamate dehydrogenase P00366 P00366 3.3 X-RAY DIFFRACTION 27 1.0 9913 (Bos taurus) 9913 (Bos taurus) 496 496 1nqt-a3-m1-cA_1nqt-a3-m1-cH DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT 1nr7-a3-m1-cF_1nr7-a3-m1-cG Crystal structure of apo bovine glutamate dehydrogenase P00366 P00366 3.3 X-RAY DIFFRACTION 45 1.0 9913 (Bos taurus) 9913 (Bos taurus) 496 496 1nqt-a3-m1-cF_1nqt-a3-m1-cG DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT 1nr7-a3-m1-cG_1nr7-a3-m1-cH Crystal structure of apo bovine glutamate dehydrogenase P00366 P00366 3.3 X-RAY DIFFRACTION 95 1.0 9913 (Bos taurus) 9913 (Bos taurus) 496 496 1hwy-a1-m1-cA_1hwy-a1-m1-cB 1hwy-a1-m1-cA_1hwy-a1-m1-cF 1hwy-a1-m1-cB_1hwy-a1-m1-cF 1hwy-a1-m1-cC_1hwy-a1-m1-cD 1hwy-a1-m1-cC_1hwy-a1-m1-cE 1hwy-a1-m1-cD_1hwy-a1-m1-cE 1l1f-a1-m1-cA_1l1f-a1-m1-cB 1l1f-a1-m1-cA_1l1f-a1-m1-cF 1l1f-a1-m1-cB_1l1f-a1-m1-cF 1l1f-a1-m1-cC_1l1f-a1-m1-cD 1l1f-a1-m1-cC_1l1f-a1-m1-cE 1l1f-a1-m1-cD_1l1f-a1-m1-cE 1nqt-a1-m1-cA_1nqt-a1-m1-cB 1nqt-a1-m1-cA_1nqt-a1-m1-cF 1nqt-a1-m1-cB_1nqt-a1-m1-cF 1nqt-a1-m1-cC_1nqt-a1-m1-cD 1nqt-a1-m1-cC_1nqt-a1-m1-cE 1nqt-a1-m1-cD_1nqt-a1-m1-cE 1nqt-a2-m1-cG_1nqt-a2-m1-cH 1nqt-a2-m1-cG_1nqt-a2-m1-cL 1nqt-a2-m1-cH_1nqt-a2-m1-cL 1nqt-a2-m1-cI_1nqt-a2-m1-cJ 1nqt-a2-m1-cI_1nqt-a2-m1-cK 1nqt-a2-m1-cJ_1nqt-a2-m1-cK 1nqt-a3-m1-cA_1nqt-a3-m1-cB 1nqt-a3-m1-cA_1nqt-a3-m1-cF 1nqt-a3-m1-cB_1nqt-a3-m1-cF 1nqt-a3-m1-cC_1nqt-a3-m1-cD 1nqt-a3-m1-cC_1nqt-a3-m1-cE 1nqt-a3-m1-cD_1nqt-a3-m1-cE 1nqt-a3-m1-cG_1nqt-a3-m1-cH 1nqt-a3-m1-cG_1nqt-a3-m1-cL 1nqt-a3-m1-cH_1nqt-a3-m1-cL 1nqt-a3-m1-cI_1nqt-a3-m1-cJ 1nqt-a3-m1-cI_1nqt-a3-m1-cK 1nqt-a3-m1-cJ_1nqt-a3-m1-cK 1nr1-a1-m1-cA_1nr1-a1-m1-cB 1nr1-a1-m1-cA_1nr1-a1-m1-cF 1nr1-a1-m1-cB_1nr1-a1-m1-cF 1nr1-a1-m1-cC_1nr1-a1-m1-cD 1nr1-a1-m1-cC_1nr1-a1-m1-cE 1nr1-a1-m1-cD_1nr1-a1-m1-cE 1nr7-a1-m1-cA_1nr7-a1-m1-cB 1nr7-a1-m1-cA_1nr7-a1-m1-cF 1nr7-a1-m1-cB_1nr7-a1-m1-cF 1nr7-a1-m1-cC_1nr7-a1-m1-cD 1nr7-a1-m1-cC_1nr7-a1-m1-cE 1nr7-a1-m1-cD_1nr7-a1-m1-cE 1nr7-a2-m1-cG_1nr7-a2-m1-cH 1nr7-a2-m1-cG_1nr7-a2-m1-cL 1nr7-a2-m1-cH_1nr7-a2-m1-cL 1nr7-a2-m1-cI_1nr7-a2-m1-cJ 1nr7-a2-m1-cI_1nr7-a2-m1-cK 1nr7-a2-m1-cJ_1nr7-a2-m1-cK 1nr7-a3-m1-cA_1nr7-a3-m1-cB 1nr7-a3-m1-cA_1nr7-a3-m1-cF 1nr7-a3-m1-cB_1nr7-a3-m1-cF 1nr7-a3-m1-cC_1nr7-a3-m1-cD 1nr7-a3-m1-cC_1nr7-a3-m1-cE 1nr7-a3-m1-cD_1nr7-a3-m1-cE 1nr7-a3-m1-cG_1nr7-a3-m1-cL 1nr7-a3-m1-cH_1nr7-a3-m1-cL 1nr7-a3-m1-cI_1nr7-a3-m1-cJ 1nr7-a3-m1-cI_1nr7-a3-m1-cK 1nr7-a3-m1-cJ_1nr7-a3-m1-cK 3etd-a1-m1-cA_3etd-a1-m1-cB 3etd-a1-m1-cA_3etd-a1-m1-cF 3etd-a1-m1-cB_3etd-a1-m1-cF 3etd-a1-m1-cC_3etd-a1-m1-cD 3etd-a1-m1-cC_3etd-a1-m1-cE 3etd-a1-m1-cD_3etd-a1-m1-cE 3ete-a1-m1-cA_3ete-a1-m1-cB 3ete-a1-m1-cA_3ete-a1-m1-cF 3ete-a1-m1-cB_3ete-a1-m1-cF 3ete-a1-m1-cC_3ete-a1-m1-cD 3ete-a1-m1-cC_3ete-a1-m1-cE 3ete-a1-m1-cD_3ete-a1-m1-cE 3etg-a1-m1-cA_3etg-a1-m1-cB 3etg-a1-m1-cA_3etg-a1-m1-cF 3etg-a1-m1-cB_3etg-a1-m1-cF 3etg-a1-m1-cC_3etg-a1-m1-cD 3etg-a1-m1-cC_3etg-a1-m1-cE 3etg-a1-m1-cD_3etg-a1-m1-cE 3jcz-a1-m1-cA_3jcz-a1-m1-cB 3jcz-a1-m1-cA_3jcz-a1-m1-cC 3jcz-a1-m1-cB_3jcz-a1-m1-cC 3jcz-a1-m1-cD_3jcz-a1-m1-cE 3jcz-a1-m1-cD_3jcz-a1-m1-cF 3jcz-a1-m1-cE_3jcz-a1-m1-cF 3jd0-a1-m1-cA_3jd0-a1-m1-cB 3jd0-a1-m1-cA_3jd0-a1-m1-cC 3jd0-a1-m1-cB_3jd0-a1-m1-cC 3jd0-a1-m1-cD_3jd0-a1-m1-cE 3jd0-a1-m1-cD_3jd0-a1-m1-cF 3jd0-a1-m1-cE_3jd0-a1-m1-cF 3jd1-a1-m1-cA_3jd1-a1-m1-cB 3jd1-a1-m1-cA_3jd1-a1-m1-cC 3jd1-a1-m1-cB_3jd1-a1-m1-cC 3jd1-a1-m1-cD_3jd1-a1-m1-cE 3jd1-a1-m1-cD_3jd1-a1-m1-cF 3jd1-a1-m1-cE_3jd1-a1-m1-cF 3jd2-a1-m1-cA_3jd2-a1-m1-cB 3jd2-a1-m1-cA_3jd2-a1-m1-cC 3jd2-a1-m1-cB_3jd2-a1-m1-cC 3jd2-a1-m1-cD_3jd2-a1-m1-cE 3jd2-a1-m1-cD_3jd2-a1-m1-cF 3jd2-a1-m1-cE_3jd2-a1-m1-cF 3jd3-a1-m1-cA_3jd3-a1-m1-cB 3jd3-a1-m1-cA_3jd3-a1-m1-cC 3jd3-a1-m1-cB_3jd3-a1-m1-cC 3jd3-a1-m1-cD_3jd3-a1-m1-cE 3jd3-a1-m1-cD_3jd3-a1-m1-cF 3jd3-a1-m1-cE_3jd3-a1-m1-cF 3jd4-a1-m1-cA_3jd4-a1-m1-cB 3jd4-a1-m1-cA_3jd4-a1-m1-cC 3jd4-a1-m1-cB_3jd4-a1-m1-cC 3jd4-a1-m1-cD_3jd4-a1-m1-cE 3jd4-a1-m1-cD_3jd4-a1-m1-cF 3jd4-a1-m1-cE_3jd4-a1-m1-cF 6dhd-a1-m1-cA_6dhd-a1-m1-cB 6dhd-a1-m1-cA_6dhd-a1-m1-cC 6dhd-a1-m1-cB_6dhd-a1-m1-cC 6dhd-a1-m1-cD_6dhd-a1-m1-cE 6dhd-a1-m1-cD_6dhd-a1-m1-cF 6dhd-a1-m1-cE_6dhd-a1-m1-cF 6dhk-a1-m1-cA_6dhk-a1-m1-cB 6dhk-a1-m1-cA_6dhk-a1-m1-cF 6dhk-a1-m1-cB_6dhk-a1-m1-cF 6dhk-a1-m1-cC_6dhk-a1-m1-cD 6dhk-a1-m1-cC_6dhk-a1-m1-cE 6dhk-a1-m1-cD_6dhk-a1-m1-cE 6dhk-a2-m1-cG_6dhk-a2-m1-cH 6dhk-a2-m1-cG_6dhk-a2-m1-cL 6dhk-a2-m1-cH_6dhk-a2-m1-cL 6dhk-a2-m1-cI_6dhk-a2-m1-cJ 6dhk-a2-m1-cI_6dhk-a2-m1-cK 6dhk-a2-m1-cJ_6dhk-a2-m1-cK 6dhl-a1-m1-cA_6dhl-a1-m1-cB 6dhl-a1-m1-cA_6dhl-a1-m1-cF 6dhl-a1-m1-cB_6dhl-a1-m1-cF 6dhl-a1-m1-cC_6dhl-a1-m1-cD 6dhl-a1-m1-cC_6dhl-a1-m1-cE 6dhl-a1-m1-cD_6dhl-a1-m1-cE 6dhl-a2-m1-cG_6dhl-a2-m1-cH 6dhl-a2-m1-cG_6dhl-a2-m1-cL 6dhl-a2-m1-cH_6dhl-a2-m1-cL 6dhl-a2-m1-cI_6dhl-a2-m1-cJ 6dhl-a2-m1-cI_6dhl-a2-m1-cK 6dhl-a2-m1-cJ_6dhl-a2-m1-cK 6dhm-a1-m1-cA_6dhm-a1-m1-cB 6dhm-a1-m1-cA_6dhm-a1-m1-cC 6dhm-a1-m1-cB_6dhm-a1-m1-cC 6dhm-a1-m1-cD_6dhm-a1-m1-cE 6dhm-a1-m1-cD_6dhm-a1-m1-cF 6dhm-a1-m1-cE_6dhm-a1-m1-cF 6dhn-a1-m1-cA_6dhn-a1-m1-cB 6dhn-a1-m1-cA_6dhn-a1-m1-cC 6dhn-a1-m1-cB_6dhn-a1-m1-cC 6dhn-a1-m1-cD_6dhn-a1-m1-cE 6dhn-a1-m1-cD_6dhn-a1-m1-cF 6dhn-a1-m1-cE_6dhn-a1-m1-cF 6dhq-a1-m1-cA_6dhq-a1-m1-cB 6dhq-a1-m1-cA_6dhq-a1-m1-cF 6dhq-a1-m1-cB_6dhq-a1-m1-cF 6dhq-a1-m1-cC_6dhq-a1-m1-cD 6dhq-a1-m1-cC_6dhq-a1-m1-cE 6dhq-a1-m1-cD_6dhq-a1-m1-cE 6dqg-a1-m1-cA_6dqg-a1-m1-cB 6dqg-a1-m1-cA_6dqg-a1-m1-cF 6dqg-a1-m1-cB_6dqg-a1-m1-cF 6dqg-a1-m1-cC_6dqg-a1-m1-cD 6dqg-a1-m1-cC_6dqg-a1-m1-cE 6dqg-a1-m1-cD_6dqg-a1-m1-cE 6g2u-a1-m1-cA_6g2u-a1-m1-cD 6g2u-a1-m1-cB_6g2u-a1-m1-cA 6g2u-a1-m1-cB_6g2u-a1-m1-cD 6g2u-a1-m1-cC_6g2u-a1-m1-cF 7uzm-a1-m1-cA_7uzm-a1-m1-cB 7uzm-a1-m1-cA_7uzm-a1-m1-cC 7uzm-a1-m1-cB_7uzm-a1-m1-cC 7uzm-a1-m1-cD_7uzm-a1-m1-cE 7uzm-a1-m1-cD_7uzm-a1-m1-cF 7uzm-a1-m1-cE_7uzm-a1-m1-cF 7vda-a1-m1-cA_7vda-a1-m1-cB 7vda-a1-m1-cA_7vda-a1-m1-cF 7vda-a1-m1-cB_7vda-a1-m1-cF 7vda-a1-m1-cC_7vda-a1-m1-cD 7vda-a1-m1-cC_7vda-a1-m1-cE 7vda-a1-m1-cD_7vda-a1-m1-cE 8ar7-a1-m1-cA_8ar7-a1-m1-cB 8ar7-a1-m1-cC_8ar7-a1-m1-cA 8ar7-a1-m1-cC_8ar7-a1-m1-cB 8ar7-a1-m1-cD_8ar7-a1-m1-cE 8ar7-a1-m1-cD_8ar7-a1-m1-cF 8ar7-a1-m1-cE_8ar7-a1-m1-cF 8ar8-a1-m1-cA_8ar8-a1-m1-cB 8ar8-a1-m1-cA_8ar8-a1-m1-cC 8ar8-a1-m1-cC_8ar8-a1-m1-cB 8ar8-a1-m1-cE_8ar8-a1-m1-cD 8ar8-a1-m1-cF_8ar8-a1-m1-cD 8ar8-a1-m1-cF_8ar8-a1-m1-cE DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT 1nr7-a3-m1-cH_1nr7-a3-m1-cJ Crystal structure of apo bovine glutamate dehydrogenase P00366 P00366 3.3 X-RAY DIFFRACTION 94 1.0 9913 (Bos taurus) 9913 (Bos taurus) 496 496 1hwy-a1-m1-cA_1hwy-a1-m1-cD 1hwy-a1-m1-cB_1hwy-a1-m1-cE 1hwy-a1-m1-cC_1hwy-a1-m1-cF 1l1f-a1-m1-cA_1l1f-a1-m1-cE 1l1f-a1-m1-cB_1l1f-a1-m1-cD 1l1f-a1-m1-cC_1l1f-a1-m1-cF 1nqt-a1-m1-cA_1nqt-a1-m1-cE 1nqt-a1-m1-cB_1nqt-a1-m1-cD 1nqt-a1-m1-cC_1nqt-a1-m1-cF 1nqt-a2-m1-cG_1nqt-a2-m1-cK 1nqt-a2-m1-cH_1nqt-a2-m1-cJ 1nqt-a2-m1-cI_1nqt-a2-m1-cL 1nqt-a3-m1-cA_1nqt-a3-m1-cE 1nqt-a3-m1-cB_1nqt-a3-m1-cD 1nqt-a3-m1-cC_1nqt-a3-m1-cF 1nqt-a3-m1-cG_1nqt-a3-m1-cK 1nqt-a3-m1-cH_1nqt-a3-m1-cJ 1nqt-a3-m1-cI_1nqt-a3-m1-cL 1nr1-a1-m1-cA_1nr1-a1-m1-cE 1nr1-a1-m1-cB_1nr1-a1-m1-cD 1nr1-a1-m1-cC_1nr1-a1-m1-cF 1nr7-a1-m1-cA_1nr7-a1-m1-cE 1nr7-a1-m1-cB_1nr7-a1-m1-cD 1nr7-a1-m1-cC_1nr7-a1-m1-cF 1nr7-a2-m1-cG_1nr7-a2-m1-cK 1nr7-a2-m1-cH_1nr7-a2-m1-cJ 1nr7-a2-m1-cI_1nr7-a2-m1-cL 1nr7-a3-m1-cA_1nr7-a3-m1-cE 1nr7-a3-m1-cB_1nr7-a3-m1-cD 1nr7-a3-m1-cC_1nr7-a3-m1-cF 1nr7-a3-m1-cG_1nr7-a3-m1-cK 1nr7-a3-m1-cI_1nr7-a3-m1-cL 3etd-a1-m1-cA_3etd-a1-m1-cD 3etd-a1-m1-cB_3etd-a1-m1-cE 3etd-a1-m1-cC_3etd-a1-m1-cF 3ete-a1-m1-cA_3ete-a1-m1-cD 3ete-a1-m1-cB_3ete-a1-m1-cE 3ete-a1-m1-cC_3ete-a1-m1-cF 3etg-a1-m1-cA_3etg-a1-m1-cD 3etg-a1-m1-cB_3etg-a1-m1-cE 3etg-a1-m1-cC_3etg-a1-m1-cF 3jcz-a1-m1-cA_3jcz-a1-m1-cE 3jcz-a1-m1-cB_3jcz-a1-m1-cD 3jcz-a1-m1-cC_3jcz-a1-m1-cF 3jd0-a1-m1-cA_3jd0-a1-m1-cE 3jd0-a1-m1-cB_3jd0-a1-m1-cD 3jd0-a1-m1-cC_3jd0-a1-m1-cF 3jd1-a1-m1-cA_3jd1-a1-m1-cE 3jd1-a1-m1-cB_3jd1-a1-m1-cD 3jd1-a1-m1-cC_3jd1-a1-m1-cF 3jd2-a1-m1-cA_3jd2-a1-m1-cE 3jd2-a1-m1-cB_3jd2-a1-m1-cD 3jd2-a1-m1-cC_3jd2-a1-m1-cF 3jd3-a1-m1-cA_3jd3-a1-m1-cE 3jd3-a1-m1-cB_3jd3-a1-m1-cD 3jd3-a1-m1-cC_3jd3-a1-m1-cF 3jd4-a1-m1-cA_3jd4-a1-m1-cE 3jd4-a1-m1-cB_3jd4-a1-m1-cD 3jd4-a1-m1-cC_3jd4-a1-m1-cF 6dhd-a1-m1-cA_6dhd-a1-m1-cD 6dhd-a1-m1-cB_6dhd-a1-m1-cE 6dhd-a1-m1-cC_6dhd-a1-m1-cF 6dhk-a1-m1-cA_6dhk-a1-m1-cE 6dhk-a1-m1-cB_6dhk-a1-m1-cD 6dhk-a1-m1-cC_6dhk-a1-m1-cF 6dhk-a2-m1-cG_6dhk-a2-m1-cK 6dhk-a2-m1-cH_6dhk-a2-m1-cJ 6dhk-a2-m1-cI_6dhk-a2-m1-cL 6dhl-a1-m1-cA_6dhl-a1-m1-cD 6dhl-a1-m1-cB_6dhl-a1-m1-cE 6dhl-a1-m1-cC_6dhl-a1-m1-cF 6dhl-a2-m1-cG_6dhl-a2-m1-cJ 6dhl-a2-m1-cH_6dhl-a2-m1-cK 6dhl-a2-m1-cI_6dhl-a2-m1-cL 6dhm-a1-m1-cA_6dhm-a1-m1-cD 6dhm-a1-m1-cB_6dhm-a1-m1-cE 6dhm-a1-m1-cC_6dhm-a1-m1-cF 6dhn-a1-m1-cA_6dhn-a1-m1-cD 6dhn-a1-m1-cB_6dhn-a1-m1-cE 6dhn-a1-m1-cC_6dhn-a1-m1-cF 6dhq-a1-m1-cA_6dhq-a1-m1-cD 6dhq-a1-m1-cB_6dhq-a1-m1-cE 6dhq-a1-m1-cC_6dhq-a1-m1-cF 6dqg-a1-m1-cA_6dqg-a1-m1-cE 6dqg-a1-m1-cB_6dqg-a1-m1-cD 6dqg-a1-m1-cC_6dqg-a1-m1-cF 7uzm-a1-m1-cA_7uzm-a1-m1-cE 7uzm-a1-m1-cB_7uzm-a1-m1-cD 7uzm-a1-m1-cC_7uzm-a1-m1-cF 7vda-a1-m1-cA_7vda-a1-m1-cE 7vda-a1-m1-cB_7vda-a1-m1-cD 7vda-a1-m1-cC_7vda-a1-m1-cF 8ar7-a1-m1-cA_8ar7-a1-m1-cE 8ar7-a1-m1-cB_8ar7-a1-m1-cD 8ar7-a1-m1-cC_8ar7-a1-m1-cF 8ar8-a1-m1-cA_8ar8-a1-m1-cE 8ar8-a1-m1-cD_8ar8-a1-m1-cB 8ar8-a1-m1-cF_8ar8-a1-m1-cC DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT DPNFFKMVEGFFDRGASIVEDKLVEDLRTRESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSHQRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGIDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEADCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFKVYNEAGVTFT 1nr9-a2-m1-cC_1nr9-a2-m1-cD Crystal Structure of Escherichia coli 1262 (APC5008), Putative Isomerase P76004 P76004 2.7 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 206 207 1nr9-a1-m1-cB_1nr9-a1-m1-cA HYQHHNWQGALLDYPVSKVVCVGSNYAPEEPVLFIKPETALCDLRQPLAIPSDFGSVHHEVELAVLIGATLRQATEEHVRKAIAGYGVALDLTLRDVQGKKKAGQPWEKAKAFDNSCPLSGFIPAAEFTGDPQNTTLSLSVNGEQRQQGTTADIHKIVPLIAYSKFFTLKAGDVVLTGTPDGVGPLQSGDELTVTFDGHSLTTRVL HYQHHNWQGALLDYPVSKVVCVGSNYAVPEEPVLFIKPETALCDLRQPLAIPSDFGSVHHEVELAVLIGATLRQATEEHVRKAIAGYGVALDLTLRDVQGKKKAGQPWEKAKAFDNSCPLSGFIPAAEFTGDPQNTTLSLSVNGEQRQQGTTADIHKIVPLIAYSKFFTLKAGDVVLTGTPDGVGPLQSGDELTVTFDGHSLTTRVL 1nrv-a1-m1-cA_1nrv-a1-m1-cB Crystal structure of the SH2 domain of Grb10 Q13322 Q13322 1.65 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 IHRTQHWFHGRISREESHRIIKQQGLVDGLFLLRDSQSNPKAFVLTLCHHQKIKNFQILPCTFFSLDDGNTKFSDLIQLVDFYQLNKGVLPCKLKHHCIR IHRTQHWFHGRISREESHRIIKQQGLVDGLFLLRDSQSNPKAFVLTLCHHQKIKNFQILPCTFFSLDDGNTKFSDLIQLVDFYQLNKGVLPCKLKHHCIR 1nrz-a6-m1-cC_1nrz-a6-m1-cD Crystal structure of the IIBSor domain of the sorbose permease from Klebsiella pneumoniae solved to 1.75A resolution P37081 P37081 1.75 X-RAY DIFFRACTION 36 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 163 163 1nrz-a5-m1-cA_1nrz-a5-m1-cB MQITLARIDDRLIHGQVTTVWSKVANAQRIIICNDDVFNDEVRRTLLRQAAPPGMKVNVVSLEKAVAVYHNPQYQDETVFYLFTNPHDVLTMVRQGVQIATLNIGGMAWRPGKKQLTKAVSLDPQDIQAFRELDKLGVKLDLRVVASDPSVNILDKINETAFC MQITLARIDDRLIHGQVTTVWSKVANAQRIIICNDDVFNDEVRRTLLRQAAPPGMKVNVVSLEKAVAVYHNPQYQDETVFYLFTNPHDVLTMVRQGVQIATLNIGGMAWRPGKKQLTKAVSLDPQDIQAFRELDKLGVKLDLRVVASDPSVNILDKINETAFC 1ns3-a4-m1-cA_1ns3-a4-m6-cA STRUCTURE OF HCV PROTEASE (BK STRAIN) P26663 P26663 2.8 X-RAY DIFFRACTION 12 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 178 178 1ns3-a4-m2-cA_1ns3-a4-m5-cA 1ns3-a4-m3-cA_1ns3-a4-m4-cA ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR 1ns3-a4-m5-cA_1ns3-a4-m6-cA STRUCTURE OF HCV PROTEASE (BK STRAIN) P26663 P26663 2.8 X-RAY DIFFRACTION 10 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 178 178 1ns3-a4-m1-cA_1ns3-a4-m2-cA 1ns3-a4-m1-cA_1ns3-a4-m3-cA 1ns3-a4-m2-cA_1ns3-a4-m3-cA 1ns3-a4-m4-cA_1ns3-a4-m5-cA 1ns3-a4-m4-cA_1ns3-a4-m6-cA ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR 1ns3-a4-m6-cA_1ns3-a4-m6-cB STRUCTURE OF HCV PROTEASE (BK STRAIN) P26663 P26663 2.8 X-RAY DIFFRACTION 64 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 178 178 1jxp-a1-m1-cA_1jxp-a1-m1-cB 1jxp-a2-m1-cA_1jxp-a2-m1-cB 1jxp-a2-m2-cA_1jxp-a2-m2-cB 1jxp-a2-m3-cA_1jxp-a2-m3-cB 1jxp-a2-m4-cA_1jxp-a2-m4-cB 1jxp-a2-m5-cA_1jxp-a2-m5-cB 1jxp-a2-m6-cA_1jxp-a2-m6-cB 1ns3-a1-m1-cA_1ns3-a1-m1-cB 1ns3-a4-m1-cA_1ns3-a4-m1-cB 1ns3-a4-m2-cA_1ns3-a4-m2-cB 1ns3-a4-m3-cA_1ns3-a4-m3-cB 1ns3-a4-m4-cA_1ns3-a4-m4-cB 1ns3-a4-m5-cA_1ns3-a4-m5-cB 4tyd-a1-m1-cA_4tyd-a1-m1-cD 4tyd-a1-m1-cA_4tyd-a1-m1-cF 4tyd-a1-m1-cD_4tyd-a1-m1-cF 4tyd-a2-m1-cB_4tyd-a2-m1-cC 4tyd-a2-m1-cE_4tyd-a2-m1-cB 4tyd-a2-m1-cE_4tyd-a2-m1-cC 4tyd-a3-m1-cG_4tyd-a3-m1-cH 4tyd-a3-m1-cG_4tyd-a3-m1-cM 4tyd-a3-m1-cH_4tyd-a3-m1-cM 4tyd-a4-m1-cK_4tyd-a4-m1-cJ 4tyd-a4-m1-cL_4tyd-a4-m1-cJ 4tyd-a4-m1-cL_4tyd-a4-m1-cK ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR 1nsh-a1-m1-cA_1nsh-a1-m1-cB Solution Structure of Rabbit apo-S100A11 (19 models) P24480 P24480 NOT SOLUTION NMR 145 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 101 101 SRPTETERCIESLIAVFQKYAGKDGHSVTLSKTEFLSFMNTELAAFTKNQKDPGVLDRMMKKLDLNSDGQLDFQEFLNLIGGLAVACHESFVKAAPPQKRF SRPTETERCIESLIAVFQKYAGKDGHSVTLSKTEFLSFMNTELAAFTKNQKDPGVLDRMMKKLDLNSDGQLDFQEFLNLIGGLAVACHESFVKAAPPQKRF 1nsj-a1-m1-cA_1nsj-a1-m2-cA CRYSTAL STRUCTURE OF PHOSPHORIBOSYL ANTHRANILATE ISOMERASE FROM THERMOTOGA MARITIMA Q56320 Q56320 2 X-RAY DIFFRACTION 67 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 205 205 1lbm-a2-m1-cA_1lbm-a2-m2-cA MVRVKICGITNLEDALFSVESGADAVGFVFYPKSKRYISPEDARRISVELPPFVFRVGVFVNEEPEKILDVASYVQLNAVQLHGEEPIELCRKIAERILVIKAVGVSNERDMERALNYREFPILLDTKTPEYGGSGKTFDWSLILPYRDRFRYLVLSGGLNPENVRSAIDVVRPFAVDVSSGVEAFPGKKDHDSIKMFIKNAKGL MVRVKICGITNLEDALFSVESGADAVGFVFYPKSKRYISPEDARRISVELPPFVFRVGVFVNEEPEKILDVASYVQLNAVQLHGEEPIELCRKIAERILVIKAVGVSNERDMERALNYREFPILLDTKTPEYGGSGKTFDWSLILPYRDRFRYLVLSGGLNPENVRSAIDVVRPFAVDVSSGVEAFPGKKDHDSIKMFIKNAKGL 1nsl-a1-m1-cB_1nsl-a1-m1-cE Crystal structure of Probable acetyltransferase P96579 P96579 2.7 X-RAY DIFFRACTION 61 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 173 176 1nsl-a1-m1-cA_1nsl-a1-m1-cD 1nsl-a1-m1-cF_1nsl-a1-m1-cC GFTCKVNEHITIRLLEPKDAERLAELIIQNQQRLGKWLFFSSADTYRETIIPDWRRQYADLNGIEAGLLYDGSLCGISLHNLDQVNRKAEIGYWIAKEFEGKGIITAACRKLITYAFEELELNRVAICAAVGNEKSRAVPERIGFLEEGKARDGLYVNGHHDLVYYSLLKREW GFTCKVNEHITIRLLEPKDAERLAELIIQNQQRLGKWLFFENPSSADTYRETIIPDWRRQYADLNGIEAGLLYDGSLCGISLHNLDQVNRKAEIGYWIAKEFEGKGIITAACRKLITYAFEELELNRVAICAAVGNEKSRAVPERIGFLEEGKARDGLYVNGHHDLVYYSLLKREW 1nsl-a1-m1-cF_1nsl-a1-m1-cE Crystal structure of Probable acetyltransferase P96579 P96579 2.7 X-RAY DIFFRACTION 41 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 174 176 1nsl-a1-m1-cA_1nsl-a1-m1-cB 1nsl-a1-m1-cC_1nsl-a1-m1-cD GFTCKVNEHITIRLLEPKDAERLAELIIQNQQRLGKWLFFPSSADTYRETIIPDWRRQYADLNGIEAGLLYDGSLCGISLHNLDQVNRKAEIGYWIAKEFEGKGIITAACRKLITYAFEELELNRVAICAAVGNEKSRAVPERIGFLEEGKARDGLYVNGHHDLVYYSLLKREW GFTCKVNEHITIRLLEPKDAERLAELIIQNQQRLGKWLFFENPSSADTYRETIIPDWRRQYADLNGIEAGLLYDGSLCGISLHNLDQVNRKAEIGYWIAKEFEGKGIITAACRKLITYAFEELELNRVAICAAVGNEKSRAVPERIGFLEEGKARDGLYVNGHHDLVYYSLLKREW 1nsq-a1-m1-cB_1nsq-a1-m2-cC MECHANISM OF PHOSPHATE TRANSFER BY NUCLEOSIDE DIPHOSPHATE KINASE: X-RAY STRUCTURES OF A PHOSPHO-HISTIDINE INTERMEDIATE OF THE ENZYMES FROM DROSOPHILA AND DICTYOSTELIUM P08879 P08879 2.18 X-RAY DIFFRACTION 72 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 151 151 1ndl-a1-m1-cA_1ndl-a1-m2-cA 1ndl-a1-m1-cB_1ndl-a1-m2-cC 1ndl-a1-m1-cC_1ndl-a1-m2-cB 1nsq-a1-m1-cA_1nsq-a1-m2-cA 1nsq-a1-m1-cC_1nsq-a1-m2-cB 3wx8-a1-m1-cA_3wx8-a1-m2-cA 3wx8-a1-m1-cC_3wx8-a1-m2-cB 3wx8-a1-m2-cC_3wx8-a1-m1-cB AANKERTFIMVKPDGVQRGLVGKIIERFEQKGFKLVALKFTWASKELLEKHYADLSARPFFPGLVNYMNSGPVVPMVWEGLNVVKTGRQMLGATNPADSLPGTIRGDFCIQVGRNIIGSDAVESAEKEIALWFNEKELVTWTPAAKDWIYE AANKERTFIMVKPDGVQRGLVGKIIERFEQKGFKLVALKFTWASKELLEKHYADLSARPFFPGLVNYMNSGPVVPMVWEGLNVVKTGRQMLGATNPADSLPGTIRGDFCIQVGRNIIGSDAVESAEKEIALWFNEKELVTWTPAAKDWIYE 1nsq-a1-m2-cB_1nsq-a1-m2-cC MECHANISM OF PHOSPHATE TRANSFER BY NUCLEOSIDE DIPHOSPHATE KINASE: X-RAY STRUCTURES OF A PHOSPHO-HISTIDINE INTERMEDIATE OF THE ENZYMES FROM DROSOPHILA AND DICTYOSTELIUM P08879 P08879 2.18 X-RAY DIFFRACTION 52 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 151 151 1ndl-a1-m1-cA_1ndl-a1-m1-cB 1ndl-a1-m1-cA_1ndl-a1-m1-cC 1ndl-a1-m1-cB_1ndl-a1-m1-cC 1ndl-a1-m2-cA_1ndl-a1-m2-cB 1ndl-a1-m2-cA_1ndl-a1-m2-cC 1ndl-a1-m2-cB_1ndl-a1-m2-cC 1nsq-a1-m1-cA_1nsq-a1-m1-cB 1nsq-a1-m1-cA_1nsq-a1-m1-cC 1nsq-a1-m1-cB_1nsq-a1-m1-cC 1nsq-a1-m2-cA_1nsq-a1-m2-cB 1nsq-a1-m2-cA_1nsq-a1-m2-cC 3wx8-a1-m1-cA_3wx8-a1-m1-cB 3wx8-a1-m1-cC_3wx8-a1-m1-cA 3wx8-a1-m1-cC_3wx8-a1-m1-cB 3wx8-a1-m2-cA_3wx8-a1-m2-cB 3wx8-a1-m2-cC_3wx8-a1-m2-cA 3wx8-a1-m2-cC_3wx8-a1-m2-cB AANKERTFIMVKPDGVQRGLVGKIIERFEQKGFKLVALKFTWASKELLEKHYADLSARPFFPGLVNYMNSGPVVPMVWEGLNVVKTGRQMLGATNPADSLPGTIRGDFCIQVGRNIIGSDAVESAEKEIALWFNEKELVTWTPAAKDWIYE AANKERTFIMVKPDGVQRGLVGKIIERFEQKGFKLVALKFTWASKELLEKHYADLSARPFFPGLVNYMNSGPVVPMVWEGLNVVKTGRQMLGATNPADSLPGTIRGDFCIQVGRNIIGSDAVESAEKEIALWFNEKELVTWTPAAKDWIYE 1nt2-a2-m1-cA_1nt2-a2-m4-cA CRYSTAL STRUCTURE OF FIBRILLARIN/NOP5P COMPLEX O28192 O28192 2.9 X-RAY DIFFRACTION 12 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 209 209 1nt2-a2-m2-cA_1nt2-a2-m3-cA KELMRNVYLLDDTLVTKSKYGSHYGEKVFDGYREWVPWRSKLAAMILKGHRLKLRGDERVLYLGAASGTTVSHLADIVDEGIIYAVEYSAKPFEKLLELVRERNNIIPLLFDASKPWKYSGIVEKVDLIYQDIAQKNQIEILKANAEFFLKEKGEVVIMVKARSIDSTAEPEEVFKSVLKEMEGDFKIVKHGSLMPYHRDHIFIHAYRF KELMRNVYLLDDTLVTKSKYGSHYGEKVFDGYREWVPWRSKLAAMILKGHRLKLRGDERVLYLGAASGTTVSHLADIVDEGIIYAVEYSAKPFEKLLELVRERNNIIPLLFDASKPWKYSGIVEKVDLIYQDIAQKNQIEILKANAEFFLKEKGEVVIMVKARSIDSTAEPEEVFKSVLKEMEGDFKIVKHGSLMPYHRDHIFIHAYRF 1nt2-a2-m3-cB_1nt2-a2-m4-cB CRYSTAL STRUCTURE OF FIBRILLARIN/NOP5P COMPLEX O28191 O28191 2.9 X-RAY DIFFRACTION 85 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 236 236 1nt2-a1-m1-cB_1nt2-a1-m2-cB 1nt2-a2-m1-cB_1nt2-a2-m2-cB LRYNLWFGVYDGKEIKLSENFEESFLKAENPSPLPFNVSEVGAKALGKDYYRILRKTALAVSEKMVEKELRREDRYVVALVKALEEIDESINMLNEKLEDIRAVKESEITEKFEKKIRELRELRRDVEREIEEVMEKIAPNMTELVGAKVAAKLLERAGSMERLVRLPASKIQVIGAEHGIIFLHPFIRTLPKAKRGKMARFLAAKLAIAAKIDYFRGEIDESLYESIRRRYEELR LRYNLWFGVYDGKEIKLSENFEESFLKAENPSPLPFNVSEVGAKALGKDYYRILRKTALAVSEKMVEKELRREDRYVVALVKALEEIDESINMLNEKLEDIRAVKESEITEKFEKKIRELRELRRDVEREIEEVMEKIAPNMTELVGAKVAAKLLERAGSMERLVRLPASKIQVIGAEHGIIFLHPFIRTLPKAKRGKMARFLAAKLAIAAKIDYFRGEIDESLYESIRRRYEELR 1nt3-a1-m1-cA_1nt3-a1-m2-cA HUMAN NEUROTROPHIN-3 P20783 P20783 2.4 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 3buk-a1-m1-cA_3buk-a1-m1-cB RGEYSVCDSESLWVTDKSSAIDIRGHQVTVLGEIKTGNSPVKQYFYETRCKEARPVKNGCRGIDDKHWNSQCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCALSRK RGEYSVCDSESLWVTDKSSAIDIRGHQVTVLGEIKTGNSPVKQYFYETRCKEARPVKNGCRGIDDKHWNSQCKTSQTYVRALTSENNKLVGWRWIRIDTSCVCALSRK 1ntc-a1-m1-cA_1ntc-a1-m1-cB SOLUTION STRUCTURE OF THE DNA-BINDING DOMAIN OF NTRC WITH THREE ALANINE SUBSTITUTIONS P41789 P41789 NOT SOLUTION NMR 93 1.0 91 91 MDLPGELFEASTPDSPSHLPPDSWATLLAQWADRALRSGHQNLLSEAQPELERTLLTTALRHTQGHKQEAARLLGWGAATLTAKLKELGME MDLPGELFEASTPDSPSHLPPDSWATLLAQWADRALRSGHQNLLSEAQPELERTLLTTALRHTQGHKQEAARLLGWGAATLTAKLKELGME 1nth-a1-m1-cA_1nth-a1-m6-cA Crystal structure of the methanosarcina barkeri monomethylamine methyltransferase (MTMB) O30642 O30642 1.55 X-RAY DIFFRACTION 43 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 457 457 1l2q-a1-m1-cA_1l2q-a1-m6-cA 1l2q-a1-m2-cA_1l2q-a1-m5-cA 1l2q-a1-m3-cA_1l2q-a1-m4-cA 1nth-a1-m2-cA_1nth-a1-m5-cA 1nth-a1-m3-cA_1nth-a1-m4-cA 1tv2-a1-m1-cA_1tv2-a1-m6-cA 1tv2-a1-m2-cA_1tv2-a1-m5-cA 1tv2-a1-m3-cA_1tv2-a1-m4-cA 1tv3-a1-m1-cA_1tv3-a1-m6-cA 1tv3-a1-m2-cA_1tv3-a1-m5-cA 1tv3-a1-m3-cA_1tv3-a1-m4-cA 1tv4-a1-m1-cA_1tv4-a1-m6-cA 1tv4-a1-m2-cA_1tv4-a1-m5-cA 1tv4-a1-m3-cA_1tv4-a1-m4-cA TFRKSFDCYDFYDRAKVGEKCTQDDWDLMKIPMKAMELKQKYGLDFKGEFIPTDKDMMEKLFKAGFEMLLECGIYCTDTHRIVKYTEDEIWDAINNVQKEFVLGTGRDAVNVRKRSVGDKAKPIVQGGPTGSPISEDVFMPVHMSYALEKEVDTIVNGVMTSVRGKSPIPKSPYEVLAAKTETRLIKNACAMAGRPGMGVOGPETSLSAQGNISADCTGGMTCTDSHEVSQLNELKIDLDAISVIAHYKGNSDIIMDEQMPIFGGYAGGIEETTIVDVATHINAVLMSSASWHLDGPVHIRWGSTNTRETLMIAGWACATISEFTDILSGNQYYPCAGPCTEMCLLEASAQSITDTASGREILSGVASAKGVVTDKTTGMEARMMGEVARATAGVEISEVNVILDKLVSLYEKNYASAPAGKTFQECYDVKTVTPTEEYMQVYDGARKKLEDLGLVF TFRKSFDCYDFYDRAKVGEKCTQDDWDLMKIPMKAMELKQKYGLDFKGEFIPTDKDMMEKLFKAGFEMLLECGIYCTDTHRIVKYTEDEIWDAINNVQKEFVLGTGRDAVNVRKRSVGDKAKPIVQGGPTGSPISEDVFMPVHMSYALEKEVDTIVNGVMTSVRGKSPIPKSPYEVLAAKTETRLIKNACAMAGRPGMGVOGPETSLSAQGNISADCTGGMTCTDSHEVSQLNELKIDLDAISVIAHYKGNSDIIMDEQMPIFGGYAGGIEETTIVDVATHINAVLMSSASWHLDGPVHIRWGSTNTRETLMIAGWACATISEFTDILSGNQYYPCAGPCTEMCLLEASAQSITDTASGREILSGVASAKGVVTDKTTGMEARMMGEVARATAGVEISEVNVILDKLVSLYEKNYASAPAGKTFQECYDVKTVTPTEEYMQVYDGARKKLEDLGLVF 1nth-a1-m2-cA_1nth-a1-m6-cA Crystal structure of the methanosarcina barkeri monomethylamine methyltransferase (MTMB) O30642 O30642 1.55 X-RAY DIFFRACTION 101 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 457 457 1l2q-a1-m1-cA_1l2q-a1-m4-cA 1l2q-a1-m2-cA_1l2q-a1-m6-cA 1l2q-a1-m3-cA_1l2q-a1-m5-cA 1nth-a1-m1-cA_1nth-a1-m4-cA 1nth-a1-m3-cA_1nth-a1-m5-cA 1tv2-a1-m1-cA_1tv2-a1-m4-cA 1tv2-a1-m2-cA_1tv2-a1-m6-cA 1tv2-a1-m3-cA_1tv2-a1-m5-cA 1tv3-a1-m1-cA_1tv3-a1-m4-cA 1tv3-a1-m2-cA_1tv3-a1-m6-cA 1tv3-a1-m3-cA_1tv3-a1-m5-cA 1tv4-a1-m1-cA_1tv4-a1-m4-cA 1tv4-a1-m2-cA_1tv4-a1-m6-cA 1tv4-a1-m3-cA_1tv4-a1-m5-cA TFRKSFDCYDFYDRAKVGEKCTQDDWDLMKIPMKAMELKQKYGLDFKGEFIPTDKDMMEKLFKAGFEMLLECGIYCTDTHRIVKYTEDEIWDAINNVQKEFVLGTGRDAVNVRKRSVGDKAKPIVQGGPTGSPISEDVFMPVHMSYALEKEVDTIVNGVMTSVRGKSPIPKSPYEVLAAKTETRLIKNACAMAGRPGMGVOGPETSLSAQGNISADCTGGMTCTDSHEVSQLNELKIDLDAISVIAHYKGNSDIIMDEQMPIFGGYAGGIEETTIVDVATHINAVLMSSASWHLDGPVHIRWGSTNTRETLMIAGWACATISEFTDILSGNQYYPCAGPCTEMCLLEASAQSITDTASGREILSGVASAKGVVTDKTTGMEARMMGEVARATAGVEISEVNVILDKLVSLYEKNYASAPAGKTFQECYDVKTVTPTEEYMQVYDGARKKLEDLGLVF TFRKSFDCYDFYDRAKVGEKCTQDDWDLMKIPMKAMELKQKYGLDFKGEFIPTDKDMMEKLFKAGFEMLLECGIYCTDTHRIVKYTEDEIWDAINNVQKEFVLGTGRDAVNVRKRSVGDKAKPIVQGGPTGSPISEDVFMPVHMSYALEKEVDTIVNGVMTSVRGKSPIPKSPYEVLAAKTETRLIKNACAMAGRPGMGVOGPETSLSAQGNISADCTGGMTCTDSHEVSQLNELKIDLDAISVIAHYKGNSDIIMDEQMPIFGGYAGGIEETTIVDVATHINAVLMSSASWHLDGPVHIRWGSTNTRETLMIAGWACATISEFTDILSGNQYYPCAGPCTEMCLLEASAQSITDTASGREILSGVASAKGVVTDKTTGMEARMMGEVARATAGVEISEVNVILDKLVSLYEKNYASAPAGKTFQECYDVKTVTPTEEYMQVYDGARKKLEDLGLVF 1nth-a1-m5-cA_1nth-a1-m6-cA Crystal structure of the methanosarcina barkeri monomethylamine methyltransferase (MTMB) O30642 O30642 1.55 X-RAY DIFFRACTION 53 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 457 457 1l2q-a1-m1-cA_1l2q-a1-m2-cA 1l2q-a1-m1-cA_1l2q-a1-m3-cA 1l2q-a1-m2-cA_1l2q-a1-m3-cA 1l2q-a1-m4-cA_1l2q-a1-m5-cA 1l2q-a1-m4-cA_1l2q-a1-m6-cA 1l2q-a1-m5-cA_1l2q-a1-m6-cA 1nth-a1-m1-cA_1nth-a1-m2-cA 1nth-a1-m1-cA_1nth-a1-m3-cA 1nth-a1-m2-cA_1nth-a1-m3-cA 1nth-a1-m4-cA_1nth-a1-m5-cA 1nth-a1-m4-cA_1nth-a1-m6-cA 1tv2-a1-m1-cA_1tv2-a1-m2-cA 1tv2-a1-m1-cA_1tv2-a1-m3-cA 1tv2-a1-m2-cA_1tv2-a1-m3-cA 1tv2-a1-m4-cA_1tv2-a1-m5-cA 1tv2-a1-m4-cA_1tv2-a1-m6-cA 1tv2-a1-m5-cA_1tv2-a1-m6-cA 1tv3-a1-m1-cA_1tv3-a1-m2-cA 1tv3-a1-m1-cA_1tv3-a1-m3-cA 1tv3-a1-m2-cA_1tv3-a1-m3-cA 1tv3-a1-m4-cA_1tv3-a1-m5-cA 1tv3-a1-m4-cA_1tv3-a1-m6-cA 1tv3-a1-m5-cA_1tv3-a1-m6-cA 1tv4-a1-m1-cA_1tv4-a1-m2-cA 1tv4-a1-m1-cA_1tv4-a1-m3-cA 1tv4-a1-m2-cA_1tv4-a1-m3-cA 1tv4-a1-m4-cA_1tv4-a1-m5-cA 1tv4-a1-m4-cA_1tv4-a1-m6-cA 1tv4-a1-m5-cA_1tv4-a1-m6-cA TFRKSFDCYDFYDRAKVGEKCTQDDWDLMKIPMKAMELKQKYGLDFKGEFIPTDKDMMEKLFKAGFEMLLECGIYCTDTHRIVKYTEDEIWDAINNVQKEFVLGTGRDAVNVRKRSVGDKAKPIVQGGPTGSPISEDVFMPVHMSYALEKEVDTIVNGVMTSVRGKSPIPKSPYEVLAAKTETRLIKNACAMAGRPGMGVOGPETSLSAQGNISADCTGGMTCTDSHEVSQLNELKIDLDAISVIAHYKGNSDIIMDEQMPIFGGYAGGIEETTIVDVATHINAVLMSSASWHLDGPVHIRWGSTNTRETLMIAGWACATISEFTDILSGNQYYPCAGPCTEMCLLEASAQSITDTASGREILSGVASAKGVVTDKTTGMEARMMGEVARATAGVEISEVNVILDKLVSLYEKNYASAPAGKTFQECYDVKTVTPTEEYMQVYDGARKKLEDLGLVF TFRKSFDCYDFYDRAKVGEKCTQDDWDLMKIPMKAMELKQKYGLDFKGEFIPTDKDMMEKLFKAGFEMLLECGIYCTDTHRIVKYTEDEIWDAINNVQKEFVLGTGRDAVNVRKRSVGDKAKPIVQGGPTGSPISEDVFMPVHMSYALEKEVDTIVNGVMTSVRGKSPIPKSPYEVLAAKTETRLIKNACAMAGRPGMGVOGPETSLSAQGNISADCTGGMTCTDSHEVSQLNELKIDLDAISVIAHYKGNSDIIMDEQMPIFGGYAGGIEETTIVDVATHINAVLMSSASWHLDGPVHIRWGSTNTRETLMIAGWACATISEFTDILSGNQYYPCAGPCTEMCLLEASAQSITDTASGREILSGVASAKGVVTDKTTGMEARMMGEVARATAGVEISEVNVILDKLVSLYEKNYASAPAGKTFQECYDVKTVTPTEEYMQVYDGARKKLEDLGLVF 1ntl-a1-m1-cA_1ntl-a1-m1-cB Model of mouse Crry-Ig determined by solution scattering, curve fitting and homology modelling P01868 P01868 30 SOLUTION SCATTERING 63 1.0 10090 (Mus musculus) 10090 (Mus musculus) 551 551 1cqk-a1-m1-cA_1cqk-a1-m1-cB DHCPAPSQLPSAKPINLTDESMFPIGTYLLYECLPGYIKRQFSITCKQDSTWTSAEDKCIRKQCKTPSDPENGLVHVHTGIEFGSRINYTCNQGYRLIGSSSAVCVITDQSVDWDTEAPICEWIPCEIPPGIPNGDFFSSTREDFHYGMVVTYRCNTDARGKALFNLVGEPSLYCTSNDGEIGVWSGPPPQCIELNKCTPPPYVENAVMLSENRSLFSLRDIVEFRCHPGFIMKGASSVHCQSLNKWEPELPSCFKGVICRLPQEMSGFQKGLGMKKEYYYGENVTLECEDGYTLEGSSQSQCQSDGSWNPLLAKCVSRLADPEVPRDCGCKPCICTVPEVSSVFIFPPKPKDVLTITLTPKVTCVVVDISKDDPEVQFSWFVDDVEVHTAQTQPREEQFNSTFRSVSELPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGRPKAPQLYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQWNGQPAENYKNTQPIMNTNGSYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLSHSPGK DHCPAPSQLPSAKPINLTDESMFPIGTYLLYECLPGYIKRQFSITCKQDSTWTSAEDKCIRKQCKTPSDPENGLVHVHTGIEFGSRINYTCNQGYRLIGSSSAVCVITDQSVDWDTEAPICEWIPCEIPPGIPNGDFFSSTREDFHYGMVVTYRCNTDARGKALFNLVGEPSLYCTSNDGEIGVWSGPPPQCIELNKCTPPPYVENAVMLSENRSLFSLRDIVEFRCHPGFIMKGASSVHCQSLNKWEPELPSCFKGVICRLPQEMSGFQKGLGMKKEYYYGENVTLECEDGYTLEGSSQSQCQSDGSWNPLLAKCVSRLADPEVPRDCGCKPCICTVPEVSSVFIFPPKPKDVLTITLTPKVTCVVVDISKDDPEVQFSWFVDDVEVHTAQTQPREEQFNSTFRSVSELPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGRPKAPQLYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQWNGQPAENYKNTQPIMNTNGSYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLSHSPGK 1nue-a1-m1-cD_1nue-a1-m1-cE X-RAY STRUCTURE OF NM23 HUMAN NUCLEOSIDE DIPHOSPHATE KINASE B COMPLEXED WITH GDP AT 2 ANGSTROMS RESOLUTION P22392 P22392 2 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 151 1nsk-a1-m1-cL_1nsk-a1-m1-cN 1nsk-a1-m1-cL_1nsk-a1-m1-cO 1nsk-a1-m1-cN_1nsk-a1-m1-cO 1nsk-a1-m1-cR_1nsk-a1-m1-cT 1nsk-a1-m1-cR_1nsk-a1-m1-cU 1nsk-a1-m1-cT_1nsk-a1-m1-cU 1nue-a1-m1-cA_1nue-a1-m1-cB 1nue-a1-m1-cA_1nue-a1-m1-cC 1nue-a1-m1-cB_1nue-a1-m1-cC 1nue-a1-m1-cD_1nue-a1-m1-cF 1nue-a1-m1-cE_1nue-a1-m1-cF 3bbb-a1-m1-cA_3bbb-a1-m1-cB 3bbb-a1-m1-cC_3bbb-a1-m1-cA 3bbb-a1-m1-cC_3bbb-a1-m1-cB 3bbb-a1-m1-cD_3bbb-a1-m1-cF 3bbb-a1-m1-cE_3bbb-a1-m1-cD 3bbb-a1-m1-cE_3bbb-a1-m1-cF 3bbc-a1-m1-cA_3bbc-a1-m1-cB 3bbc-a1-m1-cA_3bbc-a1-m1-cC 3bbc-a1-m1-cB_3bbc-a1-m1-cC 3bbc-a1-m1-cD_3bbc-a1-m1-cE 3bbc-a1-m1-cD_3bbc-a1-m1-cF 3bbc-a1-m1-cE_3bbc-a1-m1-cF 3bbf-a1-m1-cA_3bbf-a1-m1-cB 3bbf-a1-m1-cA_3bbf-a1-m1-cC 3bbf-a1-m1-cB_3bbf-a1-m1-cC 3bbf-a1-m1-cD_3bbf-a1-m1-cE 3bbf-a1-m1-cD_3bbf-a1-m1-cF 3bbf-a1-m1-cE_3bbf-a1-m1-cF 7kpf-a1-m1-cA_7kpf-a1-m1-cB 7kpf-a1-m1-cD_7kpf-a1-m1-cC 7kpf-a1-m1-cE_7kpf-a1-m1-cC 7kpf-a1-m1-cE_7kpf-a1-m1-cD 7kpf-a1-m1-cF_7kpf-a1-m1-cA 7kpf-a1-m1-cF_7kpf-a1-m1-cB ANLERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVAMKFLRASEEHLKQHYIDLKDRPFFPGLVKYMNSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVKSAEKEISLWFKPEELVDYKSCAHDWVYE ANLERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVAMKFLRASEEHLKQHYIDLKDRPFFPGLVKYMNSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVKSAEKEISLWFKPEELVDYKSCAHDWVYE 1nvm-a3-m1-cF_1nvm-a3-m2-cB Crystal structure of a bifunctional aldolase-dehydrogenase : sequestering a reactive and volatile intermediate Q52060 Q52060 1.7 X-RAY DIFFRACTION 44 1.0 79676 (Pseudomonas sp. CF600) 79676 (Pseudomonas sp. CF600) 309 312 KLKVAIIGSGNIGTDLMIKVLRNAKYLEMGAMVGIDAASDGLARAQRMGVTTTYAGVEGLIKLPEFADIDFVFDATSASAHVQNEALLRQAKPGIRLIDLTPAAIGPYCVPVVNLEEHLGKLNVNMVTCGGQATIPMVAAVSRVAKVHYAEIVASISSKSAGPGTRANIDEFTETTSKAIEVIGGAAKGKAIIIMNPAEPPLIMRDTVYVLSAAADQAAVAASVAEMVQAVQAYVPGYRLKQQVQFDVIPESAPLNIPGLGRFSGLKTSVFLEVEGAAHYLPAYAGNLDIMTSAALATAERMAQSMLNA MNQKLKVAIIGSGNIGTDLMIKVLRNAKYLEMGAMVGIDAASDGLARAQRMGVTTTYAGVEGLIKLPEFADIDFVFDATSASAHVQNEALLRQAKPGIRLIDLTPAAIGPYCVPVVNLEEHLGKLNVNMVTCGGQATIPMVAAVSRVAKVHYAEIVASISSKSAGPGTRANIDEFTETTSKAIEVIGGAAKGKAIIIMNPAEPPLIMRDTVYVLSAAADQAAVAASVAEMVQAVQAYVPGYRLKQQVQFDVIPESAPLNIPGLGRFSGLKTSVFLEVEGAAHYLPAYAGNLDIMTSAALATAERMAQSMLNA 1nvm-a3-m2-cC_1nvm-a3-m2-cA Crystal structure of a bifunctional aldolase-dehydrogenase : sequestering a reactive and volatile intermediate P51016 P51016 1.7 X-RAY DIFFRACTION 94 1.0 79676 (Pseudomonas sp. CF600) 79676 (Pseudomonas sp. CF600) 337 340 1nvm-a1-m1-cC_1nvm-a1-m1-cA 1nvm-a2-m1-cE_1nvm-a2-m1-cG 1nvm-a3-m1-cE_1nvm-a3-m1-cG FNPSKKLYISDVTLRDGSHAIRHQYTLDDVRAIARALDKAKVDSIEVAHGDGLQGSSFNYGFGRHTDLEYIEAVAGEISHAQIATLLLPGIGSVHDLKNAYQAGARVVRVATHCTEADVSKQHIEYARNLGMDTVGFLMMSHMIPAEKLAEQGKLMESYGATCIYMADSGGAMSMNDIRDRMRAFKAVLKPETQVGMHAHHNLSLGVANSIVAVEEGCDRVDASLAGMGAGAGNAPLEVFIAVAERLGWNHGTDLYTLMDAADDIVRPLQDRPVRVDRETLGLGYAGVYSSFLRHAEIAAAKYNLKTLDILVELGHRRMVGGQEDMIVDVALDLLAA TFNPSKKLYISDVTLRDGSHAIRHQYTLDDVRAIARALDKAKVDSIEVAHGDGLQGSSFNYGFGRHTDLEYIEAVAGEISHAQIATLLLPGIGSVHDLKNAYQAGARVVRVATHCTEADVSKQHIEYARNLGMDTVGFLMMSHMIPAEKLAEQGKLMESYGATCIYMADSGGAMSMNDIRDRMRAFKAVLKPETQVGMHAHHNLSLGVANSIVAVEEGCDRVDASLAGMGAGAGNAPLEVFIAVAERLGWNHGTDLYTLMDAADDIVRPLQDRPVRVDRETLGLGYAGVYSSFLRHAEIAAAKYNLKTLDILVELGHRRMVGGQEDMIVDVALDLLAAHK 1nvt-a1-m1-cA_1nvt-a1-m1-cB Crystal structure of Shikimate Dehydrogenase (AROE or MJ1084) in complex with NADP+ Q58484 Q58484 2.35 X-RAY DIFFRACTION 129 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 287 287 GPLGSMINAKTKVIGLIGHPVEHSFSPIMHNAAFKDKGLNYVYVAFDVLPENLKYVIDGAKALGIVGFNVTIPHKIEIMKYLDEIDKDAQLIGAVNTIKIEDGKAIGYNTDGIGARMALEEEIGRVKDKNIVIYGAGGAARAVAFELAKDNNIIIANRTVEKAEALAKEIAEKLNKKFGEEVKFSGLDVDLDGVDIIINATPIGMYPNIDVEPIVKAEKLREDMVVMDLIYNPLETVLLKEAKKVNAKTINGLGMLIYQGAVAFKIWTGVEPNIEVMKNAIIDKITK GPLGSMINAKTKVIGLIGHPVEHSFSPIMHNAAFKDKGLNYVYVAFDVLPENLKYVIDGAKALGIVGFNVTIPHKIEIMKYLDEIDKDAQLIGAVNTIKIEDGKAIGYNTDGIGARMALEEEIGRVKDKNIVIYGAGGAARAVAFELAKDNNIIIANRTVEKAEALAKEIAEKLNKKFGEEVKFSGLDVDLDGVDIIINATPIGMYPNIDVEPIVKAEKLREDMVVMDLIYNPLETVLLKEAKKVNAKTINGLGMLIYQGAVAFKIWTGVEPNIEVMKNAIIDKITK 1nvv-a2-m2-cS_1nvv-a2-m8-cS Structural evidence for feedback activation by RasGTP of the Ras-specific nucleotide exchange factor SOS Q07889 Q07889 2.18 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 469 469 1nvv-a2-m1-cS_1nvv-a2-m7-cS 1nvv-a2-m3-cS_1nvv-a2-m5-cS 1nvv-a2-m4-cS_1nvv-a2-m6-cS 1nvw-a2-m1-cS_1nvw-a2-m7-cS 1nvw-a2-m2-cS_1nvw-a2-m8-cS 1nvw-a2-m3-cS_1nvw-a2-m5-cS 1nvw-a2-m4-cS_1nvw-a2-m6-cS QMRLPSADVYRFAEPDSEENIIFEEGIPIIKAGTVIKLIERLTYHMYADPNFVRTFLTTYRSFCKPQELLSLIIERFEIPEPEPTEADRIAIENGDQPLSAELKRFRKEYIQPVQLRVLNVCRHWVEHHFYDFERDAYLLQRMEEFIGTVRGKAMKKWVESITKIIQRKKIAHNITFQSSPPTVEWHISRPGHIETFDLLTLHPIEIARQLTLLESDLYRAVQPSELVGSVWTKEDKEINSPNLLKMIRHTTNLTLWFEKCIVETENLEERVAVVSRIIEILQVFQELNNFNGVLEVVSAMNSSPVYRLDHTFEQIPSRQKKILEEAHELSEDHYKKYLAKLRSINPPCVPFFGIYLTNILKTEEGNPEVLKRHGKELINFSKRRKVAEITGEIQQYQNQPYCLRVESDIKRFFENLNPMGNSMEKEFTDYLFNKSLEIEPRNPKPLPRFPKKYSYPLKSPGVRPSNPR QMRLPSADVYRFAEPDSEENIIFEEGIPIIKAGTVIKLIERLTYHMYADPNFVRTFLTTYRSFCKPQELLSLIIERFEIPEPEPTEADRIAIENGDQPLSAELKRFRKEYIQPVQLRVLNVCRHWVEHHFYDFERDAYLLQRMEEFIGTVRGKAMKKWVESITKIIQRKKIAHNITFQSSPPTVEWHISRPGHIETFDLLTLHPIEIARQLTLLESDLYRAVQPSELVGSVWTKEDKEINSPNLLKMIRHTTNLTLWFEKCIVETENLEERVAVVSRIIEILQVFQELNNFNGVLEVVSAMNSSPVYRLDHTFEQIPSRQKKILEEAHELSEDHYKKYLAKLRSINPPCVPFFGIYLTNILKTEEGNPEVLKRHGKELINFSKRRKVAEITGEIQQYQNQPYCLRVESDIKRFFENLNPMGNSMEKEFTDYLFNKSLEIEPRNPKPLPRFPKKYSYPLKSPGVRPSNPR 1nvv-a4-m1-cS_1nvv-a4-m5-cS Structural evidence for feedback activation by RasGTP of the Ras-specific nucleotide exchange factor SOS Q07889 Q07889 2.18 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 469 469 1nvv-a2-m1-cS_1nvv-a2-m5-cS 1nvv-a2-m2-cS_1nvv-a2-m6-cS 1nvv-a2-m3-cS_1nvv-a2-m8-cS 1nvv-a2-m4-cS_1nvv-a2-m7-cS 1nvw-a2-m1-cS_1nvw-a2-m5-cS 1nvw-a2-m2-cS_1nvw-a2-m6-cS 1nvw-a2-m3-cS_1nvw-a2-m8-cS 1nvw-a2-m4-cS_1nvw-a2-m7-cS QMRLPSADVYRFAEPDSEENIIFEEGIPIIKAGTVIKLIERLTYHMYADPNFVRTFLTTYRSFCKPQELLSLIIERFEIPEPEPTEADRIAIENGDQPLSAELKRFRKEYIQPVQLRVLNVCRHWVEHHFYDFERDAYLLQRMEEFIGTVRGKAMKKWVESITKIIQRKKIAHNITFQSSPPTVEWHISRPGHIETFDLLTLHPIEIARQLTLLESDLYRAVQPSELVGSVWTKEDKEINSPNLLKMIRHTTNLTLWFEKCIVETENLEERVAVVSRIIEILQVFQELNNFNGVLEVVSAMNSSPVYRLDHTFEQIPSRQKKILEEAHELSEDHYKKYLAKLRSINPPCVPFFGIYLTNILKTEEGNPEVLKRHGKELINFSKRRKVAEITGEIQQYQNQPYCLRVESDIKRFFENLNPMGNSMEKEFTDYLFNKSLEIEPRNPKPLPRFPKKYSYPLKSPGVRPSNPR QMRLPSADVYRFAEPDSEENIIFEEGIPIIKAGTVIKLIERLTYHMYADPNFVRTFLTTYRSFCKPQELLSLIIERFEIPEPEPTEADRIAIENGDQPLSAELKRFRKEYIQPVQLRVLNVCRHWVEHHFYDFERDAYLLQRMEEFIGTVRGKAMKKWVESITKIIQRKKIAHNITFQSSPPTVEWHISRPGHIETFDLLTLHPIEIARQLTLLESDLYRAVQPSELVGSVWTKEDKEINSPNLLKMIRHTTNLTLWFEKCIVETENLEERVAVVSRIIEILQVFQELNNFNGVLEVVSAMNSSPVYRLDHTFEQIPSRQKKILEEAHELSEDHYKKYLAKLRSINPPCVPFFGIYLTNILKTEEGNPEVLKRHGKELINFSKRRKVAEITGEIQQYQNQPYCLRVESDIKRFFENLNPMGNSMEKEFTDYLFNKSLEIEPRNPKPLPRFPKKYSYPLKSPGVRPSNPR 1nw1-a1-m1-cB_1nw1-a1-m1-cA Crystal Structure of Choline Kinase Q22942 Q22942 2.02 X-RAY DIFFRACTION 81 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 357 365 MDLDTDANTIPELKERAHMLCARFLGGAWKTVPLEHLRISRIKGGMSNMLFLCRLSEVYPPIRNEPNKVLLRVYFNPETESHLVAESVIFTLLSERHLGPKLYGIFSGGRLEEYIPSRPLSCHEISLAHMSTKIAKRVAKVHQLEVPIWKEPDYLCEALQRWLKQLTGTVDAEHRFDLPEECGVSSVNCLDLARELEFLRAHISLSKSPVTFCHNDLQEGNILLPKRLVLIDFEYASYNYRAFDFANHFIEWTIDYDIDEAPFYKIQTENFPENDQMLEFFLNYLREQGNTRENELYKKSEDLVQETLPFVPVSHFFWGVWGLLQVELSPVGFGFADYGRDRLSLYFKHKQLLKNLA GMKELLSTMDLDTDANTIPELKERAHMLCARFLGGAWKTVPLEHLRISRIKGGMSNMLFLCRLSEVYPPIRNEPNKVLLRVYFNPETESHLVAESVIFTLLSERHLGPKLYGIFSGGRLEEYIPSRPLSCHEISLAHMSTKIAKRVAKVHQLEVPIWKEPDYLCEALQRWLKQLTGTVDAEHRFDLPEECGVSSVNCLDLARELEFLRAHISLSKSPVTFCHNDLQEGNILLPKRLVLIDFEYASYNYRAFDFANHFIEWTIDYDIDEAPFYKIQTENFPENDQMLEFFLNYLREQGNTRENELYKKSEDLVQETLPFVPVSHFFWGVWGLLQVELSPVGFGFADYGRDRLSLYFKHKQLLKNLA 1nwd-a1-m1-cB_1nwd-a1-m1-cC Solution Structure of Ca2+/Calmodulin bound to the C-terminal Domain of Petunia Glutamate Decarboxylase Q07346 Q07346 NOT SOLUTION NMR 23 1.0 4102 (Petunia x hybrida) 4102 (Petunia x hybrida) 28 28 GSHKKTDSEVQLEMITAWKKFVEEKKKK GSHKKTDSEVQLEMITAWKKFVEEKKKK 1nwp-a1-m1-cA_1nwp-a1-m1-cB CRYSTALLOGRAPHIC STUDY OF AZURIN FROM PSEUDOMONAS PUTIDA P34097 P34097 1.6 X-RAY DIFFRACTION 29 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 128 128 1nwo-a1-m1-cA_1nwo-a1-m1-cB AECKVTVDSTDQMSFNTKDIAIDKSCKTFTVELTHSGSLPKNVMGHNLVISKEADMQPIATDGLSAGIDKQYLKDGDARVIAHTKVIGAGEKDSVTFDVSKLAAGEKYGFFCSFPGHISMMKGTVTLK AECKVTVDSTDQMSFNTKDIAIDKSCKTFTVELTHSGSLPKNVMGHNLVISKEADMQPIATDGLSAGIDKQYLKDGDARVIAHTKVIGAGEKDSVTFDVSKLAAGEKYGFFCSFPGHISMMKGTVTLK 1nwp-a2-m1-cA_1nwp-a2-m2-cB CRYSTALLOGRAPHIC STUDY OF AZURIN FROM PSEUDOMONAS PUTIDA P34097 P34097 1.6 X-RAY DIFFRACTION 12 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 128 128 AECKVTVDSTDQMSFNTKDIAIDKSCKTFTVELTHSGSLPKNVMGHNLVISKEADMQPIATDGLSAGIDKQYLKDGDARVIAHTKVIGAGEKDSVTFDVSKLAAGEKYGFFCSFPGHISMMKGTVTLK AECKVTVDSTDQMSFNTKDIAIDKSCKTFTVELTHSGSLPKNVMGHNLVISKEADMQPIATDGLSAGIDKQYLKDGDARVIAHTKVIGAGEKDSVTFDVSKLAAGEKYGFFCSFPGHISMMKGTVTLK 1nwp-a3-m1-cB_1nwp-a3-m3-cA CRYSTALLOGRAPHIC STUDY OF AZURIN FROM PSEUDOMONAS PUTIDA P34097 P34097 1.6 X-RAY DIFFRACTION 10 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 128 128 AECKVTVDSTDQMSFNTKDIAIDKSCKTFTVELTHSGSLPKNVMGHNLVISKEADMQPIATDGLSAGIDKQYLKDGDARVIAHTKVIGAGEKDSVTFDVSKLAAGEKYGFFCSFPGHISMMKGTVTLK AECKVTVDSTDQMSFNTKDIAIDKSCKTFTVELTHSGSLPKNVMGHNLVISKEADMQPIATDGLSAGIDKQYLKDGDARVIAHTKVIGAGEKDSVTFDVSKLAAGEKYGFFCSFPGHISMMKGTVTLK 1nwq-a1-m1-cA_1nwq-a1-m1-cC CRYSTAL STRUCTURE OF C/EBPALPHA-DNA COMPLEX P05554 P05554 2.8 X-RAY DIFFRACTION 46 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 60 NSNEYRVRRERNNIAVRKSRDKAKQRNVETQQKVLELTSDNDRLRKRVEQLSRELDTLRG NSNEYRVRRERNNIAVRKSRDKAKQRNVETQQKVLELTSDNDRLRKRVEQLSRELDTLRG 1nx4-a1-m2-cA_1nx4-a1-m2-cC The crystal structure of carbapenem synthase (CarC) Q9XB59 Q9XB59 2.4 X-RAY DIFFRACTION 29 0.996 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 242 245 1nx4-a1-m1-cA_1nx4-a1-m1-cB 1nx4-a1-m1-cA_1nx4-a1-m1-cC 1nx4-a1-m2-cA_1nx4-a1-m2-cB 1nx8-a1-m1-cC_1nx8-a1-m1-cB 1nx8-a1-m2-cC_1nx8-a1-m2-cB SEIVKFNPVASGFGAYIDHRDFLEAKTETIKNLLRQGFVVVKNLDIDSDTFRDIYSAYGTIVERDTLKLEGEKGKIVTGRGQLPFHADGGLLLSQVDQVFLYAAEIKNVKFRGATTVCDHALACQEPAHLLRVLEEETFEVRVLWFKVPVFTDLGWVRKLIYFPFDEGQPASWEPRIVGFTDHETQAFFQELGAFLKQPRYYYKHFWEDGDLLIDNRRVIHEREEFNDDDIVRRLYRGQTAD SEIVKFNPVASGFGAYIDHRDFLEAKTETIKNLLRQGFVVVKNLDIDSDTFRDIYSAYGTIVEYADTLKLEGEKGKIVTGRGQLPFHADGGLLLSQVDQVFLYAAEIKNVKFRGATTVCDHALACQEPAHLLRVLEEETFEVRVLEWFKVPVFTDLGWVRKLIYFPFDEGQPASWEPRIVGFTDHETQAFFQELGAFLKQPRYYYKHFWEDGDLLIDNRRVIHEREEFNDDDIVRRLYRGQTADI 1nx8-a1-m2-cA_1nx8-a1-m1-cB Structure of carbapenem synthase (CarC) complexed with N-acetyl proline Q9XB59 Q9XB59 2.3 X-RAY DIFFRACTION 44 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 248 256 1nx4-a1-m1-cA_1nx4-a1-m2-cB SEIVKFNPVMASGFGAYIDHRDFLEAKTETIKNLLMRQGFVVVKNLDIDSDTFRDIYSAYGTIVEYRDTLKLEGEKGKIVTGRGQLPFHADGGLLLSQVDQVFLYAAEIKNVKFRGATTVCDHALACQEMPAHLLRVLEEETFEVRVLWFKVPVFTDLGWVRKMLIYFPFDEGQPASWEPRIVGFTDHETQAFFQELGAFLKQPRYYYKHFWEDGDLLIMDNRRVIHEREEFNDDDIVRRLYRGQTAD SEIVKFNPVMASGFGAYIDHRDFLEAKTETIKNLLMRQGFVVVKNLDIDSDTFRDIYSAYGTIVEYAGVGFGYRDTLKLEGEKGKIVTGRGQLPFHADGGLLLSQVDQVFLYAAEIKNVKFRGATTVCDHALACQEMPAHLLRVLEEETFEVRVLGWFKVPVFTDLGWVRKMLIYFPFDEGQPASWEPRIVGFTDHETQAFFQELGAFLKQPRYYYKHFWEDGDLLIMDNRRVIHEREEFNDDDIVRRLYRGQTAD 1nxh-a1-m1-cB_1nxh-a1-m1-cA X-RAY STRUCTURE: NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET TT87 O26496 O26496 2.8 X-RAY DIFFRACTION 80 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 113 119 ELRLKRRILESYRWQEDVVKPLSREVEEFQDILDKLDSSLEALHPRFESARPRCIREKLHSDLQLCWLVDVEIISVDDAEALKDEITELVLAGREYSEALSEGRRRLHEILRS EGELRLKRRILESYRWQEDVVKPLSRELEIDVEEFQDILDKLDSSLEALHPRFESARPRCIREKLHSDLQLCWLVDVEIISVDDAEALKDEITELVLAGREYSEALSEGRRRLHEILRS 1nxj-a3-m2-cC_1nxj-a3-m3-cC Structure of Rv3853 from Mycobacterium tuberculosis P9WGY3 P9WGY3 1.9 X-RAY DIFFRACTION 44 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 154 154 1nxj-a1-m1-cA_1nxj-a1-m2-cA 1nxj-a1-m1-cA_1nxj-a1-m3-cA 1nxj-a1-m2-cA_1nxj-a1-m3-cA 1nxj-a2-m1-cB_1nxj-a2-m4-cB 1nxj-a2-m1-cB_1nxj-a2-m5-cB 1nxj-a2-m4-cB_1nxj-a2-m5-cB 1nxj-a3-m1-cC_1nxj-a3-m2-cC 1nxj-a3-m1-cC_1nxj-a3-m3-cC SFRPTADLVDDIGPDVRSCDLQFRQFGGRSQFAGPISTVRCFQDNALLKSVLSQPSAGGVLVIDGAGSLHTALVGDVIAELARSTGWTGLIVHGAVRDAAALRGIDIGIKALGTNPRKSTKTGAGERDVEITLGGVTFVPGDIAYSDDDGIIVV SFRPTADLVDDIGPDVRSCDLQFRQFGGRSQFAGPISTVRCFQDNALLKSVLSQPSAGGVLVIDGAGSLHTALVGDVIAELARSTGWTGLIVHGAVRDAAALRGIDIGIKALGTNPRKSTKTGAGERDVEITLGGVTFVPGDIAYSDDDGIIVV 1nxt-a1-m1-cA_1nxt-a1-m2-cA MicArec pH 4.0 A0A0H2UQ68 A0A0H2UQ68 2.34 X-RAY DIFFRACTION 10 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 115 115 1nxo-a1-m1-cA_1nxo-a1-m2-cA 1nxp-a1-m1-cA_1nxp-a1-m2-cA 1nxx-a1-m1-cA_1nxx-a1-m2-cA 2a9r-a1-m1-cA_2a9r-a1-m2-cA KKILIVDDEKPISDIIKFNMTKEGYEVVTAFNGREALEQFEAEQPDIIILLMLPDGLEVAKTIRKTSSVPILMLSAKDSEFDKVIGLELGADDYVTKPFSNRELQARVKALLRRS KKILIVDDEKPISDIIKFNMTKEGYEVVTAFNGREALEQFEAEQPDIIILLMLPDGLEVAKTIRKTSSVPILMLSAKDSEFDKVIGLELGADDYVTKPFSNRELQARVKALLRRS 1nxw-a1-m1-cA_1nxw-a1-m2-cA MicArec pH 5.1 A0A0H2UQ68 A0A0H2UQ68 1.92 X-RAY DIFFRACTION 52 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 118 118 1nxs-a1-m1-cA_1nxs-a1-m2-cA KKILIVDDEKPISDIIKFNMTKEGYEVVTAFNGREALEQFEAEQPDIIILDLMLPEIDGLEVAKTIRKTSSVPILMLSAKDSEFDKVIGLELGADDYVTKPFSNRELQARVKALLRRS KKILIVDDEKPISDIIKFNMTKEGYEVVTAFNGREALEQFEAEQPDIIILDLMLPEIDGLEVAKTIRKTSSVPILMLSAKDSEFDKVIGLELGADDYVTKPFSNRELQARVKALLRRS 1nyr-a1-m1-cB_1nyr-a1-m1-cA Structure of Staphylococcus aureus threonyl-tRNA synthetase complexed with ATP Q8NW68 Q8NW68 2.8 X-RAY DIFFRACTION 153 0.995 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 637 642 1nyq-a1-m1-cA_1nyq-a1-m1-cB MEQINIQFPDGNKKAFDKGTTTEDIAQSISPGLRKKAVAGKFNGQLVDLTKPLETDGSIEIVTPGSEEALEVLRHSTAHLMAHAIKRLYGNVKFGVGPVIEGGFYYDFDIDQNISSDDFEQIEKTMKQIVNENMKIERKVVSRDEAKELELIDAIPEDENVTLYSQGDFTDLCRGVHVPSTAKIKEFKLLSTAGAYWRGDSNNKMLQRIYGTAFFDKKELKAHLQMLEERKERDHRKIGKELELFTNSQLVGAGLPLWLPNGATIRREIERYIVDKEVSMGYDHVYTPVLANVDLYKTSGHWDHYQEDMFPPMQLDETESMVLRPMNCPHHMMIYANKPHSYRELPIRIAELGTMHRYEASGAVSGLQRVRGMTLNDSHIFVRPDQIKEEFKRVVNMIIDVYKDFGFEDYSFRLSYRDPEDKEKYFDDDDMWNKAENMLKEAADELGLSYEEAIGEAAFYGPKLDVQVKTAMGKEETLSTAQLDFLLPERFDLTYIGQDGEHHRPVVIHRGVVSTMERFVAFLTEETKGAFPTWLAPKQVQIIPVNVDLHYDYARQLQDELKSQGVRVSIDDRNEKMGYKIREAQMQKIPYQIVVGDKEVENNQVNVRQYGSQDQETVEKDEFIWNLVDEIRLKKHR INIQFPDGNKKAFDKGTTTEDIAQSISPGLRKKAVAGKFNGQLVDLTKPLETDGSIEIVTPGSEEALEVLRHSTAHLMAHAIKRLYGNVKFGVGPVIEGGFYYDFDIDQNISSDDFEQIEKTMKQIVNENMKIERKVVSRDEAKELFSNDEYKLELIDAIPEDENVTLYSQGDFTDLCRGVHVPSTAKIKEFKLLSTAGAYWRGDSNNKMLQRIYGTAFFDKKELKAHLQMLEERKERDHRKIGKELELFTNSQLVGAGLPLWLPNGATIRREIERYIVDKEVSMGYDHVYTPVLANVDLYKTSGHWDHYQEDMFPPMQLDETESMVLRPMNCPHHMMIYANKPHSYRELPIRIAELGTMHRYEASGAVSGLQRVRGMTLNDSHIFVRPDQIKEEFKRVVNMIIDVYKDFGFEDYSFRLSYRDPEDKEKYFDDDDMWNKAENMLKEAADELGLSYEEAIGEAAFYGPKLDVQVKTAMGKEETLSTAQLDFLLPERFDLTYIGQDGEHHRPVVIHRGVVSTMERFVAFLTEETKGAFPTWLAPKQVQIIPVNVDLHYDYARQLQDELKSQGVRVSIDDRNEKMGYKIREAQMQKIPYQIVVGDKEVENNQVNVRQYGSQDQETVEKDEFIWNLVDEIRLKKHR 1nys-a1-m1-cD_1nys-a1-m1-cB Crystal Structure of Activin A Bound to the ECD of ActRIIB P41 P08476 P08476 3.05 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 85 1nyu-a1-m1-cD_1nyu-a1-m1-cB ICCKKQFFVSFKDIWNDWIIAPSGYHANYCGECPSLKSCCVPTKLRPMSMLYYDDGQNIIKKDIQNMIVEECGCS LECDGNICCKKQFFVSFKDIGWNDWIIAPSGYHANYCEGECPSHILKSCCVPTKLRPMSMLYYDDGQNIIKKDIQNMIVEECGCS 1nzc-a1-m1-cA_1nzc-a1-m1-cB The high resolution structures of RmlC from Streptococcus suis in complex with dTDP-D-xylose Q8GIQ0 Q8GIQ0 1.8 X-RAY DIFFRACTION 125 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 196 196 1nxm-a1-m1-cA_1nxm-a1-m1-cB 1nyw-a1-m1-cA_1nyw-a1-m1-cB 1nzc-a2-m1-cC_1nzc-a2-m1-cD 2ixl-a1-m1-cB_2ixl-a1-m1-cA 2ixl-a2-m1-cD_2ixl-a2-m1-cC TENFFGKTLAARPVEAIPGMLEFDIPVHGDNRGWFKENFQKEKMLPLGFPESFFAEGKLQNNVSFSRKNVLRGLHAEPWDKYISVADGGKVLGTWVDLREGETFGNTYQTVIDASKSIFVPRGVANGFQVLSDFVAYSYLVNDYWALELKPKYAFVNYADPSLDIKWENLEEAEVSEADENHPFLKDVKPLRKEDL TENFFGKTLAARPVEAIPGMLEFDIPVHGDNRGWFKENFQKEKMLPLGFPESFFAEGKLQNNVSFSRKNVLRGLHAEPWDKYISVADGGKVLGTWVDLREGETFGNTYQTVIDASKSIFVPRGVANGFQVLSDFVAYSYLVNDYWALELKPKYAFVNYADPSLDIKWENLEEAEVSEADENHPFLKDVKPLRKEDL 1nzn-a2-m1-cA_1nzn-a2-m2-cA Cytosolic domain of the human mitchondrial fission protein Fis1 adopts a TPR fold Q9Y3D6 Q9Y3D6 2 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 120 HEAVLNELVSVEDLLKFEKKFQSEKAAGSVSKSTQFEYAWCLVRTRYNDDIRKGIVLLEELLPKGSKEEQRDYVFYLAVGNYRLKEYEKALKYVRGLLQTEPQNNQAKELERLIDKAKKD HEAVLNELVSVEDLLKFEKKFQSEKAAGSVSKSTQFEYAWCLVRTRYNDDIRKGIVLLEELLPKGSKEEQRDYVFYLAVGNYRLKEYEKALKYVRGLLQTEPQNNQAKELERLIDKAKKD 1o04-a2-m1-cE_1o04-a2-m1-cH Cys302Ser mutant of human mitochondrial aldehyde dehydrogenase complexed with NAD+ and Mg2+ P05091 P05091 1.42 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 494 494 1a4z-a1-m1-cA_1a4z-a1-m1-cD 1a4z-a1-m1-cB_1a4z-a1-m1-cC 1ag8-a1-m1-cA_1ag8-a1-m1-cD 1ag8-a1-m1-cB_1ag8-a1-m1-cC 1cw3-a1-m1-cA_1cw3-a1-m1-cD 1cw3-a1-m1-cB_1cw3-a1-m1-cC 1cw3-a2-m1-cE_1cw3-a2-m1-cH 1cw3-a2-m1-cF_1cw3-a2-m1-cG 1nzw-a1-m1-cA_1nzw-a1-m1-cD 1nzw-a1-m1-cB_1nzw-a1-m1-cC 1nzw-a2-m1-cE_1nzw-a2-m1-cH 1nzw-a2-m1-cF_1nzw-a2-m1-cG 1nzx-a1-m1-cA_1nzx-a1-m1-cD 1nzx-a1-m1-cB_1nzx-a1-m1-cC 1nzx-a2-m1-cE_1nzx-a2-m1-cH 1nzx-a2-m1-cF_1nzx-a2-m1-cG 1nzz-a1-m1-cA_1nzz-a1-m1-cD 1nzz-a1-m1-cB_1nzz-a1-m1-cC 1nzz-a2-m1-cE_1nzz-a2-m1-cH 1nzz-a2-m1-cF_1nzz-a2-m1-cG 1o00-a1-m1-cA_1o00-a1-m1-cD 1o00-a1-m1-cB_1o00-a1-m1-cC 1o00-a2-m1-cE_1o00-a2-m1-cH 1o00-a2-m1-cF_1o00-a2-m1-cG 1o01-a1-m1-cA_1o01-a1-m1-cD 1o01-a1-m1-cB_1o01-a1-m1-cC 1o01-a2-m1-cE_1o01-a2-m1-cH 1o01-a2-m1-cF_1o01-a2-m1-cG 1o02-a1-m1-cA_1o02-a1-m1-cD 1o02-a1-m1-cB_1o02-a1-m1-cC 1o02-a2-m1-cE_1o02-a2-m1-cH 1o02-a2-m1-cF_1o02-a2-m1-cG 1o04-a1-m1-cA_1o04-a1-m1-cD 1o04-a1-m1-cB_1o04-a1-m1-cC 1o04-a2-m1-cF_1o04-a2-m1-cG 1o05-a1-m1-cA_1o05-a1-m1-cD 1o05-a1-m1-cB_1o05-a1-m1-cC 1o05-a2-m1-cE_1o05-a2-m1-cH 1o05-a2-m1-cF_1o05-a2-m1-cG 1zum-a1-m1-cB_1zum-a1-m1-cC 1zum-a1-m1-cD_1zum-a1-m1-cA 1zum-a2-m1-cE_1zum-a2-m1-cH 1zum-a2-m1-cF_1zum-a2-m1-cG 1zum-a3-m1-cK_1zum-a3-m1-cJ 1zum-a3-m1-cL_1zum-a3-m1-cI 2onm-a1-m1-cA_2onm-a1-m1-cD 2onm-a1-m1-cB_2onm-a1-m1-cC 2onm-a2-m1-cE_2onm-a2-m1-cH 2onm-a2-m1-cF_2onm-a2-m1-cG 2onm-a3-m1-cI_2onm-a3-m1-cL 2onm-a3-m1-cJ_2onm-a3-m1-cK 2onn-a1-m1-cA_2onn-a1-m1-cD 2onn-a1-m1-cB_2onn-a1-m1-cC 2onn-a2-m1-cE_2onn-a2-m1-cH 2onn-a2-m1-cF_2onn-a2-m1-cG 2ono-a1-m1-cA_2ono-a1-m1-cD 2ono-a1-m1-cB_2ono-a1-m1-cC 2ono-a2-m1-cE_2ono-a2-m1-cH 2ono-a2-m1-cF_2ono-a2-m1-cG 2onp-a1-m1-cA_2onp-a1-m1-cD 2onp-a1-m1-cB_2onp-a1-m1-cC 2onp-a2-m1-cE_2onp-a2-m1-cH 2onp-a2-m1-cF_2onp-a2-m1-cG 2vle-a1-m1-cA_2vle-a1-m1-cD 2vle-a1-m1-cB_2vle-a1-m1-cC 2vle-a2-m1-cE_2vle-a2-m1-cH 2vle-a2-m1-cF_2vle-a2-m1-cG 3inj-a1-m1-cA_3inj-a1-m1-cD 3inj-a1-m1-cB_3inj-a1-m1-cC 3inj-a2-m1-cE_3inj-a2-m1-cH 3inj-a2-m1-cF_3inj-a2-m1-cG 3inl-a1-m1-cB_3inl-a1-m1-cC 3inl-a1-m1-cD_3inl-a1-m1-cA 3inl-a2-m1-cE_3inl-a2-m1-cH 3inl-a2-m1-cF_3inl-a2-m1-cG 3n80-a1-m1-cA_3n80-a1-m1-cD 3n80-a1-m1-cB_3n80-a1-m1-cC 3n80-a2-m1-cF_3n80-a2-m1-cG 3n80-a2-m1-cH_3n80-a2-m1-cE 3n81-a1-m1-cA_3n81-a1-m1-cD 3n81-a1-m1-cB_3n81-a1-m1-cC 3n81-a2-m1-cE_3n81-a2-m1-cH 3n81-a2-m1-cG_3n81-a2-m1-cF 3n82-a1-m1-cA_3n82-a1-m1-cD 3n82-a1-m1-cB_3n82-a1-m1-cC 3n82-a2-m1-cE_3n82-a2-m1-cH 3n82-a2-m1-cF_3n82-a2-m1-cG 3n83-a1-m1-cA_3n83-a1-m1-cD 3n83-a1-m1-cB_3n83-a1-m1-cC 3n83-a2-m1-cE_3n83-a2-m1-cH 3n83-a2-m1-cF_3n83-a2-m1-cG 3sz9-a5-m1-cA_3sz9-a5-m1-cD 3sz9-a5-m1-cB_3sz9-a5-m1-cC 3sz9-a6-m1-cE_3sz9-a6-m1-cH 3sz9-a6-m1-cF_3sz9-a6-m1-cG 4fqf-a1-m1-cA_4fqf-a1-m1-cD 4fqf-a1-m1-cB_4fqf-a1-m1-cC 4fr8-a1-m1-cA_4fr8-a1-m1-cD 4fr8-a1-m1-cB_4fr8-a1-m1-cC 4fr8-a2-m1-cE_4fr8-a2-m1-cH 4fr8-a2-m1-cF_4fr8-a2-m1-cG 4kwf-a1-m1-cA_4kwf-a1-m1-cD 4kwf-a1-m1-cB_4kwf-a1-m1-cC 4kwf-a2-m1-cE_4kwf-a2-m1-cH 4kwf-a2-m1-cF_4kwf-a2-m1-cG 4kwg-a1-m1-cA_4kwg-a1-m1-cD 4kwg-a1-m1-cB_4kwg-a1-m1-cC 4kwg-a2-m1-cE_4kwg-a2-m1-cH 4kwg-a2-m1-cF_4kwg-a2-m1-cG 5l13-a1-m1-cA_5l13-a1-m1-cD 5l13-a1-m1-cB_5l13-a1-m1-cC 5l13-a2-m1-cF_5l13-a2-m1-cG 5l13-a2-m1-cH_5l13-a2-m1-cE AVPAPNQQPEVFCNQIFINNEWHDAVSRKTFPTVNPSTGEVICQVAEGDKEDVDKAVKAARAAFQLGSPWRRMDASHRGRLLNRLADLIERDRTYLAALETLDNGKPYVISYLVDLDMVLKCLRYYAGWADKYHGKTIPIDGDFFSYTRHEPVGVCGQIIPWNFPLLMQAWKLGPALATGNVVVMKVAEQTPLTALYVANLIKEAGFPPGVVNIVPGFGPTAGAAIASHEDVDKVAFTGSTEIGRVIQVAAGSSNLKRVTLELGGKSPNIIMSDADMDWAVEQAHFALFFNQGQCSCAGSRTFVQEDIYDEFVERSVARAKSRVVGNPFDSKTEQGPQVDETQFKKILGYINTGKQEGAKLLCGGGIAADRGYFIQPTVFGDVQDGMTIAKEEIFGPVMQILKFKTIEEVVGRANNSTYGLAAAVFTKDLDKANYLSQALQAGTVWVNCYDVFGAQSPFGGYKMSGSGRELGEYGLQAYTEVKTVTVKVPQKNS AVPAPNQQPEVFCNQIFINNEWHDAVSRKTFPTVNPSTGEVICQVAEGDKEDVDKAVKAARAAFQLGSPWRRMDASHRGRLLNRLADLIERDRTYLAALETLDNGKPYVISYLVDLDMVLKCLRYYAGWADKYHGKTIPIDGDFFSYTRHEPVGVCGQIIPWNFPLLMQAWKLGPALATGNVVVMKVAEQTPLTALYVANLIKEAGFPPGVVNIVPGFGPTAGAAIASHEDVDKVAFTGSTEIGRVIQVAAGSSNLKRVTLELGGKSPNIIMSDADMDWAVEQAHFALFFNQGQCSCAGSRTFVQEDIYDEFVERSVARAKSRVVGNPFDSKTEQGPQVDETQFKKILGYINTGKQEGAKLLCGGGIAADRGYFIQPTVFGDVQDGMTIAKEEIFGPVMQILKFKTIEEVVGRANNSTYGLAAAVFTKDLDKANYLSQALQAGTVWVNCYDVFGAQSPFGGYKMSGSGRELGEYGLQAYTEVKTVTVKVPQKNS 1o04-a2-m1-cF_1o04-a2-m1-cH Cys302Ser mutant of human mitochondrial aldehyde dehydrogenase complexed with NAD+ and Mg2+ P05091 P05091 1.42 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 494 494 1a4z-a1-m1-cA_1a4z-a1-m1-cC 1a4z-a1-m1-cB_1a4z-a1-m1-cD 1ag8-a1-m1-cA_1ag8-a1-m1-cC 1ag8-a1-m1-cB_1ag8-a1-m1-cD 1cw3-a1-m1-cA_1cw3-a1-m1-cC 1cw3-a1-m1-cB_1cw3-a1-m1-cD 1cw3-a2-m1-cE_1cw3-a2-m1-cG 1cw3-a2-m1-cF_1cw3-a2-m1-cH 1nzw-a1-m1-cA_1nzw-a1-m1-cC 1nzw-a1-m1-cB_1nzw-a1-m1-cD 1nzw-a2-m1-cE_1nzw-a2-m1-cG 1nzw-a2-m1-cF_1nzw-a2-m1-cH 1nzx-a1-m1-cA_1nzx-a1-m1-cC 1nzx-a1-m1-cB_1nzx-a1-m1-cD 1nzx-a2-m1-cE_1nzx-a2-m1-cG 1nzx-a2-m1-cF_1nzx-a2-m1-cH 1nzz-a1-m1-cA_1nzz-a1-m1-cC 1nzz-a1-m1-cB_1nzz-a1-m1-cD 1nzz-a2-m1-cE_1nzz-a2-m1-cG 1nzz-a2-m1-cF_1nzz-a2-m1-cH 1o00-a1-m1-cA_1o00-a1-m1-cC 1o00-a1-m1-cB_1o00-a1-m1-cD 1o00-a2-m1-cE_1o00-a2-m1-cG 1o00-a2-m1-cF_1o00-a2-m1-cH 1o01-a1-m1-cA_1o01-a1-m1-cC 1o01-a1-m1-cB_1o01-a1-m1-cD 1o01-a2-m1-cE_1o01-a2-m1-cG 1o01-a2-m1-cF_1o01-a2-m1-cH 1o02-a1-m1-cA_1o02-a1-m1-cC 1o02-a1-m1-cB_1o02-a1-m1-cD 1o02-a2-m1-cE_1o02-a2-m1-cG 1o02-a2-m1-cF_1o02-a2-m1-cH 1o04-a1-m1-cA_1o04-a1-m1-cC 1o04-a1-m1-cB_1o04-a1-m1-cD 1o04-a2-m1-cE_1o04-a2-m1-cG 1o05-a1-m1-cA_1o05-a1-m1-cC 1o05-a1-m1-cB_1o05-a1-m1-cD 1o05-a2-m1-cE_1o05-a2-m1-cG 1o05-a2-m1-cF_1o05-a2-m1-cH 1zum-a1-m1-cB_1zum-a1-m1-cD 1zum-a2-m1-cE_1zum-a2-m1-cG 1zum-a2-m1-cF_1zum-a2-m1-cH 1zum-a3-m1-cK_1zum-a3-m1-cI 1zum-a3-m1-cL_1zum-a3-m1-cJ 2onm-a1-m1-cA_2onm-a1-m1-cC 2onm-a1-m1-cB_2onm-a1-m1-cD 2onm-a2-m1-cE_2onm-a2-m1-cG 2onm-a2-m1-cF_2onm-a2-m1-cH 2onm-a3-m1-cI_2onm-a3-m1-cK 2onm-a3-m1-cJ_2onm-a3-m1-cL 2onn-a1-m1-cA_2onn-a1-m1-cC 2onn-a1-m1-cB_2onn-a1-m1-cD 2onn-a2-m1-cE_2onn-a2-m1-cG 2onn-a2-m1-cF_2onn-a2-m1-cH 2ono-a1-m1-cA_2ono-a1-m1-cC 2ono-a1-m1-cB_2ono-a1-m1-cD 2ono-a2-m1-cE_2ono-a2-m1-cG 2ono-a2-m1-cF_2ono-a2-m1-cH 2onp-a1-m1-cA_2onp-a1-m1-cC 2onp-a1-m1-cB_2onp-a1-m1-cD 2onp-a2-m1-cE_2onp-a2-m1-cG 2onp-a2-m1-cF_2onp-a2-m1-cH 2vle-a1-m1-cA_2vle-a1-m1-cC 2vle-a1-m1-cB_2vle-a1-m1-cD 2vle-a2-m1-cE_2vle-a2-m1-cG 2vle-a2-m1-cF_2vle-a2-m1-cH 3inj-a1-m1-cA_3inj-a1-m1-cC 3inj-a1-m1-cB_3inj-a1-m1-cD 3inj-a2-m1-cE_3inj-a2-m1-cG 3inj-a2-m1-cF_3inj-a2-m1-cH 3inl-a1-m1-cB_3inl-a1-m1-cD 3inl-a1-m1-cC_3inl-a1-m1-cA 3inl-a2-m1-cE_3inl-a2-m1-cG 3inl-a2-m1-cF_3inl-a2-m1-cH 3n80-a1-m1-cA_3n80-a1-m1-cC 3n80-a1-m1-cB_3n80-a1-m1-cD 3n80-a2-m1-cF_3n80-a2-m1-cH 3n80-a2-m1-cG_3n80-a2-m1-cE 3n81-a1-m1-cA_3n81-a1-m1-cC 3n81-a1-m1-cB_3n81-a1-m1-cD 3n81-a2-m1-cF_3n81-a2-m1-cH 3n81-a2-m1-cG_3n81-a2-m1-cE 3n82-a1-m1-cA_3n82-a1-m1-cC 3n82-a1-m1-cB_3n82-a1-m1-cD 3n82-a2-m1-cE_3n82-a2-m1-cG 3n82-a2-m1-cF_3n82-a2-m1-cH 3n83-a1-m1-cA_3n83-a1-m1-cC 3n83-a1-m1-cB_3n83-a1-m1-cD 3n83-a2-m1-cE_3n83-a2-m1-cG 3n83-a2-m1-cF_3n83-a2-m1-cH 3sz9-a5-m1-cA_3sz9-a5-m1-cC 3sz9-a5-m1-cB_3sz9-a5-m1-cD 3sz9-a6-m1-cE_3sz9-a6-m1-cG 3sz9-a6-m1-cF_3sz9-a6-m1-cH 4fqf-a1-m1-cA_4fqf-a1-m1-cC 4fqf-a1-m1-cB_4fqf-a1-m1-cD 4fr8-a1-m1-cA_4fr8-a1-m1-cC 4fr8-a1-m1-cB_4fr8-a1-m1-cD 4fr8-a2-m1-cE_4fr8-a2-m1-cG 4fr8-a2-m1-cF_4fr8-a2-m1-cH 4kwf-a1-m1-cA_4kwf-a1-m1-cC 4kwf-a1-m1-cB_4kwf-a1-m1-cD 4kwf-a2-m1-cE_4kwf-a2-m1-cG 4kwf-a2-m1-cF_4kwf-a2-m1-cH 4kwg-a1-m1-cA_4kwg-a1-m1-cC 4kwg-a1-m1-cB_4kwg-a1-m1-cD 4kwg-a2-m1-cE_4kwg-a2-m1-cG 4kwg-a2-m1-cF_4kwg-a2-m1-cH 5l13-a1-m1-cA_5l13-a1-m1-cC 5l13-a1-m1-cB_5l13-a1-m1-cD 5l13-a2-m1-cF_5l13-a2-m1-cH 5l13-a2-m1-cG_5l13-a2-m1-cE AVPAPNQQPEVFCNQIFINNEWHDAVSRKTFPTVNPSTGEVICQVAEGDKEDVDKAVKAARAAFQLGSPWRRMDASHRGRLLNRLADLIERDRTYLAALETLDNGKPYVISYLVDLDMVLKCLRYYAGWADKYHGKTIPIDGDFFSYTRHEPVGVCGQIIPWNFPLLMQAWKLGPALATGNVVVMKVAEQTPLTALYVANLIKEAGFPPGVVNIVPGFGPTAGAAIASHEDVDKVAFTGSTEIGRVIQVAAGSSNLKRVTLELGGKSPNIIMSDADMDWAVEQAHFALFFNQGQCSCAGSRTFVQEDIYDEFVERSVARAKSRVVGNPFDSKTEQGPQVDETQFKKILGYINTGKQEGAKLLCGGGIAADRGYFIQPTVFGDVQDGMTIAKEEIFGPVMQILKFKTIEEVVGRANNSTYGLAAAVFTKDLDKANYLSQALQAGTVWVNCYDVFGAQSPFGGYKMSGSGRELGEYGLQAYTEVKTVTVKVPQKNS AVPAPNQQPEVFCNQIFINNEWHDAVSRKTFPTVNPSTGEVICQVAEGDKEDVDKAVKAARAAFQLGSPWRRMDASHRGRLLNRLADLIERDRTYLAALETLDNGKPYVISYLVDLDMVLKCLRYYAGWADKYHGKTIPIDGDFFSYTRHEPVGVCGQIIPWNFPLLMQAWKLGPALATGNVVVMKVAEQTPLTALYVANLIKEAGFPPGVVNIVPGFGPTAGAAIASHEDVDKVAFTGSTEIGRVIQVAAGSSNLKRVTLELGGKSPNIIMSDADMDWAVEQAHFALFFNQGQCSCAGSRTFVQEDIYDEFVERSVARAKSRVVGNPFDSKTEQGPQVDETQFKKILGYINTGKQEGAKLLCGGGIAADRGYFIQPTVFGDVQDGMTIAKEEIFGPVMQILKFKTIEEVVGRANNSTYGLAAAVFTKDLDKANYLSQALQAGTVWVNCYDVFGAQSPFGGYKMSGSGRELGEYGLQAYTEVKTVTVKVPQKNS 1o04-a2-m1-cG_1o04-a2-m1-cH Cys302Ser mutant of human mitochondrial aldehyde dehydrogenase complexed with NAD+ and Mg2+ P05091 P05091 1.42 X-RAY DIFFRACTION 174 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 494 494 1a4z-a1-m1-cA_1a4z-a1-m1-cB 1a4z-a1-m1-cC_1a4z-a1-m1-cD 1ag8-a1-m1-cA_1ag8-a1-m1-cB 1ag8-a1-m1-cC_1ag8-a1-m1-cD 1cw3-a1-m1-cA_1cw3-a1-m1-cB 1cw3-a1-m1-cC_1cw3-a1-m1-cD 1cw3-a2-m1-cE_1cw3-a2-m1-cF 1cw3-a2-m1-cG_1cw3-a2-m1-cH 1nzw-a1-m1-cA_1nzw-a1-m1-cB 1nzw-a1-m1-cC_1nzw-a1-m1-cD 1nzw-a2-m1-cE_1nzw-a2-m1-cF 1nzw-a2-m1-cG_1nzw-a2-m1-cH 1nzx-a1-m1-cA_1nzx-a1-m1-cB 1nzx-a1-m1-cC_1nzx-a1-m1-cD 1nzx-a2-m1-cE_1nzx-a2-m1-cF 1nzx-a2-m1-cG_1nzx-a2-m1-cH 1nzz-a1-m1-cA_1nzz-a1-m1-cB 1nzz-a1-m1-cC_1nzz-a1-m1-cD 1nzz-a2-m1-cE_1nzz-a2-m1-cF 1nzz-a2-m1-cG_1nzz-a2-m1-cH 1o00-a1-m1-cA_1o00-a1-m1-cB 1o00-a1-m1-cC_1o00-a1-m1-cD 1o00-a2-m1-cE_1o00-a2-m1-cF 1o00-a2-m1-cG_1o00-a2-m1-cH 1o01-a1-m1-cA_1o01-a1-m1-cB 1o01-a1-m1-cD_1o01-a1-m1-cC 1o01-a2-m1-cE_1o01-a2-m1-cF 1o01-a2-m1-cG_1o01-a2-m1-cH 1o02-a1-m1-cA_1o02-a1-m1-cB 1o02-a1-m1-cC_1o02-a1-m1-cD 1o02-a2-m1-cE_1o02-a2-m1-cF 1o02-a2-m1-cG_1o02-a2-m1-cH 1o04-a1-m1-cA_1o04-a1-m1-cB 1o04-a1-m1-cC_1o04-a1-m1-cD 1o04-a2-m1-cE_1o04-a2-m1-cF 1o05-a1-m1-cA_1o05-a1-m1-cB 1o05-a1-m1-cC_1o05-a1-m1-cD 1o05-a2-m1-cE_1o05-a2-m1-cF 1o05-a2-m1-cG_1o05-a2-m1-cH 1zum-a1-m1-cC_1zum-a1-m1-cD 1zum-a2-m1-cF_1zum-a2-m1-cE 1zum-a2-m1-cG_1zum-a2-m1-cH 1zum-a3-m1-cJ_1zum-a3-m1-cI 1zum-a3-m1-cK_1zum-a3-m1-cL 2onm-a1-m1-cA_2onm-a1-m1-cB 2onm-a1-m1-cC_2onm-a1-m1-cD 2onm-a2-m1-cE_2onm-a2-m1-cF 2onm-a2-m1-cG_2onm-a2-m1-cH 2onm-a3-m1-cI_2onm-a3-m1-cJ 2onm-a3-m1-cK_2onm-a3-m1-cL 2onn-a1-m1-cA_2onn-a1-m1-cB 2onn-a1-m1-cC_2onn-a1-m1-cD 2onn-a2-m1-cE_2onn-a2-m1-cF 2onn-a2-m1-cG_2onn-a2-m1-cH 2ono-a1-m1-cA_2ono-a1-m1-cB 2ono-a1-m1-cC_2ono-a1-m1-cD 2ono-a2-m1-cE_2ono-a2-m1-cF 2ono-a2-m1-cG_2ono-a2-m1-cH 2onp-a1-m1-cA_2onp-a1-m1-cB 2onp-a1-m1-cC_2onp-a1-m1-cD 2onp-a2-m1-cE_2onp-a2-m1-cF 2onp-a2-m1-cG_2onp-a2-m1-cH 2vle-a1-m1-cA_2vle-a1-m1-cB 2vle-a1-m1-cC_2vle-a1-m1-cD 2vle-a2-m1-cE_2vle-a2-m1-cF 2vle-a2-m1-cG_2vle-a2-m1-cH 3inj-a1-m1-cA_3inj-a1-m1-cB 3inj-a1-m1-cC_3inj-a1-m1-cD 3inj-a2-m1-cE_3inj-a2-m1-cF 3inj-a2-m1-cG_3inj-a2-m1-cH 3inl-a1-m1-cB_3inl-a1-m1-cA 3inl-a1-m1-cC_3inl-a1-m1-cD 3inl-a2-m1-cE_3inl-a2-m1-cF 3inl-a2-m1-cG_3inl-a2-m1-cH 3n80-a1-m1-cA_3n80-a1-m1-cB 3n80-a1-m1-cC_3n80-a1-m1-cD 3n80-a2-m1-cF_3n80-a2-m1-cE 3n80-a2-m1-cG_3n80-a2-m1-cH 3n81-a1-m1-cA_3n81-a1-m1-cB 3n81-a1-m1-cC_3n81-a1-m1-cD 3n81-a2-m1-cE_3n81-a2-m1-cF 3n81-a2-m1-cG_3n81-a2-m1-cH 3n82-a1-m1-cA_3n82-a1-m1-cB 3n82-a1-m1-cC_3n82-a1-m1-cD 3n82-a2-m1-cE_3n82-a2-m1-cF 3n82-a2-m1-cG_3n82-a2-m1-cH 3n83-a1-m1-cA_3n83-a1-m1-cB 3n83-a1-m1-cC_3n83-a1-m1-cD 3n83-a2-m1-cE_3n83-a2-m1-cF 3n83-a2-m1-cG_3n83-a2-m1-cH 3sz9-a1-m1-cA_3sz9-a1-m1-cB 3sz9-a2-m1-cD_3sz9-a2-m1-cC 3sz9-a3-m1-cE_3sz9-a3-m1-cF 3sz9-a4-m1-cG_3sz9-a4-m1-cH 3sz9-a5-m1-cA_3sz9-a5-m1-cB 3sz9-a5-m1-cD_3sz9-a5-m1-cC 3sz9-a6-m1-cE_3sz9-a6-m1-cF 3sz9-a6-m1-cG_3sz9-a6-m1-cH 4fqf-a1-m1-cA_4fqf-a1-m1-cB 4fqf-a1-m1-cC_4fqf-a1-m1-cD 4fr8-a1-m1-cA_4fr8-a1-m1-cB 4fr8-a1-m1-cD_4fr8-a1-m1-cC 4fr8-a2-m1-cE_4fr8-a2-m1-cF 4fr8-a2-m1-cH_4fr8-a2-m1-cG 4kwf-a1-m1-cA_4kwf-a1-m1-cB 4kwf-a1-m1-cC_4kwf-a1-m1-cD 4kwf-a2-m1-cE_4kwf-a2-m1-cF 4kwf-a2-m1-cG_4kwf-a2-m1-cH 4kwg-a1-m1-cA_4kwg-a1-m1-cB 4kwg-a1-m1-cC_4kwg-a1-m1-cD 4kwg-a2-m1-cE_4kwg-a2-m1-cF 4kwg-a2-m1-cG_4kwg-a2-m1-cH 5l13-a1-m1-cA_5l13-a1-m1-cB 5l13-a1-m1-cC_5l13-a1-m1-cD 5l13-a2-m1-cF_5l13-a2-m1-cE 5l13-a2-m1-cG_5l13-a2-m1-cH AVPAPNQQPEVFCNQIFINNEWHDAVSRKTFPTVNPSTGEVICQVAEGDKEDVDKAVKAARAAFQLGSPWRRMDASHRGRLLNRLADLIERDRTYLAALETLDNGKPYVISYLVDLDMVLKCLRYYAGWADKYHGKTIPIDGDFFSYTRHEPVGVCGQIIPWNFPLLMQAWKLGPALATGNVVVMKVAEQTPLTALYVANLIKEAGFPPGVVNIVPGFGPTAGAAIASHEDVDKVAFTGSTEIGRVIQVAAGSSNLKRVTLELGGKSPNIIMSDADMDWAVEQAHFALFFNQGQCSCAGSRTFVQEDIYDEFVERSVARAKSRVVGNPFDSKTEQGPQVDETQFKKILGYINTGKQEGAKLLCGGGIAADRGYFIQPTVFGDVQDGMTIAKEEIFGPVMQILKFKTIEEVVGRANNSTYGLAAAVFTKDLDKANYLSQALQAGTVWVNCYDVFGAQSPFGGYKMSGSGRELGEYGLQAYTEVKTVTVKVPQKNS AVPAPNQQPEVFCNQIFINNEWHDAVSRKTFPTVNPSTGEVICQVAEGDKEDVDKAVKAARAAFQLGSPWRRMDASHRGRLLNRLADLIERDRTYLAALETLDNGKPYVISYLVDLDMVLKCLRYYAGWADKYHGKTIPIDGDFFSYTRHEPVGVCGQIIPWNFPLLMQAWKLGPALATGNVVVMKVAEQTPLTALYVANLIKEAGFPPGVVNIVPGFGPTAGAAIASHEDVDKVAFTGSTEIGRVIQVAAGSSNLKRVTLELGGKSPNIIMSDADMDWAVEQAHFALFFNQGQCSCAGSRTFVQEDIYDEFVERSVARAKSRVVGNPFDSKTEQGPQVDETQFKKILGYINTGKQEGAKLLCGGGIAADRGYFIQPTVFGDVQDGMTIAKEEIFGPVMQILKFKTIEEVVGRANNSTYGLAAAVFTKDLDKANYLSQALQAGTVWVNCYDVFGAQSPFGGYKMSGSGRELGEYGLQAYTEVKTVTVKVPQKNS 1o06-a2-m1-cA_1o06-a2-m2-cA Crystal structure of the Vps27p Ubiquitin Interacting Motif (UIM) P40343 P40343 1.45 X-RAY DIFFRACTION 33 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 20 20 EEDPDLKAAIQESLREAEEA EEDPDLKAAIQESLREAEEA 1o0w-a1-m1-cA_1o0w-a1-m1-cB Crystal structure of Ribonuclease III (TM1102) from Thermotoga maritima at 2.0 A resolution Q9X0I6 Q9X0I6 2 X-RAY DIFFRACTION 55 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 238 239 HHMNESERKIVEEFQKETGINFKNEELLFRALCHSSYANEQNQAGRKDVESNEKLEFLGDAVLELFVCEILYKKYPEAEVGDLARVKSAAASEEVLAMVSRKMNLGKFLFLGKGEEKTGGRDRDSILADAFEALLAAIYLDQGYEKIKELFEQEFEFYIEKIMKGEMLFDYKTALQEIVQSEHKVPPEYILVRTEKNDGDRIFVVEVRVNGKTIATGKGRTKKEAEKEAARIAYEKLL HHMNESERKIVEEFQKETGINFKNEELLFRALCHSSYANEQNQAGRKDVESNEKLEFLGDAVLELFVCEILYKKYPEAEVGDLARVKSAAASEEVLAMVSRKMNLGKFLFLGKGEEKTGGRDRDSILADAFEALLAAIYLDQGYEKIKELFEQEFEFYIEKIMKGEMLFDYKTALQEIVQSEHKVPPEYILVRTEKNDGDRIFVVEVRVNGKTIATGKGRTKKEAEKEAARIAYEKLLK 1o12-a1-m1-cA_1o12-a1-m1-cB Crystal structure of N-acetylglucosamine-6-phosphate deacetylase (TM0814) from Thermotoga maritima at 2.5 A resolution Q9WZS1 Q9WZS1 2.5 X-RAY DIFFRACTION 55 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 354 354 IVEKVLIVDPIDGEFTGDVEIEEGKIVKVEKRECIPRGVLPGFVDPHIHGVVGADTNCDFSEEEFLYSQGVTTFLATTVSTSLEKKEILRKARDYILENPSTSLLGVHLEGPYISKEKKGAHSEKHIRPPSERELSEIDSPAKLTFAPEIESSELLLRLVKRDIVLSAGHSIATFEEFKFYKEGVKRITHFPNGLKPLHHREIGITGAGLLLDDVKLELICDGVHLSREVKLVYKVKKANGIVLVTDSISAAGLKDGTTTLGDLVVKVKDGVPRLEDGTLAGSTLFFSQAVKNFRKFTGCSITELAKVSSYNSCVELGLDDRGRIAEGTRADLVLLDEDLNVVTIKEGEVVFRS IVEKVLIVDPIDGEFTGDVEIEEGKIVKVEKRECIPRGVLPGFVDPHIHGVVGADTNCDFSEEEFLYSQGVTTFLATTVSTSLEKKEILRKARDYILENPSTSLLGVHLEGPYISKEKKGAHSEKHIRPPSERELSEIDSPAKLTFAPEIESSELLLRLVKRDIVLSAGHSIATFEEFKFYKEGVKRITHFPNGLKPLHHREIGITGAGLLLDDVKLELICDGVHLSREVKLVYKVKKANGIVLVTDSISAAGLKDGTTTLGDLVVKVKDGVPRLEDGTLAGSTLFFSQAVKNFRKFTGCSITELAKVSSYNSCVELGLDDRGRIAEGTRADLVLLDEDLNVVTIKEGEVVFRS 1o1g-a1-m1-cE_1o1g-a1-m1-cK MOLECULAR MODELS OF AVERAGED RIGOR CROSSBRIDGES FROM TOMOGRAMS OF INSECT FLIGHT MUSCLE P02609 P02609 70.0 ELECTRON MICROSCOPY 10 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 145 145 1mvw-a1-m1-cE_1mvw-a1-m1-cK 1o18-a1-m1-cE_1o18-a1-m1-cK 1o19-a1-m1-cE_1o19-a1-m1-cK 1o1a-a1-m1-cE_1o1a-a1-m1-cK 1o1b-a1-m1-cE_1o1b-a1-m1-cK 1o1c-a1-m1-cE_1o1c-a1-m1-cK 1o1d-a1-m1-cE_1o1d-a1-m1-cK 1o1e-a1-m1-cE_1o1e-a1-m1-cK 1o1f-a1-m1-cE_1o1f-a1-m1-cK FDETEIEDFKEAFTVIDQNADGIIDKDDLRETFAAMGRLNVKNEELDAMIKEASGPINFTVFLTMFGEKLKGADPEDVIMGAFKVLDPDGKGSIKKSFLEELLTTGGGRFTPEEIKNMWAAFPPDVAGNVDYKNICYVITHGEDA FDETEIEDFKEAFTVIDQNADGIIDKDDLRETFAAMGRLNVKNEELDAMIKEASGPINFTVFLTMFGEKLKGADPEDVIMGAFKVLDPDGKGSIKKSFLEELLTTGGGRFTPEEIKNMWAAFPPDVAGNVDYKNICYVITHGEDA 1o1x-a1-m1-cA_1o1x-a1-m4-cA Crystal structure of a ribose 5-phosphate isomerase rpib (tm1080) from thermotoga maritima at 1.90 A resolution Q9X0G9 Q9X0G9 1.9 X-RAY DIFFRACTION 26 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 142 142 1o1x-a1-m2-cA_1o1x-a1-m3-cA HHVKIAIASDHAAFELKEKVKNYLLGKGIEVEDHGTYSEESVDYPDYAKKVVQSILSNEADFGILLGTGLGSIAANRYRGIRAALCLFPDARLARSHNNANILVLPGRLIGAELAFWIVDTFLSTPFDGGRHERRIRKIDEV HHVKIAIASDHAAFELKEKVKNYLLGKGIEVEDHGTYSEESVDYPDYAKKVVQSILSNEADFGILLGTGLGSIAANRYRGIRAALCLFPDARLARSHNNANILVLPGRLIGAELAFWIVDTFLSTPFDGGRHERRIRKIDEV 1o1x-a1-m2-cA_1o1x-a1-m4-cA Crystal structure of a ribose 5-phosphate isomerase rpib (tm1080) from thermotoga maritima at 1.90 A resolution Q9X0G9 Q9X0G9 1.9 X-RAY DIFFRACTION 12 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 142 142 1o1x-a1-m1-cA_1o1x-a1-m3-cA HHVKIAIASDHAAFELKEKVKNYLLGKGIEVEDHGTYSEESVDYPDYAKKVVQSILSNEADFGILLGTGLGSIAANRYRGIRAALCLFPDARLARSHNNANILVLPGRLIGAELAFWIVDTFLSTPFDGGRHERRIRKIDEV HHVKIAIASDHAAFELKEKVKNYLLGKGIEVEDHGTYSEESVDYPDYAKKVVQSILSNEADFGILLGTGLGSIAANRYRGIRAALCLFPDARLARSHNNANILVLPGRLIGAELAFWIVDTFLSTPFDGGRHERRIRKIDEV 1o1x-a1-m3-cA_1o1x-a1-m4-cA Crystal structure of a ribose 5-phosphate isomerase rpib (tm1080) from thermotoga maritima at 1.90 A resolution Q9X0G9 Q9X0G9 1.9 X-RAY DIFFRACTION 91 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 142 142 1o1x-a1-m1-cA_1o1x-a1-m2-cA HHVKIAIASDHAAFELKEKVKNYLLGKGIEVEDHGTYSEESVDYPDYAKKVVQSILSNEADFGILLGTGLGSIAANRYRGIRAALCLFPDARLARSHNNANILVLPGRLIGAELAFWIVDTFLSTPFDGGRHERRIRKIDEV HHVKIAIASDHAAFELKEKVKNYLLGKGIEVEDHGTYSEESVDYPDYAKKVVQSILSNEADFGILLGTGLGSIAANRYRGIRAALCLFPDARLARSHNNANILVLPGRLIGAELAFWIVDTFLSTPFDGGRHERRIRKIDEV 1o1y-a2-m1-cA_1o1y-a2-m2-cA Crystal structure of a glutamine amidotransferase (tm1158) from thermotoga maritima at 1.70 A resolution Q9X0P2 Q9X0P2 1.7 X-RAY DIFFRACTION 13 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 223 223 HHHVRVLAIRHVEIEDLGEDIFREKNWSFDYLDTPKGEKLERPLEEYSLVVLLGGYGAYEEEKYPFLKYEFQLIEEILKKEIPFLGILGSQLAKVLGASVYRGKNGEEIGWYFVEKVSDNKFFREFPDRLRVFQWHGDTFDLPRRATRVFTSEKYENQGFVYGKAVGLQFHIEVGARTKRWIEAYKDELEKKKIDPRLLLETAEREEKVLKGLLRSLLERVES HHHVRVLAIRHVEIEDLGEDIFREKNWSFDYLDTPKGEKLERPLEEYSLVVLLGGYGAYEEEKYPFLKYEFQLIEEILKKEIPFLGILGSQLAKVLGASVYRGKNGEEIGWYFVEKVSDNKFFREFPDRLRVFQWHGDTFDLPRRATRVFTSEKYENQGFVYGKAVGLQFHIEVGARTKRWIEAYKDELEKKKIDPRLLLETAEREEKVLKGLLRSLLERVES 1o1y-a3-m1-cA_1o1y-a3-m3-cA Crystal structure of a glutamine amidotransferase (tm1158) from thermotoga maritima at 1.70 A resolution Q9X0P2 Q9X0P2 1.7 X-RAY DIFFRACTION 28 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 223 223 HHHVRVLAIRHVEIEDLGEDIFREKNWSFDYLDTPKGEKLERPLEEYSLVVLLGGYGAYEEEKYPFLKYEFQLIEEILKKEIPFLGILGSQLAKVLGASVYRGKNGEEIGWYFVEKVSDNKFFREFPDRLRVFQWHGDTFDLPRRATRVFTSEKYENQGFVYGKAVGLQFHIEVGARTKRWIEAYKDELEKKKIDPRLLLETAEREEKVLKGLLRSLLERVES HHHVRVLAIRHVEIEDLGEDIFREKNWSFDYLDTPKGEKLERPLEEYSLVVLLGGYGAYEEEKYPFLKYEFQLIEEILKKEIPFLGILGSQLAKVLGASVYRGKNGEEIGWYFVEKVSDNKFFREFPDRLRVFQWHGDTFDLPRRATRVFTSEKYENQGFVYGKAVGLQFHIEVGARTKRWIEAYKDELEKKKIDPRLLLETAEREEKVLKGLLRSLLERVES 1o20-a2-m1-cA_1o20-a2-m4-cA Crystal structure of Gamma-glutamyl phosphate reductase (TM0293) from Thermotoga maritima at 2.00 A resolution Q9WYC9 Q9WYC9 2 X-RAY DIFFRACTION 78 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 412 412 1o20-a2-m2-cA_1o20-a2-m3-cA DELLEKAKKVREAWDVLRNATTREKNKAIKKIAEKLDERRKEILEANRIDVEKARERGVKESLVDRLALNDKRIDEIKACETVIGLKDPVGEVIDSWVREDGLRIARVRVPIGPIGIIYESRPNVTVETTILALKSGNTILLRGGSDALNSNKAIVSAIREALKETEIPESSVEFIENTDRSLVLEIRLREYLSLVIPRGGYGLISFVRDNATVPVLETGVGNCHIFVDESADLKKAVPVIINAKTQRPGTCNAAEKLLVHEKIAKEFLPVIVEELRKHGVEVRGCEKTREIVPDVVPATEDDWPTEYLDLIIAIKVVKNVDEAIEHIKKYSTGHSESILTENYSNAKKFVSEIDAAAVYVNASTRFTDGGQFGFGAEIGISTQRFHARGPVGLRELTTYKFVVLGEYHVRE DELLEKAKKVREAWDVLRNATTREKNKAIKKIAEKLDERRKEILEANRIDVEKARERGVKESLVDRLALNDKRIDEIKACETVIGLKDPVGEVIDSWVREDGLRIARVRVPIGPIGIIYESRPNVTVETTILALKSGNTILLRGGSDALNSNKAIVSAIREALKETEIPESSVEFIENTDRSLVLEIRLREYLSLVIPRGGYGLISFVRDNATVPVLETGVGNCHIFVDESADLKKAVPVIINAKTQRPGTCNAAEKLLVHEKIAKEFLPVIVEELRKHGVEVRGCEKTREIVPDVVPATEDDWPTEYLDLIIAIKVVKNVDEAIEHIKKYSTGHSESILTENYSNAKKFVSEIDAAAVYVNASTRFTDGGQFGFGAEIGISTQRFHARGPVGLRELTTYKFVVLGEYHVRE 1o20-a2-m3-cA_1o20-a2-m4-cA Crystal structure of Gamma-glutamyl phosphate reductase (TM0293) from Thermotoga maritima at 2.00 A resolution Q9WYC9 Q9WYC9 2 X-RAY DIFFRACTION 162 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 412 412 1o20-a2-m1-cA_1o20-a2-m2-cA DELLEKAKKVREAWDVLRNATTREKNKAIKKIAEKLDERRKEILEANRIDVEKARERGVKESLVDRLALNDKRIDEIKACETVIGLKDPVGEVIDSWVREDGLRIARVRVPIGPIGIIYESRPNVTVETTILALKSGNTILLRGGSDALNSNKAIVSAIREALKETEIPESSVEFIENTDRSLVLEIRLREYLSLVIPRGGYGLISFVRDNATVPVLETGVGNCHIFVDESADLKKAVPVIINAKTQRPGTCNAAEKLLVHEKIAKEFLPVIVEELRKHGVEVRGCEKTREIVPDVVPATEDDWPTEYLDLIIAIKVVKNVDEAIEHIKKYSTGHSESILTENYSNAKKFVSEIDAAAVYVNASTRFTDGGQFGFGAEIGISTQRFHARGPVGLRELTTYKFVVLGEYHVRE DELLEKAKKVREAWDVLRNATTREKNKAIKKIAEKLDERRKEILEANRIDVEKARERGVKESLVDRLALNDKRIDEIKACETVIGLKDPVGEVIDSWVREDGLRIARVRVPIGPIGIIYESRPNVTVETTILALKSGNTILLRGGSDALNSNKAIVSAIREALKETEIPESSVEFIENTDRSLVLEIRLREYLSLVIPRGGYGLISFVRDNATVPVLETGVGNCHIFVDESADLKKAVPVIINAKTQRPGTCNAAEKLLVHEKIAKEFLPVIVEELRKHGVEVRGCEKTREIVPDVVPATEDDWPTEYLDLIIAIKVVKNVDEAIEHIKKYSTGHSESILTENYSNAKKFVSEIDAAAVYVNASTRFTDGGQFGFGAEIGISTQRFHARGPVGLRELTTYKFVVLGEYHVRE 1o22-a1-m1-cA_1o22-a1-m2-cA Crystal structure of an orphan protein (TM0875) from Thermotoga maritima at 2.00 A resolution Q9WZX8 Q9WZX8 2 X-RAY DIFFRACTION 166 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 146 146 ILEILYYKKGKEFGILEKKKEIFNETGVSLEPVNSELIGRIFLKISVLEEGEEVPSFAIKALTPKENAVDLPLGDWTDLKNVFVEEIDYLDSYGDKILSEKNWYKIYVPYSSVKKKNRNELVEEFKYFFESKGWNPGEYTFSVQEI ILEILYYKKGKEFGILEKKKEIFNETGVSLEPVNSELIGRIFLKISVLEEGEEVPSFAIKALTPKENAVDLPLGDWTDLKNVFVEEIDYLDSYGDKILSEKNWYKIYVPYSSVKKKNRNELVEEFKYFFESKGWNPGEYTFSVQEI 1o3u-a1-m1-cA_1o3u-a1-m2-cA Crystal structure of an hepn domain protein (tm0613) from thermotoga maritima at 1.75 A resolution Q9WZ82 Q9WZ82 1.75 X-RAY DIFFRACTION 16 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 119 119 HHHMDAAKDDLEHAKHDLEHGFYNWACFSSQQAAEKAVKAVFQRGAQAWGYSVPDFLGELSSRFEIPEELMDHALELDKACDALPSGSPRNRYSRIEAERLVNYAEKIIRFCEDLLSRI HHHMDAAKDDLEHAKHDLEHGFYNWACFSSQQAAEKAVKAVFQRGAQAWGYSVPDFLGELSSRFEIPEELMDHALELDKACDALPSGSPRNRYSRIEAERLVNYAEKIIRFCEDLLSRI 1o4s-a1-m1-cA_1o4s-a1-m1-cB Crystal structure of Aspartate aminotransferase (TM1255) from Thermotoga maritima at 1.90 A resolution Q9X0Y2 Q9X0Y2 1.9 X-RAY DIFFRACTION 188 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 375 384 VSRRISEIPISKTMELDAKAKALIKKGEDVINLTAGEPDFPTPEPVVEEAVRFLQKGEVKYTDPRGIYELREGIAKRIGERYKKDISPDQVVVTNGAKQALFNAFMALLDPGDEVIVFSPVWVSYIPQIILAGGTVNVVETFMSKNFQPSLEEVEGLLVGKTKAVLINSPNNPTGVVYRREFLEGLVRLAKKRNFYIISDEVYDSLVYTDEFTSILDVSEGFDRIVYINGFSKSHSMTGWRVGYLISSEKVATAVSKIQSHTTSCINTVAQYAALKALEVDNSYMVQTFKERKNFVVERLKKMGVKFVEPEGAFYLFFKVRGDDVKFCERLLEEKKVALVPGSAFLKPGFVRLSFATSIERLTEALDRIEDFLNS KIHHHHHHMVSRRISEIPISKTMELDAKAKALIKKGEDVINLTAGEPDFPTPEPVVEEAVRFLQKGEVKYTDPRGIYELREGIAKRIGERYKKDISPDQVVVTNGAKQALFNAFMALLDPGDEVIVFSPVWVSYIPQIILAGGTVNVVETFMSKNFQPSLEEVEGLLVGKTKAVLINSPNNPTGVVYRREFLEGLVRLAKKRNFYIISDEVYDSLVYTDEFTSILDVSEGFDRIVYINGFSKSHSMTGWRVGYLISSEKVATAVSKIQSHTTSCINTVAQYAALKALEVDNSYMVQTFKERKNFVVERLKKMGVKFVEPEGAFYLFFKVRGDDVKFCERLLEEKKVALVPGSAFLKPGFVRLSFATSIERLTEALDRIEDFLNS 1o4t-a1-m1-cA_1o4t-a1-m1-cB Crystal structure of a predicted oxalate decarboxylase (tm1287) from thermotoga maritima at 1.95 A resolution Q9X113 Q9X113 1.95 X-RAY DIFFRACTION 87 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 115 115 MVVRSSEITPERISNMRGGKGEVEMAHLLSKEAMHNKARLFARMKLPPGSSVGLHKHEGEFEIYYILLGEGVFHDNGKDVPIKAGDVCFTDSGESHSIENTGNTDLEFLAVIILL MVVRSSEITPERISNMRGGKGEVEMAHLLSKEAMHNKARLFARMKLPPGSSVGLHKHEGEFEIYYILLGEGVFHDNGKDVPIKAGDVCFTDSGESHSIENTGNTDLEFLAVIILL 1o4u-a1-m1-cA_1o4u-a1-m1-cB Crystal structure of a nicotinate nucleotide pyrophosphorylase (tm1645) from thermotoga maritima at 2.50 A resolution Q9X1X8 Q9X1X8 2.5 X-RAY DIFFRACTION 117 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 265 266 MEKILDLLMSFVKEDEGKLDLASFPLRNTTAGAHLLLKTENVVASGIEVSRMFLEKMGLLSKFNVEDGEYLEGTGVIGEIEGNTYKLLVAERTLLNVLSVMFSVATTTRRFAEKLKHAKIAATRKILPGLGVLQKIAVVHGGGDCVMIKDNHLKMYGSAERAVQEVRKIIPFTTKIEVEVENLEDALRAVEAGADIVMLDNLSPEEVKDISRRIKDINPNVIVEVSGGITEENVSLYDFETVDVISSSRLTLQEVFVDLSLEIQR MEKILDLLMSFVKEDEGKLDLASFPLRNTTAGAHLLLKTENVVASGIEVSRMFLEKMGLLSKFNVEDGEYLEGTGVIGEIEGNTYKLLVAERTLLNVLSVMFSVATTTRRFAEKLKHAKIAATRKILPGLGVLQKIAVVHGGGDGCVMIKDNHLKMYGSAERAVQEVRKIIPFTTKIEVEVENLEDALRAVEAGADIVMLDNLSPEEVKDISRRIKDINPNVIVEVSGGITEENVSLYDFETVDVISSSRLTLQEVFVDLSLEIQR 1o4w-a1-m1-cA_1o4w-a1-m2-cA CRYSTAL STRUCTURE OF a PIN (PILT N-TERMINUS) DOMAIN CONTAINING PROTEIN (AF0591) FROM ARCHAEOGLOBUS FULGIDUS AT 1.90 A RESOLUTION O29664 O29664 1.9 X-RAY DIFFRACTION 74 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 123 123 KVRCAVVDTNVLYVYLNKADVVGQLREFGFSRFLITASVKRELEKLESLRGKEKVAARFALKLLEHFEVVETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVELL KVRCAVVDTNVLYVYLNKADVVGQLREFGFSRFLITASVKRELEKLESLRGKEKVAARFALKLLEHFEVVETESEGDPSLIEAAEKYGCILITNDKELKRKAKQRGIPVGYLKEDKRVFVELL 1o4z-a2-m1-cC_1o4z-a2-m1-cD THE THREE-DIMENSIONAL STRUCTURE OF BETA-AGARASE B FROM ZOBELLIA GALACTANIVORANS Q9RGX8 Q9RGX8 2.3 X-RAY DIFFRACTION 34 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 296 297 1o4z-a1-m1-cA_1o4z-a1-m1-cB VDWKDIPVPADAGPNMKWEFQEISDNFEYEAPADNKGSEFLEKWDDFYHNAWAGPGLTEWKRDRSYVADGELKMWATRKPGSDKINMGCITSKTRVVYPVYIEARAKVMNSTLASDVWLLSADDTQEIDILEAYGADYSESAGKDHSYFSKKVHISHHVFIRDPFQDYQPKDAGSWFEDGTVWNKEFHRFGVYWRDPWHLEYYIDGVLVRTVSGKDIIDPKHFTNTTDPGNTEIDTRTGLNKEMDIIINTEDQTWRSSPASGLQSNTYTPTDNELSNIENNTFGVDWIRIYKPVEK VDWKDIPVPADAGPNMKWEFQEISDNFEYEAPADNKGSEFLEKWDDFYHNAWAGPGLTEWKRDRSYVADGELKMWATRKPGSDKINMGCITSKTRVVYPVYIEARAKVMNSTLASDVWLLSADDTQEIDILEAYGADYSESAGKDHSYFSKKVHISHHVFIRDPFQDYQPKDAGSWFEDGTVWNKEFHRFGVYWRDPWHLEYYIDGVLVRTVSGKDIIDPKHFTNTTDPGNTEIDTRTGLNKEMDIIINTEDQTWRSSPASGLQSNTYTPTDNELSNIENNTFGVDWIRIYKPVEKL 1o50-a1-m1-cA_1o50-a1-m2-cA Crystal structure of a cbs domain-containing protein (tm0935) from thermotoga maritima at 1.87 A resolution Q9X033 Q9X033 1.87 X-RAY DIFFRACTION 108 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 141 141 HHHMKVKDVCKLISLKPTVVEEDTPIEEIVDRILEDPVTRTVYVARDNKLVGMIPVMHLLKVSGFHFFGFIPSMKRLIAKNASEIMLDPVYVHMDTPLEEALKLMIDNNIQEMPVVDEKGEIVGDLNSLEILLALWKGREK HHHMKVKDVCKLISLKPTVVEEDTPIEEIVDRILEDPVTRTVYVARDNKLVGMIPVMHLLKVSGFHFFGFIPSMKRLIAKNASEIMLDPVYVHMDTPLEEALKLMIDNNIQEMPVVDEKGEIVGDLNSLEILLALWKGREK 1o51-a1-m2-cA_1o51-a1-m3-cA Crystal structure of a putative PII-like signaling protein (TM0021) from Thermotoga maritima at 2.50 A resolution Q9WXM9 Q9WXM9 2.5 X-RAY DIFFRACTION 48 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 86 86 1o51-a1-m1-cA_1o51-a1-m2-cA 1o51-a1-m1-cA_1o51-a1-m3-cA HHKLLKIYLGEKDKHSGKPLFEYLVKRAYELGKGVTVYRGIGFGHPDLPIVLEIVDEEERINLFLKEIDNIDFDGLVFTADVNVVK HHKLLKIYLGEKDKHSGKPLFEYLVKRAYELGKGVTVYRGIGFGHPDLPIVLEIVDEEERINLFLKEIDNIDFDGLVFTADVNVVK 1o54-a1-m1-cA_1o54-a1-m4-cA Crystal structure of SAM-dependent O-methyltransferase (TM0748) from Thermotoga maritima at 1.65 A resolution Q9WZK7 Q9WZK7 1.65 X-RAY DIFFRACTION 53 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 265 265 1o54-a1-m2-cA_1o54-a1-m3-cA HHHVGKVADTLKPGDRVLLSFEDESEFLVDLEKDKKLHTHLGIIDLNEVFEKGPGEIIRTSAGKKGYILIPSLIDEIMNMKRTQIVYPKDSSFIAMMLDVKEGDRIIDTGVGSGAMCAVLARAVGSSGKVFAYEKREEFAKLAESNLTKWGLIERVTIKVRDISEGFDEKDVDALFLDVPDPWNYIDKCWEALKGGGRFATVCPTTNQVQETLKKLQELPFIRIEVWESLFRPYKPVPERLRPVDRMVAHTAYMIFATKVCRREE HHHVGKVADTLKPGDRVLLSFEDESEFLVDLEKDKKLHTHLGIIDLNEVFEKGPGEIIRTSAGKKGYILIPSLIDEIMNMKRTQIVYPKDSSFIAMMLDVKEGDRIIDTGVGSGAMCAVLARAVGSSGKVFAYEKREEFAKLAESNLTKWGLIERVTIKVRDISEGFDEKDVDALFLDVPDPWNYIDKCWEALKGGGRFATVCPTTNQVQETLKKLQELPFIRIEVWESLFRPYKPVPERLRPVDRMVAHTAYMIFATKVCRREE 1o54-a1-m3-cA_1o54-a1-m4-cA Crystal structure of SAM-dependent O-methyltransferase (TM0748) from Thermotoga maritima at 1.65 A resolution Q9WZK7 Q9WZK7 1.65 X-RAY DIFFRACTION 209 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 265 265 1o54-a1-m1-cA_1o54-a1-m2-cA HHHVGKVADTLKPGDRVLLSFEDESEFLVDLEKDKKLHTHLGIIDLNEVFEKGPGEIIRTSAGKKGYILIPSLIDEIMNMKRTQIVYPKDSSFIAMMLDVKEGDRIIDTGVGSGAMCAVLARAVGSSGKVFAYEKREEFAKLAESNLTKWGLIERVTIKVRDISEGFDEKDVDALFLDVPDPWNYIDKCWEALKGGGRFATVCPTTNQVQETLKKLQELPFIRIEVWESLFRPYKPVPERLRPVDRMVAHTAYMIFATKVCRREE HHHVGKVADTLKPGDRVLLSFEDESEFLVDLEKDKKLHTHLGIIDLNEVFEKGPGEIIRTSAGKKGYILIPSLIDEIMNMKRTQIVYPKDSSFIAMMLDVKEGDRIIDTGVGSGAMCAVLARAVGSSGKVFAYEKREEFAKLAESNLTKWGLIERVTIKVRDISEGFDEKDVDALFLDVPDPWNYIDKCWEALKGGGRFATVCPTTNQVQETLKKLQELPFIRIEVWESLFRPYKPVPERLRPVDRMVAHTAYMIFATKVCRREE 1o57-a2-m1-cC_1o57-a2-m1-cD CRYSTAL STRUCTURE OF THE PURINE OPERON REPRESSOR OF BACILLUS SUBTILIS P37551 P37551 2.2 X-RAY DIFFRACTION 125 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 269 270 1o57-a1-m1-cB_1o57-a1-m1-cA 1p4a-a1-m1-cB_1p4a-a1-m1-cA 1p4a-a2-m1-cD_1p4a-a2-m1-cC 7rmw-a1-m1-cB_7rmw-a1-m1-cA 7rmw-a2-m1-cC_7rmw-a2-m1-cD 7rmw-a3-m1-cE_7rmw-a3-m1-cF MKFRRSGRLVDLTNYLLTHPHELIPLTFFSERYESAKSSISEDLTIIKQTFEQQGIGTLLTVPGAAGGVKYIPKMKQAEAEEFVQTLGQSLANPERILPGGYVYLTDILGKPSVLSKVGKLFASVFAEREIDVVMTVATKGIPLAYAAASYLNVPVVIVRKDGSTVSINYVSGSSNRIQTMSLAKRSMKTGSNVLIIDDFMKAGGTINGMINLLDEFNANVAGIGVLVEAEGVDERLVDEYMSLLTLSTINMKEKSIEIQNGNFLRFFK KFRRSGRLVDLTNYLLTHPHELIPLTFFSERYESAKSSISEDLTIIKQTFEQQGIGTLLTVPGAAGGVKYIPKMKQAEAEEFVQTLGQSLANPERILPGGYVYLTDILGKPSVLSKVGKLFASVFAEREIDVVMTVATKGIPLAYAAASYLNVPVVIVRKDGSTVSINYVSGSSNRIQTMSLAKRSMKTGSNVLIIDDFMKAGGTINGMINLLDEFNANVAGIGVLVEAEGVDERLVDEYMSLLTLSTINMKEKSIEIQNGNFLRFFKDN 1o58-a1-m1-cC_1o58-a1-m1-cD Crystal structure of O-acetylserine sulfhydrylase (TM0665) from Thermotoga maritima at 1.80 A resolution Q9WZD3 Q9WZD3 1.8 X-RAY DIFFRACTION 103 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 266 279 1o58-a1-m1-cB_1o58-a1-m1-cA 3fca-a1-m1-cA_3fca-a1-m2-cA 3fca-a1-m1-cB_3fca-a1-m2-cB HMMERLIGSTPIVRLDSIDSRIFLKLEKNNPGGSVKDRPALFMILDAEKRGLLKNGIVEPTSGNMGIAIAMIGAKRGHRVILTMPETMSVERRKVLKMLGAEAHMLNQFENPYNVYSHQFTTGPEILKQMDYQIDAFVAGVGTGGTISGVGRVLKGFFGNGVKIVAVEPAKSPVLSGGQPGKHAIQGIGAGFVPKILDRSVIDEVITVEDEEAYEMARYLAKKEGLLVGISSGANVAAALKVAQKLGPDARVVTVAPDHAERYLSI HHMMERLIGSTPIVRLDSIDSRIFLKLEKNNPGGSVKDRPALFMILDAEKRGLLKNGIVEPTSGNMGIAIAMIGAKRGHRVILTMPETMSVERRKVLKMLGAELVALEISRETGAHMLNQFENPYNVYSHQFTTGPEILKQMDYQIDAFVAGVGTGGTISGVGRVLKGFFGNGVKIVAVEPAKSPVLSGGQPGKHAIQGIGAGFVPKILDRSVIDEVITVEDEEAYEMARYLAKKEGLLVGISSGANVAAALKVAQKLGPDARVVTVAPDHAERYLSIL 1o5h-a1-m1-cB_1o5h-a1-m1-cA Crystal structure of formiminotetrahydrofolate cyclodeaminase (TM1560) from Thermotoga maritima at 2.80 A resolution Q9X1P6 Q9X1P6 2.8 X-RAY DIFFRACTION 156 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 187 189 EVERLSLKEFCDVAERKPTPGGGAVGSVVGAACALAEVANFTRKKKGYEDVEPEERIVEAEEARLKLFDLAKKDEAFEKVKAYKSSEGELQNALKEAASVPDVIRVKDLAHELEKLAEFGNKNLASDTLNAADLCHAVFQVEKVNVLINLKEISDETFRKNLEELEEQEAQIEGCYQRVKKLEGIVW EVERLSLKEFCDVAERKPTPGGGAVGSVVGAACALAEVANFTRKKKGYEDVEPEERIVEAEEARLKLFDLAKKDEAFEKVKAYKSSEGELQNALKEAASVPDVIRVKDLAHELEKLAEFGNKNLASDTLNAADLCHAVFQVEKVNVLINLKEISDETFRKNLEELEEQEAQIEGCYQRVKKLEGIVWSS 1o5i-a1-m1-cA_1o5i-a1-m1-cD Crystal structure of 3-oxoacyl-(acyl carrier protein) reductase (TM1169) from Thermotoga maritima at 2.50 A resolution Q9X0Q1 Q9X0Q1 2.5 X-RAY DIFFRACTION 93 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 234 234 1o5i-a1-m1-cB_1o5i-a1-m1-cC GIRDKGVLVLAASRGIGRAVADVLSQEGAEVTICARNEELLKRSGHRYVVCDLRKDLDLLFEKVKEVDILVLNAGGPKAGFFDELTNEDFKEAIDSLFLNMIKIVRNYLPAMKEKGWGRIVAITSFSVISPIENLYTSNSARMALTGFLKTLSFEVAPYGITVNCVAPGWTETERVKELLSEEKKKQVESQIPMRRMAKPEEIASVVAFLCSEKASYLTGQTIVVDGGLSKFPL GIRDKGVLVLAASRGIGRAVADVLSQEGAEVTICARNEELLKRSGHRYVVCDLRKDLDLLFEKVKEVDILVLNAGGPKAGFFDELTNEDFKEAIDSLFLNMIKIVRNYLPAMKEKGWGRIVAITSFSVISPIENLYTSNSARMALTGFLKTLSFEVAPYGITVNCVAPGWTETERVKELLSEEKKKQVESQIPMRRMAKPEEIASVVAFLCSEKASYLTGQTIVVDGGLSKFPL 1o5i-a1-m1-cB_1o5i-a1-m1-cD Crystal structure of 3-oxoacyl-(acyl carrier protein) reductase (TM1169) from Thermotoga maritima at 2.50 A resolution Q9X0Q1 Q9X0Q1 2.5 X-RAY DIFFRACTION 26 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 234 234 1o5i-a1-m1-cA_1o5i-a1-m1-cC GIRDKGVLVLAASRGIGRAVADVLSQEGAEVTICARNEELLKRSGHRYVVCDLRKDLDLLFEKVKEVDILVLNAGGPKAGFFDELTNEDFKEAIDSLFLNMIKIVRNYLPAMKEKGWGRIVAITSFSVISPIENLYTSNSARMALTGFLKTLSFEVAPYGITVNCVAPGWTETERVKELLSEEKKKQVESQIPMRRMAKPEEIASVVAFLCSEKASYLTGQTIVVDGGLSKFPL GIRDKGVLVLAASRGIGRAVADVLSQEGAEVTICARNEELLKRSGHRYVVCDLRKDLDLLFEKVKEVDILVLNAGGPKAGFFDELTNEDFKEAIDSLFLNMIKIVRNYLPAMKEKGWGRIVAITSFSVISPIENLYTSNSARMALTGFLKTLSFEVAPYGITVNCVAPGWTETERVKELLSEEKKKQVESQIPMRRMAKPEEIASVVAFLCSEKASYLTGQTIVVDGGLSKFPL 1o5i-a1-m1-cC_1o5i-a1-m1-cD Crystal structure of 3-oxoacyl-(acyl carrier protein) reductase (TM1169) from Thermotoga maritima at 2.50 A resolution Q9X0Q1 Q9X0Q1 2.5 X-RAY DIFFRACTION 102 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 234 234 1o5i-a1-m1-cA_1o5i-a1-m1-cB GIRDKGVLVLAASRGIGRAVADVLSQEGAEVTICARNEELLKRSGHRYVVCDLRKDLDLLFEKVKEVDILVLNAGGPKAGFFDELTNEDFKEAIDSLFLNMIKIVRNYLPAMKEKGWGRIVAITSFSVISPIENLYTSNSARMALTGFLKTLSFEVAPYGITVNCVAPGWTETERVKELLSEEKKKQVESQIPMRRMAKPEEIASVVAFLCSEKASYLTGQTIVVDGGLSKFPL GIRDKGVLVLAASRGIGRAVADVLSQEGAEVTICARNEELLKRSGHRYVVCDLRKDLDLLFEKVKEVDILVLNAGGPKAGFFDELTNEDFKEAIDSLFLNMIKIVRNYLPAMKEKGWGRIVAITSFSVISPIENLYTSNSARMALTGFLKTLSFEVAPYGITVNCVAPGWTETERVKELLSEEKKKQVESQIPMRRMAKPEEIASVVAFLCSEKASYLTGQTIVVDGGLSKFPL 1o5k-a1-m1-cB_1o5k-a1-m2-cB Crystal structure of Dihydrodipicolinate synthase (TM1521) from Thermotoga maritima at 1.80 A resolution Q9X1K9 Q9X1K9 1.8 X-RAY DIFFRACTION 32 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 294 294 1o5k-a1-m1-cA_1o5k-a1-m2-cA 3pb2-a1-m1-cC_3pb2-a1-m1-cB 3pb2-a1-m1-cE_3pb2-a1-m1-cA 3pb2-a2-m1-cF_3pb2-a2-m1-cD 3pb2-a2-m2-cF_3pb2-a2-m2-cD HMFRGVGTAIVTPFKNGELDLESYERLVRYQLENGVNALIVLGTTGESPTVNEDEREKLVSRTLEIVDGKIPVIVGAGTNSTEKTLKLVKQAEKLGANGVLVVTPYYNKPTQEGLYQHYKYISERTDLGIVVYNVPGRTGVNVLPETAARIAADLKNVVGIEANPDIDQIDRTVSLTKQARSDFMVWSGNDDRTFYLLCAGGDGVISVVSNVAPKQMVELCAEYFSGNLEKSREVHRKLRPLMKALFVETNPIPVKAALNLMGFIENELRLPLVPASEKTVELLRNVLKESGLL HMFRGVGTAIVTPFKNGELDLESYERLVRYQLENGVNALIVLGTTGESPTVNEDEREKLVSRTLEIVDGKIPVIVGAGTNSTEKTLKLVKQAEKLGANGVLVVTPYYNKPTQEGLYQHYKYISERTDLGIVVYNVPGRTGVNVLPETAARIAADLKNVVGIEANPDIDQIDRTVSLTKQARSDFMVWSGNDDRTFYLLCAGGDGVISVVSNVAPKQMVELCAEYFSGNLEKSREVHRKLRPLMKALFVETNPIPVKAALNLMGFIENELRLPLVPASEKTVELLRNVLKESGLL 1o5k-a1-m2-cA_1o5k-a1-m2-cB Crystal structure of Dihydrodipicolinate synthase (TM1521) from Thermotoga maritima at 1.80 A resolution Q9X1K9 Q9X1K9 1.8 X-RAY DIFFRACTION 116 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 294 294 1o5k-a1-m1-cA_1o5k-a1-m1-cB 3pb2-a1-m1-cB_3pb2-a1-m1-cA 3pb2-a1-m1-cE_3pb2-a1-m1-cC 3pb2-a2-m1-cD_3pb2-a2-m2-cD 3pb2-a2-m1-cF_3pb2-a2-m2-cF HMFRGVGTAIVTPFKNGELDLESYERLVRYQLENGVNALIVLGTTGESPTVNEDEREKLVSRTLEIVDGKIPVIVGAGTNSTEKTLKLVKQAEKLGANGVLVVTPYYNKPTQEGLYQHYKYISERTDLGIVVYNVPGRTGVNVLPETAARIAADLKNVVGIEANPDIDQIDRTVSLTKQARSDFMVWSGNDDRTFYLLCAGGDGVISVVSNVAPKQMVELCAEYFSGNLEKSREVHRKLRPLMKALFVETNPIPVKAALNLMGFIENELRLPLVPASEKTVELLRNVLKESGLL HMFRGVGTAIVTPFKNGELDLESYERLVRYQLENGVNALIVLGTTGESPTVNEDEREKLVSRTLEIVDGKIPVIVGAGTNSTEKTLKLVKQAEKLGANGVLVVTPYYNKPTQEGLYQHYKYISERTDLGIVVYNVPGRTGVNVLPETAARIAADLKNVVGIEANPDIDQIDRTVSLTKQARSDFMVWSGNDDRTFYLLCAGGDGVISVVSNVAPKQMVELCAEYFSGNLEKSREVHRKLRPLMKALFVETNPIPVKAALNLMGFIENELRLPLVPASEKTVELLRNVLKESGLL 1o5l-a1-m1-cA_1o5l-a1-m2-cA Crystal structure of Transcriptional regulator (TM1171) from Thermotoga maritima at 2.30 A resolution Q9X0Q3 Q9X0Q3 2.3 X-RAY DIFFRACTION 103 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 129 129 MDLKKLLPCGKVIVFRKGEIVKHQDDPIEDVLILLEGTLKTEHVSENGKTLEIDEIKPVQIIASGFIFSSEPRFPVNVVAGENSKILSIPKEVFLDLLMKDRELLLFFLKDVSEHFRVVSEKLFFLTTK MDLKKLLPCGKVIVFRKGEIVKHQDDPIEDVLILLEGTLKTEHVSENGKTLEIDEIKPVQIIASGFIFSSEPRFPVNVVAGENSKILSIPKEVFLDLLMKDRELLLFFLKDVSEHFRVVSEKLFFLTTK 1o5o-a1-m1-cA_1o5o-a1-m1-cD Crystal structure of Uracil phosphoribosyltransferase (TM0721) from Thermotoga maritima at 2.30 A resolution Q9WZI0 Q9WZI0 2.3 X-RAY DIFFRACTION 63 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 210 210 1o5o-a1-m1-cB_1o5o-a1-m1-cC HMKNLVVVDHPLIKHKLTIMRDKNTGPKEFRELLREITLLLAYEATRHLKCEEVEVETPITKTIGYRINDKDIVVVPILRAGLVMADGILELLPNASVGHIGIYRDPETLQAVEYYAKLPPLNDDKEVFLLDPMLATGVSSIKAIEILKENGAKKITLVALIAAPEGVEAVEKKYEDVKIYVAALDERLNDHGYIIPGLGDAGDRLFRTK HMKNLVVVDHPLIKHKLTIMRDKNTGPKEFRELLREITLLLAYEATRHLKCEEVEVETPITKTIGYRINDKDIVVVPILRAGLVMADGILELLPNASVGHIGIYRDPETLQAVEYYAKLPPLNDDKEVFLLDPMLATGVSSIKAIEILKENGAKKITLVALIAAPEGVEAVEKKYEDVKIYVAALDERLNDHGYIIPGLGDAGDRLFRTK 1o5o-a1-m1-cC_1o5o-a1-m1-cD Crystal structure of Uracil phosphoribosyltransferase (TM0721) from Thermotoga maritima at 2.30 A resolution Q9WZI0 Q9WZI0 2.3 X-RAY DIFFRACTION 138 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 210 210 1o5o-a1-m1-cB_1o5o-a1-m1-cA HMKNLVVVDHPLIKHKLTIMRDKNTGPKEFRELLREITLLLAYEATRHLKCEEVEVETPITKTIGYRINDKDIVVVPILRAGLVMADGILELLPNASVGHIGIYRDPETLQAVEYYAKLPPLNDDKEVFLLDPMLATGVSSIKAIEILKENGAKKITLVALIAAPEGVEAVEKKYEDVKIYVAALDERLNDHGYIIPGLGDAGDRLFRTK HMKNLVVVDHPLIKHKLTIMRDKNTGPKEFRELLREITLLLAYEATRHLKCEEVEVETPITKTIGYRINDKDIVVVPILRAGLVMADGILELLPNASVGHIGIYRDPETLQAVEYYAKLPPLNDDKEVFLLDPMLATGVSSIKAIEILKENGAKKITLVALIAAPEGVEAVEKKYEDVKIYVAALDERLNDHGYIIPGLGDAGDRLFRTK 1o5w-a2-m1-cD_1o5w-a2-m1-cC The structure basis of specific recognitions for substrates and inhibitors of rat monoamine oxidase A P21396 P21396 3.2 X-RAY DIFFRACTION 123 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 506 512 1o5w-a1-m1-cB_1o5w-a1-m1-cA AGHMFDVVVIGGGISGLAAAKLLSEYKINVLVLEARDRVGGRTYTVRNEHVKWVDVGGAYVGPTQNRILRLSKELGIETYKVNVNERLVQYVKGKTYPFRGAFPPVWNPLAYLDYNNLWRTMDEMGKEIPVDAPWQARHAQEWDKMTMKDLIDKICWTKTAREFAYLFVNINVTSEPHEVSALWFLWYVRQCGGTARIFSVTNGGQERKFVGGSGQVSEQIMGLLGDKVKLSSPVTYIDQTDDNIIVETLNHEHYECKYVISAIPPILTAKIHFKPELPPERNQLIQRLPMGAVIKCMVYYKEAFWKKKDYCGCMIIEDEEAPIAITLDDTKPDGSLPAIMGFILARKADRLAKLHKDIRKRKICELYAKVLGSQEALYPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYGRVIRQPVGRIYFAGTETATQWSGYMEGAVEAGERAAREVLNALGKVAKKDIWVEEPESKDVPAIEITHTFLERNLPSVPGLLKITGVSTSVALLC AGHMFDVVVIGGGISGLAAAKLLSEYKINVLVLEARDRVGGRTYTVRNEHVKWVDVGGAYVGPTQNRILRLSKELGIETYKVNVNERLVQYVKGKTYPFRGAFPPVWNPLAYLDYNNLWRTMDEMGKEIPVDAPWQARHAQEWDKMTMKDLIDKICWTKTAREFAYLFVNINVTSEPHEVSALWFLWYVRQCGGTARIFSVTNGGQERKFVGGSGQVSEQIMGLLGDKVKLSSPVTYIDQTDDNIIVETLNHEHYECKYVISAIPPILTAKIHFKPELPPERNQLIQRLPMGAVIKCMVYYKEAFWKKKDYCGCMIIEDEEAPIAITLDDTKPDGSLPAIMGFILARKADRLAKLHKDIRKRKICELYAKVLGSQEALYPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYGRVIRQPVGRIYFAGTETATQWSGYMEGAVEAGERAAREVLNALGKVAKKDIWVEEPESKDVPAIEITHTFLERNLPSVPGLLKITGVSTSVALLCFVLYKI 1o60-a1-m1-cA_1o60-a1-m1-cD Crystal structure of KDO-8-phosphate synthase P45251 P45251 1.8 X-RAY DIFFRACTION 11 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 260 260 1o60-a1-m1-cB_1o60-a1-m1-cC QNKIVKIGNIDVANDKPFVLFGGNVLESRDAQVCEAYVKVTEKLGVPYVFKASFDKANRSSIHSYRGPGEEGLKIFQELKDTFGVKIITDVHEIYQCQPVADVVDIIQLPAFLARQTDLVEAAKTGAVINVKKPQFLSPSQGNIVEKIEECGNDKIILCDRGTNFGYDNLIVDLGFSVKKASKGSPVIFDVTHSLQRAQVTELARSGLAVGIAGLFLEAHPNPNQAKCDGPSALPLSALEGFVSQKAIDDLVKSFPELDT QNKIVKIGNIDVANDKPFVLFGGNVLESRDAQVCEAYVKVTEKLGVPYVFKASFDKANRSSIHSYRGPGEEGLKIFQELKDTFGVKIITDVHEIYQCQPVADVVDIIQLPAFLARQTDLVEAAKTGAVINVKKPQFLSPSQGNIVEKIEECGNDKIILCDRGTNFGYDNLIVDLGFSVKKASKGSPVIFDVTHSLQRAQVTELARSGLAVGIAGLFLEAHPNPNQAKCDGPSALPLSALEGFVSQKAIDDLVKSFPELDT 1o60-a1-m1-cB_1o60-a1-m1-cD Crystal structure of KDO-8-phosphate synthase P45251 P45251 1.8 X-RAY DIFFRACTION 68 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 260 260 1o60-a1-m1-cA_1o60-a1-m1-cC QNKIVKIGNIDVANDKPFVLFGGNVLESRDAQVCEAYVKVTEKLGVPYVFKASFDKANRSSIHSYRGPGEEGLKIFQELKDTFGVKIITDVHEIYQCQPVADVVDIIQLPAFLARQTDLVEAAKTGAVINVKKPQFLSPSQGNIVEKIEECGNDKIILCDRGTNFGYDNLIVDLGFSVKKASKGSPVIFDVTHSLQRAQVTELARSGLAVGIAGLFLEAHPNPNQAKCDGPSALPLSALEGFVSQKAIDDLVKSFPELDT QNKIVKIGNIDVANDKPFVLFGGNVLESRDAQVCEAYVKVTEKLGVPYVFKASFDKANRSSIHSYRGPGEEGLKIFQELKDTFGVKIITDVHEIYQCQPVADVVDIIQLPAFLARQTDLVEAAKTGAVINVKKPQFLSPSQGNIVEKIEECGNDKIILCDRGTNFGYDNLIVDLGFSVKKASKGSPVIFDVTHSLQRAQVTELARSGLAVGIAGLFLEAHPNPNQAKCDGPSALPLSALEGFVSQKAIDDLVKSFPELDT 1o60-a1-m1-cC_1o60-a1-m1-cD Crystal structure of KDO-8-phosphate synthase P45251 P45251 1.8 X-RAY DIFFRACTION 93 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 260 260 1o60-a1-m1-cA_1o60-a1-m1-cB QNKIVKIGNIDVANDKPFVLFGGNVLESRDAQVCEAYVKVTEKLGVPYVFKASFDKANRSSIHSYRGPGEEGLKIFQELKDTFGVKIITDVHEIYQCQPVADVVDIIQLPAFLARQTDLVEAAKTGAVINVKKPQFLSPSQGNIVEKIEECGNDKIILCDRGTNFGYDNLIVDLGFSVKKASKGSPVIFDVTHSLQRAQVTELARSGLAVGIAGLFLEAHPNPNQAKCDGPSALPLSALEGFVSQKAIDDLVKSFPELDT QNKIVKIGNIDVANDKPFVLFGGNVLESRDAQVCEAYVKVTEKLGVPYVFKASFDKANRSSIHSYRGPGEEGLKIFQELKDTFGVKIITDVHEIYQCQPVADVVDIIQLPAFLARQTDLVEAAKTGAVINVKKPQFLSPSQGNIVEKIEECGNDKIILCDRGTNFGYDNLIVDLGFSVKKASKGSPVIFDVTHSLQRAQVTELARSGLAVGIAGLFLEAHPNPNQAKCDGPSALPLSALEGFVSQKAIDDLVKSFPELDT 1o61-a1-m1-cB_1o61-a1-m1-cA Crystal structure of a PLP-dependent enzyme with PLP Q9S5Y7 Q9S5Y7 1.9 X-RAY DIFFRACTION 156 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 368 374 1o62-a1-m1-cB_1o62-a1-m1-cA 1o69-a1-m1-cB_1o69-a1-m1-cA 4ztc-a1-m1-cA_4ztc-a1-m2-cA GNELKYIEEVFKSGEFVNRFEQSVKDYSKSENALALNSATAALHLALRVAGVKQDDIVLASSFTFIASVAPICYLKAKPVFIDCDETYNIDVDLLKLAIKECEKKPKALILTHLYGNAAKMDEIVEICKENDIVLIEDAAEALGSFYKNKALGTFGEFGVYSYNGNKIITTSGGGMLIGKNKEKIEKARFYSTQARENCLHYEHLDYGYNYRLSNVLGAIGVAQMEVLEQRVLKKREIYEWYKEFLGEYFSFLDELENSRSNRWLSTALINFDKNELNACQKDINISQKNITLHPKISKLIEDLKNKQIETRPLWKAMHTQEVFKGAKAYLNGNSELFFQKGICLPSGTAMSKDDVYEISKLILKSIK GNELKYIEEVFKSNYIAPLGEFVNRFEQSVKDYSKSENALALNSATAALHLALRVAGVKQDDIVLASSFTFIASVAPICYLKAKPVFIDCDETYNIDVDLLKLAIKECEKKPKALILTHLYGNAAKMDEIVEICKENDIVLIEDAAEALGSFYKNKALGTFGEFGVYSYNGNKIITTSGGGMLIGKNKEKIEKARFYSTQARENCLHYEHLDYGYNYRLSNVLGAIGVAQMEVLEQRVLKKREIYEWYKEFLGEYFSFLDELENSRSNRWLSTALINFDKNELNACQKDINISQKNITLHPKISKLIEDLKNKQIETRPLWKAMHTQEVFKGAKAYLNGNSELFFQKGICLPSGTAMSKDDVYEISKLILKSIK 1o64-a1-m1-cB_1o64-a1-m1-cA Crystal structure of an ATP phosphoribosyltransferase Q9X0D2 Q9X0D2 2.1 X-RAY DIFFRACTION 76 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 200 203 1o63-a1-m1-cB_1o63-a1-m1-cA 1usy-a1-m1-cE_1usy-a1-m1-cF 1usy-a1-m1-cH_1usy-a1-m1-cG LKLAIPKGRLEEKVMTYLKKTGVIFERESSILREGKDIVCFMVRPFDVPTYLVHGVADIGFCGTDVLLEKETSLIQPFFIPTNISRMVLAGPKGRGIPEGEKRIATKFPNVTQRYCESKGWHCRIIPLKGSVELAPIAGLSDLIVDITETGRTLKENNLEILDEIFVIRTHVVVNPVSYRTKREEVVSFLEKLQEVIEHD LKLAIPKGRLEEKVMTYLKKTGVIFERESSILREGKDIVCFMVRPFDVPTYLVHGVADIGFCGTDVLLEKETSLIQPFFIPTNISRMVLAGPKGRGIPEGEKRIATKFPNVTQRYCESKGWHCRIIPLKGSVELAPIAGLSDLIVDITETGRTLKENNLEILDEIFVIRTHVVVNPVSYRTKREEVVSFLEKLQEVIEHDSNE 1o6d-a2-m1-cA_1o6d-a2-m2-cA Crystal structure of a hypothetical protein Q9WZU8 Q9WZU8 1.66 X-RAY DIFFRACTION 71 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 147 147 LRVRIAVIGKLDGFIKEGIKHYEKFLRRFCKPEVLEIKRVHRGSIEEIVRKETEDLTNRILPGSFVMVMDKRGEEVSSEEFADFLKDLEMKGKDITILIGGPYGLNEEIFAKAHRVFSLSKMTFTHGMTVLIVLEQIFRAFKIIHGE LRVRIAVIGKLDGFIKEGIKHYEKFLRRFCKPEVLEIKRVHRGSIEEIVRKETEDLTNRILPGSFVMVMDKRGEEVSSEEFADFLKDLEMKGKDITILIGGPYGLNEEIFAKAHRVFSLSKMTFTHGMTVLIVLEQIFRAFKIIHGE 1o6e-a1-m1-cA_1o6e-a1-m2-cA Epstein-Barr virus protease P03234 P03234 2.3 X-RAY DIFFRACTION 56 1.0 10376 (Human gammaherpesvirus 4) 10376 (Human gammaherpesvirus 4) 225 225 APSVYVCGFVERPDAPPKDACLHLDPLTVKSQLPLKKPLPLTVEHLPDAPVGSVFGLYQSSAGLFSAASITSGDFLSLLDSIYHDCDIAQSQRLPLPREPKVEALHAWLPSLSLASLHPDIPQTTADGGKLSFFDHVSICALGRRRGTTAVYGTDLAWVLKHFSDLEPSIAAQIENDANAAKRHPLPLTKLIAKAIDAGFLRNRVETLRQDRGVANIPAESYLKA APSVYVCGFVERPDAPPKDACLHLDPLTVKSQLPLKKPLPLTVEHLPDAPVGSVFGLYQSSAGLFSAASITSGDFLSLLDSIYHDCDIAQSQRLPLPREPKVEALHAWLPSLSLASLHPDIPQTTADGGKLSFFDHVSICALGRRRGTTAVYGTDLAWVLKHFSDLEPSIAAQIENDANAAKRHPLPLTKLIAKAIDAGFLRNRVETLRQDRGVANIPAESYLKA 1o6e-a1-m2-cA_1o6e-a1-m2-cB Epstein-Barr virus protease P03234 P03234 2.3 X-RAY DIFFRACTION 92 1.0 10376 (Human gammaherpesvirus 4) 10376 (Human gammaherpesvirus 4) 225 232 1o6e-a1-m1-cA_1o6e-a1-m1-cB APSVYVCGFVERPDAPPKDACLHLDPLTVKSQLPLKKPLPLTVEHLPDAPVGSVFGLYQSSAGLFSAASITSGDFLSLLDSIYHDCDIAQSQRLPLPREPKVEALHAWLPSLSLASLHPDIPQTTADGGKLSFFDHVSICALGRRRGTTAVYGTDLAWVLKHFSDLEPSIAAQIENDANAAKRHPLPLTKLIAKAIDAGFLRNRVETLRQDRGVANIPAESYLKA APSVYVCGFVERPDAPPKDACLHLDPLTVKSQLPLKKPLPLTVEHLPDAPVGSVFGLYQSSAGLFSAASITSGDFLSLLDSIYHDCDIAQSQRLPLPREPKVEALHAWLPSLSLASLHPDIPQTTADGGKLSFFDHVSICALGRRRGTTAVYGTDLAWVLKHFSDLEPSIAAQIENDANAAKRESGCPEDHPLPLTKLIAKAIDAGFLRNRVETLRQDRGVANIPAESYLKA 1o6i-a1-m1-cA_1o6i-a1-m1-cB Chitinase B from Serratia marcescens complexed with the catalytic intermediate mimic cyclic dipeptide CI4. P11797 P11797 1.7 X-RAY DIFFRACTION 99 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 496 497 1e15-a1-m1-cA_1e15-a1-m1-cB 1e6p-a1-m1-cA_1e6p-a1-m1-cB 1e6r-a1-m1-cA_1e6r-a1-m1-cB 1goi-a1-m1-cA_1goi-a1-m1-cB 1gpf-a1-m1-cA_1gpf-a1-m1-cB 1h0g-a1-m1-cA_1h0g-a1-m1-cB 1h0g-a1-m1-cC_1h0g-a1-m1-cB 1h0g-a1-m1-cD_1h0g-a1-m1-cA 1ogb-a1-m1-cA_1ogb-a1-m1-cB 1ogg-a1-m1-cA_1ogg-a1-m1-cB 1ur8-a1-m1-cA_1ur8-a1-m1-cB 1ur9-a1-m1-cA_1ur9-a1-m1-cB 1w1t-a1-m1-cA_1w1t-a1-m1-cB 1w1v-a1-m1-cA_1w1v-a1-m1-cB 1w1y-a1-m1-cA_1w1y-a1-m1-cB 3wd0-a2-m1-cA_3wd0-a2-m2-cA 3wd1-a2-m1-cA_3wd1-a2-m2-cA 3wd2-a2-m1-cA_3wd2-a2-m2-cA 3wd3-a2-m1-cA_3wd3-a2-m2-cA 3wd4-a2-m1-cA_3wd4-a2-m2-cA 4z2g-a2-m1-cA_4z2g-a2-m2-cA 4z2h-a2-m1-cA_4z2h-a2-m2-cA 4z2i-a2-m1-cA_4z2i-a2-m2-cA 4z2j-a2-m1-cA_4z2j-a2-m2-cA 4z2k-a2-m1-cA_4z2k-a2-m2-cA 4z2l-a2-m1-cA_4z2l-a2-m2-cA 6jk9-a1-m1-cA_6jk9-a1-m1-cB 6jkf-a1-m1-cA_6jkf-a1-m1-cB 7c34-a1-m1-cA_7c34-a1-m1-cB 7c92-a1-m1-cA_7c92-a1-m2-cB 7cb1-a1-m1-cA_7cb1-a1-m1-cB TRKAVIGYYFIPTNQINNYTETDTSVVPFPVSNITPAKAKQLTHINFSFLDINSNLECAWDPATNDAKARDVVNRLTALKAHNPSLRIMFSIGGWYYSNDLGVSHANYVNAVKTPASRAKFAQSCVRIMKDYGFDGVDIDWEYPQAAEVDGFIAALQEIRTLLNQQTITDGRQALPYQLTIAGAGGAFFLSRYYSKLAQIVAPLDYINLMTYDLAGPWEKVTNHQAALFGDAAGPTFYNALREANLGWSWEELTRAFPSPFSLTVDAAVQQHLMMEGVPSAKIVMGVPFYGRAFKGVSGGNGGQYSSHSTPGEDPYPSTDYWLVGCEECVRDKDPRIASYRQLEQMLQGNYGYQRLWNDKTKTPYLYHAQNGLFVTYDDAESFKYKAKYIKQQQLGGVMFWHLGQDNRNGDLLAALDRYFNAADYDDSQLDMGTGLRYTGVGPGNLPIMTAPAYVPGTTYAQGALVSYQGYVWQTKWGYITSAPGSDSAWLKVGRV TRKAVIGYYFIPTNQINNYTETDTSVVPFPVSNITPAKAKQLTHINFSFLDINSNLECAWDPATNDAKARDVVNRLTALKAHNPSLRIMFSIGGWYYSNDLGVSHANYVNAVKTPASRAKFAQSCVRIMKDYGFDGVDIDWEYPQAAEVDGFIAALQEIRTLLNQQTITDGRQALPYQLTIAGAGGAFFLSRYYSKLAQIVAPLDYINLMTYDLAGPWEKVTNHQAALFGDAAGPTFYNALREANLGWSWEELTRAFPSPFSLTVDAAVQQHLMMEGVPSAKIVMGVPFYGRAFKGVSGGNGGQYSSHSTPGEDPYPSTDYWLVGCEECVRDKDPRIASYRQLEQMLQGNYGYQRLWNDKTKTPYLYHAQNGLFVTYDDAESFKYKAKYIKQQQLGGVMFWHLGQDNRNGDLLAALDRYFNAADYDDSQLDMGTGLRYTGVGPGNLPIMTAPAYVPGTTYAQGALVSYQGYVWQTKWGYITSAPGSDSAWLKVGRVA 1o6t-a1-m1-cA_1o6t-a1-m2-cA Internalin (INLA, Listeria monocytogenes) - functional domain, uncomplexed P0DJM0 P0DJM0 1.6 X-RAY DIFFRACTION 78 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 461 461 SATITQDTPINQIFTDTALAEKMKTVLGKTNVTDTVSQTDLDQVTTLQADRLGIKSIDGVEYLNNLTQINFSNNQLTDITPLKNLTKLVDILMNNNQIADITPLANLTNLTGLTLFNNQITDIDPLKNLTNLNRLELSSNTISDISALSGLTSLQQLSFGNQVTDLKPLANLTTLERLDISSNKVSDISVLAKLTNLESLIATNNQISDITPLGILTNLDELSLNGNQLKDIGTLASLTNLTDLDLANNQISNLAPLSGLTKLTELKLGANQISNISPLAGLTALTNLELNENQLEDISPISNLKNLTYLTLYFNNISDISPVSSLTKLQRLFFYNNKVSDVSSLANLTNINWLSAGHNQISDLTPLANLTRITQLGLNDQAWTNAPVNYKANVSIPNTVKNVTGALIAPATISDGGSYTEPDITWNLPSYTNEVSYTFSQPVTIGKGTTTFSGTVTQPLK SATITQDTPINQIFTDTALAEKMKTVLGKTNVTDTVSQTDLDQVTTLQADRLGIKSIDGVEYLNNLTQINFSNNQLTDITPLKNLTKLVDILMNNNQIADITPLANLTNLTGLTLFNNQITDIDPLKNLTNLNRLELSSNTISDISALSGLTSLQQLSFGNQVTDLKPLANLTTLERLDISSNKVSDISVLAKLTNLESLIATNNQISDITPLGILTNLDELSLNGNQLKDIGTLASLTNLTDLDLANNQISNLAPLSGLTKLTELKLGANQISNISPLAGLTALTNLELNENQLEDISPISNLKNLTYLTLYFNNISDISPVSSLTKLQRLFFYNNKVSDVSSLANLTNINWLSAGHNQISDLTPLANLTRITQLGLNDQAWTNAPVNYKANVSIPNTVKNVTGALIAPATISDGGSYTEPDITWNLPSYTNEVSYTFSQPVTIGKGTTTFSGTVTQPLK 1o75-a1-m1-cA_1o75-a1-m1-cB Tp47, the 47-Kilodalton Lipoprotein of Treponema pallidum P29723 P29723 1.95 X-RAY DIFFRACTION 129 0.997 160 (Treponema pallidum) 160 (Treponema pallidum) 399 402 ETSYGYATLSYADYWAGELGQSRDVLLADLDAGMFDAVSRATHGHGAFRQQFQYAVEVLGEKVLSKQETEDSRGRKKWEYETDPSVTKMVRASASFQDLGEDGEIKFEAVEGAVALADRASSFMVDSEEYKITNVKVHGMKFVPVAVPHELKGIAKEKFHFVEDSRVTENTNGLKTMLTEDSFSARKVSSMESPHDLVVDTVGTGYHSRFGSDAEASVMLKRADGSELSHREFIDYVMNFNTVRYDYYGDDASYTNLMASYGTKHSADSWWKTGRVPRISCGINYGFDRFKGSGPGYYRLTLIANGYRDVVADVRFLPKYEGNIDIGLKGKVLTIGGADAETLMDAAVDVFADGQPKLVSDQAVSLGQNVLSADFTPGTEYTVEVRFKEFGSVRAKVVA ETSYGYATLSYADYWAGELGQSRDVLLADRAGDLDAGMFDAVSRATHGHGAFRQQFQYAVEVLGEKVLSKQETEDSRGRKKWEYETDPSVTKMVRASASFQDLGEDGEIKFEAVEGAVALADRASSFMVDSEEYKITNVKVHGMKFVPVAVPHELKGIAKEKFHFVEDSRVTENTNGLKTMLTEDSFSARKVSSMESPHDLVVDTVGTGYHSRFGSDAEASVMLKRADGSELSHREFIDYVMNFNTVRYDYYGDDASYTNLMASYGTKHSADSWWKTGRVPRISCGINYGFDRFKGSGPGYYRLTLIANGYRDVVADVRFLPKYEGNIDIGLKGKVLTIGGADAETLMDAAVDVFADGQPKLVSDQAVSLGQNVLSADFTPGTEYTVEVRFKEFGSVRAKVV 1o77-a1-m1-cB_1o77-a1-m1-cD CRYSTAL STRUCTURE OF THE C713S MUTANT OF THE TIR DOMAIN OF HUMAN TLR2 O60603 O60603 3.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 141 1o77-a1-m1-cC_1o77-a1-m1-cA ICYDAFVSYSERDAYWVENLMVQELENFNPPFKLCLHKRDFIPGKWIIDNIIDSIEKSHKTVFVLSENFVKSEWSKYELLFAAILILLEPIEKKAIPQRFCKLRKIMNTKTYLEWPMDEAQREGFWVNLRAAIKS ICYDAFVSYSERDAYWVENLMVQELENFNPPFKLCLHKRDFIPGKWIIDNIIDSIEKSHKTVFVLSENFVKSEWSKYELDFSHFRLFAAILILLEPIEKKAIPQRFCKLRKIMNTKTYLEWPMDEAQREGFWVNLRAAIKS 1o77-a1-m1-cC_1o77-a1-m1-cD CRYSTAL STRUCTURE OF THE C713S MUTANT OF THE TIR DOMAIN OF HUMAN TLR2 O60603 O60603 3.2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 141 1o77-a1-m1-cB_1o77-a1-m1-cA ICYDAFVSYSERDAYWVENLMVQELENFNPPFKLCLHKRDFIPGKWIIDNIIDSIEKSHKTVFVLSENFVKSEWSKYELDFAAILILLEPIEKKAIPQRFCKLRKIMNTKTYLEWPMDEAQREGFWVNLRAAIKS ICYDAFVSYSERDAYWVENLMVQELENFNPPFKLCLHKRDFIPGKWIIDNIIDSIEKSHKTVFVLSENFVKSEWSKYELDFSHFRLFAAILILLEPIEKKAIPQRFCKLRKIMNTKTYLEWPMDEAQREGFWVNLRAAIKS 1o7k-a1-m1-cB_1o7k-a1-m1-cC human p47 PX domain complex with sulphates P14598 P14598 2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 1o7k-a1-m1-cB_1o7k-a1-m1-cA 1o7k-a1-m1-cC_1o7k-a1-m1-cA TFIRHIALLGFEKRFVPSQHYVYFLVKWQDLSEKVVYRRFTEIYEFHKTLKEFPIEAGAINPENRIIPHLPAPKWFDGQRAAENRQGTLTEYCSTLSLPTKISRCPHLLDFFKVRPD TFIRHIALLGFEKRFVPSQHYVYFLVKWQDLSEKVVYRRFTEIYEFHKTLKEFPIEAGAINPENRIIPHLPAPKWFDGQRAAENRQGTLTEYCSTLSLPTKISRCPHLLDFFKVRPD 1o7x-a2-m1-cD_1o7x-a2-m1-cC Citrate synthase from Sulfolobus solfataricus P80148 P80148 2.7 X-RAY DIFFRACTION 343 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 365 370 1o7x-a1-m1-cB_1o7x-a1-m1-cA VVSKGLENVIIKVTNLTFIDGEKGILRYRGYNIEDLVNYGSYEETIYLMLYGKLPTKKELNDLKAKLNEEYEVPQEVLDTIYLMPKEADAIGLLEVGTAALASIDKNFKWKENDKEKAISIIAKMATLVANVYRRKEGNKPRIPEPSDSFAKSFLLASFAREPTTDEINAMDKALILYTDHEVPASTTAALVAASTLSDMYSSLTAALAALKGPLHGGAAEEAFKQFIEIGDPNRVQNWFNDKVVNQKNRLMGFGHRVYKTYDPRAKIFKKLALTLIERNADARRYFEIAQKLEELGIKQFSSKGIYPNTDFYSGIVFYALGFPVYMFTALFALSRTLGWLAHIIEYVEEQHRLIRPRALYVGPE VVSKGLENVIIKVTNLTFIDGEKGILRYRGYNIEDLVNYGSYEETIYLMLYGKLPTKKELNDLKAKLNEEYEVPQEVLDTIYLMPKEADAIGLLEVGTAALASIDKNFKWKENDKEKAISIIAKMATLVANVYRRKEGNKPRIPEPSDSFAKSFLLASFAREPTTDEINAMDKALILYTDHEVPASTTAALVAASTLSDMYSSLTAALAALKGPLHGGAAEEAFKQFIEIGDPNRVQNWFNDKVVNQKNRLMGFGHRVYKTYDPRAKIFKKLALTLIERNADARRYFEIAQKLEELGIKQFSSKGIYPNTDFYSGIVFYALGFPVYMFTALFALSRTLGWLAHIIEYVEEQHRLIRPRALYVGPEYQEYV 1o7y-a1-m1-cB_1o7y-a1-m1-cC Crystal structure of IP-10 M-form P02778 P02778 3 X-RAY DIFFRACTION 13 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 62 63 CTCISISNQPVNPRSLEKLEIIPASQFCPRVEIIATMKKKGEKRCLNPESKAIKNLLKAVSK VRCTCISISNQPVNPRSLEKLEIIPASQFCPRVEIIATMKKKGEKRCLNPESKAIKNLLKAVS 1o7y-a1-m1-cC_1o7y-a1-m1-cA Crystal structure of IP-10 M-form P02778 P02778 3 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 67 VRCTCISISNQPVNPRSLEKLEIIPASQFCPRVEIIATMKKKGEKRCLNPESKAIKNLLKAVS LSRTVRCTCISISNQPVNPRSLEKLEIIPASQFCPRVEIIATMKKKGEKRCLNPESKAIKNLLKAVS 1o7y-a1-m1-cD_1o7y-a1-m1-cC Crystal structure of IP-10 M-form P02778 P02778 3 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 63 1o7y-a1-m1-cB_1o7y-a1-m1-cA 1o7z-a1-m1-cB_1o7z-a1-m1-cA 1o80-a1-m1-cB_1o80-a1-m1-cA RCTCISISNQPVNPRSLEKLEIIPASQFCPRVEIIATMKKKGEKRCLNPESKAIKNLLKAVS VRCTCISISNQPVNPRSLEKLEIIPASQFCPRVEIIATMKKKGEKRCLNPESKAIKNLLKAVS 1o84-a1-m1-cA_1o84-a1-m2-cB Crystal Structure of Bacteriocin AS-48. N-decyl-beta-D-maltoside Bound. Q47765 Q47765 2.8 X-RAY DIFFRACTION 28 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 70 70 1o84-a1-m1-cB_1o84-a1-m2-cA MAKEFGIPAAVAGTVLNVVEAGGWVTTIVSILTAVGSGGLSLLAAAGRESIKAYLKKEIKKKGKRAVIAW MAKEFGIPAAVAGTVLNVVEAGGWVTTIVSILTAVGSGGLSLLAAAGRESIKAYLKKEIKKKGKRAVIAW 1o84-a1-m1-cB_1o84-a1-m2-cB Crystal Structure of Bacteriocin AS-48. N-decyl-beta-D-maltoside Bound. Q47765 Q47765 2.8 X-RAY DIFFRACTION 16 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 70 70 MAKEFGIPAAVAGTVLNVVEAGGWVTTIVSILTAVGSGGLSLLAAAGRESIKAYLKKEIKKKGKRAVIAW MAKEFGIPAAVAGTVLNVVEAGGWVTTIVSILTAVGSGGLSLLAAAGRESIKAYLKKEIKKKGKRAVIAW 1o84-a1-m2-cA_1o84-a1-m2-cB Crystal Structure of Bacteriocin AS-48. N-decyl-beta-D-maltoside Bound. Q47765 Q47765 2.8 X-RAY DIFFRACTION 30 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 70 70 1o84-a1-m1-cA_1o84-a1-m1-cB MAKEFGIPAAVAGTVLNVVEAGGWVTTIVSILTAVGSGGLSLLAAAGRESIKAYLKKEIKKKGKRAVIAW MAKEFGIPAAVAGTVLNVVEAGGWVTTIVSILTAVGSGGLSLLAAAGRESIKAYLKKEIKKKGKRAVIAW 1o8b-a1-m1-cA_1o8b-a1-m1-cB Structure of Escherichia coli ribose-5-phosphate isomerase, RpiA, complexed with arabinose-5-phosphate. P0A7Z0 P0A7Z0 1.25 X-RAY DIFFRACTION 78 1.0 562 (Escherichia coli) 562 (Escherichia coli) 163 206 IVGVGTGSTEGAVSSSDAFDLNEVDSLGIYVDGADEINGHQIKGGGALTREKIIASVAEKFICIADASKQVDILGKFPLPVEVIPARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGEILDPIAENAINAIPGVVTVGLFANRGADVALIGTPDGVKTIV TQDELKKAVGWAALQYTIVGVGTGSTAAHFIDALGTKGQIEGAVSSSDASTEKLKSLGIHVFDLNEVDSLGIYVDGADEINGHQIKGGGALTREKIIASVAEKFICIADASKQVDILGKFPLPVEVIPARSAVARQLVKLGGRPEYRQGVVTDNGNVILDVHGEILDPIAENAINAIPGVVTVGLFANRGADVALIGTPDGVKTIV 1o8c-a1-m1-cA_1o8c-a1-m1-cD CRYSTAL STRUCTURE OF E. COLI K-12 YHDH WITH BOUND NADPH P26646 P26646 2.6 X-RAY DIFFRACTION 98 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 324 324 1o89-a1-m1-cA_1o89-a1-m2-cA 1o8c-a2-m1-cC_1o8c-a2-m1-cB LQALLLEQQDGKTLASVQTLDESRLPEGDVTVDVHWSSLNYKDALAITGKGKIIRNFPMIPGIDFAGTVRTSEDPRFHAGQEVLLTGWGVGENHWGGLAEQARVKGDWLVAMPQGLDARKAMIIGTAGFTAMLCVMALEDAGVRPQDGEIVVTGASGGVGSTAVALLHKLGYQVVAVSGRESTHEYLKSLGASRVLPRDEFAESRPLEKQVWAGAIDTVGDKVLAKVLAQMNYGGCVAACGLAGGFTLPTTVMPFILRNVRLQGVDSVMTPPERRAQAWQRLVADLPESFYTQAAKEISLSEAPNFAEAIINNQIQGRTLVKVN LQALLLEQQDGKTLASVQTLDESRLPEGDVTVDVHWSSLNYKDALAITGKGKIIRNFPMIPGIDFAGTVRTSEDPRFHAGQEVLLTGWGVGENHWGGLAEQARVKGDWLVAMPQGLDARKAMIIGTAGFTAMLCVMALEDAGVRPQDGEIVVTGASGGVGSTAVALLHKLGYQVVAVSGRESTHEYLKSLGASRVLPRDEFAESRPLEKQVWAGAIDTVGDKVLAKVLAQMNYGGCVAACGLAGGFTLPTTVMPFILRNVRLQGVDSVMTPPERRAQAWQRLVADLPESFYTQAAKEISLSEAPNFAEAIINNQIQGRTLVKVN 1o91-a1-m1-cB_1o91-a1-m1-cC Crystal Structure of a Collagen VIII NC1 Domain Trimer Q00780 Q00780 1.9 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 1o91-a1-m1-cA_1o91-a1-m1-cB 1o91-a1-m1-cA_1o91-a1-m1-cC EMPAFTAELTVPFPPVGAPVKFDKLLYNGRQNYNPQTGIFTCEVPGVYYFAYHVHCKGGNVWVALFKNNEPMMYTYDEYKKGFLDQASGSAVLLLRPGDQVFLQMPSEQAAGLYAGQYVHSSFSGYLLYPM EMPAFTAELTVPFPPVGAPVKFDKLLYNGRQNYNPQTGIFTCEVPGVYYFAYHVHCKGGNVWVALFKNNEPMMYTYDEYKKGFLDQASGSAVLLLRPGDQVFLQMPSEQAAGLYAGQYVHSSFSGYLLYPM 1o94-a1-m1-cA_1o94-a1-m1-cB Ternary complex between trimethylamine dehydrogenase and electron transferring flavoprotein P16099 P16099 2 X-RAY DIFFRACTION 370 1.0 17 (Methylophilus methylotrophus) 17 (Methylophilus methylotrophus) 729 729 1djn-a1-m1-cA_1djn-a1-m1-cB 1djq-a1-m1-cA_1djq-a1-m1-cB 1o95-a1-m1-cA_1o95-a1-m1-cB 2tmd-a1-m1-cA_2tmd-a1-m1-cB ARDPKHDILFEPIQIGPKTLRNRFYQVPHCIGAGSDKPGFQSAHRSVKAEGGWAALNTEYCSINPESDDTHRLSARIWDEGDVRNLKAMTDEVHKYGALAGVELWYGGAHAPNMESRATPRGPSQYASEFETLSYCKEMDLSDIAQVQQFYVDAAKRSRDAGFDIVYVYGAHSYLPLQFLNPYYNKRTDKYGGSLENRARFWLETLEKVKHAVGSDCAIATRFGVDTVYGPGQIEAEVDGQKFVEMADSLVDMWDITIGDIAEWGEDAGPSRFYQQGHTIPWVKLVKQVSKKPVLGVGRYTDPEKMIEIVTKGYADIIGCARPSIADPFLPQKVEQGRYDDIRVCIGCNVCISRWEIGGPPMICTQNATAGEEYRRGWHPEKFRQTKNKDSVLIVGAGPSGSEAARVLMESGYTVHLTDTAEKIGGHLNQVAALPGLGEWSYHRDYRETQITKLLKKNKESQLALGQKPMTADDVLQYGADKVIIATGARWNTDGTNCLTHDPIPGADASLPDQLTPEQVMDGKKKIGKRVVILNADTYFMAPSLAEKLATAGHEVTIVSGVHLANYMHFTLEYPNMMRRLHELHVEELGDHFCSRIEPGRMEIYNIWGDGSKRTYRGPGVSPRDANTSHRWIEFDSLVLVTGRHSECTLWNELKARESEWAENDIKGIYLIGDAEAPRLIADATFTGHRVAREIEEANPQIAIPYKRETIAWGTPHMPGGNFKIEYKV ARDPKHDILFEPIQIGPKTLRNRFYQVPHCIGAGSDKPGFQSAHRSVKAEGGWAALNTEYCSINPESDDTHRLSARIWDEGDVRNLKAMTDEVHKYGALAGVELWYGGAHAPNMESRATPRGPSQYASEFETLSYCKEMDLSDIAQVQQFYVDAAKRSRDAGFDIVYVYGAHSYLPLQFLNPYYNKRTDKYGGSLENRARFWLETLEKVKHAVGSDCAIATRFGVDTVYGPGQIEAEVDGQKFVEMADSLVDMWDITIGDIAEWGEDAGPSRFYQQGHTIPWVKLVKQVSKKPVLGVGRYTDPEKMIEIVTKGYADIIGCARPSIADPFLPQKVEQGRYDDIRVCIGCNVCISRWEIGGPPMICTQNATAGEEYRRGWHPEKFRQTKNKDSVLIVGAGPSGSEAARVLMESGYTVHLTDTAEKIGGHLNQVAALPGLGEWSYHRDYRETQITKLLKKNKESQLALGQKPMTADDVLQYGADKVIIATGARWNTDGTNCLTHDPIPGADASLPDQLTPEQVMDGKKKIGKRVVILNADTYFMAPSLAEKLATAGHEVTIVSGVHLANYMHFTLEYPNMMRRLHELHVEELGDHFCSRIEPGRMEIYNIWGDGSKRTYRGPGVSPRDANTSHRWIEFDSLVLVTGRHSECTLWNELKARESEWAENDIKGIYLIGDAEAPRLIADATFTGHRVAREIEEANPQIAIPYKRETIAWGTPHMPGGNFKIEYKV 1o9j-a1-m1-cA_1o9j-a1-m1-cD The X-ray crystal structure of eta-crystallin Q28399 Q28399 2.4 X-RAY DIFFRACTION 95 1.0 28737 (Elephantulus edwardii) 28737 (Elephantulus edwardii) 494 494 1o9j-a1-m1-cB_1o9j-a1-m1-cC DLPAPLTNIKIQHTKLFINNEWHESVSGKTFPVFNPATEEKICEVEEADKEDVDKAVKAAREAFQMGSPWRTMDASERGQLIYKLADLIERDRLLLATLESINAGKVFASAYLMDLDYCIKALRYCAGWADKIQGRTIPVDGEFFSYTRHEPIGVCGLIFPWNAPMILLACKIGPALCCGNTVIVKPAEQTPLTALHVASLIKEAGFPPGVVNIVPGYGPTAGAAISSHMDVDKVAFTGSTEVGKMIQEAAAKSNLKRVTLELGAKNPCIVFADADLDSAVEFAHQGVFTNQGQSCIAASKLFVEEAIYDEFVQRSVERAKKYVFGNPLTPGVNHGPQINKAQHNKIMELIESGKKEGAKLECGGGPWGNKGYFIQPTVFSNVTDDMRIAKEEIFGPVQQIMKFKSLDEVIKRANNTYYGLVAGVFTKDLDKAVTVSSALQAGTVWVNCYLAASAQSPAGGFKMSGHGREMGEYGIHEYTEVKTVTMKISEKNS DLPAPLTNIKIQHTKLFINNEWHESVSGKTFPVFNPATEEKICEVEEADKEDVDKAVKAAREAFQMGSPWRTMDASERGQLIYKLADLIERDRLLLATLESINAGKVFASAYLMDLDYCIKALRYCAGWADKIQGRTIPVDGEFFSYTRHEPIGVCGLIFPWNAPMILLACKIGPALCCGNTVIVKPAEQTPLTALHVASLIKEAGFPPGVVNIVPGYGPTAGAAISSHMDVDKVAFTGSTEVGKMIQEAAAKSNLKRVTLELGAKNPCIVFADADLDSAVEFAHQGVFTNQGQSCIAASKLFVEEAIYDEFVQRSVERAKKYVFGNPLTPGVNHGPQINKAQHNKIMELIESGKKEGAKLECGGGPWGNKGYFIQPTVFSNVTDDMRIAKEEIFGPVQQIMKFKSLDEVIKRANNTYYGLVAGVFTKDLDKAVTVSSALQAGTVWVNCYLAASAQSPAGGFKMSGHGREMGEYGIHEYTEVKTVTMKISEKNS 1o9j-a1-m1-cB_1o9j-a1-m1-cD The X-ray crystal structure of eta-crystallin Q28399 Q28399 2.4 X-RAY DIFFRACTION 57 1.0 28737 (Elephantulus edwardii) 28737 (Elephantulus edwardii) 494 494 1o9j-a1-m1-cA_1o9j-a1-m1-cC DLPAPLTNIKIQHTKLFINNEWHESVSGKTFPVFNPATEEKICEVEEADKEDVDKAVKAAREAFQMGSPWRTMDASERGQLIYKLADLIERDRLLLATLESINAGKVFASAYLMDLDYCIKALRYCAGWADKIQGRTIPVDGEFFSYTRHEPIGVCGLIFPWNAPMILLACKIGPALCCGNTVIVKPAEQTPLTALHVASLIKEAGFPPGVVNIVPGYGPTAGAAISSHMDVDKVAFTGSTEVGKMIQEAAAKSNLKRVTLELGAKNPCIVFADADLDSAVEFAHQGVFTNQGQSCIAASKLFVEEAIYDEFVQRSVERAKKYVFGNPLTPGVNHGPQINKAQHNKIMELIESGKKEGAKLECGGGPWGNKGYFIQPTVFSNVTDDMRIAKEEIFGPVQQIMKFKSLDEVIKRANNTYYGLVAGVFTKDLDKAVTVSSALQAGTVWVNCYLAASAQSPAGGFKMSGHGREMGEYGIHEYTEVKTVTMKISEKNS DLPAPLTNIKIQHTKLFINNEWHESVSGKTFPVFNPATEEKICEVEEADKEDVDKAVKAAREAFQMGSPWRTMDASERGQLIYKLADLIERDRLLLATLESINAGKVFASAYLMDLDYCIKALRYCAGWADKIQGRTIPVDGEFFSYTRHEPIGVCGLIFPWNAPMILLACKIGPALCCGNTVIVKPAEQTPLTALHVASLIKEAGFPPGVVNIVPGYGPTAGAAISSHMDVDKVAFTGSTEVGKMIQEAAAKSNLKRVTLELGAKNPCIVFADADLDSAVEFAHQGVFTNQGQSCIAASKLFVEEAIYDEFVQRSVERAKKYVFGNPLTPGVNHGPQINKAQHNKIMELIESGKKEGAKLECGGGPWGNKGYFIQPTVFSNVTDDMRIAKEEIFGPVQQIMKFKSLDEVIKRANNTYYGLVAGVFTKDLDKAVTVSSALQAGTVWVNCYLAASAQSPAGGFKMSGHGREMGEYGIHEYTEVKTVTMKISEKNS 1o9j-a1-m1-cC_1o9j-a1-m1-cD The X-ray crystal structure of eta-crystallin Q28399 Q28399 2.4 X-RAY DIFFRACTION 176 1.0 28737 (Elephantulus edwardii) 28737 (Elephantulus edwardii) 494 494 1o9j-a1-m1-cA_1o9j-a1-m1-cB DLPAPLTNIKIQHTKLFINNEWHESVSGKTFPVFNPATEEKICEVEEADKEDVDKAVKAAREAFQMGSPWRTMDASERGQLIYKLADLIERDRLLLATLESINAGKVFASAYLMDLDYCIKALRYCAGWADKIQGRTIPVDGEFFSYTRHEPIGVCGLIFPWNAPMILLACKIGPALCCGNTVIVKPAEQTPLTALHVASLIKEAGFPPGVVNIVPGYGPTAGAAISSHMDVDKVAFTGSTEVGKMIQEAAAKSNLKRVTLELGAKNPCIVFADADLDSAVEFAHQGVFTNQGQSCIAASKLFVEEAIYDEFVQRSVERAKKYVFGNPLTPGVNHGPQINKAQHNKIMELIESGKKEGAKLECGGGPWGNKGYFIQPTVFSNVTDDMRIAKEEIFGPVQQIMKFKSLDEVIKRANNTYYGLVAGVFTKDLDKAVTVSSALQAGTVWVNCYLAASAQSPAGGFKMSGHGREMGEYGIHEYTEVKTVTMKISEKNS DLPAPLTNIKIQHTKLFINNEWHESVSGKTFPVFNPATEEKICEVEEADKEDVDKAVKAAREAFQMGSPWRTMDASERGQLIYKLADLIERDRLLLATLESINAGKVFASAYLMDLDYCIKALRYCAGWADKIQGRTIPVDGEFFSYTRHEPIGVCGLIFPWNAPMILLACKIGPALCCGNTVIVKPAEQTPLTALHVASLIKEAGFPPGVVNIVPGYGPTAGAAISSHMDVDKVAFTGSTEVGKMIQEAAAKSNLKRVTLELGAKNPCIVFADADLDSAVEFAHQGVFTNQGQSCIAASKLFVEEAIYDEFVQRSVERAKKYVFGNPLTPGVNHGPQINKAQHNKIMELIESGKKEGAKLECGGGPWGNKGYFIQPTVFSNVTDDMRIAKEEIFGPVQQIMKFKSLDEVIKRANNTYYGLVAGVFTKDLDKAVTVSSALQAGTVWVNCYLAASAQSPAGGFKMSGHGREMGEYGIHEYTEVKTVTMKISEKNS 1o9y-a1-m1-cA_1o9y-a1-m1-cB Crystal structure of the C-terminal domain of the HrcQb protein from Pseudomonas syringae pv. phaseolicola O85094 O85094 2.29 X-RAY DIFFRACTION 21 1.0 317 (Pseudomonas syringae) 317 (Pseudomonas syringae) 71 71 ALDSLALDLTLRCGELRLTLAELRRLDAGTILEVTGISPGHATLCHGEQVVAEGELVDVEGRLGLQITRLV ALDSLALDLTLRCGELRLTLAELRRLDAGTILEVTGISPGHATLCHGEQVVAEGELVDVEGRLGLQITRLV 1o9y-a1-m1-cA_1o9y-a1-m1-cD Crystal structure of the C-terminal domain of the HrcQb protein from Pseudomonas syringae pv. phaseolicola O85094 O85094 2.29 X-RAY DIFFRACTION 175 1.0 317 (Pseudomonas syringae) 317 (Pseudomonas syringae) 71 72 1o9y-a1-m1-cB_1o9y-a1-m1-cC ALDSLALDLTLRCGELRLTLAELRRLDAGTILEVTGISPGHATLCHGEQVVAEGELVDVEGRLGLQITRLV ALDSLALDLTLRCGELRLTLAELRRLDAGTILEVTGISPGHATLCHGEQVVAEGELVDVEGRLGLQITRLVT 1oaa-a1-m1-cA_1oaa-a1-m2-cA MOUSE SEPIAPTERIN REDUCTASE COMPLEXED WITH NADP AND OXALOACETATE Q64105 Q64105 1.25 X-RAY DIFFRACTION 152 1.0 10090 (Mus musculus) 10090 (Mus musculus) 259 259 1nas-a1-m1-cA_1nas-a1-m2-cA 1sep-a1-m1-cA_1sep-a1-m2-cA ADGLGCAVCVLTGASRGFGRALAPQLARLLSPGSVMLVSARSESMLRQLKEELGAQQPDLKVVLAAADLGTEAGVQRLLSAVRELPRPEGLQRLLLINNAATLGDVSKGFLNVNDLAEVNNYWALNLTSMLCLTSGTLNAFQDSPGLSKTVVNISSLCALQPYKGWGLYCAGKAARDMLYQVLAAEEPSVRVLSYAPGPLDNDMQQLARETSKDPELRSKLQKLKSDGALVDCGTSAQKLLGLLQKDTFQSGAHVDFYD ADGLGCAVCVLTGASRGFGRALAPQLARLLSPGSVMLVSARSESMLRQLKEELGAQQPDLKVVLAAADLGTEAGVQRLLSAVRELPRPEGLQRLLLINNAATLGDVSKGFLNVNDLAEVNNYWALNLTSMLCLTSGTLNAFQDSPGLSKTVVNISSLCALQPYKGWGLYCAGKAARDMLYQVLAAEEPSVRVLSYAPGPLDNDMQQLARETSKDPELRSKLQKLKSDGALVDCGTSAQKLLGLLQKDTFQSGAHVDFYD 1oah-a1-m1-cA_1oah-a1-m1-cB Cytochrome c Nitrite Reductase from Desulfovibrio desulfuricans ATCC 27774: The relevance of the two calcium sites in the structure of the catalytic subunit (NrfA). Q8VNU2 Q8VNU2 2.3 X-RAY DIFFRACTION 74 1.0 876 (Desulfovibrio desulfuricans) 876 (Desulfovibrio desulfuricans) 475 482 TGIAETETKMSAFKGQFPQQYASYMKNNEDRIMTDYKGSVPYHKNDNVNPLPKGFKHAQPYLKNLWLGYPFMYEYNETRGHTYAIDDFLNIDRINRFAADGKGNLPATCWNCKTPKMMEWVSQYGDKFWSMDVNEFRAKDKINAHDETIGCANCHDPATMELRLYSEPLKDWLKRSGKDWQKMSRNEKRTLVCAQCHVEYYFTHKDNGPAAKPVFPWDNGFNPEDMYQYYKGHGAKGPDGKPGPFVDWVHAASKVPMIKMQHPEYETFQDGPHGAAGVSCADCHMQYISSHWMTSPMKDPEMRACRQCHADKTGEYLRQRVLYTQQKTFDQLLKAQEMSVKAHEAVRLANAYEGHRAANYEALMAEAREMVRKGQLFWDYVSAENSVGFHNPAKALDTLMTSMECSQKAVDLATEATDFGIAPALAGDIKKLVPPILTLSRKLQQDPEFLKQNPWTRLLPALPKAEQVWEGQDRA TGIAETETKMSAFKGQFPQQYASYMKNNEDRIMTDYKGSVPYHKNDNVNPLPKGFKHAQPYLKNLWLGYPFMYEYNETRGHTYAIDDFLNIDRINRFAADGKGNLPATCWNCKTPKMMEWVSQYGDKFWSMDVNEFRAKDKINAHDETIGCANCHDPATMELRLYSEPLKDWLKRSGKDWQKMSRNEKRTLVCAQCHVEYYFTHKDNGPAAKPVFPWDNGFNPEDMYQYYKGHGAKGPDGKPGPFVDWVHAASKVPMIKMQHPEYETFQDGPHGAAGVSCADCHMQYVREDGKKISSHWMTSPMKDPEMRACRQCHADKTGEYLRQRVLYTQQKTFDQLLKAQEMSVKAHEAVRLANAYEGHRAANYEALMAEAREMVRKGQLFWDYVSAENSVGFHNPAKALDTLMTSMECSQKAVDLATEATDFGIAPALAGDIKKLVPPILTLSRKLQQDPEFLKQNPWTRLLPALPKAEQVWEGQDRA 1oal-a1-m1-cA_1oal-a1-m2-cA Active site copper and zinc ions modulate the quaternary structure of prokaryotic Cu,Zn superoxide dismutase P00446 P00446 1.5 X-RAY DIFFRACTION 57 1.0 658 (Photobacterium leiognathi subsp. leiognathi) 658 (Photobacterium leiognathi subsp. leiognathi) 151 151 1ib5-a1-m1-cA_1ib5-a1-m2-cA 1ibb-a1-m1-cA_1ibb-a1-m2-cA 1ibd-a1-m1-cA_1ibd-a1-m2-cA 1ibf-a1-m1-cA_1ibf-a1-m2-cA 1ibh-a1-m1-cA_1ibh-a1-m2-cA 1oaj-a1-m1-cA_1oaj-a1-m2-cA 1yai-a1-m1-cA_1yai-a1-m2-cA QDLTVKMTDLQTGKPVGTIELSQNKYGVVFIPELADLTPGEHGFHIHQNGSCASSEKDGKVVLGGAAGGHYDPEHTNKHGFPWTDDNHKGDLPALFVSANGLATNPVLAPRLTLKELKGHAIMIHAGGDNHSDMPKALGGGGARVACGVIQ QDLTVKMTDLQTGKPVGTIELSQNKYGVVFIPELADLTPGEHGFHIHQNGSCASSEKDGKVVLGGAAGGHYDPEHTNKHGFPWTDDNHKGDLPALFVSANGLATNPVLAPRLTLKELKGHAIMIHAGGDNHSDMPKALGGGGARVACGVIQ 1oas-a1-m1-cA_1oas-a1-m1-cB O-ACETYLSERINE SULFHYDRYLASE FROM SALMONELLA TYPHIMURIUM P0A1E3 P0A1E3 2.2 X-RAY DIFFRACTION 162 1.0 315 315 1d6s-a1-m1-cA_1d6s-a1-m1-cB 1fcj-a1-m1-cA_1fcj-a1-m1-cC 1fcj-a2-m1-cD_1fcj-a2-m1-cB 5j43-a1-m1-cA_5j43-a1-m1-cE 5j5v-a3-m1-cA_5j5v-a3-m1-cD 6z4n-a1-m1-cBBB_6z4n-a1-m1-cAAA SKIYEDNSLTIGHTPLVRLNRIGNGRILAKVESRNPSFSVKCRIGANMIWDAEKRGVLKPGVELVEPTNGNTGIALAYVAAARGYKLTLTMPETMSIERRKLLKALGANLVLTEGAKGMKGAIQKAEEIVASDPQKYLLLQQFSNPANPEIHEKTTGPEIWEDTDGQVDVFISGVGTGGTLTGVTRYIKGTKGKTDLITVAVEPTDSPVIAQALAGEEIKPGPHKIQGIGAGFIPGNLDLKLIDKVVGITNEEAISTARRLMEEEGILAGISSGAAVAAALKLQEDESFTNKNIVVILPSSGERYLSTALFADLF SKIYEDNSLTIGHTPLVRLNRIGNGRILAKVESRNPSFSVKCRIGANMIWDAEKRGVLKPGVELVEPTNGNTGIALAYVAAARGYKLTLTMPETMSIERRKLLKALGANLVLTEGAKGMKGAIQKAEEIVASDPQKYLLLQQFSNPANPEIHEKTTGPEIWEDTDGQVDVFISGVGTGGTLTGVTRYIKGTKGKTDLITVAVEPTDSPVIAQALAGEEIKPGPHKIQGIGAGFIPGNLDLKLIDKVVGITNEEAISTARRLMEEEGILAGISSGAAVAAALKLQEDESFTNKNIVVILPSSGERYLSTALFADLF 1ob9-a1-m1-cA_1ob9-a1-m2-cA Holliday Junction Resolving Enzyme Q97YX6 Q97YX6 2 X-RAY DIFFRACTION 55 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 124 124 GKNAERELVSILRGEGFNAVRIPTSNSSPNPLPDIFATKGNTLLSIECKSTWENKVKVKEHQVRKLLDFLSMFTMKGVPLIAIKFKQVHEWRVLVPEKAEDIIVTIDNSIPIEDLFKILEKRIE GKNAERELVSILRGEGFNAVRIPTSNSSPNPLPDIFATKGNTLLSIECKSTWENKVKVKEHQVRKLLDFLSMFTMKGVPLIAIKFKQVHEWRVLVPEKAEDIIVTIDNSIPIEDLFKILEKRIE 1obb-a1-m1-cB_1obb-a1-m1-cA alpha-glucosidase A, AglA, from Thermotoga maritima in complex with maltose and NAD+ O33830 O33830 1.9 X-RAY DIFFRACTION 46 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 475 477 VKIGIIGAGSAVFSLRLVSDLCKTPGLSGSTVTLMDIDEERLDAILTIAKKYVEEVGADLKFEKTMNLDDVIIDADFVINTAMVGGHTYLEKVRQIGEKYGYYRGIDAQEFNMVSDYYTFSNYNQLKYFVDIARKIEKLSPKAWYLQAANPIFEGTTLVTRTVPIKAVGFHGHYGVMEIVEKLGLEEEKVDWQVAGVNHGIWLNRFRYNGGNAYPLLDKWIEEKSKDWKPENPFNDQLSPAAIDMYRFYGVMPIGDTVRNSSWRYHRDLETKKKWYGEPWGGADSEIGWKWYQDTLGKVTEITKKVAKFIKENPSVRLSDLGSVLGKDLSEKQFVLEVEKILDPERKSGEQHIPFIDALLNDNKARFVVNIPNKGIIHGIDDDVVVEVPALVDKNGIHPEKIEPPLPDRVVKYYLRPRIMRMEMALEAFLTGDIRIIKELLYRDPRTKSDEQVEKVIEEILALPENEEMRKHYLK PSVKIGIIGAGSAVFSLRLVSDLCKTPGLSGSTVTLMDIDEERLDAILTIAKKYVEEVGADLKFEKTMNLDDVIIDADFVINTAMVGGHTYLEKVRQIGEKYGYYRGIDAQEFNMVSDYYTFSNYNQLKYFVDIARKIEKLSPKAWYLQAANPIFEGTTLVTRTVPIKAVGFHGHYGVMEIVEKLGLEEEKVDWQVAGVNHGIWLNRFRYNGGNAYPLLDKWIEEKSKDWKPENPFNDQLSPAAIDMYRFYGVMPIGDTVRNSSWRYHRDLETKKKWYGEPWGGADSEIGWKWYQDTLGKVTEITKKVAKFIKENPSVRLSDLGSVLGKDLSEKQFVLEVEKILDPERKSGEQHIPFIDALLNDNKARFVVNIPNKGIIHGIDDDVVVEVPALVDKNGIHPEKIEPPLPDRVVKYYLRPRIMRMEMALEAFLTGDIRIIKELLYRDPRTKSDEQVEKVIEEILALPENEEMRKHYLK 1obf-a1-m1-cO_1obf-a1-m2-cP The crystal structure of Glyceraldehyde 3-phosphate Dehydrogenase from Alcaligenes xylosoxidans at 1.7A resolution. P83696 P83696 1.7 X-RAY DIFFRACTION 11 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 334 334 1obf-a1-m1-cP_1obf-a1-m2-cO TIRVAINGYGRIGRNILRAHYEGGKSHDIEIVAINDLGDPKTNAHLTRYDTAHGKFPGTVSVNGSYMVVNGDKIRVDANRNPAQLPWGALKVDVVLECTGFFTTKEKAGAHIKGGAKKVIISAPGGADVDATVVYGVNHGTLKSTDTVISNASTTNCLAPLVKPLNDKLGLQDGLMTTVHAYTNNQVLTDVYHEDLRRARSATMSMIPTKTGAAAAVGDVLPELDGKLNGYAIRVPTINVSIVDLSFVAKRNTTVEEVNGILKAASEGELKGILDYNTEPLVSVDYNHDPASSTVDASLTKVSGRLVKVSSWYDNEWGFSNRMLDTTVALMSAA TIRVAINGYGRIGRNILRAHYEGGKSHDIEIVAINDLGDPKTNAHLTRYDTAHGKFPGTVSVNGSYMVVNGDKIRVDANRNPAQLPWGALKVDVVLECTGFFTTKEKAGAHIKGGAKKVIISAPGGADVDATVVYGVNHGTLKSTDTVISNASTTNCLAPLVKPLNDKLGLQDGLMTTVHAYTNNQVLTDVYHEDLRRARSATMSMIPTKTGAAAAVGDVLPELDGKLNGYAIRVPTINVSIVDLSFVAKRNTTVEEVNGILKAASEGELKGILDYNTEPLVSVDYNHDPASSTVDASLTKVSGRLVKVSSWYDNEWGFSNRMLDTTVALMSAA 1obf-a1-m1-cP_1obf-a1-m2-cP The crystal structure of Glyceraldehyde 3-phosphate Dehydrogenase from Alcaligenes xylosoxidans at 1.7A resolution. P83696 P83696 1.7 X-RAY DIFFRACTION 96 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 334 334 1obf-a1-m1-cO_1obf-a1-m2-cO TIRVAINGYGRIGRNILRAHYEGGKSHDIEIVAINDLGDPKTNAHLTRYDTAHGKFPGTVSVNGSYMVVNGDKIRVDANRNPAQLPWGALKVDVVLECTGFFTTKEKAGAHIKGGAKKVIISAPGGADVDATVVYGVNHGTLKSTDTVISNASTTNCLAPLVKPLNDKLGLQDGLMTTVHAYTNNQVLTDVYHEDLRRARSATMSMIPTKTGAAAAVGDVLPELDGKLNGYAIRVPTINVSIVDLSFVAKRNTTVEEVNGILKAASEGELKGILDYNTEPLVSVDYNHDPASSTVDASLTKVSGRLVKVSSWYDNEWGFSNRMLDTTVALMSAA TIRVAINGYGRIGRNILRAHYEGGKSHDIEIVAINDLGDPKTNAHLTRYDTAHGKFPGTVSVNGSYMVVNGDKIRVDANRNPAQLPWGALKVDVVLECTGFFTTKEKAGAHIKGGAKKVIISAPGGADVDATVVYGVNHGTLKSTDTVISNASTTNCLAPLVKPLNDKLGLQDGLMTTVHAYTNNQVLTDVYHEDLRRARSATMSMIPTKTGAAAAVGDVLPELDGKLNGYAIRVPTINVSIVDLSFVAKRNTTVEEVNGILKAASEGELKGILDYNTEPLVSVDYNHDPASSTVDASLTKVSGRLVKVSSWYDNEWGFSNRMLDTTVALMSAA 1obf-a1-m2-cO_1obf-a1-m2-cP The crystal structure of Glyceraldehyde 3-phosphate Dehydrogenase from Alcaligenes xylosoxidans at 1.7A resolution. P83696 P83696 1.7 X-RAY DIFFRACTION 132 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 334 334 1obf-a1-m1-cO_1obf-a1-m1-cP TIRVAINGYGRIGRNILRAHYEGGKSHDIEIVAINDLGDPKTNAHLTRYDTAHGKFPGTVSVNGSYMVVNGDKIRVDANRNPAQLPWGALKVDVVLECTGFFTTKEKAGAHIKGGAKKVIISAPGGADVDATVVYGVNHGTLKSTDTVISNASTTNCLAPLVKPLNDKLGLQDGLMTTVHAYTNNQVLTDVYHEDLRRARSATMSMIPTKTGAAAAVGDVLPELDGKLNGYAIRVPTINVSIVDLSFVAKRNTTVEEVNGILKAASEGELKGILDYNTEPLVSVDYNHDPASSTVDASLTKVSGRLVKVSSWYDNEWGFSNRMLDTTVALMSAA TIRVAINGYGRIGRNILRAHYEGGKSHDIEIVAINDLGDPKTNAHLTRYDTAHGKFPGTVSVNGSYMVVNGDKIRVDANRNPAQLPWGALKVDVVLECTGFFTTKEKAGAHIKGGAKKVIISAPGGADVDATVVYGVNHGTLKSTDTVISNASTTNCLAPLVKPLNDKLGLQDGLMTTVHAYTNNQVLTDVYHEDLRRARSATMSMIPTKTGAAAAVGDVLPELDGKLNGYAIRVPTINVSIVDLSFVAKRNTTVEEVNGILKAASEGELKGILDYNTEPLVSVDYNHDPASSTVDASLTKVSGRLVKVSSWYDNEWGFSNRMLDTTVALMSAA 1oc2-a1-m1-cA_1oc2-a1-m1-cB The structure of NADH in the dTDP-D-glucose dehydratase (RmlB) enzyme Q8GIP9 Q8GIP9 1.5 X-RAY DIFFRACTION 88 0.997 1307 (Streptococcus suis) 1307 (Streptococcus suis) 346 346 1kep-a1-m1-cA_1kep-a1-m1-cB 1ker-a1-m1-cA_1ker-a1-m1-cB 1ket-a1-m1-cA_1ket-a1-m1-cB QFKNIIVTGGAGFIGSNFVHYVYNNHPDVHVTVLDKLTYAGNKANLEAILGDRVELVVGDIADAELVDKLAAKADAIVHYAAESHNDNSLNDPSPFIHTNFIGTYTLLEAARKYDIRFHHVSTDEVYGDLPLREDLPGHGEGPGEKFTAETNYNPSSPYSSTKAASDLIVKAWVRSFGVKATISNCSNNYGPYQHIEKFIPRQITNILAGIKPKLYGEGKNVRDWIHTNDHSTGVWAILTKGRMGETYLIGADGEKNNKEVLELILEKMGQPKDAYDHVTDRAGHDLRYAIDASKLRDELGWTPQFTDFSEGLEETIQWYTDNQDWWKAEKEAVEANYAKTQEVIK SQFKNIIVTGGAGFIGSNFVHYVYNNHPDVHVTVLDKLTYAGNKANLEAILGDRVELVVGDIADAELVDKLAAKADAIVHYAAESHNDNSLNDPSPFIHTNFIGTYTLLEAARKYDIRFHHVSTDEVYGDLPLREDLPGHGEGPGEKFTAETNYNPSSPYSSTKAASDLIVKAWVRSFGVKATISNCSNNYGPYQHIEKFIPRQITNILAGIKPKLYGEGKNVRDWIHTNDHSTGVWAILTKGRMGETYLIGADGEKNNKEVLELILEKMGQPKDAYDHVTDRAGHDLRYAIDASKLRDELGWTPQFTDFSEGLEETIQWYTDNQDWWKAEKEAVEANYAKTQEVI 1oc9-a1-m1-cB_1oc9-a1-m1-cA TRYPAREDOXIN II FROM C.FASCICULATA solved by MR O77093 O77093 2.35 X-RAY DIFFRACTION 49 0.993 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 147 150 1o6j-a1-m1-cB_1o6j-a1-m1-cA HMSGLKKFFPYSTNVLKGAAADIALPSLAGKTVFFYFSASWCPPCRAFTPQLIDFYKAHAEKKNFEVMLISWDESAEDFKDYYAKMPWLALPFEDRKGMEFLTTGFDVKSIPTLVGVEADSGNIITTQARTMVVKDPEAKDFPWPNV HMSGLKKFFPYSTNVLKGAAADIALPSLAGKTVFFYFSASWCPPCRAFTPQLIDFYKAHAESKNFEVMLISWDESAEDFKDYYAKMPWLALPFEDRKGMEFLTTGFDVKSIPTLVGVEADSGNIITTQARTMVVKDPEAKDFPWPNVEAK 1oe1-a1-m2-cA_1oe1-a1-m3-cA Atomic Resolution Structure of the Wildtype Native Nitrite Reductase from Alcaligenes xylosoxidans O68601 O68601 1.04 X-RAY DIFFRACTION 176 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 335 335 1bq5-a1-m1-cA_1bq5-a1-m2-cA 1bq5-a1-m1-cA_1bq5-a1-m3-cA 1bq5-a1-m2-cA_1bq5-a1-m3-cA 1gs6-a1-m1-cX_1gs6-a1-m2-cX 1gs6-a1-m1-cX_1gs6-a1-m3-cX 1gs6-a1-m2-cX_1gs6-a1-m3-cX 1gs7-a1-m1-cA_1gs7-a1-m2-cA 1gs7-a1-m1-cA_1gs7-a1-m3-cA 1gs7-a1-m2-cA_1gs7-a1-m3-cA 1gs8-a1-m1-cA_1gs8-a1-m2-cA 1gs8-a1-m1-cA_1gs8-a1-m3-cA 1gs8-a1-m2-cA_1gs8-a1-m3-cA 1hau-a1-m1-cA_1hau-a1-m2-cA 1hau-a1-m1-cA_1hau-a1-m3-cA 1hau-a1-m2-cA_1hau-a1-m3-cA 1haw-a1-m1-cA_1haw-a1-m2-cA 1haw-a1-m1-cA_1haw-a1-m3-cA 1haw-a1-m2-cA_1haw-a1-m3-cA 1ndt-a1-m1-cA_1ndt-a1-m2-cA 1ndt-a1-m1-cA_1ndt-a1-m3-cA 1ndt-a1-m2-cA_1ndt-a1-m3-cA 1oe1-a1-m1-cA_1oe1-a1-m2-cA 1oe1-a1-m1-cA_1oe1-a1-m3-cA 1oe2-a1-m1-cA_1oe2-a1-m2-cA 1oe2-a1-m1-cA_1oe2-a1-m3-cA 1oe2-a1-m2-cA_1oe2-a1-m3-cA 1oe3-a1-m1-cA_1oe3-a1-m2-cA 1oe3-a1-m1-cA_1oe3-a1-m3-cA 1oe3-a1-m2-cA_1oe3-a1-m3-cA 1wa0-a1-m1-cX_1wa0-a1-m2-cX 1wa0-a1-m1-cX_1wa0-a1-m3-cX 1wa0-a1-m2-cX_1wa0-a1-m3-cX 1wa1-a1-m1-cX_1wa1-a1-m2-cX 1wa1-a1-m1-cX_1wa1-a1-m3-cX 1wa1-a1-m2-cX_1wa1-a1-m3-cX 1wa2-a1-m1-cX_1wa2-a1-m2-cX 1wa2-a1-m1-cX_1wa2-a1-m3-cX 1wa2-a1-m2-cX_1wa2-a1-m3-cX 1wae-a1-m1-cA_1wae-a1-m2-cA 1wae-a1-m1-cA_1wae-a1-m3-cA 1wae-a1-m2-cA_1wae-a1-m3-cA 2bo0-a1-m1-cA_2bo0-a1-m2-cA 2bo0-a1-m1-cA_2bo0-a1-m3-cA 2bo0-a1-m2-cA_2bo0-a1-m3-cA 2bp0-a1-m1-cA_2bp0-a1-m2-cA 2bp0-a1-m1-cA_2bp0-a1-m3-cA 2bp0-a1-m2-cA_2bp0-a1-m3-cA 2bp0-a2-m1-cB_2bp0-a2-m4-cB 2bp0-a2-m1-cB_2bp0-a2-m5-cB 2bp0-a2-m4-cB_2bp0-a2-m5-cB 2bp8-a1-m1-cA_2bp8-a1-m2-cA 2bp8-a1-m1-cA_2bp8-a1-m3-cA 2bp8-a1-m2-cA_2bp8-a1-m3-cA 2bp8-a2-m1-cB_2bp8-a2-m4-cB 2bp8-a2-m1-cB_2bp8-a2-m5-cB 2bp8-a2-m4-cB_2bp8-a2-m5-cB 2jfc-a1-m1-cA_2jfc-a1-m1-cD 2jfc-a1-m1-cA_2jfc-a1-m1-cE 2jfc-a1-m1-cD_2jfc-a1-m1-cE 2jfc-a2-m1-cB_2jfc-a2-m1-cC 2jfc-a2-m1-cB_2jfc-a2-m1-cF 2jfc-a2-m1-cC_2jfc-a2-m1-cF 2vm3-a1-m1-cA_2vm3-a1-m2-cA 2vm3-a1-m1-cA_2vm3-a1-m3-cA 2vm3-a1-m2-cA_2vm3-a1-m3-cA 2vm4-a1-m1-cA_2vm4-a1-m2-cA 2vm4-a1-m1-cA_2vm4-a1-m3-cA 2vm4-a1-m2-cA_2vm4-a1-m3-cA 2vmj-a1-m1-cA_2vmj-a1-m2-cA 2vmj-a1-m1-cA_2vmj-a1-m3-cA 2vmj-a1-m2-cA_2vmj-a1-m3-cA 2vn3-a1-m1-cA_2vn3-a1-m2-cA 2vn3-a1-m1-cA_2vn3-a1-m3-cA 2vn3-a1-m2-cA_2vn3-a1-m3-cA 2vw4-a1-m1-cA_2vw4-a1-m2-cA 2vw4-a1-m1-cA_2vw4-a1-m4-cA 2vw4-a1-m2-cA_2vw4-a1-m4-cA 2vw4-a2-m1-cB_2vw4-a2-m3-cB 2vw4-a2-m1-cB_2vw4-a2-m5-cB 2vw4-a2-m3-cB_2vw4-a2-m5-cB 2vw6-a1-m1-cA_2vw6-a1-m2-cA 2vw6-a1-m1-cA_2vw6-a1-m4-cA 2vw6-a1-m2-cA_2vw6-a1-m4-cA 2vw6-a2-m1-cB_2vw6-a2-m3-cB 2vw6-a2-m1-cB_2vw6-a2-m5-cB 2vw6-a2-m3-cB_2vw6-a2-m5-cB 2vw7-a1-m1-cA_2vw7-a1-m2-cA 2vw7-a1-m1-cA_2vw7-a1-m4-cA 2vw7-a1-m2-cA_2vw7-a1-m4-cA 2vw7-a2-m1-cB_2vw7-a2-m3-cB 2vw7-a2-m1-cB_2vw7-a2-m5-cB 2vw7-a2-m3-cB_2vw7-a2-m5-cB 2xwz-a1-m1-cA_2xwz-a1-m1-cD 2xwz-a1-m1-cA_2xwz-a1-m1-cE 2xwz-a1-m1-cD_2xwz-a1-m1-cE 2xwz-a2-m1-cB_2xwz-a2-m1-cC 2xwz-a2-m1-cF_2xwz-a2-m1-cB 2xwz-a2-m1-cF_2xwz-a2-m1-cC 2xx0-a1-m1-cA_2xx0-a1-m2-cA 2xx0-a1-m1-cA_2xx0-a1-m3-cA 2xx0-a1-m2-cA_2xx0-a1-m3-cA 2xx0-a2-m1-cB_2xx0-a2-m4-cB 2xx0-a2-m1-cB_2xx0-a2-m5-cB 2xx0-a2-m4-cB_2xx0-a2-m5-cB 2xx1-a1-m1-cA_2xx1-a1-m1-cD 2xx1-a1-m1-cA_2xx1-a1-m1-cE 2xx1-a1-m1-cD_2xx1-a1-m1-cE 2xx1-a2-m1-cB_2xx1-a2-m1-cF 2xx1-a2-m1-cC_2xx1-a2-m1-cB 2xx1-a2-m1-cC_2xx1-a2-m1-cF 2xxf-a1-m1-cA_2xxf-a1-m2-cA 2xxf-a1-m1-cA_2xxf-a1-m3-cA 2xxf-a1-m2-cA_2xxf-a1-m3-cA 2xxf-a2-m1-cB_2xxf-a2-m4-cB 2xxf-a2-m1-cB_2xxf-a2-m5-cB 2xxf-a2-m4-cB_2xxf-a2-m5-cB 2xxg-a1-m1-cA_2xxg-a1-m2-cA 2xxg-a1-m1-cA_2xxg-a1-m3-cA 2xxg-a1-m2-cA_2xxg-a1-m3-cA 2xxg-a2-m1-cC_2xxg-a2-m4-cC 2xxg-a2-m1-cC_2xxg-a2-m5-cC 2xxg-a2-m4-cC_2xxg-a2-m5-cC 2zon-a1-m1-cA_2zon-a1-m1-cB 2zon-a1-m1-cA_2zon-a1-m1-cC 2zon-a1-m1-cB_2zon-a1-m1-cC 4csp-a1-m1-cF_4csp-a1-m2-cF 4csp-a1-m1-cF_4csp-a1-m3-cF 4csp-a1-m2-cF_4csp-a1-m3-cF 4csp-a2-m1-cA_4csp-a2-m4-cA 4csp-a2-m1-cA_4csp-a2-m5-cA 4csp-a2-m4-cA_4csp-a2-m5-cA 4csz-a1-m1-cA_4csz-a1-m2-cA 4csz-a1-m1-cA_4csz-a1-m3-cA 4csz-a1-m2-cA_4csz-a1-m3-cA 5b1k-a1-m1-cA_5b1k-a1-m2-cA 5b1k-a1-m1-cA_5b1k-a1-m3-cA 5b1k-a1-m2-cA_5b1k-a1-m3-cA 5onx-a1-m1-cA_5onx-a1-m2-cA 5onx-a1-m1-cA_5onx-a1-m3-cA 5onx-a1-m2-cA_5onx-a1-m3-cA 5ony-a1-m1-cA_5ony-a1-m2-cA 5ony-a1-m1-cA_5ony-a1-m3-cA 5ony-a1-m2-cA_5ony-a1-m3-cA DADKLPHTKVTLVAPPQVHPHEQATKSGPKVVEFTMTIEEKKMVIDDKGTTLQAMTFNGSMPGPTLVVHEGDYVQLTLVNPATNAMPHNVDFHGATGALGGAKLTNVNPGEQATLRFKADRSGTFVYHCAPEGMVPWHVVSGMSGTLMVLPRDGLKDPQGKPLHYDRAYTIGEFDLYIPKGPDGKYKDYATLAESYGDTVQVMRTLTPSHIVFNGKVGALTGANALTAKVGETVLLIHSQANRDTRPHLIGGHGDWVWETGKFANPPQRDLETWFIRGGSAGAALYTFKQPGVYAYLNHNLIEAFELGAAGHIKVEGKWNDDLMKQIKAPAPIPR DADKLPHTKVTLVAPPQVHPHEQATKSGPKVVEFTMTIEEKKMVIDDKGTTLQAMTFNGSMPGPTLVVHEGDYVQLTLVNPATNAMPHNVDFHGATGALGGAKLTNVNPGEQATLRFKADRSGTFVYHCAPEGMVPWHVVSGMSGTLMVLPRDGLKDPQGKPLHYDRAYTIGEFDLYIPKGPDGKYKDYATLAESYGDTVQVMRTLTPSHIVFNGKVGALTGANALTAKVGETVLLIHSQANRDTRPHLIGGHGDWVWETGKFANPPQRDLETWFIRGGSAGAALYTFKQPGVYAYLNHNLIEAFELGAAGHIKVEGKWNDDLMKQIKAPAPIPR 1oe4-a1-m1-cA_1oe4-a1-m1-cB Xenopus SMUG1, an anti-mutator uracil-DNA Glycosylase Q9YGN6 Q9YGN6 2 X-RAY DIFFRACTION 13 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 245 245 1oe5-a1-m1-cA_1oe5-a1-m1-cB 1oe6-a1-m1-cA_1oe6-a1-m1-cB ESPADSFLKVELELNLKLSNLVFQDPVQYVYNPLVYAWAPHENYVQTYCKSKKEVLFLGMNPGPFGMAQTGVPFGEVNHVRDWLQIEGPVSKPEVEHPKRRIRGFECPQSEVSGARFWSLFKSLCGQPETFFKHCFVHNHCPLIFMNHSGKNLTPTDLPKAQRDTLLEICDEALCQAVRVLGVKLVIGVGRFSEQRARKALMAEGIDVTVKGIMHPSPRNPQANKGWEGIVRGQLLELGVLSLLT ESPADSFLKVELELNLKLSNLVFQDPVQYVYNPLVYAWAPHENYVQTYCKSKKEVLFLGMNPGPFGMAQTGVPFGEVNHVRDWLQIEGPVSKPEVEHPKRRIRGFECPQSEVSGARFWSLFKSLCGQPETFFKHCFVHNHCPLIFMNHSGKNLTPTDLPKAQRDTLLEICDEALCQAVRVLGVKLVIGVGRFSEQRARKALMAEGIDVTVKGIMHPSPRNPQANKGWEGIVRGQLLELGVLSLLT 1oez-a2-m1-cW_1oez-a2-m1-cX Zn His46Arg mutant of Human Cu, Zn Superoxide Dismutase P00441 P00441 2.15 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 1hl4-a2-m1-cD_1hl4-a2-m1-cC 1oez-a1-m1-cY_1oez-a1-m1-cZ 1ozt-a2-m1-cG_1ozt-a2-m1-cH 1ozt-a3-m1-cK_1ozt-a3-m1-cL 1ozt-a4-m1-cI_1ozt-a4-m1-cJ 2gbt-a2-m1-cD_2gbt-a2-m1-cC 3gzq-a1-m1-cA_3gzq-a1-m1-cB ATKAVCVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFRVHEFGDNTAGCTSAGPHFERHVGDLGNVTADKDGVADVSIEDSVISLSGDHCIIGRTLVVHEKADDSRLACGVIGIAQ ATKAVCVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFRVHEFGDNTAGCTSAGPHFERHVGDLGNVTADKDGVADVSIEDSVISLSGDHCIIGRTLVVHEKADDSRLACGVIGIAQ 1oft-a1-m1-cA_1oft-a1-m1-cD Crystal structure of SulA from Pseudomonas aeruginosa Q9HZJ8 Q9HZJ8 2.9 X-RAY DIFFRACTION 14 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 119 PAAFSELSLSGLPGHCLTLLAPILRELSEEQDARWLTLIAPPASLTHEWLRRAGLNRERILLLQAKDNAAALALSCEALRLGRSHTVVSWLEPLSRAARKQLSRAAQLGQAQSLNIRLG PAAFSELSLSGLPGHCLTLLAPILRELSEEQDARWLTLIAPPASLTHEWLRRAGLNRERILLLQAKDNAAALALSCEALRLGRSHTVVSWLEPLSRAARKQLSRAAQLGQAQSLNIRLG 1oft-a1-m1-cB_1oft-a1-m1-cC Crystal structure of SulA from Pseudomonas aeruginosa Q9HZJ8 Q9HZJ8 2.9 X-RAY DIFFRACTION 32 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 119 PAAFSELSLSGLPGHCLTLLAPILRELSEEQDARWLTLIAPPASLTHEWLRRAGLNRERILLLQAKDNAAALALSCEALRLGRSHTVVSWLEPLSRAARKQLSRAAQLGQAQSLNIRLG PAAFSELSLSGLPGHCLTLLAPILRELSEEQDARWLTLIAPPASLTHEWLRRAGLNRERILLLQAKDNAAALALSCEALRLGRSHTVVSWLEPLSRAARKQLSRAAQLGQAQSLNIRLG 1oft-a1-m1-cC_1oft-a1-m1-cD Crystal structure of SulA from Pseudomonas aeruginosa Q9HZJ8 Q9HZJ8 2.9 X-RAY DIFFRACTION 56 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 119 1oft-a1-m1-cA_1oft-a1-m1-cB 1ofu-a1-m1-cX_1ofu-a1-m1-cY PAAFSELSLSGLPGHCLTLLAPILRELSEEQDARWLTLIAPPASLTHEWLRRAGLNRERILLLQAKDNAAALALSCEALRLGRSHTVVSWLEPLSRAARKQLSRAAQLGQAQSLNIRLG PAAFSELSLSGLPGHCLTLLAPILRELSEEQDARWLTLIAPPASLTHEWLRRAGLNRERILLLQAKDNAAALALSCEALRLGRSHTVVSWLEPLSRAARKQLSRAAQLGQAQSLNIRLG 1ogl-a1-m1-cA_1ogl-a1-m2-cA The crystal structure of native Trypanosoma cruzi dUTPase O15923 O15923 2.4 X-RAY DIFFRACTION 59 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 246 246 1ogk-a2-m1-cD_1ogk-a2-m1-cE RVPARVLNSLAHLQDGLNIFMDPDWRQIRHVDDWALAITMESAELIDSYPWKWWKNVKAQTDMHNVRIEIADILHFSLSGEIQKRTQDDDVALKSLKEMGFFCRPPADELLELMFFPLTEVASAVATFRNIIQLASIYRFDLITKGLLLAAQDLDFNLVGYYVAKYTLNQIRQLKGYKEGVYVKVREGVEDNELLHECVQSVSVEDVLNEGTYLKAWEKIACSVFDAFGMPEEERRHAYDWLKSAA RVPARVLNSLAHLQDGLNIFMDPDWRQIRHVDDWALAITMESAELIDSYPWKWWKNVKAQTDMHNVRIEIADILHFSLSGEIQKRTQDDDVALKSLKEMGFFCRPPADELLELMFFPLTEVASAVATFRNIIQLASIYRFDLITKGLLLAAQDLDFNLVGYYVAKYTLNQIRQLKGYKEGVYVKVREGVEDNELLHECVQSVSVEDVLNEGTYLKAWEKIACSVFDAFGMPEEERRHAYDWLKSAA 1ogp-a3-m1-cE_1ogp-a3-m1-cF The crystal structure of plant sulfite oxidase provides insight into sulfite oxidation in plants and animals Q9S850 Q9S850 2.6 X-RAY DIFFRACTION 107 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 388 388 1ogp-a1-m1-cA_1ogp-a1-m1-cB 1ogp-a2-m1-cC_1ogp-a2-m1-cD PGIRGPSEYSQEPPRHPSLKVNAKEPFNAEPPRSALVSSYVTPVDLFYKRNHGPIPIVDHLQSYSVTLTGLIQNPRKLFIKDIRSLPKYNVTATLQCAGNRRTAMSKVRNVRGVGWDVSAIGNAVWGGAKLADVLELVGIPKLTASTNLGARHVEFVSVDRCKEENGGPYKASITLSQATNPEADVLLAYEMNGETLNRDHGFPLRVVVPGVIGARSVKWLDSINVIAEESQGFFMQKDYKMFPPSVNWDNINWSSRRPQMDFPVQSAICSVEDVQMVKPGKVSIKGYAVSGGGRGIERVDISLDGGKNWVEASRTQEPGKQYISEHSSSDKWAWVLFEATIDVSQTTEVIAKAVDSAANVQPENVESVWNLRGVLNTSWHRVLLRLG PGIRGPSEYSQEPPRHPSLKVNAKEPFNAEPPRSALVSSYVTPVDLFYKRNHGPIPIVDHLQSYSVTLTGLIQNPRKLFIKDIRSLPKYNVTATLQCAGNRRTAMSKVRNVRGVGWDVSAIGNAVWGGAKLADVLELVGIPKLTASTNLGARHVEFVSVDRCKEENGGPYKASITLSQATNPEADVLLAYEMNGETLNRDHGFPLRVVVPGVIGARSVKWLDSINVIAEESQGFFMQKDYKMFPPSVNWDNINWSSRRPQMDFPVQSAICSVEDVQMVKPGKVSIKGYAVSGGGRGIERVDISLDGGKNWVEASRTQEPGKQYISEHSSSDKWAWVLFEATIDVSQTTEVIAKAVDSAANVQPENVESVWNLRGVLNTSWHRVLLRLG 1oh2-a1-m1-cP_1oh2-a1-m1-cR Sucrose-Specific Porin, with Bound Sucrose Molecules P22340 P22340 2.4 X-RAY DIFFRACTION 149 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 413 413 1a0s-a1-m1-cP_1a0s-a1-m1-cQ 1a0s-a1-m1-cP_1a0s-a1-m1-cR 1a0s-a1-m1-cQ_1a0s-a1-m1-cR 1a0t-a1-m1-cP_1a0t-a1-m1-cQ 1a0t-a1-m1-cP_1a0t-a1-m1-cR 1a0t-a1-m1-cQ_1a0t-a1-m1-cR SGFEFHGYARSGVIMNDSGASTKSGAYITPAGETGGAIGRLGNQADTYVEMNLEHKQTLDNGATTRFKVMVADGQTSYNDWTASTSDLNVRQAFVELGNLPTFAGPFKGSTLWAGKRFDRDNFDIHWIDSDVVFLAGTGGGIYDVKWNDGLRSNFSLYGRNFGDIDDSSNSVQNYILTMNHFAGPLQMMVSGLRAKDNDERKDSNGNLAKGDAANTGVHALLGLHNDSFYGLRDGSSKTALLYGHGLGAEVKGIGSDGALRPGADTWRIASYGTTPLSENWSVAPAMLAQRSKDRYADGDSYQWATFNLRLIQAINQNFALAYEGSYQYMDLKPEGYNDRQAVNGSFYKLTFAPTFKVGSIGDFFSRPEIRFYTSWMDWSKKLNNYASDDALGSDGFNSGGEWSFGVQMETWF SGFEFHGYARSGVIMNDSGASTKSGAYITPAGETGGAIGRLGNQADTYVEMNLEHKQTLDNGATTRFKVMVADGQTSYNDWTASTSDLNVRQAFVELGNLPTFAGPFKGSTLWAGKRFDRDNFDIHWIDSDVVFLAGTGGGIYDVKWNDGLRSNFSLYGRNFGDIDDSSNSVQNYILTMNHFAGPLQMMVSGLRAKDNDERKDSNGNLAKGDAANTGVHALLGLHNDSFYGLRDGSSKTALLYGHGLGAEVKGIGSDGALRPGADTWRIASYGTTPLSENWSVAPAMLAQRSKDRYADGDSYQWATFNLRLIQAINQNFALAYEGSYQYMDLKPEGYNDRQAVNGSFYKLTFAPTFKVGSIGDFFSRPEIRFYTSWMDWSKKLNNYASDDALGSDGFNSGGEWSFGVQMETWF 1ohq-a1-m1-cB_1ohq-a1-m1-cA Crystal structure of HEL4, a soluble human VH antibody domain resistant to aggregation P01764 P01764 2 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 120 7obf-a1-m1-cB_7obf-a1-m1-cA EVQLLESGGGLVQPGGSLRLSCAASGFRISDEDMGWVRQAPGKGLEWVSSIYGPSGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCASALEPLSEPLGFWGQGTLVTVS EVQLLESGGGLVQPGGSLRLSCAASGFRISDEDMGWVRQAPGKGLEWVSSIYGPSGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCASALEPLSEPLGFWGQGTLVTVSS 1ohz-a1-m2-cB_1ohz-a1-m3-cB Cohesin-Dockerin complex from the cellulosome of Clostridium thermocellum P51584 P51584 2.2 X-RAY DIFFRACTION 15 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 56 56 1ohz-a1-m1-cB_1ohz-a1-m2-cB 1ohz-a1-m1-cB_1ohz-a1-m3-cB GDVNGDGTINSTDLTMLKRSVLRAITLTDDAKARADVDKNGSINSTDVLLLSRYLL GDVNGDGTINSTDLTMLKRSVLRAITLTDDAKARADVDKNGSINSTDVLLLSRYLL 1oi2-a1-m1-cA_1oi2-a1-m1-cB X-ray structure of the dihydroxyacetone kinase from Escherichia coli P76015 P76015 1.75 X-RAY DIFFRACTION 103 1.0 562 (Escherichia coli) 562 (Escherichia coli) 336 336 1oi3-a1-m1-cA_1oi3-a1-m1-cB 1uod-a1-m1-cA_1uod-a1-m1-cB 1uoe-a1-m1-cA_1uoe-a1-m1-cB 3pnk-a1-m1-cA_3pnk-a1-m1-cB 3pnl-a1-m1-cA_3pnl-a1-m2-cA 3pnm-a1-m1-cA_3pnm-a1-m1-cB 3pnm-a2-m1-cC_3pnm-a2-m1-cD 3pno-a1-m1-cA_3pno-a1-m1-cB 3pno-a2-m1-cC_3pno-a2-m1-cD 3pnq-a1-m1-cA_3pnq-a1-m1-cB 3pnq-a2-m1-cD_3pnq-a2-m1-cC 4lrx-a1-m1-cA_4lrx-a1-m1-cB 4lry-a1-m1-cA_4lry-a1-m1-cB DVLDEQLAGLAKAHPSLTLHQDPVYVTRADAPVAGKVALLSGGGSGHEPMHCGYIGQGMLSGACPGEIFTSPTPDKIFECAMQVDGGEGVLLIIKNYTGDILNFETATELLHDSGVKVTTVVIDDDVAVKDSLYTAGRRGVANTVLIEKLVGAAAERGDSLDACAELGRKLNNQGHSIGIALGACLADNEMEFGVGIHGEPGIDRRPFSSLDQTVDEMFDTLLVNGSYHRTLRFWDYQQGSWQEEQQTKQPLQSGDRVIALVNNLGATPLSELYGVYNRLTTRCQQAGLTIERNLIGAYCTSLDMTGFSITLLKVDDETLALWDAPVHTPALNWGK DVLDEQLAGLAKAHPSLTLHQDPVYVTRADAPVAGKVALLSGGGSGHEPMHCGYIGQGMLSGACPGEIFTSPTPDKIFECAMQVDGGEGVLLIIKNYTGDILNFETATELLHDSGVKVTTVVIDDDVAVKDSLYTAGRRGVANTVLIEKLVGAAAERGDSLDACAELGRKLNNQGHSIGIALGACLADNEMEFGVGIHGEPGIDRRPFSSLDQTVDEMFDTLLVNGSYHRTLRFWDYQQGSWQEEQQTKQPLQSGDRVIALVNNLGATPLSELYGVYNRLTTRCQQAGLTIERNLIGAYCTSLDMTGFSITLLKVDDETLALWDAPVHTPALNWGK 1oi4-a1-m1-cB_1oi4-a1-m1-cA Crystal Structure of yhbO from Escherichia coli P45470 P45470 2.03 X-RAY DIFFRACTION 40 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 173 191 AGLSKKIAVLITDEFEDSEFTSPADEFRKAGHEVITIEKQAGKTVKGKKGEASVTIDKSIDEVTPAEFDALLLPGGHSPDYLRGDNRFVTFTRDFVNSGKPVFAICHGPQLLISADVIRGRKLTAVKPIIIDVKNAGAEFYDQEVVVDKDQLVTSRTPDDLPAFNREALRLLG SYYHHHHHHLESTSLYKKAGLSKKIAVLITDEFEDSEFTSPADEFRKAGHEVITIEKQAGKTVKGKKGEASVTIDKSIDEVTPAEFDALLLPGGHSPDYLRGDNRFVTFTRDFVNSGKPVFAICHGPQLLISADVIRGRKLTAVKPIIIDVKNAGAEFYDQEVVVDKDQLVTSRTPDDLPAFNREALRLLG 1oi6-a1-m1-cA_1oi6-a1-m1-cB Structure determination of the TMP-complex of EvaD O52806 O52806 1.4 X-RAY DIFFRACTION 111 1.0 31958 (Amycolatopsis orientalis) 31958 (Amycolatopsis orientalis) 202 202 1ofn-a1-m1-cA_1ofn-a1-m1-cB 1wa4-a1-m1-cA_1wa4-a1-m2-cA MQARKLAVDGAIEFTPRVFADDRGLLILPYQEEAFVEAHGGPLFRVAQTIHSMSKRGVVRGIHYTVTPPGTAKYVYCARGKAMDIVIDIRVGSPTFGQWDSVLMDQQDPRAVYLPVGVGHAFVALEDDTVMSYMLSRSYVTQDELALSALDPALGLPIDIGVEPIVSDRDRVAITLAEAQRQGLLPDYTTSQEIERRLTAVP MQARKLAVDGAIEFTPRVFADDRGLLILPYQEEAFVEAHGGPLFRVAQTIHSMSKRGVVRGIHYTVTPPGTAKYVYCARGKAMDIVIDIRVGSPTFGQWDSVLMDQQDPRAVYLPVGVGHAFVALEDDTVMSYMLSRSYVTQDELALSALDPALGLPIDIGVEPIVSDRDRVAITLAEAQRQGLLPDYTTSQEIERRLTAVP 1oih-a1-m1-cA_1oih-a1-m1-cB Crystal structure of the alkylsulfatase AtsK, a non-heme Fe(II) alphaketoglutarate dependent Dioxygenase Q9WWU5 Q9WWU5 1.89 X-RAY DIFFRACTION 40 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 254 255 1oih-a1-m1-cC_1oih-a1-m1-cD 1oik-a1-m1-cA_1oik-a1-m2-cA 1oik-a1-m1-cD_1oik-a1-m2-cD 1vz4-a1-m1-cA_1vz4-a1-m2-cA 1vz4-a1-m1-cD_1vz4-a1-m2-cD 1vz5-a1-m1-cA_1vz5-a1-m1-cB 1vz5-a1-m1-cC_1vz5-a1-m1-cD LELDVHPVAGRIGAEIRGVKLSPDLDAATVEAIQAALVRHKVIFFRGQTHLDDQSQEGFAKLLGEPVAPVVDGTRYLLQLDRANSWHTDVTFVEAYPKASILRSVVAPASGGDTVWANTAAAYQELPEPLRELADKLWAVHSNEVYETEHPVVRVHPISGERALQLGHFVKRIKGYSLADSQHLFAVLQGHVTRLENTVRWRWEAGDVAIWDNRATQHYAVDDYGTQPRIVRRVTLAGEVPVGVDGQLSRTTRK LELDVHPVAGRIGAEIRGVKLSPDLDAATVEAIQAALVRHKVIFFRGQTHLDDQSQEGFAKLLGEPVAPVVDGTRYLLQLDGRANSWHTDVTFVEAYPKASILRSVVAPASGGDTVWANTAAAYQELPEPLRELADKLWAVHSNEVYETEHPVVRVHPISGERALQLGHFVKRIKGYSLADSQHLFAVLQGHVTRLENTVRWRWEAGDVAIWDNRATQHYAVDDYGTQPRIVRRVTLAGEVPVGVDGQLSRTTRK 1oiv-a1-m1-cA_1oiv-a1-m1-cB X-ray structure of the small G protein Rab11a in complex with GDP P62491 P62491 1.98 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 168 DEYDYLFKVVLIGDSGVGKSNLLSRFTRNEFNLESKSTIGVEFATRSIQVDGKTIKAQIWDTAGQERYRAITSAYYRGAVGALLVYDIAKHLTYENVERWLKELRDHADSNIVIMLVGNKSDLRHLRAVPTDEARAFAEKNGLSFIETSALDSTNVEAAFQTILTEIY DEYDYLFKVVLIGDSGVGKSNLLSRFTRNEFNLESKSTIGVEFATRSIQVDGKTIKAQIWDTAGQERYRAITSAYYRGAVGALLVYDIAKHLTYENVERWLKELRDHADSNIVIMLVGNKSDLRHLRAVPTDEARAFAEKNGLSFIETSALDSTNVEAAFQTILTEIY 1oj7-a2-m1-cB_1oj7-a2-m1-cC STRUCTURAL GENOMICS, UNKNOWN FUNCTION CRYSTAL STRUCTURE OF E. COLI K-12 YQHD Q46856 Q46856 2 X-RAY DIFFRACTION 121 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 390 390 1oj7-a1-m1-cA_1oj7-a1-m1-cD 4qgs-a2-m1-cA_4qgs-a2-m2-cA KAGLNNFNLHTPTRILFGKGAIAGLREQIPHDARVLITYGGGSVKKTGVLDQVLDALKGMDVLEFGGIEPNPAYETLMNAVKLVREQKVTFLLAVGGGSVLDGTKFIAAAANYPENIDPWHILQTGGKEIKSAIPMGCVLTLPATGSESNAGAVISRKTTGDKQAFHSAHVQPVFAVLDPVYTYTLPPRQVANGVVDAFVHTVEQYVTKPVDAKIHDRFAEGILLTLIEDGPKALKEPENYDVRANVMWAATQALNGLIGAGVPQDWATHMLGHELTAMHGLDHAQTLAIVLPALWNEKRDTKRAKLLQYAERVWNITEGSDDERIDAAIAATRNFFEQLGVPTHLSDYGLDGSSIPALLKKLEEHGMTQLGENHDITLDVSRRIYEAAR KAGLNNFNLHTPTRILFGKGAIAGLREQIPHDARVLITYGGGSVKKTGVLDQVLDALKGMDVLEFGGIEPNPAYETLMNAVKLVREQKVTFLLAVGGGSVLDGTKFIAAAANYPENIDPWHILQTGGKEIKSAIPMGCVLTLPATGSESNAGAVISRKTTGDKQAFHSAHVQPVFAVLDPVYTYTLPPRQVANGVVDAFVHTVEQYVTKPVDAKIHDRFAEGILLTLIEDGPKALKEPENYDVRANVMWAATQALNGLIGAGVPQDWATHMLGHELTAMHGLDHAQTLAIVLPALWNEKRDTKRAKLLQYAERVWNITEGSDDERIDAAIAATRNFFEQLGVPTHLSDYGLDGSSIPALLKKLEEHGMTQLGENHDITLDVSRRIYEAAR 1ojh-a1-m1-cB_1ojh-a1-m1-cA Crystal structure of NblA from PCC 7120 Q8YNP7 Q8YNP7 1.8 X-RAY DIFFRACTION 73 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 48 50 1ojh-a2-m1-cC_1ojh-a2-m1-cD 1ojh-a3-m1-cE_1ojh-a3-m1-cF 1ojh-a4-m1-cH_1ojh-a4-m1-cG 1ojh-a5-m1-cJ_1ojh-a5-m1-cI IELSLEQQFSIRSFATQVQNSHDQAKDFLVKLYEQVVREATYQELLKH IELSLEQQFSIRSFATQVQNSHDQAKDFLVKLYEQVVREATYQELLKHQW 1ojl-a1-m2-cB_1ojl-a1-m2-cC Crystal structure of a sigma54-activator suggests the mechanism for the conformational switch necessary for sigma54 binding P25852 P25852 3 X-RAY DIFFRACTION 55 1.0 251 252 1ojl-a1-m1-cB_1ojl-a1-m1-cC 1ojl-a2-m1-cE_1ojl-a2-m1-cD 1ojl-a2-m1-cF_1ojl-a2-m1-cE 1ojl-a2-m1-cF_1ojl-a2-m3-cD 1ojl-a2-m3-cE_1ojl-a2-m3-cD 1ojl-a2-m3-cF_1ojl-a2-m1-cD 1ojl-a2-m3-cF_1ojl-a2-m3-cE SHMIGSSPAMQHLLNEIAMVAPSDATVLIHGDSGTGKELVARALHACSARSDRPLVTLNCAALNESLLESELFGHEKGAFTGADKRREGRFVEADGGTLFLDEIGDISPLMQVRLLRAIQEREVQRVGSNQTISVDVRLIAATHRDLAEEVSAGRFRQDLYYRLNVVAIEMPSLRQRREDIPLLADHFLRRFAERNRKVVKGFTPQAMDLLIHYDWPGNIRELENAIERAVVLLTGEYISERELPLAIAAT SHMIGSSPAMQHLLNEIAMVAPSDATVLIHGDSGTGKELVARALHACSARSDRPLVTLNCAALNESLLESELFGHEKGAFTGADKRREGRFVEADGGTLFLDEIGDISPLMQVRLLRAIQEREVQRVGSNQTISVDVRLIAATHRDLAEEVSAGRFRQDLYYRLNVVAIEMPSLRQRREDIPLLADHFLRRFAERNRKVVKGFTPQAMDLLIHYDWPGNIRELENAIERAVVLLTGEYISERELPLAIAATP 1ok3-a1-m1-cA_1ok3-a1-m1-cB Decay accelerating factor (cd55): the structure of an intact human complement regulator. P08174 P08174 2.2 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 1ojv-a1-m1-cB_1ojv-a1-m1-cA 1ojw-a1-m1-cB_1ojw-a1-m1-cA 1ojy-a1-m1-cA_1ojy-a1-m1-cC 1ojy-a2-m1-cB_1ojy-a2-m1-cD 1ok1-a1-m1-cB_1ok1-a1-m1-cA 1ok2-a1-m1-cB_1ok2-a1-m1-cA 1ok9-a1-m1-cA_1ok9-a1-m1-cB QDCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTIGEHSIYCTVNNDEGEWSGPPPECRGC QDCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTIGEHSIYCTVNNDEGEWSGPPPECRGC 1okh-a1-m1-cA_1okh-a1-m1-cB Viscotoxin A3 from Viscum album L. P01538 P01538 1.75 X-RAY DIFFRACTION 24 1.0 3972 (Viscum album) 3972 (Viscum album) 46 46 KSCCPNTTGRNIYNACRLTGAPRPTCAKLSGCKIISGSTCPSDYPK KSCCPNTTGRNIYNACRLTGAPRPTCAKLSGCKIISGSTCPSDYPK 1oki-a1-m1-cA_1oki-a1-m1-cB Crystal structure of truncated human beta-B1-crystallin P53674 P53674 1.4 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 182 PPGNYRLVVFELENFQGRRAEFSGESNLADRGFDRVRSIIVSAGPWVAFEQSNFRGEMFILEKGEYPRWNTWSSSYRSDRLMSFRPIKMDAQEHKISLFEGANFKGNTIEIQGDDAPSLWVYGFSDRVGSVKVSSGTWVGYQYPGYRGYQYLLEPGDFRHWNEWGAFQPQMQSLRRLRDKQW PPGNYRLVVFELENFQGRRAEFSGESNLADRGFDRVRSIIVSAGPWVAFEQSNFRGEMFILEKGEYPRWNTWSSSYRSDRLMSFRPIKMDAQEHKISLFEGANFKGNTIEIQGDDAPSLWVYGFSDRVGSVKVSSGTWVGYQYPGYRGYQYLLEPGDFRHWNEWGAFQPQMQSLRRLRDKQW 1okj-a2-m1-cC_1okj-a2-m1-cD crystal structure of the essential E. coli YeaZ protein by MAD method using the gadolinium complex ""DOTMA"" P76256 P76256 2.28 X-RAY DIFFRACTION 77 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 218 220 1okj-a1-m1-cA_1okj-a1-m1-cB GLRILAIDTATEACSVALWNDGTVNAHFELCPREHTQRILPMVQDILTTSGTSLTDINALAYGRGPGSFTGVRIGIGIAQGLALGAELPMIGVSTLMTMAQGAWRKNGATRVLAAIDARMGEVYWAEYQRDENGIWHGEETEAVLKPEIVHERMQQLSGEWVTVGTGWQAWPDLGKESGLVLRDGEVLLPAAEDMLPIACQMFAEGKTVAVEHAEPVY AGLRILAIDTATEACSVALWNDGTVNAHFELCPREHTQRILPMVQDILTTSGTSLTDINALAYGRGPGSFTGVRIGIGIAQGLALGAELPMIGVSTLMTMAQGAWRKNGATRVLAAIDARMGEVYWAEYQRDENGIWHGEETEAVLKPEIVHERMQQLSGEWVTVGTGWQAWPDLGKESGLVLRDGEVLLPAAEDMLPIACQMFAEGKTVAVEHAEPVYL 1olz-a1-m1-cA_1olz-a1-m1-cB The ligand-binding face of the semaphorins revealed by the high resolution crystal structure of SEMA4D Q92854 Q92854 2 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 621 621 3ol2-a1-m1-cA_3ol2-a1-m2-cA FAPIPRITWEHREVHLVQFHEPDIYNYSALLLSEDKDTLYIGAREAVFAVNALNISEKQHEVYWKVSEDKKAKCAEKGKSKQTECLNYIRVLQPLSATSLYVCGTNAFQPACDHLNLTSFKFLGKNEDGKGRCPFDPAHSYTSVMVDGELYSGTSYNFLGSEPIISRNSSHSPLRTEYAIPWLNEPSFVFADVIRKSPGEDDRVYFFFTEVSVEYEFVFRVLIPRIARVCKGDQGGLRTLQKKWTSFLKARLICSRPDSGLVFNVLRDVFVLRSPGLKVPVFYALFTPQLNNVGLSAVCAYNLSTAEEVFSHGKYMQSTTVEQSHTKWVRYNGPVPKPRPGACIDSEARAANYTSSLNLPDKTLQFVKDHPLMDDSVTPIDNRPRLIKKDVNYTQIVVDRTQALDGTVYDVMFVSTDRGALHKAISLEHAVHIIEETQLFQDFEPVQTLLLSSKKGNRFVYAGSNSGVVQAPLAFCGKHGTCEDCVLARDPYCAWSPPTATCVALHQTESPSRGLIQEMSGDASVCPDKSKGSYRQHFFKHGGTAELKCSQKSNLARVFWKFQNGVLKAESPKYGLMGRKNLLIFNLSEGDSGVYQCLSEERVKNKTVFQVVAKHVLEVKV FAPIPRITWEHREVHLVQFHEPDIYNYSALLLSEDKDTLYIGAREAVFAVNALNISEKQHEVYWKVSEDKKAKCAEKGKSKQTECLNYIRVLQPLSATSLYVCGTNAFQPACDHLNLTSFKFLGKNEDGKGRCPFDPAHSYTSVMVDGELYSGTSYNFLGSEPIISRNSSHSPLRTEYAIPWLNEPSFVFADVIRKSPGEDDRVYFFFTEVSVEYEFVFRVLIPRIARVCKGDQGGLRTLQKKWTSFLKARLICSRPDSGLVFNVLRDVFVLRSPGLKVPVFYALFTPQLNNVGLSAVCAYNLSTAEEVFSHGKYMQSTTVEQSHTKWVRYNGPVPKPRPGACIDSEARAANYTSSLNLPDKTLQFVKDHPLMDDSVTPIDNRPRLIKKDVNYTQIVVDRTQALDGTVYDVMFVSTDRGALHKAISLEHAVHIIEETQLFQDFEPVQTLLLSSKKGNRFVYAGSNSGVVQAPLAFCGKHGTCEDCVLARDPYCAWSPPTATCVALHQTESPSRGLIQEMSGDASVCPDKSKGSYRQHFFKHGGTAELKCSQKSNLARVFWKFQNGVLKAESPKYGLMGRKNLLIFNLSEGDSGVYQCLSEERVKNKTVFQVVAKHVLEVKV 1om7-a2-m2-cA_1om7-a2-m3-cA CRYSTAL STRUCTURE OF A COLD ADAPTED ALKALINE PROTEASE FROM PSEUDOMONAS TAC II 18, SOAKED IN 85 mM EDTA O69771 O69771 2.8 X-RAY DIFFRACTION 84 1.0 76981 (Pseudomonas sp. 'TAC II 18') 76981 (Pseudomonas sp. 'TAC II 18') 453 453 1g9k-a2-m1-cA_1g9k-a2-m2-cA 1g9k-a2-m1-cA_1g9k-a2-m3-cA 1g9k-a2-m2-cA_1g9k-a2-m3-cA 1o0q-a2-m1-cA_1o0q-a2-m2-cA 1o0q-a2-m1-cA_1o0q-a2-m3-cA 1o0q-a2-m2-cA_1o0q-a2-m3-cA 1o0t-a2-m1-cA_1o0t-a2-m2-cA 1o0t-a2-m1-cA_1o0t-a2-m3-cA 1o0t-a2-m2-cA_1o0t-a2-m3-cA 1om6-a2-m1-cA_1om6-a2-m2-cA 1om6-a2-m1-cA_1om6-a2-m3-cA 1om6-a2-m2-cA_1om6-a2-m3-cA 1om7-a2-m1-cA_1om7-a2-m2-cA 1om7-a2-m1-cA_1om7-a2-m3-cA 1om8-a2-m1-cA_1om8-a2-m2-cA 1om8-a2-m1-cA_1om8-a2-m3-cA 1om8-a2-m2-cA_1om8-a2-m3-cA 1omj-a2-m1-cA_1omj-a2-m2-cA 1omj-a2-m1-cA_1omj-a2-m3-cA 1omj-a2-m2-cA_1omj-a2-m3-cA GTSSAFTQIDNFSHFYDRGDHLVNGKPSFTVDQVADQLTRSGASWHDNDGVINLTYTFLTAPPVGYASRGLGTFSQFSALQKEQAKLSLESWADVAKVTFTEGPAARGDDGHMTFANFSASNGGAAFAYLPNSSRKGESWYLINKDYQVNKTPGEGNYGRQTLTHEIGHTLGLSHPGDNPTYRDAVYAEDTRAYSVMSYWSEKNTGQVFTKTGEGAYASAPLLDDIAAVQKLYGANLETRADDTVYGFNSTADRDFYSATSSTDKLIFSVWDGGGNDTLDFSGFSQNQKINLTAGSFSDVGGMTGNVSIAQGVTIENAIGGSGNDLLIGNDAANVLKGGAGNDIIYGGGGADVLWGGTGSDTFVFGAVSDSTPKAADIIKDFQSGFDKIDLTAITKLGGLNFVDAFTGHAGDAIVSYHQASNAGSLQVDFSGQGVADFLVTTVGQVATYDIVA GTSSAFTQIDNFSHFYDRGDHLVNGKPSFTVDQVADQLTRSGASWHDNDGVINLTYTFLTAPPVGYASRGLGTFSQFSALQKEQAKLSLESWADVAKVTFTEGPAARGDDGHMTFANFSASNGGAAFAYLPNSSRKGESWYLINKDYQVNKTPGEGNYGRQTLTHEIGHTLGLSHPGDNPTYRDAVYAEDTRAYSVMSYWSEKNTGQVFTKTGEGAYASAPLLDDIAAVQKLYGANLETRADDTVYGFNSTADRDFYSATSSTDKLIFSVWDGGGNDTLDFSGFSQNQKINLTAGSFSDVGGMTGNVSIAQGVTIENAIGGSGNDLLIGNDAANVLKGGAGNDIIYGGGGADVLWGGTGSDTFVFGAVSDSTPKAADIIKDFQSGFDKIDLTAITKLGGLNFVDAFTGHAGDAIVSYHQASNAGSLQVDFSGQGVADFLVTTVGQVATYDIVA 1ome-a1-m1-cB_1ome-a1-m1-cA CRYSTAL STRUCTURE OF THE OMEGA LOOP DELETION MUTANT (RESIDUES 163-178 DELETED) OF BETA-LACTAMASE FROM STAPHYLOCOCCUS AUREUS PC1 P00807 P00807 2.3 X-RAY DIFFRACTION 67 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 240 241 ELNDLEKKYNAHIGVYALDTKSGKEVKFNSDKRFAYASTSKAINSAILLEQVPYNKLNKKVHINKDDIVAYSPILEKYVGKDITLKALIEASMTYSDNTANNKIIKEIGGIKKVKQRLKELGDKVTNPDTSTPAAFGKTLNKLIANGKLSKENKKFLLDLMLNNKSGDTLIKDGVPKDYKVADKSGQAITYASRNDVAFVYPKGQSEPIVLVIFTNKDNKSDKPNDKLISETAKSVMKEF KELNDLEKKYNAHIGVYALDTKSGKEVKFNSDKRFAYASTSKAINSAILLEQVPYNKLNKKVHINKDDIVAYSPILEKYVGKDITLKALIEASMTYSDNTANNKIIKEIGGIKKVKQRLKELGDKVTNPDTSTPAAFGKTLNKLIANGKLSKENKKFLLDLMLNNKSGDTLIKDGVPKDYKVADKSGQAITYASRNDVAFVYPKGQSEPIVLVIFTNKDNKSDKPNDKLISETAKSVMKEF 1omo-a1-m1-cA_1omo-a1-m1-cB alanine dehydrogenase dimer w/bound NAD (archaeal) O28608 O28608 2.32 X-RAY DIFFRACTION 145 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 320 320 1vll-a1-m1-cA_1vll-a1-m1-cB METLILTQEEVESLISMDEAMNAVEEAFRLYALGKAQMPPKVYLEFEKGDLRAMPAHLMGYAGLKWVNSHPGNPDKGLPTVMALMILNSPETGFPLAVMDATYTTSLRTGAAGGIAAKYLARKNSSVFGFIGCGTQAYFQLEALRRVFDIGEVKAYDVREKAAKKFVSYCEDRGISASVQPAEEASRCDVLVTTTPSRKPVVKAEWVEEGTHINAIGADGPGKQELDVEILKKAKIVVDDLEQAKHGGEINVAVSKGVIGVEDVHATIGEVIAGLKDGRESDEEITIFDSTGLAIQDVAVAKVVYENALSKNVGSKIKFF METLILTQEEVESLISMDEAMNAVEEAFRLYALGKAQMPPKVYLEFEKGDLRAMPAHLMGYAGLKWVNSHPGNPDKGLPTVMALMILNSPETGFPLAVMDATYTTSLRTGAAGGIAAKYLARKNSSVFGFIGCGTQAYFQLEALRRVFDIGEVKAYDVREKAAKKFVSYCEDRGISASVQPAEEASRCDVLVTTTPSRKPVVKAEWVEEGTHINAIGADGPGKQELDVEILKKAKIVVDDLEQAKHGGEINVAVSKGVIGVEDVHATIGEVIAGLKDGRESDEEITIFDSTGLAIQDVAVAKVVYENALSKNVGSKIKFF 1oms-a1-m1-cA_1oms-a1-m1-cB Structure determination by MAD: E.coli Trigger Factor binding at the ribosomal exit tunnel. P0A850 P0A850 2.3 X-RAY DIFFRACTION 60 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 113 QVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPNIVAQRYGASVRQDVLGDLSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEV QVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPNIVAQRYGASVRQDVLGDLSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVE 1oms-a1-m1-cA_1oms-a1-m1-cC Structure determination by MAD: E.coli Trigger Factor binding at the ribosomal exit tunnel. P0A850 P0A850 2.3 X-RAY DIFFRACTION 63 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 115 QVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPNIVAQRYGASVRQDVLGDLSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEV HQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPNIVAQRYGASVRQDVLGDLSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVEL 1omz-a2-m1-cA_1omz-a2-m4-cB crystal structure of mouse alpha-1,4-N-acetylhexosaminyltransferase (EXTL2) in complex with UDPGalNAc Q9ES89 Q9ES89 2.1 X-RAY DIFFRACTION 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 253 255 1omx-a2-m1-cA_1omx-a2-m4-cB 1omx-a2-m2-cA_1omx-a2-m3-cB 1omx-a2-m3-cA_1omx-a2-m1-cB 1omx-a2-m4-cA_1omx-a2-m2-cB 1omz-a2-m2-cA_1omz-a2-m3-cB 1omz-a2-m3-cA_1omz-a2-m1-cB 1omz-a2-m4-cA_1omz-a2-m2-cB 1on6-a2-m1-cA_1on6-a2-m4-cB 1on6-a2-m2-cA_1on6-a2-m3-cB 1on6-a2-m3-cA_1on6-a2-m1-cB 1on6-a2-m4-cA_1on6-a2-m2-cB ALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLEAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK SALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLERAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK 1omz-a2-m2-cA_1omz-a2-m4-cA crystal structure of mouse alpha-1,4-N-acetylhexosaminyltransferase (EXTL2) in complex with UDPGalNAc Q9ES89 Q9ES89 2.1 X-RAY DIFFRACTION 63 1.0 10090 (Mus musculus) 10090 (Mus musculus) 253 253 1omx-a2-m1-cA_1omx-a2-m3-cA 1omx-a2-m1-cA_1omx-a2-m4-cA 1omx-a2-m1-cB_1omx-a2-m3-cB 1omx-a2-m1-cB_1omx-a2-m4-cB 1omx-a2-m2-cA_1omx-a2-m3-cA 1omx-a2-m2-cA_1omx-a2-m4-cA 1omx-a2-m2-cB_1omx-a2-m3-cB 1omx-a2-m2-cB_1omx-a2-m4-cB 1omz-a2-m1-cA_1omz-a2-m3-cA 1omz-a2-m1-cA_1omz-a2-m4-cA 1omz-a2-m1-cB_1omz-a2-m3-cB 1omz-a2-m1-cB_1omz-a2-m4-cB 1omz-a2-m2-cA_1omz-a2-m3-cA 1omz-a2-m2-cB_1omz-a2-m3-cB 1omz-a2-m2-cB_1omz-a2-m4-cB 1on6-a2-m1-cA_1on6-a2-m3-cA 1on6-a2-m1-cA_1on6-a2-m4-cA 1on6-a2-m1-cB_1on6-a2-m3-cB 1on6-a2-m1-cB_1on6-a2-m4-cB 1on6-a2-m2-cA_1on6-a2-m3-cA 1on6-a2-m2-cA_1on6-a2-m4-cA 1on6-a2-m2-cB_1on6-a2-m3-cB 1on6-a2-m2-cB_1on6-a2-m4-cB 1on8-a2-m1-cA_1on8-a2-m3-cA 1on8-a2-m1-cA_1on8-a2-m4-cA 1on8-a2-m1-cB_1on8-a2-m3-cB 1on8-a2-m1-cB_1on8-a2-m4-cB 1on8-a2-m2-cA_1on8-a2-m3-cA 1on8-a2-m2-cA_1on8-a2-m4-cA 1on8-a2-m2-cB_1on8-a2-m3-cB 1on8-a2-m2-cB_1on8-a2-m4-cB ALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLEAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK ALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLEAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK 1omz-a2-m2-cA_1omz-a2-m4-cB crystal structure of mouse alpha-1,4-N-acetylhexosaminyltransferase (EXTL2) in complex with UDPGalNAc Q9ES89 Q9ES89 2.1 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 253 255 1omx-a2-m1-cA_1omx-a2-m3-cB 1omx-a2-m2-cA_1omx-a2-m4-cB 1omx-a2-m3-cA_1omx-a2-m2-cB 1omx-a2-m4-cA_1omx-a2-m1-cB 1omz-a2-m1-cA_1omz-a2-m3-cB 1omz-a2-m3-cA_1omz-a2-m2-cB 1omz-a2-m4-cA_1omz-a2-m1-cB 1on6-a2-m1-cA_1on6-a2-m3-cB 1on6-a2-m2-cA_1on6-a2-m4-cB 1on6-a2-m3-cA_1on6-a2-m2-cB 1on6-a2-m4-cA_1on6-a2-m1-cB 1on8-a2-m1-cB_1on8-a2-m4-cA 1on8-a2-m2-cB_1on8-a2-m3-cA 1on8-a2-m3-cB_1on8-a2-m1-cA 1on8-a2-m4-cB_1on8-a2-m2-cA ALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLEAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK SALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLERAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK 1omz-a2-m4-cA_1omz-a2-m4-cB crystal structure of mouse alpha-1,4-N-acetylhexosaminyltransferase (EXTL2) in complex with UDPGalNAc Q9ES89 Q9ES89 2.1 X-RAY DIFFRACTION 91 1.0 10090 (Mus musculus) 10090 (Mus musculus) 253 255 1omx-a1-m1-cA_1omx-a1-m1-cB 1omx-a2-m1-cA_1omx-a2-m1-cB 1omx-a2-m2-cA_1omx-a2-m2-cB 1omx-a2-m3-cA_1omx-a2-m3-cB 1omx-a2-m4-cA_1omx-a2-m4-cB 1omz-a1-m1-cA_1omz-a1-m1-cB 1omz-a2-m1-cA_1omz-a2-m1-cB 1omz-a2-m2-cA_1omz-a2-m2-cB 1omz-a2-m3-cA_1omz-a2-m3-cB 1on6-a1-m1-cA_1on6-a1-m1-cB 1on6-a2-m1-cA_1on6-a2-m1-cB 1on6-a2-m2-cA_1on6-a2-m2-cB 1on6-a2-m3-cA_1on6-a2-m3-cB 1on6-a2-m4-cA_1on6-a2-m4-cB 1on8-a1-m1-cB_1on8-a1-m1-cA 1on8-a2-m1-cB_1on8-a2-m1-cA 1on8-a2-m2-cB_1on8-a2-m2-cA 1on8-a2-m3-cB_1on8-a2-m3-cA 1on8-a2-m4-cB_1on8-a2-m4-cA ALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLEAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK SALDSFTLIMQTYNRTDLLLRLLNHYQAVPSLHKVIVVWNNVGEKGPEELWNSLGPHPIPVIFKPQTANKMRNRLQVFPEVETNAVLMVDDDTLISAQDLVFAFSIWQQFPDQIIGFVPRKHVSTSSGIYSYGGFELQTPGPGNGDQYSMVLIGASFFNSKYLELFQKQPAAVHALIDETQNCDDIAMNFLVTRHTGKPSGIFVKPINMVNLERAEHFLQRSYCINKLVNIYDGMPLKYSNIMISQFGFPYANHK 1on0-a1-m1-cA_1on0-a1-m1-cB Crystal Structure of Putative Acetyltransferase (YycN) from Bacillus subtilis, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR144 O32293 O32293 2.2 X-RAY DIFFRACTION 36 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 153 TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLL TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLLE 1on0-a1-m1-cC_1on0-a1-m1-cD Crystal Structure of Putative Acetyltransferase (YycN) from Bacillus subtilis, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR144 O32293 O32293 2.2 X-RAY DIFFRACTION 27 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 153 TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLL TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLLE 1on0-a2-m1-cA_1on0-a2-m1-cC Crystal Structure of Putative Acetyltransferase (YycN) from Bacillus subtilis, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR144 O32293 O32293 2.2 X-RAY DIFFRACTION 42 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 152 1on0-a1-m1-cA_1on0-a1-m1-cC TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLL TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLL 1on0-a2-m1-cA_1on0-a2-m3-cD Crystal Structure of Putative Acetyltransferase (YycN) from Bacillus subtilis, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR144 O32293 O32293 2.2 X-RAY DIFFRACTION 118 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 153 1on0-a2-m1-cC_1on0-a2-m2-cB 1ufh-a2-m3-cB_1ufh-a2-m1-cA TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLL TILTPQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSGIRKLSLHVFAHNQTARKLYEQTGFQETDVVSKKLLE 1on3-a2-m1-cF_1on3-a2-m2-cF Transcarboxylase 12S crystal structure: hexamer assembly and substrate binding to a multienzyme core (with methylmalonyl-coenzyme a and methylmalonic acid bound) Q8GBW6 Q8GBW6 1.9 X-RAY DIFFRACTION 34 1.0 1744 (Propionibacterium freudenreichii) 1744 (Propionibacterium freudenreichii) 517 517 1on9-a2-m1-cF_1on9-a2-m2-cF KLASTMEGRVEQLAEQRQVIEAGGGERRVEKQHSQGKQTARERLNNLLDPHSFDEVGAFRKHRTTLFGMDKAVVPADGVVTGRGTILGRPVHAASQDFTVMGGSAGETQSTKVVETMEQALLTGTPFLFFYDSGGARIQEGIDSLSGYGKMFFANVKLSGVVPQIAIIAGPCAGGASYSPALTDFIIMTKKAHMFITGPQVIKSVTGEDVTADELGGAEAHMAISGNIHFVAEDDDAAELIAKKLLSFLPQNNTEEASFVNPNNDVSPNTELRDIVPIDGKKGYDVRDVIAKIVDWGDYLEVKAGYATNLVTAFARVNGRSVGIVANQPSVMSGCLDINASDKAAEFVNFCDSFNIPLVQLVDVPGFLPGVQQEYGGIIRHGAKMLYAYSEATVPKITVVLRKAYGGSYLAMCNRDLGADAVYAWPSAEIAVMGAEGAANVIFRKEIKAADDPDAMRAEKIEEYQNAFNTPYVAAARGQVDDVIDPADTRRKIASALEMYATKRQTRPAKKHGNFPC KLASTMEGRVEQLAEQRQVIEAGGGERRVEKQHSQGKQTARERLNNLLDPHSFDEVGAFRKHRTTLFGMDKAVVPADGVVTGRGTILGRPVHAASQDFTVMGGSAGETQSTKVVETMEQALLTGTPFLFFYDSGGARIQEGIDSLSGYGKMFFANVKLSGVVPQIAIIAGPCAGGASYSPALTDFIIMTKKAHMFITGPQVIKSVTGEDVTADELGGAEAHMAISGNIHFVAEDDDAAELIAKKLLSFLPQNNTEEASFVNPNNDVSPNTELRDIVPIDGKKGYDVRDVIAKIVDWGDYLEVKAGYATNLVTAFARVNGRSVGIVANQPSVMSGCLDINASDKAAEFVNFCDSFNIPLVQLVDVPGFLPGVQQEYGGIIRHGAKMLYAYSEATVPKITVVLRKAYGGSYLAMCNRDLGADAVYAWPSAEIAVMGAEGAANVIFRKEIKAADDPDAMRAEKIEEYQNAFNTPYVAAARGQVDDVIDPADTRRKIASALEMYATKRQTRPAKKHGNFPC 1on3-a2-m2-cB_1on3-a2-m2-cA Transcarboxylase 12S crystal structure: hexamer assembly and substrate binding to a multienzyme core (with methylmalonyl-coenzyme a and methylmalonic acid bound) Q8GBW6 Q8GBW6 1.9 X-RAY DIFFRACTION 71 1.0 1744 (Propionibacterium freudenreichii) 1744 (Propionibacterium freudenreichii) 516 517 1on3-a1-m1-cB_1on3-a1-m1-cA 1on3-a1-m1-cC_1on3-a1-m1-cA 1on3-a1-m1-cC_1on3-a1-m1-cB 1on3-a1-m1-cD_1on3-a1-m1-cE 1on3-a1-m1-cD_1on3-a1-m1-cF 1on3-a1-m1-cF_1on3-a1-m1-cE 1on3-a2-m1-cB_1on3-a2-m1-cA 1on3-a2-m1-cC_1on3-a2-m1-cA 1on3-a2-m1-cC_1on3-a2-m1-cB 1on3-a2-m1-cD_1on3-a2-m1-cE 1on3-a2-m1-cD_1on3-a2-m1-cF 1on3-a2-m1-cF_1on3-a2-m1-cE 1on3-a2-m2-cC_1on3-a2-m2-cA 1on3-a2-m2-cC_1on3-a2-m2-cB 1on3-a2-m2-cD_1on3-a2-m2-cE 1on3-a2-m2-cD_1on3-a2-m2-cF 1on3-a2-m2-cF_1on3-a2-m2-cE 1on9-a1-m1-cA_1on9-a1-m1-cB 1on9-a1-m1-cC_1on9-a1-m1-cA 1on9-a1-m1-cC_1on9-a1-m1-cB 1on9-a1-m1-cD_1on9-a1-m1-cE 1on9-a1-m1-cD_1on9-a1-m1-cF 1on9-a1-m1-cF_1on9-a1-m1-cE 1on9-a2-m1-cD_1on9-a2-m1-cE 1on9-a2-m1-cD_1on9-a2-m1-cF 1on9-a2-m1-cF_1on9-a2-m1-cE 1on9-a2-m2-cD_1on9-a2-m2-cE 1on9-a2-m2-cD_1on9-a2-m2-cF 1on9-a2-m2-cF_1on9-a2-m2-cE LASTMEGRVEQLAEQRQVIEAGGGERRVEKQHSQGKQTARERLNNLLDPHSFDEVGAFRKHRTTLFGMDKAVVPADGVVTGRGTILGRPVHAASQDFTVMGGSAGETQSTKVVETMEQALLTGTPFLFFYDSGGARIQEGIDSLSGYGKMFFANVKLSGVVPQIAIIAGPCAGGASYSPALTDFIIMTKKAHMFITGPQVIKSVTGEDVTADELGGAEAHMAISGNIHFVAEDDDAAELIAKKLLSFLPQNNTEEASFVNPNNDVSPNTELRDIVPIDGKKGYDVRDVIAKIVDWGDYLEVKAGYATNLVTAFARVNGRSVGIVANQPSVMSGCLDINASDKAAEFVNFCDSFNIPLVQLVDVPGFLPGVQQEYGGIIRHGAKMLYAYSEATVPKITVVLRKAYGGSYLAMCNRDLGADAVYAWPSAEIAVMGAEGAANVIFRKEIKAADDPDAMRAEKIEEYQNAFNTPYVAAARGQVDDVIDPADTRRKIASALEMYATKRQTRPAKKHGNFPC KLASTMEGRVEQLAEQRQVIEAGGGERRVEKQHSQGKQTARERLNNLLDPHSFDEVGAFRKHRTTLFGMDKAVVPADGVVTGRGTILGRPVHAASQDFTVMGGSAGETQSTKVVETMEQALLTGTPFLFFYDSGGARIQEGIDSLSGYGKMFFANVKLSGVVPQIAIIAGPCAGGASYSPALTDFIIMTKKAHMFITGPQVIKSVTGEDVTADELGGAEAHMAISGNIHFVAEDDDAAELIAKKLLSFLPQNNTEEASFVNPNNDVSPNTELRDIVPIDGKKGYDVRDVIAKIVDWGDYLEVKAGYATNLVTAFARVNGRSVGIVANQPSVMSGCLDINASDKAAEFVNFCDSFNIPLVQLVDVPGFLPGVQQEYGGIIRHGAKMLYAYSEATVPKITVVLRKAYGGSYLAMCNRDLGADAVYAWPSAEIAVMGAEGAANVIFRKEIKAADDPDAMRAEKIEEYQNAFNTPYVAAARGQVDDVIDPADTRRKIASALEMYATKRQTRPAKKHGNFPC 1on3-a2-m2-cB_1on3-a2-m2-cE Transcarboxylase 12S crystal structure: hexamer assembly and substrate binding to a multienzyme core (with methylmalonyl-coenzyme a and methylmalonic acid bound) Q8GBW6 Q8GBW6 1.9 X-RAY DIFFRACTION 355 1.0 1744 (Propionibacterium freudenreichii) 1744 (Propionibacterium freudenreichii) 516 520 1on3-a1-m1-cB_1on3-a1-m1-cE 1on3-a1-m1-cC_1on3-a1-m1-cF 1on3-a1-m1-cD_1on3-a1-m1-cA 1on3-a2-m1-cB_1on3-a2-m1-cE 1on3-a2-m1-cC_1on3-a2-m1-cF 1on3-a2-m1-cD_1on3-a2-m1-cA 1on3-a2-m2-cC_1on3-a2-m2-cF 1on3-a2-m2-cD_1on3-a2-m2-cA 1on9-a1-m1-cB_1on9-a1-m1-cE 1on9-a1-m1-cC_1on9-a1-m1-cF 1on9-a1-m1-cD_1on9-a1-m1-cA LASTMEGRVEQLAEQRQVIEAGGGERRVEKQHSQGKQTARERLNNLLDPHSFDEVGAFRKHRTTLFGMDKAVVPADGVVTGRGTILGRPVHAASQDFTVMGGSAGETQSTKVVETMEQALLTGTPFLFFYDSGGARIQEGIDSLSGYGKMFFANVKLSGVVPQIAIIAGPCAGGASYSPALTDFIIMTKKAHMFITGPQVIKSVTGEDVTADELGGAEAHMAISGNIHFVAEDDDAAELIAKKLLSFLPQNNTEEASFVNPNNDVSPNTELRDIVPIDGKKGYDVRDVIAKIVDWGDYLEVKAGYATNLVTAFARVNGRSVGIVANQPSVMSGCLDINASDKAAEFVNFCDSFNIPLVQLVDVPGFLPGVQQEYGGIIRHGAKMLYAYSEATVPKITVVLRKAYGGSYLAMCNRDLGADAVYAWPSAEIAVMGAEGAANVIFRKEIKAADDPDAMRAEKIEEYQNAFNTPYVAAARGQVDDVIDPADTRRKIASALEMYATKRQTRPAKKHGNFPC NNLKLASTMEGRVEQLAEQRQVIEAGGGERRVEKQHSQGKQTARERLNNLLDPHSFDEVGAFRKHRTTLFGMDKAVVPADGVVTGRGTILGRPVHAASQDFTVMGGSAGETQSTKVVETMEQALLTGTPFLFFYDSGGARIQEGIDSLSGYGKMFFANVKLSGVVPQIAIIAGPCAGGASYSPALTDFIIMTKKAHMFITGPQVIKSVTGEDVTADELGGAEAHMAISGNIHFVAEDDDAAELIAKKLLSFLPQNNTEEASFVNPNNDVSPNTELRDIVPIDGKKGYDVRDVIAKIVDWGDYLEVKAGYATNLVTAFARVNGRSVGIVANQPSVMSGCLDINASDKAAEFVNFCDSFNIPLVQLVDVPGFLPGVQQEYGGIIRHGAKMLYAYSEATVPKITVVLRKAYGGSYLAMCNRDLGADAVYAWPSAEIAVMGAEGAANVIFRKEIKAADDPDAMRAEKIEEYQNAFNTPYVAAARGQVDDVIDPADTRRKIASALEMYATKRQTRPAKKHGNFPC 1onf-a1-m1-cA_1onf-a1-m2-cA Crystal structure of Plasmodium falciparum Glutathione reductase Q94655 Q94655 2.6 X-RAY DIFFRACTION 248 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 439 439 VYDLIVIGGGSGGMAAARRAARHNAKVALVEKSRLGGTCVNVGCVPKKIMFNAASVHDILENSRHYGFDTKFSFNLPLLVERRDKYIQRLNNIYRQNLSKDKVDLYEGTASFLEGRNILIAVGNKPVFPPVKGIENTISSDEFFNIKESKKIGIVGSGYIAVELINVIKRLGIDSYIFARGNRILRKFDESVINVLENDMKKNNINIVTFADVVEIKKVSDKNLSIHLSDGRIYEHFDHVIYCVGRSPDTENLKLEKLNVETNNNYIVVDENQRTSVNNIYAVGDCCMVKFYNVQLTPVAINAGRLLADRLFLKKTRKTNYKLIPTVIFSHPPIGTIGLSEEAAIQIYGKENVKIYESKFTNLFFSVYDIEPELKEKTYLKLVCVGKDELIKGLHIIGLNADEIVQGFAVALKMNATKKDFDETIPIHPTAAEEFLTLQ VYDLIVIGGGSGGMAAARRAARHNAKVALVEKSRLGGTCVNVGCVPKKIMFNAASVHDILENSRHYGFDTKFSFNLPLLVERRDKYIQRLNNIYRQNLSKDKVDLYEGTASFLEGRNILIAVGNKPVFPPVKGIENTISSDEFFNIKESKKIGIVGSGYIAVELINVIKRLGIDSYIFARGNRILRKFDESVINVLENDMKKNNINIVTFADVVEIKKVSDKNLSIHLSDGRIYEHFDHVIYCVGRSPDTENLKLEKLNVETNNNYIVVDENQRTSVNNIYAVGDCCMVKFYNVQLTPVAINAGRLLADRLFLKKTRKTNYKLIPTVIFSHPPIGTIGLSEEAAIQIYGKENVKIYESKFTNLFFSVYDIEPELKEKTYLKLVCVGKDELIKGLHIIGLNADEIVQGFAVALKMNATKKDFDETIPIHPTAAEEFLTLQ 1oni-a2-m1-cE_1oni-a2-m1-cF Crystal structure of a human p14.5, a translational inhibitor reveals different mode of ligand binding near the invariant residues of the Yjgf/UK114 protein family P52758 P52758 1.9 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 1oni-a1-m1-cB_1oni-a1-m1-cA 1oni-a1-m1-cB_1oni-a1-m1-cC 1oni-a1-m1-cC_1oni-a1-m1-cA 1oni-a2-m1-cD_1oni-a2-m1-cE 1oni-a2-m1-cD_1oni-a2-m1-cF 1oni-a3-m1-cG_1oni-a3-m1-cH 1oni-a3-m1-cG_1oni-a3-m1-cI 1oni-a3-m1-cH_1oni-a3-m1-cI SSLIRRVISTAKAPGAIGPYSQAVLVDRTIYISGQIGMDPSSGQLVSGGVAEEAKQALKNMGEILKAAGCDFTNVVKTTVLLADINDFNTVNEIYKQYFKSNFPARAAYQVAALPKGSRIEIEAVAIQGPLTTA SSLIRRVISTAKAPGAIGPYSQAVLVDRTIYISGQIGMDPSSGQLVSGGVAEEAKQALKNMGEILKAAGCDFTNVVKTTVLLADINDFNTVNEIYKQYFKSNFPARAAYQVAALPKGSRIEIEAVAIQGPLTTA 1ons-a1-m1-cA_1ons-a1-m2-cA Crystal structure of Escherichia coli heat shock protein YedU P31658 P31658 2.2 X-RAY DIFFRACTION 47 1.0 562 (Escherichia coli) 562 (Escherichia coli) 278 278 1n57-a1-m1-cA_1n57-a1-m2-cA 1pv2-a4-m1-cG_1pv2-a4-m1-cH TSKNPQVDIAEDNAFFPSEYSLSQYTSPVSDLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPHKDEKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAYA TSKNPQVDIAEDNAFFPSEYSLSQYTSPVSDLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPHKDEKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAYA 1ooe-a1-m1-cA_1ooe-a1-m1-cB Structural Genomics of Caenorhabditis elegans : Dihydropteridine reductase Q9XVJ3 Q9XVJ3 1.65 X-RAY DIFFRACTION 144 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 235 235 SSGKVIVYGGKGALGSAILEFFKKNGYTVLNIDLSANDQADSNILVDGNKNWTEQEQSILEQTASSLQGSQVDGVFCVAGGWAGGSASSKDFVKNADLMIKQSVWSSAIAAKLATTHLKPGGLLQLTGAAAAMGPTPSMIGYGMAKAAVHHLTSSLAAKDSGLPDNSAVLTIMPVTLDTPMNRKWMPNADHSSWTPLSFISEHLLKWTTETSSRPSSGALLKITTENGTSTITPQ SSGKVIVYGGKGALGSAILEFFKKNGYTVLNIDLSANDQADSNILVDGNKNWTEQEQSILEQTASSLQGSQVDGVFCVAGGWAGGSASSKDFVKNADLMIKQSVWSSAIAAKLATTHLKPGGLLQLTGAAAAMGPTPSMIGYGMAKAAVHHLTSSLAAKDSGLPDNSAVLTIMPVTLDTPMNRKWMPNADHSSWTPLSFISEHLLKWTTETSSRPSSGALLKITTENGTSTITPQ 1oop-a1-m8-cA_1oop-a1-m9-cA The Crystal Structure of Swine Vesicular Disease Virus P13900 P13900 3 X-RAY DIFFRACTION 87 1.0 12077 (Swine vesicular disease virus (STRAIN UKG/27/72)) 12077 (Swine vesicular disease virus (STRAIN UKG/27/72)) 271 271 1mqt-a1-m10-cA_1mqt-a1-m6-cA 1mqt-a1-m10-cA_1mqt-a1-m9-cA 1mqt-a1-m11-cA_1mqt-a1-m12-cA 1mqt-a1-m11-cA_1mqt-a1-m15-cA 1mqt-a1-m12-cA_1mqt-a1-m13-cA 1mqt-a1-m13-cA_1mqt-a1-m14-cA 1mqt-a1-m14-cA_1mqt-a1-m15-cA 1mqt-a1-m16-cA_1mqt-a1-m17-cA 1mqt-a1-m16-cA_1mqt-a1-m20-cA 1mqt-a1-m17-cA_1mqt-a1-m18-cA 1mqt-a1-m18-cA_1mqt-a1-m19-cA 1mqt-a1-m19-cA_1mqt-a1-m20-cA 1mqt-a1-m1-cA_1mqt-a1-m2-cA 1mqt-a1-m1-cA_1mqt-a1-m5-cA 1mqt-a1-m21-cA_1mqt-a1-m22-cA 1mqt-a1-m21-cA_1mqt-a1-m25-cA 1mqt-a1-m22-cA_1mqt-a1-m23-cA 1mqt-a1-m23-cA_1mqt-a1-m24-cA 1mqt-a1-m24-cA_1mqt-a1-m25-cA 1mqt-a1-m26-cA_1mqt-a1-m27-cA 1mqt-a1-m26-cA_1mqt-a1-m30-cA 1mqt-a1-m27-cA_1mqt-a1-m28-cA 1mqt-a1-m28-cA_1mqt-a1-m29-cA 1mqt-a1-m29-cA_1mqt-a1-m30-cA 1mqt-a1-m2-cA_1mqt-a1-m3-cA 1mqt-a1-m31-cA_1mqt-a1-m32-cA 1mqt-a1-m31-cA_1mqt-a1-m35-cA 1mqt-a1-m32-cA_1mqt-a1-m33-cA 1mqt-a1-m33-cA_1mqt-a1-m34-cA 1mqt-a1-m34-cA_1mqt-a1-m35-cA 1mqt-a1-m36-cA_1mqt-a1-m37-cA 1mqt-a1-m36-cA_1mqt-a1-m40-cA 1mqt-a1-m37-cA_1mqt-a1-m38-cA 1mqt-a1-m38-cA_1mqt-a1-m39-cA 1mqt-a1-m39-cA_1mqt-a1-m40-cA 1mqt-a1-m3-cA_1mqt-a1-m4-cA 1mqt-a1-m41-cA_1mqt-a1-m42-cA 1mqt-a1-m41-cA_1mqt-a1-m45-cA 1mqt-a1-m42-cA_1mqt-a1-m43-cA 1mqt-a1-m43-cA_1mqt-a1-m44-cA 1mqt-a1-m44-cA_1mqt-a1-m45-cA 1mqt-a1-m46-cA_1mqt-a1-m47-cA 1mqt-a1-m46-cA_1mqt-a1-m50-cA 1mqt-a1-m47-cA_1mqt-a1-m48-cA 1mqt-a1-m48-cA_1mqt-a1-m49-cA 1mqt-a1-m49-cA_1mqt-a1-m50-cA 1mqt-a1-m4-cA_1mqt-a1-m5-cA 1mqt-a1-m51-cA_1mqt-a1-m52-cA 1mqt-a1-m51-cA_1mqt-a1-m55-cA 1mqt-a1-m52-cA_1mqt-a1-m53-cA 1mqt-a1-m53-cA_1mqt-a1-m54-cA 1mqt-a1-m54-cA_1mqt-a1-m55-cA 1mqt-a1-m56-cA_1mqt-a1-m57-cA 1mqt-a1-m56-cA_1mqt-a1-m60-cA 1mqt-a1-m57-cA_1mqt-a1-m58-cA 1mqt-a1-m58-cA_1mqt-a1-m59-cA 1mqt-a1-m59-cA_1mqt-a1-m60-cA 1mqt-a1-m6-cA_1mqt-a1-m7-cA 1mqt-a1-m7-cA_1mqt-a1-m8-cA 1mqt-a1-m8-cA_1mqt-a1-m9-cA 1oop-a1-m10-cA_1oop-a1-m6-cA 1oop-a1-m10-cA_1oop-a1-m9-cA 1oop-a1-m11-cA_1oop-a1-m12-cA 1oop-a1-m11-cA_1oop-a1-m15-cA 1oop-a1-m12-cA_1oop-a1-m13-cA 1oop-a1-m13-cA_1oop-a1-m14-cA 1oop-a1-m14-cA_1oop-a1-m15-cA 1oop-a1-m16-cA_1oop-a1-m17-cA 1oop-a1-m16-cA_1oop-a1-m20-cA 1oop-a1-m17-cA_1oop-a1-m18-cA 1oop-a1-m18-cA_1oop-a1-m19-cA 1oop-a1-m19-cA_1oop-a1-m20-cA 1oop-a1-m1-cA_1oop-a1-m2-cA 1oop-a1-m1-cA_1oop-a1-m5-cA 1oop-a1-m21-cA_1oop-a1-m22-cA 1oop-a1-m21-cA_1oop-a1-m25-cA 1oop-a1-m22-cA_1oop-a1-m23-cA 1oop-a1-m23-cA_1oop-a1-m24-cA 1oop-a1-m24-cA_1oop-a1-m25-cA 1oop-a1-m26-cA_1oop-a1-m27-cA 1oop-a1-m26-cA_1oop-a1-m30-cA 1oop-a1-m27-cA_1oop-a1-m28-cA 1oop-a1-m28-cA_1oop-a1-m29-cA 1oop-a1-m29-cA_1oop-a1-m30-cA 1oop-a1-m2-cA_1oop-a1-m3-cA 1oop-a1-m31-cA_1oop-a1-m32-cA 1oop-a1-m31-cA_1oop-a1-m35-cA 1oop-a1-m32-cA_1oop-a1-m33-cA 1oop-a1-m33-cA_1oop-a1-m34-cA 1oop-a1-m34-cA_1oop-a1-m35-cA 1oop-a1-m36-cA_1oop-a1-m37-cA 1oop-a1-m36-cA_1oop-a1-m40-cA 1oop-a1-m37-cA_1oop-a1-m38-cA 1oop-a1-m38-cA_1oop-a1-m39-cA 1oop-a1-m39-cA_1oop-a1-m40-cA 1oop-a1-m3-cA_1oop-a1-m4-cA 1oop-a1-m41-cA_1oop-a1-m42-cA 1oop-a1-m41-cA_1oop-a1-m45-cA 1oop-a1-m42-cA_1oop-a1-m43-cA 1oop-a1-m43-cA_1oop-a1-m44-cA 1oop-a1-m44-cA_1oop-a1-m45-cA 1oop-a1-m46-cA_1oop-a1-m47-cA 1oop-a1-m46-cA_1oop-a1-m50-cA 1oop-a1-m47-cA_1oop-a1-m48-cA 1oop-a1-m48-cA_1oop-a1-m49-cA 1oop-a1-m49-cA_1oop-a1-m50-cA 1oop-a1-m4-cA_1oop-a1-m5-cA 1oop-a1-m51-cA_1oop-a1-m52-cA 1oop-a1-m51-cA_1oop-a1-m55-cA 1oop-a1-m52-cA_1oop-a1-m53-cA 1oop-a1-m53-cA_1oop-a1-m54-cA 1oop-a1-m54-cA_1oop-a1-m55-cA 1oop-a1-m56-cA_1oop-a1-m57-cA 1oop-a1-m56-cA_1oop-a1-m60-cA 1oop-a1-m57-cA_1oop-a1-m58-cA 1oop-a1-m58-cA_1oop-a1-m59-cA 1oop-a1-m59-cA_1oop-a1-m60-cA 1oop-a1-m6-cA_1oop-a1-m7-cA 1oop-a1-m7-cA_1oop-a1-m8-cA 7c9y-a1-m10-cA_7c9y-a1-m6-cA 7c9y-a1-m10-cA_7c9y-a1-m9-cA 7c9y-a1-m11-cA_7c9y-a1-m12-cA 7c9y-a1-m11-cA_7c9y-a1-m15-cA 7c9y-a1-m12-cA_7c9y-a1-m13-cA 7c9y-a1-m13-cA_7c9y-a1-m14-cA 7c9y-a1-m14-cA_7c9y-a1-m15-cA 7c9y-a1-m16-cA_7c9y-a1-m17-cA 7c9y-a1-m16-cA_7c9y-a1-m20-cA 7c9y-a1-m17-cA_7c9y-a1-m18-cA 7c9y-a1-m18-cA_7c9y-a1-m19-cA 7c9y-a1-m19-cA_7c9y-a1-m20-cA 7c9y-a1-m1-cA_7c9y-a1-m2-cA 7c9y-a1-m1-cA_7c9y-a1-m5-cA 7c9y-a1-m21-cA_7c9y-a1-m22-cA 7c9y-a1-m21-cA_7c9y-a1-m25-cA 7c9y-a1-m22-cA_7c9y-a1-m23-cA 7c9y-a1-m23-cA_7c9y-a1-m24-cA 7c9y-a1-m24-cA_7c9y-a1-m25-cA 7c9y-a1-m26-cA_7c9y-a1-m27-cA 7c9y-a1-m26-cA_7c9y-a1-m30-cA 7c9y-a1-m27-cA_7c9y-a1-m28-cA 7c9y-a1-m28-cA_7c9y-a1-m29-cA 7c9y-a1-m29-cA_7c9y-a1-m30-cA 7c9y-a1-m2-cA_7c9y-a1-m3-cA 7c9y-a1-m31-cA_7c9y-a1-m32-cA 7c9y-a1-m31-cA_7c9y-a1-m35-cA 7c9y-a1-m32-cA_7c9y-a1-m33-cA 7c9y-a1-m33-cA_7c9y-a1-m34-cA 7c9y-a1-m34-cA_7c9y-a1-m35-cA 7c9y-a1-m36-cA_7c9y-a1-m37-cA 7c9y-a1-m36-cA_7c9y-a1-m40-cA 7c9y-a1-m37-cA_7c9y-a1-m38-cA 7c9y-a1-m38-cA_7c9y-a1-m39-cA 7c9y-a1-m39-cA_7c9y-a1-m40-cA 7c9y-a1-m3-cA_7c9y-a1-m4-cA 7c9y-a1-m41-cA_7c9y-a1-m42-cA 7c9y-a1-m41-cA_7c9y-a1-m45-cA 7c9y-a1-m42-cA_7c9y-a1-m43-cA 7c9y-a1-m43-cA_7c9y-a1-m44-cA 7c9y-a1-m44-cA_7c9y-a1-m45-cA 7c9y-a1-m46-cA_7c9y-a1-m47-cA 7c9y-a1-m46-cA_7c9y-a1-m50-cA 7c9y-a1-m47-cA_7c9y-a1-m48-cA 7c9y-a1-m48-cA_7c9y-a1-m49-cA 7c9y-a1-m49-cA_7c9y-a1-m50-cA 7c9y-a1-m4-cA_7c9y-a1-m5-cA 7c9y-a1-m51-cA_7c9y-a1-m52-cA 7c9y-a1-m51-cA_7c9y-a1-m55-cA 7c9y-a1-m52-cA_7c9y-a1-m53-cA 7c9y-a1-m53-cA_7c9y-a1-m54-cA 7c9y-a1-m54-cA_7c9y-a1-m55-cA 7c9y-a1-m56-cA_7c9y-a1-m57-cA 7c9y-a1-m56-cA_7c9y-a1-m60-cA 7c9y-a1-m57-cA_7c9y-a1-m58-cA 7c9y-a1-m58-cA_7c9y-a1-m59-cA 7c9y-a1-m59-cA_7c9y-a1-m60-cA 7c9y-a1-m6-cA_7c9y-a1-m7-cA 7c9y-a1-m7-cA_7c9y-a1-m8-cA 7c9y-a1-m8-cA_7c9y-a1-m9-cA 7wl3-a1-m10-c1_7wl3-a1-m6-c1 7wl3-a1-m10-c1_7wl3-a1-m9-c1 7wl3-a1-m11-c1_7wl3-a1-m12-c1 7wl3-a1-m11-c1_7wl3-a1-m15-c1 7wl3-a1-m12-c1_7wl3-a1-m13-c1 7wl3-a1-m13-c1_7wl3-a1-m14-c1 7wl3-a1-m14-c1_7wl3-a1-m15-c1 7wl3-a1-m16-c1_7wl3-a1-m17-c1 7wl3-a1-m16-c1_7wl3-a1-m20-c1 7wl3-a1-m17-c1_7wl3-a1-m18-c1 7wl3-a1-m18-c1_7wl3-a1-m19-c1 7wl3-a1-m19-c1_7wl3-a1-m20-c1 7wl3-a1-m1-c1_7wl3-a1-m2-c1 7wl3-a1-m1-c1_7wl3-a1-m5-c1 7wl3-a1-m21-c1_7wl3-a1-m22-c1 7wl3-a1-m21-c1_7wl3-a1-m25-c1 7wl3-a1-m22-c1_7wl3-a1-m23-c1 7wl3-a1-m23-c1_7wl3-a1-m24-c1 7wl3-a1-m24-c1_7wl3-a1-m25-c1 7wl3-a1-m26-c1_7wl3-a1-m27-c1 7wl3-a1-m26-c1_7wl3-a1-m30-c1 7wl3-a1-m27-c1_7wl3-a1-m28-c1 7wl3-a1-m28-c1_7wl3-a1-m29-c1 7wl3-a1-m29-c1_7wl3-a1-m30-c1 7wl3-a1-m2-c1_7wl3-a1-m3-c1 7wl3-a1-m31-c1_7wl3-a1-m32-c1 7wl3-a1-m31-c1_7wl3-a1-m35-c1 7wl3-a1-m32-c1_7wl3-a1-m33-c1 7wl3-a1-m33-c1_7wl3-a1-m34-c1 7wl3-a1-m34-c1_7wl3-a1-m35-c1 7wl3-a1-m36-c1_7wl3-a1-m37-c1 7wl3-a1-m36-c1_7wl3-a1-m40-c1 7wl3-a1-m37-c1_7wl3-a1-m38-c1 7wl3-a1-m38-c1_7wl3-a1-m39-c1 7wl3-a1-m39-c1_7wl3-a1-m40-c1 7wl3-a1-m3-c1_7wl3-a1-m4-c1 7wl3-a1-m41-c1_7wl3-a1-m42-c1 7wl3-a1-m41-c1_7wl3-a1-m45-c1 7wl3-a1-m42-c1_7wl3-a1-m43-c1 7wl3-a1-m43-c1_7wl3-a1-m44-c1 7wl3-a1-m44-c1_7wl3-a1-m45-c1 7wl3-a1-m46-c1_7wl3-a1-m47-c1 7wl3-a1-m46-c1_7wl3-a1-m50-c1 7wl3-a1-m47-c1_7wl3-a1-m48-c1 7wl3-a1-m48-c1_7wl3-a1-m49-c1 7wl3-a1-m49-c1_7wl3-a1-m50-c1 7wl3-a1-m4-c1_7wl3-a1-m5-c1 7wl3-a1-m51-c1_7wl3-a1-m52-c1 7wl3-a1-m51-c1_7wl3-a1-m55-c1 7wl3-a1-m52-c1_7wl3-a1-m53-c1 7wl3-a1-m53-c1_7wl3-a1-m54-c1 7wl3-a1-m54-c1_7wl3-a1-m55-c1 7wl3-a1-m56-c1_7wl3-a1-m57-c1 7wl3-a1-m56-c1_7wl3-a1-m60-c1 7wl3-a1-m57-c1_7wl3-a1-m58-c1 7wl3-a1-m58-c1_7wl3-a1-m59-c1 7wl3-a1-m59-c1_7wl3-a1-m60-c1 7wl3-a1-m6-c1_7wl3-a1-m7-c1 7wl3-a1-m7-c1_7wl3-a1-m8-c1 7wl3-a1-m8-c1_7wl3-a1-m9-c1 7xb2-a1-m10-c1_7xb2-a1-m6-c1 7xb2-a1-m10-c1_7xb2-a1-m9-c1 7xb2-a1-m11-c1_7xb2-a1-m12-c1 7xb2-a1-m11-c1_7xb2-a1-m15-c1 7xb2-a1-m12-c1_7xb2-a1-m13-c1 7xb2-a1-m13-c1_7xb2-a1-m14-c1 7xb2-a1-m14-c1_7xb2-a1-m15-c1 7xb2-a1-m16-c1_7xb2-a1-m17-c1 7xb2-a1-m16-c1_7xb2-a1-m20-c1 7xb2-a1-m17-c1_7xb2-a1-m18-c1 7xb2-a1-m18-c1_7xb2-a1-m19-c1 7xb2-a1-m19-c1_7xb2-a1-m20-c1 7xb2-a1-m1-c1_7xb2-a1-m2-c1 7xb2-a1-m1-c1_7xb2-a1-m5-c1 7xb2-a1-m21-c1_7xb2-a1-m22-c1 7xb2-a1-m21-c1_7xb2-a1-m25-c1 7xb2-a1-m22-c1_7xb2-a1-m23-c1 7xb2-a1-m23-c1_7xb2-a1-m24-c1 7xb2-a1-m24-c1_7xb2-a1-m25-c1 7xb2-a1-m26-c1_7xb2-a1-m27-c1 7xb2-a1-m26-c1_7xb2-a1-m30-c1 7xb2-a1-m27-c1_7xb2-a1-m28-c1 7xb2-a1-m28-c1_7xb2-a1-m29-c1 7xb2-a1-m29-c1_7xb2-a1-m30-c1 7xb2-a1-m2-c1_7xb2-a1-m3-c1 7xb2-a1-m31-c1_7xb2-a1-m32-c1 7xb2-a1-m31-c1_7xb2-a1-m35-c1 7xb2-a1-m32-c1_7xb2-a1-m33-c1 7xb2-a1-m33-c1_7xb2-a1-m34-c1 7xb2-a1-m34-c1_7xb2-a1-m35-c1 7xb2-a1-m36-c1_7xb2-a1-m37-c1 7xb2-a1-m36-c1_7xb2-a1-m40-c1 7xb2-a1-m37-c1_7xb2-a1-m38-c1 7xb2-a1-m38-c1_7xb2-a1-m39-c1 7xb2-a1-m39-c1_7xb2-a1-m40-c1 7xb2-a1-m3-c1_7xb2-a1-m4-c1 7xb2-a1-m41-c1_7xb2-a1-m42-c1 7xb2-a1-m41-c1_7xb2-a1-m45-c1 7xb2-a1-m42-c1_7xb2-a1-m43-c1 7xb2-a1-m43-c1_7xb2-a1-m44-c1 7xb2-a1-m44-c1_7xb2-a1-m45-c1 7xb2-a1-m46-c1_7xb2-a1-m47-c1 7xb2-a1-m46-c1_7xb2-a1-m50-c1 7xb2-a1-m47-c1_7xb2-a1-m48-c1 7xb2-a1-m48-c1_7xb2-a1-m49-c1 7xb2-a1-m49-c1_7xb2-a1-m50-c1 7xb2-a1-m4-c1_7xb2-a1-m5-c1 7xb2-a1-m51-c1_7xb2-a1-m52-c1 7xb2-a1-m51-c1_7xb2-a1-m55-c1 7xb2-a1-m52-c1_7xb2-a1-m53-c1 7xb2-a1-m53-c1_7xb2-a1-m54-c1 7xb2-a1-m54-c1_7xb2-a1-m55-c1 7xb2-a1-m56-c1_7xb2-a1-m57-c1 7xb2-a1-m56-c1_7xb2-a1-m60-c1 7xb2-a1-m57-c1_7xb2-a1-m58-c1 7xb2-a1-m58-c1_7xb2-a1-m59-c1 7xb2-a1-m59-c1_7xb2-a1-m60-c1 7xb2-a1-m6-c1_7xb2-a1-m7-c1 7xb2-a1-m7-c1_7xb2-a1-m8-c1 7xb2-a1-m8-c1_7xb2-a1-m9-c1 RVADTIGSGPVNSESIPALTAAETGHTSQVVPSDTMQTRHVKNYHSRSESTVENFLCRSACVFYTTYENHDSDGDNFAYWVINTRQVAQLRRKLEMFTYARFDLELTFVITSTQEQPTVRGQDAPVLTHQIMYVPPGGPVPTKVNSYSWQTSTNPSVFWTEGSAPPRMSVPFIGIGNAYSMFYDGWARFDKQGTYGISTLNNMGTLYMRHVNDGGPGPIVSTVRIYFKPKHVKTWVPRPPRLCQYQKAGNVNFEPTGVTEGRTDITTMKTT RVADTIGSGPVNSESIPALTAAETGHTSQVVPSDTMQTRHVKNYHSRSESTVENFLCRSACVFYTTYENHDSDGDNFAYWVINTRQVAQLRRKLEMFTYARFDLELTFVITSTQEQPTVRGQDAPVLTHQIMYVPPGGPVPTKVNSYSWQTSTNPSVFWTEGSAPPRMSVPFIGIGNAYSMFYDGWARFDKQGTYGISTLNNMGTLYMRHVNDGGPGPIVSTVRIYFKPKHVKTWVPRPPRLCQYQKAGNVNFEPTGVTEGRTDITTMKTT 1ooy-a1-m1-cA_1ooy-a1-m2-cA SUCCINYL-COA:3-KETOACID COA TRANSFERASE FROM PIG HEART Q29551 Q29551 1.7 X-RAY DIFFRACTION 10 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 463 463 1ooz-a1-m1-cA_1ooz-a1-m2-cA TKFYTDAVEAVKDIPNGATVLVGGFGLCGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERNVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAKGNAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVTT TKFYTDAVEAVKDIPNGATVLVGGFGLCGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERNVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAKGNAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVTT 1op8-a3-m1-cF_1op8-a3-m1-cE Crystal Structure of Human Granzyme A P12544 P12544 2.5 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 1op8-a1-m1-cB_1op8-a1-m1-cA 1op8-a2-m1-cD_1op8-a2-m1-cC 1orf-a1-m2-cA_1orf-a1-m1-cA IIGGNEVTPHSRPYMVLLSLDRKTICAGALIAKDWVLTAAHCNLNKRSQVILGAHSITREEPTKQIMLVKKEFPYPCYDPATREGDLKLLQLTEKAKINKYVTILHLPKKGDDVKPGTMCQVAGWGRTHNSASWSDTLREVNITIIDRKVCNDRNHYNFNPVIGMNMVCAGSLRGGRDSCNGDSGSPLLCEGVFRGVTSFGLENKCGDPRGPGVYILLSKKHLNWIIMTIKGAV IIGGNEVTPHSRPYMVLLSLDRKTICAGALIAKDWVLTAAHCNLNKRSQVILGAHSITREEPTKQIMLVKKEFPYPCYDPATREGDLKLLQLTEKAKINKYVTILHLPKKGDDVKPGTMCQVAGWGRTHNSASWSDTLREVNITIIDRKVCNDRNHYNFNPVIGMNMVCAGSLRGGRDSCNGDSGSPLLCEGVFRGVTSFGLENKCGDPRGPGVYILLSKKHLNWIIMTIKGAV 1opa-a1-m1-cA_1opa-a1-m1-cB THE CRYSTAL STRUCTURES OF HOLO-AND APO-CELLULAR RETINOL BINDING PROTEIN II P06768 P06768 1.9 X-RAY DIFFRACTION 34 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 133 133 TKDQNGTWEMESNENFEGYMKALDIDFATRKIAVRLTQTKIIVQDGDNFKTKTNSTFRNYDLDFTVGVEFDEHTKGLDGRNVKTLVTWEGNTLVCVQKGEKENRGWKQWVEGDKLYLELTCGDQVCRQVFKKK TKDQNGTWEMESNENFEGYMKALDIDFATRKIAVRLTQTKIIVQDGDNFKTKTNSTFRNYDLDFTVGVEFDEHTKGLDGRNVKTLVTWEGNTLVCVQKGEKENRGWKQWVEGDKLYLELTCGDQVCRQVFKKK 1ope-a1-m1-cA_1ope-a1-m2-cB Deletion mutant of SUCCINYL-COA:3-KETOACID COA TRANSFERASE FROM PIG HEART Q29551 Q29551 2.5 X-RAY DIFFRACTION 26 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 453 463 1ooy-a1-m1-cA_1ooy-a1-m2-cB 1ooy-a1-m2-cA_1ooy-a1-m1-cB 1ooz-a1-m1-cB_1ooz-a1-m2-cA 1ooz-a1-m2-cB_1ooz-a1-m1-cA 1ope-a1-m2-cA_1ope-a1-m1-cB TKFYTDAVEAVKDIPNGATVLVGGFGLCGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERLSVRVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIVKGMGGAMDLVSSAKTKVVVTMEHSAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVTT TKFYTDAVEAVKDIPNGATVLVGGFGLCGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERLSVRVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVTT 1oph-a2-m1-cA_1oph-a2-m2-cA NON-COVALENT COMPLEX BETWEEN ALPHA-1-PI-PITTSBURGH AND S195A TRYPSIN P01009 P01009 2.3 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 375 375 HPTFNKITPNLAEFAFSLYRQLAHQSNSTNILFSPVSIAAAFAMLSLGAKGDTHDEILEGLNFNLTEIPEAQIHEGFQELLRTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHSKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLSITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLTIDEKGTEAAGAMFLEAIPRSIPPEVKFNKPFVFLIIEQNTKAPLFMGRVVNPTQK HPTFNKITPNLAEFAFSLYRQLAHQSNSTNILFSPVSIAAAFAMLSLGAKGDTHDEILEGLNFNLTEIPEAQIHEGFQELLRTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHSKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLSITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLTIDEKGTEAAGAMFLEAIPRSIPPEVKFNKPFVFLIIEQNTKAPLFMGRVVNPTQK 1opl-a3-m1-cA_1opl-a3-m2-cA Structural basis for the auto-inhibition of c-Abl tyrosine kinase P00519 P00519 3.42 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 451 451 DPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTVYGVSPNYDKWEMERTDITMKHKLGGGQYGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRNLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSISDEVEKELGK DPNLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSNYITPVNSLEKHSWYHGPVSRNAAEYLLSSGINGSFLVRESESSPGQRSISLRYEGRVYHYRINTASDGKLYVSSESRFNTLAELVHHHSTVADGLITTLHYPAPKRNKPTVYGVSPNYDKWEMERTDITMKHKLGGGQYGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRNLAARNCLVGENHLVKVADFGLSRLMTGDTYTAHAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSISDEVEKELGK 1opo-a1-m10-cA_1opo-a1-m9-cB THE STRUCTURE OF CARNATION MOTTLE VIRUS P04383 P04383 3.2 X-RAY DIFFRACTION 65 1.0 11986 (Carnation mottle virus) 11986 (Carnation mottle virus) 267 267 1opo-a1-m10-cB_1opo-a1-m6-cA 1opo-a1-m10-cC_1opo-a1-m24-cC 1opo-a1-m11-cA_1opo-a1-m15-cB 1opo-a1-m11-cB_1opo-a1-m12-cA 1opo-a1-m11-cC_1opo-a1-m16-cC 1opo-a1-m12-cB_1opo-a1-m13-cA 1opo-a1-m12-cC_1opo-a1-m38-cC 1opo-a1-m13-cB_1opo-a1-m14-cA 1opo-a1-m13-cC_1opo-a1-m47-cC 1opo-a1-m14-cB_1opo-a1-m15-cA 1opo-a1-m14-cC_1opo-a1-m45-cC 1opo-a1-m15-cC_1opo-a1-m29-cC 1opo-a1-m16-cA_1opo-a1-m20-cB 1opo-a1-m16-cB_1opo-a1-m17-cA 1opo-a1-m17-cB_1opo-a1-m18-cA 1opo-a1-m17-cC_1opo-a1-m28-cC 1opo-a1-m18-cB_1opo-a1-m19-cA 1opo-a1-m18-cC_1opo-a1-m52-cC 1opo-a1-m19-cB_1opo-a1-m20-cA 1opo-a1-m19-cC_1opo-a1-m60-cC 1opo-a1-m1-cA_1opo-a1-m5-cB 1opo-a1-m1-cB_1opo-a1-m2-cA 1opo-a1-m1-cC_1opo-a1-m6-cC 1opo-a1-m20-cC_1opo-a1-m39-cC 1opo-a1-m21-cA_1opo-a1-m25-cB 1opo-a1-m21-cB_1opo-a1-m22-cA 1opo-a1-m21-cC_1opo-a1-m26-cC 1opo-a1-m22-cB_1opo-a1-m23-cA 1opo-a1-m22-cC_1opo-a1-m43-cC 1opo-a1-m23-cB_1opo-a1-m24-cA 1opo-a1-m24-cB_1opo-a1-m25-cA 1opo-a1-m25-cC_1opo-a1-m54-cC 1opo-a1-m26-cA_1opo-a1-m30-cB 1opo-a1-m26-cB_1opo-a1-m27-cA 1opo-a1-m27-cB_1opo-a1-m28-cA 1opo-a1-m27-cC_1opo-a1-m53-cC 1opo-a1-m28-cB_1opo-a1-m29-cA 1opo-a1-m29-cB_1opo-a1-m30-cA 1opo-a1-m2-cB_1opo-a1-m3-cA 1opo-a1-m2-cC_1opo-a1-m23-cC 1opo-a1-m30-cC_1opo-a1-m44-cC 1opo-a1-m31-cA_1opo-a1-m35-cB 1opo-a1-m31-cB_1opo-a1-m32-cA 1opo-a1-m31-cC_1opo-a1-m36-cC 1opo-a1-m32-cB_1opo-a1-m33-cA 1opo-a1-m32-cC_1opo-a1-m58-cC 1opo-a1-m33-cB_1opo-a1-m34-cA 1opo-a1-m33-cC_1opo-a1-m7-cC 1opo-a1-m34-cB_1opo-a1-m35-cA 1opo-a1-m34-cC_1opo-a1-m5-cC 1opo-a1-m35-cC_1opo-a1-m49-cC 1opo-a1-m36-cA_1opo-a1-m40-cB 1opo-a1-m36-cB_1opo-a1-m37-cA 1opo-a1-m37-cB_1opo-a1-m38-cA 1opo-a1-m37-cC_1opo-a1-m48-cC 1opo-a1-m38-cB_1opo-a1-m39-cA 1opo-a1-m39-cB_1opo-a1-m40-cA 1opo-a1-m3-cB_1opo-a1-m4-cA 1opo-a1-m3-cC_1opo-a1-m42-cC 1opo-a1-m40-cC_1opo-a1-m59-cC 1opo-a1-m41-cA_1opo-a1-m45-cB 1opo-a1-m41-cB_1opo-a1-m42-cA 1opo-a1-m41-cC_1opo-a1-m46-cC 1opo-a1-m42-cB_1opo-a1-m43-cA 1opo-a1-m43-cB_1opo-a1-m44-cA 1opo-a1-m44-cB_1opo-a1-m45-cA 1opo-a1-m46-cA_1opo-a1-m50-cB 1opo-a1-m46-cB_1opo-a1-m47-cA 1opo-a1-m47-cB_1opo-a1-m48-cA 1opo-a1-m48-cB_1opo-a1-m49-cA 1opo-a1-m49-cB_1opo-a1-m50-cA 1opo-a1-m4-cB_1opo-a1-m5-cA 1opo-a1-m4-cC_1opo-a1-m50-cC 1opo-a1-m51-cA_1opo-a1-m55-cB 1opo-a1-m51-cB_1opo-a1-m52-cA 1opo-a1-m51-cC_1opo-a1-m56-cC 1opo-a1-m52-cB_1opo-a1-m53-cA 1opo-a1-m53-cB_1opo-a1-m54-cA 1opo-a1-m54-cB_1opo-a1-m55-cA 1opo-a1-m55-cC_1opo-a1-m9-cC 1opo-a1-m56-cA_1opo-a1-m60-cB 1opo-a1-m56-cB_1opo-a1-m57-cA 1opo-a1-m57-cB_1opo-a1-m58-cA 1opo-a1-m57-cC_1opo-a1-m8-cC 1opo-a1-m58-cB_1opo-a1-m59-cA 1opo-a1-m59-cB_1opo-a1-m60-cA 1opo-a1-m6-cB_1opo-a1-m7-cA 1opo-a1-m7-cB_1opo-a1-m8-cA 1opo-a1-m8-cB_1opo-a1-m9-cA SMTMSKTELLSTVKGTTGVIPSFEDWVVSPRNVAVFPQLSLLATNFNKYRITALTVKYSPACSFETNGRVALGFNDDASDTPPTTKVGFYDLGKHVETAAQTAKDLVIPVDGKTRFIRDSASDDAKLVDFGRIVLSTYGFDKADTVVGELFIQYTIVLSDPTKTAKISQASNDKVSDGPTYVVPSVNGNELQLRVVAAGKWCIIVRGTVEGGFTKPTLIGPGISGDVDYESARPIAVCELVTQMEGQILKITKTSAEQPLQWVVYRM SMTMSKTELLSTVKGTTGVIPSFEDWVVSPRNVAVFPQLSLLATNFNKYRITALTVKYSPACSFETNGRVALGFNDDASDTPPTTKVGFYDLGKHVETAAQTAKDLVIPVDGKTRFIRDSASDDAKLVDFGRIVLSTYGFDKADTVVGELFIQYTIVLSDPTKTAKISQASNDKVSDGPTYVVPSVNGNELQLRVVAAGKWCIIVRGTVEGGFTKPTLIGPGISGDVDYESARPIAVCELVTQMEGQILKITKTSAEQPLQWVVYRM 1opo-a1-m8-cB_1opo-a1-m9-cC THE STRUCTURE OF CARNATION MOTTLE VIRUS P04383 P04383 3.2 X-RAY DIFFRACTION 69 1.0 11986 (Carnation mottle virus) 11986 (Carnation mottle virus) 267 268 1opo-a1-m10-cA_1opo-a1-m6-cA 1opo-a1-m10-cA_1opo-a1-m9-cA 1opo-a1-m10-cB_1opo-a1-m24-cC 1opo-a1-m10-cB_1opo-a1-m6-cC 1opo-a1-m11-cA_1opo-a1-m12-cA 1opo-a1-m11-cA_1opo-a1-m15-cA 1opo-a1-m11-cB_1opo-a1-m12-cC 1opo-a1-m11-cB_1opo-a1-m16-cC 1opo-a1-m12-cA_1opo-a1-m13-cA 1opo-a1-m12-cB_1opo-a1-m13-cC 1opo-a1-m12-cB_1opo-a1-m38-cC 1opo-a1-m13-cA_1opo-a1-m14-cA 1opo-a1-m13-cB_1opo-a1-m14-cC 1opo-a1-m13-cB_1opo-a1-m47-cC 1opo-a1-m14-cA_1opo-a1-m15-cA 1opo-a1-m14-cB_1opo-a1-m15-cC 1opo-a1-m14-cB_1opo-a1-m45-cC 1opo-a1-m15-cB_1opo-a1-m11-cC 1opo-a1-m15-cB_1opo-a1-m29-cC 1opo-a1-m16-cA_1opo-a1-m17-cA 1opo-a1-m16-cA_1opo-a1-m20-cA 1opo-a1-m16-cB_1opo-a1-m11-cC 1opo-a1-m16-cB_1opo-a1-m17-cC 1opo-a1-m17-cA_1opo-a1-m18-cA 1opo-a1-m17-cB_1opo-a1-m18-cC 1opo-a1-m17-cB_1opo-a1-m28-cC 1opo-a1-m18-cA_1opo-a1-m19-cA 1opo-a1-m18-cB_1opo-a1-m19-cC 1opo-a1-m18-cB_1opo-a1-m52-cC 1opo-a1-m19-cA_1opo-a1-m20-cA 1opo-a1-m19-cB_1opo-a1-m20-cC 1opo-a1-m19-cB_1opo-a1-m60-cC 1opo-a1-m1-cA_1opo-a1-m2-cA 1opo-a1-m1-cA_1opo-a1-m5-cA 1opo-a1-m1-cB_1opo-a1-m2-cC 1opo-a1-m1-cB_1opo-a1-m6-cC 1opo-a1-m20-cB_1opo-a1-m16-cC 1opo-a1-m20-cB_1opo-a1-m39-cC 1opo-a1-m21-cA_1opo-a1-m22-cA 1opo-a1-m21-cA_1opo-a1-m25-cA 1opo-a1-m21-cB_1opo-a1-m22-cC 1opo-a1-m21-cB_1opo-a1-m26-cC 1opo-a1-m22-cA_1opo-a1-m23-cA 1opo-a1-m22-cB_1opo-a1-m23-cC 1opo-a1-m22-cB_1opo-a1-m43-cC 1opo-a1-m23-cA_1opo-a1-m24-cA 1opo-a1-m23-cB_1opo-a1-m24-cC 1opo-a1-m23-cB_1opo-a1-m2-cC 1opo-a1-m24-cA_1opo-a1-m25-cA 1opo-a1-m24-cB_1opo-a1-m10-cC 1opo-a1-m24-cB_1opo-a1-m25-cC 1opo-a1-m25-cB_1opo-a1-m21-cC 1opo-a1-m25-cB_1opo-a1-m54-cC 1opo-a1-m26-cA_1opo-a1-m27-cA 1opo-a1-m26-cA_1opo-a1-m30-cA 1opo-a1-m26-cB_1opo-a1-m21-cC 1opo-a1-m26-cB_1opo-a1-m27-cC 1opo-a1-m27-cA_1opo-a1-m28-cA 1opo-a1-m27-cB_1opo-a1-m28-cC 1opo-a1-m27-cB_1opo-a1-m53-cC 1opo-a1-m28-cA_1opo-a1-m29-cA 1opo-a1-m28-cB_1opo-a1-m17-cC 1opo-a1-m28-cB_1opo-a1-m29-cC 1opo-a1-m29-cA_1opo-a1-m30-cA 1opo-a1-m29-cB_1opo-a1-m15-cC 1opo-a1-m29-cB_1opo-a1-m30-cC 1opo-a1-m2-cA_1opo-a1-m3-cA 1opo-a1-m2-cB_1opo-a1-m23-cC 1opo-a1-m2-cB_1opo-a1-m3-cC 1opo-a1-m30-cB_1opo-a1-m26-cC 1opo-a1-m30-cB_1opo-a1-m44-cC 1opo-a1-m31-cA_1opo-a1-m32-cA 1opo-a1-m31-cA_1opo-a1-m35-cA 1opo-a1-m31-cB_1opo-a1-m32-cC 1opo-a1-m31-cB_1opo-a1-m36-cC 1opo-a1-m32-cA_1opo-a1-m33-cA 1opo-a1-m32-cB_1opo-a1-m33-cC 1opo-a1-m32-cB_1opo-a1-m58-cC 1opo-a1-m33-cA_1opo-a1-m34-cA 1opo-a1-m33-cB_1opo-a1-m34-cC 1opo-a1-m33-cB_1opo-a1-m7-cC 1opo-a1-m34-cA_1opo-a1-m35-cA 1opo-a1-m34-cB_1opo-a1-m35-cC 1opo-a1-m34-cB_1opo-a1-m5-cC 1opo-a1-m35-cB_1opo-a1-m31-cC 1opo-a1-m35-cB_1opo-a1-m49-cC 1opo-a1-m36-cA_1opo-a1-m37-cA 1opo-a1-m36-cA_1opo-a1-m40-cA 1opo-a1-m36-cB_1opo-a1-m31-cC 1opo-a1-m36-cB_1opo-a1-m37-cC 1opo-a1-m37-cA_1opo-a1-m38-cA 1opo-a1-m37-cB_1opo-a1-m38-cC 1opo-a1-m37-cB_1opo-a1-m48-cC 1opo-a1-m38-cA_1opo-a1-m39-cA 1opo-a1-m38-cB_1opo-a1-m12-cC 1opo-a1-m38-cB_1opo-a1-m39-cC 1opo-a1-m39-cA_1opo-a1-m40-cA 1opo-a1-m39-cB_1opo-a1-m20-cC 1opo-a1-m39-cB_1opo-a1-m40-cC 1opo-a1-m3-cA_1opo-a1-m4-cA 1opo-a1-m3-cB_1opo-a1-m42-cC 1opo-a1-m3-cB_1opo-a1-m4-cC 1opo-a1-m40-cB_1opo-a1-m36-cC 1opo-a1-m40-cB_1opo-a1-m59-cC 1opo-a1-m41-cA_1opo-a1-m42-cA 1opo-a1-m41-cA_1opo-a1-m45-cA 1opo-a1-m41-cB_1opo-a1-m42-cC 1opo-a1-m41-cB_1opo-a1-m46-cC 1opo-a1-m42-cA_1opo-a1-m43-cA 1opo-a1-m42-cB_1opo-a1-m3-cC 1opo-a1-m42-cB_1opo-a1-m43-cC 1opo-a1-m43-cA_1opo-a1-m44-cA 1opo-a1-m43-cB_1opo-a1-m22-cC 1opo-a1-m43-cB_1opo-a1-m44-cC 1opo-a1-m44-cA_1opo-a1-m45-cA 1opo-a1-m44-cB_1opo-a1-m30-cC 1opo-a1-m44-cB_1opo-a1-m45-cC 1opo-a1-m45-cB_1opo-a1-m14-cC 1opo-a1-m45-cB_1opo-a1-m41-cC 1opo-a1-m46-cA_1opo-a1-m47-cA 1opo-a1-m46-cA_1opo-a1-m50-cA 1opo-a1-m46-cB_1opo-a1-m41-cC 1opo-a1-m46-cB_1opo-a1-m47-cC 1opo-a1-m47-cA_1opo-a1-m48-cA 1opo-a1-m47-cB_1opo-a1-m13-cC 1opo-a1-m47-cB_1opo-a1-m48-cC 1opo-a1-m48-cA_1opo-a1-m49-cA 1opo-a1-m48-cB_1opo-a1-m37-cC 1opo-a1-m48-cB_1opo-a1-m49-cC 1opo-a1-m49-cA_1opo-a1-m50-cA 1opo-a1-m49-cB_1opo-a1-m35-cC 1opo-a1-m49-cB_1opo-a1-m50-cC 1opo-a1-m4-cA_1opo-a1-m5-cA 1opo-a1-m4-cB_1opo-a1-m50-cC 1opo-a1-m4-cB_1opo-a1-m5-cC 1opo-a1-m50-cB_1opo-a1-m46-cC 1opo-a1-m50-cB_1opo-a1-m4-cC 1opo-a1-m51-cA_1opo-a1-m52-cA 1opo-a1-m51-cA_1opo-a1-m55-cA 1opo-a1-m51-cB_1opo-a1-m52-cC 1opo-a1-m51-cB_1opo-a1-m56-cC 1opo-a1-m52-cA_1opo-a1-m53-cA 1opo-a1-m52-cB_1opo-a1-m18-cC 1opo-a1-m52-cB_1opo-a1-m53-cC 1opo-a1-m53-cA_1opo-a1-m54-cA 1opo-a1-m53-cB_1opo-a1-m27-cC 1opo-a1-m53-cB_1opo-a1-m54-cC 1opo-a1-m54-cA_1opo-a1-m55-cA 1opo-a1-m54-cB_1opo-a1-m25-cC 1opo-a1-m54-cB_1opo-a1-m55-cC 1opo-a1-m55-cB_1opo-a1-m51-cC 1opo-a1-m55-cB_1opo-a1-m9-cC 1opo-a1-m56-cA_1opo-a1-m57-cA 1opo-a1-m56-cA_1opo-a1-m60-cA 1opo-a1-m56-cB_1opo-a1-m51-cC 1opo-a1-m56-cB_1opo-a1-m57-cC 1opo-a1-m57-cA_1opo-a1-m58-cA 1opo-a1-m57-cB_1opo-a1-m58-cC 1opo-a1-m57-cB_1opo-a1-m8-cC 1opo-a1-m58-cA_1opo-a1-m59-cA 1opo-a1-m58-cB_1opo-a1-m32-cC 1opo-a1-m58-cB_1opo-a1-m59-cC 1opo-a1-m59-cA_1opo-a1-m60-cA 1opo-a1-m59-cB_1opo-a1-m40-cC 1opo-a1-m59-cB_1opo-a1-m60-cC 1opo-a1-m5-cB_1opo-a1-m1-cC 1opo-a1-m5-cB_1opo-a1-m34-cC 1opo-a1-m60-cB_1opo-a1-m19-cC 1opo-a1-m60-cB_1opo-a1-m56-cC 1opo-a1-m6-cA_1opo-a1-m7-cA 1opo-a1-m6-cB_1opo-a1-m1-cC 1opo-a1-m6-cB_1opo-a1-m7-cC 1opo-a1-m7-cA_1opo-a1-m8-cA 1opo-a1-m7-cB_1opo-a1-m33-cC 1opo-a1-m7-cB_1opo-a1-m8-cC 1opo-a1-m8-cA_1opo-a1-m9-cA 1opo-a1-m8-cB_1opo-a1-m57-cC 1opo-a1-m9-cB_1opo-a1-m10-cC 1opo-a1-m9-cB_1opo-a1-m55-cC SMTMSKTELLSTVKGTTGVIPSFEDWVVSPRNVAVFPQLSLLATNFNKYRITALTVKYSPACSFETNGRVALGFNDDASDTPPTTKVGFYDLGKHVETAAQTAKDLVIPVDGKTRFIRDSASDDAKLVDFGRIVLSTYGFDKADTVVGELFIQYTIVLSDPTKTAKISQASNDKVSDGPTYVVPSVNGNELQLRVVAAGKWCIIVRGTVEGGFTKPTLIGPGISGDVDYESARPIAVCELVTQMEGQILKITKTSAEQPLQWVVYRM KSMTMSKTELLSTVKGTTGVIPSFEDWVVSPRNVAVFPQLSLLATNFNKYRITALTVKYSPACSFETNGRVALGFNDDASDTPPTTKVGFYDLGKHVETAAQTAKDLVIPVDGKTRFIRDSASDDAKLVDFGRIVLSTYGFDKADTVVGELFIQYTIVLSDPTKTAKISQASNDKVSDGPTYVVPSVNGNELQLRVVAAGKWCIIVRGTVEGGFTKPTLIGPGISGDVDYESARPIAVCELVTQMEGQILKITKTSAEQPLQWVVYRM 1opo-a1-m9-cA_1opo-a1-m9-cB THE STRUCTURE OF CARNATION MOTTLE VIRUS P04383 P04383 3.2 X-RAY DIFFRACTION 42 1.0 11986 (Carnation mottle virus) 11986 (Carnation mottle virus) 267 267 1opo-a1-m10-cA_1opo-a1-m10-cB 1opo-a1-m10-cA_1opo-a1-m10-cC 1opo-a1-m10-cB_1opo-a1-m10-cC 1opo-a1-m11-cA_1opo-a1-m11-cB 1opo-a1-m11-cA_1opo-a1-m11-cC 1opo-a1-m11-cB_1opo-a1-m11-cC 1opo-a1-m12-cA_1opo-a1-m12-cB 1opo-a1-m12-cA_1opo-a1-m12-cC 1opo-a1-m12-cB_1opo-a1-m12-cC 1opo-a1-m13-cA_1opo-a1-m13-cB 1opo-a1-m13-cA_1opo-a1-m13-cC 1opo-a1-m13-cB_1opo-a1-m13-cC 1opo-a1-m14-cA_1opo-a1-m14-cB 1opo-a1-m14-cA_1opo-a1-m14-cC 1opo-a1-m14-cB_1opo-a1-m14-cC 1opo-a1-m15-cA_1opo-a1-m15-cB 1opo-a1-m15-cA_1opo-a1-m15-cC 1opo-a1-m15-cB_1opo-a1-m15-cC 1opo-a1-m16-cA_1opo-a1-m16-cB 1opo-a1-m16-cA_1opo-a1-m16-cC 1opo-a1-m16-cB_1opo-a1-m16-cC 1opo-a1-m17-cA_1opo-a1-m17-cB 1opo-a1-m17-cA_1opo-a1-m17-cC 1opo-a1-m17-cB_1opo-a1-m17-cC 1opo-a1-m18-cA_1opo-a1-m18-cB 1opo-a1-m18-cA_1opo-a1-m18-cC 1opo-a1-m18-cB_1opo-a1-m18-cC 1opo-a1-m19-cA_1opo-a1-m19-cB 1opo-a1-m19-cA_1opo-a1-m19-cC 1opo-a1-m19-cB_1opo-a1-m19-cC 1opo-a1-m1-cA_1opo-a1-m1-cB 1opo-a1-m1-cA_1opo-a1-m1-cC 1opo-a1-m1-cB_1opo-a1-m1-cC 1opo-a1-m20-cA_1opo-a1-m20-cB 1opo-a1-m20-cA_1opo-a1-m20-cC 1opo-a1-m20-cB_1opo-a1-m20-cC 1opo-a1-m21-cA_1opo-a1-m21-cB 1opo-a1-m21-cA_1opo-a1-m21-cC 1opo-a1-m21-cB_1opo-a1-m21-cC 1opo-a1-m22-cA_1opo-a1-m22-cB 1opo-a1-m22-cA_1opo-a1-m22-cC 1opo-a1-m22-cB_1opo-a1-m22-cC 1opo-a1-m23-cA_1opo-a1-m23-cB 1opo-a1-m23-cA_1opo-a1-m23-cC 1opo-a1-m23-cB_1opo-a1-m23-cC 1opo-a1-m24-cA_1opo-a1-m24-cB 1opo-a1-m24-cA_1opo-a1-m24-cC 1opo-a1-m24-cB_1opo-a1-m24-cC 1opo-a1-m25-cA_1opo-a1-m25-cB 1opo-a1-m25-cA_1opo-a1-m25-cC 1opo-a1-m25-cB_1opo-a1-m25-cC 1opo-a1-m26-cA_1opo-a1-m26-cB 1opo-a1-m26-cA_1opo-a1-m26-cC 1opo-a1-m26-cB_1opo-a1-m26-cC 1opo-a1-m27-cA_1opo-a1-m27-cB 1opo-a1-m27-cA_1opo-a1-m27-cC 1opo-a1-m27-cB_1opo-a1-m27-cC 1opo-a1-m28-cA_1opo-a1-m28-cB 1opo-a1-m28-cA_1opo-a1-m28-cC 1opo-a1-m28-cB_1opo-a1-m28-cC 1opo-a1-m29-cA_1opo-a1-m29-cB 1opo-a1-m29-cA_1opo-a1-m29-cC 1opo-a1-m29-cB_1opo-a1-m29-cC 1opo-a1-m2-cA_1opo-a1-m2-cB 1opo-a1-m2-cA_1opo-a1-m2-cC 1opo-a1-m2-cB_1opo-a1-m2-cC 1opo-a1-m30-cA_1opo-a1-m30-cB 1opo-a1-m30-cA_1opo-a1-m30-cC 1opo-a1-m30-cB_1opo-a1-m30-cC 1opo-a1-m31-cA_1opo-a1-m31-cB 1opo-a1-m31-cA_1opo-a1-m31-cC 1opo-a1-m31-cB_1opo-a1-m31-cC 1opo-a1-m32-cA_1opo-a1-m32-cB 1opo-a1-m32-cA_1opo-a1-m32-cC 1opo-a1-m32-cB_1opo-a1-m32-cC 1opo-a1-m33-cA_1opo-a1-m33-cB 1opo-a1-m33-cA_1opo-a1-m33-cC 1opo-a1-m33-cB_1opo-a1-m33-cC 1opo-a1-m34-cA_1opo-a1-m34-cB 1opo-a1-m34-cA_1opo-a1-m34-cC 1opo-a1-m34-cB_1opo-a1-m34-cC 1opo-a1-m35-cA_1opo-a1-m35-cB 1opo-a1-m35-cA_1opo-a1-m35-cC 1opo-a1-m35-cB_1opo-a1-m35-cC 1opo-a1-m36-cA_1opo-a1-m36-cB 1opo-a1-m36-cA_1opo-a1-m36-cC 1opo-a1-m36-cB_1opo-a1-m36-cC 1opo-a1-m37-cA_1opo-a1-m37-cB 1opo-a1-m37-cA_1opo-a1-m37-cC 1opo-a1-m37-cB_1opo-a1-m37-cC 1opo-a1-m38-cA_1opo-a1-m38-cB 1opo-a1-m38-cA_1opo-a1-m38-cC 1opo-a1-m38-cB_1opo-a1-m38-cC 1opo-a1-m39-cA_1opo-a1-m39-cB 1opo-a1-m39-cA_1opo-a1-m39-cC 1opo-a1-m39-cB_1opo-a1-m39-cC 1opo-a1-m3-cA_1opo-a1-m3-cB 1opo-a1-m3-cA_1opo-a1-m3-cC 1opo-a1-m3-cB_1opo-a1-m3-cC 1opo-a1-m40-cA_1opo-a1-m40-cB 1opo-a1-m40-cA_1opo-a1-m40-cC 1opo-a1-m40-cB_1opo-a1-m40-cC 1opo-a1-m41-cA_1opo-a1-m41-cB 1opo-a1-m41-cA_1opo-a1-m41-cC 1opo-a1-m41-cB_1opo-a1-m41-cC 1opo-a1-m42-cA_1opo-a1-m42-cB 1opo-a1-m42-cA_1opo-a1-m42-cC 1opo-a1-m42-cB_1opo-a1-m42-cC 1opo-a1-m43-cA_1opo-a1-m43-cB 1opo-a1-m43-cA_1opo-a1-m43-cC 1opo-a1-m43-cB_1opo-a1-m43-cC 1opo-a1-m44-cA_1opo-a1-m44-cB 1opo-a1-m44-cA_1opo-a1-m44-cC 1opo-a1-m44-cB_1opo-a1-m44-cC 1opo-a1-m45-cA_1opo-a1-m45-cB 1opo-a1-m45-cA_1opo-a1-m45-cC 1opo-a1-m45-cB_1opo-a1-m45-cC 1opo-a1-m46-cA_1opo-a1-m46-cB 1opo-a1-m46-cA_1opo-a1-m46-cC 1opo-a1-m46-cB_1opo-a1-m46-cC 1opo-a1-m47-cA_1opo-a1-m47-cB 1opo-a1-m47-cA_1opo-a1-m47-cC 1opo-a1-m47-cB_1opo-a1-m47-cC 1opo-a1-m48-cA_1opo-a1-m48-cB 1opo-a1-m48-cA_1opo-a1-m48-cC 1opo-a1-m48-cB_1opo-a1-m48-cC 1opo-a1-m49-cA_1opo-a1-m49-cB 1opo-a1-m49-cA_1opo-a1-m49-cC 1opo-a1-m49-cB_1opo-a1-m49-cC 1opo-a1-m4-cA_1opo-a1-m4-cB 1opo-a1-m4-cA_1opo-a1-m4-cC 1opo-a1-m4-cB_1opo-a1-m4-cC 1opo-a1-m50-cA_1opo-a1-m50-cB 1opo-a1-m50-cA_1opo-a1-m50-cC 1opo-a1-m50-cB_1opo-a1-m50-cC 1opo-a1-m51-cA_1opo-a1-m51-cB 1opo-a1-m51-cA_1opo-a1-m51-cC 1opo-a1-m51-cB_1opo-a1-m51-cC 1opo-a1-m52-cA_1opo-a1-m52-cB 1opo-a1-m52-cA_1opo-a1-m52-cC 1opo-a1-m52-cB_1opo-a1-m52-cC 1opo-a1-m53-cA_1opo-a1-m53-cB 1opo-a1-m53-cA_1opo-a1-m53-cC 1opo-a1-m53-cB_1opo-a1-m53-cC 1opo-a1-m54-cA_1opo-a1-m54-cB 1opo-a1-m54-cA_1opo-a1-m54-cC 1opo-a1-m54-cB_1opo-a1-m54-cC 1opo-a1-m55-cA_1opo-a1-m55-cB 1opo-a1-m55-cA_1opo-a1-m55-cC 1opo-a1-m55-cB_1opo-a1-m55-cC 1opo-a1-m56-cA_1opo-a1-m56-cB 1opo-a1-m56-cA_1opo-a1-m56-cC 1opo-a1-m56-cB_1opo-a1-m56-cC 1opo-a1-m57-cA_1opo-a1-m57-cB 1opo-a1-m57-cA_1opo-a1-m57-cC 1opo-a1-m57-cB_1opo-a1-m57-cC 1opo-a1-m58-cA_1opo-a1-m58-cB 1opo-a1-m58-cA_1opo-a1-m58-cC 1opo-a1-m58-cB_1opo-a1-m58-cC 1opo-a1-m59-cA_1opo-a1-m59-cB 1opo-a1-m59-cA_1opo-a1-m59-cC 1opo-a1-m59-cB_1opo-a1-m59-cC 1opo-a1-m5-cA_1opo-a1-m5-cB 1opo-a1-m5-cA_1opo-a1-m5-cC 1opo-a1-m5-cB_1opo-a1-m5-cC 1opo-a1-m60-cA_1opo-a1-m60-cB 1opo-a1-m60-cA_1opo-a1-m60-cC 1opo-a1-m60-cB_1opo-a1-m60-cC 1opo-a1-m6-cA_1opo-a1-m6-cB 1opo-a1-m6-cA_1opo-a1-m6-cC 1opo-a1-m6-cB_1opo-a1-m6-cC 1opo-a1-m7-cA_1opo-a1-m7-cB 1opo-a1-m7-cA_1opo-a1-m7-cC 1opo-a1-m7-cB_1opo-a1-m7-cC 1opo-a1-m8-cA_1opo-a1-m8-cB 1opo-a1-m8-cA_1opo-a1-m8-cC 1opo-a1-m8-cB_1opo-a1-m8-cC 1opo-a1-m9-cA_1opo-a1-m9-cC 1opo-a1-m9-cB_1opo-a1-m9-cC SMTMSKTELLSTVKGTTGVIPSFEDWVVSPRNVAVFPQLSLLATNFNKYRITALTVKYSPACSFETNGRVALGFNDDASDTPPTTKVGFYDLGKHVETAAQTAKDLVIPVDGKTRFIRDSASDDAKLVDFGRIVLSTYGFDKADTVVGELFIQYTIVLSDPTKTAKISQASNDKVSDGPTYVVPSVNGNELQLRVVAAGKWCIIVRGTVEGGFTKPTLIGPGISGDVDYESARPIAVCELVTQMEGQILKITKTSAEQPLQWVVYRM SMTMSKTELLSTVKGTTGVIPSFEDWVVSPRNVAVFPQLSLLATNFNKYRITALTVKYSPACSFETNGRVALGFNDDASDTPPTTKVGFYDLGKHVETAAQTAKDLVIPVDGKTRFIRDSASDDAKLVDFGRIVLSTYGFDKADTVVGELFIQYTIVLSDPTKTAKISQASNDKVSDGPTYVVPSVNGNELQLRVVAAGKWCIIVRGTVEGGFTKPTLIGPGISGDVDYESARPIAVCELVTQMEGQILKITKTSAEQPLQWVVYRM 1opr-a1-m1-cA_1opr-a1-m2-cA THE CRYSTAL STRUCTURE OF THE OROTATE PHOSPHORIBOSYLTRANSFERASE COMPLEXED WITH OROTATE AND ALPHA-D-5-PHOSPHORIBOSYL-1-PYROPHOSPHATE P08870 P08870 2.3 X-RAY DIFFRACTION 102 1.0 213 213 1lh0-a1-m1-cB_1lh0-a1-m1-cA 1oro-a1-m1-cB_1oro-a1-m1-cA 1sto-a1-m1-cA_1sto-a1-m2-cA 6tai-a1-m1-cBBB_6tai-a1-m1-cAAA 6taj-a1-m1-cAAA_6taj-a1-m2-cAAA 6taj-a2-m1-cBBB_6taj-a2-m2-cBBB 6tak-a1-m1-cAAA_6tak-a1-m1-cBBB MKPYQRQFIEFALNKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLALLGRFYAEALVDSGIEFDLLFGPAYKGIPIATTTAVALAEHHDKDLPYCFNRKEAKDHGEGGSLVGSALQGRVMLVDDVITAGTAIRESMEIIQAHGATLAGVLISLDRQERGRGEISAIQEVERDYGCKVISIITLKDLIAYLEEKPDMAEHLAAVRAYREEFGV MKPYQRQFIEFALNKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLALLGRFYAEALVDSGIEFDLLFGPAYKGIPIATTTAVALAEHHDKDLPYCFNRKEAKDHGEGGSLVGSALQGRVMLVDDVITAGTAIRESMEIIQAHGATLAGVLISLDRQERGRGEISAIQEVERDYGCKVISIITLKDLIAYLEEKPDMAEHLAAVRAYREEFGV 1oqe-a1-m6-cE_1oqe-a1-m6-cJ Crystal structure of sTALL-1 with BAFF-R Q9Y275 Q9Y275 2.5 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 1jh5-a1-m1-cA_1jh5-a1-m5-cA 1jh5-a1-m1-cB_1jh5-a1-m1-cF 1jh5-a1-m1-cC_1jh5-a1-m1-cG 1jh5-a1-m1-cD_1jh5-a1-m2-cH 1jh5-a1-m1-cE_1jh5-a1-m1-cJ 1jh5-a1-m1-cH_1jh5-a1-m3-cD 1jh5-a1-m1-cI_1jh5-a1-m6-cI 1jh5-a1-m2-cA_1jh5-a1-m4-cA 1jh5-a1-m2-cB_1jh5-a1-m2-cF 1jh5-a1-m2-cC_1jh5-a1-m2-cG 1jh5-a1-m2-cD_1jh5-a1-m3-cH 1jh5-a1-m2-cE_1jh5-a1-m2-cJ 1jh5-a1-m2-cI_1jh5-a1-m5-cI 1jh5-a1-m3-cA_1jh5-a1-m6-cA 1jh5-a1-m3-cB_1jh5-a1-m3-cF 1jh5-a1-m3-cC_1jh5-a1-m3-cG 1jh5-a1-m3-cE_1jh5-a1-m3-cJ 1jh5-a1-m3-cI_1jh5-a1-m4-cI 1jh5-a1-m4-cB_1jh5-a1-m4-cF 1jh5-a1-m4-cC_1jh5-a1-m4-cG 1jh5-a1-m4-cD_1jh5-a1-m5-cH 1jh5-a1-m4-cE_1jh5-a1-m4-cJ 1jh5-a1-m4-cH_1jh5-a1-m6-cD 1jh5-a1-m5-cB_1jh5-a1-m5-cF 1jh5-a1-m5-cC_1jh5-a1-m5-cG 1jh5-a1-m5-cD_1jh5-a1-m6-cH 1jh5-a1-m5-cE_1jh5-a1-m5-cJ 1jh5-a1-m6-cB_1jh5-a1-m6-cF 1jh5-a1-m6-cC_1jh5-a1-m6-cG 1jh5-a1-m6-cE_1jh5-a1-m6-cJ 1oqd-a1-m1-cA_1oqd-a1-m3-cA 1oqd-a1-m1-cB_1oqd-a1-m1-cF 1oqd-a1-m1-cC_1oqd-a1-m1-cG 1oqd-a1-m1-cD_1oqd-a1-m6-cH 1oqd-a1-m1-cE_1oqd-a1-m1-cJ 1oqd-a1-m1-cH_1oqd-a1-m5-cD 1oqd-a1-m1-cI_1oqd-a1-m2-cI 1oqd-a1-m2-cA_1oqd-a1-m5-cA 1oqd-a1-m2-cB_1oqd-a1-m2-cF 1oqd-a1-m2-cC_1oqd-a1-m2-cG 1oqd-a1-m2-cD_1oqd-a1-m4-cH 1oqd-a1-m2-cE_1oqd-a1-m2-cJ 1oqd-a1-m2-cH_1oqd-a1-m3-cD 1oqd-a1-m3-cB_1oqd-a1-m3-cF 1oqd-a1-m3-cC_1oqd-a1-m3-cG 1oqd-a1-m3-cE_1oqd-a1-m3-cJ 1oqd-a1-m3-cH_1oqd-a1-m4-cD 1oqd-a1-m3-cI_1oqd-a1-m6-cI 1oqd-a1-m4-cA_1oqd-a1-m6-cA 1oqd-a1-m4-cB_1oqd-a1-m4-cF 1oqd-a1-m4-cC_1oqd-a1-m4-cG 1oqd-a1-m4-cE_1oqd-a1-m4-cJ 1oqd-a1-m4-cI_1oqd-a1-m5-cI 1oqd-a1-m5-cB_1oqd-a1-m5-cF 1oqd-a1-m5-cC_1oqd-a1-m5-cG 1oqd-a1-m5-cE_1oqd-a1-m5-cJ 1oqd-a1-m5-cH_1oqd-a1-m6-cD 1oqd-a1-m6-cB_1oqd-a1-m6-cF 1oqd-a1-m6-cC_1oqd-a1-m6-cG 1oqd-a1-m6-cE_1oqd-a1-m6-cJ 1oqe-a1-m1-cA_1oqe-a1-m3-cA 1oqe-a1-m1-cB_1oqe-a1-m1-cF 1oqe-a1-m1-cC_1oqe-a1-m1-cG 1oqe-a1-m1-cD_1oqe-a1-m6-cH 1oqe-a1-m1-cE_1oqe-a1-m1-cJ 1oqe-a1-m1-cH_1oqe-a1-m5-cD 1oqe-a1-m1-cI_1oqe-a1-m2-cI 1oqe-a1-m2-cA_1oqe-a1-m5-cA 1oqe-a1-m2-cB_1oqe-a1-m2-cF 1oqe-a1-m2-cC_1oqe-a1-m2-cG 1oqe-a1-m2-cD_1oqe-a1-m4-cH 1oqe-a1-m2-cE_1oqe-a1-m2-cJ 1oqe-a1-m2-cH_1oqe-a1-m3-cD 1oqe-a1-m3-cB_1oqe-a1-m3-cF 1oqe-a1-m3-cC_1oqe-a1-m3-cG 1oqe-a1-m3-cE_1oqe-a1-m3-cJ 1oqe-a1-m3-cH_1oqe-a1-m4-cD 1oqe-a1-m3-cI_1oqe-a1-m6-cI 1oqe-a1-m4-cA_1oqe-a1-m6-cA 1oqe-a1-m4-cB_1oqe-a1-m4-cF 1oqe-a1-m4-cC_1oqe-a1-m4-cG 1oqe-a1-m4-cE_1oqe-a1-m4-cJ 1oqe-a1-m4-cI_1oqe-a1-m5-cI 1oqe-a1-m5-cB_1oqe-a1-m5-cF 1oqe-a1-m5-cC_1oqe-a1-m5-cG 1oqe-a1-m5-cE_1oqe-a1-m5-cJ 1oqe-a1-m5-cH_1oqe-a1-m6-cD 1oqe-a1-m6-cB_1oqe-a1-m6-cF 1oqe-a1-m6-cC_1oqe-a1-m6-cG 4v46-a1-m1-cA0_4v46-a1-m1-cAu 4v46-a1-m1-cA1_4v46-a1-m1-cAv 4v46-a1-m1-cA2_4v46-a1-m1-cAw 4v46-a1-m1-cA3_4v46-a1-m1-cAx 4v46-a1-m1-cA4_4v46-a1-m1-cAG 4v46-a1-m1-cA5_4v46-a1-m1-cAH 4v46-a1-m1-cA6_4v46-a1-m1-cAI 4v46-a1-m1-cA7_4v46-a1-m1-cAJ 4v46-a1-m1-cA8_4v46-a1-m1-cAK 4v46-a1-m1-cA9_4v46-a1-m1-cAL 4v46-a1-m1-cAA_4v46-a1-m1-cAE 4v46-a1-m1-cAB_4v46-a1-m1-cAC 4v46-a1-m1-cAD_4v46-a1-m1-cAF 4v46-a1-m1-cAM_4v46-a1-m1-cAa 4v46-a1-m1-cAm_4v46-a1-m1-cAr 4v46-a1-m1-cAN_4v46-a1-m1-cAb 4v46-a1-m1-cAn_4v46-a1-m1-cAp 4v46-a1-m1-cAO_4v46-a1-m1-cAc 4v46-a1-m1-cAo_4v46-a1-m1-cAq 4v46-a1-m1-cAP_4v46-a1-m1-cAd 4v46-a1-m1-cAQ_4v46-a1-m1-cAe 4v46-a1-m1-cAR_4v46-a1-m1-cAf 4v46-a1-m1-cAS_4v46-a1-m1-cAi 4v46-a1-m1-cAT_4v46-a1-m1-cAk 4v46-a1-m1-cAU_4v46-a1-m1-cAj 4v46-a1-m1-cAV_4v46-a1-m1-cAg 4v46-a1-m1-cAW_4v46-a1-m1-cAl 4v46-a1-m1-cAX_4v46-a1-m1-cAh 4v46-a1-m1-cAY_4v46-a1-m1-cAs 4v46-a1-m1-cAZ_4v46-a1-m1-cAt VTQDCLQLIADSETPTIQKGSYTFVPWLLSFKRGSALEEKENKILVKETGYFFIYGQVLYTDKTYAMGHLIQRKKVHVFGDELSLVTLFRCIQNMPETLPNNSCYSAGIAKLEEGDELQLAIPRENAQISLDGDVTFFGALKLL VTQDCLQLIADSETPTIQKGSYTFVPWLLSFKRGSALEEKENKILVKETGYFFIYGQVLYTDKTYAMGHLIQRKKVHVFGDELSLVTLFRCIQNMPETLPNNSCYSAGIAKLEEGDELQLAIPRENAQISLDGDVTFFGALKLL 1oqe-a1-m6-cF_1oqe-a1-m6-cJ Crystal structure of sTALL-1 with BAFF-R Q9Y275 Q9Y275 2.5 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 1jh5-a1-m1-cA_1jh5-a1-m1-cG 1jh5-a1-m1-cA_1jh5-a1-m5-cB 1jh5-a1-m1-cB_1jh5-a1-m1-cD 1jh5-a1-m1-cB_1jh5-a1-m5-cA 1jh5-a1-m1-cC_1jh5-a1-m1-cF 1jh5-a1-m1-cC_1jh5-a1-m1-cH 1jh5-a1-m1-cD_1jh5-a1-m2-cI 1jh5-a1-m1-cE_1jh5-a1-m2-cH 1jh5-a1-m1-cE_1jh5-a1-m2-cJ 1jh5-a1-m1-cF_1jh5-a1-m1-cJ 1jh5-a1-m1-cG_1jh5-a1-m6-cI 1jh5-a1-m1-cH_1jh5-a1-m3-cE 1jh5-a1-m1-cI_1jh5-a1-m3-cD 1jh5-a1-m1-cI_1jh5-a1-m6-cG 1jh5-a1-m1-cJ_1jh5-a1-m3-cE 1jh5-a1-m2-cA_1jh5-a1-m2-cG 1jh5-a1-m2-cA_1jh5-a1-m4-cB 1jh5-a1-m2-cB_1jh5-a1-m2-cD 1jh5-a1-m2-cB_1jh5-a1-m4-cA 1jh5-a1-m2-cC_1jh5-a1-m2-cF 1jh5-a1-m2-cC_1jh5-a1-m2-cH 1jh5-a1-m2-cD_1jh5-a1-m3-cI 1jh5-a1-m2-cE_1jh5-a1-m3-cH 1jh5-a1-m2-cE_1jh5-a1-m3-cJ 1jh5-a1-m2-cF_1jh5-a1-m2-cJ 1jh5-a1-m2-cG_1jh5-a1-m5-cI 1jh5-a1-m2-cI_1jh5-a1-m5-cG 1jh5-a1-m3-cA_1jh5-a1-m3-cG 1jh5-a1-m3-cA_1jh5-a1-m6-cB 1jh5-a1-m3-cB_1jh5-a1-m3-cD 1jh5-a1-m3-cB_1jh5-a1-m6-cA 1jh5-a1-m3-cC_1jh5-a1-m3-cF 1jh5-a1-m3-cC_1jh5-a1-m3-cH 1jh5-a1-m3-cF_1jh5-a1-m3-cJ 1jh5-a1-m3-cG_1jh5-a1-m4-cI 1jh5-a1-m3-cI_1jh5-a1-m4-cG 1jh5-a1-m4-cA_1jh5-a1-m4-cG 1jh5-a1-m4-cB_1jh5-a1-m4-cD 1jh5-a1-m4-cC_1jh5-a1-m4-cF 1jh5-a1-m4-cC_1jh5-a1-m4-cH 1jh5-a1-m4-cD_1jh5-a1-m5-cI 1jh5-a1-m4-cE_1jh5-a1-m5-cH 1jh5-a1-m4-cE_1jh5-a1-m5-cJ 1jh5-a1-m4-cF_1jh5-a1-m4-cJ 1jh5-a1-m4-cH_1jh5-a1-m6-cE 1jh5-a1-m4-cI_1jh5-a1-m6-cD 1jh5-a1-m4-cJ_1jh5-a1-m6-cE 1jh5-a1-m5-cA_1jh5-a1-m5-cG 1jh5-a1-m5-cB_1jh5-a1-m5-cD 1jh5-a1-m5-cC_1jh5-a1-m5-cF 1jh5-a1-m5-cC_1jh5-a1-m5-cH 1jh5-a1-m5-cD_1jh5-a1-m6-cI 1jh5-a1-m5-cE_1jh5-a1-m6-cH 1jh5-a1-m5-cE_1jh5-a1-m6-cJ 1jh5-a1-m5-cF_1jh5-a1-m5-cJ 1jh5-a1-m6-cA_1jh5-a1-m6-cG 1jh5-a1-m6-cB_1jh5-a1-m6-cD 1jh5-a1-m6-cC_1jh5-a1-m6-cF 1jh5-a1-m6-cC_1jh5-a1-m6-cH 1jh5-a1-m6-cF_1jh5-a1-m6-cJ 1oqd-a1-m1-cA_1oqd-a1-m1-cG 1oqd-a1-m1-cA_1oqd-a1-m3-cB 1oqd-a1-m1-cB_1oqd-a1-m1-cD 1oqd-a1-m1-cB_1oqd-a1-m3-cA 1oqd-a1-m1-cC_1oqd-a1-m1-cF 1oqd-a1-m1-cC_1oqd-a1-m1-cH 1oqd-a1-m1-cD_1oqd-a1-m6-cI 1oqd-a1-m1-cE_1oqd-a1-m6-cH 1oqd-a1-m1-cE_1oqd-a1-m6-cJ 1oqd-a1-m1-cF_1oqd-a1-m1-cJ 1oqd-a1-m1-cG_1oqd-a1-m2-cI 1oqd-a1-m1-cH_1oqd-a1-m5-cE 1oqd-a1-m1-cI_1oqd-a1-m2-cG 1oqd-a1-m1-cI_1oqd-a1-m5-cD 1oqd-a1-m1-cJ_1oqd-a1-m5-cE 1oqd-a1-m2-cA_1oqd-a1-m2-cG 1oqd-a1-m2-cA_1oqd-a1-m5-cB 1oqd-a1-m2-cB_1oqd-a1-m2-cD 1oqd-a1-m2-cB_1oqd-a1-m5-cA 1oqd-a1-m2-cC_1oqd-a1-m2-cF 1oqd-a1-m2-cC_1oqd-a1-m2-cH 1oqd-a1-m2-cD_1oqd-a1-m4-cI 1oqd-a1-m2-cE_1oqd-a1-m4-cH 1oqd-a1-m2-cE_1oqd-a1-m4-cJ 1oqd-a1-m2-cF_1oqd-a1-m2-cJ 1oqd-a1-m2-cH_1oqd-a1-m3-cE 1oqd-a1-m2-cI_1oqd-a1-m3-cD 1oqd-a1-m2-cJ_1oqd-a1-m3-cE 1oqd-a1-m3-cA_1oqd-a1-m3-cG 1oqd-a1-m3-cB_1oqd-a1-m3-cD 1oqd-a1-m3-cC_1oqd-a1-m3-cF 1oqd-a1-m3-cC_1oqd-a1-m3-cH 1oqd-a1-m3-cF_1oqd-a1-m3-cJ 1oqd-a1-m3-cG_1oqd-a1-m6-cI 1oqd-a1-m3-cH_1oqd-a1-m4-cE 1oqd-a1-m3-cI_1oqd-a1-m4-cD 1oqd-a1-m3-cI_1oqd-a1-m6-cG 1oqd-a1-m3-cJ_1oqd-a1-m4-cE 1oqd-a1-m4-cA_1oqd-a1-m4-cG 1oqd-a1-m4-cA_1oqd-a1-m6-cB 1oqd-a1-m4-cB_1oqd-a1-m4-cD 1oqd-a1-m4-cB_1oqd-a1-m6-cA 1oqd-a1-m4-cC_1oqd-a1-m4-cF 1oqd-a1-m4-cC_1oqd-a1-m4-cH 1oqd-a1-m4-cF_1oqd-a1-m4-cJ 1oqd-a1-m4-cG_1oqd-a1-m5-cI 1oqd-a1-m4-cI_1oqd-a1-m5-cG 1oqd-a1-m5-cA_1oqd-a1-m5-cG 1oqd-a1-m5-cB_1oqd-a1-m5-cD 1oqd-a1-m5-cC_1oqd-a1-m5-cF 1oqd-a1-m5-cC_1oqd-a1-m5-cH 1oqd-a1-m5-cF_1oqd-a1-m5-cJ 1oqd-a1-m5-cH_1oqd-a1-m6-cE 1oqd-a1-m5-cI_1oqd-a1-m6-cD 1oqd-a1-m5-cJ_1oqd-a1-m6-cE 1oqd-a1-m6-cA_1oqd-a1-m6-cG 1oqd-a1-m6-cB_1oqd-a1-m6-cD 1oqd-a1-m6-cC_1oqd-a1-m6-cF 1oqd-a1-m6-cC_1oqd-a1-m6-cH 1oqd-a1-m6-cF_1oqd-a1-m6-cJ 1oqe-a1-m1-cA_1oqe-a1-m1-cG 1oqe-a1-m1-cA_1oqe-a1-m3-cB 1oqe-a1-m1-cB_1oqe-a1-m1-cD 1oqe-a1-m1-cB_1oqe-a1-m3-cA 1oqe-a1-m1-cC_1oqe-a1-m1-cF 1oqe-a1-m1-cC_1oqe-a1-m1-cH 1oqe-a1-m1-cD_1oqe-a1-m6-cI 1oqe-a1-m1-cE_1oqe-a1-m6-cH 1oqe-a1-m1-cE_1oqe-a1-m6-cJ 1oqe-a1-m1-cF_1oqe-a1-m1-cJ 1oqe-a1-m1-cG_1oqe-a1-m2-cI 1oqe-a1-m1-cH_1oqe-a1-m5-cE 1oqe-a1-m1-cI_1oqe-a1-m2-cG 1oqe-a1-m1-cI_1oqe-a1-m5-cD 1oqe-a1-m1-cJ_1oqe-a1-m5-cE 1oqe-a1-m2-cA_1oqe-a1-m2-cG 1oqe-a1-m2-cA_1oqe-a1-m5-cB 1oqe-a1-m2-cB_1oqe-a1-m2-cD 1oqe-a1-m2-cB_1oqe-a1-m5-cA 1oqe-a1-m2-cC_1oqe-a1-m2-cF 1oqe-a1-m2-cC_1oqe-a1-m2-cH 1oqe-a1-m2-cD_1oqe-a1-m4-cI 1oqe-a1-m2-cE_1oqe-a1-m4-cH 1oqe-a1-m2-cE_1oqe-a1-m4-cJ 1oqe-a1-m2-cF_1oqe-a1-m2-cJ 1oqe-a1-m2-cH_1oqe-a1-m3-cE 1oqe-a1-m2-cI_1oqe-a1-m3-cD 1oqe-a1-m2-cJ_1oqe-a1-m3-cE 1oqe-a1-m3-cA_1oqe-a1-m3-cG 1oqe-a1-m3-cB_1oqe-a1-m3-cD 1oqe-a1-m3-cC_1oqe-a1-m3-cF 1oqe-a1-m3-cC_1oqe-a1-m3-cH 1oqe-a1-m3-cF_1oqe-a1-m3-cJ 1oqe-a1-m3-cG_1oqe-a1-m6-cI 1oqe-a1-m3-cH_1oqe-a1-m4-cE 1oqe-a1-m3-cI_1oqe-a1-m4-cD 1oqe-a1-m3-cI_1oqe-a1-m6-cG 1oqe-a1-m3-cJ_1oqe-a1-m4-cE 1oqe-a1-m4-cA_1oqe-a1-m4-cG 1oqe-a1-m4-cA_1oqe-a1-m6-cB 1oqe-a1-m4-cB_1oqe-a1-m4-cD 1oqe-a1-m4-cB_1oqe-a1-m6-cA 1oqe-a1-m4-cC_1oqe-a1-m4-cF 1oqe-a1-m4-cC_1oqe-a1-m4-cH 1oqe-a1-m4-cF_1oqe-a1-m4-cJ 1oqe-a1-m4-cG_1oqe-a1-m5-cI 1oqe-a1-m4-cI_1oqe-a1-m5-cG 1oqe-a1-m5-cA_1oqe-a1-m5-cG 1oqe-a1-m5-cB_1oqe-a1-m5-cD 1oqe-a1-m5-cC_1oqe-a1-m5-cF 1oqe-a1-m5-cC_1oqe-a1-m5-cH 1oqe-a1-m5-cF_1oqe-a1-m5-cJ 1oqe-a1-m5-cH_1oqe-a1-m6-cE 1oqe-a1-m5-cI_1oqe-a1-m6-cD 1oqe-a1-m5-cJ_1oqe-a1-m6-cE 1oqe-a1-m6-cA_1oqe-a1-m6-cG 1oqe-a1-m6-cB_1oqe-a1-m6-cD 1oqe-a1-m6-cC_1oqe-a1-m6-cF 1oqe-a1-m6-cC_1oqe-a1-m6-cH 4v46-a1-m1-cA0_4v46-a1-m1-cAj 4v46-a1-m1-cA0_4v46-a1-m1-cAv 4v46-a1-m1-cA1_4v46-a1-m1-cAg 4v46-a1-m1-cA1_4v46-a1-m1-cAs 4v46-a1-m1-cA2_4v46-a1-m1-cAl 4v46-a1-m1-cA2_4v46-a1-m1-cAx 4v46-a1-m1-cA3_4v46-a1-m1-cAh 4v46-a1-m1-cA3_4v46-a1-m1-cAt 4v46-a1-m1-cA4_4v46-a1-m1-cAM 4v46-a1-m1-cA4_4v46-a1-m1-cAs 4v46-a1-m1-cA5_4v46-a1-m1-cAN 4v46-a1-m1-cA5_4v46-a1-m1-cAt 4v46-a1-m1-cA6_4v46-a1-m1-cAO 4v46-a1-m1-cA6_4v46-a1-m1-cAu 4v46-a1-m1-cA7_4v46-a1-m1-cAP 4v46-a1-m1-cA7_4v46-a1-m1-cAv 4v46-a1-m1-cA8_4v46-a1-m1-cAQ 4v46-a1-m1-cA8_4v46-a1-m1-cAw 4v46-a1-m1-cA9_4v46-a1-m1-cAR 4v46-a1-m1-cA9_4v46-a1-m1-cAx 4v46-a1-m1-cAA_4v46-a1-m1-cAa 4v46-a1-m1-cAA_4v46-a1-m1-cAK 4v46-a1-m1-cAa_4v46-a1-m1-cAr 4v46-a1-m1-cAB_4v46-a1-m1-cAb 4v46-a1-m1-cAB_4v46-a1-m1-cAI 4v46-a1-m1-cAb_4v46-a1-m1-cAp 4v46-a1-m1-cAC_4v46-a1-m1-cAc 4v46-a1-m1-cAC_4v46-a1-m1-cAH 4v46-a1-m1-cAc_4v46-a1-m1-cAq 4v46-a1-m1-cAD_4v46-a1-m1-cAd 4v46-a1-m1-cAD_4v46-a1-m1-cAL 4v46-a1-m1-cAd_4v46-a1-m1-cAn 4v46-a1-m1-cAE_4v46-a1-m1-cAe 4v46-a1-m1-cAE_4v46-a1-m1-cAG 4v46-a1-m1-cAe_4v46-a1-m1-cAo 4v46-a1-m1-cAF_4v46-a1-m1-cAf 4v46-a1-m1-cAF_4v46-a1-m1-cAJ 4v46-a1-m1-cAf_4v46-a1-m1-cAm 4v46-a1-m1-cAG_4v46-a1-m1-cAS 4v46-a1-m1-cAH_4v46-a1-m1-cAT 4v46-a1-m1-cAI_4v46-a1-m1-cAU 4v46-a1-m1-cAJ_4v46-a1-m1-cAV 4v46-a1-m1-cAK_4v46-a1-m1-cAW 4v46-a1-m1-cAL_4v46-a1-m1-cAX 4v46-a1-m1-cAM_4v46-a1-m1-cAg 4v46-a1-m1-cAN_4v46-a1-m1-cAh 4v46-a1-m1-cAO_4v46-a1-m1-cAi 4v46-a1-m1-cAP_4v46-a1-m1-cAj 4v46-a1-m1-cAQ_4v46-a1-m1-cAk 4v46-a1-m1-cAR_4v46-a1-m1-cAl 4v46-a1-m1-cAS_4v46-a1-m1-cAo 4v46-a1-m1-cAT_4v46-a1-m1-cAq 4v46-a1-m1-cAU_4v46-a1-m1-cAp 4v46-a1-m1-cAV_4v46-a1-m1-cAm 4v46-a1-m1-cAW_4v46-a1-m1-cAr 4v46-a1-m1-cAX_4v46-a1-m1-cAn 4v46-a1-m1-cAY_4v46-a1-m1-cAi 4v46-a1-m1-cAY_4v46-a1-m1-cAu 4v46-a1-m1-cAZ_4v46-a1-m1-cAk 4v46-a1-m1-cAZ_4v46-a1-m1-cAw VTQDCLQLIADSETPTIQKGSYTFVPWLLSFKRGSALEEKENKILVKETGYFFIYGQVLYTDKTYAMGHLIQRKKVHVFGDELSLVTLFRCIQNMPETLPNNSCYSAGIAKLEEGDELQLAIPRENAQISLDGDVTFFGALKLL VTQDCLQLIADSETPTIQKGSYTFVPWLLSFKRGSALEEKENKILVKETGYFFIYGQVLYTDKTYAMGHLIQRKKVHVFGDELSLVTLFRCIQNMPETLPNNSCYSAGIAKLEEGDELQLAIPRENAQISLDGDVTFFGALKLL 1oqf-a1-m2-cA_1oqf-a1-m2-cB Crystal structure of the 2-methylisocitrate lyase P77541 P77541 1.93 X-RAY DIFFRACTION 255 1.0 562 (Escherichia coli) 562 (Escherichia coli) 290 290 1mum-a1-m1-cA_1mum-a1-m1-cB 1mum-a1-m2-cA_1mum-a1-m2-cB 1oqf-a1-m1-cA_1oqf-a1-m1-cB 1xg3-a1-m1-cB_1xg3-a1-m1-cA 1xg3-a1-m1-cD_1xg3-a1-m1-cC 1xg4-a1-m1-cB_1xg4-a1-m1-cA 1xg4-a1-m1-cD_1xg4-a1-m1-cC SLHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFA SLHSPGKAFRAALTKENPLQIVGTINANHALLAQRAGYQAIYLSGGGVAAGSLGLPDLGISTLDDVLTDIRRITDVCSLPLLVDADIGFGSSAFNVARTVKSMIKAGAAGLHIEDQVGAKRCGHRPNKAIVSKEEMVDRIRAAVDAKTDPDFVIMARTDALAVEGLDAAIERAQAYVEAGAEMLFPEAITELAMYRQFADAVQVPILANITEFGATPLFTTDELRSAHVAMALYPLSAFRAMNRAAEHVYNVLRQEGTQKSVIDTMQTRNELYESINYYQYEEKLDNLFA 1oqn-a3-m1-cA_1oqn-a3-m1-cB Crystal structure of the phosphotyrosine binding domain (PTB) of mouse Disabled 1 (Dab1) P97318 P97318 2.3 X-RAY DIFFRACTION 43 1.0 10090 (Mus musculus) 10090 (Mus musculus) 150 151 RSEATLIKRFKGEGVRYKAKLIGIDEVSAARGDKLCQDSMMKLKGVVAGARSKGEHKQKIFLTISFGGIKIFDEKTGALQHHHAVHEISYIAKDITDHRAFGYVCGKEGNHRFVAIKTAQAAEPVILDLRDLFQLIYELKQREELEKKAQ DRSEATLIKRFKGEGVRYKAKLIGIDEVSAARGDKLCQDSMMKLKGVVAGARSKGEHKQKIFLTISFGGIKIFDEKTGALQHHHAVHEISYIAKDITDHRAFGYVCGKEGNHRFVAIKTAQAAEPVILDLRDLFQLIYELKQREELEKKAQ 1or4-a1-m1-cB_1or4-a1-m1-cA Crystal Structure of HemAT sensor domain from B.subtilis in the cyano-liganded form O07621 O07621 2.15 X-RAY DIFFRACTION 93 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 158 169 1or6-a1-m1-cB_1or6-a1-m1-cA QKNRIQLTNKHADVKKQLKMVRLGDAELYVLEQLQPLIQENIVNIVDAFYKNLDHESSLMDIINDHSSVDRLKQTLKRHIQEMFAGVIDDEFIEKRNRIASIHLRIGLLPKWYMGAFQELLLSMIDIYEASITNQQELLKAIKATTKILNLEQQLVLE ETAYFSDSNGQQKNRIQLTNKHADVKKQLKMVRLGDAELYVLEQLQPLIQENIVNIVDAFYKNLDHESSLMDIINDHSSVDRLKQTLKRHIQEMFAGVIDDEFIEKRNRIASIHLRIGLLPKWYMGAFQELLLSMIDIYEASITNQQELLKAIKATTKILNLEQQLVLE 1or7-a3-m1-cB_1or7-a3-m1-cA Crystal Structure of Escherichia coli sigmaE with the Cytoplasmic Domain of its Anti-sigma RseA P0AGB6 P0AGB6 2 X-RAY DIFFRACTION 62 0.982 562 (Escherichia coli) 562 (Escherichia coli) 164 181 SHMSEQLTDQVLVERVQKGDQKAFNLLVVRYQHKVASLVSRYVPSGDVPDVVQEAFIKAYRALDSFRGDSAFYTWLYRIAVNTAKNYLVAQGRNLMLSEELRQIVFRTIESLPEDLRMAITLRELDGLSYEEIAAIMDCPVGTVRSRIFRAREAIDNKVQPLIR SHMSEQLTDQVLVERVQKGDQKAFNLLVVRYQHKVASLVSRYVPSGDVPDVVQEAFIKAYRALDSFRGDSAFYTWLYRIAVNTAKNYLVAQGRRPPSSDVDAIEAENFESGGANLMLSEELRQIVFRTIESLPEDLRMAITLRELDGLSYEEIAAIMDCPVGTVRSRIFRAREAIDNKVQP 1ord-a2-m2-cA_1ord-a2-m6-cB CRYSTALLOGRAPHIC STRUCTURE OF A PLP-DEPENDENT ORNITHINE DECARBOXYLASE FROM LACTOBACILLUS 30A TO 3.1 ANGSTROMS RESOLUTION P43099 P43099 3 X-RAY DIFFRACTION 36 1.0 1593 (Lactobacillus sp. 30A) 1593 (Lactobacillus sp. 30A) 730 730 1ord-a2-m1-cA_1ord-a2-m5-cB 1ord-a2-m1-cB_1ord-a2-m6-cA 1ord-a2-m2-cB_1ord-a2-m4-cA 1ord-a2-m3-cA_1ord-a2-m4-cB 1ord-a2-m3-cB_1ord-a2-m5-cA SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLENKFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRGLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLENKFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRGLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN 1ord-a2-m2-cB_1ord-a2-m6-cB CRYSTALLOGRAPHIC STRUCTURE OF A PLP-DEPENDENT ORNITHINE DECARBOXYLASE FROM LACTOBACILLUS 30A TO 3.1 ANGSTROMS RESOLUTION P43099 P43099 3 X-RAY DIFFRACTION 44 1.0 1593 (Lactobacillus sp. 30A) 1593 (Lactobacillus sp. 30A) 730 730 1ord-a2-m1-cA_1ord-a2-m5-cA 1ord-a2-m1-cA_1ord-a2-m6-cA 1ord-a2-m1-cB_1ord-a2-m5-cB 1ord-a2-m1-cB_1ord-a2-m6-cB 1ord-a2-m2-cA_1ord-a2-m4-cA 1ord-a2-m2-cA_1ord-a2-m6-cA 1ord-a2-m2-cB_1ord-a2-m4-cB 1ord-a2-m3-cA_1ord-a2-m4-cA 1ord-a2-m3-cA_1ord-a2-m5-cA 1ord-a2-m3-cB_1ord-a2-m4-cB 1ord-a2-m3-cB_1ord-a2-m5-cB SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLENKFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRGLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLENKFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRGLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN 1ord-a2-m6-cA_1ord-a2-m6-cB CRYSTALLOGRAPHIC STRUCTURE OF A PLP-DEPENDENT ORNITHINE DECARBOXYLASE FROM LACTOBACILLUS 30A TO 3.1 ANGSTROMS RESOLUTION P43099 P43099 3 X-RAY DIFFRACTION 386 1.0 1593 (Lactobacillus sp. 30A) 1593 (Lactobacillus sp. 30A) 730 730 1c4k-a2-m1-cA_1c4k-a2-m3-cA 1ord-a1-m1-cA_1ord-a1-m1-cB 1ord-a2-m1-cA_1ord-a2-m1-cB 1ord-a2-m2-cA_1ord-a2-m2-cB 1ord-a2-m3-cA_1ord-a2-m3-cB 1ord-a2-m4-cA_1ord-a2-m4-cB 1ord-a2-m5-cA_1ord-a2-m5-cB SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLENKFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRGLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN SSSLKIASTQEARQYFDTDRVVVDAVGSDFTDVGAVIAMDYETDVIDAADATKFGIPVFAVTKDAQAISADELKKIFHIIDLENKFDATVNAREIETAVNNYEDSILPPFFKSLKEYVSRGLIQFDCPGHQGGQYYRKHPAGREFYDFFGETVFRADLCNADVALGDLLIHEGPAVAAEKHAARVYNADKTYFVLGGSSNANNTVTSALVSNGDLVLFDRNNHKSVYNSALAMAGGRPVYLQTNRNPYGFIGGIYDSDFDEKKIRELAAKVDPERAKWKRPFRLAVIQLGTYDGTIYNAHEVVKRIGHLCDYIEFDSAWVGYEQFIPMMRNSSPLLIDDLGPEDPGIIVVQSVHKQQAGFSQTSQIHKKDSHIKGQLRYCDHKHFNNSFNLFMSTSPFYPMYAALDVNAAMQEGEAGRKLWHDLLITTIEARKKLIKAGSMFRPFVPPVVNGKKWEDGDTEDMANNIDYWRFEKGAKWHAYEGYGDNQYYVDPNKFMLTTPGINPETGDYEDFGVPATIVANYLRDHGIIPEKSDLNSILFLMTPAETPAKMNNLITQLLQLQRLIEEDAPLKQVLPSIYAANEERYNGYTIRELCQELHDFYKNNNTFTYQKRLFLREFFPEQGMLPYEARQEFIRNHNKLVPLNKIEGEIALEGALPYPPGVFCVAPGEKWSETAVKYFTILQDGINNFPGFAPEIQGVYFKQEGDKVVAYGEVYDAEVAKNDDRYNN 1orj-a5-m1-cC_1orj-a5-m2-cC FLAGELLAR EXPORT CHAPERONE O67806 O67806 2.25 X-RAY DIFFRACTION 20 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 104 104 1orj-a5-m1-cB_1orj-a5-m2-cB PLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVK PLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVK 1orj-a5-m2-cB_1orj-a5-m2-cD FLAGELLAR EXPORT CHAPERONE O67806 O67806 2.25 X-RAY DIFFRACTION 35 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 105 125 1orj-a5-m1-cB_1orj-a5-m1-cD 1orj-a5-m1-cC_1orj-a5-m1-cA 1orj-a5-m2-cC_1orj-a5-m2-cA PLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKK RNIAEAYFQNMVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKVHH 1orj-a6-m2-cC_1orj-a6-m1-cA FLAGELLAR EXPORT CHAPERONE O67806 O67806 2.25 X-RAY DIFFRACTION 32 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 104 126 1orj-a5-m1-cB_1orj-a5-m2-cD 1orj-a5-m1-cC_1orj-a5-m2-cA 1orj-a5-m2-cB_1orj-a5-m1-cD 1orj-a5-m2-cC_1orj-a5-m1-cA 1orj-a6-m2-cB_1orj-a6-m1-cD PLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVK RNIAEAYFQNMVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKVHHH 1orj-a6-m2-cC_1orj-a6-m1-cD FLAGELLAR EXPORT CHAPERONE O67806 O67806 2.25 X-RAY DIFFRACTION 11 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 104 125 1orj-a5-m1-cB_1orj-a5-m2-cA 1orj-a5-m1-cC_1orj-a5-m2-cD 1orj-a5-m2-cB_1orj-a5-m1-cA 1orj-a5-m2-cC_1orj-a5-m1-cD 1orj-a6-m2-cB_1orj-a6-m1-cA PLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVK RNIAEAYFQNMVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKVHH 1orj-a7-m1-cD_1orj-a7-m1-cA FLAGELLAR EXPORT CHAPERONE O67806 O67806 2.25 X-RAY DIFFRACTION 60 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 125 126 1orj-a5-m1-cD_1orj-a5-m1-cA 1orj-a5-m2-cD_1orj-a5-m2-cA 1orj-a6-m1-cD_1orj-a6-m1-cA RNIAEAYFQNMVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKVHH RNIAEAYFQNMVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKVHHH 1orq-a2-m3-cA_1orq-a2-m8-cA X-ray structure of a voltage-dependent potassium channel in complex with an Fab P01837 P01837 3.2 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 215 215 1orq-a2-m1-cA_1orq-a2-m5-cA 1orq-a2-m2-cA_1orq-a2-m6-cA 1orq-a2-m4-cA_1orq-a2-m7-cA ENVLTQSPAIMSPSPGEKVTMTCRARSSVSSSYLHWYQQKSGASPKLWIYSTSNLASGVPARFSGSGSGTSYSLTISSVEAEDTATYYCQQYSGNPWTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC ENVLTQSPAIMSPSPGEKVTMTCRARSSVSSSYLHWYQQKSGASPKLWIYSTSNLASGVPARFSGSGSGTSYSLTISSVEAEDTATYYCQQYSGNPWTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 1orq-a2-m6-cC_1orq-a2-m8-cC X-ray structure of a voltage-dependent potassium channel in complex with an Fab Q9YDF8 Q9YDF8 3.2 X-RAY DIFFRACTION 85 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 223 223 1orq-a1-m1-cC_1orq-a1-m3-cC 1orq-a1-m1-cC_1orq-a1-m4-cC 1orq-a1-m2-cC_1orq-a1-m3-cC 1orq-a1-m2-cC_1orq-a1-m4-cC 1orq-a2-m1-cC_1orq-a2-m3-cC 1orq-a2-m1-cC_1orq-a2-m4-cC 1orq-a2-m2-cC_1orq-a2-m3-cC 1orq-a2-m2-cC_1orq-a2-m4-cC 1orq-a2-m5-cC_1orq-a2-m7-cC 1orq-a2-m5-cC_1orq-a2-m8-cC 1orq-a2-m6-cC_1orq-a2-m7-cC IGDVMEHPLVELGVSYAALLSVIVVVVECTMQLSGEYLVRLYLVDLILVIILWADYAYRAYKSGDPAGYVKKTLYEIPALVPAGLLALIEGHLAGLGLFRLVRLLRFLRILLIISRGSKFLSAIADAADKIRFYHLFGAVMLTVLYGAFAIYIVEYPDPNSSIKSVFDALWWAVVTATTVGYGDVVPATPIGKVIGIAVMLTGISALTLLIGTVSNMFQKILV IGDVMEHPLVELGVSYAALLSVIVVVVECTMQLSGEYLVRLYLVDLILVIILWADYAYRAYKSGDPAGYVKKTLYEIPALVPAGLLALIEGHLAGLGLFRLVRLLRFLRILLIISRGSKFLSAIADAADKIRFYHLFGAVMLTVLYGAFAIYIVEYPDPNSSIKSVFDALWWAVVTATTVGYGDVVPATPIGKVIGIAVMLTGISALTLLIGTVSNMFQKILV 1orr-a1-m1-cC_1orr-a1-m1-cD Crystal Structure of CDP-Tyvelose 2-Epimerase complexed with NAD and CDP P14169 P14169 1.5 X-RAY DIFFRACTION 42 1.0 335 336 1orr-a1-m1-cA_1orr-a1-m1-cB AKLLITGGCGFLGSNLASFALSQGIDLIVFDNLSRKGATDNLHWLSSLGNFEFVHGDIRNKNDVTRLITKYMPDSCFHLAGQVAMTTSIDNPCMDFEINVGGTLNLLEAVRQYNSNCNIIYSSTNKVYGDLEQYKYNETETRYTCVDKPNGYDESTQLDFHSPYGCSKGAADQYMLDYARIFGLNTVVFRHSSMYGGRQFATYDQGWVGWFCQKAVEIKNGIPFTISGNGKQVRDVLHAEDMISLYFTALANVSKIRGNAFNIGGTIVNSLSLLELFKLLEDYCNIDMRFTNLPVREDQRVFVADIKKITNAIDWSPKVSAKDGVQKMYDWTSSI AKLLITGGCGFLGSNLASFALSQGIDLIVFDNLSRKGATDNLHWLSSLGNFEFVHGDIRNKNDVTRLITKYMPDSCFHLAGQVAMTTSIDNPCMDFEINVGGTLNLLEAVRQYNSNCNIIYSSTNKVYGDLEQYKYNETETRYTCVDKPNGYDESTQLDFHSPYGCSKGAADQYMLDYARIFGLNTVVFRHSSMYGGRQFATYDQGWVGWFCQKAVEIKNGIPFTISGNGKQVRDVLHAEDMISLYFTALANVSKIRGNAFNIGGTIVNSLSLLELFKLLEDYCNIDMRFTNLPVRESDQRVFVADIKKITNAIDWSPKVSAKDGVQKMYDWTSSI 1orr-a3-m1-cC_1orr-a3-m1-cA Crystal Structure of CDP-Tyvelose 2-Epimerase complexed with NAD and CDP P14169 P14169 1.5 X-RAY DIFFRACTION 70 1.0 335 338 1orr-a1-m1-cC_1orr-a1-m1-cA 1orr-a1-m1-cD_1orr-a1-m1-cB 1orr-a2-m1-cD_1orr-a2-m1-cB AKLLITGGCGFLGSNLASFALSQGIDLIVFDNLSRKGATDNLHWLSSLGNFEFVHGDIRNKNDVTRLITKYMPDSCFHLAGQVAMTTSIDNPCMDFEINVGGTLNLLEAVRQYNSNCNIIYSSTNKVYGDLEQYKYNETETRYTCVDKPNGYDESTQLDFHSPYGCSKGAADQYMLDYARIFGLNTVVFRHSSMYGGRQFATYDQGWVGWFCQKAVEIKNGIPFTISGNGKQVRDVLHAEDMISLYFTALANVSKIRGNAFNIGGTIVNSLSLLELFKLLEDYCNIDMRFTNLPVREDQRVFVADIKKITNAIDWSPKVSAKDGVQKMYDWTSSI AKLLITGGCGFLGSNLASFALSQGIDLIVFDNLSRKGATDNLHWLSSLGNFEFVHGDIRNKNDVTRLITKYMPDSCFHLAGQVAMTTSIDNPCMDFEINVGGTLNLLEAVRQYNSNCNIIYSSTNKVYGDLEQYKYNETETRYTCVDKPNGYDESTQLDFHSPYGCSKGAADQYMLDYARIFGLNTVVFRHSSMYGGRQFATYDQGWVGWFCQKAVEIKNGINKPFTISGNGKQVRDVLHAEDMISLYFTALANVSKIRGNAFNIGGTIVNSLSLLELFKLLEDYCNIDMRFTNLPVRESDQRVFVADIKKITNAIDWSPKVSAKDGVQKMYDWTSSI 1ort-a5-m1-cE_1ort-a5-m1-cL ORNITHINE TRANSCARBAMOYLASE FROM PSEUDOMONAS AERUGINOSA P08308 P08308 3 X-RAY DIFFRACTION 65 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 335 335 1dxh-a1-m10-cA_1dxh-a1-m3-cA 1dxh-a1-m10-cA_1dxh-a1-m7-cA 1dxh-a1-m11-cA_1dxh-a1-m2-cA 1dxh-a1-m11-cA_1dxh-a1-m9-cA 1dxh-a1-m12-cA_1dxh-a1-m6-cA 1dxh-a1-m1-cA_1dxh-a1-m12-cA 1dxh-a1-m1-cA_1dxh-a1-m6-cA 1dxh-a1-m2-cA_1dxh-a1-m9-cA 1dxh-a1-m3-cA_1dxh-a1-m7-cA 1dxh-a1-m4-cA_1dxh-a1-m5-cA 1dxh-a1-m4-cA_1dxh-a1-m8-cA 1dxh-a1-m5-cA_1dxh-a1-m8-cA 1ort-a1-m1-cA_1ort-a1-m1-cE 1ort-a1-m1-cA_1ort-a1-m1-cL 1ort-a1-m1-cB_1ort-a1-m1-cF 1ort-a1-m1-cB_1ort-a1-m1-cJ 1ort-a1-m1-cC_1ort-a1-m1-cD 1ort-a1-m1-cC_1ort-a1-m1-cK 1ort-a1-m1-cD_1ort-a1-m1-cK 1ort-a1-m1-cE_1ort-a1-m1-cL 1ort-a1-m1-cF_1ort-a1-m1-cJ 1ort-a1-m1-cG_1ort-a1-m1-cH 1ort-a1-m1-cG_1ort-a1-m1-cI 1ort-a1-m1-cH_1ort-a1-m1-cI 1ort-a2-m1-cG_1ort-a2-m1-cH 1ort-a2-m1-cG_1ort-a2-m1-cI 1ort-a2-m1-cH_1ort-a2-m1-cI 1ort-a3-m1-cB_1ort-a3-m1-cF 1ort-a3-m1-cB_1ort-a3-m1-cJ 1ort-a3-m1-cF_1ort-a3-m1-cJ 1ort-a4-m1-cC_1ort-a4-m1-cD 1ort-a4-m1-cC_1ort-a4-m1-cK 1ort-a4-m1-cD_1ort-a4-m1-cK 1ort-a5-m1-cA_1ort-a5-m1-cE 1ort-a5-m1-cA_1ort-a5-m1-cL AFNMHNRNLLSLMHHSTRELRYLLDLSRDLKRAKYTGTEQQHLKRKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIGYRGFKQEIVEELAKFAGVPVFNGLTDEYHPTQMLADVLTMREHSDKPLHDISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKALWPHDEFVAQCKKFAEESGAKLTLTEDPKEAVKGVDFVHTDVWVSMGEPVEAWGERIKELLPYQVNMEIMKATGNPRAKFMHCLPAFHNSETKVGKQIAEQYPNLANGIEVTEDVFESPYNIAFEQAENRMHTIKAILVSTLADI AFNMHNRNLLSLMHHSTRELRYLLDLSRDLKRAKYTGTEQQHLKRKNIALIFEKTSTRTRCAFEVAAYDQGANVTYIDPNSSQIGHKESMKDTARVLGRMYDAIGYRGFKQEIVEELAKFAGVPVFNGLTDEYHPTQMLADVLTMREHSDKPLHDISYAYLGDARNNMGNSLLLIGAKLGMDVRIAAPKALWPHDEFVAQCKKFAEESGAKLTLTEDPKEAVKGVDFVHTDVWVSMGEPVEAWGERIKELLPYQVNMEIMKATGNPRAKFMHCLPAFHNSETKVGKQIAEQYPNLANGIEVTEDVFESPYNIAFEQAENRMHTIKAILVSTLADI 1oru-a1-m1-cA_1oru-a1-m1-cB Crystal Structure of APC1665, YUAD protein from Bacillus subtilis O32079 O32079 1.8 X-RAY DIFFRACTION 51 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 176 176 WKRTAKAEGLYIADTKSFVTKQDKLDFDYGGIPGDLHFGLTKKAGAREPFSRGTEIFNRRQISIVSIEECNEIALKGVPRILPEWLGANVAVSGPDLTSLKEGSRIIFPSGAALLCEGENDPCIQPGEVIQSYYPDQPKLASAFVRHALGIRGIVCIVERPGAVYTGDEIEVHSYQ WKRTAKAEGLYIADTKSFVTKQDKLDFDYGGIPGDLHFGLTKKAGAREPFSRGTEIFNRRQISIVSIEECNEIALKGVPRILPEWLGANVAVSGPDLTSLKEGSRIIFPSGAALLCEGENDPCIQPGEVIQSYYPDQPKLASAFVRHALGIRGIVCIVERPGAVYTGDEIEVHSYQ 1orv-a1-m1-cB_1orv-a1-m1-cD Crystal Structure of Porcine Dipeptidyl Peptidase IV (CD26) P22411 P22411 1.8 X-RAY DIFFRACTION 53 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 728 728 1orv-a1-m1-cA_1orv-a1-m1-cC 1orw-a1-m1-cA_1orw-a1-m1-cC 1orw-a1-m1-cB_1orw-a1-m1-cD 2aj8-a3-m1-cA_2aj8-a3-m1-cC 2aj8-a3-m1-cB_2aj8-a3-m1-cD 2ajb-a4-m1-cA_2ajb-a4-m1-cC 2ajb-a4-m1-cB_2ajb-a4-m1-cD 2ajc-a3-m1-cA_2ajc-a3-m1-cC 2ajc-a3-m1-cB_2ajc-a3-m1-cD 2ajd-a3-m1-cA_2ajd-a3-m1-cC 2ajd-a3-m1-cB_2ajd-a3-m1-cD SRRTYTLTDYLKSTFRVKFYTLQWISDHEYLYKQENNILLFNAEYGNSSIFLENSTFDELGYSTNDYSVSPDRQFILFEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWITWSPVGHKLAYVWNNDIYVKNEPNLSSQRITWTGKENVIYNGVTDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRIPYPKAGAENPTVKFFVVDTRTLSPNASVTSYQIVPPASVLIGDHYLCGVTWVTEERISLQWIRRAQNYSIIDICDYDESTGRWISSVARQHIEISTTGWVGRFRPAEPHFTSDGNSFYKIISNEEGYKHICHFQTDKSNCTFITKGAWEVIGIEALTSDYLYYISNEHKGMPGGRNLYRIQLNDYTKVTCLSCELNPERCQYYSASFSNKAKYYQLRCFGPGLPLYTLHSSSSDKELRVLEDNSALDKMLQDVQMPSKKLDVINLHGTKFWYQMILPPHFDKSKKYPLLIEVYAGPCSQKVDTVFRLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEATRQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSGVFKCGIAVAPVSKWEYYDSVYTERYMGLPTPEDNLDYYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQLSKALVDAGVDFQTMWYTDEDHGIASNMAHQHIYTHMSHFLKQCFSLP SRRTYTLTDYLKSTFRVKFYTLQWISDHEYLYKQENNILLFNAEYGNSSIFLENSTFDELGYSTNDYSVSPDRQFILFEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWITWSPVGHKLAYVWNNDIYVKNEPNLSSQRITWTGKENVIYNGVTDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRIPYPKAGAENPTVKFFVVDTRTLSPNASVTSYQIVPPASVLIGDHYLCGVTWVTEERISLQWIRRAQNYSIIDICDYDESTGRWISSVARQHIEISTTGWVGRFRPAEPHFTSDGNSFYKIISNEEGYKHICHFQTDKSNCTFITKGAWEVIGIEALTSDYLYYISNEHKGMPGGRNLYRIQLNDYTKVTCLSCELNPERCQYYSASFSNKAKYYQLRCFGPGLPLYTLHSSSSDKELRVLEDNSALDKMLQDVQMPSKKLDVINLHGTKFWYQMILPPHFDKSKKYPLLIEVYAGPCSQKVDTVFRLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEATRQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSGVFKCGIAVAPVSKWEYYDSVYTERYMGLPTPEDNLDYYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQLSKALVDAGVDFQTMWYTDEDHGIASNMAHQHIYTHMSHFLKQCFSLP 1orv-a1-m1-cC_1orv-a1-m1-cD Crystal Structure of Porcine Dipeptidyl Peptidase IV (CD26) P22411 P22411 1.8 X-RAY DIFFRACTION 123 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 728 728 1orv-a1-m1-cA_1orv-a1-m1-cB 1orw-a1-m1-cA_1orw-a1-m1-cB 1orw-a1-m1-cC_1orw-a1-m1-cD 2aj8-a1-m1-cA_2aj8-a1-m1-cB 2aj8-a2-m1-cC_2aj8-a2-m1-cD 2aj8-a3-m1-cA_2aj8-a3-m1-cB 2aj8-a3-m1-cC_2aj8-a3-m1-cD 2aj8-a4-m1-cC_2aj8-a4-m1-cD 2aj8-a4-m2-cA_2aj8-a4-m2-cB 2ajb-a1-m1-cA_2ajb-a1-m1-cB 2ajb-a2-m1-cC_2ajb-a2-m1-cD 2ajb-a3-m1-cC_2ajb-a3-m1-cD 2ajb-a3-m2-cA_2ajb-a3-m2-cB 2ajb-a4-m1-cA_2ajb-a4-m1-cB 2ajb-a4-m1-cC_2ajb-a4-m1-cD 2ajc-a1-m1-cA_2ajc-a1-m1-cB 2ajc-a2-m1-cC_2ajc-a2-m1-cD 2ajc-a3-m1-cA_2ajc-a3-m1-cB 2ajc-a3-m1-cC_2ajc-a3-m1-cD 2ajc-a4-m1-cC_2ajc-a4-m1-cD 2ajc-a4-m2-cA_2ajc-a4-m2-cB 2ajd-a1-m1-cA_2ajd-a1-m1-cB 2ajd-a2-m1-cC_2ajd-a2-m1-cD 2ajd-a3-m1-cA_2ajd-a3-m1-cB 2ajd-a3-m1-cC_2ajd-a3-m1-cD 2bua-a1-m1-cA_2bua-a1-m1-cB 2bua-a2-m1-cC_2bua-a2-m1-cD 2buc-a1-m1-cA_2buc-a1-m1-cB 2buc-a2-m1-cC_2buc-a2-m1-cD 5lls-a1-m1-cA_5lls-a1-m1-cB 5lls-a2-m1-cC_5lls-a2-m1-cD 7xnm-a1-m1-cB_7xnm-a1-m1-cA SRRTYTLTDYLKSTFRVKFYTLQWISDHEYLYKQENNILLFNAEYGNSSIFLENSTFDELGYSTNDYSVSPDRQFILFEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWITWSPVGHKLAYVWNNDIYVKNEPNLSSQRITWTGKENVIYNGVTDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRIPYPKAGAENPTVKFFVVDTRTLSPNASVTSYQIVPPASVLIGDHYLCGVTWVTEERISLQWIRRAQNYSIIDICDYDESTGRWISSVARQHIEISTTGWVGRFRPAEPHFTSDGNSFYKIISNEEGYKHICHFQTDKSNCTFITKGAWEVIGIEALTSDYLYYISNEHKGMPGGRNLYRIQLNDYTKVTCLSCELNPERCQYYSASFSNKAKYYQLRCFGPGLPLYTLHSSSSDKELRVLEDNSALDKMLQDVQMPSKKLDVINLHGTKFWYQMILPPHFDKSKKYPLLIEVYAGPCSQKVDTVFRLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEATRQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSGVFKCGIAVAPVSKWEYYDSVYTERYMGLPTPEDNLDYYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQLSKALVDAGVDFQTMWYTDEDHGIASNMAHQHIYTHMSHFLKQCFSLP SRRTYTLTDYLKSTFRVKFYTLQWISDHEYLYKQENNILLFNAEYGNSSIFLENSTFDELGYSTNDYSVSPDRQFILFEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWITWSPVGHKLAYVWNNDIYVKNEPNLSSQRITWTGKENVIYNGVTDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRIPYPKAGAENPTVKFFVVDTRTLSPNASVTSYQIVPPASVLIGDHYLCGVTWVTEERISLQWIRRAQNYSIIDICDYDESTGRWISSVARQHIEISTTGWVGRFRPAEPHFTSDGNSFYKIISNEEGYKHICHFQTDKSNCTFITKGAWEVIGIEALTSDYLYYISNEHKGMPGGRNLYRIQLNDYTKVTCLSCELNPERCQYYSASFSNKAKYYQLRCFGPGLPLYTLHSSSSDKELRVLEDNSALDKMLQDVQMPSKKLDVINLHGTKFWYQMILPPHFDKSKKYPLLIEVYAGPCSQKVDTVFRLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEATRQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSGVFKCGIAVAPVSKWEYYDSVYTERYMGLPTPEDNLDYYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQLSKALVDAGVDFQTMWYTDEDHGIASNMAHQHIYTHMSHFLKQCFSLP 1ory-a2-m2-cA_1ory-a2-m3-cA FLAGELLAR EXPORT CHAPERONE IN COMPLEX WITH ITS COGNATE BINDING PARTNER O67806 O67806 2.45 X-RAY DIFFRACTION 21 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 119 119 1ory-a2-m1-cA_1ory-a2-m2-cA 1ory-a2-m1-cA_1ory-a2-m3-cA EAYFQNQVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKV EAYFQNQVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKV 1ory-a3-m1-cA_1ory-a3-m4-cA FLAGELLAR EXPORT CHAPERONE IN COMPLEX WITH ITS COGNATE BINDING PARTNER O67806 O67806 2.45 X-RAY DIFFRACTION 19 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 119 119 EAYFQNQVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKV EAYFQNQVETATPLEQIILLYDKAIECLERAIEIYDQVNELEKRKEFVENIDRVYDIISALKSFLDHEKGKEIAKNLDTIYTIILNTLVKVDKTKEELQKILEILKDLREAWEEVKKKV 1ory-a3-m1-cB_1ory-a3-m4-cB FLAGELLAR EXPORT CHAPERONE IN COMPLEX WITH ITS COGNATE BINDING PARTNER O67803 O67803 2.45 X-RAY DIFFRACTION 13 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 40 40 NVDFAKEMTEFTKYQIRMQSGVAMLAQANALPQLVLQLLR NVDFAKEMTEFTKYQIRMQSGVAMLAQANALPQLVLQLLR 1os9-a10-m1-cC_1os9-a10-m3-cE Binary enzyme-product complexes of human MMP12 P39900 P39900 1.85 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 1os2-a9-m1-cA_1os2-a9-m2-cC 1os9-a9-m1-cD_1os9-a9-m2-cF MMGPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDDHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGDPKEN MMGPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDDHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGDPKEN 1os9-a8-m1-cA_1os9-a8-m1-cC Binary enzyme-product complexes of human MMP12 P39900 P39900 1.85 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 1os2-a7-m1-cD_1os2-a7-m1-cE 1os2-a7-m1-cE_1os2-a7-m1-cF 1os2-a8-m1-cA_1os2-a8-m1-cB 1os2-a8-m1-cB_1os2-a8-m1-cC 1os9-a7-m1-cB_1os9-a7-m1-cD 1os9-a7-m1-cB_1os9-a7-m1-cF 1os9-a8-m1-cA_1os9-a8-m1-cE MMGPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDDHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGDPKEN MMGPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDDHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGDPKEN 1osc-a3-m1-cB_1osc-a3-m1-cF Crystal structure of rat CUTA1 at 2.15 A resolution Q6MGD0 Q6MGD0 2.15 X-RAY DIFFRACTION 10 0.991 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 109 111 1osc-a3-m1-cA_1osc-a3-m1-cE 1osc-a3-m1-cC_1osc-a3-m1-cD YVPGSVSAAFVTCPNEKVAKEIARAVVEKRLAACVNLIPQITSIYEWKGKIEEDSEVLMMIKTQSSLVPALTEFVRSVHPYEVAEVIALPVEQGNPPYLHWVHQVTESV GSGYVPGSVSAAFVTCPNEKVAKEIARAVVEKRLAACVNLIPQITSIYEWKGKIEEDSEVLMMIKTQSSLVPALTEFVRSVHPYVAEVIALPVEQGNPPYLHWVHQVTESV 1osn-a3-m1-cB_1osn-a3-m1-cD Crystal structure of Varicella zoster virus thymidine kinase in complex with BVDU-MP and ADP P0C0E6 P0C0E6 3.2 X-RAY DIFFRACTION 10 0.994 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 315 315 1osn-a3-m1-cC_1osn-a3-m1-cA MGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTSTEPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVSETVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD VKMGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTSTEPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVTVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD 1osn-a3-m1-cC_1osn-a3-m1-cB Crystal structure of Varicella zoster virus thymidine kinase in complex with BVDU-MP and ADP P0C0E6 P0C0E6 3.2 X-RAY DIFFRACTION 42 0.997 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 313 315 KMGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVSETVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD MGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTSTEPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVSETVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD 1osn-a3-m1-cC_1osn-a3-m1-cD Crystal structure of Varicella zoster virus thymidine kinase in complex with BVDU-MP and ADP P0C0E6 P0C0E6 3.2 X-RAY DIFFRACTION 123 0.994 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 313 315 1osn-a1-m1-cB_1osn-a1-m1-cA 1osn-a2-m1-cC_1osn-a2-m1-cD 1osn-a3-m1-cB_1osn-a3-m1-cA KMGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVSETVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD VKMGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTSTEPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVTVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD 1osn-a3-m1-cD_1osn-a3-m1-cA Crystal structure of Varicella zoster virus thymidine kinase in complex with BVDU-MP and ADP P0C0E6 P0C0E6 3.2 X-RAY DIFFRACTION 36 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 315 325 VKMGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTSTEPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVTVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD VKMGVLRIYLDGAYGIGKTTAAEEFLHHFAITPNRILLIGEPLSYWRNLAGEDAICGIYGTQTRRLNGDVSPEDAQRLTAHFQSLFCSPHAIMHAKISALMDTSTSDLVQVNKEPYKIMLSDRHPIASTICFPLSRYLVGDMSPAALPGLLFTLPAEPPGTNLVVCTVSLPSHLSRVSETVNLPFVMVLRNVYIMLINTIIFLKTNNWHAGWNTLSFCNDVFKQKLQKSECIKLREVPGIEDTLFAVLKLPELCGEFGNILPLWAWGMETLSNCLRSMSPFVLSLEQTPQHAAQELKTLLPQMTPANMSSGAWNILKELVNAVQD 1osy-a1-m1-cB_1osy-a1-m1-cA Crystal structure of FIP-Fve fungal immunomodulatory protein P80412 P80412 1.7 X-RAY DIFFRACTION 84 1.0 38945 (Flammulina velutipes) 38945 (Flammulina velutipes) 112 114 SATSLTFQLAYLVKKIDFDYTPNWGRGTPSSYIDNLTFPKVLTDKKYSYRVVVNGSDLGVESNFAVTPSGGQTINFLQYNKGYGVADTKTIQVFVVIPDTGNSEEYIIAEWK SATSLTFQLAYLVKKIDFDYTPNWGRGTPSSYIDNLTFPKVLTDKKYSYRVVVNGSDLGVESNFAVTPSGGQTINFLQYNKGYGVADTKTIQVFVVIPDTGNSEEYIIAEWKKT 1ot5-a2-m1-cD_1ot5-a2-m1-cB The 2.4 Angstrom Crystal Structure of Kex2 in complex with a peptidyl-boronic acid inhibitor P13134 2.4 X-RAY DIFFRACTION 12 1.0 4932 (Saccharomyces cerevisiae) 2 477 1ot5-a1-m1-cC_1ot5-a1-m1-cA AK PVKEAEDKLSINDPLFERQWHLVNPSFPGSDINVLDLWYNNITGAGVVAAIVDDGLDYENEDLKDNFCAEGSWDFNDNTNLPKPRLSDDYHGTRCAGEIAAKKGNNFCGVGVGYNAKISGIRILSGDITTEDEAASLIYGLDVNDIYSCSWGPADDGRHLQGPSDLVKKALVKGVTEGRDSKGAIYVFASGNGGTRGDNCNYDGYTNSIYSITIGAIDHKDLHPPYSEGCSAVMAVTYSSGSGEYIHSSDINGRCSNSHGGTSAAAPLAAGVYTLLLEANPNLTWRDVQYLSILSAVGLEKNADGDWRDSAMGKKYSHRYGFGKIDAHKLIEMSKTWENVNAQTWFYLPTLYVSQSTNSTEETLESVITISEKSLQDANFKRIEHVTVTVDIDTEIRGTTTVDLISPAGIISNLGVVRPRDVSSEGFKDWTFMSVAHWGENGVGDWKIKVKTTENGHRIDFHSWRLKLFGESIDSSK 1otf-a1-m1-cC_1otf-a1-m1-cE 4-OXALOCROTONATE TAUTOMERASE-TRICLINIC CRYSTAL FORM P49172 P49172 1.9 X-RAY DIFFRACTION 43 1.0 79676 (Pseudomonas sp. CF600) 79676 (Pseudomonas sp. CF600) 59 59 1otf-a1-m1-cA_1otf-a1-m1-cC 1otf-a1-m1-cA_1otf-a1-m1-cE 1otf-a1-m1-cB_1otf-a1-m1-cD 1otf-a1-m1-cB_1otf-a1-m1-cF 1otf-a1-m1-cD_1otf-a1-m1-cF PIAQLYIIEGRTDEQKETLIRQVSEAMANSLDAPLERVRVLITEMPKNHFGIGGEPASK PIAQLYIIEGRTDEQKETLIRQVSEAMANSLDAPLERVRVLITEMPKNHFGIGGEPASK 1otf-a1-m1-cC_1otf-a1-m1-cF 4-OXALOCROTONATE TAUTOMERASE-TRICLINIC CRYSTAL FORM P49172 P49172 1.9 X-RAY DIFFRACTION 63 1.0 79676 (Pseudomonas sp. CF600) 79676 (Pseudomonas sp. CF600) 59 59 1otf-a1-m1-cA_1otf-a1-m1-cD 1otf-a1-m1-cB_1otf-a1-m1-cE PIAQLYIIEGRTDEQKETLIRQVSEAMANSLDAPLERVRVLITEMPKNHFGIGGEPASK PIAQLYIIEGRTDEQKETLIRQVSEAMANSLDAPLERVRVLITEMPKNHFGIGGEPASK 1otg-a1-m1-cB_1otg-a1-m1-cC 5-CARBOXYMETHYL-2-HYDROXYMUCONATE ISOMERASE Q05354 Q05354 2.1 X-RAY DIFFRACTION 97 1.0 498388 (Escherichia coli C) 498388 (Escherichia coli C) 125 125 1otg-a1-m1-cA_1otg-a1-m1-cB 1otg-a1-m1-cA_1otg-a1-m1-cC PHFIVECSDNIREEADLPGLFAKVNPTLAATGIFPLAGIRSRVHWVDTWQMADGQHDYAFVHMTLKIGAGRSLESRQQAGEMLFELIKTHFAALMESRLLALSFEIEELHPTLNFKQNNVHALFK PHFIVECSDNIREEADLPGLFAKVNPTLAATGIFPLAGIRSRVHWVDTWQMADGQHDYAFVHMTLKIGAGRSLESRQQAGEMLFELIKTHFAALMESRLLALSFEIEELHPTLNFKQNNVHALFK 1otk-a1-m1-cA_1otk-a1-m1-cB Structural Genomics, Protein paaC P76079 P76079 2 X-RAY DIFFRACTION 42 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 244 244 HGNQLTAYTLRLGDNCLVLSQRLGEWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELAGEGDEDTLAFTRDERQFSNLLLVEQPNGNFADTIARQYFIDAWHVALFTRLMESRDPQLAAISAKAIKEARYHLRFSRGWLERLGNGTDVSGQKMQQAINKLWRFTAELFDADEIDIALSEEGIAVDPRTLRAAWEAEVFAGINEATLNVPQEQAYRTGGKKGLHTEHLGPMLAEMQYLQRVL HGNQLTAYTLRLGDNCLVLSQRLGEWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELAGEGDEDTLAFTRDERQFSNLLLVEQPNGNFADTIARQYFIDAWHVALFTRLMESRDPQLAAISAKAIKEARYHLRFSRGWLERLGNGTDVSGQKMQQAINKLWRFTAELFDADEIDIALSEEGIAVDPRTLRAAWEAEVFAGINEATLNVPQEQAYRTGGKKGLHTEHLGPMLAEMQYLQRVL 1otv-a2-m1-cB_1otv-a2-m2-cB PqqC, Pyrroloquinolinquinone Synthase C P27505 P27505 2.1 X-RAY DIFFRACTION 83 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 254 254 1otv-a2-m1-cA_1otv-a2-m2-cA LITDTLSPQAFEEALRAKGDFYHIHHPYHIAMHNGDATRKQIQGWVANRFYYQTTIPLKDAAIMANCPDAQTRRKWVQRILDHDGSHGEDGGIEAWLRLGEAVGLSRDDLLSERHVLPGVRFAVDAYLNFARRACWQEAACSSLTELFAPQIHQSRLDSWPQHYPWIKEEGYFYFRSRLSQANRDVEHGLALAKAYCDSAEKQNRMLEILQFKLDILWSMLDAMTMAYALQRPPYHTVTDKAAWHTTRLVLEHH LITDTLSPQAFEEALRAKGDFYHIHHPYHIAMHNGDATRKQIQGWVANRFYYQTTIPLKDAAIMANCPDAQTRRKWVQRILDHDGSHGEDGGIEAWLRLGEAVGLSRDDLLSERHVLPGVRFAVDAYLNFARRACWQEAACSSLTELFAPQIHQSRLDSWPQHYPWIKEEGYFYFRSRLSQANRDVEHGLALAKAYCDSAEKQNRMLEILQFKLDILWSMLDAMTMAYALQRPPYHTVTDKAAWHTTRLVLEHH 1otv-a2-m2-cA_1otv-a2-m2-cB PqqC, Pyrroloquinolinquinone Synthase C P27505 P27505 2.1 X-RAY DIFFRACTION 142 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 254 254 1otv-a1-m1-cA_1otv-a1-m1-cB 1otv-a2-m1-cA_1otv-a2-m1-cB 1otw-a1-m1-cB_1otw-a1-m1-cA 3hlx-a1-m1-cA_3hlx-a1-m1-cD 3hml-a1-m1-cB_3hml-a1-m1-cA 3hnh-a1-m1-cA_3hnh-a1-m2-cA 4ny7-a1-m1-cA_4ny7-a1-m1-cB LITDTLSPQAFEEALRAKGDFYHIHHPYHIAMHNGDATRKQIQGWVANRFYYQTTIPLKDAAIMANCPDAQTRRKWVQRILDHDGSHGEDGGIEAWLRLGEAVGLSRDDLLSERHVLPGVRFAVDAYLNFARRACWQEAACSSLTELFAPQIHQSRLDSWPQHYPWIKEEGYFYFRSRLSQANRDVEHGLALAKAYCDSAEKQNRMLEILQFKLDILWSMLDAMTMAYALQRPPYHTVTDKAAWHTTRLVLEHH LITDTLSPQAFEEALRAKGDFYHIHHPYHIAMHNGDATRKQIQGWVANRFYYQTTIPLKDAAIMANCPDAQTRRKWVQRILDHDGSHGEDGGIEAWLRLGEAVGLSRDDLLSERHVLPGVRFAVDAYLNFARRACWQEAACSSLTELFAPQIHQSRLDSWPQHYPWIKEEGYFYFRSRLSQANRDVEHGLALAKAYCDSAEKQNRMLEILQFKLDILWSMLDAMTMAYALQRPPYHTVTDKAAWHTTRLVLEHH 1ou0-a1-m1-cA_1ou0-a1-m1-cD precorrin-8X methylmutase related protein Q9HKE7 Q9HKE7 2.1 X-RAY DIFFRACTION 50 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 182 183 1ou0-a1-m1-cC_1ou0-a1-m1-cB SLAAIDSIDPDISGPRHIVVKAIHAAGDFAIAPLIRYSDGFFKSLAKLKEGCTIICDSEVRAGIYSRPVLERNRVVCYLNDVRSKEADVNGITRSAAGIRIAQDHRNSVIVIGNAPTALLEARIEENGWYDIPIVGIPVGFINASKAKEGLVSSHIEYISVEGHRGGSPIAASIVNGFGRFL RSLAAIDSIDPDISGPRHIVVKAIHAAGDFAIAPLIRYSDGFFKSLAKLKEGCTIICDSEVRAGIYSRPVLERNRVVCYLNDVRSKEADVNGITRSAAGIRIAQDHRNSVIVIGNAPTALLEARIEENGWYDIPIVGIPVGFINASKAKEGLVSSHIEYISVEGHRGGSPIAASIVNGFGRFL 1ou0-a1-m1-cC_1ou0-a1-m1-cD precorrin-8X methylmutase related protein Q9HKE7 Q9HKE7 2.1 X-RAY DIFFRACTION 39 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 183 183 1ou0-a1-m1-cA_1ou0-a1-m1-cB RSLAAIDSIDPDISGPRHIVVKAIHAAGDFAIAPLIRYSDGFFKSLAKLKEGCTIICDSEVRAGIYSRPVLERNRVVCYLNDVRSKEADVNGITRSAAGIRIAQDHRNSVIVIGNAPTALLEARIEENGWYDIPIVGIPVGFINASKAKEGLVSSHIEYISVEGHRGGSPIAASIVNGFGRFL RSLAAIDSIDPDISGPRHIVVKAIHAAGDFAIAPLIRYSDGFFKSLAKLKEGCTIICDSEVRAGIYSRPVLERNRVVCYLNDVRSKEADVNGITRSAAGIRIAQDHRNSVIVIGNAPTALLEARIEENGWYDIPIVGIPVGFINASKAKEGLVSSHIEYISVEGHRGGSPIAASIVNGFGRFL 1ou0-a1-m1-cD_1ou0-a1-m1-cB precorrin-8X methylmutase related protein Q9HKE7 Q9HKE7 2.1 X-RAY DIFFRACTION 15 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 183 185 1ou0-a1-m1-cA_1ou0-a1-m1-cC RSLAAIDSIDPDISGPRHIVVKAIHAAGDFAIAPLIRYSDGFFKSLAKLKEGCTIICDSEVRAGIYSRPVLERNRVVCYLNDVRSKEADVNGITRSAAGIRIAQDHRNSVIVIGNAPTALLEARIEENGWYDIPIVGIPVGFINASKAKEGLVSSHIEYISVEGHRGGSPIAASIVNGFGRFL EERSLAAIDSIDPDISGPRHIVVKAIHAAGDFAIAPLIRYSDGFFKSLAKLKEGCTIICDSEVRAGIYSRPVLERNRVVCYLNDVRSKEADVNGITRSAAGIRIAQDHRNSVIVIGNAPTALLEARIEENGWYDIPIVGIPVGFINASKAKEGLVSSHIEYISVEGHRGGSPIAASIVNGFGRFL 1ou5-a1-m1-cA_1ou5-a1-m1-cB Crystal structure of human CCA-adding enzyme Q96Q11 Q96Q11 3.4 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 344 DKMKLQSPEFQSLFTEGLKSLTELFVKENHELRIAGGAVRDLLNGVKPQDIDFATTATPTQMKEMFQSAGIRMINNRGEKHGTITARLHEENFEITTLRIFTTDWQKDAERRDLTINSMFLGFDGTLFDYFNGYEDLKNKKVRFVGHAKQRIQEDYLRILRYFRFYGRIVDKPGDHDPETLEAIAENAKGLAGISGERIWVELKKILVGNHVNHLIHLIYDLDVAPYIGLPANASLEEFDKVSKNVDGFSPKPVTLLASLFKVQDDVTKLDLRLKIAKEEKNLGLFIVKNRKDLIKATDSSDPLKPYQDFIIDSREPDATTRVCELLKYQGEHCLLKEMQQWSI DKMKLQSPEFQSLFTEGLKSLTELFVKENHELRIAGGAVRDLLNGVKPQDIDFATTATPTQMKEMFQSAGIRMINNRGEKHGTITARLHEENFEITTLRIFTTDWQKDAERRDLTINSMFLGFDGTLFDYFNGYEDLKNKKVRFVGHAKQRIQEDYLRILRYFRFYGRIVDKPGDHDPETLEAIAENAKGLAGISGERIWVELKKILVGNHVNHLIHLIYDLDVAPYIGLPANASLEEFDKVSKNVDGFSPKPVTLLASLFKVQDDVTKLDLRLKIAKEEKNLGLFIVKNRKDLIKATDSSDPLKPYQDFIIDSREPDATTRVCELLKYQGEHCLLKEMQQWSI 1ou9-a3-m2-cB_1ou9-a3-m2-cC Structure of SspB, a AAA+ protease delivery protein P45206 P45206 1.8 X-RAY DIFFRACTION 33 0.991 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 109 115 1ou8-a1-m1-cA_1ou8-a1-m3-cA 1ou8-a2-m1-cB_1ou8-a2-m2-cB 1ou9-a1-m1-cA_1ou9-a1-m2-cA 1ou9-a2-m1-cB_1ou9-a2-m1-cC 1ou9-a3-m1-cA_1ou9-a3-m2-cA 1ou9-a3-m1-cB_1ou9-a3-m1-cC 1twb-a3-m1-cB_1twb-a3-m2-cB 1twb-a4-m1-cA_1twb-a4-m3-cA 1zsz-a1-m1-cA_1zsz-a1-m2-cA 1zsz-a3-m3-cA_1zsz-a3-m4-cA KSSPKRPYLLRAYYDWLVDNSFTPYLVVDATYLGVNVPVEYVKDGQIVLNLSASATGNLQLTNDFIQFNARFKGVSRELYIPGAALAIYARENGDGVFEPEEIYDELNI SSPKRPYLLRAYYDWLVDNSFTPYLVVDATYLGVNVPVEYVKDGQIVLNLSASATGNLQLTNDFIQFNARFKGVSRELYIPGAALAIYARENGDGVFEPEEIYDELNIEPDTEQP 1ou9-a4-m2-cC_1ou9-a4-m3-cC Structure of SspB, a AAA+ protease delivery protein P45206 P45206 1.8 X-RAY DIFFRACTION 63 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 115 115 SSPKRPYLLRAYYDWLVDNSFTPYLVVDATYLGVNVPVEYVKDGQIVLNLSASATGNLQLTNDFIQFNARFKGVSRELYIPGAALAIYARENGDGVFEPEEIYDELNIEPDTEQP SSPKRPYLLRAYYDWLVDNSFTPYLVVDATYLGVNVPVEYVKDGQIVLNLSASATGNLQLTNDFIQFNARFKGVSRELYIPGAALAIYARENGDGVFEPEEIYDELNIEPDTEQP 1ou9-a5-m2-cC_1ou9-a5-m1-cA Structure of SspB, a AAA+ protease delivery protein P45206 P45206 1.8 X-RAY DIFFRACTION 44 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 115 118 1ou9-a3-m1-cB_1ou9-a3-m1-cA 1ou9-a3-m1-cC_1ou9-a3-m2-cA 1ou9-a3-m2-cB_1ou9-a3-m2-cA 1ou9-a3-m2-cC_1ou9-a3-m1-cA 1ou9-a4-m1-cB_1ou9-a4-m1-cA 1ou9-a4-m2-cC_1ou9-a4-m1-cA 1ou9-a4-m3-cC_1ou9-a4-m4-cA 1ou9-a4-m4-cB_1ou9-a4-m4-cA 1ou9-a5-m1-cB_1ou9-a5-m1-cA SSPKRPYLLRAYYDWLVDNSFTPYLVVDATYLGVNVPVEYVKDGQIVLNLSASATGNLQLTNDFIQFNARFKGVSRELYIPGAALAIYARENGDGVFEPEEIYDELNIEPDTEQP EYKSSPKRPYLLRAYYDWLVDNSFTPYLVVDATYLGVNVPVEYVKDGQIVLNLSASATGNLQLTNDFIQFNARFKGVSRELYIPGAALAIYARENGDGVFEPEEIYDELNIEPDTEQP 1ous-a2-m1-cB_1ous-a2-m2-cC Lecb (PA-LII) calcium-free Q9HYN5 Q9HYN5 1.2 X-RAY DIFFRACTION 13 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 114 114 1ous-a2-m2-cD_1ous-a2-m1-cA 5i8m-a1-m1-cA_5i8m-a1-m1-cC 5i8m-a1-m1-cB_5i8m-a1-m1-cD ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG 1ous-a2-m2-cD_1ous-a2-m1-cB Lecb (PA-LII) calcium-free Q9HYN5 Q9HYN5 1.2 X-RAY DIFFRACTION 55 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 109 114 5i8m-a1-m1-cA_5i8m-a1-m1-cB ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDYNDAVVVINWPLG ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG 1out-a1-m1-cA_1out-a1-m2-cA TROUT HEMOGLOBIN I P02019 P02019 2.3 X-RAY DIFFRACTION 11 1.0 8022 (Oncorhynchus mykiss) 8022 (Oncorhynchus mykiss) 142 142 SLTAKDKSVVKAFWGKISGKADVVGAEALGRMLTAYPQTKTYFSHWADLSPGSGPVKKHGGIIMGAIGKAVGLMDDLVGGMSALSDLHAFKLRVDPGNFKILSHNILVTLAIHFPSDFTPEVHIAVDKFLAAVSAALADKYR SLTAKDKSVVKAFWGKISGKADVVGAEALGRMLTAYPQTKTYFSHWADLSPGSGPVKKHGGIIMGAIGKAVGLMDDLVGGMSALSDLHAFKLRVDPGNFKILSHNILVTLAIHFPSDFTPEVHIAVDKFLAAVSAALADKYR 1ouu-a1-m1-cB_1ouu-a1-m1-cD CARBONMONOXY TROUT HEMOGLOBIN I P02142 P02142 2.5 X-RAY DIFFRACTION 12 1.0 8022 (Oncorhynchus mykiss) 8022 (Oncorhynchus mykiss) 146 146 VEWTDAEKSTISAVWGKVNIDEIGPLALARVLIVYPWTQRYFGSFGNVSTPAAIMGNPKVAAHGKVVCGALDKAVKNMGNILATYKSLSETHANKLFVDPDNFRVLADVLTIVIAAKFGASFTPEIQATWQKFMKVVVAAMGSRYF VEWTDAEKSTISAVWGKVNIDEIGPLALARVLIVYPWTQRYFGSFGNVSTPAAIMGNPKVAAHGKVVCGALDKAVKNMGNILATYKSLSETHANKLFVDPDNFRVLADVLTIVIAAKFGASFTPEIQATWQKFMKVVVAAMGSRYF 1ouw-a2-m1-cD_1ouw-a2-m1-cC Crystal structure of Calystegia sepium agglutinin P93114 P93114 1.37 X-RAY DIFFRACTION 96 1.0 47519 (Calystegia sepium) 47519 (Calystegia sepium) 150 151 1ouw-a1-m1-cA_1ouw-a1-m1-cB 5xfi-a1-m1-cA_5xfi-a1-m1-cB VPMDTISGPWGNNGGNFWSFRPVNKINQIVISYGGGGNNPIALTFSSTKADGSKDTITVGGGGPDSITGTEMVNIGTDEYLTGISGTFGIYLDNNVLRSITFTTNLKAHGPYGQKVGTPFSSAVVGNEIVGFLGRSGYYVDAIGTYNRHK VPMDTISGPWGNNGGNFWSFRPVNKINQIVISYGGGGNNPIALTFSSTKADGSKDTITVGGGGPDSITGTEMVNIGTDEYLTGISGTFGIYLDNNVLRSITFTTNLKAHGPYGQKVGTPFSSANVVGNEIVGFLGRSGYYVDAIGTYNRHK 1ov3-a2-m1-cA_1ov3-a2-m2-cA Structure of the p22phox-p47phox complex P14598 P14598 1.8 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 LGSPEFIILQTYRAIADYEKTSGSEMALSTGDVVEVVEKSESGWWFCQMKAKRGWIPASFLEPLDSPDETEDPEPNYAGEPYVAIKAYTAVEGDEVSLLEGEAVEVIHKLLDGWWVIRKDDVTGYFPSMYLQKS LGSPEFIILQTYRAIADYEKTSGSEMALSTGDVVEVVEKSESGWWFCQMKAKRGWIPASFLEPLDSPDETEDPEPNYAGEPYVAIKAYTAVEGDEVSLLEGEAVEVIHKLLDGWWVIRKDDVTGYFPSMYLQKS 1ov3-a2-m2-cB_1ov3-a2-m2-cA Structure of the p22phox-p47phox complex P14598 P14598 1.8 X-RAY DIFFRACTION 177 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 134 1ng2-a2-m1-cA_1ng2-a2-m2-cA 1ov3-a1-m1-cB_1ov3-a1-m1-cA 1ov3-a2-m1-cB_1ov3-a2-m1-cA 1uec-a2-m1-cA_1uec-a2-m2-cA SPEFIILQTYRAIADYEKTSGSEMALSTGDVVEVVEKSESGWWFCQMKAKRGWIPASFLEPLDSPDEPNYAGEPYVAIKAYTAVEGDEVSLLEGEAVEVIHKLLDGWWVIRKDDVTGYFPSMYLQKS LGSPEFIILQTYRAIADYEKTSGSEMALSTGDVVEVVEKSESGWWFCQMKAKRGWIPASFLEPLDSPDETEDPEPNYAGEPYVAIKAYTAVEGDEVSLLEGEAVEVIHKLLDGWWVIRKDDVTGYFPSMYLQKS 1ov9-a1-m1-cA_1ov9-a1-m1-cB Crystal structure of the N-terminal dimerisation domain of VicH, the H-NS protein from Vibrio cholerae Q9KSX6 Q9KSX6 2.3 X-RAY DIFFRACTION 79 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 45 48 EITKTLLNIRSLRAYARELTIEQLEEALDKLTTVVQERKEAEAEE EITKTLLNIRSLRAYARELTIEQLEEALDKLTTVVQERKEAEAEEIAA 1ova-a2-m1-cD_1ova-a2-m1-cC CRYSTAL STRUCTURE OF UNCLEAVED OVALBUMIN AT 1.95 ANGSTROMS RESOLUTION P01012 P01012 1.95 X-RAY DIFFRACTION 95 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 385 373 1ova-a1-m1-cB_1ova-a1-m1-cA GSIGAASMEFCFDVFKELKVHHANENIFYCPIAIMSALAMVYLGAKDSTRTQINKVVRFDKLPGFGDSIEAQCGTSVNVHSSLRDILNQITKPNDVYSFSLASRLYAEERYPILPEYLQCVKELYRGGLEPINFQTAADQARELINSWVESQTNGIIRNVLQPSSVDSQTAMVLVNAIVFKGLWEKAFKDEDTQAMPFRVTEQESKPVQMMYQIGLFRVASMASEKMKILELPFASGTMSMLVLLPDEVSGLEQLESIINFEKLTEWTSSNVMEERKIKVYLPRMKMEEKYNLTSVLMAMGITDVFSSSANLSGISSAESLKISQAVHAAHAEINEAGREVVGSAEAGVDAASVSEEFRADHPFLFCIKHIATNAVLFFGRCVSP GSIGAASMEFCFDVFKELKVHHANENIFYCPIAIMSALAMVYLGAKDSTRTQINKVVRFDKLPGFGDSIEAQCGTSVNVHSSLRDILNQITKPNDVYSFSLASRLYAEERYPILPEYLQCVKELYRGGLEPINFQTAADQARELINSWVESQTNGIIRNVLQPSSVDSQTAMVLVNAIVFKGLWEKAFKDEDTQAMPFRVTEQESKPVQMMYQIGLFRVASMASEKMKILELPFASGTMSMLVLLPDEVSGLEQLESIINFEKLTEWTSSNVMEERKIKVYLPRMKMEEKYNLTSVLMAMGITDVFSSSANLSGISSAESLKISQAVHAAHAEINEAGREVVSEEFRADHPFLFCIKHIATNAVLFFGRCVSP 1ovl-a1-m1-cB_1ovl-a1-m1-cE Crystal Structure of Nurr1 LBD P43354 P43354 2.2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 247 SLISALVRAHVDSNPAMTSLDYSRFQANPDYQMSGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF RTDSLKGRRGRLPSSLISALVRAHVDSNPAMTSLDYSRFQANPDYQMSGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF 1ovl-a1-m1-cC_1ovl-a1-m1-cA Crystal Structure of Nurr1 LBD P43354 P43354 2.2 X-RAY DIFFRACTION 14 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 223 226 SLISALVRAHVDSNPAMTSLDYSRFQANPGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF SLISALVRAHVDSNPAMTSLDYSRFQANDTQHIQQFYDLLTGSMEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF 1ovl-a1-m1-cC_1ovl-a1-m1-cE Crystal Structure of Nurr1 LBD P43354 P43354 2.2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 247 SLISALVRAHVDSNPAMTSLDYSRFQANPGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF RTDSLKGRRGRLPSSLISALVRAHVDSNPAMTSLDYSRFQANPDYQMSGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF 1ovl-a1-m1-cD_1ovl-a1-m1-cE Crystal Structure of Nurr1 LBD P43354 P43354 2.2 X-RAY DIFFRACTION 60 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 228 247 1ovl-a1-m1-cA_1ovl-a1-m1-cB SLISALVRAHVDSNPAMTSLDYSRFQANPDDTQHIQQFYDLLTGSMEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF RTDSLKGRRGRLPSSLISALVRAHVDSNPAMTSLDYSRFQANPDYQMSGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF 1ovl-a1-m1-cF_1ovl-a1-m1-cC Crystal Structure of Nurr1 LBD P43354 P43354 2.2 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 223 SLISALVRAHVDSNPAMTSLDYSRFQANDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF SLISALVRAHVDSNPAMTSLDYSRFQANPGDDTQHIQQFYDLLTGSEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNNIDISAFSCIAALAVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF 1ovm-a1-m1-cB_1ovm-a1-m1-cD Crystal structure of Indolepyruvate decarboxylase from Enterobacter cloacae P23234 P23234 2.65 X-RAY DIFFRACTION 72 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 535 535 1ovm-a1-m1-cA_1ovm-a1-m1-cC TPYCVADYLLDRLTDCGADHLFGVPGDYNLQFLDHVIDSPDICWVGCANELNASYAADGYARCKGFAALLTTFGVGELSAMNGIAGSYAEHVPVLHIVGAPGTAAQQRGELLHHTLGDGEFRHFYHMSEPITVAQAVLTEQNACYEIDRVLTTMLRERRPGYLMLPADVAKKAATPPVNALTHKQAHADSACLKAFRDAAENKLAMSKRTALLADFLVLRHGLKHALQKWVKEVPMAHATMLMGKGIFDERQAGFYGTYSGSASTGAVKEAIEGADTVLCVGTRFTDTLTAGFTHQLTPAQTIEVQPHAARVGDVWFTGIPMNQAIETLVELCKQHVHAPDGSLTQENFWRTLQTFIRPGDIILADQGTSAFGAIDLRLPADVNFIVQPLWGSIGYTLAAAFGAQTACPNRRVIVLTGDGAAQLTIQELGSMLRDKQHPIILVLNNEGYTVERAIHGAEQRYNDIALWNWTHIPQALSLDPQSECWRVSEAEQLADVLEKVAHHERLSLIEVMLPKADIPPLLGALTKALEACNN TPYCVADYLLDRLTDCGADHLFGVPGDYNLQFLDHVIDSPDICWVGCANELNASYAADGYARCKGFAALLTTFGVGELSAMNGIAGSYAEHVPVLHIVGAPGTAAQQRGELLHHTLGDGEFRHFYHMSEPITVAQAVLTEQNACYEIDRVLTTMLRERRPGYLMLPADVAKKAATPPVNALTHKQAHADSACLKAFRDAAENKLAMSKRTALLADFLVLRHGLKHALQKWVKEVPMAHATMLMGKGIFDERQAGFYGTYSGSASTGAVKEAIEGADTVLCVGTRFTDTLTAGFTHQLTPAQTIEVQPHAARVGDVWFTGIPMNQAIETLVELCKQHVHAPDGSLTQENFWRTLQTFIRPGDIILADQGTSAFGAIDLRLPADVNFIVQPLWGSIGYTLAAAFGAQTACPNRRVIVLTGDGAAQLTIQELGSMLRDKQHPIILVLNNEGYTVERAIHGAEQRYNDIALWNWTHIPQALSLDPQSECWRVSEAEQLADVLEKVAHHERLSLIEVMLPKADIPPLLGALTKALEACNN 1ovm-a1-m1-cC_1ovm-a1-m1-cD Crystal structure of Indolepyruvate decarboxylase from Enterobacter cloacae P23234 P23234 2.65 X-RAY DIFFRACTION 251 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 535 535 1ovm-a1-m1-cA_1ovm-a1-m1-cB TPYCVADYLLDRLTDCGADHLFGVPGDYNLQFLDHVIDSPDICWVGCANELNASYAADGYARCKGFAALLTTFGVGELSAMNGIAGSYAEHVPVLHIVGAPGTAAQQRGELLHHTLGDGEFRHFYHMSEPITVAQAVLTEQNACYEIDRVLTTMLRERRPGYLMLPADVAKKAATPPVNALTHKQAHADSACLKAFRDAAENKLAMSKRTALLADFLVLRHGLKHALQKWVKEVPMAHATMLMGKGIFDERQAGFYGTYSGSASTGAVKEAIEGADTVLCVGTRFTDTLTAGFTHQLTPAQTIEVQPHAARVGDVWFTGIPMNQAIETLVELCKQHVHAPDGSLTQENFWRTLQTFIRPGDIILADQGTSAFGAIDLRLPADVNFIVQPLWGSIGYTLAAAFGAQTACPNRRVIVLTGDGAAQLTIQELGSMLRDKQHPIILVLNNEGYTVERAIHGAEQRYNDIALWNWTHIPQALSLDPQSECWRVSEAEQLADVLEKVAHHERLSLIEVMLPKADIPPLLGALTKALEACNN TPYCVADYLLDRLTDCGADHLFGVPGDYNLQFLDHVIDSPDICWVGCANELNASYAADGYARCKGFAALLTTFGVGELSAMNGIAGSYAEHVPVLHIVGAPGTAAQQRGELLHHTLGDGEFRHFYHMSEPITVAQAVLTEQNACYEIDRVLTTMLRERRPGYLMLPADVAKKAATPPVNALTHKQAHADSACLKAFRDAAENKLAMSKRTALLADFLVLRHGLKHALQKWVKEVPMAHATMLMGKGIFDERQAGFYGTYSGSASTGAVKEAIEGADTVLCVGTRFTDTLTAGFTHQLTPAQTIEVQPHAARVGDVWFTGIPMNQAIETLVELCKQHVHAPDGSLTQENFWRTLQTFIRPGDIILADQGTSAFGAIDLRLPADVNFIVQPLWGSIGYTLAAAFGAQTACPNRRVIVLTGDGAAQLTIQELGSMLRDKQHPIILVLNNEGYTVERAIHGAEQRYNDIALWNWTHIPQALSLDPQSECWRVSEAEQLADVLEKVAHHERLSLIEVMLPKADIPPLLGALTKALEACNN 1ovn-a1-m1-cB_1ovn-a1-m1-cA Crystal Structure and Functional Analysis of Drosophila Wind-- a PDI-Related Protein O44342 O44342 1.9 X-RAY DIFFRACTION 45 0.996 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 226 229 TCTGCVDLDELSFEKTVERFPYSVVKFDIAYPYGEKHEAFTAFSKSAHKATKDLLIATVGVKDYGELENKALGDRYKVDDKNFPSIFLFKGNADEYVQLPSHVDVTLDNLKAFVSANTPLYIGRDGCIKEFNEVLKNYANIPDAEQLKLIEKLQAKQEQLTDPEQQQNARAYLIYMRKIHEVGYDFLEEETKRLLRLKAGKVTEAKKEELLRKLNILEVFRVHKVT CTGCVDLDELSFEKTVERFPYSVVKFDIAYPYGEKHEAFTAFSKSAHKATKDLLIATVGVKDYGELENKALGDRYKVDDKNFPSIFLFKGNADEYVQLPSHVDVTLDNLKAFVSANTPLYIGRDGCIKEFNEVLKNYANIPDAEQLKLIEKLQAKQEQLTDPEQQQNARAYLIYMRKIHEVGYDFLEEETKRLLRLKAGKVTEAKKEELLRKLNILEVFRVHKVTKTAP 1ovo-a2-m4-cC_1ovo-a2-m5-cC CRYSTALLOGRAPHIC REFINEMENT OF JAPANESE QUAIL OVOMUCOID, A KAZAL-TYPE INHIBITOR, AND MODEL BUILDING STUDIES OF COMPLEXES WITH SERINE PROTEASES P01003 P01003 1.9 X-RAY DIFFRACTION 10 1.0 93934 (Coturnix japonica) 93934 (Coturnix japonica) 56 56 1ovo-a1-m1-cA_1ovo-a1-m2-cA 1ovo-a1-m1-cB_1ovo-a1-m2-cB 1ovo-a2-m1-cC_1ovo-a2-m3-cC 1ovo-a3-m1-cD_1ovo-a3-m3-cD 1ovo-a3-m4-cD_1ovo-a3-m5-cD LAAVSVDCSEYPKPACPKDYRPVCGSDNKTYSNKCNFCNAVVESNGTLTLNHFGKC LAAVSVDCSEYPKPACPKDYRPVCGSDNKTYSNKCNFCNAVVESNGTLTLNHFGKC 1ovo-a3-m3-cD_1ovo-a3-m5-cD CRYSTALLOGRAPHIC REFINEMENT OF JAPANESE QUAIL OVOMUCOID, A KAZAL-TYPE INHIBITOR, AND MODEL BUILDING STUDIES OF COMPLEXES WITH SERINE PROTEASES P01003 P01003 1.9 X-RAY DIFFRACTION 57 1.0 93934 (Coturnix japonica) 93934 (Coturnix japonica) 56 56 1ovo-a1-m1-cA_1ovo-a1-m1-cB 1ovo-a1-m1-cA_1ovo-a1-m2-cB 1ovo-a1-m1-cB_1ovo-a1-m2-cA 1ovo-a1-m2-cA_1ovo-a1-m2-cB 1ovo-a2-m1-cC_1ovo-a2-m4-cC 1ovo-a2-m1-cC_1ovo-a2-m5-cC 1ovo-a2-m3-cC_1ovo-a2-m4-cC 1ovo-a2-m3-cC_1ovo-a2-m5-cC 1ovo-a3-m1-cD_1ovo-a3-m4-cD 1ovo-a3-m1-cD_1ovo-a3-m5-cD 1ovo-a3-m3-cD_1ovo-a3-m4-cD LAAVSVDCSEYPKPACPKDYRPVCGSDNKTYSNKCNFCNAVVESNGTLTLNHFGKC LAAVSVDCSEYPKPACPKDYRPVCGSDNKTYSNKCNFCNAVVESNGTLTLNHFGKC 1ovv-a4-m1-cB_1ovv-a4-m1-cE CRYSTAL STRUCTURE OF FOUR-HELIX BUNDLE MODEL di-Co(II)-DF1-L13A (form II) 2.9 X-RAY DIFFRACTION 22 1.0 48 48 DYLRELLKLELQAIKQYREALEYVKLPVLAKILEDEEKHIEWLETILG DYLRELLKLELQAIKQYREALEYVKLPVLAKILEDEEKHIEWLETILG 1ovv-a4-m1-cC_1ovv-a4-m1-cD CRYSTAL STRUCTURE OF FOUR-HELIX BUNDLE MODEL di-Co(II)-DF1-L13A (form II) 2.9 X-RAY DIFFRACTION 47 1.0 48 48 1ec5-a1-m1-cA_1ec5-a1-m2-cA 1ec5-a2-m1-cB_1ec5-a2-m1-cC 1jm0-a1-m1-cA_1jm0-a1-m1-cB 1jm0-a2-m1-cC_1jm0-a2-m1-cD 1jm0-a3-m1-cE_1jm0-a3-m1-cF 1jmb-a1-m1-cA_1jmb-a1-m2-cA 1jmb-a2-m1-cB_1jmb-a2-m1-cC 1lt1-a1-m1-cA_1lt1-a1-m1-cB 1lt1-a2-m1-cC_1lt1-a2-m1-cD 1lt1-a3-m1-cE_1lt1-a3-m1-cF 1lt1-a4-m1-cG_1lt1-a4-m1-cH 1nvo-a1-m1-cA_1nvo-a1-m1-cB 1ovr-a1-m1-cA_1ovr-a1-m2-cA 1ovr-a2-m1-cB_1ovr-a2-m3-cB 1ovr-a3-m1-cC_1ovr-a3-m1-cD 1ovu-a1-m1-cA_1ovu-a1-m2-cA 1ovu-a2-m1-cB_1ovu-a2-m3-cB 1ovu-a3-m1-cC_1ovu-a3-m1-cD 1ovv-a1-m1-cA_1ovv-a1-m1-cB 1ovv-a2-m1-cC_1ovv-a2-m1-cD 1ovv-a3-m1-cE_1ovv-a3-m1-cF 1ovv-a4-m1-cA_1ovv-a4-m1-cB 1ovv-a4-m1-cE_1ovv-a4-m1-cF DYLRELLKLELQAIKQYREALEYVKLPVLAKILEDEEKHIEWLETILG DYLRELLKLELQAIKQYREALEYVKLPVLAKILEDEEKHIEWLETILG 1ovv-a4-m1-cD_1ovv-a4-m1-cF CRYSTAL STRUCTURE OF FOUR-HELIX BUNDLE MODEL di-Co(II)-DF1-L13A (form II) 2.9 X-RAY DIFFRACTION 11 1.0 48 48 DYLRELLKLELQAIKQYREALEYVKLPVLAKILEDEEKHIEWLETILG DYLRELLKLELQAIKQYREALEYVKLPVLAKILEDEEKHIEWLETILG 1ovx-a1-m1-cA_1ovx-a1-m1-cB NMR structure of the E. coli ClpX chaperone zinc binding domain dimer P0A6H1 P0A6H1 NOT SOLUTION NMR 61 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 38 38 LLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIR LLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIR 1ow0-a4-m1-cA_1ow0-a4-m1-cB Crystal structure of human FcaRI bound to IgA1-Fc P01876 P01876 3.1 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 1ow0-a1-m1-cA_1ow0-a1-m1-cB 2qej-a1-m1-cB_2qej-a1-m1-cA 6lx3-a1-m1-cC_6lx3-a1-m1-cD 6lxw-a1-m1-cB_6lxw-a1-m1-cA 6lxw-a1-m1-cC_6lxw-a1-m1-cD 6ue7-a1-m1-cA_6ue7-a1-m1-cB 6ue7-a1-m1-cG_6ue7-a1-m1-cF 6ue8-a1-m1-cA_6ue8-a1-m1-cB 6ue8-a1-m1-cF_6ue8-a1-m1-cG 6ue8-a1-m1-cH_6ue8-a1-m1-cE 6ue8-a1-m1-cL_6ue8-a1-m1-cK 6ue9-a1-m1-cA_6ue9-a1-m1-cB 6ue9-a1-m1-cF_6ue9-a1-m1-cG 6ue9-a1-m1-cH_6ue9-a1-m1-cE 6ue9-a1-m1-cL_6ue9-a1-m1-cK 6uea-a1-m1-cA_6uea-a1-m1-cB 6uea-a1-m1-cF_6uea-a1-m1-cG 6uea-a1-m1-cH_6uea-a1-m1-cE 6uea-a1-m1-cJ_6uea-a1-m1-cI 6uea-a1-m1-cL_6uea-a1-m1-cK 7uvl-a1-m1-cA_7uvl-a1-m1-cB CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDR CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDR 1ox0-a1-m1-cA_1ox0-a1-m2-cA The crystal structure of beta-ketoacyl-[acyl carrier protein] synthase II from Streptococcus pneumoniae Q9FBC2 Q9FBC2 1.3 X-RAY DIFFRACTION 279 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 414 414 1oxh-a1-m1-cA_1oxh-a1-m1-cB 1oxh-a2-m1-cC_1oxh-a2-m1-cD 2alm-a1-m1-cA_2alm-a1-m2-cA 2rjt-a1-m1-cA_2rjt-a1-m1-cB 2rjt-a2-m1-cC_2rjt-a2-m1-cD PRGSHMKLNRVVVTGYGVTSPIGNTPEEFWNSLATGKIGIGGITKFDHSDFDVHNAAEIQDFPFDKYFVKKDTNRFDNYSLYALYAAQEAVNHANLDVEALNRDRFGVIVASGIGGIKEIEDQVLRLHEKGPKRVKPMTLPKALPNMASGNVAMRFGANGVCKSINTACSSSNDAIGDAFRSIKFGFQDVMLVGGTEASITPFAIAGFQALTALSTTEDPTRASIPFDKDRNGFVMGEGSGMLVLESLEHAEKRGATILAEVVGYGNTCDAYHMTSPHPEGQGAIKAIKLALEEAEISPEQVAYVNAHGTSTPANEKGESGAIVAVLGKEVPVSSTKSFTGHLLGAAGAVEAIVTIEAMRHNFVPMTAGTSEVSDYIEANVVYGQGLEKEIPYAISNTFGFGGHNAVLAFKRWE PRGSHMKLNRVVVTGYGVTSPIGNTPEEFWNSLATGKIGIGGITKFDHSDFDVHNAAEIQDFPFDKYFVKKDTNRFDNYSLYALYAAQEAVNHANLDVEALNRDRFGVIVASGIGGIKEIEDQVLRLHEKGPKRVKPMTLPKALPNMASGNVAMRFGANGVCKSINTACSSSNDAIGDAFRSIKFGFQDVMLVGGTEASITPFAIAGFQALTALSTTEDPTRASIPFDKDRNGFVMGEGSGMLVLESLEHAEKRGATILAEVVGYGNTCDAYHMTSPHPEGQGAIKAIKLALEEAEISPEQVAYVNAHGTSTPANEKGESGAIVAVLGKEVPVSSTKSFTGHLLGAAGAVEAIVTIEAMRHNFVPMTAGTSEVSDYIEANVVYGQGLEKEIPYAISNTFGFGGHNAVLAFKRWE 1ox9-a4-m1-cG_1ox9-a4-m1-cH Crystal structure of SspB-ssrA complex P0AFZ3 P0AFZ3 2.9 X-RAY DIFFRACTION 31 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 108 108 1ox8-a1-m1-cA_1ox8-a1-m1-cB 1ox9-a1-m1-cA_1ox9-a1-m1-cB 1ox9-a2-m1-cC_1ox9-a2-m1-cD 1ox9-a3-m1-cE_1ox9-a3-m1-cF 1yfn-a1-m1-cB_1yfn-a1-m1-cA 1yfn-a2-m1-cC_1yfn-a2-m1-cD 8et3-a1-m1-cY_8et3-a1-m1-cZ SQLTPRRPYLLRAFYEWLLDNQLTPHLVVDVTLPGVQVPMEYARDGQIVLNIAPRAVGNLELANDEVRFNARFGGIPRQVSVPLAAVLAIYARENGAGTMFEPEAAYD SQLTPRRPYLLRAFYEWLLDNQLTPHLVVDVTLPGVQVPMEYARDGQIVLNIAPRAVGNLELANDEVRFNARFGGIPRQVSVPLAAVLAIYARENGAGTMFEPEAAYD 1oxk-a7-m1-cA_1oxk-a7-m1-cC Complex between YPD1 and SLN1 response regulator domain in space group P3(2) Q07688 Q07688 2.1 X-RAY DIFFRACTION 10 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 156 156 STIPSEIINWTILNEIISMDDFSKGLIIQFIDQAQTTFAQMQRQLDGEKNLTELDNLGHFLKGSSAALGLQRIAWVCERIQNLGRKMEHFFPNKTELVNTLSDKSIINGINIDEDDEEIKDENSIYLILIAKALNQSRLEFKLARIELSKYYNTNL STIPSEIINWTILNEIISMDDFSKGLIIQFIDQAQTTFAQMQRQLDGEKNLTELDNLGHFLKGSSAALGLQRIAWVCERIQNLGRKMEHFFPNKTELVNTLSDKSIINGINIDEDDEEIKDENSIYLILIAKALNQSRLEFKLARIELSKYYNTNL 1oxk-a7-m1-cB_1oxk-a7-m2-cJ Complex between YPD1 and SLN1 response regulator domain in space group P3(2) P39928 P39928 2.1 X-RAY DIFFRACTION 47 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 128 128 SVKILVVEDNHVNQEVIKRMLNLEGIENIELACDGQEAFDKVKELTSKGENYNMIFMDVQMPKVDGLLSTKMIRRDLGYTSPIVALTAFADDSNIKECLESGMNGFLSKPIKRPKLKTILTEFCAAYQ SVKILVVEDNHVNQEVIKRMLNLEGIENIELACDGQEAFDKVKELTSKGENYNMIFMDVQMPKVDGLLSTKMIRRDLGYTSPIVALTAFADDSNIKECLESGMNGFLSKPIKRPKLKTILTEFCAAYQ 1oxn-a6-m1-cD_1oxn-a6-m1-cB Structure and Function Analysis of Peptide Antagonists of Melanoma Inhibitor of Apoptosis (ML-IAP) Q96CA5 Q96CA5 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 101 1oxn-a6-m1-cA_1oxn-a6-m1-cC 1oxq-a6-m1-cA_1oxq-a6-m1-cC 1oxq-a6-m1-cD_1oxq-a6-m1-cB 3f7g-a6-m1-cA_3f7g-a6-m1-cC 3f7g-a6-m1-cD_3f7g-a6-m1-cB AGATLSRGPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPSCQFLLRSKGRDFVHSVQETH AGATLSRGPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPSCQFLLRSKGRDFVHSVQETHS 1oxn-a7-m1-cA_1oxn-a7-m1-cD Structure and Function Analysis of Peptide Antagonists of Melanoma Inhibitor of Apoptosis (ML-IAP) Q96CA5 Q96CA5 2.2 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 100 1oxn-a10-m1-cA_1oxn-a10-m1-cD 1oxn-a6-m1-cA_1oxn-a6-m1-cD 1oxn-a6-m1-cB_1oxn-a6-m1-cC 1oxn-a8-m1-cB_1oxn-a8-m1-cC 1oxq-a10-m1-cA_1oxq-a10-m1-cD 1oxq-a6-m1-cA_1oxq-a6-m1-cD 1oxq-a6-m1-cB_1oxq-a6-m1-cC 1oxq-a7-m1-cA_1oxq-a7-m1-cD 1oxq-a8-m1-cB_1oxq-a8-m1-cC 1oy7-a6-m1-cA_1oy7-a6-m1-cD 1oy7-a7-m1-cB_1oy7-a7-m1-cC 3f7g-a6-m1-cA_3f7g-a6-m1-cD 3f7g-a6-m1-cB_3f7g-a6-m1-cC AGATLSRGPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPSCQFLLRSKGRDFVHSVQET AGATLSRGPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPSCQFLLRSKGRDFVHSVQETH 1oxq-a9-m2-cE_1oxq-a9-m1-cD Structure and Function Analysis of Peptide Antagonists of Melanoma Inhibitor of Apoptosis (ML-IAP) Q96CA5 Q96CA5 2.3 X-RAY DIFFRACTION 34 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 94 100 1oxn-a6-m2-cE_1oxn-a6-m1-cD 1oxn-a7-m2-cE_1oxn-a7-m1-cD 1oxn-a9-m2-cE_1oxn-a9-m1-cD 1oxq-a6-m2-cE_1oxq-a6-m1-cD 1oxq-a7-m2-cE_1oxq-a7-m1-cD 1tw6-a3-m1-cA_1tw6-a3-m2-cB 2i3h-a3-m1-cA_2i3h-a3-m2-cB 2i3h-a5-m1-cA_2i3h-a5-m2-cB 2i3h-a6-m1-cA_2i3h-a6-m2-cB GPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPSCQFLLRSKGRDFVHSVQETHS AGATLSRGPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPSCQFLLRSKGRDFVHSVQETH 1oxw-a1-m1-cB_1oxw-a1-m1-cC The Crystal Structure of SeMet Patatin Q8LPW4 Q8LPW4 2.2 X-RAY DIFFRACTION 12 1.0 160510 (Solanum cardiophyllum) 160510 (Solanum cardiophyllum) 348 350 QLGEVTVLSIDGGGIRGIIPATILEFLEGQLQEDNNADARLADYFDVIGGTSTGGLLTAISTPNENNRPFAAAKEIVPFYFEHGPQIFNPSGQILGPKYDGKYLQVLQEKLGETRVHQALTEVVISSFDIKTNKPVIFTKSNLANSPELDAKYDISYSTAAAPTYFPPHYFVTNTSNGDEYEFNLVDGAVATVADPALLSISVATRLAQKDPAFASIRSLNYKKLLLSLGTGTTSEFDKTYTAKEAATWTAVHWLVIQKTDAASSYTDYYLSTAFQALDSKNNYLRVQENALTGTTTEDDASEANELLVQVGENLLKKPVSEDNPETYEEALKRFAKLLSDRKKLRAN AQLGEVTVLSIDGGGIRGIIPATILEFLEGQLQEDNNADARLADYFDVIGGTSTGGLLTAISTPNENNRPFAAAKEIVPFYFEHGPQIFNPSGQILGPKYDGKYLQVLQEKLGETRVHQALTEVVISSFDIKTNKPVIFTKSNLANSPELDAKYDISYSTAAAPTYFPPHYFVTNTSNGDEYEFNLVDGAVATVADPALLSISVATRLAQKDPAFASIRSLNYKKLLLSLGTGTTSEFDKTYTAKEAATWTAVHWLVIQKTDAASSYTDYYLSTAFQALDSKNNYLRVQENALTGTTTEDDASEANELLVQVGENLLKKPVSEDNPETYEEALKRFAKLLSDRKKLRANK 1oy0-a1-m2-cD_1oy0-a1-m2-cE The crystal Structure of the First Enzyme of Pantothenate Biosynthetic Pathway, Ketopantoate Hydroxymethyltransferase from Mycobacterium Tuberculosis Shows a Decameric Assembly and Terminal Helix-Swapping P9WIL7 P9WIL7 2.8 X-RAY DIFFRACTION 23 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 248 248 1oy0-a1-m1-cA_1oy0-a1-m1-cB 1oy0-a1-m1-cA_1oy0-a1-m1-cC 1oy0-a1-m1-cB_1oy0-a1-m1-cD 1oy0-a1-m1-cC_1oy0-a1-m1-cE 1oy0-a1-m1-cD_1oy0-a1-m1-cE 1oy0-a1-m2-cA_1oy0-a1-m2-cB 1oy0-a1-m2-cA_1oy0-a1-m2-cC 1oy0-a1-m2-cB_1oy0-a1-m2-cD 1oy0-a1-m2-cC_1oy0-a1-m2-cE RTKIRTHHLQRWKADGHKWAMLTAYDYSTARIFDEAGIPVLLVGDSAANVVYGYDTTVPISIDELIPLVRGVVRGAPHALVVADLPFGSYEAGPTAALAAATRFLKDGGAHAVKLEGGERVAEQIACLTAAGIPVMAHIGFTPGDAAEQTIADAIAVAEAGAFAVVMEMVPAELATQITGKLTIPTVGIGAGPNCDGQVLVWQDMAGFSGAKTARFVKRYADVGGELRRAAMQYAQEVAGGVFPADEH RTKIRTHHLQRWKADGHKWAMLTAYDYSTARIFDEAGIPVLLVGDSAANVVYGYDTTVPISIDELIPLVRGVVRGAPHALVVADLPFGSYEAGPTAALAAATRFLKDGGAHAVKLEGGERVAEQIACLTAAGIPVMAHIGFTPGDAAEQTIADAIAVAEAGAFAVVMEMVPAELATQITGKLTIPTVGIGAGPNCDGQVLVWQDMAGFSGAKTARFVKRYADVGGELRRAAMQYAQEVAGGVFPADEH 1oy0-a3-m1-cA_1oy0-a3-m2-cD The crystal Structure of the First Enzyme of Pantothenate Biosynthetic Pathway, Ketopantoate Hydroxymethyltransferase from Mycobacterium Tuberculosis Shows a Decameric Assembly and Terminal Helix-Swapping P9WIL7 P9WIL7 2.8 X-RAY DIFFRACTION 224 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 248 248 1oy0-a1-m1-cA_1oy0-a1-m2-cD 1oy0-a1-m1-cB_1oy0-a1-m2-cB 1oy0-a1-m1-cC_1oy0-a1-m2-cE 1oy0-a1-m1-cD_1oy0-a1-m2-cA 1oy0-a1-m1-cE_1oy0-a1-m2-cC 1oy0-a2-m1-cC_1oy0-a2-m2-cE RTKIRTHHLQRWKADGHKWAMLTAYDYSTARIFDEAGIPVLLVGDSAANVVYGYDTTVPISIDELIPLVRGVVRGAPHALVVADLPFGSYEAGPTAALAAATRFLKDGGAHAVKLEGGERVAEQIACLTAAGIPVMAHIGFTPGDAAEQTIADAIAVAEAGAFAVVMEMVPAELATQITGKLTIPTVGIGAGPNCDGQVLVWQDMAGFSGAKTARFVKRYADVGGELRRAAMQYAQEVAGGVFPADEH RTKIRTHHLQRWKADGHKWAMLTAYDYSTARIFDEAGIPVLLVGDSAANVVYGYDTTVPISIDELIPLVRGVVRGAPHALVVADLPFGSYEAGPTAALAAATRFLKDGGAHAVKLEGGERVAEQIACLTAAGIPVMAHIGFTPGDAAEQTIADAIAVAEAGAFAVVMEMVPAELATQITGKLTIPTVGIGAGPNCDGQVLVWQDMAGFSGAKTARFVKRYADVGGELRRAAMQYAQEVAGGVFPADEH 1oy5-a2-m1-cB_1oy5-a2-m2-cB Crystal structure of tRNA (m1G37) methyltransferase from Aquifex aeolicus O67463 O67463 2.6 X-RAY DIFFRACTION 199 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 218 218 1oy5-a1-m1-cA_1oy5-a1-m1-cC NPLRFFVLTIFPHIISCYSEYGIVKQAIKKGKVEVYPIDLREFAPKGQVDDVPYGGLPGMVLKPEPIYEAYDYVVENYGKPFVLITEPWGEKLNQKLVNELSKKERIMIICGRYEGVDERVKKIVDMEISLGDFILSGGEIVALAVIDAVSRVLPGVLSEPYPVYTRPREYRGMKVPEELLSGHHKLIELWKLWHRIENTVKKRPDLIPKDLTELEKD NPLRFFVLTIFPHIISCYSEYGIVKQAIKKGKVEVYPIDLREFAPKGQVDDVPYGGLPGMVLKPEPIYEAYDYVVENYGKPFVLITEPWGEKLNQKLVNELSKKERIMIICGRYEGVDERVKKIVDMEISLGDFILSGGEIVALAVIDAVSRVLPGVLSEPYPVYTRPREYRGMKVPEELLSGHHKLIELWKLWHRIENTVKKRPDLIPKDLTELEKD 1oyj-a2-m1-cD_1oyj-a2-m1-cC Crystal structure solution of Rice GST1 (OsGSTU1) in complex with glutathione. Q10CE7 Q10CE7 1.95 X-RAY DIFFRACTION 66 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 223 227 1oyj-a1-m1-cB_1oyj-a1-m1-cA EEKELVLLDFWVSPFGQRCRIAMAEKGLEFEYREEDLGNKSDLLLRSNPVHRKIPVLLHAGRPVSESLVILQYLDDAFPGTPHLLPPANSADAAYARATARFWADYVDRKLYDCGSRLWRLKGEPQAAAGREMAEILRTLEAELGDREFFGGGGGGRLGFVDVALVPFTAWFYSYERCGGFSVEEVAPRLAAWARRCGRIDSVVKHLPSPEKVYDFVGVLKKK EEKELVLLDFWVSPFGQRCRIAMAEKGLEFEYREEDLGNKSDLLLRSNPVHRKIPVLLHAGRPVSESLVILQYLDDAFPGTPHLLPPANSGDADAAYARATARFWADYVDRKLYDCGSRLWRLKGEPQAAAGREMAEILRTLEAELGDREFFGGGGGGRLGFVDVALVPFTAWFYSYERCGGFSVEEVAPRLAAWARRCGRIDSVVKHLPSPEKVYDFVGVLKKKYG 1oyp-a1-m1-cB_1oyp-a1-m1-cC Crystal Structure of the phosphorolytic exoribonuclease RNase PH from Bacillus subtilis P28619 P28619 2.76 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 226 226 1oyp-a1-m1-cA_1oyp-a1-m1-cF 1oyp-a1-m1-cD_1oyp-a1-m1-cE 1oyr-a1-m1-cA_1oyr-a1-m1-cF 1oyr-a1-m1-cB_1oyr-a1-m1-cC 1oyr-a1-m1-cD_1oyr-a1-m1-cE MRHDGRQHDELRPITFDLDFISHPEGSVLITAGNTKVICNASVEDRVPPFLRGGGKGWITAEYSMLSGRTMEIQRLIGRALRAVVDLEKLGERTIWIDCDVIQADGGTRTASITGAFLAMAIAIGKLIKAGTIKTNPITDFLAAISVGIDKEQGILLDLNYEEDSSAEVDMNVIMTGSGRFVELQGTGEEATFSREDLNGLLGLAEKGIQELIDKQKEVLGDSLPE MRHDGRQHDELRPITFDLDFISHPEGSVLITAGNTKVICNASVEDRVPPFLRGGGKGWITAEYSMLSGRTMEIQRLIGRALRAVVDLEKLGERTIWIDCDVIQADGGTRTASITGAFLAMAIAIGKLIKAGTIKTNPITDFLAAISVGIDKEQGILLDLNYEEDSSAEVDMNVIMTGSGRFVELQGTGEEATFSREDLNGLLGLAEKGIQELIDKQKEVLGDSLPE 1oyp-a1-m1-cE_1oyp-a1-m1-cF Crystal Structure of the phosphorolytic exoribonuclease RNase PH from Bacillus subtilis P28619 P28619 2.76 X-RAY DIFFRACTION 75 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 226 226 1oyp-a1-m1-cA_1oyp-a1-m1-cB 1oyp-a1-m1-cC_1oyp-a1-m1-cD 1oyr-a1-m1-cA_1oyr-a1-m1-cB 1oyr-a1-m1-cC_1oyr-a1-m1-cD 1oyr-a1-m1-cE_1oyr-a1-m1-cF 1oys-a1-m1-cA_1oys-a1-m2-cA MRHDGRQHDELRPITFDLDFISHPEGSVLITAGNTKVICNASVEDRVPPFLRGGGKGWITAEYSMLSGRTMEIQRLIGRALRAVVDLEKLGERTIWIDCDVIQADGGTRTASITGAFLAMAIAIGKLIKAGTIKTNPITDFLAAISVGIDKEQGILLDLNYEEDSSAEVDMNVIMTGSGRFVELQGTGEEATFSREDLNGLLGLAEKGIQELIDKQKEVLGDSLPE MRHDGRQHDELRPITFDLDFISHPEGSVLITAGNTKVICNASVEDRVPPFLRGGGKGWITAEYSMLSGRTMEIQRLIGRALRAVVDLEKLGERTIWIDCDVIQADGGTRTASITGAFLAMAIAIGKLIKAGTIKTNPITDFLAAISVGIDKEQGILLDLNYEEDSSAEVDMNVIMTGSGRFVELQGTGEEATFSREDLNGLLGLAEKGIQELIDKQKEVLGDSLPE 1oz3-a1-m1-cB_1oz3-a1-m3-cC Crystal Structure of 3-MBT repeats of lethal (3) malignant Brain Tumor (Native-I) at 1.85 angstrom Q9Y468 Q9Y468 1.85 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 308 1oyx-a1-m1-cB_1oyx-a1-m3-cA 1oyx-a1-m2-cA_1oyx-a1-m3-cB 1oz3-a1-m2-cC_1oz3-a1-m3-cB WSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGKLEGIDPQHPSYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSQSHSPPPLGFQVGKLEAVDRNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPL WSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGKLEGIDPQHPSYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSQSHSPPPLGFQVGKLEAVDRNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPL 1oz3-a1-m2-cC_1oz3-a1-m3-cC Crystal Structure of 3-MBT repeats of lethal (3) malignant Brain Tumor (Native-I) at 1.85 angstrom Q9Y468 Q9Y468 1.85 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 308 1oyx-a1-m1-cA_1oyx-a1-m3-cA 1oyx-a1-m2-cA_1oyx-a1-m3-cA 1oz3-a1-m1-cC_1oz3-a1-m3-cC WSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGKLEGIDPQHPSYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSQSHSPPPLGFQVGKLEAVDRNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPL WSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGKLEGIDPQHPSYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSQSHSPPPLGFQVGKLEAVDRNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPL 1ozy-a3-m1-cA_1ozy-a3-m2-cB Crystal Structure of Phospholipase A2 (MIPLA3) From Micropechis Ikaheka 2.7 X-RAY DIFFRACTION 23 1.0 66188 (Micropechis ikaheca) 66188 (Micropechis ikaheca) 121 121 NLLQFRKMIKCTIPGIEPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDYCYDKAKIHPECRGILSGPSFNTYAYDCTDGKLTCNDQKDKCKLFICNCDRTAAMCFAKAPYKEENNRIDAS NLLQFRKMIKCTIPGIEPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDYCYDKAKIHPECRGILSGPSFNTYAYDCTDGKLTCNDQKDKCKLFICNCDRTAAMCFAKAPYKEENNRIDAS 1p0f-a1-m1-cA_1p0f-a1-m1-cB Crystal Structure of the Binary Complex: NADP(H)-Dependent Vertebrate Alcohol Dehydrogenase (ADH8) with the cofactor NADP O57380 O57380 1.8 X-RAY DIFFRACTION 125 1.0 8403 (Pelophylax perezi) 8403 (Pelophylax perezi) 372 372 1p0c-a1-m1-cA_1p0c-a1-m1-cB CTAGKDITCKAAVAWEPHKPLSLETITVAPPKAHEVRIKILASGICGSDSSVLKEIIPSKFPVILGHEAVGVVESIGAGVTCVKPGDKVIPLFVPQCGSCRACKSSNSNFCEKNDMGAKTGLMADMTSRFTCRGKPIYNLMGTSTFTEYTVVADIAVAKIDPKAPLESCLIGCGFATGYGAAVNTAKVTPGSTCAVFGLGGVGFSAIVGCKAAGASRIIGVGTHKDKFPKAIELGATECLNPKDYDKPIYEVICEKTNGGVDYAVECAGRIETMMNALQSTYCGSGVTVVLGLASPNERLPLDPLLLLTGRSLKGSVFGGFKGEEVSRLVDDYMKKKINVNFLVSTKLTLDQINKAFELLSSGQGVRSIMIY CTAGKDITCKAAVAWEPHKPLSLETITVAPPKAHEVRIKILASGICGSDSSVLKEIIPSKFPVILGHEAVGVVESIGAGVTCVKPGDKVIPLFVPQCGSCRACKSSNSNFCEKNDMGAKTGLMADMTSRFTCRGKPIYNLMGTSTFTEYTVVADIAVAKIDPKAPLESCLIGCGFATGYGAAVNTAKVTPGSTCAVFGLGGVGFSAIVGCKAAGASRIIGVGTHKDKFPKAIELGATECLNPKDYDKPIYEVICEKTNGGVDYAVECAGRIETMMNALQSTYCGSGVTVVLGLASPNERLPLDPLLLLTGRSLKGSVFGGFKGEEVSRLVDDYMKKKINVNFLVSTKLTLDQINKAFELLSSGQGVRSIMIY 1p0k-a1-m4-cA_1p0k-a1-m4-cB IPP:DMAPP isomerase type II apo structure P50740 P50740 1.9 X-RAY DIFFRACTION 53 0.997 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 306 309 1p0k-a1-m1-cA_1p0k-a1-m1-cB 1p0k-a1-m2-cA_1p0k-a1-m2-cB 1p0k-a1-m3-cA_1p0k-a1-m3-cB 1p0n-a1-m1-cA_1p0n-a1-m1-cB 1p0n-a1-m2-cA_1p0n-a1-m2-cB 1p0n-a1-m3-cA_1p0n-a1-m3-cB 1p0n-a1-m4-cA_1p0n-a1-m4-cB RETGLDDITFVHVSLPDLALEQVDISTKIGELSSSSPIFINAMTGGGGKLTYEINKSLARAASQAGIPLAVGSQMSALKDPSERLSYEIVRKENPNGLIFANLGSEATAAQAKEAVEMIGANALQIHLNVIQEIFSGALKRIEQICSRVSVPVIVKEVGFGMSKASAGKLYEAGAAAVDIGGRQISFFNSWGISTAASLAEIRSEFPASTMIASGGLQDALDVAKAIALGASCTGMAGHFLKALTDSGEEGLLEEIQLILEELKLIMTVLGARTIADLQKAPLVIKGETHHWLTERGVNTSSYSVR ETGLDDITFVHVSLPDLALEQVDISTKIGELSSSSPIFINAMTGGGGKLTYEINKSLARAASQAGIPLAVGSQMSALKDPSERLSYEIVRKENPNGLIFANLGSEATAAQAKEAVEMIGANALQIHLNVIQEIVMRSFSGALKRIEQICSRVSVPVIVKEVGFGMSKASAGKLYEAGAAAVDIGGRQISFFNSWGISTAASLAEIRSEFPASTMIASGGLQDALDVAKAIALGASCTGMAGHFLKALTDSGEEGLLEEIQLILEELKLIMTVLGARTIADLQKAPLVIKGETHHWLTERGVNTSSYSVR 1p0k-a3-m2-cB_1p0k-a3-m4-cB IPP:DMAPP isomerase type II apo structure P50740 P50740 1.9 X-RAY DIFFRACTION 95 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 309 309 1p0k-a1-m1-cA_1p0k-a1-m3-cA 1p0k-a1-m1-cA_1p0k-a1-m4-cA 1p0k-a1-m1-cB_1p0k-a1-m3-cB 1p0k-a1-m1-cB_1p0k-a1-m4-cB 1p0k-a1-m2-cA_1p0k-a1-m3-cA 1p0k-a1-m2-cA_1p0k-a1-m4-cA 1p0k-a1-m2-cB_1p0k-a1-m3-cB 1p0k-a1-m2-cB_1p0k-a1-m4-cB 1p0k-a2-m1-cA_1p0k-a2-m3-cA 1p0k-a2-m1-cA_1p0k-a2-m4-cA 1p0k-a2-m2-cA_1p0k-a2-m3-cA 1p0k-a2-m2-cA_1p0k-a2-m4-cA 1p0k-a3-m1-cB_1p0k-a3-m3-cB 1p0k-a3-m1-cB_1p0k-a3-m4-cB 1p0k-a3-m2-cB_1p0k-a3-m3-cB 1p0n-a1-m1-cA_1p0n-a1-m3-cA 1p0n-a1-m1-cA_1p0n-a1-m4-cA 1p0n-a1-m1-cB_1p0n-a1-m3-cB 1p0n-a1-m1-cB_1p0n-a1-m4-cB 1p0n-a1-m2-cA_1p0n-a1-m3-cA 1p0n-a1-m2-cA_1p0n-a1-m4-cA 1p0n-a1-m2-cB_1p0n-a1-m3-cB 1p0n-a1-m2-cB_1p0n-a1-m4-cB 1p0n-a2-m1-cA_1p0n-a2-m3-cA 1p0n-a2-m1-cA_1p0n-a2-m4-cA 1p0n-a2-m2-cA_1p0n-a2-m3-cA 1p0n-a2-m2-cA_1p0n-a2-m4-cA 1p0n-a3-m1-cB_1p0n-a3-m3-cB 1p0n-a3-m1-cB_1p0n-a3-m4-cB 1p0n-a3-m2-cB_1p0n-a3-m3-cB 1p0n-a3-m2-cB_1p0n-a3-m4-cB ETGLDDITFVHVSLPDLALEQVDISTKIGELSSSSPIFINAMTGGGGKLTYEINKSLARAASQAGIPLAVGSQMSALKDPSERLSYEIVRKENPNGLIFANLGSEATAAQAKEAVEMIGANALQIHLNVIQEIVMRSFSGALKRIEQICSRVSVPVIVKEVGFGMSKASAGKLYEAGAAAVDIGGRQISFFNSWGISTAASLAEIRSEFPASTMIASGGLQDALDVAKAIALGASCTGMAGHFLKALTDSGEEGLLEEIQLILEELKLIMTVLGARTIADLQKAPLVIKGETHHWLTERGVNTSSYSVR ETGLDDITFVHVSLPDLALEQVDISTKIGELSSSSPIFINAMTGGGGKLTYEINKSLARAASQAGIPLAVGSQMSALKDPSERLSYEIVRKENPNGLIFANLGSEATAAQAKEAVEMIGANALQIHLNVIQEIVMRSFSGALKRIEQICSRVSVPVIVKEVGFGMSKASAGKLYEAGAAAVDIGGRQISFFNSWGISTAASLAEIRSEFPASTMIASGGLQDALDVAKAIALGASCTGMAGHFLKALTDSGEEGLLEEIQLILEELKLIMTVLGARTIADLQKAPLVIKGETHHWLTERGVNTSSYSVR 1p17-a3-m1-cC_1p17-a3-m1-cB Hypoxanthine Phosphoribosyltransferase from Trypanosoma cruzi, K68R mutant, complexed with the product IMP Q4DRC4 Q4DRC4 2.7 X-RAY DIFFRACTION 12 0.984 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 192 204 PREYEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLRGSFMFTADLCRALCDFNVPVRMEFICVSSYGESSGQVRMLLDTRHSIEGHHVLIVEDIVDTALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYAEREAA PREYEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLRGSFMFTADLCRALCDFNVPVRMEFICVSSYSGQVRMLLDTRHSIEGHHVLIVEDIVDTALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYAEREAARQKKQRAIGSADTDR 1p1c-a1-m1-cA_1p1c-a1-m1-cB Guanidinoacetate Methyltransferase with Gd ion P10868 P10868 2.5 X-RAY DIFFRACTION 60 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 193 193 1khh-a1-m1-cA_1khh-a1-m1-cB 1p1b-a1-m1-cA_1p1b-a1-m1-cB 1p1b-a2-m1-cC_1p1b-a2-m1-cD RWETPYMHSLAAAAASRGGRVLEVGFGMAIAASRVQQAPIKEHWIIECNDGVFQRLQNWALKQPHKVVPLKGLWEEVAPTLPDGHFDGILYDTYPLSEETWHTHQFNFIKTHAFRLLKPGGILTYCNLTSWGELMKSKYTDITAMFEETQVPALLEAGFQRENICTEVMALVPPADCRYYAFPQMITPLVTKH RWETPYMHSLAAAAASRGGRVLEVGFGMAIAASRVQQAPIKEHWIIECNDGVFQRLQNWALKQPHKVVPLKGLWEEVAPTLPDGHFDGILYDTYPLSEETWHTHQFNFIKTHAFRLLKPGGILTYCNLTSWGELMKSKYTDITAMFEETQVPALLEAGFQRENICTEVMALVPPADCRYYAFPQMITPLVTKH 1p1l-a2-m2-cA_1p1l-a2-m3-cA Structure of the Periplasmic divalent cation tolerance protein CutA from Archaeoglobus fulgidus O28301 O28301 2 X-RAY DIFFRACTION 81 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 102 102 1p1l-a2-m1-cA_1p1l-a2-m2-cA 1p1l-a2-m1-cA_1p1l-a2-m3-cA MHNFIYITAPSLEEAERIAKRLLEKKLAACVNIFPIKSFFWWEGKIEAATEFAMIVKTRSEKFAEVRDEVKAMHSYTTPCICAIPIERGLKEFLDWIDETVE MHNFIYITAPSLEEAERIAKRLLEKKLAACVNIFPIKSFFWWEGKIEAATEFAMIVKTRSEKFAEVRDEVKAMHSYTTPCICAIPIERGLKEFLDWIDETVE 1p1m-a2-m1-cA_1p1m-a2-m2-cA Structure of Thermotoga maritima amidohydrolase TM0936 bound to Ni and methionine Q9X034 Q9X034 1.5 X-RAY DIFFRACTION 167 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 404 404 1j6p-a2-m1-cA_1j6p-a2-m2-cA 2plm-a2-m1-cA_2plm-a2-m2-cA MIIGNCLILKDFSSEPFWGAVEIENGTIKRVLQGEVKVDLDLSGKLVMPALFNTHTHAPMTLLRGVAEDLSFEEWLFSKVLPIEDRLTEKMAYYGTILAQMEMARHGIAGFVDMYFHEEWIAKAVRDFGMRALLTRGLVDSNGDDGGRLEENLKLYNEWNGFEGRIFVGFGPHSPYLCSEEYLKRVFDTAKSLNAPVTIHLYETSKEEYDLEDILNIGLKEVKTIAAHCVHLPERYFGVLKDIPFFVSHNPASNLKLGNGIAPVQRMIEHGMKVTLGTDGAASNNSLNLFFEMRLASLLQKAQNPRNLDVNTCLKMVTYDGAQAMGFKSGKIEEGWNADLVVIDLDLPEMFPVQNIKNHLVHAFSGEVFATMVAGKWIYFDGEYPTIDSEEVKRELARIEKELY MIIGNCLILKDFSSEPFWGAVEIENGTIKRVLQGEVKVDLDLSGKLVMPALFNTHTHAPMTLLRGVAEDLSFEEWLFSKVLPIEDRLTEKMAYYGTILAQMEMARHGIAGFVDMYFHEEWIAKAVRDFGMRALLTRGLVDSNGDDGGRLEENLKLYNEWNGFEGRIFVGFGPHSPYLCSEEYLKRVFDTAKSLNAPVTIHLYETSKEEYDLEDILNIGLKEVKTIAAHCVHLPERYFGVLKDIPFFVSHNPASNLKLGNGIAPVQRMIEHGMKVTLGTDGAASNNSLNLFFEMRLASLLQKAQNPRNLDVNTCLKMVTYDGAQAMGFKSGKIEEGWNADLVVIDLDLPEMFPVQNIKNHLVHAFSGEVFATMVAGKWIYFDGEYPTIDSEEVKRELARIEKELY 1p23-a1-m1-cA_1p23-a1-m1-cD STRUCTURE OF THE DIMERIZED CYTOPLASMIC DOMAIN OF P23 IN SOLUTION, NMR, 10 STRUCTURES Q28735 Q28735 NOT SOLUTION NMR 20 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 14 14 CYLRRFFKAKKLIE CYLRRFFKAKKLIE 1p23-a1-m1-cB_1p23-a1-m1-cC STRUCTURE OF THE DIMERIZED CYTOPLASMIC DOMAIN OF P23 IN SOLUTION, NMR, 10 STRUCTURES Q28735 Q28735 NOT SOLUTION NMR 17 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 14 14 CYLRRFFKAKKLIE CYLRRFFKAKKLIE 1p27-a1-m1-cA_1p27-a1-m1-cC Crystal Structure of the Human Y14/Magoh complex P61326 P61326 2 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 ESDFYLRYYVGHKGKFGHEFLEFEFRPDGKLRYANNSNYKNDVMIRKEAYVHKSVMEELKRIIDDSEITKEDDALWPPPDRVGRQELEIVIGDEHISFTTSKIGSLIDVNQSKDPEGLRVFYYLVQDLKCLVFSLIGLHFKIKP ESDFYLRYYVGHKGKFGHEFLEFEFRPDGKLRYANNSNYKNDVMIRKEAYVHKSVMEELKRIIDDSEITKEDDALWPPPDRVGRQELEIVIGDEHISFTTSKIGSLIDVNQSKDPEGLRVFYYLVQDLKCLVFSLIGLHFKIKP 1p33-a1-m1-cA_1p33-a1-m1-cD Pteridine reductase from Leishmania tarentolae complex with NADPH and MTX P42556 P42556 2.86 X-RAY DIFFRACTION 102 1.0 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 267 268 1p33-a1-m1-cC_1p33-a1-m1-cB TAPVALVTGAAKRLGSSIAEALHAEGYTVCLHYHRSAADASTLAATLNARRPNSAITVQADLSNVATASSVPVTLFSRCSALVDACYMHWGRCDVLVNNASSFYPTPLLRDKESLEVAAADLFGSNAIAPYFLIKAFAQRVADTRAEQRGTSYSIVNMVDAMTSQPLLGYTMYTMAKEALEGLTRSAALELASLQIRVNGVSPGLSVLPDDMPFSVQEDYRRKVPLYQRNSSAEEVSDVVIFLCSPKAKYITGTCIKVDGGYSLTRA TAPVALVTGAAKRLGSSIAEALHAEGYTVCLHYHRSAADASTLAATLNARRPNSAITVQADLSNVATASSVPVTLFSRCSALVDACYMHWGRCDVLVNNASSFYPTPLLRKDKESLEVAAADLFGSNAIAPYFLIKAFAQRVADTRAEQRGTSYSIVNMVDAMTSQPLLGYTMYTMAKEALEGLTRSAALELASLQIRVNGVSPGLSVLPDDMPFSVQEDYRRKVPLYQRNSSAEEVSDVVIFLCSPKAKYITGTCIKVDGGYSLTRA 1p33-a1-m1-cC_1p33-a1-m1-cD Pteridine reductase from Leishmania tarentolae complex with NADPH and MTX P42556 P42556 2.86 X-RAY DIFFRACTION 31 0.996 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 268 268 1p33-a1-m1-cA_1p33-a1-m1-cB PTAPVALVTGAAKRLGSSIAEALHAEGYTVCLHYHRSAADASTLAATLNARRPNSAITVQADLSNVATASSVPVTLFSRCSALVDACYMHWGRCDVLVNNASSFYPTPLLRKKESLEVAAADLFGSNAIAPYFLIKAFAQRVADTRAEQRGTSYSIVNMVDAMTSQPLLGYTMYTMAKEALEGLTRSAALELASLQIRVNGVSPGLSVLPDDMPFSVQEDYRRKVPLYQRNSSAEEVSDVVIFLCSPKAKYITGTCIKVDGGYSLTRA TAPVALVTGAAKRLGSSIAEALHAEGYTVCLHYHRSAADASTLAATLNARRPNSAITVQADLSNVATASSVPVTLFSRCSALVDACYMHWGRCDVLVNNASSFYPTPLLRKDKESLEVAAADLFGSNAIAPYFLIKAFAQRVADTRAEQRGTSYSIVNMVDAMTSQPLLGYTMYTMAKEALEGLTRSAALELASLQIRVNGVSPGLSVLPDDMPFSVQEDYRRKVPLYQRNSSAEEVSDVVIFLCSPKAKYITGTCIKVDGGYSLTRA 1p33-a1-m1-cD_1p33-a1-m1-cB Pteridine reductase from Leishmania tarentolae complex with NADPH and MTX P42556 P42556 2.86 X-RAY DIFFRACTION 123 0.996 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 268 269 1p33-a1-m1-cA_1p33-a1-m1-cC TAPVALVTGAAKRLGSSIAEALHAEGYTVCLHYHRSAADASTLAATLNARRPNSAITVQADLSNVATASSVPVTLFSRCSALVDACYMHWGRCDVLVNNASSFYPTPLLRKDKESLEVAAADLFGSNAIAPYFLIKAFAQRVADTRAEQRGTSYSIVNMVDAMTSQPLLGYTMYTMAKEALEGLTRSAALELASLQIRVNGVSPGLSVLPDDMPFSVQEDYRRKVPLYQRNSSAEEVSDVVIFLCSPKAKYITGTCIKVDGGYSLTRA SPTAPVALVTGAAKRLGSSIAEALHAEGYTVCLHYHRSAADASTLAATLNARRPNSAITVQADLSNVATASSVPVTLFSRCSALVDACYMHWGRCDVLVNNASSFYPTPLLRKKESLEVAAADLFGSNAIAPYFLIKAFAQRVADTRAEQRGTSYSIVNMVDAMTSQPLLGYTMYTMAKEALEGLTRSAALELASLQIRVNGVSPGLSVLPDDMPFSVQEDYRRKVPLYQRNSSAEEVSDVVIFLCSPKAKYITGTCIKVDGGYSLTRA 1p35-a1-m1-cC_1p35-a1-m1-cA CRYSTAL STRUCTURE OF BACULOVIRUS P35 P08160 P08160 2.2 X-RAY DIFFRACTION 41 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 295 299 CVIFPVEIDVSQTIIRDCQVDKQTRELVYINKIMNTQLTKPVLMMFNISGPIRSVTRKNNNLRDRIKSKVDEQFDQLERDYSDQMDGFHYFKDEHYSVSCQNGSVLKSKFAKILKSHDYTDKKSIEAYEKYCLPKLVDERNDYYVAVCVLKPGFENGSNQVLSFEYNPIGNKVIVPFAHEINDTGLYEYDVVAYVDSVQFDGEQFEEFVQSLILPSSFKNSEKVLYYNEASKNKSMIYKALEFTTESSWGKSEKYNWKIFCNGFIYDKKSKVLYVKLHNVTSALNKNVILNTIKA CVIFPVEIDVSQTIIRDCQVDKQTRELVYINKIMNTQLTKPVLMMFNISGPIRSVTRKNNNLRDRIKSKVDEQFDQLERDYSDQMDGFHDSIKYFKDEHYSVSCQNGSVLKSKFAKILKSHDYTDKKSIEAYEKYCLPKLVDERNDYYVAVCVLKPGFENGSNQVLSFEYNPIGNKVIVPFAHEINDTGLYEYDVVAYVDSVQFDGEQFEEFVQSLILPSSFKNSEKVLYYNEASKNKSMIYKALEFTTESSWGKSEKYNWKIFCNGFIYDKKSKVLYVKLHNVTSALNKNVILNTIKA 1p35-a2-m1-cB_1p35-a2-m2-cB CRYSTAL STRUCTURE OF BACULOVIRUS P35 P08160 P08160 2.2 X-RAY DIFFRACTION 43 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 298 298 CVIFPVEIDVSQTIIRDCQVDKQTRELVYINKIMNTQLTKPVLMMFNISGPIRSVTRKNNNLRDRIKSKVDEQFDQLERDYSDQMDGFHDSIKYFKDEHYSVSCQNGSVLKSKFAKILKSHDYTDKKSIEAYEKYCLPKLVDERNDYYVAVCVLKPGFENGSNQVLSFEYNPIGNKVIVPFAHEINDTGLYEYDVVAYVDSVQFDGEQFEEFVQSLILPSSFKNSEKVLYYNEASKNKSMIYKALEFTTESSWGKSEKYNWKIFCNGFIYDKKSKVLYVKLHNVTSALNKNVILNTIK CVIFPVEIDVSQTIIRDCQVDKQTRELVYINKIMNTQLTKPVLMMFNISGPIRSVTRKNNNLRDRIKSKVDEQFDQLERDYSDQMDGFHDSIKYFKDEHYSVSCQNGSVLKSKFAKILKSHDYTDKKSIEAYEKYCLPKLVDERNDYYVAVCVLKPGFENGSNQVLSFEYNPIGNKVIVPFAHEINDTGLYEYDVVAYVDSVQFDGEQFEEFVQSLILPSSFKNSEKVLYYNEASKNKSMIYKALEFTTESSWGKSEKYNWKIFCNGFIYDKKSKVLYVKLHNVTSALNKNVILNTIK 1p3e-a2-m1-cA_1p3e-a2-m2-cA Structure of Glu endopeptidase in complex with MPD Q9EXR9 Q9EXR9 1.72 X-RAY DIFFRACTION 112 1.0 1400 (Bacillus intermedius) 1400 (Bacillus intermedius) 215 215 VVIGDDGRTKVANTRVAPYNSIAYITFGGSSCTGTLIAPNKILTNGHCVYNTASRSYSAKGSVYPGMNDSTAVNGSANMTEFYVPSGYINTGASQYDFAVIKTDTNIGNTVGYRSIRQVTNLTGTTIKISGYPGDKMRSTGKVSQWEMSGSVTREDTNLAYYTIDTFSGNSGSAMLDQNQQIVGVHNAGYSNGTINGGPKATAAFVEFINYAKAQ VVIGDDGRTKVANTRVAPYNSIAYITFGGSSCTGTLIAPNKILTNGHCVYNTASRSYSAKGSVYPGMNDSTAVNGSANMTEFYVPSGYINTGASQYDFAVIKTDTNIGNTVGYRSIRQVTNLTGTTIKISGYPGDKMRSTGKVSQWEMSGSVTREDTNLAYYTIDTFSGNSGSAMLDQNQQIVGVHNAGYSNGTINGGPKATAAFVEFINYAKAQ 1p3h-a3-m1-cC_1p3h-a3-m1-cH Crystal Structure of the Mycobacterium tuberculosis chaperonin 10 tetradecamer P9WPE5 P9WPE5 2.8 X-RAY DIFFRACTION 62 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 98 99 1p3h-a3-m1-cB_1p3h-a3-m1-cI 1p3h-a3-m1-cD_1p3h-a3-m1-cN 1p3h-a3-m1-cE_1p3h-a3-m1-cM 1p3h-a3-m1-cJ_1p3h-a3-m1-cA 1p3h-a3-m1-cK_1p3h-a3-m1-cG 1p3h-a3-m1-cL_1p3h-a3-m1-cF KVNIKPLEDKILVQANEAETTTASGLVIPDTAKEKPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK AKVNIKPLEDKILVQANEAETTTASGLVIPDTAKEKPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK 1p3h-a3-m1-cD_1p3h-a3-m1-cM Crystal Structure of the Mycobacterium tuberculosis chaperonin 10 tetradecamer P9WPE5 P9WPE5 2.8 X-RAY DIFFRACTION 43 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 99 99 1p3h-a3-m1-cB_1p3h-a3-m1-cH 1p3h-a3-m1-cC_1p3h-a3-m1-cN 1p3h-a3-m1-cE_1p3h-a3-m1-cL 1p3h-a3-m1-cI_1p3h-a3-m1-cA 1p3h-a3-m1-cJ_1p3h-a3-m1-cG 1p3h-a3-m1-cK_1p3h-a3-m1-cF AKVNIKPLEDKILVQANEAETTTASGLVIPDTAKEKPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK AKVNIKPLEDKILVQANEAETTTASGLVIPDTAKEKPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK 1p3h-a3-m1-cJ_1p3h-a3-m1-cK Crystal Structure of the Mycobacterium tuberculosis chaperonin 10 tetradecamer P9WPE5 P9WPE5 2.8 X-RAY DIFFRACTION 45 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 98 98 1p3h-a1-m1-cA_1p3h-a1-m1-cG 1p3h-a1-m1-cB_1p3h-a1-m1-cA 1p3h-a1-m1-cB_1p3h-a1-m1-cC 1p3h-a1-m1-cC_1p3h-a1-m1-cD 1p3h-a1-m1-cE_1p3h-a1-m1-cD 1p3h-a1-m1-cE_1p3h-a1-m1-cF 1p3h-a1-m1-cF_1p3h-a1-m1-cG 1p3h-a2-m1-cH_1p3h-a2-m1-cN 1p3h-a2-m1-cI_1p3h-a2-m1-cH 1p3h-a2-m1-cI_1p3h-a2-m1-cJ 1p3h-a2-m1-cJ_1p3h-a2-m1-cK 1p3h-a2-m1-cK_1p3h-a2-m1-cL 1p3h-a2-m1-cL_1p3h-a2-m1-cM 1p3h-a2-m1-cM_1p3h-a2-m1-cN 1p3h-a3-m1-cA_1p3h-a3-m1-cG 1p3h-a3-m1-cB_1p3h-a3-m1-cA 1p3h-a3-m1-cB_1p3h-a3-m1-cC 1p3h-a3-m1-cC_1p3h-a3-m1-cD 1p3h-a3-m1-cE_1p3h-a3-m1-cD 1p3h-a3-m1-cE_1p3h-a3-m1-cF 1p3h-a3-m1-cF_1p3h-a3-m1-cG 1p3h-a3-m1-cH_1p3h-a3-m1-cN 1p3h-a3-m1-cI_1p3h-a3-m1-cH 1p3h-a3-m1-cI_1p3h-a3-m1-cJ 1p3h-a3-m1-cK_1p3h-a3-m1-cL 1p3h-a3-m1-cL_1p3h-a3-m1-cM 1p3h-a3-m1-cM_1p3h-a3-m1-cN KVNIKPLEDKILVQANEAETTTASGLVIPDTAKEKPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK KVNIKPLEDKILVQANEAETTTASGLVIPDTAKEKPQEGTVVAVGPGRWDEDGEKRIPLDVAEGDTVIYSKYGGTEIKYNGEEYLILSARDVLAVVSK 1p3w-a1-m1-cA_1p3w-a1-m1-cB X-ray crystal structure of E. coli IscS P0A6B7 P0A6B7 2.1 X-RAY DIFFRACTION 208 1.0 562 (Escherichia coli) 562 (Escherichia coli) 385 385 3lvj-a1-m1-cA_3lvj-a1-m1-cB 3lvk-a1-m1-cA_3lvk-a1-m2-cA 3lvl-a1-m1-cB_3lvl-a1-m2-cB 3lvm-a1-m1-cA_3lvm-a1-m1-cB KLPIYLDYSATTPVDPRVAEKMMQFMTMDGTFGNPASRSHRFGWQAEEAVDIARNQIADLVGADPREIVFTSGATESDNLAIKGAANFYQKKGKHIITSKTEHKAVLDTCRQLEREGFEVTYLAPQRNGIIDLKELEAAMRDDTILVSIMHVNNEIGVVQDIAAIGEMCRARGIIYHVDATQSVGKLPIDLSQLKVDLMSFSGHKIYGPKGIGALYVRRKPRVRIEAQMHGGGHERGMRSGTLPVHQIVGMGEAYRIAKEEMATEMERLRGLRNRLWNGIKDIEEVYLNGDLEHGAPNILNVSFNYVEGESLIMALKDLAVSSGSAEPSYVLRALGLNDELAHSSIRFSLGRFTTEEEIDYTIELVRKSIGRLRDLSPLWEMYKQ KLPIYLDYSATTPVDPRVAEKMMQFMTMDGTFGNPASRSHRFGWQAEEAVDIARNQIADLVGADPREIVFTSGATESDNLAIKGAANFYQKKGKHIITSKTEHKAVLDTCRQLEREGFEVTYLAPQRNGIIDLKELEAAMRDDTILVSIMHVNNEIGVVQDIAAIGEMCRARGIIYHVDATQSVGKLPIDLSQLKVDLMSFSGHKIYGPKGIGALYVRRKPRVRIEAQMHGGGHERGMRSGTLPVHQIVGMGEAYRIAKEEMATEMERLRGLRNRLWNGIKDIEEVYLNGDLEHGAPNILNVSFNYVEGESLIMALKDLAVSSGSAEPSYVLRALGLNDELAHSSIRFSLGRFTTEEEIDYTIELVRKSIGRLRDLSPLWEMYKQ 1p3y-a1-m6-c1_1p3y-a1-m9-c1 MrsD from Bacillus sp. HIL-Y85/54728 Q9RC23 Q9RC23 2.54 X-RAY DIFFRACTION 28 1.0 69002 (Bacillus sp. HIL-Y85/54728) 69002 (Bacillus sp. HIL-Y85/54728) 171 171 1p3y-a1-m10-c1_1p3y-a1-m7-c1 1p3y-a1-m11-c1_1p3y-a1-m5-c1 1p3y-a1-m12-c1_1p3y-a1-m3-c1 1p3y-a1-m1-c1_1p3y-a1-m4-c1 1p3y-a1-m2-c1_1p3y-a1-m8-c1 ISILKDKKLLIGICGSISSVGISSYLLYFKSFFKEIRVVMTKTAEDLIPAHTVSYFCDHVYSEHGENGKRHSHVEIGRWADIYCIIPATANILGQTANGVAMNLVATTVLAHPHNTIFFPNMNDLMWNKTVVSRNIEQLRKDGHIVIEPVEIMRGLITPDKALLAIEKGFK ISILKDKKLLIGICGSISSVGISSYLLYFKSFFKEIRVVMTKTAEDLIPAHTVSYFCDHVYSEHGENGKRHSHVEIGRWADIYCIIPATANILGQTANGVAMNLVATTVLAHPHNTIFFPNMNDLMWNKTVVSRNIEQLRKDGHIVIEPVEIMRGLITPDKALLAIEKGFK 1p3y-a2-m18-c1_1p3y-a2-m8-c1 MrsD from Bacillus sp. HIL-Y85/54728 Q9RC23 Q9RC23 2.54 X-RAY DIFFRACTION 18 1.0 69002 (Bacillus sp. HIL-Y85/54728) 69002 (Bacillus sp. HIL-Y85/54728) 171 171 1p3y-a2-m13-c1_1p3y-a2-m23-c1 1p3y-a2-m14-c1_1p3y-a2-m26-c1 1p3y-a2-m15-c1_1p3y-a2-m24-c1 1p3y-a2-m16-c1_1p3y-a2-m29-c1 1p3y-a2-m17-c1_1p3y-a2-m27-c1 1p3y-a2-m19-c1_1p3y-a2-m28-c1 1p3y-a2-m1-c1_1p3y-a2-m25-c1 1p3y-a2-m20-c1_1p3y-a2-m33-c1 1p3y-a2-m21-c1_1p3y-a2-m31-c1 1p3y-a2-m22-c1_1p3y-a2-m30-c1 1p3y-a2-m32-c1_1p3y-a2-m6-c1 ISILKDKKLLIGICGSISSVGISSYLLYFKSFFKEIRVVMTKTAEDLIPAHTVSYFCDHVYSEHGENGKRHSHVEIGRWADIYCIIPATANILGQTANGVAMNLVATTVLAHPHNTIFFPNMNDLMWNKTVVSRNIEQLRKDGHIVIEPVEIMRGLITPDKALLAIEKGFK ISILKDKKLLIGICGSISSVGISSYLLYFKSFFKEIRVVMTKTAEDLIPAHTVSYFCDHVYSEHGENGKRHSHVEIGRWADIYCIIPATANILGQTANGVAMNLVATTVLAHPHNTIFFPNMNDLMWNKTVVSRNIEQLRKDGHIVIEPVEIMRGLITPDKALLAIEKGFK 1p3y-a2-m6-c1_1p3y-a2-m8-c1 MrsD from Bacillus sp. HIL-Y85/54728 Q9RC23 Q9RC23 2.54 X-RAY DIFFRACTION 53 1.0 69002 (Bacillus sp. HIL-Y85/54728) 69002 (Bacillus sp. HIL-Y85/54728) 171 171 1p3y-a1-m10-c1_1p3y-a1-m5-c1 1p3y-a1-m10-c1_1p3y-a1-m9-c1 1p3y-a1-m11-c1_1p3y-a1-m3-c1 1p3y-a1-m11-c1_1p3y-a1-m4-c1 1p3y-a1-m12-c1_1p3y-a1-m2-c1 1p3y-a1-m12-c1_1p3y-a1-m7-c1 1p3y-a1-m1-c1_1p3y-a1-m6-c1 1p3y-a1-m1-c1_1p3y-a1-m8-c1 1p3y-a1-m2-c1_1p3y-a1-m7-c1 1p3y-a1-m3-c1_1p3y-a1-m4-c1 1p3y-a1-m5-c1_1p3y-a1-m9-c1 1p3y-a1-m6-c1_1p3y-a1-m8-c1 1p3y-a2-m13-c1_1p3y-a2-m21-c1 1p3y-a2-m13-c1_1p3y-a2-m28-c1 1p3y-a2-m14-c1_1p3y-a2-m22-c1 1p3y-a2-m14-c1_1p3y-a2-m27-c1 1p3y-a2-m15-c1_1p3y-a2-m20-c1 1p3y-a2-m15-c1_1p3y-a2-m29-c1 1p3y-a2-m16-c1_1p3y-a2-m26-c1 1p3y-a2-m16-c1_1p3y-a2-m32-c1 1p3y-a2-m17-c1_1p3y-a2-m24-c1 1p3y-a2-m17-c1_1p3y-a2-m31-c1 1p3y-a2-m18-c1_1p3y-a2-m23-c1 1p3y-a2-m18-c1_1p3y-a2-m33-c1 1p3y-a2-m19-c1_1p3y-a2-m25-c1 1p3y-a2-m19-c1_1p3y-a2-m30-c1 1p3y-a2-m1-c1_1p3y-a2-m6-c1 1p3y-a2-m1-c1_1p3y-a2-m8-c1 1p3y-a2-m20-c1_1p3y-a2-m29-c1 1p3y-a2-m21-c1_1p3y-a2-m28-c1 1p3y-a2-m22-c1_1p3y-a2-m27-c1 1p3y-a2-m23-c1_1p3y-a2-m33-c1 1p3y-a2-m24-c1_1p3y-a2-m31-c1 1p3y-a2-m25-c1_1p3y-a2-m30-c1 1p3y-a2-m26-c1_1p3y-a2-m32-c1 ISILKDKKLLIGICGSISSVGISSYLLYFKSFFKEIRVVMTKTAEDLIPAHTVSYFCDHVYSEHGENGKRHSHVEIGRWADIYCIIPATANILGQTANGVAMNLVATTVLAHPHNTIFFPNMNDLMWNKTVVSRNIEQLRKDGHIVIEPVEIMRGLITPDKALLAIEKGFK ISILKDKKLLIGICGSISSVGISSYLLYFKSFFKEIRVVMTKTAEDLIPAHTVSYFCDHVYSEHGENGKRHSHVEIGRWADIYCIIPATANILGQTANGVAMNLVATTVLAHPHNTIFFPNMNDLMWNKTVVSRNIEQLRKDGHIVIEPVEIMRGLITPDKALLAIEKGFK 1p4e-a1-m1-cA_1p4e-a1-m1-cD Flpe W330F mutant-DNA Holliday Junction Complex P03870 P03870 2.7 X-RAY DIFFRACTION 100 0.99 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 400 408 SQFDILCKTPPKVLVRQFVERFERPSGEKIASCAAELTYLCWMITHNGTAIKRATFMSYNTIISNSLSFDIVNKSLQFKYKTQKATILEASLKKLIPAWEFTIIPYNGQSDITDIVSSLQLQFESGNSHSKKMLKALLSEGESIWEITEKILNSFEYTSRFTKTKTLYQFLFLATFINCGRFSDIKNVDPKSFKLVQNKYLGVIIQCLVTETKTSVSRHIYFFSARGRIDPLVYLDEFLRNSEPVLKRVNRTGNSSSNKQEYQLLKDNLVRSYNKALKKNAPYPIFAIKNGPKSHIGRHLMTSFLSMKGLTELTNVVGNFSDKQITAIPDHYFALVSRYYAYDPISKEMIALKDETNPIEEWQHIEQLKGSAEGSIRYPAWNGIISQEVLDYLSSYINRR SQFDILCKTPPKVLVRQFVERFERPSGEKIASCAAELTYLCWMITHNGTAIKRATFMSYNTIISNSLSFDIVNKSLQFKYKTQKATILEASLKKLIPAWEFTIIPYNSDITDIVSSLQLQFESSGNSHSKKMLKALLSEGESIWEITEKILNSFEYTSRFTKTKTLYQFLFLATFINCGRFSDIKNVDPKSFKLVQNKYLGVIIQCLVTETKTSVSRHIYFFSARGRIDPLVYLDEFLRNSEPVLKRVNRTGNSNKQEYQLLKDNLVRSYNKALKKNAPYPIFAIKNGPKSHIGRHLMTSFLSMKGLTELTNVVGNFSDKRASAVARTTTHQITAIPDHYFALVSRYYAYDPISKEMIALKDETNPIEEWQHIEQLKGSAEGSIRYPAWNGIISQEVLDYLSSYINRR 1p4o-a3-m1-cA_1p4o-a3-m1-cB Structure of Apo unactivated IGF-1R KInase domain at 1.5A resolution. P08069 P08069 1.5 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 314 PEYFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPAMANNPVLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN NPEYFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPAMANNPVLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEENKLPEP 1p4t-a2-m2-cA_1p4t-a2-m3-cA Crystal structure of Neisserial surface protein A (NspA) Q9RP17 Q9RP17 2.55 X-RAY DIFFRACTION 20 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 155 155 1p4t-a2-m1-cA_1p4t-a2-m2-cA 1p4t-a2-m1-cA_1p4t-a2-m3-cA EGASGFYVQADAAHAKASSSLGSAKGFSPRISAGYRINDLRFAVDYTRYKNYKAPSTDFKLYSIGASAIYDFDTQSPVKPYLGARLSLNRASVDLGGSDSFSQTSIGLGVLTGVSYAVTPNVDLDAGYRYNYIGKVNTVKNVRSGELSAGVRVKF EGASGFYVQADAAHAKASSSLGSAKGFSPRISAGYRINDLRFAVDYTRYKNYKAPSTDFKLYSIGASAIYDFDTQSPVKPYLGARLSLNRASVDLGGSDSFSQTSIGLGVLTGVSYAVTPNVDLDAGYRYNYIGKVNTVKNVRSGELSAGVRVKF 1p4u-a2-m1-cA_1p4u-a2-m2-cA CRYSTAL STRUCTURE OF GGA3 GAE DOMAIN IN COMPLEX WITH RABAPTIN-5 PEPTIDE Q9NZ52 Q9NZ52 2.2 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 145 LSLASIHVPLESIKPSSALPVTAYDKNGFRILFHFAKECPPGRPDVLVVVVSMLNMAPLPVKSIVLQAAAPKSMKVKLQPPSGTELSPFSPIQPPAAITQVMLLANPLKEKVRLRYKLTFALGEQLSTEVGEVDQFPPVEQWGNL LSLASIHVPLESIKPSSALPVTAYDKNGFRILFHFAKECPPGRPDVLVVVVSMLNMAPLPVKSIVLQAAAPKSMKVKLQPPSGTELSPFSPIQPPAAITQVMLLANPLKEKVRLRYKLTFALGEQLSTEVGEVDQFPPVEQWGNL 1p4v-a1-m1-cA_1p4v-a1-m1-cC CRYSTAL STRUCTURE OF THE GLYCOSYLASPARAGINASE PRECURSOR D151N MUTANT WITH GLYCINE Q47898 Q47898 1.9 X-RAY DIFFRACTION 134 1.0 238 (Elizabethkingia meningoseptica) 238 (Elizabethkingia meningoseptica) 295 295 1ayy-a1-m1-cA_1ayy-a1-m1-cC 1p4k-a1-m1-cA_1p4k-a1-m1-cC 2gac-a1-m1-cA_2gac-a1-m1-cC 2gaw-a1-m1-cA_2gaw-a1-m1-cC 2gl9-a1-m1-cA_2gl9-a1-m1-cC 6dey-a1-m1-cC_6dey-a1-m1-cA 6nq6-a1-m1-cA_6nq6-a1-m1-cC TTNKPIVLSTWNFGLHANVEAWKVLSKGGKALDAVEKGVRLVEDDPTERSVGYGGRPDRDGRVTLDACIMDENYNIGSVACMEHIKNPISVARAVMEKTPHVMLVGDGALEFALSQGFKKENLLTAESEKEWKEWLKTSQYKPIVNIENHNTIGMIALDAQGNLSGACTTSGMAYKMHGRVGDSPIIGAGLFVDNEIGAATATGHGEEVIRTVGTHLVVELMNQGRTPQQACKEAVERIVKIVNRRGKNLKDIQVGFIALNKKGEYGAYCIQDGFNFAVHDQKGNRLETPGFALK TTNKPIVLSTWNFGLHANVEAWKVLSKGGKALDAVEKGVRLVEDDPTERSVGYGGRPDRDGRVTLDACIMDENYNIGSVACMEHIKNPISVARAVMEKTPHVMLVGDGALEFALSQGFKKENLLTAESEKEWKEWLKTSQYKPIVNIENHNTIGMIALDAQGNLSGACTTSGMAYKMHGRVGDSPIIGAGLFVDNEIGAATATGHGEEVIRTVGTHLVVELMNQGRTPQQACKEAVERIVKIVNRRGKNLKDIQVGFIALNKKGEYGAYCIQDGFNFAVHDQKGNRLETPGFALK 1p5q-a1-m1-cA_1p5q-a1-m2-cB Crystal Structure of FKBP52 C-terminal Domain Q02790 Q02790 2.8 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 1p5q-a1-m1-cB_1p5q-a1-m2-cA 1p5q-a1-m1-cC_1p5q-a1-m2-cC 1qz2-a1-m1-cA_1qz2-a1-m1-cB EEDGGIIRRIQTRGEGYAKPNEGAIVEVALEGYYKDKLFDQRELRFEIGEGENLDLPYGLERAIQREKGEHSIVYLKPSYAFGSVGKEKFQIPPNAELKYELHLKSFEKAKESWENSEEKLEQSTIVKERGTVYFKEGKYKQALLQYKKIVSWLEYESSFSNEEAQKAQALRLASHLNLAMCHLKLQAFSAAIESCNKALELDSNNEKGLSRRGEAHLAVNDFELARADFQKVLQLYPNNKAAKTQLAVCQQRIRRQLAREKKLYANMFERLAEEENKAKA EEDGGIIRRIQTRGEGYAKPNEGAIVEVALEGYYKDKLFDQRELRFEIGEGENLDLPYGLERAIQREKGEHSIVYLKPSYAFGSVGKEKFQIPPNAELKYELHLKSFEKAKESWENSEEKLEQSTIVKERGTVYFKEGKYKQALLQYKKIVSWLEYESSFSNEEAQKAQALRLASHLNLAMCHLKLQAFSAAIESCNKALELDSNNEKGLSRRGEAHLAVNDFELARADFQKVLQLYPNNKAAKTQLAVCQQRIRRQLAREKKLYANMFERLAEEENKAKA 1p5q-a1-m1-cB_1p5q-a1-m2-cC Crystal Structure of FKBP52 C-terminal Domain Q02790 Q02790 2.8 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 1p5q-a1-m1-cA_1p5q-a1-m1-cB 1p5q-a1-m1-cA_1p5q-a1-m2-cC 1p5q-a1-m1-cC_1p5q-a1-m2-cA 1p5q-a1-m1-cC_1p5q-a1-m2-cB 1p5q-a1-m2-cA_1p5q-a1-m2-cB 1qz2-a1-m1-cA_1qz2-a1-m1-cC EEDGGIIRRIQTRGEGYAKPNEGAIVEVALEGYYKDKLFDQRELRFEIGEGENLDLPYGLERAIQREKGEHSIVYLKPSYAFGSVGKEKFQIPPNAELKYELHLKSFEKAKESWENSEEKLEQSTIVKERGTVYFKEGKYKQALLQYKKIVSWLEYESSFSNEEAQKAQALRLASHLNLAMCHLKLQAFSAAIESCNKALELDSNNEKGLSRRGEAHLAVNDFELARADFQKVLQLYPNNKAAKTQLAVCQQRIRRQLAREKKLYANMFERLAEEENKAKA EEDGGIIRRIQTRGEGYAKPNEGAIVEVALEGYYKDKLFDQRELRFEIGEGENLDLPYGLERAIQREKGEHSIVYLKPSYAFGSVGKEKFQIPPNAELKYELHLKSFEKAKESWENSEEKLEQSTIVKERGTVYFKEGKYKQALLQYKKIVSWLEYESSFSNEEAQKAQALRLASHLNLAMCHLKLQAFSAAIESCNKALELDSNNEKGLSRRGEAHLAVNDFELARADFQKVLQLYPNNKAAKTQLAVCQQRIRRQLAREKKLYANMFERLAEEENKAKA 1p5q-a1-m2-cA_1p5q-a1-m2-cC Crystal Structure of FKBP52 C-terminal Domain Q02790 Q02790 2.8 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 1p5q-a1-m1-cA_1p5q-a1-m1-cC 1p5q-a1-m1-cB_1p5q-a1-m2-cB 1qz2-a1-m1-cB_1qz2-a1-m1-cC EEDGGIIRRIQTRGEGYAKPNEGAIVEVALEGYYKDKLFDQRELRFEIGEGENLDLPYGLERAIQREKGEHSIVYLKPSYAFGSVGKEKFQIPPNAELKYELHLKSFEKAKESWENSEEKLEQSTIVKERGTVYFKEGKYKQALLQYKKIVSWLEYESSFSNEEAQKAQALRLASHLNLAMCHLKLQAFSAAIESCNKALELDSNNEKGLSRRGEAHLAVNDFELARADFQKVLQLYPNNKAAKTQLAVCQQRIRRQLAREKKLYANMFERLAEEENKAKA EEDGGIIRRIQTRGEGYAKPNEGAIVEVALEGYYKDKLFDQRELRFEIGEGENLDLPYGLERAIQREKGEHSIVYLKPSYAFGSVGKEKFQIPPNAELKYELHLKSFEKAKESWENSEEKLEQSTIVKERGTVYFKEGKYKQALLQYKKIVSWLEYESSFSNEEAQKAQALRLASHLNLAMCHLKLQAFSAAIESCNKALELDSNNEKGLSRRGEAHLAVNDFELARADFQKVLQLYPNNKAAKTQLAVCQQRIRRQLAREKKLYANMFERLAEEENKAKA 1p5t-a1-m1-cB_1p5t-a1-m1-cA Crystal Structure of Dok1 PTB Domain P97465 P97465 2.35 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 103 105 1uef-a1-m1-cB_1uef-a1-m1-cA GSQFWVTSQKTEASERCGLQGSYILRVEAEKLTLLTLGAQSQILEPLLFWPYTLLRRYGRDKVFSFEAGRRCPSGPGTFTFQTSQGNDIFQAVEAAIQQQKAQ GSQFWVTSQKTEASERCGLQGSYILRVEAEKLTLLTLGAQSQILEPLLFWPYTLLRRYGRDKVFSFEAGRRCPSGPGTFTFQTSQGNDIFQAVEAAIQQQKAQGK 1p65-a1-m1-cA_1p65-a1-m1-cB Crystal structure of the nucleocapsid protein of porcine reproductive and respiratory syndrome virus (PRRSV) Q9YJI1 Q9YJI1 2.6 X-RAY DIFFRACTION 93 1.0 28344 (Porcine reproductive and respiratory syndrome virus) 28344 (Porcine reproductive and respiratory syndrome virus) 57 57 DVRHHFTPSERQLCLSSIQTAFNQGAGTCTLSDSGRISYTVEFSLPTHHTVRLIRVT DVRHHFTPSERQLCLSSIQTAFNQGAGTCTLSDSGRISYTVEFSLPTHHTVRLIRVT 1p6x-a2-m1-cA_1p6x-a2-m2-cA Crystal structure of EHV4-TK complexed with Thy and SO4 P24425 P24425 2 X-RAY DIFFRACTION 59 1.0 10331 (Equid alphaherpesvirus 4) 10331 (Equid alphaherpesvirus 4) 333 333 1p72-a3-m1-cA_1p72-a3-m5-cA 1p72-a4-m4-cA_1p72-a4-m7-cA 1p75-a3-m1-cC_1p75-a3-m1-cB 1p75-a3-m2-cC_1p75-a3-m2-cB 1p75-a4-m1-cC_1p75-a4-m1-cB SHMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARIGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV SHMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARIGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV 1p6x-a2-m2-cB_1p6x-a2-m2-cA Crystal structure of EHV4-TK complexed with Thy and SO4 P24425 P24425 2 X-RAY DIFFRACTION 125 1.0 10331 (Equid alphaherpesvirus 4) 10331 (Equid alphaherpesvirus 4) 331 333 1p6x-a1-m1-cB_1p6x-a1-m1-cA 1p6x-a2-m1-cB_1p6x-a2-m1-cA 1p72-a1-m1-cA_1p72-a1-m1-cB 1p72-a3-m1-cA_1p72-a3-m1-cB 1p72-a3-m5-cA_1p72-a3-m5-cB 1p73-a1-m1-cA_1p73-a1-m1-cB 1p73-a2-m1-cC_1p73-a2-m1-cD 1p75-a1-m1-cA_1p75-a1-m1-cB 1p75-a2-m1-cD_1p75-a2-m1-cC 1p75-a4-m1-cA_1p75-a4-m1-cB 1p75-a4-m1-cD_1p75-a4-m1-cC HMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARIGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMG SHMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARIGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV 1p71-a1-m1-cB_1p71-a1-m1-cA Anabaena HU-DNA corcrystal structure (TR3) P05514 P05514 1.9 X-RAY DIFFRACTION 150 1.0 1167 (Anabaena sp.) 1167 (Anabaena sp.) 93 94 1p51-a1-m1-cA_1p51-a1-m1-cB 1p51-a2-m1-cC_1p51-a2-m1-cD 1p78-a1-m1-cA_1p78-a1-m1-cB MNKGELVDAVAEKASVTKKQADAVLTAALETIIEAVSSGDKVTLVGFGSFESRERKAREGRNPKTNEKMEIPATRVPAFSAGKLFREKVAPPK MNKGELVDAVAEKASVTKKQADAVLTAALETIIEAVSSGDKVTLVGFGSFESRERKAREGRNPKTNEKMEIPATRVPAFSAGKLFREKVAPPKA 1p72-a4-m7-cA_1p72-a4-m6-cB Crystal structure of EHV4-TK complexed with Thy and ADP P24425 P24425 2.1 X-RAY DIFFRACTION 35 0.991 10331 (Equid alphaherpesvirus 4) 10331 (Equid alphaherpesvirus 4) 323 330 1p72-a2-m3-cA_1p72-a2-m1-cB 1p72-a2-m3-cA_1p72-a2-m2-cB 1p72-a2-m4-cA_1p72-a2-m1-cB 1p72-a2-m4-cA_1p72-a2-m2-cB 1p72-a4-m4-cA_1p72-a4-m1-cB 1p75-a3-m3-cA_1p75-a3-m1-cB 1p75-a3-m3-cA_1p75-a3-m2-cB 1p75-a3-m4-cA_1p75-a3-m1-cB 1p75-a3-m4-cA_1p75-a3-m2-cB 1p75-a3-m5-cD_1p75-a3-m2-cC 1p75-a3-m6-cD_1p75-a3-m1-cC SHMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARIGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV SHMVTIVRIYLDGVYGIGKSTTGRVMASAASPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARIGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV 1p74-a1-m1-cB_1p74-a1-m1-cA CRYSTAL STRUCTURE OF SHIKIMATE DEHYDROGENASE (AROE) FROM HAEMOPHILUS INFLUENZAE P43876 P43876 2.4 X-RAY DIFFRACTION 27 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 266 267 MDLYAVWGNPIAQSKSPLIQNKLAAQTHQTMEYIAKLGDLDAFEQQLLAFFEEGAKGCNITSPFKERAYQLADEYSQRAKLAEACNTLKKLDDGKLYADNTDGIGLVTDLQRLNWLRPNQHVLILGAGGATKGVLLPLLQAQQNIVLANRTFSKTKELAERFQPYGNIQAVSMDSIPLQTYDLVINATSAASVDAEILKLGSAFYDMQYAKGTDTPFIALCKSLGLTNVSDGFGMLVAQAAHSFHLWRGVMPDFVSVYEQLKKAML MDLYAVWGNPIAQSKSPLIQNKLAAQTHQTMEYIAKLGDLDAFEQQLLAFFEEGAKGCNITSPFKERAYQLADEYSQRAKLAEACNTLKKLDDGKLYADNTDGIGLVTDLQRLNWLRPNQHVLILGAGGATKGVLLPLLQAQQNIVLANRTFSKTKELAERFQPYGNIQAVSMDSIPLQTYDLVINATSAGASVDAEILKLGSAFYDMQYAKGTDTPFIALCKSLGLTNVSDGFGMLVAQAAHSFHLWRGVMPDFVSVYEQLKKAML 1p75-a3-m6-cD_1p75-a3-m4-cA Crystal structure of EHV4-TK complexed with TP5A P24425 P24425 3.02 X-RAY DIFFRACTION 32 0.997 10331 (Equid alphaherpesvirus 4) 10331 (Equid alphaherpesvirus 4) 328 331 1p72-a4-m1-cB_1p72-a4-m6-cB 1p75-a3-m5-cD_1p75-a3-m3-cA SHMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV HMVTIVRIYLDGVYGIGKSTTGRVMASAASGGSPTLYFPEPMAYWRTLFETDVISGIYDTQNRKQQGNLAVDDAALITAHYQSRFTTPYLILHDHTCTLFGGNSLQRGTQPDLTLVFDRHPVASTVCFPAARYLLGDMSMCALMAMVATLPREPQGGNIVVTTLNVEEHIRRLRTRARGEQIDITLIATLRNVYFMLVNTCHFLRSGRVWRDGWGELPTSCGAYKHRATQMDAFQERVSPELGDTLFALFKTQELLDDRGVILEVHAWALDALMLKLRNLNVFSADLSGTPRQCAAVVESLLPLMSSTLSDFDSASALERAARTFNAEMGV 1p7g-a6-m1-cU_1p7g-a6-m1-cX Crystal structure of superoxide dismutase from Pyrobaculum aerophilum O93724 O93724 1.8 X-RAY DIFFRACTION 173 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 208 208 1p7g-a1-m1-cA_1p7g-a1-m1-cD 1p7g-a1-m1-cB_1p7g-a1-m1-cC 1p7g-a2-m1-cF_1p7g-a2-m1-cG 1p7g-a2-m1-cH_1p7g-a2-m1-cE 1p7g-a3-m1-cI_1p7g-a3-m1-cL 1p7g-a3-m1-cJ_1p7g-a3-m1-cK 1p7g-a4-m1-cM_1p7g-a4-m1-cP 1p7g-a4-m1-cN_1p7g-a4-m1-cO 1p7g-a5-m1-cQ_1p7g-a5-m1-cT 1p7g-a5-m1-cR_1p7g-a5-m1-cS 1p7g-a6-m1-cV_1p7g-a6-m1-cW 3evk-a1-m1-cA_3evk-a1-m1-cD 3evk-a1-m1-cB_3evk-a1-m1-cC SVTTKRYTLPPLPYAYNALEPYISAEIQLHHQKHHQGYVNGANAALEKLEKFRKGEAQIDIRAVLRDLSFHLNGHILHSIFWPNAPPGKGGGKPGGKIADLINKFFGSFEKFKEEFSQAAKNVEGVGWAILVYEPLEEQLLILQIEKHNLHAADAQVLLALDVWEHAYYLQYKNDRGSYVDNWWNVVNWDDVERRLQKALNGQIALKL SVTTKRYTLPPLPYAYNALEPYISAEIQLHHQKHHQGYVNGANAALEKLEKFRKGEAQIDIRAVLRDLSFHLNGHILHSIFWPNAPPGKGGGKPGGKIADLINKFFGSFEKFKEEFSQAAKNVEGVGWAILVYEPLEEQLLILQIEKHNLHAADAQVLLALDVWEHAYYLQYKNDRGSYVDNWWNVVNWDDVERRLQKALNGQIALKL 1p7g-a6-m1-cV_1p7g-a6-m1-cX Crystal structure of superoxide dismutase from Pyrobaculum aerophilum O93724 O93724 1.8 X-RAY DIFFRACTION 42 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 208 208 1p7g-a1-m1-cA_1p7g-a1-m1-cC 1p7g-a1-m1-cB_1p7g-a1-m1-cD 1p7g-a2-m1-cE_1p7g-a2-m1-cG 1p7g-a2-m1-cH_1p7g-a2-m1-cF 1p7g-a3-m1-cI_1p7g-a3-m1-cK 1p7g-a3-m1-cJ_1p7g-a3-m1-cL 1p7g-a4-m1-cM_1p7g-a4-m1-cO 1p7g-a4-m1-cN_1p7g-a4-m1-cP 1p7g-a5-m1-cQ_1p7g-a5-m1-cS 1p7g-a5-m1-cR_1p7g-a5-m1-cT 1p7g-a6-m1-cU_1p7g-a6-m1-cW 3evk-a1-m1-cA_3evk-a1-m1-cC 3evk-a1-m1-cB_3evk-a1-m1-cD SVTTKRYTLPPLPYAYNALEPYISAEIQLHHQKHHQGYVNGANAALEKLEKFRKGEAQIDIRAVLRDLSFHLNGHILHSIFWPNAPPGKGGGKPGGKIADLINKFFGSFEKFKEEFSQAAKNVEGVGWAILVYEPLEEQLLILQIEKHNLHAADAQVLLALDVWEHAYYLQYKNDRGSYVDNWWNVVNWDDVERRLQKALNGQIALKL SVTTKRYTLPPLPYAYNALEPYISAEIQLHHQKHHQGYVNGANAALEKLEKFRKGEAQIDIRAVLRDLSFHLNGHILHSIFWPNAPPGKGGGKPGGKIADLINKFFGSFEKFKEEFSQAAKNVEGVGWAILVYEPLEEQLLILQIEKHNLHAADAQVLLALDVWEHAYYLQYKNDRGSYVDNWWNVVNWDDVERRLQKALNGQIALKL 1p7h-a2-m1-cN_1p7h-a2-m1-cO Structure of NFAT1 bound as a dimer to the HIV-1 LTR kB element Q13469 Q13469 2.6 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 286 286 1p7h-a1-m1-cL_1p7h-a1-m1-cM 2o93-a1-m1-cM_2o93-a1-m1-cL SSVPLEWPLSSQSGSYELRIEVQPKPHHRAHYETEGSRGAVKAPTGGHPVVQLHGYMENKPLGLQIFIGTADERILKPHAFYQVHRITGKTVTTTSYEKIVGNTKVLEIPLEPKNNMRATIDCAGILKLRNADIELRKGETDIGRKNTRVRLVFRVHIPESSGRIVSLQTASNPIECSQRSAHELPMVERQDTDSCLVYGGQQMILTGQNFTSESKVVFTEKTTDGQQIWEMEATVDKDKSQPNMLFVEIPEYRNKHIRTPVKVNFYVINGKRKRSQPQHFTYHPV SSVPLEWPLSSQSGSYELRIEVQPKPHHRAHYETEGSRGAVKAPTGGHPVVQLHGYMENKPLGLQIFIGTADERILKPHAFYQVHRITGKTVTTTSYEKIVGNTKVLEIPLEPKNNMRATIDCAGILKLRNADIELRKGETDIGRKNTRVRLVFRVHIPESSGRIVSLQTASNPIECSQRSAHELPMVERQDTDSCLVYGGQQMILTGQNFTSESKVVFTEKTTDGQQIWEMEATVDKDKSQPNMLFVEIPEYRNKHIRTPVKVNFYVINGKRKRSQPQHFTYHPV 1p7o-a1-m2-cA_1p7o-a1-m2-cB Crystal structure of phospholipase A2 (MIPLA4) from Micropechis ikaheka Q45Z29 Q45Z29 2.3 X-RAY DIFFRACTION 10 1.0 66188 (Micropechis ikaheca) 66188 (Micropechis ikaheca) 124 124 1p7o-a1-m1-cA_1p7o-a1-m1-cB NLLQFRNMIKCTIPGREPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYFNTYSYDCTDGKLTCNDQNDKCKLFICNCDRTAAMCFAKAPYNEAYNHFNRQLCK NLLQFRNMIKCTIPGREPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYFNTYSYDCTDGKLTCNDQNDKCKLFICNCDRTAAMCFAKAPYNEAYNHFNRQLCK 1p7o-a1-m2-cA_1p7o-a1-m2-cF Crystal structure of phospholipase A2 (MIPLA4) from Micropechis ikaheka Q45Z29 Q45Z29 2.3 X-RAY DIFFRACTION 15 1.0 66188 (Micropechis ikaheca) 66188 (Micropechis ikaheca) 124 124 1p7o-a1-m1-cA_1p7o-a1-m1-cF 1p7o-a1-m1-cB_1p7o-a1-m2-cE 1p7o-a1-m1-cC_1p7o-a1-m2-cC 1p7o-a1-m1-cD_1p7o-a1-m2-cD 1p7o-a1-m1-cE_1p7o-a1-m2-cB NLLQFRNMIKCTIPGREPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYFNTYSYDCTDGKLTCNDQNDKCKLFICNCDRTAAMCFAKAPYNEAYNHFNRQLCK NLLQFRNMIKCTIPGREPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYFNTYSYDCTDGKLTCNDQNDKCKLFICNCDRTAAMCFAKAPYNEAYNHFNRQLCK 1p7o-a1-m2-cB_1p7o-a1-m2-cF Crystal structure of phospholipase A2 (MIPLA4) from Micropechis ikaheka Q45Z29 Q45Z29 2.3 X-RAY DIFFRACTION 26 1.0 66188 (Micropechis ikaheca) 66188 (Micropechis ikaheca) 124 124 1p7o-a1-m1-cA_1p7o-a1-m1-cE 1p7o-a1-m1-cA_1p7o-a1-m2-cC 1p7o-a1-m1-cB_1p7o-a1-m1-cF 1p7o-a1-m1-cB_1p7o-a1-m2-cD 1p7o-a1-m1-cC_1p7o-a1-m2-cA 1p7o-a1-m1-cC_1p7o-a1-m2-cE 1p7o-a1-m1-cD_1p7o-a1-m2-cB 1p7o-a1-m1-cD_1p7o-a1-m2-cF 1p7o-a1-m1-cE_1p7o-a1-m2-cC 1p7o-a1-m1-cF_1p7o-a1-m2-cD 1p7o-a1-m2-cA_1p7o-a1-m2-cE NLLQFRNMIKCTIPGREPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYFNTYSYDCTDGKLTCNDQNDKCKLFICNCDRTAAMCFAKAPYNEAYNHFNRQLCK NLLQFRNMIKCTIPGREPLLAFSNYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYFNTYSYDCTDGKLTCNDQNDKCKLFICNCDRTAAMCFAKAPYNEAYNHFNRQLCK 1p84-a1-m1-cH_1p84-a1-m2-cH HDBT inhibited Yeast Cytochrome bc1 Complex P08525 P08525 2.5 X-RAY DIFFRACTION 10 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 93 93 8ec0-a1-m1-cH_8ec0-a1-m1-ch GPPSGKTYMGWWGHMGGPKQKGITSYAVSPYAQKPLQGIFHNAVFNSFRRFKSQFLYVLIPAGIYWYWWKNGNEYNEFLYSKAGREELERVNV GPPSGKTYMGWWGHMGGPKQKGITSYAVSPYAQKPLQGIFHNAVFNSFRRFKSQFLYVLIPAGIYWYWWKNGNEYNEFLYSKAGREELERVNV 1p8c-a1-m1-cC_1p8c-a1-m1-cE Crystal structure of TM1620 (APC4843) from Thermotoga maritima Q9X1V5 Q9X1V5 2.3 X-RAY DIFFRACTION 14 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 119 119 1p8c-a1-m1-cB_1p8c-a1-m1-cD 1vke-a1-m1-cB_1vke-a1-m1-cD 1vke-a1-m1-cC_1vke-a1-m1-cE 1vke-a1-m1-cF_1vke-a1-m1-cA EYKKFVEARRELNEKVLSRGTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNGETIS EYKKFVEARRELNEKVLSRGTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNGETIS 1p8c-a1-m1-cF_1p8c-a1-m1-cE Crystal structure of TM1620 (APC4843) from Thermotoga maritima Q9X1V5 Q9X1V5 2.3 X-RAY DIFFRACTION 81 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 115 119 1p8c-a1-m1-cA_1p8c-a1-m1-cD 1p8c-a1-m1-cB_1p8c-a1-m1-cC 1vke-a1-m1-cC_1vke-a1-m1-cB 1vke-a1-m1-cD_1vke-a1-m1-cA 1vke-a1-m1-cF_1vke-a1-m1-cE EYKKFVEARRELNEKVLSRGTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNG EYKKFVEARRELNEKVLSRGTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNGETIS 1p91-a1-m1-cB_1p91-a1-m1-cA Crystal Structure of RlmA(I) enzyme: 23S rRNA n1-G745 methyltransferase (NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET ER19) P36999 P36999 2.8 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 251 261 SFSCPLCHQPLSREKNSYICPQRHQFDAKEGYVNLLPDSAEQARRAFLDAGHYQPLRDAIVAQLRERLDDKATAVLDIGCGEGYYTHAFADALPEITTFGLDVSKVAIKAAAKRYPQVTFCVASSHRLPFSDTSDAIIRIYAPCKAEELARVVKPGGWVITATPGPRHLELKGLIYNEVHLHAPHAEQLEGFTLQQSAELCYPRLRGDEAVALLQTPFAWRAKPEVWQTLAAKEVFDCQTDFNIHLWQRSY SFSCPLCHQPLSREKNSYICPQRHQFDAKEGYVNLLPVQHKRSRDPGDSAEQARRAFLDAGHYQPLRDAIVAQLRERLDDKATAVLDIGCGEGYYTHAFADALPEITTFGLDVSKVAIKAAAKRYPQVTFCVASSHRLPFSDTSDAIIRIYAPCKAEELARVVKPGGWVITATPGPRHLELKGLIYNEVHLHAPHAEQLEGFTLQQSAELCYPRLRGDEAVALLQTPFAWRAKPEVWQTLAAKEVFDCQTDFNIHLWQRSY 1p94-a1-m1-cA_1p94-a1-m1-cB NMR Structure of ParG symmetric dimer Q9KJ82 Q9KJ82 NOT SOLUTION NMR 110 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 76 76 MSLEKAHTSVKKMTFGENRDLERVVTAPVSSGKIKRVNVNFDEEKHTRFKAACARKGTSITDVVNQLVDNWLKENE MSLEKAHTSVKKMTFGENRDLERVVTAPVSSGKIKRVNVNFDEEKHTRFKAACARKGTSITDVVNQLVDNWLKENE 1p9b-a1-m1-cA_1p9b-a1-m2-cA Structure of fully ligated Adenylosuccinate synthetase from Plasmodium falciparum Q9U8D3 Q9U8D3 2 X-RAY DIFFRACTION 169 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 424 424 GNVVAILGAQWGDEGKGKIIDMLSEYSDITCRFNGGANAGHTISVNDKKYALHLLPCGVLYDNNISVLGNGMVIHVKSLMEEIESVGGKLLDRLYLSNKAHILFDIHQIIDSIQETKKLKEGKQIGTTKRGIGPCYSTKASRIGIRLGTLKNFENFKNMYSKLIDHLMDLYNITEYDKEKELNLFYNYHIKLRDRIVDVISFMNTNLENNKKVLIEGANAAMLDIDFGTYPYVTSSCTTVGGVFSGLGIHHKKLNLVVGVVKSYLTRVGCGPFLTELNNDVGQYLREKGHEYGTTTKRPRRCGWLDIPMLLYVKCINSIDMINLTKLDVLSGLEEILLCVNFKNKKTGELLEKGCYPVEEEISEEYEPVYEKFSGWKEDISTCNEFDELPENAKKYILAIEKYLKTPIVWIGVGPNRKNMIVKK GNVVAILGAQWGDEGKGKIIDMLSEYSDITCRFNGGANAGHTISVNDKKYALHLLPCGVLYDNNISVLGNGMVIHVKSLMEEIESVGGKLLDRLYLSNKAHILFDIHQIIDSIQETKKLKEGKQIGTTKRGIGPCYSTKASRIGIRLGTLKNFENFKNMYSKLIDHLMDLYNITEYDKEKELNLFYNYHIKLRDRIVDVISFMNTNLENNKKVLIEGANAAMLDIDFGTYPYVTSSCTTVGGVFSGLGIHHKKLNLVVGVVKSYLTRVGCGPFLTELNNDVGQYLREKGHEYGTTTKRPRRCGWLDIPMLLYVKCINSIDMINLTKLDVLSGLEEILLCVNFKNKKTGELLEKGCYPVEEEISEEYEPVYEKFSGWKEDISTCNEFDELPENAKKYILAIEKYLKTPIVWIGVGPNRKNMIVKK 1p9e-a2-m1-cB_1p9e-a2-m2-cB Crystal Structure Analysis of Methyl Parathion Hydrolase from Pseudomonas sp WBC-3 Q841S6 Q841S6 2.4 X-RAY DIFFRACTION 30 1.0 165468 (Pseudomonas sp. WBC-3) 165468 (Pseudomonas sp. WBC-3) 294 294 AAPQVRTSAPGYYRMLLGDFEITALSDGTVALPVDKRLNQPAPKTQSALAKSFQKAPLETSVTGYLVNTGSKLVLVDTGAAGLFGPTLGRLAANLKAAGYQPEQVDEIYITHMHPDHVGGLMVGEQLAFPNAVVRADQKEADFWLSQTNLDKAPDDESKGFFKGAMASLNPYVKAGKFKPFSGNTDLVPGIKALASHGHTPGHTTYVVESQGQKLALLGDLILVAAVQFDDPSVTTQLDSDSKSVAVERKKAFADAAKGGYLIAASHLSFPGIGHIRAEGKGYRFVPVNYSVVN AAPQVRTSAPGYYRMLLGDFEITALSDGTVALPVDKRLNQPAPKTQSALAKSFQKAPLETSVTGYLVNTGSKLVLVDTGAAGLFGPTLGRLAANLKAAGYQPEQVDEIYITHMHPDHVGGLMVGEQLAFPNAVVRADQKEADFWLSQTNLDKAPDDESKGFFKGAMASLNPYVKAGKFKPFSGNTDLVPGIKALASHGHTPGHTTYVVESQGQKLALLGDLILVAAVQFDDPSVTTQLDSDSKSVAVERKKAFADAAKGGYLIAASHLSFPGIGHIRAEGKGYRFVPVNYSVVN 1p9e-a2-m2-cA_1p9e-a2-m2-cB Crystal Structure Analysis of Methyl Parathion Hydrolase from Pseudomonas sp WBC-3 Q841S6 Q841S6 2.4 X-RAY DIFFRACTION 129 1.0 165468 (Pseudomonas sp. WBC-3) 165468 (Pseudomonas sp. WBC-3) 294 294 1p9e-a1-m1-cA_1p9e-a1-m1-cB 1p9e-a2-m1-cA_1p9e-a2-m1-cB AAPQVRTSAPGYYRMLLGDFEITALSDGTVALPVDKRLNQPAPKTQSALAKSFQKAPLETSVTGYLVNTGSKLVLVDTGAAGLFGPTLGRLAANLKAAGYQPEQVDEIYITHMHPDHVGGLMVGEQLAFPNAVVRADQKEADFWLSQTNLDKAPDDESKGFFKGAMASLNPYVKAGKFKPFSGNTDLVPGIKALASHGHTPGHTTYVVESQGQKLALLGDLILVAAVQFDDPSVTTQLDSDSKSVAVERKKAFADAAKGGYLIAASHLSFPGIGHIRAEGKGYRFVPVNYSVVN AAPQVRTSAPGYYRMLLGDFEITALSDGTVALPVDKRLNQPAPKTQSALAKSFQKAPLETSVTGYLVNTGSKLVLVDTGAAGLFGPTLGRLAANLKAAGYQPEQVDEIYITHMHPDHVGGLMVGEQLAFPNAVVRADQKEADFWLSQTNLDKAPDDESKGFFKGAMASLNPYVKAGKFKPFSGNTDLVPGIKALASHGHTPGHTTYVVESQGQKLALLGDLILVAAVQFDDPSVTTQLDSDSKSVAVERKKAFADAAKGGYLIAASHLSFPGIGHIRAEGKGYRFVPVNYSVVN 1p9h-a1-m2-cA_1p9h-a1-m3-cA CRYSTAL STRUCTURE OF THE COLLAGEN-BINDING DOMAIN OF YERSINIA ADHESIN YadA P31489 P31489 1.55 X-RAY DIFFRACTION 249 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 179 179 1p9h-a1-m1-cA_1p9h-a1-m2-cA 1p9h-a1-m1-cA_1p9h-a1-m3-cA PNLTAVQISPNADPALGLEYGLNASAKGIHSIAIGATAEAAKGAAVAVGAGSIATGVNSVAIGPLSKALGDSAVTYGAASTAQKDGVAIGARASTSDTGVAVGFNSKADAKNSVAIGHSSHVAANHGYSIAIGDRSKTDRENSVSIGHESLNRQLTHLAAGTKDTDAVNVAQLKKEIEK PNLTAVQISPNADPALGLEYGLNASAKGIHSIAIGATAEAAKGAAVAVGAGSIATGVNSVAIGPLSKALGDSAVTYGAASTAQKDGVAIGARASTSDTGVAVGFNSKADAKNSVAIGHSSHVAANHGYSIAIGDRSKTDRENSVSIGHESLNRQLTHLAAGTKDTDAVNVAQLKKEIEK 1p9i-a1-m1-cA_1p9i-a1-m2-cA Coiled-coil X-ray structure at 1.17 A resolution 1.17 X-RAY DIFFRACTION 40 1.0 29 29 QLNALLASLEAENKQLKAKVEELLAKVGE QLNALLASLEAENKQLKAKVEELLAKVGE 1p9p-a2-m1-cA_1p9p-a2-m2-cA The Crystal Structure of a M1G37 tRNA Methyltransferase, TrmD P0A873 P0A873 2.5 X-RAY DIFFRACTION 216 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 235 235 MWIGIISLFPEMFRAITDYGVTGRAVKNGLLSIQSWSPRDFTHDRHRTVDDRPYGGGPGMLMMVQPLRDAIHAAKAAAGEGAKVIYLSPQGRKLDQAGVSELATNQKLILVCGRYEGIDERVIQTEIDEEWSIGDYVLSGGELPAMTLIDSVSRFIPGVLGEGLLDCPHYTRPEVLEGMEVPPVLLSGNHAEIRRWRLKQSLGRTWLRRPELLENLALTEEQARLLAEFKTEHAQ MWIGIISLFPEMFRAITDYGVTGRAVKNGLLSIQSWSPRDFTHDRHRTVDDRPYGGGPGMLMMVQPLRDAIHAAKAAAGEGAKVIYLSPQGRKLDQAGVSELATNQKLILVCGRYEGIDERVIQTEIDEEWSIGDYVLSGGELPAMTLIDSVSRFIPGVLGEGLLDCPHYTRPEVLEGMEVPPVLLSGNHAEIRRWRLKQSLGRTWLRRPELLENLALTEEQARLLAEFKTEHAQ 1pa3-a2-m1-cA_1pa3-a2-m2-cA Crystal Structure of Glutathione-S-transferase from Plasmodium falciparum Q8ILQ7 Q8ILQ7 2.7 X-RAY DIFFRACTION 62 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 196 196 1okt-a1-m1-cA_1okt-a1-m2-cA 1okt-a1-m1-cB_1okt-a1-m2-cB 1pa3-a2-m1-cB_1pa3-a2-m2-cB 1q4j-a2-m1-cA_1q4j-a2-m2-cA 1q4j-a2-m1-cB_1q4j-a2-m2-cB 2aaw-a1-m1-cA_2aaw-a1-m1-cC 3fr3-a1-m1-cA_3fr3-a1-m2-cA 3fr3-a1-m1-cB_3fr3-a1-m2-cB 3fr6-a1-m1-cA_3fr6-a1-m2-cA 3fr6-a1-m1-cB_3fr6-a1-m2-cB 3fr9-a1-m1-cB_3fr9-a1-m1-cA 3frc-a1-m1-cA_3frc-a1-m1-cB 4zxg-a1-m1-cA_4zxg-a1-m2-cA 4zxg-a1-m1-cB_4zxg-a1-m2-cB IVLYYFDARGKAELIRLIFAYLGIEYTDKRFGVNGDAFVEFKNFKKEKDTPFEQVPILQIGDLILAQSQAIVRYLSKKYNICGESELNEFYADMIFCGVQDIHYKFNNTNLFKQNETTFLNEDLPKWSGYFEKLLKKNHKYYFVGNNLTYADLAVFNLYDDIETKYPSSLKNFPLLKAHNEFISNLPNIKNYITNR IVLYYFDARGKAELIRLIFAYLGIEYTDKRFGVNGDAFVEFKNFKKEKDTPFEQVPILQIGDLILAQSQAIVRYLSKKYNICGESELNEFYADMIFCGVQDIHYKFNNTNLFKQNETTFLNEDLPKWSGYFEKLLKKNHKYYFVGNNLTYADLAVFNLYDDIETKYPSSLKNFPLLKAHNEFISNLPNIKNYITNR 1pa3-a2-m2-cA_1pa3-a2-m2-cB Crystal Structure of Glutathione-S-transferase from Plasmodium falciparum Q8ILQ7 Q8ILQ7 2.7 X-RAY DIFFRACTION 41 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 196 196 1okt-a1-m1-cA_1okt-a1-m1-cB 1okt-a1-m2-cA_1okt-a1-m2-cB 1pa3-a1-m1-cA_1pa3-a1-m1-cB 1pa3-a2-m1-cA_1pa3-a2-m1-cB 1q4j-a1-m1-cA_1q4j-a1-m1-cB 1q4j-a2-m1-cA_1q4j-a2-m1-cB 1q4j-a2-m2-cA_1q4j-a2-m2-cB 3fr3-a1-m1-cB_3fr3-a1-m1-cA 3fr3-a1-m2-cB_3fr3-a1-m2-cA 3fr6-a1-m1-cB_3fr6-a1-m1-cA 3fr6-a1-m2-cB_3fr6-a1-m2-cA IVLYYFDARGKAELIRLIFAYLGIEYTDKRFGVNGDAFVEFKNFKKEKDTPFEQVPILQIGDLILAQSQAIVRYLSKKYNICGESELNEFYADMIFCGVQDIHYKFNNTNLFKQNETTFLNEDLPKWSGYFEKLLKKNHKYYFVGNNLTYADLAVFNLYDDIETKYPSSLKNFPLLKAHNEFISNLPNIKNYITNR IVLYYFDARGKAELIRLIFAYLGIEYTDKRFGVNGDAFVEFKNFKKEKDTPFEQVPILQIGDLILAQSQAIVRYLSKKYNICGESELNEFYADMIFCGVQDIHYKFNNTNLFKQNETTFLNEDLPKWSGYFEKLLKKNHKYYFVGNNLTYADLAVFNLYDDIETKYPSSLKNFPLLKAHNEFISNLPNIKNYITNR 1pb3-a1-m1-cA_1pb3-a1-m2-cA Sites of binding and orientation in a four location model for protein stereospecificity. P08200 P08200 1.7 X-RAY DIFFRACTION 243 1.0 562 (Escherichia coli) 562 (Escherichia coli) 416 416 1ai2-a1-m1-cA_1ai2-a1-m2-cA 1ai3-a1-m1-cA_1ai3-a1-m2-cA 1bl5-a1-m1-cA_1bl5-a1-m2-cA 1cw1-a1-m1-cA_1cw1-a1-m2-cA 1cw4-a1-m1-cA_1cw4-a1-m2-cA 1cw7-a1-m1-cA_1cw7-a1-m2-cA 1gro-a1-m1-cA_1gro-a1-m2-cA 1grp-a1-m1-cA_1grp-a1-m2-cA 1hj6-a1-m1-cA_1hj6-a1-m2-cA 1idc-a1-m1-cA_1idc-a1-m2-cA 1idd-a1-m1-cA_1idd-a1-m2-cA 1ide-a1-m1-cA_1ide-a1-m2-cA 1idf-a1-m1-cA_1idf-a1-m2-cA 1ika-a1-m1-cA_1ika-a1-m2-cA 1iso-a1-m1-cA_1iso-a1-m2-cA 1p8f-a1-m1-cA_1p8f-a1-m2-cA 1pb1-a1-m1-cA_1pb1-a1-m2-cA 1sjs-a1-m1-cA_1sjs-a1-m2-cA 3icd-a1-m1-cA_3icd-a1-m2-cA 3lcb-a3-m1-cC_3lcb-a3-m1-cD 3lcb-a3-m2-cC_3lcb-a3-m2-cD 3lcb-a3-m3-cC_3lcb-a3-m3-cD 4aj3-a1-m1-cA_4aj3-a1-m2-cA 4aja-a1-m1-cA_4aja-a1-m2-cA 4ajb-a1-m1-cA_4ajb-a1-m2-cA 4ajc-a1-m1-cA_4ajc-a1-m2-cA 4ajr-a1-m1-cA_4ajr-a1-m2-cA 4ajs-a1-m1-cA_4ajs-a1-m2-cA 4bnp-a1-m1-cA_4bnp-a1-m2-cA 4icd-a1-m1-cA_4icd-a1-m2-cA 4p69-a1-m1-cC_4p69-a1-m1-cD 5icd-a1-m1-cA_5icd-a1-m2-cA 6icd-a1-m1-cA_6icd-a1-m2-cA 7icd-a1-m1-cA_7icd-a1-m2-cA 8icd-a1-m1-cA_8icd-a1-m2-cA 9icd-a1-m1-cA_9icd-a1-m2-cA MESKVVVPAQGKKITLQNGKLNVPENPIIPYIEGDGIGVDVTPAMLKVVDAAVEKAYKGERKISWMEIYTGEKSTQVYGQDVWLPAETLDLIREYRVAIKGPLTTPVGGGIRSLNVALRQELDLYICLRPVRYYQGTPSPVKHPELTDMVIFRENSEDIYAGIEWKADSADAEKVIKFLREEMGVKKIRFPEHCGIGIKPCSEEGTKRLVRAAIEYAIANDRDSVTLVHKGNIMKFTEGAFKDWGYQLAREEFGGELIDGGPWLKVKNPNTGKEIVIKDVIADAFLQQILLRPAEYDVIACMNLNGDYISDALAAQVGGIGIAPGANIGDECALFEATHGTAPKYAGQDKVNPGSIILSAEMMLRHMGWTEAADLIVKGMEGAINAKTVTYDFERLMDGAKLLKCSEFGDAIIENM MESKVVVPAQGKKITLQNGKLNVPENPIIPYIEGDGIGVDVTPAMLKVVDAAVEKAYKGERKISWMEIYTGEKSTQVYGQDVWLPAETLDLIREYRVAIKGPLTTPVGGGIRSLNVALRQELDLYICLRPVRYYQGTPSPVKHPELTDMVIFRENSEDIYAGIEWKADSADAEKVIKFLREEMGVKKIRFPEHCGIGIKPCSEEGTKRLVRAAIEYAIANDRDSVTLVHKGNIMKFTEGAFKDWGYQLAREEFGGELIDGGPWLKVKNPNTGKEIVIKDVIADAFLQQILLRPAEYDVIACMNLNGDYISDALAAQVGGIGIAPGANIGDECALFEATHGTAPKYAGQDKVNPGSIILSAEMMLRHMGWTEAADLIVKGMEGAINAKTVTYDFERLMDGAKLLKCSEFGDAIIENM 1pbi-a1-m1-cA_1pbi-a1-m2-cA CRYSTAL STRUCTURE OF A BOWMAN-BIRK INHIBITOR FROM PEA SEEDS P56679 P56679 2.7 X-RAY DIFFRACTION 46 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 68 68 KSACCDTCLCTKSNPPTCRCVDVGETCHSACLSCICAYSNPPKCQCFDTQKFCYKQCHNSELEEVIKN KSACCDTCLCTKSNPPTCRCVDVGETCHSACLSCICAYSNPPKCQCFDTQKFCYKQCHNSELEEVIKN 1pbi-a1-m2-cA_1pbi-a1-m2-cB CRYSTAL STRUCTURE OF A BOWMAN-BIRK INHIBITOR FROM PEA SEEDS P56679 P56679 2.7 X-RAY DIFFRACTION 82 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 68 68 1pbi-a1-m1-cA_1pbi-a1-m1-cB KSACCDTCLCTKSNPPTCRCVDVGETCHSACLSCICAYSNPPKCQCFDTQKFCYKQCHNSELEEVIKN KSACCDTCLCTKSNPPTCRCVDVGETCHSACLSCICAYSNPPKCQCFDTQKFCYKQCHNSELEEVIKN 1pbj-a2-m1-cA_1pbj-a2-m2-cA CBS domain protein O27659 O27659 1.4 X-RAY DIFFRACTION 57 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 116 116 RVEDVVTDVDTIDITASLEDVLRNYVENAKGSSVVVKEGVRVGIVTTWDVLEAIAEGDDLAEVKVWEVERDLVTISPRATIKEAAEKVKNVVWRLLVEEDDEIIGVISATDILRAK RVEDVVTDVDTIDITASLEDVLRNYVENAKGSSVVVKEGVRVGIVTTWDVLEAIAEGDDLAEVKVWEVERDLVTISPRATIKEAAEKVKNVVWRLLVEEDDEIIGVISATDILRAK 1pc6-a1-m1-cB_1pc6-a1-m1-cA Structural Genomics, NinB P03765 P03765 2.51 X-RAY DIFFRACTION 206 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 133 141 MKKLTFEIRSPAHQQNAIHAVQQILPDPTKPIVVTIQERNRSLDQNRKLWACLGDVSRQVEWHGRWLDAESWKCVFTAALKQQDVVPNLAGNGFVVIGQSTSRMRVGEFAELLELIQAFGTERGVKWSDEARL MKKLTFEIRSPAHQQNAIHAVQQILPDPTKPIVVTIQERNRSLDQNRKLWACLGDVSRQVEWHGRWLDAESWKCVFTAALKQQDVVPNLAGNGFVVIGQSTSRMRVGEFAELLELIQAFGTERGVKWSDEARLALEWKARW 1pcq-a1-m1-cA_1pcq-a1-m1-cH Crystal structure of groEL-groES P0A6F5 P0A6F5 2.808 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 524 524 1aon-a1-m1-cA_1aon-a1-m1-cH 1aon-a1-m1-cB_1aon-a1-m1-cI 1aon-a1-m1-cC_1aon-a1-m1-cJ 1aon-a1-m1-cD_1aon-a1-m1-cK 1aon-a1-m1-cE_1aon-a1-m1-cL 1aon-a1-m1-cF_1aon-a1-m1-cM 1aon-a1-m1-cG_1aon-a1-m1-cN 1gru-a1-m1-cA_1gru-a1-m1-cH 1gru-a1-m1-cB_1gru-a1-m1-cI 1gru-a1-m1-cC_1gru-a1-m1-cJ 1gru-a1-m1-cD_1gru-a1-m1-cK 1gru-a1-m1-cE_1gru-a1-m1-cL 1gru-a1-m1-cF_1gru-a1-m1-cM 1gru-a1-m1-cG_1gru-a1-m1-cN 1pcq-a1-m1-cB_1pcq-a1-m1-cI 1pcq-a1-m1-cC_1pcq-a1-m1-cJ 1pcq-a1-m1-cD_1pcq-a1-m1-cK 1pcq-a1-m1-cE_1pcq-a1-m1-cL 1pcq-a1-m1-cF_1pcq-a1-m1-cM 1pcq-a1-m1-cG_1pcq-a1-m1-cN 1pf9-a1-m1-cA_1pf9-a1-m1-cH 1pf9-a1-m1-cB_1pf9-a1-m1-cI 1pf9-a1-m1-cC_1pf9-a1-m1-cJ 1pf9-a1-m1-cD_1pf9-a1-m1-cK 1pf9-a1-m1-cE_1pf9-a1-m1-cL 1pf9-a1-m1-cF_1pf9-a1-m1-cM 1pf9-a1-m1-cG_1pf9-a1-m1-cN 1svt-a1-m1-cA_1svt-a1-m1-cH 1svt-a1-m1-cB_1svt-a1-m1-cI 1svt-a1-m1-cC_1svt-a1-m1-cJ 1svt-a1-m1-cD_1svt-a1-m1-cK 1svt-a1-m1-cE_1svt-a1-m1-cL 1svt-a1-m1-cF_1svt-a1-m1-cM 1svt-a1-m1-cG_1svt-a1-m1-cN 1sx4-a1-m1-cA_1sx4-a1-m1-cH 1sx4-a1-m1-cB_1sx4-a1-m1-cI 1sx4-a1-m1-cC_1sx4-a1-m1-cJ 1sx4-a1-m1-cD_1sx4-a1-m1-cK 1sx4-a1-m1-cE_1sx4-a1-m1-cL 1sx4-a1-m1-cF_1sx4-a1-m1-cM 1sx4-a1-m1-cG_1sx4-a1-m1-cN 2c7c-a1-m1-cH_2c7c-a1-m1-cB 2c7c-a1-m1-cI_2c7c-a1-m1-cC 2c7c-a1-m1-cJ_2c7c-a1-m1-cD 2c7c-a1-m1-cK_2c7c-a1-m1-cE 2c7c-a1-m1-cL_2c7c-a1-m1-cF 2c7c-a1-m1-cM_2c7c-a1-m1-cG 2c7c-a1-m1-cN_2c7c-a1-m1-cA 2c7d-a1-m1-cH_2c7d-a1-m1-cB 2c7d-a1-m1-cJ_2c7d-a1-m1-cD 2c7d-a1-m1-cK_2c7d-a1-m1-cE 2c7d-a1-m1-cL_2c7d-a1-m1-cF 2c7d-a1-m1-cM_2c7d-a1-m1-cG 2cgt-a1-m1-cH_2cgt-a1-m1-cB 2cgt-a1-m1-cI_2cgt-a1-m1-cC 2cgt-a1-m1-cJ_2cgt-a1-m1-cD 2cgt-a1-m1-cK_2cgt-a1-m1-cE 2cgt-a1-m1-cL_2cgt-a1-m1-cF 2cgt-a1-m1-cM_2cgt-a1-m1-cG 2cgt-a1-m1-cN_2cgt-a1-m1-cA 3zq0-a1-m1-cC_3zq0-a1-m1-cJ 3zq0-a1-m1-cF_3zq0-a1-m1-cM 3zq0-a1-m1-cG_3zq0-a1-m1-cN 3zq1-a1-m1-cA_3zq1-a1-m1-cH 3zq1-a1-m1-cB_3zq1-a1-m1-cI 3zq1-a1-m1-cC_3zq1-a1-m1-cJ 3zq1-a1-m1-cD_3zq1-a1-m1-cK 3zq1-a1-m1-cF_3zq1-a1-m1-cM 7pbj-a1-m1-cAd_7pbj-a1-m1-cAs 7pbj-a1-m1-cAe_7pbj-a1-m1-cAk 7pbj-a1-m1-cAl_7pbj-a1-m1-cAy 7pbj-a1-m1-cAr_7pbj-a1-m1-cBn 7pbj-a1-m1-cAz_7pbj-a1-m1-cBt 7pbj-a1-m1-cBf_7pbj-a1-m1-cBu 7pbj-a1-m1-cBg_7pbj-a1-m1-cBm AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 1pcq-a1-m1-cB_1pcq-a1-m1-cH Crystal structure of groEL-groES P0A6F5 P0A6F5 2.808 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 524 524 1aon-a1-m1-cA_1aon-a1-m1-cN 1aon-a1-m1-cB_1aon-a1-m1-cH 1aon-a1-m1-cC_1aon-a1-m1-cI 1aon-a1-m1-cD_1aon-a1-m1-cJ 1aon-a1-m1-cE_1aon-a1-m1-cK 1aon-a1-m1-cF_1aon-a1-m1-cL 1aon-a1-m1-cG_1aon-a1-m1-cM 1gru-a1-m1-cA_1gru-a1-m1-cN 1gru-a1-m1-cB_1gru-a1-m1-cH 1pcq-a1-m1-cA_1pcq-a1-m1-cN 1pcq-a1-m1-cC_1pcq-a1-m1-cI 1pcq-a1-m1-cD_1pcq-a1-m1-cJ 1pcq-a1-m1-cE_1pcq-a1-m1-cK 1pcq-a1-m1-cF_1pcq-a1-m1-cL 1pcq-a1-m1-cG_1pcq-a1-m1-cM 1pf9-a1-m1-cA_1pf9-a1-m1-cN 1pf9-a1-m1-cB_1pf9-a1-m1-cH 1pf9-a1-m1-cC_1pf9-a1-m1-cI 1pf9-a1-m1-cD_1pf9-a1-m1-cJ 1pf9-a1-m1-cE_1pf9-a1-m1-cK 1pf9-a1-m1-cF_1pf9-a1-m1-cL 1pf9-a1-m1-cG_1pf9-a1-m1-cM 1svt-a1-m1-cA_1svt-a1-m1-cN 1svt-a1-m1-cB_1svt-a1-m1-cH 1svt-a1-m1-cC_1svt-a1-m1-cI 1svt-a1-m1-cD_1svt-a1-m1-cJ 1svt-a1-m1-cE_1svt-a1-m1-cK 1svt-a1-m1-cF_1svt-a1-m1-cL 1svt-a1-m1-cG_1svt-a1-m1-cM 1sx4-a1-m1-cA_1sx4-a1-m1-cN 1sx4-a1-m1-cB_1sx4-a1-m1-cH 1sx4-a1-m1-cC_1sx4-a1-m1-cI 1sx4-a1-m1-cD_1sx4-a1-m1-cJ 1sx4-a1-m1-cE_1sx4-a1-m1-cK 1sx4-a1-m1-cF_1sx4-a1-m1-cL 1sx4-a1-m1-cG_1sx4-a1-m1-cM 2c7c-a1-m1-cH_2c7c-a1-m1-cA 2c7c-a1-m1-cI_2c7c-a1-m1-cB 2c7c-a1-m1-cJ_2c7c-a1-m1-cC 2c7c-a1-m1-cK_2c7c-a1-m1-cD 2c7c-a1-m1-cL_2c7c-a1-m1-cE 2c7c-a1-m1-cM_2c7c-a1-m1-cF 2c7c-a1-m1-cN_2c7c-a1-m1-cG 2c7d-a1-m1-cH_2c7d-a1-m1-cA 2c7d-a1-m1-cI_2c7d-a1-m1-cB 2c7d-a1-m1-cJ_2c7d-a1-m1-cC 2c7d-a1-m1-cK_2c7d-a1-m1-cD 2c7d-a1-m1-cL_2c7d-a1-m1-cE 2c7d-a1-m1-cM_2c7d-a1-m1-cF 2c7d-a1-m1-cN_2c7d-a1-m1-cG 2cgt-a1-m1-cH_2cgt-a1-m1-cA 2cgt-a1-m1-cI_2cgt-a1-m1-cB 2cgt-a1-m1-cJ_2cgt-a1-m1-cC 2cgt-a1-m1-cK_2cgt-a1-m1-cD 2cgt-a1-m1-cL_2cgt-a1-m1-cE 2cgt-a1-m1-cM_2cgt-a1-m1-cF 2cgt-a1-m1-cN_2cgt-a1-m1-cG 3zpz-a1-m1-cA_3zpz-a1-m1-cN 3zpz-a1-m1-cB_3zpz-a1-m1-cH 3zpz-a1-m1-cD_3zpz-a1-m1-cJ 3zpz-a1-m1-cE_3zpz-a1-m1-cK 3zpz-a1-m1-cF_3zpz-a1-m1-cL 3zpz-a1-m1-cG_3zpz-a1-m1-cM 3zq0-a1-m1-cA_3zq0-a1-m1-cN 3zq0-a1-m1-cB_3zq0-a1-m1-cH 3zq0-a1-m1-cC_3zq0-a1-m1-cI 3zq0-a1-m1-cD_3zq0-a1-m1-cJ 3zq0-a1-m1-cE_3zq0-a1-m1-cK 3zq0-a1-m1-cF_3zq0-a1-m1-cL 3zq0-a1-m1-cG_3zq0-a1-m1-cM 3zq1-a1-m1-cB_3zq1-a1-m1-cH 3zq1-a1-m1-cG_3zq1-a1-m1-cM 7pbj-a1-m1-cAd_7pbj-a1-m1-cAe 7pbj-a1-m1-cAk_7pbj-a1-m1-cAl 7pbj-a1-m1-cAr_7pbj-a1-m1-cAs 7pbj-a1-m1-cAy_7pbj-a1-m1-cAz 7pbj-a1-m1-cBf_7pbj-a1-m1-cBg 7pbj-a1-m1-cBm_7pbj-a1-m1-cBn 7pbj-a1-m1-cBt_7pbj-a1-m1-cBu 7pbx-a1-m1-cAc_7pbx-a1-m1-cAd 7pbx-a1-m1-cAi_7pbx-a1-m1-cAj 7pbx-a1-m1-cAo_7pbx-a1-m1-cAp 7pbx-a1-m1-cAu_7pbx-a1-m1-cAv 7pbx-a1-m1-cBa_7pbx-a1-m1-cBb 7pbx-a1-m1-cBg_7pbx-a1-m1-cBh 7pbx-a1-m1-cBm_7pbx-a1-m1-cBn AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 1pcq-a1-m1-cC_1pcq-a1-m1-cD Crystal structure of groEL-groES P0A6F5 P0A6F5 2.808 X-RAY DIFFRACTION 119 1.0 562 (Escherichia coli) 562 (Escherichia coli) 524 524 1aon-a1-m1-cA_1aon-a1-m1-cB 1aon-a1-m1-cA_1aon-a1-m1-cG 1aon-a1-m1-cB_1aon-a1-m1-cC 1aon-a1-m1-cC_1aon-a1-m1-cD 1aon-a1-m1-cD_1aon-a1-m1-cE 1aon-a1-m1-cE_1aon-a1-m1-cF 1aon-a1-m1-cF_1aon-a1-m1-cG 1gru-a1-m1-cA_1gru-a1-m1-cB 1gru-a1-m1-cA_1gru-a1-m1-cG 1gru-a1-m1-cB_1gru-a1-m1-cC 1gru-a1-m1-cC_1gru-a1-m1-cD 1gru-a1-m1-cD_1gru-a1-m1-cE 1gru-a1-m1-cE_1gru-a1-m1-cF 1gru-a1-m1-cF_1gru-a1-m1-cG 1pcq-a1-m1-cA_1pcq-a1-m1-cB 1pcq-a1-m1-cA_1pcq-a1-m1-cG 1pcq-a1-m1-cB_1pcq-a1-m1-cC 1pcq-a1-m1-cD_1pcq-a1-m1-cE 1pcq-a1-m1-cE_1pcq-a1-m1-cF 1pcq-a1-m1-cF_1pcq-a1-m1-cG 1pf9-a1-m1-cA_1pf9-a1-m1-cB 1pf9-a1-m1-cA_1pf9-a1-m1-cG 1pf9-a1-m1-cB_1pf9-a1-m1-cC 1pf9-a1-m1-cC_1pf9-a1-m1-cD 1pf9-a1-m1-cD_1pf9-a1-m1-cE 1pf9-a1-m1-cE_1pf9-a1-m1-cF 1pf9-a1-m1-cF_1pf9-a1-m1-cG 1svt-a1-m1-cA_1svt-a1-m1-cB 1svt-a1-m1-cA_1svt-a1-m1-cG 1svt-a1-m1-cB_1svt-a1-m1-cC 1svt-a1-m1-cC_1svt-a1-m1-cD 1svt-a1-m1-cD_1svt-a1-m1-cE 1svt-a1-m1-cE_1svt-a1-m1-cF 1svt-a1-m1-cF_1svt-a1-m1-cG 1sx4-a1-m1-cA_1sx4-a1-m1-cB 1sx4-a1-m1-cA_1sx4-a1-m1-cG 1sx4-a1-m1-cB_1sx4-a1-m1-cC 1sx4-a1-m1-cC_1sx4-a1-m1-cD 1sx4-a1-m1-cD_1sx4-a1-m1-cE 1sx4-a1-m1-cE_1sx4-a1-m1-cF 1sx4-a1-m1-cF_1sx4-a1-m1-cG 2c7c-a1-m1-cA_2c7c-a1-m1-cB 2c7c-a1-m1-cA_2c7c-a1-m1-cG 2c7c-a1-m1-cB_2c7c-a1-m1-cC 2c7c-a1-m1-cC_2c7c-a1-m1-cD 2c7c-a1-m1-cD_2c7c-a1-m1-cE 2c7c-a1-m1-cE_2c7c-a1-m1-cF 2c7c-a1-m1-cF_2c7c-a1-m1-cG 2c7d-a1-m1-cA_2c7d-a1-m1-cB 2c7d-a1-m1-cA_2c7d-a1-m1-cG 2c7d-a1-m1-cB_2c7d-a1-m1-cC 2c7d-a1-m1-cC_2c7d-a1-m1-cD 2c7d-a1-m1-cD_2c7d-a1-m1-cE 2c7d-a1-m1-cE_2c7d-a1-m1-cF 2c7d-a1-m1-cF_2c7d-a1-m1-cG 2cgt-a1-m1-cA_2cgt-a1-m1-cB 2cgt-a1-m1-cA_2cgt-a1-m1-cG 2cgt-a1-m1-cB_2cgt-a1-m1-cC 2cgt-a1-m1-cC_2cgt-a1-m1-cD 2cgt-a1-m1-cD_2cgt-a1-m1-cE 2cgt-a1-m1-cE_2cgt-a1-m1-cF 2cgt-a1-m1-cF_2cgt-a1-m1-cG 3wvl-a1-m1-cA_3wvl-a1-m1-cB 3wvl-a1-m1-cA_3wvl-a1-m1-cG 3wvl-a1-m1-cB_3wvl-a1-m1-cC 3wvl-a1-m1-cC_3wvl-a1-m1-cD 3wvl-a1-m1-cD_3wvl-a1-m1-cE 3wvl-a1-m1-cE_3wvl-a1-m1-cF 3wvl-a1-m1-cF_3wvl-a1-m1-cG 3wvl-a2-m1-cH_3wvl-a2-m1-cI 3wvl-a2-m1-cH_3wvl-a2-m1-cN 3wvl-a2-m1-cI_3wvl-a2-m1-cJ 3wvl-a2-m1-cJ_3wvl-a2-m1-cK 3wvl-a2-m1-cK_3wvl-a2-m1-cL 3wvl-a2-m1-cL_3wvl-a2-m1-cM 3wvl-a2-m1-cM_3wvl-a2-m1-cN 3zpz-a1-m1-cA_3zpz-a1-m1-cB 3zpz-a1-m1-cA_3zpz-a1-m1-cG 3zpz-a1-m1-cB_3zpz-a1-m1-cC 3zpz-a1-m1-cC_3zpz-a1-m1-cD 3zpz-a1-m1-cD_3zpz-a1-m1-cE 3zpz-a1-m1-cE_3zpz-a1-m1-cF 3zpz-a1-m1-cF_3zpz-a1-m1-cG 3zq0-a1-m1-cA_3zq0-a1-m1-cB 3zq0-a1-m1-cA_3zq0-a1-m1-cG 3zq0-a1-m1-cB_3zq0-a1-m1-cC 3zq0-a1-m1-cC_3zq0-a1-m1-cD 3zq0-a1-m1-cD_3zq0-a1-m1-cE 3zq0-a1-m1-cE_3zq0-a1-m1-cF 3zq0-a1-m1-cF_3zq0-a1-m1-cG 3zq1-a1-m1-cA_3zq1-a1-m1-cB 3zq1-a1-m1-cA_3zq1-a1-m1-cG 3zq1-a1-m1-cB_3zq1-a1-m1-cC 3zq1-a1-m1-cC_3zq1-a1-m1-cD 3zq1-a1-m1-cD_3zq1-a1-m1-cE 3zq1-a1-m1-cE_3zq1-a1-m1-cF 3zq1-a1-m1-cF_3zq1-a1-m1-cG 4pkn-a1-m1-cA_4pkn-a1-m1-cB 4pkn-a1-m1-cA_4pkn-a1-m1-cG 4pkn-a1-m1-cB_4pkn-a1-m1-cC 4pkn-a1-m1-cC_4pkn-a1-m1-cD 4pkn-a1-m1-cD_4pkn-a1-m1-cE 4pkn-a1-m1-cE_4pkn-a1-m1-cF 4pkn-a1-m1-cF_4pkn-a1-m1-cG 4pkn-a1-m1-cH_4pkn-a1-m1-cI 4pkn-a1-m1-cH_4pkn-a1-m1-cN 4pkn-a1-m1-cI_4pkn-a1-m1-cJ 4pkn-a1-m1-cJ_4pkn-a1-m1-cK 4pkn-a1-m1-cK_4pkn-a1-m1-cL 4pkn-a1-m1-cL_4pkn-a1-m1-cM 4pkn-a1-m1-cM_4pkn-a1-m1-cN 4pko-a1-m1-cA_4pko-a1-m1-cB 4pko-a1-m1-cA_4pko-a1-m1-cG 4pko-a1-m1-cB_4pko-a1-m1-cC 4pko-a1-m1-cC_4pko-a1-m1-cD 4pko-a1-m1-cD_4pko-a1-m1-cE 4pko-a1-m1-cE_4pko-a1-m1-cF 4pko-a1-m1-cF_4pko-a1-m1-cG 4pko-a1-m1-cH_4pko-a1-m1-cI 4pko-a1-m1-cH_4pko-a1-m1-cN 4pko-a1-m1-cI_4pko-a1-m1-cJ 4pko-a1-m1-cJ_4pko-a1-m1-cK 4pko-a1-m1-cK_4pko-a1-m1-cL 4pko-a1-m1-cL_4pko-a1-m1-cM 4pko-a1-m1-cM_4pko-a1-m1-cN 5opx-a1-m1-cA_5opx-a1-m1-cB 5opx-a1-m1-cA_5opx-a1-m1-cG 5opx-a1-m1-cB_5opx-a1-m1-cC 5opx-a1-m1-cC_5opx-a1-m1-cD 5opx-a1-m1-cD_5opx-a1-m1-cE 5opx-a1-m1-cE_5opx-a1-m1-cF 5opx-a1-m1-cF_5opx-a1-m1-cG 5opx-a1-m1-cH_5opx-a1-m1-cI 5opx-a1-m1-cH_5opx-a1-m1-cN 5opx-a1-m1-cI_5opx-a1-m1-cJ 5opx-a1-m1-cJ_5opx-a1-m1-cK 5opx-a1-m1-cK_5opx-a1-m1-cL 5opx-a1-m1-cL_5opx-a1-m1-cM 5opx-a1-m1-cM_5opx-a1-m1-cN 7pbj-a1-m1-cAe_7pbj-a1-m1-cAl 7pbj-a1-m1-cAe_7pbj-a1-m1-cAs 7pbj-a1-m1-cAl_7pbj-a1-m1-cAz 7pbj-a1-m1-cAs_7pbj-a1-m1-cBn 7pbj-a1-m1-cAz_7pbj-a1-m1-cBu 7pbj-a1-m1-cBg_7pbj-a1-m1-cBn 7pbj-a1-m1-cBg_7pbj-a1-m1-cBu 7pbx-a1-m1-cAd_7pbx-a1-m1-cAj 7pbx-a1-m1-cAd_7pbx-a1-m1-cAp 7pbx-a1-m1-cAj_7pbx-a1-m1-cAv 7pbx-a1-m1-cAp_7pbx-a1-m1-cBb 7pbx-a1-m1-cAv_7pbx-a1-m1-cBh 7pbx-a1-m1-cBb_7pbx-a1-m1-cBn 7pbx-a1-m1-cBh_7pbx-a1-m1-cBn 7vwx-a1-m1-cA_7vwx-a1-m1-cB 7vwx-a1-m1-cA_7vwx-a1-m1-cG 7vwx-a1-m1-cB_7vwx-a1-m1-cC 7vwx-a1-m1-cC_7vwx-a1-m1-cD 7vwx-a1-m1-cD_7vwx-a1-m1-cE 7vwx-a1-m1-cE_7vwx-a1-m1-cF 7vwx-a1-m1-cF_7vwx-a1-m1-cG 7vwx-a1-m1-cH_7vwx-a1-m1-cI 7vwx-a1-m1-cH_7vwx-a1-m1-cN 7vwx-a1-m1-cI_7vwx-a1-m1-cJ 7vwx-a1-m1-cJ_7vwx-a1-m1-cK 7vwx-a1-m1-cK_7vwx-a1-m1-cL 7vwx-a1-m1-cL_7vwx-a1-m1-cM 7vwx-a1-m1-cM_7vwx-a1-m1-cN AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 1pcs-a1-m1-cA_1pcs-a1-m2-cA THE 2.15 A CRYSTAL STRUCTURE OF A TRIPLE MUTANT PLASTOCYANIN FROM THE CYANOBACTERIUM SYNECHOCYSTIS SP. PCC 6803 P21697 P21697 2.15 X-RAY DIFFRACTION 19 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 98 98 ANATVKMGSDSGALVFEPSTVTIKAGEEVKWVNNKLSPHNIVFDADGVPADTAAKLSHKGLLFAAGESFTSTFTEPGTYTYYCEPHRGAGMVGKVVVE ANATVKMGSDSGALVFEPSTVTIKAGEEVKWVNNKLSPHNIVFDADGVPADTAAKLSHKGLLFAAGESFTSTFTEPGTYTYYCEPHRGAGMVGKVVVE 1pcz-a1-m1-cA_1pcz-a1-m1-cB STRUCTURE OF TATA-BINDING PROTEIN P62001 P62001 2.2 X-RAY DIFFRACTION 120 1.0 2262 (Pyrococcus woesei) 2262 (Pyrococcus woesei) 183 183 VDMSKVKLRIENIVASVDLFAQLDLEKVLDLCPNSKYNPEEFPGIICHLDDPKVALLIFSSGKLVVTGAKSVQDIERAVAKLAQKLKSIGVKFKRAPQIDVQNMVFSGDIGREFNLDVVALTLPNCEYEPEQFPGVIYRVKEPKSVILLFSSGKIVCSGAKSEADAWEAVRKLLRELDKYGLL VDMSKVKLRIENIVASVDLFAQLDLEKVLDLCPNSKYNPEEFPGIICHLDDPKVALLIFSSGKLVVTGAKSVQDIERAVAKLAQKLKSIGVKFKRAPQIDVQNMVFSGDIGREFNLDVVALTLPNCEYEPEQFPGVIYRVKEPKSVILLFSSGKIVCSGAKSEADAWEAVRKLLRELDKYGLL 1pd3-a3-m1-cA_1pd3-a3-m1-cB Influenza A NEP M1-binding domain P03508 P03508 2.6 X-RAY DIFFRACTION 55 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 54 54 GKWREQLGQKFEEIRWLIEEVRHRLKITENSFEQITFMQALQLLLEVEQEIRTF GKWREQLGQKFEEIRWLIEEVRHRLKITENSFEQITFMQALQLLLEVEQEIRTF 1pd3-a4-m1-cA_1pd3-a4-m2-cB Influenza A NEP M1-binding domain P03508 P03508 2.6 X-RAY DIFFRACTION 47 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 54 54 GKWREQLGQKFEEIRWLIEEVRHRLKITENSFEQITFMQALQLLLEVEQEIRTF GKWREQLGQKFEEIRWLIEEVRHRLKITENSFEQITFMQALQLLLEVEQEIRTF 1pdg-a2-m1-cC_1pdg-a2-m2-cC CRYSTAL STRUCTURE OF HUMAN PLATELET-DERIVED GROWTH FACTOR BB P01127 P01127 3 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 IAEPAMIAECKTRTEVFEISFLVWPPCVEVQRCSGCCNNRNVQCRPTQVQLRPVQVRKIEIVRKKPIFKKATVTLEDHLACKCETV IAEPAMIAECKTRTEVFEISFLVWPPCVEVQRCSGCCNNRNVQCRPTQVQLRPVQVRKIEIVRKKPIFKKATVTLEDHLACKCETV 1pdo-a1-m1-cA_1pdo-a1-m2-cA PHOSPHOENOLPYRUVATE-DEPENDENT PHOSPHOTRANSFERASE SYSTEM P69797 P69797 1.7 X-RAY DIFFRACTION 143 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 129 1vrc-a1-m1-cA_1vrc-a1-m1-cB 1vsq-a1-m1-cA_1vsq-a1-m1-cB 2jzn-a1-m1-cA_2jzn-a1-m1-cB 2jzo-a1-m1-cA_2jzo-a1-m1-cB TIAIVIGTHGWAAEQLLKTAEMLLGEQENVGWIDFVPGENAETLIEKYNAQLAKLDTTKGVLFLVDTWGGSPFNAASRIVVDKEHYEVIAGVNIPMLVETLMARDDDPSFDELVALAVETGREGVKALK TIAIVIGTHGWAAEQLLKTAEMLLGEQENVGWIDFVPGENAETLIEKYNAQLAKLDTTKGVLFLVDTWGGSPFNAASRIVVDKEHYEVIAGVNIPMLVETLMARDDDPSFDELVALAVETGREGVKALK 1pdr-a1-m2-cA_1pdr-a1-m6-cA CRYSTAL STRUCTURE OF THE THIRD PDZ DOMAIN FROM THE HUMAN HOMOLOG OF DISCS LARGE PROTEIN Q12959 Q12959 2.8 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 1pdr-a1-m1-cA_1pdr-a1-m5-cA 1pdr-a1-m3-cA_1pdr-a1-m4-cA ITREPRKVVLHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDRIISVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRQHA ITREPRKVVLHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDRIISVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRQHA 1pdr-a1-m3-cA_1pdr-a1-m6-cA CRYSTAL STRUCTURE OF THE THIRD PDZ DOMAIN FROM THE HUMAN HOMOLOG OF DISCS LARGE PROTEIN Q12959 Q12959 2.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 1pdr-a1-m1-cA_1pdr-a1-m4-cA 1pdr-a1-m2-cA_1pdr-a1-m5-cA ITREPRKVVLHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDRIISVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRQHA ITREPRKVVLHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDRIISVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRQHA 1pdr-a1-m5-cA_1pdr-a1-m6-cA CRYSTAL STRUCTURE OF THE THIRD PDZ DOMAIN FROM THE HUMAN HOMOLOG OF DISCS LARGE PROTEIN Q12959 Q12959 2.8 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 1pdr-a1-m1-cA_1pdr-a1-m2-cA 1pdr-a1-m1-cA_1pdr-a1-m3-cA 1pdr-a1-m2-cA_1pdr-a1-m3-cA 1pdr-a1-m4-cA_1pdr-a1-m5-cA 1pdr-a1-m4-cA_1pdr-a1-m6-cA ITREPRKVVLHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDRIISVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRQHA ITREPRKVVLHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDRIISVNSVDLRAASHEQAAAALKNAGQAVTIVAQYRPEEYSRQHA 1pdz-a1-m1-cA_1pdz-a1-m2-cA X-RAY STRUCTURE AND CATALYTIC MECHANISM OF LOBSTER ENOLASE P56252 P56252 2.2 X-RAY DIFFRACTION 130 1.0 6707 (Homarus gammarus) 6707 (Homarus gammarus) 433 433 1pdy-a1-m1-cA_1pdy-a1-m2-cA SITKVFARTIFDSRGNPTVEVDLYTSKGLFRAAVPSGASTGVHEALEMRDGDKSKYHGKSVFNAVKNVNDVIVPEIIKSGLKVTQQKECDEFMCKLDGTENKSSLGANAILGVSLAICKAGAAELGIPLYRHIANLANYDEVILPVPAFNVINGGSHAGNKLAMQEFMILPTGATSFTEAMRMGTEVYHHLKAVIKARFGLDATAVGDEGGFAPNILNNKDALDLIQEAIKKAGYTGKIEIGMDVAASEFYKQNNIYDLDFKTANNDGSQKISGDQLRDMYMEFCKDFPIVSIEDPFDQDDWETWSKMTSGTTIQIVGDDLTVTNPKRITTAVEKKACKCLLLKVNQIGSVTESIDAHLLAKKNGWGTMVSHRSGETEDCFIADLVVGLCTGQIKTGAPCRSERLAKYNQILRIEEELGSGAKFAGKNFRAPS SITKVFARTIFDSRGNPTVEVDLYTSKGLFRAAVPSGASTGVHEALEMRDGDKSKYHGKSVFNAVKNVNDVIVPEIIKSGLKVTQQKECDEFMCKLDGTENKSSLGANAILGVSLAICKAGAAELGIPLYRHIANLANYDEVILPVPAFNVINGGSHAGNKLAMQEFMILPTGATSFTEAMRMGTEVYHHLKAVIKARFGLDATAVGDEGGFAPNILNNKDALDLIQEAIKKAGYTGKIEIGMDVAASEFYKQNNIYDLDFKTANNDGSQKISGDQLRDMYMEFCKDFPIVSIEDPFDQDDWETWSKMTSGTTIQIVGDDLTVTNPKRITTAVEKKACKCLLLKVNQIGSVTESIDAHLLAKKNGWGTMVSHRSGETEDCFIADLVVGLCTGQIKTGAPCRSERLAKYNQILRIEEELGSGAKFAGKNFRAPS 1pe3-a1-m1-c1_1pe3-a1-m1-c2 Solution structure of the disulphide-linked dimer of human intestinal trefoil factor (TFF3) Q07654 Q07654 NOT SOLUTION NMR 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 EEYVGLSANQCAVPAKDRVDCGYPHVTPKECNNRGCCFDSRIPGVPWCFKPLQEAECTF EEYVGLSANQCAVPAKDRVDCGYPHVTPKECNNRGCCFDSRIPGVPWCFKPLQEAECTF 1pea-a1-m1-cA_1pea-a1-m2-cA AMIDE RECEPTOR/NEGATIVE REGULATOR OF THE AMIDASE OPERON OF PSEUDOMONAS AERUGINOSA (AMIC) COMPLEXED WITH ACETAMIDE P27017 P27017 2.1 X-RAY DIFFRACTION 42 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 368 368 1qnl-a1-m1-cA_1qnl-a1-m3-cA 1qnl-a1-m2-cA_1qnl-a1-m4-cA PLIGLLFSETGVTADIERSQRYGALLAVEQLNREGGVGGRPIETLSQDPGGDPDRYRLCAEDFIRNRGVRFLVGCYMSHTRKAVMPVVERADALLCYPTPYEGFEYSPNIVYGGPAPNQNSAPLAAYLIRHYGERVVFIGSDYIYPRESNHVMRHLYRQHGGTVLEEIYIPLYPSDDDLQRAVERIYQARADVVFSTVVGTGTAELYRAIARRYGDGRRPPIASLTTSEAEVAKMESDVAEGQVVVAPYFSSIDTPASRAFVQACHGFFPENATITAWAEAAYWQTLLLGRAAQAAGNWRVEDVQRHLYDIDIDAPQGPVRVERQNNHSRLSSRIAEIDARGVFQVRWQSPEPIRPDPYVVVHNLDDW PLIGLLFSETGVTADIERSQRYGALLAVEQLNREGGVGGRPIETLSQDPGGDPDRYRLCAEDFIRNRGVRFLVGCYMSHTRKAVMPVVERADALLCYPTPYEGFEYSPNIVYGGPAPNQNSAPLAAYLIRHYGERVVFIGSDYIYPRESNHVMRHLYRQHGGTVLEEIYIPLYPSDDDLQRAVERIYQARADVVFSTVVGTGTAELYRAIARRYGDGRRPPIASLTTSEAEVAKMESDVAEGQVVVAPYFSSIDTPASRAFVQACHGFFPENATITAWAEAAYWQTLLLGRAAQAAGNWRVEDVQRHLYDIDIDAPQGPVRVERQNNHSRLSSRIAEIDARGVFQVRWQSPEPIRPDPYVVVHNLDDW 1pet-a1-m1-cA_1pet-a1-m1-cD NMR SOLUTION STRUCTURE OF THE TETRAMERIC MINIMUM TRANSFORMING DOMAIN OF P53 P04637 P04637 NOT SOLUTION NMR 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 1pes-a1-m1-cA_1pes-a1-m1-cD 1pes-a1-m1-cB_1pes-a1-m1-cC 1pet-a1-m1-cB_1pet-a1-m1-cC GEYFTLQIRGRERFEMFRELNEALELKDAQA GEYFTLQIRGRERFEMFRELNEALELKDAQA 1peu-a1-m1-cA_1peu-a1-m2-cA Ribonucleotide Reductase Protein R1E from Salmonella typhimurium Q08698 Q08698 3.2 X-RAY DIFFRACTION 80 1.0 692 692 1pem-a1-m1-cA_1pem-a1-m2-cA 1peo-a1-m1-cA_1peo-a1-m2-cA 1peq-a1-m1-cA_1peq-a1-m2-cA 2bq1-a1-m1-cE_2bq1-a1-m1-cF RVMQETMDYHALNAMLNLYDKAGHIQFDKDQQAIDAFFATHVRPHSVTFASQHERLGTLVREGYYDDAVLARYDRAFVLRLFEHAHASGFRFQTFLGAWKFYTSYTLKTFDGKRYLEHFEDRVTMVALTLAQGDETLATQLTDEMLSGRFQPATPTFLNCGKQQRGELVSCFLLRIEDNMESIGRAVNSALQLSKRGGGVAFLLSNLREAGAPIKRIENQSSGVIPVMKMLEDAFSYANQLGARQGAGAVYLHAHHPDILRFLDTKRENADEKIRIKTLSLGVVIPDITFRLAKENAQMALFSPYDIQRRYGKPFGDIAISERYDELIADPHVRKTYINARDFFQTLAEIQFESGYPYIMFEDTVNRANPIAGRINMSNLCSEILQVNSASRYDDNLDYTHIGHDISCNLGSLNIAHVMDSPDIGRTVETAIRGLTAVSDMSHIRSVPSIAAGNAASHAIGLGQMNLHGYLAREGIAYGSPEALDFTNLYFYTITWHAVHTSMRLARERGKTFAGFAQSRYASGDYFTQYLQDDWQPKTAKVRALFARSGITLPTREMWLKLRDDVMRYGIYNQNLQAVPPTGSISYINHATSSIHPIVAKIEIRKEGKTGRVYYPAPFMTNENLDMYQDAYDIGPEKIIDTYAEATRHVDQGLSLTLFFPDTATTRDINKAQIYAWRKGIKSLYYIRLRQL RVMQETMDYHALNAMLNLYDKAGHIQFDKDQQAIDAFFATHVRPHSVTFASQHERLGTLVREGYYDDAVLARYDRAFVLRLFEHAHASGFRFQTFLGAWKFYTSYTLKTFDGKRYLEHFEDRVTMVALTLAQGDETLATQLTDEMLSGRFQPATPTFLNCGKQQRGELVSCFLLRIEDNMESIGRAVNSALQLSKRGGGVAFLLSNLREAGAPIKRIENQSSGVIPVMKMLEDAFSYANQLGARQGAGAVYLHAHHPDILRFLDTKRENADEKIRIKTLSLGVVIPDITFRLAKENAQMALFSPYDIQRRYGKPFGDIAISERYDELIADPHVRKTYINARDFFQTLAEIQFESGYPYIMFEDTVNRANPIAGRINMSNLCSEILQVNSASRYDDNLDYTHIGHDISCNLGSLNIAHVMDSPDIGRTVETAIRGLTAVSDMSHIRSVPSIAAGNAASHAIGLGQMNLHGYLAREGIAYGSPEALDFTNLYFYTITWHAVHTSMRLARERGKTFAGFAQSRYASGDYFTQYLQDDWQPKTAKVRALFARSGITLPTREMWLKLRDDVMRYGIYNQNLQAVPPTGSISYINHATSSIHPIVAKIEIRKEGKTGRVYYPAPFMTNENLDMYQDAYDIGPEKIIDTYAEATRHVDQGLSLTLFFPDTATTRDINKAQIYAWRKGIKSLYYIRLRQL 1pew-a2-m2-cB_1pew-a2-m2-cA High Resolution Crystal Structure of Jto2, a mutant of the non-amyloidogenic Lamba6 Light Chain, Jto P01721 P01721 1.6 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 1pew-a1-m1-cB_1pew-a1-m1-cA 1pew-a2-m1-cA_1pew-a2-m1-cB 1pew-a3-m2-cA_1pew-a3-m3-cB 1pew-a3-m4-cA_1pew-a3-m1-cB NFMLNQPHSVSESPGKTVTISCTRSSGNIASNYVQWYQQSAPITVIYEDNQRPSGVPDRFAGSIDRSSNSASLTISGLKTEDEADYYCQSYDARNVVFGGGTRLTVLG NFMLNQPHSVSESPGKTVTISCTRSSGNIASNYVQWYQQSAPITVIYEDNQRPSGVPDRFAGSIDRSSNSASLTISGLKTEDEADYYCQSYDARNVVFGGGTRLTVLG 1pew-a3-m4-cA_1pew-a3-m3-cB High Resolution Crystal Structure of Jto2, a mutant of the non-amyloidogenic Lamba6 Light Chain, Jto P01721 P01721 1.6 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 1pew-a2-m1-cB_1pew-a2-m2-cA 1pew-a2-m2-cB_1pew-a2-m1-cA 1pew-a3-m1-cB_1pew-a3-m2-cA NFMLNQPHSVSESPGKTVTISCTRSSGNIASNYVQWYQQSAPITVIYEDNQRPSGVPDRFAGSIDRSSNSASLTISGLKTEDEADYYCQSYDARNVVFGGGTRLTVLG NFMLNQPHSVSESPGKTVTISCTRSSGNIASNYVQWYQQSAPITVIYEDNQRPSGVPDRFAGSIDRSSNSASLTISGLKTEDEADYYCQSYDARNVVFGGGTRLTVLG 1pf5-a1-m2-cA_1pf5-a1-m3-cA Structural Genomics, Protein YJGH P39332 P39332 2.5 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1pf5-a1-m1-cA_1pf5-a1-m2-cA 1pf5-a1-m1-cA_1pf5-a1-m3-cA VERTAVFPAGRHSLYAEHRYSAAIRSGDLLFVSGQVGSREDGTPEPDFQQQVRLAFDNLHATLAAAGCTFDDIIDVTSFHTDPENQFEDIMTVKNEIFSAPPYPNWTAVGVTWLAGFDFEIKVIARIPEQ VERTAVFPAGRHSLYAEHRYSAAIRSGDLLFVSGQVGSREDGTPEPDFQQQVRLAFDNLHATLAAAGCTFDDIIDVTSFHTDPENQFEDIMTVKNEIFSAPPYPNWTAVGVTWLAGFDFEIKVIARIPEQ 1pf9-a1-m1-cQ_1pf9-a1-m1-cR GroEL-GroES-ADP P0A6F9 P0A6F9 2.993 X-RAY DIFFRACTION 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 97 1aon-a1-m1-cO_1aon-a1-m1-cP 1aon-a1-m1-cO_1aon-a1-m1-cU 1aon-a1-m1-cP_1aon-a1-m1-cQ 1aon-a1-m1-cQ_1aon-a1-m1-cR 1aon-a1-m1-cR_1aon-a1-m1-cS 1aon-a1-m1-cS_1aon-a1-m1-cT 1aon-a1-m1-cT_1aon-a1-m1-cU 1gru-a1-m1-cO_1gru-a1-m1-cP 1gru-a1-m1-cO_1gru-a1-m1-cU 1gru-a1-m1-cP_1gru-a1-m1-cQ 1gru-a1-m1-cQ_1gru-a1-m1-cR 1gru-a1-m1-cR_1gru-a1-m1-cS 1gru-a1-m1-cS_1gru-a1-m1-cT 1gru-a1-m1-cT_1gru-a1-m1-cU 1pcq-a1-m1-cO_1pcq-a1-m1-cP 1pcq-a1-m1-cO_1pcq-a1-m1-cU 1pcq-a1-m1-cP_1pcq-a1-m1-cQ 1pcq-a1-m1-cQ_1pcq-a1-m1-cR 1pcq-a1-m1-cR_1pcq-a1-m1-cS 1pcq-a1-m1-cS_1pcq-a1-m1-cT 1pcq-a1-m1-cT_1pcq-a1-m1-cU 1pf9-a1-m1-cO_1pf9-a1-m1-cP 1pf9-a1-m1-cO_1pf9-a1-m1-cU 1pf9-a1-m1-cP_1pf9-a1-m1-cQ 1pf9-a1-m1-cR_1pf9-a1-m1-cS 1pf9-a1-m1-cS_1pf9-a1-m1-cT 1pf9-a1-m1-cT_1pf9-a1-m1-cU 1svt-a1-m1-cO_1svt-a1-m1-cP 1svt-a1-m1-cO_1svt-a1-m1-cU 1svt-a1-m1-cP_1svt-a1-m1-cQ 1svt-a1-m1-cQ_1svt-a1-m1-cR 1svt-a1-m1-cR_1svt-a1-m1-cS 1svt-a1-m1-cS_1svt-a1-m1-cT 1svt-a1-m1-cT_1svt-a1-m1-cU 1sx4-a1-m1-cO_1sx4-a1-m1-cP 1sx4-a1-m1-cO_1sx4-a1-m1-cU 1sx4-a1-m1-cP_1sx4-a1-m1-cQ 1sx4-a1-m1-cQ_1sx4-a1-m1-cR 1sx4-a1-m1-cR_1sx4-a1-m1-cS 1sx4-a1-m1-cS_1sx4-a1-m1-cT 1sx4-a1-m1-cT_1sx4-a1-m1-cU 2c7c-a1-m1-cO_2c7c-a1-m1-cP 2c7c-a1-m1-cO_2c7c-a1-m1-cU 2c7c-a1-m1-cP_2c7c-a1-m1-cQ 2c7c-a1-m1-cQ_2c7c-a1-m1-cR 2c7c-a1-m1-cR_2c7c-a1-m1-cS 2c7c-a1-m1-cS_2c7c-a1-m1-cT 2c7c-a1-m1-cT_2c7c-a1-m1-cU 2c7d-a1-m1-cO_2c7d-a1-m1-cP 2c7d-a1-m1-cO_2c7d-a1-m1-cU 2c7d-a1-m1-cP_2c7d-a1-m1-cQ 2c7d-a1-m1-cQ_2c7d-a1-m1-cR 2c7d-a1-m1-cR_2c7d-a1-m1-cS 2c7d-a1-m1-cS_2c7d-a1-m1-cT 2c7d-a1-m1-cT_2c7d-a1-m1-cU 3wvl-a1-m1-cO_3wvl-a1-m1-cP 3wvl-a1-m1-cO_3wvl-a1-m1-cU 3wvl-a1-m1-cP_3wvl-a1-m1-cQ 3wvl-a1-m1-cQ_3wvl-a1-m1-cR 3wvl-a1-m1-cR_3wvl-a1-m1-cS 3wvl-a1-m1-cS_3wvl-a1-m1-cT 3wvl-a1-m1-cT_3wvl-a1-m1-cU 3wvl-a2-m1-ca_3wvl-a2-m1-cb 3wvl-a2-m1-cV_3wvl-a2-m1-cb 3wvl-a2-m1-cV_3wvl-a2-m1-cW 3wvl-a2-m1-cW_3wvl-a2-m1-cX 3wvl-a2-m1-cX_3wvl-a2-m1-cY 3wvl-a2-m1-cY_3wvl-a2-m1-cZ 3wvl-a2-m1-cZ_3wvl-a2-m1-ca 3zpz-a1-m1-cO_3zpz-a1-m1-cP 3zpz-a1-m1-cO_3zpz-a1-m1-cU 3zpz-a1-m1-cP_3zpz-a1-m1-cQ 3zpz-a1-m1-cQ_3zpz-a1-m1-cR 3zpz-a1-m1-cR_3zpz-a1-m1-cS 3zpz-a1-m1-cS_3zpz-a1-m1-cT 3zpz-a1-m1-cT_3zpz-a1-m1-cU 3zq0-a1-m1-cO_3zq0-a1-m1-cP 3zq0-a1-m1-cO_3zq0-a1-m1-cU 3zq0-a1-m1-cP_3zq0-a1-m1-cQ 3zq0-a1-m1-cQ_3zq0-a1-m1-cR 3zq0-a1-m1-cR_3zq0-a1-m1-cS 3zq0-a1-m1-cS_3zq0-a1-m1-cT 3zq0-a1-m1-cT_3zq0-a1-m1-cU 3zq1-a1-m1-cO_3zq1-a1-m1-cP 3zq1-a1-m1-cO_3zq1-a1-m1-cU 3zq1-a1-m1-cP_3zq1-a1-m1-cQ 3zq1-a1-m1-cQ_3zq1-a1-m1-cR 3zq1-a1-m1-cR_3zq1-a1-m1-cS 3zq1-a1-m1-cS_3zq1-a1-m1-cT 3zq1-a1-m1-cT_3zq1-a1-m1-cU 4pkn-a1-m1-c1_4pkn-a1-m1-c2 4pkn-a1-m1-c1_4pkn-a1-m1-cZ 4pkn-a1-m1-cO_4pkn-a1-m1-cP 4pkn-a1-m1-cO_4pkn-a1-m1-cU 4pkn-a1-m1-cP_4pkn-a1-m1-cQ 4pkn-a1-m1-cQ_4pkn-a1-m1-cR 4pkn-a1-m1-cR_4pkn-a1-m1-cS 4pkn-a1-m1-cS_4pkn-a1-m1-cT 4pkn-a1-m1-cT_4pkn-a1-m1-cU 4pkn-a1-m1-cV_4pkn-a1-m1-c2 4pkn-a1-m1-cV_4pkn-a1-m1-cW 4pkn-a1-m1-cX_4pkn-a1-m1-cW 4pkn-a1-m1-cX_4pkn-a1-m1-cY 4pkn-a1-m1-cY_4pkn-a1-m1-cZ 4pko-a1-m1-c1_4pko-a1-m1-c2 4pko-a1-m1-c2_4pko-a1-m1-cV 4pko-a1-m1-cO_4pko-a1-m1-cP 4pko-a1-m1-cO_4pko-a1-m1-cU 4pko-a1-m1-cQ_4pko-a1-m1-cP 4pko-a1-m1-cQ_4pko-a1-m1-cR 4pko-a1-m1-cS_4pko-a1-m1-cR 4pko-a1-m1-cS_4pko-a1-m1-cT 4pko-a1-m1-cT_4pko-a1-m1-cU 4pko-a1-m1-cV_4pko-a1-m1-cW 4pko-a1-m1-cW_4pko-a1-m1-cX 4pko-a1-m1-cY_4pko-a1-m1-cX 4pko-a1-m1-cZ_4pko-a1-m1-c1 4pko-a1-m1-cZ_4pko-a1-m1-cY 5opx-a1-m1-c1_5opx-a1-m1-c2 5opx-a1-m1-c1_5opx-a1-m1-cZ 5opx-a1-m1-c2_5opx-a1-m1-cV 5opx-a1-m1-cO_5opx-a1-m1-cP 5opx-a1-m1-cQ_5opx-a1-m1-cP 5opx-a1-m1-cQ_5opx-a1-m1-cR 5opx-a1-m1-cR_5opx-a1-m1-cS 5opx-a1-m1-cS_5opx-a1-m1-cT 5opx-a1-m1-cT_5opx-a1-m1-cU 5opx-a1-m1-cU_5opx-a1-m1-cO 5opx-a1-m1-cV_5opx-a1-m1-cW 5opx-a1-m1-cX_5opx-a1-m1-cW 5opx-a1-m1-cX_5opx-a1-m1-cY 5opx-a1-m1-cY_5opx-a1-m1-cZ 7pbj-a1-m1-cAf_7pbj-a1-m1-cAm 7pbj-a1-m1-cAf_7pbj-a1-m1-cAt 7pbj-a1-m1-cAm_7pbj-a1-m1-cBa 7pbj-a1-m1-cAt_7pbj-a1-m1-cBo 7pbj-a1-m1-cBa_7pbj-a1-m1-cBv 7pbj-a1-m1-cBh_7pbj-a1-m1-cBo 7pbj-a1-m1-cBh_7pbj-a1-m1-cBv 7pbx-a1-m1-cAf_7pbx-a1-m1-cAl 7pbx-a1-m1-cAf_7pbx-a1-m1-cAr 7pbx-a1-m1-cAl_7pbx-a1-m1-cAx 7pbx-a1-m1-cAr_7pbx-a1-m1-cBd 7pbx-a1-m1-cAx_7pbx-a1-m1-cBj 7pbx-a1-m1-cBd_7pbx-a1-m1-cBp 7pbx-a1-m1-cBj_7pbx-a1-m1-cBp 7vwx-a1-m1-c1_7vwx-a1-m1-c2 7vwx-a1-m1-c2_7vwx-a1-m1-cV 7vwx-a1-m1-cO_7vwx-a1-m1-cP 7vwx-a1-m1-cO_7vwx-a1-m1-cU 7vwx-a1-m1-cQ_7vwx-a1-m1-cP 7vwx-a1-m1-cQ_7vwx-a1-m1-cR 7vwx-a1-m1-cS_7vwx-a1-m1-cR 7vwx-a1-m1-cS_7vwx-a1-m1-cT 7vwx-a1-m1-cT_7vwx-a1-m1-cU 7vwx-a1-m1-cV_7vwx-a1-m1-cW 7vwx-a1-m1-cW_7vwx-a1-m1-cX 7vwx-a1-m1-cY_7vwx-a1-m1-cX 7vwx-a1-m1-cZ_7vwx-a1-m1-c1 7vwx-a1-m1-cZ_7vwx-a1-m1-cY MNIRPLHDRVIVKRKEVETKSAGGIVLTGSAAAKSTRGEVLAVGNGRILENGEVKPLDVKVGDIVIFNDGYGVKSEKIDNEEVLIMSESDILAIVEA MNIRPLHDRVIVKRKEVETKSAGGIVLTGSAAAKSTRGEVLAVGNGRILENGEVKPLDVKVGDIVIFNDGYGVKSEKIDNEEVLIMSESDILAIVEA 1pfb-a2-m1-cA_1pfb-a2-m2-cA Structural Basis for specific binding of polycomb chromodomain to histone H3 methylated at K27 P26017 P26017 1.4 X-RAY DIFFRACTION 10 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 55 55 DLVYAAEKIIQKRVKKGVVEYRVKWKGWNQRYNTWEPEVNILDRRLIDIYEQTNK DLVYAAEKIIQKRVKKGVVEYRVKWKGWNQRYNTWEPEVNILDRRLIDIYEQTNK 1pfc-a1-m1-cA_1pfc-a1-m2-cA MOLECULAR-REPLACEMENT STRUCTURE OF GUINEA PIG IGG1 P*FC(PRIME) REFINED AT 3.1 ANGSTROMS RESOLUTION 3.125 X-RAY DIFFRACTION 64 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 111 111 RTISKAKGPPRIPEVYLLPPPRNELSKKKVSLTCMITGFYPADINVEWDSSEPSDYKNTPPVFDTDGSFFLYSRLKVDTDAWNNGESFTCSVMHEALPNHVIQKSISRSPG RTISKAKGPPRIPEVYLLPPPRNELSKKKVSLTCMITGFYPADINVEWDSSEPSDYKNTPPVFDTDGSFFLYSRLKVDTDAWNNGESFTCSVMHEALPNHVIQKSISRSPG 1pff-a1-m1-cA_1pff-a1-m2-cB Crystal Structure of Homocysteine alpha-, gamma-lyase at 1.8 Angstroms O15565 O15565 2.5 X-RAY DIFFRACTION 39 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 331 331 1pff-a1-m1-cB_1pff-a1-m2-cA SALEGKIAKLEHAEACAATASGMGAIAASVWTFLKAGDHLISDDCLYGCTHALFEHQLRKFGVEVDFIDMAVPGNIEKHLKPNTRIVYFETPANPTLKVIDIEDAVKQARKQKDILVIVDNTFASPILTNPLDLGVDIVVHSATKYINGHTDVVAGLVCSRADIIAKVKSQGIKDITGAIISPHDAWLITRGTLTLDMRVKRAAENAQKVAEFLHEHKAVKKVYYPGLPDHPGHEIAKKQMKMFGSMIAFDVDGLEKAKKVLDNCHVVSLAVSLGGPESLIQHPASMTHAGVPKEEREAAGLTDNLIRLSVGCENVQDIIDDLKQALDLVL SALEGKIAKLEHAEACAATASGMGAIAASVWTFLKAGDHLISDDCLYGCTHALFEHQLRKFGVEVDFIDMAVPGNIEKHLKPNTRIVYFETPANPTLKVIDIEDAVKQARKQKDILVIVDNTFASPILTNPLDLGVDIVVHSATKYINGHTDVVAGLVCSRADIIAKVKSQGIKDITGAIISPHDAWLITRGTLTLDMRVKRAAENAQKVAEFLHEHKAVKKVYYPGLPDHPGHEIAKKQMKMFGSMIAFDVDGLEKAKKVLDNCHVVSLAVSLGGPESLIQHPASMTHAGVPKEEREAAGLTDNLIRLSVGCENVQDIIDDLKQALDLVL 1pff-a1-m2-cA_1pff-a1-m2-cB Crystal Structure of Homocysteine alpha-, gamma-lyase at 1.8 Angstroms O15565 O15565 2.5 X-RAY DIFFRACTION 124 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 331 331 1pff-a1-m1-cA_1pff-a1-m1-cB SALEGKIAKLEHAEACAATASGMGAIAASVWTFLKAGDHLISDDCLYGCTHALFEHQLRKFGVEVDFIDMAVPGNIEKHLKPNTRIVYFETPANPTLKVIDIEDAVKQARKQKDILVIVDNTFASPILTNPLDLGVDIVVHSATKYINGHTDVVAGLVCSRADIIAKVKSQGIKDITGAIISPHDAWLITRGTLTLDMRVKRAAENAQKVAEFLHEHKAVKKVYYPGLPDHPGHEIAKKQMKMFGSMIAFDVDGLEKAKKVLDNCHVVSLAVSLGGPESLIQHPASMTHAGVPKEEREAAGLTDNLIRLSVGCENVQDIIDDLKQALDLVL SALEGKIAKLEHAEACAATASGMGAIAASVWTFLKAGDHLISDDCLYGCTHALFEHQLRKFGVEVDFIDMAVPGNIEKHLKPNTRIVYFETPANPTLKVIDIEDAVKQARKQKDILVIVDNTFASPILTNPLDLGVDIVVHSATKYINGHTDVVAGLVCSRADIIAKVKSQGIKDITGAIISPHDAWLITRGTLTLDMRVKRAAENAQKVAEFLHEHKAVKKVYYPGLPDHPGHEIAKKQMKMFGSMIAFDVDGLEKAKKVLDNCHVVSLAVSLGGPESLIQHPASMTHAGVPKEEREAAGLTDNLIRLSVGCENVQDIIDDLKQALDLVL 1pfi-a1-m4-cA_1pfi-a1-m9-cB PF1 VIRUS STRUCTURE: HELICAL COAT PROTEIN AND DNA WITH PARAXIAL PHOSPHATES P03621 P03621 3 FIBER DIFFRACTION 12 1.0 46 46 1pfi-a1-m10-cA_1pfi-a1-m15-cB 1pfi-a1-m10-cA_1pfi-a1-m4-cB 1pfi-a1-m10-cB_1pfi-a1-m16-cA 1pfi-a1-m10-cB_1pfi-a1-m5-cA 1pfi-a1-m11-cA_1pfi-a1-m16-cB 1pfi-a1-m11-cA_1pfi-a1-m5-cB 1pfi-a1-m11-cB_1pfi-a1-m17-cA 1pfi-a1-m11-cB_1pfi-a1-m6-cA 1pfi-a1-m12-cA_1pfi-a1-m17-cB 1pfi-a1-m12-cA_1pfi-a1-m6-cB 1pfi-a1-m12-cB_1pfi-a1-m7-cA 1pfi-a1-m13-cA_1pfi-a1-m7-cB 1pfi-a1-m13-cB_1pfi-a1-m19-cA 1pfi-a1-m13-cB_1pfi-a1-m8-cA 1pfi-a1-m14-cA_1pfi-a1-m19-cB 1pfi-a1-m14-cA_1pfi-a1-m8-cB 1pfi-a1-m14-cB_1pfi-a1-m20-cA 1pfi-a1-m14-cB_1pfi-a1-m9-cA 1pfi-a1-m15-cA_1pfi-a1-m20-cB 1pfi-a1-m15-cA_1pfi-a1-m9-cB 1pfi-a1-m15-cB_1pfi-a1-m21-cA 1pfi-a1-m16-cA_1pfi-a1-m21-cB 1pfi-a1-m16-cB_1pfi-a1-m22-cA 1pfi-a1-m17-cA_1pfi-a1-m22-cB 1pfi-a1-m17-cB_1pfi-a1-m23-cA 1pfi-a1-m19-cA_1pfi-a1-m24-cB 1pfi-a1-m19-cB_1pfi-a1-m25-cA 1pfi-a1-m1-cA_1pfi-a1-m6-cB 1pfi-a1-m1-cB_1pfi-a1-m13-cA 1pfi-a1-m1-cB_1pfi-a1-m24-cA 1pfi-a1-m20-cA_1pfi-a1-m25-cB 1pfi-a1-m20-cB_1pfi-a1-m26-cA 1pfi-a1-m21-cA_1pfi-a1-m26-cB 1pfi-a1-m21-cB_1pfi-a1-m27-cA 1pfi-a1-m22-cA_1pfi-a1-m27-cB 1pfi-a1-m22-cB_1pfi-a1-m28-cA 1pfi-a1-m23-cA_1pfi-a1-m28-cB 1pfi-a1-m23-cB_1pfi-a1-m29-cA 1pfi-a1-m24-cA_1pfi-a1-m29-cB 1pfi-a1-m24-cB_1pfi-a1-m30-cA 1pfi-a1-m25-cA_1pfi-a1-m30-cB 1pfi-a1-m25-cB_1pfi-a1-m31-cA 1pfi-a1-m26-cA_1pfi-a1-m31-cB 1pfi-a1-m26-cB_1pfi-a1-m32-cA 1pfi-a1-m27-cA_1pfi-a1-m32-cB 1pfi-a1-m27-cB_1pfi-a1-m33-cA 1pfi-a1-m28-cA_1pfi-a1-m33-cB 1pfi-a1-m28-cB_1pfi-a1-m34-cA 1pfi-a1-m29-cA_1pfi-a1-m34-cB 1pfi-a1-m29-cB_1pfi-a1-m35-cA 1pfi-a1-m2-cA_1pfi-a1-m7-cB 1pfi-a1-m2-cB_1pfi-a1-m8-cA 1pfi-a1-m30-cA_1pfi-a1-m35-cB 1pfi-a1-m3-cA_1pfi-a1-m8-cB 1pfi-a1-m3-cB_1pfi-a1-m9-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 1pfi-a1-m6-cB_1pfi-a1-m9-cB PF1 VIRUS STRUCTURE: HELICAL COAT PROTEIN AND DNA WITH PARAXIAL PHOSPHATES P03621 P03621 3 FIBER DIFFRACTION 22 1.0 46 46 1pfi-a1-m10-cA_1pfi-a1-m13-cA 1pfi-a1-m10-cA_1pfi-a1-m7-cA 1pfi-a1-m10-cB_1pfi-a1-m13-cB 1pfi-a1-m10-cB_1pfi-a1-m7-cB 1pfi-a1-m11-cA_1pfi-a1-m14-cA 1pfi-a1-m11-cA_1pfi-a1-m8-cA 1pfi-a1-m11-cB_1pfi-a1-m14-cB 1pfi-a1-m11-cB_1pfi-a1-m8-cB 1pfi-a1-m12-cA_1pfi-a1-m15-cA 1pfi-a1-m12-cA_1pfi-a1-m9-cA 1pfi-a1-m12-cB_1pfi-a1-m15-cB 1pfi-a1-m12-cB_1pfi-a1-m9-cB 1pfi-a1-m13-cA_1pfi-a1-m16-cA 1pfi-a1-m13-cB_1pfi-a1-m16-cB 1pfi-a1-m14-cA_1pfi-a1-m17-cA 1pfi-a1-m14-cB_1pfi-a1-m17-cB 1pfi-a1-m16-cA_1pfi-a1-m19-cA 1pfi-a1-m16-cB_1pfi-a1-m19-cB 1pfi-a1-m17-cA_1pfi-a1-m20-cA 1pfi-a1-m17-cB_1pfi-a1-m20-cB 1pfi-a1-m19-cA_1pfi-a1-m22-cA 1pfi-a1-m19-cB_1pfi-a1-m22-cB 1pfi-a1-m1-cA_1pfi-a1-m4-cA 1pfi-a1-m1-cB_1pfi-a1-m15-cB 1pfi-a1-m1-cB_1pfi-a1-m21-cB 1pfi-a1-m20-cA_1pfi-a1-m23-cA 1pfi-a1-m20-cB_1pfi-a1-m23-cB 1pfi-a1-m21-cA_1pfi-a1-m24-cA 1pfi-a1-m21-cB_1pfi-a1-m24-cB 1pfi-a1-m22-cA_1pfi-a1-m25-cA 1pfi-a1-m22-cB_1pfi-a1-m25-cB 1pfi-a1-m23-cA_1pfi-a1-m26-cA 1pfi-a1-m23-cB_1pfi-a1-m26-cB 1pfi-a1-m24-cA_1pfi-a1-m27-cA 1pfi-a1-m24-cB_1pfi-a1-m27-cB 1pfi-a1-m25-cA_1pfi-a1-m28-cA 1pfi-a1-m25-cB_1pfi-a1-m28-cB 1pfi-a1-m26-cA_1pfi-a1-m29-cA 1pfi-a1-m26-cB_1pfi-a1-m29-cB 1pfi-a1-m27-cA_1pfi-a1-m30-cA 1pfi-a1-m27-cB_1pfi-a1-m30-cB 1pfi-a1-m28-cA_1pfi-a1-m31-cA 1pfi-a1-m28-cB_1pfi-a1-m31-cB 1pfi-a1-m29-cA_1pfi-a1-m32-cA 1pfi-a1-m29-cB_1pfi-a1-m32-cB 1pfi-a1-m2-cA_1pfi-a1-m5-cA 1pfi-a1-m2-cB_1pfi-a1-m5-cB 1pfi-a1-m30-cA_1pfi-a1-m33-cA 1pfi-a1-m30-cB_1pfi-a1-m33-cB 1pfi-a1-m31-cA_1pfi-a1-m34-cA 1pfi-a1-m31-cB_1pfi-a1-m34-cB 1pfi-a1-m32-cA_1pfi-a1-m35-cA 1pfi-a1-m32-cB_1pfi-a1-m35-cB 1pfi-a1-m3-cA_1pfi-a1-m6-cA 1pfi-a1-m3-cB_1pfi-a1-m6-cB 1pfi-a1-m4-cA_1pfi-a1-m7-cA 1pfi-a1-m4-cB_1pfi-a1-m7-cB 1pfi-a1-m5-cA_1pfi-a1-m8-cA 1pfi-a1-m5-cB_1pfi-a1-m8-cB 1pfi-a1-m6-cA_1pfi-a1-m9-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 1pfi-a1-m7-cA_1pfi-a1-m9-cB PF1 VIRUS STRUCTURE: HELICAL COAT PROTEIN AND DNA WITH PARAXIAL PHOSPHATES P03621 P03621 3 FIBER DIFFRACTION 26 1.0 46 46 1pfi-a1-m10-cA_1pfi-a1-m12-cB 1pfi-a1-m10-cA_1pfi-a1-m7-cB 1pfi-a1-m10-cB_1pfi-a1-m13-cA 1pfi-a1-m10-cB_1pfi-a1-m8-cA 1pfi-a1-m11-cA_1pfi-a1-m13-cB 1pfi-a1-m11-cA_1pfi-a1-m8-cB 1pfi-a1-m11-cB_1pfi-a1-m14-cA 1pfi-a1-m11-cB_1pfi-a1-m9-cA 1pfi-a1-m12-cA_1pfi-a1-m14-cB 1pfi-a1-m12-cA_1pfi-a1-m9-cB 1pfi-a1-m12-cB_1pfi-a1-m15-cA 1pfi-a1-m13-cA_1pfi-a1-m15-cB 1pfi-a1-m13-cB_1pfi-a1-m16-cA 1pfi-a1-m14-cA_1pfi-a1-m16-cB 1pfi-a1-m14-cB_1pfi-a1-m17-cA 1pfi-a1-m15-cA_1pfi-a1-m17-cB 1pfi-a1-m16-cB_1pfi-a1-m19-cA 1pfi-a1-m17-cA_1pfi-a1-m19-cB 1pfi-a1-m17-cB_1pfi-a1-m20-cA 1pfi-a1-m19-cA_1pfi-a1-m21-cB 1pfi-a1-m19-cB_1pfi-a1-m22-cA 1pfi-a1-m1-cA_1pfi-a1-m3-cB 1pfi-a1-m1-cB_1pfi-a1-m16-cA 1pfi-a1-m1-cB_1pfi-a1-m21-cA 1pfi-a1-m20-cA_1pfi-a1-m22-cB 1pfi-a1-m20-cB_1pfi-a1-m23-cA 1pfi-a1-m21-cA_1pfi-a1-m23-cB 1pfi-a1-m21-cB_1pfi-a1-m24-cA 1pfi-a1-m22-cA_1pfi-a1-m24-cB 1pfi-a1-m22-cB_1pfi-a1-m25-cA 1pfi-a1-m23-cA_1pfi-a1-m25-cB 1pfi-a1-m23-cB_1pfi-a1-m26-cA 1pfi-a1-m24-cA_1pfi-a1-m26-cB 1pfi-a1-m24-cB_1pfi-a1-m27-cA 1pfi-a1-m25-cA_1pfi-a1-m27-cB 1pfi-a1-m25-cB_1pfi-a1-m28-cA 1pfi-a1-m26-cA_1pfi-a1-m28-cB 1pfi-a1-m26-cB_1pfi-a1-m29-cA 1pfi-a1-m27-cA_1pfi-a1-m29-cB 1pfi-a1-m27-cB_1pfi-a1-m30-cA 1pfi-a1-m28-cA_1pfi-a1-m30-cB 1pfi-a1-m28-cB_1pfi-a1-m31-cA 1pfi-a1-m29-cA_1pfi-a1-m31-cB 1pfi-a1-m29-cB_1pfi-a1-m32-cA 1pfi-a1-m2-cA_1pfi-a1-m4-cB 1pfi-a1-m2-cB_1pfi-a1-m5-cA 1pfi-a1-m30-cA_1pfi-a1-m32-cB 1pfi-a1-m30-cB_1pfi-a1-m33-cA 1pfi-a1-m31-cA_1pfi-a1-m33-cB 1pfi-a1-m31-cB_1pfi-a1-m34-cA 1pfi-a1-m32-cA_1pfi-a1-m34-cB 1pfi-a1-m32-cB_1pfi-a1-m35-cA 1pfi-a1-m33-cA_1pfi-a1-m35-cB 1pfi-a1-m3-cA_1pfi-a1-m5-cB 1pfi-a1-m3-cB_1pfi-a1-m6-cA 1pfi-a1-m4-cA_1pfi-a1-m6-cB 1pfi-a1-m4-cB_1pfi-a1-m7-cA 1pfi-a1-m5-cA_1pfi-a1-m7-cB 1pfi-a1-m5-cB_1pfi-a1-m8-cA 1pfi-a1-m6-cA_1pfi-a1-m8-cB 1pfi-a1-m6-cB_1pfi-a1-m9-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 1pfk-a1-m1-cA_1pfk-a1-m2-cB CRYSTAL STRUCTURE OF THE COMPLEX OF PHOSPHOFRUCTOKINASE FROM ESCHERICHIA COLI WITH ITS REACTION PRODUCTS P0A796 P0A796 2.4 X-RAY DIFFRACTION 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 320 320 1pfk-a1-m1-cB_1pfk-a1-m2-cA MIKKIGVLTSGGDAPGMNAAIRGVVRSALTEGLEVMGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFRDENIRAVAIENLKKRGIDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFVVVPEVEFSREDLVNEIKAGIAKGKKHAIVAITEHMCDVDELAHFIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIDLLLAGYGGRCVGIQNEQLVHHDIIDAIENMKRPFKGDWLDCAKKLY MIKKIGVLTSGGDAPGMNAAIRGVVRSALTEGLEVMGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFRDENIRAVAIENLKKRGIDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFVVVPEVEFSREDLVNEIKAGIAKGKKHAIVAITEHMCDVDELAHFIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIDLLLAGYGGRCVGIQNEQLVHHDIIDAIENMKRPFKGDWLDCAKKLY 1pfn-a1-m1-cB_1pfn-a1-m1-cC PF4-M2 CHIMERIC MUTANT WITH THE FIRST 10 N-TERMINAL RESIDUES OF R-PF4 REPLACED BY THE N-TERMINAL RESIDUES OF THE IL8 SEQUENCE. MODELS 16-27 OF A 27-MODEL SET. P02776 P02776 NOT SOLUTION NMR 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 1pfm-a1-m1-cA_1pfm-a1-m1-cD 1pfm-a1-m1-cB_1pfm-a1-m1-cC 1pfn-a1-m1-cA_1pfn-a1-m1-cD MSAKELRCQCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES MSAKELRCQCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES 1pfn-a1-m1-cB_1pfn-a1-m1-cD PF4-M2 CHIMERIC MUTANT WITH THE FIRST 10 N-TERMINAL RESIDUES OF R-PF4 REPLACED BY THE N-TERMINAL RESIDUES OF THE IL8 SEQUENCE. MODELS 16-27 OF A 27-MODEL SET. P02776 P02776 NOT SOLUTION NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 1pfm-a1-m1-cA_1pfm-a1-m1-cC 1pfm-a1-m1-cB_1pfm-a1-m1-cD 1pfn-a1-m1-cA_1pfn-a1-m1-cC MSAKELRCQCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES MSAKELRCQCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES 1pfo-a1-m1-cA_1pfo-a1-m2-cA PERFRINGOLYSIN O P0C2E9 P0C2E9 2.2 X-RAY DIFFRACTION 94 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 471 471 5dhl-a1-m1-cA_5dhl-a1-m1-cB DITDKNQSIDSGISSLSYNRNEVLASNGDKIESFVPKEGKKAGNKFIVVERQKRSLTTSPVDISIIDSVNDRTYPGALQLADKALVENRPTILMVKRKPININIDLPGLKGENSIKVDDPTYGKVSGAIDELVSKWNEKYSSTHTLPARTQYSESMVYSKSQISSALNVNAKVLENSLGVDFNAVANNEKKVMILAYKQIFYTVSADLPKNPSDLFDDSVTFNDLKQKGVSNEAPPLMVSNVAYGRTIYVKLETTSSSKDVQAAFKALIKNTDIKNSQQYKDIYENSSFTAVVLGGDAQEHNKVVTKDFDEIRKVIKDNATFSTKNPAYPISYTSVFLKDNSVAAVHNKTDYIETTSTEYSKGKINLDHSGAYVAQFEVAWDEVSYDKEGNEVLTHKTWDGNYQDKTAHYSTVIPLEANARNIRIKARECTGLAWEWWRDVISEYDVPLTNNINVSIWGTTLYPGSSITYN DITDKNQSIDSGISSLSYNRNEVLASNGDKIESFVPKEGKKAGNKFIVVERQKRSLTTSPVDISIIDSVNDRTYPGALQLADKALVENRPTILMVKRKPININIDLPGLKGENSIKVDDPTYGKVSGAIDELVSKWNEKYSSTHTLPARTQYSESMVYSKSQISSALNVNAKVLENSLGVDFNAVANNEKKVMILAYKQIFYTVSADLPKNPSDLFDDSVTFNDLKQKGVSNEAPPLMVSNVAYGRTIYVKLETTSSSKDVQAAFKALIKNTDIKNSQQYKDIYENSSFTAVVLGGDAQEHNKVVTKDFDEIRKVIKDNATFSTKNPAYPISYTSVFLKDNSVAAVHNKTDYIETTSTEYSKGKINLDHSGAYVAQFEVAWDEVSYDKEGNEVLTHKTWDGNYQDKTAHYSTVIPLEANARNIRIKARECTGLAWEWWRDVISEYDVPLTNNINVSIWGTTLYPGSSITYN 1pfs-a1-m1-cA_1pfs-a1-m1-cB SOLUTION NMR STRUCTURE OF THE SINGLE-STRANDED DNA BINDING PROTEIN OF THE FILAMENTOUS PSEUDOMONAS PHAGE PF3, MINIMIZED AVERAGE STRUCTURE P03672 P03672 NOT SOLUTION NMR 45 1.0 10872 (Pseudomonas phage Pf3) 10872 (Pseudomonas phage Pf3) 78 78 MNIQITFTDSVRQGTSAKGNPYTFQEGFLHLEDKPHPLQCQFFVESVIPAGSYQVPYRINVNNGRPELAFDFKAMKRA MNIQITFTDSVRQGTSAKGNPYTFQEGFLHLEDKPHPLQCQFFVESVIPAGSYQVPYRINVNNGRPELAFDFKAMKRA 1pfz-a6-m1-cC_1pfz-a6-m1-cA PROPLASMEPSIN II FROM PLASMODIUM FALCIPARUM P46925 P46925 1.85 X-RAY DIFFRACTION 33 0.997 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 356 370 1pfz-a5-m1-cD_1pfz-a5-m1-cB EHLTIGFKVENAHDRILKTIKTHKLKNYIKESVNFLNSGLTVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNIMLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL HLTIGFKVENAHDRILKTIKTHKLKNYIKESVNFLNSGLTKTNYLGSSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNIMLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 1pg6-a2-m2-cA_1pg6-a2-m3-cA X-Ray Crystal Structure of Protein SPYM3_0169 from Streptococcus pyogenes. Northeast Structural Genomics Consortium Target DR2. 1.7 X-RAY DIFFRACTION 78 1.0 186103 (Streptococcus pyogenes MGAS8232) 186103 (Streptococcus pyogenes MGAS8232) 206 206 1pg6-a2-m1-cA_1pg6-a2-m2-cA 1pg6-a2-m1-cA_1pg6-a2-m3-cA RRFTIDQNQFPLVEIDLEHGGSVYLQQGSVYHTENVTLNTKLNGLGKLVGAIGRSVSGESFITQASNGDGKLALAPNTPGQIVALELGEKQYRLNDGAFLALDGSAQYKERQNIGGGLFVTTEGLGTLLANSFGSIKKITLDGGTTIDNAHVVAWSRELDYDIHLENGFQSIGTGEGVVNTFRGHGEIYIQSLNLEQFAGTLKRYL RRFTIDQNQFPLVEIDLEHGGSVYLQQGSVYHTENVTLNTKLNGLGKLVGAIGRSVSGESFITQASNGDGKLALAPNTPGQIVALELGEKQYRLNDGAFLALDGSAQYKERQNIGGGLFVTTEGLGTLLANSFGSIKKITLDGGTTIDNAHVVAWSRELDYDIHLENGFQSIGTGEGVVNTFRGHGEIYIQSLNLEQFAGTLKRYL 1pgj-a1-m1-cA_1pgj-a1-m1-cB X-RAY STRUCTURE OF 6-PHOSPHOGLUCONATE DEHYDROGENASE FROM THE PROTOZOAN PARASITE T. BRUCEI P31072 P31072 2.82 X-RAY DIFFRACTION 420 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 478 478 SMDVGVVGLGVMGANLALNIAEKGFKVAVFNRTYSKSEEFMKANASAPFAGNLKAFETMEAFAASLKKPRKALILVQAGAATDSTIEQLKKVFEKGDILVDTGNAHFKDQGRRAQQLEAAGLRFLGMGISGGEEGARKGPAFFPGGTLSVWEEIRPIVEAAAAKADDGRPCVTMNGSGGAGSCVKMYHNSGEYAILQIWGEVFDILRAMGLNNDEVAAVLEDWKSKNFLKSYMLDISIAAARAKDKDGSYLTEHVMDRIGSKGTGLWSAQEALEIGVPAPSLNMAVVSRQFTMYKTERQANASNAPGITQSPGYTLKNKSPSGPEIKQLYDSVCIAIISCYAQMFQCLREMDKVHNFGLNLPATIATFRAGCILQGYLLKPMTEAFEKNPNISNLMCAFQTEIRAGLQNYRDMVALITSKLEVSIPVLSASLNYVTAMFTPTLKYGQLVSLQRDVFGRHGYERVDKDGRESFQWPELQ SMDVGVVGLGVMGANLALNIAEKGFKVAVFNRTYSKSEEFMKANASAPFAGNLKAFETMEAFAASLKKPRKALILVQAGAATDSTIEQLKKVFEKGDILVDTGNAHFKDQGRRAQQLEAAGLRFLGMGISGGEEGARKGPAFFPGGTLSVWEEIRPIVEAAAAKADDGRPCVTMNGSGGAGSCVKMYHNSGEYAILQIWGEVFDILRAMGLNNDEVAAVLEDWKSKNFLKSYMLDISIAAARAKDKDGSYLTEHVMDRIGSKGTGLWSAQEALEIGVPAPSLNMAVVSRQFTMYKTERQANASNAPGITQSPGYTLKNKSPSGPEIKQLYDSVCIAIISCYAQMFQCLREMDKVHNFGLNLPATIATFRAGCILQGYLLKPMTEAFEKNPNISNLMCAFQTEIRAGLQNYRDMVALITSKLEVSIPVLSASLNYVTAMFTPTLKYGQLVSLQRDVFGRHGYERVDKDGRESFQWPELQ 1pgu-a1-m1-cA_1pgu-a1-m1-cB YEAST ACTIN INTERACTING PROTEIN 1 (AIP1), Se-Met PROTEIN, MONOCLINIC CRYSTAL FORM P46680 P46680 2.3 X-RAY DIFFRACTION 51 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 600 602 1pi6-a2-m1-cA_1pi6-a2-m2-cA SSISLKEIIPPQPSTQRNFTTHLSYDPTTNAIAYPCGKSAFVRCLDDGDSKVPPVVQFTGHGSSVVTTVKFSPIKGSQYLCSGDESGKVIVWGWTFDKESNSVEVNVKSEFQVLAGPISDISWDFEGRRLCVVGEGRDNFGVFISWDSGNSLGEVSGHSQRINACHLKQSRPRSTVGDDGSVVFYQGPPFKFSASDRTHHKQGSFVRDVEFSPDSGEFVITVGSDRKISCFDGKSGEFLKYIEDDQEPVQGGIFALSWLDSQKFATVGADATIRVWDVTTSKCVQKWTLDKQQLGNQQVGVVATGNGRIISLSLDGTLNFYELGHDEVLKTISGHNKGITALTVNPLISGSYDGRIEWSSSSHQDHSNLIVSLDNSKAQEYSSISWDDTLKVNGITKHEFGSQPKVASANNDGFTAVLTNDDDLLILQSFTGDIIKSVRLNSPGSAVSLSQNYVAVGLEEGNTIQVFKLSDLEVSFDLKTPLRAKPSYISISPSETYIAAGDVGKILLYDLQSREVKTSRWAFRTSKINAISWKPAEEIEEDLVATGSLDTNIFIYSVKRPKIIKALNAHKDGVNNLLWETPSTLVSSGADACIKRWNVV SSISLKEIIPPQPSTQRNFTTHLSYDPTTNAIAYPCGKSAFVRCLDDGDSKVPPVVQFTGHGSSVVTTVKFSPIKGSQYLCSGDESGKVIVWGWTFDKESNSVEVNVKSEFQVLAGPISDISWDFEGRRLCVVGEGRDNFGVFISWDSGNSLGEVSGHSQRINACHLKQSRPRSTVGDDGSVVFYQGPPFKFSASDRTHHKQGSFVRDVEFSPDSGEFVITVGSDRKISCFDGKSGEFLKYIEDDQEPVQGGIFALSWLDSQKFATVGADATIRVWDVTTSKCVQKWTLDKQQLGNQQVGVVATGNGRIISLSLDGTLNFYELGHDEVLKTISGHNKGITALTVNPLISGSYDGRIEWSSSSHQDHSNLIVSLDNSKAQEYSSISWDDTLKVNGITKHEFGSQPKVASANNDGFTAVLTNDDDLLILQSFTGDIIKSVRLNSPGSAVSLSQNYVAVGLEEGNTIQVFKLSDLEVSFDLKTPLRAKPSYISISPSETYIAAGDVGKILLYDLQSREVKTSRWAFRTSKINAISWKPAEEIEEDLVATGSLDTNIFIYSVKRPKIIKALNAHKDGVNNLLWETPSTLVSSGADACIKRWNVVLE 1phn-a5-m1-cA_1phn-a5-m4-cA STRUCTURE OF PHYCOCYANIN FROM CYANIDIUM CALDARIUM AT 1.65A RESOLUTION P00306 P00306 1.65 X-RAY DIFFRACTION 72 1.0 2771 (Cyanidium caldarium) 2771 (Cyanidium caldarium) 162 162 1phn-a2-m1-cA_1phn-a2-m4-cA 1phn-a2-m2-cA_1phn-a2-m6-cA 1phn-a2-m3-cA_1phn-a2-m5-cA 3brp-a1-m1-cA_3brp-a1-m6-cA 3brp-a1-m2-cA_3brp-a1-m5-cA 3brp-a1-m3-cA_3brp-a1-m4-cA 3kvs-a1-m1-cA_3kvs-a1-m6-cA 3kvs-a1-m2-cA_3kvs-a1-m5-cA 3kvs-a1-m3-cA_3kvs-a1-m4-cA MKTPITEAIAAADNQGRFLSNTELQAVNGRYQRAAASLEAARSLTSNAERLINGAAQAVYSKFPYTSQMPGPQYASSAVGKAKCARDIGYYLRMVTYCLVVGGTGPMDEYLIAGLEEINRTFDLSPSWYVEALNYIKANHGLSGQAANEANTYIDYAINALS MKTPITEAIAAADNQGRFLSNTELQAVNGRYQRAAASLEAARSLTSNAERLINGAAQAVYSKFPYTSQMPGPQYASSAVGKAKCARDIGYYLRMVTYCLVVGGTGPMDEYLIAGLEEINRTFDLSPSWYVEALNYIKANHGLSGQAANEANTYIDYAINALS 1pho-a1-m3-cA_1pho-a1-m2-cA CRYSTAL STRUCTURES EXPLAIN FUNCTIONAL PROPERTIES OF TWO E. COLI PORINS P02932 P02932 3 X-RAY DIFFRACTION 137 1.0 562 (Escherichia coli) 562 (Escherichia coli) 330 330 1pho-a1-m1-cA_1pho-a1-m2-cA 1pho-a1-m3-cA_1pho-a1-m1-c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pi2-a1-m3-cA_1pi2-a1-m6-cA REACTIVE SITES OF AN ANTICARCINOGENIC BOWMAN-BIRK PROTEINASE INHIBITOR ARE SIMILAR TO OTHER TRYPSIN INHIBITORS P01064 P01064 2.5 X-RAY DIFFRACTION 31 1.0 3847 (Glycine max) 3847 (Glycine max) 61 61 1pi2-a1-m1-cA_1pi2-a1-m5-cA 1pi2-a1-m2-cA_1pi2-a1-m4-cA YSKPCCDLCMCTRSMPPQCSCEDRINSCHSDCKSCMCTRSQPGQCRCLDTNDFCYKPCKSR YSKPCCDLCMCTRSMPPQCSCEDRINSCHSDCKSCMCTRSQPGQCRCLDTNDFCYKPCKSR 1pi2-a1-m4-cA_1pi2-a1-m6-cA REACTIVE SITES OF AN ANTICARCINOGENIC BOWMAN-BIRK PROTEINASE INHIBITOR ARE SIMILAR TO OTHER TRYPSIN INHIBITORS P01064 P01064 2.5 X-RAY DIFFRACTION 14 1.0 3847 (Glycine max) 3847 (Glycine max) 61 61 1pi2-a1-m1-cA_1pi2-a1-m2-cA 1pi2-a1-m3-cA_1pi2-a1-m5-cA YSKPCCDLCMCTRSMPPQCSCEDRINSCHSDCKSCMCTRSQPGQCRCLDTNDFCYKPCKSR YSKPCCDLCMCTRSMPPQCSCEDRINSCHSDCKSCMCTRSQPGQCRCLDTNDFCYKPCKSR 1pi2-a1-m5-cA_1pi2-a1-m6-cA REACTIVE SITES OF AN ANTICARCINOGENIC BOWMAN-BIRK PROTEINASE INHIBITOR ARE SIMILAR TO OTHER TRYPSIN INHIBITORS P01064 P01064 2.5 X-RAY DIFFRACTION 26 1.0 3847 (Glycine max) 3847 (Glycine max) 61 61 1pi2-a1-m1-cA_1pi2-a1-m3-cA 1pi2-a1-m1-cA_1pi2-a1-m4-cA 1pi2-a1-m2-cA_1pi2-a1-m5-cA 1pi2-a1-m2-cA_1pi2-a1-m6-cA 1pi2-a1-m3-cA_1pi2-a1-m4-cA YSKPCCDLCMCTRSMPPQCSCEDRINSCHSDCKSCMCTRSQPGQCRCLDTNDFCYKPCKSR YSKPCCDLCMCTRSMPPQCSCEDRINSCHSDCKSCMCTRSQPGQCRCLDTNDFCYKPCKSR 1pin-a1-m1-cA_1pin-a1-m2-cA PIN1 PEPTIDYL-PROLYL CIS-TRANS ISOMERASE FROM HOMO SAPIENS Q13526 Q13526 1.35 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 153 153 6o33-a1-m1-cB_6o33-a1-m1-cA KLPPGWEKRMSRSSGRVYYFNHITNASQWERPSGGKNGQGEPARVRCSHLLVKHSQSRRPSSWRQEKITRTKEEALELINGYIQKIKSGEEDFESLASQFSDCSSAKARGDLGAFSRGQMQKPFEDASFALRTGEMSGPVFTDSGIHIILRTE KLPPGWEKRMSRSSGRVYYFNHITNASQWERPSGGKNGQGEPARVRCSHLLVKHSQSRRPSSWRQEKITRTKEEALELINGYIQKIKSGEEDFESLASQFSDCSSAKARGDLGAFSRGQMQKPFEDASFALRTGEMSGPVFTDSGIHIILRTE 1pio-a1-m1-cA_1pio-a1-m1-cB AN ENGINEERED STAPHYLOCOCCUS AUREUS PC1 BETA-LACTAMASE THAT HYDROLYSES THIRD GENERATION CEPHALOSPORINS P00807 P00807 2.8 X-RAY DIFFRACTION 71 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 256 256 KELNDLEKKYNAHIGVYALDTKSGKEVKFNSDKRFAYASTSKAINSAILLEQVPYNKLNKKVHINKDDIVAYSPILEKYVGKDITLKALIEASMTYSDNTANNKIIKEIGGIKKVKQRLKELGDKVTNPVRYEIELNYYSPKSKKDTSTPAAFGKTLNKLIANGKLSKENKKFLLDLMLNNKSGDTLIKDGVPKDYKVADKSGQSTYASRNDVAFVYPKGQSEPIVLVIFTNKDNKSDKPNDKLISETAKSVMKEF KELNDLEKKYNAHIGVYALDTKSGKEVKFNSDKRFAYASTSKAINSAILLEQVPYNKLNKKVHINKDDIVAYSPILEKYVGKDITLKALIEASMTYSDNTANNKIIKEIGGIKKVKQRLKELGDKVTNPVRYEIELNYYSPKSKKDTSTPAAFGKTLNKLIANGKLSKENKKFLLDLMLNNKSGDTLIKDGVPKDYKVADKSGQSTYASRNDVAFVYPKGQSEPIVLVIFTNKDNKSDKPNDKLISETAKSVMKEF 1pix-a2-m1-cA_1pix-a2-m2-cB Crystal structure of the carboxyltransferase subunit of the bacterial ion pump glutaconyl-coenzyme A decarboxylase Q06700 Q06700 2.2 X-RAY DIFFRACTION 105 1.0 905 (Acidaminococcus fermentans) 905 (Acidaminococcus fermentans) 586 586 1pix-a2-m1-cB_1pix-a2-m2-cA GFYSMPRYFQNMPQVGKPLKKADAANEEQLKKIEEEIHQLIKEAQEAGKADADVNKRGELTALQRIEKLVEPGSWRPLNTLFNPQGNKNGSVAIVKGLGRVNGKWCVVVASDNKKLAGAWVPGQAECLLRASDTAKTLHVPLVYVLNCSGVKFDEQEKVYPNRRGGGTPFFRNAELNQLGIPVIVGIYGTNPAGGGYHSISPTVIIAHEKANMAVGGAGIMGGMNPKGHVDLEYANEIADMVDRTGKTEPPGAVDIHYTETGFMREVYASEEGVLEGIKKYVGMLPKYDPEFFRVDDPKAPAFPADDLYSMVPLNDKRAYDIYNVIARLFDNSELHEYKKGYGPEMVTGLAKVNGLLVGVVANVQGLLMNYPEYKAAGSVGIGGKLYRQGLVKMNEFVTLCARDRLPIVWIQDTTGIDVGNDAEKAELLGLGQSLIYSIQTSHIPQFEITLRKGTAAAHYVLGGPQGNDTNAFSIGTAATEIAVMNGETAATAMYSRRLAKDRKAGKDLQPTIDKMNNLIQAFYTKSRPKVCAELGLVDEIVDMNKIRGYVEAFTEAAYQNPESICPFHQMILPRAIREFETFVKK GFYSMPRYFQNMPQVGKPLKKADAANEEQLKKIEEEIHQLIKEAQEAGKADADVNKRGELTALQRIEKLVEPGSWRPLNTLFNPQGNKNGSVAIVKGLGRVNGKWCVVVASDNKKLAGAWVPGQAECLLRASDTAKTLHVPLVYVLNCSGVKFDEQEKVYPNRRGGGTPFFRNAELNQLGIPVIVGIYGTNPAGGGYHSISPTVIIAHEKANMAVGGAGIMGGMNPKGHVDLEYANEIADMVDRTGKTEPPGAVDIHYTETGFMREVYASEEGVLEGIKKYVGMLPKYDPEFFRVDDPKAPAFPADDLYSMVPLNDKRAYDIYNVIARLFDNSELHEYKKGYGPEMVTGLAKVNGLLVGVVANVQGLLMNYPEYKAAGSVGIGGKLYRQGLVKMNEFVTLCARDRLPIVWIQDTTGIDVGNDAEKAELLGLGQSLIYSIQTSHIPQFEITLRKGTAAAHYVLGGPQGNDTNAFSIGTAATEIAVMNGETAATAMYSRRLAKDRKAGKDLQPTIDKMNNLIQAFYTKSRPKVCAELGLVDEIVDMNKIRGYVEAFTEAAYQNPESICPFHQMILPRAIREFETFVKK 1pix-a2-m1-cB_1pix-a2-m2-cB Crystal structure of the carboxyltransferase subunit of the bacterial ion pump glutaconyl-coenzyme A decarboxylase Q06700 Q06700 2.2 X-RAY DIFFRACTION 71 1.0 905 (Acidaminococcus fermentans) 905 (Acidaminococcus fermentans) 586 586 1pix-a2-m1-cA_1pix-a2-m2-cA GFYSMPRYFQNMPQVGKPLKKADAANEEQLKKIEEEIHQLIKEAQEAGKADADVNKRGELTALQRIEKLVEPGSWRPLNTLFNPQGNKNGSVAIVKGLGRVNGKWCVVVASDNKKLAGAWVPGQAECLLRASDTAKTLHVPLVYVLNCSGVKFDEQEKVYPNRRGGGTPFFRNAELNQLGIPVIVGIYGTNPAGGGYHSISPTVIIAHEKANMAVGGAGIMGGMNPKGHVDLEYANEIADMVDRTGKTEPPGAVDIHYTETGFMREVYASEEGVLEGIKKYVGMLPKYDPEFFRVDDPKAPAFPADDLYSMVPLNDKRAYDIYNVIARLFDNSELHEYKKGYGPEMVTGLAKVNGLLVGVVANVQGLLMNYPEYKAAGSVGIGGKLYRQGLVKMNEFVTLCARDRLPIVWIQDTTGIDVGNDAEKAELLGLGQSLIYSIQTSHIPQFEITLRKGTAAAHYVLGGPQGNDTNAFSIGTAATEIAVMNGETAATAMYSRRLAKDRKAGKDLQPTIDKMNNLIQAFYTKSRPKVCAELGLVDEIVDMNKIRGYVEAFTEAAYQNPESICPFHQMILPRAIREFETFVKK GFYSMPRYFQNMPQVGKPLKKADAANEEQLKKIEEEIHQLIKEAQEAGKADADVNKRGELTALQRIEKLVEPGSWRPLNTLFNPQGNKNGSVAIVKGLGRVNGKWCVVVASDNKKLAGAWVPGQAECLLRASDTAKTLHVPLVYVLNCSGVKFDEQEKVYPNRRGGGTPFFRNAELNQLGIPVIVGIYGTNPAGGGYHSISPTVIIAHEKANMAVGGAGIMGGMNPKGHVDLEYANEIADMVDRTGKTEPPGAVDIHYTETGFMREVYASEEGVLEGIKKYVGMLPKYDPEFFRVDDPKAPAFPADDLYSMVPLNDKRAYDIYNVIARLFDNSELHEYKKGYGPEMVTGLAKVNGLLVGVVANVQGLLMNYPEYKAAGSVGIGGKLYRQGLVKMNEFVTLCARDRLPIVWIQDTTGIDVGNDAEKAELLGLGQSLIYSIQTSHIPQFEITLRKGTAAAHYVLGGPQGNDTNAFSIGTAATEIAVMNGETAATAMYSRRLAKDRKAGKDLQPTIDKMNNLIQAFYTKSRPKVCAELGLVDEIVDMNKIRGYVEAFTEAAYQNPESICPFHQMILPRAIREFETFVKK 1pix-a2-m2-cA_1pix-a2-m2-cB Crystal structure of the carboxyltransferase subunit of the bacterial ion pump glutaconyl-coenzyme A decarboxylase Q06700 Q06700 2.2 X-RAY DIFFRACTION 372 1.0 905 (Acidaminococcus fermentans) 905 (Acidaminococcus fermentans) 586 586 1pix-a1-m1-cA_1pix-a1-m1-cB 1pix-a2-m1-cA_1pix-a2-m1-cB GFYSMPRYFQNMPQVGKPLKKADAANEEQLKKIEEEIHQLIKEAQEAGKADADVNKRGELTALQRIEKLVEPGSWRPLNTLFNPQGNKNGSVAIVKGLGRVNGKWCVVVASDNKKLAGAWVPGQAECLLRASDTAKTLHVPLVYVLNCSGVKFDEQEKVYPNRRGGGTPFFRNAELNQLGIPVIVGIYGTNPAGGGYHSISPTVIIAHEKANMAVGGAGIMGGMNPKGHVDLEYANEIADMVDRTGKTEPPGAVDIHYTETGFMREVYASEEGVLEGIKKYVGMLPKYDPEFFRVDDPKAPAFPADDLYSMVPLNDKRAYDIYNVIARLFDNSELHEYKKGYGPEMVTGLAKVNGLLVGVVANVQGLLMNYPEYKAAGSVGIGGKLYRQGLVKMNEFVTLCARDRLPIVWIQDTTGIDVGNDAEKAELLGLGQSLIYSIQTSHIPQFEITLRKGTAAAHYVLGGPQGNDTNAFSIGTAATEIAVMNGETAATAMYSRRLAKDRKAGKDLQPTIDKMNNLIQAFYTKSRPKVCAELGLVDEIVDMNKIRGYVEAFTEAAYQNPESICPFHQMILPRAIREFETFVKK GFYSMPRYFQNMPQVGKPLKKADAANEEQLKKIEEEIHQLIKEAQEAGKADADVNKRGELTALQRIEKLVEPGSWRPLNTLFNPQGNKNGSVAIVKGLGRVNGKWCVVVASDNKKLAGAWVPGQAECLLRASDTAKTLHVPLVYVLNCSGVKFDEQEKVYPNRRGGGTPFFRNAELNQLGIPVIVGIYGTNPAGGGYHSISPTVIIAHEKANMAVGGAGIMGGMNPKGHVDLEYANEIADMVDRTGKTEPPGAVDIHYTETGFMREVYASEEGVLEGIKKYVGMLPKYDPEFFRVDDPKAPAFPADDLYSMVPLNDKRAYDIYNVIARLFDNSELHEYKKGYGPEMVTGLAKVNGLLVGVVANVQGLLMNYPEYKAAGSVGIGGKLYRQGLVKMNEFVTLCARDRLPIVWIQDTTGIDVGNDAEKAELLGLGQSLIYSIQTSHIPQFEITLRKGTAAAHYVLGGPQGNDTNAFSIGTAATEIAVMNGETAATAMYSRRLAKDRKAGKDLQPTIDKMNNLIQAFYTKSRPKVCAELGLVDEIVDMNKIRGYVEAFTEAAYQNPESICPFHQMILPRAIREFETFVKK 1pj5-a1-m2-cA_1pj5-a1-m4-cA Crystal structure of dimethylglycine oxidase of Arthrobacter globiformis in complex with acetate Q9AGP8 Q9AGP8 1.61 X-RAY DIFFRACTION 107 1.0 1665 (Arthrobacter globiformis) 1665 (Arthrobacter globiformis) 827 827 1pj5-a1-m1-cA_1pj5-a1-m3-cA 1pj6-a1-m1-cA_1pj6-a1-m3-cA 1pj6-a1-m2-cA_1pj6-a1-m4-cA 1pj7-a1-m1-cA_1pj7-a1-m3-cA 1pj7-a1-m2-cA_1pj7-a1-m4-cA 3gsi-a1-m1-cA_3gsi-a1-m3-cA 3gsi-a1-m2-cA_3gsi-a1-m4-cA TPRIVIIGAGIVGTNLADELVTRGWNNITVLDQGPLNMPGGSTSHAPGLVFQTNPSKTMASFAKYTVEKLLSLTEDGVSCFNQVGGLEVATTETRLADLKRKLGYAAAWGIEGRLLSPAECQELYPLLDGENILGGLHVPSDGLASAARAVQLLIKRTESAGVTYRGSTTVTGIEQSGGRVTGVQTADGVIPADIVVSCAGFWGAKIGAMIGMAVPLLPLAHQYVKTTPVPAQQGRNDQPNGARLPILRHQDQDLYYREHGDRYGIGSYAHRPMPVDVDTLGAYAPETVSEHHMPSRLDFTLEDFLPAWEATKQLLPALADSEIEDGFNGIFSFTPDGGPLLGESKELDGFYVAEAVWVTHSAGVAKAMAELLTTGRSETDLGECDITRFEDVQLTPEYVSETSQQNFVEIYDVLHPLQPRLSPRNLRVSPFHARHKELGAFFLEAGGWERPYWFEANAALLKEMPAEWLPPARDAWSGMFSSPIAAAEAWKTRTAVAMYDMTPLKRLEVSGPGALKLLQELTTADLAKKPGAVTYTLLLDHAGGVRSDITVARLSEDTFQLGANGNIDTAYFERAARHQTQSGSATDWVQVRDTTGGTCCIGLWGPLARDLVSKVSDDDFTNDGLKYFRAKNVVIGGIPVTAMRLSYVGELGWELYTSADNGQRLWDALWQAGQPFGVIAAGRAAFSSLRLEKGYRSWGTDMTTEHDPFEAGLGFAVKMAKESFIGKGALEGRTEEASARRLRCLTIDDGRSIVLGKEPVFYKEQAVGYVTSAAYGYTVAKPIAYSYLPGTVSVGDSVDIEYFGRRITATVTEDPLYDPKMTRLRG TPRIVIIGAGIVGTNLADELVTRGWNNITVLDQGPLNMPGGSTSHAPGLVFQTNPSKTMASFAKYTVEKLLSLTEDGVSCFNQVGGLEVATTETRLADLKRKLGYAAAWGIEGRLLSPAECQELYPLLDGENILGGLHVPSDGLASAARAVQLLIKRTESAGVTYRGSTTVTGIEQSGGRVTGVQTADGVIPADIVVSCAGFWGAKIGAMIGMAVPLLPLAHQYVKTTPVPAQQGRNDQPNGARLPILRHQDQDLYYREHGDRYGIGSYAHRPMPVDVDTLGAYAPETVSEHHMPSRLDFTLEDFLPAWEATKQLLPALADSEIEDGFNGIFSFTPDGGPLLGESKELDGFYVAEAVWVTHSAGVAKAMAELLTTGRSETDLGECDITRFEDVQLTPEYVSETSQQNFVEIYDVLHPLQPRLSPRNLRVSPFHARHKELGAFFLEAGGWERPYWFEANAALLKEMPAEWLPPARDAWSGMFSSPIAAAEAWKTRTAVAMYDMTPLKRLEVSGPGALKLLQELTTADLAKKPGAVTYTLLLDHAGGVRSDITVARLSEDTFQLGANGNIDTAYFERAARHQTQSGSATDWVQVRDTTGGTCCIGLWGPLARDLVSKVSDDDFTNDGLKYFRAKNVVIGGIPVTAMRLSYVGELGWELYTSADNGQRLWDALWQAGQPFGVIAAGRAAFSSLRLEKGYRSWGTDMTTEHDPFEAGLGFAVKMAKESFIGKGALEGRTEEASARRLRCLTIDDGRSIVLGKEPVFYKEQAVGYVTSAAYGYTVAKPIAYSYLPGTVSVGDSVDIEYFGRRITATVTEDPLYDPKMTRLRG 1pj5-a1-m3-cA_1pj5-a1-m4-cA Crystal structure of dimethylglycine oxidase of Arthrobacter globiformis in complex with acetate Q9AGP8 Q9AGP8 1.61 X-RAY DIFFRACTION 48 1.0 1665 (Arthrobacter globiformis) 1665 (Arthrobacter globiformis) 827 827 1pj5-a1-m1-cA_1pj5-a1-m2-cA 1pj6-a1-m1-cA_1pj6-a1-m2-cA 1pj6-a1-m3-cA_1pj6-a1-m4-cA 1pj7-a1-m1-cA_1pj7-a1-m2-cA 1pj7-a1-m3-cA_1pj7-a1-m4-cA 3gsi-a1-m1-cA_3gsi-a1-m2-cA 3gsi-a1-m3-cA_3gsi-a1-m4-cA TPRIVIIGAGIVGTNLADELVTRGWNNITVLDQGPLNMPGGSTSHAPGLVFQTNPSKTMASFAKYTVEKLLSLTEDGVSCFNQVGGLEVATTETRLADLKRKLGYAAAWGIEGRLLSPAECQELYPLLDGENILGGLHVPSDGLASAARAVQLLIKRTESAGVTYRGSTTVTGIEQSGGRVTGVQTADGVIPADIVVSCAGFWGAKIGAMIGMAVPLLPLAHQYVKTTPVPAQQGRNDQPNGARLPILRHQDQDLYYREHGDRYGIGSYAHRPMPVDVDTLGAYAPETVSEHHMPSRLDFTLEDFLPAWEATKQLLPALADSEIEDGFNGIFSFTPDGGPLLGESKELDGFYVAEAVWVTHSAGVAKAMAELLTTGRSETDLGECDITRFEDVQLTPEYVSETSQQNFVEIYDVLHPLQPRLSPRNLRVSPFHARHKELGAFFLEAGGWERPYWFEANAALLKEMPAEWLPPARDAWSGMFSSPIAAAEAWKTRTAVAMYDMTPLKRLEVSGPGALKLLQELTTADLAKKPGAVTYTLLLDHAGGVRSDITVARLSEDTFQLGANGNIDTAYFERAARHQTQSGSATDWVQVRDTTGGTCCIGLWGPLARDLVSKVSDDDFTNDGLKYFRAKNVVIGGIPVTAMRLSYVGELGWELYTSADNGQRLWDALWQAGQPFGVIAAGRAAFSSLRLEKGYRSWGTDMTTEHDPFEAGLGFAVKMAKESFIGKGALEGRTEEASARRLRCLTIDDGRSIVLGKEPVFYKEQAVGYVTSAAYGYTVAKPIAYSYLPGTVSVGDSVDIEYFGRRITATVTEDPLYDPKMTRLRG TPRIVIIGAGIVGTNLADELVTRGWNNITVLDQGPLNMPGGSTSHAPGLVFQTNPSKTMASFAKYTVEKLLSLTEDGVSCFNQVGGLEVATTETRLADLKRKLGYAAAWGIEGRLLSPAECQELYPLLDGENILGGLHVPSDGLASAARAVQLLIKRTESAGVTYRGSTTVTGIEQSGGRVTGVQTADGVIPADIVVSCAGFWGAKIGAMIGMAVPLLPLAHQYVKTTPVPAQQGRNDQPNGARLPILRHQDQDLYYREHGDRYGIGSYAHRPMPVDVDTLGAYAPETVSEHHMPSRLDFTLEDFLPAWEATKQLLPALADSEIEDGFNGIFSFTPDGGPLLGESKELDGFYVAEAVWVTHSAGVAKAMAELLTTGRSETDLGECDITRFEDVQLTPEYVSETSQQNFVEIYDVLHPLQPRLSPRNLRVSPFHARHKELGAFFLEAGGWERPYWFEANAALLKEMPAEWLPPARDAWSGMFSSPIAAAEAWKTRTAVAMYDMTPLKRLEVSGPGALKLLQELTTADLAKKPGAVTYTLLLDHAGGVRSDITVARLSEDTFQLGANGNIDTAYFERAARHQTQSGSATDWVQVRDTTGGTCCIGLWGPLARDLVSKVSDDDFTNDGLKYFRAKNVVIGGIPVTAMRLSYVGELGWELYTSADNGQRLWDALWQAGQPFGVIAAGRAAFSSLRLEKGYRSWGTDMTTEHDPFEAGLGFAVKMAKESFIGKGALEGRTEEASARRLRCLTIDDGRSIVLGKEPVFYKEQAVGYVTSAAYGYTVAKPIAYSYLPGTVSVGDSVDIEYFGRRITATVTEDPLYDPKMTRLRG 1pjc-a1-m2-cA_1pjc-a1-m6-cA L-ALANINE DEHYDROGENASE COMPLEXED WITH NAD O52942 O52942 2 X-RAY DIFFRACTION 121 1.0 32060 (Phormidium lapideum) 32060 (Phormidium lapideum) 361 361 1pjb-a1-m1-cA_1pjb-a1-m4-cA 1pjb-a1-m2-cA_1pjb-a1-m6-cA 1pjb-a1-m3-cA_1pjb-a1-m5-cA 1pjc-a1-m1-cA_1pjc-a1-m4-cA 1pjc-a1-m3-cA_1pjc-a1-m5-cA 1say-a1-m1-cA_1say-a1-m4-cA 1say-a1-m2-cA_1say-a1-m6-cA 1say-a1-m3-cA_1say-a1-m5-cA MEIGVPKEIKNQEFRVGLSPSSVRTLVEAGHTVFIETQAGIGAGFADQDYVQAGAQVVPSAKDAWSREMVVKVKEPLPAEYDLMQKDQLLFTYLHLAAARELTEQLMRVGLTAIAYETVELPNRSLPLLTPMSIIAGRLSVQFGARFLERQQGGRGVLLGGVPGVKPGKVVILGGGVVGTEAAKMAVGLGAQVQIFDINVERLSYLETLFGSRVELLYSNSAEIETAVAEADLLIGAVLVPGRRAPILVPASLVEQMRTGSVIVDVAVDQGGCVETLHPTSHTQPTYEVFGVVHYGVPNMPGAVPWTATQALNNSTLPYVVKLANQGLKALETDDALAKGLNVQAHRLVHPAVQQVFPDLA MEIGVPKEIKNQEFRVGLSPSSVRTLVEAGHTVFIETQAGIGAGFADQDYVQAGAQVVPSAKDAWSREMVVKVKEPLPAEYDLMQKDQLLFTYLHLAAARELTEQLMRVGLTAIAYETVELPNRSLPLLTPMSIIAGRLSVQFGARFLERQQGGRGVLLGGVPGVKPGKVVILGGGVVGTEAAKMAVGLGAQVQIFDINVERLSYLETLFGSRVELLYSNSAEIETAVAEADLLIGAVLVPGRRAPILVPASLVEQMRTGSVIVDVAVDQGGCVETLHPTSHTQPTYEVFGVVHYGVPNMPGAVPWTATQALNNSTLPYVVKLANQGLKALETDDALAKGLNVQAHRLVHPAVQQVFPDLA 1pjc-a1-m3-cA_1pjc-a1-m6-cA L-ALANINE DEHYDROGENASE COMPLEXED WITH NAD O52942 O52942 2 X-RAY DIFFRACTION 49 1.0 32060 (Phormidium lapideum) 32060 (Phormidium lapideum) 361 361 1pjb-a1-m1-cA_1pjb-a1-m5-cA 1pjb-a1-m2-cA_1pjb-a1-m4-cA 1pjb-a1-m3-cA_1pjb-a1-m6-cA 1pjc-a1-m1-cA_1pjc-a1-m5-cA 1pjc-a1-m2-cA_1pjc-a1-m4-cA 1say-a1-m1-cA_1say-a1-m5-cA 1say-a1-m2-cA_1say-a1-m4-cA 1say-a1-m3-cA_1say-a1-m6-cA MEIGVPKEIKNQEFRVGLSPSSVRTLVEAGHTVFIETQAGIGAGFADQDYVQAGAQVVPSAKDAWSREMVVKVKEPLPAEYDLMQKDQLLFTYLHLAAARELTEQLMRVGLTAIAYETVELPNRSLPLLTPMSIIAGRLSVQFGARFLERQQGGRGVLLGGVPGVKPGKVVILGGGVVGTEAAKMAVGLGAQVQIFDINVERLSYLETLFGSRVELLYSNSAEIETAVAEADLLIGAVLVPGRRAPILVPASLVEQMRTGSVIVDVAVDQGGCVETLHPTSHTQPTYEVFGVVHYGVPNMPGAVPWTATQALNNSTLPYVVKLANQGLKALETDDALAKGLNVQAHRLVHPAVQQVFPDLA MEIGVPKEIKNQEFRVGLSPSSVRTLVEAGHTVFIETQAGIGAGFADQDYVQAGAQVVPSAKDAWSREMVVKVKEPLPAEYDLMQKDQLLFTYLHLAAARELTEQLMRVGLTAIAYETVELPNRSLPLLTPMSIIAGRLSVQFGARFLERQQGGRGVLLGGVPGVKPGKVVILGGGVVGTEAAKMAVGLGAQVQIFDINVERLSYLETLFGSRVELLYSNSAEIETAVAEADLLIGAVLVPGRRAPILVPASLVEQMRTGSVIVDVAVDQGGCVETLHPTSHTQPTYEVFGVVHYGVPNMPGAVPWTATQALNNSTLPYVVKLANQGLKALETDDALAKGLNVQAHRLVHPAVQQVFPDLA 1pjc-a1-m5-cA_1pjc-a1-m6-cA L-ALANINE DEHYDROGENASE COMPLEXED WITH NAD O52942 O52942 2 X-RAY DIFFRACTION 21 1.0 32060 (Phormidium lapideum) 32060 (Phormidium lapideum) 361 361 1pjb-a1-m1-cA_1pjb-a1-m2-cA 1pjb-a1-m1-cA_1pjb-a1-m3-cA 1pjb-a1-m2-cA_1pjb-a1-m3-cA 1pjb-a1-m4-cA_1pjb-a1-m5-cA 1pjb-a1-m4-cA_1pjb-a1-m6-cA 1pjb-a1-m5-cA_1pjb-a1-m6-cA 1pjc-a1-m1-cA_1pjc-a1-m2-cA 1pjc-a1-m1-cA_1pjc-a1-m3-cA 1pjc-a1-m2-cA_1pjc-a1-m3-cA 1pjc-a1-m4-cA_1pjc-a1-m5-cA 1pjc-a1-m4-cA_1pjc-a1-m6-cA 1say-a1-m1-cA_1say-a1-m2-cA 1say-a1-m1-cA_1say-a1-m3-cA 1say-a1-m2-cA_1say-a1-m3-cA 1say-a1-m4-cA_1say-a1-m5-cA 1say-a1-m4-cA_1say-a1-m6-cA 1say-a1-m5-cA_1say-a1-m6-cA MEIGVPKEIKNQEFRVGLSPSSVRTLVEAGHTVFIETQAGIGAGFADQDYVQAGAQVVPSAKDAWSREMVVKVKEPLPAEYDLMQKDQLLFTYLHLAAARELTEQLMRVGLTAIAYETVELPNRSLPLLTPMSIIAGRLSVQFGARFLERQQGGRGVLLGGVPGVKPGKVVILGGGVVGTEAAKMAVGLGAQVQIFDINVERLSYLETLFGSRVELLYSNSAEIETAVAEADLLIGAVLVPGRRAPILVPASLVEQMRTGSVIVDVAVDQGGCVETLHPTSHTQPTYEVFGVVHYGVPNMPGAVPWTATQALNNSTLPYVVKLANQGLKALETDDALAKGLNVQAHRLVHPAVQQVFPDLA MEIGVPKEIKNQEFRVGLSPSSVRTLVEAGHTVFIETQAGIGAGFADQDYVQAGAQVVPSAKDAWSREMVVKVKEPLPAEYDLMQKDQLLFTYLHLAAARELTEQLMRVGLTAIAYETVELPNRSLPLLTPMSIIAGRLSVQFGARFLERQQGGRGVLLGGVPGVKPGKVVILGGGVVGTEAAKMAVGLGAQVQIFDINVERLSYLETLFGSRVELLYSNSAEIETAVAEADLLIGAVLVPGRRAPILVPASLVEQMRTGSVIVDVAVDQGGCVETLHPTSHTQPTYEVFGVVHYGVPNMPGAVPWTATQALNNSTLPYVVKLANQGLKALETDDALAKGLNVQAHRLVHPAVQQVFPDLA 1pju-a6-m1-cB_1pju-a6-m1-cD Unbound form of Tomato Inhibitor-II P05119 P05119 2.15 X-RAY DIFFRACTION 58 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 113 114 1pju-a5-m1-cB_1pju-a5-m1-cD 1pju-a5-m2-cB_1pju-a5-m2-cD 1pju-a6-m1-cC_1pju-a6-m1-cA CTRECGNLGFGICPRSEGSPLNPICINCCSGYKGCNYYNSFGKFICEGESDPKRPNACTFNCDPNIAYSRCPRSQGKSLIYPTGCTTCCTGYKGCYYFGKDGKFVCEGESDEP ACTRECGNLGFGICPRSEGSPLNPICINCCSGYKGCNYYNSFGKFICEGESDPKRPNACTFNCDPNIAYSRCPRSQGKSLIYPTGCTTCCTGYKGCYYFGKDGKFVCEGESDEP 1pju-a6-m1-cD_1pju-a6-m1-cA Unbound form of Tomato Inhibitor-II P05119 P05119 2.15 X-RAY DIFFRACTION 29 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 114 115 ACTRECGNLGFGICPRSEGSPLNPICINCCSGYKGCNYYNSFGKFICEGESDPKRPNACTFNCDPNIAYSRCPRSQGKSLIYPTGCTTCCTGYKGCYYFGKDGKFVCEGESDEP ACTRECGNLGFGICPRSEGSPLNPICINCCSGYKGCNYYNSFGKFICEGESDPKRPNACTFNCDPNIAYSRCPRSQGKSLIYPTGCTTCCTGYKGCYYFGKDGKFVCEGESDEPK 1pk8-a2-m1-cE_1pk8-a2-m1-cF Crystal Structure of Rat Synapsin I C Domain Complexed to Ca.ATP P09951 P09951 2.1 X-RAY DIFFRACTION 123 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 286 286 1auv-a1-m1-cA_1auv-a1-m2-cA 1auv-a1-m1-cB_1auv-a1-m2-cB 1aux-a1-m1-cA_1aux-a1-m2-cA 1aux-a1-m1-cB_1aux-a1-m2-cB 1pk8-a1-m1-cB_1pk8-a1-m1-cA 1pk8-a1-m1-cC_1pk8-a1-m1-cD 1pk8-a2-m1-cH_1pk8-a2-m1-cG 1px2-a1-m1-cA_1px2-a1-m1-cB 1px2-a1-m2-cA_1px2-a1-m2-cB AARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDMEVRSLKPDFVLIRQHAFSMARNGDYRSLVIGLQYAGIPSVNSLHSVYNFCDKPWVFAQMVRLHKKLGTEEFPLIDQTFYPNHKEMLSSTTYPVVVKMGHAHSGMGKVKVDNQHDFQDIASVVALTKTYATAEPFIDAKYDVRVQKIGQNYKAYMRTWKTLEQIAMSDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSMPLIGDHQDEDKQLIVELVVNKMTQ ARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDMEVRSLKPDFVLIRQHAFSMARNGDYRSLVIGLQYAGIPSVNSLHSVYNFCDKPWVFAQMVRLHKKLGTEEFPLIDQTFYPNHKEMLSSTTYPVVVKMGHAHSGMGKVKVDNQHDFQDIASVVALTKTYATAEPFIDAKYDVRVQKIGQNYKAYMRTWKTLEQIAMSDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSMPLIGDHQDEDKQLIVELVVNKMTQA 1pk8-a2-m1-cE_1pk8-a2-m1-cH Crystal Structure of Rat Synapsin I C Domain Complexed to Ca.ATP P09951 P09951 2.1 X-RAY DIFFRACTION 73 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 286 286 1pk8-a1-m1-cB_1pk8-a1-m1-cD 1pk8-a1-m1-cC_1pk8-a1-m1-cA 1pk8-a2-m1-cF_1pk8-a2-m1-cG 1px2-a1-m1-cA_1px2-a1-m2-cB 1px2-a1-m1-cB_1px2-a1-m2-cA AARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDMEVRSLKPDFVLIRQHAFSMARNGDYRSLVIGLQYAGIPSVNSLHSVYNFCDKPWVFAQMVRLHKKLGTEEFPLIDQTFYPNHKEMLSSTTYPVVVKMGHAHSGMGKVKVDNQHDFQDIASVVALTKTYATAEPFIDAKYDVRVQKIGQNYKAYMRTWKTLEQIAMSDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSMPLIGDHQDEDKQLIVELVVNKMTQ AARVLLVIDEPHTDWAKYFKGKKIHGEIDIKVEQAEFSDLNLVAHANGGFSVDMEVRSLKPDFVLIRQHAFSMARNGDYRSLVIGLQYAGIPSVNSLHSVYNFCDKPWVFAQMVRLHKKLGTEEFPLIDQTFYPNHKEMLSSTTYPVVVKMGHAHSGMGKVKVDNQHDFQDIASVVALTKTYATAEPFIDAKYDVRVQKIGQNYKAYMRTWKLEQIAMSDRYKLWVDTCSEIFGGLDICAVEALHGKDGRDHIIEVVGSSMPLIGDHQDEDKQLIVELVVNKMTQA 1pkh-a1-m6-cB_1pkh-a1-m1-cA STRUCTURAL BASIS FOR RECOGNITION AND CATALYSIS BY THE BIFUNCTIONAL DCTP DEAMINASE AND DUTPASE FROM METHANOCOCCUS JANNASCHII Q57872 Q57872 1.42 X-RAY DIFFRACTION 12 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 175 182 1pkh-a1-m4-cB_1pkh-a1-m2-cA 1pkh-a1-m5-cB_1pkh-a1-m3-cA 1pkj-a1-m1-cB_1pkj-a1-m5-cA 1pkj-a1-m2-cB_1pkj-a1-m6-cA 1pkj-a1-m3-cB_1pkj-a1-m4-cA 1pkk-a1-m1-cB_1pkk-a1-m6-cA 1pkk-a1-m2-cB_1pkk-a1-m4-cA 1pkk-a1-m3-cB_1pkk-a1-m5-cA 2hxb-a2-m1-cA_2hxb-a2-m6-cA 2hxb-a2-m2-cA_2hxb-a2-m5-cA 2hxb-a2-m3-cA_2hxb-a2-m4-cA MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLEIVAFDKPVILYKNQRIGQLIFSKLLSPADV MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLEIVAFDKPVILYKNQRIGQLIFSKLLSPADVGYSERKT 1pkp-a1-m1-cA_1pkp-a1-m2-cA THE STRUCTURE OF RIBOSOMAL PROTEIN S5 REVEALS SITES OF INTERACTION WITH 16S RRNA P02357 P02357 2.8 X-RAY DIFFRACTION 69 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 145 145 INPNKLELEERVVAVNRVAKVVKGGRRLRFSALVVVGDKNGHVGFGTGKAQEVPEAIRKAIEDAKKNLIEVPIVGTTIPHEVIGHFGAGEIILKPASEGTGVIAGGPARAVLELAGISDILSKSIGSNTPINMVRATFDGLKQLK INPNKLELEERVVAVNRVAKVVKGGRRLRFSALVVVGDKNGHVGFGTGKAQEVPEAIRKAIEDAKKNLIEVPIVGTTIPHEVIGHFGAGEIILKPASEGTGVIAGGPARAVLELAGISDILSKSIGSNTPINMVRATFDGLKQLK 1pku-a2-m1-cH_1pku-a2-m1-cL Crystal Structure of Nucleoside Diphosphate Kinase from Rice Q07661 Q07661 2.5 X-RAY DIFFRACTION 52 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 149 149 1pku-a1-m1-cA_1pku-a1-m1-cC 1pku-a1-m1-cA_1pku-a1-m1-cD 1pku-a1-m1-cB_1pku-a1-m1-cE 1pku-a1-m1-cB_1pku-a1-m1-cF 1pku-a1-m1-cC_1pku-a1-m1-cD 1pku-a1-m1-cE_1pku-a1-m1-cF 1pku-a2-m1-cG_1pku-a2-m1-cI 1pku-a2-m1-cG_1pku-a2-m1-cJ 1pku-a2-m1-cH_1pku-a2-m1-cK 1pku-a2-m1-cI_1pku-a2-m1-cJ 1pku-a2-m1-cK_1pku-a2-m1-cL RMEQSFIMIKPDGVQRGLIGDIISRFEKKGFYLRGMKFMNVERSFAQQHYADLSDKPFFPGLVEYIISGPVVAMVWEGKDVVATGRRIIGATRPWEAAPGTIRADYAVEVGRNVIHGSDSVDNGKKEIALWFPEGLAEWRSNLHPWIYE RMEQSFIMIKPDGVQRGLIGDIISRFEKKGFYLRGMKFMNVERSFAQQHYADLSDKPFFPGLVEYIISGPVVAMVWEGKDVVATGRRIIGATRPWEAAPGTIRADYAVEVGRNVIHGSDSVDNGKKEIALWFPEGLAEWRSNLHPWIYE 1pku-a2-m1-cI_1pku-a2-m1-cL Crystal Structure of Nucleoside Diphosphate Kinase from Rice Q07661 Q07661 2.5 X-RAY DIFFRACTION 73 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 149 149 1pku-a1-m1-cA_1pku-a1-m1-cB 1pku-a1-m1-cC_1pku-a1-m1-cF 1pku-a1-m1-cD_1pku-a1-m1-cE 1pku-a2-m1-cG_1pku-a2-m1-cH 1pku-a2-m1-cJ_1pku-a2-m1-cK RMEQSFIMIKPDGVQRGLIGDIISRFEKKGFYLRGMKFMNVERSFAQQHYADLSDKPFFPGLVEYIISGPVVAMVWEGKDVVATGRRIIGATRPWEAAPGTIRADYAVEVGRNVIHGSDSVDNGKKEIALWFPEGLAEWRSNLHPWIYE RMEQSFIMIKPDGVQRGLIGDIISRFEKKGFYLRGMKFMNVERSFAQQHYADLSDKPFFPGLVEYIISGPVVAMVWEGKDVVATGRRIIGATRPWEAAPGTIRADYAVEVGRNVIHGSDSVDNGKKEIALWFPEGLAEWRSNLHPWIYE 1pkv-a1-m1-cA_1pkv-a1-m1-cB The N-terminal domain of riboflavin synthase in complex with riboflavin P0AFU8 P0AFU8 2.6 X-RAY DIFFRACTION 79 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 87 1hze-a1-m1-cA_1hze-a1-m1-cB 1i18-a1-m1-cA_1i18-a1-m1-cB MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERA MFTGIVQGTAKLVSIDEKPNFRTHVVELPDHMLDGLETGASVAHNGCCLTVTEINGNHVSFDLMKETLRITNLGDLKVGDWVNVERA 1pl0-a2-m1-cD_1pl0-a2-m1-cC Crystal structure of human ATIC in complex with folate-based inhibitor, BW2315U89UC P31939 P31939 2.6 X-RAY DIFFRACTION 380 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 579 585 1p4r-a1-m1-cB_1p4r-a1-m1-cA 1pkx-a1-m1-cA_1pkx-a1-m1-cB 1pkx-a2-m1-cC_1pkx-a2-m1-cD 1pl0-a1-m1-cB_1pl0-a1-m1-cA 5uy8-a1-m1-cA_5uy8-a1-m1-cB 5uy8-a2-m1-cC_5uy8-a2-m1-cD 5uz0-a1-m1-cA_5uz0-a1-m1-cB 5uz0-a2-m1-cD_5uz0-a2-m1-cC GQLALFSVSDKTGLVEFARNLTALGLNLVASGGTAKALRDAGLAVRDVSELTGFPEMLGGRVKTLHPAVHAGILARNIPEDNADMARLDFNLIRVVACNLYPFVKTVASPGVTVEEAVEQIDIGGVTLLRAAAKNHARVTVVCEPEDYVVVSTEMQSSESKDTSLETRRQLALKAFTHTAQYDEAISDYFRKQYSKGVSQMPLRYGMNPHQTPAQLYTLQPKLPITVLNGAPGFINLCDALNAWQLVKELKEALGIPAAASFKHVSPAGAAVGIPLSEDEAKVCMVYDLYKTLTPISAAYARARGADRMSSFGDFVALSDVCDVPTAKIISREVSDGIIAPGYEEEALTILSKKKNGNYCVLQMDQSYKPDENEVRTLFGLHLSQKRNNGVVDKSLFSNVVTKNKDLPESALRDLIVATIAVKYTQSNSVCYAKNGQVIGIGAGQQSRIHCTRLAGDKANYWWLRHHPQVLSMISNAIDQYVTGTIGEDEDLIKWKALFEEVPELLTEAEKKEWVEKLTEVSISSDAFFPFRDNVDRAKRSGVAYIAAPSGSAADKVVIEACDELGIILAHTNLRLFHH QLALFSVSDKTGLVEFARNLTALGLNLVASGGTAKALRDAGLAVRDVSELTGFPEMLGGRVKTLHPAVHAGILARNIPEDNADMARLDFNLIRVVACNLYPFVKTVASPGVTVEEAVEQIDIGGVTLLRAAAKNHARVTVVCEPEDYVVVSTEMQSSESKDTSLETRRQLALKAFTHTAQYDEAISDYFRKQYSKGVSQMPLRYGMNPHQTPAQLYTLQPKLPITVLNGAPGFINLCDALNAWQLVKELKEALGIPAAASFKHVSPAGAAVGIPLSEDEAKVCMVYDLYKTLTPISAAYARARGADRMSSFGDFVALSDVCDVPTAKIISREVSDGIIAPGYEEEALTILSKKKNGNYCVLQMDQSYKPDENEVRTLFGLHLSQKRNNGVVDKSLFSNVVTKNKDLPESALRDLIVATIAVKYTQSNSVCYAKNGQVIGIGAGQQSRIHCTRLAGDKANYWWLRHHPQVLSMKFKTGAEISNAIDQYVTGTIGEDEDLIKWKALFEEVPELLTEAEKKEWVEKLTEVSISSDAFFPFRDNVDRAKRSGVAYIAAPSGSAADKVVIEACDELGIILAHTNLRLFHH 1pl5-a1-m1-cA_1pl5-a1-m1-cS Crystal Structure Analysis of the Sir4p C-terminal Coiled Coil P11978 P11978 2.5 X-RAY DIFFRACTION 107 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 75 76 1nyh-a1-m1-cA_1nyh-a1-m2-cA SFVDIVLSKAASALDEKEKQLAVANEIIRSLSDEVMRNEIRITSLQGDLTFTKKCLENARSQISEKDAKINKLME SFVDIVLSKAASALDEKEKQLAVANEIIRSLSDEVMRNEIRITSLQGDLTFTKKCLENARSQISEKDAKINKLMEK 1pl8-a1-m1-cA_1pl8-a1-m2-cB human SDH/NAD+ complex Q00796 Q00796 1.9 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 1pl6-a1-m1-cA_1pl6-a1-m2-cB 1pl6-a1-m1-cB_1pl6-a1-m2-cA 1pl7-a1-m1-cA_1pl7-a1-m2-cB 1pl7-a1-m1-cB_1pl7-a1-m2-cA 1pl8-a1-m1-cB_1pl8-a1-m2-cA AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP 1pl8-a1-m1-cB_1pl8-a1-m2-cB human SDH/NAD+ complex Q00796 Q00796 1.9 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 1pl6-a1-m1-cA_1pl6-a1-m2-cA 1pl6-a1-m1-cB_1pl6-a1-m2-cB 1pl7-a1-m1-cA_1pl7-a1-m2-cA 1pl7-a1-m1-cB_1pl7-a1-m2-cB 1pl8-a1-m1-cA_1pl8-a1-m2-cA AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP 1pl8-a3-m1-cA_1pl8-a3-m1-cD human SDH/NAD+ complex Q00796 Q00796 1.9 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 1pl6-a3-m1-cA_1pl6-a3-m1-cD 1pl7-a3-m1-cA_1pl7-a3-m1-cD AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP 1pl8-a3-m1-cC_1pl8-a3-m1-cD human SDH/NAD+ complex Q00796 Q00796 1.9 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 1pl6-a1-m1-cA_1pl6-a1-m1-cB 1pl6-a1-m2-cA_1pl6-a1-m2-cB 1pl6-a2-m1-cC_1pl6-a2-m1-cD 1pl6-a3-m1-cA_1pl6-a3-m1-cB 1pl6-a3-m1-cC_1pl6-a3-m1-cD 1pl7-a1-m1-cA_1pl7-a1-m1-cB 1pl7-a1-m2-cA_1pl7-a1-m2-cB 1pl7-a2-m1-cC_1pl7-a2-m1-cD 1pl7-a3-m1-cA_1pl7-a3-m1-cB 1pl7-a3-m1-cC_1pl7-a3-m1-cD 1pl8-a1-m1-cA_1pl8-a1-m1-cB 1pl8-a1-m2-cA_1pl8-a1-m2-cB 1pl8-a2-m1-cC_1pl8-a2-m1-cD 1pl8-a3-m1-cA_1pl8-a3-m1-cB AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP AAAAKPNNLSLVVHGPGDLRLENYPIPEPGPNEVLLRMHSVGICGSDVHYWEYGRIGNFIVKKPMVLGHEASGTVEKVGSSVKHLKPGDRVAIEPGAPRENDEFCKMGRYNLSPSIFFCATPPDDGNLCRFYKHNAAFCYKLPDNVTFEEGALIEPLSVGIHACRRGGVTLGHKVLVCGAGPIGMVTLLVAKAMGAAQVVVTDLSATRLSKAKEIGADLVLQISKESPQEIARKVEGQLGCKPEVTIECTGAEASIQAGIYATRSGGTLVLVGLGSEMTTVPLLHAAIREVDIKGVFRYCNTWPVAISMLASKSVNVKPLVTHRFPLEKALEAFETFKKGLGLKIMLKCDPSDQNP 1plf-a1-m1-cA_1plf-a1-m1-cC THE THREE-DIMENSIONAL STRUCTURE OF BOVINE PLATELET FACTOR 4 AT 3.0 ANGSTROMS RESOLUTION P02777 P02777 2.2 X-RAY DIFFRACTION 42 1.0 9913 (Bos taurus) 9913 (Bos taurus) 63 63 LQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS LQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS 1plf-a1-m1-cA_1plf-a1-m1-cD THE THREE-DIMENSIONAL STRUCTURE OF BOVINE PLATELET FACTOR 4 AT 3.0 ANGSTROMS RESOLUTION P02777 P02777 2.2 X-RAY DIFFRACTION 12 1.0 9913 (Bos taurus) 9913 (Bos taurus) 63 65 1plf-a1-m1-cC_1plf-a1-m1-cB LQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS EDLQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS 1plf-a1-m1-cB_1plf-a1-m1-cD THE THREE-DIMENSIONAL STRUCTURE OF BOVINE PLATELET FACTOR 4 AT 3.0 ANGSTROMS RESOLUTION P02777 P02777 2.2 X-RAY DIFFRACTION 49 1.0 9913 (Bos taurus) 9913 (Bos taurus) 65 65 EDLQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS EDLQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS 1plf-a1-m1-cC_1plf-a1-m1-cD THE THREE-DIMENSIONAL STRUCTURE OF BOVINE PLATELET FACTOR 4 AT 3.0 ANGSTROMS RESOLUTION P02777 P02777 2.2 X-RAY DIFFRACTION 50 1.0 9913 (Bos taurus) 9913 (Bos taurus) 63 65 1plf-a1-m1-cA_1plf-a1-m1-cB LQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS EDLQCVCLKTTSGINPRHISSLEVIGAGLHCPSPQLIATLKTGRKICLDQQNPLYKKIIKRLLKS 1plj-a1-m1-cA_1plj-a1-m2-cA CRYSTALLOGRAPHIC STUDIES ON P21H-RAS USING SYNCHROTRON LAUE METHOD: IMPROVEMENT OF CRYSTAL QUALITY AND MONITORING OF THE GTPASE REACTION AT DIFFERENT TIME POINTS P01112 P01112 2.8 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 147 MTEYKLVVGAPGGKSALTILIQNHFVDEYPTIEDYRKQVIDGETCLLDIDTAGSAMDQYMTGGFLCFAINNTSEDIHQYREQIKRVKDSDDVPMVLVGNKCDLAARVESRQAQDLARSYGIPYIETSAKTRQGVEDAFYTLVREIQH MTEYKLVVGAPGGKSALTILIQNHFVDEYPTIEDYRKQVIDGETCLLDIDTAGSAMDQYMTGGFLCFAINNTSEDIHQYREQIKRVKDSDDVPMVLVGNKCDLAARVESRQAQDLARSYGIPYIETSAKTRQGVEDAFYTLVREIQH 1plk-a1-m1-cA_1plk-a1-m2-cA CRYSTALLOGRAPHIC STUDIES ON P21H-RAS USING SYNCHROTRON LAUE METHOD: IMPROVEMENT OF CRYSTAL QUALITY AND MONITORING OF THE GTPASE REACTION AT DIFFERENT TIME POINTS P01112 P01112 2.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 MTEYKLVVGGGKSALTQIQNHFVYDIEDSYRKQVVIDGTCLLDDTAGQEEYSAMRDYMRTGEGFVFAINNTKSFEDIHQYREQIKRKDSDDVPMLVGNKCDLAGRTVESRQADARSYGIETSAKTRQVEDAFYLVREIRQH MTEYKLVVGGGKSALTQIQNHFVYDIEDSYRKQVVIDGTCLLDDTAGQEEYSAMRDYMRTGEGFVFAINNTKSFEDIHQYREQIKRKDSDDVPMLVGNKCDLAGRTVESRQADARSYGIETSAKTRQVEDAFYLVREIRQH 1pll-a1-m1-cA_1pll-a1-m2-cA CRYSTALLOGRAPHIC STUDIES ON P21H-RAS USING SYNCHROTRON LAUE METHOD: IMPROVEMENT OF CRYSTAL QUALITY AND MONITORING OF THE GTPASE REACTION AT DIFFERENT TIME POINTS P01112 P01112 2.8 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 MTEYKLVVVGAPGVGSALTIQLIQNHFVEYDPTIEDSYRKVVDGETCLLILDTAGYSAMRDQYMRTGEGFLCVFAINNTKSFEDHQYREQIKRVKDSDVPMVLVGNKCDLAARTVESRQAQDLARSYGIYIETSAKRQGVEDAFYTLVREIRQH MTEYKLVVVGAPGVGSALTIQLIQNHFVEYDPTIEDSYRKVVDGETCLLILDTAGYSAMRDQYMRTGEGFLCVFAINNTKSFEDHQYREQIKRVKDSDVPMVLVGNKCDLAARTVESRQAQDLARSYGIYIETSAKRQGVEDAFYTLVREIRQH 1pm3-a1-m1-cB_1pm3-a1-m1-cA MTH1859 O27887 O27887 3.15 X-RAY DIFFRACTION 66 0.985 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 68 69 HMRIVEEMVGKEVLDSSAKVIGKVKDVEVDIESQAIESLVLGKGKGETIVPYEMVKKIGDKILLKGPE HMRIVEEMVGKEVLDSSAKVIGKVKDVEVDIESQAIESLVLGKGGGETIVPYEMVKKIGDKILLKGPEE 1pm4-a1-m1-cB_1pm4-a1-m1-cC Crystal structure of Yersinia pseudotuberculosis-derived mitogen (YPM) Q57221 Q57221 1.755 X-RAY DIFFRACTION 23 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 117 117 1pm4-a1-m1-cA_1pm4-a1-m1-cB 1pm4-a1-m1-cA_1pm4-a1-m1-cC IPNIATYTGTIQGKGEVCIIGNKEGKTRGGELYAVLHSTNVNADMTLILLRNVGGNGWGEIKRNDIDKPLKYEDYYTSGLSWIWKIKNNSSETSNYSLDATVHDDKEDSDVLTKCPV IPNIATYTGTIQGKGEVCIIGNKEGKTRGGELYAVLHSTNVNADMTLILLRNVGGNGWGEIKRNDIDKPLKYEDYYTSGLSWIWKIKNNSSETSNYSLDATVHDDKEDSDVLTKCPV 1pmo-a1-m1-cC_1pmo-a1-m1-cD Crystal structure of Escherichia coli GadB (neutral pH) P69910 P69910 2.3 X-RAY DIFFRACTION 365 1.0 562 (Escherichia coli) 562 (Escherichia coli) 454 454 1pmm-a1-m1-cA_1pmm-a1-m1-cB 1pmm-a1-m1-cC_1pmm-a1-m1-cD 1pmm-a1-m1-cE_1pmm-a1-m1-cF 1pmo-a1-m1-cA_1pmo-a1-m1-cB 1pmo-a1-m1-cF_1pmo-a1-m1-cE 1xey-a1-m1-cA_1xey-a1-m1-cB 1xey-a1-m2-cA_1xey-a1-m2-cB 1xey-a1-m3-cA_1xey-a1-m3-cB 2dgk-a1-m1-cA_2dgk-a1-m1-cB 2dgk-a1-m1-cC_2dgk-a1-m1-cD 2dgk-a1-m1-cE_2dgk-a1-m1-cF 2dgk-a2-m1-cC_2dgk-a2-m1-cD 2dgk-a3-m1-cA_2dgk-a3-m1-cB 2dgk-a4-m1-cE_2dgk-a4-m1-cF 2dgl-a1-m1-cA_2dgl-a1-m1-cB 2dgl-a1-m1-cD_2dgl-a1-m1-cC 2dgl-a1-m1-cF_2dgl-a1-m1-cE 2dgm-a1-m1-cB_2dgm-a1-m1-cA 2dgm-a1-m1-cC_2dgm-a1-m1-cD 2dgm-a1-m1-cE_2dgm-a1-m1-cF 3fz6-a1-m1-cA_3fz6-a1-m1-cB 3fz6-a1-m1-cC_3fz6-a1-m1-cD 3fz6-a1-m1-cF_3fz6-a1-m1-cE 3fz7-a1-m1-cA_3fz7-a1-m1-cF 3fz7-a1-m1-cB_3fz7-a1-m1-cC 3fz7-a1-m1-cD_3fz7-a1-m1-cE 3fz8-a1-m1-cA_3fz8-a1-m1-cB 3fz8-a1-m1-cC_3fz8-a1-m1-cD 3fz8-a1-m1-cF_3fz8-a1-m1-cE 7jzh-a1-m1-cA_7jzh-a1-m1-cD 7jzh-a1-m1-cB_7jzh-a1-m1-cC 7jzh-a1-m1-cE_7jzh-a1-m1-cF LLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT LLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT 1pmo-a1-m1-cF_1pmo-a1-m1-cA Crystal structure of Escherichia coli GadB (neutral pH) P69910 P69910 2.3 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 454 455 1pmm-a1-m1-cA_1pmm-a1-m1-cF 1pmm-a1-m1-cC_1pmm-a1-m1-cB 1pmm-a1-m1-cE_1pmm-a1-m1-cD 1pmo-a1-m1-cC_1pmo-a1-m1-cB 1pmo-a1-m1-cD_1pmo-a1-m1-cE 1xey-a1-m1-cA_1xey-a1-m3-cB 1xey-a1-m2-cA_1xey-a1-m1-cB 1xey-a1-m3-cA_1xey-a1-m2-cB 2dgk-a1-m1-cA_2dgk-a1-m1-cF 2dgk-a1-m1-cC_2dgk-a1-m1-cB 2dgk-a1-m1-cD_2dgk-a1-m1-cE 2dgk-a5-m1-cD_2dgk-a5-m1-cE 2dgk-a6-m1-cA_2dgk-a6-m1-cF 2dgl-a1-m1-cA_2dgl-a1-m1-cF 2dgl-a1-m1-cB_2dgl-a1-m1-cC 2dgl-a1-m1-cD_2dgl-a1-m1-cE 2dgm-a1-m1-cA_2dgm-a1-m1-cF 2dgm-a1-m1-cB_2dgm-a1-m1-cC 2dgm-a1-m1-cE_2dgm-a1-m1-cD 3fz6-a1-m1-cA_3fz6-a1-m1-cF 3fz6-a1-m1-cC_3fz6-a1-m1-cB 3fz6-a1-m1-cD_3fz6-a1-m1-cE 3fz7-a1-m1-cA_3fz7-a1-m1-cB 3fz7-a1-m1-cD_3fz7-a1-m1-cC 3fz7-a1-m1-cE_3fz7-a1-m1-cF 3fz8-a1-m1-cA_3fz8-a1-m1-cF 3fz8-a1-m1-cC_3fz8-a1-m1-cB 3fz8-a1-m1-cD_3fz8-a1-m1-cE 7jzh-a1-m1-cA_7jzh-a1-m1-cB 7jzh-a1-m1-cC_7jzh-a1-m1-cE 7jzh-a1-m1-cD_7jzh-a1-m1-cF LLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT ELLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQGIAQQNSFKHT 1pmt-a1-m1-cA_1pmt-a1-m2-cA GLUTATHIONE TRANSFERASE FROM PROTEUS MIRABILIS P15214 P15214 2.5 X-RAY DIFFRACTION 90 1.0 584 (Proteus mirabilis) 584 (Proteus mirabilis) 201 201 2pmt-a1-m1-cA_2pmt-a1-m1-cB 2pmt-a2-m1-cC_2pmt-a2-m1-cD MKLYYTPGSCSLSPHIVLRETGLDFSIERIDLRTKKTESGKDFLAINPKGQVPVLQLDNGDILTEGVAIVQYLADLKPDRNLIAPPKALERYHQIEWLNFLASEVHKGYSPLFSSDTPESYLPVVKNKLKSKFVYINDVLSKQKCVCGDHFTVADAYLFTLSQWAPHVALDLTDLSHLQDYLARIAQRPNVHSALVTEGLI MKLYYTPGSCSLSPHIVLRETGLDFSIERIDLRTKKTESGKDFLAINPKGQVPVLQLDNGDILTEGVAIVQYLADLKPDRNLIAPPKALERYHQIEWLNFLASEVHKGYSPLFSSDTPESYLPVVKNKLKSKFVYINDVLSKQKCVCGDHFTVADAYLFTLSQWAPHVALDLTDLSHLQDYLARIAQRPNVHSALVTEGLI 1pn0-a3-m1-cA_1pn0-a3-m2-cB Phenol hydroxylase from Trichosporon cutaneum P15245 P15245 1.7 X-RAY DIFFRACTION 29 1.0 5554 (Cutaneotrichosporon cutaneum) 5554 (Cutaneotrichosporon cutaneum) 652 652 1foh-a3-m1-cA_1foh-a3-m2-cB TKYSESYCDVLIVGAGPAGLMAARVLSEYVRQKPDLKVRIIDKRSTKVYNGQADGLQCRTLESLKNLGLADKILSEANDMSTIALYNPDENGHIRRTDRIPDTLPGISRYHQVVLHQGRIERRILDSIAEISDTRIKVERPLIPEKMEIDSSKAEDPEAYPVTMTLRYMSEDESTPLQFGHKTENGLFRSNLQTQEEEDANYRLPEGKEAGEIETVHCKYVIGCDGGHSWVRRTLGFEMIGEQTDYIWGVLDAVPASNFPDIRSRCAIHSAESGSIMIIPRENNLVRFYVQLQATKFTPEVVIANAKKIFHPYTFDVQQLDWFTAYHIGQRVTEKFSKDERVFIAGDACHTHSPKAGQGMNTSMMDTYNLGWKLGLVLTGRAKRDILKTYEEERQPFAQALIDFDHQFSRLFSGRPAKDVADEMGVSMDVFKEAFVKGNEFASGTAINYDENLVTDKKSSKQELAKNCVVGTRFKSQPVVRHSEGLWMHFGDRLVTDGRFRIIVFAGKATDATQMSRIKKFAAYLDSENSVISRYTPKGADRNSRIDVITIHSCHRDDIEMHDFPAPALHPKWQYDFIYADCDSWHHPHPKSYQAWGVDETKGAVVVVRPDGYTSLVTDLEGTAEIDRYFSGILVEPKEKSGAQTEADWTKS TKYSESYCDVLIVGAGPAGLMAARVLSEYVRQKPDLKVRIIDKRSTKVYNGQADGLQCRTLESLKNLGLADKILSEANDMSTIALYNPDENGHIRRTDRIPDTLPGISRYHQVVLHQGRIERRILDSIAEISDTRIKVERPLIPEKMEIDSSKAEDPEAYPVTMTLRYMSEDESTPLQFGHKTENGLFRSNLQTQEEEDANYRLPEGKEAGEIETVHCKYVIGCDGGHSWVRRTLGFEMIGEQTDYIWGVLDAVPASNFPDIRSRCAIHSAESGSIMIIPRENNLVRFYVQLQATKFTPEVVIANAKKIFHPYTFDVQQLDWFTAYHIGQRVTEKFSKDERVFIAGDACHTHSPKAGQGMNTSMMDTYNLGWKLGLVLTGRAKRDILKTYEEERQPFAQALIDFDHQFSRLFSGRPAKDVADEMGVSMDVFKEAFVKGNEFASGTAINYDENLVTDKKSSKQELAKNCVVGTRFKSQPVVRHSEGLWMHFGDRLVTDGRFRIIVFAGKATDATQMSRIKKFAAYLDSENSVISRYTPKGADRNSRIDVITIHSCHRDDIEMHDFPAPALHPKWQYDFIYADCDSWHHPHPKSYQAWGVDETKGAVVVVRPDGYTSLVTDLEGTAEIDRYFSGILVEPKEKSGAQTEADWTKS 1pn0-a3-m2-cB_1pn0-a3-m2-cD Phenol hydroxylase from Trichosporon cutaneum P15245 P15245 1.7 X-RAY DIFFRACTION 109 1.0 5554 (Cutaneotrichosporon cutaneum) 5554 (Cutaneotrichosporon cutaneum) 652 656 1foh-a1-m1-cA_1foh-a1-m1-cC 1foh-a2-m1-cB_1foh-a2-m1-cD 1foh-a3-m1-cA_1foh-a3-m1-cC 1foh-a3-m2-cB_1foh-a3-m2-cD 1pn0-a1-m1-cA_1pn0-a1-m1-cC 1pn0-a2-m1-cB_1pn0-a2-m1-cD 1pn0-a3-m1-cA_1pn0-a3-m1-cC TKYSESYCDVLIVGAGPAGLMAARVLSEYVRQKPDLKVRIIDKRSTKVYNGQADGLQCRTLESLKNLGLADKILSEANDMSTIALYNPDENGHIRRTDRIPDTLPGISRYHQVVLHQGRIERRILDSIAEISDTRIKVERPLIPEKMEIDSSKAEDPEAYPVTMTLRYMSEDESTPLQFGHKTENGLFRSNLQTQEEEDANYRLPEGKEAGEIETVHCKYVIGCDGGHSWVRRTLGFEMIGEQTDYIWGVLDAVPASNFPDIRSRCAIHSAESGSIMIIPRENNLVRFYVQLQATKFTPEVVIANAKKIFHPYTFDVQQLDWFTAYHIGQRVTEKFSKDERVFIAGDACHTHSPKAGQGMNTSMMDTYNLGWKLGLVLTGRAKRDILKTYEEERQPFAQALIDFDHQFSRLFSGRPAKDVADEMGVSMDVFKEAFVKGNEFASGTAINYDENLVTDKKSSKQELAKNCVVGTRFKSQPVVRHSEGLWMHFGDRLVTDGRFRIIVFAGKATDATQMSRIKKFAAYLDSENSVISRYTPKGADRNSRIDVITIHSCHRDDIEMHDFPAPALHPKWQYDFIYADCDSWHHPHPKSYQAWGVDETKGAVVVVRPDGYTSLVTDLEGTAEIDRYFSGILVEPKEKSGAQTEADWTKS TKYSESYCDVLIVGAGPAGLMAARVLSEYVRQKPDLKVRIIDKRSTKVYNGQADGLQCRTLESLKNLGLADKILSEANDMSTIALYNPDENGHIRRTDRIPDTLPGISRYHQVVLHQGRIERRILDSIAEISDTRIKVERPLIPEKMEIDSSKAEDPEAYPVTMTLRYMSEDESTPLQFGHKTENGLFRSNLQTQEEEDANYRLPEGKEAGEIETVHCKYVIGCDGGHSWVRRTLGFEMIGEQTDYIWGVLDAVPASNFPDIRSRCAIHSAESGSIMIIPRENNLVRFYVQLQARVDRTKFTPEVVIANAKKIFHPYTFDVQQLDWFTAYHIGQRVTEKFSKDERVFIAGDACHTHSPKAGQGMNTSMMDTYNLGWKLGLVLTGRAKRDILKTYEEERQPFAQALIDFDHQFSRLFSGRPAKDVADEMGVSMDVFKEAFVKGNEFASGTAINYDENLVTDKKSSKQELAKNCVVGTRFKSQPVVRHSEGLWMHFGDRLVTDGRFRIIVFAGKATDATQMSRIKKFAAYLDSENSVISRYTPKGADRNSRIDVITIHSCHRDDIEMHDFPAPALHPKWQYDFIYADCDSWHHPHPKSYQAWGVDETKGAVVVVRPDGYTSLVTDLEGTAEIDRYFSGILVEPKEKSGAQTEADWTKS 1pn4-a1-m1-cA_1pn4-a1-m1-cB Crystal structure of 2-enoyl-CoA hydratase 2 domain of Candida tropicalis multifunctional enzyme type 2 complexed with (3R)-hydroxydecanoyl-CoA. P22414 P22414 2.35 X-RAY DIFFRACTION 58 1.0 5482 (Candida tropicalis) 5482 (Candida tropicalis) 272 272 1pn2-a1-m1-cB_1pn2-a1-m1-cA 1pn2-a2-m1-cC_1pn2-a2-m1-cD 1pn4-a2-m1-cC_1pn4-a2-m1-cD PVWRFDDRDVILYNIALGATTKQLKYVYENDSDFQVIPTFGHLITFNSGKSQNSFAKLLRNFNPMLLLHGEHYLKVHSWPPPTEGEIKTTFEPIATTPKGTNVVIVHGSKSVDNKSGELIYSNEATYFIRNCQADNKVYADRPAFATNQFLAPKRAPDYQVDVPVSEDLAALYRLSGDRNPLQIDPNFAKGAKFPKPILHGMCTYGLSAKALIDKFGMFNEIKARFTGIVFPGETLRVLAWKESDDTIVFQTHVVDRGTIAINNAAIKLVGD PVWRFDDRDVILYNIALGATTKQLKYVYENDSDFQVIPTFGHLITFNSGKSQNSFAKLLRNFNPMLLLHGEHYLKVHSWPPPTEGEIKTTFEPIATTPKGTNVVIVHGSKSVDNKSGELIYSNEATYFIRNCQADNKVYADRPAFATNQFLAPKRAPDYQVDVPVSEDLAALYRLSGDRNPLQIDPNFAKGAKFPKPILHGMCTYGLSAKALIDKFGMFNEIKARFTGIVFPGETLRVLAWKESDDTIVFQTHVVDRGTIAINNAAIKLVGD 1pn9-a1-m1-cA_1pn9-a1-m1-cB Crystal structure of an insect delta-class glutathione S-transferase from a DDT-resistant strain of the malaria vector Anopheles gambiae Q93113 Q93113 2 X-RAY DIFFRACTION 82 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 209 209 MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTDLMKGEHMKPEFLKLNPQHCIPTLVDNGFALWESRAIQIYLAEKYGKDDKLYPKDPQKRAVVNQRLYFDMGTLYQRFADYHYPQIFAKQPANPENEKKMKDAVGFLNTFLEGQEYAAGNDLTIADLSLAATIATYEVAGFDFAPYPNVAAWFARCKANAPGYALNQAGADEFKAKFLS MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTDLMKGEHMKPEFLKLNPQHCIPTLVDNGFALWESRAIQIYLAEKYGKDDKLYPKDPQKRAVVNQRLYFDMGTLYQRFADYHYPQIFAKQPANPENEKKMKDAVGFLNTFLEGQEYAAGNDLTIADLSLAATIATYEVAGFDFAPYPNVAAWFARCKANAPGYALNQAGADEFKAKFLS 1pnv-a1-m1-cA_1pnv-a1-m1-cB Crystal Structure of TDP-epi-Vancosaminyltransferase GtfA in complexes with TDP and Vancomycin P96558 P96558 2.8 X-RAY DIFFRACTION 44 1.0 31958 (Amycolatopsis orientalis) 31958 (Amycolatopsis orientalis) 382 384 1pn3-a2-m1-cD_1pn3-a2-m1-cB 1pnv-a1-m1-cC_1pnv-a1-m1-cB MRVLITGCGSRGDTEPLVALAARLRELGADARMCLPPDYVERCAEVGVPMVPVGRAVRAGAREPGELPPGAAEVVTEVVAEWFDKVPAAIEGCDAVVTTGLLPAAVAVRSMAEKLGIPYRYTVLSPDHLPSEQSQAERDMYNQGADRLFGDAVNSHRASIGLPPVEHLYDYGYTDQPWLAADPVLSPLRPTDLGTVQTGAWILPDERPLSAELEAFLAAGSTPVYVGFGSSSRPATADAAKMAIKAVRASGRRIVLSRGWADLVLPDDGADCFVVGEVNLQELFGRVAAAIHHDSAGTTLLAMRAGIPQIVVRRVYHADRVAELGVGVAVDGPVPTIDSLSAALDTALAPEIRARATTVADTIRADGTTVAAQLLFDAVSLE MRVLITGCGSRGDTEPLVALAARLRELGADARMCLPPDYVERCAEVGVPMVPVGRAVRAGAREPGELPPGAAEVVTEVVAEWFDKVPAAIEGCDAVVTTGLLPAAVAVRSMAEKLGIPYRYTVLSPDHLPSEQSQAERDMYNQGADRLFGDAVNSHRASIGLPPVEHLYDYGYTDQPWLAADPVLSPLRPTDLGTVQTGAWILPDERPLSAELEAFLAAGSTPVYVGFGSSSRPATADAAKMAIKAVRASGRRIVLSRGWADLVLPDDGADCFVVGEVNLQELFGRVAAAIHHDSAGTTLLAMRAGIPQIVVRRVAYHADRVAELGVGVAVDGPVPTIDSLSAALDTALAPEIRARATTVADTIRADGTTVAAQLLFDAVSLEK 1po2-a1-m8-c4_1po2-a1-m9-c4 POLIOVIRUS (TYPE 1, MAHONEY) IN COMPLEX WITH R77975, AN INHIBITOR OF VIRAL REPLICATION P03300 P03300 2.9 X-RAY DIFFRACTION 38 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 62 62 1al2-a1-m10-c4_1al2-a1-m6-c4 1al2-a1-m10-c4_1al2-a1-m9-c4 1al2-a1-m11-c4_1al2-a1-m12-c4 1al2-a1-m11-c4_1al2-a1-m15-c4 1al2-a1-m12-c4_1al2-a1-m13-c4 1al2-a1-m13-c4_1al2-a1-m14-c4 1al2-a1-m14-c4_1al2-a1-m15-c4 1al2-a1-m16-c4_1al2-a1-m17-c4 1al2-a1-m16-c4_1al2-a1-m20-c4 1al2-a1-m17-c4_1al2-a1-m18-c4 1al2-a1-m18-c4_1al2-a1-m19-c4 1al2-a1-m19-c4_1al2-a1-m20-c4 1al2-a1-m1-c4_1al2-a1-m2-c4 1al2-a1-m1-c4_1al2-a1-m5-c4 1al2-a1-m21-c4_1al2-a1-m22-c4 1al2-a1-m21-c4_1al2-a1-m25-c4 1al2-a1-m22-c4_1al2-a1-m23-c4 1al2-a1-m23-c4_1al2-a1-m24-c4 1al2-a1-m24-c4_1al2-a1-m25-c4 1al2-a1-m26-c4_1al2-a1-m27-c4 1al2-a1-m26-c4_1al2-a1-m30-c4 1al2-a1-m27-c4_1al2-a1-m28-c4 1al2-a1-m28-c4_1al2-a1-m29-c4 1al2-a1-m29-c4_1al2-a1-m30-c4 1al2-a1-m2-c4_1al2-a1-m3-c4 1al2-a1-m31-c4_1al2-a1-m32-c4 1al2-a1-m31-c4_1al2-a1-m35-c4 1al2-a1-m32-c4_1al2-a1-m33-c4 1al2-a1-m33-c4_1al2-a1-m34-c4 1al2-a1-m34-c4_1al2-a1-m35-c4 1al2-a1-m36-c4_1al2-a1-m37-c4 1al2-a1-m36-c4_1al2-a1-m40-c4 1al2-a1-m37-c4_1al2-a1-m38-c4 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1ar6-a1-m43-c4_1ar6-a1-m44-c4 1ar6-a1-m44-c4_1ar6-a1-m45-c4 1ar6-a1-m46-c4_1ar6-a1-m47-c4 1ar6-a1-m46-c4_1ar6-a1-m50-c4 1ar6-a1-m47-c4_1ar6-a1-m48-c4 1ar6-a1-m48-c4_1ar6-a1-m49-c4 1ar6-a1-m49-c4_1ar6-a1-m50-c4 1ar6-a1-m4-c4_1ar6-a1-m5-c4 1ar6-a1-m51-c4_1ar6-a1-m52-c4 1ar6-a1-m51-c4_1ar6-a1-m55-c4 1ar6-a1-m52-c4_1ar6-a1-m53-c4 1ar6-a1-m53-c4_1ar6-a1-m54-c4 1ar6-a1-m54-c4_1ar6-a1-m55-c4 1ar6-a1-m56-c4_1ar6-a1-m57-c4 1ar6-a1-m56-c4_1ar6-a1-m60-c4 1ar6-a1-m57-c4_1ar6-a1-m58-c4 1ar6-a1-m58-c4_1ar6-a1-m59-c4 1ar6-a1-m59-c4_1ar6-a1-m60-c4 1ar6-a1-m6-c4_1ar6-a1-m7-c4 1ar6-a1-m7-c4_1ar6-a1-m8-c4 1ar6-a1-m8-c4_1ar6-a1-m9-c4 1ar7-a1-m10-c4_1ar7-a1-m6-c4 1ar7-a1-m10-c4_1ar7-a1-m9-c4 1ar7-a1-m11-c4_1ar7-a1-m12-c4 1ar7-a1-m11-c4_1ar7-a1-m15-c4 1ar7-a1-m12-c4_1ar7-a1-m13-c4 1ar7-a1-m13-c4_1ar7-a1-m14-c4 1ar7-a1-m14-c4_1ar7-a1-m15-c4 1ar7-a1-m16-c4_1ar7-a1-m17-c4 1ar7-a1-m16-c4_1ar7-a1-m20-c4 1ar7-a1-m17-c4_1ar7-a1-m18-c4 1ar7-a1-m18-c4_1ar7-a1-m19-c4 1ar7-a1-m19-c4_1ar7-a1-m20-c4 1ar7-a1-m1-c4_1ar7-a1-m2-c4 1ar7-a1-m1-c4_1ar7-a1-m5-c4 1ar7-a1-m21-c4_1ar7-a1-m22-c4 1ar7-a1-m21-c4_1ar7-a1-m25-c4 1ar7-a1-m22-c4_1ar7-a1-m23-c4 1ar7-a1-m23-c4_1ar7-a1-m24-c4 1ar7-a1-m24-c4_1ar7-a1-m25-c4 1ar7-a1-m26-c4_1ar7-a1-m27-c4 1ar7-a1-m26-c4_1ar7-a1-m30-c4 1ar7-a1-m27-c4_1ar7-a1-m28-c4 1ar7-a1-m28-c4_1ar7-a1-m29-c4 1ar7-a1-m29-c4_1ar7-a1-m30-c4 1ar7-a1-m2-c4_1ar7-a1-m3-c4 1ar7-a1-m31-c4_1ar7-a1-m32-c4 1ar7-a1-m31-c4_1ar7-a1-m35-c4 1ar7-a1-m32-c4_1ar7-a1-m33-c4 1ar7-a1-m33-c4_1ar7-a1-m34-c4 1ar7-a1-m34-c4_1ar7-a1-m35-c4 1ar7-a1-m36-c4_1ar7-a1-m37-c4 1ar7-a1-m36-c4_1ar7-a1-m40-c4 1ar7-a1-m37-c4_1ar7-a1-m38-c4 1ar7-a1-m38-c4_1ar7-a1-m39-c4 1ar7-a1-m39-c4_1ar7-a1-m40-c4 1ar7-a1-m3-c4_1ar7-a1-m4-c4 1ar7-a1-m41-c4_1ar7-a1-m42-c4 1ar7-a1-m41-c4_1ar7-a1-m45-c4 1ar7-a1-m42-c4_1ar7-a1-m43-c4 1ar7-a1-m43-c4_1ar7-a1-m44-c4 1ar7-a1-m44-c4_1ar7-a1-m45-c4 1ar7-a1-m46-c4_1ar7-a1-m47-c4 1ar7-a1-m46-c4_1ar7-a1-m50-c4 1ar7-a1-m47-c4_1ar7-a1-m48-c4 1ar7-a1-m48-c4_1ar7-a1-m49-c4 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3epd-a1-m52-c4_3epd-a1-m53-c4 3epd-a1-m53-c4_3epd-a1-m54-c4 3epd-a1-m54-c4_3epd-a1-m55-c4 3epd-a1-m56-c4_3epd-a1-m57-c4 3epd-a1-m56-c4_3epd-a1-m60-c4 3epd-a1-m57-c4_3epd-a1-m58-c4 3epd-a1-m58-c4_3epd-a1-m59-c4 3epd-a1-m59-c4_3epd-a1-m60-c4 3epd-a1-m6-c4_3epd-a1-m7-c4 3epd-a1-m7-c4_3epd-a1-m8-c4 3epd-a1-m8-c4_3epd-a1-m9-c4 3j3o-a1-m10-c4_3j3o-a1-m6-c4 3j3o-a1-m10-c4_3j3o-a1-m9-c4 3j3o-a1-m11-c4_3j3o-a1-m12-c4 3j3o-a1-m11-c4_3j3o-a1-m15-c4 3j3o-a1-m12-c4_3j3o-a1-m13-c4 3j3o-a1-m13-c4_3j3o-a1-m14-c4 3j3o-a1-m14-c4_3j3o-a1-m15-c4 3j3o-a1-m16-c4_3j3o-a1-m17-c4 3j3o-a1-m16-c4_3j3o-a1-m20-c4 3j3o-a1-m17-c4_3j3o-a1-m18-c4 3j3o-a1-m18-c4_3j3o-a1-m19-c4 3j3o-a1-m19-c4_3j3o-a1-m20-c4 3j3o-a1-m1-c4_3j3o-a1-m2-c4 3j3o-a1-m1-c4_3j3o-a1-m5-c4 3j3o-a1-m21-c4_3j3o-a1-m22-c4 3j3o-a1-m21-c4_3j3o-a1-m25-c4 3j3o-a1-m22-c4_3j3o-a1-m23-c4 3j3o-a1-m23-c4_3j3o-a1-m24-c4 3j3o-a1-m24-c4_3j3o-a1-m25-c4 3j3o-a1-m26-c4_3j3o-a1-m27-c4 3j3o-a1-m26-c4_3j3o-a1-m30-c4 3j3o-a1-m27-c4_3j3o-a1-m28-c4 3j3o-a1-m28-c4_3j3o-a1-m29-c4 3j3o-a1-m29-c4_3j3o-a1-m30-c4 3j3o-a1-m2-c4_3j3o-a1-m3-c4 3j3o-a1-m31-c4_3j3o-a1-m32-c4 3j3o-a1-m31-c4_3j3o-a1-m35-c4 3j3o-a1-m32-c4_3j3o-a1-m33-c4 3j3o-a1-m33-c4_3j3o-a1-m34-c4 3j3o-a1-m34-c4_3j3o-a1-m35-c4 3j3o-a1-m36-c4_3j3o-a1-m37-c4 3j3o-a1-m36-c4_3j3o-a1-m40-c4 3j3o-a1-m37-c4_3j3o-a1-m38-c4 3j3o-a1-m38-c4_3j3o-a1-m39-c4 3j3o-a1-m39-c4_3j3o-a1-m40-c4 3j3o-a1-m3-c4_3j3o-a1-m4-c4 3j3o-a1-m41-c4_3j3o-a1-m42-c4 3j3o-a1-m41-c4_3j3o-a1-m45-c4 3j3o-a1-m42-c4_3j3o-a1-m43-c4 3j3o-a1-m43-c4_3j3o-a1-m44-c4 3j3o-a1-m44-c4_3j3o-a1-m45-c4 3j3o-a1-m46-c4_3j3o-a1-m47-c4 3j3o-a1-m46-c4_3j3o-a1-m50-c4 3j3o-a1-m47-c4_3j3o-a1-m48-c4 3j3o-a1-m48-c4_3j3o-a1-m49-c4 3j3o-a1-m49-c4_3j3o-a1-m50-c4 3j3o-a1-m4-c4_3j3o-a1-m5-c4 3j3o-a1-m51-c4_3j3o-a1-m52-c4 3j3o-a1-m51-c4_3j3o-a1-m55-c4 3j3o-a1-m52-c4_3j3o-a1-m53-c4 3j3o-a1-m53-c4_3j3o-a1-m54-c4 3j3o-a1-m54-c4_3j3o-a1-m55-c4 3j3o-a1-m56-c4_3j3o-a1-m57-c4 3j3o-a1-m56-c4_3j3o-a1-m60-c4 3j3o-a1-m57-c4_3j3o-a1-m58-c4 3j3o-a1-m58-c4_3j3o-a1-m59-c4 3j3o-a1-m59-c4_3j3o-a1-m60-c4 3j3o-a1-m6-c4_3j3o-a1-m7-c4 3j3o-a1-m7-c4_3j3o-a1-m8-c4 3j3o-a1-m8-c4_3j3o-a1-m9-c4 GAQVSSQKVGAHENSSTINYTTINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTAPMLN GAQVSSQKVGAHENSSTINYTTINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTAPMLN 1po5-a2-m1-cA_1po5-a2-m2-cA Structure of mammalian cytochrome P450 2B4 P00178 P00178 1.6 X-RAY DIFFRACTION 235 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 465 465 GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFGMGKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKHFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDKSDPSSEFHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFGMGKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKHFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDKSDPSSEFHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH 1pob-a1-m1-cA_1pob-a1-m1-cB CRYSTAL STRUCTURE OF COBRA-VENOM PHOSPHOLIPASE A2 IN A COMPLEX WITH A TRANSITION-STATE ANALOGUE P00598 P00598 2 X-RAY DIFFRACTION 14 1.0 8656 (Naja atra) 8656 (Naja atra) 118 118 NLYQFKNMIQCTVPSRSWWDFADYGCYCGRGGSGTPVDDLDRCCQVHDNCYNEAEKISGCWPYFKTYSYECSQGTLTCKGGNNACAAAVCDCDRLAAICFAGAPYNDNDYNINLKARC NLYQFKNMIQCTVPSRSWWDFADYGCYCGRGGSGTPVDDLDRCCQVHDNCYNEAEKISGCWPYFKTYSYECSQGTLTCKGGNNACAAAVCDCDRLAAICFAGAPYNDNDYNINLKARC 1poc-a1-m1-cA_1poc-a1-m2-cA CRYSTAL STRUCTURE OF BEE-VENOM PHOSPHOLIPASE A2 IN A COMPLEX WITH A TRANSITION-STATE ANALOGUE P00630 P00630 2 X-RAY DIFFRACTION 18 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 134 134 IIYPGTLWCGHGNKSSGPNELGRFKHTDACCRTHDMCPDVMSAGESKHGLTNTASHTRLSCDCDDKFYDCLKNSADTISSYFVGKMYFNLIDTKCYKLEHPVTGCGERTEGRCLHYTVDKSKPKVYQWFDLRKY IIYPGTLWCGHGNKSSGPNELGRFKHTDACCRTHDMCPDVMSAGESKHGLTNTASHTRLSCDCDDKFYDCLKNSADTISSYFVGKMYFNLIDTKCYKLEHPVTGCGERTEGRCLHYTVDKSKPKVYQWFDLRKY 1poi-a1-m1-cC_1poi-a1-m2-cC CRYSTAL STRUCTURE OF GLUTACONATE COENZYME A-TRANSFERASE FROM ACIDAMINOCOCCUS FERMENTANS TO 2.55 ANGSTOMS RESOLUTION Q59111 Q59111 2.5 X-RAY DIFFRACTION 76 1.0 905 (Acidaminococcus fermentans) 905 (Acidaminococcus fermentans) 317 317 1poi-a1-m1-cA_1poi-a1-m2-cA SKVMTLKDAIAKYVHSGDHIALGGFTTDRKPYAAVFEILRQGITDLTGLGGAAGGDWDMLIGNGRVKAYINCYTANSGVTNVSRRFRKWFEAGKLTMEDYSQDVIYMMWHAAALGLPFLPVTLMQGSGLTDEWGISKEVRKTLDKVPDDKFKYIDNPFKPGEKVVAVPVPQVDVAIIHAQQASPDGTVRIWGGKFQDVDIAEAAKYTIVTCEEIISDEEIRRDPTKNDIPGMCVDAVVLAPYGAHPSQCYGLYDYDNPFLKVYDKVSKTQEDFDAFCKEWVFDLKDHDEYLNKLGATRLINLKVVPGLGYHIDMTKE SKVMTLKDAIAKYVHSGDHIALGGFTTDRKPYAAVFEILRQGITDLTGLGGAAGGDWDMLIGNGRVKAYINCYTANSGVTNVSRRFRKWFEAGKLTMEDYSQDVIYMMWHAAALGLPFLPVTLMQGSGLTDEWGISKEVRKTLDKVPDDKFKYIDNPFKPGEKVVAVPVPQVDVAIIHAQQASPDGTVRIWGGKFQDVDIAEAAKYTIVTCEEIISDEEIRRDPTKNDIPGMCVDAVVLAPYGAHPSQCYGLYDYDNPFLKVYDKVSKTQEDFDAFCKEWVFDLKDHDEYLNKLGATRLINLKVVPGLGYHIDMTKE 1poi-a1-m2-cA_1poi-a1-m2-cC CRYSTAL STRUCTURE OF GLUTACONATE COENZYME A-TRANSFERASE FROM ACIDAMINOCOCCUS FERMENTANS TO 2.55 ANGSTOMS RESOLUTION Q59111 Q59111 2.5 X-RAY DIFFRACTION 63 1.0 905 (Acidaminococcus fermentans) 905 (Acidaminococcus fermentans) 317 317 1poi-a1-m1-cA_1poi-a1-m1-cC SKVMTLKDAIAKYVHSGDHIALGGFTTDRKPYAAVFEILRQGITDLTGLGGAAGGDWDMLIGNGRVKAYINCYTANSGVTNVSRRFRKWFEAGKLTMEDYSQDVIYMMWHAAALGLPFLPVTLMQGSGLTDEWGISKEVRKTLDKVPDDKFKYIDNPFKPGEKVVAVPVPQVDVAIIHAQQASPDGTVRIWGGKFQDVDIAEAAKYTIVTCEEIISDEEIRRDPTKNDIPGMCVDAVVLAPYGAHPSQCYGLYDYDNPFLKVYDKVSKTQEDFDAFCKEWVFDLKDHDEYLNKLGATRLINLKVVPGLGYHIDMTKE SKVMTLKDAIAKYVHSGDHIALGGFTTDRKPYAAVFEILRQGITDLTGLGGAAGGDWDMLIGNGRVKAYINCYTANSGVTNVSRRFRKWFEAGKLTMEDYSQDVIYMMWHAAALGLPFLPVTLMQGSGLTDEWGISKEVRKTLDKVPDDKFKYIDNPFKPGEKVVAVPVPQVDVAIIHAQQASPDGTVRIWGGKFQDVDIAEAAKYTIVTCEEIISDEEIRRDPTKNDIPGMCVDAVVLAPYGAHPSQCYGLYDYDNPFLKVYDKVSKTQEDFDAFCKEWVFDLKDHDEYLNKLGATRLINLKVVPGLGYHIDMTKE 1pop-a1-m1-cB_1pop-a1-m1-cA X-RAY CRYSTALLOGRAPHIC STRUCTURE OF A PAPAIN-LEUPEPTIN COMPLEX P00784 2.1 X-RAY DIFFRACTION 19 1.0 66430 (Streptomyces roseus) 3649 (Carica papaya) 2 212 LL IPEYVDWRQKGAVTPVKNQGSCGSCWAFSAVVTIEGIIKIRTGNLNQYSEQELLDCDRRSYGCNGGYPWSALQLVAQYGIHYRNTYPYEGVQRYCRSREKGPYAAKTDGVRQVQPYNQGALLYSIANQPVSVVLQAAGKDFQLYRGGIFVGPCGNKVDHAVAAVGYGPNYILIKNSWGTGWGENGYIRIKRGTGNSYGVCGLYTSSFYPVKN 1pov-a1-m8-c0_1pov-a1-m9-c0 ROLE AND MECHANISM OF THE MATURATION CLEAVAGE OF VP0 IN POLIOVIRUS ASSEMBLY: STRUCTURE OF THE EMPTY CAPSID ASSEMBLY INTERMEDIATE AT 2.9 ANGSTROMS RESOLUTION P03300 P03300 2.8 X-RAY DIFFRACTION 28 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 300 300 1pov-a1-m10-c0_1pov-a1-m6-c0 1pov-a1-m10-c0_1pov-a1-m9-c0 1pov-a1-m11-c0_1pov-a1-m12-c0 1pov-a1-m11-c0_1pov-a1-m15-c0 1pov-a1-m12-c0_1pov-a1-m13-c0 1pov-a1-m13-c0_1pov-a1-m14-c0 1pov-a1-m14-c0_1pov-a1-m15-c0 1pov-a1-m16-c0_1pov-a1-m17-c0 1pov-a1-m16-c0_1pov-a1-m20-c0 1pov-a1-m17-c0_1pov-a1-m18-c0 1pov-a1-m18-c0_1pov-a1-m19-c0 1pov-a1-m19-c0_1pov-a1-m20-c0 1pov-a1-m1-c0_1pov-a1-m2-c0 1pov-a1-m1-c0_1pov-a1-m5-c0 1pov-a1-m21-c0_1pov-a1-m22-c0 1pov-a1-m21-c0_1pov-a1-m25-c0 1pov-a1-m22-c0_1pov-a1-m23-c0 1pov-a1-m23-c0_1pov-a1-m24-c0 1pov-a1-m24-c0_1pov-a1-m25-c0 1pov-a1-m26-c0_1pov-a1-m27-c0 1pov-a1-m26-c0_1pov-a1-m30-c0 1pov-a1-m27-c0_1pov-a1-m28-c0 1pov-a1-m28-c0_1pov-a1-m29-c0 1pov-a1-m29-c0_1pov-a1-m30-c0 1pov-a1-m2-c0_1pov-a1-m3-c0 1pov-a1-m31-c0_1pov-a1-m32-c0 1pov-a1-m31-c0_1pov-a1-m35-c0 1pov-a1-m32-c0_1pov-a1-m33-c0 1pov-a1-m33-c0_1pov-a1-m34-c0 1pov-a1-m34-c0_1pov-a1-m35-c0 1pov-a1-m36-c0_1pov-a1-m37-c0 1pov-a1-m36-c0_1pov-a1-m40-c0 1pov-a1-m37-c0_1pov-a1-m38-c0 1pov-a1-m38-c0_1pov-a1-m39-c0 1pov-a1-m39-c0_1pov-a1-m40-c0 1pov-a1-m3-c0_1pov-a1-m4-c0 1pov-a1-m41-c0_1pov-a1-m42-c0 1pov-a1-m41-c0_1pov-a1-m45-c0 1pov-a1-m42-c0_1pov-a1-m43-c0 1pov-a1-m43-c0_1pov-a1-m44-c0 1pov-a1-m44-c0_1pov-a1-m45-c0 1pov-a1-m46-c0_1pov-a1-m47-c0 1pov-a1-m46-c0_1pov-a1-m50-c0 1pov-a1-m47-c0_1pov-a1-m48-c0 1pov-a1-m48-c0_1pov-a1-m49-c0 1pov-a1-m49-c0_1pov-a1-m50-c0 1pov-a1-m4-c0_1pov-a1-m5-c0 1pov-a1-m51-c0_1pov-a1-m52-c0 1pov-a1-m51-c0_1pov-a1-m55-c0 1pov-a1-m52-c0_1pov-a1-m53-c0 1pov-a1-m53-c0_1pov-a1-m54-c0 1pov-a1-m54-c0_1pov-a1-m55-c0 1pov-a1-m56-c0_1pov-a1-m57-c0 1pov-a1-m56-c0_1pov-a1-m60-c0 1pov-a1-m57-c0_1pov-a1-m58-c0 1pov-a1-m58-c0_1pov-a1-m59-c0 1pov-a1-m59-c0_1pov-a1-m60-c0 1pov-a1-m6-c0_1pov-a1-m7-c0 1pov-a1-m7-c0_1pov-a1-m8-c0 GAQVSSQKVGAHINYTTINYYRDSASNAASKQIKDVLIKTAPMLNSPNIEACGYLQLTLGNSTITTQEAANSVVAYGRWPEYLRDVAACRFYTLDTVSWTKESRGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAVPEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDNNQTSPARRFCPVDYLLGNGTLLGNAFVFPHQIINLRTNNCATLVLPYVNSLSIDSMVKHNNWGIAILPLAPLNFASESSPEIPITLTIAPMCCEFNGLRNITLPRLQ GAQVSSQKVGAHINYTTINYYRDSASNAASKQIKDVLIKTAPMLNSPNIEACGYLQLTLGNSTITTQEAANSVVAYGRWPEYLRDVAACRFYTLDTVSWTKESRGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAVPEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDNNQTSPARRFCPVDYLLGNGTLLGNAFVFPHQIINLRTNNCATLVLPYVNSLSIDSMVKHNNWGIAILPLAPLNFASESSPEIPITLTIAPMCCEFNGLRNITLPRLQ 1poy-a2-m1-c3_1poy-a2-m1-c4 SPERMIDINE/PUTRESCINE-BINDING PROTEIN COMPLEXED WITH SPERMIDINE (DIMER FORM) P0AFK9 P0AFK9 2.5 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 323 323 1poy-a1-m1-c1_1poy-a1-m1-c2 NNTLYFYNWTEYVPPGLLEQFTKETGIKVIYSTYESNETMYAKLKTYKDGAYDLVVPSTYYVDKMRKEGMIQKIDKSKLTNFSNLDPDMLNKPFDPNNDYSIPYIWGATAIGVNGDAVDPKSVTSWADLWKPEYKGSLLLTDDAREVFQMALRKLGYSGNTTDPKEIEAAYNELKKLMPNVAAFNSDNPANPYMEGEVNLGMIWNGSAFVARQAGTPIDVVWPKEGGIFWMDSLAIPANAKNKEGALKLINFLLRPDVAKQVAETIGYPTPNLAARKLLSPEVANDKTLYPDAETIKNGEWQNDVGAASSIYEEYYQKLKAGR NNTLYFYNWTEYVPPGLLEQFTKETGIKVIYSTYESNETMYAKLKTYKDGAYDLVVPSTYYVDKMRKEGMIQKIDKSKLTNFSNLDPDMLNKPFDPNNDYSIPYIWGATAIGVNGDAVDPKSVTSWADLWKPEYKGSLLLTDDAREVFQMALRKLGYSGNTTDPKEIEAAYNELKKLMPNVAAFNSDNPANPYMEGEVNLGMIWNGSAFVARQAGTPIDVVWPKEGGIFWMDSLAIPANAKNKEGALKLINFLLRPDVAKQVAETIGYPTPNLAARKLLSPEVANDKTLYPDAETIKNGEWQNDVGAASSIYEEYYQKLKAGR 1pp2-a1-m1-cL_1pp2-a1-m1-cR THE REFINED CRYSTAL STRUCTURE OF DIMERIC PHOSPHOLIPASE A2 AT 2.5 ANGSTROMS. ACCESS TO A SHIELDED CATALYTIC CENTER P00624 P00624 2.5 X-RAY DIFFRACTION 83 1.0 8730 (Crotalus atrox) 8730 (Crotalus atrox) 122 122 SLVQFETLIMKIAGRSGLLWYSAYGCYCGWGGHGLPQDATDRCCFVHDCCYGKATDCNPKTVSYTYSEENGEIICGGDDPCGTQICECDKAAAICFRDNIPSYDNKYWLFPPKDCREEPEPC SLVQFETLIMKIAGRSGLLWYSAYGCYCGWGGHGLPQDATDRCCFVHDCCYGKATDCNPKTVSYTYSEENGEIICGGDDPCGTQICECDKAAAICFRDNIPSYDNKYWLFPPKDCREEPEPC 1ppr-a1-m1-cN_1ppr-a1-m1-cO PERIDININ-CHLOROPHYLL-PROTEIN OF AMPHIDINIUM CARTERAE P80484 P80484 2 X-RAY DIFFRACTION 30 1.0 2961 (Amphidinium carterae) 2961 (Amphidinium carterae) 312 312 1ppr-a1-m1-cM_1ppr-a1-m1-cN 1ppr-a1-m1-cM_1ppr-a1-m1-cO DEIGDAAKKLGDASYAFAKEVDWNNGIFLQAPGKLQPLEALKAIDKMIVMGAAADPKLLKAAAEAHHKAIGSISGPNGVTSRADWDNVNAALGRVIASVPENMVMDVYDSVSKITDPKVPAYMKSLVNGADAEKAYEGFLAFKDVVKKSQVTSAAGPATVPSGDKIGVAAQQLSEASYPFLKEIDWLSDVYMKPLPGVSAQQSLKAIDKMIVMGAQADGNALKAAAEAHHKAIGSIDATGVTSAADYAAVNAALGRVIASVPKSTVMDVYNAMAGVTDTSIPLNMFSKVNPLDANAAAKAFYTFKDVVQAAQ DEIGDAAKKLGDASYAFAKEVDWNNGIFLQAPGKLQPLEALKAIDKMIVMGAAADPKLLKAAAEAHHKAIGSISGPNGVTSRADWDNVNAALGRVIASVPENMVMDVYDSVSKITDPKVPAYMKSLVNGADAEKAYEGFLAFKDVVKKSQVTSAAGPATVPSGDKIGVAAQQLSEASYPFLKEIDWLSDVYMKPLPGVSAQQSLKAIDKMIVMGAQADGNALKAAAEAHHKAIGSIDATGVTSAADYAAVNAALGRVIASVPKSTVMDVYNAMAGVTDTSIPLNMFSKVNPLDANAAAKAFYTFKDVVQAAQ 1ppv-a1-m1-cA_1ppv-a1-m1-cB ISOPENTENYLPYROPHOSPHATE-DIMETHYLALLYLPYROPHOSPHATE ISOMERASE IN COMPLEX WITH THE BROMOHYDRINE OF IPP Q46822 Q46822 1.7 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 176 180 1nfs-a1-m1-cA_1nfs-a1-m1-cB 1nfz-a1-m1-cA_1nfz-a1-m1-cB 1ow2-a1-m1-cA_1ow2-a1-m1-cB 1ppw-a1-m1-cA_1ppw-a1-m1-cB 1pvf-a1-m1-cA_1pvf-a1-m1-cB 1q54-a1-m1-cA_1q54-a1-m1-cB 1x83-a1-m1-cA_1x83-a1-m1-cB 1x84-a1-m1-cA_1x84-a1-m1-cB 2b2k-a1-m1-cA_2b2k-a1-m1-cB 2g73-a1-m1-cA_2g73-a1-m1-cB 2g74-a1-m1-cA_2g74-a1-m1-cB EHVILLNAQGVPTGTLEKYAAHTADTRLHLAFSSWLFNAKGQLLVTRRALSKKAWPGVWTNSVCGHPQLGESNEDAVIRRCRYELGVEITPPESIYPDFRYRATDPSGIVENEVCPVFAARTTSALQINDDEVMDYQWCDLADVLHGIDATPWAFSPWMVMQATNREARKRLSAFT EHVILLNAQGVPTGTLEKYAAHTADTRLHLAFSSWLFNAKGQLLVTRRALSKKAWPGVWTNSVCGHPQLGESNEDAVIRRCRYELGVEITPPESIYPDFRYRATDPSGIVENEVCPVFAARTTSALQINDDEVMDYQWCDLADVLHGIDATPWAFSPWMVMQATNREARKRLSAFTQLKL 1pqu-a1-m1-cA_1pqu-a1-m1-cD Crystal Structure of the H277N Mutant of Aspartate Semialdehyde Dehydrogenase from Haemophilus influenzae Bound with NADP, S-methyl cysteine sulfoxide and cacodylate P44801 P44801 1.92 X-RAY DIFFRACTION 261 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 371 371 1nwc-a1-m1-cA_1nwc-a1-m1-cB 1nwh-a1-m1-cA_1nwh-a1-m1-cB 1nx6-a2-m1-cA_1nx6-a2-m2-cA 1oza-a2-m1-cA_1oza-a2-m2-cA 1pqp-a1-m1-cA_1pqp-a1-m2-cA 1pqu-a2-m1-cC_1pqu-a2-m1-cB 1pr3-a2-m1-cA_1pr3-a2-m2-cA 1ps8-a2-m1-cA_1ps8-a2-m2-cA 1pu2-a2-m1-cA_1pu2-a2-m2-cA 1q2x-a1-m1-cA_1q2x-a1-m1-cB 1ta4-a1-m2-cA_1ta4-a1-m1-cA 1tb4-a1-m2-cA_1tb4-a1-m1-cA MKNVGFIGWRGMVGSVLMDRMSQENDFENLNPVFFTTSQAGQKAPVFGGKDAGDLKSAFDIEELKKLDIIVTCQGGDYTNEVYPKLKATGWDGYWVDAASALRMKDDAIIVLDPVNQHVISEGLKKGIKTFVGGNCTVSLMLMAIGGLFEKDLVEWISVATYQAASGAGAKNMRELLSQMGLLEQAVSSELKDPASSILDIERKVTAKMRADNFPTDNFGAALGGSLIPWIDKLLPETGQTKEEWKGYAETNKILGLSDNPIPVDGLCVRIGALRCNSQAFTIKLKKDLPLEEIEQIIASHNEWVKVIPNDKEITLRELTPAKVTGTLSVPVGRLRKLAMGPEYLAAFTVGDQLLWGAAEPVRRILKQLVA MKNVGFIGWRGMVGSVLMDRMSQENDFENLNPVFFTTSQAGQKAPVFGGKDAGDLKSAFDIEELKKLDIIVTCQGGDYTNEVYPKLKATGWDGYWVDAASALRMKDDAIIVLDPVNQHVISEGLKKGIKTFVGGNCTVSLMLMAIGGLFEKDLVEWISVATYQAASGAGAKNMRELLSQMGLLEQAVSSELKDPASSILDIERKVTAKMRADNFPTDNFGAALGGSLIPWIDKLLPETGQTKEEWKGYAETNKILGLSDNPIPVDGLCVRIGALRCNSQAFTIKLKKDLPLEEIEQIIASHNEWVKVIPNDKEITLRELTPAKVTGTLSVPVGRLRKLAMGPEYLAAFTVGDQLLWGAAEPVRRILKQLVA 1ps0-a1-m1-cA_1ps0-a1-m2-cA Crystal Structure of the NADP(H)-Dependent Cinnamyl Alcohol Dehydrogenase from Saccharomyces cerevisiae Q04894 Q04894 3.01 X-RAY DIFFRACTION 72 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 360 360 1piw-a1-m1-cA_1piw-a1-m1-cB 1q1n-a1-m1-cA_1q1n-a1-m2-cA MSYPEKFEGIAIQSHEDWKNPKKTKYDPKPFYDHDIDIKIEACGVCGSDIHCAAGHWGNMKMPLVVGHEIVGKVVKLGPKSNSGLKVGQRVGVGAQVFSCLECDRCKNDNEPYCTKFVTTYSQPYEDGYVSQGGYANYVRVHEHFVVPIPENIPSHLAAPLLCGGLTVYSPLVRNGCGPGKKVGIVGLGGIGSMGTLISKAMGAETYVISRSSRKREDAMKMGADHYIATLEEGDWGEKYFDTFDLIVVCASSLTDIDFNIMPKAMKVGGRIVSISIPEQHEMLSLKPYGLKAVSISYSALGSIKELNQLLKLVSEKDIKIWVETLPVGEAGVHEAFERMEKGDVRYRFTLVGYDKEFSD MSYPEKFEGIAIQSHEDWKNPKKTKYDPKPFYDHDIDIKIEACGVCGSDIHCAAGHWGNMKMPLVVGHEIVGKVVKLGPKSNSGLKVGQRVGVGAQVFSCLECDRCKNDNEPYCTKFVTTYSQPYEDGYVSQGGYANYVRVHEHFVVPIPENIPSHLAAPLLCGGLTVYSPLVRNGCGPGKKVGIVGLGGIGSMGTLISKAMGAETYVISRSSRKREDAMKMGADHYIATLEEGDWGEKYFDTFDLIVVCASSLTDIDFNIMPKAMKVGGRIVSISIPEQHEMLSLKPYGLKAVSISYSALGSIKELNQLLKLVSEKDIKIWVETLPVGEAGVHEAFERMEKGDVRYRFTLVGYDKEFSD 1psa-a1-m1-cA_1psa-a1-m1-cB STRUCTURE OF A PEPSIN(SLASH)RENIN INHIBITOR COMPLEX REVEALS A NOVEL CRYSTAL PACKING INDUCED BY MINOR CHEMICAL ALTERATIONS IN THE INHIBITOR P00791 P00791 2.9 X-RAY DIFFRACTION 66 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 326 326 IGDEPLENYLDTEYFGTIGIGTPAQDFTVIFDTGSSNLWVPSVYCSSLACSDHNQFNPDDSSTFEATSQELSITYGTGSMTGILGYDTVQVGGISDTNQIFGLSETEPGSFLYYAPFDGILGLAYPSISASGATPVFDNLWDQGLVSQDLFSVYLSSNDDSGSVVLLGGIDSSYYTGSLNWVPVSVEGYWQITLDSITMDGETIACSGGCQAIVDTGTSLLTGPTSAIANIQSDIGASENSDGEMVISCSSIDSLPDIVFTINGVQYPLSPSAYILQDDDSCTSGFEGMDVPTSSGELWILGDVFIRQYYTVFDRANNKVGLAPVA IGDEPLENYLDTEYFGTIGIGTPAQDFTVIFDTGSSNLWVPSVYCSSLACSDHNQFNPDDSSTFEATSQELSITYGTGSMTGILGYDTVQVGGISDTNQIFGLSETEPGSFLYYAPFDGILGLAYPSISASGATPVFDNLWDQGLVSQDLFSVYLSSNDDSGSVVLLGGIDSSYYTGSLNWVPVSVEGYWQITLDSITMDGETIACSGGCQAIVDTGTSLLTGPTSAIANIQSDIGASENSDGEMVISCSSIDSLPDIVFTINGVQYPLSPSAYILQDDDSCTSGFEGMDVPTSSGELWILGDVFIRQYYTVFDRANNKVGLAPVA 1psq-a1-m1-cA_1psq-a1-m1-cB Structure of a probable thiol peroxidase from Streptococcus pneumoniae P0C2J8 P0C2J8 2.3 X-RAY DIFFRACTION 43 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 160 160 VTFLGNPVSFTGKQLQVGDKALDFSLTTTDLSKKSLADFDGKKKVLSVVPSIDTGICSTQTRRFNEELAGLDNTVVLTVSDLPFAQKRWCGAEGLDNAILSDYFDHSFGRDYALLINEWHLLARAVFVLDTDNTIRYVEYVDNINSEPNFEAAIAAAKAL VTFLGNPVSFTGKQLQVGDKALDFSLTTTDLSKKSLADFDGKKKVLSVVPSIDTGICSTQTRRFNEELAGLDNTVVLTVSDLPFAQKRWCGAEGLDNAILSDYFDHSFGRDYALLINEWHLLARAVFVLDTDNTIRYVEYVDNINSEPNFEAAIAAAKAL 1ptm-a1-m1-cA_1ptm-a1-m1-cB Crystal structure of E.coli PdxA P19624 P19624 1.96 X-RAY DIFFRACTION 106 1.0 562 (Escherichia coli) 562 (Escherichia coli) 321 321 1ps6-a1-m1-cA_1ps6-a1-m1-cB 1ps7-a1-m1-cA_1ps7-a1-m1-cB 1ps7-a2-m1-cC_1ps7-a2-m1-cD 1r8k-a1-m1-cB_1r8k-a1-m1-cA VKTQRVVITPGEPAGIGPDLVVQLAQREWPVELVVCADATLLTNRAALGLPLTLRPYSPNSPAQPQTAGTLTLLPVALRAPVTAGQLAVENGHYVVETLARACDGCLNGEFAALITGPVHKGVINDAGIPFTGHTEFFEERSQAKKVVLATEELRVALATTHLPLRDIADAITPALLHEVIAILHHDLRTKFGIAEPRILVCGLNPHAGEGGHGTEEIDTIIPVLNELRAQGKLNGPLPADTLFQPKYLDNADAVLAYHDQGLPVLKYQGFGRGVNITLGLPFIRTSVDHGTALELAGRGKADVGSFITALNLAIKIVNTQ VKTQRVVITPGEPAGIGPDLVVQLAQREWPVELVVCADATLLTNRAALGLPLTLRPYSPNSPAQPQTAGTLTLLPVALRAPVTAGQLAVENGHYVVETLARACDGCLNGEFAALITGPVHKGVINDAGIPFTGHTEFFEERSQAKKVVLATEELRVALATTHLPLRDIADAITPALLHEVIAILHHDLRTKFGIAEPRILVCGLNPHAGEGGHGTEEIDTIIPVLNELRAQGKLNGPLPADTLFQPKYLDNADAVLAYHDQGLPVLKYQGFGRGVNITLGLPFIRTSVDHGTALELAGRGKADVGSFITALNLAIKIVNTQ 1ptq-a1-m1-cA_1ptq-a1-m2-cA PROTEIN KINASE C DELTA CYS2 DOMAIN P28867 P28867 1.95 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 50 50 HRFKVYNYMSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLC HRFKVYNYMSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLC 1ptu-a1-m1-cA_1ptu-a1-m2-cA CRYSTAL STRUCTURE OF PROTEIN TYROSINE PHOSPHATASE 1B COMPLEXED WITH PHOSPHOTYROSINE-CONTAINING HEXA-PEPTIDE (DADEPYL-NH2) P18031 P18031 2.6 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 EMEKEFEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKTYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHSSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKFIMGDSSVQDQWKELSHED EMEKEFEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKTYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHSSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKFIMGDSSVQDQWKELSHED 1pu5-a4-m1-cA_1pu5-a4-m2-cB GM2-activator Protein crystal structure P17900 P17900 1.9 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 1g13-a4-m1-cA_1g13-a4-m2-cB 1tjj-a5-m1-cA_1tjj-a5-m2-cB 1tjj-a6-m1-cB_1tjj-a6-m3-cA HMSSFSWDNCDEGKDPAVIRSLTLEPDPIVVPGNVTLSVVGSTSVPLSSPLKVDLVLEKEVAGLWIKIPCTDYIGSCTFEHFCDVLDMLIPTGEPCPEPLRTYGLPCHCPFKEGTYSLPKSEFVVPDLELPSWLTTGNYRIESVLSSSGKRLGCIKIAASLKGI HMSSFSWDNCDEGKDPAVIRSLTLEPDPIVVPGNVTLSVVGSTSVPLSSPLKVDLVLEKEVAGLWIKIPCTDYIGSCTFEHFCDVLDMLIPTGEPCPEPLRTYGLPCHCPFKEGTYSLPKSEFVVPDLELPSWLTTGNYRIESVLSSSGKRLGCIKIAASLKGI 1pug-a2-m1-cD_1pug-a2-m1-cC Structure of E. coli Ybab P0A8B5 P0A8B5 2.2 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 75 80 1pug-a1-m1-cB_1pug-a1-m1-cA MQKMQEEIAQLEVTGESGAGLVKVTINGAHNCRRVEIDPSLLEDDKEMLEDLVAAAFNDAARRIEETQKEKMASV QMQEKMQKMQEEIAQLEVTGESGAGLVKVTINGAHNCRRVEIDPSLLEDDKEMLEDLVAAAFNDAARRIEETQKEKMASV 1pv1-a1-m1-cB_1pv1-a1-m1-cD Crystal Structure Analysis of Yeast Hypothetical Protein: YJG8_YEAST P40363 P40363 2.3 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 290 290 1pv1-a1-m1-cA_1pv1-a1-m1-cC MKVVKEFSVCGGRLIKLSHNSNSTKTSMNVNIYLPKHYYAQDFPRNKRIPTVFYLSGLTCTPDNASEKAFWQFQADKYGFAIVFPDTSPRGDEVANDPEGSWDFGQGAGFYLNATQEPYAQHYQMYDYIHKELPQTLDSHFNKLDFLDNVAITGHSMGGYGAICGYLKGYSGKRYKSCSAFAPIVNPSNVPWGQKAFKGYLGEWEAYDPCLLIKNIRHVGDDRILIHVGDSDPFLEEHLKPELLLEAVKATSWQDYVEIKKVHGFDHSYYFVSTFVPEHAEFHARNLGLI MKVVKEFSVCGGRLIKLSHNSNSTKTSMNVNIYLPKHYYAQDFPRNKRIPTVFYLSGLTCTPDNASEKAFWQFQADKYGFAIVFPDTSPRGDEVANDPEGSWDFGQGAGFYLNATQEPYAQHYQMYDYIHKELPQTLDSHFNKLDFLDNVAITGHSMGGYGAICGYLKGYSGKRYKSCSAFAPIVNPSNVPWGQKAFKGYLGEWEAYDPCLLIKNIRHVGDDRILIHVGDSDPFLEEHLKPELLLEAVKATSWQDYVEIKKVHGFDHSYYFVSTFVPEHAEFHARNLGLI 1pv1-a1-m1-cC_1pv1-a1-m1-cD Crystal Structure Analysis of Yeast Hypothetical Protein: YJG8_YEAST P40363 P40363 2.3 X-RAY DIFFRACTION 49 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 290 290 1pv1-a1-m1-cA_1pv1-a1-m1-cB 3c6b-a1-m1-cA_3c6b-a1-m2-cA 4flm-a1-m1-cA_4flm-a1-m1-cB 4fol-a1-m1-cA_4fol-a1-m1-cB 4fol-a2-m1-cC_4fol-a2-m1-cD MKVVKEFSVCGGRLIKLSHNSNSTKTSMNVNIYLPKHYYAQDFPRNKRIPTVFYLSGLTCTPDNASEKAFWQFQADKYGFAIVFPDTSPRGDEVANDPEGSWDFGQGAGFYLNATQEPYAQHYQMYDYIHKELPQTLDSHFNKLDFLDNVAITGHSMGGYGAICGYLKGYSGKRYKSCSAFAPIVNPSNVPWGQKAFKGYLGEWEAYDPCLLIKNIRHVGDDRILIHVGDSDPFLEEHLKPELLLEAVKATSWQDYVEIKKVHGFDHSYYFVSTFVPEHAEFHARNLGLI MKVVKEFSVCGGRLIKLSHNSNSTKTSMNVNIYLPKHYYAQDFPRNKRIPTVFYLSGLTCTPDNASEKAFWQFQADKYGFAIVFPDTSPRGDEVANDPEGSWDFGQGAGFYLNATQEPYAQHYQMYDYIHKELPQTLDSHFNKLDFLDNVAITGHSMGGYGAICGYLKGYSGKRYKSCSAFAPIVNPSNVPWGQKAFKGYLGEWEAYDPCLLIKNIRHVGDDRILIHVGDSDPFLEEHLKPELLLEAVKATSWQDYVEIKKVHGFDHSYYFVSTFVPEHAEFHARNLGLI 1pv2-a2-m1-cC_1pv2-a2-m1-cD Native Form 2 E.coli Chaperone Hsp31 P31658 P31658 2.71 X-RAY DIFFRACTION 52 0.98 562 (Escherichia coli) 562 (Escherichia coli) 249 264 1pv2-a1-m1-cA_1pv2-a1-m1-cB TSKNPQVDIAEDNAFFPSEYSLKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMPHKDEKVMPFFEQHKSLFRNPKKLADVVASLSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAA TSKNPQVDIAEDNAFFPSEYSLSLDGVDYPKPYRGKHKILVIAADERYLPTDNGKLFSTGNHPIETLLPLYHLHAAGFEFEVATISGLMTKFEYWAMKVMPFFEQHKSLFRNPKKLADVVASLNADSEYAAIFVPGGHGALIGLPESQDVAAALQWAIKNDRFVISLCHGPAAFLALRHGDNPLNGYSICAFPDAADKQTPEIGYMPGHLTWYFGEELKKMGMNIINDDITGRVHKDRKLLTGDSPFAANALGKLAAQEMLAAY 1pv9-a1-m1-cB_1pv9-a1-m1-cA Prolidase from Pyrococcus furiosus P81535 P81535 2 X-RAY DIFFRACTION 94 0.984 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 318 337 RLEKLVKFMDENSIDRVFIAKPVNVYYFSGTSPLGGGYIIVDGDEATLYVPELEYEMAKEESKLPVVKFKKFDEIYEILKNTETLGIEGTLSYSMVENFKEKSNVKEFKKIDDVIKDLRIIKTKEEIEIIEKACEIADKAVMAAIEEITEGKREREVAAKVEYLMKMNGAEKPAFDTIIASGHRSALPHGVASDKRIERGDLVVIDLGALYNHYNSDITRTIVAQKRAVEAAKPGMTAKELDSIAREIIKEYGYGYFIHSLGHGVGLEIHEWPRIYDETVLKEGMVITIEPGIYGGVRIEDTVLITENGAKRLTKTER LVKFMDENSIDRVFIAKPVNVYYFSGTSPLGGGYIIVDGDEATLYVPELEYEMAKEESKLPVVKFKKFDEIYEILKNTETLGIEGTLSYSMVENFKEKSVKEFKKIDDVIKDLRIIKTKEEIEIIEKACEIADKAVMAAIEEITEGKREREVAAKVEYLMKMNGAEKPAFDTIIASGHRSALPHGVASDKRIERGDLVVIDLGALYNHYNSDITRTIVVGSPNEKQREIYEIVLEAQKRAVEAAKPGMTAKELDSIAREIIKEYGYGDYFIHSLGHGVGLEIHEWPRISQYDETVLKEGMVITIEPGIYIPKLGGVRIEDTVLITENGAKRLTKTER 1pvc-a1-m23-c2_1pvc-a1-m9-c2 REFINEMENT OF THE SABIN STRAIN OF TYPE 3 POLIOVIRUS AT 2.4 ANGSTROMS AND THE CRYSTAL STRUCTURES OF ITS VARIANTS AT 2.9 ANGSTROMS RESOLUTION P03302 P03302 2.4 X-RAY DIFFRACTION 56 1.0 12088 (Poliovirus type 3 (strains P3/LEON/37 AND P3/LEON 12A[1]B)) 12088 (Poliovirus type 3 (strains P3/LEON/37 AND P3/LEON 12A[1]B)) 266 266 1piv-a1-m10-c2_1piv-a1-m5-c2 1piv-a1-m11-c2_1piv-a1-m37-c2 1piv-a1-m12-c2_1piv-a1-m46-c2 1piv-a1-m13-c2_1piv-a1-m44-c2 1piv-a1-m14-c2_1piv-a1-m28-c2 1piv-a1-m15-c2_1piv-a1-m20-c2 1piv-a1-m16-c2_1piv-a1-m27-c2 1piv-a1-m17-c2_1piv-a1-m51-c2 1piv-a1-m18-c2_1piv-a1-m59-c2 1piv-a1-m19-c2_1piv-a1-m38-c2 1piv-a1-m1-c2_1piv-a1-m22-c2 1piv-a1-m21-c2_1piv-a1-m42-c2 1piv-a1-m23-c2_1piv-a1-m9-c2 1piv-a1-m24-c2_1piv-a1-m53-c2 1piv-a1-m25-c2_1piv-a1-m30-c2 1piv-a1-m26-c2_1piv-a1-m52-c2 1piv-a1-m29-c2_1piv-a1-m43-c2 1piv-a1-m2-c2_1piv-a1-m41-c2 1piv-a1-m31-c2_1piv-a1-m57-c2 1piv-a1-m32-c2_1piv-a1-m6-c2 1piv-a1-m33-c2_1piv-a1-m4-c2 1piv-a1-m34-c2_1piv-a1-m48-c2 1piv-a1-m35-c2_1piv-a1-m40-c2 1piv-a1-m36-c2_1piv-a1-m47-c2 1piv-a1-m39-c2_1piv-a1-m58-c2 1piv-a1-m3-c2_1piv-a1-m49-c2 1piv-a1-m45-c2_1piv-a1-m50-c2 1piv-a1-m54-c2_1piv-a1-m8-c2 1piv-a1-m55-c2_1piv-a1-m60-c2 1piv-a1-m56-c2_1piv-a1-m7-c2 1pvc-a1-m10-c2_1pvc-a1-m5-c2 1pvc-a1-m11-c2_1pvc-a1-m37-c2 1pvc-a1-m12-c2_1pvc-a1-m46-c2 1pvc-a1-m13-c2_1pvc-a1-m44-c2 1pvc-a1-m14-c2_1pvc-a1-m28-c2 1pvc-a1-m15-c2_1pvc-a1-m20-c2 1pvc-a1-m16-c2_1pvc-a1-m27-c2 1pvc-a1-m17-c2_1pvc-a1-m51-c2 1pvc-a1-m18-c2_1pvc-a1-m59-c2 1pvc-a1-m19-c2_1pvc-a1-m38-c2 1pvc-a1-m1-c2_1pvc-a1-m22-c2 1pvc-a1-m21-c2_1pvc-a1-m42-c2 1pvc-a1-m24-c2_1pvc-a1-m53-c2 1pvc-a1-m25-c2_1pvc-a1-m30-c2 1pvc-a1-m26-c2_1pvc-a1-m52-c2 1pvc-a1-m29-c2_1pvc-a1-m43-c2 1pvc-a1-m2-c2_1pvc-a1-m41-c2 1pvc-a1-m31-c2_1pvc-a1-m57-c2 1pvc-a1-m32-c2_1pvc-a1-m6-c2 1pvc-a1-m33-c2_1pvc-a1-m4-c2 1pvc-a1-m34-c2_1pvc-a1-m48-c2 1pvc-a1-m35-c2_1pvc-a1-m40-c2 1pvc-a1-m36-c2_1pvc-a1-m47-c2 1pvc-a1-m39-c2_1pvc-a1-m58-c2 1pvc-a1-m3-c2_1pvc-a1-m49-c2 1pvc-a1-m45-c2_1pvc-a1-m50-c2 1pvc-a1-m54-c2_1pvc-a1-m8-c2 1pvc-a1-m55-c2_1pvc-a1-m60-c2 1pvc-a1-m56-c2_1pvc-a1-m7-c2 1vba-a1-m10-c2_1vba-a1-m5-c2 1vba-a1-m11-c2_1vba-a1-m37-c2 1vba-a1-m12-c2_1vba-a1-m46-c2 1vba-a1-m13-c2_1vba-a1-m44-c2 1vba-a1-m14-c2_1vba-a1-m28-c2 1vba-a1-m15-c2_1vba-a1-m20-c2 1vba-a1-m16-c2_1vba-a1-m27-c2 1vba-a1-m17-c2_1vba-a1-m51-c2 1vba-a1-m18-c2_1vba-a1-m59-c2 1vba-a1-m19-c2_1vba-a1-m38-c2 1vba-a1-m1-c2_1vba-a1-m22-c2 1vba-a1-m21-c2_1vba-a1-m42-c2 1vba-a1-m23-c2_1vba-a1-m9-c2 1vba-a1-m24-c2_1vba-a1-m53-c2 1vba-a1-m25-c2_1vba-a1-m30-c2 1vba-a1-m26-c2_1vba-a1-m52-c2 1vba-a1-m29-c2_1vba-a1-m43-c2 1vba-a1-m2-c2_1vba-a1-m41-c2 1vba-a1-m31-c2_1vba-a1-m57-c2 1vba-a1-m32-c2_1vba-a1-m6-c2 1vba-a1-m33-c2_1vba-a1-m4-c2 1vba-a1-m34-c2_1vba-a1-m48-c2 1vba-a1-m35-c2_1vba-a1-m40-c2 1vba-a1-m36-c2_1vba-a1-m47-c2 1vba-a1-m39-c2_1vba-a1-m58-c2 1vba-a1-m3-c2_1vba-a1-m49-c2 1vba-a1-m45-c2_1vba-a1-m50-c2 1vba-a1-m54-c2_1vba-a1-m8-c2 1vba-a1-m55-c2_1vba-a1-m60-c2 1vba-a1-m56-c2_1vba-a1-m7-c2 1vbb-a1-m10-c2_1vbb-a1-m5-c2 1vbb-a1-m11-c2_1vbb-a1-m37-c2 1vbb-a1-m12-c2_1vbb-a1-m46-c2 1vbb-a1-m13-c2_1vbb-a1-m44-c2 1vbb-a1-m14-c2_1vbb-a1-m28-c2 1vbb-a1-m15-c2_1vbb-a1-m20-c2 1vbb-a1-m16-c2_1vbb-a1-m27-c2 1vbb-a1-m17-c2_1vbb-a1-m51-c2 1vbb-a1-m18-c2_1vbb-a1-m59-c2 1vbb-a1-m19-c2_1vbb-a1-m38-c2 1vbb-a1-m1-c2_1vbb-a1-m22-c2 1vbb-a1-m21-c2_1vbb-a1-m42-c2 1vbb-a1-m23-c2_1vbb-a1-m9-c2 1vbb-a1-m24-c2_1vbb-a1-m53-c2 1vbb-a1-m25-c2_1vbb-a1-m30-c2 1vbb-a1-m26-c2_1vbb-a1-m52-c2 1vbb-a1-m29-c2_1vbb-a1-m43-c2 1vbb-a1-m2-c2_1vbb-a1-m41-c2 1vbb-a1-m31-c2_1vbb-a1-m57-c2 1vbb-a1-m32-c2_1vbb-a1-m6-c2 1vbb-a1-m33-c2_1vbb-a1-m4-c2 1vbb-a1-m34-c2_1vbb-a1-m48-c2 1vbb-a1-m35-c2_1vbb-a1-m40-c2 1vbb-a1-m36-c2_1vbb-a1-m47-c2 1vbb-a1-m39-c2_1vbb-a1-m58-c2 1vbb-a1-m3-c2_1vbb-a1-m49-c2 1vbb-a1-m45-c2_1vbb-a1-m50-c2 1vbb-a1-m54-c2_1vbb-a1-m8-c2 1vbb-a1-m55-c2_1vbb-a1-m60-c2 1vbb-a1-m56-c2_1vbb-a1-m7-c2 1vbc-a1-m10-c2_1vbc-a1-m5-c2 1vbc-a1-m11-c2_1vbc-a1-m37-c2 1vbc-a1-m12-c2_1vbc-a1-m46-c2 1vbc-a1-m13-c2_1vbc-a1-m44-c2 1vbc-a1-m14-c2_1vbc-a1-m28-c2 1vbc-a1-m15-c2_1vbc-a1-m20-c2 1vbc-a1-m16-c2_1vbc-a1-m27-c2 1vbc-a1-m17-c2_1vbc-a1-m51-c2 1vbc-a1-m18-c2_1vbc-a1-m59-c2 1vbc-a1-m19-c2_1vbc-a1-m38-c2 1vbc-a1-m1-c2_1vbc-a1-m22-c2 1vbc-a1-m21-c2_1vbc-a1-m42-c2 1vbc-a1-m23-c2_1vbc-a1-m9-c2 1vbc-a1-m24-c2_1vbc-a1-m53-c2 1vbc-a1-m25-c2_1vbc-a1-m30-c2 1vbc-a1-m26-c2_1vbc-a1-m52-c2 1vbc-a1-m29-c2_1vbc-a1-m43-c2 1vbc-a1-m2-c2_1vbc-a1-m41-c2 1vbc-a1-m31-c2_1vbc-a1-m57-c2 1vbc-a1-m32-c2_1vbc-a1-m6-c2 1vbc-a1-m33-c2_1vbc-a1-m4-c2 1vbc-a1-m34-c2_1vbc-a1-m48-c2 1vbc-a1-m35-c2_1vbc-a1-m40-c2 1vbc-a1-m36-c2_1vbc-a1-m47-c2 1vbc-a1-m39-c2_1vbc-a1-m58-c2 1vbc-a1-m3-c2_1vbc-a1-m49-c2 1vbc-a1-m45-c2_1vbc-a1-m50-c2 1vbc-a1-m54-c2_1vbc-a1-m8-c2 1vbc-a1-m55-c2_1vbc-a1-m60-c2 1vbc-a1-m56-c2_1vbc-a1-m7-c2 1vbe-a1-m10-c2_1vbe-a1-m5-c2 1vbe-a1-m11-c2_1vbe-a1-m37-c2 1vbe-a1-m12-c2_1vbe-a1-m46-c2 1vbe-a1-m13-c2_1vbe-a1-m44-c2 1vbe-a1-m14-c2_1vbe-a1-m28-c2 1vbe-a1-m15-c2_1vbe-a1-m20-c2 1vbe-a1-m16-c2_1vbe-a1-m27-c2 1vbe-a1-m17-c2_1vbe-a1-m51-c2 1vbe-a1-m18-c2_1vbe-a1-m59-c2 1vbe-a1-m19-c2_1vbe-a1-m38-c2 1vbe-a1-m1-c2_1vbe-a1-m22-c2 1vbe-a1-m21-c2_1vbe-a1-m42-c2 1vbe-a1-m23-c2_1vbe-a1-m9-c2 1vbe-a1-m24-c2_1vbe-a1-m53-c2 1vbe-a1-m25-c2_1vbe-a1-m30-c2 1vbe-a1-m26-c2_1vbe-a1-m52-c2 1vbe-a1-m29-c2_1vbe-a1-m43-c2 1vbe-a1-m2-c2_1vbe-a1-m41-c2 1vbe-a1-m31-c2_1vbe-a1-m57-c2 1vbe-a1-m32-c2_1vbe-a1-m6-c2 1vbe-a1-m33-c2_1vbe-a1-m4-c2 1vbe-a1-m34-c2_1vbe-a1-m48-c2 1vbe-a1-m35-c2_1vbe-a1-m40-c2 1vbe-a1-m36-c2_1vbe-a1-m47-c2 1vbe-a1-m39-c2_1vbe-a1-m58-c2 1vbe-a1-m3-c2_1vbe-a1-m49-c2 1vbe-a1-m45-c2_1vbe-a1-m50-c2 1vbe-a1-m54-c2_1vbe-a1-m8-c2 1vbe-a1-m55-c2_1vbe-a1-m60-c2 1vbe-a1-m56-c2_1vbe-a1-m7-c2 3epd-a1-m10-c2_3epd-a1-m24-c2 3epd-a1-m11-c2_3epd-a1-m16-c2 3epd-a1-m12-c2_3epd-a1-m38-c2 3epd-a1-m13-c2_3epd-a1-m47-c2 3epd-a1-m14-c2_3epd-a1-m45-c2 3epd-a1-m15-c2_3epd-a1-m29-c2 3epd-a1-m17-c2_3epd-a1-m28-c2 3epd-a1-m18-c2_3epd-a1-m52-c2 3epd-a1-m19-c2_3epd-a1-m60-c2 3epd-a1-m1-c2_3epd-a1-m6-c2 3epd-a1-m20-c2_3epd-a1-m39-c2 3epd-a1-m21-c2_3epd-a1-m26-c2 3epd-a1-m22-c2_3epd-a1-m43-c2 3epd-a1-m25-c2_3epd-a1-m54-c2 3epd-a1-m27-c2_3epd-a1-m53-c2 3epd-a1-m2-c2_3epd-a1-m23-c2 3epd-a1-m30-c2_3epd-a1-m44-c2 3epd-a1-m31-c2_3epd-a1-m36-c2 3epd-a1-m32-c2_3epd-a1-m58-c2 3epd-a1-m33-c2_3epd-a1-m7-c2 3epd-a1-m34-c2_3epd-a1-m5-c2 3epd-a1-m35-c2_3epd-a1-m49-c2 3epd-a1-m37-c2_3epd-a1-m48-c2 3epd-a1-m3-c2_3epd-a1-m42-c2 3epd-a1-m40-c2_3epd-a1-m59-c2 3epd-a1-m41-c2_3epd-a1-m46-c2 3epd-a1-m4-c2_3epd-a1-m50-c2 3epd-a1-m51-c2_3epd-a1-m56-c2 3epd-a1-m55-c2_3epd-a1-m9-c2 3epd-a1-m57-c2_3epd-a1-m8-c2 5o5b-a1-m10-c2_5o5b-a1-m5-c2 5o5b-a1-m11-c2_5o5b-a1-m37-c2 5o5b-a1-m12-c2_5o5b-a1-m46-c2 5o5b-a1-m13-c2_5o5b-a1-m44-c2 5o5b-a1-m14-c2_5o5b-a1-m28-c2 5o5b-a1-m15-c2_5o5b-a1-m20-c2 5o5b-a1-m16-c2_5o5b-a1-m27-c2 5o5b-a1-m17-c2_5o5b-a1-m51-c2 5o5b-a1-m18-c2_5o5b-a1-m59-c2 5o5b-a1-m19-c2_5o5b-a1-m38-c2 5o5b-a1-m1-c2_5o5b-a1-m22-c2 5o5b-a1-m21-c2_5o5b-a1-m42-c2 5o5b-a1-m23-c2_5o5b-a1-m9-c2 5o5b-a1-m24-c2_5o5b-a1-m53-c2 5o5b-a1-m25-c2_5o5b-a1-m30-c2 5o5b-a1-m26-c2_5o5b-a1-m52-c2 5o5b-a1-m29-c2_5o5b-a1-m43-c2 5o5b-a1-m2-c2_5o5b-a1-m41-c2 5o5b-a1-m31-c2_5o5b-a1-m57-c2 5o5b-a1-m32-c2_5o5b-a1-m6-c2 5o5b-a1-m33-c2_5o5b-a1-m4-c2 5o5b-a1-m34-c2_5o5b-a1-m48-c2 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8ayy-a1-m15-cA_8ayy-a1-m56-cA 8ayy-a1-m16-cA_8ayy-a1-m17-cA 8ayy-a1-m16-cA_8ayy-a1-m51-cA 8ayy-a1-m17-cA_8ayy-a1-m25-cA 8ayy-a1-m18-cA_8ayy-a1-m24-cA 8ayy-a1-m1-cA_8ayy-a1-m53-cA 8ayy-a1-m1-cA_8ayy-a1-m56-cA 8ayy-a1-m20-cA_8ayy-a1-m25-cA 8ayy-a1-m20-cA_8ayy-a1-m51-cA 8ayy-a1-m21-cA_8ayy-a1-m46-cA 8ayy-a1-m21-cA_8ayy-a1-m50-cA 8ayy-a1-m22-cA_8ayy-a1-m23-cA 8ayy-a1-m22-cA_8ayy-a1-m45-cA 8ayy-a1-m23-cA_8ayy-a1-m31-cA 8ayy-a1-m24-cA_8ayy-a1-m30-cA 8ayy-a1-m26-cA_8ayy-a1-m31-cA 8ayy-a1-m26-cA_8ayy-a1-m45-cA 8ayy-a1-m27-cA_8ayy-a1-m40-cA 8ayy-a1-m27-cA_8ayy-a1-m44-cA 8ayy-a1-m28-cA_8ayy-a1-m29-cA 8ayy-a1-m28-cA_8ayy-a1-m39-cA 8ayy-a1-m29-cA_8ayy-a1-m7-cA 8ayy-a1-m2-cA_8ayy-a1-m39-cA 8ayy-a1-m2-cA_8ayy-a1-m7-cA 8ayy-a1-m30-cA_8ayy-a1-m6-cA 8ayy-a1-m32-cA_8ayy-a1-m37-cA 8ayy-a1-m32-cA_8ayy-a1-m9-cA 8ayy-a1-m33-cA_8ayy-a1-m4-cA 8ayy-a1-m33-cA_8ayy-a1-m8-cA 8ayy-a1-m34-cA_8ayy-a1-m35-cA 8ayy-a1-m35-cA_8ayy-a1-m43-cA 8ayy-a1-m36-cA_8ayy-a1-m42-cA 8ayy-a1-m36-cA_8ayy-a1-m60-cA 8ayy-a1-m37-cA_8ayy-a1-m59-cA 8ayy-a1-m38-cA_8ayy-a1-m43-cA 8ayy-a1-m3-cA_8ayy-a1-m34-cA 8ayy-a1-m3-cA_8ayy-a1-m38-cA 8ayy-a1-m40-cA_8ayy-a1-m41-cA 8ayy-a1-m41-cA_8ayy-a1-m49-cA 8ayy-a1-m42-cA_8ayy-a1-m48-cA 8ayy-a1-m44-cA_8ayy-a1-m49-cA 8ayy-a1-m46-cA_8ayy-a1-m47-cA 8ayy-a1-m47-cA_8ayy-a1-m55-cA 8ayy-a1-m48-cA_8ayy-a1-m54-cA 8ayy-a1-m4-cA_8ayy-a1-m5-cA 8ayy-a1-m50-cA_8ayy-a1-m55-cA 8ayy-a1-m52-cA_8ayy-a1-m53-cA 8ayy-a1-m54-cA_8ayy-a1-m60-cA 8ayy-a1-m58-cA_8ayy-a1-m59-cA 8ayy-a1-m58-cA_8ayy-a1-m9-cA QDSLPDTKASGPAHSKEVPALTAVETGATNPLAPSDTVQTRHVVQRRSRSESTIESFFARGACVAIIEVDNEQPTTRAQKLFAMWRITYKDTVQLRRKLEFFTYSRFDMEFTFVVTANFTNANNGHALNQVYQIMYIPPGAPTPKSWDDYTWQTSSNPSIFYTYGAAPARISVPYVGLANAYSHFYDGFAKVPLKTDANDQIGDSLYSAMTVDDFGVLAVRVVNDHNPTKVTSKVRIYMKPKHVRVWCPRPPRAVPYYGPGVDYRNNLDPLSEKGLTTY QDSLPDTKASGPAHSKEVPALTAVETGATNPLAPSDTVQTRHVVQRRSRSESTIESFFARGACVAIIEVDNEQPTTRAQKLFAMWRITYKDTVQLRRKLEFFTYSRFDMEFTFVVTANFTNANNGHALNQVYQIMYIPPGAPTPKSWDDYTWQTSSNPSIFYTYGAAPARISVPYVGLANAYSHFYDGFAKVPLKTDANDQIGDSLYSAMTVDDFGVLAVRVVNDHNPTKVTSKVRIYMKPKHVRVWCPRPPRAVPYYGPGVDYRNNLDPLSEKGLTTY 1pvj-a1-m1-cA_1pvj-a1-m1-cD Crystal structure of the Streptococcal pyrogenic exotoxin B (SpeB)- inhibitor complex P0C0J0 P0C0J0 3 X-RAY DIFFRACTION 11 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 339 339 FARNEKEAKDSAITFIQKIKLDKVNLGGELSGSNMYVYNISTGGFVIVSGDKRSPEILGYSTSGSFDANGKENIASFMESYVEQIKENKKLDTTYAQPVVKSLLDSKGIHYNQGNPYNLLTPVIEKVKPGEQSFVGQHAATGCVATATAQIMKYHNYPNKGLKDYTYTLSSNNPYFNHPKNLFAAISTRQYNWNNILPTYSGRESNVQKMAISELMADVGISVDMDYGPSSGSAGSSRVQRALKENFGYNQSVHQINRGDFSKQDWEAQIDKELSQNQPVYYQGVGKVGGHAFVIDGADGRNFYHVNWGWGGVSDGFFRLDALNPGFNGYQSAVVGIKP FARNEKEAKDSAITFIQKIKLDKVNLGGELSGSNMYVYNISTGGFVIVSGDKRSPEILGYSTSGSFDANGKENIASFMESYVEQIKENKKLDTTYAQPVVKSLLDSKGIHYNQGNPYNLLTPVIEKVKPGEQSFVGQHAATGCVATATAQIMKYHNYPNKGLKDYTYTLSSNNPYFNHPKNLFAAISTRQYNWNNILPTYSGRESNVQKMAISELMADVGISVDMDYGPSSGSAGSSRVQRALKENFGYNQSVHQINRGDFSKQDWEAQIDKELSQNQPVYYQGVGKVGGHAFVIDGADGRNFYHVNWGWGGVSDGFFRLDALNPGFNGYQSAVVGIKP 1pvj-a1-m1-cB_1pvj-a1-m1-cD Crystal structure of the Streptococcal pyrogenic exotoxin B (SpeB)- inhibitor complex P0C0J0 P0C0J0 3 X-RAY DIFFRACTION 22 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 339 339 1pvj-a1-m1-cA_1pvj-a1-m1-cC FARNEKEAKDSAITFIQKIKLDKVNLGGELSGSNMYVYNISTGGFVIVSGDKRSPEILGYSTSGSFDANGKENIASFMESYVEQIKENKKLDTTYAQPVVKSLLDSKGIHYNQGNPYNLLTPVIEKVKPGEQSFVGQHAATGCVATATAQIMKYHNYPNKGLKDYTYTLSSNNPYFNHPKNLFAAISTRQYNWNNILPTYSGRESNVQKMAISELMADVGISVDMDYGPSSGSAGSSRVQRALKENFGYNQSVHQINRGDFSKQDWEAQIDKELSQNQPVYYQGVGKVGGHAFVIDGADGRNFYHVNWGWGGVSDGFFRLDALNPGFNGYQSAVVGIKP FARNEKEAKDSAITFIQKIKLDKVNLGGELSGSNMYVYNISTGGFVIVSGDKRSPEILGYSTSGSFDANGKENIASFMESYVEQIKENKKLDTTYAQPVVKSLLDSKGIHYNQGNPYNLLTPVIEKVKPGEQSFVGQHAATGCVATATAQIMKYHNYPNKGLKDYTYTLSSNNPYFNHPKNLFAAISTRQYNWNNILPTYSGRESNVQKMAISELMADVGISVDMDYGPSSGSAGSSRVQRALKENFGYNQSVHQINRGDFSKQDWEAQIDKELSQNQPVYYQGVGKVGGHAFVIDGADGRNFYHVNWGWGGVSDGFFRLDALNPGFNGYQSAVVGIKP 1pvj-a1-m1-cC_1pvj-a1-m1-cD Crystal structure of the Streptococcal pyrogenic exotoxin B (SpeB)- inhibitor complex P0C0J0 P0C0J0 3 X-RAY DIFFRACTION 63 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 339 339 1pvj-a1-m1-cA_1pvj-a1-m1-cB FARNEKEAKDSAITFIQKIKLDKVNLGGELSGSNMYVYNISTGGFVIVSGDKRSPEILGYSTSGSFDANGKENIASFMESYVEQIKENKKLDTTYAQPVVKSLLDSKGIHYNQGNPYNLLTPVIEKVKPGEQSFVGQHAATGCVATATAQIMKYHNYPNKGLKDYTYTLSSNNPYFNHPKNLFAAISTRQYNWNNILPTYSGRESNVQKMAISELMADVGISVDMDYGPSSGSAGSSRVQRALKENFGYNQSVHQINRGDFSKQDWEAQIDKELSQNQPVYYQGVGKVGGHAFVIDGADGRNFYHVNWGWGGVSDGFFRLDALNPGFNGYQSAVVGIKP FARNEKEAKDSAITFIQKIKLDKVNLGGELSGSNMYVYNISTGGFVIVSGDKRSPEILGYSTSGSFDANGKENIASFMESYVEQIKENKKLDTTYAQPVVKSLLDSKGIHYNQGNPYNLLTPVIEKVKPGEQSFVGQHAATGCVATATAQIMKYHNYPNKGLKDYTYTLSSNNPYFNHPKNLFAAISTRQYNWNNILPTYSGRESNVQKMAISELMADVGISVDMDYGPSSGSAGSSRVQRALKENFGYNQSVHQINRGDFSKQDWEAQIDKELSQNQPVYYQGVGKVGGHAFVIDGADGRNFYHVNWGWGGVSDGFFRLDALNPGFNGYQSAVVGIKP 1pvm-a1-m1-cA_1pvm-a1-m1-cB Crystal Structure of a Conserved CBS Domain Protein TA0289 of Unknown Function from Thermoplasma acidophilum Q9HLD9 Q9HLD9 1.5 X-RAY DIFFRACTION 86 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 178 184 2qh1-a1-m1-cA_2qh1-a1-m1-cB MFMRVEKIMNSNFKTVNWNTTVFDAVKIMNENHLYGLVVKDDNGNDVGLLSERSIIKRFIPRNKKPDEVPIRLVMRKPIPKVKSDYDVKDVAAYLSENGLERCAVVDDPGRVVGIVTLTDLSRYLSRASITDILLSHRTKDYQHLCPKCGVGVLEPVYNEKGEIKVFRCSNPACDYEE VPRGGHMFMRVEKIMNSNFKTVNWNTTVFDAVKIMNENHLYGLVVKDDNGNDVGLLSERSIIKRFIPRNKKPDEVPIRLVMRKPIPKVKSDYDVKDVAAYLSENGLERCAVVDDPGRVVGIVTLTDLSRYLSRASITDILLSHRTKDYQHLCPKCGVGVLEPVYNEKGEIKVFRCSNPACDYEE 1pvt-a2-m4-cA_1pvt-a2-m2-cA Crystal structure of sugar-phosphate aldolase from Thermotoga maritima Q9X0G1 Q9X0G1 2.5 X-RAY DIFFRACTION 53 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 224 224 1pvt-a2-m3-cA_1pvt-a2-m1-cA 1pvt-a2-m3-cA_1pvt-a2-m2-cA 1pvt-a2-m4-cA_1pvt-a2-m1-cA GHRETIREIQKVAYWLAIKGLSEANAGNISVRLDERPEGYEVKSVNEYGFDYDGPEYLLITATGSRREVYEDDSKICLLHVLPGKHYEILHGNGKPTSEFPTHLIHAKFKENPEKKAIVHTHPLNLLTLNLEEFQELLPKKIHPEVLIFFPQGISVVEFEKPGSVELGLKTVEKSEGKDAVLWDKHGVVAFGKDVAEAYDRVEILEKAAEILLRVLSLGRNPTG GHRETIREIQKVAYWLAIKGLSEANAGNISVRLDERPEGYEVKSVNEYGFDYDGPEYLLITATGSRREVYEDDSKICLLHVLPGKHYEILHGNGKPTSEFPTHLIHAKFKENPEKKAIVHTHPLNLLTLNLEEFQELLPKKIHPEVLIFFPQGISVVEFEKPGSVELGLKTVEKSEGKDAVLWDKHGVVAFGKDVAEAYDRVEILEKAAEILLRVLSLGRNPTG 1pvv-a1-m11-cA_1pvv-a1-m9-cA Refined Structure of Pyrococcus furiosus Ornithine Carbamoyltransferase at 1.87 A Q51742 Q51742 1.87 X-RAY DIFFRACTION 18 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 313 313 1a1s-a1-m10-cA_1a1s-a1-m12-cA 1a1s-a1-m11-cA_1a1s-a1-m9-cA 1a1s-a1-m1-cA_1a1s-a1-m3-cA 1a1s-a1-m2-cA_1a1s-a1-m4-cA 1a1s-a1-m5-cA_1a1s-a1-m7-cA 1a1s-a1-m6-cA_1a1s-a1-m8-cA 1pvv-a1-m10-cA_1pvv-a1-m12-cA 1pvv-a1-m1-cA_1pvv-a1-m3-cA 1pvv-a1-m2-cA_1pvv-a1-m4-cA 1pvv-a1-m5-cA_1pvv-a1-m7-cA 1pvv-a1-m6-cA_1pvv-a1-m8-cA VVSLAGRDLLCLQDYTAEEIWTILETAKMFKIWQKIGKPHRLLEGKTLAMIFQKPSTRTRVSFEVAMAHLGGHALYLNAQDLQLRRGETIADTARVLSRYVDAIMARVYDHKDVEDLAKYATVPVINGLSDFSHPCQALADYMTIWEKKGTIKGVKVVYVGDGNNVAHSLMIAGTKLGADVVVATPEGYEPDEKVIKWAEQNAAESGGSFELLHDPVKAVKDADVIYTDVWASMGQEAEAEERRKIFRPFQVNKDLVKHAKPDYMFMHCLPAHRGEEVTDDVIDSPNSVVWDQAENRLHAQKAVLALVMGGIK VVSLAGRDLLCLQDYTAEEIWTILETAKMFKIWQKIGKPHRLLEGKTLAMIFQKPSTRTRVSFEVAMAHLGGHALYLNAQDLQLRRGETIADTARVLSRYVDAIMARVYDHKDVEDLAKYATVPVINGLSDFSHPCQALADYMTIWEKKGTIKGVKVVYVGDGNNVAHSLMIAGTKLGADVVVATPEGYEPDEKVIKWAEQNAAESGGSFELLHDPVKAVKDADVIYTDVWASMGQEAEAEERRKIFRPFQVNKDLVKHAKPDYMFMHCLPAHRGEEVTDDVIDSPNSVVWDQAENRLHAQKAVLALVMGGIK 1pvv-a1-m5-cA_1pvv-a1-m9-cA Refined Structure of Pyrococcus furiosus Ornithine Carbamoyltransferase at 1.87 A Q51742 Q51742 1.87 X-RAY DIFFRACTION 75 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 313 313 1a1s-a1-m10-cA_1a1s-a1-m3-cA 1a1s-a1-m10-cA_1a1s-a1-m8-cA 1a1s-a1-m11-cA_1a1s-a1-m4-cA 1a1s-a1-m11-cA_1a1s-a1-m6-cA 1a1s-a1-m12-cA_1a1s-a1-m2-cA 1a1s-a1-m12-cA_1a1s-a1-m7-cA 1a1s-a1-m1-cA_1a1s-a1-m5-cA 1a1s-a1-m1-cA_1a1s-a1-m9-cA 1a1s-a1-m2-cA_1a1s-a1-m7-cA 1a1s-a1-m3-cA_1a1s-a1-m8-cA 1a1s-a1-m4-cA_1a1s-a1-m6-cA 1a1s-a1-m5-cA_1a1s-a1-m9-cA 1pvv-a1-m10-cA_1pvv-a1-m3-cA 1pvv-a1-m10-cA_1pvv-a1-m8-cA 1pvv-a1-m11-cA_1pvv-a1-m4-cA 1pvv-a1-m11-cA_1pvv-a1-m6-cA 1pvv-a1-m12-cA_1pvv-a1-m2-cA 1pvv-a1-m12-cA_1pvv-a1-m7-cA 1pvv-a1-m1-cA_1pvv-a1-m5-cA 1pvv-a1-m1-cA_1pvv-a1-m9-cA 1pvv-a1-m2-cA_1pvv-a1-m7-cA 1pvv-a1-m3-cA_1pvv-a1-m8-cA 1pvv-a1-m4-cA_1pvv-a1-m6-cA VVSLAGRDLLCLQDYTAEEIWTILETAKMFKIWQKIGKPHRLLEGKTLAMIFQKPSTRTRVSFEVAMAHLGGHALYLNAQDLQLRRGETIADTARVLSRYVDAIMARVYDHKDVEDLAKYATVPVINGLSDFSHPCQALADYMTIWEKKGTIKGVKVVYVGDGNNVAHSLMIAGTKLGADVVVATPEGYEPDEKVIKWAEQNAAESGGSFELLHDPVKAVKDADVIYTDVWASMGQEAEAEERRKIFRPFQVNKDLVKHAKPDYMFMHCLPAHRGEEVTDDVIDSPNSVVWDQAENRLHAQKAVLALVMGGIK VVSLAGRDLLCLQDYTAEEIWTILETAKMFKIWQKIGKPHRLLEGKTLAMIFQKPSTRTRVSFEVAMAHLGGHALYLNAQDLQLRRGETIADTARVLSRYVDAIMARVYDHKDVEDLAKYATVPVINGLSDFSHPCQALADYMTIWEKKGTIKGVKVVYVGDGNNVAHSLMIAGTKLGADVVVATPEGYEPDEKVIKWAEQNAAESGGSFELLHDPVKAVKDADVIYTDVWASMGQEAEAEERRKIFRPFQVNKDLVKHAKPDYMFMHCLPAHRGEEVTDDVIDSPNSVVWDQAENRLHAQKAVLALVMGGIK 1pvv-a1-m6-cA_1pvv-a1-m9-cA Refined Structure of Pyrococcus furiosus Ornithine Carbamoyltransferase at 1.87 A Q51742 Q51742 1.87 X-RAY DIFFRACTION 39 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 313 313 1a1s-a1-m10-cA_1a1s-a1-m7-cA 1a1s-a1-m11-cA_1a1s-a1-m2-cA 1a1s-a1-m11-cA_1a1s-a1-m5-cA 1a1s-a1-m12-cA_1a1s-a1-m4-cA 1a1s-a1-m12-cA_1a1s-a1-m8-cA 1a1s-a1-m1-cA_1a1s-a1-m10-cA 1a1s-a1-m1-cA_1a1s-a1-m7-cA 1a1s-a1-m2-cA_1a1s-a1-m5-cA 1a1s-a1-m3-cA_1a1s-a1-m6-cA 1a1s-a1-m3-cA_1a1s-a1-m9-cA 1a1s-a1-m4-cA_1a1s-a1-m8-cA 1a1s-a1-m6-cA_1a1s-a1-m9-cA 1pvv-a1-m10-cA_1pvv-a1-m7-cA 1pvv-a1-m11-cA_1pvv-a1-m2-cA 1pvv-a1-m11-cA_1pvv-a1-m5-cA 1pvv-a1-m12-cA_1pvv-a1-m4-cA 1pvv-a1-m12-cA_1pvv-a1-m8-cA 1pvv-a1-m1-cA_1pvv-a1-m10-cA 1pvv-a1-m1-cA_1pvv-a1-m7-cA 1pvv-a1-m2-cA_1pvv-a1-m5-cA 1pvv-a1-m3-cA_1pvv-a1-m6-cA 1pvv-a1-m3-cA_1pvv-a1-m9-cA 1pvv-a1-m4-cA_1pvv-a1-m8-cA VVSLAGRDLLCLQDYTAEEIWTILETAKMFKIWQKIGKPHRLLEGKTLAMIFQKPSTRTRVSFEVAMAHLGGHALYLNAQDLQLRRGETIADTARVLSRYVDAIMARVYDHKDVEDLAKYATVPVINGLSDFSHPCQALADYMTIWEKKGTIKGVKVVYVGDGNNVAHSLMIAGTKLGADVVVATPEGYEPDEKVIKWAEQNAAESGGSFELLHDPVKAVKDADVIYTDVWASMGQEAEAEERRKIFRPFQVNKDLVKHAKPDYMFMHCLPAHRGEEVTDDVIDSPNSVVWDQAENRLHAQKAVLALVMGGIK VVSLAGRDLLCLQDYTAEEIWTILETAKMFKIWQKIGKPHRLLEGKTLAMIFQKPSTRTRVSFEVAMAHLGGHALYLNAQDLQLRRGETIADTARVLSRYVDAIMARVYDHKDVEDLAKYATVPVINGLSDFSHPCQALADYMTIWEKKGTIKGVKVVYVGDGNNVAHSLMIAGTKLGADVVVATPEGYEPDEKVIKWAEQNAAESGGSFELLHDPVKAVKDADVIYTDVWASMGQEAEAEERRKIFRPFQVNKDLVKHAKPDYMFMHCLPAHRGEEVTDDVIDSPNSVVWDQAENRLHAQKAVLALVMGGIK 1pvw-a3-m1-cA_1pvw-a3-m2-cA 3,4-dihydroxy-2-butanone 4-phosphate synthase from M. jannaschii Q60364 Q60364 2.45 X-RAY DIFFRACTION 11 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 219 219 NNVEKAIEALKKGEIILVYDSDEREGETDMVVASQFITPEHIRIMRKDAGGLICTALHPDICNKLGIPFMVDILEFASQKFKVLRELYPNDIPYDEKSSFSITINHRKTFTGITDNDRAFTIKKLAELVKEGRFNDFGKEFRSPGHVTLLRAAEGLVKNRQGHTEMTVALAELANLVPITTICEMMGDDGNAMSKNETKRYAEKHNLIYLSGEEIINYY NNVEKAIEALKKGEIILVYDSDEREGETDMVVASQFITPEHIRIMRKDAGGLICTALHPDICNKLGIPFMVDILEFASQKFKVLRELYPNDIPYDEKSSFSITINHRKTFTGITDNDRAFTIKKLAELVKEGRFNDFGKEFRSPGHVTLLRAAEGLVKNRQGHTEMTVALAELANLVPITTICEMMGDDGNAMSKNETKRYAEKHNLIYLSGEEIINYY 1pvw-a3-m2-cA_1pvw-a3-m2-cB 3,4-dihydroxy-2-butanone 4-phosphate synthase from M. jannaschii Q60364 Q60364 2.45 X-RAY DIFFRACTION 162 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 219 219 1pvw-a1-m1-cA_1pvw-a1-m1-cB 1pvw-a2-m1-cC_1pvw-a2-m2-cC 1pvw-a3-m1-cA_1pvw-a3-m1-cB 1pvw-a3-m1-cC_1pvw-a3-m2-cC 1pvy-a1-m1-cA_1pvy-a1-m1-cB 1snn-a1-m1-cA_1snn-a1-m1-cB NNVEKAIEALKKGEIILVYDSDEREGETDMVVASQFITPEHIRIMRKDAGGLICTALHPDICNKLGIPFMVDILEFASQKFKVLRELYPNDIPYDEKSSFSITINHRKTFTGITDNDRAFTIKKLAELVKEGRFNDFGKEFRSPGHVTLLRAAEGLVKNRQGHTEMTVALAELANLVPITTICEMMGDDGNAMSKNETKRYAEKHNLIYLSGEEIINYY NNVEKAIEALKKGEIILVYDSDEREGETDMVVASQFITPEHIRIMRKDAGGLICTALHPDICNKLGIPFMVDILEFASQKFKVLRELYPNDIPYDEKSSFSITINHRKTFTGITDNDRAFTIKKLAELVKEGRFNDFGKEFRSPGHVTLLRAAEGLVKNRQGHTEMTVALAELANLVPITTICEMMGDDGNAMSKNETKRYAEKHNLIYLSGEEIINYY 1pvw-a3-m2-cA_1pvw-a3-m2-cC 3,4-dihydroxy-2-butanone 4-phosphate synthase from M. jannaschii Q60364 Q60364 2.45 X-RAY DIFFRACTION 10 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 219 219 1pvw-a3-m1-cA_1pvw-a3-m1-cC NNVEKAIEALKKGEIILVYDSDEREGETDMVVASQFITPEHIRIMRKDAGGLICTALHPDICNKLGIPFMVDILEFASQKFKVLRELYPNDIPYDEKSSFSITINHRKTFTGITDNDRAFTIKKLAELVKEGRFNDFGKEFRSPGHVTLLRAAEGLVKNRQGHTEMTVALAELANLVPITTICEMMGDDGNAMSKNETKRYAEKHNLIYLSGEEIINYY NNVEKAIEALKKGEIILVYDSDEREGETDMVVASQFITPEHIRIMRKDAGGLICTALHPDICNKLGIPFMVDILEFASQKFKVLRELYPNDIPYDEKSSFSITINHRKTFTGITDNDRAFTIKKLAELVKEGRFNDFGKEFRSPGHVTLLRAAEGLVKNRQGHTEMTVALAELANLVPITTICEMMGDDGNAMSKNETKRYAEKHNLIYLSGEEIINYY 1pw6-a3-m2-cA_1pw6-a3-m4-cB Low Micromolar Small Molecule Inhibitor of IL-2 P60568 P60568 2.6 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 129 1pw6-a3-m1-cA_1pw6-a3-m3-cB STKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEVLNLAQRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTL SSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEVLNLAQSKNFHLRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTLT 1pw6-a4-m1-cA_1pw6-a4-m4-cB Low Micromolar Small Molecule Inhibitor of IL-2 P60568 P60568 2.6 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 129 1pw6-a3-m1-cA_1pw6-a3-m4-cB 1pw6-a3-m2-cA_1pw6-a3-m3-cB STKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEVLNLAQRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTL SSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEVLNLAQSKNFHLRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTLT 1pwe-a9-m1-cE_1pwe-a9-m1-cF Rat Liver L-Serine Dehydratase Apo Enzyme P09367 P09367 2.8 X-RAY DIFFRACTION 162 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 315 315 1pwe-a7-m1-cA_1pwe-a7-m1-cB 1pwe-a8-m1-cC_1pwe-a8-m1-cD SLHVKTPLRDSMALSKVAGTSVFLKMDSSQPSGSFKIRGIGHLCKMKAKQGCKHFVCSSAGNAGMATAYAARRLGLPATIVVPSTTPALTIERLKNEGATVEVVGEMLDEAIQLAKALEKNNPGWVYISPFDDPLIWEGHTSLVKELKETLSAKPGAIVLSVGGGGLLCGVVQGLREVGWEDVPIIAMETFGAHSFHAAVKEGKLVTLPKITSVAKALGVNTVGAQTLKLFYEHPIFSEVISDQEAVTAIEKFVDDEKILVEPACGAALAAVYSGVVCRLQAEARLQTPLASLVVIVCGGSNISLAQLQALKAQL SLHVKTPLRDSMALSKVAGTSVFLKMDSSQPSGSFKIRGIGHLCKMKAKQGCKHFVCSSAGNAGMATAYAARRLGLPATIVVPSTTPALTIERLKNEGATVEVVGEMLDEAIQLAKALEKNNPGWVYISPFDDPLIWEGHTSLVKELKETLSAKPGAIVLSVGGGGLLCGVVQGLREVGWEDVPIIAMETFGAHSFHAAVKEGKLVTLPKITSVAKALGVNTVGAQTLKLFYEHPIFSEVISDQEAVTAIEKFVDDEKILVEPACGAALAAVYSGVVCRLQAEARLQTPLASLVVIVCGGSNISLAQLQALKAQL 1pwo-a1-m1-cA_1pwo-a1-m1-cD Crystal Structure of Phospholipase A2 (MIPLA2) from Micropechis Ikaheka 2.6 X-RAY DIFFRACTION 27 1.0 66188 (Micropechis ikaheca) 66188 (Micropechis ikaheca) 124 124 1pwo-a1-m1-cB_1pwo-a1-m1-cC NLYQFRKMIKCTIPGREPLLAFTDYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYVNTYSYDCTDGKLTCNDQKDKCKLFICNCDRTAAMCFAKAPYIEANNHIDPNRCK NLYQFRKMIKCTIPGREPLLAFTDYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYVNTYSYDCTDGKLTCNDQKDKCKLFICNCDRTAAMCFAKAPYIEANNHIDPNRCK 1pwo-a1-m1-cB_1pwo-a1-m1-cD Crystal Structure of Phospholipase A2 (MIPLA2) from Micropechis Ikaheka 2.6 X-RAY DIFFRACTION 18 1.0 66188 (Micropechis ikaheca) 66188 (Micropechis ikaheca) 124 124 1pwo-a1-m1-cA_1pwo-a1-m1-cC NLYQFRKMIKCTIPGREPLLAFTDYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYVNTYSYDCTDGKLTCNDQKDKCKLFICNCDRTAAMCFAKAPYIEANNHIDPNRCK NLYQFRKMIKCTIPGREPLLAFTDYGCYCGKGGSGTPVDELDRCCQTHDNCYDKAEKLPECKGILSGPYVNTYSYDCTDGKLTCNDQKDKCKLFICNCDRTAAMCFAKAPYIEANNHIDPNRCK 1pxt-a1-m1-cA_1pxt-a1-m1-cB THE 2.8 ANGSTROMS STRUCTURE OF PEROXISOMAL 3-KETOACYL-COA THIOLASE OF SACCHAROMYCES CEREVISIAE: A FIVE LAYERED A-B-A-B-A STRUCTURE, CONSTRUCTED FROM TWO CORE DOMAINS OF IDENTICAL TOPOLOGY P27796 P27796 2.8 X-RAY DIFFRACTION 165 0.991 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 343 348 LLEKRPEDVVIVAANRSAIGKGFKGAFKDVNTDYLLYNFLNEFIGRFPEPLRADLNLIEEVACGNVLNVGAGATEHRAACLASGIPYSTPFVALNRQCSSGLTAVNDIANKIKVGQIDIGLALGVESMTNNYKNQKNREAKKCLIPMGITNENRKDQDEFAANSYQKAYKAKNEGLFEDEILPIKLPDGSICQSDEGPRPQVSDGVAGVLLARRSVANQLNLPVLGRYIDFQTVGVPPEIMGVGPAYAIPKVLEATGLQVQDIDIFEINEAFAAQALYCIHKLGIDLNKVNPRGGAIALGHPLGCTGARQVATILRELKKDQIGVVSMCIGTGMGAAAIFIKE LLEKRPEDVVIVAANRSAIGKGFKGAFKDVNTDYLLYNFLNEFIGRFPEPLRADLNLIEEVACGNVLNVGAGATEHRAACLASGIPYSTPFVALNRQCSSGLTAVNDIANKIKVGQIDIGLALGVESMTNNYKNKNREAKKCLMGITNENRKDQDEFAANSYQKAYKAKNEGLFEDEILPIKLPDGSICQSDEGPRPNVTAESLSQVSDGVAGVLLARRSVANQLNLPVLGRYIDFQTVGVPPEIMGVGPAYAIPKVLEATGLQVQDIDIFEINEAFAAQALYCIHKLGIDLNKVNPRGGAIALGHPLGCTGARQVATILRELKKDQIGVVSMCIGTGMGAAAIFIKE 1pxv-a3-m1-cA_1pxv-a3-m1-cB The staphostatin-staphopain complex: a forward binding inhibitor in complex with its target cysteine protease P0C1S6 P0C1S6 1.8 X-RAY DIFFRACTION 52 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 183 183 GHHHHHHEFDQVQYENTLKNFKIREQQFDNSWAAGFSMAALLNATKNTDTYNAHDIMRTLYPEVSEQDLPNCATFPNQMIEYGKSQGRDIHYQEGVPSYNQVDQLTKDNVGIMILAQSVSQNPNDPHLGHALAVVGNAKINDQEKLIYWNPWDTELSIQDADSSLLHLSFNRDYNWYGSMIGY GHHHHHHEFDQVQYENTLKNFKIREQQFDNSWAAGFSMAALLNATKNTDTYNAHDIMRTLYPEVSEQDLPNCATFPNQMIEYGKSQGRDIHYQEGVPSYNQVDQLTKDNVGIMILAQSVSQNPNDPHLGHALAVVGNAKINDQEKLIYWNPWDTELSIQDADSSLLHLSFNRDYNWYGSMIGY 1pxv-a4-m1-cD_1pxv-a4-m2-cC The staphostatin-staphopain complex: a forward binding inhibitor in complex with its target cysteine protease Q9EYW6 Q9EYW6 1.8 X-RAY DIFFRACTION 39 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 111 111 1y4h-a3-m1-cC_1y4h-a3-m2-cD GSMYQLQFINLVYDTTKLTHLEQTNINLFIGNWSNHQLQKSICIRHGDDTSHNQYHILFIDTAHQRIKFSSFDNEEIIYILDYDDTQHILMQTSSKQGIGTSRPIVYERLV GSMYQLQFINLVYDTTKLTHLEQTNINLFIGNWSNHQLQKSICIRHGDDTSHNQYHILFIDTAHQRIKFSSFDNEEIIYILDYDDTQHILMQTSSKQGIGTSRPIVYERLV 1py1-a2-m1-cC_1py1-a2-m1-cD Complex of GGA1-VHS domain and beta-secretase C-terminal phosphopeptide Q9UJY5 Q9UJY5 2.6 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 142 1py1-a1-m1-cB_1py1-a1-m1-cA ETLEARINRATNPLNKELDWASINGFCEQLNEDFEGPPLATRLLAHKIQSPQEWEAIQALTVLETCMKSCGKRFHDEVGKFRFLNELIKVVSPKYLGSRTSEKVKNKILELLYSWTVGLPEEVKIAEAYQMLKKQGIV ETLEARINRATNPLNKELDWASINGFCEQLNEDFEGPPLATRLLAHKIQSPQEWEAIQALTVLETCMKSCGKRFHDEVGKFRFLNELIKVVSPKYLGSRTSEKVKNKILELLYSWTVGLPEEVKIAEAYQMLKKQGIVKSDP 1py9-a1-m1-cA_1py9-a1-m2-cA The crystal structure of an autoantigen in multiple sclerosis Q61885 Q61885 1.8 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 116 116 QFRVIGPGYPIRALVGDEAELPCRISPGKNATGMEVGWYRSPFSRVVHLYRNGKDQDAEQAPEYRGRTELLKETISEGKVTLRIQNVRFSDEGGYTCFFRDHSYQEEAAMELKVED QFRVIGPGYPIRALVGDEAELPCRISPGKNATGMEVGWYRSPFSRVVHLYRNGKDQDAEQAPEYRGRTELLKETISEGKVTLRIQNVRFSDEGGYTCFFRDHSYQEEAAMELKVED 1pyb-a2-m1-cC_1pyb-a2-m1-cD Crystal Structure of Aquifex aeolicus Trbp111: a Structure-Specific tRNA Binding Protein O66738 O66738 2.5 X-RAY DIFFRACTION 100 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 107 107 1pyb-a1-m1-cA_1pyb-a1-m1-cB ALIGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLS ALIGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLS 1pyi-a1-m1-cB_1pyi-a1-m1-cA CRYSTAL STRUCTURE OF A PPR1-DNA COMPLEX: DNA RECOGNITION BY PROTEINS CONTAINING A ZN2CYS6 BINUCLEAR CLUSTER P07272 P07272 3.2 X-RAY DIFFRACTION 109 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 70 88 SRTACKRCRLKKIKCDQEFPSCKRCAKLEVPCVSLDPATGKDVPRSYVFFLEDRLAVMMRVLKEYGVDPT SRTACKRCRLKKIKCDQEFPSCKRCAKLEVPCVSLDPATGKDVPRSYVFFLEDRLAVMMRVLKEYGVDPTKIRGNIPATSDDEPFDLK 1pyo-a1-m1-cB_1pyo-a1-m1-cD Crystal Structure of Human Caspase-2 in Complex with Acetyl-Leu-Asp-Glu-Ser-Asp-cho P42575 P42575 1.65 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 99 2p2c-a1-m1-cB_2p2c-a1-m1-cD 2p2c-a2-m1-cF_2p2c-a2-m1-cH 2p2c-a3-m1-cL_2p2c-a3-m1-cJ 3r5j-a3-m1-cB_3r5j-a3-m1-cD 3r6g-a3-m1-cB_3r6g-a3-m1-cD 3r6l-a3-m1-cB_3r6l-a3-m1-cD 3r7b-a1-m1-cB_3r7b-a1-m1-cD 3r7n-a3-m1-cD_3r7n-a3-m1-cB 3r7s-a3-m1-cD_3r7s-a3-m1-cB 3rjm-a1-m1-cB_3rjm-a1-m1-cD PKMRLPTRSDMICGYACLKGTAAMRNTKRGSWYIEALAQVFSERACDMHVADMLVKVNALIKDREGYAPGTEFHRCKEMSEYCSTLCRHLYLFPGHPP PKMRLPTRSDMICGYACLKGTAAMRNTKRGSWYIEALAQVFSERACDMHVADMLVKVNALIKDREGYAPGTEFHRCKEMSEYCSTLCRHLYLFPGHPPT 1pzg-a1-m1-cA_1pzg-a1-m1-cB T.gondii LDH1 complexed with APAD and sulfate at 1.6 Angstroms P90613 P90613 1.6 X-RAY DIFFRACTION 74 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 327 327 1pze-a1-m1-cA_1pze-a1-m2-cA 1pze-a1-m4-cA_1pze-a1-m3-cA 1pzf-a1-m1-cA_1pzf-a1-m1-cB 1pzf-a1-m1-cD_1pzf-a1-m1-cC 1pzg-a1-m1-cD_1pzg-a1-m1-cC 1pzh-a1-m1-cA_1pzh-a1-m1-cB 1pzh-a1-m1-cD_1pzh-a1-m1-cC 3om9-a1-m1-cA_3om9-a1-m1-cB 3om9-a1-m1-cD_3om9-a1-m1-cC PALVQRRKKVAMIGSGMIGGTMGYLCALRELADVVLYDVVKGMPEGKALDLSHVTSVVDTNVSVRAEYSYEAALTGADCVIVTAGLTKVPGKPDSEWSRNDLLPFNSKIIREIGQNIKKYCPKTFIIVVTNPLDCMVKVMEASGVPTNMICGMACMLDSGRFRRYVADALSVSPRDVQATVIGTHGDCMVPLVRYITVNGYPIQKFIKDGVVTEKQLEEIAEHTKVSGGEIVRFLGQGSAYYAPAASAVAMATSFLNDEKRVIPCSVYCNGEYGLKDMFIGLPAVIGGAGIERVIELELNEEEKKQFQKSVDDVMALNKAVAALQAP PALVQRRKKVAMIGSGMIGGTMGYLCALRELADVVLYDVVKGMPEGKALDLSHVTSVVDTNVSVRAEYSYEAALTGADCVIVTAGLTKVPGKPDSEWSRNDLLPFNSKIIREIGQNIKKYCPKTFIIVVTNPLDCMVKVMEASGVPTNMICGMACMLDSGRFRRYVADALSVSPRDVQATVIGTHGDCMVPLVRYITVNGYPIQKFIKDGVVTEKQLEEIAEHTKVSGGEIVRFLGQGSAYYAPAASAVAMATSFLNDEKRVIPCSVYCNGEYGLKDMFIGLPAVIGGAGIERVIELELNEEEKKQFQKSVDDVMALNKAVAALQAP 1pzg-a1-m1-cD_1pzg-a1-m1-cA T.gondii LDH1 complexed with APAD and sulfate at 1.6 Angstroms P90613 P90613 1.6 X-RAY DIFFRACTION 53 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 325 327 1pze-a1-m2-cA_1pze-a1-m3-cA 1pze-a1-m4-cA_1pze-a1-m1-cA 1pzf-a1-m1-cC_1pzf-a1-m1-cB 1pzf-a1-m1-cD_1pzf-a1-m1-cA 1pzg-a1-m1-cC_1pzg-a1-m1-cB 1pzh-a1-m1-cC_1pzh-a1-m1-cB 1pzh-a1-m1-cD_1pzh-a1-m1-cA 3om9-a1-m1-cC_3om9-a1-m1-cB 3om9-a1-m1-cD_3om9-a1-m1-cA PALVQRRKKVAMIGSGMIGGTMGYLCALRELADVVLYDVVKGMPEGKALDLSHVTSVVDTNVSVRAEYSYEAALTGADCVIVTAGLTKVPGKPDSEWSRNDLLPFNSKIIREIGQNIKKYCPKTFIIVVTNPLDCMVKVMEASGVPTNMICGMACMLDSGRFRRYVADALSVSPRDVQATVIGTHGDCMVPLVRYITVNGYPIQKFIKDGVVTEKQLEEIAEHTKVSGGEIVRFLGQGSAYYAPAASAVAMATSFLNDEKRVIPCSVYCNGEYGLKDMFIGLPAVIGGAGIERVIELELNEEEKKQFQKSVDDVMALNKAVAALQ PALVQRRKKVAMIGSGMIGGTMGYLCALRELADVVLYDVVKGMPEGKALDLSHVTSVVDTNVSVRAEYSYEAALTGADCVIVTAGLTKVPGKPDSEWSRNDLLPFNSKIIREIGQNIKKYCPKTFIIVVTNPLDCMVKVMEASGVPTNMICGMACMLDSGRFRRYVADALSVSPRDVQATVIGTHGDCMVPLVRYITVNGYPIQKFIKDGVVTEKQLEEIAEHTKVSGGEIVRFLGQGSAYYAPAASAVAMATSFLNDEKRVIPCSVYCNGEYGLKDMFIGLPAVIGGAGIERVIELELNEEEKKQFQKSVDDVMALNKAVAALQAP 1pzh-a1-m1-cD_1pzh-a1-m1-cB T.gondii LDH1 ternary complex with NAD and oxalate P90613 P90613 1.9 X-RAY DIFFRACTION 134 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 326 329 1pze-a1-m1-cA_1pze-a1-m3-cA 1pze-a1-m4-cA_1pze-a1-m2-cA 1pzf-a1-m1-cC_1pzf-a1-m1-cA 1pzf-a1-m1-cD_1pzf-a1-m1-cB 1pzg-a1-m1-cC_1pzg-a1-m1-cA 1pzg-a1-m1-cD_1pzg-a1-m1-cB 1pzh-a1-m1-cC_1pzh-a1-m1-cA 3om9-a1-m1-cC_3om9-a1-m1-cA 3om9-a1-m1-cD_3om9-a1-m1-cB PALVQRRKKVAMIGSGMIGGTMGYLCALRELADVVLYDVVKGMPEGKALDLSHVTSVVDTNVSVRAEYSYEAALTGADCVIVTAGLTKVPGKPDSEWSRNDLLPFNSKIIREIGQNIKKYCPKTFIIVVTNPLDCMVKVMCEASGVPTNMICGMACMLDSGRFRRYVADALSVSPRDVQATVIGTHGDCMVPLVRYITVNGYPIQKFIKDGVVTEKQLEEIAEHTKVSGGEIVRFLGQGSAYYAPAASAVAMATSFLNDEKRVIPCSVYCNGEYGLKDMFIGLPAVIGGAGIERVIELELNEEEKKQFQKSVDDVMALNKAVAALQ PALVQRRKKVAMIGSGMIGGTMGYLCALRELADVVLYDVVKGMPEGKALDLSHVTSVVDTNVSVRAEYSYEAALTGADCVIVTAGLTKVPGKPDSEWSRNDLLPFNSKIIREIGQNIKKYCPKTFIIVVTNPLDCMVKVMCEASGVPTNMICGMACMLDSGRFRRYVADALSVSPRDVQATVIGTHGDCMVPLVRYITVNGYPIQKFIKDGVVTEKQLEEIAEHTKVSGGEIVRFLGQGSAYYAPAASAVAMATSFLNDEKRVIPCSVYCNGEYGLKDMFIGLPAVIGGAGIERVIELELNEEEKKQFQKSVDDVMALNKAVAALQAPG 1pzm-a1-m1-cA_1pzm-a1-m1-cB Crystal structure of HGPRT-ase from Leishmania tarentolae in complex with GMP Q9NJI5 Q9NJI5 2.1 X-RAY DIFFRACTION 93 0.988 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 170 170 YPMSARTLVTQEQVWAATAKCAKKIAADYKDFHLTADNPLYLLCVLKGSFIFTADLARFLADEGVPVKVEFICASMLLDVRDSVENRHIMLVEDIVDSAITLQYLMRFMLAKKPASLKTVVLLDKPSGRKVDVLVDYPVITIPRAFVIGYGMDFAESYRELRDICVLKKE YPMSARTLVTQEQVWAATAKCAKKIAADYKDFHLTADNPLYLLCVLKGSFIFTADLARFLADEGVPVKVEFICAVRMLLDVRDSVENRHIMLVEDIVDSAITLQYLMRFMLAKKPASLKTVVLLDKPSGRKVDVLVDYPVITIPRAFVIGYGMDFAESYRELRDICVLKK 1pzn-a1-m2-cG_1pzn-a1-m1-cF Rad51 (RadA) O74036 O74036 2.85 X-RAY DIFFRACTION 22 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 235 236 1pzn-a1-m1-cB_1pzn-a1-m2-cD 1pzn-a1-m1-cC_1pzn-a1-m2-cC 1pzn-a1-m1-cD_1pzn-a1-m2-cB 1pzn-a1-m1-cE_1pzn-a1-m2-cA 1pzn-a1-m1-cG_1pzn-a1-m2-cF 1pzn-a1-m2-cE_1pzn-a1-m1-cA TFRADEYLKKRATIGRISTGSKSLDKLLGGGIETQAITEVFGEFGSGKTQLAHTLAVVQLPPEEGGLNGSVIWIDTENTFRPERIREIAQNRGLDPDEVLKHIYVARAFNSNHQLLVQQAEDKIKELLNTDRPVKLLIVDSLTSHFRSEYIGRGALAERQQKLAKHLADLHRLANLYDIAVFVTNQVQHILAHSATLRVYLRKGKGGKRIARLIDAPHLPEGEAVFSITEKGIED TFRADEYLKKRATIGRISTGSKSLDKLLGGGIETQAITEVFGEFGSGKTQLAHTLAVVQLPPEEGGLNGSVIWIDTENTFRPERIREIAQNRGLDPDEVLKHIYVARAFNSNHQLLVQQAEDKIKELLNTDRPVKLLIVDSLTSHFRSEYIGRGALAERQQKLAKHLADLHRLANLYDIAVFVTNQVQGHILAHSATLRVYLRKGKGGKRIARLIDAPHLPEGEAVFSITEKGIED 1pzn-a2-m1-cG_1pzn-a2-m1-cF Rad51 (RadA) O74036 O74036 2.85 X-RAY DIFFRACTION 83 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 235 236 1pzn-a1-m1-cB_1pzn-a1-m1-cA 1pzn-a1-m1-cB_1pzn-a1-m1-cC 1pzn-a1-m1-cC_1pzn-a1-m1-cD 1pzn-a1-m1-cD_1pzn-a1-m1-cE 1pzn-a1-m1-cE_1pzn-a1-m1-cF 1pzn-a1-m1-cG_1pzn-a1-m1-cA 1pzn-a1-m1-cG_1pzn-a1-m1-cF 1pzn-a1-m2-cB_1pzn-a1-m2-cA 1pzn-a1-m2-cB_1pzn-a1-m2-cC 1pzn-a1-m2-cC_1pzn-a1-m2-cD 1pzn-a1-m2-cD_1pzn-a1-m2-cE 1pzn-a1-m2-cE_1pzn-a1-m2-cF 1pzn-a1-m2-cG_1pzn-a1-m2-cA 1pzn-a1-m2-cG_1pzn-a1-m2-cF 1pzn-a2-m1-cB_1pzn-a2-m1-cA 1pzn-a2-m1-cB_1pzn-a2-m1-cC 1pzn-a2-m1-cC_1pzn-a2-m1-cD 1pzn-a2-m1-cD_1pzn-a2-m1-cE 1pzn-a2-m1-cE_1pzn-a2-m1-cF 1pzn-a2-m1-cG_1pzn-a2-m1-cA TFRADEYLKKRATIGRISTGSKSLDKLLGGGIETQAITEVFGEFGSGKTQLAHTLAVVQLPPEEGGLNGSVIWIDTENTFRPERIREIAQNRGLDPDEVLKHIYVARAFNSNHQLLVQQAEDKIKELLNTDRPVKLLIVDSLTSHFRSEYIGRGALAERQQKLAKHLADLHRLANLYDIAVFVTNQVQHILAHSATLRVYLRKGKGGKRIARLIDAPHLPEGEAVFSITEKGIED TFRADEYLKKRATIGRISTGSKSLDKLLGGGIETQAITEVFGEFGSGKTQLAHTLAVVQLPPEEGGLNGSVIWIDTENTFRPERIREIAQNRGLDPDEVLKHIYVARAFNSNHQLLVQQAEDKIKELLNTDRPVKLLIVDSLTSHFRSEYIGRGALAERQQKLAKHLADLHRLANLYDIAVFVTNQVQGHILAHSATLRVYLRKGKGGKRIARLIDAPHLPEGEAVFSITEKGIED 1pzq-a1-m1-cA_1pzq-a1-m1-cB Structure of fused docking domains from the erythromycin polyketide synthase (DEBS), a model for the interaction between DEBS 2 and DEBS 3: The A domain Q03132 Q03132 NOT SOLUTION NMR 119 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 60 60 GSAASPAVDIGDRLDELEKALEALSAEDGHDDVGQRLESLLRRWNSRRADAPSTSAISED GSAASPAVDIGDRLDELEKALEALSAEDGHDDVGQRLESLLRRWNSRRADAPSTSAISED 1pzr-a1-m1-cA_1pzr-a1-m1-cB Structure of fused docking domains from the erythromycin polyketide synthase (DEBS), a model for the interaction between DEBS2 and DEBS3: the B domain Q03132 Q03132 NOT SOLUTION NMR 90 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 60 60 ASDDELFSMLDQRFGGGEDLLMSGDNGMTEEKLRRYLKRTVTELDSVTARLREVEHRAGE ASDDELFSMLDQRFGGGEDLLMSGDNGMTEEKLRRYLKRTVTELDSVTARLREVEHRAGE 1pzs-a1-m1-cA_1pzs-a1-m2-cA Crystal Structure of a Cu-Zn Superoxide Dismutase from Mycobacterium tuberculosis at 1.63 resolution P9WGE9 P9WGE9 1.63 X-RAY DIFFRACTION 120 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 171 171 QSLTSTLTAPDGTKVATAKFEFANGYATVTIATTGVGKLTPGFHGLHIHQVGKCEPNSVAPTGGAPGNFLSAGGHYHVPGHTGTPASGDLASLQVRGDGSAMLVTTTDAFTMDDLLSGAKTAIIIHAGADNFANIPPERYVQVNGTPGPDETTLTTGDAGKRVACGVIGSG QSLTSTLTAPDGTKVATAKFEFANGYATVTIATTGVGKLTPGFHGLHIHQVGKCEPNSVAPTGGAPGNFLSAGGHYHVPGHTGTPASGDLASLQVRGDGSAMLVTTTDAFTMDDLLSGAKTAIIIHAGADNFANIPPERYVQVNGTPGPDETTLTTGDAGKRVACGVIGSG 1pzu-a2-m1-cH_1pzu-a2-m1-cI An asymmetric NFAT1-RHR homodimer on a pseudo-palindromic, Kappa-B site Q13469 Q13469 3.1 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 276 276 1pzu-a1-m1-cB_1pzu-a1-m1-cD 1pzu-a3-m1-cL_1pzu-a3-m1-cM WPLSSQSGSYELRIEVQPKPHHRAHYETEGSRGAVKAPTGGHPVVQLHGYMENKPLGLQIFIGTADERILKPHAFYQVHRITGKTVTTTSYEKIVGNTKVLEIPLEPKNNMRATIDCAGILKLRNADIELRKGETDIGRKNTRVRLVFRVHIPESSGRIVSLQTASNPIECSQELPMVERQDTDSCLVYGGQQMILTGQNFTSESKVVFTEKTTDGQQIWEMEATVDKDKSQPNMLFVEIPEYRNKHIRTPVKVNFYVINGKRKRSQPQHFTYHPV WPLSSQSGSYELRIEVQPKPHHRAHYETEGSRGAVKAPTGGHPVVQLHGYMENKPLGLQIFIGTADERILKPHAFYQVHRITGKTVTTTSYEKIVGNTKVLEIPLEPKNNMRATIDCAGILKLRNADIELRKGETDIGRKNTRVRLVFRVHIPESSGRIVSLQTASNPIECSQELPMVERQDTDSCLVYGGQQMILTGQNFTSESKVVFTEKTTDGQQIWEMEATVDKDKSQPNMLFVEIPEYRNKHIRTPVKVNFYVINGKRKRSQPQHFTYHPV 1pzw-a1-m1-cA_1pzw-a1-m2-cA Crystal structure of the zinc finger associated domain of the Drosophila transcription factor Grauzone Q9U405 Q9U405 2 X-RAY DIFFRACTION 50 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 80 80 DICRLCLRGVSGAQMCLQIFDVDSGESKVAEVLRQHFWFEVLPNDEISKVICNVCWTQVSEFHQFYVSIQEAQVIYATTS DICRLCLRGVSGAQMCLQIFDVDSGESKVAEVLRQHFWFEVLPNDEISKVICNVCWTQVSEFHQFYVSIQEAQVIYATTS 1q06-a1-m1-cA_1q06-a1-m1-cB Crystal structure of the Ag(I) form of E. coli CueR, a copper efflux regulator P0A9G4 P0A9G4 2.07 X-RAY DIFFRACTION 136 0.992 562 (Escherichia coli) 562 (Escherichia coli) 122 126 1q05-a1-m1-cA_1q05-a1-m1-cB 1q07-a1-m1-cA_1q07-a1-m1-cB 4wlw-a1-m1-cA_4wlw-a1-m2-cA 4wlw-a2-m1-cA_4wlw-a2-m2-cA 6ldi-a1-m1-cG_6ldi-a1-m1-cH 6xh7-a1-m1-cG_6xh7-a1-m1-cH 6xh8-a1-m1-cG_6xh8-a1-m1-cH 7c17-a1-m1-cG_7c17-a1-m1-cH MNISDVAKITGLTSKAIRFYEEKGLVTPPMRSENGYRTYTQQHLNELTLLRQARQVGFNLEESGELVNLFNDPQRHSADVKRRTLEKVAEIERHIEELQSMRDQLLALANACPGCPIIENLS MNISDVAKITGLTSKAIRFYEEKGLVTPPMRSENGYRTYTQQHLNELTLLRQARQVGFNLEESGELVNLFNDPQHSADVKRRTLEKVAEIERHIEELQSMRDQLLALANACPGDDSADCPIIENLS 1q0a-a2-m1-cB_1q0a-a2-m1-cA Crystal structure of the Zn(II) form of E. coli ZntR, a zinc-sensing transcriptional regulator (space group C222) P0ACS5 P0ACS5 2 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 89 91 DLQRLKFIRHARQLGFSLESIRELLSIRIDPEHHTCQESKGIVQERLQEVEARIAELQSMQRSLQRLNDACCGTAHSSVYCSILEALEQ DLQRLKFIRHARQLGFSLESIRELLSIRIDPEHHTCQESKGIVQERLQEVEARIAELQSMQRSLQRLNDACCGTAHSSVYCSILEALEQGA 1q0a-a4-m1-cB_1q0a-a4-m3-cB Crystal structure of the Zn(II) form of E. coli ZntR, a zinc-sensing transcriptional regulator (space group C222) P0ACS5 P0ACS5 2 X-RAY DIFFRACTION 174 1.0 562 (Escherichia coli) 562 (Escherichia coli) 89 89 1q08-a1-m1-cB_1q08-a1-m1-cA 1q09-a1-m1-cA_1q09-a1-m2-cA 1q0a-a3-m1-cA_1q0a-a3-m2-cA DLQRLKFIRHARQLGFSLESIRELLSIRIDPEHHTCQESKGIVQERLQEVEARIAELQSMQRSLQRLNDACCGTAHSSVYCSILEALEQ DLQRLKFIRHARQLGFSLESIRELLSIRIDPEHHTCQESKGIVQERLQEVEARIAELQSMQRSLQRLNDACCGTAHSSVYCSILEALEQ 1q0g-a2-m1-cG_1q0g-a2-m1-cL Crystal structure of Ni-containing superoxide dismutase with Ni-ligation corresponding to the state after full x-ray-induced reduction P80734 P80734 1.6 X-RAY DIFFRACTION 42 1.0 73044 (Streptomyces seoulensis) 73044 (Streptomyces seoulensis) 117 117 1q0d-a1-m1-cA_1q0d-a1-m1-cF 1q0d-a1-m1-cB_1q0d-a1-m1-cC 1q0d-a1-m1-cD_1q0d-a1-m1-cE 1q0d-a2-m1-cG_1q0d-a2-m1-cL 1q0d-a2-m1-cH_1q0d-a2-m1-cI 1q0d-a2-m1-cJ_1q0d-a2-m1-cK 1q0f-a1-m1-cA_1q0f-a1-m1-cF 1q0f-a1-m1-cB_1q0f-a1-m1-cC 1q0f-a1-m1-cD_1q0f-a1-m1-cE 1q0f-a2-m1-cG_1q0f-a2-m1-cL 1q0f-a2-m1-cH_1q0f-a2-m1-cI 1q0f-a2-m1-cJ_1q0f-a2-m1-cK 1q0g-a1-m1-cA_1q0g-a1-m1-cF 1q0g-a1-m1-cB_1q0g-a1-m1-cC 1q0g-a1-m1-cD_1q0g-a1-m1-cE 1q0g-a2-m1-cH_1q0g-a2-m1-cI 1q0g-a2-m1-cJ_1q0g-a2-m1-cK 1q0k-a1-m1-cA_1q0k-a1-m1-cF 1q0k-a1-m1-cB_1q0k-a1-m1-cC 1q0k-a1-m1-cD_1q0k-a1-m1-cE 1q0k-a2-m1-cG_1q0k-a2-m1-cL 1q0k-a2-m1-cH_1q0k-a2-m1-cI 1q0k-a2-m1-cJ_1q0k-a2-m1-cK 1q0m-a1-m1-cA_1q0m-a1-m1-cF 1q0m-a1-m1-cB_1q0m-a1-m1-cC 1q0m-a1-m1-cD_1q0m-a1-m1-cE HCDLPCGVYDPAQARIEAESVKAIQEKMAANDDLHFQIRATVIKEQRAELAKHHLDVLWSDYFKPPHFESYPELHTLVNEAVKALSAAKASTDPATGQKALDYIAQIDKIFWETKKA HCDLPCGVYDPAQARIEAESVKAIQEKMAANDDLHFQIRATVIKEQRAELAKHHLDVLWSDYFKPPHFESYPELHTLVNEAVKALSAAKASTDPATGQKALDYIAQIDKIFWETKKA 1q0g-a2-m1-cJ_1q0g-a2-m1-cL Crystal structure of Ni-containing superoxide dismutase with Ni-ligation corresponding to the state after full x-ray-induced reduction P80734 P80734 1.6 X-RAY DIFFRACTION 60 1.0 73044 (Streptomyces seoulensis) 73044 (Streptomyces seoulensis) 117 117 1q0d-a1-m1-cA_1q0d-a1-m1-cC 1q0d-a1-m1-cB_1q0d-a1-m1-cE 1q0d-a1-m1-cD_1q0d-a1-m1-cF 1q0d-a2-m1-cG_1q0d-a2-m1-cI 1q0d-a2-m1-cH_1q0d-a2-m1-cK 1q0d-a2-m1-cJ_1q0d-a2-m1-cL 1q0f-a1-m1-cA_1q0f-a1-m1-cC 1q0f-a1-m1-cB_1q0f-a1-m1-cE 1q0f-a1-m1-cD_1q0f-a1-m1-cF 1q0f-a2-m1-cG_1q0f-a2-m1-cI 1q0f-a2-m1-cH_1q0f-a2-m1-cK 1q0f-a2-m1-cJ_1q0f-a2-m1-cL 1q0g-a1-m1-cA_1q0g-a1-m1-cC 1q0g-a1-m1-cB_1q0g-a1-m1-cE 1q0g-a1-m1-cD_1q0g-a1-m1-cF 1q0g-a2-m1-cG_1q0g-a2-m1-cI 1q0g-a2-m1-cH_1q0g-a2-m1-cK 1q0k-a1-m1-cA_1q0k-a1-m1-cC 1q0k-a1-m1-cB_1q0k-a1-m1-cE 1q0k-a1-m1-cD_1q0k-a1-m1-cF 1q0k-a2-m1-cG_1q0k-a2-m1-cI 1q0k-a2-m1-cH_1q0k-a2-m1-cK 1q0k-a2-m1-cJ_1q0k-a2-m1-cL 1q0m-a1-m1-cA_1q0m-a1-m1-cC 1q0m-a1-m1-cB_1q0m-a1-m1-cE 1q0m-a1-m1-cD_1q0m-a1-m1-cF HCDLPCGVYDPAQARIEAESVKAIQEKMAANDDLHFQIRATVIKEQRAELAKHHLDVLWSDYFKPPHFESYPELHTLVNEAVKALSAAKASTDPATGQKALDYIAQIDKIFWETKKA HCDLPCGVYDPAQARIEAESVKAIQEKMAANDDLHFQIRATVIKEQRAELAKHHLDVLWSDYFKPPHFESYPELHTLVNEAVKALSAAKASTDPATGQKALDYIAQIDKIFWETKKA 1q0g-a2-m1-cK_1q0g-a2-m1-cL Crystal structure of Ni-containing superoxide dismutase with Ni-ligation corresponding to the state after full x-ray-induced reduction P80734 P80734 1.6 X-RAY DIFFRACTION 18 1.0 73044 (Streptomyces seoulensis) 73044 (Streptomyces seoulensis) 117 117 1q0d-a1-m1-cA_1q0d-a1-m1-cB 1q0d-a1-m1-cA_1q0d-a1-m1-cD 1q0d-a1-m1-cB_1q0d-a1-m1-cD 1q0d-a1-m1-cC_1q0d-a1-m1-cE 1q0d-a1-m1-cC_1q0d-a1-m1-cF 1q0d-a1-m1-cE_1q0d-a1-m1-cF 1q0d-a2-m1-cG_1q0d-a2-m1-cH 1q0d-a2-m1-cG_1q0d-a2-m1-cJ 1q0d-a2-m1-cH_1q0d-a2-m1-cJ 1q0d-a2-m1-cI_1q0d-a2-m1-cK 1q0d-a2-m1-cI_1q0d-a2-m1-cL 1q0d-a2-m1-cK_1q0d-a2-m1-cL 1q0f-a1-m1-cA_1q0f-a1-m1-cB 1q0f-a1-m1-cA_1q0f-a1-m1-cD 1q0f-a1-m1-cB_1q0f-a1-m1-cD 1q0f-a1-m1-cC_1q0f-a1-m1-cE 1q0f-a1-m1-cC_1q0f-a1-m1-cF 1q0f-a1-m1-cE_1q0f-a1-m1-cF 1q0f-a2-m1-cG_1q0f-a2-m1-cH 1q0f-a2-m1-cG_1q0f-a2-m1-cJ 1q0f-a2-m1-cH_1q0f-a2-m1-cJ 1q0f-a2-m1-cI_1q0f-a2-m1-cK 1q0f-a2-m1-cI_1q0f-a2-m1-cL 1q0f-a2-m1-cK_1q0f-a2-m1-cL 1q0g-a1-m1-cA_1q0g-a1-m1-cB 1q0g-a1-m1-cA_1q0g-a1-m1-cD 1q0g-a1-m1-cB_1q0g-a1-m1-cD 1q0g-a1-m1-cC_1q0g-a1-m1-cE 1q0g-a1-m1-cC_1q0g-a1-m1-cF 1q0g-a1-m1-cE_1q0g-a1-m1-cF 1q0g-a2-m1-cG_1q0g-a2-m1-cH 1q0g-a2-m1-cG_1q0g-a2-m1-cJ 1q0g-a2-m1-cH_1q0g-a2-m1-cJ 1q0g-a2-m1-cI_1q0g-a2-m1-cK 1q0g-a2-m1-cI_1q0g-a2-m1-cL 1q0k-a1-m1-cA_1q0k-a1-m1-cB 1q0k-a1-m1-cA_1q0k-a1-m1-cD 1q0k-a1-m1-cB_1q0k-a1-m1-cD 1q0k-a1-m1-cC_1q0k-a1-m1-cE 1q0k-a1-m1-cC_1q0k-a1-m1-cF 1q0k-a1-m1-cE_1q0k-a1-m1-cF 1q0k-a2-m1-cG_1q0k-a2-m1-cH 1q0k-a2-m1-cG_1q0k-a2-m1-cJ 1q0k-a2-m1-cH_1q0k-a2-m1-cJ 1q0k-a2-m1-cI_1q0k-a2-m1-cK 1q0k-a2-m1-cI_1q0k-a2-m1-cL 1q0k-a2-m1-cK_1q0k-a2-m1-cL 1q0m-a1-m1-cA_1q0m-a1-m1-cB 1q0m-a1-m1-cA_1q0m-a1-m1-cD 1q0m-a1-m1-cB_1q0m-a1-m1-cD 1q0m-a1-m1-cC_1q0m-a1-m1-cE 1q0m-a1-m1-cC_1q0m-a1-m1-cF 1q0m-a1-m1-cE_1q0m-a1-m1-cF HCDLPCGVYDPAQARIEAESVKAIQEKMAANDDLHFQIRATVIKEQRAELAKHHLDVLWSDYFKPPHFESYPELHTLVNEAVKALSAAKASTDPATGQKALDYIAQIDKIFWETKKA HCDLPCGVYDPAQARIEAESVKAIQEKMAANDDLHFQIRATVIKEQRAELAKHHLDVLWSDYFKPPHFESYPELHTLVNEAVKALSAAKASTDPATGQKALDYIAQIDKIFWETKKA 1q10-a1-m1-cA_1q10-a1-m1-cB Ensemble of 40 Structures of the Dimeric Mutant of the B1 Domain of Streptococcal Protein G P06654 P06654 NOT SOLUTION NMR 144 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 MQYKVILNGKTLKGETTTEAVDAATAEKVVKQFFNDNGVDGEWTYDDATKTFTVTE MQYKVILNGKTLKGETTTEAVDAATAEKVVKQFFNDNGVDGEWTYDDATKTFTVTE 1q14-a1-m2-cA_1q14-a1-m3-cA Structure and autoregulation of the yeast Hst2 homolog of Sir2 P53686 P53686 2.5 X-RAY DIFFRACTION 61 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 289 289 1q14-a1-m1-cA_1q14-a1-m2-cA 1q14-a1-m1-cA_1q14-a1-m3-cA 1q17-a1-m1-cA_1q17-a1-m1-cB 1q17-a1-m1-cA_1q17-a1-m1-cC 1q17-a1-m1-cB_1q17-a1-m1-cC GMASMSVSTASTEMSVRKIAAHMKSNPNAKVIFMVGAGISTSCGLARLKLPYPEAVFDVDFFQSDPLPFYTLAKELYPGNFRPSKFHYLLKLFQDKDVLKRVYTQNIDTLERQAGVKDDLIIEAHGSFAHCHCIGCGKVYPPQVFKSKLAEHPIKDFVKCDVCGELVKPAIVFFGEDLPDSFSETWLNDSEWLREKQQPLVIVVGTSLAVYPFASLPEEIPRKVKRVLCNLETVGDFKANKRPTDLIVHQYSDEFAEQLVEELGWQEDFEKILTAQKEQLLEIVHDLEN GMASMSVSTASTEMSVRKIAAHMKSNPNAKVIFMVGAGISTSCGLARLKLPYPEAVFDVDFFQSDPLPFYTLAKELYPGNFRPSKFHYLLKLFQDKDVLKRVYTQNIDTLERQAGVKDDLIIEAHGSFAHCHCIGCGKVYPPQVFKSKLAEHPIKDFVKCDVCGELVKPAIVFFGEDLPDSFSETWLNDSEWLREKQQPLVIVVGTSLAVYPFASLPEEIPRKVKRVLCNLETVGDFKANKRPTDLIVHQYSDEFAEQLVEELGWQEDFEKILTAQKEQLLEIVHDLEN 1q15-a1-m1-cA_1q15-a1-m1-cB Carbapenam Synthetase Q9XB61 Q9XB61 2.3 X-RAY DIFFRACTION 64 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 491 491 1q15-a1-m1-cD_1q15-a1-m1-cC 1q19-a1-m1-cA_1q19-a1-m1-cB 1q19-a1-m1-cC_1q19-a1-m1-cD SNSFCVVYKGSDTDINNIQRDFDGKGEALSNGYLFIEQNGHYQKCEMERGTAYLIGSLYNRTFLIGLAGVWEGEAYLANDAELLALLFTRLGANALALAEGDFCFFIDEPNGELTVITESRGFSPVHVVQGKKAWMTNSLKLVTAAEGEGALWFEEEALVCQSLMRADTYTPVKNAQRLKPGAVHVLTHDSEGYSFVESRTLTTPASNQLLALPREPLLALIDRYLNAPLEDLAPRFDTVGIPLSGGLDSSLVTALASRHFKKLNTYSIGTELSNEFEFSQQVADALGTHHQMKILSETEVINGIIESIYYNEIFDGLSAEIQSGLFNVYRQAQGQVSCMLTGYGSDLLFGGILKPGAQYDNPNQLLAEQVYRTRWTGEFATHGASCYGIDIRHPFWSHSLISLCHALHPDYKIFDNEVKNILREYADSLQLLPKDIVWRSVNQAFANVLGSTVDNYQTKSRFTYRVYQAFLRGRLSITDVTPSQLKDLIK SNSFCVVYKGSDTDINNIQRDFDGKGEALSNGYLFIEQNGHYQKCEMERGTAYLIGSLYNRTFLIGLAGVWEGEAYLANDAELLALLFTRLGANALALAEGDFCFFIDEPNGELTVITESRGFSPVHVVQGKKAWMTNSLKLVTAAEGEGALWFEEEALVCQSLMRADTYTPVKNAQRLKPGAVHVLTHDSEGYSFVESRTLTTPASNQLLALPREPLLALIDRYLNAPLEDLAPRFDTVGIPLSGGLDSSLVTALASRHFKKLNTYSIGTELSNEFEFSQQVADALGTHHQMKILSETEVINGIIESIYYNEIFDGLSAEIQSGLFNVYRQAQGQVSCMLTGYGSDLLFGGILKPGAQYDNPNQLLAEQVYRTRWTGEFATHGASCYGIDIRHPFWSHSLISLCHALHPDYKIFDNEVKNILREYADSLQLLPKDIVWRSVNQAFANVLGSTVDNYQTKSRFTYRVYQAFLRGRLSITDVTPSQLKDLIK 1q15-a1-m1-cD_1q15-a1-m1-cA Carbapenam Synthetase Q9XB61 Q9XB61 2.3 X-RAY DIFFRACTION 95 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 473 491 1q15-a1-m1-cB_1q15-a1-m1-cC 1q19-a1-m1-cA_1q19-a1-m1-cD 1q19-a1-m1-cB_1q19-a1-m1-cC SNSFCVVYKGSDTDINNIQRDFDGKGEALSNGYLFIEQNGHYQKCEMERGTAYLIGSLYNRTFLIGLAGVWEGEAYLANDAELLALLFTRLGANALALAEGDFCFFIDEPNGELTVITESRGFSPVHVVQGKKAWMTNSLKLVTAAEGEGALWFEEEALVCQSLMRADTYTPVKNAQRLKPGAVHVLTHDSEGYSFVESRTLTTPASNQLLALPREPLLALIDRYLNAPLEDLAPRFDTVGIPLSGGLDSSLVTALASRHFKKLNTYSIGTELSNEFEFSQQVADALGTHHQMKILSETEVINGIIESIYYNEIFDGLSAEIQSGLFNVYRQAQGQVSCMLTGYGSDLLFGGILKPGAQYDNPNQLLAEQVYRTRWTGEFATHGASCYGIDIRHPFWSHSLISLCHALHPDYKIFDNEVKNILREYADSLQLLPKDIVWRQTKSRFTYRVYQAFLRGRLSITDVTPSQLKDLI SNSFCVVYKGSDTDINNIQRDFDGKGEALSNGYLFIEQNGHYQKCEMERGTAYLIGSLYNRTFLIGLAGVWEGEAYLANDAELLALLFTRLGANALALAEGDFCFFIDEPNGELTVITESRGFSPVHVVQGKKAWMTNSLKLVTAAEGEGALWFEEEALVCQSLMRADTYTPVKNAQRLKPGAVHVLTHDSEGYSFVESRTLTTPASNQLLALPREPLLALIDRYLNAPLEDLAPRFDTVGIPLSGGLDSSLVTALASRHFKKLNTYSIGTELSNEFEFSQQVADALGTHHQMKILSETEVINGIIESIYYNEIFDGLSAEIQSGLFNVYRQAQGQVSCMLTGYGSDLLFGGILKPGAQYDNPNQLLAEQVYRTRWTGEFATHGASCYGIDIRHPFWSHSLISLCHALHPDYKIFDNEVKNILREYADSLQLLPKDIVWRSVNQAFANVLGSTVDNYQTKSRFTYRVYQAFLRGRLSITDVTPSQLKDLIK 1q16-a4-m1-cC_1q16-a4-m3-cC Crystal structure of Nitrate Reductase A, NarGHI, from Escherichia coli P11350 P11350 1.9 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 223 223 1q16-a3-m1-cC_1q16-a3-m3-cC 1siw-a3-m1-cC_1siw-a3-m3-cC 1siw-a4-m1-cC_1siw-a4-m3-cC 3ir5-a3-m1-cC_3ir5-a3-m3-cC 3ir6-a3-m1-cC_3ir6-a3-m3-cC 3ir7-a5-m1-cC_3ir7-a5-m3-cC 3ir7-a6-m1-cC_3ir7-a6-m3-cC QFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFVGHFFGMLTPHWMEAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRATTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH QFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFVGHFFGMLTPHWMEAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRATTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH 1q1j-a1-m1-cI_1q1j-a1-m1-cH Crystal Structure Analysis of anti-HIV-1 Fab 447-52D in complex with V3 peptide 2.5 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 231 EVQLVESGGGLVKPGGSLRLTCVASGFTFSDVWLNWVRQAPGKGLEWVGRIKSRTDGGTTDYAASVKGRFTISRDDSKNTLYLQMNSLKTEDTAVYSCTTDGFIMIRGVSEDYYYYYMDVWGKGTTVTVSSASTKGPSVFPLAPCSRSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYTCNVNHKPSNTKVDKRVEL EVQLVESGGGLVKPGGSLRLTCVASGFTFSDVWLNWVRQAPGKGLEWVGRIKSRTDGGTTDYAASVKGRFTISRDDSKNTLYLQMNSLKTEDTAVYSCTTDGFIMIRGVSEDYYYYYMDVWGKGTTVTVSSASTKGPSVFPLAPCSRSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYTCNVNHKPSNTKVDKRVEL 1q1l-a1-m1-cC_1q1l-a1-m1-cD Crystal Structure of Chorismate Synthase O66493 O66493 2.05 X-RAY DIFFRACTION 38 0.997 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 327 328 1q1l-a1-m1-cA_1q1l-a1-m1-cB SLRYLRFLTAGESHGKGLTAILEGIPANLPLSEEEINHELRRRQRGYKDTAEILSGVRFGKTLGSPIALFIRNRDWEADLSGGIKYNQRDLRNILERASARETAARVAVGAVCKKFLSEFGIKIGSFVVSIGQKEVEELKDKSYFANPEKLLSYHEKAEDSELRIPFPEKDEEFKTYIDEVKEKGESLGGVFEVFALNVPPGLGSHIQWDRRIDGRIAQASIQAIKGVEIGLGFEAARRFGSQVHDEIGWSEGKGYFRHSNNLGGTEGGITNGPIVVRVAKPIVPAASVVGEALAIVLADALLEKLGGDFEEVKKRFEDYVNHVKSF SLRYLRFLTAGESHGKGLTAILEGIPANLPLSEEEINHELRRRQRGYKDTAEILSGVRFGKTLGSPIALFIRNRDWADLSGGIKYNQRDLRNILERASARETAARVAVGAVCKKFLSEFGIKIGSFVVSIGQKEVEELKDKSYFANPEKLLSYHEKAEDSELRIPFPEKDEEFKTYIDEVKEKGESLGGVFEVFALNVPPGLGSHIQWDRRIDGRIAQASIQAIKGVEIGLGFEAARRFGSQVHDEIGWSEGKGYFRHSNNLGGTEGGITNGPIVVRVAKPIVAVPAASVVGEALAIVLADALLEKLGGDFEEVKKRFEDYVNHVKSF 1q1l-a1-m1-cD_1q1l-a1-m1-cA Crystal Structure of Chorismate Synthase O66493 O66493 2.05 X-RAY DIFFRACTION 248 0.988 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 328 330 1q1l-a1-m1-cC_1q1l-a1-m1-cB SLRYLRFLTAGESHGKGLTAILEGIPANLPLSEEEINHELRRRQRGYKDTAEILSGVRFGKTLGSPIALFIRNRDWADLSGGIKYNQRDLRNILERASARETAARVAVGAVCKKFLSEFGIKIGSFVVSIGQKEVEELKDKSYFANPEKLLSYHEKAEDSELRIPFPEKDEEFKTYIDEVKEKGESLGGVFEVFALNVPPGLGSHIQWDRRIDGRIAQASIQAIKGVEIGLGFEAARRFGSQVHDEIGWSEGKGYFRHSNNLGGTEGGITNGPIVVRVAKPIVAVPAASVVGEALAIVLADALLEKLGGDFEEVKKRFEDYVNHVKSF SLRYLRFLTAGESHGKGLTAILEGIPANLPLSEEEINHELRRRQRGYGIEKDTAEILSGVRFGKTLGSPIALFIRNRDWGGIKYNQRDLRNILERASARETAARVAVGAVCKKFLSEFGIKIGSFVVSIGQKEVEELKDKSYFANPEKLLSYHEKAEDSELRIPFPEKDEEFKTYIDEVKEKGESLGGVFEVFALNVPPGLGSHIQWDRRIDGRIAQASIQAIKGVEIGLGFEAARRFGSQVHDEIGWSEGKGYFRHSNNLGGTEGGITNGPIVVRVAKPIPTIVAVPAASVVGEALAIVLADALLEKLGGDFEEVKKRFEDYVNHVKSF 1q1l-a1-m1-cD_1q1l-a1-m1-cB Crystal Structure of Chorismate Synthase O66493 O66493 2.05 X-RAY DIFFRACTION 133 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 328 330 1q1l-a1-m1-cC_1q1l-a1-m1-cA SLRYLRFLTAGESHGKGLTAILEGIPANLPLSEEEINHELRRRQRGYKDTAEILSGVRFGKTLGSPIALFIRNRDWADLSGGIKYNQRDLRNILERASARETAARVAVGAVCKKFLSEFGIKIGSFVVSIGQKEVEELKDKSYFANPEKLLSYHEKAEDSELRIPFPEKDEEFKTYIDEVKEKGESLGGVFEVFALNVPPGLGSHIQWDRRIDGRIAQASIQAIKGVEIGLGFEAARRFGSQVHDEIGWSEGKGYFRHSNNLGGTEGGITNGPIVVRVAKPIVAVPAASVVGEALAIVLADALLEKLGGDFEEVKKRFEDYVNHVKSF SLRYLRFLTAGESHGKGLTAILEGIPANLPLSEEEINHELRRRQRGYKDTAEILSGVRFGKTLGSPIALFIRNRDWADLSGGIKYNQRDLRNILERASARETAARVAVGAVCKKFLSEFGIKIGSFVVSIGQKEVEELKDKSYFANPEKLLSYHEKAEDSELRIPFPEKDEEFKTYIDEVKEKGESLGGVFEVFALNVPPGLGSHIQWDRRIDGRIAQASIQAIKGVEIGLGFEAARRFGSQVHDEIGWSEGKGYFRHSNNLGGTEGGITNGPIVVRVAKPIPTVAVPAASVVGEALAIVLADALLEKLGGDFEEVKKRFEDYVNHVKSF 1q2h-a2-m1-cC_1q2h-a2-m2-cC Phenylalanine Zipper Mediates APS Dimerization O14492 O14492 1.7 X-RAY DIFFRACTION 149 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 1q2h-a1-m1-cB_1q2h-a1-m1-cA MPDWRQFCELHAQAAAVDFAHKFCRFLRDNPAYDTPDAGASFSRHFAANFLDVFGEEVRRVLV MPDWRQFCELHAQAAAVDFAHKFCRFLRDNPAYDTPDAGASFSRHFAANFLDVFGEEVRRVLV 1q3a-a2-m1-cC_1q3a-a2-m1-cB Crystal structure of the catalytic domain of human matrix metalloproteinase 10 P09238 P09238 2.1 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 155 160 1q3a-a1-m1-cA_1q3a-a1-m1-cB PKWRKTHLTYRIVNYTPDLPRDAVDSAIEKALKVWEEVTPLTFSRLYEGEADIMISFAVKEHGDNYSFDGPGHSLAHAYPPGPGLYGDIHFDDDEKWTEDASGTNLFLVAAHELGHSLGLFHSANTEALMYPLYNSLAQFRLSQDDVNGIQSLYG GMPKWRKTHLTYRIVNYTPDLPRDAVDSAIEKALKVWEEVTPLTFSRLYEGEADIMISFAVKEHGDNYSFDGPGHSLAHAYPPGPGLYGDIHFDDDEKWTEDASGTNLFLVAAHELGHSLGLFHSANTEALMYPLYNSFTELAQFRLSQDDVNGIQSLYG 1q3c-a2-m1-cA_1q3c-a2-m4-cA Crystal structure of the DNA repair enzyme endonuclease-VIII (Nei) from E. coli: The E2A mutant at 2.3 resolution. P50465 P50465 2.3 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 250 250 1q39-a2-m1-cA_1q39-a2-m4-cA 1q39-a2-m2-cA_1q39-a2-m3-cA 1q3c-a2-m2-cA_1q3c-a2-m3-cA AGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKTYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGETTRVLRVKLQTADKTILLYSASDIEMLRPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGENKHHGALFRFKVFHRDGEPCERCGSIIEKTPFYWCPGCQH AGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKTYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGETTRVLRVKLQTADKTILLYSASDIEMLRPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGENKHHGALFRFKVFHRDGEPCERCGSIIEKTPFYWCPGCQH 1q3c-a2-m2-cA_1q3c-a2-m4-cA Crystal structure of the DNA repair enzyme endonuclease-VIII (Nei) from E. coli: The E2A mutant at 2.3 resolution. P50465 P50465 2.3 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 250 250 1q39-a2-m1-cA_1q39-a2-m3-cA 1q39-a2-m2-cA_1q39-a2-m4-cA 1q3c-a2-m1-cA_1q3c-a2-m3-cA AGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKTYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGETTRVLRVKLQTADKTILLYSASDIEMLRPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGENKHHGALFRFKVFHRDGEPCERCGSIIEKTPFYWCPGCQH AGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKTYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGETTRVLRVKLQTADKTILLYSASDIEMLRPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGENKHHGALFRFKVFHRDGEPCERCGSIIEKTPFYWCPGCQH 1q3c-a2-m3-cA_1q3c-a2-m4-cA Crystal structure of the DNA repair enzyme endonuclease-VIII (Nei) from E. coli: The E2A mutant at 2.3 resolution. P50465 P50465 2.3 X-RAY DIFFRACTION 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 250 250 1q39-a2-m1-cA_1q39-a2-m2-cA 1q39-a2-m3-cA_1q39-a2-m4-cA 1q3c-a2-m1-cA_1q3c-a2-m2-cA AGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKTYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGETTRVLRVKLQTADKTILLYSASDIEMLRPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGENKHHGALFRFKVFHRDGEPCERCGSIIEKTPFYWCPGCQH AGPEIRRAADNLEAAIKGKPLTDVWFAFPQLKTYQSQLIGQHVTHVETRGKALLTHFSNDLTLYSHNQLYGVWRVVDTGETTRVLRVKLQTADKTILLYSASDIEMLRPEQLTTHPFLQRVGPDVLDPNLTPEVVKERLLSPRFRNRQFAGLLLDQAFLAGLGNYLRVEILWQVGLTGNHKAKDLNAAQLDALAHALLEIPRFSYATRGENKHHGALFRFKVFHRDGEPCERCGSIIEKTPFYWCPGCQH 1q3h-a5-m2-cA_1q3h-a5-m4-cB mouse CFTR NBD1 with AMP.PNP P26361 P26361 2.5 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 265 267 1q3h-a5-m1-cA_1q3h-a5-m3-cB 1q3h-a5-m3-cA_1q3h-a5-m1-cB 1q3h-a5-m4-cA_1q3h-a5-m2-cB 1r0w-a5-m1-cA_1r0w-a5-m3-cB 1r0w-a5-m2-cA_1r0w-a5-m4-cB 1r0w-a5-m3-cA_1r0w-a5-m1-cB 1r0w-a5-m4-cA_1r0w-a5-m2-cB 1r0x-a5-m1-cA_1r0x-a5-m3-cB 1r0x-a5-m2-cA_1r0x-a5-m4-cB 1r0x-a5-m3-cA_1r0x-a5-m1-cB 1r0x-a5-m4-cA_1r0x-a5-m2-cB 1r0y-a5-m1-cA_1r0y-a5-m3-cB 1r0y-a5-m2-cA_1r0y-a5-m4-cB 1r0y-a5-m3-cA_1r0y-a5-m1-cB 1r0y-a5-m4-cA_1r0y-a5-m2-cB 1r0z-a5-m1-cA_1r0z-a5-m3-cB 1r0z-a5-m1-cB_1r0z-a5-m3-cA 1r0z-a5-m2-cA_1r0z-a5-m4-cB 1r0z-a5-m2-cB_1r0z-a5-m4-cA 1r10-a3-m1-cA_1r10-a3-m2-cB 1r10-a3-m1-cB_1r10-a3-m2-cA 1r10-a3-m3-cA_1r10-a3-m4-cB 1r10-a3-m3-cB_1r10-a3-m4-cA 1xf9-a5-m1-cA_1xf9-a5-m2-cB 1xf9-a5-m2-cA_1xf9-a5-m1-cB 1xf9-a6-m1-cA_1xf9-a6-m2-cB 1xf9-a6-m2-cA_1xf9-a6-m1-cB 1xf9-a6-m3-cA_1xf9-a6-m4-cB 1xf9-a6-m4-cA_1xf9-a6-m3-cB 1xf9-a7-m10-cD_1xf9-a7-m6-cC 1xf9-a7-m11-cD_1xf9-a7-m7-cC 1xf9-a7-m8-cD_1xf9-a7-m1-cC 1xf9-a7-m9-cD_1xf9-a7-m5-cC 3si7-a5-m1-cA_3si7-a5-m3-cB 3si7-a5-m2-cA_3si7-a5-m4-cB 3si7-a5-m3-cA_3si7-a5-m1-cB 3si7-a5-m4-cA_3si7-a5-m2-cB 3si7-a6-m1-cD_3si7-a6-m1-cC 3si7-a6-m5-cD_3si7-a6-m5-cC 3si7-a6-m6-cD_3si7-a6-m6-cC 3si7-a6-m7-cD_3si7-a6-m7-cC TGIIMENVTAFWEEGFGELLEKVSFSHLCLVGNPVLKNINLNIEKGEMLAITGSTGSGKTSLLMLILGELEASEGIIKHSGRVSFCSQFSWIMPGTIKENIIFGVSYDEYRYKSVVKACQLQQDITKFAEQDNTVLGEGGVTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVFTEEQVFESCVCKLMANKTRILVTSKMEHLRKADKILILHQGSSYFYGTFSELQSLRPDFSSKLMGYDTFDQFTEERRSSILTETLRRFS TTGIIMENVTAFWEEGFGELLEKVVSFSHLCLVGNPVLKNINLNIEKGEMLAITGSTGSGKTSLLMLILGELEASEGIIKHSGRVSFCSQFSWIMPGTIKENIIFGVSYDEYRYKSVVKACQLQQDITKFAEQDNTVLGEGGVTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVFTEEQVFESCVCKLMANKTRILVTSKMEHLRKADKILILHQGSSYFYGTFSELQSLRPDFSSKLMGYDTFDQFTEERRSSILTETLRRFS 1q3i-a2-m2-cA_1q3i-a2-m3-cA Crystal Structure of Na,K-ATPase N-domain D2WKD8 D2WKD8 2.6 X-RAY DIFFRACTION 20 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 192 192 1q3i-a2-m1-cA_1q3i-a2-m2-cA 1q3i-a2-m1-cA_1q3i-a2-m3-cA MMTVAHMWFDNQIHEADTTTFDKRSPTWTALSRIAGLCNRAVFKRDTAGDASESALLKCIELSCGSVRKMRDRNPKVAEISYQLSIHEREDNPQSHVLVMKGAPERILDRCSSILVQGKEIPLDKEMQDAFQNAYLELGGLGERVLGFCQLNLPSGKFPRGFKFDTDELNFPTEKLCFVGLMSMIDHHHHHH MMTVAHMWFDNQIHEADTTTFDKRSPTWTALSRIAGLCNRAVFKRDTAGDASESALLKCIELSCGSVRKMRDRNPKVAEISYQLSIHEREDNPQSHVLVMKGAPERILDRCSSILVQGKEIPLDKEMQDAFQNAYLELGGLGERVLGFCQLNLPSGKFPRGFKFDTDELNFPTEKLCFVGLMSMIDHHHHHH 1q3p-a2-m1-cA_1q3p-a2-m2-cA Crystal structure of the Shank PDZ-ligand complex reveals a class I PDZ interaction and a novel PDZ-PDZ dimerization Q9WV48 Q9WV48 2.25 X-RAY DIFFRACTION 18 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 98 98 DYIIKEKTVLLQKKDSEGFGFVLRGAIEEFTPTPAFPALQYLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTR DYIIKEKTVLLQKKDSEGFGFVLRGAIEEFTPTPAFPALQYLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTR 1q3p-a2-m1-cB_1q3p-a2-m2-cB Crystal structure of the Shank PDZ-ligand complex reveals a class I PDZ interaction and a novel PDZ-PDZ dimerization Q9WV48 Q9WV48 2.25 X-RAY DIFFRACTION 15 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 103 103 GSDYIIKEKTVLLQKKDSEGFGFVLRGAIEEFTPTPAFPALQYLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTRHPD GSDYIIKEKTVLLQKKDSEGFGFVLRGAIEEFTPTPAFPALQYLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTRHPD 1q3p-a2-m2-cA_1q3p-a2-m2-cB Crystal structure of the Shank PDZ-ligand complex reveals a class I PDZ interaction and a novel PDZ-PDZ dimerization Q9WV48 Q9WV48 2.25 X-RAY DIFFRACTION 45 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 98 103 1q3p-a1-m1-cA_1q3p-a1-m1-cB 1q3p-a2-m1-cA_1q3p-a2-m1-cB 7a00-a3-m1-cB_7a00-a3-m1-cA DYIIKEKTVLLQKKDSEGFGFVLRGAIEEFTPTPAFPALQYLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTR GSDYIIKEKTVLLQKKDSEGFGFVLRGAIEEFTPTPAFPALQYLESVDEGGVAWRAGLRMGDFLIEVNGQNVVKVGHRQVVNMIRQGGNTLMVKVVMVTRHPD 1q3q-a1-m4-cB_1q3q-a1-m4-cD Crystal structure of the chaperonin from Thermococcus strain KS-1 (two-point mutant complexed with AMP-PNP) P61112 P61112 2.3 X-RAY DIFFRACTION 19 1.0 518 518 1q2v-a1-m1-cA_1q2v-a1-m1-cC 1q2v-a1-m1-cB_1q2v-a1-m1-cD 1q2v-a1-m2-cA_1q2v-a1-m2-cC 1q2v-a1-m2-cB_1q2v-a1-m2-cD 1q2v-a1-m3-cA_1q2v-a1-m3-cC 1q2v-a1-m3-cB_1q2v-a1-m3-cD 1q2v-a1-m4-cA_1q2v-a1-m4-cC 1q2v-a1-m4-cB_1q2v-a1-m4-cD 1q3q-a1-m1-cA_1q3q-a1-m1-cC 1q3q-a1-m1-cB_1q3q-a1-m1-cD 1q3q-a1-m2-cA_1q3q-a1-m2-cC 1q3q-a1-m2-cB_1q3q-a1-m2-cD 1q3q-a1-m3-cA_1q3q-a1-m3-cC 1q3q-a1-m3-cB_1q3q-a1-m3-cD 1q3q-a1-m4-cA_1q3q-a1-m4-cC 1q3r-a1-m1-cA_1q3r-a1-m1-cC 1q3r-a1-m1-cB_1q3r-a1-m1-cD 1q3r-a1-m2-cA_1q3r-a1-m2-cC 1q3r-a1-m2-cB_1q3r-a1-m2-cD 1q3r-a1-m3-cA_1q3r-a1-m3-cC 1q3r-a1-m3-cB_1q3r-a1-m3-cD 1q3r-a1-m4-cA_1q3r-a1-m4-cC 1q3r-a1-m4-cB_1q3r-a1-m4-cD 1q3s-a1-m1-cA_1q3s-a1-m2-cG 1q3s-a1-m1-cB_1q3s-a1-m2-cF 1q3s-a1-m1-cC_1q3s-a1-m2-cE 1q3s-a1-m1-cD_1q3s-a1-m2-cD 1q3s-a1-m1-cE_1q3s-a1-m2-cC 1q3s-a1-m1-cF_1q3s-a1-m2-cB 1q3s-a1-m1-cG_1q3s-a1-m2-cA 1q3s-a1-m1-cH_1q3s-a1-m2-cH VVILPEGTQRYVGRDAQRLNILAARIIAETVRTTLGPKGMDKMLVDSLGDIVVTNDCATILDKIDLQHPAAKMMVEVAKTQDKEAGDGTTTAVVIAGELLRKAEELLDQNIHPSIITKGYALAAEKAQEILDEIAIRVDPDDEETLLKIAATSITGKNAESHKELLAKLAVEAVKQVAEKKDGKYVVDLDNIKFEKKAGEGVEESELVRGVVIDKEVVHPRMPKRVENAKIALINEALEVKKTETDAKINITSPDQLMSFLEQEEKMLKDMVDHIAQTGANVVFVQKGIDDLAQHYLAKYGIMAVRRVKKSDMEKLAKATGAKIVTNVKDLTPEDLGYAEVVEERKLAGENMIFVEGCKNPKAVTILIRGGTEHVIDEVERALEDAVKVVKDVMEDGAVLPAGGAPEIELAIRLDEYAKQVGGKEALAIENFADALKIIPKTLAENAGLDTVEMLVKVISEHKNRGLGIGIDVFEGKPADMLEKGIIEPLRVKKQAIKSASEAAIMILRIDDVIAAKA VVILPEGTQRYVGRDAQRLNILAARIIAETVRTTLGPKGMDKMLVDSLGDIVVTNDCATILDKIDLQHPAAKMMVEVAKTQDKEAGDGTTTAVVIAGELLRKAEELLDQNIHPSIITKGYALAAEKAQEILDEIAIRVDPDDEETLLKIAATSITGKNAESHKELLAKLAVEAVKQVAEKKDGKYVVDLDNIKFEKKAGEGVEESELVRGVVIDKEVVHPRMPKRVENAKIALINEALEVKKTETDAKINITSPDQLMSFLEQEEKMLKDMVDHIAQTGANVVFVQKGIDDLAQHYLAKYGIMAVRRVKKSDMEKLAKATGAKIVTNVKDLTPEDLGYAEVVEERKLAGENMIFVEGCKNPKAVTILIRGGTEHVIDEVERALEDAVKVVKDVMEDGAVLPAGGAPEIELAIRLDEYAKQVGGKEALAIENFADALKIIPKTLAENAGLDTVEMLVKVISEHKNRGLGIGIDVFEGKPADMLEKGIIEPLRVKKQAIKSASEAAIMILRIDDVIAAKA 1q3q-a3-m4-cC_1q3q-a3-m4-cD Crystal structure of the chaperonin from Thermococcus strain KS-1 (two-point mutant complexed with AMP-PNP) P61112 P61112 2.3 X-RAY DIFFRACTION 207 1.0 518 518 1q2v-a1-m1-cA_1q2v-a1-m1-cB 1q2v-a1-m1-cA_1q2v-a1-m4-cB 1q2v-a1-m1-cB_1q2v-a1-m3-cA 1q2v-a1-m1-cC_1q2v-a1-m1-cD 1q2v-a1-m1-cC_1q2v-a1-m4-cD 1q2v-a1-m1-cD_1q2v-a1-m3-cC 1q2v-a1-m2-cA_1q2v-a1-m2-cB 1q2v-a1-m2-cA_1q2v-a1-m3-cB 1q2v-a1-m2-cB_1q2v-a1-m4-cA 1q2v-a1-m2-cC_1q2v-a1-m2-cD 1q2v-a1-m2-cC_1q2v-a1-m3-cD 1q2v-a1-m2-cD_1q2v-a1-m4-cC 1q2v-a1-m3-cA_1q2v-a1-m3-cB 1q2v-a1-m3-cC_1q2v-a1-m3-cD 1q2v-a1-m4-cA_1q2v-a1-m4-cB 1q2v-a1-m4-cC_1q2v-a1-m4-cD 1q2v-a2-m1-cA_1q2v-a2-m1-cB 1q2v-a2-m1-cA_1q2v-a2-m4-cB 1q2v-a2-m1-cB_1q2v-a2-m3-cA 1q2v-a2-m2-cA_1q2v-a2-m2-cB 1q2v-a2-m2-cA_1q2v-a2-m3-cB 1q2v-a2-m2-cB_1q2v-a2-m4-cA 1q2v-a2-m3-cA_1q2v-a2-m3-cB 1q2v-a2-m4-cA_1q2v-a2-m4-cB 1q2v-a3-m1-cC_1q2v-a3-m1-cD 1q2v-a3-m1-cC_1q2v-a3-m4-cD 1q2v-a3-m1-cD_1q2v-a3-m3-cC 1q2v-a3-m2-cC_1q2v-a3-m2-cD 1q2v-a3-m2-cC_1q2v-a3-m3-cD 1q2v-a3-m2-cD_1q2v-a3-m4-cC 1q2v-a3-m3-cC_1q2v-a3-m3-cD 1q2v-a3-m4-cC_1q2v-a3-m4-cD 1q3q-a1-m1-cA_1q3q-a1-m1-cB 1q3q-a1-m1-cA_1q3q-a1-m4-cB 1q3q-a1-m1-cB_1q3q-a1-m3-cA 1q3q-a1-m1-cC_1q3q-a1-m1-cD 1q3q-a1-m1-cC_1q3q-a1-m4-cD 1q3q-a1-m1-cD_1q3q-a1-m3-cC 1q3q-a1-m2-cA_1q3q-a1-m2-cB 1q3q-a1-m2-cA_1q3q-a1-m3-cB 1q3q-a1-m2-cB_1q3q-a1-m4-cA 1q3q-a1-m2-cC_1q3q-a1-m2-cD 1q3q-a1-m2-cC_1q3q-a1-m3-cD 1q3q-a1-m2-cD_1q3q-a1-m4-cC 1q3q-a1-m3-cA_1q3q-a1-m3-cB 1q3q-a1-m3-cC_1q3q-a1-m3-cD 1q3q-a1-m4-cA_1q3q-a1-m4-cB 1q3q-a1-m4-cC_1q3q-a1-m4-cD 1q3q-a2-m1-cA_1q3q-a2-m1-cB 1q3q-a2-m1-cA_1q3q-a2-m4-cB 1q3q-a2-m1-cB_1q3q-a2-m3-cA 1q3q-a2-m2-cA_1q3q-a2-m2-cB 1q3q-a2-m2-cA_1q3q-a2-m3-cB 1q3q-a2-m2-cB_1q3q-a2-m4-cA 1q3q-a2-m3-cA_1q3q-a2-m3-cB 1q3q-a2-m4-cA_1q3q-a2-m4-cB 1q3q-a3-m1-cC_1q3q-a3-m1-cD 1q3q-a3-m1-cC_1q3q-a3-m4-cD 1q3q-a3-m1-cD_1q3q-a3-m3-cC 1q3q-a3-m2-cC_1q3q-a3-m2-cD 1q3q-a3-m2-cC_1q3q-a3-m3-cD 1q3q-a3-m2-cD_1q3q-a3-m4-cC 1q3q-a3-m3-cC_1q3q-a3-m3-cD 1q3r-a1-m1-cA_1q3r-a1-m1-cB 1q3r-a1-m1-cA_1q3r-a1-m4-cB 1q3r-a1-m1-cB_1q3r-a1-m3-cA 1q3r-a1-m1-cC_1q3r-a1-m1-cD 1q3r-a1-m1-cC_1q3r-a1-m4-cD 1q3r-a1-m1-cD_1q3r-a1-m3-cC 1q3r-a1-m2-cA_1q3r-a1-m2-cB 1q3r-a1-m2-cA_1q3r-a1-m3-cB 1q3r-a1-m2-cB_1q3r-a1-m4-cA 1q3r-a1-m2-cC_1q3r-a1-m2-cD 1q3r-a1-m2-cC_1q3r-a1-m3-cD 1q3r-a1-m2-cD_1q3r-a1-m4-cC 1q3r-a1-m3-cA_1q3r-a1-m3-cB 1q3r-a1-m3-cC_1q3r-a1-m3-cD 1q3r-a1-m4-cA_1q3r-a1-m4-cB 1q3r-a1-m4-cC_1q3r-a1-m4-cD 1q3r-a2-m1-cC_1q3r-a2-m1-cD 1q3r-a2-m1-cC_1q3r-a2-m4-cD 1q3r-a2-m1-cD_1q3r-a2-m3-cC 1q3r-a2-m2-cC_1q3r-a2-m2-cD 1q3r-a2-m2-cC_1q3r-a2-m3-cD 1q3r-a2-m2-cD_1q3r-a2-m4-cC 1q3r-a2-m3-cC_1q3r-a2-m3-cD 1q3r-a2-m4-cC_1q3r-a2-m4-cD 1q3r-a3-m1-cA_1q3r-a3-m1-cB 1q3r-a3-m1-cA_1q3r-a3-m4-cB 1q3r-a3-m1-cB_1q3r-a3-m3-cA 1q3r-a3-m2-cA_1q3r-a3-m2-cB 1q3r-a3-m2-cA_1q3r-a3-m3-cB 1q3r-a3-m2-cB_1q3r-a3-m4-cA 1q3r-a3-m3-cA_1q3r-a3-m3-cB 1q3r-a3-m4-cA_1q3r-a3-m4-cB 1q3s-a1-m1-cA_1q3s-a1-m1-cB 1q3s-a1-m1-cA_1q3s-a1-m1-cH 1q3s-a1-m1-cB_1q3s-a1-m1-cC 1q3s-a1-m1-cC_1q3s-a1-m1-cD 1q3s-a1-m1-cD_1q3s-a1-m1-cE 1q3s-a1-m1-cE_1q3s-a1-m1-cF 1q3s-a1-m1-cF_1q3s-a1-m1-cG 1q3s-a1-m1-cG_1q3s-a1-m1-cH 1q3s-a1-m2-cA_1q3s-a1-m2-cB 1q3s-a1-m2-cA_1q3s-a1-m2-cH 1q3s-a1-m2-cB_1q3s-a1-m2-cC 1q3s-a1-m2-cC_1q3s-a1-m2-cD 1q3s-a1-m2-cD_1q3s-a1-m2-cE 1q3s-a1-m2-cE_1q3s-a1-m2-cF 1q3s-a1-m2-cF_1q3s-a1-m2-cG 1q3s-a1-m2-cG_1q3s-a1-m2-cH VVILPEGTQRYVGRDAQRLNILAARIIAETVRTTLGPKGMDKMLVDSLGDIVVTNDCATILDKIDLQHPAAKMMVEVAKTQDKEAGDGTTTAVVIAGELLRKAEELLDQNIHPSIITKGYALAAEKAQEILDEIAIRVDPDDEETLLKIAATSITGKNAESHKELLAKLAVEAVKQVAEKKDGKYVVDLDNIKFEKKAGEGVEESELVRGVVIDKEVVHPRMPKRVENAKIALINEALEVKKTETDAKINITSPDQLMSFLEQEEKMLKDMVDHIAQTGANVVFVQKGIDDLAQHYLAKYGIMAVRRVKKSDMEKLAKATGAKIVTNVKDLTPEDLGYAEVVEERKLAGENMIFVEGCKNPKAVTILIRGGTEHVIDEVERALEDAVKVVKDVMEDGAVLPAGGAPEIELAIRLDEYAKQVGGKEALAIENFADALKIIPKTLAENAGLDTVEMLVKVISEHKNRGLGIGIDVFEGKPADMLEKGIIEPLRVKKQAIKSASEAAIMILRIDDVIAAKA VVILPEGTQRYVGRDAQRLNILAARIIAETVRTTLGPKGMDKMLVDSLGDIVVTNDCATILDKIDLQHPAAKMMVEVAKTQDKEAGDGTTTAVVIAGELLRKAEELLDQNIHPSIITKGYALAAEKAQEILDEIAIRVDPDDEETLLKIAATSITGKNAESHKELLAKLAVEAVKQVAEKKDGKYVVDLDNIKFEKKAGEGVEESELVRGVVIDKEVVHPRMPKRVENAKIALINEALEVKKTETDAKINITSPDQLMSFLEQEEKMLKDMVDHIAQTGANVVFVQKGIDDLAQHYLAKYGIMAVRRVKKSDMEKLAKATGAKIVTNVKDLTPEDLGYAEVVEERKLAGENMIFVEGCKNPKAVTILIRGGTEHVIDEVERALEDAVKVVKDVMEDGAVLPAGGAPEIELAIRLDEYAKQVGGKEALAIENFADALKIIPKTLAENAGLDTVEMLVKVISEHKNRGLGIGIDVFEGKPADMLEKGIIEPLRVKKQAIKSASEAAIMILRIDDVIAAKA 1q40-a3-m2-cC_1q40-a3-m1-cA Crystal structure of the C. albicans Mtr2-Mex67 M domain complex P84148 P84148 1.95 X-RAY DIFFRACTION 53 0.988 5476 (Candida albicans) 5476 (Candida albicans) 162 163 QDPTQQLEPFLKRFLASLDLLYTQPTSQPFPNVESYATQLGSNLKRSSAIIVNGQPIIPSPQEDCKLQFQKKWLQTPLSSHQLTSYDGHLIPGTGTFVVHFSAKVRFDQSGRNRLGESADLFQQRPIWGSWFGVDVNLVVDENVQDGEIINSDYRFTYVPND QDPTQQLEPFLKRFLASLDLLYTQSQPFPNVESYATQLGSNLKRSSAIIVNGQPIIPSPQEDCKLQFQKKWLQTPLSSHQLTSYDGHLIPGTGTFVVHFSAKVRFDQSGRNRLGESADLFQENNQRPIWGSWFGVDVNLVVDENVQDGEIINSDYRFTYVPND 1q47-a1-m1-cA_1q47-a1-m1-cB Structure of the Semaphorin 3A Receptor-Binding Module O08665 O08665 2.8 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 484 495 4gz8-a1-m1-cB_4gz8-a1-m1-cA 4gza-a1-m1-cG_4gza-a1-m2-cG 7m0r-a1-m1-cC_7m0r-a1-m1-cD KNNVPRLKLSYKEMLESNNVITFNGLANSSSYHTFLLDEERSRLYVGAKDHIFSFNLVNIKDFQKIVWPVSYTRRDECKWAGKDILKECANFIKVLEAYNQTHLYACGTGAFHPICTYIEVGHHPEDNIFKLQDSHFENGRGKSPYDPKLLTASLLIDGELYSGTAADFMGRDFAIFRTLGHHHPIRTEQHDSRWLNDPRFISAHLIPESDNPEDDKVYFFFRENAIDGEHSGKATHARIGQICKNDFGGHRSLVNKWTTFLKARLICSVPGPNGIDTHFDELQDVFLMNSKDPKNPIVYGVFTTSSNIFKGSAVCMYSMSDVRRVFLGPYAHRDGPNYQWVPYQGRVPYPRPGTCPSKTFGGFDSTKDLPDDVITFARSHPAMYNPVFPINNRPIMIKTDVNYQFTQIVVDRVDAEDGQYDVMFIGTDVGTVLKVVSVLLEEMTVFREPTTISAMELSTKQQQLYIGSTAGVAQLPLHRCDIY KNNVPRLKLSYKEMLESNNVITFNGLANSSSYHTFLLDEERSRLYVGAKDHIFSFNLVNIKDFQKIVWPVSYTRRDECKWAGKDILKECANFIKVLEAYNQTHLYACGTGAFHPICTYIEVGHHPEDNIFKLQDSHFENGRGKSPYDPKLLTASLLIDGELYSGTAADFMGRDFAIFRTLGHHHPIRTEQHDSRWLNDPRFISAHLIPESDNPEDDKVYFFFRENAIDGEHSGKATHARIGQICKNDFGGHRSLVNKWTTFLKARLICSVPGPNGIDTHFDELQDVFLMNSKDPKNPIVYGVFTTSSNIFKGSAVCMYSMSDVRRVFLGPYAHRDGPNYQWVPYQGRVPYPRPGTCPSKTFGGFDSTKDLPDDVITFARSHPAMYNPVFPINNRPIMIKTDVNYQFTQIVVDRVDAEDGQYDVMFIGTDVGTVLKVVSVPKETWHDLEEVLLEEMTVFREPTTISAMELSTKQQQLYIGSTAGVAQLPLHRCDIY 1q4t-a1-m2-cB_1q4t-a1-m1-cA crystal structure of 4-hydroxybenzoyl CoA thioesterase from Arthrobacter sp. strain SU complexed with 4-hydroxyphenyl CoA Q04416 Q04416 1.6 X-RAY DIFFRACTION 27 1.0 71255 (Arthrobacter sp. SU) 71255 (Arthrobacter sp. SU) 140 142 1q4s-a1-m1-cB_1q4s-a1-m2-cA 1q4s-a1-m2-cB_1q4s-a1-m1-cA 1q4t-a1-m1-cB_1q4t-a1-m2-cA 1q4u-a1-m1-cB_1q4u-a1-m2-cA 1q4u-a1-m2-cB_1q4u-a1-m1-cA 3r32-a1-m1-cB_3r32-a1-m2-cA 3r32-a1-m2-cB_3r32-a1-m1-cA 3r34-a1-m1-cB_3r34-a1-m2-cA 3r34-a1-m2-cB_3r34-a1-m1-cA 3r35-a1-m1-cB_3r35-a1-m2-cA 3r35-a1-m2-cB_3r35-a1-m1-cA 3r36-a1-m1-cB_3r36-a1-m2-cA 3r36-a1-m2-cB_3r36-a1-m1-cA 3r37-a1-m1-cA_3r37-a1-m2-cB 3r37-a1-m1-cB_3r37-a1-m2-cA 3r3a-a1-m1-cB_3r3a-a1-m2-cA 3r3a-a1-m2-cB_3r3a-a1-m1-cA 3r3b-a1-m1-cB_3r3b-a1-m2-cA 3r3b-a1-m2-cB_3r3b-a1-m1-cA 3r3c-a1-m1-cA_3r3c-a1-m2-cB 3r3c-a1-m1-cB_3r3c-a1-m2-cA 3r3d-a1-m1-cA_3r3d-a1-m2-cB 3r3d-a1-m1-cB_3r3d-a1-m2-cA 3r3f-a1-m1-cA_3r3f-a1-m2-cB 3r3f-a1-m1-cB_3r3f-a1-m2-cA 3tea-a1-m1-cA_3tea-a1-m2-cB 3tea-a1-m1-cB_3tea-a1-m2-cA GGNLPDVASHYPVAYEQTLDGTVGFVIDEMTPERATASVEVTDTLRQRWGLVHGGAYCALAEMLATEATVAVVHEKGMMAVGQSNHTSFFRPVKEGHVRAEAVRIHAGSTTWFWDVSLRDDAGRLCAVSSMSIAVRPRRD ATGGNLPDVASHYPVAYEQTLDGTVGFVIDEMTPERATASVEVTDTLRQRWGLVHGGAYCALAEMLATEATVAVVHEKGMMAVGQSNHTSFFRPVKEGHVRAEAVRIHAGSTTWFWDVSLRDDAGRLCAVSSMSIAVRPRRD 1q4t-a1-m2-cB_1q4t-a1-m2-cA crystal structure of 4-hydroxybenzoyl CoA thioesterase from Arthrobacter sp. strain SU complexed with 4-hydroxyphenyl CoA Q04416 Q04416 1.6 X-RAY DIFFRACTION 151 1.0 71255 (Arthrobacter sp. SU) 71255 (Arthrobacter sp. SU) 140 142 1q4s-a1-m1-cB_1q4s-a1-m1-cA 1q4s-a1-m2-cB_1q4s-a1-m2-cA 1q4t-a1-m1-cB_1q4t-a1-m1-cA 1q4u-a1-m1-cB_1q4u-a1-m1-cA 1q4u-a1-m2-cB_1q4u-a1-m2-cA 3r32-a1-m1-cB_3r32-a1-m1-cA 3r32-a1-m2-cB_3r32-a1-m2-cA 3r34-a1-m1-cB_3r34-a1-m1-cA 3r34-a1-m2-cB_3r34-a1-m2-cA 3r35-a1-m1-cB_3r35-a1-m1-cA 3r35-a1-m2-cB_3r35-a1-m2-cA 3r36-a1-m1-cB_3r36-a1-m1-cA 3r36-a1-m2-cB_3r36-a1-m2-cA 3r37-a1-m1-cA_3r37-a1-m1-cB 3r37-a1-m2-cA_3r37-a1-m2-cB 3r3a-a1-m1-cB_3r3a-a1-m1-cA 3r3a-a1-m2-cB_3r3a-a1-m2-cA 3r3b-a1-m1-cB_3r3b-a1-m1-cA 3r3b-a1-m2-cB_3r3b-a1-m2-cA 3r3c-a1-m1-cA_3r3c-a1-m1-cB 3r3c-a1-m2-cA_3r3c-a1-m2-cB 3r3d-a1-m1-cA_3r3d-a1-m1-cB 3r3d-a1-m2-cA_3r3d-a1-m2-cB 3r3f-a1-m1-cA_3r3f-a1-m1-cB 3r3f-a1-m2-cA_3r3f-a1-m2-cB 3tea-a1-m1-cA_3tea-a1-m1-cB 3tea-a1-m2-cA_3tea-a1-m2-cB GGNLPDVASHYPVAYEQTLDGTVGFVIDEMTPERATASVEVTDTLRQRWGLVHGGAYCALAEMLATEATVAVVHEKGMMAVGQSNHTSFFRPVKEGHVRAEAVRIHAGSTTWFWDVSLRDDAGRLCAVSSMSIAVRPRRD ATGGNLPDVASHYPVAYEQTLDGTVGFVIDEMTPERATASVEVTDTLRQRWGLVHGGAYCALAEMLATEATVAVVHEKGMMAVGQSNHTSFFRPVKEGHVRAEAVRIHAGSTTWFWDVSLRDDAGRLCAVSSMSIAVRPRRD 1q4u-a1-m1-cB_1q4u-a1-m2-cB Crystal structure of 4-hydroxybenzoyl CoA thioesterase from arthrobacter sp. strain SU complexed with 4-hydroxybenzyl CoA Q04416 Q04416 1.6 X-RAY DIFFRACTION 13 1.0 71255 (Arthrobacter sp. SU) 71255 (Arthrobacter sp. SU) 139 139 1q4t-a1-m1-cA_1q4t-a1-m2-cA 1q4t-a1-m1-cB_1q4t-a1-m2-cB 1q4u-a1-m1-cA_1q4u-a1-m2-cA 3r32-a1-m1-cA_3r32-a1-m2-cA 3r32-a1-m1-cB_3r32-a1-m2-cB 3r34-a1-m1-cA_3r34-a1-m2-cA 3r34-a1-m1-cB_3r34-a1-m2-cB 3r35-a1-m1-cA_3r35-a1-m2-cA 3r35-a1-m1-cB_3r35-a1-m2-cB 3r36-a1-m1-cB_3r36-a1-m2-cB 3r37-a1-m1-cA_3r37-a1-m2-cA 3r37-a1-m1-cB_3r37-a1-m2-cB 3r3b-a1-m1-cA_3r3b-a1-m2-cA 3r3b-a1-m1-cB_3r3b-a1-m2-cB 3r3c-a1-m1-cA_3r3c-a1-m2-cA 3r3c-a1-m1-cB_3r3c-a1-m2-cB 3r3d-a1-m1-cA_3r3d-a1-m2-cA 3r3d-a1-m1-cB_3r3d-a1-m2-cB 3r3f-a1-m1-cA_3r3f-a1-m2-cA 3r3f-a1-m1-cB_3r3f-a1-m2-cB 3tea-a1-m1-cA_3tea-a1-m2-cA 3tea-a1-m1-cB_3tea-a1-m2-cB GGNLPDVASHYPVAYEQTLDGTVGFVIDEMTPERATASVEVTDTLRQRWGLVHGGAYCALAEMLATEATVAVVHEKGMMAVGQSNHTSFFRPVKEGHVRAEAVRIHAGSTTWFWDVSLRDDAGRLCAVSSMSIAVRPRR GGNLPDVASHYPVAYEQTLDGTVGFVIDEMTPERATASVEVTDTLRQRWGLVHGGAYCALAEMLATEATVAVVHEKGMMAVGQSNHTSFFRPVKEGHVRAEAVRIHAGSTTWFWDVSLRDDAGRLCAVSSMSIAVRPRR 1q55-a1-m1-cA_1q55-a1-m1-cB W-shaped trans interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q55-a1-m1-cC_1q55-a1-m1-cD W-shaped trans interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5b-a1-m1-cA_1q5b-a1-m1-cB lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 71 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 1q5a-a1-m1-cA_1q5a-a1-m1-cB DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5b-a1-m1-cA_1q5b-a1-m1-cC lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 130 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5b-a1-m1-cB_1q5b-a1-m1-cC lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5c-a1-m1-cA_1q5c-a1-m1-cB S-S-lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 68 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5c-a1-m1-cA_1q5c-a1-m1-cD S-S-lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5c-a1-m1-cB_1q5c-a1-m1-cC S-S-lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5c-a1-m1-cB_1q5c-a1-m1-cD S-S-lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5c-a1-m1-cC_1q5c-a1-m1-cD S-S-lambda-shaped TRANS and CIS interactions of cadherins model based on fitting C-cadherin (1L3W) to 3D map of desmosomes obtained by electron tomography 30.0 ELECTRON MICROSCOPY 250 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ DWVIPPIKVSENERGPFPKRLVQIKSNKDRFNKVYYSITGQGADNPPQGVFRIEWETGWMLVTRPLDREEYDKYVLSSHAVSENGSPVEEPMEITINVIDQNDNRPKFTQDVFRGSVREGVQPGTQVMAVSATDEDDNIDSLNGVLSYSILKQDPEEPIPNLFTINRETGVISLIGTGLDREKFPEYTLTVQATDLEGAGLSVEGKAIIQITDANDNAPIFDPKTYTALVPENEIGFEVQRLSVTDLDMPGTPAWQAVYKIRVNEGGFFNITTDPESNQGILTTAKGLDFELRKQYVLQITVENAEPFSVPLPTSTATVTVTVEDVNEAPFFVPAVSRVDVSEDLSRGEKIISLVAQDPDKQQIQKLSYFIGNDPARWLTVNKDNGIVTGNGNLDRESEYVKNNTYTVIMLVTDDGVSVGTGTGTLILHVLDVNDNGPVPSPRVFTMCDQNPEPQVLTISDADIPPNTYPYKVSLSHGSDLTWKAELDSKGTSMLLSPTQQLKKGDYSIYVLLSDAQNNPQLTVVNATVCSCEGKAIKCQ 1q5n-a1-m1-cA_1q5n-a1-m4-cA Crystal Structure of beta-carboxy-cis,cis-muconate cycloisomerase (CMLE) from Acinetobacter calcoaceticus sp. ADP1 Q59092 Q59092 2.3 X-RAY DIFFRACTION 140 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 431 431 1q5n-a1-m2-cA_1q5n-a1-m3-cA QLYASLFYQRDVTEIFSDRALVSYMVEAEVALAQAQAQVGVIPQSAATVIQRAAKTAIDKIDFDALATATGLAGNIAIPFVKQLTAIVKDADEDAARYVHWGATSQDILDTACILQCRDALAIVQNQVQQCYETALSQAQTYRHQVMMGRTWLQQALPITLGHKLARWASAFKRDLDRINAIKARVLVAQLGGAVGSLASLQDQGSIVVEAYAKQLKLGQTACTWHGERDRIVEIASVLGIITGNVGKMARDWSLMMQTEIAEVFEPTRNPVAAASVLAAANRVPALMSSIYQSMVQEHERSLGAWHAEWLSLPEIFQLTAGALERTLDVLKGMEVNAENMHQNIECTHGLIMAEAVMMALAPHMGRLNAHHVVEAACKTAVAEQKHLKDIISQVDEVKQYFNPSQLDEIFKPESYLGNIQDQIDAVLQEA QLYASLFYQRDVTEIFSDRALVSYMVEAEVALAQAQAQVGVIPQSAATVIQRAAKTAIDKIDFDALATATGLAGNIAIPFVKQLTAIVKDADEDAARYVHWGATSQDILDTACILQCRDALAIVQNQVQQCYETALSQAQTYRHQVMMGRTWLQQALPITLGHKLARWASAFKRDLDRINAIKARVLVAQLGGAVGSLASLQDQGSIVVEAYAKQLKLGQTACTWHGERDRIVEIASVLGIITGNVGKMARDWSLMMQTEIAEVFEPTRNPVAAASVLAAANRVPALMSSIYQSMVQEHERSLGAWHAEWLSLPEIFQLTAGALERTLDVLKGMEVNAENMHQNIECTHGLIMAEAVMMALAPHMGRLNAHHVVEAACKTAVAEQKHLKDIISQVDEVKQYFNPSQLDEIFKPESYLGNIQDQIDAVLQEA 1q5n-a1-m2-cA_1q5n-a1-m4-cA Crystal Structure of beta-carboxy-cis,cis-muconate cycloisomerase (CMLE) from Acinetobacter calcoaceticus sp. ADP1 Q59092 Q59092 2.3 X-RAY DIFFRACTION 282 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 431 431 1q5n-a1-m1-cA_1q5n-a1-m3-cA QLYASLFYQRDVTEIFSDRALVSYMVEAEVALAQAQAQVGVIPQSAATVIQRAAKTAIDKIDFDALATATGLAGNIAIPFVKQLTAIVKDADEDAARYVHWGATSQDILDTACILQCRDALAIVQNQVQQCYETALSQAQTYRHQVMMGRTWLQQALPITLGHKLARWASAFKRDLDRINAIKARVLVAQLGGAVGSLASLQDQGSIVVEAYAKQLKLGQTACTWHGERDRIVEIASVLGIITGNVGKMARDWSLMMQTEIAEVFEPTRNPVAAASVLAAANRVPALMSSIYQSMVQEHERSLGAWHAEWLSLPEIFQLTAGALERTLDVLKGMEVNAENMHQNIECTHGLIMAEAVMMALAPHMGRLNAHHVVEAACKTAVAEQKHLKDIISQVDEVKQYFNPSQLDEIFKPESYLGNIQDQIDAVLQEA QLYASLFYQRDVTEIFSDRALVSYMVEAEVALAQAQAQVGVIPQSAATVIQRAAKTAIDKIDFDALATATGLAGNIAIPFVKQLTAIVKDADEDAARYVHWGATSQDILDTACILQCRDALAIVQNQVQQCYETALSQAQTYRHQVMMGRTWLQQALPITLGHKLARWASAFKRDLDRINAIKARVLVAQLGGAVGSLASLQDQGSIVVEAYAKQLKLGQTACTWHGERDRIVEIASVLGIITGNVGKMARDWSLMMQTEIAEVFEPTRNPVAAASVLAAANRVPALMSSIYQSMVQEHERSLGAWHAEWLSLPEIFQLTAGALERTLDVLKGMEVNAENMHQNIECTHGLIMAEAVMMALAPHMGRLNAHHVVEAACKTAVAEQKHLKDIISQVDEVKQYFNPSQLDEIFKPESYLGNIQDQIDAVLQEA 1q5n-a1-m3-cA_1q5n-a1-m4-cA Crystal Structure of beta-carboxy-cis,cis-muconate cycloisomerase (CMLE) from Acinetobacter calcoaceticus sp. ADP1 Q59092 Q59092 2.3 X-RAY DIFFRACTION 62 1.0 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 431 431 1q5n-a1-m1-cA_1q5n-a1-m2-cA QLYASLFYQRDVTEIFSDRALVSYMVEAEVALAQAQAQVGVIPQSAATVIQRAAKTAIDKIDFDALATATGLAGNIAIPFVKQLTAIVKDADEDAARYVHWGATSQDILDTACILQCRDALAIVQNQVQQCYETALSQAQTYRHQVMMGRTWLQQALPITLGHKLARWASAFKRDLDRINAIKARVLVAQLGGAVGSLASLQDQGSIVVEAYAKQLKLGQTACTWHGERDRIVEIASVLGIITGNVGKMARDWSLMMQTEIAEVFEPTRNPVAAASVLAAANRVPALMSSIYQSMVQEHERSLGAWHAEWLSLPEIFQLTAGALERTLDVLKGMEVNAENMHQNIECTHGLIMAEAVMMALAPHMGRLNAHHVVEAACKTAVAEQKHLKDIISQVDEVKQYFNPSQLDEIFKPESYLGNIQDQIDAVLQEA QLYASLFYQRDVTEIFSDRALVSYMVEAEVALAQAQAQVGVIPQSAATVIQRAAKTAIDKIDFDALATATGLAGNIAIPFVKQLTAIVKDADEDAARYVHWGATSQDILDTACILQCRDALAIVQNQVQQCYETALSQAQTYRHQVMMGRTWLQQALPITLGHKLARWASAFKRDLDRINAIKARVLVAQLGGAVGSLASLQDQGSIVVEAYAKQLKLGQTACTWHGERDRIVEIASVLGIITGNVGKMARDWSLMMQTEIAEVFEPTRNPVAAASVLAAANRVPALMSSIYQSMVQEHERSLGAWHAEWLSLPEIFQLTAGALERTLDVLKGMEVNAENMHQNIECTHGLIMAEAVMMALAPHMGRLNAHHVVEAACKTAVAEQKHLKDIISQVDEVKQYFNPSQLDEIFKPESYLGNIQDQIDAVLQEA 1q5r-a2-m1-cH_1q5r-a2-m2-cN The Rhodococcus 20S proteasome with unprocessed pro-peptides Q53079 Q53079 3.1 X-RAY DIFFRACTION 24 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 251 251 1q5q-a2-m1-cH_1q5q-a2-m2-cJ 1q5q-a2-m1-cI_1q5q-a2-m2-cI 1q5q-a2-m1-cJ_1q5q-a2-m2-cH 1q5q-a2-m1-cK_1q5q-a2-m2-cN 1q5q-a2-m1-cL_1q5q-a2-m2-cM 1q5q-a2-m1-cM_1q5q-a2-m2-cL 1q5q-a2-m1-cN_1q5q-a2-m2-cK 1q5r-a2-m1-cI_1q5r-a2-m2-cM 1q5r-a2-m1-cJ_1q5r-a2-m2-cL 1q5r-a2-m1-cK_1q5r-a2-m2-cK 1q5r-a2-m1-cL_1q5r-a2-m2-cJ 1q5r-a2-m1-cM_1q5r-a2-m2-cI 1q5r-a2-m1-cN_1q5r-a2-m2-cH 2h6j-a1-m1-cH_2h6j-a1-m2-cN 2h6j-a1-m1-cI_2h6j-a1-m2-cM 2h6j-a1-m1-cJ_2h6j-a1-m2-cL 2h6j-a1-m1-cK_2h6j-a1-m2-cK 2h6j-a1-m1-cL_2h6j-a1-m2-cJ 2h6j-a1-m1-cM_2h6j-a1-m2-cI 2h6j-a1-m1-cN_2h6j-a1-m2-cH LSFGSNLSSFTDYLRGHAPELLPENRDLAPHGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEAVYVTDEYSAAGIAGTAGIAIELVRLFAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIVSYDVVGGRYEERAGYHAVGSGSLFAKSALKKIYSPDSDEETALRAAIESLYDAADDDSATGGPDLTRGIYPTAVTITQAGAVHVSEETTSELARRIVA LSFGSNLSSFTDYLRGHAPELLPENRDLAPHGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEAVYVTDEYSAAGIAGTAGIAIELVRLFAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIVSYDVVGGRYEERAGYHAVGSGSLFAKSALKKIYSPDSDEETALRAAIESLYDAADDDSATGGPDLTRGIYPTAVTITQAGAVHVSEETTSELARRIVA 1q5r-a2-m2-cF_1q5r-a2-m2-cG The Rhodococcus 20S proteasome with unprocessed pro-peptides Q53080 Q53080 3.1 X-RAY DIFFRACTION 38 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 219 219 1q5q-a1-m1-cA_1q5q-a1-m1-cB 1q5q-a1-m1-cA_1q5q-a1-m1-cG 1q5q-a1-m1-cB_1q5q-a1-m1-cC 1q5q-a1-m1-cC_1q5q-a1-m1-cD 1q5q-a1-m1-cD_1q5q-a1-m1-cE 1q5q-a1-m1-cE_1q5q-a1-m1-cF 1q5q-a1-m1-cF_1q5q-a1-m1-cG 1q5q-a2-m1-cA_1q5q-a2-m1-cB 1q5q-a2-m1-cA_1q5q-a2-m1-cG 1q5q-a2-m1-cB_1q5q-a2-m1-cC 1q5q-a2-m1-cC_1q5q-a2-m1-cD 1q5q-a2-m1-cD_1q5q-a2-m1-cE 1q5q-a2-m1-cE_1q5q-a2-m1-cF 1q5q-a2-m1-cF_1q5q-a2-m1-cG 1q5q-a2-m2-cA_1q5q-a2-m2-cB 1q5q-a2-m2-cA_1q5q-a2-m2-cG 1q5q-a2-m2-cB_1q5q-a2-m2-cC 1q5q-a2-m2-cC_1q5q-a2-m2-cD 1q5q-a2-m2-cD_1q5q-a2-m2-cE 1q5q-a2-m2-cE_1q5q-a2-m2-cF 1q5q-a2-m2-cF_1q5q-a2-m2-cG 1q5r-a1-m1-cA_1q5r-a1-m1-cB 1q5r-a1-m1-cA_1q5r-a1-m1-cG 1q5r-a1-m1-cB_1q5r-a1-m1-cC 1q5r-a1-m1-cC_1q5r-a1-m1-cD 1q5r-a1-m1-cD_1q5r-a1-m1-cE 1q5r-a1-m1-cE_1q5r-a1-m1-cF 1q5r-a1-m1-cF_1q5r-a1-m1-cG 1q5r-a2-m1-cA_1q5r-a2-m1-cB 1q5r-a2-m1-cA_1q5r-a2-m1-cG 1q5r-a2-m1-cB_1q5r-a2-m1-cC 1q5r-a2-m1-cC_1q5r-a2-m1-cD 1q5r-a2-m1-cD_1q5r-a2-m1-cE 1q5r-a2-m1-cE_1q5r-a2-m1-cF 1q5r-a2-m1-cF_1q5r-a2-m1-cG 1q5r-a2-m2-cA_1q5r-a2-m2-cB 1q5r-a2-m2-cA_1q5r-a2-m2-cG 1q5r-a2-m2-cB_1q5r-a2-m2-cC 1q5r-a2-m2-cC_1q5r-a2-m2-cD 1q5r-a2-m2-cD_1q5r-a2-m2-cE 1q5r-a2-m2-cE_1q5r-a2-m2-cF 2h6j-a1-m1-cA_2h6j-a1-m1-cB 2h6j-a1-m1-cA_2h6j-a1-m1-cG 2h6j-a1-m1-cB_2h6j-a1-m1-cC 2h6j-a1-m1-cC_2h6j-a1-m1-cD 2h6j-a1-m1-cD_2h6j-a1-m1-cE 2h6j-a1-m1-cE_2h6j-a1-m1-cF 2h6j-a1-m1-cF_2h6j-a1-m1-cG 2h6j-a1-m2-cA_2h6j-a1-m2-cB 2h6j-a1-m2-cA_2h6j-a1-m2-cG 2h6j-a1-m2-cB_2h6j-a1-m2-cC 2h6j-a1-m2-cC_2h6j-a1-m2-cD 2h6j-a1-m2-cD_2h6j-a1-m2-cE 2h6j-a1-m2-cE_2h6j-a1-m2-cF 2h6j-a1-m2-cF_2h6j-a1-m2-cG AEQIMRDRSELARKGIARGRSVVVLTFRDGVLFVAENPSTALHKVSELYDRLGFAAVGKYNEFENLRRAGIVHADMRGYSYDRRDVTGRSLANAYAQTLGTIFTEQPKPYEVEICVAEVGRVGSPKAPQLYRITYDGSIVDEQHFVVMGGTTEPIATAMRESYRADLDLEAAVGIAVNALRQGGVDVASLEVAVLDQSRPRRAFRRIAGTALEQLVPAE AEQIMRDRSELARKGIARGRSVVVLTFRDGVLFVAENPSTALHKVSELYDRLGFAAVGKYNEFENLRRAGIVHADMRGYSYDRRDVTGRSLANAYAQTLGTIFTEQPKPYEVEICVAEVGRVGSPKAPQLYRITYDGSIVDEQHFVVMGGTTEPIATAMRESYRADLDLEAAVGIAVNALRQGGVDVASLEVAVLDQSRPRRAFRRIAGTALEQLVPAE 1q5r-a2-m2-cM_1q5r-a2-m2-cN The Rhodococcus 20S proteasome with unprocessed pro-peptides Q53079 Q53079 3.1 X-RAY DIFFRACTION 33 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 251 251 1q5q-a1-m1-cH_1q5q-a1-m1-cI 1q5q-a1-m1-cH_1q5q-a1-m1-cN 1q5q-a1-m1-cI_1q5q-a1-m1-cJ 1q5q-a1-m1-cJ_1q5q-a1-m1-cK 1q5q-a1-m1-cK_1q5q-a1-m1-cL 1q5q-a1-m1-cL_1q5q-a1-m1-cM 1q5q-a1-m1-cM_1q5q-a1-m1-cN 1q5q-a2-m1-cH_1q5q-a2-m1-cI 1q5q-a2-m1-cH_1q5q-a2-m1-cN 1q5q-a2-m1-cI_1q5q-a2-m1-cJ 1q5q-a2-m1-cJ_1q5q-a2-m1-cK 1q5q-a2-m1-cK_1q5q-a2-m1-cL 1q5q-a2-m1-cL_1q5q-a2-m1-cM 1q5q-a2-m1-cM_1q5q-a2-m1-cN 1q5q-a2-m2-cH_1q5q-a2-m2-cI 1q5q-a2-m2-cH_1q5q-a2-m2-cN 1q5q-a2-m2-cI_1q5q-a2-m2-cJ 1q5q-a2-m2-cJ_1q5q-a2-m2-cK 1q5q-a2-m2-cK_1q5q-a2-m2-cL 1q5q-a2-m2-cL_1q5q-a2-m2-cM 1q5q-a2-m2-cM_1q5q-a2-m2-cN 1q5r-a1-m1-cH_1q5r-a1-m1-cI 1q5r-a1-m1-cH_1q5r-a1-m1-cN 1q5r-a1-m1-cI_1q5r-a1-m1-cJ 1q5r-a1-m1-cJ_1q5r-a1-m1-cK 1q5r-a1-m1-cK_1q5r-a1-m1-cL 1q5r-a1-m1-cL_1q5r-a1-m1-cM 1q5r-a1-m1-cM_1q5r-a1-m1-cN 1q5r-a2-m1-cH_1q5r-a2-m1-cI 1q5r-a2-m1-cH_1q5r-a2-m1-cN 1q5r-a2-m1-cI_1q5r-a2-m1-cJ 1q5r-a2-m1-cJ_1q5r-a2-m1-cK 1q5r-a2-m1-cK_1q5r-a2-m1-cL 1q5r-a2-m1-cL_1q5r-a2-m1-cM 1q5r-a2-m1-cM_1q5r-a2-m1-cN 1q5r-a2-m2-cH_1q5r-a2-m2-cI 1q5r-a2-m2-cH_1q5r-a2-m2-cN 1q5r-a2-m2-cI_1q5r-a2-m2-cJ 1q5r-a2-m2-cJ_1q5r-a2-m2-cK 1q5r-a2-m2-cK_1q5r-a2-m2-cL 1q5r-a2-m2-cL_1q5r-a2-m2-cM 2h6j-a1-m1-cH_2h6j-a1-m1-cI 2h6j-a1-m1-cH_2h6j-a1-m1-cN 2h6j-a1-m1-cI_2h6j-a1-m1-cJ 2h6j-a1-m1-cJ_2h6j-a1-m1-cK 2h6j-a1-m1-cK_2h6j-a1-m1-cL 2h6j-a1-m1-cL_2h6j-a1-m1-cM 2h6j-a1-m1-cM_2h6j-a1-m1-cN 2h6j-a1-m2-cH_2h6j-a1-m2-cI 2h6j-a1-m2-cH_2h6j-a1-m2-cN 2h6j-a1-m2-cI_2h6j-a1-m2-cJ 2h6j-a1-m2-cJ_2h6j-a1-m2-cK 2h6j-a1-m2-cK_2h6j-a1-m2-cL 2h6j-a1-m2-cL_2h6j-a1-m2-cM 2h6j-a1-m2-cM_2h6j-a1-m2-cN LSFGSNLSSFTDYLRGHAPELLPENRDLAPHGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEAVYVTDEYSAAGIAGTAGIAIELVRLFAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIVSYDVVGGRYEERAGYHAVGSGSLFAKSALKKIYSPDSDEETALRAAIESLYDAADDDSATGGPDLTRGIYPTAVTITQAGAVHVSEETTSELARRIVA LSFGSNLSSFTDYLRGHAPELLPENRDLAPHGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEAVYVTDEYSAAGIAGTAGIAIELVRLFAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIVSYDVVGGRYEERAGYHAVGSGSLFAKSALKKIYSPDSDEETALRAAIESLYDAADDDSATGGPDLTRGIYPTAVTITQAGAVHVSEETTSELARRIVA 1q5t-a2-m1-cA_1q5t-a2-m2-cA Gln48 PLA2 separated from Vipoxin from the venom of Vipera ammodytes meridionalis. P04084 P04084 1.9 X-RAY DIFFRACTION 22 1.0 73841 (Vipera ammodytes meridionalis) 73841 (Vipera ammodytes meridionalis) 122 122 NLFQFGDMILQKTGKEAVHSYAIYGCYCGWGGQGRAQDATDRCCFAQDCCYGRNLVCNPKTATYTYSFENGDIVCGDNDLCLRAVCECDRAAAICLGENVNTYDKNYEYYSISHCTEESEQC NLFQFGDMILQKTGKEAVHSYAIYGCYCGWGGQGRAQDATDRCCFAQDCCYGRNLVCNPKTATYTYSFENGDIVCGDNDLCLRAVCECDRAAAICLGENVNTYDKNYEYYSISHCTEESEQC 1q5t-a3-m1-cB_1q5t-a3-m3-cB Gln48 PLA2 separated from Vipoxin from the venom of Vipera ammodytes meridionalis. P04084 P04084 1.9 X-RAY DIFFRACTION 26 1.0 73841 (Vipera ammodytes meridionalis) 73841 (Vipera ammodytes meridionalis) 122 122 NLFQFGDMILQKTGKEAVHSYAIYGCYCGWGGQGRAQDATDRCCFAQDCCYGRNLVCNPKTATYTYSFENGDIVCGDNDLCLRAVCECDRAAAICLGENVNTYDKNYEYYSISHCTEESEQC NLFQFGDMILQKTGKEAVHSYAIYGCYCGWGGQGRAQDATDRCCFAQDCCYGRNLVCNPKTATYTYSFENGDIVCGDNDLCLRAVCECDRAAAICLGENVNTYDKNYEYYSISHCTEESEQC 1q5t-a3-m3-cA_1q5t-a3-m3-cB Gln48 PLA2 separated from Vipoxin from the venom of Vipera ammodytes meridionalis. P04084 P04084 1.9 X-RAY DIFFRACTION 105 1.0 73841 (Vipera ammodytes meridionalis) 73841 (Vipera ammodytes meridionalis) 122 122 1q5t-a1-m1-cA_1q5t-a1-m1-cB 1q5t-a2-m1-cA_1q5t-a2-m1-cB 1q5t-a2-m2-cA_1q5t-a2-m2-cB 1q5t-a3-m1-cA_1q5t-a3-m1-cB 1vpi-a1-m1-cA_1vpi-a1-m2-cA NLFQFGDMILQKTGKEAVHSYAIYGCYCGWGGQGRAQDATDRCCFAQDCCYGRNLVCNPKTATYTYSFENGDIVCGDNDLCLRAVCECDRAAAICLGENVNTYDKNYEYYSISHCTEESEQC NLFQFGDMILQKTGKEAVHSYAIYGCYCGWGGQGRAQDATDRCCFAQDCCYGRNLVCNPKTATYTYSFENGDIVCGDNDLCLRAVCECDRAAAICLGENVNTYDKNYEYYSISHCTEESEQC 1q5y-a1-m1-cD_1q5y-a1-m1-cB Nickel-Bound C-terminal Regulatory Domain of NikR P0A6Z6 P0A6Z6 1.4 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 80 83 1q5y-a1-m1-cC_1q5y-a1-m1-cA 2hzv-a1-m1-cA_2hzv-a1-m1-cC 2hzv-a2-m1-cE_2hzv-a2-m1-cG 3bkt-a1-m1-cC_3bkt-a1-m1-cA 3bkt-a1-m1-cD_3bkt-a1-m1-cB TQGFAVLSYVYEHELASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKE TQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKE 1q5y-a1-m1-cD_1q5y-a1-m1-cC Nickel-Bound C-terminal Regulatory Domain of NikR P0A6Z6 P0A6Z6 1.4 X-RAY DIFFRACTION 50 0.988 562 (Escherichia coli) 562 (Escherichia coli) 80 82 1q5y-a1-m1-cB_1q5y-a1-m1-cA 2hza-a1-m1-cB_2hza-a1-m1-cA 2hza-a1-m2-cB_2hza-a1-m2-cA 3bkt-a1-m1-cA_3bkt-a1-m1-cB 3bkt-a1-m1-cD_3bkt-a1-m1-cC 3bkt-a2-m1-cA_3bkt-a2-m1-cB 3bkt-a3-m1-cD_3bkt-a3-m1-cC 3bku-a1-m1-cD_3bku-a1-m1-cC 3bku-a3-m1-cD_3bku-a3-m1-cC 3od2-a1-m1-cB_3od2-a1-m1-cA 3od2-a1-m2-cB_3od2-a1-m2-cA TQGFAVLSYVYEHELASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKE QGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKE 1q67-a1-m1-cA_1q67-a1-m1-cB Crystal structure of Dcp1p Q12517 Q12517 2.3 X-RAY DIFFRACTION 46 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 146 161 LNFNVIGRYDPKIKQLLFHTPHASLYKWDFKKDEWNKLEYQGVLAIYLRDVSKDIYNYGLIILNRINPDNFSMGIVPNSVVNKRKVFNAEEDTLNPLECMGVEVKDELVIIKNLKHEVYGIWIHTVSDRQNIYELIKYLLENEPKD FYRKALNFNVIGRYDPKIKQLLFHTPHASLYKWDFKKDEWNKLEYQGVLAIYLRDVSQNTNLLPKDIYNYGLIILNRINPDNFSMGIVPNSVVNKRKVFNAEEDTLNPLECMGVEVKDELVIIKNLKHEVYGIWIHTVSDRQNIYELIKYLLENEPKDSFA 1q6b-a1-m1-cA_1q6b-a1-m1-cB Solution Structure of the C-terminal Domain of Thermosynechococcus elongatus KaiA (ThKaiA180C); Ensemble of 25 Structures Q79V62 Q79V62 NOT SOLUTION NMR 45 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 107 107 1q6a-a1-m1-cA_1q6a-a1-m1-cB 1suy-a1-m1-cA_1suy-a1-m1-cB 1sv1-a1-m1-cA_1sv1-a1-m1-cB AMARMSPADKRKLLDELRSIYRTIVLEYFNTDAKVNERIDEFVSKAFFADISVSQVLEIHVELMDTFSKQLKLEGRSEDILLDYRLTLIDVIAHLCEMYRRSIPREV AMARMSPADKRKLLDELRSIYRTIVLEYFNTDAKVNERIDEFVSKAFFADISVSQVLEIHVELMDTFSKQLKLEGRSEDILLDYRLTLIDVIAHLCEMYRRSIPREV 1q6h-a1-m1-cA_1q6h-a1-m1-cB Crystal structure of a truncated form of FkpA from Escherichia coli P45523 P45523 1.97 X-RAY DIFFRACTION 167 1.0 562 (Escherichia coli) 562 (Escherichia coli) 208 208 1q6i-a1-m1-cA_1q6i-a1-m1-cB AFKNDDQKSAYALGASLGRYENSLKEQEKLGIKLDKDQLIAGVQDAFADKSKLSDQEIEQTLQAFEARVKSSAQAKEKDAADNEAKGKEYREKFAKEKGVKTSSTGLVYQVVEAGKGEAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPELAYGKAGVPGIPPNSTLVFDVELLDVK AFKNDDQKSAYALGASLGRYENSLKEQEKLGIKLDKDQLIAGVQDAFADKSKLSDQEIEQTLQAFEARVKSSAQAKEKDAADNEAKGKEYREKFAKEKGVKTSSTGLVYQVVEAGKGEAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPELAYGKAGVPGIPPNSTLVFDVELLDVK 1q6r-a2-m1-cA_1q6r-a2-m2-cB Structure of 3-keto-L-gulonate 6-phosphate decarboxylase with bound L-xylulose 5-phosphate P39304 P39304 1.76 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 214 215 1kv8-a2-m1-cA_1kv8-a2-m2-cB 1kv8-a2-m2-cA_1kv8-a2-m1-cB 1kw1-a2-m1-cA_1kw1-a2-m2-cB 1kw1-a2-m2-cA_1kw1-a2-m1-cB 1q6l-a2-m1-cA_1q6l-a2-m2-cB 1q6l-a2-m2-cA_1q6l-a2-m1-cB 1q6o-a2-m1-cA_1q6o-a2-m2-cB 1q6o-a2-m2-cA_1q6o-a2-m1-cB 1q6q-a2-m1-cA_1q6q-a2-m2-cB 1q6q-a2-m2-cA_1q6q-a2-m1-cB 1q6r-a2-m2-cA_1q6r-a2-m1-cB 1so3-a2-m1-cA_1so3-a2-m2-cB 1so3-a2-m2-cA_1so3-a2-m1-cB 1so4-a2-m1-cA_1so4-a2-m2-cB 1so4-a2-m2-cA_1so4-a2-m1-cB 1so5-a2-m1-cA_1so5-a2-m2-cB 1so5-a2-m2-cA_1so5-a2-m1-cB 1so6-a2-m1-cA_1so6-a2-m2-cB 1so6-a2-m1-cB_1so6-a2-m2-cA 1xbv-a2-m1-cA_1xbv-a2-m2-cB 1xbv-a2-m2-cA_1xbv-a2-m1-cB 1xbx-a2-m1-cA_1xbx-a2-m2-cB 1xbx-a2-m2-cA_1xbx-a2-m1-cB 1xby-a2-m1-cA_1xby-a2-m2-cB 1xby-a2-m2-cA_1xby-a2-m1-cB 1xbz-a2-m1-cA_1xbz-a2-m2-cB 1xbz-a2-m2-cA_1xbz-a2-m1-cB SLPMLQVALDNQTMDSAYETTRLIAEEVDIIEVGTILCVGEGVRAVRDLKALYPHKIVLADAKIADAGKILSRMCFEANADWVTVICCADINTAKGALDVAKEFNGDVQIELTGYWTWEQAQQWRDAGIGQVVYHRSRDAQAAGVAWGEADITAIKRLSDMGFKVTVTGGLALEDLPLFKGIPIHVFIAGRSIRDAASPVEAARQFKRSIAELW SLPMLQVALDNQTMDSAYETTRLIAEEVDIIEVGTILCVGEGVRAVRDLKALYPHKIVLADAKIADAGKILSRMCFEANADWVTVICCADINTAKGALDVAKEFNGDVQIELTGYWTWEQAQQWRDAGIGQVVYHRSRDAQAAGVAWGEADITAIKRLSDMGFKVTVTGGLALEDLPLFKGIPIHVFIAGRSIRDAASPVEAARQFKRSIAELWG 1q6r-a2-m2-cA_1q6r-a2-m2-cB Structure of 3-keto-L-gulonate 6-phosphate decarboxylase with bound L-xylulose 5-phosphate P39304 P39304 1.76 X-RAY DIFFRACTION 140 1.0 562 (Escherichia coli) 562 (Escherichia coli) 214 215 1kv8-a1-m1-cA_1kv8-a1-m1-cB 1kv8-a2-m1-cA_1kv8-a2-m1-cB 1kv8-a2-m2-cA_1kv8-a2-m2-cB 1kw1-a1-m1-cA_1kw1-a1-m1-cB 1kw1-a2-m1-cA_1kw1-a2-m1-cB 1kw1-a2-m2-cA_1kw1-a2-m2-cB 1q6l-a1-m1-cA_1q6l-a1-m1-cB 1q6l-a2-m1-cA_1q6l-a2-m1-cB 1q6l-a2-m2-cA_1q6l-a2-m2-cB 1q6o-a1-m1-cA_1q6o-a1-m1-cB 1q6o-a2-m1-cA_1q6o-a2-m1-cB 1q6o-a2-m2-cA_1q6o-a2-m2-cB 1q6q-a1-m1-cA_1q6q-a1-m1-cB 1q6q-a2-m1-cA_1q6q-a2-m1-cB 1q6q-a2-m2-cA_1q6q-a2-m2-cB 1q6r-a1-m1-cA_1q6r-a1-m1-cB 1q6r-a2-m1-cA_1q6r-a2-m1-cB 1so3-a1-m1-cA_1so3-a1-m1-cB 1so3-a2-m1-cA_1so3-a2-m1-cB 1so3-a2-m2-cA_1so3-a2-m2-cB 1so4-a1-m1-cA_1so4-a1-m1-cB 1so4-a2-m1-cA_1so4-a2-m1-cB 1so4-a2-m2-cA_1so4-a2-m2-cB 1so5-a1-m1-cA_1so5-a1-m1-cB 1so5-a2-m1-cA_1so5-a2-m1-cB 1so5-a2-m2-cA_1so5-a2-m2-cB 1so6-a1-m1-cA_1so6-a1-m1-cB 1so6-a2-m1-cA_1so6-a2-m1-cB 1so6-a2-m2-cA_1so6-a2-m2-cB 1xbv-a1-m1-cA_1xbv-a1-m1-cB 1xbv-a2-m1-cA_1xbv-a2-m1-cB 1xbv-a2-m2-cA_1xbv-a2-m2-cB 1xbx-a1-m1-cA_1xbx-a1-m1-cB 1xbx-a2-m1-cA_1xbx-a2-m1-cB 1xbx-a2-m2-cA_1xbx-a2-m2-cB 1xby-a1-m1-cA_1xby-a1-m1-cB 1xby-a2-m1-cA_1xby-a2-m1-cB 1xby-a2-m2-cA_1xby-a2-m2-cB 1xbz-a1-m1-cA_1xbz-a1-m1-cB 1xbz-a2-m1-cA_1xbz-a2-m1-cB 1xbz-a2-m2-cA_1xbz-a2-m2-cB SLPMLQVALDNQTMDSAYETTRLIAEEVDIIEVGTILCVGEGVRAVRDLKALYPHKIVLADAKIADAGKILSRMCFEANADWVTVICCADINTAKGALDVAKEFNGDVQIELTGYWTWEQAQQWRDAGIGQVVYHRSRDAQAAGVAWGEADITAIKRLSDMGFKVTVTGGLALEDLPLFKGIPIHVFIAGRSIRDAASPVEAARQFKRSIAELW SLPMLQVALDNQTMDSAYETTRLIAEEVDIIEVGTILCVGEGVRAVRDLKALYPHKIVLADAKIADAGKILSRMCFEANADWVTVICCADINTAKGALDVAKEFNGDVQIELTGYWTWEQAQQWRDAGIGQVVYHRSRDAQAAGVAWGEADITAIKRLSDMGFKVTVTGGLALEDLPLFKGIPIHVFIAGRSIRDAASPVEAARQFKRSIAELWG 1q6u-a1-m1-cA_1q6u-a1-m2-cA Crystal structure of FkpA from Escherichia coli P45523 P45523 2.45 X-RAY DIFFRACTION 176 1.0 562 (Escherichia coli) 562 (Escherichia coli) 213 213 AFKNDDQKSAYALGASLGRYMENSLKEQEKLGIKLDKDQLIAGVQDAFADKSKLSDQEIEQTLQAFEARVKSSAQAKMEKDAADNEAKGKEYREKFAKEKGVKTSSTGLVYQVVEAGKGEAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPELAYGKAGVPGIPPNSTLVFDVELLDVKPAP AFKNDDQKSAYALGASLGRYMENSLKEQEKLGIKLDKDQLIAGVQDAFADKSKLSDQEIEQTLQAFEARVKSSAQAKMEKDAADNEAKGKEYREKFAKEKGVKTSSTGLVYQVVEAGKGEAPKDSDTVVVNYKGTLIDGKEFDNSYTRGEPLSFRLDGVIPGWTEGLKNIKKGGKIKLVIPPELAYGKAGVPGIPPNSTLVFDVELLDVKPAP 1q6w-a8-m1-cG_1q6w-a8-m1-cL X-Ray structure of Monoamine oxidase regulatory protein from Archaeoglobus fulgius O28346 O28346 2.81 X-RAY DIFFRACTION 19 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 147 147 1q6w-a7-m1-cA_1q6w-a7-m1-cF 1q6w-a7-m1-cB_1q6w-a7-m1-cD 1q6w-a7-m1-cE_1q6w-a7-m1-cC 1q6w-a8-m1-cH_1q6w-a8-m1-cJ 1q6w-a8-m1-cI_1q6w-a8-m1-cK NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP 1q6w-a8-m1-cI_1q6w-a8-m1-cJ X-Ray structure of Monoamine oxidase regulatory protein from Archaeoglobus fulgius O28346 O28346 2.81 X-RAY DIFFRACTION 103 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 147 147 1q6w-a1-m1-cA_1q6w-a1-m1-cB 1q6w-a2-m1-cD_1q6w-a2-m1-cC 1q6w-a3-m1-cE_1q6w-a3-m1-cF 1q6w-a4-m1-cG_1q6w-a4-m1-cH 1q6w-a5-m1-cI_1q6w-a5-m1-cJ 1q6w-a6-m1-cK_1q6w-a6-m1-cL 1q6w-a7-m1-cA_1q6w-a7-m1-cB 1q6w-a7-m1-cD_1q6w-a7-m1-cC 1q6w-a7-m1-cE_1q6w-a7-m1-cF 1q6w-a8-m1-cG_1q6w-a8-m1-cH 1q6w-a8-m1-cK_1q6w-a8-m1-cL NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP 1q6w-a8-m1-cI_1q6w-a8-m1-cL X-Ray structure of Monoamine oxidase regulatory protein from Archaeoglobus fulgius O28346 O28346 2.81 X-RAY DIFFRACTION 33 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 147 147 1q6w-a7-m1-cA_1q6w-a7-m1-cD 1q6w-a7-m1-cA_1q6w-a7-m1-cE 1q6w-a7-m1-cB_1q6w-a7-m1-cC 1q6w-a7-m1-cB_1q6w-a7-m1-cF 1q6w-a7-m1-cD_1q6w-a7-m1-cE 1q6w-a7-m1-cF_1q6w-a7-m1-cC 1q6w-a8-m1-cG_1q6w-a8-m1-cJ 1q6w-a8-m1-cG_1q6w-a8-m1-cK 1q6w-a8-m1-cH_1q6w-a8-m1-cI 1q6w-a8-m1-cH_1q6w-a8-m1-cL 1q6w-a8-m1-cJ_1q6w-a8-m1-cK NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP 1q6w-a8-m1-cJ_1q6w-a8-m1-cL X-Ray structure of Monoamine oxidase regulatory protein from Archaeoglobus fulgius O28346 O28346 2.81 X-RAY DIFFRACTION 12 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 147 147 1q6w-a7-m1-cA_1q6w-a7-m1-cC 1q6w-a7-m1-cB_1q6w-a7-m1-cE 1q6w-a7-m1-cD_1q6w-a7-m1-cF 1q6w-a8-m1-cG_1q6w-a8-m1-cI 1q6w-a8-m1-cH_1q6w-a8-m1-cK NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP NPIYFESIQIGEKIEGLPRTVTETDIWTFAYLTADFFPLHTDVEFAKKTIFGKPIAQGLVLSIALGVDQVILSNYDVSSVIAFFGIKDVRFLRPVFIGDTIAASAEVVEKQDFDEKSGVVTYKLEVKNQRGELVLTALYSALIRKTP 1q77-a2-m1-cA_1q77-a2-m2-cB X-ray crystal structure of putative Universal Stress Protein from Aquifex aeolicus O66565 O66565 2.7 X-RAY DIFFRACTION 44 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 137 137 1q77-a2-m1-cB_1q77-a2-m2-cA SNAKVLLVLTDAYSDCEKAITYAVNFSEKLGAELDILAVLEDVYNLERANVTFGLPFPPEIKEESKKRIERRLREVWEKLTGSTEIPGVEYRIGPLSEEVKKFVEGKGYELVVWACYPSAYLCKVIDGLNLASLIVK SNAKVLLVLTDAYSDCEKAITYAVNFSEKLGAELDILAVLEDVYNLERANVTFGLPFPPEIKEESKKRIERRLREVWEKLTGSTEIPGVEYRIGPLSEEVKKFVEGKGYELVVWACYPSAYLCKVIDGLNLASLIVK 1q77-a2-m2-cA_1q77-a2-m2-cB X-ray crystal structure of putative Universal Stress Protein from Aquifex aeolicus O66565 O66565 2.7 X-RAY DIFFRACTION 50 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 137 137 1q77-a1-m1-cA_1q77-a1-m1-cB 1q77-a2-m1-cA_1q77-a2-m1-cB SNAKVLLVLTDAYSDCEKAITYAVNFSEKLGAELDILAVLEDVYNLERANVTFGLPFPPEIKEESKKRIERRLREVWEKLTGSTEIPGVEYRIGPLSEEVKKFVEGKGYELVVWACYPSAYLCKVIDGLNLASLIVK SNAKVLLVLTDAYSDCEKAITYAVNFSEKLGAELDILAVLEDVYNLERANVTFGLPFPPEIKEESKKRIERRLREVWEKLTGSTEIPGVEYRIGPLSEEVKKFVEGKGYELVVWACYPSAYLCKVIDGLNLASLIVK 1q7d-a1-m1-cA_1q7d-a1-m1-cB Structure of the integrin alpha2beta1 binding collagen peptide P02452 P02452 1.8 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 GPGPGFGERGPGPGP GPGPGFGERGPGPGP 1q7d-a1-m1-cA_1q7d-a1-m1-cC Structure of the integrin alpha2beta1 binding collagen peptide P02452 P02452 1.8 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 GPGPGFGERGPGPGP GPGPGFGERGPGPGP 1q7d-a1-m1-cB_1q7d-a1-m1-cC Structure of the integrin alpha2beta1 binding collagen peptide P02452 P02452 1.8 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 GPGPGFGERGPGPGP GPGPGFGERGPGPGP 1q7e-a1-m1-cA_1q7e-a1-m2-cA Crystal Structure of YfdW protein from E. coli P69902 P69902 1.6 X-RAY DIFFRACTION 482 1.0 562 (Escherichia coli) 562 (Escherichia coli) 401 401 1pqy-a1-m1-cA_1pqy-a1-m2-cA 1pt5-a1-m1-cA_1pt5-a1-m1-cB 1pt7-a1-m1-cA_1pt7-a1-m1-cB 1pt8-a1-m1-cB_1pt8-a1-m1-cA 1q6y-a1-m1-cA_1q6y-a1-m2-cA LSTPLQGIKVLDFTGVQSGPSCTQLAWFGADVIKIERPGVGDVTRHQLRDIPDIDALYFTLNSNKRSIELNTKTAEGKEVEKLIREADILVENFHPFTWEHIQEINPRLIFGSIKGFDECSPYVNVKAYENVAQAAGGAASTTGFWDGPPLVSAAALGDSNTGHLLIGLLAALLHREKTGRGQRVTSQDAVLNLCRVKLRDQQRLDKLGYLEEYPQYPNGTFGDAVPRGGNAGGGGQPGWILKCKGWETDPNAYIYFTIQEQNWENTCKAIGKPEWITDPAYSTAHARQPHIFDIFAEIEKYTVTIDKHEAVAYLTQFDIPCAPVLSKEISLDPSLRQSGSVVEVEQPLRGKYLTVGCPKFSAFTPDIKAAPLLGEHTAAVLQELGYSDDEIAAKQNHAIE LSTPLQGIKVLDFTGVQSGPSCTQLAWFGADVIKIERPGVGDVTRHQLRDIPDIDALYFTLNSNKRSIELNTKTAEGKEVEKLIREADILVENFHPFTWEHIQEINPRLIFGSIKGFDECSPYVNVKAYENVAQAAGGAASTTGFWDGPPLVSAAALGDSNTGHLLIGLLAALLHREKTGRGQRVTSQDAVLNLCRVKLRDQQRLDKLGYLEEYPQYPNGTFGDAVPRGGNAGGGGQPGWILKCKGWETDPNAYIYFTIQEQNWENTCKAIGKPEWITDPAYSTAHARQPHIFDIFAEIEKYTVTIDKHEAVAYLTQFDIPCAPVLSKEISLDPSLRQSGSVVEVEQPLRGKYLTVGCPKFSAFTPDIKAAPLLGEHTAAVLQELGYSDDEIAAKQNHAIE 1q7h-a2-m1-cA_1q7h-a2-m2-cA Structure of a Conserved PUA Domain Protein from Thermoplasma acidophilum Q9HIB8 Q9HIB8 2.1 X-RAY DIFFRACTION 28 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 144 144 SKHFISKKEAKRIWEQSRYGIDITGESLEVAAQKSASAYYIGGKPVFQAGDLIPSVYLLNYRNPSRNIVTVDEGAEPHILNGSDLFAPGIVSDDSIRKGDIFVKSSKGYFIAVGAEDAGEVATKRGKAARIIHFPGDELIRAFP SKHFISKKEAKRIWEQSRYGIDITGESLEVAAQKSASAYYIGGKPVFQAGDLIPSVYLLNYRNPSRNIVTVDEGAEPHILNGSDLFAPGIVSDDSIRKGDIFVKSSKGYFIAVGAEDAGEVATKRGKAARIIHFPGDELIRAFP 1q7l-a3-m1-cC_1q7l-a3-m1-cA Zn-binding domain of the T347G mutant of human aminoacylase-I Q03154 Q03154 1.4 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 192 EEHPSVTLFRQYLRIRTVQPKPDYGAAVAFFEETARQLGLGCQKVEVAPGYVVTVLTWPGTNPTLSSILLNSHTDVVPVFKEHWSHDPFEAFKDSEGYIYARGAQDMKCVSIQYLEAVRRLKVEGHRFPRTIHMTFVPDEEVGGHQGMELFVQRPEFHALRAGFALDEGIANPTDAFTVFYSERSPWWVR EEEHPSVTLFRQYLRIRTVQPKPDYGAAVAFFEETARQLGLGCQKVEVAPGYVVTVLTWPGTNPTLSSILLNSHTDVVPVFKEHWSHDPFEAFKDSEGYIYARGAQDMKCVSIQYLEAVRRLKVEGHRFPRTIHMTFVPDEEVGGHQGMELFVQRPEFHALRAGFALDEGIANPTDAFTVFYSERSPWWVRV 1q7l-a3-m1-cD_1q7l-a3-m1-cB Zn-binding domain of the T347G mutant of human aminoacylase-I Q03154 Q03154 1.4 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 88 NPWWAAFSRVCKDMNLTLEPEIMPAAGDNRYIRAVGVPALGFSPMNRTPVLLHDHDERLHEAVFLRGVDIYTRLLPALASVPALP NPWWAAFSRVCKDMNLTLEPEIMPAAGDNRYIRAVGVPALGFSPMNRTPVLLHDHDERLHEAVFLRGVDIYTRLLPALASVPALPSDS 1q7s-a3-m1-cB_1q7s-a3-m1-cA Crystal structure of bit1 Q9Y3E5 Q9Y3E5 2 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 117 EYKMILVVRNDLKMGKGKVAAQCSHAAVSAYKQIQRRNPEMLKQWEYCGQPKVVVKAPDEETLIALLAHAKMLGLTVSLIQDATQIAPGSQTVLGIGPGPADLIDKVTGHLKLY GEYKMILVVRNDLKMGKGKVAAQCSHAAVSAYKQIQRRNPEMLKQWEYCGQPKVVVKAPDEETLIALLAHAKMLGLTVSLIQDAGRTQIAPGSQTVLGIGPGPADLIDKVTGHLKLY 1q89-a2-m2-cA_1q89-a2-m3-cA Crystal structure of the C-domain of the T.vaginalis Inr binding protein, IBP39 (cubic crystal form) Q95VR4 Q95VR4 2.75 X-RAY DIFFRACTION 57 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 192 192 1q89-a2-m1-cA_1q89-a2-m2-cA 1q89-a2-m1-cA_1q89-a2-m3-cA MCIGNSTPNEQETFRAKVDEIWFRLTQKTDGTVMRDFLIEKAAEYFKQPEQPKQNAIEVISAIMAPQEEQTKSKADLYKFLAMFGPYETIMLKIASLLLISNNKGHWLTFDPQAEKNANNQRDSISGWFDQNEPNCLILKTPTGIRKIWNKPLIEATGQYLMDENGEKYDSWDKYFEMKPIETYLTAYPTFA MCIGNSTPNEQETFRAKVDEIWFRLTQKTDGTVMRDFLIEKAAEYFKQPEQPKQNAIEVISAIMAPQEEQTKSKADLYKFLAMFGPYETIMLKIASLLLISNNKGHWLTFDPQAEKNANNQRDSISGWFDQNEPNCLILKTPTGIRKIWNKPLIEATGQYLMDENGEKYDSWDKYFEMKPIETYLTAYPTFA 1q8b-a1-m1-cA_1q8b-a1-m2-cA Structural Genomics, protein YJCS O31641 O31641 1.9 X-RAY DIFFRACTION 19 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 89 89 SHYITACLKIISDKDLNEIKEFKKLEEETNKEEGCITFHAYPLEPSERKILWEIWENEEAVKIHFTKKHTIDVQKQELTEVEWLKSNVN SHYITACLKIISDKDLNEIKEFKKLEEETNKEEGCITFHAYPLEPSERKILWEIWENEEAVKIHFTKKHTIDVQKQELTEVEWLKSNVN 1q8b-a2-m1-cA_1q8b-a2-m3-cA Structural Genomics, protein YJCS O31641 O31641 1.9 X-RAY DIFFRACTION 24 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 89 89 SHYITACLKIISDKDLNEIKEFKKLEEETNKEEGCITFHAYPLEPSERKILWEIWENEEAVKIHFTKKHTIDVQKQELTEVEWLKSNVN SHYITACLKIISDKDLNEIKEFKKLEEETNKEEGCITFHAYPLEPSERKILWEIWENEEAVKIHFTKKHTIDVQKQELTEVEWLKSNVN 1q8m-a2-m1-cC_1q8m-a2-m1-cD Crystal structure of the human myeloid cell activating receptor TREM-1 Q9NP99 Q9NP99 2.6 X-RAY DIFFRACTION 143 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 1q8m-a1-m1-cA_1q8m-a1-m1-cB MELRAATKLTEEKYELKEGQTLDVKCDYTLEKFASSQKAWQIIRDGEMPKTLACTERPSKNSHPVQVGRIILEDYHDHGLLRVRMVNLQVEDSGLYQCVIYQPPKEPHMLFDRIRLVVTLE MELRAATKLTEEKYELKEGQTLDVKCDYTLEKFASSQKAWQIIRDGEMPKTLACTERPSKNSHPVQVGRIILEDYHDHGLLRVRMVNLQVEDSGLYQCVIYQPPKEPHMLFDRIRLVVTLE 1q90-a2-m3-cB_1q90-a2-m4-cB Structure of the cytochrome b6f (plastohydroquinone : plastocyanin oxidoreductase) from Chlamydomonas reinhardtii Q00471 Q00471 3.1 X-RAY DIFFRACTION 71 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 212 212 1q90-a1-m1-cB_1q90-a1-m2-cB 1q90-a2-m1-cB_1q90-a2-m2-cB VYDWFEERLEIQAIADDITSKYVPPHVNIFYCIGGITFTCFLVQVATGFAMTFYYRPTVAEAFASVQYIMTDVNFGWLIRSIHRWSASMMVLMMVLHVFRVYLTGGFKRPRELTWVTGVIMAVCTVSFGVTGYSLPWDQVGYWAVKIVTGVPDAIPGVGGFIVELLRGGVGVGQATLTRFYSLHTFVLPLLTAVFMLMHFLMIRKQGISGPL VYDWFEERLEIQAIADDITSKYVPPHVNIFYCIGGITFTCFLVQVATGFAMTFYYRPTVAEAFASVQYIMTDVNFGWLIRSIHRWSASMMVLMMVLHVFRVYLTGGFKRPRELTWVTGVIMAVCTVSFGVTGYSLPWDQVGYWAVKIVTGVPDAIPGVGGFIVELLRGGVGVGQATLTRFYSLHTFVLPLLTAVFMLMHFLMIRKQGISGPL 1q98-a1-m1-cA_1q98-a1-m1-cB Structure of a Thiol Peroxidase from Haemophilus influenzae Rd Q57549 Q57549 1.9 X-RAY DIFFRACTION 50 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 164 164 TVTLAGNPIEVGGHFPQVGEIVENFILVGNDLADVALNDFASKRKVLNIFPSIDTGVCATSVRKFNQQAAKLSNTIVLCISADLPFAQARFCGAEGIENAKTVSTFRNHALHSQLGVDIQTGPLAGLTSRAVIVLDEQNNVLHSQLVEEIKEEPNYEAALAVLA TVTLAGNPIEVGGHFPQVGEIVENFILVGNDLADVALNDFASKRKVLNIFPSIDTGVCATSVRKFNQQAAKLSNTIVLCISADLPFAQARFCGAEGIENAKTVSTFRNHALHSQLGVDIQTGPLAGLTSRAVIVLDEQNNVLHSQLVEEIKEEPNYEAALAVLA 1q9j-a3-m1-cB_1q9j-a3-m2-cB Structure of polyketide synthase associated protein 5 from Mycobacterium tuberculosis P9WIN5 P9WIN5 2.75 X-RAY DIFFRACTION 77 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 399 399 PGSVIRKLSHSEEVFAQYEVFTSMTIQLRGVIDVDALSDAFDALLETHPVLASHLEQSSDGGWNLVADDLLHSGICVIDAELRLDQSVSLLHLQLILREGGAELTLYLHHCMADGHHGAVLVDELFSRYTDAVTTGDPGPITPQPTPLSMEAVLAQRGIRKAERFMSVMYAYEIPATETPAVLAHPGLPQAVPVTRLWLSKQQTSDLMAFGREHRLSLNAVVAAAILLTEWQLRNTPHVPIPYVYPVDLRFVLAPPVAPTEATNLLGAASYLAEIGPNTDIVDLASDIVATLRADLANGVIQQSGLHFGTAFEGTPPGLPPLVFCTDATSFPTMRTPPGLEIEDIKGQFYCSISVPLDLYSCAVYAGQLIIEHHGHIAEPGKSLEAIRSLLCTVPSEYG PGSVIRKLSHSEEVFAQYEVFTSMTIQLRGVIDVDALSDAFDALLETHPVLASHLEQSSDGGWNLVADDLLHSGICVIDAELRLDQSVSLLHLQLILREGGAELTLYLHHCMADGHHGAVLVDELFSRYTDAVTTGDPGPITPQPTPLSMEAVLAQRGIRKAERFMSVMYAYEIPATETPAVLAHPGLPQAVPVTRLWLSKQQTSDLMAFGREHRLSLNAVVAAAILLTEWQLRNTPHVPIPYVYPVDLRFVLAPPVAPTEATNLLGAASYLAEIGPNTDIVDLASDIVATLRADLANGVIQQSGLHFGTAFEGTPPGLPPLVFCTDATSFPTMRTPPGLEIEDIKGQFYCSISVPLDLYSCAVYAGQLIIEHHGHIAEPGKSLEAIRSLLCTVPSEYG 1q9u-a1-m1-cA_1q9u-a1-m1-cB Crystal structure of uncharacterized conserved protein DUF302 from Bacillus stearothermophilus Q5KY88 Q5KY88 1.8 X-RAY DIFFRACTION 104 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 126 126 AMFHYTVDVSTGMNETIERLEESLKQEGFGVLWQFSVTEKLQEKGLDFSTPMVILEVNPQEAARVLNENLLVGYFLPKLVVYQENGTTKIGMPKPTMLVGMMNDPALKEIAADIEKRLAACLDRCR AMFHYTVDVSTGMNETIERLEESLKQEGFGVLWQFSVTEKLQEKGLDFSTPMVILEVNPQEAARVLNENLLVGYFLPKLVVYQENGTTKIGMPKPTMLVGMMNDPALKEIAADIEKRLAACLDRCR 1q9w-a3-m2-cD_1q9w-a3-m1-cB S45-18 Fab pentasaccharide bisphosphate complex I6L985 I6L985 1.75 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 226 226 EVILVESGGGLVQPGGSLRLSCSTSGFTFTDYYMSWVRQPPGKALEWLGFIRNKPKGYTTEYSASVKGRFTISRDNSQSILYLQMNTLRAEDSATYYCVRDIYSFGSRDGMDYWGQGTSVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRDC EVILVESGGGLVQPGGSLRLSCSTSGFTFTDYYMSWVRQPPGKALEWLGFIRNKPKGYTTEYSASVKGRFTISRDNSQSILYLQMNTLRAEDSATYYCVRDIYSFGSRDGMDYWGQGTSVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRDC 1qa7-a5-m1-cC_1qa7-a5-m1-cB CRYSTAL COMPLEX OF THE 3C PROTEINASE FROM HEPATITIS A VIRUS WITH ITS INHIBITOR AND IMPLICATIONS FOR THE POLYPROTEIN PROCESSING IN HAV P08617 P08617 1.9 X-RAY DIFFRACTION 31 1.0 12092 (Hepatovirus A) 12092 (Hepatovirus A) 213 217 1hav-a1-m1-cB_1hav-a1-m1-cA STLEIAGLVRKNLVQFGVGEKNGSVRWVMNALGVKDDWLLVPSHAYKFEKDYEMMEFYFNRGGTYYSISAGNVVIQSLDVGAQDVVLMKVPTIPKFRDITQHFIKKGDVPRALNRLATLVTTVNGTPMLISEGPLKMEEKATYVHKKNDGTTVDLTVDQAWRGKGEGLPGMCGGALVSSNQSIQNAILGIHVAGGNSILVAKLVTQEMFQNID STLEIAGLVRKNLVQFGVGEKNGSVRWVMNALGVKDDWLLVPSHAYKFEKDYEMMEFYFNRGGTYYSISAGNVVIQSLDVGAQDVVLMKVPTIPKFRDITQHFIKKGDVPRALNRLATLVTTVNGTPMLISEGPLKMEEKATYVHKKNDGTTVDLTVDQAWRGKGEGLPGMCGGALVSSNQSIQNAILGIHVAGGNSILVAKLVTQEMFQNIDKKIE 1qa7-a7-m1-cC_1qa7-a7-m1-cD CRYSTAL COMPLEX OF THE 3C PROTEINASE FROM HEPATITIS A VIRUS WITH ITS INHIBITOR AND IMPLICATIONS FOR THE POLYPROTEIN PROCESSING IN HAV P08617 P08617 1.9 X-RAY DIFFRACTION 64 1.0 12092 (Hepatovirus A) 12092 (Hepatovirus A) 213 217 1hav-a2-m1-cB_1hav-a2-m2-cA 1qa7-a5-m1-cA_1qa7-a5-m1-cB 1qa7-a5-m1-cC_1qa7-a5-m1-cD 1qa7-a6-m1-cA_1qa7-a6-m1-cB STLEIAGLVRKNLVQFGVGEKNGSVRWVMNALGVKDDWLLVPSHAYKFEKDYEMMEFYFNRGGTYYSISAGNVVIQSLDVGAQDVVLMKVPTIPKFRDITQHFIKKGDVPRALNRLATLVTTVNGTPMLISEGPLKMEEKATYVHKKNDGTTVDLTVDQAWRGKGEGLPGMCGGALVSSNQSIQNAILGIHVAGGNSILVAKLVTQEMFQNID STLEIAGLVRKNLVQFGVGEKNGSVRWVMNALGVKDDWLLVPSHAYKFEKDYEMMEFYFNRGGTYYSISAGNVVIQSLDVGAQDVVLMKVPTIPKFRDITQHFIKKGDVPRALNRLATLVTTVNGTPMLISEGPLKMEEKATYVHKKNDGTTVDLTVDQAWRGKGEGLPGMCGGALVSSNQSIQNAILGIHVAGGNSILVAKLVTQEMFQNIDKKIE 1qag-a3-m1-cA_1qag-a3-m1-cB Actin binding region of the dystrophin homologue utrophin P46939 P46939 3 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 DVQKKTFTKWINARFSKSGKPPINDFTDLKDGRKLLDLLEGLTGTSLPKERGSTRVHALNNVNRVLQVLHQNNVELVNIGGTDIVDGNHKLTLGLLWSIILHWQVKDVKDVSDLQQTNSEKILLSWVRQTTRPYSQVNVLNFTTSWTDGLAFNAVLHRHKPDLFSWDKVVKSPIERLEHAFSKAQTYLGIEKLLDPEDVAVRLPDKKSIIYLTSLFEVLPQ DVQKKTFTKWINARFSKSGKPPINDFTDLKDGRKLLDLLEGLTGTSLPKERGSTRVHALNNVNRVLQVLHQNNVELVNIGGTDIVDGNHKLTLGLLWSIILHWQVKDVKDVSDLQQTNSEKILLSWVRQTTRPYSQVNVLNFTTSWTDGLAFNAVLHRHKPDLFSWDKVVKSPIERLEHAFSKAQTYLGIEKLLDPEDVAVRLPDKKSIIYLTSLFEVLPQ 1qah-a1-m1-cA_1qah-a1-m1-cB CRYSTAL STRUCTURE OF PERCHLORIC ACID SOLUBLE PROTEIN-A TRANSLATIONAL INHIBITOR P52759 P52759 1.8 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 132 132 SSIIRKVISTSKAPAAIGAYSQAVLVDRTIYVSGQIGMDPSSGQLVPGGVAEEAKQALKNLGEILKAAGCDFTNVVKTTVLLADINDFGTVNEIYKTYFQGNLPARAAYQVAALPKGSRIEIEAIAVQGPFT SSIIRKVISTSKAPAAIGAYSQAVLVDRTIYVSGQIGMDPSSGQLVPGGVAEEAKQALKNLGEILKAAGCDFTNVVKTTVLLADINDFGTVNEIYKTYFQGNLPARAAYQVAALPKGSRIEIEAIAVQGPFT 1qah-a3-m4-cA_1qah-a3-m5-cA CRYSTAL STRUCTURE OF PERCHLORIC ACID SOLUBLE PROTEIN-A TRANSLATIONAL INHIBITOR P52759 P52759 1.8 X-RAY DIFFRACTION 89 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 132 132 1qah-a2-m1-cB_1qah-a2-m2-cB 1qah-a2-m1-cB_1qah-a2-m3-cB 1qah-a2-m2-cB_1qah-a2-m3-cB 1qah-a3-m1-cA_1qah-a3-m4-cA 1qah-a3-m1-cA_1qah-a3-m5-cA SSIIRKVISTSKAPAAIGAYSQAVLVDRTIYVSGQIGMDPSSGQLVPGGVAEEAKQALKNLGEILKAAGCDFTNVVKTTVLLADINDFGTVNEIYKTYFQGNLPARAAYQVAALPKGSRIEIEAIAVQGPFT SSIIRKVISTSKAPAAIGAYSQAVLVDRTIYVSGQIGMDPSSGQLVPGGVAEEAKQALKNLGEILKAAGCDFTNVVKTTVLLADINDFGTVNEIYKTYFQGNLPARAAYQVAALPKGSRIEIEAIAVQGPFT 1qaj-a1-m1-cB_1qaj-a1-m1-cA CRYSTAL STRUCTURES OF THE N-TERMINAL FRAGMENT FROM MOLONEY MURINE LEUKEMIA VIRUS REVERSE TRANSCRIPTASE COMPLEXED WITH NUCLEIC ACID: FUNCTIONAL IMPLICATIONS FOR TEMPLATE-PRIMER BINDING TO THE FINGERS DOMAIN P03355 P03355 2.3 X-RAY DIFFRACTION 47 1.0 11801 (Moloney murine leukemia virus) 11801 (Moloney murine leukemia virus) 257 259 1d0e-a1-m1-cB_1d0e-a1-m1-cA HMTWLSDFPQAWAETGGMGLAVRQAPLIIPLKATSTPVSIKQYPMSQEARLGIKPHIQRLLDQGILVPCQSPWNTPLLPVKKPGTNDYRPVQDLREVNKRVEDIHPTVPNPYNLLSGLPPSHQWYTVLDLKDAFFCLRLHPTSQPLFAFEWRDPEMGISGQLTWTRLPQGFKNSPTLFDEALHRDLADFRIQHPDLILLQYVDDLLLAATSELDCQQGTRALLQTLGNLGYRASAKKAQICQKQVKYLGYLLKEGQR GSHMTWLSDFPQAWAETGGMGLAVRQAPLIIPLKATSTPVSIKQYPMSQEARLGIKPHIQRLLDQGILVPCQSPWNTPLLPVKKPGTNDYRPVQDLREVNKRVEDIHPTVPNPYNLLSGLPPSHQWYTVLDLKDAFFCLRLHPTSQPLFAFEWRDPEMGISGQLTWTRLPQGFKNSPTLFDEALHRDLADFRIQHPDLILLQYVDDLLLAATSELDCQQGTRALLQTLGNLGYRASAKKAQICQKQVKYLGYLLKEGQR 1qap-a1-m1-cA_1qap-a1-m1-cB QUINOLINIC ACID PHOSPHORIBOSYLTRANSFERASE WITH BOUND QUINOLINIC ACID P30012 P30012 2.8 X-RAY DIFFRACTION 174 1.0 289 289 DDRRDALLERINLDIPAAVAQALREDLGGEVDAGNDITAQLLPADTQAHATVITREDGVFCGKRWVEEVFIQLAGDDVRLTWHVDDGDAIHANQTVFELQGPARVLLTGERTALNFVQTLSGVASEVRRYVGLLAGTQTQLLDTRKTLPGLRTALKYAVLCGGGANHRLGLTDAFLIKENHIIASGSVRQAVEKAFWLHPDVPVEVEVENLDELDDALKAGADIIMLDNFNTDQMREAVKRVNGQARLEVSGNVTAETLREFAETGVDFISVGALTKHVRALDLSMRFC DDRRDALLERINLDIPAAVAQALREDLGGEVDAGNDITAQLLPADTQAHATVITREDGVFCGKRWVEEVFIQLAGDDVRLTWHVDDGDAIHANQTVFELQGPARVLLTGERTALNFVQTLSGVASEVRRYVGLLAGTQTQLLDTRKTLPGLRTALKYAVLCGGGANHRLGLTDAFLIKENHIIASGSVRQAVEKAFWLHPDVPVEVEVENLDELDDALKAGADIIMLDNFNTDQMREAVKRVNGQARLEVSGNVTAETLREFAETGVDFISVGALTKHVRALDLSMRFC 1qb2-a1-m1-cA_1qb2-a1-m1-cB CRYSTAL STRUCTURE OF THE CONSERVED SUBDOMAIN OF HUMAN PROTEIN SRP54M AT 2.1A RESOLUTION: EVIDENCE FOR THE MECHANISM OF SIGNAL PEPTIDE BINDING P61011 P61011 2.1 X-RAY DIFFRACTION 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 109 QFTLRDMYEQFQNIMKMGPFSQILGMIPGFGTDFMSKGNEQESMARLKKLMTIMDSMNDQELDSTDGAKVFSKQPGRIQRVARGSGVSTRDVQELLTQYTKFAQMV QFTLRDMYEQFQNIMKMGPFSQILGMIPGFGTDFMSKGNEQESMARLKKLMTIMDSMNDQELDSTDGAKVFSKQPGRIQRVARGSGVSTRDVQELLTQYTKFAQMVKKM 1qb3-a5-m1-cB_1qb3-a5-m3-cB CRYSTAL STRUCTURE OF THE CELL CYCLE REGULATORY PROTEIN CKS1 P20486 P20486 3 X-RAY DIFFRACTION 155 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 119 119 1qb3-a3-m1-cB_1qb3-a3-m3-cB 1qb3-a3-m4-cB_1qb3-a3-m5-cB 1qb3-a4-m1-cC_1qb3-a4-m1-cA HAFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAPEPHILLFKRPLNYEAELRAATAAAQQQQQQQ HAFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAPEPHILLFKRPLNYEAELRAATAAAQQQQQQQ 1qb5-a1-m1-cG_1qb5-a1-m1-cH ESCHERICHIA COLI HEAT LABILE ENTEROTOXIN TYPE IIB B-PENTAMER P43529 P43529 1.9 X-RAY DIFFRACTION 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 99 99 1qb5-a1-m1-cD_1qb5-a1-m1-cE 1qb5-a1-m1-cD_1qb5-a1-m1-cH 1qb5-a1-m1-cE_1qb5-a1-m1-cF 1qb5-a1-m1-cF_1qb5-a1-m1-cG 1qcb-a1-m1-cD_1qcb-a1-m1-cE 1qcb-a1-m1-cD_1qcb-a1-m1-cH 1qcb-a1-m1-cE_1qcb-a1-m1-cF 1qcb-a1-m1-cF_1qcb-a1-m1-cG 1qcb-a1-m1-cG_1qcb-a1-m1-cH 1tii-a1-m1-cD_1tii-a1-m1-cE 1tii-a1-m1-cD_1tii-a1-m1-cH 1tii-a1-m1-cE_1tii-a1-m1-cF 1tii-a1-m1-cF_1tii-a1-m1-cG 1tii-a1-m1-cG_1tii-a1-m1-cH 4fnf-a1-m1-cD_4fnf-a1-m1-cE 4fnf-a1-m1-cD_4fnf-a1-m1-cH 4fnf-a1-m1-cE_4fnf-a1-m1-cF 4fnf-a1-m1-cF_4fnf-a1-m1-cG 4fnf-a1-m1-cG_4fnf-a1-m1-cH 4fnf-a2-m1-cA_4fnf-a2-m1-cB 4fnf-a2-m1-cA_4fnf-a2-m1-cJ 4fnf-a2-m1-cB_4fnf-a2-m1-cC 4fnf-a2-m1-cC_4fnf-a2-m1-cI 4fnf-a2-m1-cI_4fnf-a2-m1-cJ 4fo2-a1-m1-cD_4fo2-a1-m1-cE 4fo2-a1-m1-cD_4fo2-a1-m1-cH 4fo2-a1-m1-cE_4fo2-a1-m1-cF 4fo2-a1-m1-cF_4fo2-a1-m1-cG 4fo2-a1-m1-cG_4fo2-a1-m1-cH 4fo2-a2-m1-cA_4fo2-a2-m1-cB 4fo2-a2-m1-cA_4fo2-a2-m1-cJ 4fo2-a2-m1-cB_4fo2-a2-m1-cC 4fo2-a2-m1-cC_4fo2-a2-m1-cI 4fo2-a2-m1-cI_4fo2-a2-m1-cJ 4fo2-a3-m1-cK_4fo2-a3-m1-cL 4fo2-a3-m1-cK_4fo2-a3-m1-cO 4fo2-a3-m1-cL_4fo2-a3-m1-cM 4fo2-a3-m1-cM_4fo2-a3-m1-cN 4fo2-a3-m1-cN_4fo2-a3-m1-cO 4fo2-a4-m1-cP_4fo2-a4-m1-cQ 4fo2-a4-m1-cP_4fo2-a4-m1-cT 4fo2-a4-m1-cQ_4fo2-a4-m1-cR 4fo2-a4-m1-cR_4fo2-a4-m1-cS 4fo2-a4-m1-cS_4fo2-a4-m1-cT 4fp5-a1-m1-cD_4fp5-a1-m1-cE 4fp5-a1-m1-cD_4fp5-a1-m1-cH 4fp5-a1-m1-cE_4fp5-a1-m1-cF 4fp5-a1-m1-cF_4fp5-a1-m1-cG 4fp5-a1-m1-cG_4fp5-a1-m1-cH 5g3l-a1-m1-cE_5g3l-a1-m1-cD 5g3l-a1-m1-cE_5g3l-a1-m1-cF 5g3l-a1-m1-cF_5g3l-a1-m1-cG 5g3l-a1-m1-cH_5g3l-a1-m1-cD 5g3l-a1-m1-cH_5g3l-a1-m1-cG GASQFFKDNCNRTTASLVEGVELTKYISDINNNTDGMYVVSSTGGVWRISRAKDYPDNVMTAEMRKIAMAAVLSGMRVNMCASPASSPNVIWAIELEAE GASQFFKDNCNRTTASLVEGVELTKYISDINNNTDGMYVVSSTGGVWRISRAKDYPDNVMTAEMRKIAMAAVLSGMRVNMCASPASSPNVIWAIELEAE 1qbe-a1-m10-cA_1qbe-a1-m9-cB BACTERIOPHAGE Q BETA CAPSID P03615 P03615 3.5 X-RAY DIFFRACTION 259 1.0 39803 (Qubevirus durum) 39803 (Qubevirus durum) 123 132 1qbe-a1-m10-cC_1qbe-a1-m24-cC 1qbe-a1-m11-cA_1qbe-a1-m15-cB 1qbe-a1-m11-cC_1qbe-a1-m16-cC 1qbe-a1-m12-cA_1qbe-a1-m11-cB 1qbe-a1-m12-cC_1qbe-a1-m38-cC 1qbe-a1-m13-cA_1qbe-a1-m12-cB 1qbe-a1-m13-cC_1qbe-a1-m47-cC 1qbe-a1-m14-cA_1qbe-a1-m13-cB 1qbe-a1-m14-cC_1qbe-a1-m45-cC 1qbe-a1-m15-cA_1qbe-a1-m14-cB 1qbe-a1-m15-cC_1qbe-a1-m29-cC 1qbe-a1-m16-cA_1qbe-a1-m20-cB 1qbe-a1-m17-cA_1qbe-a1-m16-cB 1qbe-a1-m17-cC_1qbe-a1-m28-cC 1qbe-a1-m18-cA_1qbe-a1-m17-cB 1qbe-a1-m18-cC_1qbe-a1-m52-cC 1qbe-a1-m19-cA_1qbe-a1-m18-cB 1qbe-a1-m19-cC_1qbe-a1-m60-cC 1qbe-a1-m1-cA_1qbe-a1-m5-cB 1qbe-a1-m1-cC_1qbe-a1-m6-cC 1qbe-a1-m20-cA_1qbe-a1-m19-cB 1qbe-a1-m20-cC_1qbe-a1-m39-cC 1qbe-a1-m21-cA_1qbe-a1-m25-cB 1qbe-a1-m21-cC_1qbe-a1-m26-cC 1qbe-a1-m22-cA_1qbe-a1-m21-cB 1qbe-a1-m22-cC_1qbe-a1-m43-cC 1qbe-a1-m23-cA_1qbe-a1-m22-cB 1qbe-a1-m24-cA_1qbe-a1-m23-cB 1qbe-a1-m25-cA_1qbe-a1-m24-cB 1qbe-a1-m25-cC_1qbe-a1-m54-cC 1qbe-a1-m26-cA_1qbe-a1-m30-cB 1qbe-a1-m27-cA_1qbe-a1-m26-cB 1qbe-a1-m27-cC_1qbe-a1-m53-cC 1qbe-a1-m28-cA_1qbe-a1-m27-cB 1qbe-a1-m29-cA_1qbe-a1-m28-cB 1qbe-a1-m2-cA_1qbe-a1-m1-cB 1qbe-a1-m2-cC_1qbe-a1-m23-cC 1qbe-a1-m30-cA_1qbe-a1-m29-cB 1qbe-a1-m30-cC_1qbe-a1-m44-cC 1qbe-a1-m31-cA_1qbe-a1-m35-cB 1qbe-a1-m31-cC_1qbe-a1-m36-cC 1qbe-a1-m32-cA_1qbe-a1-m31-cB 1qbe-a1-m32-cC_1qbe-a1-m58-cC 1qbe-a1-m33-cA_1qbe-a1-m32-cB 1qbe-a1-m33-cC_1qbe-a1-m7-cC 1qbe-a1-m34-cA_1qbe-a1-m33-cB 1qbe-a1-m34-cC_1qbe-a1-m5-cC 1qbe-a1-m35-cA_1qbe-a1-m34-cB 1qbe-a1-m35-cC_1qbe-a1-m49-cC 1qbe-a1-m36-cA_1qbe-a1-m40-cB 1qbe-a1-m37-cA_1qbe-a1-m36-cB 1qbe-a1-m37-cC_1qbe-a1-m48-cC 1qbe-a1-m38-cA_1qbe-a1-m37-cB 1qbe-a1-m39-cA_1qbe-a1-m38-cB 1qbe-a1-m3-cA_1qbe-a1-m2-cB 1qbe-a1-m3-cC_1qbe-a1-m42-cC 1qbe-a1-m40-cA_1qbe-a1-m39-cB 1qbe-a1-m40-cC_1qbe-a1-m59-cC 1qbe-a1-m41-cA_1qbe-a1-m45-cB 1qbe-a1-m41-cC_1qbe-a1-m46-cC 1qbe-a1-m42-cA_1qbe-a1-m41-cB 1qbe-a1-m43-cA_1qbe-a1-m42-cB 1qbe-a1-m44-cA_1qbe-a1-m43-cB 1qbe-a1-m45-cA_1qbe-a1-m44-cB 1qbe-a1-m46-cA_1qbe-a1-m50-cB 1qbe-a1-m47-cA_1qbe-a1-m46-cB 1qbe-a1-m48-cA_1qbe-a1-m47-cB 1qbe-a1-m49-cA_1qbe-a1-m48-cB 1qbe-a1-m4-cA_1qbe-a1-m3-cB 1qbe-a1-m4-cC_1qbe-a1-m50-cC 1qbe-a1-m50-cA_1qbe-a1-m49-cB 1qbe-a1-m51-cA_1qbe-a1-m55-cB 1qbe-a1-m51-cC_1qbe-a1-m56-cC 1qbe-a1-m52-cA_1qbe-a1-m51-cB 1qbe-a1-m53-cA_1qbe-a1-m52-cB 1qbe-a1-m54-cA_1qbe-a1-m53-cB 1qbe-a1-m55-cA_1qbe-a1-m54-cB 1qbe-a1-m55-cC_1qbe-a1-m9-cC 1qbe-a1-m56-cA_1qbe-a1-m60-cB 1qbe-a1-m57-cA_1qbe-a1-m56-cB 1qbe-a1-m57-cC_1qbe-a1-m8-cC 1qbe-a1-m58-cA_1qbe-a1-m57-cB 1qbe-a1-m59-cA_1qbe-a1-m58-cB 1qbe-a1-m5-cA_1qbe-a1-m4-cB 1qbe-a1-m60-cA_1qbe-a1-m59-cB 1qbe-a1-m6-cA_1qbe-a1-m10-cB 1qbe-a1-m7-cA_1qbe-a1-m6-cB 1qbe-a1-m8-cA_1qbe-a1-m7-cB 1qbe-a1-m9-cA_1qbe-a1-m8-cB 4l8h-a1-m1-cA_4l8h-a1-m1-cB 5kip-a1-m10-cA_5kip-a1-m9-cB 5kip-a1-m10-cC_5kip-a1-m24-cC 5kip-a1-m11-cA_5kip-a1-m15-cB 5kip-a1-m11-cC_5kip-a1-m16-cC 5kip-a1-m12-cA_5kip-a1-m11-cB 5kip-a1-m12-cC_5kip-a1-m38-cC 5kip-a1-m13-cA_5kip-a1-m12-cB 5kip-a1-m13-cC_5kip-a1-m47-cC 5kip-a1-m14-cA_5kip-a1-m13-cB 5kip-a1-m14-cC_5kip-a1-m45-cC 5kip-a1-m15-cA_5kip-a1-m14-cB 5kip-a1-m15-cC_5kip-a1-m29-cC 5kip-a1-m16-cA_5kip-a1-m20-cB 5kip-a1-m17-cA_5kip-a1-m16-cB 5kip-a1-m17-cC_5kip-a1-m28-cC 5kip-a1-m18-cA_5kip-a1-m17-cB 5kip-a1-m18-cC_5kip-a1-m52-cC 5kip-a1-m19-cA_5kip-a1-m18-cB 5kip-a1-m19-cC_5kip-a1-m60-cC 5kip-a1-m1-cA_5kip-a1-m5-cB 5kip-a1-m1-cC_5kip-a1-m6-cC 5kip-a1-m20-cA_5kip-a1-m19-cB 5kip-a1-m20-cC_5kip-a1-m39-cC 5kip-a1-m21-cA_5kip-a1-m25-cB 5kip-a1-m21-cC_5kip-a1-m26-cC 5kip-a1-m22-cA_5kip-a1-m21-cB 5kip-a1-m22-cC_5kip-a1-m43-cC 5kip-a1-m23-cA_5kip-a1-m22-cB 5kip-a1-m24-cA_5kip-a1-m23-cB 5kip-a1-m25-cA_5kip-a1-m24-cB 5kip-a1-m25-cC_5kip-a1-m54-cC 5kip-a1-m26-cA_5kip-a1-m30-cB 5kip-a1-m27-cA_5kip-a1-m26-cB 5kip-a1-m27-cC_5kip-a1-m53-cC 5kip-a1-m28-cA_5kip-a1-m27-cB 5kip-a1-m29-cA_5kip-a1-m28-cB 5kip-a1-m2-cA_5kip-a1-m1-cB 5kip-a1-m2-cC_5kip-a1-m23-cC 5kip-a1-m30-cA_5kip-a1-m29-cB 5kip-a1-m30-cC_5kip-a1-m44-cC 5kip-a1-m31-cA_5kip-a1-m35-cB 5kip-a1-m31-cC_5kip-a1-m36-cC 5kip-a1-m32-cA_5kip-a1-m31-cB 5kip-a1-m32-cC_5kip-a1-m58-cC 5kip-a1-m33-cA_5kip-a1-m32-cB 5kip-a1-m33-cC_5kip-a1-m7-cC 5kip-a1-m34-cA_5kip-a1-m33-cB 5kip-a1-m34-cC_5kip-a1-m5-cC 5kip-a1-m35-cA_5kip-a1-m34-cB 5kip-a1-m35-cC_5kip-a1-m49-cC 5kip-a1-m36-cA_5kip-a1-m40-cB 5kip-a1-m37-cA_5kip-a1-m36-cB 5kip-a1-m37-cC_5kip-a1-m48-cC 5kip-a1-m38-cA_5kip-a1-m37-cB 5kip-a1-m39-cA_5kip-a1-m38-cB 5kip-a1-m3-cA_5kip-a1-m2-cB 5kip-a1-m3-cC_5kip-a1-m42-cC 5kip-a1-m40-cA_5kip-a1-m39-cB 5kip-a1-m40-cC_5kip-a1-m59-cC 5kip-a1-m41-cA_5kip-a1-m45-cB 5kip-a1-m41-cC_5kip-a1-m46-cC 5kip-a1-m42-cA_5kip-a1-m41-cB 5kip-a1-m43-cA_5kip-a1-m42-cB 5kip-a1-m44-cA_5kip-a1-m43-cB 5kip-a1-m45-cA_5kip-a1-m44-cB 5kip-a1-m46-cA_5kip-a1-m50-cB 5kip-a1-m47-cA_5kip-a1-m46-cB 5kip-a1-m48-cA_5kip-a1-m47-cB 5kip-a1-m49-cA_5kip-a1-m48-cB 5kip-a1-m4-cA_5kip-a1-m3-cB 5kip-a1-m4-cC_5kip-a1-m50-cC 5kip-a1-m50-cA_5kip-a1-m49-cB 5kip-a1-m51-cA_5kip-a1-m55-cB 5kip-a1-m51-cC_5kip-a1-m56-cC 5kip-a1-m52-cA_5kip-a1-m51-cB 5kip-a1-m53-cA_5kip-a1-m52-cB 5kip-a1-m54-cA_5kip-a1-m53-cB 5kip-a1-m55-cA_5kip-a1-m54-cB 5kip-a1-m55-cC_5kip-a1-m9-cC 5kip-a1-m56-cA_5kip-a1-m60-cB 5kip-a1-m57-cA_5kip-a1-m56-cB 5kip-a1-m57-cC_5kip-a1-m8-cC 5kip-a1-m58-cA_5kip-a1-m57-cB 5kip-a1-m59-cA_5kip-a1-m58-cB 5kip-a1-m5-cA_5kip-a1-m4-cB 5kip-a1-m60-cA_5kip-a1-m59-cB 5kip-a1-m6-cA_5kip-a1-m10-cB 5kip-a1-m7-cA_5kip-a1-m6-cB 5kip-a1-m8-cA_5kip-a1-m7-cB 5kip-a1-m9-cA_5kip-a1-m8-cB 5vly-a1-m10-cA_5vly-a1-m9-cB 5vly-a1-m10-cC_5vly-a1-m24-cC 5vly-a1-m11-cA_5vly-a1-m15-cB 5vly-a1-m11-cC_5vly-a1-m16-cC 5vly-a1-m12-cA_5vly-a1-m11-cB 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7tjm-a1-m3-c2_7tjm-a1-m3-cV 7tjm-a1-m3-c3_7tjm-a1-m3-cW 7tjm-a1-m3-c4_7tjm-a1-m3-cX 7tjm-a1-m3-c5_7tjm-a1-m3-cY 7tjm-a1-m3-c6_7tjm-a1-m3-cZ 7tjm-a1-m3-c7_7tjm-a1-m3-cu 7tjm-a1-m3-c9_7tjm-a1-m3-cv 7tjm-a1-m3-cA_7tjm-a1-m3-ca 7tjm-a1-m3-cB_7tjm-a1-m3-cb 7tjm-a1-m3-cC_7tjm-a1-m3-cc 7tjm-a1-m3-cD_7tjm-a1-m3-cd 7tjm-a1-m3-cE_7tjm-a1-m3-ce 7tjm-a1-m3-cF_7tjm-a1-m3-cf 7tjm-a1-m3-cG_7tjm-a1-m3-cg 7tjm-a1-m3-cH_7tjm-a1-m3-ch 7tjm-a1-m3-cI_7tjm-a1-m3-ci 7tjm-a1-m3-cJ_7tjm-a1-m3-cj 7tjm-a1-m3-cK_7tjm-a1-m3-ck 7tjm-a1-m3-cL_7tjm-a1-m3-cl 7tjm-a1-m3-cM_7tjm-a1-m3-cm 7tjm-a1-m3-cN_7tjm-a1-m3-cn 7tjm-a1-m3-cO_7tjm-a1-m3-co 7tjm-a1-m3-cP_7tjm-a1-m3-cp 7tjm-a1-m3-cQ_7tjm-a1-m3-cq 7tjm-a1-m3-cR_7tjm-a1-m3-cr 7tjm-a1-m3-cS_7tjm-a1-m3-cs 7tjm-a1-m3-cT_7tjm-a1-m3-ct 7tjm-a1-m3-cw_7tjm-a1-m3-cx AKLETVTLGNIGKDGKQTLVLNPRGVNPTNGVASLSQAGAVPALEKRVTVSVSQPNYKVQVKIQNPTACTCDPSVTRQAYADVTFSFTQYSTDEERAFVRTELAALLASPLLIDAIDQLNPAY AKLETVTLGNIGKDGKQTLVLNPRGVNPTNGVASLSQAGAVPALEKRVTVSVSQPSRNRKNYKVQVKIQNPTACTANGSCDPSVTRQAYADVTFSFTQYSTDEERAFVRTELAALLASPLLIDAIDQLNPAY 1qbe-a1-m55-cA_1qbe-a1-m9-cC BACTERIOPHAGE Q BETA CAPSID P03615 P03615 3.5 X-RAY DIFFRACTION 22 1.0 39803 (Qubevirus durum) 39803 (Qubevirus durum) 123 123 1qbe-a1-m10-cA_1qbe-a1-m24-cC 1qbe-a1-m10-cC_1qbe-a1-m24-cA 1qbe-a1-m11-cA_1qbe-a1-m16-cC 1qbe-a1-m11-cC_1qbe-a1-m16-cA 1qbe-a1-m12-cA_1qbe-a1-m38-cC 1qbe-a1-m12-cC_1qbe-a1-m38-cA 1qbe-a1-m13-cA_1qbe-a1-m47-cC 1qbe-a1-m13-cC_1qbe-a1-m47-cA 1qbe-a1-m14-cA_1qbe-a1-m45-cC 1qbe-a1-m14-cC_1qbe-a1-m45-cA 1qbe-a1-m15-cA_1qbe-a1-m29-cC 1qbe-a1-m15-cC_1qbe-a1-m29-cA 1qbe-a1-m17-cA_1qbe-a1-m28-cC 1qbe-a1-m17-cC_1qbe-a1-m28-cA 1qbe-a1-m18-cA_1qbe-a1-m52-cC 1qbe-a1-m18-cC_1qbe-a1-m52-cA 1qbe-a1-m19-cA_1qbe-a1-m60-cC 1qbe-a1-m19-cC_1qbe-a1-m60-cA 1qbe-a1-m1-cA_1qbe-a1-m6-cC 1qbe-a1-m1-cC_1qbe-a1-m6-cA 1qbe-a1-m20-cA_1qbe-a1-m39-cC 1qbe-a1-m20-cC_1qbe-a1-m39-cA 1qbe-a1-m21-cA_1qbe-a1-m26-cC 1qbe-a1-m21-cC_1qbe-a1-m26-cA 1qbe-a1-m22-cA_1qbe-a1-m43-cC 1qbe-a1-m22-cC_1qbe-a1-m43-cA 1qbe-a1-m25-cA_1qbe-a1-m54-cC 1qbe-a1-m25-cC_1qbe-a1-m54-cA 1qbe-a1-m27-cA_1qbe-a1-m53-cC 1qbe-a1-m27-cC_1qbe-a1-m53-cA 1qbe-a1-m2-cA_1qbe-a1-m23-cC 1qbe-a1-m2-cC_1qbe-a1-m23-cA 1qbe-a1-m30-cA_1qbe-a1-m44-cC 1qbe-a1-m30-cC_1qbe-a1-m44-cA 1qbe-a1-m31-cA_1qbe-a1-m36-cC 1qbe-a1-m31-cC_1qbe-a1-m36-cA 1qbe-a1-m32-cA_1qbe-a1-m58-cC 1qbe-a1-m32-cC_1qbe-a1-m58-cA 1qbe-a1-m33-cA_1qbe-a1-m7-cC 1qbe-a1-m33-cC_1qbe-a1-m7-cA 1qbe-a1-m34-cA_1qbe-a1-m5-cC 1qbe-a1-m34-cC_1qbe-a1-m5-cA 1qbe-a1-m35-cA_1qbe-a1-m49-cC 1qbe-a1-m35-cC_1qbe-a1-m49-cA 1qbe-a1-m37-cA_1qbe-a1-m48-cC 1qbe-a1-m37-cC_1qbe-a1-m48-cA 1qbe-a1-m3-cA_1qbe-a1-m42-cC 1qbe-a1-m3-cC_1qbe-a1-m42-cA 1qbe-a1-m40-cA_1qbe-a1-m59-cC 1qbe-a1-m40-cC_1qbe-a1-m59-cA 1qbe-a1-m41-cA_1qbe-a1-m46-cC 1qbe-a1-m41-cC_1qbe-a1-m46-cA 1qbe-a1-m4-cA_1qbe-a1-m50-cC 1qbe-a1-m4-cC_1qbe-a1-m50-cA 1qbe-a1-m51-cA_1qbe-a1-m56-cC 1qbe-a1-m51-cC_1qbe-a1-m56-cA 1qbe-a1-m55-cC_1qbe-a1-m9-cA 1qbe-a1-m57-cA_1qbe-a1-m8-cC 1qbe-a1-m57-cC_1qbe-a1-m8-cA 5kip-a1-m10-cA_5kip-a1-m24-cC 5kip-a1-m10-cC_5kip-a1-m24-cA 5kip-a1-m11-cA_5kip-a1-m16-cC 5kip-a1-m11-cC_5kip-a1-m16-cA 5kip-a1-m12-cA_5kip-a1-m38-cC 5kip-a1-m12-cC_5kip-a1-m38-cA 5kip-a1-m13-cA_5kip-a1-m47-cC 5kip-a1-m13-cC_5kip-a1-m47-cA 5kip-a1-m14-cA_5kip-a1-m45-cC 5kip-a1-m14-cC_5kip-a1-m45-cA 5kip-a1-m15-cA_5kip-a1-m29-cC 5kip-a1-m15-cC_5kip-a1-m29-cA 5kip-a1-m17-cA_5kip-a1-m28-cC 5kip-a1-m17-cC_5kip-a1-m28-cA 5kip-a1-m18-cA_5kip-a1-m52-cC 5kip-a1-m18-cC_5kip-a1-m52-cA 5kip-a1-m19-cA_5kip-a1-m60-cC 5kip-a1-m19-cC_5kip-a1-m60-cA 5kip-a1-m1-cA_5kip-a1-m6-cC 5kip-a1-m1-cC_5kip-a1-m6-cA 5kip-a1-m20-cA_5kip-a1-m39-cC 5kip-a1-m20-cC_5kip-a1-m39-cA 5kip-a1-m21-cA_5kip-a1-m26-cC 5kip-a1-m21-cC_5kip-a1-m26-cA 5kip-a1-m22-cA_5kip-a1-m43-cC 5kip-a1-m22-cC_5kip-a1-m43-cA 5kip-a1-m25-cA_5kip-a1-m54-cC 5kip-a1-m25-cC_5kip-a1-m54-cA 5kip-a1-m27-cA_5kip-a1-m53-cC 5kip-a1-m27-cC_5kip-a1-m53-cA 5kip-a1-m2-cA_5kip-a1-m23-cC 5kip-a1-m2-cC_5kip-a1-m23-cA 5kip-a1-m30-cA_5kip-a1-m44-cC 5kip-a1-m30-cC_5kip-a1-m44-cA 5kip-a1-m31-cA_5kip-a1-m36-cC 5kip-a1-m31-cC_5kip-a1-m36-cA 5kip-a1-m32-cA_5kip-a1-m58-cC 5kip-a1-m32-cC_5kip-a1-m58-cA 5kip-a1-m33-cA_5kip-a1-m7-cC 5kip-a1-m33-cC_5kip-a1-m7-cA 5kip-a1-m34-cA_5kip-a1-m5-cC 5kip-a1-m34-cC_5kip-a1-m5-cA 5kip-a1-m35-cA_5kip-a1-m49-cC 5kip-a1-m35-cC_5kip-a1-m49-cA 5kip-a1-m37-cA_5kip-a1-m48-cC 5kip-a1-m37-cC_5kip-a1-m48-cA 5kip-a1-m3-cA_5kip-a1-m42-cC 5kip-a1-m3-cC_5kip-a1-m42-cA 5kip-a1-m40-cA_5kip-a1-m59-cC 5kip-a1-m40-cC_5kip-a1-m59-cA 5kip-a1-m41-cA_5kip-a1-m46-cC 5kip-a1-m41-cC_5kip-a1-m46-cA 5kip-a1-m4-cA_5kip-a1-m50-cC 5kip-a1-m4-cC_5kip-a1-m50-cA 5kip-a1-m51-cA_5kip-a1-m56-cC 5kip-a1-m51-cC_5kip-a1-m56-cA 5kip-a1-m55-cA_5kip-a1-m9-cC 5kip-a1-m55-cC_5kip-a1-m9-cA 5kip-a1-m57-cA_5kip-a1-m8-cC 5kip-a1-m57-cC_5kip-a1-m8-cA 5vly-a1-m10-cC_5vly-a1-m24-cA 5vly-a1-m11-cC_5vly-a1-m16-cA 5vly-a1-m12-cC_5vly-a1-m38-cA 5vly-a1-m13-cC_5vly-a1-m47-cA 5vly-a1-m14-cC_5vly-a1-m45-cA 5vly-a1-m15-cC_5vly-a1-m29-cA 5vly-a1-m16-cC_5vly-a1-m11-cA 5vly-a1-m17-cC_5vly-a1-m28-cA 5vly-a1-m18-cC_5vly-a1-m52-cA 5vly-a1-m19-cC_5vly-a1-m60-cA 5vly-a1-m1-cC_5vly-a1-m6-cA 5vly-a1-m20-cC_5vly-a1-m39-cA 5vly-a1-m21-cC_5vly-a1-m26-cA 5vly-a1-m22-cC_5vly-a1-m43-cA 5vly-a1-m23-cC_5vly-a1-m2-cA 5vly-a1-m24-cC_5vly-a1-m10-cA 5vly-a1-m25-cC_5vly-a1-m54-cA 5vly-a1-m26-cC_5vly-a1-m21-cA 5vly-a1-m27-cC_5vly-a1-m53-cA 5vly-a1-m28-cC_5vly-a1-m17-cA 5vly-a1-m29-cC_5vly-a1-m15-cA 5vly-a1-m2-cC_5vly-a1-m23-cA 5vly-a1-m30-cC_5vly-a1-m44-cA 5vly-a1-m31-cC_5vly-a1-m36-cA 5vly-a1-m32-cC_5vly-a1-m58-cA 5vly-a1-m33-cC_5vly-a1-m7-cA 5vly-a1-m34-cC_5vly-a1-m5-cA 5vly-a1-m35-cC_5vly-a1-m49-cA 5vly-a1-m36-cC_5vly-a1-m31-cA 5vly-a1-m37-cC_5vly-a1-m48-cA 5vly-a1-m38-cC_5vly-a1-m12-cA 5vly-a1-m39-cC_5vly-a1-m20-cA 5vly-a1-m3-cC_5vly-a1-m42-cA 5vly-a1-m40-cC_5vly-a1-m59-cA 5vly-a1-m41-cC_5vly-a1-m46-cA 5vly-a1-m42-cC_5vly-a1-m3-cA 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1qbe-a1-m23-cA_1qbe-a1-m23-cC 1qbe-a1-m24-cA_1qbe-a1-m24-cC 1qbe-a1-m25-cA_1qbe-a1-m25-cC 1qbe-a1-m26-cA_1qbe-a1-m26-cC 1qbe-a1-m27-cA_1qbe-a1-m27-cC 1qbe-a1-m28-cA_1qbe-a1-m28-cC 1qbe-a1-m29-cA_1qbe-a1-m29-cC 1qbe-a1-m2-cA_1qbe-a1-m2-cC 1qbe-a1-m30-cA_1qbe-a1-m30-cC 1qbe-a1-m31-cA_1qbe-a1-m31-cC 1qbe-a1-m32-cA_1qbe-a1-m32-cC 1qbe-a1-m33-cA_1qbe-a1-m33-cC 1qbe-a1-m34-cA_1qbe-a1-m34-cC 1qbe-a1-m35-cA_1qbe-a1-m35-cC 1qbe-a1-m36-cA_1qbe-a1-m36-cC 1qbe-a1-m37-cA_1qbe-a1-m37-cC 1qbe-a1-m38-cA_1qbe-a1-m38-cC 1qbe-a1-m39-cA_1qbe-a1-m39-cC 1qbe-a1-m3-cA_1qbe-a1-m3-cC 1qbe-a1-m40-cA_1qbe-a1-m40-cC 1qbe-a1-m41-cA_1qbe-a1-m41-cC 1qbe-a1-m42-cA_1qbe-a1-m42-cC 1qbe-a1-m43-cA_1qbe-a1-m43-cC 1qbe-a1-m44-cA_1qbe-a1-m44-cC 1qbe-a1-m45-cA_1qbe-a1-m45-cC 1qbe-a1-m46-cA_1qbe-a1-m46-cC 1qbe-a1-m47-cA_1qbe-a1-m47-cC 1qbe-a1-m48-cA_1qbe-a1-m48-cC 1qbe-a1-m49-cA_1qbe-a1-m49-cC 1qbe-a1-m4-cA_1qbe-a1-m4-cC 1qbe-a1-m50-cA_1qbe-a1-m50-cC 1qbe-a1-m51-cA_1qbe-a1-m51-cC 1qbe-a1-m52-cA_1qbe-a1-m52-cC 1qbe-a1-m53-cA_1qbe-a1-m53-cC 1qbe-a1-m54-cA_1qbe-a1-m54-cC 1qbe-a1-m55-cA_1qbe-a1-m55-cC 1qbe-a1-m56-cA_1qbe-a1-m56-cC 1qbe-a1-m57-cA_1qbe-a1-m57-cC 1qbe-a1-m58-cA_1qbe-a1-m58-cC 1qbe-a1-m59-cA_1qbe-a1-m59-cC 1qbe-a1-m5-cA_1qbe-a1-m5-cC 1qbe-a1-m60-cA_1qbe-a1-m60-cC 1qbe-a1-m6-cA_1qbe-a1-m6-cC 1qbe-a1-m7-cA_1qbe-a1-m7-cC 1qbe-a1-m8-cA_1qbe-a1-m8-cC 5kip-a1-m10-cA_5kip-a1-m10-cC 5kip-a1-m11-cA_5kip-a1-m11-cC 5kip-a1-m12-cA_5kip-a1-m12-cC 5kip-a1-m13-cA_5kip-a1-m13-cC 5kip-a1-m14-cA_5kip-a1-m14-cC 5kip-a1-m15-cA_5kip-a1-m15-cC 5kip-a1-m16-cA_5kip-a1-m16-cC 5kip-a1-m17-cA_5kip-a1-m17-cC 5kip-a1-m18-cA_5kip-a1-m18-cC 5kip-a1-m19-cA_5kip-a1-m19-cC 5kip-a1-m1-cA_5kip-a1-m1-cC 5kip-a1-m20-cA_5kip-a1-m20-cC 5kip-a1-m21-cA_5kip-a1-m21-cC 5kip-a1-m22-cA_5kip-a1-m22-cC 5kip-a1-m23-cA_5kip-a1-m23-cC 5kip-a1-m24-cA_5kip-a1-m24-cC 5kip-a1-m25-cA_5kip-a1-m25-cC 5kip-a1-m26-cA_5kip-a1-m26-cC 5kip-a1-m27-cA_5kip-a1-m27-cC 5kip-a1-m28-cA_5kip-a1-m28-cC 5kip-a1-m29-cA_5kip-a1-m29-cC 5kip-a1-m2-cA_5kip-a1-m2-cC 5kip-a1-m30-cA_5kip-a1-m30-cC 5kip-a1-m31-cA_5kip-a1-m31-cC 5kip-a1-m32-cA_5kip-a1-m32-cC 5kip-a1-m33-cA_5kip-a1-m33-cC 5kip-a1-m34-cA_5kip-a1-m34-cC 5kip-a1-m35-cA_5kip-a1-m35-cC 5kip-a1-m36-cA_5kip-a1-m36-cC 5kip-a1-m37-cA_5kip-a1-m37-cC 5kip-a1-m38-cA_5kip-a1-m38-cC 5kip-a1-m39-cA_5kip-a1-m39-cC 5kip-a1-m3-cA_5kip-a1-m3-cC 5kip-a1-m40-cA_5kip-a1-m40-cC 5kip-a1-m41-cA_5kip-a1-m41-cC 5kip-a1-m42-cA_5kip-a1-m42-cC 5kip-a1-m43-cA_5kip-a1-m43-cC 5kip-a1-m44-cA_5kip-a1-m44-cC 5kip-a1-m45-cA_5kip-a1-m45-cC 5kip-a1-m46-cA_5kip-a1-m46-cC 5kip-a1-m47-cA_5kip-a1-m47-cC 5kip-a1-m48-cA_5kip-a1-m48-cC 5kip-a1-m49-cA_5kip-a1-m49-cC 5kip-a1-m4-cA_5kip-a1-m4-cC 5kip-a1-m50-cA_5kip-a1-m50-cC 5kip-a1-m51-cA_5kip-a1-m51-cC 5kip-a1-m52-cA_5kip-a1-m52-cC 5kip-a1-m53-cA_5kip-a1-m53-cC 5kip-a1-m54-cA_5kip-a1-m54-cC 5kip-a1-m55-cA_5kip-a1-m55-cC 5kip-a1-m56-cA_5kip-a1-m56-cC 5kip-a1-m57-cA_5kip-a1-m57-cC 5kip-a1-m58-cA_5kip-a1-m58-cC 5kip-a1-m59-cA_5kip-a1-m59-cC 5kip-a1-m5-cA_5kip-a1-m5-cC 5kip-a1-m60-cA_5kip-a1-m60-cC 5kip-a1-m6-cA_5kip-a1-m6-cC 5kip-a1-m7-cA_5kip-a1-m7-cC 5kip-a1-m8-cA_5kip-a1-m8-cC 5kip-a1-m9-cA_5kip-a1-m9-cC 5vly-a1-m10-cC_5vly-a1-m10-cA 5vly-a1-m11-cC_5vly-a1-m11-cA 5vly-a1-m12-cC_5vly-a1-m12-cA 5vly-a1-m13-cC_5vly-a1-m13-cA 5vly-a1-m14-cC_5vly-a1-m14-cA 5vly-a1-m15-cC_5vly-a1-m15-cA 5vly-a1-m16-cC_5vly-a1-m16-cA 5vly-a1-m17-cC_5vly-a1-m17-cA 5vly-a1-m18-cC_5vly-a1-m18-cA 5vly-a1-m19-cC_5vly-a1-m19-cA 5vly-a1-m1-cC_5vly-a1-m1-cA 5vly-a1-m20-cC_5vly-a1-m20-cA 5vly-a1-m21-cC_5vly-a1-m21-cA 5vly-a1-m22-cC_5vly-a1-m22-cA 5vly-a1-m23-cC_5vly-a1-m23-cA 5vly-a1-m24-cC_5vly-a1-m24-cA 5vly-a1-m25-cC_5vly-a1-m25-cA 5vly-a1-m26-cC_5vly-a1-m26-cA 5vly-a1-m27-cC_5vly-a1-m27-cA 5vly-a1-m28-cC_5vly-a1-m28-cA 5vly-a1-m29-cC_5vly-a1-m29-cA 5vly-a1-m2-cC_5vly-a1-m2-cA 5vly-a1-m30-cC_5vly-a1-m30-cA 5vly-a1-m31-cC_5vly-a1-m31-cA 5vly-a1-m32-cC_5vly-a1-m32-cA 5vly-a1-m33-cC_5vly-a1-m33-cA 5vly-a1-m34-cC_5vly-a1-m34-cA 5vly-a1-m35-cC_5vly-a1-m35-cA 5vly-a1-m36-cC_5vly-a1-m36-cA 5vly-a1-m37-cC_5vly-a1-m37-cA 5vly-a1-m38-cC_5vly-a1-m38-cA 5vly-a1-m39-cC_5vly-a1-m39-cA 5vly-a1-m3-cC_5vly-a1-m3-cA 5vly-a1-m40-cC_5vly-a1-m40-cA 5vly-a1-m41-cC_5vly-a1-m41-cA 5vly-a1-m42-cC_5vly-a1-m42-cA 5vly-a1-m43-cC_5vly-a1-m43-cA 5vly-a1-m44-cC_5vly-a1-m44-cA 5vly-a1-m45-cC_5vly-a1-m45-cA 5vly-a1-m46-cC_5vly-a1-m46-cA 5vly-a1-m47-cC_5vly-a1-m47-cA 5vly-a1-m48-cC_5vly-a1-m48-cA 5vly-a1-m49-cC_5vly-a1-m49-cA 5vly-a1-m4-cC_5vly-a1-m4-cA 5vly-a1-m50-cC_5vly-a1-m50-cA 5vly-a1-m51-cC_5vly-a1-m51-cA 5vly-a1-m52-cC_5vly-a1-m52-cA 5vly-a1-m53-cC_5vly-a1-m53-cA 5vly-a1-m54-cC_5vly-a1-m54-cA 5vly-a1-m55-cC_5vly-a1-m55-cA 5vly-a1-m56-cC_5vly-a1-m56-cA 5vly-a1-m57-cC_5vly-a1-m57-cA 5vly-a1-m58-cC_5vly-a1-m58-cA 5vly-a1-m59-cC_5vly-a1-m59-cA 5vly-a1-m5-cC_5vly-a1-m5-cA 5vly-a1-m60-cC_5vly-a1-m60-cA 5vly-a1-m6-cC_5vly-a1-m6-cA 5vly-a1-m7-cC_5vly-a1-m7-cA 5vly-a1-m8-cC_5vly-a1-m8-cA 5vly-a1-m9-cC_5vly-a1-m9-cA 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7lgh-a1-m3-cI_7lgh-a1-m3-cR 7lgh-a1-m3-cL_7lgh-a1-m3-cP 7lgh-a1-m4-cD_7lgh-a1-m4-cO 7lgh-a1-m4-cF_7lgh-a1-m4-cK 7lgh-a1-m4-cG_7lgh-a1-m4-cQ 7lgh-a1-m4-cI_7lgh-a1-m4-cR 7lgh-a1-m4-cL_7lgh-a1-m4-cP 7lgh-a1-m5-cD_7lgh-a1-m5-cO 7lgh-a1-m5-cF_7lgh-a1-m5-cK 7lgh-a1-m5-cG_7lgh-a1-m5-cQ 7lgh-a1-m5-cI_7lgh-a1-m5-cR 7lgh-a1-m5-cL_7lgh-a1-m5-cP 7lgh-a1-m6-cD_7lgh-a1-m6-cO 7lgh-a1-m6-cF_7lgh-a1-m6-cK 7lgh-a1-m6-cG_7lgh-a1-m6-cQ 7lgh-a1-m6-cI_7lgh-a1-m6-cR 7lgh-a1-m6-cL_7lgh-a1-m6-cP 7lhd-a1-m1-cBB_7lhd-a1-m1-cBC 7lhd-a1-m1-cBE_7lhd-a1-m1-cBF 7lhd-a1-m1-cBH_7lhd-a1-m1-cBI 7lhd-a1-m1-cBK_7lhd-a1-m1-cBL 7lhd-a1-m1-cBN_7lhd-a1-m1-cCA 7lhd-a1-m1-cCC_7lhd-a1-m1-cCD 7lhd-a1-m1-cCF_7lhd-a1-m1-cCG 7lhd-a1-m1-cCI_7lhd-a1-m1-cCJ 7lhd-a1-m1-cCL_7lhd-a1-m1-cCM 7lhd-a1-m1-cDA_7lhd-a1-m1-cDB 7lhd-a1-m1-cDD_7lhd-a1-m1-cDE 7lhd-a1-m1-cDG_7lhd-a1-m1-cDH 7lhd-a1-m1-cDJ_7lhd-a1-m1-cDK 7lhd-a1-m1-cDM_7lhd-a1-m1-cDN 7lhd-a1-m1-cEB_7lhd-a1-m1-cEC 7lhd-a1-m1-cEE_7lhd-a1-m1-cEF 7lhd-a1-m1-cEH_7lhd-a1-m1-cEI 7lhd-a1-m1-cEK_7lhd-a1-m1-cEL 7lhd-a1-m1-cEN_7lhd-a1-m1-cFA 7lhd-a1-m1-cFD_7lhd-a1-m1-cFC 7lhd-a1-m1-cFF_7lhd-a1-m1-cFG 7lhd-a1-m1-cFK_7lhd-a1-m1-cFL 7lhd-a1-m1-cFN_7lhd-a1-m1-cGA 7lhd-a1-m1-cGE_7lhd-a1-m1-cGF 7lhd-a1-m1-cGH_7lhd-a1-m1-cGI 7lhd-a1-m1-cGK_7lhd-a1-m1-cGL 7lhd-a1-m1-cGN_7lhd-a1-m1-cHA 7lhd-a1-m1-cHC_7lhd-a1-m1-cHD 7lhd-a1-m1-cHF_7lhd-a1-m1-cHG 7lhd-a1-m1-cHI_7lhd-a1-m1-cHJ 7lhd-a1-m1-cHL_7lhd-a1-m1-cHM 7lhd-a1-m1-cIA_7lhd-a1-m1-cIB 7lhd-a1-m1-cID_7lhd-a1-m1-cIE 7lhd-a1-m1-cIG_7lhd-a1-m1-cIH 7lhd-a1-m1-cIJ_7lhd-a1-m1-cIK 7lhd-a1-m1-cIM_7lhd-a1-m1-cIN 7lhd-a1-m1-cJB_7lhd-a1-m1-cJC 7lhd-a1-m1-cJE_7lhd-a1-m1-cJF 7lhd-a1-m1-cJH_7lhd-a1-m1-cJI 7lhd-a1-m1-cJK_7lhd-a1-m1-cJL 7lhd-a1-m1-cJN_7lhd-a1-m1-cKA 7lhd-a1-m1-cKC_7lhd-a1-m1-cKD 7lhd-a1-m1-cKF_7lhd-a1-m1-cKG 7lhd-a1-m1-cKI_7lhd-a1-m1-cKJ 7lhd-a1-m1-cKL_7lhd-a1-m1-cKM 7lhd-a1-m1-cLA_7lhd-a1-m1-cLB 7lhd-a1-m1-cLD_7lhd-a1-m1-cLE 7lhd-a1-m1-cLG_7lhd-a1-m1-cLH 7lhd-a1-m1-cLJ_7lhd-a1-m1-cLK 7lhd-a1-m1-cLM_7lhd-a1-m1-cLN 7lhd-a1-m1-cMB_7lhd-a1-m1-cMC 7lhd-a1-m1-cME_7lhd-a1-m1-cMF 7lhd-a1-m1-cMH_7lhd-a1-m1-cMI 7lhd-a1-m1-cMK_7lhd-a1-m1-cML 7lhd-a1-m1-cMN_7lhd-a1-m1-cNA 7lhd-a1-m1-cNC_7lhd-a1-m1-cND 7lhd-a1-m1-cNF_7lhd-a1-m1-cNG 7lhd-a1-m1-cNI_7lhd-a1-m1-cNJ 7tjm-a1-m1-c0_7tjm-a1-m1-cP 7tjm-a1-m1-c1_7tjm-a1-m1-cF 7tjm-a1-m1-c2_7tjm-a1-m1-cA 7tjm-a1-m1-c3_7tjm-a1-m1-cR 7tjm-a1-m1-c4_7tjm-a1-m3-cL 7tjm-a1-m1-c5_7tjm-a1-m1-cN 7tjm-a1-m1-c6_7tjm-a1-m1-cD 7tjm-a1-m1-c7_7tjm-a1-m1-cC 7tjm-a1-m1-c8_7tjm-a1-m1-cQ 7tjm-a1-m1-c9_7tjm-a1-m3-cB 7tjm-a1-m1-cB_7tjm-a1-m2-c9 7tjm-a1-m1-cE_7tjm-a1-m1-cU 7tjm-a1-m1-cG_7tjm-a1-m1-cW 7tjm-a1-m1-cH_7tjm-a1-m3-cw 7tjm-a1-m1-cI_7tjm-a1-m3-cu 7tjm-a1-m1-cJ_7tjm-a1-m1-cY 7tjm-a1-m1-cK_7tjm-a1-m1-cX 7tjm-a1-m1-cL_7tjm-a1-m2-c4 7tjm-a1-m1-cM_7tjm-a1-m1-cV 7tjm-a1-m1-cO_7tjm-a1-m1-cv 7tjm-a1-m1-cS_7tjm-a1-m1-cZ 7tjm-a1-m1-cT_7tjm-a1-m1-cx 7tjm-a1-m1-cu_7tjm-a1-m2-cI 7tjm-a1-m1-cw_7tjm-a1-m2-cH 7tjm-a1-m2-c0_7tjm-a1-m2-cP 7tjm-a1-m2-c1_7tjm-a1-m2-cF 7tjm-a1-m2-c2_7tjm-a1-m2-cA 7tjm-a1-m2-c3_7tjm-a1-m2-cR 7tjm-a1-m2-c5_7tjm-a1-m2-cN 7tjm-a1-m2-c6_7tjm-a1-m2-cD 7tjm-a1-m2-c7_7tjm-a1-m2-cC 7tjm-a1-m2-c8_7tjm-a1-m2-cQ 7tjm-a1-m2-cB_7tjm-a1-m3-c9 7tjm-a1-m2-cE_7tjm-a1-m2-cU 7tjm-a1-m2-cG_7tjm-a1-m2-cW 7tjm-a1-m2-cJ_7tjm-a1-m2-cY 7tjm-a1-m2-cK_7tjm-a1-m2-cX 7tjm-a1-m2-cL_7tjm-a1-m3-c4 7tjm-a1-m2-cM_7tjm-a1-m2-cV 7tjm-a1-m2-cO_7tjm-a1-m2-cv 7tjm-a1-m2-cS_7tjm-a1-m2-cZ 7tjm-a1-m2-cT_7tjm-a1-m2-cx 7tjm-a1-m2-cu_7tjm-a1-m3-cI 7tjm-a1-m2-cw_7tjm-a1-m3-cH 7tjm-a1-m3-c0_7tjm-a1-m3-cP 7tjm-a1-m3-c1_7tjm-a1-m3-cF 7tjm-a1-m3-c2_7tjm-a1-m3-cA 7tjm-a1-m3-c3_7tjm-a1-m3-cR 7tjm-a1-m3-c5_7tjm-a1-m3-cN 7tjm-a1-m3-c6_7tjm-a1-m3-cD 7tjm-a1-m3-c7_7tjm-a1-m3-cC 7tjm-a1-m3-c8_7tjm-a1-m3-cQ 7tjm-a1-m3-cE_7tjm-a1-m3-cU 7tjm-a1-m3-cG_7tjm-a1-m3-cW 7tjm-a1-m3-cJ_7tjm-a1-m3-cY 7tjm-a1-m3-cK_7tjm-a1-m3-cX 7tjm-a1-m3-cM_7tjm-a1-m3-cV 7tjm-a1-m3-cO_7tjm-a1-m3-cv 7tjm-a1-m3-cS_7tjm-a1-m3-cZ 7tjm-a1-m3-cT_7tjm-a1-m3-cx AKLETVTLGNIGKDGKQTLVLNPRGVNPTNGVASLSQAGAVPALEKRVTVSVSQPNYKVQVKIQNPTACTCDPSVTRQAYADVTFSFTQYSTDEERAFVRTELAALLASPLLIDAIDQLNPAY AKLETVTLGNIGKDGKQTLVLNPRGVNPTNGVASLSQAGAVPALEKRVTVSVSQPSRNRKNYKVQVKIQNPTACTANGSCDPSVTRQAYADVTFSFTQYSTDEERAFVRTELAALLASPLLIDAIDQLNPAY 1qc6-a1-m1-cA_1qc6-a1-m1-cB EVH1 domain from ENA/VASP-like protein in complex with ACTA peptide P70429 P70429 2.6 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 104 104 SEQSICQARASVVYDDTSKKWVPIKFSRINIYHNTASSTFRVVGVKLQDQQVVINYSIVKGLKYNQATPTFHQWRDARQVYGLNFASKEEATTFSNALFALNIN SEQSICQARASVVYDDTSKKWVPIKFSRINIYHNTASSTFRVVGVKLQDQQVVINYSIVKGLKYNQATPTFHQWRDARQVYGLNFASKEEATTFSNALFALNIN 1qc7-a1-m1-cB_1qc7-a1-m1-cA T. MARITIMA FLIG C-TERMINAL DOMAIN Q9WY63 Q9WY63 2.2 X-RAY DIFFRACTION 14 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 89 101 MFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEI MFVFEDILKLDDRSIQLVLREVDTRDLALALKGASDELKEKIFKNMSKRAAALLKDELEYMGPVRLKDVEEAQQKIINIIRRLEEAGEIVIARGGGEELIM 1qcc-a1-m1-cA_1qcc-a1-m2-cA CRYSTAL STRUCTURES OF ADENINE PHOSPHORIBOSYLTRANSFERASE FROM LEISHMANIA DONOVANI Q27679 Q27679 1.98 X-RAY DIFFRACTION 208 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 236 236 1qb7-a1-m1-cA_1qb7-a1-m2-cA 1qb8-a1-m1-cA_1qb8-a1-m2-cA 1qcd-a1-m1-cA_1qcd-a1-m2-cA PFKEVSPNSFLLDDSHALSQLLKKSYRWYSPVFSPRNVPRFADVSSITESPETLKAIRDFLVQRYRAMSPAPTHILGFDARGFLFGPMIAVELEIPFVLMRKADKNAGLLIRSEPYEKEYKEAAPEVMTIRYGSIGKGSRVVLIDDVLATGGTALSGLQLVEASDAVVVEMVSILSIPFLKAAEKIHSTANSRYKDIKFISLLSDDALTEENCGDSKNYTGPRVLSCGDVLAEHPH PFKEVSPNSFLLDDSHALSQLLKKSYRWYSPVFSPRNVPRFADVSSITESPETLKAIRDFLVQRYRAMSPAPTHILGFDARGFLFGPMIAVELEIPFVLMRKADKNAGLLIRSEPYEKEYKEAAPEVMTIRYGSIGKGSRVVLIDDVLATGGTALSGLQLVEASDAVVVEMVSILSIPFLKAAEKIHSTANSRYKDIKFISLLSDDALTEENCGDSKNYTGPRVLSCGDVLAEHPH 1qd1-a1-m1-cA_1qd1-a1-m1-cB THE CRYSTAL STRUCTURE OF THE FORMIMINOTRANSFERASE DOMAIN OF FORMIMINOTRANSFERASE-CYCLODEAMINASE. P53603 P53603 1.7 X-RAY DIFFRACTION 67 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 319 325 SQLVECVPNFSEGKNQEVIDAISRAVAQTPGCVLLDVDSGPSTNRTVYTFVGRPEDVVEGALNAARAAYQLIDMSRHHGEHPRMGALDVCPFIPVRGVTMDECVRCAQAFGQRLAEELGVPVYLYGEAARTAGRQSLPALRAGEYEALPEKLKQAEWAPDFGPSAFVPSWGATVAGARKFLLAFNINLLSTREQAHRIALDLREQGGRLKKVQAIGWYLDEKNLAQVSTNLLDFEVTGLHTVFEETCREAQELSLPVVGSQLVGLVPLKALLDAAAFYCEKENLFLLQDEHRIRLVVNRLGLDSLAPFKPKERIIEYLV SQLVECVPNFSEGKNQEVIDAISRAVAQTPGCVLLDVDSGPSTNRTVYTFVGRPEDVVEGALNAARAAYQLIDMSRHHGEHPRMGALDVCPFIPVRGVTMDECVRCAQAFGQRLAEELGVPVYLYGEAARTAGRQSLPALRAGEYEALPEKLKQAEWAPDFGPSAFVPSWGATVAGARKFLLAFNINLLSTREQAHRIALDLREQGRGKDQPGRLKKVQAIGWYLDEKNLAQVSTNLLDFEVTGLHTVFEETCREAQELSLPVVGSQLVGLVPLKALLDAAAFYCEKENLFLLQDEHRIRLVVNRLGLDSLAPFKPKERIIEYLV 1qd6-a3-m1-cD_1qd6-a3-m1-cC OUTER MEMBRANE PHOSPHOLIPASE A FROM ESCHERICHIA COLI P0A921 P0A921 2.1 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 239 240 7ezz-a1-m1-cA_7ezz-a1-m1-cB TLYPYDTNYLIYTQTSDLNKEAIASYDWAENARKDEVKFQLSLAFPLWRGILGPNSVLGASYTQKSWWQLSNSEESSPFRETNYEPQLFLGFATDYRFAGWTLRDVEMGYNHDSNGRSDPTSRSWNRLYTRLMAENGNWLVEVKPWYVVGNTDDNPDITKYMGYYQLKIGYHLGDAVLSAKGQYNWNTGYGGAELGLSYPITKHVRLYTQVYSGYGESLIDYNFNQTRVGVGVMLNDLF FTLYPYDTNYLIYTQTSDLNKEAIASYDWAENARKDEVKFQLSLAFPLWRGILGPNSVLGASYTQKSWWQLSNSEESSPFRETNYEPQLFLGFATDYRFAGWTLRDVEMGYNHDSNGRSDPTSRSWNRLYTRLMAENGNWLVEVKPWYVVGNTDDNPDITKYMGYYQLKIGYHLGDAVLSAKGQYNWNTGYGGAELGLSYPITKHVRLYTQVYSGYGESLIDYNFNQTRVGVGVMLNDLF 1qdb-a2-m1-cC_1qdb-a2-m2-cC CYTOCHROME C NITRITE REDUCTASE Q9Z4P4 Q9Z4P4 1.9 X-RAY DIFFRACTION 91 1.0 65553 (Sulfurospirillum deleyianum) 65553 (Sulfurospirillum deleyianum) 473 473 1qdb-a1-m1-cA_1qdb-a1-m1-cB GIAGKEKSEEWAKYYPRQFDSWKKTKEYDSFTDMLAKDPALVIAWSGYAFSKDYNSPRGHYYALQDNVNSLRTGAPVDAKTGPLPTACWTCKSPDVPRLIEEDGELEYFTGKWAKYGSQIVNVIGCANCHDDKTAELKVRVPHLNRGLQAAGLKTFEESTHQDKRTLVCAQCHVEYYFKKTEWKDAKGADKTAMVVTLPWANGVGKDGNAGVEGMIKYYDEINFSDWTHNISKTPMLKAQHPGFEFWKSGIHGQKGVSCADCHMPYTQEGSVKYSDHQVKENPLDSMDQSCMNCHRESESKLRGIVHQKYERKEFLNKVAFDNIGKAHLETGKAIEAGASDEELKEVRKLIRHGQFKADMAIAAHGNYFHAPEETLRLLAAGSDDAQKARLLLVKILAKHGVMDYIAPDFDTKDKAQKLAKVDIAALAAEKMKFKQTLEQEWKKEAKAKGRANPELYKDVDTINDGKSSWNKK GIAGKEKSEEWAKYYPRQFDSWKKTKEYDSFTDMLAKDPALVIAWSGYAFSKDYNSPRGHYYALQDNVNSLRTGAPVDAKTGPLPTACWTCKSPDVPRLIEEDGELEYFTGKWAKYGSQIVNVIGCANCHDDKTAELKVRVPHLNRGLQAAGLKTFEESTHQDKRTLVCAQCHVEYYFKKTEWKDAKGADKTAMVVTLPWANGVGKDGNAGVEGMIKYYDEINFSDWTHNISKTPMLKAQHPGFEFWKSGIHGQKGVSCADCHMPYTQEGSVKYSDHQVKENPLDSMDQSCMNCHRESESKLRGIVHQKYERKEFLNKVAFDNIGKAHLETGKAIEAGASDEELKEVRKLIRHGQFKADMAIAAHGNYFHAPEETLRLLAAGSDDAQKARLLLVKILAKHGVMDYIAPDFDTKDKAQKLAKVDIAALAAEKMKFKQTLEQEWKKEAKAKGRANPELYKDVDTINDGKSSWNKK 1qdl-a1-m1-cB_1qdl-a1-m2-cB THE CRYSTAL STRUCTURE OF ANTHRANILATE SYNTHASE FROM SULFOLOBUS SOLFATARICUS Q06129 Q06129 2.5 X-RAY DIFFRACTION 39 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 195 195 MDLTLIIDNYDSFVYNIAQIVGELGSYPIVIRNDEISIKGIERIDPDRLIISPGPGTPEKREDIGVSLDVIKYLGKRTPILGVCLGHQAIGYAFGAKIRRARKVFHGKISNIILVNNSPLSLYYGIAKEFKATRYHSLVVDEVHRPLIVDAISAEDNEIMAIHHEEYPIYGVQFHPESVGTSLGYKILYNFLNRV MDLTLIIDNYDSFVYNIAQIVGELGSYPIVIRNDEISIKGIERIDPDRLIISPGPGTPEKREDIGVSLDVIKYLGKRTPILGVCLGHQAIGYAFGAKIRRARKVFHGKISNIILVNNSPLSLYYGIAKEFKATRYHSLVVDEVHRPLIVDAISAEDNEIMAIHHEEYPIYGVQFHPESVGTSLGYKILYNFLNRV 1qe0-a1-m1-cB_1qe0-a1-m1-cA CRYSTAL STRUCTURE OF APO S. AUREUS HISTIDYL-TRNA SYNTHETASE P60911 P60911 2.7 X-RAY DIFFRACTION 249 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 342 390 MIKIPRGTQDILPEDSKKWRYIENQLDELMTFYNYKEIRTPIFESTDLFAREMYTFKDKGDRSITLRPEGTAAVVRSYIEHKMQGNPNQPIKLYYNGPMFRYYRQFNQFGVEAIGAENPSVDAEVLAMVMHIYQSFGLKHLKLVINSVGDMASSKAYYEQVKAYLDDLGIPYTEDPNLVRGLDYYTHTAFELMMDNPNYDGAITTLCGGGRYNGLLELLDGPSETGIGFALSIERLLLALEEEGIELDIEENLDLFIVTMGDQADRYAVKLLNHLRHNGIKADKDYLQRKIKGQMKQADRLGAKFTIVIGDQELENNKIDVKNMTTGESETIELDALVEYFK MIKIPRGTQDILPEDSKKWRYIENQLDELMTFYNYKEIRTPIFESTDLFAREMYTFKDKGDRSITLRPEGTAAVVRSYIEHKMQGNPNQPIKLYYNGPMFRYYRQFNQFGVEAIGAENPSVDAEVLAMVMHIYQSFGLKHLKLVINSVGDMASRKEYNEALVKHFEPVIHEFCSDCQSRLHTDPMRILTAPRITDFLNEESKAYYEQVKAYLDDLGIPYTEDPNLVRGLDYYTHTAFELMMDNPNYDGAITTLCGGGRYNGLLELLDGPSETGIGFALSIERLLLALEEEGIELDIEENLDLFIVTMGDQADRYAVKLLNHLRHNGIKADKDYLQRKIKGQMKQADRLGAKFTIVIGDQELENNKIDVKNMTTGESETIELDALVEYFKK 1qe5-a1-m1-cA_1qe5-a1-m1-cC PURINE NUCLEOSIDE PHOSPHORYLASE FROM CELLULOMONAS SP. IN COMPLEX WITH PHOSPHATE P81989 P81989 2.2 X-RAY DIFFRACTION 69 1.0 40001 (Cellulomonas sp.) 40001 (Cellulomonas sp.) 266 266 1c3x-a1-m1-cA_1c3x-a1-m1-cB 1c3x-a1-m1-cA_1c3x-a1-m1-cC 1c3x-a1-m1-cB_1c3x-a1-m1-cC 1qe5-a1-m1-cA_1qe5-a1-m1-cB 1qe5-a1-m1-cB_1qe5-a1-m1-cC PPLDDPATDPFLVARAAADHIAQATGVEGHDMALVLGSGWGGAAELLGEVVAEVPTHEIPGFSSVTRSIRVERADGSVRHALVLGSRTHLYEGKGVRAVVHGVRTAAATGAETLILTNGCGGLNQEWGAGTPVLLSDHINLTARSPLEGPTFVDLTDVYSPRLRELAHRVDPTLPEGVYAQFPGPHYETPAEVRMAGILGADLVGMSTTLEAIAARHCGLEVLGVSLVTNLAAGISPTPLSHAEVIEAGQAAGPRISALLADIAKR PPLDDPATDPFLVARAAADHIAQATGVEGHDMALVLGSGWGGAAELLGEVVAEVPTHEIPGFSSVTRSIRVERADGSVRHALVLGSRTHLYEGKGVRAVVHGVRTAAATGAETLILTNGCGGLNQEWGAGTPVLLSDHINLTARSPLEGPTFVDLTDVYSPRLRELAHRVDPTLPEGVYAQFPGPHYETPAEVRMAGILGADLVGMSTTLEAIAARHCGLEVLGVSLVTNLAAGISPTPLSHAEVIEAGQAAGPRISALLADIAKR 1qe6-a3-m2-cA_1qe6-a3-m2-cB INTERLEUKIN-8 WITH AN ADDED DISULFIDE BETWEEN RESIDUES 5 AND 33 (L5C/H33C) P10145 P10145 2.35 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 71 1icw-a1-m1-cB_1icw-a1-m1-cA 1il8-a1-m1-cA_1il8-a1-m1-cB 1ilp-a1-m1-cA_1ilp-a1-m1-cB 1ilq-a1-m1-cA_1ilq-a1-m1-cB 1qe6-a1-m1-cA_1qe6-a1-m1-cB 1qe6-a2-m1-cC_1qe6-a2-m1-cD 1qe6-a3-m1-cC_1qe6-a3-m1-cD 2il8-a1-m1-cA_2il8-a1-m1-cB 3il8-a1-m1-cA_3il8-a1-m2-cA 6lfm-a1-m1-cE_6lfm-a1-m1-cD 6n2u-a1-m1-cA_6n2u-a1-m2-cA 6wzm-a1-m1-cE_6wzm-a1-m1-cF CRCQCIKTYSKPFHPKFIKELRVIESGPCCANTEIIVKLSDGRELCLDPKENWVQRVVEKFLKRAENS AKECRCQCIKTYSKPFHPKFIKELRVIESGPCCANTEIIVKLSDGRELCLDPKENWVQRVVEKFLKRAENS 1qe6-a3-m2-cB_1qe6-a3-m1-cD INTERLEUKIN-8 WITH AN ADDED DISULFIDE BETWEEN RESIDUES 5 AND 33 (L5C/H33C) P10145 P10145 2.35 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 72 AKECRCQCIKTYSKPFHPKFIKELRVIESGPCCANTEIIVKLSDGRELCLDPKENWVQRVVEKFLKRAENS SAKECRCQCIKTYSKPFHPKFIKELRVIESGPCCANTEIIVKLSDGRELCLDPKENWVQRVVEKFLKRAENS 1qex-a1-m1-cA_1qex-a1-m3-cB BACTERIOPHAGE T4 GENE PRODUCT 9 (GP9), THE TRIGGER OF TAIL CONTRACTION AND THE LONG TAIL FIBERS CONNECTOR P10927 P10927 2.3 X-RAY DIFFRACTION 74 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 288 288 1qex-a1-m1-cB_1qex-a1-m2-cA 1qex-a1-m2-cB_1qex-a1-m3-cA MFIQEPKKLIDTGEIGNASTGDILFDGGNKINSDFNAIYNAFGDQRKMAVANGTGADGQIIHATGYYQKHSITEYATPVKVGTRHDIDTSTVGVKVIIERGELGDCVEFINSNGSISVTNPLTIQAIDSIKGVSGNLVVTSPYSKVTLRCISSDNSTSVWNYSIESMFGQKESPAEGTWNISTSGSVDIPLFHRTEYNMAKLLVTCQSVDGRKIKTAEINILVDTVNSEVISSEYAVMRVGNETEEDEIANIAFSIKENYVTATISSSTVGMRAAVKVIATQKIGVAQ MFIQEPKKLIDTGEIGNASTGDILFDGGNKINSDFNAIYNAFGDQRKMAVANGTGADGQIIHATGYYQKHSITEYATPVKVGTRHDIDTSTVGVKVIIERGELGDCVEFINSNGSISVTNPLTIQAIDSIKGVSGNLVVTSPYSKVTLRCISSDNSTSVWNYSIESMFGQKESPAEGTWNISTSGSVDIPLFHRTEYNMAKLLVTCQSVDGRKIKTAEINILVDTVNSEVISSEYAVMRVGNETEEDEIANIAFSIKENYVTATISSSTVGMRAAVKVIATQKIGVAQ 1qex-a1-m3-cA_1qex-a1-m3-cB BACTERIOPHAGE T4 GENE PRODUCT 9 (GP9), THE TRIGGER OF TAIL CONTRACTION AND THE LONG TAIL FIBERS CONNECTOR P10927 P10927 2.3 X-RAY DIFFRACTION 81 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 288 288 1qex-a1-m1-cA_1qex-a1-m1-cB 1qex-a1-m2-cA_1qex-a1-m2-cB MFIQEPKKLIDTGEIGNASTGDILFDGGNKINSDFNAIYNAFGDQRKMAVANGTGADGQIIHATGYYQKHSITEYATPVKVGTRHDIDTSTVGVKVIIERGELGDCVEFINSNGSISVTNPLTIQAIDSIKGVSGNLVVTSPYSKVTLRCISSDNSTSVWNYSIESMFGQKESPAEGTWNISTSGSVDIPLFHRTEYNMAKLLVTCQSVDGRKIKTAEINILVDTVNSEVISSEYAVMRVGNETEEDEIANIAFSIKENYVTATISSSTVGMRAAVKVIATQKIGVAQ MFIQEPKKLIDTGEIGNASTGDILFDGGNKINSDFNAIYNAFGDQRKMAVANGTGADGQIIHATGYYQKHSITEYATPVKVGTRHDIDTSTVGVKVIIERGELGDCVEFINSNGSISVTNPLTIQAIDSIKGVSGNLVVTSPYSKVTLRCISSDNSTSVWNYSIESMFGQKESPAEGTWNISTSGSVDIPLFHRTEYNMAKLLVTCQSVDGRKIKTAEINILVDTVNSEVISSEYAVMRVGNETEEDEIANIAFSIKENYVTATISSSTVGMRAAVKVIATQKIGVAQ 1qey-a1-m1-cA_1qey-a1-m1-cD NMR Structure Determination of the Tetramerization Domain of the MNT Repressor: An Asymmetric A-Helical Assembly in Slow Exchange P03049 P03049 NOT SOLUTION NMR 15 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 31 31 1qey-a1-m1-cB_1qey-a1-m1-cC RNDAERLADEQSELVKKMVFDTLKDLYKKTT RNDAERLADEQSELVKKMVFDTLKDLYKKTT 1qey-a1-m1-cB_1qey-a1-m1-cD NMR Structure Determination of the Tetramerization Domain of the MNT Repressor: An Asymmetric A-Helical Assembly in Slow Exchange P03049 P03049 NOT SOLUTION NMR 25 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 31 31 1qey-a1-m1-cA_1qey-a1-m1-cC RNDAERLADEQSELVKKMVFDTLKDLYKKTT RNDAERLADEQSELVKKMVFDTLKDLYKKTT 1qey-a1-m1-cC_1qey-a1-m1-cD NMR Structure Determination of the Tetramerization Domain of the MNT Repressor: An Asymmetric A-Helical Assembly in Slow Exchange P03049 P03049 NOT SOLUTION NMR 64 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 31 31 1qey-a1-m1-cA_1qey-a1-m1-cB RNDAERLADEQSELVKKMVFDTLKDLYKKTT RNDAERLADEQSELVKKMVFDTLKDLYKKTT 1qez-a1-m1-cA_1qez-a1-m1-cF SULFOLOBUS ACIDOCALDARIUS INORGANIC PYROPHOSPHATASE: AN ARCHAEL PYROPHOSPHATASE. P50308 P50308 2.7 X-RAY DIFFRACTION 25 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 169 169 1qez-a1-m1-cB_1qez-a1-m1-cE 1qez-a1-m1-cC_1qez-a1-m1-cD KLSPGKNAPDVVNVLVEIPQGSNIKYEYDDEEGVIKVDRVLYTSMNYPFNYGFIPGTLEEDGDPLDVLVITNYQLYPGSVIEVRPIGILYMKDEEGEDAKIVAVPKDKTDPSFSNIKDINDLPQATKNKIVHFFEHYKELEPGKYVKISGWGSATEAKNRIQLAIKRVS KLSPGKNAPDVVNVLVEIPQGSNIKYEYDDEEGVIKVDRVLYTSMNYPFNYGFIPGTLEEDGDPLDVLVITNYQLYPGSVIEVRPIGILYMKDEEGEDAKIVAVPKDKTDPSFSNIKDINDLPQATKNKIVHFFEHYKELEPGKYVKISGWGSATEAKNRIQLAIKRVS 1qez-a1-m1-cB_1qez-a1-m1-cF SULFOLOBUS ACIDOCALDARIUS INORGANIC PYROPHOSPHATASE: AN ARCHAEL PYROPHOSPHATASE. P50308 P50308 2.7 X-RAY DIFFRACTION 51 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 169 169 1qez-a1-m1-cA_1qez-a1-m1-cD 1qez-a1-m1-cC_1qez-a1-m1-cE KLSPGKNAPDVVNVLVEIPQGSNIKYEYDDEEGVIKVDRVLYTSMNYPFNYGFIPGTLEEDGDPLDVLVITNYQLYPGSVIEVRPIGILYMKDEEGEDAKIVAVPKDKTDPSFSNIKDINDLPQATKNKIVHFFEHYKELEPGKYVKISGWGSATEAKNRIQLAIKRVS KLSPGKNAPDVVNVLVEIPQGSNIKYEYDDEEGVIKVDRVLYTSMNYPFNYGFIPGTLEEDGDPLDVLVITNYQLYPGSVIEVRPIGILYMKDEEGEDAKIVAVPKDKTDPSFSNIKDINDLPQATKNKIVHFFEHYKELEPGKYVKISGWGSATEAKNRIQLAIKRVS 1qez-a1-m1-cE_1qez-a1-m1-cF SULFOLOBUS ACIDOCALDARIUS INORGANIC PYROPHOSPHATASE: AN ARCHAEL PYROPHOSPHATASE. P50308 P50308 2.7 X-RAY DIFFRACTION 42 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 169 169 1qez-a1-m1-cA_1qez-a1-m1-cB 1qez-a1-m1-cA_1qez-a1-m1-cC 1qez-a1-m1-cB_1qez-a1-m1-cC 1qez-a1-m1-cD_1qez-a1-m1-cE 1qez-a1-m1-cD_1qez-a1-m1-cF KLSPGKNAPDVVNVLVEIPQGSNIKYEYDDEEGVIKVDRVLYTSMNYPFNYGFIPGTLEEDGDPLDVLVITNYQLYPGSVIEVRPIGILYMKDEEGEDAKIVAVPKDKTDPSFSNIKDINDLPQATKNKIVHFFEHYKELEPGKYVKISGWGSATEAKNRIQLAIKRVS KLSPGKNAPDVVNVLVEIPQGSNIKYEYDDEEGVIKVDRVLYTSMNYPFNYGFIPGTLEEDGDPLDVLVITNYQLYPGSVIEVRPIGILYMKDEEGEDAKIVAVPKDKTDPSFSNIKDINDLPQATKNKIVHFFEHYKELEPGKYVKISGWGSATEAKNRIQLAIKRVS 1qfh-a1-m1-cA_1qfh-a1-m1-cB DIMERIZATION OF GELATION FACTOR FROM DICTYOSTELIUM DISCOIDEUM: CRYSTAL STRUCTURE OF ROD DOMAINS 5 AND 6 P13466 P13466 2.2 X-RAY DIFFRACTION 199 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 212 212 1wlh-a1-m1-cB_1wlh-a1-m1-cA KPAPSAEHSYAEGEGLVKVFDNAPAEFTIFAVDTKGVARTDGGDPFEVAINGPDGLVVDAKVTDNNDGTYGVVYDAPVEGNYNVNVTLRGNPIKNMPIDVKCIEGANGEDSSFGSFTFTVAAKNKKGEVKTYGGDKFEVSITGPAEEITLDAIDNQDGTYTAAYSLVGNGRFSTGVKLNGKHIEGSPFKQVLGNPGKKNPEVKSFTTTRTAN KPAPSAEHSYAEGEGLVKVFDNAPAEFTIFAVDTKGVARTDGGDPFEVAINGPDGLVVDAKVTDNNDGTYGVVYDAPVEGNYNVNVTLRGNPIKNMPIDVKCIEGANGEDSSFGSFTFTVAAKNKKGEVKTYGGDKFEVSITGPAEEITLDAIDNQDGTYTAAYSLVGNGRFSTGVKLNGKHIEGSPFKQVLGNPGKKNPEVKSFTTTRTAN 1qfx-a1-m1-cB_1qfx-a1-m2-cB PH 2.5 ACID PHOSPHATASE FROM ASPERGILLUS NIGER P34755 P34755 2.4 X-RAY DIFFRACTION 72 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 443 443 1qfx-a1-m1-cA_1qfx-a1-m2-cA KQFSQEFRDGYSILKHYGGNGPYSERVSYGIARDPPTSCEVDQVIMVKRHGERYPSPSAGKDIEEALAKVYSITEYKGDLAFLNDWTYYVPNECYYNAETTSGPYAGLLDAYNHGNDYKARYGHLWNGETVVPFFSSGYGRVIETARKFGEGFFGYNYSTNAALNIISESEVMGADSLTPTCDTDNTTCDNLTYQLPQFKVAAARLNSQNPGMNLTASDVYNLMVMASFELNARPFSNWINAFTQDEWVSFGYVEDLNYYYCAGPGDKNMAAVGAVYANASLTLLNQGPKEAGSLFFNFAHDTNITPILAALGVLIPNEDLPLDRVAFGNPYSIGNIVPMGGHLTIERLSCQATALSDEGTYVRLVLNEAVLPFNDCTSGPGYSCPLANYTSILNKNLPDYTTTCNVSASYPQYLSFWWNYNTTTELNYRSSPIACQEGDAMD KQFSQEFRDGYSILKHYGGNGPYSERVSYGIARDPPTSCEVDQVIMVKRHGERYPSPSAGKDIEEALAKVYSITEYKGDLAFLNDWTYYVPNECYYNAETTSGPYAGLLDAYNHGNDYKARYGHLWNGETVVPFFSSGYGRVIETARKFGEGFFGYNYSTNAALNIISESEVMGADSLTPTCDTDNTTCDNLTYQLPQFKVAAARLNSQNPGMNLTASDVYNLMVMASFELNARPFSNWINAFTQDEWVSFGYVEDLNYYYCAGPGDKNMAAVGAVYANASLTLLNQGPKEAGSLFFNFAHDTNITPILAALGVLIPNEDLPLDRVAFGNPYSIGNIVPMGGHLTIERLSCQATALSDEGTYVRLVLNEAVLPFNDCTSGPGYSCPLANYTSILNKNLPDYTTTCNVSASYPQYLSFWWNYNTTTELNYRSSPIACQEGDAMD 1qfx-a1-m2-cA_1qfx-a1-m2-cB PH 2.5 ACID PHOSPHATASE FROM ASPERGILLUS NIGER P34755 P34755 2.4 X-RAY DIFFRACTION 178 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 441 443 1qfx-a1-m1-cA_1qfx-a1-m1-cB KQFSQEFRDGYSILKHYGGNGPYSERVSYGIARDPPTSCEVDQVIMVKRHGERYPSPSAGKDIEEALAKVYSITEYKGDLAFLNDWTYYVPNECYYNAETTSGPYAGLLDAYNHGNDYKARYGHLWNGETVVPFFSSGYGRVIETARKFGEGFFGYNYSTNAALNIISESEVMGADSLTPTCDTTTCDNLTYQLPQFKVAAARLNSQNPGMNLTASDVYNLMVMASFELNARPFSNWINAFTQDEWVSFGYVEDLNYYYCAGPGDKNMAAVGAVYANASLTLLNQGPKEAGSLFFNFAHDTNITPILAALGVLIPNEDLPLDRVAFGNPYSIGNIVPMGGHLTIERLSCQATALSDEGTYVRLVLNEAVLPFNDCTSGPGYSCPLANYTSILNKNLPDYTTTCNVSASYPQYLSFWWNYNTTTELNYRSSPIACQEGDAMD KQFSQEFRDGYSILKHYGGNGPYSERVSYGIARDPPTSCEVDQVIMVKRHGERYPSPSAGKDIEEALAKVYSITEYKGDLAFLNDWTYYVPNECYYNAETTSGPYAGLLDAYNHGNDYKARYGHLWNGETVVPFFSSGYGRVIETARKFGEGFFGYNYSTNAALNIISESEVMGADSLTPTCDTDNTTCDNLTYQLPQFKVAAARLNSQNPGMNLTASDVYNLMVMASFELNARPFSNWINAFTQDEWVSFGYVEDLNYYYCAGPGDKNMAAVGAVYANASLTLLNQGPKEAGSLFFNFAHDTNITPILAALGVLIPNEDLPLDRVAFGNPYSIGNIVPMGGHLTIERLSCQATALSDEGTYVRLVLNEAVLPFNDCTSGPGYSCPLANYTSILNKNLPDYTTTCNVSASYPQYLSFWWNYNTTTELNYRSSPIACQEGDAMD 1qg3-a1-m2-cB_1qg3-a1-m1-cA CRYSTAL STRUCTURE OF A TANDEM PAIR OF FIBRONECTIN TYPE III DOMAINS FROM THE CYTOPLASMIC TAIL OF INTEGRIN ALPHA6 BETA4 P16144 P16144 2.15 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 195 LGAPQNPNAKAAGSRKIHFNWLPPSGKPMGYRVKYWIQGDSESEAHLLDSKVPSVELTNLYPYCDYEMKVCAYGAQGEGPYSSLVSCRTHQEVPSEPGRLAFNVVSSTVTQLSWAEPAETNGEITAYEVCYGLVNDDNRPIGPMKKVLVDNPKNRMLLIENLRESQPYRYTVKARNGAGWGPEREAIINLATQ DLGAPQNPNAKAAGSRKIHFNWLPPSGKPMGYRVKYWIQGDSESEAHLLDSKVPSVELTNLYPYCDYEMKVCAYGAQGEGPYSSLVSCRTHQEVPSEPGRLAFNVVSSTVTQLSWAEPAETNGEITAYEVCYGLVNDDNRPIGPMKKVLVDNPKNRMLLIENLRESQPYRYTVKARNGAGWGPEREAIINLATQP 1qgn-a2-m1-cE_1qgn-a2-m1-cH CYSTATHIONINE GAMMA-SYNTHASE FROM NICOTIANA TABACUM Q9ZPL5 Q9ZPL5 2.9 X-RAY DIFFRACTION 114 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 398 398 1i41-a1-m1-cA_1i41-a1-m1-cD 1i41-a1-m1-cB_1i41-a1-m1-cC 1i41-a2-m1-cE_1i41-a2-m1-cH 1i41-a2-m1-cF_1i41-a2-m1-cG 1i41-a3-m1-cI_1i41-a3-m1-cL 1i41-a3-m1-cJ_1i41-a3-m1-cK 1i43-a1-m1-cA_1i43-a1-m1-cD 1i43-a1-m1-cB_1i43-a1-m1-cC 1i43-a2-m1-cE_1i43-a2-m1-cH 1i43-a2-m1-cF_1i43-a2-m1-cG 1i43-a3-m1-cI_1i43-a3-m1-cL 1i43-a3-m1-cJ_1i43-a3-m1-cK 1i48-a1-m1-cA_1i48-a1-m1-cD 1i48-a1-m1-cB_1i48-a1-m1-cC 1i48-a2-m1-cE_1i48-a2-m1-cH 1i48-a2-m1-cF_1i48-a2-m1-cG 1i48-a3-m1-cI_1i48-a3-m1-cL 1i48-a3-m1-cJ_1i48-a3-m1-cK 1qgn-a1-m1-cA_1qgn-a1-m1-cD 1qgn-a1-m1-cB_1qgn-a1-m1-cC 1qgn-a2-m1-cF_1qgn-a2-m1-cG MKYASFLNSDGSVAIHAGERLGRGIVTDAITTPVVNTSAYFFNKTSELIDFKEKRRASFEYGRYGNPTTVVLEEKISALEGAESTLLMASGMCASTVMLLALVPAGGHIVTTTDCYRKTRIFIETILPKMGITATVIDPADVGALELALNQKKVNLFFTESPTNPFLRCVDIELVSKLCHEKGALVCIDGTFATPLNQKALALGADLVLHSATKFLGGHNDVLAGCISGPLKLVSEIRNLHHILGGALNPNAAYLIIRGMKTLHLRVQQQNSTALRMAEILEAHPKVRHVYYPGLQSHPEHHIAKKQMTGFGGAVSFEVDGDLLTTAKFVDALKIPYIAPSFGGCESIVDQPAIMSYWDLSQSDRAKYGIMDNLVRFSFGVEDFDDLKADILQALDSI MKYASFLNSDGSVAIHAGERLGRGIVTDAITTPVVNTSAYFFNKTSELIDFKEKRRASFEYGRYGNPTTVVLEEKISALEGAESTLLMASGMCASTVMLLALVPAGGHIVTTTDCYRKTRIFIETILPKMGITATVIDPADVGALELALNQKKVNLFFTESPTNPFLRCVDIELVSKLCHEKGALVCIDGTFATPLNQKALALGADLVLHSATKFLGGHNDVLAGCISGPLKLVSEIRNLHHILGGALNPNAAYLIIRGMKTLHLRVQQQNSTALRMAEILEAHPKVRHVYYPGLQSHPEHHIAKKQMTGFGGAVSFEVDGDLLTTAKFVDALKIPYIAPSFGGCESIVDQPAIMSYWDLSQSDRAKYGIMDNLVRFSFGVEDFDDLKADILQALDSI 1qgn-a2-m1-cF_1qgn-a2-m1-cH CYSTATHIONINE GAMMA-SYNTHASE FROM NICOTIANA TABACUM Q9ZPL5 Q9ZPL5 2.9 X-RAY DIFFRACTION 183 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 398 398 1i41-a1-m1-cA_1i41-a1-m1-cC 1i41-a1-m1-cB_1i41-a1-m1-cD 1i41-a2-m1-cE_1i41-a2-m1-cG 1i41-a2-m1-cF_1i41-a2-m1-cH 1i41-a3-m1-cI_1i41-a3-m1-cK 1i41-a3-m1-cJ_1i41-a3-m1-cL 1i43-a1-m1-cA_1i43-a1-m1-cC 1i43-a1-m1-cB_1i43-a1-m1-cD 1i43-a2-m1-cE_1i43-a2-m1-cG 1i43-a2-m1-cF_1i43-a2-m1-cH 1i43-a3-m1-cI_1i43-a3-m1-cK 1i43-a3-m1-cJ_1i43-a3-m1-cL 1i48-a1-m1-cA_1i48-a1-m1-cC 1i48-a1-m1-cB_1i48-a1-m1-cD 1i48-a2-m1-cE_1i48-a2-m1-cG 1i48-a2-m1-cF_1i48-a2-m1-cH 1i48-a3-m1-cI_1i48-a3-m1-cK 1i48-a3-m1-cJ_1i48-a3-m1-cL 1qgn-a1-m1-cA_1qgn-a1-m1-cC 1qgn-a1-m1-cB_1qgn-a1-m1-cD 1qgn-a2-m1-cE_1qgn-a2-m1-cG MKYASFLNSDGSVAIHAGERLGRGIVTDAITTPVVNTSAYFFNKTSELIDFKEKRRASFEYGRYGNPTTVVLEEKISALEGAESTLLMASGMCASTVMLLALVPAGGHIVTTTDCYRKTRIFIETILPKMGITATVIDPADVGALELALNQKKVNLFFTESPTNPFLRCVDIELVSKLCHEKGALVCIDGTFATPLNQKALALGADLVLHSATKFLGGHNDVLAGCISGPLKLVSEIRNLHHILGGALNPNAAYLIIRGMKTLHLRVQQQNSTALRMAEILEAHPKVRHVYYPGLQSHPEHHIAKKQMTGFGGAVSFEVDGDLLTTAKFVDALKIPYIAPSFGGCESIVDQPAIMSYWDLSQSDRAKYGIMDNLVRFSFGVEDFDDLKADILQALDSI MKYASFLNSDGSVAIHAGERLGRGIVTDAITTPVVNTSAYFFNKTSELIDFKEKRRASFEYGRYGNPTTVVLEEKISALEGAESTLLMASGMCASTVMLLALVPAGGHIVTTTDCYRKTRIFIETILPKMGITATVIDPADVGALELALNQKKVNLFFTESPTNPFLRCVDIELVSKLCHEKGALVCIDGTFATPLNQKALALGADLVLHSATKFLGGHNDVLAGCISGPLKLVSEIRNLHHILGGALNPNAAYLIIRGMKTLHLRVQQQNSTALRMAEILEAHPKVRHVYYPGLQSHPEHHIAKKQMTGFGGAVSFEVDGDLLTTAKFVDALKIPYIAPSFGGCESIVDQPAIMSYWDLSQSDRAKYGIMDNLVRFSFGVEDFDDLKADILQALDSI 1qgn-a2-m1-cG_1qgn-a2-m1-cH CYSTATHIONINE GAMMA-SYNTHASE FROM NICOTIANA TABACUM Q9ZPL5 Q9ZPL5 2.9 X-RAY DIFFRACTION 67 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 398 398 1i41-a1-m1-cA_1i41-a1-m1-cB 1i41-a1-m1-cC_1i41-a1-m1-cD 1i41-a2-m1-cE_1i41-a2-m1-cF 1i41-a2-m1-cG_1i41-a2-m1-cH 1i41-a3-m1-cI_1i41-a3-m1-cJ 1i41-a3-m1-cK_1i41-a3-m1-cL 1i43-a1-m1-cA_1i43-a1-m1-cB 1i43-a1-m1-cC_1i43-a1-m1-cD 1i43-a2-m1-cE_1i43-a2-m1-cF 1i43-a2-m1-cG_1i43-a2-m1-cH 1i43-a3-m1-cI_1i43-a3-m1-cJ 1i43-a3-m1-cK_1i43-a3-m1-cL 1i48-a1-m1-cA_1i48-a1-m1-cB 1i48-a1-m1-cC_1i48-a1-m1-cD 1i48-a2-m1-cE_1i48-a2-m1-cF 1i48-a2-m1-cG_1i48-a2-m1-cH 1i48-a3-m1-cI_1i48-a3-m1-cJ 1i48-a3-m1-cK_1i48-a3-m1-cL 1qgn-a1-m1-cA_1qgn-a1-m1-cB 1qgn-a1-m1-cC_1qgn-a1-m1-cD 1qgn-a2-m1-cE_1qgn-a2-m1-cF MKYASFLNSDGSVAIHAGERLGRGIVTDAITTPVVNTSAYFFNKTSELIDFKEKRRASFEYGRYGNPTTVVLEEKISALEGAESTLLMASGMCASTVMLLALVPAGGHIVTTTDCYRKTRIFIETILPKMGITATVIDPADVGALELALNQKKVNLFFTESPTNPFLRCVDIELVSKLCHEKGALVCIDGTFATPLNQKALALGADLVLHSATKFLGGHNDVLAGCISGPLKLVSEIRNLHHILGGALNPNAAYLIIRGMKTLHLRVQQQNSTALRMAEILEAHPKVRHVYYPGLQSHPEHHIAKKQMTGFGGAVSFEVDGDLLTTAKFVDALKIPYIAPSFGGCESIVDQPAIMSYWDLSQSDRAKYGIMDNLVRFSFGVEDFDDLKADILQALDSI MKYASFLNSDGSVAIHAGERLGRGIVTDAITTPVVNTSAYFFNKTSELIDFKEKRRASFEYGRYGNPTTVVLEEKISALEGAESTLLMASGMCASTVMLLALVPAGGHIVTTTDCYRKTRIFIETILPKMGITATVIDPADVGALELALNQKKVNLFFTESPTNPFLRCVDIELVSKLCHEKGALVCIDGTFATPLNQKALALGADLVLHSATKFLGGHNDVLAGCISGPLKLVSEIRNLHHILGGALNPNAAYLIIRGMKTLHLRVQQQNSTALRMAEILEAHPKVRHVYYPGLQSHPEHHIAKKQMTGFGGAVSFEVDGDLLTTAKFVDALKIPYIAPSFGGCESIVDQPAIMSYWDLSQSDRAKYGIMDNLVRFSFGVEDFDDLKADILQALDSI 1qh4-a3-m1-cD_1qh4-a3-m2-cA CRYSTAL STRUCTURE OF CHICKEN BRAIN-TYPE CREATINE KINASE AT 1.41 ANGSTROM RESOLUTION P05122 P05122 1.41 X-RAY DIFFRACTION 32 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 380 380 PFSNSHNLLKMKYSVDDEYPDLSVHNNHMAKVLTLDLYKKLRDRQTSSGFTLDDVIQTGVDNPGHPFIMTVGCVAGDEESYEVFKELFDPVIEDRHGGYKPTDEHKTDLNADNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLSVEALGSLGGDLKGKYYALRNMTDAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWINEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKNYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFGEVLKRLRLQKRGTGGVDTAAVGGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEKRLEKGQSIDDLMPAQK PFSNSHNLLKMKYSVDDEYPDLSVHNNHMAKVLTLDLYKKLRDRQTSSGFTLDDVIQTGVDNPGHPFIMTVGCVAGDEESYEVFKELFDPVIEDRHGGYKPTDEHKTDLNADNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLSVEALGSLGGDLKGKYYALRNMTDAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWINEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKNYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFGEVLKRLRLQKRGTGGVDTAAVGGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEKRLEKGQSIDDLMPAQK 1qh4-a3-m2-cA_1qh4-a3-m2-cB CRYSTAL STRUCTURE OF CHICKEN BRAIN-TYPE CREATINE KINASE AT 1.41 ANGSTROM RESOLUTION P05122 P05122 1.41 X-RAY DIFFRACTION 137 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 380 380 1qh4-a1-m1-cA_1qh4-a1-m1-cB 1qh4-a2-m1-cC_1qh4-a2-m1-cD 1qh4-a3-m1-cC_1qh4-a3-m1-cD PFSNSHNLLKMKYSVDDEYPDLSVHNNHMAKVLTLDLYKKLRDRQTSSGFTLDDVIQTGVDNPGHPFIMTVGCVAGDEESYEVFKELFDPVIEDRHGGYKPTDEHKTDLNADNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLSVEALGSLGGDLKGKYYALRNMTDAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWINEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKNYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFGEVLKRLRLQKRGTGGVDTAAVGGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEKRLEKGQSIDDLMPAQK PFSNSHNLLKMKYSVDDEYPDLSVHNNHMAKVLTLDLYKKLRDRQTSSGFTLDDVIQTGVDNPGHPFIMTVGCVAGDEESYEVFKELFDPVIEDRHGGYKPTDEHKTDLNADNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLSVEALGSLGGDLKGKYYALRNMTDAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWINEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKNYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFGEVLKRLRLQKRGTGGVDTAAVGGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEKRLEKGQSIDDLMPAQK 1qh8-a1-m1-cB_1qh8-a1-m1-cD NITROGENASE MOFE PROTEIN FROM KLEBSIELLA PNEUMONIAE, AS-CRYSTALLIZED (MIXED OXIDATION) STATE P09772 P09772 1.6 X-RAY DIFFRACTION 171 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 519 519 1h1l-a1-m1-cB_1h1l-a1-m1-cD 1qgu-a1-m1-cB_1qgu-a1-m1-cD 1qh1-a1-m1-cB_1qh1-a1-m1-cD SQTIDKINSCYPLFEQDEYQELFRNKRQLEEAHDAQRVQEVFAWTTTAEYEALNFRREALTVDPAKACQPLGAVLCSLGFANTLPYVHGSQGCVAYFRTYFNRHFKEPIACVSDSMTEDAAVFGGNNNMNLGLQNASALYKPEIIAVSTTCMAEVIGDDLQAFIANAKKDGFVDSSIAVPHAHTPSFIGSHVTGWDNMFEGFAKTFTADYQGQPGKLPKLNLVTGFETYLGNFRVLKRMMEQMAVPCSLLSDPSEVLDTPADGHYRMYSGGTTQQEMKEAPDAIDTLLLQPWQLLKSKKVVQEMWNQPATEVAIPLGLAATDELLMTVSQLSGKPIADALTLERGRLVDMMLDSHTWLHGKKFGLYGDPDFVMGLTRFLLELGCEPTVILSHNANKRWQKAMNKMLDASPYGRDSEVFINCDLWHFRSLMFTRQPDFMIGNSYGKFIQRDTLAKGKAFEVPLIRLGFPLFDRHHLHRQTTWGYEGAMNIVTTLVNAVLEKLDSDTSQLGKTDYSFDLVR SQTIDKINSCYPLFEQDEYQELFRNKRQLEEAHDAQRVQEVFAWTTTAEYEALNFRREALTVDPAKACQPLGAVLCSLGFANTLPYVHGSQGCVAYFRTYFNRHFKEPIACVSDSMTEDAAVFGGNNNMNLGLQNASALYKPEIIAVSTTCMAEVIGDDLQAFIANAKKDGFVDSSIAVPHAHTPSFIGSHVTGWDNMFEGFAKTFTADYQGQPGKLPKLNLVTGFETYLGNFRVLKRMMEQMAVPCSLLSDPSEVLDTPADGHYRMYSGGTTQQEMKEAPDAIDTLLLQPWQLLKSKKVVQEMWNQPATEVAIPLGLAATDELLMTVSQLSGKPIADALTLERGRLVDMMLDSHTWLHGKKFGLYGDPDFVMGLTRFLLELGCEPTVILSHNANKRWQKAMNKMLDASPYGRDSEVFINCDLWHFRSLMFTRQPDFMIGNSYGKFIQRDTLAKGKAFEVPLIRLGFPLFDRHHLHRQTTWGYEGAMNIVTTLVNAVLEKLDSDTSQLGKTDYSFDLVR 1qhq-a2-m2-cA_1qhq-a2-m4-cA AURACYANIN, A BLUE COPPER PROTEIN FROM THE GREEN THERMOPHILIC PHOTOSYNTHETIC BACTERIUM CHLOROFLEXUS AURANTIACUS P27197 P27197 1.55 X-RAY DIFFRACTION 28 1.0 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 139 139 1qhq-a2-m1-cA_1qhq-a2-m3-cA ANAPGGSNVVNETPAQTVEVRAAPDALAFAQTSLSLPANTVVRLDFVNQNNLGVQHNWVLVNGGDDVAAAVNTAAQNNADALFVPPPDTPNALAWTAMLNAGESGSVTFRTPAPGTYLYICTFPGHYLAGMKGTLTVTP ANAPGGSNVVNETPAQTVEVRAAPDALAFAQTSLSLPANTVVRLDFVNQNNLGVQHNWVLVNGGDDVAAAVNTAAQNNADALFVPPPDTPNALAWTAMLNAGESGSVTFRTPAPGTYLYICTFPGHYLAGMKGTLTVTP 1qhq-a2-m3-cA_1qhq-a2-m4-cA AURACYANIN, A BLUE COPPER PROTEIN FROM THE GREEN THERMOPHILIC PHOTOSYNTHETIC BACTERIUM CHLOROFLEXUS AURANTIACUS P27197 P27197 1.55 X-RAY DIFFRACTION 34 1.0 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 139 139 1qhq-a2-m1-cA_1qhq-a2-m2-cA ANAPGGSNVVNETPAQTVEVRAAPDALAFAQTSLSLPANTVVRLDFVNQNNLGVQHNWVLVNGGDDVAAAVNTAAQNNADALFVPPPDTPNALAWTAMLNAGESGSVTFRTPAPGTYLYICTFPGHYLAGMKGTLTVTP ANAPGGSNVVNETPAQTVEVRAAPDALAFAQTSLSLPANTVVRLDFVNQNNLGVQHNWVLVNGGDDVAAAVNTAAQNNADALFVPPPDTPNALAWTAMLNAGESGSVTFRTPAPGTYLYICTFPGHYLAGMKGTLTVTP 1qhq-a3-m1-cA_1qhq-a3-m5-cA AURACYANIN, A BLUE COPPER PROTEIN FROM THE GREEN THERMOPHILIC PHOTOSYNTHETIC BACTERIUM CHLOROFLEXUS AURANTIACUS P27197 P27197 1.55 X-RAY DIFFRACTION 32 1.0 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 139 139 1ov8-a5-m1-cC_1ov8-a5-m1-cD 1ov8-a6-m1-cA_1ov8-a6-m1-cB ANAPGGSNVVNETPAQTVEVRAAPDALAFAQTSLSLPANTVVRLDFVNQNNLGVQHNWVLVNGGDDVAAAVNTAAQNNADALFVPPPDTPNALAWTAMLNAGESGSVTFRTPAPGTYLYICTFPGHYLAGMKGTLTVTP ANAPGGSNVVNETPAQTVEVRAAPDALAFAQTSLSLPANTVVRLDFVNQNNLGVQHNWVLVNGGDDVAAAVNTAAQNNADALFVPPPDTPNALAWTAMLNAGESGSVTFRTPAPGTYLYICTFPGHYLAGMKGTLTVTP 1qhv-a1-m2-cA_1qhv-a1-m3-cA HUMAN ADENOVIRUS SEROTYPE 2 FIBRE HEAD P03275 P03275 1.51 X-RAY DIFFRACTION 123 1.0 10515 (Human adenovirus 2) 10515 (Human adenovirus 2) 195 195 1qhv-a1-m1-cA_1qhv-a1-m2-cA 1qhv-a1-m1-cA_1qhv-a1-m3-cA 1qiu-a1-m1-cA_1qiu-a1-m1-cB 1qiu-a1-m1-cA_1qiu-a1-m1-cC 1qiu-a1-m1-cB_1qiu-a1-m1-cC 1qiu-a2-m1-cD_1qiu-a2-m1-cE 1qiu-a2-m1-cD_1qiu-a2-m1-cF 1qiu-a2-m1-cE_1qiu-a2-m1-cF AITIGNKNDDKLTLWTTPDPSPNCRIHSDNDCKFTLVLTKCGSQVLATVAALAVSGDLSSMTGTVASVSIFLRFDQNGVLMENSSLKKHYWNFRNGNSTNANPYTNAVGFMPNLLAYPKTQSQTAKNNIVSQVYLHGDKTKPMILTITLNGTSESTETSEVSTYSMSFTWSWESGKYTTETFATNSYTFSYIAQE AITIGNKNDDKLTLWTTPDPSPNCRIHSDNDCKFTLVLTKCGSQVLATVAALAVSGDLSSMTGTVASVSIFLRFDQNGVLMENSSLKKHYWNFRNGNSTNANPYTNAVGFMPNLLAYPKTQSQTAKNNIVSQVYLHGDKTKPMILTITLNGTSESTETSEVSTYSMSFTWSWESGKYTTETFATNSYTFSYIAQE 1qi7-a2-m1-cA_1qi7-a2-m2-cA THE CRYSTAL STRUCTURE AT 2.0 A OF SAPORIN SO6, A RIBOSOME INACTIVATING PROTEIN FROM SAPONARIA OFFICINALIS P20656 P20656 2 X-RAY DIFFRACTION 46 1.0 3572 (Saponaria officinalis) 3572 (Saponaria officinalis) 253 253 VTSITLDLVNPTAGQYSSFVDKIRNNVKDPNLKYGGTDIAVIGPPSKEKFLRINFQSSRGTVSLGLKRDNLYVVAYLAMDNTNVNRAYYFKSEITSAELTALFPEATTANQKALEYTEDYQSIEKNAQITQGDKSRKELGLGIDLLLTFMEAVNKKARVVKNEARFLLIAIQMTAEVARFRYIQNLVTKNFPNKFDSDNKVIQFEVSWRKISTAIYGDAKNGVFNKDYDFGFGKVRQVKDLQMGLLMYLGKPK VTSITLDLVNPTAGQYSSFVDKIRNNVKDPNLKYGGTDIAVIGPPSKEKFLRINFQSSRGTVSLGLKRDNLYVVAYLAMDNTNVNRAYYFKSEITSAELTALFPEATTANQKALEYTEDYQSIEKNAQITQGDKSRKELGLGIDLLLTFMEAVNKKARVVKNEARFLLIAIQMTAEVARFRYIQNLVTKNFPNKFDSDNKVIQFEVSWRKISTAIYGDAKNGVFNKDYDFGFGKVRQVKDLQMGLLMYLGKPK 1qi9-a1-m1-cA_1qi9-a1-m1-cB X-RAY SIRAS STRUCTURE DETERMINATION OF A VANADIUM-DEPENDENT HALOPEROXIDASE FROM ASCOPHYLLUM NODOSUM AT 2.0 A RESOLUTION P81701 P81701 2.05 X-RAY DIFFRACTION 424 1.0 52969 (Ascophyllum nodosum) 52969 (Ascophyllum nodosum) 555 555 TCSTSDDADDPTPPNERDDEAFASRVAAAKRELEGTGTVCQINNGETDLAAKFHKSLPHDDLGQVDADAFAALEDCILNGDLSICEDVPVGNSEGDPVGRLVNPTAAFAIDISGPAFSATTIPPVPTLPSPELAAQLAEVYWMALARDVPFMQYGTDDITVTAAANLAGMEGFPNLDAVSIGSDGTVDPLSQLFRATFVGVETGPFISQLLVNSFTIDSITVEPKQETFAPDVNYMVDFDEWLNIQNGGPPAGPELLDDELRFVRNARDLARVTFTDNINTEAYRGALILLGLDAFNRAGVNGPFIDIDRQAGFVNFGISHYFRLIGAAELAQRSSWYQKWQVHRFARPEALGGTLHLTIKGELNADFDLSLLENAELLKRVAAINAAQNPNNEVTYLLPQAIQEGSPTHPSYPSGHATQNGAFATVLKALIGLDRGGDCYPDPVYPDDDGLKLIDFRGSCLTFEGEINKLAVNVAFGRQMLGIHYRFDGIQGLLLGETITVRTLHQELMTFAEESTFEFRLFTGEVIKLFQDGTFTIDGFKCPGLVYTGVENCV TCSTSDDADDPTPPNERDDEAFASRVAAAKRELEGTGTVCQINNGETDLAAKFHKSLPHDDLGQVDADAFAALEDCILNGDLSICEDVPVGNSEGDPVGRLVNPTAAFAIDISGPAFSATTIPPVPTLPSPELAAQLAEVYWMALARDVPFMQYGTDDITVTAAANLAGMEGFPNLDAVSIGSDGTVDPLSQLFRATFVGVETGPFISQLLVNSFTIDSITVEPKQETFAPDVNYMVDFDEWLNIQNGGPPAGPELLDDELRFVRNARDLARVTFTDNINTEAYRGALILLGLDAFNRAGVNGPFIDIDRQAGFVNFGISHYFRLIGAAELAQRSSWYQKWQVHRFARPEALGGTLHLTIKGELNADFDLSLLENAELLKRVAAINAAQNPNNEVTYLLPQAIQEGSPTHPSYPSGHATQNGAFATVLKALIGLDRGGDCYPDPVYPDDDGLKLIDFRGSCLTFEGEINKLAVNVAFGRQMLGIHYRFDGIQGLLLGETITVRTLHQELMTFAEESTFEFRLFTGEVIKLFQDGTFTIDGFKCPGLVYTGVENCV 1qia-a6-m1-cB_1qia-a6-m2-cD CRYSTAL STRUCTURE OF STROMELYSIN CATALYTIC DOMAIN P08254 P08254 2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 162 1qia-a5-m1-cA_1qia-a5-m1-cC IPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYHSLTDLTRFRLSQDDINGIQSLYGPPP IPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYHSLTDLTRFRLSQDDINGIQSLYGPPP 1qj9-a1-m3-cA_1qj9-a1-m6-cA CRYSTAL STRUCTURE OF THE OUTER MEMBRANE PROTEIN OMPX FROM ESCHERICHIA COLI P0A917 P0A917 2.1 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 148 148 1qj9-a1-m1-cA_1qj9-a1-m5-cA 1qj9-a1-m2-cA_1qj9-a1-m4-cA ATSTVTGGYAQSDAQGQMNKMGGFNLKYRYEEDNSPLGVIGSFTYTEKSRTASSGDYNKNQYYGITAGPAYRINDWASIYGVVGVGYGKFQTTEYPTYKNDTSDYGFSYGAGLQFNPMENVALDFSYEQSRIRSVDVGTWIAGVGYRF ATSTVTGGYAQSDAQGQMNKMGGFNLKYRYEEDNSPLGVIGSFTYTEKSRTASSGDYNKNQYYGITAGPAYRINDWASIYGVVGVGYGKFQTTEYPTYKNDTSDYGFSYGAGLQFNPMENVALDFSYEQSRIRSVDVGTWIAGVGYRF 1qj9-a1-m5-cA_1qj9-a1-m6-cA CRYSTAL STRUCTURE OF THE OUTER MEMBRANE PROTEIN OMPX FROM ESCHERICHIA COLI P0A917 P0A917 2.1 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 148 148 1qj9-a1-m1-cA_1qj9-a1-m2-cA 1qj9-a1-m1-cA_1qj9-a1-m3-cA 1qj9-a1-m2-cA_1qj9-a1-m3-cA 1qj9-a1-m4-cA_1qj9-a1-m5-cA 1qj9-a1-m4-cA_1qj9-a1-m6-cA ATSTVTGGYAQSDAQGQMNKMGGFNLKYRYEEDNSPLGVIGSFTYTEKSRTASSGDYNKNQYYGITAGPAYRINDWASIYGVVGVGYGKFQTTEYPTYKNDTSDYGFSYGAGLQFNPMENVALDFSYEQSRIRSVDVGTWIAGVGYRF ATSTVTGGYAQSDAQGQMNKMGGFNLKYRYEEDNSPLGVIGSFTYTEKSRTASSGDYNKNQYYGITAGPAYRINDWASIYGVVGVGYGKFQTTEYPTYKNDTSDYGFSYGAGLQFNPMENVALDFSYEQSRIRSVDVGTWIAGVGYRF 1qk1-a1-m1-cA_1qk1-a1-m1-cC CRYSTAL STRUCTURE OF HUMAN UBIQUITOUS MITOCHONDRIAL CREATINE KINASE P12532 P12532 2.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 379 379 1qk1-a1-m1-cA_1qk1-a1-m1-cD 1qk1-a1-m1-cB_1qk1-a1-m1-cC 1qk1-a1-m1-cB_1qk1-a1-m1-cD 1qk1-a1-m1-cE_1qk1-a1-m1-cG 1qk1-a1-m1-cE_1qk1-a1-m1-cH 1qk1-a1-m1-cF_1qk1-a1-m1-cG 1qk1-a1-m1-cF_1qk1-a1-m1-cH 7u5i-a1-m1-cA_7u5i-a1-m1-cC 7u5i-a1-m1-cA_7u5i-a1-m1-cD 7u5i-a1-m1-cB_7u5i-a1-m1-cC 7u5i-a1-m1-cB_7u5i-a1-m1-cD 7u5i-a1-m1-cE_7u5i-a1-m1-cG 7u5i-a1-m1-cE_7u5i-a1-m1-cH 7u5i-a1-m1-cF_7u5i-a1-m1-cG 7u5i-a1-m1-cF_7u5i-a1-m1-cH AASERRRLYPPSAEYPDLRKHNNCMASHLTPAVYARLCDKTTPTGWTLDQCIQTGVDNPGHPFIKTVGMVAGDEETYEVFADLFDPVIQERHNGYDPRTMKHTTDLDASKIRSGYFDERYVLSSRVRTGRSIRGLSLPPACTRAERREVERVVVDALSGLKGDLAGRYYRLSEMTEAEQQQLIDDHFLFDKPVSPLLTAAGMARDWPDARGIWHNNEKSFLIWVNEEDHTRVISMEKGGNMKRVFERFCRGLKEVERLIQERGWEFMWNERLGYILTCPSNLGTGLRAGVHIKLPLLSKDSRFPKILENLRLQKRGTGGVDTAATGGVFDISNLDRLGKSEVELVQLVIDGVNYLIDCERRLERGQDIRIPTPVIHTKH AASERRRLYPPSAEYPDLRKHNNCMASHLTPAVYARLCDKTTPTGWTLDQCIQTGVDNPGHPFIKTVGMVAGDEETYEVFADLFDPVIQERHNGYDPRTMKHTTDLDASKIRSGYFDERYVLSSRVRTGRSIRGLSLPPACTRAERREVERVVVDALSGLKGDLAGRYYRLSEMTEAEQQQLIDDHFLFDKPVSPLLTAAGMARDWPDARGIWHNNEKSFLIWVNEEDHTRVISMEKGGNMKRVFERFCRGLKEVERLIQERGWEFMWNERLGYILTCPSNLGTGLRAGVHIKLPLLSKDSRFPKILENLRLQKRGTGGVDTAATGGVFDISNLDRLGKSEVELVQLVIDGVNYLIDCERRLERGQDIRIPTPVIHTKH 1qk1-a1-m1-cC_1qk1-a1-m1-cF CRYSTAL STRUCTURE OF HUMAN UBIQUITOUS MITOCHONDRIAL CREATINE KINASE P12532 P12532 2.7 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 379 379 1qk1-a1-m1-cA_1qk1-a1-m1-cG 1qk1-a1-m1-cB_1qk1-a1-m1-cH 1qk1-a1-m1-cD_1qk1-a1-m1-cE 7u5i-a1-m1-cA_7u5i-a1-m1-cG 7u5i-a1-m1-cB_7u5i-a1-m1-cH 7u5i-a1-m1-cC_7u5i-a1-m1-cF 7u5i-a1-m1-cD_7u5i-a1-m1-cE AASERRRLYPPSAEYPDLRKHNNCMASHLTPAVYARLCDKTTPTGWTLDQCIQTGVDNPGHPFIKTVGMVAGDEETYEVFADLFDPVIQERHNGYDPRTMKHTTDLDASKIRSGYFDERYVLSSRVRTGRSIRGLSLPPACTRAERREVERVVVDALSGLKGDLAGRYYRLSEMTEAEQQQLIDDHFLFDKPVSPLLTAAGMARDWPDARGIWHNNEKSFLIWVNEEDHTRVISMEKGGNMKRVFERFCRGLKEVERLIQERGWEFMWNERLGYILTCPSNLGTGLRAGVHIKLPLLSKDSRFPKILENLRLQKRGTGGVDTAATGGVFDISNLDRLGKSEVELVQLVIDGVNYLIDCERRLERGQDIRIPTPVIHTKH AASERRRLYPPSAEYPDLRKHNNCMASHLTPAVYARLCDKTTPTGWTLDQCIQTGVDNPGHPFIKTVGMVAGDEETYEVFADLFDPVIQERHNGYDPRTMKHTTDLDASKIRSGYFDERYVLSSRVRTGRSIRGLSLPPACTRAERREVERVVVDALSGLKGDLAGRYYRLSEMTEAEQQQLIDDHFLFDKPVSPLLTAAGMARDWPDARGIWHNNEKSFLIWVNEEDHTRVISMEKGGNMKRVFERFCRGLKEVERLIQERGWEFMWNERLGYILTCPSNLGTGLRAGVHIKLPLLSKDSRFPKILENLRLQKRGTGGVDTAATGGVFDISNLDRLGKSEVELVQLVIDGVNYLIDCERRLERGQDIRIPTPVIHTKH 1qk1-a1-m1-cD_1qk1-a1-m1-cH CRYSTAL STRUCTURE OF HUMAN UBIQUITOUS MITOCHONDRIAL CREATINE KINASE P12532 P12532 2.7 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 379 379 1qk1-a1-m1-cA_1qk1-a1-m1-cE 1qk1-a1-m1-cB_1qk1-a1-m1-cF 1qk1-a1-m1-cC_1qk1-a1-m1-cG 7u5i-a1-m1-cA_7u5i-a1-m1-cE 7u5i-a1-m1-cB_7u5i-a1-m1-cF 7u5i-a1-m1-cC_7u5i-a1-m1-cG 7u5i-a1-m1-cD_7u5i-a1-m1-cH AASERRRLYPPSAEYPDLRKHNNCMASHLTPAVYARLCDKTTPTGWTLDQCIQTGVDNPGHPFIKTVGMVAGDEETYEVFADLFDPVIQERHNGYDPRTMKHTTDLDASKIRSGYFDERYVLSSRVRTGRSIRGLSLPPACTRAERREVERVVVDALSGLKGDLAGRYYRLSEMTEAEQQQLIDDHFLFDKPVSPLLTAAGMARDWPDARGIWHNNEKSFLIWVNEEDHTRVISMEKGGNMKRVFERFCRGLKEVERLIQERGWEFMWNERLGYILTCPSNLGTGLRAGVHIKLPLLSKDSRFPKILENLRLQKRGTGGVDTAATGGVFDISNLDRLGKSEVELVQLVIDGVNYLIDCERRLERGQDIRIPTPVIHTKH AASERRRLYPPSAEYPDLRKHNNCMASHLTPAVYARLCDKTTPTGWTLDQCIQTGVDNPGHPFIKTVGMVAGDEETYEVFADLFDPVIQERHNGYDPRTMKHTTDLDASKIRSGYFDERYVLSSRVRTGRSIRGLSLPPACTRAERREVERVVVDALSGLKGDLAGRYYRLSEMTEAEQQQLIDDHFLFDKPVSPLLTAAGMARDWPDARGIWHNNEKSFLIWVNEEDHTRVISMEKGGNMKRVFERFCRGLKEVERLIQERGWEFMWNERLGYILTCPSNLGTGLRAGVHIKLPLLSKDSRFPKILENLRLQKRGTGGVDTAATGGVFDISNLDRLGKSEVELVQLVIDGVNYLIDCERRLERGQDIRIPTPVIHTKH 1qkb-a1-m1-cB_1qkb-a1-m1-cA OLIGO-PEPTIDE BINDING PROTEIN (OPPA) COMPLEXED WITH KVK P06202 1.8 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 3 517 1b0h-a1-m1-cB_1b0h-a1-m1-cA 1b1h-a1-m1-cB_1b1h-a1-m1-cA 1b2h-a1-m1-cB_1b2h-a1-m1-cA 1b3h-a1-m1-cB_1b3h-a1-m1-cA 1b4h-a1-m1-cB_1b4h-a1-m1-cA 1b5h-a1-m1-cB_1b5h-a1-m1-cA 1b6h-a1-m1-cB_1b6h-a1-m1-cA 1b7h-a1-m1-cB_1b7h-a1-m1-cA 1b9j-a1-m1-cB_1b9j-a1-m1-cA KVK ADVPAGVQLADKQTLVRNNGSEVQSLDPHKIEGVPESNVSRDLFEGLLISDVEGHPSPGVAEKWENKDFKVWTFHLRENAKWSDGTPVTAHDFVYSWQRLADPNTASPYASYLQYGHIANIDDIIAGKKPATDLGVKALDDHTFEVTLSEPVPYFYKLLVHPSVSPVPKSAVEKFGDKWTQPANIVTNGAYKLKNWVVNERIVLERNPQYWDNAKTVINQVTYLPISSEVTDVNRYRSGEIDMTYNNMPIELFQKLKKEIPNEVRVDPYLCTYYYEINNQKAPFNDVRVRTALKLALDRDIIVNKVKNQGDLPAYSYTPPYTDGAKLVEPEWFKWSQQKRNEEAKKLLAEAGFTADKPLTFDLLYNTSDLHKKLAIAVASIWKKNLGVNVNLENQEWKTFLDTRHQGTFDVARAGWCADYNEPTSFLNTMLSDSSNNTAHYKSPAFDKLIADTLKVADDTQRSELYAKAEQQLDKDSAIVPVYYYVNARLVKPWVGGYTGKDPLDNIYVKNLYIIKH 1qkd-a1-m1-cA_1qkd-a1-m1-cB ERABUTOXIN P60775 P60775 1.49 X-RAY DIFFRACTION 30 1.0 8631 (Laticauda semifasciata) 8631 (Laticauda semifasciata) 62 62 3era-a1-m1-cA_3era-a1-m1-cB 6ebx-a1-m1-cA_6ebx-a1-m1-cB 6pnw-a1-m1-cA_6pnw-a1-m1-cB RICFNHQSSQPQTTKTCSPGESSCYNKQWSDFRGTIIERGCGCPTVKPGIKLSCCESEVCNN RICFNHQSSQPQTTKTCSPGESSCYNKQWSDFRGTIIERGCGCPTVKPGIKLSCCESEVCNN 1qki-a1-m1-cB_1qki-a1-m1-cD X-RAY STRUCTURE OF HUMAN GLUCOSE 6-PHOSPHATE DEHYDROGENASE (VARIANT CANTON R459L) COMPLEXED WITH STRUCTURAL NADP+ P11413 P11413 3 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 489 490 1qki-a1-m1-cA_1qki-a1-m1-cC 1qki-a2-m1-cE_1qki-a2-m1-cG 1qki-a2-m1-cH_1qki-a2-m1-cF 2bhl-a1-m1-cA_2bhl-a1-m2-cA 2bhl-a1-m1-cB_2bhl-a1-m2-cB 5ukw-a1-m1-cA_5ukw-a1-m2-cA 5ukw-a1-m3-cA_5ukw-a1-m4-cA 7sng-a1-m1-cA_7sng-a1-m1-cD 7sng-a1-m1-cB_7sng-a1-m1-cC 7snh-a1-m1-cA_7snh-a1-m1-cD 7snh-a1-m1-cB_7snh-a1-m1-cC 7sni-a1-m1-cA_7sni-a1-m1-cD 7sni-a1-m1-cB_7sni-a1-m1-cC 7toe-a1-m1-cA_7toe-a1-m1-cD 7toe-a1-m1-cB_7toe-a1-m1-cC 7ual-a1-m1-cA_7ual-a1-m1-cD 7ual-a1-m1-cB_7ual-a1-m1-cC 7uc2-a1-m1-cA_7uc2-a1-m1-cD 7uc2-a1-m1-cB_7uc2-a1-m1-cC HVCGIQSDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPASTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGEGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAGDIFHQQCKRNELVIRVQPNEAVYTKMMTKKPGMFFNPEESELDLTYGNRYKNVKLPDAYERLILDVFCGSQMHFVRSDELLEAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVGFQYEGTYKWVN THVCGIQSDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPASTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGEGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAGDIFHQQCKRNELVIRVQPNEAVYTKMMTKKPGMFFNPEESELDLTYGNRYKNVKLPDAYERLILDVFCGSQMHFVRSDELLEAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVGFQYEGTYKWVN 1ql0-a1-m1-cA_1ql0-a1-m1-cB Sm Endonuclease from Seratia marcenscens at atomic resolution P13717 P13717 1.1 X-RAY DIFFRACTION 53 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 241 241 1g8t-a1-m1-cA_1g8t-a1-m1-cB 1qae-a1-m1-cA_1qae-a1-m1-cB 1smn-a1-m1-cA_1smn-a1-m1-cB SIDNCAVGCPTGGSSKVSIVRHAYTLNNNSTTKFANWVAYHITKDTPASGKTRNWKTDPALNPADTLAPADYTGANAALKVDRGHQAPLASLAGVSDWESLNYLSNITPQKSDLNQGAWARLEDQERKLIDRADISSVYTVTGPLYERDMGKLPGTQKAHTIPSAYWKVIFINNSPAVNHYAAFLFDQNTPKGADFCQFRVTVDEIEKRTGLIIWAGLPDDVQASLKSKPGVLPELMGCKN SIDNCAVGCPTGGSSKVSIVRHAYTLNNNSTTKFANWVAYHITKDTPASGKTRNWKTDPALNPADTLAPADYTGANAALKVDRGHQAPLASLAGVSDWESLNYLSNITPQKSDLNQGAWARLEDQERKLIDRADISSVYTVTGPLYERDMGKLPGTQKAHTIPSAYWKVIFINNSPAVNHYAAFLFDQNTPKGADFCQFRVTVDEIEKRTGLIIWAGLPDDVQASLKSKPGVLPELMGCKN 1qlm-a1-m2-cA_1qlm-a1-m3-cA The crystal structure of methenyltetrahydromethanopterin cyclohydrolase from the hyperthermophilic archaeon Methanopyrus kandleri P94954 P94954 2 X-RAY DIFFRACTION 65 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 316 316 1qlm-a1-m1-cA_1qlm-a1-m2-cA 1qlm-a1-m1-cA_1qlm-a1-m3-cA MVSVNENALPLVERMIERAELLNVEVQELENGTTVIDCGVEAAGGFEAGLLFSEVCMGGLATVELTEFEHDGLCLPAVQVTTDHPAVSTLAAQKAGWQVQVGDYFAMGSGPARALALKPKETYEEIDYEDDADVAILCLESSELPDEDVAEHVADECGVDPENLYLLVAPTASIVGSVQVSARVVETGLYKLLEVLEYDVTRVKYATGTAPIAPVADDDGEAMGRTNDCILYGGTVYLYVEGDDELPEVVEELPSEASEDYGKPFMKIFEEADYDFYKIDPGVFAPARVVVNDLSTGKTYTAGEINVDVLKESFSL MVSVNENALPLVERMIERAELLNVEVQELENGTTVIDCGVEAAGGFEAGLLFSEVCMGGLATVELTEFEHDGLCLPAVQVTTDHPAVSTLAAQKAGWQVQVGDYFAMGSGPARALALKPKETYEEIDYEDDADVAILCLESSELPDEDVAEHVADECGVDPENLYLLVAPTASIVGSVQVSARVVETGLYKLLEVLEYDVTRVKYATGTAPIAPVADDDGEAMGRTNDCILYGGTVYLYVEGDDELPEVVEELPSEASEDYGKPFMKIFEEADYDFYKIDPGVFAPARVVVNDLSTGKTYTAGEINVDVLKESFSL 1qls-a1-m1-cA_1qls-a1-m2-cA S100C (S100A11),OR CALGIZZARIN, IN COMPLEX WITH ANNEXIN I N-TERMINUS P31950 P31950 2.3 X-RAY DIFFRACTION 91 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 95 95 PTETERCIESLIAIFQKHAGRDGNNTKISKTEFLIFMNTELAAFTQNQKDPGVLDRMMKKLDLDSDGQLDFQEFLNLIGGLAIACHDSFIKSTQK PTETERCIESLIAIFQKHAGRDGNNTKISKTEFLIFMNTELAAFTQNQKDPGVLDRMMKKLDLDSDGQLDFQEFLNLIGGLAIACHDSFIKSTQK 1qlw-a1-m1-cB_1qlw-a1-m1-cA The Atomic Resolution Structure of a Novel Bacterial Esterase Q7SIA5 Q7SIA5 1.09 X-RAY DIFFRACTION 226 1.0 512 (Alcaligenes sp.) 512 (Alcaligenes sp.) 317 318 2wkw-a1-m1-cA_2wkw-a1-m1-cB VPKTPAGPLTLSGQGSFFVGGRDVTSETLSLSPKYDAHGTVTVDQMYVRYQIPQRAKRYPITLIHGCCLTGMTWETTPDGRMGWDEYFLRKGYSTYVIDQSGRGRSATDISAINAVKLGKAPASSLPDLFAAGHEAAWAIFRFGPRYPDAFKDTQFPVQAQAELWQQMVPDWLGSMPTPNPTVANLSKLAIKLDGTVLLSHSQSGIYPFQTAAMNPKGITAIVSVEPGECPKPEDVKPLTSIPVLVVFGDHIEEFPRWAPRLKACHAFIDALNAAGGKGQLMSLPALGVHGNSHMMMQDRNNLQVADLILDWIGRNT VPKTPAGPLTLSGQGSFFVGGRDVTSETLSLSPKYDAHGTVTVDQMYVRYQIPQRAKRYPITLIHGCCLTGMTWETTPDGRMGWDEYFLRKGYSTYVIDQSGRGRSATDISAINAVKLGKAPASSLPDLFAAGHEAAWAIFRFGPRYPDAFKDTQFPVQAQAELWQQMVPDWLGSMPTPNPTVANLSKLAIKLDGTVLLSHSQSGIYPFQTAAMNPKGITAIVSVEPGECPKPEDVKPLTSIPVLVVFGDHIEEFPRWAPRLKACHAFIDALNAAGGKGQLMSLPALGVHGNSHMMMQDRNNLQVADLILDWIGRNTA 1qm4-a1-m1-cA_1qm4-a1-m2-cB Methionine Adenosyltransferase Complexed with a L-Methionine Analogue P13444 P13444 2.66 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 368 368 1o90-a1-m1-cA_1o90-a1-m2-cB 1o90-a1-m1-cB_1o90-a1-m2-cA 1o92-a1-m1-cA_1o92-a1-m2-cB 1o92-a1-m1-cB_1o92-a1-m2-cA 1o93-a1-m1-cA_1o93-a1-m2-cB 1o93-a1-m1-cB_1o93-a1-m2-cA 1o9t-a1-m1-cA_1o9t-a1-m2-cB 1o9t-a1-m1-cB_1o9t-a1-m2-cA 1qm4-a1-m1-cB_1qm4-a1-m2-cA 2obv-a2-m1-cA_2obv-a2-m3-cA 2obv-a2-m2-cA_2obv-a2-m4-cA GAFMFTSESVGEGHPDKICDQISDAVLDAHLKQDPNAKVACETVCKTGMVLLCGEITSMAMIDYQRVVRDTIKHIGYDDSAKGFDFKTCNVLVALEQQSPEDVGAGDQGLMFGYATDETEECMPLTIVLAHKLNTRMADLRRSGVLPWLRPDSKTQVTVQYVQDNGAVIPVRVHTIVISVQHNEDITLEAMREALKEQVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGVTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKAGLCRRVLVQVSYAIGVAEPLSISIFTYGTSKKTERELLEVVNKNFDLRPGVIVRDLDLKKPIYQKTACYGHFGRSEFPWEVPKKLVF GAFMFTSESVGEGHPDKICDQISDAVLDAHLKQDPNAKVACETVCKTGMVLLCGEITSMAMIDYQRVVRDTIKHIGYDDSAKGFDFKTCNVLVALEQQSPEDVGAGDQGLMFGYATDETEECMPLTIVLAHKLNTRMADLRRSGVLPWLRPDSKTQVTVQYVQDNGAVIPVRVHTIVISVQHNEDITLEAMREALKEQVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGVTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKAGLCRRVLVQVSYAIGVAEPLSISIFTYGTSKKTERELLEVVNKNFDLRPGVIVRDLDLKKPIYQKTACYGHFGRSEFPWEVPKKLVF 1qm4-a1-m1-cB_1qm4-a1-m2-cB Methionine Adenosyltransferase Complexed with a L-Methionine Analogue P13444 P13444 2.66 X-RAY DIFFRACTION 19 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 368 368 1o90-a1-m1-cA_1o90-a1-m2-cA 1o90-a1-m1-cB_1o90-a1-m2-cB 1o92-a1-m1-cA_1o92-a1-m2-cA 1o92-a1-m1-cB_1o92-a1-m2-cB 1o93-a1-m1-cA_1o93-a1-m2-cA 1o93-a1-m1-cB_1o93-a1-m2-cB 1o9t-a1-m1-cA_1o9t-a1-m2-cA 1o9t-a1-m1-cB_1o9t-a1-m2-cB 1qm4-a1-m1-cA_1qm4-a1-m2-cA 2obv-a2-m1-cA_2obv-a2-m4-cA 2obv-a2-m2-cA_2obv-a2-m3-cA GAFMFTSESVGEGHPDKICDQISDAVLDAHLKQDPNAKVACETVCKTGMVLLCGEITSMAMIDYQRVVRDTIKHIGYDDSAKGFDFKTCNVLVALEQQSPEDVGAGDQGLMFGYATDETEECMPLTIVLAHKLNTRMADLRRSGVLPWLRPDSKTQVTVQYVQDNGAVIPVRVHTIVISVQHNEDITLEAMREALKEQVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGVTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKAGLCRRVLVQVSYAIGVAEPLSISIFTYGTSKKTERELLEVVNKNFDLRPGVIVRDLDLKKPIYQKTACYGHFGRSEFPWEVPKKLVF GAFMFTSESVGEGHPDKICDQISDAVLDAHLKQDPNAKVACETVCKTGMVLLCGEITSMAMIDYQRVVRDTIKHIGYDDSAKGFDFKTCNVLVALEQQSPEDVGAGDQGLMFGYATDETEECMPLTIVLAHKLNTRMADLRRSGVLPWLRPDSKTQVTVQYVQDNGAVIPVRVHTIVISVQHNEDITLEAMREALKEQVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGVTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKAGLCRRVLVQVSYAIGVAEPLSISIFTYGTSKKTERELLEVVNKNFDLRPGVIVRDLDLKKPIYQKTACYGHFGRSEFPWEVPKKLVF 1qm4-a1-m2-cA_1qm4-a1-m2-cB Methionine Adenosyltransferase Complexed with a L-Methionine Analogue P13444 P13444 2.66 X-RAY DIFFRACTION 133 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 368 368 1o90-a1-m1-cA_1o90-a1-m1-cB 1o90-a1-m2-cA_1o90-a1-m2-cB 1o92-a1-m1-cA_1o92-a1-m1-cB 1o92-a1-m2-cA_1o92-a1-m2-cB 1o93-a1-m1-cA_1o93-a1-m1-cB 1o93-a1-m2-cA_1o93-a1-m2-cB 1o9t-a1-m1-cA_1o9t-a1-m1-cB 1o9t-a1-m2-cA_1o9t-a1-m2-cB 1qm4-a1-m1-cA_1qm4-a1-m1-cB 2obv-a1-m1-cA_2obv-a1-m2-cA 2obv-a2-m1-cA_2obv-a2-m2-cA 2obv-a2-m3-cA_2obv-a2-m4-cA 6sw5-a1-m1-cA_6sw5-a1-m1-cB 6sw5-a2-m1-cD_6sw5-a2-m1-cC 6sw6-a1-m1-cB_6sw6-a1-m1-cA GAFMFTSESVGEGHPDKICDQISDAVLDAHLKQDPNAKVACETVCKTGMVLLCGEITSMAMIDYQRVVRDTIKHIGYDDSAKGFDFKTCNVLVALEQQSPEDVGAGDQGLMFGYATDETEECMPLTIVLAHKLNTRMADLRRSGVLPWLRPDSKTQVTVQYVQDNGAVIPVRVHTIVISVQHNEDITLEAMREALKEQVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGVTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKAGLCRRVLVQVSYAIGVAEPLSISIFTYGTSKKTERELLEVVNKNFDLRPGVIVRDLDLKKPIYQKTACYGHFGRSEFPWEVPKKLVF GAFMFTSESVGEGHPDKICDQISDAVLDAHLKQDPNAKVACETVCKTGMVLLCGEITSMAMIDYQRVVRDTIKHIGYDDSAKGFDFKTCNVLVALEQQSPEDVGAGDQGLMFGYATDETEECMPLTIVLAHKLNTRMADLRRSGVLPWLRPDSKTQVTVQYVQDNGAVIPVRVHTIVISVQHNEDITLEAMREALKEQVIKAVVPAKYLDEDTIYHLQPSGRFVIGGPQGDAGVTGRKIIVDTYGGWGAHGGGAFSGKDYTKVDRSAAYAARWVAKSLVKAGLCRRVLVQVSYAIGVAEPLSISIFTYGTSKKTERELLEVVNKNFDLRPGVIVRDLDLKKPIYQKTACYGHFGRSEFPWEVPKKLVF 1qmg-a2-m1-cC_1qmg-a2-m1-cD Acetohydroxyacid isomeroreductase complexed with its reaction product dihydroxy-methylvalerate, manganese and ADP-ribose. Q01292 Q01292 1.6 X-RAY DIFFRACTION 108 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 512 513 1qmg-a1-m1-cB_1qmg-a1-m1-cA 1yve-a1-m1-cJ_1yve-a1-m1-cI 1yve-a2-m1-cK_1yve-a2-m1-cL TTFDFDSSVFKKEKVTLSGHDEYIVRGGRNLFPLLPDAFKGIKQIGVIGWGSQAPAQAQNLKDSLTEAKSDVVVKIGLRKGSNSFAEARAAGFSEENGTLGDMWETISGSDLVLLLISDSAQADNYEKVFSHMKPNSILGLSHGFLLGHLQSLGQDFPKNISVIAVCPKGMGPSVRRLYVQGKEVNGAGINSSFAVHQDVDGRATDVALGWSIALGSPFTFATTLEQEYKSDIFGERGILLGAVHGIVECLFRRYTESGMSEDLAYKNTVECITGVISKTISTKGMLALYNSLSEEGKKDFQAAYSASYYPSMDILYECYEDVASGSEIRSVVLAGRRFYEKEGLPAFPMGKIDQTRMWKVGEKVRSVRPAGDLGPLYPFTAGVYVALMMAQIEILRKKGHSYSEIINESVIEAVDSLNPFMHARGVSFMVDNCSTTARLGSRKWAPRFDYILSQQALVAVDNGAPINQDLISNFLSDPVHEAIGVCAQLRPSVDISVTADADFVRPELRQA ATTFDFDSSVFKKEKVTLSGHDEYIVRGGRNLFPLLPDAFKGIKQIGVIGWGSQAPAQAQNLKDSLTEAKSDVVVKIGLRKGSNSFAEARAAGFSEENGTLGDMWETISGSDLVLLLISDSAQADNYEKVFSHMKPNSILGLSHGFLLGHLQSLGQDFPKNISVIAVCPKGMGPSVRRLYVQGKEVNGAGINSSFAVHQDVDGRATDVALGWSIALGSPFTFATTLEQEYKSDIFGERGILLGAVHGIVECLFRRYTESGMSEDLAYKNTVECITGVISKTISTKGMLALYNSLSEEGKKDFQAAYSASYYPSMDILYECYEDVASGSEIRSVVLAGRRFYEKEGLPAFPMGKIDQTRMWKVGEKVRSVRPAGDLGPLYPFTAGVYVALMMAQIEILRKKGHSYSEIINESVIEAVDSLNPFMHARGVSFMVDNCSTTARLGSRKWAPRFDYILSQQALVAVDNGAPINQDLISNFLSDPVHEAIGVCAQLRPSVDISVTADADFVRPELRQA 1qmi-a2-m1-cC_1qmi-a2-m1-cD Crystal structure of RNA 3'-terminal phosphate cyclase, an ubiquitous enzyme with unusual topology P46849 P46849 2.8 X-RAY DIFFRACTION 54 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 331 331 1qmh-a1-m1-cA_1qmh-a1-m1-cB 1qmi-a1-m1-cA_1qmi-a1-m1-cB IALDGAQGEGGGQILRSALSLSITGQPFTITSIRAGRAKPGLLRQHLTAVKAATEICGATVEGAELGSQRLLFRPGTVRGGDYRFAIGSAGSCTLVLQTVLPALWFADGPSRVEVSGGTDNPSAPPADFIRRVLEPLLAKIGIHQQTTLLRHGFYPAGGGVVATEVSPVASFNTLQLGERGNIVQRGEVLLAGVPRHVAEREIATLAGSFSLHEQNIHNLPRDQGPGNTVSLEVESENITERFFVVGEKRVSAEVVAAQLVKEVKRYLASTAAVGEYLADQLVLPALAGAGEFTVAHPSCHLLTNIAVVERFLPVRFSLIETDGVTRVSIE IALDGAQGEGGGQILRSALSLSITGQPFTITSIRAGRAKPGLLRQHLTAVKAATEICGATVEGAELGSQRLLFRPGTVRGGDYRFAIGSAGSCTLVLQTVLPALWFADGPSRVEVSGGTDNPSAPPADFIRRVLEPLLAKIGIHQQTTLLRHGFYPAGGGVVATEVSPVASFNTLQLGERGNIVQRGEVLLAGVPRHVAEREIATLAGSFSLHEQNIHNLPRDQGPGNTVSLEVESENITERFFVVGEKRVSAEVVAAQLVKEVKRYLASTAAVGEYLADQLVLPALAGAGEFTVAHPSCHLLTNIAVVERFLPVRFSLIETDGVTRVSIE 1qmj-a1-m1-cA_1qmj-a1-m1-cB CG-16, a homodimeric agglutinin from chicken liver P23668 P23668 2.15 X-RAY DIFFRACTION 38 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 132 132 QGLVVTQLDVQPGECVKVKGKILSDAKGFSVNVGKDSSTLMLHFNPRFDCHGDVNTVVCNSKEDGTWGEEDRKADFPFQQGDKVEICISFDAAEVKVKVPEVEFEFPNRLGMEKIQYLAVEGDFKVKAIKFS QGLVVTQLDVQPGECVKVKGKILSDAKGFSVNVGKDSSTLMLHFNPRFDCHGDVNTVVCNSKEDGTWGEEDRKADFPFQQGDKVEICISFDAAEVKVKVPEVEFEFPNRLGMEKIQYLAVEGDFKVKAIKFS 1qmo-a1-m1-cC_1qmo-a1-m1-cD Structure of FRIL, a legume lectin that delays hematopoietic progenitor maturation Q9ZTA9 Q9ZTA9 3.5 X-RAY DIFFRACTION 65 1.0 35936 (Lablab purpureus) 35936 (Lablab purpureus) 113 113 1qmo-a1-m1-cA_1qmo-a1-m1-cB AQSLSFSFTKFDPNQEDLIFQGHATSTNNVLQVTKLDSAGNPVSSSAGRVLYSAPLRLWEDSAVLTSFDTIINFEISTPYTSRIADGLAFFIAPPDSVISYHGGFLGLFPNAN AQSLSFSFTKFDPNQEDLIFQGHATSTNNVLQVTKLDSAGNPVSSSAGRVLYSAPLRLWEDSAVLTSFDTIINFEISTPYTSRIADGLAFFIAPPDSVISYHGGFLGLFPNAN 1qmo-a1-m1-cF_1qmo-a1-m1-cH Structure of FRIL, a legume lectin that delays hematopoietic progenitor maturation Q9ZTA9 Q9ZTA9 3.5 X-RAY DIFFRACTION 45 1.0 35936 (Lablab purpureus) 35936 (Lablab purpureus) 117 117 1qmo-a1-m1-cE_1qmo-a1-m1-cG SNVVAVEFDTYLNPDYGDPNYIHIGIDVNSIRSKVTAKWDWQNGKIATAHISYNSVSKRLSVTSYYAGSKPATLSYDIELHTVLPEWVRVGLSASTGQDKERNTVHSWSFTSSLWTN SNVVAVEFDTYLNPDYGDPNYIHIGIDVNSIRSKVTAKWDWQNGKIATAHISYNSVSKRLSVTSYYAGSKPATLSYDIELHTVLPEWVRVGLSASTGQDKERNTVHSWSFTSSLWTN 1qmu-a1-m2-cA_1qmu-a1-m3-cA Duck carboxypeptidase D domain II P83852 P83852 2.7 X-RAY DIFFRACTION 31 1.0 380 380 1qmu-a1-m1-cA_1qmu-a1-m2-cA 1qmu-a1-m1-cA_1qmu-a1-m3-cA QAVQPVDFRHHHFSDMEIFLRRYANEYPSITRLYSVGKSVELRELYVMEISDNPGIHEAGEPEFKYIGNMHGNEVVGRELLLNLIEYLCKNFGTDPEVTDLVQSTRIHIMPSMNPDGYEKSQEGDRGGTVGRNNSNNYDLNRNFPDQFFQVTDPPQPETLAVMSWLKTYPFVLSANLHGGSLVVNYPFDDDEQGIAIYSKSPDDAVFQQLALSYSKENKKMYQGSPCKDLYPTEYFPHGITNGAQWYNVPGGMQDWNYLNTNCFEVTIELGCVKYPKAEELPKYWEQNRRSLLQFIKQVHRGIWGFVLDATDGRGILNATISVADINHPVTTYKDGDYWRLLVQGTYKVTASARGYDPVTKTVEVDSKGGVQVNFTLSRT QAVQPVDFRHHHFSDMEIFLRRYANEYPSITRLYSVGKSVELRELYVMEISDNPGIHEAGEPEFKYIGNMHGNEVVGRELLLNLIEYLCKNFGTDPEVTDLVQSTRIHIMPSMNPDGYEKSQEGDRGGTVGRNNSNNYDLNRNFPDQFFQVTDPPQPETLAVMSWLKTYPFVLSANLHGGSLVVNYPFDDDEQGIAIYSKSPDDAVFQQLALSYSKENKKMYQGSPCKDLYPTEYFPHGITNGAQWYNVPGGMQDWNYLNTNCFEVTIELGCVKYPKAEELPKYWEQNRRSLLQFIKQVHRGIWGFVLDATDGRGILNATISVADINHPVTTYKDGDYWRLLVQGTYKVTASARGYDPVTKTVEVDSKGGVQVNFTLSRT 1qni-a3-m1-cE_1qni-a3-m1-cF Crystal Structure of Nitrous Oxide Reductase from Pseudomonas nautica, at 2.4A Resolution Q7SIA3 Q7SIA3 2.4 X-RAY DIFFRACTION 389 1.0 2743 (Marinobacter nauticus) 2743 (Marinobacter nauticus) 572 572 1qni-a1-m1-cA_1qni-a1-m1-cB 1qni-a2-m1-cC_1qni-a2-m1-cD AHVAPGELDEYYGFWSGGHQGEVRVLGVPSMRELMRIPVFNVDSATGWGITNESKEILGGDQQYLNGDCHHPHISMTDGRYDGKYLFINDKANTRVARIRLDIMKTDKITHIPNVQAIHGLRLQKVPKTNYVFCNAEFVIPQPNDGTDFSLDNSYTMFTAIDAETMDVAWQVIVDGNLDNTDADYTGKYATSTCYNSERAVDLAGTMRNDRDWVVVFNVERIAAAVKAGNFKTIGDSKVPVVDGRGESEFTRYIPVPKNPHGLNTSPDGKYFIANGKLSPTVSVIAIDKLDDLFEDKIELRDTIVAEPELGLGPLHTTFDGRGNAYTTLFIDSQVCKWNIADAIKHYNGDRVNYIRQKLDVQYQPGHNHASLTESRDADGKWLVVLSKFSKDRFLPVGPLHPENDQLIDISGEEMKLVHDGPTYAEPHDCILVRRDQIKTKKIYERNDPYFASCRAQAEKDGVTLESDNKVIRDGNKVRVYMTSVAPQYGMTDFKVKEGDEVTVYITNLDMVEDVTHGFCMVNHGVSMEISPQQTASVTFTAGKPGVYWYYCNWFCHALHMEMVGRMLVEAA AHVAPGELDEYYGFWSGGHQGEVRVLGVPSMRELMRIPVFNVDSATGWGITNESKEILGGDQQYLNGDCHHPHISMTDGRYDGKYLFINDKANTRVARIRLDIMKTDKITHIPNVQAIHGLRLQKVPKTNYVFCNAEFVIPQPNDGTDFSLDNSYTMFTAIDAETMDVAWQVIVDGNLDNTDADYTGKYATSTCYNSERAVDLAGTMRNDRDWVVVFNVERIAAAVKAGNFKTIGDSKVPVVDGRGESEFTRYIPVPKNPHGLNTSPDGKYFIANGKLSPTVSVIAIDKLDDLFEDKIELRDTIVAEPELGLGPLHTTFDGRGNAYTTLFIDSQVCKWNIADAIKHYNGDRVNYIRQKLDVQYQPGHNHASLTESRDADGKWLVVLSKFSKDRFLPVGPLHPENDQLIDISGEEMKLVHDGPTYAEPHDCILVRRDQIKTKKIYERNDPYFASCRAQAEKDGVTLESDNKVIRDGNKVRVYMTSVAPQYGMTDFKVKEGDEVTVYITNLDMVEDVTHGFCMVNHGVSMEISPQQTASVTFTAGKPGVYWYYCNWFCHALHMEMVGRMLVEAA 1qnl-a1-m1-cA_1qnl-a1-m4-cA AMIDE RECEPTOR/NEGATIVE REGULATOR OF THE AMIDASE OPERON OF PSEUDOMONAS AERUGINOSA (AMIC) COMPLEXED WITH BUTYRAMIDE P27017 P27017 2.7 X-RAY DIFFRACTION 37 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 368 368 1qnl-a1-m2-cA_1qnl-a1-m3-cA PLIGLLFSETGVTADIERSQRYGALLAVEQLNREGGVGGRPIETLSQDPGGDPDRYRLCAEDFIRNRGVRFLVGCYMSHTRKAVMPVVERADALLCYPNPYEGFEYSPNIVYGGPAPNQNSAPLAAYLIRHYGERVVFIGSDYIYPRESNHVMRHLYRQHGGTVLEEIYIPLYPSDDDLQRAVERIYQARADVVFSTVVGTGTAELYRAIARRYGDGRRPPIASLTTSEAEVAKMESDVAEGQVVVAPYFSSIDTPASRAFVQACHGFFPENATITAWAEAAYWQTLLLGRAAQAAGNWRVEDVQRHLYDIDIDAPQGPVRVERQNNHSRLSSRIAEIDARGVFQVRWQSPEPIRPDPYVVVHNLDDW PLIGLLFSETGVTADIERSQRYGALLAVEQLNREGGVGGRPIETLSQDPGGDPDRYRLCAEDFIRNRGVRFLVGCYMSHTRKAVMPVVERADALLCYPNPYEGFEYSPNIVYGGPAPNQNSAPLAAYLIRHYGERVVFIGSDYIYPRESNHVMRHLYRQHGGTVLEEIYIPLYPSDDDLQRAVERIYQARADVVFSTVVGTGTAELYRAIARRYGDGRRPPIASLTTSEAEVAKMESDVAEGQVVVAPYFSSIDTPASRAFVQACHGFFPENATITAWAEAAYWQTLLLGRAAQAAGNWRVEDVQRHLYDIDIDAPQGPVRVERQNNHSRLSSRIAEIDARGVFQVRWQSPEPIRPDPYVVVHNLDDW 1qnn-a1-m1-cA_1qnn-a1-m1-cC Cambialistic superoxide dismutase from Porphyromonas gingivalis P19665 P19665 1.8 X-RAY DIFFRACTION 40 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 191 191 MTHELISLPYAVDALAPVISKETVEFHHGKHLKTYVDNLNKLIIGTEFENADLNTIVQKSEGGIFNNAGQTLNHNLYFTQFRPGKGGAPKGKLGEAIDKQFGSFEKFKEEFNTAGTTLFGSGWVWLASDANGKLSIEKEPNAGNPVRKGLNPLLGFDVWEHAYYLTYQNRRADHLKDLWSIVDWDIVESRY MTHELISLPYAVDALAPVISKETVEFHHGKHLKTYVDNLNKLIIGTEFENADLNTIVQKSEGGIFNNAGQTLNHNLYFTQFRPGKGGAPKGKLGEAIDKQFGSFEKFKEEFNTAGTTLFGSGWVWLASDANGKLSIEKEPNAGNPVRKGLNPLLGFDVWEHAYYLTYQNRRADHLKDLWSIVDWDIVESRY 1qnn-a1-m1-cD_1qnn-a1-m1-cC Cambialistic superoxide dismutase from Porphyromonas gingivalis P19665 P19665 1.8 X-RAY DIFFRACTION 49 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 190 191 1qnn-a1-m1-cA_1qnn-a1-m1-cB 1uer-a1-m1-cA_1uer-a1-m1-cB 1uer-a2-m1-cC_1uer-a2-m1-cD 1ues-a1-m1-cA_1ues-a1-m1-cB 1ues-a2-m1-cC_1ues-a2-m1-cD THELISLPYAVDALAPVISKETVEFHHGKHLKTYVDNLNKLIIGTEFENADLNTIVQKSEGGIFNNAGQTLNHNLYFTQFRPGKGGAPKGKLGEAIDKQFGSFEKFKEEFNTAGTTLFGSGWVWLASDANGKLSIEKEPNAGNPVRKGLNPLLGFDVWEHAYYLTYQNRRADHLKDLWSIVDWDIVESRY MTHELISLPYAVDALAPVISKETVEFHHGKHLKTYVDNLNKLIIGTEFENADLNTIVQKSEGGIFNNAGQTLNHNLYFTQFRPGKGGAPKGKLGEAIDKQFGSFEKFKEEFNTAGTTLFGSGWVWLASDANGKLSIEKEPNAGNPVRKGLNPLLGFDVWEHAYYLTYQNRRADHLKDLWSIVDWDIVESRY 1qnu-a1-m1-cA_1qnu-a1-m2-cE Shiga-Like Toxin I B Subunit Complexed with the Bridged-Starfish Inhibitor V5URS0 V5URS0 2.23 X-RAY DIFFRACTION 15 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 69 69 1qnu-a1-m1-cB_1qnu-a1-m2-cD 1qnu-a1-m1-cC_1qnu-a1-m2-cC 1qnu-a1-m1-cD_1qnu-a1-m2-cB 1qnu-a1-m1-cE_1qnu-a1-m2-cA TPDCVTGKVEYTKYNDDDTFTVKVGDKELFTNRWNLQSLLLSAQITGMTVTIKTNACHNGGGFSEVIFR TPDCVTGKVEYTKYNDDDTFTVKVGDKELFTNRWNLQSLLLSAQITGMTVTIKTNACHNGGGFSEVIFR 1qnu-a1-m2-cD_1qnu-a1-m2-cE Shiga-Like Toxin I B Subunit Complexed with the Bridged-Starfish Inhibitor V5URS0 V5URS0 2.23 X-RAY DIFFRACTION 37 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 69 69 1bos-a1-m1-cA_1bos-a1-m1-cB 1bos-a1-m1-cA_1bos-a1-m1-cE 1bos-a1-m1-cB_1bos-a1-m1-cC 1bos-a1-m1-cC_1bos-a1-m1-cD 1bos-a1-m1-cD_1bos-a1-m1-cE 1bos-a2-m1-cF_1bos-a2-m1-cG 1bos-a2-m1-cF_1bos-a2-m1-cJ 1bos-a2-m1-cG_1bos-a2-m1-cH 1bos-a2-m1-cH_1bos-a2-m1-cI 1bos-a2-m1-cI_1bos-a2-m1-cJ 1bos-a3-m1-cK_1bos-a3-m1-cL 1bos-a3-m1-cK_1bos-a3-m1-cO 1bos-a3-m1-cL_1bos-a3-m1-cM 1bos-a3-m1-cM_1bos-a3-m1-cN 1bos-a3-m1-cN_1bos-a3-m1-cO 1bos-a4-m1-cP_1bos-a4-m1-cQ 1bos-a4-m1-cP_1bos-a4-m1-cT 1bos-a4-m1-cQ_1bos-a4-m1-cR 1bos-a4-m1-cR_1bos-a4-m1-cS 1bos-a4-m1-cS_1bos-a4-m1-cT 1c48-a1-m1-cA_1c48-a1-m1-cB 1c48-a1-m1-cA_1c48-a1-m1-cE 1c48-a1-m1-cB_1c48-a1-m1-cC 1c48-a1-m1-cC_1c48-a1-m1-cD 1c48-a1-m1-cD_1c48-a1-m1-cE 1c4q-a1-m1-cA_1c4q-a1-m1-cB 1c4q-a1-m1-cA_1c4q-a1-m1-cE 1c4q-a1-m1-cB_1c4q-a1-m1-cC 1c4q-a1-m1-cC_1c4q-a1-m1-cD 1c4q-a1-m1-cD_1c4q-a1-m1-cE 1cqf-a1-m1-cA_1cqf-a1-m1-cB 1cqf-a1-m1-cA_1cqf-a1-m1-cE 1cqf-a1-m1-cB_1cqf-a1-m1-cC 1cqf-a1-m1-cC_1cqf-a1-m1-cD 1cqf-a1-m1-cD_1cqf-a1-m1-cE 1czg-a1-m1-cA_1czg-a1-m1-cB 1czg-a1-m1-cA_1czg-a1-m1-cE 1czg-a1-m1-cB_1czg-a1-m1-cC 1czg-a1-m1-cC_1czg-a1-m1-cD 1czg-a1-m1-cD_1czg-a1-m1-cE 1czw-a1-m1-cA_1czw-a1-m1-cB 1czw-a1-m1-cA_1czw-a1-m1-cE 1czw-a1-m1-cB_1czw-a1-m1-cC 1czw-a1-m1-cC_1czw-a1-m1-cD 1czw-a1-m1-cD_1czw-a1-m1-cE 1czw-a2-m1-cF_1czw-a2-m1-cG 1czw-a2-m1-cF_1czw-a2-m1-cJ 1czw-a2-m1-cG_1czw-a2-m1-cH 1czw-a2-m1-cH_1czw-a2-m1-cI 1czw-a2-m1-cI_1czw-a2-m1-cJ 1d1i-a1-m1-cA_1d1i-a1-m1-cB 1d1i-a1-m1-cA_1d1i-a1-m1-cE 1d1i-a1-m1-cB_1d1i-a1-m1-cC 1d1i-a1-m1-cC_1d1i-a1-m1-cD 1d1i-a1-m1-cD_1d1i-a1-m1-cE 1d1k-a1-m1-cA_1d1k-a1-m1-cB 1d1k-a1-m1-cA_1d1k-a1-m1-cE 1d1k-a1-m1-cB_1d1k-a1-m1-cC 1d1k-a1-m1-cC_1d1k-a1-m1-cD 1d1k-a1-m1-cD_1d1k-a1-m1-cE 1dm0-a1-m1-cB_1dm0-a1-m1-cC 1dm0-a1-m1-cB_1dm0-a1-m1-cF 1dm0-a1-m1-cC_1dm0-a1-m1-cD 1dm0-a1-m1-cD_1dm0-a1-m1-cE 1dm0-a1-m1-cE_1dm0-a1-m1-cF 1dm0-a2-m1-cG_1dm0-a2-m1-cH 1dm0-a2-m1-cG_1dm0-a2-m1-cK 1dm0-a2-m1-cH_1dm0-a2-m1-cI 1dm0-a2-m1-cI_1dm0-a2-m1-cJ 1dm0-a2-m1-cJ_1dm0-a2-m1-cK 1dm0-a3-m1-cB_1dm0-a3-m1-cC 1dm0-a3-m1-cB_1dm0-a3-m1-cF 1dm0-a3-m1-cC_1dm0-a3-m1-cD 1dm0-a3-m1-cD_1dm0-a3-m1-cE 1dm0-a3-m1-cE_1dm0-a3-m1-cF 1dm0-a3-m1-cG_1dm0-a3-m1-cH 1dm0-a3-m1-cG_1dm0-a3-m1-cK 1dm0-a3-m1-cH_1dm0-a3-m1-cI 1dm0-a3-m1-cI_1dm0-a3-m1-cJ 1dm0-a3-m1-cJ_1dm0-a3-m1-cK 1qnu-a1-m1-cA_1qnu-a1-m1-cB 1qnu-a1-m1-cA_1qnu-a1-m1-cE 1qnu-a1-m1-cB_1qnu-a1-m1-cC 1qnu-a1-m1-cC_1qnu-a1-m1-cD 1qnu-a1-m1-cD_1qnu-a1-m1-cE 1qnu-a1-m2-cA_1qnu-a1-m2-cB 1qnu-a1-m2-cA_1qnu-a1-m2-cE 1qnu-a1-m2-cB_1qnu-a1-m2-cC 1qnu-a1-m2-cC_1qnu-a1-m2-cD 1r4q-a1-m1-cB_1r4q-a1-m1-cC 1r4q-a1-m1-cB_1r4q-a1-m1-cF 1r4q-a1-m1-cC_1r4q-a1-m1-cD 1r4q-a1-m1-cD_1r4q-a1-m1-cE 1r4q-a1-m1-cE_1r4q-a1-m1-cF 1r4q-a2-m1-cG_1r4q-a2-m1-cH 1r4q-a2-m1-cG_1r4q-a2-m1-cK 1r4q-a2-m1-cH_1r4q-a2-m1-cI 1r4q-a2-m1-cI_1r4q-a2-m1-cJ 1r4q-a2-m1-cJ_1r4q-a2-m1-cK 1r4q-a3-m1-cB_1r4q-a3-m1-cC 1r4q-a3-m1-cB_1r4q-a3-m1-cF 1r4q-a3-m1-cC_1r4q-a3-m1-cD 1r4q-a3-m1-cD_1r4q-a3-m1-cE 1r4q-a3-m1-cE_1r4q-a3-m1-cF 1r4q-a3-m1-cG_1r4q-a3-m1-cH 1r4q-a3-m1-cG_1r4q-a3-m1-cK 1r4q-a3-m1-cH_1r4q-a3-m1-cI 1r4q-a3-m1-cI_1r4q-a3-m1-cJ 1r4q-a3-m1-cJ_1r4q-a3-m1-cK 2c5c-a1-m1-cA_2c5c-a1-m1-cB 2c5c-a1-m1-cA_2c5c-a1-m1-cE 2c5c-a1-m1-cB_2c5c-a1-m1-cC 2c5c-a1-m1-cC_2c5c-a1-m1-cD 2c5c-a1-m1-cD_2c5c-a1-m1-cE 2c5c-a2-m1-cF_2c5c-a2-m1-cG 2c5c-a2-m1-cF_2c5c-a2-m1-cJ 2c5c-a2-m1-cG_2c5c-a2-m1-cH 2c5c-a2-m1-cH_2c5c-a2-m1-cI 2c5c-a2-m1-cI_2c5c-a2-m1-cJ 2xsc-a1-m1-cA_2xsc-a1-m1-cB 2xsc-a1-m1-cA_2xsc-a1-m1-cE 2xsc-a1-m1-cB_2xsc-a1-m1-cC 2xsc-a1-m1-cC_2xsc-a1-m1-cD 2xsc-a1-m1-cD_2xsc-a1-m1-cE TPDCVTGKVEYTKYNDDDTFTVKVGDKELFTNRWNLQSLLLSAQITGMTVTIKTNACHNGGGFSEVIFR TPDCVTGKVEYTKYNDDDTFTVKVGDKELFTNRWNLQSLLLSAQITGMTVTIKTNACHNGGGFSEVIFR 1qnw-a1-m1-cB_1qnw-a1-m1-cD lectin II from Ulex europaeus P22973 P22973 2.35 X-RAY DIFFRACTION 66 1.0 3902 (Ulex europaeus) 3902 (Ulex europaeus) 236 236 1dzq-a1-m1-cA_1dzq-a1-m1-cC 1dzq-a1-m1-cB_1dzq-a1-m1-cD 1qnw-a1-m1-cA_1qnw-a1-m1-cC 1qoo-a1-m1-cA_1qoo-a1-m1-cC 1qoo-a1-m1-cB_1qoo-a1-m1-cD 1qos-a1-m1-cA_1qos-a1-m1-cB 1qos-a1-m2-cA_1qos-a1-m2-cB 1qot-a1-m1-cA_1qot-a1-m1-cC 1qot-a1-m1-cB_1qot-a1-m1-cD SDDLSFNFDKFVPNQKNIIFQGDASVSTTGVLQVTKVSKPTTTSIGRALYAAPIQIWDSITGKVASFATSFSFVVKADKSDGVDGLAFFLAPANSQIPSGSSAGMFGLFSSSDSKSSNQIIAVEFDTYFGKAYNPWDPDFKHIGIDVNSIKSIKTVKWDWRNGEVADVVITYRAPTKSLTVCLSYPSDGTSNIITASVDLKAILPEWVSVGFSGGVGNAAEFETHDVLSWYFTSNL SDDLSFNFDKFVPNQKNIIFQGDASVSTTGVLQVTKVSKPTTTSIGRALYAAPIQIWDSITGKVASFATSFSFVVKADKSDGVDGLAFFLAPANSQIPSGSSAGMFGLFSSSDSKSSNQIIAVEFDTYFGKAYNPWDPDFKHIGIDVNSIKSIKTVKWDWRNGEVADVVITYRAPTKSLTVCLSYPSDGTSNIITASVDLKAILPEWVSVGFSGGVGNAAEFETHDVLSWYFTSNL 1qnw-a1-m1-cC_1qnw-a1-m1-cD lectin II from Ulex europaeus P22973 P22973 2.35 X-RAY DIFFRACTION 52 1.0 3902 (Ulex europaeus) 3902 (Ulex europaeus) 236 236 1dzq-a1-m1-cA_1dzq-a1-m1-cB 1dzq-a1-m1-cC_1dzq-a1-m1-cD 1qnw-a1-m1-cA_1qnw-a1-m1-cB 1qoo-a1-m1-cA_1qoo-a1-m1-cB 1qoo-a1-m1-cC_1qoo-a1-m1-cD 1qos-a1-m1-cA_1qos-a1-m2-cB 1qos-a1-m1-cB_1qos-a1-m2-cA 1qot-a1-m1-cA_1qot-a1-m1-cB 1qot-a1-m1-cC_1qot-a1-m1-cD SDDLSFNFDKFVPNQKNIIFQGDASVSTTGVLQVTKVSKPTTTSIGRALYAAPIQIWDSITGKVASFATSFSFVVKADKSDGVDGLAFFLAPANSQIPSGSSAGMFGLFSSSDSKSSNQIIAVEFDTYFGKAYNPWDPDFKHIGIDVNSIKSIKTVKWDWRNGEVADVVITYRAPTKSLTVCLSYPSDGTSNIITASVDLKAILPEWVSVGFSGGVGNAAEFETHDVLSWYFTSNL SDDLSFNFDKFVPNQKNIIFQGDASVSTTGVLQVTKVSKPTTTSIGRALYAAPIQIWDSITGKVASFATSFSFVVKADKSDGVDGLAFFLAPANSQIPSGSSAGMFGLFSSSDSKSSNQIIAVEFDTYFGKAYNPWDPDFKHIGIDVNSIKSIKTVKWDWRNGEVADVVITYRAPTKSLTVCLSYPSDGTSNIITASVDLKAILPEWVSVGFSGGVGNAAEFETHDVLSWYFTSNL 1qo0-a1-m1-cD_1qo0-a1-m2-cD Amide receptor of the amidase operon of Pseudomonas aeruginosa (AmiC) complexed with the negative regulator AmiR. P10932 P10932 2.25 X-RAY DIFFRACTION 22 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 189 189 SANSLLGSLRELQVLVLNPPGEVSDALVLQLIRIGCSVRQCWPPPEAFDVPVDVVFTSIFQNRHHDEIAALLAAGTPRTTLVALVEYESPAVLSQIIELECHGVITQPLDAHRVLPVLVSARRISEEMAKLKQKTEQLQDRIAGQARINQAKVLLMQRHGWDEREAHQHLSREAMKRREPILKIAQELL SANSLLGSLRELQVLVLNPPGEVSDALVLQLIRIGCSVRQCWPPPEAFDVPVDVVFTSIFQNRHHDEIAALLAAGTPRTTLVALVEYESPAVLSQIIELECHGVITQPLDAHRVLPVLVSARRISEEMAKLKQKTEQLQDRIAGQARINQAKVLLMQRHGWDEREAHQHLSREAMKRREPILKIAQELL 1qo0-a1-m1-cE_1qo0-a1-m2-cE Amide receptor of the amidase operon of Pseudomonas aeruginosa (AmiC) complexed with the negative regulator AmiR. P10932 P10932 2.25 X-RAY DIFFRACTION 34 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 194 194 SANSLLGSLRELQVLVLNPPGEVSDALVLQLIRIGCSVRQCWPPPEAFDVPVDVVFTSIFQNRHHDEIAALLAAGTPRTTLVALVEYESPAVLSQIIELECHGVITQPLDAHRVLPVLVSARRISEEMAKLKQKTEQLQDRIAGQARINQAKVLLMQRHGWDEREAHQHLSREAMKRREPILKIAQELLGNEPS SANSLLGSLRELQVLVLNPPGEVSDALVLQLIRIGCSVRQCWPPPEAFDVPVDVVFTSIFQNRHHDEIAALLAAGTPRTTLVALVEYESPAVLSQIIELECHGVITQPLDAHRVLPVLVSARRISEEMAKLKQKTEQLQDRIAGQARINQAKVLLMQRHGWDEREAHQHLSREAMKRREPILKIAQELLGNEPS 1qo0-a1-m2-cD_1qo0-a1-m2-cE Amide receptor of the amidase operon of Pseudomonas aeruginosa (AmiC) complexed with the negative regulator AmiR. P10932 P10932 2.25 X-RAY DIFFRACTION 120 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 189 194 1qo0-a1-m1-cD_1qo0-a1-m1-cE SANSLLGSLRELQVLVLNPPGEVSDALVLQLIRIGCSVRQCWPPPEAFDVPVDVVFTSIFQNRHHDEIAALLAAGTPRTTLVALVEYESPAVLSQIIELECHGVITQPLDAHRVLPVLVSARRISEEMAKLKQKTEQLQDRIAGQARINQAKVLLMQRHGWDEREAHQHLSREAMKRREPILKIAQELL SANSLLGSLRELQVLVLNPPGEVSDALVLQLIRIGCSVRQCWPPPEAFDVPVDVVFTSIFQNRHHDEIAALLAAGTPRTTLVALVEYESPAVLSQIIELECHGVITQPLDAHRVLPVLVSARRISEEMAKLKQKTEQLQDRIAGQARINQAKVLLMQRHGWDEREAHQHLSREAMKRREPILKIAQELLGNEPS 1qo1-a1-m1-cQ_1qo1-a1-m1-cR Molecular Architecture of the Rotary Motor in ATP Synthase from Yeast Mitochondria P68699 P68699 3.9 X-RAY DIFFRACTION 122 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 79 79 1qo1-a1-m1-cK_1qo1-a1-m1-cL 1qo1-a1-m1-cK_1qo1-a1-m1-cT 1qo1-a1-m1-cL_1qo1-a1-m1-cM 1qo1-a1-m1-cM_1qo1-a1-m1-cN 1qo1-a1-m1-cN_1qo1-a1-m1-cO 1qo1-a1-m1-cO_1qo1-a1-m1-cP 1qo1-a1-m1-cP_1qo1-a1-m1-cQ 1qo1-a1-m1-cR_1qo1-a1-m1-cS 1qo1-a1-m1-cS_1qo1-a1-m1-cT 5t4o-a1-m1-cM_5t4o-a1-m1-cN 5t4o-a1-m1-cM_5t4o-a1-m1-cV 5t4o-a1-m1-cN_5t4o-a1-m1-cO 5t4o-a1-m1-cO_5t4o-a1-m1-cP 5t4o-a1-m1-cP_5t4o-a1-m1-cQ 5t4o-a1-m1-cQ_5t4o-a1-m1-cR 5t4o-a1-m1-cR_5t4o-a1-m1-cS 5t4o-a1-m1-cS_5t4o-a1-m1-cT 5t4o-a1-m1-cT_5t4o-a1-m1-cU 5t4o-a1-m1-cU_5t4o-a1-m1-cV 5t4p-a1-m1-cM_5t4p-a1-m1-cN 5t4p-a1-m1-cM_5t4p-a1-m1-cV 5t4p-a1-m1-cN_5t4p-a1-m1-cO 5t4p-a1-m1-cO_5t4p-a1-m1-cP 5t4p-a1-m1-cP_5t4p-a1-m1-cQ 5t4p-a1-m1-cQ_5t4p-a1-m1-cR 5t4p-a1-m1-cR_5t4p-a1-m1-cS 5t4p-a1-m1-cS_5t4p-a1-m1-cT 5t4p-a1-m1-cT_5t4p-a1-m1-cU 5t4p-a1-m1-cU_5t4p-a1-m1-cV 5t4q-a1-m1-cM_5t4q-a1-m1-cN 5t4q-a1-m1-cM_5t4q-a1-m1-cV 5t4q-a1-m1-cN_5t4q-a1-m1-cO 5t4q-a1-m1-cO_5t4q-a1-m1-cP 5t4q-a1-m1-cP_5t4q-a1-m1-cQ 5t4q-a1-m1-cQ_5t4q-a1-m1-cR 5t4q-a1-m1-cR_5t4q-a1-m1-cS 5t4q-a1-m1-cS_5t4q-a1-m1-cT 5t4q-a1-m1-cT_5t4q-a1-m1-cU 5t4q-a1-m1-cU_5t4q-a1-m1-cV 6oqr-a1-m1-cI_6oqr-a1-m1-cP 6oqr-a1-m1-cI_6oqr-a1-m1-cQ 6oqr-a1-m1-cJ_6oqr-a1-m1-cL 6oqr-a1-m1-cJ_6oqr-a1-m1-cM 6oqr-a1-m1-cL_6oqr-a1-m1-cQ 6oqr-a1-m1-cN_6oqr-a1-m1-cO 6oqr-a1-m1-cN_6oqr-a1-m1-cS 6oqr-a1-m1-cO_6oqr-a1-m1-cP 6oqr-a1-m1-cR_6oqr-a1-m1-cM 6oqr-a1-m1-cR_6oqr-a1-m1-cS 6oqs-a1-m1-cI_6oqs-a1-m1-cP 6oqs-a1-m1-cI_6oqs-a1-m1-cQ 6oqs-a1-m1-cJ_6oqs-a1-m1-cL 6oqs-a1-m1-cJ_6oqs-a1-m1-cM 6oqs-a1-m1-cL_6oqs-a1-m1-cQ 6oqs-a1-m1-cN_6oqs-a1-m1-cO 6oqs-a1-m1-cN_6oqs-a1-m1-cS 6oqs-a1-m1-cO_6oqs-a1-m1-cP 6oqs-a1-m1-cR_6oqs-a1-m1-cM 6oqs-a1-m1-cR_6oqs-a1-m1-cS 6oqt-a1-m1-cI_6oqt-a1-m1-cP 6oqt-a1-m1-cI_6oqt-a1-m1-cQ 6oqt-a1-m1-cJ_6oqt-a1-m1-cL 6oqt-a1-m1-cJ_6oqt-a1-m1-cM 6oqt-a1-m1-cL_6oqt-a1-m1-cQ 6oqt-a1-m1-cN_6oqt-a1-m1-cO 6oqt-a1-m1-cN_6oqt-a1-m1-cS 6oqt-a1-m1-cO_6oqt-a1-m1-cP 6oqt-a1-m1-cR_6oqt-a1-m1-cM 6oqt-a1-m1-cR_6oqt-a1-m1-cS 6oqu-a1-m1-cI_6oqu-a1-m1-cP 6oqu-a1-m1-cI_6oqu-a1-m1-cQ 6oqu-a1-m1-cJ_6oqu-a1-m1-cL 6oqu-a1-m1-cJ_6oqu-a1-m1-cM 6oqu-a1-m1-cL_6oqu-a1-m1-cQ 6oqu-a1-m1-cN_6oqu-a1-m1-cO 6oqu-a1-m1-cN_6oqu-a1-m1-cS 6oqu-a1-m1-cO_6oqu-a1-m1-cP 6oqu-a1-m1-cR_6oqu-a1-m1-cM 6oqu-a1-m1-cR_6oqu-a1-m1-cS 6oqv-a1-m1-cI_6oqv-a1-m1-cP 6oqv-a1-m1-cI_6oqv-a1-m1-cQ 6oqv-a1-m1-cJ_6oqv-a1-m1-cL 6oqv-a1-m1-cJ_6oqv-a1-m1-cM 6oqv-a1-m1-cL_6oqv-a1-m1-cQ 6oqv-a1-m1-cN_6oqv-a1-m1-cO 6oqv-a1-m1-cN_6oqv-a1-m1-cS 6oqv-a1-m1-cO_6oqv-a1-m1-cP 6oqv-a1-m1-cR_6oqv-a1-m1-cM 6oqv-a1-m1-cR_6oqv-a1-m1-cS 6oqw-a1-m1-cI_6oqw-a1-m1-cP 6oqw-a1-m1-cI_6oqw-a1-m1-cQ 6oqw-a1-m1-cJ_6oqw-a1-m1-cL 6oqw-a1-m1-cJ_6oqw-a1-m1-cM 6oqw-a1-m1-cL_6oqw-a1-m1-cQ 6oqw-a1-m1-cN_6oqw-a1-m1-cO 6oqw-a1-m1-cN_6oqw-a1-m1-cS 6oqw-a1-m1-cO_6oqw-a1-m1-cP 6oqw-a1-m1-cR_6oqw-a1-m1-cM 6oqw-a1-m1-cR_6oqw-a1-m1-cS 6pqv-a1-m1-cI_6pqv-a1-m1-cP 6pqv-a1-m1-cI_6pqv-a1-m1-cQ 6pqv-a1-m1-cJ_6pqv-a1-m1-cL 6pqv-a1-m1-cJ_6pqv-a1-m1-cM 6pqv-a1-m1-cL_6pqv-a1-m1-cQ 6pqv-a1-m1-cN_6pqv-a1-m1-cO 6pqv-a1-m1-cN_6pqv-a1-m1-cS 6pqv-a1-m1-cO_6pqv-a1-m1-cP 6pqv-a1-m1-cR_6pqv-a1-m1-cM 6pqv-a1-m1-cR_6pqv-a1-m1-cS 6vwk-a1-m1-cI_6vwk-a1-m1-cP 6vwk-a1-m1-cI_6vwk-a1-m1-cQ 6vwk-a1-m1-cJ_6vwk-a1-m1-cL 6vwk-a1-m1-cJ_6vwk-a1-m1-cM 6vwk-a1-m1-cL_6vwk-a1-m1-cQ 6vwk-a1-m1-cM_6vwk-a1-m1-cR 6vwk-a1-m1-cN_6vwk-a1-m1-cO 6vwk-a1-m1-cN_6vwk-a1-m1-cS 6vwk-a1-m1-cO_6vwk-a1-m1-cP 6vwk-a1-m1-cR_6vwk-a1-m1-cS 6wnq-a1-m1-cI_6wnq-a1-m1-cP 6wnq-a1-m1-cI_6wnq-a1-m1-cQ 6wnq-a1-m1-cJ_6wnq-a1-m1-cL 6wnq-a1-m1-cJ_6wnq-a1-m1-cM 6wnq-a1-m1-cL_6wnq-a1-m1-cQ 6wnq-a1-m1-cM_6wnq-a1-m1-cR 6wnq-a1-m1-cN_6wnq-a1-m1-cO 6wnq-a1-m1-cN_6wnq-a1-m1-cS 6wnq-a1-m1-cO_6wnq-a1-m1-cP 6wnq-a1-m1-cR_6wnq-a1-m1-cS 6wnr-a1-m1-cI_6wnr-a1-m1-cP 6wnr-a1-m1-cI_6wnr-a1-m1-cQ 6wnr-a1-m1-cJ_6wnr-a1-m1-cL 6wnr-a1-m1-cJ_6wnr-a1-m1-cM 6wnr-a1-m1-cL_6wnr-a1-m1-cQ 6wnr-a1-m1-cM_6wnr-a1-m1-cR 6wnr-a1-m1-cN_6wnr-a1-m1-cO 6wnr-a1-m1-cN_6wnr-a1-m1-cS 6wnr-a1-m1-cO_6wnr-a1-m1-cP 6wnr-a1-m1-cR_6wnr-a1-m1-cS 8dbp-a1-m1-cI_8dbp-a1-m1-cP 8dbp-a1-m1-cI_8dbp-a1-m1-cQ 8dbp-a1-m1-cJ_8dbp-a1-m1-cL 8dbp-a1-m1-cJ_8dbp-a1-m1-cM 8dbp-a1-m1-cL_8dbp-a1-m1-cQ 8dbp-a1-m1-cM_8dbp-a1-m1-cR 8dbp-a1-m1-cN_8dbp-a1-m1-cO 8dbp-a1-m1-cN_8dbp-a1-m1-cS 8dbp-a1-m1-cO_8dbp-a1-m1-cP 8dbp-a1-m1-cR_8dbp-a1-m1-cS 8dbq-a1-m1-cI_8dbq-a1-m1-cP 8dbq-a1-m1-cI_8dbq-a1-m1-cQ 8dbq-a1-m1-cJ_8dbq-a1-m1-cL 8dbq-a1-m1-cJ_8dbq-a1-m1-cM 8dbq-a1-m1-cL_8dbq-a1-m1-cQ 8dbq-a1-m1-cN_8dbq-a1-m1-cO 8dbq-a1-m1-cN_8dbq-a1-m1-cS 8dbq-a1-m1-cO_8dbq-a1-m1-cP 8dbq-a1-m1-cR_8dbq-a1-m1-cM 8dbq-a1-m1-cR_8dbq-a1-m1-cS 8dbr-a1-m1-cI_8dbr-a1-m1-cP 8dbr-a1-m1-cI_8dbr-a1-m1-cQ 8dbr-a1-m1-cJ_8dbr-a1-m1-cL 8dbr-a1-m1-cJ_8dbr-a1-m1-cM 8dbr-a1-m1-cL_8dbr-a1-m1-cQ 8dbr-a1-m1-cN_8dbr-a1-m1-cO 8dbr-a1-m1-cN_8dbr-a1-m1-cS 8dbr-a1-m1-cO_8dbr-a1-m1-cP 8dbr-a1-m1-cR_8dbr-a1-m1-cM 8dbr-a1-m1-cR_8dbr-a1-m1-cS 8dbs-a1-m1-cI_8dbs-a1-m1-cP 8dbs-a1-m1-cI_8dbs-a1-m1-cQ 8dbs-a1-m1-cJ_8dbs-a1-m1-cL 8dbs-a1-m1-cJ_8dbs-a1-m1-cM 8dbs-a1-m1-cL_8dbs-a1-m1-cQ 8dbs-a1-m1-cN_8dbs-a1-m1-cO 8dbs-a1-m1-cN_8dbs-a1-m1-cS 8dbs-a1-m1-cO_8dbs-a1-m1-cP 8dbs-a1-m1-cR_8dbs-a1-m1-cM 8dbs-a1-m1-cR_8dbs-a1-m1-cS 8dbt-a1-m1-cI_8dbt-a1-m1-cP 8dbt-a1-m1-cI_8dbt-a1-m1-cQ 8dbt-a1-m1-cJ_8dbt-a1-m1-cL 8dbt-a1-m1-cJ_8dbt-a1-m1-cM 8dbt-a1-m1-cL_8dbt-a1-m1-cQ 8dbt-a1-m1-cN_8dbt-a1-m1-cO 8dbt-a1-m1-cN_8dbt-a1-m1-cS 8dbt-a1-m1-cO_8dbt-a1-m1-cP 8dbt-a1-m1-cR_8dbt-a1-m1-cM 8dbt-a1-m1-cR_8dbt-a1-m1-cS 8dbu-a1-m1-cI_8dbu-a1-m1-cP 8dbu-a1-m1-cI_8dbu-a1-m1-cQ 8dbu-a1-m1-cJ_8dbu-a1-m1-cL 8dbu-a1-m1-cJ_8dbu-a1-m1-cM 8dbu-a1-m1-cL_8dbu-a1-m1-cQ 8dbu-a1-m1-cN_8dbu-a1-m1-cO 8dbu-a1-m1-cN_8dbu-a1-m1-cS 8dbu-a1-m1-cO_8dbu-a1-m1-cP 8dbu-a1-m1-cR_8dbu-a1-m1-cM 8dbu-a1-m1-cR_8dbu-a1-m1-cS 8dbv-a1-m1-cI_8dbv-a1-m1-cP 8dbv-a1-m1-cI_8dbv-a1-m1-cQ 8dbv-a1-m1-cJ_8dbv-a1-m1-cL 8dbv-a1-m1-cJ_8dbv-a1-m1-cM 8dbv-a1-m1-cL_8dbv-a1-m1-cQ 8dbv-a1-m1-cN_8dbv-a1-m1-cO 8dbv-a1-m1-cN_8dbv-a1-m1-cS 8dbv-a1-m1-cO_8dbv-a1-m1-cP 8dbv-a1-m1-cR_8dbv-a1-m1-cM 8dbv-a1-m1-cR_8dbv-a1-m1-cS 8dbw-a1-m1-cI_8dbw-a1-m1-cP 8dbw-a1-m1-cI_8dbw-a1-m1-cQ 8dbw-a1-m1-cJ_8dbw-a1-m1-cL 8dbw-a1-m1-cJ_8dbw-a1-m1-cM 8dbw-a1-m1-cL_8dbw-a1-m1-cQ 8dbw-a1-m1-cN_8dbw-a1-m1-cO 8dbw-a1-m1-cN_8dbw-a1-m1-cS 8dbw-a1-m1-cO_8dbw-a1-m1-cP 8dbw-a1-m1-cR_8dbw-a1-m1-cM 8dbw-a1-m1-cR_8dbw-a1-m1-cS MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA MENLNMDLLYMAAAVMMGLAAIGAAIGIGILGGKFLEGAARQPDLIPLLRTQFFIVMGLVDAIPMIAVGLGLYVMFAVA 1qo3-a2-m1-cD_1qo3-a2-m1-cC Complex between NK cell receptor Ly49A and its MHC class I ligand H-2Dd P20937 P20937 2.3 X-RAY DIFFRACTION 27 0.983 10090 (Mus musculus) 10090 (Mus musculus) 121 128 1qo3-a1-m1-cD_1qo3-a1-m1-cC DKVYWFCYGMKCYYFVMDRKTWSGCKQTCQSSSLSLLKIDDEDELKFLQLVVPSDSCWVGLSYDNKKKDWAWIDNRPSKLALNTRKYNIRDGGCMLLSKTRLDNGNCDQVFICICGKRLDK STVLDSLQHKVYWFCYGMKCYYFVMDRKTWSGCKQTCQSSSLSLLKIDDEDELKFLQLVVPSDSCWVGLSYDNKKKDWAWIDNRPSKLALNTRKYNIRDGGCMLLSKTRLDNGNCDQVFICICGKRLD 1qo7-a1-m1-cA_1qo7-a1-m1-cB Structure of Aspergillus niger epoxide hydrolase Q9UR30 Q9UR30 1.8 X-RAY DIFFRACTION 198 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 385 385 3g02-a1-m1-cB_3g02-a1-m1-cA 3g0i-a1-m1-cA_3g0i-a1-m1-cB KAFAKFPSSASISPNPFTVSIPDEQLDDLKTLVRLSKIAPPTYESLQADGRFGITSEWLTTMREKWLSEFDWRPFEARLNSFPQFTTEIEGLTIHFAALFSEREDAVPIALLHGWPGSFVEFYPILQLFREEYTPETLPFHLVVPSLPGYTFSSGPPLDKDFGLMDNARVVDQLMKDLGFGSGYIIQGGDIGSFVGRLLGVGFDACKAVHLNLCAMRAPPEGPSIESLSAAEKEGIARMEKFMTDGLAYAMEHSTRPSTIGHVLSSSPIALLAWIGEKYLQWVDKPLPSETILEMVSLYWLTESFPRAIHTYRETTPMLQKELYIHKPFGFSFFPKDLCPVPRSWIATTGNLVFFRDHAEGGHFAALERPRELKTDLTAFVEQVW KAFAKFPSSASISPNPFTVSIPDEQLDDLKTLVRLSKIAPPTYESLQADGRFGITSEWLTTMREKWLSEFDWRPFEARLNSFPQFTTEIEGLTIHFAALFSEREDAVPIALLHGWPGSFVEFYPILQLFREEYTPETLPFHLVVPSLPGYTFSSGPPLDKDFGLMDNARVVDQLMKDLGFGSGYIIQGGDIGSFVGRLLGVGFDACKAVHLNLCAMRAPPEGPSIESLSAAEKEGIARMEKFMTDGLAYAMEHSTRPSTIGHVLSSSPIALLAWIGEKYLQWVDKPLPSETILEMVSLYWLTESFPRAIHTYRETTPMLQKELYIHKPFGFSFFPKDLCPVPRSWIATTGNLVFFRDHAEGGHFAALERPRELKTDLTAFVEQVW 1qo8-a1-m1-cA_1qo8-a1-m1-cD The structure of the open conformation of a flavocytochrome c3 fumarate reductase Q9Z4P0 Q9Z4P0 2.15 X-RAY DIFFRACTION 32 1.0 56812 (Shewanella frigidimarina) 56812 (Shewanella frigidimarina) 564 564 TPDMGSFHADMGSCQSCHAKPIKVTDSETHENAQCKSCHGEYAELANDKLQFDPHNSHLGDINCTSCHKGHEEPKFYCNECHSFDIKPMPFSDAKKKKSWDDGWDQDKIQKAIAAGPSETTQVLVVGAGSAGFNASLAAKKAGANVILVDKAPFSGGNSMISAGGMNAVGTKQQTAHGVEDKVEWFIEDAMKGGRQQNDIKLVTILAEQSADGVQWLESLGANLDDLKRSGGARVDRTHRPHGGKSSGPEIIDTLRKAAKEQGIDTRLNSRVVKLVVNDDHSVVGAVVHGKHTGYYMIGAKSVVLATGGYGMNKEMIAYYRPTMKDMTSSNNITATGDGVLMAKEIGASMTDIDWVQAHPTVGKDSRILISETVRGVGAVMVNKDGNRFISELTTRDKASDAILKQPGQFAWIIFDNQLYKKAKMVRGYDHLEMLYKGDTVEQLAKSTGMKVADLAKTVSDYNGYVASGKDTAFGRADMPLNMTQSPYYAVKVAPGIHHTMGGVAINTTASVLDLQSKPIDGLFAAGEVTGGVHGYNRLGGNAIADTVVFGRIAGDNAAKHALD TPDMGSFHADMGSCQSCHAKPIKVTDSETHENAQCKSCHGEYAELANDKLQFDPHNSHLGDINCTSCHKGHEEPKFYCNECHSFDIKPMPFSDAKKKKSWDDGWDQDKIQKAIAAGPSETTQVLVVGAGSAGFNASLAAKKAGANVILVDKAPFSGGNSMISAGGMNAVGTKQQTAHGVEDKVEWFIEDAMKGGRQQNDIKLVTILAEQSADGVQWLESLGANLDDLKRSGGARVDRTHRPHGGKSSGPEIIDTLRKAAKEQGIDTRLNSRVVKLVVNDDHSVVGAVVHGKHTGYYMIGAKSVVLATGGYGMNKEMIAYYRPTMKDMTSSNNITATGDGVLMAKEIGASMTDIDWVQAHPTVGKDSRILISETVRGVGAVMVNKDGNRFISELTTRDKASDAILKQPGQFAWIIFDNQLYKKAKMVRGYDHLEMLYKGDTVEQLAKSTGMKVADLAKTVSDYNGYVASGKDTAFGRADMPLNMTQSPYYAVKVAPGIHHTMGGVAINTTASVLDLQSKPIDGLFAAGEVTGGVHGYNRLGGNAIADTVVFGRIAGDNAAKHALD 1qoj-a1-m1-cB_1qoj-a1-m2-cB Crystal Structure of E.coli UvrB C-terminal domain, and a model for UvrB-UvrC interaction. P0A8F8 P0A8F8 3 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 44 44 SPKALQQKIHELEGLQHAQNLEFEEAAQIRDQLHQLRELFIAAS SPKALQQKIHELEGLQHAQNLEFEEAAQIRDQLHQLRELFIAAS 1qoj-a1-m2-cA_1qoj-a1-m2-cB Crystal Structure of E.coli UvrB C-terminal domain, and a model for UvrB-UvrC interaction. P0A8F8 P0A8F8 3 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 44 44 1qoj-a1-m1-cA_1qoj-a1-m1-cB SPKALQQKIHELEGLQHAQNLEFEEAAQIRDQLHQLRELFIAAS SPKALQQKIHELEGLQHAQNLEFEEAAQIRDQLHQLRELFIAAS 1qol-a3-m1-cF_1qol-a3-m1-cG STRUCTURE OF THE FMDV LEADER PROTEASE P03305 P03305 3 X-RAY DIFFRACTION 106 1.0 73482 (Foot-and-mouth disease virus (strain O1)) 73482 (Foot-and-mouth disease virus (strain O1)) 166 173 1qol-a1-m1-cA_1qol-a1-m1-cC 1qol-a2-m1-cB_1qol-a2-m1-cD 1qol-a4-m1-cE_1qol-a4-m1-cH 2jqf-a1-m1-cR_2jqf-a1-m1-cS MELTLYNGEKKTFYSRPNNHDNAWLNAILQLFRYVEEPFFDWVYSSPENLTLEAIKQLEDLTGLELHEGGPPALVIWNIKHLLHTGIGTASRPSEVCVVDGTDMCLADFHAGIFLKGQEHAVFACVTSNGWYAIDDEDFYPWTPDPSDVLVFVPYDQKAKVQRKLK MELTLYNGEKKTFYSRPNNHDNAWLNAILQLFRYVEEPFFDWVYSSPENLTLEAIKQLEDLTGLELHEGGPPALVIWNIKHLLHTGIGTASRPSEVCVVDGTDMCLADFHAGIFLKGQEHAVFACVTSNGWYAIDDEDFYPWTPDPSDVLVFVPYDQEPLNGEWKAKVQRKLK 1qor-a1-m1-cA_1qor-a1-m1-cB CRYSTAL STRUCTURE OF ESCHERICHIA COLI QUINONE OXIDOREDUCTASE COMPLEXED WITH NADPH P28304 P28304 2.2 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 326 326 ATRIEFHKHGGPEVLQAVEFTPADPAENEIQVENKAIGINFIDTYIRSGLYPPPSLPSGLGTEAAGIVSKVGSGVKHIKAGDRVVYAQSALGAYSSVHNIIADKAAILPAAISFEQAAASFLKGLTVYYLLRKTYEIKPDEQFLFHAAAGGVGLIACQWAKALGAKLIGTVGTAQKAQSALKAGAWQVINYREEDLVERLKEITGGKKVRVVYDSVGRDTWERSLDCLQRRGLMVSFGNSSGAVTGVNLGILNQKGSLYVTRPSLQGYITTREELTEASNELFSLIASGVIKVDVAEQQKYPLKDAQRAHEILESRATQGSSLLIP ATRIEFHKHGGPEVLQAVEFTPADPAENEIQVENKAIGINFIDTYIRSGLYPPPSLPSGLGTEAAGIVSKVGSGVKHIKAGDRVVYAQSALGAYSSVHNIIADKAAILPAAISFEQAAASFLKGLTVYYLLRKTYEIKPDEQFLFHAAAGGVGLIACQWAKALGAKLIGTVGTAQKAQSALKAGAWQVINYREEDLVERLKEITGGKKVRVVYDSVGRDTWERSLDCLQRRGLMVSFGNSSGAVTGVNLGILNQKGSLYVTRPSLQGYITTREELTEASNELFSLIASGVIKVDVAEQQKYPLKDAQRAHEILESRATQGSSLLIP 1qou-a1-m1-cA_1qou-a1-m1-cB CEN (Centroradialis) protein from Antirrhinum Q41261 Q41261 1.9 X-RAY DIFFRACTION 19 0.987 4151 (Antirrhinum majus) 4151 (Antirrhinum majus) 154 161 GRVIGDVVDHFTSTVKMSVIYNSIKHVYNGHELFPSAVTSTPRVEVHGGDMRSFFTLIMTDPDVPGPSDPYLREHLHWIVTDIPGTTDSSFGKEVVSYEMPRPNIGIHRFVFLLFKQKKRGVVCRDGFNTRKFTQENELGLPVAAVFFNCQRET VSSDPLVIGRVIGDVVDHFTSTVKMSVIYNSSIKHVYNGHELFPSAVTSTPRVEVHGGDMRSFFTLIMTDPDVPGPSDPYLREHLHWIVTDIPGTTDSSFGKEVVSYEMPRPNIGIHRFVFLLFKQKKRVVCRDGFNTRKFTQENELGLPVAAVFFNCQRE 1qox-a2-m1-cJ_1qox-a2-m1-cP Beta-glucosidase from Bacillus circulans sp. alkalophilus Q03506 Q03506 2.7 X-RAY DIFFRACTION 65 1.0 44160 (Niallia circulans subsp. alkalophilus) 44160 (Niallia circulans subsp. alkalophilus) 449 449 1qox-a1-m1-cA_1qox-a1-m1-cE 1qox-a1-m1-cB_1qox-a1-m1-cH 1qox-a1-m1-cC_1qox-a1-m1-cG 1qox-a1-m1-cD_1qox-a1-m1-cF 1qox-a2-m1-cI_1qox-a2-m1-cM 1qox-a2-m1-cK_1qox-a2-m1-cO 1qox-a2-m1-cL_1qox-a2-m1-cN SIHMFPSDFKWGVATAAYQIEGAYNEDGRGMSIWDTFAHTPGKVKNGDNGNVACDSYHRVEEDVQLLKDLGVKVYRFSISWPRVLPQGTGEVNRAGLDYYHRLVDELLANGIEPFCTLYHWDLPQALQDQGGWGSRITIDAFAEYAELMFKELGGKIKQWITFNEPWCMAFLSNYLGVHAPGNKDLQLAIDVSHHLLVAHGRAVTLFRELGISGEIGIAPNTSWAVPYRRTKEDMEACLRVNGWSGDWYLDPIYFGEYPKFMLDWYENLGYKPPIVDGDMELIHQPIDFIGINYYTSSMNRYNPGEAGGMLSSEAISMGAPKTDIGWEIYAEGLYDLLRYTADKYGNPTLYITENGACYNDGLSLDGRIHDQRRIDYLAMHLIQASRAIEDGINLKGYMEWSLMDNFEWAEGYGMRFGLVHVDYDTLVRTPKDSFYWYKGVISRGWLDL SIHMFPSDFKWGVATAAYQIEGAYNEDGRGMSIWDTFAHTPGKVKNGDNGNVACDSYHRVEEDVQLLKDLGVKVYRFSISWPRVLPQGTGEVNRAGLDYYHRLVDELLANGIEPFCTLYHWDLPQALQDQGGWGSRITIDAFAEYAELMFKELGGKIKQWITFNEPWCMAFLSNYLGVHAPGNKDLQLAIDVSHHLLVAHGRAVTLFRELGISGEIGIAPNTSWAVPYRRTKEDMEACLRVNGWSGDWYLDPIYFGEYPKFMLDWYENLGYKPPIVDGDMELIHQPIDFIGINYYTSSMNRYNPGEAGGMLSSEAISMGAPKTDIGWEIYAEGLYDLLRYTADKYGNPTLYITENGACYNDGLSLDGRIHDQRRIDYLAMHLIQASRAIEDGINLKGYMEWSLMDNFEWAEGYGMRFGLVHVDYDTLVRTPKDSFYWYKGVISRGWLDL 1qox-a2-m1-cO_1qox-a2-m1-cP Beta-glucosidase from Bacillus circulans sp. alkalophilus Q03506 Q03506 2.7 X-RAY DIFFRACTION 15 1.0 44160 (Niallia circulans subsp. alkalophilus) 44160 (Niallia circulans subsp. alkalophilus) 449 449 1qox-a1-m1-cA_1qox-a1-m1-cB 1qox-a1-m1-cA_1qox-a1-m1-cD 1qox-a1-m1-cB_1qox-a1-m1-cC 1qox-a1-m1-cC_1qox-a1-m1-cD 1qox-a1-m1-cE_1qox-a1-m1-cF 1qox-a1-m1-cE_1qox-a1-m1-cH 1qox-a1-m1-cF_1qox-a1-m1-cG 1qox-a1-m1-cG_1qox-a1-m1-cH 1qox-a2-m1-cI_1qox-a2-m1-cJ 1qox-a2-m1-cI_1qox-a2-m1-cL 1qox-a2-m1-cJ_1qox-a2-m1-cK 1qox-a2-m1-cK_1qox-a2-m1-cL 1qox-a2-m1-cM_1qox-a2-m1-cN 1qox-a2-m1-cM_1qox-a2-m1-cP 1qox-a2-m1-cN_1qox-a2-m1-cO SIHMFPSDFKWGVATAAYQIEGAYNEDGRGMSIWDTFAHTPGKVKNGDNGNVACDSYHRVEEDVQLLKDLGVKVYRFSISWPRVLPQGTGEVNRAGLDYYHRLVDELLANGIEPFCTLYHWDLPQALQDQGGWGSRITIDAFAEYAELMFKELGGKIKQWITFNEPWCMAFLSNYLGVHAPGNKDLQLAIDVSHHLLVAHGRAVTLFRELGISGEIGIAPNTSWAVPYRRTKEDMEACLRVNGWSGDWYLDPIYFGEYPKFMLDWYENLGYKPPIVDGDMELIHQPIDFIGINYYTSSMNRYNPGEAGGMLSSEAISMGAPKTDIGWEIYAEGLYDLLRYTADKYGNPTLYITENGACYNDGLSLDGRIHDQRRIDYLAMHLIQASRAIEDGINLKGYMEWSLMDNFEWAEGYGMRFGLVHVDYDTLVRTPKDSFYWYKGVISRGWLDL SIHMFPSDFKWGVATAAYQIEGAYNEDGRGMSIWDTFAHTPGKVKNGDNGNVACDSYHRVEEDVQLLKDLGVKVYRFSISWPRVLPQGTGEVNRAGLDYYHRLVDELLANGIEPFCTLYHWDLPQALQDQGGWGSRITIDAFAEYAELMFKELGGKIKQWITFNEPWCMAFLSNYLGVHAPGNKDLQLAIDVSHHLLVAHGRAVTLFRELGISGEIGIAPNTSWAVPYRRTKEDMEACLRVNGWSGDWYLDPIYFGEYPKFMLDWYENLGYKPPIVDGDMELIHQPIDFIGINYYTSSMNRYNPGEAGGMLSSEAISMGAPKTDIGWEIYAEGLYDLLRYTADKYGNPTLYITENGACYNDGLSLDGRIHDQRRIDYLAMHLIQASRAIEDGINLKGYMEWSLMDNFEWAEGYGMRFGLVHVDYDTLVRTPKDSFYWYKGVISRGWLDL 1qp6-a1-m1-cA_1qp6-a1-m1-cB SOLUTION STRUCTURE OF ALPHA2D NOT SOLUTION NMR 66 1.0 35 35 GEVEELEKKFKELWKGPRRGEIEELHKKFHELIKG GEVEELEKKFKELWKGPRRGEIEELHKKFHELIKG 1qp8-a1-m1-cA_1qp8-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE FORMATE DEHYDROGENASE FROM PYROBACULUM AEROPHILUM Q8ZXP5 Q8ZXP5 2.8 X-RAY DIFFRACTION 140 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 295 295 ELYVNFELPPEAEEELRKYFKIVRGGDLGNVEAALVSRITAEELAKPRLKFIQVVTAGLDHLPWESIPPHVTVAGNAGSNADAVAEFALALLLAPYKRIIQYGEKKRGDYGRDVEIPLIQGEKVAVLGLGEIGTRVGKILAALGAQVRGFSRTPKEGPWRFTNSLEEALREARAAVCALPLNKHTRGLVKYQHLALAEDAVFVNVGRAEVLDRDGVLRILKERPQFIFASDVWWGRNDFAKDAEFFSLPNVVATPWVAGGYGNERVWRQVEAVRNLITYATGGRPRNIAKREDYI ELYVNFELPPEAEEELRKYFKIVRGGDLGNVEAALVSRITAEELAKPRLKFIQVVTAGLDHLPWESIPPHVTVAGNAGSNADAVAEFALALLLAPYKRIIQYGEKKRGDYGRDVEIPLIQGEKVAVLGLGEIGTRVGKILAALGAQVRGFSRTPKEGPWRFTNSLEEALREARAAVCALPLNKHTRGLVKYQHLALAEDAVFVNVGRAEVLDRDGVLRILKERPQFIFASDVWWGRNDFAKDAEFFSLPNVVATPWVAGGYGNERVWRQVEAVRNLITYATGGRPRNIAKREDYI 1qpa-a1-m1-cA_1qpa-a1-m1-cB LIGNIN PEROXIDASE ISOZYME LIP4.65 (PI 4.65) P11542 P11542 1.8 X-RAY DIFFRACTION 73 1.0 343 343 VACPDGVHTASNAACCAWFPVLDDIQQNLFHGGQCGAEAHEALRMVFHDSIAISPKLQSQGKFGGGGADGSIITFSSIETTYHPNIGLDEVVAIQKPFIAKHGVTPGDFIAFAGAVGVSNCPGAPQMQFFLGRPEATQAAPDGLVPEPFHTIDQVLARMLDAGGFDEIETVLLSAHSIAAANDVDPTISGLPFDSTPGQFDSQFFVETQLRGTAFPGKTGIQGTVMSPLKGEMRLQTDHLFARDSRTACEWQSFVNNQTKLQEDFQFIFTALSTLGHDMNAMIDCSEVIPAPKPVNFGPSFFPAGKTHADIEQACASTPFPTLITAPGPSASVARIPPPPSPN VACPDGVHTASNAACCAWFPVLDDIQQNLFHGGQCGAEAHEALRMVFHDSIAISPKLQSQGKFGGGGADGSIITFSSIETTYHPNIGLDEVVAIQKPFIAKHGVTPGDFIAFAGAVGVSNCPGAPQMQFFLGRPEATQAAPDGLVPEPFHTIDQVLARMLDAGGFDEIETVLLSAHSIAAANDVDPTISGLPFDSTPGQFDSQFFVETQLRGTAFPGKTGIQGTVMSPLKGEMRLQTDHLFARDSRTACEWQSFVNNQTKLQEDFQFIFTALSTLGHDMNAMIDCSEVIPAPKPVNFGPSFFPAGKTHADIEQACASTPFPTLITAPGPSASVARIPPPPSPN 1qpb-a1-m1-cA_1qpb-a1-m2-cA PYRUVATE DECARBOYXLASE FROM YEAST (FORM B) COMPLEXED WITH PYRUVAMIDE P06169 P06169 2.4 X-RAY DIFFRACTION 21 1.0 520522 (Saccharomyces pastorianus Weihenstephan 34/70) 520522 (Saccharomyces pastorianus Weihenstephan 34/70) 555 555 SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILVLIKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTAIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLT SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILVLIKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTAIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLT 1qpb-a1-m1-cA_1qpb-a1-m2-cB PYRUVATE DECARBOYXLASE FROM YEAST (FORM B) COMPLEXED WITH PYRUVAMIDE P06169 P06169 2.4 X-RAY DIFFRACTION 19 1.0 520522 (Saccharomyces pastorianus Weihenstephan 34/70) 520522 (Saccharomyces pastorianus Weihenstephan 34/70) 555 555 1qpb-a1-m1-cB_1qpb-a1-m2-cA SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILVLIKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTAIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLT SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILVLIKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTAIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLT 1qpb-a1-m1-cB_1qpb-a1-m2-cB PYRUVATE DECARBOYXLASE FROM YEAST (FORM B) COMPLEXED WITH PYRUVAMIDE P06169 P06169 2.4 X-RAY DIFFRACTION 57 1.0 520522 (Saccharomyces pastorianus Weihenstephan 34/70) 520522 (Saccharomyces pastorianus Weihenstephan 34/70) 555 555 SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILVLIKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTAIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLT SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISAQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILVLIKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTAIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIEKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLT 1qpo-a2-m1-cC_1qpo-a2-m1-cD Quinolinate Phosphoribosyl Transferase (QAPRTase) Apo-Enzyme from Mycobacterium Tuberculosis P9WJJ7 P9WJJ7 2.4 X-RAY DIFFRACTION 205 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 284 284 1qpn-a1-m1-cA_1qpn-a1-m1-cB 1qpn-a2-m1-cC_1qpn-a2-m1-cD 1qpn-a3-m1-cE_1qpn-a3-m1-cF 1qpo-a1-m1-cA_1qpo-a1-m1-cB 1qpo-a3-m1-cE_1qpo-a3-m1-cF 1qpq-a1-m1-cA_1qpq-a1-m1-cB 1qpq-a2-m1-cC_1qpq-a2-m1-cD 1qpq-a3-m1-cE_1qpq-a3-m1-cF 1qpr-a1-m1-cA_1qpr-a1-m1-cB 1qpr-a2-m1-cC_1qpr-a2-m1-cD 1qpr-a3-m1-cE_1qpr-a3-m1-cF GLSDWELAAARAAIARGLDEDLRYGPDVTTLATVPASATTTASLVTREAGVVAGLDVALLTLNEVLGTNGYRVLDRVEDGARVPPGEALMTLEAQTRGLLTAERTMLNLVGHLSGIATATAAWVDAVRGTKAKIRDTRKTLPGLRALQKYAVRTGGGVNHRLGLGDAALIKDNHVAAAGSVVDALRAVRNAAPDLPCEVEVDSLEQLDAVLPEKPELILLDNFAVWQTQTAVQRRDSRAPTVMLESSGGLSLQTAATYAETGVDYLAVGALTHSVRVLDIGLDM GLSDWELAAARAAIARGLDEDLRYGPDVTTLATVPASATTTASLVTREAGVVAGLDVALLTLNEVLGTNGYRVLDRVEDGARVPPGEALMTLEAQTRGLLTAERTMLNLVGHLSGIATATAAWVDAVRGTKAKIRDTRKTLPGLRALQKYAVRTGGGVNHRLGLGDAALIKDNHVAAAGSVVDALRAVRNAAPDLPCEVEVDSLEQLDAVLPEKPELILLDNFAVWQTQTAVQRRDSRAPTVMLESSGGLSLQTAATYAETGVDYLAVGALTHSVRVLDIGLDM 1qpw-a1-m1-cA_1qpw-a1-m1-cC CRYSTAL STRUCTURE DETERMINATION OF PORCINE HEMOGLOBIN AT 1.8A RESOLUTION P01965 P01965 1.8 X-RAY DIFFRACTION 10 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 141 141 2pgh-a1-m1-cA_2pgh-a1-m1-cC VLSAADKANVKAAWGKVGGQAGAHGAEALERMFLGFPTTKTYFPHFNLSHGSDQVKAHGQKVADALTKAVGHLDDLPGALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPDDFNPSVHASLDKFLANVSTVLTSKYR VLSAADKANVKAAWGKVGGQAGAHGAEALERMFLGFPTTKTYFPHFNLSHGSDQVKAHGQKVADALTKAVGHLDDLPGALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHHPDDFNPSVHASLDKFLANVSTVLTSKYR 1qpx-a1-m1-cB_1qpx-a1-m1-cA CRYSTAL STRUCTURES OF SELF-CAPPING PAPD CHAPERONE HOMODIMERS P15319 P15319 2.4 X-RAY DIFFRACTION 37 0.99 562 (Escherichia coli) 562 (Escherichia coli) 202 206 1qpp-a1-m1-cA_1qpp-a1-m1-cB TRAVFDGSEKSMTLDISNDNKQLPYLAQAWIENENQEKIITGPVIATPPVQRLDPGAKSMVRLSTTPDISKLPQDRESLFYFNLREIPPVQIALCTKIKLFYRPAAIKTRPNEVWQDQLILNKVSGGYRIENPTPYYVTVIGLGGSEKQAEEGEFETVMLSPRSEQTVKSANYNTPYLSYINDYGGRPVLSFICNGSRCSVK AVSLDRTRAVFDGSEKSMTLDISNDNKQLPYLAQAWIENENQEKIITGPVIATPPVQRLDPGAKSMVRLSTTPDISKLPQDRESLFYFNLREIPPIALCTKIKLFYRPAAIKTRPNEVWQDQLILNKVSGGYRIENPTPYYVTVIGLGGSEKQAEEGEFETVMLSPRSEQTVKSANYNTPYLSYINDYGGRPVLSFICNGSRCSVK 1qq5-a1-m1-cA_1qq5-a1-m1-cB STRUCTURE OF L-2-HALOACID DEHALOGENASE FROM XANTHOBACTER AUTOTROPHICUS Q60099 Q60099 1.52 X-RAY DIFFRACTION 129 1.0 280 (Xanthobacter autotrophicus) 280 (Xanthobacter autotrophicus) 245 245 1aq6-a1-m1-cA_1aq6-a1-m1-cB 1qq6-a1-m1-cA_1qq6-a1-m1-cB 1qq7-a1-m1-cA_1qq7-a1-m1-cB MIKAVVFDAYGTLFDVQSVADATERAYPGRGEYITQVWRQKQLEYSWLRALMGRYADFWSVTREALAYTLGTLGLEPDESFLADMAQAYNRLTPYPDAAQCLAELAPLKRAILSNGAPDMLQALVANAGLTDSFDAVISVDAKRVFKPHPDSYALVEEVLGVTPAEVLFVSSNGFDVGGAKNFGFSVARVARLSQEALARELVSGTIAPLTMFKALRMREETYAEAPDFVVPALGDLPRLVRGMA MIKAVVFDAYGTLFDVQSVADATERAYPGRGEYITQVWRQKQLEYSWLRALMGRYADFWSVTREALAYTLGTLGLEPDESFLADMAQAYNRLTPYPDAAQCLAELAPLKRAILSNGAPDMLQALVANAGLTDSFDAVISVDAKRVFKPHPDSYALVEEVLGVTPAEVLFVSSNGFDVGGAKNFGFSVARVARLSQEALARELVSGTIAPLTMFKALRMREETYAEAPDFVVPALGDLPRLVRGMA 1qqg-a1-m1-cA_1qqg-a1-m1-cB CRYSTAL STRUCTURE OF THE PH-PTB TARGETING REGION OF IRS-1 P35568 P35568 2.3 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 210 DVRKVGYLRKPKSMHKRFFVLRAASEAGGPARLEYYENEKKWRHKSSAPKRSIPLESCFNINKRADSKNKHLVALYTRDEHFAIAADSEAEQDSWYQALLQLHAFKEVWQVILKPKGLGQTKNLIGIYRLCLTSKTISFVKLNSEAAAVVLQLMNIRRCGHSENFFFIEVGRSAVTGPGEFWMQVDDSVVAQNMHETILEAMRAMSD SDVRKVGYLRKPKSMHKRFFVLRAASEAGGPARLEYYENEKKWRHKSSAPKRSIPLESCFNINKRADSKNKHLVALYTRDEHFAIAADSEAEQDSWYQALLQLHAFKEVWQVILKPKGLGQTKNLIGIYRLCLTSKTISFVKLNSEAAAVVLQLMNIRRCGHSENFFFIEVGRSAVTGPGEFWMQVDDSVVAQNMHETILEAMRAMSDEF 1qqh-a1-m1-cA_1qqh-a1-m2-cA 2.1 A CRYSTAL STRUCTURE OF THE HUMAN PAPILLOMAVIRUS TYPE 18 E2 ACTIVATION DOMAIN P06790 P06790 2.1 X-RAY DIFFRACTION 46 1.0 333761 (human papillomavirus 18) 333761 (human papillomavirus 18) 144 144 KSKAHKAIELQMALQGLAQSAYKTEDWTLQDTCEELWNTEPTHCFKKGGQTVQVYFDGNKDNCMTYVAWDSVYYMTDAGTWDKTATCVSHRGLYYVKEGYNTFYIEFKSECEKYGNTGTWEVHFGNNVIDCNDSMCSTSDDTVS KSKAHKAIELQMALQGLAQSAYKTEDWTLQDTCEELWNTEPTHCFKKGGQTVQVYFDGNKDNCMTYVAWDSVYYMTDAGTWDKTATCVSHRGLYYVKEGYNTFYIEFKSECEKYGNTGTWEVHFGNNVIDCNDSMCSTSDDTVS 1qqp-a1-m57-c2_1qqp-a1-m9-c2 FOOT-AND-MOUTH DISEASE VIRUS/ OLIGOSACCHARIDE RECEPTOR COMPLEX. P03305 P03305 1.9 X-RAY DIFFRACTION 15 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 216 216 1fod-a1-m10-c2_1fod-a1-m25-c2 1fod-a1-m10-c2_1fod-a1-m55-c2 1fod-a1-m11-c2_1fod-a1-m17-c2 1fod-a1-m11-c2_1fod-a1-m29-c2 1fod-a1-m12-c2_1fod-a1-m16-c2 1fod-a1-m12-c2_1fod-a1-m39-c2 1fod-a1-m13-c2_1fod-a1-m38-c2 1fod-a1-m13-c2_1fod-a1-m48-c2 1fod-a1-m14-c2_1fod-a1-m41-c2 1fod-a1-m14-c2_1fod-a1-m47-c2 1fod-a1-m15-c2_1fod-a1-m30-c2 1fod-a1-m15-c2_1fod-a1-m45-c2 1fod-a1-m16-c2_1fod-a1-m39-c2 1fod-a1-m17-c2_1fod-a1-m29-c2 1fod-a1-m18-c2_1fod-a1-m28-c2 1fod-a1-m18-c2_1fod-a1-m53-c2 1fod-a1-m19-c2_1fod-a1-m52-c2 1fod-a1-m19-c2_1fod-a1-m56-c2 1fod-a1-m1-c2_1fod-a1-m34-c2 1fod-a1-m1-c2_1fod-a1-m7-c2 1fod-a1-m20-c2_1fod-a1-m40-c2 1fod-a1-m20-c2_1fod-a1-m60-c2 1fod-a1-m21-c2_1fod-a1-m27-c2 1fod-a1-m21-c2_1fod-a1-m54-c2 1fod-a1-m22-c2_1fod-a1-m26-c2 1fod-a1-m22-c2_1fod-a1-m44-c2 1fod-a1-m23-c2_1fod-a1-m3-c2 1fod-a1-m23-c2_1fod-a1-m43-c2 1fod-a1-m24-c2_1fod-a1-m6-c2 1fod-a1-m25-c2_1fod-a1-m55-c2 1fod-a1-m26-c2_1fod-a1-m44-c2 1fod-a1-m27-c2_1fod-a1-m54-c2 1fod-a1-m28-c2_1fod-a1-m53-c2 1fod-a1-m2-c2_1fod-a1-m24-c2 1fod-a1-m2-c2_1fod-a1-m6-c2 1fod-a1-m30-c2_1fod-a1-m45-c2 1fod-a1-m31-c2_1fod-a1-m37-c2 1fod-a1-m31-c2_1fod-a1-m49-c2 1fod-a1-m32-c2_1fod-a1-m36-c2 1fod-a1-m32-c2_1fod-a1-m59-c2 1fod-a1-m33-c2_1fod-a1-m58-c2 1fod-a1-m33-c2_1fod-a1-m8-c2 1fod-a1-m34-c2_1fod-a1-m7-c2 1fod-a1-m35-c2_1fod-a1-m50-c2 1fod-a1-m35-c2_1fod-a1-m5-c2 1fod-a1-m36-c2_1fod-a1-m59-c2 1fod-a1-m37-c2_1fod-a1-m49-c2 1fod-a1-m38-c2_1fod-a1-m48-c2 1fod-a1-m3-c2_1fod-a1-m43-c2 1fod-a1-m40-c2_1fod-a1-m60-c2 1fod-a1-m41-c2_1fod-a1-m47-c2 1fod-a1-m42-c2_1fod-a1-m46-c2 1fod-a1-m4-c2_1fod-a1-m42-c2 1fod-a1-m4-c2_1fod-a1-m46-c2 1fod-a1-m51-c2_1fod-a1-m57-c2 1fod-a1-m51-c2_1fod-a1-m9-c2 1fod-a1-m52-c2_1fod-a1-m56-c2 1fod-a1-m57-c2_1fod-a1-m9-c2 1fod-a1-m58-c2_1fod-a1-m8-c2 1fod-a1-m5-c2_1fod-a1-m50-c2 1qqp-a1-m10-c2_1qqp-a1-m25-c2 1qqp-a1-m10-c2_1qqp-a1-m55-c2 1qqp-a1-m11-c2_1qqp-a1-m17-c2 1qqp-a1-m11-c2_1qqp-a1-m29-c2 1qqp-a1-m12-c2_1qqp-a1-m16-c2 1qqp-a1-m12-c2_1qqp-a1-m39-c2 1qqp-a1-m13-c2_1qqp-a1-m38-c2 1qqp-a1-m13-c2_1qqp-a1-m48-c2 1qqp-a1-m14-c2_1qqp-a1-m41-c2 1qqp-a1-m14-c2_1qqp-a1-m47-c2 1qqp-a1-m15-c2_1qqp-a1-m30-c2 1qqp-a1-m15-c2_1qqp-a1-m45-c2 1qqp-a1-m16-c2_1qqp-a1-m39-c2 1qqp-a1-m17-c2_1qqp-a1-m29-c2 1qqp-a1-m18-c2_1qqp-a1-m28-c2 1qqp-a1-m18-c2_1qqp-a1-m53-c2 1qqp-a1-m19-c2_1qqp-a1-m52-c2 1qqp-a1-m19-c2_1qqp-a1-m56-c2 1qqp-a1-m1-c2_1qqp-a1-m34-c2 1qqp-a1-m1-c2_1qqp-a1-m7-c2 1qqp-a1-m20-c2_1qqp-a1-m40-c2 1qqp-a1-m20-c2_1qqp-a1-m60-c2 1qqp-a1-m21-c2_1qqp-a1-m27-c2 1qqp-a1-m21-c2_1qqp-a1-m54-c2 1qqp-a1-m22-c2_1qqp-a1-m26-c2 1qqp-a1-m22-c2_1qqp-a1-m44-c2 1qqp-a1-m23-c2_1qqp-a1-m3-c2 1qqp-a1-m23-c2_1qqp-a1-m43-c2 1qqp-a1-m24-c2_1qqp-a1-m6-c2 1qqp-a1-m25-c2_1qqp-a1-m55-c2 1qqp-a1-m26-c2_1qqp-a1-m44-c2 1qqp-a1-m27-c2_1qqp-a1-m54-c2 1qqp-a1-m28-c2_1qqp-a1-m53-c2 1qqp-a1-m2-c2_1qqp-a1-m24-c2 1qqp-a1-m2-c2_1qqp-a1-m6-c2 1qqp-a1-m30-c2_1qqp-a1-m45-c2 1qqp-a1-m31-c2_1qqp-a1-m37-c2 1qqp-a1-m31-c2_1qqp-a1-m49-c2 1qqp-a1-m32-c2_1qqp-a1-m36-c2 1qqp-a1-m32-c2_1qqp-a1-m59-c2 1qqp-a1-m33-c2_1qqp-a1-m58-c2 1qqp-a1-m33-c2_1qqp-a1-m8-c2 1qqp-a1-m34-c2_1qqp-a1-m7-c2 1qqp-a1-m35-c2_1qqp-a1-m50-c2 1qqp-a1-m35-c2_1qqp-a1-m5-c2 1qqp-a1-m36-c2_1qqp-a1-m59-c2 1qqp-a1-m37-c2_1qqp-a1-m49-c2 1qqp-a1-m38-c2_1qqp-a1-m48-c2 1qqp-a1-m3-c2_1qqp-a1-m43-c2 1qqp-a1-m40-c2_1qqp-a1-m60-c2 1qqp-a1-m41-c2_1qqp-a1-m47-c2 1qqp-a1-m42-c2_1qqp-a1-m46-c2 1qqp-a1-m4-c2_1qqp-a1-m42-c2 1qqp-a1-m4-c2_1qqp-a1-m46-c2 1qqp-a1-m51-c2_1qqp-a1-m57-c2 1qqp-a1-m51-c2_1qqp-a1-m9-c2 1qqp-a1-m52-c2_1qqp-a1-m56-c2 1qqp-a1-m58-c2_1qqp-a1-m8-c2 1qqp-a1-m5-c2_1qqp-a1-m50-c2 DKKTTTLLEDRILTTRNGHTTSTTQSSVGVTYGYATAEDFVSGPNTSGLETRVVQAERFFKTHLFDWVTSDSFGRCHLLELPTDHKGVYGSLTDSYAYMRNGWDVEVTAVGNQFNGGCLLVAMVPELCSIQKRELYQLTLFPHQFINPRTNMTAHITVPFVGVNRYDQYKVHKPWTLVVMVVAPLTVNTEGAPQIKVYANIAPTNVHVAGEFPSKE DKKTTTLLEDRILTTRNGHTTSTTQSSVGVTYGYATAEDFVSGPNTSGLETRVVQAERFFKTHLFDWVTSDSFGRCHLLELPTDHKGVYGSLTDSYAYMRNGWDVEVTAVGNQFNGGCLLVAMVPELCSIQKRELYQLTLFPHQFINPRTNMTAHITVPFVGVNRYDQYKVHKPWTLVVMVVAPLTVNTEGAPQIKVYANIAPTNVHVAGEFPSKE 1qqp-a1-m8-c1_1qqp-a1-m9-c1 FOOT-AND-MOUTH DISEASE VIRUS/ OLIGOSACCHARIDE RECEPTOR COMPLEX. P03305 P03305 1.9 X-RAY DIFFRACTION 51 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 188 188 1bbt-a1-m10-c1_1bbt-a1-m6-c1 1bbt-a1-m10-c1_1bbt-a1-m9-c1 1bbt-a1-m11-c1_1bbt-a1-m12-c1 1bbt-a1-m11-c1_1bbt-a1-m15-c1 1bbt-a1-m12-c1_1bbt-a1-m13-c1 1bbt-a1-m13-c1_1bbt-a1-m14-c1 1bbt-a1-m14-c1_1bbt-a1-m15-c1 1bbt-a1-m16-c1_1bbt-a1-m17-c1 1bbt-a1-m16-c1_1bbt-a1-m20-c1 1bbt-a1-m17-c1_1bbt-a1-m18-c1 1bbt-a1-m18-c1_1bbt-a1-m19-c1 1bbt-a1-m19-c1_1bbt-a1-m20-c1 1bbt-a1-m1-c1_1bbt-a1-m2-c1 1bbt-a1-m1-c1_1bbt-a1-m5-c1 1bbt-a1-m21-c1_1bbt-a1-m22-c1 1bbt-a1-m21-c1_1bbt-a1-m25-c1 1bbt-a1-m22-c1_1bbt-a1-m23-c1 1bbt-a1-m23-c1_1bbt-a1-m24-c1 1bbt-a1-m24-c1_1bbt-a1-m25-c1 1bbt-a1-m26-c1_1bbt-a1-m27-c1 1bbt-a1-m26-c1_1bbt-a1-m30-c1 1bbt-a1-m27-c1_1bbt-a1-m28-c1 1bbt-a1-m28-c1_1bbt-a1-m29-c1 1bbt-a1-m29-c1_1bbt-a1-m30-c1 1bbt-a1-m2-c1_1bbt-a1-m3-c1 1bbt-a1-m31-c1_1bbt-a1-m32-c1 1bbt-a1-m31-c1_1bbt-a1-m35-c1 1bbt-a1-m32-c1_1bbt-a1-m33-c1 1bbt-a1-m33-c1_1bbt-a1-m34-c1 1bbt-a1-m34-c1_1bbt-a1-m35-c1 1bbt-a1-m36-c1_1bbt-a1-m37-c1 1bbt-a1-m36-c1_1bbt-a1-m40-c1 1bbt-a1-m37-c1_1bbt-a1-m38-c1 1bbt-a1-m38-c1_1bbt-a1-m39-c1 1bbt-a1-m39-c1_1bbt-a1-m40-c1 1bbt-a1-m3-c1_1bbt-a1-m4-c1 1bbt-a1-m41-c1_1bbt-a1-m42-c1 1bbt-a1-m41-c1_1bbt-a1-m45-c1 1bbt-a1-m42-c1_1bbt-a1-m43-c1 1bbt-a1-m43-c1_1bbt-a1-m44-c1 1bbt-a1-m44-c1_1bbt-a1-m45-c1 1bbt-a1-m46-c1_1bbt-a1-m47-c1 1bbt-a1-m46-c1_1bbt-a1-m50-c1 1bbt-a1-m47-c1_1bbt-a1-m48-c1 1bbt-a1-m48-c1_1bbt-a1-m49-c1 1bbt-a1-m49-c1_1bbt-a1-m50-c1 1bbt-a1-m4-c1_1bbt-a1-m5-c1 1bbt-a1-m51-c1_1bbt-a1-m52-c1 1bbt-a1-m51-c1_1bbt-a1-m55-c1 1bbt-a1-m52-c1_1bbt-a1-m53-c1 1bbt-a1-m53-c1_1bbt-a1-m54-c1 1bbt-a1-m54-c1_1bbt-a1-m55-c1 1bbt-a1-m56-c1_1bbt-a1-m57-c1 1bbt-a1-m56-c1_1bbt-a1-m60-c1 1bbt-a1-m57-c1_1bbt-a1-m58-c1 1bbt-a1-m58-c1_1bbt-a1-m59-c1 1bbt-a1-m59-c1_1bbt-a1-m60-c1 1bbt-a1-m6-c1_1bbt-a1-m7-c1 1bbt-a1-m7-c1_1bbt-a1-m8-c1 1bbt-a1-m8-c1_1bbt-a1-m9-c1 1qqp-a1-m10-c1_1qqp-a1-m6-c1 1qqp-a1-m10-c1_1qqp-a1-m9-c1 1qqp-a1-m11-c1_1qqp-a1-m12-c1 1qqp-a1-m11-c1_1qqp-a1-m15-c1 1qqp-a1-m12-c1_1qqp-a1-m13-c1 1qqp-a1-m13-c1_1qqp-a1-m14-c1 1qqp-a1-m14-c1_1qqp-a1-m15-c1 1qqp-a1-m16-c1_1qqp-a1-m17-c1 1qqp-a1-m16-c1_1qqp-a1-m20-c1 1qqp-a1-m17-c1_1qqp-a1-m18-c1 1qqp-a1-m18-c1_1qqp-a1-m19-c1 1qqp-a1-m19-c1_1qqp-a1-m20-c1 1qqp-a1-m1-c1_1qqp-a1-m2-c1 1qqp-a1-m1-c1_1qqp-a1-m5-c1 1qqp-a1-m21-c1_1qqp-a1-m22-c1 1qqp-a1-m21-c1_1qqp-a1-m25-c1 1qqp-a1-m22-c1_1qqp-a1-m23-c1 1qqp-a1-m23-c1_1qqp-a1-m24-c1 1qqp-a1-m24-c1_1qqp-a1-m25-c1 1qqp-a1-m26-c1_1qqp-a1-m27-c1 1qqp-a1-m26-c1_1qqp-a1-m30-c1 1qqp-a1-m27-c1_1qqp-a1-m28-c1 1qqp-a1-m28-c1_1qqp-a1-m29-c1 1qqp-a1-m29-c1_1qqp-a1-m30-c1 1qqp-a1-m2-c1_1qqp-a1-m3-c1 1qqp-a1-m31-c1_1qqp-a1-m32-c1 1qqp-a1-m31-c1_1qqp-a1-m35-c1 1qqp-a1-m32-c1_1qqp-a1-m33-c1 1qqp-a1-m33-c1_1qqp-a1-m34-c1 1qqp-a1-m34-c1_1qqp-a1-m35-c1 1qqp-a1-m36-c1_1qqp-a1-m37-c1 1qqp-a1-m36-c1_1qqp-a1-m40-c1 1qqp-a1-m37-c1_1qqp-a1-m38-c1 1qqp-a1-m38-c1_1qqp-a1-m39-c1 1qqp-a1-m39-c1_1qqp-a1-m40-c1 1qqp-a1-m3-c1_1qqp-a1-m4-c1 1qqp-a1-m41-c1_1qqp-a1-m42-c1 1qqp-a1-m41-c1_1qqp-a1-m45-c1 1qqp-a1-m42-c1_1qqp-a1-m43-c1 1qqp-a1-m43-c1_1qqp-a1-m44-c1 1qqp-a1-m44-c1_1qqp-a1-m45-c1 1qqp-a1-m46-c1_1qqp-a1-m47-c1 1qqp-a1-m46-c1_1qqp-a1-m50-c1 1qqp-a1-m47-c1_1qqp-a1-m48-c1 1qqp-a1-m48-c1_1qqp-a1-m49-c1 1qqp-a1-m49-c1_1qqp-a1-m50-c1 1qqp-a1-m4-c1_1qqp-a1-m5-c1 1qqp-a1-m51-c1_1qqp-a1-m52-c1 1qqp-a1-m51-c1_1qqp-a1-m55-c1 1qqp-a1-m52-c1_1qqp-a1-m53-c1 1qqp-a1-m53-c1_1qqp-a1-m54-c1 1qqp-a1-m54-c1_1qqp-a1-m55-c1 1qqp-a1-m56-c1_1qqp-a1-m57-c1 1qqp-a1-m56-c1_1qqp-a1-m60-c1 1qqp-a1-m57-c1_1qqp-a1-m58-c1 1qqp-a1-m58-c1_1qqp-a1-m59-c1 1qqp-a1-m59-c1_1qqp-a1-m60-c1 1qqp-a1-m6-c1_1qqp-a1-m7-c1 1qqp-a1-m7-c1_1qqp-a1-m8-c1 5ac9-a1-m10-c1_5ac9-a1-m6-c1 5ac9-a1-m10-c1_5ac9-a1-m9-c1 5ac9-a1-m11-c1_5ac9-a1-m12-c1 5ac9-a1-m11-c1_5ac9-a1-m15-c1 5ac9-a1-m12-c1_5ac9-a1-m13-c1 5ac9-a1-m13-c1_5ac9-a1-m14-c1 5ac9-a1-m14-c1_5ac9-a1-m15-c1 5ac9-a1-m16-c1_5ac9-a1-m17-c1 5ac9-a1-m16-c1_5ac9-a1-m20-c1 5ac9-a1-m17-c1_5ac9-a1-m18-c1 5ac9-a1-m18-c1_5ac9-a1-m19-c1 5ac9-a1-m19-c1_5ac9-a1-m20-c1 5ac9-a1-m1-c1_5ac9-a1-m2-c1 5ac9-a1-m1-c1_5ac9-a1-m5-c1 5ac9-a1-m21-c1_5ac9-a1-m22-c1 5ac9-a1-m21-c1_5ac9-a1-m25-c1 5ac9-a1-m22-c1_5ac9-a1-m23-c1 5ac9-a1-m23-c1_5ac9-a1-m24-c1 5ac9-a1-m24-c1_5ac9-a1-m25-c1 5ac9-a1-m26-c1_5ac9-a1-m27-c1 5ac9-a1-m26-c1_5ac9-a1-m30-c1 5ac9-a1-m27-c1_5ac9-a1-m28-c1 5ac9-a1-m28-c1_5ac9-a1-m29-c1 5ac9-a1-m29-c1_5ac9-a1-m30-c1 5ac9-a1-m2-c1_5ac9-a1-m3-c1 5ac9-a1-m31-c1_5ac9-a1-m32-c1 5ac9-a1-m31-c1_5ac9-a1-m35-c1 5ac9-a1-m32-c1_5ac9-a1-m33-c1 5ac9-a1-m33-c1_5ac9-a1-m34-c1 5ac9-a1-m34-c1_5ac9-a1-m35-c1 5ac9-a1-m36-c1_5ac9-a1-m37-c1 5ac9-a1-m36-c1_5ac9-a1-m40-c1 5ac9-a1-m37-c1_5ac9-a1-m38-c1 5ac9-a1-m38-c1_5ac9-a1-m39-c1 5ac9-a1-m39-c1_5ac9-a1-m40-c1 5ac9-a1-m3-c1_5ac9-a1-m4-c1 5ac9-a1-m41-c1_5ac9-a1-m42-c1 5ac9-a1-m41-c1_5ac9-a1-m45-c1 5ac9-a1-m42-c1_5ac9-a1-m43-c1 5ac9-a1-m43-c1_5ac9-a1-m44-c1 5ac9-a1-m44-c1_5ac9-a1-m45-c1 5ac9-a1-m46-c1_5ac9-a1-m47-c1 5ac9-a1-m46-c1_5ac9-a1-m50-c1 5ac9-a1-m47-c1_5ac9-a1-m48-c1 5ac9-a1-m48-c1_5ac9-a1-m49-c1 5ac9-a1-m49-c1_5ac9-a1-m50-c1 5ac9-a1-m4-c1_5ac9-a1-m5-c1 5ac9-a1-m51-c1_5ac9-a1-m52-c1 5ac9-a1-m51-c1_5ac9-a1-m55-c1 5ac9-a1-m52-c1_5ac9-a1-m53-c1 5ac9-a1-m53-c1_5ac9-a1-m54-c1 5ac9-a1-m54-c1_5ac9-a1-m55-c1 5ac9-a1-m56-c1_5ac9-a1-m57-c1 5ac9-a1-m56-c1_5ac9-a1-m60-c1 5ac9-a1-m57-c1_5ac9-a1-m58-c1 5ac9-a1-m58-c1_5ac9-a1-m59-c1 5ac9-a1-m59-c1_5ac9-a1-m60-c1 5ac9-a1-m6-c1_5ac9-a1-m7-c1 5ac9-a1-m7-c1_5ac9-a1-m8-c1 5ac9-a1-m8-c1_5ac9-a1-m9-c1 5nej-a1-m10-c1_5nej-a1-m6-c1 5nej-a1-m10-c1_5nej-a1-m9-c1 5nej-a1-m11-c1_5nej-a1-m12-c1 5nej-a1-m11-c1_5nej-a1-m15-c1 5nej-a1-m12-c1_5nej-a1-m13-c1 5nej-a1-m13-c1_5nej-a1-m14-c1 5nej-a1-m14-c1_5nej-a1-m15-c1 5nej-a1-m16-c1_5nej-a1-m17-c1 5nej-a1-m16-c1_5nej-a1-m20-c1 5nej-a1-m17-c1_5nej-a1-m18-c1 5nej-a1-m18-c1_5nej-a1-m19-c1 5nej-a1-m19-c1_5nej-a1-m20-c1 5nej-a1-m1-c1_5nej-a1-m2-c1 5nej-a1-m1-c1_5nej-a1-m5-c1 5nej-a1-m21-c1_5nej-a1-m22-c1 5nej-a1-m21-c1_5nej-a1-m25-c1 5nej-a1-m22-c1_5nej-a1-m23-c1 5nej-a1-m23-c1_5nej-a1-m24-c1 5nej-a1-m24-c1_5nej-a1-m25-c1 5nej-a1-m26-c1_5nej-a1-m27-c1 5nej-a1-m26-c1_5nej-a1-m30-c1 5nej-a1-m27-c1_5nej-a1-m28-c1 5nej-a1-m28-c1_5nej-a1-m29-c1 5nej-a1-m29-c1_5nej-a1-m30-c1 5nej-a1-m2-c1_5nej-a1-m3-c1 5nej-a1-m31-c1_5nej-a1-m32-c1 5nej-a1-m31-c1_5nej-a1-m35-c1 5nej-a1-m32-c1_5nej-a1-m33-c1 5nej-a1-m33-c1_5nej-a1-m34-c1 5nej-a1-m34-c1_5nej-a1-m35-c1 5nej-a1-m36-c1_5nej-a1-m37-c1 5nej-a1-m36-c1_5nej-a1-m40-c1 5nej-a1-m37-c1_5nej-a1-m38-c1 5nej-a1-m38-c1_5nej-a1-m39-c1 5nej-a1-m39-c1_5nej-a1-m40-c1 5nej-a1-m3-c1_5nej-a1-m4-c1 5nej-a1-m41-c1_5nej-a1-m42-c1 5nej-a1-m41-c1_5nej-a1-m45-c1 5nej-a1-m42-c1_5nej-a1-m43-c1 5nej-a1-m43-c1_5nej-a1-m44-c1 5nej-a1-m44-c1_5nej-a1-m45-c1 5nej-a1-m46-c1_5nej-a1-m47-c1 5nej-a1-m46-c1_5nej-a1-m50-c1 5nej-a1-m47-c1_5nej-a1-m48-c1 5nej-a1-m48-c1_5nej-a1-m49-c1 5nej-a1-m49-c1_5nej-a1-m50-c1 5nej-a1-m4-c1_5nej-a1-m5-c1 5nej-a1-m51-c1_5nej-a1-m52-c1 5nej-a1-m51-c1_5nej-a1-m55-c1 5nej-a1-m52-c1_5nej-a1-m53-c1 5nej-a1-m53-c1_5nej-a1-m54-c1 5nej-a1-m54-c1_5nej-a1-m55-c1 5nej-a1-m56-c1_5nej-a1-m57-c1 5nej-a1-m56-c1_5nej-a1-m60-c1 5nej-a1-m57-c1_5nej-a1-m58-c1 5nej-a1-m58-c1_5nej-a1-m59-c1 5nej-a1-m59-c1_5nej-a1-m60-c1 5nej-a1-m6-c1_5nej-a1-m7-c1 5nej-a1-m7-c1_5nej-a1-m8-c1 5nej-a1-m8-c1_5nej-a1-m9-c1 TTSAGESADPVTTTVENYGGETQIQRRQHTDVSFIMDRFVKVTPQNQINILDLMQVPSHTLVGALLRASTYYFSDLEIAVKHEGDLTWVPNGAPEKALDNTTNPTAYHKAPLTRLALPYTAPHRVLATVYNGECRTLPTSFNYGAIKATRVTELLYRMKRAETYCPRPLLAIHPTEARHKQKIVAPVK TTSAGESADPVTTTVENYGGETQIQRRQHTDVSFIMDRFVKVTPQNQINILDLMQVPSHTLVGALLRASTYYFSDLEIAVKHEGDLTWVPNGAPEKALDNTTNPTAYHKAPLTRLALPYTAPHRVLATVYNGECRTLPTSFNYGAIKATRVTELLYRMKRAETYCPRPLLAIHPTEARHKQKIVAPVK 1qqs-a1-m1-cA_1qqs-a1-m2-cA NEUTROPHIL GELATINASE ASSOCIATED LIPOCALIN HOMODIMER P80188 P80188 2.4 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 TSDLIPAPPLSKVPLQQNFQDNQFQGKWYVVGLAGNAILREDKDPQKMYATIYEEKEDASYNVTSVLFRKKKCDYAIRTFVPGCQPGEFTLGNIKSYPGLTSYLVRVVSTNYNQHAMVFFKKVSQNREYFKITLYGRTKELTSELKNNFIRFSKSLGLPENHIVFPVPIDQCID TSDLIPAPPLSKVPLQQNFQDNQFQGKWYVVGLAGNAILREDKDPQKMYATIYEEKEDASYNVTSVLFRKKKCDYAIRTFVPGCQPGEFTLGNIKSYPGLTSYLVRVVSTNYNQHAMVFFKKVSQNREYFKITLYGRTKELTSELKNNFIRFSKSLGLPENHIVFPVPIDQCID 1qr0-a2-m1-cA_1qr0-a2-m2-cA CRYSTAL STRUCTURE OF THE 4'-PHOSPHOPANTETHEINYL TRANSFERASE SFP-COENZYME A COMPLEX P39135 P39135 1.9 X-RAY DIFFRACTION 116 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 228 228 MKIYGIYMDRPLSQEENERFMTFISPEKREKCRRFYHKEDAHRTLLGDVLVRSVISRQYQLDKSDIRFSTQEYGKPCIPDLPDAHFNISHSGRWVIGAFDSQPIGIDIEKTKPISLEIAKRFFSKTEYSDLLAKDKDEQTDYFYHLWSMKESFIKQEGKGLSLPLDSFSVRLHQDGQVSIELPDSHSPCYIKTYEVDPGYKMAVCAAHPDFPEDITMVSYEELLRAAA MKIYGIYMDRPLSQEENERFMTFISPEKREKCRRFYHKEDAHRTLLGDVLVRSVISRQYQLDKSDIRFSTQEYGKPCIPDLPDAHFNISHSGRWVIGAFDSQPIGIDIEKTKPISLEIAKRFFSKTEYSDLLAKDKDEQTDYFYHLWSMKESFIKQEGKGLSLPLDSFSVRLHQDGQVSIELPDSHSPCYIKTYEVDPGYKMAVCAAHPDFPEDITMVSYEELLRAAA 1qrd-a1-m1-cA_1qrd-a1-m1-cB QUINONE REDUCTASE/FAD/CIBACRON BLUE/DUROQUINONE COMPLEX P05982 P05982 2.4 X-RAY DIFFRACTION 60 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 273 273 AVRRALIVLAHAERTSFNYAMKEAAVEALKKKGWEVVESDLYAMNFNPLISRNDITGEPKDSENFQYPVESSLAYKEGRLSPDIVAEQKKLEAADLVIFQFPLYWFGVPAILKGWFERVLVAGFAYTYATMYDKGPFQNKKTLLSITTGGSGSMYSLQGVHGDMNVILWPIQSGILRFCGFQVLEPQLVYSIGHTPPDARVQVLEGWKKRLETVWEESPLYFAPSSLFDLNFQAGFLLKKEVQEEQKKNKFGLSVGHHLGKSIPADNQIKARK AVRRALIVLAHAERTSFNYAMKEAAVEALKKKGWEVVESDLYAMNFNPLISRNDITGEPKDSENFQYPVESSLAYKEGRLSPDIVAEQKKLEAADLVIFQFPLYWFGVPAILKGWFERVLVAGFAYTYATMYDKGPFQNKKTLLSITTGGSGSMYSLQGVHGDMNVILWPIQSGILRFCGFQVLEPQLVYSIGHTPPDARVQVLEGWKKRLETVWEESPLYFAPSSLFDLNFQAGFLLKKEVQEEQKKNKFGLSVGHHLGKSIPADNQIKARK 1qrd-a3-m1-cB_1qrd-a3-m3-cB QUINONE REDUCTASE/FAD/CIBACRON BLUE/DUROQUINONE COMPLEX P05982 P05982 2.4 X-RAY DIFFRACTION 175 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 273 273 1dxq-a1-m1-cA_1dxq-a1-m1-cC 1dxq-a2-m1-cB_1dxq-a2-m1-cD 1qrd-a2-m1-cA_1qrd-a2-m2-cA AVRRALIVLAHAERTSFNYAMKEAAVEALKKKGWEVVESDLYAMNFNPLISRNDITGEPKDSENFQYPVESSLAYKEGRLSPDIVAEQKKLEAADLVIFQFPLYWFGVPAILKGWFERVLVAGFAYTYATMYDKGPFQNKKTLLSITTGGSGSMYSLQGVHGDMNVILWPIQSGILRFCGFQVLEPQLVYSIGHTPPDARVQVLEGWKKRLETVWEESPLYFAPSSLFDLNFQAGFLLKKEVQEEQKKNKFGLSVGHHLGKSIPADNQIKARK AVRRALIVLAHAERTSFNYAMKEAAVEALKKKGWEVVESDLYAMNFNPLISRNDITGEPKDSENFQYPVESSLAYKEGRLSPDIVAEQKKLEAADLVIFQFPLYWFGVPAILKGWFERVLVAGFAYTYATMYDKGPFQNKKTLLSITTGGSGSMYSLQGVHGDMNVILWPIQSGILRFCGFQVLEPQLVYSIGHTPPDARVQVLEGWKKRLETVWEESPLYFAPSSLFDLNFQAGFLLKKEVQEEQKKNKFGLSVGHHLGKSIPADNQIKARK 1qs0-a1-m1-cA_1qs0-a1-m2-cA Crystal Structure of Pseudomonas Putida 2-oxoisovalerate Dehydrogenase (Branched-Chain Alpha-Keto Acid Dehydrogenase, E1B) P09060 P09060 2.4 X-RAY DIFFRACTION 124 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 395 395 2bp7-a1-m1-cA_2bp7-a1-m1-cC 2bp7-a2-m1-cE_2bp7-a2-m1-cG NEYAPLRLHVPEPTGRPGCQTDFSYLRLNDAGQARKPPVDVDAADTADLSYSLVRVLDEQGDAQGPWAEDIDPQILRQGRALKTRIFDSRVVAQRQKKSFYQSLGEEAIGSGQALALNRTDCFPTYRQQSILARDVSLVEICQLLSNERDPLKGRQLPIYSVREAGFFTISGNLATQFVQAVGWAASAIKGDTKIASAWIGDGATAESDFHTALTFAHVYRAPVILNVVNNQWAISTFQAIAGGESTTFAGRGVGCGIASLRVDGNDFVAVYAASRWAAERARRGLGPSLIEWVTYRAGPHSTSDDPSKYRPADDWSHFPLGDPIARLKQHLIKIGHWSEEEHQATTAEFEAAVIAAQKEAEQYGTLANGHIPSAASFEDVYKEPDHLRRQRQEL NEYAPLRLHVPEPTGRPGCQTDFSYLRLNDAGQARKPPVDVDAADTADLSYSLVRVLDEQGDAQGPWAEDIDPQILRQGRALKTRIFDSRVVAQRQKKSFYQSLGEEAIGSGQALALNRTDCFPTYRQQSILARDVSLVEICQLLSNERDPLKGRQLPIYSVREAGFFTISGNLATQFVQAVGWAASAIKGDTKIASAWIGDGATAESDFHTALTFAHVYRAPVILNVVNNQWAISTFQAIAGGESTTFAGRGVGCGIASLRVDGNDFVAVYAASRWAAERARRGLGPSLIEWVTYRAGPHSTSDDPSKYRPADDWSHFPLGDPIARLKQHLIKIGHWSEEEHQATTAEFEAAVIAAQKEAEQYGTLANGHIPSAASFEDVYKEPDHLRRQRQEL 1qs0-a1-m1-cB_1qs0-a1-m2-cB Crystal Structure of Pseudomonas Putida 2-oxoisovalerate Dehydrogenase (Branched-Chain Alpha-Keto Acid Dehydrogenase, E1B) P09061 P09061 2.4 X-RAY DIFFRACTION 108 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 328 328 2bp7-a1-m1-cB_2bp7-a1-m1-cD 2bp7-a2-m1-cF_2bp7-a2-m1-cH ATTTTIQALRSADVLERDDNVVVYGQDVGYFGGVFRCTEGLQTKYGKSRVFDAPISESGIVGTAVGGAYGLRPVVEIQFADYFYPASDQIVSEARLRYRSAGEFIAPLTLRPCGGGIYGGQTHSQSPEAFTQVCGLRTVPSNPYDAKGLLIASIECDDPVIFLEPKRLYNGPFDGHHDRPVTPWSKHPHSAVPDGYYTVPLDKAAITRPGNDVSVLTYGTTVYVAQVAAEESGVDAEVIDLRSLWPLDLDTIVESVKKTGRCVVVHEATRTCGFGAELVSLVQEHCFHHLEAPIERVTGWDTPYPHAQEWAYFPGPSRVGAALKKVEV ATTTTIQALRSADVLERDDNVVVYGQDVGYFGGVFRCTEGLQTKYGKSRVFDAPISESGIVGTAVGGAYGLRPVVEIQFADYFYPASDQIVSEARLRYRSAGEFIAPLTLRPCGGGIYGGQTHSQSPEAFTQVCGLRTVPSNPYDAKGLLIASIECDDPVIFLEPKRLYNGPFDGHHDRPVTPWSKHPHSAVPDGYYTVPLDKAAITRPGNDVSVLTYGTTVYVAQVAAEESGVDAEVIDLRSLWPLDLDTIVESVKKTGRCVVVHEATRTCGFGAELVSLVQEHCFHHLEAPIERVTGWDTPYPHAQEWAYFPGPSRVGAALKKVEV 1qs8-a3-m1-cA_1qs8-a3-m2-cB Crystal structure of the P. vivax aspartic proteinase plasmepsin complexed with the inhibitor pepstatin A O60989 O60989 2.5 X-RAY DIFFRACTION 69 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 327 328 SENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN GSENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN 1qs8-a4-m1-cA_1qs8-a4-m3-cA Crystal structure of the P. vivax aspartic proteinase plasmepsin complexed with the inhibitor pepstatin A O60989 O60989 2.5 X-RAY DIFFRACTION 33 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 327 327 SENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN SENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN 1qs8-a4-m3-cA_1qs8-a4-m3-cB Crystal structure of the P. vivax aspartic proteinase plasmepsin complexed with the inhibitor pepstatin A O60989 O60989 2.5 X-RAY DIFFRACTION 30 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 327 328 1qs8-a4-m1-cA_1qs8-a4-m1-cB SENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN GSENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN 1qs8-a4-m3-cB_1qs8-a4-m1-cB Crystal structure of the P. vivax aspartic proteinase plasmepsin complexed with the inhibitor pepstatin A O60989 O60989 2.5 X-RAY DIFFRACTION 40 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 328 328 GSENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN GSENDVIELDDVANIMFYGEGEVGDNHQKFMLIFDTGSANLWVPSKKCNSSGCSIKNLYDSSKSKSYEKDGTKVDITYGSGTVKGFFSKDLVTLGHLSMPYKFIEVIDTDDLEPIYSSVEFDGILGLGWKDLSIGSIDPIVVELKNQNKIDNALFTFYLPVHDVHAGYLTIGGIEEKFYEGNITYEKLNHDLYWQIDLDVHFGKQTMEKANVIVDSGTTTITAPSEFLNKFFANLNVIKVPFLPFYVTTCDNKEMPTLEFKSANNTYTLEPEYYMNPILEVDDTLCMITMLPVDIDSNTFILGDPFMRKYFTVFDYDKESVGFAIAKN 1qsd-a1-m1-cA_1qsd-a1-m1-cB RBL2P, BETA-TUBULIN BINDING POST-CHAPERONIN COFACTOR P48606 P48606 2.2 X-RAY DIFFRACTION 44 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 102 102 TQLDIKVKALKRLTKEEGYYQQELKDQEAHVAKLKEDKSVDPYDLKKQEEVLDDTKRLLPTLYEKIREFKEDLEQFLKTYQGTEDVSDARSAITSAQELLDS TQLDIKVKALKRLTKEEGYYQQELKDQEAHVAKLKEDKSVDPYDLKKQEEVLDDTKRLLPTLYEKIREFKEDLEQFLKTYQGTEDVSDARSAITSAQELLDS 1qsj-a2-m1-cC_1qsj-a2-m1-cD N-TERMINALLY TRUNCATED C3DG FRAGMENT P01026 P01026 1.9 X-RAY DIFFRACTION 82 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 276 276 1qqf-a1-m1-cA_1qqf-a1-m2-cA 1qsj-a1-m1-cA_1qsj-a1-m1-cB CGEQNMIGMTPTVIAVHYLDQTEQWEKFGLEKRQEALELIKKGYTQQLAFKQPISAYAAFNNRPPSTWLTAYVSRVFSLAANLIAIDSQVLCGAVKWLILEKQKPDGVFQEDGPVIHQEMIGGFRNTKEADVSLTAFVLIALQEARDICEGQVNSLPGSINKAGEYLEASYLNLQRPYTVAIAGYALALMNKLEEPYLTKFLNTAKDRNRWEEPGQQLYNVEATSYALLALLLLKDFDSVPPVVRWLNDERYYGGGYGSTQATFMVFQALAQYRAD CGEQNMIGMTPTVIAVHYLDQTEQWEKFGLEKRQEALELIKKGYTQQLAFKQPISAYAAFNNRPPSTWLTAYVSRVFSLAANLIAIDSQVLCGAVKWLILEKQKPDGVFQEDGPVIHQEMIGGFRNTKEADVSLTAFVLIALQEARDICEGQVNSLPGSINKAGEYLEASYLNLQRPYTVAIAGYALALMNKLEEPYLTKFLNTAKDRNRWEEPGQQLYNVEATSYALLALLLLKDFDSVPPVVRWLNDERYYGGGYGSTQATFMVFQALAQYRAD 1qsm-a1-m1-cC_1qsm-a1-m1-cA Histone Acetyltransferase HPA2 from Saccharomyces Cerevisiae in Complex with Acetyl Coenzyme A Q06592 Q06592 2.4 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 149 150 1qsm-a1-m1-cB_1qsm-a1-m1-cD 1qso-a1-m1-cA_1qso-a1-m1-cC 1qso-a1-m1-cB_1qso-a1-m1-cD NITVRFVTENDKEGWQRLWKSYQDFYEVSFPDDLDDFNFGRFLDPNIKMWAAVAVESSSEKIIGMINFFNHMTTWDFKDKIYINDLYVDENSRVKGAGGKLIQFVYDEADKLGTPSVYWCTDESNHRAQLLYVKVGYKAPKILYKRKGY DNITVRFVTENDKEGWQRLWKSYQDFYEVSFPDDLDDFNFGRFLDPNIKMWAAVAVESSSEKIIGMINFFNHMTTWDFKDKIYINDLYVDENSRVKGAGGKLIQFVYDEADKLGTPSVYWCTDESNHRAQLLYVKVGYKAPKILYKRKGY 1qsm-a3-m1-cB_1qsm-a3-m1-cA Histone Acetyltransferase HPA2 from Saccharomyces Cerevisiae in Complex with Acetyl Coenzyme A Q06592 Q06592 2.4 X-RAY DIFFRACTION 148 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 149 150 1qsm-a1-m1-cB_1qsm-a1-m1-cA 1qsm-a1-m1-cC_1qsm-a1-m1-cD 1qsm-a2-m1-cC_1qsm-a2-m1-cD 1qso-a1-m1-cA_1qso-a1-m1-cB 1qso-a1-m1-cC_1qso-a1-m1-cD 1qso-a2-m1-cA_1qso-a2-m1-cB 1qso-a3-m1-cC_1qso-a3-m1-cD NITVRFVTENDKEGWQRLWKSYQDFYEVSFPDDLDDFNFGRFLDPNIKMWAAVAVESSSEKIIGMINFFNHMTTWDFKDKIYINDLYVDENSRVKGAGGKLIQFVYDEADKLGTPSVYWCTDESNHRAQLLYVKVGYKAPKILYKRKGY DNITVRFVTENDKEGWQRLWKSYQDFYEVSFPDDLDDFNFGRFLDPNIKMWAAVAVESSSEKIIGMINFFNHMTTWDFKDKIYINDLYVDENSRVKGAGGKLIQFVYDEADKLGTPSVYWCTDESNHRAQLLYVKVGYKAPKILYKRKGY 1qsu-a1-m1-cC_1qsu-a1-m1-cA CRYSTAL STRUCTURE OF THE TRIPLE-HELICAL COLLAGEN-LIKE PEPTIDE, (PRO-HYP-GLY)4-GLU-LYS-GLY(PRO-HYP-GLY)5 1.75 X-RAY DIFFRACTION 43 1.0 20 21 PGPGPGPGEKGPGPGPGPGP PGPGPGPGEKGPGPGPGPGPG 1qsu-a1-m1-cC_1qsu-a1-m1-cB CRYSTAL STRUCTURE OF THE TRIPLE-HELICAL COLLAGEN-LIKE PEPTIDE, (PRO-HYP-GLY)4-GLU-LYS-GLY(PRO-HYP-GLY)5 1.75 X-RAY DIFFRACTION 45 1.0 20 21 1qsu-a1-m1-cA_1qsu-a1-m1-cB PGPGPGPGEKGPGPGPGPGP PGPGPGPGEKGPGPGPGPGPG 1qu0-a2-m1-cB_1qu0-a2-m1-cC CRYSTAL STRUCTURE OF THE FIFTH LAMININ G-LIKE MODULE OF THE MOUSE LAMININ ALPHA2 CHAIN Q60675 Q60675 2.35 X-RAY DIFFRACTION 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 181 183 SGTYFDGTGFAKAVGGFKVGLDLLVEFEFRTTRPTGVLLGISSQKMDGMGIEMIDEKLMFHVDNGAGRFTAIYDAEIPGHMCNGQWHKVTAKKIKNRLELVVDGNQVDAQSPNSASTSADTNDPVFVGGFPGGLNQFGLTTNIRFRGCIRSLKLTKGTGKPLEVNFAKALELRGVQPVSCP ESGTYFDGTGFAKAVGGFKVGLDLLVEFEFRTTRPTGVLLGISSQKMDGMGIEMIDEKLMFHVDNGAGRFTAIYDAEIPGHMCNGQWHKVTAKKIKNRLELVVDGNQVDAQSPNSASTSADTNDPVFVGGFPGGLNQFGLTTNIRFRGCIRSLKLTKGTGKPLEVNFAKALELRGVQPVSCPT 1qu0-a3-m1-cD_1qu0-a3-m1-cC CRYSTAL STRUCTURE OF THE FIFTH LAMININ G-LIKE MODULE OF THE MOUSE LAMININ ALPHA2 CHAIN Q60675 Q60675 2.35 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 181 183 1qu0-a1-m1-cA_1qu0-a1-m1-cB SGTYFDGTGFAKAVGGFKVGLDLLVEFEFRTTRPTGVLLGISSQKMDGMGIEMIDEKLMFHVDNGAGRFTAIYDAEIPGHMCNGQWHKVTAKKIKNRLELVVDGNQVDAQSPNSASTSADTNDPVFVGGFPGGLNQFGLTTNIRFRGCIRSLKLTKGTGKPLEVNFAKALELRGVQPVSCP ESGTYFDGTGFAKAVGGFKVGLDLLVEFEFRTTRPTGVLLGISSQKMDGMGIEMIDEKLMFHVDNGAGRFTAIYDAEIPGHMCNGQWHKVTAKKIKNRLELVVDGNQVDAQSPNSASTSADTNDPVFVGGFPGGLNQFGLTTNIRFRGCIRSLKLTKGTGKPLEVNFAKALELRGVQPVSCPT 1qu7-a1-m1-cB_1qu7-a1-m1-cA FOUR HELICAL-BUNDLE STRUCTURE OF THE CYTOPLASMIC DOMAIN OF A SERINE CHEMOTAXIS RECEPTOR P02942 P02942 2.6 X-RAY DIFFRACTION 324 1.0 562 (Escherichia coli) 562 (Escherichia coli) 221 227 6s1k-a1-m1-cE_6s1k-a1-m1-cF 6s1k-a1-m1-cG_6s1k-a1-m1-cH 6s1k-a1-m1-cI_6s1k-a1-m1-cJ 6s1k-a1-m1-cK_6s1k-a1-m1-cL 6s1k-a1-m1-cM_6s1k-a1-m1-cN 6s1k-a1-m1-cO_6s1k-a1-m1-cP ASLEQTAASMEQLTATVKQNAENARQASHLALSASETAQRGGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGETMAEIVSAVTRVTDIMGEIASASDEQSRGIDQVGLAVAEMDRVTQQNAALVEQSAAAAAALEEQASRLTEAVAVFRIQQQ RTEQQAASLEQTAASMEQLTATVKQNAENARQASHLALSASETAQRGGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGETMAEIVSAVTRVTDIMGEIASASDEQSRGIDQVGLAVAEMDRVTQQNAALVEQSAAAAAALEEQASRLTEAVAVFRIQQQ 1qu9-a1-m1-cB_1qu9-a1-m1-cC 1.2 A CRYSTAL STRUCTURE OF YJGF GENE PRODUCT FROM E. COLI P0AF93 P0AF93 1.2 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 126 126 1qu9-a1-m1-cA_1qu9-a1-m1-cB 1qu9-a1-m1-cA_1qu9-a1-m1-cC SKTIATENAPAAIGPYVQGVDLGNMIITSGQIPVNPKTGEVPADVAAQARQSLDNVKAIVEAAGLKVGDIVKTTVFVKDLNDFATVNATYEAFFTEHNATFPARSVEVARLPKDVKIEIEAIAVRR SKTIATENAPAAIGPYVQGVDLGNMIITSGQIPVNPKTGEVPADVAAQARQSLDNVKAIVEAAGLKVGDIVKTTVFVKDLNDFATVNATYEAFFTEHNATFPARSVEVARLPKDVKIEIEAIAVRR 1qun-a9-m1-cE_1qun-a9-m2-cE X-RAY STRUCTURE OF THE FIMC-FIMH CHAPERONE ADHESIN COMPLEX FROM UROPATHOGENIC E.COLI P31697 P31697 2.8 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 200 200 1kiu-a10-m1-cA_1kiu-a10-m5-cG 1kiu-a11-m1-cE_1kiu-a11-m6-cE 1kiu-a9-m1-cC_1kiu-a9-m2-cC 1qun-a10-m1-cA_1qun-a10-m5-cG 1qun-a11-m1-cC_1qun-a11-m6-cC GVALGATRVIYPAGQKQVQLAVTNNDENSTYLIQSWVENADGVKDGRFIVTPPLFAMKGKKENTLRILDATNNQLPQDRESLFWMNVKAIPSMDKSKLTENTLQLAIISRIKLYYRPAKLALPPDQAAEKLRFRRSANSLTLINPTPYYLTVTELNAGTRVLENALVPPMGESAVKLSNITYRTINDYGALTPKMTGVME GVALGATRVIYPAGQKQVQLAVTNNDENSTYLIQSWVENADGVKDGRFIVTPPLFAMKGKKENTLRILDATNNQLPQDRESLFWMNVKAIPSMDKSKLTENTLQLAIISRIKLYYRPAKLALPPDQAAEKLRFRRSANSLTLINPTPYYLTVTELNAGTRVLENALVPPMGESAVKLSNITYRTINDYGALTPKMTGVME 1qup-a1-m1-cB_1qup-a1-m1-cA CRYSTAL STRUCTURE OF THE COPPER CHAPERONE FOR SUPEROXIDE DISMUTASE P40202 P40202 1.8 X-RAY DIFFRACTION 62 0.995 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 217 219 DTYEATYAIPHCENCVNDIKACLKNVPGINSLNFDIEQQISVESSVAPSTIINTLRNCGKDAIIRGAGKPNSSAVAILETFQKYTIDQKKDTAVRGLARIVQVGENKTLFDITVNGVPEAGNYHASIHEKGDVSKGVESTGKVWHKFDEPIECFNESDLGKNLYSGKTFLSAPLPTWQLIGRSFVISKSLNHPENEPSSVKDYSFLGVIARSAGVWE TTNDTYEATYAIPHCENCVNDIKACLKNVPGINSLNFDIEQQISVESSVAPSTIINTLRNCGKDAIIRGAGKPNSSAVAILETFQKYTIDQKKDTAVRGLARIVQVGENKTLFDITVNGVPEAGNYHASIHEKGDVSKGVESTGKVWHKFDEPIECFNESDLGKNLYSGKTFLSAPLPTWQLIGRSFVISKSLNHPENEPSSVKDYSFLGVIARSAGVW 1quq-a1-m1-cC_1quq-a1-m1-cA COMPLEX OF REPLICATION PROTEIN A SUBUNITS RPA14 AND RPA32 P15927 P15927 2.5 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 121 HIVPCTISQLLSATLVDEVFRIGNVEISQVTIVGIIRHAEKAPTNIVYKIDDMTAAPMDVRQWVNTVVPPETYVKVAGHLRSFQNKKSLVAFKIMPLEDMNEFTTHILEVINAHMVLSK HIVPCTISQLLSATLVDEVFRIGNVEISQVTIVGIIRHAEKAPTNIVYKIDDMTAAPMDVRQWVDTNTVVPPETYVKVAGHLRSFQNKKSLVAFKIMPLEDMNEFTTHILEVINAHMVLSK 1qv9-a1-m1-cB_1qv9-a1-m2-cC Coenzyme F420-dependent methylenetetrahydromethanopterin dehydrogenase (Mtd) from Methanopyrus kandleri: A methanogenic enzyme with an unusual quarternary structure P94951 P94951 1.54 X-RAY DIFFRACTION 177 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 266 266 1qv9-a1-m1-cA_1qv9-a1-m2-cA 1qv9-a1-m1-cC_1qv9-a1-m2-cB 1u6i-a1-m1-cA_1u6i-a1-m1-cB 1u6i-a1-m1-cC_1u6i-a1-m1-cD 1u6i-a1-m1-cE_1u6i-a1-m1-cF 1u6i-a2-m1-cG_1u6i-a2-m1-cH 1u6i-a2-m1-cI_1u6i-a2-m1-cJ 1u6i-a2-m1-cK_1u6i-a2-m1-cL 1u6j-a1-m1-cA_1u6j-a1-m1-cB 1u6j-a1-m1-cC_1u6j-a1-m1-cD 1u6j-a1-m1-cE_1u6j-a1-m1-cF 1u6j-a2-m1-cG_1u6j-a2-m1-cH 1u6j-a2-m1-cI_1u6j-a2-m1-cJ 1u6j-a2-m1-cK_1u6j-a2-m1-cL 1u6k-a1-m1-cA_1u6k-a1-m2-cA 1u6k-a1-m1-cB_1u6k-a1-m2-cC 1u6k-a1-m1-cC_1u6k-a1-m2-cB 3iqe-a1-m1-cA_3iqe-a1-m1-cD 3iqe-a1-m1-cB_3iqe-a1-m1-cF 3iqe-a1-m1-cC_3iqe-a1-m1-cE 3iqf-a1-m1-cA_3iqf-a1-m1-cD 3iqf-a1-m1-cB_3iqf-a1-m1-cF 3iqf-a1-m1-cC_3iqf-a1-m1-cE 3iqf-a2-m1-cG_3iqf-a2-m1-cJ 3iqf-a2-m1-cH_3iqf-a2-m1-cL 3iqf-a2-m1-cI_3iqf-a2-m1-cK 3iqz-a1-m1-cA_3iqz-a1-m1-cD 3iqz-a1-m1-cB_3iqz-a1-m1-cF 3iqz-a1-m1-cC_3iqz-a1-m1-cE TVAKAIFIKCGNLGTSDLLDERADREDVEFRVVGTSVKDPECVEAAVEALDIAEDFEPDFIVYGGPNPAAPGPSKARELADSEYPAVIIGDAPGLKVKDEEEQGLGYILVKPDALGARREFLDPVEAIYNADLKVLAATGVFRVVQEAFDELIEKAKEDEISENDLPKLVIDRNTLLEREEFENPYAVKAAALEIAENVADVSVEGCFVEQDKERYVPIVASAHERKAAELADEARELEKSNDAVLRTPHAPDGKVLSKRKFEDPE TVAKAIFIKCGNLGTSDLLDERADREDVEFRVVGTSVKDPECVEAAVEALDIAEDFEPDFIVYGGPNPAAPGPSKARELADSEYPAVIIGDAPGLKVKDEEEQGLGYILVKPDALGARREFLDPVEAIYNADLKVLAATGVFRVVQEAFDELIEKAKEDEISENDLPKLVIDRNTLLEREEFENPYAVKAAALEIAENVADVSVEGCFVEQDKERYVPIVASAHERKAAELADEARELEKSNDAVLRTPHAPDGKVLSKRKFEDPE 1qv9-a1-m1-cC_1qv9-a1-m2-cC Coenzyme F420-dependent methylenetetrahydromethanopterin dehydrogenase (Mtd) from Methanopyrus kandleri: A methanogenic enzyme with an unusual quarternary structure P94951 P94951 1.54 X-RAY DIFFRACTION 61 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 266 266 1qv9-a1-m1-cA_1qv9-a1-m2-cB 1qv9-a1-m1-cB_1qv9-a1-m2-cA 1u6i-a1-m1-cA_1u6i-a1-m1-cF 1u6i-a1-m1-cB_1u6i-a1-m1-cC 1u6i-a1-m1-cD_1u6i-a1-m1-cE 1u6i-a2-m1-cG_1u6i-a2-m1-cL 1u6i-a2-m1-cH_1u6i-a2-m1-cI 1u6i-a2-m1-cJ_1u6i-a2-m1-cK 1u6j-a1-m1-cA_1u6j-a1-m1-cF 1u6j-a1-m1-cB_1u6j-a1-m1-cC 1u6j-a1-m1-cD_1u6j-a1-m1-cE 1u6j-a2-m1-cG_1u6j-a2-m1-cL 1u6j-a2-m1-cH_1u6j-a2-m1-cI 1u6j-a2-m1-cJ_1u6j-a2-m1-cK 1u6k-a1-m1-cA_1u6k-a1-m2-cB 1u6k-a1-m1-cB_1u6k-a1-m2-cA 1u6k-a1-m1-cC_1u6k-a1-m2-cC 3iqe-a1-m1-cA_3iqe-a1-m1-cE 3iqe-a1-m1-cB_3iqe-a1-m1-cD 3iqe-a1-m1-cC_3iqe-a1-m1-cF 3iqf-a1-m1-cA_3iqf-a1-m1-cE 3iqf-a1-m1-cB_3iqf-a1-m1-cD 3iqf-a1-m1-cC_3iqf-a1-m1-cF 3iqf-a2-m1-cG_3iqf-a2-m1-cK 3iqf-a2-m1-cH_3iqf-a2-m1-cJ 3iqf-a2-m1-cI_3iqf-a2-m1-cL 3iqz-a1-m1-cA_3iqz-a1-m1-cE 3iqz-a1-m1-cB_3iqz-a1-m1-cD 3iqz-a1-m1-cC_3iqz-a1-m1-cF TVAKAIFIKCGNLGTSDLLDERADREDVEFRVVGTSVKDPECVEAAVEALDIAEDFEPDFIVYGGPNPAAPGPSKARELADSEYPAVIIGDAPGLKVKDEEEQGLGYILVKPDALGARREFLDPVEAIYNADLKVLAATGVFRVVQEAFDELIEKAKEDEISENDLPKLVIDRNTLLEREEFENPYAVKAAALEIAENVADVSVEGCFVEQDKERYVPIVASAHERKAAELADEARELEKSNDAVLRTPHAPDGKVLSKRKFEDPE TVAKAIFIKCGNLGTSDLLDERADREDVEFRVVGTSVKDPECVEAAVEALDIAEDFEPDFIVYGGPNPAAPGPSKARELADSEYPAVIIGDAPGLKVKDEEEQGLGYILVKPDALGARREFLDPVEAIYNADLKVLAATGVFRVVQEAFDELIEKAKEDEISENDLPKLVIDRNTLLEREEFENPYAVKAAALEIAENVADVSVEGCFVEQDKERYVPIVASAHERKAAELADEARELEKSNDAVLRTPHAPDGKVLSKRKFEDPE 1qv9-a1-m2-cB_1qv9-a1-m2-cC Coenzyme F420-dependent methylenetetrahydromethanopterin dehydrogenase (Mtd) from Methanopyrus kandleri: A methanogenic enzyme with an unusual quarternary structure P94951 P94951 1.54 X-RAY DIFFRACTION 14 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 266 266 1qv9-a1-m1-cA_1qv9-a1-m1-cB 1qv9-a1-m1-cA_1qv9-a1-m1-cC 1qv9-a1-m1-cB_1qv9-a1-m1-cC 1qv9-a1-m2-cA_1qv9-a1-m2-cB 1qv9-a1-m2-cA_1qv9-a1-m2-cC 1u6i-a1-m1-cA_1u6i-a1-m1-cC 1u6i-a1-m1-cA_1u6i-a1-m1-cE 1u6i-a1-m1-cB_1u6i-a1-m1-cD 1u6i-a1-m1-cB_1u6i-a1-m1-cF 1u6i-a1-m1-cC_1u6i-a1-m1-cE 1u6i-a1-m1-cD_1u6i-a1-m1-cF 1u6i-a2-m1-cG_1u6i-a2-m1-cI 1u6i-a2-m1-cG_1u6i-a2-m1-cK 1u6i-a2-m1-cH_1u6i-a2-m1-cJ 1u6i-a2-m1-cH_1u6i-a2-m1-cL 1u6i-a2-m1-cI_1u6i-a2-m1-cK 1u6i-a2-m1-cJ_1u6i-a2-m1-cL 1u6j-a1-m1-cA_1u6j-a1-m1-cC 1u6j-a1-m1-cA_1u6j-a1-m1-cE 1u6j-a1-m1-cB_1u6j-a1-m1-cD 1u6j-a1-m1-cB_1u6j-a1-m1-cF 1u6j-a1-m1-cC_1u6j-a1-m1-cE 1u6j-a1-m1-cD_1u6j-a1-m1-cF 1u6j-a2-m1-cG_1u6j-a2-m1-cI 1u6j-a2-m1-cG_1u6j-a2-m1-cK 1u6j-a2-m1-cH_1u6j-a2-m1-cJ 1u6j-a2-m1-cH_1u6j-a2-m1-cL 1u6j-a2-m1-cI_1u6j-a2-m1-cK 1u6j-a2-m1-cJ_1u6j-a2-m1-cL 1u6k-a1-m1-cA_1u6k-a1-m1-cB 1u6k-a1-m1-cA_1u6k-a1-m1-cC 1u6k-a1-m1-cB_1u6k-a1-m1-cC 1u6k-a1-m2-cA_1u6k-a1-m2-cB 1u6k-a1-m2-cA_1u6k-a1-m2-cC 1u6k-a1-m2-cB_1u6k-a1-m2-cC 3iqe-a1-m1-cA_3iqe-a1-m1-cB 3iqe-a1-m1-cA_3iqe-a1-m1-cC 3iqe-a1-m1-cB_3iqe-a1-m1-cC 3iqe-a1-m1-cD_3iqe-a1-m1-cE 3iqe-a1-m1-cD_3iqe-a1-m1-cF 3iqe-a1-m1-cE_3iqe-a1-m1-cF 3iqf-a1-m1-cA_3iqf-a1-m1-cB 3iqf-a1-m1-cA_3iqf-a1-m1-cC 3iqf-a1-m1-cB_3iqf-a1-m1-cC 3iqf-a1-m1-cD_3iqf-a1-m1-cE 3iqf-a1-m1-cD_3iqf-a1-m1-cF 3iqf-a1-m1-cE_3iqf-a1-m1-cF 3iqf-a2-m1-cG_3iqf-a2-m1-cH 3iqf-a2-m1-cG_3iqf-a2-m1-cI 3iqf-a2-m1-cH_3iqf-a2-m1-cI 3iqf-a2-m1-cJ_3iqf-a2-m1-cK 3iqf-a2-m1-cJ_3iqf-a2-m1-cL 3iqf-a2-m1-cK_3iqf-a2-m1-cL 3iqz-a1-m1-cA_3iqz-a1-m1-cB 3iqz-a1-m1-cA_3iqz-a1-m1-cC 3iqz-a1-m1-cB_3iqz-a1-m1-cC 3iqz-a1-m1-cD_3iqz-a1-m1-cE 3iqz-a1-m1-cD_3iqz-a1-m1-cF 3iqz-a1-m1-cE_3iqz-a1-m1-cF TVAKAIFIKCGNLGTSDLLDERADREDVEFRVVGTSVKDPECVEAAVEALDIAEDFEPDFIVYGGPNPAAPGPSKARELADSEYPAVIIGDAPGLKVKDEEEQGLGYILVKPDALGARREFLDPVEAIYNADLKVLAATGVFRVVQEAFDELIEKAKEDEISENDLPKLVIDRNTLLEREEFENPYAVKAAALEIAENVADVSVEGCFVEQDKERYVPIVASAHERKAAELADEARELEKSNDAVLRTPHAPDGKVLSKRKFEDPE TVAKAIFIKCGNLGTSDLLDERADREDVEFRVVGTSVKDPECVEAAVEALDIAEDFEPDFIVYGGPNPAAPGPSKARELADSEYPAVIIGDAPGLKVKDEEEQGLGYILVKPDALGARREFLDPVEAIYNADLKVLAATGVFRVVQEAFDELIEKAKEDEISENDLPKLVIDRNTLLEREEFENPYAVKAAALEIAENVADVSVEGCFVEQDKERYVPIVASAHERKAAELADEARELEKSNDAVLRTPHAPDGKVLSKRKFEDPE 1qvb-a1-m1-cA_1qvb-a1-m2-cB CRYSTAL STRUCTURE OF THE BETA-GLYCOSIDASE FROM THE HYPERTHERMOPHILE THERMOSPHAERA AGGREGANS Q9YGA8 Q9YGA8 2.4 X-RAY DIFFRACTION 42 1.0 54254 (Thermosphaera aggregans) 54254 (Thermosphaera aggregans) 481 481 1qvb-a1-m1-cB_1qvb-a1-m2-cA MKFPKDFMIGYSSSPFQFEAGIPGSEDPNSDWWVWVHDPENTAAGLVSGDFPENGPGYWNLNQNDHDLAEKLGVNTIRVGVEWSRIFPKPTFNVKVPVERDENGSIVHVDVDDKAVERLDELANKEAVNHYVEMYKDWVERGRKLILNLYHWPLPLWLHNPIMVRRMGPDRAPSGWLNEESVVEFAKYAAYIAWKMGELPVMWSTMNEPNVVYEQGYMFVKGGFPPGYLSLEAADKARRNMIQAHARAYDNIKRFSKKPVGLIYAFQWFELLEGPAEVFDKFKSSKLYYFTDIVSKGSSIINVEYRRDLANRLDWLGVNYYSRLVYKIVDDKPIILHGYGFLCTPGGISPAENPCSDFGWEVYPEGLYLLLKELYNRYGVDLIVTENGVSDSRDALRPAYLVSHVYSVWKAANEGIPVKGYLHWSLTDNYEWAQGFRQKFGLVMVDFKTKKRYLRPSALVFREIATHNGIPDELQHLTLIQ MKFPKDFMIGYSSSPFQFEAGIPGSEDPNSDWWVWVHDPENTAAGLVSGDFPENGPGYWNLNQNDHDLAEKLGVNTIRVGVEWSRIFPKPTFNVKVPVERDENGSIVHVDVDDKAVERLDELANKEAVNHYVEMYKDWVERGRKLILNLYHWPLPLWLHNPIMVRRMGPDRAPSGWLNEESVVEFAKYAAYIAWKMGELPVMWSTMNEPNVVYEQGYMFVKGGFPPGYLSLEAADKARRNMIQAHARAYDNIKRFSKKPVGLIYAFQWFELLEGPAEVFDKFKSSKLYYFTDIVSKGSSIINVEYRRDLANRLDWLGVNYYSRLVYKIVDDKPIILHGYGFLCTPGGISPAENPCSDFGWEVYPEGLYLLLKELYNRYGVDLIVTENGVSDSRDALRPAYLVSHVYSVWKAANEGIPVKGYLHWSLTDNYEWAQGFRQKFGLVMVDFKTKKRYLRPSALVFREIATHNGIPDELQHLTLIQ 1qvb-a1-m2-cA_1qvb-a1-m2-cB CRYSTAL STRUCTURE OF THE BETA-GLYCOSIDASE FROM THE HYPERTHERMOPHILE THERMOSPHAERA AGGREGANS Q9YGA8 Q9YGA8 2.4 X-RAY DIFFRACTION 47 1.0 54254 (Thermosphaera aggregans) 54254 (Thermosphaera aggregans) 481 481 1qvb-a1-m1-cA_1qvb-a1-m1-cB MKFPKDFMIGYSSSPFQFEAGIPGSEDPNSDWWVWVHDPENTAAGLVSGDFPENGPGYWNLNQNDHDLAEKLGVNTIRVGVEWSRIFPKPTFNVKVPVERDENGSIVHVDVDDKAVERLDELANKEAVNHYVEMYKDWVERGRKLILNLYHWPLPLWLHNPIMVRRMGPDRAPSGWLNEESVVEFAKYAAYIAWKMGELPVMWSTMNEPNVVYEQGYMFVKGGFPPGYLSLEAADKARRNMIQAHARAYDNIKRFSKKPVGLIYAFQWFELLEGPAEVFDKFKSSKLYYFTDIVSKGSSIINVEYRRDLANRLDWLGVNYYSRLVYKIVDDKPIILHGYGFLCTPGGISPAENPCSDFGWEVYPEGLYLLLKELYNRYGVDLIVTENGVSDSRDALRPAYLVSHVYSVWKAANEGIPVKGYLHWSLTDNYEWAQGFRQKFGLVMVDFKTKKRYLRPSALVFREIATHNGIPDELQHLTLIQ MKFPKDFMIGYSSSPFQFEAGIPGSEDPNSDWWVWVHDPENTAAGLVSGDFPENGPGYWNLNQNDHDLAEKLGVNTIRVGVEWSRIFPKPTFNVKVPVERDENGSIVHVDVDDKAVERLDELANKEAVNHYVEMYKDWVERGRKLILNLYHWPLPLWLHNPIMVRRMGPDRAPSGWLNEESVVEFAKYAAYIAWKMGELPVMWSTMNEPNVVYEQGYMFVKGGFPPGYLSLEAADKARRNMIQAHARAYDNIKRFSKKPVGLIYAFQWFELLEGPAEVFDKFKSSKLYYFTDIVSKGSSIINVEYRRDLANRLDWLGVNYYSRLVYKIVDDKPIILHGYGFLCTPGGISPAENPCSDFGWEVYPEGLYLLLKELYNRYGVDLIVTENGVSDSRDALRPAYLVSHVYSVWKAANEGIPVKGYLHWSLTDNYEWAQGFRQKFGLVMVDFKTKKRYLRPSALVFREIATHNGIPDELQHLTLIQ 1qve-a1-m1-cB_1qve-a1-m1-cA Crystal structure of the truncated K122-4 pilin from Pseudomonas aeruginosa P17838 P17838 1.54 X-RAY DIFFRACTION 14 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 125 126 ISEFARAQLSEAMTLASGLKTKVSDIFSQDGSCPANTAATAGIEKDTDINGKYVAKVTTGGTAAASGGCTIVATMKASDVATPLRGKTLTLTLGNADKGSYTWACTSNADNKYLPKTCQTATTTT ISEFARAQLSEAMTLASGLKTKVSDIFSQDGSCPANTAATAGIEKDTDINGKYVAKVTTGGTAAASGGCTIVATMKASDVATPLRGKTLTLTLGNADKGSYTWACTSNADNKYLPKTCQTATTTTP 1qvn-a1-m1-cC_1qvn-a1-m1-cA Structure of SP4160 Bound to IL-2 V69A P60568 P60568 2.7 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 123 SSSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEALNLAQRPRDLISNINVIVLELKGETTFMCEYADETATIVEFLNRWITFCQSIISTL SSSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEALNLAQRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTL 1qvn-a3-m1-cD_1qvn-a3-m2-cA Structure of SP4160 Bound to IL-2 V69A P60568 P60568 2.7 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 123 SSSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEALNLAQRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTL SSSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEALNLAQRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTL 1qvn-a4-m4-cC_1qvn-a4-m1-cA Structure of SP4160 Bound to IL-2 V69A P60568 P60568 2.7 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 123 1qvn-a2-m1-cB_1qvn-a2-m1-cD 1qvn-a3-m1-cB_1qvn-a3-m1-cD 1qvn-a3-m3-cC_1qvn-a3-m2-cA SSSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEALNLAQRPRDLISNINVIVLELKGETTFMCEYADETATIVEFLNRWITFCQSIISTL SSSTKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEALNLAQRPRDLISNINVIVLELKGSETTFMCEYADETATIVEFLNRWITFCQSIISTL 1qvr-a2-m1-cB_1qvr-a2-m1-cC Crystal Structure Analysis of ClpB Q9RA63 Q9RA63 3 X-RAY DIFFRACTION 99 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 803 803 1qvr-a1-m1-cB_1qvr-a1-m1-cC ERWTQAAREALAQAQVLAQRMKHQAIDLPHLWAVLLKDERSLAWRLLEKAGADPKALKELQERELARLPKVEGAEVGQYLTSRLSGALNRAEGLMEELKDRYVAVDTLVLALAEATPGLPGLEALKGALKELRGGRTVQTEHAESTYNALEQYGIDLTRLAAEGKLDPVIGRDEEIRRVIQILLRRTKNNPVLIGEPGVGKTAIVEGLAQRIVKGDVPEGLKGKRIVSLQMEFEERLKAVIQEVVQSQGEVILFIDELKPALARGELRLIGATTLDEYREIEKDPALERRFQPVYVDEPTVEETISILRGLKEKYEVHHGVRISDSAIIAAATLSHRYITERRLPDKAIDLIDEAAARLRMALESAPEEIDALERKKLQLEIEREALKKEKDPDSQERLKAIEAEIAKLTEEIAKLRAEWEREREILRKLREAQHRLDEVRREIELAERQYDLNRAAELRYGELPKLEAEVEALSEKLRGARFVRLEVTEEDIAEIVSRWTGIPVSKLLEGEREKLLRLEEELHKRVVGQDEAIRAVADAIRRARAGLKDPNRPIGSFLFLGPTGVGKTELAKTLAATLFDTEEAMIRIDMTEYMEKHAVSRLQLTEAVRRRPYSVILFDEIEKAHPDVFNILLQILDDGRLTDSHGRTVDFRNTVIILTSNLGSPLILEGLQKGWPYERIRDEVFKVLQQHFRPEFLNRLDEIVVFRPLTKEQIRQIVEIQLSYLRARLAEKRISLELTEAAKDFLAERGYDPVFGARPLRRVIQRELETPLAQKILAGEVKEGDRVQVDVGPAGLVFAVPA ERWTQAAREALAQAQVLAQRMKHQAIDLPHLWAVLLKDERSLAWRLLEKAGADPKALKELQERELARLPKVEGAEVGQYLTSRLSGALNRAEGLMEELKDRYVAVDTLVLALAEATPGLPGLEALKGALKELRGGRTVQTEHAESTYNALEQYGIDLTRLAAEGKLDPVIGRDEEIRRVIQILLRRTKNNPVLIGEPGVGKTAIVEGLAQRIVKGDVPEGLKGKRIVSLQMEFEERLKAVIQEVVQSQGEVILFIDELKPALARGELRLIGATTLDEYREIEKDPALERRFQPVYVDEPTVEETISILRGLKEKYEVHHGVRISDSAIIAAATLSHRYITERRLPDKAIDLIDEAAARLRMALESAPEEIDALERKKLQLEIEREALKKEKDPDSQERLKAIEAEIAKLTEEIAKLRAEWEREREILRKLREAQHRLDEVRREIELAERQYDLNRAAELRYGELPKLEAEVEALSEKLRGARFVRLEVTEEDIAEIVSRWTGIPVSKLLEGEREKLLRLEEELHKRVVGQDEAIRAVADAIRRARAGLKDPNRPIGSFLFLGPTGVGKTELAKTLAATLFDTEEAMIRIDMTEYMEKHAVSRLQLTEAVRRRPYSVILFDEIEKAHPDVFNILLQILDDGRLTDSHGRTVDFRNTVIILTSNLGSPLILEGLQKGWPYERIRDEVFKVLQQHFRPEFLNRLDEIVVFRPLTKEQIRQIVEIQLSYLRARLAEKRISLELTEAAKDFLAERGYDPVFGARPLRRVIQRELETPLAQKILAGEVKEGDRVQVDVGPAGLVFAVPA 1qvr-a2-m1-cC_1qvr-a2-m2-cA Crystal Structure Analysis of ClpB Q9RA63 Q9RA63 3 X-RAY DIFFRACTION 80 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 803 803 1qvr-a1-m1-cA_1qvr-a1-m1-cB ERWTQAAREALAQAQVLAQRMKHQAIDLPHLWAVLLKDERSLAWRLLEKAGADPKALKELQERELARLPKVEGAEVGQYLTSRLSGALNRAEGLMEELKDRYVAVDTLVLALAEATPGLPGLEALKGALKELRGGRTVQTEHAESTYNALEQYGIDLTRLAAEGKLDPVIGRDEEIRRVIQILLRRTKNNPVLIGEPGVGKTAIVEGLAQRIVKGDVPEGLKGKRIVSLQMEFEERLKAVIQEVVQSQGEVILFIDELKPALARGELRLIGATTLDEYREIEKDPALERRFQPVYVDEPTVEETISILRGLKEKYEVHHGVRISDSAIIAAATLSHRYITERRLPDKAIDLIDEAAARLRMALESAPEEIDALERKKLQLEIEREALKKEKDPDSQERLKAIEAEIAKLTEEIAKLRAEWEREREILRKLREAQHRLDEVRREIELAERQYDLNRAAELRYGELPKLEAEVEALSEKLRGARFVRLEVTEEDIAEIVSRWTGIPVSKLLEGEREKLLRLEEELHKRVVGQDEAIRAVADAIRRARAGLKDPNRPIGSFLFLGPTGVGKTELAKTLAATLFDTEEAMIRIDMTEYMEKHAVSRLQLTEAVRRRPYSVILFDEIEKAHPDVFNILLQILDDGRLTDSHGRTVDFRNTVIILTSNLGSPLILEGLQKGWPYERIRDEVFKVLQQHFRPEFLNRLDEIVVFRPLTKEQIRQIVEIQLSYLRARLAEKRISLELTEAAKDFLAERGYDPVFGARPLRRVIQRELETPLAQKILAGEVKEGDRVQVDVGPAGLVFAVPA ERWTQAAREALAQAQVLAQRMKHQAIDLPHLWAVLLKDERSLAWRLLEKAGADPKALKELQERELARLPKVEGAEVGQYLTSRLSGALNRAEGLMEELKDRYVAVDTLVLALAEATPGLPGLEALKGALKELRGGRTVQTEHAESTYNALEQYGIDLTRLAAEGKLDPVIGRDEEIRRVIQILLRRTKNNPVLIGEPGVGKTAIVEGLAQRIVKGDVPEGLKGKRIVSLQMEFEERLKAVIQEVVQSQGEVILFIDELKPALARGELRLIGATTLDEYREIEKDPALERRFQPVYVDEPTVEETISILRGLKEKYEVHHGVRISDSAIIAAATLSHRYITERRLPDKAIDLIDEAAARLRMALESAPEEIDALERKKLQLEIEREALKKEKDPDSQERLKAIEAEIAKLTEEIAKLRAEWEREREILRKLREAQHRLDEVRREIELAERQYDLNRAAELRYGELPKLEAEVEALSEKLRGARFVRLEVTEEDIAEIVSRWTGIPVSKLLEGEREKLLRLEEELHKRVVGQDEAIRAVADAIRRARAGLKDPNRPIGSFLFLGPTGVGKTELAKTLAATLFDTEEAMIRIDMTEYMEKHAVSRLQLTEAVRRRPYSVILFDEIEKAHPDVFNILLQILDDGRLTDSHGRTVDFRNTVIILTSNLGSPLILEGLQKGWPYERIRDEVFKVLQQHFRPEFLNRLDEIVVFRPLTKEQIRQIVEIQLSYLRARLAEKRISLELTEAAKDFLAERGYDPVFGARPLRRVIQRELETPLAQKILAGEVKEGDRVQVDVGPAGLVFAVPA 1qvw-a1-m1-cA_1qvw-a1-m1-cB Crystal structure of the S. cerevisiae YDR533c protein Q04432 Q04432 1.9 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 235 235 1qvv-a1-m1-cA_1qvv-a1-m2-cD 1qvv-a2-m3-cC_1qvv-a2-m1-cB 1qvz-a1-m1-cA_1qvz-a1-m1-cB 4qyx-a1-m1-cA_4qyx-a1-m2-cA APKKVLLALTSYNDVFYSDGMKTGVFVVEALHPFNTFRKEGFEVDFVSETGKFGWDEHSLAKDFLNGQDETDFKNKDSDFNKTLAKIKTPKEVNADDYQIFMASAGHGTLFDYPKAKDLQDIASEIYANGGVVAAVHGPAMFDGLTDKKTGRPLIEGKSITGFTDVGETIMGVDSILKAKNLATVEDVAKKYGAKYLAPVGPWDDYSITDGRLVTGVNPASAHSTAVRSIDALKN APKKVLLALTSYNDVFYSDGMKTGVFVVEALHPFNTFRKEGFEVDFVSETGKFGWDEHSLAKDFLNGQDETDFKNKDSDFNKTLAKIKTPKEVNADDYQIFMASAGHGTLFDYPKAKDLQDIASEIYANGGVVAAVHGPAMFDGLTDKKTGRPLIEGKSITGFTDVGETIMGVDSILKAKNLATVEDVAKKYGAKYLAPVGPWDDYSITDGRLVTGVNPASAHSTAVRSIDALKN 1qw2-a1-m1-cA_1qw2-a1-m4-cA Crystal Structure of a Protein of Unknown Function TA1206 from Thermoplasma acidophilum Q9HIX0 Q9HIX0 1.5 X-RAY DIFFRACTION 52 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 97 97 1qw2-a1-m2-cA_1qw2-a1-m3-cA NYFQGHMQIDSIEIGGKVYQFFKSDLGNAPLLFIKGSKGYACGYLNETSNKVGDIAVRVGVKTLDDLSAKVVEASQEAQKVGINPGDVLRNVIDKLG NYFQGHMQIDSIEIGGKVYQFFKSDLGNAPLLFIKGSKGYACGYLNETSNKVGDIAVRVGVKTLDDLSAKVVEASQEAQKVGINPGDVLRNVIDKLG 1qw2-a1-m3-cA_1qw2-a1-m4-cA Crystal Structure of a Protein of Unknown Function TA1206 from Thermoplasma acidophilum Q9HIX0 Q9HIX0 1.5 X-RAY DIFFRACTION 64 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 97 97 1qw2-a1-m1-cA_1qw2-a1-m2-cA NYFQGHMQIDSIEIGGKVYQFFKSDLGNAPLLFIKGSKGYACGYLNETSNKVGDIAVRVGVKTLDDLSAKVVEASQEAQKVGINPGDVLRNVIDKLG NYFQGHMQIDSIEIGGKVYQFFKSDLGNAPLLFIKGSKGYACGYLNETSNKVGDIAVRVGVKTLDDLSAKVVEASQEAQKVGINPGDVLRNVIDKLG 1qw9-a1-m2-cB_1qw9-a1-m3-cB Crystal structure of a family 51 alpha-L-arabinofuranosidase in complex with 4-nitrophenyl-Ara Q9XBQ3 Q9XBQ3 1.2 X-RAY DIFFRACTION 38 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 497 497 1pz2-a1-m1-cA_1pz2-a1-m2-cA 1pz2-a1-m1-cA_1pz2-a1-m3-cA 1pz2-a1-m1-cB_1pz2-a1-m2-cB 1pz2-a1-m1-cB_1pz2-a1-m3-cB 1pz2-a1-m2-cA_1pz2-a1-m3-cA 1pz2-a1-m2-cB_1pz2-a1-m3-cB 1pz3-a1-m1-cA_1pz3-a1-m2-cA 1pz3-a1-m1-cA_1pz3-a1-m3-cA 1pz3-a1-m1-cB_1pz3-a1-m2-cB 1pz3-a1-m1-cB_1pz3-a1-m3-cB 1pz3-a1-m2-cA_1pz3-a1-m3-cA 1pz3-a1-m2-cB_1pz3-a1-m3-cB 1qw8-a1-m1-cA_1qw8-a1-m2-cA 1qw8-a1-m1-cA_1qw8-a1-m3-cA 1qw8-a1-m1-cB_1qw8-a1-m2-cB 1qw8-a1-m1-cB_1qw8-a1-m3-cB 1qw8-a1-m2-cA_1qw8-a1-m3-cA 1qw8-a1-m2-cB_1qw8-a1-m3-cB 1qw9-a1-m1-cA_1qw9-a1-m2-cA 1qw9-a1-m1-cA_1qw9-a1-m3-cA 1qw9-a1-m1-cB_1qw9-a1-m2-cB 1qw9-a1-m1-cB_1qw9-a1-m3-cB 1qw9-a1-m2-cA_1qw9-a1-m3-cA KATMIIEKDFKIAEIDKRIYGSFIEHLGRAVYGGIYEPGHPQADENGFRQDVIELVKELQVPIIRYPGGNFVSGYNWEDGVGPKEQRPRRLDLAWKSVETNEIGLNEFMDWAKMVGAEVNMAVNLGTRGIDAARNLVEYCNHPSGSYYSDLRIAHGYKEPHKIKTWCLGNAMDGPWQIGHKTAVEYGRIACEAAKVMKWVDPTIELVVCGSSNRNMPTFAEWEATVLDHTYDHVDYISLHQYYGNRDNDTANYLALSLEMDDFIRSVVAIADYVKAKKRSKKTIHLSFDEWNVWYHSNEADKLIEPWTVAPPLLEDIYNFEDALLVGCMLITLMKHADRVKIACLAQLVNVIAPIMTEKNGPAWKQTIYYPFMHASVYGRGVALHPVISSPKYDSKDFTDVPYLESIAVYNEEKEEVTIFAVNRDMEDALLLECDVRSFEDYRVIEHIVLEHDNVKQTNSAQSSPVVPHRNGDAQLSDRKVSATLPKLSWNVIRLGK KATMIIEKDFKIAEIDKRIYGSFIEHLGRAVYGGIYEPGHPQADENGFRQDVIELVKELQVPIIRYPGGNFVSGYNWEDGVGPKEQRPRRLDLAWKSVETNEIGLNEFMDWAKMVGAEVNMAVNLGTRGIDAARNLVEYCNHPSGSYYSDLRIAHGYKEPHKIKTWCLGNAMDGPWQIGHKTAVEYGRIACEAAKVMKWVDPTIELVVCGSSNRNMPTFAEWEATVLDHTYDHVDYISLHQYYGNRDNDTANYLALSLEMDDFIRSVVAIADYVKAKKRSKKTIHLSFDEWNVWYHSNEADKLIEPWTVAPPLLEDIYNFEDALLVGCMLITLMKHADRVKIACLAQLVNVIAPIMTEKNGPAWKQTIYYPFMHASVYGRGVALHPVISSPKYDSKDFTDVPYLESIAVYNEEKEEVTIFAVNRDMEDALLLECDVRSFEDYRVIEHIVLEHDNVKQTNSAQSSPVVPHRNGDAQLSDRKVSATLPKLSWNVIRLGK 1qw9-a1-m3-cA_1qw9-a1-m3-cB Crystal structure of a family 51 alpha-L-arabinofuranosidase in complex with 4-nitrophenyl-Ara Q9XBQ3 Q9XBQ3 1.2 X-RAY DIFFRACTION 63 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 497 497 1pz2-a1-m1-cA_1pz2-a1-m1-cB 1pz2-a1-m2-cA_1pz2-a1-m2-cB 1pz2-a1-m3-cA_1pz2-a1-m3-cB 1pz3-a1-m1-cA_1pz3-a1-m1-cB 1pz3-a1-m2-cA_1pz3-a1-m2-cB 1pz3-a1-m3-cA_1pz3-a1-m3-cB 1qw8-a1-m1-cA_1qw8-a1-m1-cB 1qw8-a1-m2-cA_1qw8-a1-m2-cB 1qw8-a1-m3-cA_1qw8-a1-m3-cB 1qw9-a1-m1-cA_1qw9-a1-m1-cB 1qw9-a1-m2-cA_1qw9-a1-m2-cB KATMIIEKDFKIAEIDKRIYGSFIEHLGRAVYGGIYEPGHPQADENGFRQDVIELVKELQVPIIRYPGGNFVSGYNWEDGVGPKEQRPRRLDLAWKSVETNEIGLNEFMDWAKMVGAEVNMAVNLGTRGIDAARNLVEYCNHPSGSYYSDLRIAHGYKEPHKIKTWCLGNAMDGPWQIGHKTAVEYGRIACEAAKVMKWVDPTIELVVCGSSNRNMPTFAEWEATVLDHTYDHVDYISLHQYYGNRDNDTANYLALSLEMDDFIRSVVAIADYVKAKKRSKKTIHLSFDEWNVWYHSNEADKLIEPWTVAPPLLEDIYNFEDALLVGCMLITLMKHADRVKIACLAQLVNVIAPIMTEKNGPAWKQTIYYPFMHASVYGRGVALHPVISSPKYDSKDFTDVPYLESIAVYNEEKEEVTIFAVNRDMEDALLLECDVRSFEDYRVIEHIVLEHDNVKQTNSAQSSPVVPHRNGDAQLSDRKVSATLPKLSWNVIRLGK KATMIIEKDFKIAEIDKRIYGSFIEHLGRAVYGGIYEPGHPQADENGFRQDVIELVKELQVPIIRYPGGNFVSGYNWEDGVGPKEQRPRRLDLAWKSVETNEIGLNEFMDWAKMVGAEVNMAVNLGTRGIDAARNLVEYCNHPSGSYYSDLRIAHGYKEPHKIKTWCLGNAMDGPWQIGHKTAVEYGRIACEAAKVMKWVDPTIELVVCGSSNRNMPTFAEWEATVLDHTYDHVDYISLHQYYGNRDNDTANYLALSLEMDDFIRSVVAIADYVKAKKRSKKTIHLSFDEWNVWYHSNEADKLIEPWTVAPPLLEDIYNFEDALLVGCMLITLMKHADRVKIACLAQLVNVIAPIMTEKNGPAWKQTIYYPFMHASVYGRGVALHPVISSPKYDSKDFTDVPYLESIAVYNEEKEEVTIFAVNRDMEDALLLECDVRSFEDYRVIEHIVLEHDNVKQTNSAQSSPVVPHRNGDAQLSDRKVSATLPKLSWNVIRLGK 1qwg-a1-m2-cA_1qwg-a1-m3-cA Crystal structure of Methanococcus jannaschii phosphosulfolactate synthase Q57703 Q57703 1.6 X-RAY DIFFRACTION 102 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 251 251 1qwg-a1-m1-cA_1qwg-a1-m2-cA 1qwg-a1-m1-cA_1qwg-a1-m3-cA MKAFEFLYEDFQRGLTVVLDKGLPPKFVEDYLKVCGDYIDFVKFGWGTSAVIDRDVVKEKINYYKDWGIKVYPGGTLFEYAYSKGKFDEFLNECEKLGFEAVEISDGSSDISLEERNNAIKRAKDNGFMVLTEVGKKMPDKDKQLTIDDRIKLINFDLDAGADYVIIEGRESGKGKGLFDKEGKVKENELDVLAKNVDINKVIFEAPQKSQQVAFILKFGSSVNLANIAFDEVISLETLRRGLRGDTFGKV MKAFEFLYEDFQRGLTVVLDKGLPPKFVEDYLKVCGDYIDFVKFGWGTSAVIDRDVVKEKINYYKDWGIKVYPGGTLFEYAYSKGKFDEFLNECEKLGFEAVEISDGSSDISLEERNNAIKRAKDNGFMVLTEVGKKMPDKDKQLTIDDRIKLINFDLDAGADYVIIEGRESGKGKGLFDKEGKVKENELDVLAKNVDINKVIFEAPQKSQQVAFILKFGSSVNLANIAFDEVISLETLRRGLRGDTFGKV 1qwj-a2-m1-cC_1qwj-a2-m1-cD The Crystal Structure of Murine CMP-5-N-Acetylneuraminic Acid Synthetase Q99KK2 Q99KK2 2.8 X-RAY DIFFRACTION 89 1.0 10090 (Mus musculus) 10090 (Mus musculus) 228 228 1qwj-a1-m1-cA_1qwj-a1-m1-cB PPHLAALVLARGGSKGIPLKNIKRLAGVPLIGWVLRAALDAGVFQSVWVSTDHDEIENVAKQFGAQVHRRSSETSKDSSTSLDAIVEFLNYHNEVDIVGNIQATSPCLHPTDLQKVAEMIREEGYDSVFSVVRRHQFRWSEIQKGVREVTEPLNLNPAKRPRRQDWDGELYENGSFYFAKRHLIEMGYLQGGKMAYYEMRAEHSVDIDVDIDWPIAEQRVLRFGYFGK PPHLAALVLARGGSKGIPLKNIKRLAGVPLIGWVLRAALDAGVFQSVWVSTDHDEIENVAKQFGAQVHRRSSETSKDSSTSLDAIVEFLNYHNEVDIVGNIQATSPCLHPTDLQKVAEMIREEGYDSVFSVVRRHQFRWSEIQKGVREVTEPLNLNPAKRPRRQDWDGELYENGSFYFAKRHLIEMGYLQGGKMAYYEMRAEHSVDIDVDIDWPIAEQRVLRFGYFGK 1qwm-a1-m1-cA_1qwm-a1-m2-cB Structure of Helicobacter pylori catalase with formic acid bound P77872 P77872 1.6 X-RAY DIFFRACTION 359 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 490 490 1qwl-a1-m1-cA_1qwl-a1-m2-cB 1qwl-a1-m1-cB_1qwl-a1-m2-cA 1qwm-a1-m1-cB_1qwm-a1-m2-cA 2a9e-a1-m1-cA_2a9e-a1-m2-cB 2a9e-a1-m1-cB_2a9e-a1-m2-cA 2iqf-a1-m1-cA_2iqf-a1-m2-cB 2iqf-a1-m1-cB_2iqf-a1-m2-cA MVNKDVKQTTAFGAPVWDDNNVITAGPRGPVLLQSTWFLEKLAAFDRERIPERVVHAKGSGAYGTFTVTKDITKYTKAKIFSKVGKKTECFFRFSTVAGERGSADAVRDPRGFAMKYYTEEGNWDLVGNNTPVFFIRDAIKFPDFIHTQKRDPQTNLPNHDMVWDFWSNVPESLYQVTWVMSDRGIPKSFRHMDGFGSHTFSLINAKGERFWVKFHFHTMQGVKHLTNEEAAEIRKHDPDSNQRDLFDAIARGDYPKWKLSIQVMPEEDAKKYRFHPFDVTKIWYTQDYPLMEVGIVELNKNPENYFAEVEQAAFTPANVVPGIGYSPDRMLQGRLFSYGDTHRYRLGVNYPQIPVNKPRCPFHSSSRDGYMQNGYYGSLQNYTPSSLPGYKEDKSARDPKFNLAHIEKEFEVWNWDYRADDSDYYTQPGDYYRSLPADEKERLHDTIGESLAHVTHKEIVDKQLEHFKKADPKYAEGVKKALEKHQKMM MVNKDVKQTTAFGAPVWDDNNVITAGPRGPVLLQSTWFLEKLAAFDRERIPERVVHAKGSGAYGTFTVTKDITKYTKAKIFSKVGKKTECFFRFSTVAGERGSADAVRDPRGFAMKYYTEEGNWDLVGNNTPVFFIRDAIKFPDFIHTQKRDPQTNLPNHDMVWDFWSNVPESLYQVTWVMSDRGIPKSFRHMDGFGSHTFSLINAKGERFWVKFHFHTMQGVKHLTNEEAAEIRKHDPDSNQRDLFDAIARGDYPKWKLSIQVMPEEDAKKYRFHPFDVTKIWYTQDYPLMEVGIVELNKNPENYFAEVEQAAFTPANVVPGIGYSPDRMLQGRLFSYGDTHRYRLGVNYPQIPVNKPRCPFHSSSRDGYMQNGYYGSLQNYTPSSLPGYKEDKSARDPKFNLAHIEKEFEVWNWDYRADDSDYYTQPGDYYRSLPADEKERLHDTIGESLAHVTHKEIVDKQLEHFKKADPKYAEGVKKALEKHQKMM 1qwm-a1-m1-cB_1qwm-a1-m2-cB Structure of Helicobacter pylori catalase with formic acid bound P77872 P77872 1.6 X-RAY DIFFRACTION 313 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 490 490 1qwl-a1-m1-cA_1qwl-a1-m2-cA 1qwl-a1-m1-cB_1qwl-a1-m2-cB 1qwm-a1-m1-cA_1qwm-a1-m2-cA 2a9e-a1-m1-cA_2a9e-a1-m2-cA 2a9e-a1-m1-cB_2a9e-a1-m2-cB 2iqf-a1-m1-cA_2iqf-a1-m2-cA 2iqf-a1-m1-cB_2iqf-a1-m2-cB MVNKDVKQTTAFGAPVWDDNNVITAGPRGPVLLQSTWFLEKLAAFDRERIPERVVHAKGSGAYGTFTVTKDITKYTKAKIFSKVGKKTECFFRFSTVAGERGSADAVRDPRGFAMKYYTEEGNWDLVGNNTPVFFIRDAIKFPDFIHTQKRDPQTNLPNHDMVWDFWSNVPESLYQVTWVMSDRGIPKSFRHMDGFGSHTFSLINAKGERFWVKFHFHTMQGVKHLTNEEAAEIRKHDPDSNQRDLFDAIARGDYPKWKLSIQVMPEEDAKKYRFHPFDVTKIWYTQDYPLMEVGIVELNKNPENYFAEVEQAAFTPANVVPGIGYSPDRMLQGRLFSYGDTHRYRLGVNYPQIPVNKPRCPFHSSSRDGYMQNGYYGSLQNYTPSSLPGYKEDKSARDPKFNLAHIEKEFEVWNWDYRADDSDYYTQPGDYYRSLPADEKERLHDTIGESLAHVTHKEIVDKQLEHFKKADPKYAEGVKKALEKHQKMM MVNKDVKQTTAFGAPVWDDNNVITAGPRGPVLLQSTWFLEKLAAFDRERIPERVVHAKGSGAYGTFTVTKDITKYTKAKIFSKVGKKTECFFRFSTVAGERGSADAVRDPRGFAMKYYTEEGNWDLVGNNTPVFFIRDAIKFPDFIHTQKRDPQTNLPNHDMVWDFWSNVPESLYQVTWVMSDRGIPKSFRHMDGFGSHTFSLINAKGERFWVKFHFHTMQGVKHLTNEEAAEIRKHDPDSNQRDLFDAIARGDYPKWKLSIQVMPEEDAKKYRFHPFDVTKIWYTQDYPLMEVGIVELNKNPENYFAEVEQAAFTPANVVPGIGYSPDRMLQGRLFSYGDTHRYRLGVNYPQIPVNKPRCPFHSSSRDGYMQNGYYGSLQNYTPSSLPGYKEDKSARDPKFNLAHIEKEFEVWNWDYRADDSDYYTQPGDYYRSLPADEKERLHDTIGESLAHVTHKEIVDKQLEHFKKADPKYAEGVKKALEKHQKMM 1qwm-a1-m2-cA_1qwm-a1-m2-cB Structure of Helicobacter pylori catalase with formic acid bound P77872 P77872 1.6 X-RAY DIFFRACTION 137 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 490 490 1qwl-a1-m1-cA_1qwl-a1-m1-cB 1qwl-a1-m2-cA_1qwl-a1-m2-cB 1qwm-a1-m1-cA_1qwm-a1-m1-cB 2a9e-a1-m1-cA_2a9e-a1-m1-cB 2a9e-a1-m2-cA_2a9e-a1-m2-cB 2iqf-a1-m1-cA_2iqf-a1-m1-cB 2iqf-a1-m2-cA_2iqf-a1-m2-cB MVNKDVKQTTAFGAPVWDDNNVITAGPRGPVLLQSTWFLEKLAAFDRERIPERVVHAKGSGAYGTFTVTKDITKYTKAKIFSKVGKKTECFFRFSTVAGERGSADAVRDPRGFAMKYYTEEGNWDLVGNNTPVFFIRDAIKFPDFIHTQKRDPQTNLPNHDMVWDFWSNVPESLYQVTWVMSDRGIPKSFRHMDGFGSHTFSLINAKGERFWVKFHFHTMQGVKHLTNEEAAEIRKHDPDSNQRDLFDAIARGDYPKWKLSIQVMPEEDAKKYRFHPFDVTKIWYTQDYPLMEVGIVELNKNPENYFAEVEQAAFTPANVVPGIGYSPDRMLQGRLFSYGDTHRYRLGVNYPQIPVNKPRCPFHSSSRDGYMQNGYYGSLQNYTPSSLPGYKEDKSARDPKFNLAHIEKEFEVWNWDYRADDSDYYTQPGDYYRSLPADEKERLHDTIGESLAHVTHKEIVDKQLEHFKKADPKYAEGVKKALEKHQKMM MVNKDVKQTTAFGAPVWDDNNVITAGPRGPVLLQSTWFLEKLAAFDRERIPERVVHAKGSGAYGTFTVTKDITKYTKAKIFSKVGKKTECFFRFSTVAGERGSADAVRDPRGFAMKYYTEEGNWDLVGNNTPVFFIRDAIKFPDFIHTQKRDPQTNLPNHDMVWDFWSNVPESLYQVTWVMSDRGIPKSFRHMDGFGSHTFSLINAKGERFWVKFHFHTMQGVKHLTNEEAAEIRKHDPDSNQRDLFDAIARGDYPKWKLSIQVMPEEDAKKYRFHPFDVTKIWYTQDYPLMEVGIVELNKNPENYFAEVEQAAFTPANVVPGIGYSPDRMLQGRLFSYGDTHRYRLGVNYPQIPVNKPRCPFHSSSRDGYMQNGYYGSLQNYTPSSLPGYKEDKSARDPKFNLAHIEKEFEVWNWDYRADDSDYYTQPGDYYRSLPADEKERLHDTIGESLAHVTHKEIVDKQLEHFKKADPKYAEGVKKALEKHQKMM 1qwt-a1-m1-cA_1qwt-a1-m1-cB Auto-inhibitory interferon regulation factor-3 (IRF3) transactivation domain Q14653 Q14653 2.1 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 239 ENPLKRLLVPGEEWEFEVTAFYRGRQVFQQTISCPEGLRLVGSEVGDRTLPGWPVTLPDPGMSLTDRGVMSYVRHVLSCLGGGLALWRAGQWLWAQRLGHCHTYWAVSEELLPNSGHGPDGEVPKDKEGGVFDLGPFIVDLITFTEGSGRSPRYALWFCVGESWPQDQPWTKRLVMVKVVPTCLRALVEMARVGGASSLENTVDLHISNSHPLSLTSDQYKAYLQDLVEGMDFQGPGES ENPLKRLLVPGEEWEFEVTAFYRGRQVFQQTISCPEGLRLVGSEVGDRTLPGWPVTLPDPGMSLTDRGVMSYVRHVLSCLGGGLALWRAGQWLWAQRLGHCHTYWAVSEELLPNSGHGPDGEVPKDKEGGVFDLGPFIVDLITFTEGSGRSPRYALWFCVGESWPQDQPWTKRLVMVKVVPTCLRALVEMARVGGASSLENTVDLHISNSHPLSLTSDQYKAYLQDLVEGMDFQGPGES 1qx2-a3-m1-cB_1qx2-a3-m2-cA X-ray Structure of Calcium-loaded Calbindomodulin (A Calbindin D9k Re-engineered to Undergo a Conformational Opening) at 1.44 A Resolution P02633 P02633 1.44 X-RAY DIFFRACTION 51 1.0 9913 (Bos taurus) 9913 (Bos taurus) 74 75 KSPEEIKGAFEVFAAKEGDPNQISKEELKLVMQTLGPSLLKGMSTLDEMIEEVDKNGDGEVSFEEFLVMMKKIS KSPEEIKGAFEVFAAKEGDPNQISKEELKLVMQTLGPSLLKGMSTLDEMIEEVDKNGDGEVSFEEFLVMMKKISQ 1qx2-a5-m1-cB_1qx2-a5-m1-cA X-ray Structure of Calcium-loaded Calbindomodulin (A Calbindin D9k Re-engineered to Undergo a Conformational Opening) at 1.44 A Resolution P02633 P02633 1.44 X-RAY DIFFRACTION 15 1.0 9913 (Bos taurus) 9913 (Bos taurus) 74 75 1qx2-a4-m1-cB_1qx2-a4-m3-cA KSPEEIKGAFEVFAAKEGDPNQISKEELKLVMQTLGPSLLKGMSTLDEMIEEVDKNGDGEVSFEEFLVMMKKIS KSPEEIKGAFEVFAAKEGDPNQISKEELKLVMQTLGPSLLKGMSTLDEMIEEVDKNGDGEVSFEEFLVMMKKISQ 1qx4-a1-m1-cA_1qx4-a1-m1-cB Structrue of S127P mutant of cytochrome b5 reductase P20070 P20070 1.8 X-RAY DIFFRACTION 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 264 264 HMITLENPDIKYPLRLIDKEILSHDTRRFRFALPSPQHILGLPIGQHIYLSTRIDGNLVIRPYTPVSSDDDKGFVDLVVKVYFKEAGGKMPQYLENMNIGDTIEFRGPNGLLVYQGKGKFAIRADKKSNPVVRTVKSVGMIAGGTGITPMLQVIRAVLKDPNDHTVCYLLFANQSEKDILLRPELEELRNEHSSRFKLWYTVDKAPDAWDYSQGFVNEEMIRDHLPPPGEETLILMCGPPPMIQFACLPNLERVGHPKERCFTF HMITLENPDIKYPLRLIDKEILSHDTRRFRFALPSPQHILGLPIGQHIYLSTRIDGNLVIRPYTPVSSDDDKGFVDLVVKVYFKEAGGKMPQYLENMNIGDTIEFRGPNGLLVYQGKGKFAIRADKKSNPVVRTVKSVGMIAGGTGITPMLQVIRAVLKDPNDHTVCYLLFANQSEKDILLRPELEELRNEHSSRFKLWYTVDKAPDAWDYSQGFVNEEMIRDHLPPPGEETLILMCGPPPMIQFACLPNLERVGHPKERCFTF 1qx5-a2-m1-cI_1qx5-a2-m1-cR Crystal structure of apoCalmodulin P0DP29 P0DP29 2.54 X-RAY DIFFRACTION 183 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 145 147 1qx5-a1-m1-cD_1qx5-a1-m1-cY 1qx5-a3-m1-cJ_1qx5-a3-m1-cT 1qx5-a4-m1-cK_1qx5-a4-m1-cB DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 1qx8-a1-m1-cA_1qx8-a1-m2-cB Crystal structure of a five-residue deletion mutant of the Rop protein P03051 P03051 2.02 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 47 51 1qx8-a1-m2-cA_1qx8-a1-m1-cB EKTALNMARFIRSQTLTLLEKLNELADICESLHDHADELYRSCLARF MTKQEKTALNMARFIRSQTLTLLEKLNELADICESLHDHADELYRSCLARF 1qx8-a1-m1-cB_1qx8-a1-m2-cB Crystal structure of a five-residue deletion mutant of the Rop protein P03051 P03051 2.02 X-RAY DIFFRACTION 80 1.0 562 (Escherichia coli) 562 (Escherichia coli) 51 51 1qx8-a1-m1-cA_1qx8-a1-m2-cA MTKQEKTALNMARFIRSQTLTLLEKLNELADICESLHDHADELYRSCLARF MTKQEKTALNMARFIRSQTLTLLEKLNELADICESLHDHADELYRSCLARF 1qxe-a3-m3-cB_1qxe-a3-m5-cD Structural Basis for the Potent Antisickling Effect of a Novel Class of 5-Membered Heterocyclic Aldehydic Compounds P68871 P68871 1.85 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1qxe-a3-m1-cB_1qxe-a3-m4-cD VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 1qxe-a3-m4-cD_1qxe-a3-m5-cD Structural Basis for the Potent Antisickling Effect of a Novel Class of 5-Membered Heterocyclic Aldehydic Compounds P68871 P68871 1.85 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1qxd-a2-m1-cD_1qxd-a2-m2-cD 1qxe-a2-m1-cD_1qxe-a2-m2-cD VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 1qxn-a1-m1-cA_1qxn-a1-m1-cB Solution Structure of the 30 kDa Polysulfide-sulfur Transferase Homodimer from Wolinella Succinogenes Q56748 Q56748 NOT SOLUTION NMR 120 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 137 137 ADMGEKFDATFKAQVKAAKADMVMLSPKDAYKLLQENPDITLIDVRDPDELKAMGKPDVKNYKHMSRGKLEPLLAKSGLDPEKPVVVFCKTAARAALAGKTLREYGFKTIYNSEGGMDKWLEEGLPSLDRSHHHHHH ADMGEKFDATFKAQVKAAKADMVMLSPKDAYKLLQENPDITLIDVRDPDELKAMGKPDVKNYKHMSRGKLEPLLAKSGLDPEKPVVVFCKTAARAALAGKTLREYGFKTIYNSEGGMDKWLEEGLPSLDRSHHHHHH 1qxo-a1-m1-cA_1qxo-a1-m1-cD Crystal structure of Chorismate synthase complexed with oxidized FMN and EPSP P0A2Y6 P0A2Y6 2 X-RAY DIFFRACTION 40 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 376 376 1qxo-a1-m1-cB_1qxo-a1-m1-cC RYLTAGESHGPRLTAIIEGIPAGLPLTAEDINEDLRRRQGGYGRGGRKIENDQVVFTSGVRHGKTTGAPITDVINKDHQKWLDISAEDIEDRLKSKRKITHPRPGHADLVGGIKYRFDDLRNSLERSSARETTRVAVGAVAKRLLAELDEIANHVVVFGGKEIDVPENLTVAEIKQRAAQSEVSIVNQEREQEIKDYIDQIKRDGDTIGGVVETVVGGVPVGLGSYVQWDRKLDARLAQAVVSINAFKGVEFGLGFEAGYRKGSQVDEILWSKEDGYTRRTNNLGGFEGGTNGQPIVVRGVKPIPTLYKPLSVDIETHEPYKATVERSDPTALPAAGVEAVVATVLAQEILEKFSSDNLEELKEAVAKHRDYTKNY RYLTAGESHGPRLTAIIEGIPAGLPLTAEDINEDLRRRQGGYGRGGRKIENDQVVFTSGVRHGKTTGAPITDVINKDHQKWLDISAEDIEDRLKSKRKITHPRPGHADLVGGIKYRFDDLRNSLERSSARETTRVAVGAVAKRLLAELDEIANHVVVFGGKEIDVPENLTVAEIKQRAAQSEVSIVNQEREQEIKDYIDQIKRDGDTIGGVVETVVGGVPVGLGSYVQWDRKLDARLAQAVVSINAFKGVEFGLGFEAGYRKGSQVDEILWSKEDGYTRRTNNLGGFEGGTNGQPIVVRGVKPIPTLYKPLSVDIETHEPYKATVERSDPTALPAAGVEAVVATVLAQEILEKFSSDNLEELKEAVAKHRDYTKNY 1qxo-a1-m1-cB_1qxo-a1-m1-cD Crystal structure of Chorismate synthase complexed with oxidized FMN and EPSP P0A2Y6 P0A2Y6 2 X-RAY DIFFRACTION 162 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 376 376 1qxo-a1-m1-cA_1qxo-a1-m1-cC RYLTAGESHGPRLTAIIEGIPAGLPLTAEDINEDLRRRQGGYGRGGRKIENDQVVFTSGVRHGKTTGAPITDVINKDHQKWLDISAEDIEDRLKSKRKITHPRPGHADLVGGIKYRFDDLRNSLERSSARETTRVAVGAVAKRLLAELDEIANHVVVFGGKEIDVPENLTVAEIKQRAAQSEVSIVNQEREQEIKDYIDQIKRDGDTIGGVVETVVGGVPVGLGSYVQWDRKLDARLAQAVVSINAFKGVEFGLGFEAGYRKGSQVDEILWSKEDGYTRRTNNLGGFEGGTNGQPIVVRGVKPIPTLYKPLSVDIETHEPYKATVERSDPTALPAAGVEAVVATVLAQEILEKFSSDNLEELKEAVAKHRDYTKNY RYLTAGESHGPRLTAIIEGIPAGLPLTAEDINEDLRRRQGGYGRGGRKIENDQVVFTSGVRHGKTTGAPITDVINKDHQKWLDISAEDIEDRLKSKRKITHPRPGHADLVGGIKYRFDDLRNSLERSSARETTRVAVGAVAKRLLAELDEIANHVVVFGGKEIDVPENLTVAEIKQRAAQSEVSIVNQEREQEIKDYIDQIKRDGDTIGGVVETVVGGVPVGLGSYVQWDRKLDARLAQAVVSINAFKGVEFGLGFEAGYRKGSQVDEILWSKEDGYTRRTNNLGGFEGGTNGQPIVVRGVKPIPTLYKPLSVDIETHEPYKATVERSDPTALPAAGVEAVVATVLAQEILEKFSSDNLEELKEAVAKHRDYTKNY 1qxo-a1-m1-cC_1qxo-a1-m1-cD Crystal structure of Chorismate synthase complexed with oxidized FMN and EPSP P0A2Y6 P0A2Y6 2 X-RAY DIFFRACTION 319 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 376 376 1qxo-a1-m1-cA_1qxo-a1-m1-cB RYLTAGESHGPRLTAIIEGIPAGLPLTAEDINEDLRRRQGGYGRGGRKIENDQVVFTSGVRHGKTTGAPITDVINKDHQKWLDISAEDIEDRLKSKRKITHPRPGHADLVGGIKYRFDDLRNSLERSSARETTRVAVGAVAKRLLAELDEIANHVVVFGGKEIDVPENLTVAEIKQRAAQSEVSIVNQEREQEIKDYIDQIKRDGDTIGGVVETVVGGVPVGLGSYVQWDRKLDARLAQAVVSINAFKGVEFGLGFEAGYRKGSQVDEILWSKEDGYTRRTNNLGGFEGGTNGQPIVVRGVKPIPTLYKPLSVDIETHEPYKATVERSDPTALPAAGVEAVVATVLAQEILEKFSSDNLEELKEAVAKHRDYTKNY RYLTAGESHGPRLTAIIEGIPAGLPLTAEDINEDLRRRQGGYGRGGRKIENDQVVFTSGVRHGKTTGAPITDVINKDHQKWLDISAEDIEDRLKSKRKITHPRPGHADLVGGIKYRFDDLRNSLERSSARETTRVAVGAVAKRLLAELDEIANHVVVFGGKEIDVPENLTVAEIKQRAAQSEVSIVNQEREQEIKDYIDQIKRDGDTIGGVVETVVGGVPVGLGSYVQWDRKLDARLAQAVVSINAFKGVEFGLGFEAGYRKGSQVDEILWSKEDGYTRRTNNLGGFEGGTNGQPIVVRGVKPIPTLYKPLSVDIETHEPYKATVERSDPTALPAAGVEAVVATVLAQEILEKFSSDNLEELKEAVAKHRDYTKNY 1qxs-a1-m1-cA_1qxs-a1-m1-cB CRYSTAL STRUCTURE OF Trypanosoma cruzi GLYCERALDEHYDE-3- PHOSPHATE DEHYDROGENASE COMPLEXED WITH AN ANALOGUE OF 1,3- BisPHOSPHO-D-GLYCERIC ACID P22513 P22513 2.75 X-RAY DIFFRACTION 144 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 359 359 1k3t-a1-m1-cA_1k3t-a1-m1-cB 1k3t-a1-m1-cC_1k3t-a1-m1-cD 1ml3-a1-m1-cA_1ml3-a1-m1-cB 1ml3-a1-m1-cC_1ml3-a1-m1-cD 1qxs-a1-m1-cC_1qxs-a1-m1-cD 2x0n-a1-m1-cA_2x0n-a1-m1-cB 2x0n-a1-m2-cA_2x0n-a1-m2-cB 2x0n-a2-m1-cO_2x0n-a2-m1-cP 2x0n-a2-m1-cQ_2x0n-a2-m1-cR 3dmt-a1-m1-cA_3dmt-a1-m1-cB 3dmt-a1-m1-cC_3dmt-a1-m1-cD 3dmt-a2-m1-cA_3dmt-a2-m1-cB 3dmt-a3-m1-cC_3dmt-a3-m1-cD 3ids-a1-m1-cA_3ids-a1-m1-cB 3ids-a1-m1-cC_3ids-a1-m1-cD MPIKVGINGFGRIGRMVFQALCEDGLLGTEIDVVAVVDMNTDAEYFAYQMRYDTVHGKFKYEVTTTKSSPSVAKDDTLVVNGHRILCVKAQRNPADLPWGKLGVEYVIESTGLFTAKAAAEGHLRGGARKVVISAPASGGAKTLVMGVNHHEYNPSEHHVVSNASCTTNCLAPIVHVLVKEGFGVQTGLMTTIHSYTATQKTVDGVSVKDWRGGRAAAVNIIPSTTGAAKAVGMVIPSTQGKLTGMSFRVPTPDVSVVDLTFTAARDTSIQEIDAALKRASKTYMKGILGYTDEELVSADFINDNRSSIYDSKATLQNNLPKERRFFKIVSWYDNEWGYSHRVVDLVRHMASKDRSARL MPIKVGINGFGRIGRMVFQALCEDGLLGTEIDVVAVVDMNTDAEYFAYQMRYDTVHGKFKYEVTTTKSSPSVAKDDTLVVNGHRILCVKAQRNPADLPWGKLGVEYVIESTGLFTAKAAAEGHLRGGARKVVISAPASGGAKTLVMGVNHHEYNPSEHHVVSNASCTTNCLAPIVHVLVKEGFGVQTGLMTTIHSYTATQKTVDGVSVKDWRGGRAAAVNIIPSTTGAAKAVGMVIPSTQGKLTGMSFRVPTPDVSVVDLTFTAARDTSIQEIDAALKRASKTYMKGILGYTDEELVSADFINDNRSSIYDSKATLQNNLPKERRFFKIVSWYDNEWGYSHRVVDLVRHMASKDRSARL 1qxs-a1-m1-cA_1qxs-a1-m1-cD CRYSTAL STRUCTURE OF Trypanosoma cruzi GLYCERALDEHYDE-3- PHOSPHATE DEHYDROGENASE COMPLEXED WITH AN ANALOGUE OF 1,3- BisPHOSPHO-D-GLYCERIC ACID P22513 P22513 2.75 X-RAY DIFFRACTION 99 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 359 359 1k3t-a1-m1-cA_1k3t-a1-m1-cD 1k3t-a1-m1-cB_1k3t-a1-m1-cC 1ml3-a1-m1-cA_1ml3-a1-m1-cD 1ml3-a1-m1-cB_1ml3-a1-m1-cC 1qxs-a1-m1-cB_1qxs-a1-m1-cC 2x0n-a1-m1-cA_2x0n-a1-m2-cB 2x0n-a1-m1-cB_2x0n-a1-m2-cA 2x0n-a2-m1-cO_2x0n-a2-m1-cR 2x0n-a2-m1-cP_2x0n-a2-m1-cQ 3dmt-a1-m1-cA_3dmt-a1-m1-cD 3dmt-a1-m1-cC_3dmt-a1-m1-cB 3dmt-a4-m1-cA_3dmt-a4-m1-cD 3dmt-a5-m1-cC_3dmt-a5-m1-cB 3ids-a1-m1-cA_3ids-a1-m1-cD 3ids-a1-m1-cB_3ids-a1-m1-cC MPIKVGINGFGRIGRMVFQALCEDGLLGTEIDVVAVVDMNTDAEYFAYQMRYDTVHGKFKYEVTTTKSSPSVAKDDTLVVNGHRILCVKAQRNPADLPWGKLGVEYVIESTGLFTAKAAAEGHLRGGARKVVISAPASGGAKTLVMGVNHHEYNPSEHHVVSNASCTTNCLAPIVHVLVKEGFGVQTGLMTTIHSYTATQKTVDGVSVKDWRGGRAAAVNIIPSTTGAAKAVGMVIPSTQGKLTGMSFRVPTPDVSVVDLTFTAARDTSIQEIDAALKRASKTYMKGILGYTDEELVSADFINDNRSSIYDSKATLQNNLPKERRFFKIVSWYDNEWGYSHRVVDLVRHMASKDRSARL MPIKVGINGFGRIGRMVFQALCEDGLLGTEIDVVAVVDMNTDAEYFAYQMRYDTVHGKFKYEVTTTKSSPSVAKDDTLVVNGHRILCVKAQRNPADLPWGKLGVEYVIESTGLFTAKAAAEGHLRGGARKVVISAPASGGAKTLVMGVNHHEYNPSEHHVVSNASCTTNCLAPIVHVLVKEGFGVQTGLMTTIHSYTATQKTVDGVSVKDWRGGRAAAVNIIPSTTGAAKAVGMVIPSTQGKLTGMSFRVPTPDVSVVDLTFTAARDTSIQEIDAALKRASKTYMKGILGYTDEELVSADFINDNRSSIYDSKATLQNNLPKERRFFKIVSWYDNEWGYSHRVVDLVRHMASKDRSARL 1qy1-a2-m1-cA_1qy1-a2-m2-cA Thermodynamics of Binding of 2-methoxy-3-isopropylpyrazine and 2-methoxy-3-isobutylpyrazine to the Major Urinary Protein P11588 P11588 1.7 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 157 157 1qy2-a2-m1-cA_1qy2-a2-m2-cA 2ozq-a2-m1-cA_2ozq-a2-m2-cA EEASSTGRNFNVEKINGEWHTIILASDKREKIEDNGNFRLFLEQIHVLEKSLVLKFHTVRDEECSELSMVADKTEKAGEYSVTYDGFNTFTIPKTDYDNFLMAHLINEKDGETFQLMGLYGREPDLSSDIKERFAQLCEEHGILRENIIDLSNANRC EEASSTGRNFNVEKINGEWHTIILASDKREKIEDNGNFRLFLEQIHVLEKSLVLKFHTVRDEECSELSMVADKTEKAGEYSVTYDGFNTFTIPKTDYDNFLMAHLINEKDGETFQLMGLYGREPDLSSDIKERFAQLCEEHGILRENIIDLSNANRC 1qy9-a3-m1-cA_1qy9-a3-m1-cD Crystal structure of E. coli Se-MET protein YDDE P37757 P37757 2.05 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 290 291 PQVYHVDAFTSQPFRGNSAGVVFPADNLSEAQQLIARELGHSETAFLLHSDDSDVRIRYFTPTVEVPICGHATVAAHYVRAKVLGLGNCTIWQTSLAGKHRVTIEKHNDDYRISLEQGTPGFEPPLEGETRAAIINALHLTEDDILPGLPIQVATTGHSKVIPLKPEVDIDALSPDLNALTAISKKIGCNGFFPFQIRPGKNETDGRFSPAIGIVEDPVTGNANGPGAWLVHHNVLPHDGNVLRVKGHQGRALGRDGIEVTVTIRDNQPEKVTISGTAVILFHAEWAIEL KPQVYHVDAFTSQPFRGNSAGVVFPADNLSEAQQLIARELGHSETAFLLHSDDSDVRIRYFTPTVEVPICGHATVAAHYVRAKVLGLGNCTIWQTSLAGKHRVTIEKHNDDYRISLEQGTPGFEPPLEGETRAAIINALHLTEDDILPGLPIQVATTGHSKVIPLKPEVDIDALSPDLNALTAISKKIGCNGFFPFQIRPGKNETDGRFSPAIGIVEDPVTGNANGPGAWLVHHNVLPHDGNVLRVKGHQGRALGRDGIEVTVTIRDNQPEKVTISGTAVILFHAEWAIEL 1qy9-a3-m1-cC_1qy9-a3-m1-cD Crystal structure of E. coli Se-MET protein YDDE P37757 P37757 2.05 X-RAY DIFFRACTION 46 1.0 562 (Escherichia coli) 562 (Escherichia coli) 291 291 1qy9-a1-m1-cA_1qy9-a1-m1-cB 1qy9-a2-m1-cC_1qy9-a2-m1-cD 1qy9-a3-m1-cA_1qy9-a3-m1-cB 1qya-a1-m1-cA_1qya-a1-m1-cB KPQVYHVDAFTSQPFRGNSAGVVFPADNLSEAQQLIARELGHSETAFLLHSDDSDVRIRYFTPTVEVPICGHATVAAHYVRAKVLGLGNCTIWQTSLAGKHRVTIEKHNDDYRISLEQGTPGFEPPLEGETRAAIINALHLTEDDILPGLPIQVATTGHSKVIPLKPEVDIDALSPDLNALTAISKKIGCNGFFPFQIRPGKNETDGRFSPAIGIVEDPVTGNANGPGAWLVHHNVLPHDGNVLRVKGHQGRALGRDGIEVTVTIRDNQPEKVTISGTAVILFHAEWAIEL KPQVYHVDAFTSQPFRGNSAGVVFPADNLSEAQQLIARELGHSETAFLLHSDDSDVRIRYFTPTVEVPICGHATVAAHYVRAKVLGLGNCTIWQTSLAGKHRVTIEKHNDDYRISLEQGTPGFEPPLEGETRAAIINALHLTEDDILPGLPIQVATTGHSKVIPLKPEVDIDALSPDLNALTAISKKIGCNGFFPFQIRPGKNETDGRFSPAIGIVEDPVTGNANGPGAWLVHHNVLPHDGNVLRVKGHQGRALGRDGIEVTVTIRDNQPEKVTISGTAVILFHAEWAIEL 1qyc-a1-m1-cA_1qyc-a1-m1-cB Crystal structures of pinoresinol-lariciresinol and phenylcoumaran benzylic ether reductases, and their relationship to isoflavone reductases Q9LL41 Q9LL41 2.2 X-RAY DIFFRACTION 75 1.0 3352 (Pinus taeda) 3352 (Pinus taeda) 307 307 GSRSRILLIGATGYIGRHVAKASLDLGHPTFLLVRESTASSNSEKAQLLESFKASGANIVHGSIDDHASLVEAVKNVDVVISTVGSLQIESQVNIIKAIKEVGTVKRFFPSEFGNDVDNVHAVEPAKSVFEVKAKVRRAIEAEGIPYTYVSSNCFAGYFLRSLAQAGLTAPPRDKVVILGDGNARVVFVKEEDIGTFTIKAVDDPRTLNKTLYLRLPANTLSLNELVALWEKKIDKTLEKAYVPEEEVLKLIADTPFPANISIAISHSIFVKGDQTNFEIGPAGVEASQLYPDVKYTTVDEYLSNFV GSRSRILLIGATGYIGRHVAKASLDLGHPTFLLVRESTASSNSEKAQLLESFKASGANIVHGSIDDHASLVEAVKNVDVVISTVGSLQIESQVNIIKAIKEVGTVKRFFPSEFGNDVDNVHAVEPAKSVFEVKAKVRRAIEAEGIPYTYVSSNCFAGYFLRSLAQAGLTAPPRDKVVILGDGNARVVFVKEEDIGTFTIKAVDDPRTLNKTLYLRLPANTLSLNELVALWEKKIDKTLEKAYVPEEEVLKLIADTPFPANISIAISHSIFVKGDQTNFEIGPAGVEASQLYPDVKYTTVDEYLSNFV 1qyd-a1-m1-cA_1qyd-a1-m1-cC Crystal structures of pinoresinol-lariciresinol and phenylcoumaran benzylic ether reductases, and their relationship to isoflavone reductases Q9LD14 Q9LD14 2.5 X-RAY DIFFRACTION 18 1.0 3316 (Thuja plicata) 3316 (Thuja plicata) 312 312 DKKSRVLIVGGTGYIGKRIVNASISLGHPTYVLFRPEVVSNIDKVQMLLYFKQLGAKLIEASLDDHQRLVDALKQVDVVISALAGGVLSHHILEQLKLVEAIKEAGNIKRFLPSEFGMDPDIMEHALQPGSITFIDKRKVRRAIEAASIPYTYVSSNMFAGYFAGSLAQLDGHMMPPRDKVLIYGDGNVKGIWVDEDDVGTYTIKSIDDPQTLNKTMYIRPPMNILSQKEVIQIWERLSEQNLDKIYISSQDFLADMKDKSYEEKIVRCHLYQIFFRGDLYNFEIGPNAIEATKLYPEVKYVTMDSYLERYV DKKSRVLIVGGTGYIGKRIVNASISLGHPTYVLFRPEVVSNIDKVQMLLYFKQLGAKLIEASLDDHQRLVDALKQVDVVISALAGGVLSHHILEQLKLVEAIKEAGNIKRFLPSEFGMDPDIMEHALQPGSITFIDKRKVRRAIEAASIPYTYVSSNMFAGYFAGSLAQLDGHMMPPRDKVLIYGDGNVKGIWVDEDDVGTYTIKSIDDPQTLNKTMYIRPPMNILSQKEVIQIWERLSEQNLDKIYISSQDFLADMKDKSYEEKIVRCHLYQIFFRGDLYNFEIGPNAIEATKLYPEVKYVTMDSYLERYV 1qyd-a2-m1-cB_1qyd-a2-m1-cD Crystal structures of pinoresinol-lariciresinol and phenylcoumaran benzylic ether reductases, and their relationship to isoflavone reductases Q9LD14 Q9LD14 2.5 X-RAY DIFFRACTION 12 1.0 3316 (Thuja plicata) 3316 (Thuja plicata) 312 312 DKKSRVLIVGGTGYIGKRIVNASISLGHPTYVLFRPEVVSNIDKVQMLLYFKQLGAKLIEASLDDHQRLVDALKQVDVVISALAGGVLSHHILEQLKLVEAIKEAGNIKRFLPSEFGMDPDIMEHALQPGSITFIDKRKVRRAIEAASIPYTYVSSNMFAGYFAGSLAQLDGHMMPPRDKVLIYGDGNVKGIWVDEDDVGTYTIKSIDDPQTLNKTMYIRPPMNILSQKEVIQIWERLSEQNLDKIYISSQDFLADMKDKSYEEKIVRCHLYQIFFRGDLYNFEIGPNAIEATKLYPEVKYVTMDSYLERYV DKKSRVLIVGGTGYIGKRIVNASISLGHPTYVLFRPEVVSNIDKVQMLLYFKQLGAKLIEASLDDHQRLVDALKQVDVVISALAGGVLSHHILEQLKLVEAIKEAGNIKRFLPSEFGMDPDIMEHALQPGSITFIDKRKVRRAIEAASIPYTYVSSNMFAGYFAGSLAQLDGHMMPPRDKVLIYGDGNVKGIWVDEDDVGTYTIKSIDDPQTLNKTMYIRPPMNILSQKEVIQIWERLSEQNLDKIYISSQDFLADMKDKSYEEKIVRCHLYQIFFRGDLYNFEIGPNAIEATKLYPEVKYVTMDSYLERYV 1qz1-a1-m1-cA_1qz1-a1-m2-cA Crystal Structure of the Ig 1-2-3 fragment of NCAM P13596 P13596 2 X-RAY DIFFRACTION 42 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 288 288 VLQVDIVPSQGEISVGESKFFLCQVAGDAKDKDISWFSPNGEKLSPNQQRISVVWNDDDSSTLTIYNANIDDAGIYKCVVTAEDGTQSEATVNVKIFQKLMFKNAPTPQEFKEGEDAVIVCDVVSSLPPTIIWKHKGRDVILKKDVRFIVLSNNYLQIRGIKKTDEGTYRCEGRILARGEINFKDIQVIVNVPPTVQARQSIVNATANLGQSVTLVCDADGFPEPTMSWTKDGEPIENEDDEKHIFSDDSSELTIRNVDKNDEAEYVCIAENKAGEQDASIHLKVFAK VLQVDIVPSQGEISVGESKFFLCQVAGDAKDKDISWFSPNGEKLSPNQQRISVVWNDDDSSTLTIYNANIDDAGIYKCVVTAEDGTQSEATVNVKIFQKLMFKNAPTPQEFKEGEDAVIVCDVVSSLPPTIIWKHKGRDVILKKDVRFIVLSNNYLQIRGIKKTDEGTYRCEGRILARGEINFKDIQVIVNVPPTVQARQSIVNATANLGQSVTLVCDADGFPEPTMSWTKDGEPIENEDDEKHIFSDDSSELTIRNVDKNDEAEYVCIAENKAGEQDASIHLKVFAK 1qz9-a1-m1-cA_1qz9-a1-m2-cA The Three Dimensional Structure of Kynureninase from Pseudomonas fluorescens P83788 P83788 1.85 X-RAY DIFFRACTION 246 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 404 404 TTRNDCLALDAQDSLAPLRQQFALPEGVIYLDGNSLGARPVAALARAQAVIAEEWGNGLIRSWNSAGWRDLSERLGNRLATLIGARDGEVVVTDTTSINLFKVLSAALRVQATRSPERRVIVTETSNFPTDLYIAEGLADMLQQGYTLRLVDSPEELPQAIDQDTAVVMLTHVNYKTGYMHDMQALTALSHECGALAIWDLAHSAGAVPVDLHQAGADYAIGCTYKYLNGGPGSQAFVWVSPQLCDLVPQPLSGWFGHSRQFAMEPRYEPSNGIARYLCGTQPITSLAMVECGLDVFAQTDMASLRRKSLALTDLFIELVEQRCAAHELTLVTPREHAKRGSHVSFEHPEGYAVIQALIDRGVIGDYREPRIMRFGFTPLYTTFTEVWDAVQILGEILDRKTWA TTRNDCLALDAQDSLAPLRQQFALPEGVIYLDGNSLGARPVAALARAQAVIAEEWGNGLIRSWNSAGWRDLSERLGNRLATLIGARDGEVVVTDTTSINLFKVLSAALRVQATRSPERRVIVTETSNFPTDLYIAEGLADMLQQGYTLRLVDSPEELPQAIDQDTAVVMLTHVNYKTGYMHDMQALTALSHECGALAIWDLAHSAGAVPVDLHQAGADYAIGCTYKYLNGGPGSQAFVWVSPQLCDLVPQPLSGWFGHSRQFAMEPRYEPSNGIARYLCGTQPITSLAMVECGLDVFAQTDMASLRRKSLALTDLFIELVEQRCAAHELTLVTPREHAKRGSHVSFEHPEGYAVIQALIDRGVIGDYREPRIMRFGFTPLYTTFTEVWDAVQILGEILDRKTWA 1qzq-a1-m1-cB_1qzq-a1-m1-cA human Tyrosyl DNA phosphodiesterase Q9NUW8 Q9NUW8 2.4 X-RAY DIFFRACTION 28 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 437 439 GNPFQFYLTRVSGVKPKYNSGALHIKDILSPLFGTLVSSAQFNYCFDVDWLVKQYPPEFRKKPILLVHGDKREAKAHLHAQAKPYENISLCQAKLDIAFGTHHTKMMLLLYEEGLRVVIHTSNLIHADWHQKTQGIWLSPLYPRIADGTHKSGESPTHFKADLISYLMAYNAPSLKEWIDVIHKHDLSETNVYLIGSTPGRFQGSQKDNWGHFRLKKLLKDHASSMPNAESWPVVGQFSSVGSLGADESKWLCSEFKESMLTLGKESSVPLYLIYPSVENVRTSLEGYPAGGSLPYSIQTAEKQNWLHSYFHKWSAETSGRSNAMPHIKTYMRPSPDFSKIAWFLVTSANLSKAAWGALEKNGTQLMIRSYELGVLFLPSAFGLDSFKVKQKFEPMATFPVPYDLPPELYGSKDRPWIWNIPYVKAPDTHGNMWVPS GNPFQFYLTRVSGVKPKYNSGALHIKDILSPLFGTLVSSAQFNYCFDVDWLVKQYPPEFRKKPILLVHGDKREAKAHLHAQAKPYENISLCQAKLDIAFGTHHTKMMLLLYEEGLRVVIHTSNLIHADWHQKTQGIWLSPLYPRIADGTHKSGESPTHFKADLISYLMAYNAPSLKEWIDVIHKHDLSETNVYLIGSTPGRFQGSQKDNWGHFRLKKLLKDHASSMPNAESWPVVGQFSSVGSLGADESKWLCSEFKESMLTLGKESKTPGKSSVPLYLIYPSVENVRTSLEGYPAGGSLPYSIQTAEKQNWLHSYFHKWSAETSGRSNAMPHIKTYMRPSPDFSKIAWFLVTSANLSKAAWGALEKNGTQLMIRSYELGVLFLPSAFGLDSFKVKQKFTFPVPYDLPPELYGSKDRPWIWNIPYVKAPDTHGNMWVPS 1qzt-a4-m1-cC_1qzt-a4-m1-cD Phosphotransacetylase from Methanosarcina thermophila P38503 P38503 2.7 X-RAY DIFFRACTION 120 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 331 332 1qzt-a1-m1-cB_1qzt-a1-m1-cA 1qzt-a2-m1-cC_1qzt-a2-m1-cD 1qzt-a3-m1-cB_1qzt-a3-m1-cA 1qzt-a3-m2-cC_1qzt-a3-m2-cD 2af3-a1-m1-cC_2af3-a1-m1-cD 2af4-a1-m1-cD_2af4-a1-m1-cC VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQD VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQDK 1qzt-a4-m1-cC_1qzt-a4-m4-cA Phosphotransacetylase from Methanosarcina thermophila P38503 P38503 2.7 X-RAY DIFFRACTION 62 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 331 332 1qzt-a3-m2-cC_1qzt-a3-m1-cA VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQD VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQDK 1qzt-a4-m3-cB_1qzt-a4-m1-cD Phosphotransacetylase from Methanosarcina thermophila P38503 P38503 2.7 X-RAY DIFFRACTION 38 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 331 332 VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQD VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQDK 1qzt-a4-m3-cB_1qzt-a4-m4-cA Phosphotransacetylase from Methanosarcina thermophila P38503 P38503 2.7 X-RAY DIFFRACTION 22 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 331 332 VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQD VTFLEKISERAKKLNKTIALPETEDIRTLQAAAKILERGIADIVLVGNEADIKALAGDLDLSKAKIVDPKTYEKKDEYINAFYELRKHKGITLENAAEIMSDYVYFAVMMAKLGEVDGVVSGAAHSSSDTLRPAVQIVKTAKGAALASAFFIISVPDCEYGSDGTFLFADSGMVEMPSVEDVANIAVISAKTFELLVQDVPKVAMLSYSTKGSAKSKLTEATIASTKLAQELAPDIAIDGELQVDAAIVPKVAASKAPGSPVAGKANVFIFPDLNCGNIAYKIAQRLAKAEAYGPITQGLAKPINDLSRGCSDEDIVGAVAITCVQAAAQDK 1qzu-a5-m4-cC_1qzu-a5-m5-cC crystal structure of human phosphopantothenoylcysteine decarboxylase Q96CD2 Q96CD2 2.91 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 1qzu-a1-m1-cA_1qzu-a1-m2-cA 1qzu-a1-m1-cA_1qzu-a1-m3-cA 1qzu-a1-m2-cA_1qzu-a1-m3-cA 1qzu-a2-m1-cB_1qzu-a2-m2-cB 1qzu-a2-m1-cB_1qzu-a2-m3-cB 1qzu-a2-m2-cB_1qzu-a2-m3-cB 1qzu-a4-m1-cD_1qzu-a4-m2-cD 1qzu-a4-m1-cD_1qzu-a4-m3-cD 1qzu-a4-m2-cD_1qzu-a4-m3-cD 1qzu-a5-m1-cC_1qzu-a5-m4-cC 1qzu-a5-m1-cC_1qzu-a5-m5-cC MERKFHVLVGVTGSVAALKLPLLVSKLLGLEVAVVTTERAKHFYSPQDIPVTLYSDADEWEMWKSRSDPVLHIDLRRWADLLLVAPLDANTLGKVASGICDNLLTCVMRAWDRSKPLLFCPAMNTAMWEHPITAQQVDQLKAFGYVEIPVGTIVDKVKEV MERKFHVLVGVTGSVAALKLPLLVSKLLGLEVAVVTTERAKHFYSPQDIPVTLYSDADEWEMWKSRSDPVLHIDLRRWADLLLVAPLDANTLGKVASGICDNLLTCVMRAWDRSKPLLFCPAMNTAMWEHPITAQQVDQLKAFGYVEIPVGTIVDKVKEV 1qzz-a2-m1-cA_1qzz-a2-m2-cA Crystal structure of aclacinomycin-10-hydroxylase (RdmB) in complex with S-adenosyl-L-methionine (SAM) Q54527 Q54527 2.1 X-RAY DIFFRACTION 230 1.0 1924 (Streptomyces purpurascens) 1924 (Streptomyces purpurascens) 340 340 1r00-a2-m1-cA_1r00-a2-m2-cA 1xds-a1-m1-cB_1xds-a1-m1-cA 1xdu-a2-m1-cA_1xdu-a2-m2-cA LEPTDQDLDVLLKNLGNLVTPMALRVAATLRLVDHLLAGADTLAGLADRTDTHPQALSRLVRHLTVVGVLEGGEKGRPLRPTRLGMLLADGHPAQQRAWLDLNGAVSHADLAFTGLLDVVRTGRPAYAGRYGRPFWEDLSADVALADSFDALMSCDEDLAYEAPADAYDWSAVRHVLDVGGGNGGMLAAIALRAPHLRGTLVELAGPAERARRRFADAGLADRVTVAEGDFFKPLPVTADVVLLSFVLLNWSDEDALTILRGCVRALEPGGRLLVLDRADRFFSTLLDLRMLTFMGGRVRTRDEVVDLAGSAGLALASERTSGSTTLPFDFSILEFTAVS LEPTDQDLDVLLKNLGNLVTPMALRVAATLRLVDHLLAGADTLAGLADRTDTHPQALSRLVRHLTVVGVLEGGEKGRPLRPTRLGMLLADGHPAQQRAWLDLNGAVSHADLAFTGLLDVVRTGRPAYAGRYGRPFWEDLSADVALADSFDALMSCDEDLAYEAPADAYDWSAVRHVLDVGGGNGGMLAAIALRAPHLRGTLVELAGPAERARRRFADAGLADRVTVAEGDFFKPLPVTADVVLLSFVLLNWSDEDALTILRGCVRALEPGGRLLVLDRADRFFSTLLDLRMLTFMGGRVRTRDEVVDLAGSAGLALASERTSGSTTLPFDFSILEFTAVS 1r05-a1-m1-cA_1r05-a1-m1-cB Solution Structure of Max B-HLH-LZ P61244 P61244 NOT SOLUTION NMR 138 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 MADKRAHHNALERKRRDHIKDSFHSLRDSVPSLQGEKASRAQILDKATEYIQYMRRKVHTLQQDIDDLKRQNALLEQQVRALEGSGC MADKRAHHNALERKRRDHIKDSFHSLRDSVPSLQGEKASRAQILDKATEYIQYMRRKVHTLQQDIDDLKRQNALLEQQVRALEGSGC 1r0k-a1-m1-cA_1r0k-a1-m1-cB Crystal structure of 1-deoxy-D-xylulose 5-phosphate reductoisomerase from Zymomonas mobilis Q9X5F2 Q9X5F2 1.91 X-RAY DIFFRACTION 141 0.995 542 (Zymomonas mobilis) 542 (Zymomonas mobilis) 380 382 1r0k-a2-m1-cC_1r0k-a2-m1-cD 1r0l-a1-m1-cA_1r0l-a1-m1-cB 1r0l-a2-m1-cC_1r0l-a2-m1-cD SQPRTVTVLGATGSIGHSTLDLIERNLDRYQVIALTANRNVKDLADAAKRTNAKRAVIADPSLYNDLKEALAGSSVEAAAGADALVEAAMMGADWTMAAIIGCAGLKATLAAIRKGKTVALANKESLVSAGGLMIDAVREHGTTLLPVDSEHNAIFQCFPHHNRDYVRRIIITASGGPFRTTSLAEMATVTPERAVQGAKISIDSATMMNKGLELIEAFHLFQIPLEKFEILVHPQSVIHSMVEYLDGSILAQIGSPDMRTPIGHTLAWPKRMETPAESLDFTKLRQMDFEAPDYERFPALTLAMESIKSGGARPAVMNAANEIAVAAFLDKKIGFLDIAKIVEKTLDHYTPATPSSLEDVFAIDNEARIQAAALMESLP QPRTVTVLGATGSIGHSTLDLIERNLDRYQVIALTANRNVKDLADAAKRTNAKRAVIADPSLYNDLKEALAGSSVEAAAGADALVEAAMMGADWTMAAIIGCAGLKATLAAIRKGKTVALANKESLVSAGGLMIDAVREHGTTLLPVDSEHNAIFQCFPHHNRDYVRRIIITASGGPFRTTSLAEMATVTPERAVQHPSMGAKISIDSATMMNKGLELIEAFHLFQIPLEKFEILVHPQSVIHSMVEYLDGSILAQIGSPDMRTPIGHTLAWPKRMETPAESLDFTKLRQMDFEAPDYERFPALTLAMESIKSGGARPAVMNAANEIAVAAFLDKKIGFLDIAKIVEKTLDHYTPATPSSLEDVFAIDNEARIQAAALMESL 1r0m-a2-m1-cB_1r0m-a2-m1-cD Structure of Deinococcus radiodurans N-acylamino acid racemase at 1.3 : insights into a flexible binding pocket and evolution of enzymatic activity Q9RYA6 Q9RYA6 1.3 X-RAY DIFFRACTION 63 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 360 360 1r0m-a1-m1-cA_1r0m-a1-m1-cC 1xpy-a1-m1-cA_1xpy-a1-m1-cC 1xpy-a2-m1-cB_1xpy-a2-m1-cD 1xs2-a1-m1-cA_1xs2-a1-m1-cC 1xs2-a2-m1-cB_1xs2-a2-m1-cD 2fkp-a1-m1-cA_2fkp-a1-m1-cC 2fkp-a1-m2-cA_2fkp-a1-m2-cC 2fkp-a1-m3-cA_2fkp-a1-m3-cC 2fkp-a1-m4-cA_2fkp-a1-m4-cC 2fkp-a2-m1-cB_2fkp-a2-m1-cD 2fkp-a2-m5-cB_2fkp-a2-m5-cD 2fkp-a2-m6-cB_2fkp-a2-m6-cD 2fkp-a2-m7-cB_2fkp-a2-m7-cD 2ggg-a1-m1-cA_2ggg-a1-m1-cC 2ggg-a1-m2-cA_2ggg-a1-m2-cC 2ggg-a1-m3-cA_2ggg-a1-m3-cC 2ggg-a1-m4-cA_2ggg-a1-m4-cC 2ggg-a2-m1-cB_2ggg-a2-m1-cD 2ggg-a2-m5-cB_2ggg-a2-m5-cD 2ggg-a2-m6-cB_2ggg-a2-m6-cD 2ggg-a2-m7-cB_2ggg-a2-m7-cD 2ggh-a1-m1-cA_2ggh-a1-m1-cC 2ggh-a1-m2-cA_2ggh-a1-m2-cC 2ggh-a1-m3-cA_2ggh-a1-m3-cC 2ggh-a1-m4-cA_2ggh-a1-m4-cC 2ggh-a2-m1-cB_2ggh-a2-m1-cD 2ggh-a2-m5-cB_2ggh-a2-m5-cD 2ggh-a2-m6-cB_2ggh-a2-m6-cD 2ggh-a2-m7-cB_2ggh-a2-m7-cD 2ggi-a1-m1-cA_2ggi-a1-m1-cC 2ggi-a1-m2-cA_2ggi-a1-m2-cC 2ggi-a1-m3-cA_2ggi-a1-m3-cC 2ggi-a1-m4-cA_2ggi-a1-m4-cC 2ggi-a2-m1-cB_2ggi-a2-m1-cD 2ggi-a2-m5-cB_2ggi-a2-m5-cD 2ggi-a2-m6-cB_2ggi-a2-m6-cD 2ggi-a2-m7-cB_2ggi-a2-m7-cD 2ggj-a1-m1-cA_2ggj-a1-m1-cC 2ggj-a1-m2-cA_2ggj-a1-m2-cC 2ggj-a1-m3-cA_2ggj-a1-m3-cC 2ggj-a1-m4-cA_2ggj-a1-m4-cC 2ggj-a2-m1-cB_2ggj-a2-m1-cD 2ggj-a2-m5-cB_2ggj-a2-m5-cD 2ggj-a2-m6-cB_2ggj-a2-m6-cD 2ggj-a2-m7-cB_2ggj-a2-m7-cD RMFKIEAAEIVVARLPLKTHKVVPLLILHGEGVQGVAEGTMEARPMYREETIAGALDLLRGTFLPAILGQTFANPEAVSDALGSYRGNRMARAMVEMAAWDLWARTLGVPLGTLLGGHKEQVEVGVSLGIQADEQATVDLVRRHVEQGYRRIKLKIKPGWDVQPVRATREAFPDIRLTVDANSAYTLADAGRLRQLDEYDLTYIEQPLAWDDLVDHAELARRIRTPLCLDESVASASDARKALALGAGGVINLKVARVGGHAESRRVHDVAQSFGAPVWCGGMLESGIGRAHNIHLSTLSNFRLPGDTSSASRYWERDLIQEPLEAVDGLMPVPQGPGTGVTLDREFLATVTEAQEEHRA RMFKIEAAEIVVARLPLKTHKVVPLLILHGEGVQGVAEGTMEARPMYREETIAGALDLLRGTFLPAILGQTFANPEAVSDALGSYRGNRMARAMVEMAAWDLWARTLGVPLGTLLGGHKEQVEVGVSLGIQADEQATVDLVRRHVEQGYRRIKLKIKPGWDVQPVRATREAFPDIRLTVDANSAYTLADAGRLRQLDEYDLTYIEQPLAWDDLVDHAELARRIRTPLCLDESVASASDARKALALGAGGVINLKVARVGGHAESRRVHDVAQSFGAPVWCGGMLESGIGRAHNIHLSTLSNFRLPGDTSSASRYWERDLIQEPLEAVDGLMPVPQGPGTGVTLDREFLATVTEAQEEHRA 1r0z-a6-m5-cD_1r0z-a6-m7-cD Phosphorylated Cystic fibrosis transmembrane conductance regulator (CFTR) nucleotide-binding domain one (NBD1) with ATP P26361 P26361 2.35 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 256 256 1q3h-a5-m1-cA_1q3h-a5-m1-cB 1q3h-a5-m1-cA_1q3h-a5-m4-cB 1q3h-a5-m2-cA_1q3h-a5-m2-cB 1q3h-a5-m2-cA_1q3h-a5-m3-cB 1q3h-a5-m3-cA_1q3h-a5-m2-cB 1q3h-a5-m3-cA_1q3h-a5-m3-cB 1q3h-a5-m4-cA_1q3h-a5-m1-cB 1q3h-a5-m4-cA_1q3h-a5-m4-cB 1r0w-a5-m1-cA_1r0w-a5-m1-cB 1r0w-a5-m1-cA_1r0w-a5-m4-cB 1r0w-a5-m2-cA_1r0w-a5-m2-cB 1r0w-a5-m2-cA_1r0w-a5-m3-cB 1r0w-a5-m3-cA_1r0w-a5-m2-cB 1r0w-a5-m3-cA_1r0w-a5-m3-cB 1r0w-a5-m4-cA_1r0w-a5-m1-cB 1r0w-a5-m4-cA_1r0w-a5-m4-cB 1r0w-a6-m1-cC_1r0w-a6-m6-cC 1r0w-a6-m1-cC_1r0w-a6-m7-cC 1r0w-a6-m1-cD_1r0w-a6-m6-cD 1r0w-a6-m1-cD_1r0w-a6-m7-cD 1r0w-a6-m5-cC_1r0w-a6-m6-cC 1r0w-a6-m5-cC_1r0w-a6-m7-cC 1r0w-a6-m5-cD_1r0w-a6-m6-cD 1r0w-a6-m5-cD_1r0w-a6-m7-cD 1r0x-a5-m1-cA_1r0x-a5-m1-cB 1r0x-a5-m1-cA_1r0x-a5-m4-cB 1r0x-a5-m2-cA_1r0x-a5-m2-cB 1r0x-a5-m2-cA_1r0x-a5-m3-cB 1r0x-a5-m3-cA_1r0x-a5-m2-cB 1r0x-a5-m3-cA_1r0x-a5-m3-cB 1r0x-a5-m4-cA_1r0x-a5-m1-cB 1r0x-a5-m4-cA_1r0x-a5-m4-cB 1r0x-a6-m1-cC_1r0x-a6-m6-cC 1r0x-a6-m1-cC_1r0x-a6-m7-cC 1r0x-a6-m1-cD_1r0x-a6-m6-cD 1r0x-a6-m1-cD_1r0x-a6-m7-cD 1r0x-a6-m5-cC_1r0x-a6-m6-cC 1r0x-a6-m5-cC_1r0x-a6-m7-cC 1r0x-a6-m5-cD_1r0x-a6-m6-cD 1r0x-a6-m5-cD_1r0x-a6-m7-cD 1r0y-a5-m1-cA_1r0y-a5-m1-cB 1r0y-a5-m1-cA_1r0y-a5-m4-cB 1r0y-a5-m2-cA_1r0y-a5-m2-cB 1r0y-a5-m2-cA_1r0y-a5-m3-cB 1r0y-a5-m3-cA_1r0y-a5-m2-cB 1r0y-a5-m3-cA_1r0y-a5-m3-cB 1r0y-a5-m4-cA_1r0y-a5-m1-cB 1r0y-a5-m4-cA_1r0y-a5-m4-cB 1r0y-a6-m1-cC_1r0y-a6-m6-cC 1r0y-a6-m1-cC_1r0y-a6-m7-cC 1r0y-a6-m1-cD_1r0y-a6-m6-cD 1r0y-a6-m1-cD_1r0y-a6-m7-cD 1r0y-a6-m5-cC_1r0y-a6-m6-cC 1r0y-a6-m5-cC_1r0y-a6-m7-cC 1r0y-a6-m5-cD_1r0y-a6-m6-cD 1r0y-a6-m5-cD_1r0y-a6-m7-cD 1r0z-a5-m1-cA_1r0z-a5-m1-cB 1r0z-a5-m1-cA_1r0z-a5-m4-cB 1r0z-a5-m1-cB_1r0z-a5-m4-cA 1r0z-a5-m2-cA_1r0z-a5-m2-cB 1r0z-a5-m2-cA_1r0z-a5-m3-cB 1r0z-a5-m2-cB_1r0z-a5-m3-cA 1r0z-a5-m3-cA_1r0z-a5-m3-cB 1r0z-a5-m4-cA_1r0z-a5-m4-cB 1r0z-a6-m1-cC_1r0z-a6-m6-cC 1r0z-a6-m1-cC_1r0z-a6-m7-cC 1r0z-a6-m1-cD_1r0z-a6-m6-cD 1r0z-a6-m1-cD_1r0z-a6-m7-cD 1r0z-a6-m5-cC_1r0z-a6-m6-cC 1r0z-a6-m5-cC_1r0z-a6-m7-cC 1r0z-a6-m5-cD_1r0z-a6-m6-cD 1r10-a3-m1-cA_1r10-a3-m1-cB 1r10-a3-m1-cA_1r10-a3-m4-cB 1r10-a3-m1-cB_1r10-a3-m4-cA 1r10-a3-m2-cA_1r10-a3-m2-cB 1r10-a3-m2-cA_1r10-a3-m3-cB 1r10-a3-m2-cB_1r10-a3-m3-cA 1r10-a3-m3-cA_1r10-a3-m3-cB 1r10-a3-m4-cA_1r10-a3-m4-cB 1xf9-a5-m1-cA_1xf9-a5-m1-cB 1xf9-a5-m1-cA_1xf9-a5-m3-cB 1xf9-a5-m2-cA_1xf9-a5-m2-cB 1xf9-a5-m3-cA_1xf9-a5-m1-cB 1xf9-a5-m3-cA_1xf9-a5-m3-cB 1xf9-a6-m1-cA_1xf9-a6-m1-cB 1xf9-a6-m1-cA_1xf9-a6-m3-cB 1xf9-a6-m2-cA_1xf9-a6-m2-cB 1xf9-a6-m2-cA_1xf9-a6-m4-cB 1xf9-a6-m3-cA_1xf9-a6-m1-cB 1xf9-a6-m3-cA_1xf9-a6-m3-cB 1xf9-a6-m4-cA_1xf9-a6-m2-cB 1xf9-a6-m4-cA_1xf9-a6-m4-cB 1xf9-a7-m10-cD_1xf9-a7-m8-cD 1xf9-a7-m10-cD_1xf9-a7-m9-cD 1xf9-a7-m11-cD_1xf9-a7-m8-cD 1xf9-a7-m11-cD_1xf9-a7-m9-cD 1xf9-a7-m1-cC_1xf9-a7-m6-cC 1xf9-a7-m1-cC_1xf9-a7-m7-cC 1xf9-a7-m5-cC_1xf9-a7-m6-cC 1xf9-a7-m5-cC_1xf9-a7-m7-cC 3si7-a5-m1-cA_3si7-a5-m1-cB 3si7-a5-m1-cA_3si7-a5-m4-cB 3si7-a5-m2-cA_3si7-a5-m2-cB 3si7-a5-m2-cA_3si7-a5-m3-cB 3si7-a5-m3-cA_3si7-a5-m2-cB 3si7-a5-m3-cA_3si7-a5-m3-cB 3si7-a5-m4-cA_3si7-a5-m1-cB 3si7-a5-m4-cA_3si7-a5-m4-cB 3si7-a6-m1-cC_3si7-a6-m6-cC 3si7-a6-m1-cC_3si7-a6-m7-cC 3si7-a6-m1-cD_3si7-a6-m6-cD 3si7-a6-m1-cD_3si7-a6-m7-cD 3si7-a6-m5-cC_3si7-a6-m6-cC 3si7-a6-m5-cC_3si7-a6-m7-cC 3si7-a6-m5-cD_3si7-a6-m6-cD 3si7-a6-m5-cD_3si7-a6-m7-cD TGIIMENVTAFWEEGFGEFSHLCLVGNPVLKNINLNIEKGEMLAITGSTGSGKTSLLMLILGELEASEGIIKHSGRVSFCSQFSWIMPGTIKENIIFGVSYDEYRYKSVVKACQLQQDITKFAEQDNTVLGEGGVTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVFTEEQVFESCVCKLMANKTRILVTSKMEHLRKADKILILHQGSSYFYGTFSELQSLRPDFSSKLMGYDTFDQFTEERRILTETLRRF TGIIMENVTAFWEEGFGEFSHLCLVGNPVLKNINLNIEKGEMLAITGSTGSGKTSLLMLILGELEASEGIIKHSGRVSFCSQFSWIMPGTIKENIIFGVSYDEYRYKSVVKACQLQQDITKFAEQDNTVLGEGGVTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVFTEEQVFESCVCKLMANKTRILVTSKMEHLRKADKILILHQGSSYFYGTFSELQSLRPDFSSKLMGYDTFDQFTEERRILTETLRRF 1r11-a1-m1-cA_1r11-a1-m1-cB Structure Determination of the Dimeric Endonuclease in a Pseudo-face-centerd P21 space group O29362 O29362 2.7 X-RAY DIFFRACTION 164 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 303 303 1r0v-a1-m1-cA_1r0v-a1-m1-cB 1r0v-a2-m1-cD_1r0v-a2-m1-cC 1rlv-a1-m1-cA_1rlv-a1-m1-cB 2gjw-a1-m1-cB_2gjw-a1-m1-cA 2gjw-a2-m1-cD_2gjw-a2-m1-cC 3p1y-a1-m1-cA_3p1y-a1-m1-cB 3p1y-a2-m1-cC_3p1y-a2-m1-cD GGDFAVVKAKKSLERRGFGVKRGDKIYLHPLEVVYLQIKGIESFGELEDVLSWAESRMEDFSTYYFVYEDLRDRGNKVKIQGEFLLTKKPYLPISERKTIRMEEIAEKARNFDELRLAVVDEESEITYFRVYEPDMMGEQKEELPEIAGVLSDEYVITKQTEIFSRYFYGSEKGDLVTLSLIESLYLLDLGKLNLLNADREELVKRAREVERNFDRRYEVYRNLKERGFVVKTGFKFGSEFRVYRKVESVDDLPHSEYLVDIADSREIRLIDLARAVRLAQNVRKRMVFAYGKNYLCFERVKV GGDFAVVKAKKSLERRGFGVKRGDKIYLHPLEVVYLQIKGIESFGELEDVLSWAESRMEDFSTYYFVYEDLRDRGNKVKIQGEFLLTKKPYLPISERKTIRMEEIAEKARNFDELRLAVVDEESEITYFRVYEPDMMGEQKEELPEIAGVLSDEYVITKQTEIFSRYFYGSEKGDLVTLSLIESLYLLDLGKLNLLNADREELVKRAREVERNFDRRYEVYRNLKERGFVVKTGFKFGSEFRVYRKVESVDDLPHSEYLVDIADSREIRLIDLARAVRLAQNVRKRMVFAYGKNYLCFERVKV 1r18-a2-m1-cA_1r18-a2-m2-cA Drosophila protein isoaspartyl methyltransferase with S-adenosyl-L-homocysteine Q27869 Q27869 2.2 X-RAY DIFFRACTION 118 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 223 223 IHMAWRSVGANNEDLIRQLKDHGVIASDAVAQAMKETDRKHYSPRNPYMDAPQPIGGGVTISAPHMHAFALEYLRDHLKPGARILDVGSGSGYLTACFYRYIKAKGVDADTRIVGIEHQAELVRRSKANLNTDDRSMLDSGQLLIVEGDGRKGYPPNAPYNAIHVGAAAPDTPTELINQLASGGRLIVPVGPDGGSQYMQQYDKDANGKVEMTRLMGVMYVPL IHMAWRSVGANNEDLIRQLKDHGVIASDAVAQAMKETDRKHYSPRNPYMDAPQPIGGGVTISAPHMHAFALEYLRDHLKPGARILDVGSGSGYLTACFYRYIKAKGVDADTRIVGIEHQAELVRRSKANLNTDDRSMLDSGQLLIVEGDGRKGYPPNAPYNAIHVGAAAPDTPTELINQLASGGRLIVPVGPDGGSQYMQQYDKDANGKVEMTRLMGVMYVPL 1r1a-a1-m23-c2_1r1a-a1-m9-c2 CRYSTAL STRUCTURE OF HUMAN RHINOVIRUS SEROTYPE 1A (HRV1A) P23008 P23008 3.2 X-RAY DIFFRACTION 60 1.0 12134 (Human rhinovirus 1A) 12134 (Human rhinovirus 1A) 253 253 1r1a-a1-m10-c2_1r1a-a1-m5-c2 1r1a-a1-m11-c2_1r1a-a1-m37-c2 1r1a-a1-m12-c2_1r1a-a1-m46-c2 1r1a-a1-m13-c2_1r1a-a1-m44-c2 1r1a-a1-m14-c2_1r1a-a1-m28-c2 1r1a-a1-m15-c2_1r1a-a1-m20-c2 1r1a-a1-m16-c2_1r1a-a1-m27-c2 1r1a-a1-m17-c2_1r1a-a1-m51-c2 1r1a-a1-m18-c2_1r1a-a1-m59-c2 1r1a-a1-m19-c2_1r1a-a1-m38-c2 1r1a-a1-m1-c2_1r1a-a1-m22-c2 1r1a-a1-m21-c2_1r1a-a1-m42-c2 1r1a-a1-m24-c2_1r1a-a1-m53-c2 1r1a-a1-m25-c2_1r1a-a1-m30-c2 1r1a-a1-m26-c2_1r1a-a1-m52-c2 1r1a-a1-m29-c2_1r1a-a1-m43-c2 1r1a-a1-m2-c2_1r1a-a1-m41-c2 1r1a-a1-m31-c2_1r1a-a1-m57-c2 1r1a-a1-m32-c2_1r1a-a1-m6-c2 1r1a-a1-m33-c2_1r1a-a1-m4-c2 1r1a-a1-m34-c2_1r1a-a1-m48-c2 1r1a-a1-m35-c2_1r1a-a1-m40-c2 1r1a-a1-m36-c2_1r1a-a1-m47-c2 1r1a-a1-m39-c2_1r1a-a1-m58-c2 1r1a-a1-m3-c2_1r1a-a1-m49-c2 1r1a-a1-m45-c2_1r1a-a1-m50-c2 1r1a-a1-m54-c2_1r1a-a1-m8-c2 1r1a-a1-m55-c2_1r1a-a1-m60-c2 1r1a-a1-m56-c2_1r1a-a1-m7-c2 2hwd-a1-m10-c2_2hwd-a1-m5-c2 2hwd-a1-m11-c2_2hwd-a1-m37-c2 2hwd-a1-m12-c2_2hwd-a1-m46-c2 2hwd-a1-m13-c2_2hwd-a1-m44-c2 2hwd-a1-m14-c2_2hwd-a1-m28-c2 2hwd-a1-m15-c2_2hwd-a1-m20-c2 2hwd-a1-m16-c2_2hwd-a1-m27-c2 2hwd-a1-m17-c2_2hwd-a1-m51-c2 2hwd-a1-m18-c2_2hwd-a1-m59-c2 2hwd-a1-m19-c2_2hwd-a1-m38-c2 2hwd-a1-m1-c2_2hwd-a1-m22-c2 2hwd-a1-m21-c2_2hwd-a1-m42-c2 2hwd-a1-m23-c2_2hwd-a1-m9-c2 2hwd-a1-m24-c2_2hwd-a1-m53-c2 2hwd-a1-m25-c2_2hwd-a1-m30-c2 2hwd-a1-m26-c2_2hwd-a1-m52-c2 2hwd-a1-m29-c2_2hwd-a1-m43-c2 2hwd-a1-m2-c2_2hwd-a1-m41-c2 2hwd-a1-m31-c2_2hwd-a1-m57-c2 2hwd-a1-m32-c2_2hwd-a1-m6-c2 2hwd-a1-m33-c2_2hwd-a1-m4-c2 2hwd-a1-m34-c2_2hwd-a1-m48-c2 2hwd-a1-m35-c2_2hwd-a1-m40-c2 2hwd-a1-m36-c2_2hwd-a1-m47-c2 2hwd-a1-m39-c2_2hwd-a1-m58-c2 2hwd-a1-m3-c2_2hwd-a1-m49-c2 2hwd-a1-m45-c2_2hwd-a1-m50-c2 2hwd-a1-m54-c2_2hwd-a1-m8-c2 2hwd-a1-m55-c2_2hwd-a1-m60-c2 2hwd-a1-m56-c2_2hwd-a1-m7-c2 2hwe-a1-m10-c2_2hwe-a1-m5-c2 2hwe-a1-m11-c2_2hwe-a1-m37-c2 2hwe-a1-m12-c2_2hwe-a1-m46-c2 2hwe-a1-m13-c2_2hwe-a1-m44-c2 2hwe-a1-m14-c2_2hwe-a1-m28-c2 2hwe-a1-m15-c2_2hwe-a1-m20-c2 2hwe-a1-m16-c2_2hwe-a1-m27-c2 2hwe-a1-m17-c2_2hwe-a1-m51-c2 2hwe-a1-m18-c2_2hwe-a1-m59-c2 2hwe-a1-m19-c2_2hwe-a1-m38-c2 2hwe-a1-m1-c2_2hwe-a1-m22-c2 2hwe-a1-m21-c2_2hwe-a1-m42-c2 2hwe-a1-m23-c2_2hwe-a1-m9-c2 2hwe-a1-m24-c2_2hwe-a1-m53-c2 2hwe-a1-m25-c2_2hwe-a1-m30-c2 2hwe-a1-m26-c2_2hwe-a1-m52-c2 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2hwf-a1-m32-c2_2hwf-a1-m6-c2 2hwf-a1-m33-c2_2hwf-a1-m4-c2 2hwf-a1-m34-c2_2hwf-a1-m48-c2 2hwf-a1-m35-c2_2hwf-a1-m40-c2 2hwf-a1-m36-c2_2hwf-a1-m47-c2 2hwf-a1-m39-c2_2hwf-a1-m58-c2 2hwf-a1-m3-c2_2hwf-a1-m49-c2 2hwf-a1-m45-c2_2hwf-a1-m50-c2 2hwf-a1-m54-c2_2hwf-a1-m8-c2 2hwf-a1-m55-c2_2hwf-a1-m60-c2 2hwf-a1-m56-c2_2hwf-a1-m7-c2 DRIMQITRGDSTISSDDVANAVVGYGVWPHYLTPQDATAINKPTQPDTSSNRFYTLESKHWNGSSKGWWWKLPDALKDMGIFGENMYYHFLGRSGYTVHVQCNASKFHQGTLLVAMIPEHQLASAKHGSVTAGYKLTHPGEAGRDVSQERDASLRQPSDDSWLNFDGTLLGNLLIFPHQFINLRSNNSATLIVPYVNAVPMDSMLRHNNWCLVIIPISPLRSETTSSNIVPITVSISPMCAEFSGARAKNIKQ DRIMQITRGDSTISSDDVANAVVGYGVWPHYLTPQDATAINKPTQPDTSSNRFYTLESKHWNGSSKGWWWKLPDALKDMGIFGENMYYHFLGRSGYTVHVQCNASKFHQGTLLVAMIPEHQLASAKHGSVTAGYKLTHPGEAGRDVSQERDASLRQPSDDSWLNFDGTLLGNLLIFPHQFINLRSNNSATLIVPYVNAVPMDSMLRHNNWCLVIIPISPLRSETTSSNIVPITVSISPMCAEFSGARAKNIKQ 1r1a-a1-m8-c1_1r1a-a1-m9-c1 CRYSTAL STRUCTURE OF HUMAN RHINOVIRUS SEROTYPE 1A (HRV1A) P23008 P23008 3.2 X-RAY DIFFRACTION 83 1.0 12134 (Human rhinovirus 1A) 12134 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2hwf-a1-m54-c1_2hwf-a1-m55-c1 2hwf-a1-m56-c1_2hwf-a1-m57-c1 2hwf-a1-m56-c1_2hwf-a1-m60-c1 2hwf-a1-m57-c1_2hwf-a1-m58-c1 2hwf-a1-m58-c1_2hwf-a1-m59-c1 2hwf-a1-m59-c1_2hwf-a1-m60-c1 2hwf-a1-m6-c1_2hwf-a1-m7-c1 2hwf-a1-m7-c1_2hwf-a1-m8-c1 2hwf-a1-m8-c1_2hwf-a1-m9-c1 NYIDEVLNEVLVVPNIKESHHTTSNSAPLLDAAETGHTSNVQPEDAIETRYVITSQTRDEMSIESFLGRSGCVHISRIKVDYTDYNGQDINFTKWKITLQEMAQIRRKFELFTYVRFDSEITLVPCIAGRGDDIGHIVMQYMYVPPGAPIPSKRNDFSWQSGTNMSIFWQHGQPFPRFSIPFLSIASAYYMFYDGYDGDNTSSKYGSVVTNDMGTICSRIVTEKQKLSVVITTHIYHKAKHTKAWCPRPPRAVPYTHSHVTNYMPETGDVTTAIVRRNTITTA NYIDEVLNEVLVVPNIKESHHTTSNSAPLLDAAETGHTSNVQPEDAIETRYVITSQTRDEMSIESFLGRSGCVHISRIKVDYTDYNGQDINFTKWKITLQEMAQIRRKFELFTYVRFDSEITLVPCIAGRGDDIGHIVMQYMYVPPGAPIPSKRNDFSWQSGTNMSIFWQHGQPFPRFSIPFLSIASAYYMFYDGYDGDNTSSKYGSVVTNDMGTICSRIVTEKQKLSVVITTHIYHKAKHTKAWCPRPPRAVPYTHSHVTNYMPETGDVTTAIVRRNTITTA 1r1a-a1-m8-c3_1r1a-a1-m9-c3 CRYSTAL STRUCTURE OF HUMAN RHINOVIRUS SEROTYPE 1A (HRV1A) P23008 P23008 3.2 X-RAY DIFFRACTION 54 1.0 12134 (Human rhinovirus 1A) 12134 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2hwd-a1-m43-c3_2hwd-a1-m44-c3 2hwd-a1-m44-c3_2hwd-a1-m45-c3 2hwd-a1-m46-c3_2hwd-a1-m47-c3 2hwd-a1-m46-c3_2hwd-a1-m50-c3 2hwd-a1-m47-c3_2hwd-a1-m48-c3 2hwd-a1-m48-c3_2hwd-a1-m49-c3 2hwd-a1-m49-c3_2hwd-a1-m50-c3 2hwd-a1-m4-c3_2hwd-a1-m5-c3 2hwd-a1-m51-c3_2hwd-a1-m52-c3 2hwd-a1-m51-c3_2hwd-a1-m55-c3 2hwd-a1-m52-c3_2hwd-a1-m53-c3 2hwd-a1-m53-c3_2hwd-a1-m54-c3 2hwd-a1-m54-c3_2hwd-a1-m55-c3 2hwd-a1-m56-c3_2hwd-a1-m57-c3 2hwd-a1-m56-c3_2hwd-a1-m60-c3 2hwd-a1-m57-c3_2hwd-a1-m58-c3 2hwd-a1-m58-c3_2hwd-a1-m59-c3 2hwd-a1-m59-c3_2hwd-a1-m60-c3 2hwd-a1-m6-c3_2hwd-a1-m7-c3 2hwd-a1-m7-c3_2hwd-a1-m8-c3 2hwd-a1-m8-c3_2hwd-a1-m9-c3 2hwe-a1-m10-c3_2hwe-a1-m6-c3 2hwe-a1-m10-c3_2hwe-a1-m9-c3 2hwe-a1-m11-c3_2hwe-a1-m12-c3 2hwe-a1-m11-c3_2hwe-a1-m15-c3 2hwe-a1-m12-c3_2hwe-a1-m13-c3 2hwe-a1-m13-c3_2hwe-a1-m14-c3 2hwe-a1-m14-c3_2hwe-a1-m15-c3 2hwe-a1-m16-c3_2hwe-a1-m17-c3 2hwe-a1-m16-c3_2hwe-a1-m20-c3 2hwe-a1-m17-c3_2hwe-a1-m18-c3 2hwe-a1-m18-c3_2hwe-a1-m19-c3 2hwe-a1-m19-c3_2hwe-a1-m20-c3 2hwe-a1-m1-c3_2hwe-a1-m2-c3 2hwe-a1-m1-c3_2hwe-a1-m5-c3 2hwe-a1-m21-c3_2hwe-a1-m22-c3 2hwe-a1-m21-c3_2hwe-a1-m25-c3 2hwe-a1-m22-c3_2hwe-a1-m23-c3 2hwe-a1-m23-c3_2hwe-a1-m24-c3 2hwe-a1-m24-c3_2hwe-a1-m25-c3 2hwe-a1-m26-c3_2hwe-a1-m27-c3 2hwe-a1-m26-c3_2hwe-a1-m30-c3 2hwe-a1-m27-c3_2hwe-a1-m28-c3 2hwe-a1-m28-c3_2hwe-a1-m29-c3 2hwe-a1-m29-c3_2hwe-a1-m30-c3 2hwe-a1-m2-c3_2hwe-a1-m3-c3 2hwe-a1-m31-c3_2hwe-a1-m32-c3 2hwe-a1-m31-c3_2hwe-a1-m35-c3 2hwe-a1-m32-c3_2hwe-a1-m33-c3 2hwe-a1-m33-c3_2hwe-a1-m34-c3 2hwe-a1-m34-c3_2hwe-a1-m35-c3 2hwe-a1-m36-c3_2hwe-a1-m37-c3 2hwe-a1-m36-c3_2hwe-a1-m40-c3 2hwe-a1-m37-c3_2hwe-a1-m38-c3 2hwe-a1-m38-c3_2hwe-a1-m39-c3 2hwe-a1-m39-c3_2hwe-a1-m40-c3 2hwe-a1-m3-c3_2hwe-a1-m4-c3 2hwe-a1-m41-c3_2hwe-a1-m42-c3 2hwe-a1-m41-c3_2hwe-a1-m45-c3 2hwe-a1-m42-c3_2hwe-a1-m43-c3 2hwe-a1-m43-c3_2hwe-a1-m44-c3 2hwe-a1-m44-c3_2hwe-a1-m45-c3 2hwe-a1-m46-c3_2hwe-a1-m47-c3 2hwe-a1-m46-c3_2hwe-a1-m50-c3 2hwe-a1-m47-c3_2hwe-a1-m48-c3 2hwe-a1-m48-c3_2hwe-a1-m49-c3 2hwe-a1-m49-c3_2hwe-a1-m50-c3 2hwe-a1-m4-c3_2hwe-a1-m5-c3 2hwe-a1-m51-c3_2hwe-a1-m52-c3 2hwe-a1-m51-c3_2hwe-a1-m55-c3 2hwe-a1-m52-c3_2hwe-a1-m53-c3 2hwe-a1-m53-c3_2hwe-a1-m54-c3 2hwe-a1-m54-c3_2hwe-a1-m55-c3 2hwe-a1-m56-c3_2hwe-a1-m57-c3 2hwe-a1-m56-c3_2hwe-a1-m60-c3 2hwe-a1-m57-c3_2hwe-a1-m58-c3 2hwe-a1-m58-c3_2hwe-a1-m59-c3 2hwe-a1-m59-c3_2hwe-a1-m60-c3 2hwe-a1-m6-c3_2hwe-a1-m7-c3 2hwe-a1-m7-c3_2hwe-a1-m8-c3 2hwe-a1-m8-c3_2hwe-a1-m9-c3 2hwf-a1-m10-c3_2hwf-a1-m6-c3 2hwf-a1-m10-c3_2hwf-a1-m9-c3 2hwf-a1-m11-c3_2hwf-a1-m12-c3 2hwf-a1-m11-c3_2hwf-a1-m15-c3 2hwf-a1-m12-c3_2hwf-a1-m13-c3 2hwf-a1-m13-c3_2hwf-a1-m14-c3 2hwf-a1-m14-c3_2hwf-a1-m15-c3 2hwf-a1-m16-c3_2hwf-a1-m17-c3 2hwf-a1-m16-c3_2hwf-a1-m20-c3 2hwf-a1-m17-c3_2hwf-a1-m18-c3 2hwf-a1-m18-c3_2hwf-a1-m19-c3 2hwf-a1-m19-c3_2hwf-a1-m20-c3 2hwf-a1-m1-c3_2hwf-a1-m2-c3 2hwf-a1-m1-c3_2hwf-a1-m5-c3 2hwf-a1-m21-c3_2hwf-a1-m22-c3 2hwf-a1-m21-c3_2hwf-a1-m25-c3 2hwf-a1-m22-c3_2hwf-a1-m23-c3 2hwf-a1-m23-c3_2hwf-a1-m24-c3 2hwf-a1-m24-c3_2hwf-a1-m25-c3 2hwf-a1-m26-c3_2hwf-a1-m27-c3 2hwf-a1-m26-c3_2hwf-a1-m30-c3 2hwf-a1-m27-c3_2hwf-a1-m28-c3 2hwf-a1-m28-c3_2hwf-a1-m29-c3 2hwf-a1-m29-c3_2hwf-a1-m30-c3 2hwf-a1-m2-c3_2hwf-a1-m3-c3 2hwf-a1-m31-c3_2hwf-a1-m32-c3 2hwf-a1-m31-c3_2hwf-a1-m35-c3 2hwf-a1-m32-c3_2hwf-a1-m33-c3 2hwf-a1-m33-c3_2hwf-a1-m34-c3 2hwf-a1-m34-c3_2hwf-a1-m35-c3 2hwf-a1-m36-c3_2hwf-a1-m37-c3 2hwf-a1-m36-c3_2hwf-a1-m40-c3 2hwf-a1-m37-c3_2hwf-a1-m38-c3 2hwf-a1-m38-c3_2hwf-a1-m39-c3 2hwf-a1-m39-c3_2hwf-a1-m40-c3 2hwf-a1-m3-c3_2hwf-a1-m4-c3 2hwf-a1-m41-c3_2hwf-a1-m42-c3 2hwf-a1-m41-c3_2hwf-a1-m45-c3 2hwf-a1-m42-c3_2hwf-a1-m43-c3 2hwf-a1-m43-c3_2hwf-a1-m44-c3 2hwf-a1-m44-c3_2hwf-a1-m45-c3 2hwf-a1-m46-c3_2hwf-a1-m47-c3 2hwf-a1-m46-c3_2hwf-a1-m50-c3 2hwf-a1-m47-c3_2hwf-a1-m48-c3 2hwf-a1-m48-c3_2hwf-a1-m49-c3 2hwf-a1-m49-c3_2hwf-a1-m50-c3 2hwf-a1-m4-c3_2hwf-a1-m5-c3 2hwf-a1-m51-c3_2hwf-a1-m52-c3 2hwf-a1-m51-c3_2hwf-a1-m55-c3 2hwf-a1-m52-c3_2hwf-a1-m53-c3 2hwf-a1-m53-c3_2hwf-a1-m54-c3 2hwf-a1-m54-c3_2hwf-a1-m55-c3 2hwf-a1-m56-c3_2hwf-a1-m57-c3 2hwf-a1-m56-c3_2hwf-a1-m60-c3 2hwf-a1-m57-c3_2hwf-a1-m58-c3 2hwf-a1-m58-c3_2hwf-a1-m59-c3 2hwf-a1-m59-c3_2hwf-a1-m60-c3 2hwf-a1-m6-c3_2hwf-a1-m7-c3 2hwf-a1-m7-c3_2hwf-a1-m8-c3 2hwf-a1-m8-c3_2hwf-a1-m9-c3 GLPVYITPGSGQFMTTDDMQSPCALPWYHPTKEISIPGEVKNLIEMCQVDTLIPVNNVGNNVGNVSMYTVQLGNQTGMAQKVFSIKVDITSTPLATTLIGEIASYYTHWTGSLRFSFMFCGTANTTLKLLLAYTPPGIDEPTTRKDAMLGTHVVWDVGLQSTISLVVPWVSASHFRLTADNKYSMAGYITCWYQTNLVVPPSTPQTADMLCFVSACKDFCLRMARDTDLHIQSGPIEQ GLPVYITPGSGQFMTTDDMQSPCALPWYHPTKEISIPGEVKNLIEMCQVDTLIPVNNVGNNVGNVSMYTVQLGNQTGMAQKVFSIKVDITSTPLATTLIGEIASYYTHWTGSLRFSFMFCGTANTTLKLLLAYTPPGIDEPTTRKDAMLGTHVVWDVGLQSTISLVVPWVSASHFRLTADNKYSMAGYITCWYQTNLVVPPSTPQTADMLCFVSACKDFCLRMARDTDLHIQSGPIEQ 1r1d-a1-m1-cA_1r1d-a1-m1-cB Structure of a Carboxylesterase from Bacillus stearothermophilus Q06174 Q06174 2 X-RAY DIFFRACTION 19 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 234 234 PPKPFFFEAGERAVLLLHGFTGNSADVRLGRFLESKGYTCHAPIYKGHGVPPEELVHTGPDDWWQDVNGYQFLKNKGYEKIAVAGLSLGGVFSLKLGYTVPIEGIVTCAPYIKSEETYEGVLEYAREYKKREGKSEEQIEQEERFKQTPKTLKALQELIADVRAHLDLVYAPTFVVQARHDEINPDSANIIYNEIESPVKQIKWYEQSGHVITLDQEKDQLHEDIYAFLESLDW PPKPFFFEAGERAVLLLHGFTGNSADVRLGRFLESKGYTCHAPIYKGHGVPPEELVHTGPDDWWQDVNGYQFLKNKGYEKIAVAGLSLGGVFSLKLGYTVPIEGIVTCAPYIKSEETYEGVLEYAREYKKREGKSEEQIEQEERFKQTPKTLKALQELIADVRAHLDLVYAPTFVVQARHDEINPDSANIIYNEIESPVKQIKWYEQSGHVITLDQEKDQLHEDIYAFLESLDW 1r1l-a1-m1-cC_1r1l-a1-m1-cI Structure of dimeric antithrombin complexed with a P14-P9 reactive loop peptide and an exogenous tripeptide (formyl-norleucine-LF) P01008 2.7 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 6 416 SEAAAS VDICTAKPRDIPMNPMCIYRSPEKKPEATNRRVWELSKANSRFATTFYQHLADSKNDNDNIFLSPLSISTAFAMTKLGACNDTLQQLMEVFKFDTISEKTSDQIHFFFAKLNCRLYRKANKSSKLVSANRLFGDKSLTFNETYQDISELVYGAKLQPLDFKENAEQSRAAINKWVSNKTEGRITDVIPSEAINELTVLVLVNTIYFKGLWKSKFSPENTRKELFYKADGESCSASMMYQEGKFRYRRVAEGTQVLELPFKGDDITMVLILPKPEKSLAKVEKELTPEVLQEWLDELEEMMLVVHMPRFRIEDGFSLKEQLQDMGLVDLFSPEKSKLPGIVAEGRDDLYVSDAFHKAFLEVNEEGSEAAASTAVVIAGRSLNPNRVTFKANRPFLVFIREVPLNTIIFMGRVANPCV 1r1l-a1-m1-cD_1r1l-a1-m1-cI Structure of dimeric antithrombin complexed with a P14-P9 reactive loop peptide and an exogenous tripeptide (formyl-norleucine-LF) P01008 2.7 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 2 416 1lk6-a1-m1-cD_1lk6-a1-m1-cI LF VDICTAKPRDIPMNPMCIYRSPEKKPEATNRRVWELSKANSRFATTFYQHLADSKNDNDNIFLSPLSISTAFAMTKLGACNDTLQQLMEVFKFDTISEKTSDQIHFFFAKLNCRLYRKANKSSKLVSANRLFGDKSLTFNETYQDISELVYGAKLQPLDFKENAEQSRAAINKWVSNKTEGRITDVIPSEAINELTVLVLVNTIYFKGLWKSKFSPENTRKELFYKADGESCSASMMYQEGKFRYRRVAEGTQVLELPFKGDDITMVLILPKPEKSLAKVEKELTPEVLQEWLDELEEMMLVVHMPRFRIEDGFSLKEQLQDMGLVDLFSPEKSKLPGIVAEGRDDLYVSDAFHKAFLEVNEEGSEAAASTAVVIAGRSLNPNRVTFKANRPFLVFIREVPLNTIIFMGRVANPCV 1r1l-a1-m1-cL_1r1l-a1-m1-cI Structure of dimeric antithrombin complexed with a P14-P9 reactive loop peptide and an exogenous tripeptide (formyl-norleucine-LF) P01008 P01008 2.7 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 409 416 1ant-a1-m1-cL_1ant-a1-m1-cI 1ath-a1-m1-cB_1ath-a1-m1-cA 1br8-a3-m2-cL_1br8-a3-m1-cI 1jvq-a1-m1-cL_1jvq-a1-m1-cI 1lk6-a1-m1-cL_1lk6-a1-m1-cI 2b4x-a1-m1-cL_2b4x-a1-m1-cI 2beh-a1-m1-cL_2beh-a1-m1-cI 3evj-a1-m1-cI_3evj-a1-m1-cL VDICTAKPRDIPMNPMCIYEATNRRVWELSKANSRFATTFYQHLADSKNDNDNIFLSPLSISTAFAMTKLGACNDTLQQLMEVFKFDTISEKTSDQIHFFFAKLNCRLYRKANKSSKLVSANRLFGDKSLTFNETYQDISELVYGAKLQPLDFKENAEQSRAAINKWVSNKTEGRITDVIPSEAINELTVLVLVNTIYFKGLWKSKFSPENTRKELFYKADGESCSASMMYQEGKFRYRRVAEGTQVLELPFKGDDITMVLILPKPEKSLAKVEKELTPEVLQEWLDELEEMMLVVHMPRFRIEDGFSLKEQLQDMGLVDLFSPEKSKLPGIVAEGRDDLYVSDAFHKAFLEVNEEGSEAAASTAVVIAGRSLNPNRVTFKANRPFLVFIREVPLNTIIFMGRVANPCV VDICTAKPRDIPMNPMCIYRSPEKKPEATNRRVWELSKANSRFATTFYQHLADSKNDNDNIFLSPLSISTAFAMTKLGACNDTLQQLMEVFKFDTISEKTSDQIHFFFAKLNCRLYRKANKSSKLVSANRLFGDKSLTFNETYQDISELVYGAKLQPLDFKENAEQSRAAINKWVSNKTEGRITDVIPSEAINELTVLVLVNTIYFKGLWKSKFSPENTRKELFYKADGESCSASMMYQEGKFRYRRVAEGTQVLELPFKGDDITMVLILPKPEKSLAKVEKELTPEVLQEWLDELEEMMLVVHMPRFRIEDGFSLKEQLQDMGLVDLFSPEKSKLPGIVAEGRDDLYVSDAFHKAFLEVNEEGSEAAASTAVVIAGRSLNPNRVTFKANRPFLVFIREVPLNTIIFMGRVANPCV 1r1s-a5-m1-cA_1r1s-a5-m1-cE Structural Basis for Differential Recognition of Tyrosine Phosphorylated Sites in the Linker for Activation of T cells (LAT) by the Adaptor Protein Gads O89100 O89100 1.9 X-RAY DIFFRACTION 67 1.0 10090 (Mus musculus) 10090 (Mus musculus) 96 99 1r1q-a3-m2-cA_1r1q-a3-m1-cB 1r1s-a6-m1-cC_1r1s-a6-m1-cG DIEFPEWFHEGLSRHQAENLLMGKDIGFFIIRASQSSPGDFSISVRHEDDVQHFKVMRDTKGNYFLWTEKFPSLNKLVDYYRTTSISKQKQVFLRD SFIDIEFPEWFHEGLSRHQAENLLMGKDIGFFIIRASQSSPGDFSISVRHEDDVQHFKVMRDTKGNYFLWTEKFPSLNKLVDYYRTTSISKQKQVFLRD 1r1v-a3-m2-cA_1r1v-a3-m2-cB Crystal structure of the metal-sensing transcriptional repressor CzrA from Staphylococcus aureus in the Zn2-form O85142 O85142 2.3 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 95 96 1r1v-a3-m1-cA_1r1v-a3-m1-cB NTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSVHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPKE NTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSVHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPKES 1r23-a1-m1-cB_1r23-a1-m1-cA Crystal structure of the cyanobacterial metallothionein repressor SmtB in the Zn1-form (one Zn(II) per dimer) P30340 P30340 2 X-RAY DIFFRACTION 150 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 97 104 1r22-a1-m1-cA_1r22-a1-m1-cB 1smt-a1-m1-cA_1smt-a1-m1-cB LQAIAPEVAQSLAEFFAVLADPNRLRLLSLLARSELCVGDLAQAIGVSESAVSHQLRSLRNLRLVSYRKQGRHVYYQLQDHHIVALYQNALDHLQEC HAAIASELQAIAPEVAQSLAEFFAVLADPNRLRLLSLLARSELCVGDLAQAIGVSESAVSHQLRSLRNLRLVSYRKQGRHVYYQLQDHHIVALYQNALDHLQEC 1r24-a1-m1-cA_1r24-a1-m1-cC FAB FROM MURINE IGG3 KAPPA 3.1 X-RAY DIFFRACTION 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 206 206 DIQMTQITSSLSVSLGDRVIISCRASQDIGNFLNWYQQKPDGSLKLLIYYTSRLQSGVPSRFSGWGSGTDYSLTISNLEEEDIATFFCQQGKTLPYTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIV DIQMTQITSSLSVSLGDRVIISCRASQDIGNFLNWYQQKPDGSLKLLIYYTSRLQSGVPSRFSGWGSGTDYSLTISNLEEEDIATFFCQQGKTLPYTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIV 1r27-a4-m2-cB_1r27-a4-m8-cD Crystal Structure of NarGH complex P11349 P11349 2 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 465 465 1r27-a3-m1-cB_1r27-a3-m7-cD 1r27-a3-m2-cB_1r27-a3-m8-cD 1r27-a3-m3-cB_1r27-a3-m5-cD 1r27-a3-m4-cB_1r27-a3-m6-cD 1r27-a4-m1-cB_1r27-a4-m7-cD MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQEKYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKSQPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVFLDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAETVDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHREL MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQEKYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKSQPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVFLDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAETVDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHREL 1r2f-a1-m1-cB_1r2f-a1-m1-cA RIBONUCLEOTIDE REDUCTASE R2F PROTEIN FROM SALMONELLA TYPHIMURIUM P17424 P17424 2.1 X-RAY DIFFRACTION 126 1.0 281 283 2bq1-a1-m1-cJ_2bq1-a1-m1-cI 2r2f-a1-m1-cB_2r2f-a1-m1-cA ISAINWNKIQDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLSAAEQQLTIRVFTGLTLLDTIQNIAGAPSLMADAITPHEEAVLSNISFMEAVHARSYSSIFSTLCQTKEVDAAYAWSEENPPLQRKAQIILAHYVSDEPLKKKIASVFLESFLFYSGFWLPMYFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQIALQKLSAIEREELKLFALDLLMELYDNEIRYTEALYAETGWVNDVKAFLCYNANKALMNLGYEALFPPEMADVNPAILAAL ISAINWNKIQDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLSAAEQQLTIRVFTGLTLLDTIQNIAGAPSLMADAITPHEEAVLSNISFMEAVHARSYSSIFSTLCQTKEVDAAYAWSEENPPLQRKAQIILAHYVSDEPLKKKIASVFLESFLFYSGFWLPMYFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQIALQKLSAIEREELKLFALDLLMELYDNEIRYTEALYAETGWVNDVKAFLCYNANKALMNLGYEALFPPEMADVNPAILAALSP 1r30-a1-m1-cA_1r30-a1-m1-cB The Crystal Structure of Biotin Synthase, an S-Adenosylmethionine-Dependent Radical Enzyme P12996 P12996 3.4 X-RAY DIFFRACTION 74 1.0 562 (Escherichia coli) 562 (Escherichia coli) 312 313 RPRWTLSQVTELFEKPLLDLLFEAQQVHRQHFDPRQVQVSTLLSIKTGACPEDCKYCPQSSRYKTGLEAERLMEVEQVLESARKAKAAGSTRFCMGAAWKNPHERDMPYLEQMVQGVKAMGLEACMTLGTLSESQAQRLANAGLDYYNHNLDTSPEFYGNIITTRTYQERLDTLEKVRDAGIKVCSGGIVGLGETVKDRAGLLLQLANLPTPPESVPINMLVKVKGTPLADNDDVDAFDFIRTIAVARIMMPTSYVRLSAGREQMNEQTQAMCFMAGANSIFYGCKLLTTPNPEEDKDLQLFRKLGLNPQQT HRPRWTLSQVTELFEKPLLDLLFEAQQVHRQHFDPRQVQVSTLLSIKTGACPEDCKYCPQSSRYKTGLEAERLMEVEQVLESARKAKAAGSTRFCMGAAWKNPHERDMPYLEQMVQGVKAMGLEACMTLGTLSESQAQRLANAGLDYYNHNLDTSPEFYGNIITTRTYQERLDTLEKVRDAGIKVCSGGIVGLGETVKDRAGLLLQLANLPTPPESVPINMLVKVKGTPLADNDDVDAFDFIRTIAVARIMMPTSYVRLSAGREQMNEQTQAMCFMAGANSIFYGCKLLTTPNPEEDKDLQLFRKLGLNPQQT 1r31-a3-m1-cA_1r31-a3-m4-cA HMG-CoA reductase from Pseudomonas mevalonii complexed with HMG-CoA P13702 P13702 2.1 X-RAY DIFFRACTION 42 1.0 32044 (Pseudomonas sp. 'mevalonii') 32044 (Pseudomonas sp. 'mevalonii') 376 376 1r7i-a3-m1-cA_1r7i-a3-m4-cA LDSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALATEGIQ LDSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALATEGIQ 1r31-a3-m1-cB_1r31-a3-m4-cB HMG-CoA reductase from Pseudomonas mevalonii complexed with HMG-CoA P13702 P13702 2.1 X-RAY DIFFRACTION 12 1.0 32044 (Pseudomonas sp. 'mevalonii') 32044 (Pseudomonas sp. 'mevalonii') 375 375 1r7i-a3-m1-cB_1r7i-a3-m4-cB LDSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALATEGI LDSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALATEGI 1r3n-a3-m1-cE_1r3n-a3-m1-cF Crystal structure of beta-alanine synthase from Saccharomyces kluyveri Q96W94 Q96W94 2.7 X-RAY DIFFRACTION 177 1.0 4934 (Lachancea kluyveri) 4934 (Lachancea kluyveri) 433 438 1r3n-a1-m1-cB_1r3n-a1-m1-cA 1r3n-a2-m1-cD_1r3n-a2-m1-cC 1r3n-a4-m1-cG_1r3n-a4-m1-cH 1r43-a1-m1-cB_1r43-a1-m1-cA 2v8d-a1-m1-cB_2v8d-a1-m1-cA 2v8v-a1-m1-cB_2v8v-a1-m1-cA 2v8v-a2-m1-cC_2v8v-a2-m1-cD PAAAPLSIASGRLNQTILETGSQFGGVARWGQESHEFGMRRLAGTALDGAMRDWFTNECESLGCKVKVDKIGNMFAVYPGKNGGKPTATGSHLDTQPEAGKYDGILGVLAGLEVLRTFKDNNYVPNYDVCVVVWFNEEGARFARSCTGSSVWSHDLSLEEAYGLMSVGEDKPESVYDSLKNIGYIGDTPASYKENEIDAHFELHIEQGPILEDENKAIGIVTGVQAYNWQKVTVHGVGAHAGTTPWRLRKDALLMSSKMIVAASEIAQRHNGLFTCGIIDAKPYSVNIIPGEVSFTLDFRHPSDDVLATMLKEAAAEFDRLIKINDGGALSYESETLQVSPAVNFHEVCIECVSRSAFAQFKKDQVRQIWSGAGHDSCQTAPHVPTSMIFIPSKDGLSHNYYEYSSPEEIENGFKVLLQAIINYDNYRVIRGH GTLNLPAAAPLSIASGRLNQTILETGSQFGGVARWGQESHEFGMRRLAGTALDGAMRDWFTNECESLGCKVKVDKIGNMFAVYPGKNGGKPTATGSHLDTQPEAGKYDGILGVLAGLEVLRTFKDNNYVPNYDVCVVVWFNEEGARFARSCTGSSVWSHDLSLEEAYGLMSVGEDKPESVYDSLKNIGYIGDTPASYKENEIDAHFELHIEQGPILEDENKAIGIVTGVQAYNWQKVTVHGVGAHAGTTPWRLRKDALLMSSKMIVAASEIAQRHNGLFTCGIIDAKPYSVNIIPGEVSFTLDFRHPSDDVLATMLKEAAAEFDRLIKINDGGALSYESETLQVSPAVNFHEVCIECVSRSAFAQFKKDQVRQIWSGAGHDSCQTAPHVPTSMIFIPSKDGLSHNYYEYSSPEEIENGFKVLLQAIINYDNYRVIRGH 1r3s-a1-m1-cA_1r3s-a1-m2-cA Uroporphyrinogen Decarboxylase single mutant D86G in complex with coproporphyrinogen-I P06132 P06132 1.65 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 1r3q-a1-m1-cA_1r3q-a1-m2-cA 1r3r-a1-m1-cA_1r3r-a1-m2-cA 1r3t-a1-m1-cA_1r3t-a1-m2-cA 1r3v-a1-m1-cA_1r3v-a1-m2-cA 1r3w-a1-m1-cA_1r3w-a1-m2-cA 1r3y-a1-m1-cA_1r3y-a1-m2-cA FPELKNDTFLRAAWGEETDYTPVWCMRQAGRYLPEFRETRAAQDFFSTCRSPEACCELTLQPLRRFPLDAAIIFSGILVVPQALGMEVTMVPGKGPSFPEPLREEQDLERLRDPEVVASELGYVFQAITLTRQRLAGRVPLIGFAGAPWTLMTYMVEGGGSSTMAQAKRWLYQRPQASHQLLRILTDALVPYLVGQVVAGAQALQLFESHAGHLGPQLFNKFALPYIRDVAKQVKARLREAGLAPVPMIIFAKDGHFALEELAQAGYEVVGLDWTVAPKKARECVGKTVTLQGNLDPCALYASEEEIGQLVKQMLDDFGPHRYIANLGHGLYPDMDPEHVGAFVDAVHKHSRLLRQ FPELKNDTFLRAAWGEETDYTPVWCMRQAGRYLPEFRETRAAQDFFSTCRSPEACCELTLQPLRRFPLDAAIIFSGILVVPQALGMEVTMVPGKGPSFPEPLREEQDLERLRDPEVVASELGYVFQAITLTRQRLAGRVPLIGFAGAPWTLMTYMVEGGGSSTMAQAKRWLYQRPQASHQLLRILTDALVPYLVGQVVAGAQALQLFESHAGHLGPQLFNKFALPYIRDVAKQVKARLREAGLAPVPMIIFAKDGHFALEELAQAGYEVVGLDWTVAPKKARECVGKTVTLQGNLDPCALYASEEEIGQLVKQMLDDFGPHRYIANLGHGLYPDMDPEHVGAFVDAVHKHSRLLRQ 1r45-a5-m1-cB_1r45-a5-m2-cA ADP-ribosyltransferase C3bot2 from Clostridium botulinum, triclinic form Q00901 Q00901 1.57 X-RAY DIFFRACTION 43 1.0 12336 (Clostridium phage c-st) 12336 (Clostridium phage c-st) 201 201 DTFTEFTNVEEAKKWGNAQYKKYGLSKPEQEAIKFYTRDASKINGPLRANQGNENGLPADILQKVKLIDQSFSKMKMPQNIILFRGDDPAYLGPEFQDKILNKDGTINKTVFEQVKAKFLKKDRTEYGYISTSLMSAQFGGRPIVTKFKVTNGSKGGYIDPISYFPGQLEVLLPRNNSYYISDMQISPNNRQIMITAMIFK DTFTEFTNVEEAKKWGNAQYKKYGLSKPEQEAIKFYTRDASKINGPLRANQGNENGLPADILQKVKLIDQSFSKMKMPQNIILFRGDDPAYLGPEFQDKILNKDGTINKTVFEQVKAKFLKKDRTEYGYISTSLMSAQFGGRPIVTKFKVTNGSKGGYIDPISYFPGQLEVLLPRNNSYYISDMQISPNNRQIMITAMIFK 1r48-a1-m1-cA_1r48-a1-m1-cB Solution structure of the C-terminal cytoplasmic domain residues 468-497 of Escherichia coli protein ProP P0C0L7 P0C0L7 NOT SOLUTION NMR 47 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 33 33 CGGDNIEQKIDDIDHEIADLQAKRTRLVQQHPR CGGDNIEQKIDDIDHEIADLQAKRTRLVQQHPR 1r4a-a1-m1-cF_1r4a-a1-m1-cH Crystal Structure of GTP-bound ADP-ribosylation Factor Like Protein 1 (Arl1) and GRIP Domain of Golgin245 COMPLEX Q13439 Q13439 2.3 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 1r4a-a1-m1-cE_1r4a-a1-m1-cG PTEFEYLRKVLFEYMMGRETKTMAKVITTVLKFPDDQTQKILEREDARLMF PTEFEYLRKVLFEYMMGRETKTMAKVITTVLKFPDDQTQKILEREDARLMF 1r4c-a8-m1-cC_1r4c-a8-m5-cH N-Truncated Human Cystatin C; Dimeric Form With 3D Domain Swapping P01034 P01034 2.18 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 1r4c-a7-m1-cB_1r4c-a7-m4-cE GGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA GGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 1r4c-a8-m1-cD_1r4c-a8-m5-cG N-Truncated Human Cystatin C; Dimeric Form With 3D Domain Swapping P01034 P01034 2.18 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 1r4c-a7-m1-cA_1r4c-a7-m4-cF GGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA GGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 1r4c-a8-m1-cD_1r4c-a8-m5-cH N-Truncated Human Cystatin C; Dimeric Form With 3D Domain Swapping P01034 P01034 2.18 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 1r4c-a7-m1-cA_1r4c-a7-m4-cE GGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA GGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 1r4i-a1-m1-cB_1r4i-a1-m1-cA Crystal Structure of Androgen Receptor DNA-Binding Domain Bound to a Direct Repeat Response Element P15207 P15207 3.1 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 71 74 KTCLICGDEASGAHYGALTCGSCKVFFKRAAEGKQKYLCASRNDCTIDKFRRKNCPSCRLRKCYEAGMTLG PQKTCLICGDEASGAHYGALTCGSCKVFFKRAAEGKQKYLCASRNDCTIDKFRRKNCPSCRLRKCYEAGMTLGA 1r4q-a3-m1-cD_1r4q-a3-m1-cH Shiga toxin Q7BQ98 Q7BQ98 2.5 X-RAY DIFFRACTION 15 1.0 622 (Shigella dysenteriae) 622 (Shigella dysenteriae) 69 69 1dm0-a3-m1-cB_1dm0-a3-m1-cI 1dm0-a3-m1-cC_1dm0-a3-m1-cH 1dm0-a3-m1-cD_1dm0-a3-m1-cG 1dm0-a3-m1-cE_1dm0-a3-m1-cK 1dm0-a3-m1-cF_1dm0-a3-m1-cJ 1r4q-a3-m1-cB_1r4q-a3-m1-cJ 1r4q-a3-m1-cC_1r4q-a3-m1-cI 1r4q-a3-m1-cE_1r4q-a3-m1-cG 1r4q-a3-m1-cF_1r4q-a3-m1-cK TPDCVTGKVEYTKYNDDDTFTVKVGDKELFTNRWNLQSLLLSAQITGMTVTIKTNACHNGGGFSEVIFR TPDCVTGKVEYTKYNDDDTFTVKVGDKELFTNRWNLQSLLLSAQITGMTVTIKTNACHNGGGFSEVIFR 1r4w-a2-m1-cC_1r4w-a2-m1-cD Crystal structure of Mitochondrial class kappa glutathione transferase P24473 P24473 2.5 X-RAY DIFFRACTION 74 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 221 221 1r4w-a1-m1-cA_1r4w-a1-m1-cB GPAPRVLELFYDVLSPYSWLGFEVLCRYQHLWNIKLKLRPALLAGIMKDSGNQPPAMVPHKGQYILKEIPLLKQLFQVPMSVPKDFFGEHVKKGTVNAMRFLTAVSMEQPEMLEKVSRELWMRIWSRDEDITESQNILSAAEKAGMATAQAQHLLNKISTELVKSKLRETTGAACKYGAFGLPTTVAHVDGKTYMLFGSDRMELLAYLLGEKWMGPVPPTL GPAPRVLELFYDVLSPYSWLGFEVLCRYQHLWNIKLKLRPALLAGIMKDSGNQPPAMVPHKGQYILKEIPLLKQLFQVPMSVPKDFFGEHVKKGTVNAMRFLTAVSMEQPEMLEKVSRELWMRIWSRDEDITESQNILSAAEKAGMATAQAQHLLNKISTELVKSKLRETTGAACKYGAFGLPTTVAHVDGKTYMLFGSDRMELLAYLLGEKWMGPVPPTL 1r53-a1-m1-cA_1r53-a1-m4-cA Crystal structure of the bifunctional chorismate synthase from Saccharomyces cerevisiae P28777 P28777 2.2 X-RAY DIFFRACTION 46 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 287 287 1r52-a1-m1-cA_1r52-a1-m1-cC 1r52-a1-m1-cB_1r52-a1-m1-cD 1r53-a1-m2-cA_1r53-a1-m3-cA MSTFGKLFRVTTYGESHCKSVGCIVDGVPPGMSLTEADIQPQLTRRRPDRVEIQSGTEFGKTLGTPIAMMIKNRETIGRVASGAIAEKFLAQNSNVEIVAFVTQIGEIKMNRDSFDPEFQHLLNTITREKVDSMGPIRCPDASVAGLMVKEIEKYRGNKDSIGGVVTCVVRNLPTGLGEPCFDKLEAMLAHAMLSIPASKGFEIGSGFQGVSVPGSKHNDPFYRTKTNNSGGVQGGISNGENIYFSVPFKSVRHDPAVTPRAIPIVEAMTALVLADALLIQKARDFS MSTFGKLFRVTTYGESHCKSVGCIVDGVPPGMSLTEADIQPQLTRRRPDRVEIQSGTEFGKTLGTPIAMMIKNRETIGRVASGAIAEKFLAQNSNVEIVAFVTQIGEIKMNRDSFDPEFQHLLNTITREKVDSMGPIRCPDASVAGLMVKEIEKYRGNKDSIGGVVTCVVRNLPTGLGEPCFDKLEAMLAHAMLSIPASKGFEIGSGFQGVSVPGSKHNDPFYRTKTNNSGGVQGGISNGENIYFSVPFKSVRHDPAVTPRAIPIVEAMTALVLADALLIQKARDFS 1r53-a1-m2-cA_1r53-a1-m4-cA Crystal structure of the bifunctional chorismate synthase from Saccharomyces cerevisiae P28777 P28777 2.2 X-RAY DIFFRACTION 104 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 287 287 1r52-a1-m1-cB_1r52-a1-m1-cC 1r52-a1-m1-cD_1r52-a1-m1-cA 1r53-a1-m1-cA_1r53-a1-m3-cA MSTFGKLFRVTTYGESHCKSVGCIVDGVPPGMSLTEADIQPQLTRRRPDRVEIQSGTEFGKTLGTPIAMMIKNRETIGRVASGAIAEKFLAQNSNVEIVAFVTQIGEIKMNRDSFDPEFQHLLNTITREKVDSMGPIRCPDASVAGLMVKEIEKYRGNKDSIGGVVTCVVRNLPTGLGEPCFDKLEAMLAHAMLSIPASKGFEIGSGFQGVSVPGSKHNDPFYRTKTNNSGGVQGGISNGENIYFSVPFKSVRHDPAVTPRAIPIVEAMTALVLADALLIQKARDFS MSTFGKLFRVTTYGESHCKSVGCIVDGVPPGMSLTEADIQPQLTRRRPDRVEIQSGTEFGKTLGTPIAMMIKNRETIGRVASGAIAEKFLAQNSNVEIVAFVTQIGEIKMNRDSFDPEFQHLLNTITREKVDSMGPIRCPDASVAGLMVKEIEKYRGNKDSIGGVVTCVVRNLPTGLGEPCFDKLEAMLAHAMLSIPASKGFEIGSGFQGVSVPGSKHNDPFYRTKTNNSGGVQGGISNGENIYFSVPFKSVRHDPAVTPRAIPIVEAMTALVLADALLIQKARDFS 1r53-a1-m3-cA_1r53-a1-m4-cA Crystal structure of the bifunctional chorismate synthase from Saccharomyces cerevisiae P28777 P28777 2.2 X-RAY DIFFRACTION 194 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 287 287 1r52-a1-m1-cB_1r52-a1-m1-cA 1r52-a1-m1-cD_1r52-a1-m1-cC 1r53-a1-m1-cA_1r53-a1-m2-cA MSTFGKLFRVTTYGESHCKSVGCIVDGVPPGMSLTEADIQPQLTRRRPDRVEIQSGTEFGKTLGTPIAMMIKNRETIGRVASGAIAEKFLAQNSNVEIVAFVTQIGEIKMNRDSFDPEFQHLLNTITREKVDSMGPIRCPDASVAGLMVKEIEKYRGNKDSIGGVVTCVVRNLPTGLGEPCFDKLEAMLAHAMLSIPASKGFEIGSGFQGVSVPGSKHNDPFYRTKTNNSGGVQGGISNGENIYFSVPFKSVRHDPAVTPRAIPIVEAMTALVLADALLIQKARDFS MSTFGKLFRVTTYGESHCKSVGCIVDGVPPGMSLTEADIQPQLTRRRPDRVEIQSGTEFGKTLGTPIAMMIKNRETIGRVASGAIAEKFLAQNSNVEIVAFVTQIGEIKMNRDSFDPEFQHLLNTITREKVDSMGPIRCPDASVAGLMVKEIEKYRGNKDSIGGVVTCVVRNLPTGLGEPCFDKLEAMLAHAMLSIPASKGFEIGSGFQGVSVPGSKHNDPFYRTKTNNSGGVQGGISNGENIYFSVPFKSVRHDPAVTPRAIPIVEAMTALVLADALLIQKARDFS 1r5a-a1-m1-cA_1r5a-a1-m2-cA Glutathione S-transferase Q9GQG7 Q9GQG7 2.5 X-RAY DIFFRACTION 76 1.0 123217 (Anopheles cracens) 123217 (Anopheles cracens) 214 214 TTVLYYLPASPPCRSVLLLAKMIGVELDLKVLNIMEGEQLKPDFVELNPQHCIPTMDDHGLVLWESRVILSYLVSAYGKDENLYPKDFRSRAIVDQRLHFDLGTLYQRVVDYYFPTIHLGAHLDQTKKAKLAEALGWFEAMLKQYQWSAANHFTIADIALCVTVSQIEAFQFDLHPYPRVRAWLLKCKDELEGHGYKEINETGAETLAGLFRSK TTVLYYLPASPPCRSVLLLAKMIGVELDLKVLNIMEGEQLKPDFVELNPQHCIPTMDDHGLVLWESRVILSYLVSAYGKDENLYPKDFRSRAIVDQRLHFDLGTLYQRVVDYYFPTIHLGAHLDQTKKAKLAEALGWFEAMLKQYQWSAANHFTIADIALCVTVSQIEAFQFDLHPYPRVRAWLLKCKDELEGHGYKEINETGAETLAGLFRSK 1r5j-a2-m1-cB_1r5j-a2-m2-cB Crystal Structure of a Phosphotransacetylase from Streptococcus pyogenes Q99ZQ5 Q99ZQ5 2.7 X-RAY DIFFRACTION 33 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 319 319 1r5j-a2-m1-cA_1r5j-a2-m2-cA SIRSLFGGLREKILGKNKIVFPEGNDERVVRAAARLKFEGLLEPIILGQSEEVRNLLTKLGFADQDYTIINPNEYADFDKKEAFVEVRKGKATLEDADKLRDVNYFGVLVKGLADGVSGAIHSTADTVRPALQIIKTKPGISRTSGVFLNRENTSERYVFADCAINIDPTAQELAEIAVNTAETAKIFDIDPKIALSFSTKGSGKAPQVDKVREATEIATGLNPDLALDGELQFDAAFVPETAAIKAPDSAVAGQANTFVFPDLQSGNIGYKIAQRLGFDAIGPILQGLNKPVNDLSRGSSAEDIYKLAIITAAQAIES SIRSLFGGLREKILGKNKIVFPEGNDERVVRAAARLKFEGLLEPIILGQSEEVRNLLTKLGFADQDYTIINPNEYADFDKKEAFVEVRKGKATLEDADKLRDVNYFGVLVKGLADGVSGAIHSTADTVRPALQIIKTKPGISRTSGVFLNRENTSERYVFADCAINIDPTAQELAEIAVNTAETAKIFDIDPKIALSFSTKGSGKAPQVDKVREATEIATGLNPDLALDGELQFDAAFVPETAAIKAPDSAVAGQANTFVFPDLQSGNIGYKIAQRLGFDAIGPILQGLNKPVNDLSRGSSAEDIYKLAIITAAQAIES 1r5j-a2-m2-cA_1r5j-a2-m2-cB Crystal Structure of a Phosphotransacetylase from Streptococcus pyogenes Q99ZQ5 Q99ZQ5 2.7 X-RAY DIFFRACTION 110 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 319 319 1r5j-a1-m1-cA_1r5j-a1-m1-cB 1r5j-a2-m1-cA_1r5j-a2-m1-cB SIRSLFGGLREKILGKNKIVFPEGNDERVVRAAARLKFEGLLEPIILGQSEEVRNLLTKLGFADQDYTIINPNEYADFDKKEAFVEVRKGKATLEDADKLRDVNYFGVLVKGLADGVSGAIHSTADTVRPALQIIKTKPGISRTSGVFLNRENTSERYVFADCAINIDPTAQELAEIAVNTAETAKIFDIDPKIALSFSTKGSGKAPQVDKVREATEIATGLNPDLALDGELQFDAAFVPETAAIKAPDSAVAGQANTFVFPDLQSGNIGYKIAQRLGFDAIGPILQGLNKPVNDLSRGSSAEDIYKLAIITAAQAIES SIRSLFGGLREKILGKNKIVFPEGNDERVVRAAARLKFEGLLEPIILGQSEEVRNLLTKLGFADQDYTIINPNEYADFDKKEAFVEVRKGKATLEDADKLRDVNYFGVLVKGLADGVSGAIHSTADTVRPALQIIKTKPGISRTSGVFLNRENTSERYVFADCAINIDPTAQELAEIAVNTAETAKIFDIDPKIALSFSTKGSGKAPQVDKVREATEIATGLNPDLALDGELQFDAAFVPETAAIKAPDSAVAGQANTFVFPDLQSGNIGYKIAQRLGFDAIGPILQGLNKPVNDLSRGSSAEDIYKLAIITAAQAIES 1r5p-a2-m1-cA_1r5p-a2-m2-cA Crystal Structure Analysis of KaiB from PCC7120 Q8YT41 Q8YT41 2.2 X-RAY DIFFRACTION 30 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 90 90 1vgl-a1-m1-cB_1vgl-a1-m2-cB 1vgl-a2-m1-cD_1vgl-a2-m3-cD 2qke-a1-m2-cF_2qke-a1-m1-cB 2qke-a2-m1-cD_2qke-a2-m3-cD TYVLKLYVAGNTPNSVRALKTLKNILEQEFQGIYALKVIDVLKNPQLAEEDKILATPTLSKILPPPVRKIIGDLSDRERVLIGLDLLYEE TYVLKLYVAGNTPNSVRALKTLKNILEQEFQGIYALKVIDVLKNPQLAEEDKILATPTLSKILPPPVRKIIGDLSDRERVLIGLDLLYEE 1r5p-a2-m2-cA_1r5p-a2-m2-cB Crystal Structure Analysis of KaiB from PCC7120 Q8YT41 Q8YT41 2.2 X-RAY DIFFRACTION 69 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 90 93 1r5p-a1-m1-cA_1r5p-a1-m1-cB 1r5p-a2-m1-cA_1r5p-a2-m1-cB 1vgl-a1-m1-cA_1vgl-a1-m1-cB 1vgl-a1-m2-cA_1vgl-a1-m2-cB 2qke-a1-m1-cA_2qke-a1-m1-cB 2qke-a2-m1-cC_2qke-a2-m1-cD 2qke-a2-m3-cC_2qke-a2-m3-cD 2qke-a3-m1-cA_2qke-a3-m1-cB 2qke-a4-m1-cC_2qke-a4-m1-cD TYVLKLYVAGNTPNSVRALKTLKNILEQEFQGIYALKVIDVLKNPQLAEEDKILATPTLSKILPPPVRKIIGDLSDRERVLIGLDLLYEE KTYVLKLYVAGNTPNSVRALKTLKNILEQEFQGIYALKVIDVLKNPQLAEEDKILATPTLSKILPPPVRKIIGDLSDRERVLIGLDLLYEELT 1r5q-a2-m1-cA_1r5q-a2-m2-cA Crystal Structure Analysis of Kai A from PCC7120 Q8YT42 Q8YT42 2 X-RAY DIFFRACTION 53 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 91 91 EVDQQILLQQLKSDYRQILLSYFTTDLKEKIDKFINAVFCANIPVPEIIEIHMELIDEFSKQLRLGDLMDYRLTLIDILAHLCEAYRGAIF EVDQQILLQQLKSDYRQILLSYFTTDLKEKIDKFINAVFCANIPVPEIIEIHMELIDEFSKQLRLGDLMDYRLTLIDILAHLCEAYRGAIF 1r5t-a1-m1-cD_1r5t-a1-m1-cA The Crystal Structure of Cytidine Deaminase CDD1, an Orphan C to U editase from Yeast Q06549 Q06549 2 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 134 141 1r5t-a1-m1-cB_1r5t-a1-m1-cC VGGIEDRQLEALKRAALKACELSYSPYSHFRVGCSILTNNDVIFTGANVENASYSNCICAERSAMIQVLMAGHRSGWKCMVICGDSEDQCVSPCGVCRQFINEFVVKDFPIVMLNSTGSRSKVMTMGELLPMAF KVGGIEDRQLEALKRAALKACELSYSPYSHFRVGCSILTNNDVIFTGANVENASYSNCICAERSAMIQVLMAGHRSGWKCMVICGDSEDQCVSPCGVCRQFINEFVVKDFPIVMLNSTGSRSKVMTMGELLPMAFGPSHLN 1r5t-a1-m1-cD_1r5t-a1-m1-cB The Crystal Structure of Cytidine Deaminase CDD1, an Orphan C to U editase from Yeast Q06549 Q06549 2 X-RAY DIFFRACTION 66 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 134 139 1r5t-a1-m1-cC_1r5t-a1-m1-cA VGGIEDRQLEALKRAALKACELSYSPYSHFRVGCSILTNNDVIFTGANVENASYSNCICAERSAMIQVLMAGHRSGWKCMVICGDSEDQCVSPCGVCRQFINEFVVKDFPIVMLNSTGSRSKVMTMGELLPMAF MKVGGIEDRQLEALKRAALKACELSYSPYSHFRVGCSILTNNDVIFTGANVENASYSNCICAERSAMIQVLMAGHRSGWKCMVICGDSEDQCVSPCGVCRQFINEFVVKDFPIVMLNSTGSRSKVMTMGELLPMAFGPS 1r5t-a1-m1-cD_1r5t-a1-m1-cC The Crystal Structure of Cytidine Deaminase CDD1, an Orphan C to U editase from Yeast Q06549 Q06549 2 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 134 140 1r5t-a1-m1-cB_1r5t-a1-m1-cA VGGIEDRQLEALKRAALKACELSYSPYSHFRVGCSILTNNDVIFTGANVENASYSNCICAERSAMIQVLMAGHRSGWKCMVICGDSEDQCVSPCGVCRQFINEFVVKDFPIVMLNSTGSRSKVMTMGELLPMAF KVGGIEDRQLEALKRAALKACELSYSPYSHFRVGCSILTNNDVIFTGANVENASYSNCICAERSAMIQVLMAGHRSGWKCMVICGDSEDQCVSPCGVCRQFINEFVVKDFPIVMLNSTGSRSKVMTMGELLPMAFGPSHL 1r5v-a1-m1-cA_1r5v-a1-m1-cC Evidence that structural rearrangements and/or flexibility during TCR binding can contribute to T-cell activation P04224 P04224 2.5 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 180 180 EEHTIIQAEFYLLPDKRGEFMFDFDGDEIFHVDIEKSETIWRLEEFAKFASFEAQGALANIAVDKANLDVMKERSNNTPDANVAPEVTVLSRSPVNLGEPNILICFIDKFSPPVVNVTWLRNGRPVTEGVSETVFLPRDDHLFRKFHYLTFLPSTDDFYDCEVDHWGLEEPLRKHWEFEE EEHTIIQAEFYLLPDKRGEFMFDFDGDEIFHVDIEKSETIWRLEEFAKFASFEAQGALANIAVDKANLDVMKERSNNTPDANVAPEVTVLSRSPVNLGEPNILICFIDKFSPPVVNVTWLRNGRPVTEGVSETVFLPRDDHLFRKFHYLTFLPSTDDFYDCEVDHWGLEEPLRKHWEFEE 1r61-a2-m1-cB_1r61-a2-m2-cB The structure of predicted metal-dependent hydrolase from Bacillus stearothermophilus P84132 P84132 2.5 X-RAY DIFFRACTION 25 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 205 205 AAMKVYDVTAPIYEGMPVYKNKPEKQPKRTTITNGYVTESRIDMDVHTGTHIDAPLHMVEGGATFETIPLNDLVGPCKLFDLTHVNDRITKDDIAHLDIQEGDFVLFKTKNSFEDAFHFEFIFVAEDAARYLADKQIRGVGIDALGIERAQEGHPTHKTLFSAGVIIIEGLRLKDVPEGRYFMVAAPLKLVGTDAAPARVLLFDR AAMKVYDVTAPIYEGMPVYKNKPEKQPKRTTITNGYVTESRIDMDVHTGTHIDAPLHMVEGGATFETIPLNDLVGPCKLFDLTHVNDRITKDDIAHLDIQEGDFVLFKTKNSFEDAFHFEFIFVAEDAARYLADKQIRGVGIDALGIERAQEGHPTHKTLFSAGVIIIEGLRLKDVPEGRYFMVAAPLKLVGTDAAPARVLLFDR 1r61-a2-m2-cA_1r61-a2-m2-cB The structure of predicted metal-dependent hydrolase from Bacillus stearothermophilus P84132 P84132 2.5 X-RAY DIFFRACTION 126 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 205 205 1r61-a1-m1-cA_1r61-a1-m1-cB 1r61-a2-m1-cA_1r61-a2-m1-cB AAMKVYDVTAPIYEGMPVYKNKPEKQPKRTTITNGYVTESRIDMDVHTGTHIDAPLHMVEGGATFETIPLNDLVGPCKLFDLTHVNDRITKDDIAHLDIQEGDFVLFKTKNSFEDAFHFEFIFVAEDAARYLADKQIRGVGIDALGIERAQEGHPTHKTLFSAGVIIIEGLRLKDVPEGRYFMVAAPLKLVGTDAAPARVLLFDR AAMKVYDVTAPIYEGMPVYKNKPEKQPKRTTITNGYVTESRIDMDVHTGTHIDAPLHMVEGGATFETIPLNDLVGPCKLFDLTHVNDRITKDDIAHLDIQEGDFVLFKTKNSFEDAFHFEFIFVAEDAARYLADKQIRGVGIDALGIERAQEGHPTHKTLFSAGVIIIEGLRLKDVPEGRYFMVAAPLKLVGTDAAPARVLLFDR 1r66-a1-m1-cA_1r66-a1-m2-cA Crystal Structure of DesIV (dTDP-glucose 4,6-dehydratase) from Streptomyces venezuelae with NAD and TYD bound Q9ZGH3 Q9ZGH3 1.44 X-RAY DIFFRACTION 104 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 322 322 MRLLVTGGAGFIGSHFVRQLLAGAYPDVPADEVIVLDSLTYAGNRANLAPVDADPRLRFVHGDIRDAGLLARELRGVDAIVHFAAESHVDRSIAGASVFTETNVQGTQTLLQCAVDAGVGRVVHVSTDEVYGSIDSGSWTESSPLEPNSPYAASKAGSDLVARAYHRTYGLDVRITRCCNNYGPYQHPEKLIPLFVTNLLDGGTLPLYGDGANVREWVHTDDHCRGIALVLAGGRAGEIYHIGGGLELTNRELTGILLDSLGADWSSVRKVADRKGHDLRYSLDGGKIERELGYRPQVSFADGLARTVRWYRENRGWWEPLK MRLLVTGGAGFIGSHFVRQLLAGAYPDVPADEVIVLDSLTYAGNRANLAPVDADPRLRFVHGDIRDAGLLARELRGVDAIVHFAAESHVDRSIAGASVFTETNVQGTQTLLQCAVDAGVGRVVHVSTDEVYGSIDSGSWTESSPLEPNSPYAASKAGSDLVARAYHRTYGLDVRITRCCNNYGPYQHPEKLIPLFVTNLLDGGTLPLYGDGANVREWVHTDDHCRGIALVLAGGRAGEIYHIGGGLELTNRELTGILLDSLGADWSSVRKVADRKGHDLRYSLDGGKIERELGYRPQVSFADGLARTVRWYRENRGWWEPLK 1r6d-a1-m1-cA_1r6d-a1-m2-cA Crystal Structure of DesIV double mutant (dTDP-glucose 4,6-dehydratase) from Streptomyces venezuelae with NAD and DAU bound Q9ZGH3 Q9ZGH3 1.35 X-RAY DIFFRACTION 14 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 322 322 MRLLVTGGAGFIGSHFVRQLLAGAYPDVPADEVIVLDSLTYAGNRANLAPVDADPRLRFVHGDIRDAGLLARELRGVDAIVHFAAESHVDRSIAGASVFTETNVQGTQTLLQCAVDAGVGRVVHVSTNQVYGSIDSGSWTESSPLEPNSPYAASKAGSDLVARAYHRTYGLDVRITRCCNNYGPYQHPEKLIPLFVTNLLDGGTLPLYGDGANVREWVHTDDHCRGIALVLAGGRAGEIYHIGGGLELTNRELTGILLDSLGADWSSVRKVADRKGHDLRYSLDGGKIERELGYRPQVSFADGLARTVRWYRENRGWWEPLK MRLLVTGGAGFIGSHFVRQLLAGAYPDVPADEVIVLDSLTYAGNRANLAPVDADPRLRFVHGDIRDAGLLARELRGVDAIVHFAAESHVDRSIAGASVFTETNVQGTQTLLQCAVDAGVGRVVHVSTNQVYGSIDSGSWTESSPLEPNSPYAASKAGSDLVARAYHRTYGLDVRITRCCNNYGPYQHPEKLIPLFVTNLLDGGTLPLYGDGANVREWVHTDDHCRGIALVLAGGRAGEIYHIGGGLELTNRELTGILLDSLGADWSSVRKVADRKGHDLRYSLDGGKIERELGYRPQVSFADGLARTVRWYRENRGWWEPLK 1r6l-a1-m1-cA_1r6l-a1-m6-cA Crystal Structure Of The tRNA Processing Enzyme Rnase pH From Pseudomonas Aeruginosa P50597 P50597 1.9 X-RAY DIFFRACTION 89 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 230 230 1r6l-a1-m2-cA_1r6l-a1-m5-cA 1r6l-a1-m3-cA_1r6l-a1-m4-cA 1r6m-a1-m1-cA_1r6m-a1-m6-cA 1r6m-a1-m2-cA_1r6m-a1-m5-cA 1r6m-a1-m3-cA_1r6m-a1-m4-cA NRPSGRAADQLRPIRITRHYTKHAEGSVLVEFGDTKVICTVSAESGVPRFLKQGWLTAEYGLPRSTGERNQREASRGKQGGRTLEIQRLIGRSLRAALDLSKLGENTLYIDCDVIQADGGTRTASITGATVALIDALAVLKKRGALKGNPLKQVAAVSVGIYQGVPVLDLDYLEDSAAETDLNVVTDAGGFIEVQGTAEGAPFRPAELNALELAQQGQELFELQRAALAE NRPSGRAADQLRPIRITRHYTKHAEGSVLVEFGDTKVICTVSAESGVPRFLKQGWLTAEYGLPRSTGERNQREASRGKQGGRTLEIQRLIGRSLRAALDLSKLGENTLYIDCDVIQADGGTRTASITGATVALIDALAVLKKRGALKGNPLKQVAAVSVGIYQGVPVLDLDYLEDSAAETDLNVVTDAGGFIEVQGTAEGAPFRPAELNALELAQQGQELFELQRAALAE 1r6l-a1-m3-cA_1r6l-a1-m6-cA Crystal Structure Of The tRNA Processing Enzyme Rnase pH From Pseudomonas Aeruginosa P50597 P50597 1.9 X-RAY DIFFRACTION 105 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 230 230 1r6l-a1-m1-cA_1r6l-a1-m5-cA 1r6l-a1-m2-cA_1r6l-a1-m4-cA 1r6m-a1-m1-cA_1r6m-a1-m5-cA 1r6m-a1-m2-cA_1r6m-a1-m4-cA 1r6m-a1-m3-cA_1r6m-a1-m6-cA NRPSGRAADQLRPIRITRHYTKHAEGSVLVEFGDTKVICTVSAESGVPRFLKQGWLTAEYGLPRSTGERNQREASRGKQGGRTLEIQRLIGRSLRAALDLSKLGENTLYIDCDVIQADGGTRTASITGATVALIDALAVLKKRGALKGNPLKQVAAVSVGIYQGVPVLDLDYLEDSAAETDLNVVTDAGGFIEVQGTAEGAPFRPAELNALELAQQGQELFELQRAALAE NRPSGRAADQLRPIRITRHYTKHAEGSVLVEFGDTKVICTVSAESGVPRFLKQGWLTAEYGLPRSTGERNQREASRGKQGGRTLEIQRLIGRSLRAALDLSKLGENTLYIDCDVIQADGGTRTASITGATVALIDALAVLKKRGALKGNPLKQVAAVSVGIYQGVPVLDLDYLEDSAAETDLNVVTDAGGFIEVQGTAEGAPFRPAELNALELAQQGQELFELQRAALAE 1r6r-a1-m1-cA_1r6r-a1-m1-cB Solution Structure of Dengue Virus Capsid Protein Reveals a New Fold P12823 P12823 NOT SOLUTION NMR 75 1.0 11066 (Dengue virus 2 Puerto Rico/PR159-S1/1969) 11066 (Dengue virus 2 Puerto Rico/PR159-S1/1969) 80 80 NRVSTVQQLTKRFSLGMLQGRGPLKLFMALVAFLRFLTIPPTAGILKRWGTIKKSKAINVLRGFRKEIGRMLNILNRRRR NRVSTVQQLTKRFSLGMLQGRGPLKLFMALVAFLRFLTIPPTAGILKRWGTIKKSKAINVLRGFRKEIGRMLNILNRRRR 1r6w-a1-m1-cA_1r6w-a1-m2-cA Crystal structure of the K133R mutant of o-Succinylbenzoate synthase (OSBS) from Escherichia coli. Complex with SHCHC P29208 P29208 1.62 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 321 321 SHMRSAQVYRWQIPMDAGVVLDRRLKTRDGLYVCLREGEREGWGEISPLPGFSQETWEEAQSVLLAWVNNWLAGDCELPQMPSVAFGVSCALAELTDTLPQAANYRAAPLCNGDPDDLILKLADMPGEKVAKVRVGLYEAVRDGMVVNLLLEAIPDLHLRLDANRAWTPLKGQQFAKYVNPDYRDRIAFLEEPCKTRDDSRAFARETGIAIAWDESLREPDFAFVAEEGVRAVVIKPTLTGSLEKVREQVQAAHALGLTAVISSSIESSLGLTQLARIAAWLTPDTIPGLDTLDLMQAQQVRRWPGSTLPVVEVDALERLL SHMRSAQVYRWQIPMDAGVVLDRRLKTRDGLYVCLREGEREGWGEISPLPGFSQETWEEAQSVLLAWVNNWLAGDCELPQMPSVAFGVSCALAELTDTLPQAANYRAAPLCNGDPDDLILKLADMPGEKVAKVRVGLYEAVRDGMVVNLLLEAIPDLHLRLDANRAWTPLKGQQFAKYVNPDYRDRIAFLEEPCKTRDDSRAFARETGIAIAWDESLREPDFAFVAEEGVRAVVIKPTLTGSLEKVREQVQAAHALGLTAVISSSIESSLGLTQLARIAAWLTPDTIPGLDTLDLMQAQQVRRWPGSTLPVVEVDALERLL 1r6z-a1-m1-cA_1r6z-a1-m1-cP The Crystal Structure of the Argonaute2 PAZ domain (as a MBP fusion) Q9VUQ5 Q9VUQ5 2.8 X-RAY DIFFRACTION 12 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 497 498 IEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFVDISHKSFPISMPMIEYLERFSLKAKINNTTNLDYSRRFLEPFLRGINVVYTPPQSFQSAPRVYRVNGLSRAPASSETFEHDGKKVTIASYFHSRNYPLKFPQLHCLNVGSSIKSILLPIELCSIE IEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFVDISHKSFPISMPMIEYLERFSLKAKINNTTNLDYSRRFLEPFLRGINVVYTPPQSFQSAPRVYRVNGLSRAPASSETFEHDGKKVTIASYFHSRNYPLKFPQLHCLNVGSSIKSILLPIELCSIEE 1r6z-a1-m1-cP_1r6z-a1-m1-cZ The Crystal Structure of the Argonaute2 PAZ domain (as a MBP fusion) Q9VUQ5 Q9VUQ5 2.8 X-RAY DIFFRACTION 13 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 498 499 IEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFVDISHKSFPISMPMIEYLERFSLKAKINNTTNLDYSRRFLEPFLRGINVVYTPPQSFQSAPRVYRVNGLSRAPASSETFEHDGKKVTIASYFHSRNYPLKFPQLHCLNVGSSIKSILLPIELCSIEE EEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFVDISHKSFPISMPMIEYLERFSLKAKINNTTNLDYSRRFLEPFLRGINVVYTPPQSFQSAPRVYRVNGLSRAPASSETFEHDGKKVTIASYFHSRNYPLKFPQLHCLNVGSSIKSILLPIELCSIEEGQ 1r70-a1-m1-cB_1r70-a1-m1-cD Model of human IgA2 determined by solution scattering, curve fitting and homology modelling 30 SOLUTION SCATTERING 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 462 QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 1r74-a1-m1-cB_1r74-a1-m2-cB Crystal Structure of Human Glycine N-Methyltransferase Q14749 Q14749 2.55 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 279 1r74-a1-m1-cA_1r74-a1-m2-cA 2azt-a1-m1-cA_2azt-a1-m2-cA 2azt-a1-m1-cB_2azt-a1-m2-cB YRTRSLGVAAEGLPDQYADGEAARVWQLYIGDTRSRTAEYKAWLLGLLRQHGCQRVLDVACGTGVDSIMLVEEGFSVTSVDASDKMLKYALKERWNRRHEPAFDKWVIEEANWMTLDKDVPQSAEGGFDAVICLGNSFAHLPDCKGDQSEHRLALKNIASMVRAGGLLVIDHRNYDHILSTGCAPPGKNIYYKSDLTKDVTTSVLIVNNKAHMVTLDYTVQGLSKFRLSYYPHCLASFTELLQAAFGGKCQHSVLGDFKPYKPGQTYIPCYFIHVLKRT YRTRSLGVAAEGLPDQYADGEAARVWQLYIGDTRSRTAEYKAWLLGLLRQHGCQRVLDVACGTGVDSIMLVEEGFSVTSVDASDKMLKYALKERWNRRHEPAFDKWVIEEANWMTLDKDVPQSAEGGFDAVICLGNSFAHLPDCKGDQSEHRLALKNIASMVRAGGLLVIDHRNYDHILSTGCAPPGKNIYYKSDLTKDVTTSVLIVNNKAHMVTLDYTVQGLSKFRLSYYPHCLASFTELLQAAFGGKCQHSVLGDFKPYKPGQTYIPCYFIHVLKRT 1r74-a1-m2-cA_1r74-a1-m2-cB Crystal Structure of Human Glycine N-Methyltransferase Q14749 Q14749 2.55 X-RAY DIFFRACTION 173 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 279 1r74-a1-m1-cA_1r74-a1-m1-cB 2azt-a1-m1-cA_2azt-a1-m1-cB 2azt-a1-m2-cA_2azt-a1-m2-cB YRTRSLGVAAEGLPDQYADGEAARVWQLYIGDTRSRTAEYKAWLLGLLRQHGCQRVLDVACGTGVDSIMLVEEGFSVTSVDASDKMLKYALKERWNRRHEPAFDKWVIEEANWMTLDKDVPEGGFDAVICLGNSFAHLPDCKGDQSEHRLALKNIASMVRAGGLLVIDHRNYDHILSTGCAPPGKNIYYKSDLTKDVTTSVLIVNNKAHMVTLDYTVGLSKFRLSYYPHCLASFTELLQAAFGGKCQHSVLGDFKPYKPGQTYIPCYFIHVLKRT YRTRSLGVAAEGLPDQYADGEAARVWQLYIGDTRSRTAEYKAWLLGLLRQHGCQRVLDVACGTGVDSIMLVEEGFSVTSVDASDKMLKYALKERWNRRHEPAFDKWVIEEANWMTLDKDVPQSAEGGFDAVICLGNSFAHLPDCKGDQSEHRLALKNIASMVRAGGLLVIDHRNYDHILSTGCAPPGKNIYYKSDLTKDVTTSVLIVNNKAHMVTLDYTVQGLSKFRLSYYPHCLASFTELLQAAFGGKCQHSVLGDFKPYKPGQTYIPCYFIHVLKRT 1r7a-a1-m1-cA_1r7a-a1-m1-cB Sucrose Phosphorylase from Bifidobacterium adolescentis A0ZZH6 A0ZZH6 1.77 X-RAY DIFFRACTION 67 1.0 1680 (Bifidobacterium adolescentis) 1680 (Bifidobacterium adolescentis) 503 503 2gdu-a1-m1-cA_2gdu-a1-m1-cB 2gdv-a1-m1-cA_2gdv-a1-m1-cB MKNKVQLITYADRLGDGTIKSMTDILRTRFDGVYDGVHILPFFTPFDGADAGFDPIDHTKVDERLGSWDDVAELSKTHNIMVDAIVNHMSWESKQFQDVLAKGEESEYYPMFLTMSSVFPNGATEEDLAGIYRPRPGLPFTHYKFAGKTRLVWVSFTPQQVDIDTDSDKGWEYLMSIFDQMAASHVSYIRLDAVGYGAKEAGTSCFMTPKTFKLISRLREEGVKRGLEILIEVHSYYKKQVEIASKVDRVYDFALPPLLLHALSTGHVEPVAHWTDIRPNNAVTVLDTHDGIGVIDIGSDQLDRSLKGLVPDEDVDNLVNTIHANTHGESQAATGAAASNLDLYQVNSTYYSALGNDQHYIAARAVQFFLPGVPQVYYVGALAGKNDMELLRKTNNGRDINRHYYSTAEIDENLKRPVVKALNALAKFRNELDAFDGTFSYTTDDDTSISFTWRGETSQATLTFEPKRGLGVDNTTPVAMLEWEDSAGDHRSDDLIANPPVVA MKNKVQLITYADRLGDGTIKSMTDILRTRFDGVYDGVHILPFFTPFDGADAGFDPIDHTKVDERLGSWDDVAELSKTHNIMVDAIVNHMSWESKQFQDVLAKGEESEYYPMFLTMSSVFPNGATEEDLAGIYRPRPGLPFTHYKFAGKTRLVWVSFTPQQVDIDTDSDKGWEYLMSIFDQMAASHVSYIRLDAVGYGAKEAGTSCFMTPKTFKLISRLREEGVKRGLEILIEVHSYYKKQVEIASKVDRVYDFALPPLLLHALSTGHVEPVAHWTDIRPNNAVTVLDTHDGIGVIDIGSDQLDRSLKGLVPDEDVDNLVNTIHANTHGESQAATGAAASNLDLYQVNSTYYSALGNDQHYIAARAVQFFLPGVPQVYYVGALAGKNDMELLRKTNNGRDINRHYYSTAEIDENLKRPVVKALNALAKFRNELDAFDGTFSYTTDDDTSISFTWRGETSQATLTFEPKRGLGVDNTTPVAMLEWEDSAGDHRSDDLIANPPVVA 1r7h-a1-m1-cA_1r7h-a1-m1-cB NrdH-redoxin of Corynebacterium ammoniagenes forms a domain-swapped dimer O69271 O69271 2.69 X-RAY DIFFRACTION 155 1.0 1697 (Corynebacterium ammoniagenes) 1697 (Corynebacterium ammoniagenes) 74 74 MSITLYTKPACVQCTATKKALDRAGLAYNTVDISLDDEARDYVMALGYVQAPVVEVDGEHWSGFRPERIKQLQA MSITLYTKPACVQCTATKKALDRAGLAYNTVDISLDDEARDYVMALGYVQAPVVEVDGEHWSGFRPERIKQLQA 1r7j-a1-m1-cA_1r7j-a1-m2-cA Crystal structure of the DNA-binding protein Sso10a from Sulfolobus solfataricus Q5W1E8 Q5W1E8 1.47 X-RAY DIFFRACTION 54 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 90 90 1xsx-a1-m1-cA_1xsx-a1-m1-cB KKSKLEIIQAILEACKSGSPKTRIMYGANLSYALTGRYIKMLMDLEIIRQEGKQYMLTKKGEELLEDIRKFNEMRKNMDQLKEKINSVLS KKSKLEIIQAILEACKSGSPKTRIMYGANLSYALTGRYIKMLMDLEIIRQEGKQYMLTKKGEELLEDIRKFNEMRKNMDQLKEKINSVLS 1r7l-a1-m1-cA_1r7l-a1-m1-cB 2.0 A Crystal Structure of a Phage Protein from Bacillus cereus ATCC 14579 Q81EU2 Q81EU2 2 X-RAY DIFFRACTION 38 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 103 109 LYFQSNAMKPRDINKLIASKIFGYEIKDDNIIKDGRYRLGIPLYSQNIESAWQVVEKLEYDVKVTKTDLKPKYQVHVFVPGGVKMVFAETAPMAICKGALASV NLYFQSNAMKPRDINKLIASKIFGYEIKDDNIIKDGRYRLGIPLYSQNIESAWQVVEKLEYDVKVTKTDLKPKYQVHVFVPGGVKMVFAETAPMAICKGALASVDIELQ 1r8d-a1-m1-cB_1r8d-a1-m1-cA Crystal Structure of MtaN Bound to DNA P71039 P71039 2.7 X-RAY DIFFRACTION 58 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 107 109 1jbg-a1-m1-cA_1jbg-a1-m2-cA MKYQVKQVAEISGVSIRTLHHYDNIELLNPSALTDAGYRLYSDADLERLQQILFFKEIGFRLDEIKEMLDHPNFDRKAALQSQKEILMKKKQRMDEMIQTIDRTLLS MKYQVKQVAEISGVSIRTLHHYDNIELLNPSALTDAGYRLYSDADLERLQQILFFKEIGFRLDEIKEMLDHPNFDRKAALQSQKEILMKKKQRMDEMIQTIDRTLLSVD 1r8g-a1-m1-cA_1r8g-a1-m1-cB Structure and function of YbdK P77213 P77213 2.15 X-RAY DIFFRACTION 88 0.997 562 (Escherichia coli) 562 (Escherichia coli) 342 348 LPDFHVSEPFTLGIELEQVVNPPGYDLSQDSSLIDAVKNKITAGEVKHDITESLELATDVCRDINQAAGQFSAQKVVLQAATDHHLEICGGGTHPFQKWNFGYLIQQATVFGQHVHVGCASGDDAIYLLHGLSRFVPHFIALSAASPYQGTDTRFASSRPNIFSAFPDNGPPWVSNWQQFEALFRCLSYTTIDSIKDLHWDIRPSPHFGTVEVRVDTPLTLSHAVNAGLIQATAHWLLTERPFKHQEKDYLLYKFNRFQACRYGLEGVITDPHTGDRRPLTEDTLRLLEKIAPSAHKIGASSAIEALHRQVVSGLNEAQLRDFVADGGSLIGLVKKHCEIWA PLPDFHVSEPFTLGIELEQVVNPPGYDLSQDSSLIDAVKNKITAGEVKHITESLELATDVCRDINQAAGQFSAQKVVLQAATDHHLEICGGGTHPFQKWQQRTLENFGYLIQQATVFGQHVHVGCASGDDAIYLLHGLSRFVPHFIALSAASPYQGTDTRFASSRPNIFSAFPDNGPPWVSNWQQFEALFRCLSYTTIDSIKDLHWDIRPSPHFGTVEVRVDTPLTLSHAVNAGLIQATAHWLLTERPFKHQEKDYLLYKFNRFQACRYGLEGVITDPHTGDRRPLTEDTLRLLEKIAPSAHKIGASSAIEALHRQVVSGLNEAQLRDFVADGGSLIGLVKKHCEIWA 1r8h-a4-m1-cB_1r8h-a4-m1-cE Comparison of the structure and DNA binding properties of the E2 proteins from an oncogenic and a non-oncogenic human papillomavirus Q84294 Q84294 1.9 X-RAY DIFFRACTION 26 1.0 37122 (Human papillomavirus type 6a) 37122 (Human papillomavirus type 6a) 87 87 1r8h-a1-m1-cD_1r8h-a1-m1-cA 1r8h-a2-m1-cE_1r8h-a2-m1-cB 1r8h-a3-m1-cF_1r8h-a3-m1-cC 1r8h-a4-m1-cD_1r8h-a4-m1-cA 1r8h-a4-m1-cF_1r8h-a4-m1-cC 2aye-a4-m1-cA_2aye-a4-m2-cE 2aye-a4-m2-cF_2aye-a4-m3-cC 2aye-a4-m3-cD_2aye-a4-m1-cB SSATPIVQFQGESNCLKCFRYRLNDKHRHLFDLISSTWHWASPKAPHKHAIVTVTYHSEEQRQQFLNVVKIPPTIRHKLGFMSMHLL SSATPIVQFQGESNCLKCFRYRLNDKHRHLFDLISSTWHWASPKAPHKHAIVTVTYHSEEQRQQFLNVVKIPPTIRHKLGFMSMHLL 1r8h-a7-m1-cC_1r8h-a7-m1-cD Comparison of the structure and DNA binding properties of the E2 proteins from an oncogenic and a non-oncogenic human papillomavirus Q84294 Q84294 1.9 X-RAY DIFFRACTION 70 1.0 37122 (Human papillomavirus type 6a) 37122 (Human papillomavirus type 6a) 83 87 1r8h-a4-m1-cA_1r8h-a4-m1-cB 1r8h-a4-m1-cC_1r8h-a4-m1-cD 1r8h-a4-m1-cF_1r8h-a4-m1-cE 1r8h-a5-m1-cB_1r8h-a5-m1-cA 1r8h-a6-m1-cF_1r8h-a6-m1-cE 2ayb-a1-m1-cB_2ayb-a1-m1-cA 2aye-a1-m1-cA_2aye-a1-m1-cB 2aye-a2-m1-cD_2aye-a2-m1-cC 2aye-a3-m1-cF_2aye-a3-m1-cE 2aye-a4-m1-cA_2aye-a4-m1-cB 2aye-a4-m2-cF_2aye-a4-m2-cE 2aye-a4-m3-cD_2aye-a4-m3-cC 2ayg-a1-m1-cB_2ayg-a1-m1-cA SSATPIVQFQGESNCLKCFRYRLNDKHRHLFDLISSTWHWASPKHAIVTVTYHSEEQRQQFLNVVKIPPTIRHKLGFMSMHLL SSATPIVQFQGESNCLKCFRYRLNDKHRHLFDLISSTWHWASPKAPHKHAIVTVTYHSEEQRQQFLNVVKIPPTIRHKLGFMSMHLL 1r8j-a1-m1-cB_1r8j-a1-m1-cA Crystal Structure of Circadian Clock Protein KaiA from Synechococcus elongatus Q79PF6 Q79PF6 2.03 X-RAY DIFFRACTION 176 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 264 272 4g86-a1-m1-cA_4g86-a1-m1-cB 5c5e-a1-m1-cA_5c5e-a1-m1-cB 5n8y-a1-m1-cN_5n8y-a1-m1-cM 5n8y-a1-m1-cP_5n8y-a1-m1-cO 5n8y-a1-m1-cR_5n8y-a1-m1-cQ 5n8y-a1-m1-cT_5n8y-a1-m1-cS 5n8y-a1-m1-cV_5n8y-a1-m1-cU 5n8y-a1-m1-cW_5n8y-a1-m1-cX VLSQIAICIWVESTAILQDCQRALSADRYQLQVCESGEMLLEYAQTHRDQIDCLILVAANPSFRAVVQQLCFEGVVVPAIVVGDPAKEQLYHSAELHLGIHQLEQLPYQVDAALAEFLRLAPVETMADPELSSQQRDLAQRLQERLGYLGVYYKRDPDRFLRNLPAYESQKLHQAMQTSYREIVLSYFSPNSNLNQSIDNFVNMAFFADVPVTKVVEIHMELMDEFAKKLRVEGRSEDILLDYRLTLIDVIAHLCEMYRRSIPR VLSQIAICIWVESTAILQDCQRALSADRYQLQVCESGEMLLEYAQTHRDQIDCLILVAANPSFRAVVQQLCFEGVVVPAIVVGDRDPAKEQLYHSAELHLGIHQLEQLPYQVDAALAEFLRLAPVETMADHIMLMDPELSSQQRDLAQRLQERLGYLGVYYKRDPDRFLRNLPAYESQKLHQAMQTSYREIVLSYFSPNSNLNQSIDNFVNMAFFADVPVTKVVEIHMELMDEFAKKLRVEGRSEDILLDYRLTLIDVIAHLCEMYRRSIPR 1r8q-a5-m1-cA_1r8q-a5-m3-cB FULL-LENGTH ARF1-GDP-MG IN COMPLEX WITH BREFELDIN A AND A SEC7 DOMAIN P84080 P84080 1.86 X-RAY DIFFRACTION 27 1.0 9913 (Bos taurus) 9913 (Bos taurus) 179 179 1r8q-a4-m1-cA_1r8q-a4-m3-cB 1r8q-a6-m1-cA_1r8q-a6-m5-cB GNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDELRDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLSNQLRNQ GNIFANLFKGLFGKKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGQDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDELRDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLSNQLRNQ 1r8q-a6-m8-cE_1r8q-a6-m9-cF FULL-LENGTH ARF1-GDP-MG IN COMPLEX WITH BREFELDIN A AND A SEC7 DOMAIN Q99418 Q99418 1.86 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 194 1r8q-a3-m1-cE_1r8q-a3-m2-cF 1r8q-a4-m4-cE_1r8q-a4-m5-cF 1r8q-a5-m6-cE_1r8q-a5-m7-cF SKTLQRNRKMAMGRKKFNMDPKKGIQFLVENELLQNTPEEIARFLYKGEGLNKTAIGDYLGEREELNLAVLHAFVDLHEFTDLNLVQALRQFLWSFRLPGEAQKIDRMMEAFAQRYCLCNPGVFQSTDTCYVLSYSVIMLNTDLHNPNVRDKMGLERFVAMNRGINEGGDLPEELLRNLYDSIRNEPFKIP SKTLQRNRKMAMGRKKFNMDPKKGIQFLVENELLQNTPEEIARFLYKGEGLNKTAIGDYLGEREELNLAVLHAFVDLHEFTDLNLVQALRQFLWSFRLPGEAQKIDRMMEAFAQRYCLCNPGVFQSTDTCYVLSYSVIMLNTDLHNPNVRDKMGLERFVAMNRGINEGGDLPEELLRNLYDSIRNEPFKIPEDD 1r94-a1-m1-cB_1r94-a1-m2-cB Crystal Structure of IscA (MERCURY DERIVATIVE) P0AAC8 P0AAC8 2.3 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 97 1r94-a1-m1-cA_1r94-a1-m2-cA 1r95-a1-m1-cA_1r95-a1-m2-cA 1r95-a1-m1-cB_1r95-a1-m2-cB 1s98-a1-m1-cA_1s98-a1-m1-cB 1s98-a1-m2-cA_1s98-a1-m2-cB MSITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKD MSITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKD 1r94-a1-m2-cA_1r94-a1-m2-cB Crystal Structure of IscA (MERCURY DERIVATIVE) P0AAC8 P0AAC8 2.3 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 97 1r94-a1-m1-cA_1r94-a1-m1-cB 1r95-a1-m1-cA_1r95-a1-m1-cB 1r95-a1-m2-cA_1r95-a1-m2-cB MSITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKD MSITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSLQFLDGTQLDFVKEGLNEGFKFTNPNVKD 1r9c-a1-m1-cB_1r9c-a1-m1-cA Crystal Structure of Fosfomycin Resistance Protein FosX from Mesorhizobium Loti Q98GG1 Q98GG1 1.83 X-RAY DIFFRACTION 129 0.983 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 118 125 MIEGLSHMTFIVRDLERMTRILEGVFDAREVYASREKFFLIGDIWVAIMQGEKLAERSYNHIAFKIDDADFDRYAERVGKLGLDMRPPRPREGRSIYFYDDDNHMFELHTGTLTERLA MIEGLSHMTFIVRDLERMTRILEGVFDAREVYASDTEQFSLSREKFFLIGDIWVAIMQGEKLAERSYNHIAFKIDDADFDRYAERVGKLGLDMRPPRPGRSIYFYDDDNHMFELHTGTLTERLAR 1r9d-a1-m1-cA_1r9d-a1-m1-cB Glycerol bound form of the B12-independent glycerol dehydratase from Clostridium butyricum Q8GEZ8 Q8GEZ8 1.8 X-RAY DIFFRACTION 75 1.0 1492 (Clostridium butyricum) 1492 (Clostridium butyricum) 786 786 1r8w-a1-m1-cA_1r8w-a1-m1-cB 4mtj-a1-m1-cA_4mtj-a1-m1-cB ISKGFSTQTERINILKAQILNAKPCVESERAILITESFKQTEGQPAILRRALALKHILENIPITIRDQELIVGSLTKEPRSSQVFPEFSNKWLQDELDRLNKRTGDAFQISEESKEKLKDVFEYWNGKTTSELATSYMTEETREAVNCDVFTVGNYYYNGVGHVSVDYGKVLRVGFNGIINEAKEQLEKNRSIDPDFIKKEKFLNSVIISCEAAITYVNRYAKKAKEIADNTSDAKRKAELNEIAKICSKVSGEGAKSFYEACQLFWFIHAIINIESNGHSISPARFDQYMYPYYENDKNITDKFAQELIDCIWIKLNDINKVRDEISTKHFGGYPMYQNLIVGGQNSEGKDATNKVSYMALEAAVHVKLPQPSLSVRIWNKTPDEFLLRAAELTREGLGLPAYYNDEVIIPALVSRGLTLEDARDYGIIGCVEPQKPGKTEGWHDSAFFNLARIVELTINSGFDKNKQIGPKTQNFEEMKSFDEFMKAYKAQMEYFVKHMCCADNCIDIAHAERAPLPFLSSMVDNCIGKGKSLQDGGAEYNFSGPQGVGVANIGDSLVAVKKIVFDENKITPSELKKTLNNDFKNSEEIQALLKNAPKFGNDIDEVDNLAREGALVYCREVNKYTNPRGGNFQPGLYPSSINVYFGSLTGATPDGRKSGQPLADGVSPSRGCDVSGPTAACNSVSKLDHFIASNGTLFNQKFHPSALKGDNGLMNLSSLIRSYFDQKGFHVQFNVIDKKILLAAQKNPEKYQDLIVRVAGYSAQFISLDKSIQNDIIARTEHVM ISKGFSTQTERINILKAQILNAKPCVESERAILITESFKQTEGQPAILRRALALKHILENIPITIRDQELIVGSLTKEPRSSQVFPEFSNKWLQDELDRLNKRTGDAFQISEESKEKLKDVFEYWNGKTTSELATSYMTEETREAVNCDVFTVGNYYYNGVGHVSVDYGKVLRVGFNGIINEAKEQLEKNRSIDPDFIKKEKFLNSVIISCEAAITYVNRYAKKAKEIADNTSDAKRKAELNEIAKICSKVSGEGAKSFYEACQLFWFIHAIINIESNGHSISPARFDQYMYPYYENDKNITDKFAQELIDCIWIKLNDINKVRDEISTKHFGGYPMYQNLIVGGQNSEGKDATNKVSYMALEAAVHVKLPQPSLSVRIWNKTPDEFLLRAAELTREGLGLPAYYNDEVIIPALVSRGLTLEDARDYGIIGCVEPQKPGKTEGWHDSAFFNLARIVELTINSGFDKNKQIGPKTQNFEEMKSFDEFMKAYKAQMEYFVKHMCCADNCIDIAHAERAPLPFLSSMVDNCIGKGKSLQDGGAEYNFSGPQGVGVANIGDSLVAVKKIVFDENKITPSELKKTLNNDFKNSEEIQALLKNAPKFGNDIDEVDNLAREGALVYCREVNKYTNPRGGNFQPGLYPSSINVYFGSLTGATPDGRKSGQPLADGVSPSRGCDVSGPTAACNSVSKLDHFIASNGTLFNQKFHPSALKGDNGLMNLSSLIRSYFDQKGFHVQFNVIDKKILLAAQKNPEKYQDLIVRVAGYSAQFISLDKSIQNDIIARTEHVM 1r9j-a1-m1-cA_1r9j-a1-m1-cB Transketolase from Leishmania mexicana Q8MPM3 Q8MPM3 2.22 X-RAY DIFFRACTION 328 1.0 44270 (Leishmania mexicana mexicana) 44270 (Leishmania mexicana mexicana) 670 671 HMASIEKVANCIRCLAADIVQGGKSGHPGTPMGMAPMSAVLWTEVMKYNSQDPDWVDRDRFVMSNGHGCALQYALLHMAGYNLTMDDLKGFRQDGSRTPGHPERFVTPGVEVTTGPLGQGIANAVGLAIAEAHLAATFNRPGYNIVDHYTYVYCGDGCLMEGVCQEALSLAGHLALEKLIVIYDSNYISIDGSTSLSFTEQCHQKYVAMGFHVIEVKNGDTDYEGLRKALAEAKATKGKPKMIVQTTTIGFGSSKQGTEKVHGAPLGEEDIANIKAKFGRDPQKKYDVDDDVRAVFRMHIDKCSAEQKAWEELLAKYTAAFPAEGAAFVAQMRGELPSGWEAKLPTNSSAIATRKASENCLAVLFPAIPALMGGSADLTPSNLTRPASANLVDFSSSSKEGRYIRFGVREHAMCAILNGLDAHDGIIPFGGTFLNFIGYALGAVRLAAISHHRVIYVATHDSIGVGEDGPTHQPVELVAALRAMPNLQVIRPSDQTETSGAWAVALSSIHTPTVLCLSRQNTEPQSGSSIEGVRHGAYSVVDVPDLQLVIVASGSEVSLAVDAAKALSGELRVRVVSMPCQELFDAQPDTYRQAVLPAGVPVVSVEAYVSFGWEKYSHAHVGMSGFGASAPAGVLYKKFGITVEEVVRTGRELAKRFPDGTAPLKNSSFS RHMASIEKVANCIRCLAADIVQGGKSGHPGTPMGMAPMSAVLWTEVMKYNSQDPDWVDRDRFVMSNGHGCALQYALLHMAGYNLTMDDLKGFRQDGSRTPGHPERFVTPGVEVTTGPLGQGIANAVGLAIAEAHLAATFNRPGYNIVDHYTYVYCGDGCLMEGVCQEALSLAGHLALEKLIVIYDSNYISIDGSTSLSFTEQCHQKYVAMGFHVIEVKNGDTDYEGLRKALAEAKATKGKPKMIVQTTTIGFGSSKQGTEKVHGAPLGEEDIANIKAKFGRDPQKKYDVDDDVRAVFRMHIDKCSAEQKAWEELLAKYTAAFPAEGAAFVAQMRGELPSGWEAKLPTNSSAIATRKASENCLAVLFPAIPALMGGSADLTPSNLTRPASANLVDFSSSSKEGRYIRFGVREHAMCAILNGLDAHDGIIPFGGTFLNFIGYALGAVRLAAISHHRVIYVATHDSIGVGEDGPTHQPVELVAALRAMPNLQVIRPSDQTETSGAWAVALSSIHTPTVLCLSRQNTEPQSGSSIEGVRHGAYSVVDVPDLQLVIVASGSEVSLAVDAAKALSGELRVRVVSMPCQELFDAQPDTYRQAVLPAGVPVVSVEAYVSFGWEKYSHAHVGMSGFGASAPAGVLYKKFGITVEEVVRTGRELAKRFPDGTAPLKNSSFS 1ra0-a1-m2-cA_1ra0-a1-m6-cA Bacterial cytosine deaminase D314G mutant bound to 5-fluoro-4-(S)-hydroxy-3,4-dihydropyrimidine. P25524 P25524 1.12 X-RAY DIFFRACTION 188 1.0 562 (Escherichia coli) 562 (Escherichia coli) 423 423 1k6w-a1-m1-cA_1k6w-a1-m4-cA 1k6w-a1-m2-cA_1k6w-a1-m6-cA 1k6w-a1-m3-cA_1k6w-a1-m5-cA 1k70-a1-m1-cA_1k70-a1-m4-cA 1k70-a1-m2-cA_1k70-a1-m6-cA 1k70-a1-m3-cA_1k70-a1-m5-cA 1r9x-a1-m1-cA_1r9x-a1-m4-cA 1r9x-a1-m2-cA_1r9x-a1-m6-cA 1r9x-a1-m3-cA_1r9x-a1-m5-cA 1r9y-a1-m1-cA_1r9y-a1-m4-cA 1r9y-a1-m2-cA_1r9y-a1-m6-cA 1r9y-a1-m3-cA_1r9y-a1-m5-cA 1r9z-a1-m1-cA_1r9z-a1-m4-cA 1r9z-a1-m2-cA_1r9z-a1-m6-cA 1r9z-a1-m3-cA_1r9z-a1-m5-cA 1ra0-a1-m1-cA_1ra0-a1-m4-cA 1ra0-a1-m3-cA_1ra0-a1-m5-cA 1ra5-a1-m1-cA_1ra5-a1-m4-cA 1ra5-a1-m2-cA_1ra5-a1-m6-cA 1ra5-a1-m3-cA_1ra5-a1-m5-cA 1rak-a1-m1-cA_1rak-a1-m4-cA 1rak-a1-m2-cA_1rak-a1-m6-cA 1rak-a1-m3-cA_1rak-a1-m5-cA 3g77-a1-m1-cA_3g77-a1-m4-cA 3g77-a1-m2-cA_3g77-a1-m6-cA 3g77-a1-m3-cA_3g77-a1-m5-cA 3o7u-a1-m1-cA_3o7u-a1-m6-cA 3o7u-a1-m2-cA_3o7u-a1-m5-cA 3o7u-a1-m3-cA_3o7u-a1-m4-cA 3r0d-a2-m1-cA_3r0d-a2-m2-cA ALQTIINARLPGEEGLWQIHLQDGKISAIDAQSGVMPITENSLDAEQGLVIPPFVEPHIHLDTTQTAGQPNWNQSGTLFEGIERWAERKALLTHDDVKQRAWQTLKWQIANGIQHVRTHVDVSDATLTALKAMLEVKQEVAPWIDLQIVAFPQEGILSYPNGEALLEEALRLGADVVGAIPHFEFTREYGVESLHKTFALAQKYDRLIDVHCDEIDDEQSRFVETVAALAHHEGMGARVTASHTTAMHSYNGAYTSRLFRLLKMSGINFVANPLVNIHLQGRFDTYPKRRGITRVKEMLESGINVCFGHDGVFDPWYPLGTANMLQVLHMGLHVCQLMGYGQINDGLNLITHHSARTLNLQDYGIAAGNSANLIILPAENGFDALRRQVPVRYSVRGGKVIASTQPAQTTVYLEQPEAIDYKR ALQTIINARLPGEEGLWQIHLQDGKISAIDAQSGVMPITENSLDAEQGLVIPPFVEPHIHLDTTQTAGQPNWNQSGTLFEGIERWAERKALLTHDDVKQRAWQTLKWQIANGIQHVRTHVDVSDATLTALKAMLEVKQEVAPWIDLQIVAFPQEGILSYPNGEALLEEALRLGADVVGAIPHFEFTREYGVESLHKTFALAQKYDRLIDVHCDEIDDEQSRFVETVAALAHHEGMGARVTASHTTAMHSYNGAYTSRLFRLLKMSGINFVANPLVNIHLQGRFDTYPKRRGITRVKEMLESGINVCFGHDGVFDPWYPLGTANMLQVLHMGLHVCQLMGYGQINDGLNLITHHSARTLNLQDYGIAAGNSANLIILPAENGFDALRRQVPVRYSVRGGKVIASTQPAQTTVYLEQPEAIDYKR 1ra0-a1-m5-cA_1ra0-a1-m6-cA Bacterial cytosine deaminase D314G mutant bound to 5-fluoro-4-(S)-hydroxy-3,4-dihydropyrimidine. P25524 P25524 1.12 X-RAY DIFFRACTION 44 1.0 562 (Escherichia coli) 562 (Escherichia coli) 423 423 1k6w-a1-m1-cA_1k6w-a1-m2-cA 1k6w-a1-m1-cA_1k6w-a1-m3-cA 1k6w-a1-m2-cA_1k6w-a1-m3-cA 1k6w-a1-m4-cA_1k6w-a1-m5-cA 1k6w-a1-m4-cA_1k6w-a1-m6-cA 1k6w-a1-m5-cA_1k6w-a1-m6-cA 1k70-a1-m1-cA_1k70-a1-m2-cA 1k70-a1-m1-cA_1k70-a1-m3-cA 1k70-a1-m2-cA_1k70-a1-m3-cA 1k70-a1-m4-cA_1k70-a1-m5-cA 1k70-a1-m4-cA_1k70-a1-m6-cA 1k70-a1-m5-cA_1k70-a1-m6-cA 1r9x-a1-m1-cA_1r9x-a1-m2-cA 1r9x-a1-m1-cA_1r9x-a1-m3-cA 1r9x-a1-m2-cA_1r9x-a1-m3-cA 1r9x-a1-m4-cA_1r9x-a1-m5-cA 1r9x-a1-m4-cA_1r9x-a1-m6-cA 1r9x-a1-m5-cA_1r9x-a1-m6-cA 1r9y-a1-m1-cA_1r9y-a1-m2-cA 1r9y-a1-m1-cA_1r9y-a1-m3-cA 1r9y-a1-m2-cA_1r9y-a1-m3-cA 1r9y-a1-m4-cA_1r9y-a1-m5-cA 1r9y-a1-m4-cA_1r9y-a1-m6-cA 1r9y-a1-m5-cA_1r9y-a1-m6-cA 1r9z-a1-m1-cA_1r9z-a1-m2-cA 1r9z-a1-m1-cA_1r9z-a1-m3-cA 1r9z-a1-m2-cA_1r9z-a1-m3-cA 1r9z-a1-m4-cA_1r9z-a1-m5-cA 1r9z-a1-m4-cA_1r9z-a1-m6-cA 1r9z-a1-m5-cA_1r9z-a1-m6-cA 1ra0-a1-m1-cA_1ra0-a1-m2-cA 1ra0-a1-m1-cA_1ra0-a1-m3-cA 1ra0-a1-m2-cA_1ra0-a1-m3-cA 1ra0-a1-m4-cA_1ra0-a1-m5-cA 1ra0-a1-m4-cA_1ra0-a1-m6-cA 1ra5-a1-m1-cA_1ra5-a1-m2-cA 1ra5-a1-m1-cA_1ra5-a1-m3-cA 1ra5-a1-m2-cA_1ra5-a1-m3-cA 1ra5-a1-m4-cA_1ra5-a1-m5-cA 1ra5-a1-m4-cA_1ra5-a1-m6-cA 1ra5-a1-m5-cA_1ra5-a1-m6-cA 1rak-a1-m1-cA_1rak-a1-m2-cA 1rak-a1-m1-cA_1rak-a1-m3-cA 1rak-a1-m2-cA_1rak-a1-m3-cA 1rak-a1-m4-cA_1rak-a1-m5-cA 1rak-a1-m4-cA_1rak-a1-m6-cA 1rak-a1-m5-cA_1rak-a1-m6-cA 3g77-a1-m1-cA_3g77-a1-m2-cA 3g77-a1-m1-cA_3g77-a1-m3-cA 3g77-a1-m2-cA_3g77-a1-m3-cA 3g77-a1-m4-cA_3g77-a1-m5-cA 3g77-a1-m4-cA_3g77-a1-m6-cA 3g77-a1-m5-cA_3g77-a1-m6-cA 3o7u-a1-m1-cA_3o7u-a1-m2-cA 3o7u-a1-m1-cA_3o7u-a1-m3-cA 3o7u-a1-m2-cA_3o7u-a1-m3-cA 3o7u-a1-m4-cA_3o7u-a1-m5-cA 3o7u-a1-m4-cA_3o7u-a1-m6-cA 3o7u-a1-m5-cA_3o7u-a1-m6-cA ALQTIINARLPGEEGLWQIHLQDGKISAIDAQSGVMPITENSLDAEQGLVIPPFVEPHIHLDTTQTAGQPNWNQSGTLFEGIERWAERKALLTHDDVKQRAWQTLKWQIANGIQHVRTHVDVSDATLTALKAMLEVKQEVAPWIDLQIVAFPQEGILSYPNGEALLEEALRLGADVVGAIPHFEFTREYGVESLHKTFALAQKYDRLIDVHCDEIDDEQSRFVETVAALAHHEGMGARVTASHTTAMHSYNGAYTSRLFRLLKMSGINFVANPLVNIHLQGRFDTYPKRRGITRVKEMLESGINVCFGHDGVFDPWYPLGTANMLQVLHMGLHVCQLMGYGQINDGLNLITHHSARTLNLQDYGIAAGNSANLIILPAENGFDALRRQVPVRYSVRGGKVIASTQPAQTTVYLEQPEAIDYKR ALQTIINARLPGEEGLWQIHLQDGKISAIDAQSGVMPITENSLDAEQGLVIPPFVEPHIHLDTTQTAGQPNWNQSGTLFEGIERWAERKALLTHDDVKQRAWQTLKWQIANGIQHVRTHVDVSDATLTALKAMLEVKQEVAPWIDLQIVAFPQEGILSYPNGEALLEEALRLGADVVGAIPHFEFTREYGVESLHKTFALAQKYDRLIDVHCDEIDDEQSRFVETVAALAHHEGMGARVTASHTTAMHSYNGAYTSRLFRLLKMSGINFVANPLVNIHLQGRFDTYPKRRGITRVKEMLESGINVCFGHDGVFDPWYPLGTANMLQVLHMGLHVCQLMGYGQINDGLNLITHHSARTLNLQDYGIAAGNSANLIILPAENGFDALRRQVPVRYSVRGGKVIASTQPAQTTVYLEQPEAIDYKR 1raf-a1-m2-cA_1raf-a1-m3-cC CRYSTAL STRUCTURE OF CTP-LIGATED T STATE ASPARTATE TRANSCARBAMOYLASE AT 2.5 ANGSTROMS RESOLUTION: IMPLICATIONS FOR ATCASE MUTANTS AND THE MECHANISM OF NEGATIVE COOPERATIVITY P0A786 P0A786 2.5 X-RAY DIFFRACTION 12 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 310 310 1ezz-a1-m1-cA_1ezz-a1-m3-cC 1ezz-a1-m1-cC_1ezz-a1-m2-cA 1ezz-a1-m2-cC_1ezz-a1-m3-cA 1i5o-a1-m1-cA_1i5o-a1-m2-cC 1i5o-a1-m1-cC_1i5o-a1-m3-cA 1i5o-a1-m2-cA_1i5o-a1-m3-cC 1raa-a1-m1-cA_1raa-a1-m2-cC 1raa-a1-m1-cC_1raa-a1-m3-cA 1raa-a1-m2-cA_1raa-a1-m3-cC 1rab-a1-m1-cA_1rab-a1-m2-cC 1rab-a1-m1-cC_1rab-a1-m3-cA 1rab-a1-m2-cA_1rab-a1-m3-cC 1rac-a1-m1-cA_1rac-a1-m2-cC 1rac-a1-m1-cC_1rac-a1-m3-cA 1rac-a1-m2-cA_1rac-a1-m3-cC 1rad-a1-m1-cA_1rad-a1-m2-cC 1rad-a1-m1-cC_1rad-a1-m3-cA 1rad-a1-m2-cA_1rad-a1-m3-cC 1rae-a1-m1-cA_1rae-a1-m2-cC 1rae-a1-m1-cC_1rae-a1-m3-cA 1rae-a1-m2-cA_1rae-a1-m3-cC 1raf-a1-m1-cA_1raf-a1-m2-cC 1raf-a1-m1-cC_1raf-a1-m3-cA 1rag-a1-m1-cA_1rag-a1-m2-cC 1rag-a1-m1-cC_1rag-a1-m3-cA 1rag-a1-m2-cA_1rag-a1-m3-cC 1rah-a1-m1-cA_1rah-a1-m2-cC 1rah-a1-m1-cC_1rah-a1-m3-cA 1rah-a1-m2-cA_1rah-a1-m3-cC 1rai-a1-m1-cA_1rai-a1-m2-cC 1rai-a1-m1-cC_1rai-a1-m3-cA 1rai-a1-m2-cA_1rai-a1-m3-cC 1za1-a1-m1-cA_1za1-a1-m2-cC 1za1-a1-m1-cC_1za1-a1-m3-cA 1za1-a1-m2-cA_1za1-a1-m3-cC 2air-a1-m1-cA_2air-a1-m3-cG 2air-a1-m1-cG_2air-a1-m2-cA 2air-a1-m2-cG_2air-a1-m3-cA 2atc-a1-m1-cA_2atc-a1-m4-cA 2atc-a1-m2-cA_2atc-a1-m6-cA 2atc-a1-m3-cA_2atc-a1-m5-cA 2fzc-a1-m1-cA_2fzc-a1-m2-cC 2fzc-a1-m1-cC_2fzc-a1-m3-cA 2fzc-a1-m2-cA_2fzc-a1-m3-cC 2fzg-a1-m1-cA_2fzg-a1-m2-cC 2fzg-a1-m1-cC_2fzg-a1-m3-cA 2fzg-a1-m2-cA_2fzg-a1-m3-cC 2fzk-a1-m1-cA_2fzk-a1-m2-cC 2fzk-a1-m1-cC_2fzk-a1-m3-cA 2fzk-a1-m2-cA_2fzk-a1-m3-cC 2qg9-a1-m1-cA_2qg9-a1-m2-cC 2qg9-a1-m1-cC_2qg9-a1-m3-cA 2qg9-a1-m2-cA_2qg9-a1-m3-cC 3at1-a1-m1-cA_3at1-a1-m2-cC 3at1-a1-m1-cC_3at1-a1-m3-cA 3at1-a1-m2-cA_3at1-a1-m3-cC 4at1-a1-m1-cA_4at1-a1-m2-cC 4at1-a1-m1-cC_4at1-a1-m3-cA 4at1-a1-m2-cA_4at1-a1-m3-cC 4fyv-a1-m1-cA_4fyv-a1-m2-cC 4fyv-a1-m1-cC_4fyv-a1-m3-cA 4fyv-a1-m2-cA_4fyv-a1-m3-cC 4fyw-a1-m1-cA_4fyw-a1-m2-cC 4fyw-a1-m1-cC_4fyw-a1-m3-cA 4fyw-a1-m2-cA_4fyw-a1-m3-cC 4fyx-a1-m1-cA_4fyx-a1-m2-cC 4fyx-a1-m1-cC_4fyx-a1-m3-cA 4fyx-a1-m2-cA_4fyx-a1-m3-cC 4fyy-a1-m1-cA_4fyy-a1-m2-cC 4fyy-a1-m1-cC_4fyy-a1-m3-cA 4fyy-a1-m2-cA_4fyy-a1-m3-cC 6at1-a1-m1-cA_6at1-a1-m2-cC 6at1-a1-m1-cC_6at1-a1-m3-cA 6at1-a1-m2-cA_6at1-a1-m3-cC 6kj8-a1-m1-cA_6kj8-a1-m2-cA 6kj8-a1-m1-cE_6kj8-a1-m2-cC 6kj8-a1-m2-cE_6kj8-a1-m1-cC 6kjb-a1-m1-cA_6kjb-a1-m4-cA 6kjb-a1-m2-cA_6kjb-a1-m6-cA 6kjb-a1-m3-cA_6kjb-a1-m5-cA 9atc-a1-m1-cA_9atc-a1-m5-cA 9atc-a1-m2-cA_9atc-a1-m4-cA 9atc-a1-m3-cA_9atc-a1-m6-cA ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL 1rai-a1-m3-cD_1rai-a1-m3-cB CRYSTAL STRUCTURE OF CTP-LIGATED T STATE ASPARTATE TRANSCARBAMOYLASE AT 2.5 ANGSTROMS RESOLUTION: IMPLICATIONS FOR ATCASE MUTANTS AND THE MECHANISM OF NEGATIVE COOPERATIVITY P0A7F3 P0A7F3 2.5 X-RAY DIFFRACTION 63 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 146 153 1acm-a1-m1-cB_1acm-a1-m1-cD 1acm-a1-m2-cB_1acm-a1-m2-cD 1acm-a1-m3-cB_1acm-a1-m3-cD 1at1-a1-m1-cB_1at1-a1-m1-cD 1at1-a1-m2-cB_1at1-a1-m2-cD 1at1-a1-m3-cB_1at1-a1-m3-cD 1d09-a1-m1-cB_1d09-a1-m1-cD 1d09-a1-m2-cB_1d09-a1-m2-cD 1d09-a1-m3-cB_1d09-a1-m3-cD 1ezz-a1-m1-cB_1ezz-a1-m1-cD 1ezz-a1-m2-cB_1ezz-a1-m2-cD 1ezz-a1-m3-cB_1ezz-a1-m3-cD 1f1b-a1-m1-cB_1f1b-a1-m1-cD 1f1b-a1-m2-cB_1f1b-a1-m2-cD 1f1b-a1-m3-cB_1f1b-a1-m3-cD 1i5o-a1-m1-cB_1i5o-a1-m1-cD 1i5o-a1-m2-cB_1i5o-a1-m2-cD 1i5o-a1-m3-cB_1i5o-a1-m3-cD 1nbe-a1-m1-cB_1nbe-a1-m1-cD 1nbe-a1-m2-cB_1nbe-a1-m2-cD 1nbe-a1-m3-cB_1nbe-a1-m3-cD 1q95-a1-m1-cG_1q95-a1-m1-cJ 1q95-a1-m1-cH_1q95-a1-m1-cK 1q95-a1-m1-cI_1q95-a1-m1-cL 1r0b-a1-m1-cG_1r0b-a1-m1-cJ 1r0b-a1-m1-cH_1r0b-a1-m1-cK 1r0b-a1-m1-cI_1r0b-a1-m1-cL 1r0c-a1-m1-cB_1r0c-a1-m1-cH 1r0c-a1-m2-cB_1r0c-a1-m2-cH 1r0c-a1-m3-cB_1r0c-a1-m3-cH 1raa-a1-m1-cB_1raa-a1-m1-cD 1raa-a1-m2-cB_1raa-a1-m2-cD 1raa-a1-m3-cB_1raa-a1-m3-cD 1rab-a1-m1-cB_1rab-a1-m1-cD 1rab-a1-m2-cB_1rab-a1-m2-cD 1rab-a1-m3-cB_1rab-a1-m3-cD 1rac-a1-m1-cB_1rac-a1-m1-cD 1rac-a1-m2-cB_1rac-a1-m2-cD 1rac-a1-m3-cB_1rac-a1-m3-cD 1rad-a1-m1-cB_1rad-a1-m1-cD 1rad-a1-m2-cB_1rad-a1-m2-cD 1rad-a1-m3-cB_1rad-a1-m3-cD 1rae-a1-m1-cB_1rae-a1-m1-cD 1rae-a1-m2-cB_1rae-a1-m2-cD 1rae-a1-m3-cB_1rae-a1-m3-cD 1raf-a1-m1-cB_1raf-a1-m1-cD 1raf-a1-m2-cB_1raf-a1-m2-cD 1raf-a1-m3-cB_1raf-a1-m3-cD 1rag-a1-m1-cB_1rag-a1-m1-cD 1rag-a1-m2-cB_1rag-a1-m2-cD 1rag-a1-m3-cB_1rag-a1-m3-cD 1rah-a1-m1-cB_1rah-a1-m1-cD 1rah-a1-m2-cB_1rah-a1-m2-cD 1rah-a1-m3-cB_1rah-a1-m3-cD 1rai-a1-m1-cD_1rai-a1-m1-cB 1rai-a1-m2-cD_1rai-a1-m2-cB 1sku-a1-m1-cB_1sku-a1-m1-cD 1sku-a1-m2-cB_1sku-a1-m2-cD 1sku-a1-m3-cB_1sku-a1-m3-cD 1tth-a1-m1-cB_1tth-a1-m1-cD 1tth-a1-m2-cB_1tth-a1-m2-cD 1tth-a1-m3-cB_1tth-a1-m3-cD 1tu0-a1-m1-cB_1tu0-a1-m1-cD 1tu0-a1-m2-cB_1tu0-a1-m2-cD 1tu0-a1-m3-cB_1tu0-a1-m3-cD 1tug-a1-m1-cB_1tug-a1-m1-cD 1tug-a1-m2-cB_1tug-a1-m2-cD 1tug-a1-m3-cB_1tug-a1-m3-cD 1xjw-a1-m1-cB_1xjw-a1-m1-cD 1xjw-a1-m2-cB_1xjw-a1-m2-cD 1xjw-a1-m3-cB_1xjw-a1-m3-cD 1za1-a1-m1-cB_1za1-a1-m1-cD 1za1-a1-m2-cB_1za1-a1-m2-cD 1za1-a1-m3-cB_1za1-a1-m3-cD 1za2-a1-m1-cB_1za2-a1-m1-cD 1za2-a1-m2-cB_1za2-a1-m2-cD 1za2-a1-m3-cB_1za2-a1-m3-cD 2a0f-a1-m1-cB_2a0f-a1-m1-cD 2a0f-a1-m2-cB_2a0f-a1-m2-cD 2a0f-a1-m3-cB_2a0f-a1-m3-cD 2air-a1-m1-cB_2air-a1-m1-cH 2air-a1-m2-cB_2air-a1-m2-cH 2air-a1-m3-cB_2air-a1-m3-cH 2at1-a1-m1-cB_2at1-a1-m1-cD 2at1-a1-m2-cB_2at1-a1-m2-cD 2at1-a1-m3-cB_2at1-a1-m3-cD 2fzc-a1-m1-cB_2fzc-a1-m1-cD 2fzc-a1-m2-cB_2fzc-a1-m2-cD 2fzc-a1-m3-cB_2fzc-a1-m3-cD 2fzg-a1-m1-cB_2fzg-a1-m1-cD 2fzg-a1-m2-cB_2fzg-a1-m2-cD 2fzg-a1-m3-cB_2fzg-a1-m3-cD 2fzk-a1-m1-cB_2fzk-a1-m1-cD 2fzk-a1-m2-cB_2fzk-a1-m2-cD 2fzk-a1-m3-cB_2fzk-a1-m3-cD 2h3e-a1-m1-cB_2h3e-a1-m1-cD 2h3e-a1-m2-cB_2h3e-a1-m2-cD 2h3e-a1-m3-cB_2h3e-a1-m3-cD 2hse-a1-m1-cB_2hse-a1-m1-cD 2hse-a1-m2-cB_2hse-a1-m2-cD 2hse-a1-m3-cB_2hse-a1-m3-cD 2ipo-a1-m1-cB_2ipo-a1-m1-cD 2ipo-a1-m2-cB_2ipo-a1-m2-cD 2ipo-a1-m3-cB_2ipo-a1-m3-cD 2qg9-a1-m1-cB_2qg9-a1-m1-cD 2qg9-a1-m2-cB_2qg9-a1-m2-cD 2qg9-a1-m3-cB_2qg9-a1-m3-cD 2qgf-a1-m1-cB_2qgf-a1-m1-cD 2qgf-a1-m2-cB_2qgf-a1-m2-cD 2qgf-a1-m3-cB_2qgf-a1-m3-cD 3at1-a1-m1-cB_3at1-a1-m1-cD 3at1-a1-m2-cB_3at1-a1-m2-cD 3at1-a1-m3-cB_3at1-a1-m3-cD 3d7s-a1-m1-cB_3d7s-a1-m1-cD 3d7s-a1-m2-cB_3d7s-a1-m2-cD 3d7s-a1-m3-cB_3d7s-a1-m3-cD 3mpu-a1-m1-cB_3mpu-a1-m3-cD 3mpu-a1-m1-cD_3mpu-a1-m2-cB 3mpu-a1-m2-cD_3mpu-a1-m3-cB 3mpu-a2-m1-cF_3mpu-a2-m8-cF 3mpu-a2-m4-cF_3mpu-a2-m7-cF 3mpu-a2-m5-cF_3mpu-a2-m6-cF 4at1-a1-m1-cB_4at1-a1-m1-cD 4at1-a1-m2-cB_4at1-a1-m2-cD 4at1-a1-m3-cB_4at1-a1-m3-cD 4e2f-a1-m1-cB_4e2f-a1-m1-cD 4e2f-a1-m1-cF_4e2f-a1-m1-cH 4e2f-a1-m1-cJ_4e2f-a1-m1-cL 4f04-a1-m1-cB_4f04-a1-m1-cD 4f04-a1-m2-cB_4f04-a1-m2-cD 4f04-a1-m3-cB_4f04-a1-m3-cD 4fyv-a1-m1-cB_4fyv-a1-m1-cD 4fyv-a1-m2-cB_4fyv-a1-m2-cD 4fyv-a1-m3-cB_4fyv-a1-m3-cD 4fyw-a1-m1-cB_4fyw-a1-m1-cD 4fyw-a1-m2-cB_4fyw-a1-m2-cD 4fyw-a1-m3-cB_4fyw-a1-m3-cD 4fyx-a1-m1-cB_4fyx-a1-m1-cD 4fyx-a1-m2-cB_4fyx-a1-m2-cD 4fyx-a1-m3-cB_4fyx-a1-m3-cD 4fyy-a1-m1-cB_4fyy-a1-m1-cD 4fyy-a1-m2-cB_4fyy-a1-m2-cD 4fyy-a1-m3-cB_4fyy-a1-m3-cD 4kgv-a1-m1-cB_4kgv-a1-m1-cD 4kgv-a1-m2-cB_4kgv-a1-m2-cD 4kgv-a1-m3-cB_4kgv-a1-m3-cD 4kgx-a1-m1-cD_4kgx-a1-m1-cB 4kgx-a1-m2-cD_4kgx-a1-m2-cB 4kgx-a1-m3-cD_4kgx-a1-m3-cB 4kgz-a1-m1-cD_4kgz-a1-m1-cB 4kgz-a1-m2-cD_4kgz-a1-m2-cB 4kgz-a1-m3-cD_4kgz-a1-m3-cB 4kh0-a1-m1-cB_4kh0-a1-m1-cD 4kh0-a1-m2-cB_4kh0-a1-m2-cD 4kh0-a1-m3-cB_4kh0-a1-m3-cD 4kh1-a1-m1-cB_4kh1-a1-m1-cD 4kh1-a1-m2-cB_4kh1-a1-m2-cD 4kh1-a1-m3-cB_4kh1-a1-m3-cD 5at1-a1-m1-cB_5at1-a1-m1-cD 5at1-a1-m2-cB_5at1-a1-m2-cD 5at1-a1-m3-cB_5at1-a1-m3-cD 6at1-a1-m1-cB_6at1-a1-m1-cD 6at1-a1-m2-cB_6at1-a1-m2-cD 6at1-a1-m3-cB_6at1-a1-m3-cD 6kj8-a1-m1-cB_6kj8-a1-m2-cF 6kj8-a1-m1-cD_6kj8-a1-m2-cD 6kj8-a1-m2-cB_6kj8-a1-m1-cF 6kja-a1-m1-cB_6kja-a1-m2-cF 6kja-a1-m1-cD_6kja-a1-m2-cD 6kja-a1-m1-cF_6kja-a1-m2-cB 6kjb-a1-m1-cB_6kjb-a1-m5-cB 6kjb-a1-m2-cB_6kjb-a1-m4-cB 6kjb-a1-m3-cB_6kjb-a1-m6-cB 7at1-a1-m1-cB_7at1-a1-m1-cD 7at1-a1-m2-cB_7at1-a1-m2-cD 7at1-a1-m3-cB_7at1-a1-m3-cD 8at1-a1-m1-cB_8at1-a1-m1-cD 8at1-a1-m2-cB_8at1-a1-m2-cD 8at1-a1-m3-cB_8at1-a1-m3-cD 8atc-a1-m1-cB_8atc-a1-m1-cD 8atc-a1-m2-cB_8atc-a1-m2-cD 8atc-a1-m3-cB_8atc-a1-m3-cD 9atc-a1-m1-cB_9atc-a1-m4-cB 9atc-a1-m2-cB_9atc-a1-m6-cB 9atc-a1-m3-cB_9atc-a1-m5-cB QVEAIKRGTVIDHIPAQIGFKLLSLFKLTETDQRITIGLNLPSGEMGRKDLIKIENTFLSEDQVDQLALYAPQATVNRIDNYEVVGKSRPSLPERIDNVLVCPNSNCISHAEPVSSSFAVRKRANDIALKCKYCEKEFSHNVVLAN MTHDNKLQVEAIKRGTVIDHIPAQIGFKLLSLFKLTETDQRITIGLNLPSGEMGRKDLIKIENTFLSEDQVDQLALYAPQATVNRIDNYEVVGKSRPSLPERIDNVLVCPNSNCISHAEPVSSSFAVRKRANDIALKCKYCEKEFSHNVVLAN 1ram-a1-m1-cA_1ram-a1-m1-cB A NOVEL DNA RECOGNITION MODE BY NF-KB P65 HOMODIMER Q04207 Q04207 2.7 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 273 273 1bft-a1-m1-cA_1bft-a1-m1-cB 1my5-a1-m1-cB_1my5-a1-m1-cA 1my7-a1-m1-cB_1my7-a1-m1-cA 1oy3-a1-m1-cB_1oy3-a1-m1-cC 2ram-a1-m1-cA_2ram-a1-m1-cB 5u01-a1-m1-cA_5u01-a1-m1-cB 5u01-a1-m1-cC_5u01-a1-m1-cD PYVEIIEQPKQRGMRFRYKCEGRSAGSIPGERSTDTTKTHPTIKINGYTGPGTVRISLVTKDPPHRPHPHELVGKDCRDGYYEADLCPDRSIHSFQNLGIQCVKKRDLEQAISQRIQTNNNPFHVPIEEQRGDYDLNAVRLCFQVTVRDPAGRPLLLTPVLSHPIFDNRAPNTAELKICRVNRNSGSCLGGDEIFLLCDKVQKEDIEVYFTGPGWEARGSFSQADVHRQVAIVFRTPPYADPSLQAPVRVSMQLRRPSDRELSEPMEFQYLPD PYVEIIEQPKQRGMRFRYKCEGRSAGSIPGERSTDTTKTHPTIKINGYTGPGTVRISLVTKDPPHRPHPHELVGKDCRDGYYEADLCPDRSIHSFQNLGIQCVKKRDLEQAISQRIQTNNNPFHVPIEEQRGDYDLNAVRLCFQVTVRDPAGRPLLLTPVLSHPIFDNRAPNTAELKICRVNRNSGSCLGGDEIFLLCDKVQKEDIEVYFTGPGWEARGSFSQADVHRQVAIVFRTPPYADPSLQAPVRVSMQLRRPSDRELSEPMEFQYLPD 1rb5-a1-m1-cC_1rb5-a1-m1-cB ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TRIGONAL FORM P03069 P03069 1.9 X-RAY DIFFRACTION 33 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 32 33 RMKQLEDKVEELLSKAYHLENEVARLKKLVGE RMKQLEDKVEELLSKAYHLENEVARLKKLVGER 1rb6-a1-m1-cC_1rb6-a1-m1-cA ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL FORM P03069 P03069 1.9 X-RAY DIFFRACTION 37 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 31 33 1rb5-a1-m1-cC_1rb5-a1-m1-cA RMKQLEDKVEELLSKAYHLENEVARLKKLVG RMKQLEDKVEELLSKAYHLENEVARLKKLVGER 1rb6-a1-m1-cC_1rb6-a1-m1-cB ANTIPARALLEL TRIMER OF GCN4-LEUCINE ZIPPER CORE MUTANT AS N16A TETRAGONAL FORM P03069 P03069 1.9 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 31 32 1rb4-a1-m1-cC_1rb4-a1-m1-cB 3k7z-a1-m1-cC_3k7z-a1-m1-cB RMKQLEDKVEELLSKAYHLENEVARLKKLVG RMKQLEDKVEELLSKAYHLENEVARLKKLVGE 1rbl-a1-m1-cE_1rbl-a1-m1-cH STRUCTURE DETERMINATION AND REFINEMENT OF RIBULOSE 1,5 BISPHOSPHATE CARBOXYLASE(SLASH)OXYGENASE FROM SYNECHOCOCCUS PCC6301 P00880 P00880 2.2 X-RAY DIFFRACTION 30 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 467 467 1rbl-a1-m1-cA_1rbl-a1-m1-cD 1rbl-a1-m1-cB_1rbl-a1-m1-cG 1rbl-a1-m1-cC_1rbl-a1-m1-cF 1rsc-a1-m1-cA_1rsc-a1-m1-cD 1rsc-a1-m1-cB_1rsc-a1-m1-cG 1rsc-a1-m1-cC_1rsc-a1-m1-cF 1rsc-a1-m1-cE_1rsc-a1-m1-cH 2wvw-a1-m1-cA_2wvw-a1-m1-cC 2wvw-a1-m1-cB_2wvw-a1-m1-cE 2wvw-a1-m1-cD_2wvw-a1-m1-cG 2wvw-a1-m1-cF_2wvw-a1-m1-cH 3rg6-a1-m1-cB_3rg6-a1-m4-cA 3rg6-a1-m2-cB_3rg6-a1-m3-cA 3rg6-a1-m3-cB_3rg6-a1-m1-cA 3rg6-a1-m4-cB_3rg6-a1-m2-cA 6hbc-a1-m1-cB_6hbc-a1-m1-cC 6hbc-a1-m2-cB_6hbc-a1-m2-cC 6hbc-a1-m3-cB_6hbc-a1-m3-cC 6hbc-a1-m4-cB_6hbc-a1-m4-cC 6smh-a1-m1-cA_6smh-a1-m1-cE 6smh-a1-m1-cB_6smh-a1-m1-cH 6smh-a1-m1-cC_6smh-a1-m1-cG 6smh-a1-m1-cD_6smh-a1-m1-cF SAAGYKAGVKDYKLTYYTPDYTPKDTDLLAAFRFSPQPGVPADEAGAAIAAESSTGTWTTVWTDLLTDMDRYKGKCYHIEPVAGEENSYFAFIAYPLDLFEEGSVTNILTSIVGNVFGFKAIRSLRLEDIRFPVALVKTFQGPPHGIQVERDLLNKYGRPMLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENINSQPFQRWRDRFLFVADAIHKSQAETGEIKGHYLNVTAPTCEEMMKRAEFAKELGMPIIMHDFLTAGFTANTTLAKWCRDNGVLLHIHRAMHAVIDRQRNHGIHFRVLAKCLRLSGGDHLHSGTVVGKLEGDKASTLGFVDLMREDHIEADRSRGVFFTQDWASMPGVLPVASGGIHVWHMPALVEIFGDDSVLQFGGGTLGHPWGNAPGATANRVALEACVQARNEGRDLYREGGDILREAGKWSPELAAALDLWKEIKFEFETMDKL SAAGYKAGVKDYKLTYYTPDYTPKDTDLLAAFRFSPQPGVPADEAGAAIAAESSTGTWTTVWTDLLTDMDRYKGKCYHIEPVAGEENSYFAFIAYPLDLFEEGSVTNILTSIVGNVFGFKAIRSLRLEDIRFPVALVKTFQGPPHGIQVERDLLNKYGRPMLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENINSQPFQRWRDRFLFVADAIHKSQAETGEIKGHYLNVTAPTCEEMMKRAEFAKELGMPIIMHDFLTAGFTANTTLAKWCRDNGVLLHIHRAMHAVIDRQRNHGIHFRVLAKCLRLSGGDHLHSGTVVGKLEGDKASTLGFVDLMREDHIEADRSRGVFFTQDWASMPGVLPVASGGIHVWHMPALVEIFGDDSVLQFGGGTLGHPWGNAPGATANRVALEACVQARNEGRDLYREGGDILREAGKWSPELAAALDLWKEIKFEFETMDKL 1rbl-a1-m1-cF_1rbl-a1-m1-cH STRUCTURE DETERMINATION AND REFINEMENT OF RIBULOSE 1,5 BISPHOSPHATE CARBOXYLASE(SLASH)OXYGENASE FROM SYNECHOCOCCUS PCC6301 P00880 P00880 2.2 X-RAY DIFFRACTION 23 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 467 467 1rbl-a1-m1-cA_1rbl-a1-m1-cC 1rbl-a1-m1-cA_1rbl-a1-m1-cG 1rbl-a1-m1-cB_1rbl-a1-m1-cD 1rbl-a1-m1-cB_1rbl-a1-m1-cH 1rbl-a1-m1-cC_1rbl-a1-m1-cE 1rbl-a1-m1-cD_1rbl-a1-m1-cF 1rbl-a1-m1-cE_1rbl-a1-m1-cG 1rsc-a1-m1-cA_1rsc-a1-m1-cC 1rsc-a1-m1-cA_1rsc-a1-m1-cG 1rsc-a1-m1-cB_1rsc-a1-m1-cD 1rsc-a1-m1-cB_1rsc-a1-m1-cH 1rsc-a1-m1-cC_1rsc-a1-m1-cE 1rsc-a1-m1-cD_1rsc-a1-m1-cF 1rsc-a1-m1-cE_1rsc-a1-m1-cG 1rsc-a1-m1-cF_1rsc-a1-m1-cH 2wvw-a1-m1-cA_2wvw-a1-m1-cB 2wvw-a1-m1-cA_2wvw-a1-m1-cF 2wvw-a1-m1-cB_2wvw-a1-m1-cD 2wvw-a1-m1-cC_2wvw-a1-m1-cE 2wvw-a1-m1-cC_2wvw-a1-m1-cH 2wvw-a1-m1-cD_2wvw-a1-m1-cF 2wvw-a1-m1-cE_2wvw-a1-m1-cG 2wvw-a1-m1-cG_2wvw-a1-m1-cH 3rg6-a1-m1-cA_3rg6-a1-m3-cA 3rg6-a1-m1-cA_3rg6-a1-m4-cA 3rg6-a1-m1-cB_3rg6-a1-m3-cB 3rg6-a1-m1-cB_3rg6-a1-m4-cB 3rg6-a1-m2-cA_3rg6-a1-m3-cA 3rg6-a1-m2-cA_3rg6-a1-m4-cA 3rg6-a1-m2-cB_3rg6-a1-m3-cB 3rg6-a1-m2-cB_3rg6-a1-m4-cB 6hbc-a1-m1-cB_6hbc-a1-m2-cC 6hbc-a1-m1-cB_6hbc-a1-m4-cC 6hbc-a1-m1-cC_6hbc-a1-m2-cB 6hbc-a1-m1-cC_6hbc-a1-m4-cB 6hbc-a1-m2-cB_6hbc-a1-m3-cC 6hbc-a1-m2-cC_6hbc-a1-m3-cB 6hbc-a1-m3-cB_6hbc-a1-m4-cC 6hbc-a1-m3-cC_6hbc-a1-m4-cB 6smh-a1-m1-cA_6smh-a1-m1-cB 6smh-a1-m1-cA_6smh-a1-m1-cD 6smh-a1-m1-cB_6smh-a1-m1-cC 6smh-a1-m1-cC_6smh-a1-m1-cD 6smh-a1-m1-cE_6smh-a1-m1-cF 6smh-a1-m1-cE_6smh-a1-m1-cH 6smh-a1-m1-cF_6smh-a1-m1-cG 6smh-a1-m1-cG_6smh-a1-m1-cH SAAGYKAGVKDYKLTYYTPDYTPKDTDLLAAFRFSPQPGVPADEAGAAIAAESSTGTWTTVWTDLLTDMDRYKGKCYHIEPVAGEENSYFAFIAYPLDLFEEGSVTNILTSIVGNVFGFKAIRSLRLEDIRFPVALVKTFQGPPHGIQVERDLLNKYGRPMLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENINSQPFQRWRDRFLFVADAIHKSQAETGEIKGHYLNVTAPTCEEMMKRAEFAKELGMPIIMHDFLTAGFTANTTLAKWCRDNGVLLHIHRAMHAVIDRQRNHGIHFRVLAKCLRLSGGDHLHSGTVVGKLEGDKASTLGFVDLMREDHIEADRSRGVFFTQDWASMPGVLPVASGGIHVWHMPALVEIFGDDSVLQFGGGTLGHPWGNAPGATANRVALEACVQARNEGRDLYREGGDILREAGKWSPELAAALDLWKEIKFEFETMDKL SAAGYKAGVKDYKLTYYTPDYTPKDTDLLAAFRFSPQPGVPADEAGAAIAAESSTGTWTTVWTDLLTDMDRYKGKCYHIEPVAGEENSYFAFIAYPLDLFEEGSVTNILTSIVGNVFGFKAIRSLRLEDIRFPVALVKTFQGPPHGIQVERDLLNKYGRPMLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENINSQPFQRWRDRFLFVADAIHKSQAETGEIKGHYLNVTAPTCEEMMKRAEFAKELGMPIIMHDFLTAGFTANTTLAKWCRDNGVLLHIHRAMHAVIDRQRNHGIHFRVLAKCLRLSGGDHLHSGTVVGKLEGDKASTLGFVDLMREDHIEADRSRGVFFTQDWASMPGVLPVASGGIHVWHMPALVEIFGDDSVLQFGGGTLGHPWGNAPGATANRVALEACVQARNEGRDLYREGGDILREAGKWSPELAAALDLWKEIKFEFETMDKL 1rbl-a1-m1-cG_1rbl-a1-m1-cH STRUCTURE DETERMINATION AND REFINEMENT OF RIBULOSE 1,5 BISPHOSPHATE CARBOXYLASE(SLASH)OXYGENASE FROM SYNECHOCOCCUS PCC6301 P00880 P00880 2.2 X-RAY DIFFRACTION 386 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 467 467 1rbl-a1-m1-cA_1rbl-a1-m1-cB 1rbl-a1-m1-cC_1rbl-a1-m1-cD 1rbl-a1-m1-cE_1rbl-a1-m1-cF 1rsc-a1-m1-cA_1rsc-a1-m1-cB 1rsc-a1-m1-cC_1rsc-a1-m1-cD 1rsc-a1-m1-cE_1rsc-a1-m1-cF 1rsc-a1-m1-cG_1rsc-a1-m1-cH 2wvw-a1-m1-cA_2wvw-a1-m1-cH 2wvw-a1-m1-cB_2wvw-a1-m1-cC 2wvw-a1-m1-cD_2wvw-a1-m1-cE 2wvw-a1-m1-cF_2wvw-a1-m1-cG 3rg6-a1-m1-cB_3rg6-a1-m1-cA 3rg6-a1-m2-cB_3rg6-a1-m2-cA 3rg6-a1-m3-cB_3rg6-a1-m3-cA 3rg6-a1-m4-cB_3rg6-a1-m4-cA 6hbc-a1-m1-cB_6hbc-a1-m2-cB 6hbc-a1-m1-cC_6hbc-a1-m4-cC 6hbc-a1-m2-cC_6hbc-a1-m3-cC 6hbc-a1-m3-cB_6hbc-a1-m4-cB 6smh-a1-m1-cA_6smh-a1-m1-cH 6smh-a1-m1-cB_6smh-a1-m1-cG 6smh-a1-m1-cC_6smh-a1-m1-cF 6smh-a1-m1-cD_6smh-a1-m1-cE SAAGYKAGVKDYKLTYYTPDYTPKDTDLLAAFRFSPQPGVPADEAGAAIAAESSTGTWTTVWTDLLTDMDRYKGKCYHIEPVAGEENSYFAFIAYPLDLFEEGSVTNILTSIVGNVFGFKAIRSLRLEDIRFPVALVKTFQGPPHGIQVERDLLNKYGRPMLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENINSQPFQRWRDRFLFVADAIHKSQAETGEIKGHYLNVTAPTCEEMMKRAEFAKELGMPIIMHDFLTAGFTANTTLAKWCRDNGVLLHIHRAMHAVIDRQRNHGIHFRVLAKCLRLSGGDHLHSGTVVGKLEGDKASTLGFVDLMREDHIEADRSRGVFFTQDWASMPGVLPVASGGIHVWHMPALVEIFGDDSVLQFGGGTLGHPWGNAPGATANRVALEACVQARNEGRDLYREGGDILREAGKWSPELAAALDLWKEIKFEFETMDKL SAAGYKAGVKDYKLTYYTPDYTPKDTDLLAAFRFSPQPGVPADEAGAAIAAESSTGTWTTVWTDLLTDMDRYKGKCYHIEPVAGEENSYFAFIAYPLDLFEEGSVTNILTSIVGNVFGFKAIRSLRLEDIRFPVALVKTFQGPPHGIQVERDLLNKYGRPMLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENINSQPFQRWRDRFLFVADAIHKSQAETGEIKGHYLNVTAPTCEEMMKRAEFAKELGMPIIMHDFLTAGFTANTTLAKWCRDNGVLLHIHRAMHAVIDRQRNHGIHFRVLAKCLRLSGGDHLHSGTVVGKLEGDKASTLGFVDLMREDHIEADRSRGVFFTQDWASMPGVLPVASGGIHVWHMPALVEIFGDDSVLQFGGGTLGHPWGNAPGATANRVALEACVQARNEGRDLYREGGDILREAGKWSPELAAALDLWKEIKFEFETMDKL 1rbl-a1-m1-cO_1rbl-a1-m1-cP STRUCTURE DETERMINATION AND REFINEMENT OF RIBULOSE 1,5 BISPHOSPHATE CARBOXYLASE(SLASH)OXYGENASE FROM SYNECHOCOCCUS PCC6301 P04716 P04716 2.2 X-RAY DIFFRACTION 10 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 109 109 1rbl-a1-m1-cI_1rbl-a1-m1-cJ 1rbl-a1-m1-cI_1rbl-a1-m1-cL 1rbl-a1-m1-cJ_1rbl-a1-m1-cK 1rbl-a1-m1-cK_1rbl-a1-m1-cL 1rbl-a1-m1-cM_1rbl-a1-m1-cN 1rbl-a1-m1-cM_1rbl-a1-m1-cP 1rbl-a1-m1-cN_1rbl-a1-m1-cO 1rsc-a1-m1-cK_1rsc-a1-m1-cL 1rsc-a1-m1-cN_1rsc-a1-m1-cO 6hbc-a1-m1-cD_6hbc-a1-m4-cE 6hbc-a1-m1-cE_6hbc-a1-m2-cD 6hbc-a1-m1-cE_6hbc-a1-m4-cD 6hbc-a1-m2-cE_6hbc-a1-m3-cD 6hbc-a1-m3-cD_6hbc-a1-m4-cE SMKTLPKERRFETFSYLPPLSDRQIAAQIEYMIEQGFHPLIEFNEHSNPEEFYWTMWKLPLFACAAPQQVLDEVRECRSEYGDCYIRVAGFDNIKECQTSSFIVHRPGR SMKTLPKERRFETFSYLPPLSDRQIAAQIEYMIEQGFHPLIEFNEHSNPEEFYWTMWKLPLFACAAPQQVLDEVRECRSEYGDCYIRVAGFDNIKECQTSSFIVHRPGR 1rc6-a3-m2-cB_1rc6-a3-m4-cB Crystal structure of protein Ylba from E. coli, Pfam DUF861 P75713 P75713 2.6 X-RAY DIFFRACTION 55 1.0 562 (Escherichia coli) 562 (Escherichia coli) 242 242 1rc6-a3-m1-cA_1rc6-a3-m3-cA 1rc6-a3-m1-cA_1rc6-a3-m4-cA 1rc6-a3-m1-cB_1rc6-a3-m3-cB 1rc6-a3-m1-cB_1rc6-a3-m4-cB 1rc6-a3-m2-cA_1rc6-a3-m3-cA 1rc6-a3-m2-cA_1rc6-a3-m4-cA 1rc6-a3-m2-cB_1rc6-a3-m3-cB GYREDLLANRAIVKHGNFALLTPDGLVKNIIPGFENCDATILSTPKLGASFVDYLVTLHQNGGNQQGFGGEGIETFLYVISGNITAKAEGKTFALSEGGYLYCPPGSLMTFVNAQAEDSQIFLYKRRYVPVEGYAPWLVSGNASELERIVILLDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNNWIPVKKGDYIFMGAYSLQAGYGVAFSYIYSKDCNRDVEI GYREDLLANRAIVKHGNFALLTPDGLVKNIIPGFENCDATILSTPKLGASFVDYLVTLHQNGGNQQGFGGEGIETFLYVISGNITAKAEGKTFALSEGGYLYCPPGSLMTFVNAQAEDSQIFLYKRRYVPVEGYAPWLVSGNASELERIVILLDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNNWIPVKKGDYIFMGAYSLQAGYGVAFSYIYSKDCNRDVEI 1rc6-a3-m4-cA_1rc6-a3-m4-cB Crystal structure of protein Ylba from E. coli, Pfam DUF861 P75713 P75713 2.6 X-RAY DIFFRACTION 60 1.0 562 (Escherichia coli) 562 (Escherichia coli) 242 242 1rc6-a3-m1-cA_1rc6-a3-m1-cB 1rc6-a3-m2-cA_1rc6-a3-m2-cB 1rc6-a3-m3-cA_1rc6-a3-m3-cB GYREDLLANRAIVKHGNFALLTPDGLVKNIIPGFENCDATILSTPKLGASFVDYLVTLHQNGGNQQGFGGEGIETFLYVISGNITAKAEGKTFALSEGGYLYCPPGSLMTFVNAQAEDSQIFLYKRRYVPVEGYAPWLVSGNASELERIVILLDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNNWIPVKKGDYIFMGAYSLQAGYGVAFSYIYSKDCNRDVEI GYREDLLANRAIVKHGNFALLTPDGLVKNIIPGFENCDATILSTPKLGASFVDYLVTLHQNGGNQQGFGGEGIETFLYVISGNITAKAEGKTFALSEGGYLYCPPGSLMTFVNAQAEDSQIFLYKRRYVPVEGYAPWLVSGNASELERIVILLDFLPKELGFDMNMHILSFAPGASHGYIETHVQEHGAYILSGQGVYNLDNNWIPVKKGDYIFMGAYSLQAGYGVAFSYIYSKDCNRDVEI 1rci-a1-m15-cA_1rci-a1-m9-cA BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5 P07797 P07797 2 X-RAY DIFFRACTION 30 1.0 8400 (Lithobates catesbeianus) 8400 (Lithobates catesbeianus) 171 171 1rcc-a1-m10-cA_1rcc-a1-m21-cA 1rcc-a1-m10-cA_1rcc-a1-m24-cA 1rcc-a1-m11-cA_1rcc-a1-m21-cA 1rcc-a1-m11-cA_1rcc-a1-m24-cA 1rcc-a1-m12-cA_1rcc-a1-m22-cA 1rcc-a1-m12-cA_1rcc-a1-m23-cA 1rcc-a1-m13-cA_1rcc-a1-m5-cA 1rcc-a1-m13-cA_1rcc-a1-m8-cA 1rcc-a1-m14-cA_1rcc-a1-m6-cA 1rcc-a1-m14-cA_1rcc-a1-m7-cA 1rcc-a1-m15-cA_1rcc-a1-m6-cA 1rcc-a1-m15-cA_1rcc-a1-m7-cA 1rcc-a1-m16-cA_1rcc-a1-m5-cA 1rcc-a1-m16-cA_1rcc-a1-m8-cA 1rcc-a1-m17-cA_1rcc-a1-m4-cA 1rcc-a1-m18-cA_1rcc-a1-m2-cA 1rcc-a1-m18-cA_1rcc-a1-m3-cA 1rcc-a1-m19-cA_1rcc-a1-m2-cA 1rcc-a1-m19-cA_1rcc-a1-m3-cA 1rcc-a1-m1-cA_1rcc-a1-m17-cA 1rcc-a1-m1-cA_1rcc-a1-m20-cA 1rcc-a1-m20-cA_1rcc-a1-m4-cA 1rcc-a1-m22-cA_1rcc-a1-m9-cA 1rcc-a1-m23-cA_1rcc-a1-m9-cA 1rcd-a1-m10-cA_1rcd-a1-m21-cA 1rcd-a1-m10-cA_1rcd-a1-m24-cA 1rcd-a1-m11-cA_1rcd-a1-m21-cA 1rcd-a1-m11-cA_1rcd-a1-m24-cA 1rcd-a1-m12-cA_1rcd-a1-m22-cA 1rcd-a1-m12-cA_1rcd-a1-m23-cA 1rcd-a1-m13-cA_1rcd-a1-m5-cA 1rcd-a1-m13-cA_1rcd-a1-m8-cA 1rcd-a1-m14-cA_1rcd-a1-m6-cA 1rcd-a1-m14-cA_1rcd-a1-m7-cA 1rcd-a1-m15-cA_1rcd-a1-m6-cA 1rcd-a1-m15-cA_1rcd-a1-m7-cA 1rcd-a1-m16-cA_1rcd-a1-m5-cA 1rcd-a1-m16-cA_1rcd-a1-m8-cA 1rcd-a1-m17-cA_1rcd-a1-m4-cA 1rcd-a1-m18-cA_1rcd-a1-m2-cA 1rcd-a1-m18-cA_1rcd-a1-m3-cA 1rcd-a1-m19-cA_1rcd-a1-m2-cA 1rcd-a1-m19-cA_1rcd-a1-m3-cA 1rcd-a1-m1-cA_1rcd-a1-m17-cA 1rcd-a1-m1-cA_1rcd-a1-m20-cA 1rcd-a1-m20-cA_1rcd-a1-m4-cA 1rcd-a1-m22-cA_1rcd-a1-m9-cA 1rcd-a1-m23-cA_1rcd-a1-m9-cA 1rce-a1-m10-cA_1rce-a1-m21-cA 1rce-a1-m10-cA_1rce-a1-m24-cA 1rce-a1-m11-cA_1rce-a1-m21-cA 1rce-a1-m11-cA_1rce-a1-m24-cA 1rce-a1-m12-cA_1rce-a1-m22-cA 1rce-a1-m12-cA_1rce-a1-m23-cA 1rce-a1-m13-cA_1rce-a1-m5-cA 1rce-a1-m13-cA_1rce-a1-m8-cA 1rce-a1-m14-cA_1rce-a1-m6-cA 1rce-a1-m14-cA_1rce-a1-m7-cA 1rce-a1-m15-cA_1rce-a1-m6-cA 1rce-a1-m15-cA_1rce-a1-m7-cA 1rce-a1-m16-cA_1rce-a1-m5-cA 1rce-a1-m16-cA_1rce-a1-m8-cA 1rce-a1-m17-cA_1rce-a1-m4-cA 1rce-a1-m18-cA_1rce-a1-m2-cA 1rce-a1-m18-cA_1rce-a1-m3-cA 1rce-a1-m19-cA_1rce-a1-m2-cA 1rce-a1-m19-cA_1rce-a1-m3-cA 1rce-a1-m1-cA_1rce-a1-m17-cA 1rce-a1-m1-cA_1rce-a1-m20-cA 1rce-a1-m20-cA_1rce-a1-m4-cA 1rce-a1-m22-cA_1rce-a1-m9-cA 1rce-a1-m23-cA_1rce-a1-m9-cA 1rcg-a1-m10-cA_1rcg-a1-m14-cA 1rcg-a1-m10-cA_1rcg-a1-m16-cA 1rcg-a1-m11-cA_1rcg-a1-m13-cA 1rcg-a1-m11-cA_1rcg-a1-m15-cA 1rcg-a1-m12-cA_1rcg-a1-m14-cA 1rcg-a1-m12-cA_1rcg-a1-m16-cA 1rcg-a1-m13-cA_1rcg-a1-m9-cA 1rcg-a1-m15-cA_1rcg-a1-m9-cA 1rcg-a1-m17-cA_1rcg-a1-m6-cA 1rcg-a1-m17-cA_1rcg-a1-m8-cA 1rcg-a1-m18-cA_1rcg-a1-m5-cA 1rcg-a1-m18-cA_1rcg-a1-m7-cA 1rcg-a1-m19-cA_1rcg-a1-m6-cA 1rcg-a1-m19-cA_1rcg-a1-m8-cA 1rcg-a1-m1-cA_1rcg-a1-m21-cA 1rcg-a1-m1-cA_1rcg-a1-m23-cA 1rcg-a1-m20-cA_1rcg-a1-m5-cA 1rcg-a1-m20-cA_1rcg-a1-m7-cA 1rcg-a1-m21-cA_1rcg-a1-m3-cA 1rcg-a1-m22-cA_1rcg-a1-m4-cA 1rcg-a1-m23-cA_1rcg-a1-m3-cA 1rcg-a1-m24-cA_1rcg-a1-m4-cA 1rcg-a1-m2-cA_1rcg-a1-m22-cA 1rcg-a1-m2-cA_1rcg-a1-m24-cA 1rci-a1-m10-cA_1rci-a1-m14-cA 1rci-a1-m10-cA_1rci-a1-m16-cA 1rci-a1-m11-cA_1rci-a1-m13-cA 1rci-a1-m11-cA_1rci-a1-m15-cA 1rci-a1-m12-cA_1rci-a1-m14-cA 1rci-a1-m12-cA_1rci-a1-m16-cA 1rci-a1-m13-cA_1rci-a1-m9-cA 1rci-a1-m17-cA_1rci-a1-m6-cA 1rci-a1-m17-cA_1rci-a1-m8-cA 1rci-a1-m18-cA_1rci-a1-m5-cA 1rci-a1-m18-cA_1rci-a1-m7-cA 1rci-a1-m19-cA_1rci-a1-m6-cA 1rci-a1-m19-cA_1rci-a1-m8-cA 1rci-a1-m1-cA_1rci-a1-m21-cA 1rci-a1-m1-cA_1rci-a1-m23-cA 1rci-a1-m20-cA_1rci-a1-m5-cA 1rci-a1-m20-cA_1rci-a1-m7-cA 1rci-a1-m21-cA_1rci-a1-m3-cA 1rci-a1-m22-cA_1rci-a1-m4-cA 1rci-a1-m23-cA_1rci-a1-m3-cA 1rci-a1-m24-cA_1rci-a1-m4-cA 1rci-a1-m2-cA_1rci-a1-m22-cA 1rci-a1-m2-cA_1rci-a1-m24-cA SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEHAEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALLDLHAVAADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSHPGMAEYLFNKHTLG SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEHAEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALLDLHAVAADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSHPGMAEYLFNKHTLG 1rci-a1-m21-cA_1rci-a1-m9-cA BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5 P07797 P07797 2 X-RAY DIFFRACTION 73 1.0 8400 (Lithobates catesbeianus) 8400 (Lithobates catesbeianus) 171 171 1rcc-a1-m10-cA_1rcc-a1-m13-cA 1rcc-a1-m11-cA_1rcc-a1-m14-cA 1rcc-a1-m12-cA_1rcc-a1-m15-cA 1rcc-a1-m16-cA_1rcc-a1-m9-cA 1rcc-a1-m17-cA_1rcc-a1-m5-cA 1rcc-a1-m18-cA_1rcc-a1-m8-cA 1rcc-a1-m19-cA_1rcc-a1-m7-cA 1rcc-a1-m1-cA_1rcc-a1-m22-cA 1rcc-a1-m20-cA_1rcc-a1-m6-cA 1rcc-a1-m21-cA_1rcc-a1-m4-cA 1rcc-a1-m24-cA_1rcc-a1-m3-cA 1rcc-a1-m2-cA_1rcc-a1-m23-cA 1rcd-a1-m10-cA_1rcd-a1-m13-cA 1rcd-a1-m11-cA_1rcd-a1-m14-cA 1rcd-a1-m12-cA_1rcd-a1-m15-cA 1rcd-a1-m16-cA_1rcd-a1-m9-cA 1rcd-a1-m17-cA_1rcd-a1-m5-cA 1rcd-a1-m18-cA_1rcd-a1-m8-cA 1rcd-a1-m19-cA_1rcd-a1-m7-cA 1rcd-a1-m1-cA_1rcd-a1-m22-cA 1rcd-a1-m20-cA_1rcd-a1-m6-cA 1rcd-a1-m21-cA_1rcd-a1-m4-cA 1rcd-a1-m24-cA_1rcd-a1-m3-cA 1rcd-a1-m2-cA_1rcd-a1-m23-cA 1rce-a1-m10-cA_1rce-a1-m13-cA 1rce-a1-m11-cA_1rce-a1-m14-cA 1rce-a1-m12-cA_1rce-a1-m15-cA 1rce-a1-m16-cA_1rce-a1-m9-cA 1rce-a1-m17-cA_1rce-a1-m5-cA 1rce-a1-m18-cA_1rce-a1-m8-cA 1rce-a1-m19-cA_1rce-a1-m7-cA 1rce-a1-m1-cA_1rce-a1-m22-cA 1rce-a1-m20-cA_1rce-a1-m6-cA 1rce-a1-m21-cA_1rce-a1-m4-cA 1rce-a1-m24-cA_1rce-a1-m3-cA 1rce-a1-m2-cA_1rce-a1-m23-cA 1rcg-a1-m10-cA_1rcg-a1-m23-cA 1rcg-a1-m11-cA_1rcg-a1-m22-cA 1rcg-a1-m12-cA_1rcg-a1-m24-cA 1rcg-a1-m13-cA_1rcg-a1-m6-cA 1rcg-a1-m14-cA_1rcg-a1-m8-cA 1rcg-a1-m15-cA_1rcg-a1-m5-cA 1rcg-a1-m16-cA_1rcg-a1-m7-cA 1rcg-a1-m17-cA_1rcg-a1-m3-cA 1rcg-a1-m19-cA_1rcg-a1-m4-cA 1rcg-a1-m1-cA_1rcg-a1-m18-cA 1rcg-a1-m21-cA_1rcg-a1-m9-cA 1rcg-a1-m2-cA_1rcg-a1-m20-cA 1rci-a1-m10-cA_1rci-a1-m23-cA 1rci-a1-m11-cA_1rci-a1-m22-cA 1rci-a1-m12-cA_1rci-a1-m24-cA 1rci-a1-m13-cA_1rci-a1-m6-cA 1rci-a1-m14-cA_1rci-a1-m8-cA 1rci-a1-m15-cA_1rci-a1-m5-cA 1rci-a1-m16-cA_1rci-a1-m7-cA 1rci-a1-m17-cA_1rci-a1-m3-cA 1rci-a1-m19-cA_1rci-a1-m4-cA 1rci-a1-m1-cA_1rci-a1-m18-cA 1rci-a1-m2-cA_1rci-a1-m20-cA SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEHAEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALLDLHAVAADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSHPGMAEYLFNKHTLG SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEHAEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALLDLHAVAADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSHPGMAEYLFNKHTLG 1rci-a1-m5-cA_1rci-a1-m9-cA BULLFROG RED CELL L FERRITIN TARTRATE/MG/PH 5.5 P07797 P07797 2 X-RAY DIFFRACTION 38 1.0 8400 (Lithobates catesbeianus) 8400 (Lithobates catesbeianus) 171 171 1rcc-a1-m10-cA_1rcc-a1-m4-cA 1rcc-a1-m10-cA_1rcc-a1-m5-cA 1rcc-a1-m11-cA_1rcc-a1-m3-cA 1rcc-a1-m11-cA_1rcc-a1-m7-cA 1rcc-a1-m12-cA_1rcc-a1-m6-cA 1rcc-a1-m13-cA_1rcc-a1-m18-cA 1rcc-a1-m13-cA_1rcc-a1-m24-cA 1rcc-a1-m14-cA_1rcc-a1-m20-cA 1rcc-a1-m14-cA_1rcc-a1-m21-cA 1rcc-a1-m15-cA_1rcc-a1-m19-cA 1rcc-a1-m15-cA_1rcc-a1-m23-cA 1rcc-a1-m16-cA_1rcc-a1-m17-cA 1rcc-a1-m16-cA_1rcc-a1-m22-cA 1rcc-a1-m17-cA_1rcc-a1-m22-cA 1rcc-a1-m18-cA_1rcc-a1-m24-cA 1rcc-a1-m19-cA_1rcc-a1-m23-cA 1rcc-a1-m1-cA_1rcc-a1-m12-cA 1rcc-a1-m1-cA_1rcc-a1-m6-cA 1rcc-a1-m20-cA_1rcc-a1-m21-cA 1rcc-a1-m2-cA_1rcc-a1-m8-cA 1rcc-a1-m2-cA_1rcc-a1-m9-cA 1rcc-a1-m3-cA_1rcc-a1-m7-cA 1rcc-a1-m4-cA_1rcc-a1-m5-cA 1rcc-a1-m8-cA_1rcc-a1-m9-cA 1rcd-a1-m10-cA_1rcd-a1-m4-cA 1rcd-a1-m10-cA_1rcd-a1-m5-cA 1rcd-a1-m11-cA_1rcd-a1-m3-cA 1rcd-a1-m11-cA_1rcd-a1-m7-cA 1rcd-a1-m12-cA_1rcd-a1-m6-cA 1rcd-a1-m13-cA_1rcd-a1-m18-cA 1rcd-a1-m13-cA_1rcd-a1-m24-cA 1rcd-a1-m14-cA_1rcd-a1-m20-cA 1rcd-a1-m14-cA_1rcd-a1-m21-cA 1rcd-a1-m15-cA_1rcd-a1-m19-cA 1rcd-a1-m15-cA_1rcd-a1-m23-cA 1rcd-a1-m16-cA_1rcd-a1-m17-cA 1rcd-a1-m16-cA_1rcd-a1-m22-cA 1rcd-a1-m17-cA_1rcd-a1-m22-cA 1rcd-a1-m18-cA_1rcd-a1-m24-cA 1rcd-a1-m19-cA_1rcd-a1-m23-cA 1rcd-a1-m1-cA_1rcd-a1-m12-cA 1rcd-a1-m1-cA_1rcd-a1-m6-cA 1rcd-a1-m20-cA_1rcd-a1-m21-cA 1rcd-a1-m2-cA_1rcd-a1-m8-cA 1rcd-a1-m2-cA_1rcd-a1-m9-cA 1rcd-a1-m3-cA_1rcd-a1-m7-cA 1rcd-a1-m4-cA_1rcd-a1-m5-cA 1rcd-a1-m8-cA_1rcd-a1-m9-cA 1rce-a1-m10-cA_1rce-a1-m4-cA 1rce-a1-m10-cA_1rce-a1-m5-cA 1rce-a1-m11-cA_1rce-a1-m3-cA 1rce-a1-m11-cA_1rce-a1-m7-cA 1rce-a1-m12-cA_1rce-a1-m6-cA 1rce-a1-m13-cA_1rce-a1-m18-cA 1rce-a1-m13-cA_1rce-a1-m24-cA 1rce-a1-m14-cA_1rce-a1-m20-cA 1rce-a1-m14-cA_1rce-a1-m21-cA 1rce-a1-m15-cA_1rce-a1-m19-cA 1rce-a1-m15-cA_1rce-a1-m23-cA 1rce-a1-m16-cA_1rce-a1-m17-cA 1rce-a1-m16-cA_1rce-a1-m22-cA 1rce-a1-m17-cA_1rce-a1-m22-cA 1rce-a1-m18-cA_1rce-a1-m24-cA 1rce-a1-m19-cA_1rce-a1-m23-cA 1rce-a1-m1-cA_1rce-a1-m12-cA 1rce-a1-m1-cA_1rce-a1-m6-cA 1rce-a1-m20-cA_1rce-a1-m21-cA 1rce-a1-m2-cA_1rce-a1-m8-cA 1rce-a1-m2-cA_1rce-a1-m9-cA 1rce-a1-m3-cA_1rce-a1-m7-cA 1rce-a1-m4-cA_1rce-a1-m5-cA 1rce-a1-m8-cA_1rce-a1-m9-cA 1rcg-a1-m10-cA_1rcg-a1-m3-cA 1rcg-a1-m10-cA_1rcg-a1-m8-cA 1rcg-a1-m11-cA_1rcg-a1-m4-cA 1rcg-a1-m11-cA_1rcg-a1-m6-cA 1rcg-a1-m12-cA_1rcg-a1-m2-cA 1rcg-a1-m12-cA_1rcg-a1-m7-cA 1rcg-a1-m13-cA_1rcg-a1-m17-cA 1rcg-a1-m13-cA_1rcg-a1-m21-cA 1rcg-a1-m14-cA_1rcg-a1-m19-cA 1rcg-a1-m14-cA_1rcg-a1-m24-cA 1rcg-a1-m15-cA_1rcg-a1-m20-cA 1rcg-a1-m15-cA_1rcg-a1-m22-cA 1rcg-a1-m16-cA_1rcg-a1-m18-cA 1rcg-a1-m16-cA_1rcg-a1-m23-cA 1rcg-a1-m17-cA_1rcg-a1-m21-cA 1rcg-a1-m18-cA_1rcg-a1-m23-cA 1rcg-a1-m19-cA_1rcg-a1-m24-cA 1rcg-a1-m1-cA_1rcg-a1-m5-cA 1rcg-a1-m1-cA_1rcg-a1-m9-cA 1rcg-a1-m20-cA_1rcg-a1-m22-cA 1rcg-a1-m2-cA_1rcg-a1-m7-cA 1rcg-a1-m3-cA_1rcg-a1-m8-cA 1rcg-a1-m4-cA_1rcg-a1-m6-cA 1rcg-a1-m5-cA_1rcg-a1-m9-cA 1rci-a1-m10-cA_1rci-a1-m3-cA 1rci-a1-m10-cA_1rci-a1-m8-cA 1rci-a1-m11-cA_1rci-a1-m4-cA 1rci-a1-m11-cA_1rci-a1-m6-cA 1rci-a1-m12-cA_1rci-a1-m2-cA 1rci-a1-m12-cA_1rci-a1-m7-cA 1rci-a1-m13-cA_1rci-a1-m17-cA 1rci-a1-m13-cA_1rci-a1-m21-cA 1rci-a1-m14-cA_1rci-a1-m19-cA 1rci-a1-m14-cA_1rci-a1-m24-cA 1rci-a1-m15-cA_1rci-a1-m20-cA 1rci-a1-m15-cA_1rci-a1-m22-cA 1rci-a1-m16-cA_1rci-a1-m18-cA 1rci-a1-m16-cA_1rci-a1-m23-cA 1rci-a1-m17-cA_1rci-a1-m21-cA 1rci-a1-m18-cA_1rci-a1-m23-cA 1rci-a1-m19-cA_1rci-a1-m24-cA 1rci-a1-m1-cA_1rci-a1-m5-cA 1rci-a1-m1-cA_1rci-a1-m9-cA 1rci-a1-m20-cA_1rci-a1-m22-cA 1rci-a1-m2-cA_1rci-a1-m7-cA 1rci-a1-m3-cA_1rci-a1-m8-cA 1rci-a1-m4-cA_1rci-a1-m6-cA SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEHAEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALLDLHAVAADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSHPGMAEYLFNKHTLG SQVRQNFHQDCEAGLNRTVNLKFYSSYVYLSMASYFNRDDVALSNFAKFFRERSEEEKEHAEKLIEYQNQRGGRVFLQSVEKPERDDWANGLEALQTALKLQKSVNQALLDLHAVAADKSDPHMTDFLESPYLSESVETIKKLGDHITSLKKLWSSHPGMAEYLFNKHTLG 1rco-a1-m1-cL_1rco-a1-m1-cV SPINACH RUBISCO IN COMPLEX WITH THE INHIBITOR D-XYLULOSE-2,2-DIOL-1,5-BISPHOSPHATE P00875 P00875 2.3 X-RAY DIFFRACTION 30 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 467 467 1aa1-a1-m1-cB_1aa1-a1-m2-cL 1aa1-a1-m1-cE_1aa1-a1-m2-cH 1aa1-a1-m1-cH_1aa1-a1-m2-cE 1aa1-a1-m1-cL_1aa1-a1-m2-cB 1aus-a1-m1-cL_1aus-a1-m2-cM 1aus-a1-m1-cM_1aus-a1-m2-cL 1aus-a1-m1-cN_1aus-a1-m2-cO 1aus-a1-m1-cO_1aus-a1-m2-cN 1ej7-a1-m1-cL_1ej7-a1-m5-cL 1ej7-a1-m2-cL_1ej7-a1-m6-cL 1ej7-a1-m3-cL_1ej7-a1-m8-cL 1ej7-a1-m4-cL_1ej7-a1-m7-cL 1ir1-a1-m1-cA_1ir1-a1-m2-cB 1ir1-a1-m1-cB_1ir1-a1-m2-cA 1ir1-a1-m1-cC_1ir1-a1-m2-cD 1ir1-a1-m1-cD_1ir1-a1-m2-cC 1rbo-a1-m1-cB_1rbo-a1-m2-cL 1rbo-a1-m1-cE_1rbo-a1-m2-cH 1rbo-a1-m1-cH_1rbo-a1-m2-cE 1rbo-a1-m1-cL_1rbo-a1-m2-cB 1rco-a1-m1-cB_1rco-a1-m1-cE 1rco-a1-m1-cH_1rco-a1-m1-cK 1rco-a1-m1-cO_1rco-a1-m1-cR 1rcx-a1-m1-cB_1rcx-a1-m1-cE 1rcx-a1-m1-cH_1rcx-a1-m1-cK 1rcx-a1-m1-cL_1rcx-a1-m1-cV 1rcx-a1-m1-cO_1rcx-a1-m1-cR 1rlc-a1-m1-cL_1rlc-a1-m5-cL 1rlc-a1-m2-cL_1rlc-a1-m6-cL 1rlc-a1-m3-cL_1rlc-a1-m8-cL 1rlc-a1-m4-cL_1rlc-a1-m7-cL 1rld-a1-m1-cA_1rld-a1-m4-cB 1rld-a1-m1-cB_1rld-a1-m3-cA 1rld-a1-m2-cA_1rld-a1-m3-cB 1rld-a1-m2-cB_1rld-a1-m4-cA 1rxo-a1-m1-cB_1rxo-a1-m2-cL 1rxo-a1-m1-cE_1rxo-a1-m2-cH 1rxo-a1-m1-cH_1rxo-a1-m2-cE 1rxo-a1-m1-cL_1rxo-a1-m2-cB 1upm-a1-m1-cB_1upm-a1-m1-cE 1upm-a1-m1-cH_1upm-a1-m1-cK 1upm-a1-m1-cL_1upm-a1-m1-cV 1upm-a1-m1-cO_1upm-a1-m1-cR 1upp-a1-m1-cA_1upp-a1-m2-cC 1upp-a1-m1-cC_1upp-a1-m2-cA 1upp-a1-m1-cE_1upp-a1-m2-cG 1upp-a1-m1-cG_1upp-a1-m2-cE 1wdd-a1-m1-cE_1wdd-a1-m3-cA 1wdd-a1-m2-cE_1wdd-a1-m4-cA 1wdd-a1-m3-cE_1wdd-a1-m2-cA 1wdd-a1-m4-cE_1wdd-a1-m1-cA 3axk-a1-m1-cB_3axk-a1-m3-cA 3axk-a1-m2-cB_3axk-a1-m4-cA 3axk-a1-m3-cB_3axk-a1-m2-cA 3axk-a1-m4-cB_3axk-a1-m1-cA 3axm-a1-m1-cA_3axm-a1-m1-cD 3axm-a1-m1-cC_3axm-a1-m1-cF 3axm-a1-m1-cE_3axm-a1-m1-cH 3axm-a1-m1-cG_3axm-a1-m1-cB 3rub-a1-m1-cL_3rub-a1-m5-cL 3rub-a1-m2-cL_3rub-a1-m6-cL 3rub-a1-m3-cL_3rub-a1-m8-cL 3rub-a1-m4-cL_3rub-a1-m7-cL 4hhh-a1-m1-cA_4hhh-a1-m2-cA 4hhh-a1-m1-cB_4hhh-a1-m2-cD 4hhh-a1-m1-cC_4hhh-a1-m2-cC 4hhh-a1-m1-cD_4hhh-a1-m2-cB 4mkv-a1-m1-cA_4mkv-a1-m2-cA 4mkv-a1-m1-cB_4mkv-a1-m2-cD 4mkv-a1-m1-cC_4mkv-a1-m2-cC 4mkv-a1-m1-cD_4mkv-a1-m2-cB 4rub-a1-m1-cA_4rub-a1-m2-cC 4rub-a1-m1-cB_4rub-a1-m1-cD 4rub-a1-m1-cC_4rub-a1-m2-cA 4rub-a1-m2-cB_4rub-a1-m2-cD 5wsk-a1-m1-cB_5wsk-a1-m4-cA 5wsk-a1-m2-cB_5wsk-a1-m6-cA 5wsk-a1-m4-cB_5wsk-a1-m2-cA 5wsk-a1-m6-cB_5wsk-a1-m1-cA 5wsk-a2-m1-cC_5wsk-a2-m7-cD 5wsk-a2-m1-cD_5wsk-a2-m5-cC 5wsk-a2-m3-cC_5wsk-a2-m5-cD 5wsk-a2-m3-cD_5wsk-a2-m7-cC 6kyi-a1-m1-cA_6kyi-a1-m3-cB 6kyi-a1-m2-cA_6kyi-a1-m4-cB 6kyi-a1-m3-cA_6kyi-a1-m2-cB 6kyi-a1-m4-cA_6kyi-a1-m1-cB 8ruc-a1-m1-cA_8ruc-a1-m2-cC 8ruc-a1-m1-cC_8ruc-a1-m2-cA 8ruc-a1-m1-cE_8ruc-a1-m2-cG 8ruc-a1-m1-cG_8ruc-a1-m2-cE ASVGFKAGVKDYKLTYYTPEYETLDTDILAAFRVSPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTNLDRYKGRCYHIEPVAGEENQYICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQPFMRWRDRFLFCAEALYKAQAETGEIKGHYLNATAGTCEDMMKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVGKLEGERDITLGFVDLLRDDYTEKDRSRGIYFTQSWVSTPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNTIIREATKWSPELAAACEVWKEIKFEFPAMDTV ASVGFKAGVKDYKLTYYTPEYETLDTDILAAFRVSPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTNLDRYKGRCYHIEPVAGEENQYICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQPFMRWRDRFLFCAEALYKAQAETGEIKGHYLNATAGTCEDMMKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVGKLEGERDITLGFVDLLRDDYTEKDRSRGIYFTQSWVSTPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNTIIREATKWSPELAAACEVWKEIKFEFPAMDTV 1rco-a1-m1-cR_1rco-a1-m1-cV SPINACH RUBISCO IN COMPLEX WITH THE INHIBITOR D-XYLULOSE-2,2-DIOL-1,5-BISPHOSPHATE P00875 P00875 2.3 X-RAY DIFFRACTION 372 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 467 467 1aa1-a1-m1-cB_1aa1-a1-m2-cB 1aa1-a1-m1-cE_1aa1-a1-m2-cL 1aa1-a1-m1-cH_1aa1-a1-m2-cH 1aa1-a1-m1-cL_1aa1-a1-m2-cE 1aus-a1-m1-cL_1aus-a1-m2-cN 1aus-a1-m1-cM_1aus-a1-m2-cM 1aus-a1-m1-cN_1aus-a1-m2-cL 1aus-a1-m1-cO_1aus-a1-m2-cO 1ej7-a1-m1-cL_1ej7-a1-m7-cL 1ej7-a1-m2-cL_1ej7-a1-m8-cL 1ej7-a1-m3-cL_1ej7-a1-m5-cL 1ej7-a1-m4-cL_1ej7-a1-m6-cL 1ir1-a1-m1-cA_1ir1-a1-m2-cC 1ir1-a1-m1-cB_1ir1-a1-m2-cB 1ir1-a1-m1-cC_1ir1-a1-m2-cA 1ir1-a1-m1-cD_1ir1-a1-m2-cD 1rbo-a1-m1-cB_1rbo-a1-m2-cB 1rbo-a1-m1-cE_1rbo-a1-m2-cL 1rbo-a1-m1-cH_1rbo-a1-m2-cH 1rbo-a1-m1-cL_1rbo-a1-m2-cE 1rco-a1-m1-cB_1rco-a1-m1-cL 1rco-a1-m1-cE_1rco-a1-m1-cH 1rco-a1-m1-cK_1rco-a1-m1-cO 1rcx-a1-m1-cB_1rcx-a1-m1-cL 1rcx-a1-m1-cE_1rcx-a1-m1-cH 1rcx-a1-m1-cK_1rcx-a1-m1-cO 1rcx-a1-m1-cR_1rcx-a1-m1-cV 1rlc-a1-m1-cL_1rlc-a1-m7-cL 1rlc-a1-m2-cL_1rlc-a1-m8-cL 1rlc-a1-m3-cL_1rlc-a1-m5-cL 1rlc-a1-m4-cL_1rlc-a1-m6-cL 1rld-a1-m1-cA_1rld-a1-m1-cB 1rld-a1-m2-cA_1rld-a1-m2-cB 1rld-a1-m3-cA_1rld-a1-m3-cB 1rld-a1-m4-cA_1rld-a1-m4-cB 1rxo-a1-m1-cB_1rxo-a1-m2-cB 1rxo-a1-m1-cE_1rxo-a1-m2-cL 1rxo-a1-m1-cH_1rxo-a1-m2-cH 1rxo-a1-m1-cL_1rxo-a1-m2-cE 1upm-a1-m1-cB_1upm-a1-m1-cL 1upm-a1-m1-cE_1upm-a1-m1-cH 1upm-a1-m1-cK_1upm-a1-m1-cO 1upm-a1-m1-cR_1upm-a1-m1-cV 1upp-a1-m1-cA_1upp-a1-m2-cE 1upp-a1-m1-cC_1upp-a1-m2-cC 1upp-a1-m1-cE_1upp-a1-m2-cA 1upp-a1-m1-cG_1upp-a1-m2-cG 1wdd-a1-m1-cE_1wdd-a1-m1-cA 1wdd-a1-m2-cE_1wdd-a1-m2-cA 1wdd-a1-m3-cE_1wdd-a1-m3-cA 1wdd-a1-m4-cE_1wdd-a1-m4-cA 3axk-a1-m1-cB_3axk-a1-m1-cA 3axk-a1-m2-cB_3axk-a1-m2-cA 3axk-a1-m3-cB_3axk-a1-m3-cA 3axk-a1-m4-cB_3axk-a1-m4-cA 3axm-a1-m1-cB_3axm-a1-m1-cA 3axm-a1-m1-cC_3axm-a1-m1-cD 3axm-a1-m1-cE_3axm-a1-m1-cF 3axm-a1-m1-cG_3axm-a1-m1-cH 3rub-a1-m1-cL_3rub-a1-m7-cL 3rub-a1-m2-cL_3rub-a1-m8-cL 3rub-a1-m3-cL_3rub-a1-m5-cL 3rub-a1-m4-cL_3rub-a1-m6-cL 4hhh-a1-m1-cA_4hhh-a1-m2-cB 4hhh-a1-m1-cB_4hhh-a1-m2-cA 4hhh-a1-m1-cC_4hhh-a1-m2-cD 4hhh-a1-m1-cD_4hhh-a1-m2-cC 4mkv-a1-m1-cA_4mkv-a1-m2-cB 4mkv-a1-m1-cB_4mkv-a1-m2-cA 4mkv-a1-m1-cC_4mkv-a1-m2-cD 4mkv-a1-m1-cD_4mkv-a1-m2-cC 4rub-a1-m1-cA_4rub-a1-m1-cD 4rub-a1-m1-cB_4rub-a1-m1-cC 4rub-a1-m2-cA_4rub-a1-m2-cD 4rub-a1-m2-cB_4rub-a1-m2-cC 5iu0-a1-m1-cA_5iu0-a1-m1-cB 5wsk-a1-m1-cB_5wsk-a1-m1-cA 5wsk-a1-m2-cB_5wsk-a1-m2-cA 5wsk-a1-m4-cB_5wsk-a1-m4-cA 5wsk-a1-m6-cB_5wsk-a1-m6-cA 5wsk-a2-m1-cC_5wsk-a2-m1-cD 5wsk-a2-m3-cC_5wsk-a2-m3-cD 5wsk-a2-m5-cC_5wsk-a2-m5-cD 5wsk-a2-m7-cC_5wsk-a2-m7-cD 6kyi-a1-m1-cA_6kyi-a1-m1-cB 6kyi-a1-m2-cA_6kyi-a1-m2-cB 6kyi-a1-m3-cA_6kyi-a1-m3-cB 6kyi-a1-m4-cA_6kyi-a1-m4-cB 6kyj-a1-m1-cA_6kyj-a1-m2-cA 6kyj-a2-m2-cG_6kyj-a2-m1-cE 6kyj-a3-m1-cC_6kyj-a3-m2-cC 8ruc-a1-m1-cA_8ruc-a1-m2-cE 8ruc-a1-m1-cC_8ruc-a1-m2-cC 8ruc-a1-m1-cE_8ruc-a1-m2-cA 8ruc-a1-m1-cG_8ruc-a1-m2-cG ASVGFKAGVKDYKLTYYTPEYETLDTDILAAFRVSPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTNLDRYKGRCYHIEPVAGEENQYICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQPFMRWRDRFLFCAEALYKAQAETGEIKGHYLNATAGTCEDMMKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVGKLEGERDITLGFVDLLRDDYTEKDRSRGIYFTQSWVSTPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNTIIREATKWSPELAAACEVWKEIKFEFPAMDTV ASVGFKAGVKDYKLTYYTPEYETLDTDILAAFRVSPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTNLDRYKGRCYHIEPVAGEENQYICYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPVAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQPFMRWRDRFLFCAEALYKAQAETGEIKGHYLNATAGTCEDMMKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHSGTVVGKLEGERDITLGFVDLLRDDYTEKDRSRGIYFTQSWVSTPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNTIIREATKWSPELAAACEVWKEIKFEFPAMDTV 1rcq-a1-m1-cA_1rcq-a1-m2-cA The 1.45 A crystal structure of alanine racemase from a pathogenic bacterium, Pseudomonas aeruginosa, contains both internal and external aldimine forms Q9HTQ2 Q9HTQ2 1.45 X-RAY DIFFRACTION 184 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 356 356 MRPARALIDLQALRHNYRLAREATGARALAVIKADAYGHGAVRCAEALAAEADGFAVACIEEGLELREAGIRQPILLLEGFFEASELELIVAHDFWCVVHCAWQLEAIERASLARPLNVWLMDSGMHRVGFFPEDFRAAHERLRASGKVAKIVMMSHFSRADELDCPRTEEQLAAFSAASQGLEGEISLRNSPAVLGWPKVPSDWVRPGILLYGATPFERAHPLADRLRPVMTLESKVISVRDLPAGEPVGYGARYSTERRQRIGVVAMGYADGYPRHAADGTLVFIDGKPGRLVGRVSMDMLTVDLTDHPQAGLGSRVELWGPNVPVGALAAQFGSIPYQLLCNLKRVPRVYSGA MRPARALIDLQALRHNYRLAREATGARALAVIKADAYGHGAVRCAEALAAEADGFAVACIEEGLELREAGIRQPILLLEGFFEASELELIVAHDFWCVVHCAWQLEAIERASLARPLNVWLMDSGMHRVGFFPEDFRAAHERLRASGKVAKIVMMSHFSRADELDCPRTEEQLAAFSAASQGLEGEISLRNSPAVLGWPKVPSDWVRPGILLYGATPFERAHPLADRLRPVMTLESKVISVRDLPAGEPVGYGARYSTERRQRIGVVAMGYADGYPRHAADGTLVFIDGKPGRLVGRVSMDMLTVDLTDHPQAGLGSRVELWGPNVPVGALAAQFGSIPYQLLCNLKRVPRVYSGA 1rcu-a1-m1-cB_1rcu-a1-m1-cD X-RAY STRUCTURE OF TM1055 NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET VT76 Q9X0E5 Q9X0E5 2.5 X-RAY DIFFRACTION 65 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 167 167 1rcu-a1-m1-cA_1rcu-a1-m1-cC KKVVVVGYSGPVNKSPVSELRDICLELGRTLAKKGYLVFNGGRDGVELVSQGVREAGGTVVGILPDEEAGNPYLSVAVKTGLDFQRSFVLLRNADVVVSIGGEIGTAIEILGAYALGKPVILLRGTGGWTDRISQVLIDGKYLDNRRIVEIHQAWTVEEAVQIIEQI KKVVVVGYSGPVNKSPVSELRDICLELGRTLAKKGYLVFNGGRDGVELVSQGVREAGGTVVGILPDEEAGNPYLSVAVKTGLDFQRSFVLLRNADVVVSIGGEIGTAIEILGAYALGKPVILLRGTGGWTDRISQVLIDGKYLDNRRIVEIHQAWTVEEAVQIIEQI 1rcu-a1-m1-cC_1rcu-a1-m1-cD X-RAY STRUCTURE OF TM1055 NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET VT76 Q9X0E5 Q9X0E5 2.5 X-RAY DIFFRACTION 36 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 167 167 1rcu-a1-m1-cA_1rcu-a1-m1-cB KKVVVVGYSGPVNKSPVSELRDICLELGRTLAKKGYLVFNGGRDGVELVSQGVREAGGTVVGILPDEEAGNPYLSVAVKTGLDFQRSFVLLRNADVVVSIGGEIGTAIEILGAYALGKPVILLRGTGGWTDRISQVLIDGKYLDNRRIVEIHQAWTVEEAVQIIEQI KKVVVVGYSGPVNKSPVSELRDICLELGRTLAKKGYLVFNGGRDGVELVSQGVREAGGTVVGILPDEEAGNPYLSVAVKTGLDFQRSFVLLRNADVVVSIGGEIGTAIEILGAYALGKPVILLRGTGGWTDRISQVLIDGKYLDNRRIVEIHQAWTVEEAVQIIEQI 1rcw-a2-m1-cC_1rcw-a2-m2-cC Crystal structure of CT610 from Chlamydia trachomatis O84616 O84616 2.5 X-RAY DIFFRACTION 52 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 209 209 1rcw-a1-m1-cA_1rcw-a1-m1-cB NFLDQLDLIIQNKHLEHTFYVKWSKGELTKEQLQAYAKDYYLHIKAFPKYLSAIHSRCDDLEARKLLLDNLDEENGYPNHIDLWKQFVFALGVTPEELEAHEPSEAAKAKVATFRWCTGDSLAAGVAALYSYESQIPRIAREKIRGLTEYFGFSNPEDYAYFTEHEEADVRHAREEKALIELLKDDADKVLEASQEVTQSLYGFLDSFL NFLDQLDLIIQNKHLEHTFYVKWSKGELTKEQLQAYAKDYYLHIKAFPKYLSAIHSRCDDLEARKLLLDNLDEENGYPNHIDLWKQFVFALGVTPEELEAHEPSEAAKAKVATFRWCTGDSLAAGVAALYSYESQIPRIAREKIRGLTEYFGFSNPEDYAYFTEHEEADVRHAREEKALIELLKDDADKVLEASQEVTQSLYGFLDSFL 1rd3-a1-m1-cD_1rd3-a1-m1-cB 2.5A Structure of Anticoagulant Thrombin Variant E217K P00734 P00734 2.5 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 259 IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETWTANVGKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGKGCDRDGKYGFYTHVFRLKKWIQKVIDQFG IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETWTANVGKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGKGCDRDGKYGFYTHVFRLKKWIQKVIDQFGE 1rd5-a3-m2-cB_1rd5-a3-m4-cB Crystal structure of Tryptophan synthase alpha chain homolog BX1: a member of the chemical plant defense system P42390 P42390 2.02 X-RAY DIFFRACTION 30 1.0 4577 (Zea mays) 4577 (Zea mays) 248 248 1rd5-a3-m1-cB_1rd5-a3-m3-cB SRPVSDTMAALMAKGKTAFIPYITAGDPDLATTAEALRLLDGCGADVIELGVPCSDPDGPIIQASVARALASGTTMDAVLEMLREVTPELSCPVVLLSYYKPIMFRSLAKMKEAGVHGLIVPDLPYVAAHSLWSEAKNNNLELVLLTTPAIPEDRMKEITKASEGFVYLVSVPRVESLIQEVKKVTNKPVAVGFGISKPEHVKQIAQWGADGVIIGSAMVRQLGEAASPKQGLRRLEEYARGMKNALG SRPVSDTMAALMAKGKTAFIPYITAGDPDLATTAEALRLLDGCGADVIELGVPCSDPDGPIIQASVARALASGTTMDAVLEMLREVTPELSCPVVLLSYYKPIMFRSLAKMKEAGVHGLIVPDLPYVAAHSLWSEAKNNNLELVLLTTPAIPEDRMKEITKASEGFVYLVSVPRVESLIQEVKKVTNKPVAVGFGISKPEHVKQIAQWGADGVIIGSAMVRQLGEAASPKQGLRRLEEYARGMKNALG 1rd5-a3-m4-cB_1rd5-a3-m2-cA Crystal structure of Tryptophan synthase alpha chain homolog BX1: a member of the chemical plant defense system P42390 P42390 2.02 X-RAY DIFFRACTION 58 1.0 4577 (Zea mays) 4577 (Zea mays) 248 261 1rd5-a3-m1-cB_1rd5-a3-m3-cA 1rd5-a3-m1-cB_1rd5-a3-m4-cA 1rd5-a3-m2-cB_1rd5-a3-m3-cA 1rd5-a3-m2-cB_1rd5-a3-m4-cA 1rd5-a3-m3-cB_1rd5-a3-m1-cA 1rd5-a3-m3-cB_1rd5-a3-m2-cA 1rd5-a3-m4-cB_1rd5-a3-m1-cA SRPVSDTMAALMAKGKTAFIPYITAGDPDLATTAEALRLLDGCGADVIELGVPCSDPDGPIIQASVARALASGTTMDAVLEMLREVTPELSCPVVLLSYYKPIMFRSLAKMKEAGVHGLIVPDLPYVAAHSLWSEAKNNNLELVLLTTPAIPEDRMKEITKASEGFVYLVSVPRVESLIQEVKKVTNKPVAVGFGISKPEHVKQIAQWGADGVIIGSAMVRQLGEAASPKQGLRRLEEYARGMKNALG SRPVSDTMAALMAKGKTAFIPYITAGDPDLATTAEALRLLDGCGADVIELGVPCSDPYIDGPIIQASVARALASGTTMDAVLEMLREVTPELSCPVVLLSYYKPIMFRSLAKMKEAGVHGLIVPDLPYVAAHSLWSEAKNNNLELVLLTTPAIPEDRMKEITKASEGFVYLVSVNGVTGPRANVNPRVESLIQEVKKVTNKPVAVGFGISKPEHVKQIAQWGADGVIIGSAMVRQLGEAASPKQGLRRLEEYARGMKNALG 1rd5-a3-m4-cB_1rd5-a3-m4-cA Crystal structure of Tryptophan synthase alpha chain homolog BX1: a member of the chemical plant defense system P42390 P42390 2.02 X-RAY DIFFRACTION 59 1.0 4577 (Zea mays) 4577 (Zea mays) 248 261 1rd5-a3-m1-cB_1rd5-a3-m1-cA 1rd5-a3-m2-cB_1rd5-a3-m2-cA 1rd5-a3-m3-cB_1rd5-a3-m3-cA SRPVSDTMAALMAKGKTAFIPYITAGDPDLATTAEALRLLDGCGADVIELGVPCSDPDGPIIQASVARALASGTTMDAVLEMLREVTPELSCPVVLLSYYKPIMFRSLAKMKEAGVHGLIVPDLPYVAAHSLWSEAKNNNLELVLLTTPAIPEDRMKEITKASEGFVYLVSVPRVESLIQEVKKVTNKPVAVGFGISKPEHVKQIAQWGADGVIIGSAMVRQLGEAASPKQGLRRLEEYARGMKNALG SRPVSDTMAALMAKGKTAFIPYITAGDPDLATTAEALRLLDGCGADVIELGVPCSDPYIDGPIIQASVARALASGTTMDAVLEMLREVTPELSCPVVLLSYYKPIMFRSLAKMKEAGVHGLIVPDLPYVAAHSLWSEAKNNNLELVLLTTPAIPEDRMKEITKASEGFVYLVSVNGVTGPRANVNPRVESLIQEVKKVTNKPVAVGFGISKPEHVKQIAQWGADGVIIGSAMVRQLGEAASPKQGLRRLEEYARGMKNALG 1rdf-a1-m1-cA_1rdf-a1-m1-cC G50P mutant of phosphonoacetaldehyde hydrolase in complex with substrate analogue vinyl sulfonate O31156 O31156 2.8 X-RAY DIFFRACTION 14 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 263 263 KIEAVIFDWAGTTVDYGCFAPLEVFMEIFHKRGVAITAEEARKPMPLLKIDHVRALTEMPRIASEWNRVFRQLPTEADIQEMYEEFEEILFAILPRYASPINAVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELGVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVENMDSVELREKIEVVRNRFVENGAHFTIETMQELESVMEHIEKQELIIS KIEAVIFDWAGTTVDYGCFAPLEVFMEIFHKRGVAITAEEARKPMPLLKIDHVRALTEMPRIASEWNRVFRQLPTEADIQEMYEEFEEILFAILPRYASPINAVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELGVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVENMDSVELREKIEVVRNRFVENGAHFTIETMQELESVMEHIEKQELIIS 1rdf-a4-m1-cE_1rdf-a4-m2-cF G50P mutant of phosphonoacetaldehyde hydrolase in complex with substrate analogue vinyl sulfonate O31156 O31156 2.8 X-RAY DIFFRACTION 40 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 263 263 1rdf-a4-m1-cF_1rdf-a4-m2-cE 1rdf-a5-m1-cB_1rdf-a5-m1-cC 1rdf-a5-m1-cD_1rdf-a5-m3-cA KIEAVIFDWAGTTVDYGCFAPLEVFMEIFHKRGVAITAEEARKPMPLLKIDHVRALTEMPRIASEWNRVFRQLPTEADIQEMYEEFEEILFAILPRYASPINAVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELGVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVENMDSVELREKIEVVRNRFVENGAHFTIETMQELESVMEHIEKQELIIS KIEAVIFDWAGTTVDYGCFAPLEVFMEIFHKRGVAITAEEARKPMPLLKIDHVRALTEMPRIASEWNRVFRQLPTEADIQEMYEEFEEILFAILPRYASPINAVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELGVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVENMDSVELREKIEVVRNRFVENGAHFTIETMQELESVMEHIEKQELIIS 1re5-a1-m1-cA_1re5-a1-m1-cD Crystal structure of 3-carboxy-cis,cis-muconate lactonizing enzyme from Pseudomonas putida Q88N37 Q88N37 2.6 X-RAY DIFFRACTION 157 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 438 448 1re5-a1-m1-cC_1re5-a1-m1-cB NQLFDAYFTAPAMREIFSDRGRLQGMLDFEAALARAEASAGLVPHSAVAAIEAACQAERYDTGALANAIATAGNSAIPLVKALGKVIATGVPEAERYVHLGATSQDAMDTGLVLQLRDALDLIEADLGKLADTLSQQALKHADTPLVGRTWLQHATPVTLGMKLAGVLGALTRHRQRLQELRPRLLVLQFGGASGSLAALGSKAMPVAEALAEQLKLTLPEQPWHTQRDRLVEFASVLGLVAGSLGKFGRDISLLMQTEAGEVFEPSAPKRNPVGAAVLIGAATRVPGLLSTLFAAMPQEHERSLGLWHAEWETLPDICCLVSGALRQAQVIAEGMEVDAARMRRNLDLTQGLVLAEAVSIVLAQRLGRDRAHHLLEQCCQRAVAEQRHLRAVLGDEPQVSAELSGEELDRLLDPAHYLGQARVWVARAVSEHQRFTA NQLFDAYFTAPAMREIFSDRGRLQGMLDFEAALARAEASAGLVPHSAVAAIEAACQAERYDTGALANAIATAGNSAIPLVKALGKVIATGVPEAERYVHLGATSQDAMDTGLVLQLRDALDLIEADLGKLADTLSQQALKHADTPLVGRTWLQHATPVTLGMKLAGVLGALTRHRQRLQELRPRLLVLQFGGASGSLAALGSKAMPVAEALAEQLKLTLPEQPWHTQRDRLVEFASVLGLVAGSLGKFGRDISLLMQTEAGEVFEPSAPGKGGSSTMPHKRNPVGAAVLIGAATRVPGLLSTLFAAMPQEHERSLGLWHAEWETLPDICCLVSGALRQAQVIAEGMEVDAARMRRNLDLTQGLVLAEAVSIVLAQRLGRDRAHHLLEQCCQRAVAEQRHLRAVLGDEPQVSAELSGEELDRLLDPAHYLGQARVWVARAVSEHQRFTA 1re5-a1-m1-cB_1re5-a1-m1-cD Crystal structure of 3-carboxy-cis,cis-muconate lactonizing enzyme from Pseudomonas putida Q88N37 Q88N37 2.6 X-RAY DIFFRACTION 96 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 441 448 1re5-a1-m1-cA_1re5-a1-m1-cC NQLFDAYFTAPAMREIFSDRGRLQGMLDFEAALARAEASAGLVPHSAVAAIEAACQAERYDTGALANAIATAGNSAIPLVKALGKVIATGVPEAERYVHLGATSQDAMDTGLVLQLRDALDLIEADLGKLADTLSQQALKHADTPLVGRTWLQHATPVTLGMKLAGVLGALTRHRQRLQELRPRLLVLQFGGASGSLAALGSKAMPVAEALAEQLKLTLPEQPWHTQRDRLVEFASVLGLVAGSLGKFGRDISLLMQTEAGEVFEPSAPMPHKRNPVGAAVLIGAATRVPGLLSTLFAAMPQEHERSLGLWHAEWETLPDICCLVSGALRQAQVIAEGMEVDAARMRRNLDLTQGLVLAEAVSIVLAQRLGRDRAHHLLEQCCQRAVAEQRHLRAVLGDEPQVSAELSGEELDRLLDPAHYLGQARVWVARAVSEHQRFTA NQLFDAYFTAPAMREIFSDRGRLQGMLDFEAALARAEASAGLVPHSAVAAIEAACQAERYDTGALANAIATAGNSAIPLVKALGKVIATGVPEAERYVHLGATSQDAMDTGLVLQLRDALDLIEADLGKLADTLSQQALKHADTPLVGRTWLQHATPVTLGMKLAGVLGALTRHRQRLQELRPRLLVLQFGGASGSLAALGSKAMPVAEALAEQLKLTLPEQPWHTQRDRLVEFASVLGLVAGSLGKFGRDISLLMQTEAGEVFEPSAPGKGGSSTMPHKRNPVGAAVLIGAATRVPGLLSTLFAAMPQEHERSLGLWHAEWETLPDICCLVSGALRQAQVIAEGMEVDAARMRRNLDLTQGLVLAEAVSIVLAQRLGRDRAHHLLEQCCQRAVAEQRHLRAVLGDEPQVSAELSGEELDRLLDPAHYLGQARVWVARAVSEHQRFTA 1re5-a1-m1-cC_1re5-a1-m1-cD Crystal structure of 3-carboxy-cis,cis-muconate lactonizing enzyme from Pseudomonas putida Q88N37 Q88N37 2.6 X-RAY DIFFRACTION 268 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 440 448 1re5-a1-m1-cA_1re5-a1-m1-cB NQLFDAYFTAPAMREIFSDRGRLQGMLDFEAALARAEASAGLVPHSAVAAIEAACQAERYDTGALANAIATAGNSAIPLVKALGKVIATGVPEAERYVHLGATSQDAMDTGLVLQLRDALDLIEADLGKLADTLSQQALKHADTPLVGRTWLQHATPVTLGMKLAGVLGALTRHRQRLQELRPRLLVLQFGGASGSLAALGSKAMPVAEALAEQLKLTLPEQPWHTQRDRLVEFASVLGLVAGSLGKFGRDISLLMQTEAGEVFEPSTMPHKRNPVGAAVLIGAATRVPGLLSTLFAAMPQEHERSLGLWHAEWETLPDICCLVSGALRQAQVIAEGMEVDAARMRRNLDLTQGLVLAEAVSIVLAQRLGRDRAHHLLEQCCQRAVAEQRHLRAVLGDEPQVSAELSGEELDRLLDPAHYLGQARVWVARAVSEHQRFTA NQLFDAYFTAPAMREIFSDRGRLQGMLDFEAALARAEASAGLVPHSAVAAIEAACQAERYDTGALANAIATAGNSAIPLVKALGKVIATGVPEAERYVHLGATSQDAMDTGLVLQLRDALDLIEADLGKLADTLSQQALKHADTPLVGRTWLQHATPVTLGMKLAGVLGALTRHRQRLQELRPRLLVLQFGGASGSLAALGSKAMPVAEALAEQLKLTLPEQPWHTQRDRLVEFASVLGLVAGSLGKFGRDISLLMQTEAGEVFEPSAPGKGGSSTMPHKRNPVGAAVLIGAATRVPGLLSTLFAAMPQEHERSLGLWHAEWETLPDICCLVSGALRQAQVIAEGMEVDAARMRRNLDLTQGLVLAEAVSIVLAQRLGRDRAHHLLEQCCQRAVAEQRHLRAVLGDEPQVSAELSGEELDRLLDPAHYLGQARVWVARAVSEHQRFTA 1reg-a1-m1-cY_1reg-a1-m1-cX CRYSTAL STRUCTURE OF THE T4 REGA TRANSLATIONAL REGULATOR PROTEIN AT 1.9 ANGSTROMS RESOLUTION P69702 P69702 1.9 X-RAY DIFFRACTION 33 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 120 122 MIEITLKKPEDFLKVKETLTRMGIANNKDKVLYQSCHILQKKGLYYIVHFKEMLRMDGRQVEMTEEDEVRRDSIAWLLEDWGLIEIVPGQRTFMKDLTNNFRVISFKQKHEWKLVPKYTI MIEITLKKPEDFLKVKETLTRMGIANNKDKVLYQSCHILQKKGLYYIVHFKEMLRMDGRQVEMTEEDEVRRDSIAWLLEDWGLIEIVPGQRTFMKDLTNNFRVISFKQKHEWKLVPKYTIGN 1rei-a1-m1-cA_1rei-a1-m1-cB THE MOLECULAR STRUCTURE OF A DIMER COMPOSED OF THE VARIABLE PORTIONS OF THE BENCE-JONES PROTEIN REI REFINED AT 2.0 ANGSTROMS RESOLUTION P01593 P01593 2 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 1ar2-a1-m1-cA_1ar2-a1-m2-cA 1bww-a1-m1-cA_1bww-a1-m1-cB 4l1h-a2-m1-cA_4l1h-a2-m2-cA DIQMTQSPSSLSASVGDRVTITCQASQDIIKYLNWYQQTPGKAPKLLIYEASNLQAGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQYQSLPYTFGQGTKLQIT DIQMTQSPSSLSASVGDRVTITCQASQDIIKYLNWYQQTPGKAPKLLIYEASNLQAGVPSRFSGSGSGTDYTFTISSLQPEDIATYYCQQYQSLPYTFGQGTKLQIT 1reo-a1-m1-cA_1reo-a1-m2-cA L-amino acid oxidase from Agkistrodon halys pallas Q6STF1 Q6STF1 2.31 X-RAY DIFFRACTION 120 1.0 8714 (Gloydius halys) 8714 (Gloydius halys) 484 484 DRNPLEECFRETDYEEFLEIARNGLKATSNPKHVVVVGAGMSGLSAAYVLSGAGHQVTVLEASERAGGRVRTYRNDKEDWYANLGPMRLPEKHRIVREYIRKFGLQLNEFSQENDNAWYFIKNIRKRVGEVKKDPGVLKYPVKPSEEGKSAGQLYEESLGKVVEELKRTNCSYILNKYDTYSTKEYLLKEGNLSPGAVDMIGDLMNEDSGYYVSFPESLRHDDIFAYEKRFDEIVGGMDKLPTSMYRAIEEKVHLNAQVIKIQKNAEKVTVVYQTPAKEMASVTADYVIVCTTSRATRRIKFEPPLPPKKAHALRSVHYRSGTKIFLTCTKKFWEDEGIHGGKSTTDLPSRFIYYPNHNFTSGVGVIIAYGIGDDANFFQALDFKDCADIVINDLSLIHQLPREEIQTFCYPSMIQKWSLDKYAMGGITTFTPYQFQHFSESLTASVDRIYFAGEHTAEAHGWIDSTIKSGLRAARDVNRASEQ DRNPLEECFRETDYEEFLEIARNGLKATSNPKHVVVVGAGMSGLSAAYVLSGAGHQVTVLEASERAGGRVRTYRNDKEDWYANLGPMRLPEKHRIVREYIRKFGLQLNEFSQENDNAWYFIKNIRKRVGEVKKDPGVLKYPVKPSEEGKSAGQLYEESLGKVVEELKRTNCSYILNKYDTYSTKEYLLKEGNLSPGAVDMIGDLMNEDSGYYVSFPESLRHDDIFAYEKRFDEIVGGMDKLPTSMYRAIEEKVHLNAQVIKIQKNAEKVTVVYQTPAKEMASVTADYVIVCTTSRATRRIKFEPPLPPKKAHALRSVHYRSGTKIFLTCTKKFWEDEGIHGGKSTTDLPSRFIYYPNHNFTSGVGVIIAYGIGDDANFFQALDFKDCADIVINDLSLIHQLPREEIQTFCYPSMIQKWSLDKYAMGGITTFTPYQFQHFSESLTASVDRIYFAGEHTAEAHGWIDSTIKSGLRAARDVNRASEQ 1rfu-a4-m1-cD_1rfu-a4-m1-cG Crystal structure of pyridoxal kinase complexed with ADP and PLP P82197 P82197 2.8 X-RAY DIFFRACTION 119 1.0 9940 (Ovis aries) 9940 (Ovis aries) 312 312 1lhp-a1-m1-cA_1lhp-a1-m1-cB 1lhr-a1-m1-cA_1lhr-a1-m1-cB 1rft-a1-m1-cA_1rft-a1-m2-cA 1rfu-a1-m1-cA_1rfu-a1-m1-cE 1rfu-a2-m1-cB_1rfu-a2-m1-cF 1rfu-a3-m1-cC_1rfu-a3-m1-cH 1rfv-a1-m1-cA_1rfv-a1-m1-cB MEEECRVLSIQSHVVRGYVGNRAATFPLQVLGFEVDAVNSVQFSNHTGYSHWKGQVLNSDELQELYDGLKLNHVNQYDYVLTGYTRDKSFLAMVVDIVQELKQQNPRLVYVCDPVMGDQRNGEGAMYVPDDLLPVYREKVVPVADIITPNQFEAELLTGRKIHSQEEALEVMDMLHSMGPDTVVITSSNLLSPRGSDYLMALGSQRTRAPDGSVVTQRIRMEMHKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSAMHHVLQRTIKCAKAKSGEGVKPSPAQLELRMVQSKKDIESPEIVVQATVL MEEECRVLSIQSHVVRGYVGNRAATFPLQVLGFEVDAVNSVQFSNHTGYSHWKGQVLNSDELQELYDGLKLNHVNQYDYVLTGYTRDKSFLAMVVDIVQELKQQNPRLVYVCDPVMGDQRNGEGAMYVPDDLLPVYREKVVPVADIITPNQFEAELLTGRKIHSQEEALEVMDMLHSMGPDTVVITSSNLLSPRGSDYLMALGSQRTRAPDGSVVTQRIRMEMHKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSAMHHVLQRTIKCAKAKSGEGVKPSPAQLELRMVQSKKDIESPEIVVQATVL 1rfx-a3-m1-cB_1rfx-a3-m2-cB Crystal Structure of resisitin Q99P87 Q99P87 2.002 X-RAY DIFFRACTION 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 1rfx-a2-m1-cB_1rfx-a2-m2-cB CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rfx-a3-m1-cB_1rfx-a3-m2-cC Crystal Structure of resisitin Q99P87 Q99P87 2.002 X-RAY DIFFRACTION 15 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 1rfx-a2-m1-cB_1rfx-a2-m2-cC 1rfx-a2-m1-cC_1rfx-a2-m2-cB 1rfx-a3-m1-cC_1rfx-a3-m2-cB CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rfx-a3-m1-cB_1rfx-a3-m4-cA Crystal Structure of resisitin Q99P87 Q99P87 2.002 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 1rfx-a3-m2-cB_1rfx-a3-m3-cA CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rfx-a3-m2-cB_1rfx-a3-m2-cC Crystal Structure of resisitin Q99P87 Q99P87 2.002 X-RAY DIFFRACTION 74 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 1rfx-a1-m1-cB_1rfx-a1-m1-cC 1rfx-a2-m1-cB_1rfx-a2-m1-cC 1rfx-a2-m2-cB_1rfx-a2-m2-cC 1rfx-a3-m1-cB_1rfx-a3-m1-cC CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rfy-a2-m1-cB_1rfy-a2-m3-cB Crystal Structure of Quorum-Sensing Antiactivator TraM Q57471 Q57471 1.6 X-RAY DIFFRACTION 87 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 88 88 1rfy-a1-m1-cA_1rfy-a1-m2-cA VELRPLIGLTRGLPPTDLETITIDAIRTHRRLVEKADELFQALPETYKTGQACGGPQHIRYIEASIEMHAQMSALNTLISILGFIPKV VELRPLIGLTRGLPPTDLETITIDAIRTHRRLVEKADELFQALPETYKTGQACGGPQHIRYIEASIEMHAQMSALNTLISILGFIPKV 1rfz-a1-m1-cD_1rfz-a1-m1-cA Structure of Protein of Unknown Function from Bacillus stearothermophilus P84133 P84133 2.8 X-RAY DIFFRACTION 65 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 153 161 1rfz-a1-m1-cC_1rfz-a1-m1-cB NLEQTARRWLEERGVTVEKIAELVYYLQSKYHPDLTEECIENVNRVISKREVQNAILTGIQLDKLAEDGRLDEPLQSIIRRDEGLYGVDEILALSIVNVYGSIGFTNYGYIDKQKPGILQYLNDKSTGKCNTFLDDIVGAIAAAASSRLAHRA SNASEFINNLEQTARRWLEERGVTVEKIAELVYYLQSKYHPDLTEECIENVNRVISKREVQNAILTGIQLDKLAEDGRLDEPLQSIIRRDEGLYGVDEILALSIVNVYGSIGFTNYGYIDKQKPGILQYLNDKSTGKCNTFLDDIVGAIAAAASSRLAHRA 1rfz-a1-m1-cD_1rfz-a1-m1-cB Structure of Protein of Unknown Function from Bacillus stearothermophilus P84133 P84133 2.8 X-RAY DIFFRACTION 13 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 153 161 1rfz-a1-m1-cC_1rfz-a1-m1-cA NLEQTARRWLEERGVTVEKIAELVYYLQSKYHPDLTEECIENVNRVISKREVQNAILTGIQLDKLAEDGRLDEPLQSIIRRDEGLYGVDEILALSIVNVYGSIGFTNYGYIDKQKPGILQYLNDKSTGKCNTFLDDIVGAIAAAASSRLAHRA SNASEFINNLEQTARRWLEERGVTVEKIAELVYYLQSKYHPDLTEECIENVNRVISKREVQNAILTGIQLDKLAEDGRLDEPLQSIIRRDEGLYGVDEILALSIVNVYGSIGFTNYGYIDKQKPGILQYLNDKSTGKCNTFLDDIVGAIAAAASSRLAHRA 1rfz-a1-m1-cD_1rfz-a1-m1-cC Structure of Protein of Unknown Function from Bacillus stearothermophilus P84133 P84133 2.8 X-RAY DIFFRACTION 59 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 153 159 1rfz-a1-m1-cA_1rfz-a1-m1-cB NLEQTARRWLEERGVTVEKIAELVYYLQSKYHPDLTEECIENVNRVISKREVQNAILTGIQLDKLAEDGRLDEPLQSIIRRDEGLYGVDEILALSIVNVYGSIGFTNYGYIDKQKPGILQYLNDKSTGKCNTFLDDIVGAIAAAASSRLAHRA SEFINNLEQTARRWLEERGVTVEKIAELVYYLQSKYHPDLTEECIENVNRVISKREVQNAILTGIQLDKLAEDGRLDEPLQSIIRRDEGLYGVDEILALSIVNVYGSIGFTNYGYIDKQKPGILQYLNDKSTGKCNTFLDDIVGAIAAAASSRLAHRAA 1rgb-a2-m1-cK_1rgb-a2-m1-cL Phospholipase A2 from Vipera ammodytes meridionalis P14420 P14420 3.3 X-RAY DIFFRACTION 83 1.0 73841 (Vipera ammodytes meridionalis) 73841 (Vipera ammodytes meridionalis) 122 122 1rgb-a1-m1-cA_1rgb-a1-m1-cB NLFQFAKMINGKLGAFSVWNYISYGCYCGWGGQGTPKDATDRCCFVHDCCYGRVRGCNPKLAIYSYSFKKGNIVCGKNNGCLRDICECDRVAANCFHQNKNTYNKNYKFLSSSRCRQTSEQC NLFQFAKMINGKLGAFSVWNYISYGCYCGWGGQGTPKDATDRCCFVHDCCYGRVRGCNPKLAIYSYSFKKGNIVCGKNNGCLRDICECDRVAANCFHQNKNTYNKNYKFLSSSRCRQTSEQC 1rge-a1-m1-cA_1rge-a1-m1-cB HYDROLASE, GUANYLORIBONUCLEASE P05798 P05798 1.15 X-RAY DIFFRACTION 12 1.0 1894 (Kitasatospora aureofaciens) 1894 (Kitasatospora aureofaciens) 96 96 1gmp-a1-m1-cA_1gmp-a1-m1-cB 1gmr-a1-m1-cA_1gmr-a1-m1-cB 1rgf-a1-m1-cA_1rgf-a1-m1-cB 1rgg-a1-m1-cA_1rgg-a1-m1-cB 1rgh-a1-m1-cA_1rgh-a1-m1-cB DVSGTVCLSALPPEATDTLNLIASDGPFPYSQDGVVFQNRESVLPTQSYGYYHEYTVITPGARTRGTRRIITGEATQEDYYTGDHYATFSLIDQTC DVSGTVCLSALPPEATDTLNLIASDGPFPYSQDGVVFQNRESVLPTQSYGYYHEYTVITPGARTRGTRRIITGEATQEDYYTGDHYATFSLIDQTC 1rgx-a2-m1-cA_1rgx-a2-m2-cC Crystal Structure of resisitin Q99P87 Q99P87 1.787 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 94 1rfx-a2-m1-cA_1rfx-a2-m2-cC 1rfx-a2-m1-cC_1rfx-a2-m2-cA 1rgx-a2-m1-cB_1rgx-a2-m2-cB 1rgx-a2-m2-cA_1rgx-a2-m1-cC CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS SSMPLCPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rgx-a2-m1-cB_1rgx-a2-m2-cC Crystal Structure of resisitin Q99P87 Q99P87 1.787 X-RAY DIFFRACTION 15 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 94 1rfx-a2-m1-cA_1rfx-a2-m2-cA 1rgx-a2-m1-cA_1rgx-a2-m2-cA 1rgx-a2-m2-cB_1rgx-a2-m1-cC CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS SSMPLCPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rgx-a2-m2-cA_1rgx-a2-m2-cB Crystal Structure of resisitin Q99P87 Q99P87 1.787 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 1rfx-a1-m1-cA_1rfx-a1-m1-cB 1rfx-a1-m1-cA_1rfx-a1-m1-cC 1rfx-a2-m1-cA_1rfx-a2-m1-cB 1rfx-a2-m1-cA_1rfx-a2-m1-cC 1rfx-a2-m2-cA_1rfx-a2-m2-cB 1rfx-a2-m2-cA_1rfx-a2-m2-cC 1rgx-a1-m1-cA_1rgx-a1-m1-cB 1rgx-a1-m1-cA_1rgx-a1-m1-cC 1rgx-a1-m1-cB_1rgx-a1-m1-cC 1rgx-a2-m1-cA_1rgx-a2-m1-cB 1rgx-a2-m1-cA_1rgx-a2-m1-cC 1rgx-a2-m1-cB_1rgx-a2-m1-cC 1rgx-a2-m2-cA_1rgx-a2-m2-cC 1rgx-a2-m2-cB_1rgx-a2-m2-cC CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS CPIDEAIDKKIKQDFNSLFPNAIKNIGLNCWTVSSRGKLASCPEGTAVLSCSCGSACGSWDIREEKVCHCQCARIDWTAARCCKLQVAS 1rh4-a1-m2-cA_1rh4-a1-m4-cA RH4 DESIGNED RIGHT-HANDED COILED COIL TETRAMER 1.9 X-RAY DIFFRACTION 26 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 1rh4-a1-m1-cA_1rh4-a1-m3-cA 1rh4-a1-m1-cA_1rh4-a1-m4-cA 1rh4-a1-m2-cA_1rh4-a1-m3-cA AALAQKKEIAYLLAKKAEILAALKKKQEIA AALAQKKEIAYLLAKKAEILAALKKKQEIA 1rh7-a3-m1-cB_1rh7-a3-m1-cC Crystal Structure of Resistin-like beta Q99P86 Q99P86 3.106 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 81 81 1rh7-a1-m1-cA_1rh7-a1-m1-cB 1rh7-a1-m1-cA_1rh7-a1-m1-cC 1rh7-a1-m1-cB_1rh7-a1-m1-cC 1rh7-a2-m1-cD_1rh7-a2-m1-cE 1rh7-a2-m1-cD_1rh7-a2-m1-cF 1rh7-a2-m1-cE_1rh7-a2-m1-cF 1rh7-a3-m1-cA_1rh7-a3-m1-cB 1rh7-a3-m1-cA_1rh7-a3-m1-cC 1rh7-a3-m1-cD_1rh7-a3-m1-cE 1rh7-a3-m1-cD_1rh7-a3-m1-cF 1rh7-a3-m1-cE_1rh7-a3-m1-cF CSFESLVDQRIKEALSRQEPKTISCTSVTSSGRLASCPAGMVVTGCACGYGCGSWDIRNGNTCHCQCSVMDWASARCCRMA CSFESLVDQRIKEALSRQEPKTISCTSVTSSGRLASCPAGMVVTGCACGYGCGSWDIRNGNTCHCQCSVMDWASARCCRMA 1rhc-a1-m1-cA_1rhc-a1-m2-cA F420-dependent secondary alcohol dehydrogenase in complex with an F420-acetone adduct O93734 O93734 1.8 X-RAY DIFFRACTION 175 1.0 2200 (Methanoculleus thermophilus) 2200 (Methanoculleus thermophilus) 330 330 MKTQIGYFASLEQYRPMDALEQAIRAEKVGFDSVWVDDHFHPWYHDNAQSAQAWAWMGAALQATKKVFISTCITCPIMRYNPAIVAQTFATLRQMYPGRVGVAVGAGEAMNEVPVTGEWPSVPVRQDMTVEAVKVMRMLWESDKPVTFKGDYFTLDKAFLYTKPDDEVPLYFSGMGPKGAKLAGMYGDHLMTVAAAPSTLKNVTIPKFEEGAREAGKDPSKMEHAMLIWYSVDPDYDKAVEALRFWAGCLVPSMFKYKVYDPKEVQLHANLVHCDTIKENYMCATDAEEMIKEIERFKEAGINHFCLGNSSPDVNFGIDIFKEVIPAVRD MKTQIGYFASLEQYRPMDALEQAIRAEKVGFDSVWVDDHFHPWYHDNAQSAQAWAWMGAALQATKKVFISTCITCPIMRYNPAIVAQTFATLRQMYPGRVGVAVGAGEAMNEVPVTGEWPSVPVRQDMTVEAVKVMRMLWESDKPVTFKGDYFTLDKAFLYTKPDDEVPLYFSGMGPKGAKLAGMYGDHLMTVAAAPSTLKNVTIPKFEEGAREAGKDPSKMEHAMLIWYSVDPDYDKAVEALRFWAGCLVPSMFKYKVYDPKEVQLHANLVHCDTIKENYMCATDAEEMIKEIERFKEAGINHFCLGNSSPDVNFGIDIFKEVIPAVRD 1rhg-a1-m1-cA_1rhg-a1-m1-cC THE STRUCTURE OF GRANULOCYTE-COLONY-STIMULATING FACTOR AND ITS RELATIONSHIP TO THOSE OF OTHER GROWTH FACTORS P09919 P09919 2.2 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 145 LPQSFLLKCLEQVRKIQGDGAALQEKLCATYKLCHPEELVLLGHSLGIPWAPLLAGCLSQLHSGLFLYQGLLQALEGISPELGPTLDTLQLDVADFATTIWQQMEELGMMPAFASAFQRRAGGVLVASHLQSFLEVSYRVLRHLA LPQSFLLKCLEQVRKIQGDGAALQEKLCATYKLCHPEELVLLGHSLGIPWAPLLAGCLSQLHSGLFLYQGLLQALEGISPELGPTLDTLQLDVADFATTIWQQMEELGMMPAFASAFQRRAGGVLVASHLQSFLEVSYRVLRHLA 1rhi-a1-m23-c2_1rhi-a1-m9-c2 HUMAN RHINOVIRUS 3 COAT PROTEIN Q82081 Q82081 3 X-RAY DIFFRACTION 58 1.0 44130 (rhinovirus B3) 44130 (rhinovirus B3) 255 255 1rhi-a1-m10-c2_1rhi-a1-m5-c2 1rhi-a1-m11-c2_1rhi-a1-m37-c2 1rhi-a1-m12-c2_1rhi-a1-m46-c2 1rhi-a1-m13-c2_1rhi-a1-m44-c2 1rhi-a1-m14-c2_1rhi-a1-m28-c2 1rhi-a1-m15-c2_1rhi-a1-m20-c2 1rhi-a1-m16-c2_1rhi-a1-m27-c2 1rhi-a1-m17-c2_1rhi-a1-m51-c2 1rhi-a1-m18-c2_1rhi-a1-m59-c2 1rhi-a1-m19-c2_1rhi-a1-m38-c2 1rhi-a1-m1-c2_1rhi-a1-m22-c2 1rhi-a1-m21-c2_1rhi-a1-m42-c2 1rhi-a1-m24-c2_1rhi-a1-m53-c2 1rhi-a1-m25-c2_1rhi-a1-m30-c2 1rhi-a1-m26-c2_1rhi-a1-m52-c2 1rhi-a1-m29-c2_1rhi-a1-m43-c2 1rhi-a1-m2-c2_1rhi-a1-m41-c2 1rhi-a1-m31-c2_1rhi-a1-m57-c2 1rhi-a1-m32-c2_1rhi-a1-m6-c2 1rhi-a1-m33-c2_1rhi-a1-m4-c2 1rhi-a1-m34-c2_1rhi-a1-m48-c2 1rhi-a1-m35-c2_1rhi-a1-m40-c2 1rhi-a1-m36-c2_1rhi-a1-m47-c2 1rhi-a1-m39-c2_1rhi-a1-m58-c2 1rhi-a1-m3-c2_1rhi-a1-m49-c2 1rhi-a1-m45-c2_1rhi-a1-m50-c2 1rhi-a1-m54-c2_1rhi-a1-m8-c2 1rhi-a1-m55-c2_1rhi-a1-m60-c2 1rhi-a1-m56-c2_1rhi-a1-m7-c2 GYSDRVQQITLGNSTITTQEARNAIVCYAEWPEYLSDNDASDVNKTSKPDISVCRFYTLDSKTWKATSKGWCWKLPDALKDMGVFGQNMFYHSLGRTGYTIHVQCNATKFHSGCLLVVVIPEHQLASHEGGTVSVKYKYTHPGDRGIDLDTVEVAGGPTSDAIYNMDGTLLGNLLIFPHQFINMRTNNTATIVVPYINSVPIDSMTRHNNVSLMVVPIAPLNAPTGSSPTLPVTVTIAPMCTEFTGIRSRSIVPQ GYSDRVQQITLGNSTITTQEARNAIVCYAEWPEYLSDNDASDVNKTSKPDISVCRFYTLDSKTWKATSKGWCWKLPDALKDMGVFGQNMFYHSLGRTGYTIHVQCNATKFHSGCLLVVVIPEHQLASHEGGTVSVKYKYTHPGDRGIDLDTVEVAGGPTSDAIYNMDGTLLGNLLIFPHQFINMRTNNTATIVVPYINSVPIDSMTRHNNVSLMVVPIAPLNAPTGSSPTLPVTVTIAPMCTEFTGIRSRSIVPQ 1rhi-a1-m8-c1_1rhi-a1-m9-c1 HUMAN RHINOVIRUS 3 COAT PROTEIN Q82081 Q82081 3 X-RAY DIFFRACTION 70 1.0 44130 (rhinovirus B3) 44130 (rhinovirus B3) 273 273 1rhi-a1-m10-c1_1rhi-a1-m6-c1 1rhi-a1-m10-c1_1rhi-a1-m9-c1 1rhi-a1-m11-c1_1rhi-a1-m12-c1 1rhi-a1-m11-c1_1rhi-a1-m15-c1 1rhi-a1-m12-c1_1rhi-a1-m13-c1 1rhi-a1-m13-c1_1rhi-a1-m14-c1 1rhi-a1-m14-c1_1rhi-a1-m15-c1 1rhi-a1-m16-c1_1rhi-a1-m17-c1 1rhi-a1-m16-c1_1rhi-a1-m20-c1 1rhi-a1-m17-c1_1rhi-a1-m18-c1 1rhi-a1-m18-c1_1rhi-a1-m19-c1 1rhi-a1-m19-c1_1rhi-a1-m20-c1 1rhi-a1-m1-c1_1rhi-a1-m2-c1 1rhi-a1-m1-c1_1rhi-a1-m5-c1 1rhi-a1-m21-c1_1rhi-a1-m22-c1 1rhi-a1-m21-c1_1rhi-a1-m25-c1 1rhi-a1-m22-c1_1rhi-a1-m23-c1 1rhi-a1-m23-c1_1rhi-a1-m24-c1 1rhi-a1-m24-c1_1rhi-a1-m25-c1 1rhi-a1-m26-c1_1rhi-a1-m27-c1 1rhi-a1-m26-c1_1rhi-a1-m30-c1 1rhi-a1-m27-c1_1rhi-a1-m28-c1 1rhi-a1-m28-c1_1rhi-a1-m29-c1 1rhi-a1-m29-c1_1rhi-a1-m30-c1 1rhi-a1-m2-c1_1rhi-a1-m3-c1 1rhi-a1-m31-c1_1rhi-a1-m32-c1 1rhi-a1-m31-c1_1rhi-a1-m35-c1 1rhi-a1-m32-c1_1rhi-a1-m33-c1 1rhi-a1-m33-c1_1rhi-a1-m34-c1 1rhi-a1-m34-c1_1rhi-a1-m35-c1 1rhi-a1-m36-c1_1rhi-a1-m37-c1 1rhi-a1-m36-c1_1rhi-a1-m40-c1 1rhi-a1-m37-c1_1rhi-a1-m38-c1 1rhi-a1-m38-c1_1rhi-a1-m39-c1 1rhi-a1-m39-c1_1rhi-a1-m40-c1 1rhi-a1-m3-c1_1rhi-a1-m4-c1 1rhi-a1-m41-c1_1rhi-a1-m42-c1 1rhi-a1-m41-c1_1rhi-a1-m45-c1 1rhi-a1-m42-c1_1rhi-a1-m43-c1 1rhi-a1-m43-c1_1rhi-a1-m44-c1 1rhi-a1-m44-c1_1rhi-a1-m45-c1 1rhi-a1-m46-c1_1rhi-a1-m47-c1 1rhi-a1-m46-c1_1rhi-a1-m50-c1 1rhi-a1-m47-c1_1rhi-a1-m48-c1 1rhi-a1-m48-c1_1rhi-a1-m49-c1 1rhi-a1-m49-c1_1rhi-a1-m50-c1 1rhi-a1-m4-c1_1rhi-a1-m5-c1 1rhi-a1-m51-c1_1rhi-a1-m52-c1 1rhi-a1-m51-c1_1rhi-a1-m55-c1 1rhi-a1-m52-c1_1rhi-a1-m53-c1 1rhi-a1-m53-c1_1rhi-a1-m54-c1 1rhi-a1-m54-c1_1rhi-a1-m55-c1 1rhi-a1-m56-c1_1rhi-a1-m57-c1 1rhi-a1-m56-c1_1rhi-a1-m60-c1 1rhi-a1-m57-c1_1rhi-a1-m58-c1 1rhi-a1-m58-c1_1rhi-a1-m59-c1 1rhi-a1-m59-c1_1rhi-a1-m60-c1 1rhi-a1-m6-c1_1rhi-a1-m7-c1 1rhi-a1-m7-c1_1rhi-a1-m8-c1 QTLASVSSGPKHTQSVPALTANETGATLPTRPSDNVETRTTYMHFNGSETDVESFLGRAACVHVTEIKNKNAAGLDNHRKEGLFNDWKINLSSLVQLRKKLELFTYVRFDSEYTILATASQPEASSYSSNLTVQAMYVPPGAPNPKEWDDYTWQSASNPSVFFKVGETSRFSVPFVGIASAYNCFYDGYSHDDPDTPYGITVLNHMGSMAFRVVNEHDVHTTIVKIRVYHRAKHVEAWIPRAPRALPYVSIGRTNYPRDSKTIVKKRTNIKTY QTLASVSSGPKHTQSVPALTANETGATLPTRPSDNVETRTTYMHFNGSETDVESFLGRAACVHVTEIKNKNAAGLDNHRKEGLFNDWKINLSSLVQLRKKLELFTYVRFDSEYTILATASQPEASSYSSNLTVQAMYVPPGAPNPKEWDDYTWQSASNPSVFFKVGETSRFSVPFVGIASAYNCFYDGYSHDDPDTPYGITVLNHMGSMAFRVVNEHDVHTTIVKIRVYHRAKHVEAWIPRAPRALPYVSIGRTNYPRDSKTIVKKRTNIKTY 1rhi-a1-m8-c3_1rhi-a1-m9-c3 HUMAN RHINOVIRUS 3 COAT PROTEIN Q82081 Q82081 3 X-RAY DIFFRACTION 50 1.0 44130 (rhinovirus B3) 44130 (rhinovirus B3) 236 236 1rhi-a1-m10-c3_1rhi-a1-m6-c3 1rhi-a1-m10-c3_1rhi-a1-m9-c3 1rhi-a1-m11-c3_1rhi-a1-m12-c3 1rhi-a1-m11-c3_1rhi-a1-m15-c3 1rhi-a1-m12-c3_1rhi-a1-m13-c3 1rhi-a1-m13-c3_1rhi-a1-m14-c3 1rhi-a1-m14-c3_1rhi-a1-m15-c3 1rhi-a1-m16-c3_1rhi-a1-m17-c3 1rhi-a1-m16-c3_1rhi-a1-m20-c3 1rhi-a1-m17-c3_1rhi-a1-m18-c3 1rhi-a1-m18-c3_1rhi-a1-m19-c3 1rhi-a1-m19-c3_1rhi-a1-m20-c3 1rhi-a1-m1-c3_1rhi-a1-m2-c3 1rhi-a1-m1-c3_1rhi-a1-m5-c3 1rhi-a1-m21-c3_1rhi-a1-m22-c3 1rhi-a1-m21-c3_1rhi-a1-m25-c3 1rhi-a1-m22-c3_1rhi-a1-m23-c3 1rhi-a1-m23-c3_1rhi-a1-m24-c3 1rhi-a1-m24-c3_1rhi-a1-m25-c3 1rhi-a1-m26-c3_1rhi-a1-m27-c3 1rhi-a1-m26-c3_1rhi-a1-m30-c3 1rhi-a1-m27-c3_1rhi-a1-m28-c3 1rhi-a1-m28-c3_1rhi-a1-m29-c3 1rhi-a1-m29-c3_1rhi-a1-m30-c3 1rhi-a1-m2-c3_1rhi-a1-m3-c3 1rhi-a1-m31-c3_1rhi-a1-m32-c3 1rhi-a1-m31-c3_1rhi-a1-m35-c3 1rhi-a1-m32-c3_1rhi-a1-m33-c3 1rhi-a1-m33-c3_1rhi-a1-m34-c3 1rhi-a1-m34-c3_1rhi-a1-m35-c3 1rhi-a1-m36-c3_1rhi-a1-m37-c3 1rhi-a1-m36-c3_1rhi-a1-m40-c3 1rhi-a1-m37-c3_1rhi-a1-m38-c3 1rhi-a1-m38-c3_1rhi-a1-m39-c3 1rhi-a1-m39-c3_1rhi-a1-m40-c3 1rhi-a1-m3-c3_1rhi-a1-m4-c3 1rhi-a1-m41-c3_1rhi-a1-m42-c3 1rhi-a1-m41-c3_1rhi-a1-m45-c3 1rhi-a1-m42-c3_1rhi-a1-m43-c3 1rhi-a1-m43-c3_1rhi-a1-m44-c3 1rhi-a1-m44-c3_1rhi-a1-m45-c3 1rhi-a1-m46-c3_1rhi-a1-m47-c3 1rhi-a1-m46-c3_1rhi-a1-m50-c3 1rhi-a1-m47-c3_1rhi-a1-m48-c3 1rhi-a1-m48-c3_1rhi-a1-m49-c3 1rhi-a1-m49-c3_1rhi-a1-m50-c3 1rhi-a1-m4-c3_1rhi-a1-m5-c3 1rhi-a1-m51-c3_1rhi-a1-m52-c3 1rhi-a1-m51-c3_1rhi-a1-m55-c3 1rhi-a1-m52-c3_1rhi-a1-m53-c3 1rhi-a1-m53-c3_1rhi-a1-m54-c3 1rhi-a1-m54-c3_1rhi-a1-m55-c3 1rhi-a1-m56-c3_1rhi-a1-m57-c3 1rhi-a1-m56-c3_1rhi-a1-m60-c3 1rhi-a1-m57-c3_1rhi-a1-m58-c3 1rhi-a1-m58-c3_1rhi-a1-m59-c3 1rhi-a1-m59-c3_1rhi-a1-m60-c3 1rhi-a1-m6-c3_1rhi-a1-m7-c3 1rhi-a1-m7-c3_1rhi-a1-m8-c3 GLPTTTLPGSGQFLTTDDRQSPSALPSYEPTPRIHIPGKVRNLLEIIQVGTLIPMNNTGTNDNVTNYLIPLHADRQNEQIFGTKLYIGDGVFKTTLLGEIAQYYTHWSGSLRISLMYTGPALSSAKIILAYTPPGTRGPEDKKEAMLGTHVVWDIGLQSTIVMTIPWTSGVQFRYTDPDTYTSAGYLSCWYLTSLILPPQTSGQVYLLSFISACPDFKLRLMKDTQTISQTDALTE GLPTTTLPGSGQFLTTDDRQSPSALPSYEPTPRIHIPGKVRNLLEIIQVGTLIPMNNTGTNDNVTNYLIPLHADRQNEQIFGTKLYIGDGVFKTTLLGEIAQYYTHWSGSLRISLMYTGPALSSAKIILAYTPPGTRGPEDKKEAMLGTHVVWDIGLQSTIVMTIPWTSGVQFRYTDPDTYTSAGYLSCWYLTSLILPPQTSGQVYLLSFISACPDFKLRLMKDTQTISQTDALTE 1rho-a7-m5-cB_1rho-a7-m8-cB STRUCTURE OF RHO GUANINE NUCLEOTIDE DISSOCIATION INHIBITOR P52565 P52565 2.5 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 142 1rho-a4-m1-cC_1rho-a4-m1-cA 1rho-a5-m1-cB_1rho-a5-m2-cB 1rho-a6-m1-cC_1rho-a6-m1-cA 1rho-a6-m3-cC_1rho-a6-m3-cA 1rho-a6-m4-cC_1rho-a6-m4-cA 1rho-a7-m1-cB_1rho-a7-m2-cB 1rho-a7-m6-cB_1rho-a7-m7-cB VAVSADPNVPNVVVTGLTLVCSSAPGPLELDLTGDLESFKKQSFVLKEGVEYRIKISFRVNREIVSGKYIEHTYRKGVKIDKTDYVGSYGPRAEEYEFLTPVEEAPKGLARGSYSIKSRFTDDDKTDHLSWEWNLTIKKDWK VAVSADPNVPNVVVTGLTLVCSSAPGPLELDLTGDLESFKKQSFVLKEGVEYRIKISFRVNREIVSGKYIEHTYRKGVKIDKTDYVGSYGPRAEEYEFLTPVEEAPKGLARGSYSIKSRFTDDDKTDHLSWEWNLTIKKDWK 1rho-a9-m4-cC_1rho-a9-m1-cA STRUCTURE OF RHO GUANINE NUCLEOTIDE DISSOCIATION INHIBITOR P52565 P52565 2.5 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 142 1ft0-a3-m1-cA_1ft0-a3-m1-cB 1ft3-a3-m1-cA_1ft3-a3-m1-cB 1rho-a6-m1-cC_1rho-a6-m3-cA 1rho-a6-m3-cC_1rho-a6-m4-cA 1rho-a6-m4-cC_1rho-a6-m1-cA 1rho-a7-m1-cB_1rho-a7-m7-cB 1rho-a7-m2-cB_1rho-a7-m5-cB 1rho-a7-m6-cB_1rho-a7-m8-cB 1rho-a8-m1-cB_1rho-a8-m7-cB VPNVVVTGLTLVCSSAPGPLELDLTGDLESFKKQSFVLKEGVEYRIKISFRVNREIVSGKYIEHTYRKGVKIDKTDYVGSYGPRAEEYEFLTPVEEAPKGLARGSYSIKSRFTDDDKTDHLSWEWNLTIKKDWK VAVSADPNVPNVVVTGLTLVCSSAPGPLELDLTGDLESFKKQSFVLKEGVEYRIKISFRVNREIVSGKYIEHTYRKGVKIDKTDYVGSYGPRAEEYEFLTPVEEAPKGLARGSYSIKSRFTDDDKTDHLSWEWNLTIKKDWK 1rhy-a2-m4-cB_1rhy-a2-m5-cB Crystal structure of Imidazole Glycerol Phosphate Dehydratase P0CO22 P0CO22 2.3 X-RAY DIFFRACTION 37 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 180 180 1rhy-a1-m1-cA_1rhy-a1-m2-cA 1rhy-a1-m1-cA_1rhy-a1-m3-cA 1rhy-a1-m2-cA_1rhy-a1-m3-cA 1rhy-a2-m1-cB_1rhy-a2-m4-cB 1rhy-a2-m1-cB_1rhy-a2-m5-cB SERIASVERTTSETHISCTIDLDHIPGVTEQKINVSTGIGFLDHMFTALAKHGGMSLQLQCKGDTAEDCALALGEAFKKALGERKGIKRYGYAYAPLDESLSRAVIDISSRPYFMCHLPFTREKVGDLSTEMVSHLLQSFAFAAGVTLHIDSIRGENNHHIAESAFKALALAIRMAISRT SERIASVERTTSETHISCTIDLDHIPGVTEQKINVSTGIGFLDHMFTALAKHGGMSLQLQCKGDTAEDCALALGEAFKKALGERKGIKRYGYAYAPLDESLSRAVIDISSRPYFMCHLPFTREKVGDLSTEMVSHLLQSFAFAAGVTLHIDSIRGENNHHIAESAFKALALAIRMAISRT 1rii-a1-m1-cD_1rii-a1-m1-cB Crystal structure of phosphoglycerate mutase from M. Tuberculosis P9WIC9 P9WIC9 1.7 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 231 237 1rii-a1-m1-cC_1rii-a1-m1-cA NTGSLVLLRHGESDWNALNLFTGWVDVGLTDKGQAEAVRSGELIAEHDLLPDVLYTSLLRRAITTAHLALDSADRLWIPVRRSWRLNERHYGALQGLDKAETKARYGEEQFMAWRRSYDTPPPPIERGSQFSQDADPRYADIGGGPLTECLADVVARFLPYFTDVIVGDLRVGKTVLIVAHGNSLRALVKHLDQMSDDEIVGLNIPTGIPLRYDLDSAMRPLVRGGTYLDP NTGSLVLLRHGESDWNALNLFTGWVDVGLTDKGQAEAVRSGELIAEHDLLPDVLYTSLLRRAITTAHLALDSADRLWIPVRRSWRLNERHYGALQGLDKAETKARYGEEQFMAWRRSYDTPPPPIERGSQFSQDADPRYADIGGGPLTECLADVVARFLPYFTDVIVGDLRVGKTVLIVAHGNSLRALVKHLDQMSDDEIVGLNIPTGIPLRYDLDSAMRPLVRGGTYLDPEAAAAG 1rii-a1-m1-cD_1rii-a1-m1-cC Crystal structure of phosphoglycerate mutase from M. Tuberculosis P9WIC9 P9WIC9 1.7 X-RAY DIFFRACTION 34 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 231 237 1rii-a1-m1-cB_1rii-a1-m1-cA NTGSLVLLRHGESDWNALNLFTGWVDVGLTDKGQAEAVRSGELIAEHDLLPDVLYTSLLRRAITTAHLALDSADRLWIPVRRSWRLNERHYGALQGLDKAETKARYGEEQFMAWRRSYDTPPPPIERGSQFSQDADPRYADIGGGPLTECLADVVARFLPYFTDVIVGDLRVGKTVLIVAHGNSLRALVKHLDQMSDDEIVGLNIPTGIPLRYDLDSAMRPLVRGGTYLDP ANTGSLVLLRHGESDWNALNLFTGWVDVGLTDKGQAEAVRSGELIAEHDLLPDVLYTSLLRRAITTAHLALDSADRLWIPVRRSWRLNERHYGALQGLDKAETKARYGEEQFMAWRRSYDTPPPPIERGSQFSQDADPRYADIGGGPLTECLADVVARFLPYFTDVIVGDLRVGKTVLIVAHGNSLRALVKHLDQMSDDEIVGLNIPTGIPLRYDLDSAMRPLVRGGTYLDPEAAAA 1rj7-a3-m1-cH_1rj7-a3-m1-cI Crystal structure of EDA-A1 Q92838 Q92838 2.3 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 143 1rj7-a1-m1-cA_1rj7-a1-m1-cB 1rj7-a1-m1-cA_1rj7-a1-m1-cD 1rj7-a1-m1-cB_1rj7-a1-m1-cD 1rj7-a2-m1-cF_1rj7-a2-m1-cE 1rj7-a2-m1-cF_1rj7-a2-m1-cG 1rj7-a2-m1-cG_1rj7-a2-m1-cE 1rj7-a3-m1-cH_1rj7-a3-m1-cJ 1rj7-a3-m1-cI_1rj7-a3-m1-cJ 1rj7-a4-m1-cK_1rj7-a4-m1-cL 1rj7-a4-m1-cM_1rj7-a4-m1-cK 1rj7-a4-m1-cM_1rj7-a4-m1-cL 1rj8-a1-m1-cA_1rj8-a1-m1-cB 1rj8-a1-m1-cA_1rj8-a1-m1-cD 1rj8-a1-m1-cB_1rj8-a1-m1-cD 1rj8-a2-m1-cE_1rj8-a2-m1-cF 1rj8-a2-m1-cE_1rj8-a2-m1-cG 1rj8-a2-m1-cF_1rj8-a2-m1-cG QPAVVHLQGQGSAIQVKNDLSGGVLNDWSRITMNPKVFKLHPRSGELEVLVDGTYFIYSQVEVYYINFTDFASYEVVVDEKPFLQCTRSIETGKTNYNTCYTAGVCLLKARQKIAVKMVHADISINMSKHTTFFGAIRLGEA QPAVVHLQGQGSAIQVKNDLSGGVLNDWSRITMNPKVFKLHPRSGELEVLVDGTYFIYSQVEVYYINFTDFASYEVVVDEKPFLQCTRSIETGKTNYNTCYTAGVCLLKARQKIAVKMVHADISINMSKHTTFFGAIRLGEAP 1rjj-a1-m1-cA_1rjj-a1-m1-cB Solution structure of a homodimeric hypothetical protein, At5g22580, a structural genomics target from Arabidopsis thaliana Q9FK81 Q9FK81 NOT SOLUTION NMR 107 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 111 111 MATSGFKHLVVVKFKEDTKVDEILKGLENLVSQIDTVKSFEWGEDKESHDMLRQGFTHAFSMTFENKDGYVAFTSHPLHVEFSAAFTAVIDKIVLLDFPVAAVKSSVVATP MATSGFKHLVVVKFKEDTKVDEILKGLENLVSQIDTVKSFEWGEDKESHDMLRQGFTHAFSMTFENKDGYVAFTSHPLHVEFSAAFTAVIDKIVLLDFPVAAVKSSVVATP 1rjk-a2-m1-cA_1rjk-a2-m2-cA crystal structure of the rat vitamin D receptor ligand binding domain complexed with 2MD and a synthetic peptide containing the NR2 box of DRIP 205 P13053 P13053 1.99 X-RAY DIFFRACTION 31 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 239 239 1rk3-a2-m1-cA_1rk3-a2-m2-cA 1rkg-a2-m1-cA_1rkg-a2-m2-cA 1rkh-a2-m1-cA_1rkh-a2-m2-cA 2o4j-a2-m1-cA_2o4j-a2-m2-cA 2o4r-a2-m1-cA_2o4r-a2-m2-cA KLSEEQQHIIAILLDAHHKTYDPTYADFRDFRPPVRMPLSMLPHLADLVSYSIQKVIGFAKMIPGFRDLTSDDQIVLLKSSAIEVIMLRSNQSFTMDDMSWDCGSQDYKYDVTDVSKAGHTLELIEPLIKFQVGLKKLNLHEEEHVLLMAICIVSPDRPGVQDAKLVEAIQDRLSNTLQTYIRCRHPPPGSHQLYAKMIQKLADLRSLNEEHSKQYRSLSFQPENSMKLTPLVLEVFGN KLSEEQQHIIAILLDAHHKTYDPTYADFRDFRPPVRMPLSMLPHLADLVSYSIQKVIGFAKMIPGFRDLTSDDQIVLLKSSAIEVIMLRSNQSFTMDDMSWDCGSQDYKYDVTDVSKAGHTLELIEPLIKFQVGLKKLNLHEEEHVLLMAICIVSPDRPGVQDAKLVEAIQDRLSNTLQTYIRCRHPPPGSHQLYAKMIQKLADLRSLNEEHSKQYRSLSFQPENSMKLTPLVLEVFGN 1rjw-a1-m1-cA_1rjw-a1-m1-cD CRYSTAL STRUCTURE OF NAD(+)-DEPENDENT ALCOHOL DEHYDROGENASE FROM BACILLUS STEAROTHERMOPHILUS STRAIN LLD-R P42328 P42328 2.35 X-RAY DIFFRACTION 103 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 339 339 1rjw-a1-m1-cB_1rjw-a1-m1-cC 3pii-a1-m1-cA_3pii-a1-m1-cD 3pii-a1-m1-cB_3pii-a1-m1-cC MKAAVVEQFKEPLKIKEVEKPTISYGEVLVRIKACGVCHTDLHAAHGDWPVKPKLPLIPGHEGVGIVEEVGPGVTHLKVGDRVGIPWLYSACGHCDYCLSGQETLCEHQKNAGYSVDGGYAEYCRAAADYVVKIPDNLSFEEAAPIFCAGVTTYKALKVTGAKPGEWVAIYGIGGLGHVAVQYAKAMGLNVVAVDIGDEKLELAKELGADLVVNPLKEDAAKFMKEKVGGVHAAVVTAVSKPAFQSAYNSIRRGGACVLVGLPPEEMPIPIFDTVLNGIKIIGSIVGTRKDLQEALQFAAEGKVKTIIEVQPLEKINEVFDRMLKGQINGRVVLTLEDK MKAAVVEQFKEPLKIKEVEKPTISYGEVLVRIKACGVCHTDLHAAHGDWPVKPKLPLIPGHEGVGIVEEVGPGVTHLKVGDRVGIPWLYSACGHCDYCLSGQETLCEHQKNAGYSVDGGYAEYCRAAADYVVKIPDNLSFEEAAPIFCAGVTTYKALKVTGAKPGEWVAIYGIGGLGHVAVQYAKAMGLNVVAVDIGDEKLELAKELGADLVVNPLKEDAAKFMKEKVGGVHAAVVTAVSKPAFQSAYNSIRRGGACVLVGLPPEEMPIPIFDTVLNGIKIIGSIVGTRKDLQEALQFAAEGKVKTIIEVQPLEKINEVFDRMLKGQINGRVVLTLEDK 1rjw-a1-m1-cB_1rjw-a1-m1-cD CRYSTAL STRUCTURE OF NAD(+)-DEPENDENT ALCOHOL DEHYDROGENASE FROM BACILLUS STEAROTHERMOPHILUS STRAIN LLD-R P42328 P42328 2.35 X-RAY DIFFRACTION 31 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 339 339 1rjw-a1-m1-cA_1rjw-a1-m1-cC 3pii-a1-m1-cA_3pii-a1-m1-cC 3pii-a1-m1-cB_3pii-a1-m1-cD MKAAVVEQFKEPLKIKEVEKPTISYGEVLVRIKACGVCHTDLHAAHGDWPVKPKLPLIPGHEGVGIVEEVGPGVTHLKVGDRVGIPWLYSACGHCDYCLSGQETLCEHQKNAGYSVDGGYAEYCRAAADYVVKIPDNLSFEEAAPIFCAGVTTYKALKVTGAKPGEWVAIYGIGGLGHVAVQYAKAMGLNVVAVDIGDEKLELAKELGADLVVNPLKEDAAKFMKEKVGGVHAAVVTAVSKPAFQSAYNSIRRGGACVLVGLPPEEMPIPIFDTVLNGIKIIGSIVGTRKDLQEALQFAAEGKVKTIIEVQPLEKINEVFDRMLKGQINGRVVLTLEDK MKAAVVEQFKEPLKIKEVEKPTISYGEVLVRIKACGVCHTDLHAAHGDWPVKPKLPLIPGHEGVGIVEEVGPGVTHLKVGDRVGIPWLYSACGHCDYCLSGQETLCEHQKNAGYSVDGGYAEYCRAAADYVVKIPDNLSFEEAAPIFCAGVTTYKALKVTGAKPGEWVAIYGIGGLGHVAVQYAKAMGLNVVAVDIGDEKLELAKELGADLVVNPLKEDAAKFMKEKVGGVHAAVVTAVSKPAFQSAYNSIRRGGACVLVGLPPEEMPIPIFDTVLNGIKIIGSIVGTRKDLQEALQFAAEGKVKTIIEVQPLEKINEVFDRMLKGQINGRVVLTLEDK 1rjw-a1-m1-cC_1rjw-a1-m1-cD CRYSTAL STRUCTURE OF NAD(+)-DEPENDENT ALCOHOL DEHYDROGENASE FROM BACILLUS STEAROTHERMOPHILUS STRAIN LLD-R P42328 P42328 2.35 X-RAY DIFFRACTION 24 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 339 339 1rjw-a1-m1-cA_1rjw-a1-m1-cB 3pii-a1-m1-cA_3pii-a1-m1-cB 3pii-a1-m1-cC_3pii-a1-m1-cD MKAAVVEQFKEPLKIKEVEKPTISYGEVLVRIKACGVCHTDLHAAHGDWPVKPKLPLIPGHEGVGIVEEVGPGVTHLKVGDRVGIPWLYSACGHCDYCLSGQETLCEHQKNAGYSVDGGYAEYCRAAADYVVKIPDNLSFEEAAPIFCAGVTTYKALKVTGAKPGEWVAIYGIGGLGHVAVQYAKAMGLNVVAVDIGDEKLELAKELGADLVVNPLKEDAAKFMKEKVGGVHAAVVTAVSKPAFQSAYNSIRRGGACVLVGLPPEEMPIPIFDTVLNGIKIIGSIVGTRKDLQEALQFAAEGKVKTIIEVQPLEKINEVFDRMLKGQINGRVVLTLEDK MKAAVVEQFKEPLKIKEVEKPTISYGEVLVRIKACGVCHTDLHAAHGDWPVKPKLPLIPGHEGVGIVEEVGPGVTHLKVGDRVGIPWLYSACGHCDYCLSGQETLCEHQKNAGYSVDGGYAEYCRAAADYVVKIPDNLSFEEAAPIFCAGVTTYKALKVTGAKPGEWVAIYGIGGLGHVAVQYAKAMGLNVVAVDIGDEKLELAKELGADLVVNPLKEDAAKFMKEKVGGVHAAVVTAVSKPAFQSAYNSIRRGGACVLVGLPPEEMPIPIFDTVLNGIKIIGSIVGTRKDLQEALQFAAEGKVKTIIEVQPLEKINEVFDRMLKGQINGRVVLTLEDK 1rk2-a2-m1-cD_1rk2-a2-m1-cC E. COLI RIBOKINASE COMPLEXED WITH RIBOSE AND ADP, SOLVED IN SPACE GROUP P212121 P0A9J6 P0A9J6 2.25 X-RAY DIFFRACTION 109 1.0 562 (Escherichia coli) 562 (Escherichia coli) 305 306 1gqt-a1-m1-cA_1gqt-a1-m1-cB 1gqt-a2-m1-cD_1gqt-a2-m1-cC 1rk2-a1-m1-cA_1rk2-a1-m1-cB 1rka-a1-m1-cA_1rka-a1-m2-cA 1rkd-a1-m1-cA_1rkd-a1-m2-cA 1rks-a1-m1-cA_1rks-a1-m2-cA AGSLVVLGSINADHILNLQSFPTPGETVTGNHYQVAFGGKGANQAVAAGRSGANIAFIACTGDDSIGESVRQQLATDNIDITPVSVIKGESTGVALIFVNGEGENVIGIHAGANAALSPALVEAQRERIANASALLMQLESPLESVMAAAKIAHQNKTIVALNPAPARELPDELLALVDIITPNETEAEKLTGIRVENDEDAAKAAQVLHEKGIRTVLITLGSRGVWASVNGEGQRVPGFRVQAVDTIAAGDTFNGALITALLEEKPLPEAIRFAHAAAAIAVTRKGAQPSVPWREEIDAFLDRQ AGSLVVLGSINADHILNLQSFPTPGETVTGNHYQVAFGGKGANQAVAAGRSGANIAFIACTGDDSIGESVRQQLATDNIDITPVSVIKGESTGVALIFVNGEGENVIGIHAGANAALSPALVEAQRERIANASALLMQLESPLESVMAAAKIAHQNKTIVALNPAPARELPDELLALVDIITPNETEAEKLTGIRVENDEDAAKAAQVLHEKGIRTVLITLGSRGVWASVNGEGQRVPGFRVQAVDTIAAGDTFNGALITALLEEKPLPEAIRFAHAAAAIAVTRKGAQPSVPWREEIDAFLDRQR 1rk4-a1-m1-cB_1rk4-a1-m1-cA Crystal Structure of a Soluble Dimeric Form of Oxidised CLIC1 O00299 O00299 1.792 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 213 GNCPFSQRLFMVLWLKGVTFNVTTVDTKRRTETVQKLCPGGQLPFLLYGTEVHTDTNKIEEFLEAVLCPPRYPKLAALNPESNTAGLDIFAKFSAYIKNSNPALNDNLEKGLLKALKVLDNYLTSPLPEEVDGVSQRKFLDGNELTLADCNLLPKLHIVQVVCKKYRGFTIPEAFRGVHRYLSNAYAREEFASTCPDDEEIELAYE GNCPFSQRLFMVLWLKGVTFNVTTVDTKRRTETVQKLCPGGQLPFLLYGTEVHTDTNKIEEFLEAVLCPPRYPKLAALNPESNTAGLDIFAKFSAYIKNSNPALNDNLEKGLLKALKVLDNYLTSPLPEEVDETSAEDEGVSQRKFLDGNELTLADCNLLPKLHIVQVVCKKYRGFTIPEAFRGVHRYLSNAYAREEFASTCPDDEEIELAYE 1rkr-a5-m1-cA_1rkr-a5-m2-cA CRYSTAL STRUCTURE OF AZURIN-I FROM ALCALIGENES XYLOSOXIDANS NCIMB 11015 P56547 P56547 2.45 X-RAY DIFFRACTION 26 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 129 129 AECSVDIAGNDGMQFDKKEITVSKSCKQFTVNLKHPGKLAKNVMGHNWVLTKQADMQGAVNDGMAAGLDNNYVKKDDARVIAHTKVIGGGETDSVTFDVSKLAAGEDYAYFCSFPGHFALMKGVLKLVD AECSVDIAGNDGMQFDKKEITVSKSCKQFTVNLKHPGKLAKNVMGHNWVLTKQADMQGAVNDGMAAGLDNNYVKKDDARVIAHTKVIGGGETDSVTFDVSKLAAGEDYAYFCSFPGHFALMKGVLKLVD 1rkt-a1-m1-cB_1rkt-a1-m1-cA Crystal structure of yfiR, a putative transcriptional regulator from Bacillus subtilis O31560 O31560 1.95 X-RAY DIFFRACTION 104 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 197 201 TKEHKDKRQAEILEAAKTVFKRKGFELTTKDVVEESGFSRGGVYLYFSSTEEFRRIIETGLDEGLRKLDKSAEHQSVWASISSYLDELTEGLRDVADTLAPVQFEYLVTAWRNEERRQYLEKRYDLFVERFSRLLQKGIDQGEFQPVQPLATIAKFFLNNDGIIQNALYFDEEKADVSGLAESAKLYLKTVLQADEK SPKVTKEHKDKRQAEILEAAKTVFKRKGFELTTKDVVEESGFSRGGVYLYFSSTEEFRRIIETGLDEGLRKLDKSAEHQSVWASISSYLDELTEGLRDVADTLAPVQFEYLVTAWRNEERRQYLEKRYDLFVERFSRLLQKGIDQGEFQPVQPLATIAKFFLNNDGIIQNALYFDEEKADVSGLAESAKLYLKTVLQADEK 1rku-a1-m1-cA_1rku-a1-m1-cB Crystal Structure of ThrH gene product of Pseudomonas Aeruginosa Q9I2Y2 Q9I2Y2 1.47 X-RAY DIFFRACTION 65 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 206 206 1rkv-a1-m1-cA_1rkv-a1-m1-cB DMEIACLDLEGVLVPEIWIAFAEKTGIDALKATTRDIPDYDVLMKQRLRILDEHGLKLGDIQEVIATLKPLEGAVEFVDWLRERFQVVILSDTFYEFSQPLMRQLGFPTLLCHKLEIDDSDRVVGYQLRQKDPKRQSVIAFKSLYYRVIAAGDSYNDTTMLSEAHAGILFHAPENVIREFPQFPAVHTYEDLKREFLKASSRSLSL DMEIACLDLEGVLVPEIWIAFAEKTGIDALKATTRDIPDYDVLMKQRLRILDEHGLKLGDIQEVIATLKPLEGAVEFVDWLRERFQVVILSDTFYEFSQPLMRQLGFPTLLCHKLEIDDSDRVVGYQLRQKDPKRQSVIAFKSLYYRVIAAGDSYNDTTMLSEAHAGILFHAPENVIREFPQFPAVHTYEDLKREFLKASSRSLSL 1rkx-a1-m1-cB_1rkx-a1-m1-cD Crystal Structure at 1.8 Angstrom of CDP-D-glucose 4,6-dehydratase from Yersinia pseudotuberculosis Q57329 Q57329 1.8 X-RAY DIFFRACTION 102 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 346 347 1rkx-a1-m1-cA_1rkx-a1-m1-cC INNSFWQGKRVFVTGHTGFKGGWLSLWLQTMGATVKGYSLTAPTVPSLFETARVADGMQSEIGDIRDQNKLLESIREFQPEIVFHMAAQPLVRLSYSEPVETYSTNVMGTVYLLEAIRHVGGVKAVVNITSDKCYDNKEWIWGYRENEAMGGYDPYSNSKGCAELVTSSYRNSFFNPANYGQHGTAVATVRAGNVIGGGDWALDRIVPDILRAFEQSQPVIIRNPHAIRPWQHVLEPLSGYLLLAQKLYTDGAEYAEGWNFGPNDADATPVKNIVEQMVKYWGEGASWQHYLKLDCSKAKMQLGWHPRWNLNTTLEYIVGWHKNWLSGTDMHEYSITEINNYMNTK INNSFWQGKRVFVTGHTGFKGGWLSLWLQTMGATVKGYSLTAPTVPSLFETARVADGMQSEIGDIRDQNKLLESIREFQPEIVFHMAAQPLVRLSYSEPVETYSTNVMGTVYLLEAIRHVGGVKAVVNITSDKCYDNKEWIWGYRENEAMGGYDPYSNSKGCAELVTSSYRNSFFNPANYGQHGTAVATVRAGNVIGGGDWALDRIVPDILRAFEQSQPVIIRNPHAIRPWQHVLEPLSGYLLLAQKLYTDGAEYAEGWNFGPNDADATPVKNIVEQMVKYWGEGASWQLHYLKLDCSKAKMQLGWHPRWNLNTTLEYIVGWHKNWLSGTDMHEYSITEINNYMNTK 1rkx-a1-m1-cD_1rkx-a1-m1-cA Crystal Structure at 1.8 Angstrom of CDP-D-glucose 4,6-dehydratase from Yersinia pseudotuberculosis Q57329 Q57329 1.8 X-RAY DIFFRACTION 35 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 347 349 1rkx-a1-m1-cB_1rkx-a1-m1-cC INNSFWQGKRVFVTGHTGFKGGWLSLWLQTMGATVKGYSLTAPTVPSLFETARVADGMQSEIGDIRDQNKLLESIREFQPEIVFHMAAQPLVRLSYSEPVETYSTNVMGTVYLLEAIRHVGGVKAVVNITSDKCYDNKEWIWGYRENEAMGGYDPYSNSKGCAELVTSSYRNSFFNPANYGQHGTAVATVRAGNVIGGGDWALDRIVPDILRAFEQSQPVIIRNPHAIRPWQHVLEPLSGYLLLAQKLYTDGAEYAEGWNFGPNDADATPVKNIVEQMVKYWGEGASWQLHYLKLDCSKAKMQLGWHPRWNLNTTLEYIVGWHKNWLSGTDMHEYSITEINNYMNTK INNSFWQGKRVFVTGHTGFKGGWLSLWLQTMGATVKGYSLTAPTVPSLFETARVADGMQSEIGDIRDQNKLLESIREFQPEIVFHMAAQPLVRLSYSEPVETYSTNVMGTVYLLEAIRHVGGVKAVVNITSDKCYDNKEWIWGYRENEAMGGYDPYSNSKGCAELVTSSYRNSFFNPANYGQHGTAVATVRAGNVIGGGDWALDRIVPDILRAFEQSQPVIIRNPHAIRPWQHVLEPLSGYLLLAQKLYTDGAEYAEGWNFGPNDADATPVKNIVEQMVKYWGEGASWQLEAHYLKLDCSKAKMQLGWHPRWNLNTTLEYIVGWHKNWLSGTDMHEYSITEINNYMNTK 1rlh-a2-m2-cA_1rlh-a2-m3-cA Structure of a conserved protein from Thermoplasma acidophilum Q9HII6 Q9HII6 1.8 X-RAY DIFFRACTION 115 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 151 151 1rlh-a2-m1-cA_1rlh-a2-m2-cA 1rlh-a2-m1-cA_1rlh-a2-m3-cA HHHHHHSSGLVPRGSHMVIPAEANIIVGYSHFIKTVEDLNEIIRTHVPGSKYGIGFSEASGDRLIRYDGNDDDLVKACIENIRRISAGHTFVILIRNAYPINILNAVKMCQEVGSIFAATANPLQIIVYKGERGNGVLGVIDGYSPVGVES HHHHHHSSGLVPRGSHMVIPAEANIIVGYSHFIKTVEDLNEIIRTHVPGSKYGIGFSEASGDRLIRYDGNDDDLVKACIENIRRISAGHTFVILIRNAYPINILNAVKMCQEVGSIFAATANPLQIIVYKGERGNGVLGVIDGYSPVGVES 1rli-a1-m1-cA_1rli-a1-m1-cD The Structure of Trp Repressor Binding Protein from Bacillus subtilis P96726 P96726 1.8 X-RAY DIFFRACTION 73 0.981 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 156 168 KIAVINGGTRSGGNTDVLAEKAVQGFDAEHIYLDYDSIIERILQCHILIFATPIYWFGMSGTLKLFIDRWSQTLRDPRFPDFKQQMSVKQAYVIAVGGDNPKIKGLPLIQQFEHIFHFMGMSFKGYVLGEGNRPGDILRDHQALSAASRLLKRSDA KIAVINGGTRSGGNTDVLAEKAVQGFDAEHIYLQKYPIAQGGFRPVQDDYDSIIERILQCHILIFATPIYWFGMSGTLKLFIDRWSQTLRDPRFPDFKQQMSVKQAYVIAVGGDNPKIKGLPLIQQFEHIFHFMGMSFKGYVLGEGNRPGDILRDHQALSAASRLLKR 1rli-a1-m1-cB_1rli-a1-m1-cD The Structure of Trp Repressor Binding Protein from Bacillus subtilis P96726 P96726 1.8 X-RAY DIFFRACTION 38 0.987 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 156 168 KIAVINGGTRSGGNTDVLAEKAVQGFDAEHIYLQDYDSIIERILQCHILIFATPIYWFGMSGTLKLFIDRWSQTLRDPRFPDFKQQMSVKQAYVIAVGGDNPKIKGLPLIQQFEHIFHFMGMSFKGYVLGEGNRPGDILRDHQALSAASRLLKRSD KIAVINGGTRSGGNTDVLAEKAVQGFDAEHIYLQKYPIAQGGFRPVQDDYDSIIERILQCHILIFATPIYWFGMSGTLKLFIDRWSQTLRDPRFPDFKQQMSVKQAYVIAVGGDNPKIKGLPLIQQFEHIFHFMGMSFKGYVLGEGNRPGDILRDHQALSAASRLLKR 1rlk-a2-m1-cA_1rlk-a2-m2-cA Structure of Conserved Protein of Unknown Function TA0108 from Thermoplasma acidophilum Q9HLW6 Q9HLW6 1.95 X-RAY DIFFRACTION 80 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 116 116 VKKMVIAVRKDLDMGKGKIAAQVAHAAVTCAIRSMKINRDVFNEWYDEGQRKIVVKVNDLDEIMEIKRMADSMGIVNEIVQDRGYTQVEPGTITCIGLGPDEEEKLDKITGKYKLL VKKMVIAVRKDLDMGKGKIAAQVAHAAVTCAIRSMKINRDVFNEWYDEGQRKIVVKVNDLDEIMEIKRMADSMGIVNEIVQDRGYTQVEPGTITCIGLGPDEEEKLDKITGKYKLL 1rm6-a1-m1-cD_1rm6-a1-m1-cA Structure of 4-hydroxybenzoyl-CoA reductase from Thauera aromatica O33819 O33819 1.6 X-RAY DIFFRACTION 119 1.0 59405 (Thauera aromatica) 59405 (Thauera aromatica) 760 761 1sb3-a1-m1-cD_1sb3-a1-m1-cA GTVGVRTPLVDGVEKVTGKAKYTADIAAPDALVGRILRSPHAHARILAIDTSAAEALEGVIAVCTGAETPVPFGVLPIAENEYPLARDKVRYRGDPVAAVAAIDEVTAEKALALIKVDYEVLPAYMTPKAAMKAGAIALHDDKPNNILREVHAEFGDVAAAFAEADLIREKTYTFAEVNHVHMELNATLAEYDPVRDMLTLNTTTQVPYYVHLKVAACLQMDSARIRVIKPFLGGGFGARTEALHFEIIAGLLARKAKGTVRLLQTREETFIAHRGRPWTEVKMKIGLKKDGKIAALALEATQAGGAYAGYGIITILYTGALMHGLYHIPAIKHDAWRVYTNTPPCGAMRGHGTVDTRAAFEALLTEMGEELGIDSLKIRQINMLPQIPYVTMYAQRVMSYGVPECLEKVKAASGWEERKGKLPKGRGLGIALSHFVSGTSTPKHWTGEPHATVNLKLDFDGGITLLTGAADIGQGSNTMASQVAAEVLGVRLSRIRVISADSALTPKDNGSYSSRVTFMVGNASISAAEELKGVLVKAAAKKLDAREEDIEVIDEMFMVSGSQDPGLSFQEVVKAAMVDSGTITVKGTYTCPTEFQGDKKIRGSAIGATMGFCYAAQVVEASVDEITGKVTAHKVWVAVDVGKALNPLAVEGQTQGGVWMGMGQALSEETVYDNGRMVHGNILDYRVPTIVESPDIEVIIVESMDPNGPFGAKEASEGMLAGFLPAIHEAVYEAVGVRATDFPLSPDRITELLDAKEAA GTVGVRTPLVDGVEKVTGKAKYTADIAAPDALVGRILRSPHAHARILAIDTSAAEALEGVIAVCTGAETPVPFGVLPIAENEYPLARDKVRYRGDPVAAVAAIDEVTAEKALALIKVDYEVLPAYMTPKAAMKAGAIALHDDKPNNILREVHAEFGDVAAAFAEADLIREKTYTFAEVNHVHMELNATLAEYDPVRDMLTLNTTTQVPYYVHLKVAACLQMDSARIRVIKPFLGGGFGARTEALHFEIIAGLLARKAKGTVRLLQTREETFIAHRGRPWTEVKMKIGLKKDGKIAALALEATQAGGAYAGYGIITILYTGALMHGLYHIPAIKHDAWRVYTNTPPCGAMRGHGTVDTRAAFEALLTEMGEELGIDSLKIRQINMLPQIPYVTMYAQRVMSYGVPECLEKVKAASGWEERKGKLPKGRGLGIALSHFVSGTSTPKHWTGEPHATVNLKLDFDGGITLLTGAADIGQGSNTMASQVAAEVLGVRLSRIRVISADSALTPKDNGSYSSRVTFMVGNASISAAEELKGVLVKAAAKKLDAREEDIEVIDEMFMVSGSQDPGLSFQEVVKAAMVDSGTITVKGTYTCPTEFQGDKKIRGSAIGATMGFCYAAQVVEASVDEITGKVTAHKVWVAVDVGKALNPLAVEGQTQGGVWMGMGQALSEETVYDNGRMVHGNILDYRVPTIVESPDIEVIIVESMDPNGPFGAKEASEGMLAGFLPAIHEAVYEAVGVRATDFPLSPDRITELLDAKEAAA 1rmd-a1-m1-cA_1rmd-a1-m2-cA RAG1 DIMERIZATION DOMAIN P15919 P15919 2.1 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 116 116 NCSKIHLSTKLLAVDFPAHFVKSISCQICEHILADPVETSCKHLFCRICILRCLKVMGSYCPSCRYPCFPTDLESPVKSFLNILNSLMVKCPAQDCNEEVSLEKYNHHVSSHKESK NCSKIHLSTKLLAVDFPAHFVKSISCQICEHILADPVETSCKHLFCRICILRCLKVMGSYCPSCRYPCFPTDLESPVKSFLNILNSLMVKCPAQDCNEEVSLEKYNHHVSSHKESK 1rmr-a1-m1-cA_1rmr-a1-m2-cA Crystal Structure of Schistatin, a Disintegrin Homodimer from saw-scaled Viper (Echis carinatus) at 2.5 A resolution P83658 P83658 2.5 X-RAY DIFFRACTION 45 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 64 64 NSVHPCCDPVICEPREGEHCISGPCCENCYFLNSGTICKRARGDGNQDYCTGITPDCPRNRYNV NSVHPCCDPVICEPREGEHCISGPCCENCYFLNSGTICKRARGDGNQDYCTGITPDCPRNRYNV 1rmt-a1-m1-cA_1rmt-a1-m1-cB Crystal structure of AphA class B acid phosphatase/phosphotransferase complexed with adenosine. P0AE22 P0AE22 1.4 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 210 210 PSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY PSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY 1rmv-a1-m1-cA_1rmv-a1-m9-cA RIBGRASS MOSAIC VIRUS, FIBER DIFFRACTION P03580 P03580 2.9 FIBER DIFFRACTION 42 1.0 51680 (Ribgrass mosaic virus) 51680 (Ribgrass mosaic virus) 156 156 1rmv-a1-m10-cA_1rmv-a1-m26-cA 1rmv-a1-m11-cA_1rmv-a1-m27-cA 1rmv-a1-m12-cA_1rmv-a1-m28-cA 1rmv-a1-m13-cA_1rmv-a1-m29-cA 1rmv-a1-m14-cA_1rmv-a1-m30-cA 1rmv-a1-m15-cA_1rmv-a1-m31-cA 1rmv-a1-m16-cA_1rmv-a1-m32-cA 1rmv-a1-m17-cA_1rmv-a1-m33-cA 1rmv-a1-m18-cA_1rmv-a1-m2-cA 1rmv-a1-m18-cA_1rmv-a1-m34-cA 1rmv-a1-m19-cA_1rmv-a1-m35-cA 1rmv-a1-m19-cA_1rmv-a1-m3-cA 1rmv-a1-m1-cA_1rmv-a1-m41-cA 1rmv-a1-m20-cA_1rmv-a1-m36-cA 1rmv-a1-m20-cA_1rmv-a1-m4-cA 1rmv-a1-m21-cA_1rmv-a1-m37-cA 1rmv-a1-m21-cA_1rmv-a1-m5-cA 1rmv-a1-m22-cA_1rmv-a1-m38-cA 1rmv-a1-m22-cA_1rmv-a1-m6-cA 1rmv-a1-m23-cA_1rmv-a1-m39-cA 1rmv-a1-m23-cA_1rmv-a1-m7-cA 1rmv-a1-m24-cA_1rmv-a1-m40-cA 1rmv-a1-m24-cA_1rmv-a1-m8-cA 1rmv-a1-m26-cA_1rmv-a1-m42-cA 1rmv-a1-m27-cA_1rmv-a1-m43-cA 1rmv-a1-m28-cA_1rmv-a1-m44-cA 1rmv-a1-m29-cA_1rmv-a1-m45-cA 1rmv-a1-m30-cA_1rmv-a1-m46-cA 1rmv-a1-m31-cA_1rmv-a1-m47-cA 1rmv-a1-m32-cA_1rmv-a1-m48-cA 1rmv-a1-m33-cA_1rmv-a1-m49-cA SYNITNSNQYQYFAAVWAEPTPMLNQCVSALSQSYQTQAGRDTVRQQFANLLSTIVAPNQRFPDTGFRVYVNSAVIKPLYEALMKSFDTRNRIIETEEESRPSASEVANATQRVDDATVAIRSQIQLLLNELSNGHGYMNRAEFEAILPWTTAPAT SYNITNSNQYQYFAAVWAEPTPMLNQCVSALSQSYQTQAGRDTVRQQFANLLSTIVAPNQRFPDTGFRVYVNSAVIKPLYEALMKSFDTRNRIIETEEESRPSASEVANATQRVDDATVAIRSQIQLLLNELSNGHGYMNRAEFEAILPWTTAPAT 1rmv-a1-m8-cA_1rmv-a1-m9-cA RIBGRASS MOSAIC VIRUS, FIBER DIFFRACTION P03580 P03580 2.9 FIBER DIFFRACTION 85 1.0 51680 (Ribgrass mosaic virus) 51680 (Ribgrass mosaic virus) 156 156 1rmv-a1-m10-cA_1rmv-a1-m11-cA 1rmv-a1-m10-cA_1rmv-a1-m9-cA 1rmv-a1-m11-cA_1rmv-a1-m12-cA 1rmv-a1-m12-cA_1rmv-a1-m13-cA 1rmv-a1-m13-cA_1rmv-a1-m14-cA 1rmv-a1-m14-cA_1rmv-a1-m15-cA 1rmv-a1-m15-cA_1rmv-a1-m16-cA 1rmv-a1-m16-cA_1rmv-a1-m17-cA 1rmv-a1-m17-cA_1rmv-a1-m18-cA 1rmv-a1-m18-cA_1rmv-a1-m19-cA 1rmv-a1-m19-cA_1rmv-a1-m20-cA 1rmv-a1-m1-cA_1rmv-a1-m24-cA 1rmv-a1-m1-cA_1rmv-a1-m26-cA 1rmv-a1-m20-cA_1rmv-a1-m21-cA 1rmv-a1-m21-cA_1rmv-a1-m22-cA 1rmv-a1-m22-cA_1rmv-a1-m23-cA 1rmv-a1-m23-cA_1rmv-a1-m24-cA 1rmv-a1-m26-cA_1rmv-a1-m27-cA 1rmv-a1-m27-cA_1rmv-a1-m28-cA 1rmv-a1-m28-cA_1rmv-a1-m29-cA 1rmv-a1-m29-cA_1rmv-a1-m30-cA 1rmv-a1-m2-cA_1rmv-a1-m3-cA 1rmv-a1-m30-cA_1rmv-a1-m31-cA 1rmv-a1-m31-cA_1rmv-a1-m32-cA 1rmv-a1-m32-cA_1rmv-a1-m33-cA 1rmv-a1-m33-cA_1rmv-a1-m34-cA 1rmv-a1-m34-cA_1rmv-a1-m35-cA 1rmv-a1-m35-cA_1rmv-a1-m36-cA 1rmv-a1-m36-cA_1rmv-a1-m37-cA 1rmv-a1-m37-cA_1rmv-a1-m38-cA 1rmv-a1-m38-cA_1rmv-a1-m39-cA 1rmv-a1-m39-cA_1rmv-a1-m40-cA 1rmv-a1-m3-cA_1rmv-a1-m4-cA 1rmv-a1-m40-cA_1rmv-a1-m41-cA 1rmv-a1-m41-cA_1rmv-a1-m42-cA 1rmv-a1-m42-cA_1rmv-a1-m43-cA 1rmv-a1-m43-cA_1rmv-a1-m44-cA 1rmv-a1-m44-cA_1rmv-a1-m45-cA 1rmv-a1-m45-cA_1rmv-a1-m46-cA 1rmv-a1-m46-cA_1rmv-a1-m47-cA 1rmv-a1-m47-cA_1rmv-a1-m48-cA 1rmv-a1-m48-cA_1rmv-a1-m49-cA 1rmv-a1-m4-cA_1rmv-a1-m5-cA 1rmv-a1-m5-cA_1rmv-a1-m6-cA 1rmv-a1-m6-cA_1rmv-a1-m7-cA 1rmv-a1-m7-cA_1rmv-a1-m8-cA SYNITNSNQYQYFAAVWAEPTPMLNQCVSALSQSYQTQAGRDTVRQQFANLLSTIVAPNQRFPDTGFRVYVNSAVIKPLYEALMKSFDTRNRIIETEEESRPSASEVANATQRVDDATVAIRSQIQLLLNELSNGHGYMNRAEFEAILPWTTAPAT SYNITNSNQYQYFAAVWAEPTPMLNQCVSALSQSYQTQAGRDTVRQQFANLLSTIVAPNQRFPDTGFRVYVNSAVIKPLYEALMKSFDTRNRIIETEEESRPSASEVANATQRVDDATVAIRSQIQLLLNELSNGHGYMNRAEFEAILPWTTAPAT 1rnl-a2-m2-cA_1rnl-a2-m4-cA THE NITRATE/NITRITE RESPONSE REGULATOR PROTEIN NARL FROM NARL P0AF28 P0AF28 2.4 X-RAY DIFFRACTION 32 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 200 200 1rnl-a2-m1-cA_1rnl-a2-m3-cA EPATILLIDDHPMLRTGVKQLISMAPDITVVGEASNGEQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRIVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALHQAAAGEMVLSEALTPVLAASLQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF EPATILLIDDHPMLRTGVKQLISMAPDITVVGEASNGEQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRIVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALHQAAAGEMVLSEALTPVLAASLQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF 1rnl-a3-m1-cA_1rnl-a3-m2-cA THE NITRATE/NITRITE RESPONSE REGULATOR PROTEIN NARL FROM NARL P0AF28 P0AF28 2.4 X-RAY DIFFRACTION 28 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 200 200 1rnl-a2-m1-cA_1rnl-a2-m2-cA 1rnl-a2-m3-cA_1rnl-a2-m4-cA EPATILLIDDHPMLRTGVKQLISMAPDITVVGEASNGEQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRIVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALHQAAAGEMVLSEALTPVLAASLQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF EPATILLIDDHPMLRTGVKQLISMAPDITVVGEASNGEQGIELAESLDPDLILLDLNMPGMNGLETLDKLREKSLSGRIVVFSVSNHEEDVVTALKRGADGYLLKDMEPEDLLKALHQAAAGEMVLSEALTPVLAASLQLTPRERDILKLIAQGLPNKMIARRLDITESTVKVHVKHMLKKMKLKSRVEAAVWVHQERIF 1ro5-a2-m8-cA_1ro5-a2-m9-cA Crystal Structure of the AHL Synthase LasI P33883 P33883 2.3 X-RAY DIFFRACTION 44 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 197 197 1ro5-a2-m10-cA_1ro5-a2-m11-cA 1ro5-a2-m10-cA_1ro5-a2-m12-cA 1ro5-a2-m11-cA_1ro5-a2-m12-cA 1ro5-a2-m1-cA_1ro5-a2-m2-cA 1ro5-a2-m1-cA_1ro5-a2-m3-cA 1ro5-a2-m2-cA_1ro5-a2-m3-cA 1ro5-a2-m4-cA_1ro5-a2-m5-cA 1ro5-a2-m4-cA_1ro5-a2-m6-cA 1ro5-a2-m5-cA_1ro5-a2-m6-cA 1ro5-a2-m7-cA_1ro5-a2-m8-cA 1ro5-a2-m7-cA_1ro5-a2-m9-cA GSHMIVQIGRREEFDKKLLGEMHKLRAQVFKERKGWDVSVIDEMEIDGYDALSPYYMLIQEDGQVFGCWRILDTTGPYMLKNTFPELLHGKEAPCSPHIWELSRFAINSGQKGSLGFSDCTLEAMRALARYSLQNDIQTLVTVTTVGVEKMMIRAGLDVSRFGPHLKIGIERAVALRIELNAKTQIALYGGVLVEQR GSHMIVQIGRREEFDKKLLGEMHKLRAQVFKERKGWDVSVIDEMEIDGYDALSPYYMLIQEDGQVFGCWRILDTTGPYMLKNTFPELLHGKEAPCSPHIWELSRFAINSGQKGSLGFSDCTLEAMRALARYSLQNDIQTLVTVTTVGVEKMMIRAGLDVSRFGPHLKIGIERAVALRIELNAKTQIALYGGVLVEQR 1ro5-a3-m11-cA_1ro5-a3-m9-cA Crystal Structure of the AHL Synthase LasI P33883 P33883 2.3 X-RAY DIFFRACTION 24 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 197 197 1ro5-a2-m10-cA_1ro5-a2-m2-cA 1ro5-a2-m10-cA_1ro5-a2-m6-cA 1ro5-a2-m11-cA_1ro5-a2-m9-cA 1ro5-a2-m12-cA_1ro5-a2-m4-cA 1ro5-a2-m12-cA_1ro5-a2-m8-cA 1ro5-a2-m1-cA_1ro5-a2-m11-cA 1ro5-a2-m1-cA_1ro5-a2-m9-cA 1ro5-a2-m2-cA_1ro5-a2-m6-cA 1ro5-a2-m3-cA_1ro5-a2-m5-cA 1ro5-a2-m3-cA_1ro5-a2-m7-cA 1ro5-a2-m4-cA_1ro5-a2-m8-cA 1ro5-a2-m5-cA_1ro5-a2-m7-cA 1ro5-a3-m13-cA_1ro5-a3-m18-cA 1ro5-a3-m13-cA_1ro5-a3-m20-cA 1ro5-a3-m14-cA_1ro5-a3-m16-cA 1ro5-a3-m14-cA_1ro5-a3-m21-cA 1ro5-a3-m15-cA_1ro5-a3-m17-cA 1ro5-a3-m15-cA_1ro5-a3-m19-cA 1ro5-a3-m16-cA_1ro5-a3-m21-cA 1ro5-a3-m17-cA_1ro5-a3-m19-cA 1ro5-a3-m18-cA_1ro5-a3-m20-cA 1ro5-a3-m1-cA_1ro5-a3-m11-cA 1ro5-a3-m1-cA_1ro5-a3-m9-cA GSHMIVQIGRREEFDKKLLGEMHKLRAQVFKERKGWDVSVIDEMEIDGYDALSPYYMLIQEDGQVFGCWRILDTTGPYMLKNTFPELLHGKEAPCSPHIWELSRFAINSGQKGSLGFSDCTLEAMRALARYSLQNDIQTLVTVTTVGVEKMMIRAGLDVSRFGPHLKIGIERAVALRIELNAKTQIALYGGVLVEQR GSHMIVQIGRREEFDKKLLGEMHKLRAQVFKERKGWDVSVIDEMEIDGYDALSPYYMLIQEDGQVFGCWRILDTTGPYMLKNTFPELLHGKEAPCSPHIWELSRFAINSGQKGSLGFSDCTLEAMRALARYSLQNDIQTLVTVTTVGVEKMMIRAGLDVSRFGPHLKIGIERAVALRIELNAKTQIALYGGVLVEQR 1ro5-a3-m18-cA_1ro5-a3-m9-cA Crystal Structure of the AHL Synthase LasI P33883 P33883 2.3 X-RAY DIFFRACTION 52 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 197 197 1ro5-a3-m11-cA_1ro5-a3-m21-cA 1ro5-a3-m13-cA_1ro5-a3-m14-cA 1ro5-a3-m16-cA_1ro5-a3-m17-cA 1ro5-a3-m19-cA_1ro5-a3-m20-cA 1ro5-a3-m1-cA_1ro5-a3-m15-cA GSHMIVQIGRREEFDKKLLGEMHKLRAQVFKERKGWDVSVIDEMEIDGYDALSPYYMLIQEDGQVFGCWRILDTTGPYMLKNTFPELLHGKEAPCSPHIWELSRFAINSGQKGSLGFSDCTLEAMRALARYSLQNDIQTLVTVTTVGVEKMMIRAGLDVSRFGPHLKIGIERAVALRIELNAKTQIALYGGVLVEQR GSHMIVQIGRREEFDKKLLGEMHKLRAQVFKERKGWDVSVIDEMEIDGYDALSPYYMLIQEDGQVFGCWRILDTTGPYMLKNTFPELLHGKEAPCSPHIWELSRFAINSGQKGSLGFSDCTLEAMRALARYSLQNDIQTLVTVTTVGVEKMMIRAGLDVSRFGPHLKIGIERAVALRIELNAKTQIALYGGVLVEQR 1rod-a1-m1-cA_1rod-a1-m1-cB CHIMERIC PROTEIN OF INTERLEUKIN 8 AND HUMAN MELANOMA GROWTH STIMULATING ACTIVITY PROTEIN, NMR P10145 P10145 NOT SOLUTION NMR 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 SAKELRCQCIKTYSKPFHPKFIKELRVIESGPHCANTEIIVKLSDGRELCLDPASPIVKKIIEKMLNSDKSN SAKELRCQCIKTYSKPFHPKFIKELRVIESGPHCANTEIIVKLSDGRELCLDPASPIVKKIIEKMLNSDKSN 1rp0-a1-m1-cB_1rp0-a1-m4-cB Crystal Structure of Thi1 protein from Arabidopsis thaliana Q38814 Q38814 1.6 X-RAY DIFFRACTION 223 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 278 278 1rp0-a1-m1-cA_1rp0-a1-m2-cA 1rp0-a1-m2-cB_1rp0-a1-m3-cB 1rp0-a1-m3-cA_1rp0-a1-m4-cA YDLNAFTFDPIKESIVSREMTRRYMTDMITYAETDVVVVGAGSAGLSAAYEISKNPNVQVAIIEQSVSPGGGAWLGGQLFSAMIVRKPAHLFLDEIGVAYDEQDTYVVVKHAALFTSTIMSKLLARPNVKLFNAVAAEDLIVKGNRVGGVVTNWALVAQNHHTQSCMDPNVMEAKIVVSSCGHDGPFGATGVKRLKSIGMIDHVPGMKALDMNTAEDAIVRLTREVVPGMIVTGMEVAEIDGAPRMGPTFGAMMISGQKAGQLALKALGLPNAIDGTL YDLNAFTFDPIKESIVSREMTRRYMTDMITYAETDVVVVGAGSAGLSAAYEISKNPNVQVAIIEQSVSPGGGAWLGGQLFSAMIVRKPAHLFLDEIGVAYDEQDTYVVVKHAALFTSTIMSKLLARPNVKLFNAVAAEDLIVKGNRVGGVVTNWALVAQNHHTQSCMDPNVMEAKIVVSSCGHDGPFGATGVKRLKSIGMIDHVPGMKALDMNTAEDAIVRLTREVVPGMIVTGMEVAEIDGAPRMGPTFGAMMISGQKAGQLALKALGLPNAIDGTL 1rp0-a1-m3-cA_1rp0-a1-m4-cB Crystal Structure of Thi1 protein from Arabidopsis thaliana Q38814 Q38814 1.6 X-RAY DIFFRACTION 70 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 278 278 1rp0-a1-m1-cA_1rp0-a1-m2-cB 1rp0-a1-m1-cA_1rp0-a1-m4-cB 1rp0-a1-m1-cB_1rp0-a1-m2-cA 1rp0-a1-m1-cB_1rp0-a1-m4-cA 1rp0-a1-m2-cA_1rp0-a1-m3-cB 1rp0-a1-m2-cB_1rp0-a1-m3-cA 1rp0-a1-m3-cB_1rp0-a1-m4-cA YDLNAFTFDPIKESIVSREMTRRYMTDMITYAETDVVVVGAGSAGLSAAYEISKNPNVQVAIIEQSVSPGGGAWLGGQLFSAMIVRKPAHLFLDEIGVAYDEQDTYVVVKHAALFTSTIMSKLLARPNVKLFNAVAAEDLIVKGNRVGGVVTNWALVAQNHHTQSCMDPNVMEAKIVVSSCGHDGPFGATGVKRLKSIGMIDHVPGMKALDMNTAEDAIVRLTREVVPGMIVTGMEVAEIDGAPRMGPTFGAMMISGQKAGQLALKALGLPNAIDGTL YDLNAFTFDPIKESIVSREMTRRYMTDMITYAETDVVVVGAGSAGLSAAYEISKNPNVQVAIIEQSVSPGGGAWLGGQLFSAMIVRKPAHLFLDEIGVAYDEQDTYVVVKHAALFTSTIMSKLLARPNVKLFNAVAAEDLIVKGNRVGGVVTNWALVAQNHHTQSCMDPNVMEAKIVVSSCGHDGPFGATGVKRLKSIGMIDHVPGMKALDMNTAEDAIVRLTREVVPGMIVTGMEVAEIDGAPRMGPTFGAMMISGQKAGQLALKALGLPNAIDGTL 1rp0-a1-m4-cA_1rp0-a1-m4-cB Crystal Structure of Thi1 protein from Arabidopsis thaliana Q38814 Q38814 1.6 X-RAY DIFFRACTION 86 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 278 278 1rp0-a1-m1-cA_1rp0-a1-m1-cB 1rp0-a1-m2-cA_1rp0-a1-m2-cB 1rp0-a1-m3-cA_1rp0-a1-m3-cB YDLNAFTFDPIKESIVSREMTRRYMTDMITYAETDVVVVGAGSAGLSAAYEISKNPNVQVAIIEQSVSPGGGAWLGGQLFSAMIVRKPAHLFLDEIGVAYDEQDTYVVVKHAALFTSTIMSKLLARPNVKLFNAVAAEDLIVKGNRVGGVVTNWALVAQNHHTQSCMDPNVMEAKIVVSSCGHDGPFGATGVKRLKSIGMIDHVPGMKALDMNTAEDAIVRLTREVVPGMIVTGMEVAEIDGAPRMGPTFGAMMISGQKAGQLALKALGLPNAIDGTL YDLNAFTFDPIKESIVSREMTRRYMTDMITYAETDVVVVGAGSAGLSAAYEISKNPNVQVAIIEQSVSPGGGAWLGGQLFSAMIVRKPAHLFLDEIGVAYDEQDTYVVVKHAALFTSTIMSKLLARPNVKLFNAVAAEDLIVKGNRVGGVVTNWALVAQNHHTQSCMDPNVMEAKIVVSSCGHDGPFGATGVKRLKSIGMIDHVPGMKALDMNTAEDAIVRLTREVVPGMIVTGMEVAEIDGAPRMGPTFGAMMISGQKAGQLALKALGLPNAIDGTL 1rpe-a1-m1-cL_1rpe-a1-m1-cR THE PHAGE 434 OR2/R1-69 COMPLEX AT 2.5 ANGSTROMS RESOLUTION P16117 P16117 2.5 X-RAY DIFFRACTION 12 1.0 10712 (Phage 434) 10712 (Phage 434) 63 63 1per-a1-m1-cL_1per-a1-m1-cR 2or1-a1-m1-cL_2or1-a1-m1-cR SISSRVKSKRIQLGLNQAELAQKVGTTQQSIEQLENGKTKRPRFLPELASALGVSVDWLLNGT SISSRVKSKRIQLGLNQAELAQKVGTTQQSIEQLENGKTKRPRFLPELASALGVSVDWLLNGT 1rpn-a5-m1-cA_1rpn-a5-m1-cD Crystal Structure of GDP-D-mannose 4,6-dehydratase in complexes with GDP and NADPH Q51366 Q51366 2.15 X-RAY DIFFRACTION 108 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 321 322 1rpn-a5-m1-cB_1rpn-a5-m1-cC RSALVTGITGQDGAYLAKLLLEKGYRVHGLVARRSSDTRWRLRELGIEGDIQYEDGDMADACSVQRAVIKAQPQEVYNLAAQSFVGASWNQPVTTGVVDGLGVTHLLEAIRQFSPETRFYQASTSEMFGLIQAERQDENTPFYPRSPYGVAKLYGHWITVNYRESFGLHASSGILFNHESPLRGIEFVTRKVTDAVARIKLGKQQELRLGNVDAKRDWGFAGDYVEAMWLMLQQDKADDYVVATGVTTTVRDMCQIAFEHVGLDYRDFLKIDPAFFRPAEVDVLLGNPAKAQRVLGWKPRTSLDELIRMMVEADLRRVSRE TRSALVTGITGQDGAYLAKLLLEKGYRVHGLVARRSSDTRWRLRELGIEGDIQYEDGDMADACSVQRAVIKAQPQEVYNLAAQSFVGASWNQPVTTGVVDGLGVTHLLEAIRQFSPETRFYQASTSEMFGLIQAERQDENTPFYPRSPYGVAKLYGHWITVNYRESFGLHASSGILFNHESPLRGIEFVTRKVTDAVARIKLGKQQELRLGNVDAKRDWGFAGDYVEAMWLMLQQDKADDYVVATGVTTTVRDMCQIAFEHVGLDYRDFLKIDPAFFRPAEVDVLLGNPAKAQRVLGWKPRTSLDELIRMMVEADLRRVSRE 1rpn-a5-m1-cB_1rpn-a5-m1-cD Crystal Structure of GDP-D-mannose 4,6-dehydratase in complexes with GDP and NADPH Q51366 Q51366 2.15 X-RAY DIFFRACTION 29 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 321 322 1rpn-a5-m1-cA_1rpn-a5-m1-cC RSALVTGITGQDGAYLAKLLLEKGYRVHGLVARRSSDTRWRLRELGIEGDIQYEDGDMADACSVQRAVIKAQPQEVYNLAAQSFVGASWNQPVTTGVVDGLGVTHLLEAIRQFSPETRFYQASTSEMFGLIQAERQDENTPFYPRSPYGVAKLYGHWITVNYRESFGLHASSGILFNHESPLRGIEFVTRKVTDAVARIKLGKQQELRLGNVDAKRDWGFAGDYVEAMWLMLQQDKADDYVVATGVTTTVRDMCQIAFEHVGLDYRDFLKIDPAFFRPAEVDVLLGNPAKAQRVLGWKPRTSLDELIRMMVEADLRRVSRE TRSALVTGITGQDGAYLAKLLLEKGYRVHGLVARRSSDTRWRLRELGIEGDIQYEDGDMADACSVQRAVIKAQPQEVYNLAAQSFVGASWNQPVTTGVVDGLGVTHLLEAIRQFSPETRFYQASTSEMFGLIQAERQDENTPFYPRSPYGVAKLYGHWITVNYRESFGLHASSGILFNHESPLRGIEFVTRKVTDAVARIKLGKQQELRLGNVDAKRDWGFAGDYVEAMWLMLQQDKADDYVVATGVTTTVRDMCQIAFEHVGLDYRDFLKIDPAFFRPAEVDVLLGNPAKAQRVLGWKPRTSLDELIRMMVEADLRRVSRE 1rpn-a5-m1-cC_1rpn-a5-m1-cD Crystal Structure of GDP-D-mannose 4,6-dehydratase in complexes with GDP and NADPH Q51366 Q51366 2.15 X-RAY DIFFRACTION 89 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 322 322 1rpn-a5-m1-cA_1rpn-a5-m1-cB TRSALVTGITGQDGAYLAKLLLEKGYRVHGLVARRSSDTRWRLRELGIEGDIQYEDGDMADACSVQRAVIKAQPQEVYNLAAQSFVGASWNQPVTTGVVDGLGVTHLLEAIRQFSPETRFYQASTSEMFGLIQAERQDENTPFYPRSPYGVAKLYGHWITVNYRESFGLHASSGILFNHESPLRGIEFVTRKVTDAVARIKLGKQQELRLGNVDAKRDWGFAGDYVEAMWLMLQQDKADDYVVATGVTTTVRDMCQIAFEHVGLDYRDFLKIDPAFFRPAEVDVLLGNPAKAQRVLGWKPRTSLDELIRMMVEADLRRVSRE TRSALVTGITGQDGAYLAKLLLEKGYRVHGLVARRSSDTRWRLRELGIEGDIQYEDGDMADACSVQRAVIKAQPQEVYNLAAQSFVGASWNQPVTTGVVDGLGVTHLLEAIRQFSPETRFYQASTSEMFGLIQAERQDENTPFYPRSPYGVAKLYGHWITVNYRESFGLHASSGILFNHESPLRGIEFVTRKVTDAVARIKLGKQQELRLGNVDAKRDWGFAGDYVEAMWLMLQQDKADDYVVATGVTTTVRDMCQIAFEHVGLDYRDFLKIDPAFFRPAEVDVLLGNPAKAQRVLGWKPRTSLDELIRMMVEADLRRVSRE 1rpt-a1-m1-cA_1rpt-a1-m2-cA CRYSTAL STRUCTURES OF RAT ACID PHOSPHATASE COMPLEXED WITH THE TRANSITIONS STATE ANALOGS VANADATE AND MOLYBDATE: IMPLICATIONS FOR THE REACTION MECHANISM P20646 P20646 3 X-RAY DIFFRACTION 77 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 342 342 1rpa-a1-m1-cA_1rpa-a1-m2-cA KELKFVTLVFRHGDRGPIETFPNDPIKESSWPQGFGQLTKWGMGQHYELGSYIRRRYGRFLNNSYKHDQVYIRSTDVDRTLMSAMTNLAALFPPEGNSIWNPRLLWQPIPVHTVSLSEDRLLYLPFRDCPRFQELKSETLKSEEFLKRLQPYKSFIDTLPSLSGFEDQDLFEIWSRLYDPLYCESVHNFTLPTWATEDAMTKLKELSELSLLSLYGIHKQKEKSRLQGGVLVNEILKNMKLATQPQKARKLIMYSAHDTTVSGLQMALDVYNGLLPPYASCHIMELYQDNGGHFVEMYYRNETQNEPYPLTLPGCTHSCPLEKFAELLDPVIPQDWATECMG KELKFVTLVFRHGDRGPIETFPNDPIKESSWPQGFGQLTKWGMGQHYELGSYIRRRYGRFLNNSYKHDQVYIRSTDVDRTLMSAMTNLAALFPPEGNSIWNPRLLWQPIPVHTVSLSEDRLLYLPFRDCPRFQELKSETLKSEEFLKRLQPYKSFIDTLPSLSGFEDQDLFEIWSRLYDPLYCESVHNFTLPTWATEDAMTKLKELSELSLLSLYGIHKQKEKSRLQGGVLVNEILKNMKLATQPQKARKLIMYSAHDTTVSGLQMALDVYNGLLPPYASCHIMELYQDNGGHFVEMYYRNETQNEPYPLTLPGCTHSCPLEKFAELLDPVIPQDWATECMG 1rpx-a1-m1-cC_1rpx-a1-m2-cC D-RIBULOSE-5-PHOSPHATE 3-EPIMERASE FROM SOLANUM TUBEROSUM CHLOROPLASTS Q43843 Q43843 2.3 X-RAY DIFFRACTION 84 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 230 230 1rpx-a1-m1-cA_1rpx-a1-m2-cB 1rpx-a1-m1-cB_1rpx-a1-m2-cA SRVDKFSKSDIIVSPSILSANFSKLGEQVKAIEQAGCDWIHVDVMDGRFVPNITIGPLVVDSLRPITDLPLDVHLMIVEPDQRVPDFIKAGADIVSVHCEQSSTIHLHRTINQIKSLGAKAGVVLNPGTPLTAIEYVLDAVDLVLIMSVNPGFGGQSFIESQVKKISDLRKICAERGLNPWIEVDGGVGPKNAYKVIEAGANALVAGSAVFGAPDYAEAIKGIKTSKRPE SRVDKFSKSDIIVSPSILSANFSKLGEQVKAIEQAGCDWIHVDVMDGRFVPNITIGPLVVDSLRPITDLPLDVHLMIVEPDQRVPDFIKAGADIVSVHCEQSSTIHLHRTINQIKSLGAKAGVVLNPGTPLTAIEYVLDAVDLVLIMSVNPGFGGQSFIESQVKKISDLRKICAERGLNPWIEVDGGVGPKNAYKVIEAGANALVAGSAVFGAPDYAEAIKGIKTSKRPE 1rpx-a1-m2-cB_1rpx-a1-m2-cC D-RIBULOSE-5-PHOSPHATE 3-EPIMERASE FROM SOLANUM TUBEROSUM CHLOROPLASTS Q43843 Q43843 2.3 X-RAY DIFFRACTION 39 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 230 230 1rpx-a1-m1-cA_1rpx-a1-m1-cB 1rpx-a1-m1-cA_1rpx-a1-m1-cC 1rpx-a1-m1-cB_1rpx-a1-m1-cC 1rpx-a1-m2-cA_1rpx-a1-m2-cB 1rpx-a1-m2-cA_1rpx-a1-m2-cC SRVDKFSKSDIIVSPSILSANFSKLGEQVKAIEQAGCDWIHVDVMDGRFVPNITIGPLVVDSLRPITDLPLDVHLMIVEPDQRVPDFIKAGADIVSVHCEQSSTIHLHRTINQIKSLGAKAGVVLNPGTPLTAIEYVLDAVDLVLIMSVNPGFGGQSFIESQVKKISDLRKICAERGLNPWIEVDGGVGPKNAYKVIEAGANALVAGSAVFGAPDYAEAIKGIKTSKRPE SRVDKFSKSDIIVSPSILSANFSKLGEQVKAIEQAGCDWIHVDVMDGRFVPNITIGPLVVDSLRPITDLPLDVHLMIVEPDQRVPDFIKAGADIVSVHCEQSSTIHLHRTINQIKSLGAKAGVVLNPGTPLTAIEYVLDAVDLVLIMSVNPGFGGQSFIESQVKKISDLRKICAERGLNPWIEVDGGVGPKNAYKVIEAGANALVAGSAVFGAPDYAEAIKGIKTSKRPE 1rpy-a2-m1-cB_1rpy-a2-m2-cB CRYSTAL STRUCTURE OF THE DIMERIC SH2 DOMAIN OF APS Q9Z200 Q9Z200 2.3 X-RAY DIFFRACTION 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 85 85 LSDYPWFHGTLSRVKAAQLVLAGGPRSHGLFVIRQSETRPGECVLTFNFQGKAKHLRLSGQCHVQHLWFQSVFDLRHFHTHPIPL LSDYPWFHGTLSRVKAAQLVLAGGPRSHGLFVIRQSETRPGECVLTFNFQGKAKHLRLSGQCHVQHLWFQSVFDLRHFHTHPIPL 1rpz-a1-m1-cA_1rpz-a1-m4-cA T4 POLYNUCLEOTIDE KINASE BOUND TO 5'-TGCAC-3' SSDNA P06855 P06855 2.9 X-RAY DIFFRACTION 60 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 275 275 1ltq-a1-m1-cA_1ltq-a1-m4-cA 1ltq-a1-m2-cA_1ltq-a1-m3-cA 1ly1-a1-m1-cA_1ly1-a1-m2-cA 1rc8-a1-m1-cA_1rc8-a1-m4-cA 1rc8-a1-m2-cA_1rc8-a1-m3-cA 1rpz-a1-m2-cA_1rpz-a1-m3-cA 1rrc-a1-m1-cA_1rrc-a1-m4-cA 1rrc-a1-m2-cA_1rrc-a1-m3-cA 2ia5-a1-m1-cA_2ia5-a1-m1-cB 2ia5-a1-m1-cD_2ia5-a1-m1-cC 2ia5-a2-m1-cE_2ia5-a2-m1-cF 2ia5-a2-m1-cG_2ia5-a2-m1-cH 2ia5-a3-m1-cI_2ia5-a3-m1-cJ 2ia5-a3-m1-cK_2ia5-a3-m1-cL KKIILTIGCPGSGKSTWAREFIAKNPGFYNINRDDYRQSIAHEERDEYKYTKKKEGIVTGQFDTAKSILYGGDSVKGVIISDTNLNPERRLAWETFAKEYGWKVEHKVFDVPWTELVKRNSKRGTKAVPIDVLRSYKSREYLGLPVYNGTPGKPKAVIFDVDGTLAKVINPVVELSKYALGYQIVVVSGRESGTKEDPTKYYRTRKWVEDIAGVPLVQCQREQGDTRKDDVVKEEIFWKHIAPHFDVKLAIDDRTQVVEWRRIGVECWQVASGDF KKIILTIGCPGSGKSTWAREFIAKNPGFYNINRDDYRQSIAHEERDEYKYTKKKEGIVTGQFDTAKSILYGGDSVKGVIISDTNLNPERRLAWETFAKEYGWKVEHKVFDVPWTELVKRNSKRGTKAVPIDVLRSYKSREYLGLPVYNGTPGKPKAVIFDVDGTLAKVINPVVELSKYALGYQIVVVSGRESGTKEDPTKYYRTRKWVEDIAGVPLVQCQREQGDTRKDDVVKEEIFWKHIAPHFDVKLAIDDRTQVVEWRRIGVECWQVASGDF 1rpz-a1-m3-cA_1rpz-a1-m4-cA T4 POLYNUCLEOTIDE KINASE BOUND TO 5'-TGCAC-3' SSDNA P06855 P06855 2.9 X-RAY DIFFRACTION 52 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 275 275 1ltq-a1-m1-cA_1ltq-a1-m2-cA 1ltq-a1-m3-cA_1ltq-a1-m4-cA 1rc8-a1-m1-cA_1rc8-a1-m2-cA 1rc8-a1-m3-cA_1rc8-a1-m4-cA 1rpz-a1-m1-cA_1rpz-a1-m2-cA 1rrc-a1-m1-cA_1rrc-a1-m2-cA 1rrc-a1-m3-cA_1rrc-a1-m4-cA 2ia5-a1-m1-cC_2ia5-a1-m1-cB 2ia5-a1-m1-cD_2ia5-a1-m1-cA 2ia5-a2-m1-cE_2ia5-a2-m1-cH 2ia5-a2-m1-cG_2ia5-a2-m1-cF 2ia5-a3-m1-cI_2ia5-a3-m1-cL 2ia5-a3-m1-cK_2ia5-a3-m1-cJ 5uj0-a1-m1-cB_5uj0-a1-m1-cA KKIILTIGCPGSGKSTWAREFIAKNPGFYNINRDDYRQSIAHEERDEYKYTKKKEGIVTGQFDTAKSILYGGDSVKGVIISDTNLNPERRLAWETFAKEYGWKVEHKVFDVPWTELVKRNSKRGTKAVPIDVLRSYKSREYLGLPVYNGTPGKPKAVIFDVDGTLAKVINPVVELSKYALGYQIVVVSGRESGTKEDPTKYYRTRKWVEDIAGVPLVQCQREQGDTRKDDVVKEEIFWKHIAPHFDVKLAIDDRTQVVEWRRIGVECWQVASGDF KKIILTIGCPGSGKSTWAREFIAKNPGFYNINRDDYRQSIAHEERDEYKYTKKKEGIVTGQFDTAKSILYGGDSVKGVIISDTNLNPERRLAWETFAKEYGWKVEHKVFDVPWTELVKRNSKRGTKAVPIDVLRSYKSREYLGLPVYNGTPGKPKAVIFDVDGTLAKVINPVVELSKYALGYQIVVVSGRESGTKEDPTKYYRTRKWVEDIAGVPLVQCQREQGDTRKDDVVKEEIFWKHIAPHFDVKLAIDDRTQVVEWRRIGVECWQVASGDF 1rq0-a1-m1-cC_1rq0-a1-m1-cA Crystal structure of peptide releasing factor 1 Q9X183 Q9X183 2.65 X-RAY DIFFRACTION 51 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 314 319 1rq0-a1-m1-cB_1rq0-a1-m1-cA MKEKKKEIEKLLARPDLTPEQMKNYGMEYAKIEEIENITNRIKETQEFIELLREEGENELEIEKYEKELDQLYQELLFLLSPEASDKAIVEIRPGTGGEEAALFARDLFRMYTRYAERKGWNLEVAEIHETDLGGIREVVFFVKGKNAYGILKYESGVHRVQRVPVTESGGRIHTSTATVAVLPEIEEKDIEIRPEDLKIETFRASGESAVRITHLPTGIVVSCQNERSQYQNKQTALRILRARLYQLQKEQKEREISQRSEKIRTYNFPQNRVTDHRINYTSYRLQEILDGDLDEIISKLIEHDIENNLEEVL MKEKKKEIEKLLARPDLTPEQMKNYGMEYAKIEEIENITNRIKETQEFIELLREEGENELEIEKYEKELDQLYQELLFLLSPEASDKAIVEIRPGTGGEEAALFARDLFRMYTRYAERKGWNLEVAEIHETDLGGIREVVFFVKGKNAYGILKYESGVHRVQRVPVTESGGRIHTSTATVAVLPEIEEKDIEIRPEDLKIETFRASGYVNKTESAVRITHLPTGIVVSCQNERSQYQNKQTALRILRARLYQLQKEQKEREISQRSEKIRTYNFPQNRVTDHRINYTSYRLQEILDGDLDEIISKLIEHDIENNLEEVL 1rqb-a1-m1-cA_1rqb-a1-m2-cA Propionibacterium shermanii transcarboxylase 5S subunit Q70AC7 Q70AC7 1.9 X-RAY DIFFRACTION 108 1.0 1752 (Propionibacterium freudenreichii subsp. shermanii) 1752 (Propionibacterium freudenreichii subsp. shermanii) 448 448 1rqe-a1-m1-cA_1rqe-a1-m2-cA 1rqh-a1-m1-cA_1rqh-a1-m2-cA 1rr2-a1-m1-cA_1rr2-a1-m2-cA 1s3h-a1-m1-cA_1s3h-a1-m2-cA 1u5j-a1-m1-cA_1u5j-a1-m2-cA PREIEVSEPREVGITELVLRDAHQSLATRAEDVGACADIDAAGYWSVECWGGATYDSCIRFLNEDPWERLRTFRKLPNSRLQLLRGQNLLGYRHYNDEVVDRFVDKSAENGDVFRVFDANDPRNAHAAAVKKAGKHAQGTICYTISPVHTVEGYVKLAGQLLDGADSIALDAALLKPQPAYDIIKAIKDTYGQKTQINLHCHSTTGVTEVSLKAIEAGVDVVDTAISSSLGPGHNPTESVAELEGTGYTTNLDYDRLHKIRDHFKAIRPKYKKFESKTLVDTSIFKSQIPGGLSNESQLRAQGAEDKDEVAEVPRVRKAAGFPPLVTPSSQIVGTQAVFNVGEYKRTGEFADILGYYGASPADRDPKVVKLAEEQSGKKPITQRPADLLPPEWEKQSKEAATLKGFNGTDEDVLTYALFPQVAPVFFEHRAEGPHSVALTDAQLKAEA PREIEVSEPREVGITELVLRDAHQSLATRAEDVGACADIDAAGYWSVECWGGATYDSCIRFLNEDPWERLRTFRKLPNSRLQLLRGQNLLGYRHYNDEVVDRFVDKSAENGDVFRVFDANDPRNAHAAAVKKAGKHAQGTICYTISPVHTVEGYVKLAGQLLDGADSIALDAALLKPQPAYDIIKAIKDTYGQKTQINLHCHSTTGVTEVSLKAIEAGVDVVDTAISSSLGPGHNPTESVAELEGTGYTTNLDYDRLHKIRDHFKAIRPKYKKFESKTLVDTSIFKSQIPGGLSNESQLRAQGAEDKDEVAEVPRVRKAAGFPPLVTPSSQIVGTQAVFNVGEYKRTGEFADILGYYGASPADRDPKVVKLAEEQSGKKPITQRPADLLPPEWEKQSKEAATLKGFNGTDEDVLTYALFPQVAPVFFEHRAEGPHSVALTDAQLKAEA 1rqg-a1-m1-cA_1rqg-a1-m2-cA Methionyl-tRNA synthetase from Pyrococcus abyssi Q9V011 Q9V011 2.9 X-RAY DIFFRACTION 66 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 606 606 MVRYMVTSALPYANGPIHAGHLAGAYLPADIFVRYLRLKGEDVVFICGTDEHGTPISFRALKEGRSPREIVDEFHEQIKITFQRAKISFDFFGRTELPIHYKLSQEFFLKAYENGHLVKKVTKQAYCEHDKMFLPDRFVIGTCPYCGAEDQKGDQCEVCGRPLTPEILINPRCAICGRPISFRDSAHYYIKMQDFAERLKRWIEKQPWKPNVKNMVLSWIEEGLEERAITRDLNWGIPVPLDEEDMKGKVLYVWFEAPIGYISITIEHFKRIGKPNEWKKYWLNIDGQTRVIHFIGKDNIPFHAIFWPAFLMAYGKYKDEEVEAEWNLPYDIPANEYLTLEGKKFSTSRNWAIWVHEFLDVFPADYLRYYLTTIMPETRDSDFSFSDFKVRINEELVNNLGNFVHRALTFVNRYFDGVVPERGELDELDREALEEIEKAFKEVGELIMNYRFKDALKRVMSLASFGNRYFDHKQPWKTAKEDKVRTGTTVNISLQIVKALGILLEPFLPDASEKIWHLLNLDEVKRWEFRELPAGHKVRKPEILFKKVTDDQIIYFILNYMAKGNPEGARILLDKYYKREDVIRVAKEKFGDEAEVVLRRVYKDIK MVRYMVTSALPYANGPIHAGHLAGAYLPADIFVRYLRLKGEDVVFICGTDEHGTPISFRALKEGRSPREIVDEFHEQIKITFQRAKISFDFFGRTELPIHYKLSQEFFLKAYENGHLVKKVTKQAYCEHDKMFLPDRFVIGTCPYCGAEDQKGDQCEVCGRPLTPEILINPRCAICGRPISFRDSAHYYIKMQDFAERLKRWIEKQPWKPNVKNMVLSWIEEGLEERAITRDLNWGIPVPLDEEDMKGKVLYVWFEAPIGYISITIEHFKRIGKPNEWKKYWLNIDGQTRVIHFIGKDNIPFHAIFWPAFLMAYGKYKDEEVEAEWNLPYDIPANEYLTLEGKKFSTSRNWAIWVHEFLDVFPADYLRYYLTTIMPETRDSDFSFSDFKVRINEELVNNLGNFVHRALTFVNRYFDGVVPERGELDELDREALEEIEKAFKEVGELIMNYRFKDALKRVMSLASFGNRYFDHKQPWKTAKEDKVRTGTTVNISLQIVKALGILLEPFLPDASEKIWHLLNLDEVKRWEFRELPAGHKVRKPEILFKKVTDDQIIYFILNYMAKGNPEGARILLDKYYKREDVIRVAKEKFGDEAEVVLRRVYKDIK 1rqi-a1-m1-cB_1rqi-a1-m1-cA Active Conformation of Farnesyl Pyrophosphate Synthase Bound to Isopentyl Pyrophosphate and Dimethylallyl S-Thiolodiphosphate P22939 P22939 2.42 X-RAY DIFFRACTION 154 1.0 562 (Escherichia coli) 562 (Escherichia coli) 298 300 1rqj-a3-m2-cB_1rqj-a3-m1-cA 2for-a1-m1-cB_2for-a1-m1-cA DFPQQLEACVKQANQALSRFIAPLPFQNTPVVETMQYGALLGGKRLRPFLVYATGHMFGVSTNTLDAPAAAVECIHAYSLIHDDLPAMDDDDLRRGLPTCHVKFGEANAILAGDALQTLAFSILSDADMPEVSDRDRISMISELASASGIAGMCGGQALDLDAEGKHVPLDALERIHRHKTGALIRAAVRLGALSAGDKGRRALPVLDKYAESIGLAFQVQDDILDVVGDTATLGKRQGADQQLGKSTYPALLGLEQARKKARDLIDDARQSLKQLAEQSLDTSALEALADYIIQRNK AMDFPQQLEACVKQANQALSRFIAPLPFQNTPVVETMQYGALLGGKRLRPFLVYATGHMFGVSTNTLDAPAAAVECIHAYSLIHDDLPAMDDDDLRRGLPTCHVKFGEANAILAGDALQTLAFSILSDADMPEVSDRDRISMISELASASGIAGMCGGQALDLDAEGKHVPLDALERIHRHKTGALIRAAVRLGALSAGDKGRRALPVLDKYAESIGLAFQVQDDILDVVGDTATLGKRQGADQQLGKSTYPALLGLEQARKKARDLIDDARQSLKQLAEQSLDTSALEALADYIIQRNK 1rql-a1-m1-cA_1rql-a1-m1-cB Crystal Structure of Phosponoacetaldehyde Hydrolase Complexed with Magnesium and the Inhibitor Vinyl Sulfonate O31156 O31156 2.4 X-RAY DIFFRACTION 42 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 257 257 1fez-a1-m1-cA_1fez-a1-m1-cB 1fez-a2-m1-cC_1fez-a2-m1-cD 1rdf-a2-m1-cB_1rdf-a2-m1-cD 1rdf-a4-m1-cE_1rdf-a4-m2-cE 1rdf-a4-m1-cF_1rdf-a4-m2-cF 1rdf-a5-m1-cB_1rdf-a5-m1-cD 1rdf-a5-m1-cC_1rdf-a5-m3-cA 1rqn-a1-m1-cA_1rqn-a1-m1-cB 1swv-a1-m1-cA_1swv-a1-m1-cB 1sww-a1-m1-cA_1sww-a1-m1-cB 2iof-a1-m1-cK_2iof-a1-m1-cA 2ioh-a1-m1-cA_2ioh-a1-m1-cB 2ioh-a2-m1-cC_2ioh-a2-m2-cC 2ioh-a3-m1-cD_2ioh-a3-m3-cD KIEAVIFDWAGTTVDYGCFAPLEVFMEIFHKRGVAITAEEARKPMGLLKIDHVRALTEMPRIASEWNRVFRQLPTEADIQEMYEEFEEILFAILPRYASPINAVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELGVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVENMDSVELREKIEVVRNRFVENGAHFTIETMQELESVMEHIEK KIEAVIFDWAGTTVDYGCFAPLEVFMEIFHKRGVAITAEEARKPMGLLKIDHVRALTEMPRIASEWNRVFRQLPTEADIQEMYEEFEEILFAILPRYASPINAVKEVIASLRERGIKIGSTTGYTREMMDIVAKEAALQGYKPDFLVTPDDVPAGRPYPWMCYKNAMELGVYPMNHMIKVGDTVSDMKEGRNAGMWTVGVILGSSELGLTEEEVENMDSVELREKIEVVRNRFVENGAHFTIETMQELESVMEHIEK 1rqp-a1-m1-cA_1rqp-a1-m2-cC Crystal structure and mechanism of a bacterial fluorinating enzyme Q70GK9 Q70GK9 1.8 X-RAY DIFFRACTION 25 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 291 291 1rqr-a1-m1-cA_1rqr-a1-m2-cC RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYSREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYSREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA 1rqp-a1-m1-cB_1rqp-a1-m2-cC Crystal structure and mechanism of a bacterial fluorinating enzyme Q70GK9 Q70GK9 1.8 X-RAY DIFFRACTION 15 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 291 291 1rqr-a1-m1-cB_1rqr-a1-m2-cC RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYSREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYSREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA 1rqq-a1-m1-cC_1rqq-a1-m1-cD Crystal Structure of the Insulin Receptor Kinase in Complex with the SH2 Domain of APS Q9Z200 Q9Z200 2.6 X-RAY DIFFRACTION 50 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 83 83 LELSDYPWFHGTLSRVKAAQLVLAGGPRSHGLFVIRQSETRPGECVLTFNFQGKAKHLRLSLNGQCHVQHLWFQSVFDMLRHF LELSDYPWFHGTLSRVKAAQLVLAGGPRSHGLFVIRQSETRPGECVLTFNFQGKAKHLRLSLNGQCHVQHLWFQSVFDMLRHF 1rqu-a1-m1-cA_1rqu-a1-m1-cB NMR structure of L7 dimer from E.coli P0A7K2 P0A7K2 NOT SOLUTION NMR 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 120 120 1rqt-a1-m1-cA_1rqt-a1-m1-cB SITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK SITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK 1rqv-a1-m1-cA_1rqv-a1-m1-cB Spatial model of L7 dimer from E.coli with one hinge region in helical state P0A7K2 P0A7K2 NOT SOLUTION NMR 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 120 120 SITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK SITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK 1rr7-a2-m1-cA_1rr7-a2-m2-cA Crystal structure of the Middle Operon Regulator protein of Bacteriophage Mu P23848 P23848 2.2 X-RAY DIFFRACTION 139 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 94 94 RFPALLAELNDLLRGELSRLGVDPAHSLEIVVAICKHLGGGQVYIPRGQALDSLIRDLRIWNDFNGRNVSELTTRYGVTFNTVYKAIRRMRRLK RFPALLAELNDLLRGELSRLGVDPAHSLEIVVAICKHLGGGQVYIPRGQALDSLIRDLRIWNDFNGRNVSELTTRYGVTFNTVYKAIRRMRRLK 1rrp-a3-m1-cA_1rrp-a3-m2-cA STRUCTURE OF THE RAN-GPPNHP-RANBD1 COMPLEX P62826 P62826 2.96 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 QVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQTTALPD QVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQTTALPD 1rrp-a3-m2-cC_1rrp-a3-m2-cA STRUCTURE OF THE RAN-GPPNHP-RANBD1 COMPLEX P62826 P62826 2.96 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 204 1rrp-a3-m1-cC_1rrp-a3-m1-cA QVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEV QVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQTTALPD 1rrp-a4-m2-cC_1rrp-a4-m1-cA STRUCTURE OF THE RAN-GPPNHP-RANBD1 COMPLEX P62826 P62826 2.96 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 204 1rrp-a3-m1-cC_1rrp-a3-m2-cA 1rrp-a3-m2-cC_1rrp-a3-m1-cA QVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEV QVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSIVFHRKKNLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQTTALPD 1rso-a1-m1-cA_1rso-a1-m1-cC Hetero-tetrameric L27 (Lin-2, Lin-7) domain complexes as organization platforms of supra-molecular assemblies Q62696 Q62696 NOT SOLUTION NMR 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 60 RKQDTQRALHLLEEYRSKLSQTEDRQLRSSIERVISIFQSNLFQALIDIQEFYEVTLLDN RKQDTQRALHLLEEYRSKLSQTEDRQLRSSIERVISIFQSNLFQALIDIQEFYEVTLLDN 1rtr-a1-m1-cB_1rtr-a1-m1-cA Crystal Structure of S. Aureus Farnesyl Pyrophosphate Synthase A0A0H3JWH0 A0A0H3JWH0 2.5 X-RAY DIFFRACTION 154 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 271 277 TNLPMNKLIDEVNNELSVAINKSVMDTQLEESMLYSLNAGGKRIRPVLLLLTLDSLNTEYELGMKSAIALEMIHTYSLIHDDLPAMDNDDYRRGKLTNHKVYGEWTAILAGDALLTKAFELISSDDRLTDEVKIKVLQRLSIASGHVGMVGGQMLDMQSEGQPIDLETLEMIHKTKTGALLTFAVMSAADIANVDDTTKEHLESYSYHLGMMFQIKDDLLDCSTYVSLLGKDGAEDKLTYHRDAAVDELTQIDEQFNTKHLLEIVDLFYSR TNLPMNKLIDEVNNELSVAINKSVMDTQLEESMLYSLNAGGKRIRPVLLLLTLDSLNTEYELGMKSAIALEMIHTYSLIHDDLPAMDNDDYRRGKLTNHKVYGEWTAILAGDALLTKAFELISSDDRLTDEVKIKVLQRLSIASGHVGMVGGQMLDMQSEGQPIDLETLEMIHKTKTGALLTFAVMSAADIANVDDTTKEHLESYSYHLGMMFQIKDDLLDCYGDEAKSTYVSLLGKDGAEDKLTYHRDAAVDELTQIDEQFNTKHLLEIVDLFYSR 1rtv-a1-m1-cA_1rtv-a1-m2-cA RmlC (dTDP-6-deoxy-D-xylo-4-hexulose 3,5-epimerase) crystal structure from Pseudomonas aeruginosa, apo structure Q9HU21 Q9HU21 2.5 X-RAY DIFFRACTION 24 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 184 184 SMAMKATRLAIPDVILFEPRVFGDDRGFFFESYNQRAFEEACGHPVSFVQDNHSRSARGVLRGLHYQIRQAQGKLVRATLGEVFDVAVDLRRGSPTFGQWVGERLSAENKRQMWIPAGFAHGFVVLSEYAEFLYKTTDFWAPEHERCIVWNDPELKIDWPLQDAPLLSEKDRQGKAFADADCFP SMAMKATRLAIPDVILFEPRVFGDDRGFFFESYNQRAFEEACGHPVSFVQDNHSRSARGVLRGLHYQIRQAQGKLVRATLGEVFDVAVDLRRGSPTFGQWVGERLSAENKRQMWIPAGFAHGFVVLSEYAEFLYKTTDFWAPEHERCIVWNDPELKIDWPLQDAPLLSEKDRQGKAFADADCFP 1rtw-a1-m1-cA_1rtw-a1-m1-cD X-ray Structure of PF1337, a TenA Homologue from Pyrococcus furiosus. Northeast Structural Genomics Research Consortium (Nesg) Target PFR34 Q8U189 Q8U189 2.35 X-RAY DIFFRACTION 35 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 201 201 1rtw-a1-m1-cC_1rtw-a1-m1-cB FSEELIKENENIWRRFLPHKFLIEAENTIKKENFEKWLVNDYYFVKNALRFALLAKAPDDLLPFFAESIYYISKELEFEKKAQELGISLNGEIDWRAKSYVNYLLSVASLGSFLEGFTALYCEEKAYYEAWKWVRENLKERSPYQEFINHWSSQEFGEYVKRIEKILNSLAEKHGEFEKERAREVFKEVSKFELIFWDIAY FSEELIKENENIWRRFLPHKFLIEAENTIKKENFEKWLVNDYYFVKNALRFALLAKAPDDLLPFFAESIYYISKELEFEKKAQELGISLNGEIDWRAKSYVNYLLSVASLGSFLEGFTALYCEEKAYYEAWKWVRENLKERSPYQEFINHWSSQEFGEYVKRIEKILNSLAEKHGEFEKERAREVFKEVSKFELIFWDIAY 1rtw-a1-m1-cD_1rtw-a1-m1-cB X-ray Structure of PF1337, a TenA Homologue from Pyrococcus furiosus. Northeast Structural Genomics Research Consortium (Nesg) Target PFR34 Q8U189 Q8U189 2.35 X-RAY DIFFRACTION 25 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 201 204 1rtw-a1-m1-cA_1rtw-a1-m1-cC FSEELIKENENIWRRFLPHKFLIEAENTIKKENFEKWLVNDYYFVKNALRFALLAKAPDDLLPFFAESIYYISKELEFEKKAQELGISLNGEIDWRAKSYVNYLLSVASLGSFLEGFTALYCEEKAYYEAWKWVRENLKERSPYQEFINHWSSQEFGEYVKRIEKILNSLAEKHGEFEKERAREVFKEVSKFELIFWDIAY FSEELIKENENIWRRFLPHKFLIEAENTIKKENFEKWLVNDYYFVKNALRFALLAKAPDDLLPFFAESIYYISKELEFEKKAQELGISLNGEIDWRAKSYVNYLLSVASLGSFLEGFTALYCEEKAYYEAWKWVRENLKERSPYQEFINHWSSQEFGEYVKRIEKILNSLAEKHGEFEKERAREVFKEVSKFELIFWDIAYGGE 1rtw-a1-m1-cD_1rtw-a1-m1-cC X-ray Structure of PF1337, a TenA Homologue from Pyrococcus furiosus. Northeast Structural Genomics Research Consortium (Nesg) Target PFR34 Q8U189 Q8U189 2.35 X-RAY DIFFRACTION 56 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 201 203 1rtw-a1-m1-cA_1rtw-a1-m1-cB FSEELIKENENIWRRFLPHKFLIEAENTIKKENFEKWLVNDYYFVKNALRFALLAKAPDDLLPFFAESIYYISKELEFEKKAQELGISLNGEIDWRAKSYVNYLLSVASLGSFLEGFTALYCEEKAYYEAWKWVRENLKERSPYQEFINHWSSQEFGEYVKRIEKILNSLAEKHGEFEKERAREVFKEVSKFELIFWDIAY FSEELIKENENIWRRFLPHKFLIEAENTIKKENFEKWLVNDYYFVKNALRFALLAKAPDDLLPFFAESIYYISKELEFEKKAQELGISLNGEIDWRAKSYVNYLLSVASLGSFLEGFTALYCEEKAYYEAWKWVRENLKERSPYQEFINHWSSQEFGEYVKRIEKILNSLAEKHGEFEKERAREVFKEVSKFELIFWDIAYGG 1rty-a1-m1-cA_1rty-a1-m1-cB Crystal Structure of Bacillus subtilis YvqK, a putative ATP-binding Cobalamin Adenosyltransferase, The North East Structural Genomics Target SR128 O34899 O34899 2.4 X-RAY DIFFRACTION 66 0.981 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 157 161 KDSLRVESYGTIDELNSFIGLALAELSGQPGFEDLTAELLTIQHELFDCGGDLAIVTDYKLTEESVSFLETRIDAYTAEAPELKKFILPGGSKCASLLHIARTITRRAERRVVALKSEEIHETVLRYLNRLSDYFFAGARVVNARSGIGDVEYERSA KLYTDSLRVESYGTIDELNSFIGLALAELSGQPGFEDLTAELLTIQHELFDCGGDLAIVTERKDYKLTEESVSFLETRIDAYTAEAPELKKFILPGGSKCASLLHIARTITRRAERRVVALKSEEIHETVLRYLNRLSDYFFAGARVVNARSGIGDVEYER 1rvg-a2-m1-cC_1rvg-a2-m1-cD crystal structure of class II fructose-bisphosphate aldolase from Thermus aquaticus in complex with Y Q9RHA2 Q9RHA2 2 X-RAY DIFFRACTION 103 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 305 305 1rv8-a1-m1-cA_1rv8-a1-m1-cB 1rv8-a2-m1-cC_1rv8-a2-m1-cD 1rvg-a1-m1-cA_1rvg-a1-m1-cB MLVTGLEILKKAREEGYGVGAFNVNNMEFLQAVLEAAEEQRSPVILALSEGAMKYGGRALTLMAVELAKEARVPVAVHLDHGSSYESVLRALRAGFTSVMIDKSHEDFETNVRETRRVVEAAHAVGVTVEAELGRLAGIEEHVAVDEKDALLTNPEEARIFMERTGADYLAVAIGTSHGAYKGKGRPFIDHARLERIARLVPAPLVLHGASAVPPELVERFRASGGEIGEAAGIHPEDIKKAISLGIAKINTDTDLRLAFTALIREALNKNPKEFDPRKYLGPAREAVKEVVKSRMELFGSVGRA MLVTGLEILKKAREEGYGVGAFNVNNMEFLQAVLEAAEEQRSPVILALSEGAMKYGGRALTLMAVELAKEARVPVAVHLDHGSSYESVLRALRAGFTSVMIDKSHEDFETNVRETRRVVEAAHAVGVTVEAELGRLAGIEEHVAVDEKDALLTNPEEARIFMERTGADYLAVAIGTSHGAYKGKGRPFIDHARLERIARLVPAPLVLHGASAVPPELVERFRASGGEIGEAAGIHPEDIKKAISLGIAKINTDTDLRLAFTALIREALNKNPKEFDPRKYLGPAREAVKEVVKSRMELFGSVGRA 1rvv-a2-m1-cG_1rvv-a2-m2-cZ SYNTHASE/RIBOFLAVIN SYNTHASE COMPLEX OF BACILLUS SUBTILIS P11998 P11998 2.4 X-RAY DIFFRACTION 31 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 154 154 1rvv-a1-m1-c3_1rvv-a1-m1-cT 1rvv-a1-m1-c4_1rvv-a1-m1-cX 1rvv-a1-m1-cB_1rvv-a1-m1-cU 1rvv-a1-m1-cC_1rvv-a1-m1-cR 1rvv-a1-m1-cD_1rvv-a1-m1-cJ 1rvv-a1-m1-cE_1rvv-a1-m1-cN 1rvv-a1-m1-cF_1rvv-a1-m1-cQ 1rvv-a1-m1-cI_1rvv-a1-m1-cO 1rvv-a1-m1-cS_1rvv-a1-m1-cY 1rvv-a2-m1-c1_1rvv-a2-m2-cP 1rvv-a2-m1-c2_1rvv-a2-m2-c2 1rvv-a2-m1-c3_1rvv-a2-m1-cT 1rvv-a2-m1-c4_1rvv-a2-m1-cX 1rvv-a2-m1-cA_1rvv-a2-m2-cL 1rvv-a2-m1-cB_1rvv-a2-m1-cU 1rvv-a2-m1-cC_1rvv-a2-m1-cR 1rvv-a2-m1-cD_1rvv-a2-m1-cJ 1rvv-a2-m1-cE_1rvv-a2-m1-cN 1rvv-a2-m1-cF_1rvv-a2-m1-cQ 1rvv-a2-m1-cH_1rvv-a2-m2-cW 1rvv-a2-m1-cI_1rvv-a2-m1-cO 1rvv-a2-m1-cK_1rvv-a2-m2-cV 1rvv-a2-m1-cL_1rvv-a2-m2-cA 1rvv-a2-m1-cM_1rvv-a2-m2-cM 1rvv-a2-m1-cP_1rvv-a2-m2-c1 1rvv-a2-m1-cS_1rvv-a2-m1-cY 1rvv-a2-m1-cV_1rvv-a2-m2-cK 1rvv-a2-m1-cW_1rvv-a2-m2-cH 1rvv-a2-m1-cZ_1rvv-a2-m2-cG 1rvv-a2-m2-c3_1rvv-a2-m2-cT 1rvv-a2-m2-c4_1rvv-a2-m2-cX 1rvv-a2-m2-cB_1rvv-a2-m2-cU 1rvv-a2-m2-cC_1rvv-a2-m2-cR 1rvv-a2-m2-cD_1rvv-a2-m2-cJ 1rvv-a2-m2-cE_1rvv-a2-m2-cN 1rvv-a2-m2-cF_1rvv-a2-m2-cQ 1rvv-a2-m2-cI_1rvv-a2-m2-cO 1rvv-a2-m2-cS_1rvv-a2-m2-cY 1zis-a3-m10-cA_1zis-a3-m6-cI 1zis-a3-m10-cC_1zis-a3-m4-cJ 1zis-a3-m10-cD_1zis-a3-m11-cE 1zis-a3-m10-cE_1zis-a3-m12-cD 1zis-a3-m11-cA_1zis-a3-m4-cI 1zis-a3-m11-cB_1zis-a3-m3-cG 1zis-a3-m11-cC_1zis-a3-m5-cJ 1zis-a3-m11-cD_1zis-a3-m12-cE 1zis-a3-m12-cA_1zis-a3-m5-cI 1zis-a3-m12-cB_1zis-a3-m2-cG 1zis-a3-m12-cC_1zis-a3-m6-cJ 1zis-a3-m1-cF_1zis-a3-m4-cF 1zis-a3-m1-cG_1zis-a3-m10-cB 1zis-a3-m1-cH_1zis-a3-m6-cH 1zis-a3-m1-cI_1zis-a3-m8-cA 1zis-a3-m1-cJ_1zis-a3-m7-cC 1zis-a3-m2-cF_1zis-a3-m6-cF 1zis-a3-m2-cH_1zis-a3-m5-cH 1zis-a3-m2-cI_1zis-a3-m9-cA 1zis-a3-m2-cJ_1zis-a3-m8-cC 1zis-a3-m3-cF_1zis-a3-m5-cF 1zis-a3-m3-cH_1zis-a3-m4-cH 1zis-a3-m3-cI_1zis-a3-m7-cA 1zis-a3-m3-cJ_1zis-a3-m9-cC 1zis-a3-m4-cG_1zis-a3-m7-cB 1zis-a3-m5-cG_1zis-a3-m9-cB 1zis-a3-m6-cG_1zis-a3-m8-cB 1zis-a3-m7-cD_1zis-a3-m8-cE 1zis-a3-m7-cE_1zis-a3-m9-cD 1zis-a3-m8-cD_1zis-a3-m9-cE 1zis-a4-m10-cF_1zis-a4-m18-cF 1zis-a4-m10-cH_1zis-a4-m20-cH 1zis-a4-m10-cI_1zis-a4-m16-cA 1zis-a4-m10-cJ_1zis-a4-m15-cC 1zis-a4-m13-cA_1zis-a4-m18-cI 1zis-a4-m13-cB_1zis-a4-m22-cG 1zis-a4-m13-cC_1zis-a4-m19-cJ 1zis-a4-m13-cD_1zis-a4-m14-cE 1zis-a4-m14-cA_1zis-a4-m19-cI 1zis-a4-m14-cB_1zis-a4-m21-cG 1zis-a4-m14-cC_1zis-a4-m20-cJ 1zis-a4-m15-cA_1zis-a4-m22-cI 1zis-a4-m15-cB_1zis-a4-m18-cG 1zis-a4-m15-cD_1zis-a4-m16-cE 1zis-a4-m15-cE_1zis-a4-m17-cD 1zis-a4-m16-cB_1zis-a4-m20-cG 1zis-a4-m16-cC_1zis-a4-m21-cJ 1zis-a4-m16-cD_1zis-a4-m17-cE 1zis-a4-m17-cA_1zis-a4-m21-cI 1zis-a4-m17-cB_1zis-a4-m19-cG 1zis-a4-m17-cC_1zis-a4-m22-cJ 1zis-a4-m18-cH_1zis-a4-m22-cH 1zis-a4-m19-cF_1zis-a4-m22-cF 1zis-a4-m19-cH_1zis-a4-m21-cH 1zis-a4-m1-cA_1zis-a4-m20-cI 1zis-a4-m1-cB_1zis-a4-m10-cG 1zis-a4-m1-cC_1zis-a4-m18-cJ 1zis-a4-m1-cD_1zis-a4-m13-cE 1zis-a4-m1-cE_1zis-a4-m14-cD 1zis-a4-m20-cF_1zis-a4-m21-cF MNIIQGNLVGTGLKIGIVVGRFNDFITSKLLSGAEDALLRHGVDTNDIDVAWVPGAFEIPFAAKKMAETKKYDAIITLGTVIRGATTHYDYVCNEAAKGIAQAANTTGVPVIFGIVTTENIEQAIERAGTKAGNKGVDCAVSAIEMANLNRSFE MNIIQGNLVGTGLKIGIVVGRFNDFITSKLLSGAEDALLRHGVDTNDIDVAWVPGAFEIPFAAKKMAETKKYDAIITLGTVIRGATTHYDYVCNEAAKGIAQAANTTGVPVIFGIVTTENIEQAIERAGTKAGNKGVDCAVSAIEMANLNRSFE 1rvv-a2-m2-c4_1rvv-a2-m2-cZ SYNTHASE/RIBOFLAVIN SYNTHASE COMPLEX OF BACILLUS SUBTILIS P11998 P11998 2.4 X-RAY DIFFRACTION 88 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 154 154 1rvv-a1-m1-c1_1rvv-a1-m1-c2 1rvv-a1-m1-c1_1rvv-a1-m1-cZ 1rvv-a1-m1-c2_1rvv-a1-m1-c3 1rvv-a1-m1-c3_1rvv-a1-m1-c4 1rvv-a1-m1-c4_1rvv-a1-m1-cZ 1rvv-a1-m1-cA_1rvv-a1-m1-cB 1rvv-a1-m1-cA_1rvv-a1-m1-cE 1rvv-a1-m1-cB_1rvv-a1-m1-cC 1rvv-a1-m1-cC_1rvv-a1-m1-cD 1rvv-a1-m1-cD_1rvv-a1-m1-cE 1rvv-a1-m1-cF_1rvv-a1-m1-cG 1rvv-a1-m1-cF_1rvv-a1-m1-cJ 1rvv-a1-m1-cG_1rvv-a1-m1-cH 1rvv-a1-m1-cH_1rvv-a1-m1-cI 1rvv-a1-m1-cI_1rvv-a1-m1-cJ 1rvv-a1-m1-cK_1rvv-a1-m1-cL 1rvv-a1-m1-cK_1rvv-a1-m1-cO 1rvv-a1-m1-cL_1rvv-a1-m1-cM 1rvv-a1-m1-cM_1rvv-a1-m1-cN 1rvv-a1-m1-cN_1rvv-a1-m1-cO 1rvv-a1-m1-cP_1rvv-a1-m1-cQ 1rvv-a1-m1-cP_1rvv-a1-m1-cT 1rvv-a1-m1-cQ_1rvv-a1-m1-cR 1rvv-a1-m1-cR_1rvv-a1-m1-cS 1rvv-a1-m1-cS_1rvv-a1-m1-cT 1rvv-a1-m1-cU_1rvv-a1-m1-cV 1rvv-a1-m1-cU_1rvv-a1-m1-cY 1rvv-a1-m1-cV_1rvv-a1-m1-cW 1rvv-a1-m1-cW_1rvv-a1-m1-cX 1rvv-a1-m1-cX_1rvv-a1-m1-cY 1rvv-a2-m1-c1_1rvv-a2-m1-c2 1rvv-a2-m1-c1_1rvv-a2-m1-cZ 1rvv-a2-m1-c2_1rvv-a2-m1-c3 1rvv-a2-m1-c3_1rvv-a2-m1-c4 1rvv-a2-m1-c4_1rvv-a2-m1-cZ 1rvv-a2-m1-cA_1rvv-a2-m1-cB 1rvv-a2-m1-cA_1rvv-a2-m1-cE 1rvv-a2-m1-cB_1rvv-a2-m1-cC 1rvv-a2-m1-cC_1rvv-a2-m1-cD 1rvv-a2-m1-cD_1rvv-a2-m1-cE 1rvv-a2-m1-cF_1rvv-a2-m1-cG 1rvv-a2-m1-cF_1rvv-a2-m1-cJ 1rvv-a2-m1-cG_1rvv-a2-m1-cH 1rvv-a2-m1-cH_1rvv-a2-m1-cI 1rvv-a2-m1-cI_1rvv-a2-m1-cJ 1rvv-a2-m1-cK_1rvv-a2-m1-cL 1rvv-a2-m1-cK_1rvv-a2-m1-cO 1rvv-a2-m1-cL_1rvv-a2-m1-cM 1rvv-a2-m1-cM_1rvv-a2-m1-cN 1rvv-a2-m1-cN_1rvv-a2-m1-cO 1rvv-a2-m1-cP_1rvv-a2-m1-cQ 1rvv-a2-m1-cP_1rvv-a2-m1-cT 1rvv-a2-m1-cQ_1rvv-a2-m1-cR 1rvv-a2-m1-cR_1rvv-a2-m1-cS 1rvv-a2-m1-cS_1rvv-a2-m1-cT 1rvv-a2-m1-cU_1rvv-a2-m1-cV 1rvv-a2-m1-cU_1rvv-a2-m1-cY 1rvv-a2-m1-cV_1rvv-a2-m1-cW 1rvv-a2-m1-cW_1rvv-a2-m1-cX 1rvv-a2-m1-cX_1rvv-a2-m1-cY 1rvv-a2-m2-c1_1rvv-a2-m2-c2 1rvv-a2-m2-c1_1rvv-a2-m2-cZ 1rvv-a2-m2-c2_1rvv-a2-m2-c3 1rvv-a2-m2-c3_1rvv-a2-m2-c4 1rvv-a2-m2-cA_1rvv-a2-m2-cB 1rvv-a2-m2-cA_1rvv-a2-m2-cE 1rvv-a2-m2-cB_1rvv-a2-m2-cC 1rvv-a2-m2-cC_1rvv-a2-m2-cD 1rvv-a2-m2-cD_1rvv-a2-m2-cE 1rvv-a2-m2-cF_1rvv-a2-m2-cG 1rvv-a2-m2-cF_1rvv-a2-m2-cJ 1rvv-a2-m2-cG_1rvv-a2-m2-cH 1rvv-a2-m2-cH_1rvv-a2-m2-cI 1rvv-a2-m2-cI_1rvv-a2-m2-cJ 1rvv-a2-m2-cK_1rvv-a2-m2-cL 1rvv-a2-m2-cK_1rvv-a2-m2-cO 1rvv-a2-m2-cL_1rvv-a2-m2-cM 1rvv-a2-m2-cM_1rvv-a2-m2-cN 1rvv-a2-m2-cN_1rvv-a2-m2-cO 1rvv-a2-m2-cP_1rvv-a2-m2-cQ 1rvv-a2-m2-cP_1rvv-a2-m2-cT 1rvv-a2-m2-cQ_1rvv-a2-m2-cR 1rvv-a2-m2-cR_1rvv-a2-m2-cS 1rvv-a2-m2-cS_1rvv-a2-m2-cT 1rvv-a2-m2-cU_1rvv-a2-m2-cV 1rvv-a2-m2-cU_1rvv-a2-m2-cY 1rvv-a2-m2-cV_1rvv-a2-m2-cW 1rvv-a2-m2-cW_1rvv-a2-m2-cX 1rvv-a2-m2-cX_1rvv-a2-m2-cY 1zis-a1-m1-cA_1zis-a1-m1-cB 1zis-a1-m1-cA_1zis-a1-m1-cE 1zis-a1-m1-cB_1zis-a1-m1-cC 1zis-a1-m1-cC_1zis-a1-m1-cD 1zis-a1-m1-cD_1zis-a1-m1-cE 1zis-a2-m1-cF_1zis-a2-m1-cG 1zis-a2-m1-cF_1zis-a2-m1-cJ 1zis-a2-m1-cG_1zis-a2-m1-cH 1zis-a2-m1-cH_1zis-a2-m1-cI 1zis-a2-m1-cI_1zis-a2-m1-cJ 1zis-a3-m10-cA_1zis-a3-m10-cB 1zis-a3-m10-cA_1zis-a3-m10-cE 1zis-a3-m10-cB_1zis-a3-m10-cC 1zis-a3-m10-cC_1zis-a3-m10-cD 1zis-a3-m10-cD_1zis-a3-m10-cE 1zis-a3-m11-cA_1zis-a3-m11-cB 1zis-a3-m11-cA_1zis-a3-m11-cE 1zis-a3-m11-cB_1zis-a3-m11-cC 1zis-a3-m11-cC_1zis-a3-m11-cD 1zis-a3-m11-cD_1zis-a3-m11-cE 1zis-a3-m12-cA_1zis-a3-m12-cB 1zis-a3-m12-cA_1zis-a3-m12-cE 1zis-a3-m12-cB_1zis-a3-m12-cC 1zis-a3-m12-cC_1zis-a3-m12-cD 1zis-a3-m12-cD_1zis-a3-m12-cE 1zis-a3-m1-cF_1zis-a3-m1-cG 1zis-a3-m1-cF_1zis-a3-m1-cJ 1zis-a3-m1-cG_1zis-a3-m1-cH 1zis-a3-m1-cH_1zis-a3-m1-cI 1zis-a3-m1-cI_1zis-a3-m1-cJ 1zis-a3-m2-cF_1zis-a3-m2-cG 1zis-a3-m2-cF_1zis-a3-m2-cJ 1zis-a3-m2-cG_1zis-a3-m2-cH 1zis-a3-m2-cH_1zis-a3-m2-cI 1zis-a3-m2-cI_1zis-a3-m2-cJ 1zis-a3-m3-cF_1zis-a3-m3-cG 1zis-a3-m3-cF_1zis-a3-m3-cJ 1zis-a3-m3-cG_1zis-a3-m3-cH 1zis-a3-m3-cH_1zis-a3-m3-cI 1zis-a3-m3-cI_1zis-a3-m3-cJ 1zis-a3-m4-cF_1zis-a3-m4-cG 1zis-a3-m4-cF_1zis-a3-m4-cJ 1zis-a3-m4-cG_1zis-a3-m4-cH 1zis-a3-m4-cH_1zis-a3-m4-cI 1zis-a3-m4-cI_1zis-a3-m4-cJ 1zis-a3-m5-cF_1zis-a3-m5-cG 1zis-a3-m5-cF_1zis-a3-m5-cJ 1zis-a3-m5-cG_1zis-a3-m5-cH 1zis-a3-m5-cH_1zis-a3-m5-cI 1zis-a3-m5-cI_1zis-a3-m5-cJ 1zis-a3-m6-cF_1zis-a3-m6-cG 1zis-a3-m6-cF_1zis-a3-m6-cJ 1zis-a3-m6-cG_1zis-a3-m6-cH 1zis-a3-m6-cH_1zis-a3-m6-cI 1zis-a3-m6-cI_1zis-a3-m6-cJ 1zis-a3-m7-cA_1zis-a3-m7-cB 1zis-a3-m7-cA_1zis-a3-m7-cE 1zis-a3-m7-cB_1zis-a3-m7-cC 1zis-a3-m7-cC_1zis-a3-m7-cD 1zis-a3-m7-cD_1zis-a3-m7-cE 1zis-a3-m8-cA_1zis-a3-m8-cB 1zis-a3-m8-cA_1zis-a3-m8-cE 1zis-a3-m8-cB_1zis-a3-m8-cC 1zis-a3-m8-cC_1zis-a3-m8-cD 1zis-a3-m8-cD_1zis-a3-m8-cE 1zis-a3-m9-cA_1zis-a3-m9-cB 1zis-a3-m9-cA_1zis-a3-m9-cE 1zis-a3-m9-cB_1zis-a3-m9-cC 1zis-a3-m9-cC_1zis-a3-m9-cD 1zis-a3-m9-cD_1zis-a3-m9-cE 1zis-a4-m10-cF_1zis-a4-m10-cG 1zis-a4-m10-cF_1zis-a4-m10-cJ 1zis-a4-m10-cG_1zis-a4-m10-cH 1zis-a4-m10-cH_1zis-a4-m10-cI 1zis-a4-m10-cI_1zis-a4-m10-cJ 1zis-a4-m13-cA_1zis-a4-m13-cB 1zis-a4-m13-cA_1zis-a4-m13-cE 1zis-a4-m13-cB_1zis-a4-m13-cC 1zis-a4-m13-cC_1zis-a4-m13-cD 1zis-a4-m13-cD_1zis-a4-m13-cE 1zis-a4-m14-cA_1zis-a4-m14-cB 1zis-a4-m14-cA_1zis-a4-m14-cE 1zis-a4-m14-cB_1zis-a4-m14-cC 1zis-a4-m14-cC_1zis-a4-m14-cD 1zis-a4-m14-cD_1zis-a4-m14-cE 1zis-a4-m15-cA_1zis-a4-m15-cB 1zis-a4-m15-cA_1zis-a4-m15-cE 1zis-a4-m15-cB_1zis-a4-m15-cC 1zis-a4-m15-cC_1zis-a4-m15-cD 1zis-a4-m15-cD_1zis-a4-m15-cE 1zis-a4-m16-cA_1zis-a4-m16-cB 1zis-a4-m16-cA_1zis-a4-m16-cE 1zis-a4-m16-cB_1zis-a4-m16-cC 1zis-a4-m16-cC_1zis-a4-m16-cD 1zis-a4-m16-cD_1zis-a4-m16-cE 1zis-a4-m17-cA_1zis-a4-m17-cB 1zis-a4-m17-cA_1zis-a4-m17-cE 1zis-a4-m17-cB_1zis-a4-m17-cC 1zis-a4-m17-cC_1zis-a4-m17-cD 1zis-a4-m17-cD_1zis-a4-m17-cE 1zis-a4-m18-cF_1zis-a4-m18-cG 1zis-a4-m18-cF_1zis-a4-m18-cJ 1zis-a4-m18-cG_1zis-a4-m18-cH 1zis-a4-m18-cH_1zis-a4-m18-cI 1zis-a4-m18-cI_1zis-a4-m18-cJ 1zis-a4-m19-cF_1zis-a4-m19-cG 1zis-a4-m19-cF_1zis-a4-m19-cJ 1zis-a4-m19-cG_1zis-a4-m19-cH 1zis-a4-m19-cH_1zis-a4-m19-cI 1zis-a4-m19-cI_1zis-a4-m19-cJ 1zis-a4-m1-cA_1zis-a4-m1-cB 1zis-a4-m1-cA_1zis-a4-m1-cE 1zis-a4-m1-cB_1zis-a4-m1-cC 1zis-a4-m1-cC_1zis-a4-m1-cD 1zis-a4-m1-cD_1zis-a4-m1-cE 1zis-a4-m20-cF_1zis-a4-m20-cG 1zis-a4-m20-cF_1zis-a4-m20-cJ 1zis-a4-m20-cG_1zis-a4-m20-cH 1zis-a4-m20-cH_1zis-a4-m20-cI 1zis-a4-m20-cI_1zis-a4-m20-cJ 1zis-a4-m21-cF_1zis-a4-m21-cG 1zis-a4-m21-cF_1zis-a4-m21-cJ 1zis-a4-m21-cG_1zis-a4-m21-cH 1zis-a4-m21-cH_1zis-a4-m21-cI 1zis-a4-m21-cI_1zis-a4-m21-cJ 1zis-a4-m22-cF_1zis-a4-m22-cG 1zis-a4-m22-cF_1zis-a4-m22-cJ 1zis-a4-m22-cG_1zis-a4-m22-cH 1zis-a4-m22-cH_1zis-a4-m22-cI 1zis-a4-m22-cI_1zis-a4-m22-cJ MNIIQGNLVGTGLKIGIVVGRFNDFITSKLLSGAEDALLRHGVDTNDIDVAWVPGAFEIPFAAKKMAETKKYDAIITLGTVIRGATTHYDYVCNEAAKGIAQAANTTGVPVIFGIVTTENIEQAIERAGTKAGNKGVDCAVSAIEMANLNRSFE MNIIQGNLVGTGLKIGIVVGRFNDFITSKLLSGAEDALLRHGVDTNDIDVAWVPGAFEIPFAAKKMAETKKYDAIITLGTVIRGATTHYDYVCNEAAKGIAQAANTTGVPVIFGIVTTENIEQAIERAGTKAGNKGVDCAVSAIEMANLNRSFE 1rvv-a2-m2-cX_1rvv-a2-m2-cZ SYNTHASE/RIBOFLAVIN SYNTHASE COMPLEX OF BACILLUS SUBTILIS P11998 P11998 2.4 X-RAY DIFFRACTION 23 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 154 154 1rvv-a1-m1-c3_1rvv-a1-m1-cP 1rvv-a1-m1-c4_1rvv-a1-m1-cT 1rvv-a1-m1-c4_1rvv-a1-m1-cY 1rvv-a1-m1-cA_1rvv-a1-m1-cN 1rvv-a1-m1-cB_1rvv-a1-m1-cV 1rvv-a1-m1-cC_1rvv-a1-m1-cS 1rvv-a1-m1-cC_1rvv-a1-m1-cU 1rvv-a1-m1-cD_1rvv-a1-m1-cF 1rvv-a1-m1-cD_1rvv-a1-m1-cR 1rvv-a1-m1-cE_1rvv-a1-m1-cJ 1rvv-a1-m1-cE_1rvv-a1-m1-cO 1rvv-a1-m1-cF_1rvv-a1-m1-cR 1rvv-a1-m1-cG_1rvv-a1-m1-cQ 1rvv-a1-m1-cI_1rvv-a1-m1-cK 1rvv-a1-m1-cJ_1rvv-a1-m1-cO 1rvv-a1-m1-cS_1rvv-a1-m1-cU 1rvv-a1-m1-cT_1rvv-a1-m1-cY 1rvv-a1-m1-cX_1rvv-a1-m1-cZ 1rvv-a2-m1-c1_1rvv-a2-m2-cG 1rvv-a2-m1-c1_1rvv-a2-m2-cQ 1rvv-a2-m1-c2_1rvv-a2-m2-c3 1rvv-a2-m1-c2_1rvv-a2-m2-cP 1rvv-a2-m1-c3_1rvv-a2-m1-cP 1rvv-a2-m1-c3_1rvv-a2-m2-c2 1rvv-a2-m1-c4_1rvv-a2-m1-cT 1rvv-a2-m1-c4_1rvv-a2-m1-cY 1rvv-a2-m1-cA_1rvv-a2-m1-cN 1rvv-a2-m1-cA_1rvv-a2-m2-cM 1rvv-a2-m1-cB_1rvv-a2-m1-cV 1rvv-a2-m1-cB_1rvv-a2-m2-cL 1rvv-a2-m1-cC_1rvv-a2-m1-cS 1rvv-a2-m1-cC_1rvv-a2-m1-cU 1rvv-a2-m1-cD_1rvv-a2-m1-cF 1rvv-a2-m1-cD_1rvv-a2-m1-cR 1rvv-a2-m1-cE_1rvv-a2-m1-cJ 1rvv-a2-m1-cE_1rvv-a2-m1-cO 1rvv-a2-m1-cF_1rvv-a2-m1-cR 1rvv-a2-m1-cG_1rvv-a2-m1-cQ 1rvv-a2-m1-cG_1rvv-a2-m2-c1 1rvv-a2-m1-cH_1rvv-a2-m2-cX 1rvv-a2-m1-cH_1rvv-a2-m2-cZ 1rvv-a2-m1-cI_1rvv-a2-m1-cK 1rvv-a2-m1-cI_1rvv-a2-m2-cW 1rvv-a2-m1-cJ_1rvv-a2-m1-cO 1rvv-a2-m1-cK_1rvv-a2-m2-cW 1rvv-a2-m1-cL_1rvv-a2-m2-cB 1rvv-a2-m1-cL_1rvv-a2-m2-cV 1rvv-a2-m1-cM_1rvv-a2-m2-cA 1rvv-a2-m1-cM_1rvv-a2-m2-cN 1rvv-a2-m1-cN_1rvv-a2-m2-cM 1rvv-a2-m1-cP_1rvv-a2-m2-c2 1rvv-a2-m1-cQ_1rvv-a2-m2-c1 1rvv-a2-m1-cS_1rvv-a2-m1-cU 1rvv-a2-m1-cT_1rvv-a2-m1-cY 1rvv-a2-m1-cV_1rvv-a2-m2-cL 1rvv-a2-m1-cW_1rvv-a2-m2-cI 1rvv-a2-m1-cW_1rvv-a2-m2-cK 1rvv-a2-m1-cX_1rvv-a2-m1-cZ 1rvv-a2-m1-cX_1rvv-a2-m2-cH 1rvv-a2-m1-cZ_1rvv-a2-m2-cH 1rvv-a2-m2-c3_1rvv-a2-m2-cP 1rvv-a2-m2-c4_1rvv-a2-m2-cT 1rvv-a2-m2-c4_1rvv-a2-m2-cY 1rvv-a2-m2-cA_1rvv-a2-m2-cN 1rvv-a2-m2-cB_1rvv-a2-m2-cV 1rvv-a2-m2-cC_1rvv-a2-m2-cS 1rvv-a2-m2-cC_1rvv-a2-m2-cU 1rvv-a2-m2-cD_1rvv-a2-m2-cF 1rvv-a2-m2-cD_1rvv-a2-m2-cR 1rvv-a2-m2-cE_1rvv-a2-m2-cJ 1rvv-a2-m2-cE_1rvv-a2-m2-cO 1rvv-a2-m2-cF_1rvv-a2-m2-cR 1rvv-a2-m2-cG_1rvv-a2-m2-cQ 1rvv-a2-m2-cI_1rvv-a2-m2-cK 1rvv-a2-m2-cJ_1rvv-a2-m2-cO 1rvv-a2-m2-cS_1rvv-a2-m2-cU 1rvv-a2-m2-cT_1rvv-a2-m2-cY 1zis-a3-m10-cA_1zis-a3-m12-cD 1zis-a3-m10-cA_1zis-a3-m6-cJ 1zis-a3-m10-cB_1zis-a3-m6-cI 1zis-a3-m10-cC_1zis-a3-m4-cF 1zis-a3-m10-cD_1zis-a3-m11-cA 1zis-a3-m10-cD_1zis-a3-m4-cJ 1zis-a3-m10-cE_1zis-a3-m11-cE 1zis-a3-m10-cE_1zis-a3-m12-cE 1zis-a3-m11-cA_1zis-a3-m4-cJ 1zis-a3-m11-cB_1zis-a3-m3-cH 1zis-a3-m11-cB_1zis-a3-m4-cI 1zis-a3-m11-cC_1zis-a3-m3-cG 1zis-a3-m11-cC_1zis-a3-m5-cF 1zis-a3-m11-cD_1zis-a3-m12-cA 1zis-a3-m11-cD_1zis-a3-m5-cJ 1zis-a3-m11-cE_1zis-a3-m12-cE 1zis-a3-m12-cA_1zis-a3-m5-cJ 1zis-a3-m12-cB_1zis-a3-m2-cH 1zis-a3-m12-cB_1zis-a3-m5-cI 1zis-a3-m12-cC_1zis-a3-m2-cG 1zis-a3-m12-cC_1zis-a3-m6-cF 1zis-a3-m12-cD_1zis-a3-m6-cJ 1zis-a3-m1-cF_1zis-a3-m4-cG 1zis-a3-m1-cF_1zis-a3-m7-cC 1zis-a3-m1-cG_1zis-a3-m10-cC 1zis-a3-m1-cG_1zis-a3-m4-cF 1zis-a3-m1-cH_1zis-a3-m10-cB 1zis-a3-m1-cH_1zis-a3-m6-cI 1zis-a3-m1-cI_1zis-a3-m6-cH 1zis-a3-m1-cI_1zis-a3-m8-cB 1zis-a3-m1-cJ_1zis-a3-m7-cD 1zis-a3-m1-cJ_1zis-a3-m8-cA 1zis-a3-m2-cF_1zis-a3-m6-cG 1zis-a3-m2-cF_1zis-a3-m8-cC 1zis-a3-m2-cG_1zis-a3-m6-cF 1zis-a3-m2-cH_1zis-a3-m5-cI 1zis-a3-m2-cI_1zis-a3-m5-cH 1zis-a3-m2-cI_1zis-a3-m9-cB 1zis-a3-m2-cJ_1zis-a3-m8-cD 1zis-a3-m2-cJ_1zis-a3-m9-cA 1zis-a3-m3-cF_1zis-a3-m5-cG 1zis-a3-m3-cF_1zis-a3-m9-cC 1zis-a3-m3-cG_1zis-a3-m5-cF 1zis-a3-m3-cH_1zis-a3-m4-cI 1zis-a3-m3-cI_1zis-a3-m4-cH 1zis-a3-m3-cI_1zis-a3-m7-cB 1zis-a3-m3-cJ_1zis-a3-m7-cA 1zis-a3-m3-cJ_1zis-a3-m9-cD 1zis-a3-m4-cG_1zis-a3-m7-cC 1zis-a3-m4-cH_1zis-a3-m7-cB 1zis-a3-m5-cG_1zis-a3-m9-cC 1zis-a3-m5-cH_1zis-a3-m9-cB 1zis-a3-m6-cG_1zis-a3-m8-cC 1zis-a3-m6-cH_1zis-a3-m8-cB 1zis-a3-m7-cA_1zis-a3-m9-cD 1zis-a3-m7-cD_1zis-a3-m8-cA 1zis-a3-m7-cE_1zis-a3-m8-cE 1zis-a3-m7-cE_1zis-a3-m9-cE 1zis-a3-m8-cD_1zis-a3-m9-cA 1zis-a3-m8-cE_1zis-a3-m9-cE 1zis-a4-m10-cF_1zis-a4-m15-cC 1zis-a4-m10-cF_1zis-a4-m18-cG 1zis-a4-m10-cG_1zis-a4-m18-cF 1zis-a4-m10-cH_1zis-a4-m20-cI 1zis-a4-m10-cI_1zis-a4-m16-cB 1zis-a4-m10-cI_1zis-a4-m20-cH 1zis-a4-m10-cJ_1zis-a4-m15-cD 1zis-a4-m10-cJ_1zis-a4-m16-cA 1zis-a4-m13-cA_1zis-a4-m18-cJ 1zis-a4-m13-cB_1zis-a4-m18-cI 1zis-a4-m13-cB_1zis-a4-m22-cH 1zis-a4-m13-cC_1zis-a4-m19-cF 1zis-a4-m13-cC_1zis-a4-m22-cG 1zis-a4-m13-cD_1zis-a4-m14-cA 1zis-a4-m13-cD_1zis-a4-m19-cJ 1zis-a4-m13-cE_1zis-a4-m14-cE 1zis-a4-m14-cA_1zis-a4-m19-cJ 1zis-a4-m14-cB_1zis-a4-m19-cI 1zis-a4-m14-cB_1zis-a4-m21-cH 1zis-a4-m14-cC_1zis-a4-m20-cF 1zis-a4-m14-cC_1zis-a4-m21-cG 1zis-a4-m14-cD_1zis-a4-m20-cJ 1zis-a4-m15-cA_1zis-a4-m17-cD 1zis-a4-m15-cA_1zis-a4-m22-cJ 1zis-a4-m15-cB_1zis-a4-m18-cH 1zis-a4-m15-cB_1zis-a4-m22-cI 1zis-a4-m15-cC_1zis-a4-m18-cG 1zis-a4-m15-cD_1zis-a4-m16-cA 1zis-a4-m15-cE_1zis-a4-m16-cE 1zis-a4-m15-cE_1zis-a4-m17-cE 1zis-a4-m16-cB_1zis-a4-m20-cH 1zis-a4-m16-cC_1zis-a4-m20-cG 1zis-a4-m16-cC_1zis-a4-m21-cF 1zis-a4-m16-cD_1zis-a4-m17-cA 1zis-a4-m16-cD_1zis-a4-m21-cJ 1zis-a4-m16-cE_1zis-a4-m17-cE 1zis-a4-m17-cA_1zis-a4-m21-cJ 1zis-a4-m17-cB_1zis-a4-m19-cH 1zis-a4-m17-cB_1zis-a4-m21-cI 1zis-a4-m17-cC_1zis-a4-m19-cG 1zis-a4-m17-cC_1zis-a4-m22-cF 1zis-a4-m17-cD_1zis-a4-m22-cJ 1zis-a4-m18-cH_1zis-a4-m22-cI 1zis-a4-m18-cI_1zis-a4-m22-cH 1zis-a4-m19-cF_1zis-a4-m22-cG 1zis-a4-m19-cG_1zis-a4-m22-cF 1zis-a4-m19-cH_1zis-a4-m21-cI 1zis-a4-m19-cI_1zis-a4-m21-cH 1zis-a4-m1-cA_1zis-a4-m14-cD 1zis-a4-m1-cA_1zis-a4-m20-cJ 1zis-a4-m1-cB_1zis-a4-m10-cH 1zis-a4-m1-cB_1zis-a4-m20-cI 1zis-a4-m1-cC_1zis-a4-m10-cG 1zis-a4-m1-cC_1zis-a4-m18-cF 1zis-a4-m1-cD_1zis-a4-m13-cA 1zis-a4-m1-cD_1zis-a4-m18-cJ 1zis-a4-m1-cE_1zis-a4-m13-cE 1zis-a4-m1-cE_1zis-a4-m14-cE 1zis-a4-m20-cF_1zis-a4-m21-cG 1zis-a4-m20-cG_1zis-a4-m21-cF MNIIQGNLVGTGLKIGIVVGRFNDFITSKLLSGAEDALLRHGVDTNDIDVAWVPGAFEIPFAAKKMAETKKYDAIITLGTVIRGATTHYDYVCNEAAKGIAQAANTTGVPVIFGIVTTENIEQAIERAGTKAGNKGVDCAVSAIEMANLNRSFE MNIIQGNLVGTGLKIGIVVGRFNDFITSKLLSGAEDALLRHGVDTNDIDVAWVPGAFEIPFAAKKMAETKKYDAIITLGTVIRGATTHYDYVCNEAAKGIAQAANTTGVPVIFGIVTTENIEQAIERAGTKAGNKGVDCAVSAIEMANLNRSFE 1rw0-a1-m1-cA_1rw0-a1-m1-cB Crystal structure of protein yfiH from Salmonella enterica serovar Typhi, Pfam DUF152 Q8Z4J1 Q8Z4J1 2 X-RAY DIFFRACTION 57 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 243 243 MNALIVPQWPLPKGVAACSSTRIGGVSLSPYDSLNLGAHCGDNPEHVEENRKRLFAAGNLPSKPVWLEQVHGKNVLRLTGEPYASKRADASYSNTPGTVCAVMTADCLPVLFCNREGTEVAAAHAGWRGLCEGVLEETVTCFADKPENIIAWLGPAIGPAAFEVGPEVRDAFLAKDAQADSAFLPHGEKFLADIYQLARQRLANTGVEHVYGGDRCTFSESETFFSYRRDKTTGRMASFIWLI MNALIVPQWPLPKGVAACSSTRIGGVSLSPYDSLNLGAHCGDNPEHVEENRKRLFAAGNLPSKPVWLEQVHGKNVLRLTGEPYASKRADASYSNTPGTVCAVMTADCLPVLFCNREGTEVAAAHAGWRGLCEGVLEETVTCFADKPENIIAWLGPAIGPAAFEVGPEVRDAFLAKDAQADSAFLPHGEKFLADIYQLARQRLANTGVEHVYGGDRCTFSESETFFSYRRDKTTGRMASFIWLI 1rwe-a3-m2-cD_1rwe-a3-m3-cD Enhancing the activity of insulin at receptor edge: crystal structure and photo-cross-linking of A8 analogues P01308 P01308 1.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1g7a-a1-m1-cD_1g7a-a1-m2-cD 1g7a-a1-m1-cD_1g7a-a1-m3-cD 1g7a-a1-m2-cD_1g7a-a1-m3-cD 1g7a-a2-m1-cH_1g7a-a2-m2-cH 1g7a-a2-m1-cH_1g7a-a2-m3-cH 1g7a-a2-m2-cH_1g7a-a2-m3-cH 1g7b-a2-m1-cH_1g7b-a2-m2-cH 1g7b-a2-m1-cH_1g7b-a2-m3-cH 1g7b-a2-m2-cH_1g7b-a2-m3-cH 1rwe-a2-m1-cD_1rwe-a2-m2-cD 1rwe-a2-m1-cD_1rwe-a2-m3-cD 1rwe-a2-m2-cD_1rwe-a2-m3-cD 1rwe-a3-m1-cD_1rwe-a3-m2-cD 1rwe-a3-m1-cD_1rwe-a3-m3-cD 1zei-a1-m1-cA_1zei-a1-m1-cC 1zei-a1-m1-cA_1zei-a1-m1-cE 1zei-a1-m1-cB_1zei-a1-m1-cD 1zei-a1-m1-cB_1zei-a1-m1-cF 1zei-a1-m1-cC_1zei-a1-m1-cE 1zei-a1-m1-cD_1zei-a1-m1-cF 2om0-a3-m1-cd_2om0-a3-m1-cf 2om1-a3-m1-cb_2om1-a3-m1-cf 2om1-a3-m1-cd_2om1-a3-m1-cf 2om1-a3-m1-cl_2om1-a3-m1-cj 3p2x-a2-m1-cD_3p2x-a2-m2-cD 3p2x-a2-m1-cD_3p2x-a2-m3-cD 3p2x-a2-m2-cD_3p2x-a2-m3-cD 3v1g-a1-m1-cD_3v1g-a1-m2-cD 3v1g-a1-m1-cD_3v1g-a1-m3-cD 3v1g-a1-m2-cD_3v1g-a1-m3-cD 5bqq-a1-m1-cB_5bqq-a1-m1-cF 5bqq-a1-m1-cB_5bqq-a1-m1-cJ 5bqq-a1-m1-cD_5bqq-a1-m1-cH 5bqq-a1-m1-cD_5bqq-a1-m1-cL 5bqq-a1-m1-cF_5bqq-a1-m1-cJ 6ins-a2-m1-cE_6ins-a2-m2-cE 6ins-a2-m1-cE_6ins-a2-m3-cE 6ins-a2-m2-cE_6ins-a2-m3-cE 7jp3-a1-m1-cA_7jp3-a1-m1-cC 7jp3-a1-m1-cA_7jp3-a1-m1-cE 7jp3-a1-m1-cB_7jp3-a1-m1-cD 7jp3-a1-m1-cB_7jp3-a1-m1-cF 7jp3-a1-m1-cC_7jp3-a1-m1-cE 7jp3-a1-m1-cD_7jp3-a1-m1-cF FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 1rwz-a2-m3-cA_1rwz-a2-m9-cA Crystal Structure of Proliferating Cell Nuclear Antigen (PCNA) from A. fulgidus O29912 O29912 1.8 X-RAY DIFFRACTION 67 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 244 244 1rwz-a2-m11-cA_1rwz-a2-m8-cA 1rwz-a2-m12-cA_1rwz-a2-m6-cA 1rwz-a2-m1-cA_1rwz-a2-m10-cA 1rwz-a2-m2-cA_1rwz-a2-m5-cA 1rwz-a2-m4-cA_1rwz-a2-m7-cA MIDVIMTGELLKTVTRAIVALVSEARIHFLEKGLHSRAVDPANVAMVIVDIPKDSFEVYNIDEEKTIGVDMDRIFDISKSISTKDLVELIVEDESTLKVKFGSVEYKVALIDPSAIRKEPRIPELELPAKIVMDAGEFKKAIAAADKISDQVIFRSDKEGFRIEAKGDVDSIVFHMTETELIEFNGGEARSMFSVDYLKEFCKVAGSGDLLTIHLGTNYPVRLVFELVGGRAKVEYILAPRIES MIDVIMTGELLKTVTRAIVALVSEARIHFLEKGLHSRAVDPANVAMVIVDIPKDSFEVYNIDEEKTIGVDMDRIFDISKSISTKDLVELIVEDESTLKVKFGSVEYKVALIDPSAIRKEPRIPELELPAKIVMDAGEFKKAIAAADKISDQVIFRSDKEGFRIEAKGDVDSIVFHMTETELIEFNGGEARSMFSVDYLKEFCKVAGSGDLLTIHLGTNYPVRLVFELVGGRAKVEYILAPRIES 1rwz-a2-m8-cA_1rwz-a2-m9-cA Crystal Structure of Proliferating Cell Nuclear Antigen (PCNA) from A. fulgidus O29912 O29912 1.8 X-RAY DIFFRACTION 38 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 244 244 1rwz-a1-m1-cA_1rwz-a1-m2-cA 1rwz-a1-m1-cA_1rwz-a1-m3-cA 1rwz-a1-m2-cA_1rwz-a1-m3-cA 1rwz-a2-m10-cA_1rwz-a2-m11-cA 1rwz-a2-m10-cA_1rwz-a2-m12-cA 1rwz-a2-m11-cA_1rwz-a2-m12-cA 1rwz-a2-m1-cA_1rwz-a2-m2-cA 1rwz-a2-m1-cA_1rwz-a2-m3-cA 1rwz-a2-m2-cA_1rwz-a2-m3-cA 1rwz-a2-m4-cA_1rwz-a2-m5-cA 1rwz-a2-m4-cA_1rwz-a2-m6-cA 1rwz-a2-m5-cA_1rwz-a2-m6-cA 1rwz-a2-m7-cA_1rwz-a2-m8-cA 1rwz-a2-m7-cA_1rwz-a2-m9-cA 1rxm-a1-m1-cA_1rxm-a1-m2-cA 1rxm-a1-m1-cA_1rxm-a1-m3-cA 1rxm-a1-m2-cA_1rxm-a1-m3-cA 1rxz-a1-m1-cA_1rxz-a1-m2-cA 1rxz-a1-m1-cA_1rxz-a1-m3-cA 1rxz-a1-m2-cA_1rxz-a1-m3-cA 3p83-a1-m1-cA_3p83-a1-m1-cB 3p83-a1-m1-cC_3p83-a1-m1-cA 3p83-a1-m1-cC_3p83-a1-m1-cB MIDVIMTGELLKTVTRAIVALVSEARIHFLEKGLHSRAVDPANVAMVIVDIPKDSFEVYNIDEEKTIGVDMDRIFDISKSISTKDLVELIVEDESTLKVKFGSVEYKVALIDPSAIRKEPRIPELELPAKIVMDAGEFKKAIAAADKISDQVIFRSDKEGFRIEAKGDVDSIVFHMTETELIEFNGGEARSMFSVDYLKEFCKVAGSGDLLTIHLGTNYPVRLVFELVGGRAKVEYILAPRIES MIDVIMTGELLKTVTRAIVALVSEARIHFLEKGLHSRAVDPANVAMVIVDIPKDSFEVYNIDEEKTIGVDMDRIFDISKSISTKDLVELIVEDESTLKVKFGSVEYKVALIDPSAIRKEPRIPELELPAKIVMDAGEFKKAIAAADKISDQVIFRSDKEGFRIEAKGDVDSIVFHMTETELIEFNGGEARSMFSVDYLKEFCKVAGSGDLLTIHLGTNYPVRLVFELVGGRAKVEYILAPRIES 1rx0-a1-m1-cA_1rx0-a1-m1-cD Crystal structure of isobutyryl-CoA dehydrogenase complexed with substrate/ligand. Q9UKU7 Q9UKU7 1.77 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 384 384 TSCIDPSMGLNEEQKEFQKVAFDFAAREMAPNMAEWDQKELFPVDVMRKAAQLGFGGVYIQTDVGGSGLSRLDTSVIFEALATGCTSTTAYISIHNMCAWMIDSFGNEEQRHKFCPPLCTMEKFASYCLTEPGSGSDAASLLTSAKKQGDHYILNGSKAFISGAGESDIYVVMCRTGGPGPKGISCIVVEKGTPGLSFGKKEKKVGWNSQPTRAVIFEDCAVPVANRIGSEGQGFLIAVRGLNGGRINIASCSLGAAHASVILTRDHLNVRKQFGEPLASNQYLQFTLADMATRLVAARLMVRNAAVALQEERKDAVALCSMAKLFATDECFAICNQALQMHGGYGYLKDYAVQQYVRDSRVHQILEGSNEVMRILISRSLLQE TSCIDPSMGLNEEQKEFQKVAFDFAAREMAPNMAEWDQKELFPVDVMRKAAQLGFGGVYIQTDVGGSGLSRLDTSVIFEALATGCTSTTAYISIHNMCAWMIDSFGNEEQRHKFCPPLCTMEKFASYCLTEPGSGSDAASLLTSAKKQGDHYILNGSKAFISGAGESDIYVVMCRTGGPGPKGISCIVVEKGTPGLSFGKKEKKVGWNSQPTRAVIFEDCAVPVANRIGSEGQGFLIAVRGLNGGRINIASCSLGAAHASVILTRDHLNVRKQFGEPLASNQYLQFTLADMATRLVAARLMVRNAAVALQEERKDAVALCSMAKLFATDECFAICNQALQMHGGYGYLKDYAVQQYVRDSRVHQILEGSNEVMRILISRSLLQE 1rx0-a1-m1-cB_1rx0-a1-m1-cD Crystal structure of isobutyryl-CoA dehydrogenase complexed with substrate/ligand. Q9UKU7 Q9UKU7 1.77 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 384 384 1rx0-a1-m1-cC_1rx0-a1-m1-cA TSCIDPSMGLNEEQKEFQKVAFDFAAREMAPNMAEWDQKELFPVDVMRKAAQLGFGGVYIQTDVGGSGLSRLDTSVIFEALATGCTSTTAYISIHNMCAWMIDSFGNEEQRHKFCPPLCTMEKFASYCLTEPGSGSDAASLLTSAKKQGDHYILNGSKAFISGAGESDIYVVMCRTGGPGPKGISCIVVEKGTPGLSFGKKEKKVGWNSQPTRAVIFEDCAVPVANRIGSEGQGFLIAVRGLNGGRINIASCSLGAAHASVILTRDHLNVRKQFGEPLASNQYLQFTLADMATRLVAARLMVRNAAVALQEERKDAVALCSMAKLFATDECFAICNQALQMHGGYGYLKDYAVQQYVRDSRVHQILEGSNEVMRILISRSLLQE TSCIDPSMGLNEEQKEFQKVAFDFAAREMAPNMAEWDQKELFPVDVMRKAAQLGFGGVYIQTDVGGSGLSRLDTSVIFEALATGCTSTTAYISIHNMCAWMIDSFGNEEQRHKFCPPLCTMEKFASYCLTEPGSGSDAASLLTSAKKQGDHYILNGSKAFISGAGESDIYVVMCRTGGPGPKGISCIVVEKGTPGLSFGKKEKKVGWNSQPTRAVIFEDCAVPVANRIGSEGQGFLIAVRGLNGGRINIASCSLGAAHASVILTRDHLNVRKQFGEPLASNQYLQFTLADMATRLVAARLMVRNAAVALQEERKDAVALCSMAKLFATDECFAICNQALQMHGGYGYLKDYAVQQYVRDSRVHQILEGSNEVMRILISRSLLQE 1rx0-a1-m1-cC_1rx0-a1-m1-cD Crystal structure of isobutyryl-CoA dehydrogenase complexed with substrate/ligand. Q9UKU7 Q9UKU7 1.77 X-RAY DIFFRACTION 121 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 383 384 1rx0-a1-m1-cA_1rx0-a1-m1-cB SCIDPSMGLNEEQKEFQKVAFDFAAREMAPNMAEWDQKELFPVDVMRKAAQLGFGGVYIQTDVGGSGLSRLDTSVIFEALATGCTSTTAYISIHNMCAWMIDSFGNEEQRHKFCPPLCTMEKFASYCLTEPGSGSDAASLLTSAKKQGDHYILNGSKAFISGAGESDIYVVMCRTGGPGPKGISCIVVEKGTPGLSFGKKEKKVGWNSQPTRAVIFEDCAVPVANRIGSEGQGFLIAVRGLNGGRINIASCSLGAAHASVILTRDHLNVRKQFGEPLASNQYLQFTLADMATRLVAARLMVRNAAVALQEERKDAVALCSMAKLFATDECFAICNQALQMHGGYGYLKDYAVQQYVRDSRVHQILEGSNEVMRILISRSLLQE TSCIDPSMGLNEEQKEFQKVAFDFAAREMAPNMAEWDQKELFPVDVMRKAAQLGFGGVYIQTDVGGSGLSRLDTSVIFEALATGCTSTTAYISIHNMCAWMIDSFGNEEQRHKFCPPLCTMEKFASYCLTEPGSGSDAASLLTSAKKQGDHYILNGSKAFISGAGESDIYVVMCRTGGPGPKGISCIVVEKGTPGLSFGKKEKKVGWNSQPTRAVIFEDCAVPVANRIGSEGQGFLIAVRGLNGGRINIASCSLGAAHASVILTRDHLNVRKQFGEPLASNQYLQFTLADMATRLVAARLMVRNAAVALQEERKDAVALCSMAKLFATDECFAICNQALQMHGGYGYLKDYAVQQYVRDSRVHQILEGSNEVMRILISRSLLQE 1rxq-a1-m1-cA_1rxq-a1-m1-cB YfiT from Bacillus subtilis is a probable metal-dependent hydrolase with an unusual four-helix bundle topology O31562 O31562 1.7 X-RAY DIFFRACTION 19 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 171 172 NLSYPIGEYKPRESISKEQKDKWIQVLEEVPAKLKQAVEVTDSQLDTPYRDGGWTVRQVVHHLADSHNSYIRFKLSLTEETPAIRPYDEKAWSELKDSKTADPSGSLALLQELHGRWTALLRTLTDQQFKRGFYHPDTKEIITLENALGLYVWHSHHHIAHITELSRRGWS VNLSYPIGEYKPRESISKEQKDKWIQVLEEVPAKLKQAVEVTDSQLDTPYRDGGWTVRQVVHHLADSHNSYIRFKLSLTEETPAIRPYDEKAWSELKDSKTADPSGSLALLQELHGRWTALLRTLTDQQFKRGFYHPDTKEIITLENALGLYVWHSHHHIAHITELSRRGWS 1rxq-a3-m1-cC_1rxq-a3-m1-cB YfiT from Bacillus subtilis is a probable metal-dependent hydrolase with an unusual four-helix bundle topology O31562 O31562 1.7 X-RAY DIFFRACTION 79 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 171 172 1rxq-a1-m1-cC_1rxq-a1-m1-cB 1rxq-a1-m1-cD_1rxq-a1-m1-cA 1rxq-a2-m1-cD_1rxq-a2-m1-cA NLSYPIGEYKPRESISKEQKDKWIQVLEEVPAKLKQAVEVTDSQLDTPYRDGGWTVRQVVHHLADSHNSYIRFKLSLTEETPAIRPYDEKAWSELKDSKTADPSGSLALLQELHGRWTALLRTLTDQQFKRGFYHPDTKEIITLENALGLYVWHSHHHIAHITELSRRGWS VNLSYPIGEYKPRESISKEQKDKWIQVLEEVPAKLKQAVEVTDSQLDTPYRDGGWTVRQVVHHLADSHNSYIRFKLSLTEETPAIRPYDEKAWSELKDSKTADPSGSLALLQELHGRWTALLRTLTDQQFKRGFYHPDTKEIITLENALGLYVWHSHHHIAHITELSRRGWS 1rxx-a1-m2-cB_1rxx-a1-m2-cA Structure of arginine deiminase P13981 P13981 2.45 X-RAY DIFFRACTION 54 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 394 398 1rxx-a1-m1-cB_1rxx-a1-m1-cA 1rxx-a2-m1-cD_1rxx-a2-m3-cC 1rxx-a2-m3-cD_1rxx-a2-m1-cC 2a9g-a1-m1-cA_2a9g-a1-m1-cB 2a9g-a1-m1-cC_2a9g-a1-m1-cD 2aaf-a1-m1-cA_2aaf-a1-m1-cB 2aaf-a1-m1-cC_2aaf-a1-m1-cD 2abr-a1-m1-cA_2abr-a1-m1-cB 2abr-a1-m1-cD_2abr-a1-m1-cC 2aci-a1-m1-cA_2aci-a1-m1-cB 2aci-a1-m1-cC_2aci-a1-m1-cD TKLGVHSEAGKLRKVVCSPGLAHQRLTPSNCDELLFDDVIWVNQAKRDHFDFVTKRERGIDVLEHNLLTETIQNPEALKWILDRKITADSVGLGLTSELRSWLESLEPRKLAEYLIGGVAADDLPASEGANILKYREYLGHFLLPPLPNTQFTRDTTCWIYGGVTLNPYWPARRQETLLTTAIYKFHPEFANAEFEIWYGDPDKDHGSSTLEGGDVPIGNGVVLIGGERSSRQAIGQVAQSLFAKGAAERVIVAGLPKAAHLDTVFSFCDRDLVTVFPEVVKEIVPFSLRPDPSSPYGNIRREEKTFLEVVAESLGLKKLRVVETGGNREQWDDGNNVVCLEPGVVVGYDRNTYTNTLLRKAGVEVITISASELGRGRGGGHCTCPIVRDPIDY TKLGVHSEAGKLRKVVCSPGLAHQRLTPSNCDELLFDDVIWVNQAKRDHFDFVTKRERGIDVLEHNLLTETIQNPEALKWILDRKITADSVGLGLTSELRSWLESLEPRKLAEYLIGGVAADDLPASEGANILKYREYLGHSSFLLPPLPNTQFTRDTTCWIYGGVTLNPYWPARRQETLLTTAIYKFHPEFANAEFEIWYGDPDKDHGSSTLEGGDVPIGNGVVLIGGERSSRQAIGQVAQSLFAKGAAERVIVAGLPKAAHLDTVFSFCDRDLVTVFPEVVKEIVPFSLRPDPSSPYGNIRREEKTFLEVVAESLGLKKLRVVETGGNSFEREQWDDGNNVVCLEPGVVVGYDRNTYTNTLLRKAGVEVITISASELGRGRGGGHCTCPIVRDPID 1rxx-a3-m1-cD_1rxx-a3-m3-cD Structure of arginine deiminase P13981 P13981 2.45 X-RAY DIFFRACTION 88 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 392 392 1rxx-a1-m1-cB_1rxx-a1-m2-cA 1rxx-a1-m2-cB_1rxx-a1-m1-cA 1rxx-a2-m1-cC_1rxx-a2-m3-cC 1rxx-a2-m1-cD_1rxx-a2-m3-cD 1rxx-a4-m2-cB_1rxx-a4-m1-cA 1rxx-a5-m1-cC_1rxx-a5-m3-cC 2a9g-a1-m1-cA_2a9g-a1-m1-cD 2a9g-a1-m1-cC_2a9g-a1-m1-cB 2a9g-a2-m1-cC_2a9g-a2-m1-cB 2a9g-a3-m1-cA_2a9g-a3-m1-cD 2aaf-a1-m1-cA_2aaf-a1-m1-cD 2aaf-a1-m1-cC_2aaf-a1-m1-cB 2aaf-a2-m1-cC_2aaf-a2-m1-cB 2aaf-a3-m1-cA_2aaf-a3-m1-cD 2abr-a1-m1-cA_2abr-a1-m1-cD 2abr-a1-m1-cC_2abr-a1-m1-cB 2aci-a1-m1-cA_2aci-a1-m1-cD 2aci-a1-m1-cC_2aci-a1-m1-cB 2aci-a2-m1-cA_2aci-a2-m1-cD 2aci-a3-m1-cC_2aci-a3-m1-cB TKLGVHSEAGKLRKVVCSPGLAHQRLTPSNCDELLFDDVIWVNQAKRDHFDFVTKRERGIDVLEHNLLTETIQNPEALKWILDRKITADSVGLGLTSELRSWLESLEPRKLAEYLIGGVAADDLPASEGANILKYREYLGHSSFLLPPLPNTQFTRDTTCWIYGGVTLNPYWPARRQETLLTTAIYKFHPEFANAEFEIWYGDPDKDHGSSTLEGGDVPIGNGVVLIGGERSSRQAIGQVAQSLFAKGAAERVIVAGLPKAAHLDTVFSFCDRDLVTVFPEVVKEIVPFSLRPDPSSPYGNIRREEKTFLEVVAESLGLKKLRVVETGEQWDDGNNVVCLEPGVVVGYDRNTYTNTLLRKAGVEVITISASELGRGRGGGHCTCPIVRDPID TKLGVHSEAGKLRKVVCSPGLAHQRLTPSNCDELLFDDVIWVNQAKRDHFDFVTKRERGIDVLEHNLLTETIQNPEALKWILDRKITADSVGLGLTSELRSWLESLEPRKLAEYLIGGVAADDLPASEGANILKYREYLGHSSFLLPPLPNTQFTRDTTCWIYGGVTLNPYWPARRQETLLTTAIYKFHPEFANAEFEIWYGDPDKDHGSSTLEGGDVPIGNGVVLIGGERSSRQAIGQVAQSLFAKGAAERVIVAGLPKAAHLDTVFSFCDRDLVTVFPEVVKEIVPFSLRPDPSSPYGNIRREEKTFLEVVAESLGLKKLRVVETGEQWDDGNNVVCLEPGVVVGYDRNTYTNTLLRKAGVEVITISASELGRGRGGGHCTCPIVRDPID 1ry9-a2-m1-cC_1ry9-a2-m1-cD Spa15, a Type III Secretion Chaperone from Shigella flexneri P35530 P35530 1.82 X-RAY DIFFRACTION 40 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 133 133 1ry9-a1-m1-cA_1ry9-a1-m1-cB 2xga-a1-m1-cA_2xga-a1-m1-cB MSNINLVQLVRDSLFTIGCPPSIITDLDSHSAITISLDSMPAINIALVNEQVMLWANFDAPSDVKLQSSAYNILNLMLMNFSYSINELVELHRSDEYLQLRVVIKDDYVHDGIVFAEILHEFYQRMEILNGVL MSNINLVQLVRDSLFTIGCPPSIITDLDSHSAITISLDSMPAINIALVNEQVMLWANFDAPSDVKLQSSAYNILNLMLMNFSYSINELVELHRSDEYLQLRVVIKDDYVHDGIVFAEILHEFYQRMEILNGVL 1rya-a1-m1-cA_1rya-a1-m1-cB Crystal Structure of the E. coli GDP-mannose mannosyl hydrolase in complex with GDP and MG P32056 P32056 1.3 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 160 160 2gt2-a1-m1-cB_2gt2-a1-m1-cA 2gt2-a2-m1-cD_2gt2-a2-m1-cC 2gt4-a1-m1-cA_2gt4-a1-m1-cB 2gt4-a2-m1-cC_2gt4-a2-m2-cC 2i8t-a1-m1-cA_2i8t-a1-m1-cB 2i8u-a1-m1-cA_2i8u-a1-m1-cB MMFLRQEDFATVVRSTPLVSLDFIVENSRGEFLLGKRTNRPAQGYWFVPGGRVQKDETLEAAFERLTMAELGLRLPITAGQFYGVWQHFYDDNFSGTDFTTHYVVLGFRFRVSEEELLLPDEQHDDYRWLTSDALLASDNVHANSRAYFLAEKRTGVPGL MMFLRQEDFATVVRSTPLVSLDFIVENSRGEFLLGKRTNRPAQGYWFVPGGRVQKDETLEAAFERLTMAELGLRLPITAGQFYGVWQHFYDDNFSGTDFTTHYVVLGFRFRVSEEELLLPDEQHDDYRWLTSDALLASDNVHANSRAYFLAEKRTGVPGL 1ryi-a2-m1-cC_1ryi-a2-m3-cC STRUCTURE OF GLYCINE OXIDASE WITH BOUND INHIBITOR GLYCOLATE O31616 O31616 1.8 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 364 364 1ng3-a1-m1-cA_1ng3-a1-m2-cB 1ng3-a1-m1-cB_1ng3-a1-m2-cA 1ng4-a1-m1-cA_1ng4-a1-m2-cB 1ng4-a1-m1-cB_1ng4-a1-m2-cA 1ryi-a1-m1-cA_1ryi-a1-m1-cB 1ryi-a1-m2-cA_1ryi-a1-m2-cB 1ryi-a2-m1-cD_1ryi-a2-m3-cD 3if9-a1-m1-cB_3if9-a1-m1-cA 3if9-a1-m2-cB_3if9-a1-m2-cA 3if9-a2-m1-cC_3if9-a2-m3-cC 3if9-a2-m1-cD_3if9-a2-m3-cD MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPAIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRK MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPAIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRK 1ryi-a2-m1-cC_1ryi-a2-m3-cD STRUCTURE OF GLYCINE OXIDASE WITH BOUND INHIBITOR GLYCOLATE O31616 O31616 1.8 X-RAY DIFFRACTION 37 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 364 364 1ng3-a1-m1-cA_1ng3-a1-m1-cB 1ng3-a1-m2-cA_1ng3-a1-m2-cB 1ng4-a1-m1-cA_1ng4-a1-m1-cB 1ng4-a1-m2-cA_1ng4-a1-m2-cB 1ryi-a1-m1-cA_1ryi-a1-m2-cA 1ryi-a1-m1-cB_1ryi-a1-m2-cB 1ryi-a2-m1-cD_1ryi-a2-m3-cC 3if9-a1-m1-cA_3if9-a1-m2-cA 3if9-a1-m1-cB_3if9-a1-m2-cB 3if9-a2-m1-cC_3if9-a2-m3-cD 3if9-a2-m1-cD_3if9-a2-m3-cC MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPAIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRK MKRHYEAVVIGGGIIGSAIAYYLAKENKNTALFESGTMGGRTTSAAAGMLGAHAECEERDAFFDFAMHSQRLYKGLGEELYALSGVDIRQHNGGMFKLAFSEEDVLQLRQMDDLDSVSWYSKEEVLEKEPYASGDIFGASFIQDDVHVEPYFVCKAYVKAAKMLGAEIFEHTPVLHVERDGEALFIKTPSGDVWANHVVVASGVWSGMFFKQLGLNNAFLPVKGECLSVWNDDIPLTKTLYHDHCYIVPRKSGRLVVGATMKPGDWSETPDLGGLESVMKKAKTMLPAIQNMKVDRFWAGLRPGTKDGKPYIGRHPEDSRILFAAGHFRNGILLAPATGALISDLIMNKEVNQDWLHAFRIDRK 1rz1-a4-m1-cG_1rz1-a4-m1-cH Reduced flavin reductase PheA2 in complex with NAD Q9LAG2 Q9LAG2 2.1 X-RAY DIFFRACTION 149 1.0 1426 (Parageobacillus thermoglucosidasius) 1426 (Parageobacillus thermoglucosidasius) 147 147 1rz0-a1-m1-cA_1rz0-a1-m1-cB 1rz0-a2-m1-cC_1rz0-a2-m1-cD 1rz0-a3-m1-cE_1rz0-a3-m1-cF 1rz0-a4-m1-cG_1rz0-a4-m1-cH 1rz1-a1-m1-cA_1rz1-a1-m1-cB 1rz1-a2-m1-cC_1rz1-a2-m1-cD 1rz1-a3-m1-cE_1rz1-a3-m1-cF DDRLFRNAGKFATGVTVITTELNGAVHGTANAFSVSLNPKLVLVSIGEKAKLEKIQQSKKYAVNILSQDQKVLSNFAGQLEKPVDVQFEELGGLPVIKDALAQISCQVVNEVQAGDHTLFIGEVTDIKITEQDPLLFFSGKYHQLAQ DDRLFRNAGKFATGVTVITTELNGAVHGTANAFSVSLNPKLVLVSIGEKAKLEKIQQSKKYAVNILSQDQKVLSNFAGQLEKPVDVQFEELGGLPVIKDALAQISCQVVNEVQAGDHTLFIGEVTDIKITEQDPLLFFSGKYHQLAQ 1rz4-a2-m1-cA_1rz4-a2-m2-cA Crystal Structure of Human eIF3k Q9UBQ5 Q9UBQ5 2.1 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 207 AMFEQRANVGKLLKGIDRYNPENLATLERYVETQAKENAYDLEANLAVLKLYQFNPAFFQTTVTAQILLKALTNLPHTDFTLCKCIDQAHQEERPIRQILYLGDLLETCHFQAFWQALDENDLLEGITGFEDSVRKFICHVVGITYQHIDRWLLAELGDLSDSQLKVWSKYGWSADEQIFICSQEESIKPKNIVEKIDFDSVSSIAS AMFEQRANVGKLLKGIDRYNPENLATLERYVETQAKENAYDLEANLAVLKLYQFNPAFFQTTVTAQILLKALTNLPHTDFTLCKCIDQAHQEERPIRQILYLGDLLETCHFQAFWQALDENDLLEGITGFEDSVRKFICHVVGITYQHIDRWLLAELGDLSDSQLKVWSKYGWSADEQIFICSQEESIKPKNIVEKIDFDSVSSIAS 1rzn-a1-m1-cA_1rzn-a1-m1-cB Crystal Structure of Penicillin-binding protein-related factor A from Bacillus Subtilis. P39792 P39792 2.302 X-RAY DIFFRACTION 72 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 150 150 1zp7-a1-m1-cA_1zp7-a1-m1-cB 5fdk-a1-m1-cC_5fdk-a1-m1-cA 5fdk-a2-m1-cB_5fdk-a2-m1-cD TLEDDLNETNKYYLTNQIAVIHKKPTPVQIAYFKQSSTTDYNGIYKGRYIDFEAKETKNKTSFPLQNFHDHQIEHMKQVKAQDGICFVIISAFDQVYFLEADKLFYFWDRKEKNGRKSIRKDELEETAYPISLGYAPRIDYISIIEQLYF TLEDDLNETNKYYLTNQIAVIHKKPTPVQEAYFKQSSTTDYNGIYKGRYIDFEAKETKNKTSFPLQNFHDHQIEHMKQVKAQDGICFVIISAFDQVYFLEADKLFYFWDRKEKNGRKSIRKDELEETAYPISLGYAPRIDYISIIEQLYF 1s0p-a1-m1-cA_1s0p-a1-m1-cB Structure of the N-Terminal Domain of the Adenylyl Cyclase-Associated Protein (CAP) from Dictyostelium discoideum. P54654 P54654 1.4 X-RAY DIFFRACTION 25 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 176 176 SVKEFQNLVDQHITPFVALSKKLAPEVGNQVEQLVKAIDAEKALINTASQSKKPSQETLLELIKPLNNFAAEVGKIRDSNRSSKFFNNLSAISESIGFLSWVVVEPTPGPHVAEMRGSAEFYTNRILKEFKGVNQDQVDWVSNYVNFLKDLEKYIKQYHTTGLTWNPKGGDAKSAT SVKEFQNLVDQHITPFVALSKKLAPEVGNQVEQLVKAIDAEKALINTASQSKKPSQETLLELIKPLNNFAAEVGKIRDSNRSSKFFNNLSAISESIGFLSWVVVEPTPGPHVAEMRGSAEFYTNRILKEFKGVNQDQVDWVSNYVNFLKDLEKYIKQYHTTGLTWNPKGGDAKSAT 1s0y-a1-m1-cB_1s0y-a1-m1-cD The structure of trans-3-chloroacrylic acid dehalogenase, covalently inactivated by the mechanism-based inhibitor 3-bromopropiolate at 2.3 Angstrom resolution Q9EV84 Q9EV84 2.3 X-RAY DIFFRACTION 34 1.0 47881 (Pseudomonas pavonaceae) 47881 (Pseudomonas pavonaceae) 55 56 1s0y-a1-m1-cB_1s0y-a1-m1-cF 1s0y-a1-m1-cD_1s0y-a1-m1-cF 1s0y-a2-m1-cJ_1s0y-a2-m1-cH 1s0y-a2-m1-cJ_1s0y-a2-m1-cL 1s0y-a2-m1-cL_1s0y-a2-m1-cH 3ej3-a1-m1-cD_3ej3-a1-m1-cB 3ej3-a1-m1-cD_3ej3-a1-m1-cF 3ej3-a1-m1-cF_3ej3-a1-m1-cB 3ej3-a2-m1-cH_3ej3-a2-m1-cL 3ej3-a2-m1-cJ_3ej3-a2-m1-cH 3ej3-a2-m1-cJ_3ej3-a2-m1-cL 3ej7-a1-m1-cB_3ej7-a1-m1-cD 3ej7-a1-m1-cB_3ej7-a1-m1-cF 3ej7-a1-m1-cD_3ej7-a1-m1-cF 3ej7-a2-m1-cH_3ej7-a2-m1-cJ 3ej7-a2-m1-cH_3ej7-a2-m1-cL 3ej7-a2-m1-cJ_3ej7-a2-m1-cL 3ej9-a1-m1-cD_3ej9-a1-m1-cB 3ej9-a1-m1-cD_3ej9-a1-m1-cF 3ej9-a1-m1-cF_3ej9-a1-m1-cB PFIECHIATGLSVARKQQLIRDVIDVTNKSIGSDPKIINVLLVEHAEANMSISGR PFIECHIATGLSVARKQQLIRDVIDVTNKSIGSDPKIINVLLVEHAEANMSISGRI 1s0y-a2-m1-cK_1s0y-a2-m1-cG The structure of trans-3-chloroacrylic acid dehalogenase, covalently inactivated by the mechanism-based inhibitor 3-bromopropiolate at 2.3 Angstrom resolution Q9EV85 Q9EV85 2.3 X-RAY DIFFRACTION 41 1.0 47881 (Pseudomonas pavonaceae) 47881 (Pseudomonas pavonaceae) 61 62 1s0y-a1-m1-cC_1s0y-a1-m1-cA 1s0y-a1-m1-cC_1s0y-a1-m1-cE 1s0y-a1-m1-cE_1s0y-a1-m1-cA 1s0y-a2-m1-cG_1s0y-a2-m1-cI 1s0y-a2-m1-cK_1s0y-a2-m1-cI 3ej3-a1-m1-cA_3ej3-a1-m1-cC 3ej3-a1-m1-cA_3ej3-a1-m1-cE 3ej3-a1-m1-cE_3ej3-a1-m1-cC 3ej3-a2-m1-cG_3ej3-a2-m1-cI 3ej3-a2-m1-cG_3ej3-a2-m1-cK 3ej3-a2-m1-cK_3ej3-a2-m1-cI 3ej7-a1-m1-cA_3ej7-a1-m1-cC 3ej7-a1-m1-cA_3ej7-a1-m1-cE 3ej7-a1-m1-cE_3ej7-a1-m1-cC 3ej7-a2-m1-cG_3ej7-a2-m1-cI 3ej7-a2-m1-cG_3ej7-a2-m1-cK 3ej7-a2-m1-cI_3ej7-a2-m1-cK 3ej9-a1-m1-cA_3ej9-a1-m1-cC 3ej9-a1-m1-cA_3ej9-a1-m1-cE 3ej9-a1-m1-cC_3ej9-a1-m1-cE PMISCDMRYGRTDEQKRALSAGLLRVISEATGEPRENIFFVIREGSGINFVEHGEHLPDYV PMISCDMRYGRTDEQKRALSAGLLRVISEATGEPRENIFFVIREGSGINFVEHGEHLPDYVP 1s12-a2-m1-cC_1s12-a2-m1-cB Crystal structure of TM1457 Q9X1G8 Q9X1G8 2 X-RAY DIFFRACTION 56 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 91 94 1s12-a1-m1-cD_1s12-a1-m1-cA MIKVTVTNSFFEVTGHAPDKTLCASVSLLTQHVANFLKAEKKAKIKKESGYLKVKFEELENCEVKVLAAMVRSLKELEQKFPSQIRVEVID MIKVTVTNSFFEVTGHAPDKTLCASVSLLTQHVANFLKAEKKAKIKKESGYLKVKFEELENCEVKVLAAMVRSLKELEQKFPSQIRVEVIDNGS 1s16-a3-m1-cA_1s16-a3-m1-cB Crystal Structure of E. coli Topoisomerase IV ParE 43kDa subunit complexed with ADPNP P20083 P20083 2.1 X-RAY DIFFRACTION 151 1.0 562 (Escherichia coli) 562 (Escherichia coli) 380 380 TYNADAIEVLTGLEPVRRRPGMYTDTTRPNHLGQEVIDNSVDEALAGHAKRVDVILHADQSLEVIDDGRGMPVDIHPEEGVPAVELILCRLHAGGKFSNKNYQFSGGLHGVGISVVNALSKRVEVNVRRDGQVYNIAFENGEKVQDLQVVGTCGKRNTGTSVHFWPDETFFDSPRFSVSRLTHVLKAKAVLCPGVEITFKDEINNTEQRWCYQDGLNDYLAEAVNGLPTLPEKPFIGNFAGDTEAVDWALLWLPEGGELLTESYVNLIPTMQGGTHVNGLRQGLLDAMREFCEYRNILPRGVKLSAEDIWDRCAYVLSVKMQDPQFAGQTKERLSSRQCAAFVSGVVKDAFILWLNQNVQAAELLAEMAISSAQRRMRAA TYNADAIEVLTGLEPVRRRPGMYTDTTRPNHLGQEVIDNSVDEALAGHAKRVDVILHADQSLEVIDDGRGMPVDIHPEEGVPAVELILCRLHAGGKFSNKNYQFSGGLHGVGISVVNALSKRVEVNVRRDGQVYNIAFENGEKVQDLQVVGTCGKRNTGTSVHFWPDETFFDSPRFSVSRLTHVLKAKAVLCPGVEITFKDEINNTEQRWCYQDGLNDYLAEAVNGLPTLPEKPFIGNFAGDTEAVDWALLWLPEGGELLTESYVNLIPTMQGGTHVNGLRQGLLDAMREFCEYRNILPRGVKLSAEDIWDRCAYVLSVKMQDPQFAGQTKERLSSRQCAAFVSGVVKDAFILWLNQNVQAAELLAEMAISSAQRRMRAA 1s1c-a1-m1-cX_1s1c-a1-m1-cY Crystal structure of the complex between the human RhoA and Rho-binding domain of human ROCKI Q13464 Q13464 2.6 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 70 GSMLTKDIEILRRENEELTEKMKKAEEEYKLEKEEEISNLKAAFEKNINTERTLKTQAVNKLAEIMNRK GSMLTKDIEILRRENEELTEKMKKAEEEYKLEKEEEISNLKAAFEKNINTERTLKTQAVNKLAEIMNRKD 1s1s-a1-m1-cB_1s1s-a1-m1-cA Crystal Structure of ZipA in complex with indoloquinolizin 10b P77173 P77173 2.1 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 137 139 1s1j-a1-m1-cA_1s1j-a1-m1-cB KEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTPGVTIFMQVPSYGDELQLFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDAN RKEAVIIMNVAAHHGSELNGELLLNSIQQAGFIFGDMNIYHRHLSPDGSGPALFSLANMVKPGTFDPEMKDFTTPGVTIFMQVPSYGDELQLFKLMLQSAQHIADEVGGVVLDDQRRMMTPQKLREYQDIIREVKDANA 1s20-a3-m1-cF_1s20-a3-m1-cE A novel NAD binding protein revealed by the crystal structure of E. Coli 2,3-diketogulonate reductase (YiaK) NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET ER82 P37672 P37672 2.2 X-RAY DIFFRACTION 240 1.0 562 (Escherichia coli) 562 (Escherichia coli) 318 319 1nxu-a1-m1-cA_1nxu-a1-m1-cB 1s20-a1-m1-cA_1s20-a1-m1-cB 1s20-a2-m1-cC_1s20-a2-m1-cD 1s20-a4-m1-cH_1s20-a4-m1-cG KVTFEQLKAAFNRVLISRGVDSETADACAEFARTTESGVYSHGVNRFPRFIQQLENGDIIPDAQPKRITSLGAIEQWDAQRSIGNLTAKKDRAIELAADHGIGLVALRNANHWRGGSYGWQAAEKGYIGICWTNSIAVPPWGAKECRIGTNPLIVAIPSTPITVDSSFSYGLEVNRLAGRQLPVDGGFDDEGNLTKEPGVIEKNRRILPGYWKGSGSIVLDIATLLSDGASVAEVTQDNSDEYGISQIFIAIEVDKLIDGPTRDAKLQRIDYVTSAERADENQAIRLPGHEFTTLLAENRRNGITVDDSVWAKIQALL KVTFEQLKAAFNRVLISRGVDSETADACAEFARTTESGVYSHGVNRFPRFIQQLENGDIIPDAQPKRITSLGAIEQWDAQRSIGNLTAKKDRAIELAADHGIGLVALRNANHWRGGSYGWQAAEKGYIGICWTNSIAVPPWGAKECRIGTNPLIVAIPSTPITVDSSFSYGLEVNRLAGRQLPVDGGFDDEGNLTKEPGVIEKNRRILPGYWKGSGSIVLDIATLLSDGASVAEVTQDNSDEYGISQIFIAIEVDKLIDGPTRDAKLQRIDYVTSAERADENQAIRLPGHEFTTLLAENRRNGITVDDSVWAKIQALLE 1s28-a3-m1-cB_1s28-a3-m1-cD Crystal Structure of AvrPphF ORF1, the Chaperone for the Type III Effector AvrPphF ORF2 from P. syringae Q9K2L2 Q9K2L2 3 X-RAY DIFFRACTION 23 1.0 319 (Pseudomonas savastanoi pv. phaseolicola) 319 (Pseudomonas savastanoi pv. phaseolicola) 127 127 1s28-a3-m1-cA_1s28-a3-m1-cC GAKNSFDRLIDGLAKDYGPGFPEKKHEHEVYCFEFKEVSIRIYQDKFKWVYFLSDIGVIDNLDSNACQSLLRLNEFNLRTPFFTVGLNEKKDGVVHTRIPLLNLDNVERRVFEALLNLSGEVKKTFG GAKNSFDRLIDGLAKDYGPGFPEKKHEHEVYCFEFKEVSIRIYQDKFKWVYFLSDIGVIDNLDSNACQSLLRLNEFNLRTPFFTVGLNEKKDGVVHTRIPLLNLDNVERRVFEALLNLSGEVKKTFG 1s28-a3-m1-cC_1s28-a3-m1-cD Crystal Structure of AvrPphF ORF1, the Chaperone for the Type III Effector AvrPphF ORF2 from P. syringae Q9K2L2 Q9K2L2 3 X-RAY DIFFRACTION 98 1.0 319 (Pseudomonas savastanoi pv. phaseolicola) 319 (Pseudomonas savastanoi pv. phaseolicola) 127 127 1s28-a1-m1-cA_1s28-a1-m1-cB 1s28-a2-m1-cC_1s28-a2-m1-cD 1s28-a3-m1-cA_1s28-a3-m1-cB GAKNSFDRLIDGLAKDYGPGFPEKKHEHEVYCFEFKEVSIRIYQDKFKWVYFLSDIGVIDNLDSNACQSLLRLNEFNLRTPFFTVGLNEKKDGVVHTRIPLLNLDNVERRVFEALLNLSGEVKKTFG GAKNSFDRLIDGLAKDYGPGFPEKKHEHEVYCFEFKEVSIRIYQDKFKWVYFLSDIGVIDNLDSNACQSLLRLNEFNLRTPFFTVGLNEKKDGVVHTRIPLLNLDNVERRVFEALLNLSGEVKKTFG 1s2e-a2-m2-cB_1s2e-a2-m3-cB BACTERIOPHAGE T4 GENE PRODUCT 9 (GP9), THE TRIGGER OF TAIL CONTRACTION AND THE LONG TAIL FIBERS CONNECTOR, ALTERNATIVE FIT OF THE FIRST 19 RESIDUES P10927 P10927 2.3 X-RAY DIFFRACTION 197 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 288 288 1pdp-a1-m1-cA_1pdp-a1-m1-cB 1pdp-a1-m1-cA_1pdp-a1-m1-cC 1pdp-a1-m1-cB_1pdp-a1-m1-cC 1pdp-a1-m1-cD_1pdp-a1-m1-cE 1pdp-a1-m1-cD_1pdp-a1-m1-cF 1pdp-a1-m1-cE_1pdp-a1-m1-cF 1pdp-a1-m1-cG_1pdp-a1-m1-cH 1pdp-a1-m1-cG_1pdp-a1-m1-cI 1pdp-a1-m1-cH_1pdp-a1-m1-cI 1pdp-a1-m1-cJ_1pdp-a1-m1-cK 1pdp-a1-m1-cJ_1pdp-a1-m1-cL 1pdp-a1-m1-cK_1pdp-a1-m1-cL 1pdp-a1-m1-cM_1pdp-a1-m1-cN 1pdp-a1-m1-cM_1pdp-a1-m1-cO 1pdp-a1-m1-cN_1pdp-a1-m1-cO 1pdp-a1-m1-cP_1pdp-a1-m1-cQ 1pdp-a1-m1-cP_1pdp-a1-m1-cR 1pdp-a1-m1-cQ_1pdp-a1-m1-cR 1qex-a1-m1-cA_1qex-a1-m2-cA 1qex-a1-m1-cA_1qex-a1-m3-cA 1qex-a1-m1-cB_1qex-a1-m2-cB 1qex-a1-m1-cB_1qex-a1-m3-cB 1qex-a1-m2-cA_1qex-a1-m3-cA 1qex-a1-m2-cB_1qex-a1-m3-cB 1s2e-a1-m1-cA_1s2e-a1-m2-cA 1s2e-a1-m1-cA_1s2e-a1-m3-cA 1s2e-a1-m2-cA_1s2e-a1-m3-cA 1s2e-a2-m1-cB_1s2e-a2-m2-cB 1s2e-a2-m1-cB_1s2e-a2-m3-cB 1tja-a1-m1-cC_1tja-a1-m1-cD 1tja-a1-m1-cC_1tja-a1-m1-cE 1tja-a1-m1-cD_1tja-a1-m1-cE 1tja-a1-m2-cC_1tja-a1-m2-cD 1tja-a1-m2-cC_1tja-a1-m2-cE 1tja-a1-m2-cD_1tja-a1-m2-cE 1tja-a1-m3-cC_1tja-a1-m3-cD 1tja-a1-m3-cC_1tja-a1-m3-cE 1tja-a1-m3-cD_1tja-a1-m3-cE 1tja-a1-m4-cC_1tja-a1-m4-cD 1tja-a1-m4-cC_1tja-a1-m4-cE 1tja-a1-m4-cD_1tja-a1-m4-cE 1tja-a1-m5-cC_1tja-a1-m5-cD 1tja-a1-m5-cC_1tja-a1-m5-cE 1tja-a1-m5-cD_1tja-a1-m5-cE 1tja-a1-m6-cC_1tja-a1-m6-cD 1tja-a1-m6-cC_1tja-a1-m6-cE 1tja-a1-m6-cD_1tja-a1-m6-cE 1zku-a1-m1-cA_1zku-a1-m1-cB 1zku-a1-m1-cA_1zku-a1-m1-cC 1zku-a1-m1-cB_1zku-a1-m1-cC 1zku-a1-m1-cD_1zku-a1-m1-cE 1zku-a1-m1-cD_1zku-a1-m1-cF 1zku-a1-m1-cE_1zku-a1-m1-cF 1zku-a1-m1-cG_1zku-a1-m1-cH 1zku-a1-m1-cG_1zku-a1-m1-cI 1zku-a1-m1-cH_1zku-a1-m1-cI 1zku-a1-m1-cJ_1zku-a1-m1-cK 1zku-a1-m1-cJ_1zku-a1-m1-cL 1zku-a1-m1-cK_1zku-a1-m1-cL 1zku-a1-m1-cM_1zku-a1-m1-cN 1zku-a1-m1-cM_1zku-a1-m1-cO 1zku-a1-m1-cN_1zku-a1-m1-cO 1zku-a1-m1-cP_1zku-a1-m1-cQ 1zku-a1-m1-cP_1zku-a1-m1-cR 1zku-a1-m1-cQ_1zku-a1-m1-cR 5iv5-a1-m1-cAA_5iv5-a1-m1-cAB 5iv5-a1-m1-cAA_5iv5-a1-m1-cz 5iv5-a1-m1-cAB_5iv5-a1-m1-cz 5iv5-a1-m1-cc_5iv5-a1-m1-cd 5iv5-a1-m1-cc_5iv5-a1-m1-ce 5iv5-a1-m1-cCC_5iv5-a1-m1-cCD 5iv5-a1-m1-cCC_5iv5-a1-m1-cCE 5iv5-a1-m1-cCD_5iv5-a1-m1-cCE 5iv5-a1-m1-cd_5iv5-a1-m1-ce 5iv5-a1-m1-cEF_5iv5-a1-m1-cEG 5iv5-a1-m1-cEF_5iv5-a1-m1-cEH 5iv5-a1-m1-cEG_5iv5-a1-m1-cEH 5iv5-a1-m1-cF_5iv5-a1-m1-cG 5iv5-a1-m1-cF_5iv5-a1-m1-cH 5iv5-a1-m1-cG_5iv5-a1-m1-cH 5iv5-a1-m1-cGI_5iv5-a1-m1-cGJ 5iv5-a1-m1-cGI_5iv5-a1-m1-cHA 5iv5-a1-m1-cGJ_5iv5-a1-m1-cHA 5iv7-a1-m1-cAB_5iv7-a1-m1-cAC 5iv7-a1-m1-cAB_5iv7-a1-m1-cAD 5iv7-a1-m1-cAC_5iv7-a1-m1-cAD 5iv7-a1-m1-cCD_5iv7-a1-m1-cCE 5iv7-a1-m1-cCD_5iv7-a1-m1-cCF 5iv7-a1-m1-cCE_5iv7-a1-m1-cCF 5iv7-a1-m1-cEF_5iv7-a1-m1-cEG 5iv7-a1-m1-cEF_5iv7-a1-m1-cFA 5iv7-a1-m1-cEG_5iv7-a1-m1-cFA 5iv7-a1-m1-cF_5iv7-a1-m1-cG 5iv7-a1-m1-cF_5iv7-a1-m1-cH 5iv7-a1-m1-cG_5iv7-a1-m1-cH 5iv7-a1-m1-cl_5iv7-a1-m1-cm 5iv7-a1-m1-cl_5iv7-a1-m1-cn 5iv7-a1-m1-cm_5iv7-a1-m1-cn 5iv7-a1-m1-cV_5iv7-a1-m1-cW 5iv7-a1-m1-cV_5iv7-a1-m1-cX 5iv7-a1-m1-cW_5iv7-a1-m1-cX MFIQEPKKLIDTGEIGNASTGDILFDGGNKINSDFNAIYNAFGDQRKMAVANGTGADGQIIHATGYYQKHSITEYATPVKVGTRHDIDTSTVGVKVIIERGELGDCVEFINSNGSISVTNPLTIQAIDSIKGVSGNLVVTSPYSKVTLRCISSDNSTSVWNYSIESMFGQKESPAEGTWNISTSGSVDIPLFHRTEYNMAKLLVTCQSVDGRKIKTAEINILVDTVNSEVISSEYAVMRVGNETEEDEIANIAFSIKENYVTATISSSTVGMRAAVKVIATQKIGVAQ MFIQEPKKLIDTGEIGNASTGDILFDGGNKINSDFNAIYNAFGDQRKMAVANGTGADGQIIHATGYYQKHSITEYATPVKVGTRHDIDTSTVGVKVIIERGELGDCVEFINSNGSISVTNPLTIQAIDSIKGVSGNLVVTSPYSKVTLRCISSDNSTSVWNYSIESMFGQKESPAEGTWNISTSGSVDIPLFHRTEYNMAKLLVTCQSVDGRKIKTAEINILVDTVNSEVISSEYAVMRVGNETEEDEIANIAFSIKENYVTATISSSTVGMRAAVKVIATQKIGVAQ 1s2l-a1-m1-cB_1s2l-a1-m2-cB Purine 2'deoxyribosyltransferase native structure Q8RLY5 Q8RLY5 2.1 X-RAY DIFFRACTION 125 1.0 1587 (Lactobacillus helveticus) 1587 (Lactobacillus helveticus) 167 167 1s2d-a1-m1-cA_1s2d-a1-m2-cC 1s2d-a1-m1-cB_1s2d-a1-m2-cB 1s2d-a1-m2-cA_1s2d-a1-m1-cC 1s2g-a1-m1-cA_1s2g-a1-m2-cC 1s2g-a1-m1-cB_1s2g-a1-m2-cB 1s2g-a1-m2-cA_1s2g-a1-m1-cC 1s2i-a1-m1-cA_1s2i-a1-m2-cC 1s2i-a1-m1-cB_1s2i-a1-m2-cB 1s2i-a1-m2-cA_1s2i-a1-m1-cC 1s2l-a1-m1-cC_1s2l-a1-m2-cA 1s2l-a1-m2-cC_1s2l-a1-m1-cA 1s3f-a1-m1-cA_1s3f-a1-m2-cC 1s3f-a1-m1-cB_1s3f-a1-m2-cB 1s3f-a1-m2-cA_1s3f-a1-m1-cC MKAVVPTGKIYLGSPFYSDAQRERAAKAKELLAKNPSIAHVFFPFDDGFTDPDEKNPEIGGIRSMVWRDATYQNDLTGISNATCGVFLYDMDQLDDGSAFEIGFMRAMHKPVILVPFTEHPEKEKKMNLMIAQGVTTIIDGNTEFEKLADYNFNECPSNPVRGYGIY MKAVVPTGKIYLGSPFYSDAQRERAAKAKELLAKNPSIAHVFFPFDDGFTDPDEKNPEIGGIRSMVWRDATYQNDLTGISNATCGVFLYDMDQLDDGSAFEIGFMRAMHKPVILVPFTEHPEKEKKMNLMIAQGVTTIIDGNTEFEKLADYNFNECPSNPVRGYGIY 1s2t-a1-m1-cA_1s2t-a1-m2-cB Crystal Structure Of Apo Phosphoenolpyruvate Mutase P56839 P56839 2 X-RAY DIFFRACTION 40 0.997 6550 (Mytilus edulis) 6550 (Mytilus edulis) 291 291 1m1b-a1-m1-cB_1m1b-a1-m2-cA 1m1b-a1-m2-cB_1m1b-a1-m1-cA 1pym-a1-m1-cB_1pym-a1-m2-cA 1pym-a1-m2-cB_1pym-a1-m1-cA 1s2t-a1-m1-cB_1s2t-a1-m2-cA 1s2u-a1-m1-cB_1s2u-a1-m2-cA 1s2u-a1-m2-cB_1s2u-a1-m1-cA 1s2v-a1-m1-cA_1s2v-a1-m1-cC 1s2v-a1-m1-cD_1s2v-a1-m1-cB VKKTTQLKQMLNSKDLEFIMEAHNGLSARIVQEAGFKGIWGSGLSVSAQLGVRDSNEASWTQVVEVLEFMSDASDVPILLDADTGYGNFNNARRLVRKLEDRGVAGACLEDKLFPKTNSLHDGRAQPLADIEEFALKIKACKDSQTDPDFCIVARVEAFIAGWGLDEALKRAEAYRNAGADAILMHSKKADPSDIEAFMKAWNNQGPVVIVPTKYYKTPTDHFRDMGVSMVIWANHNLRASVSAIQQTTKQIYDDQSLVNVEDKIVSVKEIFRLQRDDELVQAEDKYLPKN KVKKTTQLKQMLNSKDLEFIMEAHNGLSARIVQEAGFKGIWGSGLSVSAQLGVRDSNEASWTQVVEVLEFMSDASDVPILLDADTGYGNFNNARRLVRKLEDRGVAGACLEDKLFPKTNSLHDGRAQPLADIEEFALKIKACKDSQTDPDFCIVARVEAFIAGWGLDEALKRAEAYRNAGADAILMHSKKADPSDIEAFMKAWNNQGPVVIVPTKYYKTPTDHFRDMGVSMVIWANHNLRASVSAIQQTTKQIYDDQSLVNVEDKIVSVKEIFRLQRDDELVQAEDKYLPK 1s2t-a1-m1-cB_1s2t-a1-m2-cB Crystal Structure Of Apo Phosphoenolpyruvate Mutase P56839 P56839 2 X-RAY DIFFRACTION 249 1.0 6550 (Mytilus edulis) 6550 (Mytilus edulis) 291 291 1m1b-a1-m1-cA_1m1b-a1-m2-cA 1m1b-a1-m1-cB_1m1b-a1-m2-cB 1pym-a1-m1-cA_1pym-a1-m2-cA 1pym-a1-m1-cB_1pym-a1-m2-cB 1s2t-a1-m1-cA_1s2t-a1-m2-cA 1s2u-a1-m1-cA_1s2u-a1-m2-cA 1s2u-a1-m1-cB_1s2u-a1-m2-cB 1s2v-a1-m1-cC_1s2v-a1-m1-cB 1s2v-a1-m1-cD_1s2v-a1-m1-cA 1s2w-a2-m1-cA_1s2w-a2-m2-cA KVKKTTQLKQMLNSKDLEFIMEAHNGLSARIVQEAGFKGIWGSGLSVSAQLGVRDSNEASWTQVVEVLEFMSDASDVPILLDADTGYGNFNNARRLVRKLEDRGVAGACLEDKLFPKTNSLHDGRAQPLADIEEFALKIKACKDSQTDPDFCIVARVEAFIAGWGLDEALKRAEAYRNAGADAILMHSKKADPSDIEAFMKAWNNQGPVVIVPTKYYKTPTDHFRDMGVSMVIWANHNLRASVSAIQQTTKQIYDDQSLVNVEDKIVSVKEIFRLQRDDELVQAEDKYLPK KVKKTTQLKQMLNSKDLEFIMEAHNGLSARIVQEAGFKGIWGSGLSVSAQLGVRDSNEASWTQVVEVLEFMSDASDVPILLDADTGYGNFNNARRLVRKLEDRGVAGACLEDKLFPKTNSLHDGRAQPLADIEEFALKIKACKDSQTDPDFCIVARVEAFIAGWGLDEALKRAEAYRNAGADAILMHSKKADPSDIEAFMKAWNNQGPVVIVPTKYYKTPTDHFRDMGVSMVIWANHNLRASVSAIQQTTKQIYDDQSLVNVEDKIVSVKEIFRLQRDDELVQAEDKYLPK 1s2t-a1-m2-cA_1s2t-a1-m2-cB Crystal Structure Of Apo Phosphoenolpyruvate Mutase P56839 P56839 2 X-RAY DIFFRACTION 46 0.997 6550 (Mytilus edulis) 6550 (Mytilus edulis) 291 291 1m1b-a1-m1-cB_1m1b-a1-m1-cA 1m1b-a1-m2-cB_1m1b-a1-m2-cA 1pym-a1-m1-cB_1pym-a1-m1-cA 1pym-a1-m2-cB_1pym-a1-m2-cA 1s2t-a1-m1-cA_1s2t-a1-m1-cB 1s2u-a1-m1-cB_1s2u-a1-m1-cA 1s2u-a1-m2-cB_1s2u-a1-m2-cA 1s2v-a1-m1-cA_1s2v-a1-m1-cB 1s2v-a1-m1-cD_1s2v-a1-m1-cC VKKTTQLKQMLNSKDLEFIMEAHNGLSARIVQEAGFKGIWGSGLSVSAQLGVRDSNEASWTQVVEVLEFMSDASDVPILLDADTGYGNFNNARRLVRKLEDRGVAGACLEDKLFPKTNSLHDGRAQPLADIEEFALKIKACKDSQTDPDFCIVARVEAFIAGWGLDEALKRAEAYRNAGADAILMHSKKADPSDIEAFMKAWNNQGPVVIVPTKYYKTPTDHFRDMGVSMVIWANHNLRASVSAIQQTTKQIYDDQSLVNVEDKIVSVKEIFRLQRDDELVQAEDKYLPKN KVKKTTQLKQMLNSKDLEFIMEAHNGLSARIVQEAGFKGIWGSGLSVSAQLGVRDSNEASWTQVVEVLEFMSDASDVPILLDADTGYGNFNNARRLVRKLEDRGVAGACLEDKLFPKTNSLHDGRAQPLADIEEFALKIKACKDSQTDPDFCIVARVEAFIAGWGLDEALKRAEAYRNAGADAILMHSKKADPSDIEAFMKAWNNQGPVVIVPTKYYKTPTDHFRDMGVSMVIWANHNLRASVSAIQQTTKQIYDDQSLVNVEDKIVSVKEIFRLQRDDELVQAEDKYLPK 1s31-a2-m1-cA_1s31-a2-m2-cA Crystal Structure Analysis of the human Tub protein (isoform a) spanning residues 289 through 561 P50607 P50607 2.704 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 APSPTAPEQPVDVEVQDLEEFALRPAPQGITIKCRITRDKKGMDRGMFPTYFLHLDREDGKKVFLLAGRKRKKSKTSNYLISVDPTDLSRGGDSYIGKLRSNLMGTKFTVYDNGVNPQKASSSTLESGTLRQELAAVCYETNVLGFKGPRKMSVIVPGMNMVHERVSIRPRNEHETLLARWQNKNTESIIELQNKTPVWNDDTQSYVLNFHGRVTQASVKNFQIIHGNDPDYIVMQFGRVAEDVFTMDYNYPLCALQAFAIALSSFDSKLACE APSPTAPEQPVDVEVQDLEEFALRPAPQGITIKCRITRDKKGMDRGMFPTYFLHLDREDGKKVFLLAGRKRKKSKTSNYLISVDPTDLSRGGDSYIGKLRSNLMGTKFTVYDNGVNPQKASSSTLESGTLRQELAAVCYETNVLGFKGPRKMSVIVPGMNMVHERVSIRPRNEHETLLARWQNKNTESIIELQNKTPVWNDDTQSYVLNFHGRVTQASVKNFQIIHGNDPDYIVMQFGRVAEDVFTMDYNYPLCALQAFAIALSSFDSKLACE 1s3c-a2-m1-cA_1s3c-a2-m2-cA ARSENATE REDUCTASE C12S MUTANT FROM E. COLI P08692 P08692 1.25 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 138 1i9d-a2-m1-cA_1i9d-a2-m2-cA 1j9b-a3-m1-cA_1j9b-a3-m3-cA 1jzw-a3-m1-cA_1jzw-a3-m3-cA 1s3d-a2-m1-cA_1s3d-a2-m2-cA 1sd8-a3-m1-cA_1sd8-a3-m3-cA 1sjz-a3-m1-cA_1sjz-a3-m3-cA NITIYHNPASGTSRNTLEMIRNSGTEPTIILYLENPPSRDELVKLIADMGISVRALLRKNVEPYEQLGLAEDKFTDDQLIDFMLQHPILINRPIVVTPLGTRLCRPSEVVLDILQDAQKGAFTKEDGEKVVDEAGKRL NITIYHNPASGTSRNTLEMIRNSGTEPTIILYLENPPSRDELVKLIADMGISVRALLRKNVEPYEQLGLAEDKFTDDQLIDFMLQHPILINRPIVVTPLGTRLCRPSEVVLDILQDAQKGAFTKEDGEKVVDEAGKRL 1s3f-a1-m2-cB_1s3f-a1-m2-cC Purine 2'-deoxyribosyltransferase + selenoinosine Q8RLY5 Q8RLY5 2.2 X-RAY DIFFRACTION 65 1.0 1587 (Lactobacillus helveticus) 1587 (Lactobacillus helveticus) 167 167 1s2d-a1-m1-cA_1s2d-a1-m1-cB 1s2d-a1-m1-cA_1s2d-a1-m1-cC 1s2d-a1-m1-cB_1s2d-a1-m1-cC 1s2d-a1-m2-cA_1s2d-a1-m2-cB 1s2d-a1-m2-cA_1s2d-a1-m2-cC 1s2d-a1-m2-cB_1s2d-a1-m2-cC 1s2g-a1-m1-cA_1s2g-a1-m1-cB 1s2g-a1-m1-cA_1s2g-a1-m1-cC 1s2g-a1-m1-cB_1s2g-a1-m1-cC 1s2g-a1-m2-cA_1s2g-a1-m2-cB 1s2g-a1-m2-cA_1s2g-a1-m2-cC 1s2g-a1-m2-cB_1s2g-a1-m2-cC 1s2i-a1-m1-cA_1s2i-a1-m1-cB 1s2i-a1-m1-cA_1s2i-a1-m1-cC 1s2i-a1-m1-cB_1s2i-a1-m1-cC 1s2i-a1-m2-cA_1s2i-a1-m2-cB 1s2i-a1-m2-cA_1s2i-a1-m2-cC 1s2i-a1-m2-cB_1s2i-a1-m2-cC 1s2l-a1-m1-cA_1s2l-a1-m1-cB 1s2l-a1-m1-cC_1s2l-a1-m1-cA 1s2l-a1-m1-cC_1s2l-a1-m1-cB 1s2l-a1-m2-cA_1s2l-a1-m2-cB 1s2l-a1-m2-cC_1s2l-a1-m2-cA 1s2l-a1-m2-cC_1s2l-a1-m2-cB 1s3f-a1-m1-cA_1s3f-a1-m1-cB 1s3f-a1-m1-cA_1s3f-a1-m1-cC 1s3f-a1-m1-cB_1s3f-a1-m1-cC 1s3f-a1-m2-cA_1s3f-a1-m2-cB 1s3f-a1-m2-cA_1s3f-a1-m2-cC 4mej-a1-m1-cA_4mej-a1-m1-cB 4mej-a1-m1-cA_4mej-a1-m1-cC 4mej-a1-m1-cB_4mej-a1-m1-cC MKAVVPTGKIYLGSPFYSDAQRERAAKAKELLAKNPSIAHVFFPFDDGFTDPDEKNPEIGGIRSMVWRDATYQNDLTGISNATCGVFLYDMDQLDDGSAFEIGFMRAMHKPVILVPFTEHPEKEKKMNLMIAQGVTTIIDGNTEFEKLADYNFNECPSNPVRGYGIY MKAVVPTGKIYLGSPFYSDAQRERAAKAKELLAKNPSIAHVFFPFDDGFTDPDEKNPEIGGIRSMVWRDATYQNDLTGISNATCGVFLYDMDQLDDGSAFEIGFMRAMHKPVILVPFTEHPEKEKKMNLMIAQGVTTIIDGNTEFEKLADYNFNECPSNPVRGYGIY 1s3j-a1-m1-cB_1s3j-a1-m1-cA X-ray crystal structure of YusO protein from Bacillus subtilis O32181 O32181 2.25 X-RAY DIFFRACTION 96 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 134 136 KSADQLSDIQLSLQALFQKIQPELESEKQGVTPAQLFVLASLKKHGSLKVSEIAEREVKPSAVTLADRLEQKNLIARTHNTKDRRVIDLSLTDEGDIKFEEVLAGRKAIARYLSFLTEEELQAAHITAKLAQAA SADQLSDIQLSLQALFQKIQPELESEKQGVTPAQLFVLASLKKHGSLKVSEIAEREVKPSAVTLADRLEQKNLIARTHNTKDRRVIDLSLTDEGDIKFEEVLAGRKAIARYLSFLTEEELQAAHITAKLAQAAETD 1s3n-a5-m1-cB_1s3n-a5-m2-cB Structural and Functional Characterization of a Novel Archaeal Phosphodiesterase Q58346 Q58346 2.5 X-RAY DIFFRACTION 44 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 165 165 1s3n-a3-m1-cA_1s3n-a3-m2-cA 1s3n-a3-m1-cB_1s3n-a3-m2-cB 1s3n-a4-m1-cA_1s3n-a4-m2-cA 2ahd-a5-m1-cA_2ahd-a5-m2-cD 2ahd-a5-m1-cB_2ahd-a5-m2-cC MKIGIMSDTHDHLPNIRKAIEIFNDENVETVIHCGDFVSLFVIKEFENLNANIIATYGNNDGERCKLKEWLKDINEENIIDDFISVEIDDLKFFITHGHHQSVLEMAIKSGLYDVVIYGHTHERVFEEVDDVLVINPGECCGYLTGIPTIGILDTEKKEYREIVL MKIGIMSDTHDHLPNIRKAIEIFNDENVETVIHCGDFVSLFVIKEFENLNANIIATYGNNDGERCKLKEWLKDINEENIIDDFISVEIDDLKFFITHGHHQSVLEMAIKSGLYDVVIYGHTHERVFEEVDDVLVINPGECCGYLTGIPTIGILDTEKKEYREIVL 1s3q-a1-m1-cK_1s3q-a1-m2-cL Crystal structures of a novel open pore ferritin from the hyperthermophilic Archaeon Archaeoglobus fulgidus O29424 O29424 2.1 X-RAY DIFFRACTION 11 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 154 154 1s3q-a1-m1-cA_1s3q-a1-m1-cH 1s3q-a1-m1-cB_1s3q-a1-m1-cG 1s3q-a1-m1-cC_1s3q-a1-m2-cJ 1s3q-a1-m1-cD_1s3q-a1-m2-cI 1s3q-a1-m1-cE_1s3q-a1-m2-cF 1s3q-a1-m1-cF_1s3q-a1-m2-cE 1s3q-a1-m1-cI_1s3q-a1-m2-cD 1s3q-a1-m1-cL_1s3q-a1-m2-cK 1s3q-a1-m2-cA_1s3q-a1-m2-cH 1s3q-a1-m2-cB_1s3q-a1-m2-cG 1s3q-a1-m2-cC_1s3q-a1-m1-cJ 1sq3-a1-m1-cA_1sq3-a1-m1-cH 1sq3-a1-m1-cB_1sq3-a1-m1-cG 1sq3-a1-m1-cC_1sq3-a1-m2-cJ 1sq3-a1-m1-cD_1sq3-a1-m2-cI 1sq3-a1-m1-cE_1sq3-a1-m2-cF 1sq3-a1-m1-cF_1sq3-a1-m2-cE 1sq3-a1-m1-cI_1sq3-a1-m2-cD 1sq3-a1-m1-cJ_1sq3-a1-m2-cC 1sq3-a1-m1-cK_1sq3-a1-m2-cL 1sq3-a1-m1-cL_1sq3-a1-m2-cK 1sq3-a1-m2-cA_1sq3-a1-m2-cH 1sq3-a1-m2-cB_1sq3-a1-m2-cG SISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ SISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ 1s3q-a1-m2-cK_1s3q-a1-m2-cJ Crystal structures of a novel open pore ferritin from the hyperthermophilic Archaeon Archaeoglobus fulgidus O29424 O29424 2.1 X-RAY DIFFRACTION 21 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 154 155 1s3q-a1-m1-cA_1s3q-a1-m1-cD 1s3q-a1-m1-cA_1s3q-a1-m1-cE 1s3q-a1-m1-cD_1s3q-a1-m1-cE 1s3q-a1-m1-cG_1s3q-a1-m1-cJ 1s3q-a1-m1-cK_1s3q-a1-m1-cG 1s3q-a1-m1-cK_1s3q-a1-m1-cJ 1s3q-a1-m2-cA_1s3q-a1-m2-cD 1s3q-a1-m2-cA_1s3q-a1-m2-cE 1s3q-a1-m2-cD_1s3q-a1-m2-cE 1s3q-a1-m2-cG_1s3q-a1-m2-cJ 1s3q-a1-m2-cK_1s3q-a1-m2-cG 1sq3-a1-m1-cA_1sq3-a1-m1-cD 1sq3-a1-m1-cA_1sq3-a1-m1-cE 1sq3-a1-m1-cD_1sq3-a1-m1-cE 1sq3-a1-m1-cG_1sq3-a1-m1-cJ 1sq3-a1-m1-cG_1sq3-a1-m1-cK 1sq3-a1-m1-cJ_1sq3-a1-m1-cK 1sq3-a1-m2-cA_1sq3-a1-m2-cD 1sq3-a1-m2-cA_1sq3-a1-m2-cE 1sq3-a1-m2-cD_1sq3-a1-m2-cE 1sq3-a1-m2-cG_1sq3-a1-m2-cJ 1sq3-a1-m2-cG_1sq3-a1-m2-cK 1sq3-a1-m2-cJ_1sq3-a1-m2-cK SISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ ASISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ 1s3q-a1-m2-cK_1s3q-a1-m2-cL Crystal structures of a novel open pore ferritin from the hyperthermophilic Archaeon Archaeoglobus fulgidus O29424 O29424 2.1 X-RAY DIFFRACTION 47 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 154 154 1s3q-a1-m1-cA_1s3q-a1-m1-cB 1s3q-a1-m1-cC_1s3q-a1-m1-cD 1s3q-a1-m1-cE_1s3q-a1-m1-cF 1s3q-a1-m1-cH_1s3q-a1-m1-cG 1s3q-a1-m1-cI_1s3q-a1-m1-cJ 1s3q-a1-m1-cK_1s3q-a1-m1-cL 1s3q-a1-m2-cA_1s3q-a1-m2-cB 1s3q-a1-m2-cC_1s3q-a1-m2-cD 1s3q-a1-m2-cE_1s3q-a1-m2-cF 1s3q-a1-m2-cH_1s3q-a1-m2-cG 1s3q-a1-m2-cI_1s3q-a1-m2-cJ 1sq3-a1-m1-cA_1sq3-a1-m1-cB 1sq3-a1-m1-cC_1sq3-a1-m1-cD 1sq3-a1-m1-cE_1sq3-a1-m1-cF 1sq3-a1-m1-cG_1sq3-a1-m1-cH 1sq3-a1-m1-cI_1sq3-a1-m1-cJ 1sq3-a1-m1-cK_1sq3-a1-m1-cL 1sq3-a1-m2-cA_1sq3-a1-m2-cB 1sq3-a1-m2-cC_1sq3-a1-m2-cD 1sq3-a1-m2-cE_1sq3-a1-m2-cF 1sq3-a1-m2-cG_1sq3-a1-m2-cH 1sq3-a1-m2-cI_1sq3-a1-m2-cJ 1sq3-a1-m2-cK_1sq3-a1-m2-cL SISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ SISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ 1s3q-a1-m2-cL_1s3q-a1-m2-cG Crystal structures of a novel open pore ferritin from the hyperthermophilic Archaeon Archaeoglobus fulgidus O29424 O29424 2.1 X-RAY DIFFRACTION 23 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 154 155 1s3q-a1-m1-cA_1s3q-a1-m1-cF 1s3q-a1-m1-cB_1s3q-a1-m1-cD 1s3q-a1-m1-cC_1s3q-a1-m1-cE 1s3q-a1-m1-cH_1s3q-a1-m1-cJ 1s3q-a1-m1-cI_1s3q-a1-m1-cK 1s3q-a1-m1-cL_1s3q-a1-m1-cG 1s3q-a1-m2-cA_1s3q-a1-m2-cF 1s3q-a1-m2-cB_1s3q-a1-m2-cD 1s3q-a1-m2-cC_1s3q-a1-m2-cE 1s3q-a1-m2-cH_1s3q-a1-m2-cJ 1s3q-a1-m2-cI_1s3q-a1-m2-cK 1sq3-a1-m1-cA_1sq3-a1-m1-cF 1sq3-a1-m1-cB_1sq3-a1-m1-cD 1sq3-a1-m1-cC_1sq3-a1-m1-cE 1sq3-a1-m1-cG_1sq3-a1-m1-cL 1sq3-a1-m1-cH_1sq3-a1-m1-cJ 1sq3-a1-m1-cI_1sq3-a1-m1-cK 1sq3-a1-m2-cA_1sq3-a1-m2-cF 1sq3-a1-m2-cB_1sq3-a1-m2-cD 1sq3-a1-m2-cC_1sq3-a1-m2-cE 1sq3-a1-m2-cG_1sq3-a1-m2-cL 1sq3-a1-m2-cH_1sq3-a1-m2-cJ 1sq3-a1-m2-cI_1sq3-a1-m2-cK SISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ ASISEKVEALNRQINAEIYSAYLYLSASYFDSIGLKGFSNWRVQWQEELHAKFDFVSERGGRVKLYAVEEPPSEWDSPLAAFEHVYEHEVNVTKRIHELVEAQEKDFATYNFLQWYVAEQVEEEASALDIVEKLRLIGEDKRALLFLDKELSLRQ 1s3r-a4-m1-cA_1s3r-a4-m2-cB Crystal structure of the human-specific toxin intermedilysin Q9LCB8 Q9LCB8 2.6 X-RAY DIFFRACTION 27 1.0 1338 (Streptococcus intermedius) 1338 (Streptococcus intermedius) 473 473 1s3r-a4-m1-cB_1s3r-a4-m2-cA NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKGAKLKAGTEYENILKNTKITAVVLGGNPGEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKGAKLKAGTEYENILKNTKITAVVLGGNPGEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK 1s3r-a4-m1-cB_1s3r-a4-m2-cB Crystal structure of the human-specific toxin intermedilysin Q9LCB8 Q9LCB8 2.6 X-RAY DIFFRACTION 20 1.0 1338 (Streptococcus intermedius) 1338 (Streptococcus intermedius) 473 473 NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKGAKLKAGTEYENILKNTKITAVVLGGNPGEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKGAKLKAGTEYENILKNTKITAVVLGGNPGEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK 1s3r-a4-m2-cA_1s3r-a4-m2-cB Crystal structure of the human-specific toxin intermedilysin Q9LCB8 Q9LCB8 2.6 X-RAY DIFFRACTION 45 1.0 1338 (Streptococcus intermedius) 1338 (Streptococcus intermedius) 473 473 1s3r-a3-m1-cA_1s3r-a3-m1-cB 1s3r-a4-m1-cA_1s3r-a4-m1-cB NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKGAKLKAGTEYENILKNTKITAVVLGGNPGEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKGAKLKAGTEYENILKNTKITAVVLGGNPGEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK 1s49-a2-m1-cA_1s49-a2-m2-cA Crystal Structure of RNA-dependent RNA polymerase construct 1 (residues 71-679) from bovine viral diarrhea virus complexed with GTP P19711 P19711 3 X-RAY DIFFRACTION 173 1.0 11099 (Bovine viral diarrhea virus 1) 11099 (Bovine viral diarrhea virus 1) 576 576 1s48-a2-m1-cA_1s48-a2-m2-cA 1s4f-a5-m1-cA_1s4f-a5-m1-cB 1s4f-a6-m1-cD_1s4f-a6-m1-cC VIREHNKWILKKIRFQGNLNTKKLNPGKLSEQLDREGRKRNIYNHQIGTISSAGIRLEKLPIVRAQTDTKTFHEAIRDKIDKSENRQNPELHNKLLEIFHTIAQPTLKHTYGEVTWEQLEAGVNRKGAAGFLEKKNIGEVLDSEKHLVEQLVRDLKAGRKIKYYETAIPKNEKRDVSDDWQAGDLVVEKRPRVIQYPEAKTRLAITKVYNWVKQQPVVIPGYEGKTPLFNIFDKVRKEWDSFNEPVAVSFDTKAWDTQVTSKDLQLIGEIQKYYYKKEWHKFIDTITDHTEVPVITADGEVYIRNGQRGSGQPDTSAGNSLNVLTYAFCESTGVPYKSFNRVARIHVCGDDGFLITEKGLGLKFANKGQILHEAGKPQKITEGEKKVAYRFEDIEFCSHTPVPVRWSDNTSSHAGRDTAVILSKATRLDSSGERGTTAYEKAVAFSFLLYSWNPLVRRICLLVLSQQPETDPSKHATYYYKGDPIGAYKDVIGRNLSELKRTGFEKLANLNLSLSTLGVWTKHTSKRIIQDCVAIGKEEGNWLVKPDRLISSKTGHLYIPDKGFTLQGKHYEQLQL VIREHNKWILKKIRFQGNLNTKKLNPGKLSEQLDREGRKRNIYNHQIGTISSAGIRLEKLPIVRAQTDTKTFHEAIRDKIDKSENRQNPELHNKLLEIFHTIAQPTLKHTYGEVTWEQLEAGVNRKGAAGFLEKKNIGEVLDSEKHLVEQLVRDLKAGRKIKYYETAIPKNEKRDVSDDWQAGDLVVEKRPRVIQYPEAKTRLAITKVYNWVKQQPVVIPGYEGKTPLFNIFDKVRKEWDSFNEPVAVSFDTKAWDTQVTSKDLQLIGEIQKYYYKKEWHKFIDTITDHTEVPVITADGEVYIRNGQRGSGQPDTSAGNSLNVLTYAFCESTGVPYKSFNRVARIHVCGDDGFLITEKGLGLKFANKGQILHEAGKPQKITEGEKKVAYRFEDIEFCSHTPVPVRWSDNTSSHAGRDTAVILSKATRLDSSGERGTTAYEKAVAFSFLLYSWNPLVRRICLLVLSQQPETDPSKHATYYYKGDPIGAYKDVIGRNLSELKRTGFEKLANLNLSLSTLGVWTKHTSKRIIQDCVAIGKEEGNWLVKPDRLISSKTGHLYIPDKGFTLQGKHYEQLQL 1s4c-a2-m1-cC_1s4c-a2-m1-cB YHCH PROTEIN (HI0227) COPPER COMPLEX P44583 P44583 2.2 X-RAY DIFFRACTION 81 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 147 155 1jop-a1-m1-cA_1jop-a1-m1-cD 1jop-a2-m1-cB_1jop-a2-m1-cC 1s4c-a1-m1-cD_1s4c-a1-m1-cA MIISSLTNPNFKVGLPKVIAEVCDYLNTLDLNALENGRHDINDQIYMNVMEPKAELHHEYLDVQVLIRGTENIEVGATYPNLSKYEDYNEADDYQLCADIDDKFTVTMKPKMFAVFYPYEPHKPCCVVNGKTEKIKKLVVKVPVKLI MIISSLTNPNFKVGLPKVIAEVCDYLNTLDLNALENGRHDINDQIYMNVMEPETAEPSSKKAELHHEYLDVQVLIRGTENIEVGATYPNLSKYEDYNEADDYQLCADIDDKFTVTMKPKMFAVFYPYEPHKPCCVVNGKTEKIKKLVVKVPVKLI 1s4d-a4-m1-cH_1s4d-a4-m1-cI Crystal Structure Analysis of the S-adenosyl-L-methionine dependent uroporphyrinogen-III C-methyltransferase SUMT P21631 P21631 2.7 X-RAY DIFFRACTION 222 0.988 43306 (Pseudomonas denitrificans (nom. rej.)) 43306 (Pseudomonas denitrificans (nom. rej.)) 259 263 1s4d-a1-m1-cA_1s4d-a1-m1-cB 1s4d-a2-m1-cD_1s4d-a2-m1-cE 1s4d-a3-m1-cF_1s4d-a3-m1-cG 1s4d-a5-m1-cJ_1s4d-a5-m1-cK FAGLPALEKGSVWLVGAGPGDPGLLTLHAANALRQADVIVHDALVNEDCLKLARPGAVLEFAGKRGGKPSPKQRDISLRLVELARAGNRVLRLKGGDPFVFGRGGEEALTLVEHQVPFRIVPGITAGIGGLAYAGIPVTHREVNHAVTFLTGHDRINWQGIASGSPVIVMYMAMKHIGAITANLIAGGRSPDEPVAFVCNAATPQQAVLETTLARAEADVAAAGLEPPAIVVVGEVVRLRAALDWIGALDGRKLAADPF DLFAGLPALEKGSVWLVGAGPGDPGLLTLHAANALRQADVIVHDALVNEDCLKLARPGAVLEFAGKRGGPSPKQRDISLRLVELARAGNRVLRLKGGDPFVFGRGGEEALTLVEHQVPFRIVPGITAGIGGLAYAGIPVTHREVNHAVTFLTGHDSSVPDRINWQGIASGSPVIVMYMAMKHIGAITANLIAGGRSPDEPVAFVCNAATPQQAVLETTLARAEADVAAAGLEPPAIVVVGEVVRLRAALDWIGALDGRKLAAD 1s4k-a1-m1-cA_1s4k-a1-m1-cB Putative cytoplasmic protein from Salmonella typhimurium Q8ZPR1 Q8ZPR1 1.9 X-RAY DIFFRACTION 73 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 115 115 ANALELQALRRIFDTIEECTIYITQDNNSATWQRWEAGDIPISPEIIARLKEKARRQRRINAIVDKINNRIGNNTRYFPDLSSFQSIYTEGDFIEWKIYQSVAAELFAHDLERLC ANALELQALRRIFDTIEECTIYITQDNNSATWQRWEAGDIPISPEIIARLKEKARRQRRINAIVDKINNRIGNNTRYFPDLSSFQSIYTEGDFIEWKIYQSVAAELFAHDLERLC 1s4p-a1-m1-cA_1s4p-a1-m1-cB Crystal structure of yeast alpha1,2-mannosyltransferase Kre2p/Mnt1p: ternary complex with GDP/Mn and methyl-alpha-mannoside acceptor P27809 P27809 2.01 X-RAY DIFFRACTION 80 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 335 335 1s4n-a1-m1-cB_1s4n-a1-m1-cA 1s4o-a1-m1-cA_1s4o-a1-m1-cB KTTMDYITPSFGKPKACYVTLVRNKELKGLLSSIKYVENKINKKFPYPWVFLNDEPFTEEFKEAVTKAVSSEVKFGILPKEHWSYPEWINQTKAAEIRADAATKYIYGGSESYRHMCRYQSGFFWRHELLEEYDWYWRVEPDIKLYCDINYDVFKWMQENEKVYGFTVSIHEYEVTIPTLWQTSMDFIKKNPEYLDENNLMSFLSNDNGKTYNLCHFWSNFEIANLNLWRSPAYREYFDTLDHQGGFFYERWGDAPVHSIAAALFLPKDKIHYFSDIGYHHPPYDNCPLDKEVYNSNNCECDQGNDFTFQGYSCGKEYYDAQGLVKPKNWKKFRE TKTTMDYITPSFKPKACYVTLVRNKELKGLLSSIKYVENKINKKFPYPWVFLNDEPFTEEFKEAVTKAVSSEVKFGILPKEHWSYPEWINQTKAAEIRADAATKYIYGGSESYRHMCRYQSGFFWRHELLEEYDWYWRVEPDIKLYCDINYDVFKWMQENEKVYGFTVSIHEYEVTIPTLWQTSMDFIKKNPEYLDENNLMSFLSNDNGKTYNLCHFWSNFEIANLNLWRSPAYREYFDTLDHQGGFFYERWGDAPVHSIAAALFLPKDKIHYFSDIGYHHPPYDNCPLDKEVYNSNNCECDQGNDFTFQGYSCGKEYYDAQGLVKPKNWKKFRE 1s4v-a2-m1-cD_1s4v-a2-m1-cB The 2.0 A crystal structure of the KDEL-tailed cysteine endopeptidase functioning in programmed cell death of Ricinus communis endosperm O65039 2 X-RAY DIFFRACTION 22 1.0 3988 (Ricinus communis) 3988 (Ricinus communis) 2 226 1s4v-a1-m1-cC_1s4v-a1-m1-cA LK TVPASVDWRKKGAVTSVKDQGQCGSCWAFSTIVAVEGINQIKTNKLVSLSEQELVDCDTDQNQGCNGGLMDYAFEFIKQRGGITTEANYPYEAYDGTCDVSKENAPAVSIDGHENVPENDENALLKAVANQPVSVAIDAGGSDFQFYSEGVFTGSCGTELDHGVAIVGYGTTIDGTKYWTVKNSWGPEWGEKGYIRMERGISDKEGLCGIAMEASYPIKKSSNNPS 1s57-a1-m1-cC_1s57-a1-m1-cE crystal structure of nucleoside diphosphate kinase 2 from Arabidopsis O64903 O64903 1.8 X-RAY DIFFRACTION 73 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 149 149 1s57-a1-m1-cA_1s57-a1-m1-cD 1s57-a1-m1-cB_1s57-a1-m1-cF 1s59-a1-m1-cA_1s59-a1-m1-cD 1s59-a1-m1-cB_1s59-a1-m1-cF 1s59-a1-m1-cC_1s59-a1-m1-cE VEETYIMVKPDGIQRGLVGEIISRFEKKGFKLIGLKMFQCPKELAEEHYKDLSAKSFFPNLIEYITSGPVVCMAWEGVGVVASARKLIGKTDPLQAEPGTIRGDLAVQTGRNIVHGSDSPENGKREIGLWFKEGELCKWDSALATWLRE VEETYIMVKPDGIQRGLVGEIISRFEKKGFKLIGLKMFQCPKELAEEHYKDLSAKSFFPNLIEYITSGPVVCMAWEGVGVVASARKLIGKTDPLQAEPGTIRGDLAVQTGRNIVHGSDSPENGKREIGLWFKEGELCKWDSALATWLRE 1s57-a2-m1-cB_1s57-a2-m1-cC crystal structure of nucleoside diphosphate kinase 2 from Arabidopsis O64903 O64903 1.8 X-RAY DIFFRACTION 57 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 149 149 1s57-a1-m1-cB_1s57-a1-m1-cA 1s57-a1-m1-cB_1s57-a1-m1-cC 1s57-a1-m1-cC_1s57-a1-m1-cA 1s57-a1-m1-cD_1s57-a1-m1-cF 1s57-a1-m1-cE_1s57-a1-m1-cD 1s57-a1-m1-cE_1s57-a1-m1-cF 1s57-a2-m1-cB_1s57-a2-m1-cA 1s57-a2-m1-cC_1s57-a2-m1-cA 1s57-a2-m2-cD_1s57-a2-m2-cF 1s57-a2-m2-cE_1s57-a2-m2-cD 1s57-a2-m2-cE_1s57-a2-m2-cF 1s59-a1-m1-cB_1s59-a1-m1-cA 1s59-a1-m1-cB_1s59-a1-m1-cC 1s59-a1-m1-cC_1s59-a1-m1-cA 1s59-a1-m1-cD_1s59-a1-m1-cF 1s59-a1-m1-cE_1s59-a1-m1-cD 1s59-a1-m1-cE_1s59-a1-m1-cF VEETYIMVKPDGIQRGLVGEIISRFEKKGFKLIGLKMFQCPKELAEEHYKDLSAKSFFPNLIEYITSGPVVCMAWEGVGVVASARKLIGKTDPLQAEPGTIRGDLAVQTGRNIVHGSDSPENGKREIGLWFKEGELCKWDSALATWLRE VEETYIMVKPDGIQRGLVGEIISRFEKKGFKLIGLKMFQCPKELAEEHYKDLSAKSFFPNLIEYITSGPVVCMAWEGVGVVASARKLIGKTDPLQAEPGTIRGDLAVQTGRNIVHGSDSPENGKREIGLWFKEGELCKWDSALATWLRE 1s57-a2-m2-cE_1s57-a2-m1-cA crystal structure of nucleoside diphosphate kinase 2 from Arabidopsis O64903 O64903 1.8 X-RAY DIFFRACTION 16 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 149 153 1s57-a2-m1-cB_1s57-a2-m2-cD VEETYIMVKPDGIQRGLVGEIISRFEKKGFKLIGLKMFQCPKELAEEHYKDLSAKSFFPNLIEYITSGPVVCMAWEGVGVVASARKLIGKTDPLQAEPGTIRGDLAVQTGRNIVHGSDSPENGKREIGLWFKEGELCKWDSALATWLRE SMEDVEETYIMVKPDGIQRGLVGEIISRFEKKGFKLIGLKMFQCPKELAEEHYKDLSAKSFFPNLIEYITSGPVVCMAWEGVGVVASARKLIGKTDPLQAEPGTIRGDLAVQTGRNIVHGSDSPENGKREIGLWFKEGELCKWDSALATWLRE 1s58-a1-m54-cA_1s58-a1-m9-cA The structure of B19 parvovirus capsid Q9PZT0 Q9PZT0 3.5 X-RAY DIFFRACTION 357 1.0 10798 (Human parvovirus B19) 10798 (Human parvovirus B19) 523 523 1s58-a1-m10-cA_1s58-a1-m23-cA 1s58-a1-m11-cA_1s58-a1-m20-cA 1s58-a1-m11-cA_1s58-a1-m38-cA 1s58-a1-m12-cA_1s58-a1-m37-cA 1s58-a1-m12-cA_1s58-a1-m47-cA 1s58-a1-m13-cA_1s58-a1-m45-cA 1s58-a1-m13-cA_1s58-a1-m46-cA 1s58-a1-m14-cA_1s58-a1-m29-cA 1s58-a1-m14-cA_1s58-a1-m44-cA 1s58-a1-m15-cA_1s58-a1-m16-cA 1s58-a1-m15-cA_1s58-a1-m28-cA 1s58-a1-m16-cA_1s58-a1-m28-cA 1s58-a1-m17-cA_1s58-a1-m27-cA 1s58-a1-m17-cA_1s58-a1-m52-cA 1s58-a1-m18-cA_1s58-a1-m51-cA 1s58-a1-m18-cA_1s58-a1-m60-cA 1s58-a1-m19-cA_1s58-a1-m39-cA 1s58-a1-m19-cA_1s58-a1-m59-cA 1s58-a1-m1-cA_1s58-a1-m10-cA 1s58-a1-m1-cA_1s58-a1-m23-cA 1s58-a1-m20-cA_1s58-a1-m38-cA 1s58-a1-m21-cA_1s58-a1-m30-cA 1s58-a1-m21-cA_1s58-a1-m43-cA 1s58-a1-m22-cA_1s58-a1-m42-cA 1s58-a1-m24-cA_1s58-a1-m54-cA 1s58-a1-m24-cA_1s58-a1-m9-cA 1s58-a1-m25-cA_1s58-a1-m26-cA 1s58-a1-m25-cA_1s58-a1-m53-cA 1s58-a1-m26-cA_1s58-a1-m53-cA 1s58-a1-m27-cA_1s58-a1-m52-cA 1s58-a1-m29-cA_1s58-a1-m44-cA 1s58-a1-m2-cA_1s58-a1-m22-cA 1s58-a1-m2-cA_1s58-a1-m42-cA 1s58-a1-m30-cA_1s58-a1-m43-cA 1s58-a1-m31-cA_1s58-a1-m40-cA 1s58-a1-m31-cA_1s58-a1-m58-cA 1s58-a1-m32-cA_1s58-a1-m57-cA 1s58-a1-m32-cA_1s58-a1-m7-cA 1s58-a1-m33-cA_1s58-a1-m5-cA 1s58-a1-m33-cA_1s58-a1-m6-cA 1s58-a1-m34-cA_1s58-a1-m49-cA 1s58-a1-m34-cA_1s58-a1-m4-cA 1s58-a1-m35-cA_1s58-a1-m36-cA 1s58-a1-m35-cA_1s58-a1-m48-cA 1s58-a1-m36-cA_1s58-a1-m48-cA 1s58-a1-m37-cA_1s58-a1-m47-cA 1s58-a1-m39-cA_1s58-a1-m59-cA 1s58-a1-m3-cA_1s58-a1-m41-cA 1s58-a1-m3-cA_1s58-a1-m50-cA 1s58-a1-m40-cA_1s58-a1-m58-cA 1s58-a1-m41-cA_1s58-a1-m50-cA 1s58-a1-m45-cA_1s58-a1-m46-cA 1s58-a1-m4-cA_1s58-a1-m49-cA 1s58-a1-m51-cA_1s58-a1-m60-cA 1s58-a1-m55-cA_1s58-a1-m56-cA 1s58-a1-m55-cA_1s58-a1-m8-cA 1s58-a1-m56-cA_1s58-a1-m8-cA 1s58-a1-m57-cA_1s58-a1-m7-cA 1s58-a1-m5-cA_1s58-a1-m6-cA 6nn3-a1-m10-cA_6nn3-a1-m23-cA 6nn3-a1-m11-cA_6nn3-a1-m20-cA 6nn3-a1-m11-cA_6nn3-a1-m38-cA 6nn3-a1-m12-cA_6nn3-a1-m37-cA 6nn3-a1-m12-cA_6nn3-a1-m47-cA 6nn3-a1-m13-cA_6nn3-a1-m45-cA 6nn3-a1-m13-cA_6nn3-a1-m46-cA 6nn3-a1-m14-cA_6nn3-a1-m29-cA 6nn3-a1-m14-cA_6nn3-a1-m44-cA 6nn3-a1-m15-cA_6nn3-a1-m16-cA 6nn3-a1-m15-cA_6nn3-a1-m28-cA 6nn3-a1-m16-cA_6nn3-a1-m28-cA 6nn3-a1-m17-cA_6nn3-a1-m27-cA 6nn3-a1-m17-cA_6nn3-a1-m52-cA 6nn3-a1-m18-cA_6nn3-a1-m51-cA 6nn3-a1-m18-cA_6nn3-a1-m60-cA 6nn3-a1-m19-cA_6nn3-a1-m39-cA 6nn3-a1-m19-cA_6nn3-a1-m59-cA 6nn3-a1-m1-cA_6nn3-a1-m10-cA 6nn3-a1-m1-cA_6nn3-a1-m23-cA 6nn3-a1-m20-cA_6nn3-a1-m38-cA 6nn3-a1-m21-cA_6nn3-a1-m30-cA 6nn3-a1-m21-cA_6nn3-a1-m43-cA 6nn3-a1-m22-cA_6nn3-a1-m42-cA 6nn3-a1-m24-cA_6nn3-a1-m54-cA 6nn3-a1-m24-cA_6nn3-a1-m9-cA 6nn3-a1-m25-cA_6nn3-a1-m26-cA 6nn3-a1-m25-cA_6nn3-a1-m53-cA 6nn3-a1-m26-cA_6nn3-a1-m53-cA 6nn3-a1-m27-cA_6nn3-a1-m52-cA 6nn3-a1-m29-cA_6nn3-a1-m44-cA 6nn3-a1-m2-cA_6nn3-a1-m22-cA 6nn3-a1-m2-cA_6nn3-a1-m42-cA 6nn3-a1-m30-cA_6nn3-a1-m43-cA 6nn3-a1-m31-cA_6nn3-a1-m40-cA 6nn3-a1-m31-cA_6nn3-a1-m58-cA 6nn3-a1-m32-cA_6nn3-a1-m57-cA 6nn3-a1-m32-cA_6nn3-a1-m7-cA 6nn3-a1-m33-cA_6nn3-a1-m5-cA 6nn3-a1-m33-cA_6nn3-a1-m6-cA 6nn3-a1-m34-cA_6nn3-a1-m49-cA 6nn3-a1-m34-cA_6nn3-a1-m4-cA 6nn3-a1-m35-cA_6nn3-a1-m36-cA 6nn3-a1-m35-cA_6nn3-a1-m48-cA 6nn3-a1-m36-cA_6nn3-a1-m48-cA 6nn3-a1-m37-cA_6nn3-a1-m47-cA 6nn3-a1-m39-cA_6nn3-a1-m59-cA 6nn3-a1-m3-cA_6nn3-a1-m41-cA 6nn3-a1-m3-cA_6nn3-a1-m50-cA 6nn3-a1-m40-cA_6nn3-a1-m58-cA 6nn3-a1-m41-cA_6nn3-a1-m50-cA 6nn3-a1-m45-cA_6nn3-a1-m46-cA 6nn3-a1-m4-cA_6nn3-a1-m49-cA 6nn3-a1-m51-cA_6nn3-a1-m60-cA 6nn3-a1-m54-cA_6nn3-a1-m9-cA 6nn3-a1-m55-cA_6nn3-a1-m56-cA 6nn3-a1-m55-cA_6nn3-a1-m8-cA 6nn3-a1-m56-cA_6nn3-a1-m8-cA 6nn3-a1-m57-cA_6nn3-a1-m7-cA 6nn3-a1-m5-cA_6nn3-a1-m6-cA NPVKSMWSEGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTITPIMGYSTPWRYLDFNALNLFFSPLEFQHLIENYGSIAPDALTVTISEIAVKDVTDKTGGGVQVTDSATGRLCMLVDHEYKYPYVLGQGQDTLAPELPIWVYFPPQYAYLTVGDVNTQGISGDSKKLASEESAFYVLEHSSFQLLGTGGTATMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKTGLSTGTSQNTRISLRPGPVSQPYHHWDTDKYVTGINAISHGQTTYGNAEDKEYQQGVGRFPNEKEQLKQLQGLNMHTYFPNKGTQQYTDQIERPLMVGSVWNRRALHYESQLWSKIPNLDDSFKTQFAALGGWGLHQPPPQIFLKILPQSGPIGGIKSMGITTLVQYAVGIMTVTMTFKLGPRKATGRWNPQPGVYPPHAAGHLPYVLYDPTATDAKQHHRHGYEKPEELWTAKSRVHPL NPVKSMWSEGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTITPIMGYSTPWRYLDFNALNLFFSPLEFQHLIENYGSIAPDALTVTISEIAVKDVTDKTGGGVQVTDSATGRLCMLVDHEYKYPYVLGQGQDTLAPELPIWVYFPPQYAYLTVGDVNTQGISGDSKKLASEESAFYVLEHSSFQLLGTGGTATMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKTGLSTGTSQNTRISLRPGPVSQPYHHWDTDKYVTGINAISHGQTTYGNAEDKEYQQGVGRFPNEKEQLKQLQGLNMHTYFPNKGTQQYTDQIERPLMVGSVWNRRALHYESQLWSKIPNLDDSFKTQFAALGGWGLHQPPPQIFLKILPQSGPIGGIKSMGITTLVQYAVGIMTVTMTFKLGPRKATGRWNPQPGVYPPHAAGHLPYVLYDPTATDAKQHHRHGYEKPEELWTAKSRVHPL 1s58-a1-m55-cA_1s58-a1-m9-cA The structure of B19 parvovirus capsid Q9PZT0 Q9PZT0 3.5 X-RAY DIFFRACTION 62 1.0 10798 (Human parvovirus B19) 10798 (Human parvovirus B19) 523 523 1s58-a1-m10-cA_1s58-a1-m24-cA 1s58-a1-m11-cA_1s58-a1-m16-cA 1s58-a1-m12-cA_1s58-a1-m38-cA 1s58-a1-m13-cA_1s58-a1-m47-cA 1s58-a1-m14-cA_1s58-a1-m45-cA 1s58-a1-m15-cA_1s58-a1-m29-cA 1s58-a1-m17-cA_1s58-a1-m28-cA 1s58-a1-m18-cA_1s58-a1-m52-cA 1s58-a1-m19-cA_1s58-a1-m60-cA 1s58-a1-m1-cA_1s58-a1-m6-cA 1s58-a1-m20-cA_1s58-a1-m39-cA 1s58-a1-m21-cA_1s58-a1-m26-cA 1s58-a1-m22-cA_1s58-a1-m43-cA 1s58-a1-m25-cA_1s58-a1-m54-cA 1s58-a1-m27-cA_1s58-a1-m53-cA 1s58-a1-m2-cA_1s58-a1-m23-cA 1s58-a1-m30-cA_1s58-a1-m44-cA 1s58-a1-m31-cA_1s58-a1-m36-cA 1s58-a1-m32-cA_1s58-a1-m58-cA 1s58-a1-m33-cA_1s58-a1-m7-cA 1s58-a1-m34-cA_1s58-a1-m5-cA 1s58-a1-m35-cA_1s58-a1-m49-cA 1s58-a1-m37-cA_1s58-a1-m48-cA 1s58-a1-m3-cA_1s58-a1-m42-cA 1s58-a1-m40-cA_1s58-a1-m59-cA 1s58-a1-m41-cA_1s58-a1-m46-cA 1s58-a1-m4-cA_1s58-a1-m50-cA 1s58-a1-m51-cA_1s58-a1-m56-cA 1s58-a1-m57-cA_1s58-a1-m8-cA 6nn3-a1-m10-cA_6nn3-a1-m24-cA 6nn3-a1-m11-cA_6nn3-a1-m16-cA 6nn3-a1-m12-cA_6nn3-a1-m38-cA 6nn3-a1-m13-cA_6nn3-a1-m47-cA 6nn3-a1-m14-cA_6nn3-a1-m45-cA 6nn3-a1-m15-cA_6nn3-a1-m29-cA 6nn3-a1-m17-cA_6nn3-a1-m28-cA 6nn3-a1-m18-cA_6nn3-a1-m52-cA 6nn3-a1-m19-cA_6nn3-a1-m60-cA 6nn3-a1-m1-cA_6nn3-a1-m6-cA 6nn3-a1-m20-cA_6nn3-a1-m39-cA 6nn3-a1-m21-cA_6nn3-a1-m26-cA 6nn3-a1-m22-cA_6nn3-a1-m43-cA 6nn3-a1-m25-cA_6nn3-a1-m54-cA 6nn3-a1-m27-cA_6nn3-a1-m53-cA 6nn3-a1-m2-cA_6nn3-a1-m23-cA 6nn3-a1-m30-cA_6nn3-a1-m44-cA 6nn3-a1-m31-cA_6nn3-a1-m36-cA 6nn3-a1-m32-cA_6nn3-a1-m58-cA 6nn3-a1-m33-cA_6nn3-a1-m7-cA 6nn3-a1-m34-cA_6nn3-a1-m5-cA 6nn3-a1-m35-cA_6nn3-a1-m49-cA 6nn3-a1-m37-cA_6nn3-a1-m48-cA 6nn3-a1-m3-cA_6nn3-a1-m42-cA 6nn3-a1-m40-cA_6nn3-a1-m59-cA 6nn3-a1-m41-cA_6nn3-a1-m46-cA 6nn3-a1-m4-cA_6nn3-a1-m50-cA 6nn3-a1-m51-cA_6nn3-a1-m56-cA 6nn3-a1-m55-cA_6nn3-a1-m9-cA 6nn3-a1-m57-cA_6nn3-a1-m8-cA NPVKSMWSEGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTITPIMGYSTPWRYLDFNALNLFFSPLEFQHLIENYGSIAPDALTVTISEIAVKDVTDKTGGGVQVTDSATGRLCMLVDHEYKYPYVLGQGQDTLAPELPIWVYFPPQYAYLTVGDVNTQGISGDSKKLASEESAFYVLEHSSFQLLGTGGTATMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKTGLSTGTSQNTRISLRPGPVSQPYHHWDTDKYVTGINAISHGQTTYGNAEDKEYQQGVGRFPNEKEQLKQLQGLNMHTYFPNKGTQQYTDQIERPLMVGSVWNRRALHYESQLWSKIPNLDDSFKTQFAALGGWGLHQPPPQIFLKILPQSGPIGGIKSMGITTLVQYAVGIMTVTMTFKLGPRKATGRWNPQPGVYPPHAAGHLPYVLYDPTATDAKQHHRHGYEKPEELWTAKSRVHPL NPVKSMWSEGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTITPIMGYSTPWRYLDFNALNLFFSPLEFQHLIENYGSIAPDALTVTISEIAVKDVTDKTGGGVQVTDSATGRLCMLVDHEYKYPYVLGQGQDTLAPELPIWVYFPPQYAYLTVGDVNTQGISGDSKKLASEESAFYVLEHSSFQLLGTGGTATMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKTGLSTGTSQNTRISLRPGPVSQPYHHWDTDKYVTGINAISHGQTTYGNAEDKEYQQGVGRFPNEKEQLKQLQGLNMHTYFPNKGTQQYTDQIERPLMVGSVWNRRALHYESQLWSKIPNLDDSFKTQFAALGGWGLHQPPPQIFLKILPQSGPIGGIKSMGITTLVQYAVGIMTVTMTFKLGPRKATGRWNPQPGVYPPHAAGHLPYVLYDPTATDAKQHHRHGYEKPEELWTAKSRVHPL 1s58-a1-m8-cA_1s58-a1-m9-cA The structure of B19 parvovirus capsid Q9PZT0 Q9PZT0 3.5 X-RAY DIFFRACTION 144 1.0 10798 (Human parvovirus B19) 10798 (Human parvovirus B19) 523 523 1s58-a1-m10-cA_1s58-a1-m6-cA 1s58-a1-m10-cA_1s58-a1-m9-cA 1s58-a1-m11-cA_1s58-a1-m12-cA 1s58-a1-m11-cA_1s58-a1-m15-cA 1s58-a1-m12-cA_1s58-a1-m13-cA 1s58-a1-m13-cA_1s58-a1-m14-cA 1s58-a1-m14-cA_1s58-a1-m15-cA 1s58-a1-m16-cA_1s58-a1-m17-cA 1s58-a1-m16-cA_1s58-a1-m20-cA 1s58-a1-m17-cA_1s58-a1-m18-cA 1s58-a1-m18-cA_1s58-a1-m19-cA 1s58-a1-m19-cA_1s58-a1-m20-cA 1s58-a1-m1-cA_1s58-a1-m2-cA 1s58-a1-m1-cA_1s58-a1-m5-cA 1s58-a1-m21-cA_1s58-a1-m22-cA 1s58-a1-m21-cA_1s58-a1-m25-cA 1s58-a1-m22-cA_1s58-a1-m23-cA 1s58-a1-m23-cA_1s58-a1-m24-cA 1s58-a1-m24-cA_1s58-a1-m25-cA 1s58-a1-m26-cA_1s58-a1-m27-cA 1s58-a1-m26-cA_1s58-a1-m30-cA 1s58-a1-m27-cA_1s58-a1-m28-cA 1s58-a1-m28-cA_1s58-a1-m29-cA 1s58-a1-m29-cA_1s58-a1-m30-cA 1s58-a1-m2-cA_1s58-a1-m3-cA 1s58-a1-m31-cA_1s58-a1-m32-cA 1s58-a1-m31-cA_1s58-a1-m35-cA 1s58-a1-m32-cA_1s58-a1-m33-cA 1s58-a1-m33-cA_1s58-a1-m34-cA 1s58-a1-m34-cA_1s58-a1-m35-cA 1s58-a1-m36-cA_1s58-a1-m37-cA 1s58-a1-m36-cA_1s58-a1-m40-cA 1s58-a1-m37-cA_1s58-a1-m38-cA 1s58-a1-m38-cA_1s58-a1-m39-cA 1s58-a1-m39-cA_1s58-a1-m40-cA 1s58-a1-m3-cA_1s58-a1-m4-cA 1s58-a1-m41-cA_1s58-a1-m42-cA 1s58-a1-m41-cA_1s58-a1-m45-cA 1s58-a1-m42-cA_1s58-a1-m43-cA 1s58-a1-m43-cA_1s58-a1-m44-cA 1s58-a1-m44-cA_1s58-a1-m45-cA 1s58-a1-m46-cA_1s58-a1-m47-cA 1s58-a1-m46-cA_1s58-a1-m50-cA 1s58-a1-m47-cA_1s58-a1-m48-cA 1s58-a1-m48-cA_1s58-a1-m49-cA 1s58-a1-m49-cA_1s58-a1-m50-cA 1s58-a1-m4-cA_1s58-a1-m5-cA 1s58-a1-m51-cA_1s58-a1-m52-cA 1s58-a1-m51-cA_1s58-a1-m55-cA 1s58-a1-m52-cA_1s58-a1-m53-cA 1s58-a1-m53-cA_1s58-a1-m54-cA 1s58-a1-m54-cA_1s58-a1-m55-cA 1s58-a1-m56-cA_1s58-a1-m57-cA 1s58-a1-m56-cA_1s58-a1-m60-cA 1s58-a1-m57-cA_1s58-a1-m58-cA 1s58-a1-m58-cA_1s58-a1-m59-cA 1s58-a1-m59-cA_1s58-a1-m60-cA 1s58-a1-m6-cA_1s58-a1-m7-cA 1s58-a1-m7-cA_1s58-a1-m8-cA 6nn3-a1-m10-cA_6nn3-a1-m6-cA 6nn3-a1-m10-cA_6nn3-a1-m9-cA 6nn3-a1-m11-cA_6nn3-a1-m12-cA 6nn3-a1-m11-cA_6nn3-a1-m15-cA 6nn3-a1-m12-cA_6nn3-a1-m13-cA 6nn3-a1-m13-cA_6nn3-a1-m14-cA 6nn3-a1-m14-cA_6nn3-a1-m15-cA 6nn3-a1-m16-cA_6nn3-a1-m17-cA 6nn3-a1-m16-cA_6nn3-a1-m20-cA 6nn3-a1-m17-cA_6nn3-a1-m18-cA 6nn3-a1-m18-cA_6nn3-a1-m19-cA 6nn3-a1-m19-cA_6nn3-a1-m20-cA 6nn3-a1-m1-cA_6nn3-a1-m2-cA 6nn3-a1-m1-cA_6nn3-a1-m5-cA 6nn3-a1-m21-cA_6nn3-a1-m22-cA 6nn3-a1-m21-cA_6nn3-a1-m25-cA 6nn3-a1-m22-cA_6nn3-a1-m23-cA 6nn3-a1-m23-cA_6nn3-a1-m24-cA 6nn3-a1-m24-cA_6nn3-a1-m25-cA 6nn3-a1-m26-cA_6nn3-a1-m27-cA 6nn3-a1-m26-cA_6nn3-a1-m30-cA 6nn3-a1-m27-cA_6nn3-a1-m28-cA 6nn3-a1-m28-cA_6nn3-a1-m29-cA 6nn3-a1-m29-cA_6nn3-a1-m30-cA 6nn3-a1-m2-cA_6nn3-a1-m3-cA 6nn3-a1-m31-cA_6nn3-a1-m32-cA 6nn3-a1-m31-cA_6nn3-a1-m35-cA 6nn3-a1-m32-cA_6nn3-a1-m33-cA 6nn3-a1-m33-cA_6nn3-a1-m34-cA 6nn3-a1-m34-cA_6nn3-a1-m35-cA 6nn3-a1-m36-cA_6nn3-a1-m37-cA 6nn3-a1-m36-cA_6nn3-a1-m40-cA 6nn3-a1-m37-cA_6nn3-a1-m38-cA 6nn3-a1-m38-cA_6nn3-a1-m39-cA 6nn3-a1-m39-cA_6nn3-a1-m40-cA 6nn3-a1-m3-cA_6nn3-a1-m4-cA 6nn3-a1-m41-cA_6nn3-a1-m42-cA 6nn3-a1-m41-cA_6nn3-a1-m45-cA 6nn3-a1-m42-cA_6nn3-a1-m43-cA 6nn3-a1-m43-cA_6nn3-a1-m44-cA 6nn3-a1-m44-cA_6nn3-a1-m45-cA 6nn3-a1-m46-cA_6nn3-a1-m47-cA 6nn3-a1-m46-cA_6nn3-a1-m50-cA 6nn3-a1-m47-cA_6nn3-a1-m48-cA 6nn3-a1-m48-cA_6nn3-a1-m49-cA 6nn3-a1-m49-cA_6nn3-a1-m50-cA 6nn3-a1-m4-cA_6nn3-a1-m5-cA 6nn3-a1-m51-cA_6nn3-a1-m52-cA 6nn3-a1-m51-cA_6nn3-a1-m55-cA 6nn3-a1-m52-cA_6nn3-a1-m53-cA 6nn3-a1-m53-cA_6nn3-a1-m54-cA 6nn3-a1-m54-cA_6nn3-a1-m55-cA 6nn3-a1-m56-cA_6nn3-a1-m57-cA 6nn3-a1-m56-cA_6nn3-a1-m60-cA 6nn3-a1-m57-cA_6nn3-a1-m58-cA 6nn3-a1-m58-cA_6nn3-a1-m59-cA 6nn3-a1-m59-cA_6nn3-a1-m60-cA 6nn3-a1-m6-cA_6nn3-a1-m7-cA 6nn3-a1-m7-cA_6nn3-a1-m8-cA 6nn3-a1-m8-cA_6nn3-a1-m9-cA NPVKSMWSEGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTITPIMGYSTPWRYLDFNALNLFFSPLEFQHLIENYGSIAPDALTVTISEIAVKDVTDKTGGGVQVTDSATGRLCMLVDHEYKYPYVLGQGQDTLAPELPIWVYFPPQYAYLTVGDVNTQGISGDSKKLASEESAFYVLEHSSFQLLGTGGTATMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKTGLSTGTSQNTRISLRPGPVSQPYHHWDTDKYVTGINAISHGQTTYGNAEDKEYQQGVGRFPNEKEQLKQLQGLNMHTYFPNKGTQQYTDQIERPLMVGSVWNRRALHYESQLWSKIPNLDDSFKTQFAALGGWGLHQPPPQIFLKILPQSGPIGGIKSMGITTLVQYAVGIMTVTMTFKLGPRKATGRWNPQPGVYPPHAAGHLPYVLYDPTATDAKQHHRHGYEKPEELWTAKSRVHPL NPVKSMWSEGATFSANSVTCTFSRQFLIPYDPEHHYKVFSPAASSCHNASGKEAKVCTITPIMGYSTPWRYLDFNALNLFFSPLEFQHLIENYGSIAPDALTVTISEIAVKDVTDKTGGGVQVTDSATGRLCMLVDHEYKYPYVLGQGQDTLAPELPIWVYFPPQYAYLTVGDVNTQGISGDSKKLASEESAFYVLEHSSFQLLGTGGTATMSYKFPPVPPENLEGCSQHFYEMYNPLYGSRLGVPDTLGGDPKFRSLTHEDHAIQPQNFMPGPLVNSVSTKTGLSTGTSQNTRISLRPGPVSQPYHHWDTDKYVTGINAISHGQTTYGNAEDKEYQQGVGRFPNEKEQLKQLQGLNMHTYFPNKGTQQYTDQIERPLMVGSVWNRRALHYESQLWSKIPNLDDSFKTQFAALGGWGLHQPPPQIFLKILPQSGPIGGIKSMGITTLVQYAVGIMTVTMTFKLGPRKATGRWNPQPGVYPPHAAGHLPYVLYDPTATDAKQHHRHGYEKPEELWTAKSRVHPL 1s5a-a1-m1-cA_1s5a-a1-m1-cB Crystal Structure of Putative Isomerase from Bacillus subtilis O31511 O31511 1.7 X-RAY DIFFRACTION 13 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 135 138 NEFEKACETLRKFAYLEKDKSWTELWDENAVFEFPYAPEGSPKRIEGKAAIYDYIKDYPKQIHLSSFTAPTVYRSADSNTVIAEFQCDGHVIETGLPYRQSYISVIETRDGRIVRYRDYWNPLVVKEAFGGSFLQ SNALNEFEKACETLRKFAYLEKDKSWTELWDENAVFEFPYAPEGSPKRIEGKAAIYDYIKDYPKQIHLSSFTAPTVYRSADSNTVIAEFQCDGHVIETGLPYRQSYISVIETRDGRIVRYRDYWNPLVVKEAFGGSFL 1s5a-a1-m1-cB_1s5a-a1-m1-cC Crystal Structure of Putative Isomerase from Bacillus subtilis O31511 O31511 1.7 X-RAY DIFFRACTION 50 0.986 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 138 138 SNALNEFEKACETLRKFAYLEKDKSWTELWDENAVFEFPYAPEGSPKRIEGKAAIYDYIKDYPKQIHLSSFTAPTVYRSADSNTVIAEFQCDGHVIETGLPYRQSYISVIETRDGRIVRYRDYWNPLVVKEAFGGSFL ALNEFEKACETLRKFAYLEKDKSWTELWDENAVFEFPYAPEGSPKRIEGKAAIYDYIKDYPKQIHLSSFTAPTVYRSADSNTVIAEFQCDGHVIETGLPYRQSYISVIETRDGRIVRYRDYWNPLVVKEAFGGSFLQT 1s5a-a1-m1-cD_1s5a-a1-m1-cB Crystal Structure of Putative Isomerase from Bacillus subtilis O31511 O31511 1.7 X-RAY DIFFRACTION 35 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 134 138 SNALNEFEKACETLRKFAYLEKDKSWTELWDENAVFEFPYAPEGSPKRIEGKAAIYDYIKDYPKQIHLSSFTAPTVYRSADSNTVIAEFQCDGHVIETGLPYRQSYISVIETRDGRIVRYRDYWNPLVVKEAFG SNALNEFEKACETLRKFAYLEKDKSWTELWDENAVFEFPYAPEGSPKRIEGKAAIYDYIKDYPKQIHLSSFTAPTVYRSADSNTVIAEFQCDGHVIETGLPYRQSYISVIETRDGRIVRYRDYWNPLVVKEAFGGSFL 1s5u-a5-m1-cC_1s5u-a5-m3-cE Crystal Structure of Hypothetical Protein EC709 from Escherichia coli P0A8Z3 P0A8Z3 1.7 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 136 TLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFK GHMNTTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFKQ 1s5u-a5-m1-cD_1s5u-a5-m3-cE Crystal Structure of Hypothetical Protein EC709 from Escherichia coli P0A8Z3 P0A8Z3 1.7 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 136 1s5u-a3-m1-cC_1s5u-a3-m2-cF TLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEF GHMNTTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFKQ 1s5u-a5-m1-cD_1s5u-a5-m3-cF Crystal Structure of Hypothetical Protein EC709 from Escherichia coli P0A8Z3 P0A8Z3 1.7 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 130 TLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEF TLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFK 1s5u-a5-m3-cF_1s5u-a5-m3-cG Crystal Structure of Hypothetical Protein EC709 from Escherichia coli P0A8Z3 P0A8Z3 1.7 X-RAY DIFFRACTION 29 0.992 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1s5u-a1-m1-cA_1s5u-a1-m1-cD 1s5u-a1-m1-cB_1s5u-a1-m1-cC 1s5u-a2-m1-cF_1s5u-a2-m1-cG 1s5u-a2-m1-cH_1s5u-a2-m1-cE 1s5u-a3-m1-cA_1s5u-a3-m1-cD 1s5u-a3-m1-cB_1s5u-a3-m1-cC 1s5u-a3-m2-cF_1s5u-a3-m2-cG 1s5u-a3-m2-cH_1s5u-a3-m2-cE 1s5u-a4-m1-cA_1s5u-a4-m1-cD 1s5u-a4-m1-cB_1s5u-a4-m1-cC 1s5u-a4-m1-cF_1s5u-a4-m1-cG 1s5u-a4-m1-cH_1s5u-a4-m1-cE 1s5u-a5-m1-cA_1s5u-a5-m1-cD 1s5u-a5-m1-cB_1s5u-a5-m1-cC 1s5u-a5-m3-cH_1s5u-a5-m3-cE 5kl9-a1-m1-cB_5kl9-a1-m1-cA 5kl9-a1-m1-cC_5kl9-a1-m1-cD 5t06-a1-m1-cB_5t06-a1-m1-cA 5t06-a1-m1-cC_5t06-a1-m1-cD 5t07-a1-m1-cB_5t07-a1-m1-cA 5t07-a1-m1-cC_5t07-a1-m1-cD TLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFK TTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEF 1s5u-a5-m3-cF_1s5u-a5-m3-cH Crystal Structure of Hypothetical Protein EC709 from Escherichia coli P0A8Z3 P0A8Z3 1.7 X-RAY DIFFRACTION 37 0.992 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1s5u-a1-m1-cA_1s5u-a1-m1-cC 1s5u-a1-m1-cB_1s5u-a1-m1-cD 1s5u-a2-m1-cF_1s5u-a2-m1-cH 1s5u-a2-m1-cG_1s5u-a2-m1-cE 1s5u-a3-m1-cA_1s5u-a3-m1-cC 1s5u-a3-m1-cB_1s5u-a3-m1-cD 1s5u-a3-m2-cF_1s5u-a3-m2-cH 1s5u-a3-m2-cG_1s5u-a3-m2-cE 1s5u-a4-m1-cA_1s5u-a4-m1-cC 1s5u-a4-m1-cB_1s5u-a4-m1-cD 1s5u-a4-m1-cF_1s5u-a4-m1-cH 1s5u-a4-m1-cG_1s5u-a4-m1-cE 1s5u-a5-m1-cA_1s5u-a5-m1-cC 1s5u-a5-m1-cB_1s5u-a5-m1-cD 1s5u-a5-m3-cG_1s5u-a5-m3-cE 5kl9-a1-m1-cC_5kl9-a1-m1-cA 5kl9-a1-m1-cD_5kl9-a1-m1-cB 5t06-a1-m1-cC_5t06-a1-m1-cB 5t06-a1-m1-cD_5t06-a1-m1-cA 5t07-a1-m1-cB_5t07-a1-m1-cD 5t07-a1-m1-cC_5t07-a1-m1-cA TLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEFK TTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEF 1s5u-a5-m3-cG_1s5u-a5-m3-cH Crystal Structure of Hypothetical Protein EC709 from Escherichia coli P0A8Z3 P0A8Z3 1.7 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 130 1s5u-a1-m1-cB_1s5u-a1-m1-cA 1s5u-a1-m1-cD_1s5u-a1-m1-cC 1s5u-a2-m1-cF_1s5u-a2-m1-cE 1s5u-a2-m1-cG_1s5u-a2-m1-cH 1s5u-a3-m1-cB_1s5u-a3-m1-cA 1s5u-a3-m1-cD_1s5u-a3-m1-cC 1s5u-a3-m2-cF_1s5u-a3-m2-cE 1s5u-a3-m2-cG_1s5u-a3-m2-cH 1s5u-a4-m1-cB_1s5u-a4-m1-cA 1s5u-a4-m1-cD_1s5u-a4-m1-cC 1s5u-a4-m1-cF_1s5u-a4-m1-cE 1s5u-a4-m1-cG_1s5u-a4-m1-cH 1s5u-a5-m1-cB_1s5u-a5-m1-cA 1s5u-a5-m1-cD_1s5u-a5-m1-cC 1s5u-a5-m3-cF_1s5u-a5-m3-cE 5kl9-a1-m1-cC_5kl9-a1-m1-cB 5kl9-a1-m1-cD_5kl9-a1-m1-cA 5t06-a1-m1-cB_5t06-a1-m1-cD 5t06-a1-m1-cC_5t06-a1-m1-cA 5t07-a1-m1-cC_5t07-a1-m1-cB 5t07-a1-m1-cD_5t07-a1-m1-cA TTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEF TTLFRWPVRVYYEDTDAGGVVYHASYVAFYERARTEMLRHHHFSQQALMAERVAFVVRKMTVEYYAPARLDDMLEIQTEITSMRGTSLVFTQRIVNAENTLLNEAEVLVVCVDPLKMKPRALPKSIVAEF 1s67-a1-m1-cU_1s67-a1-m1-cL Crystal structure of heme domain of direct oxygen sensor from E. coli P76129 P76129 1.5 X-RAY DIFFRACTION 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 119 1s66-a1-m1-cU_1s66-a1-m1-cL 1v9y-a1-m1-cA_1v9y-a1-m1-cB 1v9z-a1-m1-cA_1v9z-a1-m1-cB 1v9z-a1-m2-cA_1v9z-a1-m2-cB 1vb6-a1-m1-cB_1vb6-a1-m1-cA GIFFPALEQNMMGAVLINENDEVMFFNPAAEKLWGYKREEVIGNNIDMLIPRDLRPAHPEYIRHNREGGKARVEGMSRELQLEKKDGSKIWTRFALSKVSAEGKVYYLALVRDAS NAADGIFFPALEQNMMGAVLINENDEVMFFNPAAEKLWGYKREEVIGNNIDMLIPRDLRPAHPEYIRHNREGGKARVEGMSRELQLEKKDGSKIWTRFALSKVSAEGKVYYLALVRDAS 1s6c-a1-m1-cA_1s6c-a1-m2-cA Crystal structure of the complex between KChIP1 and Kv4.2 N1-30 Q8R426 Q8R426 2 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 165 165 LEQLEAQTNFTKRELQVLYRGFKNEPSGVVNEETFKQIYAQFFPHGDASTYAHYLFNAFDTTQTGSVKFEDFVTALSILLRGTVHEKLRWTFNLYDINKDGYINKEEMMDIVKAIYDMMGPRQHVDVFFQKMDKNKDGIVTLDEFLESQEDDNIMRSLQLFQNVM LEQLEAQTNFTKRELQVLYRGFKNEPSGVVNEETFKQIYAQFFPHGDASTYAHYLFNAFDTTQTGSVKFEDFVTALSILLRGTVHEKLRWTFNLYDINKDGYINKEEMMDIVKAIYDMMGPRQHVDVFFQKMDKNKDGIVTLDEFLESQEDDNIMRSLQLFQNVM 1s6c-a1-m1-cB_1s6c-a1-m2-cB Crystal structure of the complex between KChIP1 and Kv4.2 N1-30 Q63881 Q63881 2 X-RAY DIFFRACTION 18 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 21 21 MAAGVAAWLPFARAAAIGWMP MAAGVAAWLPFARAAAIGWMP 1s7d-a2-m1-cA_1s7d-a2-m2-cA Crystal structure of refined tetragonal crystal of YodA from Escherichia coli P76344 P76344 2.17 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 187 187 GKPLTEVEQKAANGVFDDANVQNRTLSDWDGVWQSVYPLLQSGKLDPVFQKKADADKTKTFAEIKDYYHKGYATDIEMIGIEDGIVEFHRNNETTSCKYDYDGYKILTYKSGKKGVRYLFECKDPESKAPKYIQFSDHIIAPRKSSHFHIFMGNDSQQSLLNEMENWPTYYPYQLSSEEVVEEMMSH GKPLTEVEQKAANGVFDDANVQNRTLSDWDGVWQSVYPLLQSGKLDPVFQKKADADKTKTFAEIKDYYHKGYATDIEMIGIEDGIVEFHRNNETTSCKYDYDGYKILTYKSGKKGVRYLFECKDPESKAPKYIQFSDHIIAPRKSSHFHIFMGNDSQQSLLNEMENWPTYYPYQLSSEEVVEEMMSH 1s7g-a1-m1-cA_1s7g-a1-m1-cB Structural Basis for the Mechanism and Regulation of Sir2 Enzymes O30124 O30124 2.3 X-RAY DIFFRACTION 51 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 252 252 1yc2-a10-m2-cD_1yc2-a10-m1-cC 1yc2-a6-m1-cA_1yc2-a6-m1-cB 1yc2-a6-m2-cD_1yc2-a6-m1-cC 1yc2-a9-m1-cA_1yc2-a9-m1-cB MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE 1s7g-a1-m1-cA_1s7g-a1-m1-cC Structural Basis for the Mechanism and Regulation of Sir2 Enzymes O30124 O30124 2.3 X-RAY DIFFRACTION 27 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 252 252 1yc2-a6-m1-cA_1yc2-a6-m1-cC 1yc2-a6-m2-cD_1yc2-a6-m1-cB 1yc2-a7-m1-cA_1yc2-a7-m1-cC 1yc2-a8-m2-cD_1yc2-a8-m1-cB MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE 1s7g-a1-m1-cD_1s7g-a1-m1-cA Structural Basis for the Mechanism and Regulation of Sir2 Enzymes O30124 O30124 2.3 X-RAY DIFFRACTION 40 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 240 252 EDEIRKAAEILAKSKHAVVFTGAGISAGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE 1s7g-a1-m1-cE_1s7g-a1-m1-cB Structural Basis for the Mechanism and Regulation of Sir2 Enzymes O30124 O30124 2.3 X-RAY DIFFRACTION 25 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 248 252 MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLR MEDEIRKAAEILAKSKHAVVFTGAGISAESGIPTFRGEDGLWRKYDPEEVASISGFKRNPRAFWEFSMEMKDKLFAEPNPAHYAIAELERMGIVKAVITQNIDMLHQRAGSRRVLELHGSMDKLDCLDCHETYDWSEFVEDFNKGEIPRCRKCGSYYVKPRVVLFGEPLPQRTLFEAIEEAKHCDAFMVVGSSLVVYPAAELPYIAKKAGAKMIIVNAEPTMADPIFDVKIIGKAGEVLPKIVEEVKRLRSE 1s7h-a2-m1-cC_1s7h-a2-m1-cD Structural Genomics, 2.2A crystal structure of protein YKOF from Bacillus subtilis O34911 O34911 2.2 X-RAY DIFFRACTION 124 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 182 184 1s7h-a1-m1-cB_1s7h-a1-m1-cA 1s99-a1-m1-cB_1s99-a1-m1-cA 1sbr-a1-m1-cA_1sbr-a1-m1-cB RIAGFRFSLYPMTDDFISVIKSALKKTDTSKVWTKTDHISTVLRGSIDHVFDAAKAIYLHAANSEQHIVMNGTFSIGCPGDTQGDTYLSKKRVNEDAVRGLKAEAPCQFALYPMNEPDYMGLIMEAVDIAKAQGTFVQGVHYASELDGDAHDVFSTLEAVFRMAEQQTNHITMTVNLSANSP RIAGFRFSLYPMTDDFISVIKSALKKTDTSKVWTKTDHISTVLRGSIDHVFDAAKAIYLHAANSEQHIVMNGTFSIGCPGDTQGDTYLSKGDKRVNEDAVRGLKAEAPCQFALYPMNEPDYMGLIMEAVDIAKAQGTFVQGVHYASELDGDAHDVFSTLEAVFRMAEQQTNHITMTVNLSANSP 1s7i-a1-m1-cA_1s7i-a1-m2-cA 1.8 A Crystal Structure of a Protein of Unknown Function PA1349 from Pseudomonas aeruginosa Q9I3Z5 Q9I3Z5 1.8 X-RAY DIFFRACTION 137 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 124 124 LYFQGNMKYLCLIYFDEAKLAAVPAEELAAIVDECMTYSDQLGKAGHYIASHALQSVQTATTLRHQGGRLAMTDGPFAETKEQLGGFYLIEARDLNQALQIAAKIPPGRLGCVEVRPVKEWEGS LYFQGNMKYLCLIYFDEAKLAAVPAEELAAIVDECMTYSDQLGKAGHYIASHALQSVQTATTLRHQGGRLAMTDGPFAETKEQLGGFYLIEARDLNQALQIAAKIPPGRLGCVEVRPVKEWEGS 1s7m-a3-m1-cB_1s7m-a3-m1-cC Crystal Structure of HiaBD1 Q48152 Q48152 2.1 X-RAY DIFFRACTION 219 0.994 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 157 157 1s7m-a1-m1-cB_1s7m-a1-m1-cA 1s7m-a1-m1-cB_1s7m-a1-m1-cC 1s7m-a1-m1-cC_1s7m-a1-m1-cA 1s7m-a2-m1-cE_1s7m-a2-m1-cD 1s7m-a2-m1-cE_1s7m-a2-m1-cF 1s7m-a2-m1-cF_1s7m-a2-m1-cD 1s7m-a3-m1-cB_1s7m-a3-m1-cA 1s7m-a3-m1-cC_1s7m-a3-m1-cA 1s7m-a3-m2-cE_1s7m-a3-m2-cD 1s7m-a3-m2-cE_1s7m-a3-m2-cF 1s7m-a3-m2-cF_1s7m-a3-m2-cD AKTEINKDGLTITPANGAGANNANTISVTKDGISAGGQSVKNVVSGLKKFGDANFDPLTSSADNLTKQNDDAYKGLTNLDEKGTDKQTPVVADNTAATVGDLRGLGWVISADKTTGGSTEYHDQVRNANEVKFKSGNGINVSGKTVNGRREITFELA KTEINKDGLTITPANGAGANNANTISVTKDGISAGGQSVKNVVSGLKKFGDANFDPLTSSADNLTKQNDDAYKGLTNLDEKGTDKQTPVVADNTAATVGDLRGLGWVISADKTTGGSTEYHDQVRNANEVKFKSGNGINVSGKTVNGRREITFELAK 1s7m-a3-m1-cC_1s7m-a3-m2-cF Crystal Structure of HiaBD1 Q48152 Q48152 2.1 X-RAY DIFFRACTION 14 0.994 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 157 157 1s7m-a3-m1-cB_1s7m-a3-m2-cD 1s7m-a3-m2-cE_1s7m-a3-m1-cA KTEINKDGLTITPANGAGANNANTISVTKDGISAGGQSVKNVVSGLKKFGDANFDPLTSSADNLTKQNDDAYKGLTNLDEKGTDKQTPVVADNTAATVGDLRGLGWVISADKTTGGSTEYHDQVRNANEVKFKSGNGINVSGKTVNGRREITFELAK AKTEINKDGLTITPANGAGANNANTISVTKDGISAGGQSVKNVVSGLKKFGDANFDPLTSSADNLTKQNDDAYKGLTNLDEKGTDKQTPVVADNTAATVGDLRGLGWVISADKTTGGSTEYHDQVRNANEVKFKSGNGINVSGKTVNGRREITFELA 1s7n-a2-m1-cC_1s7n-a2-m1-cD Ribosomal L7/L12 alpha-N-protein acetyltransferase in complex with Coenzyme A (CoA free sulfhydryl) Q8ZPC0 Q8ZPC0 2.1 X-RAY DIFFRACTION 59 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 176 177 1s7f-a1-m1-cA_1s7f-a1-m2-cA 1s7k-a1-m1-cA_1s7k-a1-m2-cA 1s7l-a1-m1-cA_1s7l-a1-m2-cA 1s7n-a1-m1-cA_1s7n-a1-m1-cB 1z9u-a1-m1-cA_1z9u-a1-m1-cB EIIPVSTTLELRAADESHVPALHQLVLKNKAWLQQSLDWPQYVTSQEETRKHVQGNILLHQRGYAKMYLIFCQNEMAGVLSFNAIEPINKAAYIGYWLDESFQGQGIMSQSLQALMTHYARRGDIRRFVIKCRVDNQASNAVARRNHFTLEGCMKQAEYLNGDYHDVNMYARIIDA EIIPVSTTLELRAADESHVPALHQLVLKNKAWLQQSLDWPQYVTSQEETRKHVQGNILLHQRGYAKMYLIFCQNEMAGVLSFNAIEPINKAAYIGYWLDESFQGQGIMSQSLQALMTHYARRGDIRRFVIKCRVDNQASNAVARRNHFTLEGCMKQAEYLNGDYHDVNMYARIIDAD 1s7o-a1-m1-cA_1s7o-a1-m1-cC Crystal structure of putative DNA binding protein SP_1288 from Streptococcus pygenes P0DG80 P0DG80 2.31 X-RAY DIFFRACTION 15 1.0 301448 (Streptococcus pyogenes serotype M3) 301448 (Streptococcus pyogenes serotype M3) 106 108 EKTNRMNALFEFYAALLTDKQMNYIELYYADDYSLAEIADEFGVSRQAVYDNIKRTEKILETYEMKLHMYSDYVVRSEIFDDMIAHYPHDEYLQEKISILTSIDNR EIEKTNRMNALFEFYAALLTDKQMNYIELYYADDYSLAEIADEFGVSRQAVYDNIKRTEKILETYEMKLHMYSDYVVRSEIFDDMIAHYPHDEYLQEKISILTSIDNR 1s7o-a2-m1-cB_1s7o-a2-m1-cC Crystal structure of putative DNA binding protein SP_1288 from Streptococcus pygenes P0DG80 P0DG80 2.31 X-RAY DIFFRACTION 44 1.0 301448 (Streptococcus pyogenes serotype M3) 301448 (Streptococcus pyogenes serotype M3) 105 108 1s7o-a1-m1-cB_1s7o-a1-m1-cC 1s7o-a3-m1-cA_1s7o-a3-m2-cA IEKTNRMNALFEFYAALLTDKQMNYIELYYADDYSLAEIADEFGVSRQAVYDNIKRTEKILETYEMKLHMYSDYVVRSEIFDDMIAHYPHDEYLQEKISILTSID EIEKTNRMNALFEFYAALLTDKQMNYIELYYADDYSLAEIADEFGVSRQAVYDNIKRTEKILETYEMKLHMYSDYVVRSEIFDDMIAHYPHDEYLQEKISILTSIDNR 1s7z-a1-m1-cA_1s7z-a1-m2-cA Structure of Ocr from Bacteriophage T7 P03775 P03775 1.83 X-RAY DIFFRACTION 39 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 101 101 TYNNVFDHAYELKENIRYDDIRDTDDLHDAIHAADNAVPHYYADIFSVASEGIDLEFEDSGLPDTKDVIRILQARIYEQLTIDLWEDAEDLLNEYLEEVEE TYNNVFDHAYELKENIRYDDIRDTDDLHDAIHAADNAVPHYYADIFSVASEGIDLEFEDSGLPDTKDVIRILQARIYEQLTIDLWEDAEDLLNEYLEEVEE 1s7z-a2-m1-cA_1s7z-a2-m3-cA Structure of Ocr from Bacteriophage T7 P03775 P03775 1.83 X-RAY DIFFRACTION 26 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 101 101 2y7c-a1-m1-cD_2y7c-a1-m1-cE 6r9b-a1-m1-cF_6r9b-a1-m1-cG 6r9g-a1-m1-cG_6r9g-a1-m1-cF 7bst-a1-m1-cF_7bst-a1-m1-cG 7btp-a1-m1-cD_7btp-a1-m1-cF 7eew-a1-m1-cB_7eew-a1-m2-cB TYNNVFDHAYELKENIRYDDIRDTDDLHDAIHAADNAVPHYYADIFSVASEGIDLEFEDSGLPDTKDVIRILQARIYEQLTIDLWEDAEDLLNEYLEEVEE TYNNVFDHAYELKENIRYDDIRDTDDLHDAIHAADNAVPHYYADIFSVASEGIDLEFEDSGLPDTKDVIRILQARIYEQLTIDLWEDAEDLLNEYLEEVEE 1s8f-a3-m1-cA_1s8f-a3-m2-cB Crystal structure of Rab9 complexed to GDP reveals a dimer with an active conformation of switch II P24408 P24408 1.77 X-RAY DIFFRACTION 15 0.982 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 168 173 1s8f-a3-m2-cA_1s8f-a3-m1-cB SSLFKVILLGDGGVGKSSLMNRYVTNKFDTQLFHTIGVEFLNKDLEVDGHFVTMQIWDTAGQERFRSLRTPFYRGSDCCLLTFSVDDSQSFQNLSNWKKEFIYYADVPESFPFVILGNKIDISERQVSTEEAQAWCRDNGDYPYFETSAKDATNVAAAFEEAVRRVLA GAMAGKSSLFKVILLGDGGVGKSSLMNRYVTNKFDLFHTIGVEFLNKDLEVDGHFVTMQIWDTAGQERFRSLRTPFYRGSDCCLLTFSVDDSQSFQNLSNWKKEFIYYADVKEPESFPFVILGNKIDISERQVSTEEAQAWCRDNGDYPYFETSAKDATNVAAAFEEAVRRVL 1s8f-a4-m1-cA_1s8f-a4-m1-cB Crystal structure of Rab9 complexed to GDP reveals a dimer with an active conformation of switch II P24408 P24408 1.77 X-RAY DIFFRACTION 56 0.982 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 168 173 1s8f-a3-m1-cA_1s8f-a3-m1-cB 1s8f-a3-m2-cA_1s8f-a3-m2-cB SSLFKVILLGDGGVGKSSLMNRYVTNKFDTQLFHTIGVEFLNKDLEVDGHFVTMQIWDTAGQERFRSLRTPFYRGSDCCLLTFSVDDSQSFQNLSNWKKEFIYYADVPESFPFVILGNKIDISERQVSTEEAQAWCRDNGDYPYFETSAKDATNVAAAFEEAVRRVLA GAMAGKSSLFKVILLGDGGVGKSSLMNRYVTNKFDLFHTIGVEFLNKDLEVDGHFVTMQIWDTAGQERFRSLRTPFYRGSDCCLLTFSVDDSQSFQNLSNWKKEFIYYADVKEPESFPFVILGNKIDISERQVSTEEAQAWCRDNGDYPYFETSAKDATNVAAAFEEAVRRVL 1s95-a3-m1-cA_1s95-a3-m1-cB Structure of serine/threonine protein phosphatase 5 P53041 P53041 1.6 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 325 YSGPKLEDGKVTISFMKELMQWYKDQKKLHRKCAYQILVQVKEVLSKLSTLVETTLKETEKITVCGDTHGQFYDLLNIFELNGLPSETNPYIFNGDFVDRGSFSVEVILTLFGFKLLYPDHFHLLRGNHETDNMNQIYGFEGEVKAKYTAQMYELFSEVFEWLPLAQCINGKVLIMHGGLFSEDGVTLDDIRKIERNRQPPDSGPMCDLLWSDPQPQNGRSISKRGVSCQFGPDVTKAFLEENNLDYIIRSHEVKAEGYEVAHGGRCVTVFSAPNYCDQMGNKASYIHLQGSDLRPQFHQFTAVPHPNVKPMAYANTLLQLGMM EYSGPKLEDGKVTISFMKELMQWYKDQKKLHRKCAYQILVQVKEVLSKLSTLVETTLKETEKITVCGDTHGQFYDLLNIFELNGLPSETNPYIFNGDFVDRGSFSVEVILTLFGFKLLYPDHFHLLRGNHETDNMNQIYGFEGEVKAKYTAQMYELFSEVFEWLPLAQCINGKVLIMHGGLFSEDGVTLDDIRKIERNRQPPDSGPMCDLLWSDPQPQNGRSISKRGVSCQFGPDVTKAFLEENNLDYIIRSHEVKAEGYEVAHGGRCVTVFSAPNYCDQMGNKASYIHLQGSDLRPQFHQFTAVPHPNVKPMAYANTLLQLGMM 1s98-a1-m1-cA_1s98-a1-m2-cB E.coli IscA crystal structure to 2.3 A P0AAC8 P0AAC8 2.3 X-RAY DIFFRACTION 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 97 1s98-a1-m1-cB_1s98-a1-m2-cA SITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSMQFLDGTQLDFVKEGLNEGFKFTNPNVKDE SITLSDSAAARVNTFLANRGKGFGLRLGVRTSGCSGMAYVLEFVDEPTPEDIVFEDKGVKVVVDGKSMQFLDGTQLDFVKEGLNEGFKFTNPNVKDE 1s9c-a3-m1-cE_1s9c-a3-m1-cF Crystal structure analysis of the 2-enoyl-CoA hydratase 2 domain of human peroxisomal multifunctional enzyme type 2 P51659 P51659 3 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 276 1s9c-a1-m1-cB_1s9c-a1-m1-cA GQKLPPFSYAYTELEAIMYALGVGASIKDPKDLKFIYEGSSDFSCLPTFGVIIGQKSVLHGEQYLELYKPLPRAGKLKCEAVVADVLVIIMDVYSYSEKELICHNQFSLFLSDKVKVAVAIPNRPPDAVLTDTTSLNQAALYRLSGDWNPLHIDPNFASLAGFDKPILHGLCTFGFSARRVLQQFADNDVSRFKAVKARFAKPVYPGQTLQTEMWKEGNRIHFQTKVQETGDIVISNAYVDLA AGAIGQKLPPFSYAYTELEAIMYALGVGASIKDPKDLKFIYEGSSDFSCLPTFGVIIGQKSMMGGGLAINFAKVLHGEQYLELYKPLPRAGKLKCEAVVADVLDKGSGVVIIMDVYSYSEKELICHNQFSLFLVGSGGFGGKRTSDKVKVAVAIPNRPPDAVLTDTTSLNQAALYRLSGDWNPLHIDPNFASLAGFDKPILHGLCTFGFSARRVLQQFADNDVSRFKAVKARFAKPVYPGQTLQTEMWKEGNRIHFQTKVQETGDIVISNAYVDLA 1s9c-a5-m1-cJ_1s9c-a5-m1-cI Crystal structure analysis of the 2-enoyl-CoA hydratase 2 domain of human peroxisomal multifunctional enzyme type 2 P51659 P51659 3 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 255 283 1s9c-a2-m1-cD_1s9c-a2-m1-cC 1s9c-a4-m1-cH_1s9c-a4-m1-cG GQKLPPFSYAYTELEAIMYALGVGASIKDPKDLKFIYEGSSDFSCLPTFGVIIGQKSMMINFAKVLHGEQYLELYKPLPRAGKLKCEAVVADVLDKGVVIIMDVYSYSEELICHNQFSLFLRTSDKVKVAVAIPNRPPDAVLTDTTSLNQAALYRLSGDWNPLHIDPNFASLAGFDKPILHGLCTFGFSARRVLQQFADNDVSRFKAVKARFAKPVYPGQTLQTEMWKEGNRIHFQTKVQETGDIVISNAYVDLA FAGAIGQKLPPFSYAYTELEAIMYALGVGASIKDPKDLKFIYEGSSDFSCLPTFGVIIGQKSMMGGGLAEIPGLSINFAKVLHGEQYLELYKPLPRAGKLKCEAVVADVLDKGSGVVIIMDVYSYSEKELICHNQFSLFLVGSGGFGGKRTSDKVKVAVAIPNRPPDAVLTDTTSLNQAALYRLSGDWNPLHIDPNFASLAGFDKPILHGLCTFGFSARRVLQQFADNDVSRFKAVKARFAKPVYPGQTLQTEMWKEGNRIHFQTKVQETGDIVISNAYVDLA 1s9i-a1-m1-cB_1s9i-a1-m1-cA X-ray structure of the human mitogen-activated protein kinase kinase 2 (MEK2)in a complex with ligand and MgATP P36507 P36507 3.2 X-RAY DIFFRACTION 57 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 291 303 TQKAKVGELKDDDFERISELGAGNGGVVTKVQHRPSGLIMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKEAKRIPEEILGKVSIAVLRGLAYLREKHQIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMTRSYMAPERLQGTHYSVQSDIWSMGLSLVELAVGRYPIPPPDAKELEAIFGRMAIFELLDYIVNEPPPKLPNGVFTPDFQEFVNKCLIKNPAERADLKMLTNHTFIKRSEVEEVDFAGWLCKTLRL QKAKVGELKDDDFERISELGAGNGGVVTKVQHRPSGLIMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKEAKRIPEEILGKVSIAVLRGLAYLREKHQIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMVGTRSYMAPERLQGTHYSVQSDIWSMGLSLVELAVGRYPIPPPDAKELEAIFGRPVVDRPAMAIFELLDYIVNEPPPKLPNGVFTPDFQEFVNKCLIKNPAERADLKMLTNHTFIKRSEVEEVDFAGWLCKTLRLNQPG 1s9p-a4-m1-cB_1s9p-a4-m2-cC crystal structure of the ligand-binding domain of the estrogen-related receptor gamma in complex with diethylstilbestrol P62509 P62509 2.13 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 217 219 1s9p-a3-m1-cB_1s9p-a3-m2-cC 1s9q-a2-m1-cA_1s9q-a2-m2-cA YNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMHKLF YNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMHKLFLE 1s9p-a5-m1-cA_1s9p-a5-m1-cD crystal structure of the ligand-binding domain of the estrogen-related receptor gamma in complex with diethylstilbestrol P62509 P62509 2.13 X-RAY DIFFRACTION 48 0.995 10090 (Mus musculus) 10090 (Mus musculus) 215 225 PYNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMH YNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMHKLFLEMLEAKV 1s9q-a2-m1-cB_1s9q-a2-m2-cB crystal structure of the ligand-binding domain of the estrogen-related receptor gamma in complex with 4-hydroxytamoxifen P62509 P62509 2.2 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 YNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIPMHKLFLEMLE YNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIPMHKLFLEMLE 1s9r-a1-m1-cA_1s9r-a1-m1-cB CRYSTAL STRUCTURE OF ARGININE DEIMINASE COVALENTLY LINKED WITH A REACTION INTERMEDIATE P23793 P23793 1.6 X-RAY DIFFRACTION 58 1.0 2094 (Mycoplasmopsis arginini) 2094 (Mycoplasmopsis arginini) 409 409 1lxy-a1-m1-cA_1lxy-a1-m1-cB SVFDSKFKGIHVYSEIGELESVLVHEPGREIDYITPARLDELLFSAILESHDARKEHKQFVAELKANDINVVELIDLVAETYDLASQEAKDKLIEEFLEDSEPVLSEEHKVVVRNFLKAKKTSRELVEIMMAGITKYDLGIEADHELIVDPMPNLYFTRDPFASVGNGVTIHYMRYKVRQRETLFSRFVFSNHPKLINTPWYYDPSLKLSIEGGDVFIYNNDTLVVGVSERTDLQTVTLLAKNIVANKECEFKRIVAINVPKWTNLMHLDTWLTMLDKDKFLYSPIANDVFKFWDYDLVNGGAEPQPVENGLPLEGLLQSIINKKPVLIPIAGEGASQMEIERETHFDGTNYLAIRPGVVIGYSRNEKTNAALEAAGIKVLPFHGNQLSLGMGNARCMSMPLSRKDVKW SVFDSKFKGIHVYSEIGELESVLVHEPGREIDYITPARLDELLFSAILESHDARKEHKQFVAELKANDINVVELIDLVAETYDLASQEAKDKLIEEFLEDSEPVLSEEHKVVVRNFLKAKKTSRELVEIMMAGITKYDLGIEADHELIVDPMPNLYFTRDPFASVGNGVTIHYMRYKVRQRETLFSRFVFSNHPKLINTPWYYDPSLKLSIEGGDVFIYNNDTLVVGVSERTDLQTVTLLAKNIVANKECEFKRIVAINVPKWTNLMHLDTWLTMLDKDKFLYSPIANDVFKFWDYDLVNGGAEPQPVENGLPLEGLLQSIINKKPVLIPIAGEGASQMEIERETHFDGTNYLAIRPGVVIGYSRNEKTNAALEAAGIKVLPFHGNQLSLGMGNARCMSMPLSRKDVKW 1s9z-a1-m2-cA_1s9z-a1-m3-cA SYNTHETIC 17 AMINO ACID LONG PEPTIDE THAT FORMS A NATIVE-LIKE COILED-COIL AT AMBIENT TEMPERATURE AND AGGREGATES INTO AMYLOID-LIKE FIBRILS AT HIGHER TEMPERATURES. 2.01 X-RAY DIFFRACTION 16 1.0 16 16 1s9z-a1-m1-cA_1s9z-a1-m2-cA 1s9z-a1-m1-cA_1s9z-a1-m3-cA SIRELEARIRELELRI SIRELEARIRELELRI 1sak-a1-m1-cB_1sak-a1-m1-cD HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAC STRUCTURES) P04637 P04637 NOT SOLUTION NMR 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 42 1olg-a1-m1-cA_1olg-a1-m1-cC 1olg-a1-m1-cB_1olg-a1-m1-cD 1olh-a1-m1-cA_1olh-a1-m1-cC 1olh-a1-m1-cB_1olh-a1-m1-cD 1sae-a1-m1-cA_1sae-a1-m1-cC 1sae-a1-m1-cB_1sae-a1-m1-cD 1saf-a1-m1-cA_1saf-a1-m1-cC 1saf-a1-m1-cB_1saf-a1-m1-cD 1sak-a1-m1-cA_1sak-a1-m1-cC 1sal-a1-m1-cA_1sal-a1-m1-cC 1sal-a1-m1-cB_1sal-a1-m1-cD 3sak-a1-m1-cA_3sak-a1-m1-cC 3sak-a1-m1-cB_3sak-a1-m1-cD KKKPLDGEYFTLQIRGRERFEMFRELNEALELKDAQAGKEPG KKKPLDGEYFTLQIRGRERFEMFRELNEALELKDAQAGKEPG 1sak-a1-m1-cC_1sak-a1-m1-cD HIGH RESOLUTION SOLUTION NMR STRUCTURE OF THE OLIGOMERIZATION DOMAIN OF P53 BY MULTI-DIMENSIONAL NMR (SAC STRUCTURES) P04637 P04637 NOT SOLUTION NMR 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 42 1olg-a1-m1-cA_1olg-a1-m1-cB 1olg-a1-m1-cC_1olg-a1-m1-cD 1olh-a1-m1-cA_1olh-a1-m1-cB 1olh-a1-m1-cC_1olh-a1-m1-cD 1sae-a1-m1-cA_1sae-a1-m1-cB 1sae-a1-m1-cC_1sae-a1-m1-cD 1saf-a1-m1-cA_1saf-a1-m1-cB 1saf-a1-m1-cC_1saf-a1-m1-cD 1sak-a1-m1-cA_1sak-a1-m1-cB 1sal-a1-m1-cA_1sal-a1-m1-cB 1sal-a1-m1-cC_1sal-a1-m1-cD 3sak-a1-m1-cA_3sak-a1-m1-cB 3sak-a1-m1-cC_3sak-a1-m1-cD KKKPLDGEYFTLQIRGRERFEMFRELNEALELKDAQAGKEPG KKKPLDGEYFTLQIRGRERFEMFRELNEALELKDAQAGKEPG 1saz-a1-m2-cA_1saz-a1-m8-cA Membership in the ASKHA Superfamily: Enzymological Properties and Crystal Structure of Butyrate Kinase 2 from Thermotoga maritima Q9X278 Q9X278 2.5 X-RAY DIFFRACTION 31 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 363 363 1saz-a1-m1-cA_1saz-a1-m7-cA 1saz-a1-m3-cA_1saz-a1-m5-cA 1saz-a1-m4-cA_1saz-a1-m6-cA 1x9j-a1-m1-cB_1x9j-a1-m1-cA 1x9j-a1-m1-cC_1x9j-a1-m1-cD 1x9j-a1-m1-cE_1x9j-a1-m1-cF 1x9j-a1-m1-cH_1x9j-a1-m1-cG FRILTINPGSTSTKLSIFEDERVKQNFSHSPDELGRFQKILDQLEFREKIARQFVEETGYSLSSFSAFVSRGGLLDPIPGGVYLVDGLIKTLKSGKNGEHASNLGAIIAHRFSSETGVPAYVVDPVVVDEEDVARVSGHPNYQRKSIFHALNQKTVAKEVARNKRYEENLVVAHGGGISIAAHRKGRVIDVNNALDGDGPFTPERSGTLPLTQLVDLCFSGKFTYEEKKRIVGNGGLVAYLGTSDAREVVRRIKQGDEWAKRVYRAAYQIAKWIGKAAVLKGEVDFIVLTGGLAHEKEFLVPWITKRVSFIAPVLVFPGSNEEKALALSALRVLRGEEKPKNYSEESRRWRERYDSYLDGILR FRILTINPGSTSTKLSIFEDERVKQNFSHSPDELGRFQKILDQLEFREKIARQFVEETGYSLSSFSAFVSRGGLLDPIPGGVYLVDGLIKTLKSGKNGEHASNLGAIIAHRFSSETGVPAYVVDPVVVDEEDVARVSGHPNYQRKSIFHALNQKTVAKEVARNKRYEENLVVAHGGGISIAAHRKGRVIDVNNALDGDGPFTPERSGTLPLTQLVDLCFSGKFTYEEKKRIVGNGGLVAYLGTSDAREVVRRIKQGDEWAKRVYRAAYQIAKWIGKAAVLKGEVDFIVLTGGLAHEKEFLVPWITKRVSFIAPVLVFPGSNEEKALALSALRVLRGEEKPKNYSEESRRWRERYDSYLDGILR 1sb3-a1-m1-cF_1sb3-a1-m1-cC Structure of 4-hydroxybenzoyl-CoA reductase from Thauera aromatica O33818 O33818 2.2 X-RAY DIFFRACTION 10 1.0 59405 (Thauera aromatica) 59405 (Thauera aromatica) 157 161 MKNILRLTLNGRAREDLVPDNMLLLDYLRETVGLTGTKQGCDGGECGACTVLVDDRPRLACSTLAHQVAGKKVETVESLATQGTLSKLQAAFHEKLGTQCGFCTPGMIMASEALLRKNPSPSRDEIKAALAGNLCRCTGYVKIIKSVETAAAARLCE MKNILRLTLNGRAREDLVPDNMLLLDYLRETVGLTGTKQGCDGGECGACTVLVDDRPRLACSTLAHQVAGKKVETVESLATQGTLSKLQAAFHEKLGTQCGFCTPGMIMASEALLRKNPSPSRDEIKAALAGNLCRCTGYVKIIKSVETAAAARLCEEGAR 1sb7-a1-m1-cA_1sb7-a1-m1-cB Crystal structure of the E.coli pseudouridine synthase TruD Q57261 Q57261 2.2 X-RAY DIFFRACTION 40 0.994 562 (Escherichia coli) 562 (Escherichia coli) 338 340 HIEFDNLTYLHGKPQGTGLLKANPEDFVVVEDLGFEPDGEGEHILVRILKNGCNTRFVADALAKFLKIHAREVSFAGQKDKHAVTEQWLCARVPGKEPDLSAFQLEGCQVLEYARHKRKLRLGALKGNAFTLVLREVSNRDDVEQRLIDICVKGVPNYFGAQRFGIGGSNLQGAQRWAQTNTPVRDRNKRSFWLSAARSALFNQIVAERLKKADVNQVVDGDALQLAGRGSWFVATTEELAELQRRVNDKELITAALPGSGEWGTQREALAFEQAAVAAETELQALLVREKVEAARRALLYPQQLSWNWWDDVTVEIRFWLPAGSFATSVVRELINTT PRGSIEFDNLTYLHGKPQGTGLLKANPEDFVVVEDLGFEPDGEGEHILVRILKNGCNTRFVADALAKFLKIHAREVSFAGQKDKHAVTEQWLCARVPGKEPDLSAFQLEGCQVLEYARHKRKLRLGALKGNAFTLVLREVSNRDDVEQRLIDICVKGVPNYFGAQRFGIGGSNLQGAQRWAQTNTPVRDRNKRSFWLSAARSALFNQIVAERLKKADVNQVVDGDALQLAGRGSWFVATTEELAELQRRVNDKELITAALPGSGEWGTQREALAFEQAAVAAETELQALLVREKVEAARRALLYPQQLSWNWWDDVTVEIRFWLPAGSFATSVVRELINT 1sb8-a1-m1-cA_1sb8-a1-m2-cA Crystal structure of Pseudomonas aeruginosa UDP-N-acetylglucosamine 4-epimerase complexed with UDP-N-acetylgalactosamine Q8KN66 Q8KN66 2.1 X-RAY DIFFRACTION 79 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 341 341 1sb9-a1-m1-cA_1sb9-a1-m2-cA MMSRYEELRKELPAQPKVWLITGVAGFIGSNLLETLLKLDQKVVGLDNFATGHQRNLDEVRSLVSEKQWSNFKFIQGDIRNLDDCNNACAGVDYVLHQAALGSVPRSINDPITSNATNIDGFLNMLIAARDAKVQSFTYAASSSTYGDHPGLPKVEDTIGKPLSPYAVTKYVNELYADVFSRCYGFSTIGLRYFNVFGRRQDPNGAYAAVIPKWTSSMIQGDDVYINGDGETSRDFCYIENTVQANLLAATAGLDARNQVYNIAVGGRTSLNQLFFALRDGLAENGVSYHREPVYRDFREGDVRHSLADISKAAKLLGYAPKYDVSAGVALAMPWYIMFLK MMSRYEELRKELPAQPKVWLITGVAGFIGSNLLETLLKLDQKVVGLDNFATGHQRNLDEVRSLVSEKQWSNFKFIQGDIRNLDDCNNACAGVDYVLHQAALGSVPRSINDPITSNATNIDGFLNMLIAARDAKVQSFTYAASSSTYGDHPGLPKVEDTIGKPLSPYAVTKYVNELYADVFSRCYGFSTIGLRYFNVFGRRQDPNGAYAAVIPKWTSSMIQGDDVYINGDGETSRDFCYIENTVQANLLAATAGLDARNQVYNIAVGGRTSLNQLFFALRDGLAENGVSYHREPVYRDFREGDVRHSLADISKAAKLLGYAPKYDVSAGVALAMPWYIMFLK 1sbb-a1-m1-cA_1sbb-a1-m1-cC T-CELL RECEPTOR BETA CHAIN COMPLEXED WITH SUPERANTIGEN SEB P01852 P01852 2.4 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 238 238 1jck-a1-m1-cC_1jck-a1-m1-cA 2aq3-a1-m1-cA_2aq3-a1-m1-cG 2aq3-a1-m1-cC_2aq3-a1-m1-cE AVTQSPRNKVAVTGGKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILELATPSQTSVYFCASGGGRGSYAEQFFGPGTRLTVLEDLRQVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYCLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD AVTQSPRNKVAVTGGKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILELATPSQTSVYFCASGGGRGSYAEQFFGPGTRLTVLEDLRQVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYCLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD 1sbs-a1-m1-cH_1sbs-a1-m2-cH CRYSTAL STRUCTURE OF AN ANTI-HCG FAB 2 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 222 222 EVNLEESGGGLVQPGGSMKLSCVASGFTFSNYWMNWVRQSPEKGLEWVADIRLKSNNYATLYAESVKGRFTISRDDSKSSVYLQMNNLRAEDTGIYYCTRGAYYRYDYAMDYWGQGTSVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVP EVNLEESGGGLVQPGGSMKLSCVASGFTFSNYWMNWVRQSPEKGLEWVADIRLKSNNYATLYAESVKGRFTISRDDSKSSVYLQMNNLRAEDTGIYYCTRGAYYRYDYAMDYWGQGTSVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVP 1sby-a1-m1-cA_1sby-a1-m1-cB Alcohol dehydrogenase from Drosophila lebanonensis complexed with NAD+ and 2,2,2-trifluoroethanol at 1.1 A resolution P10807 P10807 1.1 X-RAY DIFFRACTION 183 1.0 7225 (Scaptodrosophila lebanonensis) 7225 (Scaptodrosophila lebanonensis) 254 254 1a4u-a1-m1-cA_1a4u-a1-m1-cB 1b14-a1-m1-cA_1b14-a1-m1-cB 1b15-a1-m1-cA_1b15-a1-m1-cB 1b16-a1-m1-cA_1b16-a1-m1-cB 1b2l-a1-m1-cA_1b2l-a1-m2-cA 3rj5-a1-m1-cB_3rj5-a1-m1-cA 3rj9-a1-m1-cA_3rj9-a1-m1-cB 3rj9-a2-m1-cC_3rj9-a2-m1-cD 3rj9-a3-m1-cE_3rj9-a3-m1-cF MDLTNKNVIFVAALGGIGLDTSRELVKRNLKNFVILDRVENPTALAELKAINPKVNITFHTYDVTVPVAESKKLLKKIFDQLKTVDILINGAGILDDHQIERTIAINFTGLVNTTTAILDFWDKRKGGPGGIIANICSVTGFNAIHQVPVYSASKAAVVSFTNSLAKLAPITGVTAYSINPGITRTPLVHTFNSWLDVEPRVAELLLSHPTQTSEQCGQNFVKAIEANKNGAIWKLDLGTLEAIEWTKHWDSHI MDLTNKNVIFVAALGGIGLDTSRELVKRNLKNFVILDRVENPTALAELKAINPKVNITFHTYDVTVPVAESKKLLKKIFDQLKTVDILINGAGILDDHQIERTIAINFTGLVNTTTAILDFWDKRKGGPGGIIANICSVTGFNAIHQVPVYSASKAAVVSFTNSLAKLAPITGVTAYSINPGITRTPLVHTFNSWLDVEPRVAELLLSHPTQTSEQCGQNFVKAIEANKNGAIWKLDLGTLEAIEWTKHWDSHI 1sbz-a1-m1-cB_1sbz-a1-m3-cD Crystal Structure of dodecameric FMN-dependent Ubix-like Decarboxylase from Escherichia coli O157:H7 P69772 P69772 2 X-RAY DIFFRACTION 22 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 165 174 1sbz-a1-m1-cA_1sbz-a1-m2-cA 1sbz-a1-m1-cA_1sbz-a1-m3-cA 1sbz-a1-m2-cA_1sbz-a1-m3-cA 1sbz-a1-m2-cB_1sbz-a1-m1-cD 1sbz-a1-m3-cB_1sbz-a1-m2-cD KLIVGTGATGAPLGVALLQALREPNVETHLVSKWAKTTIELETPYSARDVAALADFSHNPADQAATISSGSFRTDGIVIPCSKTLAGIRAGYADGLVGRAADVVLKEGRKLVLVPREPLSTIHLENLALSRGVAVPPPAFYNHPETVDDIVHHVVARVLDQFGLE KLIVGTGATGAPLGVALLQALREPNVETHLVSKWAKTTIELETPYSARDVAALADFSHNPADQAATISSGSFRTDGIVIPCSKTLAGIRAGYADGLVGRAADVVLKEGRKLVLVPREPLSTIHLENLALSRGVAVPPPAFYNHPETVDDIVHHVVARVLDQFGLEHPYARRWQG 1sbz-a1-m2-cB_1sbz-a1-m3-cB Crystal Structure of dodecameric FMN-dependent Ubix-like Decarboxylase from Escherichia coli O157:H7 P69772 P69772 2 X-RAY DIFFRACTION 42 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 165 165 1sbz-a1-m1-cA_1sbz-a1-m3-cD 1sbz-a1-m1-cB_1sbz-a1-m2-cB 1sbz-a1-m1-cB_1sbz-a1-m3-cB 1sbz-a1-m1-cC_1sbz-a1-m1-cD 1sbz-a1-m1-cC_1sbz-a1-m2-cA 1sbz-a1-m2-cA_1sbz-a1-m1-cD 1sbz-a1-m2-cC_1sbz-a1-m2-cD 1sbz-a1-m2-cC_1sbz-a1-m3-cA 1sbz-a1-m3-cA_1sbz-a1-m2-cD 1sbz-a1-m3-cC_1sbz-a1-m1-cA 1sbz-a1-m3-cC_1sbz-a1-m3-cD KLIVGTGATGAPLGVALLQALREPNVETHLVSKWAKTTIELETPYSARDVAALADFSHNPADQAATISSGSFRTDGIVIPCSKTLAGIRAGYADGLVGRAADVVLKEGRKLVLVPREPLSTIHLENLALSRGVAVPPPAFYNHPETVDDIVHHVVARVLDQFGLE KLIVGTGATGAPLGVALLQALREPNVETHLVSKWAKTTIELETPYSARDVAALADFSHNPADQAATISSGSFRTDGIVIPCSKTLAGIRAGYADGLVGRAADVVLKEGRKLVLVPREPLSTIHLENLALSRGVAVPPPAFYNHPETVDDIVHHVVARVLDQFGLE 1sbz-a1-m3-cB_1sbz-a1-m3-cD Crystal Structure of dodecameric FMN-dependent Ubix-like Decarboxylase from Escherichia coli O157:H7 P69772 P69772 2 X-RAY DIFFRACTION 87 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 165 174 1sbz-a1-m1-cB_1sbz-a1-m1-cD 1sbz-a1-m1-cC_1sbz-a1-m1-cA 1sbz-a1-m2-cB_1sbz-a1-m2-cD 1sbz-a1-m2-cC_1sbz-a1-m2-cA 1sbz-a1-m3-cC_1sbz-a1-m3-cA KLIVGTGATGAPLGVALLQALREPNVETHLVSKWAKTTIELETPYSARDVAALADFSHNPADQAATISSGSFRTDGIVIPCSKTLAGIRAGYADGLVGRAADVVLKEGRKLVLVPREPLSTIHLENLALSRGVAVPPPAFYNHPETVDDIVHHVVARVLDQFGLE KLIVGTGATGAPLGVALLQALREPNVETHLVSKWAKTTIELETPYSARDVAALADFSHNPADQAATISSGSFRTDGIVIPCSKTLAGIRAGYADGLVGRAADVVLKEGRKLVLVPREPLSTIHLENLALSRGVAVPPPAFYNHPETVDDIVHHVVARVLDQFGLEHPYARRWQG 1sc6-a1-m1-cD_1sc6-a1-m1-cA Crystal Structure of W139G D-3-Phosphoglycerate dehydrogenase complexed with NAD+ P0A9T0 P0A9T0 2.09 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 376 382 1sc6-a1-m1-cC_1sc6-a1-m1-cB EKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVGSFEARGKKLGIIGYGHIGTQLGILAESLGYVYFYDIENKLPLGNATQVQHLSDLLNSDVVSLHVPENPSTKNGAKEISLKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVPFTSPLAEFDNVLLTPSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHGGRRLHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQGYVVIDIEADEDVAEKALQAKAIPGTIRARLLY EKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVGNSFEARGKKLGIIGYGHIGTQLGILAESLGYVYFYDIENKLPLGNATQVQHLSDLLNSDVVSLHVPENPSTKNGAKEISLKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVDPFTSPLAEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHGGRRLHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQGYVVIDIEADEDVAEKALQAKAIPGTIRARLLY 1sc6-a1-m1-cD_1sc6-a1-m1-cB Crystal Structure of W139G D-3-Phosphoglycerate dehydrogenase complexed with NAD+ P0A9T0 P0A9T0 2.09 X-RAY DIFFRACTION 102 0.989 562 (Escherichia coli) 562 (Escherichia coli) 376 377 1sc6-a1-m1-cC_1sc6-a1-m1-cA EKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVGSFEARGKKLGIIGYGHIGTQLGILAESLGYVYFYDIENKLPLGNATQVQHLSDLLNSDVVSLHVPENPSTKNGAKEISLKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVPFTSPLAEFDNVLLTPSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHGGRRLHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQGYVVIDIEADEDVAEKALQAKAIPGTIRARLLY EKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVGNSFEARGKKLGIIGYGHIGTQLGILAESLGYVYFYDIENKLPLGNATQVQHLSDLLNSDVVSLHVPENPSTKNGAKEISLKPGSLLINASRGTVVDIPALADALASKHLAGAAIDSPLAEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHGGRRLHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQGYVVIDIEADEDVAEKALQAKAIPGTIRARLLY 1sce-a1-m1-cA_1sce-a1-m1-cC CRYSTAL STRUCTURE OF THE CELL CYCLE REGULATORY PROTEIN SUC1 REVEALS A NOVEL BETA-HINGE CONFORMATIONAL SWITCH P08463 P08463 2.2 X-RAY DIFFRACTION 141 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 97 111 VPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKD SKSGVPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKDYQMKSQQRGG 1sce-a2-m1-cA_1sce-a2-m1-cB CRYSTAL STRUCTURE OF THE CELL CYCLE REGULATORY PROTEIN SUC1 REVEALS A NOVEL BETA-HINGE CONFORMATIONAL SWITCH P08463 P08463 2.2 X-RAY DIFFRACTION 37 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 97 97 1sce-a1-m1-cA_1sce-a1-m1-cB VPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKD VPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKD 1sce-a2-m1-cA_1sce-a2-m2-cC CRYSTAL STRUCTURE OF THE CELL CYCLE REGULATORY PROTEIN SUC1 REVEALS A NOVEL BETA-HINGE CONFORMATIONAL SWITCH P08463 P08463 2.2 X-RAY DIFFRACTION 11 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 97 111 VPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKD SKSGVPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKDYQMKSQQRGG 1sce-a2-m1-cB_1sce-a2-m1-cD CRYSTAL STRUCTURE OF THE CELL CYCLE REGULATORY PROTEIN SUC1 REVEALS A NOVEL BETA-HINGE CONFORMATIONAL SWITCH P08463 P08463 2.2 X-RAY DIFFRACTION 135 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 97 103 1puc-a1-m1-cA_1puc-a1-m2-cA 1sce-a1-m1-cB_1sce-a1-m1-cD VPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKD KSGVPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKDYQM 1sce-a2-m1-cB_1sce-a2-m2-cC CRYSTAL STRUCTURE OF THE CELL CYCLE REGULATORY PROTEIN SUC1 REVEALS A NOVEL BETA-HINGE CONFORMATIONAL SWITCH P08463 P08463 2.2 X-RAY DIFFRACTION 12 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 97 111 VPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKD SKSGVPRLLTASERERLEPFIDQIHYSPRYADDEYEYRHVMLPKAMLKAIPTDYFNPETGTLRILQEEEWRGLGITQSLGWEMYEVHVPEPHILLFKREKDYQMKSQQRGG 1scf-a3-m1-cC_1scf-a3-m1-cD HUMAN RECOMBINANT STEM CELL FACTOR P21583 P21583 2.2 X-RAY DIFFRACTION 60 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 1scf-a2-m1-cC_1scf-a2-m1-cD NVKDVTKLVANLPKDYITLKYVPGDVLPSHCWISEVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKSPEPRLFTPEEFFRIFNRSIDAF NVKDVTKLVANLPKDYITLKYVPGDVLPSHCWISEVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVSPEPRLFTPEEFFRIFNRSIDAFK 1scf-a3-m1-cC_1scf-a3-m2-cA HUMAN RECOMBINANT STEM CELL FACTOR P21583 P21583 2.2 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 116 NVKDVTKLVANLPKDYITLKYVPGDVLPSHCWISEVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKSPEPRLFTPEEFFRIFNRSIDAF NVKDVTKLVANLPKDYITLKYVPGDVLPSHCWISEVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKSPEPRLFTPEEFFRIFNRSIDAFKDFVVASETSDCVVS 1scf-a3-m1-cD_1scf-a3-m2-cA HUMAN RECOMBINANT STEM CELL FACTOR P21583 P21583 2.2 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 116 NVKDVTKLVANLPKDYITLKYVPGDVLPSHCWISEVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVSPEPRLFTPEEFFRIFNRSIDAFK NVKDVTKLVANLPKDYITLKYVPGDVLPSHCWISEVVQLSDSLTDLLDKFSNISEGLSNYSIIDKLVNIVDDLVECVKSPEPRLFTPEEFFRIFNRSIDAFKDFVVASETSDCVVS 1scu-a1-m1-cB_1scu-a1-m1-cE THE CRYSTAL STRUCTURE OF SUCCINYL-COA SYNTHETASE FROM ESCHERICHIA COLI AT 2.5 ANGSTROMS RESOLUTION P0A836 P0A836 2.5 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 388 388 1cqi-a1-m1-cB_1cqi-a1-m1-cE 1cqj-a1-m1-cB_1cqj-a1-m1-cE MNLHEYQAKQLFARYGLPAPVGYACTTPREAEEAASKIGAGPWVVKCQVHAGGRGKAGGVKVVNSKEDIRAFAENWLGKRLVTYQTDANGQPVNQILVEAATDIAKELYLGAVVDRSSRRVVFMASTEGGVEIEKVAEETPHLIHKVALDPLTGPMPYQGRELAFKLGLEGKLVQQFTKIFMGLATIFLERDLALIEINPLVITKQGDLICLDGKLGADGNALFRQPDLREMRDQSQEDPREAQAAQWELNYVALDGNIGCMVNGAGLAMGTMDIVKLHGGEPANFLDVGGGATKERVTEAFKIILSDDKVKAVLVNIFGGIVRCDLIADGIIGAVAEVGVNVPVVVRLEGNNAELGAKKLADSGLNIIAAKGLTDAAQQVVAAVEGK MNLHEYQAKQLFARYGLPAPVGYACTTPREAEEAASKIGAGPWVVKCQVHAGGRGKAGGVKVVNSKEDIRAFAENWLGKRLVTYQTDANGQPVNQILVEAATDIAKELYLGAVVDRSSRRVVFMASTEGGVEIEKVAEETPHLIHKVALDPLTGPMPYQGRELAFKLGLEGKLVQQFTKIFMGLATIFLERDLALIEINPLVITKQGDLICLDGKLGADGNALFRQPDLREMRDQSQEDPREAQAAQWELNYVALDGNIGCMVNGAGLAMGTMDIVKLHGGEPANFLDVGGGATKERVTEAFKIILSDDKVKAVLVNIFGGIVRCDLIADGIIGAVAEVGVNVPVVVRLEGNNAELGAKKLADSGLNIIAAKGLTDAAQQVVAAVEGK 1sd4-a1-m1-cA_1sd4-a1-m1-cB Crystal Structure of a SeMet derivative of BlaI at 2.0 A P0A042 P0A042 2 X-RAY DIFFRACTION 80 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 118 118 QVEISAEWDVNIIWDKKSVSANEIVVEIQKYKEVSDKTIRTLITRLYKKEIIKRYKSENIYFYSSNIKEDDIKKTAKTFLNKLYGGDKSLVLNFAKNEELNNKEIEELRDILNDISKK QVEISAEWDVNIIWDKKSVSANEIVVEIQKYKEVSDKTIRTLITRLYKKEIIKRYKSENIYFYSSNIKEDDIKKTAKTFLNKLYGGDKSLVLNFAKNEELNNKEIEELRDILNDISKK 1sdo-a1-m1-cA_1sdo-a1-m2-cA Crystal Structure of Restriction Endonuclease BstYI Q84AF2 Q84AF2 1.85 X-RAY DIFFRACTION 107 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 192 192 1vrr-a1-m1-cA_1vrr-a1-m1-cB 2p0j-a1-m1-cB_2p0j-a1-m1-cA MRIVEVYSHLNGLEYIQVHLPHIWEEIQEIIVSIDAEACRTILYSPVALNEAFKEKLEAKGWKESRTNYYVTADPKLIRETLSLEPEEQKKVIEAAGKEALKSYNQTDFVKDRVAIEVQFGKYSFVAYDLFVKHMAFYVSDKIDVGVEILPMKELSKEMSSGISYYEGELYNVIRQGRGVPAVPLVLIGIAP MRIVEVYSHLNGLEYIQVHLPHIWEEIQEIIVSIDAEACRTILYSPVALNEAFKEKLEAKGWKESRTNYYVTADPKLIRETLSLEPEEQKKVIEAAGKEALKSYNQTDFVKDRVAIEVQFGKYSFVAYDLFVKHMAFYVSDKIDVGVEILPMKELSKEMSSGISYYEGELYNVIRQGRGVPAVPLVLIGIAP 1sdy-a1-m1-cD_1sdy-a1-m1-cA STRUCTURE SOLUTION AND MOLECULAR DYNAMICS REFINEMENT OF THE YEAST CU,ZN ENZYME SUPEROXIDE DISMUTASE P00445 P00445 2.5 X-RAY DIFFRACTION 15 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 153 153 VQAVAVLKGDAGVSGVVKFEQASESEPTTVSYEIAGNSPNAERGFHIHEFGDATNGCVSAGPHFNPFKKTHGAPTDEVRHVGDMGNVKTDENGVAKGSFKDSLIKLIGPTSVVGRSVVIHAGQDDLGKGDTEESLKTGNAGPRPACGVIGLTN VQAVAVLKGDAGVSGVVKFEQASESEPTTVSYEIAGNSPNAERGFHIHEFGDATNGCVSAGPHFNPFKKTHGAPTDEVRHVGDMGNVKTDENGVAKGSFKDSLIKLIGPTSVVGRSVVIHAGQDDLGKGDTEESLKTGNAGPRPACGVIGLTN 1sdy-a1-m1-cD_1sdy-a1-m1-cB STRUCTURE SOLUTION AND MOLECULAR DYNAMICS REFINEMENT OF THE YEAST CU,ZN ENZYME SUPEROXIDE DISMUTASE P00445 P00445 2.5 X-RAY DIFFRACTION 13 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 153 153 VQAVAVLKGDAGVSGVVKFEQASESEPTTVSYEIAGNSPNAERGFHIHEFGDATNGCVSAGPHFNPFKKTHGAPTDEVRHVGDMGNVKTDENGVAKGSFKDSLIKLIGPTSVVGRSVVIHAGQDDLGKGDTEESLKTGNAGPRPACGVIGLTN VQAVAVLKGDAGVSGVVKFEQASESEPTTVSYEIAGNSPNAERGFHIHEFGDATNGCVSAGPHFNPFKKTHGAPTDEVRHVGDMGNVKTDENGVAKGSFKDSLIKLIGPTSVVGRSVVIHAGQDDLGKGDTEESLKTGNAGPRPACGVIGLTN 1se8-a1-m1-cA_1se8-a1-m2-cA Structure of single-stranded DNA-binding protein (SSB) from D. radiodurans Q9RY51 Q9RY51 1.8 X-RAY DIFFRACTION 49 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 205 205 RGNHVYLIGALARDPELRYTGNGAVFEATVAGEDRVRNLPWYHRVSILGKPAEWQAERNLKGGDAVVVEGTLEYRQWEKRSAVNVKALREQLGTQPELIQDAGGGVRSGANEVLVLGNVTRDPEIRYTPAGDAVLSLSIAVNENYQDRQGQRQEKVHYIDATLWRDLAENKELRKGDPVIGRLVNEGWTRNSTRVEATRVEALAR RGNHVYLIGALARDPELRYTGNGAVFEATVAGEDRVRNLPWYHRVSILGKPAEWQAERNLKGGDAVVVEGTLEYRQWEKRSAVNVKALREQLGTQPELIQDAGGGVRSGANEVLVLGNVTRDPEIRYTPAGDAVLSLSIAVNENYQDRQGQRQEKVHYIDATLWRDLAENKELRKGDPVIGRLVNEGWTRNSTRVEATRVEALAR 1sed-a1-m1-cA_1sed-a1-m1-cC Crystal Structure of Protein of Unknown Function YhaL from Bacillus subtilis O07517 O07517 2.1 X-RAY DIFFRACTION 39 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 112 112 1sed-a1-m1-cB_1sed-a1-m1-cA 1sed-a1-m1-cB_1sed-a1-m1-cC DSMDHRIERLEYYIQLLVKTVDMDRYPFYALLIDKGLSKEEGEAVMRICDELSEELATQKAQGFVTFDKLLALFAGQLNEKLDVHETIFALYEQGLYQELMEVFIDIMKHFD DSMDHRIERLEYYIQLLVKTVDMDRYPFYALLIDKGLSKEEGEAVMRICDELSEELATQKAQGFVTFDKLLALFAGQLNEKLDVHETIFALYEQGLYQELMEVFIDIMKHFD 1sef-a2-m2-cA_1sef-a2-m8-cA Crystal structure of cupin domain protein EF2996 from Enterococcus faecalis Q82ZQ3 Q82ZQ3 2.05 X-RAY DIFFRACTION 48 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 250 250 1sef-a2-m1-cA_1sef-a2-m7-cA 1sef-a2-m3-cA_1sef-a2-m5-cA 1sef-a2-m4-cA_1sef-a2-m6-cA KELLTSRAVIKKDNYAIIPHDGLVQNAVPGFENVDISILGSPKLGATFVDYIATFHKNGQQTTGFGGDGIQTLVYVIDGRLRVSDGQETHELEAGGYAYFTPEMKMYLANAQEADTEVFLYKKRYQPLAGHQPYKVVGSIHDQQPEEYEGMTDVLLWSLLPKEFDFDMNMHILSFEPGASHAYIETHVQEHGAYLISGQGMYNLDNEWYPVEKGDYIFMSAYVPQAAYAVGREEPLMYVYSKDANREPEL KELLTSRAVIKKDNYAIIPHDGLVQNAVPGFENVDISILGSPKLGATFVDYIATFHKNGQQTTGFGGDGIQTLVYVIDGRLRVSDGQETHELEAGGYAYFTPEMKMYLANAQEADTEVFLYKKRYQPLAGHQPYKVVGSIHDQQPEEYEGMTDVLLWSLLPKEFDFDMNMHILSFEPGASHAYIETHVQEHGAYLISGQGMYNLDNEWYPVEKGDYIFMSAYVPQAAYAVGREEPLMYVYSKDANREPEL 1sef-a2-m3-cA_1sef-a2-m8-cA Crystal structure of cupin domain protein EF2996 from Enterococcus faecalis Q82ZQ3 Q82ZQ3 2.05 X-RAY DIFFRACTION 20 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 250 250 1sef-a2-m1-cA_1sef-a2-m5-cA 1sef-a2-m2-cA_1sef-a2-m6-cA 1sef-a2-m4-cA_1sef-a2-m7-cA KELLTSRAVIKKDNYAIIPHDGLVQNAVPGFENVDISILGSPKLGATFVDYIATFHKNGQQTTGFGGDGIQTLVYVIDGRLRVSDGQETHELEAGGYAYFTPEMKMYLANAQEADTEVFLYKKRYQPLAGHQPYKVVGSIHDQQPEEYEGMTDVLLWSLLPKEFDFDMNMHILSFEPGASHAYIETHVQEHGAYLISGQGMYNLDNEWYPVEKGDYIFMSAYVPQAAYAVGREEPLMYVYSKDANREPEL KELLTSRAVIKKDNYAIIPHDGLVQNAVPGFENVDISILGSPKLGATFVDYIATFHKNGQQTTGFGGDGIQTLVYVIDGRLRVSDGQETHELEAGGYAYFTPEMKMYLANAQEADTEVFLYKKRYQPLAGHQPYKVVGSIHDQQPEEYEGMTDVLLWSLLPKEFDFDMNMHILSFEPGASHAYIETHVQEHGAYLISGQGMYNLDNEWYPVEKGDYIFMSAYVPQAAYAVGREEPLMYVYSKDANREPEL 1sef-a2-m6-cA_1sef-a2-m8-cA Crystal structure of cupin domain protein EF2996 from Enterococcus faecalis Q82ZQ3 Q82ZQ3 2.05 X-RAY DIFFRACTION 87 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 250 250 1sef-a2-m1-cA_1sef-a2-m3-cA 1sef-a2-m1-cA_1sef-a2-m4-cA 1sef-a2-m2-cA_1sef-a2-m3-cA 1sef-a2-m2-cA_1sef-a2-m4-cA 1sef-a2-m5-cA_1sef-a2-m7-cA 1sef-a2-m5-cA_1sef-a2-m8-cA 1sef-a2-m6-cA_1sef-a2-m7-cA KELLTSRAVIKKDNYAIIPHDGLVQNAVPGFENVDISILGSPKLGATFVDYIATFHKNGQQTTGFGGDGIQTLVYVIDGRLRVSDGQETHELEAGGYAYFTPEMKMYLANAQEADTEVFLYKKRYQPLAGHQPYKVVGSIHDQQPEEYEGMTDVLLWSLLPKEFDFDMNMHILSFEPGASHAYIETHVQEHGAYLISGQGMYNLDNEWYPVEKGDYIFMSAYVPQAAYAVGREEPLMYVYSKDANREPEL KELLTSRAVIKKDNYAIIPHDGLVQNAVPGFENVDISILGSPKLGATFVDYIATFHKNGQQTTGFGGDGIQTLVYVIDGRLRVSDGQETHELEAGGYAYFTPEMKMYLANAQEADTEVFLYKKRYQPLAGHQPYKVVGSIHDQQPEEYEGMTDVLLWSLLPKEFDFDMNMHILSFEPGASHAYIETHVQEHGAYLISGQGMYNLDNEWYPVEKGDYIFMSAYVPQAAYAVGREEPLMYVYSKDANREPEL 1sei-a1-m1-cA_1sei-a1-m1-cB STRUCTURE OF 30S RIBOSOMAL PROTEIN S8 P56209 P56209 1.9 X-RAY DIFFRACTION 27 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 130 130 VMTDPIADMLTAIRNANMVRHEKLEVPASKIKREIAEILKREGFIRDYEYIEDNKQGILRIFLKYGPNERVITGLKRISKPGLRVYVKAHEVPRVLNGLGIAILSTSQGVLTDKEARQKGTGGEIIAYVI VMTDPIADMLTAIRNANMVRHEKLEVPASKIKREIAEILKREGFIRDYEYIEDNKQGILRIFLKYGPNERVITGLKRISKPGLRVYVKAHEVPRVLNGLGIAILSTSQGVLTDKEARQKGTGGEIIAYVI 1sek-a1-m1-cA_1sek-a1-m2-cA THE STRUCTURE OF ACTIVE SERPIN K FROM MANDUCA SEXTA AND A MODEL FOR SERPIN-PROTEASE COMPLEX FORMATION Q25526 Q25526 2.1 X-RAY DIFFRACTION 49 1.0 7130 (Manduca sexta) 7130 (Manduca sexta) 376 376 GETDLQKILRESNDQFTAQMFSEVVKANPGQNVVLSAFSVLPPLGQLALASVGESHDELLRALALPNDNVTKDVFADLNRGVRAVKGVDLKMASKIYVAKGLELNDDFAAVSRDVFGSEVQNVDFVKSVEAAGAINKWVEDQTNNRIKNLVDPDALDETTRSVLVNAIYFKGSWKDKFNKERTMDRDFHVSKDKTIKVPTMIGKKDVRYADVPELDAKMIEMSYEGDQASMIIILPNQVDGITALEQKLKDPKALSRAEERLYNTEVEIYLPKFKIETTTDLKEVLSNMNIKKLFTPGAARLENLLKTKESLYVDAAIQKAFIEVNEEGAEAAAANAFKITTYSFHFVPKVEINKPFFFSLKYNRNSMFSGVCVQP GETDLQKILRESNDQFTAQMFSEVVKANPGQNVVLSAFSVLPPLGQLALASVGESHDELLRALALPNDNVTKDVFADLNRGVRAVKGVDLKMASKIYVAKGLELNDDFAAVSRDVFGSEVQNVDFVKSVEAAGAINKWVEDQTNNRIKNLVDPDALDETTRSVLVNAIYFKGSWKDKFNKERTMDRDFHVSKDKTIKVPTMIGKKDVRYADVPELDAKMIEMSYEGDQASMIIILPNQVDGITALEQKLKDPKALSRAEERLYNTEVEIYLPKFKIETTTDLKEVLSNMNIKKLFTPGAARLENLLKTKESLYVDAAIQKAFIEVNEEGAEAAAANAFKITTYSFHFVPKVEINKPFFFSLKYNRNSMFSGVCVQP 1ses-a1-m1-cA_1ses-a1-m1-cB CRYSTAL STRUCTURES AT 2.5 ANGSTROMS RESOLUTION OF SERYL-TRNA SYNTHETASE COMPLEXED WITH TWO DIFFERENT ANALOGUES OF SERYL-ADENYLATE P34945 P34945 2.5 X-RAY DIFFRACTION 160 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 421 421 1set-a1-m1-cA_1set-a1-m1-cB 1sry-a1-m1-cA_1sry-a1-m1-cB MVDLKRLRQEPEVFHRAIREKGVALDLEALLALDREVQELKKRLQEVQTERNQVAKRVPKAPPEEKEALIARGKALGEEAKRLEEALREKEARLEALLLQVPLPPWPGAPVGGEEANREIKRVGGPPEFSFPPLDHVALMEKNGWWEPRISQVSGSRSYALKGDLALYELALLRFAMDFMARRGFLPMTLPSYAREKAFLGTGHFPAYRDQVWAIAETDLYLTGTAEVVLNALHSGEILPYEALPLRYAGYAPAFRSEAGSFGKDVRGLMRVHQFHKVEQYVLTEASLEASDRAFQELLENAEEILRLLELPYRLVEVATGDMGPGKWRQVDIEVYLPSEGRYRETHSCSALLDWQARRANLRYRDPEGRVRYAYTLNNTALATPRILAMLLENHQLQDGRVRVPQALIPYMGKEVLEPCG MVDLKRLRQEPEVFHRAIREKGVALDLEALLALDREVQELKKRLQEVQTERNQVAKRVPKAPPEEKEALIARGKALGEEAKRLEEALREKEARLEALLLQVPLPPWPGAPVGGEEANREIKRVGGPPEFSFPPLDHVALMEKNGWWEPRISQVSGSRSYALKGDLALYELALLRFAMDFMARRGFLPMTLPSYAREKAFLGTGHFPAYRDQVWAIAETDLYLTGTAEVVLNALHSGEILPYEALPLRYAGYAPAFRSEAGSFGKDVRGLMRVHQFHKVEQYVLTEASLEASDRAFQELLENAEEILRLLELPYRLVEVATGDMGPGKWRQVDIEVYLPSEGRYRETHSCSALLDWQARRANLRYRDPEGRVRYAYTLNNTALATPRILAMLLENHQLQDGRVRVPQALIPYMGKEVLEPCG 1sez-a2-m1-cA_1sez-a2-m2-cB Crystal Structure of Protoporphyrinogen IX Oxidase O24164 O24164 2.9 X-RAY DIFFRACTION 33 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 456 456 1sez-a2-m1-cB_1sez-a2-m2-cA AKRVAVIGAGVSGLAAAYKLKIHGLNVTVFEAEGKAGGKLRSVSQDGLIWDEGANTTESEGDVTFLIDSLGLREKQQFPLSQNKRYIARNGTPVLLPSNPIDLIKSNFLSTGSKLQLLEPILWSHESVSGFFQRHFGKEVVDYLIDPFVAGTCGGDPDSLSHHSFPELWNLEKRFGSVILGAIRSKLSKTSANKKRQRGSFSFLGGQTLTDAICKDLREDELRLNSRVLELSCSCTEDSAIDSWSIISASPHKRQSEEESFDAVITAPLCDVKSKIAKRGNPFLLNFIPEVDYVPLSVVITTFKRENVKYPLEGFGVLVPSKEQQHGLKTLGTLFSSFPDRAPNNVYLYTTFVGGSRNRELAKASRTELKEIVTSDLKQLLGAEGEPTYVNHLYWSKAFPLYGHNYDSVLDAIDKEKNLPGLFYAGNHRGGLSVGKALSSGCNAADLVISYLESVS AKRVAVIGAGVSGLAAAYKLKIHGLNVTVFEAEGKAGGKLRSVSQDGLIWDEGANTTESEGDVTFLIDSLGLREKQQFPLSQNKRYIARNGTPVLLPSNPIDLIKSNFLSTGSKLQLLEPILWSHESVSGFFQRHFGKEVVDYLIDPFVAGTCGGDPDSLSHHSFPELWNLEKRFGSVILGAIRSKLSKTSANKKRQRGSFSFLGGQTLTDAICKDLREDELRLNSRVLELSCSCTEDSAIDSWSIISASPHKRQSEEESFDAVITAPLCDVKSKIAKRGNPFLLNFIPEVDYVPLSVVITTFKRENVKYPLEGFGVLVPSKEQQHGLKTLGTLFSSFPDRAPNNVYLYTTFVGGSRNRELAKASRTELKEIVTSDLKQLLGAEGEPTYVNHLYWSKAFPLYGHNYDSVLDAIDKEKNLPGLFYAGNHRGGLSVGKALSSGCNAADLVISYLESVS 1sez-a2-m2-cA_1sez-a2-m2-cB Crystal Structure of Protoporphyrinogen IX Oxidase O24164 O24164 2.9 X-RAY DIFFRACTION 40 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 456 456 1sez-a1-m1-cA_1sez-a1-m1-cB 1sez-a2-m1-cA_1sez-a2-m1-cB AKRVAVIGAGVSGLAAAYKLKIHGLNVTVFEAEGKAGGKLRSVSQDGLIWDEGANTTESEGDVTFLIDSLGLREKQQFPLSQNKRYIARNGTPVLLPSNPIDLIKSNFLSTGSKLQLLEPILWSHESVSGFFQRHFGKEVVDYLIDPFVAGTCGGDPDSLSHHSFPELWNLEKRFGSVILGAIRSKLSKTSANKKRQRGSFSFLGGQTLTDAICKDLREDELRLNSRVLELSCSCTEDSAIDSWSIISASPHKRQSEEESFDAVITAPLCDVKSKIAKRGNPFLLNFIPEVDYVPLSVVITTFKRENVKYPLEGFGVLVPSKEQQHGLKTLGTLFSSFPDRAPNNVYLYTTFVGGSRNRELAKASRTELKEIVTSDLKQLLGAEGEPTYVNHLYWSKAFPLYGHNYDSVLDAIDKEKNLPGLFYAGNHRGGLSVGKALSSGCNAADLVISYLESVS AKRVAVIGAGVSGLAAAYKLKIHGLNVTVFEAEGKAGGKLRSVSQDGLIWDEGANTTESEGDVTFLIDSLGLREKQQFPLSQNKRYIARNGTPVLLPSNPIDLIKSNFLSTGSKLQLLEPILWSHESVSGFFQRHFGKEVVDYLIDPFVAGTCGGDPDSLSHHSFPELWNLEKRFGSVILGAIRSKLSKTSANKKRQRGSFSFLGGQTLTDAICKDLREDELRLNSRVLELSCSCTEDSAIDSWSIISASPHKRQSEEESFDAVITAPLCDVKSKIAKRGNPFLLNFIPEVDYVPLSVVITTFKRENVKYPLEGFGVLVPSKEQQHGLKTLGTLFSSFPDRAPNNVYLYTTFVGGSRNRELAKASRTELKEIVTSDLKQLLGAEGEPTYVNHLYWSKAFPLYGHNYDSVLDAIDKEKNLPGLFYAGNHRGGLSVGKALSSGCNAADLVISYLESVS 1sf8-a5-m1-cE_1sf8-a5-m3-cB Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 112 SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sf8-a7-m4-cB_1sf8-a7-m1-cG Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 118 1sf8-a5-m1-cF_1sf8-a5-m1-cC 1sf8-a5-m3-cB_1sf8-a5-m2-cG 1sf8-a6-m1-cF_1sf8-a6-m1-cC SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS HHHHHGSFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sf8-a9-m1-cA_1sf8-a9-m1-cB Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 112 1sf8-a8-m1-cF_1sf8-a8-m5-cE SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sf8-a9-m1-cA_1sf8-a9-m1-cC Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 117 1sf8-a8-m1-cF_1sf8-a8-m1-cH 1sf8-a8-m5-cE_1sf8-a8-m5-cG 1sf8-a9-m1-cB_1sf8-a9-m1-cD SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS HHHHGSFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sf8-a9-m1-cA_1sf8-a9-m1-cD Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 112 1sf8-a8-m5-cE_1sf8-a8-m1-cH SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sf8-a9-m1-cB_1sf8-a9-m1-cC Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 117 1sf8-a8-m1-cF_1sf8-a8-m5-cG SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS HHHHGSFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sf8-a9-m1-cD_1sf8-a9-m1-cC Crystal structure of the carboxy-terminal domain of htpG, the E. coli Hsp90 P0A6Z3 P0A6Z3 2.6 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 117 1sf8-a5-m1-cD_1sf8-a5-m1-cC 1sf8-a5-m3-cH_1sf8-a5-m2-cG 1sf8-a6-m1-cD_1sf8-a6-m1-cC 1sf8-a7-m4-cH_1sf8-a7-m1-cG 1sf8-a8-m1-cH_1sf8-a8-m5-cG SFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS HHHHGSFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADESTQAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRNQLLVS 1sff-a1-m1-cB_1sff-a1-m1-cD Structure of gamma-aminobutyrate aminotransferase complex with aminooxyacetate P22256 P22256 1.9 X-RAY DIFFRACTION 72 1.0 562 (Escherichia coli) 562 (Escherichia coli) 425 425 1sf2-a1-m1-cA_1sf2-a1-m1-cC 1sf2-a1-m1-cB_1sf2-a1-m1-cD 1sff-a1-m1-cA_1sff-a1-m1-cC 1szk-a1-m1-cA_1szk-a1-m1-cC 1szk-a1-m1-cB_1szk-a1-m1-cD 1szs-a1-m1-cA_1szs-a1-m1-cC 1szs-a1-m1-cB_1szs-a1-m1-cD 1szu-a1-m1-cA_1szu-a1-m1-cC 1szu-a1-m1-cB_1szu-a1-m1-cD NSNKELMQRRSQAIPRGVGQIHPIFADRAENCRVWDVEGREYLDFAGGIAVLNTGHLHPKVVAAVEAQLKKLSHTCFQVLAYEPYLELCEIMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATKRSGTIAFSGAYHGRTHYTLALTGKVNPYSAGMGLMPGHVYRALYPCPLHGISEDDAIASIHRIFKNDAAPEDIAAIVIEPVQGEGGFYASSPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAPDLTTFAKSIAGGFPLAGVTGRAEVMDAVAPGGLGGTYAGNPIACVAALEVLKVFEQENLLQKANDLGQKLKDGLLAIAEKHPEIGDVRGLGAMIAIELFEDGDHNKPDAKLTAEIVARARDKGLILLSCGPYYNVLRILVPLTIEDAQIRQGLEIISQCFDEAKQ NSNKELMQRRSQAIPRGVGQIHPIFADRAENCRVWDVEGREYLDFAGGIAVLNTGHLHPKVVAAVEAQLKKLSHTCFQVLAYEPYLELCEIMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATKRSGTIAFSGAYHGRTHYTLALTGKVNPYSAGMGLMPGHVYRALYPCPLHGISEDDAIASIHRIFKNDAAPEDIAAIVIEPVQGEGGFYASSPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAPDLTTFAKSIAGGFPLAGVTGRAEVMDAVAPGGLGGTYAGNPIACVAALEVLKVFEQENLLQKANDLGQKLKDGLLAIAEKHPEIGDVRGLGAMIAIELFEDGDHNKPDAKLTAEIVARARDKGLILLSCGPYYNVLRILVPLTIEDAQIRQGLEIISQCFDEAKQ 1sff-a1-m1-cC_1sff-a1-m1-cD Structure of gamma-aminobutyrate aminotransferase complex with aminooxyacetate P22256 P22256 1.9 X-RAY DIFFRACTION 385 1.0 562 (Escherichia coli) 562 (Escherichia coli) 425 425 1sf2-a1-m1-cA_1sf2-a1-m1-cB 1sf2-a1-m1-cC_1sf2-a1-m1-cD 1sff-a1-m1-cA_1sff-a1-m1-cB 1szk-a1-m1-cA_1szk-a1-m1-cB 1szk-a1-m1-cC_1szk-a1-m1-cD 1szs-a1-m1-cA_1szs-a1-m1-cB 1szs-a1-m1-cC_1szs-a1-m1-cD 1szu-a1-m1-cA_1szu-a1-m1-cB 1szu-a1-m1-cC_1szu-a1-m1-cD NSNKELMQRRSQAIPRGVGQIHPIFADRAENCRVWDVEGREYLDFAGGIAVLNTGHLHPKVVAAVEAQLKKLSHTCFQVLAYEPYLELCEIMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATKRSGTIAFSGAYHGRTHYTLALTGKVNPYSAGMGLMPGHVYRALYPCPLHGISEDDAIASIHRIFKNDAAPEDIAAIVIEPVQGEGGFYASSPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAPDLTTFAKSIAGGFPLAGVTGRAEVMDAVAPGGLGGTYAGNPIACVAALEVLKVFEQENLLQKANDLGQKLKDGLLAIAEKHPEIGDVRGLGAMIAIELFEDGDHNKPDAKLTAEIVARARDKGLILLSCGPYYNVLRILVPLTIEDAQIRQGLEIISQCFDEAKQ NSNKELMQRRSQAIPRGVGQIHPIFADRAENCRVWDVEGREYLDFAGGIAVLNTGHLHPKVVAAVEAQLKKLSHTCFQVLAYEPYLELCEIMNQKVPGDFAKKTLLVTTGSEAVENAVKIARAATKRSGTIAFSGAYHGRTHYTLALTGKVNPYSAGMGLMPGHVYRALYPCPLHGISEDDAIASIHRIFKNDAAPEDIAAIVIEPVQGEGGFYASSPAFMQRLRALCDEHGIMLIADEVQSGAGRTGTLFAMEQMGVAPDLTTFAKSIAGGFPLAGVTGRAEVMDAVAPGGLGGTYAGNPIACVAALEVLKVFEQENLLQKANDLGQKLKDGLLAIAEKHPEIGDVRGLGAMIAIELFEDGDHNKPDAKLTAEIVARARDKGLILLSCGPYYNVLRILVPLTIEDAQIRQGLEIISQCFDEAKQ 1sfk-a1-m1-cA_1sfk-a1-m1-cD Core (C) protein from West Nile Virus, subtype Kunjin P14335 P14335 3.2 X-RAY DIFFRACTION 23 1.0 11078 (Kunjin virus (STRAIN MRM61C)) 11078 (Kunjin virus (STRAIN MRM61C)) 73 73 1sfk-a1-m1-cB_1sfk-a1-m1-cC 1sfk-a2-m1-cF_1sfk-a2-m1-cG 1sfk-a2-m1-cH_1sfk-a2-m1-cE LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR 1sfk-a3-m2-cA_1sfk-a3-m4-cC Core (C) protein from West Nile Virus, subtype Kunjin P14335 P14335 3.2 X-RAY DIFFRACTION 13 1.0 11078 (Kunjin virus (STRAIN MRM61C)) 11078 (Kunjin virus (STRAIN MRM61C)) 73 73 1sfk-a3-m1-cA_1sfk-a3-m3-cC LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR 1sfk-a4-m3-cG_1sfk-a4-m6-cG Core (C) protein from West Nile Virus, subtype Kunjin P14335 P14335 3.2 X-RAY DIFFRACTION 31 1.0 11078 (Kunjin virus (STRAIN MRM61C)) 11078 (Kunjin virus (STRAIN MRM61C)) 73 73 1sfk-a3-m1-cA_1sfk-a3-m2-cA 1sfk-a3-m3-cD_1sfk-a3-m4-cD 1sfk-a4-m1-cF_1sfk-a4-m5-cF LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR 1sfk-a4-m6-cH_1sfk-a4-m5-cE Core (C) protein from West Nile Virus, subtype Kunjin P14335 P14335 3.2 X-RAY DIFFRACTION 13 1.0 11078 (Kunjin virus (STRAIN MRM61C)) 11078 (Kunjin virus (STRAIN MRM61C)) 58 73 1sfk-a3-m1-cB_1sfk-a3-m3-cC 1sfk-a3-m2-cB_1sfk-a3-m4-cC 1sfk-a4-m3-cH_1sfk-a4-m1-cE GRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR 1sfk-a4-m6-cH_1sfk-a4-m6-cG Core (C) protein from West Nile Virus, subtype Kunjin P14335 P14335 3.2 X-RAY DIFFRACTION 86 1.0 11078 (Kunjin virus (STRAIN MRM61C)) 11078 (Kunjin virus (STRAIN MRM61C)) 58 73 1sfk-a1-m1-cB_1sfk-a1-m1-cA 1sfk-a1-m1-cC_1sfk-a1-m1-cD 1sfk-a2-m1-cE_1sfk-a2-m1-cF 1sfk-a2-m1-cH_1sfk-a2-m1-cG 1sfk-a3-m1-cB_1sfk-a3-m1-cA 1sfk-a3-m2-cB_1sfk-a3-m2-cA 1sfk-a3-m3-cC_1sfk-a3-m3-cD 1sfk-a3-m4-cC_1sfk-a3-m4-cD 1sfk-a4-m1-cE_1sfk-a4-m1-cF 1sfk-a4-m3-cH_1sfk-a4-m3-cG 1sfk-a4-m5-cE_1sfk-a4-m5-cF GRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR LSLTGLKRAMLSLIDGRGPTRFVLALLAFFRFTAIAPTRAVLDRWRSVNKQTAMKHLLSFKKELGTLTSAINR 1sfn-a2-m1-cA_1sfn-a2-m4-cB Crystal structure of protein DR1152 from Deinococcus radiodurans R1, Pfam DUF861 Q9RV77 Q9RV77 2.46 X-RAY DIFFRACTION 25 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 245 245 1sfn-a2-m1-cB_1sfn-a2-m3-cA 1sfn-a2-m2-cA_1sfn-a2-m3-cB 1sfn-a2-m2-cB_1sfn-a2-m4-cA MKHLGQTRSALHGSHAVITPETFVRTALAEWPGSAIVLHIAPVVGLGARFVQFTAEMPAGAQATESVYQRFAFVLSGEVDVAVGGETRTLREYDYVYLPAGEKHMLTAKTDARVSVFEKPYQTVEGVQAPGVYWGNERENPGYPFEGDDHLIARKLLPDEPAFDFMVSTMSFAPGASLPYAEVHYMEHGLLMLEGEGLYKLEENYYPVTAGDIIWMGAHCPQWYGALGRNWSKYLLYKDMNRHPL MKHLGQTRSALHGSHAVITPETFVRTALAEWPGSAIVLHIAPVVGLGARFVQFTAEMPAGAQATESVYQRFAFVLSGEVDVAVGGETRTLREYDYVYLPAGEKHMLTAKTDARVSVFEKPYQTVEGVQAPGVYWGNERENPGYPFEGDDHLIARKLLPDEPAFDFMVSTMSFAPGASLPYAEVHYMEHGLLMLEGEGLYKLEENYYPVTAGDIIWMGAHCPQWYGALGRNWSKYLLYKDMNRHPL 1sfn-a2-m4-cA_1sfn-a2-m4-cB Crystal structure of protein DR1152 from Deinococcus radiodurans R1, Pfam DUF861 Q9RV77 Q9RV77 2.46 X-RAY DIFFRACTION 33 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 245 245 1sfn-a1-m1-cA_1sfn-a1-m1-cB 1sfn-a2-m1-cA_1sfn-a2-m1-cB 1sfn-a2-m2-cA_1sfn-a2-m2-cB 1sfn-a2-m3-cA_1sfn-a2-m3-cB MKHLGQTRSALHGSHAVITPETFVRTALAEWPGSAIVLHIAPVVGLGARFVQFTAEMPAGAQATESVYQRFAFVLSGEVDVAVGGETRTLREYDYVYLPAGEKHMLTAKTDARVSVFEKPYQTVEGVQAPGVYWGNERENPGYPFEGDDHLIARKLLPDEPAFDFMVSTMSFAPGASLPYAEVHYMEHGLLMLEGEGLYKLEENYYPVTAGDIIWMGAHCPQWYGALGRNWSKYLLYKDMNRHPL MKHLGQTRSALHGSHAVITPETFVRTALAEWPGSAIVLHIAPVVGLGARFVQFTAEMPAGAQATESVYQRFAFVLSGEVDVAVGGETRTLREYDYVYLPAGEKHMLTAKTDARVSVFEKPYQTVEGVQAPGVYWGNERENPGYPFEGDDHLIARKLLPDEPAFDFMVSTMSFAPGASLPYAEVHYMEHGLLMLEGEGLYKLEENYYPVTAGDIIWMGAHCPQWYGALGRNWSKYLLYKDMNRHPL 1sfn-a4-m2-cB_1sfn-a4-m4-cB Crystal structure of protein DR1152 from Deinococcus radiodurans R1, Pfam DUF861 Q9RV77 Q9RV77 2.46 X-RAY DIFFRACTION 99 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 245 245 1sfn-a2-m1-cA_1sfn-a2-m3-cA 1sfn-a2-m1-cA_1sfn-a2-m4-cA 1sfn-a2-m1-cB_1sfn-a2-m3-cB 1sfn-a2-m1-cB_1sfn-a2-m4-cB 1sfn-a2-m2-cA_1sfn-a2-m3-cA 1sfn-a2-m2-cA_1sfn-a2-m4-cA 1sfn-a2-m2-cB_1sfn-a2-m3-cB 1sfn-a2-m2-cB_1sfn-a2-m4-cB 1sfn-a3-m1-cA_1sfn-a3-m3-cA 1sfn-a3-m1-cA_1sfn-a3-m4-cA 1sfn-a3-m2-cA_1sfn-a3-m3-cA 1sfn-a3-m2-cA_1sfn-a3-m4-cA 1sfn-a4-m1-cB_1sfn-a4-m3-cB 1sfn-a4-m1-cB_1sfn-a4-m4-cB 1sfn-a4-m2-cB_1sfn-a4-m3-cB MKHLGQTRSALHGSHAVITPETFVRTALAEWPGSAIVLHIAPVVGLGARFVQFTAEMPAGAQATESVYQRFAFVLSGEVDVAVGGETRTLREYDYVYLPAGEKHMLTAKTDARVSVFEKPYQTVEGVQAPGVYWGNERENPGYPFEGDDHLIARKLLPDEPAFDFMVSTMSFAPGASLPYAEVHYMEHGLLMLEGEGLYKLEENYYPVTAGDIIWMGAHCPQWYGALGRNWSKYLLYKDMNRHPL MKHLGQTRSALHGSHAVITPETFVRTALAEWPGSAIVLHIAPVVGLGARFVQFTAEMPAGAQATESVYQRFAFVLSGEVDVAVGGETRTLREYDYVYLPAGEKHMLTAKTDARVSVFEKPYQTVEGVQAPGVYWGNERENPGYPFEGDDHLIARKLLPDEPAFDFMVSTMSFAPGASLPYAEVHYMEHGLLMLEGEGLYKLEENYYPVTAGDIIWMGAHCPQWYGALGRNWSKYLLYKDMNRHPL 1sfp-a1-m1-cA_1sfp-a1-m2-cA CRYSTAL STRUCTURE OF ACIDIC SEMINAL FLUID PROTEIN (ASFP) AT 1.9 A RESOLUTION: A BOVINE POLYPEPTIDE FROM THE SPERMADHESIN FAMILY P29392 P29392 1.9 X-RAY DIFFRACTION 52 1.0 9913 (Bos taurus) 9913 (Bos taurus) 111 111 LPRNTNCGGILKEESGVIATYYGPKTNCVWTIQMPPEYHVRVSIQYLQLNCNKESLEIIDGLPGSPVLGKICEGSLMDYRSSGSIMTVKYIREPEHPASFYEVLYFQDPQA LPRNTNCGGILKEESGVIATYYGPKTNCVWTIQMPPEYHVRVSIQYLQLNCNKESLEIIDGLPGSPVLGKICEGSLMDYRSSGSIMTVKYIREPEHPASFYEVLYFQDPQA 1sfr-a5-m1-cC_1sfr-a5-m2-cC Crystal Structure of the Mycobacterium tuberculosis Antigen 85A Protein P9WQP3 P9WQP3 2.7 X-RAY DIFFRACTION 31 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 278 278 1sfr-a4-m1-cA_1sfr-a4-m1-cB VEYLQVPSPSMGRDIKVQFQSGGANSPALYLLDGLRAQDDFSGWDINTPAFEWYDQSGLSVVMPVGGQSSFYSDWYQPACGKAGCQTYKWETFLTSELPGWLQANRHVKPTGSAVVGLSMAASSALTLAIYHPQQFVYAGAMSGLLDPSQAMGPTLIGLAMGDAGGYKASDMWGPKEDPAWQRNDPLLNVGKLIANNTRVWVYCGNGKPSDLGGNNLPAKFLEGFVRTSNIKFQDAYNAGGGHNGVFDFPDSGTHSWEYWGAQLNAMKPDLQRALGAT VEYLQVPSPSMGRDIKVQFQSGGANSPALYLLDGLRAQDDFSGWDINTPAFEWYDQSGLSVVMPVGGQSSFYSDWYQPACGKAGCQTYKWETFLTSELPGWLQANRHVKPTGSAVVGLSMAASSALTLAIYHPQQFVYAGAMSGLLDPSQAMGPTLIGLAMGDAGGYKASDMWGPKEDPAWQRNDPLLNVGKLIANNTRVWVYCGNGKPSDLGGNNLPAKFLEGFVRTSNIKFQDAYNAGGGHNGVFDFPDSGTHSWEYWGAQLNAMKPDLQRALGAT 1sfx-a2-m1-cB_1sfx-a2-m2-cB X-ray crystal structure of putative HTH transcription regulator from Archaeoglobus fulgidus O28271 O28271 1.55 X-RAY DIFFRACTION 14 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 102 102 SNPLGELVKALEKLSFKPSDVRIYSLLLERGGRVSEIARELDLSARFVRDRLKVLLKRGFVRREIVEKGWVGYIYSAEKPEKVLKEFKSSILGEIERIEKFT SNPLGELVKALEKLSFKPSDVRIYSLLLERGGRVSEIARELDLSARFVRDRLKVLLKRGFVRREIVEKGWVGYIYSAEKPEKVLKEFKSSILGEIERIEKFT 1sfx-a2-m2-cB_1sfx-a2-m2-cA X-ray crystal structure of putative HTH transcription regulator from Archaeoglobus fulgidus O28271 O28271 1.55 X-RAY DIFFRACTION 82 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 102 106 1sfx-a1-m1-cB_1sfx-a1-m1-cA 1sfx-a2-m1-cB_1sfx-a2-m1-cA SNPLGELVKALEKLSFKPSDVRIYSLLLERGGRVSEIARELDLSARFVRDRLKVLLKRGFVRREIVEKGWVGYIYSAEKPEKVLKEFKSSILGEIERIEKFT HSNPLGELVKALEKLSFKPSDVRIYSLLLERGGRVSEIARELDLSARFVRDRLKVLLKRGFVRREIVEKGWVGYIYSAEKPEKVLKEFKSSILGEIERIEKFTDGS 1sg2-a1-m1-cA_1sg2-a1-m1-cC Crystal structure of the periplasmic chaperone Skp P0AEU7 P0AEU7 2.35 X-RAY DIFFRACTION 66 1.0 562 (Escherichia coli) 562 (Escherichia coli) 141 142 1sg2-a1-m1-cB_1sg2-a1-m1-cA ADKIAIVNMGSLFQQVAQKTGVSNTLENEFKGRASELQRMETDLQAKMKKLQSMKAGSDRTKLEKDVMAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK AADKIAIVNMGSLFQQVAQKTGVSNTLENEFKGRASELQRMETDLQAKMKKLQSMKAGSDRTKLEKDVMAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK 1sg2-a1-m1-cB_1sg2-a1-m1-cC Crystal structure of the periplasmic chaperone Skp P0AEU7 P0AEU7 2.35 X-RAY DIFFRACTION 51 0.991 562 (Escherichia coli) 562 (Escherichia coli) 109 142 GAADKIAIVNMGSLFQQVAQKTGVSNTLENEFKGRASELQRMAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK AADKIAIVNMGSLFQQVAQKTGVSNTLENEFKGRASELQRMETDLQAKMKKLQSMKAGSDRTKLEKDVMAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK 1sg3-a1-m2-cB_1sg3-a1-m3-cB Structure of allantoicase P25335 P25335 2.6 X-RAY DIFFRACTION 21 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 317 317 1sg3-a1-m1-cA_1sg3-a1-m2-cA 1sg3-a1-m1-cA_1sg3-a1-m3-cA 1sg3-a1-m1-cB_1sg3-a1-m2-cB 1sg3-a1-m1-cB_1sg3-a1-m3-cB 1sg3-a1-m2-cA_1sg3-a1-m3-cA MKFFSLADEAEFKSIIISKNKAVDVIGSKLGGQVVSFSDEWFASAENLIQPTAPIRDWYDGWETRRHNEMEYDWVIIKMGVAAAHIIGGEIDTAFFNGNHAPFVSIEALYDEGEEGNIVEDDSRWVEIVEKFECGPSQRHLFVRGNGLTKERFTHIKLKMYPDGGIARFRLYGRVVPPIIDLAYVCNGAVALKYSDQHFGSVDNLLLPGRGHDMSDGWETKRSRQPGHTDWAVIQLGRESSFIEKIIVDTAHFRGNFPQFITVEGCLKTWVELVGKSKTGPDKEHVYEIRKSIRVSHVKLTIIPDGGVKRIRVWGYH MKFFSLADEAEFKSIIISKNKAVDVIGSKLGGQVVSFSDEWFASAENLIQPTAPIRDWYDGWETRRHNEMEYDWVIIKMGVAAAHIIGGEIDTAFFNGNHAPFVSIEALYDEGEEGNIVEDDSRWVEIVEKFECGPSQRHLFVRGNGLTKERFTHIKLKMYPDGGIARFRLYGRVVPPIIDLAYVCNGAVALKYSDQHFGSVDNLLLPGRGHDMSDGWETKRSRQPGHTDWAVIQLGRESSFIEKIIVDTAHFRGNFPQFITVEGCLKTWVELVGKSKTGPDKEHVYEIRKSIRVSHVKLTIIPDGGVKRIRVWGYH 1sg3-a1-m3-cA_1sg3-a1-m3-cB Structure of allantoicase P25335 P25335 2.6 X-RAY DIFFRACTION 75 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 317 317 1sg3-a1-m1-cA_1sg3-a1-m1-cB 1sg3-a1-m2-cA_1sg3-a1-m2-cB MKFFSLADEAEFKSIIISKNKAVDVIGSKLGGQVVSFSDEWFASAENLIQPTAPIRDWYDGWETRRHNEMEYDWVIIKMGVAAAHIIGGEIDTAFFNGNHAPFVSIEALYDEGEEGNIVEDDSRWVEIVEKFECGPSQRHLFVRGNGLTKERFTHIKLKMYPDGGIARFRLYGRVVPPIIDLAYVCNGAVALKYSDQHFGSVDNLLLPGRGHDMSDGWETKRSRQPGHTDWAVIQLGRESSFIEKIIVDTAHFRGNFPQFITVEGCLKGTWVELVGKSKTGPDKEHVYEIRKSIRVSHVKLTIIPDGGVKRIRVWGY MKFFSLADEAEFKSIIISKNKAVDVIGSKLGGQVVSFSDEWFASAENLIQPTAPIRDWYDGWETRRHNEMEYDWVIIKMGVAAAHIIGGEIDTAFFNGNHAPFVSIEALYDEGEEGNIVEDDSRWVEIVEKFECGPSQRHLFVRGNGLTKERFTHIKLKMYPDGGIARFRLYGRVVPPIIDLAYVCNGAVALKYSDQHFGSVDNLLLPGRGHDMSDGWETKRSRQPGHTDWAVIQLGRESSFIEKIIVDTAHFRGNFPQFITVEGCLKTWVELVGKSKTGPDKEHVYEIRKSIRVSHVKLTIIPDGGVKRIRVWGYH 1sg4-a2-m1-cC_1sg4-a2-m2-cC Crystal structure of human mitochondrial delta3-delta2-enoyl-CoA isomerase P42126 P42126 1.3 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 QRVLVEPDAGAGVAVMKFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAHYAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQLGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAIAQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQMYL QRVLVEPDAGAGVAVMKFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAHYAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQLGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAIAQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQMYL 1sg4-a2-m2-cA_1sg4-a2-m2-cC Crystal structure of human mitochondrial delta3-delta2-enoyl-CoA isomerase P42126 P42126 1.3 X-RAY DIFFRACTION 58 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 249 250 1sg4-a1-m1-cA_1sg4-a1-m1-cB 1sg4-a1-m1-cA_1sg4-a1-m1-cC 1sg4-a1-m1-cC_1sg4-a1-m1-cB 1sg4-a2-m1-cA_1sg4-a2-m1-cB 1sg4-a2-m1-cA_1sg4-a2-m1-cC 1sg4-a2-m1-cC_1sg4-a2-m1-cB 1sg4-a2-m2-cA_1sg4-a2-m2-cB 1sg4-a2-m2-cC_1sg4-a2-m2-cB SQRVLVEPDAGAGVAVMKFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAHYAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQLGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAIAQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQM QRVLVEPDAGAGVAVMKFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAHYAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQLGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAIAQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQMYL 1sg4-a2-m2-cC_1sg4-a2-m1-cB Crystal structure of human mitochondrial delta3-delta2-enoyl-CoA isomerase P42126 P42126 1.3 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 258 1sg4-a2-m1-cC_1sg4-a2-m2-cB QRVLVEPDAGAGVAVMKFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAHYAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQLGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAIAQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQMYL QRVLVEPDAGAGVAVMKFKNPPVNSLSLEFLTELVISLEKLENDKSFRGVILTSDRPGVFSAGLDLTEMCGRSPAHYAGYWKAVQELWLRLYQSNLVLVSAINGACPAGGCLVALTCDYRILADNPRYCIGLNETQLGIIAPFWLKDTLENTIGHRAAERALQLGLLFPPAEALQVGIVDQVVPEEQVQSTALSAIAQWMAIPDHARQLTKAMMRKATASRLVTQRDADVQNFVSFISKDSIQKSLQMYLERLKEEKG 1sg8-a3-m2-cE_1sg8-a3-m1-cB Crystal structure of the procoagulant fast form of thrombin P00734 P00734 2.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 251 1tmt-a1-m1-cI_1tmt-a1-m1-cH 2hgt-a1-m1-cI_2hgt-a1-m1-cH 3vxe-a1-m1-cI_3vxe-a1-m1-cH 3vxf-a1-m1-cI_3vxf-a1-m1-cH 4ch8-a3-m1-cR_4ch8-a3-m1-cF IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYEANIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETWGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQF IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYEANIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETWGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQF 1sg9-a2-m1-cB_1sg9-a2-m2-cB Crystal structure of Thermotoga maritima protein HEMK, an N5-glutamine methyltransferase Q9WYV8 Q9WYV8 2.3 X-RAY DIFFRACTION 33 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 274 274 1sg9-a1-m1-cA_1sg9-a1-m1-cC SGAERKIWSLIRDCSGKLEGVTETSVLEVLLIVSRVLGIRKEDLFLKDLGVSPTEEKRILELVEKRASGYPLHYILGEKEFMGLSFLVEEGVFVPRPETEELVELALELIRKYGIKTVADIGTGSGAIGVSVAKFSDAIVFATDVSSKAVEIARKNAERHGVSDRFFVRKGEFLEPFKEKFASIEMILSNPPYVKSSAHLPKDVLFEPPEALFGGEDGLDFYREFFGRYDTSGKIVLMEIGEDQVEELKKIVSDTVFLKDSAGKYRFLLLNRRS SGAERKIWSLIRDCSGKLEGVTETSVLEVLLIVSRVLGIRKEDLFLKDLGVSPTEEKRILELVEKRASGYPLHYILGEKEFMGLSFLVEEGVFVPRPETEELVELALELIRKYGIKTVADIGTGSGAIGVSVAKFSDAIVFATDVSSKAVEIARKNAERHGVSDRFFVRKGEFLEPFKEKFASIEMILSNPPYVKSSAHLPKDVLFEPPEALFGGEDGLDFYREFFGRYDTSGKIVLMEIGEDQVEELKKIVSDTVFLKDSAGKYRFLLLNRRS 1sgf-a1-m1-cZ_1sgf-a1-m1-cG CRYSTAL STRUCTURE OF 7S NGF: A COMPLEX OF NERVE GROWTH FACTOR WITH FOUR BINDING PROTEINS (SERINE PROTEINASES) P00756 P00756 3.15 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 232 232 IVGGFKCEKNSQPWHVAVYRYTQYLCGGVLLDPNWVLTAAHCYDDNYKVWLGKNNLFKDEPSAQHRFVSKAIPHPGFNMSLMFLEYDYSNDLMLLRLSKPADITDTVKPITLPTEEPKLGSTCLASGWGSITPTKFQFTDDLYCVNLKLLPNEDCAKAHIEKVTDAMLCAGEMDGGKDTCKGDSGGPLICDGVLQGITSWGHTPCGEPDMPGVYTKLNKFTSWIKDTMAKNP IVGGFKCEKNSQPWHVAVYRYTQYLCGGVLLDPNWVLTAAHCYDDNYKVWLGKNNLFKDEPSAQHRFVSKAIPHPGFNMSLMFLEYDYSNDLMLLRLSKPADITDTVKPITLPTEEPKLGSTCLASGWGSITPTKFQFTDDLYCVNLKLLPNEDCAKAHIEKVTDAMLCAGEMDGGKDTCKGDSGGPLICDGVLQGITSWGHTPCGEPDMPGVYTKLNKFTSWIKDTMAKNP 1sgj-a1-m1-cB_1sgj-a1-m1-cC Crystal structure of citrate lyase beta subunit Q9RUZ0 Q9RUZ0 1.84 X-RAY DIFFRACTION 46 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 231 231 1sgj-a1-m1-cA_1sgj-a1-m1-cB 1sgj-a1-m1-cA_1sgj-a1-m1-cC PPALLRSVLFAPGNRADLIAKLPRSAPDAVVIDLEDAVPGTAEAKAAARPVAHDAARDLIAAAPHLAVFVRVNALHSPYFEDDLSVLTPELSGVVVPKLEMGAEARQVAQMLQERSLPLPILAGLETGAGVWNAREIMEVPEVAWAYFGAEDYTTDLGGKRTPGGLEVLYARSQVALAARLTGVAALDIVVTALNDPETFRADAEQGRALGYSGKLCIHPAQVALAHEYFG PPALLRSVLFAPGNRADLIAKLPRSAPDAVVIDLEDAVPGTAEAKAAARPVAHDAARDLIAAAPHLAVFVRVNALHSPYFEDDLSVLTPELSGVVVPKLEMGAEARQVAQMLQERSLPLPILAGLETGAGVWNAREIMEVPEVAWAYFGAEDYTTDLGGKRTPGGLEVLYARSQVALAARLTGVAALDIVVTALNDPETFRADAEQGRALGYSGKLCIHPAQVALAHEYFG 1sgm-a1-m1-cA_1sgm-a1-m1-cB Crystal Structure of Hypothetical Protein YXAF P42105 P42105 2 X-RAY DIFFRACTION 136 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 184 184 GDSREKILHTASRLSQLQGYHATGLNQIVKESGAPKGSLYHFFPNGKEELAIEAVTYTGKIVEHLIQQSMDESSDPVEAIQLFIKKTASQFDNTESIKGIPVGLLASETALISEPLRTVCMKVFKSWEAVFARKLMENGFAEEEANQLGTLINSMIEGGIMLSLTNKDKTPLLLIAEQIPVLVR GDSREKILHTASRLSQLQGYHATGLNQIVKESGAPKGSLYHFFPNGKEELAIEAVTYTGKIVEHLIQQSMDESSDPVEAIQLFIKKTASQFDNTESIKGIPVGLLASETALISEPLRTVCMKVFKSWEAVFARKLMENGFAEEEANQLGTLINSMIEGGIMLSLTNKDKTPLLLIAEQIPVLVR 1sh5-a1-m1-cA_1sh5-a1-m1-cB Crystal structure of actin-binding domain of mouse plectin Q9QXS1 Q9QXS1 2 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 232 232 FDERDRVQKKTFTKWVNKHLIKHWRAEAQRHISDLYEDLRDGHNLISLLEVLSGDSLPREKGRMRFHKLQNVQIALDYLRHRQVKLVNIRNDDIADGNPKLTLGLIWTIILHFQISDIQVSGQSEDMTAKEKLLLWSQRMVEGYQGLRCDNFTTSWRDGRLFNAIIHRHKPMLIDMNKVYRQTNLENLDQAFSVAERDLGVTRLLDPEDVDVPQPDEKSIITYVSSLYDAMP FDERDRVQKKTFTKWVNKHLIKHWRAEAQRHISDLYEDLRDGHNLISLLEVLSGDSLPREKGRMRFHKLQNVQIALDYLRHRQVKLVNIRNDDIADGNPKLTLGLIWTIILHFQISDIQVSGQSEDMTAKEKLLLWSQRMVEGYQGLRCDNFTTSWRDGRLFNAIIHRHKPMLIDMNKVYRQTNLENLDQAFSVAERDLGVTRLLDPEDVDVPQPDEKSIITYVSSLYDAMP 1sh8-a1-m1-cB_1sh8-a1-m1-cA 1.5 A Crystal Structure of a Protein of Unknown Function PA5026 from Pseudomonas aeruginosa, Probable Thioesterase Q9HUE3 Q9HUE3 1.5 X-RAY DIFFRACTION 83 0.993 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 149 153 GHMPLPTELARHLTEEKIAFVQRSGLRAEVLEPGYVRLRMPGAGNENHIGSMYAGALFTLAELPGGALFLTSFDSARFYPIVKEMTLRFRRPAKGDIRVEARLDAERIRQLETEAGERGKAEYSLELQLTDEQGEVVAESAALYQLRSH HMPLPTELARHLTEEKIAFVQRSGLRAEVLEPGYVRLRMPGAGNENHIGSMYAGALFTLAELPGGALFLTSFDSARFYPIVKEMTLRFRRPAKGDIRVEARLDAERIRQLETEAGERGKAEYSLELQLTDEQGEVVAESAALYQLRSHARPGS 1shf-a1-m2-cA_1shf-a1-m2-cB CRYSTAL STRUCTURE OF THE SH3 DOMAIN IN HUMAN FYN; COMPARISON OF THE THREE-DIMENSIONAL STRUCTURES OF SH3 DOMAINS IN TYROSINE KINASES AND SPECTRIN P06241 P06241 1.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 1shf-a1-m1-cA_1shf-a1-m1-cB VTLFVALYDYEARTEDDLSFHKGEKFQILNSSEGDWWEARSLTTGETGYIPSNYVAPVD VTLFVALYDYEARTEDDLSFHKGEKFQILNSSEGDWWEARSLTTGETGYIPSNYVAPVD 1shk-a3-m1-cA_1shk-a3-m2-cB THE THREE-DIMENSIONAL STRUCTURE OF SHIKIMATE KINASE FROM ERWINIA CHRYSANTHEMI P10880 P10880 1.9 X-RAY DIFFRACTION 51 0.994 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 158 159 2shk-a2-m2-cA_2shk-a2-m1-cB MTEPIFMVGARGCGKTTVGRELARALGYEFVDTDIFMQHTSGMTVADVVAAEGWPGFRRRESEALQAVATPNRVVATGGGMVLLEQNRQFMRAHGTVVYLFAPAEELALRLQIAEEMEAVLREREALYQDVAHYVVDATQPPAAIVCELMQTMRLPAA MTEPIFMVGARGCGKTTVGRELARALGYEFVDTDIFMQHTSGMTVADVVAAEGWPGFRRRESEALQAVATPNRVVATGGGMVLLEQNRQFMRAHGTVVYLFAPAEELALRLQRPIAEEMEAVLREREALYQDVAHYVVDATQPPAAIVCELMQTMRLPA 1shk-a5-m1-cA_1shk-a5-m3-cA THE THREE-DIMENSIONAL STRUCTURE OF SHIKIMATE KINASE FROM ERWINIA CHRYSANTHEMI P10880 P10880 1.9 X-RAY DIFFRACTION 41 1.0 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 158 158 MTEPIFMVGARGCGKTTVGRELARALGYEFVDTDIFMQHTSGMTVADVVAAEGWPGFRRRESEALQAVATPNRVVATGGGMVLLEQNRQFMRAHGTVVYLFAPAEELALRLQIAEEMEAVLREREALYQDVAHYVVDATQPPAAIVCELMQTMRLPAA MTEPIFMVGARGCGKTTVGRELARALGYEFVDTDIFMQHTSGMTVADVVAAEGWPGFRRRESEALQAVATPNRVVATGGGMVLLEQNRQFMRAHGTVVYLFAPAEELALRLQIAEEMEAVLREREALYQDVAHYVVDATQPPAAIVCELMQTMRLPAA 1shk-a5-m3-cA_1shk-a5-m3-cB THE THREE-DIMENSIONAL STRUCTURE OF SHIKIMATE KINASE FROM ERWINIA CHRYSANTHEMI P10880 P10880 1.9 X-RAY DIFFRACTION 33 0.994 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 158 159 1shk-a4-m1-cA_1shk-a4-m1-cB 1shk-a5-m1-cA_1shk-a5-m1-cB 2shk-a1-m1-cA_2shk-a1-m1-cB MTEPIFMVGARGCGKTTVGRELARALGYEFVDTDIFMQHTSGMTVADVVAAEGWPGFRRRESEALQAVATPNRVVATGGGMVLLEQNRQFMRAHGTVVYLFAPAEELALRLQIAEEMEAVLREREALYQDVAHYVVDATQPPAAIVCELMQTMRLPAA MTEPIFMVGARGCGKTTVGRELARALGYEFVDTDIFMQHTSGMTVADVVAAEGWPGFRRRESEALQAVATPNRVVATGGGMVLLEQNRQFMRAHGTVVYLFAPAEELALRLQRPIAEEMEAVLREREALYQDVAHYVVDATQPPAAIVCELMQTMRLPA 1shz-a3-m1-cA_1shz-a3-m1-cD Crystal Structure of the p115RhoGEF rgRGS Domain in A Complex with Galpha(13):Galpha(i1) Chimera P10824 P10824 2.85 X-RAY DIFFRACTION 23 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 326 327 AREVKLLLLGAGESGKSTFLKQMRIIHGQDFDQRAREEFRPTIYSNVIKGMRVLVDAREKLHIPWGDNKNQLHGDKLMAFDTRAPMAAQGMVETRVFLQYLPAIRALWEDSGIQNAYDRRREFQLGESVKYFLDNLDKLGVPDYIPSQQDILLARRPTKGIHETHFTFKDLHFKMFDVGGQRSERKKWFECFEGVTAIIFCVALSDYDQVLMEDRQTNRMHESMKLFDSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAAAYIQCQFEDLNKRKDTKEIYTHFTCATDTKNVQFVFDAVTDVIIKNNLK AAREVKLLLLGAGESGKSTFLKQMRIIHGQDFDQRAREEFRPTIYSNVIKGMRVLVDAREKLHIPWGDNKNQLHGDKLMAFDTRAPMAAQGMVETRVFLQYLPAIRALWEDSGIQNAYDRRREFQLGESVKYFLDNLDKLGVPDYIPSQQDILLARRPTKGIHETHFTFKDLHFKMFDVGGQRSERKKWFECFEGVTAIIFCVALSDYDQVLMEDRQTNRMHESMKLFDSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAAAYIQCQFEDLNKRKDTKEIYTHFTCATDTKNVQFVFDAVTDVIIKNNLK 1si8-a1-m1-cA_1si8-a1-m1-cD Crystal structure of E. faecalis catalase Q834P5 Q834P5 2.3 X-RAY DIFFRACTION 278 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 474 474 1si8-a1-m1-cB_1si8-a1-m1-cC QHLTTSQGSPVGDNQNSLTAGEFGPVLIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGIFKVSQSMAQYTKADFLSEVGKETPLFARFSTVAGELGSSDTLRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDAIKFPDFIHSQKRNPRTHLKSPEAVWDFWSHSPESLHQVTILMSDRGIPLSFRHMHGFGSHTFKWVNAAGEVFFVKYHFKTNQGIKNLESQLAEEIAGKNPDFHIEDLHNAIENQEFPSWTLSVQIIPYADALTMKETLFDVTKTVSQKEYPLIEVGTMTLNRNPENYFAEVEQVTFSPGNFVPGIEASPDKLLQGRLFAYGDAHRHRVGANSHQLPINQAKAPVNNYQKDGNMRFNNGNSEINYEPNSYTETPKEDPTAKISSFEVEGNVGNYSYNQDHFTQANALYNLLPSEEKENLINNIAASLGQVKNQEIIARQIDLFTRVNPEYGARVAQAIKQQ QHLTTSQGSPVGDNQNSLTAGEFGPVLIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGIFKVSQSMAQYTKADFLSEVGKETPLFARFSTVAGELGSSDTLRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDAIKFPDFIHSQKRNPRTHLKSPEAVWDFWSHSPESLHQVTILMSDRGIPLSFRHMHGFGSHTFKWVNAAGEVFFVKYHFKTNQGIKNLESQLAEEIAGKNPDFHIEDLHNAIENQEFPSWTLSVQIIPYADALTMKETLFDVTKTVSQKEYPLIEVGTMTLNRNPENYFAEVEQVTFSPGNFVPGIEASPDKLLQGRLFAYGDAHRHRVGANSHQLPINQAKAPVNNYQKDGNMRFNNGNSEINYEPNSYTETPKEDPTAKISSFEVEGNVGNYSYNQDHFTQANALYNLLPSEEKENLINNIAASLGQVKNQEIIARQIDLFTRVNPEYGARVAQAIKQQ 1si8-a1-m1-cB_1si8-a1-m1-cD Crystal structure of E. faecalis catalase Q834P5 Q834P5 2.3 X-RAY DIFFRACTION 325 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 474 474 1si8-a1-m1-cA_1si8-a1-m1-cC QHLTTSQGSPVGDNQNSLTAGEFGPVLIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGIFKVSQSMAQYTKADFLSEVGKETPLFARFSTVAGELGSSDTLRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDAIKFPDFIHSQKRNPRTHLKSPEAVWDFWSHSPESLHQVTILMSDRGIPLSFRHMHGFGSHTFKWVNAAGEVFFVKYHFKTNQGIKNLESQLAEEIAGKNPDFHIEDLHNAIENQEFPSWTLSVQIIPYADALTMKETLFDVTKTVSQKEYPLIEVGTMTLNRNPENYFAEVEQVTFSPGNFVPGIEASPDKLLQGRLFAYGDAHRHRVGANSHQLPINQAKAPVNNYQKDGNMRFNNGNSEINYEPNSYTETPKEDPTAKISSFEVEGNVGNYSYNQDHFTQANALYNLLPSEEKENLINNIAASLGQVKNQEIIARQIDLFTRVNPEYGARVAQAIKQQ QHLTTSQGSPVGDNQNSLTAGEFGPVLIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGIFKVSQSMAQYTKADFLSEVGKETPLFARFSTVAGELGSSDTLRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDAIKFPDFIHSQKRNPRTHLKSPEAVWDFWSHSPESLHQVTILMSDRGIPLSFRHMHGFGSHTFKWVNAAGEVFFVKYHFKTNQGIKNLESQLAEEIAGKNPDFHIEDLHNAIENQEFPSWTLSVQIIPYADALTMKETLFDVTKTVSQKEYPLIEVGTMTLNRNPENYFAEVEQVTFSPGNFVPGIEASPDKLLQGRLFAYGDAHRHRVGANSHQLPINQAKAPVNNYQKDGNMRFNNGNSEINYEPNSYTETPKEDPTAKISSFEVEGNVGNYSYNQDHFTQANALYNLLPSEEKENLINNIAASLGQVKNQEIIARQIDLFTRVNPEYGARVAQAIKQQ 1si8-a1-m1-cC_1si8-a1-m1-cD Crystal structure of E. faecalis catalase Q834P5 Q834P5 2.3 X-RAY DIFFRACTION 146 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 474 474 1si8-a1-m1-cA_1si8-a1-m1-cB QHLTTSQGSPVGDNQNSLTAGEFGPVLIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGIFKVSQSMAQYTKADFLSEVGKETPLFARFSTVAGELGSSDTLRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDAIKFPDFIHSQKRNPRTHLKSPEAVWDFWSHSPESLHQVTILMSDRGIPLSFRHMHGFGSHTFKWVNAAGEVFFVKYHFKTNQGIKNLESQLAEEIAGKNPDFHIEDLHNAIENQEFPSWTLSVQIIPYADALTMKETLFDVTKTVSQKEYPLIEVGTMTLNRNPENYFAEVEQVTFSPGNFVPGIEASPDKLLQGRLFAYGDAHRHRVGANSHQLPINQAKAPVNNYQKDGNMRFNNGNSEINYEPNSYTETPKEDPTAKISSFEVEGNVGNYSYNQDHFTQANALYNLLPSEEKENLINNIAASLGQVKNQEIIARQIDLFTRVNPEYGARVAQAIKQQ QHLTTSQGSPVGDNQNSLTAGEFGPVLIQDVHLLEKLAHFNRERVPERVVHAKGAGAHGIFKVSQSMAQYTKADFLSEVGKETPLFARFSTVAGELGSSDTLRDPRGFALKFYTDEGNYDLVGNNTPIFFIRDAIKFPDFIHSQKRNPRTHLKSPEAVWDFWSHSPESLHQVTILMSDRGIPLSFRHMHGFGSHTFKWVNAAGEVFFVKYHFKTNQGIKNLESQLAEEIAGKNPDFHIEDLHNAIENQEFPSWTLSVQIIPYADALTMKETLFDVTKTVSQKEYPLIEVGTMTLNRNPENYFAEVEQVTFSPGNFVPGIEASPDKLLQGRLFAYGDAHRHRVGANSHQLPINQAKAPVNNYQKDGNMRFNNGNSEINYEPNSYTETPKEDPTAKISSFEVEGNVGNYSYNQDHFTQANALYNLLPSEEKENLINNIAASLGQVKNQEIIARQIDLFTRVNPEYGARVAQAIKQQ 1sid-a1-m8-cF_1sid-a1-m9-cF MURINE POLYOMAVIRUS COMPLEXED WITH 3'SIALYL LACTOSE P49302 P49302 3.65 X-RAY DIFFRACTION 216 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 354 354 1cn3-a1-m1-cA_1cn3-a1-m1-cB 1cn3-a1-m1-cA_1cn3-a1-m1-cE 1cn3-a1-m1-cB_1cn3-a1-m1-cC 1cn3-a1-m1-cC_1cn3-a1-m1-cD 1cn3-a1-m1-cD_1cn3-a1-m1-cE 1cn3-a2-m1-cA_1cn3-a2-m1-cB 1cn3-a2-m1-cA_1cn3-a2-m1-cE 1cn3-a2-m1-cB_1cn3-a2-m1-cC 1cn3-a2-m1-cC_1cn3-a2-m1-cD 1cn3-a2-m1-cD_1cn3-a2-m1-cE 1cn3-a2-m2-cA_1cn3-a2-m2-cB 1cn3-a2-m2-cA_1cn3-a2-m2-cE 1cn3-a2-m2-cB_1cn3-a2-m2-cC 1cn3-a2-m2-cC_1cn3-a2-m2-cD 1cn3-a2-m2-cD_1cn3-a2-m2-cE 1sid-a1-m10-cA_1sid-a1-m10-cB 1sid-a1-m10-cA_1sid-a1-m10-cE 1sid-a1-m10-cC_1sid-a1-m10-cB 1sid-a1-m10-cD_1sid-a1-m10-cC 1sid-a1-m10-cD_1sid-a1-m10-cE 1sid-a1-m10-cF_1sid-a1-m6-cF 1sid-a1-m10-cF_1sid-a1-m9-cF 1sid-a1-m11-cA_1sid-a1-m11-cB 1sid-a1-m11-cA_1sid-a1-m11-cE 1sid-a1-m11-cC_1sid-a1-m11-cB 1sid-a1-m11-cD_1sid-a1-m11-cC 1sid-a1-m11-cD_1sid-a1-m11-cE 1sid-a1-m11-cF_1sid-a1-m12-cF 1sid-a1-m11-cF_1sid-a1-m15-cF 1sid-a1-m12-cA_1sid-a1-m12-cB 1sid-a1-m12-cA_1sid-a1-m12-cE 1sid-a1-m12-cC_1sid-a1-m12-cB 1sid-a1-m12-cD_1sid-a1-m12-cC 1sid-a1-m12-cD_1sid-a1-m12-cE 1sid-a1-m12-cF_1sid-a1-m13-cF 1sid-a1-m13-cA_1sid-a1-m13-cB 1sid-a1-m13-cA_1sid-a1-m13-cE 1sid-a1-m13-cC_1sid-a1-m13-cB 1sid-a1-m13-cD_1sid-a1-m13-cC 1sid-a1-m13-cD_1sid-a1-m13-cE 1sid-a1-m13-cF_1sid-a1-m14-cF 1sid-a1-m14-cA_1sid-a1-m14-cB 1sid-a1-m14-cA_1sid-a1-m14-cE 1sid-a1-m14-cC_1sid-a1-m14-cB 1sid-a1-m14-cD_1sid-a1-m14-cC 1sid-a1-m14-cD_1sid-a1-m14-cE 1sid-a1-m14-cF_1sid-a1-m15-cF 1sid-a1-m15-cA_1sid-a1-m15-cB 1sid-a1-m15-cA_1sid-a1-m15-cE 1sid-a1-m15-cC_1sid-a1-m15-cB 1sid-a1-m15-cD_1sid-a1-m15-cC 1sid-a1-m15-cD_1sid-a1-m15-cE 1sid-a1-m16-cA_1sid-a1-m16-cB 1sid-a1-m16-cA_1sid-a1-m16-cE 1sid-a1-m16-cC_1sid-a1-m16-cB 1sid-a1-m16-cD_1sid-a1-m16-cC 1sid-a1-m16-cD_1sid-a1-m16-cE 1sid-a1-m16-cF_1sid-a1-m17-cF 1sid-a1-m16-cF_1sid-a1-m20-cF 1sid-a1-m17-cA_1sid-a1-m17-cB 1sid-a1-m17-cA_1sid-a1-m17-cE 1sid-a1-m17-cC_1sid-a1-m17-cB 1sid-a1-m17-cD_1sid-a1-m17-cC 1sid-a1-m17-cD_1sid-a1-m17-cE 1sid-a1-m17-cF_1sid-a1-m18-cF 1sid-a1-m18-cA_1sid-a1-m18-cB 1sid-a1-m18-cA_1sid-a1-m18-cE 1sid-a1-m18-cC_1sid-a1-m18-cB 1sid-a1-m18-cD_1sid-a1-m18-cC 1sid-a1-m18-cD_1sid-a1-m18-cE 1sid-a1-m18-cF_1sid-a1-m19-cF 1sid-a1-m19-cA_1sid-a1-m19-cB 1sid-a1-m19-cA_1sid-a1-m19-cE 1sid-a1-m19-cC_1sid-a1-m19-cB 1sid-a1-m19-cD_1sid-a1-m19-cC 1sid-a1-m19-cD_1sid-a1-m19-cE 1sid-a1-m19-cF_1sid-a1-m20-cF 1sid-a1-m1-cA_1sid-a1-m1-cB 1sid-a1-m1-cA_1sid-a1-m1-cE 1sid-a1-m1-cC_1sid-a1-m1-cB 1sid-a1-m1-cD_1sid-a1-m1-cC 1sid-a1-m1-cD_1sid-a1-m1-cE 1sid-a1-m1-cF_1sid-a1-m2-cF 1sid-a1-m1-cF_1sid-a1-m5-cF 1sid-a1-m20-cA_1sid-a1-m20-cB 1sid-a1-m20-cA_1sid-a1-m20-cE 1sid-a1-m20-cC_1sid-a1-m20-cB 1sid-a1-m20-cD_1sid-a1-m20-cC 1sid-a1-m20-cD_1sid-a1-m20-cE 1sid-a1-m21-cA_1sid-a1-m21-cB 1sid-a1-m21-cA_1sid-a1-m21-cE 1sid-a1-m21-cC_1sid-a1-m21-cB 1sid-a1-m21-cD_1sid-a1-m21-cC 1sid-a1-m21-cD_1sid-a1-m21-cE 1sid-a1-m21-cF_1sid-a1-m22-cF 1sid-a1-m21-cF_1sid-a1-m25-cF 1sid-a1-m22-cA_1sid-a1-m22-cB 1sid-a1-m22-cA_1sid-a1-m22-cE 1sid-a1-m22-cC_1sid-a1-m22-cB 1sid-a1-m22-cD_1sid-a1-m22-cC 1sid-a1-m22-cD_1sid-a1-m22-cE 1sid-a1-m22-cF_1sid-a1-m23-cF 1sid-a1-m23-cA_1sid-a1-m23-cB 1sid-a1-m23-cA_1sid-a1-m23-cE 1sid-a1-m23-cC_1sid-a1-m23-cB 1sid-a1-m23-cD_1sid-a1-m23-cC 1sid-a1-m23-cD_1sid-a1-m23-cE 1sid-a1-m23-cF_1sid-a1-m24-cF 1sid-a1-m24-cA_1sid-a1-m24-cB 1sid-a1-m24-cA_1sid-a1-m24-cE 1sid-a1-m24-cC_1sid-a1-m24-cB 1sid-a1-m24-cD_1sid-a1-m24-cC 1sid-a1-m24-cD_1sid-a1-m24-cE 1sid-a1-m24-cF_1sid-a1-m25-cF 1sid-a1-m25-cA_1sid-a1-m25-cB 1sid-a1-m25-cA_1sid-a1-m25-cE 1sid-a1-m25-cC_1sid-a1-m25-cB 1sid-a1-m25-cD_1sid-a1-m25-cC 1sid-a1-m25-cD_1sid-a1-m25-cE 1sid-a1-m26-cA_1sid-a1-m26-cB 1sid-a1-m26-cA_1sid-a1-m26-cE 1sid-a1-m26-cC_1sid-a1-m26-cB 1sid-a1-m26-cD_1sid-a1-m26-cC 1sid-a1-m26-cD_1sid-a1-m26-cE 1sid-a1-m26-cF_1sid-a1-m27-cF 1sid-a1-m26-cF_1sid-a1-m30-cF 1sid-a1-m27-cA_1sid-a1-m27-cB 1sid-a1-m27-cA_1sid-a1-m27-cE 1sid-a1-m27-cC_1sid-a1-m27-cB 1sid-a1-m27-cD_1sid-a1-m27-cC 1sid-a1-m27-cD_1sid-a1-m27-cE 1sid-a1-m27-cF_1sid-a1-m28-cF 1sid-a1-m28-cA_1sid-a1-m28-cB 1sid-a1-m28-cA_1sid-a1-m28-cE 1sid-a1-m28-cC_1sid-a1-m28-cB 1sid-a1-m28-cD_1sid-a1-m28-cC 1sid-a1-m28-cD_1sid-a1-m28-cE 1sid-a1-m28-cF_1sid-a1-m29-cF 1sid-a1-m29-cA_1sid-a1-m29-cB 1sid-a1-m29-cA_1sid-a1-m29-cE 1sid-a1-m29-cC_1sid-a1-m29-cB 1sid-a1-m29-cD_1sid-a1-m29-cC 1sid-a1-m29-cD_1sid-a1-m29-cE 1sid-a1-m29-cF_1sid-a1-m30-cF 1sid-a1-m2-cA_1sid-a1-m2-cB 1sid-a1-m2-cA_1sid-a1-m2-cE 1sid-a1-m2-cC_1sid-a1-m2-cB 1sid-a1-m2-cD_1sid-a1-m2-cC 1sid-a1-m2-cD_1sid-a1-m2-cE 1sid-a1-m2-cF_1sid-a1-m3-cF 1sid-a1-m30-cA_1sid-a1-m30-cB 1sid-a1-m30-cA_1sid-a1-m30-cE 1sid-a1-m30-cC_1sid-a1-m30-cB 1sid-a1-m30-cD_1sid-a1-m30-cC 1sid-a1-m30-cD_1sid-a1-m30-cE 1sid-a1-m31-cA_1sid-a1-m31-cB 1sid-a1-m31-cA_1sid-a1-m31-cE 1sid-a1-m31-cC_1sid-a1-m31-cB 1sid-a1-m31-cD_1sid-a1-m31-cC 1sid-a1-m31-cD_1sid-a1-m31-cE 1sid-a1-m31-cF_1sid-a1-m32-cF 1sid-a1-m31-cF_1sid-a1-m35-cF 1sid-a1-m32-cA_1sid-a1-m32-cB 1sid-a1-m32-cA_1sid-a1-m32-cE 1sid-a1-m32-cC_1sid-a1-m32-cB 1sid-a1-m32-cD_1sid-a1-m32-cC 1sid-a1-m32-cD_1sid-a1-m32-cE 1sid-a1-m32-cF_1sid-a1-m33-cF 1sid-a1-m33-cA_1sid-a1-m33-cB 1sid-a1-m33-cA_1sid-a1-m33-cE 1sid-a1-m33-cC_1sid-a1-m33-cB 1sid-a1-m33-cD_1sid-a1-m33-cC 1sid-a1-m33-cD_1sid-a1-m33-cE 1sid-a1-m33-cF_1sid-a1-m34-cF 1sid-a1-m34-cA_1sid-a1-m34-cB 1sid-a1-m34-cA_1sid-a1-m34-cE 1sid-a1-m34-cC_1sid-a1-m34-cB 1sid-a1-m34-cD_1sid-a1-m34-cC 1sid-a1-m34-cD_1sid-a1-m34-cE 1sid-a1-m34-cF_1sid-a1-m35-cF 1sid-a1-m35-cA_1sid-a1-m35-cB 1sid-a1-m35-cA_1sid-a1-m35-cE 1sid-a1-m35-cC_1sid-a1-m35-cB 1sid-a1-m35-cD_1sid-a1-m35-cC 1sid-a1-m35-cD_1sid-a1-m35-cE 1sid-a1-m36-cA_1sid-a1-m36-cB 1sid-a1-m36-cA_1sid-a1-m36-cE 1sid-a1-m36-cC_1sid-a1-m36-cB 1sid-a1-m36-cD_1sid-a1-m36-cC 1sid-a1-m36-cD_1sid-a1-m36-cE 1sid-a1-m36-cF_1sid-a1-m37-cF 1sid-a1-m36-cF_1sid-a1-m40-cF 1sid-a1-m37-cA_1sid-a1-m37-cB 1sid-a1-m37-cA_1sid-a1-m37-cE 1sid-a1-m37-cC_1sid-a1-m37-cB 1sid-a1-m37-cD_1sid-a1-m37-cC 1sid-a1-m37-cD_1sid-a1-m37-cE 1sid-a1-m37-cF_1sid-a1-m38-cF 1sid-a1-m38-cA_1sid-a1-m38-cB 1sid-a1-m38-cA_1sid-a1-m38-cE 1sid-a1-m38-cC_1sid-a1-m38-cB 1sid-a1-m38-cD_1sid-a1-m38-cC 1sid-a1-m38-cD_1sid-a1-m38-cE 1sid-a1-m38-cF_1sid-a1-m39-cF 1sid-a1-m39-cA_1sid-a1-m39-cB 1sid-a1-m39-cA_1sid-a1-m39-cE 1sid-a1-m39-cC_1sid-a1-m39-cB 1sid-a1-m39-cD_1sid-a1-m39-cC 1sid-a1-m39-cD_1sid-a1-m39-cE 1sid-a1-m39-cF_1sid-a1-m40-cF 1sid-a1-m3-cA_1sid-a1-m3-cB 1sid-a1-m3-cA_1sid-a1-m3-cE 1sid-a1-m3-cC_1sid-a1-m3-cB 1sid-a1-m3-cD_1sid-a1-m3-cC 1sid-a1-m3-cD_1sid-a1-m3-cE 1sid-a1-m3-cF_1sid-a1-m4-cF 1sid-a1-m40-cA_1sid-a1-m40-cB 1sid-a1-m40-cA_1sid-a1-m40-cE 1sid-a1-m40-cC_1sid-a1-m40-cB 1sid-a1-m40-cD_1sid-a1-m40-cC 1sid-a1-m40-cD_1sid-a1-m40-cE 1sid-a1-m41-cA_1sid-a1-m41-cB 1sid-a1-m41-cA_1sid-a1-m41-cE 1sid-a1-m41-cC_1sid-a1-m41-cB 1sid-a1-m41-cD_1sid-a1-m41-cC 1sid-a1-m41-cD_1sid-a1-m41-cE 1sid-a1-m41-cF_1sid-a1-m42-cF 1sid-a1-m41-cF_1sid-a1-m45-cF 1sid-a1-m42-cA_1sid-a1-m42-cB 1sid-a1-m42-cA_1sid-a1-m42-cE 1sid-a1-m42-cC_1sid-a1-m42-cB 1sid-a1-m42-cD_1sid-a1-m42-cC 1sid-a1-m42-cD_1sid-a1-m42-cE 1sid-a1-m42-cF_1sid-a1-m43-cF 1sid-a1-m43-cA_1sid-a1-m43-cB 1sid-a1-m43-cA_1sid-a1-m43-cE 1sid-a1-m43-cC_1sid-a1-m43-cB 1sid-a1-m43-cD_1sid-a1-m43-cC 1sid-a1-m43-cD_1sid-a1-m43-cE 1sid-a1-m43-cF_1sid-a1-m44-cF 1sid-a1-m44-cA_1sid-a1-m44-cB 1sid-a1-m44-cA_1sid-a1-m44-cE 1sid-a1-m44-cC_1sid-a1-m44-cB 1sid-a1-m44-cD_1sid-a1-m44-cC 1sid-a1-m44-cD_1sid-a1-m44-cE 1sid-a1-m44-cF_1sid-a1-m45-cF 1sid-a1-m45-cA_1sid-a1-m45-cB 1sid-a1-m45-cA_1sid-a1-m45-cE 1sid-a1-m45-cC_1sid-a1-m45-cB 1sid-a1-m45-cD_1sid-a1-m45-cC 1sid-a1-m45-cD_1sid-a1-m45-cE 1sid-a1-m46-cA_1sid-a1-m46-cB 1sid-a1-m46-cA_1sid-a1-m46-cE 1sid-a1-m46-cC_1sid-a1-m46-cB 1sid-a1-m46-cD_1sid-a1-m46-cC 1sid-a1-m46-cD_1sid-a1-m46-cE 1sid-a1-m46-cF_1sid-a1-m47-cF 1sid-a1-m46-cF_1sid-a1-m50-cF 1sid-a1-m47-cA_1sid-a1-m47-cB 1sid-a1-m47-cA_1sid-a1-m47-cE 1sid-a1-m47-cC_1sid-a1-m47-cB 1sid-a1-m47-cD_1sid-a1-m47-cC 1sid-a1-m47-cD_1sid-a1-m47-cE 1sid-a1-m47-cF_1sid-a1-m48-cF 1sid-a1-m48-cA_1sid-a1-m48-cB 1sid-a1-m48-cA_1sid-a1-m48-cE 1sid-a1-m48-cC_1sid-a1-m48-cB 1sid-a1-m48-cD_1sid-a1-m48-cC 1sid-a1-m48-cD_1sid-a1-m48-cE 1sid-a1-m48-cF_1sid-a1-m49-cF 1sid-a1-m49-cA_1sid-a1-m49-cB 1sid-a1-m49-cA_1sid-a1-m49-cE 1sid-a1-m49-cC_1sid-a1-m49-cB 1sid-a1-m49-cD_1sid-a1-m49-cC 1sid-a1-m49-cD_1sid-a1-m49-cE 1sid-a1-m49-cF_1sid-a1-m50-cF 1sid-a1-m4-cA_1sid-a1-m4-cB 1sid-a1-m4-cA_1sid-a1-m4-cE 1sid-a1-m4-cC_1sid-a1-m4-cB 1sid-a1-m4-cD_1sid-a1-m4-cC 1sid-a1-m4-cD_1sid-a1-m4-cE 1sid-a1-m4-cF_1sid-a1-m5-cF 1sid-a1-m50-cA_1sid-a1-m50-cB 1sid-a1-m50-cA_1sid-a1-m50-cE 1sid-a1-m50-cC_1sid-a1-m50-cB 1sid-a1-m50-cD_1sid-a1-m50-cC 1sid-a1-m50-cD_1sid-a1-m50-cE 1sid-a1-m51-cA_1sid-a1-m51-cB 1sid-a1-m51-cA_1sid-a1-m51-cE 1sid-a1-m51-cC_1sid-a1-m51-cB 1sid-a1-m51-cD_1sid-a1-m51-cC 1sid-a1-m51-cD_1sid-a1-m51-cE 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ACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVD 1sie-a1-m54-cD_1sie-a1-m9-cE MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 330 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 340 367 1sid-a1-m10-cA_1sid-a1-m24-cA 1sid-a1-m10-cD_1sid-a1-m1-cE 1sid-a1-m11-cA_1sid-a1-m16-cA 1sid-a1-m11-cD_1sid-a1-m38-cE 1sid-a1-m12-cA_1sid-a1-m38-cA 1sid-a1-m12-cD_1sid-a1-m47-cE 1sid-a1-m13-cA_1sid-a1-m47-cA 1sid-a1-m13-cD_1sid-a1-m45-cE 1sid-a1-m14-cA_1sid-a1-m45-cA 1sid-a1-m14-cD_1sid-a1-m29-cE 1sid-a1-m15-cA_1sid-a1-m29-cA 1sid-a1-m15-cD_1sid-a1-m16-cE 1sid-a1-m16-cD_1sid-a1-m28-cE 1sid-a1-m17-cA_1sid-a1-m28-cA 1sid-a1-m17-cD_1sid-a1-m52-cE 1sid-a1-m18-cA_1sid-a1-m52-cA 1sid-a1-m18-cD_1sid-a1-m60-cE 1sid-a1-m19-cA_1sid-a1-m60-cA 1sid-a1-m19-cD_1sid-a1-m39-cE 1sid-a1-m1-cA_1sid-a1-m6-cA 1sid-a1-m1-cD_1sid-a1-m23-cE 1sid-a1-m20-cA_1sid-a1-m39-cA 1sid-a1-m20-cD_1sid-a1-m11-cE 1sid-a1-m21-cA_1sid-a1-m26-cA 1sid-a1-m21-cD_1sid-a1-m43-cE 1sid-a1-m22-cA_1sid-a1-m43-cA 1sid-a1-m22-cD_1sid-a1-m2-cE 1sid-a1-m23-cD_1sid-a1-m10-cE 1sid-a1-m24-cD_1sid-a1-m54-cE 1sid-a1-m25-cA_1sid-a1-m54-cA 1sid-a1-m25-cD_1sid-a1-m26-cE 1sid-a1-m26-cD_1sid-a1-m53-cE 1sid-a1-m27-cA_1sid-a1-m53-cA 1sid-a1-m27-cD_1sid-a1-m17-cE 1sid-a1-m28-cD_1sid-a1-m15-cE 1sid-a1-m29-cD_1sid-a1-m44-cE 1sid-a1-m2-cA_1sid-a1-m23-cA 1sid-a1-m2-cD_1sid-a1-m42-cE 1sid-a1-m30-cA_1sid-a1-m44-cA 1sid-a1-m30-cD_1sid-a1-m21-cE 1sid-a1-m31-cA_1sid-a1-m36-cA 1sid-a1-m31-cD_1sid-a1-m58-cE 1sid-a1-m32-cA_1sid-a1-m58-cA 1sid-a1-m32-cD_1sid-a1-m7-cE 1sid-a1-m33-cA_1sid-a1-m7-cA 1sid-a1-m33-cD_1sid-a1-m5-cE 1sid-a1-m34-cA_1sid-a1-m5-cA 1sid-a1-m34-cD_1sid-a1-m49-cE 1sid-a1-m35-cA_1sid-a1-m49-cA 1sid-a1-m35-cD_1sid-a1-m36-cE 1sid-a1-m36-cD_1sid-a1-m48-cE 1sid-a1-m37-cA_1sid-a1-m48-cA 1sid-a1-m37-cD_1sid-a1-m12-cE 1sid-a1-m38-cD_1sid-a1-m20-cE 1sid-a1-m39-cD_1sid-a1-m59-cE 1sid-a1-m3-cA_1sid-a1-m42-cA 1sid-a1-m3-cD_1sid-a1-m50-cE 1sid-a1-m40-cA_1sid-a1-m59-cA 1sid-a1-m40-cD_1sid-a1-m31-cE 1sid-a1-m41-cA_1sid-a1-m46-cA 1sid-a1-m41-cD_1sid-a1-m3-cE 1sid-a1-m42-cD_1sid-a1-m22-cE 1sid-a1-m43-cD_1sid-a1-m30-cE 1sid-a1-m44-cD_1sid-a1-m14-cE 1sid-a1-m45-cD_1sid-a1-m46-cE 1sid-a1-m46-cD_1sid-a1-m13-cE 1sid-a1-m47-cD_1sid-a1-m37-cE 1sid-a1-m48-cD_1sid-a1-m35-cE 1sid-a1-m49-cD_1sid-a1-m4-cE 1sid-a1-m4-cA_1sid-a1-m50-cA 1sid-a1-m4-cD_1sid-a1-m34-cE 1sid-a1-m50-cD_1sid-a1-m41-cE 1sid-a1-m51-cA_1sid-a1-m56-cA 1sid-a1-m51-cD_1sid-a1-m18-cE 1sid-a1-m52-cD_1sid-a1-m27-cE 1sid-a1-m53-cD_1sid-a1-m25-cE 1sid-a1-m54-cD_1sid-a1-m9-cE 1sid-a1-m55-cA_1sid-a1-m9-cA 1sid-a1-m55-cD_1sid-a1-m56-cE 1sid-a1-m56-cD_1sid-a1-m8-cE 1sid-a1-m57-cA_1sid-a1-m8-cA 1sid-a1-m57-cD_1sid-a1-m32-cE 1sid-a1-m58-cD_1sid-a1-m40-cE 1sid-a1-m59-cD_1sid-a1-m19-cE 1sid-a1-m5-cD_1sid-a1-m6-cE 1sid-a1-m60-cD_1sid-a1-m51-cE 1sid-a1-m6-cD_1sid-a1-m33-cE 1sid-a1-m7-cD_1sid-a1-m57-cE 1sid-a1-m8-cD_1sid-a1-m55-cE 1sid-a1-m9-cD_1sid-a1-m24-cE 1sie-a1-m10-cA_1sie-a1-m24-cA 1sie-a1-m10-cD_1sie-a1-m1-cE 1sie-a1-m11-cA_1sie-a1-m16-cA 1sie-a1-m11-cD_1sie-a1-m38-cE 1sie-a1-m12-cA_1sie-a1-m38-cA 1sie-a1-m12-cD_1sie-a1-m47-cE 1sie-a1-m13-cA_1sie-a1-m47-cA 1sie-a1-m13-cD_1sie-a1-m45-cE 1sie-a1-m14-cA_1sie-a1-m45-cA 1sie-a1-m14-cD_1sie-a1-m29-cE 1sie-a1-m15-cA_1sie-a1-m29-cA 1sie-a1-m15-cD_1sie-a1-m16-cE 1sie-a1-m16-cD_1sie-a1-m28-cE 1sie-a1-m17-cA_1sie-a1-m28-cA 1sie-a1-m17-cD_1sie-a1-m52-cE 1sie-a1-m18-cA_1sie-a1-m52-cA 1sie-a1-m18-cD_1sie-a1-m60-cE 1sie-a1-m19-cA_1sie-a1-m60-cA 1sie-a1-m19-cD_1sie-a1-m39-cE 1sie-a1-m1-cA_1sie-a1-m6-cA 1sie-a1-m1-cD_1sie-a1-m23-cE 1sie-a1-m20-cA_1sie-a1-m39-cA 1sie-a1-m20-cD_1sie-a1-m11-cE 1sie-a1-m21-cA_1sie-a1-m26-cA 1sie-a1-m21-cD_1sie-a1-m43-cE 1sie-a1-m22-cA_1sie-a1-m43-cA 1sie-a1-m22-cD_1sie-a1-m2-cE 1sie-a1-m23-cD_1sie-a1-m10-cE 1sie-a1-m24-cD_1sie-a1-m54-cE 1sie-a1-m25-cA_1sie-a1-m54-cA 1sie-a1-m25-cD_1sie-a1-m26-cE 1sie-a1-m26-cD_1sie-a1-m53-cE 1sie-a1-m27-cA_1sie-a1-m53-cA 1sie-a1-m27-cD_1sie-a1-m17-cE 1sie-a1-m28-cD_1sie-a1-m15-cE 1sie-a1-m29-cD_1sie-a1-m44-cE 1sie-a1-m2-cA_1sie-a1-m23-cA 1sie-a1-m2-cD_1sie-a1-m42-cE 1sie-a1-m30-cA_1sie-a1-m44-cA 1sie-a1-m30-cD_1sie-a1-m21-cE 1sie-a1-m31-cA_1sie-a1-m36-cA 1sie-a1-m31-cD_1sie-a1-m58-cE 1sie-a1-m32-cA_1sie-a1-m58-cA 1sie-a1-m32-cD_1sie-a1-m7-cE 1sie-a1-m33-cA_1sie-a1-m7-cA 1sie-a1-m33-cD_1sie-a1-m5-cE 1sie-a1-m34-cA_1sie-a1-m5-cA 1sie-a1-m34-cD_1sie-a1-m49-cE 1sie-a1-m35-cA_1sie-a1-m49-cA 1sie-a1-m35-cD_1sie-a1-m36-cE 1sie-a1-m36-cD_1sie-a1-m48-cE 1sie-a1-m37-cA_1sie-a1-m48-cA 1sie-a1-m37-cD_1sie-a1-m12-cE 1sie-a1-m38-cD_1sie-a1-m20-cE 1sie-a1-m39-cD_1sie-a1-m59-cE 1sie-a1-m3-cA_1sie-a1-m42-cA 1sie-a1-m3-cD_1sie-a1-m50-cE 1sie-a1-m40-cA_1sie-a1-m59-cA 1sie-a1-m40-cD_1sie-a1-m31-cE 1sie-a1-m41-cA_1sie-a1-m46-cA 1sie-a1-m41-cD_1sie-a1-m3-cE 1sie-a1-m42-cD_1sie-a1-m22-cE 1sie-a1-m43-cD_1sie-a1-m30-cE 1sie-a1-m44-cD_1sie-a1-m14-cE 1sie-a1-m45-cD_1sie-a1-m46-cE 1sie-a1-m46-cD_1sie-a1-m13-cE 1sie-a1-m47-cD_1sie-a1-m37-cE 1sie-a1-m48-cD_1sie-a1-m35-cE 1sie-a1-m49-cD_1sie-a1-m4-cE 1sie-a1-m4-cA_1sie-a1-m50-cA 1sie-a1-m4-cD_1sie-a1-m34-cE 1sie-a1-m50-cD_1sie-a1-m41-cE 1sie-a1-m51-cA_1sie-a1-m56-cA 1sie-a1-m51-cD_1sie-a1-m18-cE 1sie-a1-m52-cD_1sie-a1-m27-cE 1sie-a1-m53-cD_1sie-a1-m25-cE 1sie-a1-m55-cA_1sie-a1-m9-cA 1sie-a1-m55-cD_1sie-a1-m56-cE 1sie-a1-m56-cD_1sie-a1-m8-cE 1sie-a1-m57-cA_1sie-a1-m8-cA 1sie-a1-m57-cD_1sie-a1-m32-cE 1sie-a1-m58-cD_1sie-a1-m40-cE 1sie-a1-m59-cD_1sie-a1-m19-cE 1sie-a1-m5-cD_1sie-a1-m6-cE 1sie-a1-m60-cD_1sie-a1-m51-cE 1sie-a1-m6-cD_1sie-a1-m33-cE 1sie-a1-m7-cD_1sie-a1-m57-cE 1sie-a1-m8-cD_1sie-a1-m55-cE 1sie-a1-m9-cD_1sie-a1-m24-cE KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDG KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m54-cE_1sie-a1-m9-cE MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 56 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 367 367 1sid-a1-m10-cA_1sid-a1-m24-cB 1sid-a1-m10-cD_1sid-a1-m1-cA 1sid-a1-m10-cE_1sid-a1-m23-cE 1sid-a1-m11-cA_1sid-a1-m16-cB 1sid-a1-m11-cD_1sid-a1-m38-cA 1sid-a1-m11-cE_1sid-a1-m20-cE 1sid-a1-m11-cE_1sid-a1-m38-cE 1sid-a1-m12-cA_1sid-a1-m38-cB 1sid-a1-m12-cD_1sid-a1-m47-cA 1sid-a1-m12-cE_1sid-a1-m37-cE 1sid-a1-m12-cE_1sid-a1-m47-cE 1sid-a1-m13-cA_1sid-a1-m47-cB 1sid-a1-m13-cD_1sid-a1-m45-cA 1sid-a1-m13-cE_1sid-a1-m45-cE 1sid-a1-m13-cE_1sid-a1-m46-cE 1sid-a1-m14-cA_1sid-a1-m45-cB 1sid-a1-m14-cD_1sid-a1-m29-cA 1sid-a1-m14-cE_1sid-a1-m29-cE 1sid-a1-m14-cE_1sid-a1-m44-cE 1sid-a1-m15-cA_1sid-a1-m29-cB 1sid-a1-m15-cD_1sid-a1-m16-cA 1sid-a1-m15-cE_1sid-a1-m16-cE 1sid-a1-m15-cE_1sid-a1-m28-cE 1sid-a1-m16-cA_1sid-a1-m11-cB 1sid-a1-m16-cD_1sid-a1-m28-cA 1sid-a1-m16-cE_1sid-a1-m28-cE 1sid-a1-m17-cA_1sid-a1-m28-cB 1sid-a1-m17-cD_1sid-a1-m52-cA 1sid-a1-m17-cE_1sid-a1-m27-cE 1sid-a1-m17-cE_1sid-a1-m52-cE 1sid-a1-m18-cA_1sid-a1-m52-cB 1sid-a1-m18-cD_1sid-a1-m60-cA 1sid-a1-m18-cE_1sid-a1-m51-cE 1sid-a1-m18-cE_1sid-a1-m60-cE 1sid-a1-m19-cA_1sid-a1-m60-cB 1sid-a1-m19-cD_1sid-a1-m39-cA 1sid-a1-m19-cE_1sid-a1-m39-cE 1sid-a1-m19-cE_1sid-a1-m59-cE 1sid-a1-m1-cA_1sid-a1-m6-cB 1sid-a1-m1-cD_1sid-a1-m23-cA 1sid-a1-m1-cE_1sid-a1-m10-cE 1sid-a1-m1-cE_1sid-a1-m23-cE 1sid-a1-m20-cA_1sid-a1-m39-cB 1sid-a1-m20-cD_1sid-a1-m11-cA 1sid-a1-m20-cE_1sid-a1-m38-cE 1sid-a1-m21-cA_1sid-a1-m26-cB 1sid-a1-m21-cD_1sid-a1-m43-cA 1sid-a1-m21-cE_1sid-a1-m30-cE 1sid-a1-m21-cE_1sid-a1-m43-cE 1sid-a1-m22-cA_1sid-a1-m43-cB 1sid-a1-m22-cD_1sid-a1-m2-cA 1sid-a1-m22-cE_1sid-a1-m42-cE 1sid-a1-m23-cA_1sid-a1-m2-cB 1sid-a1-m23-cD_1sid-a1-m10-cA 1sid-a1-m24-cA_1sid-a1-m10-cB 1sid-a1-m24-cD_1sid-a1-m54-cA 1sid-a1-m24-cE_1sid-a1-m54-cE 1sid-a1-m24-cE_1sid-a1-m9-cE 1sid-a1-m25-cA_1sid-a1-m54-cB 1sid-a1-m25-cD_1sid-a1-m26-cA 1sid-a1-m25-cE_1sid-a1-m26-cE 1sid-a1-m25-cE_1sid-a1-m53-cE 1sid-a1-m26-cA_1sid-a1-m21-cB 1sid-a1-m26-cD_1sid-a1-m53-cA 1sid-a1-m26-cE_1sid-a1-m53-cE 1sid-a1-m27-cA_1sid-a1-m53-cB 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1sie-a1-m40-cE_1sie-a1-m58-cE 1sie-a1-m41-cA_1sie-a1-m46-cB 1sie-a1-m41-cD_1sie-a1-m3-cA 1sie-a1-m41-cE_1sie-a1-m50-cE 1sie-a1-m42-cA_1sie-a1-m3-cB 1sie-a1-m42-cD_1sie-a1-m22-cA 1sie-a1-m43-cA_1sie-a1-m22-cB 1sie-a1-m43-cD_1sie-a1-m30-cA 1sie-a1-m44-cA_1sie-a1-m30-cB 1sie-a1-m44-cD_1sie-a1-m14-cA 1sie-a1-m45-cA_1sie-a1-m14-cB 1sie-a1-m45-cD_1sie-a1-m46-cA 1sie-a1-m45-cE_1sie-a1-m46-cE 1sie-a1-m46-cA_1sie-a1-m41-cB 1sie-a1-m46-cD_1sie-a1-m13-cA 1sie-a1-m47-cA_1sie-a1-m13-cB 1sie-a1-m47-cD_1sie-a1-m37-cA 1sie-a1-m48-cA_1sie-a1-m37-cB 1sie-a1-m48-cD_1sie-a1-m35-cA 1sie-a1-m49-cA_1sie-a1-m35-cB 1sie-a1-m49-cD_1sie-a1-m4-cA 1sie-a1-m4-cA_1sie-a1-m50-cB 1sie-a1-m4-cD_1sie-a1-m34-cA 1sie-a1-m4-cE_1sie-a1-m49-cE 1sie-a1-m50-cA_1sie-a1-m4-cB 1sie-a1-m50-cD_1sie-a1-m41-cA 1sie-a1-m51-cA_1sie-a1-m56-cB 1sie-a1-m51-cD_1sie-a1-m18-cA 1sie-a1-m51-cE_1sie-a1-m60-cE 1sie-a1-m52-cA_1sie-a1-m18-cB 1sie-a1-m52-cD_1sie-a1-m27-cA 1sie-a1-m53-cA_1sie-a1-m27-cB 1sie-a1-m53-cD_1sie-a1-m25-cA 1sie-a1-m54-cA_1sie-a1-m25-cB 1sie-a1-m54-cD_1sie-a1-m9-cA 1sie-a1-m55-cA_1sie-a1-m9-cB 1sie-a1-m55-cD_1sie-a1-m56-cA 1sie-a1-m55-cE_1sie-a1-m56-cE 1sie-a1-m55-cE_1sie-a1-m8-cE 1sie-a1-m56-cA_1sie-a1-m51-cB 1sie-a1-m56-cD_1sie-a1-m8-cA 1sie-a1-m56-cE_1sie-a1-m8-cE 1sie-a1-m57-cA_1sie-a1-m8-cB 1sie-a1-m57-cD_1sie-a1-m32-cA 1sie-a1-m57-cE_1sie-a1-m7-cE 1sie-a1-m58-cA_1sie-a1-m32-cB 1sie-a1-m58-cD_1sie-a1-m40-cA 1sie-a1-m59-cA_1sie-a1-m40-cB 1sie-a1-m59-cD_1sie-a1-m19-cA 1sie-a1-m5-cA_1sie-a1-m34-cB 1sie-a1-m5-cD_1sie-a1-m6-cA 1sie-a1-m5-cE_1sie-a1-m6-cE 1sie-a1-m60-cA_1sie-a1-m19-cB 1sie-a1-m60-cD_1sie-a1-m51-cA 1sie-a1-m6-cA_1sie-a1-m1-cB 1sie-a1-m6-cD_1sie-a1-m33-cA 1sie-a1-m7-cA_1sie-a1-m33-cB 1sie-a1-m7-cD_1sie-a1-m57-cA 1sie-a1-m8-cA_1sie-a1-m57-cB 1sie-a1-m8-cD_1sie-a1-m55-cA 1sie-a1-m9-cA_1sie-a1-m55-cB 1sie-a1-m9-cD_1sie-a1-m24-cA KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m55-cA_1sie-a1-m9-cE MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 31 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 366 367 1sid-a1-m10-cA_1sid-a1-m24-cE 1sid-a1-m11-cA_1sid-a1-m16-cE 1sid-a1-m12-cA_1sid-a1-m38-cE 1sid-a1-m13-cA_1sid-a1-m47-cE 1sid-a1-m14-cA_1sid-a1-m45-cE 1sid-a1-m15-cA_1sid-a1-m29-cE 1sid-a1-m16-cA_1sid-a1-m11-cE 1sid-a1-m17-cA_1sid-a1-m28-cE 1sid-a1-m18-cA_1sid-a1-m52-cE 1sid-a1-m19-cA_1sid-a1-m60-cE 1sid-a1-m1-cA_1sid-a1-m6-cE 1sid-a1-m20-cA_1sid-a1-m39-cE 1sid-a1-m21-cA_1sid-a1-m26-cE 1sid-a1-m22-cA_1sid-a1-m43-cE 1sid-a1-m23-cA_1sid-a1-m2-cE 1sid-a1-m24-cA_1sid-a1-m10-cE 1sid-a1-m25-cA_1sid-a1-m54-cE 1sid-a1-m26-cA_1sid-a1-m21-cE 1sid-a1-m27-cA_1sid-a1-m53-cE 1sid-a1-m28-cA_1sid-a1-m17-cE 1sid-a1-m29-cA_1sid-a1-m15-cE 1sid-a1-m2-cA_1sid-a1-m23-cE 1sid-a1-m30-cA_1sid-a1-m44-cE 1sid-a1-m31-cA_1sid-a1-m36-cE 1sid-a1-m32-cA_1sid-a1-m58-cE 1sid-a1-m33-cA_1sid-a1-m7-cE 1sid-a1-m34-cA_1sid-a1-m5-cE 1sid-a1-m35-cA_1sid-a1-m49-cE 1sid-a1-m36-cA_1sid-a1-m31-cE 1sid-a1-m37-cA_1sid-a1-m48-cE 1sid-a1-m38-cA_1sid-a1-m12-cE 1sid-a1-m39-cA_1sid-a1-m20-cE 1sid-a1-m3-cA_1sid-a1-m42-cE 1sid-a1-m40-cA_1sid-a1-m59-cE 1sid-a1-m41-cA_1sid-a1-m46-cE 1sid-a1-m42-cA_1sid-a1-m3-cE 1sid-a1-m43-cA_1sid-a1-m22-cE 1sid-a1-m44-cA_1sid-a1-m30-cE 1sid-a1-m45-cA_1sid-a1-m14-cE 1sid-a1-m46-cA_1sid-a1-m41-cE 1sid-a1-m47-cA_1sid-a1-m13-cE 1sid-a1-m48-cA_1sid-a1-m37-cE 1sid-a1-m49-cA_1sid-a1-m35-cE 1sid-a1-m4-cA_1sid-a1-m50-cE 1sid-a1-m50-cA_1sid-a1-m4-cE 1sid-a1-m51-cA_1sid-a1-m56-cE 1sid-a1-m52-cA_1sid-a1-m18-cE 1sid-a1-m53-cA_1sid-a1-m27-cE 1sid-a1-m54-cA_1sid-a1-m25-cE 1sid-a1-m55-cA_1sid-a1-m9-cE 1sid-a1-m56-cA_1sid-a1-m51-cE 1sid-a1-m57-cA_1sid-a1-m8-cE 1sid-a1-m58-cA_1sid-a1-m32-cE 1sid-a1-m59-cA_1sid-a1-m40-cE 1sid-a1-m5-cA_1sid-a1-m34-cE 1sid-a1-m60-cA_1sid-a1-m19-cE 1sid-a1-m6-cA_1sid-a1-m1-cE 1sid-a1-m7-cA_1sid-a1-m33-cE 1sid-a1-m8-cA_1sid-a1-m57-cE 1sid-a1-m9-cA_1sid-a1-m55-cE 1sie-a1-m10-cA_1sie-a1-m24-cE 1sie-a1-m11-cA_1sie-a1-m16-cE 1sie-a1-m12-cA_1sie-a1-m38-cE 1sie-a1-m13-cA_1sie-a1-m47-cE 1sie-a1-m14-cA_1sie-a1-m45-cE 1sie-a1-m15-cA_1sie-a1-m29-cE 1sie-a1-m16-cA_1sie-a1-m11-cE 1sie-a1-m17-cA_1sie-a1-m28-cE 1sie-a1-m18-cA_1sie-a1-m52-cE 1sie-a1-m19-cA_1sie-a1-m60-cE 1sie-a1-m1-cA_1sie-a1-m6-cE 1sie-a1-m20-cA_1sie-a1-m39-cE 1sie-a1-m21-cA_1sie-a1-m26-cE 1sie-a1-m22-cA_1sie-a1-m43-cE 1sie-a1-m23-cA_1sie-a1-m2-cE 1sie-a1-m24-cA_1sie-a1-m10-cE 1sie-a1-m25-cA_1sie-a1-m54-cE 1sie-a1-m26-cA_1sie-a1-m21-cE 1sie-a1-m27-cA_1sie-a1-m53-cE 1sie-a1-m28-cA_1sie-a1-m17-cE 1sie-a1-m29-cA_1sie-a1-m15-cE 1sie-a1-m2-cA_1sie-a1-m23-cE 1sie-a1-m30-cA_1sie-a1-m44-cE 1sie-a1-m31-cA_1sie-a1-m36-cE 1sie-a1-m32-cA_1sie-a1-m58-cE 1sie-a1-m33-cA_1sie-a1-m7-cE 1sie-a1-m34-cA_1sie-a1-m5-cE 1sie-a1-m35-cA_1sie-a1-m49-cE 1sie-a1-m36-cA_1sie-a1-m31-cE 1sie-a1-m37-cA_1sie-a1-m48-cE 1sie-a1-m38-cA_1sie-a1-m12-cE 1sie-a1-m39-cA_1sie-a1-m20-cE 1sie-a1-m3-cA_1sie-a1-m42-cE 1sie-a1-m40-cA_1sie-a1-m59-cE 1sie-a1-m41-cA_1sie-a1-m46-cE 1sie-a1-m42-cA_1sie-a1-m3-cE 1sie-a1-m43-cA_1sie-a1-m22-cE 1sie-a1-m44-cA_1sie-a1-m30-cE 1sie-a1-m45-cA_1sie-a1-m14-cE 1sie-a1-m46-cA_1sie-a1-m41-cE 1sie-a1-m47-cA_1sie-a1-m13-cE 1sie-a1-m48-cA_1sie-a1-m37-cE 1sie-a1-m49-cA_1sie-a1-m35-cE 1sie-a1-m4-cA_1sie-a1-m50-cE 1sie-a1-m50-cA_1sie-a1-m4-cE 1sie-a1-m51-cA_1sie-a1-m56-cE 1sie-a1-m52-cA_1sie-a1-m18-cE 1sie-a1-m53-cA_1sie-a1-m27-cE 1sie-a1-m54-cA_1sie-a1-m25-cE 1sie-a1-m56-cA_1sie-a1-m51-cE 1sie-a1-m57-cA_1sie-a1-m8-cE 1sie-a1-m58-cA_1sie-a1-m32-cE 1sie-a1-m59-cA_1sie-a1-m40-cE 1sie-a1-m5-cA_1sie-a1-m34-cE 1sie-a1-m60-cA_1sie-a1-m19-cE 1sie-a1-m6-cA_1sie-a1-m1-cE 1sie-a1-m7-cA_1sie-a1-m33-cE 1sie-a1-m8-cA_1sie-a1-m57-cE 1sie-a1-m9-cA_1sie-a1-m55-cE KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPG KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m9-cC_1sie-a1-m10-cB MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 178 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 357 367 1sid-a1-m10-cC_1sid-a1-m6-cB 1sid-a1-m11-cC_1sid-a1-m12-cB 1sid-a1-m12-cC_1sid-a1-m13-cB 1sid-a1-m13-cC_1sid-a1-m14-cB 1sid-a1-m14-cC_1sid-a1-m15-cB 1sid-a1-m15-cC_1sid-a1-m11-cB 1sid-a1-m16-cC_1sid-a1-m17-cB 1sid-a1-m17-cC_1sid-a1-m18-cB 1sid-a1-m18-cC_1sid-a1-m19-cB 1sid-a1-m19-cC_1sid-a1-m20-cB 1sid-a1-m1-cC_1sid-a1-m2-cB 1sid-a1-m20-cC_1sid-a1-m16-cB 1sid-a1-m21-cC_1sid-a1-m22-cB 1sid-a1-m22-cC_1sid-a1-m23-cB 1sid-a1-m23-cC_1sid-a1-m24-cB 1sid-a1-m24-cC_1sid-a1-m25-cB 1sid-a1-m25-cC_1sid-a1-m21-cB 1sid-a1-m26-cC_1sid-a1-m27-cB 1sid-a1-m27-cC_1sid-a1-m28-cB 1sid-a1-m28-cC_1sid-a1-m29-cB 1sid-a1-m29-cC_1sid-a1-m30-cB 1sid-a1-m2-cC_1sid-a1-m3-cB 1sid-a1-m30-cC_1sid-a1-m26-cB 1sid-a1-m31-cC_1sid-a1-m32-cB 1sid-a1-m32-cC_1sid-a1-m33-cB 1sid-a1-m33-cC_1sid-a1-m34-cB 1sid-a1-m34-cC_1sid-a1-m35-cB 1sid-a1-m35-cC_1sid-a1-m31-cB 1sid-a1-m36-cC_1sid-a1-m37-cB 1sid-a1-m37-cC_1sid-a1-m38-cB 1sid-a1-m38-cC_1sid-a1-m39-cB 1sid-a1-m39-cC_1sid-a1-m40-cB 1sid-a1-m3-cC_1sid-a1-m4-cB 1sid-a1-m40-cC_1sid-a1-m36-cB 1sid-a1-m41-cC_1sid-a1-m42-cB 1sid-a1-m42-cC_1sid-a1-m43-cB 1sid-a1-m43-cC_1sid-a1-m44-cB 1sid-a1-m44-cC_1sid-a1-m45-cB 1sid-a1-m45-cC_1sid-a1-m41-cB 1sid-a1-m46-cC_1sid-a1-m47-cB 1sid-a1-m47-cC_1sid-a1-m48-cB 1sid-a1-m48-cC_1sid-a1-m49-cB 1sid-a1-m49-cC_1sid-a1-m50-cB 1sid-a1-m4-cC_1sid-a1-m5-cB 1sid-a1-m50-cC_1sid-a1-m46-cB 1sid-a1-m51-cC_1sid-a1-m52-cB 1sid-a1-m52-cC_1sid-a1-m53-cB 1sid-a1-m53-cC_1sid-a1-m54-cB 1sid-a1-m54-cC_1sid-a1-m55-cB 1sid-a1-m55-cC_1sid-a1-m51-cB 1sid-a1-m56-cC_1sid-a1-m57-cB 1sid-a1-m57-cC_1sid-a1-m58-cB 1sid-a1-m58-cC_1sid-a1-m59-cB 1sid-a1-m59-cC_1sid-a1-m60-cB 1sid-a1-m5-cC_1sid-a1-m1-cB 1sid-a1-m60-cC_1sid-a1-m56-cB 1sid-a1-m6-cC_1sid-a1-m7-cB 1sid-a1-m7-cC_1sid-a1-m8-cB 1sid-a1-m8-cC_1sid-a1-m9-cB 1sid-a1-m9-cC_1sid-a1-m10-cB 1sie-a1-m10-cC_1sie-a1-m6-cB 1sie-a1-m11-cC_1sie-a1-m12-cB 1sie-a1-m12-cC_1sie-a1-m13-cB 1sie-a1-m13-cC_1sie-a1-m14-cB 1sie-a1-m14-cC_1sie-a1-m15-cB 1sie-a1-m15-cC_1sie-a1-m11-cB 1sie-a1-m16-cC_1sie-a1-m17-cB 1sie-a1-m17-cC_1sie-a1-m18-cB 1sie-a1-m18-cC_1sie-a1-m19-cB 1sie-a1-m19-cC_1sie-a1-m20-cB 1sie-a1-m1-cC_1sie-a1-m2-cB 1sie-a1-m20-cC_1sie-a1-m16-cB 1sie-a1-m21-cC_1sie-a1-m22-cB 1sie-a1-m22-cC_1sie-a1-m23-cB 1sie-a1-m23-cC_1sie-a1-m24-cB 1sie-a1-m24-cC_1sie-a1-m25-cB 1sie-a1-m25-cC_1sie-a1-m21-cB 1sie-a1-m26-cC_1sie-a1-m27-cB 1sie-a1-m27-cC_1sie-a1-m28-cB 1sie-a1-m28-cC_1sie-a1-m29-cB 1sie-a1-m29-cC_1sie-a1-m30-cB 1sie-a1-m2-cC_1sie-a1-m3-cB 1sie-a1-m30-cC_1sie-a1-m26-cB 1sie-a1-m31-cC_1sie-a1-m32-cB 1sie-a1-m32-cC_1sie-a1-m33-cB 1sie-a1-m33-cC_1sie-a1-m34-cB 1sie-a1-m34-cC_1sie-a1-m35-cB 1sie-a1-m35-cC_1sie-a1-m31-cB 1sie-a1-m36-cC_1sie-a1-m37-cB 1sie-a1-m37-cC_1sie-a1-m38-cB 1sie-a1-m38-cC_1sie-a1-m39-cB 1sie-a1-m39-cC_1sie-a1-m40-cB 1sie-a1-m3-cC_1sie-a1-m4-cB 1sie-a1-m40-cC_1sie-a1-m36-cB 1sie-a1-m41-cC_1sie-a1-m42-cB 1sie-a1-m42-cC_1sie-a1-m43-cB 1sie-a1-m43-cC_1sie-a1-m44-cB 1sie-a1-m44-cC_1sie-a1-m45-cB 1sie-a1-m45-cC_1sie-a1-m41-cB 1sie-a1-m46-cC_1sie-a1-m47-cB 1sie-a1-m47-cC_1sie-a1-m48-cB 1sie-a1-m48-cC_1sie-a1-m49-cB 1sie-a1-m49-cC_1sie-a1-m50-cB 1sie-a1-m4-cC_1sie-a1-m5-cB 1sie-a1-m50-cC_1sie-a1-m46-cB 1sie-a1-m51-cC_1sie-a1-m52-cB 1sie-a1-m52-cC_1sie-a1-m53-cB 1sie-a1-m53-cC_1sie-a1-m54-cB 1sie-a1-m54-cC_1sie-a1-m55-cB 1sie-a1-m55-cC_1sie-a1-m51-cB 1sie-a1-m56-cC_1sie-a1-m57-cB 1sie-a1-m57-cC_1sie-a1-m58-cB 1sie-a1-m58-cC_1sie-a1-m59-cB 1sie-a1-m59-cC_1sie-a1-m60-cB 1sie-a1-m5-cC_1sie-a1-m1-cB 1sie-a1-m60-cC_1sie-a1-m56-cB 1sie-a1-m6-cC_1sie-a1-m7-cB 1sie-a1-m7-cC_1sie-a1-m8-cB 1sie-a1-m8-cC_1sie-a1-m9-cB KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRF KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m9-cD_1sie-a1-m10-cB MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 51 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 340 367 1sid-a1-m10-cD_1sid-a1-m6-cB 1sid-a1-m11-cD_1sid-a1-m12-cB 1sid-a1-m12-cD_1sid-a1-m13-cB 1sid-a1-m13-cD_1sid-a1-m14-cB 1sid-a1-m14-cD_1sid-a1-m15-cB 1sid-a1-m15-cD_1sid-a1-m11-cB 1sid-a1-m16-cD_1sid-a1-m17-cB 1sid-a1-m17-cD_1sid-a1-m18-cB 1sid-a1-m18-cD_1sid-a1-m19-cB 1sid-a1-m19-cD_1sid-a1-m20-cB 1sid-a1-m1-cD_1sid-a1-m2-cB 1sid-a1-m20-cD_1sid-a1-m16-cB 1sid-a1-m21-cD_1sid-a1-m22-cB 1sid-a1-m22-cD_1sid-a1-m23-cB 1sid-a1-m23-cD_1sid-a1-m24-cB 1sid-a1-m24-cD_1sid-a1-m25-cB 1sid-a1-m25-cD_1sid-a1-m21-cB 1sid-a1-m26-cD_1sid-a1-m27-cB 1sid-a1-m27-cD_1sid-a1-m28-cB 1sid-a1-m28-cD_1sid-a1-m29-cB 1sid-a1-m29-cD_1sid-a1-m30-cB 1sid-a1-m2-cD_1sid-a1-m3-cB 1sid-a1-m30-cD_1sid-a1-m26-cB 1sid-a1-m31-cD_1sid-a1-m32-cB 1sid-a1-m32-cD_1sid-a1-m33-cB 1sid-a1-m33-cD_1sid-a1-m34-cB 1sid-a1-m34-cD_1sid-a1-m35-cB 1sid-a1-m35-cD_1sid-a1-m31-cB 1sid-a1-m36-cD_1sid-a1-m37-cB 1sid-a1-m37-cD_1sid-a1-m38-cB 1sid-a1-m38-cD_1sid-a1-m39-cB 1sid-a1-m39-cD_1sid-a1-m40-cB 1sid-a1-m3-cD_1sid-a1-m4-cB 1sid-a1-m40-cD_1sid-a1-m36-cB 1sid-a1-m41-cD_1sid-a1-m42-cB 1sid-a1-m42-cD_1sid-a1-m43-cB 1sid-a1-m43-cD_1sid-a1-m44-cB 1sid-a1-m44-cD_1sid-a1-m45-cB 1sid-a1-m45-cD_1sid-a1-m41-cB 1sid-a1-m46-cD_1sid-a1-m47-cB 1sid-a1-m47-cD_1sid-a1-m48-cB 1sid-a1-m48-cD_1sid-a1-m49-cB 1sid-a1-m49-cD_1sid-a1-m50-cB 1sid-a1-m4-cD_1sid-a1-m5-cB 1sid-a1-m50-cD_1sid-a1-m46-cB 1sid-a1-m51-cD_1sid-a1-m52-cB 1sid-a1-m52-cD_1sid-a1-m53-cB 1sid-a1-m53-cD_1sid-a1-m54-cB 1sid-a1-m54-cD_1sid-a1-m55-cB 1sid-a1-m55-cD_1sid-a1-m51-cB 1sid-a1-m56-cD_1sid-a1-m57-cB 1sid-a1-m57-cD_1sid-a1-m58-cB 1sid-a1-m58-cD_1sid-a1-m59-cB 1sid-a1-m59-cD_1sid-a1-m60-cB 1sid-a1-m5-cD_1sid-a1-m1-cB 1sid-a1-m60-cD_1sid-a1-m56-cB 1sid-a1-m6-cD_1sid-a1-m7-cB 1sid-a1-m7-cD_1sid-a1-m8-cB 1sid-a1-m8-cD_1sid-a1-m9-cB 1sid-a1-m9-cD_1sid-a1-m10-cB 1sie-a1-m10-cD_1sie-a1-m6-cB 1sie-a1-m11-cD_1sie-a1-m12-cB 1sie-a1-m12-cD_1sie-a1-m13-cB 1sie-a1-m13-cD_1sie-a1-m14-cB 1sie-a1-m14-cD_1sie-a1-m15-cB 1sie-a1-m15-cD_1sie-a1-m11-cB 1sie-a1-m16-cD_1sie-a1-m17-cB 1sie-a1-m17-cD_1sie-a1-m18-cB 1sie-a1-m18-cD_1sie-a1-m19-cB 1sie-a1-m19-cD_1sie-a1-m20-cB 1sie-a1-m1-cD_1sie-a1-m2-cB 1sie-a1-m20-cD_1sie-a1-m16-cB 1sie-a1-m21-cD_1sie-a1-m22-cB 1sie-a1-m22-cD_1sie-a1-m23-cB 1sie-a1-m23-cD_1sie-a1-m24-cB 1sie-a1-m24-cD_1sie-a1-m25-cB 1sie-a1-m25-cD_1sie-a1-m21-cB 1sie-a1-m26-cD_1sie-a1-m27-cB 1sie-a1-m27-cD_1sie-a1-m28-cB 1sie-a1-m28-cD_1sie-a1-m29-cB 1sie-a1-m29-cD_1sie-a1-m30-cB 1sie-a1-m2-cD_1sie-a1-m3-cB 1sie-a1-m30-cD_1sie-a1-m26-cB 1sie-a1-m31-cD_1sie-a1-m32-cB 1sie-a1-m32-cD_1sie-a1-m33-cB 1sie-a1-m33-cD_1sie-a1-m34-cB 1sie-a1-m34-cD_1sie-a1-m35-cB 1sie-a1-m35-cD_1sie-a1-m31-cB 1sie-a1-m36-cD_1sie-a1-m37-cB 1sie-a1-m37-cD_1sie-a1-m38-cB 1sie-a1-m38-cD_1sie-a1-m39-cB 1sie-a1-m39-cD_1sie-a1-m40-cB 1sie-a1-m3-cD_1sie-a1-m4-cB 1sie-a1-m40-cD_1sie-a1-m36-cB 1sie-a1-m41-cD_1sie-a1-m42-cB 1sie-a1-m42-cD_1sie-a1-m43-cB 1sie-a1-m43-cD_1sie-a1-m44-cB 1sie-a1-m44-cD_1sie-a1-m45-cB 1sie-a1-m45-cD_1sie-a1-m41-cB 1sie-a1-m46-cD_1sie-a1-m47-cB 1sie-a1-m47-cD_1sie-a1-m48-cB 1sie-a1-m48-cD_1sie-a1-m49-cB 1sie-a1-m49-cD_1sie-a1-m50-cB 1sie-a1-m4-cD_1sie-a1-m5-cB 1sie-a1-m50-cD_1sie-a1-m46-cB 1sie-a1-m51-cD_1sie-a1-m52-cB 1sie-a1-m52-cD_1sie-a1-m53-cB 1sie-a1-m53-cD_1sie-a1-m54-cB 1sie-a1-m54-cD_1sie-a1-m55-cB 1sie-a1-m55-cD_1sie-a1-m51-cB 1sie-a1-m56-cD_1sie-a1-m57-cB 1sie-a1-m57-cD_1sie-a1-m58-cB 1sie-a1-m58-cD_1sie-a1-m59-cB 1sie-a1-m59-cD_1sie-a1-m60-cB 1sie-a1-m5-cD_1sie-a1-m1-cB 1sie-a1-m60-cD_1sie-a1-m56-cB 1sie-a1-m6-cD_1sie-a1-m7-cB 1sie-a1-m7-cD_1sie-a1-m8-cB 1sie-a1-m8-cD_1sie-a1-m9-cB KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDG KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m9-cF_1sie-a1-m8-cB MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 15 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 354 367 1sid-a1-m10-cF_1sid-a1-m9-cB 1sid-a1-m11-cF_1sid-a1-m15-cB 1sid-a1-m12-cF_1sid-a1-m11-cB 1sid-a1-m13-cF_1sid-a1-m12-cB 1sid-a1-m14-cF_1sid-a1-m13-cB 1sid-a1-m15-cF_1sid-a1-m14-cB 1sid-a1-m16-cF_1sid-a1-m20-cB 1sid-a1-m17-cF_1sid-a1-m16-cB 1sid-a1-m18-cF_1sid-a1-m17-cB 1sid-a1-m19-cF_1sid-a1-m18-cB 1sid-a1-m1-cF_1sid-a1-m5-cB 1sid-a1-m20-cF_1sid-a1-m19-cB 1sid-a1-m21-cF_1sid-a1-m25-cB 1sid-a1-m22-cF_1sid-a1-m21-cB 1sid-a1-m23-cF_1sid-a1-m22-cB 1sid-a1-m24-cF_1sid-a1-m23-cB 1sid-a1-m25-cF_1sid-a1-m24-cB 1sid-a1-m26-cF_1sid-a1-m30-cB 1sid-a1-m27-cF_1sid-a1-m26-cB 1sid-a1-m28-cF_1sid-a1-m27-cB 1sid-a1-m29-cF_1sid-a1-m28-cB 1sid-a1-m2-cF_1sid-a1-m1-cB 1sid-a1-m30-cF_1sid-a1-m29-cB 1sid-a1-m31-cF_1sid-a1-m35-cB 1sid-a1-m32-cF_1sid-a1-m31-cB 1sid-a1-m33-cF_1sid-a1-m32-cB 1sid-a1-m34-cF_1sid-a1-m33-cB 1sid-a1-m35-cF_1sid-a1-m34-cB 1sid-a1-m36-cF_1sid-a1-m40-cB 1sid-a1-m37-cF_1sid-a1-m36-cB 1sid-a1-m38-cF_1sid-a1-m37-cB 1sid-a1-m39-cF_1sid-a1-m38-cB 1sid-a1-m3-cF_1sid-a1-m2-cB 1sid-a1-m40-cF_1sid-a1-m39-cB 1sid-a1-m41-cF_1sid-a1-m45-cB 1sid-a1-m42-cF_1sid-a1-m41-cB 1sid-a1-m43-cF_1sid-a1-m42-cB 1sid-a1-m44-cF_1sid-a1-m43-cB 1sid-a1-m45-cF_1sid-a1-m44-cB 1sid-a1-m46-cF_1sid-a1-m50-cB 1sid-a1-m47-cF_1sid-a1-m46-cB 1sid-a1-m48-cF_1sid-a1-m47-cB 1sid-a1-m49-cF_1sid-a1-m48-cB 1sid-a1-m4-cF_1sid-a1-m3-cB 1sid-a1-m50-cF_1sid-a1-m49-cB 1sid-a1-m51-cF_1sid-a1-m55-cB 1sid-a1-m52-cF_1sid-a1-m51-cB 1sid-a1-m53-cF_1sid-a1-m52-cB 1sid-a1-m54-cF_1sid-a1-m53-cB 1sid-a1-m55-cF_1sid-a1-m54-cB 1sid-a1-m56-cF_1sid-a1-m60-cB 1sid-a1-m57-cF_1sid-a1-m56-cB 1sid-a1-m58-cF_1sid-a1-m57-cB 1sid-a1-m59-cF_1sid-a1-m58-cB 1sid-a1-m5-cF_1sid-a1-m4-cB 1sid-a1-m60-cF_1sid-a1-m59-cB 1sid-a1-m6-cF_1sid-a1-m10-cB 1sid-a1-m7-cF_1sid-a1-m6-cB 1sid-a1-m8-cF_1sid-a1-m7-cB 1sid-a1-m9-cF_1sid-a1-m8-cB 1sie-a1-m10-cF_1sie-a1-m9-cB 1sie-a1-m11-cF_1sie-a1-m15-cB 1sie-a1-m12-cF_1sie-a1-m11-cB 1sie-a1-m13-cF_1sie-a1-m12-cB 1sie-a1-m14-cF_1sie-a1-m13-cB 1sie-a1-m15-cF_1sie-a1-m14-cB 1sie-a1-m16-cF_1sie-a1-m20-cB 1sie-a1-m17-cF_1sie-a1-m16-cB 1sie-a1-m18-cF_1sie-a1-m17-cB 1sie-a1-m19-cF_1sie-a1-m18-cB 1sie-a1-m1-cF_1sie-a1-m5-cB 1sie-a1-m20-cF_1sie-a1-m19-cB 1sie-a1-m21-cF_1sie-a1-m25-cB 1sie-a1-m22-cF_1sie-a1-m21-cB 1sie-a1-m23-cF_1sie-a1-m22-cB 1sie-a1-m24-cF_1sie-a1-m23-cB 1sie-a1-m25-cF_1sie-a1-m24-cB 1sie-a1-m26-cF_1sie-a1-m30-cB 1sie-a1-m27-cF_1sie-a1-m26-cB 1sie-a1-m28-cF_1sie-a1-m27-cB 1sie-a1-m29-cF_1sie-a1-m28-cB 1sie-a1-m2-cF_1sie-a1-m1-cB 1sie-a1-m30-cF_1sie-a1-m29-cB 1sie-a1-m31-cF_1sie-a1-m35-cB 1sie-a1-m32-cF_1sie-a1-m31-cB 1sie-a1-m33-cF_1sie-a1-m32-cB 1sie-a1-m34-cF_1sie-a1-m33-cB 1sie-a1-m35-cF_1sie-a1-m34-cB 1sie-a1-m36-cF_1sie-a1-m40-cB 1sie-a1-m37-cF_1sie-a1-m36-cB 1sie-a1-m38-cF_1sie-a1-m37-cB 1sie-a1-m39-cF_1sie-a1-m38-cB 1sie-a1-m3-cF_1sie-a1-m2-cB 1sie-a1-m40-cF_1sie-a1-m39-cB 1sie-a1-m41-cF_1sie-a1-m45-cB 1sie-a1-m42-cF_1sie-a1-m41-cB 1sie-a1-m43-cF_1sie-a1-m42-cB 1sie-a1-m44-cF_1sie-a1-m43-cB 1sie-a1-m45-cF_1sie-a1-m44-cB 1sie-a1-m46-cF_1sie-a1-m50-cB 1sie-a1-m47-cF_1sie-a1-m46-cB 1sie-a1-m48-cF_1sie-a1-m47-cB 1sie-a1-m49-cF_1sie-a1-m48-cB 1sie-a1-m4-cF_1sie-a1-m3-cB 1sie-a1-m50-cF_1sie-a1-m49-cB 1sie-a1-m51-cF_1sie-a1-m55-cB 1sie-a1-m52-cF_1sie-a1-m51-cB 1sie-a1-m53-cF_1sie-a1-m52-cB 1sie-a1-m54-cF_1sie-a1-m53-cB 1sie-a1-m55-cF_1sie-a1-m54-cB 1sie-a1-m56-cF_1sie-a1-m60-cB 1sie-a1-m57-cF_1sie-a1-m56-cB 1sie-a1-m58-cF_1sie-a1-m57-cB 1sie-a1-m59-cF_1sie-a1-m58-cB 1sie-a1-m5-cF_1sie-a1-m4-cB 1sie-a1-m60-cF_1sie-a1-m59-cB 1sie-a1-m6-cF_1sie-a1-m10-cB 1sie-a1-m7-cF_1sie-a1-m6-cB 1sie-a1-m8-cF_1sie-a1-m7-cB ACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVD KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m9-cF_1sie-a1-m9-cB MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 163 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 354 367 1sid-a1-m10-cF_1sid-a1-m10-cB 1sid-a1-m10-cF_1sid-a1-m9-cC 1sid-a1-m11-cF_1sid-a1-m11-cB 1sid-a1-m11-cF_1sid-a1-m15-cC 1sid-a1-m12-cF_1sid-a1-m11-cC 1sid-a1-m12-cF_1sid-a1-m12-cB 1sid-a1-m13-cF_1sid-a1-m12-cC 1sid-a1-m13-cF_1sid-a1-m13-cB 1sid-a1-m14-cF_1sid-a1-m13-cC 1sid-a1-m14-cF_1sid-a1-m14-cB 1sid-a1-m15-cF_1sid-a1-m14-cC 1sid-a1-m15-cF_1sid-a1-m15-cB 1sid-a1-m16-cF_1sid-a1-m16-cB 1sid-a1-m16-cF_1sid-a1-m20-cC 1sid-a1-m17-cF_1sid-a1-m16-cC 1sid-a1-m17-cF_1sid-a1-m17-cB 1sid-a1-m18-cF_1sid-a1-m17-cC 1sid-a1-m18-cF_1sid-a1-m18-cB 1sid-a1-m19-cF_1sid-a1-m18-cC 1sid-a1-m19-cF_1sid-a1-m19-cB 1sid-a1-m1-cF_1sid-a1-m1-cB 1sid-a1-m1-cF_1sid-a1-m5-cC 1sid-a1-m20-cF_1sid-a1-m19-cC 1sid-a1-m20-cF_1sid-a1-m20-cB 1sid-a1-m21-cF_1sid-a1-m21-cB 1sid-a1-m21-cF_1sid-a1-m25-cC 1sid-a1-m22-cF_1sid-a1-m21-cC 1sid-a1-m22-cF_1sid-a1-m22-cB 1sid-a1-m23-cF_1sid-a1-m22-cC 1sid-a1-m23-cF_1sid-a1-m23-cB 1sid-a1-m24-cF_1sid-a1-m23-cC 1sid-a1-m24-cF_1sid-a1-m24-cB 1sid-a1-m25-cF_1sid-a1-m24-cC 1sid-a1-m25-cF_1sid-a1-m25-cB 1sid-a1-m26-cF_1sid-a1-m26-cB 1sid-a1-m26-cF_1sid-a1-m30-cC 1sid-a1-m27-cF_1sid-a1-m26-cC 1sid-a1-m27-cF_1sid-a1-m27-cB 1sid-a1-m28-cF_1sid-a1-m27-cC 1sid-a1-m28-cF_1sid-a1-m28-cB 1sid-a1-m29-cF_1sid-a1-m28-cC 1sid-a1-m29-cF_1sid-a1-m29-cB 1sid-a1-m2-cF_1sid-a1-m1-cC 1sid-a1-m2-cF_1sid-a1-m2-cB 1sid-a1-m30-cF_1sid-a1-m29-cC 1sid-a1-m30-cF_1sid-a1-m30-cB 1sid-a1-m31-cF_1sid-a1-m31-cB 1sid-a1-m31-cF_1sid-a1-m35-cC 1sid-a1-m32-cF_1sid-a1-m31-cC 1sid-a1-m32-cF_1sid-a1-m32-cB 1sid-a1-m33-cF_1sid-a1-m32-cC 1sid-a1-m33-cF_1sid-a1-m33-cB 1sid-a1-m34-cF_1sid-a1-m33-cC 1sid-a1-m34-cF_1sid-a1-m34-cB 1sid-a1-m35-cF_1sid-a1-m34-cC 1sid-a1-m35-cF_1sid-a1-m35-cB 1sid-a1-m36-cF_1sid-a1-m36-cB 1sid-a1-m36-cF_1sid-a1-m40-cC 1sid-a1-m37-cF_1sid-a1-m36-cC 1sid-a1-m37-cF_1sid-a1-m37-cB 1sid-a1-m38-cF_1sid-a1-m37-cC 1sid-a1-m38-cF_1sid-a1-m38-cB 1sid-a1-m39-cF_1sid-a1-m38-cC 1sid-a1-m39-cF_1sid-a1-m39-cB 1sid-a1-m3-cF_1sid-a1-m2-cC 1sid-a1-m3-cF_1sid-a1-m3-cB 1sid-a1-m40-cF_1sid-a1-m39-cC 1sid-a1-m40-cF_1sid-a1-m40-cB 1sid-a1-m41-cF_1sid-a1-m41-cB 1sid-a1-m41-cF_1sid-a1-m45-cC 1sid-a1-m42-cF_1sid-a1-m41-cC 1sid-a1-m42-cF_1sid-a1-m42-cB 1sid-a1-m43-cF_1sid-a1-m42-cC 1sid-a1-m43-cF_1sid-a1-m43-cB 1sid-a1-m44-cF_1sid-a1-m43-cC 1sid-a1-m44-cF_1sid-a1-m44-cB 1sid-a1-m45-cF_1sid-a1-m44-cC 1sid-a1-m45-cF_1sid-a1-m45-cB 1sid-a1-m46-cF_1sid-a1-m46-cB 1sid-a1-m46-cF_1sid-a1-m50-cC 1sid-a1-m47-cF_1sid-a1-m46-cC 1sid-a1-m47-cF_1sid-a1-m47-cB 1sid-a1-m48-cF_1sid-a1-m47-cC 1sid-a1-m48-cF_1sid-a1-m48-cB 1sid-a1-m49-cF_1sid-a1-m48-cC 1sid-a1-m49-cF_1sid-a1-m49-cB 1sid-a1-m4-cF_1sid-a1-m3-cC 1sid-a1-m4-cF_1sid-a1-m4-cB 1sid-a1-m50-cF_1sid-a1-m49-cC 1sid-a1-m50-cF_1sid-a1-m50-cB 1sid-a1-m51-cF_1sid-a1-m51-cB 1sid-a1-m51-cF_1sid-a1-m55-cC 1sid-a1-m52-cF_1sid-a1-m51-cC 1sid-a1-m52-cF_1sid-a1-m52-cB 1sid-a1-m53-cF_1sid-a1-m52-cC 1sid-a1-m53-cF_1sid-a1-m53-cB 1sid-a1-m54-cF_1sid-a1-m53-cC 1sid-a1-m54-cF_1sid-a1-m54-cB 1sid-a1-m55-cF_1sid-a1-m54-cC 1sid-a1-m55-cF_1sid-a1-m55-cB 1sid-a1-m56-cF_1sid-a1-m56-cB 1sid-a1-m56-cF_1sid-a1-m60-cC 1sid-a1-m57-cF_1sid-a1-m56-cC 1sid-a1-m57-cF_1sid-a1-m57-cB 1sid-a1-m58-cF_1sid-a1-m57-cC 1sid-a1-m58-cF_1sid-a1-m58-cB 1sid-a1-m59-cF_1sid-a1-m58-cC 1sid-a1-m59-cF_1sid-a1-m59-cB 1sid-a1-m5-cF_1sid-a1-m4-cC 1sid-a1-m5-cF_1sid-a1-m5-cB 1sid-a1-m60-cF_1sid-a1-m59-cC 1sid-a1-m60-cF_1sid-a1-m60-cB 1sid-a1-m6-cF_1sid-a1-m10-cC 1sid-a1-m6-cF_1sid-a1-m6-cB 1sid-a1-m7-cF_1sid-a1-m6-cC 1sid-a1-m7-cF_1sid-a1-m7-cB 1sid-a1-m8-cF_1sid-a1-m7-cC 1sid-a1-m8-cF_1sid-a1-m8-cB 1sid-a1-m9-cF_1sid-a1-m8-cC 1sid-a1-m9-cF_1sid-a1-m9-cB 1sie-a1-m10-cF_1sie-a1-m10-cB 1sie-a1-m10-cF_1sie-a1-m9-cC 1sie-a1-m11-cF_1sie-a1-m11-cB 1sie-a1-m11-cF_1sie-a1-m15-cC 1sie-a1-m12-cF_1sie-a1-m11-cC 1sie-a1-m12-cF_1sie-a1-m12-cB 1sie-a1-m13-cF_1sie-a1-m12-cC 1sie-a1-m13-cF_1sie-a1-m13-cB 1sie-a1-m14-cF_1sie-a1-m13-cC 1sie-a1-m14-cF_1sie-a1-m14-cB 1sie-a1-m15-cF_1sie-a1-m14-cC 1sie-a1-m15-cF_1sie-a1-m15-cB 1sie-a1-m16-cF_1sie-a1-m16-cB 1sie-a1-m16-cF_1sie-a1-m20-cC 1sie-a1-m17-cF_1sie-a1-m16-cC 1sie-a1-m17-cF_1sie-a1-m17-cB 1sie-a1-m18-cF_1sie-a1-m17-cC 1sie-a1-m18-cF_1sie-a1-m18-cB 1sie-a1-m19-cF_1sie-a1-m18-cC 1sie-a1-m19-cF_1sie-a1-m19-cB 1sie-a1-m1-cF_1sie-a1-m1-cB 1sie-a1-m1-cF_1sie-a1-m5-cC 1sie-a1-m20-cF_1sie-a1-m19-cC 1sie-a1-m20-cF_1sie-a1-m20-cB 1sie-a1-m21-cF_1sie-a1-m21-cB 1sie-a1-m21-cF_1sie-a1-m25-cC 1sie-a1-m22-cF_1sie-a1-m21-cC 1sie-a1-m22-cF_1sie-a1-m22-cB 1sie-a1-m23-cF_1sie-a1-m22-cC 1sie-a1-m23-cF_1sie-a1-m23-cB 1sie-a1-m24-cF_1sie-a1-m23-cC 1sie-a1-m24-cF_1sie-a1-m24-cB 1sie-a1-m25-cF_1sie-a1-m24-cC 1sie-a1-m25-cF_1sie-a1-m25-cB 1sie-a1-m26-cF_1sie-a1-m26-cB 1sie-a1-m26-cF_1sie-a1-m30-cC 1sie-a1-m27-cF_1sie-a1-m26-cC 1sie-a1-m27-cF_1sie-a1-m27-cB 1sie-a1-m28-cF_1sie-a1-m27-cC 1sie-a1-m28-cF_1sie-a1-m28-cB 1sie-a1-m29-cF_1sie-a1-m28-cC 1sie-a1-m29-cF_1sie-a1-m29-cB 1sie-a1-m2-cF_1sie-a1-m1-cC 1sie-a1-m2-cF_1sie-a1-m2-cB 1sie-a1-m30-cF_1sie-a1-m29-cC 1sie-a1-m30-cF_1sie-a1-m30-cB 1sie-a1-m31-cF_1sie-a1-m31-cB 1sie-a1-m31-cF_1sie-a1-m35-cC 1sie-a1-m32-cF_1sie-a1-m31-cC 1sie-a1-m32-cF_1sie-a1-m32-cB 1sie-a1-m33-cF_1sie-a1-m32-cC 1sie-a1-m33-cF_1sie-a1-m33-cB 1sie-a1-m34-cF_1sie-a1-m33-cC 1sie-a1-m34-cF_1sie-a1-m34-cB 1sie-a1-m35-cF_1sie-a1-m34-cC 1sie-a1-m35-cF_1sie-a1-m35-cB 1sie-a1-m36-cF_1sie-a1-m36-cB 1sie-a1-m36-cF_1sie-a1-m40-cC 1sie-a1-m37-cF_1sie-a1-m36-cC 1sie-a1-m37-cF_1sie-a1-m37-cB 1sie-a1-m38-cF_1sie-a1-m37-cC 1sie-a1-m38-cF_1sie-a1-m38-cB 1sie-a1-m39-cF_1sie-a1-m38-cC 1sie-a1-m39-cF_1sie-a1-m39-cB 1sie-a1-m3-cF_1sie-a1-m2-cC 1sie-a1-m3-cF_1sie-a1-m3-cB 1sie-a1-m40-cF_1sie-a1-m39-cC 1sie-a1-m40-cF_1sie-a1-m40-cB 1sie-a1-m41-cF_1sie-a1-m41-cB 1sie-a1-m41-cF_1sie-a1-m45-cC 1sie-a1-m42-cF_1sie-a1-m41-cC 1sie-a1-m42-cF_1sie-a1-m42-cB 1sie-a1-m43-cF_1sie-a1-m42-cC 1sie-a1-m43-cF_1sie-a1-m43-cB 1sie-a1-m44-cF_1sie-a1-m43-cC 1sie-a1-m44-cF_1sie-a1-m44-cB 1sie-a1-m45-cF_1sie-a1-m44-cC 1sie-a1-m45-cF_1sie-a1-m45-cB 1sie-a1-m46-cF_1sie-a1-m46-cB 1sie-a1-m46-cF_1sie-a1-m50-cC 1sie-a1-m47-cF_1sie-a1-m46-cC 1sie-a1-m47-cF_1sie-a1-m47-cB 1sie-a1-m48-cF_1sie-a1-m47-cC 1sie-a1-m48-cF_1sie-a1-m48-cB 1sie-a1-m49-cF_1sie-a1-m48-cC 1sie-a1-m49-cF_1sie-a1-m49-cB 1sie-a1-m4-cF_1sie-a1-m3-cC 1sie-a1-m4-cF_1sie-a1-m4-cB 1sie-a1-m50-cF_1sie-a1-m49-cC 1sie-a1-m50-cF_1sie-a1-m50-cB 1sie-a1-m51-cF_1sie-a1-m51-cB 1sie-a1-m51-cF_1sie-a1-m55-cC 1sie-a1-m52-cF_1sie-a1-m51-cC 1sie-a1-m52-cF_1sie-a1-m52-cB 1sie-a1-m53-cF_1sie-a1-m52-cC 1sie-a1-m53-cF_1sie-a1-m53-cB 1sie-a1-m54-cF_1sie-a1-m53-cC 1sie-a1-m54-cF_1sie-a1-m54-cB 1sie-a1-m55-cF_1sie-a1-m54-cC 1sie-a1-m55-cF_1sie-a1-m55-cB 1sie-a1-m56-cF_1sie-a1-m56-cB 1sie-a1-m56-cF_1sie-a1-m60-cC 1sie-a1-m57-cF_1sie-a1-m56-cC 1sie-a1-m57-cF_1sie-a1-m57-cB 1sie-a1-m58-cF_1sie-a1-m57-cC 1sie-a1-m58-cF_1sie-a1-m58-cB 1sie-a1-m59-cF_1sie-a1-m58-cC 1sie-a1-m59-cF_1sie-a1-m59-cB 1sie-a1-m5-cF_1sie-a1-m4-cC 1sie-a1-m5-cF_1sie-a1-m5-cB 1sie-a1-m60-cF_1sie-a1-m59-cC 1sie-a1-m60-cF_1sie-a1-m60-cB 1sie-a1-m6-cF_1sie-a1-m10-cC 1sie-a1-m6-cF_1sie-a1-m6-cB 1sie-a1-m7-cF_1sie-a1-m6-cC 1sie-a1-m7-cF_1sie-a1-m7-cB 1sie-a1-m8-cF_1sie-a1-m7-cC 1sie-a1-m8-cF_1sie-a1-m8-cB 1sie-a1-m9-cF_1sie-a1-m8-cC ACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVD KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRFGKTKTVFPGN 1sie-a1-m9-cF_1sie-a1-m9-cC MURINE POLYOMAVIRUS COMPLEXED WITH A DISIALYLATED OLIGOSACCHARIDE P49302 P49302 3.65 X-RAY DIFFRACTION 77 1.0 47935 (Mouse polyomavirus (strain p16 small-plaque)) 47935 (Mouse polyomavirus (strain p16 small-plaque)) 354 357 1sid-a1-m10-cF_1sid-a1-m10-cC 1sid-a1-m11-cF_1sid-a1-m11-cC 1sid-a1-m12-cF_1sid-a1-m12-cC 1sid-a1-m13-cF_1sid-a1-m13-cC 1sid-a1-m14-cF_1sid-a1-m14-cC 1sid-a1-m15-cF_1sid-a1-m15-cC 1sid-a1-m16-cF_1sid-a1-m16-cC 1sid-a1-m17-cF_1sid-a1-m17-cC 1sid-a1-m18-cF_1sid-a1-m18-cC 1sid-a1-m19-cF_1sid-a1-m19-cC 1sid-a1-m1-cF_1sid-a1-m1-cC 1sid-a1-m20-cF_1sid-a1-m20-cC 1sid-a1-m21-cF_1sid-a1-m21-cC 1sid-a1-m22-cF_1sid-a1-m22-cC 1sid-a1-m23-cF_1sid-a1-m23-cC 1sid-a1-m24-cF_1sid-a1-m24-cC 1sid-a1-m25-cF_1sid-a1-m25-cC 1sid-a1-m26-cF_1sid-a1-m26-cC 1sid-a1-m27-cF_1sid-a1-m27-cC 1sid-a1-m28-cF_1sid-a1-m28-cC 1sid-a1-m29-cF_1sid-a1-m29-cC 1sid-a1-m2-cF_1sid-a1-m2-cC 1sid-a1-m30-cF_1sid-a1-m30-cC 1sid-a1-m31-cF_1sid-a1-m31-cC 1sid-a1-m32-cF_1sid-a1-m32-cC 1sid-a1-m33-cF_1sid-a1-m33-cC 1sid-a1-m34-cF_1sid-a1-m34-cC 1sid-a1-m35-cF_1sid-a1-m35-cC 1sid-a1-m36-cF_1sid-a1-m36-cC 1sid-a1-m37-cF_1sid-a1-m37-cC 1sid-a1-m38-cF_1sid-a1-m38-cC 1sid-a1-m39-cF_1sid-a1-m39-cC 1sid-a1-m3-cF_1sid-a1-m3-cC 1sid-a1-m40-cF_1sid-a1-m40-cC 1sid-a1-m41-cF_1sid-a1-m41-cC 1sid-a1-m42-cF_1sid-a1-m42-cC 1sid-a1-m43-cF_1sid-a1-m43-cC 1sid-a1-m44-cF_1sid-a1-m44-cC 1sid-a1-m45-cF_1sid-a1-m45-cC 1sid-a1-m46-cF_1sid-a1-m46-cC 1sid-a1-m47-cF_1sid-a1-m47-cC 1sid-a1-m48-cF_1sid-a1-m48-cC 1sid-a1-m49-cF_1sid-a1-m49-cC 1sid-a1-m4-cF_1sid-a1-m4-cC 1sid-a1-m50-cF_1sid-a1-m50-cC 1sid-a1-m51-cF_1sid-a1-m51-cC 1sid-a1-m52-cF_1sid-a1-m52-cC 1sid-a1-m53-cF_1sid-a1-m53-cC 1sid-a1-m54-cF_1sid-a1-m54-cC 1sid-a1-m55-cF_1sid-a1-m55-cC 1sid-a1-m56-cF_1sid-a1-m56-cC 1sid-a1-m57-cF_1sid-a1-m57-cC 1sid-a1-m58-cF_1sid-a1-m58-cC 1sid-a1-m59-cF_1sid-a1-m59-cC 1sid-a1-m5-cF_1sid-a1-m5-cC 1sid-a1-m60-cF_1sid-a1-m60-cC 1sid-a1-m6-cF_1sid-a1-m6-cC 1sid-a1-m7-cF_1sid-a1-m7-cC 1sid-a1-m8-cF_1sid-a1-m8-cC 1sid-a1-m9-cF_1sid-a1-m9-cC 1sie-a1-m10-cF_1sie-a1-m10-cC 1sie-a1-m11-cF_1sie-a1-m11-cC 1sie-a1-m12-cF_1sie-a1-m12-cC 1sie-a1-m13-cF_1sie-a1-m13-cC 1sie-a1-m14-cF_1sie-a1-m14-cC 1sie-a1-m15-cF_1sie-a1-m15-cC 1sie-a1-m16-cF_1sie-a1-m16-cC 1sie-a1-m17-cF_1sie-a1-m17-cC 1sie-a1-m18-cF_1sie-a1-m18-cC 1sie-a1-m19-cF_1sie-a1-m19-cC 1sie-a1-m1-cF_1sie-a1-m1-cC 1sie-a1-m20-cF_1sie-a1-m20-cC 1sie-a1-m21-cF_1sie-a1-m21-cC 1sie-a1-m22-cF_1sie-a1-m22-cC 1sie-a1-m23-cF_1sie-a1-m23-cC 1sie-a1-m24-cF_1sie-a1-m24-cC 1sie-a1-m25-cF_1sie-a1-m25-cC 1sie-a1-m26-cF_1sie-a1-m26-cC 1sie-a1-m27-cF_1sie-a1-m27-cC 1sie-a1-m28-cF_1sie-a1-m28-cC 1sie-a1-m29-cF_1sie-a1-m29-cC 1sie-a1-m2-cF_1sie-a1-m2-cC 1sie-a1-m30-cF_1sie-a1-m30-cC 1sie-a1-m31-cF_1sie-a1-m31-cC 1sie-a1-m32-cF_1sie-a1-m32-cC 1sie-a1-m33-cF_1sie-a1-m33-cC 1sie-a1-m34-cF_1sie-a1-m34-cC 1sie-a1-m35-cF_1sie-a1-m35-cC 1sie-a1-m36-cF_1sie-a1-m36-cC 1sie-a1-m37-cF_1sie-a1-m37-cC 1sie-a1-m38-cF_1sie-a1-m38-cC 1sie-a1-m39-cF_1sie-a1-m39-cC 1sie-a1-m3-cF_1sie-a1-m3-cC 1sie-a1-m40-cF_1sie-a1-m40-cC 1sie-a1-m41-cF_1sie-a1-m41-cC 1sie-a1-m42-cF_1sie-a1-m42-cC 1sie-a1-m43-cF_1sie-a1-m43-cC 1sie-a1-m44-cF_1sie-a1-m44-cC 1sie-a1-m45-cF_1sie-a1-m45-cC 1sie-a1-m46-cF_1sie-a1-m46-cC 1sie-a1-m47-cF_1sie-a1-m47-cC 1sie-a1-m48-cF_1sie-a1-m48-cC 1sie-a1-m49-cF_1sie-a1-m49-cC 1sie-a1-m4-cF_1sie-a1-m4-cC 1sie-a1-m50-cF_1sie-a1-m50-cC 1sie-a1-m51-cF_1sie-a1-m51-cC 1sie-a1-m52-cF_1sie-a1-m52-cC 1sie-a1-m53-cF_1sie-a1-m53-cC 1sie-a1-m54-cF_1sie-a1-m54-cC 1sie-a1-m55-cF_1sie-a1-m55-cC 1sie-a1-m56-cF_1sie-a1-m56-cC 1sie-a1-m57-cF_1sie-a1-m57-cC 1sie-a1-m58-cF_1sie-a1-m58-cC 1sie-a1-m59-cF_1sie-a1-m59-cC 1sie-a1-m5-cF_1sie-a1-m5-cC 1sie-a1-m60-cF_1sie-a1-m60-cC 1sie-a1-m6-cF_1sie-a1-m6-cC 1sie-a1-m7-cF_1sie-a1-m7-cC 1sie-a1-m8-cF_1sie-a1-m8-cC ACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVD KACPRPAPVPKLLIKGGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVKNPYPMASLISSLFNNMLPQVQGQPMEGENTQVEEVRVYDGTEPVPGDPDMTRYVDRF 1siq-a1-m1-cA_1siq-a1-m4-cA The Crystal Structure and Mechanism of Human Glutaryl-CoA Dehydrogenase Q92947 Q92947 2.1 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 390 1siq-a1-m2-cA_1siq-a1-m3-cA 1sir-a1-m1-cA_1sir-a1-m4-cA 1sir-a1-m2-cA_1sir-a1-m3-cA 2r0m-a1-m1-cA_2r0m-a1-m4-cA 2r0m-a1-m2-cA_2r0m-a1-m3-cA 2r0n-a2-m1-cA_2r0n-a2-m4-cA 2r0n-a2-m2-cA_2r0n-a2-m3-cA EFDWQDPLVLEEQLTTDEILIRDTFRTYCQERLMPRILLANRNEVFHREIISEMGELGVLGPTIKGYGCAGVSSVAYGLLARELERVDSGYRSAMSVQSSLVMHPIYAYGSEEQRQKYLPQLAKGELLGCFGLTEPNSGSDPSSMETRAHYNSSNKSYTLNGTKTWITNSPMADLFVVWARCEDGCIRGFLLEKGMRGLSAPRIQGKFSLRASATGMIIMDGVEVPEENVLPGASSLGGPFGCLNNARYGIAWGVLGASEFCLHTARQYALDRMQFGVPLARNQLIQKKLADMLTEITLGLHACLQLGRLKDQDKAAPEMVSLLKRNNCGKALDIARQARDMLGGNGISDEYHVIRHAMNLEAVNTYEGTHDIHALILGRAITGIQAFTA EFDWQDPLVLEEQLTTDEILIRDTFRTYCQERLMPRILLANRNEVFHREIISEMGELGVLGPTIKGYGCAGVSSVAYGLLARELERVDSGYRSAMSVQSSLVMHPIYAYGSEEQRQKYLPQLAKGELLGCFGLTEPNSGSDPSSMETRAHYNSSNKSYTLNGTKTWITNSPMADLFVVWARCEDGCIRGFLLEKGMRGLSAPRIQGKFSLRASATGMIIMDGVEVPEENVLPGASSLGGPFGCLNNARYGIAWGVLGASEFCLHTARQYALDRMQFGVPLARNQLIQKKLADMLTEITLGLHACLQLGRLKDQDKAAPEMVSLLKRNNCGKALDIARQARDMLGGNGISDEYHVIRHAMNLEAVNTYEGTHDIHALILGRAITGIQAFTA 1siq-a1-m2-cA_1siq-a1-m4-cA The Crystal Structure and Mechanism of Human Glutaryl-CoA Dehydrogenase Q92947 Q92947 2.1 X-RAY DIFFRACTION 153 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 390 1siq-a1-m1-cA_1siq-a1-m3-cA 1sir-a1-m1-cA_1sir-a1-m3-cA 1sir-a1-m2-cA_1sir-a1-m4-cA 2r0m-a1-m1-cA_2r0m-a1-m3-cA 2r0m-a1-m2-cA_2r0m-a1-m4-cA 2r0n-a2-m1-cA_2r0n-a2-m3-cA 2r0n-a2-m2-cA_2r0n-a2-m4-cA EFDWQDPLVLEEQLTTDEILIRDTFRTYCQERLMPRILLANRNEVFHREIISEMGELGVLGPTIKGYGCAGVSSVAYGLLARELERVDSGYRSAMSVQSSLVMHPIYAYGSEEQRQKYLPQLAKGELLGCFGLTEPNSGSDPSSMETRAHYNSSNKSYTLNGTKTWITNSPMADLFVVWARCEDGCIRGFLLEKGMRGLSAPRIQGKFSLRASATGMIIMDGVEVPEENVLPGASSLGGPFGCLNNARYGIAWGVLGASEFCLHTARQYALDRMQFGVPLARNQLIQKKLADMLTEITLGLHACLQLGRLKDQDKAAPEMVSLLKRNNCGKALDIARQARDMLGGNGISDEYHVIRHAMNLEAVNTYEGTHDIHALILGRAITGIQAFTA EFDWQDPLVLEEQLTTDEILIRDTFRTYCQERLMPRILLANRNEVFHREIISEMGELGVLGPTIKGYGCAGVSSVAYGLLARELERVDSGYRSAMSVQSSLVMHPIYAYGSEEQRQKYLPQLAKGELLGCFGLTEPNSGSDPSSMETRAHYNSSNKSYTLNGTKTWITNSPMADLFVVWARCEDGCIRGFLLEKGMRGLSAPRIQGKFSLRASATGMIIMDGVEVPEENVLPGASSLGGPFGCLNNARYGIAWGVLGASEFCLHTARQYALDRMQFGVPLARNQLIQKKLADMLTEITLGLHACLQLGRLKDQDKAAPEMVSLLKRNNCGKALDIARQARDMLGGNGISDEYHVIRHAMNLEAVNTYEGTHDIHALILGRAITGIQAFTA 1siq-a1-m3-cA_1siq-a1-m4-cA The Crystal Structure and Mechanism of Human Glutaryl-CoA Dehydrogenase Q92947 Q92947 2.1 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 390 1siq-a1-m1-cA_1siq-a1-m2-cA 1sir-a1-m1-cA_1sir-a1-m2-cA 1sir-a1-m3-cA_1sir-a1-m4-cA 2r0m-a1-m1-cA_2r0m-a1-m2-cA 2r0m-a1-m3-cA_2r0m-a1-m4-cA EFDWQDPLVLEEQLTTDEILIRDTFRTYCQERLMPRILLANRNEVFHREIISEMGELGVLGPTIKGYGCAGVSSVAYGLLARELERVDSGYRSAMSVQSSLVMHPIYAYGSEEQRQKYLPQLAKGELLGCFGLTEPNSGSDPSSMETRAHYNSSNKSYTLNGTKTWITNSPMADLFVVWARCEDGCIRGFLLEKGMRGLSAPRIQGKFSLRASATGMIIMDGVEVPEENVLPGASSLGGPFGCLNNARYGIAWGVLGASEFCLHTARQYALDRMQFGVPLARNQLIQKKLADMLTEITLGLHACLQLGRLKDQDKAAPEMVSLLKRNNCGKALDIARQARDMLGGNGISDEYHVIRHAMNLEAVNTYEGTHDIHALILGRAITGIQAFTA EFDWQDPLVLEEQLTTDEILIRDTFRTYCQERLMPRILLANRNEVFHREIISEMGELGVLGPTIKGYGCAGVSSVAYGLLARELERVDSGYRSAMSVQSSLVMHPIYAYGSEEQRQKYLPQLAKGELLGCFGLTEPNSGSDPSSMETRAHYNSSNKSYTLNGTKTWITNSPMADLFVVWARCEDGCIRGFLLEKGMRGLSAPRIQGKFSLRASATGMIIMDGVEVPEENVLPGASSLGGPFGCLNNARYGIAWGVLGASEFCLHTARQYALDRMQFGVPLARNQLIQKKLADMLTEITLGLHACLQLGRLKDQDKAAPEMVSLLKRNNCGKALDIARQARDMLGGNGISDEYHVIRHAMNLEAVNTYEGTHDIHALILGRAITGIQAFTA 1sj1-a1-m1-cA_1sj1-a1-m1-cB The 1.5 A Resolution Crystal Structure of [Fe3S4]-Ferredoxin from the hyperthermophilic Archaeon Pyrococcus furiosus P29603 P29603 1.5 X-RAY DIFFRACTION 24 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 66 66 1siz-a1-m1-cA_1siz-a1-m1-cC AWKVSVDQDTCIGDAICASLCPDVFEMNDEGKAQPKVEVIEDEELYNCAKEAMEACPVSAITIEEA AWKVSVDQDTCIGDAICASLCPDVFEMNDEGKAQPKVEVIEDEELYNCAKEAMEACPVSAITIEEA 1sjd-a1-m1-cA_1sjd-a1-m2-cD x-ray structure of o-succinylbenzoate synthase complexed with n-succinyl phenylglycine Q44244 Q44244 1.87 X-RAY DIFFRACTION 63 1.0 37632 (Amycolatopsis sp.) 37632 (Amycolatopsis sp.) 367 367 1sja-a1-m1-cA_1sja-a1-m2-cD 1sja-a1-m1-cB_1sja-a1-m1-cC 1sja-a1-m1-cD_1sja-a1-m2-cA 1sja-a1-m2-cB_1sja-a1-m2-cC 1sjb-a1-m1-cA_1sjb-a1-m2-cD 1sjb-a1-m1-cC_1sjb-a1-m1-cB 1sjb-a1-m2-cA_1sjb-a1-m1-cD 1sjb-a1-m2-cC_1sjb-a1-m2-cB 1sjc-a1-m1-cA_1sjc-a1-m2-cD 1sjc-a1-m1-cC_1sjc-a1-m1-cB 1sjc-a1-m2-cA_1sjc-a1-m1-cD 1sjc-a1-m2-cC_1sjc-a1-m2-cB 1sjd-a1-m1-cC_1sjd-a1-m1-cB 1sjd-a1-m1-cD_1sjd-a1-m2-cA 1sjd-a1-m2-cC_1sjd-a1-m2-cB 5fjo-a1-m1-cA_5fjo-a1-m2-cB 5fjo-a1-m2-cA_5fjo-a1-m4-cB 5fjo-a1-m3-cA_5fjo-a1-m1-cB 5fjo-a1-m4-cA_5fjo-a1-m3-cB 5fjr-a1-m1-cB_5fjr-a1-m1-cA 5fjr-a1-m1-cC_5fjr-a1-m2-cD 5fjr-a1-m1-cD_5fjr-a1-m2-cC 5fjr-a1-m2-cB_5fjr-a1-m2-cA 5fjt-a1-m1-cA_5fjt-a1-m1-cB 5fjt-a1-m1-cC_5fjt-a1-m2-cD 5fjt-a1-m2-cA_5fjt-a1-m2-cB 5fjt-a1-m2-cC_5fjt-a1-m1-cD 5fju-a1-m1-cB_5fju-a1-m1-cA 5fju-a1-m1-cC_5fju-a1-m2-cD 5fju-a1-m1-cD_5fju-a1-m2-cC 5fju-a1-m2-cB_5fju-a1-m2-cA 7s8w-a1-m1-cA_7s8w-a1-m1-cB 7s8w-a1-m1-cD_7s8w-a1-m2-cC 7s8w-a1-m2-cA_7s8w-a1-m2-cB 7s8w-a1-m2-cD_7s8w-a1-m1-cC MKLSGVELRRVQMPLVAPFRTSFGTQSVRELLLLRAVTPAGEGWGECVTMAGPLYSSEYNDGAEHVLRHYLIPALLAAEDITAAKVTPLLAKFKGHRMAKGALEMAVLDAELRAHERSFAAELGSVRDSVPCGVSVGIMDTIPQLLDVVGGYLDEGYVRIKLKIEPGWDVEPVRAVRERFGDDVLLQVDANTAYTLGDAPQLARLDPFGLLLIEQPLEEEDVLGHAELARRIQTPICLDESIVSARAAADAIKLGAVQIVNIKPGRVGGYLEARRVHDVCAAHGIPVWCGGMIETGLGRAANVALASLPNFTLPGDTSASDRFYKTDITEPFVLSGGHLPVPTGPGLGVAPIPELLDEVTTAKVWIG MKLSGVELRRVQMPLVAPFRTSFGTQSVRELLLLRAVTPAGEGWGECVTMAGPLYSSEYNDGAEHVLRHYLIPALLAAEDITAAKVTPLLAKFKGHRMAKGALEMAVLDAELRAHERSFAAELGSVRDSVPCGVSVGIMDTIPQLLDVVGGYLDEGYVRIKLKIEPGWDVEPVRAVRERFGDDVLLQVDANTAYTLGDAPQLARLDPFGLLLIEQPLEEEDVLGHAELARRIQTPICLDESIVSARAAADAIKLGAVQIVNIKPGRVGGYLEARRVHDVCAAHGIPVWCGGMIETGLGRAANVALASLPNFTLPGDTSASDRFYKTDITEPFVLSGGHLPVPTGPGLGVAPIPELLDEVTTAKVWIG 1sjd-a1-m2-cC_1sjd-a1-m2-cD x-ray structure of o-succinylbenzoate synthase complexed with n-succinyl phenylglycine Q44244 Q44244 1.87 X-RAY DIFFRACTION 67 1.0 37632 (Amycolatopsis sp.) 37632 (Amycolatopsis sp.) 367 367 1sja-a1-m1-cA_1sja-a1-m1-cB 1sja-a1-m1-cC_1sja-a1-m1-cD 1sja-a1-m2-cA_1sja-a1-m2-cB 1sja-a1-m2-cC_1sja-a1-m2-cD 1sjb-a1-m1-cA_1sjb-a1-m1-cB 1sjb-a1-m1-cC_1sjb-a1-m1-cD 1sjb-a1-m2-cA_1sjb-a1-m2-cB 1sjb-a1-m2-cC_1sjb-a1-m2-cD 1sjc-a1-m1-cA_1sjc-a1-m1-cB 1sjc-a1-m1-cC_1sjc-a1-m1-cD 1sjc-a1-m2-cA_1sjc-a1-m2-cB 1sjc-a1-m2-cC_1sjc-a1-m2-cD 1sjd-a1-m1-cA_1sjd-a1-m1-cB 1sjd-a1-m1-cC_1sjd-a1-m1-cD 1sjd-a1-m2-cA_1sjd-a1-m2-cB 4a6g-a1-m1-cC_4a6g-a1-m1-cA 4a6g-a2-m1-cB_4a6g-a2-m1-cD 5fjo-a1-m1-cA_5fjo-a1-m1-cB 5fjo-a1-m2-cA_5fjo-a1-m2-cB 5fjo-a1-m3-cA_5fjo-a1-m3-cB 5fjo-a1-m4-cA_5fjo-a1-m4-cB 5fjp-a1-m1-cD_5fjp-a1-m1-cB 5fjp-a2-m1-cC_5fjp-a2-m1-cA 5fjr-a1-m1-cB_5fjr-a1-m1-cD 5fjr-a1-m1-cC_5fjr-a1-m1-cA 5fjr-a1-m2-cB_5fjr-a1-m2-cD 5fjr-a1-m2-cC_5fjr-a1-m2-cA 5fjt-a1-m1-cA_5fjt-a1-m1-cC 5fjt-a1-m1-cB_5fjt-a1-m1-cD 5fjt-a1-m2-cA_5fjt-a1-m2-cC 5fjt-a1-m2-cB_5fjt-a1-m2-cD 5fju-a1-m1-cB_5fju-a1-m1-cD 5fju-a1-m1-cC_5fju-a1-m1-cA 5fju-a1-m2-cB_5fju-a1-m2-cD 5fju-a1-m2-cC_5fju-a1-m2-cA 7s8w-a1-m1-cA_7s8w-a1-m1-cD 7s8w-a1-m1-cB_7s8w-a1-m1-cC 7s8w-a1-m2-cA_7s8w-a1-m2-cD 7s8w-a1-m2-cB_7s8w-a1-m2-cC MKLSGVELRRVQMPLVAPFRTSFGTQSVRELLLLRAVTPAGEGWGECVTMAGPLYSSEYNDGAEHVLRHYLIPALLAAEDITAAKVTPLLAKFKGHRMAKGALEMAVLDAELRAHERSFAAELGSVRDSVPCGVSVGIMDTIPQLLDVVGGYLDEGYVRIKLKIEPGWDVEPVRAVRERFGDDVLLQVDANTAYTLGDAPQLARLDPFGLLLIEQPLEEEDVLGHAELARRIQTPICLDESIVSARAAADAIKLGAVQIVNIKPGRVGGYLEARRVHDVCAAHGIPVWCGGMIETGLGRAANVALASLPNFTLPGDTSASDRFYKTDITEPFVLSGGHLPVPTGPGLGVAPIPELLDEVTTAKVWIG MKLSGVELRRVQMPLVAPFRTSFGTQSVRELLLLRAVTPAGEGWGECVTMAGPLYSSEYNDGAEHVLRHYLIPALLAAEDITAAKVTPLLAKFKGHRMAKGALEMAVLDAELRAHERSFAAELGSVRDSVPCGVSVGIMDTIPQLLDVVGGYLDEGYVRIKLKIEPGWDVEPVRAVRERFGDDVLLQVDANTAYTLGDAPQLARLDPFGLLLIEQPLEEEDVLGHAELARRIQTPICLDESIVSARAAADAIKLGAVQIVNIKPGRVGGYLEARRVHDVCAAHGIPVWCGGMIETGLGRAANVALASLPNFTLPGDTSASDRFYKTDITEPFVLSGGHLPVPTGPGLGVAPIPELLDEVTTAKVWIG 1sji-a1-m1-cA_1sji-a1-m1-cB Comparing skeletal and cardiac calsequestrin structures and their calcium binding: a proposed mechanism for coupled calcium binding and protein polymerization P12637 P12637 2.4 X-RAY DIFFRACTION 98 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 350 350 GLNFPTYDGKDRVVSLTEKNFKQVLKKYDVLCLYYHESVSSDKVAQKQFQLKEIVLELVAQVLEHKDIGFVMVDAKKEAKLAKKLGFDEEGSLYVLKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIINSKLEVQAFERIEDQIKLIGFFKSEESEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPDKPYTEEELVEFVKEHQRPTLRRLRPEDMFETWEDDLNGIHIVAFAERSDPDGYEFLEILKQVARDNTDNPDLSIVWIDPDDFPLLVAYWEKTFKIDLFKPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN GLNFPTYDGKDRVVSLTEKNFKQVLKKYDVLCLYYHESVSSDKVAQKQFQLKEIVLELVAQVLEHKDIGFVMVDAKKEAKLAKKLGFDEEGSLYVLKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIINSKLEVQAFERIEDQIKLIGFFKSEESEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPDKPYTEEELVEFVKEHQRPTLRRLRPEDMFETWEDDLNGIHIVAFAERSDPDGYEFLEILKQVARDNTDNPDLSIVWIDPDDFPLLVAYWEKTFKIDLFKPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN 1sjj-a1-m1-cA_1sjj-a1-m1-cB Cryo-EM Structure of Chicken Gizzard Smooth Muscle alpha-Actinin P05094 P05094 20.0 ELECTRON CRYSTALLOGRAPHY 273 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 863 863 LDPAWEKQQRKTFTAWCNSHLRKAGTQIENIEEDFRDGLKLMLLLEVISGERLAKPERGKMRVHKISNVNKALDFIASKGVKLVSIGAEEIVDGNVKMTLGMIWTIILRFAIQDISVEETSAKEGLLLWYQRKTAPYKNVNIQNFHISWKDGLGFCALIHRHRPELIDYGKLRKDDPLTNLNTAFDVAEKYLDIPKMLDAEDIVGTARPDEKAIMTYVSSFYHAFSGAQKAETAANRICKVLAVNQENEQLMEDYEKLASDLLEWIRRTIPWLENRAPENTMQAMQQKLEDFRDYRRLHKPPKVQEKCQLEINFNTLQTKLRLSNRPAFMPSEGKMVSDINNAWGGLEQAEKGYEEWLLNEIRRLERLDHLAEKFRQKASIHESWTDGKEAMLQQKDYETATLSEIKALLKKHEAFESDLAAHQDRVEQIAAIAQELNELDYYDSPSVNARCQKICDQWDNLGALTQKRREALERTEKLLETIDQLYLEYAKRAAPFNNWMEGAMEDLQDTFIVHTIEEIQGLTTAHEQFKATLPDADKERQAILGIHNEVSKIVQTYHVNMAGTNPYTTITPQEINGKWEHVRQLVPRRDQALMEEHARQQQNERLRKQFGAQANVIGPWIQTKMEEIGRISIEMHGTLEDQLNHLRQYEKSIVNYKPKIDQLEGDHQQIQEALIFDNKHTNYTMEHIRVGWEQLLTTIARTINEVENQILTRDAKGISQEQMNEFRASFNHFDRKKTGMMDCEDFRACLISMGYNMGEAEFARIMSIVDPNRMGVVTFQAFIDFMSRETADTDTADQVMASFKILAGDKNYITVDELRRELPPDQAEYCIARMAPYNGRDAVPGALDYMSFSTALYGESDL LDPAWEKQQRKTFTAWCNSHLRKAGTQIENIEEDFRDGLKLMLLLEVISGERLAKPERGKMRVHKISNVNKALDFIASKGVKLVSIGAEEIVDGNVKMTLGMIWTIILRFAIQDISVEETSAKEGLLLWYQRKTAPYKNVNIQNFHISWKDGLGFCALIHRHRPELIDYGKLRKDDPLTNLNTAFDVAEKYLDIPKMLDAEDIVGTARPDEKAIMTYVSSFYHAFSGAQKAETAANRICKVLAVNQENEQLMEDYEKLASDLLEWIRRTIPWLENRAPENTMQAMQQKLEDFRDYRRLHKPPKVQEKCQLEINFNTLQTKLRLSNRPAFMPSEGKMVSDINNAWGGLEQAEKGYEEWLLNEIRRLERLDHLAEKFRQKASIHESWTDGKEAMLQQKDYETATLSEIKALLKKHEAFESDLAAHQDRVEQIAAIAQELNELDYYDSPSVNARCQKICDQWDNLGALTQKRREALERTEKLLETIDQLYLEYAKRAAPFNNWMEGAMEDLQDTFIVHTIEEIQGLTTAHEQFKATLPDADKERQAILGIHNEVSKIVQTYHVNMAGTNPYTTITPQEINGKWEHVRQLVPRRDQALMEEHARQQQNERLRKQFGAQANVIGPWIQTKMEEIGRISIEMHGTLEDQLNHLRQYEKSIVNYKPKIDQLEGDHQQIQEALIFDNKHTNYTMEHIRVGWEQLLTTIARTINEVENQILTRDAKGISQEQMNEFRASFNHFDRKKTGMMDCEDFRACLISMGYNMGEAEFARIMSIVDPNRMGVVTFQAFIDFMSRETADTDTADQVMASFKILAGDKNYITVDELRRELPPDQAEYCIARMAPYNGRDAVPGALDYMSFSTALYGESDL 1sjv-a2-m1-cA_1sjv-a2-m2-cA Three-Dimensional Structure of a Llama VHH Domain Swapping 1.94 X-RAY DIFFRACTION 154 1.0 9844 (Lama glama) 9844 (Lama glama) 102 102 GGGLVQAGESLKLSCAASGGFMGWYRQAPGKQRELVATINSRGITNYADFVKGRFTISRDNAKKTVYLEMNSLEPEDTAVYYCYTHYFRSYWGQGTQVTVSS GGGLVQAGESLKLSCAASGGFMGWYRQAPGKQRELVATINSRGITNYADFVKGRFTISRDNAKKTVYLEMNSLEPEDTAVYYCYTHYFRSYWGQGTQVTVSS 1sjw-a1-m1-cA_1sjw-a1-m4-cA Structure of polyketide cyclase SnoaL Q9RN59 Q9RN59 1.35 X-RAY DIFFRACTION 34 1.0 38314 (Streptomyces nogalater) 38314 (Streptomyces nogalater) 142 142 1sjw-a1-m2-cA_1sjw-a1-m3-cA SRQTEIVRRMVSAFNTGRTDDVDEYIHPDYLNPATLEHGIHTGPKAFAQLVGWVRATFSEEARLEEVRIEERGPWVKAYLVLYGRHVGRLVGMPPTDRRFSGEQVHLMRIVDGKIRDHRDWPDFQGTLRQLGDPWPDDEGWR SRQTEIVRRMVSAFNTGRTDDVDEYIHPDYLNPATLEHGIHTGPKAFAQLVGWVRATFSEEARLEEVRIEERGPWVKAYLVLYGRHVGRLVGMPPTDRRFSGEQVHLMRIVDGKIRDHRDWPDFQGTLRQLGDPWPDDEGWR 1sjw-a2-m1-cA_1sjw-a2-m2-cA Structure of polyketide cyclase SnoaL Q9RN59 Q9RN59 1.35 X-RAY DIFFRACTION 57 1.0 38314 (Streptomyces nogalater) 38314 (Streptomyces nogalater) 142 142 1sjw-a1-m1-cA_1sjw-a1-m2-cA 1sjw-a1-m3-cA_1sjw-a1-m4-cA SRQTEIVRRMVSAFNTGRTDDVDEYIHPDYLNPATLEHGIHTGPKAFAQLVGWVRATFSEEARLEEVRIEERGPWVKAYLVLYGRHVGRLVGMPPTDRRFSGEQVHLMRIVDGKIRDHRDWPDFQGTLRQLGDPWPDDEGWR SRQTEIVRRMVSAFNTGRTDDVDEYIHPDYLNPATLEHGIHTGPKAFAQLVGWVRATFSEEARLEEVRIEERGPWVKAYLVLYGRHVGRLVGMPPTDRRFSGEQVHLMRIVDGKIRDHRDWPDFQGTLRQLGDPWPDDEGWR 1sjy-a1-m1-cA_1sjy-a1-m2-cA Crystal Structure of NUDIX HYDROLASE DR1025 FROM DEINOCOCCUS RADIODURANS Q9RVK2 Q9RVK2 1.39 X-RAY DIFFRACTION 97 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 154 154 1soi-a1-m1-cA_1soi-a1-m2-cA 1su2-a1-m1-cA_1su2-a1-m1-cB 1sz3-a1-m1-cA_1sz3-a1-m1-cB EHDERTHVPVELRAAGVVLLNERGDILLVQEKGIEKAGLWHIPSGAVEDGENPQDAAVREACEETGLRVRPVKFLGAYLGRFPDGVLILRHVWLAEPEPGQTLAPAFTDEIAEASFVSREDFAQLYAAGQIRMYQTKLFYADALREKGFPALPV EHDERTHVPVELRAAGVVLLNERGDILLVQEKGIEKAGLWHIPSGAVEDGENPQDAAVREACEETGLRVRPVKFLGAYLGRFPDGVLILRHVWLAEPEPGQTLAPAFTDEIAEASFVSREDFAQLYAAGQIRMYQTKLFYADALREKGFPALPV 1sk4-a2-m1-cA_1sk4-a2-m2-cA crystal structure of the C-terminal peptidoglycan-binding domain of human peptidoglycan recognition protein Ialpha Q96LB9 Q96LB9 1.65 X-RAY DIFFRACTION 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 162 PNIIKRSAWEARETHCPKMNLPAKYVIIIHTAGTSCTVSTDCQTVVRNIQSFHMDTRNFCDIGYHFLVGQDGGVYEGVGWHIQGSHTYGFNDIALGIAFIGYFVEKPPNAAALEAAQDLIQAVVEGYLTPNYLLMGHSDVVNILSPGQALYNIISTWPHFKH PNIIKRSAWEARETHCPKMNLPAKYVIIIHTAGTSCTVSTDCQTVVRNIQSFHMDTRNFCDIGYHFLVGQDGGVYEGVGWHIQGSHTYGFNDIALGIAFIGYFVEKPPNAAALEAAQDLIQAVVEGYLTPNYLLMGHSDVVNILSPGQALYNIISTWPHFKH 1skv-a1-m1-cB_1skv-a1-m1-cA Crystal Structure of D-63 from Sulfolobus Spindle Virus 1 P20215 P20215 2.6 X-RAY DIFFRACTION 60 0.983 244589 (Sulfolobus spindle-shaped virus 1) 244589 (Sulfolobus spindle-shaped virus 1) 59 62 LEKELFELDEDVRELLSLIHEIKIDRITGNDKQKLGKAYFQVQKIEAELYQLIKVSHHH SKEVLEKELFELDEDVRELLSLIHEIKIDRITGNDKQKLGKAYFQVQKIEAELYQLIKVSHH 1skz-a1-m1-cA_1skz-a1-m2-cA PROTEASE INHIBITOR P15358 P15358 1.9 X-RAY DIFFRACTION 53 1.0 6410 (Haementeria officinalis) 6410 (Haementeria officinalis) 104 104 GCEEAGCPEGSACNIITDRCTCSGVRCRVHCPHGFQRSRYGCEFCKCRLEPMKATCDISECPEGMMCSRLTNKCDCKIDINCRKTCPNGLKRDKLGCEYCECRP GCEEAGCPEGSACNIITDRCTCSGVRCRVHCPHGFQRSRYGCEFCKCRLEPMKATCDISECPEGMMCSRLTNKCDCKIDINCRKTCPNGLKRDKLGCEYCECRP 1sl8-a2-m1-cA_1sl8-a2-m2-cA Calcium-loaded apo-aequorin from Aequorea victoria P07164 P07164 1.7 X-RAY DIFFRACTION 105 1.0 6100 (Aequorea victoria) 6100 (Aequorea victoria) 181 181 NPKWIGRHKHMFNFLDVNHNGRISLDEMVYKASDIVINNLGATPEQAKRHKDAVEAFFGGAGMKYGVETEWPEYIEGWKRLASEELKRYSKNQITLIRLWGDALFDIIDKDQNGAISLDEWKAYTKSAGIIQSSEDCEETFRVCDIDESGQLDVDEMTRQHLGFWYTMDPACEKLYGGAVP NPKWIGRHKHMFNFLDVNHNGRISLDEMVYKASDIVINNLGATPEQAKRHKDAVEAFFGGAGMKYGVETEWPEYIEGWKRLASEELKRYSKNQITLIRLWGDALFDIIDKDQNGAISLDEWKAYTKSAGIIQSSEDCEETFRVCDIDESGQLDVDEMTRQHLGFWYTMDPACEKLYGGAVP 1slc-a2-m1-cC_1slc-a2-m1-cD X-RAY CRYSTALLOGRAPHY REVEALS CROSSLINKING OF MAMMALIAN LECTIN (GALECTIN-1) BY BIANTENNARY COMPLEX TYPE SACCHARIDES P11116 P11116 2.15 X-RAY DIFFRACTION 39 1.0 9913 (Bos taurus) 9913 (Bos taurus) 133 134 1sla-a1-m1-cA_1sla-a1-m1-cB 1slb-a1-m1-cA_1slb-a1-m1-cB 1slb-a2-m1-cC_1slb-a2-m1-cD 1slc-a1-m1-cA_1slc-a1-m1-cB 1slt-a1-m1-cB_1slt-a1-m1-cA CGLVASNLNLKPGECLRVRGEVAADAKSFLLNLGKDDNNLCLHFNPRFNAHGDVNTIVCNSKDAGAWGAEQRESAFPFQPGSVVEVCISFNQTDLTIKLPDGYEFKFPNRLNLEAINYLSAGGDFKIKCVAFE ACGLVASNLNLKPGECLRVRGEVAADAKSFLLNLGKDDNNLCLHFNPRFNAHGDVNTIVCNSKDAGAWGAEQRESAFPFQPGSVVEVCISFNQTDLTIKLPDGYEFKFPNRLNLEAINYLSAGGDFKIKCVAFE 1slm-a1-m1-cA_1slm-a1-m2-cA CRYSTAL STRUCTURE OF FIBROBLAST STROMELYSIN-1: THE C-TRUNCATED HUMAN PROENZYME P08254 P08254 1.9 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 226 LVQKYLENYYDLKKDSGPVVKKIREMQKFLGLEVTGKLDSDTLEVMRKPRCGVPDVGHFRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYHSLTDLTRFRLSQDDINGIQSLYGPPP LVQKYLENYYDLKKDSGPVVKKIREMQKFLGLEVTGKLDSDTLEVMRKPRCGVPDVGHFRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANTEALMYPLYHSLTDLTRFRLSQDDINGIQSLYGPPP 1sma-a1-m1-cA_1sma-a1-m1-cB CRYSTAL STRUCTURE OF A MALTOGENIC AMYLASE O69007 O69007 2.8 X-RAY DIFFRACTION 114 1.0 75891 (Thermus sp. IM6501) 75891 (Thermus sp. IM6501) 588 588 1gvi-a1-m1-cA_1gvi-a1-m1-cB MRKEAIHHRSTDNFAYAYDSETLHLRLQTKKNDVDHVELLFGDPYEWHDGAWQFQTMPMRKTGSDGLFDYWLAEVKPPYRRLRYGFVLRAGGEKLVYTEKGFYHEAPSDDTAYYFCFPFLHRVDLFQAPDWVKDTVWYQIFPERFANGNPAISPKGARPWGSEDPTPTSFFGGDLQGIIDHLDYLADLGITGIYLTPIFRAPSNHKYDTADYFEIDPHFGDKETLKTLVKRCHEKGIRVMLDAVFNHCGYEFAPFQDVLKNGAASRYKDWFHIREFPLQTEPRPNYDTFAFVPHMPKLNTAHPEVKRYLLDVATYWIREFDIDGWRLDVANEIDHQFWREFRQAVKALKPDVYILGEIWHDAMPWLRGDQFDAVMNYPLADAALRFFAKEDMSASEFADRLMHVLHSYPKQVNEAAFNLLGSHDTPRLLTVCGGDVRKVKLLFLFQLTFTGSPCIYYGDEIGMTGGNDPECRKCMVWDPEKQNKELYEHVKQLIALRKQYRALRRGDVAFLTADDEVNHLVYAKTDGNETVMIIINRSNEAAEIPMPIDARGKWLVNLLTGERFAAEAETLCVSLPPYGFVLYAVESW MRKEAIHHRSTDNFAYAYDSETLHLRLQTKKNDVDHVELLFGDPYEWHDGAWQFQTMPMRKTGSDGLFDYWLAEVKPPYRRLRYGFVLRAGGEKLVYTEKGFYHEAPSDDTAYYFCFPFLHRVDLFQAPDWVKDTVWYQIFPERFANGNPAISPKGARPWGSEDPTPTSFFGGDLQGIIDHLDYLADLGITGIYLTPIFRAPSNHKYDTADYFEIDPHFGDKETLKTLVKRCHEKGIRVMLDAVFNHCGYEFAPFQDVLKNGAASRYKDWFHIREFPLQTEPRPNYDTFAFVPHMPKLNTAHPEVKRYLLDVATYWIREFDIDGWRLDVANEIDHQFWREFRQAVKALKPDVYILGEIWHDAMPWLRGDQFDAVMNYPLADAALRFFAKEDMSASEFADRLMHVLHSYPKQVNEAAFNLLGSHDTPRLLTVCGGDVRKVKLLFLFQLTFTGSPCIYYGDEIGMTGGNDPECRKCMVWDPEKQNKELYEHVKQLIALRKQYRALRRGDVAFLTADDEVNHLVYAKTDGNETVMIIINRSNEAAEIPMPIDARGKWLVNLLTGERFAAEAETLCVSLPPYGFVLYAVESW 1smk-a3-m1-cE_1smk-a3-m1-cF Mature and translocatable forms of glyoxysomal malate dehydrogenase have different activities and stabilities but similar crystal structures P19446 P19446 2.5 X-RAY DIFFRACTION 134 1.0 3654 (Citrullus lanatus) 3654 (Citrullus lanatus) 313 313 1sev-a1-m1-cA_1sev-a1-m1-cB 1smk-a1-m1-cA_1smk-a1-m1-cB 1smk-a2-m1-cC_1smk-a2-m1-cD 1smk-a4-m1-cG_1smk-a4-m1-cH GFKVAILGAAGGIGQPLAMLMKMNPLVSVLHLYDVVNAPGVTADISHMDTGAVVRGFLGQQQLEAALTGMDLIIVPAGVPRKPGMTRDDLFKINAGIVKTLCEGIAKCCPRAIVNLISNPVNSTVPIAAEVFKKAGTYDPKRLLGVTMLDVVRANTFVAEVLGLDPRDVDVPVVGGHAGVTILPLLSQVKPPSSFTQEEISYLTDRIQNGGTEVVEAKAGAGSATLSMAYAAVKFADACLRGLRGDAGVIECAFVSSQVTELPFFASKVRLGRNGIEEVYSLGPLNEYERIGLEKAKKELAGSIEKGVSFIRS GFKVAILGAAGGIGQPLAMLMKMNPLVSVLHLYDVVNAPGVTADISHMDTGAVVRGFLGQQQLEAALTGMDLIIVPAGVPRKPGMTRDDLFKINAGIVKTLCEGIAKCCPRAIVNLISNPVNSTVPIAAEVFKKAGTYDPKRLLGVTMLDVVRANTFVAEVLGLDPRDVDVPVVGGHAGVTILPLLSQVKPPSSFTQEEISYLTDRIQNGGTEVVEAKAGAGSATLSMAYAAVKFADACLRGLRGDAGVIECAFVSSQVTELPFFASKVRLGRNGIEEVYSLGPLNEYERIGLEKAKKELAGSIEKGVSFIRS 1smo-a1-m1-cB_1smo-a1-m1-cA Crystal Structure of Human Triggering Receptor Expressed on Myeloid Cells 1 (TREM-1) at 1.47 . Q9NP99 Q9NP99 1.47 X-RAY DIFFRACTION 39 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 110 113 EEKYELKEGQTLDVKCDYTLEKFASSQKAWQIIRDGEMPKTLACTERPSKNSHPVQVGRIILEDYHDHGLLRVRMVNLQVEDSGLYQCVIYQPPKEPHMLFDRIRLVVTK ATKLTEEKYELKEGQTLDVKCDYTLEKFASSQKAWQIIRDGEMPKTLACTERPSKNSHPVQVGRIILEDYHDHGLLRVRMVNLQVEDSGLYQCVIYQPPKEPHMLFDRIRLVV 1smq-a2-m1-cC_1smq-a2-m1-cB Structure of the Ribonucleotide Reductase Rnr2 Homodimer from Saccharomyces cerevisiae P09938 P09938 3.1 X-RAY DIFFRACTION 75 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 318 329 1smq-a1-m1-cD_1smq-a1-m1-cA LNKELETLREENRVKSDMLKEKLSKDAENHKALKEMEKEEPLLNEDKERTVLFPIKYHEIWQAYKRAEASFWTAEEIDLSKDIHDWNNRMNENERFFISRVLAFFAASENLVENFSTEVQIPEAKSFYGFQIMIENIHSETYSLLIDTYIKDPKESEFLFNAIHTIPEIGEKAEWALRWIQDADALFGERLVAFASIEGVFFSGSFASIFWLKKRGMMPGLTFSNELICRDEGLHTDFACLLFAHLKNKPDPAIVEKIVTEAVEIEQRYFLDALPVALLGMNADLMNQYVEFVADRLLVAFGNKKYYKVENPFDFMEN LNKELETLREENRVKSDMLKEKLSKDAENHKAYLKSHQVHRHKLKEMEKEEPLLNEDKERTVLFPIKYHEIWQAYKRAEASFWTAEEIDLSKDIHDWNNRMNENERFFISRVLAFFAASENLVENFSTEVQIPEAKSFYGFQIMIENIHSETYSLLIDTYIKDPKESEFLFNAIHTIPEIGEKAEWALRWIQDADALFGERLVAFASIEGVFFSGSFASIFWLKKRGMMPGLTFSNELICRDEGLHTDFACLLFAHLKNKPDPAIVEKIVTEAVEIEQRYFLDALPVALLGMNADLMNQYVEFVADRLLVAFGNKKYYKVENPFDFMEN 1smr-a6-m4-cG_1smr-a6-m1-cA The 3-d structure of mouse submaxillary renin complexed with a decapeptide inhibitor ch-66 based on the 4-16 fragment of rat angiotensinogen P00796 P00796 2 X-RAY DIFFRACTION 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 331 331 1smr-a10-m2-cC_1smr-a10-m3-cE 1smr-a10-m4-cG_1smr-a10-m1-cA 1smr-a6-m2-cC_1smr-a6-m3-cE TDLISPVVLTNYLNSQYYGEIGIGTPPQTFKVIFDTGSANLWVPSTKCSRLYLACGIHSLYESSDSSSYMENGDDFTIHYGSGRVKGFLSQDSVTVGGITVTQTFGEVTQLPLIPFMLAQFDGVLGMGFPAQAVGGVTPVFDHILSQGVLKEKVFSVYYNRGPHLLGGEVVLGGSDPQHYQGDFHYVSLSKTDSWQITMKGVSVGSSTLLCEEGCEVVVDTGSSFISAPTSSLKLIMQALGAKEKRLHEYVVSCSQVPTLPDISFNLGGRAYTLSSTDYVLQRDKLCTVALHAMDIPPPTGPVWVLGATFIRKFYTEFDRHNNRIGFALAR TDLISPVVLTNYLNSQYYGEIGIGTPPQTFKVIFDTGSANLWVPSTKCSRLYLACGIHSLYESSDSSSYMENGDDFTIHYGSGRVKGFLSQDSVTVGGITVTQTFGEVTQLPLIPFMLAQFDGVLGMGFPAQAVGGVTPVFDHILSQGVLKEKVFSVYYNRGPHLLGGEVVLGGSDPQHYQGDFHYVSLSKTDSWQITMKGVSVGSSTLLCEEGCEVVVDTGSSFISAPTSSLKLIMQALGAKEKRLHEYVVSCSQVPTLPDISFNLGGRAYTLSSTDYVLQRDKLCTVALHAMDIPPPTGPVWVLGATFIRKFYTEFDRHNNRIGFALAR 1smr-a8-m5-cG_1smr-a8-m1-cE The 3-d structure of mouse submaxillary renin complexed with a decapeptide inhibitor ch-66 based on the 4-16 fragment of rat angiotensinogen P00796 P00796 2 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 331 331 1smr-a10-m1-cA_1smr-a10-m2-cC 1smr-a10-m4-cG_1smr-a10-m3-cE 1smr-a6-m1-cA_1smr-a6-m2-cC 1smr-a6-m4-cG_1smr-a6-m3-cE 1smr-a7-m2-cC_1smr-a7-m1-cA TDLISPVVLTNYLNSQYYGEIGIGTPPQTFKVIFDTGSANLWVPSTKCSRLYLACGIHSLYESSDSSSYMENGDDFTIHYGSGRVKGFLSQDSVTVGGITVTQTFGEVTQLPLIPFMLAQFDGVLGMGFPAQAVGGVTPVFDHILSQGVLKEKVFSVYYNRGPHLLGGEVVLGGSDPQHYQGDFHYVSLSKTDSWQITMKGVSVGSSTLLCEEGCEVVVDTGSSFISAPTSSLKLIMQALGAKEKRLHEYVVSCSQVPTLPDISFNLGGRAYTLSSTDYVLQRDKLCTVALHAMDIPPPTGPVWVLGATFIRKFYTEFDRHNNRIGFALAR TDLISPVVLTNYLNSQYYGEIGIGTPPQTFKVIFDTGSANLWVPSTKCSRLYLACGIHSLYESSDSSSYMENGDDFTIHYGSGRVKGFLSQDSVTVGGITVTQTFGEVTQLPLIPFMLAQFDGVLGMGFPAQAVGGVTPVFDHILSQGVLKEKVFSVYYNRGPHLLGGEVVLGGSDPQHYQGDFHYVSLSKTDSWQITMKGVSVGSSTLLCEEGCEVVVDTGSSFISAPTSSLKLIMQALGAKEKRLHEYVVSCSQVPTLPDISFNLGGRAYTLSSTDYVLQRDKLCTVALHAMDIPPPTGPVWVLGATFIRKFYTEFDRHNNRIGFALAR 1sms-a1-m1-cA_1sms-a1-m1-cB Structure of the Ribonucleotide Reductase Rnr4 Homodimer from Saccharomyces cerevisiae P49723 P49723 3.1 X-RAY DIFFRACTION 49 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 314 314 AHNQFLKTFQKERHDMKEAEKDEILLMENSRRFVMFPIKYHEIWAAYKKVEASFWTAEEIELAKDTEDFQKLTDDQKTYIGNLLALSISSDNLVNKYLIENFSAQLQNPEGKSFYGFQIMMENIYSEVYSMMVDAFFKDPKNIPLFKEIANLPEVKHKAAFIERWISNDDSLYAERLVAFAAKEGIFQAGNYASMFWLTDKKIMPGLAMANRNICRDRGAYTDFSCLLFAHLRTKPNPKIIEKIITEAVEIEKEYYSNSLPVEKFGMDLKSIHTYIEFVADGLLQGFGNEKYYNAVNPFEFMEFFEKKVSDYQK AHNQFLKTFQKERHDMKEAEKDEILLMENSRRFVMFPIKYHEIWAAYKKVEASFWTAEEIELAKDTEDFQKLTDDQKTYIGNLLALSISSDNLVNKYLIENFSAQLQNPEGKSFYGFQIMMENIYSEVYSMMVDAFFKDPKNIPLFKEIANLPEVKHKAAFIERWISNDDSLYAERLVAFAAKEGIFQAGNYASMFWLTDKKIMPGLAMANRNICRDRGAYTDFSCLLFAHLRTKPNPKIIEKIITEAVEIEKEYYSNSLPVEKFGMDLKSIHTYIEFVADGLLQGFGNEKYYNAVNPFEFMEFFEKKVSDYQK 1smv-a1-m10-cA_1smv-a1-m9-cB PRIMARY STRUCTURE OF SESBANIA MOSAIC VIRUS COAT PROTEIN: ITS IMPLICATIONS TO THE ASSEMBLY AND ARCHITECTURE OF THE VIRUS Q9EB06 Q9EB06 3 X-RAY DIFFRACTION 26 1.0 12558 (Sesbania mosaic virus) 12558 (Sesbania mosaic virus) 196 196 1smv-a1-m10-cB_1smv-a1-m6-cA 1smv-a1-m10-cC_1smv-a1-m24-cC 1smv-a1-m11-cA_1smv-a1-m15-cB 1smv-a1-m11-cB_1smv-a1-m12-cA 1smv-a1-m11-cC_1smv-a1-m16-cC 1smv-a1-m12-cB_1smv-a1-m13-cA 1smv-a1-m12-cC_1smv-a1-m38-cC 1smv-a1-m13-cB_1smv-a1-m14-cA 1smv-a1-m13-cC_1smv-a1-m47-cC 1smv-a1-m14-cB_1smv-a1-m15-cA 1smv-a1-m14-cC_1smv-a1-m45-cC 1smv-a1-m15-cC_1smv-a1-m29-cC 1smv-a1-m16-cA_1smv-a1-m20-cB 1smv-a1-m16-cB_1smv-a1-m17-cA 1smv-a1-m17-cB_1smv-a1-m18-cA 1smv-a1-m17-cC_1smv-a1-m28-cC 1smv-a1-m18-cB_1smv-a1-m19-cA 1smv-a1-m18-cC_1smv-a1-m52-cC 1smv-a1-m19-cB_1smv-a1-m20-cA 1smv-a1-m19-cC_1smv-a1-m60-cC 1smv-a1-m1-cA_1smv-a1-m5-cB 1smv-a1-m1-cB_1smv-a1-m2-cA 1smv-a1-m1-cC_1smv-a1-m6-cC 1smv-a1-m20-cC_1smv-a1-m39-cC 1smv-a1-m21-cA_1smv-a1-m25-cB 1smv-a1-m21-cB_1smv-a1-m22-cA 1smv-a1-m21-cC_1smv-a1-m26-cC 1smv-a1-m22-cB_1smv-a1-m23-cA 1smv-a1-m22-cC_1smv-a1-m43-cC 1smv-a1-m23-cB_1smv-a1-m24-cA 1smv-a1-m24-cB_1smv-a1-m25-cA 1smv-a1-m25-cC_1smv-a1-m54-cC 1smv-a1-m26-cA_1smv-a1-m30-cB 1smv-a1-m26-cB_1smv-a1-m27-cA 1smv-a1-m27-cB_1smv-a1-m28-cA 1smv-a1-m27-cC_1smv-a1-m53-cC 1smv-a1-m28-cB_1smv-a1-m29-cA 1smv-a1-m29-cB_1smv-a1-m30-cA 1smv-a1-m2-cB_1smv-a1-m3-cA 1smv-a1-m2-cC_1smv-a1-m23-cC 1smv-a1-m30-cC_1smv-a1-m44-cC 1smv-a1-m31-cA_1smv-a1-m35-cB 1smv-a1-m31-cB_1smv-a1-m32-cA 1smv-a1-m31-cC_1smv-a1-m36-cC 1smv-a1-m32-cB_1smv-a1-m33-cA 1smv-a1-m32-cC_1smv-a1-m58-cC 1smv-a1-m33-cB_1smv-a1-m34-cA 1smv-a1-m33-cC_1smv-a1-m7-cC 1smv-a1-m34-cB_1smv-a1-m35-cA 1smv-a1-m34-cC_1smv-a1-m5-cC 1smv-a1-m35-cC_1smv-a1-m49-cC 1smv-a1-m36-cA_1smv-a1-m40-cB 1smv-a1-m36-cB_1smv-a1-m37-cA 1smv-a1-m37-cB_1smv-a1-m38-cA 1smv-a1-m37-cC_1smv-a1-m48-cC 1smv-a1-m38-cB_1smv-a1-m39-cA 1smv-a1-m39-cB_1smv-a1-m40-cA 1smv-a1-m3-cB_1smv-a1-m4-cA 1smv-a1-m3-cC_1smv-a1-m42-cC 1smv-a1-m40-cC_1smv-a1-m59-cC 1smv-a1-m41-cA_1smv-a1-m45-cB 1smv-a1-m41-cB_1smv-a1-m42-cA 1smv-a1-m41-cC_1smv-a1-m46-cC 1smv-a1-m42-cB_1smv-a1-m43-cA 1smv-a1-m43-cB_1smv-a1-m44-cA 1smv-a1-m44-cB_1smv-a1-m45-cA 1smv-a1-m46-cA_1smv-a1-m50-cB 1smv-a1-m46-cB_1smv-a1-m47-cA 1smv-a1-m47-cB_1smv-a1-m48-cA 1smv-a1-m48-cB_1smv-a1-m49-cA 1smv-a1-m49-cB_1smv-a1-m50-cA 1smv-a1-m4-cB_1smv-a1-m5-cA 1smv-a1-m4-cC_1smv-a1-m50-cC 1smv-a1-m51-cA_1smv-a1-m55-cB 1smv-a1-m51-cB_1smv-a1-m52-cA 1smv-a1-m51-cC_1smv-a1-m56-cC 1smv-a1-m52-cB_1smv-a1-m53-cA 1smv-a1-m53-cB_1smv-a1-m54-cA 1smv-a1-m54-cB_1smv-a1-m55-cA 1smv-a1-m55-cC_1smv-a1-m9-cC 1smv-a1-m56-cA_1smv-a1-m60-cB 1smv-a1-m56-cB_1smv-a1-m57-cA 1smv-a1-m57-cB_1smv-a1-m58-cA 1smv-a1-m57-cC_1smv-a1-m8-cC 1smv-a1-m58-cB_1smv-a1-m59-cA 1smv-a1-m59-cB_1smv-a1-m60-cA 1smv-a1-m6-cB_1smv-a1-m7-cA 1smv-a1-m7-cB_1smv-a1-m8-cA 1smv-a1-m8-cB_1smv-a1-m9-cA 1vak-a1-m10-cA_1vak-a1-m24-cA 1vak-a1-m11-cA_1vak-a1-m16-cA 1vak-a1-m12-cA_1vak-a1-m38-cA 1vak-a1-m13-cA_1vak-a1-m47-cA 1vak-a1-m14-cA_1vak-a1-m45-cA 1vak-a1-m15-cA_1vak-a1-m29-cA 1vak-a1-m17-cA_1vak-a1-m28-cA 1vak-a1-m18-cA_1vak-a1-m52-cA 1vak-a1-m19-cA_1vak-a1-m60-cA 1vak-a1-m1-cA_1vak-a1-m6-cA 1vak-a1-m20-cA_1vak-a1-m39-cA 1vak-a1-m21-cA_1vak-a1-m26-cA 1vak-a1-m22-cA_1vak-a1-m43-cA 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1smv-a1-m33-cB_1smv-a1-m33-cC 1smv-a1-m34-cA_1smv-a1-m34-cB 1smv-a1-m34-cA_1smv-a1-m34-cC 1smv-a1-m34-cB_1smv-a1-m34-cC 1smv-a1-m35-cA_1smv-a1-m35-cB 1smv-a1-m35-cA_1smv-a1-m35-cC 1smv-a1-m35-cB_1smv-a1-m35-cC 1smv-a1-m36-cA_1smv-a1-m36-cB 1smv-a1-m36-cA_1smv-a1-m36-cC 1smv-a1-m36-cB_1smv-a1-m36-cC 1smv-a1-m37-cA_1smv-a1-m37-cB 1smv-a1-m37-cA_1smv-a1-m37-cC 1smv-a1-m37-cB_1smv-a1-m37-cC 1smv-a1-m38-cA_1smv-a1-m38-cB 1smv-a1-m38-cA_1smv-a1-m38-cC 1smv-a1-m38-cB_1smv-a1-m38-cC 1smv-a1-m39-cA_1smv-a1-m39-cB 1smv-a1-m39-cA_1smv-a1-m39-cC 1smv-a1-m39-cB_1smv-a1-m39-cC 1smv-a1-m3-cA_1smv-a1-m3-cB 1smv-a1-m3-cA_1smv-a1-m3-cC 1smv-a1-m3-cB_1smv-a1-m3-cC 1smv-a1-m40-cA_1smv-a1-m40-cB 1smv-a1-m40-cA_1smv-a1-m40-cC 1smv-a1-m40-cB_1smv-a1-m40-cC 1smv-a1-m41-cA_1smv-a1-m41-cB 1smv-a1-m41-cA_1smv-a1-m41-cC 1smv-a1-m41-cB_1smv-a1-m41-cC 1smv-a1-m42-cA_1smv-a1-m42-cB 1smv-a1-m42-cA_1smv-a1-m42-cC 1smv-a1-m42-cB_1smv-a1-m42-cC 1smv-a1-m43-cA_1smv-a1-m43-cB 1smv-a1-m43-cA_1smv-a1-m43-cC 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4y5z-a1-m1-cG_4y5z-a1-m1-ck 4y5z-a1-m1-cg_4y5z-a1-m1-cy 4y5z-a1-m1-ch_4y5z-a1-m1-cf 4y5z-a1-m1-cH_4y5z-a1-m1-cf 4y5z-a1-m1-ch_4y5z-a1-m1-cH 4y5z-a1-m1-cI_4y5z-a1-m1-cd 4y5z-a1-m1-ci_4y5z-a1-m1-cl 4y5z-a1-m1-ci_4y5z-a1-m1-cv 4y5z-a1-m1-cI_4y5z-a1-m1-cX 4y5z-a1-m1-ck_4y5z-a1-m1-cj 4y5z-a1-m1-cK_4y5z-a1-m1-ct 4y5z-a1-m1-cK_4y5z-a1-m1-cT 4y5z-a1-m1-cL_4y5z-a1-m1-cs 4y5z-a1-m1-cl_4y5z-a1-m1-cv 4y5z-a1-m1-cN_4y5z-a1-m1-ce 4y5z-a1-m1-cn_4y5z-a1-m1-cu 4y5z-a1-m1-cN_4y5z-a1-m1-cz 4y5z-a1-m1-cO_4y5z-a1-m1-cP 4y5z-a1-m1-cq_4y5z-a1-m1-c3 4y5z-a1-m1-cQ_4y5z-a1-m1-ca 4y5z-a1-m1-cr_4y5z-a1-m1-c3 4y5z-a1-m1-cR_4y5z-a1-m1-c6 4y5z-a1-m1-cR_4y5z-a1-m1-cp 4y5z-a1-m1-cr_4y5z-a1-m1-cq 4y5z-a1-m1-cS_4y5z-a1-m1-cn 4y5z-a1-m1-cS_4y5z-a1-m1-cu 4y5z-a1-m1-cT_4y5z-a1-m1-ct 4y5z-a1-m1-cU_4y5z-a1-m1-cg 4y5z-a1-m1-cU_4y5z-a1-m1-cy 4y5z-a1-m1-cV_4y5z-a1-m1-cB 4y5z-a1-m1-cV_4y5z-a1-m1-cx 4y5z-a1-m1-cW_4y5z-a1-m1-cJ 4y5z-a1-m1-cx_4y5z-a1-m1-cB 4y5z-a1-m1-cY_4y5z-a1-m1-cb 4y5z-a1-m1-cY_4y5z-a1-m1-cZ 4y5z-a1-m1-cZ_4y5z-a1-m1-cb GAITVLHCELTAEIGVTDSIVVSSELVMPYTVGTWLRGVADNWSKYSWLSVRYTYIPSCPSSTAGSIHMGFQYDMADTVPVSVNKLSNLRGYVSGQVWSGSAGLCFINNSRCSDTSTAISTTLDVSELGKKWYPYKTSADYATAVGVDVNIATDLVPARLVIALLDGSSSTAVAAGRIYDTYTIQMIEPTASALNL GAITVLHCELTAEIGVTDSIVVSSELVMPYTVGTWLRGVADNWSKYSWLSVRYTYIPSCPSSTAGSIHMGFQYDMADTVPVSVNKLSNLRGYVSGQVWSGSAGLCFINNSRCSDTSTAISTTLDVSELGKKWYPYKTSADYATAVGVDVNIATDLVPARLVIALLDGSSSTAVAAGRIYDTYTIQMIEPTASALNL 1sn9-a1-m1-cC_1sn9-a1-m1-cD An Oligomeric Domain-Swapped Beta-Beta-Alpha Mini-Protein 1.2 X-RAY DIFFRACTION 17 1.0 18 18 1sn9-a1-m1-cA_1sn9-a1-m1-cB YRISYDFDELAKLLRQAG YRISYDFDELAKLLRQAG 1sna-a1-m1-cA_1sna-a1-m2-cB An Oligomeric Domain-Swapped Beta-Beta-Alpha Mini-Protein 1.5 X-RAY DIFFRACTION 22 1.0 17 17 1sna-a1-m1-cB_1sna-a1-m2-cA 1sna-a2-m1-cC_1sna-a2-m3-cC YRISYDFDELKLLRQAG YRISYDFDELKLLRQAG 1sna-a2-m1-cD_1sna-a2-m3-cD An Oligomeric Domain-Swapped Beta-Beta-Alpha Mini-Protein 1.5 X-RAY DIFFRACTION 19 1.0 17 17 YRISYDFDELKLLRQAG YRISYDFDELKLLRQAG 1snd-a1-m1-cB_1snd-a1-m2-cB STAPHYLOCOCCAL NUCLEASE DIMER CONTAINING A DELETION OF RESIDUES 114-119 COMPLEXED WITH CALCIUM CHLORIDE AND THE COMPETITIVE INHIBITOR DEOXYTHYMIDINE-3',5'-DIPHOSPHATE P00644 P00644 1.84 X-RAY DIFFRACTION 21 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 129 129 LHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPETKHPKKGVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYTHEQHLRKSEAQAKKEKLNIWS LHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPETKHPKKGVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYTHEQHLRKSEAQAKKEKLNIWS 1snd-a2-m1-cA_1snd-a2-m1-cB STAPHYLOCOCCAL NUCLEASE DIMER CONTAINING A DELETION OF RESIDUES 114-119 COMPLEXED WITH CALCIUM CHLORIDE AND THE COMPETITIVE INHIBITOR DEOXYTHYMIDINE-3',5'-DIPHOSPHATE P00644 P00644 1.84 X-RAY DIFFRACTION 135 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 129 129 1snd-a1-m1-cA_1snd-a1-m1-cB 1snd-a1-m2-cA_1snd-a1-m2-cB LHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPETKHPKKGVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYTHEQHLRKSEAQAKKEKLNIWS LHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPETKHPKKGVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYTHEQHLRKSEAQAKKEKLNIWS 1sny-a1-m1-cA_1sny-a1-m2-cA Carbonyl reductase Sniffer of D. melanogaster Q9W3H4 Q9W3H4 1.75 X-RAY DIFFRACTION 133 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 241 241 HNSILITGCNRGLGLGLVKALLNLPQPPQHLFTTCRNREQAKELEDLAKNHSNIHILEIDLRNFDAYDKLVADIEGVTKDQGLNVLFNNAGIAPKSARITAVRSQELLDTLQTNTVVPILAKACLPLLKKAAKANESQPGVGRAAIINSSILGSIQGNTDGGYAYRTSKSALNAATKSLSVDLYPQRICVSLHPGWVKTDGGSSAPLDVPTSTGQIVQTISKLGEKQNGGFVNYDGTPLAW HNSILITGCNRGLGLGLVKALLNLPQPPQHLFTTCRNREQAKELEDLAKNHSNIHILEIDLRNFDAYDKLVADIEGVTKDQGLNVLFNNAGIAPKSARITAVRSQELLDTLQTNTVVPILAKACLPLLKKAAKANESQPGVGRAAIINSSILGSIQGNTDGGYAYRTSKSALNAATKSLSVDLYPQRICVSLHPGWVKTDGGSSAPLDVPTSTGQIVQTISKLGEKQNGGFVNYDGTPLAW 1so8-a1-m1-cA_1so8-a1-m2-cA Abeta-bound human ABAD structure [also known as 3-hydroxyacyl-CoA dehydrogenase type II (Type II HADH), Endoplasmic reticulum-associated amyloid beta-peptide binding protein (ERAB)] Q99714 Q99714 2.3 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL 1so8-a2-m1-cA_1so8-a2-m9-cA Abeta-bound human ABAD structure [also known as 3-hydroxyacyl-CoA dehydrogenase type II (Type II HADH), Endoplasmic reticulum-associated amyloid beta-peptide binding protein (ERAB)] Q99714 Q99714 2.3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 1so8-a2-m3-cA_1so8-a2-m5-cA 1so8-a2-m4-cA_1so8-a2-m7-cA 1so8-a2-m6-cA_1so8-a2-m8-cA RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL 1so8-a2-m4-cA_1so8-a2-m9-cA Abeta-bound human ABAD structure [also known as 3-hydroxyacyl-CoA dehydrogenase type II (Type II HADH), Endoplasmic reticulum-associated amyloid beta-peptide binding protein (ERAB)] Q99714 Q99714 2.3 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 1so8-a2-m1-cA_1so8-a2-m5-cA 1so8-a2-m3-cA_1so8-a2-m8-cA 1so8-a2-m6-cA_1so8-a2-m7-cA RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL 1so8-a2-m7-cA_1so8-a2-m9-cA Abeta-bound human ABAD structure [also known as 3-hydroxyacyl-CoA dehydrogenase type II (Type II HADH), Endoplasmic reticulum-associated amyloid beta-peptide binding protein (ERAB)] Q99714 Q99714 2.3 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 1so8-a1-m1-cA_1so8-a1-m3-cA 1so8-a1-m1-cA_1so8-a1-m4-cA 1so8-a2-m1-cA_1so8-a2-m3-cA 1so8-a2-m1-cA_1so8-a2-m4-cA 1so8-a2-m3-cA_1so8-a2-m6-cA 1so8-a2-m4-cA_1so8-a2-m6-cA 1so8-a2-m5-cA_1so8-a2-m8-cA 1so8-a2-m5-cA_1so8-a2-m9-cA 1so8-a2-m7-cA_1so8-a2-m8-cA RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLTDPAEYAHLVQAIIENPFLNGEVIRL 1soj-a6-m1-cK_1soj-a6-m1-cL CATALYTIC DOMAIN OF HUMAN PHOSPHODIESTERASE 3B IN COMPLEX WITH IBMX Q13370 Q13370 2.9 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 381 1so2-a1-m1-cA_1so2-a1-m1-cB 1so2-a2-m1-cD_1so2-a2-m1-cC 1soj-a1-m1-cA_1soj-a1-m1-cB 1soj-a2-m1-cC_1soj-a2-m1-cD 1soj-a3-m1-cE_1soj-a3-m1-cF 1soj-a4-m1-cG_1soj-a4-m1-cH 1soj-a5-m1-cI_1soj-a5-m1-cJ LDLILVEEYDSLIEKMSNWNFPIFELVEKMGEKSGRILSQVMYTLFQDTGLLEIFKIPTQQFMNYFRALENGYRDIPYHNRIHATDVLHAVWYLTTRPVPGLQQIHNGRIAYISSKSCSNPDESYGCLSSNIPALELMALYVAAAMHDYDHPGRTNAFLVATNAPQAVLYNDRSVLENHHAASAWNLYLSRPEYNFLLHLDHVEFKRFRFLVIEAILATDLKKHFDFLAEFNAKANDVNSNGIEWSNENDRLLVCQVCIKLADINGPAKVRDLHLKWTEGIVNEFYEQGDEEANLGLPISPFMDRSSPQLAKLQESFITHIVGPLCNSYDAAGLLPGQWLEAESRRRIFCQLMHHLTENHKIWK EVSLDLILVEEYDSLIEKMSNWNFPIFELVEKMGEKSGRILSQVMYTLFQDTGLLEIFKIPTQQFMNYFRALENGYRDIPYHNRIHATDVLHAVWYLTTRPVPGLQQIHNGDGRINHGRIAYISSKSCSNPDESYGCLSSNIPALELMALYVAAAMHDYDHPGRTNAFLVATNAPQAVLYNDRSVLENHHAASAWNLYLSRPEYNFLLHLDHVEFKRFRFLVIEAILATDLKKHFDFLAEFNAKANDVNSNGIEWSNENDRLLVCQVCIKLADINGPAKVRDLHLKWTEGIVNEFYEQGDEEANLGLPISPFMDRSSPQLAKLQESFITHIVGPLCNSYDAAGLLPGQWLEAEEDNDTESSRRRIFCQLMHHLTENHKIWK 1sor-a1-m3-cA_1sor-a1-m8-cA Aquaporin-0 membrane junctions reveal the structure of a closed water pore Q6J8I9 Q6J8I9 3 ELECTRON CRYSTALLOGRAPHY 19 1.0 9940 (Ovis aries) 9940 (Ovis aries) 235 235 1sor-a1-m1-cA_1sor-a1-m5-cA 1sor-a1-m2-cA_1sor-a1-m6-cA 1sor-a1-m4-cA_1sor-a1-m7-cA RSASFWRAIFAEFFATLFYVFFGLGASLRWAPGPLHVLQVALAFGLALATLVQAVGHISGAHVNPAVTFAFLVGSQMSLLRAICYVVAQLLGAVAGAAVLYSVTPPAVRGNLALNTLHPGVSVGQATIVEIFLTLQFVLCIFATYDERRNGRLGSVALAVGFSLTLGHLFGMYYTGAGMNPARSFAPAILTRNFTNHWVYWVGPVIGAGLGSLLYDFLLFPRLKSVSERLSILKG RSASFWRAIFAEFFATLFYVFFGLGASLRWAPGPLHVLQVALAFGLALATLVQAVGHISGAHVNPAVTFAFLVGSQMSLLRAICYVVAQLLGAVAGAAVLYSVTPPAVRGNLALNTLHPGVSVGQATIVEIFLTLQFVLCIFATYDERRNGRLGSVALAVGFSLTLGHLFGMYYTGAGMNPARSFAPAILTRNFTNHWVYWVGPVIGAGLGSLLYDFLLFPRLKSVSERLSILKG 1sow-a1-m2-cB_1sow-a1-m1-cA T. gondii bradyzoite-specific LDH (LDH2) in complex with NAD and oxalate Q27797 Q27797 1.9 X-RAY DIFFRACTION 134 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 323 322 1sov-a1-m1-cB_1sov-a1-m2-cA 1sov-a1-m2-cB_1sov-a1-m1-cA 1sow-a1-m2-cA_1sow-a1-m1-cB 3czm-a1-m2-cA_3czm-a1-m1-cB 3czm-a1-m2-cB_3czm-a1-m1-cA GTVSRRKKIAMIGSGMIGGTMGYLCVLRELADVVLFDVVTGMPEGKALDDSQATSIADTNVSVTSANQYEKIAGSDVVIITAGLTKVPGKSDKEWSRNDLLPFNAKIIREVAQGVKKYCPLAFVIVVTNPLDCMVKCFHEASGLPKNMVCGMANVLDSARFRRFIADQLEISPRDIQATVIGTHGDHMLPLARYVTVNGFPLREFIKKGKMTEAKLAEIVERTKKAGGEIVRLLGQGSAYYAPALSAITMAQAFLKDEKRVLPCSVYCQGEYGLHDMFIGLPAVIGGGGIEQVIELELTHEEQECFRKSVDDVVELNKSLAAL TVSRRKKIAMIGSGMIGGTMGYLCVLRELADVVLFDVVTGMPEGKALDDSQATSIADTNVSVTSANQYEKIAGSDVVIITAGLTKVPGKSDKEWSRNDLLPFNAKIIREVAQGVKKYCPLAFVIVVTNPLDCMVKCFHEASGLPKNMVCGMANVLDSARFRRFIADQLEISPRDIQATVIGTHGDHMLPLARYVTVNGFPLREFIKKGKMTEAKLAEIVERTKKAGGEIVRLLGQGSAYYAPALSAITMAQAFLKDEKRVLPCSVYCQGEYGLHDMFIGLPAVIGGGGIEQVIELELTHEEQECFRKSVDDVVELNKSLAAL 1sow-a1-m2-cB_1sow-a1-m1-cB T. gondii bradyzoite-specific LDH (LDH2) in complex with NAD and oxalate Q27797 Q27797 1.9 X-RAY DIFFRACTION 66 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 323 323 1sov-a1-m1-cB_1sov-a1-m1-cA 1sov-a1-m2-cB_1sov-a1-m2-cA 1sow-a1-m1-cA_1sow-a1-m2-cA 3czm-a1-m1-cA_3czm-a1-m2-cA 3czm-a1-m2-cB_3czm-a1-m1-cB GTVSRRKKIAMIGSGMIGGTMGYLCVLRELADVVLFDVVTGMPEGKALDDSQATSIADTNVSVTSANQYEKIAGSDVVIITAGLTKVPGKSDKEWSRNDLLPFNAKIIREVAQGVKKYCPLAFVIVVTNPLDCMVKCFHEASGLPKNMVCGMANVLDSARFRRFIADQLEISPRDIQATVIGTHGDHMLPLARYVTVNGFPLREFIKKGKMTEAKLAEIVERTKKAGGEIVRLLGQGSAYYAPALSAITMAQAFLKDEKRVLPCSVYCQGEYGLHDMFIGLPAVIGGGGIEQVIELELTHEEQECFRKSVDDVVELNKSLAAL GTVSRRKKIAMIGSGMIGGTMGYLCVLRELADVVLFDVVTGMPEGKALDDSQATSIADTNVSVTSANQYEKIAGSDVVIITAGLTKVPGKSDKEWSRNDLLPFNAKIIREVAQGVKKYCPLAFVIVVTNPLDCMVKCFHEASGLPKNMVCGMANVLDSARFRRFIADQLEISPRDIQATVIGTHGDHMLPLARYVTVNGFPLREFIKKGKMTEAKLAEIVERTKKAGGEIVRLLGQGSAYYAPALSAITMAQAFLKDEKRVLPCSVYCQGEYGLHDMFIGLPAVIGGGGIEQVIELELTHEEQECFRKSVDDVVELNKSLAAL 1sow-a1-m2-cB_1sow-a1-m2-cA T. gondii bradyzoite-specific LDH (LDH2) in complex with NAD and oxalate Q27797 Q27797 1.9 X-RAY DIFFRACTION 50 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 323 322 1sov-a1-m1-cA_1sov-a1-m2-cA 1sov-a1-m2-cB_1sov-a1-m1-cB 1sow-a1-m1-cA_1sow-a1-m1-cB 3czm-a1-m1-cA_3czm-a1-m1-cB 3czm-a1-m2-cB_3czm-a1-m2-cA GTVSRRKKIAMIGSGMIGGTMGYLCVLRELADVVLFDVVTGMPEGKALDDSQATSIADTNVSVTSANQYEKIAGSDVVIITAGLTKVPGKSDKEWSRNDLLPFNAKIIREVAQGVKKYCPLAFVIVVTNPLDCMVKCFHEASGLPKNMVCGMANVLDSARFRRFIADQLEISPRDIQATVIGTHGDHMLPLARYVTVNGFPLREFIKKGKMTEAKLAEIVERTKKAGGEIVRLLGQGSAYYAPALSAITMAQAFLKDEKRVLPCSVYCQGEYGLHDMFIGLPAVIGGGGIEQVIELELTHEEQECFRKSVDDVVELNKSLAAL TVSRRKKIAMIGSGMIGGTMGYLCVLRELADVVLFDVVTGMPEGKALDDSQATSIADTNVSVTSANQYEKIAGSDVVIITAGLTKVPGKSDKEWSRNDLLPFNAKIIREVAQGVKKYCPLAFVIVVTNPLDCMVKCFHEASGLPKNMVCGMANVLDSARFRRFIADQLEISPRDIQATVIGTHGDHMLPLARYVTVNGFPLREFIKKGKMTEAKLAEIVERTKKAGGEIVRLLGQGSAYYAPALSAITMAQAFLKDEKRVLPCSVYCQGEYGLHDMFIGLPAVIGGGGIEQVIELELTHEEQECFRKSVDDVVELNKSLAAL 1spg-a1-m1-cB_1spg-a1-m2-cB CARBONMONOXY HEMOGLOBIN FROM THE TELEOST FISH LEIOSTOMUS XANTHURUS P56251 P56251 1.95 X-RAY DIFFRACTION 12 1.0 59837 (Leiostomus xanthurus) 59837 (Leiostomus xanthurus) 147 147 VDWTDAERAAIKALWGKIDVGEIGPQALSRLLIVYPWTQRHFKGFGNISTNAAILGNAKVAEHGKTVMGGLDRAVQNMDNIKNVYKQLSIKHSEKIHVDPDNFRLLGEIITMCVGAKFGPSAFTPEIHEAWQKFLAVVVSALGRQYH VDWTDAERAAIKALWGKIDVGEIGPQALSRLLIVYPWTQRHFKGFGNISTNAAILGNAKVAEHGKTVMGGLDRAVQNMDNIKNVYKQLSIKHSEKIHVDPDNFRLLGEIITMCVGAKFGPSAFTPEIHEAWQKFLAVVVSALGRQYH 1sph-a1-m1-cA_1sph-a1-m1-cB REFINED STRUCTURES OF THE ACTIVE S83C AND IMPAIRED S46D HPRS: EVIDENCE THAT PHOSPHORYLATION DOES NOT REQUIRE A BACKBONE CONFORMATIONAL TRANSITION P08877 P08877 2 X-RAY DIFFRACTION 39 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 87 87 AQKTFKVTADSGIHARPATVLVQTASKYDADVNLEYNGKTVNLKDIMGVMSLGIAKGAEITISASGADENDALNALEETMKSEGLGE AQKTFKVTADSGIHARPATVLVQTASKYDADVNLEYNGKTVNLKDIMGVMSLGIAKGAEITISASGADENDALNALEETMKSEGLGE 1spi-a1-m1-cC_1spi-a1-m1-cA CRYSTAL STRUCTURE OF SPINACH CHLOROPLAST FRUCTOSE-1,6-BISPHOSPHATASE AT 2.8 ANGSTROMS RESOLUTION P22418 P22418 2.8 X-RAY DIFFRACTION 11 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 328 333 KARTRSKYEIETLTGWLLKQPMAGVIDAELTIVLSSISLACKQIASLVQRAKLDVVSNEVFSSCLRSSGRTGIIASEEEDVPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYSPNDECIVDSDHDDESQLSAEEQRCVVNVCQPGDNLLAAGYCMYSSSVIFVLTIGKGVYAFTLDPMYGEFVLTSEKIQIPKAGKIYSFNEGNYKMWPDKLKKYMDDLKEPGESQKPYSSRYIGSLVGDFHRTLLYGGIYGYPRDAKSKNGKLRLLYECAPMSFIVEQAGGKGSDGHQRILDIQPTEIHQRVPLYIGSVEEVEKLEKYLA AATQTKARTRSKYEIETLTGWLLKQPMAGVIDAELTIVLSSISLACKQIASLVQRAKLDVVSNEVFSSCLRSSGRTGIIASEEEDVPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYSPNDECIVDSDHDDESQLSAEEQRCVVNVCQPGDNLLAAGYCMYSSSVIFVLTIGKGVYAFTLDPMYGEFVLTSEKIQIPKAGKIYSFNEGNYKMWPDKLKKYMDDLKEPGESQKPYSSRYIGSLVGDFHRTLLYGGIYGYPRDAKSKNGKLRLLYECAPMSFIVEQAGGKGSDGHQRILDIQPTEIHQRVPLYIGSVEEVEKLEKYLA 1spi-a1-m1-cC_1spi-a1-m1-cD CRYSTAL STRUCTURE OF SPINACH CHLOROPLAST FRUCTOSE-1,6-BISPHOSPHATASE AT 2.8 ANGSTROMS RESOLUTION P22418 P22418 2.8 X-RAY DIFFRACTION 149 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 328 328 1spi-a1-m1-cB_1spi-a1-m1-cA KARTRSKYEIETLTGWLLKQPMAGVIDAELTIVLSSISLACKQIASLVQRAKLDVVSNEVFSSCLRSSGRTGIIASEEEDVPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYSPNDECIVDSDHDDESQLSAEEQRCVVNVCQPGDNLLAAGYCMYSSSVIFVLTIGKGVYAFTLDPMYGEFVLTSEKIQIPKAGKIYSFNEGNYKMWPDKLKKYMDDLKEPGESQKPYSSRYIGSLVGDFHRTLLYGGIYGYPRDAKSKNGKLRLLYECAPMSFIVEQAGGKGSDGHQRILDIQPTEIHQRVPLYIGSVEEVEKLEKYLA KARTRSKYEIETLTGWLLKQPMAGVIDAELTIVLSSISLACKQIASLVQRAKLDVVSNEVFSSCLRSSGRTGIIASEEEDVPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYSPNDECIVDSDHDDESQLSAEEQRCVVNVCQPGDNLLAAGYCMYSSSVIFVLTIGKGVYAFTLDPMYGEFVLTSEKIQIPKAGKIYSFNEGNYKMWPDKLKKYMDDLKEPGESQKPYSSRYIGSLVGDFHRTLLYGGIYGYPRDAKSKNGKLRLLYECAPMSFIVEQAGGKGSDGHQRILDIQPTEIHQRVPLYIGSVEEVEKLEKYLA 1spi-a1-m1-cD_1spi-a1-m1-cA CRYSTAL STRUCTURE OF SPINACH CHLOROPLAST FRUCTOSE-1,6-BISPHOSPHATASE AT 2.8 ANGSTROMS RESOLUTION P22418 P22418 2.8 X-RAY DIFFRACTION 72 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 328 333 1spi-a1-m1-cB_1spi-a1-m1-cC KARTRSKYEIETLTGWLLKQPMAGVIDAELTIVLSSISLACKQIASLVQRAKLDVVSNEVFSSCLRSSGRTGIIASEEEDVPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYSPNDECIVDSDHDDESQLSAEEQRCVVNVCQPGDNLLAAGYCMYSSSVIFVLTIGKGVYAFTLDPMYGEFVLTSEKIQIPKAGKIYSFNEGNYKMWPDKLKKYMDDLKEPGESQKPYSSRYIGSLVGDFHRTLLYGGIYGYPRDAKSKNGKLRLLYECAPMSFIVEQAGGKGSDGHQRILDIQPTEIHQRVPLYIGSVEEVEKLEKYLA AATQTKARTRSKYEIETLTGWLLKQPMAGVIDAELTIVLSSISLACKQIASLVQRAKLDVVSNEVFSSCLRSSGRTGIIASEEEDVPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYSPNDECIVDSDHDDESQLSAEEQRCVVNVCQPGDNLLAAGYCMYSSSVIFVLTIGKGVYAFTLDPMYGEFVLTSEKIQIPKAGKIYSFNEGNYKMWPDKLKKYMDDLKEPGESQKPYSSRYIGSLVGDFHRTLLYGGIYGYPRDAKSKNGKLRLLYECAPMSFIVEQAGGKGSDGHQRILDIQPTEIHQRVPLYIGSVEEVEKLEKYLA 1spx-a1-m1-cA_1spx-a1-m4-cA Crystal Structure of Glucose Dehydrogenase of Caenorhabditis Elegans in the Apo-Form Q18946 Q18946 2.1 X-RAY DIFFRACTION 18 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 237 237 1spx-a1-m2-cA_1spx-a1-m3-cA TRFAEKVAIITGSSNGIGRATAVLFAREGAKVTITGRHAERLEETRQQILAAGVSEQNVNSVVADVTTDAGQDEILSTTLGKFGKLDILVNNAGQSIESYDATLNLNLRSVIALTKKAVPHLSSTKGEIVNISSIASGLHATPDFPYYSIAKAAIDQYTRNTAIDLIQHGIRVNSISPGLVATGFYSTMATMKECVPAGVMGQPQDIAEVIAFLADRKTSSYIIGHQLVVDGGSSLI TRFAEKVAIITGSSNGIGRATAVLFAREGAKVTITGRHAERLEETRQQILAAGVSEQNVNSVVADVTTDAGQDEILSTTLGKFGKLDILVNNAGQSIESYDATLNLNLRSVIALTKKAVPHLSSTKGEIVNISSIASGLHATPDFPYYSIAKAAIDQYTRNTAIDLIQHGIRVNSISPGLVATGFYSTMATMKECVPAGVMGQPQDIAEVIAFLADRKTSSYIIGHQLVVDGGSSLI 1spx-a1-m2-cA_1spx-a1-m4-cA Crystal Structure of Glucose Dehydrogenase of Caenorhabditis Elegans in the Apo-Form Q18946 Q18946 2.1 X-RAY DIFFRACTION 85 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 237 237 1spx-a1-m1-cA_1spx-a1-m3-cA TRFAEKVAIITGSSNGIGRATAVLFAREGAKVTITGRHAERLEETRQQILAAGVSEQNVNSVVADVTTDAGQDEILSTTLGKFGKLDILVNNAGQSIESYDATLNLNLRSVIALTKKAVPHLSSTKGEIVNISSIASGLHATPDFPYYSIAKAAIDQYTRNTAIDLIQHGIRVNSISPGLVATGFYSTMATMKECVPAGVMGQPQDIAEVIAFLADRKTSSYIIGHQLVVDGGSSLI TRFAEKVAIITGSSNGIGRATAVLFAREGAKVTITGRHAERLEETRQQILAAGVSEQNVNSVVADVTTDAGQDEILSTTLGKFGKLDILVNNAGQSIESYDATLNLNLRSVIALTKKAVPHLSSTKGEIVNISSIASGLHATPDFPYYSIAKAAIDQYTRNTAIDLIQHGIRVNSISPGLVATGFYSTMATMKECVPAGVMGQPQDIAEVIAFLADRKTSSYIIGHQLVVDGGSSLI 1spx-a1-m3-cA_1spx-a1-m4-cA Crystal Structure of Glucose Dehydrogenase of Caenorhabditis Elegans in the Apo-Form Q18946 Q18946 2.1 X-RAY DIFFRACTION 102 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 237 237 1spx-a1-m1-cA_1spx-a1-m2-cA TRFAEKVAIITGSSNGIGRATAVLFAREGAKVTITGRHAERLEETRQQILAAGVSEQNVNSVVADVTTDAGQDEILSTTLGKFGKLDILVNNAGQSIESYDATLNLNLRSVIALTKKAVPHLSSTKGEIVNISSIASGLHATPDFPYYSIAKAAIDQYTRNTAIDLIQHGIRVNSISPGLVATGFYSTMATMKECVPAGVMGQPQDIAEVIAFLADRKTSSYIIGHQLVVDGGSSLI TRFAEKVAIITGSSNGIGRATAVLFAREGAKVTITGRHAERLEETRQQILAAGVSEQNVNSVVADVTTDAGQDEILSTTLGKFGKLDILVNNAGQSIESYDATLNLNLRSVIALTKKAVPHLSSTKGEIVNISSIASGLHATPDFPYYSIAKAAIDQYTRNTAIDLIQHGIRVNSISPGLVATGFYSTMATMKECVPAGVMGQPQDIAEVIAFLADRKTSSYIIGHQLVVDGGSSLI 1sq1-a1-m1-cA_1sq1-a1-m4-cA Crystal Structure of the Chorismate Synthase from Campylobacter jejuni, Northeast Structural Genomics Target BR19 Q9PM41 Q9PM41 2.8 X-RAY DIFFRACTION 75 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 281 281 1sq1-a1-m2-cA_1sq1-a1-m3-cA NTFGTRLKFTSFGESHGVAVGCIIDGPAGVKFDEEFLQNELDKRKGDKAQVLSGVFEGYTTGHPIAIVVFSARESVARVAGGAVAALLREFDICVQSGVFGVGTFVSNLKEEEFDFEFAKKSEIFCLDPKLESDFKNEILNARNSKDSVGAAVFTKVSGLIGLGEVLYDKLDSKLAHALGINAVKAVEIGEGINASKRGSCNNDALKDGKFLSNHSGGILGGISNGENLILKTYFKPTPGRHDPCVGVRGSVVASAVRLVLADCLLLNASANLNNLKNAYG NTFGTRLKFTSFGESHGVAVGCIIDGPAGVKFDEEFLQNELDKRKGDKAQVLSGVFEGYTTGHPIAIVVFSARESVARVAGGAVAALLREFDICVQSGVFGVGTFVSNLKEEEFDFEFAKKSEIFCLDPKLESDFKNEILNARNSKDSVGAAVFTKVSGLIGLGEVLYDKLDSKLAHALGINAVKAVEIGEGINASKRGSCNNDALKDGKFLSNHSGGILGGISNGENLILKTYFKPTPGRHDPCVGVRGSVVASAVRLVLADCLLLNASANLNNLKNAYG 1sq1-a1-m2-cA_1sq1-a1-m4-cA Crystal Structure of the Chorismate Synthase from Campylobacter jejuni, Northeast Structural Genomics Target BR19 Q9PM41 Q9PM41 2.8 X-RAY DIFFRACTION 175 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 281 281 1sq1-a1-m1-cA_1sq1-a1-m3-cA NTFGTRLKFTSFGESHGVAVGCIIDGPAGVKFDEEFLQNELDKRKGDKAQVLSGVFEGYTTGHPIAIVVFSARESVARVAGGAVAALLREFDICVQSGVFGVGTFVSNLKEEEFDFEFAKKSEIFCLDPKLESDFKNEILNARNSKDSVGAAVFTKVSGLIGLGEVLYDKLDSKLAHALGINAVKAVEIGEGINASKRGSCNNDALKDGKFLSNHSGGILGGISNGENLILKTYFKPTPGRHDPCVGVRGSVVASAVRLVLADCLLLNASANLNNLKNAYG NTFGTRLKFTSFGESHGVAVGCIIDGPAGVKFDEEFLQNELDKRKGDKAQVLSGVFEGYTTGHPIAIVVFSARESVARVAGGAVAALLREFDICVQSGVFGVGTFVSNLKEEEFDFEFAKKSEIFCLDPKLESDFKNEILNARNSKDSVGAAVFTKVSGLIGLGEVLYDKLDSKLAHALGINAVKAVEIGEGINASKRGSCNNDALKDGKFLSNHSGGILGGISNGENLILKTYFKPTPGRHDPCVGVRGSVVASAVRLVLADCLLLNASANLNNLKNAYG 1sq1-a1-m3-cA_1sq1-a1-m4-cA Crystal Structure of the Chorismate Synthase from Campylobacter jejuni, Northeast Structural Genomics Target BR19 Q9PM41 Q9PM41 2.8 X-RAY DIFFRACTION 53 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 281 281 1sq1-a1-m1-cA_1sq1-a1-m2-cA NTFGTRLKFTSFGESHGVAVGCIIDGPAGVKFDEEFLQNELDKRKGDKAQVLSGVFEGYTTGHPIAIVVFSARESVARVAGGAVAALLREFDICVQSGVFGVGTFVSNLKEEEFDFEFAKKSEIFCLDPKLESDFKNEILNARNSKDSVGAAVFTKVSGLIGLGEVLYDKLDSKLAHALGINAVKAVEIGEGINASKRGSCNNDALKDGKFLSNHSGGILGGISNGENLILKTYFKPTPGRHDPCVGVRGSVVASAVRLVLADCLLLNASANLNNLKNAYG NTFGTRLKFTSFGESHGVAVGCIIDGPAGVKFDEEFLQNELDKRKGDKAQVLSGVFEGYTTGHPIAIVVFSARESVARVAGGAVAALLREFDICVQSGVFGVGTFVSNLKEEEFDFEFAKKSEIFCLDPKLESDFKNEILNARNSKDSVGAAVFTKVSGLIGLGEVLYDKLDSKLAHALGINAVKAVEIGEGINASKRGSCNNDALKDGKFLSNHSGGILGGISNGENLILKTYFKPTPGRHDPCVGVRGSVVASAVRLVLADCLLLNASANLNNLKNAYG 1sq4-a1-m4-cB_1sq4-a1-m4-cA Crystal Structure of the Putative Glyoxylate Induced Protein from Pseudomonas aeruginosa, Northeast Structural Genomics Target PaR14 Q9I4J5 Q9I4J5 2.7 X-RAY DIFFRACTION 29 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 255 258 1sq4-a1-m1-cB_1sq4-a1-m1-cA 1sq4-a1-m2-cB_1sq4-a1-m2-cA 1sq4-a1-m3-cB_1sq4-a1-m3-cA KSSYYAPHGGHPADRAFTEAYAVIPKGVRDIVTSHLPFWDNRWVIARPLSGFAETFSQYIVELAPNGGSDKPEQDPNAEAVLFVVEGELSLTLQGQVHAQPGGYAFIPPGADYKVRNTTGQHTRFHWIRKHYQKVDGVPLPEAFVTNEQDIQPLVPDTEGRWSTTRFVDSDRHDHVNIVNFEPGGVIPFAETHVEHGLYVLEGKAVYRLNQDWVEVEAGDFWLRAFCPQACYSGGPGRFRYLLYKDVNRHRLTLN KSSYYAPHGGHPALLTDRAFTEAYAVIPKGVRDIVTSHLPFWDNRWVIARPLSGFAETFSQYIVELAPNGGSDKPEQDPNAEAVLFVVEGELSLTLQGQVHAQPGGYAFIPPGADYKVRNTTGQHTRFHWIRKHYQKVDGVPLPEAFVTNEQDIQPLVPDTEGRWSTTRFVDSDRHDHVNIVNFEPGGVIPFAETHVEHGLYVLEGKAVYRLNQDWVEVEAGDFWLRAFCPQACYSGGPGRFRYLLYKDVNRHRLTLN 1sq4-a3-m2-cB_1sq4-a3-m4-cB Crystal Structure of the Putative Glyoxylate Induced Protein from Pseudomonas aeruginosa, Northeast Structural Genomics Target PaR14 Q9I4J5 Q9I4J5 2.7 X-RAY DIFFRACTION 94 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 255 255 1sq4-a1-m1-cA_1sq4-a1-m3-cA 1sq4-a1-m1-cA_1sq4-a1-m4-cA 1sq4-a1-m1-cB_1sq4-a1-m3-cB 1sq4-a1-m1-cB_1sq4-a1-m4-cB 1sq4-a1-m2-cA_1sq4-a1-m3-cA 1sq4-a1-m2-cA_1sq4-a1-m4-cA 1sq4-a1-m2-cB_1sq4-a1-m3-cB 1sq4-a1-m2-cB_1sq4-a1-m4-cB 1sq4-a2-m1-cA_1sq4-a2-m3-cA 1sq4-a2-m1-cA_1sq4-a2-m4-cA 1sq4-a2-m2-cA_1sq4-a2-m3-cA 1sq4-a2-m2-cA_1sq4-a2-m4-cA 1sq4-a3-m1-cB_1sq4-a3-m3-cB 1sq4-a3-m1-cB_1sq4-a3-m4-cB 1sq4-a3-m2-cB_1sq4-a3-m3-cB KSSYYAPHGGHPADRAFTEAYAVIPKGVRDIVTSHLPFWDNRWVIARPLSGFAETFSQYIVELAPNGGSDKPEQDPNAEAVLFVVEGELSLTLQGQVHAQPGGYAFIPPGADYKVRNTTGQHTRFHWIRKHYQKVDGVPLPEAFVTNEQDIQPLVPDTEGRWSTTRFVDSDRHDHVNIVNFEPGGVIPFAETHVEHGLYVLEGKAVYRLNQDWVEVEAGDFWLRAFCPQACYSGGPGRFRYLLYKDVNRHRLTLN KSSYYAPHGGHPADRAFTEAYAVIPKGVRDIVTSHLPFWDNRWVIARPLSGFAETFSQYIVELAPNGGSDKPEQDPNAEAVLFVVEGELSLTLQGQVHAQPGGYAFIPPGADYKVRNTTGQHTRFHWIRKHYQKVDGVPLPEAFVTNEQDIQPLVPDTEGRWSTTRFVDSDRHDHVNIVNFEPGGVIPFAETHVEHGLYVLEGKAVYRLNQDWVEVEAGDFWLRAFCPQACYSGGPGRFRYLLYKDVNRHRLTLN 1sq6-a2-m1-cA_1sq6-a2-m6-cA Plasmodium falciparum homolog of Uridine phosphorylase/Purine nucleoside phosphorylase Q8I3X4 Q8I3X4 2.4 X-RAY DIFFRACTION 83 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 221 221 1nw4-a1-m1-cA_1nw4-a1-m1-cF 1nw4-a1-m1-cB_1nw4-a1-m1-cC 1nw4-a1-m1-cD_1nw4-a1-m1-cE 1nw4-a2-m1-cD_1nw4-a2-m1-cE 1nw4-a3-m1-cA_1nw4-a3-m1-cF 1nw4-a4-m1-cB_1nw4-a4-m1-cC 1q1g-a1-m1-cA_1q1g-a1-m1-cF 1q1g-a1-m1-cB_1q1g-a1-m1-cC 1q1g-a1-m1-cD_1q1g-a1-m1-cE 1sq6-a2-m2-cA_1sq6-a2-m5-cA 1sq6-a2-m3-cA_1sq6-a2-m4-cA 2bsx-a1-m1-cA_2bsx-a1-m4-cA 2bsx-a1-m2-cA_2bsx-a1-m6-cA 2bsx-a1-m3-cA_2bsx-a1-m5-cA 3enz-a1-m1-cA_3enz-a1-m1-cC 3enz-a1-m1-cD_3enz-a1-m1-cB 3enz-a1-m1-cE_3enz-a1-m1-cF 3fow-a1-m1-cB_3fow-a1-m2-cA 3fow-a1-m2-cB_3fow-a1-m3-cA 3fow-a1-m3-cB_3fow-a1-m1-cA 3phc-a1-m1-cA_3phc-a1-m1-cF 3phc-a1-m1-cB_3phc-a1-m1-cC 3phc-a1-m1-cD_3phc-a1-m1-cE 5znc-a1-m1-cA_5znc-a1-m5-cA 5znc-a1-m2-cA_5znc-a1-m4-cA 5znc-a1-m3-cA_5znc-a1-m6-cA 5zni-a1-m1-cA_5zni-a1-m6-cA 5zni-a1-m2-cA_5zni-a1-m5-cA 5zni-a1-m3-cA_5zni-a1-m4-cA 6aqs-a1-m1-cA_6aqs-a1-m6-cA 6aqs-a1-m2-cA_6aqs-a1-m5-cA 6aqs-a1-m3-cA_6aqs-a1-m4-cA LLRHLKISKEQITPVVLVVGDPGRVDKIKVVCDSYVDLAYNREYKSVECHYKGQKFLCVSHGVGSAGCAVCFEELCQNGAKVIIRAGSCGSLQPDLIKRGDICICNAAVREDRVSHLLIHGDFPAVGDFDVYDTLNKCAQELNVPVFNGISVSSDYYPNKIIPSRLEDYSKANAAVVEELATLVIGTLRKVKTGGILIVDGHQLENIKIALGACAKLATKY LLRHLKISKEQITPVVLVVGDPGRVDKIKVVCDSYVDLAYNREYKSVECHYKGQKFLCVSHGVGSAGCAVCFEELCQNGAKVIIRAGSCGSLQPDLIKRGDICICNAAVREDRVSHLLIHGDFPAVGDFDVYDTLNKCAQELNVPVFNGISVSSDYYPNKIIPSRLEDYSKANAAVVEELATLVIGTLRKVKTGGILIVDGHQLENIKIALGACAKLATKY 1sq6-a2-m2-cA_1sq6-a2-m6-cA Plasmodium falciparum homolog of Uridine phosphorylase/Purine nucleoside phosphorylase Q8I3X4 Q8I3X4 2.4 X-RAY DIFFRACTION 118 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 221 221 1nw4-a1-m1-cA_1nw4-a1-m1-cB 1nw4-a1-m1-cC_1nw4-a1-m1-cD 1nw4-a1-m1-cE_1nw4-a1-m1-cF 1nw4-a5-m1-cE_1nw4-a5-m1-cF 1nw4-a6-m1-cC_1nw4-a6-m1-cD 1nw4-a7-m1-cA_1nw4-a7-m1-cB 1q1g-a1-m1-cA_1q1g-a1-m1-cB 1q1g-a1-m1-cC_1q1g-a1-m1-cD 1q1g-a1-m1-cE_1q1g-a1-m1-cF 1sq6-a2-m1-cA_1sq6-a2-m4-cA 1sq6-a2-m3-cA_1sq6-a2-m5-cA 2bsx-a1-m1-cA_2bsx-a1-m5-cA 2bsx-a1-m2-cA_2bsx-a1-m4-cA 2bsx-a1-m3-cA_2bsx-a1-m6-cA 3enz-a1-m1-cA_3enz-a1-m1-cB 3enz-a1-m1-cE_3enz-a1-m1-cC 3enz-a1-m1-cF_3enz-a1-m1-cD 3fow-a1-m1-cB_3fow-a1-m1-cA 3fow-a1-m2-cB_3fow-a1-m2-cA 3fow-a1-m3-cB_3fow-a1-m3-cA 3phc-a1-m1-cA_3phc-a1-m1-cB 3phc-a1-m1-cC_3phc-a1-m1-cD 3phc-a1-m1-cE_3phc-a1-m1-cF 5znc-a1-m1-cA_5znc-a1-m6-cA 5znc-a1-m2-cA_5znc-a1-m5-cA 5znc-a1-m3-cA_5znc-a1-m4-cA 5zni-a1-m1-cA_5zni-a1-m4-cA 5zni-a1-m2-cA_5zni-a1-m6-cA 5zni-a1-m3-cA_5zni-a1-m5-cA 6aqs-a1-m1-cA_6aqs-a1-m4-cA 6aqs-a1-m2-cA_6aqs-a1-m6-cA 6aqs-a1-m3-cA_6aqs-a1-m5-cA LLRHLKISKEQITPVVLVVGDPGRVDKIKVVCDSYVDLAYNREYKSVECHYKGQKFLCVSHGVGSAGCAVCFEELCQNGAKVIIRAGSCGSLQPDLIKRGDICICNAAVREDRVSHLLIHGDFPAVGDFDVYDTLNKCAQELNVPVFNGISVSSDYYPNKIIPSRLEDYSKANAAVVEELATLVIGTLRKVKTGGILIVDGHQLENIKIALGACAKLATKY LLRHLKISKEQITPVVLVVGDPGRVDKIKVVCDSYVDLAYNREYKSVECHYKGQKFLCVSHGVGSAGCAVCFEELCQNGAKVIIRAGSCGSLQPDLIKRGDICICNAAVREDRVSHLLIHGDFPAVGDFDVYDTLNKCAQELNVPVFNGISVSSDYYPNKIIPSRLEDYSKANAAVVEELATLVIGTLRKVKTGGILIVDGHQLENIKIALGACAKLATKY 1sqi-a1-m1-cB_1sqi-a1-m1-cA Structural basis for inhibitor selectivity revealed by crystal structures of plant and mammalian 4-hydroxyphenylpyruvate dioxygenases P32755 P32755 2.15 X-RAY DIFFRACTION 138 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 342 343 KGPKPERGRFLHFHSVTFWVGNAKQAASFYCNKMGFEPLAYKGLETGSREVVSHVIKQGKIVFVLCSALNPWNKEMGDHLVKHGDGVKDIAFEVEDCEHIVQKARERGAKIVREPWVEEDKFGKVKFAVLQTYGDTTHTLVEKINYTGRFLPGFEAPTYKDTLLPKLPSCNLEIIDHIVGNQPDQEMESASEWYLKNLQFHRFWLRSIVVANYEESIKMPINEPASQIQEYVDYNGGAGVQHIALRTEDIITTIRHLRERGMEFLAVPSSYYRLLRENLKTSKIQVKENMDVLEELKILVDYDEKGYLLQIFTKPMQDRPTLFLEVIQRHNHQGFGAGNFNS GPKPERGRFLHFHSVTFWVGNAKQAASFYCNKMGFEPLAYKGLETGSREVVSHVIKQGKIVFVLCSALNPWNKEMGDHLVKHGDGVKDIAFEVEDCEHIVQKARERGAKIVREPWVEEDKFGKVKFAVLQTYGDTTHTLVEKINYTGRFLPGFEAPTYKDTLLPKLPSCNLEIIDHIVGNQPDQEMESASEWYLKNLQFHRFWSVLRSIVVANYEESIKMPINEPASQIQEYVDYNGGAGVQHIALRTEDIITTIRHLRERGMEFLAVPSSYYRLLRENLKTSKIQVKENMDVLEELKILVDYDEKGYLLQIFTKPMQDRPTLFLEVIQRHNHQGFGAGNFNS 1sqj-a1-m1-cA_1sqj-a1-m1-cB Crystal Structure Analysis of Oligoxyloglucan reducing-end-specific cellobiohydrolase (OXG-RCBH) Q8J0D2 Q8J0D2 2.2 X-RAY DIFFRACTION 33 0.996 203496 (Geotrichum sp. M128) 203496 (Geotrichum sp. M128) 770 771 YEFKNVAIGGGGYITGIVAHPKTKDLLYARTDIGGAYRWDAGTSKWIPLNDFIEAQDMNIMGTESIALDPNNPDRLYLAQGRYVGDEWAAFYVSEDRGQSFTIYESPFPMGANDMGRNNGERLAVNPFNSNEVWMGTRTEGIWKSSDRAKTWTNVTSIPDAFTNGIGYTSVIFDPERNGTIYASATAPQGMYVTHDGGVSWEPVAGQPSSWLNRTTGAFPDKKPASIAPQPMKVALTPNFLYVTYADYPGPWGVTFGEVWRQNRTSGAWDDITPRVGNSSPAPYNNQTFPAGGFCGLSVDATNPNRLVVITLDRDPGPALDSIYLSTDAGATWKDVTQLSSPSNLEGNWGHPTNAARYKDGTPVPWLDFNNGPQWGGYGAPHGTPGLTKFGWWMSAVLIDPFNPEHLMYGTGATIWATDTLSRVEKDWAPSWYLQIDGIEENAILSLRSPKSGAALLSGIGDISGMKHDDLTKPQKMFGAPQFSNLDSIDAAGNFPNVVVRAGSSGHEYDSACARGAYATDGGDAWTIFPTCPPGMNASHYQGSTIAVDASGSQIVWSTKLDEQASGPWYSHDYGKTWSVPAGDLKAQTANVLSDKVQDGTFYATDGGKFFVSTDGGKSYAAKGAGLVTGTSLMPAVNPWVAGDVWVPVPEGGLFHSTDFGASFTRVGTANATLVSVGAPKAPSAVFIWGTDKPGSDIGLYRSDDNGSTWTRVNDQEHNYSGPTMIEADPKVYGRVYLGTNGRGIVYADLTNEEKSTAKCANGQKGTHCY HYEFKNVAIGGGGYITGIVAHPKTKDLLYARTDIGGAYRWDAGTSKWIPLNDFIEAQDMNIMGTESIALDPNNPDRLYLAQGRYVGDEWAAFYVSEDRGQSFTIYESPFPMGANDMGRNNGERLAVNPFNSNEVWMGTRTEGIWKSSDRAKTWTNVTSIPDAFTNGIGYTSVIFDPERNGTIYASATAPQGMYVTHDGGVSWEPVAGQPSSWLNRTTGAFPDKKPASIAPQPMKVALTPNFLYVTYADYPGPWGVTFGEVWRQNRTSGAWDDITPRVGNSSPAPYNNQTFPAGGFCGLSVDATNPNRLVVITLDRDPGPALDSIYLSTDAGATWKDVTQLSSPSNLEGNWGHPTNAARYKDGTPVPWLDFNNGPQWGGYGAPHGTPGLTKFGWWMSAVLIDPFNPEHLMYGTGATIWATDTLSRVEKDWAPSWYLQIDGIEENAILSLRSPKSGAALLSGIGDISGMKHDDLTKPQKMFGAPQFSNLDSIDAAGNFPNVVVRAGSSGHEYDSACARGAYATDGGDAWTIFPTCPPGMNASHYQGSTIAVDASGSQIVWSTKLDEQASGPWYSHDYGKTWSVPAGDLKAQTANVLSDKVQDGTFYATDGGKFFVSTDGGKSYAAKGAGLVTGTSLMPAVNPWVAGDVWVPVPEGGLFHSTDFGASFTRVGTANATLVSVGAPKSSAPSAVFIWGTDKPGSDIGLYRSDDNGSTWTRVNDQEHNYSGPTMIEADPKVYGRVYLGTNGRGIVYADLTKSTAKCANGQKGTHCYV 1sql-a2-m1-cK_1sql-a2-m1-cN Crystal structure of 7,8-dihydroneopterin aldolase in complex with guanine Q9SF23 Q9SF23 2.2 X-RAY DIFFRACTION 32 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 120 121 1sql-a1-m1-cA_1sql-a1-m1-cH 1sql-a1-m1-cB_1sql-a1-m1-cG 1sql-a1-m1-cD_1sql-a1-m1-cE 1sql-a1-m1-cF_1sql-a1-m1-cC 1sql-a2-m1-cI_1sql-a2-m1-cP 1sql-a2-m1-cL_1sql-a2-m1-cM 1sql-a2-m1-cO_1sql-a2-m1-cJ GDKLILKGLKFYGFHGAIAEERTLGQMFLVDIDAWVSLKKAGESDNLEDTISYVDIFSLAKEIVEGSPRNLLETVAELIASKTLEKFHQINAVRVKLSKPNVALIKSTIDYLGVDIFRQR GDKLILKGLKFYGFHGAIAEERTLGQMFLVDIDAWVSLKKAGESDNLEDTISYVDIFSLAKEIVEGSPRNLLETVAELIASKTLEKFHQINAVRVKLSKPNVALIKSTIDYLGVDIFRQRN 1sql-a2-m1-cO_1sql-a2-m1-cN Crystal structure of 7,8-dihydroneopterin aldolase in complex with guanine Q9SF23 Q9SF23 2.2 X-RAY DIFFRACTION 75 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 120 121 1sql-a1-m1-cA_1sql-a1-m1-cB 1sql-a1-m1-cA_1sql-a1-m1-cD 1sql-a1-m1-cB_1sql-a1-m1-cC 1sql-a1-m1-cD_1sql-a1-m1-cC 1sql-a1-m1-cE_1sql-a1-m1-cF 1sql-a1-m1-cE_1sql-a1-m1-cH 1sql-a1-m1-cF_1sql-a1-m1-cG 1sql-a1-m1-cG_1sql-a1-m1-cH 1sql-a2-m1-cI_1sql-a2-m1-cJ 1sql-a2-m1-cI_1sql-a2-m1-cL 1sql-a2-m1-cK_1sql-a2-m1-cJ 1sql-a2-m1-cK_1sql-a2-m1-cL 1sql-a2-m1-cN_1sql-a2-m1-cM 1sql-a2-m1-cO_1sql-a2-m1-cP 1sql-a2-m1-cP_1sql-a2-m1-cM GDKLILKGLKFYGFHGAIAEERTLGQMFLVDIDAWVSLKKAGESDNLEDTISYVDIFSLAKEIVEGSPRNLLETVAELIASKTLEKFHQINAVRVKLSKPNVALIKSTIDYLGVDIFRQR GDKLILKGLKFYGFHGAIAEERTLGQMFLVDIDAWVSLKKAGESDNLEDTISYVDIFSLAKEIVEGSPRNLLETVAELIASKTLEKFHQINAVRVKLSKPNVALIKSTIDYLGVDIFRQRN 1squ-a1-m1-cA_1squ-a1-m1-cB Structural Genomics, Crystal structure of the CheX protein from Thermotoga maritima Q9X1V3 Q9X1V3 2.4 X-RAY DIFFRACTION 102 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 152 154 1xko-a1-m1-cA_1xko-a1-m1-cB MDARIVNALIGSVYETIRDVLGIEPKTGKPSTVSHIEIPHSLVTVIGITGGIEGSLIYSFSSETALKVVSAMMGGMEYNQLDELALSAIGELGNMTAGKLAMKLEHLGKHVDITPPTVVSGRDLKIKSFGVILKLPISVFSEEDFDLHLSVK MDARIVNALIGSVYETIRDVLGIEPKTGKPSTVSHIEIPHSLVTVIGITGGIEGSLIYSFSSETALKVVSAMMGGMEYNQLDELALSAIGELGNMTAGKLAMKLEHLGKHVDITPPTVVSGRDLKIKSFGVILKLPISVFSEEDFDLHLSVKSG 1srd-a1-m1-cA_1srd-a1-m1-cD Three-dimensional structure of CU,ZN-superoxide dismutase from spinach at 2.0 Angstroms resolution P07505 P07505 2 X-RAY DIFFRACTION 23 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 154 154 ATKKAVAVLKGTSNVEGVVTLTQEDDGPTTVNVRISGLAPGKHGFHLHEFGDTTNGCMSTGPHFNPDKKTHGAPEDEVRHAGDLGNIVANTDGVAEATIVDNQIPLTGPNSVVGRALVVHELEDDLGKGGHELSPTTGNAGGRLACGVVGLTPV ATKKAVAVLKGTSNVEGVVTLTQEDDGPTTVNVRISGLAPGKHGFHLHEFGDTTNGCMSTGPHFNPDKKTHGAPEDEVRHAGDLGNIVANTDGVAEATIVDNQIPLTGPNSVVGRALVVHELEDDLGKGGHELSPTTGNAGGRLACGVVGLTPV 1srq-a1-m1-cB_1srq-a1-m1-cA Crystal Structure of the Rap1GAP catalytic domain P47736 P47736 2.9 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 304 330 VKLECNPTARIYRKHFLGKEHFNYYSLDTALGHLVFSLKYDVIGDQEHLRLLLRTKCRTYHDVIPISFPNVVQMAKLVCEDVNVDRFYPVLYPKASRLIVTFDEHVISNNFKFGVIYQKLGQTSEEELFSTNEESPAFVEFLEFLGQKVKFRGGTGTESVYCNFRNKEIMFHVSTKLPYTAQQLQRKRHIGNDIVAVVFQDENTPFVPDMIASNFLHAYVVVQAYKVSVTARDDVPFFGPPLPDPAVFRKGPEFQEFLLTKLINAEYACYKAEKFAKLEERTRAALLETLYEELHIHSQSMMGL KVKLECNPTARIYRKHFLGKEHFNYYSLDTALGHLVFSLKYDVIGDQEHLRLLLRTKCRTYHDVIPISCLFPNVVQMAKLVCEDVNVDRFYPVLYPKASRLIVTFDEHVISNNFKFGVIYQKLGQTSEEELFSTNEESPAFVEFLEFLGQKVKLQDFKGFRGGLDVTHGQTGTESVYCNFRNKEIMFHVSTKLPYTEGDAQQLQRKRHIGNDIVAVVFQDENTPFVPDMIASNFLHAYVVVQAEGGPLYKVSVTARDDVPFFGPPLPDPAVFRKGPEFQEFLLTKLINAEYACYKAEKFAKLEERTRAALLETLYEELHIHSQSMMGLGG 1srr-a1-m1-cA_1srr-a1-m2-cA CRYSTAL STRUCTURE OF A PHOSPHATASE RESISTANT MUTANT OF SPORULATION RESPONSE REGULATOR SPO0F FROM BACILLUS SUBTILIS P06628 P06628 1.9 X-RAY DIFFRACTION 38 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 119 119 NEKILIVDDQSGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVIIMTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPL NEKILIVDDQSGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVIIMTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPL 1srr-a2-m1-cB_1srr-a2-m1-cC CRYSTAL STRUCTURE OF A PHOSPHATASE RESISTANT MUTANT OF SPORULATION RESPONSE REGULATOR SPO0F FROM BACILLUS SUBTILIS P06628 P06628 1.9 X-RAY DIFFRACTION 18 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 120 121 NEKILIVDDQSGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVIIMTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLK MNEKILIVDDQSGIRILLNEVFNKEGYQTFQAANGLQALDIVTKERPDLVLLDMKIPGMDGIEILKRMKVIDENIRVIIMTAYGELDMIQESKELGALTHFAKPFDIDEIRDAVKKYLPLK 1sru-a1-m1-cA_1sru-a1-m1-cD Crystal structure of full length E. coli SSB protein P0AGE0 P0AGE0 3.3 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 100 101 1sru-a1-m1-cC_1sru-a1-m1-cB ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQDRYTTEVVVNVGGTMQML ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSDRYTTEVVVNVGGTMQML 1sru-a1-m1-cC_1sru-a1-m1-cA Crystal structure of full length E. coli SSB protein P0AGE0 P0AGE0 3.3 X-RAY DIFFRACTION 13 0.99 562 (Escherichia coli) 562 (Escherichia coli) 96 100 ASRGVNKVILVGNLGQDPEVRYAVANITLATSESWEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSDRYTTEVVVNVGGTMQML ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQDRYTTEVVVNVGGTMQML 1ss4-a2-m1-cA_1ss4-a2-m2-cA Crystal Structure of the Glyoxalase Family Protein APC24694 from Bacillus cereus Q81F54 Q81F54 1.84 X-RAY DIFFRACTION 11 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 143 143 AAKNKLLRDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAVTPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVFTVEDIDEVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELG AAKNKLLRDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAVTPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVFTVEDIDEVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELG 1ss4-a2-m2-cB_1ss4-a2-m1-cA Crystal Structure of the Glyoxalase Family Protein APC24694 from Bacillus cereus Q81F54 Q81F54 1.84 X-RAY DIFFRACTION 12 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 140 143 1ss4-a2-m1-cB_1ss4-a2-m2-cA NKLLRDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAVTPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVFTVEDIDEVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELG AAKNKLLRDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAVTPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVFTVEDIDEVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELG 1ss4-a2-m2-cB_1ss4-a2-m2-cA Crystal Structure of the Glyoxalase Family Protein APC24694 from Bacillus cereus Q81F54 Q81F54 1.84 X-RAY DIFFRACTION 233 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 140 143 1ss4-a1-m1-cB_1ss4-a1-m1-cA 1ss4-a2-m1-cB_1ss4-a2-m1-cA NKLLRDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAVTPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVFTVEDIDEVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELG AAKNKLLRDNVSIVVESLDNAISFFEEIGLNLEGRANVEGEWAGRVTGLGSQCVEIAVTPDGHSRIELSRFLTPPTIADHRTAPVNALGYLRVFTVEDIDEVSRLTKHGAELVGEVVQYENSYRLCYIRGVEGILIGLAEELG 1ssd-a2-m1-cA_1ssd-a2-m2-cA Understanding protein lids: Structural analysis of active hinge mutants in triosephosphate isomerase P00940 P00940 2.9 X-RAY DIFFRACTION 33 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 247 247 APRKFFVGGNWKMNGDKKSLGELIHTLNGAKLSADTEVVCGAPSIYLDFARQKLDAKIGVAAQNCYKVPKGAFTGEISPAMIKDIGAAWVILGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKAIADNVKDWSKVVLAYEPVWAIGTGYSLTPQQAQEVHEKLRGWLKSHVSDAVAQSTRIIYGGSVTGGNCKELASQHDVDGFLVGGASLKPEFVDIINAKH APRKFFVGGNWKMNGDKKSLGELIHTLNGAKLSADTEVVCGAPSIYLDFARQKLDAKIGVAAQNCYKVPKGAFTGEISPAMIKDIGAAWVILGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKAIADNVKDWSKVVLAYEPVWAIGTGYSLTPQQAQEVHEKLRGWLKSHVSDAVAQSTRIIYGGSVTGGNCKELASQHDVDGFLVGGASLKPEFVDIINAKH 1ssq-a1-m2-cA_1ssq-a1-m3-cA Serine Acetyltransferase- Complex with Cysteine P43886 P43886 1.85 X-RAY DIFFRACTION 96 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 241 241 1s80-a1-m1-cA_1s80-a1-m1-cB 1s80-a1-m1-cA_1s80-a1-m1-cC 1s80-a1-m1-cB_1s80-a1-m1-cC 1s80-a1-m1-cD_1s80-a1-m1-cE 1s80-a1-m1-cD_1s80-a1-m1-cF 1s80-a1-m1-cE_1s80-a1-m1-cF 1ssm-a1-m1-cA_1ssm-a1-m1-cB 1ssm-a1-m1-cA_1ssm-a1-m1-cC 1ssm-a1-m1-cB_1ssm-a1-m1-cC 1ssm-a1-m1-cD_1ssm-a1-m1-cE 1ssm-a1-m1-cD_1ssm-a1-m1-cF 1ssm-a1-m1-cE_1ssm-a1-m1-cF 1ssq-a1-m1-cA_1ssq-a1-m2-cA 1ssq-a1-m1-cA_1ssq-a1-m3-cA 1ssq-a1-m1-cD_1ssq-a1-m2-cD 1ssq-a1-m1-cD_1ssq-a1-m3-cD 1ssq-a1-m2-cD_1ssq-a1-m3-cD 1sst-a1-m1-cA_1sst-a1-m1-cB 1sst-a1-m1-cA_1sst-a1-m1-cC 1sst-a1-m1-cB_1sst-a1-m1-cC 1sst-a1-m2-cA_1sst-a1-m2-cB 1sst-a1-m2-cA_1sst-a1-m2-cC 1sst-a1-m2-cB_1sst-a1-m2-cC MNLDVWQHIRQEAKELAENEPMLASFFHSTILKHQNLGGALSYLLANKLANPIMPAISLREIIEEAYQSNPSIIDCAACDIQAVRHRDPAVELWSTPLLYLKGFHAIQSYRITHYLWNQNRKSLALYLQNQISVAFDVDIHPAAKIGHGIMFDHATGIVVGETSVIENDVSILQGVTLGGTGKESGDRHPKVREGVMIGAGAKILGNIEVGKYAKIGANSVVLNPVPEYATAAGVPARIVS MNLDVWQHIRQEAKELAENEPMLASFFHSTILKHQNLGGALSYLLANKLANPIMPAISLREIIEEAYQSNPSIIDCAACDIQAVRHRDPAVELWSTPLLYLKGFHAIQSYRITHYLWNQNRKSLALYLQNQISVAFDVDIHPAAKIGHGIMFDHATGIVVGETSVIENDVSILQGVTLGGTGKESGDRHPKVREGVMIGAGAKILGNIEVGKYAKIGANSVVLNPVPEYATAAGVPARIVS 1ssq-a1-m2-cA_1ssq-a1-m3-cD Serine Acetyltransferase- Complex with Cysteine P43886 P43886 1.85 X-RAY DIFFRACTION 32 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 241 257 1s80-a1-m1-cA_1s80-a1-m1-cD 1s80-a1-m1-cB_1s80-a1-m1-cF 1s80-a1-m1-cC_1s80-a1-m1-cE 1ssm-a1-m1-cA_1ssm-a1-m1-cF 1ssm-a1-m1-cB_1ssm-a1-m1-cE 1ssm-a1-m1-cC_1ssm-a1-m1-cD 1ssq-a1-m1-cA_1ssq-a1-m2-cD 1ssq-a1-m3-cA_1ssq-a1-m1-cD 1sst-a1-m1-cA_1sst-a1-m2-cC 1sst-a1-m1-cB_1sst-a1-m2-cB 1sst-a1-m2-cA_1sst-a1-m1-cC MNLDVWQHIRQEAKELAENEPMLASFFHSTILKHQNLGGALSYLLANKLANPIMPAISLREIIEEAYQSNPSIIDCAACDIQAVRHRDPAVELWSTPLLYLKGFHAIQSYRITHYLWNQNRKSLALYLQNQISVAFDVDIHPAAKIGHGIMFDHATGIVVGETSVIENDVSILQGVTLGGTGKESGDRHPKVREGVMIGAGAKILGNIEVGKYAKIGANSVVLNPVPEYATAAGVPARIVS MNLDVWQHIRQEAKELAENEPMLASFFHSTILKHQNLGGALSYLLANKLANPIMPAISLREIIEEAYQSNPSIIDCAACDIQAVRHRDPAVELWSTPLLYLKGFHAIQSYRITHYLWNQNRKSLALYLQNQISVAFDVDIHPAAKIGHGIMFDHATGIVVGETSVIENDVSILQGVTLGGTGKESGDRHPKVREGVMIGAGAKILGNIEVGKYAKIGANSVVLNPVPEYATAAGVPARIVSQDKAAKPAFDMNQYFI 1ssq-a1-m3-cA_1ssq-a1-m3-cD Serine Acetyltransferase- Complex with Cysteine P43886 P43886 1.85 X-RAY DIFFRACTION 20 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 241 257 1s80-a1-m1-cA_1s80-a1-m1-cE 1s80-a1-m1-cB_1s80-a1-m1-cD 1s80-a1-m1-cC_1s80-a1-m1-cF 1ssm-a1-m1-cA_1ssm-a1-m1-cD 1ssm-a1-m1-cB_1ssm-a1-m1-cF 1ssm-a1-m1-cC_1ssm-a1-m1-cE 1ssq-a1-m1-cA_1ssq-a1-m1-cD 1ssq-a1-m2-cA_1ssq-a1-m2-cD 1sst-a1-m1-cA_1sst-a1-m2-cA 1sst-a1-m1-cB_1sst-a1-m2-cC 1sst-a1-m2-cB_1sst-a1-m1-cC MNLDVWQHIRQEAKELAENEPMLASFFHSTILKHQNLGGALSYLLANKLANPIMPAISLREIIEEAYQSNPSIIDCAACDIQAVRHRDPAVELWSTPLLYLKGFHAIQSYRITHYLWNQNRKSLALYLQNQISVAFDVDIHPAAKIGHGIMFDHATGIVVGETSVIENDVSILQGVTLGGTGKESGDRHPKVREGVMIGAGAKILGNIEVGKYAKIGANSVVLNPVPEYATAAGVPARIVS MNLDVWQHIRQEAKELAENEPMLASFFHSTILKHQNLGGALSYLLANKLANPIMPAISLREIIEEAYQSNPSIIDCAACDIQAVRHRDPAVELWSTPLLYLKGFHAIQSYRITHYLWNQNRKSLALYLQNQISVAFDVDIHPAAKIGHGIMFDHATGIVVGETSVIENDVSILQGVTLGGTGKESGDRHPKVREGVMIGAGAKILGNIEVGKYAKIGANSVVLNPVPEYATAAGVPARIVSQDKAAKPAFDMNQYFI 1stz-a1-m1-cB_1stz-a1-m1-cA Crystal structure of a hypothetical protein at 2.2 A resolution Q9WZV5 Q9WZV5 2.2 X-RAY DIFFRACTION 42 0.99 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 311 323 ALKKLNDRQRKVLYCIVREYIENKKPVSSQRVLEVSNIEFSSATIRNDMKKLEYLGYIYQPHTSAGRIPTDKGLRFYYEEMLKISMPLADPEKVLFLAGNLLARLTEGYVLIERPNTRDLKILRVMLIPVSEDYLIFSILTEFGVSKVTPIKTQERLNWEEIERQLNFLLRGRTVGEVLMGKIESLKGSGFLRLIESLIGETVERYLDAGLENLLKDETLTLEDIRNLLEEVKDQKFLESLVGEGITVRIGREIGRKKLEKFAVFSGKYFKGESPIGSVYLFTSKVTKYDRNHRVFEYILNRLSEYFTSTS KLNDRQRKVLYCIVREYIENKKPVSSQRVLEVSNIEFSSATIRNDMKKLEYLGYIYQPHTSAGRIPTDKGLRFYYEEMLKISKETSEADLAVETFKSMPLADPEKVLFLAGNLLARLTEGYVLIERPNTRDLKILRVMLIPVSEDYLIFSILTEFGVSKVTPIKTQERLNWEEIERQLNFLLRGRTVGEVLMGKIESLKGSGFLRLIESLIGETVERYLDAGLENLLKDETLTLEDIRNLLEEVKDQKFLESLVGEGITVRIGREIGRKKLEKFAVFSGKYFKGESPIGSVYLFTSKVTKYDRNHRVFEYILNRLSEYFTSTS 1stz-a1-m1-cB_1stz-a1-m1-cC Crystal structure of a hypothetical protein at 2.2 A resolution Q9WZV5 Q9WZV5 2.2 X-RAY DIFFRACTION 32 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 311 311 ALKKLNDRQRKVLYCIVREYIENKKPVSSQRVLEVSNIEFSSATIRNDMKKLEYLGYIYQPHTSAGRIPTDKGLRFYYEEMLKISMPLADPEKVLFLAGNLLARLTEGYVLIERPNTRDLKILRVMLIPVSEDYLIFSILTEFGVSKVTPIKTQERLNWEEIERQLNFLLRGRTVGEVLMGKIESLKGSGFLRLIESLIGETVERYLDAGLENLLKDETLTLEDIRNLLEEVKDQKFLESLVGEGITVRIGREIGRKKLEKFAVFSGKYFKGESPIGSVYLFTSKVTKYDRNHRVFEYILNRLSEYFTSTS ALKKLNDRQRKVLYCIVREYIENKKPVSSQRVLEVSNIEFSSATIRNDMKKLEYLGYIYQPHTSAGRIPTDKGLRFYYEEMLKISMPLADPEKVLFLAGNLLARLTEGYVLIERPNTRDLKILRVMLIPVSEDYLIFSILTEFGVSKVTPIKTQERLNWEEIERQLNFLLRGRTVGEVLMGKIESLKGSGFLRLIESLIGETVERYLDAGLENLLKDETLTLEDIRNLLEEVKDQKFLESLVGEGITVRIGREIGRKKLEKFAVFSGKYFKGESPIGSVYLFTSKVTKYDRNHRVFEYILNRLSEYFTSTS 1stz-a1-m1-cC_1stz-a1-m1-cA Crystal structure of a hypothetical protein at 2.2 A resolution Q9WZV5 Q9WZV5 2.2 X-RAY DIFFRACTION 98 0.99 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 311 323 ALKKLNDRQRKVLYCIVREYIENKKPVSSQRVLEVSNIEFSSATIRNDMKKLEYLGYIYQPHTSAGRIPTDKGLRFYYEEMLKISMPLADPEKVLFLAGNLLARLTEGYVLIERPNTRDLKILRVMLIPVSEDYLIFSILTEFGVSKVTPIKTQERLNWEEIERQLNFLLRGRTVGEVLMGKIESLKGSGFLRLIESLIGETVERYLDAGLENLLKDETLTLEDIRNLLEEVKDQKFLESLVGEGITVRIGREIGRKKLEKFAVFSGKYFKGESPIGSVYLFTSKVTKYDRNHRVFEYILNRLSEYFTSTS KLNDRQRKVLYCIVREYIENKKPVSSQRVLEVSNIEFSSATIRNDMKKLEYLGYIYQPHTSAGRIPTDKGLRFYYEEMLKISKETSEADLAVETFKSMPLADPEKVLFLAGNLLARLTEGYVLIERPNTRDLKILRVMLIPVSEDYLIFSILTEFGVSKVTPIKTQERLNWEEIERQLNFLLRGRTVGEVLMGKIESLKGSGFLRLIESLIGETVERYLDAGLENLLKDETLTLEDIRNLLEEVKDQKFLESLVGEGITVRIGREIGRKKLEKFAVFSGKYFKGESPIGSVYLFTSKVTKYDRNHRVFEYILNRLSEYFTSTS 1su1-a1-m1-cD_1su1-a1-m1-cA Structural and biochemical characterization of Yfce, a phosphoesterase from E. coli P67095 P67095 2.25 X-RAY DIFFRACTION 55 1.0 562 (Escherichia coli) 562 (Escherichia coli) 182 184 1su1-a1-m1-cC_1su1-a1-m1-cB MKLMFASDIHGSLPATERVLELFAQSGAQWLVILGDVLNHGPRNALPEGYAPAKVVERLNEVAHKVIAVRGNCDSEVDQMLLHFPITAPWQQVLLEKQRLFLTHGHLFGPENLPALNQNDVLVYGHTHLPVAEQRGEIFHFNPGSVSIPKGGNPASYGMLDNDVLSVIALNDQSIIAQVAIN MMKLMFASDIHGSLPATERVLELFAQSGAQWLVILGDVLNHGPRNALPEGYAPAKVVERLNEVAHKVIAVRGNCDSEVDQMLLHFPITAPWQQVLLEKQRLFLTHGHLFGPENLPALNQNDVLVYGHTHLPVAEQRGEIFHFNPGSVSIPKGGNPASYGMLDNDVLSVIALNDQSIIAQVAINP 1su1-a1-m1-cD_1su1-a1-m1-cB Structural and biochemical characterization of Yfce, a phosphoesterase from E. coli P67095 P67095 2.25 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 182 184 1su1-a1-m1-cC_1su1-a1-m1-cA MKLMFASDIHGSLPATERVLELFAQSGAQWLVILGDVLNHGPRNALPEGYAPAKVVERLNEVAHKVIAVRGNCDSEVDQMLLHFPITAPWQQVLLEKQRLFLTHGHLFGPENLPALNQNDVLVYGHTHLPVAEQRGEIFHFNPGSVSIPKGGNPASYGMLDNDVLSVIALNDQSIIAQVAIN MMKLMFASDIHGSLPATERVLELFAQSGAQWLVILGDVLNHGPRNALPEGYAPAKVVERLNEVAHKVIAVRGNCDSEVDQMLLHFPITAPWQQVLLEKQRLFLTHGHLFGPENLPALNQNDVLVYGHTHLPVAEQRGEIFHFNPGSVSIPKGGNPASYGMLDNDVLSVIALNDQSIIAQVAINP 1su3-a3-m4-cB_1su3-a3-m8-cB X-ray structure of human proMMP-1: New insights into collagenase action P03956 P03956 2.2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 416 416 1su3-a3-m1-cB_1su3-a3-m6-cB 1su3-a3-m2-cB_1su3-a3-m5-cB 1su3-a3-m3-cB_1su3-a3-m7-cB VDLVQKYLEKYYNLKSGPVVEKLKQMQEFFGLKVTGKPDAETLKVMKQPRCGVPDVAPRWEQTHLTYRIENYTPDLPRADVDHAIEKAFQLWSNVTPLTFTKVSEGQADIMISFVRGDHRDNSPFDGPGGNLAHAFQPGPGIGGDAHFDEDERWTNNFREYNLHRVAAHELGHSLGLSHSTDIGALMYPSYTFSGDVQLAQDDIDGIQAIYGRSQNPVQPIGPQTPKACDSKLTFDAITTIRGEVMFFKDRFYMRTNPFYPEVELNFISVFWPQLPNGLEAAYEFADRDEVRFFKGNKYWAVQGQNVLHGYPKDIYSSFGFPRTVKHIDAALSEENTGKTYFFVANKYWRYDEYKRSMDPGYPKMIAHDFPGIGHKVDAVFMKDGFFYFFHGTRQYKFDPKTKRILTLQKANSWFN VDLVQKYLEKYYNLKSGPVVEKLKQMQEFFGLKVTGKPDAETLKVMKQPRCGVPDVAPRWEQTHLTYRIENYTPDLPRADVDHAIEKAFQLWSNVTPLTFTKVSEGQADIMISFVRGDHRDNSPFDGPGGNLAHAFQPGPGIGGDAHFDEDERWTNNFREYNLHRVAAHELGHSLGLSHSTDIGALMYPSYTFSGDVQLAQDDIDGIQAIYGRSQNPVQPIGPQTPKACDSKLTFDAITTIRGEVMFFKDRFYMRTNPFYPEVELNFISVFWPQLPNGLEAAYEFADRDEVRFFKGNKYWAVQGQNVLHGYPKDIYSSFGFPRTVKHIDAALSEENTGKTYFFVANKYWRYDEYKRSMDPGYPKMIAHDFPGIGHKVDAVFMKDGFFYFFHGTRQYKFDPKTKRILTLQKANSWFN 1su3-a3-m6-cB_1su3-a3-m8-cB X-ray structure of human proMMP-1: New insights into collagenase action P03956 P03956 2.2 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 416 416 1su3-a3-m1-cB_1su3-a3-m3-cB 1su3-a3-m1-cB_1su3-a3-m4-cB 1su3-a3-m2-cB_1su3-a3-m3-cB 1su3-a3-m2-cB_1su3-a3-m4-cB 1su3-a3-m5-cB_1su3-a3-m7-cB 1su3-a3-m5-cB_1su3-a3-m8-cB 1su3-a3-m6-cB_1su3-a3-m7-cB VDLVQKYLEKYYNLKSGPVVEKLKQMQEFFGLKVTGKPDAETLKVMKQPRCGVPDVAPRWEQTHLTYRIENYTPDLPRADVDHAIEKAFQLWSNVTPLTFTKVSEGQADIMISFVRGDHRDNSPFDGPGGNLAHAFQPGPGIGGDAHFDEDERWTNNFREYNLHRVAAHELGHSLGLSHSTDIGALMYPSYTFSGDVQLAQDDIDGIQAIYGRSQNPVQPIGPQTPKACDSKLTFDAITTIRGEVMFFKDRFYMRTNPFYPEVELNFISVFWPQLPNGLEAAYEFADRDEVRFFKGNKYWAVQGQNVLHGYPKDIYSSFGFPRTVKHIDAALSEENTGKTYFFVANKYWRYDEYKRSMDPGYPKMIAHDFPGIGHKVDAVFMKDGFFYFFHGTRQYKFDPKTKRILTLQKANSWFN VDLVQKYLEKYYNLKSGPVVEKLKQMQEFFGLKVTGKPDAETLKVMKQPRCGVPDVAPRWEQTHLTYRIENYTPDLPRADVDHAIEKAFQLWSNVTPLTFTKVSEGQADIMISFVRGDHRDNSPFDGPGGNLAHAFQPGPGIGGDAHFDEDERWTNNFREYNLHRVAAHELGHSLGLSHSTDIGALMYPSYTFSGDVQLAQDDIDGIQAIYGRSQNPVQPIGPQTPKACDSKLTFDAITTIRGEVMFFKDRFYMRTNPFYPEVELNFISVFWPQLPNGLEAAYEFADRDEVRFFKGNKYWAVQGQNVLHGYPKDIYSSFGFPRTVKHIDAALSEENTGKTYFFVANKYWRYDEYKRSMDPGYPKMIAHDFPGIGHKVDAVFMKDGFFYFFHGTRQYKFDPKTKRILTLQKANSWFN 1sum-a2-m1-cB_1sum-a2-m2-cB Crystal structure of a hypothetical protein at 2.0 A resolution Q9X256 Q9X256 2 X-RAY DIFFRACTION 89 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 225 225 NRLLNEKVEEFKKGVLKAGWFIEKMFRNSISSLVERNESLAREVIADEEVVDQMEVEIQEKAMEVLGLFSPIGKPLLTVTAGIRVAELIENIADKCHDIAKNVLELMEEPPLKPLEDIPAMANQTSEMLKFALRMFADVNVEKSFEVCRMDSKVDDLYEKVREELLLYMMESPKYVKRALLLLEIAGNIEIIADYATNIVEVSVYMVQGEAYKCYHDELLLFKKS NRLLNEKVEEFKKGVLKAGWFIEKMFRNSISSLVERNESLAREVIADEEVVDQMEVEIQEKAMEVLGLFSPIGKPLLTVTAGIRVAELIENIADKCHDIAKNVLELMEEPPLKPLEDIPAMANQTSEMLKFALRMFADVNVEKSFEVCRMDSKVDDLYEKVREELLLYMMESPKYVKRALLLLEIAGNIEIIADYATNIVEVSVYMVQGEAYKCYHDELLLFKKS 1sur-a1-m1-cA_1sur-a1-m2-cA PHOSPHO-ADENYLYL-SULFATE REDUCTASE P17854 P17854 2 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 215 215 SKLDLNALNELPKVDRILALAETNAELEKLDAEGRVAWALDNLPGEYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYRFIDELTDKLKLNLKVYRATESAAWQEARYGKLWEQGVEGIEKYNDINKVEPMNRALKELNAQTWFAGLRREQSGSRANLPVLAIQRGVFKVLPIIDWDNRTIYQYLQKHGLKYHPLWDEGYLSVGDTH SKLDLNALNELPKVDRILALAETNAELEKLDAEGRVAWALDNLPGEYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYRFIDELTDKLKLNLKVYRATESAAWQEARYGKLWEQGVEGIEKYNDINKVEPMNRALKELNAQTWFAGLRREQSGSRANLPVLAIQRGVFKVLPIIDWDNRTIYQYLQKHGLKYHPLWDEGYLSVGDTH 1sus-a2-m1-cB_1sus-a2-m2-cB Crystal structure of alfalfa feruoyl coenzyme A 3-O-methyltransferase Q40313 Q40313 2.7 X-RAY DIFFRACTION 116 1.0 3879 (Medicago sativa) 3879 (Medicago sativa) 227 227 1sui-a1-m1-cA_1sui-a1-m1-cC 1sui-a2-m1-cB_1sui-a2-m2-cB 1sui-a3-m1-cD_1sui-a3-m3-cD 1sus-a1-m1-cA_1sus-a1-m1-cC 1sus-a3-m1-cD_1sus-a3-m3-cD KSLLQSDALYQYILETSVFPREHEAMKELREVTAKHPWNIMTTSADEGQFLSMLLKLINAKNTMEIGVYTGYSLLATALAIPEDGKILAMDINKENYELGLPVIKKAGVDHKIDFREGPALPVLDEMIKDEKNHGSYDFIFVDADKDNYLNYHKRLIDLVKVGGVIGYDNTLWNGSVVAPPDAPLRKYVRYYRDFVLELNKALAVDPRIEICMLPVGDGITICRRIK KSLLQSDALYQYILETSVFPREHEAMKELREVTAKHPWNIMTTSADEGQFLSMLLKLINAKNTMEIGVYTGYSLLATALAIPEDGKILAMDINKENYELGLPVIKKAGVDHKIDFREGPALPVLDEMIKDEKNHGSYDFIFVDADKDNYLNYHKRLIDLVKVGGVIGYDNTLWNGSVVAPPDAPLRKYVRYYRDFVLELNKALAVDPRIEICMLPVGDGITICRRIK 1sux-a1-m1-cA_1sux-a1-m1-cB CRYSTALLOGRAPHIC ANALYSIS OF THE COMPLEX BETWEEN TRIOSEPHOSPHATE ISOMERASE FROM TRYPANOSOMA CRUZI AND 3-(2-benzothiazolylthio)-1-propanesulfonic acid P52270 P52270 2 X-RAY DIFFRACTION 130 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 250 250 1ci1-a1-m1-cA_1ci1-a1-m1-cB 1tcd-a1-m1-cA_1tcd-a1-m1-cB 2oma-a1-m1-cA_2oma-a1-m1-cB 3q37-a1-m1-cA_3q37-a1-m1-cB 3q37-a2-m1-cC_3q37-a2-m1-cD 4hhp-a1-m1-cA_4hhp-a1-m1-cB ASKPQPIAAANWKCNGSESLLVPLIETLNAATFDHDVQCVVAPTFLHIPMTKARLTNPKFQIAAQNAITRSGAFTGEVSLQILKDYGISWVVLGHSERRLYYGETNEIVAEKVAQACAAGFHVIVCVGETNEEREAGRTAAVVLTQLAAVAQKLSKEAWSRVVIAYEPVWAIGTGKVATPQQAQEVHELLRRWVRSKLGTDIAAQLRILYGGSVTAKNARTLYQMRDINGFLVGGASLKPEFVEIIEATK ASKPQPIAAANWKCNGSESLLVPLIETLNAATFDHDVQCVVAPTFLHIPMTKARLTNPKFQIAAQNAITRSGAFTGEVSLQILKDYGISWVVLGHSERRLYYGETNEIVAEKVAQACAAGFHVIVCVGETNEEREAGRTAAVVLTQLAAVAQKLSKEAWSRVVIAYEPVWAIGTGKVATPQQAQEVHELLRRWVRSKLGTDIAAQLRILYGGSVTAKNARTLYQMRDINGFLVGGASLKPEFVEIIEATK 1sva-a1-m24-c4_1sva-a1-m9-c5 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 11 0.994 331 347 1sva-a1-m10-c4_1sva-a1-m23-c5 1sva-a1-m11-c4_1sva-a1-m20-c5 1sva-a1-m12-c4_1sva-a1-m37-c5 1sva-a1-m13-c4_1sva-a1-m46-c5 1sva-a1-m14-c4_1sva-a1-m44-c5 1sva-a1-m15-c4_1sva-a1-m28-c5 1sva-a1-m16-c4_1sva-a1-m15-c5 1sva-a1-m17-c4_1sva-a1-m27-c5 1sva-a1-m18-c4_1sva-a1-m51-c5 1sva-a1-m19-c4_1sva-a1-m59-c5 1sva-a1-m1-c4_1sva-a1-m10-c5 1sva-a1-m20-c4_1sva-a1-m38-c5 1sva-a1-m21-c4_1sva-a1-m30-c5 1sva-a1-m22-c4_1sva-a1-m42-c5 1sva-a1-m23-c4_1sva-a1-m1-c5 1sva-a1-m25-c4_1sva-a1-m53-c5 1sva-a1-m26-c4_1sva-a1-m25-c5 1sva-a1-m27-c4_1sva-a1-m52-c5 1sva-a1-m28-c4_1sva-a1-m16-c5 1sva-a1-m29-c4_1sva-a1-m14-c5 1sva-a1-m2-c4_1sva-a1-m22-c5 1sva-a1-m30-c4_1sva-a1-m43-c5 1sva-a1-m31-c4_1sva-a1-m40-c5 1sva-a1-m32-c4_1sva-a1-m57-c5 1sva-a1-m33-c4_1sva-a1-m6-c5 1sva-a1-m34-c4_1sva-a1-m4-c5 1sva-a1-m35-c4_1sva-a1-m48-c5 1sva-a1-m36-c4_1sva-a1-m35-c5 1sva-a1-m37-c4_1sva-a1-m47-c5 1sva-a1-m38-c4_1sva-a1-m11-c5 1sva-a1-m39-c4_1sva-a1-m19-c5 1sva-a1-m3-c4_1sva-a1-m41-c5 1sva-a1-m40-c4_1sva-a1-m58-c5 1sva-a1-m41-c4_1sva-a1-m50-c5 1sva-a1-m42-c4_1sva-a1-m2-c5 1sva-a1-m43-c4_1sva-a1-m21-c5 1sva-a1-m44-c4_1sva-a1-m29-c5 1sva-a1-m45-c4_1sva-a1-m13-c5 1sva-a1-m46-c4_1sva-a1-m45-c5 1sva-a1-m47-c4_1sva-a1-m12-c5 1sva-a1-m48-c4_1sva-a1-m36-c5 1sva-a1-m49-c4_1sva-a1-m34-c5 1sva-a1-m4-c4_1sva-a1-m49-c5 1sva-a1-m50-c4_1sva-a1-m3-c5 1sva-a1-m51-c4_1sva-a1-m60-c5 1sva-a1-m52-c4_1sva-a1-m17-c5 1sva-a1-m53-c4_1sva-a1-m26-c5 1sva-a1-m54-c4_1sva-a1-m24-c5 1sva-a1-m55-c4_1sva-a1-m8-c5 1sva-a1-m56-c4_1sva-a1-m55-c5 1sva-a1-m57-c4_1sva-a1-m7-c5 1sva-a1-m58-c4_1sva-a1-m31-c5 1sva-a1-m59-c4_1sva-a1-m39-c5 1sva-a1-m5-c4_1sva-a1-m33-c5 1sva-a1-m60-c4_1sva-a1-m18-c5 1sva-a1-m6-c4_1sva-a1-m5-c5 1sva-a1-m7-c4_1sva-a1-m32-c5 1sva-a1-m8-c4_1sva-a1-m56-c5 1sva-a1-m9-c4_1sva-a1-m54-c5 APKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGD KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m54-c4_1sva-a1-m9-c5 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 349 0.994 331 347 1sva-a1-m10-c1_1sva-a1-m24-c1 1sva-a1-m10-c4_1sva-a1-m1-c5 1sva-a1-m11-c1_1sva-a1-m16-c1 1sva-a1-m11-c4_1sva-a1-m38-c5 1sva-a1-m12-c1_1sva-a1-m38-c1 1sva-a1-m12-c4_1sva-a1-m47-c5 1sva-a1-m13-c1_1sva-a1-m47-c1 1sva-a1-m13-c4_1sva-a1-m45-c5 1sva-a1-m14-c1_1sva-a1-m45-c1 1sva-a1-m14-c4_1sva-a1-m29-c5 1sva-a1-m15-c1_1sva-a1-m29-c1 1sva-a1-m15-c4_1sva-a1-m16-c5 1sva-a1-m16-c4_1sva-a1-m28-c5 1sva-a1-m17-c1_1sva-a1-m28-c1 1sva-a1-m17-c4_1sva-a1-m52-c5 1sva-a1-m18-c1_1sva-a1-m52-c1 1sva-a1-m18-c4_1sva-a1-m60-c5 1sva-a1-m19-c1_1sva-a1-m60-c1 1sva-a1-m19-c4_1sva-a1-m39-c5 1sva-a1-m1-c1_1sva-a1-m6-c1 1sva-a1-m1-c4_1sva-a1-m23-c5 1sva-a1-m20-c1_1sva-a1-m39-c1 1sva-a1-m20-c4_1sva-a1-m11-c5 1sva-a1-m21-c1_1sva-a1-m26-c1 1sva-a1-m21-c4_1sva-a1-m43-c5 1sva-a1-m22-c1_1sva-a1-m43-c1 1sva-a1-m22-c4_1sva-a1-m2-c5 1sva-a1-m23-c4_1sva-a1-m10-c5 1sva-a1-m24-c4_1sva-a1-m54-c5 1sva-a1-m25-c1_1sva-a1-m54-c1 1sva-a1-m25-c4_1sva-a1-m26-c5 1sva-a1-m26-c4_1sva-a1-m53-c5 1sva-a1-m27-c1_1sva-a1-m53-c1 1sva-a1-m27-c4_1sva-a1-m17-c5 1sva-a1-m28-c4_1sva-a1-m15-c5 1sva-a1-m29-c4_1sva-a1-m44-c5 1sva-a1-m2-c1_1sva-a1-m23-c1 1sva-a1-m2-c4_1sva-a1-m42-c5 1sva-a1-m30-c1_1sva-a1-m44-c1 1sva-a1-m30-c4_1sva-a1-m21-c5 1sva-a1-m31-c1_1sva-a1-m36-c1 1sva-a1-m31-c4_1sva-a1-m58-c5 1sva-a1-m32-c1_1sva-a1-m58-c1 1sva-a1-m32-c4_1sva-a1-m7-c5 1sva-a1-m33-c1_1sva-a1-m7-c1 1sva-a1-m33-c4_1sva-a1-m5-c5 1sva-a1-m34-c1_1sva-a1-m5-c1 1sva-a1-m34-c4_1sva-a1-m49-c5 1sva-a1-m35-c1_1sva-a1-m49-c1 1sva-a1-m35-c4_1sva-a1-m36-c5 1sva-a1-m36-c4_1sva-a1-m48-c5 1sva-a1-m37-c1_1sva-a1-m48-c1 1sva-a1-m37-c4_1sva-a1-m12-c5 1sva-a1-m38-c4_1sva-a1-m20-c5 1sva-a1-m39-c4_1sva-a1-m59-c5 1sva-a1-m3-c1_1sva-a1-m42-c1 1sva-a1-m3-c4_1sva-a1-m50-c5 1sva-a1-m40-c1_1sva-a1-m59-c1 1sva-a1-m40-c4_1sva-a1-m31-c5 1sva-a1-m41-c1_1sva-a1-m46-c1 1sva-a1-m41-c4_1sva-a1-m3-c5 1sva-a1-m42-c4_1sva-a1-m22-c5 1sva-a1-m43-c4_1sva-a1-m30-c5 1sva-a1-m44-c4_1sva-a1-m14-c5 1sva-a1-m45-c4_1sva-a1-m46-c5 1sva-a1-m46-c4_1sva-a1-m13-c5 1sva-a1-m47-c4_1sva-a1-m37-c5 1sva-a1-m48-c4_1sva-a1-m35-c5 1sva-a1-m49-c4_1sva-a1-m4-c5 1sva-a1-m4-c1_1sva-a1-m50-c1 1sva-a1-m4-c4_1sva-a1-m34-c5 1sva-a1-m50-c4_1sva-a1-m41-c5 1sva-a1-m51-c1_1sva-a1-m56-c1 1sva-a1-m51-c4_1sva-a1-m18-c5 1sva-a1-m52-c4_1sva-a1-m27-c5 1sva-a1-m53-c4_1sva-a1-m25-c5 1sva-a1-m55-c1_1sva-a1-m9-c1 1sva-a1-m55-c4_1sva-a1-m56-c5 1sva-a1-m56-c4_1sva-a1-m8-c5 1sva-a1-m57-c1_1sva-a1-m8-c1 1sva-a1-m57-c4_1sva-a1-m32-c5 1sva-a1-m58-c4_1sva-a1-m40-c5 1sva-a1-m59-c4_1sva-a1-m19-c5 1sva-a1-m5-c4_1sva-a1-m6-c5 1sva-a1-m60-c4_1sva-a1-m51-c5 1sva-a1-m6-c4_1sva-a1-m33-c5 1sva-a1-m7-c4_1sva-a1-m57-c5 1sva-a1-m8-c4_1sva-a1-m55-c5 1sva-a1-m9-c4_1sva-a1-m24-c5 APKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGD KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m54-c5_1sva-a1-m9-c5 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 47 1.0 347 347 1sva-a1-m10-c1_1sva-a1-m24-c2 1sva-a1-m10-c2_1sva-a1-m24-c1 1sva-a1-m10-c4_1sva-a1-m1-c1 1sva-a1-m10-c5_1sva-a1-m23-c5 1sva-a1-m11-c1_1sva-a1-m16-c2 1sva-a1-m11-c2_1sva-a1-m16-c1 1sva-a1-m11-c4_1sva-a1-m38-c1 1sva-a1-m11-c5_1sva-a1-m20-c5 1sva-a1-m11-c5_1sva-a1-m38-c5 1sva-a1-m12-c1_1sva-a1-m38-c2 1sva-a1-m12-c2_1sva-a1-m38-c1 1sva-a1-m12-c4_1sva-a1-m47-c1 1sva-a1-m12-c5_1sva-a1-m37-c5 1sva-a1-m12-c5_1sva-a1-m47-c5 1sva-a1-m13-c1_1sva-a1-m47-c2 1sva-a1-m13-c2_1sva-a1-m47-c1 1sva-a1-m13-c4_1sva-a1-m45-c1 1sva-a1-m13-c5_1sva-a1-m45-c5 1sva-a1-m13-c5_1sva-a1-m46-c5 1sva-a1-m14-c1_1sva-a1-m45-c2 1sva-a1-m14-c2_1sva-a1-m45-c1 1sva-a1-m14-c4_1sva-a1-m29-c1 1sva-a1-m14-c5_1sva-a1-m29-c5 1sva-a1-m14-c5_1sva-a1-m44-c5 1sva-a1-m15-c1_1sva-a1-m29-c2 1sva-a1-m15-c2_1sva-a1-m29-c1 1sva-a1-m15-c4_1sva-a1-m16-c1 1sva-a1-m15-c5_1sva-a1-m16-c5 1sva-a1-m15-c5_1sva-a1-m28-c5 1sva-a1-m16-c4_1sva-a1-m28-c1 1sva-a1-m16-c5_1sva-a1-m28-c5 1sva-a1-m17-c1_1sva-a1-m28-c2 1sva-a1-m17-c2_1sva-a1-m28-c1 1sva-a1-m17-c4_1sva-a1-m52-c1 1sva-a1-m17-c5_1sva-a1-m27-c5 1sva-a1-m17-c5_1sva-a1-m52-c5 1sva-a1-m18-c1_1sva-a1-m52-c2 1sva-a1-m18-c2_1sva-a1-m52-c1 1sva-a1-m18-c4_1sva-a1-m60-c1 1sva-a1-m18-c5_1sva-a1-m51-c5 1sva-a1-m18-c5_1sva-a1-m60-c5 1sva-a1-m19-c1_1sva-a1-m60-c2 1sva-a1-m19-c2_1sva-a1-m60-c1 1sva-a1-m19-c4_1sva-a1-m39-c1 1sva-a1-m19-c5_1sva-a1-m39-c5 1sva-a1-m19-c5_1sva-a1-m59-c5 1sva-a1-m1-c1_1sva-a1-m6-c2 1sva-a1-m1-c2_1sva-a1-m6-c1 1sva-a1-m1-c4_1sva-a1-m23-c1 1sva-a1-m1-c5_1sva-a1-m10-c5 1sva-a1-m1-c5_1sva-a1-m23-c5 1sva-a1-m20-c1_1sva-a1-m39-c2 1sva-a1-m20-c2_1sva-a1-m39-c1 1sva-a1-m20-c4_1sva-a1-m11-c1 1sva-a1-m20-c5_1sva-a1-m38-c5 1sva-a1-m21-c1_1sva-a1-m26-c2 1sva-a1-m21-c2_1sva-a1-m26-c1 1sva-a1-m21-c4_1sva-a1-m43-c1 1sva-a1-m21-c5_1sva-a1-m30-c5 1sva-a1-m21-c5_1sva-a1-m43-c5 1sva-a1-m22-c1_1sva-a1-m43-c2 1sva-a1-m22-c2_1sva-a1-m43-c1 1sva-a1-m22-c4_1sva-a1-m2-c1 1sva-a1-m22-c5_1sva-a1-m42-c5 1sva-a1-m23-c4_1sva-a1-m10-c1 1sva-a1-m24-c4_1sva-a1-m54-c1 1sva-a1-m24-c5_1sva-a1-m54-c5 1sva-a1-m24-c5_1sva-a1-m9-c5 1sva-a1-m25-c1_1sva-a1-m54-c2 1sva-a1-m25-c2_1sva-a1-m54-c1 1sva-a1-m25-c4_1sva-a1-m26-c1 1sva-a1-m25-c5_1sva-a1-m26-c5 1sva-a1-m25-c5_1sva-a1-m53-c5 1sva-a1-m26-c4_1sva-a1-m53-c1 1sva-a1-m26-c5_1sva-a1-m53-c5 1sva-a1-m27-c1_1sva-a1-m53-c2 1sva-a1-m27-c2_1sva-a1-m53-c1 1sva-a1-m27-c4_1sva-a1-m17-c1 1sva-a1-m27-c5_1sva-a1-m52-c5 1sva-a1-m28-c4_1sva-a1-m15-c1 1sva-a1-m29-c4_1sva-a1-m44-c1 1sva-a1-m29-c5_1sva-a1-m44-c5 1sva-a1-m2-c1_1sva-a1-m23-c2 1sva-a1-m2-c2_1sva-a1-m23-c1 1sva-a1-m2-c4_1sva-a1-m42-c1 1sva-a1-m2-c5_1sva-a1-m22-c5 1sva-a1-m2-c5_1sva-a1-m42-c5 1sva-a1-m30-c1_1sva-a1-m44-c2 1sva-a1-m30-c2_1sva-a1-m44-c1 1sva-a1-m30-c4_1sva-a1-m21-c1 1sva-a1-m30-c5_1sva-a1-m43-c5 1sva-a1-m31-c1_1sva-a1-m36-c2 1sva-a1-m31-c2_1sva-a1-m36-c1 1sva-a1-m31-c4_1sva-a1-m58-c1 1sva-a1-m31-c5_1sva-a1-m40-c5 1sva-a1-m31-c5_1sva-a1-m58-c5 1sva-a1-m32-c1_1sva-a1-m58-c2 1sva-a1-m32-c2_1sva-a1-m58-c1 1sva-a1-m32-c4_1sva-a1-m7-c1 1sva-a1-m32-c5_1sva-a1-m57-c5 1sva-a1-m32-c5_1sva-a1-m7-c5 1sva-a1-m33-c1_1sva-a1-m7-c2 1sva-a1-m33-c2_1sva-a1-m7-c1 1sva-a1-m33-c4_1sva-a1-m5-c1 1sva-a1-m33-c5_1sva-a1-m5-c5 1sva-a1-m33-c5_1sva-a1-m6-c5 1sva-a1-m34-c1_1sva-a1-m5-c2 1sva-a1-m34-c2_1sva-a1-m5-c1 1sva-a1-m34-c4_1sva-a1-m49-c1 1sva-a1-m34-c5_1sva-a1-m49-c5 1sva-a1-m34-c5_1sva-a1-m4-c5 1sva-a1-m35-c1_1sva-a1-m49-c2 1sva-a1-m35-c2_1sva-a1-m49-c1 1sva-a1-m35-c4_1sva-a1-m36-c1 1sva-a1-m35-c5_1sva-a1-m36-c5 1sva-a1-m35-c5_1sva-a1-m48-c5 1sva-a1-m36-c4_1sva-a1-m48-c1 1sva-a1-m36-c5_1sva-a1-m48-c5 1sva-a1-m37-c1_1sva-a1-m48-c2 1sva-a1-m37-c2_1sva-a1-m48-c1 1sva-a1-m37-c4_1sva-a1-m12-c1 1sva-a1-m37-c5_1sva-a1-m47-c5 1sva-a1-m38-c4_1sva-a1-m20-c1 1sva-a1-m39-c4_1sva-a1-m59-c1 1sva-a1-m39-c5_1sva-a1-m59-c5 1sva-a1-m3-c1_1sva-a1-m42-c2 1sva-a1-m3-c2_1sva-a1-m42-c1 1sva-a1-m3-c4_1sva-a1-m50-c1 1sva-a1-m3-c5_1sva-a1-m41-c5 1sva-a1-m3-c5_1sva-a1-m50-c5 1sva-a1-m40-c1_1sva-a1-m59-c2 1sva-a1-m40-c2_1sva-a1-m59-c1 1sva-a1-m40-c4_1sva-a1-m31-c1 1sva-a1-m40-c5_1sva-a1-m58-c5 1sva-a1-m41-c1_1sva-a1-m46-c2 1sva-a1-m41-c2_1sva-a1-m46-c1 1sva-a1-m41-c4_1sva-a1-m3-c1 1sva-a1-m41-c5_1sva-a1-m50-c5 1sva-a1-m42-c4_1sva-a1-m22-c1 1sva-a1-m43-c4_1sva-a1-m30-c1 1sva-a1-m44-c4_1sva-a1-m14-c1 1sva-a1-m45-c4_1sva-a1-m46-c1 1sva-a1-m45-c5_1sva-a1-m46-c5 1sva-a1-m46-c4_1sva-a1-m13-c1 1sva-a1-m47-c4_1sva-a1-m37-c1 1sva-a1-m48-c4_1sva-a1-m35-c1 1sva-a1-m49-c4_1sva-a1-m4-c1 1sva-a1-m4-c1_1sva-a1-m50-c2 1sva-a1-m4-c2_1sva-a1-m50-c1 1sva-a1-m4-c4_1sva-a1-m34-c1 1sva-a1-m4-c5_1sva-a1-m49-c5 1sva-a1-m50-c4_1sva-a1-m41-c1 1sva-a1-m51-c1_1sva-a1-m56-c2 1sva-a1-m51-c2_1sva-a1-m56-c1 1sva-a1-m51-c4_1sva-a1-m18-c1 1sva-a1-m51-c5_1sva-a1-m60-c5 1sva-a1-m52-c4_1sva-a1-m27-c1 1sva-a1-m53-c4_1sva-a1-m25-c1 1sva-a1-m54-c4_1sva-a1-m9-c1 1sva-a1-m55-c1_1sva-a1-m9-c2 1sva-a1-m55-c2_1sva-a1-m9-c1 1sva-a1-m55-c4_1sva-a1-m56-c1 1sva-a1-m55-c5_1sva-a1-m56-c5 1sva-a1-m55-c5_1sva-a1-m8-c5 1sva-a1-m56-c4_1sva-a1-m8-c1 1sva-a1-m56-c5_1sva-a1-m8-c5 1sva-a1-m57-c1_1sva-a1-m8-c2 1sva-a1-m57-c2_1sva-a1-m8-c1 1sva-a1-m57-c4_1sva-a1-m32-c1 1sva-a1-m57-c5_1sva-a1-m7-c5 1sva-a1-m58-c4_1sva-a1-m40-c1 1sva-a1-m59-c4_1sva-a1-m19-c1 1sva-a1-m5-c4_1sva-a1-m6-c1 1sva-a1-m5-c5_1sva-a1-m6-c5 1sva-a1-m60-c4_1sva-a1-m51-c1 1sva-a1-m6-c4_1sva-a1-m33-c1 1sva-a1-m7-c4_1sva-a1-m57-c1 1sva-a1-m8-c4_1sva-a1-m55-c1 1sva-a1-m9-c4_1sva-a1-m24-c1 KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m8-c6_1sva-a1-m9-c6 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 223 1.0 341 341 1sva-a1-m10-c1_1sva-a1-m10-c2 1sva-a1-m10-c3_1sva-a1-m10-c2 1sva-a1-m10-c4_1sva-a1-m10-c3 1sva-a1-m10-c4_1sva-a1-m10-c5 1sva-a1-m10-c5_1sva-a1-m10-c1 1sva-a1-m10-c6_1sva-a1-m6-c6 1sva-a1-m10-c6_1sva-a1-m9-c6 1sva-a1-m11-c1_1sva-a1-m11-c2 1sva-a1-m11-c3_1sva-a1-m11-c2 1sva-a1-m11-c4_1sva-a1-m11-c3 1sva-a1-m11-c4_1sva-a1-m11-c5 1sva-a1-m11-c5_1sva-a1-m11-c1 1sva-a1-m11-c6_1sva-a1-m12-c6 1sva-a1-m11-c6_1sva-a1-m15-c6 1sva-a1-m12-c1_1sva-a1-m12-c2 1sva-a1-m12-c3_1sva-a1-m12-c2 1sva-a1-m12-c4_1sva-a1-m12-c3 1sva-a1-m12-c4_1sva-a1-m12-c5 1sva-a1-m12-c5_1sva-a1-m12-c1 1sva-a1-m12-c6_1sva-a1-m13-c6 1sva-a1-m13-c1_1sva-a1-m13-c2 1sva-a1-m13-c3_1sva-a1-m13-c2 1sva-a1-m13-c4_1sva-a1-m13-c3 1sva-a1-m13-c4_1sva-a1-m13-c5 1sva-a1-m13-c5_1sva-a1-m13-c1 1sva-a1-m13-c6_1sva-a1-m14-c6 1sva-a1-m14-c1_1sva-a1-m14-c2 1sva-a1-m14-c3_1sva-a1-m14-c2 1sva-a1-m14-c4_1sva-a1-m14-c3 1sva-a1-m14-c4_1sva-a1-m14-c5 1sva-a1-m14-c5_1sva-a1-m14-c1 1sva-a1-m14-c6_1sva-a1-m15-c6 1sva-a1-m15-c1_1sva-a1-m15-c2 1sva-a1-m15-c3_1sva-a1-m15-c2 1sva-a1-m15-c4_1sva-a1-m15-c3 1sva-a1-m15-c4_1sva-a1-m15-c5 1sva-a1-m15-c5_1sva-a1-m15-c1 1sva-a1-m16-c1_1sva-a1-m16-c2 1sva-a1-m16-c3_1sva-a1-m16-c2 1sva-a1-m16-c4_1sva-a1-m16-c3 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1sva-a1-m6-c1_1sva-a1-m6-c2 1sva-a1-m6-c3_1sva-a1-m6-c2 1sva-a1-m6-c4_1sva-a1-m6-c3 1sva-a1-m6-c4_1sva-a1-m6-c5 1sva-a1-m6-c5_1sva-a1-m6-c1 1sva-a1-m6-c6_1sva-a1-m7-c6 1sva-a1-m7-c1_1sva-a1-m7-c2 1sva-a1-m7-c3_1sva-a1-m7-c2 1sva-a1-m7-c4_1sva-a1-m7-c3 1sva-a1-m7-c4_1sva-a1-m7-c5 1sva-a1-m7-c5_1sva-a1-m7-c1 1sva-a1-m7-c6_1sva-a1-m8-c6 1sva-a1-m8-c1_1sva-a1-m8-c2 1sva-a1-m8-c3_1sva-a1-m8-c2 1sva-a1-m8-c4_1sva-a1-m8-c3 1sva-a1-m8-c4_1sva-a1-m8-c5 1sva-a1-m8-c5_1sva-a1-m8-c1 1sva-a1-m9-c1_1sva-a1-m9-c2 1sva-a1-m9-c3_1sva-a1-m9-c2 1sva-a1-m9-c4_1sva-a1-m9-c3 1sva-a1-m9-c4_1sva-a1-m9-c5 1sva-a1-m9-c5_1sva-a1-m9-c1 3bwq-a1-m1-cB_3bwq-a1-m1-cA 3bwq-a1-m1-cB_3bwq-a1-m1-cC 3bwq-a1-m1-cD_3bwq-a1-m1-cC 3bwq-a1-m1-cD_3bwq-a1-m1-cE 3bwq-a1-m1-cE_3bwq-a1-m1-cA 3bwr-a1-m1-cB_3bwr-a1-m1-cA 3bwr-a1-m1-cB_3bwr-a1-m1-cC 3bwr-a1-m1-cD_3bwr-a1-m1-cC 3bwr-a1-m1-cE_3bwr-a1-m1-cA 3bwr-a1-m1-cE_3bwr-a1-m1-cD KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ 1sva-a1-m9-c3_1sva-a1-m10-c2 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 170 1.0 342 348 1sva-a1-m10-c3_1sva-a1-m6-c2 1sva-a1-m11-c3_1sva-a1-m12-c2 1sva-a1-m12-c3_1sva-a1-m13-c2 1sva-a1-m13-c3_1sva-a1-m14-c2 1sva-a1-m14-c3_1sva-a1-m15-c2 1sva-a1-m15-c3_1sva-a1-m11-c2 1sva-a1-m16-c3_1sva-a1-m17-c2 1sva-a1-m17-c3_1sva-a1-m18-c2 1sva-a1-m18-c3_1sva-a1-m19-c2 1sva-a1-m19-c3_1sva-a1-m20-c2 1sva-a1-m1-c3_1sva-a1-m2-c2 1sva-a1-m20-c3_1sva-a1-m16-c2 1sva-a1-m21-c3_1sva-a1-m22-c2 1sva-a1-m22-c3_1sva-a1-m23-c2 1sva-a1-m23-c3_1sva-a1-m24-c2 1sva-a1-m24-c3_1sva-a1-m25-c2 1sva-a1-m25-c3_1sva-a1-m21-c2 1sva-a1-m26-c3_1sva-a1-m27-c2 1sva-a1-m27-c3_1sva-a1-m28-c2 1sva-a1-m28-c3_1sva-a1-m29-c2 1sva-a1-m29-c3_1sva-a1-m30-c2 1sva-a1-m2-c3_1sva-a1-m3-c2 1sva-a1-m30-c3_1sva-a1-m26-c2 1sva-a1-m31-c3_1sva-a1-m32-c2 1sva-a1-m32-c3_1sva-a1-m33-c2 1sva-a1-m33-c3_1sva-a1-m34-c2 1sva-a1-m34-c3_1sva-a1-m35-c2 1sva-a1-m35-c3_1sva-a1-m31-c2 1sva-a1-m36-c3_1sva-a1-m37-c2 1sva-a1-m37-c3_1sva-a1-m38-c2 1sva-a1-m38-c3_1sva-a1-m39-c2 1sva-a1-m39-c3_1sva-a1-m40-c2 1sva-a1-m3-c3_1sva-a1-m4-c2 1sva-a1-m40-c3_1sva-a1-m36-c2 1sva-a1-m41-c3_1sva-a1-m42-c2 1sva-a1-m42-c3_1sva-a1-m43-c2 1sva-a1-m43-c3_1sva-a1-m44-c2 1sva-a1-m44-c3_1sva-a1-m45-c2 1sva-a1-m45-c3_1sva-a1-m41-c2 1sva-a1-m46-c3_1sva-a1-m47-c2 1sva-a1-m47-c3_1sva-a1-m48-c2 1sva-a1-m48-c3_1sva-a1-m49-c2 1sva-a1-m49-c3_1sva-a1-m50-c2 1sva-a1-m4-c3_1sva-a1-m5-c2 1sva-a1-m50-c3_1sva-a1-m46-c2 1sva-a1-m51-c3_1sva-a1-m52-c2 1sva-a1-m52-c3_1sva-a1-m53-c2 1sva-a1-m53-c3_1sva-a1-m54-c2 1sva-a1-m54-c3_1sva-a1-m55-c2 1sva-a1-m55-c3_1sva-a1-m51-c2 1sva-a1-m56-c3_1sva-a1-m57-c2 1sva-a1-m57-c3_1sva-a1-m58-c2 1sva-a1-m58-c3_1sva-a1-m59-c2 1sva-a1-m59-c3_1sva-a1-m60-c2 1sva-a1-m5-c3_1sva-a1-m1-c2 1sva-a1-m60-c3_1sva-a1-m56-c2 1sva-a1-m6-c3_1sva-a1-m7-c2 1sva-a1-m7-c3_1sva-a1-m8-c2 1sva-a1-m8-c3_1sva-a1-m9-c2 PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m9-c4_1sva-a1-m10-c1 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 18 0.997 331 348 1sva-a1-m10-c4_1sva-a1-m6-c1 1sva-a1-m11-c4_1sva-a1-m12-c1 1sva-a1-m12-c4_1sva-a1-m13-c1 1sva-a1-m13-c4_1sva-a1-m14-c1 1sva-a1-m14-c4_1sva-a1-m15-c1 1sva-a1-m15-c4_1sva-a1-m11-c1 1sva-a1-m16-c4_1sva-a1-m17-c1 1sva-a1-m17-c4_1sva-a1-m18-c1 1sva-a1-m18-c4_1sva-a1-m19-c1 1sva-a1-m19-c4_1sva-a1-m20-c1 1sva-a1-m1-c4_1sva-a1-m2-c1 1sva-a1-m20-c4_1sva-a1-m16-c1 1sva-a1-m21-c4_1sva-a1-m22-c1 1sva-a1-m22-c4_1sva-a1-m23-c1 1sva-a1-m23-c4_1sva-a1-m24-c1 1sva-a1-m24-c4_1sva-a1-m25-c1 1sva-a1-m25-c4_1sva-a1-m21-c1 1sva-a1-m26-c4_1sva-a1-m27-c1 1sva-a1-m27-c4_1sva-a1-m28-c1 1sva-a1-m28-c4_1sva-a1-m29-c1 1sva-a1-m29-c4_1sva-a1-m30-c1 1sva-a1-m2-c4_1sva-a1-m3-c1 1sva-a1-m30-c4_1sva-a1-m26-c1 1sva-a1-m31-c4_1sva-a1-m32-c1 1sva-a1-m32-c4_1sva-a1-m33-c1 1sva-a1-m33-c4_1sva-a1-m34-c1 1sva-a1-m34-c4_1sva-a1-m35-c1 1sva-a1-m35-c4_1sva-a1-m31-c1 1sva-a1-m36-c4_1sva-a1-m37-c1 1sva-a1-m37-c4_1sva-a1-m38-c1 1sva-a1-m38-c4_1sva-a1-m39-c1 1sva-a1-m39-c4_1sva-a1-m40-c1 1sva-a1-m3-c4_1sva-a1-m4-c1 1sva-a1-m40-c4_1sva-a1-m36-c1 1sva-a1-m41-c4_1sva-a1-m42-c1 1sva-a1-m42-c4_1sva-a1-m43-c1 1sva-a1-m43-c4_1sva-a1-m44-c1 1sva-a1-m44-c4_1sva-a1-m45-c1 1sva-a1-m45-c4_1sva-a1-m41-c1 1sva-a1-m46-c4_1sva-a1-m47-c1 1sva-a1-m47-c4_1sva-a1-m48-c1 1sva-a1-m48-c4_1sva-a1-m49-c1 1sva-a1-m49-c4_1sva-a1-m50-c1 1sva-a1-m4-c4_1sva-a1-m5-c1 1sva-a1-m50-c4_1sva-a1-m46-c1 1sva-a1-m51-c4_1sva-a1-m52-c1 1sva-a1-m52-c4_1sva-a1-m53-c1 1sva-a1-m53-c4_1sva-a1-m54-c1 1sva-a1-m54-c4_1sva-a1-m55-c1 1sva-a1-m55-c4_1sva-a1-m51-c1 1sva-a1-m56-c4_1sva-a1-m57-c1 1sva-a1-m57-c4_1sva-a1-m58-c1 1sva-a1-m58-c4_1sva-a1-m59-c1 1sva-a1-m59-c4_1sva-a1-m60-c1 1sva-a1-m5-c4_1sva-a1-m1-c1 1sva-a1-m60-c4_1sva-a1-m56-c1 1sva-a1-m6-c4_1sva-a1-m7-c1 1sva-a1-m7-c4_1sva-a1-m8-c1 1sva-a1-m8-c4_1sva-a1-m9-c1 APKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGD PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m9-c4_1sva-a1-m10-c2 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 46 0.997 331 348 1sva-a1-m10-c4_1sva-a1-m6-c2 1sva-a1-m11-c4_1sva-a1-m12-c2 1sva-a1-m12-c4_1sva-a1-m13-c2 1sva-a1-m13-c4_1sva-a1-m14-c2 1sva-a1-m14-c4_1sva-a1-m15-c2 1sva-a1-m15-c4_1sva-a1-m11-c2 1sva-a1-m16-c4_1sva-a1-m17-c2 1sva-a1-m17-c4_1sva-a1-m18-c2 1sva-a1-m18-c4_1sva-a1-m19-c2 1sva-a1-m19-c4_1sva-a1-m20-c2 1sva-a1-m1-c4_1sva-a1-m2-c2 1sva-a1-m20-c4_1sva-a1-m16-c2 1sva-a1-m21-c4_1sva-a1-m22-c2 1sva-a1-m22-c4_1sva-a1-m23-c2 1sva-a1-m23-c4_1sva-a1-m24-c2 1sva-a1-m24-c4_1sva-a1-m25-c2 1sva-a1-m25-c4_1sva-a1-m21-c2 1sva-a1-m26-c4_1sva-a1-m27-c2 1sva-a1-m27-c4_1sva-a1-m28-c2 1sva-a1-m28-c4_1sva-a1-m29-c2 1sva-a1-m29-c4_1sva-a1-m30-c2 1sva-a1-m2-c4_1sva-a1-m3-c2 1sva-a1-m30-c4_1sva-a1-m26-c2 1sva-a1-m31-c4_1sva-a1-m32-c2 1sva-a1-m32-c4_1sva-a1-m33-c2 1sva-a1-m33-c4_1sva-a1-m34-c2 1sva-a1-m34-c4_1sva-a1-m35-c2 1sva-a1-m35-c4_1sva-a1-m31-c2 1sva-a1-m36-c4_1sva-a1-m37-c2 1sva-a1-m37-c4_1sva-a1-m38-c2 1sva-a1-m38-c4_1sva-a1-m39-c2 1sva-a1-m39-c4_1sva-a1-m40-c2 1sva-a1-m3-c4_1sva-a1-m4-c2 1sva-a1-m40-c4_1sva-a1-m36-c2 1sva-a1-m41-c4_1sva-a1-m42-c2 1sva-a1-m42-c4_1sva-a1-m43-c2 1sva-a1-m43-c4_1sva-a1-m44-c2 1sva-a1-m44-c4_1sva-a1-m45-c2 1sva-a1-m45-c4_1sva-a1-m41-c2 1sva-a1-m46-c4_1sva-a1-m47-c2 1sva-a1-m47-c4_1sva-a1-m48-c2 1sva-a1-m48-c4_1sva-a1-m49-c2 1sva-a1-m49-c4_1sva-a1-m50-c2 1sva-a1-m4-c4_1sva-a1-m5-c2 1sva-a1-m50-c4_1sva-a1-m46-c2 1sva-a1-m51-c4_1sva-a1-m52-c2 1sva-a1-m52-c4_1sva-a1-m53-c2 1sva-a1-m53-c4_1sva-a1-m54-c2 1sva-a1-m54-c4_1sva-a1-m55-c2 1sva-a1-m55-c4_1sva-a1-m51-c2 1sva-a1-m56-c4_1sva-a1-m57-c2 1sva-a1-m57-c4_1sva-a1-m58-c2 1sva-a1-m58-c4_1sva-a1-m59-c2 1sva-a1-m59-c4_1sva-a1-m60-c2 1sva-a1-m5-c4_1sva-a1-m1-c2 1sva-a1-m60-c4_1sva-a1-m56-c2 1sva-a1-m6-c4_1sva-a1-m7-c2 1sva-a1-m7-c4_1sva-a1-m8-c2 1sva-a1-m8-c4_1sva-a1-m9-c2 APKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGD PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m9-c5_1sva-a1-m55-c1 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 33 1.0 347 348 1sva-a1-m10-c5_1sva-a1-m24-c1 1sva-a1-m11-c5_1sva-a1-m16-c1 1sva-a1-m12-c5_1sva-a1-m38-c1 1sva-a1-m13-c5_1sva-a1-m47-c1 1sva-a1-m14-c5_1sva-a1-m45-c1 1sva-a1-m15-c5_1sva-a1-m29-c1 1sva-a1-m16-c5_1sva-a1-m11-c1 1sva-a1-m17-c5_1sva-a1-m28-c1 1sva-a1-m18-c5_1sva-a1-m52-c1 1sva-a1-m19-c5_1sva-a1-m60-c1 1sva-a1-m1-c5_1sva-a1-m6-c1 1sva-a1-m20-c5_1sva-a1-m39-c1 1sva-a1-m21-c5_1sva-a1-m26-c1 1sva-a1-m22-c5_1sva-a1-m43-c1 1sva-a1-m23-c5_1sva-a1-m2-c1 1sva-a1-m24-c5_1sva-a1-m10-c1 1sva-a1-m25-c5_1sva-a1-m54-c1 1sva-a1-m26-c5_1sva-a1-m21-c1 1sva-a1-m27-c5_1sva-a1-m53-c1 1sva-a1-m28-c5_1sva-a1-m17-c1 1sva-a1-m29-c5_1sva-a1-m15-c1 1sva-a1-m2-c5_1sva-a1-m23-c1 1sva-a1-m30-c5_1sva-a1-m44-c1 1sva-a1-m31-c5_1sva-a1-m36-c1 1sva-a1-m32-c5_1sva-a1-m58-c1 1sva-a1-m33-c5_1sva-a1-m7-c1 1sva-a1-m34-c5_1sva-a1-m5-c1 1sva-a1-m35-c5_1sva-a1-m49-c1 1sva-a1-m36-c5_1sva-a1-m31-c1 1sva-a1-m37-c5_1sva-a1-m48-c1 1sva-a1-m38-c5_1sva-a1-m12-c1 1sva-a1-m39-c5_1sva-a1-m20-c1 1sva-a1-m3-c5_1sva-a1-m42-c1 1sva-a1-m40-c5_1sva-a1-m59-c1 1sva-a1-m41-c5_1sva-a1-m46-c1 1sva-a1-m42-c5_1sva-a1-m3-c1 1sva-a1-m43-c5_1sva-a1-m22-c1 1sva-a1-m44-c5_1sva-a1-m30-c1 1sva-a1-m45-c5_1sva-a1-m14-c1 1sva-a1-m46-c5_1sva-a1-m41-c1 1sva-a1-m47-c5_1sva-a1-m13-c1 1sva-a1-m48-c5_1sva-a1-m37-c1 1sva-a1-m49-c5_1sva-a1-m35-c1 1sva-a1-m4-c5_1sva-a1-m50-c1 1sva-a1-m50-c5_1sva-a1-m4-c1 1sva-a1-m51-c5_1sva-a1-m56-c1 1sva-a1-m52-c5_1sva-a1-m18-c1 1sva-a1-m53-c5_1sva-a1-m27-c1 1sva-a1-m54-c5_1sva-a1-m25-c1 1sva-a1-m55-c5_1sva-a1-m9-c1 1sva-a1-m56-c5_1sva-a1-m51-c1 1sva-a1-m57-c5_1sva-a1-m8-c1 1sva-a1-m58-c5_1sva-a1-m32-c1 1sva-a1-m59-c5_1sva-a1-m40-c1 1sva-a1-m5-c5_1sva-a1-m34-c1 1sva-a1-m60-c5_1sva-a1-m19-c1 1sva-a1-m6-c5_1sva-a1-m1-c1 1sva-a1-m7-c5_1sva-a1-m33-c1 1sva-a1-m8-c5_1sva-a1-m57-c1 KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m9-c6_1sva-a1-m8-c2 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 26 1.0 341 348 1sva-a1-m10-c6_1sva-a1-m9-c2 1sva-a1-m11-c6_1sva-a1-m15-c2 1sva-a1-m12-c6_1sva-a1-m11-c2 1sva-a1-m13-c6_1sva-a1-m12-c2 1sva-a1-m14-c6_1sva-a1-m13-c2 1sva-a1-m15-c6_1sva-a1-m14-c2 1sva-a1-m16-c6_1sva-a1-m20-c2 1sva-a1-m17-c6_1sva-a1-m16-c2 1sva-a1-m18-c6_1sva-a1-m17-c2 1sva-a1-m19-c6_1sva-a1-m18-c2 1sva-a1-m1-c6_1sva-a1-m5-c2 1sva-a1-m20-c6_1sva-a1-m19-c2 1sva-a1-m21-c6_1sva-a1-m25-c2 1sva-a1-m22-c6_1sva-a1-m21-c2 1sva-a1-m23-c6_1sva-a1-m22-c2 1sva-a1-m24-c6_1sva-a1-m23-c2 1sva-a1-m25-c6_1sva-a1-m24-c2 1sva-a1-m26-c6_1sva-a1-m30-c2 1sva-a1-m27-c6_1sva-a1-m26-c2 1sva-a1-m28-c6_1sva-a1-m27-c2 1sva-a1-m29-c6_1sva-a1-m28-c2 1sva-a1-m2-c6_1sva-a1-m1-c2 1sva-a1-m30-c6_1sva-a1-m29-c2 1sva-a1-m31-c6_1sva-a1-m35-c2 1sva-a1-m32-c6_1sva-a1-m31-c2 1sva-a1-m33-c6_1sva-a1-m32-c2 1sva-a1-m34-c6_1sva-a1-m33-c2 1sva-a1-m35-c6_1sva-a1-m34-c2 1sva-a1-m36-c6_1sva-a1-m40-c2 1sva-a1-m37-c6_1sva-a1-m36-c2 1sva-a1-m38-c6_1sva-a1-m37-c2 1sva-a1-m39-c6_1sva-a1-m38-c2 1sva-a1-m3-c6_1sva-a1-m2-c2 1sva-a1-m40-c6_1sva-a1-m39-c2 1sva-a1-m41-c6_1sva-a1-m45-c2 1sva-a1-m42-c6_1sva-a1-m41-c2 1sva-a1-m43-c6_1sva-a1-m42-c2 1sva-a1-m44-c6_1sva-a1-m43-c2 1sva-a1-m45-c6_1sva-a1-m44-c2 1sva-a1-m46-c6_1sva-a1-m50-c2 1sva-a1-m47-c6_1sva-a1-m46-c2 1sva-a1-m48-c6_1sva-a1-m47-c2 1sva-a1-m49-c6_1sva-a1-m48-c2 1sva-a1-m4-c6_1sva-a1-m3-c2 1sva-a1-m50-c6_1sva-a1-m49-c2 1sva-a1-m51-c6_1sva-a1-m55-c2 1sva-a1-m52-c6_1sva-a1-m51-c2 1sva-a1-m53-c6_1sva-a1-m52-c2 1sva-a1-m54-c6_1sva-a1-m53-c2 1sva-a1-m55-c6_1sva-a1-m54-c2 1sva-a1-m56-c6_1sva-a1-m60-c2 1sva-a1-m57-c6_1sva-a1-m56-c2 1sva-a1-m58-c6_1sva-a1-m57-c2 1sva-a1-m59-c6_1sva-a1-m58-c2 1sva-a1-m5-c6_1sva-a1-m4-c2 1sva-a1-m60-c6_1sva-a1-m59-c2 1sva-a1-m6-c6_1sva-a1-m10-c2 1sva-a1-m7-c6_1sva-a1-m6-c2 1sva-a1-m8-c6_1sva-a1-m7-c2 KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m9-c6_1sva-a1-m9-c2 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 171 1.0 341 348 1sva-a1-m10-c6_1sva-a1-m10-c2 1sva-a1-m10-c6_1sva-a1-m9-c3 1sva-a1-m11-c6_1sva-a1-m11-c2 1sva-a1-m11-c6_1sva-a1-m15-c3 1sva-a1-m12-c6_1sva-a1-m11-c3 1sva-a1-m12-c6_1sva-a1-m12-c2 1sva-a1-m13-c6_1sva-a1-m12-c3 1sva-a1-m13-c6_1sva-a1-m13-c2 1sva-a1-m14-c6_1sva-a1-m13-c3 1sva-a1-m14-c6_1sva-a1-m14-c2 1sva-a1-m15-c6_1sva-a1-m14-c3 1sva-a1-m15-c6_1sva-a1-m15-c2 1sva-a1-m16-c6_1sva-a1-m16-c2 1sva-a1-m16-c6_1sva-a1-m20-c3 1sva-a1-m17-c6_1sva-a1-m16-c3 1sva-a1-m17-c6_1sva-a1-m17-c2 1sva-a1-m18-c6_1sva-a1-m17-c3 1sva-a1-m18-c6_1sva-a1-m18-c2 1sva-a1-m19-c6_1sva-a1-m18-c3 1sva-a1-m19-c6_1sva-a1-m19-c2 1sva-a1-m1-c6_1sva-a1-m1-c2 1sva-a1-m1-c6_1sva-a1-m5-c3 1sva-a1-m20-c6_1sva-a1-m19-c3 1sva-a1-m20-c6_1sva-a1-m20-c2 1sva-a1-m21-c6_1sva-a1-m21-c2 1sva-a1-m21-c6_1sva-a1-m25-c3 1sva-a1-m22-c6_1sva-a1-m21-c3 1sva-a1-m22-c6_1sva-a1-m22-c2 1sva-a1-m23-c6_1sva-a1-m22-c3 1sva-a1-m23-c6_1sva-a1-m23-c2 1sva-a1-m24-c6_1sva-a1-m23-c3 1sva-a1-m24-c6_1sva-a1-m24-c2 1sva-a1-m25-c6_1sva-a1-m24-c3 1sva-a1-m25-c6_1sva-a1-m25-c2 1sva-a1-m26-c6_1sva-a1-m26-c2 1sva-a1-m26-c6_1sva-a1-m30-c3 1sva-a1-m27-c6_1sva-a1-m26-c3 1sva-a1-m27-c6_1sva-a1-m27-c2 1sva-a1-m28-c6_1sva-a1-m27-c3 1sva-a1-m28-c6_1sva-a1-m28-c2 1sva-a1-m29-c6_1sva-a1-m28-c3 1sva-a1-m29-c6_1sva-a1-m29-c2 1sva-a1-m2-c6_1sva-a1-m1-c3 1sva-a1-m2-c6_1sva-a1-m2-c2 1sva-a1-m30-c6_1sva-a1-m29-c3 1sva-a1-m30-c6_1sva-a1-m30-c2 1sva-a1-m31-c6_1sva-a1-m31-c2 1sva-a1-m31-c6_1sva-a1-m35-c3 1sva-a1-m32-c6_1sva-a1-m31-c3 1sva-a1-m32-c6_1sva-a1-m32-c2 1sva-a1-m33-c6_1sva-a1-m32-c3 1sva-a1-m33-c6_1sva-a1-m33-c2 1sva-a1-m34-c6_1sva-a1-m33-c3 1sva-a1-m34-c6_1sva-a1-m34-c2 1sva-a1-m35-c6_1sva-a1-m34-c3 1sva-a1-m35-c6_1sva-a1-m35-c2 1sva-a1-m36-c6_1sva-a1-m36-c2 1sva-a1-m36-c6_1sva-a1-m40-c3 1sva-a1-m37-c6_1sva-a1-m36-c3 1sva-a1-m37-c6_1sva-a1-m37-c2 1sva-a1-m38-c6_1sva-a1-m37-c3 1sva-a1-m38-c6_1sva-a1-m38-c2 1sva-a1-m39-c6_1sva-a1-m38-c3 1sva-a1-m39-c6_1sva-a1-m39-c2 1sva-a1-m3-c6_1sva-a1-m2-c3 1sva-a1-m3-c6_1sva-a1-m3-c2 1sva-a1-m40-c6_1sva-a1-m39-c3 1sva-a1-m40-c6_1sva-a1-m40-c2 1sva-a1-m41-c6_1sva-a1-m41-c2 1sva-a1-m41-c6_1sva-a1-m45-c3 1sva-a1-m42-c6_1sva-a1-m41-c3 1sva-a1-m42-c6_1sva-a1-m42-c2 1sva-a1-m43-c6_1sva-a1-m42-c3 1sva-a1-m43-c6_1sva-a1-m43-c2 1sva-a1-m44-c6_1sva-a1-m43-c3 1sva-a1-m44-c6_1sva-a1-m44-c2 1sva-a1-m45-c6_1sva-a1-m44-c3 1sva-a1-m45-c6_1sva-a1-m45-c2 1sva-a1-m46-c6_1sva-a1-m46-c2 1sva-a1-m46-c6_1sva-a1-m50-c3 1sva-a1-m47-c6_1sva-a1-m46-c3 1sva-a1-m47-c6_1sva-a1-m47-c2 1sva-a1-m48-c6_1sva-a1-m47-c3 1sva-a1-m48-c6_1sva-a1-m48-c2 1sva-a1-m49-c6_1sva-a1-m48-c3 1sva-a1-m49-c6_1sva-a1-m49-c2 1sva-a1-m4-c6_1sva-a1-m3-c3 1sva-a1-m4-c6_1sva-a1-m4-c2 1sva-a1-m50-c6_1sva-a1-m49-c3 1sva-a1-m50-c6_1sva-a1-m50-c2 1sva-a1-m51-c6_1sva-a1-m51-c2 1sva-a1-m51-c6_1sva-a1-m55-c3 1sva-a1-m52-c6_1sva-a1-m51-c3 1sva-a1-m52-c6_1sva-a1-m52-c2 1sva-a1-m53-c6_1sva-a1-m52-c3 1sva-a1-m53-c6_1sva-a1-m53-c2 1sva-a1-m54-c6_1sva-a1-m53-c3 1sva-a1-m54-c6_1sva-a1-m54-c2 1sva-a1-m55-c6_1sva-a1-m54-c3 1sva-a1-m55-c6_1sva-a1-m55-c2 1sva-a1-m56-c6_1sva-a1-m56-c2 1sva-a1-m56-c6_1sva-a1-m60-c3 1sva-a1-m57-c6_1sva-a1-m56-c3 1sva-a1-m57-c6_1sva-a1-m57-c2 1sva-a1-m58-c6_1sva-a1-m57-c3 1sva-a1-m58-c6_1sva-a1-m58-c2 1sva-a1-m59-c6_1sva-a1-m58-c3 1sva-a1-m59-c6_1sva-a1-m59-c2 1sva-a1-m5-c6_1sva-a1-m4-c3 1sva-a1-m5-c6_1sva-a1-m5-c2 1sva-a1-m60-c6_1sva-a1-m59-c3 1sva-a1-m60-c6_1sva-a1-m60-c2 1sva-a1-m6-c6_1sva-a1-m10-c3 1sva-a1-m6-c6_1sva-a1-m6-c2 1sva-a1-m7-c6_1sva-a1-m6-c3 1sva-a1-m7-c6_1sva-a1-m7-c2 1sva-a1-m8-c6_1sva-a1-m7-c3 1sva-a1-m8-c6_1sva-a1-m8-c2 1sva-a1-m9-c6_1sva-a1-m8-c3 KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQTTTRMQ 1sva-a1-m9-c6_1sva-a1-m9-c3 SIMIAN VIRUS 40 P03087 P03087 3.1 X-RAY DIFFRACTION 99 1.0 341 342 1sva-a1-m10-c6_1sva-a1-m10-c3 1sva-a1-m11-c6_1sva-a1-m11-c3 1sva-a1-m12-c6_1sva-a1-m12-c3 1sva-a1-m13-c6_1sva-a1-m13-c3 1sva-a1-m14-c6_1sva-a1-m14-c3 1sva-a1-m15-c6_1sva-a1-m15-c3 1sva-a1-m16-c6_1sva-a1-m16-c3 1sva-a1-m17-c6_1sva-a1-m17-c3 1sva-a1-m18-c6_1sva-a1-m18-c3 1sva-a1-m19-c6_1sva-a1-m19-c3 1sva-a1-m1-c6_1sva-a1-m1-c3 1sva-a1-m20-c6_1sva-a1-m20-c3 1sva-a1-m21-c6_1sva-a1-m21-c3 1sva-a1-m22-c6_1sva-a1-m22-c3 1sva-a1-m23-c6_1sva-a1-m23-c3 1sva-a1-m24-c6_1sva-a1-m24-c3 1sva-a1-m25-c6_1sva-a1-m25-c3 1sva-a1-m26-c6_1sva-a1-m26-c3 1sva-a1-m27-c6_1sva-a1-m27-c3 1sva-a1-m28-c6_1sva-a1-m28-c3 1sva-a1-m29-c6_1sva-a1-m29-c3 1sva-a1-m2-c6_1sva-a1-m2-c3 1sva-a1-m30-c6_1sva-a1-m30-c3 1sva-a1-m31-c6_1sva-a1-m31-c3 1sva-a1-m32-c6_1sva-a1-m32-c3 1sva-a1-m33-c6_1sva-a1-m33-c3 1sva-a1-m34-c6_1sva-a1-m34-c3 1sva-a1-m35-c6_1sva-a1-m35-c3 1sva-a1-m36-c6_1sva-a1-m36-c3 1sva-a1-m37-c6_1sva-a1-m37-c3 1sva-a1-m38-c6_1sva-a1-m38-c3 1sva-a1-m39-c6_1sva-a1-m39-c3 1sva-a1-m3-c6_1sva-a1-m3-c3 1sva-a1-m40-c6_1sva-a1-m40-c3 1sva-a1-m41-c6_1sva-a1-m41-c3 1sva-a1-m42-c6_1sva-a1-m42-c3 1sva-a1-m43-c6_1sva-a1-m43-c3 1sva-a1-m44-c6_1sva-a1-m44-c3 1sva-a1-m45-c6_1sva-a1-m45-c3 1sva-a1-m46-c6_1sva-a1-m46-c3 1sva-a1-m47-c6_1sva-a1-m47-c3 1sva-a1-m48-c6_1sva-a1-m48-c3 1sva-a1-m49-c6_1sva-a1-m49-c3 1sva-a1-m4-c6_1sva-a1-m4-c3 1sva-a1-m50-c6_1sva-a1-m50-c3 1sva-a1-m51-c6_1sva-a1-m51-c3 1sva-a1-m52-c6_1sva-a1-m52-c3 1sva-a1-m53-c6_1sva-a1-m53-c3 1sva-a1-m54-c6_1sva-a1-m54-c3 1sva-a1-m55-c6_1sva-a1-m55-c3 1sva-a1-m56-c6_1sva-a1-m56-c3 1sva-a1-m57-c6_1sva-a1-m57-c3 1sva-a1-m58-c6_1sva-a1-m58-c3 1sva-a1-m59-c6_1sva-a1-m59-c3 1sva-a1-m5-c6_1sva-a1-m5-c3 1sva-a1-m60-c6_1sva-a1-m60-c3 1sva-a1-m6-c6_1sva-a1-m6-c3 1sva-a1-m7-c6_1sva-a1-m7-c3 1sva-a1-m8-c6_1sva-a1-m8-c3 KKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ PKKPKEPVQVPKLVIKGGIEVLGVKTGVDSFTEVECFLNPQMGNPDEHQKGLSKSLAAEKQFTDDSPDKEQLPCYSVARIPLPNINEDLTCGNILMWEAVTVKTEVIGVTAMLNLHSGTQKTHENGAGKPIQGSNFHFFAVGGEPLELQGVLANYRTKYPAQTVTPKNATVDSQQMNTDHKAVLDKDNAYPVECWVPDPSKNENTRYFGTYTGGENVPPVLHITNTATTVLLDEQGVGPLCKADSLYVSAVDICGLFTNTSGTQQWKGLPRYFKITLRKRSVKNPYPISFLLSDLINRRTQRVDGQPMIGMSSQVEEVRVYEDTEELPGDPDMIRYIDEFGQ 1svf-a1-m2-cA_1svf-a1-m3-cA PARAMYXOVIRUS SV5 FUSION PROTEIN CORE P04849 P04849 1.4 X-RAY DIFFRACTION 74 1.0 11208 (Simian virus 5 (strain W3)) 11208 (Simian virus 5 (strain W3)) 64 64 1svf-a1-m1-cA_1svf-a1-m2-cA 1svf-a1-m1-cA_1svf-a1-m3-cA TAAVALVKANENAAAILNLKNAIQKTNAAVADVVQATQSLGTAVQAVQDHINSVVSPAITAANY TAAVALVKANENAAAILNLKNAIQKTNAAVADVVQATQSLGTAVQAVQDHINSVVSPAITAANY 1svp-a1-m1-cA_1svp-a1-m1-cB SINDBIS VIRUS CAPSID PROTEIN P03316 P03316 2 X-RAY DIFFRACTION 14 1.0 11034 (Sindbis virus) 11034 (Sindbis virus) 160 160 ALKLEADRLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDAGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEWSA ALKLEADRLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDAGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEWSA 1svv-a1-m1-cA_1svv-a1-m2-cB Initial Stuctural Analysis of Leishmania major Threonine Aldolase E9AC39 E9AC39 2.1 X-RAY DIFFRACTION 38 1.0 5664 (Leishmania major) 5664 (Leishmania major) 328 330 1svv-a1-m2-cA_1svv-a1-m1-cB PYSFVNDYSVGHPKILDLARDNTQHAGYGQDSHCAKAARLIGELLERPDADVHFISGGTQTNLIACSLALRPWEAVIATQLGHISTHETGAIEATGHKVVTAPCPDGKLRVADIESALHENRSEHVIPKLVYISNTTEVGTQYTKQELEDISASCKEHGLYLFLDGARLASALSSPVNDLTLADIARLTDFYIGATKAGGFGEALIILNDALKPNARHLIKQRGALAKGWLLGIQFEVLKDNLFFELGAHSNKAAILKAGLEACGIRLAWPSASNQLFPILENTIAELNNDFDYTVEPLKDGTCIRLCTSWATEEKECHRFVEVLKRL PYSFVNDYSVGHPKILDLARDNTQHAGYGQDSHCAKAARLIGELLERPDADVHFISGGTQTNLIACSLALRPWEAVIATQLGHISTHETGAIEATGHKVVTAPCPDGKLRVADIESALHENRSEHVIPKLVYISNTTEVGTQYTKQELEDISASCKEHGLYLFLDGARLASALSSPVNDLTLADIARLTDFYIGATKAGGFGEALIILNDALKPNARHLIKQRGALAKGWLLGIQFEVLKDNLFFELGAHSNKAAILKAGLEACGIRLAWPSASNQLFPILENTIAELNNDFDYTVEPLKDGTCIRLCTSWATEEKECHRFVEVLKRLVA 1svv-a1-m1-cB_1svv-a1-m2-cB Initial Stuctural Analysis of Leishmania major Threonine Aldolase E9AC39 E9AC39 2.1 X-RAY DIFFRACTION 42 1.0 5664 (Leishmania major) 5664 (Leishmania major) 330 330 1svv-a1-m1-cA_1svv-a1-m2-cA PYSFVNDYSVGHPKILDLARDNTQHAGYGQDSHCAKAARLIGELLERPDADVHFISGGTQTNLIACSLALRPWEAVIATQLGHISTHETGAIEATGHKVVTAPCPDGKLRVADIESALHENRSEHVIPKLVYISNTTEVGTQYTKQELEDISASCKEHGLYLFLDGARLASALSSPVNDLTLADIARLTDFYIGATKAGGFGEALIILNDALKPNARHLIKQRGALAKGWLLGIQFEVLKDNLFFELGAHSNKAAILKAGLEACGIRLAWPSASNQLFPILENTIAELNNDFDYTVEPLKDGTCIRLCTSWATEEKECHRFVEVLKRLVA PYSFVNDYSVGHPKILDLARDNTQHAGYGQDSHCAKAARLIGELLERPDADVHFISGGTQTNLIACSLALRPWEAVIATQLGHISTHETGAIEATGHKVVTAPCPDGKLRVADIESALHENRSEHVIPKLVYISNTTEVGTQYTKQELEDISASCKEHGLYLFLDGARLASALSSPVNDLTLADIARLTDFYIGATKAGGFGEALIILNDALKPNARHLIKQRGALAKGWLLGIQFEVLKDNLFFELGAHSNKAAILKAGLEACGIRLAWPSASNQLFPILENTIAELNNDFDYTVEPLKDGTCIRLCTSWATEEKECHRFVEVLKRLVA 1svv-a1-m2-cA_1svv-a1-m2-cB Initial Stuctural Analysis of Leishmania major Threonine Aldolase E9AC39 E9AC39 2.1 X-RAY DIFFRACTION 108 1.0 5664 (Leishmania major) 5664 (Leishmania major) 328 330 1svv-a1-m1-cA_1svv-a1-m1-cB PYSFVNDYSVGHPKILDLARDNTQHAGYGQDSHCAKAARLIGELLERPDADVHFISGGTQTNLIACSLALRPWEAVIATQLGHISTHETGAIEATGHKVVTAPCPDGKLRVADIESALHENRSEHVIPKLVYISNTTEVGTQYTKQELEDISASCKEHGLYLFLDGARLASALSSPVNDLTLADIARLTDFYIGATKAGGFGEALIILNDALKPNARHLIKQRGALAKGWLLGIQFEVLKDNLFFELGAHSNKAAILKAGLEACGIRLAWPSASNQLFPILENTIAELNNDFDYTVEPLKDGTCIRLCTSWATEEKECHRFVEVLKRL PYSFVNDYSVGHPKILDLARDNTQHAGYGQDSHCAKAARLIGELLERPDADVHFISGGTQTNLIACSLALRPWEAVIATQLGHISTHETGAIEATGHKVVTAPCPDGKLRVADIESALHENRSEHVIPKLVYISNTTEVGTQYTKQELEDISASCKEHGLYLFLDGARLASALSSPVNDLTLADIARLTDFYIGATKAGGFGEALIILNDALKPNARHLIKQRGALAKGWLLGIQFEVLKDNLFFELGAHSNKAAILKAGLEACGIRLAWPSASNQLFPILENTIAELNNDFDYTVEPLKDGTCIRLCTSWATEEKECHRFVEVLKRLVA 1svz-a1-m1-cA_1svz-a1-m1-cB Crystal structure of the single-chain Fv fragment 1696 in complex with the epitope peptide corresponding to N-terminus of HIV-2 protease P01631 P01631 1.89 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 232 232 DILMTQTPLYLPVSLGDQASISCRSSQTIVHNNGNTYLEWYLQKPGQSPQLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGIYYCFQGSHFPPTFGGGTKLEIKEVQLQQSGPELKKPGETVKISCKATNYAFTDYSMHWVKQAPGGDLKYVGWINTETDEPTFADDFKGRFAFSLDTSTSTAFLQINNLKNEDTATYFCVRDRHDYGEIFTYWGQGTTVTVSS DILMTQTPLYLPVSLGDQASISCRSSQTIVHNNGNTYLEWYLQKPGQSPQLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGIYYCFQGSHFPPTFGGGTKLEIKEVQLQQSGPELKKPGETVKISCKATNYAFTDYSMHWVKQAPGGDLKYVGWINTETDEPTFADDFKGRFAFSLDTSTSTAFLQINNLKNEDTATYFCVRDRHDYGEIFTYWGQGTTVTVSS 1sw6-a1-m1-cA_1sw6-a1-m1-cB S. CEREVISIAE SWI6 ANKYRIN-REPEAT FRAGMENT P09959 P09959 2.1 X-RAY DIFFRACTION 46 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 254 254 GPIITFTHDLTSDFLSSPLKIMKALPSPVVNDNEQKMKLEAFLQRLLFSFDSLLQEVNDAFPNTQLNLNIPVDEHGNTPLHWLTSIANLELVKHLVKHGSNRLYGDNMGESCLVKAVKSVNNYDSGTFEALLDYLYPCLILEDSMNRTILHHIIITSGMTGCSAAAKYYLDILMGWIVKKQNRPIQSGDSILENLDLKWIIANMLNAQDSNGDTCLNIAARLGNISIVDALLDYGADPFIANKSGLRPVDFGAG GPIITFTHDLTSDFLSSPLKIMKALPSPVVNDNEQKMKLEAFLQRLLSFDSLLQEVNDAFPNTQLNLNIPVDEHGNTPLHWLTSIANLELVKHLVKHGSNRLYGDNMGESCLVKAVKSVNNYDSGTFEALLDYLYPCLILEDSMNRTILHHIIITSGMTGCSAAAKYYLDILMGWIVKKQNRPIQSGKDSILENLDLKWIIANMLNAQDSNGDTCLNIAARLGNISIVDALLDYGADPFIANKSGLRPVDFGAG 1sw7-a1-m1-cA_1sw7-a1-m1-cB Triosephosphate isomerase from Gallus gallus, loop 6 mutant K174N, T175S, A176S P00940 P00940 2.22 X-RAY DIFFRACTION 129 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 245 245 1spq-a1-m1-cB_1spq-a1-m1-cA 1sq7-a1-m1-cA_1sq7-a1-m1-cB 1ssd-a1-m1-cA_1ssd-a1-m1-cB 1ssd-a2-m1-cA_1ssd-a2-m1-cB 1ssd-a2-m2-cA_1ssd-a2-m2-cB 1ssg-a1-m1-cA_1ssg-a1-m1-cB 1su5-a1-m1-cA_1su5-a1-m1-cB 1sw0-a1-m1-cA_1sw0-a1-m1-cB 1sw3-a1-m1-cA_1sw3-a1-m1-cB 1tim-a1-m1-cA_1tim-a1-m1-cB 1tpb-a1-m1-c1_1tpb-a1-m1-c2 1tpc-a1-m1-c1_1tpc-a1-m1-c2 1tph-a1-m1-c1_1tph-a1-m1-c2 1tpu-a1-m1-cA_1tpu-a1-m1-cB 1tpv-a1-m1-cA_1tpv-a1-m1-cB 1tpw-a1-m1-cA_1tpw-a1-m1-cB 4p61-a1-m1-cB_4p61-a1-m1-cA 8tim-a1-m1-cA_8tim-a1-m1-cB RKFFVGGNWKMNGDKKSLGELIHTLNGAKLSADTEVVCGAPSIYLDFARQKLDAKIGVAAQNCYKVPKGAFTGEISPAMIKDIGAAWVILGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKAIADNVKDWSKVVLAYEPVWAIGTGNSSTPQQAQEVHEKLRGWLKSHVSDAVAQSTRIIYGGSVTGGNCKELASQHDVDGFLVGGASLKPEFVDIINAKH RKFFVGGNWKMNGDKKSLGELIHTLNGAKLSADTEVVCGAPSIYLDFARQKLDAKIGVAAQNCYKVPKGAFTGEISPAMIKDIGAAWVILGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKAIADNVKDWSKVVLAYEPVWAIGTGNSSTPQQAQEVHEKLRGWLKSHVSDAVAQSTRIIYGGSVTGGNCKELASQHDVDGFLVGGASLKPEFVDIINAKH 1swf-a2-m1-cB_1swf-a2-m2-cC CIRCULAR PERMUTED STREPTAVIDIN E51/A46 P22629 P22629 2 X-RAY DIFFRACTION 109 1.0 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 125 125 SRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKPSAASGGGSAEAGITGTWYNQLGSTFIVTAGADGALTGTYES SRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKPSAASGGGSAEAGITGTWYNQLGSTFIVTAGADGALTGTYES 1swf-a2-m2-cD_1swf-a2-m1-cB CIRCULAR PERMUTED STREPTAVIDIN E51/A46 P22629 P22629 2 X-RAY DIFFRACTION 11 1.0 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 116 125 SRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVSAEAGITGTWYNQLGSTFIVTAGADGALTGTYES SRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKPSAASGGGSAEAGITGTWYNQLGSTFIVTAGADGALTGTYES 1swg-a3-m1-cD_1swg-a3-m1-cC CIRCULAR PERMUTED STREPTAVIDIN E51/A46 IN COMPLEX WITH BIOTIN P22629 P22629 1.8 X-RAY DIFFRACTION 193 0.991 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 113 126 1swf-a1-m1-cD_1swf-a1-m1-cC 1swf-a2-m2-cD_1swf-a2-m2-cC 1swg-a1-m1-cD_1swg-a1-m1-cC ESRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVGITGTWYNQLGSTFIVTAGADGALTGTYES SRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKPSAASGGGSAEAGITGTWYNQLGSTFIVTAGADGALTGTYESA 1sxi-a2-m1-cB_1sxi-a2-m1-cI Structure of apo transcription regulator B. megaterium P46828 P46828 3 X-RAY DIFFRACTION 73 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 265 265 1rzr-a1-m1-cC_1rzr-a1-m1-cG 1rzr-a2-m1-cA_1rzr-a2-m1-cD 1sxg-a1-m1-cD_1sxg-a1-m1-cA 1sxg-a2-m1-cB_1sxg-a2-m1-cI 1sxg-a3-m1-cF_1sxg-a3-m1-cP 1sxh-a1-m1-cA_1sxh-a1-m1-cD 1sxi-a1-m1-cA_1sxi-a1-m1-cD 1sxi-a3-m1-cR_1sxi-a3-m1-cT 1sxi-a4-m1-cK_1sxi-a4-m1-cL 1sxi-a5-m1-cG_1sxi-a5-m1-cW 1sxi-a6-m1-cM_1sxi-a6-m1-cN 1zvv-a1-m1-cA_1zvv-a1-m2-cA 1zvv-a2-m3-cG_1zvv-a2-m1-cB 2nzu-a1-m1-cG_2nzu-a1-m2-cG 2nzv-a1-m1-cG_2nzv-a1-m2-cG 2oen-a1-m1-cG_2oen-a1-m2-cG TTTVGVIIPDISNIFYAELARGIEDIATYKYNIILSNSDQNQDKELHLLNNLGKQVDGIIFSGNVTEEHVEELKKSPVPVVLAASIESTNQIPSVTIDYEQAAFDAVQSLIDSGHKNIAFVSGTLEEPINHAKKVKGYKRALTESGLPVRDSYIVEGDYTYDSGIEAVEKLLEEDEKPTAIFVGTDEALGVIHGAQDRGLNVPNDLEIIGFDNTRLSTVRPQLTSVVQPYDIGAVARLLTKYNKETVDSSIVQLPHRIEFRQSTK TTTVGVIIPDISNIFYAELARGIEDIATYKYNIILSNSDQNQDKELHLLNNLGKQVDGIIFSGNVTEEHVEELKKSPVPVVLAASIESTNQIPSVTIDYEQAAFDAVQSLIDSGHKNIAFVSGTLEEPINHAKKVKGYKRALTESGLPVRDSYIVEGDYTYDSGIEAVEKLLEEDEKPTAIFVGTDEALGVIHGAQDRGLNVPNDLEIIGFDNTRLSTVRPQLTSVVQPYDIGAVARLLTKYNKETVDSSIVQLPHRIEFRQSTK 1sxn-a1-m1-cA_1sxn-a1-m1-cB REDUCED BOVINE SUPEROXIDE DISMUTASE AT PH 5.0 P00442 P00442 1.9 X-RAY DIFFRACTION 68 1.0 9913 (Bos taurus) 9913 (Bos taurus) 151 151 1cb4-a1-m1-cA_1cb4-a1-m1-cB 1cbj-a1-m1-cA_1cbj-a1-m1-cB 1cob-a1-m1-cA_1cob-a1-m1-cB 1sda-a1-m1-cO_1sda-a1-m1-cY 1sda-a2-m1-cB_1sda-a2-m1-cG 1sxa-a1-m1-cA_1sxa-a1-m1-cB 1sxb-a1-m1-cA_1sxb-a1-m1-cB 1sxc-a1-m1-cA_1sxc-a1-m1-cB 1sxs-a1-m1-cA_1sxs-a1-m1-cB 1sxz-a1-m1-cA_1sxz-a1-m1-cB 2aeo-a1-m1-cA_2aeo-a1-m1-cB 2aeo-a1-m2-cA_2aeo-a1-m2-cB 2sod-a1-m1-cO_2sod-a1-m1-cY 2sod-a2-m1-cB_2sod-a2-m1-cG 2z7u-a1-m1-cA_2z7u-a1-m1-cB 2z7w-a1-m1-cA_2z7w-a1-m1-cB 2z7y-a1-m1-cA_2z7y-a1-m1-cB 2z7z-a1-m1-cA_2z7z-a1-m1-cB 2zow-a1-m1-cA_2zow-a1-m1-cB 3hw7-a1-m1-cA_3hw7-a1-m1-cB 3sod-a1-m1-cO_3sod-a1-m1-cY 3sod-a2-m1-cB_3sod-a2-m1-cG ATKAVCVLKGDGPVQGTIHFEAKGDTVVVTGSITGLTEGDHGFHVHQFGDNTQGCTSAGPHFNPLSKKHGGPKDEERHVGDLGNVTADKNGVAIVDIVDPLISLSGEYSIIGRTMVVHEKPDDLGRGGNEESTKTGNAGSRLACGVIGIAK ATKAVCVLKGDGPVQGTIHFEAKGDTVVVTGSITGLTEGDHGFHVHQFGDNTQGCTSAGPHFNPLSKKHGGPKDEERHVGDLGNVTADKNGVAIVDIVDPLISLSGEYSIIGRTMVVHEKPDDLGRGGNEESTKTGNAGSRLACGVIGIAK 1sxr-a3-m1-cA_1sxr-a3-m2-cB Drosophila Peptidoglycan Recognition Protein (PGRP)-SA Q9VYX7 Q9VYX7 1.56 X-RAY DIFFRACTION 32 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 173 173 CPTIKLKRQWGGKPSLGLHYQVRPIRYVVIHHTVTGECSGLLKCAEILQNMQAYHQNELDFNDISYNFLIGNDGIVYEGTGWGLRGAHTYGYNAIGTGIAFIGNFVDKLPSDAALQAAKDLLACGVQQGELSEDYALIAGSQVISTQSPGLTLYNEIQEWPHWLSNPHHHHHH CPTIKLKRQWGGKPSLGLHYQVRPIRYVVIHHTVTGECSGLLKCAEILQNMQAYHQNELDFNDISYNFLIGNDGIVYEGTGWGLRGAHTYGYNAIGTGIAFIGNFVDKLPSDAALQAAKDLLACGVQQGELSEDYALIAGSQVISTQSPGLTLYNEIQEWPHWLSNPHHHHHH 1sy7-a1-m1-cA_1sy7-a1-m2-cB Crystal structure of the catalase-1 from Neurospora crassa, native structure at 1.75A resolution. Q9C168 Q9C168 1.75 X-RAY DIFFRACTION 159 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 698 698 1sy7-a1-m1-cB_1sy7-a1-m2-cA ARLTTDYGVKQTTADDWLRIVSDDKIGPSLLEDPFARERIMRFDHERIPERVVHARGSGAFGKFKVYESASDLTMAPVLTDTSRETPVFVRFSTVLGSRGSADTVRDVRGFAVKFYTEEGNWDLVGNNIPVFFIQDAIKFPDVIHAGKPEPHNEVPQAQSAHNNFWDFQFNHTEATHMFTWAMSDRAIPRSLRMMQGFGVNTYTLINAQGKRHFVKFHWTPELGVHSLVWDEALKLAGQDPDFHRKDLWEAIENGAYPKWKFGIQAIAEEDEHKFDFDILDATKIWPEDLVPVRYIGEMELNRNPDEFFPQTEQIAFCTSHVVNGIGFSDDPLLQGRNFSYFDTQISRLGVNFQELPINRPVCPVMNFNRDGAMRHTISRGTVNYYPNRFDACPPASLKEGGYLEYAQKVAGIKARARSAKFKEHFSQAQLFYNSMSPIEKQHMINAFGFELDHCEDPVVYGRMVQRLADIDLGLAQTIAEMVGGEAPTTTNHPNHGRKTINLSQTEFPPATPTIKSRRVAIIIADGYDNVAYDAAYAAISANQAIPLVIGPRRSKVTAANGSTVQPHHHLEGFRSTMVDAIFIPGGAKAAETLSKNGRALHWIREAFGHLKAIGATGEAVDLVAKAIALPQVTVSSEAEVHESYGVVTLKKVKPESFTDAVKIAKGAAGFLGEFFYAIAQHRNWDRELDGLHSMIAY ARLTTDYGVKQTTADDWLRIVSDDKIGPSLLEDPFARERIMRFDHERIPERVVHARGSGAFGKFKVYESASDLTMAPVLTDTSRETPVFVRFSTVLGSRGSADTVRDVRGFAVKFYTEEGNWDLVGNNIPVFFIQDAIKFPDVIHAGKPEPHNEVPQAQSAHNNFWDFQFNHTEATHMFTWAMSDRAIPRSLRMMQGFGVNTYTLINAQGKRHFVKFHWTPELGVHSLVWDEALKLAGQDPDFHRKDLWEAIENGAYPKWKFGIQAIAEEDEHKFDFDILDATKIWPEDLVPVRYIGEMELNRNPDEFFPQTEQIAFCTSHVVNGIGFSDDPLLQGRNFSYFDTQISRLGVNFQELPINRPVCPVMNFNRDGAMRHTISRGTVNYYPNRFDACPPASLKEGGYLEYAQKVAGIKARARSAKFKEHFSQAQLFYNSMSPIEKQHMINAFGFELDHCEDPVVYGRMVQRLADIDLGLAQTIAEMVGGEAPTTTNHPNHGRKTINLSQTEFPPATPTIKSRRVAIIIADGYDNVAYDAAYAAISANQAIPLVIGPRRSKVTAANGSTVQPHHHLEGFRSTMVDAIFIPGGAKAAETLSKNGRALHWIREAFGHLKAIGATGEAVDLVAKAIALPQVTVSSEAEVHESYGVVTLKKVKPESFTDAVKIAKGAAGFLGEFFYAIAQHRNWDRELDGLHSMIAY 1sy7-a1-m1-cB_1sy7-a1-m2-cB Crystal structure of the catalase-1 from Neurospora crassa, native structure at 1.75A resolution. Q9C168 Q9C168 1.75 X-RAY DIFFRACTION 437 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 698 698 1sy7-a1-m1-cA_1sy7-a1-m2-cA ARLTTDYGVKQTTADDWLRIVSDDKIGPSLLEDPFARERIMRFDHERIPERVVHARGSGAFGKFKVYESASDLTMAPVLTDTSRETPVFVRFSTVLGSRGSADTVRDVRGFAVKFYTEEGNWDLVGNNIPVFFIQDAIKFPDVIHAGKPEPHNEVPQAQSAHNNFWDFQFNHTEATHMFTWAMSDRAIPRSLRMMQGFGVNTYTLINAQGKRHFVKFHWTPELGVHSLVWDEALKLAGQDPDFHRKDLWEAIENGAYPKWKFGIQAIAEEDEHKFDFDILDATKIWPEDLVPVRYIGEMELNRNPDEFFPQTEQIAFCTSHVVNGIGFSDDPLLQGRNFSYFDTQISRLGVNFQELPINRPVCPVMNFNRDGAMRHTISRGTVNYYPNRFDACPPASLKEGGYLEYAQKVAGIKARARSAKFKEHFSQAQLFYNSMSPIEKQHMINAFGFELDHCEDPVVYGRMVQRLADIDLGLAQTIAEMVGGEAPTTTNHPNHGRKTINLSQTEFPPATPTIKSRRVAIIIADGYDNVAYDAAYAAISANQAIPLVIGPRRSKVTAANGSTVQPHHHLEGFRSTMVDAIFIPGGAKAAETLSKNGRALHWIREAFGHLKAIGATGEAVDLVAKAIALPQVTVSSEAEVHESYGVVTLKKVKPESFTDAVKIAKGAAGFLGEFFYAIAQHRNWDRELDGLHSMIAY ARLTTDYGVKQTTADDWLRIVSDDKIGPSLLEDPFARERIMRFDHERIPERVVHARGSGAFGKFKVYESASDLTMAPVLTDTSRETPVFVRFSTVLGSRGSADTVRDVRGFAVKFYTEEGNWDLVGNNIPVFFIQDAIKFPDVIHAGKPEPHNEVPQAQSAHNNFWDFQFNHTEATHMFTWAMSDRAIPRSLRMMQGFGVNTYTLINAQGKRHFVKFHWTPELGVHSLVWDEALKLAGQDPDFHRKDLWEAIENGAYPKWKFGIQAIAEEDEHKFDFDILDATKIWPEDLVPVRYIGEMELNRNPDEFFPQTEQIAFCTSHVVNGIGFSDDPLLQGRNFSYFDTQISRLGVNFQELPINRPVCPVMNFNRDGAMRHTISRGTVNYYPNRFDACPPASLKEGGYLEYAQKVAGIKARARSAKFKEHFSQAQLFYNSMSPIEKQHMINAFGFELDHCEDPVVYGRMVQRLADIDLGLAQTIAEMVGGEAPTTTNHPNHGRKTINLSQTEFPPATPTIKSRRVAIIIADGYDNVAYDAAYAAISANQAIPLVIGPRRSKVTAANGSTVQPHHHLEGFRSTMVDAIFIPGGAKAAETLSKNGRALHWIREAFGHLKAIGATGEAVDLVAKAIALPQVTVSSEAEVHESYGVVTLKKVKPESFTDAVKIAKGAAGFLGEFFYAIAQHRNWDRELDGLHSMIAY 1sy7-a1-m2-cA_1sy7-a1-m2-cB Crystal structure of the catalase-1 from Neurospora crassa, native structure at 1.75A resolution. Q9C168 Q9C168 1.75 X-RAY DIFFRACTION 322 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 698 698 1sy7-a1-m1-cA_1sy7-a1-m1-cB ARLTTDYGVKQTTADDWLRIVSDDKIGPSLLEDPFARERIMRFDHERIPERVVHARGSGAFGKFKVYESASDLTMAPVLTDTSRETPVFVRFSTVLGSRGSADTVRDVRGFAVKFYTEEGNWDLVGNNIPVFFIQDAIKFPDVIHAGKPEPHNEVPQAQSAHNNFWDFQFNHTEATHMFTWAMSDRAIPRSLRMMQGFGVNTYTLINAQGKRHFVKFHWTPELGVHSLVWDEALKLAGQDPDFHRKDLWEAIENGAYPKWKFGIQAIAEEDEHKFDFDILDATKIWPEDLVPVRYIGEMELNRNPDEFFPQTEQIAFCTSHVVNGIGFSDDPLLQGRNFSYFDTQISRLGVNFQELPINRPVCPVMNFNRDGAMRHTISRGTVNYYPNRFDACPPASLKEGGYLEYAQKVAGIKARARSAKFKEHFSQAQLFYNSMSPIEKQHMINAFGFELDHCEDPVVYGRMVQRLADIDLGLAQTIAEMVGGEAPTTTNHPNHGRKTINLSQTEFPPATPTIKSRRVAIIIADGYDNVAYDAAYAAISANQAIPLVIGPRRSKVTAANGSTVQPHHHLEGFRSTMVDAIFIPGGAKAAETLSKNGRALHWIREAFGHLKAIGATGEAVDLVAKAIALPQVTVSSEAEVHESYGVVTLKKVKPESFTDAVKIAKGAAGFLGEFFYAIAQHRNWDRELDGLHSMIAY ARLTTDYGVKQTTADDWLRIVSDDKIGPSLLEDPFARERIMRFDHERIPERVVHARGSGAFGKFKVYESASDLTMAPVLTDTSRETPVFVRFSTVLGSRGSADTVRDVRGFAVKFYTEEGNWDLVGNNIPVFFIQDAIKFPDVIHAGKPEPHNEVPQAQSAHNNFWDFQFNHTEATHMFTWAMSDRAIPRSLRMMQGFGVNTYTLINAQGKRHFVKFHWTPELGVHSLVWDEALKLAGQDPDFHRKDLWEAIENGAYPKWKFGIQAIAEEDEHKFDFDILDATKIWPEDLVPVRYIGEMELNRNPDEFFPQTEQIAFCTSHVVNGIGFSDDPLLQGRNFSYFDTQISRLGVNFQELPINRPVCPVMNFNRDGAMRHTISRGTVNYYPNRFDACPPASLKEGGYLEYAQKVAGIKARARSAKFKEHFSQAQLFYNSMSPIEKQHMINAFGFELDHCEDPVVYGRMVQRLADIDLGLAQTIAEMVGGEAPTTTNHPNHGRKTINLSQTEFPPATPTIKSRRVAIIIADGYDNVAYDAAYAAISANQAIPLVIGPRRSKVTAANGSTVQPHHHLEGFRSTMVDAIFIPGGAKAAETLSKNGRALHWIREAFGHLKAIGATGEAVDLVAKAIALPQVTVSSEAEVHESYGVVTLKKVKPESFTDAVKIAKGAAGFLGEFFYAIAQHRNWDRELDGLHSMIAY 1syq-a2-m3-cA_1syq-a2-m6-cA Human vinculin head domain VH1, residues 1-258, in complex with human talin's vinculin binding site 1, residues 607-636 P18206 P18206 2.42 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 1syq-a2-m1-cA_1syq-a2-m5-cA 1syq-a2-m2-cA_1syq-a2-m4-cA HMPVFHTRTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW HMPVFHTRTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 1syq-a2-m3-cB_1syq-a2-m6-cB Human vinculin head domain VH1, residues 1-258, in complex with human talin's vinculin binding site 1, residues 607-636 Q9Y490 Q9Y490 2.42 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 1syq-a2-m1-cB_1syq-a2-m5-cB 1syq-a2-m2-cB_1syq-a2-m4-cB PLLQAAKGLAGAVSELLRSAQPASA PLLQAAKGLAGAVSELLRSAQPASA 1syq-a3-m1-cA_1syq-a3-m9-cA Human vinculin head domain VH1, residues 1-258, in complex with human talin's vinculin binding site 1, residues 607-636 P18206 P18206 2.42 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 1syq-a3-m2-cA_1syq-a3-m8-cA 1syq-a3-m3-cA_1syq-a3-m7-cA 2gww-a2-m1-cA_2gww-a2-m5-cA 2gww-a2-m2-cA_2gww-a2-m4-cA 2gww-a2-m3-cA_2gww-a2-m6-cA 2hsq-a3-m12-cA_2hsq-a3-m27-cA 2hsq-a3-m1-cA_2hsq-a3-m26-cA 2hsq-a3-m25-cA_2hsq-a3-m6-cA HMPVFHTRTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW HMPVFHTRTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 1syr-a5-m1-cI_1syr-a5-m1-cJ Initial Structural Analysis of Plasmodium falciparum thioredoxin Q7KQL8 Q7KQL8 2.95 X-RAY DIFFRACTION 29 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 102 102 1syr-a1-m1-cB_1syr-a1-m1-cA 1syr-a2-m1-cD_1syr-a2-m1-cC 1syr-a3-m1-cE_1syr-a3-m1-cF 1syr-a4-m1-cH_1syr-a4-m1-cG 1syr-a6-m1-cK_1syr-a6-m2-cK 1syr-a7-m1-cL_1syr-a7-m3-cL VKIVTSQAEFDSIISQNELVIVDFFAEWCGPCKRIAPFYEECSKTYTKMVFIKVDVDEVSEVTEKENITSMPTFKVYKNGSSVDTLLGANDSALKQLIEKYA VKIVTSQAEFDSIISQNELVIVDFFAEWCGPCKRIAPFYEECSKTYTKMVFIKVDVDEVSEVTEKENITSMPTFKVYKNGSSVDTLLGANDSALKQLIEKYA 1sz0-a1-m1-cB_1sz0-a1-m1-cA N-terminal 3 domains of CI-MPR bound to mannose 6-phosphate P08169 P08169 2.1 X-RAY DIFFRACTION 16 0.99 9913 (Bos taurus) 9913 (Bos taurus) 416 417 1syo-a1-m1-cB_1syo-a1-m1-cA AEFPELCSYTWEAVDTKNNMLYKINICGNMGVAQCGPSSAVCMHDLKTDSFHSVGDSLLKTASRSLLEFNTTVNCKKIQSSITFLCGKTLGTPEFVTATDCVHYFEWRTTAACKKNIFKANKEVPCYAFDRELKKHDLNPLIKTSGAYLVDDSDPDTSLFINVCRDIEVLRASSPQVRVCPTGAAACLVRGDRAFDVGRPQEGLKLVSNDRLVLSYVKPDFCDGHSPAVTITFVCPSERREGTIPKLTAKSNCRFEIEWVTEYACHRDYLESRSCSLSSAQHDVAVDLQPLSRVASDSLFYTSEADEYTYYLSICGGSQAPICNKKDAAVCQVKKADSTQVKVAGRPQNLTLRYSDGDLTLIYFGGEECSSGFQRMSVINFECNQTAGNNGRGAPVFTGEVDCTYFFTWDTKYACV AEFPELCSYTWEAVDTKNNMLYKINICGNMGVAQCGPSSAVCMHDLKTDSFHSVGDSLLKTASRSLLEFNTTVNCKIQSSITFLCGKTLGTPEFVTATDCVHYFEWRTTAACKKNIFKANKEVPCYAFDRELKKHDLNPLIKTSGAYLVDDSDPDTSLFINVCRDIEVLRASSPQVRVCPTGAAACLVRGDRAFDVGRPQEGLKLVSNDRLVLSYVKEGAGQPDFCDGHSPAVTITFVCPSERREGTIPKLTAKSNCRFEIEWVTEYACHRDYLESRSCSLSSAQHDVAVDLQPLSSDSLFYTSEADEYTYYLSICGGSQAPICNKKDAAVCQVKKADSTQVKVAGRPQNLTLRYSDGDLTLIYFGGEECSSGFQRMSVINFECNQTAGNNGRGAPVFTGEVDCTYFFTWDTKYACV 1sz2-a1-m1-cA_1sz2-a1-m1-cB Crystal structure of E. coli glucokinase in complex with glucose P0A6V9 P0A6V9 2.2 X-RAY DIFFRACTION 131 1.0 562 (Escherichia coli) 562 (Escherichia coli) 314 315 1q18-a1-m1-cA_1q18-a1-m1-cB KYALVGDVGGTNARLALCDIASGEISQAKTYSGLDYPSLEAVIRVYLEEHKVEVKDGCIAIACPITGDWVATNHTWAFSIAEKKNLGFSHLEIINDFTAVSAIPLKKEHLIQFGGAEPVEGKPIAVYGAGTGLGVAHLVHVDKRWVSLPGEGGHVDFAPNSEEEAIILEILRAEIGHVSAERVLSGPGLVNLYRAIVKADNRLPENLKPKDITERALADSCTDCRRALSLFCVIGRFGGNLALNLGTFGGVFIAGGIVPRFLEFFKASGFRAAFEDKGRFKEYVHDIPVYLIVHDNPGLLGSGAHLRQTLGHIL TKYALVGDVGGTNARLALCDIASGEISQAKTYSGLDYPSLEAVIRVYLEEHKVEVKDGCIAIACPITGDWVATNHTWAFSIAEKKNLGFSHLEIINDFTAVSAIPLKKEHLIQFGGAEPVEGKPIAVYGAGTGLGVAHLVHVDKRWVSLPGEGGHVDFAPNSEEEAIILEILRAEIGHVSAERVLSGPGLVNLYRAIVKADNRLPENLKPKDITERALADSCTDCRRALSLFCVIGRFGGNLALNLGTFGGVFIAGGIVPRFLEFFKASGFRAAFEDKGRFKEYVHDIPVYLIVHDNPGLLGSGAHLRQTLGHIL 1sz7-a1-m1-cA_1sz7-a1-m2-cA Crystal structure of Human Bet3 O43617 O43617 1.55 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1wc8-a1-m1-cA_1wc8-a1-m2-cA 1wc9-a1-m1-cA_1wc9-a1-m2-cA 2pwn-a1-m1-cA_2pwn-a1-m2-cA KMSSELFTLTYGALVTQLCKDYENDEDVNKQLDKMGFNIGVRLIEDFLARSNVGRCHDFRETADVIAKVAFKMYLGITPSITNWSPAGDEFSLILENNPLVDFVELPDNHSSLIYSNLLCGVLRGALEMVQMAVEAKFVQDTLKGDGVTEIRMRFIRRI KMSSELFTLTYGALVTQLCKDYENDEDVNKQLDKMGFNIGVRLIEDFLARSNVGRCHDFRETADVIAKVAFKMYLGITPSITNWSPAGDEFSLILENNPLVDFVELPDNHSSLIYSNLLCGVLRGALEMVQMAVEAKFVQDTLKGDGVTEIRMRFIRRI 1szb-a2-m1-cA_1szb-a2-m2-cA Crystal structure of the human MBL-associated protein 19 (MAp19) O00187 O00187 2.5 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 PLGPKWPEPVFGRLASPGFPGEYANDQERRWTLTAPPGYRLRLYFTHFDLELSHLCEYDFVKLSSGAKVLATLCGQESTDTERAPGKDTFYSLGSSLDITFRSDYSNEKPFTGFEAFYAAEDIDECQVAPGEAPTCDHHCHNHLGGFYCSCRAGYVLHRNKRTCSEQ PLGPKWPEPVFGRLASPGFPGEYANDQERRWTLTAPPGYRLRLYFTHFDLELSHLCEYDFVKLSSGAKVLATLCGQESTDTERAPGKDTFYSLGSSLDITFRSDYSNEKPFTGFEAFYAAEDIDECQVAPGEAPTCDHHCHNHLGGFYCSCRAGYVLHRNKRTCSEQ 1szb-a2-m2-cB_1szb-a2-m2-cA Crystal structure of the human MBL-associated protein 19 (MAp19) O00187 O00187 2.5 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 167 1szb-a1-m1-cB_1szb-a1-m1-cA 1szb-a2-m1-cB_1szb-a2-m1-cA LGPKWPEPVFGRLASPGFPGEYANDQERRWTLTAPPGYRLRLYFTHFDLELSHLCEYDFVKLSSGAKVLATLCGQESTDTERAPGKDTFYSLGSSLDITFRSDYSNEKPFTGFEAFYAAEDIDECQVAPGEAPTCDHHCHNHLGGFYCSCRAGYVLHRNKRTCSEQ PLGPKWPEPVFGRLASPGFPGEYANDQERRWTLTAPPGYRLRLYFTHFDLELSHLCEYDFVKLSSGAKVLATLCGQESTDTERAPGKDTFYSLGSSLDITFRSDYSNEKPFTGFEAFYAAEDIDECQVAPGEAPTCDHHCHNHLGGFYCSCRAGYVLHRNKRTCSEQ 1szd-a2-m1-cA_1szd-a2-m2-cA Structural basis for nicotinamide cleavage and ADP-ribose transfer by NAD+-dependent Sir2 histone/protein deacetylases P53686 P53686 1.5 X-RAY DIFFRACTION 74 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 291 291 1szc-a2-m1-cA_1szc-a2-m2-cA 2od2-a2-m1-cA_2od2-a2-m2-cA 2od7-a2-m1-cA_2od7-a2-m2-cA 2od9-a2-m1-cA_2od9-a2-m2-cA 2qqf-a1-m1-cA_2qqf-a1-m2-cA 2qqg-a2-m1-cA_2qqg-a2-m2-cA MASMSVSTASTEMSVRKIAAHMKSNPNAKVIFMVGAGISTSCGIPDFRSPGTGLYHNLARLKLPYPEAVFDVDFFQSDPLPFYTLAKELYPGNFRPSKFHYLLKLFQDKDVLKRVYTQNIDTLERQAGVKDDLIIEAHGSFAHCHCIGCGKVYPPQVFKSKLAEHPIKDFVKCDVCGELVKPAIVFFGEDLPDSFSETWLNDSEWLREKITTQQPLVIVVGTSLAVYPFASLPEEIPRKVKRVLCNLETVGDFKANKRPTDLIVHQYSDEFAEQLVEELGWQEDFEKILTA MASMSVSTASTEMSVRKIAAHMKSNPNAKVIFMVGAGISTSCGIPDFRSPGTGLYHNLARLKLPYPEAVFDVDFFQSDPLPFYTLAKELYPGNFRPSKFHYLLKLFQDKDVLKRVYTQNIDTLERQAGVKDDLIIEAHGSFAHCHCIGCGKVYPPQVFKSKLAEHPIKDFVKCDVCGELVKPAIVFFGEDLPDSFSETWLNDSEWLREKITTQQPLVIVVGTSLAVYPFASLPEEIPRKVKRVLCNLETVGDFKANKRPTDLIVHQYSDEFAEQLVEELGWQEDFEKILTA 1szo-a6-m1-cA_1szo-a6-m1-cD Crystal Structure Analysis of the 6-Oxo Camphor Hydrolase His122Ala Mutant Bound to Its Natural Product (2S,4S)-alpha-Campholinic Acid Q93TU6 Q93TU6 1.9 X-RAY DIFFRACTION 34 1.0 157732 (Rhodococcus sp. NCIMB 9784) 157732 (Rhodococcus sp. NCIMB 9784) 249 251 1o8u-a1-m1-cB_1o8u-a1-m1-cE 1o8u-a1-m1-cC_1o8u-a1-m1-cF 1o8u-a1-m1-cD_1o8u-a1-m1-cA 1szo-a5-m1-cG_1szo-a5-m1-cJ 1szo-a5-m1-cH_1szo-a5-m1-cK 1szo-a5-m1-cL_1szo-a5-m1-cI 1szo-a6-m1-cB_1szo-a6-m1-cE 1szo-a6-m1-cC_1szo-a6-m1-cF LATPFQEYSQKYENIRLERDGGVLLVTVHTEGKSLVWTSTAHDELAYCFHDIACDRENKVVILTGTGPSFCNEIDFTSFNLGTPHDWDEIIFEGQRLLNNLLSIEVPVIAAVNGPVTNAPEIPVMSDIVLAAESATFQDGPHFPSGIVPGDGAHVVWPHVLGSNRGRYFLLTGQELDARTALDYGAVNEVLSEQELLPRAWELARGIAEKPLLARRYARKVLTRQLRRVMEADLSLGLAHEALAAIDLG KQLATPFQEYSQKYENIRLERDGGVLLVTVHTEGKSLVWTSTAHDELAYCFHDIACDRENKVVILTGTGPSFCNEIDFTSFNLGTPHDWDEIIFEGQRLLNNLLSIEVPVIAAVNGPVTNAPEIPVMSDIVLAAESATFQDGPHFPSGIVPGDGAHVVWPHVLGSNRGRYFLLTGQELDARTALDYGAVNEVLSEQELLPRAWELARGIAEKPLLARRYARKVLTRQLRRVMEADLSLGLAHEALAAIDLG 1szo-a6-m1-cB_1szo-a6-m1-cF Crystal Structure Analysis of the 6-Oxo Camphor Hydrolase His122Ala Mutant Bound to Its Natural Product (2S,4S)-alpha-Campholinic Acid Q93TU6 Q93TU6 1.9 X-RAY DIFFRACTION 38 0.996 157732 (Rhodococcus sp. NCIMB 9784) 157732 (Rhodococcus sp. NCIMB 9784) 248 248 1o8u-a1-m1-cA_1o8u-a1-m1-cE 1o8u-a1-m1-cC_1o8u-a1-m1-cD 1o8u-a1-m1-cF_1o8u-a1-m1-cB 1szo-a5-m1-cG_1szo-a5-m1-cK 1szo-a5-m1-cH_1szo-a5-m1-cL 1szo-a5-m1-cI_1szo-a5-m1-cJ 1szo-a6-m1-cC_1szo-a6-m1-cD 1szo-a6-m1-cE_1szo-a6-m1-cA LATPFQEYSQKYENIRLERDGGVLLVTVHTEGKSLVWTSTAHDELAYCFHDIACDRENKVVILTGTGPSFCNEIDFTSFNLGTPHDWDEIIFEGQRLLNNLLSIEVPVIAAVNGPVTNAPEIPVMSDIVLAAESATFQDGPHFPSGIVPGDGAHVVWPHVLGSNRGRYFLLTGQELDARTALDYGAVNEVLSEQELLPRAWELARGIAEKPLLARRYARKVLTRQLRRVMEADLSLGLAHEALAAIDL ATPFQEYSQKYENIRLERDGGVLLVTVHTEGKSLVWTSTAHDELAYCFHDIACDRENKVVILTGTGPSFCNEIDFTSFNLGTPHDWDEIIFEGQRLLNNLLSIEVPVIAAVNGPVTNAPEIPVMSDIVLAAESATFQDGPHFPSGIVPGDGAHVVWPHVLGSNRGRYFLLTGQELDARTALDYGAVNEVLSEQELLPRAWELARGIAEKPLLARRYARKVLTRQLRRVMEADLSLGLAHEALAAIDLG 1szo-a6-m1-cC_1szo-a6-m1-cA Crystal Structure Analysis of the 6-Oxo Camphor Hydrolase His122Ala Mutant Bound to Its Natural Product (2S,4S)-alpha-Campholinic Acid Q93TU6 Q93TU6 1.9 X-RAY DIFFRACTION 85 1.0 157732 (Rhodococcus sp. NCIMB 9784) 157732 (Rhodococcus sp. NCIMB 9784) 248 249 1o8u-a1-m1-cA_1o8u-a1-m1-cB 1o8u-a1-m1-cC_1o8u-a1-m1-cA 1o8u-a1-m1-cC_1o8u-a1-m1-cB 1o8u-a1-m1-cD_1o8u-a1-m1-cE 1o8u-a1-m1-cD_1o8u-a1-m1-cF 1o8u-a1-m1-cF_1o8u-a1-m1-cE 1szo-a1-m1-cB_1szo-a1-m1-cA 1szo-a1-m1-cB_1szo-a1-m1-cC 1szo-a1-m1-cC_1szo-a1-m1-cA 1szo-a2-m1-cE_1szo-a2-m1-cD 1szo-a2-m1-cE_1szo-a2-m1-cF 1szo-a2-m1-cF_1szo-a2-m1-cD 1szo-a3-m1-cG_1szo-a3-m1-cI 1szo-a3-m1-cH_1szo-a3-m1-cG 1szo-a3-m1-cH_1szo-a3-m1-cI 1szo-a4-m1-cJ_1szo-a4-m1-cK 1szo-a4-m1-cL_1szo-a4-m1-cJ 1szo-a4-m1-cL_1szo-a4-m1-cK 1szo-a5-m1-cG_1szo-a5-m1-cI 1szo-a5-m1-cH_1szo-a5-m1-cG 1szo-a5-m1-cH_1szo-a5-m1-cI 1szo-a5-m1-cJ_1szo-a5-m1-cK 1szo-a5-m1-cL_1szo-a5-m1-cJ 1szo-a5-m1-cL_1szo-a5-m1-cK 1szo-a6-m1-cB_1szo-a6-m1-cA 1szo-a6-m1-cB_1szo-a6-m1-cC 1szo-a6-m1-cE_1szo-a6-m1-cD 1szo-a6-m1-cE_1szo-a6-m1-cF 1szo-a6-m1-cF_1szo-a6-m1-cD LATPFQEYSQKYENIRLERDGGVLLVTVHTEGKSLVWTSTAHDELAYCFHDIACDRENKVVILTGTGPSFCNEIDFTSFNLGTPHDWDEIIFEGQRLLNNLLSIEVPVIAAVNGPVTNAPEIPVMSDIVLAAESATFQDGPHFPSGIVPGDGAHVVWPHVLGSNRGRYFLLTGQELDARTALDYGAVNEVLSEQELLPRAWELARGIAEKPLLARRYARKVLTRQLRRVMEADLSLGLAHEALAAIDL LATPFQEYSQKYENIRLERDGGVLLVTVHTEGKSLVWTSTAHDELAYCFHDIACDRENKVVILTGTGPSFCNEIDFTSFNLGTPHDWDEIIFEGQRLLNNLLSIEVPVIAAVNGPVTNAPEIPVMSDIVLAAESATFQDGPHFPSGIVPGDGAHVVWPHVLGSNRGRYFLLTGQELDARTALDYGAVNEVLSEQELLPRAWELARGIAEKPLLARRYARKVLTRQLRRVMEADLSLGLAHEALAAIDLG 1szp-a2-m5-cB_1szp-a2-m5-cC A Crystal Structure of the Rad51 Filament P25454 P25454 3.25 X-RAY DIFFRACTION 68 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 274 274 1szp-a1-m1-cD_1szp-a1-m1-cA 1szp-a1-m2-cD_1szp-a1-m1-cA 1szp-a1-m2-cD_1szp-a1-m2-cA 1szp-a1-m3-cD_1szp-a1-m2-cA 1szp-a1-m3-cD_1szp-a1-m3-cA 1szp-a2-m1-cB_1szp-a2-m1-cC 1szp-a2-m1-cC_1szp-a2-m4-cB 1szp-a2-m4-cB_1szp-a2-m4-cC 1szp-a2-m4-cC_1szp-a2-m5-cB 1szp-a3-m1-cE_1szp-a3-m1-cF 1szp-a3-m1-cE_1szp-a3-m6-cF 1szp-a3-m6-cE_1szp-a3-m6-cF 1szp-a3-m6-cE_1szp-a3-m7-cF 1szp-a3-m7-cE_1szp-a3-m7-cF NGITMADVKKLRESGLHTAEAVAYAPRKDLLEIKGISEAKADKLLNEAARLVPMGFVTAADFHMRRSELICLTTGSKNLDTLLGGGVETGSITELFGEFRTGKSQLCHTLAVTCQIPLDIGGGEGKCLYIDTEGTFRPVRLVSIAQRFGLDPDDALNNVAYARAYNADHQLRLLDAAAQMMSESRFSLIVVDSVMALYRELSARQMHLAKFMRALQRLADQFGVAVVVTNQVGGNIMAHSSTTRLGFKKGKGCQRLCKVVECVFAIYEDGVGDP NGITMADVKKLRESGLHTAEAVAYAPRKDLLEIKGISEAKADKLLNEAARLVPMGFVTAADFHMRRSELICLTTGSKNLDTLLGGGVETGSITELFGEFRTGKSQLCHTLAVTCQIPLDIGGGEGKCLYIDTEGTFRPVRLVSIAQRFGLDPDDALNNVAYARAYNADHQLRLLDAAAQMMSESRFSLIVVDSVMALYRELSARQMHLAKFMRALQRLADQFGVAVVVTNQVGGNIMAHSSTTRLGFKKGKGCQRLCKVVECVFAIYEDGVGDP 1szq-a1-m1-cA_1szq-a1-m1-cB Crystal Structure of 2-methylcitrate dehydratase P77243 P77243 2.7 X-RAY DIFFRACTION 155 1.0 562 (Escherichia coli) 562 (Escherichia coli) 461 461 5mvi-a3-m1-cB_5mvi-a3-m1-cA EFDREIVDIVDYVNYEISSKVAYDTAHYCLLDTLGCGLEALEYPACKKLLGPIVPGTVVPNGVRVPGTQFQLDPVQAAFNIGAIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRNAVASGKAPLTKQVLTAIKAHEIQGCIALENSFNRVGLDHVLLVKVASTAVVAELGLTREEILNAVSLAWVDGQSLRTYRHAPNTGTRKSWAAGDATSRAVRLALAKTGEGYPSALTAPVWGFYDVSFKGESFRFQRPYGSYVENVLFKISFPAEFHSQTAVEAATLYEQQAAGKTAADIEKVTIRTHEACIRIIDKKGPLNNPADRDHCIQYVAIPLLFGRLTAADYEDNVAQDKRIDALREKINCFEDPAFTADYHDPEKRAIANAITLEFTDGTRFEEVVVEYPIGHARRRQDGIPKLVDKFKINLARQFPTRQQQRILEVSLDRARLEQPVNEYLDLYVI EFDREIVDIVDYVNYEISSKVAYDTAHYCLLDTLGCGLEALEYPACKKLLGPIVPGTVVPNGVRVPGTQFQLDPVQAAFNIGAIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRNAVASGKAPLTKQVLTAIKAHEIQGCIALENSFNRVGLDHVLLVKVASTAVVAELGLTREEILNAVSLAWVDGQSLRTYRHAPNTGTRKSWAAGDATSRAVRLALAKTGEGYPSALTAPVWGFYDVSFKGESFRFQRPYGSYVENVLFKISFPAEFHSQTAVEAATLYEQQAAGKTAADIEKVTIRTHEACIRIIDKKGPLNNPADRDHCIQYVAIPLLFGRLTAADYEDNVAQDKRIDALREKINCFEDPAFTADYHDPEKRAIANAITLEFTDGTRFEEVVVEYPIGHARRRQDGIPKLVDKFKINLARQFPTRQQQRILEVSLDRARLEQPVNEYLDLYVI 1t02-a2-m2-cA_1t02-a2-m3-cB Crystal structure of a Statin bound to class II HMG-CoA reductase P13702 P13702 2.6 X-RAY DIFFRACTION 77 1.0 32044 (Pseudomonas sp. 'mevalonii') 32044 (Pseudomonas sp. 'mevalonii') 371 374 1qax-a2-m1-cB_1qax-a2-m3-cA 1qax-a2-m2-cB_1qax-a2-m1-cA 1qax-a2-m3-cB_1qax-a2-m2-cA 1qay-a2-m1-cB_1qay-a2-m3-cA 1qay-a2-m2-cB_1qay-a2-m1-cA 1qay-a2-m3-cB_1qay-a2-m2-cA 1r31-a2-m1-cB_1r31-a2-m3-cA 1r31-a2-m2-cB_1r31-a2-m1-cA 1r31-a2-m3-cB_1r31-a2-m2-cA 1r7i-a2-m1-cA_1r7i-a2-m2-cB 1r7i-a2-m2-cA_1r7i-a2-m3-cB 1r7i-a2-m3-cA_1r7i-a2-m1-cB 1t02-a2-m1-cA_1t02-a2-m2-cB 1t02-a2-m3-cA_1t02-a2-m1-cB DSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALAT DSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALATEGI 1t02-a2-m3-cA_1t02-a2-m3-cB Crystal structure of a Statin bound to class II HMG-CoA reductase P13702 P13702 2.6 X-RAY DIFFRACTION 368 1.0 32044 (Pseudomonas sp. 'mevalonii') 32044 (Pseudomonas sp. 'mevalonii') 371 374 1qax-a1-m1-cB_1qax-a1-m1-cA 1qax-a2-m1-cB_1qax-a2-m1-cA 1qax-a2-m2-cB_1qax-a2-m2-cA 1qax-a2-m3-cB_1qax-a2-m3-cA 1qay-a1-m1-cB_1qay-a1-m1-cA 1qay-a2-m1-cB_1qay-a2-m1-cA 1qay-a2-m2-cB_1qay-a2-m2-cA 1qay-a2-m3-cB_1qay-a2-m3-cA 1r31-a1-m1-cB_1r31-a1-m1-cA 1r31-a2-m1-cB_1r31-a2-m1-cA 1r31-a2-m2-cB_1r31-a2-m2-cA 1r31-a2-m3-cB_1r31-a2-m3-cA 1r31-a3-m1-cB_1r31-a3-m1-cA 1r31-a3-m4-cB_1r31-a3-m4-cA 1r7i-a1-m1-cA_1r7i-a1-m1-cB 1r7i-a2-m1-cA_1r7i-a2-m1-cB 1r7i-a2-m2-cA_1r7i-a2-m2-cB 1r7i-a2-m3-cA_1r7i-a2-m3-cB 1r7i-a3-m1-cA_1r7i-a3-m1-cB 1r7i-a3-m4-cA_1r7i-a3-m4-cB 1t02-a1-m1-cA_1t02-a1-m1-cB 1t02-a2-m1-cA_1t02-a2-m1-cB 1t02-a2-m2-cA_1t02-a2-m2-cB 4i4b-a1-m1-cB_4i4b-a1-m1-cA 4i56-a1-m1-cA_4i56-a1-m1-cB 4i64-a1-m1-cA_4i64-a1-m1-cB 4i6a-a1-m1-cA_4i6a-a1-m1-cB 4i6w-a1-m1-cA_4i6w-a1-m1-cB 4i6y-a1-m1-cA_4i6y-a1-m1-cB DSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALAT DSRLPAFRNLSPAARLDHIGQLLGLSHDDVSLLANAGALPMDIANGMIENVIGTFELPYAVASNFQINGRDVLVPLVVEEPSIVAAASYMAKLARANGGFTTSSSAPLMHAQVQIVGIQDPLNARLSLLRRKDEIIELANRKDQLLNSLGGGCRDIEVHTFADTPRGPMLVAHLIVDVRDAMGANTVNTMAEAVAPLMEAITGGQVRLRILSNLADLRLARAQVRITPQQLETAEFSGEAVIEGILDAYAFAAVDPYRAATHNKGIMNGIDPLIVATGNDWRAVEAGAHAYACRSGHYGSLTTWEKDNNGHLVGTLEMPMPVGLVGGATKTHPLAQLSLRILGVKTAQALAEIAVAVGLAQNLGAMRALATEGI 1t06-a1-m1-cA_1t06-a1-m1-cB 1.9 A Crystal Structure of a Protein of Unknown Function from Bacillus cereus ATCC 14579 Q81BA8 Q81BA8 1.9 X-RAY DIFFRACTION 50 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 235 235 MDFKTVMQELEALGKERTKKIYISNGAHEPVFGVATGAMKPIAKKIKLNQELAEELYATGNYDAMYFAGIIADPKAMSESDFDRWIDGAYFYMLSDYVVAVTLSESNIAQDVADKWIASGDELKMSAGWSCYCWLLGNRKDNAFSESKISDMLEMVKDTIHHSPERTKSAMNNFLNTVAISYVPLHEKAVEIAKEVGIVEVKRDNKKSSLLNASESIQKELDRGRLGFKRKYVRC MDFKTVMQELEALGKERTKKIYISNGAHEPVFGVATGAMKPIAKKIKLNQELAEELYATGNYDAMYFAGIIADPKAMSESDFDRWIDGAYFYMLSDYVVAVTLSESNIAQDVADKWIASGDELKMSAGWSCYCWLLGNRKDNAFSESKISDMLEMVKDTIHHSPERTKSAMNNFLNTVAISYVPLHEKAVEIAKEVGIVEVKRDNKKSSLLNASESIQKELDRGRLGFKRKYVRC 1t0a-a1-m1-cB_1t0a-a1-m1-cC Crystal Structure of 2C-Methyl-D-Erythritol-2,4-cyclodiphosphate Synthase from Shewanella Oneidensis Q8EBR3 Q8EBR3 1.6 X-RAY DIFFRACTION 80 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 155 155 1t0a-a1-m1-cA_1t0a-a1-m1-cB 1t0a-a1-m1-cA_1t0a-a1-m1-cC KIRIGHGFDVHKFGEPRPLILCGVEVPYETGLVAHSDGDVVLHAISDAILGAALGDIGKHFPDTDAAYKGADSRVLLRHCYALAKAKGFELGNLDVTIIAQAPKAPHIEDRQVLAADLNADVADINVKATTTEKLGFTGRKEGIAVEAVVLLSRQ KIRIGHGFDVHKFGEPRPLILCGVEVPYETGLVAHSDGDVVLHAISDAILGAALGDIGKHFPDTDAAYKGADSRVLLRHCYALAKAKGFELGNLDVTIIAQAPKAPHIEDRQVLAADLNADVADINVKATTTEKLGFTGRKEGIAVEAVVLLSRQ 1t0b-a2-m1-cE_1t0b-a2-m1-cH Structure of ThuA-like protein from Bacillus stearothermophilus Q5KY38 Q5KY38 1.7 X-RAY DIFFRACTION 123 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 240 241 1t0b-a1-m1-cA_1t0b-a1-m1-cD 1t0b-a1-m1-cB_1t0b-a1-m1-cC 1t0b-a2-m1-cF_1t0b-a2-m1-cG TPIRVVVWNEFRHEKKDEQVRAIYPEGMHTVIASYLAEAGFDAATAVLDEPEHGLTDEVLDRCDVLVWWGHIAHDEVKDEVVERVHRRVLEGMGLIVLHSGHFSKIFKKLMGTTCNLKWREADEKERLWVVAPGHPIVEGIGPYIELEQEEMYGEFFDIPEPDETIFISWFEGGEVFRSGCTFTRGKGKIFYFRPGHETYPTYHHPDVLKVIANAVRWAAPVNRGEIVFGNVKPLEPIKA TPIRVVVWNEFRHEKKDEQVRAIYPEGMHTVIASYLAEAGFDAATAVLDEPEHGLTDEVLDRCDVLVWWGHIAHDEVKDEVVERVHRRVLEGMGLIVLHSGHFSKIFKKLMGTTCNLKWREADEKERLWVVAPGHPIVEGIGPYIELEQEEMYGEFFDIPEPDETIFISWFEGGEVFRSGCTFTRGKGKIFYFRPGHETYPTYHHPDVLKVIANAVRWAAPVNRGEIVFGNVKPLEPIKAK 1t0b-a2-m1-cF_1t0b-a2-m1-cH Structure of ThuA-like protein from Bacillus stearothermophilus Q5KY38 Q5KY38 1.7 X-RAY DIFFRACTION 51 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 241 241 1t0b-a1-m1-cA_1t0b-a1-m1-cC 1t0b-a1-m1-cB_1t0b-a1-m1-cD 1t0b-a2-m1-cE_1t0b-a2-m1-cG TPIRVVVWNEFRHEKKDEQVRAIYPEGMHTVIASYLAEAGFDAATAVLDEPEHGLTDEVLDRCDVLVWWGHIAHDEVKDEVVERVHRRVLEGMGLIVLHSGHFSKIFKKLMGTTCNLKWREADEKERLWVVAPGHPIVEGIGPYIELEQEEMYGEFFDIPEPDETIFISWFEGGEVFRSGCTFTRGKGKIFYFRPGHETYPTYHHPDVLKVIANAVRWAAPVNRGEIVFGNVKPLEPIKAK TPIRVVVWNEFRHEKKDEQVRAIYPEGMHTVIASYLAEAGFDAATAVLDEPEHGLTDEVLDRCDVLVWWGHIAHDEVKDEVVERVHRRVLEGMGLIVLHSGHFSKIFKKLMGTTCNLKWREADEKERLWVVAPGHPIVEGIGPYIELEQEEMYGEFFDIPEPDETIFISWFEGGEVFRSGCTFTRGKGKIFYFRPGHETYPTYHHPDVLKVIANAVRWAAPVNRGEIVFGNVKPLEPIKAK 1t0b-a2-m1-cH_1t0b-a2-m1-cG Structure of ThuA-like protein from Bacillus stearothermophilus Q5KY38 Q5KY38 1.7 X-RAY DIFFRACTION 51 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 241 242 1t0b-a1-m1-cA_1t0b-a1-m1-cB 1t0b-a1-m1-cC_1t0b-a1-m1-cD 1t0b-a2-m1-cE_1t0b-a2-m1-cF TPIRVVVWNEFRHEKKDEQVRAIYPEGMHTVIASYLAEAGFDAATAVLDEPEHGLTDEVLDRCDVLVWWGHIAHDEVKDEVVERVHRRVLEGMGLIVLHSGHFSKIFKKLMGTTCNLKWREADEKERLWVVAPGHPIVEGIGPYIELEQEEMYGEFFDIPEPDETIFISWFEGGEVFRSGCTFTRGKGKIFYFRPGHETYPTYHHPDVLKVIANAVRWAAPVNRGEIVFGNVKPLEPIKAK TPIRVVVWNEFRHEKKDEQVRAIYPEGMHTVIASYLAEAGFDAATAVLDEPEHGLTDEVLDRCDVLVWWGHIAHDEVKDEVVERVHRRVLEGMGLIVLHSGHFSKIFKKLMGTTCNLKWREADEKERLWVVAPGHPIVEGIGPYIELEQEEMYGEFFDIPEPDETIFISWFEGGEVFRSGCTFTRGKGKIFYFRPGHETYPTYHHPDVLKVIANAVRWAAPVNRGEIVFGNVKPLEPIKAKQ 1t0f-a3-m1-cB_1t0f-a3-m1-cA Crystal Structure of the TnsA/TnsC(504-555) complex P13988 P13988 1.85 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 262 264 SFSEVQIARRIKEGRGQGHGKDYIPWLTVQEVPSSGRSHRIYSHKTGRVHHLLSDLELAVFLSLEWESSVLDIREQFPLLPSDTRQIAIDSGIKHPVIRGVDQVMSTDFLVDCKDGPFEQFAIQVKPAAALQDERTLEKLELERRYWQQKQIPWFIFTDKEINPVVKENIEWLYSVKTEEVSAELLAQLSPLAHILQEKGDENIINVCKQVDIAYDLELGKTLSEIRALTANGFIKFNIYKSFRANKCADLCISQVVNMEEL NSSFSEVQIARRIKEGRGQGHGKDYIPWLTVQEVPSSGRSHRIYSHKTGRVHHLLSDLELAVFLSLEWESSVLDIREQFPLLPSDTRQIAIDSGIKHPVIRGVDQVMSTDFLVDCKDGPFEQFAIQVKPAAALQDERTLEKLELERRYWQQKQIPWFIFTDKEINPVVKENIEWLYSVKTEEVSAELLAQLSPLAHILQEKGDENIINVCKQVDIAYDLELGKTLSEIRALTANGFIKFNIYKSFRANKCADLCISQVVNMEEL 1t0i-a2-m2-cB_1t0i-a2-m1-cA YLR011wp, a Saccharomyces cerevisiae NA(D)PH-dependent FMN reductase Q07923 Q07923 2 X-RAY DIFFRACTION 11 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 177 185 1t0i-a2-m1-cB_1t0i-a2-m2-cA KVGIIMGSVRAKRVCPEIAAYVKRTIENSKIQVVDLQQIALPLYEDDDELIPAQIKSVDEYADSKTRSWSRIVNALDIIVFVTPQYNWGYPAALKNAIDRLYHEWHGKPALVVSYGGHGGSKCNDQLQEVLHGLKMNVIGGVAVKIPVGTIPLPEDIVPQLSVHNEEILQLLASCIE MKVGIIMGSVRAKRVCPEIAAYVKRTIENSEELIDQKLKIQVVDLQQIALPLYEDDDELIPAQIKSVDEYADSKTRSWSRIVNALDIIVFVTPQYNWGYPAALKNAIDRLYHEWHGKPALVVSYGGHGGSKCNDQLQEVLHGLKMNVIGGVAVKIPVGTIPLPEDIVPQLSVHNEEILQLLASCI 1t0i-a2-m2-cB_1t0i-a2-m2-cA YLR011wp, a Saccharomyces cerevisiae NA(D)PH-dependent FMN reductase Q07923 Q07923 2 X-RAY DIFFRACTION 86 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 177 185 1t0i-a1-m1-cB_1t0i-a1-m1-cA 1t0i-a2-m1-cB_1t0i-a2-m1-cA KVGIIMGSVRAKRVCPEIAAYVKRTIENSKIQVVDLQQIALPLYEDDDELIPAQIKSVDEYADSKTRSWSRIVNALDIIVFVTPQYNWGYPAALKNAIDRLYHEWHGKPALVVSYGGHGGSKCNDQLQEVLHGLKMNVIGGVAVKIPVGTIPLPEDIVPQLSVHNEEILQLLASCIE MKVGIIMGSVRAKRVCPEIAAYVKRTIENSEELIDQKLKIQVVDLQQIALPLYEDDDELIPAQIKSVDEYADSKTRSWSRIVNALDIIVFVTPQYNWGYPAALKNAIDRLYHEWHGKPALVVSYGGHGGSKCNDQLQEVLHGLKMNVIGGVAVKIPVGTIPLPEDIVPQLSVHNEEILQLLASCI 1t0t-a2-m5-cZ_1t0t-a2-m9-cZ Crystallographic structure of a putative chlorite dismutase Q5KUD5 Q5KUD5 1.75 X-RAY DIFFRACTION 36 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 243 243 1t0t-a2-m10-cV_1t0t-a2-m3-cX 1t0t-a2-m10-cV_1t0t-a2-m9-cW 1t0t-a2-m10-cW_1t0t-a2-m9-cV 1t0t-a2-m10-cX_1t0t-a2-m7-cW 1t0t-a2-m10-cX_1t0t-a2-m8-cV 1t0t-a2-m10-cY_1t0t-a2-m7-cY 1t0t-a2-m10-cZ_1t0t-a2-m3-cZ 1t0t-a2-m10-cZ_1t0t-a2-m8-cZ 1t0t-a2-m11-cV_1t0t-a2-m12-cW 1t0t-a2-m11-cV_1t0t-a2-m4-cX 1t0t-a2-m11-cW_1t0t-a2-m12-cV 1t0t-a2-m11-cW_1t0t-a2-m2-cX 1t0t-a2-m11-cX_1t0t-a2-m5-cW 1t0t-a2-m11-cX_1t0t-a2-m6-cV 1t0t-a2-m11-cY_1t0t-a2-m2-cY 1t0t-a2-m11-cY_1t0t-a2-m5-cY 1t0t-a2-m11-cZ_1t0t-a2-m4-cZ 1t0t-a2-m11-cZ_1t0t-a2-m6-cZ 1t0t-a2-m12-cV_1t0t-a2-m2-cX 1t0t-a2-m12-cW_1t0t-a2-m4-cX 1t0t-a2-m12-cX_1t0t-a2-m7-cV 1t0t-a2-m12-cX_1t0t-a2-m8-cW 1t0t-a2-m12-cY_1t0t-a2-m4-cY 1t0t-a2-m12-cY_1t0t-a2-m8-cY 1t0t-a2-m12-cZ_1t0t-a2-m2-cZ 1t0t-a2-m12-cZ_1t0t-a2-m7-cZ 1t0t-a2-m1-cV_1t0t-a2-m2-cW 1t0t-a2-m1-cV_1t0t-a2-m5-cX 1t0t-a2-m1-cW_1t0t-a2-m2-cV 1t0t-a2-m1-cW_1t0t-a2-m7-cX 1t0t-a2-m1-cX_1t0t-a2-m10-cW 1t0t-a2-m1-cX_1t0t-a2-m9-cV 1t0t-a2-m1-cY_1t0t-a2-m10-cY 1t0t-a2-m1-cY_1t0t-a2-m7-cY 1t0t-a2-m1-cZ_1t0t-a2-m5-cZ 1t0t-a2-m1-cZ_1t0t-a2-m9-cZ 1t0t-a2-m2-cV_1t0t-a2-m7-cX 1t0t-a2-m2-cW_1t0t-a2-m5-cX 1t0t-a2-m2-cY_1t0t-a2-m5-cY 1t0t-a2-m2-cZ_1t0t-a2-m7-cZ 1t0t-a2-m3-cV_1t0t-a2-m4-cW 1t0t-a2-m3-cV_1t0t-a2-m8-cX 1t0t-a2-m3-cW_1t0t-a2-m4-cV 1t0t-a2-m3-cW_1t0t-a2-m6-cX 1t0t-a2-m3-cX_1t0t-a2-m9-cW 1t0t-a2-m3-cY_1t0t-a2-m6-cY 1t0t-a2-m3-cY_1t0t-a2-m9-cY 1t0t-a2-m3-cZ_1t0t-a2-m8-cZ 1t0t-a2-m4-cV_1t0t-a2-m6-cX 1t0t-a2-m4-cW_1t0t-a2-m8-cX 1t0t-a2-m4-cY_1t0t-a2-m8-cY 1t0t-a2-m4-cZ_1t0t-a2-m6-cZ 1t0t-a2-m5-cV_1t0t-a2-m6-cW 1t0t-a2-m5-cV_1t0t-a2-m9-cX 1t0t-a2-m5-cW_1t0t-a2-m6-cV 1t0t-a2-m6-cW_1t0t-a2-m9-cX 1t0t-a2-m6-cY_1t0t-a2-m9-cY 1t0t-a2-m7-cV_1t0t-a2-m8-cW 1t0t-a2-m7-cW_1t0t-a2-m8-cV QTLDGWYCLHDFRTIDWSAWKTLPNEEREAAISEFLALVDQWETTESEKQGSHAVYTIVGQKADILFMILRPTLDELHEIETALNKTKLADYLLPAYSYVSVVELSNYLASGSEDPYQIPEVRRRLYPILPKTNYICFYPMDKRRQGNDNWYMLSMEQRRELMRAHGMTGRKYAGKVTQIITGSVGLDDFEWGVTLFSDDALQFKKLVYEMRFDEVSARFGEFGSFFVGTRLPMENVSSFFHV QTLDGWYCLHDFRTIDWSAWKTLPNEEREAAISEFLALVDQWETTESEKQGSHAVYTIVGQKADILFMILRPTLDELHEIETALNKTKLADYLLPAYSYVSVVELSNYLASGSEDPYQIPEVRRRLYPILPKTNYICFYPMDKRRQGNDNWYMLSMEQRRELMRAHGMTGRKYAGKVTQIITGSVGLDDFEWGVTLFSDDALQFKKLVYEMRFDEVSARFGEFGSFFVGTRLPMENVSSFFHV 1t0t-a2-m9-cX_1t0t-a2-m9-cZ Crystallographic structure of a putative chlorite dismutase Q5KUD5 Q5KUD5 1.75 X-RAY DIFFRACTION 93 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 243 243 1t0t-a1-m1-cV_1t0t-a1-m1-cW 1t0t-a1-m1-cV_1t0t-a1-m1-cZ 1t0t-a1-m1-cW_1t0t-a1-m1-cY 1t0t-a1-m1-cX_1t0t-a1-m1-cY 1t0t-a1-m1-cX_1t0t-a1-m1-cZ 1t0t-a2-m10-cV_1t0t-a2-m10-cW 1t0t-a2-m10-cV_1t0t-a2-m10-cZ 1t0t-a2-m10-cW_1t0t-a2-m10-cY 1t0t-a2-m10-cX_1t0t-a2-m10-cY 1t0t-a2-m10-cX_1t0t-a2-m10-cZ 1t0t-a2-m11-cV_1t0t-a2-m11-cW 1t0t-a2-m11-cV_1t0t-a2-m11-cZ 1t0t-a2-m11-cW_1t0t-a2-m11-cY 1t0t-a2-m11-cX_1t0t-a2-m11-cY 1t0t-a2-m11-cX_1t0t-a2-m11-cZ 1t0t-a2-m12-cV_1t0t-a2-m12-cW 1t0t-a2-m12-cV_1t0t-a2-m12-cZ 1t0t-a2-m12-cW_1t0t-a2-m12-cY 1t0t-a2-m12-cX_1t0t-a2-m12-cY 1t0t-a2-m12-cX_1t0t-a2-m12-cZ 1t0t-a2-m1-cV_1t0t-a2-m1-cW 1t0t-a2-m1-cV_1t0t-a2-m1-cZ 1t0t-a2-m1-cW_1t0t-a2-m1-cY 1t0t-a2-m1-cX_1t0t-a2-m1-cY 1t0t-a2-m1-cX_1t0t-a2-m1-cZ 1t0t-a2-m2-cV_1t0t-a2-m2-cW 1t0t-a2-m2-cV_1t0t-a2-m2-cZ 1t0t-a2-m2-cW_1t0t-a2-m2-cY 1t0t-a2-m2-cX_1t0t-a2-m2-cY 1t0t-a2-m2-cX_1t0t-a2-m2-cZ 1t0t-a2-m3-cV_1t0t-a2-m3-cW 1t0t-a2-m3-cV_1t0t-a2-m3-cZ 1t0t-a2-m3-cW_1t0t-a2-m3-cY 1t0t-a2-m3-cX_1t0t-a2-m3-cY 1t0t-a2-m3-cX_1t0t-a2-m3-cZ 1t0t-a2-m4-cV_1t0t-a2-m4-cW 1t0t-a2-m4-cV_1t0t-a2-m4-cZ 1t0t-a2-m4-cW_1t0t-a2-m4-cY 1t0t-a2-m4-cX_1t0t-a2-m4-cY 1t0t-a2-m4-cX_1t0t-a2-m4-cZ 1t0t-a2-m5-cV_1t0t-a2-m5-cW 1t0t-a2-m5-cV_1t0t-a2-m5-cZ 1t0t-a2-m5-cW_1t0t-a2-m5-cY 1t0t-a2-m5-cX_1t0t-a2-m5-cY 1t0t-a2-m5-cX_1t0t-a2-m5-cZ 1t0t-a2-m6-cV_1t0t-a2-m6-cW 1t0t-a2-m6-cV_1t0t-a2-m6-cZ 1t0t-a2-m6-cW_1t0t-a2-m6-cY 1t0t-a2-m6-cX_1t0t-a2-m6-cY 1t0t-a2-m6-cX_1t0t-a2-m6-cZ 1t0t-a2-m7-cV_1t0t-a2-m7-cW 1t0t-a2-m7-cV_1t0t-a2-m7-cZ 1t0t-a2-m7-cW_1t0t-a2-m7-cY 1t0t-a2-m7-cX_1t0t-a2-m7-cY 1t0t-a2-m7-cX_1t0t-a2-m7-cZ 1t0t-a2-m8-cV_1t0t-a2-m8-cW 1t0t-a2-m8-cV_1t0t-a2-m8-cZ 1t0t-a2-m8-cW_1t0t-a2-m8-cY 1t0t-a2-m8-cX_1t0t-a2-m8-cY 1t0t-a2-m8-cX_1t0t-a2-m8-cZ 1t0t-a2-m9-cV_1t0t-a2-m9-cW 1t0t-a2-m9-cV_1t0t-a2-m9-cZ 1t0t-a2-m9-cW_1t0t-a2-m9-cY 1t0t-a2-m9-cX_1t0t-a2-m9-cY 5t2k-a1-m1-cA_5t2k-a1-m1-cB 5t2k-a1-m1-cA_5t2k-a1-m1-cE 5t2k-a1-m1-cC_5t2k-a1-m1-cB 5t2k-a1-m1-cC_5t2k-a1-m1-cD 5t2k-a1-m1-cE_5t2k-a1-m1-cD 6vsa-a1-m1-cV_6vsa-a1-m1-cW 6vsa-a1-m1-cV_6vsa-a1-m1-cZ 6vsa-a1-m1-cW_6vsa-a1-m1-cY 6vsa-a1-m1-cX_6vsa-a1-m1-cY 6vsa-a1-m1-cX_6vsa-a1-m1-cZ 6vsc-a1-m1-cV_6vsc-a1-m1-cW 6vsc-a1-m1-cV_6vsc-a1-m1-cZ 6vsc-a1-m1-cW_6vsc-a1-m1-cY 6vsc-a1-m1-cX_6vsc-a1-m1-cY 6vsc-a1-m1-cX_6vsc-a1-m1-cZ QTLDGWYCLHDFRTIDWSAWKTLPNEEREAAISEFLALVDQWETTESEKQGSHAVYTIVGQKADILFMILRPTLDELHEIETALNKTKLADYLLPAYSYVSVVELSNYLASGSEDPYQIPEVRRRLYPILPKTNYICFYPMDKRRQGNDNWYMLSMEQRRELMRAHGMTGRKYAGKVTQIITGSVGLDDFEWGVTLFSDDALQFKKLVYEMRFDEVSARFGEFGSFFVGTRLPMENVSSFFHV QTLDGWYCLHDFRTIDWSAWKTLPNEEREAAISEFLALVDQWETTESEKQGSHAVYTIVGQKADILFMILRPTLDELHEIETALNKTKLADYLLPAYSYVSVVELSNYLASGSEDPYQIPEVRRRLYPILPKTNYICFYPMDKRRQGNDNWYMLSMEQRRELMRAHGMTGRKYAGKVTQIITGSVGLDDFEWGVTLFSDDALQFKKLVYEMRFDEVSARFGEFGSFFVGTRLPMENVSSFFHV 1t0u-a1-m2-cA_1t0u-a1-m3-cB Crystal structure of E.coli uridine phosphorylase at 2.2 A resolution (Type-A Native) P12758 P12758 2.2 X-RAY DIFFRACTION 76 1.0 562 (Escherichia coli) 562 (Escherichia coli) 223 251 1lx7-a1-m1-cB_1lx7-a1-m3-cA 1t0u-a1-m1-cA_1t0u-a1-m2-cB 1y1t-a1-m1-cF_1y1t-a1-m2-cA 1y1t-a1-m2-cF_1y1t-a1-m3-cA 2hsw-a1-m1-cB_2hsw-a1-m2-cA 2hsw-a1-m2-cB_2hsw-a1-m3-cA KSDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTTMKQTESHAVKIVVEAARRLL KSDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRHFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQEIPNAETMKQTESHAVKIVVEAARRLL 1t0u-a1-m3-cA_1t0u-a1-m3-cB Crystal structure of E.coli uridine phosphorylase at 2.2 A resolution (Type-A Native) P12758 P12758 2.2 X-RAY DIFFRACTION 105 1.0 562 (Escherichia coli) 562 (Escherichia coli) 223 251 1t0u-a1-m1-cA_1t0u-a1-m1-cB 1t0u-a1-m2-cA_1t0u-a1-m2-cB KSDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTTMKQTESHAVKIVVEAARRLL KSDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRHFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQEIPNAETMKQTESHAVKIVVEAARRLL 1t0z-a7-m3-cA_1t0z-a7-m3-cB Structure of an Excitatory Insect-specific Toxin with an Analgesic Effect on Mammalian from Scorpion Buthus martensii Karsch O77091 O77091 2.6 X-RAY DIFFRACTION 18 1.0 34649 (Mesobuthus martensii) 34649 (Mesobuthus martensii) 72 72 1t0z-a3-m1-cA_1t0z-a3-m1-cB 1t0z-a3-m2-cA_1t0z-a3-m2-cB 1t0z-a3-m3-cA_1t0z-a3-m3-cB 1t0z-a3-m4-cA_1t0z-a3-m4-cB 1t0z-a7-m1-cA_1t0z-a7-m1-cB KKNGYAVDSSGKVAECLFNNYCNNECTKVYYADKGYCCLLKCYCFGLADDKPVLDIWDSTKNYCDVQIIDLS KKNGYAVDSSGKVAECLFNNYCNNECTKVYYADKGYCCLLKCYCFGLADDKPVLDIWDSTKNYCDVQIIDLS 1t0z-a8-m1-cA_1t0z-a8-m3-cB Structure of an Excitatory Insect-specific Toxin with an Analgesic Effect on Mammalian from Scorpion Buthus martensii Karsch O77091 O77091 2.6 X-RAY DIFFRACTION 11 1.0 34649 (Mesobuthus martensii) 34649 (Mesobuthus martensii) 72 72 1t0z-a3-m1-cA_1t0z-a3-m3-cB 1t0z-a3-m1-cB_1t0z-a3-m3-cA 1t0z-a3-m2-cA_1t0z-a3-m4-cB 1t0z-a3-m2-cB_1t0z-a3-m4-cA 1t0z-a4-m1-cA_1t0z-a4-m3-cB 1t0z-a4-m2-cA_1t0z-a4-m4-cB 1t0z-a5-m1-cA_1t0z-a5-m3-cB 1t0z-a5-m5-cA_1t0z-a5-m6-cB 1t0z-a7-m1-cA_1t0z-a7-m3-cB 1t0z-a7-m1-cB_1t0z-a7-m3-cA KKNGYAVDSSGKVAECLFNNYCNNECTKVYYADKGYCCLLKCYCFGLADDKPVLDIWDSTKNYCDVQIIDLS KKNGYAVDSSGKVAECLFNNYCNNECTKVYYADKGYCCLLKCYCFGLADDKPVLDIWDSTKNYCDVQIIDLS 1t0z-a9-m1-cA_1t0z-a9-m5-cA Structure of an Excitatory Insect-specific Toxin with an Analgesic Effect on Mammalian from Scorpion Buthus martensii Karsch O77091 O77091 2.6 X-RAY DIFFRACTION 33 1.0 34649 (Mesobuthus martensii) 34649 (Mesobuthus martensii) 72 72 1t0z-a5-m1-cA_1t0z-a5-m5-cA 1t0z-a6-m1-cA_1t0z-a6-m5-cA KKNGYAVDSSGKVAECLFNNYCNNECTKVYYADKGYCCLLKCYCFGLADDKPVLDIWDSTKNYCDVQIIDLS KKNGYAVDSSGKVAECLFNNYCNNECTKVYYADKGYCCLLKCYCFGLADDKPVLDIWDSTKNYCDVQIIDLS 1t10-a1-m1-cA_1t10-a1-m2-cA Phosphoglucose isomerase from Leishmania mexicana in complex with substrate D-fructose-6-phosphate P42861 P42861 2.35 X-RAY DIFFRACTION 374 1.0 44270 (Leishmania mexicana mexicana) 44270 (Leishmania mexicana mexicana) 556 556 1q50-a1-m1-cA_1q50-a1-m2-cA SLLNLPAWKRLQSLYEKYGNDSILSHFEKDHQRFQRYSIEIDLHSDDNFLFLDYSKSHINDEIKDALVALAEERGVRAFAKAMFDGQRVNSTENRAVLHVALRNRSNRPIIVDGKDVMSDVNNVLAQMKDFTERVRSGEWKGQTGKSIYNIVNIGIGGSDLGPVMVTEALKPFSKRDLHCFFVSNVDGTHMAEVLKQVNLEETIFIIASKTFTTQETLTNAMSARNALMSYLKENGISTDGAVAKHFVALSTNTEKVREFGIDTVNMFAFWDWVGGRYSVWSAIGLSVMLSIGYDNFVEFLTGAHVMDNHFASTPTEQNLPMMLALVGIWYNNFFGSETQAVLPYDQYLWRLPAYLQQLDMESNGKGVTKKSGAVAVQTGPIVFGEAGTNGQHAFYQLIHQGTKIIPCDFIGCVQTQNRVGDHHRTLMSNFFAQTEALMVGKNAEEVRQELVKSGMSGDAIENMIPHKTFTGSRPSNSILVNALTPRALGAIIAMYEHKVLVQGAIWGINSYDQWGVELGKVLAKSILPQLKSGNIVSDHDGSTNGLINMFNTRAH SLLNLPAWKRLQSLYEKYGNDSILSHFEKDHQRFQRYSIEIDLHSDDNFLFLDYSKSHINDEIKDALVALAEERGVRAFAKAMFDGQRVNSTENRAVLHVALRNRSNRPIIVDGKDVMSDVNNVLAQMKDFTERVRSGEWKGQTGKSIYNIVNIGIGGSDLGPVMVTEALKPFSKRDLHCFFVSNVDGTHMAEVLKQVNLEETIFIIASKTFTTQETLTNAMSARNALMSYLKENGISTDGAVAKHFVALSTNTEKVREFGIDTVNMFAFWDWVGGRYSVWSAIGLSVMLSIGYDNFVEFLTGAHVMDNHFASTPTEQNLPMMLALVGIWYNNFFGSETQAVLPYDQYLWRLPAYLQQLDMESNGKGVTKKSGAVAVQTGPIVFGEAGTNGQHAFYQLIHQGTKIIPCDFIGCVQTQNRVGDHHRTLMSNFFAQTEALMVGKNAEEVRQELVKSGMSGDAIENMIPHKTFTGSRPSNSILVNALTPRALGAIIAMYEHKVLVQGAIWGINSYDQWGVELGKVLAKSILPQLKSGNIVSDHDGSTNGLINMFNTRAH 1t11-a2-m2-cB_1t11-a2-m1-cA Trigger Factor Q9KQS5 Q9KQS5 2.5 X-RAY DIFFRACTION 59 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 374 376 1t11-a2-m1-cB_1t11-a2-m2-cA HMQVTVETLEGLQRRLNITVPAANIEDAVAAELRNIAKNRRFDGFRKGKVPMKMVAKMYGKAVRQDVLGEVMQRHFIEAIVKEKINPAGAPTFAPVEIGEGKDLVFTATFEVYPEVELKGLENIAVEKPADADVAEMLETLRKQQATWKEVDEAAENGKRVSIDFVGSIDGVEFEGGKAENFPLEMGAGRMIPGFEDGIVGKTKGMEFVIDVTFPEDYHAENLKGKAAKFAIKVNKVEARELPELNDEFVARFGVAEGGVDALKAEVRKNMERELKQAIKARIKEQAIEGLVKENEIQVPSALIDQEINVLRQQAAQRFGGNVEAAAQLPRELFEEQAKRRVVVGLLLGEVIRTHELKADEEKVKALITEMATA HMQVTVETLEGLQRRLNITVPAANIEDAVAAELRNIAKNRRFDGFRKGKVPMKMVAKMYGKAVRQDVLGEVMQRHFIEAIVKEKINPAGAPTFAPVEIGEGKDLVFTATFEVYPEVELKGLENIAVEKPAADADVAEMLETLRKQQATWKEVDEAAENGKRVSIDFVGSIDGVEFEGGKAENFPLEMGAGRMIPGFEDGIVGKTKGMEFVIDVTFPEDYHAENLKGKAAKFAIKVNKVEARELPELNDEFVARFGVAEGGVDALKAEVRKNMERELKQAIKARIKEQAIEGLVKENEIQVPSALIDQEINVLRQQAAQRFGGNVEAAAQLPRELFEEQAKRRVVVGLLLGEVIRTHELKADEEKVKALITEMATAY 1t11-a2-m2-cB_1t11-a2-m2-cA Trigger Factor Q9KQS5 Q9KQS5 2.5 X-RAY DIFFRACTION 141 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 374 376 1t11-a1-m1-cB_1t11-a1-m1-cA 1t11-a2-m1-cB_1t11-a2-m1-cA HMQVTVETLEGLQRRLNITVPAANIEDAVAAELRNIAKNRRFDGFRKGKVPMKMVAKMYGKAVRQDVLGEVMQRHFIEAIVKEKINPAGAPTFAPVEIGEGKDLVFTATFEVYPEVELKGLENIAVEKPADADVAEMLETLRKQQATWKEVDEAAENGKRVSIDFVGSIDGVEFEGGKAENFPLEMGAGRMIPGFEDGIVGKTKGMEFVIDVTFPEDYHAENLKGKAAKFAIKVNKVEARELPELNDEFVARFGVAEGGVDALKAEVRKNMERELKQAIKARIKEQAIEGLVKENEIQVPSALIDQEINVLRQQAAQRFGGNVEAAAQLPRELFEEQAKRRVVVGLLLGEVIRTHELKADEEKVKALITEMATA HMQVTVETLEGLQRRLNITVPAANIEDAVAAELRNIAKNRRFDGFRKGKVPMKMVAKMYGKAVRQDVLGEVMQRHFIEAIVKEKINPAGAPTFAPVEIGEGKDLVFTATFEVYPEVELKGLENIAVEKPAADADVAEMLETLRKQQATWKEVDEAAENGKRVSIDFVGSIDGVEFEGGKAENFPLEMGAGRMIPGFEDGIVGKTKGMEFVIDVTFPEDYHAENLKGKAAKFAIKVNKVEARELPELNDEFVARFGVAEGGVDALKAEVRKNMERELKQAIKARIKEQAIEGLVKENEIQVPSALIDQEINVLRQQAAQRFGGNVEAAAQLPRELFEEQAKRRVVVGLLLGEVIRTHELKADEEKVKALITEMATAY 1t1d-a1-m2-cA_1t1d-a1-m4-cA CRYSTAL STRUCTURE OF THE TETRAMERIZATION DOMAIN OF THE SHAKER POTASSIUM CHANNEL Q16968 Q16968 1.51 X-RAY DIFFRACTION 37 1.0 6500 (Aplysia californica) 6500 (Aplysia californica) 100 100 1a68-a1-m1-cA_1a68-a1-m2-cA 1a68-a1-m1-cA_1a68-a1-m3-cA 1a68-a1-m2-cA_1a68-a1-m4-cA 1a68-a1-m3-cA_1a68-a1-m4-cA 1t1d-a1-m1-cA_1t1d-a1-m3-cA 1t1d-a1-m1-cA_1t1d-a1-m4-cA 1t1d-a1-m2-cA_1t1d-a1-m3-cA ERVVINVSGLRFETQLKTLNQFPDTLLGNPQKRNRYYDPLRNEYFFDRNRPSFDAILYFYQSGGRLRRPVNVPLDVFSEEIKFYELGENAFERYREDEGF ERVVINVSGLRFETQLKTLNQFPDTLLGNPQKRNRYYDPLRNEYFFDRNRPSFDAILYFYQSGGRLRRPVNVPLDVFSEEIKFYELGENAFERYREDEGF 1t1j-a3-m1-cA_1t1j-a3-m2-cB Crystal structure of genomics APC5043 Q9I3M0 Q9I3M0 1.7 X-RAY DIFFRACTION 83 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 125 HMRKIFLACPYSHADAEVVEQRFRACNEVAATIVRAGHVVFSQVSMSHPINLCLAELDRAAIGRLWAPVDAFYMDHLEELIVLDLPGWRDSAGIRREMEFFEAGGQRVSLWSEVEHEFR NLYFQGHMRKIFLACPYSHADAEVVEQRFRACNEVAATIVRAGHVVFSQVSMSHPINLCLAELDRAAIGRLWAPVDAFYMDHLEELIVLDLPGWRDSAGIRREMEFFEAGGQRVSLWSEVEHEFR 1t1v-a1-m1-cA_1t1v-a1-m1-cB Crystal Structure of the Glutaredoxin-like Protein SH3BGRL3 at 1.6 A resolution Q91VW3 Q91VW3 1.6 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 93 93 MSGLRVYSTSVTGSREIKSQQSEVTRILDGKRIQYQLVDISQDNALRDEMRTLAGNPKATPPQIVNGNHYCGDYELFVEAVEQDTLQEFLKLA MSGLRVYSTSVTGSREIKSQQSEVTRILDGKRIQYQLVDISQDNALRDEMRTLAGNPKATPPQIVNGNHYCGDYELFVEAVEQDTLQEFLKLA 1t31-a2-m2-cA_1t31-a2-m1-cA A Dual Inhibitor of the Leukocyte Proteases Cathepsin G and Chymase with Therapeutic Efficacy in Animals Models of Inflammation P23946 P23946 1.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 226 IIGGTECKPHSRPYMAYLEIVTSNGPSKFCGGFLIRRNFVLTAAHCAGRSITVTLGAHNITEEEDTWQKLEVIKQFRHPKYNTSTLHHDIMLLKLKEKASLTLAVGTLPFPSQKNFVPPGRMCRVAGWGRTGVLKPGSDTLQEVKLRLMDPQACSHFRDFDHNLQLCVGNPRKTKSAFKGDSGGPLLCAGAAQGIVSYGRSDAKPPAVFTRISHYQPWINQILQAN IIGGTECKPHSRPYMAYLEIVTSNGPSKFCGGFLIRRNFVLTAAHCAGRSITVTLGAHNITEEEDTWQKLEVIKQFRHPKYNTSTLHHDIMLLKLKEKASLTLAVGTLPFPSQKNFVPPGRMCRVAGWGRTGVLKPGSDTLQEVKLRLMDPQACSHFRDFDHNLQLCVGNPRKTKSAFKGDSGGPLLCAGAAQGIVSYGRSDAKPPAVFTRISHYQPWINQILQAN 1t33-a1-m1-cB_1t33-a1-m1-cA Structural Genomics, The crystal structure of a putative transcriptional repressor (TetR/AcrR family) from Salmonella typhimurim LT2 Q8ZQN9 Q8ZQN9 2.2 X-RAY DIFFRACTION 176 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 214 220 TTKGEQAKSQLIAAALAQFGEYGLHATTRDIAALAGQNIAAITYYFGSKEDLYLACAQWIADFLGEKFRPHAEKAERLFSQPAPDRDAIRELILLACKNMIMLLTQEDTVNLSKFISREQLSPTSAYQLVHEQVIDPLHTHLTRLVAAYTGCDANDTRMILHTHALLGEVLAFRLGKETILLRTGWPQFDEEKAELIYQTVTCHIDLILHGLTQ MNIPTTTTKGEQAKSQLIAAALAQFGEYGLHATTRDIAALAGQNIAAITYYFGSKEDLYLACAQWIADFLGEKFRPHAEKAERLFSQPAPDRDAIRELILLACKNMIMLLTQEDTVNLSKFISREQLSPTSAYQLVHEQVIDPLHTHLTRLVAAYTGCDANDTRMILHTHALLGEVLAFRLGKETILLRTGWPQFDEEKAELIYQTVTCHIDLILHGLTQ 1t35-a1-m1-cC_1t35-a1-m1-cG CRYSTAL STRUCTURE OF A HYPOTHETICAL PROTEIN YVDD- A PUTATIVE LYSINE DECARBOXYLASE O06986 O06986 2.72 X-RAY DIFFRACTION 25 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 167 167 1t35-a1-m1-cA_1t35-a1-m1-cC 1t35-a1-m1-cA_1t35-a1-m1-cF 1t35-a1-m1-cB_1t35-a1-m1-cD 1t35-a1-m1-cB_1t35-a1-m1-cE 1t35-a1-m1-cD_1t35-a1-m1-cH 1t35-a1-m1-cH_1t35-a1-m1-cE KTICVFAGSNPGGNEAYKRKAAELGVYAEQGIGLVYGGSRVGLGTIADAIENGGTAIGVPSGLFSGEVVHQNLTELIEVNGHERKAKSELADGFISPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPKVKYSIQEGFSNESHLKLIHSSSRPDELIEQQNY KTICVFAGSNPGGNEAYKRKAAELGVYAEQGIGLVYGGSRVGLGTIADAIENGGTAIGVPSGLFSGEVVHQNLTELIEVNGHERKAKSELADGFISPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPKVKYSIQEGFSNESHLKLIHSSSRPDELIEQQNY 1t35-a1-m1-cD_1t35-a1-m1-cG CRYSTAL STRUCTURE OF A HYPOTHETICAL PROTEIN YVDD- A PUTATIVE LYSINE DECARBOXYLASE O06986 O06986 2.72 X-RAY DIFFRACTION 68 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 167 167 1t35-a1-m1-cA_1t35-a1-m1-cE 1t35-a1-m1-cB_1t35-a1-m1-cC 1t35-a1-m1-cH_1t35-a1-m1-cF KTICVFAGSNPGGNEAYKRKAAELGVYAEQGIGLVYGGSRVGLGTIADAIENGGTAIGVPSGLFSGEVVHQNLTELIEVNGHERKAKSELADGFISPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPKVKYSIQEGFSNESHLKLIHSSSRPDELIEQQNY KTICVFAGSNPGGNEAYKRKAAELGVYAEQGIGLVYGGSRVGLGTIADAIENGGTAIGVPSGLFSGEVVHQNLTELIEVNGHERKAKSELADGFISPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPKVKYSIQEGFSNESHLKLIHSSSRPDELIEQQNY 1t35-a1-m1-cE_1t35-a1-m1-cF CRYSTAL STRUCTURE OF A HYPOTHETICAL PROTEIN YVDD- A PUTATIVE LYSINE DECARBOXYLASE O06986 O06986 2.72 X-RAY DIFFRACTION 81 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 172 172 1t35-a1-m1-cA_1t35-a1-m1-cB 1t35-a1-m1-cC_1t35-a1-m1-cD 1t35-a1-m1-cG_1t35-a1-m1-cH KTICVFAGSNPGGNEAYKRKAAELGVYAEQGIGLVYGGSRVGLGTIADAIENGGTAIGVPSGLFSGEVVHQNLTELIEVNGHERKAKSELADGFISPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPKVKYSIQEGFSNESHLKLIHSSSRPDELIEQQNYSYPIL KTICVFAGSNPGGNEAYKRKAAELGVYAEQGIGLVYGGSRVGLGTIADAIENGGTAIGVPSGLFSGEVVHQNLTELIEVNGHERKAKSELADGFISPGGFGTYEELFEVLCWAQIGIHQKPIGLYNVNGYFEPKVKYSIQEGFSNESHLKLIHSSSRPDELIEQQNYSYPIL 1t3b-a1-m1-cA_1t3b-a1-m2-cA X-ray Structure of DsbC from Haemophilus influenzae P45111 P45111 2.5 X-RAY DIFFRACTION 66 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 209 209 DAAIKRKLQSFNISNIVIKSSPISGIKTAVTDQGILYVSEDGKYLFEGKLYELTNNGPVDVAGKILVDKLNSYKDEMIVYPAKNEKHVVTVFMDITCHYCHLLHQQLKEYNDLGITVRYLAFPRAGMNNQTAKQMEAIWTAKDPVFALNEAEKGNLPKEVKTPNIVKKHYELGIQFGVRGTPSIVTSTGELIGGYLKPADLLRALEETA DAAIKRKLQSFNISNIVIKSSPISGIKTAVTDQGILYVSEDGKYLFEGKLYELTNNGPVDVAGKILVDKLNSYKDEMIVYPAKNEKHVVTVFMDITCHYCHLLHQQLKEYNDLGITVRYLAFPRAGMNNQTAKQMEAIWTAKDPVFALNEAEKGNLPKEVKTPNIVKKHYELGIQFGVRGTPSIVTSTGELIGGYLKPADLLRALEETA 1t3c-a1-m1-cB_1t3c-a1-m1-cA Clostridium botulinum type E catalytic domain E212Q mutant Q00496 Q00496 1.9 X-RAY DIFFRACTION 63 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 409 411 1t3a-a1-m1-cB_1t3a-a1-m1-cA 1zkw-a1-m1-cB_1zkw-a1-m1-cA 1zkx-a1-m1-cB_1zkx-a1-m1-cA 1zkx-a2-m1-cB_1zkx-a2-m1-cA 1zkx-a2-m2-cB_1zkx-a2-m2-cA 1zl5-a1-m1-cB_1zl5-a1-m1-cA 1zl5-a2-m1-cB_1zl5-a2-m1-cA 1zl5-a2-m2-cB_1zl5-a2-m2-cA 1zl6-a1-m1-cB_1zl6-a1-m1-cA 1zn3-a1-m1-cB_1zn3-a1-m1-cA PKINSFNYNDPVNDRTILYIKPGGCQEFYKSFNIMKNIWIIPERNVIGTTPQDFHPPTSLKNGDSSYYDPNYLQSDEEKDRFLKIVTKIFNRINNNLSGGILLEELSKANPYLGNDNTPDNQFHIGDASAVEIKFSNGSQDILLPNVIIMGAEPDLFETNSSNISLRNNYMPSNHGFGSIAIVTFSPEYSFRFNDNSMNEFIQDPALTLMHQLIHSLHGLYGAKGITTKYTITQKQNPLITNIRGTNIEEFLTFGGTDLNIITSAQSNDIYTNLLADYKKIASKLSKVQVSNPLLNPYKDVFEAKYGLDKDASGIYSVNINKFNDIFKKLYSFTEFDLATKFQVKCRQTYIGQYKYFKLSNLLNDSIYNISEGYNINNLKVNFRGQNANLNPRIITPITGRGLVKKIIR PKINSFNYNDPVNDRTILYIKPGGCQEFYKSFNIMKNIWIIPERNVIGTTPQDFHPPTSLKNGDSSYYDPNYLQSDEEKDRFLKIVTKIFNRINNNLSGGILLEELSKANPYLGNDNTPDNQFHIGDASAVEIKFSNGSQDILLPNVIIMGAEPDLFETNSSNISLRNNYMPSNHGFGSIAIVTFSPEYSFRFNDNSMNEFIQDPALTLMHQLIHSLHGLYGAKGITTKYTITQKQNPLITNIRGTNIEEFLTFGGTDLNIITSAQSNDIYTNLLADYKKIASKLSKVQVSNPLLNPYKDVFEAKYGLDKDASGIYSVNINKFNDIFKKLYSFTEFDLATKFQVKCRQTYIGQYKYFKLSNLLNDSIYNISEGYNINNLKVNFRGQNANLNPRIITPITGRGLVKKIIRFC 1t3g-a1-m1-cB_1t3g-a1-m1-cA Crystal structure of the Toll/interleukin-1 receptor (TIR) domain of human IL-1RAPL Q9NZN1 Q9NZN1 2.3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 147 KDYDAYLSYTKVTGEEERFALEILPDLEKHYGYKLFIPDRDLIPTGTYIEDVARCVDQSKRLIIVTPNYVVRRGWSIFELETRLRNLVTGEIKVILIECSELRGINYQEVEALKHTIKLLTVIKWHGPKCNKLNSKFWKRLQYEPF KDYDAYLSYTKVDTGEEERFALEILPDLEKHYGYKLFIPDRDLIPTGTYIEDVARCVDQSKRLIIVTPNYVVRRGWSIFELETRLRNLVTGEIKVILIECSELRGINYQEVEALKHTIKLLTVIKWHGPKCNKLNSKFWKRLQYEPF 1t3i-a1-m1-cB_1t3i-a1-m1-cA Structure of slr0077/SufS, the Essential Cysteine Desulfurase from Synechocystis PCC 6803 Q55793 Q55793 1.8 X-RAY DIFFRACTION 272 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 405 406 PSLAATVRQDFPILNQEINGHPLVYLDNAATSQKPRAVLEKLMHYYENDNANVAHQLSVRATDAYEAVRNKVAKFINARSPREIVYTRNATEAINLVAYSWGMNNLKAGDEIITTVMEHHSNLVPWQMVAAKTGAVLKFVQLDEQESFDLEHFKTLLSEKTKLVTVVHISNTLGCVNPAEEIAQLAHQAGAKVLVDACQSAPHYPLDVQLIDCDWLVASGHKMCAPTGIGFLYGKEEILEAMPPFFGGGEMIAEVFFDHFTTGELPHKFEAGTPAIAEAIALGAAVDYLTDLGMENIHNYEVELTHYLWQGLGQIPQLRLYGPNPKHGDRAALASFNVAGLHASDVATMVDQDGIAIRSGHHCTQPLHRLFDASGSARASLYFYNTKEEIDLFLQSLQATIRFFS PSLAATVRQDFPILNQEINGHPLVYLDNAATSQKPRAVLEKLMHYYENDNANVGAHQLSVRATDAYEAVRNKVAKFINARSPREIVYTRNATEAINLVAYSWGMNNLKAGDEIITTVMEHHSNLVPWQMVAAKTGAVLKFVQLDEQESFDLEHFKTLLSEKTKLVTVVHISNTLGCVNPAEEIAQLAHQAGAKVLVDACQSAPHYPLDVQLIDCDWLVASGHKMCAPTGIGFLYGKEEILEAMPPFFGGGEMIAEVFFDHFTTGELPHKFEAGTPAIAEAIALGAAVDYLTDLGMENIHNYEVELTHYLWQGLGQIPQLRLYGPNPKHGDRAALASFNVAGLHASDVATMVDQDGIAIRSGHHCTQPLHRLFDASGSARASLYFYNTKEEIDLFLQSLQATIRFFS 1t3j-a1-m1-cA_1t3j-a1-m2-cA Mitofusin domain HR2 V686M/I708M mutant Q811U4 Q811U4 2.5 X-RAY DIFFRACTION 76 1.0 10090 (Mus musculus) 10090 (Mus musculus) 62 62 ATTFARLCQQVDMTQKHLEEEIARLSKEIDQLEKMQNNSKLLRNKAVQLESELENFSKQFLH ATTFARLCQQVDMTQKHLEEEIARLSKEIDQLEKMQNNSKLLRNKAVQLESELENFSKQFLH 1t3q-a1-m1-cB_1t3q-a1-m1-cE Crystal structure of quinoline 2-Oxidoreductase from Pseudomonas Putida 86 P72224 P72224 1.8 X-RAY DIFFRACTION 180 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 786 786 MMKHEVVALKKKSIGTSVLRREDTRLLTGRGRYIADLVLSGMLHVASLRSPFAHARIVSIDVADAQALPGVELVWCGADVAELSQGIVATMQVEGFQTTIQPLLANGVTRFVGEIVAVVVASSRAIAEDAAQLIQVEYEELPAVTGIEAALEGEARANDTLAGNVVSRTSRARDELAPIFASSAGVVRGQFSCGRVSACPMETRGAVAQYEWTTQQLILWTATQMPSFVRTMVAMFCAIPEHLIEVRVPDVGGGFGQKAHLHPEELLVCLLSRALGRPVRWIEDRQENFLGATHAKQQRNEMGLAFDGDGRFLALENRSITDGGAYNNLPWTQLVESHVGNAVILGVYKVPAVSEESIAVATNKCPIGAYRGVGFTAGQIARETLIDRAARQLGLSPFEIRRRNVVMPEDFPFTNRLGQTHREGTYLQTINLLEEMVNPEAFRQRQAEARARGKYLGLGVSVFNEVTGTGTRTLSFLGTPTTTHDSATVRIDPTGKVTVTTSLASSGQGHETTLAQIAADVLGVPASDVVIQAGSTKNTYGFGAYASRGAVIGAGSIGRAASIVRERVKQLAGHLLEAASEDIVIEDGLVHVAGVPAKGMPFAEVVGAAYFADATHPPGFDATLEATATYDPSDLVLANGGHAAIVEIDASTYATRVTDFFAVEDCGTMINPMIVEGQIRGGIAQAIGQTLLEEVIYDDFGQLVTTTLMDYLIPTTLDVPDIRIRHLETPSPLVPGGIKGMGESAMISAPAAVVAAVNDALAHLEVVIETVPITPERIFRSIQERP MMKHEVVALKKKSIGTSVLRREDTRLLTGRGRYIADLVLSGMLHVASLRSPFAHARIVSIDVADAQALPGVELVWCGADVAELSQGIVATMQVEGFQTTIQPLLANGVTRFVGEIVAVVVASSRAIAEDAAQLIQVEYEELPAVTGIEAALEGEARANDTLAGNVVSRTSRARDELAPIFASSAGVVRGQFSCGRVSACPMETRGAVAQYEWTTQQLILWTATQMPSFVRTMVAMFCAIPEHLIEVRVPDVGGGFGQKAHLHPEELLVCLLSRALGRPVRWIEDRQENFLGATHAKQQRNEMGLAFDGDGRFLALENRSITDGGAYNNLPWTQLVESHVGNAVILGVYKVPAVSEESIAVATNKCPIGAYRGVGFTAGQIARETLIDRAARQLGLSPFEIRRRNVVMPEDFPFTNRLGQTHREGTYLQTINLLEEMVNPEAFRQRQAEARARGKYLGLGVSVFNEVTGTGTRTLSFLGTPTTTHDSATVRIDPTGKVTVTTSLASSGQGHETTLAQIAADVLGVPASDVVIQAGSTKNTYGFGAYASRGAVIGAGSIGRAASIVRERVKQLAGHLLEAASEDIVIEDGLVHVAGVPAKGMPFAEVVGAAYFADATHPPGFDATLEATATYDPSDLVLANGGHAAIVEIDASTYATRVTDFFAVEDCGTMINPMIVEGQIRGGIAQAIGQTLLEEVIYDDFGQLVTTTLMDYLIPTTLDVPDIRIRHLETPSPLVPGGIKGMGESAMISAPAAVVAAVNDALAHLEVVIETVPITPERIFRSIQERP 1t3u-a1-m1-cA_1t3u-a1-m1-cC Unknown conserved bacterial protein from Pseudomonas aeruginosa PAO1 Q9HTW3 Q9HTW3 2.5 X-RAY DIFFRACTION 23 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 90 90 1w2e-a1-m1-cB_1w2e-a1-m2-cB TLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRALAN TLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRALAN 1t3u-a1-m1-cD_1t3u-a1-m1-cB Unknown conserved bacterial protein from Pseudomonas aeruginosa PAO1 Q9HTW3 Q9HTW3 2.5 X-RAY DIFFRACTION 15 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 89 91 1w2e-a1-m1-cA_1w2e-a1-m2-cA SNTLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRA SNTLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRALA 1t3w-a3-m1-cA_1t3w-a3-m2-cA Crystal Structure of the E.coli DnaG C-terminal domain (residues 434 to 581) P0ABS5 P0ABS5 2.8 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 131 131 KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAK KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAK 1t3w-a3-m1-cA_1t3w-a3-m2-cB Crystal Structure of the E.coli DnaG C-terminal domain (residues 434 to 581) P0ABS5 P0ABS5 2.8 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 131 132 1t3w-a3-m2-cA_1t3w-a3-m1-cB KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAK KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAKK 1t3w-a3-m1-cB_1t3w-a3-m2-cB Crystal Structure of the E.coli DnaG C-terminal domain (residues 434 to 581) P0ABS5 P0ABS5 2.8 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 132 132 KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAKK KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAKK 1t3w-a3-m2-cA_1t3w-a3-m2-cB Crystal Structure of the E.coli DnaG C-terminal domain (residues 434 to 581) P0ABS5 P0ABS5 2.8 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 131 132 1t3w-a3-m1-cA_1t3w-a3-m1-cB KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAK KRTTRILIGLLVQNPELATLVPPLENLDENKLPGLGLFRELVNTCLSQPGLTTGQLLEHYRGTNNAATLEKLSWDDIADKNIAEQTFTDSLNHFDSLLELRQEELIARERTHGLSNEERLELWTLNQELAKK 1t47-a1-m1-cA_1t47-a1-m1-cB Structure of fe2-HPPD bound to NTBC Q53586 Q53586 2.5 X-RAY DIFFRACTION 100 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 362 362 DPFPVKGMDAVVFAVGNAKQAAHYYSTAFGMQLVAYSGPENGSRETASYVLTNGSARFVLTSVIKPATPWGHFLADHVAEHGDGVVDLAIEVPDARAAHAYAIEHGARSVAEPYELKDEHGTVVLAAIATYGKTRHTLVDRTGYDGPYLPGYVAAAPIVEPPAHRTFQAIDHCVGNVELGRMNEWVGFYNKVMGFTNMKEFVGDDIATEYSALMSKVVADGTLKVKFPINEPALAKKKSQIDEYLEFYGGAGVQHIALNTGDIVETVRTMRAAGVQFLDTPDSYYDTLGEWVGDTRVPVDTLRELKILADRDEDGYLLQIFTKPVQDRPTVFFEIIERHGSMGFGKGNFKALFEAIEREQEK DPFPVKGMDAVVFAVGNAKQAAHYYSTAFGMQLVAYSGPENGSRETASYVLTNGSARFVLTSVIKPATPWGHFLADHVAEHGDGVVDLAIEVPDARAAHAYAIEHGARSVAEPYELKDEHGTVVLAAIATYGKTRHTLVDRTGYDGPYLPGYVAAAPIVEPPAHRTFQAIDHCVGNVELGRMNEWVGFYNKVMGFTNMKEFVGDDIATEYSALMSKVVADGTLKVKFPINEPALAKKKSQIDEYLEFYGGAGVQHIALNTGDIVETVRTMRAAGVQFLDTPDSYYDTLGEWVGDTRVPVDTLRELKILADRDEDGYLLQIFTKPVQDRPTVFFEIIERHGSMGFGKGNFKALFEAIEREQEK 1t4a-a1-m1-cA_1t4a-a1-m2-cA Structure of B. Subtilis PurS C2 Crystal Form P12049 P12049 2 X-RAY DIFFRACTION 55 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 76 YKVKVYVSLKESVLDPQGSAVQHALHSTYNEVQDVRIGKYELTIEKSDRDLDVLVKECEKLLANTVIEDYRYEVEE YKVKVYVSLKESVLDPQGSAVQHALHSTYNEVQDVRIGKYELTIEKSDRDLDVLVKECEKLLANTVIEDYRYEVEE 1t4a-a1-m1-cB_1t4a-a1-m2-cB Structure of B. Subtilis PurS C2 Crystal Form P12049 P12049 2 X-RAY DIFFRACTION 41 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 76 YKVKVYVSLKESVLDPQGSAVQHALHSTYNEVQDVRIGKYELTIEKSDRDLDVLVKECEKLLANTVIEDYRYEVEE YKVKVYVSLKESVLDPQGSAVQHALHSTYNEVQDVRIGKYELTIEKSDRDLDVLVKECEKLLANTVIEDYRYEVEE 1t4a-a1-m2-cA_1t4a-a1-m2-cB Structure of B. Subtilis PurS C2 Crystal Form P12049 P12049 2 X-RAY DIFFRACTION 74 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 76 1t4a-a1-m1-cA_1t4a-a1-m1-cB 1twj-a1-m1-cA_1twj-a1-m1-cB 1twj-a1-m1-cC_1twj-a1-m1-cD YKVKVYVSLKESVLDPQGSAVQHALHSTYNEVQDVRIGKYELTIEKSDRDLDVLVKECEKLLANTVIEDYRYEVEE YKVKVYVSLKESVLDPQGSAVQHALHSTYNEVQDVRIGKYELTIEKSDRDLDVLVKECEKLLANTVIEDYRYEVEE 1t4d-a2-m1-cC_1t4d-a2-m2-cC Crystal structure of Escherichia coli aspartate beta-semialdehyde dehydrogenase (EcASADH), at 1.95 Angstrom resolution P0A9Q9 P0A9Q9 1.95 X-RAY DIFFRACTION 244 1.0 562 (Escherichia coli) 562 (Escherichia coli) 367 367 1brm-a1-m1-cA_1brm-a1-m1-cB 1brm-a2-m1-cC_1brm-a2-m2-cC 1gl3-a1-m1-cA_1gl3-a1-m1-cB 1t4b-a1-m1-cA_1t4b-a1-m1-cB 1t4d-a1-m1-cA_1t4d-a1-m1-cB MQNVGFIGWRGMVGSVLMQRMVEERDFDAIRPVFFSTSQLGQAAPSFGGTTGTLQDAFDLEALKALDIIVTCQGGDYTNEIYPKLRESGWQGYWIDAASSLRMKDDAIIILDPVNQDVITDGLNNGIRTFVGGNCTVSLMLMSLGGLFANDLVDWVSVATYQAASGGGARHMRELLTQMGHLYGHVADELATPSSAILDIERKVTTLTRSGELPVDNFGVPLAGSLIPWIDKQLDNGQSREEWKGQAETNKILNTSSVIPVDGLCVRVGALRCHSQAFTIKLKKDVSIPTVEELLAAHNPWAKVVPNDREITMRELTPAAVTGTLTTPVGRLRKLNMGPEFLSAFTVGDQLLWGAAEPLRRMLRQLA MQNVGFIGWRGMVGSVLMQRMVEERDFDAIRPVFFSTSQLGQAAPSFGGTTGTLQDAFDLEALKALDIIVTCQGGDYTNEIYPKLRESGWQGYWIDAASSLRMKDDAIIILDPVNQDVITDGLNNGIRTFVGGNCTVSLMLMSLGGLFANDLVDWVSVATYQAASGGGARHMRELLTQMGHLYGHVADELATPSSAILDIERKVTTLTRSGELPVDNFGVPLAGSLIPWIDKQLDNGQSREEWKGQAETNKILNTSSVIPVDGLCVRVGALRCHSQAFTIKLKKDVSIPTVEELLAAHNPWAKVVPNDREITMRELTPAAVTGTLTTPVGRLRKLNMGPEFLSAFTVGDQLLWGAAEPLRRMLRQLA 1t4k-a4-m3-cB_1t4k-a4-m1-cD Crystal Structure of Unliganded Aldolase Antibody 93F3 Fab 2.5 X-RAY DIFFRACTION 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 217 217 1t4k-a3-m2-cD_1t4k-a3-m1-cB EVMLVESGPGLVAPSQSLSITCTVSGFSLSDYGVSWIRQPPGKGLEWLGVIWGDGSTYYASALKFRLTISKDSSKSQVFLNMHSLQTDDSAMYYCAKHTYGGPGDSWGQGTSVTVSSASTTPPSVFPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR EVMLVESGPGLVAPSQSLSITCTVSGFSLSDYGVSWIRQPPGKGLEWLGVIWGDGSTYYASALKFRLTISKDSSKSQVFLNMHSLQTDDSAMYYCAKHTYGGPGDSWGQGTSVTVSSASTTPPSVFPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR 1t57-a1-m1-cA_1t57-a1-m2-cB Crystal Structure of the Conserved Protein MTH1675 from Methanobacterium thermoautotrophicum O27711 O27711 2.3 X-RAY DIFFRACTION 15 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 179 179 1t57-a1-m1-cA_1t57-a1-m1-cC 1t57-a1-m1-cB_1t57-a1-m2-cA 1t57-a1-m1-cB_1t57-a1-m2-cC 1t57-a1-m1-cC_1t57-a1-m2-cB 1t57-a1-m2-cA_1t57-a1-m2-cC EKKICYFEEPGKENTERVLELVGERADQLGIRNFVVASVSGETALRLSEVEGNIVSVTHHAGFREKGQLELEDEARDALLERGVNVYAGSHALSGVGRGISNRFGGVTPVEIAETLRVSQGFKVCVEIAIAADAGLIPVDEEVIAIGGTAWGADTALVLTPAHNSVFDLRIHEVIAPRP EKKICYFEEPGKENTERVLELVGERADQLGIRNFVVASVSGETALRLSEVEGNIVSVTHHAGFREKGQLELEDEARDALLERGVNVYAGSHALSGVGRGISNRFGGVTPVEIAETLRVSQGFKVCVEIAIAADAGLIPVDEEVIAIGGTAWGADTALVLTPAHNSVFDLRIHEVIAPRP 1t57-a1-m2-cA_1t57-a1-m2-cB Crystal Structure of the Conserved Protein MTH1675 from Methanobacterium thermoautotrophicum O27711 O27711 2.3 X-RAY DIFFRACTION 55 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 179 179 1t57-a1-m1-cA_1t57-a1-m1-cB 1t57-a1-m1-cC_1t57-a1-m2-cC EKKICYFEEPGKENTERVLELVGERADQLGIRNFVVASVSGETALRLSEVEGNIVSVTHHAGFREKGQLELEDEARDALLERGVNVYAGSHALSGVGRGISNRFGGVTPVEIAETLRVSQGFKVCVEIAIAADAGLIPVDEEVIAIGGTAWGADTALVLTPAHNSVFDLRIHEVIAPRP EKKICYFEEPGKENTERVLELVGERADQLGIRNFVVASVSGETALRLSEVEGNIVSVTHHAGFREKGQLELEDEARDALLERGVNVYAGSHALSGVGRGISNRFGGVTPVEIAETLRVSQGFKVCVEIAIAADAGLIPVDEEVIAIGGTAWGADTALVLTPAHNSVFDLRIHEVIAPRP 1t57-a1-m2-cB_1t57-a1-m2-cC Crystal Structure of the Conserved Protein MTH1675 from Methanobacterium thermoautotrophicum O27711 O27711 2.3 X-RAY DIFFRACTION 137 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 179 179 1t57-a1-m1-cA_1t57-a1-m2-cA 1t57-a1-m1-cB_1t57-a1-m1-cC EKKICYFEEPGKENTERVLELVGERADQLGIRNFVVASVSGETALRLSEVEGNIVSVTHHAGFREKGQLELEDEARDALLERGVNVYAGSHALSGVGRGISNRFGGVTPVEIAETLRVSQGFKVCVEIAIAADAGLIPVDEEVIAIGGTAWGADTALVLTPAHNSVFDLRIHEVIAPRP EKKICYFEEPGKENTERVLELVGERADQLGIRNFVVASVSGETALRLSEVEGNIVSVTHHAGFREKGQLELEDEARDALLERGVNVYAGSHALSGVGRGISNRFGGVTPVEIAETLRVSQGFKVCVEIAIAADAGLIPVDEEVIAIGGTAWGADTALVLTPAHNSVFDLRIHEVIAPRP 1t5b-a1-m1-cB_1t5b-a1-m1-cA Structural genomics, A protein from Salmonella typhimurium similar to E. coli acyl carrier protein phosphodiesterase P63462 P63462 1.4 X-RAY DIFFRACTION 84 1.0 198 199 MSKVLVLKSSILAGYSQSGQLTDYFIEQWREKHVADEITVRDLAANPVPVLDGELVGAMRAPLTPRQQDALALSDELIAELKAHDVIVIAAPMYNFNIPTQLKNYFDLIARAGITFRYTEKGPEGLVTGKRAVVLSSRGGIHKDTPTDLIAPYLKVFLGFIGITDVNFVFAEGIAYGPEVAAKAQADAKAAIDSVVAA MSKVLVLKSSILAGYSQSGQLTDYFIEQWREKHVADEITVRDLAANPVPVLDGELVGAMRDAPLTPRQQDALALSDELIAELKAHDVIVIAAPMYNFNIPTQLKNYFDLIARAGITFRYTEKGPEGLVTGKRAVVLSSRGGIHKDTPTDLIAPYLKVFLGFIGITDVNFVFAEGIAYGPEVAAKAQADAKAAIDSVVAA 1t5o-a2-m1-cC_1t5o-a2-m1-cD Crystal structure of the translation initiation factor eIF-2B, subunit delta, from A. fulgidus O29877 O29877 1.9 X-RAY DIFFRACTION 194 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 340 340 1t5o-a1-m1-cA_1t5o-a1-m1-cB SLRSIFWDDGLKLIDQTKLPEKLEVIECRNVEELADAIKKLAVRGAPALEAAGAYGIALAAREREFADVDELKEHLKKAADFLASTRPTAVNLFVGIERALNAALKGESVEEVKELALREAEKLAEEDVERNRKMGEYGAELLEDGDVVLTYCNAGRLATVDWGTALGVVRSAVEQGKEIRVIACETRPLNQGSRLTCWELMEDGIDVTLITDSMVGIVMQKGMVDKVIVGADRIVRDAVFNKIGTYTVSVVAKHHNIPFYVAAPKATFDWERTAKDVVIEERPREELIFCGKRQIAPLNVKVYNPAFDPTPLENVTALITEYGVIYPPYEVNVPKVLKF SLRSIFWDDGLKLIDQTKLPEKLEVIECRNVEELADAIKKLAVRGAPALEAAGAYGIALAAREREFADVDELKEHLKKAADFLASTRPTAVNLFVGIERALNAALKGESVEEVKELALREAEKLAEEDVERNRKMGEYGAELLEDGDVVLTYCNAGRLATVDWGTALGVVRSAVEQGKEIRVIACETRPLNQGSRLTCWELMEDGIDVTLITDSMVGIVMQKGMVDKVIVGADRIVRDAVFNKIGTYTVSVVAKHHNIPFYVAAPKATFDWERTAKDVVIEERPREELIFCGKRQIAPLNVKVYNPAFDPTPLENVTALITEYGVIYPPYEVNVPKVLKF 1t5r-a1-m1-cA_1t5r-a1-m1-cH STRUCTURE OF THE PANTON-VALENTINE LEUCOCIDIN S COMPONENT FROM STAPHYLOCOCCUS AUREUS Q783R1 Q783R1 2 X-RAY DIFFRACTION 11 0.996 71366 (Staphylococcus phage PVL) 71366 (Staphylococcus phage PVL) 265 270 1t5r-a1-m1-cD_1t5r-a1-m1-cC NIENIGAEVVKRTEDTSSDKWGVTQNIQFDFVKDKKYNKDALILKMQGFINSKTTYYNYKNTDHIKAMRWPFQYNIGLKTNDPNVDLINYLPKNKIDSVNVSQTLGYNIGGNFNSSFNYSKTISYNQQNYISEVEHQNSKSVQWGIKANSFITKMSGHDPNLFVGYKPYSQNPRDYFVPDNELPPLVHSGFNPSFIATVSHEKGSGDTSEFEITYGRNMDVTHATRRTNSYLEGSRIHNAFVNRNYTVKYEVNWKTHEIKVKGHN NIENIGDGAEVVKRTEDTSSDKWGVTQNIQFDFVKDKKYNKDALILKMQGFINSKTTYYNYKNTDHIKAMRWPFQYNIGLKTNDPNVDLINYLPKNKIDSVNVSQTLGYNIGGNFNSFNYSKTISYNQQNYISEVEHQNSKSVQWGIKANSFITGKMSGHDPNLFVGYKPYSQNPRDYFVPDNELPPLVHSGFNPSFIATVSHEKGSGDTSEFEITYGRNMDVTHATRRTTYGNSYLEGSRIHNAFVNRNYTVKYEVNWKTHEIKVKGHN 1t5r-a1-m1-cF_1t5r-a1-m1-cH STRUCTURE OF THE PANTON-VALENTINE LEUCOCIDIN S COMPONENT FROM STAPHYLOCOCCUS AUREUS Q783R1 Q783R1 2 X-RAY DIFFRACTION 15 0.993 71366 (Staphylococcus phage PVL) 71366 (Staphylococcus phage PVL) 269 270 1t5r-a1-m1-cA_1t5r-a1-m1-cE 1t5r-a1-m1-cC_1t5r-a1-m1-cB 1t5r-a1-m1-cD_1t5r-a1-m1-cG NIENIGDGAEVVKRTEDTSSDKWGVTQNIQFDFVKDKKYNKDALILKMQGFINSKTTYYNYKNTDHIKAMRWPFQYNIGLKTNDPNVDLINYLPKNKIDSVNVSQTLGYNIGGNFNSGSFNYSKTISYNQQNYISEVEHQNSKSVQWGIKANSFIGKMSGHDPNLFVGYKPYSQNPRDYFVPDNELPPLVHSGFNPSFIATVSHEKGGDTSEFEITYGRNMDVTHATRRTTGNSYLEGSRIHNAFVNRNYTVKYEVNWKTHEIKVKGHN NIENIGDGAEVVKRTEDTSSDKWGVTQNIQFDFVKDKKYNKDALILKMQGFINSKTTYYNYKNTDHIKAMRWPFQYNIGLKTNDPNVDLINYLPKNKIDSVNVSQTLGYNIGGNFNSFNYSKTISYNQQNYISEVEHQNSKSVQWGIKANSFITGKMSGHDPNLFVGYKPYSQNPRDYFVPDNELPPLVHSGFNPSFIATVSHEKGSGDTSEFEITYGRNMDVTHATRRTTYGNSYLEGSRIHNAFVNRNYTVKYEVNWKTHEIKVKGHN 1t5r-a1-m1-cH_1t5r-a1-m1-cE STRUCTURE OF THE PANTON-VALENTINE LEUCOCIDIN S COMPONENT FROM STAPHYLOCOCCUS AUREUS Q783R1 Q783R1 2 X-RAY DIFFRACTION 22 0.989 71366 (Staphylococcus phage PVL) 71366 (Staphylococcus phage PVL) 270 271 1t5r-a1-m1-cA_1t5r-a1-m1-cF 1t5r-a1-m1-cC_1t5r-a1-m1-cG 1t5r-a1-m1-cD_1t5r-a1-m1-cB NIENIGDGAEVVKRTEDTSSDKWGVTQNIQFDFVKDKKYNKDALILKMQGFINSKTTYYNYKNTDHIKAMRWPFQYNIGLKTNDPNVDLINYLPKNKIDSVNVSQTLGYNIGGNFNSFNYSKTISYNQQNYISEVEHQNSKSVQWGIKANSFITGKMSGHDPNLFVGYKPYSQNPRDYFVPDNELPPLVHSGFNPSFIATVSHEKGSGDTSEFEITYGRNMDVTHATRRTTYGNSYLEGSRIHNAFVNRNYTVKYEVNWKTHEIKVKGHN NIENIGDGAEVVKRTEDTSSDKWGVTQNIQFDFVKDKKYNKDALILKMQGFINSKTTYYNYKNTDHIKAMRWPFQYNIGLKTNDPNVDLINYLPKNKIDSVNVSQTLGYNIGGNFNSGGSFNYSKTISYNQQNYISEVEHQNSKSVQWGIKANSFKMSGHDPNLFVGYKPYSQNPRDYFVPDNELPPLVHSGFNPSFIATVSHEKGSGDTSEFEITYGRNMDVTHATRRTTHYGNSYLEGSRIHNAFVNRNYTVKYEVNWKTHEIKVKGHN 1t62-a1-m1-cA_1t62-a1-m1-cB Crystal structure of protein EF3133 from Enterococcus faecalis V583, Pfam DUF984 Q82ZD1 Q82ZD1 3 X-RAY DIFFRACTION 121 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 153 163 MLKNVEVFWQNFLDKHELDMLMPDVWMFGDGSSEMGNRLGQLVVSGRKTATCSSLDIYKMEEEQLPKAGQYDIILDGQSQPLAIIRTTKVEIMPMNKVSESFAQAEGLDYWYEEHARFFKEELAPYQLQFYPDMLLVCQSFEVVDLYTHHHHH MLKNVEVFWQNFLDKHELDMLMPDVWMFGDGSSEMGNRLGQLVVSGRKTATCSSLDIYKMEEEQLPKAGQYDIILDGQSQPLAIIRTTKVEIMPMNKVSESFAQAEGLTLDYWYEEHARFFKEELAPYQLQFYPDMLLVCQSFEVVDLYTEKEEGGSHHHHHH 1t6g-a3-m1-cC_1t6g-a3-m2-cD Crystal structure of the Triticum aestivum xylanase inhibitor-I in complex with aspergillus niger xylanase-I P55329 P55329 1.8 X-RAY DIFFRACTION 23 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 182 182 AGINYVQNYNGNLGDFTYDESAGTFSMYWEDGVSSDFVVGLGWTTGSSNAITYSAEYSASGSSSYLAVYGWVNYPQAEYYIVEDYGDYNPCSSATSLGTVYSDGSTYQVCTDTRTNEPSITGTSTFTQYFSVRESTRTSGTVTVANHFNFWAQHGFGNSDFNYQVMAVEAWSGAGSASVTIS AGINYVQNYNGNLGDFTYDESAGTFSMYWEDGVSSDFVVGLGWTTGSSNAITYSAEYSASGSSSYLAVYGWVNYPQAEYYIVEDYGDYNPCSSATSLGTVYSDGSTYQVCTDTRTNEPSITGTSTFTQYFSVRESTRTSGTVTVANHFNFWAQHGFGNSDFNYQVMAVEAWSGAGSASVTIS 1t6m-a1-m1-cA_1t6m-a1-m1-cB X-ray Structure of the R70D PI-PLC enzyme: Insight into the role of calcium and surrounding amino acids on active site geometry and catalysis. P08954 P08954 2.107 X-RAY DIFFRACTION 26 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 296 296 ASSVNELENWSKWMQPIPDNIPLARISIPGTHDSGTFKLQNPIKQVWGMTQEYDFRYQMDHGARIFDIDGRLTDDNTIVLHHGPLYLYVTLHEFINEAKQFLKDNPSETIIMSLKKEYEDMKGAEGSFSSTFEKNYFVDPIFLKTEGNIKLGDARGKIVLLKRYSGSNESGGYNNFYWPDNETFTTTVNQNVNVTVQDKYKVNYDEKVKSIKDTMDETMNNSEDLNHLYINFTSLSSGGTAWNSPYYYASYINPEIANDIKQKNPTRVGWVIQDYINEKWSPLLYQEVIRANKSLI ASSVNELENWSKWMQPIPDNIPLARISIPGTHDSGTFKLQNPIKQVWGMTQEYDFRYQMDHGARIFDIDGRLTDDNTIVLHHGPLYLYVTLHEFINEAKQFLKDNPSETIIMSLKKEYEDMKGAEGSFSSTFEKNYFVDPIFLKTEGNIKLGDARGKIVLLKRYSGSNESGGYNNFYWPDNETFTTTVNQNVNVTVQDKYKVNYDEKVKSIKDTMDETMNNSEDLNHLYINFTSLSSGGTAWNSPYYYASYINPEIANDIKQKNPTRVGWVIQDYINEKWSPLLYQEVIRANKSLI 1t6n-a1-m1-cA_1t6n-a1-m1-cB Crystal structure of the N-terminal domain of human UAP56 Q13838 Q13838 1.94 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 207 SGFRDFLLKPELLRAIVDCGFEHPSEVQHECIPQAILGMDVLCQAKSGMGKTAVFVLATLQQLEPVTGQVSVLVMCHTRELAFQISKEYERFSKYMPNVKVAVFFGGLSIKKDEEVLKKNCPHIVVGTPGRILALARNKSLNLKHIKHFILDECDKMLEQLDMRRDVQEIFRMTPHEKQVMMFSATLSKEIRPVCRKFMQDPMEIFV SGFRDFLLKPELLRAIVDCGFEHPSEVQHECIPQAILGMDVLCQAKSGMGKTAVFVLATLQQLEPVTGQVSVLVMCHTRELAFQISKEYERFSKYMPNVKVAVFFGGLSIKKDEEVLKKNCPHIVVGTPGRILALARNKSLNLKHIKHFILDECDKMLEQLDMRRDVQEIFRMTPHEKQVMMFSATLSKEIRPVCRKFMQDPMEIFV 1t6p-a2-m1-cH_1t6p-a2-m1-cF Crystal Structure of Phenylalanine Ammonia Lyase from Rhodosporidium toruloides P11544 P11544 2.7 X-RAY DIFFRACTION 301 0.997 5286 (Rhodotorula toruloides) 5286 (Rhodotorula toruloides) 630 636 1t6j-a1-m1-cA_1t6j-a1-m2-cA 1t6j-a1-m1-cB_1t6j-a1-m2-cB 1t6p-a1-m1-cC_1t6p-a1-m1-cB 1t6p-a1-m1-cD_1t6p-a1-m1-cA 1t6p-a2-m1-cE_1t6p-a2-m1-cG 1y2m-a1-m1-cC_1y2m-a1-m1-cA 1y2m-a1-m1-cD_1y2m-a1-m1-cB TTQVTQVDIVEKLAAPTDSTLELDGYSLNLGDVVSAARKGRPVRVKDSDEIRSKIDKSVEFLRSQTEDAISLQKALLEHQLCGVLPSSFDSFRLGRGLENSLPLEVVRGATIRVNSLTRGHSAVRLVVLEALTNFLNHGITPIVPLRGTISDLSPLSYIAAAISGHPDSKVHVVHEGKEKILYAREAALFNLEPVVLGPKEGLGLVNGTAVSASATLALHDAHLSLLSQSLTATVEAVGHAGSFHPFLHDVTRPHPTQIEVAGNIRKLLEGSRFAVHHEQDRYPLRTSPQWLGPLVSDLIHAHAVLTIEAGQSTTDNPLIDVENKTSHHGGNFQAAAVANTEKTRLGLAQIGKLNFTQLTELNAGNRGLPSCLAAEDPSLSYHCKGLDIAAAAYTSELGHLANPVTTHVQPAEANQAVNSLALISARRTTESNDVLSLLLATHLYCVLQAIDLRAIEFEFKKQFGPAIVSLIDQHFGSATGSNLRDELVEKVNKTLAKRLEQTNSYDLVPRWHDAFSFAAGTVVEVLSSTSLSLAAVNAWKVAAAESAISLTRQVRETFWSAASTSSPALSYLSPRTQILYAFVREELGVKARRGDVFLGKQEVTIGSNVSKIYEAIKSGRINNVLLKLA STNLAVATTQVTQVDIVEKLAAPTDSTLELDGYSLNLGDVVSAARKGRPVRVKDSDEIRSKIDKSVEFLRSQEDAISLQKALLEHQLCGVLPSSFDSFRLGRGLENSLPLEVVRGATIRVNSLTRGHSAVRLVVLEALTNFLNHGITPIVPLRGTISDLSPLSYIAAAISGHPDSKVHVVHEGKEKILYAREAALFNLEPVVLGPKEGLGLVNGTAVSASATLALHDAHLSLLSQSLTATVEAVGHAGSFHPFLHDVTRPHPTQIEVAGNIRKLLEGSRFAVHHRQDRYPLRTSPQWLGPLVSDLIHAHAVLTIEAGQSTTDNPLIDVENKTSHHGGNFQAAAVANTEKTRLGLAQIGKLNFTQLTELNAGNRGLPSCLAAEDPSLSYHCKGLDIAAAAYTSELGHLANPVTTHVQPAEANQAVNSLALISARRTTESNDVLSLLLATHLYCVLQAIDLRAIEFEFKKQFGPAIVSLIDQHFGSATGSNLRDELVEKVNKTLAKRLEQTNSYDLVPRWHDAFSFAAGTVVEVLSSTSLSLAAVNAWKVAAAESAISLTRQVRETFWSAASTSSPALSYLSPRTQILYAFVREELGVKARRGDVFLGKQEVTIGSNVSKIYEAIKSGRINNVLLKLA 1t6s-a2-m2-cA_1t6s-a2-m2-cB Crystal structure of a conserved hypothetical protein from Chlorobium tepidum Q8KF54 Q8KF54 1.95 X-RAY DIFFRACTION 94 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 162 162 1t6s-a1-m1-cA_1t6s-a1-m1-cB 1t6s-a2-m1-cA_1t6s-a2-m1-cB MQEQRQQLLRSLEALIFSSEEPVNLQTLSQITAHKFTPSELQEAVDELNRDYEATGRTFRIHAIAGGYRFLTEPEFADLVRQLLAPVIQRRLSRSMLEVLAVVAWHQPVTKGEIQQIRGASPDYSIDRLLARGLIEVRGRADSPGRPLQYGTTEVFLDLFHL MQEQRQQLLRSLEALIFSSEEPVNLQTLSQITAHKFTPSELQEAVDELNRDYEATGRTFRIHAIAGGYRFLTEPEFADLVRQLLAPVIQRRLSRSMLEVLAVVAWHQPVTKGEIQQIRGASPDYSIDRLLARGLIEVRGRADSPGRPLQYGTTEVFLDLFHL 1t6s-a3-m1-cA_1t6s-a3-m2-cB Crystal structure of a conserved hypothetical protein from Chlorobium tepidum Q8KF54 Q8KF54 1.95 X-RAY DIFFRACTION 89 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 162 162 1t6s-a2-m1-cA_1t6s-a2-m2-cB 1t6s-a2-m1-cB_1t6s-a2-m2-cA MQEQRQQLLRSLEALIFSSEEPVNLQTLSQITAHKFTPSELQEAVDELNRDYEATGRTFRIHAIAGGYRFLTEPEFADLVRQLLAPVIQRRLSRSMLEVLAVVAWHQPVTKGEIQQIRGASPDYSIDRLLARGLIEVRGRADSPGRPLQYGTTEVFLDLFHL MQEQRQQLLRSLEALIFSSEEPVNLQTLSQITAHKFTPSELQEAVDELNRDYEATGRTFRIHAIAGGYRFLTEPEFADLVRQLLAPVIQRRLSRSMLEVLAVVAWHQPVTKGEIQQIRGASPDYSIDRLLARGLIEVRGRADSPGRPLQYGTTEVFLDLFHL 1t6t-a1-m1-c1_1t6t-a1-m1-c2 putative protein from Aquifex aeolicus O67859 O67859 1.8 X-RAY DIFFRACTION 22 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 106 108 PRNLSEWIKELKKASREAVILVEGKNDKKALSKFSIKNVIDLSGKRYADVVDLEGKWEKVILLFDLDTHGERINQKKELLSSQGFLVDENFRNFLKKWNIIHIEEI EPRNLSEWIKELKKASREAVILVEGKNDKKALSKFSIKNVIDLSGKRYADVVDLEGKWEKVILLFDLDTHGERINQKKELLSSQGFLVDENFRNFLKKWNIIHIEEIN 1t6x-a1-m1-cA_1t6x-a1-m1-cB Crystal structure of ADP bound TM379 Q9WZW1 Q9WZW1 2.29 X-RAY DIFFRACTION 41 0.992 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 266 270 1mrz-a1-m1-cA_1mrz-a1-m1-cB 1t6y-a1-m1-cA_1t6y-a1-m1-cB 1t6z-a1-m1-cA_1t6z-a1-m1-cB VVSIGVFDGVHIGHQKVLRTMKEIAFFRKDDSLIYTISYPPEYFLPDFPGLLMTVESRVEMLSRYARTVVLDFFRIKDLTPEGFVERYLSGVSAVVVGRDFRFGKNASGNASFLRKKGVEVYEIEDVVVQGKRVSSSLIRNLVQEGRVEEIPAYLGRYFEIEGIVFPTANIDRGNEKLVDLKRGVYLVRVHLPDGKKKFGVMNVGFRRNVKYEVYILDFEGDLYGQRLKLEVLKFMRDEKKEELKAAIDQDVKSARNMIDDIINSK VVSIGVFDGVHIGHQKVLRTMKEIAFFRKDDSLIYTISYPPEYFLPDFPGLLMTVESRVEMLSRYARTVVLDFFRIKDLTPEGFVERYLSGVSAVVVGRDFRFGKNASGNASFLRKKGVEVYEIEDVVVQGKRVSSSLIRNLVQEGRVEEIPAYLGRYFEIEGIVHFPTANIDRGNEKLVDLKRGVYLVRVHLPDGKKKFGVMNVGFNVKYEVYILDFEGDLYGQRLKLEVLKFMRDEKKFDSIEELKAAIDQDVKSARNMIDDIINSKF 1t70-a4-m1-cG_1t70-a4-m1-cH Crystal structure of a novel phosphatase from Deinococcus radiodurans Q9RUV0 Q9RUV0 2.3 X-RAY DIFFRACTION 84 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 255 255 1t70-a1-m1-cA_1t70-a1-m1-cB 1t70-a2-m1-cC_1t70-a2-m1-cD 1t70-a3-m1-cE_1t70-a3-m1-cF MRVLFIGDVFGQPGRRVLQNHLPTIRPQFDFVIVNMENSAGGFGMHRDAARGALEAGAGCLTLGNHAWHHKDIYPMLSEDTYPIVRPLNYADPGTPGVGWRTFDVNGEKLTVVNLLGRVFMEAVDNPFRTMDALLERDDLGTVFVDFHAEATSEKEAMGWHLAGRVAAVIGTHTHVPTADTRILKGGTAYQTDAGFTGPHDSIIGSAIEGPLQRFLTERPHRYGVAEGRAELNGVALHFEGGKATAAERYRFIED MRVLFIGDVFGQPGRRVLQNHLPTIRPQFDFVIVNMENSAGGFGMHRDAARGALEAGAGCLTLGNHAWHHKDIYPMLSEDTYPIVRPLNYADPGTPGVGWRTFDVNGEKLTVVNLLGRVFMEAVDNPFRTMDALLERDDLGTVFVDFHAEATSEKEAMGWHLAGRVAAVIGTHTHVPTADTRILKGGTAYQTDAGFTGPHDSIIGSAIEGPLQRFLTERPHRYGVAEGRAELNGVALHFEGGKATAAERYRFIED 1t71-a2-m1-cA_1t71-a2-m2-cA Crystal structure of a novel phosphatase Mycoplasma pneumoniaefrom P75429 P75429 2.1 X-RAY DIFFRACTION 140 1.0 272634 (Mycoplasmoides pneumoniae M129) 272634 (Mycoplasmoides pneumoniae M129) 281 281 MMNSIKFIFLGDVYGKAGRNIIKNNLAQLKSKYQADLVIVNAENTTHGKGLSLKHYEFLKEAGVNYITMGNHTWFQKLDLAVVINKKDLVRPLNLDTSFAFHNLGQGSLVFEFNKAKIRITNLLGTSVPLPFKTTNPFKVLKELILKRDCDLHIVDFHAETTSEKNAFCMAFDGYVTTIFGTHTHVPSADLRITPKGSAYITDVGMCGPGFGSVIGANPEQSIRLFCAGSREHFEVSKCGAQLNGVFFEVDVNTKKVIKTEAIRIVEDDPRYLKQDYFNLI MMNSIKFIFLGDVYGKAGRNIIKNNLAQLKSKYQADLVIVNAENTTHGKGLSLKHYEFLKEAGVNYITMGNHTWFQKLDLAVVINKKDLVRPLNLDTSFAFHNLGQGSLVFEFNKAKIRITNLLGTSVPLPFKTTNPFKVLKELILKRDCDLHIVDFHAETTSEKNAFCMAFDGYVTTIFGTHTHVPSADLRITPKGSAYITDVGMCGPGFGSVIGANPEQSIRLFCAGSREHFEVSKCGAQLNGVFFEVDVNTKKVIKTEAIRIVEDDPRYLKQDYFNLI 1t72-a4-m1-cF_1t72-a4-m1-cD Crystal structure of phosphate transport system protein phoU from Aquifex aeolicus O67053 O67053 2.9 X-RAY DIFFRACTION 10 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 204 205 GGGGGKLFKELEETKEQVIKAKLVQEAIDKATEALNKQNVELAEEVIKGDDTIDLLEVDIERRCIRIALYQPEAGDLRIGIYKIVSDLERGDEAENIAERAILLAEEPPLKPYVNINFSEIVKEVNDSVISFIQQDTLLAKKVIEKDDTVDELYHQLERELTYVLEDPRNIKRAHLSFVARHYERIADHAENVAEAAIYLSEGE GGGGGGKLFKELEETKEQVIKAKLVQEAIDKATEALNKQNVELAEEVIKGDDTIDLLEVDIERRCIRIALYQPEAGDLRIGIYKIVSDLERGDEAENIAERAILLAEEPPLKPYVNINFSEIVKEVNDSVISFIQQDTLLAKKVIEKDDTVDELYHQLERELTYVLEDPRNIKRAHLSFVARHYERIADHAENVAEAAIYLSEGE 1t72-a4-m1-cG_1t72-a4-m1-cF Crystal structure of phosphate transport system protein phoU from Aquifex aeolicus O67053 O67053 2.9 X-RAY DIFFRACTION 26 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 201 204 1t72-a1-m1-cB_1t72-a1-m1-cA 1t72-a2-m1-cE_1t72-a2-m1-cD 1t72-a3-m1-cG_1t72-a3-m1-cF 1t72-a4-m1-cE_1t72-a4-m1-cD 1t8b-a3-m1-cA_1t8b-a3-m2-cB GGGGKLFKELEETKEQVIKAKLVQEAIDKATEALNKQNVELAEEVIKGDDTIDLLEVDIERRCIRIALYQPEAGDLRIGIYKIVSDLERGDEAENIAERAILLAEEPPLKPYVNINFSEIVKEVNDSVISFIQQDTLLAKKVIEKDDTVDELYHQLERELTYVLEDPRNIKRAHLSFVARHYERIADHAENVAEAAIYLSE GGGGGKLFKELEETKEQVIKAKLVQEAIDKATEALNKQNVELAEEVIKGDDTIDLLEVDIERRCIRIALYQPEAGDLRIGIYKIVSDLERGDEAENIAERAILLAEEPPLKPYVNINFSEIVKEVNDSVISFIQQDTLLAKKVIEKDDTVDELYHQLERELTYVLEDPRNIKRAHLSFVARHYERIADHAENVAEAAIYLSEGE 1t72-a4-m1-cG_1t72-a4-m2-cA Crystal structure of phosphate transport system protein phoU from Aquifex aeolicus O67053 O67053 2.9 X-RAY DIFFRACTION 28 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 201 205 1t72-a4-m1-cB_1t72-a4-m1-cD 1t72-a4-m1-cE_1t72-a4-m1-cF GGGGKLFKELEETKEQVIKAKLVQEAIDKATEALNKQNVELAEEVIKGDDTIDLLEVDIERRCIRIALYQPEAGDLRIGIYKIVSDLERGDEAENIAERAILLAEEPPLKPYVNINFSEIVKEVNDSVISFIQQDTLLAKKVIEKDDTVDELYHQLERELTYVLEDPRNIKRAHLSFVARHYERIADHAENVAEAAIYLSE GGGGGGKLFKELEETKEQVIKAKLVQEAIDKATEALNKQNVELAEEVIKGDDTIDLLEVDIERRCIRIALYQPEAGDLRIGIYKIVSDLERGDEAENIAERAILLAEEPPLKPYVNINFSEIVKEVNDSVISFIQQDTLLAKKVIEKDDTVDELYHQLERELTYVLEDPRNIKRAHLSFVARHYERIADHAENVAEAAIYLSEGE 1t7h-a1-m1-cA_1t7h-a1-m1-cB X-ray structure of [Lys(-2)-Arg(-1)-des(17-21)]-endothelin-1 peptide P05305 P05305 1.13 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 KRCSCSSLMDKECVYFCH KRCSCSSLMDKECVYFCH 1t7s-a6-m6-cA_1t7s-a6-m7-cA Structural Genomics of Caenorhabditis elegans: Structure of BAG-1 protein O44739 O44739 2.8 X-RAY DIFFRACTION 162 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 124 124 1t7s-a3-m1-cA_1t7s-a3-m2-cA 1t7s-a4-m1-cB_1t7s-a4-m3-cB 1t7s-a5-m1-cB_1t7s-a5-m3-cB 1t7s-a5-m4-cB_1t7s-a5-m5-cB 1t7s-a6-m1-cA_1t7s-a6-m2-cA DKIIVGGKNALVDDAGFKLQYEKHNLSNLQKAYDLNLRDVADLERGFLEKPKQVEGKKLEKKVKYFNEEAERHLETLDGNIITETTPENQAKRNREKRKTLVNGIQTLLNQNDALLRRLQEYQS DKIIVGGKNALVDDAGFKLQYEKHNLSNLQKAYDLNLRDVADLERGFLEKPKQVEGKKLEKKVKYFNEEAERHLETLDGNIITETTPENQAKRNREKRKTLVNGIQTLLNQNDALLRRLQEYQS 1t7s-a7-m1-cB_1t7s-a7-m4-cB Structural Genomics of Caenorhabditis elegans: Structure of BAG-1 protein O44739 O44739 2.8 X-RAY DIFFRACTION 28 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 124 124 1t7s-a5-m1-cB_1t7s-a5-m4-cB 1t7s-a5-m3-cB_1t7s-a5-m5-cB 1t7s-a6-m1-cA_1t7s-a6-m7-cA 1t7s-a6-m2-cA_1t7s-a6-m6-cA DKIIVGGKNALVDDAGFKLQYEKHNLSNLQKAYDLNLRDVADLERGFLEKPKQVEGKKLEKKVKYFNEEAERHLETLDGNIITETTPENQAKRNREKRKTLVNGIQTLLNQNDALLRRLQEYQS DKIIVGGKNALVDDAGFKLQYEKHNLSNLQKAYDLNLRDVADLERGFLEKPKQVEGKKLEKKVKYFNEEAERHLETLDGNIITETTPENQAKRNREKRKTLVNGIQTLLNQNDALLRRLQEYQS 1t82-a2-m1-cD_1t82-a2-m1-cC Crystal Structure of the putative thioesterase from Shewanella oneidensis, Northeast Structural Genomics Target SoR51 Q8E989 Q8E989 1.7 X-RAY DIFFRACTION 88 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 131 139 1t82-a1-m1-cA_1t82-a1-m1-cB DELLNRLRQTWHSTIPVSEFQIAPLSFTDGELSVSAPLAPNINLHHTFAGSIYTITLTGWGVWLQQQLLNVDGDIVLADAHIRYLAPVTSAPEVKVRWPQRGRKAKVKLEVQLFCDGKLCAQFDGLYVSVP DELLNRLRQTWHSTIPVSEFQIAPLSFTDGELSVSAPLAPNINLHHTFAGSIYTITLTGWGVWLQQQLLNVDGDIVLADAHIRYLAPVTSAPEVKVRWPDTNLSPLQRGRKAKVKLEVQLFCDGKLCAQFDGLYVSVPK 1t8g-a2-m1-cA_1t8g-a2-m8-cA Crystal structure of phage T4 lysozyme mutant L32A/L33A/T34A/C54T/C97A/E108V P00720 P00720 1.8 X-RAY DIFFRACTION 56 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 158 158 1t8g-a2-m2-cA_1t8g-a2-m7-cA 1t8g-a2-m3-cA_1t8g-a2-m6-cA 1t8g-a2-m4-cA_1t8g-a2-m5-cA MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHAASLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGVTGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHAASLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGVTGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 1t8g-a2-m3-cA_1t8g-a2-m8-cA Crystal structure of phage T4 lysozyme mutant L32A/L33A/T34A/C54T/C97A/E108V P00720 P00720 1.8 X-RAY DIFFRACTION 12 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 158 158 1t8g-a2-m1-cA_1t8g-a2-m5-cA 1t8g-a2-m2-cA_1t8g-a2-m6-cA 1t8g-a2-m4-cA_1t8g-a2-m7-cA MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHAASLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGVTGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHAASLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGVTGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 1t8q-a1-m1-cD_1t8q-a1-m1-cA Structural genomics, Crystal structure of Glycerophosphoryl diester phosphodiesterase from E. coli P09394 P09394 2 X-RAY DIFFRACTION 96 1.0 562 (Escherichia coli) 562 (Escherichia coli) 318 319 1t8q-a2-m1-cC_1t8q-a2-m1-cB 1ydy-a1-m1-cA_1ydy-a1-m1-cB EKIVIAHRGASGYLPEHTLPAKAAYAQGADYLEQDLVTKDDNLVVLHDHYLDRVTDVADRFPDRARKDGRYYAIDFTLDEIKSLKFTEGFDIENGKKVQTYPGRFPGKSDFRVHTFEEEIEFVQGLNHSTGKNIGIYPEIKAPWFHHQEGKDIAAKTLEVLKKYGYTGKDDKVYLQCFDADELKRIKNELEPKGELNLVQLIAYTDWNETQQKQPDGSWVNYNYDWFKPGAKQVAEYADGIGPDYHLIEETSQPGNIKLTGVQDAQQNKLVVHPYTVRSDKLPEYTPDVNQLYDALYNKAGVNGLFTDFPDKAVKFLN NEKIVIAHRGASGYLPEHTLPAKAAYAQGADYLEQDLVTKDDNLVVLHDHYLDRVTDVADRFPDRARKDGRYYAIDFTLDEIKSLKFTEGFDIENGKKVQTYPGRFPGKSDFRVHTFEEEIEFVQGLNHSTGKNIGIYPEIKAPWFHHQEGKDIAAKTLEVLKKYGYTGKDDKVYLQCFDADELKRIKNELEPKGELNLVQLIAYTDWNETQQKQPDGSWVNYNYDWFKPGAKQVAEYADGIGPDYHLIEETSQPGNIKLTGVQDAQQNKLVVHPYTVRSDKLPEYTPDVNQLYDALYNKAGVNGLFTDFPDKAVKFLN 1t8s-a1-m1-cE_1t8s-a1-m1-cF Crystal Structure of E.coli AMP Nucleosidase complexed with formicin 5'-monophosphate P0AE12 P0AE12 2.6 X-RAY DIFFRACTION 96 1.0 562 (Escherichia coli) 562 (Escherichia coli) 439 439 1t8r-a1-m1-cA_1t8r-a1-m1-cB 1t8r-a1-m1-cC_1t8r-a1-m1-cD 1t8r-a1-m1-cE_1t8r-a1-m1-cF 1t8s-a1-m1-cA_1t8s-a1-m1-cB 1t8s-a1-m1-cC_1t8s-a1-m1-cD 1t8w-a1-m1-cA_1t8w-a1-m1-cB 1t8w-a1-m1-cC_1t8w-a1-m1-cD 1t8w-a1-m1-cE_1t8w-a1-m1-cF 1t8y-a1-m1-cA_1t8y-a1-m1-cB 1t8y-a1-m1-cC_1t8y-a1-m1-cD 1t8y-a1-m1-cE_1t8y-a1-m1-cF LTPAQALDKLDALYEQSVVALRNAIGNYITSGELPDENARKQGLFVYPSLTVTWDGSTTNPPKTRAFGRFTHAGSYTTTITRPTLFRSYLNEQLTLLYQDYGAHISVQPSQHEIPYPYVILDRSSAGLTRYFPTTFSPLSHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGNWITAETEAPEEAISDLAWKKHQPAWHLITADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKLVSGRPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKGAISEHLQIGIRAIDLLRAEGDRLHSRKLRTFNEPPFR LTPAQALDKLDALYEQSVVALRNAIGNYITSGELPDENARKQGLFVYPSLTVTWDGSTTNPPKTRAFGRFTHAGSYTTTITRPTLFRSYLNEQLTLLYQDYGAHISVQPSQHEIPYPYVILDRSSAGLTRYFPTTFSPLSHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGNWITAETEAPEEAISDLAWKKHQPAWHLITADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKLVSGRPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKGAISEHLQIGIRAIDLLRAEGDRLHSRKLRTFNEPPFR 1t8t-a2-m1-cA_1t8t-a2-m2-cB Crystal Structure of human 3-O-Sulfotransferase-3 with bound PAP Q9Y663 Q9Y663 1.85 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 268 271 1t8t-a2-m2-cA_1t8t-a2-m1-cB 1t8u-a2-m1-cA_1t8u-a2-m2-cB 1t8u-a2-m2-cA_1t8u-a2-m1-cB PNSGTLALLLDEGSKQLPQAIIIGVKKGGTRALLEFLRVHPDVRAVGAEPHFFDRSYDKGLAWYRDLMPRTLDGQITMEKTPSYFVTREAPARISAMSKDTKLIVVVRDPVTRAISDYTQTLSKRPDIPTFESLTFKNGLIDTSWSAIQIGIYAKHLEHWLRHFPIRQMLFVSGERLISDPAGELGRVQDFLGLKRIITDKHFYFNKTKGFPCLKKAEGSSRPHCLGKTKGRTHPEIDREVVRRLREFYRPFNLKFYQMTGHDFGWDG PNSGTLALLLDEGSKQLPQAIIIGVKKGGTRALLEFLRVHPDVRAVGAEPHFFDRSYDKGLAWYRDLMPRTLDGQITMEKTPSYFVTREAPARISAMSKDTKLIVVVRDPVTRAISDYTQTLSKRPDIPTFESLTFKNRTAGLIDTSWSAIQIGIYAKHLEHWLRHFPIRQMLFVSGERLISDPAGELGRVQDFLGLKRIITDKHFYFNKTKGFPCLKKAEGSSRPHCLGKTKGRTHPEIDREVVRRLREFYRPFNLKFYQMTGHDFGWDG 1t8t-a2-m2-cA_1t8t-a2-m2-cB Crystal Structure of human 3-O-Sulfotransferase-3 with bound PAP Q9Y663 Q9Y663 1.85 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 268 271 1t8t-a1-m1-cA_1t8t-a1-m1-cB 1t8t-a2-m1-cA_1t8t-a2-m1-cB 1t8u-a1-m1-cA_1t8u-a1-m1-cB 1t8u-a2-m1-cA_1t8u-a2-m1-cB 1t8u-a2-m2-cA_1t8u-a2-m2-cB PNSGTLALLLDEGSKQLPQAIIIGVKKGGTRALLEFLRVHPDVRAVGAEPHFFDRSYDKGLAWYRDLMPRTLDGQITMEKTPSYFVTREAPARISAMSKDTKLIVVVRDPVTRAISDYTQTLSKRPDIPTFESLTFKNGLIDTSWSAIQIGIYAKHLEHWLRHFPIRQMLFVSGERLISDPAGELGRVQDFLGLKRIITDKHFYFNKTKGFPCLKKAEGSSRPHCLGKTKGRTHPEIDREVVRRLREFYRPFNLKFYQMTGHDFGWDG PNSGTLALLLDEGSKQLPQAIIIGVKKGGTRALLEFLRVHPDVRAVGAEPHFFDRSYDKGLAWYRDLMPRTLDGQITMEKTPSYFVTREAPARISAMSKDTKLIVVVRDPVTRAISDYTQTLSKRPDIPTFESLTFKNRTAGLIDTSWSAIQIGIYAKHLEHWLRHFPIRQMLFVSGERLISDPAGELGRVQDFLGLKRIITDKHFYFNKTKGFPCLKKAEGSSRPHCLGKTKGRTHPEIDREVVRRLREFYRPFNLKFYQMTGHDFGWDG 1t8u-a2-m1-cA_1t8u-a2-m2-cA Crystal Structure of human 3-O-Sulfotransferase-3 with bound PAP and tetrasaccharide substrate Q9Y663 Q9Y663 1.95 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 268 268 1t8t-a2-m1-cA_1t8t-a2-m2-cA 1t8t-a2-m1-cB_1t8t-a2-m2-cB 1t8u-a2-m1-cB_1t8u-a2-m2-cB PNSGTLALLLDEGSKQLPQAIIIGVKKGGTRALLEFLRVHPDVRAVGAEPHFFDRSYDKGLAWYRDLMPRTLDGQITMEKTPSYFVTREAPARISAMSKDTKLIVVVRDPVTRAISDYTQTLSKRPDIPTFESLTFKNGLIDTSWSAIQIGIYAKHLEHWLRHFPIRQMLFVSGERLISDPAGELGRVQDFLGLKRIITDKHFYFNKTKGFPCLKKAEGSSRPHCLGKTKGRTHPEIDREVVRRLREFYRPFNLKFYQMTGHDFGWDG PNSGTLALLLDEGSKQLPQAIIIGVKKGGTRALLEFLRVHPDVRAVGAEPHFFDRSYDKGLAWYRDLMPRTLDGQITMEKTPSYFVTREAPARISAMSKDTKLIVVVRDPVTRAISDYTQTLSKRPDIPTFESLTFKNGLIDTSWSAIQIGIYAKHLEHWLRHFPIRQMLFVSGERLISDPAGELGRVQDFLGLKRIITDKHFYFNKTKGFPCLKKAEGSSRPHCLGKTKGRTHPEIDREVVRRLREFYRPFNLKFYQMTGHDFGWDG 1t8w-a1-m1-cB_1t8w-a1-m1-cC Crystal Structure of E. coli AMP Nucleosidase P0AE12 P0AE12 2.8 X-RAY DIFFRACTION 105 1.0 562 (Escherichia coli) 562 (Escherichia coli) 457 457 1t8r-a1-m1-cA_1t8r-a1-m1-cF 1t8r-a1-m1-cB_1t8r-a1-m1-cC 1t8r-a1-m1-cD_1t8r-a1-m1-cE 1t8s-a1-m1-cA_1t8s-a1-m1-cF 1t8s-a1-m1-cC_1t8s-a1-m1-cB 1t8s-a1-m1-cD_1t8s-a1-m1-cE 1t8w-a1-m1-cA_1t8w-a1-m1-cF 1t8w-a1-m1-cD_1t8w-a1-m1-cE 1t8y-a1-m1-cA_1t8y-a1-m1-cF 1t8y-a1-m1-cB_1t8y-a1-m1-cC 1t8y-a1-m1-cD_1t8y-a1-m1-cE LTPAQALDKLDALYEQSVVALRNAIGNYITSGELPDENARKQGLFVYPSLTVTWDGSTTNPPKTRAFGRFTHAGSYTTTITRPTLFRSYLNEQLTLLYQDYGAHISVQPSQHEIPYPYVIDGSELTLDRSSAGLTRYFPTTELFSPLSHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGNWITAETEAPEEAISDLAWKKHQPAWHLITADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKLVSGRPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGDRLHSRKLRTFNEPPFR LTPAQALDKLDALYEQSVVALRNAIGNYITSGELPDENARKQGLFVYPSLTVTWDGSTTNPPKTRAFGRFTHAGSYTTTITRPTLFRSYLNEQLTLLYQDYGAHISVQPSQHEIPYPYVIDGSELTLDRSSAGLTRYFPTTELFSPLSHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGNWITAETEAPEEAISDLAWKKHQPAWHLITADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKLVSGRPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGDRLHSRKLRTFNEPPFR 1t8z-a1-m1-cB_1t8z-a1-m1-cC Atomic Structure of A Novel Tryptophan-Zipper Pentamer P69776 P69776 1.45 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 50 51 1t8z-a1-m1-cA_1t8z-a1-m1-cB 1t8z-a1-m1-cD_1t8z-a1-m1-cC 1t8z-a1-m1-cE_1t8z-a1-m1-cA AKWDQWSSDWQTWNAKWDQWSNDWNAWRSDWQAWKDDWARWNQRWDNWAT NAKWDQWSSDWQTWNAKWDQWSNDWNAWRSDWQAWKDDWARWNQRWDNWAT 1t90-a1-m1-cA_1t90-a1-m1-cD Crystal structure of methylmalonate semialdehyde dehydrogenase from Bacillus subtilis P42412 P42412 2.5 X-RAY DIFFRACTION 84 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 484 484 1t90-a1-m1-cB_1t90-a1-m1-cC EIRKLKNYINGEWVESKTDQYEDVVNPATKEVLCQVPISTKEDIDYAAQTAAEAFKTWSKVAVPRRARILFNFQQLLSQHKEELAHLITIENGKNTKEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAIALGNTFILKPSERTPLLTEKLVELFEKAGLPKGVFNVVYGAHDVVNGILEHPEIKAISFVGSKPVGEYVYKKGSENLKRVQSLTGAKNHTIVLNDANLEDTVTNIVGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKVADIKIGNGLDDGVFLGPVIREDNKKRTLSYIEKGLEEGARLVCDGRENVSDDGYFVGPTIFDNVTTEMTIWKDEIFAPVLSVIRVKNLKEAIEIANKSEFANGACLFTSNSNAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPAPDF EIRKLKNYINGEWVESKTDQYEDVVNPATKEVLCQVPISTKEDIDYAAQTAAEAFKTWSKVAVPRRARILFNFQQLLSQHKEELAHLITIENGKNTKEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAIALGNTFILKPSERTPLLTEKLVELFEKAGLPKGVFNVVYGAHDVVNGILEHPEIKAISFVGSKPVGEYVYKKGSENLKRVQSLTGAKNHTIVLNDANLEDTVTNIVGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKVADIKIGNGLDDGVFLGPVIREDNKKRTLSYIEKGLEEGARLVCDGRENVSDDGYFVGPTIFDNVTTEMTIWKDEIFAPVLSVIRVKNLKEAIEIANKSEFANGACLFTSNSNAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPAPDF 1t90-a1-m1-cB_1t90-a1-m1-cD Crystal structure of methylmalonate semialdehyde dehydrogenase from Bacillus subtilis P42412 P42412 2.5 X-RAY DIFFRACTION 96 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 484 484 1t90-a1-m1-cA_1t90-a1-m1-cC EIRKLKNYINGEWVESKTDQYEDVVNPATKEVLCQVPISTKEDIDYAAQTAAEAFKTWSKVAVPRRARILFNFQQLLSQHKEELAHLITIENGKNTKEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAIALGNTFILKPSERTPLLTEKLVELFEKAGLPKGVFNVVYGAHDVVNGILEHPEIKAISFVGSKPVGEYVYKKGSENLKRVQSLTGAKNHTIVLNDANLEDTVTNIVGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKVADIKIGNGLDDGVFLGPVIREDNKKRTLSYIEKGLEEGARLVCDGRENVSDDGYFVGPTIFDNVTTEMTIWKDEIFAPVLSVIRVKNLKEAIEIANKSEFANGACLFTSNSNAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPAPDF EIRKLKNYINGEWVESKTDQYEDVVNPATKEVLCQVPISTKEDIDYAAQTAAEAFKTWSKVAVPRRARILFNFQQLLSQHKEELAHLITIENGKNTKEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAIALGNTFILKPSERTPLLTEKLVELFEKAGLPKGVFNVVYGAHDVVNGILEHPEIKAISFVGSKPVGEYVYKKGSENLKRVQSLTGAKNHTIVLNDANLEDTVTNIVGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKVADIKIGNGLDDGVFLGPVIREDNKKRTLSYIEKGLEEGARLVCDGRENVSDDGYFVGPTIFDNVTTEMTIWKDEIFAPVLSVIRVKNLKEAIEIANKSEFANGACLFTSNSNAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPAPDF 1t90-a1-m1-cC_1t90-a1-m1-cD Crystal structure of methylmalonate semialdehyde dehydrogenase from Bacillus subtilis P42412 P42412 2.5 X-RAY DIFFRACTION 155 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 484 484 1t90-a1-m1-cA_1t90-a1-m1-cB EIRKLKNYINGEWVESKTDQYEDVVNPATKEVLCQVPISTKEDIDYAAQTAAEAFKTWSKVAVPRRARILFNFQQLLSQHKEELAHLITIENGKNTKEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAIALGNTFILKPSERTPLLTEKLVELFEKAGLPKGVFNVVYGAHDVVNGILEHPEIKAISFVGSKPVGEYVYKKGSENLKRVQSLTGAKNHTIVLNDANLEDTVTNIVGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKVADIKIGNGLDDGVFLGPVIREDNKKRTLSYIEKGLEEGARLVCDGRENVSDDGYFVGPTIFDNVTTEMTIWKDEIFAPVLSVIRVKNLKEAIEIANKSEFANGACLFTSNSNAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPAPDF EIRKLKNYINGEWVESKTDQYEDVVNPATKEVLCQVPISTKEDIDYAAQTAAEAFKTWSKVAVPRRARILFNFQQLLSQHKEELAHLITIENGKNTKEALGEVGRGIENVEFAAGAPSLMMGDSLASIATDVEAANYRYPIGVVGGIAPFNFPMMVPCWMFPMAIALGNTFILKPSERTPLLTEKLVELFEKAGLPKGVFNVVYGAHDVVNGILEHPEIKAISFVGSKPVGEYVYKKGSENLKRVQSLTGAKNHTIVLNDANLEDTVTNIVGAAFGSAGERCMACAVVTVEEGIADEFMAKLQEKVADIKIGNGLDDGVFLGPVIREDNKKRTLSYIEKGLEEGARLVCDGRENVSDDGYFVGPTIFDNVTTEMTIWKDEIFAPVLSVIRVKNLKEAIEIANKSEFANGACLFTSNSNAIRYFRENIDAGMLGINLGVPAPMAFFPFSGWKSSFFGTLHANGKDSVDFYTRKKVVTARYPAPDF 1t9k-a2-m1-cC_1t9k-a2-m1-cD X-ray crystal structure of aIF-2B alpha subunit-related translation initiation factor [Thermotoga maritima] Q9X013 Q9X013 2.6 X-RAY DIFFRACTION 158 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 333 333 1t9k-a1-m1-cA_1t9k-a1-m1-cB KLKTKTEWSGNSLKLLDQRKLPFIEEYVECKTHEEVAHAIKEIVRGAPAIGVAAAFGYVLGLRDYKTGSLTDWKQVKETLARTRPTAVNLFWALNREKVFFENADRENLFEILENEALKAYEDIEVNKAIGKNGAQLIKDGSTILTHCNAGALATVDYGTALGVIRAAVESGKRIRVFADETRPYLQGARLTAWELKDGIEVYVITDNAGWLKRGLIDAVVVGADRIALNGDTANKIGTYSLAVLAKRNNIPFYVAAPVSTIDPTIRSGEEIPIEERRPEEVTHCGGNRIAPEGVKVLNPAFDVTENTLITAIITEKGVIRPPFEENIKKILE KLKTKTEWSGNSLKLLDQRKLPFIEEYVECKTHEEVAHAIKEIVRGAPAIGVAAAFGYVLGLRDYKTGSLTDWKQVKETLARTRPTAVNLFWALNREKVFFENADRENLFEILENEALKAYEDIEVNKAIGKNGAQLIKDGSTILTHCNAGALATVDYGTALGVIRAAVESGKRIRVFADETRPYLQGARLTAWELKDGIEVYVITDNAGWLKRGLIDAVVVGADRIALNGDTANKIGTYSLAVLAKRNNIPFYVAAPVSTIDPTIRSGEEIPIEERRPEEVTHCGGNRIAPEGVKVLNPAFDVTENTLITAIITEKGVIRPPFEENIKKILE 1t9m-a1-m1-cA_1t9m-a1-m1-cB X-ray crystal structure of phzG from pseudomonas aeruginosa O69755 O69755 1.9 X-RAY DIFFRACTION 172 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 204 204 LTGTIEAPFPEFEAPPANPMEVLRNWLERARRYGVREPRALALATVDGQGRPSTRIVVIAELGERGVVFATHADSQKGRELAQNPWASGVLYWRESSQQIILNGRAERLPDERADAQWLSRPYQTHPMSIASRQSETLADIHALRAEARRLAETDGPLPRPPGYCLFELCLESVEFWGNGTERLHERLRYDRDEGGWKHRYLQP LTGTIEAPFPEFEAPPANPMEVLRNWLERARRYGVREPRALALATVDGQGRPSTRIVVIAELGERGVVFATHADSQKGRELAQNPWASGVLYWRESSQQIILNGRAERLPDERADAQWLSRPYQTHPMSIASRQSETLADIHALRAEARRLAETDGPLPRPPGYCLFELCLESVEFWGNGTERLHERLRYDRDEGGWKHRYLQP 1ta9-a1-m2-cA_1ta9-a1-m4-cB Crystal structure of glycerol dehydrogenase from Schizosaccharomyces pombe O13702 O13702 1.9 X-RAY DIFFRACTION 14 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 389 394 1ta9-a1-m1-cA_1ta9-a1-m3-cB 1ta9-a1-m3-cA_1ta9-a1-m2-cB 1ta9-a1-m4-cA_1ta9-a1-m1-cB FEESKDRIFTSPQKYVQGRHAFTRSYMYVKKWATKSAVVLADQNVWNICANKIVDSLSQNGMTVTKLVFGGEASLVELDKLRKQCPDDTQVIIGVGGGKTMDSAKYIAHSMNLPSIICPTTASSDAATSSLSVIYQFQKYSFYPLNPNLIFIDTDVIVRAPVRFLISGIGDALSTWVETESVIRSNSTSFAGGVASIAGRYIARACKDTLEKYALSAILSNTRGVCTEAFENVVEANTLMSGLGFENGGLAAAHAIHNGMTAIHGPVHRLMHGEKVAYGTLVQVVLEDWPLEDFNNLASFMAKCHLPITLEELGIPNVTDEELLMVGRATLRPDESIHNMSKKFNPSQIADAIKAVDSYSQKWQEQTGWTERFRLPPSRHSPHLTDIHP EFEESKDRIFTSPQKYVQGRHAFTRSYMYVKKWATKSAVVLADQNVWNICANKIVDSLSQNGMTVTKLVFGGEASLVELDKLRKQCPDDTQVIIGVGGGKTMDSAKYIAHSMNLPSIICPTTASSDAATSSLSVIYTPDGQFQKYSFYPLNPNLIFIDTDVIVRAPVRFLISGIGDALSTWVETESVIRSNSTSFAGGVASIAGRYIARACKDTLEKYALSAILSNTRGVCTEAFENVVEANTLMSGLGFENGGLAAAHAIHNGMTAIHGPVHRLMHGEKVAYGTLVQVVLEDWPLEDFNNLASFMAKCHLPITLEELGIPNVTDEELLMVGRATLRPDESIHNMSKKFNPSQIADAIKAVDSYSQKWQEQTGWTERFRLPPSRHSPHLTDIHP 1ta9-a1-m2-cB_1ta9-a1-m4-cB Crystal structure of glycerol dehydrogenase from Schizosaccharomyces pombe O13702 O13702 1.9 X-RAY DIFFRACTION 55 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 394 394 1ta9-a1-m1-cA_1ta9-a1-m3-cA 1ta9-a1-m1-cA_1ta9-a1-m4-cA 1ta9-a1-m1-cB_1ta9-a1-m3-cB 1ta9-a1-m1-cB_1ta9-a1-m4-cB 1ta9-a1-m2-cA_1ta9-a1-m3-cA 1ta9-a1-m2-cA_1ta9-a1-m4-cA 1ta9-a1-m2-cB_1ta9-a1-m3-cB EFEESKDRIFTSPQKYVQGRHAFTRSYMYVKKWATKSAVVLADQNVWNICANKIVDSLSQNGMTVTKLVFGGEASLVELDKLRKQCPDDTQVIIGVGGGKTMDSAKYIAHSMNLPSIICPTTASSDAATSSLSVIYTPDGQFQKYSFYPLNPNLIFIDTDVIVRAPVRFLISGIGDALSTWVETESVIRSNSTSFAGGVASIAGRYIARACKDTLEKYALSAILSNTRGVCTEAFENVVEANTLMSGLGFENGGLAAAHAIHNGMTAIHGPVHRLMHGEKVAYGTLVQVVLEDWPLEDFNNLASFMAKCHLPITLEELGIPNVTDEELLMVGRATLRPDESIHNMSKKFNPSQIADAIKAVDSYSQKWQEQTGWTERFRLPPSRHSPHLTDIHP EFEESKDRIFTSPQKYVQGRHAFTRSYMYVKKWATKSAVVLADQNVWNICANKIVDSLSQNGMTVTKLVFGGEASLVELDKLRKQCPDDTQVIIGVGGGKTMDSAKYIAHSMNLPSIICPTTASSDAATSSLSVIYTPDGQFQKYSFYPLNPNLIFIDTDVIVRAPVRFLISGIGDALSTWVETESVIRSNSTSFAGGVASIAGRYIARACKDTLEKYALSAILSNTRGVCTEAFENVVEANTLMSGLGFENGGLAAAHAIHNGMTAIHGPVHRLMHGEKVAYGTLVQVVLEDWPLEDFNNLASFMAKCHLPITLEELGIPNVTDEELLMVGRATLRPDESIHNMSKKFNPSQIADAIKAVDSYSQKWQEQTGWTERFRLPPSRHSPHLTDIHP 1ta9-a1-m4-cA_1ta9-a1-m4-cB Crystal structure of glycerol dehydrogenase from Schizosaccharomyces pombe O13702 O13702 1.9 X-RAY DIFFRACTION 115 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 389 394 1ta9-a1-m1-cA_1ta9-a1-m1-cB 1ta9-a1-m2-cA_1ta9-a1-m2-cB 1ta9-a1-m3-cA_1ta9-a1-m3-cB FEESKDRIFTSPQKYVQGRHAFTRSYMYVKKWATKSAVVLADQNVWNICANKIVDSLSQNGMTVTKLVFGGEASLVELDKLRKQCPDDTQVIIGVGGGKTMDSAKYIAHSMNLPSIICPTTASSDAATSSLSVIYQFQKYSFYPLNPNLIFIDTDVIVRAPVRFLISGIGDALSTWVETESVIRSNSTSFAGGVASIAGRYIARACKDTLEKYALSAILSNTRGVCTEAFENVVEANTLMSGLGFENGGLAAAHAIHNGMTAIHGPVHRLMHGEKVAYGTLVQVVLEDWPLEDFNNLASFMAKCHLPITLEELGIPNVTDEELLMVGRATLRPDESIHNMSKKFNPSQIADAIKAVDSYSQKWQEQTGWTERFRLPPSRHSPHLTDIHP EFEESKDRIFTSPQKYVQGRHAFTRSYMYVKKWATKSAVVLADQNVWNICANKIVDSLSQNGMTVTKLVFGGEASLVELDKLRKQCPDDTQVIIGVGGGKTMDSAKYIAHSMNLPSIICPTTASSDAATSSLSVIYTPDGQFQKYSFYPLNPNLIFIDTDVIVRAPVRFLISGIGDALSTWVETESVIRSNSTSFAGGVASIAGRYIARACKDTLEKYALSAILSNTRGVCTEAFENVVEANTLMSGLGFENGGLAAAHAIHNGMTAIHGPVHRLMHGEKVAYGTLVQVVLEDWPLEDFNNLASFMAKCHLPITLEELGIPNVTDEELLMVGRATLRPDESIHNMSKKFNPSQIADAIKAVDSYSQKWQEQTGWTERFRLPPSRHSPHLTDIHP 1tab-a1-m1-cI_1tab-a1-m2-cI STRUCTURE OF THE TRYPSIN-BINDING DOMAIN OF BOWMAN-BIRK TYPE PROTEASE INHIBITOR AND ITS INTERACTION WITH TRYPSIN P01058 P01058 2.3 X-RAY DIFFRACTION 25 1.0 3914 (Vigna angularis) 3914 (Vigna angularis) 36 36 SESSKPCCDQCSCTKSMPPKCRCSDIRNDFCYEPCK SESSKPCCDQCSCTKSMPPKCRCSDIRNDFCYEPCK 1tae-a6-m1-cD_1tae-a6-m3-cC Structural rearrangement accompanying NAD+ synthesis within a bacterial DNA ligase crystal Q837V6 Q837V6 2.7 X-RAY DIFFRACTION 81 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 321 321 1tae-a5-m1-cB_1tae-a5-m2-cA QPLTLTAATTRAQELRKQLNQYSHEYYVKDQPSVEDYVYDRLYKELVDIETEFPDLITPDSPTQRVGGKVLSGFEKAPHDIPMYSLNDGFSKEDIFAFDERVRKAIGKPVAYCCELKIDGLAISLRYENGVFVRGATRGDGTVGENITENLRTVRSVPMRLTEPISVEVRGECYMPKQSFVALNEEREENGQDIFANPRNAAAGSLRQLDTKIVAKRNLNTFLYTVADFGPMKAKTQFEALEELSAIGFRTNPERQLCQSIDEVWAYIEEYHEKRSTLPYEIDGIVIKVNEFALQDELGFTVKAPRWAIAYKFPPEEAETV QPLTLTAATTRAQELRKQLNQYSHEYYVKDQPSVEDYVYDRLYKELVDIETEFPDLITPDSPTQRVGGKVLSGFEKAPHDIPMYSLNDGFSKEDIFAFDERVRKAIGKPVAYCCELKIDGLAISLRYENGVFVRGATRGDGTVGENITENLRTVRSVPMRLTEPISVEVRGECYMPKQSFVALNEEREENGQDIFANPRNAAAGSLRQLDTKIVAKRNLNTFLYTVADFGPMKAKTQFEALEELSAIGFRTNPERQLCQSIDEVWAYIEEYHEKRSTLPYEIDGIVIKVNEFALQDELGFTVKAPRWAIAYKFPPEEAETV 1taf-a2-m4-cA_1taf-a2-m5-cA DROSOPHILA TBP ASSOCIATED FACTORS DTAFII42/DTAFII62 HETEROTETRAMER Q27272 Q27272 2 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 68 68 1taf-a1-m1-cA_1taf-a1-m2-cA PKDAQVIMSILKELNVQEYEPRVVNQLLEFTFRYVTSILDDAKVYANHARKKTIDLDDVRLATEVTLD PKDAQVIMSILKELNVQEYEPRVVNQLLEFTFRYVTSILDDAKVYANHARKKTIDLDDVRLATEVTLD 1tbg-a1-m1-cB_1tbg-a1-m1-cD BETA-GAMMA DIMER OF THE HETEROTRIMERIC G-PROTEIN TRANSDUCIN P62871 P62871 2.1 X-RAY DIFFRACTION 46 1.0 9913 (Bos taurus) 9913 (Bos taurus) 340 340 1tbg-a1-m1-cA_1tbg-a1-m1-cC MSELDQLRQEAEQLKNQIRDARKACADATLSQITNNIDPVGRIQMRTRRTLRGHLAKIYAMHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNYVACGGLDNICSIYNLKTREGNVRVSRELAGHTGYLSCCRFLDDNQIVTSSGDTTCALWDIETGQQTTTFTGHTGDVMSLSLAPDTRLFVSGACDASAKLWDVREGMCRQTFTGHESDINAICFFPNGNAFATGSDDATCRLFDLRADQELMTYSHDNIICGITSVSFSKSGRLLLAGYDDFNCNVWDALKADRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN MSELDQLRQEAEQLKNQIRDARKACADATLSQITNNIDPVGRIQMRTRRTLRGHLAKIYAMHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNYVACGGLDNICSIYNLKTREGNVRVSRELAGHTGYLSCCRFLDDNQIVTSSGDTTCALWDIETGQQTTTFTGHTGDVMSLSLAPDTRLFVSGACDASAKLWDVREGMCRQTFTGHESDINAICFFPNGNAFATGSDDATCRLFDLRADQELMTYSHDNIICGITSVSFSKSGRLLLAGYDDFNCNVWDALKADRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN 1tbg-a1-m1-cC_1tbg-a1-m1-cD BETA-GAMMA DIMER OF THE HETEROTRIMERIC G-PROTEIN TRANSDUCIN P62871 P62871 2.1 X-RAY DIFFRACTION 56 1.0 9913 (Bos taurus) 9913 (Bos taurus) 340 340 1tbg-a1-m1-cA_1tbg-a1-m1-cB MSELDQLRQEAEQLKNQIRDARKACADATLSQITNNIDPVGRIQMRTRRTLRGHLAKIYAMHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNYVACGGLDNICSIYNLKTREGNVRVSRELAGHTGYLSCCRFLDDNQIVTSSGDTTCALWDIETGQQTTTFTGHTGDVMSLSLAPDTRLFVSGACDASAKLWDVREGMCRQTFTGHESDINAICFFPNGNAFATGSDDATCRLFDLRADQELMTYSHDNIICGITSVSFSKSGRLLLAGYDDFNCNVWDALKADRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN MSELDQLRQEAEQLKNQIRDARKACADATLSQITNNIDPVGRIQMRTRRTLRGHLAKIYAMHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNYVACGGLDNICSIYNLKTREGNVRVSRELAGHTGYLSCCRFLDDNQIVTSSGDTTCALWDIETGQQTTTFTGHTGDVMSLSLAPDTRLFVSGACDASAKLWDVREGMCRQTFTGHESDINAICFFPNGNAFATGSDDATCRLFDLRADQELMTYSHDNIICGITSVSFSKSGRLLLAGYDDFNCNVWDALKADRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN 1tbp-a1-m1-cA_1tbp-a1-m1-cB CRYSTAL STRUCTURE OF YEAST TATA-BINDING PROTEIN AND MODEL FOR INTERACTION WITH DNA P13393 P13393 2.6 X-RAY DIFFRACTION 73 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 180 180 MGIVPTLQNIVATVTLGCRLDLKTVALHARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVVTGAKSEDDSKLASRKYARIIQKIGFAAKFTDFKIQNIVGSCDVKFPIRLEGLAFSHGTFSSYEPELFPGLIYRMVKPKIVLLIFVSGKIVLTGAKQREEIYQAFEAIYPVLSEFRKM MGIVPTLQNIVATVTLGCRLDLKTVALHARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVVTGAKSEDDSKLASRKYARIIQKIGFAAKFTDFKIQNIVGSCDVKFPIRLEGLAFSHGTFSSYEPELFPGLIYRMVKPKIVLLIFVSGKIVLTGAKQREEIYQAFEAIYPVLSEFRKM 1tbu-a1-m1-cA_1tbu-a1-m1-cC Crystal structure of N-terminal domain of yeast peroxisomal thioesterase-1 P41903 P41903 2.2 X-RAY DIFFRACTION 13 0.99 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 96 96 KILELVPLSPTSFVTKYLPTFGGTLVSQSLLASLHTVPLNFFPTSLHSYFIKGGDPRTKITYHVQNLRNGRNFIHKQVSAYQHDKLIFTSMILFAV ILELVPLSPTSFVTKYLPTFGGTLVSQSLLASLHTVPLNFFPTSLHSYFIKGGDPRTKITYHVQNLRNGRNFIHKQVSAYQHDKLIFTSMILFAVQ 1tbu-a1-m1-cC_1tbu-a1-m1-cB Crystal structure of N-terminal domain of yeast peroxisomal thioesterase-1 P41903 P41903 2.2 X-RAY DIFFRACTION 36 0.99 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 96 98 ILELVPLSPTSFVTKYLPTFGGTLVSQSLLASLHTVPLNFFPTSLHSYFIKGGDPRTKITYHVQNLRNGRNFIHKQVSAYQHDKLIFTSMILFAVQ KILELVPLSPTSFVTKYLGTFGGTLVSQSLLASLHTVPLNFFPTSLHSYFIKGGDPRTKITYHVQNLRNGRNFIHKQVSAYQHDKLIFTSMILFAVQR 1tbu-a1-m1-cC_1tbu-a1-m1-cD Crystal structure of N-terminal domain of yeast peroxisomal thioesterase-1 P41903 P41903 2.2 X-RAY DIFFRACTION 57 0.99 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 96 97 1tbu-a1-m1-cA_1tbu-a1-m1-cB ILELVPLSPTSFVTKYLPTFGGTLVSQSLLASLHTVPLNFFPTSLHSYFIKGGDPRTKITYHVQNLRNGRNFIHKQVSAYQHDKLIFTSMILFAVQ ILELVPLSPTSFVTKYLGTFGGTLVSQSLLASLHTVPLNFFPTSLHSYFIKGGDPRTKITYHVQNLRNGRNFIHKQVSAYQHDKLIFTSMILFAVQR 1tbx-a2-m2-cB_1tbx-a2-m1-cA Crystal structure of SSV1 F-93 P20222 P20222 2.7 X-RAY DIFFRACTION 22 0.989 244589 (Sulfolobus spindle-shaped virus 1) 244589 (Sulfolobus spindle-shaped virus 1) 89 93 1tbx-a2-m1-cB_1tbx-a2-m2-cA KSTPFFYPEAIVLAYLYDNEGIATYDLYKKVNAEFPSTATFYDAKKFLIQEGFVKERQERGEKRLYLTEKGKLFAISLKTAIETYKQIK STPFFYPEAIVLAYLYDNEGIATYDLYKKVNAEFPSTATFYDAKKFLIQEGFVKERQERGEKRLYLTEKGKLFAISLKTAIETYKQIKKRHHH 1tbx-a2-m2-cB_1tbx-a2-m2-cA Crystal structure of SSV1 F-93 P20222 P20222 2.7 X-RAY DIFFRACTION 60 0.989 244589 (Sulfolobus spindle-shaped virus 1) 244589 (Sulfolobus spindle-shaped virus 1) 89 93 1tbx-a1-m1-cB_1tbx-a1-m1-cA 1tbx-a2-m1-cB_1tbx-a2-m1-cA KSTPFFYPEAIVLAYLYDNEGIATYDLYKKVNAEFPSTATFYDAKKFLIQEGFVKERQERGEKRLYLTEKGKLFAISLKTAIETYKQIK STPFFYPEAIVLAYLYDNEGIATYDLYKKVNAEFPSTATFYDAKKFLIQEGFVKERQERGEKRLYLTEKGKLFAISLKTAIETYKQIKKRHHH 1tc5-a3-m1-cD_1tc5-a3-m3-cD Structural Analysis of a probable eukaryotic D-amino acid tRNA deacylase P84066 P84066 1.93 X-RAY DIFFRACTION 118 1.0 5664 (Leishmania major) 5664 (Leishmania major) 186 186 1tc5-a1-m1-cA_1tc5-a1-m1-cB 1tc5-a2-m1-cC_1tc5-a2-m2-cC MTIRVMLQAMDQGHLLVNNVDKYVRAGRGVMVYIAFLSDRDSAPITDEALRHAVGVLLHTKIFTHFSPEKMINQPQSLEECPEMDILIVPQASLGGKVKGRSVQFHQLVAKDVGAALYDRFCHFVRVARGVDESRVDANGAPRSEGDAPKAEGWIKYNSRVISGTFGNRQGLRFESEGPFTHMFDI MTIRVMLQAMDQGHLLVNNVDKYVRAGRGVMVYIAFLSDRDSAPITDEALRHAVGVLLHTKIFTHFSPEKMINQPQSLEECPEMDILIVPQASLGGKVKGRSVQFHQLVAKDVGAALYDRFCHFVRVARGVDESRVDANGAPRSEGDAPKAEGWIKYNSRVISGTFGNRQGLRFESEGPFTHMFDI 1td0-a3-m4-cC_1td0-a3-m5-cC Viral capsid protein SHP at pH 5.5 P36275 P36275 1.95 X-RAY DIFFRACTION 58 1.0 10711 (Enterobacteria phage P21) 10711 (Enterobacteria phage P21) 101 101 1td0-a1-m1-cA_1td0-a1-m2-cA 1td0-a1-m1-cA_1td0-a1-m3-cA 1td0-a1-m2-cA_1td0-a1-m3-cA 1td0-a2-m1-cB_1td0-a2-m4-cB 1td0-a2-m1-cB_1td0-a2-m5-cB 1td0-a2-m4-cB_1td0-a2-m5-cB 1td0-a3-m1-cC_1td0-a3-m4-cC 1td0-a3-m1-cC_1td0-a3-m5-cC 1td0-a4-m1-cD_1td0-a4-m6-cD 1td0-a4-m1-cD_1td0-a4-m7-cD 1td0-a4-m6-cD_1td0-a4-m7-cD 1td3-a1-m1-cA_1td3-a1-m1-cB 1td3-a1-m1-cA_1td3-a1-m1-cC 1td3-a1-m1-cB_1td3-a1-m1-cC 1td4-a1-m1-cA_1td4-a1-m2-cA 1td4-a1-m1-cA_1td4-a1-m3-cA 1td4-a1-m2-cA_1td4-a1-m3-cA VRIFAGNDPAHTATGSSGISSPTPALTPLMLDEATGKLVVWDGQKAGSAVGILVLPLEGTETALTYYKSGTFATEAIHWPESVDEHKKANAFAGSALSHAA VRIFAGNDPAHTATGSSGISSPTPALTPLMLDEATGKLVVWDGQKAGSAVGILVLPLEGTETALTYYKSGTFATEAIHWPESVDEHKKANAFAGSALSHAA 1tde-a1-m1-cA_1tde-a1-m2-cA CRYSTAL STRUCTURE OF ESCHERICHIA COLI THIOREDOXIN REDUCTASE REFINED AT 2 ANGSTROM RESOLUTION: IMPLICATIONS FOR A LARGE CONFORMATIONAL CHANGE DURING CATALYSIS P0A9P4 P0A9P4 2.1 X-RAY DIFFRACTION 166 1.0 562 (Escherichia coli) 562 (Escherichia coli) 316 316 1cl0-a1-m1-cA_1cl0-a1-m2-cA 1f6m-a1-m1-cA_1f6m-a1-m1-cB 1f6m-a2-m1-cE_1f6m-a2-m1-cF 1tdf-a1-m1-cA_1tdf-a1-m2-cA 1trb-a1-m1-cA_1trb-a1-m2-cA GTTKHSKLLILGSGPAGYTAAVYAARANLQPVLITGMEKGGQLTTTTEVENWPGDPNDLTGPLLMERMHEHATKFETEIIFDHINKVDLQNRPFRLNGDNGEYTCDALIIATGASARYLGLPSEEAFKGRGVSACATCDGFFYRNQKVAVIGGGNTAVEEALYLSNIASEVHLIHRRDGFRAEKILIKRLMDKVENGNIILHTNRTLEEVTGDQMGVTGVRLRDTQNSDNIESLDVAGLFVAIGHSPNTAIFEGQLELENGYIKVQSGIHGNATQTSIPGVFAAGDVMDHIYRQAITSAGTGCMAALDAERYLDGL GTTKHSKLLILGSGPAGYTAAVYAARANLQPVLITGMEKGGQLTTTTEVENWPGDPNDLTGPLLMERMHEHATKFETEIIFDHINKVDLQNRPFRLNGDNGEYTCDALIIATGASARYLGLPSEEAFKGRGVSACATCDGFFYRNQKVAVIGGGNTAVEEALYLSNIASEVHLIHRRDGFRAEKILIKRLMDKVENGNIILHTNRTLEEVTGDQMGVTGVRLRDTQNSDNIESLDVAGLFVAIGHSPNTAIFEGQLELENGYIKVQSGIHGNATQTSIPGVFAAGDVMDHIYRQAITSAGTGCMAALDAERYLDGL 1tdj-a1-m1-cA_1tdj-a1-m2-cA THREONINE DEAMINASE (BIOSYNTHETIC) FROM E. COLI P04968 P04968 2.8 X-RAY DIFFRACTION 214 1.0 562 (Escherichia coli) 562 (Escherichia coli) 494 494 QPLSGAPEGAEYLRAVLRAPVYEAAQVTPLQKMEKLSSRLDNVILVKREDRQPVHSFKLRGAYAMMAGLTEEQKAHGVITASAGNHAQGVAFSSARLGVKALIVMPTATADIKVDAVRGFGGEVLLHGANFDEAKAKAIELSQQQGFTWVPPFDHPMVIAGQGTLALELLQQDAHLDRVFVPVGGGGLAAGVAVLIKQLMPQIKVIAVEAEDSACLKAALDAGHPVDLPRVGLFAEGVAVKRIGDETFRLCQEYLDDIITVDSDAICAAMKDLFEDVRAVAEPSGALALAGMKKYIALHNIRGERLAHILSGANVNFHGLRYVSERCELGEQREALLAVTIPEEKGSFLKFCQLLGGRSVTEFNYRFADAKNACIFVGVRLSRGLEERKEILQMLNDGGYSVVDLSDDEMAKLHVRYMVGGRPSHPLQERLYSFEFPESPGALLRFLNTLGTYWNISLFHYRSHGTDYGRVLAAFEYDCHDETNNPAFRFFLAG QPLSGAPEGAEYLRAVLRAPVYEAAQVTPLQKMEKLSSRLDNVILVKREDRQPVHSFKLRGAYAMMAGLTEEQKAHGVITASAGNHAQGVAFSSARLGVKALIVMPTATADIKVDAVRGFGGEVLLHGANFDEAKAKAIELSQQQGFTWVPPFDHPMVIAGQGTLALELLQQDAHLDRVFVPVGGGGLAAGVAVLIKQLMPQIKVIAVEAEDSACLKAALDAGHPVDLPRVGLFAEGVAVKRIGDETFRLCQEYLDDIITVDSDAICAAMKDLFEDVRAVAEPSGALALAGMKKYIALHNIRGERLAHILSGANVNFHGLRYVSERCELGEQREALLAVTIPEEKGSFLKFCQLLGGRSVTEFNYRFADAKNACIFVGVRLSRGLEERKEILQMLNDGGYSVVDLSDDEMAKLHVRYMVGGRPSHPLQERLYSFEFPESPGALLRFLNTLGTYWNISLFHYRSHGTDYGRVLAAFEYDCHDETNNPAFRFFLAG 1te0-a3-m23-cB_1te0-a3-m9-cA Structural analysis of DegS, a stress sensor of the bacterial periplasm P0AEE3 P0AEE3 2.2 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 318 318 1te0-a3-m10-cA_1te0-a3-m14-cB 1te0-a3-m11-cA_1te0-a3-m13-cB 1te0-a3-m12-cA_1te0-a3-m15-cB 1te0-a3-m16-cB_1te0-a3-m3-cA 1te0-a3-m17-cB_1te0-a3-m5-cA 1te0-a3-m18-cB_1te0-a3-m4-cA 1te0-a3-m19-cB_1te0-a3-m6-cA 1te0-a3-m1-cA_1te0-a3-m20-cB 1te0-a3-m21-cB_1te0-a3-m8-cA 1te0-a3-m22-cB_1te0-a3-m7-cA 1te0-a3-m2-cA_1te0-a3-m24-cB 4rqy-a3-m13-cB_4rqy-a3-m11-cA 4rqy-a3-m14-cB_4rqy-a3-m10-cA 4rqy-a3-m15-cB_4rqy-a3-m12-cA 4rqy-a3-m16-cB_4rqy-a3-m3-cA 4rqy-a3-m17-cB_4rqy-a3-m5-cA 4rqy-a3-m18-cB_4rqy-a3-m4-cA 4rqy-a3-m19-cB_4rqy-a3-m6-cA 4rqy-a3-m20-cB_4rqy-a3-m1-cA 4rqy-a3-m21-cB_4rqy-a3-m8-cA 4rqy-a3-m22-cB_4rqy-a3-m7-cA 4rqy-a3-m23-cB_4rqy-a3-m9-cA 4rqy-a3-m24-cB_4rqy-a3-m2-cA FDSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLIIKATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREIAPLHAQGGGIDQLQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMDQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPAT FDSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLIIKATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREIAPLHAQGGGIDQLQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMDQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPAT 1te0-a3-m5-cA_1te0-a3-m9-cA Structural analysis of DegS, a stress sensor of the bacterial periplasm P0AEE3 P0AEE3 2.2 X-RAY DIFFRACTION 86 1.0 562 (Escherichia coli) 562 (Escherichia coli) 318 318 1soz-a1-m1-cC_1soz-a1-m1-cB 1te0-a1-m1-cA_1te0-a1-m2-cA 1te0-a1-m1-cA_1te0-a1-m3-cA 1te0-a1-m2-cA_1te0-a1-m3-cA 1te0-a2-m1-cB_1te0-a2-m2-cB 1te0-a2-m1-cB_1te0-a2-m3-cB 1te0-a2-m2-cB_1te0-a2-m3-cB 1te0-a3-m10-cA_1te0-a3-m5-cA 1te0-a3-m10-cA_1te0-a3-m9-cA 1te0-a3-m11-cA_1te0-a3-m6-cA 1te0-a3-m11-cA_1te0-a3-m7-cA 1te0-a3-m12-cA_1te0-a3-m4-cA 1te0-a3-m12-cA_1te0-a3-m8-cA 1te0-a3-m13-cB_1te0-a3-m17-cB 1te0-a3-m13-cB_1te0-a3-m21-cB 1te0-a3-m14-cB_1te0-a3-m19-cB 1te0-a3-m14-cB_1te0-a3-m24-cB 1te0-a3-m15-cB_1te0-a3-m20-cB 1te0-a3-m15-cB_1te0-a3-m22-cB 1te0-a3-m16-cB_1te0-a3-m18-cB 1te0-a3-m16-cB_1te0-a3-m23-cB 1te0-a3-m17-cB_1te0-a3-m21-cB 1te0-a3-m18-cB_1te0-a3-m23-cB 1te0-a3-m19-cB_1te0-a3-m24-cB 1te0-a3-m1-cA_1te0-a3-m2-cA 1te0-a3-m1-cA_1te0-a3-m3-cA 1te0-a3-m20-cB_1te0-a3-m22-cB 1te0-a3-m2-cA_1te0-a3-m3-cA 1te0-a3-m4-cA_1te0-a3-m8-cA 1te0-a3-m6-cA_1te0-a3-m7-cA 1vcw-a1-m1-cA_1vcw-a1-m1-cB 1vcw-a1-m1-cA_1vcw-a1-m1-cC 1vcw-a1-m1-cB_1vcw-a1-m1-cC 2qf0-a1-m1-cC_2qf0-a1-m1-cB 2r3u-a1-m1-cB_2r3u-a1-m1-cA 2r3u-a1-m1-cC_2r3u-a1-m1-cA 2rce-a2-m1-cD_2rce-a2-m1-cF 2rce-a3-m1-cH_2rce-a3-m1-cG 2rce-a3-m1-cI_2rce-a3-m1-cG 3b8j-a1-m1-cA_3b8j-a1-m2-cA 3b8j-a1-m1-cA_3b8j-a1-m3-cA 3b8j-a1-m2-cA_3b8j-a1-m3-cA 3gdv-a1-m1-cC_3gdv-a1-m1-cA 3lgi-a1-m1-cA_3lgi-a1-m1-cB 3lgi-a1-m1-cC_3lgi-a1-m1-cA 3lgi-a1-m1-cC_3lgi-a1-m1-cB 3lgv-a1-m1-cC_3lgv-a1-m1-cB 3lgv-a2-m1-cD_3lgv-a2-m1-cF 3lgv-a3-m1-cH_3lgv-a3-m1-cG 3lgv-a3-m1-cI_3lgv-a3-m1-cG 3lh3-a2-m1-cF_3lh3-a2-m1-cD 3lh3-a3-m1-cH_3lh3-a3-m1-cG 3lh3-a3-m1-cI_3lh3-a3-m1-cG 4rqy-a1-m1-cA_4rqy-a1-m2-cA 4rqy-a1-m1-cA_4rqy-a1-m3-cA 4rqy-a1-m2-cA_4rqy-a1-m3-cA 4rqy-a2-m1-cB_4rqy-a2-m2-cB 4rqy-a2-m1-cB_4rqy-a2-m3-cB 4rqy-a2-m2-cB_4rqy-a2-m3-cB 4rqy-a3-m10-cA_4rqy-a3-m5-cA 4rqy-a3-m10-cA_4rqy-a3-m9-cA 4rqy-a3-m11-cA_4rqy-a3-m6-cA 4rqy-a3-m11-cA_4rqy-a3-m7-cA 4rqy-a3-m12-cA_4rqy-a3-m4-cA 4rqy-a3-m12-cA_4rqy-a3-m8-cA 4rqy-a3-m13-cB_4rqy-a3-m17-cB 4rqy-a3-m13-cB_4rqy-a3-m21-cB 4rqy-a3-m14-cB_4rqy-a3-m19-cB 4rqy-a3-m14-cB_4rqy-a3-m24-cB 4rqy-a3-m15-cB_4rqy-a3-m20-cB 4rqy-a3-m15-cB_4rqy-a3-m22-cB 4rqy-a3-m16-cB_4rqy-a3-m18-cB 4rqy-a3-m16-cB_4rqy-a3-m23-cB 4rqy-a3-m17-cB_4rqy-a3-m21-cB 4rqy-a3-m18-cB_4rqy-a3-m23-cB 4rqy-a3-m19-cB_4rqy-a3-m24-cB 4rqy-a3-m1-cA_4rqy-a3-m2-cA 4rqy-a3-m1-cA_4rqy-a3-m3-cA 4rqy-a3-m20-cB_4rqy-a3-m22-cB 4rqy-a3-m2-cA_4rqy-a3-m3-cA 4rqy-a3-m4-cA_4rqy-a3-m8-cA 4rqy-a3-m5-cA_4rqy-a3-m9-cA 4rqy-a3-m6-cA_4rqy-a3-m7-cA 6ew9-a1-m1-cB_6ew9-a1-m1-cC FDSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLIIKATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREIAPLHAQGGGIDQLQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMDQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPAT FDSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLIIKATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREIAPLHAQGGGIDQLQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMDQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPAT 1te2-a1-m1-cA_1te2-a1-m1-cB Putative Phosphatase Ynic from Escherichia coli K12 P77247 P77247 1.76 X-RAY DIFFRACTION 40 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 211 211 RQILAAIFDDGLLIDSEPLWDRAELDVASLGVDISRRNELPDTLGLRIDVVDLWYARQPWNGPSRQEVVERVIARAISLVEETRPLLPGVREAVALCKEQGLLVGLASASPLHLEKVLTFDLRDSFDALASAEKLPYSKPHPQVYLDCAAKLGVDPLTCVALEDSVNGIASKAARRSIVVPAPEAQNDPRFVLANVKLSSLTELTAKDLLG RQILAAIFDDGLLIDSEPLWDRAELDVASLGVDISRRNELPDTLGLRIDVVDLWYARQPWNGPSRQEVVERVIARAISLVEETRPLLPGVREAVALCKEQGLLVGLASASPLHLEKVLTFDLRDSFDALASAEKLPYSKPHPQVYLDCAAKLGVDPLTCVALEDSVNGIASKAARRSIVVPAPEAQNDPRFVLANVKLSSLTELTAKDLLG 1te2-a2-m1-cB_1te2-a2-m2-cA Putative Phosphatase Ynic from Escherichia coli K12 P77247 P77247 1.76 X-RAY DIFFRACTION 18 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 211 211 RQILAAIFDDGLLIDSEPLWDRAELDVASLGVDISRRNELPDTLGLRIDVVDLWYARQPWNGPSRQEVVERVIARAISLVEETRPLLPGVREAVALCKEQGLLVGLASASPLHLEKVLTFDLRDSFDALASAEKLPYSKPHPQVYLDCAAKLGVDPLTCVALEDSVNGIASKAARRSIVVPAPEAQNDPRFVLANVKLSSLTELTAKDLLG RQILAAIFDDGLLIDSEPLWDRAELDVASLGVDISRRNELPDTLGLRIDVVDLWYARQPWNGPSRQEVVERVIARAISLVEETRPLLPGVREAVALCKEQGLLVGLASASPLHLEKVLTFDLRDSFDALASAEKLPYSKPHPQVYLDCAAKLGVDPLTCVALEDSVNGIASKAARRSIVVPAPEAQNDPRFVLANVKLSSLTELTAKDLLG 1te5-a1-m1-cA_1te5-a1-m1-cB The 2.0 Angstrom crystal structure of predicted glutamine amidotransferase from Pseudomonas aeruginosa PA01 Q9I437 Q9I437 2 X-RAY DIFFRACTION 72 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 253 253 CELLGMSANVPTDIVFSFTGLMQRGGGTGPHRDGWGIAFYEGRGVRLFQDPLASVDSEVARLVQRFPIKSETVIGHIRQANVGKVGLSNTHPFIRELGGRYWTFAHNGQLADFQPKPGFYRPVGETDSEAAFCDLLNRVRRAFPEPVPVEVLLPVLISACDEYRKKGVFNALISDGDWLFTFCSSKLAYITRRAPFGPARLKDADLTVDFHAETTPDDVVTVIATEPLTDNENWTLQQSGEWVLWWGGEVLAK CELLGMSANVPTDIVFSFTGLMQRGGGTGPHRDGWGIAFYEGRGVRLFQDPLASVDSEVARLVQRFPIKSETVIGHIRQANVGKVGLSNTHPFIRELGGRYWTFAHNGQLADFQPKPGFYRPVGETDSEAAFCDLLNRVRRAFPEPVPVEVLLPVLISACDEYRKKGVFNALISDGDWLFTFCSSKLAYITRRAPFGPARLKDADLTVDFHAETTPDDVVTVIATEPLTDNENWTLQQSGEWVLWWGGEVLAK 1ted-a2-m1-cD_1ted-a2-m1-cC Crystal structure of a type III polyketide synthase PKS18 from Mycobacterium tuberculosis P9WPF1 P9WPF1 2.25 X-RAY DIFFRACTION 196 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 359 368 1ted-a1-m1-cB_1ted-a1-m1-cA 1tee-a1-m1-cB_1tee-a1-m1-cA 1tee-a2-m1-cD_1tee-a2-m1-cC TVAVIEGLATGTPRRVVNQSDAADRVAELGQRERIPRVYQKSRITTRRMAVDPLDAKFDVFRREPATIRDRMHLFYEHAVPLAVDVSKRALAGLPYRAAEIGLLVLATSTGFIAPGVDVAIVKELGLSPSISRVVVNFMGCAAAMNALGTATNYVRAHPAMKALVVCIELCSVNAVFADDINDVVIHSLFGDGCAALVIGASQVQEKLEPGKVVVRSSFSQLLDNTEDGIVLGVNHNGITCELSENLPGYIFSGVAPVVTEMLWDNGLQISDIDLWAIHPGGPKIIEQSVRSLGISAELAAQSWDVLARFGNMLSVSLIFVLETMVQQAESAKAISTGVAFAFGPGVTVEGMLFDIIRR AQLPPAPPTTVAVIEGLATGTPRRVVNQSDAADRVAELGQRERIPRVYQKSRITTRRMAVDPLDAKFDVFRREPATIRDRMHLFYEHAVPLAVDVSKRALAGLPYRAAEIGLLVLATSTGFIAPGVDVAIVKELGLSPSISRVVVNFMGCAAAMNALGTATNYVRAHPAMKALVVCIELCSVNAVFADDINDVVIHSLFGDGCAALVIGASQVQEKLEPGKVVVRSSFSQLLDNTEDGIVLGVNHNGITCELSENLPGYIFSGVAPVVTEMLWDNGLQISDIDLWAIHPGGPKIIEQSVRSLGISAELAAQSWDVLARFGNMLSVSLIFVLETMVQQAESAKAISTGVAFAFGPGVTVEGMLFDIIRR 1tej-a2-m1-cA_1tej-a2-m2-cA Crystal structure of a disintegrin heterodimer at 1.9 A resolution. P0C6B4 P0C6B4 1.9 X-RAY DIFFRACTION 39 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 62 62 SVNPCCDPVICKPRDGEHCISGPCCNNCKFLNSGTICQRARGDGNHDYCTGITTDCPRNRYN SVNPCCDPVICKPRDGEHCISGPCCNNCKFLNSGTICQRARGDGNHDYCTGITTDCPRNRYN 1tej-a2-m1-cB_1tej-a2-m2-cB Crystal structure of a disintegrin heterodimer at 1.9 A resolution. P0C6B5 P0C6B5 1.9 X-RAY DIFFRACTION 46 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 63 63 NSVNPCCDPQTCKPIEGKHCISGPCCENCYFLRSGTICQRARGDGNNDYCTGITPDCPRNRYN NSVNPCCDPQTCKPIEGKHCISGPCCENCYFLRSGTICQRARGDGNNDYCTGITPDCPRNRYN 1tex-a2-m1-cC_1tex-a2-m1-cD Mycobacterium smegmatis Stf0 Sulfotransferase with Trehalose P84151 P84151 2.6 X-RAY DIFFRACTION 75 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 244 247 1tex-a1-m1-cA_1tex-a1-m1-cB HPTAYLVLASQRSGSTLLVESLRATGVAGEPQEFFQYLPNTSMSPQPREWFADVEDQSILRLLDPLIEGKPDLAPATIWRDYIQTVGRTPNGVWGGKLMWNQTPLLVQRAKDLPDRSGSGLLSAIRDVVGSDPVLIHIHRPDVVSQAVSFWRAVQTRVWRAEYHAGAIAHVITMLRAQEEGWRAWFTEENVEPIDVDYPYLWRNLTEVVGTVLEALGQDPRLAPKPDEWVERYRRDAQRDGLPL DHPTAYLVLASQRSGSTLLVESLRATGVAGEPQEFFQYLPNTSMSPQPREWFADVEDQSILRLLDPLIEGKPDLAPATIWRDYIQTVGRTPNGVWGGKLMWNQTPLLVQRAKDLPDRSGSGLLSAIRDVVGSDPVLIHIHRPDVVSQAVSFWRAVQTRVWRGAEYHAGAIAHVITMLRAQEEGWRAWFTEENVEPIDVDYPYLWRNLTEVVGTVLEALGQDPRLAPKPSDEWVERYRRDAQRDGLPL 1tfp-a2-m1-cA_1tfp-a2-m2-cB TRANSTHYRETIN (FORMERLY KNOWN AS PREALBUMIN) P27731 P27731 2.9 X-RAY DIFFRACTION 44 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 114 114 1tfp-a2-m1-cB_1tfp-a2-m2-cA CPLMVKVLDAVRGSPAANVAVKVFKKAADGTWQDFATGKTTEFGEIHELTTEEQFVEGVYRVEFDTSSYWKGLGLSPFHEYADVVFTANDSGHRHYTIAALLSPFSYSTTAVVS CPLMVKVLDAVRGSPAANVAVKVFKKAADGTWQDFATGKTTEFGEIHELTTEEQFVEGVYRVEFDTSSYWKGLGLSPFHEYADVVFTANDSGHRHYTIAALLSPFSYSTTAVVS 1tfp-a2-m1-cB_1tfp-a2-m2-cB TRANSTHYRETIN (FORMERLY KNOWN AS PREALBUMIN) P27731 P27731 2.9 X-RAY DIFFRACTION 31 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 114 114 1tfp-a2-m1-cA_1tfp-a2-m2-cA CPLMVKVLDAVRGSPAANVAVKVFKKAADGTWQDFATGKTTEFGEIHELTTEEQFVEGVYRVEFDTSSYWKGLGLSPFHEYADVVFTANDSGHRHYTIAALLSPFSYSTTAVVS CPLMVKVLDAVRGSPAANVAVKVFKKAADGTWQDFATGKTTEFGEIHELTTEEQFVEGVYRVEFDTSSYWKGLGLSPFHEYADVVFTANDSGHRHYTIAALLSPFSYSTTAVVS 1tfp-a2-m2-cA_1tfp-a2-m2-cB TRANSTHYRETIN (FORMERLY KNOWN AS PREALBUMIN) P27731 P27731 2.9 X-RAY DIFFRACTION 69 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 114 114 1tfp-a1-m1-cA_1tfp-a1-m1-cB 1tfp-a2-m1-cA_1tfp-a2-m1-cB CPLMVKVLDAVRGSPAANVAVKVFKKAADGTWQDFATGKTTEFGEIHELTTEEQFVEGVYRVEFDTSSYWKGLGLSPFHEYADVVFTANDSGHRHYTIAALLSPFSYSTTAVVS CPLMVKVLDAVRGSPAANVAVKVFKKAADGTWQDFATGKTTEFGEIHELTTEEQFVEGVYRVEFDTSSYWKGLGLSPFHEYADVVFTANDSGHRHYTIAALLSPFSYSTTAVVS 1tg6-a2-m1-cB_1tg6-a2-m2-cC Crystallography and mutagenesis point to an essential role for the N-terminus of human mitochondrial ClpP Q16740 Q16740 2.1 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 1tg6-a2-m1-cA_1tg6-a2-m2-cD 1tg6-a2-m1-cC_1tg6-a2-m2-cB 1tg6-a2-m1-cD_1tg6-a2-m2-cA 1tg6-a2-m1-cF_1tg6-a2-m2-cF 1tg6-a2-m1-cG_1tg6-a2-m2-cE 1tg6-a2-m2-cG_1tg6-a2-m1-cE PLIPIVVYDIYSRLLRERIVCVMGPIDDSVASLVIAQLLFLQSESNKKPIHMYINSPGGVVTAGLAIYDTMQYILNPICTWCVGQAASMGSLLLAAGTPGMRHSLPNSRIMIHQPSGGARGQATDIAIQAEEIMKLKKQLYNIYAKHTKQSLQVIESAMERDRYMSPMEAQEFGILDKVLVHP PLIPIVVYDIYSRLLRERIVCVMGPIDDSVASLVIAQLLFLQSESNKKPIHMYINSPGGVVTAGLAIYDTMQYILNPICTWCVGQAASMGSLLLAAGTPGMRHSLPNSRIMIHQPSGGARGQATDIAIQAEEIMKLKKQLYNIYAKHTKQSLQVIESAMERDRYMSPMEAQEFGILDKVLVHP 1tgg-a1-m1-cA_1tgg-a1-m1-cB RH3 DESIGNED RIGHT-HANDED COILED COIL TRIMER 2 X-RAY DIFFRACTION 13 1.0 25 25 AEEQKKEIAYLKKKEILEKKKQEIA AEEQKKEIAYLKKKEILEKKKQEIA 1tgx-a1-m4-cA_1tgx-a1-m4-cC X-RAY STRUCTURE AT 1.55 A OF TOXIN GAMMA, A CARDIOTOXIN FROM NAJA NIGRICOLLIS VENOM. CRYSTAL PACKING REVEALS A MODEL FOR INSERTION INTO MEMBRANES P01468 P01468 1.55 X-RAY DIFFRACTION 12 1.0 8654 (Naja nigricollis) 8654 (Naja nigricollis) 60 60 1tgx-a1-m1-cA_1tgx-a1-m1-cC LKCNQLIPPFWKTCPKGKNLCYKMTMRAAPMVPVKRGCIDVCPKSSLLIKYMCCNTDKCN LKCNQLIPPFWKTCPKGKNLCYKMTMRAAPMVPVKRGCIDVCPKSSLLIKYMCCNTDKCN 1tgx-a3-m10-cB_1tgx-a3-m9-cA X-RAY STRUCTURE AT 1.55 A OF TOXIN GAMMA, A CARDIOTOXIN FROM NAJA NIGRICOLLIS VENOM. CRYSTAL PACKING REVEALS A MODEL FOR INSERTION INTO MEMBRANES P01468 P01468 1.55 X-RAY DIFFRACTION 22 1.0 8654 (Naja nigricollis) 8654 (Naja nigricollis) 60 60 1tgx-a1-m1-cA_1tgx-a1-m2-cB 1tgx-a1-m1-cB_1tgx-a1-m4-cA 1tgx-a1-m1-cC_1tgx-a1-m4-cC 1tgx-a2-m1-cA_1tgx-a2-m2-cB 1tgx-a2-m5-cA_1tgx-a2-m6-cB 1tgx-a3-m11-cC_1tgx-a3-m12-cC 1tgx-a3-m1-cA_1tgx-a3-m2-cB LKCNQLIPPFWKTCPKGKNLCYKMTMRAAPMVPVKRGCIDVCPKSSLLIKYMCCNTDKCN LKCNQLIPPFWKTCPKGKNLCYKMTMRAAPMVPVKRGCIDVCPKSSLLIKYMCCNTDKCN 1tgx-a4-m14-cB_1tgx-a4-m15-cC X-RAY STRUCTURE AT 1.55 A OF TOXIN GAMMA, A CARDIOTOXIN FROM NAJA NIGRICOLLIS VENOM. CRYSTAL PACKING REVEALS A MODEL FOR INSERTION INTO MEMBRANES P01468 P01468 1.55 X-RAY DIFFRACTION 10 1.0 8654 (Naja nigricollis) 8654 (Naja nigricollis) 60 60 1tgx-a2-m1-cA_1tgx-a2-m5-cA 1tgx-a2-m2-cB_1tgx-a2-m7-cC 1tgx-a2-m6-cB_1tgx-a2-m8-cC 1tgx-a4-m12-cC_1tgx-a4-m13-cB 1tgx-a4-m1-cA_1tgx-a4-m5-cA LKCNQLIPPFWKTCPKGKNLCYKMTMRAAPMVPVKRGCIDVCPKSSLLIKYMCCNTDKCN LKCNQLIPPFWKTCPKGKNLCYKMTMRAAPMVPVKRGCIDVCPKSSLLIKYMCCNTDKCN 1th7-a1-m1-cF_1th7-a1-m1-cN Crystal Structure of an Archaeal Sm Protein from Sulfolobus solfataricus Q97ZQ0 Q97ZQ0 1.68 X-RAY DIFFRACTION 15 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 78 78 1th7-a1-m1-cA_1th7-a1-m1-cL 1th7-a1-m1-cB_1th7-a1-m1-cK 1th7-a1-m1-cC_1th7-a1-m1-cJ 1th7-a1-m1-cD_1th7-a1-m1-cI 1th7-a1-m1-cE_1th7-a1-m1-cH 1th7-a1-m1-cG_1th7-a1-m1-cM GAMNFLAETAHKVLAESLNNLVLVKLKGNKEVRGMLRSYDQHMNLVLSDSEEIQSDGSGKKLGTIVIRGDNVILISPL GAMNFLAETAHKVLAESLNNLVLVKLKGNKEVRGMLRSYDQHMNLVLSDSEEIQSDGSGKKLGTIVIRGDNVILISPL 1th7-a1-m1-cH_1th7-a1-m1-cN Crystal Structure of an Archaeal Sm Protein from Sulfolobus solfataricus Q97ZQ0 Q97ZQ0 1.68 X-RAY DIFFRACTION 61 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 78 78 1th7-a1-m1-cA_1th7-a1-m1-cB 1th7-a1-m1-cA_1th7-a1-m1-cG 1th7-a1-m1-cB_1th7-a1-m1-cC 1th7-a1-m1-cC_1th7-a1-m1-cD 1th7-a1-m1-cD_1th7-a1-m1-cE 1th7-a1-m1-cE_1th7-a1-m1-cF 1th7-a1-m1-cF_1th7-a1-m1-cG 1th7-a1-m1-cH_1th7-a1-m1-cI 1th7-a1-m1-cI_1th7-a1-m1-cJ 1th7-a1-m1-cJ_1th7-a1-m1-cK 1th7-a1-m1-cK_1th7-a1-m1-cL 1th7-a1-m1-cL_1th7-a1-m1-cM 1th7-a1-m1-cM_1th7-a1-m1-cN GAMNFLAETAHKVLAESLNNLVLVKLKGNKEVRGMLRSYDQHMNLVLSDSEEIQSDGSGKKLGTIVIRGDNVILISPL GAMNFLAETAHKVLAESLNNLVLVKLKGNKEVRGMLRSYDQHMNLVLSDSEEIQSDGSGKKLGTIVIRGDNVILISPL 1the-a1-m1-cA_1the-a1-m2-cB CRYSTAL STRUCTURES OF RECOMBINANT RAT CATHEPSIN B AND A CATHEPSIN B-INHIBITOR COMPLEX: IMPLICATIONS FOR STRUCTURE-BASED INHIBITOR DESIGN P00787 P00787 1.9 X-RAY DIFFRACTION 92 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 253 253 LPESFDAREQWSNCPTIAQIRDQGSCGSCWAFGAVEAMSDRICIHTNGRVNVEVSAEDLLTCCGIQCGDGCNGGYPSGAWNFWTRKGLVSGGVYNSHIGCLPYTIPPCEHHVNGARPPCTGEGDTPKCNKMCEAGYSTSYKEDKHYGYTSYSVSDSEKEIMAEIYKNGPVEGAFTVFSDFLTYKSGVYKHEAGDVMGGHAIRILGWGIENGVPYWLVANSWNADWGDNGFFKILRGENHCGIESEIVAGIPRT LPESFDAREQWSNCPTIAQIRDQGSCGSCWAFGAVEAMSDRICIHTNGRVNVEVSAEDLLTCCGIQCGDGCNGGYPSGAWNFWTRKGLVSGGVYNSHIGCLPYTIPPCEHHVNGARPPCTGEGDTPKCNKMCEAGYSTSYKEDKHYGYTSYSVSDSEKEIMAEIYKNGPVEGAFTVFSDFLTYKSGVYKHEAGDVMGGHAIRILGWGIENGVPYWLVANSWNADWGDNGFFKILRGENHCGIESEIVAGIPRT 1thf-a1-m1-cD_1thf-a1-m2-cD CYCLASE SUBUNIT OF IMIDAZOLEGLYCEROLPHOSPHATE SYNTHASE FROM THERMOTOGA MARITIMA Q9X0C6 Q9X0C6 1.45 X-RAY DIFFRACTION 74 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 253 253 MLAKRIIACLDVKDGRVVKGSNFENLRDSGDPVELGKFYSEIGIDELVFLDITASVEKRKTMLELVEKVAEQIDIPFTVGGGIHDFETASELILRGADKVSINTAAVENPSLITQIAQTFGSQAVVVAIDAKRVDGEFMVFTYSGKKNTGILLRDWVVEVEKRGAGEILLTSIDRDGTKSGYDTEMIRFVRPLTTLPIIASGGAGKMEHFLEAFLAGADAALAASVFHFREIDVRELKEYLKKHGVNVRLEGL MLAKRIIACLDVKDGRVVKGSNFENLRDSGDPVELGKFYSEIGIDELVFLDITASVEKRKTMLELVEKVAEQIDIPFTVGGGIHDFETASELILRGADKVSINTAAVENPSLITQIAQTFGSQAVVVAIDAKRVDGEFMVFTYSGKKNTGILLRDWVVEVEKRGAGEILLTSIDRDGTKSGYDTEMIRFVRPLTTLPIIASGGAGKMEHFLEAFLAGADAALAASVFHFREIDVRELKEYLKKHGVNVRLEGL 1thj-a2-m1-cC_1thj-a2-m2-cC CARBONIC ANHYDRASE FROM METHANOSARCINA P40881 P40881 2.8 X-RAY DIFFRACTION 36 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 213 213 1thj-a2-m1-cA_1thj-a2-m2-cB 1thj-a2-m1-cB_1thj-a2-m2-cA MQEITVDEFSNIRENPVTPWNPEPSAPVIDPTAYIDPEASVIGEVTIGANVMVSPMASIRSDEGMPIFVGDRSNVQDGVVLHALETINEEGEPIEDNIVEVDGKEYAVYIGNNVSLAHQSQVHGPAAVGDDTFIGMQAFVFKSKVGNNCVLEPRSAAIGVTIPDGRYIPAGMVVTSQAEADKLPEVTDDYAYSHTNEAVVYVNVHLAEGYKET MQEITVDEFSNIRENPVTPWNPEPSAPVIDPTAYIDPEASVIGEVTIGANVMVSPMASIRSDEGMPIFVGDRSNVQDGVVLHALETINEEGEPIEDNIVEVDGKEYAVYIGNNVSLAHQSQVHGPAAVGDDTFIGMQAFVFKSKVGNNCVLEPRSAAIGVTIPDGRYIPAGMVVTSQAEADKLPEVTDDYAYSHTNEAVVYVNVHLAEGYKET 1ths-a2-m2-cH_1ths-a2-m1-cH STRUCTURES OF THROMBIN COMPLEXES WITH A DESIGNED AND A NATURAL EXOSITE INHIBITOR P00734 P00734 2.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 1o0d-a2-m2-cH_1o0d-a2-m1-cH 2a2x-a2-m2-cH_2a2x-a2-m1-cH 2feq-a2-m2-cH_2feq-a2-m1-cH IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQFGE IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQFGE 1tht-a1-m1-cB_1tht-a1-m1-cA STRUCTURE OF A MYRISTOYL-ACP-SPECIFIC THIOESTERASE FROM VIBRIO HARVEYI P05521 P05521 2.1 X-RAY DIFFRACTION 18 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 293 294 QCKTIAHVLRVNNGQELHVWETPPKENVPFKNNTILIASGFARRMDHFAGLAEYLSTNGFHVFRYDSLHHEFTMTTGKNSLCTVYHWLQTKGTQNIGLIAASLSARVAYEVISDLELSFLITAVGVVNLRDTLEKALGFDYLSLPIDELPNDLDFEGHKLGSEVFVRDCFEHHWDTLDSTLDKVANTSVPLIAFTANNDDWVKQEEVYDMLAHIRTGHCKLYSLLGSSHDLGENLVVLRNFYQSVTKAAIAMDGGSLEIDVDFIEPDFEQLTIATVNERRLKAEIENRTPEMA QCKTIAHVLRVNNGQELHVWETPPKENVPFKNNTILIASGFARRMDHFAGLAEYLSTNGFHVFRYDSLHHVEFTMTTGKNSLCTVYHWLQTKGTQNIGLIAASLSARVAYEVISDLELSFLITAVGVVNLRDTLEKALGFDYLSLPIDELPNDLDFEGHKLGSEVFVRDCFEHHWDTLDSTLDKVANTSVPLIAFTANNDDWVKQEEVYDMLAHIRTGHCKLYSLLGSSHDLGENLVVLRNFYQSVTKAAIAMDGGSLEIDVDFIEPDFEQLTIATVNERRLKAEIENRTPEMA 1thw-a1-m1-cA_1thw-a1-m2-cA THE STRUCTURES OF THREE CRYSTAL FORMS OF THE SWEET PROTEIN THAUMATIN P02883 P02883 1.75 X-RAY DIFFRACTION 50 1.0 4621 (Thaumatococcus daniellii) 4621 (Thaumatococcus daniellii) 207 207 ATFEIVNRCSYTVWAAASKGDAALDAGGRQLNSGESWTINVEPGTKGGKIWARTDCYFDDSGSGICKTGDCGGLLRCKRFGRPPTTLAEFSLNQYGKDYIDISNIKGFNVPMDFSPTTRGCRGVRCAADIVGQCPAKLKAPGGGCNDACTVFQTSEYCCTTGKCGPTEYSRFFKRLCPDAFSYVLDKPTTVTCPGSSNYRVTFCPTA ATFEIVNRCSYTVWAAASKGDAALDAGGRQLNSGESWTINVEPGTKGGKIWARTDCYFDDSGSGICKTGDCGGLLRCKRFGRPPTTLAEFSLNQYGKDYIDISNIKGFNVPMDFSPTTRGCRGVRCAADIVGQCPAKLKAPGGGCNDACTVFQTSEYCCTTGKCGPTEYSRFFKRLCPDAFSYVLDKPTTVTCPGSSNYRVTFCPTA 1tij-a1-m1-cB_1tij-a1-m1-cA 3D Domain-swapped human cystatin C with amyloid-like intermolecular beta-sheets P01034 P01034 3.03 X-RAY DIFFRACTION 237 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 114 LVGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA PRLVGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 1til-a1-m1-cA_1til-a1-m1-cC Crystal Structures of the ADP and ATP bound forms of the Bacillus Anti-sigma factor SpoIIAB in complex with the Anti-anti-sigma SpoIIAA:Poised for phosphorylation complex with ATP, crystal form II O32727 O32727 2.7 X-RAY DIFFRACTION 58 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 141 141 1l0o-a1-m1-cA_1l0o-a1-m1-cB 1th8-a1-m1-cA_1th8-a1-m2-cA 1thn-a1-m1-cA_1thn-a1-m1-cC 1tid-a1-m1-cC_1tid-a1-m1-cA 1til-a2-m1-cE_1til-a2-m2-cE MRNEMHLQFSARSENESFARVTVAAFVAQLDPTMDELTEIKTVVSEAVTNAIIHGYNNDPNGIVSISVIIEDGVVHLTVRDEGVGIPDIEEARQPLFTTKPELERSGMGFTIMENFMDEVIVESEVNKGTTVYLKKHIVKS MRNEMHLQFSARSENESFARVTVAAFVAQLDPTMDELTEIKTVVSEAVTNAIIHGYNNDPNGIVSISVIIEDGVVHLTVRDEGVGIPDIEEARQPLFTTKPELERSGMGFTIMENFMDEVIVESEVNKGTTVYLKKHIVKS 1tis-a1-m1-cA_1tis-a1-m2-cA CRYSTAL STRUCTURE OF THYMIDYLATE SYNTHASE FROM T4 PHAGE P00471 P00471 2.7 X-RAY DIFFRACTION 111 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 286 286 MKQYQDLIKDIFENGYETDDRTGTGTIALFGSKLRWDLTKGFPAVTTKKLAWKACIAELIWFLSGSTNVNDLRLIQHDSLIQGKTVWDENYENQAKDLGYHSGELGPIYGKQWRDFGGVDQIIEVIDRIKKLPNDRRQIVSAWNPAELKYMALPPCHMFYQFNVRNGYLDLQWYQRSVDVFLGLPFNIASYATLVHIVAKMCNLIPGDLIFSGGNTHIYMNHVEQCKEILRREPKELCELVISGLPYKFRYLSTKEQLKYVLKLRPKDFVLNNYVSHPPIKGKMAV MKQYQDLIKDIFENGYETDDRTGTGTIALFGSKLRWDLTKGFPAVTTKKLAWKACIAELIWFLSGSTNVNDLRLIQHDSLIQGKTVWDENYENQAKDLGYHSGELGPIYGKQWRDFGGVDQIIEVIDRIKKLPNDRRQIVSAWNPAELKYMALPPCHMFYQFNVRNGYLDLQWYQRSVDVFLGLPFNIASYATLVHIVAKMCNLIPGDLIFSGGNTHIYMNHVEQCKEILRREPKELCELVISGLPYKFRYLSTKEQLKYVLKLRPKDFVLNNYVSHPPIKGKMAV 1tiy-a3-m1-cB_1tiy-a3-m3-cB X-RAY STRUCTURE OF GUANINE DEAMINASE FROM BACILLUS SUBTILIS NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET SR160 O34598 O34598 2.5 X-RAY DIFFRACTION 252 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 148 148 1tiy-a2-m1-cA_1tiy-a2-m2-cA 1wkq-a1-m1-cB_1wkq-a1-m1-cA NHETFLKRAVTLACEGVNAGIGGPFGAVIVKDGAIIAEGQNNVTTSNDPTAHAEVTAIRKACKVLGAYQLDDCILYTSCEPCPCLGAIYWARPKAVFYAAEHTDAAEAGFDDSFIYKEIDKPAEERTIPFYQVTLTEHLSPFQAWRNF NHETFLKRAVTLACEGVNAGIGGPFGAVIVKDGAIIAEGQNNVTTSNDPTAHAEVTAIRKACKVLGAYQLDDCILYTSCEPCPCLGAIYWARPKAVFYAAEHTDAAEAGFDDSFIYKEIDKPAEERTIPFYQVTLTEHLSPFQAWRNF 1tj7-a2-m1-cB_1tj7-a2-m2-cB Structure determination and refinement at 2.44 A resolution of Argininosuccinate lyase from E. coli P11447 P11447 2.44 X-RAY DIFFRACTION 295 1.0 562 (Escherichia coli) 562 (Escherichia coli) 451 451 1tj7-a2-m1-cA_1tj7-a2-m2-cA RFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG RFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG 1tj7-a2-m2-cB_1tj7-a2-m1-cA Structure determination and refinement at 2.44 A resolution of Argininosuccinate lyase from E. coli P11447 P11447 2.44 X-RAY DIFFRACTION 120 1.0 562 (Escherichia coli) 562 (Escherichia coli) 451 455 1tj7-a2-m1-cB_1tj7-a2-m2-cA RFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG LWGGRFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG 1tj7-a2-m2-cB_1tj7-a2-m2-cA Structure determination and refinement at 2.44 A resolution of Argininosuccinate lyase from E. coli P11447 P11447 2.44 X-RAY DIFFRACTION 166 1.0 562 (Escherichia coli) 562 (Escherichia coli) 451 455 1tj7-a1-m1-cB_1tj7-a1-m1-cA 1tj7-a2-m1-cB_1tj7-a2-m1-cA RFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG LWGGRFTQAADQRFKQFNDSLRFDYRLAEQDIVGSVAWSKALVTVGVLTAEEQAQLEEALNVLLEDVRARPQQILESDAEDIHSWVEGKLIDKVGQLGKKLHTGRSRNDQVATDLKLWCKDTVSELLTANRQLQSALVETAQNNQDAVMPGYTHLQRAQPVTFAHWCLAYVEMLARDESRLQDALKRLDVSPLGCGALAGTAYEIDREQLAGWLGFASATRNSLDSVSDRDHVLELLSAAAIGMVHLSRFAEDLIFFNTGEAGFVELSDRVTSGSSLMPQKKNPDALELIRGKCGRVQGALTGMMMTLKGLPLAYNKDMQEDKEGLFDALDTWLDCLHMAALVLDGIQVKRPRCQEAAQQGYANATELADYLVAKGVPFREAHHIVGEAVVEAIRQGKPLEDLPLSELQKFSQVIDEDVYPILSLQSCLDKRAAKGGVSPQQVAQAIAFAQARLG 1tjc-a1-m1-cA_1tjc-a1-m1-cB Crystal structure of peptide-substrate-binding domain of human type I collagen prolyl 4-hydroxylase P13674 P13674 2.3 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 MFLTAEDSFELGKVAYTEADYYHTELWMEQALRQLDEGEISTIDKVSVLDYLSYAVYQQGDLDKALLLTKKLLELDPEHQRANGNLKYFEYIMAK MFLTAEDSFELGKVAYTEADYYHTELWMEQALRQLDEGEISTIDKVSVLDYLSYAVYQQGDLDKALLLTKKLLELDPEHQRANGNLKYFEYIMAK 1tjd-a1-m1-cA_1tjd-a1-m2-cA The crystal structure of the reduced disulphide bond isomerase, DsbC, from Escherichia coli P0AEG6 P0AEG6 2.5 X-RAY DIFFRACTION 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 216 216 DDAAIQQTLAKMGIKSSDIQPAPVAGMKTVLTNSGVLYITDDGKHIIQGPMYDVSGTAPVNVTNKMLLKQLNALEKEMIVYKAPQEKHVITVFTDITCGYCHKLHEQMADYNALGITVRYLAFPRQGLDSDAEKEMKAIWCAKDKNKAFDDVMAGKSVAPASCDVDIADHYALGVQLGVSGTPAVVLSNGTLVPGYQPPKEMKEFLDEHQKMTSGK DDAAIQQTLAKMGIKSSDIQPAPVAGMKTVLTNSGVLYITDDGKHIIQGPMYDVSGTAPVNVTNKMLLKQLNALEKEMIVYKAPQEKHVITVFTDITCGYCHKLHEQMADYNALGITVRYLAFPRQGLDSDAEKEMKAIWCAKDKNKAFDDVMAGKSVAPASCDVDIADHYALGVQLGVSGTPAVVLSNGTLVPGYQPPKEMKEFLDEHQKMTSGK 1tjj-a4-m1-cC_1tjj-a4-m1-cA Human GM2 Activator Protein PAF complex P17900 P17900 2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 164 1tjj-a4-m1-cA_1tjj-a4-m1-cB MSSFSWDNCDEGKDPAVIRSLTLEPDPIVVPGNVTLSVVGSTSVPLSSPLKVDLVLEKEVAGLWIKIPCTDYIGSCTFEHFCDVLDMLIPTGEPCPEPLRTYGLPCHCPFKEGTYSLPKSEFVVPDLELPSWLTTGNYRIESVLSSSGKRLGCIKIAASLKGI HMSSFSWDNCDEGKDPAVIRSLTLEPDPIVVPGNVTLSVVGSTSVPLSSPLKVDLVLEKEVAGLWIKIPCTDYIGSCTFEHFCDVLDMLIPTGEPCPEPLRTYGLPCHCPFKEGTYSLPKSEFVVPDLELPSWLTTGNYRIESVLSSSGKRLGCIKIAASLKGI 1tjl-a11-m1-cA_1tjl-a11-m1-cC Crystal structure of transcription factor DksA from E. coli P0ABS1 P0ABS1 2 X-RAY DIFFRACTION 62 1.0 562 (Escherichia coli) 562 (Escherichia coli) 145 145 RKTSSLSILAIAGVEPYQEKPGEEYMNEAQLAHFRRILEAWRNQLRDEVDRTVTHMQDEAANFPDPVDRAAQEEEFSLELRNRDRERKLIKKIEKTLKKVEDEDFGYCESCGVEIGIRRLEARPTADLCIDCKTLAEIREKQMAG RKTSSLSILAIAGVEPYQEKPGEEYMNEAQLAHFRRILEAWRNQLRDEVDRTVTHMQDEAANFPDPVDRAAQEEEFSLELRNRDRERKLIKKIEKTLKKVEDEDFGYCESCGVEIGIRRLEARPTADLCIDCKTLAEIREKQMAG 1tjn-a2-m3-cA_1tjn-a2-m4-cA Crystal structure of hypothetical protein af0721 from Archaeoglobus fulgidus O29537 O29537 2.01 X-RAY DIFFRACTION 20 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 125 125 1tjn-a2-m1-cA_1tjn-a2-m2-cA 2dj5-a2-m1-cB_2dj5-a2-m2-cA 2dj5-a2-m2-cB_2dj5-a2-m1-cA MRRGLVIVGHGSQLNHYREVMELHRKRIEESGAFDEVKIAFAARKRRPMPDEAIREMNCDIIYVVPLFISYGLHVTEDLPDLLGFPRGRGIKEGEFEGKKVVICEPIGEDYFVTYAILNSVFRIG MRRGLVIVGHGSQLNHYREVMELHRKRIEESGAFDEVKIAFAARKRRPMPDEAIREMNCDIIYVVPLFISYGLHVTEDLPDLLGFPRGRGIKEGEFEGKKVVICEPIGEDYFVTYAILNSVFRIG 1tjt-a1-m1-cA_1tjt-a1-m2-cA X-ray structure of the human alpha-actinin isoform 3 at 2.2A resolution Q08043 Q08043 2.19 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 AWEKQQRKTFTAWCNSHLRKAGTQIENIEEDFRNGLKLMLLLEVISGERLPRPDKGKMRFHKIANVNKALDFIASKGVKLVSIGAEEIVDGNLKMTLGMIWTIILRFAIQDISVEETSAKEGLLLWCQRKTAPYRNVNVQNFHTSWKDGLALCALIHRHRPDLIDYAKLRKDDPIGNLNTAFEVAEKYLDIPKMLDAEDIVNTPKPDEKAIMTYVSCFYHAFAG AWEKQQRKTFTAWCNSHLRKAGTQIENIEEDFRNGLKLMLLLEVISGERLPRPDKGKMRFHKIANVNKALDFIASKGVKLVSIGAEEIVDGNLKMTLGMIWTIILRFAIQDISVEETSAKEGLLLWCQRKTAPYRNVNVQNFHTSWKDGLALCALIHRHRPDLIDYAKLRKDDPIGNLNTAFEVAEKYLDIPKMLDAEDIVNTPKPDEKAIMTYVSCFYHAFAG 1tk9-a1-m1-cA_1tk9-a1-m1-cD Crystal Structure of Phosphoheptose isomerase 1 Q9PNE6 Q9PNE6 2.1 X-RAY DIFFRACTION 115 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 183 183 1tk9-a1-m1-cB_1tk9-a1-m1-cC SLINLVEKEWQEHQKIVQASEILKGQIAKVGELLCECLKKGGKILICGNGGSAADAQHFAAELSGRYKKERKALAGIALTTDTSALSAIGNDYGFEFVFSRQVEALGNEKDVLIGISTSGKSPNVLEALKKAKELNLCLGLSGKGGGNKLCDHNLVVPSDDTARIQEHILIIHTLCQIIDESF SLINLVEKEWQEHQKIVQASEILKGQIAKVGELLCECLKKGGKILICGNGGSAADAQHFAAELSGRYKKERKALAGIALTTDTSALSAIGNDYGFEFVFSRQVEALGNEKDVLIGISTSGKSPNVLEALKKAKELNLCLGLSGKGGGNKLCDHNLVVPSDDTARIQEHILIIHTLCQIIDESF 1tk9-a1-m1-cB_1tk9-a1-m1-cD Crystal Structure of Phosphoheptose isomerase 1 Q9PNE6 Q9PNE6 2.1 X-RAY DIFFRACTION 85 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 183 183 1tk9-a1-m1-cA_1tk9-a1-m1-cC SLINLVEKEWQEHQKIVQASEILKGQIAKVGELLCECLKKGGKILICGNGGSAADAQHFAAELSGRYKKERKALAGIALTTDTSALSAIGNDYGFEFVFSRQVEALGNEKDVLIGISTSGKSPNVLEALKKAKELNLCLGLSGKGGGNKLCDHNLVVPSDDTARIQEHILIIHTLCQIIDESF SLINLVEKEWQEHQKIVQASEILKGQIAKVGELLCECLKKGGKILICGNGGSAADAQHFAAELSGRYKKERKALAGIALTTDTSALSAIGNDYGFEFVFSRQVEALGNEKDVLIGISTSGKSPNVLEALKKAKELNLCLGLSGKGGGNKLCDHNLVVPSDDTARIQEHILIIHTLCQIIDESF 1tk9-a1-m1-cC_1tk9-a1-m1-cD Crystal Structure of Phosphoheptose isomerase 1 Q9PNE6 Q9PNE6 2.1 X-RAY DIFFRACTION 74 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 183 183 1tk9-a1-m1-cA_1tk9-a1-m1-cB SLINLVEKEWQEHQKIVQASEILKGQIAKVGELLCECLKKGGKILICGNGGSAADAQHFAAELSGRYKKERKALAGIALTTDTSALSAIGNDYGFEFVFSRQVEALGNEKDVLIGISTSGKSPNVLEALKKAKELNLCLGLSGKGGGNKLCDHNLVVPSDDTARIQEHILIIHTLCQIIDESF SLINLVEKEWQEHQKIVQASEILKGQIAKVGELLCECLKKGGKILICGNGGSAADAQHFAAELSGRYKKERKALAGIALTTDTSALSAIGNDYGFEFVFSRQVEALGNEKDVLIGISTSGKSPNVLEALKKAKELNLCLGLSGKGGGNKLCDHNLVVPSDDTARIQEHILIIHTLCQIIDESF 1tkv-a1-m1-cA_1tkv-a1-m1-cB Solution Structure of T4 AsiA Dimer P32267 P32267 NOT SOLUTION NMR 47 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 89 89 1jr5-a1-m1-cA_1jr5-a1-m1-cB NKNIDTVREIITVASILIKFSREDIVENRANFIAFLNEIGVTHEGRKLNQNSFRKIVSELTQEDKKTLIDEFNEGFEGVYRYLEMYTNK NKNIDTVREIITVASILIKFSREDIVENRANFIAFLNEIGVTHEGRKLNQNSFRKIVSELTQEDKKTLIDEFNEGFEGVYRYLEMYTNK 1tl9-a1-m1-cB_1tl9-a1-m1-cA High resolution crystal structure of calpain I protease core in complex with leupeptin P97571 1.8 X-RAY DIFFRACTION 14 1.0 66430 (Streptomyces roseus) 10116 (Rattus norvegicus) 2 321 LL NAIKYLGQDYENLRARCLQNGVLFQDDAFPPVSHSLGFKELGPNSSKTYGIKWKRPTELLSNPQFIVDGATRTDICQGALGDCWLLAAIASLTLNETILHRVVPYGQSFQEGYAGIFHFQLWQFGEWVDVVVDDLLPTKDGKLVFVHSAQGNEFWSALLEKAYAKVNGSYEALSGGCTSEAFEDFTGGVTEWYDLQKAPSDLYQIILKALERGSLLGCSINISDIRDLEAITFKNLVRGHAYSVTDAKQVTYQGQRVNLIRMRNPWGEVEWKGPWSDNSYEWNKVDPYEREQLRVKMEDGEFWMSFRDFIREFTKLEICNL 1tlb-a3-m1-cU_1tlb-a3-m1-cW Yeast coproporphyrinogen oxidase P11353 P11353 2.4 X-RAY DIFFRACTION 62 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 326 326 1tkl-a1-m1-cA_1tkl-a1-m1-cB 1tlb-a1-m1-cA_1tlb-a1-m1-cD 1tlb-a2-m1-cQ_1tlb-a2-m1-cS APQDPRNLPIRQQMEALIRRKQAEITQGLESIDTVKFHADTWTRGNDGGGGTSMVIQDGTTFEKGGVNVSVVYGQLSPAAVSAMKADHKNLRLPEDPKTGLPVTDGVKFFACGLSMVIHPVNPHAPTTHLNYRYFETWNQDGTPQTWWFGGGADLTPSYLYEEDGQLFHQLHKDALDKHDTALYPRFKKWCDEYFYITHRKETRGIGGIFFDDYDERDPQEILKMVEDCFDAFLPSYLTIVKRRKDMPYTKEEQQWQAIRRGRYVEFNLIYDRGTQFGLRTPGSRVESILMSLPEHASWLYNHHPAPGSREAKLLEVTTKPREWVK APQDPRNLPIRQQMEALIRRKQAEITQGLESIDTVKFHADTWTRGNDGGGGTSMVIQDGTTFEKGGVNVSVVYGQLSPAAVSAMKADHKNLRLPEDPKTGLPVTDGVKFFACGLSMVIHPVNPHAPTTHLNYRYFETWNQDGTPQTWWFGGGADLTPSYLYEEDGQLFHQLHKDALDKHDTALYPRFKKWCDEYFYITHRKETRGIGGIFFDDYDERDPQEILKMVEDCFDAFLPSYLTIVKRRKDMPYTKEEQQWQAIRRGRYVEFNLIYDRGTQFGLRTPGSRVESILMSLPEHASWLYNHHPAPGSREAKLLEVTTKPREWVK 1tlj-a1-m1-cB_1tlj-a1-m1-cA Crystal Structure of Conserved Protein of Unknown Function SSO0622 from Sulfolobus solfataricus Q9UX16 Q9UX16 2.8 X-RAY DIFFRACTION 64 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 188 189 VWEELREKALNKIYHDKEIGYLDPDILGFLLAFYRNRNDVYTQSSCSGRITIVDAEMPWDRKNSTIIFKNHLRITEQDLEDVLSKNQVRRLWLIVQGPIIHIYAKNIETGWDILKIAREAGFKHSGILATNQKGVLVELRTGIRMVHLLRESNTERVDKDKIKTLVNVCNEVLARGKQKMNLLKDLLS LVWEELREKALNKIYHDKEIGYLDPDILGFLLAFYRNRNDVYTQSSCSGRITIVDAEMPWDRKNSTIIFKNHLRITEQDLEDVLSKNQVRRLWLIVQGPIIHIYAKNIETGWDILKIAREAGFKHSGILATNQKGVLVELRTGIRMVHLLRESNTERVDKDKIKTLVNVCNEVLARGKQKMNLLKDLLS 1tlk-a1-m1-cA_1tlk-a1-m2-cA X-RAY STRUCTURE DETERMINATION OF TELOKIN, THE C-TERMINAL DOMAIN OF MYOSIN LIGHT CHAIN KINASE, AT 2.8 ANGSTROMS RESOLUTION P56276 P56276 2.8 X-RAY DIFFRACTION 61 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 103 103 VAEEKPHVKPYFTKTILDMDVVEGSAARFDCKVEGYPDPEVMWFKDDNPVKESRHFQIDYDEEGNCSLTISEVCGDDDAKYTCKAVNSLGEATCTAELLVETM VAEEKPHVKPYFTKTILDMDVVEGSAARFDCKVEGYPDPEVMWFKDDNPVKESRHFQIDYDEEGNCSLTISEVCGDDDAKYTCKAVNSLGEATCTAELLVETM 1tll-a1-m1-cB_1tll-a1-m1-cA CRYSTAL STRUCTURE OF RAT NEURONAL NITRIC-OXIDE SYNTHASE REDUCTASE MODULE AT 2.3 A RESOLUTION. P29476 P29476 2.3 X-RAY DIFFRACTION 82 0.998 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 616 630 RVKATILYATETGKSQAYAKTLCEIFKHAFDAKAMSMEEYDIVHLEHEALVLVVTSTFGNGDPPENGEKFGCALMEMRSYKVRFNVRFSVFGLGSRAYPHFCAFGHAVDTLLEELGGERILKMREGDELCGQEEAFRTWAKKVFKAACDVFCVGDDVNIEKSNDRSWKRNKFRLTYVAEAPDLTQGLSNVHKKRVSAARLLSRQNLQSPKSSRSTIFVRLHTNGNQELQYQPGDHLGVFPGNHEDLVNALIERLEDAPPANHVVKVEMLEERNTALGVISNWKDESRLPPCTIFQAFKYYLDITTPPTPLQLQQFASLATNEKEKQRLLVLSKGLQEYEEWKWGKNPTMVEVLEEFPSIQMPATLLLTQLSLLQPRYYSISSSPDMYPDEVHLTVAIVSYHTRDGEGPVHHGVCSSWLNRIQADDVVPCFVRGAPSFHLPRNPQVPCILVGPGTGIAPFRSFWQQRQFDIQHKGMNPCPMVLVFGCRQSKIDHIYREETLQAKNKGVFRELYTAYSREPDRPKKYVQDVLQEQLAESVYRALKEQGGHIYVCGDVTMAADVLKAIQRIMTQQGKLSEEDAGVFISRLRDDNRYHEDIFGVTLRTYEVTNRLRSESI AKRVKATILYATETGKSQAYAKTLCEIFKHAFDAKAMSMEEYDIVHLEHEALVLVVTSTFGNGDPPENGEKFGCALMEMRHEERKSYKVRFNSVSGPLANVRFSVFGLGSRAYPHFCAFGHAVDTLLEELGGERILKMREGDELCGQEEAFRTWAKKVFKAACDVFCVGDDVNIESNDRSWKRNKFRLTYVAEAPDLTQGLSNVHKKRVSAARLLSRQNLQSPKSSRSTIFVRLHTNGNQELQYQPGDHLGVFPGNHEDLVNALIERLEDAPPANHVVKVEMLEERNTALGVISNWKDESRLPPCTIFQAFKYYLDITTPPTPLQLQQFASLATNEKEKQRLLVLSKGLQEYEEWKWGKNPTMVEVLEEFPSIQMPATLLLTQLSLLQPRYYSISSSPDMYPDEVHLTVAIVSYHTRDGEGPVHHGVCSSWLNRIQADDVVPCFVRGAPSFHLPRNPQVPCILVGPGTGIAPFRSFWQQRQFDIQHKGMNPCPMVLVFGCRQSKIDHIYREETLQAKNKGVFRELYTAYSREPDRPKKYVQDVLQEQLAESVYRALKEQGGHIYVCGDVTMAADVLKAIQRIMTQQGKLSEEDAGVFISRLRDDNRYHEDIFGVTLRTYEVTNRLRSESI 1tlq-a1-m1-cA_1tlq-a1-m4-cA Crystal structure of protein ypjQ from Bacillus subtilis, Pfam DUF64 P54173 P54173 2.4 X-RAY DIFFRACTION 28 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 156 156 1tlq-a1-m2-cA_1tlq-a1-m3-cA YTNEVDITKDLNKRGVIEDIARIVQKLQEKYNPNLPLSVCENVEKVLNKREIIHAVLTGLALDQLAEQKLLPEPLQHLVETDEPLYGIDEIIPLSIVNVYGSIGLTNFGYLDKEKIGIIKELDESPDGIHTFLDDIVAALAAAAASRIAHTHQDLQ YTNEVDITKDLNKRGVIEDIARIVQKLQEKYNPNLPLSVCENVEKVLNKREIIHAVLTGLALDQLAEQKLLPEPLQHLVETDEPLYGIDEIIPLSIVNVYGSIGLTNFGYLDKEKIGIIKELDESPDGIHTFLDDIVAALAAAAASRIAHTHQDLQ 1tlq-a1-m2-cA_1tlq-a1-m4-cA Crystal structure of protein ypjQ from Bacillus subtilis, Pfam DUF64 P54173 P54173 2.4 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 156 156 1tlq-a1-m1-cA_1tlq-a1-m3-cA YTNEVDITKDLNKRGVIEDIARIVQKLQEKYNPNLPLSVCENVEKVLNKREIIHAVLTGLALDQLAEQKLLPEPLQHLVETDEPLYGIDEIIPLSIVNVYGSIGLTNFGYLDKEKIGIIKELDESPDGIHTFLDDIVAALAAAAASRIAHTHQDLQ YTNEVDITKDLNKRGVIEDIARIVQKLQEKYNPNLPLSVCENVEKVLNKREIIHAVLTGLALDQLAEQKLLPEPLQHLVETDEPLYGIDEIIPLSIVNVYGSIGLTNFGYLDKEKIGIIKELDESPDGIHTFLDDIVAALAAAAASRIAHTHQDLQ 1tlq-a1-m3-cA_1tlq-a1-m4-cA Crystal structure of protein ypjQ from Bacillus subtilis, Pfam DUF64 P54173 P54173 2.4 X-RAY DIFFRACTION 70 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 156 156 1tlq-a1-m1-cA_1tlq-a1-m2-cA YTNEVDITKDLNKRGVIEDIARIVQKLQEKYNPNLPLSVCENVEKVLNKREIIHAVLTGLALDQLAEQKLLPEPLQHLVETDEPLYGIDEIIPLSIVNVYGSIGLTNFGYLDKEKIGIIKELDESPDGIHTFLDDIVAALAAAAASRIAHTHQDLQ YTNEVDITKDLNKRGVIEDIARIVQKLQEKYNPNLPLSVCENVEKVLNKREIIHAVLTGLALDQLAEQKLLPEPLQHLVETDEPLYGIDEIIPLSIVNVYGSIGLTNFGYLDKEKIGIIKELDESPDGIHTFLDDIVAALAAAAASRIAHTHQDLQ 1tlt-a1-m1-cA_1tlt-a1-m2-cB Crystal Structure of a Putative Oxidoreductase (VIRULENCE FACTOR mviM HOMOLOG) P75931 P75931 2.7 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 304 305 1tlt-a1-m2-cA_1tlt-a1-m1-cB KLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMS KLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMSE 1tlt-a1-m1-cB_1tlt-a1-m2-cB Crystal Structure of a Putative Oxidoreductase (VIRULENCE FACTOR mviM HOMOLOG) P75931 P75931 2.7 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 305 305 1tlt-a1-m1-cA_1tlt-a1-m2-cA KLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMSE KLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMSE 1tlt-a1-m2-cA_1tlt-a1-m2-cB Crystal Structure of a Putative Oxidoreductase (VIRULENCE FACTOR mviM HOMOLOG) P75931 P75931 2.7 X-RAY DIFFRACTION 122 1.0 562 (Escherichia coli) 562 (Escherichia coli) 304 305 1tlt-a1-m1-cA_1tlt-a1-m1-cB KLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMS KLRIGVVGLGGIAQKAWLPVLAAASDWTLQGAWSPTRAKALPICESWRIPYADSLSSLAASCDAVFVHSSTASHFDVVSTLLNAGVHVCVDKPLAENLRDAERLVELAARKKLTLMVGFNRRFAPLYGELKTQLATAASLRMDKHRSNSVGPHDLYFTLLDDYLHVVDTALWLSGGKASLDGGTLLTNDAGEMLFAEHHFSAGPLQITTCMHRRAGSQRETVQAVTDGALIDITDMREWREERGQGVVHKPIPGWQSTLEQRGFVGCARHFIECVQNQTVPQTAGEQAVLAQRIVDKIWRDAMSE 1tlu-a1-m1-cA_1tlu-a1-m1-cB Crystal Structure of Thermotoga maritima S-adenosylmethionine decarboxylase Q9WZC3 Q9WZC3 1.55 X-RAY DIFFRACTION 108 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 117 117 1tmi-a1-m1-cA_1tmi-a1-m1-cB 1vr7-a1-m1-cB_1vr7-a1-m1-cA 3iwb-a1-m1-cA_3iwb-a1-m1-cC 3iwc-a1-m1-cC_3iwc-a1-m1-cA 3iwd-a1-m1-cA_3iwd-a1-m1-cC KSLGRHLVAEFYECDREVLDNVQLIEQEMKQAAYESGATIVTSTFHRFLPYGVSGVVVISESHLTIHTWPEYGYAAIDLFTCGEDVDPWKAFEHLKKALKAKRVHVVEHERGRYDEI KSLGRHLVAEFYECDREVLDNVQLIEQEMKQAAYESGATIVTSTFHRFLPYGVSGVVVISESHLTIHTWPEYGYAAIDLFTCGEDVDPWKAFEHLKKALKAKRVHVVEHERGRYDEI 1tlv-a1-m1-cA_1tlv-a1-m2-cA Structure of the native and inactive LicT PRD from B. subtilis P39805 P39805 1.95 X-RAY DIFFRACTION 103 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 204 204 GAMEKFKTLLYDIPIEMEVSEEIISYAKLQLGKKLNDSIYVSLTDHINFAIQRNQKGLDIKNALLWETKRLYKDEFAIGKEALVMVKNKTGVSLPEDEAGFIALHIVNAELNEEMPNIINITKVMQEILSIVKYHFKIEFNSLHYYRFVTHLKFFAQRLFNGTHMYHRAYECTKKIQTYIEREYEHKLTSDELLYLTIHIERVV GAMEKFKTLLYDIPIEMEVSEEIISYAKLQLGKKLNDSIYVSLTDHINFAIQRNQKGLDIKNALLWETKRLYKDEFAIGKEALVMVKNKTGVSLPEDEAGFIALHIVNAELNEEMPNIINITKVMQEILSIVKYHFKIEFNSLHYYRFVTHLKFFAQRLFNGTHMYHRAYECTKKIQTYIEREYEHKLTSDELLYLTIHIERVV 1tm0-a2-m1-cA_1tm0-a2-m2-cB Crystal Structure of the putative proline racemase from Brucella melitensis, Northeast Structural Genomics Target LR31 Q8YFD6 Q8YFD6 2.8 X-RAY DIFFRACTION 78 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 301 301 1tm0-a2-m1-cB_1tm0-a2-m2-cA RSTKVIHIVGCHAEGEVGDVIVGGVAPPPGETVWEQSRFIANDETLRNFVLNKPRGGVFRHVNLLVPPKDPRAQGFIIEPADTPPSGSNSICVSTVLLDSGIIAQEPVTHVLEAPGGIIEVEAECRNGKAERISVRNVPSFADRLDAPLDVTGLGTIVDTAYGGDSFVIVDAAQIGEPGQARELAEIGVKITKAFRHPERDWRHISFCQITEPVTREGDVLTGVNTVPTGTGCSARAVLHAKGQKAGERFIGKSVTEFHCRLDKVLELGGKPAISPIISGRAWVTGTSQLLDPSDPFPHGY RSTKVIHIVGCHAEGEVGDVIVGGVAPPPGETVWEQSRFIANDETLRNFVLNKPRGGVFRHVNLLVPPKDPRAQGFIIEPADTPPSGSNSICVSTVLLDSGIIAQEPVTHVLEAPGGIIEVEAECRNGKAERISVRNVPSFADRLDAPLDVTGLGTIVDTAYGGDSFVIVDAAQIGEPGQARELAEIGVKITKAFRHPERDWRHISFCQITEPVTREGDVLTGVNTVPTGTGCSARAVLHAKGQKAGERFIGKSVTEFHCRLDKVLELGGKPAISPIISGRAWVTGTSQLLDPSDPFPHGY 1tm0-a2-m2-cA_1tm0-a2-m2-cB Crystal Structure of the putative proline racemase from Brucella melitensis, Northeast Structural Genomics Target LR31 Q8YFD6 Q8YFD6 2.8 X-RAY DIFFRACTION 53 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 301 301 1tm0-a1-m1-cA_1tm0-a1-m1-cB 1tm0-a2-m1-cA_1tm0-a2-m1-cB RSTKVIHIVGCHAEGEVGDVIVGGVAPPPGETVWEQSRFIANDETLRNFVLNKPRGGVFRHVNLLVPPKDPRAQGFIIEPADTPPSGSNSICVSTVLLDSGIIAQEPVTHVLEAPGGIIEVEAECRNGKAERISVRNVPSFADRLDAPLDVTGLGTIVDTAYGGDSFVIVDAAQIGEPGQARELAEIGVKITKAFRHPERDWRHISFCQITEPVTREGDVLTGVNTVPTGTGCSARAVLHAKGQKAGERFIGKSVTEFHCRLDKVLELGGKPAISPIISGRAWVTGTSQLLDPSDPFPHGY RSTKVIHIVGCHAEGEVGDVIVGGVAPPPGETVWEQSRFIANDETLRNFVLNKPRGGVFRHVNLLVPPKDPRAQGFIIEPADTPPSGSNSICVSTVLLDSGIIAQEPVTHVLEAPGGIIEVEAECRNGKAERISVRNVPSFADRLDAPLDVTGLGTIVDTAYGGDSFVIVDAAQIGEPGQARELAEIGVKITKAFRHPERDWRHISFCQITEPVTREGDVLTGVNTVPTGTGCSARAVLHAKGQKAGERFIGKSVTEFHCRLDKVLELGGKPAISPIISGRAWVTGTSQLLDPSDPFPHGY 1tm5-a2-m1-cE_1tm5-a2-m2-cE crystal structure of the complex of subtilisin BPN' with chymotrypsin inhibitor 2 M59A mutant P00782 P00782 1.45 X-RAY DIFFRACTION 30 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 281 281 1tm3-a2-m1-cE_1tm3-a2-m2-cE 1tm4-a2-m1-cE_1tm4-a2-m2-cE 1tm7-a2-m1-cE_1tm7-a2-m2-cE AQSVPYGVSQIKAPALHSQGYTGSNVKVAVIDSGIDSSHPDLKVAGGASMVPSETNPFQDNNSHGTHVAGTVAALNNSIGVLGVAPSASLYAVKVLGADGSGQYSWIINGIEWAIANNMDVINMSLGGPSGSAALKAAVDKAVASGVVVVAAAGNEGTSGSSSTVGYPGKYPSVIAVGAVDSSNQRASFSSVGPELDVMAPGVSIQSTLPGNKYGAYNGTSMASPHVAGAAALILSKHPNWTNTQVRSSLENTTTKLGDSFYYGKGLINVQAAAQHHHHHH AQSVPYGVSQIKAPALHSQGYTGSNVKVAVIDSGIDSSHPDLKVAGGASMVPSETNPFQDNNSHGTHVAGTVAALNNSIGVLGVAPSASLYAVKVLGADGSGQYSWIINGIEWAIANNMDVINMSLGGPSGSAALKAAVDKAVASGVVVVAAAGNEGTSGSSSTVGYPGKYPSVIAVGAVDSSNQRASFSSVGPELDVMAPGVSIQSTLPGNKYGAYNGTSMASPHVAGAAALILSKHPNWTNTQVRSSLENTTTKLGDSFYYGKGLINVQAAAQHHHHHH 1tme-a1-m23-c2_1tme-a1-m9-c2 THREE-DIMENSIONAL STRUCTURE OF THEILER VIRUS P13899 P13899 2.8 X-RAY DIFFRACTION 52 1.0 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 255 255 1tme-a1-m10-c2_1tme-a1-m5-c2 1tme-a1-m11-c2_1tme-a1-m37-c2 1tme-a1-m12-c2_1tme-a1-m46-c2 1tme-a1-m13-c2_1tme-a1-m44-c2 1tme-a1-m14-c2_1tme-a1-m28-c2 1tme-a1-m15-c2_1tme-a1-m20-c2 1tme-a1-m16-c2_1tme-a1-m27-c2 1tme-a1-m17-c2_1tme-a1-m51-c2 1tme-a1-m18-c2_1tme-a1-m59-c2 1tme-a1-m19-c2_1tme-a1-m38-c2 1tme-a1-m1-c2_1tme-a1-m22-c2 1tme-a1-m21-c2_1tme-a1-m42-c2 1tme-a1-m24-c2_1tme-a1-m53-c2 1tme-a1-m25-c2_1tme-a1-m30-c2 1tme-a1-m26-c2_1tme-a1-m52-c2 1tme-a1-m29-c2_1tme-a1-m43-c2 1tme-a1-m2-c2_1tme-a1-m41-c2 1tme-a1-m31-c2_1tme-a1-m57-c2 1tme-a1-m32-c2_1tme-a1-m6-c2 1tme-a1-m33-c2_1tme-a1-m4-c2 1tme-a1-m34-c2_1tme-a1-m48-c2 1tme-a1-m35-c2_1tme-a1-m40-c2 1tme-a1-m36-c2_1tme-a1-m47-c2 1tme-a1-m39-c2_1tme-a1-m58-c2 1tme-a1-m3-c2_1tme-a1-m49-c2 1tme-a1-m45-c2_1tme-a1-m50-c2 1tme-a1-m54-c2_1tme-a1-m8-c2 1tme-a1-m55-c2_1tme-a1-m60-c2 1tme-a1-m56-c2_1tme-a1-m7-c2 1tmf-a1-m10-c2_1tmf-a1-m24-c2 1tmf-a1-m11-c2_1tmf-a1-m16-c2 1tmf-a1-m12-c2_1tmf-a1-m38-c2 1tmf-a1-m13-c2_1tmf-a1-m47-c2 1tmf-a1-m14-c2_1tmf-a1-m45-c2 1tmf-a1-m15-c2_1tmf-a1-m29-c2 1tmf-a1-m17-c2_1tmf-a1-m28-c2 1tmf-a1-m18-c2_1tmf-a1-m52-c2 1tmf-a1-m19-c2_1tmf-a1-m60-c2 1tmf-a1-m1-c2_1tmf-a1-m6-c2 1tmf-a1-m20-c2_1tmf-a1-m39-c2 1tmf-a1-m21-c2_1tmf-a1-m26-c2 1tmf-a1-m22-c2_1tmf-a1-m43-c2 1tmf-a1-m25-c2_1tmf-a1-m54-c2 1tmf-a1-m27-c2_1tmf-a1-m53-c2 1tmf-a1-m2-c2_1tmf-a1-m23-c2 1tmf-a1-m30-c2_1tmf-a1-m44-c2 1tmf-a1-m31-c2_1tmf-a1-m36-c2 1tmf-a1-m32-c2_1tmf-a1-m58-c2 1tmf-a1-m33-c2_1tmf-a1-m7-c2 1tmf-a1-m34-c2_1tmf-a1-m5-c2 1tmf-a1-m35-c2_1tmf-a1-m49-c2 1tmf-a1-m37-c2_1tmf-a1-m48-c2 1tmf-a1-m3-c2_1tmf-a1-m42-c2 1tmf-a1-m40-c2_1tmf-a1-m59-c2 1tmf-a1-m41-c2_1tmf-a1-m46-c2 1tmf-a1-m4-c2_1tmf-a1-m50-c2 1tmf-a1-m51-c2_1tmf-a1-m56-c2 1tmf-a1-m55-c2_1tmf-a1-m9-c2 1tmf-a1-m57-c2_1tmf-a1-m8-c2 DRVASDKAGNSATNTQSTVGRLCGYGEAHHGEHPASCADTATDKVLAAERYYTIDLASWTTTQEAFSHIRIPLPHVLAGEDGGVFGATLRRHYLCKTGWRVQVQCNASQFHAGSLLVFMAPEFYTGKGTKTGDMEPTDPFTMDTTWRAPQGAPTGYRYDSRTGFFAMNHQNQWQWTVYPHQILNLRTNTTVDLEVPYVNIAPTSSWTQHANWTLVVAVFSPLQYASGSSSDVQITASIQPVNPVFNGLRHETVIA DRVASDKAGNSATNTQSTVGRLCGYGEAHHGEHPASCADTATDKVLAAERYYTIDLASWTTTQEAFSHIRIPLPHVLAGEDGGVFGATLRRHYLCKTGWRVQVQCNASQFHAGSLLVFMAPEFYTGKGTKTGDMEPTDPFTMDTTWRAPQGAPTGYRYDSRTGFFAMNHQNQWQWTVYPHQILNLRTNTTVDLEVPYVNIAPTSSWTQHANWTLVVAVFSPLQYASGSSSDVQITASIQPVNPVFNGLRHETVIA 1tme-a1-m7-c3_1tme-a1-m9-c3 THREE-DIMENSIONAL STRUCTURE OF THEILER VIRUS P13899 P13899 2.8 X-RAY DIFFRACTION 11 1.0 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 230 230 1tme-a1-m10-c3_1tme-a1-m7-c3 1tme-a1-m10-c3_1tme-a1-m8-c3 1tme-a1-m11-c3_1tme-a1-m13-c3 1tme-a1-m11-c3_1tme-a1-m14-c3 1tme-a1-m12-c3_1tme-a1-m14-c3 1tme-a1-m12-c3_1tme-a1-m15-c3 1tme-a1-m13-c3_1tme-a1-m15-c3 1tme-a1-m16-c3_1tme-a1-m18-c3 1tme-a1-m16-c3_1tme-a1-m19-c3 1tme-a1-m17-c3_1tme-a1-m19-c3 1tme-a1-m17-c3_1tme-a1-m20-c3 1tme-a1-m18-c3_1tme-a1-m20-c3 1tme-a1-m1-c3_1tme-a1-m3-c3 1tme-a1-m1-c3_1tme-a1-m4-c3 1tme-a1-m21-c3_1tme-a1-m23-c3 1tme-a1-m21-c3_1tme-a1-m24-c3 1tme-a1-m22-c3_1tme-a1-m24-c3 1tme-a1-m22-c3_1tme-a1-m25-c3 1tme-a1-m23-c3_1tme-a1-m25-c3 1tme-a1-m26-c3_1tme-a1-m28-c3 1tme-a1-m26-c3_1tme-a1-m29-c3 1tme-a1-m27-c3_1tme-a1-m29-c3 1tme-a1-m27-c3_1tme-a1-m30-c3 1tme-a1-m28-c3_1tme-a1-m30-c3 1tme-a1-m2-c3_1tme-a1-m4-c3 1tme-a1-m2-c3_1tme-a1-m5-c3 1tme-a1-m31-c3_1tme-a1-m33-c3 1tme-a1-m31-c3_1tme-a1-m34-c3 1tme-a1-m32-c3_1tme-a1-m34-c3 1tme-a1-m32-c3_1tme-a1-m35-c3 1tme-a1-m33-c3_1tme-a1-m35-c3 1tme-a1-m36-c3_1tme-a1-m38-c3 1tme-a1-m36-c3_1tme-a1-m39-c3 1tme-a1-m37-c3_1tme-a1-m39-c3 1tme-a1-m37-c3_1tme-a1-m40-c3 1tme-a1-m38-c3_1tme-a1-m40-c3 1tme-a1-m3-c3_1tme-a1-m5-c3 1tme-a1-m41-c3_1tme-a1-m43-c3 1tme-a1-m41-c3_1tme-a1-m44-c3 1tme-a1-m42-c3_1tme-a1-m44-c3 1tme-a1-m42-c3_1tme-a1-m45-c3 1tme-a1-m43-c3_1tme-a1-m45-c3 1tme-a1-m46-c3_1tme-a1-m48-c3 1tme-a1-m46-c3_1tme-a1-m49-c3 1tme-a1-m47-c3_1tme-a1-m49-c3 1tme-a1-m47-c3_1tme-a1-m50-c3 1tme-a1-m48-c3_1tme-a1-m50-c3 1tme-a1-m51-c3_1tme-a1-m53-c3 1tme-a1-m51-c3_1tme-a1-m54-c3 1tme-a1-m52-c3_1tme-a1-m54-c3 1tme-a1-m52-c3_1tme-a1-m55-c3 1tme-a1-m53-c3_1tme-a1-m55-c3 1tme-a1-m56-c3_1tme-a1-m58-c3 1tme-a1-m56-c3_1tme-a1-m59-c3 1tme-a1-m57-c3_1tme-a1-m59-c3 1tme-a1-m57-c3_1tme-a1-m60-c3 1tme-a1-m58-c3_1tme-a1-m60-c3 1tme-a1-m6-c3_1tme-a1-m8-c3 1tme-a1-m6-c3_1tme-a1-m9-c3 1tmf-a1-m10-c3_1tmf-a1-m7-c3 1tmf-a1-m10-c3_1tmf-a1-m8-c3 1tmf-a1-m11-c3_1tmf-a1-m13-c3 1tmf-a1-m11-c3_1tmf-a1-m14-c3 1tmf-a1-m12-c3_1tmf-a1-m14-c3 1tmf-a1-m12-c3_1tmf-a1-m15-c3 1tmf-a1-m13-c3_1tmf-a1-m15-c3 1tmf-a1-m16-c3_1tmf-a1-m18-c3 1tmf-a1-m16-c3_1tmf-a1-m19-c3 1tmf-a1-m17-c3_1tmf-a1-m19-c3 1tmf-a1-m17-c3_1tmf-a1-m20-c3 1tmf-a1-m18-c3_1tmf-a1-m20-c3 1tmf-a1-m1-c3_1tmf-a1-m3-c3 1tmf-a1-m1-c3_1tmf-a1-m4-c3 1tmf-a1-m21-c3_1tmf-a1-m23-c3 1tmf-a1-m21-c3_1tmf-a1-m24-c3 1tmf-a1-m22-c3_1tmf-a1-m24-c3 1tmf-a1-m22-c3_1tmf-a1-m25-c3 1tmf-a1-m23-c3_1tmf-a1-m25-c3 1tmf-a1-m26-c3_1tmf-a1-m28-c3 1tmf-a1-m26-c3_1tmf-a1-m29-c3 1tmf-a1-m27-c3_1tmf-a1-m29-c3 1tmf-a1-m27-c3_1tmf-a1-m30-c3 1tmf-a1-m28-c3_1tmf-a1-m30-c3 1tmf-a1-m2-c3_1tmf-a1-m4-c3 1tmf-a1-m2-c3_1tmf-a1-m5-c3 1tmf-a1-m31-c3_1tmf-a1-m33-c3 1tmf-a1-m31-c3_1tmf-a1-m34-c3 1tmf-a1-m32-c3_1tmf-a1-m34-c3 1tmf-a1-m32-c3_1tmf-a1-m35-c3 1tmf-a1-m33-c3_1tmf-a1-m35-c3 1tmf-a1-m36-c3_1tmf-a1-m38-c3 1tmf-a1-m36-c3_1tmf-a1-m39-c3 1tmf-a1-m37-c3_1tmf-a1-m39-c3 1tmf-a1-m37-c3_1tmf-a1-m40-c3 1tmf-a1-m38-c3_1tmf-a1-m40-c3 1tmf-a1-m3-c3_1tmf-a1-m5-c3 1tmf-a1-m41-c3_1tmf-a1-m43-c3 1tmf-a1-m41-c3_1tmf-a1-m44-c3 1tmf-a1-m42-c3_1tmf-a1-m44-c3 1tmf-a1-m42-c3_1tmf-a1-m45-c3 1tmf-a1-m43-c3_1tmf-a1-m45-c3 1tmf-a1-m46-c3_1tmf-a1-m48-c3 1tmf-a1-m46-c3_1tmf-a1-m49-c3 1tmf-a1-m47-c3_1tmf-a1-m49-c3 1tmf-a1-m47-c3_1tmf-a1-m50-c3 1tmf-a1-m48-c3_1tmf-a1-m50-c3 1tmf-a1-m51-c3_1tmf-a1-m53-c3 1tmf-a1-m51-c3_1tmf-a1-m54-c3 1tmf-a1-m52-c3_1tmf-a1-m54-c3 1tmf-a1-m52-c3_1tmf-a1-m55-c3 1tmf-a1-m53-c3_1tmf-a1-m55-c3 1tmf-a1-m56-c3_1tmf-a1-m58-c3 1tmf-a1-m56-c3_1tmf-a1-m59-c3 1tmf-a1-m57-c3_1tmf-a1-m59-c3 1tmf-a1-m57-c3_1tmf-a1-m60-c3 1tmf-a1-m58-c3_1tmf-a1-m60-c3 1tmf-a1-m6-c3_1tmf-a1-m8-c3 1tmf-a1-m6-c3_1tmf-a1-m9-c3 1tmf-a1-m7-c3_1tmf-a1-m9-c3 SPIAVTVREHKGCFYSTNPDTTVPIYGKTISTPNDYMCGEFSDLLELCKLPTFLGNPNSNNKRYPYFSATNSVPTTSLVDYQVALSCSCMCNSMLAAVARNFNQYRGSLNFLFVFTGAAMVKGKFLIAYTPPGAGKPTTRDQAMQATYAIWDLGLNSSFVFTAPFISPTHYRQTSYTSAASVDGWVTVWQLTPLTYPSGTPVNSDILTLVSAGDDFTLRMPISPTKWVPQ SPIAVTVREHKGCFYSTNPDTTVPIYGKTISTPNDYMCGEFSDLLELCKLPTFLGNPNSNNKRYPYFSATNSVPTTSLVDYQVALSCSCMCNSMLAAVARNFNQYRGSLNFLFVFTGAAMVKGKFLIAYTPPGAGKPTTRDQAMQATYAIWDLGLNSSFVFTAPFISPTHYRQTSYTSAASVDGWVTVWQLTPLTYPSGTPVNSDILTLVSAGDDFTLRMPISPTKWVPQ 1tme-a1-m8-c1_1tme-a1-m9-c1 THREE-DIMENSIONAL STRUCTURE OF THEILER VIRUS P13899 P13899 2.8 X-RAY DIFFRACTION 79 1.0 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 256 256 1tme-a1-m10-c1_1tme-a1-m6-c1 1tme-a1-m10-c1_1tme-a1-m9-c1 1tme-a1-m11-c1_1tme-a1-m12-c1 1tme-a1-m11-c1_1tme-a1-m15-c1 1tme-a1-m12-c1_1tme-a1-m13-c1 1tme-a1-m13-c1_1tme-a1-m14-c1 1tme-a1-m14-c1_1tme-a1-m15-c1 1tme-a1-m16-c1_1tme-a1-m17-c1 1tme-a1-m16-c1_1tme-a1-m20-c1 1tme-a1-m17-c1_1tme-a1-m18-c1 1tme-a1-m18-c1_1tme-a1-m19-c1 1tme-a1-m19-c1_1tme-a1-m20-c1 1tme-a1-m1-c1_1tme-a1-m2-c1 1tme-a1-m1-c1_1tme-a1-m5-c1 1tme-a1-m21-c1_1tme-a1-m22-c1 1tme-a1-m21-c1_1tme-a1-m25-c1 1tme-a1-m22-c1_1tme-a1-m23-c1 1tme-a1-m23-c1_1tme-a1-m24-c1 1tme-a1-m24-c1_1tme-a1-m25-c1 1tme-a1-m26-c1_1tme-a1-m27-c1 1tme-a1-m26-c1_1tme-a1-m30-c1 1tme-a1-m27-c1_1tme-a1-m28-c1 1tme-a1-m28-c1_1tme-a1-m29-c1 1tme-a1-m29-c1_1tme-a1-m30-c1 1tme-a1-m2-c1_1tme-a1-m3-c1 1tme-a1-m31-c1_1tme-a1-m32-c1 1tme-a1-m31-c1_1tme-a1-m35-c1 1tme-a1-m32-c1_1tme-a1-m33-c1 1tme-a1-m33-c1_1tme-a1-m34-c1 1tme-a1-m34-c1_1tme-a1-m35-c1 1tme-a1-m36-c1_1tme-a1-m37-c1 1tme-a1-m36-c1_1tme-a1-m40-c1 1tme-a1-m37-c1_1tme-a1-m38-c1 1tme-a1-m38-c1_1tme-a1-m39-c1 1tme-a1-m39-c1_1tme-a1-m40-c1 1tme-a1-m3-c1_1tme-a1-m4-c1 1tme-a1-m41-c1_1tme-a1-m42-c1 1tme-a1-m41-c1_1tme-a1-m45-c1 1tme-a1-m42-c1_1tme-a1-m43-c1 1tme-a1-m43-c1_1tme-a1-m44-c1 1tme-a1-m44-c1_1tme-a1-m45-c1 1tme-a1-m46-c1_1tme-a1-m47-c1 1tme-a1-m46-c1_1tme-a1-m50-c1 1tme-a1-m47-c1_1tme-a1-m48-c1 1tme-a1-m48-c1_1tme-a1-m49-c1 1tme-a1-m49-c1_1tme-a1-m50-c1 1tme-a1-m4-c1_1tme-a1-m5-c1 1tme-a1-m51-c1_1tme-a1-m52-c1 1tme-a1-m51-c1_1tme-a1-m55-c1 1tme-a1-m52-c1_1tme-a1-m53-c1 1tme-a1-m53-c1_1tme-a1-m54-c1 1tme-a1-m54-c1_1tme-a1-m55-c1 1tme-a1-m56-c1_1tme-a1-m57-c1 1tme-a1-m56-c1_1tme-a1-m60-c1 1tme-a1-m57-c1_1tme-a1-m58-c1 1tme-a1-m58-c1_1tme-a1-m59-c1 1tme-a1-m59-c1_1tme-a1-m60-c1 1tme-a1-m6-c1_1tme-a1-m7-c1 1tme-a1-m7-c1_1tme-a1-m8-c1 1tmf-a1-m10-c1_1tmf-a1-m6-c1 1tmf-a1-m10-c1_1tmf-a1-m9-c1 1tmf-a1-m11-c1_1tmf-a1-m12-c1 1tmf-a1-m11-c1_1tmf-a1-m15-c1 1tmf-a1-m12-c1_1tmf-a1-m13-c1 1tmf-a1-m13-c1_1tmf-a1-m14-c1 1tmf-a1-m14-c1_1tmf-a1-m15-c1 1tmf-a1-m16-c1_1tmf-a1-m17-c1 1tmf-a1-m16-c1_1tmf-a1-m20-c1 1tmf-a1-m17-c1_1tmf-a1-m18-c1 1tmf-a1-m18-c1_1tmf-a1-m19-c1 1tmf-a1-m19-c1_1tmf-a1-m20-c1 1tmf-a1-m1-c1_1tmf-a1-m2-c1 1tmf-a1-m1-c1_1tmf-a1-m5-c1 1tmf-a1-m21-c1_1tmf-a1-m22-c1 1tmf-a1-m21-c1_1tmf-a1-m25-c1 1tmf-a1-m22-c1_1tmf-a1-m23-c1 1tmf-a1-m23-c1_1tmf-a1-m24-c1 1tmf-a1-m24-c1_1tmf-a1-m25-c1 1tmf-a1-m26-c1_1tmf-a1-m27-c1 1tmf-a1-m26-c1_1tmf-a1-m30-c1 1tmf-a1-m27-c1_1tmf-a1-m28-c1 1tmf-a1-m28-c1_1tmf-a1-m29-c1 1tmf-a1-m29-c1_1tmf-a1-m30-c1 1tmf-a1-m2-c1_1tmf-a1-m3-c1 1tmf-a1-m31-c1_1tmf-a1-m32-c1 1tmf-a1-m31-c1_1tmf-a1-m35-c1 1tmf-a1-m32-c1_1tmf-a1-m33-c1 1tmf-a1-m33-c1_1tmf-a1-m34-c1 1tmf-a1-m34-c1_1tmf-a1-m35-c1 1tmf-a1-m36-c1_1tmf-a1-m37-c1 1tmf-a1-m36-c1_1tmf-a1-m40-c1 1tmf-a1-m37-c1_1tmf-a1-m38-c1 1tmf-a1-m38-c1_1tmf-a1-m39-c1 1tmf-a1-m39-c1_1tmf-a1-m40-c1 1tmf-a1-m3-c1_1tmf-a1-m4-c1 1tmf-a1-m41-c1_1tmf-a1-m42-c1 1tmf-a1-m41-c1_1tmf-a1-m45-c1 1tmf-a1-m42-c1_1tmf-a1-m43-c1 1tmf-a1-m43-c1_1tmf-a1-m44-c1 1tmf-a1-m44-c1_1tmf-a1-m45-c1 1tmf-a1-m46-c1_1tmf-a1-m47-c1 1tmf-a1-m46-c1_1tmf-a1-m50-c1 1tmf-a1-m47-c1_1tmf-a1-m48-c1 1tmf-a1-m48-c1_1tmf-a1-m49-c1 1tmf-a1-m49-c1_1tmf-a1-m50-c1 1tmf-a1-m4-c1_1tmf-a1-m5-c1 1tmf-a1-m51-c1_1tmf-a1-m52-c1 1tmf-a1-m51-c1_1tmf-a1-m55-c1 1tmf-a1-m52-c1_1tmf-a1-m53-c1 1tmf-a1-m53-c1_1tmf-a1-m54-c1 1tmf-a1-m54-c1_1tmf-a1-m55-c1 1tmf-a1-m56-c1_1tmf-a1-m57-c1 1tmf-a1-m56-c1_1tmf-a1-m60-c1 1tmf-a1-m57-c1_1tmf-a1-m58-c1 1tmf-a1-m58-c1_1tmf-a1-m59-c1 1tmf-a1-m59-c1_1tmf-a1-m60-c1 1tmf-a1-m6-c1_1tmf-a1-m7-c1 1tmf-a1-m7-c1_1tmf-a1-m8-c1 1tmf-a1-m8-c1_1tmf-a1-m9-c1 GSDNAEKGKVSNDDASVDFVAEPVKLPENQTRVAFFYDRAVPIGMLRPGQNIESTFVYQENDLRLNCLLLTPLPSFCPDSTSGPVKTKAPVQWRWVRSGGTTNFPLMTKQDYAFLCFSPFTYYKCDLEVTVSALGTDTVASVLRWAPTGAPADVTDQLIGYTPSLGETRNPHMWLVGAGNTQISFVVPYNSPLSVLPAAWFNGWSDFGNTKDFGVAPNADFGRLWIQGNTSASVRIRYKKMKVFCPRPTLFFPWPV GSDNAEKGKVSNDDASVDFVAEPVKLPENQTRVAFFYDRAVPIGMLRPGQNIESTFVYQENDLRLNCLLLTPLPSFCPDSTSGPVKTKAPVQWRWVRSGGTTNFPLMTKQDYAFLCFSPFTYYKCDLEVTVSALGTDTVASVLRWAPTGAPADVTDQLIGYTPSLGETRNPHMWLVGAGNTQISFVVPYNSPLSVLPAAWFNGWSDFGNTKDFGVAPNADFGRLWIQGNTSASVRIRYKKMKVFCPRPTLFFPWPV 1tme-a1-m8-c3_1tme-a1-m9-c3 THREE-DIMENSIONAL STRUCTURE OF THEILER VIRUS P13899 P13899 2.8 X-RAY DIFFRACTION 53 1.0 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 12126 (Theiler's encephalomyelitis virus (STRAIN DA)) 230 230 1tme-a1-m10-c3_1tme-a1-m6-c3 1tme-a1-m10-c3_1tme-a1-m9-c3 1tme-a1-m11-c3_1tme-a1-m12-c3 1tme-a1-m11-c3_1tme-a1-m15-c3 1tme-a1-m12-c3_1tme-a1-m13-c3 1tme-a1-m13-c3_1tme-a1-m14-c3 1tme-a1-m14-c3_1tme-a1-m15-c3 1tme-a1-m16-c3_1tme-a1-m17-c3 1tme-a1-m16-c3_1tme-a1-m20-c3 1tme-a1-m17-c3_1tme-a1-m18-c3 1tme-a1-m18-c3_1tme-a1-m19-c3 1tme-a1-m19-c3_1tme-a1-m20-c3 1tme-a1-m1-c3_1tme-a1-m2-c3 1tme-a1-m1-c3_1tme-a1-m5-c3 1tme-a1-m21-c3_1tme-a1-m22-c3 1tme-a1-m21-c3_1tme-a1-m25-c3 1tme-a1-m22-c3_1tme-a1-m23-c3 1tme-a1-m23-c3_1tme-a1-m24-c3 1tme-a1-m24-c3_1tme-a1-m25-c3 1tme-a1-m26-c3_1tme-a1-m27-c3 1tme-a1-m26-c3_1tme-a1-m30-c3 1tme-a1-m27-c3_1tme-a1-m28-c3 1tme-a1-m28-c3_1tme-a1-m29-c3 1tme-a1-m29-c3_1tme-a1-m30-c3 1tme-a1-m2-c3_1tme-a1-m3-c3 1tme-a1-m31-c3_1tme-a1-m32-c3 1tme-a1-m31-c3_1tme-a1-m35-c3 1tme-a1-m32-c3_1tme-a1-m33-c3 1tme-a1-m33-c3_1tme-a1-m34-c3 1tme-a1-m34-c3_1tme-a1-m35-c3 1tme-a1-m36-c3_1tme-a1-m37-c3 1tme-a1-m36-c3_1tme-a1-m40-c3 1tme-a1-m37-c3_1tme-a1-m38-c3 1tme-a1-m38-c3_1tme-a1-m39-c3 1tme-a1-m39-c3_1tme-a1-m40-c3 1tme-a1-m3-c3_1tme-a1-m4-c3 1tme-a1-m41-c3_1tme-a1-m42-c3 1tme-a1-m41-c3_1tme-a1-m45-c3 1tme-a1-m42-c3_1tme-a1-m43-c3 1tme-a1-m43-c3_1tme-a1-m44-c3 1tme-a1-m44-c3_1tme-a1-m45-c3 1tme-a1-m46-c3_1tme-a1-m47-c3 1tme-a1-m46-c3_1tme-a1-m50-c3 1tme-a1-m47-c3_1tme-a1-m48-c3 1tme-a1-m48-c3_1tme-a1-m49-c3 1tme-a1-m49-c3_1tme-a1-m50-c3 1tme-a1-m4-c3_1tme-a1-m5-c3 1tme-a1-m51-c3_1tme-a1-m52-c3 1tme-a1-m51-c3_1tme-a1-m55-c3 1tme-a1-m52-c3_1tme-a1-m53-c3 1tme-a1-m53-c3_1tme-a1-m54-c3 1tme-a1-m54-c3_1tme-a1-m55-c3 1tme-a1-m56-c3_1tme-a1-m57-c3 1tme-a1-m56-c3_1tme-a1-m60-c3 1tme-a1-m57-c3_1tme-a1-m58-c3 1tme-a1-m58-c3_1tme-a1-m59-c3 1tme-a1-m59-c3_1tme-a1-m60-c3 1tme-a1-m6-c3_1tme-a1-m7-c3 1tme-a1-m7-c3_1tme-a1-m8-c3 1tmf-a1-m10-c3_1tmf-a1-m6-c3 1tmf-a1-m10-c3_1tmf-a1-m9-c3 1tmf-a1-m11-c3_1tmf-a1-m12-c3 1tmf-a1-m11-c3_1tmf-a1-m15-c3 1tmf-a1-m12-c3_1tmf-a1-m13-c3 1tmf-a1-m13-c3_1tmf-a1-m14-c3 1tmf-a1-m14-c3_1tmf-a1-m15-c3 1tmf-a1-m16-c3_1tmf-a1-m17-c3 1tmf-a1-m16-c3_1tmf-a1-m20-c3 1tmf-a1-m17-c3_1tmf-a1-m18-c3 1tmf-a1-m18-c3_1tmf-a1-m19-c3 1tmf-a1-m19-c3_1tmf-a1-m20-c3 1tmf-a1-m1-c3_1tmf-a1-m2-c3 1tmf-a1-m1-c3_1tmf-a1-m5-c3 1tmf-a1-m21-c3_1tmf-a1-m22-c3 1tmf-a1-m21-c3_1tmf-a1-m25-c3 1tmf-a1-m22-c3_1tmf-a1-m23-c3 1tmf-a1-m23-c3_1tmf-a1-m24-c3 1tmf-a1-m24-c3_1tmf-a1-m25-c3 1tmf-a1-m26-c3_1tmf-a1-m27-c3 1tmf-a1-m26-c3_1tmf-a1-m30-c3 1tmf-a1-m27-c3_1tmf-a1-m28-c3 1tmf-a1-m28-c3_1tmf-a1-m29-c3 1tmf-a1-m29-c3_1tmf-a1-m30-c3 1tmf-a1-m2-c3_1tmf-a1-m3-c3 1tmf-a1-m31-c3_1tmf-a1-m32-c3 1tmf-a1-m31-c3_1tmf-a1-m35-c3 1tmf-a1-m32-c3_1tmf-a1-m33-c3 1tmf-a1-m33-c3_1tmf-a1-m34-c3 1tmf-a1-m34-c3_1tmf-a1-m35-c3 1tmf-a1-m36-c3_1tmf-a1-m37-c3 1tmf-a1-m36-c3_1tmf-a1-m40-c3 1tmf-a1-m37-c3_1tmf-a1-m38-c3 1tmf-a1-m38-c3_1tmf-a1-m39-c3 1tmf-a1-m39-c3_1tmf-a1-m40-c3 1tmf-a1-m3-c3_1tmf-a1-m4-c3 1tmf-a1-m41-c3_1tmf-a1-m42-c3 1tmf-a1-m41-c3_1tmf-a1-m45-c3 1tmf-a1-m42-c3_1tmf-a1-m43-c3 1tmf-a1-m43-c3_1tmf-a1-m44-c3 1tmf-a1-m44-c3_1tmf-a1-m45-c3 1tmf-a1-m46-c3_1tmf-a1-m47-c3 1tmf-a1-m46-c3_1tmf-a1-m50-c3 1tmf-a1-m47-c3_1tmf-a1-m48-c3 1tmf-a1-m48-c3_1tmf-a1-m49-c3 1tmf-a1-m49-c3_1tmf-a1-m50-c3 1tmf-a1-m4-c3_1tmf-a1-m5-c3 1tmf-a1-m51-c3_1tmf-a1-m52-c3 1tmf-a1-m51-c3_1tmf-a1-m55-c3 1tmf-a1-m52-c3_1tmf-a1-m53-c3 1tmf-a1-m53-c3_1tmf-a1-m54-c3 1tmf-a1-m54-c3_1tmf-a1-m55-c3 1tmf-a1-m56-c3_1tmf-a1-m57-c3 1tmf-a1-m56-c3_1tmf-a1-m60-c3 1tmf-a1-m57-c3_1tmf-a1-m58-c3 1tmf-a1-m58-c3_1tmf-a1-m59-c3 1tmf-a1-m59-c3_1tmf-a1-m60-c3 1tmf-a1-m6-c3_1tmf-a1-m7-c3 1tmf-a1-m7-c3_1tmf-a1-m8-c3 1tmf-a1-m8-c3_1tmf-a1-m9-c3 SPIAVTVREHKGCFYSTNPDTTVPIYGKTISTPNDYMCGEFSDLLELCKLPTFLGNPNSNNKRYPYFSATNSVPTTSLVDYQVALSCSCMCNSMLAAVARNFNQYRGSLNFLFVFTGAAMVKGKFLIAYTPPGAGKPTTRDQAMQATYAIWDLGLNSSFVFTAPFISPTHYRQTSYTSAASVDGWVTVWQLTPLTYPSGTPVNSDILTLVSAGDDFTLRMPISPTKWVPQ SPIAVTVREHKGCFYSTNPDTTVPIYGKTISTPNDYMCGEFSDLLELCKLPTFLGNPNSNNKRYPYFSATNSVPTTSLVDYQVALSCSCMCNSMLAAVARNFNQYRGSLNFLFVFTGAAMVKGKFLIAYTPPGAGKPTTRDQAMQATYAIWDLGLNSSFVFTAPFISPTHYRQTSYTSAASVDGWVTVWQLTPLTYPSGTPVNSDILTLVSAGDDFTLRMPISPTKWVPQ 1tmf-a1-m57-c2_1tmf-a1-m9-c2 THREE-DIMENSIONAL STRUCTURE OF THEILER MURINE ENCEPHALOMYELITIS VIRUS (BEAN STRAIN) P08544 P08544 3.5 X-RAY DIFFRACTION 23 1.0 12124 (Theiler's encephalomyelitis virus) 12124 (Theiler's encephalomyelitis virus) 267 267 1tmf-a1-m10-c2_1tmf-a1-m25-c2 1tmf-a1-m10-c2_1tmf-a1-m55-c2 1tmf-a1-m11-c2_1tmf-a1-m17-c2 1tmf-a1-m11-c2_1tmf-a1-m29-c2 1tmf-a1-m12-c2_1tmf-a1-m16-c2 1tmf-a1-m12-c2_1tmf-a1-m39-c2 1tmf-a1-m13-c2_1tmf-a1-m38-c2 1tmf-a1-m13-c2_1tmf-a1-m48-c2 1tmf-a1-m14-c2_1tmf-a1-m41-c2 1tmf-a1-m14-c2_1tmf-a1-m47-c2 1tmf-a1-m15-c2_1tmf-a1-m30-c2 1tmf-a1-m15-c2_1tmf-a1-m45-c2 1tmf-a1-m16-c2_1tmf-a1-m39-c2 1tmf-a1-m17-c2_1tmf-a1-m29-c2 1tmf-a1-m18-c2_1tmf-a1-m28-c2 1tmf-a1-m18-c2_1tmf-a1-m53-c2 1tmf-a1-m19-c2_1tmf-a1-m52-c2 1tmf-a1-m19-c2_1tmf-a1-m56-c2 1tmf-a1-m1-c2_1tmf-a1-m34-c2 1tmf-a1-m1-c2_1tmf-a1-m7-c2 1tmf-a1-m20-c2_1tmf-a1-m40-c2 1tmf-a1-m20-c2_1tmf-a1-m60-c2 1tmf-a1-m21-c2_1tmf-a1-m27-c2 1tmf-a1-m21-c2_1tmf-a1-m54-c2 1tmf-a1-m22-c2_1tmf-a1-m26-c2 1tmf-a1-m22-c2_1tmf-a1-m44-c2 1tmf-a1-m23-c2_1tmf-a1-m3-c2 1tmf-a1-m23-c2_1tmf-a1-m43-c2 1tmf-a1-m24-c2_1tmf-a1-m6-c2 1tmf-a1-m25-c2_1tmf-a1-m55-c2 1tmf-a1-m26-c2_1tmf-a1-m44-c2 1tmf-a1-m27-c2_1tmf-a1-m54-c2 1tmf-a1-m28-c2_1tmf-a1-m53-c2 1tmf-a1-m2-c2_1tmf-a1-m24-c2 1tmf-a1-m2-c2_1tmf-a1-m6-c2 1tmf-a1-m30-c2_1tmf-a1-m45-c2 1tmf-a1-m31-c2_1tmf-a1-m37-c2 1tmf-a1-m31-c2_1tmf-a1-m49-c2 1tmf-a1-m32-c2_1tmf-a1-m36-c2 1tmf-a1-m32-c2_1tmf-a1-m59-c2 1tmf-a1-m33-c2_1tmf-a1-m58-c2 1tmf-a1-m33-c2_1tmf-a1-m8-c2 1tmf-a1-m34-c2_1tmf-a1-m7-c2 1tmf-a1-m35-c2_1tmf-a1-m50-c2 1tmf-a1-m35-c2_1tmf-a1-m5-c2 1tmf-a1-m36-c2_1tmf-a1-m59-c2 1tmf-a1-m37-c2_1tmf-a1-m49-c2 1tmf-a1-m38-c2_1tmf-a1-m48-c2 1tmf-a1-m3-c2_1tmf-a1-m43-c2 1tmf-a1-m40-c2_1tmf-a1-m60-c2 1tmf-a1-m41-c2_1tmf-a1-m47-c2 1tmf-a1-m42-c2_1tmf-a1-m46-c2 1tmf-a1-m4-c2_1tmf-a1-m42-c2 1tmf-a1-m4-c2_1tmf-a1-m46-c2 1tmf-a1-m51-c2_1tmf-a1-m57-c2 1tmf-a1-m51-c2_1tmf-a1-m9-c2 1tmf-a1-m52-c2_1tmf-a1-m56-c2 1tmf-a1-m58-c2_1tmf-a1-m8-c2 1tmf-a1-m5-c2_1tmf-a1-m50-c2 DQNTEEMENLSDRVASDKAGNSATNTQSTVGRLCGYGKSHHGEHPASCADTATDKVLAAERYYTIDLASWTTSQEAFSHIRIPLPHVLAGEDGGVFGATLRRHYLCKTGWRVQVQCNASQFHAGSLLVFMAPEFYTGKGTKTGTMEPSDPFTMDTEWRSPQGAPTGYRYDSRTGFFATNHQNQWQWTVYPHQILNLRTNTTVDLEVPYVNVAPSSSWTQHANWTLVVAVLSPLQYATGSSPDVQITASLQPVNPVFNGLRHETVIAQ DQNTEEMENLSDRVASDKAGNSATNTQSTVGRLCGYGKSHHGEHPASCADTATDKVLAAERYYTIDLASWTTSQEAFSHIRIPLPHVLAGEDGGVFGATLRRHYLCKTGWRVQVQCNASQFHAGSLLVFMAPEFYTGKGTKTGTMEPSDPFTMDTEWRSPQGAPTGYRYDSRTGFFATNHQNQWQWTVYPHQILNLRTNTTVDLEVPYVNVAPSSSWTQHANWTLVVAVLSPLQYATGSSPDVQITASLQPVNPVFNGLRHETVIAQ 1tmf-a1-m8-c4_1tmf-a1-m9-c4 THREE-DIMENSIONAL STRUCTURE OF THEILER MURINE ENCEPHALOMYELITIS VIRUS (BEAN STRAIN) P13899 P13899 3.5 X-RAY DIFFRACTION 12 1.0 12124 (Theiler's encephalomyelitis virus) 12124 (Theiler's encephalomyelitis virus) 31 31 1tmf-a1-m10-c4_1tmf-a1-m6-c4 1tmf-a1-m10-c4_1tmf-a1-m9-c4 1tmf-a1-m11-c4_1tmf-a1-m12-c4 1tmf-a1-m11-c4_1tmf-a1-m15-c4 1tmf-a1-m12-c4_1tmf-a1-m13-c4 1tmf-a1-m13-c4_1tmf-a1-m14-c4 1tmf-a1-m14-c4_1tmf-a1-m15-c4 1tmf-a1-m16-c4_1tmf-a1-m17-c4 1tmf-a1-m16-c4_1tmf-a1-m20-c4 1tmf-a1-m17-c4_1tmf-a1-m18-c4 1tmf-a1-m18-c4_1tmf-a1-m19-c4 1tmf-a1-m19-c4_1tmf-a1-m20-c4 1tmf-a1-m1-c4_1tmf-a1-m2-c4 1tmf-a1-m1-c4_1tmf-a1-m5-c4 1tmf-a1-m21-c4_1tmf-a1-m22-c4 1tmf-a1-m21-c4_1tmf-a1-m25-c4 1tmf-a1-m22-c4_1tmf-a1-m23-c4 1tmf-a1-m23-c4_1tmf-a1-m24-c4 1tmf-a1-m24-c4_1tmf-a1-m25-c4 1tmf-a1-m26-c4_1tmf-a1-m27-c4 1tmf-a1-m26-c4_1tmf-a1-m30-c4 1tmf-a1-m27-c4_1tmf-a1-m28-c4 1tmf-a1-m28-c4_1tmf-a1-m29-c4 1tmf-a1-m29-c4_1tmf-a1-m30-c4 1tmf-a1-m2-c4_1tmf-a1-m3-c4 1tmf-a1-m31-c4_1tmf-a1-m32-c4 1tmf-a1-m31-c4_1tmf-a1-m35-c4 1tmf-a1-m32-c4_1tmf-a1-m33-c4 1tmf-a1-m33-c4_1tmf-a1-m34-c4 1tmf-a1-m34-c4_1tmf-a1-m35-c4 1tmf-a1-m36-c4_1tmf-a1-m37-c4 1tmf-a1-m36-c4_1tmf-a1-m40-c4 1tmf-a1-m37-c4_1tmf-a1-m38-c4 1tmf-a1-m38-c4_1tmf-a1-m39-c4 1tmf-a1-m39-c4_1tmf-a1-m40-c4 1tmf-a1-m3-c4_1tmf-a1-m4-c4 1tmf-a1-m41-c4_1tmf-a1-m42-c4 1tmf-a1-m41-c4_1tmf-a1-m45-c4 1tmf-a1-m42-c4_1tmf-a1-m43-c4 1tmf-a1-m43-c4_1tmf-a1-m44-c4 1tmf-a1-m44-c4_1tmf-a1-m45-c4 1tmf-a1-m46-c4_1tmf-a1-m47-c4 1tmf-a1-m46-c4_1tmf-a1-m50-c4 1tmf-a1-m47-c4_1tmf-a1-m48-c4 1tmf-a1-m48-c4_1tmf-a1-m49-c4 1tmf-a1-m49-c4_1tmf-a1-m50-c4 1tmf-a1-m4-c4_1tmf-a1-m5-c4 1tmf-a1-m51-c4_1tmf-a1-m52-c4 1tmf-a1-m51-c4_1tmf-a1-m55-c4 1tmf-a1-m52-c4_1tmf-a1-m53-c4 1tmf-a1-m53-c4_1tmf-a1-m54-c4 1tmf-a1-m54-c4_1tmf-a1-m55-c4 1tmf-a1-m56-c4_1tmf-a1-m57-c4 1tmf-a1-m56-c4_1tmf-a1-m60-c4 1tmf-a1-m57-c4_1tmf-a1-m58-c4 1tmf-a1-m58-c4_1tmf-a1-m59-c4 1tmf-a1-m59-c4_1tmf-a1-m60-c4 1tmf-a1-m6-c4_1tmf-a1-m7-c4 1tmf-a1-m7-c4_1tmf-a1-m8-c4 NESGNEGVIINNFYSNQYQNSIDLSALSNLL NESGNEGVIINNFYSNQYQNSIDLSALSNLL 1tmx-a1-m1-cB_1tmx-a1-m1-cA Crystal structure of hydroxyquinol 1,2-dioxygenase from Nocardioides Simplex 3E Q5PXQ6 Q5PXQ6 1.75 X-RAY DIFFRACTION 197 1.0 2045 (Pimelobacter simplex) 2045 (Pimelobacter simplex) 287 292 PVSAEQQAREQDLVERVLRSFDATADPRLKQVMQALTRHLHAFLREVRLTEAEWETGIGFLTDAGHVTNERRQEFILLSDVLGASMQTIAMNNEAHGDATEATVFGPFFVEGSPRIESGGDIAGGAAGEPCWVEGTVTDTDGNPVPDARIEVWEADDDGFYDVQYDDDRTAARAHLLSGPDGGYAFWAITPTPYPIPHDGPVGRMLAATGRSPMRASHLHFMVTAPGRRTLVTHIFVEGDELLDRDSVFGVKDSLVKSFERQPAPTPGGEIDGPWSRVRFDIVLAPA STPVSAEQQAREQDLVERVLRSFDATADPRLKQVMQALTRHLHAFLREVRLTEAEWETGIGFLTDAGHVTNERRQEFILLSDVLGASMQTIAMNNEAHGDATEATVFGPFFVEGSPRIESGGDIAGGAAGEPCWVEGTVTDTDGNPVPDARIEVWEADDDGFYDVQYDDDRTAARAHLLSGPDGGYAFWAITPTPYPIPHDGPVGRMLAATGRSPMRASHLHFMVTAPGRRTLVTHIFVEGDELLDRDSVFGVKDSLVKSFERQPAGAPTPGGREIDGPWSRVRFDIVLAPA 1tmz-a1-m1-cA_1tmz-a1-m1-cB TMZIP: A CHIMERIC PEPTIDE MODEL OF THE N-TERMINUS OF ALPHA TROPOMYOSIN, NMR, 15 STRUCTURES P03069 P03069 NOT SOLUTION NMR 48 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 32 32 MDAIKKKMQMLKLDNYHLENEVARLKKLVGER MDAIKKKMQMLKLDNYHLENEVARLKKLVGER 1tnr-a1-m2-cA_1tnr-a1-m3-cA CRYSTAL STRUCTURE OF THE SOLUBLE HUMAN 55 KD TNF RECEPTOR-HUMAN TNF-BETA COMPLEX: IMPLICATIONS FOR TNF RECEPTOR ACTIVATION P01374 P01374 2.85 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 1tnr-a1-m1-cA_1tnr-a1-m2-cA 1tnr-a1-m1-cA_1tnr-a1-m3-cA 4mxv-a1-m1-cA_4mxv-a1-m1-cB 4mxv-a1-m1-cD_4mxv-a1-m1-cA 4mxv-a1-m1-cD_4mxv-a1-m1-cB KPAAHLIGDPSKQNSLLWRANTDRAFLQDGFSLSNNSLLVPTSGIYFVYSQVVFSGKAYSPKATSSPLYLAHEVQLFSSQYPFHVPLLSSQKMVYPGLQEPWLHSMYHGAAFQLTQGDQLSTHTDGIPHLVLSPSTVFFGAFAL KPAAHLIGDPSKQNSLLWRANTDRAFLQDGFSLSNNSLLVPTSGIYFVYSQVVFSGKAYSPKATSSPLYLAHEVQLFSSQYPFHVPLLSSQKMVYPGLQEPWLHSMYHGAAFQLTQGDQLSTHTDGIPHLVLSPSTVFFGAFAL 1to0-a3-m1-cE_1to0-a3-m1-cF X-ray structure of Northeast Structural Genomics target protein sr145 from Bacillus subtilis Q45601 Q45601 2.5 X-RAY DIFFRACTION 44 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 134 137 1to0-a1-m1-cA_1to0-a1-m1-cB 1to0-a2-m1-cC_1to0-a2-m1-cD 1to0-a4-m1-cG_1to0-a4-m1-cH NINIVTIGKLKEKYLKQGIEEYTKRLSAYAKIDIIELPDIKDKEGDRILSKISPDAHVIALAIEGKKTSEELADTIDKLATYGKSKVTFVIGGSLGLSDTVKRADEKLSFSKTFPHQLRLILVEQIYRAFRINR NINIVTIGKLKEKYLKQGIEEYTKRLSAYAKIDIIELPDKIIKDKEGDRILSKISPDAHVIALAIEGKKTSEELADTIDKLATYGKSKVTFVIGGSLGLSDTVKRADEKLSFSKTFPHQLRLILVEQIYRAFRINRG 1to4-a2-m1-cC_1to4-a2-m1-cD Structure of the cytosolic Cu,Zn SOD from S. mansoni Q01137 Q01137 1.55 X-RAY DIFFRACTION 72 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 156 156 1to4-a1-m1-cA_1to4-a1-m1-cB 1to5-a1-m1-cA_1to5-a1-m1-cB 1to5-a2-m1-cC_1to5-a2-m1-cD 1to5-a3-m1-cA_1to5-a3-m1-cB 1to5-a3-m2-cC_1to5-a3-m2-cD GSNMKAVCVMTGTAGVKGVVKFTQETDNGPVHVHAEFSGLKAGKHGFHVHEFGDTTNGCTSAGAHFNPTKQEHGAPEDSIRHVGDLGNVVAGADGNAVYNATDKLISLNGSHSIIGRSMVIHENEDDLGRGGHELSKVTGNAGGRLACGVVGLAAE GSNMKAVCVMTGTAGVKGVVKFTQETDNGPVHVHAEFSGLKAGKHGFHVHEFGDTTNGCTSAGAHFNPTKQEHGAPEDSIRHVGDLGNVVAGADGNAVYNATDKLISLNGSHSIIGRSMVIHENEDDLGRGGHELSKVTGNAGGRLACGVVGLAAE 1to5-a3-m1-cA_1to5-a3-m2-cD Structure of the cytosolic Cu,Zn SOD from S. mansoni Q01137 Q01137 2.2 X-RAY DIFFRACTION 12 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 156 156 1to5-a3-m1-cB_1to5-a3-m2-cC GSNMKAVCVMTGTAGVKGVVKFTQETDNGPVHVHAEFSGLKAGKHGFHVHEFGDTTNGCTSAGAHFNPTKQEHGAPEDSIRHVGDLGNVVAGADGNAVYNATDKLISLNGSHSIIGRSMVIHENEDDLGRGGHELSKVTGNAGGRLACGVVGLAAE GSNMKAVCVMTGTAGVKGVVKFTQETDNGPVHVHAEFSGLKAGKHGFHVHEFGDTTNGCTSAGAHFNPTKQEHGAPEDSIRHVGDLGNVVAGADGNAVYNATDKLISLNGSHSIIGRSMVIHENEDDLGRGGHELSKVTGNAGGRLACGVVGLAAE 1to6-a2-m1-cA_1to6-a2-m2-cB Glycerate kinase from Neisseria meningitidis (serogroup A) P57098 P57098 2.5 X-RAY DIFFRACTION 50 1.0 65699 (Neisseria meningitidis serogroup A) 65699 (Neisseria meningitidis serogroup A) 371 371 1to6-a2-m1-cB_1to6-a2-m2-cA MKIVIAPDSFKESLTAQQVAEAIKRGFQQSIADVECLLCPVGDGGEGTVDAIRHSLDLEEKCLQVTGSFGQKEVMRYFQKEQLALFEVADLVGLGKIPLEKRNPLQIQTRGIGELIRHLISQEIKEIYIGVGGTASNDGGIGIAAGLGYQFYDEDGNALPACGQSLLNLASVSTENRYKIPEDVHIRILADVVSPLCGHQGATYTFGKQKGLDSTMFEVVDQAIQDFYEKVSPATLKLKGAGAGGGIAGGLCAFAQASIVSGIDTCLDLIDFDKKVSDVDLVIVGEGRLDRQSLAGKAPIGVAKRTPVGVPVVAICGSLVEDLPSLPFENIQAAFSILEKSEPLEDSLKNASLYLEHTASNIGHLLNMPKI MKIVIAPDSFKESLTAQQVAEAIKRGFQQSIADVECLLCPVGDGGEGTVDAIRHSLDLEEKCLQVTGSFGQKEVMRYFQKEQLALFEVADLVGLGKIPLEKRNPLQIQTRGIGELIRHLISQEIKEIYIGVGGTASNDGGIGIAAGLGYQFYDEDGNALPACGQSLLNLASVSTENRYKIPEDVHIRILADVVSPLCGHQGATYTFGKQKGLDSTMFEVVDQAIQDFYEKVSPATLKLKGAGAGGGIAGGLCAFAQASIVSGIDTCLDLIDFDKKVSDVDLVIVGEGRLDRQSLAGKAPIGVAKRTPVGVPVVAICGSLVEDLPSLPFENIQAAFSILEKSEPLEDSLKNASLYLEHTASNIGHLLNMPKI 1to6-a2-m2-cA_1to6-a2-m2-cB Glycerate kinase from Neisseria meningitidis (serogroup A) P57098 P57098 2.5 X-RAY DIFFRACTION 92 1.0 65699 (Neisseria meningitidis serogroup A) 65699 (Neisseria meningitidis serogroup A) 371 371 1to6-a1-m1-cA_1to6-a1-m1-cB 1to6-a2-m1-cA_1to6-a2-m1-cB MKIVIAPDSFKESLTAQQVAEAIKRGFQQSIADVECLLCPVGDGGEGTVDAIRHSLDLEEKCLQVTGSFGQKEVMRYFQKEQLALFEVADLVGLGKIPLEKRNPLQIQTRGIGELIRHLISQEIKEIYIGVGGTASNDGGIGIAAGLGYQFYDEDGNALPACGQSLLNLASVSTENRYKIPEDVHIRILADVVSPLCGHQGATYTFGKQKGLDSTMFEVVDQAIQDFYEKVSPATLKLKGAGAGGGIAGGLCAFAQASIVSGIDTCLDLIDFDKKVSDVDLVIVGEGRLDRQSLAGKAPIGVAKRTPVGVPVVAICGSLVEDLPSLPFENIQAAFSILEKSEPLEDSLKNASLYLEHTASNIGHLLNMPKI MKIVIAPDSFKESLTAQQVAEAIKRGFQQSIADVECLLCPVGDGGEGTVDAIRHSLDLEEKCLQVTGSFGQKEVMRYFQKEQLALFEVADLVGLGKIPLEKRNPLQIQTRGIGELIRHLISQEIKEIYIGVGGTASNDGGIGIAAGLGYQFYDEDGNALPACGQSLLNLASVSTENRYKIPEDVHIRILADVVSPLCGHQGATYTFGKQKGLDSTMFEVVDQAIQDFYEKVSPATLKLKGAGAGGGIAGGLCAFAQASIVSGIDTCLDLIDFDKKVSDVDLVIVGEGRLDRQSLAGKAPIGVAKRTPVGVPVVAICGSLVEDLPSLPFENIQAAFSILEKSEPLEDSLKNASLYLEHTASNIGHLLNMPKI 1ton-a2-m2-cA_1ton-a2-m1-cA RAT SUBMAXILLARY GLAND SERINE PROTEASE, TONIN. STRUCTURE SOLUTION AND REFINEMENT AT 1.8 ANGSTROMS RESOLUTION P00759 P00759 1.8 X-RAY DIFFRACTION 33 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 227 227 IVGGYKCEKNSQPWQVAVINEYLCGGVLIDPSWVITAAHCYSNNYQVLLGRNNLFKDEPFAQRRLVRQSFRHPDYIPLPVHDHSNDLMLLHLSEPADITGGVKVIDLPTKEPKVGSTCLASGWGSTNPSEMVVSHDLQCVNIHLLSNEKCIETYKDNVTDVMLCAGEMEGGKDTCAGDSGGPLICDGVLQGITSGGATPCAKPKTPAIYAKLIKFTSWIKKVMKENP IVGGYKCEKNSQPWQVAVINEYLCGGVLIDPSWVITAAHCYSNNYQVLLGRNNLFKDEPFAQRRLVRQSFRHPDYIPLPVHDHSNDLMLLHLSEPADITGGVKVIDLPTKEPKVGSTCLASGWGSTNPSEMVVSHDLQCVNIHLLSNEKCIETYKDNVTDVMLCAGEMEGGKDTCAGDSGGPLICDGVLQGITSGGATPCAKPKTPAIYAKLIKFTSWIKKVMKENP 1tp5-a2-m1-cA_1tp5-a2-m2-cA Crystal structure of PDZ3 domain of PSD-95 protein complexed with a peptide ligand KKETWV P31016 P31016 1.54 X-RAY DIFFRACTION 50 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 115 115 FLGEEDIPREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEANSRVDSSGRIVTD FLGEEDIPREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEANSRVDSSGRIVTD 1tq8-a2-m1-cE_1tq8-a2-m2-cF Crystal Structure of protein Rv1636 from Mycobacterium tuberculosis H37Rv P9WFC9 P9WFC9 2.4 X-RAY DIFFRACTION 105 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 125 126 1tq8-a1-m1-cA_1tq8-a1-m1-cC 1tq8-a1-m1-cB_1tq8-a1-m1-cD 1tq8-a2-m2-cE_1tq8-a2-m1-cF SLSAYKTVVVGTDGSDSSRAVDRAAQIAGADAKLIIASAYLPAPIYEILHDAKERAHNAGAKNVEERPIVGAPVDALVNLADEEKADLLVVGNVGLSTIAGRLLGSVPANVSRRAKVDVLIVHTT SLSAYKTVVVGTDGSDSSRAVDRAAQIAGADAKLIIASAYLPTAPIYEILHDAKERAHNAGAKNVEERPIVGAPVDALVNLADEEKADLLVVGNVGLSTIAGRLLGSVPANVSRRAKVDVLIVHTT 1tq8-a2-m1-cF_1tq8-a2-m2-cF Crystal Structure of protein Rv1636 from Mycobacterium tuberculosis H37Rv P9WFC9 P9WFC9 2.4 X-RAY DIFFRACTION 28 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 126 126 1tq8-a1-m1-cA_1tq8-a1-m1-cD 1tq8-a1-m1-cB_1tq8-a1-m1-cC 1tq8-a2-m1-cE_1tq8-a2-m2-cE SLSAYKTVVVGTDGSDSSRAVDRAAQIAGADAKLIIASAYLPTAPIYEILHDAKERAHNAGAKNVEERPIVGAPVDALVNLADEEKADLLVVGNVGLSTIAGRLLGSVPANVSRRAKVDVLIVHTT SLSAYKTVVVGTDGSDSSRAVDRAAQIAGADAKLIIASAYLPTAPIYEILHDAKERAHNAGAKNVEERPIVGAPVDALVNLADEEKADLLVVGNVGLSTIAGRLLGSVPANVSRRAKVDVLIVHTT 1tq8-a2-m2-cE_1tq8-a2-m2-cF Crystal Structure of protein Rv1636 from Mycobacterium tuberculosis H37Rv P9WFC9 P9WFC9 2.4 X-RAY DIFFRACTION 167 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 125 126 1tq8-a1-m1-cA_1tq8-a1-m1-cB 1tq8-a1-m1-cC_1tq8-a1-m1-cD 1tq8-a2-m1-cE_1tq8-a2-m1-cF SLSAYKTVVVGTDGSDSSRAVDRAAQIAGADAKLIIASAYLPAPIYEILHDAKERAHNAGAKNVEERPIVGAPVDALVNLADEEKADLLVVGNVGLSTIAGRLLGSVPANVSRRAKVDVLIVHTT SLSAYKTVVVGTDGSDSSRAVDRAAQIAGADAKLIIASAYLPTAPIYEILHDAKERAHNAGAKNVEERPIVGAPVDALVNLADEEKADLLVVGNVGLSTIAGRLLGSVPANVSRRAKVDVLIVHTT 1tq9-a1-m1-cA_1tq9-a1-m1-cB Non-covalent swapped dimer of Bovine Seminal Ribonuclease in complex with 2'-DEOXYCYTIDINE-2'-DEOXYADENOSINE-3',5'-MONOPHOSPHATE P00669 P00669 2 X-RAY DIFFRACTION 130 1.0 9913 (Bos taurus) 9913 (Bos taurus) 122 122 KESAAAKFERQHMDSGNSPSSSSNYCNLMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSPSSSSNYCNLMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 1tqj-a1-m1-cA_1tqj-a1-m1-cC Crystal structure of D-ribulose 5-phosphate 3-epimerase from Synechocystis to 1.6 angstrom resolution P74061 P74061 1.6 X-RAY DIFFRACTION 50 0.995 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 217 218 1tqj-a1-m1-cB_1tqj-a1-m1-cD 1tqj-a1-m1-cB_1tqj-a1-m1-cF 1tqj-a1-m1-cD_1tqj-a1-m1-cF 1tqj-a1-m1-cE_1tqj-a1-m1-cA 1tqj-a1-m1-cE_1tqj-a1-m1-cC KNIVVAPSILSADFSRLGEEIKAVDEAGADWIHVDVMDGRFVPNITIGPLIVDAIRPLTKKTLDVHLMIVEPEKYVEDFAKAGADIISVHVEHNASPHLHRTLCQIRELGKKAGAVLNPSTPLDFLEYVLPVCDLILIMSVNPQSFIPEVLPKIRALRQMCDERGLDPWIEVDGGLKPNNTWQVLEAGANAIVAGSAVFNAPNYAEAIAGVRNSKRP KNIVVAPSILSADFSRLGEEIKAVDEAGADWIHVDVMDGRFVPNITIGPLIVDAIRPLTKKTLDVHLMIVEPEKYVEDFAKAGADIISVHVEHNASPHLHRTLCQIRELGKKAGAVLNPSTPLDFLEYVLPVCDLILIMSVNQSFIPEVLPKIRALRQMCDERGLDPWIEVDGGLKPNNTWQVLEAGANAIVAGSAVFNAPNYAEAIAGVRNSKRPEP 1tqj-a1-m1-cA_1tqj-a1-m1-cF Crystal structure of D-ribulose 5-phosphate 3-epimerase from Synechocystis to 1.6 angstrom resolution P74061 P74061 1.6 X-RAY DIFFRACTION 81 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 217 217 1tqj-a1-m1-cB_1tqj-a1-m1-cE 1tqj-a1-m1-cD_1tqj-a1-m1-cC KNIVVAPSILSADFSRLGEEIKAVDEAGADWIHVDVMDGRFVPNITIGPLIVDAIRPLTKKTLDVHLMIVEPEKYVEDFAKAGADIISVHVEHNASPHLHRTLCQIRELGKKAGAVLNPSTPLDFLEYVLPVCDLILIMSVNPQSFIPEVLPKIRALRQMCDERGLDPWIEVDGGLKPNNTWQVLEAGANAIVAGSAVFNAPNYAEAIAGVRNSKRP KNIVVAPSILSADFSRLGEEIKAVDEAGADWIHVDVMDGRFVPNITIGPLIVDAIRPLTKKTLDVHLMIVEPEKYVEDFAKAGADIISVHVEHNASPHLHRTLCQIRELGKKAGAVLNPSTPLDFLEYVLPVCDLILIMSVNPQSFIPEVLPKIRALRQMCDERGLDPWIEVDGGLKPNNTWQVLEAGANAIVAGSAVFNAPNYAEAIAGVRNSKRP 1tqx-a3-m1-cA_1tqx-a3-m2-cB Crystal Structure of Pfal009167 A Putative D-Ribulose 5-Phosphate 3-Epimerase from P.falciparum Q8I5L3 Q8I5L3 2 X-RAY DIFFRACTION 96 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 221 221 LKAIIAPSVLASNISKLAEETQRMESLGAEWIHLDVMDMHFVPNLSFGPPVINNLKKYTKSIFFDVHLMVEYPEKYVPLLKTSNQLTFHFEALNEDTERCIQLAKEIRDNNLWCGISIKPKTDVQKLVPILDTNLINTVLVMTVEPGFGGQSFMHDMMGKVSFLRKKYKNLNIQVDGGLNIETTEISASHGANIIVAGTSIFNAEDPKYVIDTMRVSVQKY LKAIIAPSVLASNISKLAEETQRMESLGAEWIHLDVMDMHFVPNLSFGPPVINNLKKYTKSIFFDVHLMVEYPEKYVPLLKTSNQLTFHFEALNEDTERCIQLAKEIRDNNLWCGISIKPKTDVQKLVPILDTNLINTVLVMTVEPGFGGQSFMHDMMGKVSFLRKKYKNLNIQVDGGLNIETTEISASHGANIIVAGTSIFNAEDPKYVIDTMRVSVQKY 1tr0-a2-m1-cM_1tr0-a2-m1-cY Crystal Structure of a boiling stable protein SP1 Q9AR79 Q9AR79 1.8 X-RAY DIFFRACTION 19 1.0 113636 (Populus tremula) 113636 (Populus tremula) 106 106 1si9-a2-m1-cA_1si9-a2-m4-cA 1si9-a2-m1-cC_1si9-a2-m6-cB 1si9-a2-m2-cA_1si9-a2-m3-cA 1si9-a2-m2-cC_1si9-a2-m5-cB 1si9-a2-m3-cC_1si9-a2-m7-cB 1si9-a2-m4-cC_1si9-a2-m8-cB 1tr0-a1-m1-cA_1tr0-a1-m1-cL 1tr0-a1-m1-cB_1tr0-a1-m1-cC 1tr0-a1-m1-cD_1tr0-a1-m1-cE 1tr0-a1-m1-cF_1tr0-a1-m1-cG 1tr0-a1-m1-cH_1tr0-a1-m1-cI 1tr0-a1-m1-cJ_1tr0-a1-m1-cK 1tr0-a2-m1-cN_1tr0-a2-m1-cO 1tr0-a2-m1-cP_1tr0-a2-m1-cR 1tr0-a2-m1-cS_1tr0-a2-m1-cT 1tr0-a2-m1-cU_1tr0-a2-m1-cV 1tr0-a2-m1-cW_1tr0-a2-m1-cX TRTPKLVKHTLLTRFKDEITREQIDNYINDYTNLLDLIPSMKSFNWGTDLGMESAELNRGYTHAFESTFESKSGLQEYLDSAALAAFAEGFLPTLSQRLVIDYFLY TRTPKLVKHTLLTRFKDEITREQIDNYINDYTNLLDLIPSMKSFNWGTDLGMESAELNRGYTHAFESTFESKSGLQEYLDSAALAAFAEGFLPTLSQRLVIDYFLY 1tr0-a2-m1-cW_1tr0-a2-m1-cY Crystal Structure of a boiling stable protein SP1 Q9AR79 Q9AR79 1.8 X-RAY DIFFRACTION 25 1.0 113636 (Populus tremula) 113636 (Populus tremula) 106 106 1si9-a2-m1-cA_1si9-a2-m4-cC 1si9-a2-m1-cA_1si9-a2-m6-cB 1si9-a2-m1-cC_1si9-a2-m4-cA 1si9-a2-m1-cC_1si9-a2-m5-cB 1si9-a2-m2-cA_1si9-a2-m3-cC 1si9-a2-m2-cA_1si9-a2-m5-cB 1si9-a2-m2-cC_1si9-a2-m3-cA 1si9-a2-m2-cC_1si9-a2-m6-cB 1si9-a2-m3-cA_1si9-a2-m7-cB 1si9-a2-m3-cC_1si9-a2-m8-cB 1si9-a2-m4-cA_1si9-a2-m8-cB 1si9-a2-m4-cC_1si9-a2-m7-cB 1tr0-a1-m1-cA_1tr0-a1-m1-cC 1tr0-a1-m1-cA_1tr0-a1-m1-cK 1tr0-a1-m1-cB_1tr0-a1-m1-cD 1tr0-a1-m1-cB_1tr0-a1-m1-cL 1tr0-a1-m1-cC_1tr0-a1-m1-cE 1tr0-a1-m1-cD_1tr0-a1-m1-cF 1tr0-a1-m1-cE_1tr0-a1-m1-cG 1tr0-a1-m1-cF_1tr0-a1-m1-cH 1tr0-a1-m1-cG_1tr0-a1-m1-cI 1tr0-a1-m1-cH_1tr0-a1-m1-cJ 1tr0-a1-m1-cI_1tr0-a1-m1-cK 1tr0-a1-m1-cJ_1tr0-a1-m1-cL 1tr0-a2-m1-cM_1tr0-a2-m1-cO 1tr0-a2-m1-cM_1tr0-a2-m1-cX 1tr0-a2-m1-cN_1tr0-a2-m1-cP 1tr0-a2-m1-cN_1tr0-a2-m1-cY 1tr0-a2-m1-cO_1tr0-a2-m1-cR 1tr0-a2-m1-cP_1tr0-a2-m1-cS 1tr0-a2-m1-cR_1tr0-a2-m1-cT 1tr0-a2-m1-cS_1tr0-a2-m1-cU 1tr0-a2-m1-cT_1tr0-a2-m1-cV 1tr0-a2-m1-cU_1tr0-a2-m1-cW 1tr0-a2-m1-cV_1tr0-a2-m1-cX TRTPKLVKHTLLTRFKDEITREQIDNYINDYTNLLDLIPSMKSFNWGTDLGMESAELNRGYTHAFESTFESKSGLQEYLDSAALAAFAEGFLPTLSQRLVIDYFLY TRTPKLVKHTLLTRFKDEITREQIDNYINDYTNLLDLIPSMKSFNWGTDLGMESAELNRGYTHAFESTFESKSGLQEYLDSAALAAFAEGFLPTLSQRLVIDYFLY 1tr0-a2-m1-cX_1tr0-a2-m1-cY Crystal Structure of a boiling stable protein SP1 Q9AR79 Q9AR79 1.8 X-RAY DIFFRACTION 101 1.0 113636 (Populus tremula) 113636 (Populus tremula) 106 106 1si9-a1-m1-cA_1si9-a1-m1-cC 1si9-a2-m1-cA_1si9-a2-m1-cC 1si9-a2-m2-cA_1si9-a2-m2-cC 1si9-a2-m3-cA_1si9-a2-m3-cC 1si9-a2-m4-cA_1si9-a2-m4-cC 1si9-a2-m5-cB_1si9-a2-m6-cB 1si9-a2-m7-cB_1si9-a2-m8-cB 1si9-a3-m1-cA_1si9-a3-m1-cC 1si9-a4-m1-cB_1si9-a4-m9-cB 1tr0-a1-m1-cA_1tr0-a1-m1-cB 1tr0-a1-m1-cC_1tr0-a1-m1-cD 1tr0-a1-m1-cE_1tr0-a1-m1-cF 1tr0-a1-m1-cG_1tr0-a1-m1-cH 1tr0-a1-m1-cI_1tr0-a1-m1-cJ 1tr0-a1-m1-cK_1tr0-a1-m1-cL 1tr0-a2-m1-cM_1tr0-a2-m1-cN 1tr0-a2-m1-cO_1tr0-a2-m1-cP 1tr0-a2-m1-cR_1tr0-a2-m1-cS 1tr0-a2-m1-cT_1tr0-a2-m1-cU 1tr0-a2-m1-cV_1tr0-a2-m1-cW TRTPKLVKHTLLTRFKDEITREQIDNYINDYTNLLDLIPSMKSFNWGTDLGMESAELNRGYTHAFESTFESKSGLQEYLDSAALAAFAEGFLPTLSQRLVIDYFLY TRTPKLVKHTLLTRFKDEITREQIDNYINDYTNLLDLIPSMKSFNWGTDLGMESAELNRGYTHAFESTFESKSGLQEYLDSAALAAFAEGFLPTLSQRLVIDYFLY 1tr8-a1-m1-cA_1tr8-a1-m2-cB Crystal Structure of archaeal Nascent Polypeptide-associated Complex (aeNAC) P0C0K9 P0C0K9 2.27 X-RAY DIFFRACTION 82 1.0 145263 (Methanothermobacter marburgensis) 145263 (Methanothermobacter marburgensis) 86 86 1tr8-a1-m1-cB_1tr8-a1-m2-cA DKDLRGVEEVVIKLKRKEIIIKNPKVNVEFGQKTYQVTGKARERSLEAEEIPEDDIELVNQTGASREDATRALQETGGDLAEAIRL DKDLRGVEEVVIKLKRKEIIIKNPKVNVEFGQKTYQVTGKARERSLEAEEIPEDDIELVNQTGASREDATRALQETGGDLAEAIRL 1tr8-a1-m2-cA_1tr8-a1-m2-cB Crystal Structure of archaeal Nascent Polypeptide-associated Complex (aeNAC) P0C0K9 P0C0K9 2.27 X-RAY DIFFRACTION 32 1.0 145263 (Methanothermobacter marburgensis) 145263 (Methanothermobacter marburgensis) 86 86 1tr8-a1-m1-cA_1tr8-a1-m1-cB DKDLRGVEEVVIKLKRKEIIIKNPKVNVEFGQKTYQVTGKARERSLEAEEIPEDDIELVNQTGASREDATRALQETGGDLAEAIRL DKDLRGVEEVVIKLKRKEIIIKNPKVNVEFGQKTYQVTGKARERSLEAEEIPEDDIELVNQTGASREDATRALQETGGDLAEAIRL 1trl-a1-m1-cA_1trl-a1-m1-cB NMR SOLUTION STRUCTURE OF THE C-TERMINAL FRAGMENT 255-316 OF THERMOLYSIN: A DIMER FORMED BY SUBUNITS HAVING THE NATIVE STRUCTURE P00800 P00800 NOT SOLUTION NMR 93 1.0 1427 (Bacillus thermoproteolyticus) 1427 (Bacillus thermoproteolyticus) 62 62 VVGIGRDKLGKIFYRALTQYLTPTSNFSQLRAAAVQSATDLYGSTSQEVASVKQAFDAVGVK VVGIGRDKLGKIFYRALTQYLTPTSNFSQLRAAAVQSATDLYGSTSQEVASVKQAFDAVGVK 1trm-a1-m1-cB_1trm-a1-m1-cA THE THREE-DIMENSIONAL STRUCTURE OF ASN102 MUTANT OF TRYPSIN. ROLE OF ASP102 IN SERINE PROTEASE CATALYSIS P00763 P00763 2.3 X-RAY DIFFRACTION 18 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 223 223 IVGGYTCQENSVPYQVSLNSGYHFCGGSLINDQWVVSAAHCYKSRIQVRLGEHNINVLEGNEQFVNAAKIIKHPNFDRKTLNNNIMLIKLSSPVKLNARVATVALPSSCAPAGTQCLISGWGNTLSSGVNEPDLLQCLDAPLLPQADCEASYPGKITDNMVCVGFLEGGKDSCQGDSGGPVVCNGELQGIVSWGYGCALPDNPGVYTKVCNYVDWIQDTIAAN IVGGYTCQENSVPYQVSLNSGYHFCGGSLINDQWVVSAAHCYKSRIQVRLGEHNINVLEGNEQFVNAAKIIKHPNFDRKTLNNNIMLIKLSSPVKLNARVATVALPSSCAPAGTQCLISGWGNTLSSGVNEPDLLQCLDAPLLPQADCEASYPGKITDNMVCVGFLEGGKDSCQGDSGGPVVCNGELQGIVSWGYGCALPDNPGVYTKVCNYVDWIQDTIAAN 1trn-a1-m1-cB_1trn-a1-m1-cA CRYSTAL STRUCTURE OF HUMAN TRYPSIN 1: UNEXPECTED PHOSPHORYLATION OF TYROSINE 151 P07477 P07477 2.2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 IVGGYNCEENSVPYQVSLNSGYHFCGGSLINEQWVVSAGHCYKSRIQVRLGEHNIEVLEGNEQFINAAKIIRHPQYDRKTLNNDIMLIKLSSRAVINARVSTISLPTAPPATGTKCLISGWGNTASSGADPDELQCLDAPVLSQAKCEASYPGKITSNMFCVGFLEGGKDSCQGDSGGPVVCNGQLQGVVSWGDGCAQKNKPGVYTKVYNYVKWIKNTIAANS IVGGYNCEENSVPYQVSLNSGYHFCGGSLINEQWVVSAGHCYKSRIQVRLGEHNIEVLEGNEQFINAAKIIRHPQYDRKTLNNDIMLIKLSSRAVINARVSTISLPTAPPATGTKCLISGWGNTASSGADPDELQCLDAPVLSQAKCEASYPGKITSNMFCVGFLEGGKDSCQGDSGGPVVCNGQLQGVVSWGDGCAQKNKPGVYTKVYNYVKWIKNTIAANS 1tsj-a2-m1-cA_1tsj-a2-m2-cA Crystal structure of protein from Staphylococcus aureus A0A0H3K2T2 A0A0H3K2T2 2.6 X-RAY DIFFRACTION 60 1.0 111 111 MDIPKITTFLFNNQAEEAVKLYTSLFEDSEIITAKYGDPGTVQHSIFTLNGQVFAIDPISLFVTVKDTIEERLFNGLKDEGAILPKTNPPYREFAWVQDKFGVSFQLALPE MDIPKITTFLFNNQAEEAVKLYTSLFEDSEIITAKYGDPGTVQHSIFTLNGQVFAIDPISLFVTVKDTIEERLFNGLKDEGAILPKTNPPYREFAWVQDKFGVSFQLALPE 1tt4-a1-m1-cA_1tt4-a1-m1-cB Structure of NP459575, a predicted glutathione synthase from Salmonella typhimurium Q8ZR41 Q8ZR41 2.801 X-RAY DIFFRACTION 98 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 354 354 DFHVSEPYTLGIELEMQVINPPGYDLSQDSSTLIDAVKPQLTAGEIKHDITESMLEMATGVCRDIDQAAAQLSAMQHVILQAASEHHLGICGGGTHPFQKWRTLENFGYLIQQATVFGQHVHVGCANGDDAIYLLHGLSHFVPHFIALSAASPYMQGADTRFACARLNIFSAFPDNGPMPWVSNWQEFAGLFRRLSYTTMIDSIKDLHWDIRPSPAFGTVEVRVMDTPLTLDHAINMAGLIQATAHWLLTERPFKPQEQDYLLYKFNRFQACRYGLEGVLTDAYTGDRRRLADDTLRLLDNVTPSARKLGADSAIDALRLQVKKGGNEAQYMREFIADGGSLIGLVQKHCEIWA DFHVSEPYTLGIELEMQVINPPGYDLSQDSSTLIDAVKPQLTAGEIKHDITESMLEMATGVCRDIDQAAAQLSAMQHVILQAASEHHLGICGGGTHPFQKWRTLENFGYLIQQATVFGQHVHVGCANGDDAIYLLHGLSHFVPHFIALSAASPYMQGADTRFACARLNIFSAFPDNGPMPWVSNWQEFAGLFRRLSYTTMIDSIKDLHWDIRPSPAFGTVEVRVMDTPLTLDHAINMAGLIQATAHWLLTERPFKPQEQDYLLYKFNRFQACRYGLEGVLTDAYTGDRRRLADDTLRLLDNVTPSARKLGADSAIDALRLQVKKGGNEAQYMREFIADGGSLIGLVQKHCEIWA 1tt7-a1-m1-cB_1tt7-a1-m1-cF Crystal structure of Bacillus subtilis protein yhfP O07615 O07615 2.7 X-RAY DIFFRACTION 23 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 325 325 1tt7-a1-m1-cA_1tt7-a1-m1-cB 1tt7-a1-m1-cA_1tt7-a1-m1-cF 1tt7-a1-m1-cC_1tt7-a1-m1-cD 1tt7-a1-m1-cC_1tt7-a1-m1-cE 1tt7-a1-m1-cD_1tt7-a1-m1-cE 1y9e-a1-m1-cA_1y9e-a1-m1-cB 1y9e-a1-m1-cA_1y9e-a1-m1-cF 1y9e-a1-m1-cB_1y9e-a1-m1-cF 1y9e-a1-m1-cC_1y9e-a1-m1-cD 1y9e-a1-m1-cC_1y9e-a1-m1-cE 1y9e-a1-m1-cD_1y9e-a1-m1-cE STLFQALQAEKNADDVSVHVKTISTEDLPKDGVLIKVAYSGINYKDGLAGKAGGNIVREYPLILGIDAAGTVVSSNDPRFAEGDEVIATSYELGVSRDGGLSEYASVPGDWLVPLPQNLSLKEAVYGTAGFTAALSVHRLEQNGLSPEKGSVLVTGATGGVGGIAVSLNKRGYDVVASTGNREAADYLKQLGASEVISREDVYDGTLKALSKQQWQGAVDPVGGKQLASLLSKIQYGGSVAVSGLTGGGEVPATVYPFILRGVSLLGIDSVYCPDVRAAVWERSSDLKPDQLLTIVDREVSLEETPGALKDILQNRIQGRVIVKL STLFQALQAEKNADDVSVHVKTISTEDLPKDGVLIKVAYSGINYKDGLAGKAGGNIVREYPLILGIDAAGTVVSSNDPRFAEGDEVIATSYELGVSRDGGLSEYASVPGDWLVPLPQNLSLKEAVYGTAGFTAALSVHRLEQNGLSPEKGSVLVTGATGGVGGIAVSLNKRGYDVVASTGNREAADYLKQLGASEVISREDVYDGTLKALSKQQWQGAVDPVGGKQLASLLSKIQYGGSVAVSGLTGGGEVPATVYPFILRGVSLLGIDSVYCPDVRAAVWERSSDLKPDQLLTIVDREVSLEETPGALKDILQNRIQGRVIVKL 1tt7-a1-m1-cC_1tt7-a1-m1-cF Crystal structure of Bacillus subtilis protein yhfP O07615 O07615 2.7 X-RAY DIFFRACTION 107 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 325 325 1tt7-a1-m1-cA_1tt7-a1-m1-cD 1tt7-a1-m1-cB_1tt7-a1-m1-cE 1y9e-a1-m1-cA_1y9e-a1-m1-cD 1y9e-a1-m1-cB_1y9e-a1-m1-cE 1y9e-a1-m1-cC_1y9e-a1-m1-cF STLFQALQAEKNADDVSVHVKTISTEDLPKDGVLIKVAYSGINYKDGLAGKAGGNIVREYPLILGIDAAGTVVSSNDPRFAEGDEVIATSYELGVSRDGGLSEYASVPGDWLVPLPQNLSLKEAVYGTAGFTAALSVHRLEQNGLSPEKGSVLVTGATGGVGGIAVSLNKRGYDVVASTGNREAADYLKQLGASEVISREDVYDGTLKALSKQQWQGAVDPVGGKQLASLLSKIQYGGSVAVSGLTGGGEVPATVYPFILRGVSLLGIDSVYCPDVRAAVWERSSDLKPDQLLTIVDREVSLEETPGALKDILQNRIQGRVIVKL STLFQALQAEKNADDVSVHVKTISTEDLPKDGVLIKVAYSGINYKDGLAGKAGGNIVREYPLILGIDAAGTVVSSNDPRFAEGDEVIATSYELGVSRDGGLSEYASVPGDWLVPLPQNLSLKEAVYGTAGFTAALSVHRLEQNGLSPEKGSVLVTGATGGVGGIAVSLNKRGYDVVASTGNREAADYLKQLGASEVISREDVYDGTLKALSKQQWQGAVDPVGGKQLASLLSKIQYGGSVAVSGLTGGGEVPATVYPFILRGVSLLGIDSVYCPDVRAAVWERSSDLKPDQLLTIVDREVSLEETPGALKDILQNRIQGRVIVKL 1tt7-a1-m1-cD_1tt7-a1-m1-cF Crystal structure of Bacillus subtilis protein yhfP O07615 O07615 2.7 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 325 325 1tt7-a1-m1-cA_1tt7-a1-m1-cE 1tt7-a1-m1-cB_1tt7-a1-m1-cC 1y9e-a1-m1-cA_1y9e-a1-m1-cE 1y9e-a1-m1-cB_1y9e-a1-m1-cC 1y9e-a1-m1-cD_1y9e-a1-m1-cF STLFQALQAEKNADDVSVHVKTISTEDLPKDGVLIKVAYSGINYKDGLAGKAGGNIVREYPLILGIDAAGTVVSSNDPRFAEGDEVIATSYELGVSRDGGLSEYASVPGDWLVPLPQNLSLKEAVYGTAGFTAALSVHRLEQNGLSPEKGSVLVTGATGGVGGIAVSLNKRGYDVVASTGNREAADYLKQLGASEVISREDVYDGTLKALSKQQWQGAVDPVGGKQLASLLSKIQYGGSVAVSGLTGGGEVPATVYPFILRGVSLLGIDSVYCPDVRAAVWERSSDLKPDQLLTIVDREVSLEETPGALKDILQNRIQGRVIVKL STLFQALQAEKNADDVSVHVKTISTEDLPKDGVLIKVAYSGINYKDGLAGKAGGNIVREYPLILGIDAAGTVVSSNDPRFAEGDEVIATSYELGVSRDGGLSEYASVPGDWLVPLPQNLSLKEAVYGTAGFTAALSVHRLEQNGLSPEKGSVLVTGATGGVGGIAVSLNKRGYDVVASTGNREAADYLKQLGASEVISREDVYDGTLKALSKQQWQGAVDPVGGKQLASLLSKIQYGGSVAVSGLTGGGEVPATVYPFILRGVSLLGIDSVYCPDVRAAVWERSSDLKPDQLLTIVDREVSLEETPGALKDILQNRIQGRVIVKL 1ttw-a1-m1-cA_1ttw-a1-m2-cA Crystal structure of the Yersinia Pestis type III secretion chaperone SycH in complex with a stable fragment of YscM2 Q7BTX0 Q7BTX0 2.38 X-RAY DIFFRACTION 55 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 118 118 TYSSLLEEFATELGLEEIETNELGHGAVTIDKIWVVHLAPINEKELVAFMRAGILTGQSQLYDILRKNLFSPLSGVIRCALDKDDHWLLWSQLNINDTSGTQLASVLTSLVDKAVTLS TYSSLLEEFATELGLEEIETNELGHGAVTIDKIWVVHLAPINEKELVAFMRAGILTGQSQLYDILRKNLFSPLSGVIRCALDKDDHWLLWSQLNINDTSGTQLASVLTSLVDKAVTLS 1tu3-a3-m1-cJ_1tu3-a3-m2-cJ Crystal Structure of Rab5 complex with Rabaptin5 C-terminal Domain Q15276 Q15276 2.31 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 1tu3-a1-m1-cF_1tu3-a1-m1-cG NKAQRLQTELDVSEQVQRDFVKLSQTLQVQLERIRQADSLERIRAILNDTKLT NKAQRLQTELDVSEQVQRDFVKLSQTLQVQLERIRQADSLERIRAILNDTKLT 1tu4-a5-m1-cA_1tu4-a5-m2-cC Crystal Structure of Rab5-GDP Complex P20339 P20339 2.2 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 1tu4-a5-m1-cC_1tu4-a5-m2-cA GNKICQFKLVLLGESAVGKSSLVLRFVKGQFHEFQESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLPK GNKICQFKLVLLGESAVGKSSLVLRFVKGQFHEFQESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLPK 1tu4-a6-m1-cB_1tu4-a6-m1-cD Crystal Structure of Rab5-GDP Complex P20339 P20339 2.2 X-RAY DIFFRACTION 21 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 158 160 1tu4-a5-m1-cB_1tu4-a5-m1-cD 1tu4-a5-m2-cB_1tu4-a5-m2-cD ICQFKLVLLGESAVGKSSLVLRFVKGQFQESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLP NKICQFKLVLLGESAVGKSSLVLRFVKGQFHESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLP 1tu4-a6-m1-cD_1tu4-a6-m1-cA Crystal Structure of Rab5-GDP Complex P20339 P20339 2.2 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 165 1tu4-a5-m1-cB_1tu4-a5-m1-cC 1tu4-a5-m1-cD_1tu4-a5-m1-cA 1tu4-a5-m2-cB_1tu4-a5-m2-cC 1tu4-a5-m2-cD_1tu4-a5-m2-cA 1tu4-a6-m1-cB_1tu4-a6-m1-cC NKICQFKLVLLGESAVGKSSLVLRFVKGQFHESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLP GNKICQFKLVLLGESAVGKSSLVLRFVKGQFHEFQESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLPK 1tu4-a8-m2-cD_1tu4-a8-m1-cC Crystal Structure of Rab5-GDP Complex P20339 P20339 2.2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 165 1tu4-a5-m1-cB_1tu4-a5-m2-cA 1tu4-a5-m1-cD_1tu4-a5-m2-cC 1tu4-a5-m2-cB_1tu4-a5-m1-cA 1tu4-a5-m2-cD_1tu4-a5-m1-cC 1tu4-a7-m1-cB_1tu4-a7-m2-cA 1tu4-a7-m2-cB_1tu4-a7-m1-cA 1tu4-a8-m1-cD_1tu4-a8-m2-cC NKICQFKLVLLGESAVGKSSLVLRFVKGQFHESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLP GNKICQFKLVLLGESAVGKSSLVLRFVKGQFHEFQESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLPK 1tu4-a9-m1-cD_1tu4-a9-m1-cC Crystal Structure of Rab5-GDP Complex P20339 P20339 2.2 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 165 1tu4-a10-m1-cB_1tu4-a10-m1-cA 1tu4-a5-m1-cB_1tu4-a5-m1-cA 1tu4-a5-m1-cD_1tu4-a5-m1-cC 1tu4-a5-m2-cB_1tu4-a5-m2-cA 1tu4-a5-m2-cD_1tu4-a5-m2-cC 1tu4-a6-m1-cB_1tu4-a6-m1-cA 1tu4-a6-m1-cD_1tu4-a6-m1-cC 1tu4-a7-m1-cB_1tu4-a7-m1-cA 1tu4-a7-m2-cB_1tu4-a7-m2-cA 1tu4-a8-m1-cD_1tu4-a8-m1-cC 1tu4-a8-m2-cD_1tu4-a8-m2-cC NKICQFKLVLLGESAVGKSSLVLRFVKGQFHESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLP GNKICQFKLVLLGESAVGKSSLVLRFVKGQFHEFQESTIGAAFLTQTVCLDDTTVKFEIWDTAGQERYHSLAPYYRGAQAAIVVYDITNEESFARAKNWVKELQRQASPNIVIALSGNKADLANKRAVDFQEAQSYADDNSLLFETSAKTSNVNEIFAIAKKLPK 1tu5-a1-m1-cA_1tu5-a1-m1-cB Crystal structure of bovine plasma copper-containing amine oxidase Q29437 Q29437 2.37 X-RAY DIFFRACTION 339 1.0 9913 (Bos taurus) 9913 (Bos taurus) 632 632 2pnc-a1-m1-cA_2pnc-a1-m1-cB QLFADLSREELTTVMSFLTQQLGPDLVDAAQARPSDNCVFSVELQLPPKAAALAHLDRGSPPPAREALAIVFFGGQPQPNVTELVVGPLPQPSYMRDVTVERHGGPLPYYRRPVLLREYLDIDQMIFNRELPQAAGVLHHCCSYKQGGQKLLTMNSAPRGVQSGDRSTWFGIYYNITKGGPYLHPVGLELLVDHKALDPADWTVQKVFFQGRYYENLAQLEEQFEAGQVNVVVIPDRFSVQGNRVASSLWTFSFGLGAFSGPRVFDVRFQGERLAYEISLQEAGAVYGGNTPAAMLTRYMDSGFGMGYFATPLIRGVDCPYLATYMDWHFVVESQTPKTLHDAFCVFEQNKGLPLRRHHSDFLSHYFGGVAQTVLVFRSVSTMLNDYVWDMVFYPNGAIEVKLHATGYISSAFLFGAARRYGNQVGEHTLGPVHTHSAHYKVDLDVGGLENWVWAEDMAFVPTAIPWSPEHQIQRLQVTRKQLETEEQAAFPLGGASPRYLYLASKQSNKWGHPRGYRIQTVSFAGGPMPQNSPMERAFSWGRYQLAITQRKETEPSSSSVFNQNDPWTPTVDFSDFINNETIAGKDLVAWVTAGFLHIPHAEDIPNTVTVGNGVGFFLRPYNFFDQEPSMD QLFADLSREELTTVMSFLTQQLGPDLVDAAQARPSDNCVFSVELQLPPKAAALAHLDRGSPPPAREALAIVFFGGQPQPNVTELVVGPLPQPSYMRDVTVERHGGPLPYYRRPVLLREYLDIDQMIFNRELPQAAGVLHHCCSYKQGGQKLLTMNSAPRGVQSGDRSTWFGIYYNITKGGPYLHPVGLELLVDHKALDPADWTVQKVFFQGRYYENLAQLEEQFEAGQVNVVVIPDRFSVQGNRVASSLWTFSFGLGAFSGPRVFDVRFQGERLAYEISLQEAGAVYGGNTPAAMLTRYMDSGFGMGYFATPLIRGVDCPYLATYMDWHFVVESQTPKTLHDAFCVFEQNKGLPLRRHHSDFLSHYFGGVAQTVLVFRSVSTMLNDYVWDMVFYPNGAIEVKLHATGYISSAFLFGAARRYGNQVGEHTLGPVHTHSAHYKVDLDVGGLENWVWAEDMAFVPTAIPWSPEHQIQRLQVTRKQLETEEQAAFPLGGASPRYLYLASKQSNKWGHPRGYRIQTVSFAGGPMPQNSPMERAFSWGRYQLAITQRKETEPSSSSVFNQNDPWTPTVDFSDFINNETIAGKDLVAWVTAGFLHIPHAEDIPNTVTVGNGVGFFLRPYNFFDQEPSMD 1tu6-a1-m1-cA_1tu6-a1-m1-cB Cathepsin K complexed with a ketoamide inhibitor P43235 P43235 1.75 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 4yv8-a1-m1-cB_4yv8-a1-m1-cA APDSVDYRKKGYVTPVKNQGQCGSCWAFSSVGALEGQLKKKTGKLLNLSPQNLVDCVSENDGCGGGYMTNAFQYVQKNRGIDSEDAYPYVGQEESCMYNPTGKAAKCRGYREIPEGNEKALKRAVARVGPVSVAIDASLTSFQFYSKGVYYDESCNSDNLNHAVLAVGYGIQKGNKHWIIKNSWGENWGNKGYILMARNKNNACGIANLASFPKM APDSVDYRKKGYVTPVKNQGQCGSCWAFSSVGALEGQLKKKTGKLLNLSPQNLVDCVSENDGCGGGYMTNAFQYVQKNRGIDSEDAYPYVGQEESCMYNPTGKAAKCRGYREIPEGNEKALKRAVARVGPVSVAIDASLTSFQFYSKGVYYDESCNSDNLNHAVLAVGYGIQKGNKHWIIKNSWGENWGNKGYILMARNKNNACGIANLASFPKM 1tu7-a1-m1-cA_1tu7-a1-m1-cB Structure of Onchocerca Volvulus Pi-class Glutathione S-transferase P46427 P46427 1.5 X-RAY DIFFRACTION 64 1.0 6282 (Onchocerca volvulus) 6282 (Onchocerca volvulus) 208 208 1tu8-a1-m1-cA_1tu8-a1-m1-cB 1tu8-a2-m1-cC_1tu8-a2-m1-cD MSYKLTYFSIRGLAEPIRLFLVDQDIKFIDDRIAKDDFSSIKSQFQFGQLPCLYDGDQQIVQSGAILRHLARKYNLNGENEMETTYIDMFCEGVRDLHVKYTRMIYMAYETEKDPYIKSILPGELAKFEKLLATRGNGRNLILGDKISYADYALFEELDVHQILDPHCLDKFPLLKVFHQRMKDRPKLKEYCEKRDAAKVPVNGNGKQ MSYKLTYFSIRGLAEPIRLFLVDQDIKFIDDRIAKDDFSSIKSQFQFGQLPCLYDGDQQIVQSGAILRHLARKYNLNGENEMETTYIDMFCEGVRDLHVKYTRMIYMAYETEKDPYIKSILPGELAKFEKLLATRGNGRNLILGDKISYADYALFEELDVHQILDPHCLDKFPLLKVFHQRMKDRPKLKEYCEKRDAAKVPVNGNGKQ 1tuh-a1-m1-cA_1tuh-a1-m2-cA Structure of Bal32a from a Soil-Derived Mobile Gene Cassette Q99IU3 Q99IU3 1.85 X-RAY DIFFRACTION 64 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 131 131 NEAEQNAETVRRGYAAFNSGDMKTLTELFDENASWHTPGRSRIAGDHKGREAIFAQFGRYGGETGGTFKAVLLHVLKSDDGRVIGIHRNTAERGGKRLDVGCCIVFEFKNGRVIDGREHFYDLYAWDEFWR NEAEQNAETVRRGYAAFNSGDMKTLTELFDENASWHTPGRSRIAGDHKGREAIFAQFGRYGGETGGTFKAVLLHVLKSDDGRVIGIHRNTAERGGKRLDVGCCIVFEFKNGRVIDGREHFYDLYAWDEFWR 1tui-a1-m1-cA_1tui-a1-m1-cB INTACT ELONGATION FACTOR TU IN COMPLEX WITH GDP Q01698 Q01698 2.7 X-RAY DIFFRACTION 13 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 397 397 KPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVEVKDYGDIDKAPEERARGITINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEEMHKNPKTKRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRKTVVTGVEMHRKTLQEGIAGDNVGLLLRGVSREEVERGQVLAKPGSITPHTKFEASVYILKKEEGGRHTGFFTGYRPQFYFRTTDVTGVVRLPQGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE KPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVEVKDYGDIDKAPEERARGITINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEEMHKNPKTKRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRKTVVTGVEMHRKTLQEGIAGDNVGLLLRGVSREEVERGQVLAKPGSITPHTKFEASVYILKKEEGGRHTGFFTGYRPQFYFRTTDVTGVVRLPQGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE 1tui-a1-m1-cB_1tui-a1-m1-cC INTACT ELONGATION FACTOR TU IN COMPLEX WITH GDP Q01698 Q01698 2.7 X-RAY DIFFRACTION 24 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 397 397 KPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVEVKDYGDIDKAPEERARGITINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEEMHKNPKTKRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRKTVVTGVEMHRKTLQEGIAGDNVGLLLRGVSREEVERGQVLAKPGSITPHTKFEASVYILKKEEGGRHTGFFTGYRPQFYFRTTDVTGVVRLPQGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE KPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVEVKDYGDIDKAPEERARGITINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEEMHKNPKTKRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRKTVVTGVEMHRKTLQEGIAGDNVGLLLRGVSREEVERGQVLAKPGSITPHTKFEASVYILKKEEGGRHTGFFTGYRPQFYFRTTDVTGVVRLPQGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE 1tul-a1-m2-cA_1tul-a1-m3-cA STRUCTURE OF TLP20 Q06691 Q06691 2.2 X-RAY DIFFRACTION 52 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 102 102 1tul-a1-m1-cA_1tul-a1-m2-cA 1tul-a1-m1-cA_1tul-a1-m3-cA GTPDIIVNAQINSEDENVLDFIIEDEYYLKKRGVGAHIIKVASSPQLRLLYKNAYSTVSCGNYGVLCNLVQNGEYDLNAIMFNCAEIKLNKGQMLFQTKIWR GTPDIIVNAQINSEDENVLDFIIEDEYYLKKRGVGAHIIKVASSPQLRLLYKNAYSTVSCGNYGVLCNLVQNGEYDLNAIMFNCAEIKLNKGQMLFQTKIWR 1tup-a1-m1-cB_1tup-a1-m1-cA TUMOR SUPPRESSOR P53 COMPLEXED WITH DNA P04637 P04637 2.2 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 194 196 1tsr-a1-m1-cB_1tsr-a1-m1-cA SVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENL SSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENL 1tuu-a1-m1-cB_1tuu-a1-m1-cA Acetate Kinase crystallized with ATPgS P38502 P38502 2.5 X-RAY DIFFRACTION 244 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 398 399 1g99-a1-m1-cA_1g99-a1-m1-cB 1tuy-a1-m1-cB_1tuy-a1-m1-cA MKVLVINAGSSSLKYQLIDMTNESALAVGLCERIGIDNSIITQKKFDGKKLEKLTDLPTHKDALEEVVKALTDDEFGVIKDMGEINAVGHRVVHGGEKFTTSALYDEGVEKAIKDCFELAPLHNPPNMMGISACAEIMPGTPMVIVFDTAFHQTMPPYAYMYALPYDLYEKHGVRKYGFHGTSHKYVAERAALMLGKPAEETKIITCHLGNGSSITAVEGGKSVETSMGFTPLEGLAMGTRCGSIDPAIVPFLMEKEGLTTREIDTLMNKKSGVLGVSGLSNDFRDLDEAASKGNRKAELALEIFAYKVKKFIGEYSAVLNGADAVVFTAGIGENSASIRKRILTGLDGIGIKIDDEKNKIRGQEIDISTPDAKVRVFVIPTNEELAIARETKEIVET MKVLVINAGSSSLKYQLIDMTNESALAVGLCERIGIDNSIITQKKFDGKKLEKLTDLPTHKDALEEVVKALTDDEFGVIKDMGEINAVGHRVVHGGEKFTTSALYDEGVEKAIKDCFELAPLHNPPNMMGISACAEIMPGTPMVIVFDTAFHQTMPPYAYMYALPYDLYEKHGVRKYGFHGTSHKYVAERAALMLGKPAEETKIITCHLGNGSSITAVEGGKSVETSMGFTPLEGLAMGTRCGSIDPAIVPFLMEKEGLTTREIDTLMNKKSGVLGVSGLSNDFRDLDEAASKGNRKAELALEIFAYKVKKFIGEYSAVLNGADAVVFTAGIGENSASIRKRILTGLDGIGIKIDDEKNKIRGQEIDISTPDAKVRVFVIPTNEELAIARETKEIVETE 1tuv-a1-m1-cA_1tuv-a1-m2-cA Crystal structure of YgiN in complex with menadione P0ADU2 P0ADU2 1.7 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 103 103 MLTVIAEIRTRPGQHHRQAVLDQFAKIVPTVLKEEGCHGYAPMVDCAAGVSFQSMAPDSIVMIEQWESIAHLEAHLQTPHMKAYSEAVKGDVLEMNIRILQPG MLTVIAEIRTRPGQHHRQAVLDQFAKIVPTVLKEEGCHGYAPMVDCAAGVSFQSMAPDSIVMIEQWESIAHLEAHLQTPHMKAYSEAVKGDVLEMNIRILQPG 1tuv-a2-m1-cA_1tuv-a2-m3-cA Crystal structure of YgiN in complex with menadione P0ADU2 P0ADU2 1.7 X-RAY DIFFRACTION 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 103 103 1r6y-a1-m1-cA_1r6y-a1-m2-cA MLTVIAEIRTRPGQHHRQAVLDQFAKIVPTVLKEEGCHGYAPMVDCAAGVSFQSMAPDSIVMIEQWESIAHLEAHLQTPHMKAYSEAVKGDVLEMNIRILQPG MLTVIAEIRTRPGQHHRQAVLDQFAKIVPTVLKEEGCHGYAPMVDCAAGVSFQSMAPDSIVMIEQWESIAHLEAHLQTPHMKAYSEAVKGDVLEMNIRILQPG 1tuw-a1-m1-cA_1tuw-a1-m2-cA Structural and Functional Analysis of Tetracenomycin F2 Cyclase from Streptomyces glaucescens: A Type-II Polyketide Cyclase P39890 P39890 1.9 X-RAY DIFFRACTION 110 1.0 1907 (Streptomyces glaucescens) 1907 (Streptomyces glaucescens) 106 106 AYRALMVLRMDPADAEHVAAAFAEHDTTELPLEIGVRRRVLFRFHDLYMHLIEADDDIMERLYQARSHPLFQEVNERVGQYLTPYAQDWEELKDSKAEVFYSWTAP AYRALMVLRMDPADAEHVAAAFAEHDTTELPLEIGVRRRVLFRFHDLYMHLIEADDDIMERLYQARSHPLFQEVNERVGQYLTPYAQDWEELKDSKAEVFYSWTAP 1tv5-a2-m2-cA_1tv5-a2-m3-cA Plasmodium falciparum dihydroorotate dehydrogenase with a bound inhibitor Q08210 Q08210 2.4 X-RAY DIFFRACTION 34 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 371 371 1tv5-a2-m1-cA_1tv5-a2-m2-cA 1tv5-a2-m1-cA_1tv5-a2-m3-cA FESYNPEFFLYDIFLKFCLKYIDGEICHDLFLLLGKYNILPYDTSNDSIYACTNIKHLDFINPFGVAAGFDKNGVCIDSILKLGFSFIEIGTITPRGQTGNAKPRIFRDVESRSIINSCGFNNMGCDKVTENLILFRKRQEEDKLLSKHIVGVSIGKNKDTVNIVDDLKYCINKIGRYADYIAINVSSPNTPGLRDNQEAGKLKNIILSVKEEIDNLEFLWFNTTKKKPLVFVKLAPDLNQEQKKEIADVLLETNIDGMIISNTTTQINDIKSFENKKGGVSGAKLKDISTKFICEMYNYTNKQIPIIASGGIFSGLDALEKIEAGASVCQLYSCLVFNGMKSAVQIKRELNHLLYQRGYYNLKEAIGRKH FESYNPEFFLYDIFLKFCLKYIDGEICHDLFLLLGKYNILPYDTSNDSIYACTNIKHLDFINPFGVAAGFDKNGVCIDSILKLGFSFIEIGTITPRGQTGNAKPRIFRDVESRSIINSCGFNNMGCDKVTENLILFRKRQEEDKLLSKHIVGVSIGKNKDTVNIVDDLKYCINKIGRYADYIAINVSSPNTPGLRDNQEAGKLKNIILSVKEEIDNLEFLWFNTTKKKPLVFVKLAPDLNQEQKKEIADVLLETNIDGMIISNTTTQINDIKSFENKKGGVSGAKLKDISTKFICEMYNYTNKQIPIIASGGIFSGLDALEKIEAGASVCQLYSCLVFNGMKSAVQIKRELNHLLYQRGYYNLKEAIGRKH 1tv8-a1-m1-cB_1tv8-a1-m1-cA Structure of MoaA in complex with S-adenosylmethionine P65388 P65388 2.2 X-RAY DIFFRACTION 99 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 326 327 1tv7-a1-m1-cB_1tv7-a1-m1-cA 2fb2-a1-m1-cB_2fb2-a1-m1-cA 2fb3-a1-m1-cB_2fb3-a1-m1-cA QIKDKLGRPIRDLRLSVTDRCNFRCDYCMPKEVFGDDFVFLPKNELLTFDEMARIAKVYAELGVKKIRITGGEPLMRRDLDVLIAKLNQIDGIEDIGLTTNGLLLKKHGQKLYDAGLRRINVSLDAIDDTLFQSINNRNIKATTILEQIDYATSIGLNVKVNVVIQKGINDDQIIPMLEYFKDKHIEIRFIEFMDVGNDNGWDFSKVVTKDEMLTMIEQHFEIDPVEPKYFGEVAKYYRHKDNGVQFGLITSVSQSFCSTCTRARLSSDGKFYGCLFATVDGFNVKAFIRSGVTDEELKEQFKALWQIRDDRYSDERTAQTVANRQ EQIKDKLGRPIRDLRLSVTDRCNFRCDYCMPKEVFGDDFVFLPKNELLTFDEMARIAKVYAELGVKKIRITGGEPLMRRDLDVLIAKLNQIDGIEDIGLTTNGLLLKKHGQKLYDAGLRRINVSLDAIDDTLFQSINNRNIKATTILEQIDYATSIGLNVKVNVVIQKGINDDQIIPMLEYFKDKHIEIRFIEFMDVGNDNGWDFSKVVTKDEMLTMIEQHFEIDPVEPKYFGEVAKYYRHKDNGVQFGLITSVSQSFCSTCTRARLSSDGKFYGCLFATVDGFNVKAFIRSGVTDEELKEQFKALWQIRDDRYSDERTAQTVANRQ 1tvd-a1-m1-cB_1tvd-a1-m1-cA VARIABLE DOMAIN OF T CELL RECEPTOR DELTA CHAIN A0JD37 A0JD37 1.9 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 116 DKVTQSSPDQTVASGSEVVLLCTYDTVYSNPDLFWYRIRPDYSFQFVFYGDDSRSEGADFTQGRFSVKHILTQKAFHLVISPVRTEDSATYYCAFTLPPPTDKLIFGKGTRVTVEP DKVTQSSPDQTVASGSEVVLLCTYDTVYSNPDLFWYRIRPDYSFQFVFYGDDSRSEGADFTQGRFSVKHILTQKAFHLVISPVRTEDSATYYCAFTLPPPTDKLIFGKGTRVTVEP 1tvn-a1-m1-cB_1tvn-a1-m1-cA Cellulase cel5G from Pseudoalteromonas haloplanktis, A family GH 5-2 enzyme O86099 O86099 1.41 X-RAY DIFFRACTION 39 1.0 228 (Pseudoalteromonas haloplanktis) 228 (Pseudoalteromonas haloplanktis) 291 293 1tvp-a1-m1-cB_1tvp-a1-m1-cA AVEKLTVSGNQILAGGENTSFAGPSLFWSNTGWGAEKFYTAETVAKAKTEFNATLIRAAIGHGTSTGGSLNFDWEGNMSRLDTVVNAAIAEDMYVIIDFHSHEAHTDQATAVRFFEDVATKYGQYDNVIYEIYNEPLQISWVNDIKPYAETVIDKIRAIDPDNLIVVGTPTWSQDVDVASQNPIDRANIAYTLHFYAGTHGQSYRNKAQTALDNGIALFATEWGTVNADGNGGVNINETDAWMAFFKTNNISHANWALNDKNEGASLFTPGGSWNSLTSSGSKVKEIIQGW AVEKLTVSGNQILAGGENTSFAGPSLFWSNTGWGAEKFYTAETVAKAKTEFNATLIRAAIGHGTSTGGSLNFDWEGNMSRLDTVVNAAIAEDMYVIIDFHSHEAHTDQATAVRFFEDVATKYGQYDNVIYEIYNEPLQISWVNDIKPYAETVIDKIRAIDPDNLIVVGTPTWSQDVDVASQNPIDRANIAYTLHFYAGTHGQSYRNKAQTALDNGIALFATEWGTVNADGNGGVNINETDAWMAFFKTNNISHANWALNDKNEGASLFTPGGSWNSLTSSGSKVKEIIQGWGG 1tvx-a1-m1-cA_1tvx-a1-m1-cC NEUTROPHIL ACTIVATING PEPTIDE-2 VARIANT FORM M6L WITH FIVE ADDITIONAL AMINO TERMINAL RESIDUES (DSDLY) P02775 P02775 1.75 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 1nap-a1-m1-cC_1nap-a1-m1-cA LRCLCIKTTSGIHPKNIQSLEVIGKGTHCNQVEVIATLKDGRKICLDPDAPRIKKIVQKKLAGD LRCLCIKTTSGIHPKNIQSLEVIGKGTHCNQVEVIATLKDGRKICLDPDAPRIKKIVQKKLAGD 1tvx-a1-m1-cB_1tvx-a1-m1-cD NEUTROPHIL ACTIVATING PEPTIDE-2 VARIANT FORM M6L WITH FIVE ADDITIONAL AMINO TERMINAL RESIDUES (DSDLY) P02775 P02775 1.75 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 1nap-a1-m1-cB_1nap-a1-m1-cD DSDLYAELRCLCIKTTSGIHPKNIQSLEVIGKGTHCNQVEVIATLKDGRKICLDPDAPRIKKIVQKKLAGD DSDLYAELRCLCIKTTSGIHPKNIQSLEVIGKGTHCNQVEVIATLKDGRKICLDPDAPRIKKIVQKKLAGD 1tvx-a1-m1-cC_1tvx-a1-m1-cD NEUTROPHIL ACTIVATING PEPTIDE-2 VARIANT FORM M6L WITH FIVE ADDITIONAL AMINO TERMINAL RESIDUES (DSDLY) P02775 P02775 1.75 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 71 1nap-a1-m1-cA_1nap-a1-m1-cB 1nap-a1-m1-cC_1nap-a1-m1-cD 1tvx-a1-m1-cA_1tvx-a1-m1-cB 6wzl-a1-m1-cF_6wzl-a1-m1-cE LRCLCIKTTSGIHPKNIQSLEVIGKGTHCNQVEVIATLKDGRKICLDPDAPRIKKIVQKKLAGD DSDLYAELRCLCIKTTSGIHPKNIQSLEVIGKGTHCNQVEVIATLKDGRKICLDPDAPRIKKIVQKKLAGD 1tw0-a1-m1-cA_1tw0-a1-m1-cB Native crystal structure of SPE16 Q6T6J0 Q6T6J0 2.2 X-RAY DIFFRACTION 75 1.0 109171 (Pachyrhizus erosus) 109171 (Pachyrhizus erosus) 157 157 1txc-a1-m1-cA_1txc-a1-m1-cB GVFVFRDETSSSVAPAKLYKALTKDSDTIAQKIDGPIQSIELVEGNGGVGTIKKITANEGDKTSFVLQKVDAIDEANLGYDYSIVGGTGLPESLEKLSFETKVVAGSGGGSISKVTLKFHTKGDAPLSDAVRDDALAKGAGFFKAIEGYVLANPAEY GVFVFRDETSSSVAPAKLYKALTKDSDTIAQKIDGPIQSIELVEGNGGVGTIKKITANEGDKTSFVLQKVDAIDEANLGYDYSIVGGTGLPESLEKLSFETKVVAGSGGGSISKVTLKFHTKGDAPLSDAVRDDALAKGAGFFKAIEGYVLANPAEY 1tw9-a4-m1-cG_1tw9-a4-m1-cH Glutathione Transferase-2, apo form, from the nematode Heligmosomoides polygyrus Q9NJQ6 Q9NJQ6 1.71 X-RAY DIFFRACTION 85 0.995 6339 (Heligmosomoides polygyrus) 6339 (Heligmosomoides polygyrus) 189 191 1tw9-a1-m1-cB_1tw9-a1-m1-cA 1tw9-a2-m1-cC_1tw9-a2-m1-cD 1tw9-a3-m1-cE_1tw9-a3-m1-cF MVHYKLTYFNGRGAGECARQVFALADQKYEDVRLTQETFVPLKATFPFGQVPVLEVDGQQLAQSQAICRYLAKTFGFAGATPFESALIDSLADAYTDYRAEMKKTDVLLPARTKFLGFITKFLKKNSSGFLVGDKISWVDLLVAEHVADMTNRVPEYIEGFPEVKAHMERIQQTPRIKKWIETRPETPF MVHYKLTYFNGRGAGECARQVFALADQKYEDVRLTQETFVPLKATFPFGQVPVLEVDGQQLAQSQAICRYLAKTFGFAGATPFESALIDSLADAYTDYRAEMDKPKTDVLLPARTKFLGFITKFLKKNSSGFLVGDKISWVDLLVAEHVADMTNRVPEYIEGFPEVKAHMERIQQTPRIKKWIETRPETPF 1twf-a2-m1-cB_1twf-a2-m2-cB RNA polymerase II complexed with UTP at 2.3 A resolution P08518 P08518 2.3 X-RAY DIFFRACTION 139 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1094 1094 1i50-a2-m1-cB_1i50-a2-m2-cB 1twg-a2-m1-cB_1twg-a2-m2-cB 1twg-a2-m3-cB_1twg-a2-m4-cB 1twg-a3-m1-cB_1twg-a3-m2-cB 2nvy-a2-m1-cB_2nvy-a2-m2-cB FEDESAPITAEDSWAVISAFFREKGLVSQQLDSFNQFVDYTLQDIICEDSTLIEISFGKIYVTKPMVNESDGVTHALYPQEARLRNLTYSSGLFVDVKKRTYEKVFIGRLPIMLRSKNCYLSEATESDLYKLKECPFDMGGYFIINGSEKVLIAQERSAGNIVQVFKKAAPSPISHVAEIRSALEKGSRFISTLQVKLYGREGSSARTIKATLPYIKQDIPIVIIFRALGIIPDGEILEHICYDVNDWQMLEMLKPCVEDGFVIQDRETALDFIGRRGTALGIKKEKRIQYAKDILQKEFLPHITQLEGFESRKAFFLGYMINRLLLCALDRKDQDDRDHFGKKRLDLAGPLLAQLFKTLFKKLTKDIFRYMQRTVELAINAKTITSGLKYALATGNWGAGVSQVLNRYTYSSTLSHLRRTNTPIAKPRQLHNTHWGLVCPAETPEGQACGLVKNLSLMSCISVGTDPMPIITFLSEWGMEPLEDYVPHQSPDATRVFVNGVWHGVHRNPARLMETLRTLRRKGDINPEVSMIRDIREKELKIFTDAGRVYRPLFIVEDDESLGHKELKVRKGHIAKLMATEYQDEYTWSSLLNEGLVEYIDAEEEESILIAMQPEDLEPDVDPAKRIRVSHHATTFTHCEIHPSMILGVAASIIPFPDHNQSPRNTYQSAMGKQAMGVFLTNYNVRMDTMANILYYPQKPLGTTRAMEYLKFRELPAGQNAIVAIACYSGYNQEDSMIMNQSSIDRGLFRSLFFRSYMDQEKKYGMSITETFEKPQRTNTLRMKHGTYDKLDDDGLIAPGVRVSGEDVIIGKTTPISSKRDASTPLRSTENGIVDQVLVTTNQDGLKFVKVRVRTTKIPQIGDKFASRHGQKGTIGITYRREDMPFTAEGIVPDLIINPHAIPSRMTVAHLIECLLSKVAALSGNEGDASPFTDITVEGISKLLREHGYQSRGFEVMYNGHTGKKLMAQIFFGPTYYQRLRHMVDDKIHARARGPGLRFGEMERDCMIAHGAASFLKERLMEASDAFRVHICGICGLMTVIAKLNHNQFECKGCDNKIDIYQIHIPYAAKLLFQELMAMNITPRLYTDRSRDF FEDESAPITAEDSWAVISAFFREKGLVSQQLDSFNQFVDYTLQDIICEDSTLIEISFGKIYVTKPMVNESDGVTHALYPQEARLRNLTYSSGLFVDVKKRTYEKVFIGRLPIMLRSKNCYLSEATESDLYKLKECPFDMGGYFIINGSEKVLIAQERSAGNIVQVFKKAAPSPISHVAEIRSALEKGSRFISTLQVKLYGREGSSARTIKATLPYIKQDIPIVIIFRALGIIPDGEILEHICYDVNDWQMLEMLKPCVEDGFVIQDRETALDFIGRRGTALGIKKEKRIQYAKDILQKEFLPHITQLEGFESRKAFFLGYMINRLLLCALDRKDQDDRDHFGKKRLDLAGPLLAQLFKTLFKKLTKDIFRYMQRTVELAINAKTITSGLKYALATGNWGAGVSQVLNRYTYSSTLSHLRRTNTPIAKPRQLHNTHWGLVCPAETPEGQACGLVKNLSLMSCISVGTDPMPIITFLSEWGMEPLEDYVPHQSPDATRVFVNGVWHGVHRNPARLMETLRTLRRKGDINPEVSMIRDIREKELKIFTDAGRVYRPLFIVEDDESLGHKELKVRKGHIAKLMATEYQDEYTWSSLLNEGLVEYIDAEEEESILIAMQPEDLEPDVDPAKRIRVSHHATTFTHCEIHPSMILGVAASIIPFPDHNQSPRNTYQSAMGKQAMGVFLTNYNVRMDTMANILYYPQKPLGTTRAMEYLKFRELPAGQNAIVAIACYSGYNQEDSMIMNQSSIDRGLFRSLFFRSYMDQEKKYGMSITETFEKPQRTNTLRMKHGTYDKLDDDGLIAPGVRVSGEDVIIGKTTPISSKRDASTPLRSTENGIVDQVLVTTNQDGLKFVKVRVRTTKIPQIGDKFASRHGQKGTIGITYRREDMPFTAEGIVPDLIINPHAIPSRMTVAHLIECLLSKVAALSGNEGDASPFTDITVEGISKLLREHGYQSRGFEVMYNGHTGKKLMAQIFFGPTYYQRLRHMVDDKIHARARGPGLRFGEMERDCMIAHGAASFLKERLMEASDAFRVHICGICGLMTVIAKLNHNQFECKGCDNKIDIYQIHIPYAAKLLFQELMAMNITPRLYTDRSRDF 1twi-a3-m1-cC_1twi-a3-m2-cB Crystal structure of Diaminopimelate Decarboxylase from m. jannaschii in co-complex with L-lysine Q58497 Q58497 2 X-RAY DIFFRACTION 36 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 434 434 1tuf-a2-m1-cA_1tuf-a2-m2-cA 1tuf-a2-m1-cB_1tuf-a2-m2-cB 1twi-a3-m1-cD_1twi-a3-m2-cA MLGNDTVEIKDGRFFIDGYDAIELAEKFGTPLYVMSEEQIKINYNRYIEAFKRWEEETGKEFIVAYAYKANANLAITRLLAKLGCGADVVSGGELYIAKLSNVPSKKIVFNGNCKTKEEIIMGIEANIRAFNVDSISELILINETAKELGETANVAFRINPNVNPKTHPKISTGLKKNKFGLDVESGIAMKAIKMALEMEYVNVVGVHCHIGSQLTDISPFIEETRKVMDFVVELKEEGIEIEDVNLGGGLGIPYYKDKQIPTQKDLADAIINTMLKYKDKVEMPNLILEPGRSLVATAGYLLGKVHHIKETPVTKWVMIDAGMNDMMRPAMYEAYHHIINCKVKNEKEVVSIAGGLCESSDVFGRDRELDKVEVGDVLAIFDVGAYGISMANNYNARGRPRMVLTSKKGVFLIRERETYADLIAKDIVPPHLL MLGNDTVEIKDGRFFIDGYDAIELAEKFGTPLYVMSEEQIKINYNRYIEAFKRWEEETGKEFIVAYAYKANANLAITRLLAKLGCGADVVSGGELYIAKLSNVPSKKIVFNGNCKTKEEIIMGIEANIRAFNVDSISELILINETAKELGETANVAFRINPNVNPKTHPKISTGLKKNKFGLDVESGIAMKAIKMALEMEYVNVVGVHCHIGSQLTDISPFIEETRKVMDFVVELKEEGIEIEDVNLGGGLGIPYYKDKQIPTQKDLADAIINTMLKYKDKVEMPNLILEPGRSLVATAGYLLGKVHHIKETPVTKWVMIDAGMNDMMRPAMYEAYHHIINCKVKNEKEVVSIAGGLCESSDVFGRDRELDKVEVGDVLAIFDVGAYGISMANNYNARGRPRMVLTSKKGVFLIRERETYADLIAKDIVPPHLL 1twi-a3-m1-cD_1twi-a3-m2-cB Crystal structure of Diaminopimelate Decarboxylase from m. jannaschii in co-complex with L-lysine Q58497 Q58497 2 X-RAY DIFFRACTION 22 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 434 434 1tuf-a2-m1-cA_1tuf-a2-m2-cB 1tuf-a2-m1-cB_1tuf-a2-m2-cA 1twi-a3-m1-cC_1twi-a3-m2-cA MLGNDTVEIKDGRFFIDGYDAIELAEKFGTPLYVMSEEQIKINYNRYIEAFKRWEEETGKEFIVAYAYKANANLAITRLLAKLGCGADVVSGGELYIAKLSNVPSKKIVFNGNCKTKEEIIMGIEANIRAFNVDSISELILINETAKELGETANVAFRINPNVNPKTHPKISTGLKKNKFGLDVESGIAMKAIKMALEMEYVNVVGVHCHIGSQLTDISPFIEETRKVMDFVVELKEEGIEIEDVNLGGGLGIPYYKDKQIPTQKDLADAIINTMLKYKDKVEMPNLILEPGRSLVATAGYLLGKVHHIKETPVTKWVMIDAGMNDMMRPAMYEAYHHIINCKVKNEKEVVSIAGGLCESSDVFGRDRELDKVEVGDVLAIFDVGAYGISMANNYNARGRPRMVLTSKKGVFLIRERETYADLIAKDIVPPHLL MLGNDTVEIKDGRFFIDGYDAIELAEKFGTPLYVMSEEQIKINYNRYIEAFKRWEEETGKEFIVAYAYKANANLAITRLLAKLGCGADVVSGGELYIAKLSNVPSKKIVFNGNCKTKEEIIMGIEANIRAFNVDSISELILINETAKELGETANVAFRINPNVNPKTHPKISTGLKKNKFGLDVESGIAMKAIKMALEMEYVNVVGVHCHIGSQLTDISPFIEETRKVMDFVVELKEEGIEIEDVNLGGGLGIPYYKDKQIPTQKDLADAIINTMLKYKDKVEMPNLILEPGRSLVATAGYLLGKVHHIKETPVTKWVMIDAGMNDMMRPAMYEAYHHIINCKVKNEKEVVSIAGGLCESSDVFGRDRELDKVEVGDVLAIFDVGAYGISMANNYNARGRPRMVLTSKKGVFLIRERETYADLIAKDIVPPHLL 1twi-a3-m2-cA_1twi-a3-m2-cB Crystal structure of Diaminopimelate Decarboxylase from m. jannaschii in co-complex with L-lysine Q58497 Q58497 2 X-RAY DIFFRACTION 272 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 434 434 1tuf-a1-m1-cA_1tuf-a1-m1-cB 1tuf-a2-m1-cA_1tuf-a2-m1-cB 1tuf-a2-m2-cA_1tuf-a2-m2-cB 1twi-a1-m1-cA_1twi-a1-m1-cB 1twi-a2-m1-cC_1twi-a2-m1-cD 1twi-a3-m1-cC_1twi-a3-m1-cD MLGNDTVEIKDGRFFIDGYDAIELAEKFGTPLYVMSEEQIKINYNRYIEAFKRWEEETGKEFIVAYAYKANANLAITRLLAKLGCGADVVSGGELYIAKLSNVPSKKIVFNGNCKTKEEIIMGIEANIRAFNVDSISELILINETAKELGETANVAFRINPNVNPKTHPKISTGLKKNKFGLDVESGIAMKAIKMALEMEYVNVVGVHCHIGSQLTDISPFIEETRKVMDFVVELKEEGIEIEDVNLGGGLGIPYYKDKQIPTQKDLADAIINTMLKYKDKVEMPNLILEPGRSLVATAGYLLGKVHHIKETPVTKWVMIDAGMNDMMRPAMYEAYHHIINCKVKNEKEVVSIAGGLCESSDVFGRDRELDKVEVGDVLAIFDVGAYGISMANNYNARGRPRMVLTSKKGVFLIRERETYADLIAKDIVPPHLL MLGNDTVEIKDGRFFIDGYDAIELAEKFGTPLYVMSEEQIKINYNRYIEAFKRWEEETGKEFIVAYAYKANANLAITRLLAKLGCGADVVSGGELYIAKLSNVPSKKIVFNGNCKTKEEIIMGIEANIRAFNVDSISELILINETAKELGETANVAFRINPNVNPKTHPKISTGLKKNKFGLDVESGIAMKAIKMALEMEYVNVVGVHCHIGSQLTDISPFIEETRKVMDFVVELKEEGIEIEDVNLGGGLGIPYYKDKQIPTQKDLADAIINTMLKYKDKVEMPNLILEPGRSLVATAGYLLGKVHHIKETPVTKWVMIDAGMNDMMRPAMYEAYHHIINCKVKNEKEVVSIAGGLCESSDVFGRDRELDKVEVGDVLAIFDVGAYGISMANNYNARGRPRMVLTSKKGVFLIRERETYADLIAKDIVPPHLL 1twj-a1-m1-cA_1twj-a1-m1-cD Crystal Structure of B. subtilis PurS P21 Crystal Form P12049 P12049 2.5 X-RAY DIFFRACTION 30 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 80 80 1twj-a1-m1-cC_1twj-a1-m1-cB MYKVKVYVSLKESVLDPQGSAVQHALHSMTYNEVQDVRIGKYMELTIEKSDRDLDVLVKEMCEKLLANTVIEDYRYEVEE MYKVKVYVSLKESVLDPQGSAVQHALHSMTYNEVQDVRIGKYMELTIEKSDRDLDVLVKEMCEKLLANTVIEDYRYEVEE 1twl-a2-m1-cA_1twl-a2-m6-cA Inorganic pyrophosphatase from Pyrococcus furiosus Pfu-264096-001 Q8U438 Q8U438 2.201 X-RAY DIFFRACTION 24 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 172 172 1twl-a2-m2-cA_1twl-a2-m5-cA 1twl-a2-m3-cA_1twl-a2-m4-cA 1ude-a1-m1-cA_1ude-a1-m2-cA 1ude-a1-m1-cB_1ude-a1-m2-cC 1ude-a1-m1-cC_1ude-a1-m2-cB NPFHDLEPGPDVPEVVYAIIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPRTWYEDDPFDIMVIMREPVYPLTIIEARPIGLFKMIDSGDKDYKVLAVPVEDPYFKDWKDIDDVPKAFLDEIAHFFKRYKELQGKEIIVEGWEGAEAAKREILRAIEMYKEKF NPFHDLEPGPDVPEVVYAIIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPRTWYEDDPFDIMVIMREPVYPLTIIEARPIGLFKMIDSGDKDYKVLAVPVEDPYFKDWKDIDDVPKAFLDEIAHFFKRYKELQGKEIIVEGWEGAEAAKREILRAIEMYKEKF 1twl-a2-m3-cA_1twl-a2-m6-cA Inorganic pyrophosphatase from Pyrococcus furiosus Pfu-264096-001 Q8U438 Q8U438 2.201 X-RAY DIFFRACTION 57 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 172 172 1twl-a2-m1-cA_1twl-a2-m5-cA 1twl-a2-m2-cA_1twl-a2-m4-cA 1ude-a1-m1-cB_1ude-a1-m2-cA 1ude-a1-m1-cC_1ude-a1-m2-cC 1ude-a1-m2-cB_1ude-a1-m1-cA NPFHDLEPGPDVPEVVYAIIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPRTWYEDDPFDIMVIMREPVYPLTIIEARPIGLFKMIDSGDKDYKVLAVPVEDPYFKDWKDIDDVPKAFLDEIAHFFKRYKELQGKEIIVEGWEGAEAAKREILRAIEMYKEKF NPFHDLEPGPDVPEVVYAIIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPRTWYEDDPFDIMVIMREPVYPLTIIEARPIGLFKMIDSGDKDYKVLAVPVEDPYFKDWKDIDDVPKAFLDEIAHFFKRYKELQGKEIIVEGWEGAEAAKREILRAIEMYKEKF 1twl-a2-m5-cA_1twl-a2-m6-cA Inorganic pyrophosphatase from Pyrococcus furiosus Pfu-264096-001 Q8U438 Q8U438 2.201 X-RAY DIFFRACTION 48 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 172 172 1twl-a2-m1-cA_1twl-a2-m2-cA 1twl-a2-m1-cA_1twl-a2-m3-cA 1twl-a2-m2-cA_1twl-a2-m3-cA 1twl-a2-m4-cA_1twl-a2-m5-cA 1twl-a2-m4-cA_1twl-a2-m6-cA 1ude-a1-m1-cB_1ude-a1-m1-cA 1ude-a1-m1-cB_1ude-a1-m1-cC 1ude-a1-m1-cC_1ude-a1-m1-cA 1ude-a1-m2-cB_1ude-a1-m2-cA 1ude-a1-m2-cB_1ude-a1-m2-cC 1ude-a1-m2-cC_1ude-a1-m2-cA NPFHDLEPGPDVPEVVYAIIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPRTWYEDDPFDIMVIMREPVYPLTIIEARPIGLFKMIDSGDKDYKVLAVPVEDPYFKDWKDIDDVPKAFLDEIAHFFKRYKELQGKEIIVEGWEGAEAAKREILRAIEMYKEKF NPFHDLEPGPDVPEVVYAIIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPRTWYEDDPFDIMVIMREPVYPLTIIEARPIGLFKMIDSGDKDYKVLAVPVEDPYFKDWKDIDDVPKAFLDEIAHFFKRYKELQGKEIIVEGWEGAEAAKREILRAIEMYKEKF 1twu-a1-m1-cA_1twu-a1-m2-cA 2.0 A Crystal Structure of a YycE Protein of Unknown Function from Bacillus subtilis, Putative Glyoxalase/Fosfomycin Resistance Protein P37479 P37479 2 X-RAY DIFFRACTION 198 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 137 137 KRFSSFQAAQIRIARPTGQLDEIIRFYEEGLCLKRIGEFSQHNGYDGVMFGLPHADYHLEFTQYEGGSTAPVPHPDSLLVFYVPNAVELAAITSKLKHMGYQEVESENPYWSNGGVTIEDPDGWRIVFMNSKGISGK KRFSSFQAAQIRIARPTGQLDEIIRFYEEGLCLKRIGEFSQHNGYDGVMFGLPHADYHLEFTQYEGGSTAPVPHPDSLLVFYVPNAVELAAITSKLKHMGYQEVESENPYWSNGGVTIEDPDGWRIVFMNSKGISGK 1twy-a9-m1-cB_1twy-a9-m2-cC Crystal structure of an ABC-type phosphate transport receptor from Vibrio cholerae Q9KLD9 Q9KLD9 1.65 X-RAY DIFFRACTION 32 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 238 243 1twy-a10-m1-cA_1twy-a10-m2-cD 1twy-a10-m1-cB_1twy-a10-m2-cC 1twy-a11-m1-cE_1twy-a11-m2-cH 1twy-a11-m1-cF_1twy-a11-m2-cG 1twy-a12-m1-cA_1twy-a12-m2-cD 1twy-a13-m1-cF_1twy-a13-m2-cG 1twy-a14-m1-cB_1twy-a14-m2-cC 1twy-a9-m1-cA_1twy-a9-m2-cD 1twy-a9-m3-cE_1twy-a9-m4-cH 1twy-a9-m3-cF_1twy-a9-m4-cG EITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTVKDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP 1twy-a9-m2-cC_1twy-a9-m4-cH Crystal structure of an ABC-type phosphate transport receptor from Vibrio cholerae Q9KLD9 Q9KLD9 1.65 X-RAY DIFFRACTION 19 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243 243 1twy-a9-m3-cF_1twy-a9-m1-cA SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTVKDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTVKDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP 1twy-a9-m3-cF_1twy-a9-m4-cH Crystal structure of an ABC-type phosphate transport receptor from Vibrio cholerae Q9KLD9 Q9KLD9 1.65 X-RAY DIFFRACTION 31 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 241 243 1twy-a10-m1-cA_1twy-a10-m2-cC 1twy-a10-m1-cB_1twy-a10-m2-cD 1twy-a11-m1-cE_1twy-a11-m2-cG 1twy-a11-m1-cF_1twy-a11-m2-cH 1twy-a9-m1-cA_1twy-a9-m2-cC 1twy-a9-m1-cB_1twy-a9-m2-cD 1twy-a9-m3-cE_1twy-a9-m4-cG SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTVKDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP 1twy-a9-m4-cG_1twy-a9-m4-cH Crystal structure of an ABC-type phosphate transport receptor from Vibrio cholerae Q9KLD9 Q9KLD9 1.65 X-RAY DIFFRACTION 28 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243 243 1twy-a10-m1-cB_1twy-a10-m1-cA 1twy-a10-m2-cC_1twy-a10-m2-cD 1twy-a11-m1-cF_1twy-a11-m1-cE 1twy-a11-m2-cG_1twy-a11-m2-cH 1twy-a9-m1-cB_1twy-a9-m1-cA 1twy-a9-m2-cC_1twy-a9-m2-cD 1twy-a9-m3-cF_1twy-a9-m3-cE SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTVKDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP SEITISGSTSVARIDVLAEKYNQQHPETYVAVQGVGSTAGISLLKKGVADIATSRYLTESEAQNTLHTFTLAFDGLAIVVNQANPVTNLTREQLYGIYKGQITNWKQVGGNDQKIAVVTREASSGTRYSFESLGLTKTVKDREVSDVAPTALVVNSNSKTLVNHNTQAVGFISIGSVDKSVKAIQFEKADPTSDNIAKHTYQLSRPFLILHYSDNADEQTKEFIAFLKSESAKKLIVEYGYIP 1txg-a1-m1-cA_1txg-a1-m1-cB Structure of glycerol-3-phosphate dehydrogenase from Archaeoglobus fulgidus O29390 O29390 1.7 X-RAY DIFFRACTION 150 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 335 335 MIVSILGAGAMGSALSVPLVDNGNEVRIWGTEFDTEILKSISAGREHPRLGVKLNGVEIFWPEQLEKCLENAEVVLLGVSTDGVLPVMSRILPYLKDQYIVLISKGLIDFDNSVLTVPEAVWRLKHDLRERTVAITGPAIAREVAKRMPTTVVFSSPSESSANKMKEIFETEYFGVEVTTDIIGTEITSALKNVYSIAIAWIRGYESRKNVEMSNAKGVIATRAINEMAELIEILGGDRETAFGLSGFGDLIATFRGGRNGMLGELLGKGLSIDEAMEELERRGVGVVEGYKTAEKAYRLSSKINADTKLLDSIYRVLYEGLKVEEVLFELATFK MIVSILGAGAMGSALSVPLVDNGNEVRIWGTEFDTEILKSISAGREHPRLGVKLNGVEIFWPEQLEKCLENAEVVLLGVSTDGVLPVMSRILPYLKDQYIVLISKGLIDFDNSVLTVPEAVWRLKHDLRERTVAITGPAIAREVAKRMPTTVVFSSPSESSANKMKEIFETEYFGVEVTTDIIGTEITSALKNVYSIAIAWIRGYESRKNVEMSNAKGVIATRAINEMAELIEILGGDRETAFGLSGFGDLIATFRGGRNGMLGELLGKGLSIDEAMEELERRGVGVVEGYKTAEKAYRLSSKINADTKLLDSIYRVLYEGLKVEEVLFELATFK 1txk-a3-m1-cB_1txk-a3-m1-cA Crystal structure of Escherichia coli OpgG P33136 P33136 2.5 X-RAY DIFFRACTION 91 0.998 562 (Escherichia coli) 562 (Escherichia coli) 477 480 MFSIDDVAKQAQSLAGKGYETPKSNLPSKYADYQQIQFNHDKAYWNNLKTPFKLEFYHQGYFDTPVKINEVTATAVKRIKYSPDYFTFGDVQHDKDTVKDLGFAGFKVLYPINSKDKNDEIVSLGASYFRVIGAGQVYGLSARGLAIDTALPSGEEFPRFKEFWIERPKPTDKRLTIYALLDSPRATGAYKFVVPGRDTVVDVQSKIYLRDKVGKLGVAPLTSFLFGPNQPSPANNYRPELHDSNGLSIHAGNGEWIWRPLNNPKHLAVSSFSENPQGFGLLQRGRDFSRFEDLDDRYDLRPSAWVTPKGEWGKGSVELVEIPTNDETNDNIVAYWTPDQLPEPGKENFKYTITFSRDEDKLHAPDNAWVQQTRRSTGDVKQSNLIRQPDGTIAFVVDFTGAEKKLPEDTPVTAQTSIGDNGEIVESTVRYNPVTKGWRLVRVKVKDAKKTTERAALVNADQTLSETWSYQLPANEV FSIDDVAKQAQSLAGKGYETPKSNLPSKYADYQQIQFNHDKAYWNNLKTPFKLEFYHQGYFDTPVKINEVTATAVKRIKYSPDYFTFGDVQHDKDTVKDLGFAGFKVLYPINSKDKNDEIVSLGASYFRVIGAGQVYGLSARGLAIDTALPSGEEFPRFKEFWIERPKPTDKRLTIYALLDSPRATGAYKFVVPGRDTVVDVQSKIYLRDKVGKLGVAPLTSFLFGPNQPSPANNYRPELHDSNGLSIHAGNGEWIWRPLNNPKHLAVSSFSENPQGFGLLQRGRDFSRFEDLDDRYDLRPSAWVTPKGEWGKGSVELVEIPTNDETNDNIVAYWTPDQLPEPGKENFKYTITFSRDEDKLHAPDNAWVQQTRRSTGDVKQSNLIRQPDGTIAFVVDFTGAEKKLPEDTPVTAQTSIGDNGEIVESTVRYNPVTKGWRLVRVKVKDAKKTTERAALVNADQTLSETWSYQLPANEVEHHH 1txn-a1-m1-cB_1txn-a1-m1-cA Crystal structure of coproporphyrinogen III oxidase P11353 P11353 1.7 X-RAY DIFFRACTION 165 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 250 253 PAPQDPRNLPIRQQEALIRRKQAEITQGLESIDTVKFHADTWTRGNDGGGGTSVIQDGTTFEKGGVNVSVVYGQLSPAAVSAKADHKNLRLPDGVKFFACGLSVIHPVNPHAPTTHLNYRYFETWNQDGTPQTWWFGGGADLTPSYLYEEDGQLFHQLHKDALDKHDTALYPRFKKWCDEYFYITHRRGIGGIFFDDYDERDPQEILKVEDCFDAFLPSYLTIVKRRKDPYTKEEQQWQAIRRGRYVEFN PAPQDPRNLPIRQQEALIRRKQAEITQGLESIDTVKFHADTWTRGNDGGGGTSVIQDGTTFEKGGVNVSVVYGQLSPAAVSAKADHKNLRLPDGVKFFACGLSVIHPVNPHAPTTHLNYRYFETWNQDGTPQTWWFGGGADLTPSYLYEEDGQLFHQLHKDALDKHDTALYPRFKKWCDEYFYITHRKETRGIGGIFFDDYDERDPQEILKVEDCFDAFLPSYLTIVKRRKDPYTKEEQQWQAIRRGRYVEFN 1txp-a1-m1-cA_1txp-a1-m1-cD Heterogeneous Nuclear Ribonucleoprotein (hnRNP) C Oligomerization Domain Tetramer P07910 P07910 NOT SOLUTION NMR 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 1txp-a1-m1-cB_1txp-a1-m1-cC IQAIKKELTQIKQKVDSLLENLEKIEKE IQAIKKELTQIKQKVDSLLENLEKIEKE 1txp-a1-m1-cC_1txp-a1-m1-cD Heterogeneous Nuclear Ribonucleoprotein (hnRNP) C Oligomerization Domain Tetramer P07910 P07910 NOT SOLUTION NMR 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 1txp-a1-m1-cA_1txp-a1-m1-cB IQAIKKELTQIKQKVDSLLENLEKIEKE IQAIKKELTQIKQKVDSLLENLEKIEKE 1txq-a1-m1-cA_1txq-a1-m2-cA Crystal structure of the EB1 C-terminal domain complexed with the CAP-Gly domain of p150Glued Q14203 Q14203 1.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 RPLRVGSRVEVIGKGHRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQVFE RPLRVGSRVEVIGKGHRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQVFE 1txy-a1-m1-cB_1txy-a1-m1-cA E. coli PriB P07013 P07013 2 X-RAY DIFFRACTION 85 0.988 562 (Escherichia coli) 562 (Escherichia coli) 81 89 1v1q-a1-m1-cA_1v1q-a1-m1-cB 1woc-a1-m1-cA_1woc-a1-m1-cD 1woc-a2-m1-cA_1woc-a2-m1-cD 1woc-a3-m1-cB_1woc-a3-m2-cC 2ccz-a1-m1-cB_2ccz-a1-m1-cA 2pnh-a1-m1-cB_2pnh-a1-m1-cA 5wqv-a1-m1-cB_5wqv-a1-m1-cA TNRLVLSGTVCRAPLRKPHCQFVLEHRSVQEEAGFHRQAWCQPVIVSGHENQAITHSITVGSRITVQGFISCHVLHAEQIE TNRLVLSGTVCRAPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQPVIVSGHENQAITHSITVGSRITVQGFISCKVLHAEQIELI 1ty0-a2-m1-cC_1ty0-a2-m2-cC Crystal structure of the streptococcal pyrogenic exotoxin J (SPE-J) Q7BAE3 Q7BAE3 1.75 X-RAY DIFFRACTION 34 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 208 208 1ty0-a1-m1-cB_1ty0-a1-m1-cA 1ty2-a1-m1-cB_1ty2-a1-m1-cA 1ty2-a2-m1-cC_1ty2-a2-m2-cC SENIKDVKLQLNYAYEIIPVDYTNCNIDYLTTHDFYIDISSYKKKNFSVDSEVESYITTKFTKNQKVNIFGLPYIFTRYDVYYIYGGVTPSVNSNSENSKIVGNLLIDGVQQKTLINPIKIDKPIFTIQEFDFKIRQYLMQTYKIYDPNSPYIKGQLEIAINGNKHESFNLYDATSSSTRSDIFKKYKDNKTINMKDFSHFDIYLWTK SENIKDVKLQLNYAYEIIPVDYTNCNIDYLTTHDFYIDISSYKKKNFSVDSEVESYITTKFTKNQKVNIFGLPYIFTRYDVYYIYGGVTPSVNSNSENSKIVGNLLIDGVQQKTLINPIKIDKPIFTIQEFDFKIRQYLMQTYKIYDPNSPYIKGQLEIAINGNKHESFNLYDATSSSTRSDIFKKYKDNKTINMKDFSHFDIYLWTK 1ty8-a1-m1-cA_1ty8-a1-m2-cA Crystal structure of yeast ymx7, an ADP-ribose-1''-monophosphatase, complexed with ADP Q04299 Q04299 2.1 X-RAY DIFFRACTION 92 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 249 249 1njr-a1-m1-cA_1njr-a1-m2-cA 1txz-a1-m1-cA_1txz-a1-m2-cA KMRIILCDTNEVVTNLWQESIPKYLCIHHGHLQSLMDSMRKGDAHSYAIVSPGNSYGYLGGGFDKALYNYFGGKPFETWFRNQLGGRYHTVGSATVVDLQRCLEECRDGIRYIIHVPTVVAPSAPIFNPQNPLKTGFEPVFNAMWNALMHSPKDIDGLIIPGLCTGYAGVPPIISCKSMAFALRLYMAGDHISKELKNVLIMYYLQYPFEPFFPESCKIECQKLGIDIEMLKSFNVEKDAIELLIPRRI KMRIILCDTNEVVTNLWQESIPKYLCIHHGHLQSLMDSMRKGDAHSYAIVSPGNSYGYLGGGFDKALYNYFGGKPFETWFRNQLGGRYHTVGSATVVDLQRCLEECRDGIRYIIHVPTVVAPSAPIFNPQNPLKTGFEPVFNAMWNALMHSPKDIDGLIIPGLCTGYAGVPPIISCKSMAFALRLYMAGDHISKELKNVLIMYYLQYPFEPFFPESCKIECQKLGIDIEMLKSFNVEKDAIELLIPRRI 1tyg-a1-m2-cC_1tyg-a1-m2-cA Structure of the thiazole synthase/ThiS complex O31618 O31618 3.15 X-RAY DIFFRACTION 161 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 237 242 1tyg-a1-m1-cC_1tyg-a1-m1-cA 1xm3-a1-m1-cA_1xm3-a1-m1-cB 1xm3-a1-m1-cC_1xm3-a1-m1-cD MLTIGGKSFQSRLLLGTGKYPSFDIQKEAVAVSESDILTFAFEASQPNFLEQLDLSKYTLLPNTAGASTAEEAVRIARLAKASGLCDMIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLPYTSDDVVLARKLEELGVHAIMPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGIGSPKDAAYAMELGADGVLLNTAVSGADDPVKMARAMKLAVEAGRLSYEAGRIPLKQYG MLTIGGKSFQSRLLLGTGKYPSFDIQKEAVAVSESDILTFAVRRMNIFEASQPNFLEQLDLSKYTLLPNTAGASTAEEAVRIARLAKASGLCDMIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLPYTSDDVVLARKLEELGVHAIMPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGIGSPKDAAYAMELGADGVLLNTAVSGADDPVKMARAMKLAVEAGRLSYEAGRIPLKQY 1tyy-a1-m1-cB_1tyy-a1-m1-cA Crystal structure of aminoimidazole riboside kinase from Salmonella enterica Q8ZKR2 Q8ZKR2 2.6 X-RAY DIFFRACTION 48 0.993 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 292 293 1tz3-a1-m1-cB_1tz3-a1-m1-cA 1tz6-a1-m1-cA_1tz6-a1-m1-cB NKVWVIGDASVDLVPEKQNSYLKCPGGASANVGVCVARLGGECGFIGCLGDDDAGRFLRQVFQDNGVDVTFLRLDADLTSAVLIVNFTYLVHPGADTYVSPQDLPPFRQYEWFYFSSIGLTDRPAREACLEGARRREAGGYVLFDVNLRSKWGNTDEIPELIARSAALASICKVSADELCQLSGASHWQDARYYLRDLGCDTTIISLGADGALLITAEGEFHFPAPRVDVVDTTGAGDAFVGGLLFTLSRANCWDHALLAEAISNANACGAAVTAKTALPFPDQLNTFLSSH NKVWVIGDASVDLVPEKQNSYLKCPGGASANVGVCVARLGGECGFIGCLGDDDAGRFLRQVFQDNGVDVTFLRLDADLTSAVLIVNSFTYLVHPGADTYVSPQDLPPFRQYEWFYFSSIGLTDRPAREACLEGARRREAGGYVLFDVNLRSKWGNTDEIPELIARSAALASICKVSADELCQLSGASHWQDARYYLRDLGCDTTIISLGADGALLITAEGEFHFPAPRVDVVDTTGAGDAFVGGLLFTLSRANCWDHALLAEAISNANACGAAVTAKGATALPFPDQLNTFLS 1tz0-a1-m1-cC_1tz0-a1-m1-cA Crystal Structure of Putative Antibiotic Biosythesis Monooxygenase from Bacillus cereus Q81C15 Q81C15 1.84 X-RAY DIFFRACTION 44 0.99 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 99 106 1tz0-a1-m1-cB_1tz0-a1-m1-cA YFIETKTFTVKEGTSNIVVERFTGEGIIEKFEGFIDLSVLVKKVRRGDEEVVVIRWESEEAWKNWETSEEHLGKPKPDHIINVDHAVYYVKSSKAAYQQ GYFIETKTFTVKEGTSNIVVERFTGEGIIEKFEGFIDLSVLVKKVRRGDEEVVVIRWESEEAWKNWETSEEHLAGHRAGRGKPKPDHIINVDHAVYYVKSSKAAYQ 1tz7-a3-m3-cB_1tz7-a3-m4-cB Aquifex aeolicus amylomaltase O66937 O66937 2.15 X-RAY DIFFRACTION 18 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 487 487 1tz7-a3-m1-cA_1tz7-a3-m2-cA SHMRLAGILLHVTSLPSPYGIGDLGKEAYRFLDFLKECGFSLWQVLPLNPTSLEAGNSPYSSNSLFAGNYVLIDPEELLEEDLIKERDLKRFPLGEALYEVVYEYKKELLEKAFKNFRRFELLEDFLKEHSYWLRDYALYMAIKEEEGKEWYEWDEELKRREKEALKRVLNKLKGRFYFHVFVQFVFFKQWEKLRRYARERGISIVGDLPMYPSYSSADVWTNPELFKLDGDLKPLFVAGVPPDFFSKTGQLWGNPVYNWEEHEKEGFRWWIRRVLHNLKLFDFLRLDHFRGFEAYWEVPYGEETAVNGRWVKAPGKTLFKKLLSYFPKNPFIAEDLGFITDEVRYLRETFKIPGSRVIEFAFYDKESEHLPHNVEENNVYYTSTHDLPPIRGWFENLGEESRKRLFEYLGREIKEEKVNEELIRLVLISRAKFAIIQMQDLLNLGNEARMNYPGRPFGNWRWRIKEDYTQKKEFIKKLLGIYGREV SHMRLAGILLHVTSLPSPYGIGDLGKEAYRFLDFLKECGFSLWQVLPLNPTSLEAGNSPYSSNSLFAGNYVLIDPEELLEEDLIKERDLKRFPLGEALYEVVYEYKKELLEKAFKNFRRFELLEDFLKEHSYWLRDYALYMAIKEEEGKEWYEWDEELKRREKEALKRVLNKLKGRFYFHVFVQFVFFKQWEKLRRYARERGISIVGDLPMYPSYSSADVWTNPELFKLDGDLKPLFVAGVPPDFFSKTGQLWGNPVYNWEEHEKEGFRWWIRRVLHNLKLFDFLRLDHFRGFEAYWEVPYGEETAVNGRWVKAPGKTLFKKLLSYFPKNPFIAEDLGFITDEVRYLRETFKIPGSRVIEFAFYDKESEHLPHNVEENNVYYTSTHDLPPIRGWFENLGEESRKRLFEYLGREIKEEKVNEELIRLVLISRAKFAIIQMQDLLNLGNEARMNYPGRPFGNWRWRIKEDYTQKKEFIKKLLGIYGREV 1tz7-a3-m4-cB_1tz7-a3-m1-cA Aquifex aeolicus amylomaltase O66937 O66937 2.15 X-RAY DIFFRACTION 52 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 487 488 1tz7-a3-m3-cB_1tz7-a3-m2-cA SHMRLAGILLHVTSLPSPYGIGDLGKEAYRFLDFLKECGFSLWQVLPLNPTSLEAGNSPYSSNSLFAGNYVLIDPEELLEEDLIKERDLKRFPLGEALYEVVYEYKKELLEKAFKNFRRFELLEDFLKEHSYWLRDYALYMAIKEEEGKEWYEWDEELKRREKEALKRVLNKLKGRFYFHVFVQFVFFKQWEKLRRYARERGISIVGDLPMYPSYSSADVWTNPELFKLDGDLKPLFVAGVPPDFFSKTGQLWGNPVYNWEEHEKEGFRWWIRRVLHNLKLFDFLRLDHFRGFEAYWEVPYGEETAVNGRWVKAPGKTLFKKLLSYFPKNPFIAEDLGFITDEVRYLRETFKIPGSRVIEFAFYDKESEHLPHNVEENNVYYTSTHDLPPIRGWFENLGEESRKRLFEYLGREIKEEKVNEELIRLVLISRAKFAIIQMQDLLNLGNEARMNYPGRPFGNWRWRIKEDYTQKKEFIKKLLGIYGREV GSHMRLAGILLHVTSLPSPYGIGDLGKEAYRFLDFLKECGFSLWQVLPLNPTSLEAGNSPYSSNSLFAGNYVLIDPEELLEEDLIKERDLKRFPLGEALYEVVYEYKKELLEKAFKNFRRFELLEDFLKEHSYWLRDYALYMAIKEEEGKEWYEWDEELKRREKEALKRVLNKLKGRFYFHVFVQFVFFKQWEKLRRYARERGISIVGDLPMYPSYSSADVWTNPELFKLDGDLKPLFVAGVPPDFFSKTGQLWGNPVYNWEEHEKEGFRWWIRRVLHNLKLFDFLRLDHFRGFEAYWEVPYGEETAVNGRWVKAPGKTLFKKLLSYFPKNPFIAEDLGFITDEVRYLRETFKIPGSRVIEFAFYDKESEHLPHNVEENNVYYTSTHDLPPIRGWFENLGEESRKRLFEYLGREIKEEKVNEELIRLVLISRAKFAIIQMQDLLNLGNEARMNYPGRPFGNWRWRIKEDYTQKKEFIKKLLGIYGREV 1tz7-a3-m4-cB_1tz7-a3-m2-cA Aquifex aeolicus amylomaltase O66937 O66937 2.15 X-RAY DIFFRACTION 46 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 487 488 1tz7-a3-m3-cB_1tz7-a3-m1-cA SHMRLAGILLHVTSLPSPYGIGDLGKEAYRFLDFLKECGFSLWQVLPLNPTSLEAGNSPYSSNSLFAGNYVLIDPEELLEEDLIKERDLKRFPLGEALYEVVYEYKKELLEKAFKNFRRFELLEDFLKEHSYWLRDYALYMAIKEEEGKEWYEWDEELKRREKEALKRVLNKLKGRFYFHVFVQFVFFKQWEKLRRYARERGISIVGDLPMYPSYSSADVWTNPELFKLDGDLKPLFVAGVPPDFFSKTGQLWGNPVYNWEEHEKEGFRWWIRRVLHNLKLFDFLRLDHFRGFEAYWEVPYGEETAVNGRWVKAPGKTLFKKLLSYFPKNPFIAEDLGFITDEVRYLRETFKIPGSRVIEFAFYDKESEHLPHNVEENNVYYTSTHDLPPIRGWFENLGEESRKRLFEYLGREIKEEKVNEELIRLVLISRAKFAIIQMQDLLNLGNEARMNYPGRPFGNWRWRIKEDYTQKKEFIKKLLGIYGREV GSHMRLAGILLHVTSLPSPYGIGDLGKEAYRFLDFLKECGFSLWQVLPLNPTSLEAGNSPYSSNSLFAGNYVLIDPEELLEEDLIKERDLKRFPLGEALYEVVYEYKKELLEKAFKNFRRFELLEDFLKEHSYWLRDYALYMAIKEEEGKEWYEWDEELKRREKEALKRVLNKLKGRFYFHVFVQFVFFKQWEKLRRYARERGISIVGDLPMYPSYSSADVWTNPELFKLDGDLKPLFVAGVPPDFFSKTGQLWGNPVYNWEEHEKEGFRWWIRRVLHNLKLFDFLRLDHFRGFEAYWEVPYGEETAVNGRWVKAPGKTLFKKLLSYFPKNPFIAEDLGFITDEVRYLRETFKIPGSRVIEFAFYDKESEHLPHNVEENNVYYTSTHDLPPIRGWFENLGEESRKRLFEYLGREIKEEKVNEELIRLVLISRAKFAIIQMQDLLNLGNEARMNYPGRPFGNWRWRIKEDYTQKKEFIKKLLGIYGREV 1tz9-a1-m1-cA_1tz9-a1-m1-cB Crystal Structure of the Putative Mannonate Dehydratase from Enterococcus faecalis, Northeast Structural Genomics Target EfR41 Q82ZC9 Q82ZC9 2.9 X-RAY DIFFRACTION 113 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 334 334 KWGFRWYGAAGDAIPLKHIRQIPGITGVVGTLLNKLPGDVWTVAEIQALKQSVEQEGLALLGIESVAIHDAIKAGTDQRDHYIDNYRQTLRNLGKCGISLVCYSFKPIFGWAKTDLAYENEDGSLSLLFDQAVVENQPEDYQLIHSWEEERLQQFQELKAYAGVTEEDLVENLRYFLERVIPVCEEENIKGIHPDDPPWEIFGLPRITKNLADLKRILSLVDSPANGITFCTGSLGADPTNDLPTIREIGHRINFVHFRNVKYLGEHRFEETAHPSVAGSLDAELQALVDVGYEGVIRPDHGRAIWDEKAPGYGLYDRAGLTYIQGLYEATKAK KWGFRWYGAAGDAIPLKHIRQIPGITGVVGTLLNKLPGDVWTVAEIQALKQSVEQEGLALLGIESVAIHDAIKAGTDQRDHYIDNYRQTLRNLGKCGISLVCYSFKPIFGWAKTDLAYENEDGSLSLLFDQAVVENQPEDYQLIHSWEEERLQQFQELKAYAGVTEEDLVENLRYFLERVIPVCEEENIKGIHPDDPPWEIFGLPRITKNLADLKRILSLVDSPANGITFCTGSLGADPTNDLPTIREIGHRINFVHFRNVKYLGEHRFEETAHPSVAGSLDAELQALVDVGYEGVIRPDHGRAIWDEKAPGYGLYDRAGLTYIQGLYEATKAK 1tza-a1-m1-cB_1tza-a1-m1-cA X-ray structure of Northeast Structural Genomics Consortium target SoR45 Q8EB92 Q8EB92 2.4 X-RAY DIFFRACTION 46 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 127 130 ALDNSIRVEVKTEYIEQQSSEKYLFSYTITIINLGEQAAKLETRHWIITDANGKTSEVQGAGVVGETPTIPPNTAYQYTSGTVLDTPFGIYGTYGVSESGEHFNAIIKPFRLATPGLLHLEHHHHHH ALDNSIRVEVKTEYIEQQSSPEDEKYLFSYTITIINLGEQAAKLETRHWIITDANGKTSEVQGAGVVGETPTIPPNTAYQYTSGTVLDTPFGIYGTYGVSESGEHFNAIIKPFRLATPGLLHLEHHHHHH 1tzf-a1-m1-cA_1tzf-a1-m6-cA X-ray Crystal Structure of alpha-D-glucose-1-phosphate cytidylyltransferase from Salmonella typhi Q8Z5I4 Q8Z5I4 2.1 X-RAY DIFFRACTION 117 1.0 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 251 251 1tzf-a1-m2-cA_1tzf-a1-m5-cA 1tzf-a1-m3-cA_1tzf-a1-m4-cA 1wvc-a1-m1-cA_1wvc-a1-m6-cA 1wvc-a1-m2-cA_1wvc-a1-m5-cA 1wvc-a1-m3-cA_1wvc-a1-m4-cA MASKAVILAGGLGVKPKPMVEIGGKPILWHIMKMYSVHGIKDFIICCGYKGYVIKEYFANYFLHMSDVTFHMAENRMEVHHKRVEPWNVTLVDTGDSSMTGGRLKRVAEYVKDDEAFLFTYGDGVADLDIKATIDFHKAHGKKATLTATFPPGRFGALDIQAGQVRSFQEKPKGDGAMINGGFFVLNPSVIDLIDNDATTWEQEPLMTLAQQGELMAFEHPGFWQPMDTLRDKVYLEGLWEKGKAPWKTWE MASKAVILAGGLGVKPKPMVEIGGKPILWHIMKMYSVHGIKDFIICCGYKGYVIKEYFANYFLHMSDVTFHMAENRMEVHHKRVEPWNVTLVDTGDSSMTGGRLKRVAEYVKDDEAFLFTYGDGVADLDIKATIDFHKAHGKKATLTATFPPGRFGALDIQAGQVRSFQEKPKGDGAMINGGFFVLNPSVIDLIDNDATTWEQEPLMTLAQQGELMAFEHPGFWQPMDTLRDKVYLEGLWEKGKAPWKTWE 1tzf-a1-m5-cA_1tzf-a1-m6-cA X-ray Crystal Structure of alpha-D-glucose-1-phosphate cytidylyltransferase from Salmonella typhi Q8Z5I4 Q8Z5I4 2.1 X-RAY DIFFRACTION 42 1.0 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 251 251 1tzf-a1-m1-cA_1tzf-a1-m2-cA 1tzf-a1-m1-cA_1tzf-a1-m3-cA 1tzf-a1-m2-cA_1tzf-a1-m3-cA 1tzf-a1-m4-cA_1tzf-a1-m5-cA 1tzf-a1-m4-cA_1tzf-a1-m6-cA 1wvc-a1-m1-cA_1wvc-a1-m2-cA 1wvc-a1-m1-cA_1wvc-a1-m3-cA 1wvc-a1-m2-cA_1wvc-a1-m3-cA 1wvc-a1-m4-cA_1wvc-a1-m5-cA 1wvc-a1-m4-cA_1wvc-a1-m6-cA 1wvc-a1-m5-cA_1wvc-a1-m6-cA MASKAVILAGGLGVKPKPMVEIGGKPILWHIMKMYSVHGIKDFIICCGYKGYVIKEYFANYFLHMSDVTFHMAENRMEVHHKRVEPWNVTLVDTGDSSMTGGRLKRVAEYVKDDEAFLFTYGDGVADLDIKATIDFHKAHGKKATLTATFPPGRFGALDIQAGQVRSFQEKPKGDGAMINGGFFVLNPSVIDLIDNDATTWEQEPLMTLAQQGELMAFEHPGFWQPMDTLRDKVYLEGLWEKGKAPWKTWE MASKAVILAGGLGVKPKPMVEIGGKPILWHIMKMYSVHGIKDFIICCGYKGYVIKEYFANYFLHMSDVTFHMAENRMEVHHKRVEPWNVTLVDTGDSSMTGGRLKRVAEYVKDDEAFLFTYGDGVADLDIKATIDFHKAHGKKATLTATFPPGRFGALDIQAGQVRSFQEKPKGDGAMINGGFFVLNPSVIDLIDNDATTWEQEPLMTLAQQGELMAFEHPGFWQPMDTLRDKVYLEGLWEKGKAPWKTWE 1tzj-a1-m1-cB_1tzj-a1-m1-cC Crystal Structure of 1-aminocyclopropane-1-carboxylate deaminase complexed with d-vinyl glycine Q00740 Q00740 1.99 X-RAY DIFFRACTION 33 1.0 74568 (Pseudomonas sp. ACP) 74568 (Pseudomonas sp. ACP) 328 338 1rqx-a1-m1-cB_1rqx-a1-m1-cC 1rqx-a1-m1-cD_1rqx-a1-m1-cA 1tyz-a1-m1-cB_1tyz-a1-m1-cC 1tyz-a1-m1-cD_1tyz-a1-m1-cA 1tz2-a1-m1-cB_1tz2-a1-m1-cC 1tz2-a1-m1-cD_1tz2-a1-m1-cA 1tzj-a1-m1-cD_1tzj-a1-m1-cA 1tzk-a1-m1-cB_1tzk-a1-m1-cC 1tzk-a1-m1-cD_1tzk-a1-m1-cA 1tzm-a1-m1-cB_1tzm-a1-m1-cC 1tzm-a1-m1-cD_1tzm-a1-m1-cA MNLQRFPRYPLTFGPTPIQPLARLSKHLGGKVHLYAKREDCNSGLAFGGNKTRKLEYLIPEALAQGCDTLVSIGGIQSNQTRQVAAVAAHLGMKCVLVQENWVNYSDAVYDRVGNIQMSRILGADVRLVSWEDALESVRAAGGKPYAIPAGCSDHPLGGLGFVGFAEEVRAQEAELGFKFDYVVVCSVTGSTQAGMVVGFAADGRADRVIGVDASAKPAQTREQITRIARQTAEKVGLERDIMRADVVLDERFAGPEYGLPNEGTLEAIRLCARTEGMLTDPVYEGKSMHGMIEMVRNGEFPEGSRVLYAHLGGVPALNGYSFIFRDG MNLQRFPRYPLTFGPTPIQPLARLSKHLGGKVHLYAKREDCNSGLAFGGNKTRKLEYLIPEALAQGCDTLVSIGGIQSNQTRQVAAVAAHLGMKCVLVQENWVNYSDAVYDRVGNIQMSRILGADVRLVPDGFDIGFRRSWEDALESVRAAGGKPYAIPAGCSDHPLGGLGFVGFAEEVRAQEAELGFKFDYVVVCSVTGSTQAGMVVGFAADGRADRVIGVDASAKPAQTREQITRIARQTAEKVGLERDIMRADVVLDERFAGPEYGLPNEGTLEAIRLCARTEGMLTDPVYEGKSMHGMIEMVRNGEFPEGSRVLYAHLGGVPALNGYSFIFRDG 1tzj-a1-m1-cD_1tzj-a1-m1-cC Crystal Structure of 1-aminocyclopropane-1-carboxylate deaminase complexed with d-vinyl glycine Q00740 Q00740 1.99 X-RAY DIFFRACTION 136 1.0 74568 (Pseudomonas sp. ACP) 74568 (Pseudomonas sp. ACP) 329 338 1rqx-a1-m1-cB_1rqx-a1-m1-cA 1rqx-a1-m1-cD_1rqx-a1-m1-cC 1tyz-a1-m1-cB_1tyz-a1-m1-cA 1tyz-a1-m1-cD_1tyz-a1-m1-cC 1tz2-a1-m1-cB_1tz2-a1-m1-cA 1tz2-a1-m1-cD_1tz2-a1-m1-cC 1tzj-a1-m1-cB_1tzj-a1-m1-cA 1tzk-a1-m1-cB_1tzk-a1-m1-cA 1tzk-a1-m1-cD_1tzk-a1-m1-cC 1tzm-a1-m1-cB_1tzm-a1-m1-cA 1tzm-a1-m1-cD_1tzm-a1-m1-cC MNLQRFPRYPLTFGPTPIQPLARLSKHLGGKVHLYAKREDCNSGLAFGGNKTRKLEYLIPEALAQGCDTLVSIGGIQSNQTRQVAAVAAHLGMKCVLVQENWVNYSDAVYDRVGNIQMSRILGADVRLVRSWEDALESVRAAGGKPYAIPAGCSDHPLGGLGFVGFAEEVRAQEAELGFKFDYVVVCSVTGSTQAGMVVGFAADGRADRVIGVDASAKPAQTREQITRIARQTAEKVGLERDIMRADVVLDERFAGPEYGLPNEGTLEAIRLCARTEGMLTDPVYEGKSMHGMIEMVRNGEFPEGSRVLYAHLGGVPALNGYSFIFRDG MNLQRFPRYPLTFGPTPIQPLARLSKHLGGKVHLYAKREDCNSGLAFGGNKTRKLEYLIPEALAQGCDTLVSIGGIQSNQTRQVAAVAAHLGMKCVLVQENWVNYSDAVYDRVGNIQMSRILGADVRLVPDGFDIGFRRSWEDALESVRAAGGKPYAIPAGCSDHPLGGLGFVGFAEEVRAQEAELGFKFDYVVVCSVTGSTQAGMVVGFAADGRADRVIGVDASAKPAQTREQITRIARQTAEKVGLERDIMRADVVLDERFAGPEYGLPNEGTLEAIRLCARTEGMLTDPVYEGKSMHGMIEMVRNGEFPEGSRVLYAHLGGVPALNGYSFIFRDG 1tzn-a4-m1-cf_1tzn-a4-m3-cj Crystal Structure of the Anthrax Toxin Protective Antigen Heptameric Prepore bound to the VWA domain of CMG2, an anthrax toxin receptor P58335 P58335 4.3 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 1tzn-a4-m1-ca_1tzn-a4-m3-ci 1tzn-a4-m1-cb_1tzn-a4-m3-ch 1tzn-a4-m1-cc_1tzn-a4-m3-cg 1tzn-a4-m1-cd_1tzn-a4-m3-cl 1tzn-a4-m1-ce_1tzn-a4-m3-ck 1tzn-a4-m1-co_1tzn-a4-m3-cm SCRRAFDLYFVLDKSGSVANNWIEIYNFVQQLAERFVSPEMRLSFIVFSSQATIILPLTGDRGKISKGLEDLKRVSPVGETYIHEGLKLANEQIQKAGGLKTSSIIIALTDGKLDGLVPSYAEKEAKISRSLGASVYCVGVLDFEQAQLERIADSKEQVFPVKGGFQALKGIINSILAQSC SCRRAFDLYFVLDKSGSVANNWIEIYNFVQQLAERFVSPEMRLSFIVFSSQATIILPLTGDRGKISKGLEDLKRVSPVGETYIHEGLKLANEQIQKAGGLKTSSIIIALTDGKLDGLVPSYAEKEAKISRSLGASVYCVGVLDFEQAQLERIADSKEQVFPVKGGFQALKGIINSILAQSC 1tzs-a1-m1-cA_1tzs-a1-m2-cA Crystal Structure of an activation intermediate of Cathepsin E P14091 P14091 2.35 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 322 322 KEPLINYLDMEYFGTISIGSPPQNFTVIFDTGSSNLWVPSVYCTSPACKTHSRFQPSQSSTYSQPGQSFSIQYGTGSLSGIIGADQVSVEGLTVVGQQFGESVTEPGQTFVDAEFDGILGLGYPSLAVGGVTPVFDNMMAQNLVDLPMFSVYMSSNPGAGSELIFGGYDHSHFSGSLNWVPVTKQAYWQIALDNIQVGGTVMFCSEGCQAIVDTGTSLITGPSDKIKQLQNAIGAAPVDGEYAVECANLNVMPDVTFTINGVPYTLSPTAYTLLDQFCSSGFQGLDIHPPAGPLWILGDVFIRQFYSVFDRGNNRVGLAPAV KEPLINYLDMEYFGTISIGSPPQNFTVIFDTGSSNLWVPSVYCTSPACKTHSRFQPSQSSTYSQPGQSFSIQYGTGSLSGIIGADQVSVEGLTVVGQQFGESVTEPGQTFVDAEFDGILGLGYPSLAVGGVTPVFDNMMAQNLVDLPMFSVYMSSNPGAGSELIFGGYDHSHFSGSLNWVPVTKQAYWQIALDNIQVGGTVMFCSEGCQAIVDTGTSLITGPSDKIKQLQNAIGAAPVDGEYAVECANLNVMPDVTFTINGVPYTLSPTAYTLLDQFCSSGFQGLDIHPPAGPLWILGDVFIRQFYSVFDRGNNRVGLAPAV 1u07-a1-m1-cB_1u07-a1-m1-cA Crystal Structure of the 92-residue C-term. part of TonB with significant structural changes compared to shorter fragments P02929 P02929 1.13 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 88 90 GPRALSRNQPQYPARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTEIQ ASGPRALSRNQPQYPARAQALRIEGQVKVKFDVTPDGRVDNVQILSAKPANMFEREVKNAMRRWRYEPGKPGSGIVVNILFKINGTTEIQ 1u08-a1-m1-cB_1u08-a1-m1-cA Crystal Structure and Reactivity of YbdL from Escherichia coli Identify a Methionine Aminotransferase Function. P77806 P77806 2.35 X-RAY DIFFRACTION 189 1.0 562 (Escherichia coli) 562 (Escherichia coli) 378 382 PLIPQSKLPTIFTQMSALAQQHQAINLSQGFPDFDGPRYLQERLAHHVAQGANQYAPMTGVQALREAIAQKTERLYGYQPDADSDITVTAGATEALYAAITALVRNGDEVICFDPSYDSYAPAIALSGGIVKRMALQPPHFRVDWQEFAALLSERTRLVILNTPHNPSATVWQQADFAALWQAIAGHEIFVISDEVYEHINFSQQGHASVLAHPQLRERAVAVSSFGKTYHMTGWKVGYCVAPAPISAEIRKVHQYLTFSVNTPAQLALADMLRAEPEHYLALPDFYRQKRDILVNALNESRLEILPCEGTYFLLVDYSAVSTLDDVEFCQWLTQEHGVAAIPLSVFCADPFPHKLIRLCFAKKESTLLAAAERLRQL PLIPQSKLPQLGTTIFTQMSALAQQHQAINLSQGFPDFDGPRYLQERLAHHVAQGANQYAPMTGVQALREAIAQKTERLYGYQPDADSDITVTAGATEALYAAITALVRNGDEVICFDPSYDSYAPAIALSGGIVKRMALQPPHFRVDWQEFAALLSERTRLVILNTPHNPSATVWQQADFAALWQAIAGHEIFVISDEVYEHINFSQQGHASVLAHPQLRERAVAVSSFGKTYHMTGWKVGYCVAPAPISAEIRKVHQYLTFSVNTPAQLALADMLRAEPEHYLALPDFYRQKRDILVNALNESRLEILPCEGTYFLLVDYSAVSTLDDVEFCQWLTQEHGVAAIPLSVFCADPFPHKLIRLCFAKKESTLLAAAERLRQL 1u0a-a5-m1-cB_1u0a-a5-m1-cD Crystal structure of the engineered beta-1,3-1,4-endoglucanase H(A16-M) in complex with beta-glucan tetrasaccharide P23904 P23904 1.64 X-RAY DIFFRACTION 40 1.0 44252 (Paenibacillus macerans) 44252 (Paenibacillus macerans) 214 214 1u0a-a5-m1-cA_1u0a-a5-m1-cC QTGGSFFEPFNSYNSGTWEKADGYSNGGVFNCTWRANNVNFTNDGKLKLGLTSSAYNKFDCAEYRSTNIYGYGLYEVSMKPAKNTGIVSSFFTYTGPAHGTQWDQIDIQFLGKDTTKVQFNYYTNGVGGHEKVISLGFDASKGFHTYAFDWQPGYIKWYVDGVLKHTATANIPSTPGKIMMNLWNGTGVDDWLGSYNGANPLYAEYDWVKYTSN QTGGSFFEPFNSYNSGTWEKADGYSNGGVFNCTWRANNVNFTNDGKLKLGLTSSAYNKFDCAEYRSTNIYGYGLYEVSMKPAKNTGIVSSFFTYTGPAHGTQWDQIDIQFLGKDTTKVQFNYYTNGVGGHEKVISLGFDASKGFHTYAFDWQPGYIKWYVDGVLKHTATANIPSTPGKIMMNLWNGTGVDDWLGSYNGANPLYAEYDWVKYTSN 1u0a-a5-m1-cC_1u0a-a5-m1-cD Crystal structure of the engineered beta-1,3-1,4-endoglucanase H(A16-M) in complex with beta-glucan tetrasaccharide P23904 P23904 1.64 X-RAY DIFFRACTION 19 1.0 44252 (Paenibacillus macerans) 44252 (Paenibacillus macerans) 214 214 1u0a-a5-m1-cA_1u0a-a5-m1-cB QTGGSFFEPFNSYNSGTWEKADGYSNGGVFNCTWRANNVNFTNDGKLKLGLTSSAYNKFDCAEYRSTNIYGYGLYEVSMKPAKNTGIVSSFFTYTGPAHGTQWDQIDIQFLGKDTTKVQFNYYTNGVGGHEKVISLGFDASKGFHTYAFDWQPGYIKWYVDGVLKHTATANIPSTPGKIMMNLWNGTGVDDWLGSYNGANPLYAEYDWVKYTSN QTGGSFFEPFNSYNSGTWEKADGYSNGGVFNCTWRANNVNFTNDGKLKLGLTSSAYNKFDCAEYRSTNIYGYGLYEVSMKPAKNTGIVSSFFTYTGPAHGTQWDQIDIQFLGKDTTKVQFNYYTNGVGGHEKVISLGFDASKGFHTYAFDWQPGYIKWYVDGVLKHTATANIPSTPGKIMMNLWNGTGVDDWLGSYNGANPLYAEYDWVKYTSN 1u0k-a1-m1-cB_1u0k-a1-m1-cA The structure of a Predicted Epimerase PA4716 from Pseudomonas aeruginosa Q9HV82 Q9HV82 1.5 X-RAY DIFFRACTION 71 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 280 281 SRRYWQLDVFAERPLTGNGLAVFDDASALDDAAQAWTRELRQFESIFLLPGDDPRAFRARIFTLEEELPFAGHPLLGAAALLHHLRGGDNEQHWTLHLASKSVALRSVRAGSGFYAEDQGRAEFGATPDAGTCRWFAEAFSLSANDLSGHPPRVVSTGLPYLLLPVTAEALGRARQVNDLQEALDKLGAAFVYLLDVDGREGRTWDNLGLVEDVATGSAAGPVAAYLVEYGLAARGEPFVLHQGRFLERPSRLDVQVATDGSVRVGGHVQLLARAELLTS SRRYWQLDVFAERPLTGNGLAVFDDASALDDAAQAWTRELRQFESIFLLPGDDPRAFRARIFTLEEELPFAGHPLLGAAALLHHLRGGDNEQHWTLHLASKSVALRSVRAGSGFYAEDQGRAEFGATPDAGTCRWFAEAFSLSANDLSGHPPRVVSTGLPYLLLPVTAEALGRARQVNDLQEALDKLGAAFVYLLDVDGREGRTWDNLGLVEDVATGSAAGPVAAYLVEYGLAARGEPFVLHQGRFLERPSRLDVQVATDGSVRVGGHVQLLARAELLTSA 1u0m-a1-m1-cA_1u0m-a1-m1-cB Crystal Structure of 1,3,6,8-Tetrahydroxynaphthalene Synthase (THNS) from Streptomyces coelicolor A3(2): a Bacterial Type III Polyketide Synthase (PKS) Provides Insights into Enzymatic Control of Reactive Polyketide Intermediates Q9FCA7 Q9FCA7 2.22 X-RAY DIFFRACTION 166 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 348 348 ATLCRPSVSVPEHVITMEETLELARRRHTDHPQLPLALRLIENTGVRTRHIVQPIEDTLEHPGFEDRNKVYEREAKSRVPAVIQRALDDAELLATDIDVIIYVSCTGFMMPSLTAWLINEMGFDSTTRQIPIAQLGCAAGGAAINRAHDFCTAYPEANALIVACEFCSLCYQPTDLGVGSLLCNGLFGDGIAAAVVRGRGGTGVRLERNGSYLIPKTEDWIMYDVKATGFHFLLDKRVPATMEPLAPALKELAGEHGWDASDLDFYIVHAGGPRILDDLSTFLEVDPHAFRFSRATLTEYGNIASAVVLDALRRLFDEGGVEEGARGLLAGFGPGITAEMSLGCWQTA ATLCRPSVSVPEHVITMEETLELARRRHTDHPQLPLALRLIENTGVRTRHIVQPIEDTLEHPGFEDRNKVYEREAKSRVPAVIQRALDDAELLATDIDVIIYVSCTGFMMPSLTAWLINEMGFDSTTRQIPIAQLGCAAGGAAINRAHDFCTAYPEANALIVACEFCSLCYQPTDLGVGSLLCNGLFGDGIAAAVVRGRGGTGVRLERNGSYLIPKTEDWIMYDVKATGFHFLLDKRVPATMEPLAPALKELAGEHGWDASDLDFYIVHAGGPRILDDLSTFLEVDPHAFRFSRATLTEYGNIASAVVLDALRRLFDEGGVEEGARGLLAGFGPGITAEMSLGCWQTA 1u0t-a1-m1-cB_1u0t-a1-m2-cB Crystal structure of Mycobacterium tuberculosis NAD kinase P9WHV7 P9WHV7 2.3 X-RAY DIFFRACTION 38 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 276 276 1u0r-a1-m1-cB_1u0r-a1-m1-cA 1u0r-a1-m1-cC_1u0r-a1-m1-cD 1u0t-a1-m1-cA_1u0t-a1-m2-cA 1y3h-a1-m1-cA_1y3h-a1-m2-cA 1y3h-a1-m1-cB_1y3h-a1-m2-cB 1y3i-a1-m1-cA_1y3i-a1-m2-cA 1y3i-a1-m1-cB_1y3i-a1-m2-cB RSVLLVVHTGRDEATETARRVEKVLGDNKIALRVLSADQHAADGCELVLVLGGDGTFLRAAELARNASIPVLGVNLGRIGFLAEAEAEAIDAVLEHVVAQDYRVEDRLTLDVVVRQGGRIVNRGWALNEVSLEKGPRLGVLGVVVEIDGRPVSAFGCDGVLVSTPTGSTAYAFSAGGPVLWPDLEAILVVPNNAHALFGRPMVTSPEATIAIEIEADGHDALVFCDGRREMLIPAGSRLEVTRCVTSVKWARLDSAPFTDRLVRKFRLPVTGWRGK RSVLLVVHTGRDEATETARRVEKVLGDNKIALRVLSADQHAADGCELVLVLGGDGTFLRAAELARNASIPVLGVNLGRIGFLAEAEAEAIDAVLEHVVAQDYRVEDRLTLDVVVRQGGRIVNRGWALNEVSLEKGPRLGVLGVVVEIDGRPVSAFGCDGVLVSTPTGSTAYAFSAGGPVLWPDLEAILVVPNNAHALFGRPMVTSPEATIAIEIEADGHDALVFCDGRREMLIPAGSRLEVTRCVTSVKWARLDSAPFTDRLVRKFRLPVTGWRGK 1u10-a2-m1-cC_1u10-a2-m1-cD MEPA, active form with ZN in P1 P0C0T5 P0C0T5 2.4 X-RAY DIFFRACTION 51 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 235 1tzp-a1-m1-cB_1tzp-a1-m1-cA 1u10-a1-m1-cA_1u10-a1-m1-cB 1u10-a3-m1-cF_1u10-a3-m1-cE ATPWQKITQPVPGSAQSIGSFSNGCIVGADTLPIQSEHYQVRTDQRRYFGHPDLVFIQRLSSQVSNLGGTVLIGDGPAGGRFNGGHASHQTGLDVDIFLQLPKTRWTSAQLLRPQALDLVSRDGKHVVSTLWKPEIFSLIKLAAQDKDVTRIFVNPAIKQQLCLDAGTDRDWLRKVRPWFQHRAHHVRLRCPADSLECEDQPLPPSGDGCGAELQSWFEPPLPPSCQALLDEHVI ATPWQKITQPVPGSAQSIGSFSNGCIVGADTLPIQSEHYQVRTDQRRYFGHPDLVFIQRLSSQVSNLGGTVLIGDGPAGGRFNGGHASHQTGLDVDIFLQLPKTRWTSAQLLRPQALDLVSRDGKHVVSTLWKPEIFSLIKLAAQDKDVTRIFVNPAIKQQLCLDAGTDRDWLRKVRPWFQHRAHHVRLRCPADSLECEDQPLPPSGDGCGAELQSWFEPPLPPSCQALLDEHVI 1u15-a1-m1-cC_1u15-a1-m1-cD Crystal structure of a duck-delta-crystallin-1 double loop mutant (DLM) P24057 P24057 2.5 X-RAY DIFFRACTION 92 1.0 8839 (Anas platyrhynchos) 8839 (Anas platyrhynchos) 448 450 1auw-a1-m1-cA_1auw-a1-m1-cC 1auw-a1-m1-cB_1auw-a1-m1-cD 1dcn-a1-m1-cC_1dcn-a1-m1-cD 1hy0-a1-m1-cA_1hy0-a1-m1-cB 1hy0-a1-m2-cA_1hy0-a1-m2-cB 1hy1-a1-m1-cA_1hy1-a1-m1-cB 1hy1-a1-m1-cC_1hy1-a1-m1-cD 1k7w-a1-m1-cB_1k7w-a1-m1-cA 1k7w-a1-m1-cC_1k7w-a1-m1-cD 1tju-a1-m1-cA_1tju-a1-m1-cB 1tju-a1-m1-cD_1tju-a1-m1-cC 1tjv-a1-m1-cA_1tjv-a1-m1-cB 1tjv-a1-m1-cC_1tjv-a1-m1-cD 1tjw-a1-m1-cB_1tjw-a1-m1-cA 1tjw-a1-m1-cC_1tjw-a1-m1-cD 1u15-a1-m1-cA_1u15-a1-m1-cB 1u16-a1-m1-cA_1u16-a1-m4-cA 1u16-a1-m2-cA_1u16-a1-m3-cA 1xwo-a1-m1-cA_1xwo-a1-m1-cB 1xwo-a1-m1-cC_1xwo-a1-m1-cD TDPIMEKLNSSIAYDQRLSEVDIQASIAYAKALEKAGILTKTELEKILSGLEKISEEWSKGVFVVKQSDEDIHTANERRLKELIGDIAGKLHTGRSRNEQVVTDLKLFMKNSLSIISTHLLQLIKTLVERAAIEIDVILPGYTHLQKAQPIRWSQFLLSHAVALTRDSERLGEVKKRINVLPLGSGALAGNPLDIDREMLRSELEFASISLNSMDAISERDFVVEFLSVATLLLIHLSKMAEDLIIYSTSEFGFLTLSDAFSTGSSLMPQKKNPDSLELIRSKAGRVFGRLASILMVLKGLPSTYNKDLQEDKEAVIDVVDTLTAVLQVATGVISTLQISKENMEKALTPEMLATDLALYLVRKGMPFRQAHTASGKAVHLAETKGIAINNLTLEDLKSISPLFSSDVSQVFNFVNSVEQYTALGGTAKSSVTTQIEQLRELMKKQKE TDPIMEKLNSSIAYDQRLSEVDIQASIAYAKALEKAGILTKTELEKILSGLEKISEEWSKGVFVVKQSDEDIHTANERRLKELIGDIAGKLHTGRSRNEQVVTDLKLFMKNSLSIISTHLLQLIKTLVERAAIEIDVILPGYTHLQKAQPIRWSQFLLSHAVALTRDSERLGEVKKRINVLPLGSGALAGNPLDIDREMLRSELEFASISLNSMDAISERDFVVEFLSVATLLLIHLSKMAEDLIIYSTSEFGFLTLSDAFSTGSSLMPQKKNPDSLELIRSKAGRVFGRLASILMVLKGLPSTYNKDLQEDKEAVIDVVDTLTAVLQVATGVISTLQISKENMEKALTPEMLATDLALYLVRKGMPFRQAHTASGKAVHLAETKGIAINNLTLEDLKSISPLFSSDVSQVFNFVNSVEQYTALGGTAKSSVTTQIEQLRELMKKQKEQA 1u1w-a1-m1-cA_1u1w-a1-m1-cB Structure and function of phenazine-biosynthesis protein PhzF from Pseudomonas fluorescens 2-79 Q51792 Q51792 1.35 X-RAY DIFFRACTION 77 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 278 279 1t6k-a1-m1-cA_1t6k-a1-m2-cA 1u1v-a1-m1-cA_1u1v-a1-m2-cA 1u1x-a1-m1-cA_1u1x-a1-m1-cB 1xua-a1-m1-cA_1xua-a1-m1-cB 5iwe-a1-m1-cA_5iwe-a1-m2-cA MHNYVIIDAFASVPLEGNPVAVFFDADDLPPAQMQRIAREMNLSESTFVLKPRNGGDALIRIFTPVNELPFAGHPLLGTAIALGAHTDNHRLYLETQMGTIAFELERQNGSVIAASMDQPIPTWTALGRDAELLKALGISDSTFPIEIYHNGPRHVFVGLPSIDALSALHPDHRALSNFHDMAINCFAGAGRRWRSRMFSPAYGVVEDAATGSAAGPLAIHLARHGQIEFGQPVEILQGVEIGRPSLMFAKAEGRAEQLTRVEVSGNGVTFGRGTIVL HMHNYVIIDAFASVPLEGNPVAVFFDADDLPPAQMQRIAREMNLSESTFVLKPRNGGDALIRIFTPVNELPFAGHPLLGTAIALGAHTDNHRLYLETQMGTIAFELERQNGSVIAASMDQPIPTWTALGRDAELLKALGISDSTFPIEIYHNGPRHVFVGLPSIDALSALHPDHRALSNFHDMAINCFAGAGRRWRSRMFSPAYGVVEDAATGSAAGPLAIHLARHGQIEFGQPVEILQGVEIGRPSLMFAKAEGRAEQLTRVEVSGNGVTFGRGTIVL 1u1z-a1-m1-cE_1u1z-a1-m1-cC The Structure of (3R)-hydroxyacyl-ACP dehydratase (FabZ) Q9HXY7 Q9HXY7 2.5 X-RAY DIFFRACTION 88 0.986 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 140 141 1u1z-a1-m1-cA_1u1z-a1-m1-cD 1u1z-a1-m1-cB_1u1z-a1-m1-cF DINEIREYLPHRYPFLLVDRVVELDIEGKRIRAYKNVSINEPFFNGHFPEHPIPGVLIIEAAQAAGILGFKLDVKPAGTLYYFVGSDKLRFRQPVLPGDQLQLHAKFISVKRSIWKFDCHATVDDKPVCSAEIICAERKL DINEIREYLPHRYPFLLVDRVVELDIEGKRIRAYKNVSINEPFFNGHFPEHPIPGVLIIEAAQAAGILGFKLDVKDGTLYYFVGSDKLRFRQPVLPGDQLQLHAKFISVKRSIWKFDCHATVDDKPVCSAEIICAERKLGS 1u1z-a1-m1-cE_1u1z-a1-m1-cF The Structure of (3R)-hydroxyacyl-ACP dehydratase (FabZ) Q9HXY7 Q9HXY7 2.5 X-RAY DIFFRACTION 95 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 140 141 1u1z-a1-m1-cA_1u1z-a1-m1-cB 1u1z-a1-m1-cD_1u1z-a1-m1-cC DINEIREYLPHRYPFLLVDRVVELDIEGKRIRAYKNVSINEPFFNGHFPEHPIPGVLIIEAAQAAGILGFKLDVKPAGTLYYFVGSDKLRFRQPVLPGDQLQLHAKFISVKRSIWKFDCHATVDDKPVCSAEIICAERKL DINEIREYLPHRYPFLLVDRVVELDIEGKRIRAYKNVSINEPFFNGHFPEHPIPGVLIIEAAQAAGILGFKLDVKPADGTLYYFVGSDKLRFRQPVLPGDQLQLHAKFISVKRSIWKFDCHATVDDKPVCSAEIICAERKL 1u2e-a2-m1-cD_1u2e-a2-m1-cB Crystal Structure of the C-C bond hydrolase MhpC P77044 P77044 2.1 X-RAY DIFFRACTION 53 1.0 562 (Escherichia coli) 562 (Escherichia coli) 285 286 1u2e-a1-m1-cA_1u2e-a1-m1-cC QPQTEAATSRFLNVEEAGKTLRIHFNDCGQGDETVVLLHGSGPGATGWANFSRNIDPLVEAGYRVILLDCPGWGKSDSVVNSGSRSDLNARILKSVVDQLDIAKIHLLGNSMGGHSSVAFTLKWPERVGKLVLMGGGTGGMSLFTPMPTEGIKRLNQLYRQPTIENLKLMMDIFVFDTSDLTDALFEARLNNMLSRRDHLENFVKSLEANPKQFPDFGPRLAEIKAQTLIVWGRNDRFVPMDAGLRLLSGIAGSELHIFRDCGHWAQWEHADAFNQLVLNFLARP YQPQTEAATSRFLNVEEAGKTLRIHFNDCGQGDETVVLLHGSGPGATGWANFSRNIDPLVEAGYRVILLDCPGWGKSDSVVNSGSRSDLNARILKSVVDQLDIAKIHLLGNSMGGHSSVAFTLKWPERVGKLVLMGGGTGGMSLFTPMPTEGIKRLNQLYRQPTIENLKLMMDIFVFDTSDLTDALFEARLNNMLSRRDHLENFVKSLEANPKQFPDFGPRLAEIKAQTLIVWGRNDRFVPMDAGLRLLSGIAGSELHIFRDCGHWAQWEHADAFNQLVLNFLARP 1u2g-a1-m1-cB_1u2g-a1-m1-cA transhydrogenase (dI.ADPr)2(dIII.NADPH)1 asymmetric complex Q2RSB2 Q2RSB2 2.2 X-RAY DIFFRACTION 126 0.992 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 359 378 1f8g-a1-m1-cC_1f8g-a1-m1-cA 1f8g-a2-m1-cD_1f8g-a2-m1-cB 1l7d-a1-m1-cA_1l7d-a1-m1-cB 1l7d-a2-m1-cD_1l7d-a2-m1-cC 1l7e-a1-m1-cB_1l7e-a1-m1-cA 1l7e-a2-m1-cC_1l7e-a2-m1-cD 1nm5-a1-m1-cB_1nm5-a1-m1-cA 1u28-a1-m1-cB_1u28-a1-m1-cA 1u2d-a1-m1-cA_1u2d-a1-m1-cB 1xlt-a1-m1-cB_1xlt-a1-m1-cA 1xlt-a2-m1-cE_1xlt-a2-m1-cD 1xlt-a3-m1-cH_1xlt-a3-m1-cG 2fr8-a1-m1-cB_2fr8-a1-m1-cA 2fsv-a1-m1-cB_2fsv-a1-m1-cA 2oo5-a1-m1-cA_2oo5-a1-m1-cB 2oor-a1-m1-cB_2oor-a1-m1-cA MKIAIPKERRPGEDRVAISPEVVKKLVGLGFEVIVEQGAGVGASITDDALTAAGATIASTAAQALSQADVVWKVQRPMTAEEGTDEVALIKEGAVLMCHLGALTNRPVVEALTKRKITAYAMELMPRISRAQSMDILSSQSNLAGYRAVIDGAYEFARAFPMMMTAAGTVPPARVLVFGVGVAGLQAIATAKRLGAVVMATDVRAATKEQVESLGGKFITVRKKQAEAVLKELVKTDIAITTALIPGKPAPVLITEEMVTKMKPGSVIIDLAVEAGGNCPLSEPGKIVVKHGVKIVGHTNVPSRVAADASPLFAKNLLNFLTPHVDKDTKTLVMKLEDETVSGTCVTRDGAIVHPALTG MKIAIPKERRPGEDRVAISPEVVKKLVGLGFEVIVEQGAGVGASITDDALTAAGATIASTAAQALSQADVVWKVQRPMTAEEGTDEVALIKEGAVLMCHLGALTNRPVVEALTKRKITAYAMELMPRISRAQSMDILSSQSNLAGYRAVIDGAYEFARAFPMMMTAAGTVPPARVLVFGVGVAGLQAIATAKRLGAVVMATDVRAATKEQVESLGGKFITVDDEAMKTAETAGGYAKEMGEEFRKKQAEAVLKELVKTDIAITTALIPGKPAPVLITEEMVTKMKPGSVIIDLAVEAGGNCPLSEPGKIVVKHGVKIVGHTNVPSRVAADASPLFAKNLLNFLTPHVDKDTKTLVMKLEDETVSGTCVTRDGAIVHPA 1u2h-a1-m1-cA_1u2h-a1-m2-cA X-ray Structure of the N-terminally truncated human APEP-1 Q15772 Q15772 0.96 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 KAPPTFKVSLMDQSVREGQDVIMSIRVQGEPKPVVSWLRNRQPVRPDQRRFAEEAEGGLCRLRILAAERGDAGFYTCKAVNEYGARQCEARLEVRG KAPPTFKVSLMDQSVREGQDVIMSIRVQGEPKPVVSWLRNRQPVRPDQRRFAEEAEGGLCRLRILAAERGDAGFYTCKAVNEYGARQCEARLEVRG 1u2m-a1-m1-cA_1u2m-a1-m1-cC Crystal Structure of Skp P0AEU7 P0AEU7 2.3 X-RAY DIFFRACTION 40 1.0 562 (Escherichia coli) 562 (Escherichia coli) 84 137 GADKIAIVNGSLFQQVAQKTGVSNTLERARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK GADKIAIVNGSLFQQVAQKTGVSNTLENEFKGRASELQRETDLQAKKKLQSKAGSDRTKLEKDVAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK 1u2m-a1-m1-cB_1u2m-a1-m1-cC Crystal Structure of Skp P0AEU7 P0AEU7 2.3 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 114 137 KIAIVNGSLFQQVAQKTGVSNTLENEFKGRASELQRETDLQAKRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK GADKIAIVNGSLFQQVAQKTGVSNTLENEFKGRASELQRETDLQAKKKLQSKAGSDRTKLEKDVAQRQTFAQKAQAFEQDRARRSNEERGKLVTRIQTAVKSVANSQDIDLVVDANAVAYNSSDVKDITADVLKQVK 1u3i-a1-m1-cA_1u3i-a1-m2-cA Crystal structure of glutathione S-tranferase from Schistosoma mansoni P09792 P09792 1.89 X-RAY DIFFRACTION 57 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 208 208 EHIKVIYFDGRGRAESIRMTLVAAGVDYEDERISFQDWPKIKPTIPGGRLPAVKVTDDHGHVKWMLESLAIARYMAKKHHMMGETDEEYYSVEKLIGQAEDVEHEYHKTLMKPQEEKEKITKEILNGKVPVLFNMICESLKGSTGKLAVGDKVTLADLVLIAVIDHVTDLDKGFLTGKYPEIHKHRENLLASSPRLAKYLSNRPATPF EHIKVIYFDGRGRAESIRMTLVAAGVDYEDERISFQDWPKIKPTIPGGRLPAVKVTDDHGHVKWMLESLAIARYMAKKHHMMGETDEEYYSVEKLIGQAEDVEHEYHKTLMKPQEEKEKITKEILNGKVPVLFNMICESLKGSTGKLAVGDKVTLADLVLIAVIDHVTDLDKGFLTGKYPEIHKHRENLLASSPRLAKYLSNRPATPF 1u42-a1-m1-cA_1u42-a1-m2-cA Crystal structure of MLAM mutant of dimerisation domain of NF-kB p50 transcription factor P25799 P25799 2.699 X-RAY DIFFRACTION 323 1.0 10090 (Mus musculus) 10090 (Mus musculus) 101 101 SNLKIVRMDRTAGCVTGGEEIMLLCDKVQKDDIQIRFYEEGVWEGFGDFSPTDVHRQFAIMFKTPKYKDVNITKPASVFVQLRRKSDLETSEPKPFLYYPE SNLKIVRMDRTAGCVTGGEEIMLLCDKVQKDDIQIRFYEEGVWEGFGDFSPTDVHRQFAIMFKTPKYKDVNITKPASVFVQLRRKSDLETSEPKPFLYYPE 1u4j-a1-m1-cA_1u4j-a1-m1-cB Crystal structure of a carbohydrate induced dimer of group I phospholipase A2 from Bungarus caeruleus at 2.1 A resolution Q6SLM1 Q6SLM1 2.18 X-RAY DIFFRACTION 63 1.0 132961 (Bungarus caeruleus) 132961 (Bungarus caeruleus) 118 118 1g0z-a1-m1-cA_1g0z-a1-m1-cB NLKQFKNMIQCAGTRTWTSYIGYGCYCGYGGSGTPVDELDRCCYTHDHCYNKAANIPGCNPLIKTYSYTCTKPNITCNDTSDSCARFICDCDRTAAICFASAPYNINNIMISASTSCQ NLKQFKNMIQCAGTRTWTSYIGYGCYCGYGGSGTPVDELDRCCYTHDHCYNKAANIPGCNPLIKTYSYTCTKPNITCNDTSDSCARFICDCDRTAAICFASAPYNINNIMISASTSCQ 1u4j-a2-m1-cA_1u4j-a2-m2-cB Crystal structure of a carbohydrate induced dimer of group I phospholipase A2 from Bungarus caeruleus at 2.1 A resolution Q6SLM1 Q6SLM1 2.18 X-RAY DIFFRACTION 29 1.0 132961 (Bungarus caeruleus) 132961 (Bungarus caeruleus) 118 118 NLKQFKNMIQCAGTRTWTSYIGYGCYCGYGGSGTPVDELDRCCYTHDHCYNKAANIPGCNPLIKTYSYTCTKPNITCNDTSDSCARFICDCDRTAAICFASAPYNINNIMISASTSCQ NLKQFKNMIQCAGTRTWTSYIGYGCYCGYGGSGTPVDELDRCCYTHDHCYNKAANIPGCNPLIKTYSYTCTKPNITCNDTSDSCARFICDCDRTAAICFASAPYNINNIMISASTSCQ 1u56-a3-m1-cB_1u56-a3-m1-cA Crystal structure of an oxygen binding H-NOX domain related to soluble guanylate cyclases (Water-ligated, ferric form) Q8RBX6 Q8RBX6 1.9 X-RAY DIFFRACTION 40 1.0 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 183 188 MKGTIVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPPRLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVF MKGTIVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPPRLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFEYKKN 1u5d-a6-m1-cA_1u5d-a6-m6-cD Crystal Structure of the PH domain of SKAP55 Q86WV1 Q86WV1 1.7 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 GSVIKQGYLEKKSKDHSFFGSEWQKRWCVVSRGLFYYYANEKSKQPKGTFLIKGYSVRMAPHLRRDSKKESCFELTSQDRRTYEFTATSPAEARDWVDQISFLLKDLS GSVIKQGYLEKKSKDHSFFGSEWQKRWCVVSRGLFYYYANEKSKQPKGTFLIKGYSVRMAPHLRRDSKKESCFELTSQDRRTYEFTATSPAEARDWVDQISFLLKDLS 1u5d-a8-m1-cC_1u5d-a8-m7-cD Crystal Structure of the PH domain of SKAP55 Q86WV1 Q86WV1 1.7 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 1u5d-a5-m2-cB_1u5d-a5-m1-cA 1u5d-a5-m3-cC_1u5d-a5-m4-cD 1u5d-a6-m2-cB_1u5d-a6-m1-cA 1u5d-a6-m5-cC_1u5d-a6-m6-cD 1u5d-a7-m2-cB_1u5d-a7-m1-cA GSVIKQGYLEKKSKDHSFFGSEWQKRWCVVSRGLFYYYANEKSKQPKGTFLIKGYSVRMAPHLRRDSKKESCFELTSQDRRTYEFTATSPAEARDWVDQISFLLKDL GSVIKQGYLEKKSKDHSFFGSEWQKRWCVVSRGLFYYYANEKSKQPKGTFLIKGYSVRMAPHLRRDSKKESCFELTSQDRRTYEFTATSPAEARDWVDQISFLLKDLS 1u5e-a1-m1-cB_1u5e-a1-m1-cA Crystal Structure of a N-terminal Fragment of SKAP-Hom Containing Both the Helical Dimerization Domain and the PH Domain Q3UND0 Q3UND0 2.6 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 168 170 PEEIRNLLADVETFVADTLKGENLSKKAKEKRESLIKKIKDVKSVYLQEFQFPPIAAQDLPFVIKAGYLEKRRKDHSFLGFEWQKRWCALSKTVFYYYGSDKDKQQKGEFAIDGYDVRMNNTLRKDGKKDCCFEICAPDKRIYQFTAASPKDAEEWVQQLKFILQDLG GSPEEIRNLLADVETFVADTLKGENLSKKAKEKRESLIKKIKDVKSVYLQEFQFPPIAAQDLPFVIKAGYLEKRRKDHSFLGFEWQKRWCALSKTVFYYYGSDKDKQQKGEFAIDGYDVRMNNTLRKDGKKDCCFEICAPDKRIYQFTAASPKDAEEWVQQLKFILQDLG 1u5f-a2-m2-cA_1u5f-a2-m1-cA Crystal Structure of the PH Domain of SKAP-Hom with 8 Vector-derived N-terminal Residues Q3UND0 Q3UND0 1.9 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 119 119 RASVGSPGIPAQDLPFVIKAGYLEKRRKDHSFLGFEWQKRWCALSKTVFYYYGSDKDKQQKGEFAIDGYDVRMNNTLRKDGKKDCCFEICAPDKRIYQFTAASPKDAEEWVQQLKFILQ RASVGSPGIPAQDLPFVIKAGYLEKRRKDHSFLGFEWQKRWCALSKTVFYYYGSDKDKQQKGEFAIDGYDVRMNNTLRKDGKKDCCFEICAPDKRIYQFTAASPKDAEEWVQQLKFILQ 1u5k-a1-m1-cB_1u5k-a1-m1-cA Recombinational repair protein RecO Q9RW50 Q9RW50 2 X-RAY DIFFRACTION 73 0.991 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 232 242 MRSRTANRSGIVIRRRVTPAGDIIVTLLTPQGKLKAIARGPLSSSLNLFHHVGVQVYQGPHNDLASVKQAVLEGALPTLAEPERYAFAHLMAEFADALFQGEFSEQAFDLFAASLRGVAHQPDPEWVALVMSYKLLGLAGVIPQTARCARCGAPDPEHPDPLGGQLLCSKCAALPPYPPAVLDFLRHAVRRTVRASFEQPVPSADRPALWRALEKFVTVQVGGVHSWRQLVP RSRTANRSGIVIRRRVTPAGDIIVTLLTPQGKLKAIARGGVKGPLSSSLNLFHHVGVQVYQGPHDLASVKQAVLEGALPTLAEPERYAFAHLMAEFADALFQEGEFSEQAFDLFAASLRGVAHQPDPEWVALVMSYKLLGLAGVIPQTARCARCGAPDPEHPDPLGGQLLCSKCAALPPYPPAVLDFLRHAVRRTVRASFEQPVPSADRPALWRALEKFVTVQVGGVHSWRQLVPSGVPVLS 1u5q-a3-m1-cA_1u5q-a3-m2-cA Crystal Structure of the TAO2 Kinase Domain: Activation and Specifity of a Ste20p MAP3K Q9JLS3 Q9JLS3 2.1 X-RAY DIFFRACTION 40 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 308 308 1u5r-a3-m1-cA_1u5r-a3-m2-cA 2gcd-a3-m1-cA_2gcd-a3-m2-cA DPDVAELFFKDDPEKLFSDLREIGHGSFGAVYFARDVRNSEVVAIKKMSYSGKQSNEKWQDIIKEVRFLQKLRHPNTIQYRGCYLREHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAVTHGALQGLAYLHSHNMIHRDVKAGNILLSEPGLVKLGDFGSASIMAPANFVGTPYWMAPEVILAMDEGQYDGKVDVWSLGITCIELAERKPPLFNMNAMSALYHIAQNESPALQSGHWSEYFRNFVDSCLQKIPQDRPTSEVLLKHRFVLRERPPTVIMDLIQRTKDAVRELDNLQYRKMKKILFQEA DPDVAELFFKDDPEKLFSDLREIGHGSFGAVYFARDVRNSEVVAIKKMSYSGKQSNEKWQDIIKEVRFLQKLRHPNTIQYRGCYLREHTAWLVMEYCLGSASDLLEVHKKPLQEVEIAAVTHGALQGLAYLHSHNMIHRDVKAGNILLSEPGLVKLGDFGSASIMAPANFVGTPYWMAPEVILAMDEGQYDGKVDVWSLGITCIELAERKPPLFNMNAMSALYHIAQNESPALQSGHWSEYFRNFVDSCLQKIPQDRPTSEVLLKHRFVLRERPPTVIMDLIQRTKDAVRELDNLQYRKMKKILFQEA 1u5u-a3-m1-cA_1u5u-a3-m1-cB The structure of an Allene Oxide Synthase reveals a novel use for a catalase fold O16025 O16025 2 X-RAY DIFFRACTION 60 1.0 47982 (Plexaura homomalla) 47982 (Plexaura homomalla) 366 366 WKNFGFEIFGEKYGQEELEKRIKDEHTPPPDSPVFGGLKLKLKKEKFKTLFTLGTTLKGFRRATHTVGTGGIGEITIVNDPKFPEHEFFTAGRTFPARLRHANLKYPDDAGADARSFSIKFADSDSDGPLDIVMNTGEANIFWNSPSLEDFVPVEEGDAAEEYVYKNPYYYYNLVEALRRAPDTFAHLYYYSQVTMPFKAKDGKVRYCRYRALPGDVDIKEEDESGRLTEEEQRKIWIFSRHENEKRPDDYLRKEYVERLQKGPVNYRLQIQIHEASPDDTATIFHAGILWDKETHPWFDLAKVSIKTPLSPDVLEKTAFNIANQPASLGLLEAKSPEDYNSIGELRVAVYTWVQHLRKLKIGSLV WKNFGFEIFGEKYGQEELEKRIKDEHTPPPDSPVFGGLKLKLKKEKFKTLFTLGTTLKGFRRATHTVGTGGIGEITIVNDPKFPEHEFFTAGRTFPARLRHANLKYPDDAGADARSFSIKFADSDSDGPLDIVMNTGEANIFWNSPSLEDFVPVEEGDAAEEYVYKNPYYYYNLVEALRRAPDTFAHLYYYSQVTMPFKAKDGKVRYCRYRALPGDVDIKEEDESGRLTEEEQRKIWIFSRHENEKRPDDYLRKEYVERLQKGPVNYRLQIQIHEASPDDTATIFHAGILWDKETHPWFDLAKVSIKTPLSPDVLEKTAFNIANQPASLGLLEAKSPEDYNSIGELRVAVYTWVQHLRKLKIGSLV 1u5w-a2-m1-cD_1u5w-a2-m1-cC Crystal structure of hypothetical protein yjjX from Escherichia coli P39411 P39411 2.3 X-RAY DIFFRACTION 105 1.0 562 (Escherichia coli) 562 (Escherichia coli) 172 174 1u5w-a1-m1-cA_1u5w-a1-m1-cB 1u5w-a3-m1-cE_1u5w-a3-m1-cF 1u5w-a4-m1-cG_1u5w-a4-m1-cH IMHQVVCATTNPAKIQAILQAFHEIFGEGSCHIASVAVESGVPEQPFGSEETRAGARNRVANARRLLPEADFWVAIEAGIDGDSTFSWVVIENASQRGEARSATLPLPAVILEKVREGEALGPVMSRYTGIDEIGRKEGAIGVFTAGKLTRASVYHQAVILALSPFHNAVYS LIMHQVVCATTNPAKIQAILQAFHEIFGEGSCHIASVAVESGVPEQPFGSEETRAGARNRVANARRLLPEADFWVAIEAGIDGDSTFSWVVIENASQRGEARSATLPLPAVILEKVREGEALGPVMSRYTGIDEIGRKEGAIGVFTAGKLTRASVYHQAVILALSPFHNAVYSG 1u60-a3-m1-cA_1u60-a3-m2-cD MCSG APC5046 Probable glutaminase ybaS P77454 P77454 1.61 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 309 309 1u60-a3-m1-cB_1u60-a3-m2-cC LDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG LDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG 1u60-a4-m1-cA_1u60-a4-m3-cD MCSG APC5046 Probable glutaminase ybaS P77454 P77454 1.61 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 309 309 LDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG LDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG 1u60-a4-m3-cC_1u60-a4-m3-cD MCSG APC5046 Probable glutaminase ybaS P77454 P77454 1.61 X-RAY DIFFRACTION 107 1.0 562 (Escherichia coli) 562 (Escherichia coli) 309 309 1u60-a1-m1-cA_1u60-a1-m1-cB 1u60-a2-m1-cC_1u60-a2-m1-cD 1u60-a3-m1-cA_1u60-a3-m1-cB 1u60-a3-m2-cC_1u60-a3-m2-cD 1u60-a4-m1-cA_1u60-a4-m1-cB LDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG LDANKLQQAVDQAYTQFHSLNGGQNADYIPFLANVPGQLAAVAIVTCDGNVYSAGDSDYRFALESISKVCTLALALEDVGPQAVQDKIGADPTGLPFNSVIALELHGGKPLSPLVNAGAIATTSLINAENVEQRWQRILHIQQQLAGEQVALSDEVNQSEQTTNFHNRAIAWLLYSAGYLYCDAMEACDVYTRQCSTLLNTIELATLGATLAAGGVNPLTHKRVLQADNVPYILAEMMMEGLYGRSGDWAYRVGLPGKSGVGGGILAVVPGVMGIAAFSPPLDEDGNSVRGQKMVASVAKQLGYNVFKG 1u69-a1-m1-cA_1u69-a1-m1-cB Crystal Structure of PA2721 Protein of Unknown Function from Pseudomonas aeruginosa PAO1 Q9I0C1 Q9I0C1 1.6 X-RAY DIFFRACTION 11 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 152 152 SKNTICLWYDSAALEAATFYAETFPDSAVLAVHRAPGDYPSGKEGDVLTVEFRVGIPCLGLNGGPAFRHSEAFSFQVATDDQAETDRLWNAIVDNGGEESACGWCRDKWGISWQITPRVLSEAIASPDRAAARRAFEATGRIDIATIEKAFK SKNTICLWYDSAALEAATFYAETFPDSAVLAVHRAPGDYPSGKEGDVLTVEFRVGIPCLGLNGGPAFRHSEAFSFQVATDDQAETDRLWNAIVDNGGEESACGWCRDKWGISWQITPRVLSEAIASPDRAAARRAFEATGRIDIATIEKAFK 1u69-a1-m1-cD_1u69-a1-m1-cC Crystal Structure of PA2721 Protein of Unknown Function from Pseudomonas aeruginosa PAO1 Q9I0C1 Q9I0C1 1.6 X-RAY DIFFRACTION 13 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 143 144 SKNTICLWYDSAALEAATFYAETFPDSAVLAVHRAPDVLTVEFRVGIPCLGLNGGPAFRHSEAFSFQVATDDQAETDRLWNAIVDNGGEESACGWCRDKWGISWQITPRVLSEAIASPDRAAARRAFEATGRIDIATIEKAFK SKNTICLWYDSAALEAATFYAETFPDSAVLAVHRAPGDVLTVEFRVGIPCLGLNGGPAFRHSEAFSFQVATDDQAETDRLWNAIVDNGGEESACGWCRDKWGISWQITPRVLSEAIASPDRAAARRAFEATGRIDIATIEKAFK 1u69-a3-m1-cC_1u69-a3-m1-cA Crystal Structure of PA2721 Protein of Unknown Function from Pseudomonas aeruginosa PAO1 Q9I0C1 Q9I0C1 1.6 X-RAY DIFFRACTION 121 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 144 152 1u69-a1-m1-cC_1u69-a1-m1-cA 1u69-a1-m1-cD_1u69-a1-m1-cB 1u69-a2-m1-cD_1u69-a2-m1-cB SKNTICLWYDSAALEAATFYAETFPDSAVLAVHRAPGDVLTVEFRVGIPCLGLNGGPAFRHSEAFSFQVATDDQAETDRLWNAIVDNGGEESACGWCRDKWGISWQITPRVLSEAIASPDRAAARRAFEATGRIDIATIEKAFK SKNTICLWYDSAALEAATFYAETFPDSAVLAVHRAPGDYPSGKEGDVLTVEFRVGIPCLGLNGGPAFRHSEAFSFQVATDDQAETDRLWNAIVDNGGEESACGWCRDKWGISWQITPRVLSEAIASPDRAAARRAFEATGRIDIATIEKAFK 1u6e-a1-m1-cB_1u6e-a1-m1-cA 1.85 Angstrom Crystal Structure of the C112A Mutant of Mycobacterium Tuberculosis Beta-Ketoacyl-Acyl Carrier Protein Synthase III (FabH) P9WNG3 P9WNG3 1.85 X-RAY DIFFRACTION 298 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 334 334 1hzp-a1-m1-cB_1hzp-a1-m1-cA 1m1m-a1-m1-cB_1m1m-a1-m1-cA 1u6s-a1-m1-cB_1u6s-a1-m1-cA 2ahb-a1-m1-cA_2ahb-a1-m1-cB 2ahb-a2-m1-cA_2ahb-a2-m1-cB 2ahb-a2-m2-cA_2ahb-a2-m2-cB 2aj9-a1-m1-cA_2aj9-a1-m1-cB 2qnx-a1-m1-cB_2qnx-a1-m1-cA 2qny-a1-m1-cB_2qny-a1-m1-cA 2qnz-a1-m1-cB_2qnz-a1-m1-cA 2qo0-a1-m1-cB_2qo0-a1-m1-cA 2qo1-a1-m1-cB_2qo1-a1-m1-cA 2qx1-a1-m1-cB_2qx1-a1-m1-cA MTEIATTSGARSVGLLSVGAYRPERVVTNDEICQHIDSSDEWIYTRTGIKTRRFAADDESAASMATEACRRALSNAGLSAADIDGVIVTTNTHFLQTPPAAPMVAASLGAKGILGFDLSAGAAGFGYALGAAADMIRGGGAATMLVVGTEKLSPTIDMYDRGNCFIFADGAAAVVVGETPFQGIGPTVAGSDGEQADAIRQDIDWITFAQNPSGPRPFVRLEGPAVFRWAAFKMGDVGRRAMDAAGVRPDQIDVFVPHQANSRINELLVKNLQLRPDAVVANDIEHTGNTSAASIPLAMAELLTTGAAKPGDLALLIGYGAGLSYAAQVVRMPK MTEIATTSGARSVGLLSVGAYRPERVVTNDEICQHIDSSDEWIYTRTGIKTRRFAADDESAASMATEACRRALSNAGLSAADIDGVIVTTNTHFLQTPPAAPMVAASLGAKGILGFDLSAGAAGFGYALGAAADMIRGGGAATMLVVGTEKLSPTIDMYDRGNCFIFADGAAAVVVGETPFQGIGPTVAGSDGEQADAIRQDIDWITFAQNPSGPRPFVRLEGPAVFRWAAFKMGDVGRRAMDAAGVRPDQIDVFVPHQANSRINELLVKNLQLRPDAVVANDIEHTGNTSAASIPLAMAELLTTGAAKPGDLALLIGYGAGLSYAAQVVRMPK 1u6l-a1-m1-cA_1u6l-a1-m1-cB Crystal structure of protein PA1353 from Pseudomonas aeruginosa Q9I3Z1 Q9I3Z1 2.81 X-RAY DIFFRACTION 107 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 127 127 SLQIVPYLIFNGNCREAFSCYHQHLGGTLEALPFGDSPEPADWKDKIHARLVVGSFALASDNHPAYPYEGIKGCSISLNVDSKAEAERLFNALAEGGSVQPLGPTFWAASFGFTDRFGVAWVNCEQD SLQIVPYLIFNGNCREAFSCYHQHLGGTLEALPFGDSPEPADWKDKIHARLVVGSFALASDNHPAYPYEGIKGCSISLNVDSKAEAERLFNALAEGGSVQPLGPTFWAASFGFTDRFGVAWVNCEQD 1u73-a1-m1-cA_1u73-a1-m1-cB Crystal structure of a Dimeric Acidic Platelet Aggregation Inhibitor and Hypotensive Phospholipase A2 from Bothrops jararacussu Q8AXY1 Q8AXY1 1.9 X-RAY DIFFRACTION 27 1.0 8726 (Bothrops jararacussu) 8726 (Bothrops jararacussu) 122 122 SLWQFGKMINYVMGESGVLQYLSYGCYCGLGGQGQPTDATDRCCFVHDCCYGKVTGCDPKIDSYTYSKKNGDVVCGGDDPCKKQICECDRVATTCFRDNKDTYDIKYWFYGAKNCQEKSEPC SLWQFGKMINYVMGESGVLQYLSYGCYCGLGGQGQPTDATDRCCFVHDCCYGKVTGCDPKIDSYTYSKKNGDVVCGGDDPCKKQICECDRVATTCFRDNKDTYDIKYWFYGAKNCQEKSEPC 1u75-a1-m1-cA_1u75-a1-m1-cC Electron Transfer Complex between Horse Heart Cytochrome c and Zinc-Porphyrin Substituted Cytochrome c Peroxidase P00431 P00431 2.55 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 294 295 TTPLVHVASVEKGRSYEDFQKVYNAIALKLREDDEYDNYIGYGPVLVRLAWHISGTWDKHDNTGGSYGGTYRFKKEFNDPSNAGLQNGFKFLEPIHKEFPWISSGDLFSLGGVTAVQEMQGPKIPWRCGRVDTPEDTTPDNGRLPDADKDAGYVRTFFQRLNMNDREVVALMGAHALGKTHLKNSGYEGPWGAANNVFTNEFYLNLLNEDWKLEKNDANNEQWDSKSGYMMLPTDYSLIQDPKYLSIVKEYANDQDKFFKDFSKAFEKLLENGITFPKDAPSPFIFKTLEEQGL ITTPLVHVASVEKGRSYEDFQKVYNAIALKLREDDEYDNYIGYGPVLVRLAWHISGTWDKHDNTGGSYGGTYRFKKEFNDPSNAGLQNGFKFLEPIHKEFPWISSGDLFSLGGVTAVQEMQGPKIPWRCGRVDTPEDTTPDNGRLPDADKDAGYVRTFFQRLNMNDREVVALMGAHALGKTHLKNSGYEGPWGAANNVFTNEFYLNLLNEDWKLEKNDANNEQWDSKSGYMMLPTDYSLIQDPKYLSIVKEYANDQDKFFKDFSKAFEKLLENGITFPKDAPSPFIFKTLEEQGL 1u79-a6-m2-cA_1u79-a6-m2-cD Crystal structure of AtFKBP13 Q9SCY2 Q9SCY2 1.85 X-RAY DIFFRACTION 48 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 125 125 1u79-a6-m1-cA_1u79-a6-m1-cD 1u79-a6-m1-cA_1u79-a6-m3-cC 1u79-a6-m1-cD_1u79-a6-m6-cB 1u79-a6-m2-cA_1u79-a6-m4-cC 1u79-a6-m2-cD_1u79-a6-m5-cB 1u79-a6-m3-cC_1u79-a6-m3-cE 1u79-a6-m3-cE_1u79-a6-m6-cB 1u79-a6-m4-cC_1u79-a6-m4-cE 1u79-a6-m4-cE_1u79-a6-m5-cB 1y0o-a6-m1-cA_1y0o-a6-m1-cD 1y0o-a6-m1-cA_1y0o-a6-m3-cC 1y0o-a6-m1-cD_1y0o-a6-m6-cB 1y0o-a6-m2-cA_1y0o-a6-m2-cD 1y0o-a6-m2-cA_1y0o-a6-m4-cC 1y0o-a6-m2-cD_1y0o-a6-m5-cB 1y0o-a6-m3-cC_1y0o-a6-m3-cE 1y0o-a6-m3-cE_1y0o-a6-m6-cB 1y0o-a6-m4-cC_1y0o-a6-m4-cE 1y0o-a6-m4-cE_1y0o-a6-m5-cB CEFSVSPSGLAFCDKVVGYGPEAVKGQLIKAHYVGKLENGKVFDSSYNRGKPLTFRIGVGEVIKGWDQGILGSDGIPPMLTGGKRTLRIPPELAYGDRGAGCKGGSCLIPPASVLLFDIEYIGKA CEFSVSPSGLAFCDKVVGYGPEAVKGQLIKAHYVGKLENGKVFDSSYNRGKPLTFRIGVGEVIKGWDQGILGSDGIPPMLTGGKRTLRIPPELAYGDRGAGCKGGSCLIPPASVLLFDIEYIGKA 1u7i-a1-m1-cB_1u7i-a1-m1-cA Crystal Structure of Protein of Unknown Function PA1358 from Pseudomonas aeruginosa Q9I3Y6 Q9I3Y6 1.4 X-RAY DIFFRACTION 119 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 129 130 SARVRPFLFQGVQAEAANFYLSLFDDAEILQIQRYGAEGPGPEGSVLKALFRLGDQSVHCIDSHVRHAFDFTPAFSFFVDCESNAQIERLAEALSDGGKALPLGDYGFSQRFAWLADRFGVSWQLNLAG HSARVRPFLFQGVQAEAANFYLSLFDDAEILQIQRYGAEGPGPEGSVLKALFRLGDQSVHCIDSHVRHAFDFTPAFSFFVDCESNAQIERLAEALSDGGKALPLGDYGFSQRFAWLADRFGVSWQLNLAG 1u7n-a1-m1-cA_1u7n-a1-m1-cB Crystal Structure of the fatty acid/phospholipid synthesis protein PlsX from Enterococcus faecalis V583 Q82ZE8 Q82ZE8 2.26 X-RAY DIFFRACTION 120 0.987 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 305 305 KIAVDAGGDNAPQAIVEGVLAKQDFPDIEFQLYGKEAEIKKYITDEKNITIIHTDEKIASDDEPVKAIRRKKTASVLAAQAVKNGEADAIFSAGNTGALLAAGLFIVGRIKNVERPGLSTLPVGEPDKGFDLDLGANADNKPEHLVQYAVLGSFYAEKVRNVQNPRVGLLNNGTGSELTKKAFELLAADETINFVGNVEARELLNGVADVVVTDGFTGNAVLKSIEGTANSLLKTAILSGALLLKNALHGKDEDYSKHGGAVLFGLKAPVIKTHGATGPDAVRYTIRQIHTLETQVVPQLVEYYE KIAVDAGGDNAPQAIVEGVLAKQDFPDIEFQLYGKEAEIKKYITDEKNITIIHTDEKIAEPVKAIRRKKTASVLAAQAVKNGEADAIFSAGNTGALLAAGLFIVGRIKNVERPGLSTLPVGEPDKGFDLDLGANADNKPEHLVQYAVLGSFYAEKVRNVQNPRVGLLNNGTEETKGSELTKKAFELLAADETINFVGNVEARELLNGVADVVVTDGFTGNAVLKSIEGTANSLLKTAILSGALLLKNALHGKDEDYSKHGGAVLFGLKAPVIKTHGATGPDAVRYTIRQIHTLETQVVPQLVEYY 1u7u-a1-m1-cA_1u7u-a1-m2-cA Phosphopantothenoylcysteine synthetase from E. coli P0ABQ0 P0ABQ0 2.4 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 198 198 PVNDLKHLNIMITAGPTREPLDPVRYISDHSSGKMGFAIAAAAARRGANVTLVSGPVSLPTPPFVKRVDVMTALEMEAAVNASVQQQNIFIGCAAVADYRAALTIKMVKNPDIVAGVAALKDHRPYVVGFAAETNNVEEYARQKRIRKNLDLICANSDNNALHLFWQDGDKVLPLERKELLGQLLLDEIVTRYDEKNR PVNDLKHLNIMITAGPTREPLDPVRYISDHSSGKMGFAIAAAAARRGANVTLVSGPVSLPTPPFVKRVDVMTALEMEAAVNASVQQQNIFIGCAAVADYRAALTIKMVKNPDIVAGVAALKDHRPYVVGFAAETNNVEEYARQKRIRKNLDLICANSDNNALHLFWQDGDKVLPLERKELLGQLLLDEIVTRYDEKNR 1u7z-a1-m1-cA_1u7z-a1-m1-cB Phosphopantothenoylcysteine synthetase from E. coli, 4'-phosphopantothenoyl-CMP complex P0ABQ0 P0ABQ0 2.3 X-RAY DIFFRACTION 87 0.995 562 (Escherichia coli) 562 (Escherichia coli) 216 218 1u7w-a1-m1-cA_1u7w-a1-m1-cB 1u7w-a2-m1-cC_1u7w-a2-m2-cC 1u7z-a2-m1-cC_1u7z-a2-m2-cC 1u80-a1-m1-cA_1u80-a1-m1-cB 1u80-a2-m1-cC_1u80-a2-m2-cC VNDLKHLNIMITAGPTREPLDPVRYISDHSSGKMGFAIAAAAARRGANVTLVSGPVSLPTPPFVKRVDVMTALEMEAAVNASVQQQNIFIGCAAVADYRAATVAPEKIDELTIKMVKNPDIVAGVAALKDHRPYVVGFAAETNNVEEYARQKRIRKNLDLICANDVSQPTQGFNSDNNALHLFWQDGDKVLPLERKELLGQLLLDEIVTRYDEKNR SPVNDLKHLNIMITAGPTREPLDPVRYISDHSSGKMGFAIAAAAARRGANVTLVSGPVSLPTPPFVKRVDVMTALEMEAAVNASVQQQNIFIGCAAVADYRAATVAPEKIELTIKMVKNPDIVAGVAALKDHRPYVVGFAAETNNVEEYARQKRIRKNLDLICANDVSQPTQGFNSDNNALHLFWQDGDKVLPLERKELLGQLLLDEIVTRYDEKNRR 1u83-a2-m2-cA_1u83-a2-m3-cA PSL synthase from Bacillus subtilis O06739 O06739 2.2 X-RAY DIFFRACTION 75 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 223 223 1u83-a2-m1-cA_1u83-a2-m2-cA 1u83-a2-m1-cA_1u83-a2-m3-cA DFSLELPVRTNKPRETGQSILIDNGYPLQFFKDAIAGASDYIDFVKFGWGTSLLTKDLEEKISTLKEHDITFFFGGTLFEKYVSQKKVNEFHRYCTYFGCEYIEISNGTLPTNKEKAAYIADFSDEFLVLSEVGSKDQSSEEWLEYIVEDEAGAEKVITEQIVDDIISSDIDINRLIFEAPNKTLQQGFIQKIGPNVNLANIPFHDAIALETLRLGLRSDTFF DFSLELPVRTNKPRETGQSILIDNGYPLQFFKDAIAGASDYIDFVKFGWGTSLLTKDLEEKISTLKEHDITFFFGGTLFEKYVSQKKVNEFHRYCTYFGCEYIEISNGTLPTNKEKAAYIADFSDEFLVLSEVGSKDQSSEEWLEYIVEDEAGAEKVITEQIVDDIISSDIDINRLIFEAPNKTLQQGFIQKIGPNVNLANIPFHDAIALETLRLGLRSDTFF 1u8s-a1-m1-cA_1u8s-a1-m1-cB Crystal structure of putative glycine cleavage system transcriptional repressor Q9KQ45 Q9KQ45 2.45 X-RAY DIFFRACTION 189 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 171 172 SLTQHLVITAVGTDRPGICNEVVRLVTQAGCNIIDSRIAMFGKEFTLLMLISGSPSNITRVETTLPLLGQQHDLITMMKRTSPHDHQTHAYTVEVYVESDDKLGLTEKFTQFFAQRQIGMASLSAQTISNQFHIAISARVDSGCNLMQLQEEFDALCTALDVQGSLNFIKN SLTQHLVITAVGTDRPGICNEVVRLVTQAGCNIIDSRIAMFGKEFTLLMLISGSPSNITRVETTLPLLGQQHDLITMMKRTSPHDHQTHAYTVEVYVESDDKLGLTEKFTQFFAQRQIGMASLSAQTISKNQFHIAISARVDSGCNLMQLQEEFDALCTALDVQGSLNFIKN 1u8v-a1-m1-cB_1u8v-a1-m1-cD Crystal Structure of 4-Hydroxybutyryl-CoA Dehydratase from Clostridium aminobutyricum: Radical catalysis involving a [4Fe-4S] cluster and flavin P55792 P55792 1.6 X-RAY DIFFRACTION 182 1.0 33953 (Clostridium aminobutyricum) 33953 (Clostridium aminobutyricum) 490 490 1u8v-a1-m1-cA_1u8v-a1-m1-cC MLMTAEQYIESLRKLNTRVYMFGEKIENWVDHPMIRPSINCVRMTYELAQDPQYADLMTTKSNLIGKTINRFANLHQSTDDLRKKVKMQRLLGQKTASCFQRCVGMDAFNAVFSTTYEIDQKYGTNYHKNFTEYLKYIQENDLIVDGAMTDPKGDRGLAPSAQKDPDLFLRIVEKREDGIVVRGAKAHQTGSINSHEHIIMPTIAMTEADKDYAVSFACPSDADGLFMIYGRQSCDTRKMEEGADIDLGNKQFGGQEALVVFDNVFIPNDRIFLCQEYDFAGMMVERFAGYHRQSYGGCKVGVGDVVIGAAALAADYNGAQKASHVKDKLIEMTHLNETLYCCGIACSAEGYPTAAGNYQIDLLLANVCKQNITRFPYEIVRLAEDIAGGLMVTMPSEADFKSETVVGRDGETIGDFCNKFFAAAPTCTTEERMRVLRFLENICLGASAVGYRTESMHGAGSPQAQRIMIARQGNINAKKELAKAIAGIK MLMTAEQYIESLRKLNTRVYMFGEKIENWVDHPMIRPSINCVRMTYELAQDPQYADLMTTKSNLIGKTINRFANLHQSTDDLRKKVKMQRLLGQKTASCFQRCVGMDAFNAVFSTTYEIDQKYGTNYHKNFTEYLKYIQENDLIVDGAMTDPKGDRGLAPSAQKDPDLFLRIVEKREDGIVVRGAKAHQTGSINSHEHIIMPTIAMTEADKDYAVSFACPSDADGLFMIYGRQSCDTRKMEEGADIDLGNKQFGGQEALVVFDNVFIPNDRIFLCQEYDFAGMMVERFAGYHRQSYGGCKVGVGDVVIGAAALAADYNGAQKASHVKDKLIEMTHLNETLYCCGIACSAEGYPTAAGNYQIDLLLANVCKQNITRFPYEIVRLAEDIAGGLMVTMPSEADFKSETVVGRDGETIGDFCNKFFAAAPTCTTEERMRVLRFLENICLGASAVGYRTESMHGAGSPQAQRIMIARQGNINAKKELAKAIAGIK 1u8v-a1-m1-cC_1u8v-a1-m1-cD Crystal Structure of 4-Hydroxybutyryl-CoA Dehydratase from Clostridium aminobutyricum: Radical catalysis involving a [4Fe-4S] cluster and flavin P55792 P55792 1.6 X-RAY DIFFRACTION 264 1.0 33953 (Clostridium aminobutyricum) 33953 (Clostridium aminobutyricum) 490 490 1u8v-a1-m1-cA_1u8v-a1-m1-cB MLMTAEQYIESLRKLNTRVYMFGEKIENWVDHPMIRPSINCVRMTYELAQDPQYADLMTTKSNLIGKTINRFANLHQSTDDLRKKVKMQRLLGQKTASCFQRCVGMDAFNAVFSTTYEIDQKYGTNYHKNFTEYLKYIQENDLIVDGAMTDPKGDRGLAPSAQKDPDLFLRIVEKREDGIVVRGAKAHQTGSINSHEHIIMPTIAMTEADKDYAVSFACPSDADGLFMIYGRQSCDTRKMEEGADIDLGNKQFGGQEALVVFDNVFIPNDRIFLCQEYDFAGMMVERFAGYHRQSYGGCKVGVGDVVIGAAALAADYNGAQKASHVKDKLIEMTHLNETLYCCGIACSAEGYPTAAGNYQIDLLLANVCKQNITRFPYEIVRLAEDIAGGLMVTMPSEADFKSETVVGRDGETIGDFCNKFFAAAPTCTTEERMRVLRFLENICLGASAVGYRTESMHGAGSPQAQRIMIARQGNINAKKELAKAIAGIK MLMTAEQYIESLRKLNTRVYMFGEKIENWVDHPMIRPSINCVRMTYELAQDPQYADLMTTKSNLIGKTINRFANLHQSTDDLRKKVKMQRLLGQKTASCFQRCVGMDAFNAVFSTTYEIDQKYGTNYHKNFTEYLKYIQENDLIVDGAMTDPKGDRGLAPSAQKDPDLFLRIVEKREDGIVVRGAKAHQTGSINSHEHIIMPTIAMTEADKDYAVSFACPSDADGLFMIYGRQSCDTRKMEEGADIDLGNKQFGGQEALVVFDNVFIPNDRIFLCQEYDFAGMMVERFAGYHRQSYGGCKVGVGDVVIGAAALAADYNGAQKASHVKDKLIEMTHLNETLYCCGIACSAEGYPTAAGNYQIDLLLANVCKQNITRFPYEIVRLAEDIAGGLMVTMPSEADFKSETVVGRDGETIGDFCNKFFAAAPTCTTEERMRVLRFLENICLGASAVGYRTESMHGAGSPQAQRIMIARQGNINAKKELAKAIAGIK 1u8w-a1-m1-cB_1u8w-a1-m1-cF Crystal structure of Arabidopsis thaliana nucleoside diphosphate kinase 1 P39207 P39207 2.4 X-RAY DIFFRACTION 68 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 149 149 1u8w-a1-m1-cA_1u8w-a1-m1-cD 1u8w-a1-m1-cC_1u8w-a1-m1-cE MEQTFIMIKPDGVQRGLIGEVICRFEKKGFTLKGLKLISVERSFAEKHYEDLSSKSFFSGLVDYIVSGPVVAMIWEGKNVVLTGRKIIGATNPAASEPGTIRGDFAIDIGRNVIHGSDSVESARKEIALWFPDGPVNWQSSVHPWVYET MEQTFIMIKPDGVQRGLIGEVICRFEKKGFTLKGLKLISVERSFAEKHYEDLSSKSFFSGLVDYIVSGPVVAMIWEGKNVVLTGRKIIGATNPAASEPGTIRGDFAIDIGRNVIHGSDSVESARKEIALWFPDGPVNWQSSVHPWVYET 1u8w-a1-m1-cE_1u8w-a1-m1-cF Crystal structure of Arabidopsis thaliana nucleoside diphosphate kinase 1 P39207 P39207 2.4 X-RAY DIFFRACTION 49 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 149 149 1u8w-a1-m1-cA_1u8w-a1-m1-cB 1u8w-a1-m1-cA_1u8w-a1-m1-cC 1u8w-a1-m1-cB_1u8w-a1-m1-cC 1u8w-a1-m1-cD_1u8w-a1-m1-cE 1u8w-a1-m1-cD_1u8w-a1-m1-cF MEQTFIMIKPDGVQRGLIGEVICRFEKKGFTLKGLKLISVERSFAEKHYEDLSSKSFFSGLVDYIVSGPVVAMIWEGKNVVLTGRKIIGATNPAASEPGTIRGDFAIDIGRNVIHGSDSVESARKEIALWFPDGPVNWQSSVHPWVYET MEQTFIMIKPDGVQRGLIGEVICRFEKKGFTLKGLKLISVERSFAEKHYEDLSSKSFFSGLVDYIVSGPVVAMIWEGKNVVLTGRKIIGATNPAASEPGTIRGDFAIDIGRNVIHGSDSVESARKEIALWFPDGPVNWQSSVHPWVYET 1u9d-a1-m1-cA_1u9d-a1-m1-cB Structure of Protein of Unknown Function from Vibrio cholerae O1 biovar eltor str. N16961 Q9KU16 Q9KU16 1.7 X-RAY DIFFRACTION 55 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 120 120 GVDLGTENLYFSSNAPHLRFRAVEAHIVESLVPTLLNELSSLLSTARNAFTFELINTQYFAEGGVYPVEVLWFGREQQTQDQIAQVITDQIRQLLGADSHLAVVFIPLQRTAYYLDGQHF GVDLGTENLYFSSNAPHLRFRAVEAHIVESLVPTLLNELSSLLSTARNAFTFELINTQYFAEGGVYPVEVLWFGREQQTQDQIAQVITDQIRQLLGADSHLAVVFIPLQRTAYYLDGQHF 1u9d-a3-m4-cB_1u9d-a3-m5-cB Structure of Protein of Unknown Function from Vibrio cholerae O1 biovar eltor str. N16961 Q9KU16 Q9KU16 1.7 X-RAY DIFFRACTION 65 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 120 120 1u9d-a2-m1-cA_1u9d-a2-m2-cA 1u9d-a2-m1-cA_1u9d-a2-m3-cA 1u9d-a2-m2-cA_1u9d-a2-m3-cA 1u9d-a3-m1-cB_1u9d-a3-m4-cB 1u9d-a3-m1-cB_1u9d-a3-m5-cB GVDLGTENLYFSSNAPHLRFRAVEAHIVESLVPTLLNELSSLLSTARNAFTFELINTQYFAEGGVYPVEVLWFGREQQTQDQIAQVITDQIRQLLGADSHLAVVFIPLQRTAYYLDGQHF GVDLGTENLYFSSNAPHLRFRAVEAHIVESLVPTLLNELSSLLSTARNAFTFELINTQYFAEGGVYPVEVLWFGREQQTQDQIAQVITDQIRQLLGADSHLAVVFIPLQRTAYYLDGQHF 1u9g-a2-m4-cB_1u9g-a2-m6-cA Heterocyclic Peptide Backbone Modification in GCN4-pLI Based Coiled Coils: Replacement of K(8)L(9) 2.2 X-RAY DIFFRACTION 19 1.0 21 21 1u9g-a2-m1-cB_1u9g-a2-m5-cA 1u9g-a2-m2-cA_1u9g-a2-m3-cB EEILSKLYHIENELARIKKLL EEILSKLYHIENELARIKKLL 1u9g-a4-m4-cA_1u9g-a4-m4-cB Heterocyclic Peptide Backbone Modification in GCN4-pLI Based Coiled Coils: Replacement of K(8)L(9) 2.2 X-RAY DIFFRACTION 27 1.0 21 21 1gcl-a1-m1-cA_1gcl-a1-m1-cB 1gcl-a1-m1-cA_1gcl-a1-m1-cD 1gcl-a1-m1-cC_1gcl-a1-m1-cD 1u9g-a1-m1-cA_1u9g-a1-m1-cB 1u9g-a1-m1-cA_1u9g-a1-m2-cB 1u9g-a1-m1-cB_1u9g-a1-m2-cA 1u9g-a1-m2-cA_1u9g-a1-m2-cB 1u9g-a2-m1-cB_1u9g-a2-m2-cA 1u9g-a2-m3-cB_1u9g-a2-m6-cA 1u9g-a2-m4-cB_1u9g-a2-m5-cA 1u9g-a3-m1-cA_1u9g-a3-m1-cB 1u9g-a3-m7-cA_1u9g-a3-m7-cB 1u9g-a3-m8-cA_1u9g-a3-m8-cB 1u9g-a4-m1-cA_1u9g-a4-m1-cB 1u9g-a4-m3-cA_1u9g-a4-m3-cB 1unt-a1-m1-cA_1unt-a1-m1-cB 1unt-a1-m1-cA_1unt-a1-m2-cB 1unt-a1-m2-cA_1unt-a1-m1-cB 1unt-a1-m2-cA_1unt-a1-m2-cB 1unu-a1-m1-cA_1unu-a1-m1-cB 1unu-a1-m1-cA_1unu-a1-m2-cB 1unu-a1-m1-cB_1unu-a1-m2-cA 1unu-a1-m2-cA_1unu-a1-m2-cB 1uo3-a1-m1-cA_1uo3-a1-m1-cB 1uo3-a1-m1-cA_1uo3-a1-m2-cB 1uo3-a1-m1-cB_1uo3-a1-m2-cA 1uo3-a1-m2-cA_1uo3-a1-m2-cB 1uo4-a1-m1-cA_1uo4-a1-m1-cB 1uo4-a1-m1-cA_1uo4-a1-m2-cB 1uo4-a1-m1-cB_1uo4-a1-m2-cA 1uo4-a1-m2-cA_1uo4-a1-m2-cB 1uo5-a1-m1-cA_1uo5-a1-m1-cB 1uo5-a1-m1-cA_1uo5-a1-m2-cB 1uo5-a1-m1-cB_1uo5-a1-m2-cA 1uo5-a1-m2-cA_1uo5-a1-m2-cB 1w5l-a1-m1-cA_1w5l-a1-m1-cB 1w5l-a1-m1-cA_1w5l-a1-m2-cB 1w5l-a1-m2-cA_1w5l-a1-m1-cB 1w5l-a1-m2-cA_1w5l-a1-m2-cB 2cce-a1-m1-cA_2cce-a1-m1-cB 2cce-a1-m1-cA_2cce-a1-m2-cB 2cce-a1-m1-cB_2cce-a1-m2-cA 2cce-a1-m2-cA_2cce-a1-m2-cB EEILSKLYHIENELARIKKLL EEILSKLYHIENELARIKKLL 1u9h-a2-m1-cB_1u9h-a2-m1-cA Heterocyclic Peptide Backbone Modification in GCN4-pLI Based Coiled Coils: Replacement of E(22)L(23) 2.17 X-RAY DIFFRACTION 34 1.0 28 30 1u9h-a1-m1-cB_1u9h-a1-m1-cA 1u9h-a1-m1-cB_1u9h-a1-m2-cA 1u9h-a1-m2-cB_1u9h-a1-m1-cA 1u9h-a1-m2-cB_1u9h-a1-m2-cA RMKQIEDKLEEILSKLYHIENARIKKLL RMKQIEDKLEEILSKLYHIENARIKKLLGE 1u9i-a1-m1-cB_1u9i-a1-m1-cC Crystal Structure of Circadian Clock Protein KaiC with Phosphorylation Sites Q79PF4 Q79PF4 2.8 X-RAY DIFFRACTION 182 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 482 483 1tf7-a1-m1-cA_1tf7-a1-m1-cB 1tf7-a1-m1-cA_1tf7-a1-m1-cF 1tf7-a1-m1-cB_1tf7-a1-m1-cC 1tf7-a1-m1-cC_1tf7-a1-m1-cD 1tf7-a1-m1-cD_1tf7-a1-m1-cE 1tf7-a1-m1-cE_1tf7-a1-m1-cF 1u9i-a1-m1-cA_1u9i-a1-m1-cB 1u9i-a1-m1-cA_1u9i-a1-m1-cF 1u9i-a1-m1-cC_1u9i-a1-m1-cD 1u9i-a1-m1-cE_1u9i-a1-m1-cD 1u9i-a1-m1-cE_1u9i-a1-m1-cF 2gbl-a1-m1-cA_2gbl-a1-m1-cF 2gbl-a1-m1-cB_2gbl-a1-m1-cA 2gbl-a1-m1-cC_2gbl-a1-m1-cB 2gbl-a1-m1-cD_2gbl-a1-m1-cC 2gbl-a1-m1-cD_2gbl-a1-m1-cE 3dvl-a1-m1-cA_3dvl-a1-m1-cF 3dvl-a1-m1-cB_3dvl-a1-m1-cA 3dvl-a1-m1-cC_3dvl-a1-m1-cB 3dvl-a1-m1-cD_3dvl-a1-m1-cC 3dvl-a1-m1-cD_3dvl-a1-m1-cE 3jzm-a1-m1-cA_3jzm-a1-m1-cB 3jzm-a1-m1-cA_3jzm-a1-m1-cF 3jzm-a1-m1-cB_3jzm-a1-m1-cC 3jzm-a1-m1-cC_3jzm-a1-m1-cD 3jzm-a1-m1-cD_3jzm-a1-m1-cE 3k09-a1-m1-cA_3k09-a1-m1-cF 3k09-a1-m1-cB_3k09-a1-m1-cA 3k09-a1-m1-cC_3k09-a1-m1-cB 3k09-a1-m1-cD_3k09-a1-m1-cC 3k09-a1-m1-cD_3k09-a1-m1-cE 3k09-a1-m1-cE_3k09-a1-m1-cF 3k0a-a1-m1-cA_3k0a-a1-m1-cF 3k0a-a1-m1-cB_3k0a-a1-m1-cA 3k0a-a1-m1-cC_3k0a-a1-m1-cB 3k0a-a1-m1-cD_3k0a-a1-m1-cC 3k0a-a1-m1-cD_3k0a-a1-m1-cE 3k0c-a1-m1-cA_3k0c-a1-m1-cF 3k0c-a1-m1-cB_3k0c-a1-m1-cA 3k0c-a1-m1-cC_3k0c-a1-m1-cB 3k0c-a1-m1-cD_3k0c-a1-m1-cC 3k0c-a1-m1-cD_3k0c-a1-m1-cE 3k0e-a1-m1-cA_3k0e-a1-m1-cF 3k0e-a1-m1-cB_3k0e-a1-m1-cA 3k0e-a1-m1-cC_3k0e-a1-m1-cB 3k0e-a1-m1-cD_3k0e-a1-m1-cC 3k0e-a1-m1-cD_3k0e-a1-m1-cE 3k0f-a1-m1-cB_3k0f-a1-m1-cA 3k0f-a1-m1-cC_3k0f-a1-m1-cB 3k0f-a1-m1-cD_3k0f-a1-m1-cC 3k0f-a1-m1-cD_3k0f-a1-m1-cE 3k0f-a1-m1-cF_3k0f-a1-m1-cA 3s1a-a1-m1-cA_3s1a-a1-m1-cF 3s1a-a1-m1-cB_3s1a-a1-m1-cA 3s1a-a1-m1-cC_3s1a-a1-m1-cB 3s1a-a1-m1-cD_3s1a-a1-m1-cC 3s1a-a1-m1-cD_3s1a-a1-m1-cE 4dug-a1-m1-cA_4dug-a1-m1-cF 4dug-a1-m1-cB_4dug-a1-m1-cA 4dug-a1-m1-cC_4dug-a1-m1-cB 4dug-a1-m1-cC_4dug-a1-m1-cD 4dug-a1-m1-cD_4dug-a1-m1-cE 4ijm-a1-m1-cA_4ijm-a1-m1-cF 4ijm-a1-m1-cB_4ijm-a1-m1-cA 4ijm-a1-m1-cC_4ijm-a1-m1-cB 4ijm-a1-m1-cD_4ijm-a1-m1-cC 4ijm-a1-m1-cD_4ijm-a1-m1-cE 7dxq-a1-m1-cA_7dxq-a1-m1-cB 7dxq-a1-m1-cA_7dxq-a1-m1-cF 7dxq-a1-m1-cC_7dxq-a1-m1-cB 7dxq-a1-m1-cD_7dxq-a1-m1-cC 7dxq-a1-m1-cD_7dxq-a1-m1-cE 7dxq-a1-m1-cE_7dxq-a1-m1-cF 7dy2-a1-m1-cA_7dy2-a1-m1-cF 7dy2-a1-m1-cB_7dy2-a1-m1-cA 7dy2-a1-m1-cB_7dy2-a1-m1-cC 7dy2-a1-m1-cD_7dy2-a1-m1-cC 7dy2-a1-m1-cD_7dy2-a1-m1-cE 7dy2-a2-m1-cG_7dy2-a2-m1-cH 7dy2-a2-m1-cH_7dy2-a2-m1-cI 7dy2-a2-m1-cJ_7dy2-a2-m1-cI 7dy2-a2-m1-cJ_7dy2-a2-m1-cK 7dy2-a2-m1-cL_7dy2-a2-m1-cG 7dy2-a2-m1-cL_7dy2-a2-m1-cK 7dye-a1-m1-cA_7dye-a1-m1-cB 7dye-a1-m1-cA_7dye-a1-m2-cB 7dye-a1-m1-cB_7dye-a1-m3-cA 7dye-a1-m2-cA_7dye-a1-m2-cB 7dye-a1-m2-cA_7dye-a1-m3-cB 7dye-a1-m3-cA_7dye-a1-m3-cB 7dyi-a1-m1-cB_7dyi-a1-m1-cA 7dyi-a1-m1-cB_7dyi-a1-m3-cA 7dyi-a1-m2-cB_7dyi-a1-m1-cA 7dyi-a1-m2-cB_7dyi-a1-m2-cA 7dyi-a1-m3-cB_7dyi-a1-m2-cA 7dyi-a1-m3-cB_7dyi-a1-m3-cA 7dyj-a1-m1-cA_7dyj-a1-m1-cB 7dyj-a1-m1-cA_7dyj-a1-m3-cB 7dyj-a1-m2-cA_7dyj-a1-m1-cB 7dyj-a1-m2-cA_7dyj-a1-m2-cB 7dyj-a1-m3-cA_7dyj-a1-m2-cB 7dyj-a1-m3-cA_7dyj-a1-m3-cB 7dyk-a1-m1-cA_7dyk-a1-m1-cB 7dyk-a1-m1-cA_7dyk-a1-m2-cB 7dyk-a1-m2-cA_7dyk-a1-m2-cB 7dyk-a1-m2-cA_7dyk-a1-m3-cB 7dyk-a1-m3-cA_7dyk-a1-m1-cB 7dyk-a1-m3-cA_7dyk-a1-m3-cB 7v3x-a1-m1-cA_7v3x-a1-m1-cB 7v3x-a1-m1-cB_7v3x-a1-m1-cC 7v3x-a1-m1-cD_7v3x-a1-m1-cC 7v3x-a1-m1-cE_7v3x-a1-m1-cD 7v3x-a1-m1-cF_7v3x-a1-m1-cA 7v3x-a1-m1-cF_7v3x-a1-m1-cE 7v3x-a2-m1-cG_7v3x-a2-m1-cH 7v3x-a2-m1-cG_7v3x-a2-m1-cL 7v3x-a2-m1-cH_7v3x-a2-m1-cI 7v3x-a2-m1-cJ_7v3x-a2-m1-cK 7v3x-a2-m1-cL_7v3x-a2-m1-cK 7v3x-a3-m1-cM_7v3x-a3-m1-cR 7v3x-a3-m1-cN_7v3x-a3-m1-cM 7v3x-a3-m1-cN_7v3x-a3-m1-cO 7v3x-a3-m1-cP_7v3x-a3-m1-cO 7v3x-a3-m1-cP_7v3x-a3-m1-cQ 7v3x-a3-m1-cR_7v3x-a3-m1-cQ 7v3x-a4-m1-cS_7v3x-a4-m1-cX 7v3x-a4-m1-cV_7v3x-a4-m1-cW 7wdc-a1-m1-cA_7wdc-a1-m1-cB 7wdc-a1-m1-cA_7wdc-a1-m2-cB 7wdc-a1-m2-cA_7wdc-a1-m2-cB 7wdc-a1-m2-cA_7wdc-a1-m3-cB 7wdc-a1-m3-cA_7wdc-a1-m1-cB 7wdc-a1-m3-cA_7wdc-a1-m3-cB EHQAIAKMRTMIEGFDDISHGGLPIGRSTLVSGTSGTGKTLFSIQFLYNGIIEFDEPGVFVTFEETPQDIIKNARSFGWDLAKLVDEGKLFILDASPDPEGQEVVGGFDLSALIERINYAIQKYRARRVSIDSVTSVFQQYDASSVVRRELFRLVARLKQIGATTVMTTERIEEYGPIARYGVEEFVSDNVVILRNVLEGERRRRTLEILKLRGTSHMKGEYPFTITDHGINIFPLGAMRLTQRSSNVRVSSGVVRLDEMCGGGFFKDSIILATGATGTGKTLLVSRFVENACANKERAILFAYEESRAQLLRNAYSWGMDFEEMERQNLLKIVCAYPESAGLEDHLQIIKSEINDFKPARIAIDSLSALARGVSNNAFRQFVIGVTGYAKQEEITGLFTNTSDQFMGAHSITDSHIITDTIILLQYVEIRGEMSRAINVFKMRGSWHDKAIREFMISDKGPDIKDSFRNFERIISGSPTRI EHQAIAKMRTMIEGFDDISHGGLPIGRSTLVSGTSGTGKTLFSIQFLYNGIIEFDEPGVFVTFEETPQDIIKNARSFGWDLAKLVDEGKLFILDASPDPEGQEVVGGFDLSALIERINYAIQKYRARRVSIDSVTSVFQQYDASSVVRRELFRLVARLKQIGATTVMTTERIEEYGPIARYGVEEFVSDNVVILRNVLEGERRRRTLEILKLRGTSHMKGEYPFTITDHGINIFPLGAMRLTQRSSNVRVSSGVVRLDEMCGGGFFKDSIILATGATGTGKTLLVSRFVENACANKERAILFAYEESRAQLLRNAYSWGMDFEEMERQNLLKIVCAYPESAGLEDHLQIIKSEINDFKPARIAIDSLSALARGVSNNAFRQFVIGVTGYAKQEEITGLFTNTSDQFMGAHSITDSHISITDTIILLQYVEIRGEMSRAINVFKMRGSWHDKAIREFMISDKGPDIKDSFRNFERIISGSPTRI 1u9j-a3-m3-cA_1u9j-a3-m6-cA Crystal Structure of E. coli ArnA (PmrI) Decarboxylase Domain P77398 P77398 2.4 X-RAY DIFFRACTION 105 1.0 562 (Escherichia coli) 562 (Escherichia coli) 332 332 1u9j-a2-m1-cA_1u9j-a2-m2-cA 1u9j-a3-m1-cA_1u9j-a3-m2-cA 1u9j-a3-m4-cA_1u9j-a3-m5-cA 1z73-a2-m1-cA_1z73-a2-m4-cA 1z73-a2-m2-cA_1z73-a2-m6-cA 1z73-a2-m3-cA_1z73-a2-m5-cA 1z75-a2-m1-cA_1z75-a2-m4-cA 1z75-a2-m2-cA_1z75-a2-m6-cA 1z75-a2-m3-cA_1z75-a2-m5-cA 1z7e-a1-m1-cA_1z7e-a1-m1-cD 1z7e-a1-m1-cB_1z7e-a1-m1-cE 1z7e-a1-m1-cC_1z7e-a1-m1-cF 2bll-a1-m1-cA_2bll-a1-m2-cA 4wkg-a1-m1-cA_4wkg-a1-m1-cD 4wkg-a1-m1-cB_4wkg-a1-m1-cE 4wkg-a1-m1-cC_4wkg-a1-m1-cF 6pih-a1-m1-cG_6pih-a1-m1-cK 6pih-a1-m1-cH_6pih-a1-m1-cJ 6pih-a1-m1-cI_6pih-a1-m1-cL 6pik-a1-m1-cF_6pik-a1-m1-cG RTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESVEHRKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLT RTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESVEHRKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLT 1u9t-a1-m1-cA_1u9t-a1-m2-cA Crystal Structure Analysis of ChuS, an E. coli Heme Oxygenase Q8X5N8 Q8X5N8 2.16 X-RAY DIFFRACTION 23 1.0 155864 (Escherichia coli O157:H7 str. EDL933) 155864 (Escherichia coli O157:H7 str. EDL933) 327 327 MNHYTRWLELKEQARDIAGLMNIREAELAFARVTHDAWRMHGDIRDILAALESVGETKCICRNEYAVHEQVGTFTNQHLNGHAGLILNPRALDLRLFLNQWASVFHIKENTARGERQSIQFFDHQGDALLKVYATDNTDMAAWSELLARFITDENTPLELKVVQTRADATVVEQEWRAMTDVHQFFTLLKRHNLTRQQAFNLVADDLACKVSNSALAQILESAQQDGNEIMVFVGNRGCVQIFTGVVEKVVPMKGWLNIFNPTFTLHLLEESIAEAWVTRKPTSDGYVTSLELFAHDGTQIAQLYGQRTEGDQEQAQWRKQIASLIP MNHYTRWLELKEQARDIAGLMNIREAELAFARVTHDAWRMHGDIRDILAALESVGETKCICRNEYAVHEQVGTFTNQHLNGHAGLILNPRALDLRLFLNQWASVFHIKENTARGERQSIQFFDHQGDALLKVYATDNTDMAAWSELLARFITDENTPLELKVVQTRADATVVEQEWRAMTDVHQFFTLLKRHNLTRQQAFNLVADDLACKVSNSALAQILESAQQDGNEIMVFVGNRGCVQIFTGVVEKVVPMKGWLNIFNPTFTLHLLEESIAEAWVTRKPTSDGYVTSLELFAHDGTQIAQLYGQRTEGDQEQAQWRKQIASLIP 1u9y-a1-m1-cA_1u9y-a1-m1-cD Crystal Structure of Phosphoribosyl Diphosphate Synthase from Methanocaldococcus jannaschii Q58761 Q58761 2.65 X-RAY DIFFRACTION 79 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 274 274 1u9y-a1-m1-cB_1u9y-a1-m1-cC 1u9z-a1-m1-cA_1u9z-a1-m1-cD 1u9z-a1-m1-cB_1u9z-a1-m1-cC MIVVSGSQSQNLAFKVAKLLNTKLTRVEYKRFPDNEIYVRIVDEINDDEAVIINTQKNQNDAIVETILLCDALRDEGVKKITLVAPYLAYARQDKKFNPGEAISIRALAKIYSNIVDKLITINPHETHIKDFFTIPFIYGDAVPKLAEYVKDKLNDPIVLAPDKGALEFAKTASKILNAEYDYLEIAPKTLDAKDRDVFIVDDIISTGGTMATAVKLLKEQGAKKIIAACVHPVLIGDALNKLYSAGVEEVVGTDTYLSEVSKVSVAEVIVDLL MIVVSGSQSQNLAFKVAKLLNTKLTRVEYKRFPDNEIYVRIVDEINDDEAVIINTQKNQNDAIVETILLCDALRDEGVKKITLVAPYLAYARQDKKFNPGEAISIRALAKIYSNIVDKLITINPHETHIKDFFTIPFIYGDAVPKLAEYVKDKLNDPIVLAPDKGALEFAKTASKILNAEYDYLEIAPKTLDAKDRDVFIVDDIISTGGTMATAVKLLKEQGAKKIIAACVHPVLIGDALNKLYSAGVEEVVGTDTYLSEVSKVSVAEVIVDLL 1u9y-a1-m1-cC_1u9y-a1-m1-cD Crystal Structure of Phosphoribosyl Diphosphate Synthase from Methanocaldococcus jannaschii Q58761 Q58761 2.65 X-RAY DIFFRACTION 122 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 274 274 1u9y-a1-m1-cA_1u9y-a1-m1-cB 1u9z-a1-m1-cA_1u9z-a1-m1-cB 1u9z-a1-m1-cC_1u9z-a1-m1-cD MIVVSGSQSQNLAFKVAKLLNTKLTRVEYKRFPDNEIYVRIVDEINDDEAVIINTQKNQNDAIVETILLCDALRDEGVKKITLVAPYLAYARQDKKFNPGEAISIRALAKIYSNIVDKLITINPHETHIKDFFTIPFIYGDAVPKLAEYVKDKLNDPIVLAPDKGALEFAKTASKILNAEYDYLEIAPKTLDAKDRDVFIVDDIISTGGTMATAVKLLKEQGAKKIIAACVHPVLIGDALNKLYSAGVEEVVGTDTYLSEVSKVSVAEVIVDLL MIVVSGSQSQNLAFKVAKLLNTKLTRVEYKRFPDNEIYVRIVDEINDDEAVIINTQKNQNDAIVETILLCDALRDEGVKKITLVAPYLAYARQDKKFNPGEAISIRALAKIYSNIVDKLITINPHETHIKDFFTIPFIYGDAVPKLAEYVKDKLNDPIVLAPDKGALEFAKTASKILNAEYDYLEIAPKTLDAKDRDVFIVDDIISTGGTMATAVKLLKEQGAKKIIAACVHPVLIGDALNKLYSAGVEEVVGTDTYLSEVSKVSVAEVIVDLL 1uaa-a1-m1-cB_1uaa-a1-m1-cA E. COLI REP HELICASE/DNA COMPLEX P09980 P09980 3 X-RAY DIFFRACTION 36 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 633 636 RLNPGQQQAVEFVTGPCLVLAGAGSGKTRVITNKIAHLIRGCGYQARHIAAVTFTNKAAREMKERVGQTLGRKEARGLMISTFHTLGLDIIKREYAALGMKANFSLFDDTDQLALLKELTEGLIEDDKVLLQQLISTISNWKNDLKTPSQAAASAIGERDRIFAHCYGLYDAHLKACNVLDFDDLILLPTLLLQANEEVRKRWQNKIRYLLVDEYQDTNTSQYELVKLLVGSRARFTVVGDDDQSIYSWRGARPQNLVLLSQDFPALKVIKLEQNYRSSGRILKAANILIANNPHVFEKRLFSELGYGAELKVLSANNEEHEAERVTGELIAHHFVNKTQYKDYAILYRGNHQSRVFEKFLMQNRIPYKISGGTSFFSRPEIKDLLAYLRVLTNPDDDSAFLRIVNTPKREIGPATLKKLGEWAMTRNKSMFTASFDMGLSQTLSGRGYEALTRFTHWLAEIQRLAEREPIAAVRDLIHGMDYESWLYETSPSPKAAEMRMKNVNQLFSWMTEMLEGSELDEPMTLTQVVTRFTLRDEELDQVQLMTLHASKGLEFPYVYMVGMEEGFLPHQSSIDEDNIDEERRLAYVGITRAQKELTFTLCKERRQYGELVRPEPSRFLLELPQDDLIWEQ RLNPGQQQAVEFVTGPCLVLAGAGSGKTRVITNKIAHLIRGCGYQARHIAAVTFTNKAAREMKERVGQTLGRKEARGLMISTFHTLGLDIIKREYAALGMKANFSLFDDTDQLALLKELTEGLIEDDKVLLQQLISTISNWKNDLKTPSQAAASAIGERDRIFAHCYGLYDAHLKACNVLDFDDLILLPTLLLQANEEVRKRWQNKIRYLLVDEYQDTNTSQYELVKLLVGSRARFTVVGDDDQSIYSWRGARPQNLVLLSQDFPALKVIKLEQNYRSSGRILKAANILIANNPHVFEKRLFSELGYGAELKVLSANNEEHEAERVTGELIAHHFVNKTQYKDYAILYRGNHQSRVFEKFLMQNRIPYKISGGTSFFSRPEIKDLLAYLRVLTNPDDDSAFLRIVNTPKREIGPATLKKLGEWAMTRNKSMFTASFDMGLSQTLSGRGYEALTRFTHWLAEIQRLAEREPIAAVRDLIHGMDYESWLYETSPSPKAAEMRMKNVNQLFSWMTEMLEGSELDEPMTLTQVVTRFTLRDMMEREEELDQVQLMTLHASKGLEFPYVYMVGMEEGFLPHQSSIDEDNIDEERRLAYVGITRAQKELTFTLCKERRQYGELVRPEPSRFLLELPQDDLIW 1uan-a1-m2-cB_1uan-a1-m3-cB Crystal structure of the conserved protein TT1542 from Thermus thermophilus HB8 Q84BR2 Q84BR2 2 X-RAY DIFFRACTION 26 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 219 219 1uan-a1-m1-cA_1uan-a1-m2-cA 1uan-a1-m1-cA_1uan-a1-m3-cA 1uan-a1-m1-cB_1uan-a1-m2-cB 1uan-a1-m1-cB_1uan-a1-m3-cB 1uan-a1-m2-cA_1uan-a1-m3-cA MLDLLVVAPHPDDGELGCGGTLARAKAEGLSTGILDLTRGEMGSKGTPEEREKEVAEASRILGLDFRGNLGFPDGGLADVPEQRLKLAQALRRLRPRVVFAPLEADRHPDHTAASRLAVAAVHLAGLRKAPLEGEPFRVERLFFYPGNHPFAPSFLVKISAFIDQWEAAVLAYRSQFVGPKGVEARKAMRRYWGNYLGVDYAEPFVSPLPVLYVPWSRA MLDLLVVAPHPDDGELGCGGTLARAKAEGLSTGILDLTRGEMGSKGTPEEREKEVAEASRILGLDFRGNLGFPDGGLADVPEQRLKLAQALRRLRPRVVFAPLEADRHPDHTAASRLAVAAVHLAGLRKAPLEGEPFRVERLFFYPGNHPFAPSFLVKISAFIDQWEAAVLAYRSQFVGPKGVEARKAMRRYWGNYLGVDYAEPFVSPLPVLYVPWSRA 1uan-a1-m3-cB_1uan-a1-m2-cA Crystal structure of the conserved protein TT1542 from Thermus thermophilus HB8 Q84BR2 Q84BR2 2 X-RAY DIFFRACTION 39 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 219 220 1uan-a1-m1-cB_1uan-a1-m3-cA 1uan-a1-m2-cB_1uan-a1-m1-cA MLDLLVVAPHPDDGELGCGGTLARAKAEGLSTGILDLTRGEMGSKGTPEEREKEVAEASRILGLDFRGNLGFPDGGLADVPEQRLKLAQALRRLRPRVVFAPLEADRHPDHTAASRLAVAAVHLAGLRKAPLEGEPFRVERLFFYPGNHPFAPSFLVKISAFIDQWEAAVLAYRSQFVGPKGVEARKAMRRYWGNYLGVDYAEPFVSPLPVLYVPWSRA MLDLLVVAPHPDDGELGCGGTLARAKAEGLSTGILDLTRGEMGSKGTPEEREKEVAEASRILGLDFRGNLGFPDGGLADVPEQRLKLAQALRRLRPRVVFAPLEADRHPDHTAASRLAVAAVHLAGLRKAPLEGEPFRVERLFFYPGNHPFAPSFLVKISAFIDQWEAAVLAYRSQFTVGPKGVEARKAMRRYWGNYLGVDYAEPFVSPLPVLYVPWSRA 1uan-a1-m3-cB_1uan-a1-m3-cA Crystal structure of the conserved protein TT1542 from Thermus thermophilus HB8 Q84BR2 Q84BR2 2 X-RAY DIFFRACTION 96 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 219 220 1uan-a1-m1-cB_1uan-a1-m1-cA 1uan-a1-m2-cB_1uan-a1-m2-cA MLDLLVVAPHPDDGELGCGGTLARAKAEGLSTGILDLTRGEMGSKGTPEEREKEVAEASRILGLDFRGNLGFPDGGLADVPEQRLKLAQALRRLRPRVVFAPLEADRHPDHTAASRLAVAAVHLAGLRKAPLEGEPFRVERLFFYPGNHPFAPSFLVKISAFIDQWEAAVLAYRSQFVGPKGVEARKAMRRYWGNYLGVDYAEPFVSPLPVLYVPWSRA MLDLLVVAPHPDDGELGCGGTLARAKAEGLSTGILDLTRGEMGSKGTPEEREKEVAEASRILGLDFRGNLGFPDGGLADVPEQRLKLAQALRRLRPRVVFAPLEADRHPDHTAASRLAVAAVHLAGLRKAPLEGEPFRVERLFFYPGNHPFAPSFLVKISAFIDQWEAAVLAYRSQFTVGPKGVEARKAMRRYWGNYLGVDYAEPFVSPLPVLYVPWSRA 1uat-a2-m1-cA_1uat-a2-m2-cA The significance of the flexible loop in the azurin (Az-iso2) from the obligate methylotroph Methylomonas sp. strain J P12335 P12335 1.9 X-RAY DIFFRACTION 45 1.0 32038 (Methylomonas sp. J) 32038 (Methylomonas sp. J) 129 129 ASCETTVTSGDTMTYSTRSISVPASCAEFTVNFEHKGHMPKTGMGHNWVLAKSADVGDVAKEGAHAGADNNFVTPGDKRVIAFTPIIGGGEKTSVKFKVSALSKDEAYTYFCSYPGHFSMMRGTLKLEE ASCETTVTSGDTMTYSTRSISVPASCAEFTVNFEHKGHMPKTGMGHNWVLAKSADVGDVAKEGAHAGADNNFVTPGDKRVIAFTPIIGGGEKTSVKFKVSALSKDEAYTYFCSYPGHFSMMRGTLKLEE 1uay-a1-m1-cB_1uay-a1-m2-cB Crystal Structure of Type II 3-Hydroxyacyl-CoA Dehydrogenase from Thermus thermophilus HB8 Q7SIA1 Q7SIA1 1.4 X-RAY DIFFRACTION 12 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 238 1uay-a1-m1-cA_1uay-a1-m2-cA MERSALVTGGASGLGRAAALALKARGYRVVVLDLRREGEDLIYVEGDVTREEDVRRAVARAQEEAPLFAVVSAAGVGLAEKILGKEGPHGLESFRRVLEVNLLGTFNVLRLAAWAMRENPPDAEGQRGVIVNTASVAAFEGQIGQAAYAASKGGVVALTLPAARELAGWGIRVVTVAPGLFDTPLPEKAKASLAAQVPFPPRLGRPEEYAALVLHILENPMLNGEVVRLDGALRMAPR MERSALVTGGASGLGRAAALALKARGYRVVVLDLRREGEDLIYVEGDVTREEDVRRAVARAQEEAPLFAVVSAAGVGLAEKILGKEGPHGLESFRRVLEVNLLGTFNVLRLAAWAMRENPPDAEGQRGVIVNTASVAAFEGQIGQAAYAASKGGVVALTLPAARELAGWGIRVVTVAPGLFDTPLPEKAKASLAAQVPFPPRLGRPEEYAALVLHILENPMLNGEVVRLDGALRMAPR 1uay-a1-m2-cB_1uay-a1-m1-cA Crystal Structure of Type II 3-Hydroxyacyl-CoA Dehydrogenase from Thermus thermophilus HB8 Q7SIA1 Q7SIA1 1.4 X-RAY DIFFRACTION 153 0.996 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 241 1uay-a1-m1-cB_1uay-a1-m2-cA MERSALVTGGASGLGRAAALALKARGYRVVVLDLRREGEDLIYVEGDVTREEDVRRAVARAQEEAPLFAVVSAAGVGLAEKILGKEGPHGLESFRRVLEVNLLGTFNVLRLAAWAMRENPPDAEGQRGVIVNTASVAAFEGQIGQAAYAASKGGVVALTLPAARELAGWGIRVVTVAPGLFDTPLPEKAKASLAAQVPFPPRLGRPEEYAALVLHILENPMLNGEVVRLDGALRMAPR ERSALVTGGASGLGRAAALALKARGYRVVVLDLRREGEDLIYVEGDVTREEDVRRAVARAQEEAPLFAVVSAAGVGLAEKILGKEGPHGLESFRRVLEVNLLGTFNVLRLAAWAMRENPPDAEGQRGVIVNTASVAAFEGQIGQAAYAASKGGVVALTLPAARELAGWGIRVVTVAPGLFDTPLLQGLPEKAKASLAAQVPFPPRLGRPEEYAALVLHILENPMLNGEVVRLDGALRMAPR 1uay-a1-m2-cB_1uay-a1-m2-cA Crystal Structure of Type II 3-Hydroxyacyl-CoA Dehydrogenase from Thermus thermophilus HB8 Q7SIA1 Q7SIA1 1.4 X-RAY DIFFRACTION 129 0.996 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 241 1uay-a1-m1-cB_1uay-a1-m1-cA MERSALVTGGASGLGRAAALALKARGYRVVVLDLRREGEDLIYVEGDVTREEDVRRAVARAQEEAPLFAVVSAAGVGLAEKILGKEGPHGLESFRRVLEVNLLGTFNVLRLAAWAMRENPPDAEGQRGVIVNTASVAAFEGQIGQAAYAASKGGVVALTLPAARELAGWGIRVVTVAPGLFDTPLPEKAKASLAAQVPFPPRLGRPEEYAALVLHILENPMLNGEVVRLDGALRMAPR ERSALVTGGASGLGRAAALALKARGYRVVVLDLRREGEDLIYVEGDVTREEDVRRAVARAQEEAPLFAVVSAAGVGLAEKILGKEGPHGLESFRRVLEVNLLGTFNVLRLAAWAMRENPPDAEGQRGVIVNTASVAAFEGQIGQAAYAASKGGVVALTLPAARELAGWGIRVVTVAPGLFDTPLLQGLPEKAKASLAAQVPFPPRLGRPEEYAALVLHILENPMLNGEVVRLDGALRMAPR 1uaz-a1-m1-cA_1uaz-a1-m1-cB Crystal structure of archaerhodopsin-1 P69051 P69051 3.4 X-RAY DIFFRACTION 33 1.0 236 236 TAAVGADLLGDGRPETLWLGIGTLLMLIGTFYFIVKGWGVTDKEAREYYSITILVPGIASAAYLSMFFGIGLTEVQVGSEMLDIYYARYADWLFTTPLLLLDLALLAKVDRVSIGTLVGVDALMIVTGLVGALSHTPLARYTWWLFSTICMIVVLYFLATSLRAAAKERGPEVASTFNTLTALVLVLWTAYPILWIIGTEGAGVVGLGIETLLFMVLDVTAKVGFGFILLRSRAIL TAAVGADLLGDGRPETLWLGIGTLLMLIGTFYFIVKGWGVTDKEAREYYSITILVPGIASAAYLSMFFGIGLTEVQVGSEMLDIYYARYADWLFTTPLLLLDLALLAKVDRVSIGTLVGVDALMIVTGLVGALSHTPLARYTWWLFSTICMIVVLYFLATSLRAAAKERGPEVASTFNTLTALVLVLWTAYPILWIIGTEGAGVVGLGIETLLFMVLDVTAKVGFGFILLRSRAIL 1ub0-a1-m1-cA_1ub0-a1-m2-cA Crystal Structure Analysis of Phosphomethylpyrimidine Kinase (ThiD) from Thermus Thermophilus Hb8 Q7SIA0 Q7SIA0 2.05 X-RAY DIFFRACTION 149 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 246 246 MRVALTIAGSDSGGGAGVQADLKVFFRFGVYGTSALTLVTAQNTLGVQRVHLLPPEVVYAQIESVAQDFPLHAAKTGALGDAAIVEAVAEAVRRFGVRPLVVDPVMAKEAAAALKERLFPLADLVTPNRLEAEALLGRPIRTLKEAEEAAKALLALGPKAVLLKGGHLEAVDLLATRGGVLRFSAPRVHTRNTHGTGCTLSAAIAALLAKGRPLAEAVAEAKAYLTRALKTAPSLGHGHGPLDHWA MRVALTIAGSDSGGGAGVQADLKVFFRFGVYGTSALTLVTAQNTLGVQRVHLLPPEVVYAQIESVAQDFPLHAAKTGALGDAAIVEAVAEAVRRFGVRPLVVDPVMAKEAAAALKERLFPLADLVTPNRLEAEALLGRPIRTLKEAEEAAKALLALGPKAVLLKGGHLEAVDLLATRGGVLRFSAPRVHTRNTHGTGCTLSAAIAALLAKGRPLAEAVAEAKAYLTRALKTAPSLGHGHGPLDHWA 1ub3-a1-m1-cB_1ub3-a1-m1-cD Crystal Structure of Tetrameric Structure of Aldolase from thermus thermophilus HB8 Q5SJ28 Q5SJ28 1.4 X-RAY DIFFRACTION 96 0.995 274 (Thermus thermophilus) 274 (Thermus thermophilus) 211 211 1j2w-a1-m1-cA_1j2w-a1-m1-cC 1j2w-a1-m1-cD_1j2w-a1-m1-cB 1ub3-a1-m1-cC_1ub3-a1-m1-cA MDLAAHIDHTLLKPTATLEEVAKAAEEALEYGFYGLCIPPSYVAWVRARYPHAPFRLVTVVGFPLGYQEKEVKALEAALACARGADEVDMVLHLGRAKAGDLDYLEAEVRAVREAVPQAVLKVILETGYFSPEEIARLAEAAIRGGADFLKTSTGFGPRGASLEDVALLVRVAQGRAQVKAAGGIRDRETALRMLKAGASRLGTSSGVALV DLAAHIDHTLLKPTATLEEVAKAAEEALEYGFYGLCIPPSYVAWVRARYPHAPFRLVTVVGFPLGYQEKEVKALEAALACARGADEVDMVLHLGRAKAGDLDYLEAEVRAVREAVPQAVLKVILETGYFSPEEIARLAEAAIRGGADFLKTSTGFGPRGASLEDVALLVRVAQGRAQVKAAGGIRDRETALRMLKAGASRLGTSSGVALVA 1ub3-a1-m1-cC_1ub3-a1-m1-cD Crystal Structure of Tetrameric Structure of Aldolase from thermus thermophilus HB8 Q5SJ28 Q5SJ28 1.4 X-RAY DIFFRACTION 53 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 210 211 1j2w-a1-m1-cB_1j2w-a1-m1-cA 1j2w-a1-m1-cD_1j2w-a1-m1-cC 1ub3-a1-m1-cA_1ub3-a1-m1-cB DLAAHIDHTLLKPTATLEEVAKAAEEALEYGFYGLCIPPSYVAWVRARYPHAPFRLVTVVGFPLGYQEKEVKALEAALACARGADEVDMVLHLGRAKAGDLDYLEAEVRAVREAVPQAVLKVILETGYFSPEEIARLAEAAIRGGADFLKTSTGFGPRGASLEDVALLVRVAQGRAQVKAAGGIRDRETALRMLKAGASRLGTSSGVALV DLAAHIDHTLLKPTATLEEVAKAAEEALEYGFYGLCIPPSYVAWVRARYPHAPFRLVTVVGFPLGYQEKEVKALEAALACARGADEVDMVLHLGRAKAGDLDYLEAEVRAVREAVPQAVLKVILETGYFSPEEIARLAEAAIRGGADFLKTSTGFGPRGASLEDVALLVRVAQGRAQVKAAGGIRDRETALRMLKAGASRLGTSSGVALVA 1ub4-a1-m1-cC_1ub4-a1-m2-cC crystal structure of MazEF complex P0AE72 P0AE72 1.7 X-RAY DIFFRACTION 135 1.0 562 (Escherichia coli) 562 (Escherichia coli) 75 75 2mru-a1-m1-cA_2mru-a1-m1-cB IHSSVKRWGNSPAVRIPATLMQALNLNIDDEVKIDLVDGKLIIEPVRKEPVFTLAELVNDITPENLHENIDWGEP IHSSVKRWGNSPAVRIPATLMQALNLNIDDEVKIDLVDGKLIIEPVRKEPVFTLAELVNDITPENLHENIDWGEP 1ub7-a2-m1-cC_1ub7-a2-m1-cD The Crystal Analysis of Beta-Keroacyl-[Acyl Carrier Protein] Synthase III (FABH)From Thermus Thermophilus. Q7SI99 Q7SI99 2.3 X-RAY DIFFRACTION 260 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 320 320 1ub7-a1-m1-cA_1ub7-a1-m1-cB SGILALGAYVPERVMTNADFEAYLDTSDEWIVTRTGIKERRVAAEDEYTSDLAFKAVEDLLRRHPGALEGVDAVIVATNTPDALFPDTAALVQARFGLKAFAYDLLAGPGWIYALAQAHALVEAGLAQKVLAVGAEALSKIIDWNDRATAVLFGDGGGAAVVGKVREGYGFRSFVLGADGTGAKELYHACVAPRLPDGTSMKNRLYMNGREVFKFAVRVMNTATLEAIEKAGLTPEDIRLFVPHQANLRIIDAARERLGLPWERVAVNVDRYGNTSTASIPLALKEAVDAGRIREGDHVLLVSFGAGLTWAAAVLTWGGA SGILALGAYVPERVMTNADFEAYLDTSDEWIVTRTGIKERRVAAEDEYTSDLAFKAVEDLLRRHPGALEGVDAVIVATNTPDALFPDTAALVQARFGLKAFAYDLLAGPGWIYALAQAHALVEAGLAQKVLAVGAEALSKIIDWNDRATAVLFGDGGGAAVVGKVREGYGFRSFVLGADGTGAKELYHACVAPRLPDGTSMKNRLYMNGREVFKFAVRVMNTATLEAIEKAGLTPEDIRLFVPHQANLRIIDAARERLGLPWERVAVNVDRYGNTSTASIPLALKEAVDAGRIREGDHVLLVSFGAGLTWAAAVLTWGGA 1ub9-a1-m1-cA_1ub9-a1-m2-cA Structure of the transcriptional regulator homologue protein from Pyrococcus horikoshii OT3 O58788 O58788 2.05 X-RAY DIFFRACTION 71 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 100 100 MEELKEIMKSHILGNPVRLGIMIFLLPRRKAPFSQIQKVLDLTPGNLDSHIRVLERNGLVKTYKVIADRPRTVVEITDFGMEEAKRFLSSLKAVIDGLDL MEELKEIMKSHILGNPVRLGIMIFLLPRRKAPFSQIQKVLDLTPGNLDSHIRVLERNGLVKTYKVIADRPRTVVEITDFGMEEAKRFLSSLKAVIDGLDL 1uby-a1-m1-cA_1uby-a1-m2-cA STRUCTURE OF FARNESYL PYROPHOSPHATE SYNTHETASE P08836 P08836 2.4 X-RAY DIFFRACTION 106 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 348 348 1fps-a1-m1-cA_1fps-a1-m2-cA 1ubv-a1-m1-cA_1ubv-a1-m2-cA 1ubw-a1-m1-cA_1ubw-a1-m2-cA 1ubx-a1-m1-cA_1ubx-a1-m2-cA SPVVVEREREEFVGFFPQIVRDLTEDGIGHPEVGDAVARLKEVLQYNAPGGKCNRGLTVVAAYRELSGPGQKDAESLRCALAVGWCIELFQAASLVADDIMDQSLTRRGQLCWYKKEGVGLDAINDSFLLESSVYRVLKKYCRQRPYYVHLLELFLQTAYQTELGQMLDLITAPVSKVDLSHFSEERYKAIVKYKTAFYSFYLPVAAAMYMVGIDSKEEHENAKAILLEMGEYFQIQDDYLDCFGDPALTGAVGTDIQDNKCSWLVVQCLQRVTPEQRQLLEDNYGRKEPEKVAKVKELYEAVGMRAAFQQYEESSYRRLQELIEKHSNRLPKEIFLGLAQKIYKRQK SPVVVEREREEFVGFFPQIVRDLTEDGIGHPEVGDAVARLKEVLQYNAPGGKCNRGLTVVAAYRELSGPGQKDAESLRCALAVGWCIELFQAASLVADDIMDQSLTRRGQLCWYKKEGVGLDAINDSFLLESSVYRVLKKYCRQRPYYVHLLELFLQTAYQTELGQMLDLITAPVSKVDLSHFSEERYKAIVKYKTAFYSFYLPVAAAMYMVGIDSKEEHENAKAILLEMGEYFQIQDDYLDCFGDPALTGAVGTDIQDNKCSWLVVQCLQRVTPEQRQLLEDNYGRKEPEKVAKVKELYEAVGMRAAFQQYEESSYRRLQELIEKHSNRLPKEIFLGLAQKIYKRQK 1uby-a2-m1-cA_1uby-a2-m3-cA STRUCTURE OF FARNESYL PYROPHOSPHATE SYNTHETASE P08836 P08836 2.4 X-RAY DIFFRACTION 134 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 348 348 SPVVVEREREEFVGFFPQIVRDLTEDGIGHPEVGDAVARLKEVLQYNAPGGKCNRGLTVVAAYRELSGPGQKDAESLRCALAVGWCIELFQAASLVADDIMDQSLTRRGQLCWYKKEGVGLDAINDSFLLESSVYRVLKKYCRQRPYYVHLLELFLQTAYQTELGQMLDLITAPVSKVDLSHFSEERYKAIVKYKTAFYSFYLPVAAAMYMVGIDSKEEHENAKAILLEMGEYFQIQDDYLDCFGDPALTGAVGTDIQDNKCSWLVVQCLQRVTPEQRQLLEDNYGRKEPEKVAKVKELYEAVGMRAAFQQYEESSYRRLQELIEKHSNRLPKEIFLGLAQKIYKRQK SPVVVEREREEFVGFFPQIVRDLTEDGIGHPEVGDAVARLKEVLQYNAPGGKCNRGLTVVAAYRELSGPGQKDAESLRCALAVGWCIELFQAASLVADDIMDQSLTRRGQLCWYKKEGVGLDAINDSFLLESSVYRVLKKYCRQRPYYVHLLELFLQTAYQTELGQMLDLITAPVSKVDLSHFSEERYKAIVKYKTAFYSFYLPVAAAMYMVGIDSKEEHENAKAILLEMGEYFQIQDDYLDCFGDPALTGAVGTDIQDNKCSWLVVQCLQRVTPEQRQLLEDNYGRKEPEKVAKVKELYEAVGMRAAFQQYEESSYRRLQELIEKHSNRLPKEIFLGLAQKIYKRQK 1uc2-a1-m1-cA_1uc2-a1-m1-cB Hypothetical Extein Protein of PH1602 from Pyrococcus horikoshii O59245 O59245 2.15 X-RAY DIFFRACTION 64 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 480 480 4isj-a3-m1-cA_4isj-a3-m1-cB VVPLKRIDKIRWEIPKFDKRMRVPGRVYADEVLLEKMKNDRTLEQATNVAMLPGIYKYSIVMPDGHQGYGFPIGGVAAFDVKEGVISPGGIGYDINCGVRLIRTNLTEKEVRPRIKQLVDTLFKNVPSGVGSQGRIKLHWTQIDDVLVDGAKWAVDNGYGWERDLERLEEGGRMEGADPEAVSQRAKQRGAPQLGSLGSGNHFLEVQVVDKIFDPEVAKAYGLFEGQVVVMVHTGSRGLGHQVASDYLRIMERAIRKYRIPWPDRELVSVPFQSEEGQRYFSAMKAAANFAWANRQMITHWVRESFQEVFKQDPEGDLGMDIVYDVAHNIGKVEEHEVDGKRVKVIVHRKGATRAFPPGHEAVPRLYRDVGQPVLIPGSMGTASYILAGTEGAMKETFGSTCHGAGRVLSRKAATRQYRGDRIRQELLNRGIYVRAASMRVVAEEAPGAYKNVDNVVKVVSEAGIAKLVARMRPIGVAKG VVPLKRIDKIRWEIPKFDKRMRVPGRVYADEVLLEKMKNDRTLEQATNVAMLPGIYKYSIVMPDGHQGYGFPIGGVAAFDVKEGVISPGGIGYDINCGVRLIRTNLTEKEVRPRIKQLVDTLFKNVPSGVGSQGRIKLHWTQIDDVLVDGAKWAVDNGYGWERDLERLEEGGRMEGADPEAVSQRAKQRGAPQLGSLGSGNHFLEVQVVDKIFDPEVAKAYGLFEGQVVVMVHTGSRGLGHQVASDYLRIMERAIRKYRIPWPDRELVSVPFQSEEGQRYFSAMKAAANFAWANRQMITHWVRESFQEVFKQDPEGDLGMDIVYDVAHNIGKVEEHEVDGKRVKVIVHRKGATRAFPPGHEAVPRLYRDVGQPVLIPGSMGTASYILAGTEGAMKETFGSTCHGAGRVLSRKAATRQYRGDRIRQELLNRGIYVRAASMRVVAEEAPGAYKNVDNVVKVVSEAGIAKLVARMRPIGVAKG 1uc8-a1-m1-cB_1uc8-a1-m1-cA Crystal structure of a lysine biosynthesis enzyme, Lysx, from thermus thermophilus HB8 Q5SH23 Q5SH23 2 X-RAY DIFFRACTION 148 0.996 274 (Thermus thermophilus) 274 (Thermus thermophilus) 251 254 1uc9-a1-m1-cB_1uc9-a1-m1-cA MLAILYDRIRPDERMLFERAEALGLPYKKVYVPALPMVLGERPKELEGVTVALERCVSQSRGLAAARYLTALGIPVVNRPEVIEACGDKWATSVALAKAGLPQPKTALATDREEALRLMEAFGYPVVLKPVIXXXXXXXXXXXXGFQHQLFYIQEYVEKPGRDIRVFVVGERAIAAIYRAENCPLTEEVARLSVKAAEAVGGGVVAVDLFESERGLLVNEVNHTMEFKNSVHTTGVDIPGEILKYAWSLAS MLAILYDRIRPDERMLFERAEALGLPYKKVYVPALPMVLGERPKELEGVTVALERCVSQSRGLAAARYLTALGIPVVNRPEVIEACGDKWATSVALAKAGLPQPKTALATDREEALRLMEAFGYPVVLKPVIGXXXXXXXXXXXXXXGFQHQLFYIQEYVEKPGRDIRVFVVGERAIAAIYRAENCPLTEEVARLSVKAAEAVGGGVVAVDLFESERGLLVNEVNHTMEFKNSVHTTGVDIPGEILKYAWSLAS 1ucn-a1-m1-cC_1ucn-a1-m2-cC X-ray structure of human nucleoside diphosphate kinase A complexed with ADP at 2 A resolution P15531 P15531 2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 151 ANCERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVGLKFMQASEDLLKEHYVDLKDRPWFAGLVKYMHSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIGGSDSVESAEKEIGLWFHPEELVDYTSCAQNWIYE ANCERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVGLKFMQASEDLLKEHYVDLKDRPWFAGLVKYMHSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIGGSDSVESAEKEIGLWFHPEELVDYTSCAQNWIYE 1ucr-a1-m1-cA_1ucr-a1-m1-cB Three-dimensional crystal structure of dissimilatory sulfite reductase D (DsrD) Q46582 Q46582 1.2 X-RAY DIFFRACTION 61 1.0 881 (Desulfovibrio vulgaris) 881 (Desulfovibrio vulgaris) 74 75 MEEAKQKVVDFLNSKSGSKSKFYFNDFTDLFPDMKQREVKKILTALVNDEVLEYWSSGSTTMYGLKGAGKQAAA MEEAKQKVVDFLNSKSGSKSKFYFNDFTDLFPDMKQREVKKILTALVNDEVLEYWSSGSTTMYGLKGAGKQAAAE 1ud0-a4-m1-cD_1ud0-a4-m3-cA CRYSTAL STRUCTURE OF THE C-TERMINAL 10-kDA SUBDOMAIN OF HSC70 P63018 P63018 3.45 X-RAY DIFFRACTION 17 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 76 81 RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSA RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSAGGPGG 1ud0-a4-m1-cD_1ud0-a4-m3-cB CRYSTAL STRUCTURE OF THE C-TERMINAL 10-kDA SUBDOMAIN OF HSC70 P63018 P63018 3.45 X-RAY DIFFRACTION 14 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 76 79 1ud0-a3-m2-cA_1ud0-a3-m1-cC RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSA RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSAGGP 1ud0-a4-m3-cA_1ud0-a4-m1-cC CRYSTAL STRUCTURE OF THE C-TERMINAL 10-kDA SUBDOMAIN OF HSC70 P63018 P63018 3.45 X-RAY DIFFRACTION 18 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 81 84 1ud0-a3-m1-cD_1ud0-a3-m2-cB RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSAGGPGG LVPRGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSAGGPGG 1ud0-a4-m3-cB_1ud0-a4-m3-cA CRYSTAL STRUCTURE OF THE C-TERMINAL 10-kDA SUBDOMAIN OF HSC70 P63018 P63018 3.45 X-RAY DIFFRACTION 92 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 79 81 1ud0-a1-m1-cB_1ud0-a1-m1-cA 1ud0-a2-m1-cD_1ud0-a2-m1-cC 1ud0-a3-m1-cD_1ud0-a3-m1-cC 1ud0-a3-m2-cB_1ud0-a3-m2-cA 1ud0-a4-m1-cD_1ud0-a4-m1-cC RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSAGGP RGSHLESYAFNKATVEDEKLQGKINDEDKQKILDKCNEIISWLDKNQTAEKEEFEHQQKELEKVCNPIITKLYQSAGGPGG 1ud5-a2-m2-cA_1ud5-a2-m3-cA Crystal structure of AmyK38 with rubidium ion Q93I48 Q93I48 2.7 X-RAY DIFFRACTION 69 1.0 129736 (Bacillus sp. KSM-K38) 129736 (Bacillus sp. KSM-K38) 480 480 1ud5-a2-m1-cA_1ud5-a2-m2-cA 1ud5-a2-m1-cA_1ud5-a2-m3-cA DGLNGTMMQYYEWHLENDGQHWNRLHDDAAALSDAGITAIWIPPAYKGNSQADVGYGAYDLYDLGEFNQKGTVRTKYGTKAQLERAIGSLKSNDINVYGDVVMNHKMGADFTEAVQAVQVNPTNRWQDISGAYTIDAWTGFDFSGRNNAYSDFKWRWFHFNGVDWDQRYQENHIFRFANTNWNWRVDEENGNYDYLLGSNIDFSHPEVQDELKDWGSWFTDELDLDGYRLDAIKHIPFWYTSDWVRHQRNEADQDLFVVGEYWKDDVGALEFYLDEMNWEMSLFDVPLNYNFYRASQQGGSYDMRNILRGSLVEAHPMHAVTFVDNHDTQPGESLESWVADWFKPLAYATILTREGGYPNVFYGDYYGIPNDNISAKKDMIDELLDARQNYAYGTQHDYFDHWDVVGWTREGSSSRPNSGLATIMSNGPGGSKWMYVGRQNAGQTWTDLTGNNGASVTINGDGWGEFFTNGGSVSVYVNQ DGLNGTMMQYYEWHLENDGQHWNRLHDDAAALSDAGITAIWIPPAYKGNSQADVGYGAYDLYDLGEFNQKGTVRTKYGTKAQLERAIGSLKSNDINVYGDVVMNHKMGADFTEAVQAVQVNPTNRWQDISGAYTIDAWTGFDFSGRNNAYSDFKWRWFHFNGVDWDQRYQENHIFRFANTNWNWRVDEENGNYDYLLGSNIDFSHPEVQDELKDWGSWFTDELDLDGYRLDAIKHIPFWYTSDWVRHQRNEADQDLFVVGEYWKDDVGALEFYLDEMNWEMSLFDVPLNYNFYRASQQGGSYDMRNILRGSLVEAHPMHAVTFVDNHDTQPGESLESWVADWFKPLAYATILTREGGYPNVFYGDYYGIPNDNISAKKDMIDELLDARQNYAYGTQHDYFDHWDVVGWTREGSSSRPNSGLATIMSNGPGGSKWMYVGRQNAGQTWTDLTGNNGASVTINGDGWGEFFTNGGSVSVYVNQ 1ud9-a5-m1-cB_1ud9-a5-m1-cC Crystal Structure of Proliferating Cell Nuclear Antigen (PCNA) Homolog From Sulfolobus tokodaii Q975N2 Q975N2 1.68 X-RAY DIFFRACTION 32 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 238 239 AHIVYDDVRDLKAIIQALLKLVDEALFDIKPEGIQLVAIDKAHISLIKIELPKEMFKEYDVPEEFKFGFNTQYMSKLLKAAKRKEEIIIDADSPEVVKLTLSGALNRVFNVNNIEVLPPEFDIKATINASGLKNAIGEIAEVADTLLISGNEEKVVVKGEGENKVEVEFSKDTGSLADIEFNKESSSAYDVEYLNDIISLTKLSDYVKVAFADQKPMQLEFNMEGGGKVTYLLAPKLS AHIVYDDVRDLKAIIQALLKLVDEALFDIKPEGIQLVAIDKAHISLIKIELPKEMFKEYDVPEEFKFGFNTQYMSKLLKAAKRKEEIIIDADSPEVVKLTLSGALNRVFNVNNIEVLPPLEFDIKATINASGLKNAIGEIAEVADTLLISGNEEKVVVKGEGENKVEVEFSKDTGSLADIEFNKESSSAYDVEYLNDIISLTKLSDYVKVAFADQKPMQLEFNMEGGGKVTYLLAPKLS 1udd-a1-m1-cB_1udd-a1-m1-cD TenA homologue protein from P.horikoshii OT3 O58873 O58873 2.15 X-RAY DIFFRACTION 46 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 213 213 1udd-a1-m1-cA_1udd-a1-m1-cC VMITDKLRRDSEQIWKKIFEHPFVVQLYSGTLPLEKFKFYVLQDFNYLVGLTRALAVISSKAEYPLMAELIELARDEVTVEVENYVKLLKELDLTLEDAIKTEPTLVNSAYMDFMLATAYKGNIIEGLTALLPCFWSYAEIAEYHKDKLRDNPIKIYREWGKVYLSNEYLNLVGRLRKIIDSSGHSGYDRLRRIFITGSKFELAFWEMAWRGG VMITDKLRRDSEQIWKKIFEHPFVVQLYSGTLPLEKFKFYVLQDFNYLVGLTRALAVISSKAEYPLMAELIELARDEVTVEVENYVKLLKELDLTLEDAIKTEPTLVNSAYMDFMLATAYKGNIIEGLTALLPCFWSYAEIAEYHKDKLRDNPIKIYREWGKVYLSNEYLNLVGRLRKIIDSSGHSGYDRLRRIFITGSKFELAFWEMAWRGG 1udd-a1-m1-cD_1udd-a1-m1-cA TenA homologue protein from P.horikoshii OT3 O58873 O58873 2.15 X-RAY DIFFRACTION 11 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 213 215 1udd-a1-m1-cB_1udd-a1-m1-cC VMITDKLRRDSEQIWKKIFEHPFVVQLYSGTLPLEKFKFYVLQDFNYLVGLTRALAVISSKAEYPLMAELIELARDEVTVEVENYVKLLKELDLTLEDAIKTEPTLVNSAYMDFMLATAYKGNIIEGLTALLPCFWSYAEIAEYHKDKLRDNPIKIYREWGKVYLSNEYLNLVGRLRKIIDSSGHSGYDRLRRIFITGSKFELAFWEMAWRGG MRVMITDKLRRDSEQIWKKIFEHPFVVQLYSGTLPLEKFKFYVLQDFNYLVGLTRALAVISSKAEYPLMAELIELARDEVTVEVENYVKLLKELDLTLEDAIKTEPTLVNSAYMDFMLATAYKGNIIEGLTALLPCFWSYAEIAEYHKDKLRDNPIKIYREWGKVYLSNEYLNLVGRLRKIIDSSGHSGYDRLRRIFITGSKFELAFWEMAWRGG 1udd-a1-m1-cD_1udd-a1-m1-cC TenA homologue protein from P.horikoshii OT3 O58873 O58873 2.15 X-RAY DIFFRACTION 66 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 213 215 1udd-a1-m1-cB_1udd-a1-m1-cA VMITDKLRRDSEQIWKKIFEHPFVVQLYSGTLPLEKFKFYVLQDFNYLVGLTRALAVISSKAEYPLMAELIELARDEVTVEVENYVKLLKELDLTLEDAIKTEPTLVNSAYMDFMLATAYKGNIIEGLTALLPCFWSYAEIAEYHKDKLRDNPIKIYREWGKVYLSNEYLNLVGRLRKIIDSSGHSGYDRLRRIFITGSKFELAFWEMAWRGG MRVMITDKLRRDSEQIWKKIFEHPFVVQLYSGTLPLEKFKFYVLQDFNYLVGLTRALAVISSKAEYPLMAELIELARDEVTVEVENYVKLLKELDLTLEDAIKTEPTLVNSAYMDFMLATAYKGNIIEGLTALLPCFWSYAEIAEYHKDKLRDNPIKIYREWGKVYLSNEYLNLVGRLRKIIDSSGHSGYDRLRRIFITGSKFELAFWEMAWRGG 1udr-a1-m1-cA_1udr-a1-m1-cD CHEY MUTANT WITH LYS 91 REPLACED BY ASP, LYS 92 REPLACED BY ALA, ILE 96 REPLACED BY LYS AND ALA 98 REPLACED BY LEU (STABILIZING MUTATIONS IN HELIX 4) P0AE67 P0AE67 1.9 X-RAY DIFFRACTION 47 1.0 562 (Escherichia coli) 562 (Escherichia coli) 126 126 KELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEADAENIKALAQAGASGYVVKPFTAATLEEKLNKIFEKLGM KELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEADAENIKALAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 1udr-a1-m1-cC_1udr-a1-m1-cD CHEY MUTANT WITH LYS 91 REPLACED BY ASP, LYS 92 REPLACED BY ALA, ILE 96 REPLACED BY LYS AND ALA 98 REPLACED BY LEU (STABILIZING MUTATIONS IN HELIX 4) P0AE67 P0AE67 1.9 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 125 126 1udr-a1-m1-cB_1udr-a1-m1-cA ELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEADAENIKALAQAGASGYVVKPFTAATLEEKLNKIFEKLGM KELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEADAENIKALAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 1uds-a1-m2-cA_1uds-a1-m6-cA Crystal structure of the tRNA processing enzyme RNase PH R126A mutant from Aquifex aeolicus O67069 O67069 2.3 X-RAY DIFFRACTION 97 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 254 254 1udn-a1-m1-cA_1udn-a1-m4-cA 1udn-a1-m2-cA_1udn-a1-m6-cA 1udn-a1-m3-cA_1udn-a1-m5-cA 1udo-a1-m1-cA_1udo-a1-m4-cA 1udo-a1-m2-cA_1udo-a1-m6-cA 1udo-a1-m3-cA_1udo-a1-m5-cA 1udq-a1-m1-cA_1udq-a1-m4-cA 1udq-a1-m2-cA_1udq-a1-m6-cA 1udq-a1-m3-cA_1udq-a1-m5-cA 1uds-a1-m1-cA_1uds-a1-m4-cA 1uds-a1-m3-cA_1uds-a1-m5-cA RSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKGQGWITAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERTIWVDCDVIQADGGTATAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFEEDSAAQVDMNVVGTGSGRLSEVHTMGEEYSFTKDELIKMLDLAQKGINELIELQKKLYVIQDGKWERSELKEVSSTT RSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKGQGWITAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERTIWVDCDVIQADGGTATAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFEEDSAAQVDMNVVGTGSGRLSEVHTMGEEYSFTKDELIKMLDLAQKGINELIELQKKLYVIQDGKWERSELKEVSSTT 1uds-a1-m3-cA_1uds-a1-m6-cA Crystal structure of the tRNA processing enzyme RNase PH R126A mutant from Aquifex aeolicus O67069 O67069 2.3 X-RAY DIFFRACTION 103 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 254 254 1udn-a1-m1-cA_1udn-a1-m5-cA 1udn-a1-m2-cA_1udn-a1-m4-cA 1udn-a1-m3-cA_1udn-a1-m6-cA 1udo-a1-m1-cA_1udo-a1-m5-cA 1udo-a1-m2-cA_1udo-a1-m4-cA 1udo-a1-m3-cA_1udo-a1-m6-cA 1udq-a1-m1-cA_1udq-a1-m5-cA 1udq-a1-m2-cA_1udq-a1-m4-cA 1udq-a1-m3-cA_1udq-a1-m6-cA 1uds-a1-m1-cA_1uds-a1-m5-cA 1uds-a1-m2-cA_1uds-a1-m4-cA RSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKGQGWITAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERTIWVDCDVIQADGGTATAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFEEDSAAQVDMNVVGTGSGRLSEVHTMGEEYSFTKDELIKMLDLAQKGINELIELQKKLYVIQDGKWERSELKEVSSTT RSDGRKEDQLRPVSIQRDFLEYPEGSCLISFGKTKVICTASVIENVPNWLKGKGQGWITAEYSMLPRATQQRTIRESVQGRIGGRTHEIQRMIGRAMRTAVELTKIGERTIWVDCDVIQADGGTATAAITGAFVAVADAIIKLHKEGIIEETPIKDFVAAVSVGIVNDRILLDLNFEEDSAAQVDMNVVGTGSGRLSEVHTMGEEYSFTKDELIKMLDLAQKGINELIELQKKLYVIQDGKWERSELKEVSSTT 1udu-a1-m1-cA_1udu-a1-m1-cB Crystal structure of Human Phosphodiesterase 5 complexed with tadalafil(Cialis) O76074 O76074 2.83 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 313 313 TRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYYCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFFDQGDRERKELNIEPTDLMNREKKNKIPSMQVGFIDAICLQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQQ TRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYYCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFFDQGDRERKELNIEPTDLMNREKKNKIPSMQVGFIDAICLQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQQ 1udv-a1-m1-cB_1udv-a1-m1-cA Crystal structure of the hyperthermophilic archaeal dna-binding protein Sso10b2 at 1.85 A Q97ZF4 Q97ZF4 1.85 X-RAY DIFFRACTION 52 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 86 88 2a2y-a1-m1-cA_2a2y-a1-m1-cB KLNEIVVRKTKNVEDHVLDVIVLFNQGIDEVILKGTGREISKAVDVYNSLKDRLGDGVQLVNVQTGSEVRDRRRISYILLRLKRVY TEKLNEIVVRKTKNVEDHVLDVIVLFNQGIDEVILKGTGREISKAVDVYNSLKDRLGDGVQLVNVQTGSEVRDRRRISYILLRLKRVY 1ue1-a1-m1-cB_1ue1-a1-m2-cB Crystal structure of the single-stranded dna-binding protein from mycobacterium tuberculosis P9WGD5 P9WGD5 2.5 X-RAY DIFFRACTION 58 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 119 119 1x3f-a1-m1-cB_1x3f-a1-m2-cB 1x3g-a1-m1-cB_1x3g-a1-m2-cB 7f5y-a1-m1-cA_7f5y-a1-m2-cB AGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYDRQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETRKRTVIEVEVDEIGPSLRYATAKVNKASRS AGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYDRQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETRKRTVIEVEVDEIGPSLRYATAKVNKASRS 1ue7-a1-m2-cB_1ue7-a1-m1-cA Crystal structure of the single-stranded dna-binding protein from mycobacterium tuberculosis P9WGD5 P9WGD5 3.2 X-RAY DIFFRACTION 106 0.99 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 98 106 GDTTITIVGNLTADPELRFTPSGAAVANFTVASTEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSTVIEVEVDEIGPSLRYATAKVNKASRS GDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYDRDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRTVIEVEVDEIGPSLRYATAKVNKASRSG 1ue7-a1-m2-cB_1ue7-a1-m2-cA Crystal structure of the single-stranded dna-binding protein from mycobacterium tuberculosis P9WGD5 P9WGD5 3.2 X-RAY DIFFRACTION 46 0.99 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 98 106 1ue5-a1-m1-cB_1ue5-a1-m2-cB 1ue7-a1-m1-cB_1ue7-a1-m1-cA GDTTITIVGNLTADPELRFTPSGAAVANFTVASTEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSTVIEVEVDEIGPSLRYATAKVNKASRS GDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYDRDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRTVIEVEVDEIGPSLRYATAKVNKASRSG 1ue7-a2-m1-cD_1ue7-a2-m3-cD Crystal structure of the single-stranded dna-binding protein from mycobacterium tuberculosis P9WGD5 P9WGD5 3.2 X-RAY DIFFRACTION 99 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 95 95 1ue6-a2-m1-cC_1ue6-a2-m3-cC 1ue7-a1-m1-cB_1ue7-a1-m2-cA 1ue7-a2-m1-cC_1ue7-a2-m3-cC GDTTITIVGNLTADPELRFTPSGAAVANFTVASTPREALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSTVIEVEVDEIGPSLRYATAKVN GDTTITIVGNLTADPELRFTPSGAAVANFTVASTPREALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSTVIEVEVDEIGPSLRYATAKVN 1uf2-a1-m10-cA_1uf2-a1-m9-cB The Atomic Structure of Rice dwarf Virus (RDV) P22472 P22472 3.5 X-RAY DIFFRACTION 148 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 967 1019 1uf2-a1-m11-cA_1uf2-a1-m15-cB 1uf2-a1-m12-cA_1uf2-a1-m11-cB 1uf2-a1-m13-cA_1uf2-a1-m12-cB 1uf2-a1-m14-cA_1uf2-a1-m13-cB 1uf2-a1-m15-cA_1uf2-a1-m14-cB 1uf2-a1-m16-cA_1uf2-a1-m20-cB 1uf2-a1-m17-cA_1uf2-a1-m16-cB 1uf2-a1-m18-cA_1uf2-a1-m17-cB 1uf2-a1-m19-cA_1uf2-a1-m18-cB 1uf2-a1-m1-cA_1uf2-a1-m5-cB 1uf2-a1-m20-cA_1uf2-a1-m19-cB 1uf2-a1-m21-cA_1uf2-a1-m25-cB 1uf2-a1-m22-cA_1uf2-a1-m21-cB 1uf2-a1-m23-cA_1uf2-a1-m22-cB 1uf2-a1-m24-cA_1uf2-a1-m23-cB 1uf2-a1-m25-cA_1uf2-a1-m24-cB 1uf2-a1-m26-cA_1uf2-a1-m30-cB 1uf2-a1-m27-cA_1uf2-a1-m26-cB 1uf2-a1-m28-cA_1uf2-a1-m27-cB 1uf2-a1-m29-cA_1uf2-a1-m28-cB 1uf2-a1-m2-cA_1uf2-a1-m1-cB 1uf2-a1-m30-cA_1uf2-a1-m29-cB 1uf2-a1-m31-cA_1uf2-a1-m35-cB 1uf2-a1-m32-cA_1uf2-a1-m31-cB 1uf2-a1-m33-cA_1uf2-a1-m32-cB 1uf2-a1-m34-cA_1uf2-a1-m33-cB 1uf2-a1-m35-cA_1uf2-a1-m34-cB 1uf2-a1-m36-cA_1uf2-a1-m40-cB 1uf2-a1-m37-cA_1uf2-a1-m36-cB 1uf2-a1-m38-cA_1uf2-a1-m37-cB 1uf2-a1-m39-cA_1uf2-a1-m38-cB 1uf2-a1-m3-cA_1uf2-a1-m2-cB 1uf2-a1-m40-cA_1uf2-a1-m39-cB 1uf2-a1-m41-cA_1uf2-a1-m45-cB 1uf2-a1-m42-cA_1uf2-a1-m41-cB 1uf2-a1-m43-cA_1uf2-a1-m42-cB 1uf2-a1-m44-cA_1uf2-a1-m43-cB 1uf2-a1-m45-cA_1uf2-a1-m44-cB 1uf2-a1-m46-cA_1uf2-a1-m50-cB 1uf2-a1-m47-cA_1uf2-a1-m46-cB 1uf2-a1-m48-cA_1uf2-a1-m47-cB 1uf2-a1-m49-cA_1uf2-a1-m48-cB 1uf2-a1-m4-cA_1uf2-a1-m3-cB 1uf2-a1-m50-cA_1uf2-a1-m49-cB 1uf2-a1-m51-cA_1uf2-a1-m55-cB 1uf2-a1-m52-cA_1uf2-a1-m51-cB 1uf2-a1-m53-cA_1uf2-a1-m52-cB 1uf2-a1-m54-cA_1uf2-a1-m53-cB 1uf2-a1-m55-cA_1uf2-a1-m54-cB 1uf2-a1-m56-cA_1uf2-a1-m60-cB 1uf2-a1-m57-cA_1uf2-a1-m56-cB 1uf2-a1-m58-cA_1uf2-a1-m57-cB 1uf2-a1-m59-cA_1uf2-a1-m58-cB 1uf2-a1-m5-cA_1uf2-a1-m4-cB 1uf2-a1-m60-cA_1uf2-a1-m59-cB 1uf2-a1-m6-cA_1uf2-a1-m10-cB 1uf2-a1-m7-cA_1uf2-a1-m6-cB 1uf2-a1-m8-cA_1uf2-a1-m7-cB 1uf2-a1-m9-cA_1uf2-a1-m8-cB QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ MDSTGRAYDGASEFKSVLVTEGTSHYTPVEVYNILDELKTIKITSTIAEQSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQPPL 1uf2-a1-m24-cA_1uf2-a1-m9-cB The Atomic Structure of Rice dwarf Virus (RDV) P22472 P22472 3.5 X-RAY DIFFRACTION 111 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 967 1019 1uf2-a1-m10-cA_1uf2-a1-m23-cB 1uf2-a1-m11-cA_1uf2-a1-m20-cB 1uf2-a1-m12-cA_1uf2-a1-m37-cB 1uf2-a1-m13-cA_1uf2-a1-m46-cB 1uf2-a1-m14-cA_1uf2-a1-m44-cB 1uf2-a1-m15-cA_1uf2-a1-m28-cB 1uf2-a1-m16-cA_1uf2-a1-m15-cB 1uf2-a1-m17-cA_1uf2-a1-m27-cB 1uf2-a1-m18-cA_1uf2-a1-m51-cB 1uf2-a1-m19-cA_1uf2-a1-m59-cB 1uf2-a1-m1-cA_1uf2-a1-m10-cB 1uf2-a1-m20-cA_1uf2-a1-m38-cB 1uf2-a1-m21-cA_1uf2-a1-m30-cB 1uf2-a1-m22-cA_1uf2-a1-m42-cB 1uf2-a1-m23-cA_1uf2-a1-m1-cB 1uf2-a1-m25-cA_1uf2-a1-m53-cB 1uf2-a1-m26-cA_1uf2-a1-m25-cB 1uf2-a1-m27-cA_1uf2-a1-m52-cB 1uf2-a1-m28-cA_1uf2-a1-m16-cB 1uf2-a1-m29-cA_1uf2-a1-m14-cB 1uf2-a1-m2-cA_1uf2-a1-m22-cB 1uf2-a1-m30-cA_1uf2-a1-m43-cB 1uf2-a1-m31-cA_1uf2-a1-m40-cB 1uf2-a1-m32-cA_1uf2-a1-m57-cB 1uf2-a1-m33-cA_1uf2-a1-m6-cB 1uf2-a1-m34-cA_1uf2-a1-m4-cB 1uf2-a1-m35-cA_1uf2-a1-m48-cB 1uf2-a1-m36-cA_1uf2-a1-m35-cB 1uf2-a1-m37-cA_1uf2-a1-m47-cB 1uf2-a1-m38-cA_1uf2-a1-m11-cB 1uf2-a1-m39-cA_1uf2-a1-m19-cB 1uf2-a1-m3-cA_1uf2-a1-m41-cB 1uf2-a1-m40-cA_1uf2-a1-m58-cB 1uf2-a1-m41-cA_1uf2-a1-m50-cB 1uf2-a1-m42-cA_1uf2-a1-m2-cB 1uf2-a1-m43-cA_1uf2-a1-m21-cB 1uf2-a1-m44-cA_1uf2-a1-m29-cB 1uf2-a1-m45-cA_1uf2-a1-m13-cB 1uf2-a1-m46-cA_1uf2-a1-m45-cB 1uf2-a1-m47-cA_1uf2-a1-m12-cB 1uf2-a1-m48-cA_1uf2-a1-m36-cB 1uf2-a1-m49-cA_1uf2-a1-m34-cB 1uf2-a1-m4-cA_1uf2-a1-m49-cB 1uf2-a1-m50-cA_1uf2-a1-m3-cB 1uf2-a1-m51-cA_1uf2-a1-m60-cB 1uf2-a1-m52-cA_1uf2-a1-m17-cB 1uf2-a1-m53-cA_1uf2-a1-m26-cB 1uf2-a1-m54-cA_1uf2-a1-m24-cB 1uf2-a1-m55-cA_1uf2-a1-m8-cB 1uf2-a1-m56-cA_1uf2-a1-m55-cB 1uf2-a1-m57-cA_1uf2-a1-m7-cB 1uf2-a1-m58-cA_1uf2-a1-m31-cB 1uf2-a1-m59-cA_1uf2-a1-m39-cB 1uf2-a1-m5-cA_1uf2-a1-m33-cB 1uf2-a1-m60-cA_1uf2-a1-m18-cB 1uf2-a1-m6-cA_1uf2-a1-m5-cB 1uf2-a1-m7-cA_1uf2-a1-m32-cB 1uf2-a1-m8-cA_1uf2-a1-m56-cB 1uf2-a1-m9-cA_1uf2-a1-m54-cB QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ MDSTGRAYDGASEFKSVLVTEGTSHYTPVEVYNILDELKTIKITSTIAEQSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQPPL 1uf2-a1-m54-cB_1uf2-a1-m9-cB The Atomic Structure of Rice dwarf Virus (RDV) P22472 P22472 3.5 X-RAY DIFFRACTION 25 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 1019 1019 1uf2-a1-m10-cB_1uf2-a1-m23-cB 1uf2-a1-m11-cB_1uf2-a1-m20-cB 1uf2-a1-m11-cB_1uf2-a1-m38-cB 1uf2-a1-m12-cB_1uf2-a1-m37-cB 1uf2-a1-m12-cB_1uf2-a1-m47-cB 1uf2-a1-m13-cB_1uf2-a1-m45-cB 1uf2-a1-m13-cB_1uf2-a1-m46-cB 1uf2-a1-m14-cB_1uf2-a1-m29-cB 1uf2-a1-m14-cB_1uf2-a1-m44-cB 1uf2-a1-m15-cB_1uf2-a1-m16-cB 1uf2-a1-m15-cB_1uf2-a1-m28-cB 1uf2-a1-m16-cB_1uf2-a1-m28-cB 1uf2-a1-m17-cB_1uf2-a1-m27-cB 1uf2-a1-m17-cB_1uf2-a1-m52-cB 1uf2-a1-m18-cB_1uf2-a1-m51-cB 1uf2-a1-m18-cB_1uf2-a1-m60-cB 1uf2-a1-m19-cB_1uf2-a1-m39-cB 1uf2-a1-m19-cB_1uf2-a1-m59-cB 1uf2-a1-m1-cB_1uf2-a1-m10-cB 1uf2-a1-m1-cB_1uf2-a1-m23-cB 1uf2-a1-m20-cB_1uf2-a1-m38-cB 1uf2-a1-m21-cB_1uf2-a1-m30-cB 1uf2-a1-m21-cB_1uf2-a1-m43-cB 1uf2-a1-m22-cB_1uf2-a1-m42-cB 1uf2-a1-m24-cB_1uf2-a1-m54-cB 1uf2-a1-m24-cB_1uf2-a1-m9-cB 1uf2-a1-m25-cB_1uf2-a1-m26-cB 1uf2-a1-m25-cB_1uf2-a1-m53-cB 1uf2-a1-m26-cB_1uf2-a1-m53-cB 1uf2-a1-m27-cB_1uf2-a1-m52-cB 1uf2-a1-m29-cB_1uf2-a1-m44-cB 1uf2-a1-m2-cB_1uf2-a1-m22-cB 1uf2-a1-m2-cB_1uf2-a1-m42-cB 1uf2-a1-m30-cB_1uf2-a1-m43-cB 1uf2-a1-m31-cB_1uf2-a1-m40-cB 1uf2-a1-m31-cB_1uf2-a1-m58-cB 1uf2-a1-m32-cB_1uf2-a1-m57-cB 1uf2-a1-m32-cB_1uf2-a1-m7-cB 1uf2-a1-m33-cB_1uf2-a1-m5-cB 1uf2-a1-m33-cB_1uf2-a1-m6-cB 1uf2-a1-m34-cB_1uf2-a1-m49-cB 1uf2-a1-m34-cB_1uf2-a1-m4-cB 1uf2-a1-m35-cB_1uf2-a1-m36-cB 1uf2-a1-m35-cB_1uf2-a1-m48-cB 1uf2-a1-m36-cB_1uf2-a1-m48-cB 1uf2-a1-m37-cB_1uf2-a1-m47-cB 1uf2-a1-m39-cB_1uf2-a1-m59-cB 1uf2-a1-m3-cB_1uf2-a1-m41-cB 1uf2-a1-m3-cB_1uf2-a1-m50-cB 1uf2-a1-m40-cB_1uf2-a1-m58-cB 1uf2-a1-m41-cB_1uf2-a1-m50-cB 1uf2-a1-m45-cB_1uf2-a1-m46-cB 1uf2-a1-m4-cB_1uf2-a1-m49-cB 1uf2-a1-m51-cB_1uf2-a1-m60-cB 1uf2-a1-m55-cB_1uf2-a1-m56-cB 1uf2-a1-m55-cB_1uf2-a1-m8-cB 1uf2-a1-m56-cB_1uf2-a1-m8-cB 1uf2-a1-m57-cB_1uf2-a1-m7-cB 1uf2-a1-m5-cB_1uf2-a1-m6-cB MDSTGRAYDGASEFKSVLVTEGTSHYTPVEVYNILDELKTIKITSTIAEQSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQPPL MDSTGRAYDGASEFKSVLVTEGTSHYTPVEVYNILDELKTIKITSTIAEQSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQPPL 1uf2-a1-m54-cT_1uf2-a1-m9-cT The Atomic Structure of Rice dwarf Virus (RDV) P17379 P17379 3.5 X-RAY DIFFRACTION 194 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 421 421 1uf2-a1-m10-cC_1uf2-a1-m10-cD 1uf2-a1-m10-cE_1uf2-a1-m10-cQ 1uf2-a1-m10-cF_1uf2-a1-m10-cE 1uf2-a1-m10-cF_1uf2-a1-m10-cQ 1uf2-a1-m10-cG_1uf2-a1-m10-cH 1uf2-a1-m10-cG_1uf2-a1-m10-cR 1uf2-a1-m10-cH_1uf2-a1-m10-cR 1uf2-a1-m10-cI_1uf2-a1-m10-cS 1uf2-a1-m10-cJ_1uf2-a1-m10-cI 1uf2-a1-m10-cJ_1uf2-a1-m10-cS 1uf2-a1-m10-cP_1uf2-a1-m10-cC 1uf2-a1-m10-cP_1uf2-a1-m10-cD 1uf2-a1-m10-cT_1uf2-a1-m23-cT 1uf2-a1-m11-cC_1uf2-a1-m11-cD 1uf2-a1-m11-cE_1uf2-a1-m11-cQ 1uf2-a1-m11-cF_1uf2-a1-m11-cE 1uf2-a1-m11-cF_1uf2-a1-m11-cQ 1uf2-a1-m11-cG_1uf2-a1-m11-cH 1uf2-a1-m11-cG_1uf2-a1-m11-cR 1uf2-a1-m11-cH_1uf2-a1-m11-cR 1uf2-a1-m11-cI_1uf2-a1-m11-cS 1uf2-a1-m11-cJ_1uf2-a1-m11-cI 1uf2-a1-m11-cJ_1uf2-a1-m11-cS 1uf2-a1-m11-cP_1uf2-a1-m11-cC 1uf2-a1-m11-cP_1uf2-a1-m11-cD 1uf2-a1-m11-cT_1uf2-a1-m20-cT 1uf2-a1-m11-cT_1uf2-a1-m38-cT 1uf2-a1-m12-cC_1uf2-a1-m12-cD 1uf2-a1-m12-cE_1uf2-a1-m12-cQ 1uf2-a1-m12-cF_1uf2-a1-m12-cE 1uf2-a1-m12-cF_1uf2-a1-m12-cQ 1uf2-a1-m12-cG_1uf2-a1-m12-cH 1uf2-a1-m12-cG_1uf2-a1-m12-cR 1uf2-a1-m12-cH_1uf2-a1-m12-cR 1uf2-a1-m12-cI_1uf2-a1-m12-cS 1uf2-a1-m12-cJ_1uf2-a1-m12-cI 1uf2-a1-m12-cJ_1uf2-a1-m12-cS 1uf2-a1-m12-cP_1uf2-a1-m12-cC 1uf2-a1-m12-cP_1uf2-a1-m12-cD 1uf2-a1-m12-cT_1uf2-a1-m37-cT 1uf2-a1-m12-cT_1uf2-a1-m47-cT 1uf2-a1-m13-cC_1uf2-a1-m13-cD 1uf2-a1-m13-cE_1uf2-a1-m13-cQ 1uf2-a1-m13-cF_1uf2-a1-m13-cE 1uf2-a1-m13-cF_1uf2-a1-m13-cQ 1uf2-a1-m13-cG_1uf2-a1-m13-cH 1uf2-a1-m13-cG_1uf2-a1-m13-cR 1uf2-a1-m13-cH_1uf2-a1-m13-cR 1uf2-a1-m13-cI_1uf2-a1-m13-cS 1uf2-a1-m13-cJ_1uf2-a1-m13-cI 1uf2-a1-m13-cJ_1uf2-a1-m13-cS 1uf2-a1-m13-cP_1uf2-a1-m13-cC 1uf2-a1-m13-cP_1uf2-a1-m13-cD 1uf2-a1-m13-cT_1uf2-a1-m45-cT 1uf2-a1-m13-cT_1uf2-a1-m46-cT 1uf2-a1-m14-cC_1uf2-a1-m14-cD 1uf2-a1-m14-cE_1uf2-a1-m14-cQ 1uf2-a1-m14-cF_1uf2-a1-m14-cE 1uf2-a1-m14-cF_1uf2-a1-m14-cQ 1uf2-a1-m14-cG_1uf2-a1-m14-cH 1uf2-a1-m14-cG_1uf2-a1-m14-cR 1uf2-a1-m14-cH_1uf2-a1-m14-cR 1uf2-a1-m14-cI_1uf2-a1-m14-cS 1uf2-a1-m14-cJ_1uf2-a1-m14-cI 1uf2-a1-m14-cJ_1uf2-a1-m14-cS 1uf2-a1-m14-cP_1uf2-a1-m14-cC 1uf2-a1-m14-cP_1uf2-a1-m14-cD 1uf2-a1-m14-cT_1uf2-a1-m29-cT 1uf2-a1-m14-cT_1uf2-a1-m44-cT 1uf2-a1-m15-cC_1uf2-a1-m15-cD 1uf2-a1-m15-cE_1uf2-a1-m15-cQ 1uf2-a1-m15-cF_1uf2-a1-m15-cE 1uf2-a1-m15-cF_1uf2-a1-m15-cQ 1uf2-a1-m15-cG_1uf2-a1-m15-cH 1uf2-a1-m15-cG_1uf2-a1-m15-cR 1uf2-a1-m15-cH_1uf2-a1-m15-cR 1uf2-a1-m15-cI_1uf2-a1-m15-cS 1uf2-a1-m15-cJ_1uf2-a1-m15-cI 1uf2-a1-m15-cJ_1uf2-a1-m15-cS 1uf2-a1-m15-cP_1uf2-a1-m15-cC 1uf2-a1-m15-cP_1uf2-a1-m15-cD 1uf2-a1-m15-cT_1uf2-a1-m16-cT 1uf2-a1-m15-cT_1uf2-a1-m28-cT 1uf2-a1-m16-cC_1uf2-a1-m16-cD 1uf2-a1-m16-cE_1uf2-a1-m16-cQ 1uf2-a1-m16-cF_1uf2-a1-m16-cE 1uf2-a1-m16-cF_1uf2-a1-m16-cQ 1uf2-a1-m16-cG_1uf2-a1-m16-cH 1uf2-a1-m16-cG_1uf2-a1-m16-cR 1uf2-a1-m16-cH_1uf2-a1-m16-cR 1uf2-a1-m16-cI_1uf2-a1-m16-cS 1uf2-a1-m16-cJ_1uf2-a1-m16-cI 1uf2-a1-m16-cJ_1uf2-a1-m16-cS 1uf2-a1-m16-cP_1uf2-a1-m16-cC 1uf2-a1-m16-cP_1uf2-a1-m16-cD 1uf2-a1-m16-cT_1uf2-a1-m28-cT 1uf2-a1-m17-cC_1uf2-a1-m17-cD 1uf2-a1-m17-cE_1uf2-a1-m17-cQ 1uf2-a1-m17-cF_1uf2-a1-m17-cE 1uf2-a1-m17-cF_1uf2-a1-m17-cQ 1uf2-a1-m17-cG_1uf2-a1-m17-cH 1uf2-a1-m17-cG_1uf2-a1-m17-cR 1uf2-a1-m17-cH_1uf2-a1-m17-cR 1uf2-a1-m17-cI_1uf2-a1-m17-cS 1uf2-a1-m17-cJ_1uf2-a1-m17-cI 1uf2-a1-m17-cJ_1uf2-a1-m17-cS 1uf2-a1-m17-cP_1uf2-a1-m17-cC 1uf2-a1-m17-cP_1uf2-a1-m17-cD 1uf2-a1-m17-cT_1uf2-a1-m27-cT 1uf2-a1-m17-cT_1uf2-a1-m52-cT 1uf2-a1-m18-cC_1uf2-a1-m18-cD 1uf2-a1-m18-cE_1uf2-a1-m18-cQ 1uf2-a1-m18-cF_1uf2-a1-m18-cE 1uf2-a1-m18-cF_1uf2-a1-m18-cQ 1uf2-a1-m18-cG_1uf2-a1-m18-cH 1uf2-a1-m18-cG_1uf2-a1-m18-cR 1uf2-a1-m18-cH_1uf2-a1-m18-cR 1uf2-a1-m18-cI_1uf2-a1-m18-cS 1uf2-a1-m18-cJ_1uf2-a1-m18-cI 1uf2-a1-m18-cJ_1uf2-a1-m18-cS 1uf2-a1-m18-cP_1uf2-a1-m18-cC 1uf2-a1-m18-cP_1uf2-a1-m18-cD 1uf2-a1-m18-cT_1uf2-a1-m51-cT 1uf2-a1-m18-cT_1uf2-a1-m60-cT 1uf2-a1-m19-cC_1uf2-a1-m19-cD 1uf2-a1-m19-cE_1uf2-a1-m19-cQ 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1uf2-a1-m56-cF_1uf2-a1-m56-cE 1uf2-a1-m56-cF_1uf2-a1-m56-cQ 1uf2-a1-m56-cG_1uf2-a1-m56-cH 1uf2-a1-m56-cG_1uf2-a1-m56-cR 1uf2-a1-m56-cH_1uf2-a1-m56-cR 1uf2-a1-m56-cI_1uf2-a1-m56-cS 1uf2-a1-m56-cJ_1uf2-a1-m56-cI 1uf2-a1-m56-cJ_1uf2-a1-m56-cS 1uf2-a1-m56-cP_1uf2-a1-m56-cC 1uf2-a1-m56-cP_1uf2-a1-m56-cD 1uf2-a1-m56-cT_1uf2-a1-m8-cT 1uf2-a1-m57-cC_1uf2-a1-m57-cD 1uf2-a1-m57-cE_1uf2-a1-m57-cQ 1uf2-a1-m57-cF_1uf2-a1-m57-cE 1uf2-a1-m57-cF_1uf2-a1-m57-cQ 1uf2-a1-m57-cG_1uf2-a1-m57-cH 1uf2-a1-m57-cG_1uf2-a1-m57-cR 1uf2-a1-m57-cH_1uf2-a1-m57-cR 1uf2-a1-m57-cI_1uf2-a1-m57-cS 1uf2-a1-m57-cJ_1uf2-a1-m57-cI 1uf2-a1-m57-cJ_1uf2-a1-m57-cS 1uf2-a1-m57-cP_1uf2-a1-m57-cC 1uf2-a1-m57-cP_1uf2-a1-m57-cD 1uf2-a1-m57-cT_1uf2-a1-m7-cT 1uf2-a1-m58-cC_1uf2-a1-m58-cD 1uf2-a1-m58-cE_1uf2-a1-m58-cQ 1uf2-a1-m58-cF_1uf2-a1-m58-cE 1uf2-a1-m58-cF_1uf2-a1-m58-cQ 1uf2-a1-m58-cG_1uf2-a1-m58-cH 1uf2-a1-m58-cG_1uf2-a1-m58-cR 1uf2-a1-m58-cH_1uf2-a1-m58-cR 1uf2-a1-m58-cI_1uf2-a1-m58-cS 1uf2-a1-m58-cJ_1uf2-a1-m58-cI 1uf2-a1-m58-cJ_1uf2-a1-m58-cS 1uf2-a1-m58-cP_1uf2-a1-m58-cC 1uf2-a1-m58-cP_1uf2-a1-m58-cD 1uf2-a1-m59-cC_1uf2-a1-m59-cD 1uf2-a1-m59-cE_1uf2-a1-m59-cQ 1uf2-a1-m59-cF_1uf2-a1-m59-cE 1uf2-a1-m59-cF_1uf2-a1-m59-cQ 1uf2-a1-m59-cG_1uf2-a1-m59-cH 1uf2-a1-m59-cG_1uf2-a1-m59-cR 1uf2-a1-m59-cH_1uf2-a1-m59-cR 1uf2-a1-m59-cI_1uf2-a1-m59-cS 1uf2-a1-m59-cJ_1uf2-a1-m59-cI 1uf2-a1-m59-cJ_1uf2-a1-m59-cS 1uf2-a1-m59-cP_1uf2-a1-m59-cC 1uf2-a1-m59-cP_1uf2-a1-m59-cD 1uf2-a1-m5-cC_1uf2-a1-m5-cD 1uf2-a1-m5-cE_1uf2-a1-m5-cQ 1uf2-a1-m5-cF_1uf2-a1-m5-cE 1uf2-a1-m5-cF_1uf2-a1-m5-cQ 1uf2-a1-m5-cG_1uf2-a1-m5-cH 1uf2-a1-m5-cG_1uf2-a1-m5-cR 1uf2-a1-m5-cH_1uf2-a1-m5-cR 1uf2-a1-m5-cI_1uf2-a1-m5-cS 1uf2-a1-m5-cJ_1uf2-a1-m5-cI 1uf2-a1-m5-cJ_1uf2-a1-m5-cS 1uf2-a1-m5-cP_1uf2-a1-m5-cC 1uf2-a1-m5-cP_1uf2-a1-m5-cD 1uf2-a1-m5-cT_1uf2-a1-m6-cT 1uf2-a1-m60-cC_1uf2-a1-m60-cD 1uf2-a1-m60-cE_1uf2-a1-m60-cQ 1uf2-a1-m60-cF_1uf2-a1-m60-cE 1uf2-a1-m60-cF_1uf2-a1-m60-cQ 1uf2-a1-m60-cG_1uf2-a1-m60-cH 1uf2-a1-m60-cG_1uf2-a1-m60-cR 1uf2-a1-m60-cH_1uf2-a1-m60-cR 1uf2-a1-m60-cI_1uf2-a1-m60-cS 1uf2-a1-m60-cJ_1uf2-a1-m60-cI 1uf2-a1-m60-cJ_1uf2-a1-m60-cS 1uf2-a1-m60-cP_1uf2-a1-m60-cC 1uf2-a1-m60-cP_1uf2-a1-m60-cD 1uf2-a1-m6-cC_1uf2-a1-m6-cD 1uf2-a1-m6-cE_1uf2-a1-m6-cQ 1uf2-a1-m6-cF_1uf2-a1-m6-cE 1uf2-a1-m6-cF_1uf2-a1-m6-cQ 1uf2-a1-m6-cG_1uf2-a1-m6-cH 1uf2-a1-m6-cG_1uf2-a1-m6-cR 1uf2-a1-m6-cH_1uf2-a1-m6-cR 1uf2-a1-m6-cI_1uf2-a1-m6-cS 1uf2-a1-m6-cJ_1uf2-a1-m6-cI 1uf2-a1-m6-cJ_1uf2-a1-m6-cS 1uf2-a1-m6-cP_1uf2-a1-m6-cC 1uf2-a1-m6-cP_1uf2-a1-m6-cD 1uf2-a1-m7-cC_1uf2-a1-m7-cD 1uf2-a1-m7-cE_1uf2-a1-m7-cQ 1uf2-a1-m7-cF_1uf2-a1-m7-cE 1uf2-a1-m7-cF_1uf2-a1-m7-cQ 1uf2-a1-m7-cG_1uf2-a1-m7-cH 1uf2-a1-m7-cG_1uf2-a1-m7-cR 1uf2-a1-m7-cH_1uf2-a1-m7-cR 1uf2-a1-m7-cI_1uf2-a1-m7-cS 1uf2-a1-m7-cJ_1uf2-a1-m7-cI 1uf2-a1-m7-cJ_1uf2-a1-m7-cS 1uf2-a1-m7-cP_1uf2-a1-m7-cC 1uf2-a1-m7-cP_1uf2-a1-m7-cD 1uf2-a1-m8-cC_1uf2-a1-m8-cD 1uf2-a1-m8-cE_1uf2-a1-m8-cQ 1uf2-a1-m8-cF_1uf2-a1-m8-cE 1uf2-a1-m8-cF_1uf2-a1-m8-cQ 1uf2-a1-m8-cG_1uf2-a1-m8-cH 1uf2-a1-m8-cG_1uf2-a1-m8-cR 1uf2-a1-m8-cH_1uf2-a1-m8-cR 1uf2-a1-m8-cI_1uf2-a1-m8-cS 1uf2-a1-m8-cJ_1uf2-a1-m8-cI 1uf2-a1-m8-cJ_1uf2-a1-m8-cS 1uf2-a1-m8-cP_1uf2-a1-m8-cC 1uf2-a1-m8-cP_1uf2-a1-m8-cD 1uf2-a1-m9-cC_1uf2-a1-m9-cD 1uf2-a1-m9-cE_1uf2-a1-m9-cQ 1uf2-a1-m9-cF_1uf2-a1-m9-cE 1uf2-a1-m9-cF_1uf2-a1-m9-cQ 1uf2-a1-m9-cG_1uf2-a1-m9-cH 1uf2-a1-m9-cG_1uf2-a1-m9-cR 1uf2-a1-m9-cH_1uf2-a1-m9-cR 1uf2-a1-m9-cI_1uf2-a1-m9-cS 1uf2-a1-m9-cJ_1uf2-a1-m9-cI 1uf2-a1-m9-cJ_1uf2-a1-m9-cS 1uf2-a1-m9-cP_1uf2-a1-m9-cC 1uf2-a1-m9-cP_1uf2-a1-m9-cD MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSVSSAGYVSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSVSSAGYVSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN 1uf2-a1-m55-cA_1uf2-a1-m9-cA The Atomic Structure of Rice dwarf Virus (RDV) P22472 P22472 3.5 X-RAY DIFFRACTION 17 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 967 967 1uf2-a1-m10-cA_1uf2-a1-m24-cA 1uf2-a1-m11-cA_1uf2-a1-m16-cA 1uf2-a1-m12-cA_1uf2-a1-m38-cA 1uf2-a1-m13-cA_1uf2-a1-m47-cA 1uf2-a1-m14-cA_1uf2-a1-m45-cA 1uf2-a1-m15-cA_1uf2-a1-m29-cA 1uf2-a1-m17-cA_1uf2-a1-m28-cA 1uf2-a1-m18-cA_1uf2-a1-m52-cA 1uf2-a1-m19-cA_1uf2-a1-m60-cA 1uf2-a1-m1-cA_1uf2-a1-m6-cA 1uf2-a1-m20-cA_1uf2-a1-m39-cA 1uf2-a1-m21-cA_1uf2-a1-m26-cA 1uf2-a1-m22-cA_1uf2-a1-m43-cA 1uf2-a1-m25-cA_1uf2-a1-m54-cA 1uf2-a1-m27-cA_1uf2-a1-m53-cA 1uf2-a1-m2-cA_1uf2-a1-m23-cA 1uf2-a1-m30-cA_1uf2-a1-m44-cA 1uf2-a1-m31-cA_1uf2-a1-m36-cA 1uf2-a1-m32-cA_1uf2-a1-m58-cA 1uf2-a1-m33-cA_1uf2-a1-m7-cA 1uf2-a1-m34-cA_1uf2-a1-m5-cA 1uf2-a1-m35-cA_1uf2-a1-m49-cA 1uf2-a1-m37-cA_1uf2-a1-m48-cA 1uf2-a1-m3-cA_1uf2-a1-m42-cA 1uf2-a1-m40-cA_1uf2-a1-m59-cA 1uf2-a1-m41-cA_1uf2-a1-m46-cA 1uf2-a1-m4-cA_1uf2-a1-m50-cA 1uf2-a1-m51-cA_1uf2-a1-m56-cA 1uf2-a1-m57-cA_1uf2-a1-m8-cA QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ 1uf2-a1-m8-cA_1uf2-a1-m9-cA The Atomic Structure of Rice dwarf Virus (RDV) P22472 P22472 3.5 X-RAY DIFFRACTION 58 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 967 967 1uf2-a1-m10-cA_1uf2-a1-m6-cA 1uf2-a1-m10-cA_1uf2-a1-m9-cA 1uf2-a1-m11-cA_1uf2-a1-m12-cA 1uf2-a1-m11-cA_1uf2-a1-m15-cA 1uf2-a1-m12-cA_1uf2-a1-m13-cA 1uf2-a1-m13-cA_1uf2-a1-m14-cA 1uf2-a1-m14-cA_1uf2-a1-m15-cA 1uf2-a1-m16-cA_1uf2-a1-m17-cA 1uf2-a1-m16-cA_1uf2-a1-m20-cA 1uf2-a1-m17-cA_1uf2-a1-m18-cA 1uf2-a1-m18-cA_1uf2-a1-m19-cA 1uf2-a1-m19-cA_1uf2-a1-m20-cA 1uf2-a1-m1-cA_1uf2-a1-m2-cA 1uf2-a1-m1-cA_1uf2-a1-m5-cA 1uf2-a1-m21-cA_1uf2-a1-m22-cA 1uf2-a1-m21-cA_1uf2-a1-m25-cA 1uf2-a1-m22-cA_1uf2-a1-m23-cA 1uf2-a1-m23-cA_1uf2-a1-m24-cA 1uf2-a1-m24-cA_1uf2-a1-m25-cA 1uf2-a1-m26-cA_1uf2-a1-m27-cA 1uf2-a1-m26-cA_1uf2-a1-m30-cA 1uf2-a1-m27-cA_1uf2-a1-m28-cA 1uf2-a1-m28-cA_1uf2-a1-m29-cA 1uf2-a1-m29-cA_1uf2-a1-m30-cA 1uf2-a1-m2-cA_1uf2-a1-m3-cA 1uf2-a1-m31-cA_1uf2-a1-m32-cA 1uf2-a1-m31-cA_1uf2-a1-m35-cA 1uf2-a1-m32-cA_1uf2-a1-m33-cA 1uf2-a1-m33-cA_1uf2-a1-m34-cA 1uf2-a1-m34-cA_1uf2-a1-m35-cA 1uf2-a1-m36-cA_1uf2-a1-m37-cA 1uf2-a1-m36-cA_1uf2-a1-m40-cA 1uf2-a1-m37-cA_1uf2-a1-m38-cA 1uf2-a1-m38-cA_1uf2-a1-m39-cA 1uf2-a1-m39-cA_1uf2-a1-m40-cA 1uf2-a1-m3-cA_1uf2-a1-m4-cA 1uf2-a1-m41-cA_1uf2-a1-m42-cA 1uf2-a1-m41-cA_1uf2-a1-m45-cA 1uf2-a1-m42-cA_1uf2-a1-m43-cA 1uf2-a1-m43-cA_1uf2-a1-m44-cA 1uf2-a1-m44-cA_1uf2-a1-m45-cA 1uf2-a1-m46-cA_1uf2-a1-m47-cA 1uf2-a1-m46-cA_1uf2-a1-m50-cA 1uf2-a1-m47-cA_1uf2-a1-m48-cA 1uf2-a1-m48-cA_1uf2-a1-m49-cA 1uf2-a1-m49-cA_1uf2-a1-m50-cA 1uf2-a1-m4-cA_1uf2-a1-m5-cA 1uf2-a1-m51-cA_1uf2-a1-m52-cA 1uf2-a1-m51-cA_1uf2-a1-m55-cA 1uf2-a1-m52-cA_1uf2-a1-m53-cA 1uf2-a1-m53-cA_1uf2-a1-m54-cA 1uf2-a1-m54-cA_1uf2-a1-m55-cA 1uf2-a1-m56-cA_1uf2-a1-m57-cA 1uf2-a1-m56-cA_1uf2-a1-m60-cA 1uf2-a1-m57-cA_1uf2-a1-m58-cA 1uf2-a1-m58-cA_1uf2-a1-m59-cA 1uf2-a1-m59-cA_1uf2-a1-m60-cA 1uf2-a1-m6-cA_1uf2-a1-m7-cA 1uf2-a1-m7-cA_1uf2-a1-m8-cA QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ 1uf2-a1-m8-cP_1uf2-a1-m9-cP The Atomic Structure of Rice dwarf Virus (RDV) P17379 P17379 3.5 X-RAY DIFFRACTION 14 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 414 414 1uf2-a1-m10-cC_1uf2-a1-m9-cD 1uf2-a1-m10-cP_1uf2-a1-m6-cP 1uf2-a1-m10-cP_1uf2-a1-m9-cP 1uf2-a1-m11-cC_1uf2-a1-m15-cD 1uf2-a1-m11-cP_1uf2-a1-m12-cP 1uf2-a1-m11-cP_1uf2-a1-m15-cP 1uf2-a1-m12-cC_1uf2-a1-m11-cD 1uf2-a1-m12-cP_1uf2-a1-m13-cP 1uf2-a1-m13-cC_1uf2-a1-m12-cD 1uf2-a1-m13-cP_1uf2-a1-m14-cP 1uf2-a1-m14-cC_1uf2-a1-m13-cD 1uf2-a1-m14-cP_1uf2-a1-m15-cP 1uf2-a1-m15-cC_1uf2-a1-m14-cD 1uf2-a1-m16-cC_1uf2-a1-m20-cD 1uf2-a1-m16-cP_1uf2-a1-m17-cP 1uf2-a1-m16-cP_1uf2-a1-m20-cP 1uf2-a1-m17-cC_1uf2-a1-m16-cD 1uf2-a1-m17-cP_1uf2-a1-m18-cP 1uf2-a1-m18-cC_1uf2-a1-m17-cD 1uf2-a1-m18-cP_1uf2-a1-m19-cP 1uf2-a1-m19-cC_1uf2-a1-m18-cD 1uf2-a1-m19-cP_1uf2-a1-m20-cP 1uf2-a1-m1-cC_1uf2-a1-m5-cD 1uf2-a1-m1-cP_1uf2-a1-m2-cP 1uf2-a1-m1-cP_1uf2-a1-m5-cP 1uf2-a1-m20-cC_1uf2-a1-m19-cD 1uf2-a1-m21-cC_1uf2-a1-m25-cD 1uf2-a1-m21-cP_1uf2-a1-m22-cP 1uf2-a1-m21-cP_1uf2-a1-m25-cP 1uf2-a1-m22-cC_1uf2-a1-m21-cD 1uf2-a1-m22-cP_1uf2-a1-m23-cP 1uf2-a1-m23-cC_1uf2-a1-m22-cD 1uf2-a1-m23-cP_1uf2-a1-m24-cP 1uf2-a1-m24-cC_1uf2-a1-m23-cD 1uf2-a1-m24-cP_1uf2-a1-m25-cP 1uf2-a1-m25-cC_1uf2-a1-m24-cD 1uf2-a1-m26-cC_1uf2-a1-m30-cD 1uf2-a1-m26-cP_1uf2-a1-m27-cP 1uf2-a1-m26-cP_1uf2-a1-m30-cP 1uf2-a1-m27-cC_1uf2-a1-m26-cD 1uf2-a1-m27-cP_1uf2-a1-m28-cP 1uf2-a1-m28-cC_1uf2-a1-m27-cD 1uf2-a1-m28-cP_1uf2-a1-m29-cP 1uf2-a1-m29-cC_1uf2-a1-m28-cD 1uf2-a1-m29-cP_1uf2-a1-m30-cP 1uf2-a1-m2-cC_1uf2-a1-m1-cD 1uf2-a1-m2-cP_1uf2-a1-m3-cP 1uf2-a1-m30-cC_1uf2-a1-m29-cD 1uf2-a1-m31-cC_1uf2-a1-m35-cD 1uf2-a1-m31-cP_1uf2-a1-m32-cP 1uf2-a1-m31-cP_1uf2-a1-m35-cP 1uf2-a1-m32-cC_1uf2-a1-m31-cD 1uf2-a1-m32-cP_1uf2-a1-m33-cP 1uf2-a1-m33-cC_1uf2-a1-m32-cD 1uf2-a1-m33-cP_1uf2-a1-m34-cP 1uf2-a1-m34-cC_1uf2-a1-m33-cD 1uf2-a1-m34-cP_1uf2-a1-m35-cP 1uf2-a1-m35-cC_1uf2-a1-m34-cD 1uf2-a1-m36-cC_1uf2-a1-m40-cD 1uf2-a1-m36-cP_1uf2-a1-m37-cP 1uf2-a1-m36-cP_1uf2-a1-m40-cP 1uf2-a1-m37-cC_1uf2-a1-m36-cD 1uf2-a1-m37-cP_1uf2-a1-m38-cP 1uf2-a1-m38-cC_1uf2-a1-m37-cD 1uf2-a1-m38-cP_1uf2-a1-m39-cP 1uf2-a1-m39-cC_1uf2-a1-m38-cD 1uf2-a1-m39-cP_1uf2-a1-m40-cP 1uf2-a1-m3-cC_1uf2-a1-m2-cD 1uf2-a1-m3-cP_1uf2-a1-m4-cP 1uf2-a1-m40-cC_1uf2-a1-m39-cD 1uf2-a1-m41-cC_1uf2-a1-m45-cD 1uf2-a1-m41-cP_1uf2-a1-m42-cP 1uf2-a1-m41-cP_1uf2-a1-m45-cP 1uf2-a1-m42-cC_1uf2-a1-m41-cD 1uf2-a1-m42-cP_1uf2-a1-m43-cP 1uf2-a1-m43-cC_1uf2-a1-m42-cD 1uf2-a1-m43-cP_1uf2-a1-m44-cP 1uf2-a1-m44-cC_1uf2-a1-m43-cD 1uf2-a1-m44-cP_1uf2-a1-m45-cP 1uf2-a1-m45-cC_1uf2-a1-m44-cD 1uf2-a1-m46-cC_1uf2-a1-m50-cD 1uf2-a1-m46-cP_1uf2-a1-m47-cP 1uf2-a1-m46-cP_1uf2-a1-m50-cP 1uf2-a1-m47-cC_1uf2-a1-m46-cD 1uf2-a1-m47-cP_1uf2-a1-m48-cP 1uf2-a1-m48-cC_1uf2-a1-m47-cD 1uf2-a1-m48-cP_1uf2-a1-m49-cP 1uf2-a1-m49-cC_1uf2-a1-m48-cD 1uf2-a1-m49-cP_1uf2-a1-m50-cP 1uf2-a1-m4-cC_1uf2-a1-m3-cD 1uf2-a1-m4-cP_1uf2-a1-m5-cP 1uf2-a1-m50-cC_1uf2-a1-m49-cD 1uf2-a1-m51-cC_1uf2-a1-m55-cD 1uf2-a1-m51-cP_1uf2-a1-m52-cP 1uf2-a1-m51-cP_1uf2-a1-m55-cP 1uf2-a1-m52-cC_1uf2-a1-m51-cD 1uf2-a1-m52-cP_1uf2-a1-m53-cP 1uf2-a1-m53-cC_1uf2-a1-m52-cD 1uf2-a1-m53-cP_1uf2-a1-m54-cP 1uf2-a1-m54-cC_1uf2-a1-m53-cD 1uf2-a1-m54-cP_1uf2-a1-m55-cP 1uf2-a1-m55-cC_1uf2-a1-m54-cD 1uf2-a1-m56-cC_1uf2-a1-m60-cD 1uf2-a1-m56-cP_1uf2-a1-m57-cP 1uf2-a1-m56-cP_1uf2-a1-m60-cP 1uf2-a1-m57-cC_1uf2-a1-m56-cD 1uf2-a1-m57-cP_1uf2-a1-m58-cP 1uf2-a1-m58-cC_1uf2-a1-m57-cD 1uf2-a1-m58-cP_1uf2-a1-m59-cP 1uf2-a1-m59-cC_1uf2-a1-m58-cD 1uf2-a1-m59-cP_1uf2-a1-m60-cP 1uf2-a1-m5-cC_1uf2-a1-m4-cD 1uf2-a1-m60-cC_1uf2-a1-m59-cD 1uf2-a1-m6-cC_1uf2-a1-m10-cD 1uf2-a1-m6-cP_1uf2-a1-m7-cP 1uf2-a1-m7-cC_1uf2-a1-m6-cD 1uf2-a1-m7-cP_1uf2-a1-m8-cP 1uf2-a1-m8-cC_1uf2-a1-m7-cD 1uf2-a1-m9-cC_1uf2-a1-m8-cD MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN 1uf2-a1-m9-cA_1uf2-a1-m9-cB The Atomic Structure of Rice dwarf Virus (RDV) P22472 P22472 3.5 X-RAY DIFFRACTION 223 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 967 1019 1uf2-a1-m10-cA_1uf2-a1-m10-cB 1uf2-a1-m11-cA_1uf2-a1-m11-cB 1uf2-a1-m12-cA_1uf2-a1-m12-cB 1uf2-a1-m13-cA_1uf2-a1-m13-cB 1uf2-a1-m14-cA_1uf2-a1-m14-cB 1uf2-a1-m15-cA_1uf2-a1-m15-cB 1uf2-a1-m16-cA_1uf2-a1-m16-cB 1uf2-a1-m17-cA_1uf2-a1-m17-cB 1uf2-a1-m18-cA_1uf2-a1-m18-cB 1uf2-a1-m19-cA_1uf2-a1-m19-cB 1uf2-a1-m1-cA_1uf2-a1-m1-cB 1uf2-a1-m20-cA_1uf2-a1-m20-cB 1uf2-a1-m21-cA_1uf2-a1-m21-cB 1uf2-a1-m22-cA_1uf2-a1-m22-cB 1uf2-a1-m23-cA_1uf2-a1-m23-cB 1uf2-a1-m24-cA_1uf2-a1-m24-cB 1uf2-a1-m25-cA_1uf2-a1-m25-cB 1uf2-a1-m26-cA_1uf2-a1-m26-cB 1uf2-a1-m27-cA_1uf2-a1-m27-cB 1uf2-a1-m28-cA_1uf2-a1-m28-cB 1uf2-a1-m29-cA_1uf2-a1-m29-cB 1uf2-a1-m2-cA_1uf2-a1-m2-cB 1uf2-a1-m30-cA_1uf2-a1-m30-cB 1uf2-a1-m31-cA_1uf2-a1-m31-cB 1uf2-a1-m32-cA_1uf2-a1-m32-cB 1uf2-a1-m33-cA_1uf2-a1-m33-cB 1uf2-a1-m34-cA_1uf2-a1-m34-cB 1uf2-a1-m35-cA_1uf2-a1-m35-cB 1uf2-a1-m36-cA_1uf2-a1-m36-cB 1uf2-a1-m37-cA_1uf2-a1-m37-cB 1uf2-a1-m38-cA_1uf2-a1-m38-cB 1uf2-a1-m39-cA_1uf2-a1-m39-cB 1uf2-a1-m3-cA_1uf2-a1-m3-cB 1uf2-a1-m40-cA_1uf2-a1-m40-cB 1uf2-a1-m41-cA_1uf2-a1-m41-cB 1uf2-a1-m42-cA_1uf2-a1-m42-cB 1uf2-a1-m43-cA_1uf2-a1-m43-cB 1uf2-a1-m44-cA_1uf2-a1-m44-cB 1uf2-a1-m45-cA_1uf2-a1-m45-cB 1uf2-a1-m46-cA_1uf2-a1-m46-cB 1uf2-a1-m47-cA_1uf2-a1-m47-cB 1uf2-a1-m48-cA_1uf2-a1-m48-cB 1uf2-a1-m49-cA_1uf2-a1-m49-cB 1uf2-a1-m4-cA_1uf2-a1-m4-cB 1uf2-a1-m50-cA_1uf2-a1-m50-cB 1uf2-a1-m51-cA_1uf2-a1-m51-cB 1uf2-a1-m52-cA_1uf2-a1-m52-cB 1uf2-a1-m53-cA_1uf2-a1-m53-cB 1uf2-a1-m54-cA_1uf2-a1-m54-cB 1uf2-a1-m55-cA_1uf2-a1-m55-cB 1uf2-a1-m56-cA_1uf2-a1-m56-cB 1uf2-a1-m57-cA_1uf2-a1-m57-cB 1uf2-a1-m58-cA_1uf2-a1-m58-cB 1uf2-a1-m59-cA_1uf2-a1-m59-cB 1uf2-a1-m5-cA_1uf2-a1-m5-cB 1uf2-a1-m60-cA_1uf2-a1-m60-cB 1uf2-a1-m6-cA_1uf2-a1-m6-cB 1uf2-a1-m7-cA_1uf2-a1-m7-cB 1uf2-a1-m8-cA_1uf2-a1-m8-cB QSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQ MDSTGRAYDGASEFKSVLVTEGTSHYTPVEVYNILDELKTIKITSTIAEQSVVSRTPIPLSKIGLQDVKKLFDINVIKCGSSLRIVDEPQVTFIVSYAKDIYDKFMCIEHDSAYEPSLTMHRVRVIYSMLNDYCAKMISEVPYESSFVGELPVKSVTLNKLGDRNMDALAEHLLFEHDVVNAQRENRIFYQRKSAPAVPVIFGDDLEPAVRERANLYHRYSVPYHQIELALHALANDLLSIQYCHPTVVYNYLSSRAPNFLRLDDQVSLKLTSAGIGTLMPRPVVQLLDYDLVYMSPLALNNLASRLLRKISLHLVMQMVTAVQQDLGEVVSVSSNVTNPASACLVRMNVQGVQTLAVFIAQSMLNPNISYGMISGLTLDCFSNFIYGACLMLFQALIPPSALTARQRLDINNRFAYFLIKCHATQATTARLVANQVIYPVDAIDQWQSNGRDVLVAIYNNLLPGELVLTNLIQTYFRGNTAQQAAEILIPADQTSYGANETRALSAPYLFGAPINMLAPDARLSTYKRDLALPDRSPILITTVEGQNSISIENLRHKTGLIRAMYLNGFVTQPPAWIRNANSNTALLSRFLDATPNLLGIYEAILANTYANAVNVYCDSVYRADIPIEWKLHQSVDPQDLLFGVFGIVPQYQILNEAVPDFFAGGEDILILQLIRAVYDTLSNKLGRNPADIFHLEEVFKVIEEIVSVLVQQKIDVRKYFTESMRSGSFSKPRWDNFLRRPVAQRLPNLYSVIMTQADHVYNYMTQLTHIIPITDCFYIVKNSGFVDRGSTGPVIASSSVYENVLKVVHTIADFDAANALRLQRRRVDNTSYTDSLSDMFNGLRSISSSEFVRSVNGRSVFTEGRIDAIKVNMRAKFDLQFITEEGGYSKPPNVKKLMFSDFLSFLDSHKSDYRPPLLTVPITIGLNNLGETNSNTLRMRSEAIDEYFSSYVGAQILVPINVVDTRVYTEFSELRNFFTGDVVIRDDPFDVWDGVKATYIPIGVHGVRLDPNGDQPPL 1uf2-a1-m9-cG_1uf2-a1-m9-cT The Atomic Structure of Rice dwarf Virus (RDV) P17379 P17379 3.5 X-RAY DIFFRACTION 24 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 417 421 1uf2-a1-m10-cC_1uf2-a1-m10-cF 1uf2-a1-m10-cG_1uf2-a1-m10-cT 1uf2-a1-m10-cJ_1uf2-a1-m10-cQ 1uf2-a1-m11-cC_1uf2-a1-m11-cF 1uf2-a1-m11-cG_1uf2-a1-m11-cT 1uf2-a1-m11-cJ_1uf2-a1-m11-cQ 1uf2-a1-m12-cC_1uf2-a1-m12-cF 1uf2-a1-m12-cG_1uf2-a1-m12-cT 1uf2-a1-m12-cJ_1uf2-a1-m12-cQ 1uf2-a1-m13-cC_1uf2-a1-m13-cF 1uf2-a1-m13-cG_1uf2-a1-m13-cT 1uf2-a1-m13-cJ_1uf2-a1-m13-cQ 1uf2-a1-m14-cC_1uf2-a1-m14-cF 1uf2-a1-m14-cG_1uf2-a1-m14-cT 1uf2-a1-m14-cJ_1uf2-a1-m14-cQ 1uf2-a1-m15-cC_1uf2-a1-m15-cF 1uf2-a1-m15-cG_1uf2-a1-m15-cT 1uf2-a1-m15-cJ_1uf2-a1-m15-cQ 1uf2-a1-m16-cC_1uf2-a1-m16-cF 1uf2-a1-m16-cG_1uf2-a1-m16-cT 1uf2-a1-m16-cJ_1uf2-a1-m16-cQ 1uf2-a1-m17-cC_1uf2-a1-m17-cF 1uf2-a1-m17-cG_1uf2-a1-m17-cT 1uf2-a1-m17-cJ_1uf2-a1-m17-cQ 1uf2-a1-m18-cC_1uf2-a1-m18-cF 1uf2-a1-m18-cG_1uf2-a1-m18-cT 1uf2-a1-m18-cJ_1uf2-a1-m18-cQ 1uf2-a1-m19-cC_1uf2-a1-m19-cF 1uf2-a1-m19-cG_1uf2-a1-m19-cT 1uf2-a1-m19-cJ_1uf2-a1-m19-cQ 1uf2-a1-m1-cC_1uf2-a1-m1-cF 1uf2-a1-m1-cG_1uf2-a1-m1-cT 1uf2-a1-m1-cJ_1uf2-a1-m1-cQ 1uf2-a1-m20-cC_1uf2-a1-m20-cF 1uf2-a1-m20-cG_1uf2-a1-m20-cT 1uf2-a1-m20-cJ_1uf2-a1-m20-cQ 1uf2-a1-m21-cC_1uf2-a1-m21-cF 1uf2-a1-m21-cG_1uf2-a1-m21-cT 1uf2-a1-m21-cJ_1uf2-a1-m21-cQ 1uf2-a1-m22-cC_1uf2-a1-m22-cF 1uf2-a1-m22-cG_1uf2-a1-m22-cT 1uf2-a1-m22-cJ_1uf2-a1-m22-cQ 1uf2-a1-m23-cC_1uf2-a1-m23-cF 1uf2-a1-m23-cG_1uf2-a1-m23-cT 1uf2-a1-m23-cJ_1uf2-a1-m23-cQ 1uf2-a1-m24-cC_1uf2-a1-m24-cF 1uf2-a1-m24-cG_1uf2-a1-m24-cT 1uf2-a1-m24-cJ_1uf2-a1-m24-cQ 1uf2-a1-m25-cC_1uf2-a1-m25-cF 1uf2-a1-m25-cG_1uf2-a1-m25-cT 1uf2-a1-m25-cJ_1uf2-a1-m25-cQ 1uf2-a1-m26-cC_1uf2-a1-m26-cF 1uf2-a1-m26-cG_1uf2-a1-m26-cT 1uf2-a1-m26-cJ_1uf2-a1-m26-cQ 1uf2-a1-m27-cC_1uf2-a1-m27-cF 1uf2-a1-m27-cG_1uf2-a1-m27-cT 1uf2-a1-m27-cJ_1uf2-a1-m27-cQ 1uf2-a1-m28-cC_1uf2-a1-m28-cF 1uf2-a1-m28-cG_1uf2-a1-m28-cT 1uf2-a1-m28-cJ_1uf2-a1-m28-cQ 1uf2-a1-m29-cC_1uf2-a1-m29-cF 1uf2-a1-m29-cG_1uf2-a1-m29-cT 1uf2-a1-m29-cJ_1uf2-a1-m29-cQ 1uf2-a1-m2-cC_1uf2-a1-m2-cF 1uf2-a1-m2-cG_1uf2-a1-m2-cT 1uf2-a1-m2-cJ_1uf2-a1-m2-cQ 1uf2-a1-m30-cC_1uf2-a1-m30-cF 1uf2-a1-m30-cG_1uf2-a1-m30-cT 1uf2-a1-m30-cJ_1uf2-a1-m30-cQ 1uf2-a1-m31-cC_1uf2-a1-m31-cF 1uf2-a1-m31-cG_1uf2-a1-m31-cT 1uf2-a1-m31-cJ_1uf2-a1-m31-cQ 1uf2-a1-m32-cC_1uf2-a1-m32-cF 1uf2-a1-m32-cG_1uf2-a1-m32-cT 1uf2-a1-m32-cJ_1uf2-a1-m32-cQ 1uf2-a1-m33-cC_1uf2-a1-m33-cF 1uf2-a1-m33-cG_1uf2-a1-m33-cT 1uf2-a1-m33-cJ_1uf2-a1-m33-cQ 1uf2-a1-m34-cC_1uf2-a1-m34-cF 1uf2-a1-m34-cG_1uf2-a1-m34-cT 1uf2-a1-m34-cJ_1uf2-a1-m34-cQ 1uf2-a1-m35-cC_1uf2-a1-m35-cF 1uf2-a1-m35-cG_1uf2-a1-m35-cT 1uf2-a1-m35-cJ_1uf2-a1-m35-cQ 1uf2-a1-m36-cC_1uf2-a1-m36-cF 1uf2-a1-m36-cG_1uf2-a1-m36-cT 1uf2-a1-m36-cJ_1uf2-a1-m36-cQ 1uf2-a1-m37-cC_1uf2-a1-m37-cF 1uf2-a1-m37-cG_1uf2-a1-m37-cT 1uf2-a1-m37-cJ_1uf2-a1-m37-cQ 1uf2-a1-m38-cC_1uf2-a1-m38-cF 1uf2-a1-m38-cG_1uf2-a1-m38-cT 1uf2-a1-m38-cJ_1uf2-a1-m38-cQ 1uf2-a1-m39-cC_1uf2-a1-m39-cF 1uf2-a1-m39-cG_1uf2-a1-m39-cT 1uf2-a1-m39-cJ_1uf2-a1-m39-cQ 1uf2-a1-m3-cC_1uf2-a1-m3-cF 1uf2-a1-m3-cG_1uf2-a1-m3-cT 1uf2-a1-m3-cJ_1uf2-a1-m3-cQ 1uf2-a1-m40-cC_1uf2-a1-m40-cF 1uf2-a1-m40-cG_1uf2-a1-m40-cT 1uf2-a1-m40-cJ_1uf2-a1-m40-cQ 1uf2-a1-m41-cC_1uf2-a1-m41-cF 1uf2-a1-m41-cG_1uf2-a1-m41-cT 1uf2-a1-m41-cJ_1uf2-a1-m41-cQ 1uf2-a1-m42-cC_1uf2-a1-m42-cF 1uf2-a1-m42-cG_1uf2-a1-m42-cT 1uf2-a1-m42-cJ_1uf2-a1-m42-cQ 1uf2-a1-m43-cC_1uf2-a1-m43-cF 1uf2-a1-m43-cG_1uf2-a1-m43-cT 1uf2-a1-m43-cJ_1uf2-a1-m43-cQ 1uf2-a1-m44-cC_1uf2-a1-m44-cF 1uf2-a1-m44-cG_1uf2-a1-m44-cT 1uf2-a1-m44-cJ_1uf2-a1-m44-cQ 1uf2-a1-m45-cC_1uf2-a1-m45-cF 1uf2-a1-m45-cG_1uf2-a1-m45-cT 1uf2-a1-m45-cJ_1uf2-a1-m45-cQ 1uf2-a1-m46-cC_1uf2-a1-m46-cF 1uf2-a1-m46-cG_1uf2-a1-m46-cT 1uf2-a1-m46-cJ_1uf2-a1-m46-cQ 1uf2-a1-m47-cC_1uf2-a1-m47-cF 1uf2-a1-m47-cG_1uf2-a1-m47-cT 1uf2-a1-m47-cJ_1uf2-a1-m47-cQ 1uf2-a1-m48-cC_1uf2-a1-m48-cF 1uf2-a1-m48-cG_1uf2-a1-m48-cT 1uf2-a1-m48-cJ_1uf2-a1-m48-cQ 1uf2-a1-m49-cC_1uf2-a1-m49-cF 1uf2-a1-m49-cG_1uf2-a1-m49-cT 1uf2-a1-m49-cJ_1uf2-a1-m49-cQ 1uf2-a1-m4-cC_1uf2-a1-m4-cF 1uf2-a1-m4-cG_1uf2-a1-m4-cT 1uf2-a1-m4-cJ_1uf2-a1-m4-cQ 1uf2-a1-m50-cC_1uf2-a1-m50-cF 1uf2-a1-m50-cG_1uf2-a1-m50-cT 1uf2-a1-m50-cJ_1uf2-a1-m50-cQ 1uf2-a1-m51-cC_1uf2-a1-m51-cF 1uf2-a1-m51-cG_1uf2-a1-m51-cT 1uf2-a1-m51-cJ_1uf2-a1-m51-cQ 1uf2-a1-m52-cC_1uf2-a1-m52-cF 1uf2-a1-m52-cG_1uf2-a1-m52-cT 1uf2-a1-m52-cJ_1uf2-a1-m52-cQ 1uf2-a1-m53-cC_1uf2-a1-m53-cF 1uf2-a1-m53-cG_1uf2-a1-m53-cT 1uf2-a1-m53-cJ_1uf2-a1-m53-cQ 1uf2-a1-m54-cC_1uf2-a1-m54-cF 1uf2-a1-m54-cG_1uf2-a1-m54-cT 1uf2-a1-m54-cJ_1uf2-a1-m54-cQ 1uf2-a1-m55-cC_1uf2-a1-m55-cF 1uf2-a1-m55-cG_1uf2-a1-m55-cT 1uf2-a1-m55-cJ_1uf2-a1-m55-cQ 1uf2-a1-m56-cC_1uf2-a1-m56-cF 1uf2-a1-m56-cG_1uf2-a1-m56-cT 1uf2-a1-m56-cJ_1uf2-a1-m56-cQ 1uf2-a1-m57-cC_1uf2-a1-m57-cF 1uf2-a1-m57-cG_1uf2-a1-m57-cT 1uf2-a1-m57-cJ_1uf2-a1-m57-cQ 1uf2-a1-m58-cC_1uf2-a1-m58-cF 1uf2-a1-m58-cG_1uf2-a1-m58-cT 1uf2-a1-m58-cJ_1uf2-a1-m58-cQ 1uf2-a1-m59-cC_1uf2-a1-m59-cF 1uf2-a1-m59-cG_1uf2-a1-m59-cT 1uf2-a1-m59-cJ_1uf2-a1-m59-cQ 1uf2-a1-m5-cC_1uf2-a1-m5-cF 1uf2-a1-m5-cG_1uf2-a1-m5-cT 1uf2-a1-m5-cJ_1uf2-a1-m5-cQ 1uf2-a1-m60-cC_1uf2-a1-m60-cF 1uf2-a1-m60-cG_1uf2-a1-m60-cT 1uf2-a1-m60-cJ_1uf2-a1-m60-cQ 1uf2-a1-m6-cC_1uf2-a1-m6-cF 1uf2-a1-m6-cG_1uf2-a1-m6-cT 1uf2-a1-m6-cJ_1uf2-a1-m6-cQ 1uf2-a1-m7-cC_1uf2-a1-m7-cF 1uf2-a1-m7-cG_1uf2-a1-m7-cT 1uf2-a1-m7-cJ_1uf2-a1-m7-cQ 1uf2-a1-m8-cC_1uf2-a1-m8-cF 1uf2-a1-m8-cG_1uf2-a1-m8-cT 1uf2-a1-m8-cJ_1uf2-a1-m8-cQ 1uf2-a1-m9-cC_1uf2-a1-m9-cF 1uf2-a1-m9-cJ_1uf2-a1-m9-cQ MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSVYVSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSVSSAGYVSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN 1uf2-a1-m9-cJ_1uf2-a1-m9-cE The Atomic Structure of Rice dwarf Virus (RDV) P17379 P17379 3.5 X-RAY DIFFRACTION 34 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 413 421 1uf2-a1-m10-cC_1uf2-a1-m10-cQ 1uf2-a1-m10-cF_1uf2-a1-m10-cD 1uf2-a1-m10-cF_1uf2-a1-m10-cR 1uf2-a1-m10-cG_1uf2-a1-m10-cE 1uf2-a1-m10-cG_1uf2-a1-m23-cT 1uf2-a1-m10-cH_1uf2-a1-m10-cT 1uf2-a1-m10-cI_1uf2-a1-m9-cH 1uf2-a1-m10-cJ_1uf2-a1-m10-cE 1uf2-a1-m10-cJ_1uf2-a1-m24-cI 1uf2-a1-m10-cQ_1uf2-a1-m10-cS 1uf2-a1-m10-cR_1uf2-a1-m6-cS 1uf2-a1-m10-cS_1uf2-a1-m9-cR 1uf2-a1-m11-cC_1uf2-a1-m11-cQ 1uf2-a1-m11-cF_1uf2-a1-m11-cD 1uf2-a1-m11-cF_1uf2-a1-m11-cR 1uf2-a1-m11-cG_1uf2-a1-m11-cE 1uf2-a1-m11-cG_1uf2-a1-m20-cT 1uf2-a1-m11-cH_1uf2-a1-m11-cT 1uf2-a1-m11-cI_1uf2-a1-m15-cH 1uf2-a1-m11-cJ_1uf2-a1-m11-cE 1uf2-a1-m11-cJ_1uf2-a1-m16-cI 1uf2-a1-m11-cQ_1uf2-a1-m11-cS 1uf2-a1-m11-cR_1uf2-a1-m12-cS 1uf2-a1-m11-cS_1uf2-a1-m15-cR 1uf2-a1-m12-cC_1uf2-a1-m12-cQ 1uf2-a1-m12-cF_1uf2-a1-m12-cD 1uf2-a1-m12-cF_1uf2-a1-m12-cR 1uf2-a1-m12-cG_1uf2-a1-m12-cE 1uf2-a1-m12-cG_1uf2-a1-m37-cT 1uf2-a1-m12-cH_1uf2-a1-m12-cT 1uf2-a1-m12-cI_1uf2-a1-m11-cH 1uf2-a1-m12-cJ_1uf2-a1-m12-cE 1uf2-a1-m12-cJ_1uf2-a1-m38-cI 1uf2-a1-m12-cQ_1uf2-a1-m12-cS 1uf2-a1-m12-cR_1uf2-a1-m13-cS 1uf2-a1-m13-cC_1uf2-a1-m13-cQ 1uf2-a1-m13-cF_1uf2-a1-m13-cD 1uf2-a1-m13-cF_1uf2-a1-m13-cR 1uf2-a1-m13-cG_1uf2-a1-m13-cE 1uf2-a1-m13-cG_1uf2-a1-m46-cT 1uf2-a1-m13-cH_1uf2-a1-m13-cT 1uf2-a1-m13-cI_1uf2-a1-m12-cH 1uf2-a1-m13-cJ_1uf2-a1-m13-cE 1uf2-a1-m13-cJ_1uf2-a1-m47-cI 1uf2-a1-m13-cQ_1uf2-a1-m13-cS 1uf2-a1-m13-cR_1uf2-a1-m14-cS 1uf2-a1-m14-cC_1uf2-a1-m14-cQ 1uf2-a1-m14-cF_1uf2-a1-m14-cD 1uf2-a1-m14-cF_1uf2-a1-m14-cR 1uf2-a1-m14-cG_1uf2-a1-m14-cE 1uf2-a1-m14-cG_1uf2-a1-m44-cT 1uf2-a1-m14-cH_1uf2-a1-m14-cT 1uf2-a1-m14-cI_1uf2-a1-m13-cH 1uf2-a1-m14-cJ_1uf2-a1-m14-cE 1uf2-a1-m14-cJ_1uf2-a1-m45-cI 1uf2-a1-m14-cQ_1uf2-a1-m14-cS 1uf2-a1-m14-cR_1uf2-a1-m15-cS 1uf2-a1-m15-cC_1uf2-a1-m15-cQ 1uf2-a1-m15-cF_1uf2-a1-m15-cD 1uf2-a1-m15-cF_1uf2-a1-m15-cR 1uf2-a1-m15-cG_1uf2-a1-m15-cE 1uf2-a1-m15-cG_1uf2-a1-m28-cT 1uf2-a1-m15-cH_1uf2-a1-m15-cT 1uf2-a1-m15-cI_1uf2-a1-m14-cH 1uf2-a1-m15-cJ_1uf2-a1-m15-cE 1uf2-a1-m15-cJ_1uf2-a1-m29-cI 1uf2-a1-m15-cQ_1uf2-a1-m15-cS 1uf2-a1-m16-cC_1uf2-a1-m16-cQ 1uf2-a1-m16-cF_1uf2-a1-m16-cD 1uf2-a1-m16-cF_1uf2-a1-m16-cR 1uf2-a1-m16-cG_1uf2-a1-m15-cT 1uf2-a1-m16-cG_1uf2-a1-m16-cE 1uf2-a1-m16-cH_1uf2-a1-m16-cT 1uf2-a1-m16-cI_1uf2-a1-m20-cH 1uf2-a1-m16-cJ_1uf2-a1-m11-cI 1uf2-a1-m16-cJ_1uf2-a1-m16-cE 1uf2-a1-m16-cQ_1uf2-a1-m16-cS 1uf2-a1-m16-cR_1uf2-a1-m17-cS 1uf2-a1-m16-cS_1uf2-a1-m20-cR 1uf2-a1-m17-cC_1uf2-a1-m17-cQ 1uf2-a1-m17-cF_1uf2-a1-m17-cD 1uf2-a1-m17-cF_1uf2-a1-m17-cR 1uf2-a1-m17-cG_1uf2-a1-m17-cE 1uf2-a1-m17-cG_1uf2-a1-m27-cT 1uf2-a1-m17-cH_1uf2-a1-m17-cT 1uf2-a1-m17-cI_1uf2-a1-m16-cH 1uf2-a1-m17-cJ_1uf2-a1-m17-cE 1uf2-a1-m17-cJ_1uf2-a1-m28-cI 1uf2-a1-m17-cQ_1uf2-a1-m17-cS 1uf2-a1-m17-cR_1uf2-a1-m18-cS 1uf2-a1-m18-cC_1uf2-a1-m18-cQ 1uf2-a1-m18-cF_1uf2-a1-m18-cD 1uf2-a1-m18-cF_1uf2-a1-m18-cR 1uf2-a1-m18-cG_1uf2-a1-m18-cE 1uf2-a1-m18-cG_1uf2-a1-m51-cT 1uf2-a1-m18-cH_1uf2-a1-m18-cT 1uf2-a1-m18-cI_1uf2-a1-m17-cH 1uf2-a1-m18-cJ_1uf2-a1-m18-cE 1uf2-a1-m18-cJ_1uf2-a1-m52-cI 1uf2-a1-m18-cQ_1uf2-a1-m18-cS 1uf2-a1-m18-cR_1uf2-a1-m19-cS 1uf2-a1-m19-cC_1uf2-a1-m19-cQ 1uf2-a1-m19-cF_1uf2-a1-m19-cD 1uf2-a1-m19-cF_1uf2-a1-m19-cR 1uf2-a1-m19-cG_1uf2-a1-m19-cE 1uf2-a1-m19-cG_1uf2-a1-m59-cT 1uf2-a1-m19-cH_1uf2-a1-m19-cT 1uf2-a1-m19-cI_1uf2-a1-m18-cH 1uf2-a1-m19-cJ_1uf2-a1-m19-cE 1uf2-a1-m19-cJ_1uf2-a1-m60-cI 1uf2-a1-m19-cQ_1uf2-a1-m19-cS 1uf2-a1-m19-cR_1uf2-a1-m20-cS 1uf2-a1-m1-cC_1uf2-a1-m1-cQ 1uf2-a1-m1-cF_1uf2-a1-m1-cD 1uf2-a1-m1-cF_1uf2-a1-m1-cR 1uf2-a1-m1-cG_1uf2-a1-m10-cT 1uf2-a1-m1-cG_1uf2-a1-m1-cE 1uf2-a1-m1-cH_1uf2-a1-m1-cT 1uf2-a1-m1-cI_1uf2-a1-m5-cH 1uf2-a1-m1-cJ_1uf2-a1-m1-cE 1uf2-a1-m1-cJ_1uf2-a1-m6-cI 1uf2-a1-m1-cQ_1uf2-a1-m1-cS 1uf2-a1-m1-cR_1uf2-a1-m2-cS 1uf2-a1-m1-cS_1uf2-a1-m5-cR 1uf2-a1-m20-cC_1uf2-a1-m20-cQ 1uf2-a1-m20-cF_1uf2-a1-m20-cD 1uf2-a1-m20-cF_1uf2-a1-m20-cR 1uf2-a1-m20-cG_1uf2-a1-m20-cE 1uf2-a1-m20-cG_1uf2-a1-m38-cT 1uf2-a1-m20-cH_1uf2-a1-m20-cT 1uf2-a1-m20-cI_1uf2-a1-m19-cH 1uf2-a1-m20-cJ_1uf2-a1-m20-cE 1uf2-a1-m20-cJ_1uf2-a1-m39-cI 1uf2-a1-m20-cQ_1uf2-a1-m20-cS 1uf2-a1-m21-cC_1uf2-a1-m21-cQ 1uf2-a1-m21-cF_1uf2-a1-m21-cD 1uf2-a1-m21-cF_1uf2-a1-m21-cR 1uf2-a1-m21-cG_1uf2-a1-m21-cE 1uf2-a1-m21-cG_1uf2-a1-m30-cT 1uf2-a1-m21-cH_1uf2-a1-m21-cT 1uf2-a1-m21-cI_1uf2-a1-m25-cH 1uf2-a1-m21-cJ_1uf2-a1-m21-cE 1uf2-a1-m21-cJ_1uf2-a1-m26-cI 1uf2-a1-m21-cQ_1uf2-a1-m21-cS 1uf2-a1-m21-cR_1uf2-a1-m22-cS 1uf2-a1-m21-cS_1uf2-a1-m25-cR 1uf2-a1-m22-cC_1uf2-a1-m22-cQ 1uf2-a1-m22-cF_1uf2-a1-m22-cD 1uf2-a1-m22-cF_1uf2-a1-m22-cR 1uf2-a1-m22-cG_1uf2-a1-m22-cE 1uf2-a1-m22-cG_1uf2-a1-m42-cT 1uf2-a1-m22-cH_1uf2-a1-m22-cT 1uf2-a1-m22-cI_1uf2-a1-m21-cH 1uf2-a1-m22-cJ_1uf2-a1-m22-cE 1uf2-a1-m22-cJ_1uf2-a1-m43-cI 1uf2-a1-m22-cQ_1uf2-a1-m22-cS 1uf2-a1-m22-cR_1uf2-a1-m23-cS 1uf2-a1-m23-cC_1uf2-a1-m23-cQ 1uf2-a1-m23-cF_1uf2-a1-m23-cD 1uf2-a1-m23-cF_1uf2-a1-m23-cR 1uf2-a1-m23-cG_1uf2-a1-m1-cT 1uf2-a1-m23-cG_1uf2-a1-m23-cE 1uf2-a1-m23-cH_1uf2-a1-m23-cT 1uf2-a1-m23-cI_1uf2-a1-m22-cH 1uf2-a1-m23-cJ_1uf2-a1-m23-cE 1uf2-a1-m23-cJ_1uf2-a1-m2-cI 1uf2-a1-m23-cQ_1uf2-a1-m23-cS 1uf2-a1-m23-cR_1uf2-a1-m24-cS 1uf2-a1-m24-cC_1uf2-a1-m24-cQ 1uf2-a1-m24-cF_1uf2-a1-m24-cD 1uf2-a1-m24-cF_1uf2-a1-m24-cR 1uf2-a1-m24-cG_1uf2-a1-m24-cE 1uf2-a1-m24-cG_1uf2-a1-m9-cT 1uf2-a1-m24-cH_1uf2-a1-m24-cT 1uf2-a1-m24-cI_1uf2-a1-m23-cH 1uf2-a1-m24-cJ_1uf2-a1-m10-cI 1uf2-a1-m24-cJ_1uf2-a1-m24-cE 1uf2-a1-m24-cQ_1uf2-a1-m24-cS 1uf2-a1-m24-cR_1uf2-a1-m25-cS 1uf2-a1-m25-cC_1uf2-a1-m25-cQ 1uf2-a1-m25-cF_1uf2-a1-m25-cD 1uf2-a1-m25-cF_1uf2-a1-m25-cR 1uf2-a1-m25-cG_1uf2-a1-m25-cE 1uf2-a1-m25-cG_1uf2-a1-m53-cT 1uf2-a1-m25-cH_1uf2-a1-m25-cT 1uf2-a1-m25-cI_1uf2-a1-m24-cH 1uf2-a1-m25-cJ_1uf2-a1-m25-cE 1uf2-a1-m25-cJ_1uf2-a1-m54-cI 1uf2-a1-m25-cQ_1uf2-a1-m25-cS 1uf2-a1-m26-cC_1uf2-a1-m26-cQ 1uf2-a1-m26-cF_1uf2-a1-m26-cD 1uf2-a1-m26-cF_1uf2-a1-m26-cR 1uf2-a1-m26-cG_1uf2-a1-m25-cT 1uf2-a1-m26-cG_1uf2-a1-m26-cE 1uf2-a1-m26-cH_1uf2-a1-m26-cT 1uf2-a1-m26-cI_1uf2-a1-m30-cH 1uf2-a1-m26-cJ_1uf2-a1-m21-cI 1uf2-a1-m26-cJ_1uf2-a1-m26-cE 1uf2-a1-m26-cQ_1uf2-a1-m26-cS 1uf2-a1-m26-cR_1uf2-a1-m27-cS 1uf2-a1-m26-cS_1uf2-a1-m30-cR 1uf2-a1-m27-cC_1uf2-a1-m27-cQ 1uf2-a1-m27-cF_1uf2-a1-m27-cD 1uf2-a1-m27-cF_1uf2-a1-m27-cR 1uf2-a1-m27-cG_1uf2-a1-m27-cE 1uf2-a1-m27-cG_1uf2-a1-m52-cT 1uf2-a1-m27-cH_1uf2-a1-m27-cT 1uf2-a1-m27-cI_1uf2-a1-m26-cH 1uf2-a1-m27-cJ_1uf2-a1-m27-cE 1uf2-a1-m27-cJ_1uf2-a1-m53-cI 1uf2-a1-m27-cQ_1uf2-a1-m27-cS 1uf2-a1-m27-cR_1uf2-a1-m28-cS 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1uf2-a1-m52-cF_1uf2-a1-m52-cR 1uf2-a1-m52-cG_1uf2-a1-m17-cT 1uf2-a1-m52-cG_1uf2-a1-m52-cE 1uf2-a1-m52-cH_1uf2-a1-m52-cT 1uf2-a1-m52-cI_1uf2-a1-m51-cH 1uf2-a1-m52-cJ_1uf2-a1-m18-cI 1uf2-a1-m52-cJ_1uf2-a1-m52-cE 1uf2-a1-m52-cQ_1uf2-a1-m52-cS 1uf2-a1-m52-cR_1uf2-a1-m53-cS 1uf2-a1-m53-cC_1uf2-a1-m53-cQ 1uf2-a1-m53-cF_1uf2-a1-m53-cD 1uf2-a1-m53-cF_1uf2-a1-m53-cR 1uf2-a1-m53-cG_1uf2-a1-m26-cT 1uf2-a1-m53-cG_1uf2-a1-m53-cE 1uf2-a1-m53-cH_1uf2-a1-m53-cT 1uf2-a1-m53-cI_1uf2-a1-m52-cH 1uf2-a1-m53-cJ_1uf2-a1-m27-cI 1uf2-a1-m53-cJ_1uf2-a1-m53-cE 1uf2-a1-m53-cQ_1uf2-a1-m53-cS 1uf2-a1-m53-cR_1uf2-a1-m54-cS 1uf2-a1-m54-cC_1uf2-a1-m54-cQ 1uf2-a1-m54-cF_1uf2-a1-m54-cD 1uf2-a1-m54-cF_1uf2-a1-m54-cR 1uf2-a1-m54-cG_1uf2-a1-m24-cT 1uf2-a1-m54-cG_1uf2-a1-m54-cE 1uf2-a1-m54-cH_1uf2-a1-m54-cT 1uf2-a1-m54-cI_1uf2-a1-m53-cH 1uf2-a1-m54-cJ_1uf2-a1-m25-cI 1uf2-a1-m54-cJ_1uf2-a1-m54-cE 1uf2-a1-m54-cQ_1uf2-a1-m54-cS 1uf2-a1-m54-cR_1uf2-a1-m55-cS 1uf2-a1-m55-cC_1uf2-a1-m55-cQ 1uf2-a1-m55-cF_1uf2-a1-m55-cD 1uf2-a1-m55-cF_1uf2-a1-m55-cR 1uf2-a1-m55-cG_1uf2-a1-m55-cE 1uf2-a1-m55-cG_1uf2-a1-m8-cT 1uf2-a1-m55-cH_1uf2-a1-m55-cT 1uf2-a1-m55-cI_1uf2-a1-m54-cH 1uf2-a1-m55-cJ_1uf2-a1-m55-cE 1uf2-a1-m55-cJ_1uf2-a1-m9-cI 1uf2-a1-m55-cQ_1uf2-a1-m55-cS 1uf2-a1-m56-cC_1uf2-a1-m56-cQ 1uf2-a1-m56-cF_1uf2-a1-m56-cD 1uf2-a1-m56-cF_1uf2-a1-m56-cR 1uf2-a1-m56-cG_1uf2-a1-m55-cT 1uf2-a1-m56-cG_1uf2-a1-m56-cE 1uf2-a1-m56-cH_1uf2-a1-m56-cT 1uf2-a1-m56-cI_1uf2-a1-m60-cH 1uf2-a1-m56-cJ_1uf2-a1-m51-cI 1uf2-a1-m56-cJ_1uf2-a1-m56-cE 1uf2-a1-m56-cQ_1uf2-a1-m56-cS 1uf2-a1-m56-cR_1uf2-a1-m57-cS 1uf2-a1-m56-cS_1uf2-a1-m60-cR 1uf2-a1-m57-cC_1uf2-a1-m57-cQ 1uf2-a1-m57-cF_1uf2-a1-m57-cD 1uf2-a1-m57-cF_1uf2-a1-m57-cR 1uf2-a1-m57-cG_1uf2-a1-m57-cE 1uf2-a1-m57-cG_1uf2-a1-m7-cT 1uf2-a1-m57-cH_1uf2-a1-m57-cT 1uf2-a1-m57-cI_1uf2-a1-m56-cH 1uf2-a1-m57-cJ_1uf2-a1-m57-cE 1uf2-a1-m57-cJ_1uf2-a1-m8-cI 1uf2-a1-m57-cQ_1uf2-a1-m57-cS 1uf2-a1-m57-cR_1uf2-a1-m58-cS 1uf2-a1-m58-cC_1uf2-a1-m58-cQ 1uf2-a1-m58-cF_1uf2-a1-m58-cD 1uf2-a1-m58-cF_1uf2-a1-m58-cR 1uf2-a1-m58-cG_1uf2-a1-m31-cT 1uf2-a1-m58-cG_1uf2-a1-m58-cE 1uf2-a1-m58-cH_1uf2-a1-m58-cT 1uf2-a1-m58-cI_1uf2-a1-m57-cH 1uf2-a1-m58-cJ_1uf2-a1-m32-cI 1uf2-a1-m58-cJ_1uf2-a1-m58-cE 1uf2-a1-m58-cQ_1uf2-a1-m58-cS 1uf2-a1-m58-cR_1uf2-a1-m59-cS 1uf2-a1-m59-cC_1uf2-a1-m59-cQ 1uf2-a1-m59-cF_1uf2-a1-m59-cD 1uf2-a1-m59-cF_1uf2-a1-m59-cR 1uf2-a1-m59-cG_1uf2-a1-m39-cT 1uf2-a1-m59-cG_1uf2-a1-m59-cE 1uf2-a1-m59-cH_1uf2-a1-m59-cT 1uf2-a1-m59-cI_1uf2-a1-m58-cH 1uf2-a1-m59-cJ_1uf2-a1-m40-cI 1uf2-a1-m59-cJ_1uf2-a1-m59-cE 1uf2-a1-m59-cQ_1uf2-a1-m59-cS 1uf2-a1-m59-cR_1uf2-a1-m60-cS 1uf2-a1-m5-cC_1uf2-a1-m5-cQ 1uf2-a1-m5-cF_1uf2-a1-m5-cD 1uf2-a1-m5-cF_1uf2-a1-m5-cR 1uf2-a1-m5-cG_1uf2-a1-m33-cT 1uf2-a1-m5-cG_1uf2-a1-m5-cE 1uf2-a1-m5-cH_1uf2-a1-m5-cT 1uf2-a1-m5-cI_1uf2-a1-m4-cH 1uf2-a1-m5-cJ_1uf2-a1-m34-cI 1uf2-a1-m5-cJ_1uf2-a1-m5-cE 1uf2-a1-m5-cQ_1uf2-a1-m5-cS 1uf2-a1-m60-cC_1uf2-a1-m60-cQ 1uf2-a1-m60-cF_1uf2-a1-m60-cD 1uf2-a1-m60-cF_1uf2-a1-m60-cR 1uf2-a1-m60-cG_1uf2-a1-m18-cT 1uf2-a1-m60-cG_1uf2-a1-m60-cE 1uf2-a1-m60-cH_1uf2-a1-m60-cT 1uf2-a1-m60-cI_1uf2-a1-m59-cH 1uf2-a1-m60-cJ_1uf2-a1-m19-cI 1uf2-a1-m60-cJ_1uf2-a1-m60-cE 1uf2-a1-m60-cQ_1uf2-a1-m60-cS 1uf2-a1-m6-cC_1uf2-a1-m6-cQ 1uf2-a1-m6-cF_1uf2-a1-m6-cD 1uf2-a1-m6-cF_1uf2-a1-m6-cR 1uf2-a1-m6-cG_1uf2-a1-m5-cT 1uf2-a1-m6-cG_1uf2-a1-m6-cE 1uf2-a1-m6-cH_1uf2-a1-m6-cT 1uf2-a1-m6-cI_1uf2-a1-m10-cH 1uf2-a1-m6-cJ_1uf2-a1-m1-cI 1uf2-a1-m6-cJ_1uf2-a1-m6-cE 1uf2-a1-m6-cQ_1uf2-a1-m6-cS 1uf2-a1-m6-cR_1uf2-a1-m7-cS 1uf2-a1-m7-cC_1uf2-a1-m7-cQ 1uf2-a1-m7-cF_1uf2-a1-m7-cD 1uf2-a1-m7-cF_1uf2-a1-m7-cR 1uf2-a1-m7-cG_1uf2-a1-m32-cT 1uf2-a1-m7-cG_1uf2-a1-m7-cE 1uf2-a1-m7-cH_1uf2-a1-m7-cT 1uf2-a1-m7-cI_1uf2-a1-m6-cH 1uf2-a1-m7-cJ_1uf2-a1-m33-cI 1uf2-a1-m7-cJ_1uf2-a1-m7-cE 1uf2-a1-m7-cQ_1uf2-a1-m7-cS 1uf2-a1-m7-cR_1uf2-a1-m8-cS 1uf2-a1-m8-cC_1uf2-a1-m8-cQ 1uf2-a1-m8-cF_1uf2-a1-m8-cD 1uf2-a1-m8-cF_1uf2-a1-m8-cR 1uf2-a1-m8-cG_1uf2-a1-m56-cT 1uf2-a1-m8-cG_1uf2-a1-m8-cE 1uf2-a1-m8-cH_1uf2-a1-m8-cT 1uf2-a1-m8-cI_1uf2-a1-m7-cH 1uf2-a1-m8-cJ_1uf2-a1-m57-cI 1uf2-a1-m8-cJ_1uf2-a1-m8-cE 1uf2-a1-m8-cQ_1uf2-a1-m8-cS 1uf2-a1-m8-cR_1uf2-a1-m9-cS 1uf2-a1-m9-cC_1uf2-a1-m9-cQ 1uf2-a1-m9-cF_1uf2-a1-m9-cD 1uf2-a1-m9-cF_1uf2-a1-m9-cR 1uf2-a1-m9-cG_1uf2-a1-m54-cT 1uf2-a1-m9-cG_1uf2-a1-m9-cE 1uf2-a1-m9-cH_1uf2-a1-m9-cT 1uf2-a1-m9-cI_1uf2-a1-m8-cH 1uf2-a1-m9-cJ_1uf2-a1-m55-cI 1uf2-a1-m9-cQ_1uf2-a1-m9-cS MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSVSSAGYVSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN 1uf2-a1-m9-cP_1uf2-a1-m10-cC The Atomic Structure of Rice dwarf Virus (RDV) P17379 P17379 3.5 X-RAY DIFFRACTION 10 1.0 10991 (Rice dwarf virus) 10991 (Rice dwarf virus) 414 415 1uf2-a1-m10-cP_1uf2-a1-m6-cC 1uf2-a1-m11-cP_1uf2-a1-m12-cC 1uf2-a1-m12-cP_1uf2-a1-m13-cC 1uf2-a1-m13-cP_1uf2-a1-m14-cC 1uf2-a1-m14-cP_1uf2-a1-m15-cC 1uf2-a1-m15-cP_1uf2-a1-m11-cC 1uf2-a1-m16-cP_1uf2-a1-m17-cC 1uf2-a1-m17-cP_1uf2-a1-m18-cC 1uf2-a1-m18-cP_1uf2-a1-m19-cC 1uf2-a1-m19-cP_1uf2-a1-m20-cC 1uf2-a1-m1-cP_1uf2-a1-m2-cC 1uf2-a1-m20-cP_1uf2-a1-m16-cC 1uf2-a1-m21-cP_1uf2-a1-m22-cC 1uf2-a1-m22-cP_1uf2-a1-m23-cC 1uf2-a1-m23-cP_1uf2-a1-m24-cC 1uf2-a1-m24-cP_1uf2-a1-m25-cC 1uf2-a1-m25-cP_1uf2-a1-m21-cC 1uf2-a1-m26-cP_1uf2-a1-m27-cC 1uf2-a1-m27-cP_1uf2-a1-m28-cC 1uf2-a1-m28-cP_1uf2-a1-m29-cC 1uf2-a1-m29-cP_1uf2-a1-m30-cC 1uf2-a1-m2-cP_1uf2-a1-m3-cC 1uf2-a1-m30-cP_1uf2-a1-m26-cC 1uf2-a1-m31-cP_1uf2-a1-m32-cC 1uf2-a1-m32-cP_1uf2-a1-m33-cC 1uf2-a1-m33-cP_1uf2-a1-m34-cC 1uf2-a1-m34-cP_1uf2-a1-m35-cC 1uf2-a1-m35-cP_1uf2-a1-m31-cC 1uf2-a1-m36-cP_1uf2-a1-m37-cC 1uf2-a1-m37-cP_1uf2-a1-m38-cC 1uf2-a1-m38-cP_1uf2-a1-m39-cC 1uf2-a1-m39-cP_1uf2-a1-m40-cC 1uf2-a1-m3-cP_1uf2-a1-m4-cC 1uf2-a1-m40-cP_1uf2-a1-m36-cC 1uf2-a1-m41-cP_1uf2-a1-m42-cC 1uf2-a1-m42-cP_1uf2-a1-m43-cC 1uf2-a1-m43-cP_1uf2-a1-m44-cC 1uf2-a1-m44-cP_1uf2-a1-m45-cC 1uf2-a1-m45-cP_1uf2-a1-m41-cC 1uf2-a1-m46-cP_1uf2-a1-m47-cC 1uf2-a1-m47-cP_1uf2-a1-m48-cC 1uf2-a1-m48-cP_1uf2-a1-m49-cC 1uf2-a1-m49-cP_1uf2-a1-m50-cC 1uf2-a1-m4-cP_1uf2-a1-m5-cC 1uf2-a1-m50-cP_1uf2-a1-m46-cC 1uf2-a1-m51-cP_1uf2-a1-m52-cC 1uf2-a1-m52-cP_1uf2-a1-m53-cC 1uf2-a1-m53-cP_1uf2-a1-m54-cC 1uf2-a1-m54-cP_1uf2-a1-m55-cC 1uf2-a1-m55-cP_1uf2-a1-m51-cC 1uf2-a1-m56-cP_1uf2-a1-m57-cC 1uf2-a1-m57-cP_1uf2-a1-m58-cC 1uf2-a1-m58-cP_1uf2-a1-m59-cC 1uf2-a1-m59-cP_1uf2-a1-m60-cC 1uf2-a1-m5-cP_1uf2-a1-m1-cC 1uf2-a1-m60-cP_1uf2-a1-m56-cC 1uf2-a1-m6-cP_1uf2-a1-m7-cC 1uf2-a1-m7-cP_1uf2-a1-m8-cC 1uf2-a1-m8-cP_1uf2-a1-m9-cC MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN MSRQMWLDTSALLEAISEYVVRCNGDTFSGLTTGDFNALSNMFTQLSVSDPRVPLQTMSNMFVSFITSTDRCGYMLRKTWFNSDTKPTVSDDFITTYIRPRLQVPMSDTVRQLNNLSLQPSAKPKLYERQNAIMKGLDIPYSEPIEPCKLFRSVAGQTGNIPMMGILATPPAAQQQPFFVAERRRILFGIRSNAAIPAGAYQFVVPAWASVLSVTGAYVYFTNSFFGTIIAGVTATATAADAATTFTVPTDANNLPVQTDSRLSFSLGGGNINLELGVAKTGFCVAIEGEFTILANRSQAYYTLNSITQTPTSIDDFDVSDFLTTFLSQLRACGQYEIFSDAMDQLTNSLITNYMDPPAIPAGLAFTSPWFRFSERARTILALQNVDLNIRKLIVRHLWVITSLIAVFGRYYRPN 1uf3-a1-m1-cB_1uf3-a1-m1-cH Crystal structure of TT1561 of thermus thermophilus HB8 P84068 P84068 2.1 X-RAY DIFFRACTION 28 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 221 222 1uf3-a1-m1-cA_1uf3-a1-m1-cG 1uf3-a1-m1-cC_1uf3-a1-m1-cE 1uf3-a1-m1-cD_1uf3-a1-m1-cF RTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR 1uf3-a1-m1-cD_1uf3-a1-m1-cG Crystal structure of TT1561 of thermus thermophilus HB8 P84068 P84068 2.1 X-RAY DIFFRACTION 17 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 222 222 1uf3-a1-m1-cA_1uf3-a1-m1-cF RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR 1uf3-a1-m1-cE_1uf3-a1-m1-cH Crystal structure of TT1561 of thermus thermophilus HB8 P84068 P84068 2.1 X-RAY DIFFRACTION 18 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 222 222 RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR 1uf3-a1-m1-cG_1uf3-a1-m1-cH Crystal structure of TT1561 of thermus thermophilus HB8 P84068 P84068 2.1 X-RAY DIFFRACTION 33 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 222 222 1uf3-a1-m1-cB_1uf3-a1-m1-cA 1uf3-a1-m1-cC_1uf3-a1-m1-cD 1uf3-a1-m1-cE_1uf3-a1-m1-cF RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR RRTVRYILATSNPGDLEALEKFVKLAPDTGADAIALIGNLPKAAKSRDYAAFFRILSEAHLPTAYVPGPQDAPIWEYLREAANVELVHPERNVHETFTFWRGPYLVAGVGGEIADEGEPEEHEALRYPAWVAEYRLKALWELKDYPKIFLFHTPYHKGLNEQGSHEVAHLIKTHNPLLVLVAGKGQKHELGASWVVVPGDLSEGEYSLLDLRARKLETGNVR 1uf5-a1-m1-cA_1uf5-a1-m2-cB Crystal structure of C171A/V236A Mutant of N-carbamyl-D-amino acid amidohydrolase complexed with N-carbamyl-D-methionine P60327 P60327 1.6 X-RAY DIFFRACTION 27 1.0 361 (Agrobacterium sp.) 361 (Agrobacterium sp.) 303 303 1erz-a1-m1-cA_1erz-a1-m2-cB 1erz-a1-m1-cB_1erz-a1-m2-cA 1fo6-a1-m1-cA_1fo6-a1-m1-cC 1fo6-a1-m1-cB_1fo6-a1-m1-cD 1uf4-a1-m1-cA_1uf4-a1-m2-cB 1uf4-a1-m1-cB_1uf4-a1-m2-cA 1uf5-a1-m1-cB_1uf5-a1-m2-cA 1uf7-a1-m1-cA_1uf7-a1-m2-cB 1uf7-a1-m1-cB_1uf7-a1-m2-cA 1uf8-a1-m1-cA_1uf8-a1-m2-cB 1uf8-a1-m1-cB_1uf8-a1-m2-cA 2ggk-a1-m1-cA_2ggk-a1-m1-cC 2ggk-a1-m1-cB_2ggk-a1-m1-cD 2ggl-a1-m1-cA_2ggl-a1-m1-cC 2ggl-a1-m1-cB_2ggl-a1-m1-cD TRQMILAVGQQGPIARAETREQVVVRLLDMLTKAASRGANFIVFPELALTTFFPRWHFTDEAELDSFYETEMPGPVVRPLFEKAAELGIGFNLGYAELVVEGGVKRRFNTSILVDKSGKIVGKYRKIHLPGHKEYEAYRPFQHLEKRYFEPGDLGFPVYDVDAAKMGMFIANDRRWPEAWRVMGLRGAEIICGGYNTPTHNPPVPQHDHLTSFHHLLSMQAGSYQNGAWSAAAGKAGMEENCMLLGHSCIVAPTGEIVALTTTLEDEVITAAVDLDRCRELREHIFNFKQHRQPQHYGLIAEL TRQMILAVGQQGPIARAETREQVVVRLLDMLTKAASRGANFIVFPELALTTFFPRWHFTDEAELDSFYETEMPGPVVRPLFEKAAELGIGFNLGYAELVVEGGVKRRFNTSILVDKSGKIVGKYRKIHLPGHKEYEAYRPFQHLEKRYFEPGDLGFPVYDVDAAKMGMFIANDRRWPEAWRVMGLRGAEIICGGYNTPTHNPPVPQHDHLTSFHHLLSMQAGSYQNGAWSAAAGKAGMEENCMLLGHSCIVAPTGEIVALTTTLEDEVITAAVDLDRCRELREHIFNFKQHRQPQHYGLIAEL 1uf5-a1-m1-cB_1uf5-a1-m2-cB Crystal structure of C171A/V236A Mutant of N-carbamyl-D-amino acid amidohydrolase complexed with N-carbamyl-D-methionine P60327 P60327 1.6 X-RAY DIFFRACTION 46 1.0 361 (Agrobacterium sp.) 361 (Agrobacterium sp.) 303 303 1erz-a1-m1-cA_1erz-a1-m2-cA 1erz-a1-m1-cB_1erz-a1-m2-cB 1fo6-a1-m1-cA_1fo6-a1-m1-cD 1fo6-a1-m1-cB_1fo6-a1-m1-cC 1uf4-a1-m1-cA_1uf4-a1-m2-cA 1uf4-a1-m1-cB_1uf4-a1-m2-cB 1uf5-a1-m1-cA_1uf5-a1-m2-cA 1uf7-a1-m1-cA_1uf7-a1-m2-cA 1uf7-a1-m1-cB_1uf7-a1-m2-cB 1uf8-a1-m1-cA_1uf8-a1-m2-cA 1uf8-a1-m1-cB_1uf8-a1-m2-cB 2ggk-a1-m1-cA_2ggk-a1-m1-cD 2ggk-a1-m1-cB_2ggk-a1-m1-cC 2ggl-a1-m1-cA_2ggl-a1-m1-cD 2ggl-a1-m1-cB_2ggl-a1-m1-cC TRQMILAVGQQGPIARAETREQVVVRLLDMLTKAASRGANFIVFPELALTTFFPRWHFTDEAELDSFYETEMPGPVVRPLFEKAAELGIGFNLGYAELVVEGGVKRRFNTSILVDKSGKIVGKYRKIHLPGHKEYEAYRPFQHLEKRYFEPGDLGFPVYDVDAAKMGMFIANDRRWPEAWRVMGLRGAEIICGGYNTPTHNPPVPQHDHLTSFHHLLSMQAGSYQNGAWSAAAGKAGMEENCMLLGHSCIVAPTGEIVALTTTLEDEVITAAVDLDRCRELREHIFNFKQHRQPQHYGLIAEL TRQMILAVGQQGPIARAETREQVVVRLLDMLTKAASRGANFIVFPELALTTFFPRWHFTDEAELDSFYETEMPGPVVRPLFEKAAELGIGFNLGYAELVVEGGVKRRFNTSILVDKSGKIVGKYRKIHLPGHKEYEAYRPFQHLEKRYFEPGDLGFPVYDVDAAKMGMFIANDRRWPEAWRVMGLRGAEIICGGYNTPTHNPPVPQHDHLTSFHHLLSMQAGSYQNGAWSAAAGKAGMEENCMLLGHSCIVAPTGEIVALTTTLEDEVITAAVDLDRCRELREHIFNFKQHRQPQHYGLIAEL 1uf5-a1-m2-cA_1uf5-a1-m2-cB Crystal structure of C171A/V236A Mutant of N-carbamyl-D-amino acid amidohydrolase complexed with N-carbamyl-D-methionine P60327 P60327 1.6 X-RAY DIFFRACTION 152 1.0 361 (Agrobacterium sp.) 361 (Agrobacterium sp.) 303 303 1erz-a1-m1-cA_1erz-a1-m1-cB 1erz-a1-m2-cA_1erz-a1-m2-cB 1fo6-a1-m1-cA_1fo6-a1-m1-cB 1fo6-a1-m1-cC_1fo6-a1-m1-cD 1uf4-a1-m1-cA_1uf4-a1-m1-cB 1uf4-a1-m2-cA_1uf4-a1-m2-cB 1uf5-a1-m1-cA_1uf5-a1-m1-cB 1uf7-a1-m1-cA_1uf7-a1-m1-cB 1uf7-a1-m2-cA_1uf7-a1-m2-cB 1uf8-a1-m1-cA_1uf8-a1-m1-cB 1uf8-a1-m2-cA_1uf8-a1-m2-cB 2ggk-a1-m1-cA_2ggk-a1-m1-cB 2ggk-a1-m1-cC_2ggk-a1-m1-cD 2ggl-a1-m1-cA_2ggl-a1-m1-cB 2ggl-a1-m1-cC_2ggl-a1-m1-cD 2ggl-a2-m1-cC_2ggl-a2-m1-cD 2ggl-a3-m1-cA_2ggl-a3-m1-cB TRQMILAVGQQGPIARAETREQVVVRLLDMLTKAASRGANFIVFPELALTTFFPRWHFTDEAELDSFYETEMPGPVVRPLFEKAAELGIGFNLGYAELVVEGGVKRRFNTSILVDKSGKIVGKYRKIHLPGHKEYEAYRPFQHLEKRYFEPGDLGFPVYDVDAAKMGMFIANDRRWPEAWRVMGLRGAEIICGGYNTPTHNPPVPQHDHLTSFHHLLSMQAGSYQNGAWSAAAGKAGMEENCMLLGHSCIVAPTGEIVALTTTLEDEVITAAVDLDRCRELREHIFNFKQHRQPQHYGLIAEL TRQMILAVGQQGPIARAETREQVVVRLLDMLTKAASRGANFIVFPELALTTFFPRWHFTDEAELDSFYETEMPGPVVRPLFEKAAELGIGFNLGYAELVVEGGVKRRFNTSILVDKSGKIVGKYRKIHLPGHKEYEAYRPFQHLEKRYFEPGDLGFPVYDVDAAKMGMFIANDRRWPEAWRVMGLRGAEIICGGYNTPTHNPPVPQHDHLTSFHHLLSMQAGSYQNGAWSAAAGKAGMEENCMLLGHSCIVAPTGEIVALTTTLEDEVITAAVDLDRCRELREHIFNFKQHRQPQHYGLIAEL 1ufb-a4-m1-cA_1ufb-a4-m3-cB Crystal structure of TT1696 from Thermus thermophilus HB8 P83963 P83963 1.9 X-RAY DIFFRACTION 43 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 127 127 1ufb-a3-m1-cC_1ufb-a3-m2-cD 1ufb-a3-m1-cD_1ufb-a3-m2-cC 1ufb-a4-m1-cB_1ufb-a4-m3-cA MNRARDWLEQARHNLRHAQGSLGLGDYAWACFAAQQAAEAALKGLHLARGQVAWGHSILDLLADLPEDVDVPEDLVEAAKVLDKYYIPTRYPDAHPAGPAARHYTRLEAEEALDLAQKILAFVEEKL MNRARDWLEQARHNLRHAQGSLGLGDYAWACFAAQQAAEAALKGLHLARGQVAWGHSILDLLADLPEDVDVPEDLVEAAKVLDKYYIPTRYPDAHPAGPAARHYTRLEAEEALDLAQKILAFVEEKL 1ufb-a4-m3-cA_1ufb-a4-m3-cB Crystal structure of TT1696 from Thermus thermophilus HB8 P83963 P83963 1.9 X-RAY DIFFRACTION 70 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 127 127 1ufb-a1-m1-cA_1ufb-a1-m1-cB 1ufb-a2-m1-cC_1ufb-a2-m1-cD 1ufb-a3-m1-cC_1ufb-a3-m1-cD 1ufb-a3-m2-cC_1ufb-a3-m2-cD 1ufb-a4-m1-cA_1ufb-a4-m1-cB MNRARDWLEQARHNLRHAQGSLGLGDYAWACFAAQQAAEAALKGLHLARGQVAWGHSILDLLADLPEDVDVPEDLVEAAKVLDKYYIPTRYPDAHPAGPAARHYTRLEAEEALDLAQKILAFVEEKL MNRARDWLEQARHNLRHAQGSLGLGDYAWACFAAQQAAEAALKGLHLARGQVAWGHSILDLLADLPEDVDVPEDLVEAAKVLDKYYIPTRYPDAHPAGPAARHYTRLEAEEALDLAQKILAFVEEKL 1ufh-a1-m2-cB_1ufh-a1-m1-cA Structure of putative acetyltransferase, YYCN protein of Bacillus subtilis O32293 O32293 2.2 X-RAY DIFFRACTION 26 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 154 155 1on0-a1-m1-cC_1on0-a1-m1-cB 1ufh-a1-m1-cB_1ufh-a1-m2-cA IMLTPMQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSMGIRKLSLHVFAHNQTARKLYEQTGFQETDVVMSKKL TIMLTPMQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSMGIRKLSLHVFAHNQTARKLYEQTGFQETDVVMSKKL 1ufh-a3-m1-cB_1ufh-a3-m1-cA Structure of putative acetyltransferase, YYCN protein of Bacillus subtilis O32293 O32293 2.2 X-RAY DIFFRACTION 29 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 154 155 1ufh-a1-m1-cB_1ufh-a1-m1-cA 1ufh-a1-m2-cB_1ufh-a1-m2-cA IMLTPMQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSMGIRKLSLHVFAHNQTARKLYEQTGFQETDVVMSKKL TIMLTPMQTEEFRSYLTYTTKHYAEEKVKAGTWLPEDAQLLSKQVFTDLLPRGLETPHHHLWSLKLNEKDIVGWLWIHAEPEHPQQEAFIYDFGLYEPYRGKGYAKQALAALDQAARSMGIRKLSLHVFAHNQTARKLYEQTGFQETDVVMSKKL 1ufi-a3-m1-cD_1ufi-a3-m1-cC Crystal structure of the dimerization domain of human CENP-B P07199 P07199 1.65 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 48 1ufi-a1-m1-cB_1ufi-a1-m1-cA 1ufi-a2-m1-cD_1ufi-a2-m1-cC 1ufi-a3-m1-cB_1ufi-a3-m1-cA HMPVPSFGEAMAYFAMVKRYLTSFPIDDRVQSHILHLEHDLVHVTR SHMPVPSFGEAMAYFAMVKRYLTSFPIDDRVQSHILHLEHDLVHVTRK 1ufl-a2-m2-cC_1ufl-a2-m1-cA Crystal Structure of TT1020 from Thermus thermophilus HB8 P83820 P83820 2.7 X-RAY DIFFRACTION 27 0.99 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 99 108 1ufl-a2-m1-cC_1ufl-a2-m2-cA MKLIVAIVRPEKLNEVLKALFQAEVRGLTLSRVQGHGGTTVKMELHEKVRLEIGVSEPFVKPTVEAILKAARTGEVGDGKIFVLPVEKVYRIRTGEEDE MKLIVAIVRPEKLNEVLKALFQAEVRGLTLSRVQGHGGETERVETYRGTTVKMELHEKVRLEIGVSEPFVKPTVEAILKAARTGEVGDGKIFVLPVEKVYRIRTGEED 1ufo-a3-m1-cE_1ufo-a3-m1-cF Crystal Structure of TT1662 from Thermus thermophilus P83821 P83821 1.6 X-RAY DIFFRACTION 76 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 234 234 1ufo-a1-m1-cA_1ufo-a1-m1-cB 1ufo-a2-m1-cC_1ufo-a2-m1-cD RVRTERLTLAGLSVLARIPEAPKALLLALHGLQGSKEHILALLPGYAERGFLLLAFDAPRHGEREGPPPSSKSPRYVEEVYRVALGFKEEARRVAEEAERRFGLPLFLAGGSLGAFVAHLLLAEGFRPRGVLAFIGSGFPKLPQGQVVEDPGVLALYQAPPATRGEAYGGVPLLHLHGSRDHIVPLAREKTLEALRPHYPEGRLARFVEEGAGHTLTPLARVGLAFLEHWLEAR RVRTERLTLAGLSVLARIPEAPKALLLALHGLQGSKEHILALLPGYAERGFLLLAFDAPRHGEREGPPPSSKSPRYVEEVYRVALGFKEEARRVAEEAERRFGLPLFLAGGSLGAFVAHLLLAEGFRPRGVLAFIGSGFPKLPQGQVVEDPGVLALYQAPPATRGEAYGGVPLLHLHGSRDHIVPLAREKTLEALRPHYPEGRLARFVEEGAGHTLTPLARVGLAFLEHWLEAR 1ufr-a2-m1-cC_1ufr-a2-m1-cD Crystal Structure of TT1027 from Thermus thermophilus HB8 Q5SK65 Q5SK65 2.6 X-RAY DIFFRACTION 44 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 164 164 1ufr-a1-m1-cA_1ufr-a1-m1-cB RFKAELNAPERRALYRIAHEIVEANKGTEGLALVGIHTRGIPLAHRIARFIAEFEGKEVPVGVLDITLPQVRETRIPFDLTGKAIVLVDDVLYTGRTARAALDALIDLGRPRRIYLAVLVDRGHRELPIRADFVGKNVPTSRSEVVKVKVEEVDGEDRVELWER RFKAELNAPERRALYRIAHEIVEANKGTEGLALVGIHTRGIPLAHRIARFIAEFEGKEVPVGVLDITLPQVRETRIPFDLTGKAIVLVDDVLYTGRTARAALDALIDLGRPRRIYLAVLVDRGHRELPIRADFVGKNVPTSRSEVVKVKVEEVDGEDRVELWER 1ugr-a2-m1-cB_1ugr-a2-m2-cB Crystal structure of aT109S mutant of Co-type nitrile hydratase Q7SID3 Q7SID3 1.8 X-RAY DIFFRACTION 67 1.0 1848 (Pseudonocardia thermophila) 1848 (Pseudonocardia thermophila) 228 228 1ire-a1-m1-cB_1ire-a1-m2-cB 1ugp-a2-m1-cB_1ugp-a2-m2-cB 1ugq-a2-m1-cB_1ugq-a2-m2-cB 1ugs-a2-m1-cB_1ugs-a2-m2-cB 3vyh-a1-m1-cB_3vyh-a1-m2-cB 7sjz-a1-m1-cB_7sjz-a1-m2-cB 7w8l-a1-m1-cB_7w8l-a1-m2-cB 7w8m-a1-m1-cB_7w8m-a1-m2-cB MNGVYDVGGTDGLGPINRPADEPVFRAEWEKVAFAMFPATFRAGFMGLDEFRFGIEQMNPAEYLESPYYWHWIRTYIHHGVRTGKIDLEELERRTQYYRENPDAPLPEHEQKPELIEFVNQAVYGGLPASREVDRPPKFKEGDVVRFSTASPKGHARRARYVRGKTGTVVKHHGAYIYPDTAGNGLGECPEHLYTVRFTAQELWGPEGDPNSSVYYDCWEPYIELVDT MNGVYDVGGTDGLGPINRPADEPVFRAEWEKVAFAMFPATFRAGFMGLDEFRFGIEQMNPAEYLESPYYWHWIRTYIHHGVRTGKIDLEELERRTQYYRENPDAPLPEHEQKPELIEFVNQAVYGGLPASREVDRPPKFKEGDVVRFSTASPKGHARRARYVRGKTGTVVKHHGAYIYPDTAGNGLGECPEHLYTVRFTAQELWGPEGDPNSSVYYDCWEPYIELVDT 1uhe-a2-m6-cA_1uhe-a2-m8-cA Crystal structure of aspartate decarboxylase, isoaspargine complex P56065 P56065 1.55 X-RAY DIFFRACTION 35 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 97 97 1uhd-a1-m1-cA_1uhd-a1-m3-cA 1uhd-a1-m1-cA_1uhd-a1-m4-cA 1uhd-a1-m2-cA_1uhd-a1-m3-cA 1uhd-a1-m2-cA_1uhd-a1-m4-cA 1uhd-a2-m1-cA_1uhd-a2-m3-cA 1uhd-a2-m1-cA_1uhd-a2-m4-cA 1uhd-a2-m2-cA_1uhd-a2-m3-cA 1uhd-a2-m2-cA_1uhd-a2-m4-cA 1uhd-a2-m5-cA_1uhd-a2-m7-cA 1uhd-a2-m5-cA_1uhd-a2-m8-cA 1uhd-a2-m6-cA_1uhd-a2-m7-cA 1uhd-a2-m6-cA_1uhd-a2-m8-cA 1uhe-a1-m1-cA_1uhe-a1-m3-cA 1uhe-a1-m1-cA_1uhe-a1-m4-cA 1uhe-a1-m2-cA_1uhe-a1-m3-cA 1uhe-a1-m2-cA_1uhe-a1-m4-cA 1uhe-a2-m1-cA_1uhe-a2-m3-cA 1uhe-a2-m1-cA_1uhe-a2-m4-cA 1uhe-a2-m2-cA_1uhe-a2-m3-cA 1uhe-a2-m2-cA_1uhe-a2-m4-cA 1uhe-a2-m5-cA_1uhe-a2-m7-cA 1uhe-a2-m5-cA_1uhe-a2-m8-cA 1uhe-a2-m6-cA_1uhe-a2-m7-cA ITIDEDLAKLAKLREGMKVEIVDVNNGERFSTYVILGKKRGEICVNGAAARKVAIGDVVIILAYASMNEDEINAHKPSIVLVDEKNEILEKGLEHHH ITIDEDLAKLAKLREGMKVEIVDVNNGERFSTYVILGKKRGEICVNGAAARKVAIGDVVIILAYASMNEDEINAHKPSIVLVDEKNEILEKGLEHHH 1uhv-a1-m1-cB_1uhv-a1-m1-cD Crystal structure of beta-D-xylosidase from Thermoanaerobacterium saccharolyticum, a family 39 glycoside hydrolase P36906 P36906 2.1 X-RAY DIFFRACTION 152 1.0 28896 (Thermoanaerobacterium saccharolyticum) 28896 (Thermoanaerobacterium saccharolyticum) 500 500 1px8-a1-m1-cA_1px8-a1-m2-cA 1px8-a1-m1-cB_1px8-a1-m2-cB 1uhv-a1-m1-cA_1uhv-a1-m1-cC MIKVRVPDFSDKKFSDRWRYCVGTGRLGLALQKEYIETLKYVKENIDFKYIRGHGLLCDDVGIYREDVVGDEVKPFYNFTYIDRIFDSFLEIGIRPFVEIGFMPKKLASGTQTVFYWEGNVTPPKDYEKWSDLVKAVLHHFISRYGIEEVLKWPFEIWNEPNLKEFWKDADEKEYFKLYKVTAKAIKEVNENLKVGGPAICGGADYWIEDFLNFCYEENVPVDFVSRHAYTSKQGEYTPHLIYQEIMPSEYMLNEFKTVREIIKNSHFPNLPFHITEYNTSYSPQNPVHDTPFNAAYIARILSEGGDYVDSFSYWTFSDVFEERDVPRSQFHGGFGLVALNMIPKPTFYTFKFFNAMGEEMLYRDEHMLVTRRDDGSVALIAWNEVMDKTENPDEDYEVEIPVRFRDVFIKRQLIDEEHGNPWGTWIHMGRPRYPSKEQVNTLREVAKPEIMTSQPVANDGYLNLKFKLGKNAVVLYELTERIDESSTYIGLDDSKINGY MIKVRVPDFSDKKFSDRWRYCVGTGRLGLALQKEYIETLKYVKENIDFKYIRGHGLLCDDVGIYREDVVGDEVKPFYNFTYIDRIFDSFLEIGIRPFVEIGFMPKKLASGTQTVFYWEGNVTPPKDYEKWSDLVKAVLHHFISRYGIEEVLKWPFEIWNEPNLKEFWKDADEKEYFKLYKVTAKAIKEVNENLKVGGPAICGGADYWIEDFLNFCYEENVPVDFVSRHAYTSKQGEYTPHLIYQEIMPSEYMLNEFKTVREIIKNSHFPNLPFHITEYNTSYSPQNPVHDTPFNAAYIARILSEGGDYVDSFSYWTFSDVFEERDVPRSQFHGGFGLVALNMIPKPTFYTFKFFNAMGEEMLYRDEHMLVTRRDDGSVALIAWNEVMDKTENPDEDYEVEIPVRFRDVFIKRQLIDEEHGNPWGTWIHMGRPRYPSKEQVNTLREVAKPEIMTSQPVANDGYLNLKFKLGKNAVVLYELTERIDESSTYIGLDDSKINGY 1uhv-a1-m1-cC_1uhv-a1-m1-cD Crystal structure of beta-D-xylosidase from Thermoanaerobacterium saccharolyticum, a family 39 glycoside hydrolase P36906 P36906 2.1 X-RAY DIFFRACTION 71 1.0 28896 (Thermoanaerobacterium saccharolyticum) 28896 (Thermoanaerobacterium saccharolyticum) 500 500 1px8-a1-m1-cA_1px8-a1-m1-cB 1px8-a1-m2-cA_1px8-a1-m2-cB 1uhv-a1-m1-cA_1uhv-a1-m1-cB MIKVRVPDFSDKKFSDRWRYCVGTGRLGLALQKEYIETLKYVKENIDFKYIRGHGLLCDDVGIYREDVVGDEVKPFYNFTYIDRIFDSFLEIGIRPFVEIGFMPKKLASGTQTVFYWEGNVTPPKDYEKWSDLVKAVLHHFISRYGIEEVLKWPFEIWNEPNLKEFWKDADEKEYFKLYKVTAKAIKEVNENLKVGGPAICGGADYWIEDFLNFCYEENVPVDFVSRHAYTSKQGEYTPHLIYQEIMPSEYMLNEFKTVREIIKNSHFPNLPFHITEYNTSYSPQNPVHDTPFNAAYIARILSEGGDYVDSFSYWTFSDVFEERDVPRSQFHGGFGLVALNMIPKPTFYTFKFFNAMGEEMLYRDEHMLVTRRDDGSVALIAWNEVMDKTENPDEDYEVEIPVRFRDVFIKRQLIDEEHGNPWGTWIHMGRPRYPSKEQVNTLREVAKPEIMTSQPVANDGYLNLKFKLGKNAVVLYELTERIDESSTYIGLDDSKINGY MIKVRVPDFSDKKFSDRWRYCVGTGRLGLALQKEYIETLKYVKENIDFKYIRGHGLLCDDVGIYREDVVGDEVKPFYNFTYIDRIFDSFLEIGIRPFVEIGFMPKKLASGTQTVFYWEGNVTPPKDYEKWSDLVKAVLHHFISRYGIEEVLKWPFEIWNEPNLKEFWKDADEKEYFKLYKVTAKAIKEVNENLKVGGPAICGGADYWIEDFLNFCYEENVPVDFVSRHAYTSKQGEYTPHLIYQEIMPSEYMLNEFKTVREIIKNSHFPNLPFHITEYNTSYSPQNPVHDTPFNAAYIARILSEGGDYVDSFSYWTFSDVFEERDVPRSQFHGGFGLVALNMIPKPTFYTFKFFNAMGEEMLYRDEHMLVTRRDDGSVALIAWNEVMDKTENPDEDYEVEIPVRFRDVFIKRQLIDEEHGNPWGTWIHMGRPRYPSKEQVNTLREVAKPEIMTSQPVANDGYLNLKFKLGKNAVVLYELTERIDESSTYIGLDDSKINGY 1uij-a2-m1-cE_1uij-a2-m1-cD Crystal Structure Of Soybean beta-Conglycinin Beta Homotrimer (I122M/K124W) P25974 P25974 2.5 X-RAY DIFFRACTION 200 1.0 3847 (Glycine max) 3847 (Glycine max) 370 377 1ipj-a1-m1-cA_1ipj-a1-m1-cB 1ipj-a1-m1-cA_1ipj-a1-m1-cC 1ipj-a1-m1-cB_1ipj-a1-m1-cC 1ipk-a1-m1-cA_1ipk-a1-m1-cC 1ipk-a1-m1-cB_1ipk-a1-m1-cA 1ipk-a1-m1-cB_1ipk-a1-m1-cC 1uij-a1-m1-cB_1uij-a1-m1-cA 1uij-a1-m1-cC_1uij-a1-m1-cA 1uij-a1-m1-cC_1uij-a1-m1-cB 1uij-a2-m1-cF_1uij-a2-m1-cD 1uij-a2-m1-cF_1uij-a2-m1-cE REDENNPFYFRSSNSFQTLFENQNGRIRLLQRFNKRSPQLENLRDYRIVQFQSKPNTILLPHHADADFLLFVLSGRAILTLVNNDDRDSYNLHPGDAQRIPAGTTYYLVNPHDHQNLKMIWLAIPVNKPGRYDDFFLSSTQAQQSYLQGFSHNILETSFHSEFEEINRVLFGQEGVIVELSKEQIRQLSRRAKSSSRKTISSEDEPFNLRSRNPIYSNNFGKFFEITPEKNPQLRDLDIFLSSVDINEGALLLPHFNSKAIVILVINEGDANIELVGIKLEVQRYRAELSEDDVFVIPAAYPFVVNATSNLNFLAFGINAENNQRNFLAGEKDNVVRQIERQVQELAFPGSAQDVERLLKKQRESYFVDA REDENNPFYFRSSNSFQTLFENQNGRIRLLQRFNKRSPQLENLRDYRIVQFQSKPNTILLPHHADADFLLFVLSGRAILTLVNNDDRDSYNLHPGDAQRIPAGTTYYLVNPHDHQNLKMIWLAIPVNKPGRYDDFFLSSTQAQQSYLQGFSHNILETSFHSEFEEINRVLFGEEEEQRQQEGVIVELSKEQIRQLSRRAKSSSRKTISSEDEPFNLRSRNPIYSNNFGKFFEITPEKNPQLRDLDIFLSSVDINEGALLLPHFNSKAIVILVINEGDANIELVGIKLEVQRYRAELSEDDVFVIPAAYPFVVNATSNLNFLAFGINAENNQRNFLAGEKDNVVRQIERQVQELAFPGSAQDVERLLKKQRESYFVDA 1uik-a1-m1-cB_1uik-a1-m1-cC Crystal structure of soybean beta-conglycinin alpha prime homotrimer P11827 P11827 2.3 X-RAY DIFFRACTION 187 1.0 3847 (Glycine max) 3847 (Glycine max) 363 364 1uik-a1-m1-cA_1uik-a1-m1-cC 1uik-a1-m1-cB_1uik-a1-m1-cA NPFHFNSKRFQTLFKNQYGHVRVLQRFNKRSQQLQNLRDYRILEFNSKPNTLLLPHHADADYLIVILNGTAILTLVNNDDRDSYNLQSGDALRVPAGTTYYVVNPDNDENLRMITLAIPVNKPGRFESFFLSSTQAQQSYLQGFSKNILEASYDTKFEEINKVLFGQESVIVEISKKQIRELSKHAKSSSRKTISSEDKPFNLRSRDPIYSNKLGKLFEITPEKNPQLRDLDVFLSVVDMNEGALFLPHFNSKAIVVLVINEGEANIELVGILEVRKYRAELSEQDIFVIPAGYPVVVNATSDLNFFAFGINAENNQRNFLAGSKDNVISQIPSQVQELAFPGSAKDIENLIKSQSESYFVDA NPFHFNSKRFQTLFKNQYGHVRVLQRFNKRSQQLQNLRDYRILEFNSKPNTLLLPHHADADYLIVILNGTAILTLVNNDDRDSYNLQSGDALRVPAGTTYYVVNPDNDENLRMITLAIPVNKPGRFESFFLSSTQAQQSYLQGFSKNILEASYDTKFEEINKVLFGQESVIVEISKKQIRELSKHAKSSSRKTISSEDKPFNLRSRDPIYSNKLGKLFEITPEKNPQLRDLDVFLSVVDMNEGALFLPHFNSKAIVVLVINEGEANIELVGIPLEVRKYRAELSEQDIFVIPAGYPVVVNATSDLNFFAFGINAENNQRNFLAGSKDNVISQIPSQVQELAFPGSAKDIENLIKSQSESYFVDA 1uin-a2-m1-cA_1uin-a2-m2-cA Crystal Structure of Threonine Synthase from Thermus Thermophilus HB8, Trigonal Crystal Form P83823 P83823 2.25 X-RAY DIFFRACTION 22 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 350 350 RPPLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGYVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGLL RPPLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGYVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGLL 1uin-a2-m4-cB_1uin-a2-m1-cA Crystal Structure of Threonine Synthase from Thermus Thermophilus HB8, Trigonal Crystal Form P83823 P83823 2.25 X-RAY DIFFRACTION 34 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 346 350 1uin-a2-m3-cB_1uin-a2-m2-cA PLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGL RPPLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGYVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGLL 1uin-a2-m4-cB_1uin-a2-m2-cA Crystal Structure of Threonine Synthase from Thermus Thermophilus HB8, Trigonal Crystal Form P83823 P83823 2.25 X-RAY DIFFRACTION 68 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 346 350 1uin-a2-m3-cB_1uin-a2-m1-cA PLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGL RPPLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGYVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGLL 1uir-a1-m1-cA_1uir-a1-m2-cB Crystal Structure of Polyamine Aminopropyltransfease from Thermus thermophilus Q5SK28 Q5SK28 2 X-RAY DIFFRACTION 55 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 309 313 1uir-a1-m2-cA_1uir-a1-m1-cB 3anx-a1-m1-cA_3anx-a1-m2-cB 3anx-a1-m2-cA_3anx-a1-m1-cB MDYGMYFFEHVTPYETLVRRMERVIASGKTPFQDYFLFESKGFGKVLILDKDVQSTERDEYIYHETLVHPAMLTHPEPKRVLIVGGGEGATLREVLKHPTVEKAVMVDIDGELVEVAKRHMPEWHQGAFDDPRAVLVIDDARAYLERTEERYDVVIIDLTDPVGEDNPARLLYTVEFYRLVKAHLNPGGVMGMQTGMILLRVHPVVHRTVREAFRYVRSYKNHIPGFFLNFGFLLASDAFDPAAFSEGVIEARIRERNLALRHLTAPYLEAMFVLPKDLLEALEKETMVSTDQNPFYVTPEGEARQAPY MDYGMYFFEHVTPYETLVRRMERVIASGKTPFQDYFLFESKGFGKVLILDKDVQSTERDEYIYHETLVHPAMLTHPEPKRVLIVGGGEGATLREVLKHPTVEKAVMVDIDGELVEVAKRHMPEWHQGAFDDPRAVLVIDDARAYLERTEERYDVVIIDLTDPVGEDNPARLLYTVEFYRLVKAHLNPGGVMGMQTGMILLTHHRVHPVVHRTVREAFRYVRSYKNHIPGFFLNFGFLLASDAFDPAAFSEGVIEARIRERNLALRHLTAPYLEAMFVLPKDLLEALEKETMVSTDQNPFYVTPEGEARQAPYK 1uir-a2-m1-cA_1uir-a2-m1-cB Crystal Structure of Polyamine Aminopropyltransfease from Thermus thermophilus Q5SK28 Q5SK28 2 X-RAY DIFFRACTION 112 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 309 313 1uir-a1-m1-cA_1uir-a1-m1-cB 1uir-a1-m2-cA_1uir-a1-m2-cB 3anx-a1-m1-cA_3anx-a1-m1-cB 3anx-a1-m2-cA_3anx-a1-m2-cB MDYGMYFFEHVTPYETLVRRMERVIASGKTPFQDYFLFESKGFGKVLILDKDVQSTERDEYIYHETLVHPAMLTHPEPKRVLIVGGGEGATLREVLKHPTVEKAVMVDIDGELVEVAKRHMPEWHQGAFDDPRAVLVIDDARAYLERTEERYDVVIIDLTDPVGEDNPARLLYTVEFYRLVKAHLNPGGVMGMQTGMILLRVHPVVHRTVREAFRYVRSYKNHIPGFFLNFGFLLASDAFDPAAFSEGVIEARIRERNLALRHLTAPYLEAMFVLPKDLLEALEKETMVSTDQNPFYVTPEGEARQAPY MDYGMYFFEHVTPYETLVRRMERVIASGKTPFQDYFLFESKGFGKVLILDKDVQSTERDEYIYHETLVHPAMLTHPEPKRVLIVGGGEGATLREVLKHPTVEKAVMVDIDGELVEVAKRHMPEWHQGAFDDPRAVLVIDDARAYLERTEERYDVVIIDLTDPVGEDNPARLLYTVEFYRLVKAHLNPGGVMGMQTGMILLTHHRVHPVVHRTVREAFRYVRSYKNHIPGFFLNFGFLLASDAFDPAAFSEGVIEARIRERNLALRHLTAPYLEAMFVLPKDLLEALEKETMVSTDQNPFYVTPEGEARQAPYK 1uix-a1-m1-cB_1uix-a1-m1-cA Coiled-coil structure of the RhoA-binding domain in Rho-kinase Q28021 Q28021 1.8 X-RAY DIFFRACTION 94 1.0 9913 (Bos taurus) 9913 (Bos taurus) 67 68 GSTSDVANLANEKEELNNKLKEAQEQLSRLKDEEISAAAIKAQFEKQLLTERTLKTQAVNKLAEINR GSTSDVANLANEKEELNNKLKEAQEQLSRLKDEEISAAAIKAQFEKQLLTERTLKTQAVNKLAEINRK 1uiy-a1-m1-cA_1uiy-a1-m6-cA Crystal Structure of Enoyl-CoA Hydratase from Thermus Thermophilus HB8 P83702 P83702 2.85 X-RAY DIFFRACTION 36 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 248 248 1uiy-a1-m2-cA_1uiy-a1-m5-cA 1uiy-a1-m3-cA_1uiy-a1-m4-cA VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF 1uiy-a1-m2-cA_1uiy-a1-m6-cA Crystal Structure of Enoyl-CoA Hydratase from Thermus Thermophilus HB8 P83702 P83702 2.85 X-RAY DIFFRACTION 22 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 248 248 1uiy-a1-m1-cA_1uiy-a1-m4-cA 1uiy-a1-m3-cA_1uiy-a1-m5-cA VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF 1uiy-a1-m3-cA_1uiy-a1-m6-cA Crystal Structure of Enoyl-CoA Hydratase from Thermus Thermophilus HB8 P83702 P83702 2.85 X-RAY DIFFRACTION 12 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 248 248 1uiy-a1-m1-cA_1uiy-a1-m5-cA 1uiy-a1-m2-cA_1uiy-a1-m4-cA VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF 1uiy-a1-m5-cA_1uiy-a1-m6-cA Crystal Structure of Enoyl-CoA Hydratase from Thermus Thermophilus HB8 P83702 P83702 2.85 X-RAY DIFFRACTION 154 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 248 248 1uiy-a1-m1-cA_1uiy-a1-m2-cA 1uiy-a1-m1-cA_1uiy-a1-m3-cA 1uiy-a1-m2-cA_1uiy-a1-m3-cA 1uiy-a1-m4-cA_1uiy-a1-m5-cA 1uiy-a1-m4-cA_1uiy-a1-m6-cA VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF VQVEKGHVAVVFLNDPERRNPLSPEALSLLQALDDLEADPGVRAVVLTGRGKAFSAGADLAFLERVTELGAEENYRHSLSLRLFHRVYTYPKPTVAAVNGPAVAGGAGLALACDLVVDEEARLGYTEVKIGFVAALVSVILVRAVGEKAAKDLLLTGRLVEAREAKALGLVNRIAPPGKALEEAKALAEEVAKNAPTSLRLTKELLLALPGGLEDGFRLAALANAWVRETGDLAEGIRAFFEKRPPRF 1uiz-a2-m2-cD_1uiz-a2-m3-cD Crystal Structure Of Macrophage Migration Inhibitory Factor From Xenopus Laevis. Q76BK2 Q76BK2 2.5 X-RAY DIFFRACTION 95 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 115 115 1uiz-a1-m1-cA_1uiz-a1-m1-cB 1uiz-a1-m1-cA_1uiz-a1-m1-cC 1uiz-a1-m1-cB_1uiz-a1-m1-cC 1uiz-a2-m1-cD_1uiz-a2-m2-cD 1uiz-a2-m1-cD_1uiz-a2-m3-cD MPVFTIRTNVCRDSVPDTLLSDLTKQLAKATGKPAEYIAIHIVPDQIMSFGDSTDPCAVCSLCSIGKIGGPQNKSYTKLLCDILTKQLNIPANRVYINYYDLNAANVGWNGSTFA MPVFTIRTNVCRDSVPDTLLSDLTKQLAKATGKPAEYIAIHIVPDQIMSFGDSTDPCAVCSLCSIGKIGGPQNKSYTKLLCDILTKQLNIPANRVYINYYDLNAANVGWNGSTFA 1uj6-a2-m1-cA_1uj6-a2-m2-cA Crystal structure of Thermus thermophilus ribose-5-phosphate isomerase complexed with arabinose-5-phosphate Q72J47 Q72J47 1.74 X-RAY DIFFRACTION 93 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 221 221 1uj4-a2-m1-cA_1uj4-a2-m2-cA 1uj5-a2-m1-cA_1uj5-a2-m2-cA RPLESYKKEAAHAAIAYVQDGVVGLGTGSTARYAVLELARRLREGELKGVVGVPTSRATEELAKREGIPLVDLPPEGVDLAIDGADEIAPGLALIKGGGALLREKIVERVAKEFIVIADHTKKVPVLGRGPVPVEIVPFGYRATLKAIADLGGEPELRDGDEFYFTDGGHLIADCRFGPIGDPLGLHRALLEIPGVVETGLFVGATRALVAGPFGVEELLP RPLESYKKEAAHAAIAYVQDGVVGLGTGSTARYAVLELARRLREGELKGVVGVPTSRATEELAKREGIPLVDLPPEGVDLAIDGADEIAPGLALIKGGGALLREKIVERVAKEFIVIADHTKKVPVLGRGPVPVEIVPFGYRATLKAIADLGGEPELRDGDEFYFTDGGHLIADCRFGPIGDPLGLHRALLEIPGVVETGLFVGATRALVAGPFGVEELLP 1ujk-a3-m1-cB_1ujk-a3-m1-cA VHS domain of human GGA1 complexed with C-terminal phosphopeptide from BACE Q9UJY5 Q9UJY5 1.9 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 145 PETLEARINRATNPLNKELDWASINGFCEQLNEDFEGPPLATRLLAHKIQSPQEWEAIQALTVLETCMKSCGKRFHDEVGKFRFLNELIKVVSPKYLGSRTSEKVKNKILELLYSWTVGLPEEVKIAEAYQMLKKQGIVK EPAMEPETLEARINRATNPLNKELDWASINGFCEQLNEDFEGPPLATRLLAHKIQSPQEWEAIQALTVLETCMKSCGKRFHDEVGKFRFLNELIKVVSPKYLGSRTSEKVKNKILELLYSWTVGLPEEVKIAEAYQMLKKQGIVK 1ujn-a1-m1-cB_1ujn-a1-m1-cA Crystal structure of dehydroquinate synthase from Thermus thermophilus HB8 P83703 P83703 1.8 X-RAY DIFFRACTION 71 0.997 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 336 338 MQRLEVREPVPYPILVGEGVLKEVPPLAGPAALLFDRRVEGFAQEVAKALGVRHLLGLPGGEAAKSLEVYGKVLSWLAEKGLPRNATLLVVGGGTLTDLGGFVAATYLRGVAYLAFPTTTLAIVDASVGGKTGINLPEGKNLVGAFHFPQGVYAELRALKTLPLPTFKEGLVEAFKHGLIAGDEALLKVEDLTPQSPRLEAFLARAVAVKVRVTEEDPLEKGKRRLLNLGHTLGHALEAQALPHGMAVAYGLLYAALLGRALGGEDLLPPVRRLLLWLSPPPLPPLAFEDLLPYLSLHWVVPLAPGRLVVRPLPEGLLREAFAAWREELKGLGLLR MQRLEVREPVPYPILVGEGVLKEVPPLAGPAALLFDRRVEGFAQEVAKALGVRHLLGLPGGEAAKSLEVYGKVLSWLAEKGLPRNATLLVVGGGTLTDLGGFVAATYLRGVAYLAFPTTTLAIVDASVGGKTGINLPEGKNLVGAFHFPQGVYAELRALKTLPLPTFKEGLVEAFKHGLIAGDEALLKVEDLTPQSPRLEAFLARAVAVKVRVTEEDPLEKGKRRLLNLGHTLGHALEAQTRHALPHGMAVAYGLLYAALLGRALGGEDLLPPVRRLLLWLSPPPLPPLAFEDLLPYLSLHWVVPLAPGRLVVRPLPEGLLREAFAAWREELKGLGLL 1ukk-a1-m1-cA_1ukk-a1-m1-cB Structure of Osmotically Inducible Protein C from Thermus thermophilus P84124 P84124 1.6 X-RAY DIFFRACTION 263 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 138 138 PVRKAKAVWEGGLRQGKGVELQSQAFQGPYSYPSRFEEGEGTNPEELIAAAHAGFSALAASLEREGFPPKRVSTEARVHLEVVDGKPTLTRIELLTEAEVPGISSEKFLEIAEAAKEGCPVSRALAGVKEVVLTARLV PVRKAKAVWEGGLRQGKGVELQSQAFQGPYSYPSRFEEGEGTNPEELIAAAHAGFSALAASLEREGFPPKRVSTEARVHLEVVDGKPTLTRIELLTEAEVPGISSEKFLEIAEAAKEGCPVSRALAGVKEVVLTARLV 1ukl-a2-m1-cE_1ukl-a2-m1-cF Crystal structure of Importin-beta and SREBP-2 complex Q12772 Q12772 3 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 58 1ukl-a1-m1-cC_1ukl-a1-m1-cD RSSINDKIIELKDLVGTDAKHKSGVLRKAIDYIKYLQQVNHKLRQENVLKLANQKNKL RSSINDKIIELKDLVGTDAKHKSGVLRKAIDYIKYLQQVNHKLRQENVLKLANQKNKL 1ukw-a2-m1-cB_1ukw-a2-m2-cB Crystal structure of medium-chain acyl-CoA dehydrogenase from Thermus thermophilus HB8 Q72JJ3 Q72JJ3 2.4 X-RAY DIFFRACTION 87 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 379 379 1ukw-a2-m1-cA_1ukw-a2-m2-cA IDFSLTEEQRQLQALARRFAKEVILPVAQEYDEKEEVPWPVIEKLHEVGLLNAIIPEEYGGMGLKMLDEVIVGEELAYACMGIYTIPMASDLGITPVLLAGTEEQKERFLRPLTEKPALAAFALSEPGNGSDAAALKTRAIRQGDHYVLNGTKMWISNGGEAEWVVVFATVNPELRHKGVVALVVERGTPGFKAIKIHGKMGQRASGTYELVFEDVKVPVENRLGEEGEGFKIAMQTLNKTRIPVAAGSVGVARRALDEARKYAKEREAFGEPIANFQAIQFKLVDMLIGIETARMYTYYAAWLADQGLPHAHASAIAKAYASEIAFEAANQAIQIHGGYGYVREFPVEKLLRDVKLNQIYEGTNEIQRLIIARHILAA IDFSLTEEQRQLQALARRFAKEVILPVAQEYDEKEEVPWPVIEKLHEVGLLNAIIPEEYGGMGLKMLDEVIVGEELAYACMGIYTIPMASDLGITPVLLAGTEEQKERFLRPLTEKPALAAFALSEPGNGSDAAALKTRAIRQGDHYVLNGTKMWISNGGEAEWVVVFATVNPELRHKGVVALVVERGTPGFKAIKIHGKMGQRASGTYELVFEDVKVPVENRLGEEGEGFKIAMQTLNKTRIPVAAGSVGVARRALDEARKYAKEREAFGEPIANFQAIQFKLVDMLIGIETARMYTYYAAWLADQGLPHAHASAIAKAYASEIAFEAANQAIQIHGGYGYVREFPVEKLLRDVKLNQIYEGTNEIQRLIIARHILAA 1ukw-a2-m2-cA_1ukw-a2-m2-cB Crystal structure of medium-chain acyl-CoA dehydrogenase from Thermus thermophilus HB8 Q72JJ3 Q72JJ3 2.4 X-RAY DIFFRACTION 114 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 379 379 1ukw-a1-m1-cA_1ukw-a1-m1-cB 1ukw-a2-m1-cA_1ukw-a2-m1-cB IDFSLTEEQRQLQALARRFAKEVILPVAQEYDEKEEVPWPVIEKLHEVGLLNAIIPEEYGGMGLKMLDEVIVGEELAYACMGIYTIPMASDLGITPVLLAGTEEQKERFLRPLTEKPALAAFALSEPGNGSDAAALKTRAIRQGDHYVLNGTKMWISNGGEAEWVVVFATVNPELRHKGVVALVVERGTPGFKAIKIHGKMGQRASGTYELVFEDVKVPVENRLGEEGEGFKIAMQTLNKTRIPVAAGSVGVARRALDEARKYAKEREAFGEPIANFQAIQFKLVDMLIGIETARMYTYYAAWLADQGLPHAHASAIAKAYASEIAFEAANQAIQIHGGYGYVREFPVEKLLRDVKLNQIYEGTNEIQRLIIARHILAA IDFSLTEEQRQLQALARRFAKEVILPVAQEYDEKEEVPWPVIEKLHEVGLLNAIIPEEYGGMGLKMLDEVIVGEELAYACMGIYTIPMASDLGITPVLLAGTEEQKERFLRPLTEKPALAAFALSEPGNGSDAAALKTRAIRQGDHYVLNGTKMWISNGGEAEWVVVFATVNPELRHKGVVALVVERGTPGFKAIKIHGKMGQRASGTYELVFEDVKVPVENRLGEEGEGFKIAMQTLNKTRIPVAAGSVGVARRALDEARKYAKEREAFGEPIANFQAIQFKLVDMLIGIETARMYTYYAAWLADQGLPHAHASAIAKAYASEIAFEAANQAIQIHGGYGYVREFPVEKLLRDVKLNQIYEGTNEIQRLIIARHILAA 1ul3-a2-m2-cD_1ul3-a2-m3-cD Crystal Structure of PII from Synechocystis sp. PCC 6803 Q55247 Q55247 2 X-RAY DIFFRACTION 75 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 95 95 1ul3-a1-m1-cB_1ul3-a1-m1-cA 1ul3-a1-m1-cB_1ul3-a1-m1-cC 1ul3-a1-m1-cC_1ul3-a1-m1-cA 1ul3-a2-m1-cD_1ul3-a2-m2-cD 1ul3-a2-m1-cD_1ul3-a2-m3-cD MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFGREFLQKLKIEIVVDEGQVDMVVDKLVSAARTGEIGDGKIFISPVDSVVRIRTGEKDTE MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFGREFLQKLKIEIVVDEGQVDMVVDKLVSAARTGEIGDGKIFISPVDSVVRIRTGEKDTE 1ul3-a3-m1-cC_1ul3-a3-m5-cA Crystal Structure of PII from Synechocystis sp. PCC 6803 Q55247 Q55247 2 X-RAY DIFFRACTION 16 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 94 95 MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFFLQKLKIEIVVDEGQVDMVVDKLVSAARTGEIGDGKIFISPVDSVVRIRTGEKDTEAI MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFEFLQKLKIEIVVDEGQVDMVVDKLVSAARTGEIGDGKIFISPVDSVVRIRTGEKDTEAI 1ul3-a3-m4-cB_1ul3-a3-m5-cA Crystal Structure of PII from Synechocystis sp. PCC 6803 Q55247 Q55247 2 X-RAY DIFFRACTION 34 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 94 95 MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFFLQKLKIEIVVDEGQVDMVVDKLVSAARTGEIGDGKIFISPVDSVVRIRTGEKDTEAI MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFEFLQKLKIEIVVDEGQVDMVVDKLVSAARTGEIGDGKIFISPVDSVVRIRTGEKDTEAI 1ule-a1-m1-cB_1ule-a1-m2-cB CGL2 in complex with linear B2 trisaccharide Q9P4R8 Q9P4R8 2.15 X-RAY DIFFRACTION 44 1.0 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 150 150 1ul9-a1-m1-cA_1ul9-a1-m2-cB 1ul9-a1-m1-cB_1ul9-a1-m2-cA 1ulc-a1-m1-cA_1ulc-a1-m2-cB 1ulc-a1-m1-cB_1ulc-a1-m2-cA 1uld-a1-m1-cA_1uld-a1-m2-cA 1uld-a1-m1-cB_1uld-a1-m2-cB 1uld-a3-m1-cC_1uld-a3-m3-cD 1uld-a3-m1-cD_1uld-a3-m3-cC 1ule-a1-m1-cA_1ule-a1-m2-cA 1ulf-a1-m1-cA_1ulf-a1-m2-cA 1ulf-a1-m1-cB_1ulf-a1-m2-cB 1ulg-a1-m1-cA_1ulg-a1-m1-cC 1ulg-a1-m1-cB_1ulg-a1-m1-cD 2wkk-a1-m1-cA_2wkk-a1-m1-cB 2wkk-a1-m1-cC_2wkk-a1-m1-cD MLYHLFVNNQVKLQNDFKPESVAAIRSSAFNSKGGTTVFNFLSAGENILLHISIRPGENVIVFNSRLKNGAWGPEERIPYAEKFRPPNPSITVIDHGDRFQIRFDYGTSIYYNKRIKENAAAIAYNAENSLFSSPVTVDVHGLLPPLPPA MLYHLFVNNQVKLQNDFKPESVAAIRSSAFNSKGGTTVFNFLSAGENILLHISIRPGENVIVFNSRLKNGAWGPEERIPYAEKFRPPNPSITVIDHGDRFQIRFDYGTSIYYNKRIKENAAAIAYNAENSLFSSPVTVDVHGLLPPLPPA 1ule-a1-m2-cA_1ule-a1-m2-cB CGL2 in complex with linear B2 trisaccharide Q9P4R8 Q9P4R8 2.15 X-RAY DIFFRACTION 45 1.0 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 150 150 1ul9-a1-m1-cA_1ul9-a1-m1-cB 1ul9-a1-m2-cA_1ul9-a1-m2-cB 1ulc-a1-m1-cA_1ulc-a1-m1-cB 1ulc-a1-m2-cA_1ulc-a1-m2-cB 1uld-a1-m1-cA_1uld-a1-m1-cB 1uld-a1-m2-cA_1uld-a1-m2-cB 1uld-a2-m1-cC_1uld-a2-m1-cD 1uld-a3-m1-cC_1uld-a3-m1-cD 1uld-a3-m3-cC_1uld-a3-m3-cD 1ule-a1-m1-cA_1ule-a1-m1-cB 1ulf-a1-m1-cA_1ulf-a1-m1-cB 1ulf-a1-m2-cA_1ulf-a1-m2-cB 1ulg-a1-m1-cA_1ulg-a1-m1-cB 1ulg-a1-m1-cC_1ulg-a1-m1-cD 2wkk-a1-m1-cA_2wkk-a1-m1-cC 2wkk-a1-m1-cB_2wkk-a1-m1-cD MLYHLFVNNQVKLQNDFKPESVAAIRSSAFNSKGGTTVFNFLSAGENILLHISIRPGENVIVFNSRLKNGAWGPEERIPYAEKFRPPNPSITVIDHGDRFQIRFDYGTSIYYNKRIKENAAAIAYNAENSLFSSPVTVDVHGLLPPLPPA MLYHLFVNNQVKLQNDFKPESVAAIRSSAFNSKGGTTVFNFLSAGENILLHISIRPGENVIVFNSRLKNGAWGPEERIPYAEKFRPPNPSITVIDHGDRFQIRFDYGTSIYYNKRIKENAAAIAYNAENSLFSSPVTVDVHGLLPPLPPA 1ulg-a1-m1-cB_1ulg-a1-m1-cC CGL2 in complex with Thomsen-Friedenreich antigen Q9P4R8 Q9P4R8 2.2 X-RAY DIFFRACTION 11 1.0 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 150 150 MLYHLFVNNQVKLQNDFKPESVAAIRSSAFNSKGGTTVFNFLSAGENILLHISIRPGENVIVFNSRLKNGAWGPEERIPYAEKFRPPNPSITVIDHGDRFQIRFDYGTSIYYNKRIKENAAAIAYNAENSLFSSPVTVDVHGLLPPLPPA MLYHLFVNNQVKLQNDFKPESVAAIRSSAFNSKGGTTVFNFLSAGENILLHISIRPGENVIVFNSRLKNGAWGPEERIPYAEKFRPPNPSITVIDHGDRFQIRFDYGTSIYYNKRIKENAAAIAYNAENSLFSSPVTVDVHGLLPPLPPA 1uli-a1-m1-cC_1uli-a1-m1-cE Biphenyl dioxygenase (BphA1A2) derived from Rhodococcus sp. strain RHA1 Q53122 Q53122 2.2 X-RAY DIFFRACTION 95 0.998 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 425 425 1uli-a1-m1-cA_1uli-a1-m1-cC 1uli-a1-m1-cA_1uli-a1-m1-cE 1ulj-a1-m1-cA_1ulj-a1-m1-cC 1ulj-a1-m1-cA_1ulj-a1-m1-cE 1ulj-a1-m1-cC_1ulj-a1-m1-cE WADADIAELVDERTGRLDPRIYTDEALYEQELERIFGRSWLLMGHETQIPKAGDFMTNYMGEDPVMVVRQKNGEIRVFLNQCRHRGMRICRADGGNAKSFTCSYHGWAYDTGGNLVSVPFEEQAFPGLRKEDWGPLQARVETYKGLIFANWDADAPDLDTYLGEAKFYMDHMLDRTEAGTEAIPGIQKWVIPCNWKFAAEQFCSDMYHAGTTSHLSGILAGLTEGIQYRATWGGHGSGFYIGDPNLLLAIMGPKVTEYWTQGPAAEKASERLGSTERGQQLMAQHMTIFPTCSFLPGINTIRAWHPRGPNEIEVWAFTVVDADAPEEMKEEYRQQTLRTFSAGGVFEQDDGENWVEIQQVLRGHKARSRPFNAEMGLGQTDSDNPDYPGTISYVYSEEAARGLYTQWVRMMTSPDWAALDATRPA WADADIAELVDERTGRLDPRIYTDEALYEQELERIFGRSWLLMGHETQIPKAGDFMTNYMGEDPVMVVRQKNGEIRVFLNQCRHRGMRICRADGGNAKSFTCSYHGWAYDTGGNLVSVPFEEQAFPGLRKEDWGPLQARVETYKGLIFANWDADAPDLDTYLGEAKFYMDHMLDRTEAGTEAIPGIQKWVIPCNWKFAAEQFCSDMYHAGTTSHLSGILAGLPTEGIQYRATWGGHGSGFYIGDPNLLLAIMGPKVTEYWTQGPAAEKASERLGSTERGQQLMAQHMTIFPTCSFLPGINTIRAWHPRGPNEIEVWAFTVVDADAPEEMKEEYRQQTLRTFSAGGVFEQDDGENWVEIQQVLRGHKARSRPFNAEMGLGQTDSDNPDYPGTISYVYSEEAARGLYTQWVRMMTSPDWAALDATRP 1uli-a1-m1-cF_1uli-a1-m1-cD Biphenyl dioxygenase (BphA1A2) derived from Rhodococcus sp. strain RHA1 Q53123 Q53123 2.2 X-RAY DIFFRACTION 91 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 177 178 1uli-a1-m1-cB_1uli-a1-m1-cD 1uli-a1-m1-cB_1uli-a1-m1-cF 1ulj-a1-m1-cB_1ulj-a1-m1-cD 1ulj-a1-m1-cB_1ulj-a1-m1-cF 1ulj-a1-m1-cF_1ulj-a1-m1-cD FRTKPAPVDPSLQHEIEQFYYWEAKLLNDRRFQEWFDLLAEDIHYFMPIRTTRIMRETAQEYSGAREYAHFDDNAQMMRGRLRKITSDVSWSENPASRTRHVISNVMIVDGEKPGEYHVSSVFIVYRNRLERQLDIFAGERKDILRRTGSEAGFELAKRTILIDQSTILSNNLSFFF AFRTKPAPVDPSLQHEIEQFYYWEAKLLNDRRFQEWFDLLAEDIHYFMPIRTTRIMRETAQEYSGAREYAHFDDNAQMMRGRLRKITSDVSWSENPASRTRHVISNVMIVDGEKPGEYHVSSVFIVYRNRLERQLDIFAGERKDILRRTGSEAGFELAKRTILIDQSTILSNNLSFFF 1ulk-a1-m1-cA_1ulk-a1-m1-cB Crystal Structure of Pokeweed Lectin-C Q9AYP9 Q9AYP9 1.8 X-RAY DIFFRACTION 61 1.0 3527 (Phytolacca americana) 3527 (Phytolacca americana) 126 126 APVCGVRASGRVCPDGYCCSQWGYCGTTEEYCGKGCQSQCDYNRCGKEFGGKECHDELCCSQYGWCGNSDGHCGEGCQSQCSYWRCGKDFGGRLCTEDMCCSQYGWCGLTDDHCEDGCQSQCDLPT APVCGVRASGRVCPDGYCCSQWGYCGTTEEYCGKGCQSQCDYNRCGKEFGGKECHDELCCSQYGWCGNSDGHCGEGCQSQCSYWRCGKDFGGRLCTEDMCCSQYGWCGLTDDHCEDGCQSQCDLPT 1ulq-a2-m1-cE_1ulq-a2-m1-cH Crystal structure of tt0182 from Thermus thermophilus HB8 Q5SJM1 Q5SJM1 3 X-RAY DIFFRACTION 60 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 399 399 1ulq-a1-m1-cA_1ulq-a1-m1-cD 1ulq-a1-m1-cB_1ulq-a1-m1-cC 1ulq-a2-m1-cF_1ulq-a2-m1-cG PEAWIVEAVRTPIGKHGGALASVRPDDLLAHALSVLVDRSGVPKEEVEDVYAGCANQAGEDNRNVARMALLLAGFPVEVAGCTVNRLCGSGLEAVAQAARAIWAGEGKVYIGSGVESMSRAPYAVPKPERGFPTGNLVMYDTTLGWRFVNPKMQALYGTESMGETAENLAEMYGIRREEQDRFALLSHQKAVRAWEEGRFQDEVVPVPVKRGKEEILVEQDEGPRRDTSLEKLAALRPVFREGGTVTAGNSSPLNDGAAAVLLVSDDYAKAHGLRPLARVRAIAVAGVPPRIMGIGPVPATRKALERAGLSFSDLGLIELNEAFAAQALAVLREWSLSMEDQRLNPNGGAIALGHPLGASGARILTTLVHEMRRRKVQFGLATMCIGVGQGIAVVVEGM PEAWIVEAVRTPIGKHGGALASVRPDDLLAHALSVLVDRSGVPKEEVEDVYAGCANQAGEDNRNVARMALLLAGFPVEVAGCTVNRLCGSGLEAVAQAARAIWAGEGKVYIGSGVESMSRAPYAVPKPERGFPTGNLVMYDTTLGWRFVNPKMQALYGTESMGETAENLAEMYGIRREEQDRFALLSHQKAVRAWEEGRFQDEVVPVPVKRGKEEILVEQDEGPRRDTSLEKLAALRPVFREGGTVTAGNSSPLNDGAAAVLLVSDDYAKAHGLRPLARVRAIAVAGVPPRIMGIGPVPATRKALERAGLSFSDLGLIELNEAFAAQALAVLREWSLSMEDQRLNPNGGAIALGHPLGASGARILTTLVHEMRRRKVQFGLATMCIGVGQGIAVVVEGM 1ulq-a2-m1-cF_1ulq-a2-m1-cH Crystal structure of tt0182 from Thermus thermophilus HB8 Q5SJM1 Q5SJM1 3 X-RAY DIFFRACTION 20 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 398 399 1ulq-a1-m1-cA_1ulq-a1-m1-cC 1ulq-a1-m1-cB_1ulq-a1-m1-cD 1ulq-a2-m1-cE_1ulq-a2-m1-cG EAWIVEAVRTPIGKHGGALASVRPDDLLAHALSVLVDRSGVPKEEVEDVYAGCANQAGEDNRNVARMALLLAGFPVEVAGCTVNRLCGSGLEAVAQAARAIWAGEGKVYIGSGVESMSRAPYAVPKPERGFPTGNLVMYDTTLGWRFVNPKMQALYGTESMGETAENLAEMYGIRREEQDRFALLSHQKAVRAWEEGRFQDEVVPVPVKRGKEEILVEQDEGPRRDTSLEKLAALRPVFREGGTVTAGNSSPLNDGAAAVLLVSDDYAKAHGLRPLARVRAIAVAGVPPRIMGIGPVPATRKALERAGLSFSDLGLIELNEAFAAQALAVLREWSLSMEDQRLNPNGGAIALGHPLGASGARILTTLVHEMRRRKVQFGLATMCIGVGQGIAVVVEGM PEAWIVEAVRTPIGKHGGALASVRPDDLLAHALSVLVDRSGVPKEEVEDVYAGCANQAGEDNRNVARMALLLAGFPVEVAGCTVNRLCGSGLEAVAQAARAIWAGEGKVYIGSGVESMSRAPYAVPKPERGFPTGNLVMYDTTLGWRFVNPKMQALYGTESMGETAENLAEMYGIRREEQDRFALLSHQKAVRAWEEGRFQDEVVPVPVKRGKEEILVEQDEGPRRDTSLEKLAALRPVFREGGTVTAGNSSPLNDGAAAVLLVSDDYAKAHGLRPLARVRAIAVAGVPPRIMGIGPVPATRKALERAGLSFSDLGLIELNEAFAAQALAVLREWSLSMEDQRLNPNGGAIALGHPLGASGARILTTLVHEMRRRKVQFGLATMCIGVGQGIAVVVEGM 1ulq-a2-m1-cG_1ulq-a2-m1-cH Crystal structure of tt0182 from Thermus thermophilus HB8 Q5SJM1 Q5SJM1 3 X-RAY DIFFRACTION 239 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 399 399 1ulq-a1-m1-cA_1ulq-a1-m1-cB 1ulq-a1-m1-cC_1ulq-a1-m1-cD 1ulq-a2-m1-cF_1ulq-a2-m1-cE PEAWIVEAVRTPIGKHGGALASVRPDDLLAHALSVLVDRSGVPKEEVEDVYAGCANQAGEDNRNVARMALLLAGFPVEVAGCTVNRLCGSGLEAVAQAARAIWAGEGKVYIGSGVESMSRAPYAVPKPERGFPTGNLVMYDTTLGWRFVNPKMQALYGTESMGETAENLAEMYGIRREEQDRFALLSHQKAVRAWEEGRFQDEVVPVPVKRGKEEILVEQDEGPRRDTSLEKLAALRPVFREGGTVTAGNSSPLNDGAAAVLLVSDDYAKAHGLRPLARVRAIAVAGVPPRIMGIGPVPATRKALERAGLSFSDLGLIELNEAFAAQALAVLREWSLSMEDQRLNPNGGAIALGHPLGASGARILTTLVHEMRRRKVQFGLATMCIGVGQGIAVVVEGM PEAWIVEAVRTPIGKHGGALASVRPDDLLAHALSVLVDRSGVPKEEVEDVYAGCANQAGEDNRNVARMALLLAGFPVEVAGCTVNRLCGSGLEAVAQAARAIWAGEGKVYIGSGVESMSRAPYAVPKPERGFPTGNLVMYDTTLGWRFVNPKMQALYGTESMGETAENLAEMYGIRREEQDRFALLSHQKAVRAWEEGRFQDEVVPVPVKRGKEEILVEQDEGPRRDTSLEKLAALRPVFREGGTVTAGNSSPLNDGAAAVLLVSDDYAKAHGLRPLARVRAIAVAGVPPRIMGIGPVPATRKALERAGLSFSDLGLIELNEAFAAQALAVLREWSLSMEDQRLNPNGGAIALGHPLGASGARILTTLVHEMRRRKVQFGLATMCIGVGQGIAVVVEGM 1uls-a2-m1-cE_1uls-a2-m1-cH Crystal structure of tt0140 from Thermus thermophilus HB8 Q5SK98 Q5SK98 2.4 X-RAY DIFFRACTION 126 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 239 239 1uls-a1-m1-cA_1uls-a1-m1-cD 1uls-a1-m1-cC_1uls-a1-m1-cB 1uls-a2-m1-cF_1uls-a2-m1-cG RLKDKAVLITGAAHGIGRATLELFAKEGARLVACDIEEGPLREAAEAVGAHPVVDVADPASVERGFAEALAHLGRLDGVVHYAGITRDNFHWKPLEDWELVLRVNLTGSFLVAKAASEAREKNPGSIVLTASRVYLGNLGQANYAASAGVVGLTRTLALELGRWGIRVNTLAPGFIETRTAKVPEKVREKAIAATPLGRAGKPLEVAYAALFLLSDESSFITGQVLFVDGGRTIGAAPA RLKDKAVLITGAAHGIGRATLELFAKEGARLVACDIEEGPLREAAEAVGAHPVVDVADPASVERGFAEALAHLGRLDGVVHYAGITRDNFHWKPLEDWELVLRVNLTGSFLVAKAASEAREKNPGSIVLTASRVYLGNLGQANYAASAGVVGLTRTLALELGRWGIRVNTLAPGFIETRTAKVPEKVREKAIAATPLGRAGKPLEVAYAALFLLSDESSFITGQVLFVDGGRTIGAAPA 1uls-a2-m1-cF_1uls-a2-m1-cH Crystal structure of tt0140 from Thermus thermophilus HB8 Q5SK98 Q5SK98 2.4 X-RAY DIFFRACTION 28 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 236 239 1uls-a1-m1-cB_1uls-a1-m1-cD 1uls-a1-m1-cC_1uls-a1-m1-cA 1uls-a2-m1-cE_1uls-a2-m1-cG RLKDKAVLITGAAHGIGRATLELFAKEGARLVACDIEEGPLREAAEAVGAHPVVDVADPASVERGFAEALAHLGRLDGVVHYAGITRDNFHWKPLEDWELVLRVNLTGSFLVAKAASEAREKNPGSIVLTASRVYLGNLGQANYAASAGVVGLTRTLALELGRWGIRVNTLAPGFIETRTAKVPEKVREKAIAATPLGRAGKPLEVAYAALFLLSDESSFITGQVLFVDGGRTIGA RLKDKAVLITGAAHGIGRATLELFAKEGARLVACDIEEGPLREAAEAVGAHPVVDVADPASVERGFAEALAHLGRLDGVVHYAGITRDNFHWKPLEDWELVLRVNLTGSFLVAKAASEAREKNPGSIVLTASRVYLGNLGQANYAASAGVVGLTRTLALELGRWGIRVNTLAPGFIETRTAKVPEKVREKAIAATPLGRAGKPLEVAYAALFLLSDESSFITGQVLFVDGGRTIGAAPA 1uls-a2-m1-cG_1uls-a2-m1-cH Crystal structure of tt0140 from Thermus thermophilus HB8 Q5SK98 Q5SK98 2.4 X-RAY DIFFRACTION 109 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 239 239 1uls-a1-m1-cA_1uls-a1-m1-cB 1uls-a1-m1-cC_1uls-a1-m1-cD 1uls-a2-m1-cF_1uls-a2-m1-cE RLKDKAVLITGAAHGIGRATLELFAKEGARLVACDIEEGPLREAAEAVGAHPVVDVADPASVERGFAEALAHLGRLDGVVHYAGITRDNFHWKPLEDWELVLRVNLTGSFLVAKAASEAREKNPGSIVLTASRVYLGNLGQANYAASAGVVGLTRTLALELGRWGIRVNTLAPGFIETRTAKVPEKVREKAIAATPLGRAGKPLEVAYAALFLLSDESSFITGQVLFVDGGRTIGAAPA RLKDKAVLITGAAHGIGRATLELFAKEGARLVACDIEEGPLREAAEAVGAHPVVDVADPASVERGFAEALAHLGRLDGVVHYAGITRDNFHWKPLEDWELVLRVNLTGSFLVAKAASEAREKNPGSIVLTASRVYLGNLGQANYAASAGVVGLTRTLALELGRWGIRVNTLAPGFIETRTAKVPEKVREKAIAATPLGRAGKPLEVAYAALFLLSDESSFITGQVLFVDGGRTIGAAPA 1ulu-a1-m1-cC_1ulu-a1-m1-cA Crystal structure of tt0143 from Thermus thermophilus HB8 Q5SLI9 Q5SLI9 2 X-RAY DIFFRACTION 102 0.996 274 (Thermus thermophilus) 274 (Thermus thermophilus) 238 240 1ulu-a1-m1-cD_1ulu-a1-m1-cB 2wyu-a1-m1-cA_2wyu-a1-m1-cC 2wyu-a1-m1-cD_2wyu-a1-m1-cB 2wyv-a1-m1-cA_2wyv-a1-m1-cD 2wyv-a1-m1-cB_2wyv-a1-m1-cC 2wyw-a1-m1-cB_2wyw-a1-m1-cA 2wyw-a1-m1-cC_2wyw-a1-m1-cD 2yw9-a1-m1-cA_2yw9-a1-m1-cB 2yw9-a1-m1-cC_2yw9-a1-m1-cD 2yw9-a2-m1-cF_2yw9-a2-m1-cE 2yw9-a2-m1-cH_2yw9-a2-m1-cG LTVDLSGKKALVGVTNQRSLGFAIAAKLKEAGAEVALSYQAERLRPEAEKLAEALGGALLFRADVTQDEELDALFAGVKEAFGGLDYLVHAIAFAPREAEGRYIDTRRQDWLLALEVSAYSLVAVARRAEPLLREGGGIVTLTYYASEKVVPKYNVAIAKAALEASVRYLAYELGPKGVRVNAISAGPVYDRVAQTAPLRRNITQEEVGNLGLFLLSPLASGITGEVVYVDAGYHIGE LTVDLSGKKALVGVTNQRSLGFAIAAKLKEAGAEVALSYQAERLRPEAEKLAEALGGALLFRADVTQDEELDALFAGVKEAFGGLDYLVHAIAFAPREAEGRYIDTRRQDWLLALEVSAYSLVAVARRAEPLLREGGGIVTLTYYASEKVVPKYNVAIAKAALEASVRYLAYELGPKGVRVNAISAGPVFTKYDRVAQTAPLRRNITQEEVGNLGLFLLSPLASGITGEVVYVDAGYHIG 1uly-a1-m1-cA_1uly-a1-m2-cA Crystal structure analysis of the ArsR homologue DNA-binding protein from P. horikoshii OT3 O59595 O59595 2.5 X-RAY DIFFRACTION 115 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 185 185 2cwe-a1-m1-cA_2cwe-a1-m2-cA AKKVKVITDPEVIKVLEDTRRKILKLLRNKETISQLSEILGKTPQTIYHHIEKLKEAGLVEVKRTEKGNLVEKYYGRTADVFYINLYLGDEELRYIARSRLKTKIDIFKRLGYQFEENELLNIDRSQKEFDATVRISKYIEEKEDALKDFSNEDIIHAIEWLSTAELARDEEYLELLKRLGSILK AKKVKVITDPEVIKVLEDTRRKILKLLRNKETISQLSEILGKTPQTIYHHIEKLKEAGLVEVKRTEKGNLVEKYYGRTADVFYINLYLGDEELRYIARSRLKTKIDIFKRLGYQFEENELLNIDRSQKEFDATVRISKYIEEKEDALKDFSNEDIIHAIEWLSTAELARDEEYLELLKRLGSILK 1ulz-a1-m1-cA_1ulz-a1-m2-cA Crystal structure of the biotin carboxylase subunit of pyruvate carboxylase O67483 O67483 2.2 X-RAY DIFFRACTION 91 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 451 451 MVNKVLVANRGEIAVRIIRACKELGIPTVAIYNEVESTARHVKLADEAYMIGTDPLDTYLNKQRIINLALEVGADAIHPGYGFLAENAEFAKMCEEAGITFIGPHWKVIELMGDKARSKEVMKKAGVPVVPGSDGVLKSLEEAKALAREIGYPVLLKATAGGGGRGIRICRNEEELVKNYEQASREAEKAFGRGDLLLEKFIENPKHIEYQVLGDKHGNVIHLGERDCSIQRRNQKLVEIAPSLILTPEKREYYGNIVTKAAKEIGYYNAGTMEFIADQEGNLYFIEMNTRIQVEHPVSEMVTGIDIVKWQIKIAAGEPLTIKQEDVKFNGYAIECRINAEDPKKNFAPSTRVIERYYVPGGFGIRVEHAAARGFEVTPYYDSMIAKLITWAPTWDEAVERMRAALETYEITGVKTTIPLLINIMKEKDFKAGKFTTKYLEEHPEVFEYEE MVNKVLVANRGEIAVRIIRACKELGIPTVAIYNEVESTARHVKLADEAYMIGTDPLDTYLNKQRIINLALEVGADAIHPGYGFLAENAEFAKMCEEAGITFIGPHWKVIELMGDKARSKEVMKKAGVPVVPGSDGVLKSLEEAKALAREIGYPVLLKATAGGGGRGIRICRNEEELVKNYEQASREAEKAFGRGDLLLEKFIENPKHIEYQVLGDKHGNVIHLGERDCSIQRRNQKLVEIAPSLILTPEKREYYGNIVTKAAKEIGYYNAGTMEFIADQEGNLYFIEMNTRIQVEHPVSEMVTGIDIVKWQIKIAAGEPLTIKQEDVKFNGYAIECRINAEDPKKNFAPSTRVIERYYVPGGFGIRVEHAAARGFEVTPYYDSMIAKLITWAPTWDEAVERMRAALETYEITGVKTTIPLLINIMKEKDFKAGKFTTKYLEEHPEVFEYEE 1um0-a1-m1-cA_1um0-a1-m1-cD Crystal structure of chorismate synthase complexed with FMN P56122 P56122 1.95 X-RAY DIFFRACTION 341 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 365 365 1um0-a1-m1-cB_1um0-a1-m1-cC 1umf-a1-m1-cA_1umf-a1-m1-cD 1umf-a1-m1-cB_1umf-a1-m1-cC MNTLGRFLRLTTFGESHGDVIGGVLDGMPSGIKIDYALLENEMKRRQGGRNVFITPRKEDDKVEITSGVFEDFSTGTPIGFLIHNQRARSKDYDNIKNLFRPSHADFTYFHKYGIRDFRGGGRSSARESAIRVAAGAFAKMLLREIGIVCESGIIEIGGIKAKNYDFNHALKSEIFALDEEQEEAQKTAIQNAIKNHDSIGGVALIRARSIKTNQKLPIGLGQGLYAKLDAKIAEAMMGLNGVKAVEIGKGVESSLLKGSEYNDLMDQKGFLSNRSGGVLGGMSNGEEIIVRVHFKPTPSIFQPQRTIDINGNECECLLKGRHDPCIAIRGSVVCESLLALVLADMVLLNLTSKIEYLKTIYNEN MNTLGRFLRLTTFGESHGDVIGGVLDGMPSGIKIDYALLENEMKRRQGGRNVFITPRKEDDKVEITSGVFEDFSTGTPIGFLIHNQRARSKDYDNIKNLFRPSHADFTYFHKYGIRDFRGGGRSSARESAIRVAAGAFAKMLLREIGIVCESGIIEIGGIKAKNYDFNHALKSEIFALDEEQEEAQKTAIQNAIKNHDSIGGVALIRARSIKTNQKLPIGLGQGLYAKLDAKIAEAMMGLNGVKAVEIGKGVESSLLKGSEYNDLMDQKGFLSNRSGGVLGGMSNGEEIIVRVHFKPTPSIFQPQRTIDINGNECECLLKGRHDPCIAIRGSVVCESLLALVLADMVLLNLTSKIEYLKTIYNEN 1um0-a1-m1-cB_1um0-a1-m1-cD Crystal structure of chorismate synthase complexed with FMN P56122 P56122 1.95 X-RAY DIFFRACTION 114 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 365 365 1um0-a1-m1-cA_1um0-a1-m1-cC 1umf-a1-m1-cA_1umf-a1-m1-cC 1umf-a1-m1-cB_1umf-a1-m1-cD MNTLGRFLRLTTFGESHGDVIGGVLDGMPSGIKIDYALLENEMKRRQGGRNVFITPRKEDDKVEITSGVFEDFSTGTPIGFLIHNQRARSKDYDNIKNLFRPSHADFTYFHKYGIRDFRGGGRSSARESAIRVAAGAFAKMLLREIGIVCESGIIEIGGIKAKNYDFNHALKSEIFALDEEQEEAQKTAIQNAIKNHDSIGGVALIRARSIKTNQKLPIGLGQGLYAKLDAKIAEAMMGLNGVKAVEIGKGVESSLLKGSEYNDLMDQKGFLSNRSGGVLGGMSNGEEIIVRVHFKPTPSIFQPQRTIDINGNECECLLKGRHDPCIAIRGSVVCESLLALVLADMVLLNLTSKIEYLKTIYNEN MNTLGRFLRLTTFGESHGDVIGGVLDGMPSGIKIDYALLENEMKRRQGGRNVFITPRKEDDKVEITSGVFEDFSTGTPIGFLIHNQRARSKDYDNIKNLFRPSHADFTYFHKYGIRDFRGGGRSSARESAIRVAAGAFAKMLLREIGIVCESGIIEIGGIKAKNYDFNHALKSEIFALDEEQEEAQKTAIQNAIKNHDSIGGVALIRARSIKTNQKLPIGLGQGLYAKLDAKIAEAMMGLNGVKAVEIGKGVESSLLKGSEYNDLMDQKGFLSNRSGGVLGGMSNGEEIIVRVHFKPTPSIFQPQRTIDINGNECECLLKGRHDPCIAIRGSVVCESLLALVLADMVLLNLTSKIEYLKTIYNEN 1um0-a1-m1-cC_1um0-a1-m1-cD Crystal structure of chorismate synthase complexed with FMN P56122 P56122 1.95 X-RAY DIFFRACTION 82 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 365 365 1um0-a1-m1-cA_1um0-a1-m1-cB 1umf-a1-m1-cA_1umf-a1-m1-cB 1umf-a1-m1-cC_1umf-a1-m1-cD MNTLGRFLRLTTFGESHGDVIGGVLDGMPSGIKIDYALLENEMKRRQGGRNVFITPRKEDDKVEITSGVFEDFSTGTPIGFLIHNQRARSKDYDNIKNLFRPSHADFTYFHKYGIRDFRGGGRSSARESAIRVAAGAFAKMLLREIGIVCESGIIEIGGIKAKNYDFNHALKSEIFALDEEQEEAQKTAIQNAIKNHDSIGGVALIRARSIKTNQKLPIGLGQGLYAKLDAKIAEAMMGLNGVKAVEIGKGVESSLLKGSEYNDLMDQKGFLSNRSGGVLGGMSNGEEIIVRVHFKPTPSIFQPQRTIDINGNECECLLKGRHDPCIAIRGSVVCESLLALVLADMVLLNLTSKIEYLKTIYNEN MNTLGRFLRLTTFGESHGDVIGGVLDGMPSGIKIDYALLENEMKRRQGGRNVFITPRKEDDKVEITSGVFEDFSTGTPIGFLIHNQRARSKDYDNIKNLFRPSHADFTYFHKYGIRDFRGGGRSSARESAIRVAAGAFAKMLLREIGIVCESGIIEIGGIKAKNYDFNHALKSEIFALDEEQEEAQKTAIQNAIKNHDSIGGVALIRARSIKTNQKLPIGLGQGLYAKLDAKIAEAMMGLNGVKAVEIGKGVESSLLKGSEYNDLMDQKGFLSNRSGGVLGGMSNGEEIIVRVHFKPTPSIFQPQRTIDINGNECECLLKGRHDPCIAIRGSVVCESLLALVLADMVLLNLTSKIEYLKTIYNEN 1umd-a1-m1-cB_1umd-a1-m1-cD branched-chain 2-oxo acid dehydrogenase (E1) from Thermus thermophilus HB8 with 4-methyl-2-oxopentanoate as an intermediate Q5SLR3 Q5SLR3 1.9 X-RAY DIFFRACTION 136 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 323 323 1um9-a1-m1-cB_1um9-a1-m1-cD 1umb-a1-m1-cB_1umb-a1-m1-cD 1umc-a1-m1-cB_1umc-a1-m1-cD ALMTMVQALNRALDEEMAKDPRVVVLGEDVGKRGGVFLVTEGLLQKYGPDRVMDTPLSEAAIVGAALGMAAHGLRPVAEIQFADYIFPGFDQLVSQVAKLRYRSGGQFTAPLVVRMPSGGGVRGGHHHSQSPEAHFVHTAGLKVVAVSTPYDAKGLLKAAIRDEDPVVFLEPKRLYRSVKEEVPEEDYTLPIGKAALRREGKDLTLICYGTVMPEVLQAAAELAKAGVSAEVLDLRTLMPWDYEAVMNSVAKTGRVVLVSDAPRHASFVSEVAATIAEDLLDMLLAPPIRVTGFDTPYPYAQDKLYLPTVTRILNAAKRALDY ALMTMVQALNRALDEEMAKDPRVVVLGEDVGKRGGVFLVTEGLLQKYGPDRVMDTPLSEAAIVGAALGMAAHGLRPVAEIQFADYIFPGFDQLVSQVAKLRYRSGGQFTAPLVVRMPSGGGVRGGHHHSQSPEAHFVHTAGLKVVAVSTPYDAKGLLKAAIRDEDPVVFLEPKRLYRSVKEEVPEEDYTLPIGKAALRREGKDLTLICYGTVMPEVLQAAAELAKAGVSAEVLDLRTLMPWDYEAVMNSVAKTGRVVLVSDAPRHASFVSEVAATIAEDLLDMLLAPPIRVTGFDTPYPYAQDKLYLPTVTRILNAAKRALDY 1umd-a1-m1-cC_1umd-a1-m1-cA branched-chain 2-oxo acid dehydrogenase (E1) from Thermus thermophilus HB8 with 4-methyl-2-oxopentanoate as an intermediate Q5SLR4 Q5SLR4 1.9 X-RAY DIFFRACTION 76 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 361 362 1um9-a1-m1-cA_1um9-a1-m1-cC 1umb-a1-m1-cC_1umb-a1-m1-cA 1umc-a1-m1-cC_1umc-a1-m1-cA HRFETFTEEPIRLIGEEGEWLGDFPLDLEGEKLRRLYRDMLAARMLDERYTILIRTGKTSFIAPAAGHEAAQVAIAHAIRPGFDWVFPYYRDHGLALALGIPLKELLGQMLATKADPNKGRQMPEHPGSKALNFFTVASPIASHVPPAAGAAISMKLLRTGQVAVCTFGDGATSEGDWYAGINFAAVQGAPAVFIAENNFYAISVDYRHQTHSPTIADKAHAFGIPGYLVDGMDVLASYYVVKEAVERARRGEGPSLVELRVYRYGPHSSADDDSRYRPKEEVAFWRKKDPIPRFRRFLEARGLWNEEWEEDVREEIRAELERGLKEAEEAGPVPPEWMFEDVFAEKPWHLLRQEALLKEE HRFETFTEEPIRLIGEEGEWLGDFPLDLEGEKLRRLYRDMLAARMLDERYTILIRTGKTSFIAPAAGHEAAQVAIAHAIRPGFDWVFPYYRDHGLALALGIPLKELLGQMLATKADPNKGRQMPEHPGSKALNFFTVASPIASHVPPAAGAAISMKLLRTGQVAVCTFGDGATSEGDWYAGINFAAVQGAPAVFIAENNFYAISVDYRHQTHSPTIADKAHAFGIPGYLVDGMDVLASYYVVKEAVERARRGEGPSLVELRVYRYGPHSSADDDSRYRPKEEVAFWRKKDPIPRFRRFLEARGLWNEEWEEDVREEIRAELERGLKEAEEAGPVPPEWMFEDVFAEKPWHLLRQEALLKEEL 1umo-a1-m1-cA_1umo-a1-m1-cB The crystal structure of cytoglobin: the fourth globin type discovered in man Q8WWM9 Q8WWM9 2.59 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 4b3w-a1-m1-cA_4b3w-a1-m1-cB ELSEAERKAVQAMWARLYANSEDVGVAILVRFFVNFPSAKQYFSQFKHMEDPLEMERSPQLRKHASRVMGALNTVVENLHDPDKVSSVLALVGKAHALKHKVEPVYFKILSGVILEVVAEEFASDFPPETQRAWAKLRGLIYSHVTAAYKEVGW ELSEAERKAVQAMWARLYANSEDVGVAILVRFFVNFPSAKQYFSQFKHMEDPLEMERSPQLRKHASRVMGALNTVVENLHDPDKVSSVLALVGKAHALKHKVEPVYFKILSGVILEVVAEEFASDFPPETQRAWAKLRGLIYSHVTAAYKEVGW 1umr-a3-m1-cA_1umr-a3-m9-cB Crystal structure of the platelet activator convulxin, a disulfide linked a4b4 cyclic tetramer from the venom of Crotalus durissus terrificus O93426 O93426 2.4 X-RAY DIFFRACTION 11 1.0 8732 (Crotalus durissus terrificus) 8732 (Crotalus durissus terrificus) 135 135 1umr-a3-m10-cB_1umr-a3-m2-cA 1umr-a3-m11-cB_1umr-a3-m3-cA 1umr-a3-m4-cA_1umr-a3-m8-cB GLHCPSDWYYYDQHCYRIFNEEMNWEDAEWFCTKQAKGAHLVSIKSAKEADFVAWMVTQNIEESFSHVSIGLRVQNKEKQCSTKWSDGSSVSYDNLLDLYITKCSLLKKETGFRKWFVASCIGKIPFVCKFPPQC GLHCPSDWYYYDQHCYRIFNEEMNWEDAEWFCTKQAKGAHLVSIKSAKEADFVAWMVTQNIEESFSHVSIGLRVQNKEKQCSTKWSDGSSVSYDNLLDLYITKCSLLKKETGFRKWFVASCIGKIPFVCKFPPQC 1umr-a3-m3-cA_1umr-a3-m9-cB Crystal structure of the platelet activator convulxin, a disulfide linked a4b4 cyclic tetramer from the venom of Crotalus durissus terrificus O93426 O93426 2.4 X-RAY DIFFRACTION 18 1.0 8732 (Crotalus durissus terrificus) 8732 (Crotalus durissus terrificus) 135 135 1umr-a3-m11-cB_1umr-a3-m4-cA 1umr-a3-m1-cA_1umr-a3-m10-cB 1umr-a3-m2-cA_1umr-a3-m8-cB GLHCPSDWYYYDQHCYRIFNEEMNWEDAEWFCTKQAKGAHLVSIKSAKEADFVAWMVTQNIEESFSHVSIGLRVQNKEKQCSTKWSDGSSVSYDNLLDLYITKCSLLKKETGFRKWFVASCIGKIPFVCKFPPQC GLHCPSDWYYYDQHCYRIFNEEMNWEDAEWFCTKQAKGAHLVSIKSAKEADFVAWMVTQNIEESFSHVSIGLRVQNKEKQCSTKWSDGSSVSYDNLLDLYITKCSLLKKETGFRKWFVASCIGKIPFVCKFPPQC 1umv-a1-m1-cX_1umv-a1-m2-cX Crystal structure of an acidic, non-myotoxic phospholipase A2 from the venom of Bothrops jararacussu Q8AXY1 Q8AXY1 1.79 X-RAY DIFFRACTION 75 1.0 8726 (Bothrops jararacussu) 8726 (Bothrops jararacussu) 122 122 1z76-a1-m1-cA_1z76-a1-m1-cB 1zl7-a2-m1-cA_1zl7-a2-m2-cA SLWQFGKMINYVMGESGVLQYLSYGCYCGLGGQGQPTDATDRCCFVHDCCYGKVTGCNPKIDSYTYSKKNGDVVCGGDNPCKKQICECDRVATTCFRDNKDTYDIKYWFYGAKNCQEKSEPC SLWQFGKMINYVMGESGVLQYLSYGCYCGLGGQGQPTDATDRCCFVHDCCYGKVTGCNPKIDSYTYSKKNGDVVCGGDNPCKKQICECDRVATTCFRDNKDTYDIKYWFYGAKNCQEKSEPC 1umy-a1-m1-cC_1umy-a1-m1-cD BHMT from rat liver O09171 O09171 2.5 X-RAY DIFFRACTION 249 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 380 381 8d45-a1-m1-cA_8d45-a1-m1-cB 8d45-a1-m1-cC_8d45-a1-m1-cD KRGILERLNAGEVVIGDGGFVFALEKRGYVKAGPWTPEAAVEHPEAVRQLHREFLRAGSNVMQTFTFYASGQKVNEAACDIARQVADEGDALVAGGVSQTPSYLSCKSETEVKKIFHQQLEVFMKKNVDFLIAEYFEHVEEAVWAVEALKTSGKPIAATMCIGPEGDLHGVSPGECAVRLVKAGAAIVGVNCHFDPSTSLQTIKLMKEGLEAARLKAYLMSQPLAYHTPDCGKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPASEKHGSWGSGLDMHTKPWIRARARKEYWQNLRIASGRPYNPSMSKPDAWGVTKGAAELMQQKEATTEQQLRALFEKQKFKS KRGILERLNAGEVVIGDGGFVFALEKRGYVKAGPWTPEAAVEHPEAVRQLHREFLRAGSNVMQTFTFYAKISGQKVNEAACDIARQVADEGDALVAGGVSQTPSYLSCKSETEVKKIFHQQLEVFMKKNVDFLIAEYFEHVEEAVWAVEALKTSGKPIAATMCIGPEGDLHGVSPGECAVRLVKAGAAIVGVNCHFDPSTSLQTIKLMKEGLEAARLKAYLMSQPLAYHTPDCGKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPASEKHGSWGSGLDMHTKPWIRARARKEYWQNLRIASGRPYNPSMSKPDAWGVTKGAAELMQQKEATTEQQLRALFEKQKFK 1un6-a2-m1-cD_1un6-a2-m1-cB THE CRYSTAL STRUCTURE OF A ZINC FINGER - RNA COMPLEX REVEALS TWO MODES OF MOLECULAR RECOGNITION P03001 P03001 3.1 X-RAY DIFFRACTION 34 0.983 8355 (Xenopus laevis) 8355 (Xenopus laevis) 58 86 LPYECPHEGCDKRFSLPSRLKRHEKVHAGYPCKKDDSCSFVGKTWTLYLKHVAECHQD MYVCHFENCGKAFKKHNQLKVHQFSHTQQLPYECPHEGCDKRFSLPSRLKRHEKVHAGYPCKKDDSCSFVGKTWTLYLKHVAECHQ 1un8-a1-m1-cA_1un8-a1-m1-cB Crystal structure of the dihydroxyacetone kinase of C. freundii (native form) P45510 P45510 2.5 X-RAY DIFFRACTION 357 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 542 542 1un9-a1-m1-cA_1un9-a1-m1-cB MSQFFFNQRTHLVSDVIDGAIIASPWNNLARLESDPAIRIVVRRDLNKNNVAVISGGGSGHEPAHVGFIGKGMLTAAVCGDVFASPSVDAVLTAIQAVTGEAGCLLIVKNYTGDRLNFGLAAEKARRLGYNVEMLIVGDDISLPDNKHPRGIAGTILVHKIAGYFAERGYNLATVLREAQYAASNTFSLGVALSSCHLPQETDAAPRHHPGHAELGMGIHGEPGASVIDTQNSAQVVNLMVDKLLAALPETGRLAVMINNLGGVSVAEMAIITRELASSPLHSRIDWLIGPASLVTALDMKGFSLTAIVLEESIEKALLTEVETSNWPTPVPPREITCVVSSHASARVEFQPSANALVAGIVELVTATLSDLETHLNALDAKVGDGDTGSTFAAAAREIASLLHRQQLPLNNLATLFALIGERLTVVMGGSSGVLMSIFFTAAGQKLEQGANVVEALNTGLAQMKFYGGADEGDRTMIDALQPALTSLLAQPKNLQAAFDAAQAGAERTCLSSKANAESLLGNMDPGAQRLAMVFKALAESE MSQFFFNQRTHLVSDVIDGAIIASPWNNLARLESDPAIRIVVRRDLNKNNVAVISGGGSGHEPAHVGFIGKGMLTAAVCGDVFASPSVDAVLTAIQAVTGEAGCLLIVKNYTGDRLNFGLAAEKARRLGYNVEMLIVGDDISLPDNKHPRGIAGTILVHKIAGYFAERGYNLATVLREAQYAASNTFSLGVALSSCHLPQETDAAPRHHPGHAELGMGIHGEPGASVIDTQNSAQVVNLMVDKLLAALPETGRLAVMINNLGGVSVAEMAIITRELASSPLHSRIDWLIGPASLVTALDMKGFSLTAIVLEESIEKALLTEVETSNWPTPVPPREITCVVSSHASARVEFQPSANALVAGIVELVTATLSDLETHLNALDAKVGDGDTGSTFAAAAREIASLLHRQQLPLNNLATLFALIGERLTVVMGGSSGVLMSIFFTAAGQKLEQGANVVEALNTGLAQMKFYGGADEGDRTMIDALQPALTSLLAQPKNLQAAFDAAQAGAERTCLSSKANAESLLGNMDPGAQRLAMVFKALAESE 1unb-a1-m2-cA_1unb-a1-m3-cA Deacetoxycephalosporin C synthase complexed with 2-oxoglutarate and ampicillin P18548 P18548 1.5 X-RAY DIFFRACTION 97 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 288 288 1dcs-a1-m1-cA_1dcs-a1-m2-cA 1dcs-a1-m1-cA_1dcs-a1-m3-cA 1dcs-a1-m2-cA_1dcs-a1-m3-cA 1e5h-a1-m1-cA_1e5h-a1-m2-cA 1e5h-a1-m1-cA_1e5h-a1-m3-cA 1e5h-a1-m2-cA_1e5h-a1-m3-cA 1e5i-a1-m1-cA_1e5i-a1-m2-cA 1e5i-a1-m1-cA_1e5i-a1-m3-cA 1e5i-a1-m2-cA_1e5i-a1-m3-cA 1hjf-a1-m1-cA_1hjf-a1-m2-cA 1hjf-a1-m1-cA_1hjf-a1-m3-cA 1hjf-a1-m2-cA_1hjf-a1-m3-cA 1hjg-a1-m1-cA_1hjg-a1-m2-cA 1hjg-a1-m1-cA_1hjg-a1-m3-cA 1hjg-a1-m2-cA_1hjg-a1-m3-cA 1rxf-a1-m1-cA_1rxf-a1-m2-cA 1rxf-a1-m1-cA_1rxf-a1-m3-cA 1rxf-a1-m2-cA_1rxf-a1-m3-cA 1rxg-a1-m1-cA_1rxg-a1-m2-cA 1rxg-a1-m1-cA_1rxg-a1-m3-cA 1rxg-a1-m2-cA_1rxg-a1-m3-cA 1unb-a1-m1-cA_1unb-a1-m2-cA 1unb-a1-m1-cA_1unb-a1-m3-cA 1uo9-a1-m1-cA_1uo9-a1-m2-cA 1uo9-a1-m1-cA_1uo9-a1-m3-cA 1uo9-a1-m2-cA_1uo9-a1-m3-cA 1uob-a1-m1-cA_1uob-a1-m2-cA 1uob-a1-m1-cA_1uob-a1-m3-cA 1uob-a1-m2-cA_1uob-a1-m3-cA 1uof-a1-m1-cA_1uof-a1-m2-cA 1uof-a1-m1-cA_1uof-a1-m3-cA 1uof-a1-m2-cA_1uof-a1-m3-cA 1uog-a1-m1-cA_1uog-a1-m2-cA 1uog-a1-m1-cA_1uog-a1-m3-cA 1uog-a1-m2-cA_1uog-a1-m3-cA 2jb8-a1-m1-cA_2jb8-a1-m2-cA 2jb8-a1-m1-cA_2jb8-a1-m3-cA 2jb8-a1-m2-cA_2jb8-a1-m3-cA MDTTVPTFSLAELQQGLHQDEFRRCLRDKGLFYLTDCGLTDTELKSAKDLVIDFFEHGSEAEKRAVTSPVPTMRRGFTGLTGSYSDYSMCYSMGTADNLFPSGDFERIWTQYFDRQYTASRAVAREVLRATGTEPDGGVEAFLDCEPLLRFRYFPQLRMAPHYDLSMVTLIQQTPCANGFVSLQAEVGGAFTDLPYRPDAVLVFCGAIATLVTGGQVKAPRHHVAAPRRDQIAGSSRTSSVFFLRPNADFTFSVPLARECGFDVSLDGETATFQDWIGGNYVNIRRTS MDTTVPTFSLAELQQGLHQDEFRRCLRDKGLFYLTDCGLTDTELKSAKDLVIDFFEHGSEAEKRAVTSPVPTMRRGFTGLTGSYSDYSMCYSMGTADNLFPSGDFERIWTQYFDRQYTASRAVAREVLRATGTEPDGGVEAFLDCEPLLRFRYFPQLRMAPHYDLSMVTLIQQTPCANGFVSLQAEVGGAFTDLPYRPDAVLVFCGAIATLVTGGQVKAPRHHVAAPRRDQIAGSSRTSSVFFLRPNADFTFSVPLARECGFDVSLDGETATFQDWIGGNYVNIRRTS 1unk-a1-m1-cA_1unk-a1-m1-cC STRUCTURE OF COLICIN E7 IMMUNITY PROTEIN Q03708 Q03708 1.8 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 87 MELKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQG MELKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQG 1unk-a1-m1-cA_1unk-a1-m1-cD STRUCTURE OF COLICIN E7 IMMUNITY PROTEIN Q03708 Q03708 1.8 X-RAY DIFFRACTION 17 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 87 1unk-a1-m1-cB_1unk-a1-m1-cC MELKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQG MELKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQG 1unk-a1-m1-cB_1unk-a1-m1-cD STRUCTURE OF COLICIN E7 IMMUNITY PROTEIN Q03708 Q03708 1.8 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 87 MELKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQG MELKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQG 1uo2-a1-m1-cA_1uo2-a1-m2-cB Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles P03069 P03069 1.99 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 32 33 1unw-a1-m1-cA_1unw-a1-m2-cB 1unw-a1-m1-cB_1unw-a1-m2-cA 1unx-a1-m1-cA_1unx-a1-m2-cB 1unx-a1-m2-cA_1unx-a1-m1-cB 1uny-a1-m1-cA_1uny-a1-m2-cB 1uny-a1-m2-cA_1uny-a1-m1-cB 1unz-a1-m1-cA_1unz-a1-m2-cB 1unz-a1-m1-cB_1unz-a1-m2-cA 1uo0-a1-m1-cA_1uo0-a1-m2-cB 1uo0-a1-m1-cB_1uo0-a1-m2-cA 1uo1-a1-m1-cA_1uo1-a1-m2-cB 1uo1-a1-m1-cB_1uo1-a1-m2-cA 1uo2-a1-m2-cA_1uo2-a1-m1-cB 1w5i-a1-m1-cA_1w5i-a1-m2-cB 1w5i-a1-m2-cA_1w5i-a1-m1-cB RMKQIEDKLEEILSKLYHIENELARIKKLLGE RMKQIEDKLEEILSKLYHIENELARIKKLLGER 1uo2-a1-m2-cA_1uo2-a1-m2-cB Structure Based Engineering of Internal Molecular Surfaces Of Four Helix Bundles P03069 P03069 1.99 X-RAY DIFFRACTION 42 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 32 33 1gcl-a1-m1-cB_1gcl-a1-m1-cC 1unw-a1-m1-cA_1unw-a1-m1-cB 1unw-a1-m2-cA_1unw-a1-m2-cB 1unx-a1-m1-cA_1unx-a1-m1-cB 1unx-a1-m2-cA_1unx-a1-m2-cB 1uny-a1-m1-cA_1uny-a1-m1-cB 1uny-a1-m2-cA_1uny-a1-m2-cB 1unz-a1-m1-cA_1unz-a1-m1-cB 1unz-a1-m2-cA_1unz-a1-m2-cB 1uo0-a1-m1-cA_1uo0-a1-m1-cB 1uo0-a1-m2-cA_1uo0-a1-m2-cB 1uo1-a1-m1-cA_1uo1-a1-m1-cB 1uo1-a1-m2-cA_1uo1-a1-m2-cB 1uo2-a1-m1-cA_1uo2-a1-m1-cB 1w5i-a1-m1-cA_1w5i-a1-m1-cB 1w5i-a1-m2-cA_1w5i-a1-m2-cB RMKQIEDKLEEILSKLYHIENELARIKKLLGE RMKQIEDKLEEILSKLYHIENELARIKKLLGER 1up4-a2-m1-cH_1up4-a2-m1-cG Structure of the 6-phospho-beta glucosidase from Thermotoga maritima at 2.85 Angstrom resolution in the monoclinic form Q9X108 Q9X108 2.85 X-RAY DIFFRACTION 85 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 396 402 1up4-a1-m1-cB_1up4-a1-m1-cA 1up4-a1-m1-cD_1up4-a1-m1-cC 1up4-a2-m1-cE_1up4-a2-m1-cF 1up6-a1-m1-cB_1up6-a1-m1-cA 1up6-a1-m1-cD_1up6-a1-m1-cC 1up6-a2-m1-cE_1up6-a2-m1-cF 1up6-a2-m1-cH_1up6-a2-m1-cG 1up7-a1-m1-cB_1up7-a1-m1-cA 1up7-a1-m1-cC_1up7-a1-m1-cD 1up7-a2-m1-cE_1up7-a2-m1-cF 1up7-a2-m1-cH_1up7-a2-m1-cG RIAVIGGGSSYTPELVKGLLDISEDVRIDEVIFYDIDEEKQKIVVDFVKRLVKDRFKVLISDTFEGAVVDAKYVIFQFRPGGLKGRENDEGIPLKYGLIGQETTGVGGFSAALRAFPIVEEYVDTVRKTSNATIVNFTNPSGHITEFVRNYLEYEKFIGLCNVPINFIREIAEFSARLEDVFLKYYGLNHLSFIEKVFVKGEDVTEKVFENLKLDEDFPTWFYDSVRLIVNPYLRYYLEKKFKKISTHELRAREVKIEKELFEKYRTAVEIPEESYSTAAAHLIRDLETDEGKIHIVNTRNNGSIENLPDDYVLEIPCYVRSGRVHTLSQGKGDHFALSFIHAVKYERLTIEAYLKRSKKLALKALLSHPLGPDVEDAKDLLEEILEANREYVKLG RIAVIGGGSSYTPELVKGLLDISEDVRIDEVIFYDIDEEKQKIVVDFVKRLVKDRFKVLISDTFEGAVVDAKYVIFQFRPGGLKGRENDEGIPLKYGLIGQETTGVGGFSAALRAFPIVEEYVDTVRKTSNATIVNFTNPSGHITEFVRNYLEYEKFIGLCNVPINFIREIAEFSARLEDVFLKYYGLNHLSFIEKVFVKGEDVTEKVFENLKLDEDFPTWFYDSVRLIVNPYLRYYLEKKFKKISTHELRAREVKIEKELFEKYRTAVEIPEELTKRGGSYSTAAAHLIRDLETDEGKIHIVNTRNNGSIENLPDDYVLEIPCYVRSGRVHTLSQGKGDHFALSFIHAVKYERLTIEAYLKRSKKLALKALLSHPLGPDVEDAKDLLEEILEANREYVKLG 1up6-a2-m1-cE_1up6-a2-m1-cH Structure of the 6-phospho-beta glucosidase from Thermotoga maritima at 2.55 Angstrom resolution in the tetragonal form with manganese, NAD+ and glucose-6-phosphate Q9X108 Q9X108 2.55 X-RAY DIFFRACTION 59 0.984 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 384 389 1up4-a1-m1-cB_1up4-a1-m1-cC 1up4-a1-m1-cD_1up4-a1-m1-cA 1up4-a2-m1-cE_1up4-a2-m1-cH 1up4-a2-m1-cF_1up4-a2-m1-cG 1up6-a1-m1-cC_1up6-a1-m1-cB 1up6-a1-m1-cD_1up6-a1-m1-cA 1up6-a2-m1-cF_1up6-a2-m1-cG 1up7-a1-m1-cB_1up7-a1-m1-cC 1up7-a1-m1-cD_1up7-a1-m1-cA 1up7-a2-m1-cE_1up7-a2-m1-cH 1up7-a2-m1-cG_1up7-a2-m1-cF RIAVIGGGSSYTPELVKGLLDISEDVRIDEVIFYDIDEEKQKIVVDFKRLVRFKVLISDTFEGAVVDAKYVIFQFRPGGLKGRENDEGIPLKYGLIGQETTGVGGFSAALRAFPIVEEYVDTVRKTSNATIVNFTNPSGHITEFVRNYLEYEKFIGLCNVPINFIREIAEFSARLEDVFLKYYGLNHLSFIEKVFVKGEDVTEKVFENLKDEDFPTWFYDSVRLIVNPYLRYYLEKKFKKISTHELRAREVKIEKELFEKPEELSTAAAHLIRDLETDEGKIHIVNTRNNGSIENLPDDYVLEIPCYVRSGRVHTLSQGKGDHFALSFIHAVKYERLTIEAYLKRSKKLALKALLSHPLGPDVEDAKDLLEEILEANREYVKLG RIAVIGGGSSYTPELVKGLLDISEDVRIDEVIFYDIDEEKQKIVVDFVKRLVKDRFKVLISDTFEGAVVYVIFQFRPGGLKGRENDEGIPLKYGLIGQETTGVGGFSAALRAFPIVEEYVDTVRKTSNATIVNFTNPSGHITEFVRNYLEYEKFIGLCNVPINFIREIAEFSARLEDVFLKYYGLNHLSFIEKVFVKGEDVTEKVFENLKLEDFPTWFYDSVRLIVNPYLRYYLEKKFKKISTHELRAREVKIEKELFEKYRTAVEIPESTAAAHLIRDLETDEGKIHIVNTRNNGSIENLPDDYVLEIPCYVRSGRVHTLSQGKGDHFALSFIHAVKYERLTIEAYLKRSKKLALKALLSHPLGPDVEDAKDLLEEILEANREYVKLG 1uqr-a1-m1-cA_1uqr-a1-m1-cD Type II 3-dehydroquinate dehydratase (DHQase) from Actinobacillus pleuropneumoniae P43877 P43877 1.7 X-RAY DIFFRACTION 73 1.0 715 (Actinobacillus pleuropneumoniae) 715 (Actinobacillus pleuropneumoniae) 146 151 1uqr-a1-m1-cB_1uqr-a1-m1-cH 1uqr-a1-m1-cE_1uqr-a1-m1-cK 1uqr-a1-m1-cG_1uqr-a1-m1-cJ 1uqr-a1-m1-cI_1uqr-a1-m1-cF 1uqr-a1-m1-cL_1uqr-a1-m1-cC MKKILLLNGPNLNMLGKREPHIYGSQTLSDIEQHLQQSAQAQGYELDYFQANGEESLINRIHQAFQNTDFIIINPGAFTHTSVAIRDALLAVSIPFIEVHLSNVHAREPFRHHSYLSDVAKGVICGLGAKGYDYALDFAISELQKI MKKILLLNGPNLNMLGKREPHIYGSQTLSDIEQHLQQSAQAQGYELDYFQANGEESLINRIHQAFQNTDFIIINPGAFTHTSVAIRDALLAVSIPFIEVHLSNVHAREPFRHHSYLSDVAKGVICGLGAKGYDYALDFAISELQKIQLGEM 1uqr-a1-m1-cL_1uqr-a1-m1-cJ Type II 3-dehydroquinate dehydratase (DHQase) from Actinobacillus pleuropneumoniae P43877 P43877 1.7 X-RAY DIFFRACTION 53 1.0 715 (Actinobacillus pleuropneumoniae) 715 (Actinobacillus pleuropneumoniae) 138 146 1uqr-a1-m1-cB_1uqr-a1-m1-cA 1uqr-a1-m1-cB_1uqr-a1-m1-cC 1uqr-a1-m1-cE_1uqr-a1-m1-cD 1uqr-a1-m1-cF_1uqr-a1-m1-cD 1uqr-a1-m1-cG_1uqr-a1-m1-cH 1uqr-a1-m1-cG_1uqr-a1-m1-cI 1uqr-a1-m1-cI_1uqr-a1-m1-cH 1uqr-a1-m1-cJ_1uqr-a1-m1-cK 1uqr-a1-m1-cL_1uqr-a1-m1-cK MKKILLLNGPNLNMLGKQTLSDIEQHLQQSAQAQGYELDYFQANGEESLINRIHQAFQNTDFIIINPGAFTHTSVAIRDALLAVSIPFIEVHLSNVHAREPFRHHSYLSDVAKGVICGLGAKGYDYALDFAISELQKI MKKILLLNGPNLNMLGKREPHIYGSQTLSDIEQHLQQSAQAQGYELDYFQANGEESLINRIHQAFQNTDFIIINPGAFTHTSVAIRDALLAVSIPFIEVHLSNVHAREPFRHHSYLSDVAKGVICGLGAKGYDYALDFAISELQKI 1uqt-a1-m1-cB_1uqt-a1-m1-cA Trehalose-6-phosphate from E. coli bound with UDP-2-fluoro glucose. P31677 P31677 2 X-RAY DIFFRACTION 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 450 452 1gz5-a1-m1-cB_1gz5-a1-m1-cC 1gz5-a1-m1-cD_1gz5-a1-m1-cA 1uqu-a1-m1-cB_1uqu-a1-m1-cA 1uqu-a1-m2-cB_1uqu-a1-m2-cA 2wtx-a1-m1-cC_2wtx-a1-m1-cB 2wtx-a2-m1-cA_2wtx-a2-m1-cD 6jak-a1-m1-cB_6jak-a1-m1-cA 6jak-a2-m1-cC_6jak-a2-m1-cD SRLVVVSNRIAPPAGGLAVGILGALKAAGGLWFGWSGETGNEDQPLKKVKKGNITWASFNLSEQDLDEYYNQFSNAVLWPAFHYRLDLVQFQRPAWDGYLRVNALLADKLLPLLQDDDIIWIHDYHLLPFAHELRKRGVNNRIGFFLHIPFPTPEIFNALPTYDTLLEQLCDYDLLGFQTENDRLAFLDCLSNLTRVTTRSAKSHTAWGKAFRTEVYPIGIEPKEIAKQAAGPLPPKLAQLKAELKNVQNIFSVERLDYSKGLPERFLAYEALLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLENEAGRINGKYGQLGWTPLYYLNQHFDRKLLMKIFRYSDVGLVTPLRDGMNLVAKEYVAAQDPANPGVLVLSQFAGAANELTSALIVNPYDRDEVAAALDRALTMSLAERISRHAEMLDVIVKNDINHWQECFISDLKQIVPR SRLVVVSNRIAPPDSAGGLAVGILGALKAAGGLWFGWSGETGNEDQPLKKVKKGNITWASFNLSEQDLDEYYNQFSNAVLWPAFHYRLDLVQFQRPAWDGYLRVNALLADKLLPLLQDDDIIWIHDYHLLPFAHELRKRGVNNRIGFFLHIPFPTPEIFNALPTYDTLLEQLCDYDLLGFQTENDRLAFLDCLSNLTRVTTRSAKSHTAWGKAFRTEVYPIGIEPKEIAKQAAGPLPPKLAQLKAELKNVQNIFSVERLDYSKGLPERFLAYEALLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLENEAGRINGKYGQLGWTPLYYLNQHFDRKLLMKIFRYSDVGLVTPLRDGMNLVAKEYVAAQDPANPGVLVLSQFAGAANELTSALIVNPYDRDEVAAALDRALTMSLAERISRHAEMLDVIVKNDINHWQECFISDLKQIVPR 1uqu-a1-m2-cB_1uqu-a1-m1-cA Trehalose-6-phosphate from E. coli bound with UDP-glucose. P31677 P31677 2 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 449 452 1gz5-a1-m1-cB_1gz5-a1-m1-cA 1gz5-a1-m1-cD_1gz5-a1-m1-cC 1uqu-a1-m1-cB_1uqu-a1-m2-cA SRLVVVSNRIAPAGGLAVGILGALKAAGGLWFGWSGETGNEDQPLKKVKKGNITWASFNLSEQDLDEYYNQFSNAVLWPAFHYRLDLVQFQRPAWDGYLRVNALLADKLLPLLQDDDIIWIHDYHLLPFAHELRKRGVNNRIGFFLHIPFPTPEIFNALPTYDTLLEQLCDYDLLGFQTENDRLAFLDCLSNLTRVTTRSAKSHTAWGKAFRTEVYPIGIEPKEIAKQAAGPLPPKLAQLKAELKNVQNIFSVERLDYSKGLPERFLAYEALLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLENEAGRINGKYGQLGWTPLYYLNQHFDRKLLMKIFRYSDVGLVTPLRDGMNLVAKEYVAAQDPANPGVLVLSQFAGAANELTSALIVNPYDRDEVAAALDRALTMSLAERISRHAEMLDVIVKNDINHWQECFISDLKQIVPR SRLVVVSNRIAPPDSAGGLAVGILGALKAAGGLWFGWSGETGNEDQPLKKVKKGNITWASFNLSEQDLDEYYNQFSNAVLWPAFHYRLDLVQFQRPAWDGYLRVNALLADKLLPLLQDDDIIWIHDYHLLPFAHELRKRGVNNRIGFFLHIPFPTPEIFNALPTYDTLLEQLCDYDLLGFQTENDRLAFLDCLSNLTRVTTRSAKSHTAWGKAFRTEVYPIGIEPKEIAKQAAGPLPPKLAQLKAELKNVQNIFSVERLDYSKGLPERFLAYEALLEKYPQHHGKIRYTQIAPTSRGDVQAYQDIRHQLENEAGRINGKYGQLGWTPLYYLNQHFDRKLLMKIFRYSDVGLVTPLRDGMNLVAKEYVAAQDPANPGVLVLSQFAGAANELTSALIVNPYDRDEVAAALDRALTMSLAERISRHAEMLDVIVKNDINHWQECFISDLKQIVPR 1ur3-a1-m2-cM_1ur3-a1-m3-cM Crystal structure of the apo form of the E.coli ydhF protein P76187 P76187 2.57 X-RAY DIFFRACTION 48 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 290 290 1og6-a1-m1-cA_1og6-a1-m1-cC 1og6-a1-m1-cB_1og6-a1-m1-cA 1og6-a1-m1-cB_1og6-a1-m1-cC 1ur3-a1-m1-cM_1ur3-a1-m2-cM 1ur3-a1-m1-cM_1ur3-a1-m3-cM LVQRITIAPQGPEFSRFVGYWRLDWNSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALKLAPHLREREIVSKCGIATTAREENVIGHYITDRDHIIKSAEQSLINLATDHLDLLLIHRPDPLDADEVADAFKHLHQSGKVRHFGVSNFTPAQFALLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRVRPAWSCLGGGRLFNDDYFQPLRDELAVVAEELNAGSIEQVVNAWVLRLPSQPLPIIGSGKIERVRAAVEAETLKTRQQWFRIRKAALGYDV LVQRITIAPQGPEFSRFVGYWRLDWNSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALKLAPHLREREIVSKCGIATTAREENVIGHYITDRDHIIKSAEQSLINLATDHLDLLLIHRPDPLDADEVADAFKHLHQSGKVRHFGVSNFTPAQFALLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRVRPAWSCLGGGRLFNDDYFQPLRDELAVVAEELNAGSIEQVVNAWVLRLPSQPLPIIGSGKIERVRAAVEAETLKTRQQWFRIRKAALGYDV 1ur5-a1-m1-cA_1ur5-a1-m2-cA Stabilization of a Tetrameric Malate Dehydrogenase by Introduction of a Disulfide Bridge at the Dimer/Dimer Interface P80040 P80040 1.75 X-RAY DIFFRACTION 122 1.0 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 298 298 1guy-a1-m1-cA_1guy-a1-m2-cA 1guy-a1-m1-cC_1guy-a1-m2-cC 1ur5-a1-m1-cC_1ur5-a1-m2-cC 1uxg-a1-m1-cA_1uxg-a1-m1-cB 1uxg-a1-m2-cA_1uxg-a1-m2-cB 1uxh-a1-m1-cA_1uxh-a1-m1-cB 1uxh-a1-m2-cA_1uxh-a1-m2-cB 1uxi-a1-m1-cA_1uxi-a1-m1-cB 1uxi-a1-m2-cA_1uxi-a1-m2-cB 1uxj-a1-m1-cA_1uxj-a1-m2-cA 1uxj-a1-m1-cC_1uxj-a1-m2-cC 1uxk-a1-m1-cA_1uxk-a1-m2-cA 1uxk-a1-m1-cC_1uxk-a1-m2-cC 4cl3-a1-m1-cA_4cl3-a1-m2-cA 4cl3-a1-m1-cD_4cl3-a1-m2-cD RKKISIIGAGFVGSTTAHWLAAKELGDIVLLDIVEGVPQGKALDLYEASPIEGFDVRVTGTNNYADTANSDVIVVTSGAEDLIKVNADITRACISQAAPLSPNAVIIMVNNPLDAMTYLAAEVSGFPKERVIGQAGVLDAARYRTFIAMEAGVSVEDVQAMLMGGHGDEMVPLPRFSCISGIPVSEFIAPDRLAQIVERTRKGGGEIVNLLKTGSAYYAPAAATAQMVEAVLKDKKRVMPVAAYLTGQYGLNDIYFGVPVILGAGGVEKILELPLNEEEMALLNASAKAVRATLDTLK RKKISIIGAGFVGSTTAHWLAAKELGDIVLLDIVEGVPQGKALDLYEASPIEGFDVRVTGTNNYADTANSDVIVVTSGAEDLIKVNADITRACISQAAPLSPNAVIIMVNNPLDAMTYLAAEVSGFPKERVIGQAGVLDAARYRTFIAMEAGVSVEDVQAMLMGGHGDEMVPLPRFSCISGIPVSEFIAPDRLAQIVERTRKGGGEIVNLLKTGSAYYAPAAATAQMVEAVLKDKKRVMPVAAYLTGQYGLNDIYFGVPVILGAGGVEKILELPLNEEEMALLNASAKAVRATLDTLK 1uru-a1-m1-cA_1uru-a1-m2-cA Amphiphysin BAR domain from Drosophila Q7KLE5 Q7KLE5 2.6 X-RAY DIFFRACTION 150 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 215 215 QNLGKVDRTADEIFDDHLNNFNRQQASANRLQKEFNNYIRCVRAAQAASKTLDSVCEIYEPQWSGYDALQAQTGASESLWADFAHKLGDQVLIPLNTYTGQFPEKKKVEKRNRKLIDYDGQRHSFQNLQANANKRKDDVKLTKGREQLEEARRTYEILNTELHDELPALYDSRILFLVTNLQTLFATEQVFHNETAKIYSELEAIVDKLATESQR QNLGKVDRTADEIFDDHLNNFNRQQASANRLQKEFNNYIRCVRAAQAASKTLDSVCEIYEPQWSGYDALQAQTGASESLWADFAHKLGDQVLIPLNTYTGQFPEKKKVEKRNRKLIDYDGQRHSFQNLQANANKRKDDVKLTKGREQLEEARRTYEILNTELHDELPALYDSRILFLVTNLQTLFATEQVFHNETAKIYSELEAIVDKLATESQR 1urz-a2-m1-cE_1urz-a2-m1-cF Low pH induced, membrane fusion conformation of the envelope protein of tick-borne encephalitis virus Q80E47 Q80E47 2.7 X-RAY DIFFRACTION 166 1.0 11088 (Tick-borne encephalitis virus (WESTERN SUBTYPE)) 11088 (Tick-borne encephalitis virus (WESTERN SUBTYPE)) 382 388 1urz-a1-m1-cA_1urz-a1-m1-cB 1urz-a1-m1-cA_1urz-a1-m1-cC 6s8c-a1-m1-cC_6s8c-a1-m1-cB RCTHLENRDFVTGTQGTTRVTLVLELGGCVTITAEGKPSMDVWLDAIYQENPAKTREYCLHAKLSDTKVAARCPTMGPATLAEEHQGGTVCKRDQSDRGWGNHCGLFGKGSIVACVKAACEAKKKATGHVYDANKIVYTVKVEPHTRKTASFTISSEKTILTMGEYGDVSLLCRVASGVDLAQTVILELDPTAWQVHRDWFNDLALPWKHEGAQNWNNAERLVEFGAPHAVKMDVYNLGDQTGVLLKALAGVPVAHIEGTKYHLKSGHVTCEVGLEKLKMKGLTYTMCDKTKFTWKRAPTDSGHDTVVMEVTFSGTKPCRIPVRAVAHGSPDVNVAMLITPNPTIENNGGGFIEMQLPPGDNIIYVGELSHQWFQKGSSIGR RCTHLENRDFVTGTQGTTRVTLVLELGGCVTITAEGKPSMDVWLDAIYQENPAKTREYCLHAKLSDTKVAARCPTMGPATLAEEHQGGTVCKRDQSDRGWGNHCGLFGKGSIVACVKAACEAKKKATGHVYDANKIVYTVKVEPHTRKTASFTISSEKTILTMGEYGDVSLLCRVASGVDLAQTVILELDKTVEHLPTAWQVHRDWFNDLALPWKHEGAQNWNNAERLVEFGAPHAVKMDVYNLGDQTGVLLKALAGVPVAHIEGTKYHLKSGHVTCEVGLEKLKMKGLTYTMCDKTKFTWKRAPTDSGHDTVVMEVTFSGTKPCRIPVRAVAHGSPDVNVAMLITPNPTIENNGGGFIEMQLPPGDNIIYVGELSHQWFQKGSSIGR 1usc-a1-m1-cA_1usc-a1-m1-cB PUTATIVE STYRENE MONOOXYGENASE SMALL COMPONENT P83818 P83818 1.24 X-RAY DIFFRACTION 277 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 178 178 1usf-a1-m1-cA_1usf-a1-m1-cB 3zoe-a1-m1-cA_3zoe-a1-m1-cB 3zof-a1-m1-cA_3zof-a1-m1-cB 3zoh-a1-m1-cC_3zoh-a1-m1-cD 3zoh-a2-m1-cA_3zoh-a2-m1-cB MRSYRAQGPLPGFYHYYPGVPAVVGVRVEERVNFCPAVWNTGLSADPPLFGVSISPKRFTHGLLLKARRFSASFHPFGQKDLVHWLGSHSGREVDKGQAPHFLGHTGVPILEGAYAAYELELLEVHTFGDHDLFVGRVVAVWEEEGLLDEKGRPKPGLALLYYGKGLYGRPAEETFAP MRSYRAQGPLPGFYHYYPGVPAVVGVRVEERVNFCPAVWNTGLSADPPLFGVSISPKRFTHGLLLKARRFSASFHPFGQKDLVHWLGSHSGREVDKGQAPHFLGHTGVPILEGAYAAYELELLEVHTFGDHDLFVGRVVAVWEEEGLLDEKGRPKPGLALLYYGKGLYGRPAEETFAP 1use-a1-m3-cA_1use-a1-m4-cA human VASP tetramerisation domain P50552 P50552 1.3 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 1usd-a1-m1-cA_1usd-a1-m2-cA 1usd-a1-m1-cA_1usd-a1-m3-cA 1usd-a1-m2-cA_1usd-a1-m4-cA 1usd-a1-m3-cA_1usd-a1-m4-cA 1use-a1-m1-cA_1use-a1-m2-cA 1use-a1-m1-cA_1use-a1-m3-cA 1use-a1-m2-cA_1use-a1-m4-cA SSDYSDLQRVKQELLEEVKKELQKVKEEIIEAFVQELRKR SSDYSDLQRVKQELLEEVKKELQKVKEEIIEAFVQELRKR 1usg-a1-m1-cA_1usg-a1-m2-cA L-leucine-binding protein, apo form P04816 P04816 1.53 X-RAY DIFFRACTION 117 1.0 562 (Escherichia coli) 562 (Escherichia coli) 345 345 DDIKVAVVGAMSGPIAQWGDMEFNGARQAIKDINAKGGIKGDKLVGVEYDDACDPKQAVAVANKIVNDGIKYVIGHLCSSSTQPASDIYEDEGILMISPGATNPELTQRGYQHIMRTAGLDSSQGPTAAKYILETVKPQRIAIIHDKQQYGEGLARSVQDGLKAANANVVFFDGITAGEKDFSALIARLKKENIDFVYYGGYYPEMGQMLRQARSVGLKTQFMGPEGVGNASLSNIAGDAAEGMLVTMPKRYDQDPANQGIVDALKADKKDPSGPYVWITYAAVQSLATALERTGSDEPLALVKDLKANGANTVIGPLNWDEKGDLKGFDFGVFQWHADGSSTKA DDIKVAVVGAMSGPIAQWGDMEFNGARQAIKDINAKGGIKGDKLVGVEYDDACDPKQAVAVANKIVNDGIKYVIGHLCSSSTQPASDIYEDEGILMISPGATNPELTQRGYQHIMRTAGLDSSQGPTAAKYILETVKPQRIAIIHDKQQYGEGLARSVQDGLKAANANVVFFDGITAGEKDFSALIARLKKENIDFVYYGGYYPEMGQMLRQARSVGLKTQFMGPEGVGNASLSNIAGDAAEGMLVTMPKRYDQDPANQGIVDALKADKKDPSGPYVWITYAAVQSLATALERTGSDEPLALVKDLKANGANTVIGPLNWDEKGDLKGFDFGVFQWHADGSSTKA 1usm-a1-m1-cA_1usm-a1-m2-cA DCOH, A BIFUNCTIONAL PROTEIN-BINDING TRANSCRIPTIONAL COACTIVATOR, PRO9LEU MUTANT P83819 P83819 1.2 X-RAY DIFFRACTION 43 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 77 77 1uso-a1-m1-cA_1uso-a1-m1-cB MDWEERKRLVKTFAFPNFREALDFANRVGALAERENHHPRLTVEWGRVTVEWWTHSAGGVTEKDREMARLTDALLQR MDWEERKRLVKTFAFPNFREALDFANRVGALAERENHHPRLTVEWGRVTVEWWTHSAGGVTEKDREMARLTDALLQR 1usp-a1-m1-cB_1usp-a1-m1-cA Organic Hydroperoxide Resistance Protein from Deinococcus radiodurans Q9RTA8 Q9RTA8 1.9 X-RAY DIFFRACTION 270 0.985 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 132 135 ANVYTAEATATGGRAGTTRSSDDRLNLDLSVPAEGGDGGPGTNPEQLFAAGYAACFQGALGVVSRRNKIDVPADSTITARVGLQKFALDVELEGHFPGLSREQAEGLHAAHEVCPYSAATRNNVDVRLKVRE NVYTAEATATGGRAGTTRSSDDRLNLDLSVPAEGGDGGPGTNPEQLFAAGYAACFQGALGVVSRRQKIDVPADSTITARVGLQKAGLAFALDVELEGHFPGLSREQAEGLHAAHEVCPYSAATRNNVDVRLKVRE 1usr-a1-m1-cB_1usr-a1-m1-cA Newcastle disease virus hemagglutinin-neuraminidase: Evidence for a second sialic acid binding site and implications for fusion P32884 P32884 2 X-RAY DIFFRACTION 133 1.0 446 447 1e8v-a1-m1-cB_1e8v-a1-m1-cA 1usx-a1-m1-cA_1usx-a1-m1-cB 1usx-a2-m1-cC_1usx-a2-m2-cC 3t1e-a1-m1-cB_3t1e-a1-m1-cA 3t1e-a1-m2-cB_3t1e-a1-m2-cA 4fzh-a1-m1-cA_4fzh-a1-m1-cB 4fzh-a1-m1-cC_4fzh-a1-m1-cD 4fzh-a2-m1-cA_4fzh-a2-m1-cB 4fzh-a3-m1-cC_4fzh-a3-m1-cD 7bwu-a1-m1-cA_7bwu-a1-m1-cC 7bwu-a1-m1-cB_7bwu-a1-m1-cD GAPIHDPDFIGGIGKELIVDNASDVTSFYPSAFQEHLNFIPAPTTGSGCTRIPSFDMSATHYCYTHNVILSGCRDHSHSHQYLALGVLRTTATGRIFFSTLRSISLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYNSAVPTLMAHGRLGFDGQYHEKDLDVTTLFEDWVANYPGVGGGSFIDGRVWFSVYGGLKPNSPSDTVQEGKYVIYKRYNDTCPDEQDYQIRMAKSSYKPGRFGGKRIQQAILSIKVSTSLGEDPVLTVPPNTVTLMGAEGRILTVGTSHFLYQRGSSYFSPALLYPMTVSNKTATLHSPYTFNAFTRPGSIPCQASARCPNSCVTGVYTDPYPLIFYRNHTLRGVFGTMLDSEQARLNPASAVFDSTSRSRITRVSSSSTKAAYTTSTCFKVVKTNKTYCLSIAEISNTLFGEFRIVPLLVEILKND GAPIHDPDFIGGIGKELIVDNASDVTSFYPSAFQEHLNFIPAPTTGSGCTRIPSFDMSATHYCYTHNVILSGCRDHSHSHQYLALGVLRTTATGRIFFSTLRSISLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYNSAVPTLMAHGRLGFDGQYHEKDLDVTTLFEDWVANYPGVGGGSFIDGRVWFSVYGGLKPNSPSDTVQEGKYVIYKRYNDTCPDEQDYQIRMAKSSYKPGRFGGKRIQQAILSIKVSTSLGEDPVLTVPPNTVTLMGAEGRILTVGTSHFLYQRGSSYFSPALLYPMTVSNKTATLHSPYTFNAFTRPGSIPCQASARCPNSCVTGVYTDPYPLIFYRNHTLRGVFGTMLDSEQARLNPASAVFDSTSRSRITRVSSSSTKAAYTTSTCFKVVKTNKTYCLSIAEISNTLFGEFRIVPLLVEILKNDG 1usy-a1-m1-cC_1usy-a1-m1-cD ATP phosphoribosyl transferase (HisG:HisZ) complex from Thermotoga maritima Q9X0D3 Q9X0D3 2.52 X-RAY DIFFRACTION 114 0.989 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 274 274 1usy-a1-m1-cA_1usy-a1-m1-cB MDFLDFEKVFSFYSKATKKGFSPFFVPALEKAEEPAGNFFLDRKGNLFSIREDFTKTVLNHRKRYSPESQIKVWYADFVYRYSGSDLVAEYQLGLEKVPRNSLDDSLEVLEIIVESASEFFEGPVIVEIGHTGLYEDLLKEIPKDLHEKVLNLIDTKNLAEIEFLSHMKKIDLSRVEKIIEDSIYRRSPEHLKTMDLPLSVREDLLSASSFLQEKFPTVSVEIDLTLARTIEEYCGLIFTIYDTSSSRLVAAGGEYTVNGEKGVGGSIFLEGKT DFLDFEKVFSFYSKATKKGFSPFFVPALEKAEEPAGNFFLDRKGNLFSIREDFTKTVLNHRKRYSPDSQIKVWYADFVYRYSGSDLVAEYQLGLEKVPRNSLDDSLEVLEIIVESASEFFEGPVIVEIGHTGVYEDLLKEIPKDLHEKVLNLIDTKNLAEIEFLSHMKKIDLSRVEKIIEDSIYRRSPEHLKTMDLPLSVREDLLSASSFLQEKFPTVSVEIDLTLARTIEEYCGLIFTIYDTSSSRLVAAGGEYTVNGEKGVGGSIFLEGKTC 1usy-a1-m1-cD_1usy-a1-m1-cA ATP phosphoribosyl transferase (HisG:HisZ) complex from Thermotoga maritima Q9X0D3 Q9X0D3 2.52 X-RAY DIFFRACTION 10 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 274 275 DFLDFEKVFSFYSKATKKGFSPFFVPALEKAEEPAGNFFLDRKGNLFSIREDFTKTVLNHRKRYSPDSQIKVWYADFVYRYSGSDLVAEYQLGLEKVPRNSLDDSLEVLEIIVESASEFFEGPVIVEIGHTGVYEDLLKEIPKDLHEKVLNLIDTKNLAEIEFLSHMKKIDLSRVEKIIEDSIYRRSPEHLKTMDLPLSVREDLLSASSFLQEKFPTVSVEIDLTLARTIEEYCGLIFTIYDTSSSRLVAAGGEYTVNGEKGVGGSIFLEGKTC MDFLDFEKVFSFYSKATKKGFSPFFVPALEKAEEPAGNFFLDRKGNLFSIREDFTKTVLNHRKRYSPDSQIKVWYADFVYRYSGSDLVAEYQLGLEKVPRNSLDDSLEVLEIIVESASEFFEGPVIVEIGHTGVYEDLLKEIPKDLHEKVLNLIDTKNLAEIEFLSHMKKIDLSRVEKIIEDSIYRRSPEHLKTMDLPLSVREDLLSASSFLQEKFPTVSVEIDLTLARTIEEYCGLIFTIYDTSSSRLVAAGGEYTVNGEKGVGGSIFLEGKTC 1usy-a1-m1-cD_1usy-a1-m1-cB ATP phosphoribosyl transferase (HisG:HisZ) complex from Thermotoga maritima Q9X0D3 Q9X0D3 2.52 X-RAY DIFFRACTION 15 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 274 275 1usy-a1-m1-cC_1usy-a1-m1-cA DFLDFEKVFSFYSKATKKGFSPFFVPALEKAEEPAGNFFLDRKGNLFSIREDFTKTVLNHRKRYSPDSQIKVWYADFVYRYSGSDLVAEYQLGLEKVPRNSLDDSLEVLEIIVESASEFFEGPVIVEIGHTGVYEDLLKEIPKDLHEKVLNLIDTKNLAEIEFLSHMKKIDLSRVEKIIEDSIYRRSPEHLKTMDLPLSVREDLLSASSFLQEKFPTVSVEIDLTLARTIEEYCGLIFTIYDTSSSRLVAAGGEYTVNGEKGVGGSIFLEGKTC MDFLDFEKVFSFYSKATKKGFSPFFVPALEKAEEPAGNFFLDRKGNLFSIREDFTKTVLNHRKRYSPDSQIKVWYADFVYRYSGSDLVAEYQLGLEKVPRNSLDDSLEVLEIIVESASEFFEGPVIVEIGHTGVYEDLLKEIPKDLHEKVLNLIDTKNLAEIEFLSHMKKIDLSRVEKIIEDSIYRRSPEHLKTMDLPLSVREDLLSASSFLQEKFPTVSVEIDLTLARTIEEYCGLIFTIYDTSSSRLVAAGGEYTVNGEKGVGGSIFLEGKTC 1utg-a1-m1-cA_1utg-a1-m2-cA REFINEMENT OF THE C2221 CRYSTAL FORM OF OXIDIZED UTEROGLOBIN AT 1.34 ANGSTROMS RESOLUTION P02779 P02779 1.34 X-RAY DIFFRACTION 98 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 70 70 2utg-a1-m1-cA_2utg-a1-m1-cB GICPRFAHVIENLLLGTPSSYETSLKEFEPDDTMKDAGMQMKKVLDSLPQTTRENIMKLTEKIVKSPLCM GICPRFAHVIENLLLGTPSSYETSLKEFEPDDTMKDAGMQMKKVLDSLPQTTRENIMKLTEKIVKSPLCM 1utt-a1-m3-cA_1utt-a1-m6-cA Crystal Structure of MMP-12 complexed to 2-(1,3-dioxo-1,3-dihydro-2H-isoindol-2-yl)ethyl-4-(4-ethoxy[1,1-biphenyl]-4-yl)-4-oxobutanoic acid P39900 P39900 2.2 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1utt-a1-m1-cA_1utt-a1-m4-cA 1utt-a1-m2-cA_1utt-a1-m5-cA GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD 1utt-a1-m5-cA_1utt-a1-m6-cA Crystal Structure of MMP-12 complexed to 2-(1,3-dioxo-1,3-dihydro-2H-isoindol-2-yl)ethyl-4-(4-ethoxy[1,1-biphenyl]-4-yl)-4-oxobutanoic acid P39900 P39900 2.2 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1utt-a1-m1-cA_1utt-a1-m2-cA 1utt-a1-m1-cA_1utt-a1-m3-cA 1utt-a1-m2-cA_1utt-a1-m3-cA 1utt-a1-m4-cA_1utt-a1-m5-cA 1utt-a1-m4-cA_1utt-a1-m6-cA GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD 1utu-a1-m1-cB_1utu-a1-m1-cA Crystal structure of novel protein EMSY truncate Q7Z589 Q7Z589 2 X-RAY DIFFRACTION 87 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 95 96 1uz3-a1-m1-cB_1uz3-a1-m1-cA 2fmm-a1-m1-cE_2fmm-a1-m2-cE DLSRDECKRILRKLELEAYAGVISALRAQGDLTKEKKDLLGELSKVLSISTERHRAEVRRAVNDERLTTIAHNMSGPNSSSEWSIEGRRLVPLMP LSRDECKRILRKLELEAYAGVISALRAQGDLTKEKKDLLGELSKVLSISTERHRAEVRRAVNDERLTTIAHNMSGPNSSSEWSIEGRRLVPLMPRL 1uty-a1-m1-cA_1uty-a1-m1-cB Crystal structure of the RNA binding domain of Bluetongue virus non-structural protein 2(NS2) P23065 P23065 2.4 X-RAY DIFFRACTION 138 1.0 197780 (Bluetongue virus 8) 197780 (Bluetongue virus 8) 153 153 FTKNIFVLDVTAKTLCGAIAKLSSQPYCQIKIGRVVAFKPVKNPEPKGYVLNVPGPGAYRIQDGQDIISLMLTPHGVEATTERWEEWKFEGVSVTPMATRVQYNGVMVDAEIKYCKGMGIVQPYMRNDFDRNEMPDLPGVMRSNYDIRELRQK FTKNIFVLDVTAKTLCGAIAKLSSQPYCQIKIGRVVAFKPVKNPEPKGYVLNVPGPGAYRIQDGQDIISLMLTPHGVEATTERWEEWKFEGVSVTPMATRVQYNGVMVDAEIKYCKGMGIVQPYMRNDFDRNEMPDLPGVMRSNYDIRELRQK 1utz-a1-m2-cB_1utz-a1-m3-cB Crystal Structure of MMP-12 complexed to (2R)-3-({[4-[(pyridin-4-yl)phenyl]-thien-2-yl}carboxamido)(phenyl)propanoic acid P39900 P39900 2.5 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1utz-a1-m1-cA_1utz-a1-m2-cA 1utz-a1-m1-cA_1utz-a1-m3-cA 1utz-a1-m1-cB_1utz-a1-m2-cB 1utz-a1-m1-cB_1utz-a1-m3-cB 1utz-a1-m2-cA_1utz-a1-m3-cA GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD 1utz-a1-m3-cA_1utz-a1-m3-cB Crystal Structure of MMP-12 complexed to (2R)-3-({[4-[(pyridin-4-yl)phenyl]-thien-2-yl}carboxamido)(phenyl)propanoic acid P39900 P39900 2.5 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1utz-a1-m1-cA_1utz-a1-m1-cB 1utz-a1-m2-cA_1utz-a1-m2-cB GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD GPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDFHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYGD 1uuf-a1-m1-cA_1uuf-a1-m2-cA crystal structure of a zinc-type alcohol dehydrogenase-like protein yahK P75691 P75691 1.76 X-RAY DIFFRACTION 73 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 339 339 IKAVGAYSAKQPLEPMDITRREPGPNDVKIEIAYCGVCHSDLHQVRSEWAGTVYPCVPGHEIVGRVVAVGDQVEKYAPGDLVGVGCIVDSCKHCEECEDGLENYCDHMTGTYNSPTPDEPGHTLGGYSQQIVVHERYVLRIRHPQEQLAAVAPLLCAGITTYSPLRHWQAGPGKKVGVVGIGGLGHMGIKLAHAMGAHVVAFTTSEAKREAAKALGADEVVNSRNADEMAAHLKSFDFILNTVAAPHNLDDFTTLLKRDGTMTLVGAPEVFNLIMKRRAIAGSMIGGIPETQEMLDFCAEHGIVADIEMIRADQINEAYERMLRGDVKYRFVIDNRTLT IKAVGAYSAKQPLEPMDITRREPGPNDVKIEIAYCGVCHSDLHQVRSEWAGTVYPCVPGHEIVGRVVAVGDQVEKYAPGDLVGVGCIVDSCKHCEECEDGLENYCDHMTGTYNSPTPDEPGHTLGGYSQQIVVHERYVLRIRHPQEQLAAVAPLLCAGITTYSPLRHWQAGPGKKVGVVGIGGLGHMGIKLAHAMGAHVVAFTTSEAKREAAKALGADEVVNSRNADEMAAHLKSFDFILNTVAAPHNLDDFTTLLKRDGTMTLVGAPEVFNLIMKRRAIAGSMIGGIPETQEMLDFCAEHGIVADIEMIRADQINEAYERMLRGDVKYRFVIDNRTLT 1uuj-a2-m1-cC_1uuj-a2-m1-cD N-terminal domain of Lissencephaly-1 protein (Lis-1) P63005 P63005 1.75 X-RAY DIFFRACTION 88 1.0 10090 (Mus musculus) 10090 (Mus musculus) 76 76 1uuj-a1-m1-cB_1uuj-a1-m1-cA VLSQRQRDELNRAIADYLRSNGYEEAYSVFKKEAELDNEELDKKYAGLLEKKWTSVIRLQKKVELESKLNEAKEEF VLSQRQRDELNRAIADYLRSNGYEEAYSVFKKEAELDNEELDKKYAGLLEKKWTSVIRLQKKVELESKLNEAKEEF 1uun-a1-m4-cA_1uun-a1-m4-cB Main porin from Mycobacterium smegmatis (MspA) A0QR29 A0QR29 2.5 X-RAY DIFFRACTION 152 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 184 184 1uun-a1-m1-cA_1uun-a1-m1-cB 1uun-a1-m1-cA_1uun-a1-m2-cB 1uun-a1-m1-cB_1uun-a1-m3-cA 1uun-a1-m2-cA_1uun-a1-m2-cB 1uun-a1-m2-cA_1uun-a1-m4-cB 1uun-a1-m3-cA_1uun-a1-m3-cB 1uun-a1-m3-cB_1uun-a1-m4-cA GLDNELSLVDGQDRTLTVQQWDTFLNGVFPLDRNRLTREWFHSGRAKYIVAGPGADEFEGTLELGYQIGFPWSLGVGINFSYTTPNILIDDGDITRPPFGLNSVITPNLFPGVSISADLGNGPGIQEVATFSVDVSGAEGGVAVSNAHGTVTGAAGGVLLRPFARLIASTGDSVTTYGEPWNMN GLDNELSLVDGQDRTLTVQQWDTFLNGVFPLDRNRLTREWFHSGRAKYIVAGPGADEFEGTLELGYQIGFPWSLGVGINFSYTTPNILIDDGDITRPPFGLNSVITPNLFPGVSISADLGNGPGIQEVATFSVDVSGAEGGVAVSNAHGTVTGAAGGVLLRPFARLIASTGDSVTTYGEPWNMN 1uur-a1-m1-cA_1uur-a1-m2-cA Structure of an activated Dictyostelium STAT in its DNA-unbound form O00910 O00910 2.7 X-RAY DIFFRACTION 43 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 460 460 1uus-a1-m1-cA_1uus-a1-m2-cA SSPQPILDTIYKLLSEQEQTLVQMIHEQSLLLNRLPPTLDENSLAPLKSLSQKQITLSGQMNTEMSALDATKKGMILEPTDLAKLFALKQDLQIQFKQLSLLHNEIQSILNPQHSAPKPNVALVLKSQPFPVVISKGKQLGENQLVVLVLTGARSNFHINGPVKATMICDSHPPTTPLEMDSQPIYPATLTAHFPLKFLAGTRKCSVNLKFGVNIRDLDNVTTTVESDASNPFVVITNECQWEGSAGVLLKKDAFDGQLEITWAQFINTLQRHFLIATKQDPVRPKRPLSSYDLKYIQTHFFGNRSIIHQQDFDKFWVWFGKSMQTLRYQRHISTLWQEGIIYGYMGRQEVNDALQNQDPGTFIIRFSERNPGQFGIAYIGVEMPARIKHYLVQPNDTAAAKKTFPDFLSEHSQFVNLLQWTKDTNGAPRFLKLHKDTALGSFAPKRTAPVPVGGEPLNS SSPQPILDTIYKLLSEQEQTLVQMIHEQSLLLNRLPPTLDENSLAPLKSLSQKQITLSGQMNTEMSALDATKKGMILEPTDLAKLFALKQDLQIQFKQLSLLHNEIQSILNPQHSAPKPNVALVLKSQPFPVVISKGKQLGENQLVVLVLTGARSNFHINGPVKATMICDSHPPTTPLEMDSQPIYPATLTAHFPLKFLAGTRKCSVNLKFGVNIRDLDNVTTTVESDASNPFVVITNECQWEGSAGVLLKKDAFDGQLEITWAQFINTLQRHFLIATKQDPVRPKRPLSSYDLKYIQTHFFGNRSIIHQQDFDKFWVWFGKSMQTLRYQRHISTLWQEGIIYGYMGRQEVNDALQNQDPGTFIIRFSERNPGQFGIAYIGVEMPARIKHYLVQPNDTAAAKKTFPDFLSEHSQFVNLLQWTKDTNGAPRFLKLHKDTALGSFAPKRTAPVPVGGEPLNS 1uv7-a1-m1-cB_1uv7-a1-m1-cA periplasmic domain of EpsM from Vibrio cholerae P41851 P41851 1.7 X-RAY DIFFRACTION 28 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 72 74 QPLNQVITNSTRQFNIELIRVQPRGEQVWIQPLPFSQLVSWIAYLQERQGVSVDAIDIDRGVVEVKRLQLKR QPLNQVITNSTRQFNIELIRVQPRGEQVWIQPLPFSQLVSWIAYLQERQGVSVDAIDIDRGVVEVKRLQLKRGG 1uva-a1-m1-cA_1uva-a1-m2-cA Lipid Binding in Rice Nonspecific Lipid Transfer Protein-1 Complexes from Oryza sativa Q0IQK9 Q0IQK9 2.5 X-RAY DIFFRACTION 66 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 91 91 1rzl-a1-m1-cA_1rzl-a1-m2-cA 1uvb-a1-m1-cA_1uvb-a1-m2-cA 1uvc-a1-m1-cA_1uvc-a1-m1-cB ITCGQVNSAVGPCLTYARGGAGPSAACCSGVRSLKAAASTTADRRTACNCLKNAARGIKGLNAGNAASIPSKCGVSVPYTISASIDCSRVS ITCGQVNSAVGPCLTYARGGAGPSAACCSGVRSLKAAASTTADRRTACNCLKNAARGIKGLNAGNAASIPSKCGVSVPYTISASIDCSRVS 1uww-a1-m1-cB_1uww-a1-m1-cA X-ray crystal structure of a non-crystalline cellulose specific carbohydrate-binding module: CBM28. P06564 P06564 1.4 X-RAY DIFFRACTION 69 0.989 1411 (Halalkalibacter akibai) 1411 (Halalkalibacter akibai) 176 181 IPVVHDPKGEAVLPSVFEDGTRQGWDWAGESGVKTALTIEEANGSNALSWEFGYPEWATAPRLDFWKSDLVRGENDYVTFDFYLDPVRATEGANINLVFQPPTNGYWVQAPKTYTINFDELEEANQVNGLYHYEVKINVRDITNIQDDTLLRNIIFADVESDFAGRVFVDNVRFEG VVHDPKGEAVLPSVFEDGTRQGWDWAGESGVKTALTIEEANGSNALSWEFGYPEVKPSDNWATAPRLDFWKSDLVRGENDYVTFDFYLDPVRATEGANINLVFQPPTNGYWVQAPKTYTINFDELEEANQVNGLYHYEVKINVRDITNIQDDTLLRNIIFADVESDFAGRVFVDNVRFEGA 1ux0-a1-m1-cA_1ux0-a1-m2-cB Bacillus subtilis cytidine deaminase with an Arg56 - Gln substitution P19079 P19079 1.99 X-RAY DIFFRACTION 42 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 130 130 1jtk-a1-m1-cA_1jtk-a1-m2-cB 1jtk-a1-m1-cB_1jtk-a1-m2-cA 1uwz-a1-m1-cA_1uwz-a1-m2-cB 1uwz-a1-m1-cB_1uwz-a1-m2-cA 1ux0-a1-m1-cB_1ux0-a1-m2-cA 1ux1-a1-m1-cB_1ux1-a1-m1-cD 1ux1-a1-m1-cC_1ux1-a1-m1-cA MNRQELITEALKARDMAYAPYSKFQVGAALLTKDGKVYRGCNIENAAYSMCNCAEQTALFKAVSEGDTEFQMLAVAADTPGPVSPCGACRQVISELCTKDVIVVLTNLQGQIKEMTVEELLPGAFSSEDL MNRQELITEALKARDMAYAPYSKFQVGAALLTKDGKVYRGCNIENAAYSMCNCAEQTALFKAVSEGDTEFQMLAVAADTPGPVSPCGACRQVISELCTKDVIVVLTNLQGQIKEMTVEELLPGAFSSEDL 1ux0-a1-m1-cB_1ux0-a1-m2-cB Bacillus subtilis cytidine deaminase with an Arg56 - Gln substitution P19079 P19079 1.99 X-RAY DIFFRACTION 95 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 130 130 1jtk-a1-m1-cA_1jtk-a1-m2-cA 1jtk-a1-m1-cB_1jtk-a1-m2-cB 1uwz-a1-m1-cA_1uwz-a1-m2-cA 1uwz-a1-m1-cB_1uwz-a1-m2-cB 1ux0-a1-m1-cA_1ux0-a1-m2-cA 1ux1-a1-m1-cA_1ux1-a1-m1-cD 1ux1-a1-m1-cB_1ux1-a1-m1-cC MNRQELITEALKARDMAYAPYSKFQVGAALLTKDGKVYRGCNIENAAYSMCNCAEQTALFKAVSEGDTEFQMLAVAADTPGPVSPCGACRQVISELCTKDVIVVLTNLQGQIKEMTVEELLPGAFSSEDL MNRQELITEALKARDMAYAPYSKFQVGAALLTKDGKVYRGCNIENAAYSMCNCAEQTALFKAVSEGDTEFQMLAVAADTPGPVSPCGACRQVISELCTKDVIVVLTNLQGQIKEMTVEELLPGAFSSEDL 1ux0-a1-m2-cA_1ux0-a1-m2-cB Bacillus subtilis cytidine deaminase with an Arg56 - Gln substitution P19079 P19079 1.99 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 130 130 1jtk-a1-m1-cA_1jtk-a1-m1-cB 1jtk-a1-m2-cA_1jtk-a1-m2-cB 1uwz-a1-m1-cA_1uwz-a1-m1-cB 1uwz-a1-m2-cA_1uwz-a1-m2-cB 1ux0-a1-m1-cA_1ux0-a1-m1-cB 1ux1-a1-m1-cB_1ux1-a1-m1-cA 1ux1-a1-m1-cC_1ux1-a1-m1-cD MNRQELITEALKARDMAYAPYSKFQVGAALLTKDGKVYRGCNIENAAYSMCNCAEQTALFKAVSEGDTEFQMLAVAADTPGPVSPCGACRQVISELCTKDVIVVLTNLQGQIKEMTVEELLPGAFSSEDL MNRQELITEALKARDMAYAPYSKFQVGAALLTKDGKVYRGCNIENAAYSMCNCAEQTALFKAVSEGDTEFQMLAVAADTPGPVSPCGACRQVISELCTKDVIVVLTNLQGQIKEMTVEELLPGAFSSEDL 1ux4-a2-m1-cB_1ux4-a2-m3-cB Crystal structures of a Formin Homology-2 domain reveal a tethered-dimer architecture P41832 P41832 3.3 X-RAY DIFFRACTION 248 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 410 410 1ux4-a1-m1-cA_1ux4-a1-m2-cA PRPHKKLKQLHWEKLDCTDNSIWGTGKAEKFADDLYEKGVLADLEKAFAAREIKSLASKEFKITFLSRDISQQFGINLHMYSSLSVADLVKKILNCDRDFLQTPSVVEFLSKSEIIEVSVNLARNYAPYSTDWEGVRNLEDAKPPEKDPNDLQRADQIYLQLMVNLESYWGSRMRALTVVTSYEREYNELLAKLRKVDKAVSALQESDNLRNVFNVILAVGNFMNDTSKQAQGFKLSTLQRLTFIKDTTNSMTFLNYVEKIVRLNYPSFNDFLSELEPVLDVVKVSIEQLVNDCKDFSQSIVNVERSVEIGNLSDSSKFHPLDKVLIKTLPVLPEARKKGDLLEDEVKLTIMEFESLMHTYGEDSGDKFAKISFFKKFADFINEYKKAQAQNLAAEEEERLYIKHKKIVE PRPHKKLKQLHWEKLDCTDNSIWGTGKAEKFADDLYEKGVLADLEKAFAAREIKSLASKEFKITFLSRDISQQFGINLHMYSSLSVADLVKKILNCDRDFLQTPSVVEFLSKSEIIEVSVNLARNYAPYSTDWEGVRNLEDAKPPEKDPNDLQRADQIYLQLMVNLESYWGSRMRALTVVTSYEREYNELLAKLRKVDKAVSALQESDNLRNVFNVILAVGNFMNDTSKQAQGFKLSTLQRLTFIKDTTNSMTFLNYVEKIVRLNYPSFNDFLSELEPVLDVVKVSIEQLVNDCKDFSQSIVNVERSVEIGNLSDSSKFHPLDKVLIKTLPVLPEARKKGDLLEDEVKLTIMEFESLMHTYGEDSGDKFAKISFFKKFADFINEYKKAQAQNLAAEEEERLYIKHKKIVE 1ux5-a1-m1-cA_1ux5-a1-m2-cA Crystal Structures of a Formin Homology-2 domain reveal a flexibly tethered dimer architecture P41832 P41832 2.5 X-RAY DIFFRACTION 248 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 411 411 KYPRPHKKLKQLHWEKLDCTDNSIWGTGKAEKFADDLYEKGVLADLEKAFAAREIKSLASKRKEDLQKITFLSRDISQQFGINLHMYSSLSVADLVKKILNCDRDFLQTPSVVEFLSKSEIIEVSVNLARNYAPYSTDWEGVRNLEDAKPPEKDPNDLQRADQIYLQLMVNLESYWGSRMRALTVVTSYEREYNELLAKLRKVDKAVSALQESDNLRNVFNVILAVGNFMNDTSKQAQGFKLSTLQRLTFIKDTTNSMTFLNYVEKIVRLNYPSFNDFLSELEPVLDVVKVSIEQLVNDCKDFSQSIVNVERSVEIGNLSDSSKFHPLDKVLIKTLPVLPEARKKGDLLEDEVKLTIMEFESLMHTYGEDSGDKFAKISFFKKFADFINEYKKAQAQNLAAEEEERLYIKH KYPRPHKKLKQLHWEKLDCTDNSIWGTGKAEKFADDLYEKGVLADLEKAFAAREIKSLASKRKEDLQKITFLSRDISQQFGINLHMYSSLSVADLVKKILNCDRDFLQTPSVVEFLSKSEIIEVSVNLARNYAPYSTDWEGVRNLEDAKPPEKDPNDLQRADQIYLQLMVNLESYWGSRMRALTVVTSYEREYNELLAKLRKVDKAVSALQESDNLRNVFNVILAVGNFMNDTSKQAQGFKLSTLQRLTFIKDTTNSMTFLNYVEKIVRLNYPSFNDFLSELEPVLDVVKVSIEQLVNDCKDFSQSIVNVERSVEIGNLSDSSKFHPLDKVLIKTLPVLPEARKKGDLLEDEVKLTIMEFESLMHTYGEDSGDKFAKISFFKKFADFINEYKKAQAQNLAAEEEERLYIKH 1uxk-a1-m1-cA_1uxk-a1-m2-cC Large improvement in the thermal stability of a tetrameric malate dehydrogenase by single point mutations at the dimer-dimer interface P80040 P80040 1.8 X-RAY DIFFRACTION 14 0.997 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 295 300 1guy-a1-m1-cA_1guy-a1-m2-cC 1guy-a1-m2-cA_1guy-a1-m1-cC 1ur5-a1-m1-cA_1ur5-a1-m2-cC 1ur5-a1-m2-cA_1ur5-a1-m1-cC 1uxg-a1-m1-cA_1uxg-a1-m2-cB 1uxg-a1-m1-cB_1uxg-a1-m2-cA 1uxh-a1-m1-cA_1uxh-a1-m2-cB 1uxh-a1-m1-cB_1uxh-a1-m2-cA 1uxi-a1-m1-cA_1uxi-a1-m2-cB 1uxi-a1-m1-cB_1uxi-a1-m2-cA 1uxj-a1-m1-cA_1uxj-a1-m2-cC 1uxj-a1-m2-cA_1uxj-a1-m1-cC 1uxk-a1-m2-cA_1uxk-a1-m1-cC 4cl3-a1-m1-cA_4cl3-a1-m2-cD 4cl3-a1-m1-cD_4cl3-a1-m2-cA MRKKISIIGAGFVGSTTAHWLAAKELGDIVLLDIVEGVPQGKALDLYEASPIEGFDVRVTGTNNYADTANSDVIVVTSGAIKVNADITRACISQAAPLSPNAVIIMVNNPLDAMTYLAAEVSGFPKERVIGQAGVLDAARYRTFIAMEAGVSVQDVQAMLMGGHGDEMVPLPRFSTISGIPVSEFIAPDRLAQIVERTRKGGGEIVNLLKTGSAYYAPAAATAQMVEAVLKDKKRVMPVAAYLTGQYGLNDIYFGVPVILGAGGVEKILELPLNEEEMALLNASAKAVRATLDTL RKKISIIGAGFVGSTTAHWLAAKELGDIVLLDIVEGVPQGKALDLYEASPIEGFDVRVTGTNNYADTANSDVIVVTSGAREDLIKVNADITRACISQAAPLSPNAVIIMVNNPLDAMTYLAAEVSGFPKERVIGQAGVLDAARYRTFIAMEAGVSVQDVQAMLMGGHGDEMVPLPRFSTISGIPVSEFIAPDRLAQIVERTRKGGGEIVNLLKTGSAYYAPAAATAQMVEAVLKDKKRVMPVAAYLTGQYGLNDIYFGVPVILGAGGVEKILELPLNEEEMALLNASAKAVRATLDTLKS 1uxk-a1-m2-cA_1uxk-a1-m2-cC Large improvement in the thermal stability of a tetrameric malate dehydrogenase by single point mutations at the dimer-dimer interface P80040 P80040 1.8 X-RAY DIFFRACTION 86 0.997 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 295 300 1guy-a1-m1-cA_1guy-a1-m1-cC 1guy-a1-m2-cA_1guy-a1-m2-cC 1ur5-a1-m1-cA_1ur5-a1-m1-cC 1ur5-a1-m2-cA_1ur5-a1-m2-cC 1uxg-a1-m1-cA_1uxg-a1-m2-cA 1uxg-a1-m1-cB_1uxg-a1-m2-cB 1uxh-a1-m1-cA_1uxh-a1-m2-cA 1uxh-a1-m1-cB_1uxh-a1-m2-cB 1uxi-a1-m1-cA_1uxi-a1-m2-cA 1uxi-a1-m1-cB_1uxi-a1-m2-cB 1uxj-a1-m1-cA_1uxj-a1-m1-cC 1uxj-a1-m2-cA_1uxj-a1-m2-cC 1uxk-a1-m1-cA_1uxk-a1-m1-cC 4cl3-a1-m1-cA_4cl3-a1-m1-cD 4cl3-a1-m2-cA_4cl3-a1-m2-cD 4cl3-a2-m1-cA_4cl3-a2-m1-cD MRKKISIIGAGFVGSTTAHWLAAKELGDIVLLDIVEGVPQGKALDLYEASPIEGFDVRVTGTNNYADTANSDVIVVTSGAIKVNADITRACISQAAPLSPNAVIIMVNNPLDAMTYLAAEVSGFPKERVIGQAGVLDAARYRTFIAMEAGVSVQDVQAMLMGGHGDEMVPLPRFSTISGIPVSEFIAPDRLAQIVERTRKGGGEIVNLLKTGSAYYAPAAATAQMVEAVLKDKKRVMPVAAYLTGQYGLNDIYFGVPVILGAGGVEKILELPLNEEEMALLNASAKAVRATLDTL RKKISIIGAGFVGSTTAHWLAAKELGDIVLLDIVEGVPQGKALDLYEASPIEGFDVRVTGTNNYADTANSDVIVVTSGAREDLIKVNADITRACISQAAPLSPNAVIIMVNNPLDAMTYLAAEVSGFPKERVIGQAGVLDAARYRTFIAMEAGVSVQDVQAMLMGGHGDEMVPLPRFSTISGIPVSEFIAPDRLAQIVERTRKGGGEIVNLLKTGSAYYAPAAATAQMVEAVLKDKKRVMPVAAYLTGQYGLNDIYFGVPVILGAGGVEKILELPLNEEEMALLNASAKAVRATLDTLKS 1uxt-a1-m1-cA_1uxt-a1-m4-cA Structural basis for allosteric regulation and substrate specificity of the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase (GAPN) from Thermoproteus tenax O57693 O57693 2.2 X-RAY DIFFRACTION 40 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 499 499 1ky8-a1-m1-cA_1ky8-a1-m4-cA 1ky8-a1-m2-cA_1ky8-a1-m3-cA 1uxn-a1-m1-cA_1uxn-a1-m4-cA 1uxn-a1-m2-cA_1uxn-a1-m3-cA 1uxp-a1-m1-cA_1uxp-a1-m4-cA 1uxp-a1-m2-cA_1uxp-a1-m3-cA 1uxq-a1-m1-cA_1uxq-a1-m4-cA 1uxq-a1-m2-cA_1uxq-a1-m3-cA 1uxr-a1-m1-cA_1uxr-a1-m4-cA 1uxr-a1-m2-cA_1uxr-a1-m3-cA 1uxt-a1-m2-cA_1uxt-a1-m3-cA 1uxu-a1-m1-cA_1uxu-a1-m4-cA 1uxu-a1-m2-cA_1uxu-a1-m3-cA 1uxv-a1-m1-cA_1uxv-a1-m4-cA 1uxv-a1-m2-cA_1uxv-a1-m3-cA AGLLEGVIKEKGGVPVYPSYLAGEWGGSGQEIEVKSPIDLATIAKVISPSREEVERTLDVLFKRGRWSARDMPGTERLAVLRKAADIIERNLDVFAEVLVMNAGKPKSAAVGEVKAAVDRLRLAELDLKKIGGDYIPGDWTYDTLETEGLVRREPLGVVAAITPFNYPLFDAVNKITYSFIYGNAVVVKPSISDPLPAAMAVKALLDAGFPPDAIALLNLPGKEAEKIVADDRVAAVSFTGSTEVGERVVKVGGVKQYVMELGGGDPAIVLEDADLDLAADKIARGIYSYAGQRCDAIKLVLAERPVYGKLVEEVAKRLSSLRVGDPRDPTVDVGPLISPSAVDEMMAAIEDAVEKGGRVLAGGRRLGPTYVQPTFVEAPADRVKDMVLYKREVFAPVALAVEVKDLDQAIELANGRPYGLDAAVFGRDVVKIRRAVRLLEVGAIYINDMPRHGIGYYPFGGRKKSGVFREGIGYAVEAVTAYKTIVFNYKGKGVWKYE AGLLEGVIKEKGGVPVYPSYLAGEWGGSGQEIEVKSPIDLATIAKVISPSREEVERTLDVLFKRGRWSARDMPGTERLAVLRKAADIIERNLDVFAEVLVMNAGKPKSAAVGEVKAAVDRLRLAELDLKKIGGDYIPGDWTYDTLETEGLVRREPLGVVAAITPFNYPLFDAVNKITYSFIYGNAVVVKPSISDPLPAAMAVKALLDAGFPPDAIALLNLPGKEAEKIVADDRVAAVSFTGSTEVGERVVKVGGVKQYVMELGGGDPAIVLEDADLDLAADKIARGIYSYAGQRCDAIKLVLAERPVYGKLVEEVAKRLSSLRVGDPRDPTVDVGPLISPSAVDEMMAAIEDAVEKGGRVLAGGRRLGPTYVQPTFVEAPADRVKDMVLYKREVFAPVALAVEVKDLDQAIELANGRPYGLDAAVFGRDVVKIRRAVRLLEVGAIYINDMPRHGIGYYPFGGRKKSGVFREGIGYAVEAVTAYKTIVFNYKGKGVWKYE 1uxt-a1-m2-cA_1uxt-a1-m4-cA Structural basis for allosteric regulation and substrate specificity of the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase (GAPN) from Thermoproteus tenax O57693 O57693 2.2 X-RAY DIFFRACTION 102 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 499 499 1ky8-a1-m1-cA_1ky8-a1-m2-cA 1ky8-a1-m3-cA_1ky8-a1-m4-cA 1uxn-a1-m1-cA_1uxn-a1-m3-cA 1uxn-a1-m2-cA_1uxn-a1-m4-cA 1uxp-a1-m1-cA_1uxp-a1-m3-cA 1uxp-a1-m2-cA_1uxp-a1-m4-cA 1uxq-a1-m1-cA_1uxq-a1-m3-cA 1uxq-a1-m2-cA_1uxq-a1-m4-cA 1uxr-a1-m1-cA_1uxr-a1-m3-cA 1uxr-a1-m2-cA_1uxr-a1-m4-cA 1uxt-a1-m1-cA_1uxt-a1-m3-cA 1uxu-a1-m1-cA_1uxu-a1-m3-cA 1uxu-a1-m2-cA_1uxu-a1-m4-cA 1uxv-a1-m1-cA_1uxv-a1-m3-cA 1uxv-a1-m2-cA_1uxv-a1-m4-cA AGLLEGVIKEKGGVPVYPSYLAGEWGGSGQEIEVKSPIDLATIAKVISPSREEVERTLDVLFKRGRWSARDMPGTERLAVLRKAADIIERNLDVFAEVLVMNAGKPKSAAVGEVKAAVDRLRLAELDLKKIGGDYIPGDWTYDTLETEGLVRREPLGVVAAITPFNYPLFDAVNKITYSFIYGNAVVVKPSISDPLPAAMAVKALLDAGFPPDAIALLNLPGKEAEKIVADDRVAAVSFTGSTEVGERVVKVGGVKQYVMELGGGDPAIVLEDADLDLAADKIARGIYSYAGQRCDAIKLVLAERPVYGKLVEEVAKRLSSLRVGDPRDPTVDVGPLISPSAVDEMMAAIEDAVEKGGRVLAGGRRLGPTYVQPTFVEAPADRVKDMVLYKREVFAPVALAVEVKDLDQAIELANGRPYGLDAAVFGRDVVKIRRAVRLLEVGAIYINDMPRHGIGYYPFGGRKKSGVFREGIGYAVEAVTAYKTIVFNYKGKGVWKYE AGLLEGVIKEKGGVPVYPSYLAGEWGGSGQEIEVKSPIDLATIAKVISPSREEVERTLDVLFKRGRWSARDMPGTERLAVLRKAADIIERNLDVFAEVLVMNAGKPKSAAVGEVKAAVDRLRLAELDLKKIGGDYIPGDWTYDTLETEGLVRREPLGVVAAITPFNYPLFDAVNKITYSFIYGNAVVVKPSISDPLPAAMAVKALLDAGFPPDAIALLNLPGKEAEKIVADDRVAAVSFTGSTEVGERVVKVGGVKQYVMELGGGDPAIVLEDADLDLAADKIARGIYSYAGQRCDAIKLVLAERPVYGKLVEEVAKRLSSLRVGDPRDPTVDVGPLISPSAVDEMMAAIEDAVEKGGRVLAGGRRLGPTYVQPTFVEAPADRVKDMVLYKREVFAPVALAVEVKDLDQAIELANGRPYGLDAAVFGRDVVKIRRAVRLLEVGAIYINDMPRHGIGYYPFGGRKKSGVFREGIGYAVEAVTAYKTIVFNYKGKGVWKYE 1uxt-a1-m3-cA_1uxt-a1-m4-cA Structural basis for allosteric regulation and substrate specificity of the non-phosphorylating glyceraldehyde-3-phosphate dehydrogenase (GAPN) from Thermoproteus tenax O57693 O57693 2.2 X-RAY DIFFRACTION 161 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 499 499 1ky8-a1-m1-cA_1ky8-a1-m3-cA 1ky8-a1-m2-cA_1ky8-a1-m4-cA 1uxn-a1-m1-cA_1uxn-a1-m2-cA 1uxn-a1-m3-cA_1uxn-a1-m4-cA 1uxp-a1-m1-cA_1uxp-a1-m2-cA 1uxp-a1-m3-cA_1uxp-a1-m4-cA 1uxq-a1-m1-cA_1uxq-a1-m2-cA 1uxq-a1-m3-cA_1uxq-a1-m4-cA 1uxr-a1-m1-cA_1uxr-a1-m2-cA 1uxr-a1-m3-cA_1uxr-a1-m4-cA 1uxt-a1-m1-cA_1uxt-a1-m2-cA 1uxu-a1-m1-cA_1uxu-a1-m2-cA 1uxu-a1-m3-cA_1uxu-a1-m4-cA 1uxv-a1-m1-cA_1uxv-a1-m2-cA 1uxv-a1-m3-cA_1uxv-a1-m4-cA AGLLEGVIKEKGGVPVYPSYLAGEWGGSGQEIEVKSPIDLATIAKVISPSREEVERTLDVLFKRGRWSARDMPGTERLAVLRKAADIIERNLDVFAEVLVMNAGKPKSAAVGEVKAAVDRLRLAELDLKKIGGDYIPGDWTYDTLETEGLVRREPLGVVAAITPFNYPLFDAVNKITYSFIYGNAVVVKPSISDPLPAAMAVKALLDAGFPPDAIALLNLPGKEAEKIVADDRVAAVSFTGSTEVGERVVKVGGVKQYVMELGGGDPAIVLEDADLDLAADKIARGIYSYAGQRCDAIKLVLAERPVYGKLVEEVAKRLSSLRVGDPRDPTVDVGPLISPSAVDEMMAAIEDAVEKGGRVLAGGRRLGPTYVQPTFVEAPADRVKDMVLYKREVFAPVALAVEVKDLDQAIELANGRPYGLDAAVFGRDVVKIRRAVRLLEVGAIYINDMPRHGIGYYPFGGRKKSGVFREGIGYAVEAVTAYKTIVFNYKGKGVWKYE AGLLEGVIKEKGGVPVYPSYLAGEWGGSGQEIEVKSPIDLATIAKVISPSREEVERTLDVLFKRGRWSARDMPGTERLAVLRKAADIIERNLDVFAEVLVMNAGKPKSAAVGEVKAAVDRLRLAELDLKKIGGDYIPGDWTYDTLETEGLVRREPLGVVAAITPFNYPLFDAVNKITYSFIYGNAVVVKPSISDPLPAAMAVKALLDAGFPPDAIALLNLPGKEAEKIVADDRVAAVSFTGSTEVGERVVKVGGVKQYVMELGGGDPAIVLEDADLDLAADKIARGIYSYAGQRCDAIKLVLAERPVYGKLVEEVAKRLSSLRVGDPRDPTVDVGPLISPSAVDEMMAAIEDAVEKGGRVLAGGRRLGPTYVQPTFVEAPADRVKDMVLYKREVFAPVALAVEVKDLDQAIELANGRPYGLDAAVFGRDVVKIRRAVRLLEVGAIYINDMPRHGIGYYPFGGRKKSGVFREGIGYAVEAVTAYKTIVFNYKGKGVWKYE 1uyj-a3-m6-cC_1uyj-a3-m7-cC Clostridium perfringens epsilon toxin shows structural similarity with the pore forming toxin aerolysin Q57398 Q57398 2.6 X-RAY DIFFRACTION 33 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 273 273 1uyj-a1-m1-cA_1uyj-a1-m2-cA 1uyj-a1-m1-cA_1uyj-a1-m3-cA 1uyj-a1-m2-cA_1uyj-a1-m3-cA 1uyj-a2-m1-cB_1uyj-a2-m4-cB 1uyj-a2-m1-cB_1uyj-a2-m5-cB 1uyj-a2-m4-cB_1uyj-a2-m5-cB 1uyj-a3-m1-cC_1uyj-a3-m6-cC 1uyj-a3-m1-cC_1uyj-a3-m7-cC SYDNVDTLIEKGRYNTKYNYLKRMEKYYPNAMAYFDKVTINPQGNDFYINNPKVELDGEPSMNYLEDVYVGKALLTNDTQQEQKLKSQSFTCKNTDTVTATTTHTVGTSIQATAKFTVPFNETGVSLTTSYSFANTNTNTNSKEITHNVPSQDILVPANTTVEVIAYLKKVNVKGNVKLVGQVSGSEWGEIPSYLAFPRDGYKFSLSDTVNKSDLNEDGTININGKGNYSAVMGDELIVKVRNLNTNNVQEYVIPVDSNIVKYRSLSIKAPGI SYDNVDTLIEKGRYNTKYNYLKRMEKYYPNAMAYFDKVTINPQGNDFYINNPKVELDGEPSMNYLEDVYVGKALLTNDTQQEQKLKSQSFTCKNTDTVTATTTHTVGTSIQATAKFTVPFNETGVSLTTSYSFANTNTNTNSKEITHNVPSQDILVPANTTVEVIAYLKKVNVKGNVKLVGQVSGSEWGEIPSYLAFPRDGYKFSLSDTVNKSDLNEDGTININGKGNYSAVMGDELIVKVRNLNTNNVQEYVIPVDSNIVKYRSLSIKAPGI 1uyv-a2-m1-cB_1uyv-a2-m1-cC Acetyl-CoA carboxylase carboxyltransferase domain L1705I/V1967I mutant Q00955 Q00955 2.6 X-RAY DIFFRACTION 218 0.982 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 552 570 1uyv-a1-m1-cA_1uyv-a1-m2-cA PIATPYPVKEWLQPKRYKAHLMGTTYVYDFPELFRQASSSQWKNFSADVKLTDDFFISNELIEDENGELTEVEREPGANAIGMVAFKITVKTPEYPRGRQFVVVANDITFKIGSFGPQEDEFFNKVTEYARKRGIPRIYLAANSGARIGECIRGSGLIAGATSRAYHDIFTITLVTCRSVGIGAYLVRLGQRAIQVEGQPIILTGAPAINKMLGREVYTSNLQLGGTQIMYNNGVSHLTAVDDLAGVEKIVEWMSYVPAKRNMPVPILETKDTWDRPVDFTPTNDETYDVRWMIEGRETESGFEYGLFDKGSFFETLSGWAKGVVVGRARLGGIPLGVIGVETRTVENLIPADPANPNSAETLIQEPGQVWHPNSAFKTAQAINDFNNGEQLPMMILANWRGFSGGQRDMFNEILKYGSFIVDALVDYKQPIIIYIPPTGELRGGSWVVVDPTINADQMEMYADVNARAGVISKELEWTEARRFFFWRLRRRLNEEYLIKRLSHQVGEASRLEKIARIRSWYPASVDHEDDRQVATWIEENYKTLDDKLKGL WLQPKRYKAHLMGTTYVYDFPELFRQASSSQWKNFSADVKLTDDFFISNELIEDENGELTEVEREPGANAIGMVAFKITVKTPEYPRGRQFVVVANDITFKIGSFGPQEDEFFNKVTEYARKRGIPRIYLAANSGARIGMGVECIRGSGLIAGATSRAYHDIFTITLVTCRSVGIGAYLVRLGQRAIQVEGQPIILTGAPAINKMLGREVYTSNLQLGGTQIMYNNGVSHLTAVDDLAGVEKIVEWMSYVPAKRNMPVPILETKDTWDRPVDFTPTNDETYDVRWMIEGRETESGFEYGLFDKGSFFETLSGWAKGVVVGRARLGGIPLGVIGVETRTVENLIPADPANPNSAETLIQEPGQVWHPNSAFKTAQAINDFNNGEQLPMMILANWRGFSGGQRDMFNEILKYGSFIVDALVDYKQPIIIYIPPTGELRGGSWVVVDPTINADQMEMYADVNARAGVLEPDRSSRMVAKGVISKELEWTEARRFFFWRLRRRLNEEYLIKRLSHQVGEASRLEKIARIRSWYPASVDHEDDRQVATWIEENYKTLDDKLKGLKLESFAQDLAK 1uzd-a1-m1-cJ_1uzd-a1-m1-cW Chlamydomonas,Spinach Chimeric Rubisco P00873 P00873 2.4 X-RAY DIFFRACTION 13 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 129 129 1uzd-a1-m1-cC_1uzd-a1-m1-cF 1uzd-a1-m1-cC_1uzd-a1-m1-cW 1uzd-a1-m1-cF_1uzd-a1-m1-cJ 1uzd-a1-m1-cI_1uzd-a1-m1-cP 1uzd-a1-m1-cI_1uzd-a1-m1-cT 1uzd-a1-m1-cM_1uzd-a1-m1-cP 1uzd-a1-m1-cM_1uzd-a1-m1-cT MMVWTPVNNKMFETFSYLPPLTDEQIAAQVDYIVANGWIPCLEFATDHGFVYREHHNSPGYYDGRYWTMWKLPMFGCRDPMQVLREIVACTKAFPDAYVRLVAFDNQKQVQIMGFLVQRPKQPANKRSV MMVWTPVNNKMFETFSYLPPLTDEQIAAQVDYIVANGWIPCLEFATDHGFVYREHHNSPGYYDGRYWTMWKLPMFGCRDPMQVLREIVACTKAFPDAYVRLVAFDNQKQVQIMGFLVQRPKQPANKRSV 1uzh-a1-m1-cJ_1uzh-a1-m1-cW A CHIMERIC CHLAMYDOMONAS, SYNECHOCOCCUS RUBISCO ENZYME P00873 P00873 2.2 X-RAY DIFFRACTION 12 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 122 122 1uzh-a1-m1-cC_1uzh-a1-m1-cF 1uzh-a1-m1-cC_1uzh-a1-m1-cW 1uzh-a1-m1-cF_1uzh-a1-m1-cJ 1uzh-a1-m1-cI_1uzh-a1-m1-cP 1uzh-a1-m1-cI_1uzh-a1-m1-cT 1uzh-a1-m1-cM_1uzh-a1-m1-cP 1uzh-a1-m1-cM_1uzh-a1-m1-cT MMVWTPVNNKMFETFSYLPPLTDEQIAAQVDYIVANGWIPCLEFAEHSNPEEFYWTMWKLPMFGCRDPMQVLREIVACTKAFPDAYVRLVAFDNQKQVQIMGFLVQRPKTARDFQPANKRSV MMVWTPVNNKMFETFSYLPPLTDEQIAAQVDYIVANGWIPCLEFAEHSNPEEFYWTMWKLPMFGCRDPMQVLREIVACTKAFPDAYVRLVAFDNQKQVQIMGFLVQRPKTARDFQPANKRSV 1uzl-a1-m1-cA_1uzl-a1-m2-cA MabA from Mycobacterium tuberculosis P9WGT3 P9WGT3 2 X-RAY DIFFRACTION 100 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 231 231 AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVECDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSADMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGSWGQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTDMTRALDERIQQGALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGMGH AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVECDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSADMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGSWGQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTDMTRALDERIQQGALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGMGH 1uzm-a1-m1-cB_1uzm-a1-m2-cB MabA from Mycobacterium tuberculosis P9WGT3 P9WGT3 1.49 X-RAY DIFFRACTION 31 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 211 211 1uzm-a1-m1-cA_1uzm-a1-m2-cA AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSAMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGM AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSAMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGM 1uzm-a1-m2-cB_1uzm-a1-m2-cA MabA from Mycobacterium tuberculosis P9WGT3 P9WGT3 1.49 X-RAY DIFFRACTION 123 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 211 227 1uzm-a1-m1-cB_1uzm-a1-m1-cA AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSAMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGM AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSARMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGNQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTDMTRALDERIQQGALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGM 1uzn-a1-m2-cB_1uzn-a1-m1-cA MabA from Mycobacterium tuberculosis P9WGT3 P9WGT3 1.91 X-RAY DIFFRACTION 35 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 226 239 1uzn-a1-m1-cB_1uzn-a1-m2-cA AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSADAFLMRMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGLWGIGNQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGMGH AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSADAFLMRMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGLWGIGNQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTDMTRALDERIQQGALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGMGH 1uzn-a1-m2-cB_1uzn-a1-m2-cA MabA from Mycobacterium tuberculosis P9WGT3 P9WGT3 1.91 X-RAY DIFFRACTION 126 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 226 239 1uzn-a1-m1-cB_1uzn-a1-m1-cA 2ntn-a1-m1-cB_2ntn-a1-m1-cA 2ntn-a1-m2-cB_2ntn-a1-m2-cA AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSADAFLMRMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGLWGIGNQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGMGH AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLSADAFLMRMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIGSVSGLWGIGNQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTDMTRALDERIQQGALQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGMGH 1uzr-a2-m1-cB_1uzr-a2-m2-cB Crystal Structure of the Class Ib Ribonucleotide Reductase R2F-2 subunit from Mycobacterium tuberculosis P9WH71 P9WH71 2.2 X-RAY DIFFRACTION 141 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 288 288 1uzr-a1-m1-cA_1uzr-a1-m1-cC DRVSAINWNRLQDEKDAEVWDRLTGNFWLPEKVPVSNDIPSWGTLTAGEKQLTMRVFTGLTMLDTIQGTVGAVSLIPDALTPHEEAVLTNIAFMESVHAKSYSQIFSTLCSTAEIDDAFRWSEENRNLQRKAEIVLQSYRGDEPLKRKVASTLLESFLFYSGFYLPMYWSSRAKLTNTADMIRLIIRDEAVHGYYIGYKFQRGLALVDDVTRAELKDYTYELLFELYDNEVEYTQDLYDEVGLTEDVKKFLRYNANKALMNLGYEALFPRDETDVNPAILSALSPNAD DRVSAINWNRLQDEKDAEVWDRLTGNFWLPEKVPVSNDIPSWGTLTAGEKQLTMRVFTGLTMLDTIQGTVGAVSLIPDALTPHEEAVLTNIAFMESVHAKSYSQIFSTLCSTAEIDDAFRWSEENRNLQRKAEIVLQSYRGDEPLKRKVASTLLESFLFYSGFYLPMYWSSRAKLTNTADMIRLIIRDEAVHGYYIGYKFQRGLALVDDVTRAELKDYTYELLFELYDNEVEYTQDLYDEVGLTEDVKKFLRYNANKALMNLGYEALFPRDETDVNPAILSALSPNAD 1uzv-a1-m1-cC_1uzv-a1-m1-cD High affinity fucose binding of Pseudomonas aeruginosa lectin II: 1.0 A crystal structure of the complex Q9HYN5 Q9HYN5 1 X-RAY DIFFRACTION 108 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 114 114 1gzt-a1-m1-cA_1gzt-a1-m1-cB 1gzt-a1-m1-cC_1gzt-a1-m1-cD 1our-a1-m1-cA_1our-a1-m3-cA 1our-a1-m2-cA_1our-a1-m4-cA 1ous-a1-m1-cA_1ous-a1-m1-cB 1ous-a1-m1-cD_1ous-a1-m1-cC 1ous-a2-m1-cA_1ous-a2-m1-cB 1ous-a2-m2-cD_1ous-a2-m2-cC 1oux-a1-m1-cA_1oux-a1-m1-cB 1oux-a1-m1-cC_1oux-a1-m1-cD 1ovp-a1-m1-cA_1ovp-a1-m3-cA 1ovp-a1-m2-cA_1ovp-a1-m4-cA 1ovs-a1-m1-cA_1ovs-a1-m1-cB 1ovs-a1-m1-cC_1ovs-a1-m1-cD 1ovs-a2-m1-cC_1ovs-a2-m1-cD 1ovs-a3-m1-cA_1ovs-a3-m1-cB 1oxc-a1-m1-cA_1oxc-a1-m1-cB 1oxc-a1-m1-cC_1oxc-a1-m1-cD 1uzv-a1-m1-cA_1uzv-a1-m1-cB 1w8f-a1-m1-cA_1w8f-a1-m1-cC 1w8f-a1-m1-cB_1w8f-a1-m1-cD 1w8h-a1-m1-cA_1w8h-a1-m1-cD 1w8h-a1-m1-cB_1w8h-a1-m1-cC 2boj-a1-m1-cA_2boj-a1-m1-cC 2boj-a1-m1-cB_2boj-a1-m1-cD 2bp6-a1-m1-cA_2bp6-a1-m1-cD 2bp6-a1-m1-cB_2bp6-a1-m1-cC 2jdh-a1-m1-cA_2jdh-a1-m1-cB 2jdh-a1-m1-cC_2jdh-a1-m1-cD 2jdk-a1-m1-cA_2jdk-a1-m1-cB 2jdk-a1-m1-cC_2jdk-a1-m1-cD 2jdm-a1-m1-cA_2jdm-a1-m1-cB 2jdm-a1-m1-cC_2jdm-a1-m1-cD 2jdn-a1-m1-cA_2jdn-a1-m1-cB 2jdn-a1-m1-cC_2jdn-a1-m1-cD 2jdp-a1-m1-cA_2jdp-a1-m1-cB 2jdp-a1-m1-cC_2jdp-a1-m1-cD 2jdu-a1-m1-cA_2jdu-a1-m1-cB 2jdu-a1-m1-cC_2jdu-a1-m1-cD 2jdy-a1-m1-cA_2jdy-a1-m1-cB 2jdy-a1-m1-cC_2jdy-a1-m1-cD 2vuc-a1-m1-cA_2vuc-a1-m1-cB 2vuc-a1-m1-cC_2vuc-a1-m1-cD 2vud-a1-m1-cA_2vud-a1-m1-cB 2vud-a1-m1-cC_2vud-a1-m1-cD 3dcq-a1-m1-cA_3dcq-a1-m1-cB 3dcq-a1-m1-cC_3dcq-a1-m1-cD 3zdv-a1-m1-cA_3zdv-a1-m1-cB 3zdv-a1-m1-cC_3zdv-a1-m1-cD 4ce8-a1-m1-cA_4ce8-a1-m1-cB 4ce8-a1-m1-cC_4ce8-a1-m1-cD 4ut5-a1-m1-cA_4ut5-a1-m1-cB 4ut5-a1-m1-cC_4ut5-a1-m1-cD 5a3o-a1-m1-cA_5a3o-a1-m1-cB 5a3o-a1-m1-cC_5a3o-a1-m1-cD 5d2a-a1-m1-cA_5d2a-a1-m1-cB 5hch-a1-m1-cA_5hch-a1-m4-cA 5hch-a1-m2-cA_5hch-a1-m3-cA 5i8m-a1-m1-cA_5i8m-a1-m1-cD 5i8m-a1-m1-cB_5i8m-a1-m1-cC 5i8x-a1-m1-cA_5i8x-a1-m1-cD 5i8x-a1-m1-cB_5i8x-a1-m1-cC 5nes-a1-m1-cA_5nes-a1-m1-cC 5nes-a1-m1-cB_5nes-a1-m1-cD 5ney-a1-m1-cA_5ney-a1-m1-cD 5ney-a1-m1-cB_5ney-a1-m1-cC 5nf0-a1-m1-cA_5nf0-a1-m1-cC 5nf0-a1-m1-cB_5nf0-a1-m1-cD 5ngq-a1-m1-cA_5ngq-a1-m1-cC 5ngq-a1-m1-cB_5ngq-a1-m1-cD 6r35-a1-m1-cA_6r35-a1-m1-cB 6r35-a1-m1-cC_6r35-a1-m1-cD 6s5p-a1-m1-cA_6s5p-a1-m1-cB 6s5p-a1-m1-cC_6s5p-a1-m1-cD 6s5r-a1-m1-cA_6s5r-a1-m1-cB 6s5r-a1-m1-cC_6s5r-a1-m1-cD 6s7g-a1-m1-cA_6s7g-a1-m1-cC 6s7g-a1-m1-cB_6s7g-a1-m1-cD 6y0u-a1-m1-cA_6y0u-a1-m1-cB 6y0u-a1-m1-cC_6y0u-a1-m1-cD 6y0v-a1-m1-cA_6y0v-a1-m1-cC 6y0v-a1-m1-cB_6y0v-a1-m1-cD 6y0w-a1-m1-cA_6y0w-a1-m1-cB 7nef-a1-m1-cA_7nef-a1-m1-cB 7nef-a1-m1-cC_7nef-a1-m1-cD 7nef-a1-m1-cE_7nef-a1-m1-cF 7nef-a1-m1-cG_7nef-a1-m1-cH 7new-a1-m1-cA_7new-a1-m1-cB 7new-a2-m1-cC_7new-a2-m1-cD 7prg-a1-m1-cA_7prg-a1-m1-cB 7prg-a1-m1-cC_7prg-a1-m1-cD 7psy-a1-m1-cA_7psy-a1-m1-cB 7psy-a1-m1-cC_7psy-a1-m1-cD 8aij-a1-m1-cAAA_8aij-a1-m1-cBBB 8aij-a1-m1-cCCC_8aij-a1-m1-cDDD 8aiy-a1-m1-cAAA_8aiy-a1-m1-cBBB 8aiy-a1-m1-cCCC_8aiy-a1-m1-cDDD 8an9-a1-m1-cA_8an9-a1-m1-cB 8an9-a1-m1-cC_8an9-a1-m1-cD 8ano-a1-m1-cA_8ano-a1-m1-cB 8ano-a1-m1-cC_8ano-a1-m1-cD 8anr-a1-m1-cA_8anr-a1-m2-cA 8anr-a1-m3-cB_8anr-a1-m4-cB 8aoo-a1-m1-cA_8aoo-a1-m1-cB 8aoo-a1-m1-cC_8aoo-a1-m1-cD ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG 1v00-a2-m1-cD_1v00-a2-m1-cB Erythrina cristagalli lectin Q6YD91 Q6YD91 1.7 X-RAY DIFFRACTION 50 1.0 49817 (Erythrina crista-galli) 49817 (Erythrina crista-galli) 239 240 1ax0-a1-m1-cA_1ax0-a1-m2-cA 1ax1-a1-m1-cA_1ax1-a1-m2-cA 1ax2-a1-m1-cA_1ax2-a1-m2-cA 1axy-a1-m1-cA_1axy-a1-m2-cA 1axz-a1-m1-cA_1axz-a1-m2-cA 1fyu-a1-m1-cA_1fyu-a1-m1-cB 1gz9-a1-m1-cA_1gz9-a1-m2-cA 1gzc-a1-m1-cA_1gzc-a1-m2-cA 1lte-a1-m1-cA_1lte-a1-m2-cA 1sfy-a1-m1-cA_1sfy-a1-m2-cA 1sfy-a2-m1-cB_1sfy-a2-m3-cB 1sfy-a3-m1-cC_1sfy-a3-m1-cD 1sfy-a4-m1-cE_1sfy-a4-m1-cF 1uzy-a1-m1-cA_1uzy-a1-m1-cB 1uzz-a1-m1-cA_1uzz-a1-m1-cB 1uzz-a2-m1-cC_1uzz-a2-m1-cD 1v00-a1-m1-cA_1v00-a1-m1-cC 6aq5-a1-m1-cA_6aq5-a1-m1-cB 6aq6-a1-m1-cA_6aq6-a1-m1-cB VETISFSFSEFEPGNNDLTLQGAAIITQSGVLQLTKINQNGMPAWDSTGRTLYTKPVHIWDMTTGTVASFETRFSFSIEQPYTRPLPADGLVFFMGPTKSKPAQGYGYLGVFNNSKQDNSYQTLAVEFDTFSNPWDPPQVPHIGIDVNSIRSIKTQPFQLDNGQVANVVIKYDASSKILLAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSFHASLPE VETISFSFSEFEPGNNDLTLQGAAIITQSGVLQLTKINQNGMPAWDSTGRTLYTKPVHIWDMTTGTVASFETRFSFSIEQPYTRPLPADGLVFFMGPTKSKPAQGYGYLGVFNNSKQDNSYQTLAVEFDTFSNPWDPPQVPHIGIDVNSIRSIKTQPFQLDNGQVANVVIKYDASSKILLAVLVYPSSGAIYTIAEIVDVKQVLPEWVDVGLSGATGAQRDAAETHDVYSWSFHASLPET 1v02-a3-m1-cE_1v02-a3-m1-cF Crystal structure of the Sorghum bicolor dhurrinase 1 Q41290 Q41290 1.8 X-RAY DIFFRACTION 35 0.998 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 484 484 1v02-a1-m1-cA_1v02-a1-m1-cB 1v02-a2-m1-cC_1v02-a2-m1-cD 1v03-a1-m1-cA_1v03-a1-m2-cA RLSPWEIPRRDWFPPSFLFGAATSAYQIEGAWNEDGKGPSTWDHFCHNFPEWIVDRSNGDVAADSYHMYAEDVRLLKEMGMDAYRFSISWPRILPKGTLAGGINEKRVEYYNKLIDLLLENGIEPYITIFHWDTPQALVDAYGGFLDERIIKDYTDFAKVCFEKFGKKVKNWLTFNEPETFCSVSYGTGVLAPGRCSPGVSCAVPTGNSLSEPYIVAHNLLRAHAETVDIYNKYHKGADGRIGLALNVFGRVPYTNTFLDQQAQERSMDKCLGWFLEPVVRGDYPFSMRVSARDRVPYFKEKEQEKLVGSYDMIGINYYTSTFSKHIDLSPNNSPVLNTDDAYASQETKGPDGNAIGPPTGNAWINMYPKGLHDILMTMKNKYGNPPMYITENGMGDIDKGDLPKPVALEDHTRLDYIQRHLSVLKQSIDLGADVRGYFAWSLLDNFEWSSGYTERFGIVYVDRENGCERTMKRSARWLQEFNG RLSPWEIPRRDWFPPSFLFGAATSAYQIEGAWNEDGKGPSTWDHFCHNFPEWIVDRSNGDVAADSYHMYAEDVRLLKEMGMDAYRFSISWPRILPKGTLAGGINEKRVEYYNKLIDLLLENGIEPYITIFHWDTPQALVDAYGGFLDERIIKDYTDFAKVCFEKFGKTVKNWLTFNEPETFCSVSYGTGVLAPGRCSPGVSCAVPTGNSLSEPYIVAHNLLRAHAETVDIYNKYHKGADGRIGLALNVFGRVPYTNTFLDQQAQERSMDKCLGWFLEPVVRGDYPFSMRVSARDRVPYFKEKEQEKLVGSYDMIGINYYTSTFSKHIDLSPNNSPVLNTDDAYASQETKGPDGNAIGPPTGNAWINMYPKGLHDILMTMKNKYGNPPMYITENGMGDIDKGDLPKPVALEDHTRLDYIQRHLSVLKQSIDLGADVRGYFAWSLLDNFEWSSGYTERFGIVYVDRENGCERTMKRSARWLQEFNG 1v05-a1-m1-cA_1v05-a1-m2-cA Dimerization of human Filamin C: crystal structure of the domain 24 Q14315 Q14315 1.43 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 AMGSDASKVVTRGPGLSQAFVGQKNSFTVDCSKAGTNMMMVGVHGPKTPCEEVYVKHMGNRVYNVTYTVKEKGDYILIVKWGDESVPGSPFKVKVP AMGSDASKVVTRGPGLSQAFVGQKNSFTVDCSKAGTNMMMVGVHGPKTPCEEVYVKHMGNRVYNVTYTVKEKGDYILIVKWGDESVPGSPFKVKVP 1v08-a1-m1-cA_1v08-a1-m1-cB Crystal structure of the Zea maze beta-glucosidase-1 in complex with gluco-tetrazole P49235 P49235 1.9 X-RAY DIFFRACTION 34 1.0 4577 (Zea mays) 4577 (Zea mays) 490 490 1e1e-a1-m1-cA_1e1e-a1-m1-cB 1e1f-a1-m1-cA_1e1f-a1-m1-cB 1e4l-a1-m1-cA_1e4l-a1-m1-cB 1e4n-a1-m1-cA_1e4n-a1-m1-cB 1e55-a1-m1-cB_1e55-a1-m1-cA 1e56-a1-m1-cA_1e56-a1-m1-cB 1hxj-a1-m1-cA_1hxj-a1-m1-cB MLSPSEIPQRDWFPSDFTFGAATSAYQIEGAWNEDGKGESNWDHFCHNHPERILDGSNSDIGANSYHMYKTDVRLLKEMGMDAYRFSISWPRILPKGTKEGGINPDGIKYYRNLINLLLENGIEPYVTIFHWDVPQALEEKYGGFLDKSHKSIVEDYTYFAKVCFDNFGDKVKNWLTFNDPQTFTSFSYGTGVFAPGRCSPGLDCAYPTGNSLVEPYTAGHNILLAHAEAVDLYNKHYKRDDTRIGLAFDVMGRVPYGTSFLDKQAEERSWDINLGWFLEPVVRGDYPFSMRSLARERLPFFKDEQKEKLAGSYNMLGLNYYTSRFSKNIDISPNYSPVLNTDDAYASQEVNGPDGKPIGPPMGNPWIYMYPEGLKDLLMIMKNKYGNPPIYITENGIGDVDTKETPLPMEAALNDYKRLDYIQRHIATLKESIDLGSNVQGYFAWSLLDNFEWFAGFTERYGIVYVDRNNNCTRYMKESAKWLKEFNTA MLSPSEIPQRDWFPSDFTFGAATSAYQIEGAWNEDGKGESNWDHFCHNHPERILDGSNSDIGANSYHMYKTDVRLLKEMGMDAYRFSISWPRILPKGTKEGGINPDGIKYYRNLINLLLENGIEPYVTIFHWDVPQALEEKYGGFLDKSHKSIVEDYTYFAKVCFDNFGDKVKNWLTFNDPQTFTSFSYGTGVFAPGRCSPGLDCAYPTGNSLVEPYTAGHNILLAHAEAVDLYNKHYKRDDTRIGLAFDVMGRVPYGTSFLDKQAEERSWDINLGWFLEPVVRGDYPFSMRSLARERLPFFKDEQKEKLAGSYNMLGLNYYTSRFSKNIDISPNYSPVLNTDDAYASQEVNGPDGKPIGPPMGNPWIYMYPEGLKDLLMIMKNKYGNPPIYITENGIGDVDTKETPLPMEAALNDYKRLDYIQRHIATLKESIDLGSNVQGYFAWSLLDNFEWFAGFTERYGIVYVDRNNNCTRYMKESAKWLKEFNTA 1v0d-a1-m1-cA_1v0d-a1-m2-cA Crystal Structure of Caspase-activated DNase (CAD) O54788 O54788 2.6 X-RAY DIFFRACTION 107 1.0 10090 (Mus musculus) 10090 (Mus musculus) 244 244 VSDITRFLSVFNEPHAGVIQAARQQLSDEQAPLRQKLLADLLHHVSQNITAETREQDPSWFEGLESRFRNKSGYLRYSCESRIRGYLREVSAYTSMVDEAAQEEYLRVLGSMCQKLKSVQYNGSYFDRGAEASSRLCTPEGWFSCQGPFDLESCLSKHSINPYGNRESRILFSTWNLDHIIEKKRTVVPTLAEAIQDGREVNWEYFYSLLFTAENLKLVHIACHKKTTHKLECDRSRIYRPQTG VSDITRFLSVFNEPHAGVIQAARQQLSDEQAPLRQKLLADLLHHVSQNITAETREQDPSWFEGLESRFRNKSGYLRYSCESRIRGYLREVSAYTSMVDEAAQEEYLRVLGSMCQKLKSVQYNGSYFDRGAEASSRLCTPEGWFSCQGPFDLESCLSKHSINPYGNRESRILFSTWNLDHIIEKKRTVVPTLAEAIQDGREVNWEYFYSLLFTAENLKLVHIACHKKTTHKLECDRSRIYRPQTG 1v13-a1-m1-cA_1v13-a1-m1-cB CRYSTAL STRUCTURE OF THE MUTANT HIS103ALA OF THE COLICIN E9 DNASE DOMAIN IN COMPLEX WITH ZN+2 (2.0 ANGSTROMS) P09883 P09883 2 X-RAY DIFFRACTION 63 0.983 562 (Escherichia coli) 562 (Escherichia coli) 120 126 PGKATGKGKPKWLDDAGKDSGAPIPDRIADKLRDKEFKSFDDFRKAVWEEVSKDPSKLNPSNKSSVSKGYSPFTPKNQQVGGRKVYELHADKPISQGGEVYDMDNIRVTTPKRHIDIHRG PGKATGKGKPVGDKWLDDAGKDSGAPIPDRIADKLRDKEFKSFDDFRKAVWEEVSKDPELSKNLNPSNKSSVSKGYSPFTPKNQQVGGRKVYELHADKPISQGGEVYDMDNIRVTTPKRHIDIHRG 1v19-a1-m2-cA_1v19-a1-m3-cA 2-KETO-3-DEOXYGLUCONATE KINASE FROM THERMUS THERMOPHILUS Q53W83 Q53W83 2.3 X-RAY DIFFRACTION 25 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 301 301 1v19-a1-m1-cA_1v19-a1-m2-cA 1v19-a1-m1-cA_1v19-a1-m3-cA 1v19-a1-m1-cB_1v19-a1-m2-cB 1v19-a1-m1-cB_1v19-a1-m3-cB 1v19-a1-m2-cB_1v19-a1-m3-cB 1v1a-a1-m1-cA_1v1a-a1-m2-cA 1v1a-a1-m1-cA_1v1a-a1-m3-cA 1v1a-a1-m1-cB_1v1a-a1-m2-cB 1v1a-a1-m1-cB_1v1a-a1-m3-cB 1v1a-a1-m2-cA_1v1a-a1-m3-cA 1v1a-a1-m2-cB_1v1a-a1-m3-cB 1v1b-a1-m1-cA_1v1b-a1-m2-cA 1v1b-a1-m1-cA_1v1b-a1-m3-cA 1v1b-a1-m1-cB_1v1b-a1-m2-cB 1v1b-a1-m1-cB_1v1b-a1-m3-cB 1v1b-a1-m2-cA_1v1b-a1-m3-cA 1v1b-a1-m2-cB_1v1b-a1-m3-cB 1v1b-a2-m1-cC_1v1b-a2-m4-cC 1v1b-a2-m1-cC_1v1b-a2-m5-cC 1v1b-a2-m1-cD_1v1b-a2-m4-cD 1v1b-a2-m1-cD_1v1b-a2-m5-cD 1v1b-a2-m4-cC_1v1b-a2-m5-cC 1v1b-a2-m4-cD_1v1b-a2-m5-cD 1v1s-a1-m1-cA_1v1s-a1-m2-cA 1v1s-a1-m1-cA_1v1s-a1-m3-cA 1v1s-a1-m1-cB_1v1s-a1-m2-cB 1v1s-a1-m1-cB_1v1s-a1-m3-cB 1v1s-a1-m2-cA_1v1s-a1-m3-cA 1v1s-a1-m2-cB_1v1s-a1-m3-cB 1v1s-a2-m1-cC_1v1s-a2-m4-cC 1v1s-a2-m1-cC_1v1s-a2-m5-cC 1v1s-a2-m1-cD_1v1s-a2-m4-cD 1v1s-a2-m1-cD_1v1s-a2-m5-cD 1v1s-a2-m4-cC_1v1s-a2-m5-cC 1v1s-a2-m4-cD_1v1s-a2-m5-cD 1v1s-a3-m1-cE_1v1s-a3-m6-cE 1v1s-a3-m1-cE_1v1s-a3-m7-cE 1v1s-a3-m1-cF_1v1s-a3-m6-cF 1v1s-a3-m1-cF_1v1s-a3-m7-cF 1v1s-a3-m6-cE_1v1s-a3-m7-cE 1v1s-a3-m6-cF_1v1s-a3-m7-cF MLEVVTAGEPLVALVPQEPGHLRGKRLLEVYVGGAEVNVAVALARLGVKVGFVGRVGEDELGAMVEERLRAEGVDLTHFRRAPGFTGLYLREYLPLGQGRVFYYRKGSAGSALAPGAFDPDYLEGVRFLHLSGITPALSPEARAFSLWAMEEAKRRGVRVSLDVNYRQTLWSPEEARGFLERALPGVDLLFLSEEEAELLFGRVEEALRALSAPEVVLKRGAKGAWAFVDGRRVEGSAFAVEAVDPVGAGDAFAAGYLAGAVWGLPVEERLRLANLLGASVAASRGDHEGAPYREDLEVLL MLEVVTAGEPLVALVPQEPGHLRGKRLLEVYVGGAEVNVAVALARLGVKVGFVGRVGEDELGAMVEERLRAEGVDLTHFRRAPGFTGLYLREYLPLGQGRVFYYRKGSAGSALAPGAFDPDYLEGVRFLHLSGITPALSPEARAFSLWAMEEAKRRGVRVSLDVNYRQTLWSPEEARGFLERALPGVDLLFLSEEEAELLFGRVEEALRALSAPEVVLKRGAKGAWAFVDGRRVEGSAFAVEAVDPVGAGDAFAAGYLAGAVWGLPVEERLRLANLLGASVAASRGDHEGAPYREDLEVLL 1v19-a1-m2-cA_1v19-a1-m3-cB 2-KETO-3-DEOXYGLUCONATE KINASE FROM THERMUS THERMOPHILUS Q53W83 Q53W83 2.3 X-RAY DIFFRACTION 12 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 301 301 1v19-a1-m1-cA_1v19-a1-m2-cB 1v19-a1-m1-cB_1v19-a1-m3-cA 1v1a-a1-m1-cA_1v1a-a1-m2-cB 1v1a-a1-m1-cB_1v1a-a1-m3-cA 1v1a-a1-m2-cA_1v1a-a1-m3-cB 1v1b-a1-m1-cA_1v1b-a1-m2-cB 1v1b-a1-m1-cB_1v1b-a1-m3-cA 1v1b-a1-m2-cA_1v1b-a1-m3-cB 1v1b-a2-m1-cC_1v1b-a2-m4-cD 1v1b-a2-m1-cD_1v1b-a2-m5-cC 1v1b-a2-m4-cC_1v1b-a2-m5-cD 1v1s-a1-m1-cA_1v1s-a1-m2-cB 1v1s-a1-m1-cB_1v1s-a1-m3-cA 1v1s-a1-m2-cA_1v1s-a1-m3-cB 1v1s-a2-m1-cC_1v1s-a2-m5-cD 1v1s-a2-m1-cD_1v1s-a2-m4-cC 1v1s-a2-m4-cD_1v1s-a2-m5-cC 1v1s-a3-m1-cE_1v1s-a3-m6-cF 1v1s-a3-m1-cF_1v1s-a3-m7-cE 1v1s-a3-m6-cE_1v1s-a3-m7-cF MLEVVTAGEPLVALVPQEPGHLRGKRLLEVYVGGAEVNVAVALARLGVKVGFVGRVGEDELGAMVEERLRAEGVDLTHFRRAPGFTGLYLREYLPLGQGRVFYYRKGSAGSALAPGAFDPDYLEGVRFLHLSGITPALSPEARAFSLWAMEEAKRRGVRVSLDVNYRQTLWSPEEARGFLERALPGVDLLFLSEEEAELLFGRVEEALRALSAPEVVLKRGAKGAWAFVDGRRVEGSAFAVEAVDPVGAGDAFAAGYLAGAVWGLPVEERLRLANLLGASVAASRGDHEGAPYREDLEVLL MLEVVTAGEPLVALVPQEPGHLRGKRLLEVYVGGAEVNVAVALARLGVKVGFVGRVGEDELGAMVEERLRAEGVDLTHFRRAPGFTGLYLREYLPLGQGRVFYYRKGSAGSALAPGAFDPDYLEGVRFLHLSGITPALSPEARAFSLWAMEEAKRRGVRVSLDVNYRQTLWSPEEARGFLERALPGVDLLFLSEEEAELLFGRVEEALRALSAPEVVLKRGAKGAWAFVDGRRVEGSAFAVEAVDPVGAGDAFAAGYLAGAVWGLPVEERLRLANLLGASVAASRGDHEGAPYREDLEVLL 1v19-a1-m3-cA_1v19-a1-m3-cB 2-KETO-3-DEOXYGLUCONATE KINASE FROM THERMUS THERMOPHILUS Q53W83 Q53W83 2.3 X-RAY DIFFRACTION 67 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 301 301 1v19-a1-m1-cA_1v19-a1-m1-cB 1v19-a1-m2-cA_1v19-a1-m2-cB 1v1a-a1-m1-cA_1v1a-a1-m1-cB 1v1a-a1-m2-cA_1v1a-a1-m2-cB 1v1a-a1-m3-cA_1v1a-a1-m3-cB 1v1b-a1-m1-cA_1v1b-a1-m1-cB 1v1b-a1-m2-cA_1v1b-a1-m2-cB 1v1b-a1-m3-cA_1v1b-a1-m3-cB 1v1b-a2-m1-cC_1v1b-a2-m1-cD 1v1b-a2-m4-cC_1v1b-a2-m4-cD 1v1b-a2-m5-cC_1v1b-a2-m5-cD 1v1s-a1-m1-cA_1v1s-a1-m1-cB 1v1s-a1-m2-cA_1v1s-a1-m2-cB 1v1s-a1-m3-cA_1v1s-a1-m3-cB 1v1s-a2-m1-cC_1v1s-a2-m1-cD 1v1s-a2-m4-cC_1v1s-a2-m4-cD 1v1s-a2-m5-cC_1v1s-a2-m5-cD 1v1s-a3-m1-cE_1v1s-a3-m1-cF 1v1s-a3-m6-cE_1v1s-a3-m6-cF 1v1s-a3-m7-cE_1v1s-a3-m7-cF MLEVVTAGEPLVALVPQEPGHLRGKRLLEVYVGGAEVNVAVALARLGVKVGFVGRVGEDELGAMVEERLRAEGVDLTHFRRAPGFTGLYLREYLPLGQGRVFYYRKGSAGSALAPGAFDPDYLEGVRFLHLSGITPALSPEARAFSLWAMEEAKRRGVRVSLDVNYRQTLWSPEEARGFLERALPGVDLLFLSEEEAELLFGRVEEALRALSAPEVVLKRGAKGAWAFVDGRRVEGSAFAVEAVDPVGAGDAFAAGYLAGAVWGLPVEERLRLANLLGASVAASRGDHEGAPYREDLEVLL MLEVVTAGEPLVALVPQEPGHLRGKRLLEVYVGGAEVNVAVALARLGVKVGFVGRVGEDELGAMVEERLRAEGVDLTHFRRAPGFTGLYLREYLPLGQGRVFYYRKGSAGSALAPGAFDPDYLEGVRFLHLSGITPALSPEARAFSLWAMEEAKRRGVRVSLDVNYRQTLWSPEEARGFLERALPGVDLLFLSEEEAELLFGRVEEALRALSAPEVVLKRGAKGAWAFVDGRRVEGSAFAVEAVDPVGAGDAFAAGYLAGAVWGLPVEERLRLANLLGASVAASRGDHEGAPYREDLEVLL 1v1g-a1-m1-cA_1v1g-a1-m2-cA Structure of the Arabidopsis thaliana SOS3 complexed with Calcium(II) ion O81223 O81223 2.7 X-RAY DIFFRACTION 19 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 188 188 1v1f-a1-m1-cA_1v1f-a1-m2-cA RPPGYEDPELLASVTPFTVEEVEALYELFKKLSSSIIDDGLIHKEEFQLALFRNRNRRNLFADRIFDVFDVKRNGVIEFGEFVRSLGVFHPSAPVHEKVKFAFKLYDLRQTGFIEREELKEMVVALLHESELVLSEDMIEVMVDKAFVQADRKNDGKIDIDEWKDFVSLNPSLIKNMTLPYLKDINRT RPPGYEDPELLASVTPFTVEEVEALYELFKKLSSSIIDDGLIHKEEFQLALFRNRNRRNLFADRIFDVFDVKRNGVIEFGEFVRSLGVFHPSAPVHEKVKFAFKLYDLRQTGFIEREELKEMVVALLHESELVLSEDMIEVMVDKAFVQADRKNDGKIDIDEWKDFVSLNPSLIKNMTLPYLKDINRT 1v1h-a2-m1-cD_1v1h-a2-m1-cE Adenovirus fibre shaft sequence N-terminally fused to the bacteriophage T4 fibritin foldon trimerisation motif with a short linker P10104 P10104 1.9 X-RAY DIFFRACTION 166 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 101 103 1v1h-a1-m1-cB_1v1h-a1-m1-cA 1v1i-a1-m1-cB_1v1i-a1-m1-cA VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIGGYIPEAPRDGQAYVRKDGEWVLLSTFL VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIGGSGYIPEAPRDGQAYVRKDGEWVLLSTFL 1v1h-a2-m1-cF_1v1h-a2-m1-cE Adenovirus fibre shaft sequence N-terminally fused to the bacteriophage T4 fibritin foldon trimerisation motif with a short linker P10104 P10104 1.9 X-RAY DIFFRACTION 163 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 101 103 1v1h-a1-m1-cB_1v1h-a1-m1-cC 1v1h-a1-m1-cC_1v1h-a1-m1-cA 1v1h-a2-m1-cD_1v1h-a2-m1-cF VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIGGYIPEAPRDGQAYVRKDGEWVLLSTFL VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIGGSGYIPEAPRDGQAYVRKDGEWVLLSTFL 1v1i-a1-m1-cC_1v1i-a1-m1-cA Adenovirus fibre shaft sequence N-terminally fused to the bacteriophage T4 fibritin foldon trimerisation motif with a long linker P10104 P10104 1.9 X-RAY DIFFRACTION 159 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 98 102 VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIIPEAPRDGQAYVRKDGEWVLLSTFL VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIGNGYIPEAPRDGQAYVRKDGEWVLLSTFL 1v1i-a1-m1-cC_1v1i-a1-m1-cB Adenovirus fibre shaft sequence N-terminally fused to the bacteriophage T4 fibritin foldon trimerisation motif with a long linker P10104 P10104 1.9 X-RAY DIFFRACTION 158 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 98 100 VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIIPEAPRDGQAYVRKDGEWVLLSTFL VSIKKSSGLNFDNTAIAINAGKGLEFDTNTSESPDINPIKTKIGSGIDYNENGAMITKLGAGLSFDNSGAITIGYIPEAPRDGQAYVRKDGEWVLLSTFL 1v1p-a1-m1-cA_1v1p-a1-m1-cB The structure SSL from Staphylococcus Aureus from an orthorhombic crystal form Q9ZFS5 Q9ZFS5 2.7 X-RAY DIFFRACTION 82 0.99 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 191 191 1v1o-a1-m1-cA_1v1o-a1-m1-cB HLHDIRDLHRYYSSESFEYSNVSGKVENYNGSNVVRFNPQNHQLFLLGKDKEQYKEGLQGQNVFVVQELIDPNGRLSTVGGVTKKNNKTSETNTPLFVNKVNGEDLDASIDSFLIQKEEISLKELDFKIRQQLVNNYGLYKGTSKYGKIIINLKDENKVEIDLGDKLQFERMGDVLNSKDIRGISVTINQI HDIRDLHRYYSSESFEYSNVSGKVENYNGSNVVRFNPKDQNHQLFLLGKDKEQYKEGLQGQNVFVVQELIDPNGRLSTVGGVTKKNNKTSETNTPLFVNKVNGEDLDASIDSFLIQKEEISLKELDFKIRQQLVNNYGLYKGTSKYGKIIINLKDENKVEIDLGDKLQFERMGDVLNSKDIRGISVTINQI 1v25-a1-m1-cA_1v25-a1-m1-cB Crystal structure of tt0168 from Thermus thermophilus HB8 Q5SKN9 Q5SKN9 2.3 X-RAY DIFFRACTION 188 0.998 274 (Thermus thermophilus) 274 (Thermus thermophilus) 491 507 1ult-a1-m1-cB_1ult-a1-m1-cA 1v26-a1-m1-cA_1v26-a1-m1-cB AFPSTMMDEELNLWDFLERAAALFGRKEVVSRLHTGEVHRTTYAEVYQRARRLMGGLRALGVGVGDRVATLGFNHFRHLEAYFAVPGMGAVLHTANPRLSPKEIAYILNHAEDKVLLFDPNLLPLVEAIRGELKTVQHFVVMDEKAPEGYLAYEEALGEEADPVRVPERAACGMAYTTGTTGLPKGVVYSHRALVLHSLAASLVDGTALSEKDVVLPVVPMFHVNAWCLPYAATLVGAKQVLPGPRLDPASLVELFDGEGVTFTAGVPTVWLALADYLESTGHRLKTLRRLVVGGSAAPRSLIARFERMGVEVRQGYGLTETSPVVVQNFVKSHLESLSEEEKLTLKAKTGLPIPLVRLRVADEEGRPVPKDGKALGEVQLKGPWITGGYYGNEEATRSALTPDGFFRTGDIAVWDEEGYVEIKDRLKDLIKSGGEWISSVDLENAAVVAIPHPKWQERPLAVVGFAKWQLPDAYLKRALREQYKNYYGGA AFPSTMMDEELNLWDFLERAAALFGRKEVVSRLHTGEVHRTTYAEVYQRARRLMGGLRALGVGVGDRVATLGFNHFRHLEAYFAVPGMGAVLHTANPRLSPKEIAYILNHAEDKVLLFDPNLLPLVEAIRGELKTVQHFVVMDEKAPEGYLAYEEALGEEADPVRVPERAACGMAYTTGTTGLPKGVVYSHRALVLHSLAASLVDGTALSEKDVVLPVVPMFHVNAWCLPYAATLVGAKQVLPGPRLDPASLVELFDGEGVTFTAGVPTVWLALADYLESTGHRLKTLRRLVVGGSAAPRSLIARFERMGVEVRQGYGLTETSPVVVQNFVKSHLESLSEEEKLTLKAKTGLPIPLVRLRVADEEGRPVPKDGKALGEVQLKGPWITGGYYGNEEATRSALTPDGFFRTGDIAVWDEEGYVEIKDRLKDLIKSGGEWISSVDLENALMGHAAVVAIPHPKWQERPLAVNEHLLKAGFAKWQLPDAYVFGKFLKRALREQYKNYYGGA 1v29-a1-m1-cB_1v29-a1-m2-cB Crystal structure of Nitrile hydratase from a thermophile Bacillus smithii 2.6 X-RAY DIFFRACTION 61 1.0 1479 (Bacillus smithii) 1479 (Bacillus smithii) 229 229 MNGIHDVGGMDGFGKIMYVKEEEDTYFKHDWERLTFGLVAGCMAQGLGMKAFDEFRIGIEKMRPVDYLTSSYYGHWIATVAYNLLETGVLDEKELEDRTQAFMEKPDTKIQRWENPKLVKVVEKALLEGLSPVREVSSFPRFEVGERIKTRNIHPTGHTRFPRYVRDKYGVIEEVYGAHVFPDDAAHRKGENPQYLYRVRFDAEELWGVKQNDSVYIDLWEGYLEPVSH MNGIHDVGGMDGFGKIMYVKEEEDTYFKHDWERLTFGLVAGCMAQGLGMKAFDEFRIGIEKMRPVDYLTSSYYGHWIATVAYNLLETGVLDEKELEDRTQAFMEKPDTKIQRWENPKLVKVVEKALLEGLSPVREVSSFPRFEVGERIKTRNIHPTGHTRFPRYVRDKYGVIEEVYGAHVFPDDAAHRKGENPQYLYRVRFDAEELWGVKQNDSVYIDLWEGYLEPVSH 1v2a-a3-m2-cC_1v2a-a3-m1-cB Glutathione S-transferase 1-6 from Anopheles dirus species B Q9BHB0 Q9BHB0 2.15 X-RAY DIFFRACTION 46 1.0 7168 (Anopheles dirus) 7168 (Anopheles dirus) 208 209 MDYYYSLISPPCQSAILLAKKLGITLNLKKTNVHDPVERDALTKLNPQHTIPTLVDNGHVVWESYAIVLYLVETYAKDDTLYPKDPKVRSVVNQRLFFDIGTLYKRIIDVIHLVMKKEQPSDEQMEKLKGALDLLEQFVTERAYAAADHLTVADICLLGTVTALNWLKHDLEPFPHIRAWLERVRAEMPDYEEFSKQVADDTLAYVAS MDYYYSLISPPCQSAILLAKKLGITLNLKKTNVHDPVERDALTKLNPQHTIPTLVDNGHVVWESYAIVLYLVETYAKDDTLYPKDPKVRSVVNQRLFFDIGTLYKRIIDVIHLVMKKEQPSDEQMEKLKGALDLLEQFVTERAYAAADHLTVADICLLGTVTALNWLKHDLEPFPHIRAWLERVRAEMPDYEEFSKQVADDTLAYVASR 1v2a-a3-m2-cC_1v2a-a3-m2-cD Glutathione S-transferase 1-6 from Anopheles dirus species B Q9BHB0 Q9BHB0 2.15 X-RAY DIFFRACTION 75 1.0 7168 (Anopheles dirus) 7168 (Anopheles dirus) 208 208 1v2a-a1-m1-cA_1v2a-a1-m1-cB 1v2a-a2-m1-cC_1v2a-a2-m1-cD 1v2a-a3-m1-cA_1v2a-a3-m1-cB MDYYYSLISPPCQSAILLAKKLGITLNLKKTNVHDPVERDALTKLNPQHTIPTLVDNGHVVWESYAIVLYLVETYAKDDTLYPKDPKVRSVVNQRLFFDIGTLYKRIIDVIHLVMKKEQPSDEQMEKLKGALDLLEQFVTERAYAAADHLTVADICLLGTVTALNWLKHDLEPFPHIRAWLERVRAEMPDYEEFSKQVADDTLAYVAS MDYYYSLISPPCQSAILLAKKLGITLNLKKTNVHDPVERDALTKLNPQHTIPTLVDNGHVVWESYAIVLYLVETYAKDDTLYPKDPKVRSVVNQRLFFDIGTLYKRIIDVIHLVMKKEQPSDEQMEKLKGALDLLEQFVTERAYAAADHLTVADICLLGTVTALNWLKHDLEPFPHIRAWLERVRAEMPDYEEFSKQVADDTLAYVAS 1v2f-a1-m1-cB_1v2f-a1-m1-cA Crystal Structure of T.th HB8 Glutamine Aminotransferase complex with 3-phenylpropionate Q75WK2 Q75WK2 2.35 X-RAY DIFFRACTION 224 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 367 368 1v2d-a1-m1-cA_1v2d-a1-m2-cA 1v2e-a1-m1-cB_1v2e-a1-m1-cA MRLHPRTEAAKESIFPRMSGLAQRLGAVNLGQGFPSNPPPPFLLEAVRRALGRQDQYAPPAGLPALREALAEEFAVEPESVVVTSGATEALYVLLQSLVGPGDEVVVLEPFFDVYLPDAFLAGAKARLVRLDLTPEGFRLDLSALEKALTPRTRALLLNTPMNPTGLVFGERELEAIARLARAHDLFLISDEVYDELYYGERPRRLREFAPERTFTVGSAGKRLEATGYRVGWIVGPKEFMPRLAGMRQWTSFSAPTPLQAGVAEALKLARREGFYEALREGYRRRRDLLAGGLRAMGLRVYVPEGTYFLMAELPGWDAFRLVEEARVALIPASAFYLEDPPKDLFRFAFCKTEEELHLALERLGRV MRLHPRTEAAKESIFPRMSGLAQRLGAVNLGQGFPSNPPPPFLLEAVRRALGRQDQYAPPAGLPALREALAEEFAVEPESVVVTSGATEALYVLLQSLVGPGDEVVVLEPFFDVYLPDAFLAGAKARLVRLDLTPEGFRLDLSALEKALTPRTRALLLNTPMNPTGLVFGERELEAIARLARAHDLFLISDEVYDELYYGERPRRLREFAPERTFTVGSAGKRLEATGYRVGWIVGPKEFMPRLAGMRQWTSFSAPTPLQAGVAEALKLARREGFYEALREGYRRRRDLLAGGLRAMGLRVYVPEGTYFLMAELPGWDAFRLVEEARVALIPASAFYLEDPPKDLFRFAFCKTEEELHLALERLGRVV 1v2x-a1-m1-cA_1v2x-a1-m2-cA TrmH Q5SM16 Q5SM16 1.5 X-RAY DIFFRACTION 127 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 191 191 MRERTEARRRRIEEVLRRRQPDLTVLLENVHKPHNLSAILRTCDAVGVLEAHAVNPTGGVPTFNETSGGSHKWVYLRVHPDLHEAFRFLKERGFTVYATALREDARDFREVDYTKPTAVLFGAEKWGVSEEALALADGAIKIPMLGMVQSLNVSVAAAVILFEAQRQRLKAGLYDRPRLDPELYQKVLADW MRERTEARRRRIEEVLRRRQPDLTVLLENVHKPHNLSAILRTCDAVGVLEAHAVNPTGGVPTFNETSGGSHKWVYLRVHPDLHEAFRFLKERGFTVYATALREDARDFREVDYTKPTAVLFGAEKWGVSEEALALADGAIKIPMLGMVQSLNVSVAAAVILFEAQRQRLKAGLYDRPRLDPELYQKVLADW 1v37-a1-m2-cB_1v37-a1-m1-cA Crystal structure of phosphoglycerate mutase from Thermus thermophilus HB8 Q53WB3 Q53WB3 1.4 X-RAY DIFFRACTION 31 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 170 171 1v37-a1-m1-cB_1v37-a1-m2-cA MELWLVRHGETLWNREGRLLGWTDLPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLAL MELWLVRHGETLWNREGRLLGWTDLPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLALD 1v37-a1-m2-cB_1v37-a1-m2-cA Crystal structure of phosphoglycerate mutase from Thermus thermophilus HB8 Q53WB3 Q53WB3 1.4 X-RAY DIFFRACTION 37 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 170 171 1v37-a1-m1-cB_1v37-a1-m1-cA 2ekb-a1-m1-cB_2ekb-a1-m1-cA 2ekz-a1-m1-cB_2ekz-a1-m1-cA 2eoa-a1-m1-cB_2eoa-a1-m1-cA 2owd-a1-m1-cB_2owd-a1-m1-cA MELWLVRHGETLWNREGRLLGWTDLPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLAL MELWLVRHGETLWNREGRLLGWTDLPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLALD 1v3r-a1-m1-cC_1v3r-a1-m1-cA Crystal structure of TT1020 from Thermus thermophilus HB8 P83820 P83820 1.85 X-RAY DIFFRACTION 69 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 90 92 1ufl-a1-m1-cC_1ufl-a1-m1-cA 1ufl-a2-m1-cC_1ufl-a2-m1-cA 1ufl-a2-m2-cC_1ufl-a2-m2-cA 1v3r-a1-m1-cA_1v3r-a1-m1-cB 1v3r-a1-m1-cC_1v3r-a1-m1-cB 1v3s-a1-m1-cB_1v3s-a1-m1-cA 1v3s-a1-m1-cC_1v3s-a1-m1-cA 1v3s-a1-m1-cC_1v3s-a1-m1-cB 1v9o-a1-m1-cB_1v9o-a1-m1-cA 1v9o-a1-m1-cC_1v9o-a1-m1-cA 1v9o-a1-m1-cC_1v9o-a1-m1-cB 1vfj-a1-m1-cB_1vfj-a1-m1-cA 1vfj-a1-m1-cC_1vfj-a1-m1-cA 1vfj-a1-m1-cC_1vfj-a1-m1-cB MKLIVAIVRPEKLNEVLKALFQAEVRGLTLSRVQGHLHEKVRLEIGVSEPFVKPTVEAILKAARTGEVGDGKIFVLPVEKVYRIRTGEED MKLIVAIVRPEKLNEVLKALFQAEVRGLTLSRVQGHELHEKVRLEIGVSEPFVKPTVEAILKAARTGEVGDGKIFVLPVEKVYRIRTGEEDE 1v3t-a1-m1-cB_1v3t-a1-m1-cA Crystal structure of leukotriene B4 12-hydroxydehydrogenase/15-oxo-prostaglandin 13-reductase Q9EQZ5 Q9EQZ5 2.3 X-RAY DIFFRACTION 83 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 330 333 1v3u-a1-m1-cA_1v3u-a1-m1-cB 1v3v-a1-m1-cB_1v3v-a1-m1-cA 2dm6-a1-m1-cA_2dm6-a1-m1-cB FMVKAKSWTLKKHFQGKPTQSDFELKTVELPPLKNGEVLLEALFLSVDPYMRIASKRLKEGAVMMGQQVARVVESKNSAFPAGSIVLAQSGWTTHFISDGKGLEKLLTEWPDKLPLSLALGTIGMPGLTAYFGLLEVCGVKGGETVLVSAAAGAVGSVVGQIAKLKGCKVVGAAGSDEKIAYLKQIGFDAAFNYKTVNSLEEALKKASPDGYDCYFDNVGGEFLNTVLSQMKDFGKIAICGAISVYNRMDQLPPGPSPESIIYKQLRIEGFIVYRWQGDVREKALRDLMKWVLEGKIQYHEHVTKGFENMPAAFIEMLNGANLGKAVVTA SPEFMVKAKSWTLKKHFQGKPTQSDFELKTVELPPLKNGEVLLEALFLSVDPYMRIASKRLKEGAVMMGQQVARVVESKNSAFPAGSIVLAQSGWTTHFISDGKGLEKLLTEWPDKLPLSLALGTIGMPGLTAYFGLLEVCGVKGGETVLVSAAAGAVGSVVGQIAKLKGCKVVGAAGSDEKIAYLKQIGFDAAFNYKTVNSLEEALKKASPDGYDCYFDNVGGEFLNTVLSQMKDFGKIAICGAISVYNRMDQLPPGPSPESIIYKQLRIEGFIVYRWQGDVREKALRDLMKWVLEGKIQYHEHVTKGFENMPAAFIEMLNGANLGKAVVTA 1v3w-a1-m2-cA_1v3w-a1-m3-cA Structure of Ferripyochelin binding protein from Pyrococcus horikoshii OT3 O59257 O59257 1.5 X-RAY DIFFRACTION 87 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 173 173 1v3w-a1-m1-cA_1v3w-a1-m2-cA 1v3w-a1-m1-cA_1v3w-a1-m3-cA 1v67-a1-m1-cA_1v67-a1-m2-cA 1v67-a1-m1-cA_1v67-a1-m3-cA 1v67-a1-m2-cA_1v67-a1-m3-cA 2fko-a1-m1-cA_2fko-a1-m2-cA 2fko-a1-m1-cA_2fko-a1-m3-cA 2fko-a1-m2-cA_2fko-a1-m3-cA MAIYEINGKKPRIHPSAFVDENAVVIGDVVLEEKTSVWPSAVLRGDIEQIYVGKYSNVQDNVSIHTSHGYPTEIGEYVTIGHNAMVHGAKVGNYVIIGISSVILDGAKIGDHVIIGAGAVVPPNKEIPDYSLVLGVPGKVVRQLTEEEIEWTKKNAEIYVELAEKHIKGRKRI MAIYEINGKKPRIHPSAFVDENAVVIGDVVLEEKTSVWPSAVLRGDIEQIYVGKYSNVQDNVSIHTSHGYPTEIGEYVTIGHNAMVHGAKVGNYVIIGISSVILDGAKIGDHVIIGAGAVVPPNKEIPDYSLVLGVPGKVVRQLTEEEIEWTKKNAEIYVELAEKHIKGRKRI 1v43-a1-m1-cA_1v43-a1-m2-cA Crystal Structure of ATPase subunit of ABC Sugar Transporter O57758 O57758 2.2 X-RAY DIFFRACTION 87 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 353 353 1vci-a1-m1-cA_1vci-a1-m2-cA VIKMVEVKLENLTKRFGNFTAVNKLNLTIKDGEFLVLLGPSGCGKTTTLRMIAGLEEPTEGRIYFGDRDVTYLPPKDRNISMVFQHMTVYENIAFPLKKFPKDEIDKRVRWAAELLQIEELLNRYPAQLSGGQRQRVAVARAIVVEPDVLLMDEPLSNLDAKLRVAMRAEIKKLQQKLKVTTIYVTHDQVEAMTMGDRIAVMNRGQLLQIGSPTEVYLRPNSVFVATFIGAPEMNILEVSVGDGYLEGRGFRIELPQMDLLKDYVGKTVLFGIRPEHMTVEGVHMKRTARLIGKVDFVEALGTDTILHVKFGDELVKVKLPGHIPIEPGREVKVIMDLDMIHVFDKDTEKAIV VIKMVEVKLENLTKRFGNFTAVNKLNLTIKDGEFLVLLGPSGCGKTTTLRMIAGLEEPTEGRIYFGDRDVTYLPPKDRNISMVFQHMTVYENIAFPLKKFPKDEIDKRVRWAAELLQIEELLNRYPAQLSGGQRQRVAVARAIVVEPDVLLMDEPLSNLDAKLRVAMRAEIKKLQQKLKVTTIYVTHDQVEAMTMGDRIAVMNRGQLLQIGSPTEVYLRPNSVFVATFIGAPEMNILEVSVGDGYLEGRGFRIELPQMDLLKDYVGKTVLFGIRPEHMTVEGVHMKRTARLIGKVDFVEALGTDTILHVKFGDELVKVKLPGHIPIEPGREVKVIMDLDMIHVFDKDTEKAIV 1v47-a1-m1-cB_1v47-a1-m1-cA Crystal structure of ATP sulfurylase from Thermus thermophillus HB8 in complex with APS Q5SKH7 Q5SKH7 2.49 X-RAY DIFFRACTION 54 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 343 346 TLPALEIGEDERLDLENLATGAFFPVKGFMTREEALSVAHEMRLPTGEVWTIPILLQFREKPRVGPGNTVALLHGGERVALLHVAEAYELDLEALARAVFGTDSETHPGVARLYGKGPYALAGRVEVLKPRPRTPLEKTPEEVRAFFRQRGWRKVVAFQTRNAPHRAHEYLIRLGLELADGVLVHPILGAKKPDDFPTEVIVEAYQALIRDFLPQERVAFFGLATPMRYAGPKEAVFHALVRKNFGATHFLVGRDHAGVGDFYDPYAAHRIFDRLPPLGIEIVKVGAVFHCPLCGGIASERTCPEGHREKRTAISMTKVRALLEGKAPPSELVRPELLPILRR TLPALEIGEDERLDLENLATGAFFPVKGFMTREEALSVAHEMRLPTGEVWTIPILLQFREKPRVGPGNTVALLHGGERVALLHVAEAYELDLEALARAVFGTDSETHPGVARLYGKGPYALAGRVEVLKPRPRTPLEKTPEEVRAFFRQRGWRKVVAFQTRNAPHRAHEYLIRLGLELADGVLVHPILGAKKPDDFPTEVIVEAYQALIRDFLPQERVAFFGLATPMRYAGPKEAVFHALVRKNFGATHFLVGRDHAGVGDFYDPYAAHRIFDRLPPLGIEIVKVGAVFHCPLCGGIASERTCPEGHREKRTAISMTKVRALLREGKAPPSELVRPELLPILRRGV 1v4i-a2-m3-cA_1v4i-a2-m8-cA Crystal Structure of Octaprenyl Pyrophosphate Synthase from Hyperthermophilic Thermotoga maritima F132A mutant Q9X1M1 Q9X1M1 2.4 X-RAY DIFFRACTION 58 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 279 279 1v4e-a2-m1-cA_1v4e-a2-m4-cB 1v4e-a2-m1-cB_1v4e-a2-m3-cA 1v4e-a2-m2-cA_1v4e-a2-m3-cB 1v4e-a2-m2-cB_1v4e-a2-m4-cA 1v4h-a1-m1-cA_1v4h-a1-m2-cA 1v4h-a2-m1-cA_1v4h-a2-m2-cA 1v4h-a2-m3-cA_1v4h-a2-m8-cA 1v4h-a2-m4-cA_1v4h-a2-m7-cA 1v4h-a2-m5-cA_1v4h-a2-m6-cA 1v4i-a1-m1-cA_1v4i-a1-m2-cA 1v4i-a2-m1-cA_1v4i-a2-m2-cA 1v4i-a2-m4-cA_1v4i-a2-m7-cA 1v4i-a2-m5-cA_1v4i-a2-m6-cA 1v4j-a2-m1-cA_1v4j-a2-m4-cB 1v4j-a2-m1-cB_1v4j-a2-m3-cA 1v4j-a2-m2-cA_1v4j-a2-m3-cB 1v4j-a2-m2-cB_1v4j-a2-m4-cA 1v4k-a1-m1-cA_1v4k-a1-m2-cA 1v4k-a2-m1-cA_1v4k-a2-m2-cA 1v4k-a2-m3-cA_1v4k-a2-m8-cA 1v4k-a2-m4-cA_1v4k-a2-m7-cA 1v4k-a2-m5-cA_1v4k-a2-m6-cA 1vg2-a1-m1-cA_1vg2-a1-m2-cA 1vg2-a3-m1-cA_1vg2-a3-m2-cA 1vg2-a3-m3-cA_1vg2-a3-m5-cA 1vg2-a3-m4-cA_1vg2-a3-m8-cA 1vg2-a3-m6-cA_1vg2-a3-m7-cA 1vg3-a1-m1-cA_1vg3-a1-m2-cA 1vg3-a3-m1-cA_1vg3-a3-m2-cA 1vg3-a3-m3-cA_1vg3-a3-m5-cA 1vg3-a3-m4-cA_1vg3-a3-m8-cA 1vg3-a3-m6-cA_1vg3-a3-m7-cA 1vg6-a1-m1-cA_1vg6-a1-m2-cA 1vg6-a3-m1-cA_1vg6-a3-m2-cA 1vg6-a3-m3-cA_1vg6-a3-m5-cA 1vg6-a3-m4-cA_1vg6-a3-m8-cA 1vg6-a3-m6-cA_1vg6-a3-m7-cA 1vg7-a1-m1-cA_1vg7-a1-m2-cA 1vg7-a3-m1-cA_1vg7-a3-m2-cA 1vg7-a3-m3-cA_1vg7-a3-m5-cA 1vg7-a3-m4-cA_1vg7-a3-m8-cA 1vg7-a3-m6-cA_1vg7-a3-m7-cA 1wl2-a1-m1-cA_1wl2-a1-m2-cA NSYELEKVKERIEQILSQFFPEQIMKDLPLYGKMLRVRLSILSFKNRGVEIGEDAISSLAALELVHLASLLHDDVIDGARFRRGKETINFMYGDKAAVAAGDLVLVSAFHTVEEIGNNKLRRAALNVIGKMSEAELIEQLSRYKPITKEEYLRIVEGKSGALFGLALQLPALLEGELGEDLYNLGVTIGTIYQMFDDIMDFAGMEKIGKDGFLDLKNGVASFPLVTAMEKFPEARQMFENRDWSGLMSFMREKGILKECEETLKVLVKNVIIENSWLRD NSYELEKVKERIEQILSQFFPEQIMKDLPLYGKMLRVRLSILSFKNRGVEIGEDAISSLAALELVHLASLLHDDVIDGARFRRGKETINFMYGDKAAVAAGDLVLVSAFHTVEEIGNNKLRRAALNVIGKMSEAELIEQLSRYKPITKEEYLRIVEGKSGALFGLALQLPALLEGELGEDLYNLGVTIGTIYQMFDDIMDFAGMEKIGKDGFLDLKNGVASFPLVTAMEKFPEARQMFENRDWSGLMSFMREKGILKECEETLKVLVKNVIIENSWLRD 1v4k-a2-m4-cA_1v4k-a2-m8-cA Crystal Structure of Octaprenyl Pyrophosphate Synthase from Hyperthermophilic Thermotoga maritima S77F mutant Q9X1M1 Q9X1M1 2.45 X-RAY DIFFRACTION 103 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 277 277 1v4e-a1-m1-cA_1v4e-a1-m1-cB 1v4e-a2-m1-cA_1v4e-a2-m1-cB 1v4e-a2-m2-cA_1v4e-a2-m2-cB 1v4e-a2-m3-cA_1v4e-a2-m3-cB 1v4e-a2-m4-cA_1v4e-a2-m4-cB 1v4h-a2-m1-cA_1v4h-a2-m7-cA 1v4h-a2-m2-cA_1v4h-a2-m5-cA 1v4h-a2-m3-cA_1v4h-a2-m6-cA 1v4h-a2-m4-cA_1v4h-a2-m8-cA 1v4i-a2-m1-cA_1v4i-a2-m7-cA 1v4i-a2-m2-cA_1v4i-a2-m5-cA 1v4i-a2-m3-cA_1v4i-a2-m6-cA 1v4i-a2-m4-cA_1v4i-a2-m8-cA 1v4j-a1-m1-cA_1v4j-a1-m1-cB 1v4j-a2-m1-cA_1v4j-a2-m1-cB 1v4j-a2-m2-cA_1v4j-a2-m2-cB 1v4j-a2-m3-cA_1v4j-a2-m3-cB 1v4j-a2-m4-cA_1v4j-a2-m4-cB 1v4k-a2-m1-cA_1v4k-a2-m7-cA 1v4k-a2-m2-cA_1v4k-a2-m5-cA 1v4k-a2-m3-cA_1v4k-a2-m6-cA 1vg2-a2-m1-cA_1vg2-a2-m3-cA 1vg2-a3-m1-cA_1vg2-a3-m3-cA 1vg2-a3-m2-cA_1vg2-a3-m6-cA 1vg2-a3-m4-cA_1vg2-a3-m7-cA 1vg2-a3-m5-cA_1vg2-a3-m8-cA 1vg3-a2-m1-cA_1vg3-a2-m3-cA 1vg3-a3-m1-cA_1vg3-a3-m3-cA 1vg3-a3-m2-cA_1vg3-a3-m6-cA 1vg3-a3-m4-cA_1vg3-a3-m7-cA 1vg3-a3-m5-cA_1vg3-a3-m8-cA 1vg4-a1-m1-cA_1vg4-a1-m1-cB 1vg6-a2-m1-cA_1vg6-a2-m3-cA 1vg6-a3-m1-cA_1vg6-a3-m3-cA 1vg6-a3-m2-cA_1vg6-a3-m6-cA 1vg6-a3-m4-cA_1vg6-a3-m7-cA 1vg6-a3-m5-cA_1vg6-a3-m8-cA 1vg7-a2-m1-cA_1vg7-a2-m3-cA 1vg7-a3-m1-cA_1vg7-a3-m3-cA 1vg7-a3-m2-cA_1vg7-a3-m6-cA 1vg7-a3-m4-cA_1vg7-a3-m7-cA 1vg7-a3-m5-cA_1vg7-a3-m8-cA 1wkz-a1-m1-cA_1wkz-a1-m1-cB 1wl0-a1-m1-cA_1wl0-a1-m1-cB 1wl1-a1-m1-cA_1wl1-a1-m1-cB 1wl2-a2-m1-cA_1wl2-a2-m3-cA 1wl3-a1-m1-cA_1wl3-a1-m1-cB 2azl-a2-m1-cA_2azl-a2-m2-cA YELEKVKERIEQILSQFFPEQIMKDLPLYGKMLRVRLSILSFKNRGVEIGEDAISSLAALELVHLAFLLHDDVIDGARFRRGKETINFMYGDKAAVAAGDLVLVSAFHTVEEIGNNKLRRAFLNVIGKMSEAELIEQLSRYKPITKEEYLRIVEGKSGALFGLALQLPALLEGELGEDLYNLGVTIGTIYQMFDDIMDFAGMEKIGKDGFLDLKNGVASFPLVTAMEKFPEARQMFENRDWSGLMSFMREKGILKECEETLKVLVKNVIIENSWLRD YELEKVKERIEQILSQFFPEQIMKDLPLYGKMLRVRLSILSFKNRGVEIGEDAISSLAALELVHLAFLLHDDVIDGARFRRGKETINFMYGDKAAVAAGDLVLVSAFHTVEEIGNNKLRRAFLNVIGKMSEAELIEQLSRYKPITKEEYLRIVEGKSGALFGLALQLPALLEGELGEDLYNLGVTIGTIYQMFDDIMDFAGMEKIGKDGFLDLKNGVASFPLVTAMEKFPEARQMFENRDWSGLMSFMREKGILKECEETLKVLVKNVIIENSWLRD 1v4l-a5-m4-cA_1v4l-a5-m4-cC Crystal structure of a platelet agglutination factor isolated from the venom of Taiwan habu (Trimeresurus mucrosquamatus) Q6TPH0 Q6TPH0 2.8 X-RAY DIFFRACTION 28 1.0 103944 (Protobothrops mucrosquamatus) 103944 (Protobothrops mucrosquamatus) 135 135 1v4l-a1-m1-cA_1v4l-a1-m1-cC 1v4l-a1-m2-cA_1v4l-a1-m2-cC 1v4l-a1-m3-cA_1v4l-a1-m3-cC 1v4l-a1-m4-cA_1v4l-a1-m4-cC 1v4l-a5-m1-cA_1v4l-a5-m1-cC 1v4l-a5-m2-cA_1v4l-a5-m2-cC 1v4l-a5-m3-cA_1v4l-a5-m3-cC 1v4l-a6-m1-cE_1v4l-a6-m5-cE 1v4l-a6-m2-cE_1v4l-a6-m6-cE 1v4l-a6-m3-cE_1v4l-a6-m8-cE 1v4l-a6-m4-cE_1v4l-a6-m7-cE DFDCIPGWSAYDRYCYQAFSEPKNWEDAESFCEEGVKTSHLVSIESSGEGDFVAQLVAEKIKTSFQYVWIGLRIQNKEQQCRSEWSDASSVNYENLYKQSSKKCYALKKGTELRTWFNVYCGRENPFVCKYTPEC DFDCIPGWSAYDRYCYQAFSEPKNWEDAESFCEEGVKTSHLVSIESSGEGDFVAQLVAEKIKTSFQYVWIGLRIQNKEQQCRSEWSDASSVNYENLYKQSSKKCYALKKGTELRTWFNVYCGRENPFVCKYTPEC 1v4n-a1-m1-cC_1v4n-a1-m1-cB Structure of 5'-deoxy-5'-methylthioadenosine phosphorylase homologue from Sulfolobus tokodaii F9VN03 F9VN03 2.45 X-RAY DIFFRACTION 106 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 267 269 1v4n-a1-m1-cA_1v4n-a1-m1-cB 1v4n-a1-m1-cA_1v4n-a1-m1-cC PKEKASIGIIGGSGLYDPQILTNVKEIKVYTPYGEPSDNIILGELEGRKVAFLPRHGRGHRIPPHKINYRANIWALKSLGVKWVIAVSAVGSLRLDYKPGDFVVPNQFIDMTKGRTYTFFDGPTVAHVSMADPFCEHLRSIILDSAKDLGITTHDKGTYICIEGPRFSTRAESIVWKEVFKADIIGMTLVPEVNLACEAEMCYSVIGMVTDYDVFADIPVTAEEVTKVMAENTAKVKKLLYEVIRRLPEKPDERKCSCCQALKTALV EPKEKASIGIIGGSGLYDPQILTNVKEIKVYTPYGEPSDNIILGELEGRKVAFLPRHGRGHRIPPHKINYRANIWALKSLGVKWVIAVSAVGSLRLDYKPGDFVVPNQFIDMTKGRTYTFFDGPTVAHVSMADPFCEHLRSIILDSAKDLGITTHDKGTYICIEGPRFSTRAESIVWKEVFKADIIGMTLVPEVNLACEAEMCYSVIGMVTDYDVFADIPVTAEEVTKVMAENTAKVKKLLYEVIRRLPEKPDERKCSCCQALKTALVL 1v4p-a4-m1-cA_1v4p-a4-m1-cC Crystal structure of Alanyl-tRNA Synthetase from Pyrococcus horikoshii OT3 O58307 O58307 1.45 X-RAY DIFFRACTION 40 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 151 155 MYSIEVRTHSALHVVKGAVVKVLGSEAKWTYSTYVKGNKGVLIVKFDRKPSDEEIREIERLANEKVKENAPIKIYELPREEAEKMFGEDMYDLFPVPEDVRILKVVVIEDWNVNACNKEHTKTTGEIGPIKIRKVRFRKSKGLLEIHFELL MYSIEVRTHSALHVVKGAVVKVLGSEAKWTYSTYVKGNKGVLIVKFDRKPSDEEIREIERLANEKVKENAPIKIYELPREEAEKMFGEDMYDLFPVPEDVRILKVVVIEDWNVNACNKEHTKTTGEIGPIKIRKVRFRKSKGLLEIHFELLELEN 1v4v-a1-m1-cB_1v4v-a1-m1-cA Crystal Structure Of UDP-N-Acetylglucosamine 2-Epimerase From Thermus Thermophilus HB8 P83824 P83824 1.8 X-RAY DIFFRACTION 69 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 363 364 KRVVLAFGTRPEATKAPVYLALRGIPGLKPLVLLTGQHREQLRQALSLFGIQEDRNLDVQERQALPDLAARILPQAARALKEGADYVLVHGDTLTTFAVAWAAFLEGIPVGHVEAGLRSGNLKEPFPEEANRRLTDVLTDLDFAPTPLAKANLLKEGKREEGILVTGQTGVDAVLLAAKLGRLPEGLPEGPYVTVTHRRENWPLLSDLAQALKRVAEAFPHLTFVYPVHLNPVVREAVFPVLKGVRNFVLLDPLEYGSAALRASLLLVTDSGGLQEEGAALGVPVVVLRNVTERPEGLKAGILKLAGTDPEGVYRVVKGLLENPEELSRRKAKNPYGDGKAGLVARGVAWRLGLGPRPEDWLP GKRVVLAFGTRPEATKAPVYLALRGIPGLKPLVLLTGQHREQLRQALSLFGIQEDRNLDVQERQALPDLAARILPQAARALKEGADYVLVHGDTLTTFAVAWAAFLEGIPVGHVEAGLRSGNLKEPFPEEANRRLTDVLTDLDFAPTPLAKANLLKEGKREEGILVTGQTGVDAVLLAAKLGRLPEGLPEGPYVTVTHRRENWPLLSDLAQALKRVAEAFPHLTFVYPVHLNPVVREAVFPVLKGVRNFVLLDPLEYGSAALRASLLLVTDSGGLQEEGAALGVPVVVLRNVTERPEGLKAGILKLAGTDPEGVYRVVKGLLENPEELSRRKAKNPYGDGKAGLVARGVAWRLGLGPRPEDWLP 1v4w-a1-m1-cA_1v4w-a1-m1-cC Crystal structure of bluefin tuna hemoglobin deoxy form at pH7.5 Q8AYM0 Q8AYM0 1.7 X-RAY DIFFRACTION 19 1.0 8237 (Thunnus thynnus) 8237 (Thunnus thynnus) 143 143 1v4u-a1-m1-cA_1v4u-a1-m1-cC 1v4x-a1-m1-cA_1v4x-a1-m1-cC TTLSDKDKSTVKALWGKISKSADAIGADALGRMLAVYPQTKTYFSHWPDMSPGSGPVKAHGKKVMGGVALAVSKIDDLTTGLGDLSELHAFKMRVDPSNFKILSHCILVVVAKMFPKEFTPDAHVSLDKFLASVALALAERYR TTLSDKDKSTVKALWGKISKSADAIGADALGRMLAVYPQTKTYFSHWPDMSPGSGPVKAHGKKVMGGVALAVSKIDDLTTGLGDLSELHAFKMRVDPSNFKILSHCILVVVAKMFPKEFTPDAHVSLDKFLASVALALAERYR 1v59-a1-m1-cA_1v59-a1-m1-cB Crystal structure of yeast lipoamide dehydrogenase complexed with NAD+ P09624 P09624 2.2 X-RAY DIFFRACTION 272 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 478 478 1jeh-a1-m1-cA_1jeh-a1-m1-cB TINKSHDVVIIGGGPAGYVAAIKAAQLGFNTACVEKRGKLGGTCLNVGCIPSKALLNNSHLFHQMHTEAQKRGIDVNGDIKINVANFQKAKDDAVKQLTGGIELLFKKNKVTYYKGNGSFEDETKIRVTPVDGLEGTVKEDHILDVKNIIVATGSEVTPFPGIEIDEEKIVSSTGALSLKEIPKRLTIIGGGIIGLEMGSVYSRLGSKVTVVEFQPQIGASMDGEVAKATQKFLKKQGLDFKLSTKVISAKRNDDKNVVEIVVEDTKTNKQENLEAEVLLVAVGRRPYIAGLGAEKIGLEVDKRGRLVIDDQFNSKFPHIKVVGDVTFGPMLAHKAEEEGIAAVEMLKTGHGHVNYNNIPSVMYSHPEVAWVGKTEEQLKEAGIDYKIGKFPFAANSRAKTNQDTEGFVKILIDSKTERILGAHIIGPNAGEMIAEAGLALEYGASAEDVARVCHAHPTLSEAFKEANMAAYDKAIHC TINKSHDVVIIGGGPAGYVAAIKAAQLGFNTACVEKRGKLGGTCLNVGCIPSKALLNNSHLFHQMHTEAQKRGIDVNGDIKINVANFQKAKDDAVKQLTGGIELLFKKNKVTYYKGNGSFEDETKIRVTPVDGLEGTVKEDHILDVKNIIVATGSEVTPFPGIEIDEEKIVSSTGALSLKEIPKRLTIIGGGIIGLEMGSVYSRLGSKVTVVEFQPQIGASMDGEVAKATQKFLKKQGLDFKLSTKVISAKRNDDKNVVEIVVEDTKTNKQENLEAEVLLVAVGRRPYIAGLGAEKIGLEVDKRGRLVIDDQFNSKFPHIKVVGDVTFGPMLAHKAEEEGIAAVEMLKTGHGHVNYNNIPSVMYSHPEVAWVGKTEEQLKEAGIDYKIGKFPFAANSRAKTNQDTEGFVKILIDSKTERILGAHIIGPNAGEMIAEAGLALEYGASAEDVARVCHAHPTLSEAFKEANMAAYDKAIHC 1v5b-a4-m1-cG_1v5b-a4-m1-cH The Structure Of The Mutant, S225A and E251L, Of 3-Isopropylmalate Dehydrogenase From Bacillus Coagulans P12010 P12010 2.95 X-RAY DIFFRACTION 134 1.0 1398 (Weizmannia coagulans) 1398 (Weizmannia coagulans) 357 357 1v53-a1-m1-cA_1v53-a1-m1-cB 1v5b-a1-m1-cA_1v5b-a1-m1-cB 1v5b-a2-m1-cC_1v5b-a2-m1-cD 1v5b-a3-m1-cE_1v5b-a3-m1-cF 2ayq-a1-m1-cA_2ayq-a1-m1-cB MKMKLAVLPGDGIGPEVMDAAIRVLKTVLDNDGHEAVFENALIGGAAIDEAGTPLPEETLDICRRSDAILLGAVGGPKWDHNPASLRPEKGLLGLRKEMGLFANLRPVKAYATLLNASPLKRERVENVDLVIVRELTGGLYFGRPSERRGPGENEVVDTLAYTREEIERIIEKAFQLAQIRRKKLASVDKANVLESSRMWREIAEETAKKYPDVELSHMLVDSTAMQLIANPGQFDVIVTENMFGDILSDLASVITGSLGMLPSASLRSDRFGMYEPVHGSAPDIAGQGKANPLGTVLSAALMLRYSFGLEKEAAAIEKAVDDVLQDGYCTGDLQVANGKVVSTIELTDRLIEKLNN MKMKLAVLPGDGIGPEVMDAAIRVLKTVLDNDGHEAVFENALIGGAAIDEAGTPLPEETLDICRRSDAILLGAVGGPKWDHNPASLRPEKGLLGLRKEMGLFANLRPVKAYATLLNASPLKRERVENVDLVIVRELTGGLYFGRPSERRGPGENEVVDTLAYTREEIERIIEKAFQLAQIRRKKLASVDKANVLESSRMWREIAEETAKKYPDVELSHMLVDSTAMQLIANPGQFDVIVTENMFGDILSDLASVITGSLGMLPSASLRSDRFGMYEPVHGSAPDIAGQGKANPLGTVLSAALMLRYSFGLEKEAAAIEKAVDDVLQDGYCTGDLQVANGKVVSTIELTDRLIEKLNN 1v5h-a1-m1-cA_1v5h-a1-m2-cA Crystal Structure of Human Cytoglobin (Ferric Form) Q8WWM9 Q8WWM9 2.4 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 151 EAERKAVQAMWARLYANCEDVGVAILVRFFVNFPSAKQYFSQFKHMEDPLEMERSPQLRKHACRVMGALNTVVENLHDPDKVSSVLALVGKAHALKHKVEPVYFKILSGVILEVVAEEFASDFPPETQRAWAKLRGLIYSHVTAAYKEVGW EAERKAVQAMWARLYANCEDVGVAILVRFFVNFPSAKQYFSQFKHMEDPLEMERSPQLRKHACRVMGALNTVVENLHDPDKVSSVLALVGKAHALKHKVEPVYFKILSGVILEVVAEEFASDFPPETQRAWAKLRGLIYSHVTAAYKEVGW 1v5v-a1-m1-cB_1v5v-a1-m1-cA Crystal Structure of a Component of Glycine Cleavage System: T-protein from Pyrococcus horikoshii OT3 at 1.5 A Resolution O58888 O58888 1.5 X-RAY DIFFRACTION 107 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 394 399 QMVKRVHIFDWHKHARKIEEFAGWEMPIWYSSIKEEHLAVRNAVGIFDVSHMGEIVFRGKDALKFLQYVTTNDISKPPAISGTYTLVLNERGAIKDETLVFNMGNNEYLMICDDAFEKLYAWFTYLKRTIEQFTKLDLEIELKTYDIAMFAVQGPKADLAKDLFGIDINEMWWFQARWVELDGIKMLLSRSGYTGENGFEVYIEDANPYHPDESKRGPEKALHVWERILEEGKKYGIKPCGLGARDTLRLEAGYTLYGNETKELQLLSTDIDEVTPLQANLEFAIYWDKDFIGKALLKQKERGVGRKLVHFKMIDKGIPREGYKVYANGEMIGEVTSGTLSPLLNVGIGIAFVKEEYAKPGIEIEVEIRGQRKKAVTVTPPFYDPKKYGLFRET QMVKRVHIFDWHKEHARKIEEFAGWEMPIWYSSIKEEHLAVRNAVGIFDVSHMGEIVFRGKDALKFLQYVTTNDISKPPAISGTYTLVLNERGAIKDETLVFNMGNNEYLMICDSDAFEKLYAWFTYLKRTIEQFTKLDLEIELKTYDIAMFAVQGPKARDLAKDLFGIDINEMWWFQARWVELDGIKMLLSRSGYTGENGFEVYIEDANPYHPDESKRGEPEKALHVWERILEEGKKYGIKPCGLGARDTLRLEAGYTLYGNETKELQLLSTDIDEVTPLQANLEFAIYWDKDFIGKDALLKQKERGVGRKLVHFKMIDKGIPREGYKVYANGEMIGEVTSGTLSPLLNVGIGIAFVKEEYAKPGIEIEVEIRGQRKKAVTVTPPFYDPKKYGLFRET 1v5x-a1-m1-cA_1v5x-a1-m1-cB Crystal structure of Phosphoribosyl anthranilate isomerase from Thermus Thermophilus P83825 P83825 2 X-RAY DIFFRACTION 67 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 200 200 MRVKICGITRLEDALLAEALGAFALGFVLAPGSRRRIAPEAARAIGEALGPFVVRVGVFRDQPPEEVLRLMEEARLQVAQLHGEEPPEWAEAVGRFYPVIKAFPLEGPARPEWADYPAQALLLDGKRPGSGEAYPRAWAKPLLATGRRVILAGGIAPENLEEVLALRPYALDLASGVEEAPGVKSAEKLRALFARLASLR MRVKICGITRLEDALLAEALGAFALGFVLAPGSRRRIAPEAARAIGEALGPFVVRVGVFRDQPPEEVLRLMEEARLQVAQLHGEEPPEWAEAVGRFYPVIKAFPLEGPARPEWADYPAQALLLDGKRPGSGEAYPRAWAKPLLATGRRVILAGGIAPENLEEVLALRPYALDLASGVEEAPGVKSAEKLRALFARLASLR 1v6a-a1-m1-cA_1v6a-a1-m2-cB Crystal Structure of L-lactate dehydrogenase from Cyprinus carpio Q9W7K5 Q9W7K5 2.3 X-RAY DIFFRACTION 126 1.0 7962 (Cyprinus carpio) 7962 (Cyprinus carpio) 332 332 1v6a-a1-m1-cB_1v6a-a1-m2-cA ASTKEKLITHVSKEEPAGPTNKVTVVGVGMVGMAAAISILLKDLTDELALVDVMEDKLKGEAMDLQHGSLFLKTHKIVADKDYSVTANSKVVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNIIKYSPNCILLVVSNPVDILTYVAWKLSGLPRNRVIGSGTNLDSARFRHLMGEKLGIHPSNCHGWVIGEHGDSSVPVWSGVNVAGVFLQGLNPDMGTDKDKEDWKSVHKMVVDSAYEVIKLKGYTSWAIGMSAADLCQSILKNLRKCHPVSTLVKGMHGVNEEVFLSVPCILGNSGLTDVVHMTLKSDEEKQLVKSAETLWGVQKDLTL ASTKEKLITHVSKEEPAGPTNKVTVVGVGMVGMAAAISILLKDLTDELALVDVMEDKLKGEAMDLQHGSLFLKTHKIVADKDYSVTANSKVVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNIIKYSPNCILLVVSNPVDILTYVAWKLSGLPRNRVIGSGTNLDSARFRHLMGEKLGIHPSNCHGWVIGEHGDSSVPVWSGVNVAGVFLQGLNPDMGTDKDKEDWKSVHKMVVDSAYEVIKLKGYTSWAIGMSAADLCQSILKNLRKCHPVSTLVKGMHGVNEEVFLSVPCILGNSGLTDVVHMTLKSDEEKQLVKSAETLWGVQKDLTL 1v6a-a1-m1-cB_1v6a-a1-m2-cB Crystal Structure of L-lactate dehydrogenase from Cyprinus carpio Q9W7K5 Q9W7K5 2.3 X-RAY DIFFRACTION 168 1.0 7962 (Cyprinus carpio) 7962 (Cyprinus carpio) 332 332 1v6a-a1-m1-cA_1v6a-a1-m2-cA ASTKEKLITHVSKEEPAGPTNKVTVVGVGMVGMAAAISILLKDLTDELALVDVMEDKLKGEAMDLQHGSLFLKTHKIVADKDYSVTANSKVVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNIIKYSPNCILLVVSNPVDILTYVAWKLSGLPRNRVIGSGTNLDSARFRHLMGEKLGIHPSNCHGWVIGEHGDSSVPVWSGVNVAGVFLQGLNPDMGTDKDKEDWKSVHKMVVDSAYEVIKLKGYTSWAIGMSAADLCQSILKNLRKCHPVSTLVKGMHGVNEEVFLSVPCILGNSGLTDVVHMTLKSDEEKQLVKSAETLWGVQKDLTL ASTKEKLITHVSKEEPAGPTNKVTVVGVGMVGMAAAISILLKDLTDELALVDVMEDKLKGEAMDLQHGSLFLKTHKIVADKDYSVTANSKVVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNIIKYSPNCILLVVSNPVDILTYVAWKLSGLPRNRVIGSGTNLDSARFRHLMGEKLGIHPSNCHGWVIGEHGDSSVPVWSGVNVAGVFLQGLNPDMGTDKDKEDWKSVHKMVVDSAYEVIKLKGYTSWAIGMSAADLCQSILKNLRKCHPVSTLVKGMHGVNEEVFLSVPCILGNSGLTDVVHMTLKSDEEKQLVKSAETLWGVQKDLTL 1v6a-a1-m2-cA_1v6a-a1-m2-cB Crystal Structure of L-lactate dehydrogenase from Cyprinus carpio Q9W7K5 Q9W7K5 2.3 X-RAY DIFFRACTION 86 1.0 7962 (Cyprinus carpio) 7962 (Cyprinus carpio) 332 332 1v6a-a1-m1-cA_1v6a-a1-m1-cB ASTKEKLITHVSKEEPAGPTNKVTVVGVGMVGMAAAISILLKDLTDELALVDVMEDKLKGEAMDLQHGSLFLKTHKIVADKDYSVTANSKVVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNIIKYSPNCILLVVSNPVDILTYVAWKLSGLPRNRVIGSGTNLDSARFRHLMGEKLGIHPSNCHGWVIGEHGDSSVPVWSGVNVAGVFLQGLNPDMGTDKDKEDWKSVHKMVVDSAYEVIKLKGYTSWAIGMSAADLCQSILKNLRKCHPVSTLVKGMHGVNEEVFLSVPCILGNSGLTDVVHMTLKSDEEKQLVKSAETLWGVQKDLTL ASTKEKLITHVSKEEPAGPTNKVTVVGVGMVGMAAAISILLKDLTDELALVDVMEDKLKGEAMDLQHGSLFLKTHKIVADKDYSVTANSKVVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNIIKYSPNCILLVVSNPVDILTYVAWKLSGLPRNRVIGSGTNLDSARFRHLMGEKLGIHPSNCHGWVIGEHGDSSVPVWSGVNVAGVFLQGLNPDMGTDKDKEDWKSVHKMVVDSAYEVIKLKGYTSWAIGMSAADLCQSILKNLRKCHPVSTLVKGMHGVNEEVFLSVPCILGNSGLTDVVHMTLKSDEEKQLVKSAETLWGVQKDLTL 1v6i-a1-m1-cA_1v6i-a1-m1-cB Peanut lectin-lactose complex in acidic pH P02872 P02872 2.15 X-RAY DIFFRACTION 37 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 232 232 1bzw-a1-m1-cA_1bzw-a1-m1-cB 1ciw-a1-m1-cA_1ciw-a1-m1-cB 1cq9-a1-m1-cA_1cq9-a1-m1-cB 1cr7-a1-m1-cA_1cr7-a1-m1-cB 1cr7-a2-m1-cE_1cr7-a2-m1-cF 1qf3-a1-m1-cA_1qf3-a1-m1-cB 1rir-a1-m1-cA_1rir-a1-m1-cB 1rit-a1-m1-cA_1rit-a1-m1-cB 1v6j-a1-m1-cA_1v6j-a1-m1-cB 1v6k-a1-m1-cA_1v6k-a1-m1-cB 1v6l-a1-m1-cA_1v6l-a1-m1-cB 1v6m-a1-m1-cA_1v6m-a1-m1-cB 1v6m-a2-m1-cE_1v6m-a2-m1-cF 1v6n-a1-m1-cA_1v6n-a1-m1-cB 1v6n-a2-m1-cE_1v6n-a2-m1-cF 1v6o-a1-m1-cA_1v6o-a1-m1-cB 1v6o-a2-m1-cE_1v6o-a2-m1-cF 2dv9-a1-m1-cA_2dv9-a1-m1-cB 2dva-a1-m1-cA_2dva-a1-m1-cB 2dvb-a1-m1-cA_2dvb-a1-m1-cB 2dvd-a1-m1-cA_2dvd-a1-m1-cB 2dvf-a1-m1-cA_2dvf-a1-m1-cB 2dvg-a1-m1-cA_2dvg-a1-m1-cB 2pel-a1-m1-cA_2pel-a1-m1-cB 2tep-a1-m1-cA_2tep-a1-m1-cB 6v95-a1-m1-cA_6v95-a1-m1-cB 6vav-a1-m1-cA_6vav-a1-m1-cB 6vaw-a1-m1-cA_6vaw-a1-m1-cB 6vc3-a1-m1-cA_6vc3-a1-m1-cB 6vc4-a1-m1-cA_6vc4-a1-m1-cB 6vgf-a1-m1-cA_6vgf-a1-m1-cB AETVSFNFNSFSEGNPAINFQGDVTVLSNGNIQLTNLNKVNSVGRVLYAMPVRIWSSATGNVASFLTSFSFEMKDIKDYDPADGIIFFIAPEDTQIPAGSIGGGTLGVSDTKGAGHFVGVEFDTYSNSEYNDPPTDHVGIDVNSVDSVKTVPWNSVSGAVVKVTVIYDSSTKTLSVAVTNDNGDITTIAQVVDLKAKLPERVKFGFSASGSLGGRQIHLIRSWSFTSTLITT AETVSFNFNSFSEGNPAINFQGDVTVLSNGNIQLTNLNKVNSVGRVLYAMPVRIWSSATGNVASFLTSFSFEMKDIKDYDPADGIIFFIAPEDTQIPAGSIGGGTLGVSDTKGAGHFVGVEFDTYSNSEYNDPPTDHVGIDVNSVDSVKTVPWNSVSGAVVKVTVIYDSSTKTLSVAVTNDNGDITTIAQVVDLKAKLPERVKFGFSASGSLGGRQIHLIRSWSFTSTLITT 1v6p-a1-m1-cA_1v6p-a1-m1-cB Crystal structure of Cobrotoxin P60770 P60770 0.87 X-RAY DIFFRACTION 13 1.0 8656 (Naja atra) 8656 (Naja atra) 62 62 LECHNQQSSQTPTTTGCSGGETNCYKKRWRDHRGYRTERGCGCPSVKNGIEINCCTTDRCNN LECHNQQSSQTPTTTGCSGGETNCYKKRWRDHRGYRTERGCGCPSVKNGIEINCCTTDRCNN 1v6t-a1-m1-cA_1v6t-a1-m4-cA Crystal Structure of Lactam Utilization Protein from Pyrococcus horikoshii Ot3 O58714 O58714 1.7 X-RAY DIFFRACTION 71 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 249 249 1v6t-a1-m2-cA_1v6t-a1-m3-cA MRVDLNSDLGESFGRYKLGLDEEVMKYITSANVACGWHAGDPLVMRKTVRLAKENDVQVGAHPGYPDLMGFGRRYMKLTPEEARNYILYQVGALYAFAKAEGLELQHVKPHGALYNAMVKEEDLARAVIEGILDFDKDLILVTLSNSRVADIAEEMGLKVAHEVFADRAYNPDGTLVPAVIEDKEEIAERVISMVKDGGIRAINGEWVDLKVDTICVHGDNPKAVEITSYIRKVLEEEGVKIVPMKEFI MRVDLNSDLGESFGRYKLGLDEEVMKYITSANVACGWHAGDPLVMRKTVRLAKENDVQVGAHPGYPDLMGFGRRYMKLTPEEARNYILYQVGALYAFAKAEGLELQHVKPHGALYNAMVKEEDLARAVIEGILDFDKDLILVTLSNSRVADIAEEMGLKVAHEVFADRAYNPDGTLVPAVIEDKEEIAERVISMVKDGGIRAINGEWVDLKVDTICVHGDNPKAVEITSYIRKVLEEEGVKIVPMKEFI 1v6t-a1-m2-cA_1v6t-a1-m4-cA Crystal Structure of Lactam Utilization Protein from Pyrococcus horikoshii Ot3 O58714 O58714 1.7 X-RAY DIFFRACTION 33 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 249 249 1v6t-a1-m1-cA_1v6t-a1-m3-cA MRVDLNSDLGESFGRYKLGLDEEVMKYITSANVACGWHAGDPLVMRKTVRLAKENDVQVGAHPGYPDLMGFGRRYMKLTPEEARNYILYQVGALYAFAKAEGLELQHVKPHGALYNAMVKEEDLARAVIEGILDFDKDLILVTLSNSRVADIAEEMGLKVAHEVFADRAYNPDGTLVPAVIEDKEEIAERVISMVKDGGIRAINGEWVDLKVDTICVHGDNPKAVEITSYIRKVLEEEGVKIVPMKEFI MRVDLNSDLGESFGRYKLGLDEEVMKYITSANVACGWHAGDPLVMRKTVRLAKENDVQVGAHPGYPDLMGFGRRYMKLTPEEARNYILYQVGALYAFAKAEGLELQHVKPHGALYNAMVKEEDLARAVIEGILDFDKDLILVTLSNSRVADIAEEMGLKVAHEVFADRAYNPDGTLVPAVIEDKEEIAERVISMVKDGGIRAINGEWVDLKVDTICVHGDNPKAVEITSYIRKVLEEEGVKIVPMKEFI 1v6t-a1-m3-cA_1v6t-a1-m4-cA Crystal Structure of Lactam Utilization Protein from Pyrococcus horikoshii Ot3 O58714 O58714 1.7 X-RAY DIFFRACTION 22 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 249 249 1v6t-a1-m1-cA_1v6t-a1-m2-cA MRVDLNSDLGESFGRYKLGLDEEVMKYITSANVACGWHAGDPLVMRKTVRLAKENDVQVGAHPGYPDLMGFGRRYMKLTPEEARNYILYQVGALYAFAKAEGLELQHVKPHGALYNAMVKEEDLARAVIEGILDFDKDLILVTLSNSRVADIAEEMGLKVAHEVFADRAYNPDGTLVPAVIEDKEEIAERVISMVKDGGIRAINGEWVDLKVDTICVHGDNPKAVEITSYIRKVLEEEGVKIVPMKEFI MRVDLNSDLGESFGRYKLGLDEEVMKYITSANVACGWHAGDPLVMRKTVRLAKENDVQVGAHPGYPDLMGFGRRYMKLTPEEARNYILYQVGALYAFAKAEGLELQHVKPHGALYNAMVKEEDLARAVIEGILDFDKDLILVTLSNSRVADIAEEMGLKVAHEVFADRAYNPDGTLVPAVIEDKEEIAERVISMVKDGGIRAINGEWVDLKVDTICVHGDNPKAVEITSYIRKVLEEEGVKIVPMKEFI 1v6w-a1-m1-cA_1v6w-a1-m1-cB Crystal Structure Of Xylanase From Streptomyces Olivaceoviridis E-86 Complexed With 2(2)-4-O-methyl-alpha-D-glucuronosyl-xylobiose Q7SI98 Q7SI98 2 X-RAY DIFFRACTION 95 1.0 1921 (Streptomyces olivaceoviridis) 1921 (Streptomyces olivaceoviridis) 436 436 1isv-a1-m1-cA_1isv-a1-m1-cB 1isw-a1-m1-cA_1isw-a1-m1-cB 1isx-a1-m1-cA_1isx-a1-m1-cB 1isy-a1-m1-cA_1isy-a1-m1-cB 1isz-a1-m1-cA_1isz-a1-m1-cB 1it0-a1-m1-cA_1it0-a1-m1-cB 1v6u-a1-m1-cA_1v6u-a1-m1-cB 1v6v-a1-m1-cA_1v6v-a1-m1-cB 1v6x-a1-m1-cA_1v6x-a1-m1-cB 1xyf-a1-m1-cA_1xyf-a1-m1-cB 5gqd-a1-m1-cA_5gqd-a1-m1-cB 5gqe-a1-m1-cA_5gqe-a1-m1-cB AESTLGAAAAQSGRYFGTAIASGKLGDSAYTTIASREFNMVTAENEMKIDATEPQRGQFNFSAGDRVYNWAVQNGKQVRGHTLAWHSQQPGWMQSLSGSTLRQAMIDHINGVMGHYKGKIAQWDVVNEAFSDDGSGGRRDSNLQRTGNDWIEVAFRTARAADPAAKLCYNDYNIENWTWAKTQGVYNMVRDFKQRGVPIDCVGFQSHFNSGSPYNSNFRTTLQNFAALGVDVAITELDIQGASSSTYAAVTNDCLAVSRCLGITVWGVRDTDSWRSGDTPLLFNGDGSKKAAYTAVLNALNGGSSTPPPSGGGQIKGVGSGRCLDVPNASTTDGTQVQLYDCHSATNQQWTYTDAGELRVYGDKCLDAAGTGNGTKVQIYSCWGGDNQKWRLNSDGSIVGVQSGLCLDAVGGGTANGTLIQLYSCSNGSNQRWTRT AESTLGAAAAQSGRYFGTAIASGKLGDSAYTTIASREFNMVTAENEMKIDATEPQRGQFNFSAGDRVYNWAVQNGKQVRGHTLAWHSQQPGWMQSLSGSTLRQAMIDHINGVMGHYKGKIAQWDVVNEAFSDDGSGGRRDSNLQRTGNDWIEVAFRTARAADPAAKLCYNDYNIENWTWAKTQGVYNMVRDFKQRGVPIDCVGFQSHFNSGSPYNSNFRTTLQNFAALGVDVAITELDIQGASSSTYAAVTNDCLAVSRCLGITVWGVRDTDSWRSGDTPLLFNGDGSKKAAYTAVLNALNGGSSTPPPSGGGQIKGVGSGRCLDVPNASTTDGTQVQLYDCHSATNQQWTYTDAGELRVYGDKCLDAAGTGNGTKVQIYSCWGGDNQKWRLNSDGSIVGVQSGLCLDAVGGGTANGTLIQLYSCSNGSNQRWTRT 1v6z-a1-m1-cB_1v6z-a1-m1-cA Crystal structure of TT1573 from Thermus thermophilus Q5SKI6 Q5SKI6 2 X-RAY DIFFRACTION 131 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 224 226 2cx8-a1-m1-cB_2cx8-a1-m1-cA 2z0y-a3-m1-cB_2z0y-a3-m1-cA HRAFSPGLTGVLPLRETRHLVEVLRARVGDRFTVFDGEREALAEVVDLGPPLRYRVLEERRPEREVGVEVVLYVALLKGDKLAEVVRAATELGATRIQPLVTRHSVPKEGEGKLRRLRAVALEAAKQSGRVVVPEVLPPIPLKAVPQVAQGLVAHVGATARVREVLDPEKPLALAVGPEGGFAEEEVALLEARGFTPVSLGRRILRAETAALALLALCTAGEGR RPHRAFSPGLTGVLPLRETRHLVEVLRARVGDRFTVFDGEREALAEVVDLGPPLRYRVLEERRPEREVGVEVVLYVALLKGDKLAEVVRAATELGATRIQPLVTRHSVPKEGEGKLRRLRAVALEAAKQSGRVVVPEVLPPIPLKAVPQVAQGLVAHVGATARVREVLDPEKPLALAVGPEGGFAEEEVALLEARGFTPVSLGRRILRAETAALALLALCTAGEGR 1v72-a1-m1-cA_1v72-a1-m4-cA Crystal Structure of Phenylserine Aldolase from Pseudomonas Putida Q59IT3 Q59IT3 2.05 X-RAY DIFFRACTION 33 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 345 345 1v72-a1-m2-cA_1v72-a1-m3-cA RPPALGFSSDNIAGASPEVAQALVKHSSGQAGPYGTDELTAQVKRKFCEIFERDVEVFLVPTGTAANALCLSAMTPPWGNIYCHPASHINNDECGAPEFFSNGAKLMTVDGPAAKLDIVRLRERTREKVGDVHTTQPACVSITQATEVGSIYTLDEIEAIGDVCKSSSLGLHMDGSRFANALVSLGCSPAEMTWKAGVDALSFGATKNGVLAAEAIVLFNTSLATEMSYRRKRAGHLSSKMRFLSAQIDAYLTDDLWLRNARKANAAAQRLAQGLEGLGGVEVLGGTEANILFCRLDSAMIDALLKAGFGFYHDRWGPNVVRFVTSFATTAEDVDHLLNQVRLAA RPPALGFSSDNIAGASPEVAQALVKHSSGQAGPYGTDELTAQVKRKFCEIFERDVEVFLVPTGTAANALCLSAMTPPWGNIYCHPASHINNDECGAPEFFSNGAKLMTVDGPAAKLDIVRLRERTREKVGDVHTTQPACVSITQATEVGSIYTLDEIEAIGDVCKSSSLGLHMDGSRFANALVSLGCSPAEMTWKAGVDALSFGATKNGVLAAEAIVLFNTSLATEMSYRRKRAGHLSSKMRFLSAQIDAYLTDDLWLRNARKANAAAQRLAQGLEGLGGVEVLGGTEANILFCRLDSAMIDALLKAGFGFYHDRWGPNVVRFVTSFATTAEDVDHLLNQVRLAA 1v72-a1-m2-cA_1v72-a1-m4-cA Crystal Structure of Phenylserine Aldolase from Pseudomonas Putida Q59IT3 Q59IT3 2.05 X-RAY DIFFRACTION 164 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 345 345 1v72-a1-m1-cA_1v72-a1-m3-cA RPPALGFSSDNIAGASPEVAQALVKHSSGQAGPYGTDELTAQVKRKFCEIFERDVEVFLVPTGTAANALCLSAMTPPWGNIYCHPASHINNDECGAPEFFSNGAKLMTVDGPAAKLDIVRLRERTREKVGDVHTTQPACVSITQATEVGSIYTLDEIEAIGDVCKSSSLGLHMDGSRFANALVSLGCSPAEMTWKAGVDALSFGATKNGVLAAEAIVLFNTSLATEMSYRRKRAGHLSSKMRFLSAQIDAYLTDDLWLRNARKANAAAQRLAQGLEGLGGVEVLGGTEANILFCRLDSAMIDALLKAGFGFYHDRWGPNVVRFVTSFATTAEDVDHLLNQVRLAA RPPALGFSSDNIAGASPEVAQALVKHSSGQAGPYGTDELTAQVKRKFCEIFERDVEVFLVPTGTAANALCLSAMTPPWGNIYCHPASHINNDECGAPEFFSNGAKLMTVDGPAAKLDIVRLRERTREKVGDVHTTQPACVSITQATEVGSIYTLDEIEAIGDVCKSSSLGLHMDGSRFANALVSLGCSPAEMTWKAGVDALSFGATKNGVLAAEAIVLFNTSLATEMSYRRKRAGHLSSKMRFLSAQIDAYLTDDLWLRNARKANAAAQRLAQGLEGLGGVEVLGGTEANILFCRLDSAMIDALLKAGFGFYHDRWGPNVVRFVTSFATTAEDVDHLLNQVRLAA 1v72-a1-m3-cA_1v72-a1-m4-cA Crystal Structure of Phenylserine Aldolase from Pseudomonas Putida Q59IT3 Q59IT3 2.05 X-RAY DIFFRACTION 44 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 345 345 1v72-a1-m1-cA_1v72-a1-m2-cA RPPALGFSSDNIAGASPEVAQALVKHSSGQAGPYGTDELTAQVKRKFCEIFERDVEVFLVPTGTAANALCLSAMTPPWGNIYCHPASHINNDECGAPEFFSNGAKLMTVDGPAAKLDIVRLRERTREKVGDVHTTQPACVSITQATEVGSIYTLDEIEAIGDVCKSSSLGLHMDGSRFANALVSLGCSPAEMTWKAGVDALSFGATKNGVLAAEAIVLFNTSLATEMSYRRKRAGHLSSKMRFLSAQIDAYLTDDLWLRNARKANAAAQRLAQGLEGLGGVEVLGGTEANILFCRLDSAMIDALLKAGFGFYHDRWGPNVVRFVTSFATTAEDVDHLLNQVRLAA RPPALGFSSDNIAGASPEVAQALVKHSSGQAGPYGTDELTAQVKRKFCEIFERDVEVFLVPTGTAANALCLSAMTPPWGNIYCHPASHINNDECGAPEFFSNGAKLMTVDGPAAKLDIVRLRERTREKVGDVHTTQPACVSITQATEVGSIYTLDEIEAIGDVCKSSSLGLHMDGSRFANALVSLGCSPAEMTWKAGVDALSFGATKNGVLAAEAIVLFNTSLATEMSYRRKRAGHLSSKMRFLSAQIDAYLTDDLWLRNARKANAAAQRLAQGLEGLGGVEVLGGTEANILFCRLDSAMIDALLKAGFGFYHDRWGPNVVRFVTSFATTAEDVDHLLNQVRLAA 1v7c-a2-m1-cC_1v7c-a2-m1-cD Crystal structure of threonine synthase from thermus thermophilus hb8 in complex with a substrate analogue P83823 P83823 2 X-RAY DIFFRACTION 259 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 351 351 1uim-a1-m1-cA_1uim-a1-m1-cB 1uin-a1-m1-cB_1uin-a1-m1-cA 1v7c-a1-m1-cA_1v7c-a1-m1-cB 3aex-a1-m1-cA_3aex-a1-m1-cB 3aey-a1-m1-cB_3aey-a1-m1-cA MRPPLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGYVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGLL MRPPLIERYRNLLPVSEKTPVISLLEGSTPLIPLKGPEEARKKGIRLYAKYEGLNPTGSFKDRGMTLAVSKAVEGGAQAVACASTGNTAASAAAYAARAGILAIVVLPAGYVALGKVAQSLVHGARIVQVEGNFDDALRLTQKLTEAFPVALVNSVNPHRLEGQKTLAFEVVDELGDAPHYHALPVGNAGNITAHWMGYKAYHALGKAKRLPRMLGFQAAGAAPLVLGRPVERPETLATAIRIGNPASWQGAVRAKEESGGVIEAVTDEEILFAYRYLAREEGIFCEPASAAAMAGVFKLLREGRLEPESTVVLTLTGHGLKDPATAERVAELPPPVPARLEAVAAAAGLL 1v7l-a1-m1-cA_1v7l-a1-m1-cB Structure of 3-isopropylmalate isomerase small subunit from Pyrococcus horikoshii O59393 O59393 1.98 X-RAY DIFFRACTION 29 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 162 163 MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCI MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCIR 1v7l-a2-m1-cA_1v7l-a2-m8-cB Structure of 3-isopropylmalate isomerase small subunit from Pyrococcus horikoshii O59393 O59393 1.98 X-RAY DIFFRACTION 15 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 162 163 1v7l-a2-m2-cA_1v7l-a2-m7-cB 1v7l-a2-m3-cA_1v7l-a2-m6-cB 1v7l-a2-m4-cA_1v7l-a2-m5-cB MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCI MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCIR 1v7l-a2-m3-cA_1v7l-a2-m4-cA Structure of 3-isopropylmalate isomerase small subunit from Pyrococcus horikoshii O59393 O59393 1.98 X-RAY DIFFRACTION 45 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 162 162 1v7l-a2-m1-cA_1v7l-a2-m2-cA MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCI MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCI 1v7l-a2-m3-cA_1v7l-a2-m8-cB Structure of 3-isopropylmalate isomerase small subunit from Pyrococcus horikoshii O59393 O59393 1.98 X-RAY DIFFRACTION 41 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 162 163 1v7l-a2-m1-cA_1v7l-a2-m6-cB 1v7l-a2-m2-cA_1v7l-a2-m5-cB 1v7l-a2-m4-cA_1v7l-a2-m7-cB MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCI MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCIR 1v7l-a2-m4-cA_1v7l-a2-m8-cB Structure of 3-isopropylmalate isomerase small subunit from Pyrococcus horikoshii O59393 O59393 1.98 X-RAY DIFFRACTION 11 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 162 163 1v7l-a2-m1-cA_1v7l-a2-m5-cB 1v7l-a2-m2-cA_1v7l-a2-m6-cB 1v7l-a2-m3-cA_1v7l-a2-m7-cB MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCI MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCIR 1v7l-a2-m5-cB_1v7l-a2-m8-cB Structure of 3-isopropylmalate isomerase small subunit from Pyrococcus horikoshii O59393 O59393 1.98 X-RAY DIFFRACTION 41 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 163 163 1v7l-a2-m6-cB_1v7l-a2-m7-cB MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCIR MITTGKVWKFGDDISTDEITPGRYNLTKDPKELAKIAFIEVRPDFARNVRPGDVVVAGKNFGIGSSRESAALALKALGIAGVIAESFGRIFYRNAINIGIPLLLGKTEGLKDGDLVTVNWETGEVRKGDEILMFEPLEDFLLEIVREGGILEYIRRRGDLCIR 1v7o-a1-m1-cB_1v7o-a1-m1-cA Alanyl-tRNA synthetase editing domain homologue protein from Pyrococcus horikoshii O58307 O58307 2.62 X-RAY DIFFRACTION 21 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 150 152 1wnu-a1-m1-cB_1wnu-a1-m1-cA YSIEVRTHSALHVVKGAVVKVLGSEAKWTYSTYVKGNKGVLIVKFDRKPSDEEIREIERLANEKVKENAPIKIYELPREEAEKFGEDYDLFPVPEDVRILKVVVIEDWNVNACNKEHTKTTGEIGPIKIRKVRFRKSKGLLEIHFELLEL YSIEVRTHSALHVVKGAVVKVLGSEAKWTYSTYVKGNKGVLIVKFDRKPSDEEIREIERLANEKVKENAPIKIYELPREEAEKFGEDYDLFPVPEDVRILKVVVIEDWNVNACNKEHTKTTGEIGPIKIRKVRFRKSKGLLEIHFELLELEN 1v7r-a1-m1-cA_1v7r-a1-m2-cA Structure of nucleotide triphosphate pyrophosphatase from pyrococcus horikoshii OT3 O59580 O59580 1.4 X-RAY DIFFRACTION 12 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 186 186 MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNLKY MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNLKY 1v7w-a1-m1-cA_1v7w-a1-m2-cA Crystal structure of Vibrio proteolyticus chitobiose phosphorylase in complex with GlcNAc Q76IQ9 Q76IQ9 1.6 X-RAY DIFFRACTION 120 1.0 671 (Vibrio proteolyticus) 671 (Vibrio proteolyticus) 779 779 1v7v-a1-m1-cA_1v7v-a1-m2-cA 1v7x-a1-m1-cA_1v7x-a1-m2-cA MKYGYFDNDNREYVITRPDVPAPWTNYLGTEKFCTVISHNAGGYSFYNSPEYNRVTKFRPNATFDRPGHYVYLRDDDSGDYWSISWQPVAKSLDEAQYQIRHGLSYSKFQCDYNGIHARKTLFVPKGEDAEIWDVVIKNTSDQVRTISAFSFVEFSFSHIQSDNQNHQMSLYSAGTAYRPGLIEYDLYYNTDDFEGFYYLASTFDPDSYDGQRDRFLGLYRDEANPLAVEQGRCSNSAQTCYNHCGSLHKQFTLQPGEEIRFAYILGIGKGNGERLREHYQDVANIDAAFAAIKAHWDERCAKFQVKSPNQGLDTMINAWTLYQAETCVVWSRFASFIEVGGRTGLGYRDTAQDAISVPHANPEMTRKRIVDLLRGQVKAGYGLHLFDPDWFDPIHGIKDTCSDDHLWLIPTICKYVMETGETSFFDQMIPYADGGEASVYEHMKAALDFSAEYVGQTGICKGLRADWNDCLNLGGGESSMVSFLHFWALQEFIDLAKFLGKDQDVNTYTEMAANVREACETHLWDDEGGWYIRGLTKNGDKIGTAQQQEGRVHLESNTLAVLSGLASQERGEQAMDAVDEHLFSPYGLHLNAPSFSTPNDDIGFVTRVYQGVKENGAIFSHPNPWAWVAETKLGRGDRAMKFYDALNPYNQNDIIEKRIAEPYSYVQFIMGRDHQDHGRANHPWLTGTSGWAYFAVTNYILGVQSGFTGLSVDPCIPSDWPGFEVTRQWRGATYHIQVENPDHVSKGVKSITLNGAPIQGRIPPQAQGSDNQVVVVLG MKYGYFDNDNREYVITRPDVPAPWTNYLGTEKFCTVISHNAGGYSFYNSPEYNRVTKFRPNATFDRPGHYVYLRDDDSGDYWSISWQPVAKSLDEAQYQIRHGLSYSKFQCDYNGIHARKTLFVPKGEDAEIWDVVIKNTSDQVRTISAFSFVEFSFSHIQSDNQNHQMSLYSAGTAYRPGLIEYDLYYNTDDFEGFYYLASTFDPDSYDGQRDRFLGLYRDEANPLAVEQGRCSNSAQTCYNHCGSLHKQFTLQPGEEIRFAYILGIGKGNGERLREHYQDVANIDAAFAAIKAHWDERCAKFQVKSPNQGLDTMINAWTLYQAETCVVWSRFASFIEVGGRTGLGYRDTAQDAISVPHANPEMTRKRIVDLLRGQVKAGYGLHLFDPDWFDPIHGIKDTCSDDHLWLIPTICKYVMETGETSFFDQMIPYADGGEASVYEHMKAALDFSAEYVGQTGICKGLRADWNDCLNLGGGESSMVSFLHFWALQEFIDLAKFLGKDQDVNTYTEMAANVREACETHLWDDEGGWYIRGLTKNGDKIGTAQQQEGRVHLESNTLAVLSGLASQERGEQAMDAVDEHLFSPYGLHLNAPSFSTPNDDIGFVTRVYQGVKENGAIFSHPNPWAWVAETKLGRGDRAMKFYDALNPYNQNDIIEKRIAEPYSYVQFIMGRDHQDHGRANHPWLTGTSGWAYFAVTNYILGVQSGFTGLSVDPCIPSDWPGFEVTRQWRGATYHIQVENPDHVSKGVKSITLNGAPIQGRIPPQAQGSDNQVVVVLG 1v83-a1-m1-cB_1v83-a1-m1-cA Crystal structure of human GlcAT-P in complex with Udp and Mn2+ Q9P2W7 Q9P2W7 1.9 X-RAY DIFFRACTION 147 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 241 245 1v82-a1-m1-cB_1v82-a1-m1-cA 1v84-a1-m1-cB_1v84-a1-m1-cA ALPTIHVVTPTYSRPVQKAELTRMANTLLHVPNLHWLVVEDAPRRTPLTARLLRDTGLNYTHLHVETPRIPRGTMQRNLALRWLRETFPRNSSQPGVVYFADDDNTYSLELFEEMRSTRRVSVWPVAFVGGLRYEAPRVNGAGKVVRWKTVFDPHRPFAIDMAGFAVNLRLILQRSQAYFKLRGVKGGYQESSLLRELVTLNDLEPKAANCTKILVWHTRTEKPVLVNEGKKGFTDPSVEI LPTIHVVTPTYSRPVQKAELTRMANTLLHVPNLHWLVVEDAPRRTPLTARLLRDTGLNYTHLHVETPRNYKLRIPRGTMQRNLALRWLRETFPRNSSQPGVVYFADDDNTYSLELFEEMRSTRRVSVWPVAFVGGLRYEAPRVNGAGKVVRWKTVFDPHRPFAIDMAGFAVNLRLILQRSQAYFKLRGVKGGYQESSLLRELVTLNDLEPKAANCTKILVWHTRTEKPVLVNEGKKGFTDPSVEI 1v8b-a1-m1-cA_1v8b-a1-m1-cD Crystal structure of a hydrolase P50250 P50250 2.4 X-RAY DIFFRACTION 30 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 476 476 1v8b-a1-m1-cB_1v8b-a1-m1-cC NKSKVKDISLAPFGKMQMEISENEMPGLMRIREEYGKDQPLKNAKITGCLHMTVECALLIETLQKLGAQIRWCSCNIYSTADYAAAAVSTLENVTVFAWKNETLEEYWWCVESALTWGDGDDNGPDMIVDDGGDATLLVHKGVEYEKLYEEKNILPDPEKAKNEEERCFLTLLKNSILKNPKKWTNIAKKIIGVSEETTTGVLRLKKMDKQNELLFTAINVNDAVTKQKYDNVYGCRHSLPDGLMRATDFLISGKIVVICGYGDVGKGCASSMKGLGARVYITEIDPICAIQAVMEGFNVVTLDEIVDKGDFFITCTGNVDVIKLEHLLKMKNNAVVGNIGHFDDEIQVNELFNYKGIHIENVKPQVDRITLPNGNKIIVLARGRLLNLGCATGHPAFVMSFSFCNQTFAQLDLWQNKDTNKYENKVYLLPKHLDEKVALYHLKKLNASLTELDDNQCQFLGVNKSGPFKSNEYRY NKSKVKDISLAPFGKMQMEISENEMPGLMRIREEYGKDQPLKNAKITGCLHMTVECALLIETLQKLGAQIRWCSCNIYSTADYAAAAVSTLENVTVFAWKNETLEEYWWCVESALTWGDGDDNGPDMIVDDGGDATLLVHKGVEYEKLYEEKNILPDPEKAKNEEERCFLTLLKNSILKNPKKWTNIAKKIIGVSEETTTGVLRLKKMDKQNELLFTAINVNDAVTKQKYDNVYGCRHSLPDGLMRATDFLISGKIVVICGYGDVGKGCASSMKGLGARVYITEIDPICAIQAVMEGFNVVTLDEIVDKGDFFITCTGNVDVIKLEHLLKMKNNAVVGNIGHFDDEIQVNELFNYKGIHIENVKPQVDRITLPNGNKIIVLARGRLLNLGCATGHPAFVMSFSFCNQTFAQLDLWQNKDTNKYENKVYLLPKHLDEKVALYHLKKLNASLTELDDNQCQFLGVNKSGPFKSNEYRY 1v8b-a1-m1-cB_1v8b-a1-m1-cD Crystal structure of a hydrolase P50250 P50250 2.4 X-RAY DIFFRACTION 96 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 476 476 1v8b-a1-m1-cA_1v8b-a1-m1-cC NKSKVKDISLAPFGKMQMEISENEMPGLMRIREEYGKDQPLKNAKITGCLHMTVECALLIETLQKLGAQIRWCSCNIYSTADYAAAAVSTLENVTVFAWKNETLEEYWWCVESALTWGDGDDNGPDMIVDDGGDATLLVHKGVEYEKLYEEKNILPDPEKAKNEEERCFLTLLKNSILKNPKKWTNIAKKIIGVSEETTTGVLRLKKMDKQNELLFTAINVNDAVTKQKYDNVYGCRHSLPDGLMRATDFLISGKIVVICGYGDVGKGCASSMKGLGARVYITEIDPICAIQAVMEGFNVVTLDEIVDKGDFFITCTGNVDVIKLEHLLKMKNNAVVGNIGHFDDEIQVNELFNYKGIHIENVKPQVDRITLPNGNKIIVLARGRLLNLGCATGHPAFVMSFSFCNQTFAQLDLWQNKDTNKYENKVYLLPKHLDEKVALYHLKKLNASLTELDDNQCQFLGVNKSGPFKSNEYRY NKSKVKDISLAPFGKMQMEISENEMPGLMRIREEYGKDQPLKNAKITGCLHMTVECALLIETLQKLGAQIRWCSCNIYSTADYAAAAVSTLENVTVFAWKNETLEEYWWCVESALTWGDGDDNGPDMIVDDGGDATLLVHKGVEYEKLYEEKNILPDPEKAKNEEERCFLTLLKNSILKNPKKWTNIAKKIIGVSEETTTGVLRLKKMDKQNELLFTAINVNDAVTKQKYDNVYGCRHSLPDGLMRATDFLISGKIVVICGYGDVGKGCASSMKGLGARVYITEIDPICAIQAVMEGFNVVTLDEIVDKGDFFITCTGNVDVIKLEHLLKMKNNAVVGNIGHFDDEIQVNELFNYKGIHIENVKPQVDRITLPNGNKIIVLARGRLLNLGCATGHPAFVMSFSFCNQTFAQLDLWQNKDTNKYENKVYLLPKHLDEKVALYHLKKLNASLTELDDNQCQFLGVNKSGPFKSNEYRY 1v8b-a1-m1-cC_1v8b-a1-m1-cD Crystal structure of a hydrolase P50250 P50250 2.4 X-RAY DIFFRACTION 145 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 476 476 1v8b-a1-m1-cA_1v8b-a1-m1-cB NKSKVKDISLAPFGKMQMEISENEMPGLMRIREEYGKDQPLKNAKITGCLHMTVECALLIETLQKLGAQIRWCSCNIYSTADYAAAAVSTLENVTVFAWKNETLEEYWWCVESALTWGDGDDNGPDMIVDDGGDATLLVHKGVEYEKLYEEKNILPDPEKAKNEEERCFLTLLKNSILKNPKKWTNIAKKIIGVSEETTTGVLRLKKMDKQNELLFTAINVNDAVTKQKYDNVYGCRHSLPDGLMRATDFLISGKIVVICGYGDVGKGCASSMKGLGARVYITEIDPICAIQAVMEGFNVVTLDEIVDKGDFFITCTGNVDVIKLEHLLKMKNNAVVGNIGHFDDEIQVNELFNYKGIHIENVKPQVDRITLPNGNKIIVLARGRLLNLGCATGHPAFVMSFSFCNQTFAQLDLWQNKDTNKYENKVYLLPKHLDEKVALYHLKKLNASLTELDDNQCQFLGVNKSGPFKSNEYRY NKSKVKDISLAPFGKMQMEISENEMPGLMRIREEYGKDQPLKNAKITGCLHMTVECALLIETLQKLGAQIRWCSCNIYSTADYAAAAVSTLENVTVFAWKNETLEEYWWCVESALTWGDGDDNGPDMIVDDGGDATLLVHKGVEYEKLYEEKNILPDPEKAKNEEERCFLTLLKNSILKNPKKWTNIAKKIIGVSEETTTGVLRLKKMDKQNELLFTAINVNDAVTKQKYDNVYGCRHSLPDGLMRATDFLISGKIVVICGYGDVGKGCASSMKGLGARVYITEIDPICAIQAVMEGFNVVTLDEIVDKGDFFITCTGNVDVIKLEHLLKMKNNAVVGNIGHFDDEIQVNELFNYKGIHIENVKPQVDRITLPNGNKIIVLARGRLLNLGCATGHPAFVMSFSFCNQTFAQLDLWQNKDTNKYENKVYLLPKHLDEKVALYHLKKLNASLTELDDNQCQFLGVNKSGPFKSNEYRY 1v8c-a3-m1-cB_1v8c-a3-m1-cD Crystal Structure of MoaD related protein from Thermus thermophilus HB8 P83826 P83826 1.6 X-RAY DIFFRACTION 33 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 160 165 1v8c-a3-m1-cA_1v8c-a3-m1-cC PKVNLYATFRDLTGKSQLELPGATVGEVLENLVRAYPALKEELFEGEGLAERVSVFLEGRDVRYLQGLSTPLSPGATLDLFPPGFERTFGAFPPWLLERYLEEWGGTREGEGVYRLPGAVVRFREVEPLKVGSLSIPQLRVEVEGEEAERWFERIAFAAS PKVNLYATFRDLTGKSQLELPGATVGEVLENLVRAYPALKEELFEGEGLAERVSVFLEGRDVRYLQGLSTPLSPGATLDLFPPVAGGGFERTFGAFPPWLLERYLEEWGGTREGEGVYRLPGAVVRFREVEPLKVGSLSIPQLRVEVEGEEAERWFERIAFAASR 1v8c-a3-m1-cC_1v8c-a3-m1-cD Crystal Structure of MoaD related protein from Thermus thermophilus HB8 P83826 P83826 1.6 X-RAY DIFFRACTION 72 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 165 165 1v8c-a1-m1-cB_1v8c-a1-m1-cA 1v8c-a2-m1-cC_1v8c-a2-m1-cD 1v8c-a3-m1-cB_1v8c-a3-m1-cA PKVNLYATFRDLTGKSQLELPGATVGEVLENLVRAYPALKEELFEGEGLAERVSVFLEGRDVRYLQGLSTPLSPGATLDLFPPVAGGGFERTFGAFPPWLLERYLEEWGGTREGEGVYRLPGAVVRFREVEPLKVGSLSIPQLRVEVEGEEAERWFERIAFAASR PKVNLYATFRDLTGKSQLELPGATVGEVLENLVRAYPALKEELFEGEGLAERVSVFLEGRDVRYLQGLSTPLSPGATLDLFPPVAGGGFERTFGAFPPWLLERYLEEWGGTREGEGVYRLPGAVVRFREVEPLKVGSLSIPQLRVEVEGEEAERWFERIAFAASR 1v8d-a2-m2-cB_1v8d-a2-m1-cA Crystal structure of the conserved hypothetical protein TT1679 from Thermus thermophilus Q72L49 Q72L49 2.16 X-RAY DIFFRACTION 28 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 185 189 1v8d-a2-m1-cB_1v8d-a2-m2-cA 1v8d-a2-m1-cC_1v8d-a2-m2-cC MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEE MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLGTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEEFLP 1v8d-a2-m2-cB_1v8d-a2-m2-cC Crystal structure of the conserved hypothetical protein TT1679 from Thermus thermophilus Q72L49 Q72L49 2.16 X-RAY DIFFRACTION 60 0.995 274 (Thermus thermophilus) 274 (Thermus thermophilus) 185 188 1v8d-a1-m1-cB_1v8d-a1-m1-cA 1v8d-a1-m1-cB_1v8d-a1-m1-cC 1v8d-a1-m1-cC_1v8d-a1-m1-cA 1v8d-a2-m1-cB_1v8d-a2-m1-cA 1v8d-a2-m1-cB_1v8d-a2-m1-cC 1v8d-a2-m1-cC_1v8d-a2-m1-cA 1v8d-a2-m2-cB_1v8d-a2-m2-cA 1v8d-a2-m2-cC_1v8d-a2-m2-cA MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEE MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLGERRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEEF 1v8d-a3-m5-cB_1v8d-a3-m6-cB Crystal structure of the conserved hypothetical protein TT1679 from Thermus thermophilus Q72L49 Q72L49 2.16 X-RAY DIFFRACTION 72 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 185 185 1v8d-a2-m1-cB_1v8d-a2-m2-cB 1v8d-a2-m1-cC_1v8d-a2-m2-cA 1v8d-a2-m2-cC_1v8d-a2-m1-cA 1v8d-a3-m2-cC_1v8d-a3-m1-cA 1v8d-a3-m4-cC_1v8d-a3-m3-cA MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEE MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEE 1v8d-a3-m6-cB_1v8d-a3-m1-cA Crystal structure of the conserved hypothetical protein TT1679 from Thermus thermophilus Q72L49 Q72L49 2.16 X-RAY DIFFRACTION 13 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 185 189 1v8d-a3-m5-cB_1v8d-a3-m3-cA MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEE MEGIRRAAQRAAEEFLQAFPMAPGSLFVLGGSTSEVLGTRPSLEAAHAVLEGLLPPLLERGVHVAVQACEHLNRALVVERETARAFGKEEVAVFPHPKAGGAKATAAFLRFRDPVMVESLKAQAHGGMDIGGVLIGMHLRPVAVPLRLSVRKIGEAVLLAAKTRPKLVGGARAVYTREEMLKKLEEFLP 1v8f-a2-m1-cA_1v8f-a2-m2-cA Crystal Structure of Pantoate-beta-Alanine (Pantothenate Synthetase) from Thermus Thermophilus HB8 Q5SHF5 Q5SHF5 1.9 X-RAY DIFFRACTION 29 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 276 276 1ufv-a2-m1-cA_1ufv-a2-m2-cA MRTVSTVAELRAALPREGVGFVPTMGYLHRGHLALVERARRENPFVVVSVFVNPLQFGPGEDYHRYPRDLERDRALLQEAGVDLLFAPGVEEMYPEGFATRVQVEGPLTALWEGAVRPGHFQGVATVVARLFLLVQPQRAYFGEKDYQQLLVVRRMVRDLGFPVEVVGVPTVREEDGLALSSRNVYLSPETRKKAPVLYRALLAMREVAGQGGSVAEALRAGEEALRAVPEFRKDYLAIVHPETLLPLSDWVAGARGIVAGRFPEARLIDNLEVYP MRTVSTVAELRAALPREGVGFVPTMGYLHRGHLALVERARRENPFVVVSVFVNPLQFGPGEDYHRYPRDLERDRALLQEAGVDLLFAPGVEEMYPEGFATRVQVEGPLTALWEGAVRPGHFQGVATVVARLFLLVQPQRAYFGEKDYQQLLVVRRMVRDLGFPVEVVGVPTVREEDGLALSSRNVYLSPETRKKAPVLYRALLAMREVAGQGGSVAEALRAGEEALRAVPEFRKDYLAIVHPETLLPLSDWVAGARGIVAGRFPEARLIDNLEVYP 1v8f-a2-m1-cA_1v8f-a2-m2-cB Crystal Structure of Pantoate-beta-Alanine (Pantothenate Synthetase) from Thermus Thermophilus HB8 Q5SHF5 Q5SHF5 1.9 X-RAY DIFFRACTION 50 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 276 276 1ufv-a2-m1-cA_1ufv-a2-m2-cB 1ufv-a2-m1-cB_1ufv-a2-m2-cA 1v8f-a2-m1-cB_1v8f-a2-m2-cA MRTVSTVAELRAALPREGVGFVPTMGYLHRGHLALVERARRENPFVVVSVFVNPLQFGPGEDYHRYPRDLERDRALLQEAGVDLLFAPGVEEMYPEGFATRVQVEGPLTALWEGAVRPGHFQGVATVVARLFLLVQPQRAYFGEKDYQQLLVVRRMVRDLGFPVEVVGVPTVREEDGLALSSRNVYLSPETRKKAPVLYRALLAMREVAGQGGSVAEALRAGEEALRAVPEFRKDYLAIVHPETLLPLSDWVAGARGIVAGRFPEARLIDNLEVYP MRTVSTVAELRAALPREGVGFVPTMGYLHRGHLALVERARRENPFVVVSVFVNPLQFGPGEDYHRYPRDLERDRALLQEAGVDLLFAPGVEEMYPEGFATRVQVEGPLTALWEGAVRPGHFQGVATVVARLFLLVQPQRAYFGEKDYQQLLVVRRMVRDLGFPVEVVGVPTVREEDGLALSSRNVYLSPETRKKAPVLYRALLAMREVAGQGGSVAEALRAGEEALRAVPEFRKDYLAIVHPETLLPLSDWVAGARGIVAGRFPEARLIDNLEVYP 1v8f-a2-m2-cA_1v8f-a2-m2-cB Crystal Structure of Pantoate-beta-Alanine (Pantothenate Synthetase) from Thermus Thermophilus HB8 Q5SHF5 Q5SHF5 1.9 X-RAY DIFFRACTION 68 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 276 276 1ufv-a1-m1-cA_1ufv-a1-m1-cB 1ufv-a2-m1-cA_1ufv-a2-m1-cB 1ufv-a2-m2-cA_1ufv-a2-m2-cB 1v8f-a1-m1-cA_1v8f-a1-m1-cB 1v8f-a2-m1-cA_1v8f-a2-m1-cB MRTVSTVAELRAALPREGVGFVPTMGYLHRGHLALVERARRENPFVVVSVFVNPLQFGPGEDYHRYPRDLERDRALLQEAGVDLLFAPGVEEMYPEGFATRVQVEGPLTALWEGAVRPGHFQGVATVVARLFLLVQPQRAYFGEKDYQQLLVVRRMVRDLGFPVEVVGVPTVREEDGLALSSRNVYLSPETRKKAPVLYRALLAMREVAGQGGSVAEALRAGEEALRAVPEFRKDYLAIVHPETLLPLSDWVAGARGIVAGRFPEARLIDNLEVYP MRTVSTVAELRAALPREGVGFVPTMGYLHRGHLALVERARRENPFVVVSVFVNPLQFGPGEDYHRYPRDLERDRALLQEAGVDLLFAPGVEEMYPEGFATRVQVEGPLTALWEGAVRPGHFQGVATVVARLFLLVQPQRAYFGEKDYQQLLVVRRMVRDLGFPVEVVGVPTVREEDGLALSSRNVYLSPETRKKAPVLYRALLAMREVAGQGGSVAEALRAGEEALRAVPEFRKDYLAIVHPETLLPLSDWVAGARGIVAGRFPEARLIDNLEVYP 1v8g-a2-m2-cA_1v8g-a2-m2-cB Crystal structure of anthranilate phosphoribosyltransferase (TrpD) from Thermus thermophilus HB8 P83827 P83827 2.1 X-RAY DIFFRACTION 60 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 329 329 1v8g-a1-m1-cA_1v8g-a1-m1-cB 1v8g-a2-m1-cA_1v8g-a2-m1-cB 2elc-a1-m1-cA_2elc-a1-m1-cD 2elc-a1-m1-cB_2elc-a1-m1-cC MDAVKKAILGEVLEEEEAYEVMRALMAGEVSPVRAAGLLVALSLRGERPHEIAAMARAMREAARPLRVHRRPLLDIVGTGGDGKGLMNLSTLAALVAAAGGVAVAKHGNRAASSRAGSADLLEALGVDLEAPPERVGEAIEELGFGFLFARVFHPAMRHVAPVRAELGVRTVFNLLGPLTNPAGADAYVLGVFSPEWLAPMAEALERLGARGLVVHGEGADELVLGENRVVEVGKGAYALTPEEVGLKRAPLEALKGGGPEENAALARRLLKGEEKGPLADAVALAAGAGFYAAGKTPSLKEGVALAREVLASGEAYLLLERYVAFLRA MDAVKKAILGEVLEEEEAYEVMRALMAGEVSPVRAAGLLVALSLRGERPHEIAAMARAMREAARPLRVHRRPLLDIVGTGGDGKGLMNLSTLAALVAAAGGVAVAKHGNRAASSRAGSADLLEALGVDLEAPPERVGEAIEELGFGFLFARVFHPAMRHVAPVRAELGVRTVFNLLGPLTNPAGADAYVLGVFSPEWLAPMAEALERLGARGLVVHGEGADELVLGENRVVEVGKGAYALTPEEVGLKRAPLEALKGGGPEENAALARRLLKGEEKGPLADAVALAAGAGFYAAGKTPSLKEGVALAREVLASGEAYLLLERYVAFLRA 1v8h-a1-m1-cA_1v8h-a1-m1-cB Crystal structure of TT0351 protein from Thermus thermophilus HB8 Q5SME6 Q5SME6 1.2 X-RAY DIFFRACTION 52 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 106 106 PFRTIARLNPAKPKAGEEFRLQVVAQHPNEPGTRRDAEGKLIPAKYINLVEVYFEGEKVAEARPGPSTSANPLYAFKFKAEKAGTFTIKLKDTDGDTGEASVKLEL PFRTIARLNPAKPKAGEEFRLQVVAQHPNEPGTRRDAEGKLIPAKYINLVEVYFEGEKVAEARPGPSTSANPLYAFKFKAEKAGTFTIKLKDTDGDTGEASVKLEL 1v8k-a2-m2-cA_1v8k-a2-m4-cA The Crystal Structure of the Minimal Functional Domain of the Microtubule Destabilizer KIF2C Complexed with Mg-AMPPNP Q922S8 Q922S8 2.25 X-RAY DIFFRACTION 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 332 332 1v8k-a2-m1-cA_1v8k-a2-m3-cA PNWEFARMIKEFRVTMECSPLTVTDPIEEHRICVCVRKRPLNKQELAKKEIDVISVPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGGDLQNASKGIYAMASRDVFLLKNQPRYRNLNLEVYVTFFEIYNGKVFDLLNKKAKLRVLEDSRQQVQVVGLQEYLVTCADDVIKMINMGSACRTNSSRSHACFQILLRTKGRLHGKFSLVDLAGNERMEGAEINKSLLALKECIRALGQFRESKLTQVLRDSFIGENSRTCMIAMISPGISSCEYTLNTLRYADRVKELS PNWEFARMIKEFRVTMECSPLTVTDPIEEHRICVCVRKRPLNKQELAKKEIDVISVPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGGDLQNASKGIYAMASRDVFLLKNQPRYRNLNLEVYVTFFEIYNGKVFDLLNKKAKLRVLEDSRQQVQVVGLQEYLVTCADDVIKMINMGSACRTNSSRSHACFQILLRTKGRLHGKFSLVDLAGNERMEGAEINKSLLALKECIRALGQFRESKLTQVLRDSFIGENSRTCMIAMISPGISSCEYTLNTLRYADRVKELS 1v8k-a2-m3-cA_1v8k-a2-m4-cA The Crystal Structure of the Minimal Functional Domain of the Microtubule Destabilizer KIF2C Complexed with Mg-AMPPNP Q922S8 Q922S8 2.25 X-RAY DIFFRACTION 81 1.0 10090 (Mus musculus) 10090 (Mus musculus) 332 332 1v8k-a2-m1-cA_1v8k-a2-m2-cA PNWEFARMIKEFRVTMECSPLTVTDPIEEHRICVCVRKRPLNKQELAKKEIDVISVPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGGDLQNASKGIYAMASRDVFLLKNQPRYRNLNLEVYVTFFEIYNGKVFDLLNKKAKLRVLEDSRQQVQVVGLQEYLVTCADDVIKMINMGSACRTNSSRSHACFQILLRTKGRLHGKFSLVDLAGNERMEGAEINKSLLALKECIRALGQFRESKLTQVLRDSFIGENSRTCMIAMISPGISSCEYTLNTLRYADRVKELS PNWEFARMIKEFRVTMECSPLTVTDPIEEHRICVCVRKRPLNKQELAKKEIDVISVPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGGDLQNASKGIYAMASRDVFLLKNQPRYRNLNLEVYVTFFEIYNGKVFDLLNKKAKLRVLEDSRQQVQVVGLQEYLVTCADDVIKMINMGSACRTNSSRSHACFQILLRTKGRLHGKFSLVDLAGNERMEGAEINKSLLALKECIRALGQFRESKLTQVLRDSFIGENSRTCMIAMISPGISSCEYTLNTLRYADRVKELS 1v8o-a2-m1-cE_1v8o-a2-m1-cG Crystal Structure of PAE2754 from Pyrobaculum aerophilum Q8ZUJ3 Q8ZUJ3 2.8 X-RAY DIFFRACTION 20 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 130 130 1v8o-a1-m1-cA_1v8o-a1-m1-cC 1v8o-a1-m1-cD_1v8o-a1-m1-cB 1v8o-a2-m1-cF_1v8o-a2-m1-cH 1v8p-a1-m1-cA_1v8p-a1-m1-cC 1v8p-a1-m1-cB_1v8p-a1-m1-cD 1v8p-a2-m1-cE_1v8p-a2-m1-cG 1v8p-a2-m1-cH_1v8p-a2-m1-cF 1v8p-a3-m1-cI_1v8p-a3-m1-cK 1v8p-a3-m1-cJ_1v8p-a3-m1-cL AVEYLVDASALYALAAHYDKWIKHREKLAILHLTIYEAGNALWKEARLGRVDWAAASRHLKKVSSFKVLEDPPLDEVRVAVERGLTFYDASYAYVAESSGLVLVTQDRELLAKTKGAIDVETLLVRLAAQ AVEYLVDASALYALAAHYDKWIKHREKLAILHLTIYEAGNALWKEARLGRVDWAAASRHLKKVSSFKVLEDPPLDEVRVAVERGLTFYDASYAYVAESSGLVLVTQDRELLAKTKGAIDVETLLVRLAAQ 1v8p-a3-m1-cI_1v8p-a3-m1-cJ Crystal structure of PAE2754 from Pyrobaculum aerophilum Q8ZUJ3 Q8ZUJ3 2.52 X-RAY DIFFRACTION 90 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 132 132 1v8o-a1-m1-cA_1v8o-a1-m1-cB 1v8o-a1-m1-cD_1v8o-a1-m1-cC 1v8o-a2-m1-cE_1v8o-a2-m1-cF 1v8o-a2-m1-cG_1v8o-a2-m1-cH 1v8p-a1-m1-cA_1v8p-a1-m1-cB 1v8p-a1-m1-cD_1v8p-a1-m1-cC 1v8p-a2-m1-cE_1v8p-a2-m1-cF 1v8p-a2-m1-cH_1v8p-a2-m1-cG 1v8p-a3-m1-cK_1v8p-a3-m1-cL AVEYLVDASALYALAAHYDKWIKHREKLAILHLTIYEAGNALWKEARLGRVDWAAASRHLKKVLSSFKVLEDPPLDEVLRVAVERGLTFYDASYAYVAESSGLVLVTQDRELLAKTKGAIDVETLLVRLAAQ AVEYLVDASALYALAAHYDKWIKHREKLAILHLTIYEAGNALWKEARLGRVDWAAASRHLKKVLSSFKVLEDPPLDEVLRVAVERGLTFYDASYAYVAESSGLVLVTQDRELLAKTKGAIDVETLLVRLAAQ 1v8q-a1-m1-cA_1v8q-a1-m1-cD Crystal structure of ribosomal protein L27 from Thermus thermophilus HB8 P60493 P60493 2.8 X-RAY DIFFRACTION 25 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 66 66 RLGVKRYEGQVVRAGNILVRQRGTRFKPGKNVGMGRDFTLFALVDGVVEFQDRGRLGRYVHVRPLA RLGVKRYEGQVVRAGNILVRQRGTRFKPGKNVGMGRDFTLFALVDGVVEFQDRGRLGRYVHVRPLA 1v8q-a1-m1-cC_1v8q-a1-m1-cD Crystal structure of ribosomal protein L27 from Thermus thermophilus HB8 P60493 P60493 2.8 X-RAY DIFFRACTION 30 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 66 66 1v8q-a1-m1-cA_1v8q-a1-m1-cB RLGVKRYEGQVVRAGNILVRQRGTRFKPGKNVGMGRDFTLFALVDGVVEFQDRGRLGRYVHVRPLA RLGVKRYEGQVVRAGNILVRQRGTRFKPGKNVGMGRDFTLFALVDGVVEFQDRGRLGRYVHVRPLA 1v8y-a1-m1-cA_1v8y-a1-m2-cA Crystal structure analysis of the ADP-ribose pyrophosphatase of E86Q mutant, complexed with ADP-ribose and Zn Q84CU3 Q84CU3 1.65 X-RAY DIFFRACTION 157 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 150 150 1v8i-a1-m1-cA_1v8i-a1-m2-cA 1v8l-a1-m1-cA_1v8l-a1-m2-cA 1v8m-a1-m1-cA_1v8m-a1-m2-cA 1v8n-a1-m1-cA_1v8n-a1-m2-cA 1v8r-a1-m1-cA_1v8r-a1-m2-cA 1v8s-a1-m1-cA_1v8s-a1-m2-cA 1v8t-a1-m1-cA_1v8t-a1-m2-cA 1v8u-a1-m1-cA_1v8u-a1-m2-cA 1v8v-a1-m1-cA_1v8v-a1-m2-cA 1v8w-a1-m1-cA_1v8w-a1-m2-cA 3x0i-a1-m1-cA_3x0i-a1-m2-cA 3x0j-a1-m1-cA_3x0j-a1-m2-cA 3x0k-a1-m1-cA_3x0k-a1-m2-cA 3x0l-a1-m1-cA_3x0l-a1-m2-cA 3x0m-a1-m1-cA_3x0m-a1-m2-cA 3x0n-a1-m1-cA_3x0n-a1-m2-cA 3x0o-a1-m1-cA_3x0o-a1-m2-cA 3x0p-a1-m1-cA_3x0p-a1-m2-cA 3x0q-a1-m1-cA_3x0q-a1-m2-cA 3x0r-a1-m1-cA_3x0r-a1-m2-cA 3x0s-a1-m1-cA_3x0s-a1-m2-cA RTYLYRGRILNLALEGRYEIVEHKPAVAVIALREGRMLFVRQMRPAVGLAPLEIPAGLIEPGEDPLEAARRELAEQTGLSGDLTYLFSYFVSPGFTDEKTHVFLAENLKEVEIEVVWMRPEEALERHQRGEVEFSATGLVGVLYYHAFLR RTYLYRGRILNLALEGRYEIVEHKPAVAVIALREGRMLFVRQMRPAVGLAPLEIPAGLIEPGEDPLEAARRELAEQTGLSGDLTYLFSYFVSPGFTDEKTHVFLAENLKEVEIEVVWMRPEEALERHQRGEVEFSATGLVGVLYYHAFLR 1v94-a1-m1-cB_1v94-a1-m1-cA Crystal structure of isocitrate dehydrogenase from Aeropyrum pernix Q9YE81 Q9YE81 2.28 X-RAY DIFFRACTION 197 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 423 429 1tyo-a1-m1-cB_1tyo-a1-m1-cA 1xgv-a1-m1-cB_1xgv-a1-m1-cA 1xkd-a1-m1-cB_1xkd-a1-m1-cA CTTEELSPPPGGSLVEYSGGSLRVPDNPVVAFIRGDGVGPEVVESALKVVDAAVKKVYGGSRRIVWWELLAGHLAREKCGELLPKATLEGIRLARVALKGPLETPVGTGYRSLNVAIRQALDLYANIRPVRYYGQPAPHKYADRVDMVIFRENTEDVYAGIEWPHDSPEAARIRRFLAEEFGISIREDAGIGVKPISRFATRRLMERALEWALRNGNTVVTIMHKGNIMKYTEGAFMRWAYEVALEKFREHVVTEQEVQEKYGGVRPEGKILVNDRIADNMLQQIITRPWDYQVIVAPNLNGDYISDAASALVGGIGMAAGMNMGDGIAVAEPVHGTAPKYAGKDLINPSAEILSASLLIGEFMGWREVKSIVEYAIRKAVQSKKVTQDLARHMPGVQPLRTSEYTETLIAYIDEADLNEVLA PPCTTEELSPPPGGSLVEYSGGSLRVPDNPVVAFIRGDGVGPEVVESALKVVDAAVKKVYGGSRRIVWWELLAGHLAREKCGELLPKATLEGIRLARVALKGPLETPVGTGYRSLNVAIRQALDLYANIRPVRYYGQPAPHKYADRVDMVIFRENTEDVYAGIEWPHDSPEAARIRRFLAEEFGISIREDAGIGVKPISRFATRRLMERALEWALRNGNTVVTIMHKGNIMKYTEGAFMRWAYEVALEKFREHVVTEQEVQEKYGGVRPEGKILVNDRIADNMLQQIITRPWDYQVIVAPNLNGDYISDAASALVGGIGMAAGMNMGDGIAVAEPVHGTAPKYAGKDLINPSAEILSASLLIGEFMGWREVKSIVEYAIRKAVQSKKVTQDLARHMPGVQPLRTSEYTETLIAYIDEADLNEVLAGKRG 1v98-a2-m1-cB_1v98-a2-m3-cB Crystal Structure Analysis of Thioredoxin from Thermus thermophilus Q5SI93 Q5SI93 1.82 X-RAY DIFFRACTION 31 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 89 89 1v98-a1-m1-cA_1v98-a1-m2-cA PLTLVDFFAPWCGPCRLVSPILEELARDHAGRLKVVKVNVDEHPGLAARYGVRSVPTLVLFRRGAPVATWVGASPRRVLEERLRPYLEG PLTLVDFFAPWCGPCRLVSPILEELARDHAGRLKVVKVNVDEHPGLAARYGVRSVPTLVLFRRGAPVATWVGASPRRVLEERLRPYLEG 1v9a-a1-m1-cA_1v9a-a1-m1-cB Crystal structure of Uroporphyrin-III C-methyl transferase from Thermus thermophilus complexed with S-adenyl homocysteine Q5SKH6 Q5SKH6 2 X-RAY DIFFRACTION 171 0.986 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 219 228 GRVYLVGAGPGDPELLTLKAYRLLKEAPVVLYDRLVDERVLALAPGEKVYVGKKQEEIHRLLLRHARAHPFVVRLKGGDPMVFGRGGEEVLFLLRHGVPVEVVPGVTSLLASGLPLTHRGLAHGFAAVSGVLEGGGYPDLRPFARVPTLVVLMGVGRRVWIAKELLRLGRDPREPTLFVERASTPKERRVHARLEEVAEGKVEVRPPALWILGEVVRVF GRVYLVGAGPGDPELLTLKAYRLLKEAPVVLYDRLVDERVLALAPGEKVYVGKEIHRLLLRHARAHPFVVRLKGGDPMVFGRGGEEVLFLLRHGVPVEVVPGVTSLLASGLPLTHRGLAHGFAAVSGVLEGGGYPDLRPFARVPTLVVLMGVGRRVWIAKELLRLGRDPREPTLFVERASTPKERRVHARLEEVAEGKVEVRPPALWILGEVVRVFAEKEAPVDALAL 1v9c-a1-m1-cA_1v9c-a1-m1-cB Crystal Analysis of Precorrin-8x Methyl Mutase from Thermus Thermophilus P83848 P83848 2.2 X-RAY DIFFRACTION 83 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 198 206 RAIEEESFRIVDQEAGPHGFSPLEWPVVRRMIHATADFEYKALTRFSQGAVEAGLKAIQAGARILVDARMIACGLNPERLRLFGNEVVELLAHPEVVARTRAEAAVAYAWEKGLLDGAIVGVGNAPTFLLALVEAIRQGARPALVLGMPVGFVNVLEAKRALMEAPVPWIVTEGRKGGSTLVVAALHALIRLAADGGV GRAIEEESFRIVDQEAGPHGFSPLEWPVVRRMIHATADFEYKALTRFSQGAVEAGLKAIQAGARILVDARMIACGLNPERLRLFGNEVVELLAHPEVVARAKATTRAEAAVAYAWEKGLLDGAIVGVGNAPTFLLALVEAIRQGARPALVLGMPVGFVNVLEAKRALMEAPVPWIVTEGRKGGSTLVVAALHALIRLAADGGVDTS 1v9d-a1-m1-cC_1v9d-a1-m1-cD Crystal structure of the core FH2 domain of mouse mDia1 O08808 O08808 2.6 X-RAY DIFFRACTION 65 0.996 10090 (Mus musculus) 10090 (Mus musculus) 278 300 VKELKVLDSKTAQNLSIFLGSFRMPYQEIKNVILEVNEAVLTESMIQNLIKQMPEPEQLKMLSELKEEYDDLAESEQFGVVMGTVPRLRPRLNAILFKLQFSEQVENIKPEIVSVTAACEELRKNFSSLLELMTLLHFLAELCENDHPEVLLAHVEKASRVSAENLQKSLDQMKKQIADVERDVQNFPAATDEKDKFVEKMTSFVKDAQEQYNKLRMMHSNMETLYKELGDYFVFDPKKLSVEEFFMDLHNFRNMFLQAVKENQKRRETEEKMRRAKL KELKVLDSKTAQNLSIFLGSFRMPYQEIKNVILEVNEAVLTESMIQNLIKQMPEPEQLKMLSELKEEYDDLAESEQFGVVMGTVPRLRPRLNAILFKLQFSEQVENIKPEIVSVTAACEELRKSENFSSLLELTSFLCKLRDTKSADQKMTLLHFLAELCENDHPEVLKFPDELAHVEKASRVSAENLQKSLDQMKKQIADVERDVQNFPAATDEKDKFVEKMTSFVKDAQEQYNKLRMMHSNMETLYKELGDYFVFDPKKLSVEEFFMDLHNFRNMFLQAVKENQKRRETEEKMRRAKL 1v9d-a1-m1-cD_1v9d-a1-m1-cA Crystal structure of the core FH2 domain of mouse mDia1 O08808 O08808 2.6 X-RAY DIFFRACTION 32 0.99 10090 (Mus musculus) 10090 (Mus musculus) 300 308 1v9d-a1-m1-cC_1v9d-a1-m1-cB KELKVLDSKTAQNLSIFLGSFRMPYQEIKNVILEVNEAVLTESMIQNLIKQMPEPEQLKMLSELKEEYDDLAESEQFGVVMGTVPRLRPRLNAILFKLQFSEQVENIKPEIVSVTAACEELRKSENFSSLLELTSFLCKLRDTKSADQKMTLLHFLAELCENDHPEVLKFPDELAHVEKASRVSAENLQKSLDQMKKQIADVERDVQNFPAATDEKDKFVEKMTSFVKDAQEQYNKLRMMHSNMETLYKELGDYFVFDPKKLSVEEFFMDLHNFRNMFLQAVKENQKRRETEEKMRRAKL VKELKVLDSKTAQNLSIFLGSFRMPYQEIKNVILEVNEAVLTESMIQNLIKQMPEPEQLKMLSELKEEYDDLAESEQFGVVMGTVPRLRPRLNAILFKLQFSEQVENIKPEIVSVTAACEELRKSENFSSLLSFLCKLRDTKSADQKMTLLHFLAELCENDHPEVLKFPDELAHVEKASRVSAENLQKSLDQMKKQIADVERDVQNFPAATDEKDKFVEKMTSFVKDAQEQYNKLRMMHSNMETLYKELGDYFVFDPKKLSVEEFFMDLHNFRNMFLQAVKENQKRRETEEKMRRAKLAKEKAEKERL 1v9l-a1-m1-cA_1v9l-a1-m1-cF L-glutamate dehydrogenase from Pyrobaculum islandicum complexed with NAD Q9Y8I4 Q9Y8I4 2.8 X-RAY DIFFRACTION 59 1.0 2277 (Pyrobaculum islandicum) 2277 (Pyrobaculum islandicum) 418 418 1v9l-a1-m1-cB_1v9l-a1-m1-cE 1v9l-a1-m1-cC_1v9l-a1-m1-cD TGFLEYVLNYVKKGVELGGFPEDFYKILSRPRRVLIVNIPVRLDGGGFEVFEGYRVQHCDVLGPYKGGVRFHPEVTLADDVALAILMTLKNSLAGLPYGGAKGAVRVDPKKLSQRELEELSRGYARAIAPLIGDVVDIPAPDVGTNAQIMAWMVDEYSKIKGYNVPGVFTSKPPELWGNPVREYATGFGVAVATREMAKKLWGGIEGKTVAIQGMGNVGRWTAYWLEKMGAKVIAVSDINGVAYRKEGLNVELIQKNKGLTGPALVELFTTKDNAEFVKNPDAIFKLDVDIFVPAAIENVIRGDNAGLVKARLVVEGANGPTTPEAERILYERGVVVVPDILANAGGVIMSYLEWVENLQWYIWDEEETRKRLENIMVNNVERVYKRWQREKGWTMRDAAIVTALERIYNAMKIRGWI TGFLEYVLNYVKKGVELGGFPEDFYKILSRPRRVLIVNIPVRLDGGGFEVFEGYRVQHCDVLGPYKGGVRFHPEVTLADDVALAILMTLKNSLAGLPYGGAKGAVRVDPKKLSQRELEELSRGYARAIAPLIGDVVDIPAPDVGTNAQIMAWMVDEYSKIKGYNVPGVFTSKPPELWGNPVREYATGFGVAVATREMAKKLWGGIEGKTVAIQGMGNVGRWTAYWLEKMGAKVIAVSDINGVAYRKEGLNVELIQKNKGLTGPALVELFTTKDNAEFVKNPDAIFKLDVDIFVPAAIENVIRGDNAGLVKARLVVEGANGPTTPEAERILYERGVVVVPDILANAGGVIMSYLEWVENLQWYIWDEEETRKRLENIMVNNVERVYKRWQREKGWTMRDAAIVTALERIYNAMKIRGWI 1v9l-a1-m1-cE_1v9l-a1-m1-cF L-glutamate dehydrogenase from Pyrobaculum islandicum complexed with NAD Q9Y8I4 Q9Y8I4 2.8 X-RAY DIFFRACTION 45 1.0 2277 (Pyrobaculum islandicum) 2277 (Pyrobaculum islandicum) 418 418 1v9l-a1-m1-cA_1v9l-a1-m1-cB 1v9l-a1-m1-cA_1v9l-a1-m1-cC 1v9l-a1-m1-cB_1v9l-a1-m1-cC 1v9l-a1-m1-cD_1v9l-a1-m1-cE 1v9l-a1-m1-cD_1v9l-a1-m1-cF TGFLEYVLNYVKKGVELGGFPEDFYKILSRPRRVLIVNIPVRLDGGGFEVFEGYRVQHCDVLGPYKGGVRFHPEVTLADDVALAILMTLKNSLAGLPYGGAKGAVRVDPKKLSQRELEELSRGYARAIAPLIGDVVDIPAPDVGTNAQIMAWMVDEYSKIKGYNVPGVFTSKPPELWGNPVREYATGFGVAVATREMAKKLWGGIEGKTVAIQGMGNVGRWTAYWLEKMGAKVIAVSDINGVAYRKEGLNVELIQKNKGLTGPALVELFTTKDNAEFVKNPDAIFKLDVDIFVPAAIENVIRGDNAGLVKARLVVEGANGPTTPEAERILYERGVVVVPDILANAGGVIMSYLEWVENLQWYIWDEEETRKRLENIMVNNVERVYKRWQREKGWTMRDAAIVTALERIYNAMKIRGWI TGFLEYVLNYVKKGVELGGFPEDFYKILSRPRRVLIVNIPVRLDGGGFEVFEGYRVQHCDVLGPYKGGVRFHPEVTLADDVALAILMTLKNSLAGLPYGGAKGAVRVDPKKLSQRELEELSRGYARAIAPLIGDVVDIPAPDVGTNAQIMAWMVDEYSKIKGYNVPGVFTSKPPELWGNPVREYATGFGVAVATREMAKKLWGGIEGKTVAIQGMGNVGRWTAYWLEKMGAKVIAVSDINGVAYRKEGLNVELIQKNKGLTGPALVELFTTKDNAEFVKNPDAIFKLDVDIFVPAAIENVIRGDNAGLVKARLVVEGANGPTTPEAERILYERGVVVVPDILANAGGVIMSYLEWVENLQWYIWDEEETRKRLENIMVNNVERVYKRWQREKGWTMRDAAIVTALERIYNAMKIRGWI 1v9n-a1-m1-cA_1v9n-a1-m2-cA Structure of Malate Dehydrogenase from Pyrococcus horikoshii OT3 O59028 O59028 2.1 X-RAY DIFFRACTION 210 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 337 337 FEKGYVDENYIRVPKDRLFSFIVRVLTKLGVPEEDAKIVADNLVADLRGVESHGVQRLKRYVDGIISGGVNLHPKIRVIREGPSYALIDGDEGLGQVVGYRSKLAIKKAKDTGIGIVIARNSNHYGIAGYYALAAEEGIGISTNSRPLVAPTGGIERILGTNPIALAAPTKDKPFLLDATSVVPIGKLEWAINREGNITTKVEEVFNGGALLPLGGFGELLGGHKGYGLSLVDILSGILSGGTWSKYVKNTSEKGSNVCHFFVIDIEHFIPLEEFKEKISQIEEIKSSRKHPEFERIWIHGEKGFLTETRLKLGIPIYRKVLEELNEIAKRVGVEGL FEKGYVDENYIRVPKDRLFSFIVRVLTKLGVPEEDAKIVADNLVADLRGVESHGVQRLKRYVDGIISGGVNLHPKIRVIREGPSYALIDGDEGLGQVVGYRSKLAIKKAKDTGIGIVIARNSNHYGIAGYYALAAEEGIGISTNSRPLVAPTGGIERILGTNPIALAAPTKDKPFLLDATSVVPIGKLEWAINREGNITTKVEEVFNGGALLPLGGFGELLGGHKGYGLSLVDILSGILSGGTWSKYVKNTSEKGSNVCHFFVIDIEHFIPLEEFKEKISQIEEIKSSRKHPEFERIWIHGEKGFLTETRLKLGIPIYRKVLEELNEIAKRVGVEGL 1v9s-a1-m1-cD_1v9s-a1-m1-cA Crystal structure of TT0130 protein from Thermus thermophilus HB8 Q72J35 Q72J35 2.1 X-RAY DIFFRACTION 139 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 190 192 1v9s-a1-m1-cB_1v9s-a1-m1-cC RITLVDHPLVQHKLAHLRDKRTGPKDFRELAEEVALAYEARDLELEETTVETPIAPARVKVLSGKKLALVAILRAGLVVEGILKLVPHARVGHIGLYYIKLPPDIAERRAFLLDPLATGGSASLALSLLKERGATGVKLAILAAPEGLERIAKDHPDTEVVVAAIDERLNDHGYIVPGLGDAGDRIYGTK RITLVDHPLVQHKLAHLRDKRTGPKDFRELAEEVALAYEARDLELEETTVETPIAPARVKVLSGKKLALVAILRAGLVVEGILKLVPHARVGHIGLYQYYIKLPPDIAERRAFLLDPLATGGSASLALSLLKERGATGVKLAILAAPEGLERIAKDHPDTEVVVAAIDERLNDHGYIVPGLGDAGDRIYGTK 1v9s-a1-m1-cD_1v9s-a1-m1-cC Crystal structure of TT0130 protein from Thermus thermophilus HB8 Q72J35 Q72J35 2.1 X-RAY DIFFRACTION 62 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 190 201 1v9s-a1-m1-cA_1v9s-a1-m1-cB RITLVDHPLVQHKLAHLRDKRTGPKDFRELAEEVALAYEARDLELEETTVETPIAPARVKVLSGKKLALVAILRAGLVVEGILKLVPHARVGHIGLYYIKLPPDIAERRAFLLDPLATGGSASLALSLLKERGATGVKLAILAAPEGLERIAKDHPDTEVVVAAIDERLNDHGYIVPGLGDAGDRIYGTK RITLVDHPLVQHKLAHLRDKRTGPKDFRELAEEVALAYEARDLELEETTVETPIAPARVKVLSGKKLALVAILRAGLVVEGILKLVPHARVGHIGLYRDPESLNPVQYYIKLPPDIAERRAFLLDPLATGGSASLALSLLKERGATGVKLAILAAPEGLERIAKDHPDTEVVVAAIDERLNDHGYIVPGLGDAGDRIYGTK 1v9u-a1-m8-c4_1v9u-a1-m9-c4 Human Rhinovirus 2 bound to a fragment of its cellular receptor protein P04936 P04936 3.6 X-RAY DIFFRACTION 18 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 25 25 1fpn-a1-m10-c4_1fpn-a1-m6-c4 1fpn-a1-m10-c4_1fpn-a1-m9-c4 1fpn-a1-m11-c4_1fpn-a1-m12-c4 1fpn-a1-m11-c4_1fpn-a1-m15-c4 1fpn-a1-m12-c4_1fpn-a1-m13-c4 1fpn-a1-m13-c4_1fpn-a1-m14-c4 1fpn-a1-m14-c4_1fpn-a1-m15-c4 1fpn-a1-m16-c4_1fpn-a1-m17-c4 1fpn-a1-m16-c4_1fpn-a1-m20-c4 1fpn-a1-m17-c4_1fpn-a1-m18-c4 1fpn-a1-m18-c4_1fpn-a1-m19-c4 1fpn-a1-m19-c4_1fpn-a1-m20-c4 1fpn-a1-m1-c4_1fpn-a1-m2-c4 1fpn-a1-m1-c4_1fpn-a1-m5-c4 1fpn-a1-m21-c4_1fpn-a1-m22-c4 1fpn-a1-m21-c4_1fpn-a1-m25-c4 1fpn-a1-m22-c4_1fpn-a1-m23-c4 1fpn-a1-m23-c4_1fpn-a1-m24-c4 1fpn-a1-m24-c4_1fpn-a1-m25-c4 1fpn-a1-m26-c4_1fpn-a1-m27-c4 1fpn-a1-m26-c4_1fpn-a1-m30-c4 1fpn-a1-m27-c4_1fpn-a1-m28-c4 1fpn-a1-m28-c4_1fpn-a1-m29-c4 1fpn-a1-m29-c4_1fpn-a1-m30-c4 1fpn-a1-m2-c4_1fpn-a1-m3-c4 1fpn-a1-m31-c4_1fpn-a1-m32-c4 1fpn-a1-m31-c4_1fpn-a1-m35-c4 1fpn-a1-m32-c4_1fpn-a1-m33-c4 1fpn-a1-m33-c4_1fpn-a1-m34-c4 1fpn-a1-m34-c4_1fpn-a1-m35-c4 1fpn-a1-m36-c4_1fpn-a1-m37-c4 1fpn-a1-m36-c4_1fpn-a1-m40-c4 1fpn-a1-m37-c4_1fpn-a1-m38-c4 1fpn-a1-m38-c4_1fpn-a1-m39-c4 1fpn-a1-m39-c4_1fpn-a1-m40-c4 1fpn-a1-m3-c4_1fpn-a1-m4-c4 1fpn-a1-m41-c4_1fpn-a1-m42-c4 1fpn-a1-m41-c4_1fpn-a1-m45-c4 1fpn-a1-m42-c4_1fpn-a1-m43-c4 1fpn-a1-m43-c4_1fpn-a1-m44-c4 1fpn-a1-m44-c4_1fpn-a1-m45-c4 1fpn-a1-m46-c4_1fpn-a1-m47-c4 1fpn-a1-m46-c4_1fpn-a1-m50-c4 1fpn-a1-m47-c4_1fpn-a1-m48-c4 1fpn-a1-m48-c4_1fpn-a1-m49-c4 1fpn-a1-m49-c4_1fpn-a1-m50-c4 1fpn-a1-m4-c4_1fpn-a1-m5-c4 1fpn-a1-m51-c4_1fpn-a1-m52-c4 1fpn-a1-m51-c4_1fpn-a1-m55-c4 1fpn-a1-m52-c4_1fpn-a1-m53-c4 1fpn-a1-m53-c4_1fpn-a1-m54-c4 1fpn-a1-m54-c4_1fpn-a1-m55-c4 1fpn-a1-m56-c4_1fpn-a1-m57-c4 1fpn-a1-m56-c4_1fpn-a1-m60-c4 1fpn-a1-m57-c4_1fpn-a1-m58-c4 1fpn-a1-m58-c4_1fpn-a1-m59-c4 1fpn-a1-m59-c4_1fpn-a1-m60-c4 1fpn-a1-m6-c4_1fpn-a1-m7-c4 1fpn-a1-m7-c4_1fpn-a1-m8-c4 1fpn-a1-m8-c4_1fpn-a1-m9-c4 1v9u-a1-m10-c4_1v9u-a1-m6-c4 1v9u-a1-m10-c4_1v9u-a1-m9-c4 1v9u-a1-m11-c4_1v9u-a1-m12-c4 1v9u-a1-m11-c4_1v9u-a1-m15-c4 1v9u-a1-m12-c4_1v9u-a1-m13-c4 1v9u-a1-m13-c4_1v9u-a1-m14-c4 1v9u-a1-m14-c4_1v9u-a1-m15-c4 1v9u-a1-m16-c4_1v9u-a1-m17-c4 1v9u-a1-m16-c4_1v9u-a1-m20-c4 1v9u-a1-m17-c4_1v9u-a1-m18-c4 1v9u-a1-m18-c4_1v9u-a1-m19-c4 1v9u-a1-m19-c4_1v9u-a1-m20-c4 1v9u-a1-m1-c4_1v9u-a1-m2-c4 1v9u-a1-m1-c4_1v9u-a1-m5-c4 1v9u-a1-m21-c4_1v9u-a1-m22-c4 1v9u-a1-m21-c4_1v9u-a1-m25-c4 1v9u-a1-m22-c4_1v9u-a1-m23-c4 1v9u-a1-m23-c4_1v9u-a1-m24-c4 1v9u-a1-m24-c4_1v9u-a1-m25-c4 1v9u-a1-m26-c4_1v9u-a1-m27-c4 1v9u-a1-m26-c4_1v9u-a1-m30-c4 1v9u-a1-m27-c4_1v9u-a1-m28-c4 1v9u-a1-m28-c4_1v9u-a1-m29-c4 1v9u-a1-m29-c4_1v9u-a1-m30-c4 1v9u-a1-m2-c4_1v9u-a1-m3-c4 1v9u-a1-m31-c4_1v9u-a1-m32-c4 1v9u-a1-m31-c4_1v9u-a1-m35-c4 1v9u-a1-m32-c4_1v9u-a1-m33-c4 1v9u-a1-m33-c4_1v9u-a1-m34-c4 1v9u-a1-m34-c4_1v9u-a1-m35-c4 1v9u-a1-m36-c4_1v9u-a1-m37-c4 1v9u-a1-m36-c4_1v9u-a1-m40-c4 1v9u-a1-m37-c4_1v9u-a1-m38-c4 1v9u-a1-m38-c4_1v9u-a1-m39-c4 1v9u-a1-m39-c4_1v9u-a1-m40-c4 1v9u-a1-m3-c4_1v9u-a1-m4-c4 1v9u-a1-m41-c4_1v9u-a1-m42-c4 1v9u-a1-m41-c4_1v9u-a1-m45-c4 1v9u-a1-m42-c4_1v9u-a1-m43-c4 1v9u-a1-m43-c4_1v9u-a1-m44-c4 1v9u-a1-m44-c4_1v9u-a1-m45-c4 1v9u-a1-m46-c4_1v9u-a1-m47-c4 1v9u-a1-m46-c4_1v9u-a1-m50-c4 1v9u-a1-m47-c4_1v9u-a1-m48-c4 1v9u-a1-m48-c4_1v9u-a1-m49-c4 1v9u-a1-m49-c4_1v9u-a1-m50-c4 1v9u-a1-m4-c4_1v9u-a1-m5-c4 1v9u-a1-m51-c4_1v9u-a1-m52-c4 1v9u-a1-m51-c4_1v9u-a1-m55-c4 1v9u-a1-m52-c4_1v9u-a1-m53-c4 1v9u-a1-m53-c4_1v9u-a1-m54-c4 1v9u-a1-m54-c4_1v9u-a1-m55-c4 1v9u-a1-m56-c4_1v9u-a1-m57-c4 1v9u-a1-m56-c4_1v9u-a1-m60-c4 1v9u-a1-m57-c4_1v9u-a1-m58-c4 1v9u-a1-m58-c4_1v9u-a1-m59-c4 1v9u-a1-m59-c4_1v9u-a1-m60-c4 1v9u-a1-m6-c4_1v9u-a1-m7-c4 1v9u-a1-m7-c4_1v9u-a1-m8-c4 3dpr-a1-m10-cD_3dpr-a1-m6-cD 3dpr-a1-m10-cD_3dpr-a1-m9-cD 3dpr-a1-m11-cD_3dpr-a1-m12-cD 3dpr-a1-m11-cD_3dpr-a1-m15-cD 3dpr-a1-m12-cD_3dpr-a1-m13-cD 3dpr-a1-m13-cD_3dpr-a1-m14-cD 3dpr-a1-m14-cD_3dpr-a1-m15-cD 3dpr-a1-m16-cD_3dpr-a1-m17-cD 3dpr-a1-m16-cD_3dpr-a1-m20-cD 3dpr-a1-m17-cD_3dpr-a1-m18-cD 3dpr-a1-m18-cD_3dpr-a1-m19-cD 3dpr-a1-m19-cD_3dpr-a1-m20-cD 3dpr-a1-m1-cD_3dpr-a1-m2-cD 3dpr-a1-m1-cD_3dpr-a1-m5-cD 3dpr-a1-m21-cD_3dpr-a1-m22-cD 3dpr-a1-m21-cD_3dpr-a1-m25-cD 3dpr-a1-m22-cD_3dpr-a1-m23-cD 3dpr-a1-m23-cD_3dpr-a1-m24-cD 3dpr-a1-m24-cD_3dpr-a1-m25-cD 3dpr-a1-m26-cD_3dpr-a1-m27-cD 3dpr-a1-m26-cD_3dpr-a1-m30-cD 3dpr-a1-m27-cD_3dpr-a1-m28-cD 3dpr-a1-m28-cD_3dpr-a1-m29-cD 3dpr-a1-m29-cD_3dpr-a1-m30-cD 3dpr-a1-m2-cD_3dpr-a1-m3-cD 3dpr-a1-m31-cD_3dpr-a1-m32-cD 3dpr-a1-m31-cD_3dpr-a1-m35-cD 3dpr-a1-m32-cD_3dpr-a1-m33-cD 3dpr-a1-m33-cD_3dpr-a1-m34-cD 3dpr-a1-m34-cD_3dpr-a1-m35-cD 3dpr-a1-m36-cD_3dpr-a1-m37-cD 3dpr-a1-m36-cD_3dpr-a1-m40-cD 3dpr-a1-m37-cD_3dpr-a1-m38-cD 3dpr-a1-m38-cD_3dpr-a1-m39-cD 3dpr-a1-m39-cD_3dpr-a1-m40-cD 3dpr-a1-m3-cD_3dpr-a1-m4-cD 3dpr-a1-m41-cD_3dpr-a1-m42-cD 3dpr-a1-m41-cD_3dpr-a1-m45-cD 3dpr-a1-m42-cD_3dpr-a1-m43-cD 3dpr-a1-m43-cD_3dpr-a1-m44-cD 3dpr-a1-m44-cD_3dpr-a1-m45-cD 3dpr-a1-m46-cD_3dpr-a1-m47-cD 3dpr-a1-m46-cD_3dpr-a1-m50-cD 3dpr-a1-m47-cD_3dpr-a1-m48-cD 3dpr-a1-m48-cD_3dpr-a1-m49-cD 3dpr-a1-m49-cD_3dpr-a1-m50-cD 3dpr-a1-m4-cD_3dpr-a1-m5-cD 3dpr-a1-m51-cD_3dpr-a1-m52-cD 3dpr-a1-m51-cD_3dpr-a1-m55-cD 3dpr-a1-m52-cD_3dpr-a1-m53-cD 3dpr-a1-m53-cD_3dpr-a1-m54-cD 3dpr-a1-m54-cD_3dpr-a1-m55-cD 3dpr-a1-m56-cD_3dpr-a1-m57-cD 3dpr-a1-m56-cD_3dpr-a1-m60-cD 3dpr-a1-m57-cD_3dpr-a1-m58-cD 3dpr-a1-m58-cD_3dpr-a1-m59-cD 3dpr-a1-m59-cD_3dpr-a1-m60-cD 3dpr-a1-m6-cD_3dpr-a1-m7-cD 3dpr-a1-m7-cD_3dpr-a1-m8-cD 3dpr-a1-m8-cD_3dpr-a1-m9-cD AQVSRQNYFNINYFKDAASNGASKL AQVSRQNYFNINYFKDAASNGASKL 1v9z-a1-m1-cB_1v9z-a1-m2-cA Crystal Structure of the heme PAS sensor domain of Ec DOS (Ferrous Form) P76129 P76129 1.9 X-RAY DIFFRACTION 37 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 113 113 GIFFPALEQNMMGAVLINENDEVMFFNPAAEKLWGYKREEVIGNNIDMLIPRDLRPAHPEYIRHNREGGKARVEGMSRELQLEKKDGSKIWTRFALSKVSAEGKVYYLALVRD GIFFPALEQNMMGAVLINENDEVMFFNPAAEKLWGYKREEVIGNNIDMLIPRDLRPAHPEYIRHNREGGKARVEGMSRELQLEKKDGSKIWTRFALSKVSAEGKVYYLALVRD 1vb5-a2-m1-cB_1vb5-a2-m2-cB Crystal Structure Analysis of the Pyrococcus horikoshii OT3 translation initiation factor eIF-2B O58185 O58185 2.2 X-RAY DIFFRACTION 25 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 275 275 1vb5-a2-m1-cA_1vb5-a2-m2-cA LPERVLEILREMKRERIKGASWLAKKGAEAFLTLAEELDESLLEDAIMELREEVVKVNPSMASLYNLARFIPVTNRRDILKSRALEFLRRMEEAKRELASIGAQLIDDGDVIITHSFSSTVLEIIRTAKERKKRFKVILTESSPDYEGLHLARELEFSGIEFEVITDAQMGLFCREASIAIVGADMITKDGYVVNKAGTYLLALACHENAIPFYVAAETYKFHPTLKSGDVMLMERDLIRGNVRIRNVLFDVTPWKYVRGIITELGIVIPPRDIQ LPERVLEILREMKRERIKGASWLAKKGAEAFLTLAEELDESLLEDAIMELREEVVKVNPSMASLYNLARFIPVTNRRDILKSRALEFLRRMEEAKRELASIGAQLIDDGDVIITHSFSSTVLEIIRTAKERKKRFKVILTESSPDYEGLHLARELEFSGIEFEVITDAQMGLFCREASIAIVGADMITKDGYVVNKAGTYLLALACHENAIPFYVAAETYKFHPTLKSGDVMLMERDLIRGNVRIRNVLFDVTPWKYVRGIITELGIVIPPRDIQ 1vb5-a2-m2-cA_1vb5-a2-m2-cB Crystal Structure Analysis of the Pyrococcus horikoshii OT3 translation initiation factor eIF-2B O58185 O58185 2.2 X-RAY DIFFRACTION 121 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 274 275 1vb5-a1-m1-cA_1vb5-a1-m1-cB 1vb5-a2-m1-cA_1vb5-a2-m1-cB LPERVLEILREMKRERIKGASWLAKKGAEAFLTLAEELDESLLEDAIMELREEVVKVNPSMASLYNLARFIPVTNRRDILKSRALEFLRRMEEAKRELASIGAQLIDDGDVIITHSFSSTVLEIIRTAKERKKRFKVILTESSPDYEGLHLARELEFSGIEFEVITDAQMGLFCREASIAIVGADMITKDGYVVNKAGTYLLALACHENAIPFYVAAETYKFHPTLKSGDVMLMERDLIRGNVRIRNVLFDVTPWKYVRGIITELGIVIPPRDI LPERVLEILREMKRERIKGASWLAKKGAEAFLTLAEELDESLLEDAIMELREEVVKVNPSMASLYNLARFIPVTNRRDILKSRALEFLRRMEEAKRELASIGAQLIDDGDVIITHSFSSTVLEIIRTAKERKKRFKVILTESSPDYEGLHLARELEFSGIEFEVITDAQMGLFCREASIAIVGADMITKDGYVVNKAGTYLLALACHENAIPFYVAAETYKFHPTLKSGDVMLMERDLIRGNVRIRNVLFDVTPWKYVRGIITELGIVIPPRDIQ 1vbf-a2-m1-cC_1vbf-a2-m5-cD Crystal structure of protein L-isoaspartate O-methyltransferase homologue from Sulfolobus tokodaii Q972K9 Q972K9 2.8 X-RAY DIFFRACTION 58 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 220 220 1vbf-a1-m1-cA_1vbf-a1-m2-cB 1vbf-a1-m2-cA_1vbf-a1-m3-cB 1vbf-a1-m3-cA_1vbf-a1-m1-cB 1vbf-a2-m1-cD_1vbf-a2-m4-cC 1vbf-a2-m4-cD_1vbf-a2-m5-cC ASEKEEILRKIKTQELAEAFNKVDRSLFLPENLKDYAYAHTHEALPILPGINTTALNLGIFLDELDLHKGQKVLEIGTGIGYYTALIAEIVDKVVSVEINEKYNYASKLLSYYNNIKLILGDGTLGYEEEKPYDRVVVWATAPTLLCKPYEQLKEGGIILPIGVGRVQKLYKVIKKGNSPSLENLGEVFGRIGGLYGFYDDYDDIEFRVNKLERQIKSIL ASEKEEILRKIKTQELAEAFNKVDRSLFLPENLKDYAYAHTHEALPILPGINTTALNLGIFLDELDLHKGQKVLEIGTGIGYYTALIAEIVDKVVSVEINEKYNYASKLLSYYNNIKLILGDGTLGYEEEKPYDRVVVWATAPTLLCKPYEQLKEGGIILPIGVGRVQKLYKVIKKGNSPSLENLGEVFGRIGGLYGFYDDYDDIEFRVNKLERQIKSIL 1vbf-a2-m4-cD_1vbf-a2-m5-cD Crystal structure of protein L-isoaspartate O-methyltransferase homologue from Sulfolobus tokodaii Q972K9 Q972K9 2.8 X-RAY DIFFRACTION 14 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 220 220 1vbf-a1-m1-cA_1vbf-a1-m2-cA 1vbf-a1-m1-cA_1vbf-a1-m3-cA 1vbf-a1-m1-cB_1vbf-a1-m2-cB 1vbf-a1-m1-cB_1vbf-a1-m3-cB 1vbf-a1-m2-cA_1vbf-a1-m3-cA 1vbf-a1-m2-cB_1vbf-a1-m3-cB 1vbf-a2-m1-cC_1vbf-a2-m4-cC 1vbf-a2-m1-cC_1vbf-a2-m5-cC 1vbf-a2-m1-cD_1vbf-a2-m4-cD 1vbf-a2-m1-cD_1vbf-a2-m5-cD 1vbf-a2-m4-cC_1vbf-a2-m5-cC ASEKEEILRKIKTQELAEAFNKVDRSLFLPENLKDYAYAHTHEALPILPGINTTALNLGIFLDELDLHKGQKVLEIGTGIGYYTALIAEIVDKVVSVEINEKYNYASKLLSYYNNIKLILGDGTLGYEEEKPYDRVVVWATAPTLLCKPYEQLKEGGIILPIGVGRVQKLYKVIKKGNSPSLENLGEVFGRIGGLYGFYDDYDDIEFRVNKLERQIKSIL ASEKEEILRKIKTQELAEAFNKVDRSLFLPENLKDYAYAHTHEALPILPGINTTALNLGIFLDELDLHKGQKVLEIGTGIGYYTALIAEIVDKVVSVEINEKYNYASKLLSYYNNIKLILGDGTLGYEEEKPYDRVVVWATAPTLLCKPYEQLKEGGIILPIGVGRVQKLYKVIKKGNSPSLENLGEVFGRIGGLYGFYDDYDDIEFRVNKLERQIKSIL 1vbf-a2-m5-cC_1vbf-a2-m5-cD Crystal structure of protein L-isoaspartate O-methyltransferase homologue from Sulfolobus tokodaii Q972K9 Q972K9 2.8 X-RAY DIFFRACTION 69 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 220 220 1vbf-a1-m1-cA_1vbf-a1-m1-cB 1vbf-a1-m2-cA_1vbf-a1-m2-cB 1vbf-a1-m3-cA_1vbf-a1-m3-cB 1vbf-a2-m1-cC_1vbf-a2-m1-cD 1vbf-a2-m4-cC_1vbf-a2-m4-cD ASEKEEILRKIKTQELAEAFNKVDRSLFLPENLKDYAYAHTHEALPILPGINTTALNLGIFLDELDLHKGQKVLEIGTGIGYYTALIAEIVDKVVSVEINEKYNYASKLLSYYNNIKLILGDGTLGYEEEKPYDRVVVWATAPTLLCKPYEQLKEGGIILPIGVGRVQKLYKVIKKGNSPSLENLGEVFGRIGGLYGFYDDYDDIEFRVNKLERQIKSIL ASEKEEILRKIKTQELAEAFNKVDRSLFLPENLKDYAYAHTHEALPILPGINTTALNLGIFLDELDLHKGQKVLEIGTGIGYYTALIAEIVDKVVSVEINEKYNYASKLLSYYNNIKLILGDGTLGYEEEKPYDRVVVWATAPTLLCKPYEQLKEGGIILPIGVGRVQKLYKVIKKGNSPSLENLGEVFGRIGGLYGFYDDYDDIEFRVNKLERQIKSIL 1vbh-a1-m1-cA_1vbh-a1-m2-cA Pyruvate Phosphate Dikinase with bound Mg-PEP from Maize P11155 P11155 2.3 X-RAY DIFFRACTION 153 1.0 4577 (Zea mays) 4577 (Zea mays) 862 862 1vbg-a1-m1-cA_1vbg-a1-m2-cA KKRVFHFGKGKSEGNKTMKELLGGKGANLAEMASIGLSVPPGFTVSTEACQQYQDAGCALPAGLWAEIVDGLQWVEEYMGATLGDPQRPLLLSVRSGAAVSMPGMMDTVLNLGLNDEVAAGLAAKSGERFAYDSFRRFLDMFGNVVMDIPRSLFEEKLEHMKESKGLKNDTDLTASDLKELVGQYKEVYLSAKGEPFPSDPKKQLELAVLAVFNSWESPRAKKYRSINQITGLRGTAVNVQCMVFGNMGNTSGTGVLFTRNPNTGEKKLYGEFLVNARTPEDLDAMKNLMPQAYDELVENCNILESHYKEMQDIEFTVQENRLWMLQCRTGKRTGKSAVKIAVDMVNEGLVEPRSAIKMVEPGHLDQLLHPQFENPSAYKDQVIATGLPASPGAAVGQVVFTAEDAEAWHSQGKAAILVRAETSPEDVGGMHAAVGILTEMTSHAAVVARGWGKCCVSGCSGIRVNDAEKLVTIGGHVLREGEWLSLNGSTGEVILGKQPLSPPALSGDLGTFMAWVDDVRKLKVLANADTPDDALTARNNGAQGIGLCRTEHMFFASDERIKAVRQMIMAPTLELRQQALDRLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLPEGNIEDIVSELCAETGANQEDALARIEKLSEVNPMLGFRGCRLGISYPELTEMQARAIFEAAIAMTNQGVQVFPEIMVPLVGTPQELGHQVTLIRQVAEKVFANVGKTIGYKVGTMIEIPRAALVADEIAEQAEFFSFGTNDLTQMTFGYSRDDVGKFIPVYLAQGILQHDPFEVLDQRGVGELVKFATERGRKARPNLKVGICGEHGGEPSSVAFFAKAGLDYVSCSPFRVPIARLAAAQVLV KKRVFHFGKGKSEGNKTMKELLGGKGANLAEMASIGLSVPPGFTVSTEACQQYQDAGCALPAGLWAEIVDGLQWVEEYMGATLGDPQRPLLLSVRSGAAVSMPGMMDTVLNLGLNDEVAAGLAAKSGERFAYDSFRRFLDMFGNVVMDIPRSLFEEKLEHMKESKGLKNDTDLTASDLKELVGQYKEVYLSAKGEPFPSDPKKQLELAVLAVFNSWESPRAKKYRSINQITGLRGTAVNVQCMVFGNMGNTSGTGVLFTRNPNTGEKKLYGEFLVNARTPEDLDAMKNLMPQAYDELVENCNILESHYKEMQDIEFTVQENRLWMLQCRTGKRTGKSAVKIAVDMVNEGLVEPRSAIKMVEPGHLDQLLHPQFENPSAYKDQVIATGLPASPGAAVGQVVFTAEDAEAWHSQGKAAILVRAETSPEDVGGMHAAVGILTEMTSHAAVVARGWGKCCVSGCSGIRVNDAEKLVTIGGHVLREGEWLSLNGSTGEVILGKQPLSPPALSGDLGTFMAWVDDVRKLKVLANADTPDDALTARNNGAQGIGLCRTEHMFFASDERIKAVRQMIMAPTLELRQQALDRLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLPEGNIEDIVSELCAETGANQEDALARIEKLSEVNPMLGFRGCRLGISYPELTEMQARAIFEAAIAMTNQGVQVFPEIMVPLVGTPQELGHQVTLIRQVAEKVFANVGKTIGYKVGTMIEIPRAALVADEIAEQAEFFSFGTNDLTQMTFGYSRDDVGKFIPVYLAQGILQHDPFEVLDQRGVGELVKFATERGRKARPNLKVGICGEHGGEPSSVAFFAKAGLDYVSCSPFRVPIARLAAAQVLV 1vbi-a1-m1-cA_1vbi-a1-m2-cA Crystal structure of type 2 malate/lactate dehydrogenase from thermus thermophilus HB8 Q53W84 Q53W84 1.8 X-RAY DIFFRACTION 217 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 340 340 1x0a-a1-m1-cA_1x0a-a1-m2-cA MRWRADFLSAWAEALLRKAGADEPSAKAVAWALVEADLRGVGSHGLLRLPVYVRRLEAGLVNPSPTLPLEERGPVALLDGEHGFGPRVALKAVEAAQSLARRHGLGAVGVRRSTHFGMAGLYAEKLAREGFVAWVTTNAEPDVVPFGGREKALGTNPLAFAAPAPQGILVADLATSESAMGKVFLAREKGERIPPSWGVDREGSPTDDPHRVYALRPLGGPKGYALALLVEVLSGVLTGAGVAHGIGRMYDEWDRPQDVGHFLLALDPGRFVGKEAFLERMGALWQALKATPPAPGHEEVFLPGELEARRRERALAEGMALPERVVAELKALGERYGVPW MRWRADFLSAWAEALLRKAGADEPSAKAVAWALVEADLRGVGSHGLLRLPVYVRRLEAGLVNPSPTLPLEERGPVALLDGEHGFGPRVALKAVEAAQSLARRHGLGAVGVRRSTHFGMAGLYAEKLAREGFVAWVTTNAEPDVVPFGGREKALGTNPLAFAAPAPQGILVADLATSESAMGKVFLAREKGERIPPSWGVDREGSPTDDPHRVYALRPLGGPKGYALALLVEVLSGVLTGAGVAHGIGRMYDEWDRPQDVGHFLLALDPGRFVGKEAFLERMGALWQALKATPPAPGHEEVFLPGELEARRRERALAEGMALPERVVAELKALGERYGVPW 1vbk-a1-m1-cB_1vbk-a1-m1-cA Crystal structure of PH1313 from Pyrococcus horikoshii Ot3 O59053 O59053 1.9 X-RAY DIFFRACTION 23 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 296 307 MNVVIVRYKSRQTRSWFEKILMNNIREALVTEEVPYKEIFSRHGRIIVKTNSPKEAANVLVRVFGIVSISPAMEVEASLEKINRTALLMFRKKAKEVGKERPKFRVTARRITKEFPLDSLEIQAKVGEYILNNENCEVDLKNYDIEIGIEIMQGKAYIYTEKIKGWGGLPIGTEGRMIGILHDELSALAIFLMMKRGVEVIPVYIGKDDKNLEKVRSLWNLLKRYSYGSKGFLVVAESFDRVLKLIRDFGVKGVIKGLRPVSEITEDFKMFPVPVYYPLIALPEEYIKSVKERLGL MNVVIVRYGEIGTKSRQTRSWFEKILMNNIREALVTEEVPYKEIFSRHGRIIVKTNSPKEAANVLVRVFGIVSISPAMEVEASLEKINRTALLMFRKKAKEVGKERPKFRVTARRITKEFPLDSLEIQAKVGEYILNNENCEVDLKNYDIEIGIEIMQGKAYIYTEKIKGWGGLPIGTEGRMIGILHDELSALAIFLMMKRGVEVIPVYIGKDDKNLEKVRSLWNLLKRYSYGSKGFLVVAESFDRVLKLIRDFGVKGVIKGLRPNDLNSEVSEITEDFKMFPVPVYYPLIALPEEYIKSVKERLGL 1vc1-a1-m1-cA_1vc1-a1-m1-cB Crystal structure of the TM1442 protein from Thermotoga maritima, a homolog of the Bacillus subtilis general stress response anti-anti-sigma factor RsbV Q9X1F5 Q9X1F5 2 X-RAY DIFFRACTION 59 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 110 110 MNNLKLDIVEQDDKAIVRVQGDIDAYNSSELKEQLRNFISTTSKKKIVLDLSSVSYMDSAGLGTLVVILKDAKINGKEFILSSLKESISRILKLTHLDKIFKITDTVEEA MNNLKLDIVEQDDKAIVRVQGDIDAYNSSELKEQLRNFISTTSKKKIVLDLSSVSYMDSAGLGTLVVILKDAKINGKEFILSSLKESISRILKLTHLDKIFKITDTVEEA 1vc3-a2-m3-cB_1vc3-a2-m4-cB Crystal Structure of L-Aspartate-alpha-Decarboxylase Q5SKN7 Q5SKN7 1.5 X-RAY DIFFRACTION 32 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 95 95 1vc3-a1-m1-cB_1vc3-a1-m2-cB 1vc3-a2-m1-cB_1vc3-a2-m2-cB 1vc3-a2-m1-cB_1vc3-a2-m4-cB 1vc3-a2-m2-cB_1vc3-a2-m3-cB 2eeo-a1-m1-cB_2eeo-a1-m3-cB 2eeo-a1-m1-cB_2eeo-a1-m4-cB 2eeo-a1-m2-cB_2eeo-a1-m3-cB 2eeo-a1-m2-cB_2eeo-a1-m4-cB VTVDQDLLDAAGILPFEQVDIYDITNGARLTTYALPGERGSGVIGINGAAAHLVKPGDLVILVAYGVFDEEEARNLKPTVVLVDERNRILEVRKG VTVDQDLLDAAGILPFEQVDIYDITNGARLTTYALPGERGSGVIGINGAAAHLVKPGDLVILVAYGVFDEEEARNLKPTVVLVDERNRILEVRKG 1vc4-a3-m1-cB_1vc4-a3-m2-cA Crystal Structure of Indole-3-Glycerol Phosphate Synthase (TrpC) from Thermus Thermophilus At 1.8 A Resolution P84126 P84126 1.8 X-RAY DIFFRACTION 24 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 254 254 MRPDLSRVPGVLGEIARKRASEVAPYPLPEPPSVPSFKEALLRPGLSVIAEVKRQSPSEGLIREVDPVEAALAYARGGARAVSVLTEPHRFGGSLLDLKRVREAVDLPLLRKDFVVDPFMLEEARAFGASAALLIVALLGELTGAYLEEARRLGLEALVEVHTERELEIALEAGAEVLGINNRDLATLHINLETAPRLGRLARKRGFGGVLVAESGYSRKEELKALEGLFDAVLIGTSLMRAPDLEAALRELVG MRPDLSRVPGVLGEIARKRASEVAPYPLPEPPSVPSFKEALLRPGLSVIAEVKRQSPSEGLIREVDPVEAALAYARGGARAVSVLTEPHRFGGSLLDLKRVREAVDLPLLRKDFVVDPFMLEEARAFGASAALLIVALLGELTGAYLEEARRLGLEALVEVHTERELEIALEAGAEVLGINNRDLATLHINLETAPRLGRLARKRGFGGVLVAESGYSRKEELKALEGLFDAVLIGTSLMRAPDLEAALRELVG 1vc4-a4-m1-cA_1vc4-a4-m3-cB Crystal Structure of Indole-3-Glycerol Phosphate Synthase (TrpC) from Thermus Thermophilus At 1.8 A Resolution P84126 P84126 1.8 X-RAY DIFFRACTION 37 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 254 254 MRPDLSRVPGVLGEIARKRASEVAPYPLPEPPSVPSFKEALLRPGLSVIAEVKRQSPSEGLIREVDPVEAALAYARGGARAVSVLTEPHRFGGSLLDLKRVREAVDLPLLRKDFVVDPFMLEEARAFGASAALLIVALLGELTGAYLEEARRLGLEALVEVHTERELEIALEAGAEVLGINNRDLATLHINLETAPRLGRLARKRGFGGVLVAESGYSRKEELKALEGLFDAVLIGTSLMRAPDLEAALRELVG MRPDLSRVPGVLGEIARKRASEVAPYPLPEPPSVPSFKEALLRPGLSVIAEVKRQSPSEGLIREVDPVEAALAYARGGARAVSVLTEPHRFGGSLLDLKRVREAVDLPLLRKDFVVDPFMLEEARAFGASAALLIVALLGELTGAYLEEARRLGLEALVEVHTERELEIALEAGAEVLGINNRDLATLHINLETAPRLGRLARKRGFGGVLVAESGYSRKEELKALEGLFDAVLIGTSLMRAPDLEAALRELVG 1vcg-a1-m2-cD_1vcg-a1-m1-cC Crystal Structure of IPP isomerase at P43212 Q746I8 Q746I8 3.02 X-RAY DIFFRACTION 16 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 306 311 1vcg-a1-m1-cA_1vcg-a1-m2-cB 1vcg-a1-m1-cD_1vcg-a1-m2-cC 1vcg-a1-m2-cA_1vcg-a1-m1-cB KHLEACLEGEVAYQKTTTGLEGFRLRYQALAGLALSEVDLTTPFLGKTLKAPFLIGATERINLALAEAAEALGVGLGSGRILLERPVRKVAPKALLIANLGLAQLRRYGRDDLLRLVELEADALAFHVNPLQEAVQRGDTDFRGLVERLAELLPLPFPVVKEVGHGLSREAALALRDLPLAAVDVAGAGGTSWARVEEWVRFGEVRHPELCEIGIPTARAILEVREVLPHLPLVASGGVYTGTDGAKALALGADLLAVARPLLRPALEGAERVAAWIGDYLEELRTALFAIGARNPKEARGRVERV KHLEACLEGEVAYQKTTTGLEGFRLRYQALAGLALSEVDLTTPFLGKTLKAPFLIGATERINLALAEAAEALGVGLGSGRILLERPEALRRVRKVAPKALLIANLGLAQLRRYGRDDLLRLVELEADALAFHVNPLQEAVQRGDTDFRGLVERLAELLPLPFPVVKEVGHGLSREAALALRDLPLAAVDVAGAGGTSWARVEEWVRFGEVRHPELCEIGIPTARAILEVREVLPHLPLVASGGVYTGTDGAKALALGADLLAVARPLLRPALEGAERVAAWIGDYLEELRTALFAIGARNPKEARGRVERV 1vcg-a2-m1-cA_1vcg-a2-m1-cD Crystal Structure of IPP isomerase at P43212 Q746I8 Q746I8 3.02 X-RAY DIFFRACTION 84 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 306 306 1vcf-a1-m1-cA_1vcf-a1-m3-cA 1vcf-a1-m1-cA_1vcf-a1-m4-cA 1vcf-a1-m1-cB_1vcf-a1-m3-cB 1vcf-a1-m1-cB_1vcf-a1-m4-cB 1vcf-a1-m2-cA_1vcf-a1-m3-cA 1vcf-a1-m2-cA_1vcf-a1-m4-cA 1vcf-a1-m2-cB_1vcf-a1-m3-cB 1vcf-a1-m2-cB_1vcf-a1-m4-cB 1vcf-a2-m1-cA_1vcf-a2-m3-cA 1vcf-a2-m1-cA_1vcf-a2-m4-cA 1vcf-a2-m2-cA_1vcf-a2-m3-cA 1vcf-a2-m2-cA_1vcf-a2-m4-cA 1vcf-a3-m1-cB_1vcf-a3-m3-cB 1vcf-a3-m1-cB_1vcf-a3-m4-cB 1vcf-a3-m2-cB_1vcf-a3-m3-cB 1vcf-a3-m2-cB_1vcf-a3-m4-cB 1vcg-a1-m1-cA_1vcg-a1-m1-cB 1vcg-a1-m1-cA_1vcg-a1-m1-cD 1vcg-a1-m1-cC_1vcg-a1-m1-cB 1vcg-a1-m1-cD_1vcg-a1-m1-cC 1vcg-a1-m2-cA_1vcg-a1-m2-cB 1vcg-a1-m2-cA_1vcg-a1-m2-cD 1vcg-a1-m2-cC_1vcg-a1-m2-cB 1vcg-a1-m2-cD_1vcg-a1-m2-cC 1vcg-a2-m1-cA_1vcg-a2-m1-cB 1vcg-a2-m1-cC_1vcg-a2-m1-cB 1vcg-a2-m1-cD_1vcg-a2-m1-cC 3dh7-a1-m1-cA_3dh7-a1-m1-cB 3dh7-a1-m1-cC_3dh7-a1-m1-cB 3dh7-a1-m1-cD_3dh7-a1-m1-cA 3dh7-a1-m1-cD_3dh7-a1-m1-cC KHLEACLEGEVAYQKTTTGLEGFRLRYQALAGLALSEVDLTTPFLGKTLKAPFLIGATERINLALAEAAEALGVGLGSGRILLERPVRKVAPKALLIANLGLAQLRRYGRDDLLRLVELEADALAFHVNPLQEAVQRGDTDFRGLVERLAELLPLPFPVVKEVGHGLSREAALALRDLPLAAVDVAGAGGTSWARVEEWVRFGEVRHPELCEIGIPTARAILEVREVLPHLPLVASGGVYTGTDGAKALALGADLLAVARPLLRPALEGAERVAAWIGDYLEELRTALFAIGARNPKEARGRVERV KHLEACLEGEVAYQKTTTGLEGFRLRYQALAGLALSEVDLTTPFLGKTLKAPFLIGATERINLALAEAAEALGVGLGSGRILLERPVRKVAPKALLIANLGLAQLRRYGRDDLLRLVELEADALAFHVNPLQEAVQRGDTDFRGLVERLAELLPLPFPVVKEVGHGLSREAALALRDLPLAAVDVAGAGGTSWARVEEWVRFGEVRHPELCEIGIPTARAILEVREVLPHLPLVASGGVYTGTDGAKALALGADLLAVARPLLRPALEGAERVAAWIGDYLEELRTALFAIGARNPKEARGRVERV 1vch-a4-m1-cE_1vch-a4-m2-cE Crystal Structure of a Phosphoribosyltransferase-related protein from Thermus thermophilus Q5SHW7 Q5SHW7 1.94 X-RAY DIFFRACTION 66 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 152 152 1vch-a3-m1-cE_1vch-a3-m2-cE ETYPITVGGVTRHVPLIEPLPGRRIPLVEFPEFTRAAAEALRPLVPKEAEILFTTETSPIPLTHVLAEPYVVARRRRRPYMEDPIIQEGEVLWLDRRFAEKLQRVVLVSDVVASTMRAMKMVLRAGGHVRLAVFRQGTPGLAVDTVAELPVL ETYPITVGGVTRHVPLIEPLPGRRIPLVEFPEFTRAAAEALRPLVPKEAEILFTTETSPIPLTHVLAEPYVVARRRRRPYMEDPIIQEGEVLWLDRRFAEKLQRVVLVSDVVASTMRAMKMVLRAGGHVRLAVFRQGTPGLAVDTVAELPVL 1vch-a4-m4-cC_1vch-a4-m4-cD Crystal Structure of a Phosphoribosyltransferase-related protein from Thermus thermophilus Q5SHW7 Q5SHW7 1.94 X-RAY DIFFRACTION 69 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 169 173 1vch-a1-m1-cA_1vch-a1-m1-cB 1vch-a2-m1-cC_1vch-a2-m1-cD 1vch-a4-m1-cA_1vch-a4-m1-cB 1vch-a4-m2-cA_1vch-a4-m2-cB 1vch-a4-m3-cC_1vch-a4-m3-cD METYPITVGGVTRHVPLIEPLPGRRIPLVEFLGDPEFTRAAAEALRPLVPKEAEILFTTETSPIPLTHVLAEALGLPYVVARRRRRPYMEDPIIQEVQTEVLWLDRRFAEKLLNQRVVLVSDVVASGETMRAMEKMVLRAGGHVVARLAVFRQGTPGLAVDTVAELPVL METYPITVGGVTRHVPLIEPLPGRRIPLVEFLGDPEFTRAAAEALRPLVPKEAEILFTTETSPIPLTHVLAEALGLPYVVARRRRRPYMEDPIIQEVQTLTVGEVLWLDRRFAEKLLNQRVVLVSDVVASGETMRAMEKMVLRAGGHVVARLAVFRQGTPGLAVDTVAELPVL 1vco-a1-m1-cA_1vco-a1-m4-cA Crystal Structure of T.th. HB8 CTP synthetase complex with Glutamine Q5SIA8 Q5SIA8 2.15 X-RAY DIFFRACTION 29 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 531 531 1vcm-a1-m1-cA_1vcm-a1-m4-cA 1vcm-a1-m2-cA_1vcm-a1-m3-cA 1vcn-a1-m1-cA_1vcn-a1-m4-cA 1vcn-a1-m2-cA_1vcn-a1-m3-cA 1vco-a1-m2-cA_1vco-a1-m3-cA RPRKYVFITGGVVSSLGKGILTSSLGALLRARGYRVTAIKIDPYVNVDAGTMRPYEHGEVFVTADGAETDLDIGHYERFLDMDLSRGNNLTTGQVYLSVIQKERRGEYLSQTVQVIPHITDEIKERIRKVAEEQKAEIVVVEVGGTVGDIESLPFLEAIRQFRFDEGEGNTLYLHLTLVPYLETSEEFKTKPTQHSVATLRGVGIQPDILVLRSARPVPEEVRRKVALFTNVRPGHVFSSPTVEHLYEVPLLLEEQGLGRAVERALGLEAVIPNLSFWQEAVRVLKHPERTVKIAIAGKYVDAYLSLLEALRHAGIKNRARVEVKWVDAESLADLEEAFRDVSGILVPGGFGVRGIEGKVRAAQYARERKIPYLGICLGLQIAVIEFARNVAGLKGANSTEFDPHTPHPVIDLMPEQLEVGGTMRLGDWPMRIKPGTLLHRLYGKEEVLERHRHRYEVNPLYVDGLERAGLVVSATTPGMRGRGAGLVEAIELKDHPFFLGLQSHPEFKSRPMRPSPPFVGFVEAALAYQE RPRKYVFITGGVVSSLGKGILTSSLGALLRARGYRVTAIKIDPYVNVDAGTMRPYEHGEVFVTADGAETDLDIGHYERFLDMDLSRGNNLTTGQVYLSVIQKERRGEYLSQTVQVIPHITDEIKERIRKVAEEQKAEIVVVEVGGTVGDIESLPFLEAIRQFRFDEGEGNTLYLHLTLVPYLETSEEFKTKPTQHSVATLRGVGIQPDILVLRSARPVPEEVRRKVALFTNVRPGHVFSSPTVEHLYEVPLLLEEQGLGRAVERALGLEAVIPNLSFWQEAVRVLKHPERTVKIAIAGKYVDAYLSLLEALRHAGIKNRARVEVKWVDAESLADLEEAFRDVSGILVPGGFGVRGIEGKVRAAQYARERKIPYLGICLGLQIAVIEFARNVAGLKGANSTEFDPHTPHPVIDLMPEQLEVGGTMRLGDWPMRIKPGTLLHRLYGKEEVLERHRHRYEVNPLYVDGLERAGLVVSATTPGMRGRGAGLVEAIELKDHPFFLGLQSHPEFKSRPMRPSPPFVGFVEAALAYQE 1vco-a1-m2-cA_1vco-a1-m4-cA Crystal Structure of T.th. HB8 CTP synthetase complex with Glutamine Q5SIA8 Q5SIA8 2.15 X-RAY DIFFRACTION 39 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 531 531 1vcm-a1-m1-cA_1vcm-a1-m3-cA 1vcm-a1-m2-cA_1vcm-a1-m4-cA 1vcn-a1-m1-cA_1vcn-a1-m3-cA 1vcn-a1-m2-cA_1vcn-a1-m4-cA 1vco-a1-m1-cA_1vco-a1-m3-cA RPRKYVFITGGVVSSLGKGILTSSLGALLRARGYRVTAIKIDPYVNVDAGTMRPYEHGEVFVTADGAETDLDIGHYERFLDMDLSRGNNLTTGQVYLSVIQKERRGEYLSQTVQVIPHITDEIKERIRKVAEEQKAEIVVVEVGGTVGDIESLPFLEAIRQFRFDEGEGNTLYLHLTLVPYLETSEEFKTKPTQHSVATLRGVGIQPDILVLRSARPVPEEVRRKVALFTNVRPGHVFSSPTVEHLYEVPLLLEEQGLGRAVERALGLEAVIPNLSFWQEAVRVLKHPERTVKIAIAGKYVDAYLSLLEALRHAGIKNRARVEVKWVDAESLADLEEAFRDVSGILVPGGFGVRGIEGKVRAAQYARERKIPYLGICLGLQIAVIEFARNVAGLKGANSTEFDPHTPHPVIDLMPEQLEVGGTMRLGDWPMRIKPGTLLHRLYGKEEVLERHRHRYEVNPLYVDGLERAGLVVSATTPGMRGRGAGLVEAIELKDHPFFLGLQSHPEFKSRPMRPSPPFVGFVEAALAYQE RPRKYVFITGGVVSSLGKGILTSSLGALLRARGYRVTAIKIDPYVNVDAGTMRPYEHGEVFVTADGAETDLDIGHYERFLDMDLSRGNNLTTGQVYLSVIQKERRGEYLSQTVQVIPHITDEIKERIRKVAEEQKAEIVVVEVGGTVGDIESLPFLEAIRQFRFDEGEGNTLYLHLTLVPYLETSEEFKTKPTQHSVATLRGVGIQPDILVLRSARPVPEEVRRKVALFTNVRPGHVFSSPTVEHLYEVPLLLEEQGLGRAVERALGLEAVIPNLSFWQEAVRVLKHPERTVKIAIAGKYVDAYLSLLEALRHAGIKNRARVEVKWVDAESLADLEEAFRDVSGILVPGGFGVRGIEGKVRAAQYARERKIPYLGICLGLQIAVIEFARNVAGLKGANSTEFDPHTPHPVIDLMPEQLEVGGTMRLGDWPMRIKPGTLLHRLYGKEEVLERHRHRYEVNPLYVDGLERAGLVVSATTPGMRGRGAGLVEAIELKDHPFFLGLQSHPEFKSRPMRPSPPFVGFVEAALAYQE 1vco-a1-m3-cA_1vco-a1-m4-cA Crystal Structure of T.th. HB8 CTP synthetase complex with Glutamine Q5SIA8 Q5SIA8 2.15 X-RAY DIFFRACTION 94 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 531 531 1vcm-a1-m1-cA_1vcm-a1-m2-cA 1vcm-a1-m3-cA_1vcm-a1-m4-cA 1vcn-a1-m1-cA_1vcn-a1-m2-cA 1vcn-a1-m3-cA_1vcn-a1-m4-cA 1vco-a1-m1-cA_1vco-a1-m2-cA RPRKYVFITGGVVSSLGKGILTSSLGALLRARGYRVTAIKIDPYVNVDAGTMRPYEHGEVFVTADGAETDLDIGHYERFLDMDLSRGNNLTTGQVYLSVIQKERRGEYLSQTVQVIPHITDEIKERIRKVAEEQKAEIVVVEVGGTVGDIESLPFLEAIRQFRFDEGEGNTLYLHLTLVPYLETSEEFKTKPTQHSVATLRGVGIQPDILVLRSARPVPEEVRRKVALFTNVRPGHVFSSPTVEHLYEVPLLLEEQGLGRAVERALGLEAVIPNLSFWQEAVRVLKHPERTVKIAIAGKYVDAYLSLLEALRHAGIKNRARVEVKWVDAESLADLEEAFRDVSGILVPGGFGVRGIEGKVRAAQYARERKIPYLGICLGLQIAVIEFARNVAGLKGANSTEFDPHTPHPVIDLMPEQLEVGGTMRLGDWPMRIKPGTLLHRLYGKEEVLERHRHRYEVNPLYVDGLERAGLVVSATTPGMRGRGAGLVEAIELKDHPFFLGLQSHPEFKSRPMRPSPPFVGFVEAALAYQE RPRKYVFITGGVVSSLGKGILTSSLGALLRARGYRVTAIKIDPYVNVDAGTMRPYEHGEVFVTADGAETDLDIGHYERFLDMDLSRGNNLTTGQVYLSVIQKERRGEYLSQTVQVIPHITDEIKERIRKVAEEQKAEIVVVEVGGTVGDIESLPFLEAIRQFRFDEGEGNTLYLHLTLVPYLETSEEFKTKPTQHSVATLRGVGIQPDILVLRSARPVPEEVRRKVALFTNVRPGHVFSSPTVEHLYEVPLLLEEQGLGRAVERALGLEAVIPNLSFWQEAVRVLKHPERTVKIAIAGKYVDAYLSLLEALRHAGIKNRARVEVKWVDAESLADLEEAFRDVSGILVPGGFGVRGIEGKVRAAQYARERKIPYLGICLGLQIAVIEFARNVAGLKGANSTEFDPHTPHPVIDLMPEQLEVGGTMRLGDWPMRIKPGTLLHRLYGKEEVLERHRHRYEVNPLYVDGLERAGLVVSATTPGMRGRGAGLVEAIELKDHPFFLGLQSHPEFKSRPMRPSPPFVGFVEAALAYQE 1vct-a2-m1-cA_1vct-a2-m4-cA Crystal structure of putative potassium channel related protein from Pyrococcus horikoshii O57975 O57975 1.85 X-RAY DIFFRACTION 40 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 193 193 1vct-a2-m2-cA_1vct-a2-m3-cA YEPKSVKEIFIEMKDTVELMVDLAYASLLFGDKEIAEEVLELEERIDLLNYQLMMHSVLAARNVKEAEQVITILQIANAIEDISNAAGDLAKMVLEGVELHPVIKETILEGEEIIGKIQVYPESVIVGKTLGELDLATNTGVWIIAVRRGKRWIFGPNENFKIRAGDVLIGRGTRTSIDHLKEIARGAIRVIG YEPKSVKEIFIEMKDTVELMVDLAYASLLFGDKEIAEEVLELEERIDLLNYQLMMHSVLAARNVKEAEQVITILQIANAIEDISNAAGDLAKMVLEGVELHPVIKETILEGEEIIGKIQVYPESVIVGKTLGELDLATNTGVWIIAVRRGKRWIFGPNENFKIRAGDVLIGRGTRTSIDHLKEIARGAIRVIG 1vct-a2-m3-cA_1vct-a2-m4-cA Crystal structure of putative potassium channel related protein from Pyrococcus horikoshii O57975 O57975 1.85 X-RAY DIFFRACTION 142 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 193 193 1vct-a2-m1-cA_1vct-a2-m2-cA 2bkn-a1-m1-cA_2bkn-a1-m2-cA 2bko-a1-m1-cA_2bko-a1-m2-cA 2bkp-a1-m1-cA_2bkp-a1-m2-cA YEPKSVKEIFIEMKDTVELMVDLAYASLLFGDKEIAEEVLELEERIDLLNYQLMMHSVLAARNVKEAEQVITILQIANAIEDISNAAGDLAKMVLEGVELHPVIKETILEGEEIIGKIQVYPESVIVGKTLGELDLATNTGVWIIAVRRGKRWIFGPNENFKIRAGDVLIGRGTRTSIDHLKEIARGAIRVIG YEPKSVKEIFIEMKDTVELMVDLAYASLLFGDKEIAEEVLELEERIDLLNYQLMMHSVLAARNVKEAEQVITILQIANAIEDISNAAGDLAKMVLEGVELHPVIKETILEGEEIIGKIQVYPESVIVGKTLGELDLATNTGVWIIAVRRGKRWIFGPNENFKIRAGDVLIGRGTRTSIDHLKEIARGAIRVIG 1vcv-a1-m1-cA_1vcv-a1-m1-cB Structure of 2-deoxyribose-5-phosphate aldolase from Pyrobaculum aerophilum Q8ZXK7 Q8ZXK7 2 X-RAY DIFFRACTION 107 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 226 226 MIHLVDYALLKPYLTVDEAVAGARKAEELGVAAYCVNPIYAPVVRPLLRKVKLCVVADFPFGALPTASRIALVSRLAEVADEIDVVAPIGLVKSRRWAEVRRDLISVVGAAGGRVVKVITEEPYLRDEERYTLYDIIAEAGAHFIKSSTGFAEEAYAARQGNPVHSTPERAAAIARYIKEKGYRLGVKMAGGIRTREQAKAIVDAIGWGEDPARVRLGTSTPEALL MIHLVDYALLKPYLTVDEAVAGARKAEELGVAAYCVNPIYAPVVRPLLRKVKLCVVADFPFGALPTASRIALVSRLAEVADEIDVVAPIGLVKSRRWAEVRRDLISVVGAAGGRVVKVITEEPYLRDEERYTLYDIIAEAGAHFIKSSTGFAEEAYAARQGNPVHSTPERAAAIARYIKEKGYRLGVKMAGGIRTREQAKAIVDAIGWGEDPARVRLGTSTPEALL 1vcv-a2-m1-cA_1vcv-a2-m2-cB Structure of 2-deoxyribose-5-phosphate aldolase from Pyrobaculum aerophilum Q8ZXK7 Q8ZXK7 2 X-RAY DIFFRACTION 14 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 226 226 MIHLVDYALLKPYLTVDEAVAGARKAEELGVAAYCVNPIYAPVVRPLLRKVKLCVVADFPFGALPTASRIALVSRLAEVADEIDVVAPIGLVKSRRWAEVRRDLISVVGAAGGRVVKVITEEPYLRDEERYTLYDIIAEAGAHFIKSSTGFAEEAYAARQGNPVHSTPERAAAIARYIKEKGYRLGVKMAGGIRTREQAKAIVDAIGWGEDPARVRLGTSTPEALL MIHLVDYALLKPYLTVDEAVAGARKAEELGVAAYCVNPIYAPVVRPLLRKVKLCVVADFPFGALPTASRIALVSRLAEVADEIDVVAPIGLVKSRRWAEVRRDLISVVGAAGGRVVKVITEEPYLRDEERYTLYDIIAEAGAHFIKSSTGFAEEAYAARQGNPVHSTPERAAAIARYIKEKGYRLGVKMAGGIRTREQAKAIVDAIGWGEDPARVRLGTSTPEALL 1vd6-a1-m1-cA_1vd6-a1-m2-cA Crystal Structure of Glycerophosphoryl Diester Phosphodiesterase complexed with Glycerol Q53W25 Q53W25 1.3 X-RAY DIFFRACTION 41 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 218 218 1v8e-a1-m1-cA_1v8e-a1-m2-cA RPLRLGHRGAPLKAKENTLESFRLALEAGLDGVELDVWPTRDGVFAVRHDPDTPLGPVFQVDYADLKAQEPDLPRLEEVLALKEAFPQAVFNVELKSFPGLGEEAARRLAALLRGREGVWVSSFDPLALLALRKAAPGLPLGFLMAEDHSALLPCLGVEAVHPHHALVTEEAVAGWRKRGLFVVAWTVNEEGEARRLLALGLDGLIGDRPEVLLPLGG RPLRLGHRGAPLKAKENTLESFRLALEAGLDGVELDVWPTRDGVFAVRHDPDTPLGPVFQVDYADLKAQEPDLPRLEEVLALKEAFPQAVFNVELKSFPGLGEEAARRLAALLRGREGVWVSSFDPLALLALRKAAPGLPLGFLMAEDHSALLPCLGVEAVHPHHALVTEEAVAGWRKRGLFVVAWTVNEEGEARRLLALGLDGLIGDRPEVLLPLGG 1vdc-a1-m2-cA_1vdc-a1-m1-cA STRUCTURE OF NADPH DEPENDENT THIOREDOXIN REDUCTASE Q39243 Q39243 2.5 X-RAY DIFFRACTION 101 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 322 322 LETHNTRLCIVGSGPAAHTAAIYAARAELKPLLFEGWMANDIAPGGQLTTTTDVENFPGFPEGILGVELTDKFRKQSERFGTTIFTETVTKVDFSSKPFKLFTDSKAILADAVILAIGAVAKRLSFVGSGEVLGGFWNRGISACAVCDGAAPIFRNKPLAVIGGGDSAMEEANFLTKYGSKVYIIHRRDAFRASKIMQQRALSNPKIDVIWNSSVVEAYGDGERDVLGGLKVKNVVTGDVSDLKVSGLFFAIGHEPATKFLDGGVELDSDGYVVTKPGTTQTSVPGVFAAGDVQDKKYRQAITAAGTGCMAALDAEHYLQEI LETHNTRLCIVGSGPAAHTAAIYAARAELKPLLFEGWMANDIAPGGQLTTTTDVENFPGFPEGILGVELTDKFRKQSERFGTTIFTETVTKVDFSSKPFKLFTDSKAILADAVILAIGAVAKRLSFVGSGEVLGGFWNRGISACAVCDGAAPIFRNKPLAVIGGGDSAMEEANFLTKYGSKVYIIHRRDAFRASKIMQQRALSNPKIDVIWNSSVVEAYGDGERDVLGGLKVKNVVTGDVSDLKVSGLFFAIGHEPATKFLDGGVELDSDGYVVTKPGTTQTSVPGVFAAGDVQDKKYRQAITAAGTGCMAALDAEHYLQEI 1vdd-a2-m1-cB_1vdd-a2-m2-cB Crystal structure of recombinational repair protein RecR Q9ZNA2 Q9ZNA2 2.5 X-RAY DIFFRACTION 39 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 198 198 1vdd-a2-m1-cA_1vdd-a2-m2-cA KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP 1vdd-a2-m1-cB_1vdd-a2-m2-cD Crystal structure of recombinational repair protein RecR Q9ZNA2 Q9ZNA2 2.5 X-RAY DIFFRACTION 20 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 198 198 1vdd-a2-m1-cC_1vdd-a2-m2-cA 1vdd-a2-m1-cD_1vdd-a2-m2-cB 1vdd-a2-m2-cC_1vdd-a2-m1-cA KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP 1vdd-a2-m2-cB_1vdd-a2-m2-cA Crystal structure of recombinational repair protein RecR Q9ZNA2 Q9ZNA2 2.5 X-RAY DIFFRACTION 220 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 198 199 1vdd-a1-m1-cB_1vdd-a1-m1-cA 1vdd-a1-m1-cC_1vdd-a1-m1-cD 1vdd-a2-m1-cB_1vdd-a2-m1-cA 1vdd-a2-m1-cC_1vdd-a2-m1-cD 1vdd-a2-m2-cC_1vdd-a2-m2-cD 2v1c-a1-m1-cA_2v1c-a1-m1-cB 2v1c-a1-m2-cA_2v1c-a1-m2-cB 4jcv-a1-m1-cA_4jcv-a1-m1-cD 4jcv-a1-m1-cC_4jcv-a1-m1-cB KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP MKYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP 1vdd-a2-m2-cB_1vdd-a2-m2-cD Crystal structure of recombinational repair protein RecR Q9ZNA2 Q9ZNA2 2.5 X-RAY DIFFRACTION 141 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 198 198 1vdd-a1-m1-cB_1vdd-a1-m1-cD 1vdd-a1-m1-cC_1vdd-a1-m1-cA 1vdd-a2-m1-cB_1vdd-a2-m1-cD 1vdd-a2-m1-cC_1vdd-a2-m1-cA 1vdd-a2-m2-cC_1vdd-a2-m2-cA 2v1c-a1-m1-cA_2v1c-a1-m2-cA 2v1c-a1-m1-cB_2v1c-a1-m2-cB 4jcv-a1-m1-cA_4jcv-a1-m1-cB 4jcv-a1-m1-cC_4jcv-a1-m1-cD KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP 1vdd-a2-m2-cD_1vdd-a2-m1-cA Crystal structure of recombinational repair protein RecR Q9ZNA2 Q9ZNA2 2.5 X-RAY DIFFRACTION 28 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 198 199 1vdd-a2-m1-cC_1vdd-a2-m2-cB 1vdd-a2-m1-cD_1vdd-a2-m2-cA 1vdd-a2-m2-cC_1vdd-a2-m1-cB KYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP MKYPPSLVSLIRELSRLPGIGPKSAQRLAFHLFEQPREDIERLASALLEAKRDLHVCPICFNITDAEKCDVCADPSRDQRTICVVEEPGDVIALERSGEYRGLYHVLHGVLSPMNGVGPDKLHIKPLLPRVGQGMEVILATGTTVEGDATALYLQRLLEPLGAAISRIAYGVPVGGSLEYTDEVTLGRALTGRQTVSKP 1vde-a1-m1-cB_1vde-a1-m1-cA PI-SCEI, A HOMING ENDONUCLEASE WITH PROTEIN SPLICING ACTIVITY P17255 P17255 2.4 X-RAY DIFFRACTION 89 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 428 429 CFAKGTNVLMADGSIECIENIEVGNKVMGKDGRPREVIKLPRGRETMYSVVQKSQHRAHKSDSSREVPELLKFTCNATHELVVRTPRSVRRLEVITFEMGQKKAPDGRIVELVKEVSKSYPISEGPERANELVESYRKASNKAYFEWTIEARDLSLLGSHVRKATYQTYAPILYENDHFFDYMQKSKFHLTIEGPKVLAYLLGLWIGDGLSDRATFSVDSRDTSLMERVTEYAEKLNLCAEYKDRKEPQVAKTVNLYSKLNTENPLWDAIVGLGFLKDGVKNIPSFLSTDNIGTRETFLAGLIDSDGYVTDEHGIKATIKTIHTSVRDGLVSLARSLGLVVSVNAEPATKHKISYAIYMSGGDVLLNVLSKCAGSKKFRPAPAAAFARECRGFYFELQELKEDDYYGITLSDDSDHQFLLANQVVVHN CFAKGTNVLMADGSIECIENIEVGNKVMGKDGRPREVIKLPRGRETMYSVVQKSQHRAHKSDSSREVPELLKFTCNATHELVVRTPRSVRRLEVITFEMGQKKAPDGRIVELVKEVSKSYPISEGPERANELVESYRKASNKAYFEWTIEARDLSLLGSHVRKATYQTYAPILYENDHFFDYMQKSKFHLTIEGPKVLAYLLGLWIGDGLSDRATFSVDSRDTSLMERVTEYAEKLNLCAEYKDRKEPQVAKTVNLYSKVLNTENPLWDAIVGLGFLKDGVKNIPSFLSTDNIGTRETFLAGLIDSDGYVTDEHGIKATIKTIHTSVRDGLVSLARSLGLVVSVNAEPATKHKISYAIYMSGGDVLLNVLSKCAGSKKFRPAPAAAFARECRGFYFELQELKEDDYYGITLSDDSDHQFLLANQVVVHN 1vdg-a1-m1-cA_1vdg-a1-m1-cB Crystal structure of LIR1.01, one of the alleles of LIR1 Q8NHL6 Q8NHL6 2.8 X-RAY DIFFRACTION 93 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 GHLPKPTLWAEPGSVITQGSPVTLRCQGGQETQEYRLYREKKTALWITRIPQELVKKGQFPIPSITWEHAGRYRCYYGGRSESSDPLELVVTGAYIKPTLSAQPSPVVNSGGNVILQCDSQVAFDGFSLCKEQCLNSQPHARGSSRAIFSVGPVSPSRRWWYRCYAYDSNSPYEWSLPSDLLELLVL GHLPKPTLWAEPGSVITQGSPVTLRCQGGQETQEYRLYREKKTALWITRIPQELVKKGQFPIPSITWEHAGRYRCYYGSDAGRSESSDPLELVVTGAYIKPTLSAQPSPVVNSGGNVILQCDSQVAFDGFSLCKEQCLNSQPRGSSRAIFSVGPVSPSRWWYRCYAYDSNSPYEWSLPSDLLELLVL 1vdh-a1-m1-cD_1vdh-a1-m1-cE Structure-based functional identification of a novel heme-binding protein from thermus thermophilus HB8 Q5SHL6 Q5SHL6 2 X-RAY DIFFRACTION 111 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 247 247 1vdh-a1-m1-cA_1vdh-a1-m1-cB 1vdh-a1-m1-cA_1vdh-a1-m1-cE 1vdh-a1-m1-cB_1vdh-a1-m1-cC 1vdh-a1-m1-cC_1vdh-a1-m1-cD RHVPEPTHTLEGWHVLHDFRLLDFARWFSAPLEAREDAWEELKGLVREWRELEEAGQGSYGIYQVVGHKADLLFLNLRPGLDPLLEAEARLSRSAFARYLGRSYSFYSVVELGSQEKPLDPESPYVKPRLTPRVPKSGYVCFYPMNKRRQGQDNWYMLPAKERASLMKAHGETGRKYQGEVMQVISGAQGLDDWEWGVDLFSEDPVQFKKIVYEMRFDEVSARYGEFGPFFVGKYLDEEALRAFLGL RHVPEPTHTLEGWHVLHDFRLLDFARWFSAPLEAREDAWEELKGLVREWRELEEAGQGSYGIYQVVGHKADLLFLNLRPGLDPLLEAEARLSRSAFARYLGRSYSFYSVVELGSQEKPLDPESPYVKPRLTPRVPKSGYVCFYPMNKRRQGQDNWYMLPAKERASLMKAHGETGRKYQGEVMQVISGAQGLDDWEWGVDLFSEDPVQFKKIVYEMRFDEVSARYGEFGPFFVGKYLDEEALRAFLGL 1vdk-a1-m1-cB_1vdk-a1-m2-cB Crystal structure of fumarase from thermus thermophilus HB8 P84127 P84127 1.8 X-RAY DIFFRACTION 127 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 457 457 1vdk-a1-m1-cA_1vdk-a1-m2-cA RIERDTMGEVRVPADKYWGAQTQRSLENFRIGTDRFRMPLEIIRAYGMLKKAAARANLELGELPEEIAKAIIQAAEEVVQGKWDDHFPLVVFQTGSGTQTNMNVNEVIANRASEILGKPLGSKYAHPNDHVNRGQSSNDTFPTAMYVAVALALHQRLYPAVEGLIRTFTAKAQAFDQIVKVGRTHLMDAVPITLGQEIGSWAAQLKTTLAAVKEMEKGLYNLAIGGTAVGTGLNAHPRFGELVAKYLAEETGLPFRVAENRFAALAAHDELVNVMGAIRTLAGALMKIGNDVRWLASGPYAGIGEITIPANEPIMPGKVNPTQVEALTMVVVRVYGNDHTVAFAGSQGNFQLNVYKPVMAYSTLESINLLADAVASFDAHLAQGIEPNLERIEEYLQKNPMLATALNKAIGYDKAAEIVKKALKEKKTLKQAALELGYLTEEEFDRIVVPMRLAKPH RIERDTMGEVRVPADKYWGAQTQRSLENFRIGTDRFRMPLEIIRAYGMLKKAAARANLELGELPEEIAKAIIQAAEEVVQGKWDDHFPLVVFQTGSGTQTNMNVNEVIANRASEILGKPLGSKYAHPNDHVNRGQSSNDTFPTAMYVAVALALHQRLYPAVEGLIRTFTAKAQAFDQIVKVGRTHLMDAVPITLGQEIGSWAAQLKTTLAAVKEMEKGLYNLAIGGTAVGTGLNAHPRFGELVAKYLAEETGLPFRVAENRFAALAAHDELVNVMGAIRTLAGALMKIGNDVRWLASGPYAGIGEITIPANEPIMPGKVNPTQVEALTMVVVRVYGNDHTVAFAGSQGNFQLNVYKPVMAYSTLESINLLADAVASFDAHLAQGIEPNLERIEEYLQKNPMLATALNKAIGYDKAAEIVKKALKEKKTLKQAALELGYLTEEEFDRIVVPMRLAKPH 1vdk-a1-m2-cB_1vdk-a1-m1-cA Crystal structure of fumarase from thermus thermophilus HB8 P84127 P84127 1.8 X-RAY DIFFRACTION 242 0.996 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 457 458 1vdk-a1-m1-cB_1vdk-a1-m2-cA RIERDTMGEVRVPADKYWGAQTQRSLENFRIGTDRFRMPLEIIRAYGMLKKAAARANLELGELPEEIAKAIIQAAEEVVQGKWDDHFPLVVFQTGSGTQTNMNVNEVIANRASEILGKPLGSKYAHPNDHVNRGQSSNDTFPTAMYVAVALALHQRLYPAVEGLIRTFTAKAQAFDQIVKVGRTHLMDAVPITLGQEIGSWAAQLKTTLAAVKEMEKGLYNLAIGGTAVGTGLNAHPRFGELVAKYLAEETGLPFRVAENRFAALAAHDELVNVMGAIRTLAGALMKIGNDVRWLASGPYAGIGEITIPANEPIMPGKVNPTQVEALTMVVVRVYGNDHTVAFAGSQGNFQLNVYKPVMAYSTLESINLLADAVASFDAHLAQGIEPNLERIEEYLQKNPMLATALNKAIGYDKAAEIVKKALKEKKTLKQAALELGYLTEEEFDRIVVPMRLAKPH RIERDTMGEVRVPADKYWGAQTQRSLENFRIGTDRFRMPLEIIRAYGMLKKAAARANLELGELPEEIAKAIIQAAEEVVQGKWDDHFPLVVFQTGSGTQTNMNVNEVIANRASEILGKPLGSKYAHPNDHVNRGQSSNDTFPTAMYVAVALALHQRLYPAVEGLIRTFTAKAQAFDQIVKVGRTHLMDAVPITLGQEIGSWAAQLKTTLAAVKEMEKGLYNLAIGGTAVGTGLNAHPRFGELVAKYLAEETGLPFRVAENRFAALAAHDELVNVMGAIRTLAGALMKIGNDVRWLASGPYAGIGEITIPANEPGSSIMPGKVNPTQVEALTMVVVRVYGNDHTVAFAGSQGNFQLNVYKPVMAYSTLESINLLADAVASFDAHLAQGIEPNLERIEEYLQKNPMLATALNKAIGYDKAAEIVKKALKKTLKQAALELGYLTEEEFDRIVVPMRLAKPH 1vdk-a1-m2-cB_1vdk-a1-m2-cA Crystal structure of fumarase from thermus thermophilus HB8 P84127 P84127 1.8 X-RAY DIFFRACTION 95 0.996 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 457 458 1vdk-a1-m1-cB_1vdk-a1-m1-cA RIERDTMGEVRVPADKYWGAQTQRSLENFRIGTDRFRMPLEIIRAYGMLKKAAARANLELGELPEEIAKAIIQAAEEVVQGKWDDHFPLVVFQTGSGTQTNMNVNEVIANRASEILGKPLGSKYAHPNDHVNRGQSSNDTFPTAMYVAVALALHQRLYPAVEGLIRTFTAKAQAFDQIVKVGRTHLMDAVPITLGQEIGSWAAQLKTTLAAVKEMEKGLYNLAIGGTAVGTGLNAHPRFGELVAKYLAEETGLPFRVAENRFAALAAHDELVNVMGAIRTLAGALMKIGNDVRWLASGPYAGIGEITIPANEPIMPGKVNPTQVEALTMVVVRVYGNDHTVAFAGSQGNFQLNVYKPVMAYSTLESINLLADAVASFDAHLAQGIEPNLERIEEYLQKNPMLATALNKAIGYDKAAEIVKKALKEKKTLKQAALELGYLTEEEFDRIVVPMRLAKPH RIERDTMGEVRVPADKYWGAQTQRSLENFRIGTDRFRMPLEIIRAYGMLKKAAARANLELGELPEEIAKAIIQAAEEVVQGKWDDHFPLVVFQTGSGTQTNMNVNEVIANRASEILGKPLGSKYAHPNDHVNRGQSSNDTFPTAMYVAVALALHQRLYPAVEGLIRTFTAKAQAFDQIVKVGRTHLMDAVPITLGQEIGSWAAQLKTTLAAVKEMEKGLYNLAIGGTAVGTGLNAHPRFGELVAKYLAEETGLPFRVAENRFAALAAHDELVNVMGAIRTLAGALMKIGNDVRWLASGPYAGIGEITIPANEPGSSIMPGKVNPTQVEALTMVVVRVYGNDHTVAFAGSQGNFQLNVYKPVMAYSTLESINLLADAVASFDAHLAQGIEPNLERIEEYLQKNPMLATALNKAIGYDKAAEIVKKALKKTLKQAALELGYLTEEEFDRIVVPMRLAKPH 1vdm-a1-m1-cC_1vdm-a1-m1-cD Crystal structure of purine phosphoribosyltransferase from Pyrococcus horikoshii Ot3 O57827 O57827 2.5 X-RAY DIFFRACTION 53 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 143 147 1vdm-a1-m1-cB_1vdm-a1-m1-cA 1vdm-a1-m1-cE_1vdm-a1-m1-cF 1vdm-a1-m1-cH_1vdm-a1-m1-cG 1vdm-a1-m1-cI_1vdm-a1-m1-cJ 1vdm-a1-m1-cK_1vdm-a1-m1-cL MDKVYLTWWQVDRAIFALAEKLREYKPDVIIGVARGGLIPAVRLSHILGDIPLKVIDVKFKPVITIPIHGDLKDKRVVIVDDVSDTGKTLEVVIEEVKKLGAKEIKIACLAMKPWTSVVPDYYVFRTEKWIVFPWEEFPVIEK MDKVYLTWWQVDRAIFALAEKLREYKPDVIIGVARGGLIPAVRLSHILGDIPLKVIDVKFYKGEKPVITIPIHGDLKDKRVVIVDDVSDTGKTLEVVIEEVKKLGAKEIKIACLAMKPWTSVVPDYYVFRTEKWIVFPWEEFPVIEK 1vdm-a1-m1-cD_1vdm-a1-m1-cL Crystal structure of purine phosphoribosyltransferase from Pyrococcus horikoshii Ot3 O57827 O57827 2.5 X-RAY DIFFRACTION 22 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 147 149 1vdm-a1-m1-cB_1vdm-a1-m1-cH 1vdm-a1-m1-cJ_1vdm-a1-m1-cF MDKVYLTWWQVDRAIFALAEKLREYKPDVIIGVARGGLIPAVRLSHILGDIPLKVIDVKFYKGEKPVITIPIHGDLKDKRVVIVDDVSDTGKTLEVVIEEVKKLGAKEIKIACLAMKPWTSVVPDYYVFRTEKWIVFPWEEFPVIEK MDKVYLTWWQVDRAIFALAEKLREYKPDVIIGVARGGLIPAVRLSHILGDIPLKVIDVKFYKGGEKPVITIPIHGDLKDKRVVIVDDVSDTGKTLEVVIEEVKKLGAKEIKIACLAMKPWTSVVPDYYVFRTEKWIVFPWEEFPVIEKE 1vdm-a1-m1-cH_1vdm-a1-m1-cL Crystal structure of purine phosphoribosyltransferase from Pyrococcus horikoshii Ot3 O57827 O57827 2.5 X-RAY DIFFRACTION 44 0.993 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 149 149 1vdm-a1-m1-cB_1vdm-a1-m1-cF 1vdm-a1-m1-cC_1vdm-a1-m1-cA 1vdm-a1-m1-cC_1vdm-a1-m1-cE 1vdm-a1-m1-cD_1vdm-a1-m1-cB 1vdm-a1-m1-cD_1vdm-a1-m1-cF 1vdm-a1-m1-cE_1vdm-a1-m1-cA 1vdm-a1-m1-cI_1vdm-a1-m1-cG 1vdm-a1-m1-cI_1vdm-a1-m1-cK 1vdm-a1-m1-cJ_1vdm-a1-m1-cH 1vdm-a1-m1-cJ_1vdm-a1-m1-cL 1vdm-a1-m1-cK_1vdm-a1-m1-cG MDKVYLTWWQVDRAIFALAEKLREYKPDVIIGVARGGLIPAVRLSHILGDIPLKVIDVKFYKRGEKPVITIPIHGDLKDKRVVIVDDVSDTGKTLEVVIEEVKKLGAKEIKIACLAMKPWTSVVPDYYVFRTEKWIVFPWEEFPVIEKE MDKVYLTWWQVDRAIFALAEKLREYKPDVIIGVARGGLIPAVRLSHILGDIPLKVIDVKFYKGGEKPVITIPIHGDLKDKRVVIVDDVSDTGKTLEVVIEEVKKLGAKEIKIACLAMKPWTSVVPDYYVFRTEKWIVFPWEEFPVIEKE 1vdr-a1-m1-cB_1vdr-a1-m1-cA DIHYDROFOLATE REDUCTASE P15093 P15093 2.55 X-RAY DIFFRACTION 45 1.0 2246 (Haloferax volcanii) 2246 (Haloferax volcanii) 154 157 ELVSVAALAENRVIGRDGELPWPSIPADKKQYRSRIADDPVVLGRTTFESMRDDLPGSAQIVMSRSERSFSVDTAHRAASVEEAVDIAASLDAETAYVIGGAAIYALFQPHLDRMVLSRVPEGDTYYPEWDAAEWELDAETDHEGFTLQEWVRS ELVSVAALAENRVIGRDGELPWPSIPADKKQYRSRIADDPVVLGRTTFESMRDDLPGSAQIVMSRSERSFSVDTAHRAASVEEAVDIAASLDAETAYVIGGAAIYALFQPHLDRMVLSRVPGEYEGDTYYPEWDAAEWELDAETDHEGFTLQEWVRS 1vdw-a1-m1-cA_1vdw-a1-m1-cB A hypothetical protein PH1897 from Pyrococcus horikoshii with similarities for Inositol-1 monophosphatase O59523 O59523 1.3 X-RAY DIFFRACTION 68 0.996 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 248 248 SVKTWRKIAIDIIRDFDHNIMPLFGNPKASETISIETKVVDKVAENIIISKFKDLGVNVVSEEIGRIDQGSDYTVVVDPLDGSYNFINGIPFFAVSVAIFHEKDPIYAFIYEPIVERLYEGIPGKGSYLNGEKIKVRELAEKPSISFYTKGKGTKIIDKVKRTRTLGAIALELAYLARGALDAVVDIRNYLRPTDIAAGVVIAREAGAIVKDLDGKDVEITFSATEKVNIIAANNEELLETILRSIEK SVKTWRKIAIDIIRDFDHNIMPLFGNPKASETISDETKVVDKVAENIIISKFKDLGVNVVSEEIGRIDQGSDYTVVVDPLDGSYNFINGIPFFAVSVAIFHEKDPIYAFIYEPIVERLYEGIPGKGSYLNGEKIKVRELAEKPSISFYTKGKGTKIIDKVKRTRTLGAIALELAYLARGALDAVVDIRNYLRPTDIAAGVVIAREAGAIVKDLDGKDVEITFSATEKVNIIAANNEELLETILRSIEK 1ve0-a1-m2-cA_1ve0-a1-m3-cA Crystal structure of uncharacterized protein ST2072 from Sulfolobus tokodaii Q96YV5 Q96YV5 2 X-RAY DIFFRACTION 85 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 131 131 1ve0-a1-m1-cA_1ve0-a1-m2-cA 1ve0-a1-m1-cA_1ve0-a1-m3-cA KIISKEFTVKTRSRFDSIDITEQVSEAIKGINNGIAHVIVKHTTCAIIINEAESGLKDFLNWAKKLVPPDGEFEHNIIDNNGHAHVISAIIGNSRVVPIIEGKLDLGTWQRIILLEFDGPRTRTVLVKSGE KIISKEFTVKTRSRFDSIDITEQVSEAIKGINNGIAHVIVKHTTCAIIINEAESGLKDFLNWAKKLVPPDGEFEHNIIDNNGHAHVISAIIGNSRVVPIIEGKLDLGTWQRIILLEFDGPRTRTVLVKSGE 1ve1-a1-m1-cA_1ve1-a1-m2-cA Crystal Structure of T.th. HB8 O-acetylserine sulfhydrylase Q5SLE6 Q5SLE6 1.45 X-RAY DIFFRACTION 120 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 302 302 2eco-a1-m1-cA_2eco-a1-m2-cA 2ecq-a1-m1-cA_2ecq-a1-m2-cA 2efy-a1-m1-cA_2efy-a1-m1-cB MRVEGAIGKTPVVRLAKVVEPDMAEVWVKLEGLNPGGSIKDRPAWYMIKDAEERGILRPGSGQVIVEPTSGNTGIGLAMIAASRGYRLILTMPAQMSEERKRVLKAFGAELVLTDPERRMLAAREEALRLKEELGAFMPDQFKNPANVRAHYETTGPELYEALEGRIDAFVYGSGTGGTITGVGRYLKERIPHVKVIAVEPARSNVLSGGKMGQHGFQGMGPGFIPENLDLSLLDGVIQVWEEDAFPLARRLAREEGLFLGMSSGGIVWAALQVARELGPGKRVACISPDGGWKYLSTPLYA MRVEGAIGKTPVVRLAKVVEPDMAEVWVKLEGLNPGGSIKDRPAWYMIKDAEERGILRPGSGQVIVEPTSGNTGIGLAMIAASRGYRLILTMPAQMSEERKRVLKAFGAELVLTDPERRMLAAREEALRLKEELGAFMPDQFKNPANVRAHYETTGPELYEALEGRIDAFVYGSGTGGTITGVGRYLKERIPHVKVIAVEPARSNVLSGGKMGQHGFQGMGPGFIPENLDLSLLDGVIQVWEEDAFPLARRLAREEGLFLGMSSGGIVWAALQVARELGPGKRVACISPDGGWKYLSTPLYA 1ve3-a1-m1-cA_1ve3-a1-m3-cA Crystal structure of PH0226 protein from Pyrococcus horikoshii OT3 O57965 O57965 2.1 X-RAY DIFFRACTION 27 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 208 208 GFKEYYRVFPTYTDINSQEYRSRIETLEPLLKYKKRGKVLDLACGVGGFSFLLEDYGFEVVGVDISEDIRKAREYAKSRESNVEFIVGDARKLSFEDKTFDYVIFIDSIVHFEPLELNQVFKEVRRVLKPSGKFIYFTDLRELLPRLKEISKVIPDQEERTVVIEFSFRVRFNVWGKTGVELLAKLYFTKEAEEKVGNYSYLTVYNPK GFKEYYRVFPTYTDINSQEYRSRIETLEPLLKYKKRGKVLDLACGVGGFSFLLEDYGFEVVGVDISEDIRKAREYAKSRESNVEFIVGDARKLSFEDKTFDYVIFIDSIVHFEPLELNQVFKEVRRVLKPSGKFIYFTDLRELLPRLKEISKVIPDQEERTVVIEFSFRVRFNVWGKTGVELLAKLYFTKEAEEKVGNYSYLTVYNPK 1ve5-a1-m1-cB_1ve5-a1-m1-cA Crystal Structure of T.th. HB8 Threonine deaminase Q5SLL4 Q5SLL4 2.15 X-RAY DIFFRACTION 36 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 297 308 PSLQDLYAAFRRIAPYTHRTPLLTSRLLDGLLGKRLLLKAEHLQKTGSFKARGALSKALALENPKGLLAVSSGNHAQGVAYAAQVLGVKALVVMPKKACARAYGAEVVNREEVARALQEETGYALIHPFDDPLVIAGQGTAGLELLAQAGRMGVFPGAVLAPVGGGGLLAGLATAVKALSPTTLVLGVEPEAADDAKRSLEAGRILRLEAPPRTRADGVRTLSLGERTFPILRERVDGILTVSEEALLEAERLLFTRTKQVVEPTGALPLAAVLEHGARLPQTLALLLSGGNRDFSP PSLQDLYAAFRRIAPYTHRTPLLTSRLLDGLLGKRLLLKAEHLQKTGSFKARGALSKALALENPKGLLAVSSGNHAQGVAYAAQVLGVKALVVMPEDPYKKACARAYGAEVVDRGVTAKNREEVARALQEETGYALIHPFDDPLVIAGQGTAGLELLAQAGRMGVFPGAVLAPVGGGGLLAGLATAVKALSPTTLVLGVEPEAADDAKRSLEAGRILRLEAPPRTRADGVRTLSLGERTFPILRERVDGILTVSEEALLEAERLLFTRTKQVVEPTGALPLAAVLEHGARLPQTLALLLSGGNRDFSP 1ve5-a1-m1-cC_1ve5-a1-m1-cD Crystal Structure of T.th. HB8 Threonine deaminase Q5SLL4 Q5SLL4 2.15 X-RAY DIFFRACTION 38 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 274 280 PSLQDLYAAFRRIAPYTHRTPLLTSRLLDGLLGKRLLLKAEHLQKTGSFKARGALSKALALENPKGLLAVSSGNHAQGVAYAAQVLGVKALVALQEETGYALIHPFDDPLVIAGQGTAGLELLAQAGRMGVFPGAVLAPVGGGGLLAGLATAVKALSPTTLVLGVEPEAADDAKRSLEAGRILRLEAPPRTRADGVRTLSLGERTFPILRERVDGILTVSEEALLEAERLLFTRTKQVVEPTGALPLAAVLEHGARLPQTLALLLSGGNRDFSP PSLQDLYAAFRRIAPYTHRTPLLTSRLLDGLLGKRLLLKAEHLQKTGSFKARGALSKALALENPKGLLAVSSGNHAQGVAYAAQVLGVKALVVMPVARALQEETGYALIHPFDDPLVIAGQGTAGLELLAQAGRMGVFPGAVLAPVGGGGLLAGLATAVKALSPTTLVLGVEPEAADDAKRSLEAGRILRLEAPPRTRADGVRTLSLGERTFPILRERVDGILTVSEEALLEAERLLFTRTKQVVEPTGALPLAAVLEHGARLPQTLALLLSGGNRDFSP 1ve5-a1-m1-cD_1ve5-a1-m1-cA Crystal Structure of T.th. HB8 Threonine deaminase Q5SLL4 Q5SLL4 2.15 X-RAY DIFFRACTION 41 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 280 308 1ve5-a1-m1-cC_1ve5-a1-m1-cB PSLQDLYAAFRRIAPYTHRTPLLTSRLLDGLLGKRLLLKAEHLQKTGSFKARGALSKALALENPKGLLAVSSGNHAQGVAYAAQVLGVKALVVMPVARALQEETGYALIHPFDDPLVIAGQGTAGLELLAQAGRMGVFPGAVLAPVGGGGLLAGLATAVKALSPTTLVLGVEPEAADDAKRSLEAGRILRLEAPPRTRADGVRTLSLGERTFPILRERVDGILTVSEEALLEAERLLFTRTKQVVEPTGALPLAAVLEHGARLPQTLALLLSGGNRDFSP PSLQDLYAAFRRIAPYTHRTPLLTSRLLDGLLGKRLLLKAEHLQKTGSFKARGALSKALALENPKGLLAVSSGNHAQGVAYAAQVLGVKALVVMPEDPYKKACARAYGAEVVDRGVTAKNREEVARALQEETGYALIHPFDDPLVIAGQGTAGLELLAQAGRMGVFPGAVLAPVGGGGLLAGLATAVKALSPTTLVLGVEPEAADDAKRSLEAGRILRLEAPPRTRADGVRTLSLGERTFPILRERVDGILTVSEEALLEAERLLFTRTKQVVEPTGALPLAAVLEHGARLPQTLALLLSGGNRDFSP 1vec-a3-m1-cA_1vec-a3-m2-cB Crystal structure of the N-terminal domain of rck/p54, a human DEAD-box protein P26196 P26196 2.01 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 206 KGNEFEDYCLKRELLMGIFEMGWEKPSPIQEESIPIALSGRDILARAKNGTGKSGAYLIPLLERLDLKKDNIQAMVIVPTRELALQVSQICIQVSKHMGGAKVMATTGGTNLRDDIMRLDDTVHVVIATPGRILDLIKKGVAKVDHVQMIVLDEADKLLSQDFVQIMEDIILTLPKNRQILLYSATFPLSVQKFMNSHLEKPYEIN KGNEFEDYCLKRELLMGIFEMGWEKPSPIQEESIPIALSGRDILARAKNGTGKSGAYLIPLLERLDLKKDNIQAMVIVPTRELALQVSQICIQVSKHMGGAKVMATTGGTNLRDDIMRLDDTVHVVIATPGRILDLIKKGVAKVDHVQMIVLDEADKLLSQDFVQIMEDIILTLPKNRQILLYSATFPLSVQKFMNSHLEKPYEIN 1vef-a1-m1-cA_1vef-a1-m1-cB Acetylornithine aminotransferase from Thermus thermophilus HB8 Q5SHH5 Q5SHH5 1.35 X-RAY DIFFRACTION 389 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 387 387 1wkg-a1-m1-cA_1wkg-a1-m1-cB 1wkh-a1-m1-cA_1wkh-a1-m1-cB WRALLEAEKTLDSGVYNKHDLLIVRGQGARVWDAEGNEYIDCVGGYGVANLGHGNPEVVEAVKRQAETLMAMPQTLPTPMRGEFYRTLTAILPPELNRVFPVNSGTEANEAALKFARAHTGRKKFVAAMRGFSGRTMGSLSVTWEPKYREPFLPLVEPVEFIPYNDVEALKRAVDEETAAVILEPVQGEGGVRPATPEFLRAAREITQEKGALLILDEIQTGMGRTGKRFAFEHFGIVPDILTLAKALGGGVPLGVAVMREEVARSMPKGGHGTTFGGNPLAMAAGVAAIRYLERTRLWERAAELGPWFMEKLRAIPSPKIREVRGMGLMVGLELKEKAAPYIARLEKEHRVLALQAGPTVIRFLPPLVIEKEDLERVVEAVRAVLA WRALLEAEKTLDSGVYNKHDLLIVRGQGARVWDAEGNEYIDCVGGYGVANLGHGNPEVVEAVKRQAETLMAMPQTLPTPMRGEFYRTLTAILPPELNRVFPVNSGTEANEAALKFARAHTGRKKFVAAMRGFSGRTMGSLSVTWEPKYREPFLPLVEPVEFIPYNDVEALKRAVDEETAAVILEPVQGEGGVRPATPEFLRAAREITQEKGALLILDEIQTGMGRTGKRFAFEHFGIVPDILTLAKALGGGVPLGVAVMREEVARSMPKGGHGTTFGGNPLAMAAGVAAIRYLERTRLWERAAELGPWFMEKLRAIPSPKIREVRGMGLMVGLELKEKAAPYIARLEKEHRVLALQAGPTVIRFLPPLVIEKEDLERVVEAVRAVLA 1vel-a1-m1-cB_1vel-a1-m2-cD Mycobacterium smegmatis Dps tetragonal form P0C558 P0C558 2.99 X-RAY DIFFRACTION 92 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 163 163 1uvh-a1-m1-cA_1uvh-a1-m1-cB 1uvh-a1-m1-cC_1uvh-a1-m1-cD 1uvh-a1-m2-cA_1uvh-a1-m2-cB 1uvh-a1-m2-cC_1uvh-a1-m2-cD 1uvh-a1-m3-cA_1uvh-a1-m3-cB 1uvh-a1-m3-cC_1uvh-a1-m3-cD 1vei-a1-m11-cA_1vei-a1-m8-cA 1vei-a1-m12-cA_1vei-a1-m6-cA 1vei-a1-m1-cA_1vei-a1-m10-cA 1vei-a1-m2-cA_1vei-a1-m5-cA 1vei-a1-m3-cA_1vei-a1-m9-cA 1vei-a1-m4-cA_1vei-a1-m7-cA 1vel-a1-m1-cA_1vel-a1-m2-cA 1vel-a1-m1-cD_1vel-a1-m2-cB 1vel-a1-m1-cE_1vel-a1-m1-cC 1vel-a1-m1-cF_1vel-a1-m2-cF 1vel-a1-m2-cE_1vel-a1-m2-cC 1veq-a1-m1-cA_1veq-a1-m1-cJ 1veq-a1-m1-cB_1veq-a1-m1-cE 1veq-a1-m1-cC_1veq-a1-m1-cI 1veq-a1-m1-cD_1veq-a1-m1-cG 1veq-a1-m1-cF_1veq-a1-m1-cL 1veq-a1-m1-cH_1veq-a1-m1-cK 2yw6-a1-m1-cA_2yw6-a1-m4-cA 2yw6-a1-m1-cB_2yw6-a1-m2-cB 2yw6-a1-m1-cC_2yw6-a1-m3-cC 2yw6-a1-m2-cA_2yw6-a1-m3-cA 2yw6-a1-m2-cC_2yw6-a1-m4-cC 2yw6-a1-m3-cB_2yw6-a1-m4-cB 2yw7-a1-m1-cD_2yw7-a1-m1-cI 2yw7-a1-m1-cE_2yw7-a1-m1-cA 2yw7-a1-m1-cF_2yw7-a1-m1-cC 2yw7-a1-m1-cG_2yw7-a1-m1-cB 2yw7-a1-m1-cH_2yw7-a1-m1-cJ 5h46-a1-m10-cA_5h46-a1-m23-cA 5h46-a1-m11-cA_5h46-a1-m22-cA 5h46-a1-m12-cA_5h46-a1-m24-cA 5h46-a1-m13-cA_5h46-a1-m6-cA 5h46-a1-m14-cA_5h46-a1-m8-cA 5h46-a1-m15-cA_5h46-a1-m5-cA 5h46-a1-m16-cA_5h46-a1-m7-cA 5h46-a1-m17-cA_5h46-a1-m3-cA 5h46-a1-m19-cA_5h46-a1-m4-cA 5h46-a1-m1-cA_5h46-a1-m18-cA 5h46-a1-m21-cA_5h46-a1-m9-cA 5h46-a1-m2-cA_5h46-a1-m20-cA SFTIPGLSDKKASDVADLLQKQLSTYNDLHLTLKHVHWNVVGPNFIGVHEMIDPQVELVRGYADEVAERIATLGKSPKGTPGAIIKDRTWDDYSVERDTVQAHLAALDLVYNGVIEDTRKSIEKLEDLDLVSQDLLIAHAGELEKFQWFVRAHLESAGGQLTH SFTIPGLSDKKASDVADLLQKQLSTYNDLHLTLKHVHWNVVGPNFIGVHEMIDPQVELVRGYADEVAERIATLGKSPKGTPGAIIKDRTWDDYSVERDTVQAHLAALDLVYNGVIEDTRKSIEKLEDLDLVSQDLLIAHAGELEKFQWFVRAHLESAGGQLTH 1vel-a1-m1-cB_1vel-a1-m2-cF Mycobacterium smegmatis Dps tetragonal form P0C558 P0C558 2.99 X-RAY DIFFRACTION 36 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 163 163 1uvh-a1-m1-cA_1uvh-a1-m1-cC 1uvh-a1-m1-cA_1uvh-a1-m2-cD 1uvh-a1-m1-cB_1uvh-a1-m2-cB 1uvh-a1-m1-cB_1uvh-a1-m3-cB 1uvh-a1-m1-cC_1uvh-a1-m2-cD 1uvh-a1-m1-cD_1uvh-a1-m3-cA 1uvh-a1-m1-cD_1uvh-a1-m3-cC 1uvh-a1-m2-cA_1uvh-a1-m2-cC 1uvh-a1-m2-cA_1uvh-a1-m3-cD 1uvh-a1-m2-cB_1uvh-a1-m3-cB 1uvh-a1-m2-cC_1uvh-a1-m3-cD 1uvh-a1-m3-cA_1uvh-a1-m3-cC 1vei-a1-m10-cA_1vei-a1-m3-cA 1vei-a1-m10-cA_1vei-a1-m8-cA 1vei-a1-m11-cA_1vei-a1-m6-cA 1vei-a1-m11-cA_1vei-a1-m7-cA 1vei-a1-m12-cA_1vei-a1-m5-cA 1vei-a1-m1-cA_1vei-a1-m12-cA 1vei-a1-m1-cA_1vei-a1-m5-cA 1vei-a1-m2-cA_1vei-a1-m4-cA 1vei-a1-m2-cA_1vei-a1-m9-cA 1vei-a1-m3-cA_1vei-a1-m8-cA 1vei-a1-m4-cA_1vei-a1-m9-cA 1vei-a1-m6-cA_1vei-a1-m7-cA 1vel-a1-m1-cA_1vel-a1-m2-cC 1vel-a1-m1-cA_1vel-a1-m2-cD 1vel-a1-m1-cB_1vel-a1-m1-cE 1vel-a1-m1-cD_1vel-a1-m1-cC 1vel-a1-m1-cD_1vel-a1-m2-cA 1vel-a1-m1-cF_1vel-a1-m2-cB 1vel-a1-m1-cF_1vel-a1-m2-cE 1vel-a1-m2-cA_1vel-a1-m1-cC 1vel-a1-m2-cB_1vel-a1-m2-cE 1vel-a1-m2-cD_1vel-a1-m2-cC 1vel-a1-m2-cF_1vel-a1-m1-cE 1veq-a1-m1-cA_1veq-a1-m1-cE 1veq-a1-m1-cA_1veq-a1-m1-cL 1veq-a1-m1-cB_1veq-a1-m1-cD 1veq-a1-m1-cB_1veq-a1-m1-cI 1veq-a1-m1-cC_1veq-a1-m1-cH 1veq-a1-m1-cC_1veq-a1-m1-cJ 1veq-a1-m1-cD_1veq-a1-m1-cI 1veq-a1-m1-cE_1veq-a1-m1-cL 1veq-a1-m1-cF_1veq-a1-m1-cG 1veq-a1-m1-cF_1veq-a1-m1-cK 1veq-a1-m1-cG_1veq-a1-m1-cK 1veq-a1-m1-cH_1veq-a1-m1-cJ 2yw6-a1-m1-cA_2yw6-a1-m3-cC 2yw6-a1-m1-cA_2yw6-a1-m4-cB 2yw6-a1-m1-cB_2yw6-a1-m2-cC 2yw6-a1-m1-cC_2yw6-a1-m2-cB 2yw6-a1-m2-cA_2yw6-a1-m3-cB 2yw6-a1-m2-cA_2yw6-a1-m4-cC 2yw6-a1-m3-cA_2yw6-a1-m1-cC 2yw6-a1-m3-cA_2yw6-a1-m2-cB 2yw6-a1-m3-cB_2yw6-a1-m4-cC 2yw6-a1-m3-cC_2yw6-a1-m4-cB 2yw6-a1-m4-cA_2yw6-a1-m1-cB 2yw6-a1-m4-cA_2yw6-a1-m2-cC 2yw7-a1-m1-cA_2yw7-a1-m1-cC 2yw7-a1-m1-cD_2yw7-a1-m1-cE 2yw7-a1-m1-cE_2yw7-a1-m1-cH 2yw7-a1-m1-cF_2yw7-a1-m1-cJ 2yw7-a1-m1-cG_2yw7-a1-m1-cA SFTIPGLSDKKASDVADLLQKQLSTYNDLHLTLKHVHWNVVGPNFIGVHEMIDPQVELVRGYADEVAERIATLGKSPKGTPGAIIKDRTWDDYSVERDTVQAHLAALDLVYNGVIEDTRKSIEKLEDLDLVSQDLLIAHAGELEKFQWFVRAHLESAGGQLTH SFTIPGLSDKKASDVADLLQKQLSTYNDLHLTLKHVHWNVVGPNFIGVHEMIDPQVELVRGYADEVAERIATLGKSPKGTPGAIIKDRTWDDYSVERDTVQAHLAALDLVYNGVIEDTRKSIEKLEDLDLVSQDLLIAHAGELEKFQWFVRAHLESAGGQLTH 1vel-a1-m2-cD_1vel-a1-m2-cF Mycobacterium smegmatis Dps tetragonal form P0C558 P0C558 2.99 X-RAY DIFFRACTION 40 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 163 163 1uvh-a1-m1-cA_1uvh-a1-m2-cB 1uvh-a1-m1-cA_1uvh-a1-m2-cC 1uvh-a1-m1-cB_1uvh-a1-m1-cC 1uvh-a1-m1-cB_1uvh-a1-m3-cA 1uvh-a1-m1-cC_1uvh-a1-m3-cA 1uvh-a1-m1-cD_1uvh-a1-m2-cD 1uvh-a1-m1-cD_1uvh-a1-m3-cD 1uvh-a1-m2-cA_1uvh-a1-m3-cB 1uvh-a1-m2-cA_1uvh-a1-m3-cC 1uvh-a1-m2-cB_1uvh-a1-m2-cC 1uvh-a1-m2-cD_1uvh-a1-m3-cD 1uvh-a1-m3-cB_1uvh-a1-m3-cC 1vei-a1-m10-cA_1vei-a1-m11-cA 1vei-a1-m10-cA_1vei-a1-m12-cA 1vei-a1-m11-cA_1vei-a1-m12-cA 1vei-a1-m1-cA_1vei-a1-m2-cA 1vei-a1-m1-cA_1vei-a1-m3-cA 1vei-a1-m2-cA_1vei-a1-m3-cA 1vei-a1-m4-cA_1vei-a1-m5-cA 1vei-a1-m4-cA_1vei-a1-m6-cA 1vei-a1-m5-cA_1vei-a1-m6-cA 1vei-a1-m7-cA_1vei-a1-m8-cA 1vei-a1-m7-cA_1vei-a1-m9-cA 1vei-a1-m8-cA_1vei-a1-m9-cA 1vel-a1-m1-cA_1vel-a1-m1-cB 1vel-a1-m1-cA_1vel-a1-m1-cC 1vel-a1-m1-cB_1vel-a1-m1-cC 1vel-a1-m1-cD_1vel-a1-m1-cE 1vel-a1-m1-cD_1vel-a1-m1-cF 1vel-a1-m1-cF_1vel-a1-m1-cE 1vel-a1-m2-cA_1vel-a1-m2-cB 1vel-a1-m2-cA_1vel-a1-m2-cC 1vel-a1-m2-cB_1vel-a1-m2-cC 1vel-a1-m2-cD_1vel-a1-m2-cE 1vel-a1-m2-cF_1vel-a1-m2-cE 1veq-a1-m1-cA_1veq-a1-m1-cB 1veq-a1-m1-cA_1veq-a1-m1-cC 1veq-a1-m1-cB_1veq-a1-m1-cC 1veq-a1-m1-cD_1veq-a1-m1-cE 1veq-a1-m1-cD_1veq-a1-m1-cF 1veq-a1-m1-cE_1veq-a1-m1-cF 1veq-a1-m1-cG_1veq-a1-m1-cH 1veq-a1-m1-cG_1veq-a1-m1-cI 1veq-a1-m1-cH_1veq-a1-m1-cI 1veq-a1-m1-cJ_1veq-a1-m1-cK 1veq-a1-m1-cJ_1veq-a1-m1-cL 1veq-a1-m1-cK_1veq-a1-m1-cL 2yw6-a1-m1-cA_2yw6-a1-m1-cB 2yw6-a1-m1-cA_2yw6-a1-m1-cC 2yw6-a1-m1-cB_2yw6-a1-m1-cC 2yw6-a1-m2-cA_2yw6-a1-m2-cB 2yw6-a1-m2-cA_2yw6-a1-m2-cC 2yw6-a1-m2-cB_2yw6-a1-m2-cC 2yw6-a1-m3-cA_2yw6-a1-m3-cB 2yw6-a1-m3-cA_2yw6-a1-m3-cC 2yw6-a1-m3-cB_2yw6-a1-m3-cC 2yw6-a1-m4-cA_2yw6-a1-m4-cB 2yw6-a1-m4-cA_2yw6-a1-m4-cC 2yw6-a1-m4-cB_2yw6-a1-m4-cC 2yw7-a1-m1-cB_2yw7-a1-m1-cA 2yw7-a1-m1-cB_2yw7-a1-m1-cD 2yw7-a1-m1-cD_2yw7-a1-m1-cA 2yw7-a1-m1-cE_2yw7-a1-m1-cC 2yw7-a1-m1-cE_2yw7-a1-m1-cJ 2yw7-a1-m1-cJ_2yw7-a1-m1-cC 5h46-a1-m10-cA_5h46-a1-m7-cA 5h46-a1-m11-cA_5h46-a1-m2-cA 5h46-a1-m11-cA_5h46-a1-m5-cA 5h46-a1-m12-cA_5h46-a1-m4-cA 5h46-a1-m12-cA_5h46-a1-m8-cA 5h46-a1-m13-cA_5h46-a1-m19-cA 5h46-a1-m13-cA_5h46-a1-m22-cA 5h46-a1-m14-cA_5h46-a1-m17-cA 5h46-a1-m14-cA_5h46-a1-m23-cA 5h46-a1-m15-cA_5h46-a1-m18-cA 5h46-a1-m15-cA_5h46-a1-m21-cA 5h46-a1-m16-cA_5h46-a1-m20-cA 5h46-a1-m16-cA_5h46-a1-m24-cA 5h46-a1-m17-cA_5h46-a1-m23-cA 5h46-a1-m18-cA_5h46-a1-m21-cA 5h46-a1-m19-cA_5h46-a1-m22-cA 5h46-a1-m1-cA_5h46-a1-m10-cA 5h46-a1-m1-cA_5h46-a1-m7-cA 5h46-a1-m20-cA_5h46-a1-m24-cA 5h46-a1-m2-cA_5h46-a1-m5-cA 5h46-a1-m3-cA_5h46-a1-m6-cA 5h46-a1-m3-cA_5h46-a1-m9-cA 5h46-a1-m4-cA_5h46-a1-m8-cA 5h46-a1-m6-cA_5h46-a1-m9-cA SFTIPGLSDKKASDVADLLQKQLSTYNDLHLTLKHVHWNVVGPNFIGVHEMIDPQVELVRGYADEVAERIATLGKSPKGTPGAIIKDRTWDDYSVERDTVQAHLAALDLVYNGVIEDTRKSIEKLEDLDLVSQDLLIAHAGELEKFQWFVRAHLESAGGQLTH SFTIPGLSDKKASDVADLLQKQLSTYNDLHLTLKHVHWNVVGPNFIGVHEMIDPQVELVRGYADEVAERIATLGKSPKGTPGAIIKDRTWDDYSVERDTVQAHLAALDLVYNGVIEDTRKSIEKLEDLDLVSQDLLIAHAGELEKFQWFVRAHLESAGGQLTH 1vez-a2-m1-cB_1vez-a2-m3-cB Crystal Structure of Peptide Deformylase from Leptospira Interrogans(LiPDF) at pH8.0 Q93LE9 Q93LE9 2.3 X-RAY DIFFRACTION 46 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 171 171 1sv2-a1-m1-cA_1sv2-a1-m2-cA 1sv2-a2-m1-cB_1sv2-a2-m3-cB 1szz-a1-m1-cA_1szz-a1-m1-cC 1szz-a2-m1-cB_1szz-a2-m1-cE 1szz-a3-m1-cD_1szz-a3-m1-cH 1szz-a4-m1-cF_1szz-a4-m1-cG 1vev-a1-m1-cA_1vev-a1-m2-cA 1vev-a2-m1-cB_1vev-a2-m3-cB 1vey-a1-m1-cA_1vey-a1-m2-cA 1vey-a2-m1-cB_1vey-a2-m3-cB 1vez-a1-m1-cA_1vez-a1-m2-cA 1y6h-a1-m1-cA_1y6h-a1-m1-cB 1y6h-a2-m1-cA_1y6h-a2-m1-cB 1y6h-a2-m2-cA_1y6h-a2-m2-cB SVRKILRMGDPILRKISEPVTEDEIQTKEFKKLIRDMFDTMRHAEGVGLAAPQIGILKQIVVVGSEDNERYPGTPDVPERIILNPVITPLTKDTSGFWEGCLSVPGMRGYVERPNQIRMQWMDEKGNQFDETIDGYKAIVYQHECDHLQGILYVDRLKDTKLFGFNETLDS SVRKILRMGDPILRKISEPVTEDEIQTKEFKKLIRDMFDTMRHAEGVGLAAPQIGILKQIVVVGSEDNERYPGTPDVPERIILNPVITPLTKDTSGFWEGCLSVPGMRGYVERPNQIRMQWMDEKGNQFDETIDGYKAIVYQHECDHLQGILYVDRLKDTKLFGFNETLDS 1vf1-a1-m1-cA_1vf1-a1-m2-cA cGSTA1-1 in complex with glutathione P26697 P26697 1.77 X-RAY DIFFRACTION 77 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 226 226 1vf2-a1-m1-cA_1vf2-a1-m1-cB 1vf3-a1-m1-cA_1vf3-a1-m1-cB 1vf4-a1-m1-cA_1vf4-a1-m2-cA AKPVLYYFNGRGKMESIRWLLAAAGVEFEEVFLETREQYEKLLQSGILMFQQVPMVEIDGMKLVQTRAILNYIAGKYNLYGKDLKERALIDMYVGGTDDLMGFLLSFPFLSAEDKVKQCAFVVEKATSRYFPAYEKVLKDHGQDFLVGNRLSWADIHLLEAILMVEEKKSDALSGFPLLQAFKKRISSIPTIKKFLAPGSKRKPISDDKYVETVRRVLRMYYDVKP AKPVLYYFNGRGKMESIRWLLAAAGVEFEEVFLETREQYEKLLQSGILMFQQVPMVEIDGMKLVQTRAILNYIAGKYNLYGKDLKERALIDMYVGGTDDLMGFLLSFPFLSAEDKVKQCAFVVEKATSRYFPAYEKVLKDHGQDFLVGNRLSWADIHLLEAILMVEEKKSDALSGFPLLQAFKKRISSIPTIKKFLAPGSKRKPISDDKYVETVRRVLRMYYDVKP 1vf6-a3-m1-cA_1vf6-a3-m2-cA 2.1 Angstrom crystal structure of the PALS-1-L27N and PATJ L27 heterodimer complex Q8NI35 Q8NI35 2.1 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 58 VLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE VLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE 1vf6-a3-m1-cA_1vf6-a3-m2-cB 2.1 Angstrom crystal structure of the PALS-1-L27N and PATJ L27 heterodimer complex Q8NI35 Q8NI35 2.1 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 60 VLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE LQVLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE 1vf6-a3-m1-cB_1vf6-a3-m2-cB 2.1 Angstrom crystal structure of the PALS-1-L27N and PATJ L27 heterodimer complex Q8NI35 Q8NI35 2.1 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 LQVLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE LQVLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE 1vf6-a3-m2-cA_1vf6-a3-m1-cB 2.1 Angstrom crystal structure of the PALS-1-L27N and PATJ L27 heterodimer complex Q8NI35 Q8NI35 2.1 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 60 VLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE LQVLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE 1vf6-a4-m1-cA_1vf6-a4-m1-cB 2.1 Angstrom crystal structure of the PALS-1-L27N and PATJ L27 heterodimer complex Q8NI35 Q8NI35 2.1 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 60 1vf6-a3-m1-cA_1vf6-a3-m1-cB 1vf6-a3-m2-cA_1vf6-a3-m2-cB VLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE LQVLQVLDRLKMKLQEKGDTSQNEKLSMFYETLKSPLFNQILTLQQSIKQLKGQLNHILE 1vfp-a1-m1-cA_1vfp-a1-m1-cB Crystal structure of the SR CA2+-ATPase with bound AMPPCP P04191 P04191 2.9 X-RAY DIFFRACTION 13 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 994 994 MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG 1vfr-a1-m1-cA_1vfr-a1-m1-cB THE MAJOR NAD(P)H:FMN OXIDOREDUCTASE FROM VIBRIO FISCHERI P46072 P46072 1.8 X-RAY DIFFRACTION 203 1.0 668 (Aliivibrio fischeri) 668 (Aliivibrio fischeri) 217 217 1v5y-a1-m1-cA_1v5y-a1-m1-cB 1v5z-a1-m1-cA_1v5z-a1-m1-cB THPIIHDLENRYTSKKYDPSKKVSQEDLAVLLEALRLSASSINSQPWKFIVIESDAAKQRMHDSFANMHQFNQPHIKACSHVILFANKLSYTRDDYDVVLSKAVADKRITEEQKEAAFASFKFVELNCDENGEHKAWTKPQAYLALGNALHTLARLNIDSTTMEGIDPELLSEIFADELKGYECHVALAIGYHHPSEDYNASLPKSRKAFEDVITIL THPIIHDLENRYTSKKYDPSKKVSQEDLAVLLEALRLSASSINSQPWKFIVIESDAAKQRMHDSFANMHQFNQPHIKACSHVILFANKLSYTRDDYDVVLSKAVADKRITEEQKEAAFASFKFVELNCDENGEHKAWTKPQAYLALGNALHTLARLNIDSTTMEGIDPELLSEIFADELKGYECHVALAIGYHHPSEDYNASLPKSRKAFEDVITIL 1vfs-a1-m1-cB_1vfs-a1-m1-cA Crystal structure of D-cycloserine-bound form of alanine racemase from D-cycloserine-producing Streptomyces lavendulae Q65YW7 Q65YW7 1.9 X-RAY DIFFRACTION 198 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 381 382 1vfh-a1-m1-cA_1vfh-a1-m2-cA 1vft-a1-m1-cB_1vft-a1-m1-cA ETPTRVYAEIDLDAVRANVRALRARAPRSALMAVVKSNAYGHGAVPCARAAQEAGAAWLGTATPEEALELRAAGIQGRIMCWLWTPGGPWREAIETDIDVSVSGMWALDEVRAAARAAGRTARIQLADTGLGRNGCQPADWAELVGAAVAAQAEGTVQVTGVWSHFACADEPGHPSIRLQLDAFRDMLAYAEKEGVDPEVRHIANSPATLTLPETHFDLVRTGLAVYGVSPSPELGTPAQLGLRPAMTLRASLALVKTVPAGHGVSYGHHYVTESETHLALVPAGYADGIPRNASGRGPVLVAGKIRRAAGRIAMDQFVVDLGEDLAEAGDEAVILGDAERGEPTAEDWAQAAHTIAYEIVTRIGGRVPRVYLGGLEHHHH ETPTRVYAEIDLDAVRANVRALRARAPRSALMAVVKSNAYGHGAVPCARAAQEAGAAWLGTATPEEALELRAAGIQGRIMCWLWTPGGPWREAIETDIDVSVSGMWALDEVRAAARAAGRTARIQLADTGLGRNGCQPADWAELVGAAVAAQAEGTVQVTGVWSHFACADEPGHPSIRLQLDAFRDMLAYAEKEGVDPEVRHIANSPATLTLPETHFDLVRTGLAVYGVSPSPELGTPAQLGLRPAMTLRASLALVKTVPAGHGVSYGHHYVTESETHLALVPAGYADGIPRNASGRGPVLVAGKIRRAAGRIAMDQFVVDLGEDLAEAGDEAVILGDAERGEPTAEDWAQAAHTIAYEIVTRIGGRVPRVYLGGLEHHHHH 1vgg-a1-m1-cB_1vgg-a1-m1-cF Crystal Structure of the Conserved Hypothetical Protein TTHA1091 from Thermus Thermophilus HB8 Q5SJC3 Q5SJC3 1.75 X-RAY DIFFRACTION 47 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 159 159 1vgg-a1-m1-cA_1vgg-a1-m1-cD 1vgg-a1-m1-cC_1vgg-a1-m1-cE ELKLIPIEKPENLNVILGQAHFIKTVEDLHEALVTAVPGIRFGLAFSEASGKRLVRRSGTDEALVELAVKNLLNLACGHVFLIVLGEGFYPINVLHAVKACPEVVRIYAATANPLKVVVAEEGEQRAILGVDGFTPLGVEDEAEVAWRKDLLRRLGYKL ELKLIPIEKPENLNVILGQAHFIKTVEDLHEALVTAVPGIRFGLAFSEASGKRLVRRSGTDEALVELAVKNLLNLACGHVFLIVLGEGFYPINVLHAVKACPEVVRIYAATANPLKVVVAEEGEQRAILGVDGFTPLGVEDEAEVAWRKDLLRRLGYKL 1vgg-a1-m1-cE_1vgg-a1-m1-cF Crystal Structure of the Conserved Hypothetical Protein TTHA1091 from Thermus Thermophilus HB8 Q5SJC3 Q5SJC3 1.75 X-RAY DIFFRACTION 119 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 159 159 1vgg-a1-m1-cA_1vgg-a1-m1-cB 1vgg-a1-m1-cA_1vgg-a1-m1-cC 1vgg-a1-m1-cB_1vgg-a1-m1-cC 1vgg-a1-m1-cD_1vgg-a1-m1-cE 1vgg-a1-m1-cD_1vgg-a1-m1-cF ELKLIPIEKPENLNVILGQAHFIKTVEDLHEALVTAVPGIRFGLAFSEASGKRLVRRSGTDEALVELAVKNLLNLACGHVFLIVLGEGFYPINVLHAVKACPEVVRIYAATANPLKVVVAEEGEQRAILGVDGFTPLGVEDEAEVAWRKDLLRRLGYKL ELKLIPIEKPENLNVILGQAHFIKTVEDLHEALVTAVPGIRFGLAFSEASGKRLVRRSGTDEALVELAVKNLLNLACGHVFLIVLGEGFYPINVLHAVKACPEVVRIYAATANPLKVVVAEEGEQRAILGVDGFTPLGVEDEAEVAWRKDLLRRLGYKL 1vgl-a1-m1-cA_1vgl-a1-m2-cB Crystal structure of tetrameric KaiB from T.elongatus BP-1 Q79V61 Q79V61 2.6 X-RAY DIFFRACTION 30 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 96 105 1r5p-a2-m1-cA_1r5p-a2-m2-cB 1vgl-a1-m2-cA_1vgl-a1-m1-cB 1wwj-a1-m1-cB_1wwj-a1-m1-cC 2qke-a1-m1-cA_2qke-a1-m2-cF 2qke-a1-m2-cE_2qke-a1-m1-cB 2qke-a2-m1-cC_2qke-a2-m3-cD 2qke-a2-m3-cC_2qke-a2-m1-cD KTYVLKLYVAGNTPNSVRALKTLNNILEKEFKGVYALKVIDVLKNPQLAEEDKILATPCLAKVLPPPVRRIIGDLSNREKVLIGLDLLYEEIGDQA LRKTYVLKLYVAGNTPNSVRALKTLNNILEKEFKGVYALKVIDVLKNPQLAEEDKILATPCLAKVLPPPVRRIIGDLSNREKVLIGLDLLYEEIGDQAEDDLGLE 1vgm-a1-m1-cA_1vgm-a1-m1-cB Crystal Structure of an Isozyme of Citrate Synthase from Sulfolbus tokodaii strain7 Q96ZM7 Q96ZM7 2 X-RAY DIFFRACTION 368 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 376 376 VEVSRGLENVIIKTTGLTYIDGINGILRYRGYDINDLVNYASYEELIHLMLYGELPNRQQLNQIKGIINESFEVPEQVISTIFSMPRNCDAIGMMETAFGILASIYDPKWNRATNKELAVQIIAKTATITANIYRAKEGLKPKIPEPSESYAESFLAATFGKKPTQEEIKAMDASLILYTDHEVPASTTAALVASSTLSDMYSCIVAALAALKGPLHGGAAEEAFKQFVEIGSVENADKWFEEKIIKGKSRLMGFGHRVYKTYDPRAKIFKTLAKSFAEKNENVKKYYEIAERIEKLGVDTFGSKHIYPNTDFYSGIVFYALGFPIYMFTSLFALSRVLGWLAHIIEYVEEQHRLIRPRALYIGPEKREFKPIELR VEVSRGLENVIIKTTGLTYIDGINGILRYRGYDINDLVNYASYEELIHLMLYGELPNRQQLNQIKGIINESFEVPEQVISTIFSMPRNCDAIGMMETAFGILASIYDPKWNRATNKELAVQIIAKTATITANIYRAKEGLKPKIPEPSESYAESFLAATFGKKPTQEEIKAMDASLILYTDHEVPASTTAALVASSTLSDMYSCIVAALAALKGPLHGGAAEEAFKQFVEIGSVENADKWFEEKIIKGKSRLMGFGHRVYKTYDPRAKIFKTLAKSFAEKNENVKKYYEIAERIEKLGVDTFGSKHIYPNTDFYSGIVFYALGFPIYMFTSLFALSRVLGWLAHIIEYVEEQHRLIRPRALYIGPEKREFKPIELR 1vgo-a1-m1-cA_1vgo-a1-m1-cB Crystal Structure of Archaerhodopsin-2 P29563 P29563 2.5 X-RAY DIFFRACTION 41 1.0 29285 (Halobacterium sp. AUS-2) 29285 (Halobacterium sp. AUS-2) 233 235 DLLNDGRPETLWLGIGTLLMLIGTFYFIARGWGVTDKEAREYYAITILVPGIASAAYLAMFFGIGVTEVELASGTVLDIYYARYADWLFTTPLLLLDLALLAKVDRVTIGTLIGVDALMIVTGLIGALSKTPLARYTWWLFSTIAFLFVLYYLLTSLRSAAAKRSEEVRSTFNTLTALVAVLWTAYPILWIVGTEGAGVVGLGIETLAFMVLDVTAKVGFGFVLLRSRAILGE DLLNDGRPETLWLGIGTLLMLIGTFYFIARGWGVTDKEAREYYAITILVPGIASAAYLAMFFGIGVTEVELASGTVLDIYYARYADWLFTTPLLLLDLALLAKVDRVTIGTLIGVDALMIVTGLIGALSKTPLARYTWWLFSTIAFLFVLYYLLTSLRSAAAKRSEEVRSTFNTLTALVAVLWTAYPILWIVGTEGAGVVGLGIETLAFMVLDVTAKVGFGFVLLRSRAILGETE 1vgp-a1-m1-cA_1vgp-a1-m2-cA Crystal Structure of an Isozyme of Citrate Synthase from Sulfolbus tokodaii strain7 Q974S5 Q974S5 2.7 X-RAY DIFFRACTION 340 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 373 373 MEIKKGLEDVYVKETEITYIDGELGRLYYRGYSIYDLAEFSNFEEVSYLILYGKLPNREELNWFQEKLREERYLPDFIIKFLREVRKDAQPMDILRTAVSLLGIEDSKNDERTDIKGIKLISKFPTIVANYARLRKGLDIIEPDPKLSHSENFLYMLYGDRPNEIKSKAMDVTLILHIDHEMNASTFASLVVASTFSDLYSSIVAGISALKGPLHGGANYEALKMFKEIGSPEKVNDYILNRLSNKQRIMGFGHRVYKTYDPRARILKQYAKLLAEKEGGEIYTLYQIAEKVEEIGIKYLGPKGIYPNVDFFSSIVFYSLGFEPDFFPAVFASARVVGWVAHIMEYIKDNKIIRPKAYYKGEIGKKYIPIDSR MEIKKGLEDVYVKETEITYIDGELGRLYYRGYSIYDLAEFSNFEEVSYLILYGKLPNREELNWFQEKLREERYLPDFIIKFLREVRKDAQPMDILRTAVSLLGIEDSKNDERTDIKGIKLISKFPTIVANYARLRKGLDIIEPDPKLSHSENFLYMLYGDRPNEIKSKAMDVTLILHIDHEMNASTFASLVVASTFSDLYSSIVAGISALKGPLHGGANYEALKMFKEIGSPEKVNDYILNRLSNKQRIMGFGHRVYKTYDPRARILKQYAKLLAEKEGGEIYTLYQIAEKVEEIGIKYLGPKGIYPNVDFFSSIVFYSLGFEPDFFPAVFASARVVGWVAHIMEYIKDNKIIRPKAYYKGEIGKKYIPIDSR 1vgv-a2-m1-cC_1vgv-a2-m1-cD Crystal structure of UDP-N-acetylglucosamine_2 epimerase P27828 P27828 2.31 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 358 364 1f6d-a1-m1-cB_1f6d-a1-m1-cA 1f6d-a2-m1-cC_1f6d-a2-m1-cD 1vgv-a1-m1-cB_1vgv-a1-m1-cA KVLTVFGTRPEAIKAPLVHALAKDPFFEAKVCVTAQHRELDQVLKLFSIVPDYDLNIGQGLTEITCRILEGLKPILAEFKPDVVLVHGDTTTTLATSLAAFYQRIPVGHVEAGLRTGDLYSPWPEEANRTLTGHLAYHFSPTETSRQNLLRENVADSRIFITGNTVIDALLWVRDQVSSDKLRSELAANYPFIDPDKKILVTGHRFGRGFEEICHALADIATTHQDIQIVYPVHLNPNVREPVNRILGHVKNVILIDPQEYLPFVWLNHAWLILTDSGGIQEEAPSLGKPVLVRDTTERPEAVTAGTVRLVGTDKQRIVEEVTRLLKDENEYQASRAHNPYGDGQACSRILEALKNNR KVLTVFGTRPEAIKAPLVHALAKDPFFEAKVCVTAQHRELDQVLKLFSIVPDYDLNIQPGQGLTEITCRILEGLKPILAEFKPDVVLVHGDTTTTLATSLAAFYQRIPVGHVEAGLRTGDLYSPWPEEANRTLTGHLAYHFSPTETSRQNLLRENVADSRIFITGNTVIDALLWVRDQVSSDKLRSELAANYPFIDPDKKILVTGHRRESFGRGFEEICHALADIATTHQDIQIVYPVHLNPNVREPVNRILGHVKNVILIDPQEYLPFVWLNHAWLILTDSGGIQEEAPSLGKPVLVRDTTERPEAVTAGTVRLVGTDKQRIVEEVTRLLKDENEYQASRAHNPYGDGQACSRILEALKNNRI 1vgw-a2-m1-cD_1vgw-a2-m1-cC Crystal structure of 4-diphosphocytidyl-2C-methyl-D-erythritol synthase Q5F829 Q5F829 2.35 X-RAY DIFFRACTION 128 0.995 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 211 214 1vgw-a1-m1-cA_1vgw-a1-m1-cB 1vgw-a3-m1-cF_1vgw-a3-m1-cE 1vgz-a1-m1-cB_1vgz-a1-m1-cA RKNIALIPAAPKQYVEIGSKTVLEHVLGIFERHEAVDLTVVVVSPEDTFADKVQTAFPQVRVWKNGGQTRAETVRNGVAKLLETGLAAETDNILVHDAARCCLPSEALARLIEQAGNAAEGGILAVPVADTLKRAESGQISATVDRSGLWQAQTPQLFQAGLLHRALAAGITDEASAVEKLGVRPLLIQGDARNLKLTQPQDAYIVRLLLD SLKRKNIALIPAAGPKQYVEIGSKTVLEHVLGIFERHEAVDLTVVVVSPEDTFADKVQTAFPQVRVWKNGGQTRAETVRNGVAKLLETGLAAETDNILVHDAARCCLPSEALARLIEQAGNAAEGGILAVPVADTLKRAESGQISATVDRSGLWQAQTPQLFQAGLLHRALAAITDEASAVEKLGVRPLLIQGDARNLKLTQPQDAYIVRLLLD 1vh1-a1-m1-cB_1vh1-a1-m1-cD Crystal structure of CMP-KDO synthetase P04951 P04951 2.6 X-RAY DIFFRACTION 35 0.991 562 (Escherichia coli) 562 (Escherichia coli) 218 235 1vh1-a1-m1-cC_1vh1-a1-m1-cA SFVVIIPARYGKPLVDINGKPIVHVLERARESGAERIIVATDHEDVARAVEAAGGEVCTRATERLAEVVEKCAFSDDTVIVNVQGDEPIPATIIRQVADNLAQRQVGATLAVPIHNAEEAFNPNAVKVVLDAEGYALYFSRATIPWDRDRFAEGLETVGDNFLRHLGIYGYRAGFIRRYVNWQPSPLEHIELEQLRVLWYGEKIHVAVAEDLERVRAE SFVVIIPARYASTRLPGKPLVDINGKPIVHVLERARESGAERIIVATDHEDVARAVEAAGGEVCTSGTERLAEVVEKCAFSDDTVIVNVQGDEPIPATIIRQVADNLAQRQVGATLAVPIHNAEEAFNPNAVKVVLDAEGYALYFSRATIPWDRDRFAEGLETVGDNFLRHLGIYGYRAGFIRRYVNWQPSPLEHIELEQLRVLWYGEKIHVAVAQEVPGTGVDTPEDLERVRAE 1vh2-a2-m1-cA_1vh2-a2-m2-cA Crystal structure of a autoinducer-2 synthesis protein Q9RRU8 Q9RRU8 2 X-RAY DIFFRACTION 147 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 152 152 1inn-a1-m1-cB_1inn-a1-m1-cA 1j6v-a1-m1-cA_1j6v-a1-m2-cA 1vgx-a1-m1-cA_1vgx-a1-m1-cB 1vje-a1-m1-cA_1vje-a1-m1-cB VESFDLDHTKVKAPYVRLAGVKTTPKGDQISKYDLRFLQPNQGAIDPAAIHTLEHLLAGYMRDHLEGVVDVSPMGCRTGMYMAVIGEPDEQGVMKAFEAALKDTAGHDQPIPGVSELECGNYRDHDLAAARQHARDVLDQGLKVQETILLER VESFDLDHTKVKAPYVRLAGVKTTPKGDQISKYDLRFLQPNQGAIDPAAIHTLEHLLAGYMRDHLEGVVDVSPMGCRTGMYMAVIGEPDEQGVMKAFEAALKDTAGHDQPIPGVSELECGNYRDHDLAAARQHARDVLDQGLKVQETILLER 1vh4-a1-m1-cA_1vh4-a1-m1-cB Crystal structure of a stabilizer of iron transporter P77689 P77689 1.75 X-RAY DIFFRACTION 108 1.0 562 (Escherichia coli) 562 (Escherichia coli) 410 414 2zu0-a1-m1-cB_2zu0-a1-m1-cA NALQQWHHLFEAKRSPQAQQHLQQLLRTGLPTRKHENWKYTPLEGLINSQFVSIAGEISPQQRDALALTLDSVRLVFVDGRYVPALSDATEGSGYEVSINDDRQGLPDAIQAEVFLHLTESLAQSVTHIAVKRGQRPAKPLLLMHITQGVAGEEVNTAHYRHHLDLAEGAEATVIEHFVSLNDARHFTGARFTINVAANAHLQHIKLAFENPLSHHFAHNDLLLAEDATAFSHSFLLGGAVLRHNTSTQLNGENSTLRINSLAMPVKNEVCDTRTWLEHNKGFCNSRQLHKTIVSDKGRAVFNGLINVAQHAIKTDGQMTNNNLLMGKLAEVDTKPQLEIYADDVKCSHGATVGRIDDEQIFYLRSRGINQQDAQQMIIYAFAAELTEALRDEGLKQQVLARIGQRLPGG NSSNALQQWHHLFEATKRSPQAQQHLQQLLRTGLPTRKHENWKYTPLEGLINSQFVSIAGEISPQQRDALALTLDSVRLVFVDGRYVPALSDATEGSGYEVSINDDRQGLPDAIQAEVFLHLTESLAQSVTHIAVKRGQRPAKPLLLMHITQGVAGEEVNTAHYRHHLDLAEGAEATVIEHFVSLNDARHFTGARFTINVAANAHLQHIKLAFENPLSHHFAHNDLLLAEDATAFSHSFLLGGAVLRHNTSTQLNGENSTLRINSLAMPVKNEVCDTRTWLEHNKGFCNSRQLHKTIVSDKGRAVFNGLINVAQHAIKTDGQMTNNNLLMGKLAEVDTKPQLEIYADDVKCSHGATVGRIDDEQIFYLRSRGINQQDAQQMIIYAFAAELTEALRDEGLKQQVLARIGQRLPGG 1vh5-a1-m1-cA_1vh5-a1-m1-cB Crystal structure of a putative thioesterase P77781 P77781 1.34 X-RAY DIFFRACTION 107 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 138 1sbk-a1-m1-cA_1sbk-a1-m1-cC 1sbk-a1-m1-cB_1sbk-a1-m1-cD 1vi8-a1-m1-cA_1vi8-a1-m1-cB 1vi8-a1-m1-cC_1vi8-a1-m1-cD 1vi8-a2-m1-cE_1vi8-a2-m1-cF 1vi8-a2-m1-cG_1vi8-a2-m1-cH 4k49-a1-m1-cB_4k49-a1-m1-cC 4k49-a2-m1-cA_4k49-a2-m1-cD 4k4a-a1-m1-cA_4k4a-a1-m1-cB 4k4a-a2-m1-cC_4k4a-a2-m1-cD 4k4b-a1-m1-cA_4k4b-a1-m1-cB 4k4b-a2-m1-cC_4k4b-a2-m1-cD 4k4b-a3-m1-cE_4k4b-a3-m1-cF 4k4b-a4-m1-cG_4k4b-a4-m1-cH SLIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAILE SLIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAILE 1vh6-a1-m1-cA_1vh6-a1-m1-cB Crystal structure of a flagellar protein P39739 P39739 2.5 X-RAY DIFFRACTION 184 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 96 102 ATPGELTLLYNGCLKFIRLAAQAIENDDERKNENLIKAQNIIQELNFTLNRNIELSASGAYDYYRRLVQANIKNDTGLAEVEGYVTDFRDAWKQAI VNTATPGELTLLYNGCLKFIRLAAQAIENDDERKNENLIKAQNIIQELNFTLNRNIELSASGAYDYYRRLVQANIKNDTGLAEVEGYVTDFRDAWKQAIQSE 1vh9-a1-m1-cA_1vh9-a1-m1-cB Crystal structure of a putative thioesterase P0A8Y8 P0A8Y8 2.15 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 138 SLIWKRHLTLDELNATSDNTMVAHLGIVYTRLGDDVLEAEMPVDTRTHQPFGLLHGGASAALAETLGSMAGFMMTRDGQCVVGTELNATHHRPVSEGKVRGVCQPLHLGRQNQSWEIVVFDEQGRRCCTCRLGTAVLG SLIWKRHLTLDELNATSDNTMVAHLGIVYTRLGDDVLEAEMPVDTRTHQPFGLLHGGASAALAETLGSMAGFMMTRDGQCVVGTELNATHHRPVSEGKVRGVCQPLHLGRQNQSWEIVVFDEQGRRCCTCRLGTAVLG 1vhc-a1-m1-cB_1vhc-a1-m1-cC Crystal structure of a putative KHG/KDPG aldolase P44480 P44480 1.89 X-RAY DIFFRACTION 39 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 208 208 1vhc-a1-m1-cA_1vhc-a1-m1-cB 1vhc-a1-m1-cA_1vhc-a1-m1-cC 1vhc-a2-m1-cD_1vhc-a2-m1-cE 1vhc-a2-m1-cD_1vhc-a2-m1-cF 1vhc-a2-m1-cE_1vhc-a2-m1-cF SYTTQQIIEKLRELKIVPVIALDNADDILPLADTLAKNGLSVAEITFRSEAAADAIRLLRANRPDFLIAAGTVLTAEQVVLAKSSGADFVVTPGLNPKIVKLCQDLNFPITPGVNNPAIEIALEGISAVKFFPAEASGGVKIKALLGPYAQLQIPTGGIGLHNIRDYLAIPNIVACGGSWFVEKKLIQSNNWDEIGRLVREVIDIIKE SYTTQQIIEKLRELKIVPVIALDNADDILPLADTLAKNGLSVAEITFRSEAAADAIRLLRANRPDFLIAAGTVLTAEQVVLAKSSGADFVVTPGLNPKIVKLCQDLNFPITPGVNNPAIEIALEGISAVKFFPAEASGGVKIKALLGPYAQLQIPTGGIGLHNIRDYLAIPNIVACGGSWFVEKKLIQSNNWDEIGRLVREVIDIIKE 1vhd-a1-m1-cA_1vhd-a1-m1-cB Crystal structure of an iron containing alcohol dehydrogenase Q9X022 Q9X022 1.6 X-RAY DIFFRACTION 82 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 350 350 SLWEFYPTDVFFGEKILEKRGNIIDLLGKRALVVTGKSSSKKNGSLDDLKKLLDETEISYEIFDEVEENPSFDNVKAVERYRNDSFDFVVGLGGGSPDFAKAVAVLLKEKDLSVEDLYDREKVKHWLPVVEIPTTAGTGSEVTPYSILTDPEGNKRGCTLFPVYAFLDPRYTYSSDELTLSTGVDALSHAVEGYLSRKSTPPSDALAIEAKIIHRNLPKAIEGNREARKKFVASCLAGVIAQTGTTLAHALGYPLTTEKGIKHGKATGVLPFVEVKEEIPEKVDTVNHIFGGSLLKFLKELGLYEKVAVSSEELEKWVEKGSRAKHLKNTPGTFTPEKIRNIYREALGVE SLWEFYPTDVFFGEKILEKRGNIIDLLGKRALVVTGKSSSKKNGSLDDLKKLLDETEISYEIFDEVEENPSFDNVKAVERYRNDSFDFVVGLGGGSPDFAKAVAVLLKEKDLSVEDLYDREKVKHWLPVVEIPTTAGTGSEVTPYSILTDPEGNKRGCTLFPVYAFLDPRYTYSSDELTLSTGVDALSHAVEGYLSRKSTPPSDALAIEAKIIHRNLPKAIEGNREARKKFVASCLAGVIAQTGTTLAHALGYPLTTEKGIKHGKATGVLPFVEVKEEIPEKVDTVNHIFGGSLLKFLKELGLYEKVAVSSEELEKWVEKGSRAKHLKNTPGTFTPEKIRNIYREALGVE 1vhe-a2-m6-cA_1vhe-a2-m9-cA Crystal structure of a aminopeptidase/glucanase homolog P94521 P94521 1.9 X-RAY DIFFRACTION 138 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 354 354 1vhe-a2-m10-cA_1vhe-a2-m7-cA 1vhe-a2-m11-cA_1vhe-a2-m5-cA 1vhe-a2-m12-cA_1vhe-a2-m3-cA 1vhe-a2-m1-cA_1vhe-a2-m4-cA 1vhe-a2-m2-cA_1vhe-a2-m8-cA KLDETLTLKDLTDAKGIPGNEREVRQVKSYIEPFADEVTTDRLGSLIAKKTGAENGPKIIAGHLDEVGFVTQITDKGFIRFQTVGGWWAQVLAQRVTIVTKKGEITGVIGSKPPHILSPEARKKSVEIKDFIDIGASSREEALEWGVLPGDIVPHFEFTVNNEKFLLAKAWDNRIGCAIAIDVLRNLQNTDHPNIVYGVGTVQEEVGLRGAKTAAHTIQPDIAFGVDVGIAGDTPGISEKEAQSKGKGPQIIVYDASVSHKGLRDAVVATAEEAGIPYQFDAIAGGGTDSGAIHLTANGVPALSITIATRYIHTHAALHRDDYENAVKLITEVIKKLDRKTVDEITYQEGGSHH KLDETLTLKDLTDAKGIPGNEREVRQVKSYIEPFADEVTTDRLGSLIAKKTGAENGPKIIAGHLDEVGFVTQITDKGFIRFQTVGGWWAQVLAQRVTIVTKKGEITGVIGSKPPHILSPEARKKSVEIKDFIDIGASSREEALEWGVLPGDIVPHFEFTVNNEKFLLAKAWDNRIGCAIAIDVLRNLQNTDHPNIVYGVGTVQEEVGLRGAKTAAHTIQPDIAFGVDVGIAGDTPGISEKEAQSKGKGPQIIVYDASVSHKGLRDAVVATAEEAGIPYQFDAIAGGGTDSGAIHLTANGVPALSITIATRYIHTHAALHRDDYENAVKLITEVIKKLDRKTVDEITYQEGGSHH 1vhe-a2-m8-cA_1vhe-a2-m9-cA Crystal structure of a aminopeptidase/glucanase homolog P94521 P94521 1.9 X-RAY DIFFRACTION 74 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 354 354 1vhe-a2-m10-cA_1vhe-a2-m11-cA 1vhe-a2-m10-cA_1vhe-a2-m12-cA 1vhe-a2-m11-cA_1vhe-a2-m12-cA 1vhe-a2-m1-cA_1vhe-a2-m2-cA 1vhe-a2-m1-cA_1vhe-a2-m3-cA 1vhe-a2-m2-cA_1vhe-a2-m3-cA 1vhe-a2-m4-cA_1vhe-a2-m5-cA 1vhe-a2-m4-cA_1vhe-a2-m6-cA 1vhe-a2-m5-cA_1vhe-a2-m6-cA 1vhe-a2-m7-cA_1vhe-a2-m8-cA 1vhe-a2-m7-cA_1vhe-a2-m9-cA KLDETLTLKDLTDAKGIPGNEREVRQVKSYIEPFADEVTTDRLGSLIAKKTGAENGPKIIAGHLDEVGFVTQITDKGFIRFQTVGGWWAQVLAQRVTIVTKKGEITGVIGSKPPHILSPEARKKSVEIKDFIDIGASSREEALEWGVLPGDIVPHFEFTVNNEKFLLAKAWDNRIGCAIAIDVLRNLQNTDHPNIVYGVGTVQEEVGLRGAKTAAHTIQPDIAFGVDVGIAGDTPGISEKEAQSKGKGPQIIVYDASVSHKGLRDAVVATAEEAGIPYQFDAIAGGGTDSGAIHLTANGVPALSITIATRYIHTHAALHRDDYENAVKLITEVIKKLDRKTVDEITYQEGGSHH KLDETLTLKDLTDAKGIPGNEREVRQVKSYIEPFADEVTTDRLGSLIAKKTGAENGPKIIAGHLDEVGFVTQITDKGFIRFQTVGGWWAQVLAQRVTIVTKKGEITGVIGSKPPHILSPEARKKSVEIKDFIDIGASSREEALEWGVLPGDIVPHFEFTVNNEKFLLAKAWDNRIGCAIAIDVLRNLQNTDHPNIVYGVGTVQEEVGLRGAKTAAHTIQPDIAFGVDVGIAGDTPGISEKEAQSKGKGPQIIVYDASVSHKGLRDAVVATAEEAGIPYQFDAIAGGGTDSGAIHLTANGVPALSITIATRYIHTHAALHRDDYENAVKLITEVIKKLDRKTVDEITYQEGGSHH 1vhj-a1-m1-cC_1vhj-a1-m1-cE Crystal structure of purine nucleoside phosphorylase Q9KPM0 Q9KPM0 2.23 X-RAY DIFFRACTION 102 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 232 232 1vhj-a1-m1-cB_1vhj-a1-m1-cF 1vhj-a1-m1-cD_1vhj-a1-m1-cA 1vhw-a1-m1-cA_1vhw-a1-m1-cD 1vhw-a1-m1-cE_1vhw-a1-m1-cC 1vhw-a1-m1-cF_1vhw-a1-m1-cB 3of3-a1-m1-cA_3of3-a1-m1-cC 3of3-a1-m1-cB_3of3-a1-m1-cE 3of3-a1-m1-cD_3of3-a1-m1-cL 3of3-a2-m1-cF_3of3-a2-m1-cJ 3of3-a2-m1-cG_3of3-a2-m1-cI 3of3-a2-m1-cH_3of3-a2-m1-cK ATPHINAQMGDFADVVLMPGDPLRAKYIAENFLDNAVQVCDVRNMFGYTGTYKGRRISVMGHGMGIPSCSIYVTELIKDYGVKKIIRVGSCGAVNEGIKVRDVVIGMGACTDSKVNRIRFKDHDFAAIADYKMVKAAEEAAKARGIDVKVGNLFSAELFYTPDPSMFDVMDKYGIVGVEMEAAGIYGVAAEYGAKALAICTVSDHIKTGEERQNTFNEMIEIALDSVLIGDQ ATPHINAQMGDFADVVLMPGDPLRAKYIAENFLDNAVQVCDVRNMFGYTGTYKGRRISVMGHGMGIPSCSIYVTELIKDYGVKKIIRVGSCGAVNEGIKVRDVVIGMGACTDSKVNRIRFKDHDFAAIADYKMVKAAEEAAKARGIDVKVGNLFSAELFYTPDPSMFDVMDKYGIVGVEMEAAGIYGVAAEYGAKALAICTVSDHIKTGEERQNTFNEMIEIALDSVLIGDQ 1vhj-a1-m1-cE_1vhj-a1-m1-cA Crystal structure of purine nucleoside phosphorylase Q9KPM0 Q9KPM0 2.23 X-RAY DIFFRACTION 105 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 232 234 1vhj-a1-m1-cC_1vhj-a1-m1-cF 1vhj-a1-m1-cD_1vhj-a1-m1-cB 1vhw-a1-m1-cB_1vhw-a1-m1-cD 1vhw-a1-m1-cE_1vhw-a1-m1-cA 1vhw-a1-m1-cF_1vhw-a1-m1-cC 3of3-a1-m1-cA_3of3-a1-m1-cE 3of3-a1-m1-cC_3of3-a1-m1-cL 3of3-a1-m1-cD_3of3-a1-m1-cB 3of3-a2-m1-cF_3of3-a2-m1-cI 3of3-a2-m1-cG_3of3-a2-m1-cK 3of3-a2-m1-cH_3of3-a2-m1-cJ ATPHINAQMGDFADVVLMPGDPLRAKYIAENFLDNAVQVCDVRNMFGYTGTYKGRRISVMGHGMGIPSCSIYVTELIKDYGVKKIIRVGSCGAVNEGIKVRDVVIGMGACTDSKVNRIRFKDHDFAAIADYKMVKAAEEAAKARGIDVKVGNLFSAELFYTPDPSMFDVMDKYGIVGVEMEAAGIYGVAAEYGAKALAICTVSDHIKTGEERQNTFNEMIEIALDSVLIGDQ ATPHINAQMGDFADVVLMPGDPLRAKYIAENFLDNAVQVCDVRNMFGYTGTYKGRRISVMGHGMGIPSCSIYVTELIKDYGVKKIIRVGSCGAVNEGIKVRDVVIGMGACTDSKVNRIRFKDHDFAAIADYKMVKAAEEAAKARGIDVKVGNLFSAELFYTPDPSMFDVMDKYGIVGVEMEAAGIYGVAAEYGAKALAICTVSDHIKTGESEERQNTFNEMIEIALDSVLIGDQ 1vhk-a3-m1-cB_1vhk-a3-m1-cA Crystal structure of an hypothetical protein P54461 P54461 2.6 X-RAY DIFFRACTION 96 0.99 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 194 231 1vhk-a1-m1-cB_1vhk-a1-m1-cA QRYFIELTKQIICCSQDGFEAKCCLVIEWTNENRELPIKVYIASGLPKGDKLEWIIQKGTELGAHAFIPFQAARSVVRERWTKIAKEAAEQSYRNEVPRVDVHSFQQLLQRQDFDKCVVAYEESSAFSAIVSSLPKGSSLLIVFGPEGGLTEAEVERLTEQDGVTCGLGPRILRTETAPLYALSAISYQTELLR QRYFIELTKQQIEEAPTFSITGEEVHHIVNVRNEGDQIICCSQDGFEAKCELQSVSKDKVSCLVIEWTNENRELPIKVYIASGLPKGDKLEWIIQKGTELGAHAFIPFQAARSVVKRERWTKIAKEAAEQSYRNEVPRVDVHSFQQLLQRQDFDKCVVAYESAFSAIVSSLPKGSSLLIVFGPEGGLTEAEVERLTEQDGVTCGLGPRILRTETAPLYALSAISYQTELLR 1vhk-a3-m1-cB_1vhk-a3-m1-cC Crystal structure of an hypothetical protein P54461 P54461 2.6 X-RAY DIFFRACTION 19 0.99 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 194 240 QRYFIELTKQIICCSQDGFEAKCCLVIEWTNENRELPIKVYIASGLPKGDKLEWIIQKGTELGAHAFIPFQAARSVVRERWTKIAKEAAEQSYRNEVPRVDVHSFQQLLQRQDFDKCVVAYEESSAFSAIVSSLPKGSSLLIVFGPEGGLTEAEVERLTEQDGVTCGLGPRILRTETAPLYALSAISYQTELLR QRYFIELTKQQIEEAPTFSITGEEVHHIVNVRNEGDQIICCSQDGFEAKCELQSVSKDKVSCLVIEWTNENRELPIKVYIASGLPKGDKLEWIIQKGTELGAHAFIPFQAARSVVKLDDKKAKKKRERWTKIAKEAAEQSYRNEVPRVDVHSFQQLLQRQDFDKCVVAYESAFSAIVSSLPKGSSLLIVFGPEGGLTEAEVERLTEQDGVTCGLGPRILRTETAPLYALSAISYQTELLR 1vhm-a1-m1-cA_1vhm-a1-m1-cB Crystal structure of an hypothetical protein P76270 P76270 2.1 X-RAY DIFFRACTION 79 1.0 562 (Escherichia coli) 562 (Escherichia coli) 159 160 NKTEFYADLNRDFNALMAGETSFLATLANTSALLYERLTDINWAGFYLLEDDTLVLGPFQGKIACVRIPVGRGVCGTAVARNQVQRIEDVHVFDGHIACDAASNSEIVLPLVVKNQIIGVLDIDSTVFGRFTDEDEQGLRQLVAQLEKVLATTDYKKFF MNKTEFYADLNRDFNALMAGETSFLATLANTSALLYERLTDINWAGFYLLEDDTLVLGPFQGKIACVRIPVGRGVCGTAVARNQVQRIEDVHVFDGHIACDAASNSEIVLPLVVKNQIIGVLDIDSTVFGRFTDEDEQGLRQLVAQLEKVLATTDYKKFF 1vhq-a1-m1-cB_1vhq-a1-m1-cA Crystal structure of enhancing lycopene biosynthesis protein 2 P0ABU5 P0ABU5 1.65 X-RAY DIFFRACTION 88 1.0 562 (Escherichia coli) 562 (Escherichia coli) 208 209 1oy1-a1-m1-cB_1oy1-a1-m1-cA 1oy1-a2-m1-cC_1oy1-a2-m1-cD KKIGVILSGCGVYDGSEIHEAVLTLLAISRSGAQAVCFAPDKQQVDVINHLTGEATETRNVLIEAARITRGEIRPLAQADAAELDALIVPGGFGAAKNLSNFASLGSECTVDRELKALAQAHQAGKPLGFIAPALPKIFDFPLRLTIGTDIDTAEVLEEGAEHVPCPVDDIVVDEDNKIVTTPAYLAQNIAEAASGIDKLVSRVLVLA KKIGVILSGCGVYDGSEIHEAVLTLLAISRSGAQAVCFAPDKQQVDVINHLTGEATETRNVLIEAARITRGEIRPLAQADAAELDALIVPGGFGAAKNLSNFASLGSECTVDRELKALAQAHQAGKPLGFIAPALPKIFDFPLRLTIGTDIDTAEVLEEGAEHVPCPVDDIVVDEDNKIVTTPAYLAQNIAEAASGIDKLVSRVLVLAE 1vhv-a1-m1-cA_1vhv-a1-m1-cB Crystal structure of diphthine synthase O29866 O29866 1.75 X-RAY DIFFRACTION 164 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 245 246 SLLTFVGLGLWDVKDISVKGLEAVREADEVYVEYYTSKLLSSIEEEEFFGKRVVELERSDLEENSFRLIERAKSKSVVLLVPGDPVATTHSAIKLEAERKGVKTRIIHGASISTAVCGLTGLHNYRFGKSATVSWHRSQTPVNVIKANRSIDAHTLLFLDLHPEPTIGHAVENLIAEDAQKDLYAVGIARAGSGEEVVKCDRLENLKKIDFGKPLHVVVLAKTLHFEFECLREFADAPAELERLV SLLTFVGLGLWDVKDISVKGLEAVREADEVYVEYYTSKLLSSIEEEEFFGKRVVELERSDLEENSFRLIERAKSKSVVLLVPGDPVATTHSAIKLEAERKGVKTRIIHGASISTAVCGLTGLHNYRFGKSATVSWHRSQTPVNVIKANRSIDAHTLLFLDLHPEPTIGHAVENLIAEDAQKDLYAVGIARAGSGEEVVKCDRLENLKKIDFGKPLHVVVLAKTLHFEFECLREFADAPAELERLVA 1vhx-a1-m1-cB_1vhx-a1-m1-cA Crystal structure of Putative Holliday junction resolvase O34634 O34634 1.96 X-RAY DIFFRACTION 41 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 132 134 SLRILGLDLGTKTLGVALSDEGWTAQGIETIKINEAEGDYGLSRLSELIKDYTIDKIVLGFPKNNGTVGPRGEASQTFAKVLETTYNVPVVLWDERLTTAAEKLIAADVSRQKRKKVIDKAAVILQGYLDSL SLRILGLDLGTKTLGVALSDEGWTAQGIETIKINEAEGDYGLSRLSELIKDYTIDKIVLGFPKNNGTVGPRGEASQTFAKVLETTYNVPVVLWDERLTTAAEKLIAADVSRQKRKKVIDKAAVILQGYLDSLNE 1vhy-a3-m1-cB_1vhy-a3-m1-cA Crystal structure of Haemophilus influenzae protein HI0303, Pfam DUF558 P44627 P44627 1.9 X-RAY DIFFRACTION 146 0.991 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 233 237 1nxz-a1-m1-cB_1nxz-a1-m1-cA IPRIYHPISLENQTQCYLSEDAANHVARVLRTEGEQLELFDGSNHIYPAKIIVKVEILGRELADKESHLKIHLGQVISRREFTIQKSVELGVNVITPLWSERCGVKLDAERDKKIQQWQKIAIAACEQCGRNIVPEIRPLKLQDWCAENDGALKLNLHPRAHYSIKTLPTIPAGGVRLLIGSEGGLSAQEIAQTEQQGFTEILLGKRVLRTETASLAAISALQICFGDLGEEG IPRIYHPISLENQTQCYLSEDAANHVARVLRTEGEQLELFDGSNHIYPAKIIESNKKSVKVEILGRELADKESHLKIHLGQVIREFTIQKSVELGVNVITPLWSERCGVKLDAERDKKIQQWQKIAIAACEQCGRNIVPEIRPLKLQDWCAENDGALKLNLHPRAHYSIKTLPTIPAGGVRLLIGSEGGLSAQEIAQTEQQGFTEILLGKRVLRTETASLAAISALQICFGDLGEEG 1vhz-a1-m1-cB_1vhz-a1-m1-cA Crystal structure of ADP compounds hydrolase P45799 P45799 2.32 X-RAY DIFFRACTION 174 0.995 562 (Escherichia coli) 562 (Escherichia coli) 185 186 1vhg-a1-m1-cA_1vhg-a1-m1-cB SKSLQKPTILNVETVARSRLFTVESVDLEFSNGVRRVYERMRPTNREAVMIVPIVDDHLILIREYAVGTESYELGFSKGLIDPGESVYEAANRELKEEVGFGANDLTFLKKLSMAPSYFSSKMNIVVAQDLYPESLEGDEPEPLPQVRWPLAHMMDLLEDPDFNEARNVSALFLVREWLKGQGRV SLSKSLQKPTILNVETVARSRLFTVESVDLEFSNGVRRVYERMRPTNREAVMIVPIVDDHLILIREYAVGTESYELGFSKGLIDPGESVYEAANRELKEEVGFGANDLTFLKKLSMAPSYFSSKMNIVVAQDLYPESLEGDEPEPLPQVRWPLAHMMDLLEDPDFNEARNVSALFLVREWLKGQGR 1vi1-a3-m1-cB_1vi1-a3-m2-cB Crystal structure of a fatty acid/phospholipid synthesis protein P71018 P71018 2.95 X-RAY DIFFRACTION 114 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 309 309 1vi1-a4-m1-cA_1vi1-a4-m2-cA 6a1k-a1-m1-cB_6a1k-a1-m1-cA SLRIAVDAGGDHAPKAVIDGVIKGIEAFDDLHITLVGDKTTIESHLTTTSDRITVLHADEVIEPTDEPVRAVRRKKNSSVLAQEVAENRADACISAGNTGALTAGLFIVGRIKGIDRPALAPTLPTVSGDGFLLLDVGANVDAKPEHLVQYAIGSVYSQQVRGVTSPRVGLLNVGTEDKKGNELTKQTFQILKETANINFIGNVEARDLLDDVADVVVTDGFTGNVTLKTLEGSALSIFKRDVTSTLTSPKLKEKKEYSNYGGASLFGLKAPVIKAHGSSDSNAVFRAIRQAREVSQNVAALIQEEVKE SLRIAVDAGGDHAPKAVIDGVIKGIEAFDDLHITLVGDKTTIESHLTTTSDRITVLHADEVIEPTDEPVRAVRRKKNSSVLAQEVAENRADACISAGNTGALTAGLFIVGRIKGIDRPALAPTLPTVSGDGFLLLDVGANVDAKPEHLVQYAIGSVYSQQVRGVTSPRVGLLNVGTEDKKGNELTKQTFQILKETANINFIGNVEARDLLDDVADVVVTDGFTGNVTLKTLEGSALSIFKRDVTSTLTSPKLKEKKEYSNYGGASLFGLKAPVIKAHGSSDSNAVFRAIRQAREVSQNVAALIQEEVKE 1vi2-a1-m1-cB_1vi2-a1-m1-cA Crystal structure of shikimate-5-dehydrogenase with NAD P0A6D5 P0A6D5 2.1 X-RAY DIFFRACTION 63 1.0 562 (Escherichia coli) 562 (Escherichia coli) 272 274 1npd-a1-m1-cA_1npd-a1-m1-cB KYELIGLAYPIRHSLSPEQNKALEKAGLPFTYAFEVDNDSFPGAIEGLKALKRGTGVSPNKQLACEYVDELTPAAKLVGAINTIVNDDGYLRGYNTDGTGHIRAIKESGFDIKGKTVLLGAGGASTAIGAQGAIEGLKEIKLFNRRDEFFDKALAFAQRVNENTDCVVTVTDLADQQAFAEALASADILTNGTKVGKPLENESLVNDISLLHPGLLVTECVYNPHTKLLQQAQQAGCKTIDGYGLLWQGAEQFTLWTGKDFPLEYVKQVGFG AKYELIGLAYPIRHSLSPEQNKALEKAGLPFTYAFEVDNDSFPGAIEGLKALKRGTGVSPNKQLACEYVDELTPAAKLVGAINTIVNDDGYLRGYNTDGTGHIRAIKESGFDIKGKTVLLGAGGASTAIGAQGAIEGLKEIKLFNRRDEFFDKALAFAQRVNENTDCVVTVTDLADQQAFAEALASADILTNGTKVGKPLENESLVNDISLLHPGLLVTECVYNPHTKLLQQAQQAGCKTIDGYGLLWQGAEQFTLWTGKDFPLEYVKQVGFGA 1vi6-a2-m1-cD_1vi6-a2-m1-cC Crystal structure of ribosomal protein S2P O29132 O29132 1.95 X-RAY DIFFRACTION 51 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 193 194 1vi6-a1-m1-cA_1vi6-a1-m1-cB EYEYLVPPDDYLAAGVHIGTQIKTGDMKKFIFKVRQDGLYVLDIRKLDERIRVAAKFLSRYEPSKILLVAARQYAHKPVQMFSKVVGSDYIVGRFIPGTLTNPMLSEYREPEVVFVNDPAIDKQAVSEATAVGIPVVALCDSNNSSADVDLVIPTNNKGRRALAIVYWLLAREIAKIRGQDFTYSIEDFEAEL EYEYLVPPDDYLAAGVHIGTQIKTGDMKKFIFKVRQDGLYVLDIRKLDERIRVAAKFLSRYEPSKILLVAARQYAHKPVQMFSKVVGSDYIVGRFIPGTLTNPMLSEYREPEVVFVNDPAIDKQAVSEATAVGIPVVALCDSNNSSADVDLVIPTNNKGRRALAIVYWLLAREIAKIRGQDFTYSIEDFEAELE 1vi8-a1-m1-cD_1vi8-a1-m1-cB Crystal structure of a putative thioesterase P77781 P77781 2.2 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 146 1sbk-a1-m1-cA_1sbk-a1-m1-cB 1sbk-a1-m1-cC_1sbk-a1-m1-cD 1vi8-a1-m1-cA_1vi8-a1-m1-cC 1vi8-a2-m1-cF_1vi8-a2-m1-cH 1vi8-a2-m1-cG_1vi8-a2-m1-cE SLIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAILE SLIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAILEGGSHHHHH 1vi8-a2-m1-cE_1vi8-a2-m1-cH Crystal structure of a putative thioesterase P77781 P77781 2.2 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 138 1sbk-a1-m1-cA_1sbk-a1-m1-cD 1sbk-a1-m1-cB_1sbk-a1-m1-cC 1vi8-a1-m1-cA_1vi8-a1-m1-cD 1vi8-a1-m1-cC_1vi8-a1-m1-cB 1vi8-a2-m1-cG_1vi8-a2-m1-cF SLIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAILE SLIWKRKITLEALNAMGEGNMVGFLDIRFEHIGDDTLEATMPVDSRTKQPFGLLHGGASVVLAESIGSVAGYLCTEGEQKVVGLEINANHVRSAREGRVRGVCKPLHLGSRHQVWQIEIFDEKGRLCCSSRLTTAILE 1vi9-a2-m1-cC_1vi9-a2-m1-cD Crystal structure of pyridoxamine kinase P77150 P77150 1.96 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 279 279 1td2-a1-m1-cA_1td2-a1-m1-cB 1vi9-a1-m1-cA_1vi9-a1-m1-cB LKNILAIQSHVVYGHAGNSAAEFPRRLGANVWPLNTVQFSNHTQYGKWTGVPPSHLTEIVQGIAAIDKLHTCDAVLSGYLGSAEQGEHILGIVRQVKAANPQAKYFCDPVGHPEKGCIVAPGVAEFHVRHGLPASDIIAPNLVELEILCEHAVNNVEEAVLAARELIAQGPQIVLVKHLARAGYSRDRFELLVTADEAWHISRPLVDFGRQPVGVGDVTSGLLLVKLLQGATLQEALEHVTAAVYEIVTTKAQEYELQVVAAQDRIAKPEHYFSATKLE LKNILAIQSHVVYGHAGNSAAEFPRRLGANVWPLNTVQFSNHTQYGKWTGVPPSHLTEIVQGIAAIDKLHTCDAVLSGYLGSAEQGEHILGIVRQVKAANPQAKYFCDPVGHPEKGCIVAPGVAEFHVRHGLPASDIIAPNLVELEILCEHAVNNVEEAVLAARELIAQGPQIVLVKHLARAGYSRDRFELLVTADEAWHISRPLVDFGRQPVGVGDVTSGLLLVKLLQGATLQEALEHVTAAVYEIVTTKAQEYELQVVAAQDRIAKPEHYFSATKLE 1vic-a3-m1-cB_1vic-a3-m1-cA Crystal structure of CMP-KDO synthetase P44490 P44490 1.8 X-RAY DIFFRACTION 96 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 248 255 3duv-a1-m1-cA_3duv-a1-m1-cB SFTVIIPARFASSRLPGKPLADIKGKPMIQHVFEKALQSGASRVIIATDNENVADVAKSFGAEVCMTSVNHNSGTERLAEVVEKLAIPDNEIIVNIQGDEPLIPPVIVRQVADNLAKFNVNMASLAVKIHDAEELFNPNAVKVLTDKDGYVLYFSRSVIPYDRDQFMNKVQLSDAYLRHIGIYAYRAGFIKQYVQWAPTQLENLEKLEQLRVLYNGERIHVELAKEVPAVGVDTAEDLEKVRAILAAN SFTVIIPARFASSRLPGKPLADIKGKPMIQHVFEKALQSGASRVIIATDNENVADVAKSFGAEVCMTSVNHNSGTERLAEVVEKLAIPDNEIIVNIQGDEPLIPPVIVRQVADNLAKFNVNMASLAVKIHDAEELFNPNAVKVLTDKDGYVLYFSRSVIPYDRDQFMNLQDVQKVQLSDAYLRHIGIYAYRAGFIKQYVQWAPTQLENLEKLEQLRVLYNGERIHVELAKEVPAVGVDTAEDLEKVRAILAANGS 1vim-a1-m1-cB_1vim-a1-m1-cD Crystal structure of an hypothetical protein O28478 O28478 1.36 X-RAY DIFFRACTION 84 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 188 190 1vim-a1-m1-cC_1vim-a1-m1-cA HMSLLRFLEVVSEHIKNLRNHIDLETVGEMIKLIDSARSIFVIGAGRSGYIAKAFAMRLMHLGYTVYVVGETVTPRITDQDVLVGISGSGETTSVVNISKKAKDIGSKLVAVTGKRDSSLAKMADVVMVVKGKMKQERDEILSQLAPLGTMFELTAMIFLDALVAEIMMQKHLTEKDLEARHAVLEEG GGHMSLLRFLEVVSEHIKNLRNHIDLETVGEMIKLIDSARSIFVIGAGRSGYIAKAFAMRLMHLGYTVYVVGETVTPRITDQDVLVGISGSGETTSVVNISKKAKDIGSKLVAVTGKRDSSLAKMADVVMVVKGKMKQERDEILSQLAPLGTMFELTAMIFLDALVAEIMMQKHLTEKDLEARHAVLEEG 1vim-a1-m1-cC_1vim-a1-m1-cD Crystal structure of an hypothetical protein O28478 O28478 1.36 X-RAY DIFFRACTION 184 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 190 190 1vim-a1-m1-cB_1vim-a1-m1-cA GGHMSLLRFLEVVSEHIKNLRNHIDLETVGEMIKLIDSARSIFVIGAGRSGYIAKAFAMRLMHLGYTVYVVGETVTPRITDQDVLVGISGSGETTSVVNISKKAKDIGSKLVAVTGKRDSSLAKMADVVMVVKGKMKQERDEILSQLAPLGTMFELTAMIFLDALVAEIMMQKHLTEKDLEARHAVLEEG GGHMSLLRFLEVVSEHIKNLRNHIDLETVGEMIKLIDSARSIFVIGAGRSGYIAKAFAMRLMHLGYTVYVVGETVTPRITDQDVLVGISGSGETTSVVNISKKAKDIGSKLVAVTGKRDSSLAKMADVVMVVKGKMKQERDEILSQLAPLGTMFELTAMIFLDALVAEIMMQKHLTEKDLEARHAVLEEG 1vim-a1-m1-cD_1vim-a1-m1-cA Crystal structure of an hypothetical protein O28478 O28478 1.36 X-RAY DIFFRACTION 14 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 190 192 1vim-a1-m1-cB_1vim-a1-m1-cC GGHMSLLRFLEVVSEHIKNLRNHIDLETVGEMIKLIDSARSIFVIGAGRSGYIAKAFAMRLMHLGYTVYVVGETVTPRITDQDVLVGISGSGETTSVVNISKKAKDIGSKLVAVTGKRDSSLAKMADVVMVVKGKMKQERDEILSQLAPLGTMFELTAMIFLDALVAEIMMQKHLTEKDLEARHAVLEEG HGGHMSLLRFLEVVSEHIKNLRNHIDLETVGEMIKLIDSARSIFVIGAGRSGYIAKAFAMRLMHLGYTVYVVGETVTPRITDQDVLVGISGSGETTSVVNISKKAKDIGSKLVAVTGKRDSSLAKMADVVMVVKGKMKQERDEILSQLAPLGTMFELTAMIFLDALVAEIMMQKHLTEKDLEARHAVLEEGG 1vio-a1-m1-cA_1vio-a1-m1-cB Crystal structure of pseudouridylate synthase P45124 P45124 1.59 X-RAY DIFFRACTION 70 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 230 230 SLRLDKFIAENVGLTRSQATKAIRQSAVKINGEIVKSGSVQISQEDEIYFEDELLTWIEEGQYFMLNKPQGCVCSNDDYPTIYQFFDYPLAGKLHSAGRLDVDTTGLVLLTDDGQWSHRITSPKHHCEKTYLVTLADPVEENYSAACAEGILLRGEKEPTKPAKLEILDDYNVNLTISEGRYHQVKRMFAALGNKVVGLHRWKIGDVVLDESLEEGEYRPLTQSEIEKLV SLRLDKFIAENVGLTRSQATKAIRQSAVKINGEIVKSGSVQISQEDEIYFEDELLTWIEEGQYFMLNKPQGCVCSNDDYPTIYQFFDYPLAGKLHSAGRLDVDTTGLVLLTDDGQWSHRITSPKHHCEKTYLVTLADPVEENYSAACAEGILLRGEKEPTKPAKLEILDDYNVNLTISEGRYHQVKRMFAALGNKVVGLHRWKIGDVVLDESLEEGEYRPLTQSEIEKLV 1vip-a2-m1-cA_1vip-a2-m2-cA ANTICOAGULANT CLASS II PHOSPHOLIPASE A2 FROM THE VENOM OF VIPERA RUSSELLI RUSSELLI P81458 P81458 2.2 X-RAY DIFFRACTION 73 1.0 31159 (Daboia russelii russelii) 31159 (Daboia russelii russelii) 121 121 NLFQFAEMIVKMTGKNPLSSYSDYGCYCGWGGKGKPQDATDRCCFVHDCCYEKVKSCKPKLSLYSYSFQNGGIVCGDNHSCKRAVCECDRVAATCFRDNLNTYDKKYHNYPPSQCTGTEQC NLFQFAEMIVKMTGKNPLSSYSDYGCYCGWGGKGKPQDATDRCCFVHDCCYEKVKSCKPKLSLYSYSFQNGGIVCGDNHSCKRAVCECDRVAATCFRDNLNTYDKKYHNYPPSQCTGTEQC 1viq-a2-m1-cC_1viq-a2-m1-cB Crystal structure of putative ADP ribose pyrophosphatase Q93K97 Q93K97 2.4 X-RAY DIFFRACTION 244 0.985 562 (Escherichia coli) 562 (Escherichia coli) 194 201 1g9q-a1-m1-cB_1g9q-a1-m1-cA 1khz-a1-m1-cB_1khz-a1-m1-cA 1viq-a1-m1-cA_1viq-a1-m2-cA LPVTFGKNDVEIIARETLYRGFSSLDLYRFRHRLFNGQMSHEVRREIFERGHAAVLLPFDPVRDEVVLIEQIRIAAYDTSETPWLLEMVAGMIEEGESVEDVARREAIEEAGLIVKRTKPVLSFLASPGGTSERSSIMVGEVDATTANEDIRVHVVSREQAYQWVEEGKIDNAASVIALQWLQLHHQALKNEWA SLKPDNLPVTFGKNDVEIIARETLYRGFSSLDLYRFRHRLFNGQMSHEVRREIFERGHAAVLLPFDPVRDEVVLIEQIRIAAYDTSETPWLLEMVAGMIEEGESVEDVARREAIEEAGLIVKRTKPVLSFLASPGGTSERSSIMVGEVDATTASGIHDIRVHVVSREQAYQWVEEGKIDNAASVIALQWLQLHHQALKNEW 1viu-a1-m1-cA_1viu-a1-m1-cB Crystal structure of putative ADP ribose pyrophosphatase P37128 P37128 2.4 X-RAY DIFFRACTION 183 1.0 562 (Escherichia coli) 562 (Escherichia coli) 177 178 1viu-a2-m1-cC_1viu-a2-m1-cD 3o52-a1-m1-cA_3o52-a1-m1-cB 3o52-a2-m1-cC_3o52-a2-m1-cD 3o52-a3-m1-cE_3o52-a3-m2-cE 3o61-a1-m1-cA_3o61-a1-m1-cB 3o61-a2-m1-cC_3o61-a2-m1-cD 3o69-a1-m1-cA_3o69-a1-m1-cB 3o6z-a1-m1-cA_3o6z-a1-m1-cB QQITLIKDKILSDNYFTLHNITYDLTRKDGEVIRHKREVYDRGNGATILLYNTKKKTVVLIRQFRVATWVNGNESGQLIESCAGLLDNDEPEVCIRKEAIEETGYEVGEVRKLFELYSPGGVTELIHFFIAEYSDNQREDIEVLELPFSQALEIKTGEIRDGKTVLLLNYLQTSHLD QQITLIKDKILSDNYFTLHNITYDLTRKDGEVIRHKREVYDRGNGATILLYNTKKKTVVLIRQFRVATWVNGNESGQLIESCAGLLDNDEPEVCIRKEAIEETGYEVGEVRKLFELYSPGGVTELIHFFIAEYSDNQRAEDIEVLELPFSQALEIKTGEIRDGKTVLLLNYLQTSHLD 1viv-a2-m1-cA_1viv-a2-m2-cA Crystal structure of a hypothetical protein P42404 P42404 2.6 X-RAY DIFFRACTION 74 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 184 184 1m3s-a1-m1-cA_1m3s-a1-m2-cA 1m3s-a1-m1-cB_1m3s-a1-m2-cB 1viv-a2-m1-cB_1viv-a2-m2-cB LKTTEYVAEILNELHNSAAYISNEEADQLADHILSSHQIFTAGAGRSGLMAKSFAMRLMHMGFNAHIVGEILTPPLAEGDLVIIGSGSGETKSLIHTAAKAKSLHGIVAALTINPESSIGKQADLIIRMPGSPKDQSNGSYKTIQPMGSLFEQTLLLFYDAVILKLMEKKGLDSETMFTHHANL LKTTEYVAEILNELHNSAAYISNEEADQLADHILSSHQIFTAGAGRSGLMAKSFAMRLMHMGFNAHIVGEILTPPLAEGDLVIIGSGSGETKSLIHTAAKAKSLHGIVAALTINPESSIGKQADLIIRMPGSPKDQSNGSYKTIQPMGSLFEQTLLLFYDAVILKLMEKKGLDSETMFTHHANL 1viy-a1-m1-cA_1viy-a1-m1-cB Crystal structure of dephospho-CoA kinase P0A6I9 P0A6I9 1.89 X-RAY DIFFRACTION 53 1.0 562 (Escherichia coli) 562 (Escherichia coli) 208 208 1n3b-a1-m1-cB_1n3b-a1-m1-cC 1viy-a1-m1-cA_1viy-a1-m1-cC 1viy-a1-m1-cB_1viy-a1-m1-cC SLRYIVALTGGIGSGKSTVANAFADLGINVIDADIIARQVVEPGAPALHAIADHFGANMIAADGTLQRRALRERIFANPEEKNWLNALLHPLIQQETQHQIQQATSPYVLWVVPLLVENSLYKKANRVLVVDVSPETQLKRTMQRDDVTREHVEQILAAQATREARLAVADDVIDNNGAPDAIASDVARLHAHYLQLASQFVSQEKPE SLRYIVALTGGIGSGKSTVANAFADLGINVIDADIIARQVVEPGAPALHAIADHFGANMIAADGTLQRRALRERIFANPEEKNWLNALLHPLIQQETQHQIQQATSPYVLWVVPLLVENSLYKKANRVLVVDVSPETQLKRTMQRDDVTREHVEQILAAQATREARLAVADDVIDNNGAPDAIASDVARLHAHYLQLASQFVSQEKPE 1vj0-a1-m1-cB_1vj0-a1-m1-cD Crystal structure of Alcohol dehydrogenase (TM0436) from Thermotoga maritima at 2.00 A resolution Q9WYR7 Q9WYR7 2 X-RAY DIFFRACTION 128 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 364 365 1vj0-a1-m1-cC_1vj0-a1-m1-cA LKAHAMVLEKFNQPLVYKEFEISDIPRGSILVEILSAGVCGSDVHMFRGEDPRVPLPIILGHEGAGRVVEVNGEKRDLNGELLKPGDLIVWNRGITCGECYWCKVSKEPYLCPNRKVYGINRGCSEYPHLRGCYSSHIVLDPETDVLKVSEKDDLDVLAMAMCSGATAYHAFDEYPESFAGKTVVIQGAGPLGLFGVVIARSLGAENVIVIAGSPNRLKLAEEIGADLTLNRRETSVEERRKAIMDITHGRGADFILEATGDSRALLEGSELLRRGGFYSVAGVAVPQDPVPFKVYEWLVLKNATFKGIWVSDTSHFVKTVSITSRNYQLLSKLITHRLPLKEANKALELMESREALKVILYPE GLKAHAMVLEKFNQPLVYKEFEISDIPRGSILVEILSAGVCGSDVHMFRGEDPRVPLPIILGHEGAGRVVEVNGEKRDLNGELLKPGDLIVWNRGITCGECYWCKVSKEPYLCPNRKVYGINRGCSEYPHLRGCYSSHIVLDPETDVLKVSEKDDLDVLAMAMCSGATAYHAFDEYPESFAGKTVVIQGAGPLGLFGVVIARSLGAENVIVIAGSPNRLKLAEEIGADLTLNRRETSVEERRKAIMDITHGRGADFILEATGDSRALLEGSELLRRGGFYSVAGVAVPQDPVPFKVYEWLVLKNATFKGIWVSDTSHFVKTVSITSRNYQLLSKLITHRLPLKEANKALELMESREALKVILYPE 1vj0-a1-m1-cC_1vj0-a1-m1-cD Crystal structure of Alcohol dehydrogenase (TM0436) from Thermotoga maritima at 2.00 A resolution Q9WYR7 Q9WYR7 2 X-RAY DIFFRACTION 41 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 364 365 1vj0-a1-m1-cB_1vj0-a1-m1-cA LKAHAMVLEKFNQPLVYKEFEISDIPRGSILVEILSAGVCGSDVHMFRGEDPRVPLPIILGHEGAGRVVEVNGEKRDLNGELLKPGDLIVWNRGITCGECYWCKVSKEPYLCPNRKVYGINRGCSEYPHLRGCYSSHIVLDPETDVLKVSEKDDLDVLAMAMCSGATAYHAFDEYPESFAGKTVVIQGAGPLGLFGVVIARSLGAENVIVIAGSPNRLKLAEEIGADLTLNRRETSVEERRKAIMDITHGRGADFILEATGDSRALLEGSELLRRGGFYSVAGVAVPQDPVPFKVYEWLVLKNATFKGIWVSDTSHFVKTVSITSRNYQLLSKLITHRLPLKEANKALELMESREALKVILYPE GLKAHAMVLEKFNQPLVYKEFEISDIPRGSILVEILSAGVCGSDVHMFRGEDPRVPLPIILGHEGAGRVVEVNGEKRDLNGELLKPGDLIVWNRGITCGECYWCKVSKEPYLCPNRKVYGINRGCSEYPHLRGCYSSHIVLDPETDVLKVSEKDDLDVLAMAMCSGATAYHAFDEYPESFAGKTVVIQGAGPLGLFGVVIARSLGAENVIVIAGSPNRLKLAEEIGADLTLNRRETSVEERRKAIMDITHGRGADFILEATGDSRALLEGSELLRRGGFYSVAGVAVPQDPVPFKVYEWLVLKNATFKGIWVSDTSHFVKTVSITSRNYQLLSKLITHRLPLKEANKALELMESREALKVILYPE 1vj0-a1-m1-cD_1vj0-a1-m1-cA Crystal structure of Alcohol dehydrogenase (TM0436) from Thermotoga maritima at 2.00 A resolution Q9WYR7 Q9WYR7 2 X-RAY DIFFRACTION 49 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 365 366 1vj0-a1-m1-cB_1vj0-a1-m1-cC GLKAHAMVLEKFNQPLVYKEFEISDIPRGSILVEILSAGVCGSDVHMFRGEDPRVPLPIILGHEGAGRVVEVNGEKRDLNGELLKPGDLIVWNRGITCGECYWCKVSKEPYLCPNRKVYGINRGCSEYPHLRGCYSSHIVLDPETDVLKVSEKDDLDVLAMAMCSGATAYHAFDEYPESFAGKTVVIQGAGPLGLFGVVIARSLGAENVIVIAGSPNRLKLAEEIGADLTLNRRETSVEERRKAIMDITHGRGADFILEATGDSRALLEGSELLRRGGFYSVAGVAVPQDPVPFKVYEWLVLKNATFKGIWVSDTSHFVKTVSITSRNYQLLSKLITHRLPLKEANKALELMESREALKVILYPE MGLKAHAMVLEKFNQPLVYKEFEISDIPRGSILVEILSAGVCGSDVHMFRGEDPRVPLPIILGHEGAGRVVEVNGEKRDLNGELLKPGDLIVWNRGITCGECYWCKVSKEPYLCPNRKVYGINRGCSEYPHLRGCYSSHIVLDPETDVLKVSEKDDLDVLAMAMCSGATAYHAFDEYPESFAGKTVVIQGAGPLGLFGVVIARSLGAENVIVIAGSPNRLKLAEEIGADLTLNRRETSVEERRKAIMDITHGRGADFILEATGDSRALLEGSELLRRGGFYSVAGVAVPQDPVPFKVYEWLVLKNATFKGIWVSDTSHFVKTVSITSRNYQLLSKLITHRLPLKEANKALELMESREALKVILYPE 1vjg-a1-m1-cA_1vjg-a1-m2-cA Crystal structure of a gdsl-like lipase (alr1529) from nostoc sp. pcc 7120 at 2.01 A resolution Q8YWS4 Q8YWS4 2.01 X-RAY DIFFRACTION 52 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 200 200 1z8h-a1-m1-cB_1z8h-a1-m1-cA 1z8h-a2-m1-cC_1z8h-a2-m1-cD SKTQIRICFVGDSFVNGTGDPECLGWTGRVCVNANKKGYDVTYYNLGIRRDTSSDIAKRWLQEVSLRLHKEYNSLVVFSFGLNDTTLENGKPRVSIAETIKNTREILTQAKKLYPVLISPAPYIEQQDPGRRRRTIDLSQQLALVCQDLDVPYLDVFPLLEKPSVWLHEAKANDGVHPQAGGYTEFARIVENWDAWLNWF SKTQIRICFVGDSFVNGTGDPECLGWTGRVCVNANKKGYDVTYYNLGIRRDTSSDIAKRWLQEVSLRLHKEYNSLVVFSFGLNDTTLENGKPRVSIAETIKNTREILTQAKKLYPVLISPAPYIEQQDPGRRRRTIDLSQQLALVCQDLDVPYLDVFPLLEKPSVWLHEAKANDGVHPQAGGYTEFARIVENWDAWLNWF 1vjh-a1-m1-cA_1vjh-a1-m1-cB Crystal structure of gene product of At1g24000 from Arabidopsis thaliana P0C0B0 P0C0B0 2.1 X-RAY DIFFRACTION 31 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 118 118 STLKGALSVKFDVKCPADKFFSAFVEDTNRPFEKNGKTEIEAVDLVKKTTIQSGSEIQKYFKTLKGSIAVTPIGVGDGSHVVWTFHFEKVHKDIDDPHSIIDESVKYFKKLDEAILNF STLKGALSVKFDVKCPADKFFSAFVEDTNRPFEKNGKTEIEAVDLVKKTTIQSGSEIQKYFKTLKGSIAVTPIGVGDGSHVVWTFHFEKVHKDIDDPHSIIDESVKYFKKLDEAILNF 1vjo-a1-m1-cA_1vjo-a1-m2-cA Crystal structure of Alanine--glyoxylate aminotransferase (ALR1004) from Nostoc sp. at 1.70 A resolution Q8YY48 Q8YY48 1.7 X-RAY DIFFRACTION 271 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 370 370 ISINDNQRLQLEPLEVPSRLLLGPGPSNAHPSVLQANVSPVGHLDPAFLALDEIQSLLRYVWQTENPLTIAVSGTGTAAEATIANAVEPGDVVLIGVAGYFGNRLVDAGRYGADVRTISKPWGEVFSLEELRTALETHRPAILALVHAETSTGARQPLEGVGELCREFGTLLLVDTVTSLGGVPIFLDAWGVDLAYSCSQKGLGCSPGASPFTSSRAIEKLQRRRTKVANWYLDNLLGKYWGSERVYHHTAPINLYYALREALRLIAQEGLANCWQRHQKNVEYLWERLEDIGLSLHVEKEYRLPTLTTVCIPDGVDGKAVARRLLNEHNIEVGGGLGELAGKVWRVGLGFNSRKESVDQLIPALEQVLR ISINDNQRLQLEPLEVPSRLLLGPGPSNAHPSVLQANVSPVGHLDPAFLALDEIQSLLRYVWQTENPLTIAVSGTGTAAEATIANAVEPGDVVLIGVAGYFGNRLVDAGRYGADVRTISKPWGEVFSLEELRTALETHRPAILALVHAETSTGARQPLEGVGELCREFGTLLLVDTVTSLGGVPIFLDAWGVDLAYSCSQKGLGCSPGASPFTSSRAIEKLQRRRTKVANWYLDNLLGKYWGSERVYHHTAPINLYYALREALRLIAQEGLANCWQRHQKNVEYLWERLEDIGLSLHVEKEYRLPTLTTVCIPDGVDGKAVARRLLNEHNIEVGGGLGELAGKVWRVGLGFNSRKESVDQLIPALEQVLR 1vjq-a1-m1-cA_1vjq-a1-m1-cB Designed protein based on backbone conformation of procarboxypeptidase-A (1AYE) with sidechains chosen for maximal predicted stability. 2.098 X-RAY DIFFRACTION 51 1.0 71 71 2gjf-a1-m1-cA_2gjf-a1-m1-cB KTIFVIVPTNEEQVAFLEALAKQDELNFDWQNPPTEPGQPVVILIPSDVEWFLELKAKGIPFTVYVEEGGS KTIFVIVPTNEEQVAFLEALAKQDELNFDWQNPPTEPGQPVVILIPSDVEWFLELKAKGIPFTVYVEEGGS 1vk0-a1-m1-cC_1vk0-a1-m1-cD X-ray Structure of Gene Product from Arabidopsis Thaliana At5g06450 Q9FNG3 Q9FNG3 2.1 X-RAY DIFFRACTION 78 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 199 199 1vk0-a1-m1-cA_1vk0-a1-m1-cB 1vk0-a1-m1-cA_1vk0-a1-m1-cF 1vk0-a1-m1-cB_1vk0-a1-m1-cC 1vk0-a1-m1-cD_1vk0-a1-m1-cE 1vk0-a1-m1-cE_1vk0-a1-m1-cF 2q3s-a1-m1-cA_2q3s-a1-m1-cB 2q3s-a1-m1-cA_2q3s-a1-m1-cF 2q3s-a1-m1-cB_2q3s-a1-m1-cC 2q3s-a1-m1-cC_2q3s-a1-m1-cD 2q3s-a1-m1-cD_2q3s-a1-m1-cE 2q3s-a1-m1-cE_2q3s-a1-m1-cF SASFDGPKFKTDGSYVQTKTIDVGSSTDISPYLSLIREDSILNGNRAVIFDVYWDVGFTKTSGWSLSSVKLSTRNLCLFLRLPKPFHDNLKDLYRFFASKFVTFVGVQIEEDLDLLRENHGLVIRNAINVGKLAAEARGTLVLEFLGTRELAHRVLWSDLGQLDSIEAKWEKAGPEEQLEAAAIEGWLIVNVWDQLSDE SASFDGPKFKTDGSYVQTKTIDVGSSTDISPYLSLIREDSILNGNRAVIFDVYWDVGFTKTSGWSLSSVKLSTRNLCLFLRLPKPFHDNLKDLYRFFASKFVTFVGVQIEEDLDLLRENHGLVIRNAINVGKLAAEARGTLVLEFLGTRELAHRVLWSDLGQLDSIEAKWEKAGPEEQLEAAAIEGWLIVNVWDQLSDE 1vk8-a1-m1-cA_1vk8-a1-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE THIAMINE BIOSYNTHESIS/SALVAGE PROTEIN (TM0486) FROM THERMOTOGA MARITIMA AT 1.80 A RESOLUTION Q9WYV6 Q9WYV6 1.8 X-RAY DIFFRACTION 28 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 91 91 1vk8-a1-m1-cB_1vk8-a1-m1-cC PKVTVSIKVVPAVEDGRLHEVIDRAIEKISSWGKYEVGPSNTTVEGEFEEIDRVKELARYLEQFAKRFVLQLDIDYKAGGITIEEKVSKYR PKVTVSIKVVPAVEDGRLHEVIDRAIEKISSWGKYEVGPSNTTVEGEFEEIDRVKELARYLEQFAKRFVLQLDIDYKAGGITIEEKVSKYR 1vk8-a1-m1-cB_1vk8-a1-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE THIAMINE BIOSYNTHESIS/SALVAGE PROTEIN (TM0486) FROM THERMOTOGA MARITIMA AT 1.80 A RESOLUTION Q9WYV6 Q9WYV6 1.8 X-RAY DIFFRACTION 59 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 91 91 1vk8-a1-m1-cA_1vk8-a1-m1-cC PKVTVSIKVVPAVEDGRLHEVIDRAIEKISSWGKYEVGPSNTTVEGEFEEIDRVKELARYLEQFAKRFVLQLDIDYKAGGITIEEKVSKYR PKVTVSIKVVPAVEDGRLHEVIDRAIEKISSWGKYEVGPSNTTVEGEFEEIDRVKELARYLEQFAKRFVLQLDIDYKAGGITIEEKVSKYR 1vk8-a1-m1-cC_1vk8-a1-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE THIAMINE BIOSYNTHESIS/SALVAGE PROTEIN (TM0486) FROM THERMOTOGA MARITIMA AT 1.80 A RESOLUTION Q9WYV6 Q9WYV6 1.8 X-RAY DIFFRACTION 55 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 91 91 1vk8-a1-m1-cA_1vk8-a1-m1-cB PKVTVSIKVVPAVEDGRLHEVIDRAIEKISSWGKYEVGPSNTTVEGEFEEIDRVKELARYLEQFAKRFVLQLDIDYKAGGITIEEKVSKYR PKVTVSIKVVPAVEDGRLHEVIDRAIEKISSWGKYEVGPSNTTVEGEFEEIDRVKELARYLEQFAKRFVLQLDIDYKAGGITIEEKVSKYR 1vk9-a2-m1-cA_1vk9-a2-m4-cA CRYSTAL STRUCTURE OF A DUF1893 family protein (TM1506) FROM THERMOTOGA MARITIMA AT 2.70 A RESOLUTION Q9X1J4 Q9X1J4 2.7 X-RAY DIFFRACTION 22 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 142 142 1vk9-a2-m2-cA_1vk9-a2-m3-cA GSDKIHHHHHHVEKNLLRSALKIFEKKDLSLLAYSGRSIFESKDSGLKPVVELFKRFDNLEGSLVIDKVGKAAASFLLKKPDHIHAKVISKPALKLNEYGQSFSYDEKIPFVLGKDGKSCPFEKLVLEDDPEEIIRIVLSKF GSDKIHHHHHHVEKNLLRSALKIFEKKDLSLLAYSGRSIFESKDSGLKPVVELFKRFDNLEGSLVIDKVGKAAASFLLKKPDHIHAKVISKPALKLNEYGQSFSYDEKIPFVLGKDGKSCPFEKLVLEDDPEEIIRIVLSKF 1vk9-a2-m3-cA_1vk9-a2-m4-cA CRYSTAL STRUCTURE OF A DUF1893 family protein (TM1506) FROM THERMOTOGA MARITIMA AT 2.70 A RESOLUTION Q9X1J4 Q9X1J4 2.7 X-RAY DIFFRACTION 66 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 142 142 1vk9-a2-m1-cA_1vk9-a2-m2-cA GSDKIHHHHHHVEKNLLRSALKIFEKKDLSLLAYSGRSIFESKDSGLKPVVELFKRFDNLEGSLVIDKVGKAAASFLLKKPDHIHAKVISKPALKLNEYGQSFSYDEKIPFVLGKDGKSCPFEKLVLEDDPEEIIRIVLSKF GSDKIHHHHHHVEKNLLRSALKIFEKKDLSLLAYSGRSIFESKDSGLKPVVELFKRFDNLEGSLVIDKVGKAAASFLLKKPDHIHAKVISKPALKLNEYGQSFSYDEKIPFVLGKDGKSCPFEKLVLEDDPEEIIRIVLSKF 1vkc-a1-m1-cA_1vkc-a1-m1-cB Putative acetyl transferase from Pyrococcus furiosus Q8U4Q2 Q8U4Q2 1.89 X-RAY DIFFRACTION 40 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 149 149 EYTIVDGEEYIEEIKKLDREISYSFVRFPISYEEYEERHEELFESLLSQGEHKFFVALNERSELLGHVWICITLDTVDYVKIAYIYDIEVVKWARGLGIGSALLRKAEEWAKERGAKKIVLRVEIDNPAVKWYEERGYKARALIMEKPI EYTIVDGEEYIEEIKKLDREISYSFVRFPISYEEYEERHEELFESLLSQGEHKFFVALNERSELLGHVWICITLDTVDYVKIAYIYDIEVVKWARGLGIGSALLRKAEEWAKERGAKKIVLRVEIDNPAVKWYEERGYKARALIMEKPI 1vkc-a2-m1-cA_1vkc-a2-m2-cB Putative acetyl transferase from Pyrococcus furiosus Q8U4Q2 Q8U4Q2 1.89 X-RAY DIFFRACTION 171 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 149 149 EYTIVDGEEYIEEIKKLDREISYSFVRFPISYEEYEERHEELFESLLSQGEHKFFVALNERSELLGHVWICITLDTVDYVKIAYIYDIEVVKWARGLGIGSALLRKAEEWAKERGAKKIVLRVEIDNPAVKWYEERGYKARALIMEKPI EYTIVDGEEYIEEIKKLDREISYSFVRFPISYEEYEERHEELFESLLSQGEHKFFVALNERSELLGHVWICITLDTVDYVKIAYIYDIEVVKWARGLGIGSALLRKAEEWAKERGAKKIVLRVEIDNPAVKWYEERGYKARALIMEKPI 1vkd-a4-m3-cC_1vkd-a4-m3-cD Crystal structure of a predicted glycosidase (tm1225) from thermotoga maritima msb8 at 2.10 A resolution Q9X0V2 Q9X0V2 2.1 X-RAY DIFFRACTION 72 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 321 321 1vkd-a1-m1-cB_1vkd-a1-m1-cA 1vkd-a2-m1-cC_1vkd-a2-m1-cD 1vkd-a3-m1-cE_1vkd-a3-m1-cF 1vkd-a4-m1-cB_1vkd-a4-m1-cA 1vkd-a4-m2-cE_1vkd-a4-m2-cF KVFTEKIPNIPWEERPEGYTGPVWRYSKNPIIGRNPVPKGARVFNSAVVPYNGEFVGVFRIDHKNTRPFLHFGRSKDGINWEIEPEEIQWVDVNGEPFQPSYAYDPRVVKIEDTYYITFCTDDHGPTIGVGTKDFKTFVRLPNAYVPFNRNGVLFPRKINGKYVLNRPSDNGHTPFGDIFLSESPDIHWGNHRFVLGRSSYNWWENLKIGAGPYPIETSEGWLLIYHGVTLTCNGYVYSFGAALLDLDDPSKVLYRSRYYLLTPEEEYETVGFVPNVVFPCAALCDADTGRVAIYYGAADTHVALAFGYIDEIVDFVKRNS KVFTEKIPNIPWEERPEGYTGPVWRYSKNPIIGRNPVPKGARVFNSAVVPYNGEFVGVFRIDHKNTRPFLHFGRSKDGINWEIEPEEIQWVDVNGEPFQPSYAYDPRVVKIEDTYYITFCTDDHGPTIGVGTKDFKTFVRLPNAYVPFNRNGVLFPRKINGKYVLNRPSDNGHTPFGDIFLSESPDIHWGNHRFVLGRSSYNWWENLKIGAGPYPIETSEGWLLIYHGVTLTCNGYVYSFGAALLDLDDPSKVLYRSRYYLLTPEEEYETVGFVPNVVFPCAALCDADTGRVAIYYGAADTHVALAFGYIDEIVDFVKRNS 1vkd-a6-m2-cE_1vkd-a6-m3-cC Crystal structure of a predicted glycosidase (tm1225) from thermotoga maritima msb8 at 2.10 A resolution Q9X0V2 Q9X0V2 2.1 X-RAY DIFFRACTION 53 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 321 321 1vkd-a4-m1-cB_1vkd-a4-m2-cF 1vkd-a4-m1-cB_1vkd-a4-m3-cD 1vkd-a4-m2-cE_1vkd-a4-m1-cA 1vkd-a4-m2-cE_1vkd-a4-m3-cC 1vkd-a4-m2-cF_1vkd-a4-m3-cD 1vkd-a4-m3-cC_1vkd-a4-m1-cA 1vkd-a5-m1-cD_1vkd-a5-m4-cF 1vkd-a5-m1-cD_1vkd-a5-m5-cB 1vkd-a5-m4-cF_1vkd-a5-m5-cB 1vkd-a6-m2-cE_1vkd-a6-m1-cA 1vkd-a6-m3-cC_1vkd-a6-m1-cA KVFTEKIPNIPWEERPEGYTGPVWRYSKNPIIGRNPVPKGARVFNSAVVPYNGEFVGVFRIDHKNTRPFLHFGRSKDGINWEIEPEEIQWVDVNGEPFQPSYAYDPRVVKIEDTYYITFCTDDHGPTIGVGTKDFKTFVRLPNAYVPFNRNGVLFPRKINGKYVLNRPSDNGHTPFGDIFLSESPDIHWGNHRFVLGRSSYNWWENLKIGAGPYPIETSEGWLLIYHGVTLTCNGYVYSFGAALLDLDDPSKVLYRSRYYLLTPEEEYETVGFVPNVVFPCAALCDADTGRVAIYYGAADTHVALAFGYIDEIVDFVKRNS KVFTEKIPNIPWEERPEGYTGPVWRYSKNPIIGRNPVPKGARVFNSAVVPYNGEFVGVFRIDHKNTRPFLHFGRSKDGINWEIEPEEIQWVDVNGEPFQPSYAYDPRVVKIEDTYYITFCTDDHGPTIGVGTKDFKTFVRLPNAYVPFNRNGVLFPRKINGKYVLNRPSDNGHTPFGDIFLSESPDIHWGNHRFVLGRSSYNWWENLKIGAGPYPIETSEGWLLIYHGVTLTCNGYVYSFGAALLDLDDPSKVLYRSRYYLLTPEEEYETVGFVPNVVFPCAALCDADTGRVAIYYGAADTHVALAFGYIDEIVDFVKRNS 1vke-a1-m1-cB_1vke-a1-m1-cA Crystal structure of carboxymuconolactone decarboxylase family protein possibly involved in antioxidative response (TM1620) from Thermotoga maritima at 1.56 A resolution Q9X1V5 Q9X1V5 1.56 X-RAY DIFFRACTION 31 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 101 117 1p8c-a1-m1-cA_1p8c-a1-m1-cE 1p8c-a1-m1-cB_1p8c-a1-m1-cE 1p8c-a1-m1-cD_1p8c-a1-m1-cC 1p8c-a1-m1-cF_1p8c-a1-m1-cC 1p8c-a1-m1-cF_1p8c-a1-m1-cD 1vke-a1-m1-cA_1vke-a1-m1-cE 1vke-a1-m1-cB_1vke-a1-m1-cE 1vke-a1-m1-cC_1vke-a1-m1-cD 1vke-a1-m1-cF_1vke-a1-m1-cC 1vke-a1-m1-cF_1vke-a1-m1-cD GTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNGETISL KKFVEARRELNEKVSRGTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNGETISL 1vke-a1-m1-cF_1vke-a1-m1-cB Crystal structure of carboxymuconolactone decarboxylase family protein possibly involved in antioxidative response (TM1620) from Thermotoga maritima at 1.56 A resolution Q9X1V5 Q9X1V5 1.56 X-RAY DIFFRACTION 22 0.99 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 97 101 1p8c-a1-m1-cA_1p8c-a1-m1-cC 1p8c-a1-m1-cB_1p8c-a1-m1-cF 1p8c-a1-m1-cD_1p8c-a1-m1-cE 1vke-a1-m1-cC_1vke-a1-m1-cA 1vke-a1-m1-cD_1vke-a1-m1-cE RGTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNG GTLNTKRFFNLDSAVYRPGKLDVKTKELMGLVASTVLRCDDCIRYHLVRCVQEGASDEEIFEALDIALVVGGSIVIPHLRRAVGFLEELREMEKNGETISL 1vkh-a1-m1-cB_1vkh-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE SERINE HYDROLASE (YDR428C) FROM SACCHAROMYCES CEREVISIAE AT 1.85 A RESOLUTION Q04066 Q04066 1.85 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 245 253 PDITLFNKTLTFQEISQNTREAVIYIHGGAWNDPENTPNDFNQLANTIKSDTESTVCQYSIEYRLSPEITNPRNLYDAVSNITRLVKEKGLTNINVGHSVGATFIWQILAALKDPQEKSEAQLQLGLLQIVKRVFLLDGIYSLKELLIEYPEYDCFTRLAFPDGIQYEEEPSRVPYVKKALSRFSIDHLVHSYSDELLTLRQTNCLISCLQDYQLSFKLYLDDLGLHNDVYKNGKVAKYIFDNIC HHTVRAISPDITLFNKTLTFQEISQNTREAVIYIHGGAWNDPENTPNDFNQLANTIKSDTESTVCQYSIEYRLSPEITNPRNLYDAVSNITRLVKEKGLTNINVGHSVGATFIWQILAALKDPQEKSEAQLQLGLLQIVKRVFLLDGIYSLKELLIEYPEYDCFTRLAFPDGIQYEEEPSRVPYVKKALSRFSIDHLVHSYSDELLTLRQTNCLISCLQDYQLSFKLYLDDLGLHNDVYKNGKVAKYIFDNIC 1vkh-a2-m2-cB_1vkh-a2-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE SERINE HYDROLASE (YDR428C) FROM SACCHAROMYCES CEREVISIAE AT 1.85 A RESOLUTION Q04066 Q04066 1.85 X-RAY DIFFRACTION 35 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 245 253 PDITLFNKTLTFQEISQNTREAVIYIHGGAWNDPENTPNDFNQLANTIKSDTESTVCQYSIEYRLSPEITNPRNLYDAVSNITRLVKEKGLTNINVGHSVGATFIWQILAALKDPQEKSEAQLQLGLLQIVKRVFLLDGIYSLKELLIEYPEYDCFTRLAFPDGIQYEEEPSRVPYVKKALSRFSIDHLVHSYSDELLTLRQTNCLISCLQDYQLSFKLYLDDLGLHNDVYKNGKVAKYIFDNIC HHTVRAISPDITLFNKTLTFQEISQNTREAVIYIHGGAWNDPENTPNDFNQLANTIKSDTESTVCQYSIEYRLSPEITNPRNLYDAVSNITRLVKEKGLTNINVGHSVGATFIWQILAALKDPQEKSEAQLQLGLLQIVKRVFLLDGIYSLKELLIEYPEYDCFTRLAFPDGIQYEEEPSRVPYVKKALSRFSIDHLVHSYSDELLTLRQTNCLISCLQDYQLSFKLYLDDLGLHNDVYKNGKVAKYIFDNIC 1vki-a1-m1-cA_1vki-a1-m1-cB Crystal structure of a putative oligo-nucleotide binding protein (atu3699, agr_l_2275) from agrobacterium tumefaciens str. c58 at 1.60 A resolution A9CFJ8 A9CFJ8 1.6 X-RAY DIFFRACTION 68 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 165 166 SRKTATELFEFLDGLGISHTTKQHEPVFTVAESQSLRDLIPGGHTKNLFVKDKKDQYFVLTVEENAVVDLKSVHKTIGAASRVSFGRPEKMLEYLGVVPGSVTVFGAINDTARQVTFVLDSDLLENELVNGHPLSNDQTTTIASKDLIRFLEATGHAPLVLKVSE NSRKTATELFEFLDGLGISHTTKQHEPVFTVAESQSLRDLIPGGHTKNLFVKDKKDQYFVLTVEENAVVDLKSVHKTIGAASRVSFGRPEKMLEYLGVVPGSVTVFGAINDTARQVTFVLDSDLLENELVNGHPLSNDQTTTIASKDLIRFLEATGHAPLVLKVSE 1vkj-a1-m1-cA_1vkj-a1-m1-cB Crystal structure of heparan sulfate 3-O-sulfotransferase isoform 1 in the presence of PAP O35310 O35310 2.5 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 258 258 STQQLPQTIIIGVRKGGTRALLEMLSLHPDVAAAENEVHFFDWEEHYSQGLGWYLTQMPFSSPHQLTVEKTPAYFTSPKVPERIHSMNPTIRLLLILRDPSERVLSDYTQVLYNHLQKHKPYPPIEDLLMRDGRLNLDYKALNRSLYHAHMLNWLRFFPLGHIHIVDGDRLIRDPFPEIQKVERFLKLSPQINASNFYFNKTKGFYCLRDSGKDRCLHESKGRAHPQVDPKLLDKLHEYFHEPNKKFFKLVGRTFDWH STQQLPQTIIIGVRKGGTRALLEMLSLHPDVAAAENEVHFFDWEEHYSQGLGWYLTQMPFSSPHQLTVEKTPAYFTSPKVPERIHSMNPTIRLLLILRDPSERVLSDYTQVLYNHLQKHKPYPPIEDLLMRDGRLNLDYKALNRSLYHAHMLNWLRFFPLGHIHIVDGDRLIRDPFPEIQKVERFLKLSPQINASNFYFNKTKGFYCLRDSGKDRCLHESKGRAHPQVDPKLLDKLHEYFHEPNKKFFKLVGRTFDWH 1vkj-a1-m1-cC_1vkj-a1-m1-cB Crystal structure of heparan sulfate 3-O-sulfotransferase isoform 1 in the presence of PAP O35310 O35310 2.5 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 247 258 STQQLPQTIIIGVRKGGTRALLEMLSLHPDVAAAENEVHFFDWEEHYSQGLGWYLTQMPFSSPHQLTVEKTPAYFTSPKVPERIHSMNPTIRLLLILRDPSERVLSDYTQVLYNHLQKHKPYPPIEDLLMRDGRLNLDYKALNRSLYHAHMLNWLRFFPLGHIHIVDGDRLIRDPFPEIQKVERFLKLSPQINASNFYFNKTKGFYCLRDSGKDRCVDPKLLDKLHEYFHEPNKKFFKLVGRTFDWH STQQLPQTIIIGVRKGGTRALLEMLSLHPDVAAAENEVHFFDWEEHYSQGLGWYLTQMPFSSPHQLTVEKTPAYFTSPKVPERIHSMNPTIRLLLILRDPSERVLSDYTQVLYNHLQKHKPYPPIEDLLMRDGRLNLDYKALNRSLYHAHMLNWLRFFPLGHIHIVDGDRLIRDPFPEIQKVERFLKLSPQINASNFYFNKTKGFYCLRDSGKDRCLHESKGRAHPQVDPKLLDKLHEYFHEPNKKFFKLVGRTFDWH 1vkm-a3-m1-cB_1vkm-a3-m1-cF Crystal structure of an indigoidine synthase a (idga)-like protein (tm1464) from thermotoga maritima msb8 at 1.90 A resolution Q9X1H5 Q9X1H5 1.9 X-RAY DIFFRACTION 23 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 282 282 1vkm-a3-m1-cA_1vkm-a3-m1-cE 1vkm-a3-m1-cC_1vkm-a3-m1-cD KIHHHHHHVIIESRIEKGKPVVGETTVFVHGLPRKEAIELFRRAKEISREKGFQLAVIGILKGKIVAGSEEELEAREGADKVGTREIPIVVAEGKNAATTVSATIFLSRRIGIEVVVTGGTGGVHPGRVDVSQDLTESSSRAVLVSSGIKSILDVEATFELETLEIPLVGFRTNEFPLFFSRKSGRRVPRIENVEEVLKIYESKEELEKTLVLNPVPEEYEIPHDEIERLLEKIELEVEGKEVTPFLLKKLVETNGRTLKANLALLEENVKLAGEIAVKLKR KIHHHHHHVIIESRIEKGKPVVGETTVFVHGLPRKEAIELFRRAKEISREKGFQLAVIGILKGKIVAGSEEELEAREGADKVGTREIPIVVAEGKNAATTVSATIFLSRRIGIEVVVTGGTGGVHPGRVDVSQDLTESSSRAVLVSSGIKSILDVEATFELETLEIPLVGFRTNEFPLFFSRKSGRRVPRIENVEEVLKIYESKEELEKTLVLNPVPEEYEIPHDEIERLLEKIELEVEGKEVTPFLLKKLVETNGRTLKANLALLEENVKLAGEIAVKLKR 1vkm-a3-m1-cC_1vkm-a3-m1-cE Crystal structure of an indigoidine synthase a (idga)-like protein (tm1464) from thermotoga maritima msb8 at 1.90 A resolution Q9X1H5 Q9X1H5 1.9 X-RAY DIFFRACTION 11 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 282 282 1vkm-a3-m1-cB_1vkm-a3-m1-cD KIHHHHHHVIIESRIEKGKPVVGETTVFVHGLPRKEAIELFRRAKEISREKGFQLAVIGILKGKIVAGSEEELEAREGADKVGTREIPIVVAEGKNAATTVSATIFLSRRIGIEVVVTGGTGGVHPGRVDVSQDLTESSSRAVLVSSGIKSILDVEATFELETLEIPLVGFRTNEFPLFFSRKSGRRVPRIENVEEVLKIYESKEELEKTLVLNPVPEEYEIPHDEIERLLEKIELEVEGKEVTPFLLKKLVETNGRTLKANLALLEENVKLAGEIAVKLKR KIHHHHHHVIIESRIEKGKPVVGETTVFVHGLPRKEAIELFRRAKEISREKGFQLAVIGILKGKIVAGSEEELEAREGADKVGTREIPIVVAEGKNAATTVSATIFLSRRIGIEVVVTGGTGGVHPGRVDVSQDLTESSSRAVLVSSGIKSILDVEATFELETLEIPLVGFRTNEFPLFFSRKSGRRVPRIENVEEVLKIYESKEELEKTLVLNPVPEEYEIPHDEIERLLEKIELEVEGKEVTPFLLKKLVETNGRTLKANLALLEENVKLAGEIAVKLKR 1vkm-a3-m1-cE_1vkm-a3-m1-cF Crystal structure of an indigoidine synthase a (idga)-like protein (tm1464) from thermotoga maritima msb8 at 1.90 A resolution Q9X1H5 Q9X1H5 1.9 X-RAY DIFFRACTION 62 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 282 282 1vkm-a1-m1-cA_1vkm-a1-m1-cB 1vkm-a1-m1-cA_1vkm-a1-m1-cC 1vkm-a1-m1-cB_1vkm-a1-m1-cC 1vkm-a2-m1-cD_1vkm-a2-m1-cE 1vkm-a2-m1-cD_1vkm-a2-m1-cF 1vkm-a2-m1-cE_1vkm-a2-m1-cF 1vkm-a3-m1-cA_1vkm-a3-m1-cB 1vkm-a3-m1-cA_1vkm-a3-m1-cC 1vkm-a3-m1-cB_1vkm-a3-m1-cC 1vkm-a3-m1-cD_1vkm-a3-m1-cE 1vkm-a3-m1-cD_1vkm-a3-m1-cF KIHHHHHHVIIESRIEKGKPVVGETTVFVHGLPRKEAIELFRRAKEISREKGFQLAVIGILKGKIVAGSEEELEAREGADKVGTREIPIVVAEGKNAATTVSATIFLSRRIGIEVVVTGGTGGVHPGRVDVSQDLTESSSRAVLVSSGIKSILDVEATFELETLEIPLVGFRTNEFPLFFSRKSGRRVPRIENVEEVLKIYESKEELEKTLVLNPVPEEYEIPHDEIERLLEKIELEVEGKEVTPFLLKKLVETNGRTLKANLALLEENVKLAGEIAVKLKR KIHHHHHHVIIESRIEKGKPVVGETTVFVHGLPRKEAIELFRRAKEISREKGFQLAVIGILKGKIVAGSEEELEAREGADKVGTREIPIVVAEGKNAATTVSATIFLSRRIGIEVVVTGGTGGVHPGRVDVSQDLTESSSRAVLVSSGIKSILDVEATFELETLEIPLVGFRTNEFPLFFSRKSGRRVPRIENVEEVLKIYESKEELEKTLVLNPVPEEYEIPHDEIERLLEKIELEVEGKEVTPFLLKKLVETNGRTLKANLALLEENVKLAGEIAVKLKR 1vkn-a1-m1-cD_1vkn-a1-m1-cA Crystal structure of N-acetyl-gamma-glutamyl-phosphate reductase (TM1782) from Thermotoga maritima at 1.80 A resolution Q9X2A2 Q9X2A2 1.8 X-RAY DIFFRACTION 111 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 326 331 1vkn-a1-m1-cC_1vkn-a1-m1-cB IRAGIIGATGYTGLELVRLLKNHPEAKITYLSSRTYAGKKLEEIFPSTLENSILSEFDPEKVSKNCDVLFTALPAGASYDLVRELKGVKIIDLGADFRFDDPGVYREWYGKELSGYENIKRVYGLPELHREEIKNAQVVGNPGCYPTSVILALAPALKHNLVDPETILVDAKSGVSGEKVDYLFSEVNESLRPYNVAKHRHVPEEQELGKISGKKVNVVFTPHLVPTRGILSTIYVKTDKSLEEIHEAYLEFYKNEPFVHVLPGIYPSTKWCYGSNHVFIGQEERTNTLILSAIDNLVKGASGQAVQNNIFGLDETKGLEFTPIYP HIRAGIIGATGYTGLELVRLLKNHPEAKITYLSSRTYAGKKLEEIFPSTLENSILSEFDPEKVSKNCDVLFTALPAGASYDLVRELKGVKIIDLGADFRFDDPGVYREWYGKELSGYENIKRVYGLPELHREEIKNAQVVGNPGCYPTSVILALAPALKHNLVDPETILVDAKSGVSGAGRKEKVDYLFSEVNESLRPYNVAKHRHVPEEQELGKISGKKVNVVFTPHLVPTRGILSTIYVKTDKSLEEIHEAYLEFYKNEPFVHVLPGIYPSTKWCYGSNHVFIGQEERTNTLILSAIDNLVKGASGQAVQNNIFGLDETKGLEFTPIYP 1vkn-a1-m1-cD_1vkn-a1-m1-cB Crystal structure of N-acetyl-gamma-glutamyl-phosphate reductase (TM1782) from Thermotoga maritima at 1.80 A resolution Q9X2A2 Q9X2A2 1.8 X-RAY DIFFRACTION 90 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 326 331 1vkn-a1-m1-cC_1vkn-a1-m1-cA IRAGIIGATGYTGLELVRLLKNHPEAKITYLSSRTYAGKKLEEIFPSTLENSILSEFDPEKVSKNCDVLFTALPAGASYDLVRELKGVKIIDLGADFRFDDPGVYREWYGKELSGYENIKRVYGLPELHREEIKNAQVVGNPGCYPTSVILALAPALKHNLVDPETILVDAKSGVSGEKVDYLFSEVNESLRPYNVAKHRHVPEEQELGKISGKKVNVVFTPHLVPTRGILSTIYVKTDKSLEEIHEAYLEFYKNEPFVHVLPGIYPSTKWCYGSNHVFIGQEERTNTLILSAIDNLVKGASGQAVQNNIFGLDETKGLEFTPIYP HIRAGIIGATGYTGLELVRLLKNHPEAKITYLSSRTYAGKKLEEIFPSTLENSILSEFDPEKVSKNCDVLFTALPAGASYDLVRELKGVKIIDLGADFRFDDPGVYREWYGKELSGYENIKRVYGLPELHREEIKNAQVVGNPGCYPTSVILALAPALKHNLVDPETILVDAKSGVSGAGRKEKVDYLFSEVNESLRPYNVAKHRHVPEEQELGKISGKKVNVVFTPHLVPTRGILSTIYVKTDKSLEEIHEAYLEFYKNEPFVHVLPGIYPSTKWCYGSNHVFIGQEERTNTLILSAIDNLVKGASGQAVQNNIFGLDETKGLEFTPIYP 1vkn-a1-m1-cD_1vkn-a1-m1-cC Crystal structure of N-acetyl-gamma-glutamyl-phosphate reductase (TM1782) from Thermotoga maritima at 1.80 A resolution Q9X2A2 Q9X2A2 1.8 X-RAY DIFFRACTION 41 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 326 327 1vkn-a1-m1-cA_1vkn-a1-m1-cB IRAGIIGATGYTGLELVRLLKNHPEAKITYLSSRTYAGKKLEEIFPSTLENSILSEFDPEKVSKNCDVLFTALPAGASYDLVRELKGVKIIDLGADFRFDDPGVYREWYGKELSGYENIKRVYGLPELHREEIKNAQVVGNPGCYPTSVILALAPALKHNLVDPETILVDAKSGVSGEKVDYLFSEVNESLRPYNVAKHRHVPEEQELGKISGKKVNVVFTPHLVPTRGILSTIYVKTDKSLEEIHEAYLEFYKNEPFVHVLPGIYPSTKWCYGSNHVFIGQEERTNTLILSAIDNLVKGASGQAVQNNIFGLDETKGLEFTPIYP IRAGIIGATGYTGLELVRLLKNHPEAKITYLSSRTYAGKKLEEIFPSTLENSILSEFDPEKVSKNCDVLFTALPAGASYDLVRELKGVKIIDLGADFRFDDPGVYREWYGKELSGYENIKRVYGLPELHREEIKNAQVVGNPGCYPTSVILALAPALKHNLVDPETILVDAKSGVSGAEKVDYLFSEVNESLRPYNVAKHRHVPEEQELGKISGKKVNVVFTPHLVPTRGILSTIYVKTDKSLEEIHEAYLEFYKNEPFVHVLPGIYPSTKWCYGSNHVFIGQEERTNTLILSAIDNLVKGASGQAVQNNIFGLDETKGLEFTPIYP 1vko-a1-m1-cA_1vko-a1-m4-cA Crystal structure of inositol-3-phosphate synthase (ce21227) from Caenorhabditis elegans at 2.30 A resolution 2.3 X-RAY DIFFRACTION 24 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 511 511 1vko-a1-m2-cA_1vko-a1-m3-cA KRLIVESPNVKLEDGVLESRFTYRKNHFEHRADGLHVTPKEHDYSFKTVLKPRKTGLLLVGLGGNNGSTAVGSIFANQYAMTWRTKEGHSQANYFGSVTQTATVHLGYDSATQNQIFVPFKDIVPILSPNDLIISGWDISDSNLYEAMGRAKVFEPELQEKLRPFMEPIVPLPSIYYPDFIASNQGDRANNVIPGDNKLEHLEHIRADIRKFKQEHELECVIVLWTANTERYTDVRQGLNATADEIMESIRVNEDEVSPSNIFAVASILEGAHYINGSPQNTLVPGLIELAERHKVFVGGDDFKSGQTKFKSAFVDFLVSSGMKPESIVSYNHLGNNDGKNLSEARQFRSKEISKSSVVDDMVKSNQILFPDAKNPDYCVVIKYVPYVADSKRAMDEYICSIFMGGKQTFVVHNTCEDSLLASPLIYDLAILTELASRVSYKVDDEYKPFHSVLSILSLLLKAPVVPPGTPISNAFMRQFSTLTKLVTALAGFPSDTDMQIEFFTQLPAAK KRLIVESPNVKLEDGVLESRFTYRKNHFEHRADGLHVTPKEHDYSFKTVLKPRKTGLLLVGLGGNNGSTAVGSIFANQYAMTWRTKEGHSQANYFGSVTQTATVHLGYDSATQNQIFVPFKDIVPILSPNDLIISGWDISDSNLYEAMGRAKVFEPELQEKLRPFMEPIVPLPSIYYPDFIASNQGDRANNVIPGDNKLEHLEHIRADIRKFKQEHELECVIVLWTANTERYTDVRQGLNATADEIMESIRVNEDEVSPSNIFAVASILEGAHYINGSPQNTLVPGLIELAERHKVFVGGDDFKSGQTKFKSAFVDFLVSSGMKPESIVSYNHLGNNDGKNLSEARQFRSKEISKSSVVDDMVKSNQILFPDAKNPDYCVVIKYVPYVADSKRAMDEYICSIFMGGKQTFVVHNTCEDSLLASPLIYDLAILTELASRVSYKVDDEYKPFHSVLSILSLLLKAPVVPPGTPISNAFMRQFSTLTKLVTALAGFPSDTDMQIEFFTQLPAAK 1vko-a1-m2-cA_1vko-a1-m4-cA Crystal structure of inositol-3-phosphate synthase (ce21227) from Caenorhabditis elegans at 2.30 A resolution 2.3 X-RAY DIFFRACTION 426 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 511 511 1vko-a1-m1-cA_1vko-a1-m3-cA KRLIVESPNVKLEDGVLESRFTYRKNHFEHRADGLHVTPKEHDYSFKTVLKPRKTGLLLVGLGGNNGSTAVGSIFANQYAMTWRTKEGHSQANYFGSVTQTATVHLGYDSATQNQIFVPFKDIVPILSPNDLIISGWDISDSNLYEAMGRAKVFEPELQEKLRPFMEPIVPLPSIYYPDFIASNQGDRANNVIPGDNKLEHLEHIRADIRKFKQEHELECVIVLWTANTERYTDVRQGLNATADEIMESIRVNEDEVSPSNIFAVASILEGAHYINGSPQNTLVPGLIELAERHKVFVGGDDFKSGQTKFKSAFVDFLVSSGMKPESIVSYNHLGNNDGKNLSEARQFRSKEISKSSVVDDMVKSNQILFPDAKNPDYCVVIKYVPYVADSKRAMDEYICSIFMGGKQTFVVHNTCEDSLLASPLIYDLAILTELASRVSYKVDDEYKPFHSVLSILSLLLKAPVVPPGTPISNAFMRQFSTLTKLVTALAGFPSDTDMQIEFFTQLPAAK KRLIVESPNVKLEDGVLESRFTYRKNHFEHRADGLHVTPKEHDYSFKTVLKPRKTGLLLVGLGGNNGSTAVGSIFANQYAMTWRTKEGHSQANYFGSVTQTATVHLGYDSATQNQIFVPFKDIVPILSPNDLIISGWDISDSNLYEAMGRAKVFEPELQEKLRPFMEPIVPLPSIYYPDFIASNQGDRANNVIPGDNKLEHLEHIRADIRKFKQEHELECVIVLWTANTERYTDVRQGLNATADEIMESIRVNEDEVSPSNIFAVASILEGAHYINGSPQNTLVPGLIELAERHKVFVGGDDFKSGQTKFKSAFVDFLVSSGMKPESIVSYNHLGNNDGKNLSEARQFRSKEISKSSVVDDMVKSNQILFPDAKNPDYCVVIKYVPYVADSKRAMDEYICSIFMGGKQTFVVHNTCEDSLLASPLIYDLAILTELASRVSYKVDDEYKPFHSVLSILSLLLKAPVVPPGTPISNAFMRQFSTLTKLVTALAGFPSDTDMQIEFFTQLPAAK 1vko-a1-m3-cA_1vko-a1-m4-cA Crystal structure of inositol-3-phosphate synthase (ce21227) from Caenorhabditis elegans at 2.30 A resolution 2.3 X-RAY DIFFRACTION 55 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 511 511 1vko-a1-m1-cA_1vko-a1-m2-cA KRLIVESPNVKLEDGVLESRFTYRKNHFEHRADGLHVTPKEHDYSFKTVLKPRKTGLLLVGLGGNNGSTAVGSIFANQYAMTWRTKEGHSQANYFGSVTQTATVHLGYDSATQNQIFVPFKDIVPILSPNDLIISGWDISDSNLYEAMGRAKVFEPELQEKLRPFMEPIVPLPSIYYPDFIASNQGDRANNVIPGDNKLEHLEHIRADIRKFKQEHELECVIVLWTANTERYTDVRQGLNATADEIMESIRVNEDEVSPSNIFAVASILEGAHYINGSPQNTLVPGLIELAERHKVFVGGDDFKSGQTKFKSAFVDFLVSSGMKPESIVSYNHLGNNDGKNLSEARQFRSKEISKSSVVDDMVKSNQILFPDAKNPDYCVVIKYVPYVADSKRAMDEYICSIFMGGKQTFVVHNTCEDSLLASPLIYDLAILTELASRVSYKVDDEYKPFHSVLSILSLLLKAPVVPPGTPISNAFMRQFSTLTKLVTALAGFPSDTDMQIEFFTQLPAAK KRLIVESPNVKLEDGVLESRFTYRKNHFEHRADGLHVTPKEHDYSFKTVLKPRKTGLLLVGLGGNNGSTAVGSIFANQYAMTWRTKEGHSQANYFGSVTQTATVHLGYDSATQNQIFVPFKDIVPILSPNDLIISGWDISDSNLYEAMGRAKVFEPELQEKLRPFMEPIVPLPSIYYPDFIASNQGDRANNVIPGDNKLEHLEHIRADIRKFKQEHELECVIVLWTANTERYTDVRQGLNATADEIMESIRVNEDEVSPSNIFAVASILEGAHYINGSPQNTLVPGLIELAERHKVFVGGDDFKSGQTKFKSAFVDFLVSSGMKPESIVSYNHLGNNDGKNLSEARQFRSKEISKSSVVDDMVKSNQILFPDAKNPDYCVVIKYVPYVADSKRAMDEYICSIFMGGKQTFVVHNTCEDSLLASPLIYDLAILTELASRVSYKVDDEYKPFHSVLSILSLLLKAPVVPPGTPISNAFMRQFSTLTKLVTALAGFPSDTDMQIEFFTQLPAAK 1vkp-a1-m1-cB_1vkp-a1-m1-cA X-RAY STRUCTURE OF GENE PRODUCT FROM ARABIDOPSIS THALIANA AT5G08170, AGMATINE IMINOHYDROLASE Q8GWW7 Q8GWW7 1.53 X-RAY DIFFRACTION 36 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 356 358 SPAEHGYYPAEWDSHAQTWIGWPERQDNWRHNALPAQRVFAGVAKAISKFEPVTVCASPAQWENARKQLPEDIRVVESNDSWFRDSGPTFIVRKRNRNIAGIDWNFNAWGGANDGCYNDWSHDLLVSRKILALERIPRFQHSILEGGSIHVDGEGTCLVTEECLLNKNRNPHSKEQIEEELKKYLGVQSFIWLPRGLYGDEDTNGHIDNCCFARPGVVLLSWTDDETDPQYERSVEALSVLSNSIDARGRKIQVIKLYIPEPLYTEEESSGITQDGEAIPRLAGTRLAASYVNFYIANGGIIAPQFGDPIRDKEAIRVLSDTFPHHSVVGIENAREIVLAGGNIHCITQQQPAEPT RESPAEHGYYPAEWDSHAQTWIGWPERQDNWRHNALPAQRVFAGVAKAISKFEPVTVCASPAQWENARKQLPEDIRVVESNDSWFRDSGPTFIVRKRNRNIAGIDWNFNAWGGANDGCYNDWSHDLLVSRKILALERIPRFQHSILEGGSIHVDGEGTCLVTEECLLNKNRNPHSKEQIEEELKKYLGVQSFIWLPRGLYGDEDTNGHIDNCCFARPGVVLLSWTDDETDPQYERSVEALSVLSNSIDARGRKIQVIKLYIPEPLYTEEESSGITQDGEAIPRLAGTRLAASYVNFYIANGGIIAPQFGDPIRDKEAIRVLSDTFPHHSVVGIENAREIVLAGGNIHCITQQQPAEPT 1vky-a1-m1-cA_1vky-a1-m1-cB Crystal structure of S-adenosylmethionine tRNA ribosyltransferase (TM0574) from Thermotoga maritima at 2.00 A resolution Q9WZ44 Q9WZ44 2 X-RAY DIFFRACTION 23 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 280 283 SEFDYELPPELIAQEPVEPRDASRLMVLHRKTQRIEHRIFREIIEYLEPGDLLVLNVSKVIPARLYARKASIEILLIERLEEGIWKCLVRPGQKVKKGTELVIDEDLSAVCLGRGEDGTRILKFQPQDDRLIFEKGTAGLHFTPELIEKLKKKGVQFAEVVLHVHEEFYQVPKETVRKLRETRERGNRIVAVGTTTVRTLETIARLPEQEEYVGKTDLFIYPPFEFKLVDALVTNFHLPRSTLLMLVAAFAGKDFVMEAYREAVKRRYRFFSFGDAMLIL SEFDYELPPELIAQEPVEPRDASRLMVLHRKTQRIEHRIFREIIEYLEPGDLLVLNVSKVIPARLYARKGASIEILLIERLEEGIWKCLVRPGQKVKKGTELVIDEDLSAVCLGRGEDGTRILKFQPQDDRLIFEKGTAGLHFTPELIEKLKKKGVQFAEVVLHVGIHEEFYQVPKETVRKLRETRERGNRIVAVGTTTVRTLETIARLPEQEEYVGKTDLFIYPPFEFKLVDALVTNFHLPRSTLLMLVAAFAGKDFVMEAYREAVKRRYRFFSFGDAMLIL 1vl0-a1-m1-cB_1vl0-a1-m1-cC CRYSTAL STRUCTURE OF A DTDP-4-DEHYDRORHAMNOSE REDUCTASE, RFBD ORTHOLOG (CA_C2315) FROM CLOSTRIDIUM ACETOBUTYLICUM ATCC 824 AT 2.05 A RESOLUTION Q97GQ1 Q97GQ1 2.05 X-RAY DIFFRACTION 39 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 276 277 1vl0-a1-m1-cA_1vl0-a1-m1-cC 1vl0-a1-m1-cB_1vl0-a1-m1-cA KILITGANGQLGREIQKQLKGKNVEVIPTDVQDLDITNVLAVNKFFNEKKPNVVINCAAHTAVDKCEEQYDLAYKINAIGPKNLAAAAYSVGAEIVQISTDYVFDGEAKEPITEFDEVNPQSAYGKTKLEGENFVKALNPKYYIVRTAWLYGDGNNFVKTINLGKTHDELKVVHDQVGTPTSTVDLARVVLKVIDEKNYGTFHCTCKGICSWYDFAVEIFRLTGIDVKVTPCTTEEFPRPAKRPKYSVLRNYLELTTGDITREWKESLKEYIDLLQ HKILITGANGQLGREIQKQLKGKNVEVIPTDVQDLDITNVLAVNKFFNEKKPNVVINCAAHTAVDKCEEQYDLAYKINAIGPKNLAAAAYSVGAEIVQISTDYVFDGEAKEPITEFDEVNPQSAYGKTKLEGENFVKALNPKYYIVRTAWLYGDGNNFVKTINLGKTHDELKVVHDQVGTPTSTVDLARVVLKVIDEKNYGTFHCTCKGICSWYDFAVEIFRLTGIDVKVTPCTTEEFPRPAKRPKYSVLRNYLELTTGDITREWKESLKEYIDLLQ 1vl2-a1-m1-cD_1vl2-a1-m1-cA Crystal structure of Argininosuccinate synthase (TM1780) from Thermotoga maritima at 1.65 A resolution Q9X2A1 Q9X2A1 1.65 X-RAY DIFFRACTION 70 0.995 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 389 398 1vl2-a1-m1-cC_1vl2-a1-m1-cB KEKVVLAYSGGLDTSVILKWLCEKGFDVIAYVANVGQKDDFVAIKEKALKTGASKVYVEDLRREFVTDYIFTALLGNAMYEGRYLLGTAIARPLIAKRQVEIAEKEGAQYVAHGATGKGNDQVRFELTYAALNPNLKVISPWKDPEFLAKFKGRTDLINYAMEKGIPIKRPYSEDENLMHISHEAGKLEDPAHIPDEDVFTWTVSPKDAPDEETLLEIHFENGIPVKVVNLKDGTEKTDPLELFEYLNEVGAKNGVGRLDMVENRFIGIKSRGVYETPGATILWIAHRDLEGITMDKEVMHLRDMLAPKFAELIYNGFWFSPEMEFLLAAFRKAQENVTGKVTVSIYKGNVMPVARYSPYSLYNGFDATDSKGFINIHALRLKVHQLVK KEKVVLAYSGGLDTSVILKWLCEKGFDVIAYVANVGQKDDFVAIKEKALKTGASKVYVEDLRREFVTDYIFTALLGNAMYEGRYLLGTAIARPLIAKRQVEIAEKEGAQYVAHGATGKGNDQVRFELTYAALNPNLKVISPWKDPEFLAKFKTDLINYAMEKGIPIKVSKKRPYSEDENLMHISHEAGKLEDPAHIPDEDVFTWTVSPKDAPDEETLLEIHFENGIPVKVVNLKDGTEKTDPLELFEYLNEVGAKNGVGRLDMVENRFIGIKSRGVYETPGATILWIAHRDLEGITMDKEVMHLRDMLAPKFAELIYNGFWFSPEMEFLLAAFRKAQENVTGKVTVSIYKGNVMPVARYSPYSLYNPGGFDATDSKGFINIHALRLKVHQLVKKGYQR 1vl2-a1-m1-cD_1vl2-a1-m1-cB Crystal structure of Argininosuccinate synthase (TM1780) from Thermotoga maritima at 1.65 A resolution Q9X2A1 Q9X2A1 1.65 X-RAY DIFFRACTION 63 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 389 394 1vl2-a1-m1-cC_1vl2-a1-m1-cA KEKVVLAYSGGLDTSVILKWLCEKGFDVIAYVANVGQKDDFVAIKEKALKTGASKVYVEDLRREFVTDYIFTALLGNAMYEGRYLLGTAIARPLIAKRQVEIAEKEGAQYVAHGATGKGNDQVRFELTYAALNPNLKVISPWKDPEFLAKFKGRTDLINYAMEKGIPIKRPYSEDENLMHISHEAGKLEDPAHIPDEDVFTWTVSPKDAPDEETLLEIHFENGIPVKVVNLKDGTEKTDPLELFEYLNEVGAKNGVGRLDMVENRFIGIKSRGVYETPGATILWIAHRDLEGITMDKEVMHLRDMLAPKFAELIYNGFWFSPEMEFLLAAFRKAQENVTGKVTVSIYKGNVMPVARYSPYSLYNGFDATDSKGFINIHALRLKVHQLVK KEKVVLAYSGGLDTSVILKWLCEKGFDVIAYVANVGQKDDFVAIKEKALKTGASKVYVEDLRREFVTDYIFTALLGNAMYEGRYLLGTAIARPLIAKRQVEIAEKEGAQYVAHGATGKGNDQVRFELTYAALNPNLKVISPWKDPEFLAKFKGRTDLINYAMEKGIPIKRPYSEDENLMHISHEAGKLEDPAHIPDEDVFTWTVSPKDAPDEETLLEIHFENGIPVKVVNLKDGTEKTDPLELFEYLNEVGAKNGVGRLDMVENRFIGIKSRGVYETPGATILWIAHRDLEGITMDKEVMHLRDMLAPKFAELIYNGFWFSPEMEFLLAAFRKAQENVTGKVTVSIYKGNVMPVARYSPYSLYNGFDATDSKGFINIHALRLKVHQLVKKGYQR 1vl2-a1-m1-cD_1vl2-a1-m1-cC Crystal structure of Argininosuccinate synthase (TM1780) from Thermotoga maritima at 1.65 A resolution Q9X2A1 Q9X2A1 1.65 X-RAY DIFFRACTION 228 0.995 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 389 393 1vl2-a1-m1-cB_1vl2-a1-m1-cA KEKVVLAYSGGLDTSVILKWLCEKGFDVIAYVANVGQKDDFVAIKEKALKTGASKVYVEDLRREFVTDYIFTALLGNAMYEGRYLLGTAIARPLIAKRQVEIAEKEGAQYVAHGATGKGNDQVRFELTYAALNPNLKVISPWKDPEFLAKFKGRTDLINYAMEKGIPIKRPYSEDENLMHISHEAGKLEDPAHIPDEDVFTWTVSPKDAPDEETLLEIHFENGIPVKVVNLKDGTEKTDPLELFEYLNEVGAKNGVGRLDMVENRFIGIKSRGVYETPGATILWIAHRDLEGITMDKEVMHLRDMLAPKFAELIYNGFWFSPEMEFLLAAFRKAQENVTGKVTVSIYKGNVMPVARYSPYSLYNGFDATDSKGFINIHALRLKVHQLVK KEKVVLAYSGGLDTSVILKWLCEKGFDVIAYVANVGQKDDFVAIKEKALKTGASKVYVEDLRREFVTDYIFTALLGNAMYEGRYLLGTAIARPLIAKRQVEIAEKEGAQYVAHGATGKGNDQVRFELTYAALNPNLKVISPWKDPEFLAKFKTDLINYAMEKGIPIKVSKKRPYSEDENLMHISHEAGKLEDPAHIPDEDVFTWTVSPKDAPDEETLLEIHFENGIPVKVVNLKDGTEKTDPLELFEYLNEVGAKNGVGRLDMVENRFIGIKSRGVYETPGATILWIAHRDLEGITMDKEVMHLRDMLAPKFAELIYNGFWFSPEMEFLLAAFRKAQENVTGKVTVSIYKGNVMPVARYSPYSLYNPGGFDATDSKGFINIHALRLKVHQLVK 1vl4-a1-m1-cA_1vl4-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE MODULATOR OF A DNA GYRASE (TM0727) FROM THERMOTOGA MARITIMA MSB8 AT 1.95 A RESOLUTION Q9WZI6 Q9WZI6 1.95 X-RAY DIFFRACTION 67 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 428 428 TFEEFKDRLFALAKKNGVEVQISFLETREFSLRLANGDLDQYTDAGKFNVEIKVLKDGKTGTFRTQVLENPEKCFEEALSNLQVKKEYFFEGGKEYREMETYVGRFEKLSVKEKMDMAKKAHESAAKDERVVMVPTVMYKDMVIKKIITNTLGLDVESQMDGGFLFAMAIARDANPRSGSWYELARTPEDLNPEEIGKRAAEEAISLIGSKTIPSGKYPVLMRNTALLDLMEMFIPMISAENVQKNLSPLKGKLGEQVGNPAVSIKDLPYHPKGLSSTPFDDEGVPTTEKFVLENGVLKTFLHNLKTARKEGVEPTGNGFVGGIRPVNLMLMPGEKSFEELLKEMDRGVVITEVEGMHAGANSISGEFSLFAKGYWVENGEIAHGVEDITISGNFLDLLRKIVLVGNDVKVSQHTIAPSVLVEVLDVA TFEEFKDRLFALAKKNGVEVQISFLETREFSLRLANGDLDQYTDAGKFNVEIKVLKDGKTGTFRTQVLENPEKCFEEALSNLQVKKEYFFEGGKEYREMETYVGRFEKLSVKEKMDMAKKAHESAAKDERVVMVPTVMYKDMVIKKIITNTLGLDVESQMDGGFLFAMAIARDANPRSGSWYELARTPEDLNPEEIGKRAAEEAISLIGSKTIPSGKYPVLMRNTALLDLMEMFIPMISAENVQKNLSPLKGKLGEQVGNPAVSIKDLPYHPKGLSSTPFDDEGVPTTEKFVLENGVLKTFLHNLKTARKEGVEPTGNGFVGGIRPVNLMLMPGEKSFEELLKEMDRGVVITEVEGMHAGANSISGEFSLFAKGYWVENGEIAHGVEDITISGNFLDLLRKIVLVGNDVKVSQHTIAPSVLVEVLDVA 1vl6-a1-m1-cA_1vl6-a1-m1-cD Crystal structure of NAD-dependent malic enzyme (TM0542) from Thermotoga maritima at 2.61 A resolution Q9WZ12 Q9WZ12 2.61 X-RAY DIFFRACTION 23 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 371 371 1vl6-a1-m1-cB_1vl6-a1-m1-cC 2hae-a1-m1-cA_2hae-a1-m1-cB 2hae-a1-m1-cC_2hae-a1-m1-cD HVDALEVHRFLKGKIRTALPVEKVDRETLSLLYTPGVADVARACAEDPEKTYVYTSRWNTVAVVSDGSAVLGLGNIGPYGALPVEGKAFLFKAFADIDAFPICLSESEEEKIISIVKSLEPSFGGINLEDIGAPKCFRILQRLSEENIPVFHDDQQGTAVVVSAAFLNALKLTEKKIEEVKVVVNGIGAAGYNIVKFLLDLGVKNVVAVDRKGILNENDPETCLNEYHLEIARITNPERLSGDLETALEGADFFIGVSRGNILKPEWIKKSRKPVIFALANPVPEIDPELAREAGAFIVATGRSDHPNQVNNLLAFPGIKGAVEKRSKITKNLLSAVEAIARSCEPEPERIIPEAFDKVHLNVYTAVKGSA HVDALEVHRFLKGKIRTALPVEKVDRETLSLLYTPGVADVARACAEDPEKTYVYTSRWNTVAVVSDGSAVLGLGNIGPYGALPVEGKAFLFKAFADIDAFPICLSESEEEKIISIVKSLEPSFGGINLEDIGAPKCFRILQRLSEENIPVFHDDQQGTAVVVSAAFLNALKLTEKKIEEVKVVVNGIGAAGYNIVKFLLDLGVKNVVAVDRKGILNENDPETCLNEYHLEIARITNPERLSGDLETALEGADFFIGVSRGNILKPEWIKKSRKPVIFALANPVPEIDPELAREAGAFIVATGRSDHPNQVNNLLAFPGIKGAVEKRSKITKNLLSAVEAIARSCEPEPERIIPEAFDKVHLNVYTAVKGSA 1vl7-a1-m1-cA_1vl7-a1-m1-cB Crystal structure of a putative heme oxygenase (alr5027) from nostoc sp. pcc 7120 at 1.50 A resolution Q8YMA7 Q8YMA7 1.5 X-RAY DIFFRACTION 112 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 135 135 YAGFIQEFQSAIISTISEQGIPNGSYAPFVIDDAKNIYIYVSGLAVHTKNIEANPLVNVLFVDDEAKTNQIFARRRLSFDCTATLIERESQKWNQVVDQFQERFGQIIEVLRGLADFRIFQLTPKEGRFVIGFGA YAGFIQEFQSAIISTISEQGIPNGSYAPFVIDDAKNIYIYVSGLAVHTKNIEANPLVNVLFVDDEAKTNQIFARRRLSFDCTATLIERESQKWNQVVDQFQERFGQIIEVLRGLADFRIFQLTPKEGRFVIGFGA 1vl8-a2-m1-cA_1vl8-a2-m2-cB Crystal structure of Gluconate 5-dehydrogenase (TM0441) from Thermotoga maritima at 2.07 A resolution Q9WYS2 Q9WYS2 2.07 X-RAY DIFFRACTION 14 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 251 252 1vl8-a2-m2-cA_1vl8-a2-m1-cB FDLRGRVALVTGGSRGLGFGIAQGLAEAGCSVVVASRNLEEASEAAQKLTEKYGVETMAFRCDVSNYEEVKKLLEAVKEKFGKLDTVVNAAGINRRHPAEEFPLDEFRQVIEVNLFGTYYVCREAFSLLRESDNPSIINIGSLTVEEVTMPNISAYAASKGGVASLTKALAKEWGRYGIRVNVIAPGWYRTKMTEAVFSDPEKLDYMLKRIPLGRTGVPEDLKGVAVFLASEEAKYVTGQIIFVDGGWTAN VFDLRGRVALVTGGSRGLGFGIAQGLAEAGCSVVVASRNLEEASEAAQKLTEKYGVETMAFRCDVSNYEEVKKLLEAVKEKFGKLDTVVNAAGINRRHPAEEFPLDEFRQVIEVNLFGTYYVCREAFSLLRESDNPSIINIGSLTVEEVTMPNISAYAASKGGVASLTKALAKEWGRYGIRVNVIAPGWYRTKMTEAVFSDPEKLDYMLKRIPLGRTGVPEDLKGVAVFLASEEAKYVTGQIIFVDGGWTAN 1vl8-a2-m1-cB_1vl8-a2-m2-cB Crystal structure of Gluconate 5-dehydrogenase (TM0441) from Thermotoga maritima at 2.07 A resolution Q9WYS2 Q9WYS2 2.07 X-RAY DIFFRACTION 125 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 252 252 1vl8-a2-m1-cA_1vl8-a2-m2-cA VFDLRGRVALVTGGSRGLGFGIAQGLAEAGCSVVVASRNLEEASEAAQKLTEKYGVETMAFRCDVSNYEEVKKLLEAVKEKFGKLDTVVNAAGINRRHPAEEFPLDEFRQVIEVNLFGTYYVCREAFSLLRESDNPSIINIGSLTVEEVTMPNISAYAASKGGVASLTKALAKEWGRYGIRVNVIAPGWYRTKMTEAVFSDPEKLDYMLKRIPLGRTGVPEDLKGVAVFLASEEAKYVTGQIIFVDGGWTAN VFDLRGRVALVTGGSRGLGFGIAQGLAEAGCSVVVASRNLEEASEAAQKLTEKYGVETMAFRCDVSNYEEVKKLLEAVKEKFGKLDTVVNAAGINRRHPAEEFPLDEFRQVIEVNLFGTYYVCREAFSLLRESDNPSIINIGSLTVEEVTMPNISAYAASKGGVASLTKALAKEWGRYGIRVNVIAPGWYRTKMTEAVFSDPEKLDYMLKRIPLGRTGVPEDLKGVAVFLASEEAKYVTGQIIFVDGGWTAN 1vl8-a2-m2-cA_1vl8-a2-m2-cB Crystal structure of Gluconate 5-dehydrogenase (TM0441) from Thermotoga maritima at 2.07 A resolution Q9WYS2 Q9WYS2 2.07 X-RAY DIFFRACTION 130 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 251 252 1vl8-a1-m1-cA_1vl8-a1-m1-cB 1vl8-a2-m1-cA_1vl8-a2-m1-cB FDLRGRVALVTGGSRGLGFGIAQGLAEAGCSVVVASRNLEEASEAAQKLTEKYGVETMAFRCDVSNYEEVKKLLEAVKEKFGKLDTVVNAAGINRRHPAEEFPLDEFRQVIEVNLFGTYYVCREAFSLLRESDNPSIINIGSLTVEEVTMPNISAYAASKGGVASLTKALAKEWGRYGIRVNVIAPGWYRTKMTEAVFSDPEKLDYMLKRIPLGRTGVPEDLKGVAVFLASEEAKYVTGQIIFVDGGWTAN VFDLRGRVALVTGGSRGLGFGIAQGLAEAGCSVVVASRNLEEASEAAQKLTEKYGVETMAFRCDVSNYEEVKKLLEAVKEKFGKLDTVVNAAGINRRHPAEEFPLDEFRQVIEVNLFGTYYVCREAFSLLRESDNPSIINIGSLTVEEVTMPNISAYAASKGGVASLTKALAKEWGRYGIRVNVIAPGWYRTKMTEAVFSDPEKLDYMLKRIPLGRTGVPEDLKGVAVFLASEEAKYVTGQIIFVDGGWTAN 1vla-a3-m1-cD_1vla-a3-m1-cA Crystal structure of Hydroperoxide resistance protein OsmC (TM0919) from Thermotoga maritima at 1.80 A resolution Q9X021 Q9X021 1.8 X-RAY DIFFRACTION 25 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 129 136 1vla-a3-m1-cC_1vla-a3-m1-cB QARWIGNFHVRTDSNHDVLDTKEEVGGKDAAPRPLELVLTGLGCTGDVVSILRKKVIDQKDFRIEIEYERTEEHPRIFTKVHLKYIFKFDGEPPKDKVEKAVQLSQEKYCSVSAILKCSSKVTYEIVYE HHHHHHQARWIGNFHVRTDSNHDVLDTKEEVGGKDAAPRPLELVLTGLGCTGDVVSILRKKVIDQKDFRIEIEYERTEEHPRIFTKVHLKYIFKFDGEPPKDKVEKAVQLSQEKYCSVSAILKCSSKVTYEIVYEN 1vla-a3-m1-cD_1vla-a3-m1-cC Crystal structure of Hydroperoxide resistance protein OsmC (TM0919) from Thermotoga maritima at 1.80 A resolution Q9X021 Q9X021 1.8 X-RAY DIFFRACTION 167 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 129 132 1vla-a1-m1-cB_1vla-a1-m1-cA 1vla-a2-m1-cD_1vla-a2-m1-cC 1vla-a3-m1-cB_1vla-a3-m1-cA QARWIGNFHVRTDSNHDVLDTKEEVGGKDAAPRPLELVLTGLGCTGDVVSILRKKVIDQKDFRIEIEYERTEEHPRIFTKVHLKYIFKFDGEPPKDKVEKAVQLSQEKYCSVSAILKCSSKVTYEIVYE HHQARWIGNFHVRTDSNHDVLDTKEEVGGKDAAPRPLELVLTGLGCTGDVVSILRKKVIDQKDFRIEIEYERTEEHPRIFTKVHLKYIFKFDGEPPKDKVEKAVQLSQEKYCSVSAILKCSSKVTYEIVYEN 1vlc-a1-m1-cA_1vlc-a1-m2-cA Crystal structure of 3-isopropylmalate dehydrogenase (TM0556) from Thermotoga maritima at 1.90 A resolution Q9WZ26 Q9WZ26 1.9 X-RAY DIFFRACTION 145 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 362 362 KIHHHHHHMKIAVLPGDGIGPEVVREALKVLEVVEKKTGKTFEKVFGHIGGDAIDRFGEPLPEETKKICLEADAIFLGSVGGPKWDDLPPEKRPEIGGLLALRKMLNLYANIRPIKVYRSLVHVSPLKEKVIGSGVDLVTVRELSYGVYYGQPRGLDEEKGFDTMIYDRKTVERIARTAFEIAKNRRKKVTSVDKANVLYSSMLWRKVVNEVAREYPDVELTHIYVDNAAMQLILKPSQFDVILTTNMFGDILSDESAALPGSLGLLPSASFGDKNLYEPAGGSAPDIAGKNIANPIAQILSLAMMLEHSFGMVEEARKIERAVELVIEEGYRTRDIAEDPEKAVSTSQMGDLICKKLEEIW KIHHHHHHMKIAVLPGDGIGPEVVREALKVLEVVEKKTGKTFEKVFGHIGGDAIDRFGEPLPEETKKICLEADAIFLGSVGGPKWDDLPPEKRPEIGGLLALRKMLNLYANIRPIKVYRSLVHVSPLKEKVIGSGVDLVTVRELSYGVYYGQPRGLDEEKGFDTMIYDRKTVERIARTAFEIAKNRRKKVTSVDKANVLYSSMLWRKVVNEVAREYPDVELTHIYVDNAAMQLILKPSQFDVILTTNMFGDILSDESAALPGSLGLLPSASFGDKNLYEPAGGSAPDIAGKNIANPIAQILSLAMMLEHSFGMVEEARKIERAVELVIEEGYRTRDIAEDPEKAVSTSQMGDLICKKLEEIW 1vlh-a1-m1-cA_1vlh-a1-m1-cF Crystal structure of Phosphopantetheine adenylyltransferase (TM0741) from Thermotoga maritima at 2.20 A resolution Q9WZK0 Q9WZK0 2.2 X-RAY DIFFRACTION 15 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 157 157 1vlh-a1-m1-cC_1vlh-a1-m1-cD 1vlh-a1-m1-cE_1vlh-a1-m1-cB MKAVYPGSFDPITLGHVDIIKRALSIFDELVVLVTENPRKKCMFTLEERKKLIEEVLSDLDGVKVDVHHGLLVDYLKKHGIKVLVRGLRAVTDYEYELQMALANKKLYSDLETVFLIASEKFSFISSSLVKEVALYGGDVTEWVPPEVARALNEKLK MKAVYPGSFDPITLGHVDIIKRALSIFDELVVLVTENPRKKCMFTLEERKKLIEEVLSDLDGVKVDVHHGLLVDYLKKHGIKVLVRGLRAVTDYEYELQMALANKKLYSDLETVFLIASEKFSFISSSLVKEVALYGGDVTEWVPPEVARALNEKLK 1vlh-a1-m1-cF_1vlh-a1-m1-cC Crystal structure of Phosphopantetheine adenylyltransferase (TM0741) from Thermotoga maritima at 2.20 A resolution Q9WZK0 Q9WZK0 2.2 X-RAY DIFFRACTION 54 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 157 158 1vlh-a1-m1-cA_1vlh-a1-m1-cB 1vlh-a1-m1-cE_1vlh-a1-m1-cD MKAVYPGSFDPITLGHVDIIKRALSIFDELVVLVTENPRKKCMFTLEERKKLIEEVLSDLDGVKVDVHHGLLVDYLKKHGIKVLVRGLRAVTDYEYELQMALANKKLYSDLETVFLIASEKFSFISSSLVKEVALYGGDVTEWVPPEVARALNEKLK MKAVYPGSFDPITLGHVDIIKRALSIFDELVVLVTENPRKKCMFTLEERKKLIEEVLSDLDGVKVDVHHGLLVDYLKKHGIKVLVRGLRAVTDYEYELQMALANKKLYSDLETVFLIASEKFSFISSSLVKEVALYGGDVTEWVPPEVARALNEKLKE 1vlh-a1-m1-cF_1vlh-a1-m1-cD Crystal structure of Phosphopantetheine adenylyltransferase (TM0741) from Thermotoga maritima at 2.20 A resolution Q9WZK0 Q9WZK0 2.2 X-RAY DIFFRACTION 31 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 157 158 1vlh-a1-m1-cA_1vlh-a1-m1-cC 1vlh-a1-m1-cA_1vlh-a1-m1-cE 1vlh-a1-m1-cB_1vlh-a1-m1-cD 1vlh-a1-m1-cE_1vlh-a1-m1-cC 1vlh-a1-m1-cF_1vlh-a1-m1-cB MKAVYPGSFDPITLGHVDIIKRALSIFDELVVLVTENPRKKCMFTLEERKKLIEEVLSDLDGVKVDVHHGLLVDYLKKHGIKVLVRGLRAVTDYEYELQMALANKKLYSDLETVFLIASEKFSFISSSLVKEVALYGGDVTEWVPPEVARALNEKLK MKAVYPGSFDPITLGHVDIIKRALSIFDELVVLVTENPRKKCMFTLEERKKLIEEVLSDLDGVKVDVHHGLLVDYLKKHGIKVLVRGLRAVTDYEYELQMALANKKLYSDLETVFLIASEKFSFISSSLVKEVALYGGDVTEWVPPEVARALNEKLKE 1vli-a2-m1-cA_1vli-a2-m2-cA Crystal structure of Spore coat polysaccharide biosynthesis protein spsE (BSU37870) from Bacillus subtilis at 2.38 A resolution P39625 P39625 2.38 X-RAY DIFFRACTION 68 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 350 350 AAFQIANKTVGKDAPVFIIAEAGINHDGKLDQAFALIDAAAEAGADAVKFQFQADRYQKDPDVSIFSLVQSEPAEWILPLLDYCREKQVIFLSTVCDEGSADLLQSTSPSAFKIASYEINHLPLLKYVARLNRPIFSTAGAEISDVHEAWRTIRAEGNNQIAIHCVAKYPAPPEYSNLSVIPLAAAFPEAVIGFSDHSEHPTEAPCAAVRLGAKLIEKHFTIDKNLPGADHSFALNPDELKEVDGIRKTEAELKQGITKPVSEKLLGSSYKTTTAIEGEIRNFAYRGIFTTAPIQKGEAFSEDNIAVLRPGQKPQGLHPRFFELLTSGVRAVRDIPADTGIVWDDILLKD AAFQIANKTVGKDAPVFIIAEAGINHDGKLDQAFALIDAAAEAGADAVKFQFQADRYQKDPDVSIFSLVQSEPAEWILPLLDYCREKQVIFLSTVCDEGSADLLQSTSPSAFKIASYEINHLPLLKYVARLNRPIFSTAGAEISDVHEAWRTIRAEGNNQIAIHCVAKYPAPPEYSNLSVIPLAAAFPEAVIGFSDHSEHPTEAPCAAVRLGAKLIEKHFTIDKNLPGADHSFALNPDELKEVDGIRKTEAELKQGITKPVSEKLLGSSYKTTTAIEGEIRNFAYRGIFTTAPIQKGEAFSEDNIAVLRPGQKPQGLHPRFFELLTSGVRAVRDIPADTGIVWDDILLKD 1vli-a3-m1-cA_1vli-a3-m3-cA Crystal structure of Spore coat polysaccharide biosynthesis protein spsE (BSU37870) from Bacillus subtilis at 2.38 A resolution P39625 P39625 2.38 X-RAY DIFFRACTION 44 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 350 350 AAFQIANKTVGKDAPVFIIAEAGINHDGKLDQAFALIDAAAEAGADAVKFQFQADRYQKDPDVSIFSLVQSEPAEWILPLLDYCREKQVIFLSTVCDEGSADLLQSTSPSAFKIASYEINHLPLLKYVARLNRPIFSTAGAEISDVHEAWRTIRAEGNNQIAIHCVAKYPAPPEYSNLSVIPLAAAFPEAVIGFSDHSEHPTEAPCAAVRLGAKLIEKHFTIDKNLPGADHSFALNPDELKEVDGIRKTEAELKQGITKPVSEKLLGSSYKTTTAIEGEIRNFAYRGIFTTAPIQKGEAFSEDNIAVLRPGQKPQGLHPRFFELLTSGVRAVRDIPADTGIVWDDILLKD AAFQIANKTVGKDAPVFIIAEAGINHDGKLDQAFALIDAAAEAGADAVKFQFQADRYQKDPDVSIFSLVQSEPAEWILPLLDYCREKQVIFLSTVCDEGSADLLQSTSPSAFKIASYEINHLPLLKYVARLNRPIFSTAGAEISDVHEAWRTIRAEGNNQIAIHCVAKYPAPPEYSNLSVIPLAAAFPEAVIGFSDHSEHPTEAPCAAVRLGAKLIEKHFTIDKNLPGADHSFALNPDELKEVDGIRKTEAELKQGITKPVSEKLLGSSYKTTTAIEGEIRNFAYRGIFTTAPIQKGEAFSEDNIAVLRPGQKPQGLHPRFFELLTSGVRAVRDIPADTGIVWDDILLKD 1vlj-a1-m1-cA_1vlj-a1-m1-cB Crystal structure of NADH-dependent butanol dehydrogenase A (TM0820) from Thermotoga maritima at 1.78 A resolution Q9WZS7 Q9WZS7 1.78 X-RAY DIFFRACTION 103 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 398 400 HHHMENFVFHNPTKIVFGRGTIPKIGEEIKNAGIRKVLFLYGGGSIKKNGVYDQVVDSLKKHGIEWVEVSGVKPNPVLSKVHEAVEVAKKEKVEAVLGVGGGSVVDSAKAVAAGALYEGDIWDAFIGKYQIEKALPIFDVLTISATGTEMNGNAVITNEKTKEKYGVSSKALYPKVSIIDPSVQFTLPKEQTVYGAVDAISHILEYYFDGSSPEISNEIAEGTIRTIMKMTERLIEKPDDYEARANLAWSATIALNGTMAVGRRGGEWACHRIEHSLSALYDIAHGAGLAIVFPAWMKYVYRKNPAQFERFAKKIFGFEGEGEELILKGIEAFKNWLKKVGAPVSLKDAGIPEEDIDKIVDNVMLLVEKNLKPKGASLGRIMVLEREDVREILKLAAK HHHHHMENFVFHNPTKIVFGRGTIPKIGEEIKNAGIRKVLFLYGGGSIKKNGVYDQVVDSLKKHGIEWVEVSGVKPNPVLSKVHEAVEVAKKEKVEAVLGVGGGSVVDSAKAVAAGALYEGDIWDAFIGKYQIEKALPIFDVLTISATGTEMNGNAVITNEKTKEKYGVSSKALYPKVSIIDPSVQFTLPKEQTVYGAVDAISHILEYYFDGSSPEISNEIAEGTIRTIMKMTERLIEKPDDYEARANLAWSATIALNGTMAVGRRGGEWACHRIEHSLSALYDIAHGAGLAIVFPAWMKYVYRKNPAQFERFAKKIFGFEGEGEELILKGIEAFKNWLKKVGAPVSLKDAGIPEEDIDKIVDNVMLLVEKNLKPKGASLGRIMVLEREDVREILKLAAK 1vlr-a1-m1-cA_1vlr-a1-m1-cB Crystal structure of mRNA decapping enzyme (DcpS) from Mus musculus at 1.83 A resolution Q9DAR7 Q9DAR7 1.83 X-RAY DIFFRACTION 255 0.993 10090 (Mus musculus) 10090 (Mus musculus) 290 292 PVRLPFSGFRVQKVLRESARDKIIFLHGKVNEGEDAVVILEKTPFQVEHVAQLLTGSPELKLQFSNDIYSTYNLFPPRHLSDIKTTVVYPATEKHLQKYMRQDLRLIRETGDDYRTITLPYLESQSLSIQWVYNILDKDRIVFENPDPSDGFVLIPDLKWNQQQLDDLYLIAICHRRGIRSLRDLTPEHLPLLRNILREGQEAILKRYQVTGDRLRVYLHYLPSYYHLHVHFTALGFEAPGSGVERAHLLAQVIENLECDPKHYQQRTLTFALRTDDPLLQLLQKAQQER VRLPFSGFRVQKVLRESARDKIIFLHGKVNEEDAVVILEKTPFQVEHVAQLLTGSPELKLQFSNDIYSTYNLFPPRHLSDIKTTVVYPATEKHLQKYMRQDLRLIRETGDDYRTITLPYLESQSLSIQWVYNILDKKAEADRIVFENPDPSDGFVLIPDLKWNQQQLDDLYLIAICHRRGIRSLRDLTPEHLPLLRNILREGQEAILKRYQVTGDRLRVYLHYLPSYYHLHVHFTALGFEAPGSGVERAHLLAQVIENLECDPKHYQQRTLTFALRTDDPLLQLLQKAQQER 1vlu-a2-m1-cB_1vlu-a2-m2-cB Crystal structure of Gamma-glutamyl phosphate reductase (yor323c) from Saccharomyces cerevisiae at 2.40 A resolution P54885 P54885 2.29 X-RAY DIFFRACTION 135 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 391 391 1vlu-a1-m1-cA_1vlu-a1-m2-cA HSSSQQIAKNARKAGNILKTISNEGRSDILYKIHDALKANAHAIEEANKIDLAVAKETGLADSLLKRLDLFKGDKFEVLQGIKDVAELEDPVGKVKARELDDGLTLYQVTAPVGVLLVIFESRPEVIANITALSIKSGNAAILKGGKESVNTFREAKIVNDTIAQFQSETGVPVGSVQLIETDVSDLLDQDEYIDLVVPRGSNALVRKIKDTTKIPVLGHADGICSIYLDEDADLIKAKRISLDAKTNNAETLLINPKFSKWWEVLENLTLEGGVTIHATKDLKTAYFDKLNELGKLTEAIQCKTVDADSLDLAAKFVTSTESAIQHINTHSSRHTDAIVTENKANAEKFKGVDSSGVYWNASTRFADGGLDGLVSYQYQIRGDGQVASDY HSSSQQIAKNARKAGNILKTISNEGRSDILYKIHDALKANAHAIEEANKIDLAVAKETGLADSLLKRLDLFKGDKFEVLQGIKDVAELEDPVGKVKARELDDGLTLYQVTAPVGVLLVIFESRPEVIANITALSIKSGNAAILKGGKESVNTFREAKIVNDTIAQFQSETGVPVGSVQLIETDVSDLLDQDEYIDLVVPRGSNALVRKIKDTTKIPVLGHADGICSIYLDEDADLIKAKRISLDAKTNNAETLLINPKFSKWWEVLENLTLEGGVTIHATKDLKTAYFDKLNELGKLTEAIQCKTVDADSLDLAAKFVTSTESAIQHINTHSSRHTDAIVTENKANAEKFKGVDSSGVYWNASTRFADGGLDGLVSYQYQIRGDGQVASDY 1vlv-a1-m11-cA_1vlv-a1-m9-cA Crystal structure of Ornithine carbamoyltransferase (TM1097) from Thermotoga maritima at 2.25 A resolution P96108 P96108 2.25 X-RAY DIFFRACTION 61 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 308 308 1vlv-a1-m10-cA_1vlv-a1-m2-cA 1vlv-a1-m10-cA_1vlv-a1-m6-cA 1vlv-a1-m12-cA_1vlv-a1-m4-cA 1vlv-a1-m12-cA_1vlv-a1-m8-cA 1vlv-a1-m1-cA_1vlv-a1-m11-cA 1vlv-a1-m1-cA_1vlv-a1-m9-cA 1vlv-a1-m2-cA_1vlv-a1-m6-cA 1vlv-a1-m3-cA_1vlv-a1-m5-cA 1vlv-a1-m3-cA_1vlv-a1-m7-cA 1vlv-a1-m4-cA_1vlv-a1-m8-cA 1vlv-a1-m5-cA_1vlv-a1-m7-cA HHHHHMSVNLKGRSLLTLLDFSPEEIRYLLDISKQVKMENRSKLRTERFKGMTLAMIFEKRSTRTRLAFETAFAEEGGHPIFLSPNDIHLGAKESLEDTARVLGRMVDAIMFRGYKQETVEKLAEYSGVPVYNGLTDEFHPTQALADLMTIEENFGRLKGVKVVFMGDTRNNVATSLMIACAKMGMNFVACGPEELKPRSDVFKRCQEIVKETDGSVSFTSNLEEALAGADVVYTDVWARMALLKPYQVNERVMEMTGKSETIFMHCLPAVKGQEVTYEVIEGKQSRVWDEAENRKHTIKAVMIATLL HHHHHMSVNLKGRSLLTLLDFSPEEIRYLLDISKQVKMENRSKLRTERFKGMTLAMIFEKRSTRTRLAFETAFAEEGGHPIFLSPNDIHLGAKESLEDTARVLGRMVDAIMFRGYKQETVEKLAEYSGVPVYNGLTDEFHPTQALADLMTIEENFGRLKGVKVVFMGDTRNNVATSLMIACAKMGMNFVACGPEELKPRSDVFKRCQEIVKETDGSVSFTSNLEEALAGADVVYTDVWARMALLKPYQVNERVMEMTGKSETIFMHCLPAVKGQEVTYEVIEGKQSRVWDEAENRKHTIKAVMIATLL 1vlv-a1-m5-cA_1vlv-a1-m9-cA Crystal structure of Ornithine carbamoyltransferase (TM1097) from Thermotoga maritima at 2.25 A resolution P96108 P96108 2.25 X-RAY DIFFRACTION 41 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 308 308 1vlv-a1-m10-cA_1vlv-a1-m5-cA 1vlv-a1-m10-cA_1vlv-a1-m9-cA 1vlv-a1-m11-cA_1vlv-a1-m3-cA 1vlv-a1-m11-cA_1vlv-a1-m4-cA 1vlv-a1-m12-cA_1vlv-a1-m2-cA 1vlv-a1-m12-cA_1vlv-a1-m7-cA 1vlv-a1-m1-cA_1vlv-a1-m6-cA 1vlv-a1-m1-cA_1vlv-a1-m8-cA 1vlv-a1-m2-cA_1vlv-a1-m7-cA 1vlv-a1-m3-cA_1vlv-a1-m4-cA 1vlv-a1-m6-cA_1vlv-a1-m8-cA HHHHHMSVNLKGRSLLTLLDFSPEEIRYLLDISKQVKMENRSKLRTERFKGMTLAMIFEKRSTRTRLAFETAFAEEGGHPIFLSPNDIHLGAKESLEDTARVLGRMVDAIMFRGYKQETVEKLAEYSGVPVYNGLTDEFHPTQALADLMTIEENFGRLKGVKVVFMGDTRNNVATSLMIACAKMGMNFVACGPEELKPRSDVFKRCQEIVKETDGSVSFTSNLEEALAGADVVYTDVWARMALLKPYQVNERVMEMTGKSETIFMHCLPAVKGQEVTYEVIEGKQSRVWDEAENRKHTIKAVMIATLL HHHHHMSVNLKGRSLLTLLDFSPEEIRYLLDISKQVKMENRSKLRTERFKGMTLAMIFEKRSTRTRLAFETAFAEEGGHPIFLSPNDIHLGAKESLEDTARVLGRMVDAIMFRGYKQETVEKLAEYSGVPVYNGLTDEFHPTQALADLMTIEENFGRLKGVKVVFMGDTRNNVATSLMIACAKMGMNFVACGPEELKPRSDVFKRCQEIVKETDGSVSFTSNLEEALAGADVVYTDVWARMALLKPYQVNERVMEMTGKSETIFMHCLPAVKGQEVTYEVIEGKQSRVWDEAENRKHTIKAVMIATLL 1vlv-a1-m6-cA_1vlv-a1-m9-cA Crystal structure of Ornithine carbamoyltransferase (TM1097) from Thermotoga maritima at 2.25 A resolution P96108 P96108 2.25 X-RAY DIFFRACTION 46 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 308 308 1vlv-a1-m10-cA_1vlv-a1-m7-cA 1vlv-a1-m11-cA_1vlv-a1-m5-cA 1vlv-a1-m12-cA_1vlv-a1-m3-cA 1vlv-a1-m1-cA_1vlv-a1-m4-cA 1vlv-a1-m2-cA_1vlv-a1-m8-cA HHHHHMSVNLKGRSLLTLLDFSPEEIRYLLDISKQVKMENRSKLRTERFKGMTLAMIFEKRSTRTRLAFETAFAEEGGHPIFLSPNDIHLGAKESLEDTARVLGRMVDAIMFRGYKQETVEKLAEYSGVPVYNGLTDEFHPTQALADLMTIEENFGRLKGVKVVFMGDTRNNVATSLMIACAKMGMNFVACGPEELKPRSDVFKRCQEIVKETDGSVSFTSNLEEALAGADVVYTDVWARMALLKPYQVNERVMEMTGKSETIFMHCLPAVKGQEVTYEVIEGKQSRVWDEAENRKHTIKAVMIATLL HHHHHMSVNLKGRSLLTLLDFSPEEIRYLLDISKQVKMENRSKLRTERFKGMTLAMIFEKRSTRTRLAFETAFAEEGGHPIFLSPNDIHLGAKESLEDTARVLGRMVDAIMFRGYKQETVEKLAEYSGVPVYNGLTDEFHPTQALADLMTIEENFGRLKGVKVVFMGDTRNNVATSLMIACAKMGMNFVACGPEELKPRSDVFKRCQEIVKETDGSVSFTSNLEEALAGADVVYTDVWARMALLKPYQVNERVMEMTGKSETIFMHCLPAVKGQEVTYEVIEGKQSRVWDEAENRKHTIKAVMIATLL 1vlz-a1-m1-cB_1vlz-a1-m1-cA UNCOUPLED PHOSPHORYLATION AND ACTIVATION IN BACTERIAL CHEMOTAXIS: THE 2.1 ANGSTROM STRUCTURE OF A THREONINE TO ISOLEUCINE MUTANT AT POSITION 87 OF CHEY P0AE67 P0AE67 2.05 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 127 128 DKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVIAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVIAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 1vm6-a1-m1-cA_1vm6-a1-m1-cD Crystal structure of Dihydrodipicolinate reductase (TM1520) from Thermotoga maritima at 2.27 A resolution Q9X1K8 Q9X1K8 2.27 X-RAY DIFFRACTION 82 0.995 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 215 217 1vm6-a1-m1-cC_1vm6-a1-m1-cB HMKYGIVGYSGRMGQEIQKVFSEKGHELVLKVDVNGVEELDSPDVVIDFSSPEALPKTVDLCKKYRAGLVLGTTALKEEHLQMLRELSKEVPVVQAYNFSIGINVLKRFLSELVKVLEDWDVEIVETHHRFKKDAPSGTAILLESALGKSVPIHSLRVGGVPGDHVVVFGNIGETIEIKHRAISRTVFAIGALKAAEFLVGKDPGMYSFEEVIFG HHHHMKYGIVGYSGRMGQEIQKVFSEKGHELVLKVDVNGVEELDSPDVVIDFSSPEALPKTVDLCKKYRAGLVLGTTALKEEHLQMLRELSKEVPVVQAYNFSIGINVLKRFLSELVKVLEDWDVEIVETHHRFKKDAPSGTAILLESALGKSVPIHSLRVGGVPGDHVVVFGNIGETIEIKHRAISRTVFAIGALKAAEFLVGKDPGMYSFEEVIF 1vm6-a1-m1-cD_1vm6-a1-m1-cB Crystal structure of Dihydrodipicolinate reductase (TM1520) from Thermotoga maritima at 2.27 A resolution Q9X1K8 Q9X1K8 2.27 X-RAY DIFFRACTION 66 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 217 218 1vm6-a1-m1-cA_1vm6-a1-m1-cC HHHHMKYGIVGYSGRMGQEIQKVFSEKGHELVLKVDVNGVEELDSPDVVIDFSSPEALPKTVDLCKKYRAGLVLGTTALKEEHLQMLRELSKEVPVVQAYNFSIGINVLKRFLSELVKVLEDWDVEIVETHHRFKKDAPSGTAILLESALGKSVPIHSLRVGGVPGDHVVVFGNIGETIEIKHRAISRTVFAIGALKAAEFLVGKDPGMYSFEEVIF HHHHHMKYGIVGYSGRMGQEIQKVFSEKGHELVLKVDVNGVEELDSPDVVIDFSSPEALPKTVDLCKKYRAGLVLGTTALKEEHLQMLRELSKEVPVVQAYNFSIGINVLKRFLSELVKVLEDWDVEIVETHHRFKKDAPSGTAILLESALGKSVPIHSLRVGGVPGDHVVVFGNIGETIEIKHRAISRTVFAIGALKAAEFLVGKDPGMYSFEEVIF 1vm7-a1-m1-cB_1vm7-a1-m1-cA Crystal structure of Ribokinase (TM0960) from Thermotoga maritima at 2.15 A resolution Q9X055 Q9X055 2.15 X-RAY DIFFRACTION 87 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 297 299 FLVISVVGSSNIDIVLKVDHFTKPGETQKAIEMNVFPGGKGANQAVTVAKIGEKGCRFVTCIGNDDYSDLLIENYEKLGITGYIRVSLPTGRAFIEVDKTGQNRIIIFPGANAELKKELIDWNTLSESDILLLQNEIPFETTLECAKRFNGIVIFDPAPAQGINEEIFQYLDYLTPNEKEIEALSKDFFGEFLTVEKAAEKFLELGVKNVIVKLGDKGVLLVNKNEKKHFPTFKVKAVDTTAAGDVFNGAFAVALSEGKNPEEAVIFGTAAAAISVTRLGAQSSIPAREEVEAFLKN MFLVISVVGSSNIDIVLKVDHFTKPGETQKAIEMNVFPGGKGANQAVTVAKIGEKGCRFVTCIGNDDYSDLLIENYEKLGITGYIRVSLPTGRAFIEVDKTGQNRIIIFPGANAELKKELIDWNTLSESDILLLQNEIPFETTLECAKRFNGIVIFDPAPAQGINEEIFQYLDYLTPNEKEIEALSKDFFGEFLTVEKAAEKFLELGVKNVIVKLGDKGVLLVNKNEKKHFPTFKVKAVDTTAAGDVFNGAFAVALSEGKNPEEAVIFGTAAAAISVTRLGAQSSIPAREEVEAFLKNL 1vm8-a1-m1-cB_1vm8-a1-m1-cA Crystal structure of UDP-N-acetylglucosamine pyrophosphorylase (Agx2) from Mus musculus at 2.50 A resolution Q91YN5 Q91YN5 2.5 X-RAY DIFFRACTION 93 0.998 10090 (Mus musculus) 10090 (Mus musculus) 477 478 NVNDLKQRLSQAGQEHLLQFWNELSEAQQELYELQANFEELNSFFRKAIGEFDRSSHQEKVDAREPVPRQVLGSATRDQEQLQAWESEGLSQISQNKVAVLLLAGGQGTRLGVSYPKGYDVGLPSHKTLFQIQAERILKLQQLAEKHHGNKCTIPWYITSGRTESTKEFFTKHKFFGLKKENVVFFQQGLPASFDGKIILEEKNKVSAPDGNGGLYRALAAQNIVEDEQRGICSIHVYCVDNILVKVADPRFIGFCIQKGADCGAKVVEKTNPTEPVGVVCRVDGVYQVVEYSEISLATAQRRSSDGRLLFNAGNIANHFFTVPFLKDVVNVYEPQLQHHVAQKKIPYVDSQGYFIKPDKPNGIKEKFVFDIFQFAKKFVVYEVLREDEFSPLKNADSGKDNPTTARHALSLHHCWVLNAGGHFIDENGSRLPAIPRVPIQCEISPLISYAGEGLEGYVADKEFHAPLIIDENGVHE NVNDLKQRLSQAGQEHLLQFWNELSEAQQELYELQANFEELNSFFRKAIGEFDRSSHQEKVDAREPVPRQVLGSATRDQEQLQAWESEGLSQISQNKVAVLLLAGGQGTRLGVSYPKGYDVGLPSHKTLFQIQAERILKLQQLAEKHHGNKCTIPWYITSGRTESTKEFFTKHKFFGLKKENVVFFQQGLPASFDGKIILEEKNKVSAPDGNGGLYRALAAQNIVEDEQRGICSIHVYCVDNILVKVADPRFIGFCIQKGADCGAKVVEKTNPTEPVGVVCRVDGVYQVVEYSEISLATAQRRSSDGRLLFNAGNIANHFFTVPFLKDVVNVYEPQLQHHVAQKKIPYVDSQGYFIKPDKPNGIKEKFVFDIFQFAKKFVVYEVLREDEFSPLKNADSQGKDNPTTARHALSLHHCWVLNAGGHFIDENGSRLPAIPVPIQCEISPLISYAGEGLEGYVADKEFHAPLIIDENGVHEL 1vmd-a1-m1-cA_1vmd-a1-m3-cB Crystal structure of Methylglyoxal synthase (TM1185) from Thermotoga maritima at 2.06 A resolution Q9X0R7 Q9X0R7 2.06 X-RAY DIFFRACTION 90 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 156 156 1vmd-a1-m1-cB_1vmd-a1-m2-cA 1vmd-a1-m2-cB_1vmd-a1-m3-cA PRRYKIFMDKKKRIALIAHDRRKRDLLEWVSFNLGTLSKHELYATGTTGALLQEKLGLKVHRLKSGPLGGDQQIGAMIAEGKIDVLIFFWDPLEPQAHDVDVKALIRIATVYNIPVAITRSTADFLISSPLMNDVYEKIQIDYEEELERRIRKVVE PRRYKIFMDKKKRIALIAHDRRKRDLLEWVSFNLGTLSKHELYATGTTGALLQEKLGLKVHRLKSGPLGGDQQIGAMIAEGKIDVLIFFWDPLEPQAHDVDVKALIRIATVYNIPVAITRSTADFLISSPLMNDVYEKIQIDYEEELERRIRKVVE 1vmd-a1-m3-cA_1vmd-a1-m3-cB Crystal structure of Methylglyoxal synthase (TM1185) from Thermotoga maritima at 2.06 A resolution Q9X0R7 Q9X0R7 2.06 X-RAY DIFFRACTION 110 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 156 156 1vmd-a1-m1-cA_1vmd-a1-m1-cB 1vmd-a1-m2-cA_1vmd-a1-m2-cB PRRYKIFMDKKKRIALIAHDRRKRDLLEWVSFNLGTLSKHELYATGTTGALLQEKLGLKVHRLKSGPLGGDQQIGAMIAEGKIDVLIFFWDPLEPQAHDVDVKALIRIATVYNIPVAITRSTADFLISSPLMNDVYEKIQIDYEEELERRIRKVVE PRRYKIFMDKKKRIALIAHDRRKRDLLEWVSFNLGTLSKHELYATGTTGALLQEKLGLKVHRLKSGPLGGDQQIGAMIAEGKIDVLIFFWDPLEPQAHDVDVKALIRIATVYNIPVAITRSTADFLISSPLMNDVYEKIQIDYEEELERRIRKVVE 1vmf-a1-m1-cA_1vmf-a1-m1-cB CRYSTAL STRUCTURE OF a YBJQ-LIKE FOLD PROTEIN OF UNKNOWN FUNCTION (BH3498) FROM BACILLUS HALODURANS AT 1.46 A RESOLUTION Q9K772 Q9K772 1.46 X-RAY DIFFRACTION 101 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 136 136 1vmf-a1-m1-cC_1vmf-a1-m1-cA 1vmf-a1-m1-cC_1vmf-a1-m1-cB HHHMKTFHLTTQSRDEMVDITSQIETWIRETGVTNGVAIVSSLHTTAGITVNENADPDVKRDMIMRLDEVYPWHHENDRHMEGNTAAHLKTSTVGHAQTLIISEGRLVLGTWQGVYFCEFDGPRTNRKFVVKLLTD HHHMKTFHLTTQSRDEMVDITSQIETWIRETGVTNGVAIVSSLHTTAGITVNENADPDVKRDMIMRLDEVYPWHHENDRHMEGNTAAHLKTSTVGHAQTLIISEGRLVLGTWQGVYFCEFDGPRTNRKFVVKLLTD 1vmg-a2-m1-cA_1vmg-a2-m4-cA Crystal structure of MazG nucleotide pyrophosphohydrolase (13816655) from Sulfolobus solfataricus at 1.46 A resolution Q97U11 Q97U11 1.46 X-RAY DIFFRACTION 35 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 80 80 1vmg-a2-m2-cA_1vmg-a2-m3-cA DLELKELQSKKEYFEKDSQRGIYATFTWLVEEVGELAEALLSNNLDSIQEELADVIAWTVSIANLEGIDIEEALKKKYKL DLELKELQSKKEYFEKDSQRGIYATFTWLVEEVGELAEALLSNNLDSIQEELADVIAWTVSIANLEGIDIEEALKKKYKL 1vmg-a2-m2-cA_1vmg-a2-m4-cA Crystal structure of MazG nucleotide pyrophosphohydrolase (13816655) from Sulfolobus solfataricus at 1.46 A resolution Q97U11 Q97U11 1.46 X-RAY DIFFRACTION 13 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 80 80 1vmg-a2-m1-cA_1vmg-a2-m3-cA DLELKELQSKKEYFEKDSQRGIYATFTWLVEEVGELAEALLSNNLDSIQEELADVIAWTVSIANLEGIDIEEALKKKYKL DLELKELQSKKEYFEKDSQRGIYATFTWLVEEVGELAEALLSNNLDSIQEELADVIAWTVSIANLEGIDIEEALKKKYKL 1vmg-a2-m3-cA_1vmg-a2-m4-cA Crystal structure of MazG nucleotide pyrophosphohydrolase (13816655) from Sulfolobus solfataricus at 1.46 A resolution Q97U11 Q97U11 1.46 X-RAY DIFFRACTION 126 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 80 80 1vmg-a1-m1-cA_1vmg-a1-m2-cA 1vmg-a2-m1-cA_1vmg-a2-m2-cA DLELKELQSKKEYFEKDSQRGIYATFTWLVEEVGELAEALLSNNLDSIQEELADVIAWTVSIANLEGIDIEEALKKKYKL DLELKELQSKKEYFEKDSQRGIYATFTWLVEEVGELAEALLSNNLDSIQEELADVIAWTVSIANLEGIDIEEALKKKYKL 1vmh-a1-m2-cA_1vmh-a1-m3-cA Crystal structure of an uncharacterized conserved protein yjbq/upf0047 family, ortholog yugu b.subtilis (ca_c0907) from clostridium acetobutylicum at 1.31 A resolution Q97KL0 Q97KL0 1.31 X-RAY DIFFRACTION 83 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 129 129 1vmh-a1-m1-cA_1vmh-a1-m2-cA 1vmh-a1-m1-cA_1vmh-a1-m3-cA 1xbf-a1-m1-cB_1xbf-a1-m1-cA 1xbf-a1-m1-cC_1xbf-a1-m1-cA 1xbf-a1-m1-cC_1xbf-a1-m1-cB VIEYSLKTSNDDQFIDITNLVKKAVDESGVSDGMAVVFCPHTTAGITINENADPDVTRDILVNLDKVFPKVGDYKHVEGNSHAHIKASLMGSSQQIIIENGKLKLGTWQGIYFTEFDGPRDRKVFVKII VIEYSLKTSNDDQFIDITNLVKKAVDESGVSDGMAVVFCPHTTAGITINENADPDVTRDILVNLDKVFPKVGDYKHVEGNSHAHIKASLMGSSQQIIIENGKLKLGTWQGIYFTEFDGPRDRKVFVKII 1vmi-a1-m1-cA_1vmi-a1-m2-cA Crystal structure of Putative phosphate acetyltransferase (np_416953.1) from Escherichia coli k12 at 2.32 A resolution P77218 P77218 2.32 X-RAY DIFFRACTION 115 1.0 562 (Escherichia coli) 562 (Escherichia coli) 321 321 TDPALRAIIERCRELALRAPARVVFPDALDQRVLKAAQYLHQQGLATPILVANPFELRQFALSHGVADGLQVIDPHGNLAREEFAHRWLARAGEKTPPDALEKLTDPLFAAAVSAGKADVCIAGNLSSTANVLRAGLRIIGLQPGCKTLSSIFLLPQYSGPALGFADCSVVPQPTAAQLADIALASAETWRAITGEEPRVALSFSSNGSARHPCVANVQQATEIVRERAPKLVVDGELQFDAAFVPEVAAQKAPASPLQGKANVVFPSLEAGNIGYKIAQRLGGYRAVGPLIQGLAAPHDLSRGCSVQEIIELALVAAVPR TDPALRAIIERCRELALRAPARVVFPDALDQRVLKAAQYLHQQGLATPILVANPFELRQFALSHGVADGLQVIDPHGNLAREEFAHRWLARAGEKTPPDALEKLTDPLFAAAVSAGKADVCIAGNLSSTANVLRAGLRIIGLQPGCKTLSSIFLLPQYSGPALGFADCSVVPQPTAAQLADIALASAETWRAITGEEPRVALSFSSNGSARHPCVANVQQATEIVRERAPKLVVDGELQFDAAFVPEVAAQKAPASPLQGKANVVFPSLEAGNIGYKIAQRLGGYRAVGPLIQGLAAPHDLSRGCSVQEIIELALVAAVPR 1vmj-a2-m5-cA_1vmj-a2-m6-cA CRYSTAL STRUCTURE OF A PUTATIVE THIAMIN PHOSPHATE SYNTHASE (TM0723) FROM THERMOTOGA MARITIMA MSB8 AT 1.52 A RESOLUTION Q9WZI2 Q9WZI2 1.52 X-RAY DIFFRACTION 82 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 139 139 1vmj-a1-m1-cA_1vmj-a1-m2-cA 1vmj-a1-m1-cA_1vmj-a1-m3-cA 1vmj-a1-m2-cA_1vmj-a1-m3-cA 1vmj-a2-m1-cA_1vmj-a2-m2-cA 1vmj-a2-m1-cA_1vmj-a2-m3-cA 1vmj-a2-m2-cA_1vmj-a2-m3-cA 1vmj-a2-m4-cA_1vmj-a2-m5-cA 1vmj-a2-m4-cA_1vmj-a2-m6-cA MKSYRKELWFHTKRRREFINITPLLEECVRESGIKEGLLLCNAMHITASVFINDDEPGLHHDFEVWLEKLAPEKPYSQYKHNDTGEDNADAHLKRTIMGREVVIAITDRKMDLGPWEQVFYGEFDGMRPKRVLVKIIGE MKSYRKELWFHTKRRREFINITPLLEECVRESGIKEGLLLCNAMHITASVFINDDEPGLHHDFEVWLEKLAPEKPYSQYKHNDTGEDNADAHLKRTIMGREVVIAITDRKMDLGPWEQVFYGEFDGMRPKRVLVKIIGE 1vmk-a1-m1-cA_1vmk-a1-m1-cB Crystal structure of Purine nucleoside phosphorylase (TM1596) from Thermotoga maritima at 2.01 A resolution Q9X1T2 Q9X1T2 2.01 X-RAY DIFFRACTION 71 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 249 250 1vmk-a1-m1-cC_1vmk-a1-m1-cA 1vmk-a1-m1-cC_1vmk-a1-m1-cB MMKKIEEARTFISERTNLSPDILIILGGPFIEKVEDPVIIDYKDIPHFPGKLVFGRISDKPVMIMAGRFHLYEGHDPATVAFPVYLAKYVGVKGVVVTNAAGAINPEFKPGEIILVRDIINFMFRNPLRGPNDEKIGPRFPDMSSVVDPEWARKIQERLSLKEGVYIGVLGPSYETPAEIRVFEKLGADLVGMSTVPEVIAAKHCGLKVVVFSCVTNMAAGISHEEVVRTTKMAQGKIEKALTTAVEVF MMKKIEEARTFISERTNLSPDILIILGSGPFIEKVEDPVIIDYKDIPHFPGKLVFGRISDKPVMIMAGRFHLYEGHDPATVAFPVYLAKYVGVKGVVVTNAAGAINPEFKPGEIILVRDIINFMFRNPLRGPNDEKIGPRFPDMSSVVDPEWARKIQERLSLKEGVYIGVLGPSYETPAEIRVFEKLGADLVGMSTVPEVIAAKHCGLKVVVFSCVTNMAAGISHEEVVRTTKMAQGKIEKALTTAVEVF 1vok-a3-m1-cB_1vok-a3-m2-cB ARABIDOPSIS THALIANA TBP (DIMER) P28147 P28147 2.1 X-RAY DIFFRACTION 13 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 188 188 VDLSKHPSGIVPTLQNIVSTVNLDCKLDLKAIALQARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVCTGAKSEDFSKMAARKYARIVQKLGFPAKFKDFKIQNIVGSCDVKFPIRLEGLAYSHAAFSSYEPELFPGLIYRMKVPKIVLLIFVSGKIVITGAKMRDETYKAFENIYPVLSEFRKIQ VDLSKHPSGIVPTLQNIVSTVNLDCKLDLKAIALQARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVCTGAKSEDFSKMAARKYARIVQKLGFPAKFKDFKIQNIVGSCDVKFPIRLEGLAYSHAAFSSYEPELFPGLIYRMKVPKIVLLIFVSGKIVITGAKMRDETYKAFENIYPVLSEFRKIQ 1vok-a5-m1-cB_1vok-a5-m1-cA ARABIDOPSIS THALIANA TBP (DIMER) P28147 P28147 2.1 X-RAY DIFFRACTION 94 0.995 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 188 192 1vok-a3-m1-cB_1vok-a3-m1-cA 1vok-a3-m2-cB_1vok-a3-m2-cA 1vok-a4-m1-cB_1vok-a4-m1-cA 1vok-a4-m3-cB_1vok-a4-m3-cA VDLSKHPSGIVPTLQNIVSTVNLDCKLDLKAIALQARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVCTGAKSEDFSKMAARKYARIVQKLGFPAKFKDFKIQNIVGSCDVKFPIRLEGLAYSHAAFSSYEPELFPGLIYRMKVPKIVLLIFVSGKIVITGAKMRDETYKAFENIYPVLSEFRKIQ EGSNPVDLSKHPSGIVPTLQNIVSTVNLDCKLDLKAIALQARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVCTGAKSEDFSKMAARKYARIVQKLGFPAKFKDFKIQNIVGSCDVKFPIRLEGLAYSHAAFSSYEPELFPGLIYRMKVPKIVLLIFVSGKIVITGAKMRDETYKAFENIYPVLSEFRKI 1vok-a6-m1-cA_1vok-a6-m3-cA ARABIDOPSIS THALIANA TBP (DIMER) P28147 P28147 2.1 X-RAY DIFFRACTION 68 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 192 192 1vok-a4-m1-cA_1vok-a4-m3-cA EGSNPVDLSKHPSGIVPTLQNIVSTVNLDCKLDLKAIALQARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVCTGAKSEDFSKMAARKYARIVQKLGFPAKFKDFKIQNIVGSCDVKFPIRLEGLAYSHAAFSSYEPELFPGLIYRMKVPKIVLLIFVSGKIVITGAKMRDETYKAFENIYPVLSEFRKI EGSNPVDLSKHPSGIVPTLQNIVSTVNLDCKLDLKAIALQARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVCTGAKSEDFSKMAARKYARIVQKLGFPAKFKDFKIQNIVGSCDVKFPIRLEGLAYSHAAFSSYEPELFPGLIYRMKVPKIVLLIFVSGKIVITGAKMRDETYKAFENIYPVLSEFRKI 1vp2-a1-m1-cA_1vp2-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE XANTHOSINE TRIPHOSPHATE PYROPHOSPHATASE/HAM1 PROTEIN HOMOLOG (TM0159) FROM THERMOTOGA MARITIMA AT 1.78 A RESOLUTION Q9WY06 Q9WY06 1.78 X-RAY DIFFRACTION 54 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 189 189 1vp2-a1-m1-cB_1vp2-a1-m2-cB 3s86-a1-m1-cA_3s86-a1-m1-cD 3s86-a1-m1-cB_3s86-a1-m1-cC KLTVYLATTNPHKVEEIKMIAPEWMEILPSPEKIEVVEDGETFLENSVKKAVVYGKKLKHPVMADDSGLVIYSLGGFPGVMSARFMEEHSYKEKMRTILKMLEGKDRRAAFVCSATFFDPVENTLISVEDRVEGRIANEIRGTGGFGYDPFFIPDGYDKTFGEIPHLKEKISHRSKAFRKLFSVLEKIL KLTVYLATTNPHKVEEIKMIAPEWMEILPSPEKIEVVEDGETFLENSVKKAVVYGKKLKHPVMADDSGLVIYSLGGFPGVMSARFMEEHSYKEKMRTILKMLEGKDRRAAFVCSATFFDPVENTLISVEDRVEGRIANEIRGTGGFGYDPFFIPDGYDKTFGEIPHLKEKISHRSKAFRKLFSVLEKIL 1vp2-a1-m2-cA_1vp2-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE XANTHOSINE TRIPHOSPHATE PYROPHOSPHATASE/HAM1 PROTEIN HOMOLOG (TM0159) FROM THERMOTOGA MARITIMA AT 1.78 A RESOLUTION Q9WY06 Q9WY06 1.78 X-RAY DIFFRACTION 33 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 189 189 1vp2-a1-m1-cA_1vp2-a1-m1-cB 3s86-a1-m1-cA_3s86-a1-m1-cC 3s86-a1-m1-cB_3s86-a1-m1-cD KLTVYLATTNPHKVEEIKMIAPEWMEILPSPEKIEVVEDGETFLENSVKKAVVYGKKLKHPVMADDSGLVIYSLGGFPGVMSARFMEEHSYKEKMRTILKMLEGKDRRAAFVCSATFFDPVENTLISVEDRVEGRIANEIRGTGGFGYDPFFIPDGYDKTFGEIPHLKEKISHRSKAFRKLFSVLEKIL KLTVYLATTNPHKVEEIKMIAPEWMEILPSPEKIEVVEDGETFLENSVKKAVVYGKKLKHPVMADDSGLVIYSLGGFPGVMSARFMEEHSYKEKMRTILKMLEGKDRRAAFVCSATFFDPVENTLISVEDRVEGRIANEIRGTGGFGYDPFFIPDGYDKTFGEIPHLKEKISHRSKAFRKLFSVLEKIL 1vp4-a1-m1-cB_1vp4-a1-m1-cA Crystal structure of a putative aminotransferase (tm1131) from thermotoga maritima msb8 at 1.82 A resolution Q9X0L5 Q9X0L5 1.82 X-RAY DIFFRACTION 225 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 408 412 HHHVVNLEGKISKIGQNKSSIIREILKFAADKDAISFGGGVPDPETFPRKELAEIAKEIIEKEYHYTLQYSTTEGDPVLKQQILKLLERYGITGLDEDNLIFTVGSQQALDLIGKLFLDDESYCVLDDPAYLGAINAFRQYLANFVVVPLEDDGDLNVLERKLSEFDKNGKIKQVKFIYVVSNFHNPAGVTTSLEKRKALVEIAEKYDLFIVEDDPYGALRYEGETVDPIFKIGGPERVVLLNTFSKVLAPGLRIGVAGSKEFIRKIVQAKQSADLCSPAITHRLAARYLERYDLLEQLKPTIELYRRKRTVLNALEEYFSDIPGVKWVKSEGGLFIWLTLPEGFDTWEFEYAKRKKVFYVPGRVFKVYDEPSPSRLSFCLPPDEKIVEGIKRLREVVLEYGKEKHLL IHHHHHHVVNLEGKISKIGQNKSSIIREILKFAADKDAISFGGGVPDPETFPRKELAEIAKEIIEKEYHYTLQYSTTEGDPVLKQQILKLLERYGITGLDEDNLIFTVGSQQALDLIGKLFLDDESYCVLDDPAYLGAINAFRQYLANFVVVPLEDDGDLNVLERKLSEFDKNGKIKQVKFIYVVSNFHNPAGVTTSLEKRKALVEIAEKYDLFIVEDDPYGALRYEGETVDPIFKIGGPERVVLLNTFSKVLAPGLRIGVAGSKEFIRKIVQAKQSADLCSPAITHRLAARYLERYDLLEQLKPTIELYRRKRTVLNALEEYFSDIPGVKWVKSEGGLFIWLTLPEGFDTWEFEYAKRKKVFYVPGRVFKVYDEPSPSRLSFCLPPDEKIVEGIKRLREVVLEYGKEKHLL 1vp7-a3-m1-cF_1vp7-a3-m1-cE Crystal structure of Exodeoxyribonuclease VII small subunit (NP_881400.1) from Bordetella pertussis at 2.40 A resolution Q7VV85 Q7VV85 2.4 X-RAY DIFFRACTION 59 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 64 66 1vp7-a1-m1-cA_1vp7-a1-m1-cB ARPLPQDFETALAELESLVSAENLPLEQSLSAYRRGVELARVCQDRLAQAEQQVKVLEGDLLRP ARPLPQDFETALAELESLVSAENGTLPLEQSLSAYRRGVELARVCQDRLAQAEQQVKVLEGDLLRP 1vp8-a1-m1-cA_1vp8-a1-m6-cA CRYSTAL STRUCTURE OF an alpha/beta domain of a putative pyruvate kinase (AF0103) FROM ARCHAEOGLOBUS FULGIDUS DSM 4304 AT 1.30 A RESOLUTION O30133 O30133 1.3 X-RAY DIFFRACTION 97 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 183 183 1vp8-a1-m2-cA_1vp8-a1-m5-cA 1vp8-a1-m3-cA_1vp8-a1-m4-cA HEKKIVYFNKPGRENTEETLRLAVERAKELGIKHLVVASSYGDTAKALEAEGLEVVVVTYHTGFVREGENTPPEVEEELRKRGAKIVRQSHILSGLERSISRKLGGVSRTEAIAEALRSLFGHGLKVCVEITIAADSGAIPIEEVVAVGGRSRGADTAVVIRPAHNNFFDAEIKEIICPRNKR HEKKIVYFNKPGRENTEETLRLAVERAKELGIKHLVVASSYGDTAKALEAEGLEVVVVTYHTGFVREGENTPPEVEEELRKRGAKIVRQSHILSGLERSISRKLGGVSRTEAIAEALRSLFGHGLKVCVEITIAADSGAIPIEEVVAVGGRSRGADTAVVIRPAHNNFFDAEIKEIICPRNKR 1vp8-a1-m3-cA_1vp8-a1-m6-cA CRYSTAL STRUCTURE OF an alpha/beta domain of a putative pyruvate kinase (AF0103) FROM ARCHAEOGLOBUS FULGIDUS DSM 4304 AT 1.30 A RESOLUTION O30133 O30133 1.3 X-RAY DIFFRACTION 137 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 183 183 1vp8-a1-m1-cA_1vp8-a1-m5-cA 1vp8-a1-m2-cA_1vp8-a1-m4-cA HEKKIVYFNKPGRENTEETLRLAVERAKELGIKHLVVASSYGDTAKALEAEGLEVVVVTYHTGFVREGENTPPEVEEELRKRGAKIVRQSHILSGLERSISRKLGGVSRTEAIAEALRSLFGHGLKVCVEITIAADSGAIPIEEVVAVGGRSRGADTAVVIRPAHNNFFDAEIKEIICPRNKR HEKKIVYFNKPGRENTEETLRLAVERAKELGIKHLVVASSYGDTAKALEAEGLEVVVVTYHTGFVREGENTPPEVEEELRKRGAKIVRQSHILSGLERSISRKLGGVSRTEAIAEALRSLFGHGLKVCVEITIAADSGAIPIEEVVAVGGRSRGADTAVVIRPAHNNFFDAEIKEIICPRNKR 1vp8-a1-m5-cA_1vp8-a1-m6-cA CRYSTAL STRUCTURE OF an alpha/beta domain of a putative pyruvate kinase (AF0103) FROM ARCHAEOGLOBUS FULGIDUS DSM 4304 AT 1.30 A RESOLUTION O30133 O30133 1.3 X-RAY DIFFRACTION 17 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 183 183 1vp8-a1-m1-cA_1vp8-a1-m2-cA 1vp8-a1-m1-cA_1vp8-a1-m3-cA 1vp8-a1-m2-cA_1vp8-a1-m3-cA 1vp8-a1-m4-cA_1vp8-a1-m5-cA 1vp8-a1-m4-cA_1vp8-a1-m6-cA HEKKIVYFNKPGRENTEETLRLAVERAKELGIKHLVVASSYGDTAKALEAEGLEVVVVTYHTGFVREGENTPPEVEEELRKRGAKIVRQSHILSGLERSISRKLGGVSRTEAIAEALRSLFGHGLKVCVEITIAADSGAIPIEEVVAVGGRSRGADTAVVIRPAHNNFFDAEIKEIICPRNKR HEKKIVYFNKPGRENTEETLRLAVERAKELGIKHLVVASSYGDTAKALEAEGLEVVVVTYHTGFVREGENTPPEVEEELRKRGAKIVRQSHILSGLERSISRKLGGVSRTEAIAEALRSLFGHGLKVCVEITIAADSGAIPIEEVVAVGGRSRGADTAVVIRPAHNNFFDAEIKEIICPRNKR 1vpa-a1-m1-cB_1vpa-a1-m1-cA Crystal structure of 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (TM1393) from Thermotoga maritima at 2.67 A resolution Q9X1B3 Q9X1B3 2.67 X-RAY DIFFRACTION 126 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 220 221 HHMNVAILLAAGKGERMSENVPKQFLEIEGRMLFEYPLSTFLKSEAIDGVVIVTRREWFEVVEKRVFHEKVLGIVEGGDTRSQSVRSALEFLEKFSPSYVLVHDSARPFLRKKHVSEVLRRARETGAATLALKNSDALVRVENDRIEYIPRKGVYRILTPQAFSYEILKKAHENGGEWADDTEPVQKLGVKIALVEGDPLCFKVTFKEDLELARIIAREW HHMNVAILLAAGKGERMSENVPKQFLEIEGRMLFEYPLSTFLKSEAIDGVVIVTRREWFEVVEKRVFHEKVLGIVEGGDTRSQSVRSALEFLEKFSPSYVLVHDSARPFLRKKHVSEVLRRARETGAATLALKNSDALVRVENDRIEYIPRKGVYRILTPQAFSYEILKKAHENGGEWADDTEPVQKLGVKIALVEGDPLCFKVTFKEDLELARIIAREWE 1vpb-a1-m1-cA_1vpb-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE MODULATOR OF DNA GYRASE (BT3649) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 1.75 A RESOLUTION Q8A1L2 Q8A1L2 1.75 X-RAY DIFFRACTION 105 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 437 437 MITDENKKLAQWAMDYALKNGCQAAKVLLYSSSNTSFELRDMDRLQQASEGGLSLSLYVDGRYGSISTNRLNRKELETFIKNGIDSTRYLAKDEARVLADPSRYYKGGKPDLKLYDAKFASLNPDDKIEMAKAVAEEALGKDERIISVGSSYGDGEDFAYRLISNGFEGETKSTWYSLSADITIRGEGEARPSAYWYESSLYMNDLIKKGIGQKALERVLRKLGQKKVQSGKYTMVVDPMNSSRLLSPMISALNGSALQQKNSFLLNKLNEKIASDRLTLTDEPHLVKASGARYFDNEGIATERRSIFDKGVLNTYFIDTYNAKKMGVDPTISGSSILVMETGDKNLDGLIAGVEKGILVTGFNGGNNNSSTGDFSYGIEGFLIENGKLTQPVSEMNVTGNLITLWNSLVATGNDPRLNSSWRIPSLVFEGVDFSGL MITDENKKLAQWAMDYALKNGCQAAKVLLYSSSNTSFELRDMDRLQQASEGGLSLSLYVDGRYGSISTNRLNRKELETFIKNGIDSTRYLAKDEARVLADPSRYYKGGKPDLKLYDAKFASLNPDDKIEMAKAVAEEALGKDERIISVGSSYGDGEDFAYRLISNGFEGETKSTWYSLSADITIRGEGEARPSAYWYESSLYMNDLIKKGIGQKALERVLRKLGQKKVQSGKYTMVVDPMNSSRLLSPMISALNGSALQQKNSFLLNKLNEKIASDRLTLTDEPHLVKASGARYFDNEGIATERRSIFDKGVLNTYFIDTYNAKKMGVDPTISGSSILVMETGDKNLDGLIAGVEKGILVTGFNGGNNNSSTGDFSYGIEGFLIENGKLTQPVSEMNVTGNLITLWNSLVATGNDPRLNSSWRIPSLVFEGVDFSGL 1vph-a1-m1-cB_1vph-a1-m1-cA CRYSTAL STRUCTURE OF a YbjQ-like protein of unknown function (SSO2532) FROM SULFOLOBUS SOLFATARICUS P2 AT 1.76 A RESOLUTION Q97VS8 Q97VS8 1.764 X-RAY DIFFRACTION 87 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 137 138 1vph-a1-m1-cA_1vph-a1-m1-cC 1vph-a1-m1-cB_1vph-a1-m1-cC 1vph-a2-m1-cD_1vph-a2-m1-cE 1vph-a2-m1-cD_1vph-a2-m1-cF 1vph-a2-m1-cE_1vph-a2-m1-cF MKVYFDDIYVSTARQFELVDITDQVEQIVEKSGIKNGICLIFVAHSTAAIVANEHERGLMEDILTKIKEFTEPSRSWKHNLIDDNAHAHLGATFLGAERVFPVREGKLVRGTWQNIFLVELDGPRSERHITVEILGE HMKVYFDDIYVSTARQFELVDITDQVEQIVEKSGIKNGICLIFVAHSTAAIVANEHERGLMEDILTKIKEFTEPSRSWKHNLIDDNAHAHLGATFLGAERVFPVREGKLVRGTWQNIFLVELDGPRSERHITVEILGE 1vpk-a1-m1-cA_1vpk-a1-m2-cA Crystal structure of DNA polymerase III, beta subunit (TM0262) from Thermotoga maritima at 2.00 A resolution Q9WYA0 Q9WYA0 2 X-RAY DIFFRACTION 82 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 367 367 HMKVTVTTLELKDKITIASKALAKKSVKPILAGFLFEVKDGNFYICATDLETGVKATVNAAEISGEARFVVPGDVIQKMVKVLPDEITELSLEGDALVISSGSTVFRITTMPADEFPEITPAESGITFEVDTSLLEEMVEKVIFAAAKDEFMRNLNGVFWELHKNLLRLVASDGFRLALAEEQIENEEEASFLLSLKSMKEVQNVLDNTTEPTITVRYDGRRVSLSTNDVETVMRVVDAEFPDYKRVIPETFKTKVVVSRKELRESLKRVMVIASKGSESVKFEIEENVMRLVSKSPDYGEVVDEVEVQKEGEDLVIAFNPKFIEDVLKHIETEEIEMNFVDSTSPCQINPLDISGYLYIVMPIRLA HMKVTVTTLELKDKITIASKALAKKSVKPILAGFLFEVKDGNFYICATDLETGVKATVNAAEISGEARFVVPGDVIQKMVKVLPDEITELSLEGDALVISSGSTVFRITTMPADEFPEITPAESGITFEVDTSLLEEMVEKVIFAAAKDEFMRNLNGVFWELHKNLLRLVASDGFRLALAEEQIENEEEASFLLSLKSMKEVQNVLDNTTEPTITVRYDGRRVSLSTNDVETVMRVVDAEFPDYKRVIPETFKTKVVVSRKELRESLKRVMVIASKGSESVKFEIEENVMRLVSKSPDYGEVVDEVEVQKEGEDLVIAFNPKFIEDVLKHIETEEIEMNFVDSTSPCQINPLDISGYLYIVMPIRLA 1vpl-a1-m1-cA_1vpl-a1-m2-cA Crystal structure of ABC transporter ATP-binding protein (TM0544) from Thermotoga maritima at 2.10 A resolution Q9WZ14 Q9WZ14 2.1 X-RAY DIFFRACTION 33 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 238 238 GAVVVKDLRKRIGKKEILKGISFEIEEGEIFGLIGPNGAGKTTTLRIISTLIKPSSGIVTVFGKNVVEEPHEVRKLISYLPEEAGAYRNMQGIEYLRFVAGFYASSSSEIEEMVERATEIAGLGEKIKDRVSTYSKGMVRKLLIARALMVNPRLAILDEPTSGLDVLNAREVRKILKQASQEGLTILVSSHNMLEVEFLCDRIALIHNGTIVETGTVEELKERYKAQNIEEVFEEVVK GAVVVKDLRKRIGKKEILKGISFEIEEGEIFGLIGPNGAGKTTTLRIISTLIKPSSGIVTVFGKNVVEEPHEVRKLISYLPEEAGAYRNMQGIEYLRFVAGFYASSSSEIEEMVERATEIAGLGEKIKDRVSTYSKGMVRKLLIARALMVNPRLAILDEPTSGLDVLNAREVRKILKQASQEGLTILVSSHNMLEVEFLCDRIALIHNGTIVETGTVEELKERYKAQNIEEVFEEVVK 1vpo-a2-m1-cH_1vpo-a2-m2-cH Crystal Structure Analysis of the Anti-testosterone Fab in Complex with Testosterone 2.15 X-RAY DIFFRACTION 89 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 EVKLVESGGGLVKPGGSLKLSCAASGFTFSRYALSWVRQTADKRLEWVASIVSGGNTYYSGSVKGRFTISRDIARNILYLQMSSLRSEDTAMYYCARAYYGYVGLVHWGQGTLVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRDCG EVKLVESGGGLVKPGGSLKLSCAASGFTFSRYALSWVRQTADKRLEWVASIVSGGNTYYSGSVKGRFTISRDIARNILYLQMSSLRSEDTAMYYCARAYYGYVGLVHWGQGTLVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRDCG 1vpq-a2-m1-cA_1vpq-a2-m2-cA CRYSTAL STRUCTURE OF a DUF72 family protein (TM1631) FROM THERMOTOGA MARITIMA MSB8 AT 2.20 A RESOLUTION Q9X1W6 Q9X1W6 2.2 X-RAY DIFFRACTION 61 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 260 260 HMVYVGTSGFSFEDWKGVVYPEHLKPSQFLKYYWAVLGFRIVELNFTYYTQPSWRSFVQMLRKTPPDFYFTVKTPGSVTHVLWKEGKDPKEDMENFTRQIEPLIEEQRLKMTLAQFPFSFKFSRKNVEYLEKLRESYPYELAVEFRHYSWDREETYEFLRNHGITFVVVDEPKLPGLFPYRPITTTDYAYFRFHGRNERWFEAEGEERYDYLYSEEELKTLFEDVVELSRRVKETYVFFNNCYKGQAAINALQFKKMLEE HMVYVGTSGFSFEDWKGVVYPEHLKPSQFLKYYWAVLGFRIVELNFTYYTQPSWRSFVQMLRKTPPDFYFTVKTPGSVTHVLWKEGKDPKEDMENFTRQIEPLIEEQRLKMTLAQFPFSFKFSRKNVEYLEKLRESYPYELAVEFRHYSWDREETYEFLRNHGITFVVVDEPKLPGLFPYRPITTTDYAYFRFHGRNERWFEAEGEERYDYLYSEEELKTLFEDVVELSRRVKETYVFFNNCYKGQAAINALQFKKMLEE 1vps-a2-m1-cA_1vps-a2-m2-cE POLYOMAVIRUS VP1 PENTAMER COMPLEXED WITH A DISIALYLATED HEXASACCHARIDE P49302 P49302 1.9 X-RAY DIFFRACTION 24 1.0 285 285 1cn3-a2-m1-cA_1cn3-a2-m2-cB 1cn3-a2-m1-cB_1cn3-a2-m2-cA 1cn3-a2-m1-cC_1cn3-a2-m2-cE 1cn3-a2-m1-cD_1cn3-a2-m2-cD 1cn3-a2-m1-cE_1cn3-a2-m2-cC 1vpn-a2-m1-cA_1vpn-a2-m2-cE 1vpn-a2-m1-cC_1vpn-a2-m2-cC 1vpn-a2-m1-cD_1vpn-a2-m2-cB 1vpn-a2-m1-cE_1vpn-a2-m2-cA 1vpn-a2-m2-cD_1vpn-a2-m1-cB 1vps-a2-m1-cC_1vps-a2-m2-cC 1vps-a2-m1-cD_1vps-a2-m2-cB 1vps-a2-m1-cE_1vps-a2-m2-cA 1vps-a2-m2-cD_1vps-a2-m1-cB GGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVK GGMEVLDLVTGPDSVTEIEAFLNPRMGQPPTPESLTEGGQYYGWSRGINLATSDTEDSPGNNTLPTWSMAKLQLPMLNEDLTCDTLQMWEAVSVKTEVVGSGSLLDVHGFNKPTDTVNTKGISTPVEGSQYHVFAVGGEPLDLQGLVTDARTKYKEEGVVTIKTITKKDMVNKDQVLNPISKAKLDKDGMYPVEIWHPDPAKNENTRYFGNYTGGTTTPPVLQFTNTLTTVLLDENGVGPLCKGEGLYLSCVDIMGWRVTRNYDVHHWRGLPRYFKITLRKRWVK 1vpx-a1-m1-cD_1vpx-a1-m1-cG Crystal structure of Transaldolase (EC 2.2.1.2) (TM0295) from Thermotoga maritima at 2.40 A resolution Q9WYD1 Q9WYD1 2.4 X-RAY DIFFRACTION 22 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 210 216 1vpx-a1-m1-cF_1vpx-a1-m1-cE 1vpx-a1-m1-cH_1vpx-a1-m1-cC 1vpx-a2-m1-cM_1vpx-a2-m1-cR 1vpx-a2-m1-cP_1vpx-a2-m1-cO 1vpx-a2-m1-cT_1vpx-a2-m1-cK HHMKIFLDTANLEEIKKGVEWGIVDGVTTNPTLISKEGAEFKQRVKEICDLVKGPVSAEVVSLDYEGMVREARELAQISEYVVIKIPMTPDGIKAVKTLSAEGIKTNVTLVFSPAQAILAAKAGATYVSPFVGRMDDLSNDGMRMLGEIVEIYNNYGFETEIIAASIRHPMHVVEAALMGVDIVTMPFAVLEKLFKHPMTDLGIERFMED HHMKIFLDTANLEEIKKGVEWGIVDGVTTNPTLISKEGAEFKQRVKEICDLVKGPVSAEVVSLDYEGMVREARELAQISEYVVIKIPMTPDGIKAVKTLSAEGIKTNVTLVFSPAQAILAAKAGATYVSPFVGRMDDLSNDGMRMLGEIVEIYNNYGFETEIIAASIRHPMHVVEAALMGVDIVTMPFAVLEKLFKHPMTDLGIERFMEDWKKYLE 1vpx-a2-m1-cM_1vpx-a2-m1-cN Crystal structure of Transaldolase (EC 2.2.1.2) (TM0295) from Thermotoga maritima at 2.40 A resolution Q9WYD1 Q9WYD1 2.4 X-RAY DIFFRACTION 86 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 198 204 1vpx-a1-m1-cA_1vpx-a1-m1-cE 1vpx-a1-m1-cC_1vpx-a1-m1-cB 1vpx-a1-m1-cC_1vpx-a1-m1-cD 1vpx-a1-m1-cD_1vpx-a1-m1-cE 1vpx-a1-m1-cF_1vpx-a1-m1-cG 1vpx-a1-m1-cH_1vpx-a1-m1-cG 1vpx-a1-m1-cH_1vpx-a1-m1-cI 1vpx-a1-m1-cI_1vpx-a1-m1-cJ 1vpx-a2-m1-cL_1vpx-a2-m1-cK 1vpx-a2-m1-cM_1vpx-a2-m1-cL 1vpx-a2-m1-cN_1vpx-a2-m1-cO 1vpx-a2-m1-cO_1vpx-a2-m1-cK 1vpx-a2-m1-cQ_1vpx-a2-m1-cR HMKIFLDTANLEEIKKGVEWGIVDGVTTNPTLISKRVKEICDLVKGPVSAEVVSLDYEGMVREARELAQISEYVVIKIPMTPDGIKAVKTLSAEGIKTNVTLVFSPAQAILAAKAGATYVSPFVGRMDDLSNDGMRMLGEIVEIYNNYGFETEIIAASIRHPMHVVEAALMGVDIVTMPFAVLEKLFKHPMTDLGIER HMKIFLDTANLEEIKKGVEWGIVDGVTTNPTLISKEFKQRVKEICDLVKGPVSAEVVSLDYEGMVREARELAQISEYVVIKIPMTPDGIKAVKTLSAEGIKTNVTLVFSPAQAILAAKAGATYVSPFVGRMDDLSNDGMRMLGEIVEIYNNYGFETEIIAASIRHPMHVVEAALMGVDIVTMPFAVLEKLFKHPMTDLGIERFM 1vpx-a2-m1-cM_1vpx-a2-m1-cS Crystal structure of Transaldolase (EC 2.2.1.2) (TM0295) from Thermotoga maritima at 2.40 A resolution Q9WYD1 Q9WYD1 2.4 X-RAY DIFFRACTION 41 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 198 205 1vpx-a1-m1-cA_1vpx-a1-m1-cF 1vpx-a1-m1-cB_1vpx-a1-m1-cJ 1vpx-a1-m1-cE_1vpx-a1-m1-cG 1vpx-a1-m1-cH_1vpx-a1-m1-cD 1vpx-a2-m1-cN_1vpx-a2-m1-cR 1vpx-a2-m1-cP_1vpx-a2-m1-cK HMKIFLDTANLEEIKKGVEWGIVDGVTTNPTLISKRVKEICDLVKGPVSAEVVSLDYEGMVREARELAQISEYVVIKIPMTPDGIKAVKTLSAEGIKTNVTLVFSPAQAILAAKAGATYVSPFVGRMDDLSNDGMRMLGEIVEIYNNYGFETEIIAASIRHPMHVVEAALMGVDIVTMPFAVLEKLFKHPMTDLGIER HMKIFLDTANLEEIKKGVEWGIVDGVTTNPTLISKEGAEFKQRVKEICDLVKGPVSAEVVSLDYEGMVREARELAQISEYVVIKIPMTPDGIKAVKTLSAEGIKTNVTLVFSPAQAILAAKAGATYVSPFVGRMDDLSNDGMRMLGEIVEIYNNYGFETEIIAASIRHPMHVVEAALMGVDIVTMPFAVLEKLFKHPMTDLGIER 1vq0-a1-m1-cA_1vq0-a1-m1-cB Crystal structure of 33 kDa chaperonin (Heat shock protein 33 homolog) (HSP33) (TM1394) from Thermotoga maritima at 2.20 A resolution Q9X1B4 Q9X1B4 2.2 X-RAY DIFFRACTION 42 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 290 290 HHHMIYYGTMFDHKVRFSIVRMREVVEEARNRHALSYLATVVLGRALIGAALVTPWLAEKERWTLDIEGNGPIRRVVAQSTSEFTVRGYVANPKVELPLNEKGKFDVAGAIGQGVLRVVRDLGLKTPFVSQVPLVSGEIAEDLAYYFAVSEQIPSAFSIGVLVDSDGVKIAGGFAVQIIDRTLEQEKVEMIEKNIKNLPSISKLFQEAEPLDVLERIFGEKVGFVETAEIKYKCDCNREKAKNALLVLDKKELEDMRKEGKGEVVCKWCNTRYVFSEEELEELLKFKVDD HHHMIYYGTMFDHKVRFSIVRMREVVEEARNRHALSYLATVVLGRALIGAALVTPWLAEKERWTLDIEGNGPIRRVVAQSTSEFTVRGYVANPKVELPLNEKGKFDVAGAIGQGVLRVVRDLGLKTPFVSQVPLVSGEIAEDLAYYFAVSEQIPSAFSIGVLVDSDGVKIAGGFAVQIIDRTLEQEKVEMIEKNIKNLPSISKLFQEAEPLDVLERIFGEKVGFVETAEIKYKCDCNREKAKNALLVLDKKELEDMRKEGKGEVVCKWCNTRYVFSEEELEELLKFKVDD 1vq2-a2-m3-cA_1vq2-a2-m6-cA CRYSTAL STRUCTURE OF T4-BACTERIOPHAGE DEOXYCYTIDYLATE DEAMINASE, MUTANT R115E P16006 P16006 2.2 X-RAY DIFFRACTION 113 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 173 173 1vq2-a2-m1-cA_1vq2-a2-m5-cA 1vq2-a2-m2-cA_1vq2-a2-m4-cA MKASTVLQIAYLVSQESKCCSWKVGAVIEKNGRIISTGYNGSPAGGVNCCDYAAEQGWLLNKRFVLAKEHRSAHSEWSSKNEIHAELNAILFAAENGSSIEGATMYVTLSPCPDCAKAIAQSGIKKLVYCETYDKNKPGWDDILRNAGIEVFNVPKKNLNKLNWENINEFCGE MKASTVLQIAYLVSQESKCCSWKVGAVIEKNGRIISTGYNGSPAGGVNCCDYAAEQGWLLNKRFVLAKEHRSAHSEWSSKNEIHAELNAILFAAENGSSIEGATMYVTLSPCPDCAKAIAQSGIKKLVYCETYDKNKPGWDDILRNAGIEVFNVPKKNLNKLNWENINEFCGE 1vq2-a2-m4-cA_1vq2-a2-m6-cA CRYSTAL STRUCTURE OF T4-BACTERIOPHAGE DEOXYCYTIDYLATE DEAMINASE, MUTANT R115E P16006 P16006 2.2 X-RAY DIFFRACTION 81 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 173 173 1vq2-a1-m1-cA_1vq2-a1-m2-cA 1vq2-a2-m1-cA_1vq2-a2-m2-cA 1vq2-a2-m3-cA_1vq2-a2-m5-cA MKASTVLQIAYLVSQESKCCSWKVGAVIEKNGRIISTGYNGSPAGGVNCCDYAAEQGWLLNKRFVLAKEHRSAHSEWSSKNEIHAELNAILFAAENGSSIEGATMYVTLSPCPDCAKAIAQSGIKKLVYCETYDKNKPGWDDILRNAGIEVFNVPKKNLNKLNWENINEFCGE MKASTVLQIAYLVSQESKCCSWKVGAVIEKNGRIISTGYNGSPAGGVNCCDYAAEQGWLLNKRFVLAKEHRSAHSEWSSKNEIHAELNAILFAAENGSSIEGATMYVTLSPCPDCAKAIAQSGIKKLVYCETYDKNKPGWDDILRNAGIEVFNVPKKNLNKLNWENINEFCGE 1vq3-a1-m1-cD_1vq3-a1-m1-cA Crystal structure of Phosphoribosylformylglycinamidine synthase, purS subunit (EC 6.3.5.3) (TM1244) from Thermotoga maritima at 1.90 A resolution Q9X0X1 Q9X0X1 1.9 X-RAY DIFFRACTION 22 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 84 86 1vq3-a1-m1-cB_1vq3-a1-m1-cC HHLPLFKFAIDVQYRSNVRDPRGETIERVLREEKGLPVKKLRLGKSIHLEVEAENKEKAYEIVKKACEELLVNPVVEEYEVREL HHHHLPLFKFAIDVQYRSNVRDPRGETIERVLREEKGLPVKKLRLGKSIHLEVEAENKEKAYEIVKKACEELLVNPVVEEYEVREL 1vqs-a4-m11-cE_1vqs-a4-m9-cE Crystal structure of a nipsnap family protein with unknown function (atu4242) from agrobacterium tumefaciens str. c58 at 1.50 A resolution 1.5 X-RAY DIFFRACTION 24 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 106 106 1vqs-a1-m1-cA_1vqs-a1-m3-cA 1vqs-a1-m1-cA_1vqs-a1-m4-cA 1vqs-a1-m1-cB_1vqs-a1-m3-cB 1vqs-a1-m1-cB_1vqs-a1-m4-cB 1vqs-a1-m2-cA_1vqs-a1-m3-cA 1vqs-a1-m2-cA_1vqs-a1-m4-cA 1vqs-a1-m2-cB_1vqs-a1-m3-cB 1vqs-a1-m2-cB_1vqs-a1-m4-cB 1vqs-a2-m1-cC_1vqs-a2-m3-cC 1vqs-a2-m1-cC_1vqs-a2-m4-cC 1vqs-a2-m1-cD_1vqs-a2-m3-cD 1vqs-a2-m1-cD_1vqs-a2-m4-cD 1vqs-a2-m2-cC_1vqs-a2-m3-cC 1vqs-a2-m2-cC_1vqs-a2-m4-cC 1vqs-a2-m2-cD_1vqs-a2-m3-cD 1vqs-a2-m2-cD_1vqs-a2-m4-cD 1vqs-a3-m5-cE_1vqs-a3-m7-cE 1vqs-a3-m5-cE_1vqs-a3-m8-cE 1vqs-a3-m6-cE_1vqs-a3-m7-cE 1vqs-a3-m6-cE_1vqs-a3-m8-cE 1vqs-a4-m10-cE_1vqs-a4-m9-cE 1vqs-a4-m1-cE_1vqs-a4-m10-cE 1vqs-a4-m1-cE_1vqs-a4-m11-cE 1vqs-a4-m5-cE_1vqs-a4-m7-cE 1vqs-a4-m5-cE_1vqs-a4-m8-cE 1vqs-a4-m6-cE_1vqs-a4-m7-cE 1vqs-a4-m6-cE_1vqs-a4-m8-cE 2ap6-a1-m1-cA_2ap6-a1-m1-cF 2ap6-a1-m1-cA_2ap6-a1-m1-cG 2ap6-a1-m1-cB_2ap6-a1-m1-cE 2ap6-a1-m1-cB_2ap6-a1-m1-cH 2ap6-a1-m1-cC_2ap6-a1-m1-cF 2ap6-a1-m1-cC_2ap6-a1-m1-cG 2ap6-a1-m1-cD_2ap6-a1-m1-cE 2ap6-a1-m1-cD_2ap6-a1-m1-cH HHHHHHFYEIRTYRLKNGAIPAYLKVVEDEGIEIQKSHLGELVGYFFSEIGPINEIVHIWAFSSLDDRAERRARLADPRWLSFLPKIRDLIEVAENKIKPARFSPL HHHHHHFYEIRTYRLKNGAIPAYLKVVEDEGIEIQKSHLGELVGYFFSEIGPINEIVHIWAFSSLDDRAERRARLADPRWLSFLPKIRDLIEVAENKIKPARFSPL 1vqs-a4-m6-cE_1vqs-a4-m9-cE Crystal structure of a nipsnap family protein with unknown function (atu4242) from agrobacterium tumefaciens str. c58 at 1.50 A resolution 1.5 X-RAY DIFFRACTION 100 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 106 106 1vqs-a1-m1-cA_1vqs-a1-m1-cB 1vqs-a1-m2-cA_1vqs-a1-m2-cB 1vqs-a1-m3-cA_1vqs-a1-m3-cB 1vqs-a1-m4-cA_1vqs-a1-m4-cB 1vqs-a2-m1-cC_1vqs-a2-m1-cD 1vqs-a2-m2-cC_1vqs-a2-m2-cD 1vqs-a2-m3-cC_1vqs-a2-m3-cD 1vqs-a2-m4-cC_1vqs-a2-m4-cD 1vqs-a3-m1-cE_1vqs-a3-m5-cE 1vqs-a4-m10-cE_1vqs-a4-m8-cE 1vqs-a4-m11-cE_1vqs-a4-m7-cE 1vqs-a4-m1-cE_1vqs-a4-m5-cE 2ap6-a1-m1-cA_2ap6-a1-m1-cB 2ap6-a1-m1-cC_2ap6-a1-m1-cD 2ap6-a1-m1-cE_2ap6-a1-m1-cF 2ap6-a1-m1-cG_2ap6-a1-m1-cH HHHHHHFYEIRTYRLKNGAIPAYLKVVEDEGIEIQKSHLGELVGYFFSEIGPINEIVHIWAFSSLDDRAERRARLADPRWLSFLPKIRDLIEVAENKIKPARFSPL HHHHHHFYEIRTYRLKNGAIPAYLKVVEDEGIEIQKSHLGELVGYFFSEIGPINEIVHIWAFSSLDDRAERRARLADPRWLSFLPKIRDLIEVAENKIKPARFSPL 1vqs-a4-m7-cE_1vqs-a4-m9-cE Crystal structure of a nipsnap family protein with unknown function (atu4242) from agrobacterium tumefaciens str. c58 at 1.50 A resolution 1.5 X-RAY DIFFRACTION 12 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 106 106 1vqs-a1-m1-cA_1vqs-a1-m3-cB 1vqs-a1-m2-cA_1vqs-a1-m4-cB 1vqs-a1-m3-cA_1vqs-a1-m2-cB 1vqs-a1-m4-cA_1vqs-a1-m1-cB 1vqs-a2-m1-cC_1vqs-a2-m3-cD 1vqs-a2-m1-cD_1vqs-a2-m4-cC 1vqs-a2-m2-cC_1vqs-a2-m4-cD 1vqs-a2-m2-cD_1vqs-a2-m3-cC 1vqs-a3-m1-cE_1vqs-a3-m8-cE 1vqs-a4-m10-cE_1vqs-a4-m6-cE 1vqs-a4-m11-cE_1vqs-a4-m5-cE 1vqs-a4-m1-cE_1vqs-a4-m8-cE 2ap6-a1-m1-cA_2ap6-a1-m1-cH 2ap6-a1-m1-cB_2ap6-a1-m1-cF 2ap6-a1-m1-cC_2ap6-a1-m1-cE 2ap6-a1-m1-cD_2ap6-a1-m1-cG HHHHHHFYEIRTYRLKNGAIPAYLKVVEDEGIEIQKSHLGELVGYFFSEIGPINEIVHIWAFSSLDDRAERRARLADPRWLSFLPKIRDLIEVAENKIKPARFSPL HHHHHHFYEIRTYRLKNGAIPAYLKVVEDEGIEIQKSHLGELVGYFFSEIGPINEIVHIWAFSSLDDRAERRARLADPRWLSFLPKIRDLIEVAENKIKPARFSPL 1vqt-a1-m1-cA_1vqt-a1-m2-cA Crystal structure of Orotidine 5'-phosphate decarboxylase (TM0332) from Thermotoga maritima at 2.00 A resolution Q9WYG7 Q9WYG7 2 X-RAY DIFFRACTION 96 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 191 191 HHMTPVLSLDMEDPIRFIDENGSFEVVKVGHNLAIHGKKIFDELAKRNLKIILDLKFCDIPSTVERSIKSWDHPAIIGFTVHSCAGYESVERALSATDKHVFVVVKLTSMEGSLEDYMDRIEKLNKLGCDFVLPGPWAKALREKIKGKILVPGIRDVVTLEEMKGIANFAVLGREIYLSENPREKIKRIKE HHMTPVLSLDMEDPIRFIDENGSFEVVKVGHNLAIHGKKIFDELAKRNLKIILDLKFCDIPSTVERSIKSWDHPAIIGFTVHSCAGYESVERALSATDKHVFVVVKLTSMEGSLEDYMDRIEKLNKLGCDFVLPGPWAKALREKIKGKILVPGIRDVVTLEEMKGIANFAVLGREIYLSENPREKIKRIKE 1vqu-a1-m1-cB_1vqu-a1-m1-cA Crystal structure of Anthranilate phosphoribosyltransferase 2 (17130499) from Nostoc sp. at 1.85 A resolution Q8YXQ9 Q8YXQ9 1.85 X-RAY DIFFRACTION 79 0.997 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 327 331 SWYLLLQQLIDGESLSRSQAAELQGWLSEAVPPELSGAILTALNFKGVSADELTGAEVLQSQSKNSPFSIIDTCGTGSSTFNISTAVAFVAAAYGVPVAKHGNRSASLTGSADVLEALGVNLGASPEKVQAALQEVGITFLFAPPALKAVATLRRTLRIRTVFNLLGPLVNPLRPTGQVVGLFTPKLLTTVAQALDNLGKQKAIVLHGRERLDEAGLGDLTDLAVLSDGELQLTTINPQEVGVTPAPIGALRGGDVQENAEILKAVLQGKGTQAQQDAVALNAALALQVAGAVPLLDHAQGVSVAKEILQTGTAWAKLAQLVYFLGN TSWYLLLQQLIDGESLSRSQAAELQGWLSEAVPPELSGAILTALNFKGVSADELTGAEVLQSQSKTNSPFSIIDTCGTGSSTFNISTAVAFVAAAYGVPVAKHGNRSSLTGSADVLEALGVNLGASPEKVQAALQEVGITFLFAPGWHPALKAVATLRRTLRIRTVFNLLGPLVNPLRPTGQVVGLFTPKLLTTVAQALDNLGKQKAIVLHGRERLDEAGLGDLTDLAVLSDGELQLTTINPQEVGVTPAPIGALRGGDVQENAEILKAVLQGKGTQAQQDAVALNAALALQVAGAVPLLDHAQGVSVAKEILQTGTAWAKLAQLVYFLGN 1vqy-a1-m1-cG_1vqy-a1-m1-cB CRYSTAL STRUCTURE OF a NIPSNAP FAMILY PROTEIN (ATU5224) FROM AGROBACTERIUM TUMEFACIENS STR. C58 AT 2.40 A RESOLUTION A9CLJ4 A9CLJ4 2.4 X-RAY DIFFRACTION 14 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 102 111 1vqy-a1-m1-cC_1vqy-a1-m1-cF 1vqy-a1-m1-cD_1vqy-a1-m1-cH 1vqy-a1-m1-cE_1vqy-a1-m1-cA HIVEERIYRIRGGKQEYLKLVREEGIAIQAPILGNLIGYFVTDIGPLSQVIHWGYASLDDRAERRGKLAEDQRWQAFIPRLSVLIESSENRILLPTDFSPLR SDKIHHHHHHIVEERIYRIRGGKQEYLKLVREEGIAIQAPILGNLIGYFVTDIGPLSQVIHWGYASLDDRAERRGKLAEDQRWQAFIPRLSVLIESSENRILLPTDFSPLR 1vqy-a1-m1-cG_1vqy-a1-m1-cH CRYSTAL STRUCTURE OF a NIPSNAP FAMILY PROTEIN (ATU5224) FROM AGROBACTERIUM TUMEFACIENS STR. C58 AT 2.40 A RESOLUTION A9CLJ4 A9CLJ4 2.4 X-RAY DIFFRACTION 92 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 102 102 1vqy-a1-m1-cA_1vqy-a1-m1-cB 1vqy-a1-m1-cD_1vqy-a1-m1-cC 1vqy-a1-m1-cE_1vqy-a1-m1-cF HIVEERIYRIRGGKQEYLKLVREEGIAIQAPILGNLIGYFVTDIGPLSQVIHWGYASLDDRAERRGKLAEDQRWQAFIPRLSVLIESSENRILLPTDFSPLR HIVEERIYRIRGGKQEYLKLVREEGIAIQAPILGNLIGYFVTDIGPLSQVIHWGYASLDDRAERRGKLAEDQRWQAFIPRLSVLIESSENRILLPTDFSPLR 1vqy-a1-m1-cH_1vqy-a1-m1-cB CRYSTAL STRUCTURE OF a NIPSNAP FAMILY PROTEIN (ATU5224) FROM AGROBACTERIUM TUMEFACIENS STR. C58 AT 2.40 A RESOLUTION A9CLJ4 A9CLJ4 2.4 X-RAY DIFFRACTION 25 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 102 111 1vqy-a1-m1-cA_1vqy-a1-m1-cF 1vqy-a1-m1-cA_1vqy-a1-m1-cG 1vqy-a1-m1-cC_1vqy-a1-m1-cH 1vqy-a1-m1-cD_1vqy-a1-m1-cF 1vqy-a1-m1-cD_1vqy-a1-m1-cG 1vqy-a1-m1-cE_1vqy-a1-m1-cB 1vqy-a1-m1-cE_1vqy-a1-m1-cC HIVEERIYRIRGGKQEYLKLVREEGIAIQAPILGNLIGYFVTDIGPLSQVIHWGYASLDDRAERRGKLAEDQRWQAFIPRLSVLIESSENRILLPTDFSPLR SDKIHHHHHHIVEERIYRIRGGKQEYLKLVREEGIAIQAPILGNLIGYFVTDIGPLSQVIHWGYASLDDRAERRGKLAEDQRWQAFIPRLSVLIESSENRILLPTDFSPLR 1vr0-a2-m1-cB_1vr0-a2-m1-cC Crystal structure of putative 2-phosphosulfolactate phosphatase (15026306) from Clostridium acetobutylicum at 2.6 A resolution Q97E82 Q97E82 2.49 X-RAY DIFFRACTION 56 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 228 230 1vr0-a1-m1-cA_1vr0-a1-m2-cA KIDLIISADDIKEEKVKNKTAVVIDLRATSVITTALNNGCKRVVPVLTVEEALKKVKEYGKDAILGGERKGLKIEGFDFSNSPEYTEDVVKGKTLITTTNGTRAIKGSETARDILIGSVLNGEAVAEKIVELNNDVVIVNAGTYGEFSIDDFICSGYIINCVDRKKLELTDAATTAQYVYKTNEDIKGFVKYAKHYKRIELGLKKDFEYCCKKDIVKLVPQYTNGEIL HHKIDLIISADDIKEEKVKNKTAVVIDLRATSVITTALNNGCKRVVPVLTVEEALKKVKEYGKDAILGGERKGLKIEGFDFSNSPEYTEDVVKGKTLITTTNGTRAIKGSETARDILIGSVLNGEAVAEKIVELNNDVVIVNAGTYGEFSIDDFICSGYIINCVDRKKLELTDAATTAQYVYKTNEDIKGFVKYAKHYKRIELGLKKDFEYCCKKDIVKLVPQYTNGEIL 1vr4-a1-m1-cB_1vr4-a1-m1-cC Crystal Structure of MCSG TArget APC22750 from Bacillus cereus Q81H14 Q81H14 2.09 X-RAY DIFFRACTION 56 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 82 99 MIVTTTSGIQGKEIIEYIDIVNGEAIMGAESKLKEARDIAMDEMKELAKQKGANAIVGVDVDYEVVRDGMLMVAVSGTAVRI MIVTTTSGIQGKEIIEYIDIVNGEAIMGANIVRDLFASVGGRAGSYESKLKEARDIAMDEMKELAKQKGANAIVGVDVDYEVVRDGMLMVAVSGTAVRI 1vra-a2-m1-cB_1vra-a2-m2-cB Crystal structure of Arginine biosynthesis bifunctional protein argJ (10175521) from Bacillus halodurans at 2.00 A resolution Q9K8V3 Q9K8V3 2 X-RAY DIFFRACTION 85 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 209 209 TLSFVTTDANIDHGHLQGALSAITNETFNRITVDGDTSTNDVVVASGLAENETLTPEHPDWANFYKALQLACEDLAKQIARDGEGATKLIEVEVTGAANDQEAGVAKQIVGSDLVKTAIYGADANWGRIICAIGYSGCEVNQETIDIAIGPIVTLKQSEPTGFSEEEATAYLKEADPVKISVNLHIGNGTGKAWGCDLTYDYVRINAGY TLSFVTTDANIDHGHLQGALSAITNETFNRITVDGDTSTNDVVVASGLAENETLTPEHPDWANFYKALQLACEDLAKQIARDGEGATKLIEVEVTGAANDQEAGVAKQIVGSDLVKTAIYGADANWGRIICAIGYSGCEVNQETIDIAIGPIVTLKQSEPTGFSEEEATAYLKEADPVKISVNLHIGNGTGKAWGCDLTYDYVRINAGY 1vrd-a2-m2-cB_1vrd-a2-m4-cB Crystal structure of Inosine-5'-monophosphate dehydrogenase (TM1347) from THERMOTOGA MARITIMA at 2.18 A resolution Q9X168 Q9X168 2.18 X-RAY DIFFRACTION 98 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 317 317 1vrd-a1-m1-cA_1vrd-a1-m3-cA 1vrd-a1-m1-cA_1vrd-a1-m4-cA 1vrd-a1-m2-cA_1vrd-a1-m3-cA 1vrd-a1-m2-cA_1vrd-a1-m4-cA 1vrd-a2-m1-cB_1vrd-a2-m3-cB 1vrd-a2-m1-cB_1vrd-a2-m4-cB 1vrd-a2-m2-cB_1vrd-a2-m3-cB MKEALTFDDVLLVPQYSEVLPKDVKIDTRLTRQIRINIPLVSAAMDTVTEAALAKALAREGGIGIIHKNLTPDEQARQVSIVKSVIEHPNAARDEKGRLLVGAAVGTSPETMERVEKLVKAGVDVIVIDTAHGHSRRVIETLEMIKADYPDLPVVAGNVATPEGTEALIKAGADAVKVGVGPGSICTTRVVAGVGVPQLTAVMECSEVARKYDVPIIADGGIRYSGDIVKALAAGAESVMVGSIFAGTEEAPGETILYQGRKYKAYRGMGIEGMVPYKGTVKDVVHQLVGGLRSGMGYIGARTIKELQEKAVFVKIT MKEALTFDDVLLVPQYSEVLPKDVKIDTRLTRQIRINIPLVSAAMDTVTEAALAKALAREGGIGIIHKNLTPDEQARQVSIVKSVIEHPNAARDEKGRLLVGAAVGTSPETMERVEKLVKAGVDVIVIDTAHGHSRRVIETLEMIKADYPDLPVVAGNVATPEGTEALIKAGADAVKVGVGPGSICTTRVVAGVGVPQLTAVMECSEVARKYDVPIIADGGIRYSGDIVKALAAGAESVMVGSIFAGTEEAPGETILYQGRKYKAYRGMGIEGMVPYKGTVKDVVHQLVGGLRSGMGYIGARTIKELQEKAVFVKIT 1vrg-a1-m1-cC_1vrg-a1-m1-cF Crystal structure of propionyl-CoA carboxylase, beta subunit (TM0716) from THERMOTOGA MARITIMA at 2.30 A resolution Q9WZH5 Q9WZH5 2.3 X-RAY DIFFRACTION 347 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 502 502 1vrg-a1-m1-cA_1vrg-a1-m1-cD 1vrg-a1-m1-cB_1vrg-a1-m1-cE SLRDKIEELKKIEKEIEQGGGPEKVEKQHRAGKLTAWERLELLLDPGTFVEIDKFVEHRNTYFGLDKVKLPRDGVITGVGEINGRKVAVFSQDFTVGGSLGEHAKKIVKLLDLALKGIPVIGINDSGGARIQEGVDALAGYGEIFLRNTLASGVVPQITVIAGPCAGGAVYSPALTDFIVVDQTARFITGPNVIKAVTGEEISQEDLGGAVHNQKSGNAHFLADNDEKASLVRTLLSYLPSNNAEEPPVEDPDTSLETPEDILDILPDNPNKGYDVRDVIKRVVDHGEFFEVQPYFAKNIVIGFARIQGKTVGIVANQPSVLAGVLDIDSSDKAARFIRFLDAFNIPILTFVDTPGYLPGVAQEHGGIIRHGAKLLYAYSEATVPKITVILRKAYGGAYIAGSKHLGADVLAWPSAEIAVGPEGAANIIFKREIEASSNPEETRRKLIEEYKQQFANPYIAASRGYVDVIDPRETRKYIRALEVCETKVEYRPKKKHGNIPL SLRDKIEELKKIEKEIEQGGGPEKVEKQHRAGKLTAWERLELLLDPGTFVEIDKFVEHRNTYFGLDKVKLPRDGVITGVGEINGRKVAVFSQDFTVGGSLGEHAKKIVKLLDLALKGIPVIGINDSGGARIQEGVDALAGYGEIFLRNTLASGVVPQITVIAGPCAGGAVYSPALTDFIVVDQTARFITGPNVIKAVTGEEISQEDLGGAVHNQKSGNAHFLADNDEKASLVRTLLSYLPSNNAEEPPVEDPDTSLETPEDILDILPDNPNKGYDVRDVIKRVVDHGEFFEVQPYFAKNIVIGFARIQGKTVGIVANQPSVLAGVLDIDSSDKAARFIRFLDAFNIPILTFVDTPGYLPGVAQEHGGIIRHGAKLLYAYSEATVPKITVILRKAYGGAYIAGSKHLGADVLAWPSAEIAVGPEGAANIIFKREIEASSNPEETRRKLIEEYKQQFANPYIAASRGYVDVIDPRETRKYIRALEVCETKVEYRPKKKHGNIPL 1vrg-a1-m1-cE_1vrg-a1-m1-cF Crystal structure of propionyl-CoA carboxylase, beta subunit (TM0716) from THERMOTOGA MARITIMA at 2.30 A resolution Q9WZH5 Q9WZH5 2.3 X-RAY DIFFRACTION 51 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 502 502 1vrg-a1-m1-cA_1vrg-a1-m1-cB 1vrg-a1-m1-cA_1vrg-a1-m1-cC 1vrg-a1-m1-cB_1vrg-a1-m1-cC 1vrg-a1-m1-cD_1vrg-a1-m1-cE 1vrg-a1-m1-cD_1vrg-a1-m1-cF SLRDKIEELKKIEKEIEQGGGPEKVEKQHRAGKLTAWERLELLLDPGTFVEIDKFVEHRNTYFGLDKVKLPRDGVITGVGEINGRKVAVFSQDFTVGGSLGEHAKKIVKLLDLALKGIPVIGINDSGGARIQEGVDALAGYGEIFLRNTLASGVVPQITVIAGPCAGGAVYSPALTDFIVVDQTARFITGPNVIKAVTGEEISQEDLGGAVHNQKSGNAHFLADNDEKASLVRTLLSYLPSNNAEEPPVEDPDTSLETPEDILDILPDNPNKGYDVRDVIKRVVDHGEFFEVQPYFAKNIVIGFARIQGKTVGIVANQPSVLAGVLDIDSSDKAARFIRFLDAFNIPILTFVDTPGYLPGVAQEHGGIIRHGAKLLYAYSEATVPKITVILRKAYGGAYIAGSKHLGADVLAWPSAEIAVGPEGAANIIFKREIEASSNPEETRRKLIEEYKQQFANPYIAASRGYVDVIDPRETRKYIRALEVCETKVEYRPKKKHGNIPL SLRDKIEELKKIEKEIEQGGGPEKVEKQHRAGKLTAWERLELLLDPGTFVEIDKFVEHRNTYFGLDKVKLPRDGVITGVGEINGRKVAVFSQDFTVGGSLGEHAKKIVKLLDLALKGIPVIGINDSGGARIQEGVDALAGYGEIFLRNTLASGVVPQITVIAGPCAGGAVYSPALTDFIVVDQTARFITGPNVIKAVTGEEISQEDLGGAVHNQKSGNAHFLADNDEKASLVRTLLSYLPSNNAEEPPVEDPDTSLETPEDILDILPDNPNKGYDVRDVIKRVVDHGEFFEVQPYFAKNIVIGFARIQGKTVGIVANQPSVLAGVLDIDSSDKAARFIRFLDAFNIPILTFVDTPGYLPGVAQEHGGIIRHGAKLLYAYSEATVPKITVILRKAYGGAYIAGSKHLGADVLAWPSAEIAVGPEGAANIIFKREIEASSNPEETRRKLIEEYKQQFANPYIAASRGYVDVIDPRETRKYIRALEVCETKVEYRPKKKHGNIPL 1vrp-a1-m1-cA_1vrp-a1-m1-cB The 2.1 Structure of T. californica Creatine Kinase Complexed with the Transition-State Analogue Complex, ADP-Mg 2+ /NO3-/Creatine P04414 P04414 2.1 X-RAY DIFFRACTION 64 1.0 7787 (Tetronarce californica) 7787 (Tetronarce californica) 370 374 LNYSAAEEFPDLSKHNNHMAKALTLDIYKKLRDKETPSGFTLDDIIQTGVDNPGHPFIMTVGCVAGDEECYEVFKDLFDPVIEDRHGGYKPTDKHKTDLNQENLKGGDDLDPNYVLSSRVRTGRSIKGIALPPHCSRGERRLVEKLCIDGLATLTGEFQGKYYPLSSMSDAEQQQLIDDHFLFDKPISPLLLASGMARDWPDGRGIWHNNDKTFLVWVNEEDHLRVISMQKGGNMKEVFRRFCVGLKKIEDIFVKAGRGFMWNEHLGYVLTCPSNLGTGLRGGVHVKIPHLCKHEKFSEVLKRTRLQKRGTGGVDTAAVGSIYDISNADRLGFSEVEQVQMVVDGVKLMVEMEKRLENGKSIDDLMPAQK NKWKLNYSAAEEFPDLSKHNNHMAKALTLDIYKKLRDKETPSGFTLDDIIQTGVDNPGHPFIMTVGCVAGDEECYEVFKDLFDPVIEDRHGGYKPTDKHKTDLNQENLKGGDDLDPNYVLSSRVRTGRSIKGIALPPHCSRGERRLVEKLCIDGLATLTGEFQGKYYPLSSMSDAEQQQLIDDHFLFDKPISPLLLASGMARDWPDGRGIWHNNDKTFLVWVNEEDHLRVISMQKGGNMKEVFRRFCVGLKKIEDIFVKAGRGFMWNEHLGYVLTCPSNLGTGLRGGVHVKIPHLCKHEKFSEVLKRTRLQKRGTGGVDTAAVGSIYDISNADRLGFSEVEQVQMVVDGVKLMVEMEKRLENGKSIDDLMPAQK 1vs1-a1-m1-cA_1vs1-a1-m1-cD Crystal structure of 3-deoxy-D-arabino-heptulosonate-7-phosphate synthase (DAHP synthase) from Aeropyrum pernix in complex with Mn2+ and PEP Q9YEJ7 Q9YEJ7 2.3 X-RAY DIFFRACTION 137 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 270 271 1vs1-a1-m1-cB_1vs1-a1-m1-cC VAGFKGVKLALKSEERRETVVEVEGVRIGGGSKAVIAGPCSVESWEQVREAALAVKEAGAHMLRGGAFKPRTSPYSFQGLGLEGLKLLRRAGDEAGLPVVTEVLDPRHVETVSRYADMLQIGARNMQNFPLLREVGRSGKPVLLKRGFGNTVEELLAAAEYILLEGNWQVVLVERGIRTFEPSTRFTLDVAAVAVLKEATHLPVIVDPSHPAGRRSLVPALAKAGLAAGADGLIVEVHPNPEEALSDAKQQLTPGEFARLMGELRWHRLL PVAGFKGVKLALKSEERRETVVEVEGVRIGGGSKAVIAGPCSVESWEQVREAALAVKEAGAHMLRGGAFKPRTSPYSFQGLGLEGLKLLRRAGDEAGLPVVTEVLDPRHVETVSRYADMLQIGARNMQNFPLLREVGRSGKPVLLKRGFGNTVEELLAAAEYILLEGNWQVVLVERGIRTFEPSTRFTLDVAAVAVLKEATHLPVIVDPSHPAGRRSLVPALAKAGLAAGADGLIVEVHPNPEEALSDAKQQLTPGEFARLMGELRWHRLL 1vs1-a1-m1-cB_1vs1-a1-m1-cD Crystal structure of 3-deoxy-D-arabino-heptulosonate-7-phosphate synthase (DAHP synthase) from Aeropyrum pernix in complex with Mn2+ and PEP Q9YEJ7 Q9YEJ7 2.3 X-RAY DIFFRACTION 71 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 267 271 1vs1-a1-m1-cC_1vs1-a1-m1-cA FKGVKLALKSEERRETVVEVEGVRIGGGSKAVIAGPCSVESWEQVREAALAVKEAGAHMLRGGAFKPRTSPYSFQGLGLEGLKLLRRAGDEAGLPVVTEVLDPRHVETVSRYADMLQIGARNMQNFPLLREVGRSGKPVLLKRGFGNTVEELLAAAEYILLEGNWQVVLVERGIRTFEPSTRFTLDVAAVAVLKEATHLPVIVDPSHPAGRRSLVPALAKAGLAAGADGLIVEVHPNPEEALSDAKQQLTPGEFARLMGELRWHRLL PVAGFKGVKLALKSEERRETVVEVEGVRIGGGSKAVIAGPCSVESWEQVREAALAVKEAGAHMLRGGAFKPRTSPYSFQGLGLEGLKLLRRAGDEAGLPVVTEVLDPRHVETVSRYADMLQIGARNMQNFPLLREVGRSGKPVLLKRGFGNTVEELLAAAEYILLEGNWQVVLVERGIRTFEPSTRFTLDVAAVAVLKEATHLPVIVDPSHPAGRRSLVPALAKAGLAAGADGLIVEVHPNPEEALSDAKQQLTPGEFARLMGELRWHRLL 1vs3-a1-m1-cA_1vs3-a1-m1-cB Crystal Structure of the tRNA Pseudouridine Synthase TruA From Thermus thermophilus HB8 Q5SHU9 Q5SHU9 2.25 X-RAY DIFFRACTION 65 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 249 249 MRRLLLLCEYDGTLFAGLQRQGRGLRTVQGELERALPGIGALPKAVAAGRTDAGVHALAMPFHVDVESAIPVEKVPEALNRLLPEDLKVVGAREVAPDFHARKDALWRAYRYRILVRPHPSPLLRHRALWVRRPLDLEAMEEALSLLLGRHNFLGFAKEETRPGERELLEARLQVAEGEAGLEVRLYFRGKSFLRGQVRGMVGTLLEVGLGKRPPESLKAILKTADRRLAGPTAPAHGLYFVEAAYPEE MRRLLLLCEYDGTLFAGLQRQGRGLRTVQGELERALPGIGALPKAVAAGRTDAGVHALAMPFHVDVESAIPVEKVPEALNRLLPEDLKVVGAREVAPDFHARKDALWRAYRYRILVRPHPSPLLRHRALWVRRPLDLEAMEEALSLLLGRHNFLGFAKEETRPGERELLEARLQVAEGEAGLEVRLYFRGKSFLRGQVRGMVGTLLEVGLGKRPPESLKAILKTADRRLAGPTAPAHGLYFVEAAYPEE 1vsc-a1-m1-cA_1vsc-a1-m1-cB VCAM-1 P19320 P19320 1.9 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 FKIETTPESRYLAQIGDSVSLTCSTTGCESPFFSWRTQIDSPLNGKVTNEGTTSTLTMNPVSFGNEHSYLCTATCESRKLEKGIQVEIYSFPKDPEIHLSGPLEAGKPITVKCSVADVYPFDRLEIDLLKGDHLMKSQEFLEDADRKSLETKSLEVTFTPVIEDIGKVLVCRAKLHIDEMDSVPTVRQAVKELQVD FKIETTPESRYLAQIGDSVSLTCSTTGCESPFFSWRTQIDSPLNGKVTNEGTTSTLTMNPVSFGNEHSYLCTATCESRKLEKGIQVEIYSFPKDPEIHLSGPLEAGKPITVKCSVADVYPFDRLEIDLLKGDHLMKSQEFLEDADRKSLETKSLEVTFTPVIEDIGKVLVCRAKLHIDEMDSVPTVRQAVKELQVD 1vsv-a1-m1-cB_1vsv-a1-m1-cD Crystal Structure of holo-glyceraldehyde 3-phosphate dehydrogenase from Cryptosporidium parvum Q7YYQ9 Q7YYQ9 2 X-RAY DIFFRACTION 33 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 338 338 1vsu-a1-m1-cA_1vsu-a1-m1-cC 1vsu-a1-m1-cB_1vsu-a1-m1-cD 1vsv-a1-m1-cA_1vsv-a1-m1-cC 3cif-a1-m1-cA_3cif-a1-m1-cC 3cif-a1-m1-cB_3cif-a1-m1-cD 3cps-a3-m3-cB_3cps-a3-m1-cA 3cps-a3-m4-cB_3cps-a3-m2-cA TATLGINGFGRIGRLVLRACMERNDITVVAINDPFMDVEYMAYLLKYDSVHGNFNGTVEVSGKDLCINGKVVKVFQAKDPAEIPWGASGAQIVCESTGVFTTEEKASLHLKGGAKKVIISAPPKDNVPMYVMGVNNTEYDPSKFNVISNASCTTNCLAPLAKIINDKFGIVEGLMTTVHSLTANQLTVDGPSKGGKDWRAGRCAGNNIIPASTGAAKAVGKVIPALNGKLTGMAIRVPTPDVSVVDLTCKLAKPASIEEIYQAVKEASNGPMKGIMGYTSDDVVSTDFIGCKYSSIFDKNACIALNDSFVKLISWYDNESGYSNRLVDLAVYVASRGL TATLGINGFGRIGRLVLRACMERNDITVVAINDPFMDVEYMAYLLKYDSVHGNFNGTVEVSGKDLCINGKVVKVFQAKDPAEIPWGASGAQIVCESTGVFTTEEKASLHLKGGAKKVIISAPPKDNVPMYVMGVNNTEYDPSKFNVISNASCTTNCLAPLAKIINDKFGIVEGLMTTVHSLTANQLTVDGPSKGGKDWRAGRCAGNNIIPASTGAAKAVGKVIPALNGKLTGMAIRVPTPDVSVVDLTCKLAKPASIEEIYQAVKEASNGPMKGIMGYTSDDVVSTDFIGCKYSSIFDKNACIALNDSFVKLISWYDNESGYSNRLVDLAVYVASRGL 1vsv-a2-m1-cA_1vsv-a2-m1-cB Crystal Structure of holo-glyceraldehyde 3-phosphate dehydrogenase from Cryptosporidium parvum Q7YYQ9 Q7YYQ9 2 X-RAY DIFFRACTION 140 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 338 338 1vsu-a1-m1-cA_1vsu-a1-m1-cB 1vsu-a1-m1-cC_1vsu-a1-m1-cD 1vsu-a2-m1-cA_1vsu-a2-m1-cB 1vsu-a3-m1-cC_1vsu-a3-m1-cD 1vsv-a1-m1-cA_1vsv-a1-m1-cB 1vsv-a1-m1-cC_1vsv-a1-m1-cD 1vsv-a3-m1-cC_1vsv-a3-m1-cD 3cif-a1-m1-cA_3cif-a1-m1-cB 3cif-a1-m1-cC_3cif-a1-m1-cD 3cif-a2-m1-cC_3cif-a2-m1-cD 3cif-a3-m1-cA_3cif-a3-m1-cB 3cps-a3-m1-cA_3cps-a3-m2-cA 3cps-a3-m3-cB_3cps-a3-m4-cB TATLGINGFGRIGRLVLRACMERNDITVVAINDPFMDVEYMAYLLKYDSVHGNFNGTVEVSGKDLCINGKVVKVFQAKDPAEIPWGASGAQIVCESTGVFTTEEKASLHLKGGAKKVIISAPPKDNVPMYVMGVNNTEYDPSKFNVISNASCTTNCLAPLAKIINDKFGIVEGLMTTVHSLTANQLTVDGPSKGGKDWRAGRCAGNNIIPASTGAAKAVGKVIPALNGKLTGMAIRVPTPDVSVVDLTCKLAKPASIEEIYQAVKEASNGPMKGIMGYTSDDVVSTDFIGCKYSSIFDKNACIALNDSFVKLISWYDNESGYSNRLVDLAVYVASRGL TATLGINGFGRIGRLVLRACMERNDITVVAINDPFMDVEYMAYLLKYDSVHGNFNGTVEVSGKDLCINGKVVKVFQAKDPAEIPWGASGAQIVCESTGVFTTEEKASLHLKGGAKKVIISAPPKDNVPMYVMGVNNTEYDPSKFNVISNASCTTNCLAPLAKIINDKFGIVEGLMTTVHSLTANQLTVDGPSKGGKDWRAGRCAGNNIIPASTGAAKAVGKVIPALNGKLTGMAIRVPTPDVSVVDLTCKLAKPASIEEIYQAVKEASNGPMKGIMGYTSDDVVSTDFIGCKYSSIFDKNACIALNDSFVKLISWYDNESGYSNRLVDLAVYVASRGL 1vsv-a5-m1-cB_1vsv-a5-m1-cC Crystal Structure of holo-glyceraldehyde 3-phosphate dehydrogenase from Cryptosporidium parvum Q7YYQ9 Q7YYQ9 2 X-RAY DIFFRACTION 93 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 338 338 1vsu-a1-m1-cA_1vsu-a1-m1-cD 1vsu-a1-m1-cB_1vsu-a1-m1-cC 1vsv-a1-m1-cA_1vsv-a1-m1-cD 1vsv-a1-m1-cB_1vsv-a1-m1-cC 1vsv-a4-m1-cA_1vsv-a4-m1-cD 3cif-a1-m1-cA_3cif-a1-m1-cD 3cif-a1-m1-cB_3cif-a1-m1-cC 3cif-a4-m1-cB_3cif-a4-m1-cC 3cif-a5-m1-cA_3cif-a5-m1-cD 3cps-a3-m3-cB_3cps-a3-m2-cA 3cps-a3-m4-cB_3cps-a3-m1-cA TATLGINGFGRIGRLVLRACMERNDITVVAINDPFMDVEYMAYLLKYDSVHGNFNGTVEVSGKDLCINGKVVKVFQAKDPAEIPWGASGAQIVCESTGVFTTEEKASLHLKGGAKKVIISAPPKDNVPMYVMGVNNTEYDPSKFNVISNASCTTNCLAPLAKIINDKFGIVEGLMTTVHSLTANQLTVDGPSKGGKDWRAGRCAGNNIIPASTGAAKAVGKVIPALNGKLTGMAIRVPTPDVSVVDLTCKLAKPASIEEIYQAVKEASNGPMKGIMGYTSDDVVSTDFIGCKYSSIFDKNACIALNDSFVKLISWYDNESGYSNRLVDLAVYVASRGL TATLGINGFGRIGRLVLRACMERNDITVVAINDPFMDVEYMAYLLKYDSVHGNFNGTVEVSGKDLCINGKVVKVFQAKDPAEIPWGASGAQIVCESTGVFTTEEKASLHLKGGAKKVIISAPPKDNVPMYVMGVNNTEYDPSKFNVISNASCTTNCLAPLAKIINDKFGIVEGLMTTVHSLTANQLTVDGPSKGGKDWRAGRCAGNNIIPASTGAAKAVGKVIPALNGKLTGMAIRVPTPDVSVVDLTCKLAKPASIEEIYQAVKEASNGPMKGIMGYTSDDVVSTDFIGCKYSSIFDKNACIALNDSFVKLISWYDNESGYSNRLVDLAVYVASRGL 1vtm-a1-m1-cP_1vtm-a1-m9-cP STRUCTURE OF THE U2 STRAIN OF TOBACCO MOSAIC VIRUS REFINED AT 3.5 ANGSTROMS RESOLUTION USING X-RAY FIBER DIFFRACTION P03579 P03579 3.5 FIBER DIFFRACTION 54 1.0 12241 (Tobacco mild green mosaic virus) 12241 (Tobacco mild green mosaic virus) 158 158 1vtm-a1-m10-cP_1vtm-a1-m26-cP 1vtm-a1-m11-cP_1vtm-a1-m27-cP 1vtm-a1-m12-cP_1vtm-a1-m28-cP 1vtm-a1-m13-cP_1vtm-a1-m29-cP 1vtm-a1-m14-cP_1vtm-a1-m30-cP 1vtm-a1-m15-cP_1vtm-a1-m31-cP 1vtm-a1-m16-cP_1vtm-a1-m32-cP 1vtm-a1-m17-cP_1vtm-a1-m33-cP 1vtm-a1-m18-cP_1vtm-a1-m2-cP 1vtm-a1-m18-cP_1vtm-a1-m34-cP 1vtm-a1-m19-cP_1vtm-a1-m35-cP 1vtm-a1-m19-cP_1vtm-a1-m3-cP 1vtm-a1-m1-cP_1vtm-a1-m41-cP 1vtm-a1-m20-cP_1vtm-a1-m36-cP 1vtm-a1-m20-cP_1vtm-a1-m4-cP 1vtm-a1-m21-cP_1vtm-a1-m37-cP 1vtm-a1-m21-cP_1vtm-a1-m5-cP 1vtm-a1-m22-cP_1vtm-a1-m38-cP 1vtm-a1-m22-cP_1vtm-a1-m6-cP 1vtm-a1-m23-cP_1vtm-a1-m39-cP 1vtm-a1-m23-cP_1vtm-a1-m7-cP 1vtm-a1-m24-cP_1vtm-a1-m40-cP 1vtm-a1-m24-cP_1vtm-a1-m8-cP 1vtm-a1-m26-cP_1vtm-a1-m42-cP 1vtm-a1-m27-cP_1vtm-a1-m43-cP 1vtm-a1-m28-cP_1vtm-a1-m44-cP 1vtm-a1-m29-cP_1vtm-a1-m45-cP 1vtm-a1-m30-cP_1vtm-a1-m46-cP 1vtm-a1-m31-cP_1vtm-a1-m47-cP 1vtm-a1-m32-cP_1vtm-a1-m48-cP 1vtm-a1-m33-cP_1vtm-a1-m49-cP PYTINSPSQFVYLSSAYADPVELINLCTNALGNQFQTQQARTTVQQQFADAWKPSPVMTVRFPASDFYVYRYNSTLDPLITALLNSFDTRNRIIEVNNQPAPNTTEIVNATQRVDDATVAIRASINNLANELVRGTGMFNQAGFETASGLVWTTTPAT PYTINSPSQFVYLSSAYADPVELINLCTNALGNQFQTQQARTTVQQQFADAWKPSPVMTVRFPASDFYVYRYNSTLDPLITALLNSFDTRNRIIEVNNQPAPNTTEIVNATQRVDDATVAIRASINNLANELVRGTGMFNQAGFETASGLVWTTTPAT 1vtm-a1-m26-cP_1vtm-a1-m9-cP STRUCTURE OF THE U2 STRAIN OF TOBACCO MOSAIC VIRUS REFINED AT 3.5 ANGSTROMS RESOLUTION USING X-RAY FIBER DIFFRACTION P03579 P03579 3.5 FIBER DIFFRACTION 17 1.0 12241 (Tobacco mild green mosaic virus) 12241 (Tobacco mild green mosaic virus) 158 158 1vtm-a1-m10-cP_1vtm-a1-m27-cP 1vtm-a1-m11-cP_1vtm-a1-m28-cP 1vtm-a1-m12-cP_1vtm-a1-m29-cP 1vtm-a1-m13-cP_1vtm-a1-m30-cP 1vtm-a1-m14-cP_1vtm-a1-m31-cP 1vtm-a1-m15-cP_1vtm-a1-m32-cP 1vtm-a1-m16-cP_1vtm-a1-m33-cP 1vtm-a1-m17-cP_1vtm-a1-m34-cP 1vtm-a1-m18-cP_1vtm-a1-m35-cP 1vtm-a1-m19-cP_1vtm-a1-m2-cP 1vtm-a1-m19-cP_1vtm-a1-m36-cP 1vtm-a1-m1-cP_1vtm-a1-m42-cP 1vtm-a1-m1-cP_1vtm-a1-m8-cP 1vtm-a1-m20-cP_1vtm-a1-m37-cP 1vtm-a1-m20-cP_1vtm-a1-m3-cP 1vtm-a1-m21-cP_1vtm-a1-m38-cP 1vtm-a1-m21-cP_1vtm-a1-m4-cP 1vtm-a1-m22-cP_1vtm-a1-m39-cP 1vtm-a1-m22-cP_1vtm-a1-m5-cP 1vtm-a1-m23-cP_1vtm-a1-m40-cP 1vtm-a1-m23-cP_1vtm-a1-m6-cP 1vtm-a1-m24-cP_1vtm-a1-m41-cP 1vtm-a1-m24-cP_1vtm-a1-m7-cP 1vtm-a1-m26-cP_1vtm-a1-m43-cP 1vtm-a1-m27-cP_1vtm-a1-m44-cP 1vtm-a1-m28-cP_1vtm-a1-m45-cP 1vtm-a1-m29-cP_1vtm-a1-m46-cP 1vtm-a1-m30-cP_1vtm-a1-m47-cP 1vtm-a1-m31-cP_1vtm-a1-m48-cP 1vtm-a1-m32-cP_1vtm-a1-m49-cP PYTINSPSQFVYLSSAYADPVELINLCTNALGNQFQTQQARTTVQQQFADAWKPSPVMTVRFPASDFYVYRYNSTLDPLITALLNSFDTRNRIIEVNNQPAPNTTEIVNATQRVDDATVAIRASINNLANELVRGTGMFNQAGFETASGLVWTTTPAT PYTINSPSQFVYLSSAYADPVELINLCTNALGNQFQTQQARTTVQQQFADAWKPSPVMTVRFPASDFYVYRYNSTLDPLITALLNSFDTRNRIIEVNNQPAPNTTEIVNATQRVDDATVAIRASINNLANELVRGTGMFNQAGFETASGLVWTTTPAT 1vtm-a1-m8-cP_1vtm-a1-m9-cP STRUCTURE OF THE U2 STRAIN OF TOBACCO MOSAIC VIRUS REFINED AT 3.5 ANGSTROMS RESOLUTION USING X-RAY FIBER DIFFRACTION P03579 P03579 3.5 FIBER DIFFRACTION 89 1.0 12241 (Tobacco mild green mosaic virus) 12241 (Tobacco mild green mosaic virus) 158 158 1vtm-a1-m10-cP_1vtm-a1-m11-cP 1vtm-a1-m10-cP_1vtm-a1-m9-cP 1vtm-a1-m11-cP_1vtm-a1-m12-cP 1vtm-a1-m12-cP_1vtm-a1-m13-cP 1vtm-a1-m13-cP_1vtm-a1-m14-cP 1vtm-a1-m14-cP_1vtm-a1-m15-cP 1vtm-a1-m15-cP_1vtm-a1-m16-cP 1vtm-a1-m16-cP_1vtm-a1-m17-cP 1vtm-a1-m17-cP_1vtm-a1-m18-cP 1vtm-a1-m18-cP_1vtm-a1-m19-cP 1vtm-a1-m19-cP_1vtm-a1-m20-cP 1vtm-a1-m1-cP_1vtm-a1-m24-cP 1vtm-a1-m1-cP_1vtm-a1-m26-cP 1vtm-a1-m20-cP_1vtm-a1-m21-cP 1vtm-a1-m21-cP_1vtm-a1-m22-cP 1vtm-a1-m22-cP_1vtm-a1-m23-cP 1vtm-a1-m23-cP_1vtm-a1-m24-cP 1vtm-a1-m26-cP_1vtm-a1-m27-cP 1vtm-a1-m27-cP_1vtm-a1-m28-cP 1vtm-a1-m28-cP_1vtm-a1-m29-cP 1vtm-a1-m29-cP_1vtm-a1-m30-cP 1vtm-a1-m2-cP_1vtm-a1-m3-cP 1vtm-a1-m30-cP_1vtm-a1-m31-cP 1vtm-a1-m31-cP_1vtm-a1-m32-cP 1vtm-a1-m32-cP_1vtm-a1-m33-cP 1vtm-a1-m33-cP_1vtm-a1-m34-cP 1vtm-a1-m34-cP_1vtm-a1-m35-cP 1vtm-a1-m35-cP_1vtm-a1-m36-cP 1vtm-a1-m36-cP_1vtm-a1-m37-cP 1vtm-a1-m37-cP_1vtm-a1-m38-cP 1vtm-a1-m38-cP_1vtm-a1-m39-cP 1vtm-a1-m39-cP_1vtm-a1-m40-cP 1vtm-a1-m3-cP_1vtm-a1-m4-cP 1vtm-a1-m40-cP_1vtm-a1-m41-cP 1vtm-a1-m41-cP_1vtm-a1-m42-cP 1vtm-a1-m42-cP_1vtm-a1-m43-cP 1vtm-a1-m43-cP_1vtm-a1-m44-cP 1vtm-a1-m44-cP_1vtm-a1-m45-cP 1vtm-a1-m45-cP_1vtm-a1-m46-cP 1vtm-a1-m46-cP_1vtm-a1-m47-cP 1vtm-a1-m47-cP_1vtm-a1-m48-cP 1vtm-a1-m48-cP_1vtm-a1-m49-cP 1vtm-a1-m4-cP_1vtm-a1-m5-cP 1vtm-a1-m5-cP_1vtm-a1-m6-cP 1vtm-a1-m6-cP_1vtm-a1-m7-cP 1vtm-a1-m7-cP_1vtm-a1-m8-cP PYTINSPSQFVYLSSAYADPVELINLCTNALGNQFQTQQARTTVQQQFADAWKPSPVMTVRFPASDFYVYRYNSTLDPLITALLNSFDTRNRIIEVNNQPAPNTTEIVNATQRVDDATVAIRASINNLANELVRGTGMFNQAGFETASGLVWTTTPAT PYTINSPSQFVYLSSAYADPVELINLCTNALGNQFQTQQARTTVQQQFADAWKPSPVMTVRFPASDFYVYRYNSTLDPLITALLNSFDTRNRIIEVNNQPAPNTTEIVNATQRVDDATVAIRASINNLANELVRGTGMFNQAGFETASGLVWTTTPAT 1vub-a3-m4-cD_1vub-a3-m2-cB CCDB, A TOPOISOMERASE POISON FROM E. COLI P62554 P62554 2.6 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 101 1vub-a3-m1-cA_1vub-a3-m2-cB 1vub-a3-m1-cA_1vub-a3-m3-cC 1vub-a3-m2-cA_1vub-a3-m1-cB 1vub-a3-m2-cA_1vub-a3-m4-cC 1vub-a3-m3-cD_1vub-a3-m1-cB 2vub-a1-m1-cB_2vub-a1-m1-cC 2vub-a1-m1-cB_2vub-a1-m1-cF 2vub-a1-m1-cD_2vub-a1-m1-cA 2vub-a1-m1-cD_2vub-a1-m1-cH 2vub-a1-m1-cE_2vub-a1-m1-cA 2vub-a1-m1-cG_2vub-a1-m1-cC MQFKVYTYKYRLFVDVQSDIIDTPGRRMVIPLASARLLSDKVSRELYPVVHIGDESWRMMTTDMASVPVSVIGEEVADLSHRENDIKNAINLMFWGI MQFKVYTYKRESRYRLFVDVQSDIIDTPGRRMVIPLASARLLSDKVSRELYPVVHIGDESWRMMTTDMASVPVSVIGEEVADLSHRENDIKNAINLMFWGI 1vub-a3-m4-cD_1vub-a3-m3-cC CCDB, A TOPOISOMERASE POISON FROM E. COLI P62554 P62554 2.6 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 101 1vub-a3-m3-cD_1vub-a3-m4-cC MQFKVYTYKYRLFVDVQSDIIDTPGRRMVIPLASARLLSDKVSRELYPVVHIGDESWRMMTTDMASVPVSVIGEEVADLSHRENDIKNAINLMFWGI MQFKVYTYKRESRYRLFVDVQSDIIDTPGRRMVIPLASARLLSDKVSRELYPVVHIGDESWRMMTTDMASVPVSVIGEEVADLSHRENDIKNAINLMFWGI 1vub-a3-m4-cD_1vub-a3-m4-cC CCDB, A TOPOISOMERASE POISON FROM E. COLI P62554 P62554 2.6 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 97 101 1vub-a1-m1-cA_1vub-a1-m1-cB 1vub-a2-m1-cD_1vub-a2-m1-cC 1vub-a3-m1-cA_1vub-a3-m1-cB 1vub-a3-m2-cA_1vub-a3-m2-cB 1vub-a3-m3-cD_1vub-a3-m3-cC 1x75-a1-m1-cD_1x75-a1-m1-cC 2vub-a1-m1-cB_2vub-a1-m1-cA 2vub-a1-m1-cD_2vub-a1-m1-cC 2vub-a1-m1-cE_2vub-a1-m1-cF 2vub-a1-m1-cG_2vub-a1-m1-cH 3g7z-a1-m1-cA_3g7z-a1-m1-cB 3hpw-a1-m1-cA_3hpw-a1-m1-cB 3vub-a1-m1-cA_3vub-a1-m2-cA 4vub-a1-m1-cA_4vub-a1-m2-cA 7epg-a1-m1-cA_7epg-a1-m2-cA 7epi-a1-m1-cA_7epi-a1-m2-cA 7epj-a1-m1-cA_7epj-a1-m2-cA MQFKVYTYKYRLFVDVQSDIIDTPGRRMVIPLASARLLSDKVSRELYPVVHIGDESWRMMTTDMASVPVSVIGEEVADLSHRENDIKNAINLMFWGI MQFKVYTYKRESRYRLFVDVQSDIIDTPGRRMVIPLASARLLSDKVSRELYPVVHIGDESWRMMTTDMASVPVSVIGEEVADLSHRENDIKNAINLMFWGI 1vya-a2-m1-cD_1vya-a2-m1-cJ Identification and characterization of the first plant G-quadruplex binding protein encoded by the Zea mays L. nucleoside diphosphate1 gene, ZmNDPK1 B4FK49 B4FK49 2.05 X-RAY DIFFRACTION 70 1.0 4577 (Zea mays) 4577 (Zea mays) 149 149 1vya-a1-m1-cA_1vya-a1-m1-cF 1vya-a1-m1-cC_1vya-a1-m1-cI 1vya-a1-m1-cE_1vya-a1-m1-cK 1vya-a2-m1-cB_1vya-a2-m1-cG 1vya-a2-m1-cH_1vya-a2-m1-cL MESTFIMIKPDGVQRGLIGEIISRFEKKGFYLKALKLVNVERSFAEKHYADLASKPFFQGLVDYIISGPVVAMVWEGKSVVTTGRKIIGATNPLASEPGTIRGDFAVDIGRNVIHGSDSIESANKEIALWFPEGLADWQSSQHPWIYEK MESTFIMIKPDGVQRGLIGEIISRFEKKGFYLKALKLVNVERSFAEKHYADLASKPFFQGLVDYIISGPVVAMVWEGKSVVTTGRKIIGATNPLASEPGTIRGDFAVDIGRNVIHGSDSIESANKEIALWFPEGLADWQSSQHPWIYEK 1vya-a2-m1-cG_1vya-a2-m1-cJ Identification and characterization of the first plant G-quadruplex binding protein encoded by the Zea mays L. nucleoside diphosphate1 gene, ZmNDPK1 B4FK49 B4FK49 2.05 X-RAY DIFFRACTION 52 1.0 4577 (Zea mays) 4577 (Zea mays) 149 149 1vya-a1-m1-cA_1vya-a1-m1-cI 1vya-a1-m1-cA_1vya-a1-m1-cK 1vya-a1-m1-cC_1vya-a1-m1-cE 1vya-a1-m1-cC_1vya-a1-m1-cF 1vya-a1-m1-cE_1vya-a1-m1-cF 1vya-a1-m1-cI_1vya-a1-m1-cK 1vya-a2-m1-cB_1vya-a2-m1-cD 1vya-a2-m1-cB_1vya-a2-m1-cH 1vya-a2-m1-cD_1vya-a2-m1-cH 1vya-a2-m1-cG_1vya-a2-m1-cL 1vya-a2-m1-cJ_1vya-a2-m1-cL MESTFIMIKPDGVQRGLIGEIISRFEKKGFYLKALKLVNVERSFAEKHYADLASKPFFQGLVDYIISGPVVAMVWEGKSVVTTGRKIIGATNPLASEPGTIRGDFAVDIGRNVIHGSDSIESANKEIALWFPEGLADWQSSQHPWIYEK MESTFIMIKPDGVQRGLIGEIISRFEKKGFYLKALKLVNVERSFAEKHYADLASKPFFQGLVDYIISGPVVAMVWEGKSVVTTGRKIIGATNPLASEPGTIRGDFAVDIGRNVIHGSDSIESANKEIALWFPEGLADWQSSQHPWIYEK 1vyh-a5-m1-cQ_1vyh-a5-m1-cR PAF-AH Holoenzyme: Lis1/Alfa2 P68402 P68402 3.4 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 1vyh-a1-m1-cA_1vyh-a1-m1-cB 1vyh-a2-m1-cE_1vyh-a2-m1-cF 1vyh-a3-m1-cI_1vyh-a3-m1-cJ 1vyh-a4-m1-cM_1vyh-a4-m1-cN SNPAAIPHAAEDIQGDDRWMSQHNRFVLDCKDKEPDVLFVGDSMVQLMQQYEIWRELFSPLHALNFGIGGDTTRHVLWRLKNGELENIKPKVIVVWVGTNNHENTAEEVAGGIEAIVQLINTRQPQAKIIVLGLLPRGEKPNPLRQKNAKVNQLLKVSLPKLANVQLLDTDGGFVHSDGAISCHDMFDFLHLTGGGYAKICKPLHELIMQLLEETPEE SNPAAIPHAAEDIQGDDRWMSQHNRFVLDCKDKEPDVLFVGDSMVQLMQQYEIWRELFSPLHALNFGIGGDTTRHVLWRLKNGELENIKPKVIVVWVGTNNHENTAEEVAGGIEAIVQLINTRQPQAKIIVLGLLPRGEKPNPLRQKNAKVNQLLKVSLPKLANVQLLDTDGGFVHSDGAISCHDMFDFLHLTGGGYAKICKPLHELIMQLLEETPEE 1vz0-a4-m1-cF_1vz0-a4-m1-cE Chromosome segregation protein Spo0J from Thermus thermophilus Q72H91 Q72H91 2.3 X-RAY DIFFRACTION 238 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 188 191 1vz0-a1-m1-cA_1vz0-a1-m1-cC 1vz0-a2-m1-cG_1vz0-a2-m1-cB 1vz0-a3-m1-cH_1vz0-a3-m1-cD VVRLPLASIRPNPRQPRKRFAEESLKELADSIREKGLLQPLLVRPQGDGYELVAGERRYRAALMAGLQEVPAVVKDLTDREALELALVENLQREDLSPVEEARGYQALLEMGLTQEEVARRVGKARSTVANALRLLQLPPEALEALERGEITAGHARALLMLEPEDRLWGLKEILEKGLSVRQAEALR VVRLPLASIRPNPRQPRKRFAEESLKELADSIREKGLLQPLLVRPQGDGYELVAGERRYRAALMAGLQEVPAVVKDLTDREALELALVENLQREDLSPVEEARGYQALLEMGLTQEEVARRVGKARSTVANALRLLQLPPEALEALERGEITAGHARALLMLEPEDRLWGLKEILEKGLSVRQAEALRERL 1vz5-a1-m1-cC_1vz5-a1-m1-cB Succinate Complex of AtsK Q9WWU5 Q9WWU5 2.15 X-RAY DIFFRACTION 59 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 244 254 1oih-a1-m1-cC_1oih-a1-m1-cB 1oih-a1-m1-cD_1oih-a1-m1-cA 1oik-a1-m1-cA_1oik-a1-m1-cD 1oik-a1-m2-cA_1oik-a1-m2-cD 1vz4-a1-m1-cA_1vz4-a1-m1-cD 1vz4-a1-m2-cA_1vz4-a1-m2-cD 1vz5-a1-m1-cD_1vz5-a1-m1-cA LELDVHPVAGRIGAEIRGVKLSPDLDAATVEAIQAALVRHKVIFFRGQTHLDDQSQEGFAKLLGEPVRYLLQLRANSWHTDVTFVEAYPKASILRSVVAPASGGDTVWANTAAAYQELPEPLRELADKLWAVHSNEYETEHPVVRVHPISGERALQLGHFVKRIKGYSLADSQHLFAVLQGHVTRLENTVRWRWEAGDVAIWDNRATQHYAVDDYGTQPRIVRRVTLAGEVPVGVDGQLSRTTR LELDVHPVAGRIGAEIRGVKLSPDLDAATVEAIQAALVRHKVIFFRGQTHLDDQSQEGFAKLLGEPVAPVVDGTRYLLQLDRANSWHTDVTFVEAYPKASILRSVVAPASGGDTVWANTAAAYQELPEPLRELADKLWAVHSNEVYETEHPVVRVHPISGERALQLGHFVKRIKGYSLADSQHLFAVLQGHVTRLENTVRWRWEAGDVAIWDNRATQHYAVDDYGTQPRIVRRVTLAGEVPVGVDGQLSRTTRK 1vzj-a2-m1-cF_1vzj-a2-m1-cG Structure of the tetramerization domain of acetylcholinesterase: four-fold interaction of a WWW motif with a left-handed polyproline helix P22303 P22303 2.35 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 33 33 1vzj-a1-m1-cA_1vzj-a1-m1-cB 1vzj-a1-m1-cB_1vzj-a1-m1-cC 1vzj-a1-m1-cC_1vzj-a1-m1-cD 1vzj-a2-m1-cE_1vzj-a2-m1-cF 1vzj-a2-m1-cH_1vzj-a2-m1-cG DTLDEAERQWKAEFHRWSSYVHWKNQFDHYSKQ DTLDEAERQWKAEFHRWSSYVHWKNQFDHYSKQ 1vzv-a1-m1-cA_1vzv-a1-m2-cA STRUCTURE OF VARICELLA-ZOSTER VIRUS PROTEASE P09286 P09286 3 X-RAY DIFFRACTION 71 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 211 211 EALYVAGYLALYSKDEGELNITPEIVRSALPPTSKIPINIDHRKDCVVGEVIAIIEDIRGPFFLGIVRCPQLHAVLFEAAHSNFFGNRDSVLSPLERALYLVTNYLPSVSLSSKRLFTHVALCVVGRRVGTVVNYDCTPESSIEPFRVLSMESKARLLSLVKDYAGLNKVWKVSEDKLAKVLLSTAVNNMLLRDRWDVVAKRRREAGIMGH EALYVAGYLALYSKDEGELNITPEIVRSALPPTSKIPINIDHRKDCVVGEVIAIIEDIRGPFFLGIVRCPQLHAVLFEAAHSNFFGNRDSVLSPLERALYLVTNYLPSVSLSSKRLFTHVALCVVGRRVGTVVNYDCTPESSIEPFRVLSMESKARLLSLVKDYAGLNKVWKVSEDKLAKVLLSTAVNNMLLRDRWDVVAKRRREAGIMGH 1vzy-a1-m2-cB_1vzy-a1-m1-cA Crystal structure of the Bacillus subtilis HSP33 P37565 P37565 1.97 X-RAY DIFFRACTION 68 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 286 290 1vzy-a1-m1-cB_1vzy-a1-m2-cA MDYLVKALAYDGKVRAYAARTTDMVNEGQRRHGTWPTASAALGRTMTASLMLGAMLKGDDKLTVKIEGGGPIGAIVADANAKGEVRAYVSNPQVHFDLNAAGKLDVRRAVGTNGTLSVVKDLGLREFFTGQVEIVSGELGDDFTYYLVSSEQVPSSVGVGVLVNPDNTILAAGGFIIQLMPGTDDETITKIEQRLSQVEPISKLIQKGLTPEEILEEVLGEKPEILETMPVRFHCPCSKERFETAILGLGKKEIQDMIEEDGQAEAVCHFCNEKYLFTKEELEGLR MDYLVKALAYDGKVRAYAARTTDMVNEGQRRHGTWPTASAALGRTMTASLMLGAMLKGDDKLTVKIEGGGPIGAIVADANAKGEVRAYVSNPQVHFDLNAAGKLDVRRAVGTNGTLSVVKDLGLREFFTGQVEIVSGELGDDFTYYLVSSEQVPSSVGVGVLVNPDNTILAAGGFIIQLMPGTDDETITKIEQRLSQVEPISKLIQKGLTPEEILEEVLGEKPEILETMPVRFHCPCSKERFETAILGLGKKEIQDMIEEDGQAEAVCHFCNEKYLFTKEELEGLRDQTT 1vzy-a1-m2-cB_1vzy-a1-m2-cA Crystal structure of the Bacillus subtilis HSP33 P37565 P37565 1.97 X-RAY DIFFRACTION 71 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 286 290 1vzy-a1-m1-cB_1vzy-a1-m1-cA MDYLVKALAYDGKVRAYAARTTDMVNEGQRRHGTWPTASAALGRTMTASLMLGAMLKGDDKLTVKIEGGGPIGAIVADANAKGEVRAYVSNPQVHFDLNAAGKLDVRRAVGTNGTLSVVKDLGLREFFTGQVEIVSGELGDDFTYYLVSSEQVPSSVGVGVLVNPDNTILAAGGFIIQLMPGTDDETITKIEQRLSQVEPISKLIQKGLTPEEILEEVLGEKPEILETMPVRFHCPCSKERFETAILGLGKKEIQDMIEEDGQAEAVCHFCNEKYLFTKEELEGLR MDYLVKALAYDGKVRAYAARTTDMVNEGQRRHGTWPTASAALGRTMTASLMLGAMLKGDDKLTVKIEGGGPIGAIVADANAKGEVRAYVSNPQVHFDLNAAGKLDVRRAVGTNGTLSVVKDLGLREFFTGQVEIVSGELGDDFTYYLVSSEQVPSSVGVGVLVNPDNTILAAGGFIIQLMPGTDDETITKIEQRLSQVEPISKLIQKGLTPEEILEEVLGEKPEILETMPVRFHCPCSKERFETAILGLGKKEIQDMIEEDGQAEAVCHFCNEKYLFTKEELEGLRDQTT 1w07-a1-m1-cA_1w07-a1-m1-cB Arabidopsis thaliana acyl-CoA oxidase 1 O65202 O65202 2 X-RAY DIFFRACTION 361 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 655 658 EGIDHLADERNKAEFDVEDMKIVWAGSRHAFEVSDRIARLVASDPVFEKSNRARLSRKELFKSTLRKCAHAFKRIIELRLNEEEAGRLRHFIDQPAYVDLHWGMFVPAIKGQGTEEQQKKWLSLANKMQIIGCYAQTELGHGSNVQGLETTATLDPKTDEFVIHTPTQTASKWWPGGLGKVSTHAVVYARLITNGKDYGIHGFIVQLRSLEDHSPLPNITVGDIGTKMGNGAYNSMDNGFLMFDHVRIPRDQMLMRLSKVTREGEYVPSDVPKQLVYGTMVYVRQTIVADASNALSRAVCIATRYSAVRRQFGAGIETQVIDYKTQQNRLFPLLASAYAFRFVGEWLKWLYTDVTERLAASDFATLPEAHACTAGLKSLTTTATADGIEECRKLCGGHGYLWCSGLPELFAVYVPACTYEGDNVVLQLQVARFLMKTVAQLGSGKVPVGTTAYMGRAAHLLQCRSGVQKAEDWLNPDVVLEAFEARALRMAVTCAKNLSKFENQEQGFQELLADLVEAAIAHCQLIVVSKFIAKLEQDIGGKGVKKQLNNLCYIYALYLLHKHLGDFLSTNCITPKQASLANDQLRSLYTQVRPNAVALVDAFNYTDHYLNSVLGRYDGNVYPKLFEEALKDPLNDSVVPDGYQEYLRPVLQQQL EGIDHLADERNKAEFDVEDMKIVWAGSRHAFEVSDRIARLVASDPVFEKSNRARLSRKELFKSTLRKCAHAFKRIIELRLNEEEAGRLRHFIDQPAYVDLHWGMFVPAIKGQGTEEQQKKWLSLANKMQIIGCYAQTELGHGSNVQGLETTATLDPKTDEFVIHTPTQTASKWWPGGLGKVSTHAVVYARLITNGKDYGIHGFIVQLRSLEDHSPLPNITVGDIGTKMGNGAYNSMDNGFLMFDHVRIPRDQMLMRLSKVTREGEYVPSDVPKQLVYGTMVYVRQTIVADASNALSRAVCIATRYSAVRRQFGAHNGGIETQVIDYKTQQNRLFPLLASAYAFRFVGEWLKWLYTDVTERLAASDFATLPEAHACTAGLKSLTTTATADGIEECRKLCGGHGYLWCSGLPELFAVYVPACTYEGDNVVLQLQVARFLMKTVAQLGSGKVPVGTTAYMGRAAHLLQCRSGVQKAEDWLNPDVVLEAFEARALRMAVTCAKNLSKFENQEQGFQELLADLVEAAIAHCQLIVVSKFIAKLEQDIGGKGVKKQLNNLCYIYALYLLHKHLGDFLSTNCITPKQASLANDQLRSLYTQVRPNAVALVDAFNYTDHYLNSVLGRYDGNVYPKLFEEALKDPLNDSVVPDGYQEYLRPVLQQQL 1w0d-a2-m1-cD_1w0d-a2-m1-cC The high resolution structure of Mycobacterium tuberculosis LeuB (Rv2995c) P9WKK9 P9WKK9 1.65 X-RAY DIFFRACTION 187 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 337 337 1w0d-a1-m1-cB_1w0d-a1-m1-cA 2g4o-a1-m1-cB_2g4o-a1-m1-cA 2g4o-a2-m1-cD_2g4o-a2-m1-cC 2g4o-a3-m1-cA_2g4o-a3-m1-cB 2g4o-a3-m2-cD_2g4o-a3-m2-cC MSKLAIIAGDGIGPEVTAEAVKVLDAVVPGVQKTSYDLGARRFHATGEVLPDSVVAELRNHDAILLGAIGDPSVPSGVLERGLLLRLRFELDHHINLRPARLYPGVASPLSGNPGIDFVVVREGTEGPYTGNGGAIRVGTPNEVATEVSVNTAFGVRRVVADAFERARRRRKHLTLVHKTNVLTFAGGLWLRTVDEVGECYPDVEVAYQHVDAATIHMITDPGRFDVIVTDNLFGDIITDLAAAVCGGIGLAASGNIDATRANPSMFEPVHGSAPDIAGQGIADPTAAIMSVALLLSHLGEHDAAARVDRAVEAHLATRGSERLATSDVGERIAAAL MSKLAIIAGDGIGPEVTAEAVKVLDAVVPGVQKTSYDLGARRFHATGEVLPDSVVAELRNHDAILLGAIGDPSVPSGVLERGLLLRLRFELDHHINLRPARLYPGVASPLSGNPGIDFVVVREGTEGPYTGNGGAIRVGTPNEVATEVSVNTAFGVRRVVADAFERARRRRKHLTLVHKTNVLTFAGGLWLRTVDEVGECYPDVEVAYQHVDAATIHMITDPGRFDVIVTDNLFGDIITDLAAAVCGGIGLAASGNIDATRANPSMFEPVHGSAPDIAGQGIADPTAAIMSVALLLSHLGEHDAAARVDRAVEAHLATRGSERLATSDVGERIAAAL 1w0m-a2-m1-cF_1w0m-a2-m1-cH Triosephosphate isomerase from Thermoproteus tenax Q8NKN9 Q8NKN9 2.5 X-RAY DIFFRACTION 72 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 224 225 1w0m-a1-m1-cA_1w0m-a1-m1-cC 1w0m-a1-m1-cB_1w0m-a1-m1-cD 1w0m-a2-m1-cG_1w0m-a2-m1-cE MRLPILIINFKAYGEAAGKRAVELAKAAERAARELGVNIVVAPNHLELGLVSQSVDIPVYAQGADVEAGGAHTAHVSLENIKEAGGSGVILNHSEAPLKLNDLARLVAKAKSLGLDVVVCAPDPRTSLAAAALGPHAVAVEPPELIGTGRAVSRYKPEAIVETVGLVSRHFPEVSVITGAGIESGDDVAAALRLGTRGVLLASAAVKAKDPYAKIVELAKPLSE MRLPILIINFKAYGEAAGKRAVELAKAAERAARELGVNIVVAPNHLELGLVSQSVDIPVYAQGADVEAGGAHTAHVSLENIKEAGGSGVILNHSEAPLKLNDLARLVAKAKSLGLDVVVCAPDPRTSLAAAALGPHAVAVEPPELIGTGRAVSRYKPEAIVETVGLVSRHFPEVSVITGAGIESGDDVAAALRLGTRGVLLASAAVKAKDPYAKIVELAKPLSEL 1w0m-a2-m1-cG_1w0m-a2-m1-cH Triosephosphate isomerase from Thermoproteus tenax Q8NKN9 Q8NKN9 2.5 X-RAY DIFFRACTION 160 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 223 225 1w0m-a1-m1-cA_1w0m-a1-m1-cB 1w0m-a1-m1-cC_1w0m-a1-m1-cD 1w0m-a2-m1-cF_1w0m-a2-m1-cE MRLPILIINFKAYGEAAGKRAVELAKAAERAARELGVNIVVAPNHLELGLVSQSVDIPVYAQGADVEAGGAHTAHVSLENIKEAGGSGVILNHSEAPLKLNDLARLVAKAKSLGLDVVVCAPDPRTSLAAAALGPHAVAVEPPELIGTGRAVSRYKPEAIVETVGLVSRHFPEVSVITGAGIESGDDVAAALRLGTRGVLLASAAVKAKDPYAKIVELAKPLS MRLPILIINFKAYGEAAGKRAVELAKAAERAARELGVNIVVAPNHLELGLVSQSVDIPVYAQGADVEAGGAHTAHVSLENIKEAGGSGVILNHSEAPLKLNDLARLVAKAKSLGLDVVVCAPDPRTSLAAAALGPHAVAVEPPELIGTGRAVSRYKPEAIVETVGLVSRHFPEVSVITGAGIESGDDVAAALRLGTRGVLLASAAVKAKDPYAKIVELAKPLSEL 1w15-a1-m2-cA_1w15-a1-m3-cA rat synaptotagmin 4 C2B domain in the presence of calcium P50232 P50232 1.93 X-RAY DIFFRACTION 20 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 132 132 1w15-a1-m1-cA_1w15-a1-m2-cA 1w15-a1-m1-cA_1w15-a1-m3-cA RGELLVSLCYQSTTNTLTVVVLKARHLPLSDPYVKVNLYHAKKRISKKKTHVKKCTPNAVFNELFVFDIPCESLEEISVEFLVLDSERGSRNEVIGRLVLGATAEGSGGGHWKEICDFPRRQIAKWHMLCDG RGELLVSLCYQSTTNTLTVVVLKARHLPLSDPYVKVNLYHAKKRISKKKTHVKKCTPNAVFNELFVFDIPCESLEEISVEFLVLDSERGSRNEVIGRLVLGATAEGSGGGHWKEICDFPRRQIAKWHMLCDG 1w19-a1-m1-cB_1w19-a1-m2-cD Lumazine Synthase from Mycobacterium tuberculosis bound to 3-(1,3,7- trihydro-9-D-ribityl-2,6,8-purinetrione-7-yl)propane 1-phosphate P9WHE9 P9WHE9 2 X-RAY DIFFRACTION 35 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 147 147 1w19-a1-m1-cC_1w19-a1-m2-cC 1w19-a1-m1-cD_1w19-a1-m2-cB 1w19-a1-m1-cE_1w19-a1-m2-cA 1w19-a1-m2-cE_1w19-a1-m1-cA 1w29-a1-m1-cA_1w29-a1-m2-cE 1w29-a1-m1-cC_1w29-a1-m2-cC 1w29-a1-m1-cD_1w29-a1-m2-cB 1w29-a1-m1-cE_1w29-a1-m2-cA 1w29-a1-m2-cD_1w29-a1-m1-cB DASGVRLAIVASSWHGKICDALLDGARKVAAGCGLDDPTVVRVLGAIEIPVVAQELARNHDAVVALGVVIRGQTPHFDYVCDAVTQGLTRVSLDSSTPIANGVLTTNTEEQALDRAGLPTSAEDKGAQATVAALATALTLRELRAHS DASGVRLAIVASSWHGKICDALLDGARKVAAGCGLDDPTVVRVLGAIEIPVVAQELARNHDAVVALGVVIRGQTPHFDYVCDAVTQGLTRVSLDSSTPIANGVLTTNTEEQALDRAGLPTSAEDKGAQATVAALATALTLRELRAHS 1w19-a1-m2-cE_1w19-a1-m1-cB Lumazine Synthase from Mycobacterium tuberculosis bound to 3-(1,3,7- trihydro-9-D-ribityl-2,6,8-purinetrione-7-yl)propane 1-phosphate P9WHE9 P9WHE9 2 X-RAY DIFFRACTION 10 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 146 147 1w19-a1-m1-cA_1w19-a1-m2-cA 1w19-a1-m1-cE_1w19-a1-m2-cB 1w29-a1-m1-cA_1w29-a1-m2-cA ASGVRLAIVASSWHGKICDALLDGARKVAAGCGLDDPTVVRVLGAIEIPVVAQELARNHDAVVALGVVIRGQTPHFDYVCDAVTQGLTRVSLDSSTPIANGVLTTNTEEQALDRAGLPTSAEDKGAQATVAALATALTLRELRAHS DASGVRLAIVASSWHGKICDALLDGARKVAAGCGLDDPTVVRVLGAIEIPVVAQELARNHDAVVALGVVIRGQTPHFDYVCDAVTQGLTRVSLDSSTPIANGVLTTNTEEQALDRAGLPTSAEDKGAQATVAALATALTLRELRAHS 1w1w-a5-m1-cA_1w1w-a5-m1-cB Sc Smc1hd:Scc1-C complex, ATPgS P32908 P32908 2.9 X-RAY DIFFRACTION 59 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 274 327 GRLVGLELSNFKSYRGVTKVGFGESNFTSIIGPNGSGKSNMMDAISFVLGVLKDLIYRGPQSAYVKAFYQKGNKLVELMRIISRNGDTSYKIDGKTVSYKDYSIFLENENILIKAKNFLVFQGDVEQIAAQSPVELSRMFTFDYVSDHLDAIYRELTGNASLTKYHATPPLKRFKDMEYLSGGEKTVAALALLFAINSYQPSPFFVLDEVDAALDITNVQRIAAYIRRHRNPDLQFIVISLKNTMFEKSDALVGVYRQQQENSSKIITLDLSNY GRLVGLELSNFKSYRGVTKVGFGESNFTSIIGPNGSGKSNMMDAISFVLGVRSLKDLIYRGPQSAYVKAFYQKGNKLVELMRIISRNGDTSYKIDGKTVSYKDYSIFLENENILIKAKNFLVFQGDVEQIAAQSPVELSRMFEEVSGSIQYKKEYEELKEKIKILNQFLKIKKKRKELFEKTFDYVSDHLDAIYRELTGNASLTIEDEDEPFNAGIKYHATPPLKRFKDMEYLSGGEKTVAALALLFAINSYQPSPFFVLDEVDAALDITNVQRIAAYIRRHRNPDLQFIVISLKNTMFEKSDALVGVYRQQQENSSKIITLDLSNY 1w1w-a6-m1-cC_1w1w-a6-m1-cD Sc Smc1hd:Scc1-C complex, ATPgS P32908 P32908 2.9 X-RAY DIFFRACTION 70 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 327 327 GRLVGLELSNFKSYRGVTKVGFGESNFTSIIGPNGSGKSNMMDAISFVLGVRSLKDLIYRGPQSAYVKAFYQKGNKLVELMRIISRNGDTSYKIDGKTVSYKDYSIFLENENILIKAKNFLVFQGDVEQIAAQSPVELSRMFEEVSGSIQYKKEYEELKEKIKILNQFLKIKKKRKELFEKTFDYVSDHLDAIYRELTGNASLTIEDEDEPFNAGIKYHATPPLKRFKDMEYLSGGEKTVAALALLFAINSYQPSPFFVLDEVDAALDITNVQRIAAYIRRHRNPDLQFIVISLKNTMFEKSDALVGVYRQQQENSSKIITLDLSNY GRLVGLELSNFKSYRGVTKVGFGESNFTSIIGPNGSGKSNMMDAISFVLGVRSLKDLIYRGPQSAYVKAFYQKGNKLVELMRIISRNGDTSYKIDGKTVSYKDYSIFLENENILIKAKNFLVFQGDVEQIAAQSPVELSRMFEEVSGSIQYKKEYEELKEKIKILNQFLKIKKKRKELFEKTFDYVSDHLDAIYRELTGNASLTIEDEDEPFNAGIKYHATPPLKRFKDMEYLSGGEKTVAALALLFAINSYQPSPFFVLDEVDAALDITNVQRIAAYIRRHRNPDLQFIVISLKNTMFEKSDALVGVYRQQQENSSKIITLDLSNY 1w25-a1-m1-cA_1w25-a1-m1-cB Response regulator PleD in complex with c-diGMP B8GZM2 B8GZM2 2.7 X-RAY DIFFRACTION 54 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 454 454 SARILVVDDIEANVRLLEAKLTAEYYEVSTAMDGPTALAMAARDLPDIILLDVMMPGMDGFTVCRKLKDDPTTRHIPVVLITALDGRGDRIQGLESGASDFLTKPIDDVMLFARVRSLTRFKLVIDELRQREASGRRMGVIAGAAARLDGLGGRVLIVDDNERQAQRVAAELGVEHRPVIESDPEKAKISAGGPVDLVIVNAAAKNFDGLRFTAALRSEERTRQLPVLAMVDPDDRGRMVKALEIGVNDILSRPIDPQELSARVKTQIQRKRYTDYLRNNLDHSLELAVTDQLTGLHNRRYMTGQLDSLVKRATLGGDPVSALLIDIDFFKKINDTFGHDIGDEVLREFALRLASNVRAIDLPCRYGGEEFVVIMPDTALADALRIAERIRMHVSGSPFTVAHGREMLNVTISIGVSATAGEGDTPEALLKRADEGVYQAKASGRNAVVGKAAH SARILVVDDIEANVRLLEAKLTAEYYEVSTAMDGPTALAMAARDLPDIILLDVMMPGMDGFTVCRKLKDDPTTRHIPVVLITALDGRGDRIQGLESGASDFLTKPIDDVMLFARVRSLTRFKLVIDELRQREASGRRMGVIAGAAARLDGLGGRVLIVDDNERQAQRVAAELGVEHRPVIESDPEKAKISAGGPVDLVIVNAAAKNFDGLRFTAALRSEERTRQLPVLAMVDPDDRGRMVKALEIGVNDILSRPIDPQELSARVKTQIQRKRYTDYLRNNLDHSLELAVTDQLTGLHNRRYMTGQLDSLVKRATLGGDPVSALLIDIDFFKKINDTFGHDIGDEVLREFALRLASNVRAIDLPCRYGGEEFVVIMPDTALADALRIAERIRMHVSGSPFTVAHGREMLNVTISIGVSATAGEGDTPEALLKRADEGVYQAKASGRNAVVGKAAH 1w29-a1-m2-cD_1w29-a1-m2-cE Lumazine Synthase from Mycobacterium tuberculosis bound to 3-(1,3,7- trihydro-9-D-ribityl-2,6,8-purinetrione-7-yl)butane 1-phosphate P9WHE9 P9WHE9 2.3 X-RAY DIFFRACTION 81 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 146 146 1w19-a1-m1-cA_1w19-a1-m1-cB 1w19-a1-m1-cC_1w19-a1-m1-cB 1w19-a1-m1-cC_1w19-a1-m1-cD 1w19-a1-m1-cE_1w19-a1-m1-cA 1w19-a1-m1-cE_1w19-a1-m1-cD 1w19-a1-m2-cA_1w19-a1-m2-cB 1w19-a1-m2-cC_1w19-a1-m2-cB 1w19-a1-m2-cC_1w19-a1-m2-cD 1w19-a1-m2-cE_1w19-a1-m2-cA 1w19-a1-m2-cE_1w19-a1-m2-cD 1w29-a1-m1-cA_1w29-a1-m1-cB 1w29-a1-m1-cA_1w29-a1-m1-cE 1w29-a1-m1-cC_1w29-a1-m1-cB 1w29-a1-m1-cC_1w29-a1-m1-cD 1w29-a1-m1-cD_1w29-a1-m1-cE 1w29-a1-m2-cA_1w29-a1-m2-cB 1w29-a1-m2-cA_1w29-a1-m2-cE 1w29-a1-m2-cC_1w29-a1-m2-cB 1w29-a1-m2-cC_1w29-a1-m2-cD 2c92-a1-m1-cA_2c92-a1-m1-cB 2c92-a1-m1-cB_2c92-a1-m1-cC 2c92-a1-m1-cC_2c92-a1-m1-cD 2c92-a1-m1-cE_2c92-a1-m1-cA 2c92-a1-m1-cE_2c92-a1-m1-cD 2c94-a1-m1-cA_2c94-a1-m1-cB 2c94-a1-m1-cA_2c94-a1-m1-cE 2c94-a1-m1-cB_2c94-a1-m1-cC 2c94-a1-m1-cC_2c94-a1-m1-cD 2c94-a1-m1-cD_2c94-a1-m1-cE 2c97-a1-m1-cA_2c97-a1-m1-cB 2c97-a1-m1-cC_2c97-a1-m1-cB 2c97-a1-m1-cC_2c97-a1-m1-cD 2c97-a1-m1-cE_2c97-a1-m1-cA 2c97-a1-m1-cE_2c97-a1-m1-cD 2c9b-a1-m1-cA_2c9b-a1-m1-cB 2c9b-a1-m1-cC_2c9b-a1-m1-cB 2c9b-a1-m1-cC_2c9b-a1-m1-cD 2c9b-a1-m1-cE_2c9b-a1-m1-cA 2c9b-a1-m1-cE_2c9b-a1-m1-cD 2c9b-a2-m1-cF_2c9b-a2-m1-cG 2c9b-a2-m1-cH_2c9b-a2-m1-cG 2c9b-a2-m1-cH_2c9b-a2-m1-cI 2c9b-a2-m1-cJ_2c9b-a2-m1-cF 2c9b-a2-m1-cJ_2c9b-a2-m1-cI 2c9d-a1-m1-cA_2c9d-a1-m1-cB 2c9d-a1-m1-cC_2c9d-a1-m1-cB 2c9d-a1-m1-cC_2c9d-a1-m1-cD 2c9d-a1-m1-cE_2c9d-a1-m1-cA 2c9d-a1-m1-cE_2c9d-a1-m1-cD 2c9d-a2-m1-cF_2c9d-a2-m1-cG 2c9d-a2-m1-cH_2c9d-a2-m1-cG 2c9d-a2-m1-cH_2c9d-a2-m1-cI 2c9d-a2-m1-cJ_2c9d-a2-m1-cF 2c9d-a2-m1-cJ_2c9d-a2-m1-cI 2vi5-a1-m1-cA_2vi5-a1-m1-cE 2vi5-a1-m1-cB_2vi5-a1-m1-cA 2vi5-a1-m1-cC_2vi5-a1-m1-cB 2vi5-a1-m1-cC_2vi5-a1-m1-cD 2vi5-a1-m1-cD_2vi5-a1-m1-cE 2vi5-a2-m1-cF_2vi5-a2-m1-cG 2vi5-a2-m1-cG_2vi5-a2-m1-cH 2vi5-a2-m1-cH_2vi5-a2-m1-cI 2vi5-a2-m1-cJ_2vi5-a2-m1-cF 2vi5-a2-m1-cJ_2vi5-a2-m1-cI ASGVRLAIVASSWHGKICDALLDGARKVAAGCGLDDPTVVRVLGAIEIPVVAQELARNHDAVVALGVVIRGQTPHFDYVCDAVTQGLTRVSLDSSTPIANGVLTTNTEEQALDRAGLPTSAEDKGAQATVAALATALTLRELRAHS ASGVRLAIVASSWHGKICDALLDGARKVAAGCGLDDPTVVRVLGAIEIPVVAQELARNHDAVVALGVVIRGQTPHFDYVCDAVTQGLTRVSLDSSTPIANGVLTTNTEEQALDRAGLPTSAEDKGAQATVAALATALTLRELRAHS 1w2e-a1-m1-cA_1w2e-a1-m2-cB The Crystal Structure of the Bacterial Cell Division Protein ZapA Q9HTW3 Q9HTW3 2.8 X-RAY DIFFRACTION 24 0.989 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 89 89 1t3u-a1-m1-cC_1t3u-a1-m1-cB 1w2e-a1-m1-cB_1w2e-a1-m2-cA NTLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRAL TLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRALA 1w2e-a1-m2-cA_1w2e-a1-m2-cB The Crystal Structure of the Bacterial Cell Division Protein ZapA Q9HTW3 Q9HTW3 2.8 X-RAY DIFFRACTION 101 0.989 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 89 89 1t3u-a1-m1-cA_1t3u-a1-m1-cB 1w2e-a1-m1-cA_1w2e-a1-m1-cB NTLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRAL TLTVQILDKEYCINCPDDERANLESAARYLDGKREIRSSGKVIGADRVAVAALNITHDLLHRKERLDQESSSTRERVRELLDRVDRALA 1w2w-a2-m1-cF_1w2w-a2-m1-cJ Crystal structure of yeast Ypr118w, a methylthioribose-1-phosphate isomerase related to regulatory eIF2B subunits Q06489 Q06489 1.75 X-RAY DIFFRACTION 212 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 190 190 1w2w-a1-m1-cB_1w2w-a1-m1-cN CPRGHVFPLETRPYNQGSRLTAYELVYDKIPSTLITDSSIAYRIRTSPIPIKAAFVGADRIVRNGDTANKIGTLQLAVICKQFGIKFFVVAPKTTIDNVTETGDDIIVEERNPEEFKVVTGTVINPENGSLILNESGEPITGKVGIAPLEINVWNPAFDITPHELIDGIITEEGVFTKNSSGEFQLESLF CPRGHVFPLETRPYNQGSRLTAYELVYDKIPSTLITDSSIAYRIRTSPIPIKAAFVGADRIVRNGDTANKIGTLQLAVICKQFGIKFFVVAPKTTIDNVTETGDDIIVEERNPEEFKVVTGTVINPENGSLILNESGEPITGKVGIAPLEINVWNPAFDITPHELIDGIITEEGVFTKNSSGEFQLESLF 1w2y-a1-m1-cB_1w2y-a1-m1-cA The crystal structure of a complex of Campylobacter jejuni dUTPase with substrate analogue dUpNHp Q0P8G4 Q0P8G4 1.65 X-RAY DIFFRACTION 93 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 209 226 2cic-a1-m1-cA_2cic-a1-m2-cA MTNIEILENMLKLQQKLNDETNGLNWENGYTKEGKLISWRRCIYMECAELIDSFTWKHWKNISSLTNWENVRIEIVDIWHFILSLLLEDFKAIATEVNAVSVFQDFCKGDIYGILNDIELIIHKCSGFGFNLGELLSTYFTLAIKCGLNLEILYKTYIGKNVLNIFRQNNGYKDGSYKKTWNGKEDNEVLAQILEQTIYKKLEECYKKA MTNIEILENMLKLQQKLNDETNGLNWENGYTKEGKLISWRRCIYMECAELIDSFTWKHWKNISSLTNWENVRIEIVDIWHFILSLLLEEYNNKDFKAIATEVNAVSVFQDFCKEEEYPNEGDIYGILNDIELIIHKCSGFGFNLGELLSTYFTLAIKCGLNLEILYKTYIGKNVLNIFRQNNGYKDGSYKKTWNGKEDNEVLAQILEQELDFDTIYKKLEECYKKA 1w30-a1-m1-cA_1w30-a1-m2-cB PyrR of Mycobacterium Tuberculosis as a potential drug target P9WHK3 P9WHK3 1.9 X-RAY DIFFRACTION 38 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 174 177 1w30-a1-m2-cA_1w30-a1-m1-cB ESRELMSAANVGRTISRIAHQIIEKTALDDPVGPDAPRVVLLGIPTRGVTLANRLAGNITEYSGIHVGHGALDITLYRDPLASTSIPAGGIDDALVILVDDVLYSGRSVRSALDALRDVGRPRAVQLAVLVDRGHRELPLRADYVGKNVPTSRSESVHVRLREHDGRDGVVISR ESRELMSAANVGRTISRIAHQIIEKTALDDPVGPDAPRVVLLGIPTRGVTLANRLAGNITEYSGIHVGHGALDITLYRDPPRPLASTSIPAGGIDDALVILVDDVLYSGRSVRSALDALRDVGRPRAVQLAVLVDRGHRELPLRADYVGKNVPTSRSESVHVRLREHDGRDGVVISR 1w3f-a1-m2-cA_1w3f-a1-m6-cA Crystal structure of the hemolytic lectin from the mushroom Laetiporus sulphureus complexed with N-acetyllactosamine in the gamma motif Q7Z8V1 Q7Z8V1 2.58 X-RAY DIFFRACTION 74 1.0 5630 (Laetiporus sulphureus) 5630 (Laetiporus sulphureus) 312 312 1w3a-a1-m1-cA_1w3a-a1-m4-cA 1w3a-a1-m2-cA_1w3a-a1-m6-cA 1w3a-a1-m3-cA_1w3a-a1-m5-cA 1w3f-a1-m1-cA_1w3f-a1-m4-cA 1w3f-a1-m3-cA_1w3f-a1-m5-cA 1w3g-a1-m1-cA_1w3g-a1-m4-cA 1w3g-a1-m2-cA_1w3g-a1-m6-cA 1w3g-a1-m3-cA_1w3g-a1-m5-cA DIYIPPEGLYFRLLGFASRQVIFARNSPSPDVGLSPVNDQATDQYFSLIYGTGEHAGLYAIKSKATGKVLFSRRPAEPYVGQIDGDGRYPDNWFKIEPGKTYLSKYFRLVQPSTGTALVSRTHLQPYFWNHPQTEVFDDQYFTFLFEDMSIDKIEYDLKDGRILSSTPNVLATQTLENTSSQTQEMSFNLSQTLTQTSTFAYTAGFTIAVGTAFKAGVPIFAETEFKVDISVDNQWNWGEENTFSKTYTATFSVRAGPGETVKAVSTVDSGIINVPFTAYLSSKSTGFEVTTEGIWRGVSSWDLRHTLTSVT DIYIPPEGLYFRLLGFASRQVIFARNSPSPDVGLSPVNDQATDQYFSLIYGTGEHAGLYAIKSKATGKVLFSRRPAEPYVGQIDGDGRYPDNWFKIEPGKTYLSKYFRLVQPSTGTALVSRTHLQPYFWNHPQTEVFDDQYFTFLFEDMSIDKIEYDLKDGRILSSTPNVLATQTLENTSSQTQEMSFNLSQTLTQTSTFAYTAGFTIAVGTAFKAGVPIFAETEFKVDISVDNQWNWGEENTFSKTYTATFSVRAGPGETVKAVSTVDSGIINVPFTAYLSSKSTGFEVTTEGIWRGVSSWDLRHTLTSVT 1w3f-a1-m5-cA_1w3f-a1-m6-cA Crystal structure of the hemolytic lectin from the mushroom Laetiporus sulphureus complexed with N-acetyllactosamine in the gamma motif Q7Z8V1 Q7Z8V1 2.58 X-RAY DIFFRACTION 56 1.0 5630 (Laetiporus sulphureus) 5630 (Laetiporus sulphureus) 312 312 1w3a-a1-m1-cA_1w3a-a1-m2-cA 1w3a-a1-m1-cA_1w3a-a1-m3-cA 1w3a-a1-m2-cA_1w3a-a1-m3-cA 1w3a-a1-m4-cA_1w3a-a1-m5-cA 1w3a-a1-m4-cA_1w3a-a1-m6-cA 1w3a-a1-m5-cA_1w3a-a1-m6-cA 1w3f-a1-m1-cA_1w3f-a1-m2-cA 1w3f-a1-m1-cA_1w3f-a1-m3-cA 1w3f-a1-m2-cA_1w3f-a1-m3-cA 1w3f-a1-m4-cA_1w3f-a1-m5-cA 1w3f-a1-m4-cA_1w3f-a1-m6-cA 1w3g-a1-m1-cA_1w3g-a1-m2-cA 1w3g-a1-m1-cA_1w3g-a1-m3-cA 1w3g-a1-m2-cA_1w3g-a1-m3-cA 1w3g-a1-m4-cA_1w3g-a1-m5-cA 1w3g-a1-m4-cA_1w3g-a1-m6-cA 1w3g-a1-m5-cA_1w3g-a1-m6-cA DIYIPPEGLYFRLLGFASRQVIFARNSPSPDVGLSPVNDQATDQYFSLIYGTGEHAGLYAIKSKATGKVLFSRRPAEPYVGQIDGDGRYPDNWFKIEPGKTYLSKYFRLVQPSTGTALVSRTHLQPYFWNHPQTEVFDDQYFTFLFEDMSIDKIEYDLKDGRILSSTPNVLATQTLENTSSQTQEMSFNLSQTLTQTSTFAYTAGFTIAVGTAFKAGVPIFAETEFKVDISVDNQWNWGEENTFSKTYTATFSVRAGPGETVKAVSTVDSGIINVPFTAYLSSKSTGFEVTTEGIWRGVSSWDLRHTLTSVT DIYIPPEGLYFRLLGFASRQVIFARNSPSPDVGLSPVNDQATDQYFSLIYGTGEHAGLYAIKSKATGKVLFSRRPAEPYVGQIDGDGRYPDNWFKIEPGKTYLSKYFRLVQPSTGTALVSRTHLQPYFWNHPQTEVFDDQYFTFLFEDMSIDKIEYDLKDGRILSSTPNVLATQTLENTSSQTQEMSFNLSQTLTQTSTFAYTAGFTIAVGTAFKAGVPIFAETEFKVDISVDNQWNWGEENTFSKTYTATFSVRAGPGETVKAVSTVDSGIINVPFTAYLSSKSTGFEVTTEGIWRGVSSWDLRHTLTSVT 1w48-a1-m2-cB_1w48-a1-m2-cC P4 protein from Bacteriophage PHI12 in complex with AMPcPP Q94M05 Q94M05 2.3 X-RAY DIFFRACTION 153 1.0 161736 (Pseudomonas phage phi12) 161736 (Pseudomonas phage phi12) 304 304 1w44-a1-m1-cA_1w44-a1-m1-cB 1w44-a1-m1-cA_1w44-a1-m2-cC 1w44-a1-m1-cB_1w44-a1-m1-cC 1w44-a1-m1-cC_1w44-a1-m2-cA 1w44-a1-m2-cA_1w44-a1-m2-cB 1w44-a1-m2-cB_1w44-a1-m2-cC 1w46-a1-m1-cA_1w46-a1-m1-cB 1w46-a1-m1-cA_1w46-a1-m2-cC 1w46-a1-m1-cB_1w46-a1-m1-cC 1w46-a1-m1-cC_1w46-a1-m2-cA 1w46-a1-m2-cA_1w46-a1-m2-cB 1w46-a1-m2-cB_1w46-a1-m2-cC 1w47-a1-m1-cA_1w47-a1-m1-cB 1w47-a1-m1-cA_1w47-a1-m2-cC 1w47-a1-m1-cB_1w47-a1-m1-cC 1w47-a1-m1-cC_1w47-a1-m2-cA 1w47-a1-m2-cA_1w47-a1-m2-cB 1w47-a1-m2-cB_1w47-a1-m2-cC 1w48-a1-m1-cA_1w48-a1-m1-cB 1w48-a1-m1-cA_1w48-a1-m2-cC 1w48-a1-m1-cB_1w48-a1-m1-cC 1w48-a1-m1-cC_1w48-a1-m2-cA 1w48-a1-m2-cA_1w48-a1-m2-cB 1w49-a1-m1-cA_1w49-a1-m1-cB 1w49-a1-m1-cA_1w49-a1-m2-cC 1w49-a1-m1-cB_1w49-a1-m1-cC 1w49-a1-m1-cC_1w49-a1-m2-cA 1w49-a1-m2-cA_1w49-a1-m2-cB 1w49-a1-m2-cB_1w49-a1-m2-cC 1w4a-a1-m1-cA_1w4a-a1-m1-cB 1w4a-a1-m1-cA_1w4a-a1-m2-cC 1w4a-a1-m1-cB_1w4a-a1-m1-cC 1w4a-a1-m1-cC_1w4a-a1-m2-cA 1w4a-a1-m2-cA_1w4a-a1-m2-cB 1w4a-a1-m2-cB_1w4a-a1-m2-cC 1w4b-a1-m1-cA_1w4b-a1-m1-cB 1w4b-a1-m1-cA_1w4b-a1-m2-cC 1w4b-a1-m1-cB_1w4b-a1-m1-cC 1w4b-a1-m1-cC_1w4b-a1-m2-cA 1w4b-a1-m2-cA_1w4b-a1-m2-cB 1w4b-a1-m2-cB_1w4b-a1-m2-cC 1w4c-a1-m1-cA_1w4c-a1-m1-cB 1w4c-a1-m1-cA_1w4c-a1-m1-cF 1w4c-a1-m1-cB_1w4c-a1-m1-cC 1w4c-a1-m1-cD_1w4c-a1-m1-cC 1w4c-a1-m1-cD_1w4c-a1-m1-cE 1w4c-a1-m1-cE_1w4c-a1-m1-cF 1w4c-a2-m1-cH_1w4c-a2-m1-cG 1w4c-a2-m1-cH_1w4c-a2-m1-cI 1w4c-a2-m1-cI_1w4c-a2-m1-cJ 1w4c-a2-m1-cJ_1w4c-a2-m1-cK 1w4c-a2-m1-cL_1w4c-a2-m1-cG 1w4c-a2-m1-cL_1w4c-a2-m1-cK 1w4c-a3-m1-cM_1w4c-a3-m1-cN 1w4c-a3-m1-cM_1w4c-a3-m1-cR 1w4c-a3-m1-cN_1w4c-a3-m1-cO 1w4c-a3-m1-cO_1w4c-a3-m1-cP 1w4c-a3-m1-cP_1w4c-a3-m1-cQ 1w4c-a3-m1-cQ_1w4c-a3-m1-cR 1w4c-a4-m1-cS_1w4c-a4-m1-cT 1w4c-a4-m1-cU_1w4c-a4-m1-cT 1w4c-a4-m1-cU_1w4c-a4-m1-cV 1w4c-a4-m1-cV_1w4c-a4-m1-cW 1w4c-a4-m1-cX_1w4c-a4-m1-cS 1w4c-a4-m1-cX_1w4c-a4-m1-cW 2vhc-a1-m1-cA_2vhc-a1-m1-cB 2vhc-a1-m1-cB_2vhc-a1-m1-cC 2vhj-a1-m1-cA_2vhj-a1-m1-cB 2vhj-a1-m1-cA_2vhj-a1-m2-cC 2vhj-a1-m1-cB_2vhj-a1-m1-cC 2vhj-a1-m1-cC_2vhj-a1-m2-cA 2vhj-a1-m2-cA_2vhj-a1-m2-cB 2vhj-a1-m2-cB_2vhj-a1-m2-cC 2vhq-a1-m1-cA_2vhq-a1-m1-cB 2vhq-a1-m1-cA_2vhq-a1-m2-cC 2vhq-a1-m1-cB_2vhq-a1-m1-cC 2vhq-a1-m1-cC_2vhq-a1-m2-cA 2vhq-a1-m2-cA_2vhq-a1-m2-cB 2vhq-a1-m2-cB_2vhq-a1-m2-cC 2vht-a1-m1-cA_2vht-a1-m1-cB 2vht-a1-m1-cA_2vht-a1-m2-cC 2vht-a1-m1-cB_2vht-a1-m1-cC 2vht-a1-m1-cC_2vht-a1-m2-cA 2vht-a1-m2-cA_2vht-a1-m2-cB 2vht-a1-m2-cB_2vht-a1-m2-cC 2vhu-a1-m1-cA_2vhu-a1-m1-cB 2vhu-a1-m1-cA_2vhu-a1-m2-cC 2vhu-a1-m1-cB_2vhu-a1-m1-cC 2vhu-a1-m1-cC_2vhu-a1-m2-cA 2vhu-a1-m2-cA_2vhu-a1-m2-cB 2vhu-a1-m2-cB_2vhu-a1-m2-cC 4blr-a1-m1-cA_4blr-a1-m1-cB 4blr-a1-m1-cA_4blr-a1-m2-cC 4blr-a1-m1-cB_4blr-a1-m1-cC 4blr-a1-m2-cA_4blr-a1-m1-cC 4blr-a1-m2-cA_4blr-a1-m2-cB 4blr-a1-m2-cB_4blr-a1-m2-cC 4bls-a1-m1-cA_4bls-a1-m1-cB 4bls-a1-m1-cA_4bls-a1-m2-cC 4bls-a1-m1-cC_4bls-a1-m1-cB 4bls-a1-m1-cC_4bls-a1-m2-cA 4bls-a1-m2-cA_4bls-a1-m2-cB 4bls-a1-m2-cC_4bls-a1-m2-cB 4blt-a1-m1-cB_4blt-a1-m1-cA 4blt-a1-m1-cC_4blt-a1-m1-cB 4blt-a1-m1-cC_4blt-a1-m2-cA 4blt-a1-m2-cB_4blt-a1-m2-cA 4blt-a1-m2-cC_4blt-a1-m1-cA 4blt-a1-m2-cC_4blt-a1-m2-cB MIHLYDAKSFAKLRAAQYAAFHTDAPGSWFDHTSGVLESVEDGTPVLAIGVESGDAIVFDKNAQRIVAYKEKSVKAEDGSVSVVQVENGFMKQGHRGWLVDLTGELVGCSPVVAEFGGHRYASGMVIVTGKGNSGKTPLVHALGEALGGKDKYATVRFGEPLSGYNTDFNVFVDDIARAMLQHRVIVIDSLKNVIISRGAFDLLSDIGAMAASRGCVVIASLNPTSNDDKIVELVKEASRSNSTSLVISTDVDGEWQVLTRTGEGLQRLTHTLQTSYGEHSVLTIHTSQASGKAIQTVIKNDEL MIHLYDAKSFAKLRAAQYAAFHTDAPGSWFDHTSGVLESVEDGTPVLAIGVESGDAIVFDKNAQRIVAYKEKSVKAEDGSVSVVQVENGFMKQGHRGWLVDLTGELVGCSPVVAEFGGHRYASGMVIVTGKGNSGKTPLVHALGEALGGKDKYATVRFGEPLSGYNTDFNVFVDDIARAMLQHRVIVIDSLKNVIISRGAFDLLSDIGAMAASRGCVVIASLNPTSNDDKIVELVKEASRSNSTSLVISTDVDGEWQVLTRTGEGLQRLTHTLQTSYGEHSVLTIHTSQASGKAIQTVIKNDEL 1w4r-a1-m1-cB_1w4r-a1-m1-cA Structure of a type II thymidine kinase with bound dTTP P04183 P04183 1.83 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 174 1w4r-a1-m1-cC_1w4r-a1-m1-cD 1w4r-a2-m1-cE_1w4r-a2-m1-cF 1w4r-a2-m1-cG_1w4r-a2-m1-cH 1xbt-a1-m1-cA_1xbt-a1-m1-cB 1xbt-a1-m1-cC_1xbt-a1-m1-cD 1xbt-a2-m1-cE_1xbt-a2-m1-cF 1xbt-a2-m1-cH_1xbt-a2-m1-cG 2orv-a1-m1-cB_2orv-a1-m2-cA 2orv-a1-m2-cB_2orv-a1-m1-cA 2wvj-a1-m1-cA_2wvj-a1-m1-cB 2wvj-a1-m1-cC_2wvj-a1-m1-cD 2wvj-a2-m1-cE_2wvj-a2-m1-cF 2wvj-a2-m1-cG_2wvj-a2-m1-cH RGQIQVILGPMFSGKSTELMRRVRRFQIAQYKCLVIKYAKDTRYSSSFMEALPACLLRDVAQEALGVAVIGIDEGQFFPDIVEFCEAMANAGKTVIVAALDGTFQRKPFGAILNLVPLAESVVKLTAVCMECFREAAYTKRLGTEKEVEVIGGADKYHSVCRLCYFK RGQIQVILGPMFSGKSTELMRRVRRFQIAQYKCLVIKYAKDTRYSSSFCTHDRNTMEALPACLLRDVAQEALGVAVIGIDEGQFFPDIVEFCEAMANAGKTVIVAALDGTFQRKPFGAILNLVPLAESVVKLTAVCMECFREAAYTKRLGTEKEVEVIGGADKYHSVCRLCYFK 1w4r-a2-m1-cG_1w4r-a2-m1-cF Structure of a type II thymidine kinase with bound dTTP P04183 P04183 1.83 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 161 1w4r-a1-m1-cC_1w4r-a1-m1-cB 1w4r-a1-m1-cD_1w4r-a1-m1-cA 1w4r-a2-m1-cE_1w4r-a2-m1-cH 1xbt-a1-m1-cA_1xbt-a1-m1-cC 1xbt-a1-m1-cB_1xbt-a1-m1-cD 1xbt-a2-m1-cE_1xbt-a2-m1-cG 1xbt-a2-m1-cF_1xbt-a2-m1-cH 2orv-a1-m1-cB_2orv-a1-m1-cA 2orv-a1-m2-cB_2orv-a1-m2-cA 2orv-a2-m1-cB_2orv-a2-m1-cA 2wvj-a1-m1-cA_2wvj-a1-m1-cC 2wvj-a1-m1-cB_2wvj-a1-m1-cD 2wvj-a2-m1-cE_2wvj-a2-m1-cG 2wvj-a2-m1-cF_2wvj-a2-m1-cH RGQIQVILGPMFSGKSTELMRRVRRFQIAQYKCLVIKYAKDTRALPACLLRDVAQEALGVAVIGIDEGQFFPDIVEFCEAMANAGKTVIVAALDGTFQRKPFGAILNLVPLAESVVKLTAVCMECFREAAYTKRLGTEKEVEVIGGADKYHSVCRLCYFK RGQIQVILGPMFSGKSTELMRRVRRFQIAQYKCLVIKYAKDTRYALPACLLRDVAQEALGVAVIGIDEGQFFPDIVEFCEAMANAGKTVIVAALDGTFQRKPFGAILNLVPLAESVVKLTAVCMECFREAAYTKRLGTEKEVEVIGGADKYHSVCRLCYFK 1w55-a1-m2-cA_1w55-a1-m6-cA Structure of the Bifunctional IspDF from Campylobacter jejuni Q9PM68 Q9PM68 2.3 X-RAY DIFFRACTION 79 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 369 369 1w55-a1-m1-cA_1w55-a1-m4-cA 1w55-a1-m3-cA_1w55-a1-m5-cA 1w57-a1-m1-cA_1w57-a1-m4-cA 1w57-a1-m2-cA_1w57-a1-m6-cA 1w57-a1-m3-cA_1w57-a1-m5-cA SEMSLIMLAAGNSTRFNTKVKKQFLRLGNDPLWLYATKNLSSFYPFKKIVVTSSNITYMKKFTKNYEFIEGGDTRAESLKKALELIDSEFVMVSDVARVLVSKNLFDRLIENLDKADCITPALKVADTTLFDNEALQREKIKLIQTPQISKTKLLKKALDQNLEFTDDSTAIAAMGGKIWFVEGEENARKLTFKEDLKKLDLPTPSFEIFTGNGFDVHEFGENRPLLLAGVQIHPTMGLKAHSDGDVLAHSLTDAILGAAGLGDIGELYPDTDMKFKNANSMELLKQAYDKVREIGFELINIDICVMAQSPKLKDFKQAMQSNIAHTLDLDEFRINVKATTTEKLGFIGRKEGMAVLSSVNLKYFDWTR SEMSLIMLAAGNSTRFNTKVKKQFLRLGNDPLWLYATKNLSSFYPFKKIVVTSSNITYMKKFTKNYEFIEGGDTRAESLKKALELIDSEFVMVSDVARVLVSKNLFDRLIENLDKADCITPALKVADTTLFDNEALQREKIKLIQTPQISKTKLLKKALDQNLEFTDDSTAIAAMGGKIWFVEGEENARKLTFKEDLKKLDLPTPSFEIFTGNGFDVHEFGENRPLLLAGVQIHPTMGLKAHSDGDVLAHSLTDAILGAAGLGDIGELYPDTDMKFKNANSMELLKQAYDKVREIGFELINIDICVMAQSPKLKDFKQAMQSNIAHTLDLDEFRINVKATTTEKLGFIGRKEGMAVLSSVNLKYFDWTR 1w55-a1-m5-cA_1w55-a1-m6-cA Structure of the Bifunctional IspDF from Campylobacter jejuni Q9PM68 Q9PM68 2.3 X-RAY DIFFRACTION 97 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 369 369 1w55-a1-m1-cA_1w55-a1-m2-cA 1w55-a1-m1-cA_1w55-a1-m3-cA 1w55-a1-m2-cA_1w55-a1-m3-cA 1w55-a1-m4-cA_1w55-a1-m5-cA 1w55-a1-m4-cA_1w55-a1-m6-cA 1w57-a1-m1-cA_1w57-a1-m2-cA 1w57-a1-m1-cA_1w57-a1-m3-cA 1w57-a1-m2-cA_1w57-a1-m3-cA 1w57-a1-m4-cA_1w57-a1-m5-cA 1w57-a1-m4-cA_1w57-a1-m6-cA 1w57-a1-m5-cA_1w57-a1-m6-cA SEMSLIMLAAGNSTRFNTKVKKQFLRLGNDPLWLYATKNLSSFYPFKKIVVTSSNITYMKKFTKNYEFIEGGDTRAESLKKALELIDSEFVMVSDVARVLVSKNLFDRLIENLDKADCITPALKVADTTLFDNEALQREKIKLIQTPQISKTKLLKKALDQNLEFTDDSTAIAAMGGKIWFVEGEENARKLTFKEDLKKLDLPTPSFEIFTGNGFDVHEFGENRPLLLAGVQIHPTMGLKAHSDGDVLAHSLTDAILGAAGLGDIGELYPDTDMKFKNANSMELLKQAYDKVREIGFELINIDICVMAQSPKLKDFKQAMQSNIAHTLDLDEFRINVKATTTEKLGFIGRKEGMAVLSSVNLKYFDWTR SEMSLIMLAAGNSTRFNTKVKKQFLRLGNDPLWLYATKNLSSFYPFKKIVVTSSNITYMKKFTKNYEFIEGGDTRAESLKKALELIDSEFVMVSDVARVLVSKNLFDRLIENLDKADCITPALKVADTTLFDNEALQREKIKLIQTPQISKTKLLKKALDQNLEFTDDSTAIAAMGGKIWFVEGEENARKLTFKEDLKKLDLPTPSFEIFTGNGFDVHEFGENRPLLLAGVQIHPTMGLKAHSDGDVLAHSLTDAILGAAGLGDIGELYPDTDMKFKNANSMELLKQAYDKVREIGFELINIDICVMAQSPKLKDFKQAMQSNIAHTLDLDEFRINVKATTTEKLGFIGRKEGMAVLSSVNLKYFDWTR 1w58-a1-m2-c1_1w58-a1-m3-c1 FtsZ GMPCPP soak I213 (M. jannaschii) Q57816 Q57816 2.5 X-RAY DIFFRACTION 23 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 337 337 1fsz-a1-m1-cA_1fsz-a1-m2-cA 1fsz-a1-m1-cA_1fsz-a1-m3-cA 1fsz-a1-m2-cA_1fsz-a1-m3-cA 1w58-a1-m1-c1_1w58-a1-m2-c1 1w58-a1-m1-c1_1w58-a1-m3-c1 SPEDKELLEYLQQTKAKITVVGCGGAGNNTITRLKMEGIEGAKTVAINTDAQQLIRTKADKKILIGKKLTRGLGAGGNPKIGEEAAKESAEEIKAAIQDSDMVFITCGLGGGTGTGSAPVVAEISKKIGALTVAVVTLPFVMEGKVRMKNAMEGLERLKQHTDTLVVIPNEKLFEIVPNMPLKLAFKVADEVLINAVKGLVELITKDGLINVDFADVKAVMNNGGLAMIGIGESDSEKRAKEAVSMALNSPLLDVDIDGATGALIHVMGPEDLTLEEAREVVATVSSRLDPNATIIWGATIDENLENTVRVLLVITGVQSRIEFTDTGLKRKKLELT SPEDKELLEYLQQTKAKITVVGCGGAGNNTITRLKMEGIEGAKTVAINTDAQQLIRTKADKKILIGKKLTRGLGAGGNPKIGEEAAKESAEEIKAAIQDSDMVFITCGLGGGTGTGSAPVVAEISKKIGALTVAVVTLPFVMEGKVRMKNAMEGLERLKQHTDTLVVIPNEKLFEIVPNMPLKLAFKVADEVLINAVKGLVELITKDGLINVDFADVKAVMNNGGLAMIGIGESDSEKRAKEAVSMALNSPLLDVDIDGATGALIHVMGPEDLTLEEAREVVATVSSRLDPNATIIWGATIDENLENTVRVLLVITGVQSRIEFTDTGLKRKKLELT 1w5f-a1-m1-cA_1w5f-a1-m1-cB FtsZ, T7 mutated, domain swapped (T. maritima) O08398 O08398 2 X-RAY DIFFRACTION 217 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 315 315 LKIKVIGVGGAGNNAINRMIEIGIHGVEFVAVNTDLQVLEASNADVKIQIGENITRGLGAGGRPEIGEQAALESEEKIREVLQDTHMVFITAGFGGGTGTGASPVIAKIAKEMGILTVAIVTTPFYFEGPERLKKAIEGLKKLRKHVDTLIKISNNKLMEELPRDVKIKDAFLKADETLHQGVKGISELITKRGYIRLTSRFARIESVMKDAGAAILGIGVGKGEHRAREAAKKAMESKLIEHPVENASSIVFNITAPSNIRMEEVHEAAMIIRQNSSEDADVKFGLIFDDEVPDDEIRVIFIATRFPDEDKILF LKIKVIGVGGAGNNAINRMIEIGIHGVEFVAVNTDLQVLEASNADVKIQIGENITRGLGAGGRPEIGEQAALESEEKIREVLQDTHMVFITAGFGGGTGTGASPVIAKIAKEMGILTVAIVTTPFYFEGPERLKKAIEGLKKLRKHVDTLIKISNNKLMEELPRDVKIKDAFLKADETLHQGVKGISELITKRGYIRLTSRFARIESVMKDAGAAILGIGVGKGEHRAREAAKKAMESKLIEHPVENASSIVFNITAPSNIRMEEVHEAAMIIRQNSSEDADVKFGLIFDDEVPDDEIRVIFIATRFPDEDKILF 1w5g-a1-m1-cA_1w5g-a1-m2-cB An anti-parallel four helix bundle (acetimide modification). P03069 P03069 2.16 X-RAY DIFFRACTION 44 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 31 33 1w5g-a1-m2-cA_1w5g-a1-m1-cB 1w5h-a1-m1-cA_1w5h-a1-m2-cB 1w5h-a1-m1-cB_1w5h-a1-m2-cA 2bni-a1-m1-cA_2bni-a1-m1-cC 2bni-a1-m1-cD_2bni-a1-m1-cB 2ccf-a1-m1-cA_2ccf-a1-m2-cB 2ccf-a1-m2-cA_2ccf-a1-m1-cB 2ccn-a1-m1-cA_2ccn-a1-m2-cB 2ccn-a1-m2-cA_2ccn-a1-m1-cB MKQIEDKLEEILSKLYHICNELARIKKLLGE RMKQIEDKLEEILSKLYHICNELARIKKLLGER 1w5g-a1-m2-cA_1w5g-a1-m2-cB An anti-parallel four helix bundle (acetimide modification). P03069 P03069 2.16 X-RAY DIFFRACTION 25 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 31 33 1w5g-a1-m1-cA_1w5g-a1-m1-cB 1w5h-a1-m1-cA_1w5h-a1-m1-cB 1w5h-a1-m2-cA_1w5h-a1-m2-cB 2bni-a1-m1-cA_2bni-a1-m1-cD 2bni-a1-m1-cB_2bni-a1-m1-cC 2ccf-a1-m1-cA_2ccf-a1-m1-cB 2ccf-a1-m2-cA_2ccf-a1-m2-cB 2ccn-a1-m1-cA_2ccn-a1-m1-cB 2ccn-a1-m2-cA_2ccn-a1-m2-cB MKQIEDKLEEILSKLYHICNELARIKKLLGE RMKQIEDKLEEILSKLYHICNELARIKKLLGER 1w5j-a1-m2-cA_1w5j-a1-m2-cB AN ANTI-PARALLEL FOUR HELIX BUNDLE P03069 P03069 2.2 X-RAY DIFFRACTION 25 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 33 33 1w5j-a1-m1-cA_1w5j-a1-m1-cB 1w5j-a1-m1-cA_1w5j-a1-m2-cB 1w5j-a1-m1-cB_1w5j-a1-m2-cA 1w5j-a2-m1-cC_1w5j-a2-m1-cD 1w5j-a2-m1-cC_1w5j-a2-m2-cD 1w5j-a2-m1-cD_1w5j-a2-m2-cC 1w5j-a2-m2-cC_1w5j-a2-m2-cD 1w5k-a1-m1-cA_1w5k-a1-m1-cB 1w5k-a1-m1-cA_1w5k-a1-m2-cB 1w5k-a1-m1-cB_1w5k-a1-m2-cA 1w5k-a1-m2-cA_1w5k-a1-m2-cB 1w5k-a2-m1-cC_1w5k-a2-m1-cD 1w5k-a2-m1-cC_1w5k-a2-m2-cD 1w5k-a2-m1-cD_1w5k-a2-m2-cC 1w5k-a2-m2-cC_1w5k-a2-m2-cD RMRQIEDRLEEILSKLYHICNELARIRRLLGER RMRQIEDRLEEILSKLYHICNELARIRRLLGER 1w5r-a1-m1-cA_1w5r-a1-m1-cB X-ray crystallographic structure of a C70Q Mycobacterium smegmatis N- arylamine Acetyltransferase O86309 O86309 1.45 X-RAY DIFFRACTION 34 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 273 273 1w6f-a1-m1-cB_1w6f-a1-m1-cA 1w6f-a2-m1-cD_1w6f-a2-m1-cC MDLGGYLTRIGLDGRPRPDLGTLHAIVAAHNRSIPFENLDPLLGIPVADLSAEALFAKLVDRRRGGYQYEHNGLLGYVLEELGFEVERLSGRVVWMRADDAPLPAQTHNVLSVAVPGADGRYLVDVGFGGQTLTSPIRLEAGPVQQTRHEPYRLTRHGDDHTLAAQVRGEWQPLYTFTTEPRPRIDLEVGSWYVSTHPGSHFVTGLTVAVVTDDARYNLRGRNLAVHRSGATEHIRFDSAAQVLDAIVNRFGIDLGDLAGRDVQARVAEVLDT MDLGGYLTRIGLDGRPRPDLGTLHAIVAAHNRSIPFENLDPLLGIPVADLSAEALFAKLVDRRRGGYQYEHNGLLGYVLEELGFEVERLSGRVVWMRADDAPLPAQTHNVLSVAVPGADGRYLVDVGFGGQTLTSPIRLEAGPVQQTRHEPYRLTRHGDDHTLAAQVRGEWQPLYTFTTEPRPRIDLEVGSWYVSTHPGSHFVTGLTVAVVTDDARYNLRGRNLAVHRSGATEHIRFDSAAQVLDAIVNRFGIDLGDLAGRDVQARVAEVLDT 1w5u-a1-m1-cA_1w5u-a1-m1-cB GRAMICIDIN D FROM BACILLUS BREVIS (ETHANOL SOLVATE) 1.14 X-RAY DIFFRACTION 16 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 1av2-a1-m1-cA_1av2-a1-m1-cB 1av2-a2-m1-cC_1av2-a2-m1-cD 1bdw-a1-m1-cA_1bdw-a1-m1-cB 1w5u-a2-m1-cC_1w5u-a2-m1-cD 2izq-a1-m1-cA_2izq-a1-m1-cB 3l8l-a1-m1-cA_3l8l-a1-m1-cB GAAVWWWW GAAVWWWW 1w61-a1-m1-cA_1w61-a1-m1-cB proline racemase in complex with 2 molecules of pyrrole-2-carboxylic acid (holo form) Q4DA80 Q4DA80 2.1 X-RAY DIFFRACTION 110 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 353 357 1w62-a1-m1-cB_1w62-a1-m1-cA 6hje-a1-m1-cB_6hje-a1-m1-cA 6hjf-a1-m1-cB_6hjf-a1-m1-cA 6hjg-a1-m1-cA_6hjg-a1-m1-cB FKKSFTCIDMHTEGEAARIVTSGLPHIPGSNMAEKKAYLQENMDYLRRGIMLEPRGHDDMFGAFLFDPIEEGADLGIVFMDTGGYLNMCGHNSIAAVTAAVETGIVSVPAKATNVPVVLDTPAGLVRGTAHLQSGTESEVSNASIINVPSFLYQQDVVVVLPKPYGEVRVDIAFGGNFFAIVPAEQLGIDISVQNLSRLQEAGELLRTEINRSVKVQHPQLPHINTVDCVEIYGPPTNPEANYKNVVIFGNRQADRSPCGTGTSAKMATLYAKGQLRIGETFVYESILGSLFQGRVLGEERIPGVKVPVTKDAEEGMLVVTAEITGKAFIMGFNTMLFDPTDPFKNGFTLKQY FKKSFTCIDMHTEGEAARIVTSGLPHIPGSNMAEKKAYLQENMDYLRRGIMLEPRGHDDMFGAFLFDPIEEGADLGIVFMDTGGYLNMCGHNSIAAVTAAVETGIVSVPAKATNVPVVLDTPAGLVRGTAHLQSGTESEVSNASIINVPSFLYQQDVVVVLPKPYGEVRVDIAFGGNFFAIVPAEQLGIDISVQNLSRLQEAGELLRTEINRSVKVQHPQLPHINTVDCVEIYGPPTNPEANYKNVVIFGNRQADRSPCGTGTSAKMATLYAKGQLRIGETFVYESILGSLFQGRVLGEERIPGVKVPVTKDAEEGMLVVTAEITGKAFIMGFNTMLFDPTDPFKNGFTLKQYIWSS 1w6s-a1-m1-cA_1w6s-a1-m1-cC The high resolution structure of methanol dehydrogenase from methylobacterium extorquens P16027 P16027 1.2 X-RAY DIFFRACTION 118 1.0 408 (Methylorubrum extorquens) 408 (Methylorubrum extorquens) 595 596 1h4i-a1-m1-cA_1h4i-a1-m1-cC 1h4j-a1-m1-cA_1h4j-a1-m1-cC 1h4j-a2-m1-cE_1h4j-a2-m1-cG NDKLVELSKSDDNWVMPGKNYDSNNFSDLKQINKGNVKQLRPAWTFSTGLLNGHEGAPLVVDGKMYIHTSFPNNTFALGLDDPGTILWQDKPKQNPAARAVACCDLVNRGLAYWPGDGKTPALILKTQLDGNVAALNAETGETVWKVENSDIKVGSTLTIAPYVVKDKVIIGSSGAELGVRGYLTAYDVKTGEQVWRAYATGPDKDLLLASDFNIKNPHYGQKGLGTGTWEGDAWKIGGGTNWGWYAYDPGTNLIYFGTGNPAPWNETMRPGDNKWTMTIFGRDADTGEAKFGYQKTPHDEWDYAGVNVMMLSEQKDKDGKARKLLTHPDRNGIVYTLDRTDGALVSANKLDDTVNVFKSVDLKTGQPVRDPEYGTRMDHLAKDICPSAMGYHNQGHDSYDPKRELFFMGINHICMDWEPFMLPYKAGQFFVGATLNMYPGPKGDRQNYEGLGQIKAYNAITGDYKWEKMERFAVWGGTMATAGDLVFYGTLDGYLKARDSDTGDLLWKFKIPSGAIGYPMTYTHKGTQYVAIYYGVGGWPGVGLVFDLADPTAGLGAVGAFKKLANYTQMGGGVVVFSLDGKGPYDDPNVGEWK NDKLVELSKSDDNWVMPGKNYDSNNFSDLKQINKGNVKQLRPAWTFSTGLLNGHEGAPLVVDGKMYIHTSFPNNTFALGLDDPGTILWQDKPKQNPAARAVACCDLVNRGLAYWPGDGKTPALILKTQLDGNVAALNAETGETVWKVENSDIKVGSTLTIAPYVVKDKVIIGSSGAELGVRGYLTAYDVKTGEQVWRAYATGPDKDLLLASDFNIKNPHYGQKGLGTGTWEGDAWKIGGGTNWGWYAYDPGTNLIYFGTGNPAPWNETMRPGDNKWTMTIFGRDADTGEAKFGYQKTPHDEWDYAGVNVMMLSEQKDKDGKARKLLTHPDRNGIVYTLDRTDGALVSANKLDDTVNVFKSVDLKTGQPVRDPEYGTRMDHLAKDICPSAMGYHNQGHDSYDPKRELFFMGINHICMDWEPFMLPYKAGQFFVGATLNMYPGPKGDRQNYEGLGQIKAYNAITGDYKWEKMERFAVWGGTMATAGDLVFYGTLDGYLKARDSDTGDLLWKFKIPSGAIGYPMTYTHKGTQYVAIYYGVGGWPGVGLVFDLADPTAGLGAVGAFKKLANYTQMGGGVVVFSLDGKGPYDDPNVGEWKS 1w6u-a1-m1-cB_1w6u-a1-m1-cA Structure of human DECR ternary complex Q16698 Q16698 1.75 X-RAY DIFFRACTION 194 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 286 288 1w6u-a1-m1-cD_1w6u-a1-m1-cC 1w73-a1-m1-cB_1w73-a1-m1-cA 1w73-a1-m1-cD_1w73-a1-m1-cC 1w8d-a1-m1-cB_1w8d-a1-m1-cA 1w8d-a1-m1-cD_1w8d-a1-m1-cC MNTEALQSKFFSPLQKAMLPPNSFQGKVAFITGGGTGLGKGMTTLLSSLGAQCVIASRKMDVLKATAEQISSQTGNKVHAIQCDVRDPDMVQNTVSELIKVAGHPNIVINNAAGNFISPTERLSPNAWKTITDIVLNGTAFVTLEIGKQLIKAQKGAAFLSITTIYAETGSGFVVPSASAKAGVEAMSKSLAAEWGKYGMRFNVIQPGPIKTGTFEKEMIGRIPCGRLGTVEELANLAAFLCSDYASWINGAVIKFDGGEEVLISGEFNDLRKVTKEQWDTIEELI NTEALQSKFFSPLQKAMLPPNSFQGKVAFITGGGTGLGKGMTTLLSSLGAQCVIASRKMDVLKATAEQISSQTGNKVHAIQCDVRDPDMVQNTVSELIKVAGHPNIVINNAAGNFISPTERLSPNAWKTITDIVLNGTAFVTLEIGKQLIKAQKGAAFLSITTIYAETGSGFVVPSASAKAGVEAMSKSLAAEWGKYGMRFNVIQPGPIKTLDPTGTFEKEMIGRIPCGRLGTVEELANLAAFLCSDYASWINGAVIKFDGGEEVLISGEFNDLRKVTKEQWDTIEEL 1w6u-a1-m1-cD_1w6u-a1-m1-cA Structure of human DECR ternary complex Q16698 Q16698 1.75 X-RAY DIFFRACTION 89 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 282 288 1w6u-a1-m1-cB_1w6u-a1-m1-cC 1w73-a1-m1-cB_1w73-a1-m1-cC 1w73-a1-m1-cD_1w73-a1-m1-cA 1w8d-a1-m1-cB_1w8d-a1-m1-cC 1w8d-a1-m1-cD_1w8d-a1-m1-cA MNTEALQSKFFSPLQKAMLPPNSFQGKVAFITGGGTGLGKGMTTLLSSLGAQCVIASRKMDVLKATAEQISSQTGNKVHAIQCDVRDPDMVQNTVSELIKVAGHPNIVINNAAGNFISPTERLSPNAWKTITDIVLNGTAFVTLEIGKQLIKAQKGAAFLSITTIYAETGSGFVVPSASAKAGVEAMSKSLAAEWGKYGMRFNVIQPGPIKTFEKEMIGRIPCGRLGTVEELANLAAFLCSDYASWINGAVIKFDGGEEVLISGEFNDLRKVTKEQWDTIEE NTEALQSKFFSPLQKAMLPPNSFQGKVAFITGGGTGLGKGMTTLLSSLGAQCVIASRKMDVLKATAEQISSQTGNKVHAIQCDVRDPDMVQNTVSELIKVAGHPNIVINNAAGNFISPTERLSPNAWKTITDIVLNGTAFVTLEIGKQLIKAQKGAAFLSITTIYAETGSGFVVPSASAKAGVEAMSKSLAAEWGKYGMRFNVIQPGPIKTLDPTGTFEKEMIGRIPCGRLGTVEELANLAAFLCSDYASWINGAVIKFDGGEEVLISGEFNDLRKVTKEQWDTIEEL 1w73-a1-m1-cD_1w73-a1-m1-cB Binary structure of human DECR solved by SeMet SAD. Q16698 Q16698 2.1 X-RAY DIFFRACTION 132 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 272 274 1w6u-a1-m1-cC_1w6u-a1-m1-cA 1w6u-a1-m1-cD_1w6u-a1-m1-cB 1w73-a1-m1-cC_1w73-a1-m1-cA 1w8d-a1-m1-cC_1w8d-a1-m1-cA 1w8d-a1-m1-cD_1w8d-a1-m1-cB NTEALQSKFFSPLQKALPPNSFQGKVAFITGGGTGLGKGTTLLSSLGAQCVIASRKDVLKATAEQISSQTGNKVHAIQCDVRDPDVQNTVSELIKVAGHPNIVINNAAGNFISPTERLSPNAWKTITDIVLNGTAFVTLEIGKQLIKAQKGAAFLSITTIYAETGSGFVVPSASAKAGVEASKSLAAEWGKYGRFNVIQPGPIKTKEIGRIPCGRLGTVEELANLAAFLCSDYASWINGAVIKFDGGEEVLISGEFNDLRKVTKEQWDTIEE NTEALQSKFFSPLQKALPPNSFQGKVAFITGGGTGLGKGTTLLSSLGAQCVIASRKDVLKATAEQISSQTGNKVHAIQCDVRDPDVQNTVSELIKVAGHPNIVINNAAGNFISPTERLSPNAWKTITDIVLNGTAFVTLEIGKQLIKAQKGAAFLSITTIYAETGSGFVVPSASAKAGVEASKSLAAEWGKYGRFNVIQPGPIKEKEIGRIPCGRLGTVEELANLAAFLCSDYASWINGAVIKFDGGEEVLISGEFNDLRKVTKEQWDTIEELI 1w7c-a1-m1-cA_1w7c-a1-m2-cA PPLO at 1.23 Angstroms Q96X16 Q96X16 1.23 X-RAY DIFFRACTION 597 1.0 4922 (Komagataella pastoris) 4922 (Komagataella pastoris) 736 736 1n9e-a1-m1-cA_1n9e-a1-m1-cB 1n9e-a2-m1-cC_1n9e-a2-m1-cD 1rky-a1-m1-cA_1rky-a1-m2-cA AECVSNENVEIEAPKTNIWTSLAKEEVQEVLDLLHSTYNITEVTKADFFSNYVLWIETLKPNKTEALTYLDEDGDLPPRNARTVVYFGEGEEGYFEELKVGPLPVSDETTIEPLSFYNTNGKSKLPFEVGHLDRIKSAAKSSFLNKNLNTTIMRDVLEGLIGVPYEDMGCHSAAPQLHDPATGATVDYGTCNINTENDAENLVPTGFFFKFDMTGRDVSQWKMLEYIYNNKVYTSAEELYEAMQKDDFVTLPKIDVDNLDWTVIQRNDSAPVRHLDDRKSPRLVEPEGRRWAYDGDEEYFSWMDWGFYTSWSRDTGISFYDITFKGERIVYELSLQELIAEYGSDDPFNQHTFYSDISYGVGNRFSLVPGYDCPSTAGYFTTDTFEYDEFYNRTLSYCVFENQEDYSLLRHTGASYSAITQNPTLNVRFISTIGNDYNFLYKFFLDGTLEVSVRAAGYIQAGYWNPETSAPYGLKIHDVLSGSFHDHVLNYKVDLDVGGTKNRASQYVMKDVDVEYPWAPGTVYNTKQIAREVFENEDFNGINWPENGQGILLIESAEETNSFGNPRAYNIMPGGGGVHRIVKNSRSGPETQNWARSNLFLTKHKDTELRSSTALNTNALYDPPVNFNAFLDDESLDGEDIVAWVNLGLHHLPNSNDLPNTIFSTAHASFMLTPFNYFDSENSRDTTQQVFYTYDDETEESNWEFYGNDWSSCGVEVAEPNFEDYTYGRGTRINKK AECVSNENVEIEAPKTNIWTSLAKEEVQEVLDLLHSTYNITEVTKADFFSNYVLWIETLKPNKTEALTYLDEDGDLPPRNARTVVYFGEGEEGYFEELKVGPLPVSDETTIEPLSFYNTNGKSKLPFEVGHLDRIKSAAKSSFLNKNLNTTIMRDVLEGLIGVPYEDMGCHSAAPQLHDPATGATVDYGTCNINTENDAENLVPTGFFFKFDMTGRDVSQWKMLEYIYNNKVYTSAEELYEAMQKDDFVTLPKIDVDNLDWTVIQRNDSAPVRHLDDRKSPRLVEPEGRRWAYDGDEEYFSWMDWGFYTSWSRDTGISFYDITFKGERIVYELSLQELIAEYGSDDPFNQHTFYSDISYGVGNRFSLVPGYDCPSTAGYFTTDTFEYDEFYNRTLSYCVFENQEDYSLLRHTGASYSAITQNPTLNVRFISTIGNDYNFLYKFFLDGTLEVSVRAAGYIQAGYWNPETSAPYGLKIHDVLSGSFHDHVLNYKVDLDVGGTKNRASQYVMKDVDVEYPWAPGTVYNTKQIAREVFENEDFNGINWPENGQGILLIESAEETNSFGNPRAYNIMPGGGGVHRIVKNSRSGPETQNWARSNLFLTKHKDTELRSSTALNTNALYDPPVNFNAFLDDESLDGEDIVAWVNLGLHHLPNSNDLPNTIFSTAHASFMLTPFNYFDSENSRDTTQQVFYTYDDETEESNWEFYGNDWSSCGVEVAEPNFEDYTYGRGTRINKK 1w7j-a1-m1-cA_1w7j-a1-m2-cA Crystal Structure Of Myosin V Motor With Essential Light Chain + ADP-BeFx - Near Rigor Q02440 Q02440 2 X-RAY DIFFRACTION 46 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 752 752 AASELYTKYARVWIPDPEEVWKSAELLKDYKPGDKVLQLRLEEGKDLEYCLDPKTKELPPLRNPDILVGENDLTALSYLHEPAVLHNLKVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAALPEFKTLRLGNANYFHYTKQGGSPVIDGIDDAKEMVNTRQACTLLGISDSYQMGIFRILAGILHLGNVEFASRDSDSCAIPPKHDPLTIFCDLMGVDYEEMAHWLCHRKLATATETYIKPISKLHAINARDALAKHIYANLFNWIVDHVNKALHSTVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIEAKMGVLDLLDEECKMPKGSDDTWAQKLYNTHLNKCALFEKPRLSNKAFIIKHFADKVEYQCEGFLEKNKDTVYEEQIKVLKSSKKFKLLPELFQKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLSDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKIRADKLRAACIRIQKTIRGWLMRKKYMRMRR AASELYTKYARVWIPDPEEVWKSAELLKDYKPGDKVLQLRLEEGKDLEYCLDPKTKELPPLRNPDILVGENDLTALSYLHEPAVLHNLKVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAALPEFKTLRLGNANYFHYTKQGGSPVIDGIDDAKEMVNTRQACTLLGISDSYQMGIFRILAGILHLGNVEFASRDSDSCAIPPKHDPLTIFCDLMGVDYEEMAHWLCHRKLATATETYIKPISKLHAINARDALAKHIYANLFNWIVDHVNKALHSTVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIEAKMGVLDLLDEECKMPKGSDDTWAQKLYNTHLNKCALFEKPRLSNKAFIIKHFADKVEYQCEGFLEKNKDTVYEEQIKVLKSSKKFKLLPELFQKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLSDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKIRADKLRAACIRIQKTIRGWLMRKKYMRMRR 1w7w-a1-m1-cD_1w7w-a1-m1-cF Structure and mutational analysis of a plant mitochondrial nucleoside diphosphate kinase: identification of residues involved in serine phosphorylation and oligomerization. Q9SP13 Q9SP13 2.8 X-RAY DIFFRACTION 52 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 150 150 1w7w-a1-m1-cA_1w7w-a1-m1-cC 1w7w-a1-m1-cA_1w7w-a1-m1-cE 1w7w-a1-m1-cB_1w7w-a1-m1-cD 1w7w-a1-m1-cB_1w7w-a1-m1-cF 1w7w-a1-m1-cC_1w7w-a1-m1-cE AELERTFIAIKPDGVQRGLISEIISRFERKGFKLVGIKVLIPTKQFAQQHYHDLKERPFFNGLCDFLSSGPVIAMVWEGEGVITYGRKLIGATDPQKSAPGTIRGDLAVVVGRNIIHGSDGPETAKDEIKLWFKPEELVSFTSNSEKWIY AELERTFIAIKPDGVQRGLISEIISRFERKGFKLVGIKVLIPTKQFAQQHYHDLKERPFFNGLCDFLSSGPVIAMVWEGEGVITYGRKLIGATDPQKSAPGTIRGDLAVVVGRNIIHGSDGPETAKDEIKLWFKPEELVSFTSNSEKWIY 1w7w-a1-m1-cF_1w7w-a1-m1-cE Structure and mutational analysis of a plant mitochondrial nucleoside diphosphate kinase: identification of residues involved in serine phosphorylation and oligomerization. Q9SP13 Q9SP13 2.8 X-RAY DIFFRACTION 74 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 150 151 1w7w-a1-m1-cB_1w7w-a1-m1-cA 1w7w-a1-m1-cD_1w7w-a1-m1-cC AELERTFIAIKPDGVQRGLISEIISRFERKGFKLVGIKVLIPTKQFAQQHYHDLKERPFFNGLCDFLSSGPVIAMVWEGEGVITYGRKLIGATDPQKSAPGTIRGDLAVVVGRNIIHGSDGPETAKDEIKLWFKPEELVSFTSNSEKWIY AELERTFIAIKPDGVQRGLISEIISRFERKGFKLVGIKVLIPTKQFAQQHYHDLKERPFFNGLCDFLSSGPVIAMVWEGEGVITYGRKLIGATDPQKSAPGTIRGDLAVVVGRNIIHGSDGPETAKDEIKLWFKPEELVSFTSNSEKWIYG 1w7z-a1-m1-cA_1w7z-a1-m1-cF Crystal structure of the free (uncomplexed) Ecballium elaterium trypsin inhibitor (EETI-II) P12071 P12071 1.67 X-RAY DIFFRACTION 14 1.0 3679 (Ecballium elaterium) 3679 (Ecballium elaterium) 31 31 1w7z-a1-m1-cB_1w7z-a1-m1-cC 1w7z-a1-m1-cE_1w7z-a1-m1-cD GCPRILIRCKQDSDCLAGCVCGPNGFCGSPA GCPRILIRCKQDSDCLAGCVCGPNGFCGSPA 1w7z-a1-m1-cB_1w7z-a1-m1-cF Crystal structure of the free (uncomplexed) Ecballium elaterium trypsin inhibitor (EETI-II) P12071 P12071 1.67 X-RAY DIFFRACTION 11 1.0 3679 (Ecballium elaterium) 3679 (Ecballium elaterium) 31 31 1w7z-a1-m1-cA_1w7z-a1-m1-cC 1w7z-a1-m1-cB_1w7z-a1-m1-cD 1w7z-a1-m1-cD_1w7z-a1-m1-cF 1w7z-a1-m1-cE_1w7z-a1-m1-cA 1w7z-a1-m1-cE_1w7z-a1-m1-cC GCPRILIRCKQDSDCLAGCVCGPNGFCGSPA GCPRILIRCKQDSDCLAGCVCGPNGFCGSPA 1w7z-a1-m1-cC_1w7z-a1-m1-cD Crystal structure of the free (uncomplexed) Ecballium elaterium trypsin inhibitor (EETI-II) P12071 P12071 1.67 X-RAY DIFFRACTION 18 1.0 3679 (Ecballium elaterium) 3679 (Ecballium elaterium) 31 31 1w7z-a1-m1-cA_1w7z-a1-m1-cB 1w7z-a1-m1-cE_1w7z-a1-m1-cF GCPRILIRCKQDSDCLAGCVCGPNGFCGSPA GCPRILIRCKQDSDCLAGCVCGPNGFCGSPA 1w85-a1-m1-cA_1w85-a1-m1-cC The crystal structure of pyruvate dehydrogenase E1 bound to the peripheral subunit binding domain of E2 P21873 P21873 2 X-RAY DIFFRACTION 135 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 358 365 1w85-a2-m1-cE_1w85-a2-m1-cG 1w88-a1-m1-cA_1w88-a1-m1-cC 3duf-a1-m1-cA_3duf-a1-m1-cC 3duf-a2-m1-cE_3duf-a2-m1-cG 3dv0-a1-m1-cA_3dv0-a1-m1-cC 3dv0-a2-m1-cE_3dv0-a2-m1-cG 3dva-a1-m1-cA_3dva-a1-m1-cC 3dva-a2-m1-cE_3dva-a2-m1-cG TFQFPFAEQLEKVAEQFPTFQILNEEGEVVNEEAMPELSDEQLKELMRRMVYTRILDQRSISLNRQGRLGFYAPTAGQEASQIASHFALEKEDFILPGYRDVPQIIWHGLPLYQAFLFSRGHFHGNQIPEGVNVLPPQIIIGAQYIQAAGVALGLKMRGKKAVAITYTGDGGTSQGDFYEGINFAGAFKAPAIFVVQNNRFAISTPVEKQTVAKTLAQKAVAAGIPGIQVDGMDPLAVYAAVKAARERAINGEGPTLIETLCFRYGPHTMSGDSKELENEWAKKDPLVRFRKFLEAKGLWSEEEENNVIEQAKEEIKEAIKKADETPKQKVTDLISIMFEELPFNLKEQYEIYKEKES TFQFPFAEQLEKVAEQFPTFQILNEEGEVVNEEAMPELSDEQLKELMRRMVYTRILDQRSISLNRQGRLGFYAPTAGQEASQIASHFALEKEDFILPGYRDVPQIIWHGLPLYQAFLFSRGHFHGNQIPEGVNVLPPQIIIGAQYIQAAGVALGLKMRGKKAVAITYTGDGGTSQGDFYEGINFAGAFKAPAIFVVQNNRFAISTPVEKQTVAKTLAQKAVAAGIPGIQVDGMDPLAVYAAVKAARERAINGEGPTLIETLCFRYGPHTMSGDDPTRYRSKELENEWAKKDPLVRFRKFLEAKGLWSEEEENNVIEQAKEEIKEAIKKADETPKQKVTDLISIMFEELPFNLKEQYEIYKEKESK 1w88-a1-m1-cB_1w88-a1-m1-cD The crystal structure of pyruvate dehydrogenase E1(D180N,E183Q) bound to the peripheral subunit binding domain of E2 P21874 P21874 2.3 X-RAY DIFFRACTION 108 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 324 324 1w85-a1-m1-cB_1w85-a1-m1-cD 1w85-a2-m1-cF_1w85-a2-m1-cH 1w88-a2-m1-cF_1w88-a2-m1-cH 3duf-a1-m1-cB_3duf-a1-m1-cD 3duf-a2-m1-cF_3duf-a2-m1-cH 3dv0-a1-m1-cB_3dv0-a1-m1-cD 3dv0-a2-m1-cF_3dv0-a2-m1-cH 3dva-a1-m1-cB_3dva-a1-m1-cD 3dva-a2-m1-cF_3dva-a2-m1-cH AQMTMVQAITDALRIELKNDPNVLIFGEDVGVNGGVFRATEGLQAEFGEDRVFDTPLAESGIGGLAIGLALQGFRPVPEIQFFGFVYEVMDSICGQMARIRYRTGGRYHMPITIRSPFGGGVHTPELHSDSLEGLVAQQPGLKVVIPSTPYDAKGLLISAIRDNDPVIFLEHLKLYRSFRQEVPEGEYTIPIGKADIKREGKDITIIAYGAMVHESLKAAAELEKEGISAEVVDLRTVQPLDIETIIGSVEKTGRAIVVQEAQRQAGIAANVVAEINERAILSLEAPVLRVAAPDTVYPFAQAESVWLPNFKDVIETAKKVMNF AQMTMVQAITDALRIELKNDPNVLIFGEDVGVNGGVFRATEGLQAEFGEDRVFDTPLAESGIGGLAIGLALQGFRPVPEIQFFGFVYEVMDSICGQMARIRYRTGGRYHMPITIRSPFGGGVHTPELHSDSLEGLVAQQPGLKVVIPSTPYDAKGLLISAIRDNDPVIFLEHLKLYRSFRQEVPEGEYTIPIGKADIKREGKDITIIAYGAMVHESLKAAAELEKEGISAEVVDLRTVQPLDIETIIGSVEKTGRAIVVQEAQRQAGIAANVVAEINERAILSLEAPVLRVAAPDTVYPFAQAESVWLPNFKDVIETAKKVMNF 1w88-a2-m1-cE_1w88-a2-m1-cG The crystal structure of pyruvate dehydrogenase E1(D180N,E183Q) bound to the peripheral subunit binding domain of E2 P21873 P21873 2.3 X-RAY DIFFRACTION 96 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 328 331 FQFPFAEQLEKVAEQFPTFQILNEEGEVVNEEAMPELSDEQLKELMRRMVYTRILDQRSISLNRQGRLGFYAPTAGQEASQIASHFALEKEDFILPGYRDVPQIIWHGLPLYQAFLFSRGHFHGNQIPEGVNVLPPQIIIGAQYIQAAGVALGLKMRGKKAVAITYTGDGGTSQGNFYQGINFAGAFKAPAIFVVQNNRFAAKTLAQKAVAAGIPGIQVDGMDPLAVYAAVKAARERAINGEGPTLIETLCKKDPLVRFRKFLEAKGLWSEEEENNVIEQAKEEIKEAIKKADETPKQKVTDLISIMFEELPFNLKEQYEIYKEKESK FQFPFAEQLEKVAEQFPTFQILNEEGEVVNEEAMPELSDEQLKELMRRMVYTRILDQRSISLNRQGRLGFYAPTAGQEASQIASHFALEKEDFILPGYRDVPQIIWHGLPLYQAFLFSRGHFHGNQIPEGVNVLPPQIIIGAQYIQAAGVALGLKMRGKKAVAITYTGDGGTSQGNFYQGINFAGAFKAPAIFVVQNNRFAQTVAKTLAQKAVAAGIPGIQVDGMDPLAVYAAVKAARERAINGEGPTLIETLCKKDPLVRFRKFLEAKGLWSEEEENNVIEQAKEEIKEAIKKADETPKQKVTDLISIMFEELPFNLKEQYEIYKEKESK 1w89-a1-m1-cA_1w89-a1-m1-cB Structure of the reduced form of human thioredoxin 2 Q99757 Q99757 2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 1uvz-a1-m1-cA_1uvz-a1-m1-cB 1uvz-a2-m1-cC_1uvz-a2-m1-cD 1uvz-a3-m1-cF_1uvz-a3-m1-cE 1w4v-a1-m1-cA_1w4v-a1-m1-cB 1w4v-a2-m1-cC_1w4v-a2-m1-cD 1w4v-a3-m1-cF_1w4v-a3-m1-cE 1w89-a2-m1-cC_1w89-a2-m1-cD 1w89-a3-m1-cF_1w89-a3-m1-cE HGSTTFNIQDGPDFQDRVVNSETPVVVDFHAQWCGPCKILGPRLEKMVAKQHGKVVMAKVDIDDHTDLAIEYEVSAVPTVLAMKNGDVVDKFVGIKDEDQLEAFLKKLIG HGSTTFNIQDGPDFQDRVVNSETPVVVDFHAQWCGPCKILGPRLEKMVAKQHGKVVMAKVDIDDHTDLAIEYEVSAVPTVLAMKNGDVVDKFVGIKDEDQLEAFLKKLIG 1w8f-a1-m1-cC_1w8f-a1-m1-cD PSEUDOMONAS AERUGINOSA LECTIN II (PA-IIL)COMPLEXED WITH LACTO-N-NEO- FUCOPENTAOSE V(LNPFV) Q9HYN5 Q9HYN5 1.05 X-RAY DIFFRACTION 16 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 114 114 1gzt-a1-m1-cA_1gzt-a1-m1-cC 1gzt-a1-m1-cB_1gzt-a1-m1-cD 1our-a1-m1-cA_1our-a1-m2-cA 1our-a1-m3-cA_1our-a1-m4-cA 1ous-a1-m1-cA_1ous-a1-m1-cC 1ous-a1-m1-cD_1ous-a1-m1-cB 1oux-a1-m1-cA_1oux-a1-m1-cC 1oux-a1-m1-cB_1oux-a1-m1-cD 1ovp-a1-m1-cA_1ovp-a1-m2-cA 1ovp-a1-m3-cA_1ovp-a1-m4-cA 1ovs-a1-m1-cA_1ovs-a1-m1-cC 1ovs-a1-m1-cB_1ovs-a1-m1-cD 1oxc-a1-m1-cA_1oxc-a1-m1-cC 1oxc-a1-m1-cB_1oxc-a1-m1-cD 1uzv-a1-m1-cA_1uzv-a1-m1-cC 1uzv-a1-m1-cB_1uzv-a1-m1-cD 1w8f-a1-m1-cA_1w8f-a1-m1-cB 1w8h-a1-m1-cA_1w8h-a1-m1-cC 1w8h-a1-m1-cB_1w8h-a1-m1-cD 2boj-a1-m1-cA_2boj-a1-m1-cB 2boj-a1-m1-cC_2boj-a1-m1-cD 2bp6-a1-m1-cA_2bp6-a1-m1-cB 2bp6-a1-m1-cC_2bp6-a1-m1-cD 2jdh-a1-m1-cA_2jdh-a1-m1-cC 2jdh-a1-m1-cB_2jdh-a1-m1-cD 2jdk-a1-m1-cA_2jdk-a1-m1-cC 2jdk-a1-m1-cB_2jdk-a1-m1-cD 2jdm-a1-m1-cA_2jdm-a1-m1-cC 2jdm-a1-m1-cB_2jdm-a1-m1-cD 2jdn-a1-m1-cA_2jdn-a1-m1-cC 2jdn-a1-m1-cB_2jdn-a1-m1-cD 2jdp-a1-m1-cA_2jdp-a1-m1-cC 2jdp-a1-m1-cB_2jdp-a1-m1-cD 2jdu-a1-m1-cA_2jdu-a1-m1-cD 2jdu-a1-m1-cB_2jdu-a1-m1-cC 2jdy-a1-m1-cA_2jdy-a1-m1-cC 2jdy-a1-m1-cB_2jdy-a1-m1-cD 2vuc-a1-m1-cA_2vuc-a1-m1-cC 2vuc-a1-m1-cB_2vuc-a1-m1-cD 2vud-a1-m1-cA_2vud-a1-m1-cC 2vud-a1-m1-cB_2vud-a1-m1-cD 3dcq-a1-m1-cA_3dcq-a1-m1-cC 3dcq-a1-m1-cB_3dcq-a1-m1-cD 3zdv-a1-m1-cA_3zdv-a1-m1-cC 3zdv-a1-m1-cB_3zdv-a1-m1-cD 4ce8-a1-m1-cB_4ce8-a1-m1-cD 4ce8-a1-m1-cC_4ce8-a1-m1-cA 4ut5-a1-m1-cA_4ut5-a1-m1-cC 4ut5-a1-m1-cB_4ut5-a1-m1-cD 5a3o-a1-m1-cA_5a3o-a1-m1-cC 5a3o-a1-m1-cB_5a3o-a1-m1-cD 5hch-a1-m1-cA_5hch-a1-m3-cA 5hch-a1-m2-cA_5hch-a1-m4-cA 5i8x-a1-m1-cA_5i8x-a1-m1-cB 5i8x-a1-m1-cC_5i8x-a1-m1-cD 5nes-a1-m1-cA_5nes-a1-m1-cB 5nes-a1-m1-cC_5nes-a1-m1-cD 5ney-a1-m1-cA_5ney-a1-m1-cB 5ney-a1-m1-cC_5ney-a1-m1-cD 5nf0-a1-m1-cA_5nf0-a1-m1-cB 5nf0-a1-m1-cC_5nf0-a1-m1-cD 5ngq-a1-m1-cA_5ngq-a1-m1-cB 5ngq-a1-m1-cC_5ngq-a1-m1-cD 6r35-a1-m1-cA_6r35-a1-m1-cC 6r35-a1-m1-cB_6r35-a1-m1-cD 6s5p-a1-m1-cA_6s5p-a1-m1-cC 6s5p-a1-m1-cB_6s5p-a1-m1-cD 6s7g-a1-m1-cA_6s7g-a1-m1-cD 6s7g-a1-m1-cB_6s7g-a1-m1-cC 6y0u-a1-m1-cA_6y0u-a1-m1-cD 6y0u-a1-m1-cB_6y0u-a1-m1-cC 6y0v-a1-m1-cA_6y0v-a1-m1-cB 6y0v-a1-m1-cC_6y0v-a1-m1-cD 7nef-a1-m1-cA_7nef-a1-m1-cC 7nef-a1-m1-cB_7nef-a1-m1-cD 7nef-a1-m1-cE_7nef-a1-m1-cG 7nef-a1-m1-cF_7nef-a1-m1-cH 7prg-a1-m1-cA_7prg-a1-m1-cC 7prg-a1-m1-cB_7prg-a1-m1-cD 7psy-a1-m1-cA_7psy-a1-m1-cC 7psy-a1-m1-cB_7psy-a1-m1-cD 8aij-a1-m1-cAAA_8aij-a1-m1-cCCC 8aij-a1-m1-cBBB_8aij-a1-m1-cDDD 8aiy-a1-m1-cAAA_8aiy-a1-m1-cCCC 8aiy-a1-m1-cBBB_8aiy-a1-m1-cDDD 8an9-a1-m1-cA_8an9-a1-m1-cC 8an9-a1-m1-cB_8an9-a1-m1-cD 8ano-a1-m1-cA_8ano-a1-m1-cC 8ano-a1-m1-cB_8ano-a1-m1-cD 8anr-a1-m1-cA_8anr-a1-m3-cB 8anr-a1-m2-cA_8anr-a1-m4-cB 8aoo-a1-m1-cA_8aoo-a1-m1-cC 8aoo-a1-m1-cB_8aoo-a1-m1-cD ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG 1w8i-a1-m1-cA_1w8i-a1-m2-cA The Structure of gene product af1683 from Archaeoglobus fulgidus. O28590 O28590 2.1 X-RAY DIFFRACTION 77 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 153 153 AALIDTGIFFGFYSLKDVHHDSVAIVVHAVEGKWGRLFVTNHILDETLTLLKYKKLPADKFLEGFVESGVLNIIYTDDEVERKALEVFKARVYEKGFSYTDAISEVVAEELKLKLISYDSRFSLPTIGRDYWKSLDESERKRISAILREKGID AALIDTGIFFGFYSLKDVHHDSVAIVVHAVEGKWGRLFVTNHILDETLTLLKYKKLPADKFLEGFVESGVLNIIYTDDEVERKALEVFKARVYEKGFSYTDAISEVVAEELKLKLISYDSRFSLPTIGRDYWKSLDESERKRISAILREKGID 1w8s-a2-m1-cI_1w8s-a2-m1-cJ The mechanism of the Schiff Base Forming Fructose-1,6-bisphosphate Aldolase: Structural analysis of reaction intermediates P58315 P58315 1.85 X-RAY DIFFRACTION 106 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 250 250 1ojx-a1-m1-cA_1ojx-a1-m1-cB 1ojx-a1-m1-cA_1ojx-a1-m1-cE 1ojx-a1-m1-cB_1ojx-a1-m1-cC 1ojx-a1-m1-cC_1ojx-a1-m1-cD 1ojx-a1-m1-cD_1ojx-a1-m1-cE 1ojx-a2-m1-cF_1ojx-a2-m1-cG 1ojx-a2-m1-cF_1ojx-a2-m1-cJ 1ojx-a2-m1-cG_1ojx-a2-m1-cH 1ojx-a2-m1-cH_1ojx-a2-m1-cI 1ojx-a2-m1-cI_1ojx-a2-m1-cJ 1ok4-a1-m1-cA_1ok4-a1-m1-cB 1ok4-a1-m1-cA_1ok4-a1-m1-cE 1ok4-a1-m1-cB_1ok4-a1-m1-cC 1ok4-a1-m1-cC_1ok4-a1-m1-cD 1ok4-a1-m1-cD_1ok4-a1-m1-cE 1ok4-a2-m1-cF_1ok4-a2-m1-cG 1ok4-a2-m1-cF_1ok4-a2-m1-cJ 1ok4-a2-m1-cG_1ok4-a2-m1-cH 1ok4-a2-m1-cH_1ok4-a2-m1-cI 1ok4-a2-m1-cI_1ok4-a2-m1-cJ 1ok6-a1-m1-cB_1ok6-a1-m1-cA 1ok6-a1-m1-cB_1ok6-a1-m1-cC 1ok6-a1-m1-cC_1ok6-a1-m1-cD 1ok6-a1-m1-cD_1ok6-a1-m1-cE 1ok6-a1-m1-cE_1ok6-a1-m1-cA 1ok6-a2-m1-cF_1ok6-a2-m1-cG 1ok6-a2-m1-cF_1ok6-a2-m1-cJ 1ok6-a2-m1-cG_1ok6-a2-m1-cH 1ok6-a2-m1-cH_1ok6-a2-m1-cI 1ok6-a2-m1-cI_1ok6-a2-m1-cJ 1w8s-a1-m1-cA_1w8s-a1-m1-cB 1w8s-a1-m1-cA_1w8s-a1-m1-cE 1w8s-a1-m1-cB_1w8s-a1-m1-cC 1w8s-a1-m1-cC_1w8s-a1-m1-cD 1w8s-a1-m1-cD_1w8s-a1-m1-cE 1w8s-a2-m1-cF_1w8s-a2-m1-cG 1w8s-a2-m1-cF_1w8s-a2-m1-cJ 1w8s-a2-m1-cG_1w8s-a2-m1-cH 1w8s-a2-m1-cH_1w8s-a2-m1-cI 2yce-a1-m1-cA_2yce-a1-m1-cB 2yce-a1-m1-cA_2yce-a1-m1-cE 2yce-a1-m1-cC_2yce-a1-m1-cB 2yce-a1-m1-cC_2yce-a1-m1-cD 2yce-a1-m1-cD_2yce-a1-m1-cE 2yce-a2-m1-cF_2yce-a2-m1-cG 2yce-a2-m1-cF_2yce-a2-m1-cJ 2yce-a2-m1-cG_2yce-a2-m1-cH 2yce-a2-m1-cH_2yce-a2-m1-cI 2yce-a2-m1-cI_2yce-a2-m1-cJ NLTEKFLRIFARRGKSIILAYDHGIEHGPADFMDNPDSADPEYILRLARDAGFDGVVFQRGIAEKYYDGSVPLILKLNGKTTLYNGEPVSVANCSVEEAVSLGASAVGYTIYPGSGFEWKMFEELARIKRDAVKFDLPLVVESFPRGGKVVNETAPEIVAYAARIALELGADAMKIKYTGDPKTFSWAVKVAGKVPVLMSGGPKTKTEEDFLKQVEGVLEAGALGIAVGRNVWQRRDALKFARALAELVY NLTEKFLRIFARRGKSIILAYDHGIEHGPADFMDNPDSADPEYILRLARDAGFDGVVFQRGIAEKYYDGSVPLILKLNGKTTLYNGEPVSVANCSVEEAVSLGASAVGYTIYPGSGFEWKMFEELARIKRDAVKFDLPLVVESFPRGGKVVNETAPEIVAYAARIALELGADAMKIKYTGDPKTFSWAVKVAGKVPVLMSGGPKTKTEEDFLKQVEGVLEAGALGIAVGRNVWQRRDALKFARALAELVY 1w92-a1-m3-cA_1w92-a1-m6-cA The structure of carbomonoxy murine neuroglobin reveals a heme- sliding mechanism for affinity regulation Q9ER97 Q9ER97 1.7 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 146 146 1w92-a1-m1-cA_1w92-a1-m5-cA 1w92-a1-m2-cA_1w92-a1-m4-cA 2vry-a1-m1-cA_2vry-a1-m5-cA 2vry-a1-m2-cA_2vry-a1-m4-cA 2vry-a1-m3-cA_2vry-a1-m6-cA RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGW RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGW 1w92-a1-m5-cA_1w92-a1-m6-cA The structure of carbomonoxy murine neuroglobin reveals a heme- sliding mechanism for affinity regulation Q9ER97 Q9ER97 1.7 X-RAY DIFFRACTION 24 1.0 10090 (Mus musculus) 10090 (Mus musculus) 146 146 1w92-a1-m1-cA_1w92-a1-m2-cA 1w92-a1-m1-cA_1w92-a1-m3-cA 1w92-a1-m2-cA_1w92-a1-m3-cA 1w92-a1-m4-cA_1w92-a1-m5-cA 1w92-a1-m4-cA_1w92-a1-m6-cA 2vry-a1-m1-cA_2vry-a1-m2-cA 2vry-a1-m1-cA_2vry-a1-m3-cA 2vry-a1-m2-cA_2vry-a1-m3-cA 2vry-a1-m4-cA_2vry-a1-m5-cA 2vry-a1-m4-cA_2vry-a1-m6-cA 2vry-a1-m5-cA_2vry-a1-m6-cA RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGW RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGW 1w9c-a1-m1-cA_1w9c-a1-m1-cB Proteolytic fragment of CRM1 spanning six C-terminal HEAT repeats O14980 O14980 2.3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 321 321 VIQLGRIYLDMLNVYKCLSENISAAIQANGEMVTKQPLIRSMRTVKRETLKLISGWVSRSNDPQMVAENFVPPLLDAVLIDYQRNVPAAREPEVLSTMAIIVNKLGGHITAEIPQIFDAVFECTLNMINKDFEEYPEHRTNFFLLLQAVNSHCFPAFLAIPPTQFKLVLDSIIWAFKHTMRNVADTGLQILFTLLQNVAQEEAAAQSFYQTYFCDILQHIFSVVTDTSHTAGLTMHASILAYMFNLVEEGKISTSLNPGNPVNNQIFLQEYVANLLKSAFPHLQDAQVKLFVTGLFSLNQDIPAFKEHLRDFLVQIKEFAG VIQLGRIYLDMLNVYKCLSENISAAIQANGEMVTKQPLIRSMRTVKRETLKLISGWVSRSNDPQMVAENFVPPLLDAVLIDYQRNVPAAREPEVLSTMAIIVNKLGGHITAEIPQIFDAVFECTLNMINKDFEEYPEHRTNFFLLLQAVNSHCFPAFLAIPPTQFKLVLDSIIWAFKHTMRNVADTGLQILFTLLQNVAQEEAAAQSFYQTYFCDILQHIFSVVTDTSHTAGLTMHASILAYMFNLVEEGKISTSLNPGNPVNNQIFLQEYVANLLKSAFPHLQDAQVKLFVTGLFSLNQDIPAFKEHLRDFLVQIKEFAG 1w9z-a1-m1-cA_1w9z-a1-m1-cB Structure of Bannavirus VP9 Q9YWN5 Q9YWN5 2.56 X-RAY DIFFRACTION 131 1.0 77763 (Banna virus) 77763 (Banna virus) 257 257 1w9z-a1-m1-cC_1w9z-a1-m1-cA 1w9z-a1-m1-cC_1w9z-a1-m1-cB ALPSNVKLSKGEVEKIAVTKKEMFDELAQCNLPTIELITREHTFNGDVIRFAAWLFLMNGQKLMIANNVAVRMGMQYATNLAGNNVKITYVTSNNVVKLGHIAAGVLANPYSNKGSGLFITYEHNLISNQIETGKVCVLFITSLSTTASSTNSFAYSACSVPIEDWDFNMIKLTAETSCASLTAMTNLVNSLVPGERTRPVGLYVDIPGVTVTTSASSGSLPLTTIPAVTPLIFSAYTKQVEEVGVINTLYALSYLP ALPSNVKLSKGEVEKIAVTKKEMFDELAQCNLPTIELITREHTFNGDVIRFAAWLFLMNGQKLMIANNVAVRMGMQYATNLAGNNVKITYVTSNNVVKLGHIAAGVLANPYSNKGSGLFITYEHNLISNQIETGKVCVLFITSLSTTASSTNSFAYSACSVPIEDWDFNMIKLTAETSCASLTAMTNLVNSLVPGERTRPVGLYVDIPGVTVTTSASSGSLPLTTIPAVTPLIFSAYTKQVEEVGVINTLYALSYLP 1wa3-a1-m1-cA_1wa3-a1-m1-cB Mechanism of the Class I KDPG aldolase Q9WXS1 Q9WXS1 1.9 X-RAY DIFFRACTION 52 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 202 202 1vlw-a4-m1-cC_1vlw-a4-m1-cB 1vlw-a4-m1-cC_1vlw-a4-m2-cA 1vlw-a4-m2-cA_1vlw-a4-m1-cB 1wa3-a1-m1-cC_1wa3-a1-m1-cA 1wa3-a1-m1-cC_1wa3-a1-m1-cB 1wa3-a2-m1-cE_1wa3-a2-m1-cD 1wa3-a2-m1-cF_1wa3-a2-m1-cD 1wa3-a2-m1-cF_1wa3-a2-m1-cE 5kp9-a1-m10-cB_5kp9-a1-m23-cB 5kp9-a1-m11-cB_5kp9-a1-m20-cB 5kp9-a1-m11-cB_5kp9-a1-m38-cB 5kp9-a1-m12-cB_5kp9-a1-m37-cB 5kp9-a1-m12-cB_5kp9-a1-m47-cB 5kp9-a1-m13-cB_5kp9-a1-m45-cB 5kp9-a1-m13-cB_5kp9-a1-m46-cB 5kp9-a1-m14-cB_5kp9-a1-m29-cB 5kp9-a1-m14-cB_5kp9-a1-m44-cB 5kp9-a1-m15-cB_5kp9-a1-m16-cB 5kp9-a1-m15-cB_5kp9-a1-m28-cB 5kp9-a1-m16-cB_5kp9-a1-m28-cB 5kp9-a1-m17-cB_5kp9-a1-m27-cB 5kp9-a1-m17-cB_5kp9-a1-m52-cB 5kp9-a1-m18-cB_5kp9-a1-m51-cB 5kp9-a1-m18-cB_5kp9-a1-m60-cB 5kp9-a1-m19-cB_5kp9-a1-m39-cB 5kp9-a1-m19-cB_5kp9-a1-m59-cB 5kp9-a1-m1-cB_5kp9-a1-m10-cB 5kp9-a1-m1-cB_5kp9-a1-m23-cB 5kp9-a1-m20-cB_5kp9-a1-m38-cB 5kp9-a1-m21-cB_5kp9-a1-m30-cB 5kp9-a1-m21-cB_5kp9-a1-m43-cB 5kp9-a1-m22-cB_5kp9-a1-m42-cB 5kp9-a1-m24-cB_5kp9-a1-m54-cB 5kp9-a1-m24-cB_5kp9-a1-m9-cB 5kp9-a1-m25-cB_5kp9-a1-m26-cB 5kp9-a1-m25-cB_5kp9-a1-m53-cB 5kp9-a1-m26-cB_5kp9-a1-m53-cB 5kp9-a1-m27-cB_5kp9-a1-m52-cB 5kp9-a1-m29-cB_5kp9-a1-m44-cB 5kp9-a1-m2-cB_5kp9-a1-m22-cB 5kp9-a1-m2-cB_5kp9-a1-m42-cB 5kp9-a1-m30-cB_5kp9-a1-m43-cB 5kp9-a1-m31-cB_5kp9-a1-m40-cB 5kp9-a1-m31-cB_5kp9-a1-m58-cB 5kp9-a1-m32-cB_5kp9-a1-m57-cB 5kp9-a1-m32-cB_5kp9-a1-m7-cB 5kp9-a1-m33-cB_5kp9-a1-m5-cB 5kp9-a1-m33-cB_5kp9-a1-m6-cB 5kp9-a1-m34-cB_5kp9-a1-m49-cB 5kp9-a1-m34-cB_5kp9-a1-m4-cB 5kp9-a1-m35-cB_5kp9-a1-m36-cB 5kp9-a1-m35-cB_5kp9-a1-m48-cB 5kp9-a1-m36-cB_5kp9-a1-m48-cB 5kp9-a1-m37-cB_5kp9-a1-m47-cB 5kp9-a1-m39-cB_5kp9-a1-m59-cB 5kp9-a1-m3-cB_5kp9-a1-m41-cB 5kp9-a1-m3-cB_5kp9-a1-m50-cB 5kp9-a1-m40-cB_5kp9-a1-m58-cB 5kp9-a1-m41-cB_5kp9-a1-m50-cB 5kp9-a1-m45-cB_5kp9-a1-m46-cB 5kp9-a1-m4-cB_5kp9-a1-m49-cB 5kp9-a1-m51-cB_5kp9-a1-m60-cB 5kp9-a1-m54-cB_5kp9-a1-m9-cB 5kp9-a1-m55-cB_5kp9-a1-m56-cB 5kp9-a1-m55-cB_5kp9-a1-m8-cB 5kp9-a1-m56-cB_5kp9-a1-m8-cB 5kp9-a1-m57-cB_5kp9-a1-m7-cB 5kp9-a1-m5-cB_5kp9-a1-m6-cB 6p6f-a1-m10-cA_6p6f-a1-m23-cA 6p6f-a1-m11-cA_6p6f-a1-m20-cA 6p6f-a1-m11-cA_6p6f-a1-m38-cA 6p6f-a1-m12-cA_6p6f-a1-m37-cA 6p6f-a1-m12-cA_6p6f-a1-m47-cA 6p6f-a1-m13-cA_6p6f-a1-m45-cA 6p6f-a1-m13-cA_6p6f-a1-m46-cA 6p6f-a1-m14-cA_6p6f-a1-m29-cA 6p6f-a1-m14-cA_6p6f-a1-m44-cA 6p6f-a1-m15-cA_6p6f-a1-m16-cA 6p6f-a1-m15-cA_6p6f-a1-m28-cA 6p6f-a1-m16-cA_6p6f-a1-m28-cA 6p6f-a1-m17-cA_6p6f-a1-m27-cA 6p6f-a1-m17-cA_6p6f-a1-m52-cA 6p6f-a1-m18-cA_6p6f-a1-m51-cA 6p6f-a1-m18-cA_6p6f-a1-m60-cA 6p6f-a1-m19-cA_6p6f-a1-m39-cA 6p6f-a1-m19-cA_6p6f-a1-m59-cA 6p6f-a1-m1-cA_6p6f-a1-m10-cA 6p6f-a1-m1-cA_6p6f-a1-m23-cA 6p6f-a1-m20-cA_6p6f-a1-m38-cA 6p6f-a1-m21-cA_6p6f-a1-m30-cA 6p6f-a1-m21-cA_6p6f-a1-m43-cA 6p6f-a1-m22-cA_6p6f-a1-m42-cA 6p6f-a1-m24-cA_6p6f-a1-m54-cA 6p6f-a1-m24-cA_6p6f-a1-m9-cA 6p6f-a1-m25-cA_6p6f-a1-m26-cA 6p6f-a1-m25-cA_6p6f-a1-m53-cA 6p6f-a1-m26-cA_6p6f-a1-m53-cA 6p6f-a1-m27-cA_6p6f-a1-m52-cA 6p6f-a1-m29-cA_6p6f-a1-m44-cA 6p6f-a1-m2-cA_6p6f-a1-m22-cA 6p6f-a1-m2-cA_6p6f-a1-m42-cA 6p6f-a1-m30-cA_6p6f-a1-m43-cA 6p6f-a1-m31-cA_6p6f-a1-m40-cA 6p6f-a1-m31-cA_6p6f-a1-m58-cA 6p6f-a1-m32-cA_6p6f-a1-m57-cA 6p6f-a1-m32-cA_6p6f-a1-m7-cA 6p6f-a1-m33-cA_6p6f-a1-m5-cA 6p6f-a1-m33-cA_6p6f-a1-m6-cA 6p6f-a1-m34-cA_6p6f-a1-m49-cA 6p6f-a1-m34-cA_6p6f-a1-m4-cA 6p6f-a1-m35-cA_6p6f-a1-m36-cA 6p6f-a1-m35-cA_6p6f-a1-m48-cA 6p6f-a1-m36-cA_6p6f-a1-m48-cA 6p6f-a1-m37-cA_6p6f-a1-m47-cA 6p6f-a1-m39-cA_6p6f-a1-m59-cA 6p6f-a1-m3-cA_6p6f-a1-m41-cA 6p6f-a1-m3-cA_6p6f-a1-m50-cA 6p6f-a1-m40-cA_6p6f-a1-m58-cA 6p6f-a1-m41-cA_6p6f-a1-m50-cA 6p6f-a1-m45-cA_6p6f-a1-m46-cA 6p6f-a1-m4-cA_6p6f-a1-m49-cA 6p6f-a1-m51-cA_6p6f-a1-m60-cA 6p6f-a1-m54-cA_6p6f-a1-m9-cA 6p6f-a1-m55-cA_6p6f-a1-m56-cA 6p6f-a1-m55-cA_6p6f-a1-m8-cA 6p6f-a1-m56-cA_6p6f-a1-m8-cA 6p6f-a1-m57-cA_6p6f-a1-m7-cA 6p6f-a1-m5-cA_6p6f-a1-m6-cA 7b3y-a1-m10-cB_7b3y-a1-m18-cB 7b3y-a1-m10-cB_7b3y-a1-m5-cB 7b3y-a1-m11-cB_7b3y-a1-m16-cB 7b3y-a1-m11-cB_7b3y-a1-m24-cB 7b3y-a1-m12-cB_7b3y-a1-m29-cB 7b3y-a1-m12-cB_7b3y-a1-m4-cB 7b3y-a1-m13-cB_7b3y-a1-m32-cB 7b3y-a1-m13-cB_7b3y-a1-m57-cB 7b3y-a1-m14-cB_7b3y-a1-m9-cB 7b3y-a1-m15-cB_7b3y-a1-m20-cB 7b3y-a1-m15-cB_7b3y-a1-m55-cB 7b3y-a1-m16-cB_7b3y-a1-m24-cB 7b3y-a1-m17-cB_7b3y-a1-m22-cB 7b3y-a1-m17-cB_7b3y-a1-m30-cB 7b3y-a1-m18-cB_7b3y-a1-m5-cB 7b3y-a1-m19-cB_7b3y-a1-m51-cB 7b3y-a1-m19-cB_7b3y-a1-m56-cB 7b3y-a1-m1-cB_7b3y-a1-m14-cB 7b3y-a1-m1-cB_7b3y-a1-m9-cB 7b3y-a1-m20-cB_7b3y-a1-m55-cB 7b3y-a1-m21-cB_7b3y-a1-m26-cB 7b3y-a1-m21-cB_7b3y-a1-m49-cB 7b3y-a1-m22-cB_7b3y-a1-m30-cB 7b3y-a1-m23-cB_7b3y-a1-m28-cB 7b3y-a1-m23-cB_7b3y-a1-m6-cB 7b3y-a1-m25-cB_7b3y-a1-m45-cB 7b3y-a1-m25-cB_7b3y-a1-m50-cB 7b3y-a1-m26-cB_7b3y-a1-m49-cB 7b3y-a1-m27-cB_7b3y-a1-m43-cB 7b3y-a1-m28-cB_7b3y-a1-m6-cB 7b3y-a1-m29-cB_7b3y-a1-m4-cB 7b3y-a1-m2-cB_7b3y-a1-m27-cB 7b3y-a1-m2-cB_7b3y-a1-m43-cB 7b3y-a1-m31-cB_7b3y-a1-m39-cB 7b3y-a1-m31-cB_7b3y-a1-m44-cB 7b3y-a1-m32-cB_7b3y-a1-m57-cB 7b3y-a1-m33-cB_7b3y-a1-m38-cB 7b3y-a1-m33-cB_7b3y-a1-m7-cB 7b3y-a1-m34-cB_7b3y-a1-m42-cB 7b3y-a1-m34-cB_7b3y-a1-m59-cB 7b3y-a1-m35-cB_7b3y-a1-m40-cB 7b3y-a1-m35-cB_7b3y-a1-m48-cB 7b3y-a1-m36-cB_7b3y-a1-m53-cB 7b3y-a1-m36-cB_7b3y-a1-m58-cB 7b3y-a1-m37-cB_7b3y-a1-m8-cB 7b3y-a1-m38-cB_7b3y-a1-m7-cB 7b3y-a1-m39-cB_7b3y-a1-m44-cB 7b3y-a1-m3-cB_7b3y-a1-m37-cB 7b3y-a1-m3-cB_7b3y-a1-m8-cB 7b3y-a1-m40-cB_7b3y-a1-m48-cB 7b3y-a1-m41-cB_7b3y-a1-m46-cB 7b3y-a1-m41-cB_7b3y-a1-m54-cB 7b3y-a1-m42-cB_7b3y-a1-m59-cB 7b3y-a1-m45-cB_7b3y-a1-m50-cB 7b3y-a1-m46-cB_7b3y-a1-m54-cB 7b3y-a1-m47-cB_7b3y-a1-m52-cB 7b3y-a1-m47-cB_7b3y-a1-m60-cB 7b3y-a1-m51-cB_7b3y-a1-m56-cB 7b3y-a1-m52-cB_7b3y-a1-m60-cB 7b3y-a1-m53-cB_7b3y-a1-m58-cB 7sge-a1-m10-cA_7sge-a1-m23-cA 7sge-a1-m11-cA_7sge-a1-m20-cA 7sge-a1-m11-cA_7sge-a1-m38-cA 7sge-a1-m12-cA_7sge-a1-m37-cA 7sge-a1-m12-cA_7sge-a1-m47-cA 7sge-a1-m13-cA_7sge-a1-m45-cA 7sge-a1-m13-cA_7sge-a1-m46-cA 7sge-a1-m14-cA_7sge-a1-m29-cA 7sge-a1-m14-cA_7sge-a1-m44-cA 7sge-a1-m15-cA_7sge-a1-m16-cA 7sge-a1-m15-cA_7sge-a1-m28-cA 7sge-a1-m16-cA_7sge-a1-m28-cA 7sge-a1-m17-cA_7sge-a1-m27-cA 7sge-a1-m17-cA_7sge-a1-m52-cA 7sge-a1-m18-cA_7sge-a1-m51-cA 7sge-a1-m18-cA_7sge-a1-m60-cA 7sge-a1-m19-cA_7sge-a1-m39-cA 7sge-a1-m19-cA_7sge-a1-m59-cA 7sge-a1-m1-cA_7sge-a1-m10-cA 7sge-a1-m1-cA_7sge-a1-m23-cA 7sge-a1-m20-cA_7sge-a1-m38-cA 7sge-a1-m21-cA_7sge-a1-m30-cA 7sge-a1-m21-cA_7sge-a1-m43-cA 7sge-a1-m22-cA_7sge-a1-m42-cA 7sge-a1-m24-cA_7sge-a1-m54-cA 7sge-a1-m24-cA_7sge-a1-m9-cA 7sge-a1-m25-cA_7sge-a1-m26-cA 7sge-a1-m25-cA_7sge-a1-m53-cA 7sge-a1-m26-cA_7sge-a1-m53-cA 7sge-a1-m27-cA_7sge-a1-m52-cA 7sge-a1-m29-cA_7sge-a1-m44-cA 7sge-a1-m2-cA_7sge-a1-m22-cA 7sge-a1-m2-cA_7sge-a1-m42-cA 7sge-a1-m30-cA_7sge-a1-m43-cA 7sge-a1-m31-cA_7sge-a1-m40-cA 7sge-a1-m31-cA_7sge-a1-m58-cA 7sge-a1-m32-cA_7sge-a1-m57-cA 7sge-a1-m32-cA_7sge-a1-m7-cA 7sge-a1-m33-cA_7sge-a1-m5-cA 7sge-a1-m33-cA_7sge-a1-m6-cA 7sge-a1-m34-cA_7sge-a1-m49-cA 7sge-a1-m34-cA_7sge-a1-m4-cA 7sge-a1-m35-cA_7sge-a1-m36-cA 7sge-a1-m35-cA_7sge-a1-m48-cA 7sge-a1-m36-cA_7sge-a1-m48-cA 7sge-a1-m37-cA_7sge-a1-m47-cA 7sge-a1-m39-cA_7sge-a1-m59-cA 7sge-a1-m3-cA_7sge-a1-m41-cA 7sge-a1-m3-cA_7sge-a1-m50-cA 7sge-a1-m40-cA_7sge-a1-m58-cA 7sge-a1-m41-cA_7sge-a1-m50-cA 7sge-a1-m45-cA_7sge-a1-m46-cA 7sge-a1-m4-cA_7sge-a1-m49-cA 7sge-a1-m51-cA_7sge-a1-m60-cA 7sge-a1-m54-cA_7sge-a1-m9-cA 7sge-a1-m55-cA_7sge-a1-m56-cA 7sge-a1-m55-cA_7sge-a1-m8-cA 7sge-a1-m56-cA_7sge-a1-m8-cA 7sge-a1-m57-cA_7sge-a1-m7-cA 7sge-a1-m5-cA_7sge-a1-m6-cA 8e01-a1-m10-cA_8e01-a1-m23-cA 8e01-a1-m11-cA_8e01-a1-m20-cA 8e01-a1-m11-cA_8e01-a1-m38-cA 8e01-a1-m12-cA_8e01-a1-m37-cA 8e01-a1-m12-cA_8e01-a1-m47-cA 8e01-a1-m13-cA_8e01-a1-m45-cA 8e01-a1-m13-cA_8e01-a1-m46-cA 8e01-a1-m14-cA_8e01-a1-m29-cA 8e01-a1-m14-cA_8e01-a1-m44-cA 8e01-a1-m15-cA_8e01-a1-m16-cA 8e01-a1-m15-cA_8e01-a1-m28-cA 8e01-a1-m16-cA_8e01-a1-m28-cA 8e01-a1-m17-cA_8e01-a1-m27-cA 8e01-a1-m17-cA_8e01-a1-m52-cA 8e01-a1-m18-cA_8e01-a1-m51-cA 8e01-a1-m18-cA_8e01-a1-m60-cA 8e01-a1-m19-cA_8e01-a1-m39-cA 8e01-a1-m19-cA_8e01-a1-m59-cA 8e01-a1-m1-cA_8e01-a1-m10-cA 8e01-a1-m1-cA_8e01-a1-m23-cA 8e01-a1-m20-cA_8e01-a1-m38-cA 8e01-a1-m21-cA_8e01-a1-m30-cA 8e01-a1-m21-cA_8e01-a1-m43-cA 8e01-a1-m22-cA_8e01-a1-m42-cA 8e01-a1-m24-cA_8e01-a1-m54-cA 8e01-a1-m24-cA_8e01-a1-m9-cA 8e01-a1-m25-cA_8e01-a1-m26-cA 8e01-a1-m25-cA_8e01-a1-m53-cA 8e01-a1-m26-cA_8e01-a1-m53-cA 8e01-a1-m27-cA_8e01-a1-m52-cA 8e01-a1-m29-cA_8e01-a1-m44-cA 8e01-a1-m2-cA_8e01-a1-m22-cA 8e01-a1-m2-cA_8e01-a1-m42-cA 8e01-a1-m30-cA_8e01-a1-m43-cA 8e01-a1-m31-cA_8e01-a1-m40-cA 8e01-a1-m31-cA_8e01-a1-m58-cA 8e01-a1-m32-cA_8e01-a1-m57-cA 8e01-a1-m32-cA_8e01-a1-m7-cA 8e01-a1-m33-cA_8e01-a1-m5-cA 8e01-a1-m33-cA_8e01-a1-m6-cA 8e01-a1-m34-cA_8e01-a1-m49-cA 8e01-a1-m34-cA_8e01-a1-m4-cA 8e01-a1-m35-cA_8e01-a1-m36-cA 8e01-a1-m35-cA_8e01-a1-m48-cA 8e01-a1-m36-cA_8e01-a1-m48-cA 8e01-a1-m37-cA_8e01-a1-m47-cA 8e01-a1-m39-cA_8e01-a1-m59-cA 8e01-a1-m3-cA_8e01-a1-m41-cA 8e01-a1-m3-cA_8e01-a1-m50-cA 8e01-a1-m40-cA_8e01-a1-m58-cA 8e01-a1-m41-cA_8e01-a1-m50-cA 8e01-a1-m45-cA_8e01-a1-m46-cA 8e01-a1-m4-cA_8e01-a1-m49-cA 8e01-a1-m51-cA_8e01-a1-m60-cA 8e01-a1-m54-cA_8e01-a1-m9-cA 8e01-a1-m55-cA_8e01-a1-m56-cA 8e01-a1-m55-cA_8e01-a1-m8-cA 8e01-a1-m56-cA_8e01-a1-m8-cA 8e01-a1-m57-cA_8e01-a1-m7-cA 8e01-a1-m5-cA_8e01-a1-m6-cA 8ed3-a1-m1-c0_8ed3-a1-m1-c2 8ed3-a1-m1-c0_8ed3-a1-m1-cZ 8ed3-a1-m1-c1_8ed3-a1-m1-c5 8ed3-a1-m1-c1_8ed3-a1-m1-c6 8ed3-a1-m1-c2_8ed3-a1-m1-cZ 8ed3-a1-m1-c3_8ed3-a1-m1-c4 8ed3-a1-m1-c3_8ed3-a1-m1-c9 8ed3-a1-m1-c4_8ed3-a1-m1-c9 8ed3-a1-m1-c5_8ed3-a1-m1-c6 8ed3-a1-m1-c7_8ed3-a1-m1-ce 8ed3-a1-m1-c7_8ed3-a1-m1-ci 8ed3-a1-m1-c8_8ed3-a1-m1-cb 8ed3-a1-m1-c8_8ed3-a1-m1-ch 8ed3-a1-m1-ca_8ed3-a1-m1-cc 8ed3-a1-m1-ca_8ed3-a1-m1-ck 8ed3-a1-m1-cA_8ed3-a1-m1-cX 8ed3-a1-m1-cA_8ed3-a1-m1-cY 8ed3-a1-m1-cb_8ed3-a1-m1-ch 8ed3-a1-m1-cB_8ed3-a1-m1-cu 8ed3-a1-m1-cB_8ed3-a1-m1-cU 8ed3-a1-m1-cC_8ed3-a1-m1-cH 8ed3-a1-m1-cc_8ed3-a1-m1-ck 8ed3-a1-m1-cC_8ed3-a1-m1-cO 8ed3-a1-m1-cd_8ed3-a1-m1-cf 8ed3-a1-m1-cD_8ed3-a1-m1-cN 8ed3-a1-m1-cD_8ed3-a1-m1-cP 8ed3-a1-m1-cE_8ed3-a1-m1-cG 8ed3-a1-m1-ce_8ed3-a1-m1-ci 8ed3-a1-m1-cE_8ed3-a1-m1-cw 8ed3-a1-m1-cF_8ed3-a1-m1-cn 8ed3-a1-m1-cF_8ed3-a1-m1-cS 8ed3-a1-m1-cG_8ed3-a1-m1-cw 8ed3-a1-m1-cH_8ed3-a1-m1-cO 8ed3-a1-m1-cI_8ed3-a1-m1-cg 8ed3-a1-m1-cI_8ed3-a1-m1-cL 8ed3-a1-m1-cJ_8ed3-a1-m1-cd 8ed3-a1-m1-cJ_8ed3-a1-m1-cf 8ed3-a1-m1-cj_8ed3-a1-m1-cl 8ed3-a1-m1-cK_8ed3-a1-m1-cQ 8ed3-a1-m1-cK_8ed3-a1-m1-cW 8ed3-a1-m1-cL_8ed3-a1-m1-cg 8ed3-a1-m1-cM_8ed3-a1-m1-cj 8ed3-a1-m1-cM_8ed3-a1-m1-cl 8ed3-a1-m1-cN_8ed3-a1-m1-cP 8ed3-a1-m1-co_8ed3-a1-m1-cp 8ed3-a1-m1-co_8ed3-a1-m1-cq 8ed3-a1-m1-cp_8ed3-a1-m1-cq 8ed3-a1-m1-cQ_8ed3-a1-m1-cW 8ed3-a1-m1-cR_8ed3-a1-m1-cm 8ed3-a1-m1-cr_8ed3-a1-m1-cs 8ed3-a1-m1-cR_8ed3-a1-m1-cV 8ed3-a1-m1-cS_8ed3-a1-m1-cn 8ed3-a1-m1-cT_8ed3-a1-m1-cr 8ed3-a1-m1-cT_8ed3-a1-m1-cs 8ed3-a1-m1-ct_8ed3-a1-m1-cv 8ed3-a1-m1-ct_8ed3-a1-m1-cx 8ed3-a1-m1-cU_8ed3-a1-m1-cu 8ed3-a1-m1-cV_8ed3-a1-m1-cm 8ed3-a1-m1-cv_8ed3-a1-m1-cx 8ed3-a1-m1-cX_8ed3-a1-m1-cY KMEELFKKHKIVAVLRANSVEEAKEKALAVFEGGVHLIEITFTVPDADTVIKELSFLKEKGAIIGAGTVTSVEQCRKAVESGAEFIVSPHLDEEISQFCKEKGVFYMPGVMTPTELVKAMKLGHTILKLFPGEVVGPQFVKAMKGPFPNVKFVPTGGVNLDNVCEWFKAGVLAVGVGSALVKGTPDEVREKAKAFVEKIRGC KMEELFKKHKIVAVLRANSVEEAKEKALAVFEGGVHLIEITFTVPDADTVIKELSFLKEKGAIIGAGTVTSVEQCRKAVESGAEFIVSPHLDEEISQFCKEKGVFYMPGVMTPTELVKAMKLGHTILKLFPGEVVGPQFVKAMKGPFPNVKFVPTGGVNLDNVCEWFKAGVLAVGVGSALVKGTPDEVREKAKAFVEKIRGC 1waa-a1-m1-cA_1waa-a1-m1-cD IG27 protein domain Q8WZ42 Q8WZ42 1.8 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 93 1waa-a1-m1-cB_1waa-a1-m1-cC AMALIEVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLAASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANTKSAANLKVKEL GAMALIEVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLAASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANTKSAANLKVKEL 1waa-a1-m1-cC_1waa-a1-m1-cD IG27 protein domain Q8WZ42 Q8WZ42 1.8 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 1waa-a1-m1-cA_1waa-a1-m1-cF 1waa-a1-m1-cB_1waa-a1-m1-cA 1waa-a1-m1-cE_1waa-a1-m1-cC 1waa-a1-m1-cE_1waa-a1-m1-cD GAMALIEVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLAASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANTKSAANLKVKEL GAMALIEVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLAASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANTKSAANLKVKEL 1waa-a1-m1-cC_1waa-a1-m1-cF IG27 protein domain Q8WZ42 Q8WZ42 1.8 X-RAY DIFFRACTION 19 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 1waa-a1-m1-cB_1waa-a1-m1-cD GAMALIEVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLAASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAANTKSAANLKVKEL GAMALIEVEKPLYGVEVFVGETAHFEIELSEPDVHGQWKLKGQPLAASPDCEIIEDGKKHILILHNCQLGMTGEVSFQAAQTKSAANLKVKEL 1wap-a2-m1-cL_1wap-a2-m1-cV TRP RNA-BINDING ATTENUATION PROTEIN IN COMPLEX WITH L-TRYPTOPHAN P19466 P19466 1.8 X-RAY DIFFRACTION 65 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 67 67 1wap-a1-m1-cB_1wap-a1-m1-cA 1wap-a1-m1-cB_1wap-a1-m1-cC 1wap-a1-m1-cC_1wap-a1-m1-cD 1wap-a1-m1-cD_1wap-a1-m1-cE 1wap-a1-m1-cE_1wap-a1-m1-cF 1wap-a1-m1-cG_1wap-a1-m1-cF 1wap-a1-m1-cG_1wap-a1-m1-cH 1wap-a1-m1-cH_1wap-a1-m1-cI 1wap-a1-m1-cJ_1wap-a1-m1-cI 1wap-a1-m1-cJ_1wap-a1-m1-cK 1wap-a1-m1-cK_1wap-a1-m1-cA 1wap-a2-m1-cL_1wap-a2-m1-cM 1wap-a2-m1-cN_1wap-a2-m1-cM 1wap-a2-m1-cN_1wap-a2-m1-cO 1wap-a2-m1-cO_1wap-a2-m1-cP 1wap-a2-m1-cQ_1wap-a2-m1-cP 1wap-a2-m1-cQ_1wap-a2-m1-cR 1wap-a2-m1-cR_1wap-a2-m1-cS 1wap-a2-m1-cT_1wap-a2-m1-cS 1wap-a2-m1-cT_1wap-a2-m1-cU 1wap-a2-m1-cU_1wap-a2-m1-cV 3zte-a1-m1-cM_3zte-a1-m1-cL 3zte-a1-m1-cM_3zte-a1-m1-cN 3zte-a1-m1-cN_3zte-a1-m1-cO 3zte-a1-m1-cO_3zte-a1-m1-cP 3zte-a1-m1-cP_3zte-a1-m1-cQ 3zte-a1-m1-cQ_3zte-a1-m1-cR 3zte-a1-m1-cR_3zte-a1-m1-cS 3zte-a1-m1-cS_3zte-a1-m1-cT 3zte-a1-m1-cT_3zte-a1-m1-cU 3zte-a1-m1-cV_3zte-a1-m1-cL 3zte-a1-m1-cV_3zte-a1-m1-cU 3zte-a2-m1-cA_3zte-a2-m1-cB 3zte-a2-m1-cA_3zte-a2-m1-cK 3zte-a2-m1-cB_3zte-a2-m1-cC 3zte-a2-m1-cC_3zte-a2-m1-cD 3zte-a2-m1-cD_3zte-a2-m1-cE 3zte-a2-m1-cE_3zte-a2-m1-cF 3zte-a2-m1-cF_3zte-a2-m1-cG 3zte-a2-m1-cG_3zte-a2-m1-cH 3zte-a2-m1-cH_3zte-a2-m1-cI 3zte-a2-m1-cI_3zte-a2-m1-cJ 3zte-a2-m1-cK_3zte-a2-m1-cJ 3zzq-a1-m1-cA_3zzq-a1-m1-cB 3zzq-a1-m1-cC_3zzq-a1-m1-cB 3zzq-a1-m1-cC_3zzq-a1-m1-cD 3zzq-a1-m1-cE_3zzq-a1-m1-cD 3zzq-a1-m1-cE_3zzq-a1-m1-cF 3zzq-a1-m1-cF_3zzq-a1-m2-cA 3zzq-a1-m2-cA_3zzq-a1-m2-cB 3zzq-a1-m2-cC_3zzq-a1-m2-cB 3zzq-a1-m2-cC_3zzq-a1-m2-cD 3zzq-a1-m2-cE_3zzq-a1-m2-cD 3zzq-a1-m2-cE_3zzq-a1-m2-cF 3zzq-a1-m2-cF_3zzq-a1-m1-cA 4b27-a1-m1-cA_4b27-a1-m1-cB 4b27-a1-m1-cA_4b27-a1-m2-cF 4b27-a1-m1-cB_4b27-a1-m1-cC 4b27-a1-m1-cC_4b27-a1-m1-cD 4b27-a1-m1-cD_4b27-a1-m1-cE 4b27-a1-m1-cE_4b27-a1-m1-cF 4b27-a1-m1-cF_4b27-a1-m2-cA 4b27-a1-m2-cA_4b27-a1-m2-cB 4b27-a1-m2-cB_4b27-a1-m2-cC 4b27-a1-m2-cC_4b27-a1-m2-cD 4b27-a1-m2-cD_4b27-a1-m2-cE 4b27-a1-m2-cE_4b27-a1-m2-cF DFVVIKAVEDGVNVIGLTRGTDTKFHHSEKLDKGEVIIAQFTEHTSAIKVRGEALIQTAYGEMKSEK DFVVIKAVEDGVNVIGLTRGTDTKFHHSEKLDKGEVIIAQFTEHTSAIKVRGEALIQTAYGEMKSEK 1wat-a1-m1-cA_1wat-a1-m1-cB THE THREE-DIMENSIONAL STRUCTURE OF THE LIGAND-BINDING DOMAIN OF A WILD-TYPE BACTERIAL CHEMOTAXIS RECEPTOR P02941 P02941 3 X-RAY DIFFRACTION 51 1.0 142 143 1vls-a1-m1-cA_1vls-a1-m2-cA 1vlt-a1-m1-cA_1vlt-a1-m1-cB 2lig-a1-m1-cA_2lig-a1-m1-cB GFVISNELRQQQSELTSTWDLMLQTRINLSRSAARMMMDASNQQSSAKTDLLQNAKTTLAQAAAHYANFKNMTPLPAMAEASANVDEKYQRYQAALAELIQFLDNGNMDAYFAQPTQGMQNALGEALGNYARVSENLYRQTF QGFVISNELRQQQSELTSTWDLMLQTRINLSRSAARMMMDASNQQSSAKTDLLQNAKTTLAQAAAHYANFKNMTPLPAMAEASANVDEKYQRYQAALAELIQFLDNGNMDAYFAQPTQGMQNALGEALGNYARVSENLYRQTF 1wb7-a1-m1-cA_1wb7-a1-m2-cB Iron Superoxide Dismutase (Fe-SOD) From The Hyperthermophile Sulfolobus Solfataricus. Crystal Structure of the Y41F mutant. P80857 P80857 2.24 X-RAY DIFFRACTION 40 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 205 205 1wb7-a1-m1-cB_1wb7-a1-m2-cA 1wb8-a1-m1-cA_1wb8-a1-m2-cB 1wb8-a1-m1-cB_1wb8-a1-m2-cA IQFKKYELPPLPYKIDALEPYISKDIIDVHYNGHHKGFVNGANSLLERLEKVVKGDLQTGQYDIQGIIRGLTFNINGHKLHALYWENMAPSGKGGGKPGGALADLINKQYGSFDRFKQVFTETANSLPGTGWAVLYYDTESGNLQIMTFENHFQNHIAEIPIILILDEFEHAYYLQYKNKRADYVNAWWNVVNWDAAEKKLQKYL IQFKKYELPPLPYKIDALEPYISKDIIDVHYNGHHKGFVNGANSLLERLEKVVKGDLQTGQYDIQGIIRGLTFNINGHKLHALYWENMAPSGKGGGKPGGALADLINKQYGSFDRFKQVFTETANSLPGTGWAVLYYDTESGNLQIMTFENHFQNHIAEIPIILILDEFEHAYYLQYKNKRADYVNAWWNVVNWDAAEKKLQKYL 1wb7-a1-m1-cB_1wb7-a1-m2-cB Iron Superoxide Dismutase (Fe-SOD) From The Hyperthermophile Sulfolobus Solfataricus. Crystal Structure of the Y41F mutant. P80857 P80857 2.24 X-RAY DIFFRACTION 135 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 205 205 1wb7-a1-m1-cA_1wb7-a1-m2-cA 1wb8-a1-m1-cA_1wb8-a1-m2-cA 1wb8-a1-m1-cB_1wb8-a1-m2-cB IQFKKYELPPLPYKIDALEPYISKDIIDVHYNGHHKGFVNGANSLLERLEKVVKGDLQTGQYDIQGIIRGLTFNINGHKLHALYWENMAPSGKGGGKPGGALADLINKQYGSFDRFKQVFTETANSLPGTGWAVLYYDTESGNLQIMTFENHFQNHIAEIPIILILDEFEHAYYLQYKNKRADYVNAWWNVVNWDAAEKKLQKYL IQFKKYELPPLPYKIDALEPYISKDIIDVHYNGHHKGFVNGANSLLERLEKVVKGDLQTGQYDIQGIIRGLTFNINGHKLHALYWENMAPSGKGGGKPGGALADLINKQYGSFDRFKQVFTETANSLPGTGWAVLYYDTESGNLQIMTFENHFQNHIAEIPIILILDEFEHAYYLQYKNKRADYVNAWWNVVNWDAAEKKLQKYL 1wb7-a1-m2-cA_1wb7-a1-m2-cB Iron Superoxide Dismutase (Fe-SOD) From The Hyperthermophile Sulfolobus Solfataricus. Crystal Structure of the Y41F mutant. P80857 P80857 2.24 X-RAY DIFFRACTION 51 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 205 205 1wb7-a1-m1-cA_1wb7-a1-m1-cB 1wb8-a1-m1-cA_1wb8-a1-m1-cB 1wb8-a1-m2-cA_1wb8-a1-m2-cB IQFKKYELPPLPYKIDALEPYISKDIIDVHYNGHHKGFVNGANSLLERLEKVVKGDLQTGQYDIQGIIRGLTFNINGHKLHALYWENMAPSGKGGGKPGGALADLINKQYGSFDRFKQVFTETANSLPGTGWAVLYYDTESGNLQIMTFENHFQNHIAEIPIILILDEFEHAYYLQYKNKRADYVNAWWNVVNWDAAEKKLQKYL IQFKKYELPPLPYKIDALEPYISKDIIDVHYNGHHKGFVNGANSLLERLEKVVKGDLQTGQYDIQGIIRGLTFNINGHKLHALYWENMAPSGKGGGKPGGALADLINKQYGSFDRFKQVFTETANSLPGTGWAVLYYDTESGNLQIMTFENHFQNHIAEIPIILILDEFEHAYYLQYKNKRADYVNAWWNVVNWDAAEKKLQKYL 1wbf-a1-m1-cA_1wbf-a1-m1-cB WINGED BEAN LECTIN, SACCHARIDE FREE FORM O24313 O24313 2.3 X-RAY DIFFRACTION 32 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 237 237 KTISFNFNQFHQNEEQLKLQRDARISSNSVLELTKVVNGVPTWNSTGRALYAKPVQVWDSTTGNVASFETRFSFSIRQPFPRPHPADGLVFFIAPPNTQTGEGGGYFGIYNPLSPYPFVAVEFDTFRNTWDPQIPHIGIDVNSVISTKTVPFTLDNGGIANVVIKYDASTKILHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFSASLPG KTISFNFNQFHQNEEQLKLQRDARISSNSVLELTKVVNGVPTWNSTGRALYAKPVQVWDSTTGNVASFETRFSFSIRQPFPRPHPADGLVFFIAPPNTQTGEGGGYFGIYNPLSPYPFVAVEFDTFRNTWDPQIPHIGIDVNSVISTKTVPFTLDNGGIANVVIKYDASTKILHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFSASLPG 1wbi-a1-m1-cB_1wbi-a1-m1-cD AVR2 P56732 P56732 1.4 X-RAY DIFFRACTION 150 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 120 121 1wbi-a1-m1-cC_1wbi-a1-m1-cA 1wbi-a2-m1-cE_1wbi-a2-m1-cH 1wbi-a2-m1-cG_1wbi-a2-m1-cF RKCSLTGEWDNDLGSIMTIGAVNDNGEFDGTYITAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTSVFVGQCFVDRSGKEVLKTKWLQRLAVDDISDDWIATRVGNNDFTRQ ARKCSLTGEWDNDLGSIMTIGAVNDNGEFDGTYITAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTSVFVGQCFVDRSGKEVLKTKWLQRLAVDDISDDWIATRVGNNDFTRQ 1wbi-a2-m1-cE_1wbi-a2-m1-cF AVR2 P56732 P56732 1.4 X-RAY DIFFRACTION 26 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 121 123 1wbi-a1-m1-cB_1wbi-a1-m1-cC 1wbi-a1-m1-cD_1wbi-a1-m1-cA 1wbi-a2-m1-cG_1wbi-a2-m1-cH ARKCSLTGEWDNDLGSIMTIGAVNDNGEFDGTYITAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTSVFVGQCFVDRSGKEVLKTKWLQRLAVDDISDDWIATRVGNNDFTRQ ARKCSLTGEWDNDLGSIMTIGAVNDNGEFDGTYITAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTSVFVGQCFVDRSGKEVLKTKWLQRLAVDDISDDWIATRVGNNDFTRQHT 1wc3-a1-m1-cB_1wc3-a1-m1-cA Soluble adenylyl cyclase CyaC from S. platensis in complex with alpha, beta-methylene-ATP and Strontium O32393 O32393 1.9 X-RAY DIFFRACTION 115 1.0 118562 (Arthrospira platensis) 118562 (Arthrospira platensis) 194 198 1wc0-a1-m1-cB_1wc0-a1-m1-cA 1wc1-a1-m1-cA_1wc1-a1-m2-cA 1wc1-a2-m1-cC_1wc1-a2-m1-cB 1wc4-a1-m1-cB_1wc4-a1-m1-cA 1wc5-a1-m1-cA_1wc5-a1-m1-cD 1wc5-a2-m1-cB_1wc5-a2-m1-cC 1wc6-a1-m1-cA_1wc6-a1-m1-cC 1wc6-a2-m1-cB_1wc6-a2-m2-cB 2bw7-a1-m1-cB_2bw7-a1-m1-cA 2bw7-a2-m1-cD_2bw7-a2-m1-cC MRPEPRLITILFSDIVGFTRMSNALQSQGVAELLNEYLGEMTRAVFENQGTVDKFVGDAIMALYGAPEEMSPSEQVRRAIATARQMLVALEKLNQGWQERGLVGRVPPVRFRCGIHQGMAVVGLFGSQERSDFTAIGPSVNIAARLQEATAPNSIMVSAMVAQYVPDEEIIKREFLELKGIDEPVMTCVINPNM SHMRPEPRLITILFSDIVGFTRMSNALQSQGVAELLNEYLGEMTRAVFENQGTVDKFVGDAIMALYGAPEEMSPSEQVRRAIATARQMLVALEKLNQGWQERGLVGRNEVPPVRFRCGIHQGMAVVGLFGSQERSDFTAIGPSVNIAARLQEATAPNSIMVSAMVAQYVPDEEIIKREFLELKGIDEPVMTCVINPNM 1wcv-a1-m1-c1_1wcv-a1-m2-c1 Structure of the bacterial chromosome segregation protein Soj Q72H90 Q72H90 1.6 X-RAY DIFFRACTION 42 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 243 243 2bej-a1-m1-cA_2bej-a1-m2-cA KVRRIALANQKGGVGKTTTAINLAAYLARLGKRVLLVDLDPQGNATSGLGVRAERGVYHLLQGEPLEGLVHPVDGFHLLPATPDLVGATVELAGAPTALREALRDEGYDLVLLDAPPSLSPLTLNALAAAEGVVVPVQAEYYALEGVAGLLATLEEVRAGLNPRLRLLGILVTMYDGRTLLAQQVEAQLRAHFGEKVFWTVIPRNVRLAEAPSFGKTIAQHAPTSPGAHAYRRLAEEVMARVQ KVRRIALANQKGGVGKTTTAINLAAYLARLGKRVLLVDLDPQGNATSGLGVRAERGVYHLLQGEPLEGLVHPVDGFHLLPATPDLVGATVELAGAPTALREALRDEGYDLVLLDAPPSLSPLTLNALAAAEGVVVPVQAEYYALEGVAGLLATLEEVRAGLNPRLRLLGILVTMYDGRTLLAQQVEAQLRAHFGEKVFWTVIPRNVRLAEAPSFGKTIAQHAPTSPGAHAYRRLAEEVMARVQ 1wde-a2-m1-cA_1wde-a2-m2-cA Crystal structure of the conserved hypothetical protein APE0931 from Aeropyrum pernix K1 Q9YDI2 Q9YDI2 2 X-RAY DIFFRACTION 160 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 284 284 EAVTLLLVGWGYAPGQTLEALDAVRRADVVYVESYTPGSSWLYKSVVEAAGEARVVEASRRDLEERSREIVSRALDAVVAVVTAGDPVATTHSSLAAEALEAGVAVRYIPGVSGVQAARGATLSFYRFGGTVTLPGPWRGVTPISVARRIYLNLCAGLHTTALLDVDERGVQLSPGQGVSLLLEADREYAREAGAPALLARLPSVLVEAGAGGGHRVLYWSSLERLSTADVEGGVYSIVIPARLSGVEEWLLAAASGQRRPLEYDRSVYETVEENCKKGVYEPV EAVTLLLVGWGYAPGQTLEALDAVRRADVVYVESYTPGSSWLYKSVVEAAGEARVVEASRRDLEERSREIVSRALDAVVAVVTAGDPVATTHSSLAAEALEAGVAVRYIPGVSGVQAARGATLSFYRFGGTVTLPGPWRGVTPISVARRIYLNLCAGLHTTALLDVDERGVQLSPGQGVSLLLEADREYAREAGAPALLARLPSVLVEAGAGGGHRVLYWSSLERLSTADVEGGVYSIVIPARLSGVEEWLLAAASGQRRPLEYDRSVYETVEENCKKGVYEPV 1wdf-a1-m3-cA_1wdf-a1-m3-cB crystal structure of MHV spike protein fusion core P11224 P11224 2.5 X-RAY DIFFRACTION 19 0.989 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 91 93 1wdf-a1-m1-cA_1wdf-a1-m1-cB 1wdf-a1-m2-cA_1wdf-a1-m2-cB QKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAIDLSLDFEKLNVTLLDLTYEMNRIQDAIKKLNESYINL NQKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGADLSLDFEKLNVTLLDLTYEMNRIQDAIKKLNESYINLKE 1wdf-a2-m2-cA_1wdf-a2-m3-cA crystal structure of MHV spike protein fusion core P11224 P11224 2.5 X-RAY DIFFRACTION 104 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 91 91 1wdf-a1-m1-cA_1wdf-a1-m2-cA 1wdf-a1-m1-cA_1wdf-a1-m3-cA 1wdf-a1-m2-cA_1wdf-a1-m3-cA 1wdf-a2-m1-cA_1wdf-a2-m2-cA 1wdf-a2-m1-cA_1wdf-a2-m3-cA QKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAIDLSLDFEKLNVTLLDLTYEMNRIQDAIKKLNESYINL QKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAIDLSLDFEKLNVTLLDLTYEMNRIQDAIKKLNESYINL 1wdg-a2-m2-cB_1wdg-a2-m3-cB crystal structure of MHV spike protein fusion core P11224 P11224 2.06 X-RAY DIFFRACTION 87 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 74 74 1wdg-a1-m1-cB_1wdg-a1-m2-cB 1wdg-a1-m1-cB_1wdg-a1-m3-cB 1wdg-a1-m2-cB_1wdg-a1-m3-cB 1wdg-a2-m1-cB_1wdg-a2-m2-cB 1wdg-a2-m1-cB_1wdg-a2-m3-cB 1wdg-a3-m1-cA_1wdg-a3-m4-cA 1wdg-a3-m1-cA_1wdg-a3-m5-cA 1wdg-a3-m4-cA_1wdg-a3-m5-cA QKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSLDLTYEMNRIQDAIKKLNESYINLKE QKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSLDLTYEMNRIQDAIKKLNESYINLKE 1wdj-a1-m1-cA_1wdj-a1-m1-cC Crystal structure of TT1808 from Thermus thermophilus HB8 Q5SI60 Q5SI60 2 X-RAY DIFFRACTION 27 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 186 186 PLVLDLARPVSEEELRRLSELNPGYQWERSPEGRLWVSPTGGESGRRSLQLAYQLARWNEERGLGVVFDSSTGFKFPDGSILSPDAAFVERGAWEALSEAEREGFPPLAPKAVFEVRSASQDPEELRAKMGIYLRNGVLLGVLVDPYARAVEVFRPGKPPLRLEGVERVSLDPELPGFALSLPPLW PLVLDLARPVSEEELRRLSELNPGYQWERSPEGRLWVSPTGGESGRRSLQLAYQLARWNEERGLGVVFDSSTGFKFPDGSILSPDAAFVERGAWEALSEAEREGFPPLAPKAVFEVRSASQDPEELRAKMGIYLRNGVLLGVLVDPYARAVEVFRPGKPPLRLEGVERVSLDPELPGFALSLPPLW 1wdj-a1-m1-cB_1wdj-a1-m1-cA Crystal structure of TT1808 from Thermus thermophilus HB8 Q5SI60 Q5SI60 2 X-RAY DIFFRACTION 154 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 152 186 LWVSPTGGESGRRSLQLAYQLARWNEERGLGVVFDSSTGFKFPDGSILSPDAAFVERGAWEALSEAEREGFPPLAPKAVFEVRSASQDPEELRAKMGIYLRNGVLLGVLVDPYARAVEVFRPGKPPLRLEGVERVSLDPELPGFALSLPPLW PLVLDLARPVSEEELRRLSELNPGYQWERSPEGRLWVSPTGGESGRRSLQLAYQLARWNEERGLGVVFDSSTGFKFPDGSILSPDAAFVERGAWEALSEAEREGFPPLAPKAVFEVRSASQDPEELRAKMGIYLRNGVLLGVLVDPYARAVEVFRPGKPPLRLEGVERVSLDPELPGFALSLPPLW 1wdk-a1-m1-cA_1wdk-a1-m1-cB fatty acid beta-oxidation multienzyme complex from Pseudomonas fragi, form I (native2) P28793 P28793 2.5 X-RAY DIFFRACTION 59 1.0 296 (Pseudomonas fragi) 296 (Pseudomonas fragi) 708 711 1wdl-a1-m1-cB_1wdl-a1-m1-cA 1wdm-a1-m1-cA_1wdm-a1-m1-cB 2d3t-a1-m1-cA_2d3t-a1-m1-cB MIYEGKAITVTALESGIVELKFDLKGESVNKFNRLTLNELRQAVDAIKADASVKGVIVSSGKDVFIVGADITEFVENFKLPDAELIAGNLEANKIFSDFEDLNVPTVAAINGIALGGGLEMCLAADFRVMADSAKIGLPEVKLGIYPGFGGTVRLPRLIGVDNAVEWIASGKENRAEDALKVSAVDAVVTADKLGAAALDLIKRAISGELDYKAKRQPKLEKLKLNAIEQMMAFETAKGFVAGQAGPNYPAPVEAIKTIQKAANFGRDKALEVEAAGFAKLAKTSASNCLIGLFLNDQELKKKAKVYDKIAKDVKQAAVLGAGIMGGGIAYQSASKGTPILMKDINEHGIEQGLAEAAKLLVGRVDKGRMTPAKMAEVLNGIRPTLSYGDFGNVDLVVEAVVENPKVKQAVLAEVENHVREDAILASNTSTISISLLAKALKRPENFVGMHFFNPVHMMPLVEVIRGEKSSDLAVATTVAYAKKMGKNPIVVNDCPGFLVNRVLFPYFGGFAKLVSAGVDFVRIDKVMEKFGWPMGPAYLMDVVGIDTGHHGRDVMAEGFPDRMKDDRRSAIDALYEAKRLGQKNGKGFYAYEKKLVDSSVLEVLKPIVYEQRDVTDEDIINWMMIPLCLETVRCLEDGIVETAAEADMGLVYGIGFPLFRGGALRYIDSIGVAEFVALADQYAELGALYHPTAKLREMAKNGQSFFG MIYEGKAITVTALESGIVELKFDLKGESVNKFNRLTLNELRQAVDAIKADASVKGVIVSSGKDVFIVGADITEFVENFKLPDAELIAGNLEANKIFSDFEDLNVPTVAAINGIALGGGLEMCLAADFRVMADSAKIGLPEVKLGIYPGFGGTVRLPRLIGVDNAVEWIASGKENRAEDALKVSAVDAVVTADKLGAAALDLIKRAISGELDYKAKRQPKLEKLKLNAIEQMMAFETAKGFVAGQAGPNYPAPVEAIKTIQKAANFGRDKALEVEAAGFAKLAKTSASNCLIGLFLNDQELKKKAKVYDKIAKDVKQAAVLGAGIMGGGIAYQSASKGTPILMKDINEHGIEQGLAEAAKLLVGRVDKGRMTPAKMAEVLNGIRPTLSYGDFGNVDLVVEAVVENPKVKQAVLAEVENHVREDAILASNTSTISISLLAKALKRPENFVGMHFFNPVHMMPLVEVIRGEKSSDLAVATTVAYAKKMGKNPIVVNDCPGFLVNRVLFPYFGGFAKLVSAGVDFVRIDKVMEKFGWPMGPAYLMDVVGIDTGHHGRDVMAEGFPDRMKDDRRSAIDALYEAKRLGQKNGKGFYAYEADQKKLVDSSVLEVLKPIVYEQRDVTDEDIINWMMIPLCLETVRCLEDGIVETAAEADMGLVYGIGFPLFRGGALRYIDSIGVAEFVALADQYAELGALYHPTAKLREMAKNGQSFFG 1wdk-a1-m1-cC_1wdk-a1-m1-cD fatty acid beta-oxidation multienzyme complex from Pseudomonas fragi, form I (native2) P28790 P28790 2.5 X-RAY DIFFRACTION 193 1.0 296 (Pseudomonas fragi) 296 (Pseudomonas fragi) 390 390 1wdl-a1-m1-cC_1wdl-a1-m1-cD 1wdm-a1-m1-cC_1wdm-a1-m1-cD 2d3t-a1-m1-cC_2d3t-a1-m1-cD SLNPRDVVIVDFGRTPMGRSKGGMHRNTRAEDMSAHLISKVLERNSKVDPGEVEDVIWGCVNQTLEQGWNIARMASLMTQIPHTSAAQTVSRLCGSSMSALHTAAQAIMTGNGDVFVVGGVEHMGHVSMMHGVDPNPHMSLYAAKASGMMGLTAEMLGKMHGISREQQDAFAVRSHQLAHKATVEGKFKDEIIPMQGYDENGFLKIFDYDETIRPDTTLESLAALKPAFNPKGGTVTAGTSSQITDGASCMIVMSAQRAKDLGLEPLAVIRSMAVAGVDPAIMGYGPVPATQKALKRAGLNMADIDFIELNEAFAAQALPVLKDLKVLDKMNEKVNLHGGAIALGHPFGCSGARISGTLLNVMKQNGGTFGLSTMCIGLGQGIATVFERV SLNPRDVVIVDFGRTPMGRSKGGMHRNTRAEDMSAHLISKVLERNSKVDPGEVEDVIWGCVNQTLEQGWNIARMASLMTQIPHTSAAQTVSRLCGSSMSALHTAAQAIMTGNGDVFVVGGVEHMGHVSMMHGVDPNPHMSLYAAKASGMMGLTAEMLGKMHGISREQQDAFAVRSHQLAHKATVEGKFKDEIIPMQGYDENGFLKIFDYDETIRPDTTLESLAALKPAFNPKGGTVTAGTSSQITDGASCMIVMSAQRAKDLGLEPLAVIRSMAVAGVDPAIMGYGPVPATQKALKRAGLNMADIDFIELNEAFAAQALPVLKDLKVLDKMNEKVNLHGGAIALGHPFGCSGARISGTLLNVMKQNGGTFGLSTMCIGLGQGIATVFERV 1wdz-a1-m1-cB_1wdz-a1-m1-cA Crystal structure of RCB domain of IRSp53 Q9UQB8 Q9UQB8 2.63 X-RAY DIFFRACTION 205 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 222 231 1y2o-a1-m1-cA_1y2o-a1-m1-cB 2ykt-a1-m1-cA_2ykt-a1-m2-cA SLSRSEEMHRLTENVYKTIMEQFNPSLRNFIAMGKNYEKALAGVTYAAKGYFDALVKMGELASESQGSKELGDVLFQMAEVHRQIQNQLEEMLKSFHNELLTQLEQKVELDSRYLSAALKKYQTEQRSKGDALDKCQAELKKLRKKSQDKELQYIDAISNKQGELENYVSDGYKTALTEERRRFCFLVEKQCAVAKNSAAYHSKGKELLAQKLPLWQQGVDS SLSRSEEMHRLTENVYKTIMEQFNPSLRNFIAMGKNYEKALAGVTYAAKGYFDALVKMGELASESQGSKELGDVLFQMAEVHRQIQNQLEEMLKSFHNELLTQLEQKVELDSRYLSAALKKYQTEQRSKGDALDKCQAELKKLRKKSQGSKNPQKYSDKELQYIDAISNKQGELENYVSDGYKTALTEERRRFCFLVEKQCAVAKNSAAYHSKGKELLAQKLPLWQQGVDS 1we0-a1-m1-cA_1we0-a1-m1-cJ Crystal structure of peroxiredoxin (AhpC) from Amphibacillus xylanus K0J4Q8 K0J4Q8 2.9 X-RAY DIFFRACTION 66 1.0 1449 (Amphibacillus xylanus) 1449 (Amphibacillus xylanus) 166 166 1we0-a1-m1-cB_1we0-a1-m1-cC 1we0-a1-m1-cD_1we0-a1-m1-cE 1we0-a1-m1-cF_1we0-a1-m1-cG 1we0-a1-m1-cH_1we0-a1-m1-cI SLIGTEVQPFRAQAFQSGKDFFEVTEADLKGKWSIVVFYPADFSFVCPTELEDVQKEYAELKKLGVEVYSVSTDTHFVHKAWHENSPAVGSIEYIMIGDPSQTISRQFDVLNEETGLADRGTFIIDPDGVIQAIEINADGIGRDASTLINKVKAAQYVRENPGEVC SLIGTEVQPFRAQAFQSGKDFFEVTEADLKGKWSIVVFYPADFSFVCPTELEDVQKEYAELKKLGVEVYSVSTDTHFVHKAWHENSPAVGSIEYIMIGDPSQTISRQFDVLNEETGLADRGTFIIDPDGVIQAIEINADGIGRDASTLINKVKAAQYVRENPGEVC 1we0-a1-m1-cI_1we0-a1-m1-cJ Crystal structure of peroxiredoxin (AhpC) from Amphibacillus xylanus K0J4Q8 K0J4Q8 2.9 X-RAY DIFFRACTION 93 1.0 1449 (Amphibacillus xylanus) 1449 (Amphibacillus xylanus) 166 166 1we0-a1-m1-cA_1we0-a1-m1-cB 1we0-a1-m1-cC_1we0-a1-m1-cD 1we0-a1-m1-cE_1we0-a1-m1-cF 1we0-a1-m1-cG_1we0-a1-m1-cH SLIGTEVQPFRAQAFQSGKDFFEVTEADLKGKWSIVVFYPADFSFVCPTELEDVQKEYAELKKLGVEVYSVSTDTHFVHKAWHENSPAVGSIEYIMIGDPSQTISRQFDVLNEETGLADRGTFIIDPDGVIQAIEINADGIGRDASTLINKVKAAQYVRENPGEVC SLIGTEVQPFRAQAFQSGKDFFEVTEADLKGKWSIVVFYPADFSFVCPTELEDVQKEYAELKKLGVEVYSVSTDTHFVHKAWHENSPAVGSIEYIMIGDPSQTISRQFDVLNEETGLADRGTFIIDPDGVIQAIEINADGIGRDASTLINKVKAAQYVRENPGEVC 1wek-a1-m1-cC_1wek-a1-m1-cE Crystal structure of the conserved hypothetical protein TT1465 from Thermus thermophilus HB8 Q5SHT6 Q5SHT6 2.2 X-RAY DIFFRACTION 11 0.985 274 (Thermus thermophilus) 274 (Thermus thermophilus) 205 205 1wek-a1-m1-cE_1wek-a1-m1-cA PKKPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIELPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKA KPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIEPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKAEAP 1wek-a1-m1-cE_1wek-a1-m1-cD Crystal structure of the conserved hypothetical protein TT1465 from Thermus thermophilus HB8 Q5SHT6 Q5SHT6 2.2 X-RAY DIFFRACTION 38 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 205 207 KPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIEPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKAEAP KKPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIELPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKAEAP 1wek-a1-m1-cF_1wek-a1-m1-cA Crystal structure of the conserved hypothetical protein TT1465 from Thermus thermophilus HB8 Q5SHT6 Q5SHT6 2.2 X-RAY DIFFRACTION 23 0.98 274 (Thermus thermophilus) 274 (Thermus thermophilus) 204 207 1wek-a1-m1-cC_1wek-a1-m1-cB PKKPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKAE PLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIELPHEQKPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKA 1wek-a1-m1-cF_1wek-a1-m1-cE Crystal structure of the conserved hypothetical protein TT1465 from Thermus thermophilus HB8 Q5SHT6 Q5SHT6 2.2 X-RAY DIFFRACTION 153 0.99 274 (Thermus thermophilus) 274 (Thermus thermophilus) 204 205 1wek-a1-m1-cB_1wek-a1-m1-cA 1wek-a1-m1-cC_1wek-a1-m1-cD PKKPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKAE KPLIDQLHHEDSWRLFRILAEFVEGFETLSELQVPLVSVFGSARFGEGHPAYEAGYRLGRALAEAGFGVVTGGGPGVEAVNRGAYEAGGVSVGLNIEPNPYQTHALSLRYFFVRKVLFVRYAVGFVFLPGGFGTLDELSEVLVLLQTEKVHRFPVFLLDRGYWEGLVRWLAFLRDQKAVGPEDLQLFRLTDEPEEVVQALKAEAP 1wfx-a2-m2-cA_1wfx-a2-m3-cA Crystal Structure of APE0204 from Aeropyrum pernix Q9YFP5 Q9YFP5 2.8 X-RAY DIFFRACTION 29 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 177 177 1wfx-a2-m1-cA_1wfx-a2-m2-cA 1wfx-a2-m1-cA_1wfx-a2-m3-cA VRLSKTLAGILRHHPGRYGVRLTREGWARVSEVVEGLRKAGWSWVEEWHIVGVALHDPKGRYELRNGEIRARYGHSIPVNVEPLPGEPPPILYHGTTEEALPLIERGIRGRRLKVHLTSSLEDAVSTGRRHGNLVAVLLVDVECLRRRGLKVERSKTVYTVDWVPPECIAEVRRESL VRLSKTLAGILRHHPGRYGVRLTREGWARVSEVVEGLRKAGWSWVEEWHIVGVALHDPKGRYELRNGEIRARYGHSIPVNVEPLPGEPPPILYHGTTEEALPLIERGIRGRRLKVHLTSSLEDAVSTGRRHGNLVAVLLVDVECLRRRGLKVERSKTVYTVDWVPPECIAEVRRESL 1whi-a1-m1-cA_1whi-a1-m2-cA RIBOSOMAL PROTEIN L14 P04450 P04450 1.5 X-RAY DIFFRACTION 41 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 122 122 MIQQESRLKVADNSGAREVLVIKVLGGSGRRYANIGDVVVATVKDATPGGVVKKGQVVKAVVVRTKRGVRRPDGSYIRFDENACVIIRDDKSPRGTRIFGPVARELRDKDFMKIISLAPEVI MIQQESRLKVADNSGAREVLVIKVLGGSGRRYANIGDVVVATVKDATPGGVVKKGQVVKAVVVRTKRGVRRPDGSYIRFDENACVIIRDDKSPRGTRIFGPVARELRDKDFMKIISLAPEVI 1who-a1-m1-cA_1who-a1-m2-cA ALLERGEN PHL P 2 P43214 P43214 1.9 X-RAY DIFFRACTION 30 1.0 15957 (Phleum pratense) 15957 (Phleum pratense) 94 94 VPKVTFTVEKGSNEKHLAVLVKYEGDTMAEVELREHGSDEWVAMTKGEGGVWTFDSEEPLQGPFNFRFLTEKGMKNVFDDVVPEKYTIGATYAP VPKVTFTVEKGSNEKHLAVLVKYEGDTMAEVELREHGSDEWVAMTKGEGGVWTFDSEEPLQGPFNFRFLTEKGMKNVFDDVVPEKYTIGATYAP 1wiy-a1-m1-cA_1wiy-a1-m2-cB Crystal Structure Analysis of a 6-coordinated Cytochorome P450 from Thermus thermophilus HB8 Q53W59 Q53W59 2 X-RAY DIFFRACTION 29 0.992 274 (Thermus thermophilus) 274 (Thermus thermophilus) 358 362 MKRLSLDPLAVLLEWGRAHPRLFLPPLALIFDPEGVEGALLAEGTTKATFQYRALSRLTGRGLLTDWGKSWKEARKALKDPFLPKSVRGYREAMEEEAWAFFGEWRGEERDLDHEMLALSLRLLGRALFGKPLSPSLAEHALKALDRIMLAAEARFRKDRGALYREAEALIVHPPLSHLPRERALSEAVTLLVAGHETVASALTWSFLLLSHRPDWQKRVAESEEAALAAFQEALRLYPPAWILTRRLERPLLLGEDRLPQGTTLVLSPYVTQRLYFPEGEAFQPERFLAERGTPSGRYFPFGLGQRLCLGRDFALLEGPIVLRAFFRRFRLDPLPFPRVLAQVTLRPEGGLPARPRE MKRLSDPLAVLLEWGRAHPRLFLPLPFPLALIFDPEGVEGALLAEGTTKATFQYRALSRLTGRGLLTDWGKSWKEARKALKDPFLPKSVRGYREAMEEEAWAFFGEWRGEERDLDHEMLALSLRLLGRALFGKPLSPSLAEHALKALDRIMAQTDLAAEARFRKDRGALYREAEALIVHPPLSHLPRERALSEAVTLLVAGHETVASALTWSFLLLSHRPDWQKRVAESEEAALAAFQEALRLYPPAWILTRRLERPLLLGEDRLPQGTTLVLSPYVTQRLYFPEGEAFQPERFLRGTPSGRYFPFGLGQRLCLGRDFALLEGPIVLRAFFRRFRLDPLPFPRVLAQVTLRPEGGLPARPRE 1wiy-a1-m2-cA_1wiy-a1-m1-cB Crystal Structure Analysis of a 6-coordinated Cytochorome P450 from Thermus thermophilus HB8 Q53W59 Q53W59 2 X-RAY DIFFRACTION 22 0.992 274 (Thermus thermophilus) 274 (Thermus thermophilus) 358 362 MKRLSLDPLAVLLEWGRAHPRLFLPPLALIFDPEGVEGALLAEGTTKATFQYRALSRLTGRGLLTDWGKSWKEARKALKDPFLPKSVRGYREAMEEEAWAFFGEWRGEERDLDHEMLALSLRLLGRALFGKPLSPSLAEHALKALDRIMLAAEARFRKDRGALYREAEALIVHPPLSHLPRERALSEAVTLLVAGHETVASALTWSFLLLSHRPDWQKRVAESEEAALAAFQEALRLYPPAWILTRRLERPLLLGEDRLPQGTTLVLSPYVTQRLYFPEGEAFQPERFLAERGTPSGRYFPFGLGQRLCLGRDFALLEGPIVLRAFFRRFRLDPLPFPRVLAQVTLRPEGGLPARPRE MKRLSDPLAVLLEWGRAHPRLFLPLPFPLALIFDPEGVEGALLAEGTTKATFQYRALSRLTGRGLLTDWGKSWKEARKALKDPFLPKSVRGYREAMEEEAWAFFGEWRGEERDLDHEMLALSLRLLGRALFGKPLSPSLAEHALKALDRIMAQTDLAAEARFRKDRGALYREAEALIVHPPLSHLPRERALSEAVTLLVAGHETVASALTWSFLLLSHRPDWQKRVAESEEAALAAFQEALRLYPPAWILTRRLERPLLLGEDRLPQGTTLVLSPYVTQRLYFPEGEAFQPERFLRGTPSGRYFPFGLGQRLCLGRDFALLEGPIVLRAFFRRFRLDPLPFPRVLAQVTLRPEGGLPARPRE 1wiy-a1-m2-cA_1wiy-a1-m2-cB Crystal Structure Analysis of a 6-coordinated Cytochorome P450 from Thermus thermophilus HB8 Q53W59 Q53W59 2 X-RAY DIFFRACTION 11 0.992 274 (Thermus thermophilus) 274 (Thermus thermophilus) 358 362 1wiy-a1-m1-cA_1wiy-a1-m1-cB MKRLSLDPLAVLLEWGRAHPRLFLPPLALIFDPEGVEGALLAEGTTKATFQYRALSRLTGRGLLTDWGKSWKEARKALKDPFLPKSVRGYREAMEEEAWAFFGEWRGEERDLDHEMLALSLRLLGRALFGKPLSPSLAEHALKALDRIMLAAEARFRKDRGALYREAEALIVHPPLSHLPRERALSEAVTLLVAGHETVASALTWSFLLLSHRPDWQKRVAESEEAALAAFQEALRLYPPAWILTRRLERPLLLGEDRLPQGTTLVLSPYVTQRLYFPEGEAFQPERFLAERGTPSGRYFPFGLGQRLCLGRDFALLEGPIVLRAFFRRFRLDPLPFPRVLAQVTLRPEGGLPARPRE MKRLSDPLAVLLEWGRAHPRLFLPLPFPLALIFDPEGVEGALLAEGTTKATFQYRALSRLTGRGLLTDWGKSWKEARKALKDPFLPKSVRGYREAMEEEAWAFFGEWRGEERDLDHEMLALSLRLLGRALFGKPLSPSLAEHALKALDRIMAQTDLAAEARFRKDRGALYREAEALIVHPPLSHLPRERALSEAVTLLVAGHETVASALTWSFLLLSHRPDWQKRVAESEEAALAAFQEALRLYPPAWILTRRLERPLLLGEDRLPQGTTLVLSPYVTQRLYFPEGEAFQPERFLRGTPSGRYFPFGLGQRLCLGRDFALLEGPIVLRAFFRRFRLDPLPFPRVLAQVTLRPEGGLPARPRE 1wk2-a2-m1-cA_1wk2-a2-m2-cA Crystal structure of a hypothetical protein from thermus thermophilus HB8 Q5SM30 Q5SM30 2.5 X-RAY DIFFRACTION 66 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 82 82 ERPKLGLIVREPYASLIVDGRKVWEIRRRKTRHRGPLGIVSGGRLIGQADLVGVPLYAWVLENAFRYEKPLHVPFVDLSEVR ERPKLGLIVREPYASLIVDGRKVWEIRRRKTRHRGPLGIVSGGRLIGQADLVGVPLYAWVLENAFRYEKPLHVPFVDLSEVR 1wkj-a1-m2-cB_1wkj-a1-m3-cB Crystal Structure of Nucleoside Diphosphate Kinase from Thermus thermophilus HB8 Q5SLV5 Q5SLV5 2 X-RAY DIFFRACTION 31 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 137 137 1wkj-a1-m1-cA_1wkj-a1-m2-cA 1wkj-a1-m1-cA_1wkj-a1-m3-cA 1wkj-a1-m1-cB_1wkj-a1-m2-cB 1wkj-a1-m1-cB_1wkj-a1-m3-cB 1wkj-a1-m2-cA_1wkj-a1-m3-cA 1wkk-a1-m1-cA_1wkk-a1-m2-cA 1wkk-a1-m1-cA_1wkk-a1-m3-cA 1wkk-a1-m1-cB_1wkk-a1-m2-cB 1wkk-a1-m1-cB_1wkk-a1-m3-cB 1wkk-a1-m2-cA_1wkk-a1-m3-cA 1wkk-a1-m2-cB_1wkk-a1-m3-cB 1wkl-a1-m1-cA_1wkl-a1-m2-cA 1wkl-a1-m1-cA_1wkl-a1-m3-cA 1wkl-a1-m1-cB_1wkl-a1-m2-cB 1wkl-a1-m1-cB_1wkl-a1-m3-cB 1wkl-a1-m2-cA_1wkl-a1-m3-cA 1wkl-a1-m2-cB_1wkl-a1-m3-cB 1wkl-a2-m1-cA_1wkl-a2-m2-cA 1wkl-a2-m1-cA_1wkl-a2-m3-cA 1wkl-a2-m1-cB_1wkl-a2-m2-cB 1wkl-a2-m1-cB_1wkl-a2-m3-cB 1wkl-a2-m2-cA_1wkl-a2-m3-cA 1wkl-a2-m2-cB_1wkl-a2-m3-cB 1wkl-a2-m4-cA_1wkl-a2-m5-cA 1wkl-a2-m4-cA_1wkl-a2-m6-cA 1wkl-a2-m4-cB_1wkl-a2-m5-cB 1wkl-a2-m4-cB_1wkl-a2-m6-cB 1wkl-a2-m5-cA_1wkl-a2-m6-cA 1wkl-a2-m5-cB_1wkl-a2-m6-cB MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL 1wkj-a1-m3-cA_1wkj-a1-m3-cB Crystal Structure of Nucleoside Diphosphate Kinase from Thermus thermophilus HB8 Q5SLV5 Q5SLV5 2 X-RAY DIFFRACTION 66 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 137 137 1wkj-a1-m1-cA_1wkj-a1-m1-cB 1wkj-a1-m2-cA_1wkj-a1-m2-cB 1wkk-a1-m1-cA_1wkk-a1-m1-cB 1wkk-a1-m2-cA_1wkk-a1-m2-cB 1wkk-a1-m3-cA_1wkk-a1-m3-cB 1wkl-a1-m1-cA_1wkl-a1-m1-cB 1wkl-a1-m2-cA_1wkl-a1-m2-cB 1wkl-a1-m3-cA_1wkl-a1-m3-cB 1wkl-a2-m1-cA_1wkl-a2-m1-cB 1wkl-a2-m2-cA_1wkl-a2-m2-cB 1wkl-a2-m3-cA_1wkl-a2-m3-cB 1wkl-a2-m4-cA_1wkl-a2-m4-cB 1wkl-a2-m5-cA_1wkl-a2-m5-cB 1wkl-a2-m6-cA_1wkl-a2-m6-cB MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL 1wkl-a2-m2-cB_1wkl-a2-m6-cB Crystal Structure of Nucleoside Diphosphate Kinase from Thermus thermophilus HB8 in Complex with ATP and ADP Q5SLV5 Q5SLV5 2.2 X-RAY DIFFRACTION 17 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 137 137 1wkl-a2-m1-cB_1wkl-a2-m4-cB 1wkl-a2-m3-cB_1wkl-a2-m5-cB MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL 1wkl-a2-m3-cB_1wkl-a2-m6-cB Crystal Structure of Nucleoside Diphosphate Kinase from Thermus thermophilus HB8 in Complex with ATP and ADP Q5SLV5 Q5SLV5 2.2 X-RAY DIFFRACTION 31 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 137 137 1wkl-a2-m1-cB_1wkl-a2-m5-cB 1wkl-a2-m2-cB_1wkl-a2-m4-cB MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL MERTFVMIKPDGVRRGLVGEILARFERKGFRIAALKLMQISQELAERHYAEHREKPFFPGLVRFITSGPVVAMVLEGPGVVAEVRKMMGATHPKDALPGTIRGDFATTIDENVIHGSATLEDAQREIALFFRPEELL 1wkp-a6-m1-cD_1wkp-a6-m1-cA Flowering locus t (ft) from arabidopsis thaliana Q9SXZ2 Q9SXZ2 2.6 X-RAY DIFFRACTION 56 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 162 163 1wkp-a5-m1-cB_1wkp-a5-m1-cC RDPLIVSRVVGDVLDPFNRSITLKVTYGQREVTNGLNLRPSQVQNKPRVEIGGEDLRNFYTLVMVDPDVPSPSNPHLREYLHWLVTDIPATTGTTFGNEIVSYENPSPTAGIHRVVFILFRQLGRQTVYAPGWRQNFNTREFAEIYNLGLPVAAVFYNSQRE RDPLIVSRVVGDVLDPFNRSITLKVTYGQREVTNGLNLRPSQVQNKPRVEIGGEDLRNFYTLVMVDPDVPSPSNPHLREYLHWLVTDIPATTGTTFGNEIVSYENPSPTAGIHRVVFILFRQLGRQTVYAPGWRQNFNTREFAEIYNLGLPVAAVFYNSQRES 1wkv-a1-m1-cA_1wkv-a1-m1-cB Crystal structure of O-phosphoserine sulfhydrylase Q9YBL2 Q9YBL2 2 X-RAY DIFFRACTION 172 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 382 383 3vsa-a3-m1-cA_3vsa-a3-m1-cB 3vsc-a3-m1-cA_3vsc-a3-m1-cB 3vsd-a3-m1-cA_3vsd-a3-m1-cB ALADISGYLDVLDSVRGFSYLENAREVLRSGEARCLGNPRSEPEYVKALYVIGASRIPVGDGCSHTLEELGVFDISVPGEMVFPSPLDFFERGKPTPLVRSRLQLPNGVRVWLKLEWYNPFSLSVKDRPAVEIISRLSRRVEKGSLVADATSSNFGVALSAVARLYGYRARVYLPGAAEEFGKLLPRLLGAQVIVDPEAPSTVHLLPRVMKDSKNEGFVHVNQFYNDANFEAHMRGTAREIFVQSRRGGLALRGVAGSLGTSGHMSAAAFYLQSVDPSIRAVLVQPAQGDSIPGIRRVETGMLWINMLDISYTLAEVTLEEAMEAVVEVARSDGLVIGPSGGAAVKALAKKAAEGDLEPGDYVVVVPDTGFKYLSLVQNALE ALADISGYLDVLDSVRGFSYLENAREVLRSGEARCLGNPRSEPEYVKALYVIGASRIPVGDGCSHTLEELGVFDISVPGEMVFPSPLDFFERGKPTPLVRSRLQLPNGVRVWLKLEWYNPFSLSVKDRPAVEIISRLSRRVEKGSLVADATSSNFGVALSAVARLYGYRARVYLPGAAEEFGKLLPRLLGAQVIVDPEAPSTVHLLPRVMKDSKNEGFVHVNQFYNDANFEAHMRGTAREIFVQSRRGGLALRGVAGSLGTSGHMSAAAFYLQSVDPSIRAVLVQPAQGDSIPGIRRVETGMLWINMLDISYTLAEVTLEEAMEAVVEVARSDGLVIGPSGGAAVKALAKKAAEGDLEPGDYVVVVPDTGFKYLSLVQNALEG 1wl4-a1-m1-cA_1wl4-a1-m4-cA Human cytosolic acetoacetyl-CoA thiolase complexed with CoA Q9BWD1 Q9BWD1 1.55 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 393 393 1wl4-a1-m2-cA_1wl4-a1-m3-cA 1wl5-a1-m1-cA_1wl5-a1-m4-cA 1wl5-a1-m2-cA_1wl5-a1-m3-cA GSDPVVIVSAARTIIGSFNGALAAVPVQDLGSTVIKEVLKRATVAPEDVSEVIFGHVLAAGCGQNPVRQASVGAGIPYSVPAWSCQMIGSGLKAVCLAVQSIGIGDSSIVVAGGMENMSKAPHLAYLRTGVKIGEMPLTDSILCDGLTDAFHNCHMGITAENVAKKWQVSREDQDKVAVLSQNRTENAQKAGHFDKEIVPVLVSTRKGLIEVKTDEFPRHGSNIEAMSKLKPYFLTDGTGTVTPANASGINDGAAAVVLMKKSEADKRGLTPLARIVSWSQVGVEPSIMGIGPIPAIKQAVTKAGWSLEDVDIFEINEAFAAVSAAIVKELGLNPEKVNIEGGAIALGHPLGASGCRILVTLLHTLERMGRSRGVAALCIGGGMGIAMCVQRE GSDPVVIVSAARTIIGSFNGALAAVPVQDLGSTVIKEVLKRATVAPEDVSEVIFGHVLAAGCGQNPVRQASVGAGIPYSVPAWSCQMIGSGLKAVCLAVQSIGIGDSSIVVAGGMENMSKAPHLAYLRTGVKIGEMPLTDSILCDGLTDAFHNCHMGITAENVAKKWQVSREDQDKVAVLSQNRTENAQKAGHFDKEIVPVLVSTRKGLIEVKTDEFPRHGSNIEAMSKLKPYFLTDGTGTVTPANASGINDGAAAVVLMKKSEADKRGLTPLARIVSWSQVGVEPSIMGIGPIPAIKQAVTKAGWSLEDVDIFEINEAFAAVSAAIVKELGLNPEKVNIEGGAIALGHPLGASGCRILVTLLHTLERMGRSRGVAALCIGGGMGIAMCVQRE 1wl4-a1-m2-cA_1wl4-a1-m4-cA Human cytosolic acetoacetyl-CoA thiolase complexed with CoA Q9BWD1 Q9BWD1 1.55 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 393 393 1wl4-a1-m1-cA_1wl4-a1-m3-cA 1wl5-a1-m1-cA_1wl5-a1-m3-cA 1wl5-a1-m2-cA_1wl5-a1-m4-cA GSDPVVIVSAARTIIGSFNGALAAVPVQDLGSTVIKEVLKRATVAPEDVSEVIFGHVLAAGCGQNPVRQASVGAGIPYSVPAWSCQMIGSGLKAVCLAVQSIGIGDSSIVVAGGMENMSKAPHLAYLRTGVKIGEMPLTDSILCDGLTDAFHNCHMGITAENVAKKWQVSREDQDKVAVLSQNRTENAQKAGHFDKEIVPVLVSTRKGLIEVKTDEFPRHGSNIEAMSKLKPYFLTDGTGTVTPANASGINDGAAAVVLMKKSEADKRGLTPLARIVSWSQVGVEPSIMGIGPIPAIKQAVTKAGWSLEDVDIFEINEAFAAVSAAIVKELGLNPEKVNIEGGAIALGHPLGASGCRILVTLLHTLERMGRSRGVAALCIGGGMGIAMCVQRE GSDPVVIVSAARTIIGSFNGALAAVPVQDLGSTVIKEVLKRATVAPEDVSEVIFGHVLAAGCGQNPVRQASVGAGIPYSVPAWSCQMIGSGLKAVCLAVQSIGIGDSSIVVAGGMENMSKAPHLAYLRTGVKIGEMPLTDSILCDGLTDAFHNCHMGITAENVAKKWQVSREDQDKVAVLSQNRTENAQKAGHFDKEIVPVLVSTRKGLIEVKTDEFPRHGSNIEAMSKLKPYFLTDGTGTVTPANASGINDGAAAVVLMKKSEADKRGLTPLARIVSWSQVGVEPSIMGIGPIPAIKQAVTKAGWSLEDVDIFEINEAFAAVSAAIVKELGLNPEKVNIEGGAIALGHPLGASGCRILVTLLHTLERMGRSRGVAALCIGGGMGIAMCVQRE 1wl4-a1-m3-cA_1wl4-a1-m4-cA Human cytosolic acetoacetyl-CoA thiolase complexed with CoA Q9BWD1 Q9BWD1 1.55 X-RAY DIFFRACTION 189 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 393 393 1wl4-a1-m1-cA_1wl4-a1-m2-cA 1wl5-a1-m1-cA_1wl5-a1-m2-cA 1wl5-a1-m3-cA_1wl5-a1-m4-cA GSDPVVIVSAARTIIGSFNGALAAVPVQDLGSTVIKEVLKRATVAPEDVSEVIFGHVLAAGCGQNPVRQASVGAGIPYSVPAWSCQMIGSGLKAVCLAVQSIGIGDSSIVVAGGMENMSKAPHLAYLRTGVKIGEMPLTDSILCDGLTDAFHNCHMGITAENVAKKWQVSREDQDKVAVLSQNRTENAQKAGHFDKEIVPVLVSTRKGLIEVKTDEFPRHGSNIEAMSKLKPYFLTDGTGTVTPANASGINDGAAAVVLMKKSEADKRGLTPLARIVSWSQVGVEPSIMGIGPIPAIKQAVTKAGWSLEDVDIFEINEAFAAVSAAIVKELGLNPEKVNIEGGAIALGHPLGASGCRILVTLLHTLERMGRSRGVAALCIGGGMGIAMCVQRE GSDPVVIVSAARTIIGSFNGALAAVPVQDLGSTVIKEVLKRATVAPEDVSEVIFGHVLAAGCGQNPVRQASVGAGIPYSVPAWSCQMIGSGLKAVCLAVQSIGIGDSSIVVAGGMENMSKAPHLAYLRTGVKIGEMPLTDSILCDGLTDAFHNCHMGITAENVAKKWQVSREDQDKVAVLSQNRTENAQKAGHFDKEIVPVLVSTRKGLIEVKTDEFPRHGSNIEAMSKLKPYFLTDGTGTVTPANASGINDGAAAVVLMKKSEADKRGLTPLARIVSWSQVGVEPSIMGIGPIPAIKQAVTKAGWSLEDVDIFEINEAFAAVSAAIVKELGLNPEKVNIEGGAIALGHPLGASGCRILVTLLHTLERMGRSRGVAALCIGGGMGIAMCVQRE 1wle-a1-m1-cA_1wle-a1-m1-cB Crystal Structure of mammalian mitochondrial seryl-tRNA synthetase complexed with seryl-adenylate Q9N0F3 Q9N0F3 1.65 X-RAY DIFFRACTION 231 1.0 9913 (Bos taurus) 9913 (Bos taurus) 465 469 RNLLYEHAREGYSALPLLDMESLCAYPEDAARALDLRKGELRSKDLPGIISTWQELRQLREQIRSLEEEKEAVTEAVRALVVNQDNSQVQQDPQYQSLRARGREIRKQLTLLYPKEAQLEEQFYLRALRLPNQTHPDVPVGDESQARVLHVVGDKPAFSFQPRGHLEIAEKLDIIRQKRLSHVSGHRSYYLRGAGALLQHGLVNFTLNKLIHRGFTPMTVPDLLRGVVFEGCGMTPNAKPSQIYNIDPSRFEDLNLAGTAEVGLAGYFMDHSVAFRDLPIRMVCSSTCYRAETDTGPWGLYRVHHFTKVEMFGVTGPGLEQSSELLEEFLSLQMEILTELGLHFRVLDMPTQELGLPAYRKFDIEAWMPGRGRFGEVTSASNCTDFQSRRLHIMFQTEAGELQFAHTVNATGCAVPRLLIALLESYQQKDGSVLVPPALQPYLGTDRITTPTHVPLQYIGPNQPQ QDRNLLYEHAREGYSALPLLDMESLCAYPEDAARALDLRKGELRSKDLPGIISTWQELRQLREQIRSLEEEKEAVTEAVRALVVNQDNSQVQQDPQYQSLRARGREIRKQLTLLYPKEAQLEEQFYLRALRLPNQTHPDVPVGDESQARVLHVVGDKPAFSFQPRGHLEIAEKLDIIRQKRLSHVSGHRSYYLRGAGALLQHGLVNFTLNKLIHRGFTPMTVPDLLRGVVFEGCGMTPNAKPSQIYNIDPSRFEDLNLAGTAEVGLAGYFMDHSVAFRDLPIRMVCSSTCYRAETDTGKEPWGLYRVHHFTKVEMFGVTGPGLEQSSELLEEFLSLQMEILTELGLHFRVLDMPTQELGLPAYRKFDIEAWMPGRGRFGEVTSASNCTDFQSRRLHIMFQTEAGELQFAHTVNATGCAVPRLLIALLESYQQKDGSVLVPPALQPYLGTDRITTPTHVPLQYIGPNQPQ 1wls-a1-m1-cA_1wls-a1-m1-cB Crystal structure of L-asparaginase I homologue protein from Pyrococcus horikoshii O57797 O57797 2.16 X-RAY DIFFRACTION 196 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 316 316 1wnf-a1-m1-cA_1wnf-a1-m1-cB RILILGGGTIASVKGERGYESALSVSKILKLAGISSEAKIEARDLNVDSTLIQPSDWERLAKEIEKEVWEYDGIVITHGTDTAYSASLSFLRNPPIPIVLTGSLPITEKNSDAPFNLRTALEFVKLGIRGIYIAFNGKVLGVRASKIRSGFDAFESINYPNVAEIKDDKLRILHIPDFYGDEFFSDIKYEPKVLVIKLIPGLSGDIVREALRLGYKGIILEGYGVGGIPYRGTDLFEVVSSISKRIPVVLTTQAIYDGVDLQRYKVGRIALEAGVIPAGDTKEATITKLWILGHTKNIEEVKQLGKNITGELTRVS RILILGGGTIASVKGERGYESALSVSKILKLAGISSEAKIEARDLNVDSTLIQPSDWERLAKEIEKEVWEYDGIVITHGTDTAYSASLSFLRNPPIPIVLTGSLPITEKNSDAPFNLRTALEFVKLGIRGIYIAFNGKVLGVRASKIRSGFDAFESINYPNVAEIKDDKLRILHIPDFYGDEFFSDIKYEPKVLVIKLIPGLSGDIVREALRLGYKGIILEGYGVGGIPYRGTDLFEVVSSISKRIPVVLTTQAIYDGVDLQRYKVGRIALEAGVIPAGDTKEATITKLWILGHTKNIEEVKQLGKNITGELTRVS 1wlt-a1-m1-cA_1wlt-a1-m1-cB Crystal Structure of dTDP-4-dehydrorhamnose 3,5-epimerase homologue from Sulfolobus tokodaii Q96Z62 Q96Z62 1.9 X-RAY DIFFRACTION 111 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 176 176 2b9u-a1-m1-cA_2b9u-a1-m1-cC 2b9u-a2-m1-cB_2b9u-a2-m1-cD 2b9u-a3-m1-cE_2b9u-a3-m1-cF 2b9u-a4-m1-cG_2b9u-a4-m1-cH 2b9u-a5-m1-cI_2b9u-a5-m1-cJ 2b9u-a6-m1-cK_2b9u-a6-m1-cL MPFEFENLGMGIILIKPKVFPDKRGFFLEVFKSEDFTKMRIPNVIQTNMSFSRKGVVRGLHYQRTPKEQGKIIFVPKGRILDVAVDVRKSSPTFGKYVKAELNEENHYMLWIPPGFAHGFQALEDSIVIYFITHNEYSPPHERCISYSYIDWPIKEVIISDKDLQCPSLEKAEVFD MPFEFENLGMGIILIKPKVFPDKRGFFLEVFKSEDFTKMRIPNVIQTNMSFSRKGVVRGLHYQRTPKEQGKIIFVPKGRILDVAVDVRKSSPTFGKYVKAELNEENHYMLWIPPGFAHGFQALEDSIVIYFITHNEYSPPHERCISYSYIDWPIKEVIISDKDLQCPSLEKAEVFD 1wlv-a1-m1-cC_1wlv-a1-m1-cB Crystal structure of TT0310 protein from Thermus thermophilus HB8 Q5SJP3 Q5SJP3 1.9 X-RAY DIFFRACTION 16 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 115 116 1j1y-a1-m1-cB_1j1y-a1-m2-cA 1j1y-a1-m2-cB_1j1y-a1-m1-cA 1wlu-a1-m1-cA_1wlu-a1-m2-cA 1wlu-a1-m3-cA_1wlu-a1-m4-cA 1wlv-a1-m1-cD_1wlv-a1-m1-cA 1wlv-a2-m1-cE_1wlv-a2-m1-cH 1wlv-a2-m1-cF_1wlv-a2-m1-cG 1wm6-a1-m1-cA_1wm6-a1-m1-cD 1wm6-a1-m1-cB_1wm6-a1-m1-cC 1wm6-a2-m1-cE_1wm6-a2-m1-cH 1wm6-a2-m1-cG_1wm6-a2-m1-cF 1wn3-a1-m1-cA_1wn3-a1-m1-cD 1wn3-a1-m1-cC_1wn3-a1-m1-cB 1wn3-a2-m1-cE_1wn3-a2-m1-cH 1wn3-a2-m1-cG_1wn3-a2-m1-cF 2dsl-a1-m1-cA_2dsl-a1-m2-cB 2dsl-a1-m1-cB_2dsl-a1-m2-cA DPFMEALGLKVLHLAPGEAVVAGEVRADHLNLHGTAHGGFLYALADSAFALASNTRGPAVALSCRMDYFRPLGAGARVEARAVEVNLSRRTATYRVEVVSEGKLVALFTGTVFRL RDPFMEALGLKVLHLAPGEAVVAGEVRADHLNLHGTAHGGFLYALADSAFALASNTRGPAVALSCRMDYFRPLGAGARVEARAVEVNLSRRTATYRVEVVSEGKLVALFTGTVFRL 1wlv-a1-m1-cC_1wlv-a1-m1-cD Crystal structure of TT0310 protein from Thermus thermophilus HB8 Q5SJP3 Q5SJP3 1.9 X-RAY DIFFRACTION 34 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 115 115 1j1y-a1-m1-cB_1j1y-a1-m1-cA 1j1y-a1-m2-cB_1j1y-a1-m2-cA 1wlu-a1-m1-cA_1wlu-a1-m4-cA 1wlu-a1-m2-cA_1wlu-a1-m3-cA 1wlv-a1-m1-cB_1wlv-a1-m1-cA 1wlv-a2-m1-cE_1wlv-a2-m1-cF 1wlv-a2-m1-cG_1wlv-a2-m1-cH 1wm6-a1-m1-cB_1wm6-a1-m1-cA 1wm6-a1-m1-cC_1wm6-a1-m1-cD 1wm6-a2-m1-cE_1wm6-a2-m1-cF 1wm6-a2-m1-cG_1wm6-a2-m1-cH 1wn3-a1-m1-cA_1wn3-a1-m1-cB 1wn3-a1-m1-cC_1wn3-a1-m1-cD 1wn3-a2-m1-cE_1wn3-a2-m1-cF 1wn3-a2-m1-cG_1wn3-a2-m1-cH 2dsl-a1-m1-cA_2dsl-a1-m1-cB 2dsl-a1-m2-cA_2dsl-a1-m2-cB DPFMEALGLKVLHLAPGEAVVAGEVRADHLNLHGTAHGGFLYALADSAFALASNTRGPAVALSCRMDYFRPLGAGARVEARAVEVNLSRRTATYRVEVVSEGKLVALFTGTVFRL DPFMEALGLKVLHLAPGEAVVAGEVRADHLNLHGTAHGGFLYALADSAFALASNTRGPAVALSCRMDYFRPLGAGARVEARAVEVNLSRRTATYRVEVVSEGKLVALFTGTVFRL 1wly-a2-m1-cA_1wly-a2-m2-cA Crystal Structure of 2-Haloacrylate Reductase Q59I44 Q59I44 1.3 X-RAY DIFFRACTION 86 1.0 306678 (Burkholderia sp. WS) 306678 (Burkholderia sp. WS) 322 322 VMAAVIHKKGGPDNFVWEEVKVGSPGPGQVRLRNTAIGVNFLDTYHRAPPIVVGFEAAAVVEEVGPGVTDFTVGERVCTCLPPLGAYSQERLYPAEKLIKVPKDLDLDDVHLAGLMLKGMTAQYLLHQTHKVKPGDYVLIHAAAGGMGHIMVPWARHLGATVIGTVSTEEKAETARKLGCHHTINYSTQDFAEVVREITGGKGVDVVYDSIGKDTLQKSLDCLRPRGMCAAYGHASGVADPIRVVEDLGVRGSLFITRPALWHYMSNRSEIDEGSKCLFDAVKAGVLHSSVAKTFPLREAAAAHKYMGGRQTIGSIVLLPQA VMAAVIHKKGGPDNFVWEEVKVGSPGPGQVRLRNTAIGVNFLDTYHRAPPIVVGFEAAAVVEEVGPGVTDFTVGERVCTCLPPLGAYSQERLYPAEKLIKVPKDLDLDDVHLAGLMLKGMTAQYLLHQTHKVKPGDYVLIHAAAGGMGHIMVPWARHLGATVIGTVSTEEKAETARKLGCHHTINYSTQDFAEVVREITGGKGVDVVYDSIGKDTLQKSLDCLRPRGMCAAYGHASGVADPIRVVEDLGVRGSLFITRPALWHYMSNRSEIDEGSKCLFDAVKAGVLHSSVAKTFPLREAAAAHKYMGGRQTIGSIVLLPQA 1wm3-a1-m2-cA_1wm3-a1-m3-cA Crystal structure of human SUMO-2 protein P61956 P61956 1.2 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 1wm2-a1-m1-cA_1wm2-a1-m2-cA 1wm2-a1-m1-cA_1wm2-a1-m3-cA 1wm2-a1-m2-cA_1wm2-a1-m3-cA 1wm3-a1-m1-cA_1wm3-a1-m2-cA 1wm3-a1-m1-cA_1wm3-a1-m3-cA 4npn-a1-m1-cA_4npn-a1-m2-cA 4npn-a1-m1-cA_4npn-a1-m3-cA 4npn-a1-m2-cA_4npn-a1-m3-cA HINLKVAGQDGSVVQFKIKRHTPLSKLMKAYCERQGLSMRQIRFRFDGQPINETDTPAQLEMEDEDTIDVFQ HINLKVAGQDGSVVQFKIKRHTPLSKLMKAYCERQGLSMRQIRFRFDGQPINETDTPAQLEMEDEDTIDVFQ 1wmg-a1-m1-cF_1wmg-a1-m1-cA Crystal structure of the UNC5H2 death domain Q8K1S3 Q8K1S3 2.1 X-RAY DIFFRACTION 45 1.0 10090 (Mus musculus) 10090 (Mus musculus) 83 86 1wmg-a1-m1-cB_1wmg-a1-m1-cC AFKIPLSIRQKICSSLDAPNSRGNDWRLLAQKLSDRYLNYFATKASPTGVILDLWEARQQDDGDLNSLASALEEGKSELVAAT YAFKIPLSIRQKICSSLDAPNSRGNDWRLLAQKLSDRYLNYFATKASPTGVILDLWEARQQDDGDLNSLASALEEGKSELVAATDG 1wmg-a1-m1-cF_1wmg-a1-m1-cE Crystal structure of the UNC5H2 death domain Q8K1S3 Q8K1S3 2.1 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 83 84 1wmg-a1-m1-cB_1wmg-a1-m1-cA 1wmg-a1-m1-cD_1wmg-a1-m1-cC AFKIPLSIRQKICSSLDAPNSRGNDWRLLAQKLSDRYLNYFATKASPTGVILDLWEARQQDDGDLNSLASALEEGKSELVAAT YAFKIPLSIRQKICSSLDAPNSRGNDWRLLAQKLSDRYLNYFATKASPTGVILDLWEARQQDDGDLNSLASALEEGKSELVAAT 1wmi-a3-m1-cA_1wmi-a3-m3-cC Crystal structure of archaeal RelE-RelB complex from Pyrococcus horikoshii OT3 O73966 O73966 2.3 X-RAY DIFFRACTION 24 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 88 88 1wmi-a2-m1-cA_1wmi-a2-m3-cC 1wmi-a2-m2-cA_1wmi-a2-m4-cC MTYRVKIHKQVVKALQSLPKAHYRRFLEFRDILEYEPVPREKFDVIKLEGTGDLDLYRARLGDYRVIYSVNWKDKVIKILKLKPRGRA MTYRVKIHKQVVKALQSLPKAHYRRFLEFRDILEYEPVPREKFDVIKLEGTGDLDLYRARLGDYRVIYSVNWKDKVIKILKLKPRGRA 1wmi-a3-m1-cB_1wmi-a3-m3-cD Crystal structure of archaeal RelE-RelB complex from Pyrococcus horikoshii OT3 O73967 O73967 2.3 X-RAY DIFFRACTION 24 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 61 61 1wmi-a2-m1-cB_1wmi-a2-m3-cD 1wmi-a2-m2-cB_1wmi-a2-m4-cD GDVLKELERLKVEIQRLEAMLMPEERDEDITEEEIAELLELARDEDPENWIDAEELPEPED GDVLKELERLKVEIQRLEAMLMPEERDEDITEEEIAELLELARDEDPENWIDAEELPEPED 1wmi-a4-m1-cB_1wmi-a4-m4-cD Crystal structure of archaeal RelE-RelB complex from Pyrococcus horikoshii OT3 O73967 O73967 2.3 X-RAY DIFFRACTION 27 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 61 61 1wmi-a2-m1-cB_1wmi-a2-m4-cD 1wmi-a2-m2-cB_1wmi-a2-m3-cD GDVLKELERLKVEIQRLEAMLMPEERDEDITEEEIAELLELARDEDPENWIDAEELPEPED GDVLKELERLKVEIQRLEAMLMPEERDEDITEEEIAELLELARDEDPENWIDAEELPEPED 1wmq-a1-m3-cA_1wmq-a1-m3-cB Structure of the HutP antitermination complex bound to a single stranded region of hut mRNA P10943 P10943 1.6 X-RAY DIFFRACTION 89 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 143 1vea-a1-m1-cA_1vea-a1-m1-cB 1vea-a1-m2-cA_1vea-a1-m2-cB 1vea-a1-m3-cA_1vea-a1-m3-cB 1wmq-a1-m1-cA_1wmq-a1-m1-cB 1wmq-a1-m2-cA_1wmq-a1-m2-cB 1wps-a1-m1-cA_1wps-a1-m1-cB 1wps-a1-m2-cA_1wps-a1-m2-cB 1wps-a1-m3-cA_1wps-a1-m3-cB 1wpt-a1-m1-cA_1wpt-a1-m1-cB 1wpt-a1-m2-cA_1wpt-a1-m2-cB 1wpt-a1-m3-cA_1wpt-a1-m3-cB 1wpu-a1-m1-cA_1wpu-a1-m1-cB 1wpu-a1-m2-cA_1wpu-a1-m2-cB 1wpu-a1-m3-cA_1wpu-a1-m3-cB 1wpv-a1-m1-cA_1wpv-a1-m2-cC 1wpv-a1-m1-cB_1wpv-a1-m2-cB 1wpv-a1-m1-cC_1wpv-a1-m2-cA 1wrn-a1-m1-cA_1wrn-a1-m2-cA 1wrn-a1-m1-cC_1wrn-a1-m2-cB 1wrn-a1-m2-cC_1wrn-a1-m1-cB 1wro-a1-m1-cA_1wro-a1-m2-cC 1wro-a1-m1-cB_1wro-a1-m2-cB 1wro-a1-m1-cC_1wro-a1-m2-cA 1wrq-a1-m1-cA_1wrq-a1-m1-cB 1wrq-a1-m2-cA_1wrq-a1-m2-cB 1wrq-a1-m3-cA_1wrq-a1-m3-cB 3boy-a1-m1-cA_3boy-a1-m2-cC 3boy-a1-m1-cB_3boy-a1-m2-cB 3boy-a1-m1-cC_3boy-a1-m2-cA 4h4l-a1-m1-cA_4h4l-a1-m1-cK 4h4l-a1-m1-cC_4h4l-a1-m1-cL 4h4l-a1-m1-cJ_4h4l-a1-m1-cB 4h4l-a2-m1-cD_4h4l-a2-m1-cH 4h4l-a2-m1-cG_4h4l-a2-m1-cE 4h4l-a2-m1-cI_4h4l-a2-m1-cF TLHKERRIGRLSVLLLLNSTQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI TLHKERRIGRLSVLLLLNETQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI 1wmu-a1-m1-cA_1wmu-a1-m2-cA Crystal Structure of Hemoglobin D from the Aldabra Giant Tortoise, Geochelone gigantea, at 1.65 A resolution P83134 P83134 1.65 X-RAY DIFFRACTION 10 1.0 167804 (Aldabrachelys gigantea) 167804 (Aldabrachelys gigantea) 141 141 1v75-a1-m1-cA_1v75-a1-m2-cA 2z6n-a1-m1-cA_2z6n-a1-m2-cA MLTEDDKQLIQHVWEKVLEHQEDFGAEALERMFIVYPSTKTYFPHFDLHHDSEQIRHHGKKVVGALGDAVKHIDNLSATLSELSNLHAYNLRVDPVNFKLLSHCFQVVLGAHLGREYTPQVQVAYDKFLAAVSAVLAEKYR MLTEDDKQLIQHVWEKVLEHQEDFGAEALERMFIVYPSTKTYFPHFDLHHDSEQIRHHGKKVVGALGDAVKHIDNLSATLSELSNLHAYNLRVDPVNFKLLSHCFQVVLGAHLGREYTPQVQVAYDKFLAAVSAVLAEKYR 1wmw-a2-m1-cD_1wmw-a2-m1-cC Crystal structure of geranulgeranyl diphosphate synthase from Thermus thermophilus Q5SMD0 Q5SMD0 1.55 X-RAY DIFFRACTION 131 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 324 328 1wmw-a1-m1-cB_1wmw-a1-m1-cA VPAPEAIRQALQERLLARLDHPDPLYRDLLQDYPRRGGKMLRGLLTVYSALAHGAPLEAGLEAATALELFQNWVLVHDDIEDGSEERRGRPALHRLHPMPLALNAGDAMHAEMWGLLAEGLARGLFPPEVLLEFHEVVRRTAYGQHLDLLWTLGGTFDLRPEDYFRMVAHKAAYYTAVAPLRLGALLAGKTPPAAYEEGGLRLGTAFQIVDDVLNLEGGEAYGKERAGDLYEGKRTLILLRFLEEAPPEERARALALLALPREAKPEAEVGWLLERLLASRALAWAKAEAKRLQAEGLALLEAAFQDLPGKEALDHLRGLLAAL MVPAPEAIRQALQERLLARLDHPDPLYRDLLQDYPRRGGKMLRGLLTVYSALAHGAPLEAGLEAATALELFQNWVLVHDDIEDGSEERRGRPALHRLHPMPLALNAGDAMHAEMWGLLAEGLARGLFPPEVLLEFHEVVRRTAYGQHLDLLWTLGGTFDLRPEDYFRMVAHKAAYYTAVAPLRLGALLAGKTPPAAYEEGGLRLGTAFQIVDDVLNLEGGEAYGKERAGDLYEGKRTLILLRFLEEAPPEERARALALLALPREAKPEAEVGWLLERLLASRALAWAKAEAKRLQAEGLALLEAAFQDLPGKEALDHLRGLLAALVER 1wmx-a1-m1-cA_1wmx-a1-m1-cB Crystal Structure of Family 30 Carbohydrate Binding Module A3DD30 A3DD30 2 X-RAY DIFFRACTION 33 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 173 195 LLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSE GYRKLLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSEDNEKSAPAIKVNQLGFIP 1wn1-a1-m1-cA_1wn1-a1-m1-cB Crystal Structure of Dipeptiase from Pyrococcus Horikoshii OT3 O58691 O58691 2.25 X-RAY DIFFRACTION 67 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 356 356 2how-a1-m1-cA_2how-a1-m1-cB MRLEKFIHLLGERGFDGALISPGTNLYYLTGLRLHEVGERLAILAVSAEGDYRFLAPSLYENVVNNFPATFWHDGENPYAKLREILEELGISKGRILIEDTMRADWLIGIMKLGKFTFQPLSSLIKELRMIKDKEEVKMMEHASRIADKVFEEILTWDLIGMKERELALKIELLIRELSDGIAFEPIVASGENAANPHHEPGERKIRKGDIIILDYGARWKGYCSDITRTIGLGELDERLVKIYEVVKDAQESAFKAVREGIKAKDVDSRAREVISKAGYGEYFIHRTGHGLGLDVHEEPYIGPDGEVILKNGMTFTIEPGIYVPGLGGVRIEDDIVVDEGKGRRLTKAERELIIL MRLEKFIHLLGERGFDGALISPGTNLYYLTGLRLHEVGERLAILAVSAEGDYRFLAPSLYENVVNNFPATFWHDGENPYAKLREILEELGISKGRILIEDTMRADWLIGIMKLGKFTFQPLSSLIKELRMIKDKEEVKMMEHASRIADKVFEEILTWDLIGMKERELALKIELLIRELSDGIAFEPIVASGENAANPHHEPGERKIRKGDIIILDYGARWKGYCSDITRTIGLGELDERLVKIYEVVKDAQESAFKAVREGIKAKDVDSRAREVISKAGYGEYFIHRTGHGLGLDVHEEPYIGPDGEVILKNGMTFTIEPGIYVPGLGGVRIEDDIVVDEGKGRRLTKAERELIIL 1wn2-a1-m1-cA_1wn2-a1-m2-cA Crystal structure of project ID PH1539 from Pyrococcus horikoshii OT3 O74017 O74017 1.2 X-RAY DIFFRACTION 85 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 118 118 2d3k-a1-m1-cA_2d3k-a1-m1-cB MFKYKQVIVARADLKLSKGKLAAQVAHGAVTAAFEAYKKKREWFEAWFREGQKKVVVKVESEEELFKLKAEAEKLGLPNALIRDAGLTEIPPGTVTVLAVGPAPEEIVDKVTGNLKLL MFKYKQVIVARADLKLSKGKLAAQVAHGAVTAAFEAYKKKREWFEAWFREGQKKVVVKVESEEELFKLKAEAEKLGLPNALIRDAGLTEIPPGTVTVLAVGPAPEEIVDKVTGNLKLL 1wnb-a2-m1-cB_1wnb-a2-m2-cC Escherichia coli YdcW gene product is a medium-chain aldehyde dehydrogenase (complexed with nadh and betaine aldehyde) P77674 P77674 2.2 X-RAY DIFFRACTION 22 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 474 474 MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH 1wnc-a1-m1-cF_1wnc-a1-m1-cB Crystal structure of the SARS-CoV Spike protein fusion core P59594 P59594 2.8 X-RAY DIFFRACTION 28 0.987 75 81 NQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQNASVVNIQEEIDRLNEVAKNLNESLIDL QKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQISGINASVVNIQEEIDRLNEVAKNLNESLIDLQEL 1wnc-a2-m1-cC_1wnc-a2-m1-cB Crystal structure of the SARS-CoV Spike protein fusion core P59594 P59594 2.8 X-RAY DIFFRACTION 74 1.0 78 81 1wnc-a1-m1-cA_1wnc-a1-m1-cB 1wnc-a1-m1-cA_1wnc-a1-m1-cC 1wnc-a1-m1-cC_1wnc-a1-m1-cB 1wnc-a1-m1-cE_1wnc-a1-m1-cD 1wnc-a1-m1-cF_1wnc-a1-m1-cD 1wnc-a2-m1-cA_1wnc-a2-m1-cB 1wnc-a2-m1-cA_1wnc-a2-m1-cC 1wnc-a3-m1-cE_1wnc-a3-m1-cD 1wnc-a3-m1-cF_1wnc-a3-m1-cD 2beq-a1-m1-cA_2beq-a1-m1-cB 2beq-a1-m1-cA_2beq-a1-m1-cC 2beq-a1-m1-cB_2beq-a1-m1-cC 2beq-a1-m2-cA_2beq-a1-m2-cB 2beq-a1-m2-cA_2beq-a1-m2-cC 2beq-a1-m2-cB_2beq-a1-m2-cC QKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQINASVVNIQEEIDRLNEVAKNLNESLIDLQEL QKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQISGINASVVNIQEEIDRLNEVAKNLNESLIDLQEL 1wnd-a1-m1-cA_1wnd-a1-m1-cD Escherichia coli YdcW gene product is a medium-chain aldehyde dehydrogenase as determined by kinetics and crystal structure P77674 P77674 2.1 X-RAY DIFFRACTION 161 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 474 474 1wnb-a1-m1-cA_1wnb-a1-m1-cC 1wnb-a1-m1-cB_1wnb-a1-m1-cD 1wnb-a2-m1-cB_1wnb-a2-m1-cD 1wnb-a2-m2-cA_1wnb-a2-m2-cC 1wnd-a1-m1-cB_1wnd-a1-m1-cC MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH 1wnd-a1-m1-cB_1wnd-a1-m1-cD Escherichia coli YdcW gene product is a medium-chain aldehyde dehydrogenase as determined by kinetics and crystal structure P77674 P77674 2.1 X-RAY DIFFRACTION 73 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 474 474 1wnb-a1-m1-cA_1wnb-a1-m1-cD 1wnb-a1-m1-cB_1wnb-a1-m1-cC 1wnd-a1-m1-cA_1wnd-a1-m1-cC MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH 1wnd-a1-m1-cC_1wnd-a1-m1-cD Escherichia coli YdcW gene product is a medium-chain aldehyde dehydrogenase as determined by kinetics and crystal structure P77674 P77674 2.1 X-RAY DIFFRACTION 72 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 474 474 1wnb-a1-m1-cA_1wnb-a1-m1-cB 1wnb-a1-m1-cC_1wnb-a1-m1-cD 1wnd-a1-m1-cA_1wnd-a1-m1-cB MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH MQHKLLINGELVSGEGEKQPVYNPATGDVLLEIAEASAEQVDAAVRAADAAFAEWGQTTPKVRAECLLKLADVIEENGQVFAELESRNCGKPLHSAFNDEIPAIVDVFRFFAGAARCLNGLAAGEYLEGHTSMIRRDPLGVVASIAPWNYPLMMAAWKLAPALAAGNCVVLKPSEITPLTALKLAELAKDIFPAGVVNILFGRGKTVGDPLTGHPKVRMVSLTGSIATGEHIISHTASSIKRTHMELGGKAPVIVFDDADIEAVVEGVRTFGYYNAGQDCTAACRIYAQKGIYDTLVEKLGAAVATLKSGAPDDESTELGPLSSLAHLERVGKAVEEAKATGHIKVITGGEKRKGNGYYYAPTLLAGALQDDAIVQKEVFGPVVSVTPFDNEEQVVNWANDSQYGLASSVWTKDVGRAHRVSARLQYGCTWVNTHFMLVSEMPHGGQKLSGYGKDMSLYGLEDYTVVRHVMVKH 1wno-a3-m1-cA_1wno-a3-m1-cB Crystal structure of a native chitinase from Aspergillus fumigatus YJ-407 Q873X9 Q873X9 2.1 X-RAY DIFFRACTION 55 1.0 394 394 1w9u-a1-m1-cC_1w9u-a1-m1-cA 1w9u-a2-m1-cD_1w9u-a2-m1-cB ASSGYRSVVYFVNWAIYGRNHNPQDLPVERLTHVLYAFANVRPETGEVYMTDSWADIEKHYPGDSWSDTGNNVYGCIKQLYLLKKQNRNLKVLLSIGGWTYSPNFAPAASTDAGRKNFAKTAVKLLQDLGFDGLDIDWEYPENDQQANDFVLLLREVRTALDSYSAANAGGQHFLLTVASPAGPDKIKVLHLKDMDQQLDFWNLMAYDYAGSFSSLSGHQANVYNDTSNPLSTPFNTQTALDLYRAGGVPANKIVLGMPLYGRSFANTDGPGKPYNGVGQGSWENGVWDYKALPQAGATEHVLPDIMASYSYDATNKFLISYDNPQVANLKSGYIKSLGLGGAMWWDSSSDKTGSDSLITTVVNALGGTGVFEQSQNELDYPVSQYDNLRNGMQ ASSGYRSVVYFVNWAIYGRNHNPQDLPVERLTHVLYAFANVRPETGEVYMTDSWADIEKHYPGDSWSDTGNNVYGCIKQLYLLKKQNRNLKVLLSIGGWTYSPNFAPAASTDAGRKNFAKTAVKLLQDLGFDGLDIDWEYPENDQQANDFVLLLREVRTALDSYSAANAGGQHFLLTVASPAGPDKIKVLHLKDMDQQLDFWNLMAYDYAGSFSSLSGHQANVYNDTSNPLSTPFNTQTALDLYRAGGVPANKIVLGMPLYGRSFANTDGPGKPYNGVGQGSWENGVWDYKALPQAGATEHVLPDIMASYSYDATNKFLISYDNPQVANLKSGYIKSLGLGGAMWWDSSSDKTGSDSLITTVVNALGGTGVFEQSQNELDYPVSQYDNLRNGMQ 1wnr-a1-m1-cD_1wnr-a1-m1-cC Crystal structure of the Cpn10 from Thermus thermophilus HB8 P61493 P61493 2.9 X-RAY DIFFRACTION 51 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 75 84 MIKPLGDRVVVKRIPQKGKVIAVGTGRVLENGQRVPLEVKEGDIVVFAKYGGTEIEIDGEEYVILSERDLLAVLQ MIKPLGDRVVVKRIVLPDTAKEKPQKGKVIAVGTGRVLENGQRVPLEVKEGDIVVFAKYGGTEIEIDGEEYVILSERDLLAVLQ 1wnr-a1-m1-cD_1wnr-a1-m1-cE Crystal structure of the Cpn10 from Thermus thermophilus HB8 P61493 P61493 2.9 X-RAY DIFFRACTION 50 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 75 75 1wnr-a1-m1-cA_1wnr-a1-m1-cB 1wnr-a1-m1-cA_1wnr-a1-m1-cG 1wnr-a1-m1-cB_1wnr-a1-m1-cC 1wnr-a1-m1-cE_1wnr-a1-m1-cF 1wnr-a1-m1-cF_1wnr-a1-m1-cG MIKPLGDRVVVKRIPQKGKVIAVGTGRVLENGQRVPLEVKEGDIVVFAKYGGTEIEIDGEEYVILSERDLLAVLQ MIKPLGDRVVVKRIPQKGKVIAVGTGRVLENGQRVPLEVKEGDIVVFAKYGGTEIEIDGEEYVILSERDLLAVLQ 1wnt-a1-m1-cC_1wnt-a1-m1-cD Structure of the tetrameric form of Human L-Xylulose Reductase Q7Z4W1 Q7Z4W1 2.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 1pr9-a1-m1-cA_1pr9-a1-m1-cB 1pr9-a2-m1-cA_1pr9-a2-m1-cB 1pr9-a2-m2-cA_1pr9-a2-m2-cB 1wnt-a1-m1-cA_1wnt-a1-m1-cB 3d3w-a1-m1-cA_3d3w-a1-m1-cB 3d3w-a1-m2-cA_3d3w-a1-m2-cB MELFLAGRRVLVTGAGKGIGRGTVQALHATGARVVAVSRTQADLDSLVRECPGIEPVCVDLGDWEATERALGSVGPVDLLVNNAAVALLQPFLEVTKEAFDRSFEVNLRAVIQVSQIVARGLIARGVPGAIVNVSSQCSQRAVTNHSVYCSTKGALDMLTKVMALELGPHKIRVNAVNPTVVMTSMGQATWSDPHKAKTMLNRIPLGKFAEVEHVVNAILFLLSDRSGMTTGSTLPVEGGFWAC MELFLAGRRVLVTGAGKGIGRGTVQALHATGARVVAVSRTQADLDSLVRECPGIEPVCVDLGDWEATERALGSVGPVDLLVNNAAVALLQPFLEVTKEAFDRSFEVNLRAVIQVSQIVARGLIARGVPGAIVNVSSQCSQRAVTNHSVYCSTKGALDMLTKVMALELGPHKIRVNAVNPTVVMTSMGQATWSDPHKAKTMLNRIPLGKFAEVEHVVNAILFLLSDRSGMTTGSTLPVEGGFWAC 1wnw-a4-m2-cC_1wnw-a4-m1-cB D136N mutant of Heme Oxygenase from Corynebacterium diphtheriae (HmuO) P71119 P71119 1.7 X-RAY DIFFRACTION 21 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 206 210 1wnv-a4-m2-cC_1wnv-a4-m1-cB GLAVELKQSTAQAHEKAEHSTFMSDLLKGRLGVAEFTRLQEQAWLFYTALEQAVDAVRASGFAESLLDPALNRAEVLARDLDKLNGSSEWRSRITASPAVIDYVNRLEEIRDNVDGPALVAHHYVRYLGNLSGGQVIARMMQRHYGVDPEALGFYHFEGIAKLKVYKDEYREKLNNLELSDEQREHLLKEATDAFVFNHQVFADLG AGLAVELKQSTAQAHEKAEHSTFMSDLLKGRLGVAEFTRLQEQAWLFYTALEQAVDAVRASGFAESLLDPALNRAEVLARDLDKLNGSSEWRSRITASPAVIDYVNRLEEIRDNVDGPALVAHHYVRYLGNLSGGQVIARMMQRHYGVDPEALGFYHFEGIAKLKVYKDEYREKLNNLELSDEQREHLLKEATDAFVFNHQVFADLGKGL 1wny-a3-m1-cA_1wny-a3-m2-cA Isoleucyl-tRNA synthetase editing domain P56690 P56690 1.6 X-RAY DIFFRACTION 48 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 180 180 DPSVYVRFPLKEPKKLGLEKASLLIWTTTPWTLPGNVAAAVHPEYTYAAFQVGDEALILEEGLGRKLLGEGTPVLKTFPGKALEGLPYTPPYPQALEKGYFVVLADYVSQEDGTGIVHQAPAFGAEDLETARVYGLPLLKTVDEEGKLLVEPFKGLYFREANRAILRDLRGRGLLFKEES DPSVYVRFPLKEPKKLGLEKASLLIWTTTPWTLPGNVAAAVHPEYTYAAFQVGDEALILEEGLGRKLLGEGTPVLKTFPGKALEGLPYTPPYPQALEKGYFVVLADYVSQEDGTGIVHQAPAFGAEDLETARVYGLPLLKTVDEEGKLLVEPFKGLYFREANRAILRDLRGRGLLFKEES 1wo8-a2-m2-cE_1wo8-a2-m2-cF Crystal structure of methylglyoxal synthase from Thermus thermophilus HB8 Q5SHD6 Q5SHD6 1.7 X-RAY DIFFRACTION 72 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 122 123 1wo8-a1-m1-cB_1wo8-a1-m1-cA 1wo8-a1-m1-cC_1wo8-a1-m1-cD 1wo8-a1-m1-cE_1wo8-a1-m1-cF 1wo8-a2-m1-cB_1wo8-a2-m1-cA 1wo8-a2-m1-cC_1wo8-a2-m1-cD 1wo8-a2-m1-cE_1wo8-a2-m1-cF 1wo8-a2-m2-cB_1wo8-a2-m2-cA 1wo8-a2-m2-cC_1wo8-a2-m2-cD KALALIAHDAKKDEMVAFCLRHKDVLARYPLLATGTTGARIQEATGLAVERVLSGPLGGDLQIGARVAEGKVLAVVFLQDPLTAKPHEPDVQALMRVCNVHGVPLATNLVAAEALIAWIRKG MKALALIAHDAKKDEMVAFCLRHKDVLARYPLLATGTTGARIQEATGLAVERVLSGPLGGDLQIGARVAEGKVLAVVFLQDPLTAKPHEPDVQALMRVCNVHGVPLATNLVAAEALIAWIRKG 1wo8-a2-m2-cF_1wo8-a2-m1-cA Crystal structure of methylglyoxal synthase from Thermus thermophilus HB8 Q5SHD6 Q5SHD6 1.7 X-RAY DIFFRACTION 42 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 123 126 1wo8-a2-m1-cF_1wo8-a2-m2-cA MKALALIAHDAKKDEMVAFCLRHKDVLARYPLLATGTTGARIQEATGLAVERVLSGPLGGDLQIGARVAEGKVLAVVFLQDPLTAKPHEPDVQALMRVCNVHGVPLATNLVAAEALIAWIRKG MKALALIAHDAKKDEMVAFCLRHKDVLARYPLLATGTTGARIQEATGLAVERVLSGPLGGDLQIGARVAEGKVLAVVFLQDPLTAKPHEPDVQALMRVCNVHGVPLATNLVAAEALIAWIRKGTPQ 1wo8-a2-m2-cF_1wo8-a2-m2-cA Crystal structure of methylglyoxal synthase from Thermus thermophilus HB8 Q5SHD6 Q5SHD6 1.7 X-RAY DIFFRACTION 75 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 123 126 1wo8-a1-m1-cB_1wo8-a1-m1-cC 1wo8-a1-m1-cE_1wo8-a1-m1-cD 1wo8-a1-m1-cF_1wo8-a1-m1-cA 1wo8-a2-m1-cB_1wo8-a2-m1-cC 1wo8-a2-m1-cE_1wo8-a2-m1-cD 1wo8-a2-m1-cF_1wo8-a2-m1-cA 1wo8-a2-m2-cB_1wo8-a2-m2-cC 1wo8-a2-m2-cE_1wo8-a2-m2-cD MKALALIAHDAKKDEMVAFCLRHKDVLARYPLLATGTTGARIQEATGLAVERVLSGPLGGDLQIGARVAEGKVLAVVFLQDPLTAKPHEPDVQALMRVCNVHGVPLATNLVAAEALIAWIRKG MKALALIAHDAKKDEMVAFCLRHKDVLARYPLLATGTTGARIQEATGLAVERVLSGPLGGDLQIGARVAEGKVLAVVFLQDPLTAKPHEPDVQALMRVCNVHGVPLATNLVAAEALIAWIRKGTPQ 1woc-a1-m1-cB_1woc-a1-m1-cD Crystal structure of PriB P07013 P07013 2 X-RAY DIFFRACTION 23 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 97 97 TNRLVLSGTVCRAPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQPVIVSGHENQAITHSITVGSRITVQGFISCHKAKNGLSKVLHAEQIELI TNRLVLSGTVCRAPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQPVIVSGHENQAITHSITVGSRITVQGFISCHKAKNGLSKVLHAEQIELI 1woh-a1-m1-cA_1woh-a1-m1-cF Crystal Structure of Agmatinase Reveals Structural Conservation and Inhibition Mechanism of the Ureohydrolase Superfamily Q9RZ04 Q9RZ04 1.75 X-RAY DIFFRACTION 52 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 303 303 1wog-a1-m1-cA_1wog-a1-m1-cF 1wog-a1-m1-cB_1wog-a1-m1-cE 1wog-a1-m1-cC_1wog-a1-m1-cD 1woh-a1-m1-cB_1woh-a1-m1-cE 1woh-a1-m1-cC_1woh-a1-m1-cD 1woi-a1-m1-cA_1woi-a1-m1-cF 1woi-a1-m1-cB_1woi-a1-m1-cE 1woi-a1-m1-cC_1woi-a1-m1-cD GPAHLPYGGIPTFARAPLVQPDGDWQADVAALGVPFDIALGFRPGARFAPRALREASLRSVPPFTGLDGKTRLQGVTFADAGDVILPSLEPQLAHDRITEAARQVRGRCRVPVFLGGDHSVSYPLLRAFADVPDLHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALPNLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNVYFSVDVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPTGRSELLMARLVMETLCEVFDHVL GPAHLPYGGIPTFARAPLVQPDGDWQADVAALGVPFDIALGFRPGARFAPRALREASLRSVPPFTGLDGKTRLQGVTFADAGDVILPSLEPQLAHDRITEAARQVRGRCRVPVFLGGDHSVSYPLLRAFADVPDLHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALPNLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNVYFSVDVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPTGRSELLMARLVMETLCEVFDHVL 1woh-a1-m1-cC_1woh-a1-m1-cF Crystal Structure of Agmatinase Reveals Structural Conservation and Inhibition Mechanism of the Ureohydrolase Superfamily Q9RZ04 Q9RZ04 1.75 X-RAY DIFFRACTION 68 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 303 303 1wog-a1-m1-cA_1wog-a1-m1-cE 1wog-a1-m1-cB_1wog-a1-m1-cD 1wog-a1-m1-cC_1wog-a1-m1-cF 1woh-a1-m1-cA_1woh-a1-m1-cE 1woh-a1-m1-cB_1woh-a1-m1-cD 1woi-a1-m1-cA_1woi-a1-m1-cE 1woi-a1-m1-cB_1woi-a1-m1-cD 1woi-a1-m1-cC_1woi-a1-m1-cF GPAHLPYGGIPTFARAPLVQPDGDWQADVAALGVPFDIALGFRPGARFAPRALREASLRSVPPFTGLDGKTRLQGVTFADAGDVILPSLEPQLAHDRITEAARQVRGRCRVPVFLGGDHSVSYPLLRAFADVPDLHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALPNLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNVYFSVDVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPTGRSELLMARLVMETLCEVFDHVL GPAHLPYGGIPTFARAPLVQPDGDWQADVAALGVPFDIALGFRPGARFAPRALREASLRSVPPFTGLDGKTRLQGVTFADAGDVILPSLEPQLAHDRITEAARQVRGRCRVPVFLGGDHSVSYPLLRAFADVPDLHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALPNLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNVYFSVDVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPTGRSELLMARLVMETLCEVFDHVL 1woh-a1-m1-cE_1woh-a1-m1-cF Crystal Structure of Agmatinase Reveals Structural Conservation and Inhibition Mechanism of the Ureohydrolase Superfamily Q9RZ04 Q9RZ04 1.75 X-RAY DIFFRACTION 68 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 303 303 1wog-a1-m1-cA_1wog-a1-m1-cB 1wog-a1-m1-cA_1wog-a1-m1-cC 1wog-a1-m1-cB_1wog-a1-m1-cC 1wog-a1-m1-cD_1wog-a1-m1-cE 1wog-a1-m1-cD_1wog-a1-m1-cF 1wog-a1-m1-cE_1wog-a1-m1-cF 1woh-a1-m1-cA_1woh-a1-m1-cB 1woh-a1-m1-cA_1woh-a1-m1-cC 1woh-a1-m1-cB_1woh-a1-m1-cC 1woh-a1-m1-cD_1woh-a1-m1-cE 1woh-a1-m1-cD_1woh-a1-m1-cF 1woi-a1-m1-cA_1woi-a1-m1-cB 1woi-a1-m1-cA_1woi-a1-m1-cC 1woi-a1-m1-cB_1woi-a1-m1-cC 1woi-a1-m1-cD_1woi-a1-m1-cE 1woi-a1-m1-cD_1woi-a1-m1-cF 1woi-a1-m1-cE_1woi-a1-m1-cF GPAHLPYGGIPTFARAPLVQPDGDWQADVAALGVPFDIALGFRPGARFAPRALREASLRSVPPFTGLDGKTRLQGVTFADAGDVILPSLEPQLAHDRITEAARQVRGRCRVPVFLGGDHSVSYPLLRAFADVPDLHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALPNLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNVYFSVDVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPTGRSELLMARLVMETLCEVFDHVL GPAHLPYGGIPTFARAPLVQPDGDWQADVAALGVPFDIALGFRPGARFAPRALREASLRSVPPFTGLDGKTRLQGVTFADAGDVILPSLEPQLAHDRITEAARQVRGRCRVPVFLGGDHSVSYPLLRAFADVPDLHVVQLDAHLDFTDTRNDTKWSNSSPFRRACEALPNLVHITTVGLRGLRFDPEAVAAARARGHTIIPMDDVTADLAGVLAQLPRGQNVYFSVDVDGFDPAVIPGTSSPEPDGLTYAQGMKILAAAAANNTVVGLDLVELAPNLDPTGRSELLMARLVMETLCEVFDHVL 1wov-a1-m1-cB_1wov-a1-m1-cA Crystal structure of heme oxygenase-2 from Synechocystis sp. PCC 6803 in complex with heme P74133 P74133 1.75 X-RAY DIFFRACTION 93 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 242 244 1wow-a1-m1-cB_1wow-a1-m1-cA 1wox-a1-m1-cA_1wox-a1-m1-cB TNLAQKLRYGTQQSHTLAENTAYMKCFLKGIVEREPFRQLLANLYYLYSALEAALRQHRDNEIISAIYFPELNRTDKLAEDLTYYYGPNWQQIIQPTPCAKIYVDRLKTIAASEPELLIAHCYTRYLGDLSGGQSLKNIIRSALQLPEGEGTAMYEFDSLPTPGDRRQFKEIYRDVLNSLPLDEATINRIVEEANYAFSLNREVMHDLEDLIKAAIGEHTFDLLTRQDRPGSTEPITLMVGE TNLAQKLRYGTQQSHTLAENTAYMKCFLKGIVEREPFRQLLANLYYLYSALEAALRQHRDNEIISAIYFPELNRTDKLAEDLTYYYGPNWQQIIQPTPCAKIYVDRLKTIAASEPELLIAHCYTRYLGDLSGGQSLKNIIRSALQLPEGEGTAMYEFDSLPTPGDRRQFKEIYRDVLNSLPLDEATINRIVEEANYAFSLNREVMHDLEDLIKAAIGEHTFDLLTRQDRPGSTEGHPITLMVGE 1woz-a1-m2-cA_1woz-a1-m3-cA Crystal structure of uncharacterized protein ST1454 from Sulfolobus tokodaii Q970Z7 Q970Z7 1.94 X-RAY DIFFRACTION 67 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 156 156 1woz-a1-m1-cA_1woz-a1-m2-cA 1woz-a1-m1-cA_1woz-a1-m3-cA GKDSPLVNFLGDLDELNSFIGFAISKIPWEDKKDLERVQVELFEIGEDLSTQSSKKKIDEKYVKWLEERTVEYRKESGPVKLFVIPGGSEEASVLHVTRSVARRVERNAVKYTKELPEINRIIVYLNRLSSLLFAALVANKRRNVSEKIYDIGKFW GKDSPLVNFLGDLDELNSFIGFAISKIPWEDKKDLERVQVELFEIGEDLSTQSSKKKIDEKYVKWLEERTVEYRKESGPVKLFVIPGGSEEASVLHVTRSVARRVERNAVKYTKELPEINRIIVYLNRLSSLLFAALVANKRRNVSEKIYDIGKFW 1wp1-a2-m4-cB_1wp1-a2-m5-cB Crystal structure of the drug-discharge outer membrane protein, OprM Q51487 Q51487 2.56 X-RAY DIFFRACTION 154 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 405 405 1wp1-a2-m1-cB_1wp1-a2-m4-cB 1wp1-a2-m1-cB_1wp1-a2-m5-cB CSLIPDYQRPEAPVAAAYPQGQAYGQNTGAAAVPAADIGWREFFRDPQLQQLIGVALENNRDLRVAALNVEAFRAQYRIQRADLFPRIGVDTAWELDLFGRLRSLRDQALEQYLATEQAQRSAQTTLVASVATAYLTLKADQAQLQLTKDTLGTYQKSFDLTQRSYDVGVASALDLRQAQTAVEGARATLAQYTRLVAQDQNALVLLLGSGIPANLPQGLGLDQTLLTEVPAGLPSDLLQRRPDILEAEHQLMAANASIGAARAAFFPSISLTSWLFQPSINLPIFSLRASLDYAKIQKDINVAQYEKAIQTAFQEVADGLAARGTFTEQLQAQRDLVKASDEYYQLADKRYRTGVDNYLTLLDAQRSLFTAQQQLITDRLNQLTSEVNLYKALGGGWNQQTVTQ CSLIPDYQRPEAPVAAAYPQGQAYGQNTGAAAVPAADIGWREFFRDPQLQQLIGVALENNRDLRVAALNVEAFRAQYRIQRADLFPRIGVDTAWELDLFGRLRSLRDQALEQYLATEQAQRSAQTTLVASVATAYLTLKADQAQLQLTKDTLGTYQKSFDLTQRSYDVGVASALDLRQAQTAVEGARATLAQYTRLVAQDQNALVLLLGSGIPANLPQGLGLDQTLLTEVPAGLPSDLLQRRPDILEAEHQLMAANASIGAARAAFFPSISLTSWLFQPSINLPIFSLRASLDYAKIQKDINVAQYEKAIQTAFQEVADGLAARGTFTEQLQAQRDLVKASDEYYQLADKRYRTGVDNYLTLLDAQRSLFTAQQQLITDRLNQLTSEVNLYKALGGGWNQQTVTQ 1wp4-a1-m1-cA_1wp4-a1-m1-cD Structure of TT368 protein from Thermus Thermophilus HB8 Q5SLQ6 Q5SLQ6 2 X-RAY DIFFRACTION 34 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 288 289 1wp4-a1-m1-cB_1wp4-a1-m1-cC 2cvz-a1-m1-cA_2cvz-a1-m1-cC 2cvz-a1-m1-cB_2cvz-a1-m1-cD EKVAFIGLGAMGYPMAGHLARRFPTLVWNRTFEKALRHQEEFGSEAVPLERVAEARVIFTCLPTTREVYEVAEALYPYLREGTYWVDATSGEPEASRRLAERLREKGVTYLDAPVSGGTSGAEAGTLTVMLGGPEEAVERVRPFLAYAKKVVHVGPVGAGHAVKAINNALLAVNLWAAGEGLLALVKQGVSAEKALEVINASSGRSNATENLIPQRVLTRAFPKTFALGLLVKDLGIAMGVLDGEKAPSPLLRLAREVYEMAKRELGPDADHVEALRLLERWGGVEIR MEKVAFIGLGAMGYPMAGHLARRFPTLVWNRTFEKALRHQEEFGSEAVPLERVAEARVIFTCLPTTREVYEVAEALYPYLREGTYWVDATSGEPEASRRLAERLREKGVTYLDAPVSGGTSGAEAGTLTVMLGGPEEAVERVRPFLAYAKKVVHVGPVGAGHAVKAINNALLAVNLWAAGEGLLALVKQGVSAEKALEVINASSGRSNATENLIPQRVLTRAFPKTFALGLLVKDLGIAMGVLDGEKAPSPLLRLAREVYEMAKRELGPDADHVEALRLLERWGGVEIR 1wp4-a1-m1-cC_1wp4-a1-m1-cD Structure of TT368 protein from Thermus Thermophilus HB8 Q5SLQ6 Q5SLQ6 2 X-RAY DIFFRACTION 262 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 289 289 1wp4-a1-m1-cA_1wp4-a1-m1-cB 2cvz-a1-m1-cA_2cvz-a1-m1-cB 2cvz-a1-m1-cC_2cvz-a1-m1-cD MEKVAFIGLGAMGYPMAGHLARRFPTLVWNRTFEKALRHQEEFGSEAVPLERVAEARVIFTCLPTTREVYEVAEALYPYLREGTYWVDATSGEPEASRRLAERLREKGVTYLDAPVSGGTSGAEAGTLTVMLGGPEEAVERVRPFLAYAKKVVHVGPVGAGHAVKAINNALLAVNLWAAGEGLLALVKQGVSAEKALEVINASSGRSNATENLIPQRVLTRAFPKTFALGLLVKDLGIAMGVLDGEKAPSPLLRLAREVYEMAKRELGPDADHVEALRLLERWGGVEIR MEKVAFIGLGAMGYPMAGHLARRFPTLVWNRTFEKALRHQEEFGSEAVPLERVAEARVIFTCLPTTREVYEVAEALYPYLREGTYWVDATSGEPEASRRLAERLREKGVTYLDAPVSGGTSGAEAGTLTVMLGGPEEAVERVRPFLAYAKKVVHVGPVGAGHAVKAINNALLAVNLWAAGEGLLALVKQGVSAEKALEVINASSGRSNATENLIPQRVLTRAFPKTFALGLLVKDLGIAMGVLDGEKAPSPLLRLAREVYEMAKRELGPDADHVEALRLLERWGGVEIR 1wp7-a1-m1-cC_1wp7-a1-m1-cB crystal structure of Nipah Virus fusion core Q9IH63 Q9IH63 2.2 X-RAY DIFFRACTION 59 1.0 121791 () 121791 () 61 63 1wp7-a1-m1-cB_1wp7-a1-m1-cA 1wp7-a1-m1-cC_1wp7-a1-m1-cA 1wp8-a1-m1-cA_1wp8-a1-m1-cB 1wp8-a1-m1-cC_1wp8-a1-m1-cA 1wp8-a1-m1-cC_1wp8-a1-m1-cB NINKLKSSIESTNEAVVKLQETAEKTVYVLTALSSQISSMNQSLQQSKDYIKEAQRLLDTV NINKLKSSIESTNEAVVKLQETAEKTVYVLTALDISSQISSMNQSLQQSKDYIKEAQRLLDTV 1wpb-a2-m2-cI_1wpb-a2-m3-cP Structure of Escherichia coli yfbU gene product Q1R9C1 Q1R9C1 2 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 168 168 1wpb-a1-m1-cA_1wpb-a1-m2-cH 1wpb-a1-m1-cB_1wpb-a1-m3-cG 1wpb-a1-m1-cC_1wpb-a1-m2-cD 1wpb-a1-m1-cD_1wpb-a1-m3-cC 1wpb-a1-m1-cE_1wpb-a1-m2-cF 1wpb-a1-m1-cF_1wpb-a1-m3-cE 1wpb-a1-m1-cG_1wpb-a1-m2-cB 1wpb-a1-m1-cH_1wpb-a1-m3-cA 1wpb-a1-m2-cA_1wpb-a1-m3-cH 1wpb-a1-m2-cC_1wpb-a1-m3-cD 1wpb-a1-m2-cE_1wpb-a1-m3-cF 1wpb-a1-m2-cG_1wpb-a1-m3-cB 1wpb-a2-m1-cI_1wpb-a2-m2-cP 1wpb-a2-m1-cJ_1wpb-a2-m3-cO 1wpb-a2-m1-cK_1wpb-a2-m2-cL 1wpb-a2-m1-cL_1wpb-a2-m3-cK 1wpb-a2-m1-cM_1wpb-a2-m2-cN 1wpb-a2-m1-cO_1wpb-a2-m2-cJ 1wpb-a2-m1-cP_1wpb-a2-m3-cI 1wpb-a2-m2-cK_1wpb-a2-m3-cL 1wpb-a2-m2-cM_1wpb-a2-m3-cN 1wpb-a2-m2-cO_1wpb-a2-m3-cJ 1wpb-a2-m3-cM_1wpb-a2-m1-cN QESTMEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA QESTMEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA 1wpb-a2-m3-cM_1wpb-a2-m1-cI Structure of Escherichia coli yfbU gene product Q1R9C1 Q1R9C1 2 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 167 168 1wpb-a1-m1-cA_1wpb-a1-m2-cC 1wpb-a1-m1-cA_1wpb-a1-m3-cE 1wpb-a1-m1-cB_1wpb-a1-m2-cF 1wpb-a1-m1-cB_1wpb-a1-m3-cD 1wpb-a1-m1-cC_1wpb-a1-m2-cE 1wpb-a1-m1-cC_1wpb-a1-m3-cA 1wpb-a1-m1-cD_1wpb-a1-m2-cB 1wpb-a1-m1-cD_1wpb-a1-m3-cF 1wpb-a1-m1-cE_1wpb-a1-m2-cA 1wpb-a1-m1-cE_1wpb-a1-m3-cC 1wpb-a1-m1-cF_1wpb-a1-m2-cD 1wpb-a1-m1-cF_1wpb-a1-m3-cB 1wpb-a1-m1-cG_1wpb-a1-m2-cG 1wpb-a1-m1-cG_1wpb-a1-m3-cG 1wpb-a1-m1-cH_1wpb-a1-m2-cH 1wpb-a1-m1-cH_1wpb-a1-m3-cH 1wpb-a1-m2-cA_1wpb-a1-m3-cC 1wpb-a1-m2-cB_1wpb-a1-m3-cF 1wpb-a1-m2-cC_1wpb-a1-m3-cE 1wpb-a1-m2-cD_1wpb-a1-m3-cB 1wpb-a1-m2-cE_1wpb-a1-m3-cA 1wpb-a1-m2-cF_1wpb-a1-m3-cD 1wpb-a1-m2-cG_1wpb-a1-m3-cG 1wpb-a1-m2-cH_1wpb-a1-m3-cH 1wpb-a2-m1-cI_1wpb-a2-m2-cK 1wpb-a2-m1-cJ_1wpb-a2-m2-cN 1wpb-a2-m1-cJ_1wpb-a2-m3-cL 1wpb-a2-m1-cK_1wpb-a2-m3-cI 1wpb-a2-m1-cL_1wpb-a2-m2-cJ 1wpb-a2-m1-cL_1wpb-a2-m3-cN 1wpb-a2-m1-cM_1wpb-a2-m2-cI 1wpb-a2-m1-cM_1wpb-a2-m3-cK 1wpb-a2-m1-cN_1wpb-a2-m2-cL 1wpb-a2-m1-cN_1wpb-a2-m3-cJ 1wpb-a2-m1-cO_1wpb-a2-m2-cO 1wpb-a2-m1-cO_1wpb-a2-m3-cO 1wpb-a2-m1-cP_1wpb-a2-m2-cP 1wpb-a2-m1-cP_1wpb-a2-m3-cP 1wpb-a2-m2-cI_1wpb-a2-m3-cK 1wpb-a2-m2-cJ_1wpb-a2-m3-cN 1wpb-a2-m2-cL_1wpb-a2-m3-cJ 1wpb-a2-m2-cM_1wpb-a2-m1-cK 1wpb-a2-m2-cM_1wpb-a2-m3-cI 1wpb-a2-m2-cN_1wpb-a2-m3-cL 1wpb-a2-m2-cO_1wpb-a2-m3-cO 1wpb-a2-m2-cP_1wpb-a2-m3-cP 1wpb-a2-m3-cM_1wpb-a2-m2-cK ESTMEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA QESTMEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA 1wpb-a8-m1-cJ_1wpb-a8-m2-cK Structure of Escherichia coli yfbU gene product Q1R9C1 Q1R9C1 2 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 168 168 1wpb-a1-m1-cA_1wpb-a1-m3-cD 1wpb-a1-m1-cA_1wpb-a1-m3-cH 1wpb-a1-m1-cB_1wpb-a1-m2-cC 1wpb-a1-m1-cB_1wpb-a1-m2-cG 1wpb-a1-m1-cC_1wpb-a1-m3-cB 1wpb-a1-m1-cC_1wpb-a1-m3-cF 1wpb-a1-m1-cD_1wpb-a1-m2-cA 1wpb-a1-m1-cD_1wpb-a1-m2-cE 1wpb-a1-m1-cE_1wpb-a1-m3-cD 1wpb-a1-m1-cE_1wpb-a1-m3-cH 1wpb-a1-m1-cF_1wpb-a1-m2-cC 1wpb-a1-m1-cF_1wpb-a1-m2-cG 1wpb-a1-m1-cG_1wpb-a1-m3-cB 1wpb-a1-m1-cG_1wpb-a1-m3-cF 1wpb-a1-m1-cH_1wpb-a1-m2-cA 1wpb-a1-m1-cH_1wpb-a1-m2-cE 1wpb-a1-m2-cB_1wpb-a1-m3-cC 1wpb-a1-m2-cB_1wpb-a1-m3-cG 1wpb-a1-m2-cD_1wpb-a1-m3-cA 1wpb-a1-m2-cD_1wpb-a1-m3-cE 1wpb-a1-m2-cF_1wpb-a1-m3-cC 1wpb-a1-m2-cF_1wpb-a1-m3-cG 1wpb-a1-m2-cH_1wpb-a1-m3-cA 1wpb-a1-m2-cH_1wpb-a1-m3-cE 1wpb-a2-m1-cI_1wpb-a2-m3-cL 1wpb-a2-m1-cI_1wpb-a2-m3-cP 1wpb-a2-m1-cJ_1wpb-a2-m2-cK 1wpb-a2-m1-cJ_1wpb-a2-m2-cO 1wpb-a2-m1-cK_1wpb-a2-m3-cJ 1wpb-a2-m1-cK_1wpb-a2-m3-cN 1wpb-a2-m1-cL_1wpb-a2-m2-cI 1wpb-a2-m1-cM_1wpb-a2-m3-cL 1wpb-a2-m1-cM_1wpb-a2-m3-cP 1wpb-a2-m1-cN_1wpb-a2-m2-cK 1wpb-a2-m1-cN_1wpb-a2-m2-cO 1wpb-a2-m1-cO_1wpb-a2-m3-cJ 1wpb-a2-m1-cO_1wpb-a2-m3-cN 1wpb-a2-m1-cP_1wpb-a2-m2-cI 1wpb-a2-m2-cJ_1wpb-a2-m3-cK 1wpb-a2-m2-cJ_1wpb-a2-m3-cO 1wpb-a2-m2-cL_1wpb-a2-m3-cI 1wpb-a2-m2-cM_1wpb-a2-m1-cL 1wpb-a2-m2-cM_1wpb-a2-m1-cP 1wpb-a2-m2-cN_1wpb-a2-m3-cK 1wpb-a2-m2-cN_1wpb-a2-m3-cO 1wpb-a2-m2-cP_1wpb-a2-m3-cI 1wpb-a2-m3-cM_1wpb-a2-m2-cL 1wpb-a2-m3-cM_1wpb-a2-m2-cP 1wpb-a3-m1-cC_1wpb-a3-m3-cB 1wpb-a3-m1-cC_1wpb-a3-m3-cF 1wpb-a3-m1-cG_1wpb-a3-m3-cB 1wpb-a3-m1-cG_1wpb-a3-m3-cF 1wpb-a4-m1-cK_1wpb-a4-m3-cJ 1wpb-a4-m1-cK_1wpb-a4-m3-cN 1wpb-a4-m1-cO_1wpb-a4-m3-cJ 1wpb-a4-m1-cO_1wpb-a4-m3-cN 1wpb-a5-m1-cI_1wpb-a5-m3-cL 1wpb-a5-m1-cI_1wpb-a5-m3-cP 1wpb-a5-m1-cM_1wpb-a5-m3-cL 1wpb-a5-m1-cM_1wpb-a5-m3-cP 1wpb-a6-m1-cD_1wpb-a6-m2-cA 1wpb-a6-m1-cD_1wpb-a6-m2-cE 1wpb-a6-m1-cH_1wpb-a6-m2-cA 1wpb-a6-m1-cH_1wpb-a6-m2-cE 1wpb-a7-m1-cB_1wpb-a7-m2-cC 1wpb-a7-m1-cB_1wpb-a7-m2-cG 1wpb-a7-m1-cF_1wpb-a7-m2-cC 1wpb-a7-m1-cF_1wpb-a7-m2-cG 1wpb-a8-m1-cJ_1wpb-a8-m2-cO 1wpb-a8-m1-cN_1wpb-a8-m2-cK 1wpb-a8-m1-cN_1wpb-a8-m2-cO 4lr3-a1-m1-cA_4lr3-a1-m1-cB 4lr3-a1-m1-cA_4lr3-a1-m1-cD 4lr3-a1-m1-cB_4lr3-a1-m1-cC 4lr3-a1-m1-cC_4lr3-a1-m1-cD 4lr3-a2-m1-cE_4lr3-a2-m1-cF 4lr3-a2-m1-cE_4lr3-a2-m1-cH 4lr3-a2-m1-cF_4lr3-a2-m1-cG 4lr3-a2-m1-cG_4lr3-a2-m1-cH 4lr3-a3-m1-cI_4lr3-a3-m1-cJ 4lr3-a3-m1-cI_4lr3-a3-m1-cL 4lr3-a3-m1-cJ_4lr3-a3-m1-cK 4lr3-a3-m1-cK_4lr3-a3-m1-cL 4lr3-a4-m1-cM_4lr3-a4-m1-cN 4lr3-a4-m1-cM_4lr3-a4-m1-cP 4lr3-a4-m1-cN_4lr3-a4-m1-cO 4lr3-a4-m1-cO_4lr3-a4-m1-cP QESTMEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA QESTMEMTNAQRLILSNQYKMMTMLDPANAERYRRLQTIIERGYGLQMRELDREFGELKEETCRTIIDIMEMYHALHVSWSNLQDQQSIDERRVTFLGFDAATEARYLGYVRFMVNVEGRYTHFDAGTHGFNAQTPMWEKYQRMLNVWHACPRQYHLSANEINQIINA 1wpg-a1-m1-cC_1wpg-a1-m1-cD Crystal structure of the SR CA2+-ATPase with MGF4 P04191 P04191 2.3 X-RAY DIFFRACTION 11 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 994 994 1wpg-a1-m1-cA_1wpg-a1-m1-cB 3b9r-a3-m1-cA_3b9r-a3-m2-cB MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG 1wpt-a1-m2-cB_1wpt-a1-m3-cB Crystal Structure of HutP, an RNA binding anti-termination protein P10943 P10943 2.7 X-RAY DIFFRACTION 36 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 144 144 1vea-a1-m1-cB_1vea-a1-m2-cB 1vea-a1-m1-cB_1vea-a1-m3-cB 1vea-a1-m2-cB_1vea-a1-m3-cB 1wps-a1-m1-cB_1wps-a1-m2-cB 1wps-a1-m1-cB_1wps-a1-m3-cB 1wps-a1-m2-cB_1wps-a1-m3-cB 1wpt-a1-m1-cB_1wpt-a1-m2-cB 1wpt-a1-m1-cB_1wpt-a1-m3-cB KERRIGRLSVLLLLNEAEESTQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI KERRIGRLSVLLLLNEAEESTQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI 1wpw-a1-m1-cA_1wpw-a1-m2-cB Crystal Structure of IPMDH from Sulfolobus tokodaii P50455 P50455 2.8 X-RAY DIFFRACTION 11 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 336 336 1wpw-a1-m1-cB_1wpw-a1-m2-cA GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG 1wpw-a1-m1-cB_1wpw-a1-m2-cB Crystal Structure of IPMDH from Sulfolobus tokodaii P50455 P50455 2.8 X-RAY DIFFRACTION 20 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 336 336 1wpw-a1-m1-cA_1wpw-a1-m2-cA GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG 1wpw-a2-m1-cA_1wpw-a2-m3-cB Crystal Structure of IPMDH from Sulfolobus tokodaii P50455 P50455 2.8 X-RAY DIFFRACTION 18 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 336 336 1wpw-a2-m1-cB_1wpw-a2-m3-cA GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG 1wpw-a2-m1-cB_1wpw-a2-m3-cB Crystal Structure of IPMDH from Sulfolobus tokodaii P50455 P50455 2.8 X-RAY DIFFRACTION 28 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 336 336 1wpw-a2-m1-cA_1wpw-a2-m3-cA GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG 1wpw-a2-m3-cA_1wpw-a2-m3-cB Crystal Structure of IPMDH from Sulfolobus tokodaii P50455 P50455 2.8 X-RAY DIFFRACTION 145 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 336 336 1wpw-a1-m1-cA_1wpw-a1-m1-cB 1wpw-a1-m2-cA_1wpw-a1-m2-cB 1wpw-a2-m1-cA_1wpw-a2-m1-cB GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG GFTVALIQGDGIGPEIVSKSKRILAKINELYSLPIEYIEVEAGDRALARYGEALPKDSLKIIDKADIILKGPVGESAADVVVKLRQIYDMYANIRPAKSIPGIDTKYGNVDILIVRENTEDLYKGFEHIVSDGVAVGMKIITRFASERIAKVGLNFALRRRKKVTCVHKANVMRITDGLFAEACRSVLKGKVEYSEMYVDAAAANLVRNPQMFDVIVTENVYGDILSDEASQIAGSLGIAPSANIGDKKALFEPVHGAAFDIAGKNIGNPTAFLLSVSMMYERMYELSNDDRYIKASRALENAIYLVYKERKALTPDVGGNATTDDLINEIYNKLG 1wq5-a3-m1-cA_1wq5-a3-m2-cA Crystal structure of tryptophan synthase alpha-subunit from Escherichia coli P0A877 P0A877 2.3 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 258 MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS 1wq5-a3-m1-cA_1wq5-a3-m2-cB Crystal structure of tryptophan synthase alpha-subunit from Escherichia coli P0A877 P0A877 2.3 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 261 1wq5-a3-m2-cA_1wq5-a3-m1-cB MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDPLIQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS 1wq5-a3-m2-cA_1wq5-a3-m2-cB Crystal structure of tryptophan synthase alpha-subunit from Escherichia coli P0A877 P0A877 2.3 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 261 1v7y-a3-m1-cA_1v7y-a3-m2-cB 1wq5-a3-m1-cA_1wq5-a3-m1-cB MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFSDPLIQNATLRAFAAGVTPAQCFEMLALIRQKHPTIPIGLLMYANLVFNKGIDEFYAQCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGVTENRAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS 1wq6-a1-m1-cA_1wq6-a1-m2-cB The tetramer structure of the nervy homolgy two (NHR2) domain of AML1-ETO is critical for AML1-ETO'S activity Q06455 Q06455 2 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 1wq6-a1-m1-cB_1wq6-a1-m2-cA DHRLTDREWAEEWKHLDHLLNCIDVEKTRRSLTVLRRCQEADREELNYWIRRYSDAE DHRLTDREWAEEWKHLDHLLNCIDVEKTRRSLTVLRRCQEADREELNYWIRRYSDAE 1wq6-a1-m2-cA_1wq6-a1-m2-cB The tetramer structure of the nervy homolgy two (NHR2) domain of AML1-ETO is critical for AML1-ETO'S activity Q06455 Q06455 2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 1wq6-a1-m1-cA_1wq6-a1-m1-cB DHRLTDREWAEEWKHLDHLLNCIDVEKTRRSLTVLRRCQEADREELNYWIRRYSDAE DHRLTDREWAEEWKHLDHLLNCIDVEKTRRSLTVLRRCQEADREELNYWIRRYSDAE 1wq8-a2-m3-cA_1wq8-a2-m8-cA Crystal structure of Vammin, a VEGF-F from a snake venom P67863 P67863 1.9 X-RAY DIFFRACTION 89 1.0 194601 (Vipera aspis aspis) 194601 (Vipera aspis aspis) 99 99 1wq8-a1-m1-cA_1wq8-a1-m2-cA 1wq8-a2-m1-cA_1wq8-a2-m2-cA 1wq8-a2-m4-cA_1wq8-a2-m6-cA 1wq8-a2-m5-cA_1wq8-a2-m7-cA VRPFLEVHERSACQARETLVPILQEYPDEISDIFRPSCVAVLRCSGCCTDESLKCTPVGKHTVDIQIMRVNPRTQSSKMEVMKFTEHTACECRPRRKQG VRPFLEVHERSACQARETLVPILQEYPDEISDIFRPSCVAVLRCSGCCTDESLKCTPVGKHTVDIQIMRVNPRTQSSKMEVMKFTEHTACECRPRRKQG 1wq8-a2-m5-cA_1wq8-a2-m8-cA Crystal structure of Vammin, a VEGF-F from a snake venom P67863 P67863 1.9 X-RAY DIFFRACTION 36 1.0 194601 (Vipera aspis aspis) 194601 (Vipera aspis aspis) 99 99 1wq8-a2-m1-cA_1wq8-a2-m7-cA 1wq8-a2-m2-cA_1wq8-a2-m4-cA 1wq8-a2-m3-cA_1wq8-a2-m6-cA VRPFLEVHERSACQARETLVPILQEYPDEISDIFRPSCVAVLRCSGCCTDESLKCTPVGKHTVDIQIMRVNPRTQSSKMEVMKFTEHTACECRPRRKQG VRPFLEVHERSACQARETLVPILQEYPDEISDIFRPSCVAVLRCSGCCTDESLKCTPVGKHTVDIQIMRVNPRTQSSKMEVMKFTEHTACECRPRRKQG 1wq9-a1-m1-cB_1wq9-a1-m1-cA Crystal structure of VR-1, a VEGF-F from a snake venom P67861 P67861 2 X-RAY DIFFRACTION 86 1.0 31159 (Daboia russelii russelii) 31159 (Daboia russelii russelii) 95 96 VRPFLDVYQRSACQTRETLVSILQEHPDEISDIFRPSCVAVLRCSGCCTDESMKCTPVGKHTADIQIMRMNPRTHSSKMEVMKFMEHTACECRPA EVRPFLDVYQRSACQTRETLVSILQEHPDEISDIFRPSCVAVLRCSGCCTDESMKCTPVGKHTADIQIMRMNPRTHSSKMEVMKFMEHTACECRPA 1wqa-a5-m1-cD_1wqa-a5-m2-cC Crystal Structure of Pyrococcus horikoshii phosphomannomutase/phosphoglucomutase complexed with Mg2+ O58651 O58651 2 X-RAY DIFFRACTION 100 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 455 455 1wqa-a5-m1-cA_1wqa-a5-m2-cB MGKLFGTFGVRGIANEKITPEFAMKIGMAFGTLLKREGRKKPLVVVGRDTRVSGEMLKEALISGLLSVGCDVIDVGIAPTPAVQWATKHFNADGGAVITASHNPPEYNGIKLLEPNGMGLKKEREAIVEELFFKEDFDRAKWYEIGEVRREDIIKPYIEAIKSKVDVEAIKKRKPFVVVDTSNGAGSLTLPYLLRELGCKVITVNAQPDGYFPARNPEPNEENLKEFMEIVKALGADFGVAQDGDADRAVFIDENGRFIQGDKTFALVADAVLKEKGGGLLVTTVATSNLLDDIAKKHGAKVMRTKVGDLIVARALYENNGTIGGEENGGVIFPEHVLGRDGAMTVAKVVEIFAKSGKKFSELIDELPKYYQIKTKRHVEGDRHAIVNKVAEMARERGYTVDTTDGAKIIFEDGWVLVRASGTEPIIRIFSEAKSKEKAQEYLNLGIELLEKALS MGKLFGTFGVRGIANEKITPEFAMKIGMAFGTLLKREGRKKPLVVVGRDTRVSGEMLKEALISGLLSVGCDVIDVGIAPTPAVQWATKHFNADGGAVITASHNPPEYNGIKLLEPNGMGLKKEREAIVEELFFKEDFDRAKWYEIGEVRREDIIKPYIEAIKSKVDVEAIKKRKPFVVVDTSNGAGSLTLPYLLRELGCKVITVNAQPDGYFPARNPEPNEENLKEFMEIVKALGADFGVAQDGDADRAVFIDENGRFIQGDKTFALVADAVLKEKGGGLLVTTVATSNLLDDIAKKHGAKVMRTKVGDLIVARALYENNGTIGGEENGGVIFPEHVLGRDGAMTVAKVVEIFAKSGKKFSELIDELPKYYQIKTKRHVEGDRHAIVNKVAEMARERGYTVDTTDGAKIIFEDGWVLVRASGTEPIIRIFSEAKSKEKAQEYLNLGIELLEKALS 1wqa-a5-m2-cB_1wqa-a5-m2-cC Crystal Structure of Pyrococcus horikoshii phosphomannomutase/phosphoglucomutase complexed with Mg2+ O58651 O58651 2 X-RAY DIFFRACTION 62 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 455 455 1wqa-a5-m1-cA_1wqa-a5-m1-cD MGKLFGTFGVRGIANEKITPEFAMKIGMAFGTLLKREGRKKPLVVVGRDTRVSGEMLKEALISGLLSVGCDVIDVGIAPTPAVQWATKHFNADGGAVITASHNPPEYNGIKLLEPNGMGLKKEREAIVEELFFKEDFDRAKWYEIGEVRREDIIKPYIEAIKSKVDVEAIKKRKPFVVVDTSNGAGSLTLPYLLRELGCKVITVNAQPDGYFPARNPEPNEENLKEFMEIVKALGADFGVAQDGDADRAVFIDENGRFIQGDKTFALVADAVLKEKGGGLLVTTVATSNLLDDIAKKHGAKVMRTKVGDLIVARALYENNGTIGGEENGGVIFPEHVLGRDGAMTVAKVVEIFAKSGKKFSELIDELPKYYQIKTKRHVEGDRHAIVNKVAEMARERGYTVDTTDGAKIIFEDGWVLVRASGTEPIIRIFSEAKSKEKAQEYLNLGIELLEKALS MGKLFGTFGVRGIANEKITPEFAMKIGMAFGTLLKREGRKKPLVVVGRDTRVSGEMLKEALISGLLSVGCDVIDVGIAPTPAVQWATKHFNADGGAVITASHNPPEYNGIKLLEPNGMGLKKEREAIVEELFFKEDFDRAKWYEIGEVRREDIIKPYIEAIKSKVDVEAIKKRKPFVVVDTSNGAGSLTLPYLLRELGCKVITVNAQPDGYFPARNPEPNEENLKEFMEIVKALGADFGVAQDGDADRAVFIDENGRFIQGDKTFALVADAVLKEKGGGLLVTTVATSNLLDDIAKKHGAKVMRTKVGDLIVARALYENNGTIGGEENGGVIFPEHVLGRDGAMTVAKVVEIFAKSGKKFSELIDELPKYYQIKTKRHVEGDRHAIVNKVAEMARERGYTVDTTDGAKIIFEDGWVLVRASGTEPIIRIFSEAKSKEKAQEYLNLGIELLEKALS 1wql-a1-m2-cA_1wql-a1-m3-cA Cumene dioxygenase (cumA1A2) from Pseudomonas fluorescens IP01 Q51743 Q51743 2.2 X-RAY DIFFRACTION 102 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 436 436 1wql-a1-m1-cA_1wql-a1-m2-cA 1wql-a1-m1-cA_1wql-a1-m3-cA NWSDEEIKALVDEEKGLLDPRIFSDQDLYEIELERVFARSWLLLGHEGHIPKAGDYLTTYMGEDPVIVVRQKDRSIKVFLNQCRHRGMRIERSDFGNAKSFTCTYHGWAYDTAGNLVNVPYEKEAFCDCGFDKADWGPLQARVDTYKGLIFANWDTEAPDLKTYLSDATPYMDVMLDRTEAVTQVITGMQKTVIPCNWKFAAEQFCSDMYHAGTMAHLSGVLSSLPPEMDLSQVKLPSSGNQFRAKWGGHGTGWFNDDFALLQAIMGPKVVDYWTKGPAAERAKERLGKVLPADRMVAQHMTIFPTCSFLPGINTVRTWHPRGPNEIEVWSFIVVDADAPEDIKEEYRRKNIFTFNQGGTYEQDDGENWVEVQRGLRGYKARSRPLCAQMGAGVPNKNNPEFPGKTSYVYSEEAARGFYHHWSRMMSEPSWDTLKS NWSDEEIKALVDEEKGLLDPRIFSDQDLYEIELERVFARSWLLLGHEGHIPKAGDYLTTYMGEDPVIVVRQKDRSIKVFLNQCRHRGMRIERSDFGNAKSFTCTYHGWAYDTAGNLVNVPYEKEAFCDCGFDKADWGPLQARVDTYKGLIFANWDTEAPDLKTYLSDATPYMDVMLDRTEAVTQVITGMQKTVIPCNWKFAAEQFCSDMYHAGTMAHLSGVLSSLPPEMDLSQVKLPSSGNQFRAKWGGHGTGWFNDDFALLQAIMGPKVVDYWTKGPAAERAKERLGKVLPADRMVAQHMTIFPTCSFLPGINTVRTWHPRGPNEIEVWSFIVVDADAPEDIKEEYRRKNIFTFNQGGTYEQDDGENWVEVQRGLRGYKARSRPLCAQMGAGVPNKNNPEFPGKTSYVYSEEAARGFYHHWSRMMSEPSWDTLKS 1wql-a1-m2-cB_1wql-a1-m3-cB Cumene dioxygenase (cumA1A2) from Pseudomonas fluorescens IP01 Q51744 Q51744 2.2 X-RAY DIFFRACTION 89 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 182 182 1wql-a1-m1-cB_1wql-a1-m2-cB 1wql-a1-m1-cB_1wql-a1-m3-cB DLTKPIEWPEMPVSLELQNAVEQFYYREAQLLDYQNYEAWLALLTQDIQYWMPIRTTHTSRNKAMEYVPPGGNAHFDETYESMRARIRARVSGLNWTEDPPSRSRHIVSNVIVRETESAGTLEVSSAFLCYRNRLERMTDIYVGERRDILLRVSDGLGFKIAKRTILLDQSTITANNLSQFF DLTKPIEWPEMPVSLELQNAVEQFYYREAQLLDYQNYEAWLALLTQDIQYWMPIRTTHTSRNKAMEYVPPGGNAHFDETYESMRARIRARVSGLNWTEDPPSRSRHIVSNVIVRETESAGTLEVSSAFLCYRNRLERMTDIYVGERRDILLRVSDGLGFKIAKRTILLDQSTITANNLSQFF 1wr8-a1-m1-cA_1wr8-a1-m1-cB Crystal structure of hypothetical protein PH1421 from Pyrococcus horikoshii. O50129 O50129 1.6 X-RAY DIFFRACTION 61 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 230 231 KIKAISIDIDGTITYPNRMIHEKALEAIRRAESLGIPIMLVTGNTVQFAEAASILIGTSGPVVAEDGGAISYKKKRIFLASMDEEWILWNEIRKRFPNARTSYTMPDRRAGLVIMRETINVETVREIINELNLNLVAVDSGFAIHVKKPWINKGSGIEKASEFLGIKPKEVAHVGDGENDLDAFKVVGYKVAVAQAPKILKENADYVTKKEYGEGGAEAIYHILEKFGYL MKIKAISIDIDGTITYPNRMIHEKALEAIRRAESLGIPIMLVTGNTVQFAEAASILIGTSGPVVAEDGGAISYKKKRIFLASMDEEWILWNEIRKRFPNARTSYTMPDRRAGLVIMRETINVETVREIINELNLNLVAVDSGFAIHVKKPWINKGSGIEKASEFLGIKPKEVAHVGDGENDLDAFKVVGYKVAVAQAPKILKENADYVTKKEYGEGGAEAIYHILEKFGYL 1wra-a3-m1-cA_1wra-a3-m2-cA Crystal Structure of Phosphorylcholine Esterase Domain of the Virulence Factor Choline Binding Protein E from Streptococcus Pneumoniae Q8DQ62 Q8DQ62 2 X-RAY DIFFRACTION 14 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 305 305 GNKIHFINVQEGGSDAIILESNGHFAMVDTGEDYDFPDGSDSRYPWREGIETSYKHVLTDRVFRRLKELSVQKLDFILVTHTHSDHIGNVDELLSTYPVDRVYLKKYSDSRITNSERLWDNLYGYDKVLQTATETGVSVIQNITQGDAHFQFGDMDIQLYNYENETDSSGELKKIWDDNSNSLISVVKVNGKKIYLGGDLDNVHGAEDKYGPLIGKVDLMKFNHHHDTNKSNTKDFIKNLSPSLIVQTSDSLPWKNGVDSEYVNWLKERGIERINAASKDYDATVFDIRKDGFVNISTSYKPIPS GNKIHFINVQEGGSDAIILESNGHFAMVDTGEDYDFPDGSDSRYPWREGIETSYKHVLTDRVFRRLKELSVQKLDFILVTHTHSDHIGNVDELLSTYPVDRVYLKKYSDSRITNSERLWDNLYGYDKVLQTATETGVSVIQNITQGDAHFQFGDMDIQLYNYENETDSSGELKKIWDDNSNSLISVVKVNGKKIYLGGDLDNVHGAEDKYGPLIGKVDLMKFNHHHDTNKSNTKDFIKNLSPSLIVQTSDSLPWKNGVDSEYVNWLKERGIERINAASKDYDATVFDIRKDGFVNISTSYKPIPS 1wrb-a3-m1-cA_1wrb-a3-m2-cB Crystal structure of the N-terminal RecA-like domain of DjVLGB, a pranarian Vasa-like RNA helicase O97032 O97032 2.4 X-RAY DIFFRACTION 110 0.987 6161 (Dugesia japonica) 6161 (Dugesia japonica) 232 232 KYDSIPVSVTGPDYSATNVIENFDELKLDPTIRNNILLASYQRPTPIQKNAIPAILEHRDIMACAQTGSGKTAAFLIPIINHLVCQDLKTAYPKCLILAPTRELAIQILSESQKFSLNTPLRSCVVYGGADTHSQIREVQMGCHLLVATPGRLVDFIEKNKISLEFCKYIVLDEADRMLDMGFEPQIRKIIEESNMPSGINRQTLMFSATFPKEIQKLAADFLYNYIFMTVG SIPVSVTGPDYSATNVIENFDELKLDPTIRNNILLASYQRPTPIQKNAIPAILEHRDIMACAQTGSGKTAAFLIPIINHLVCQDLYSKTAYPKCLILAPTRELAIQILSESQKFSLNTPLRSCVVYGGADTHSQIREVQMGCHLLVATPGRLVDFIEKNKISLEFCKYIVLDEADRMLDMGFEPQIRKIIEESNMPSGINRQTLMFSATFPKEIQKLAADFLYNYIFMTVGR 1wrd-a2-m24-cA_1wrd-a2-m9-cA Crystal structure of Tom1 GAT domain in complex with ubiquitin O60784 O60784 1.75 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 1wrd-a2-m10-cA_1wrd-a2-m22-cA 1wrd-a2-m11-cA_1wrd-a2-m23-cA 1wrd-a2-m12-cA_1wrd-a2-m21-cA 1wrd-a2-m13-cA_1wrd-a2-m2-cA 1wrd-a2-m14-cA_1wrd-a2-m4-cA 1wrd-a2-m16-cA_1wrd-a2-m3-cA 1wrd-a2-m17-cA_1wrd-a2-m6-cA 1wrd-a2-m18-cA_1wrd-a2-m8-cA 1wrd-a2-m19-cA_1wrd-a2-m5-cA 1wrd-a2-m1-cA_1wrd-a2-m15-cA 1wrd-a2-m20-cA_1wrd-a2-m7-cA GPLGSEQIGKLRSELEMVSGNVRVMSEMLTELVPTQAEPADLELLQELNRTCRAMQQRVLELIPQIANEQLTEELLIVNDNLNNVFLRHERFERFRTG GPLGSEQIGKLRSELEMVSGNVRVMSEMLTELVPTQAEPADLELLQELNRTCRAMQQRVLELIPQIANEQLTEELLIVNDNLNNVFLRHERFERFRTG 1wrd-a2-m7-cA_1wrd-a2-m9-cA Crystal structure of Tom1 GAT domain in complex with ubiquitin O60784 O60784 1.75 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 1wrd-a2-m10-cA_1wrd-a2-m6-cA 1wrd-a2-m10-cA_1wrd-a2-m8-cA 1wrd-a2-m11-cA_1wrd-a2-m5-cA 1wrd-a2-m11-cA_1wrd-a2-m7-cA 1wrd-a2-m12-cA_1wrd-a2-m6-cA 1wrd-a2-m12-cA_1wrd-a2-m8-cA 1wrd-a2-m13-cA_1wrd-a2-m18-cA 1wrd-a2-m13-cA_1wrd-a2-m20-cA 1wrd-a2-m14-cA_1wrd-a2-m17-cA 1wrd-a2-m14-cA_1wrd-a2-m19-cA 1wrd-a2-m15-cA_1wrd-a2-m18-cA 1wrd-a2-m15-cA_1wrd-a2-m20-cA 1wrd-a2-m16-cA_1wrd-a2-m17-cA 1wrd-a2-m16-cA_1wrd-a2-m19-cA 1wrd-a2-m1-cA_1wrd-a2-m21-cA 1wrd-a2-m1-cA_1wrd-a2-m23-cA 1wrd-a2-m21-cA_1wrd-a2-m3-cA 1wrd-a2-m22-cA_1wrd-a2-m4-cA 1wrd-a2-m23-cA_1wrd-a2-m3-cA 1wrd-a2-m24-cA_1wrd-a2-m4-cA 1wrd-a2-m2-cA_1wrd-a2-m22-cA 1wrd-a2-m2-cA_1wrd-a2-m24-cA 1wrd-a2-m5-cA_1wrd-a2-m9-cA GPLGSEQIGKLRSELEMVSGNVRVMSEMLTELVPTQAEPADLELLQELNRTCRAMQQRVLELIPQIANEQLTEELLIVNDNLNNVFLRHERFERFRTG GPLGSEQIGKLRSELEMVSGNVRVMSEMLTELVPTQAEPADLELLQELNRTCRAMQQRVLELIPQIANEQLTEELLIVNDNLNNVFLRHERFERFRTG 1wrl-a2-m1-cD_1wrl-a2-m1-cC Crystal structure of the N-terminal domain of human cardiac troponin C in complex with trifluoperazine (monoclinic crystal form) P63316 P63316 2.6 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 83 1wrk-a1-m1-cB_1wrk-a1-m1-cA 1wrl-a1-m1-cA_1wrl-a1-m1-cB 1wrl-a3-m1-cF_1wrl-a3-m1-cE DIYKAAVEQLTEEQKNEFKAAFDIFVLGAEDGSISTKELGKVMRMLGQNPTPEELQEMIDEVDEDGSGTVDFDEFLVMMVRS DIYKAAVEQLTEEQKNEFKAAFDIFVLGAEDGSISTKELGKVMRMLGQNPTPEELQEMIDEVDEDGSGTVDFDEFLVMMVRSM 1wrq-a1-m2-cA_1wrq-a1-m3-cB Crystal Structure of HutP-Antitermination complex P10943 P10943 2.2 X-RAY DIFFRACTION 26 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 143 1vea-a1-m1-cA_1vea-a1-m2-cB 1vea-a1-m2-cA_1vea-a1-m3-cB 1vea-a1-m3-cA_1vea-a1-m1-cB 1wmq-a1-m1-cA_1wmq-a1-m2-cB 1wmq-a1-m1-cB_1wmq-a1-m3-cA 1wmq-a1-m2-cA_1wmq-a1-m3-cB 1wps-a1-m1-cA_1wps-a1-m2-cB 1wps-a1-m2-cA_1wps-a1-m3-cB 1wps-a1-m3-cA_1wps-a1-m1-cB 1wpt-a1-m1-cA_1wpt-a1-m2-cB 1wpt-a1-m1-cB_1wpt-a1-m3-cA 1wpt-a1-m2-cA_1wpt-a1-m3-cB 1wpu-a1-m1-cA_1wpu-a1-m3-cB 1wpu-a1-m1-cB_1wpu-a1-m2-cA 1wpu-a1-m2-cB_1wpu-a1-m3-cA 1wpv-a1-m1-cA_1wpv-a1-m2-cB 1wpv-a1-m1-cB_1wpv-a1-m2-cA 1wpv-a1-m1-cC_1wpv-a1-m2-cC 1wrn-a1-m1-cB_1wrn-a1-m2-cB 1wrn-a1-m1-cC_1wrn-a1-m2-cA 1wrn-a1-m2-cC_1wrn-a1-m1-cA 1wro-a1-m1-cA_1wro-a1-m2-cB 1wro-a1-m1-cB_1wro-a1-m2-cA 1wro-a1-m1-cC_1wro-a1-m2-cC 1wrq-a1-m1-cA_1wrq-a1-m2-cB 1wrq-a1-m1-cB_1wrq-a1-m3-cA 3boy-a1-m1-cA_3boy-a1-m2-cB 3boy-a1-m1-cB_3boy-a1-m2-cA 3boy-a1-m1-cC_3boy-a1-m2-cC 4h4l-a1-m1-cC_4h4l-a1-m1-cK 4h4l-a1-m1-cJ_4h4l-a1-m1-cA 4h4l-a1-m1-cL_4h4l-a1-m1-cB 4h4l-a2-m1-cD_4h4l-a2-m1-cG 4h4l-a2-m1-cF_4h4l-a2-m1-cH 4h4l-a2-m1-cI_4h4l-a2-m1-cE TLHKERRIGRLSVLLLLNSTQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI TLHKERRIGRLSVLLLLNETQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI 1wru-a1-m2-cA_1wru-a1-m3-cA Structure of central hub elucidated by X-ray analysis of gene product 44; baseplate component of bacteriophage Mu P08558 P08558 2.1 X-RAY DIFFRACTION 80 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 325 325 1wru-a1-m1-cA_1wru-a1-m2-cA 1wru-a1-m1-cA_1wru-a1-m3-cA NTVTLRADGRLFTGWTSVSVTRSIESVAGYFELGVNVPPGTDLSGLAPGKKFTLEIGGQIVCTGYIDSRRRQMTADSMKITVAGRDKTADLIDCAAVYSGGQWKNRTLEQIARDLCAPYGVTVRWELSDKESSAAFPGFTLDHSETVYEALVRASRARGVLMTSNAAGELVFSRAASTATDELVLGENLLTLDFEEDFRDRFSEYTVKSRKGTATDSDVTRYRPMIIIADSKITAKDAQARALREQRRRLAKSITFEAEIDGWTRKDGQLWMPNLLVTIDASKYAIKTTELLVSKVTLILNDQDGLKTRVSLAPREGFLVPVESD NTVTLRADGRLFTGWTSVSVTRSIESVAGYFELGVNVPPGTDLSGLAPGKKFTLEIGGQIVCTGYIDSRRRQMTADSMKITVAGRDKTADLIDCAAVYSGGQWKNRTLEQIARDLCAPYGVTVRWELSDKESSAAFPGFTLDHSETVYEALVRASRARGVLMTSNAAGELVFSRAASTATDELVLGENLLTLDFEEDFRDRFSEYTVKSRKGTATDSDVTRYRPMIIIADSKITAKDAQARALREQRRRLAKSITFEAEIDGWTRKDGQLWMPNLLVTIDASKYAIKTTELLVSKVTLILNDQDGLKTRVSLAPREGFLVPVESD 1wrv-a2-m2-cC_1wrv-a2-m2-cA Crystal Structure of T.th.HB8 Branched-Chain Amino Acid Aminotransferase Q5SM19 Q5SM19 1.5 X-RAY DIFFRACTION 47 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 295 297 1wrv-a1-m1-cA_1wrv-a1-m1-cB 1wrv-a1-m1-cC_1wrv-a1-m1-cA 1wrv-a1-m1-cC_1wrv-a1-m1-cB 1wrv-a2-m1-cA_1wrv-a2-m1-cB 1wrv-a2-m1-cC_1wrv-a2-m1-cA 1wrv-a2-m1-cC_1wrv-a2-m1-cB 1wrv-a2-m2-cA_1wrv-a2-m2-cB 1wrv-a2-m2-cC_1wrv-a2-m2-cB 2eiy-a1-m1-cA_2eiy-a1-m1-cB 2eiy-a1-m1-cC_2eiy-a1-m1-cA 2eiy-a1-m1-cC_2eiy-a1-m1-cB 2eiy-a1-m2-cA_2eiy-a1-m2-cB 2eiy-a1-m2-cC_2eiy-a1-m2-cA 2eiy-a1-m2-cC_2eiy-a1-m2-cB 2ej0-a1-m1-cA_2ej0-a1-m1-cB 2ej0-a1-m1-cA_2ej0-a1-m1-cC 2ej0-a1-m1-cC_2ej0-a1-m1-cB 2ej0-a1-m1-cE_2ej0-a1-m1-cD 2ej0-a1-m1-cE_2ej0-a1-m1-cF 2ej0-a1-m1-cF_2ej0-a1-m1-cD 2ej2-a1-m1-cA_2ej2-a1-m1-cB 2ej2-a1-m1-cA_2ej2-a1-m1-cC 2ej2-a1-m1-cC_2ej2-a1-m1-cB 2ej2-a1-m1-cE_2ej2-a1-m1-cD 2ej2-a1-m1-cE_2ej2-a1-m1-cF 2ej2-a1-m1-cF_2ej2-a1-m1-cD 2ej3-a1-m1-cA_2ej3-a1-m1-cB 2ej3-a1-m1-cC_2ej3-a1-m1-cA 2ej3-a1-m1-cC_2ej3-a1-m1-cB 2ej3-a1-m2-cA_2ej3-a1-m2-cB 2ej3-a1-m2-cC_2ej3-a1-m2-cA 2ej3-a1-m2-cC_2ej3-a1-m2-cB QIKAGLIWMNGAFVPQEEAKTSVLSHALHYGTSVFEGIRAYETAKGPAIFRLKEHVKRFYNSAKVLRMEIPFAPEELEEAIKEVVRRNGYRSCYIRPLAWMGAKALGVNPLPNNPAEVMVAAWEWKGARLITSSWARFPANVMPGKAKVGGNYVNSALAKMEAVAAGADEALLLDEEGYVAEGSGENLFFVRDGVIYALEHSVNLEGITRDSVIRIAKDLGYEVQVVRATRDQLYMADEVFMTGTAAEVTPVSMIDWRPIGKGTAGPVALRLREVYLEAVTGRRPEYEGWLTYVN QIKAGLIWMNGAFVPQEEAKTSVLSHALHYGTSVFEGIRAYETAKGPAIFRLKEHVKRFYNSAKVLRMEIPFAPEELEEAIKEVVRRNGYRSCYIRPLAWMGAKALGVNPLPNNPAEVMVAAWEWVRKGARLITSSWARFPANVMPGKAKVGGNYVNSALAKMEAVAAGADEALLLDEEGYVAEGSGENLFFVRDGVIYALEHSVNLEGITRDSVIRIAKDLGYEVQVVRATRDQLYMADEVFMTGTAAEVTPVSMIDWRPIGKGTAGPVALRLREVYLEAVTGRRPEYEGWLTYVN 1ws8-a1-m1-cB_1ws8-a1-m1-cC Crystal Structure of Mavicyanin from Cucurbita pepo medullosa (Zucchini) P80728 P80728 1.6 X-RAY DIFFRACTION 10 1.0 3663 (Cucurbita pepo) 3663 (Cucurbita pepo) 103 103 1ws7-a1-m1-cB_1ws7-a1-m1-cC MATVHKVGDSTGWTTLVPYDYAKWASSNKFHVGDSLLFNYNNKFHNVLQVDQEQFKSCNSSSPAASYTSGADSIPLKRPGTFYFLCGIPGHCQLGQKVEIKVD MATVHKVGDSTGWTTLVPYDYAKWASSNKFHVGDSLLFNYNNKFHNVLQVDQEQFKSCNSSSPAASYTSGADSIPLKRPGTFYFLCGIPGHCQLGQKVEIKVD 1ws8-a1-m1-cB_1ws8-a1-m1-cD Crystal Structure of Mavicyanin from Cucurbita pepo medullosa (Zucchini) P80728 P80728 1.6 X-RAY DIFFRACTION 28 1.0 3663 (Cucurbita pepo) 3663 (Cucurbita pepo) 103 103 1ws7-a1-m1-cB_1ws7-a1-m1-cD 1ws7-a1-m1-cC_1ws7-a1-m1-cA 1ws8-a1-m1-cC_1ws8-a1-m1-cA MATVHKVGDSTGWTTLVPYDYAKWASSNKFHVGDSLLFNYNNKFHNVLQVDQEQFKSCNSSSPAASYTSGADSIPLKRPGTFYFLCGIPGHCQLGQKVEIKVD MATVHKVGDSTGWTTLVPYDYAKWASSNKFHVGDSLLFNYNNKFHNVLQVDQEQFKSCNSSSPAASYTSGADSIPLKRPGTFYFLCGIPGHCQLGQKVEIKVD 1ws8-a1-m1-cC_1ws8-a1-m1-cD Crystal Structure of Mavicyanin from Cucurbita pepo medullosa (Zucchini) P80728 P80728 1.6 X-RAY DIFFRACTION 22 1.0 3663 (Cucurbita pepo) 3663 (Cucurbita pepo) 103 103 1ws7-a1-m1-cB_1ws7-a1-m1-cA 1ws7-a1-m1-cC_1ws7-a1-m1-cD 1ws8-a1-m1-cB_1ws8-a1-m1-cA MATVHKVGDSTGWTTLVPYDYAKWASSNKFHVGDSLLFNYNNKFHNVLQVDQEQFKSCNSSSPAASYTSGADSIPLKRPGTFYFLCGIPGHCQLGQKVEIKVD MATVHKVGDSTGWTTLVPYDYAKWASSNKFHVGDSLLFNYNNKFHNVLQVDQEQFKSCNSSSPAASYTSGADSIPLKRPGTFYFLCGIPGHCQLGQKVEIKVD 1wsp-a1-m1-cA_1wsp-a1-m1-cB Crystal structure of axin dix domain O70239 O70239 2.9 X-RAY DIFFRACTION 20 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 83 84 CDSIVVAYYFCGEPIPYRTLVRGRAVTLGQFKELLTKKGSYRYYFKKVSDEFDCGVVFEEVREDEAILPVFEEKIIGKVEKVD PCDSIVVAYYFCGEPIPYRTLVRGRAVTLGQFKELLTKKGSYRYYFKKVSDEFDCGVVFEEVREDEAILPVFEEKIIGKVEKVD 1wsp-a1-m1-cB_1wsp-a1-m1-cC Crystal structure of axin dix domain O70239 O70239 2.9 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 84 84 PCDSIVVAYYFCGEPIPYRTLVRGRAVTLGQFKELLTKKGSYRYYFKKVSDEFDCGVVFEEVREDEAILPVFEEKIIGKVEKVD PCDSIVVAYYFCGEPIPYRTLVRGRAVTLGQFKELLTKKGSYRYYFKKVSDEFDCGVVFEEVREDEAILPVFEEKIIGKVEKVD 1wsr-a1-m1-cA_1wsr-a1-m1-cB Crystal Structure of Human T-protein of Glycine Cleavage System P48728 P48728 2 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 371 371 1wsv-a1-m1-cA_1wsv-a1-m1-cB VLRRTPLYDFHLAHGGKMVAFAGWSLPVQYRDSHTDSHLHTRQHCSLFDVSHMLQTKILGSDRVKLMESLVVGDIAELRPNQGTLSLFTNEAGGILDDLIVTNTSEGHLYVVSNAGCWEKDLALMQDKVRELQNQGRDVGLEVLDNALLALQGPTAAQVLQAGVADDLRKLPFMTSAVMEVFGVSGCRVTRCGYTGEDGVEISVPVAGAVHLATAILKNPEVKLAGLAARDSLRLEAGLCLYGNDIDEHTTPVEGSLSWTLGKRRRAAMDFPGAKVIVPQLKGRVQRRRVGLMCEGAPMRAHSPILNMEGTKIGTVTSGCPSPSLKKNVAMGYVPCEYSRPGTMLLVEVRRKQQMAVVSKMPFVPTNYYTL VLRRTPLYDFHLAHGGKMVAFAGWSLPVQYRDSHTDSHLHTRQHCSLFDVSHMLQTKILGSDRVKLMESLVVGDIAELRPNQGTLSLFTNEAGGILDDLIVTNTSEGHLYVVSNAGCWEKDLALMQDKVRELQNQGRDVGLEVLDNALLALQGPTAAQVLQAGVADDLRKLPFMTSAVMEVFGVSGCRVTRCGYTGEDGVEISVPVAGAVHLATAILKNPEVKLAGLAARDSLRLEAGLCLYGNDIDEHTTPVEGSLSWTLGKRRRAAMDFPGAKVIVPQLKGRVQRRRVGLMCEGAPMRAHSPILNMEGTKIGTVTSGCPSPSLKKNVAMGYVPCEYSRPGTMLLVEVRRKQQMAVVSKMPFVPTNYYTL 1wsr-a2-m1-cA_1wsr-a2-m2-cB Crystal Structure of Human T-protein of Glycine Cleavage System P48728 P48728 2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 371 371 VLRRTPLYDFHLAHGGKMVAFAGWSLPVQYRDSHTDSHLHTRQHCSLFDVSHMLQTKILGSDRVKLMESLVVGDIAELRPNQGTLSLFTNEAGGILDDLIVTNTSEGHLYVVSNAGCWEKDLALMQDKVRELQNQGRDVGLEVLDNALLALQGPTAAQVLQAGVADDLRKLPFMTSAVMEVFGVSGCRVTRCGYTGEDGVEISVPVAGAVHLATAILKNPEVKLAGLAARDSLRLEAGLCLYGNDIDEHTTPVEGSLSWTLGKRRRAAMDFPGAKVIVPQLKGRVQRRRVGLMCEGAPMRAHSPILNMEGTKIGTVTSGCPSPSLKKNVAMGYVPCEYSRPGTMLLVEVRRKQQMAVVSKMPFVPTNYYTL VLRRTPLYDFHLAHGGKMVAFAGWSLPVQYRDSHTDSHLHTRQHCSLFDVSHMLQTKILGSDRVKLMESLVVGDIAELRPNQGTLSLFTNEAGGILDDLIVTNTSEGHLYVVSNAGCWEKDLALMQDKVRELQNQGRDVGLEVLDNALLALQGPTAAQVLQAGVADDLRKLPFMTSAVMEVFGVSGCRVTRCGYTGEDGVEISVPVAGAVHLATAILKNPEVKLAGLAARDSLRLEAGLCLYGNDIDEHTTPVEGSLSWTLGKRRRAAMDFPGAKVIVPQLKGRVQRRRVGLMCEGAPMRAHSPILNMEGTKIGTVTSGCPSPSLKKNVAMGYVPCEYSRPGTMLLVEVRRKQQMAVVSKMPFVPTNYYTL 1wst-a1-m1-cA_1wst-a1-m2-cA Crystal structure of multiple substrate aminotransferase (MsAT) from Thermococcus profundus Q9V2W5 Q9V2W5 1.95 X-RAY DIFFRACTION 235 1.0 49899 (Thermococcus profundus) 49899 (Thermococcus profundus) 403 403 INFDSFFSEKAMLMKASEVRELLKLVETSDVISLAGGLPAPETFPVETIKKIAVEVLEEHADKALQYGTTKGFTPLRLALARWMEKRYDIPMSKVEIMTVAGSQQALDLIGRVFLNPGDPIVVEAPTYLAAIQAFKYYDPEFISIPLDDKGMRVDLLEEKLEELRKQGKRVKIVYTVSTFQNPAGVTMSVDRRKKLLELANEYDFLIVEDGPYSELRYSGEPTPPIKHFDDYGRVIYLGTFSKILAPGFRIGWVAAHPHLIRKMEIAKQSIDLCTNTFGQAIAWKYVENGYLDEHIPKIIEFYKPRRDAMLEALEEYMPEGVEWTKPEGGMFVRVTLPEGIDTKLMMERAVAKGVAYVPGEAFFVHRDKKNTMRLNFTYVPEETIREGVRRLAETIKEEMKRV INFDSFFSEKAMLMKASEVRELLKLVETSDVISLAGGLPAPETFPVETIKKIAVEVLEEHADKALQYGTTKGFTPLRLALARWMEKRYDIPMSKVEIMTVAGSQQALDLIGRVFLNPGDPIVVEAPTYLAAIQAFKYYDPEFISIPLDDKGMRVDLLEEKLEELRKQGKRVKIVYTVSTFQNPAGVTMSVDRRKKLLELANEYDFLIVEDGPYSELRYSGEPTPPIKHFDDYGRVIYLGTFSKILAPGFRIGWVAAHPHLIRKMEIAKQSIDLCTNTFGQAIAWKYVENGYLDEHIPKIIEFYKPRRDAMLEALEEYMPEGVEWTKPEGGMFVRVTLPEGIDTKLMMERAVAKGVAYVPGEAFFVHRDKKNTMRLNFTYVPEETIREGVRRLAETIKEEMKRV 1wsu-a1-m1-cB_1wsu-a1-m1-cA C-terminal domain of elongation factor selB complexed with SECIS RNA Q46455 Q46455 2.3 X-RAY DIFFRACTION 36 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 122 124 GSETQKKLLKDLEDKYRVSRWQPPSFKEVAGSFNLDPSELEELLHYLVREGVLVKINDEFYWHRQALGEAREVIKNLASTGPFGLAEARDALGSSRKYVLPLLEYLDQVKFTRRVGDKRVVV GSETQKKLLKDLEDKYRVSRWQPPSFKEVAGSFNLDPSELEELLHYLVREGVLVKINDEFYWHRQALGEAREVIKNLASTGPFGLAEARDALGSSRKYVLPLLEYLDQVKFTRRVGDKRVVVGN 1wsu-a1-m1-cC_1wsu-a1-m1-cD C-terminal domain of elongation factor selB complexed with SECIS RNA Q46455 Q46455 2.3 X-RAY DIFFRACTION 26 0.98 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 102 121 KLLKDLEDKYRVSRWQPPSFKEVAEELLHYLVREGVLVKINDEFYWHRQALGEAREVIKNLASTGPFGLAEARDALGSSRKYVLPLLEYLDQVKFTRKRVVV SETQKKLLKDLEDKYRVSRWQPPSFKEVAGSFNLDPSELEELLHYLVREGVLVKINDEFYWHRQALGEAREVIKNLAGPFGLAEARDALGSSRKYVLPLLEYLDQVKFTRRVGDKRVVVGN 1wsw-a1-m1-cA_1wsw-a1-m2-cA Low Temperature (100K) Crystal Structure Of Flavodoxin Mutant S64C, dimer, semiquinone state P00323 P00323 1.69 X-RAY DIFFRACTION 53 1.0 881 (Desulfovibrio vulgaris) 881 (Desulfovibrio vulgaris) 147 147 1xyy-a1-m1-cA_1xyy-a1-m2-cA AKALIVYGSTTGNTEYTAETIARELADAGYEVDSRDAASVEAGGLFEGFDLVLLGCSTWGDDCIELQDDFIPLFDSLEETGAQGRKVACFGCGDSSYEYFCGAVDAIEEKLKNLGAEIVQDGLRIDGDPRAARDDIVGWAHDVRGAI AKALIVYGSTTGNTEYTAETIARELADAGYEVDSRDAASVEAGGLFEGFDLVLLGCSTWGDDCIELQDDFIPLFDSLEETGAQGRKVACFGCGDSSYEYFCGAVDAIEEKLKNLGAEIVQDGLRIDGDPRAARDDIVGWAHDVRGAI 1wt5-a1-m1-cA_1wt5-a1-m1-cB The Crystal Structure Of A Humanized Antibody Fv 528 2.1 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWMGNIYPGSGGTNYAEKFKNRVTMTRDTSISTAYMELSRLRSDDTAVYYCARSGGPYFFDYWGQGTLVT QVQLVQSGAEVKKPGASVKVSCKASGYTFTSYWMHWVRQAPGQGLEWMGNIYPGSGGTNYAEKFKNRVTMTRDTSISTAYMELSRLRSDDTAVYYCARSGGPYFFDYWGQGTLVT 1wt6-a1-m1-cD_1wt6-a1-m1-cB Coiled-Coil domain of DMPK Q09013 Q09013 1.6 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 67 1wt6-a1-m1-cD_1wt6-a1-m1-cA EVTLRELQEALEEEVLTRQSLSREMEAIRTDNQNFASQLREAEARNRDLEAHVRQLQERMELL EAEAEVTLRELQEALEEEVLTRQSLSREMEAIRTDNQNFASQLREAEARNRDLEAHVRQLQERMELL 1wta-a1-m2-cA_1wta-a1-m3-cA Crystal Structure of 5'-Deoxy-5'-methylthioadenosine from Aeropyrum pernix (R32 form) Q9YAQ8 Q9YAQ8 1.78 X-RAY DIFFRACTION 32 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 273 273 1wta-a1-m1-cA_1wta-a1-m2-cA 1wta-a1-m1-cA_1wta-a1-m3-cA EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI 1wta-a2-m4-cA_1wta-a2-m8-cA Crystal Structure of 5'-Deoxy-5'-methylthioadenosine from Aeropyrum pernix (R32 form) Q9YAQ8 Q9YAQ8 1.78 X-RAY DIFFRACTION 14 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 273 273 1wta-a2-m1-cA_1wta-a2-m6-cA 1wta-a2-m5-cA_1wta-a2-m7-cA EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI 1wta-a2-m5-cA_1wta-a2-m8-cA Crystal Structure of 5'-Deoxy-5'-methylthioadenosine from Aeropyrum pernix (R32 form) Q9YAQ8 Q9YAQ8 1.78 X-RAY DIFFRACTION 67 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 273 273 1wta-a2-m1-cA_1wta-a2-m7-cA 1wta-a2-m4-cA_1wta-a2-m6-cA EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI 1wta-a2-m7-cA_1wta-a2-m8-cA Crystal Structure of 5'-Deoxy-5'-methylthioadenosine from Aeropyrum pernix (R32 form) Q9YAQ8 Q9YAQ8 1.78 X-RAY DIFFRACTION 106 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 273 273 1wta-a2-m1-cA_1wta-a2-m4-cA 1wta-a2-m1-cA_1wta-a2-m5-cA 1wta-a2-m4-cA_1wta-a2-m5-cA 1wta-a2-m6-cA_1wta-a2-m7-cA 1wta-a2-m6-cA_1wta-a2-m8-cA EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI EITRPPGVRAHVGVIGGSGLYDPGIVENPVEVKVSTPYGNPSDFIVVGDVAGVKVAFLPRHGRGHRIPPHAINYRANIWALKALGVKWVISVSAVGSLREDYRPGDFVVPDQFIDMTKNRRHYTFYDGPVTVHVSMADPFCEDLRQRLIDSGRRLGYTVHERGTYVCIEGPRFSTRAESRVWKDVFKADIIGMTLVPEINLACEAQLCYATLAMVTDYDVWADRPVTAEEVERVMISNVERARRMLYDVIPKLAGEPELERCSCCRALDTAAI 1wtc-a1-m1-cA_1wtc-a1-m2-cA Crystal Structure of S.pombe Serine Racemase complex with AMPPCP O59791 O59791 1.9 X-RAY DIFFRACTION 50 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 318 318 VLPTYDDVASASERIKKFANKTPVLTSSTVNKEFVAEVFFKCENFQKMGAFKFRGALNALSQLNEAQRKAGVLTFSSGNHAQAIALSAKILGIPAKIIMPLDAPEAKVAATKGYGGQVIMYDRYKDDREKMAKEISEREGLTIIPPYDHPHVLAGQGTAAKELFEEVGPLDALFVCLGGGGLLSGSALAARHFAPNCEVYGVEPEAGNDGQQSFRKGSIVHIDTPKTIADGAQTQHLGNYTFSIIKEKVDDILTVSDEELIDCLKFYAARMKIVVEPTGCLSFAAARAMKEKLKNKRIGIIISGGNVDIERYAHFLSQ VLPTYDDVASASERIKKFANKTPVLTSSTVNKEFVAEVFFKCENFQKMGAFKFRGALNALSQLNEAQRKAGVLTFSSGNHAQAIALSAKILGIPAKIIMPLDAPEAKVAATKGYGGQVIMYDRYKDDREKMAKEISEREGLTIIPPYDHPHVLAGQGTAAKELFEEVGPLDALFVCLGGGGLLSGSALAARHFAPNCEVYGVEPEAGNDGQQSFRKGSIVHIDTPKTIADGAQTQHLGNYTFSIIKEKVDDILTVSDEELIDCLKFYAARMKIVVEPTGCLSFAAARAMKEKLKNKRIGIIISGGNVDIERYAHFLSQ 1wte-a1-m1-cA_1wte-a1-m1-cB Crystal structure of type II restrcition endonuclease, EcoO109I complexed with cognate DNA Q9RPJ3 Q9RPJ3 1.9 X-RAY DIFFRACTION 201 1.0 562 (Escherichia coli) 562 (Escherichia coli) 272 272 1wtd-a1-m1-cA_1wtd-a1-m1-cB MNKQEVILKVQECAAWWILERQSKLTKLMSETMSINPFMTPFIFDYHSLNDFDELVEAIIAKHLMTGHDTGFGKLIDEKILPRVFGAYKLDKSYRAANEPFIHPCFDEIDHVIQRDDGRIELLSLKAGKWTIQLTMAVQLNKAFHEIINNYPGVADNIVVGVFYGNSHGLTDKYRILRGINTGANHNVIDIRDKVHVYAGKEFWSWLNNGEAETQHWVLEGIERAVKEADIKEKNKDLIEKFKEHVAKKYNEQVLNADGTAQWHKLLEMINE MNKQEVILKVQECAAWWILERQSKLTKLMSETMSINPFMTPFIFDYHSLNDFDELVEAIIAKHLMTGHDTGFGKLIDEKILPRVFGAYKLDKSYRAANEPFIHPCFDEIDHVIQRDDGRIELLSLKAGKWTIQLTMAVQLNKAFHEIINNYPGVADNIVVGVFYGNSHGLTDKYRILRGINTGANHNVIDIRDKVHVYAGKEFWSWLNNGEAETQHWVLEGIERAVKEADIKEKNKDLIEKFKEHVAKKYNEQVLNADGTAQWHKLLEMINE 1wtj-a1-m1-cA_1wtj-a1-m1-cB Crystal Structure of delta1-piperideine-2-carboxylate reductase from Pseudomonas syringae pvar.tomato Q4U331 Q4U331 1.55 X-RAY DIFFRACTION 212 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 332 337 2cwf-a1-m1-cA_2cwf-a1-m1-cB 2cwh-a1-m1-cA_2cwh-a1-m1-cB TQTVSYPQLIDLLRRIFVVHGTSPEVADVLAENCASAQRDGSHSHGIFRIPGYLSSLASGWVDGKAVPVVEDVGAAFVRVDACNGFAQPALAAARSLLIDKARSAGVAILAIRGSHHFAALWPDVEPFAEQGLVALSMVNSMTCVVPHGARQPLFGTNPIAFGAPRAGGEPIVFDLATSAIAHGDVQIAAREGRLLPAGMGVDRDGLPTQEPRAILDGGALLPFGGHKGSALSMMVELLAAGLTGGNFSFEFDWSKHPGAQTPWTGQLLIVIDPDKGAGQHFAQRSEELVRQLHGVGQERLPGDRRYLERARSMAHGIVIAQADLERLQELA DQPTQTVSYPQLIDLLRRIFVVHGTSPEVADVLAENCASAQRDGSHSHGIFRIPGYLSSLASGWVDGKAVPVVEDVGAAFVRVDACNGFAQPALAAARSLLIDKARSAGVAILAIRGSHHFAALWPDVEPFAEQGLVALSMVNSMTCVVPHGARQPLFGTNPIAFGAPRAGGEPIVFDLATSAIAHGDVQIAAREGRLLPAGMGVDRDGLPTQEPRAILDGGALLPFGGHKGSALSMMVELLAAGLTGGNFSFEFDWSKHPGAQTPWTGQLLIVIDPDKGAGQHFAQRSEELVRQLHGVGQERLPGDRRYLERARSMAHGIVIAQADLERLQELAGH 1wtl-a1-m1-cB_1wtl-a1-m2-cB COMPARISON OF CRYSTAL STRUCTURES OF TWO HOMOLOGOUS PROTEINS: STRUCTURAL ORIGIN OF ALTERED DOMAIN INTERACTIONS IN IMMUNOGLOBULIN LIGHT CHAIN DIMERS P01593 P01593 1.9 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 DIQMTQSPSSLSASVGDRVTITCRASQDITNYVNWFQQRPGQAPKVLIYGASILETGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCQQYDTLPLTFGGGTKVDIKR DIQMTQSPSSLSASVGDRVTITCRASQDITNYVNWFQQRPGQAPKVLIYGASILETGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCQQYDTLPLTFGGGTKVDIKR 1wtl-a1-m2-cA_1wtl-a1-m2-cB COMPARISON OF CRYSTAL STRUCTURES OF TWO HOMOLOGOUS PROTEINS: STRUCTURAL ORIGIN OF ALTERED DOMAIN INTERACTIONS IN IMMUNOGLOBULIN LIGHT CHAIN DIMERS P01593 P01593 1.9 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 1wtl-a1-m1-cA_1wtl-a1-m1-cB DIQMTQSPSSLSASVGDRVTITCRASQDITNYVNWFQQRPGQAPKVLIYGASILETGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCQQYDTLPLTFGGGTKVDIKR DIQMTQSPSSLSASVGDRVTITCRASQDITNYVNWFQQRPGQAPKVLIYGASILETGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCQQYDTLPLTFGGGTKVDIKR 1wtu-a1-m1-cA_1wtu-a1-m1-cB TRANSCRIPTION FACTOR 1, NMR, MINIMIZED AVERAGE STRUCTURE P04445 P04445 NOT SOLUTION NMR 243 1.0 10685 (Okubovirus SPO1) 10685 (Okubovirus SPO1) 99 99 MNKTELIKAIAQDTELTQVSVSKMLASFEKITTETVAKGDKVQLTGFLNIKPVARQARKGFNPQTQEALEIAPSVGVSVKPGESLKKAAEGLKYEDFAK MNKTELIKAIAQDTELTQVSVSKMLASFEKITTETVAKGDKVQLTGFLNIKPVARQARKGFNPQTQEALEIAPSVGVSVKPGESLKKAAEGLKYEDFAK 1wty-a1-m1-cB_1wty-a1-m1-cA Crystal structure of a probable nucleotidyl transferase protein from thermus thermophilus HB8 Q5SM95 Q5SM95 2.2 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 113 115 SLARAVERLKAALERPKDEFIRDSAIQRFEFTFELAWKTLKTFLELQGLEARSPRAAIRGAFQVGLLPEDPFWLELELRNLTNHTYDEALAERIYAELPKALERFQELLRRLE ASLARAVERLKAALERPKDEFIRDSAIQRFEFTFELAWKTLKTFLELQGLEARSPRAAIRGAFQVGLLPEDPFWLELELRNLTNHTYDEALAERIYAELPKALERFQELLRRLEE 1wty-a1-m1-cB_1wty-a1-m1-cD Crystal structure of a probable nucleotidyl transferase protein from thermus thermophilus HB8 Q5SM95 Q5SM95 2.2 X-RAY DIFFRACTION 20 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 113 113 1wty-a1-m1-cC_1wty-a1-m1-cA SLARAVERLKAALERPKDEFIRDSAIQRFEFTFELAWKTLKTFLELQGLEARSPRAAIRGAFQVGLLPEDPFWLELELRNLTNHTYDEALAERIYAELPKALERFQELLRRLE SLARAVERLKAALERPKDEFIRDSAIQRFEFTFELAWKTLKTFLELQGLEARSPRAAIRGAFQVGLLPEDPFWLELELRNLTNHTYDEALAERIYAELPKALERFQELLRRLE 1wu2-a1-m1-cB_1wu2-a1-m1-cA Crystal Structure of molybdopterin biosynthesis moeA protein from Pyrococcus horikoshii OT3 O59354 O59354 2.3 X-RAY DIFFRACTION 194 0.997 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 373 377 KLVPYREALKLLLDDINEIEDTEKVPLREAVGRVLAEDIVTEFDIPPFDRAAVDGYAIRAEDTFQAREYNPIELTVIEEVPAGNVAKEEVTTGKAIKVLTGTRIPKGANAVIQEVKREGDKIYVLRPVAPGQNIAFTGEDVKKGEVVLRKGTILRPQDVALKALGIKKVPVKVKPKVGIIITGSELIEEPSEEGFKEGKIVETNSILQGLVEKFFGEPILYGVLPDDESIIKETLEKAKNECDIVLITGFVNLLFHGTTIKPGRPFGYGEKVFISGYPVSVFAQFNLFVKHALAKVGAQNYEVKVKAILQDDIPSQLGRYEFIKIYYENGIARVIKKKGSGILSSLLASNAYLEIPEDSEGYRRGEEVWITLY KLVPYREALKLLLDDINEIEDTEKVPLREAVGRVLAEDIVTEFDIPPFDRAAVDGYAIRAEDTFQAREYNPIELTVIEEVPAGNVAKEEVTTGKAIKVLTGTRIPKGANAVIQEVKREGDKIYVLRPVAPGQNIAFTGEDVKKGEVVLRKGTILRPQDVALKALGIKKVPVKVKPKVGIIITGSELIEEPSEEGFKEGKIVETNSILQGLVEKFFGEPILYGVLPDDESIIKETLEKAKNECDIVLITDYAHKFVNLLFHGTTIKPGRPFGYGEKVFISGYPVSVFAQFNLFVKHALAKVGAQNYEVKVKAILQDDIPSQLGRYEFIKIYYENGIARVIKKKGSGILSSLLASNAYLEIPEDSEGYRRGEEVWITLY 1wu7-a1-m1-cB_1wu7-a1-m1-cA Crystal structure of histidyl-tRNA synthetase from Thermoplasma acidophilum Q9HLX5 Q9HLX5 2.4 X-RAY DIFFRACTION 210 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 407 411 QIEKIRGFRDFYPEDDVEKFIFKTAEEAAEAFGFRRIDFPSLEYLDLYRIKSGEELLQQTYSFVDKGGREVTLIPEATPSTVRVTSRKDLQRPLRWYSFPKVWRYEEPQAGRYREHYQFNADIFGSDSPEADAEVIALASSILDRLGLQDIYEIRINSRKIEEIIGGTSSDPFSVFSIIDRYHKISREEFVDQLRSAGIGEDGVSIADLCSGTRGIDEARITGKSSEEIARAAVEDLLASYGVKNVRYDFSIVRGLSYYTGIVFEAYDRSGQFRAILGGGRYDNLASLSGESVPAVGFGGDAVISLLLKRENVQIPREKKSVYICRVGKINSSINEYSRKLRERGNVTVEIERGLSAQLKYASAIGADFAVIFGERDLERGVVTIRNYTGSQENVGLDSVVEHLISQ RLQIEKIRGFRDFYPEDDVEKFIFKTAEEAAEAFGFRRIDFPSLEYLDLYRIKSGEELLQQTYSFVDKGGREVTLIPEATPSTVRVTSRKDLQRPLRWYSFPKVWRYEEPQAGRYREHYQFNADIFGSDSPEADAEVIALASSILDRLGLQDIYEIRINSRKIEEIIGGTSSDPFSVFSIIDRYHKISREEFVDQLRSAGIGEDGVSIADLCSGTRGIDEARITGKSSEEIARAAVEDLLASYGVKNVRYDFSIVRGLSYYTGIVFEAYDRSGQFRAILGGGRYDNLASLSGESVPAVGFGGDAVISLLLKRENVQIPREKKSVYICRVGKINSSINEYSRKLRERGNVTVEIERGLSAQLKYASAIGADFAVIFGERDLERGVVTIRNYTGSQENVGLDSVVEHLISQAT 1wu8-a1-m1-cC_1wu8-a1-m2-cC Crystal structure of project PH0463 from Pyrococcus horikoshii OT3 O58212 O58212 2.6 X-RAY DIFFRACTION 25 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 250 250 1wu8-a1-m1-cA_1wu8-a1-m2-cB 1wu8-a1-m1-cB_1wu8-a1-m2-cA ITLTTDFGLKGPYVGEKVALRINPNAKIVDVTHSVTRHSILEGSFVEQVVKYSPKGTVHVGVIDPGVGTERRAIVIEGDQYLVVPDNGLATLPLKHIKVKSVYEIIPDKIRKFTGWEISSTFHGRDIFGPAGALIEKGIHPEEFGREIPVDSIVKLNVEPRKEGDVWILKVIYIDDFGNVILNLENYEKPRTVELLDFNLRLPYLETYGLVEKGELALPGSHDYLEIAVNGSAAERLNVKVGDELRVRLL ITLTTDFGLKGPYVGEKVALRINPNAKIVDVTHSVTRHSILEGSFVEQVVKYSPKGTVHVGVIDPGVGTERRAIVIEGDQYLVVPDNGLATLPLKHIKVKSVYEIIPDKIRKFTGWEISSTFHGRDIFGPAGALIEKGIHPEEFGREIPVDSIVKLNVEPRKEGDVWILKVIYIDDFGNVILNLENYEKPRTVELLDFNLRLPYLETYGLVEKGELALPGSHDYLEIAVNGSAAERLNVKVGDELRVRLL 1wu8-a2-m1-cB_1wu8-a2-m1-cC Crystal structure of project PH0463 from Pyrococcus horikoshii OT3 O58212 O58212 2.6 X-RAY DIFFRACTION 93 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 250 250 1wu8-a1-m1-cA_1wu8-a1-m1-cB 1wu8-a1-m1-cA_1wu8-a1-m1-cC 1wu8-a1-m1-cB_1wu8-a1-m1-cC 1wu8-a1-m2-cA_1wu8-a1-m2-cB 1wu8-a1-m2-cA_1wu8-a1-m2-cC 1wu8-a1-m2-cB_1wu8-a1-m2-cC 1wu8-a2-m1-cA_1wu8-a2-m1-cB 1wu8-a2-m1-cA_1wu8-a2-m1-cC 2wr8-a1-m1-cA_2wr8-a1-m2-cA 2wr8-a1-m1-cA_2wr8-a1-m3-cA 2wr8-a1-m2-cA_2wr8-a1-m3-cA ITLTTDFGLKGPYVGEKVALRINPNAKIVDVTHSVTRHSILEGSFVEQVVKYSPKGTVHVGVIDPGVGTERRAIVIEGDQYLVVPDNGLATLPLKHIKVKSVYEIIPDKIRKFTGWEISSTFHGRDIFGPAGALIEKGIHPEEFGREIPVDSIVKLNVEPRKEGDVWILKVIYIDDFGNVILNLENYEKPRTVELLDFNLRLPYLETYGLVEKGELALPGSHDYLEIAVNGSAAERLNVKVGDELRVRLL ITLTTDFGLKGPYVGEKVALRINPNAKIVDVTHSVTRHSILEGSFVEQVVKYSPKGTVHVGVIDPGVGTERRAIVIEGDQYLVVPDNGLATLPLKHIKVKSVYEIIPDKIRKFTGWEISSTFHGRDIFGPAGALIEKGIHPEEFGREIPVDSIVKLNVEPRKEGDVWILKVIYIDDFGNVILNLENYEKPRTVELLDFNLRLPYLETYGLVEKGELALPGSHDYLEIAVNGSAAERLNVKVGDELRVRLL 1wud-a1-m1-cB_1wud-a1-m1-cD E. coli RecQ HRDC domain P15043 P15043 2.2 X-RAY DIFFRACTION 34 1.0 562 (Escherichia coli) 562 (Escherichia coli) 71 71 1wud-a1-m1-cD_1wud-a1-m1-cA YDRKLFAKLRKLRKSIADESNVPPYVVFNDATLIEAEQPITASELSVNGVGRKLERFGKPFALIRAHVDGD YDRKLFAKLRKLRKSIADESNVPPYVVFNDATLIEAEQPITASELSVNGVGRKLERFGKPFALIRAHVDGD 1wue-a1-m1-cB_1wue-a1-m1-cA Crystal structure of protein GI:29375081, unknown member of enolase superfamily from enterococcus faecalis V583 Q838J7 Q838J7 2.1 X-RAY DIFFRACTION 85 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 369 370 SHMNIQSIETYQVRLPLKTPFVTSYGRLEEKAFDLFVITDEQGNQGFGELVAFEQPDYVQETLVTERFIIQQHLIPLLLTEAIEQPQEVSTIFEEVKGHWMGKAALETAIWDLYAKRQQKSLTEFFGPTRRKIPVGISLGIQEDLPQLLKQVQLAVEKGYQRVKLKIRPGYDVEPVALIRQHFPNLPLMVDANSAYTLADLPQLQRLDHYQLAMIEQPFAADDFLDHAQLQRELKTRICLDENIRSLKDCQVALALGSCRSINLKIPRVGGIHEALKIAAFCQENDLLVWLGGMFESGVGRALNLQFASQPTFSFPGDISATERYFYEDIITEPFILEQGTMTVPQGLGIGVTLSQTNLLKYSQYQKIM GSHMNIQSIETYQVRLPLKTPFVTSYGRLEEKAFDLFVITDEQGNQGFGELVAFEQPDYVQETLVTERFIIQQHLIPLLLTEAIEQPQEVSTIFEEVKGHWMGKAALETAIWDLYAKRQQKSLTEFFGPTRRKIPVGISLGIQEDLPQLLKQVQLAVEKGYQRVKLKIRPGYDVEPVALIRQHFPNLPLMVDANSAYTLADLPQLQRLDHYQLAMIEQPFAADDFLDHAQLQRELKTRICLDENIRSLKDCQVALALGSCRSINLKIPRVGGIHEALKIAAFCQENDLLVWLGGMFESGVGRALNLQFASQPTFSFPGDISATERYFYEDIITEPFILEQGTMTVPQGLGIGVTLSQTNLLKYSQYQKIM 1wuf-a1-m1-cA_1wuf-a1-m1-cB Crystal structure of protein GI:16801725, member of Enolase superfamily from Listeria innocua Clip11262 Q927X3 Q927X3 2.9 X-RAY DIFFRACTION 84 1.0 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 371 371 HMYFQKARLIHAELPLLAPFKTSYGELKSKDFYIIELINEEGIHGYGELEAFPLPDYTEETLSSAILIIKEQLLPLLAQRKIRKPEEIQELFSWIQGNEMAKAAVELAVWDAFAKMEKRSLAKMIGATKESIKVGVSIGLQQNVETLLQLVNQYVDQGYERVKLKIAPNKDIQFVEAVRKSFPKLSLMADANSAYNREDFLLLKELDQYDLEMIEQPFGTKDFVDHAWLQKQLKTRICLDENIRSVKDVEQAHSIGSCRAINLKLARVGGMSSALKIAEYCALNEILVWCGGMLEAGVGRAHNIALAARNEFVFPGDISASNRFFAEDIVTPAFELNQGRLKVPTNEGIGVTLDLKVLKKYTKSTEEILLN HMYFQKARLIHAELPLLAPFKTSYGELKSKDFYIIELINEEGIHGYGELEAFPLPDYTEETLSSAILIIKEQLLPLLAQRKIRKPEEIQELFSWIQGNEMAKAAVELAVWDAFAKMEKRSLAKMIGATKESIKVGVSIGLQQNVETLLQLVNQYVDQGYERVKLKIAPNKDIQFVEAVRKSFPKLSLMADANSAYNREDFLLLKELDQYDLEMIEQPFGTKDFVDHAWLQKQLKTRICLDENIRSVKDVEQAHSIGSCRAINLKLARVGGMSSALKIAEYCALNEILVWCGGMLEAGVGRAHNIALAARNEFVFPGDISASNRFFAEDIVTPAFELNQGRLKVPTNEGIGVTLDLKVLKKYTKSTEEILLN 1wur-a1-m2-cC_1wur-a1-m2-cD Structure of GTP cyclohydrolase I Complexed with 8-oxo-dGTP Q5SH52 Q5SH52 1.82 X-RAY DIFFRACTION 69 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 185 185 1wm9-a1-m1-cA_1wm9-a1-m1-cB 1wm9-a1-m1-cB_1wm9-a1-m1-cC 1wm9-a1-m1-cC_1wm9-a1-m1-cD 1wm9-a1-m1-cE_1wm9-a1-m1-cA 1wm9-a1-m1-cE_1wm9-a1-m1-cD 1wm9-a1-m2-cA_1wm9-a1-m2-cB 1wm9-a1-m2-cB_1wm9-a1-m2-cC 1wm9-a1-m2-cC_1wm9-a1-m2-cD 1wm9-a1-m2-cE_1wm9-a1-m2-cA 1wm9-a1-m2-cE_1wm9-a1-m2-cD 1wuq-a1-m1-cA_1wuq-a1-m1-cB 1wuq-a1-m1-cA_1wuq-a1-m1-cE 1wuq-a1-m1-cB_1wuq-a1-m1-cC 1wuq-a1-m1-cC_1wuq-a1-m1-cD 1wuq-a1-m1-cD_1wuq-a1-m1-cE 1wuq-a1-m2-cA_1wuq-a1-m2-cB 1wuq-a1-m2-cA_1wuq-a1-m2-cE 1wuq-a1-m2-cB_1wuq-a1-m2-cC 1wuq-a1-m2-cC_1wuq-a1-m2-cD 1wuq-a1-m2-cD_1wuq-a1-m2-cE 1wur-a1-m1-cA_1wur-a1-m1-cB 1wur-a1-m1-cB_1wur-a1-m1-cC 1wur-a1-m1-cC_1wur-a1-m1-cD 1wur-a1-m1-cE_1wur-a1-m1-cA 1wur-a1-m1-cE_1wur-a1-m1-cD 1wur-a1-m2-cA_1wur-a1-m2-cB 1wur-a1-m2-cB_1wur-a1-m2-cC 1wur-a1-m2-cE_1wur-a1-m2-cA 1wur-a1-m2-cE_1wur-a1-m2-cD EVDLERLQALAAEWLQVIGEDPGREGLLKTPERVAKAWAFLTRGYRQRLEEVVGGAVFPAEGSEMVVVKGVEFYSMCEHHLLPFFGKVHIGYIPDGKILGLSKFARIVDMFARRLQVQERLAVQIAEAIQEVLEPQGVGVVVEGVHLCMMMRGVEKQHSRTVTSAMLGVFRENQKTREEFLSHLR EVDLERLQALAAEWLQVIGEDPGREGLLKTPERVAKAWAFLTRGYRQRLEEVVGGAVFPAEGSEMVVVKGVEFYSMCEHHLLPFFGKVHIGYIPDGKILGLSKFARIVDMFARRLQVQERLAVQIAEAIQEVLEPQGVGVVVEGVHLCMMMRGVEKQHSRTVTSAMLGVFRENQKTREEFLSHLR 1wur-a1-m2-cE_1wur-a1-m1-cA Structure of GTP cyclohydrolase I Complexed with 8-oxo-dGTP Q5SH52 Q5SH52 1.82 X-RAY DIFFRACTION 120 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 184 185 1wm9-a1-m1-cB_1wm9-a1-m2-cD 1wm9-a1-m1-cC_1wm9-a1-m2-cC 1wm9-a1-m1-cD_1wm9-a1-m2-cB 1wm9-a1-m1-cE_1wm9-a1-m2-cA 1wm9-a1-m2-cE_1wm9-a1-m1-cA 1wuq-a1-m1-cA_1wuq-a1-m2-cE 1wuq-a1-m1-cB_1wuq-a1-m2-cD 1wuq-a1-m1-cC_1wuq-a1-m2-cC 1wuq-a1-m1-cD_1wuq-a1-m2-cB 1wuq-a1-m1-cE_1wuq-a1-m2-cA 1wur-a1-m1-cB_1wur-a1-m2-cD 1wur-a1-m1-cC_1wur-a1-m2-cC 1wur-a1-m1-cD_1wur-a1-m2-cB 1wur-a1-m1-cE_1wur-a1-m2-cA VDLERLQALAAEWLQVIGEDPGREGLLKTPERVAKAWAFLTRGYRQRLEEVVGGAVFPAEGSEMVVVKGVEFYSMCEHHLLPFFGKVHIGYIPDGKILGLSKFARIVDMFARRLQVQERLAVQIAEAIQEVLEPQGVGVVVEGVHLCMMMRGVEKQHSRTVTSAMLGVFRENQKTREEFLSHLR EVDLERLQALAAEWLQVIGEDPGREGLLKTPERVAKAWAFLTRGYRQRLEEVVGGAVFPAEGSEMVVVKGVEFYSMCEHHLLPFFGKVHIGYIPDGKILGLSKFARIVDMFARRLQVQERLAVQIAEAIQEVLEPQGVGVVVEGVHLCMMMRGVEKQHSRTVTSAMLGVFRENQKTREEFLSHLR 1wuw-a1-m1-cA_1wuw-a1-m1-cB Crystal Structure of beta hordothionin P21742 P21742 1.9 X-RAY DIFFRACTION 46 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 45 45 KSCCRSTLGRNCYNLCRVRGAQKLCANACRCKLTSGLKCPSSFPK KSCCRSTLGRNCYNLCRVRGAQKLCANACRCKLTSGLKCPSSFPK 1wv2-a2-m1-cB_1wv2-a2-m2-cB Crystal structure of thiamine biosynthesis protein from Pseudomonas Aeruginosa Q9I6B4 Q9I6B4 2.9 X-RAY DIFFRACTION 148 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 223 223 1wv2-a2-m1-cA_1wv2-a2-m2-cA TPFVIAGRTYGSRLLVGTGKYKDLDETRRAIEASGAEIVTVAVRRYTILPNTAGCYDAVEAVRTCRLARELLDGHNLVKLEVLADQKTLFPNVVETLKAAEQLVKDGFDVMVYTSDDPIIARQLAEIGCIAVMPLAGLIGSGLGICNPYNLRIILEEAKVPVLVDAGVGTASDAAIAMELGCEAVLMNTAIAHAKDPVMMAEAMKHAIVAGRLAYLAGRMPRK TPFVIAGRTYGSRLLVGTGKYKDLDETRRAIEASGAEIVTVAVRRYTILPNTAGCYDAVEAVRTCRLARELLDGHNLVKLEVLADQKTLFPNVVETLKAAEQLVKDGFDVMVYTSDDPIIARQLAEIGCIAVMPLAGLIGSGLGICNPYNLRIILEEAKVPVLVDAGVGTASDAAIAMELGCEAVLMNTAIAHAKDPVMMAEAMKHAIVAGRLAYLAGRMPRK 1wv2-a2-m2-cB_1wv2-a2-m2-cA Crystal structure of thiamine biosynthesis protein from Pseudomonas Aeruginosa Q9I6B4 Q9I6B4 2.9 X-RAY DIFFRACTION 58 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 223 230 1wv2-a1-m1-cB_1wv2-a1-m1-cA 1wv2-a2-m1-cB_1wv2-a2-m1-cA TPFVIAGRTYGSRLLVGTGKYKDLDETRRAIEASGAEIVTVAVRRYTILPNTAGCYDAVEAVRTCRLARELLDGHNLVKLEVLADQKTLFPNVVETLKAAEQLVKDGFDVMVYTSDDPIIARQLAEIGCIAVMPLAGLIGSGLGICNPYNLRIILEEAKVPVLVDAGVGTASDAAIAMELGCEAVLMNTAIAHAKDPVMMAEAMKHAIVAGRLAYLAGRMPRK TPFVIAGRTYGSRLLVGTGKYKDLDETRRAIEASGAEIVTVAVRRTNIPPDRYTILPNTAGCYDAVEAVRTCRLARELLDGHNLVKLEVLADQKTLFPNVVETLKAAEQLVKDGFDVMVYTSDDPIIARQLAEIGCIAVMPLAGLIGSGLGICNPYNLRIILEEAKVPVLVDAGVGTASDAAIAMELGCEAVLMNTAIAHAKDPVMMAEAMKHAIVAGRLAYLAGRMPRK 1wv8-a1-m1-cA_1wv8-a1-m2-cA Crystal structure of hypothetical protein TTHA1013 from an extremely thermophilic bacterium thermus thermophilus HB8 Q5SJJ5 Q5SJJ5 2.2 X-RAY DIFFRACTION 82 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 70 70 RTLKVQALWDGEAGVWVAESDDVPGLATEAATLEELLAKLAVVPELLEENGVALELPVELRLEATRPLVF RTLKVQALWDGEAGVWVAESDDVPGLATEAATLEELLAKLAVVPELLEENGVALELPVELRLEATRPLVF 1wv9-a1-m1-cB_1wv9-a1-m1-cA Crystal Structure of Rhodanese Homolog TT1651 from an Extremely Thermophilic Bacterium Thermus thermophilus HB8 Q5SKN0 Q5SKN0 2 X-RAY DIFFRACTION 25 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 84 86 RKVRPEELPALLEEGVLVVDVRPASTPLPFAAEWVPLEKIQKGEHGLPRRPLLLVCEKGLLSQVAALYLEAEGYEASLEGGLQA RKVRPEELPALLEEGVLVVDVRPARSTPLPFAAEWVPLEKIQKGEHGLPRRPLLLVCEKGLLSQVAALYLEAEGYEASLEGGLQAL 1wvf-a1-m1-cA_1wvf-a1-m2-cA p-Cresol Methylhydroxylase: Alteration of the Structure of the Flavoprotein Subunit upon its Binding to the Cytochrome Subunit P09788 P09788 1.3 X-RAY DIFFRACTION 283 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 515 515 1dii-a1-m1-cA_1dii-a1-m1-cB 1diq-a1-m1-cA_1diq-a1-m1-cB 1wve-a1-m1-cA_1wve-a1-m1-cB AVLPKGVTQGEFNKAVQKFRALLGDDNVLVESDQLVPYNKIMMPVENAAHAPSAAVTATTVEQVQGVVKICNEHKIPIWTISTGRNFGYGSAAPVQRGQVILDLKKMNKIIKIDPEMCYALVEPGVTFGQMYDYIQENNLPVMLSFSAPSAIAGPVGNTMDRGVGYTPYGEHFMMQCGMEVVLANGDVYRTGMGGVPGSNTWQIFKWGYGPTLDGMFTQANYGICTKMGFWLMPKPPVFKPFEVIFEDEADIVEIVDALRPLRMSNTIPNSVVIASTLWEAGSAHLTRAQYTTEPGHTPDSVIKQMQKDTGMGAWNLYAALYGTQEQVDVNWKIVTDVFKKLGKGRIVTQEEAGDTQPFKYRAQLMSGVPNLQEFGLYNWRGGGGSMWFAPVSEARGSECKKQAAMAKRVLHKYGLDYVAEFIVAPRDMHHVIDVLYDRTNPEETKRADACFNELLDEFEKEGYAVYRVNTRFQDRVAQSYGPVKRKLEHAIKRAVDPNNILAPGRSGIDLNNDF AVLPKGVTQGEFNKAVQKFRALLGDDNVLVESDQLVPYNKIMMPVENAAHAPSAAVTATTVEQVQGVVKICNEHKIPIWTISTGRNFGYGSAAPVQRGQVILDLKKMNKIIKIDPEMCYALVEPGVTFGQMYDYIQENNLPVMLSFSAPSAIAGPVGNTMDRGVGYTPYGEHFMMQCGMEVVLANGDVYRTGMGGVPGSNTWQIFKWGYGPTLDGMFTQANYGICTKMGFWLMPKPPVFKPFEVIFEDEADIVEIVDALRPLRMSNTIPNSVVIASTLWEAGSAHLTRAQYTTEPGHTPDSVIKQMQKDTGMGAWNLYAALYGTQEQVDVNWKIVTDVFKKLGKGRIVTQEEAGDTQPFKYRAQLMSGVPNLQEFGLYNWRGGGGSMWFAPVSEARGSECKKQAAMAKRVLHKYGLDYVAEFIVAPRDMHHVIDVLYDRTNPEETKRADACFNELLDEFEKEGYAVYRVNTRFQDRVAQSYGPVKRKLEHAIKRAVDPNNILAPGRSGIDLNNDF 1wvg-a1-m1-cB_1wvg-a1-m2-cB Structure of CDP-D-glucose 4,6-dehydratase from Salmonella typhi P26397 P26397 1.8 X-RAY DIFFRACTION 31 1.0 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 350 350 1wvg-a1-m1-cA_1wvg-a1-m2-cA SIDKNFWQGKRVFVTGHTGFKGSWLSLWLTEMGAIVKGYALDAPTVPSLFEIVRLNDLMESHIGDIRDFEKLRSSIAEFKPEIVFHMAAQPLVRLSYEQPIKTYSTNVMGTVHLLETVKQVGNIKAVVNITSDKCYDNREWVWGYRENEPMGGYDPYSNSKGCAELVASAFRNSFFNPANQHGVGLASVRAGNVIGGGDWAKDRLIPDILRSFENNQQVIIRNPYSIRPWQHVLEPLSGYIVVAQRLYTEGAKFSEGWNFGPRDEDAKTVEFIVDKMVTLWGDASWLLDGENHPHHYLKLDCSKANMQLGWHPRWGLTETLSRIVKWHKAWIRGEDMLICSKREISDYMS SIDKNFWQGKRVFVTGHTGFKGSWLSLWLTEMGAIVKGYALDAPTVPSLFEIVRLNDLMESHIGDIRDFEKLRSSIAEFKPEIVFHMAAQPLVRLSYEQPIKTYSTNVMGTVHLLETVKQVGNIKAVVNITSDKCYDNREWVWGYRENEPMGGYDPYSNSKGCAELVASAFRNSFFNPANQHGVGLASVRAGNVIGGGDWAKDRLIPDILRSFENNQQVIIRNPYSIRPWQHVLEPLSGYIVVAQRLYTEGAKFSEGWNFGPRDEDAKTVEFIVDKMVTLWGDASWLLDGENHPHHYLKLDCSKANMQLGWHPRWGLTETLSRIVKWHKAWIRGEDMLICSKREISDYMS 1wvg-a1-m2-cB_1wvg-a1-m2-cA Structure of CDP-D-glucose 4,6-dehydratase from Salmonella typhi P26397 P26397 1.8 X-RAY DIFFRACTION 100 0.986 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 350 352 1wvg-a1-m1-cB_1wvg-a1-m1-cA SIDKNFWQGKRVFVTGHTGFKGSWLSLWLTEMGAIVKGYALDAPTVPSLFEIVRLNDLMESHIGDIRDFEKLRSSIAEFKPEIVFHMAAQPLVRLSYEQPIKTYSTNVMGTVHLLETVKQVGNIKAVVNITSDKCYDNREWVWGYRENEPMGGYDPYSNSKGCAELVASAFRNSFFNPANQHGVGLASVRAGNVIGGGDWAKDRLIPDILRSFENNQQVIIRNPYSIRPWQHVLEPLSGYIVVAQRLYTEGAKFSEGWNFGPRDEDAKTVEFIVDKMVTLWGDASWLLDGENHPHHYLKLDCSKANMQLGWHPRWGLTETLSRIVKWHKAWIRGEDMLICSKREISDYMS SIDKNFWQGKRVFVTGHTGFKGSWLSLWLTEMGAIVKGYALDAPTVPSLFEIVRLNDLMESHIGDIRDFEKLRSSIAEFKPEIVFHMAAQPLVRLSYEQPIKTYSTNVMGTVHLLETVKQVGNIKAVVNITSDKCYDNREWVWGYRENEPMGGYDPYSNSKGCAELVASAFRNSFFNPANYEQHGVGLASVRAGNVIGGGDWAKDRLIPDILRSFENNQQVIIRNPYSIRPWQHVLEPLSGYIVVAQRLYTEGAKFSEGWNFGPRDEDAKTVEFIVDKMVTLWGDDASWLLDPHEAHYLKLDCSKANMQLGWHPRWGLTETLSRIVKWHKAWIRGEDMLICSKREISDYMSA 1wvi-a1-m1-cA_1wvi-a1-m1-cD Crystal structure of putative phosphatase from Streptococcus mutans UA159 Q8DTD6 Q8DTD6 2.3 X-RAY DIFFRACTION 76 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 253 253 1wvi-a1-m1-cB_1wvi-a1-m1-cC TYKGYLIDLDGTIYKGKDRIPAGEDFVKRLQERQLPYILVTNNTTRTPEMVQEMLATSFNIKTPLETIYTATLATIDYMNDMKRGKTAYVIGETGLKKAVAEAGYREDSENPAYVVVGLDTNLTYEKLTLATLAIQKGAVFIGTNPDLNIPTERGLLPGAGAILFLLEKATRVKPIIIGKPEAVIMNKALDRLGVKRHEAIMVGDNYLTDITAGIKNDIATLLVTTGFTKPEEVPALPIQPDFVLSSLAEWDF TYKGYLIDLDGTIYKGKDRIPAGEDFVKRLQERQLPYILVTNNTTRTPEMVQEMLATSFNIKTPLETIYTATLATIDYMNDMKRGKTAYVIGETGLKKAVAEAGYREDSENPAYVVVGLDTNLTYEKLTLATLAIQKGAVFIGTNPDLNIPTERGLLPGAGAILFLLEKATRVKPIIIGKPEAVIMNKALDRLGVKRHEAIMVGDNYLTDITAGIKNDIATLLVTTGFTKPEEVPALPIQPDFVLSSLAEWDF 1wvi-a1-m1-cB_1wvi-a1-m1-cD Crystal structure of putative phosphatase from Streptococcus mutans UA159 Q8DTD6 Q8DTD6 2.3 X-RAY DIFFRACTION 55 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 253 253 1wvi-a1-m1-cA_1wvi-a1-m1-cC TYKGYLIDLDGTIYKGKDRIPAGEDFVKRLQERQLPYILVTNNTTRTPEMVQEMLATSFNIKTPLETIYTATLATIDYMNDMKRGKTAYVIGETGLKKAVAEAGYREDSENPAYVVVGLDTNLTYEKLTLATLAIQKGAVFIGTNPDLNIPTERGLLPGAGAILFLLEKATRVKPIIIGKPEAVIMNKALDRLGVKRHEAIMVGDNYLTDITAGIKNDIATLLVTTGFTKPEEVPALPIQPDFVLSSLAEWDF TYKGYLIDLDGTIYKGKDRIPAGEDFVKRLQERQLPYILVTNNTTRTPEMVQEMLATSFNIKTPLETIYTATLATIDYMNDMKRGKTAYVIGETGLKKAVAEAGYREDSENPAYVVVGLDTNLTYEKLTLATLAIQKGAVFIGTNPDLNIPTERGLLPGAGAILFLLEKATRVKPIIIGKPEAVIMNKALDRLGVKRHEAIMVGDNYLTDITAGIKNDIATLLVTTGFTKPEEVPALPIQPDFVLSSLAEWDF 1wvl-a1-m1-cA_1wvl-a1-m2-cB Crystal Structure of Multimeric DNA-binding Protein Sac7d-GCN4 with DNA decamer P13123 P13123 2.6 X-RAY DIFFRACTION 22 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 80 80 1wvl-a1-m1-cB_1wvl-a1-m2-cA MVKVKFKYKGEEKEVDTSKIKKVWRVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDMLARAEREKKGVLKKLRAVENELH MVKVKFKYKGEEKEVDTSKIKKVWRVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDMLARAEREKKGVLKKLRAVENELH 1wvl-a1-m1-cB_1wvl-a1-m2-cB Crystal Structure of Multimeric DNA-binding Protein Sac7d-GCN4 with DNA decamer P13123 P13123 2.6 X-RAY DIFFRACTION 13 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 80 80 1wvl-a1-m1-cA_1wvl-a1-m2-cA MVKVKFKYKGEEKEVDTSKIKKVWRVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDMLARAEREKKGVLKKLRAVENELH MVKVKFKYKGEEKEVDTSKIKKVWRVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDMLARAEREKKGVLKKLRAVENELH 1wvl-a1-m2-cA_1wvl-a1-m2-cB Crystal Structure of Multimeric DNA-binding Protein Sac7d-GCN4 with DNA decamer P13123 P13123 2.6 X-RAY DIFFRACTION 39 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 80 80 1wvl-a1-m1-cA_1wvl-a1-m1-cB MVKVKFKYKGEEKEVDTSKIKKVWRVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDMLARAEREKKGVLKKLRAVENELH MVKVKFKYKGEEKEVDTSKIKKVWRVGKMVSFTYDDNGKTGRGAVSEKDAPKELLDMLARAEREKKGVLKKLRAVENELH 1wvm-a2-m1-cA_1wvm-a2-m1-cB Crystal Structure of Psychrophilic Subtilisin-like Serine Protease APA1 from Antarctic Psychrotroph Pseudoaleromonas sp. AS-11, Complexed with Inhibitor Chymostatin Q65Z69 Q65Z69 1.6 X-RAY DIFFRACTION 52 1.0 247492 (Pseudoalteromonas sp. AS-11) 247492 (Pseudoalteromonas sp. AS-11) 435 436 1v6c-a3-m1-cA_1v6c-a3-m1-cB 1wvm-a1-m1-cA_1wvm-a1-m1-cB 1wvm-a1-m1-cC_1wvm-a1-m1-cA 1wvm-a1-m1-cD_1wvm-a1-m1-cB 1wvm-a3-m1-cD_1wvm-a3-m1-cB 1wvm-a4-m1-cC_1wvm-a4-m1-cA AETTPWGQTFVGATVLSDSQAGNRTICIIDSGYDRSHNDLNANNVTGTNNSGTGNWYQPGNNNAHGTHVAGTIAAIANNEGVVGVMPNQNANIHIVKVFNEAGWGYSSSLVAAIDTCVNSGGANVVTMSLGGSGSTTTERNALNTHYNNGVLLIAAAGNAGDSSYSYPASYDSVMSVAAVDSNLDHAAFSQYTDQVEISGPGEAILSTVTVGEGRLADITIGGQSYFSNGVVPHNRLTPSGTSYAPAPINASATGALAECTVNGTSFSCGNMANKICLVERVGNQGSSYPEINSTKACKTAGAKGIIVYSNSALPGLQNPFLVDANSDITVPSVSVDRATGLALKAKLGQSTTVSNQGNQDYEYYNGTSMATPHVSGVATLVWSYHPECSASQVRAALNATADDLSVAGRDNQTGYGMINAVAAKAYLDESCTGP AETTPWGQTFVGATVLSDSQAGNRTICIIDSGYDRSHNDLNANNVTGTNNSGTGNWYQPGNNNAHGTHVAGTIAAIANNEGVVGVMPNQNANIHIVKVFNEAGWGYSSSLVAAIDTCVNSGGANVVTMSLGGSGSTTTERNALNTHYNNGVLLIAAAGNAGDSSYSYPASYDSVMSVAAVDSNLDHAAFSQYTDQVEISGPGEAILSTVTVGEGRLADITIGGQSYFSNGVVPHNRLTPSGTSYAPAPINASATGALAECTVNGTSFSCGNMANKICLVERVGNQGSSYPEINSTKACKTAGAKGIIVYSNSALPGLQNPFLVDANSDITVPSVSVDRATGLALKAKLGQSTTVSNQGNQDYEYYNGTSMATPHVSGVATLVWSYHPECSASQVRAALNATADDLSVAGRDNQTGYGMINAVAAKAYLDESCTGPT 1wvq-a1-m1-cC_1wvq-a1-m2-cC Structure of conserved hypothetical protein PAE2307 from Pyrobaculum aerophilum Q8ZVF7 Q8ZVF7 1.45 X-RAY DIFFRACTION 45 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 161 161 1wvq-a1-m1-cA_1wvq-a1-m2-cB 1wvq-a1-m1-cB_1wvq-a1-m2-cA 2gl0-a1-m1-cB_2gl0-a1-m1-cE 2gl0-a1-m1-cC_2gl0-a1-m1-cD 2gl0-a1-m1-cF_2gl0-a1-m1-cA 2jb7-a1-m1-cA_2jb7-a1-m2-cB 2jb7-a1-m1-cB_2jb7-a1-m2-cA 2jb7-a1-m1-cC_2jb7-a1-m2-cC IKFELIDVPIPQGTNVIIGQAHFIKTVEDLYEALVTSVPGVKFGIAFCEASGKRLVRHEANDEELRNLAIDLCKKIAAGVFVIYIRNAWPINVLNAIKNVPEVVRIFAATANPLKVIVAEVEPERRGVVGVVDGHSPLGVETEKDREERKKFLREVVKYKL IKFELIDVPIPQGTNVIIGQAHFIKTVEDLYEALVTSVPGVKFGIAFCEASGKRLVRHEANDEELRNLAIDLCKKIAAGVFVIYIRNAWPINVLNAIKNVPEVVRIFAATANPLKVIVAEVEPERRGVVGVVDGHSPLGVETEKDREERKKFLREVVKYKL 1wvq-a1-m2-cC_1wvq-a1-m2-cB Structure of conserved hypothetical protein PAE2307 from Pyrobaculum aerophilum Q8ZVF7 Q8ZVF7 1.45 X-RAY DIFFRACTION 122 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 161 162 1wvq-a1-m1-cA_1wvq-a1-m1-cB 1wvq-a1-m1-cC_1wvq-a1-m1-cA 1wvq-a1-m1-cC_1wvq-a1-m1-cB 1wvq-a1-m2-cA_1wvq-a1-m2-cB 1wvq-a1-m2-cC_1wvq-a1-m2-cA 2gl0-a1-m1-cA_2gl0-a1-m1-cB 2gl0-a1-m1-cC_2gl0-a1-m1-cA 2gl0-a1-m1-cC_2gl0-a1-m1-cB 2gl0-a1-m1-cD_2gl0-a1-m1-cE 2gl0-a1-m1-cF_2gl0-a1-m1-cD 2gl0-a1-m1-cF_2gl0-a1-m1-cE 2jb7-a1-m1-cA_2jb7-a1-m1-cB 2jb7-a1-m1-cC_2jb7-a1-m1-cA 2jb7-a1-m1-cC_2jb7-a1-m1-cB 2jb7-a1-m2-cA_2jb7-a1-m2-cB 2jb7-a1-m2-cC_2jb7-a1-m2-cA 2jb7-a1-m2-cC_2jb7-a1-m2-cB IKFELIDVPIPQGTNVIIGQAHFIKTVEDLYEALVTSVPGVKFGIAFCEASGKRLVRHEANDEELRNLAIDLCKKIAAGVFVIYIRNAWPINVLNAIKNVPEVVRIFAATANPLKVIVAEVEPERRGVVGVVDGHSPLGVETEKDREERKKFLREVVKYKL SIKFELIDVPIPQGTNVIIGQAHFIKTVEDLYEALVTSVPGVKFGIAFCEASGKRLVRHEANDEELRNLAIDLCKKIAAGVFVIYIRNAWPINVLNAIKNVPEVVRIFAATANPLKVIVAEVEPERRGVVGVVDGHSPLGVETEKDREERKKFLREVVKYKL 1wvr-a2-m1-cA_1wvr-a2-m2-cA Crystal Structure of a CRISP family Ca-channel blocker derived from snake venom Q8JI39 Q8JI39 2.4 X-RAY DIFFRACTION 41 1.0 88087 (Protobothrops flavoviridis) 88087 (Protobothrops flavoviridis) 221 221 NVDFDSESPRKPEIQNEIIDLHNSLRRSVNPTASNMLKMEWYPEAAANAERWAYRCIESHSSRDSRVIGGIKCGENIYMATYPAKWTDIIHAWHGEYKDFKYGVGAVPSDAVIGHYTQIVWYKSYRAGCAAAYCPSSKYSYFYVCQYCPAGNIIGKTATPYKSGPPCGDCPSDCDNGLCTNPCTRENEFTNCDSLVQKSSCQDNYMKSKCPASCFCQNKII NVDFDSESPRKPEIQNEIIDLHNSLRRSVNPTASNMLKMEWYPEAAANAERWAYRCIESHSSRDSRVIGGIKCGENIYMATYPAKWTDIIHAWHGEYKDFKYGVGAVPSDAVIGHYTQIVWYKSYRAGCAAAYCPSSKYSYFYVCQYCPAGNIIGKTATPYKSGPPCGDCPSDCDNGLCTNPCTRENEFTNCDSLVQKSSCQDNYMKSKCPASCFCQNKII 1wvt-a1-m1-cC_1wvt-a1-m1-cB Crystal structure of uncharacterized protein ST2180 from Sulfolobus tokodaii Q96YJ2 Q96YJ2 2.3 X-RAY DIFFRACTION 62 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 145 146 1wvt-a1-m1-cB_1wvt-a1-m1-cA 1wvt-a1-m1-cC_1wvt-a1-m1-cA DSEIVKALGDLDELNSVLGVVSSLYPELSEVIQKLQNDIFSISSEIAGFDNFSDEKVKGIEELITNYSKELEPLRNFVLPGGHIASSFLHLARAVCRRAERSVVTLLKESKAKEVHAKYLNRLSSLLFVLALVVNKRTNNPNVIW DSEIVKALGDLDELNSVLGVVSSLYPELSEVIQKLQNDIFSISSEIAGFDNFSDEKVKGIEELITNYSKELEPLRNFVLPGGHIASSFLHLARAVCRRAERSVVTLLKESKAKEVHAKYLNRLSSLLFVLALVVNKRTNNPNVIWR 1wvv-a2-m1-cA_1wvv-a2-m3-cB Crystal structure of chitinase C mutant E147Q O50152 O50152 2 X-RAY DIFFRACTION 24 0.986 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 209 253 1wvu-a2-m1-cA_1wvu-a2-m3-cB 1wvu-a2-m2-cA_1wvu-a2-m1-cB 1wvu-a2-m3-cA_1wvu-a2-m2-cB 1wvv-a2-m2-cA_1wvv-a2-m1-cB 1wvv-a2-m3-cA_1wvv-a2-m2-cB GGNNGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC CATAWSSSSVYTNGGTVSYNGRNYTAKWWTQNERPGTSDVWADKGACGGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC 1wvv-a2-m2-cA_1wvv-a2-m3-cA Crystal structure of chitinase C mutant E147Q O50152 O50152 2 X-RAY DIFFRACTION 34 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 209 209 1wvu-a2-m1-cA_1wvu-a2-m2-cA 1wvu-a2-m1-cA_1wvu-a2-m3-cA 1wvu-a2-m2-cA_1wvu-a2-m3-cA 1wvv-a2-m1-cA_1wvv-a2-m2-cA 1wvv-a2-m1-cA_1wvv-a2-m3-cA GGNNGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC GGNNGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC 1wvv-a2-m2-cB_1wvv-a2-m3-cB Crystal structure of chitinase C mutant E147Q O50152 O50152 2 X-RAY DIFFRACTION 13 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 253 253 1wvu-a2-m1-cB_1wvu-a2-m2-cB 1wvu-a2-m1-cB_1wvu-a2-m3-cB 1wvu-a2-m2-cB_1wvu-a2-m3-cB 1wvv-a2-m1-cB_1wvv-a2-m2-cB 1wvv-a2-m1-cB_1wvv-a2-m3-cB CATAWSSSSVYTNGGTVSYNGRNYTAKWWTQNERPGTSDVWADKGACGGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC CATAWSSSSVYTNGGTVSYNGRNYTAKWWTQNERPGTSDVWADKGACGGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC 1wvv-a2-m3-cA_1wvv-a2-m3-cB Crystal structure of chitinase C mutant E147Q O50152 O50152 2 X-RAY DIFFRACTION 82 0.986 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 209 253 1wvu-a2-m1-cA_1wvu-a2-m1-cB 1wvu-a2-m2-cA_1wvu-a2-m2-cB 1wvu-a2-m3-cA_1wvu-a2-m3-cB 1wvv-a2-m1-cA_1wvv-a2-m1-cB 1wvv-a2-m2-cA_1wvv-a2-m2-cB GGNNGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC CATAWSSSSVYTNGGTVSYNGRNYTAKWWTQNERPGTSDVWADKGACGGFVVSEAQFNQMFPNRNAFYTYKGLTDALSAYPAFAKTGSDEVKKREAAAFLANVSHQTGGLFYIKEVNEANYPHYCDTTQSYGCPAGQAAYYGRGPIQLSWNFNYKAAGDALGINLLANPYLVEQDPAVAWKTGLWYWNSQNGPGTMTPHNAIVNNAGFGETIRSINGALECNGGNPAQVQSRINKFTQFTQILGTTTGPNLSC 1ww1-a1-m1-cB_1ww1-a1-m1-cA Crystal structure of tRNase Z from Thermotoga maritima Q9WZW8 Q9WZW8 2.6 X-RAY DIFFRACTION 75 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 238 250 MNIIGFSKALFSTWIYYSPERILFDAGEGVSTTLGSKVYAFKYVFLTHGHVDHIAGLWGVVNIRNNGMGDREKPLDVFYPEGNRAVEEYTEFIKRANPDLRFSFNVHPLKEGERVFLRNAGGFKRYVQPFRTVSFGYHIFEVRRKVTEEYHKKVLTISGDSLALDPEEIRGTELLIHECTAAIDEVMESVKAAGVKKVILYHISTRYIRQLKSVIKKYREEMPDVEILYMDPRKVFEM MNIIGFSKALFSTWIYYSPERILFDAGEGVSTTLGSKVYAFKYVFLTHGHVDHIAGLWGVVNIRNNGMGDREKPLDVFYPEGNRAVEEYTEFIKRANPDLRFSFNVHPLKEGERVFLRNAGGFKRYVQPFRTKSEVSFGYHIFEVRRKFVTEEYHKKVLTISGDSLALDPEEIRGTELLIHECTFLDARDNHAAIDEVMESVKAAGVKKVILYHISTRYIRQLKSVIKKYREEMPDVEILYMDPRKVFEM 1ww6-a2-m1-cB_1ww6-a2-m1-cC Agrocybe cylindracea galectin complexed with lactose Q6WY08 Q6WY08 2.2 X-RAY DIFFRACTION 56 1.0 64608 (Agrocybe cylindracea) 64608 (Agrocybe cylindracea) 160 160 1ww4-a1-m1-cA_1ww4-a1-m1-cD 1ww4-a2-m1-cB_1ww4-a2-m1-cC 1ww5-a1-m1-cA_1ww5-a1-m1-cD 1ww5-a2-m1-cB_1ww5-a2-m1-cC 1ww6-a1-m1-cA_1ww6-a1-m1-cD 1ww7-a1-m1-cA_1ww7-a1-m1-cD 1ww7-a2-m1-cB_1ww7-a2-m1-cC 3wg1-a1-m1-cA_3wg1-a1-m1-cB 3wg2-a1-m1-cA_3wg2-a1-m1-cB 3wg3-a1-m1-cB_3wg3-a1-m1-cA 3wg4-a1-m1-cB_3wg4-a1-m1-cA 5xfd-a1-m1-cB_5xfd-a1-m1-cA TTSAVNIYNISAGASVDLAAPVTTGDIVTFFSSALNLSAGAGSPNNTALNLLSENGAYLLHIAFRLQENVIVFNSRQPNAPWLVEQRVSNVANQFIGSGGKAMVTVFDHGDKYQVVINEKTVIQYTKQISGTTSSLSYNSTEGTSIFSTVVEAVTYTGLA TTSAVNIYNISAGASVDLAAPVTTGDIVTFFSSALNLSAGAGSPNNTALNLLSENGAYLLHIAFRLQENVIVFNSRQPNAPWLVEQRVSNVANQFIGSGGKAMVTVFDHGDKYQVVINEKTVIQYTKQISGTTSSLSYNSTEGTSIFSTVVEAVTYTGLA 1wwc-a2-m1-cA_1wwc-a2-m2-cA NT3 BINDING DOMAIN OF HUMAN TRKC RECEPTOR Q16288 Q16288 1.9 X-RAY DIFFRACTION 171 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 TVYYPPRVVSLEEPELRLEHCIEFVVRGNPPPTLHWLHNGQPLRESKIIHVEYYQEGEISEGCLLFNKPTHYNNGNYTLIAKNPLGTANQTINGHFLKEPFPVDE TVYYPPRVVSLEEPELRLEHCIEFVVRGNPPPTLHWLHNGQPLRESKIIHVEYYQEGEISEGCLLFNKPTHYNNGNYTLIAKNPLGTANQTINGHFLKEPFPVDE 1wwj-a1-m1-cC_1wwj-a1-m1-cA crystal structure of KaiB from Synechocystis sp. P74645 P74645 1.9 X-RAY DIFFRACTION 24 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 98 99 MSPFKKTYVLKLYVAGNTPNSVRALKMLKNILEQEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKILPPPVRKIIGDLSDREKVLIGLDLLYDEIR MSPFKKTYVLKLYVAGNTPNSVRALKMLKNILEQEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKILPPPVRKIIGDLSDREKVLIGLDLLYDEIRE 1wwj-a1-m1-cC_1wwj-a1-m1-cD crystal structure of KaiB from Synechocystis sp. P74645 P74645 1.9 X-RAY DIFFRACTION 72 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 98 98 1wwj-a1-m1-cB_1wwj-a1-m1-cA MSPFKKTYVLKLYVAGNTPNSVRALKMLKNILEQEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKILPPPVRKIIGDLSDREKVLIGLDLLYDEIR MSPFKKTYVLKLYVAGNTPNSVRALKMLKNILEQEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKILPPPVRKIIGDLSDREKVLIGLDLLYDEIR 1wwj-a1-m1-cD_1wwj-a1-m1-cA crystal structure of KaiB from Synechocystis sp. P74645 P74645 1.9 X-RAY DIFFRACTION 40 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 98 99 1r5p-a2-m2-cA_1r5p-a2-m1-cB MSPFKKTYVLKLYVAGNTPNSVRALKMLKNILEQEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKILPPPVRKIIGDLSDREKVLIGLDLLYDEIR MSPFKKTYVLKLYVAGNTPNSVRALKMLKNILEQEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKILPPPVRKIIGDLSDREKVLIGLDLLYDEIRE 1wwk-a1-m1-cB_1wwk-a1-m1-cA Crystal structure of phosphoglycerate dehydrogenase from Pyrococcus horikoshii OT3 O50095 O50095 1.9 X-RAY DIFFRACTION 176 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 302 304 MKVLVAAPLHEKAIQVLKDAGLEVIYEEYPDEDRLVELVKDVEAIIVRSKPKVTRRVIESAPKLKVIARAGVGLDNIDVEAAKEKGIEVVNAPAASSRSVAELAVGLMFSVARKIAFADRKMREGVWAKKEAMGIELEGKTIGIIGFGRIGYQVAKIANALGMNILLYDPYPNEERAKEVNGKFVDLETLLKESDVVTIHVPLVESTYHLINEERLKLMKKTAILINTSRGPVVDTNALVKALKEGWIAGAGLDVFEEEPLPKDHPLTKFDNVVLTPHIGASTVEAQERAGVEVAEKVVKIL MKVLVAAPLHEKAIQVLKDAGLEVIYEEYPDEDRLVELVKDVEAIIVRSKPKVTRRVIESAPKLKVIARAGVGLDNIDVEAAKEKGIEVVNAPAASSRSVAELAVGLMFSVARKIAFADRKMREGVWAKKEAMGIELEGKTIGIIGFGRIGYQVAKIANALGMNILLYDPYPNEERAKEVNGKFVDLETLLKESDVVTIHVPLVESTYHLINEERLKLMKKTAILINTSRGPVVDTNALVKALKEGWIAGAGLDVFEEEPLPKDHPLTKFDNVVLTPHIGASTVEAQERAGVEVAEKVVKILKG 1wwl-a1-m1-cA_1wwl-a1-m1-cB Crystal structure of CD14 P10810 P10810 2.5 X-RAY DIFFRACTION 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 308 312 PCELDEESCSCNFSDPKPDWSSAFNCLGAADVELYGGGRSLEYLLKRVDTEADLGQFTDIIKSLSLKRLTVRAARIPSRILFGALRVLGISGLQELTLENLEVTGTAPPPLLEATGPDLNILNLRNVSWATRDAWLAELQQWLKPGLKVLSIAQAHSLNFSCEQVRVFPALSTLDLSDNPELGERGLISALCPLKFPTLQVLALRNAGMETPSGVCSALAAARVQLQGLDLSHNSLRDAAGAPSCDWPSQLNSLNLSFTGLKQVPKGLPAKLSVLDLSYNRLDRNPSPDELPQVGNLSLKGNPFLDSE ADPEPCELDEESCSCNFSDPKPDWSSAFNCLGAADVELYGGGRSLEYLLKRVDTEADLGQFTDIIKSLSLKRLTVRAARIPSRILFGALRVLGISGLQELTLENLEVTGTAPPPLLEATGPDLNILNLRNVSWATRDAWLAELQQWLKPGLKVLSIAQAHSLNFSCEQVRVFPALSTLDLSDNPELGERGLISALCPLKFPTLQVLALRNAGMETPSGVCSALAAARVQLQGLDLSHNSLRDAAGAPSCDWPSQLNSLNLSFTGLKQVPKGLPAKLSVLDLSYNRLDRNPSPDELPQVGNLSLKGNPFLDSE 1wwm-a1-m1-cB_1wwm-a1-m1-cA Crystal Structure of Conserved Hypothetical Protein TT2028 from an Extremely Thermophilic Bacterium Thermus thermophilus HB8 Q5SLX4 Q5SLX4 2.61 X-RAY DIFFRACTION 45 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 159 178 PGLLEEIKALPLRLDEERFRFWLQQDYPFVEALYRYQVGLLLEAPQAHRAPLVQALATVEELDWLLLQGASPSAPVHPVRAGYIALLEEGRLPYAYRVVFFYFLNGLFLEAWAHHVFQAVLYDLEVLARGLWEDLDPEVVRTYLRRILEAEKATWSLLL EVPGLLEEIKALPLRLDEERFRFWLQQDYPFVEALYRYQVGLLLEAPQAHRAPLVQALATVEELDWLLLQGASPSAPVHPVRAGYIALLEEGRLPYAYRVVFFYFLNGLFLEAWAHHVPEEGPWAELSQHWFAPEFQAVLYDLEVLARGLWEDLDPEVVRTYLRRILEAEKATWSLLL 1wwp-a1-m1-cA_1wwp-a1-m1-cB Crystal structure of ttk003001694 from Thermus Thermophilus HB8 Q5SKK7 Q5SKK7 2.11 X-RAY DIFFRACTION 61 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 116 116 AEKALATLKELAFLEDPSPVERDAAIQRFEYTFEAFWKALQAYLREKEGLEGASPKGVIRLAREVGLLRDEEARLALGVDDRSLTVHTYNEPLARAIFRRLPDYARLEQVLGRLRR AEKALATLKELAFLEDPSPVERDAAIQRFEYTFEAFWKALQAYLREKEGLEGASPKGVIRLAREVGLLRDEEARLALGVDDRSLTVHTYNEPLARAIFRRLPDYARLEQVLGRLRR 1wwr-a3-m1-cD_1wwr-a3-m1-cA Crystal structure of tRNA adenosine deaminase TadA from Aquifex aeolicus O67050 O67050 1.8 X-RAY DIFFRACTION 28 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 151 154 MGKEYFLKVALREAKRAFEKGEVPVGAIIVKEGEIISKAHNSVEELKDPTAHAEMLAIKEACRRLNTKYLEGCELYVTLEPCIMCSYALVLSRIEKVIFSALDKKHGGVVSVFNILDEPTLNHRVKWEYYPLEEASELLSEFFKKLRNNII GSHMGKEYFLKVALREAKRAFEKGEVPVGAIIVKEGEIISKAHNSVEELKDPTAHAEMLAIKEACRRLNTKYLEGCELYVTLEPCIMCSYALVLSRIEKVIFSALDKKHGGVVSVFNILDEPTLNHRVKWEYYPLEEASELLSEFFKKLRNNII 1wwr-a3-m1-cD_1wwr-a3-m1-cC Crystal structure of tRNA adenosine deaminase TadA from Aquifex aeolicus O67050 O67050 1.8 X-RAY DIFFRACTION 80 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 151 160 1wwr-a1-m1-cA_1wwr-a1-m1-cB 1wwr-a2-m1-cD_1wwr-a2-m1-cC 1wwr-a3-m1-cA_1wwr-a3-m1-cB MGKEYFLKVALREAKRAFEKGEVPVGAIIVKEGEIISKAHNSVEELKDPTAHAEMLAIKEACRRLNTKYLEGCELYVTLEPCIMCSYALVLSRIEKVIFSALDKKHGGVVSVFNILDEPTLNHRVKWEYYPLEEASELLSEFFKKLRNNII SGLVPRGSHMGKEYFLKVALREAKRAFEKGEVPVGAIIVKEGEIISKAHNSVEELKDPTAHAEMLAIKEACRRLNTKYLEGCELYVTLEPCIMCSYALVLSRIEKVIFSALDKKHGGVVSVFNILDEPTLNHRVKWEYYPLEEASELLSEFFKKLRNNII 1wws-a5-m1-cA_1wws-a5-m4-cF Crystal structure of ttk003001566 from Thermus Thermophilus HB8 Q5SI95 Q5SI95 1.9 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 145 145 1wws-a5-m1-cB_1wws-a5-m4-cE LKVAEFERLFRQAAGLDVDKNDLKRVSDFLRNKLYDLLAVAERNAKYNGRDLIFEPDLPIAKGLQETLQEFRRDTALELKPVLDALAALPPLDLEVAEDVRNLLPELAGALVVAYARVLKELDPALKNPQTEHHERAERVFNLLL LKVAEFERLFRQAAGLDVDKNDLKRVSDFLRNKLYDLLAVAERNAKYNGRDLIFEPDLPIAKGLQETLQEFRRDTALELKPVLDALAALPPLDLEVAEDVRNLLPELAGALVVAYARVLKELDPALKNPQTEHHERAERVFNLLL 1wws-a5-m2-cD_1wws-a5-m4-cF Crystal structure of ttk003001566 from Thermus Thermophilus HB8 Q5SI95 Q5SI95 1.9 X-RAY DIFFRACTION 14 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 145 145 1wws-a5-m1-cA_1wws-a5-m3-cH 1wws-a5-m1-cB_1wws-a5-m3-cG 1wws-a5-m2-cC_1wws-a5-m4-cE LKVAEFERLFRQAAGLDVDKNDLKRVSDFLRNKLYDLLAVAERNAKYNGRDLIFEPDLPIAKGLQETLQEFRRDTALELKPVLDALAALPPLDLEVAEDVRNLLPELAGALVVAYARVLKELDPALKNPQTEHHERAERVFNLLL LKVAEFERLFRQAAGLDVDKNDLKRVSDFLRNKLYDLLAVAERNAKYNGRDLIFEPDLPIAKGLQETLQEFRRDTALELKPVLDALAALPPLDLEVAEDVRNLLPELAGALVVAYARVLKELDPALKNPQTEHHERAERVFNLLL 1wws-a5-m4-cE_1wws-a5-m4-cF Crystal structure of ttk003001566 from Thermus Thermophilus HB8 Q5SI95 Q5SI95 1.9 X-RAY DIFFRACTION 98 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 145 145 1wwi-a2-m1-cA_1wwi-a2-m2-cA 1wws-a1-m1-cA_1wws-a1-m1-cB 1wws-a2-m1-cC_1wws-a2-m1-cD 1wws-a3-m1-cE_1wws-a3-m1-cF 1wws-a4-m1-cG_1wws-a4-m1-cH 1wws-a5-m1-cA_1wws-a5-m1-cB 1wws-a5-m2-cC_1wws-a5-m2-cD 1wws-a5-m3-cG_1wws-a5-m3-cH LKVAEFERLFRQAAGLDVDKNDLKRVSDFLRNKLYDLLAVAERNAKYNGRDLIFEPDLPIAKGLQETLQEFRRDTALELKPVLDALAALPPLDLEVAEDVRNLLPELAGALVVAYARVLKELDPALKNPQTEHHERAERVFNLLL LKVAEFERLFRQAAGLDVDKNDLKRVSDFLRNKLYDLLAVAERNAKYNGRDLIFEPDLPIAKGLQETLQEFRRDTALELKPVLDALAALPPLDLEVAEDVRNLLPELAGALVVAYARVLKELDPALKNPQTEHHERAERVFNLLL 1www-a1-m1-cV_1www-a1-m1-cW NGF IN COMPLEX WITH DOMAIN 5 OF THE TRKA RECEPTOR P01138 P01138 2.2 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 109 1sg1-a1-m1-cA_1sg1-a1-m1-cB 2ifg-a1-m1-cE_2ifg-a1-m1-cF 4edx-a1-m1-cV_4edx-a1-m1-cW 4efv-a1-m1-cA_4efv-a1-m1-cB 6yw8-a1-m1-cA_6yw8-a1-m1-cB SSHPIFHRGEFSVCDSVSVWVGDKTTATDIKGKEVMVLGEVNINNSVFKQYFFETKCRDGCRGIDSKHWNSYCTTTHTFVKALTMDGKQAAWRFIRIDTACVCVLSRK SSHPIFHRGEFSVCDSVSVWVGDKTTATDIKGKEVMVLGEVNINNSVFKQYFFETKCRDGCRGIDSKHWNSYCTTTHTFVKALTMDGKQAAWRFIRIDTACVCVLSRKA 1wwz-a1-m1-cA_1wwz-a1-m1-cB Crystal structure of PH1933 from Pyrococcus horikoshii OT3 O59596 O59596 1.75 X-RAY DIFFRACTION 28 0.987 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 157 157 MDEIKIEKLKKLDKKALNELIDVYMSGYEGLEEYGGEGRDYARNYIKWCWKKASDGFFVAKVGDKIVGFIVCDKDWFSKYEGRIVGAIHEFVVDKKFQGKGIGRKLLITCLDFLGKYNDTIELWVGEKNYGAMNLYEKFGFKKVGKSGIWVRMIKRQ EIKIEKLKKLDKKALNELIDVYMSGYEGLEEYGGEGRDYARNYIKWCWKKASDGFFVAKVGDKIVGFIVCDKDWFSKYEGRIVGAIHEFVVDKKFQGKGIGRKLLITCLDFLGKYNDTIELWVGEKNYGAMNLYEKFGFKKVGKSGIWVRMIKRQNL 1wx0-a1-m1-cA_1wx0-a1-m1-cJ Crystal structure of transaldolase from Thermus thermophilus HB8 Q5SJE8 Q5SJE8 2.27 X-RAY DIFFRACTION 14 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 211 211 1wx0-a1-m1-cB_1wx0-a1-m1-cI 1wx0-a1-m1-cC_1wx0-a1-m1-cH 1wx0-a1-m1-cD_1wx0-a1-m1-cG 1wx0-a1-m1-cE_1wx0-a1-m1-cF MELYLDTASLEEIREIAAWGVLSGVTTNPTLVAKAFAAKGEALTEEAFAAHLRAICETVGGPVSAEVTALEAEAMVAEGRRLAAIHPNIVVKLPTTEEGLKACKRLSAEGIKVNMTLIFSANQALLAARAGASYVSPFLGRVDDISWDGGELLREIVEMIQVQDLPVKVIAASIRHPRHVTEAALLGADIATMPHAVFKQLLKHPLTDIGL MELYLDTASLEEIREIAAWGVLSGVTTNPTLVAKAFAAKGEALTEEAFAAHLRAICETVGGPVSAEVTALEAEAMVAEGRRLAAIHPNIVVKLPTTEEGLKACKRLSAEGIKVNMTLIFSANQALLAARAGASYVSPFLGRVDDISWDGGELLREIVEMIQVQDLPVKVIAASIRHPRHVTEAALLGADIATMPHAVFKQLLKHPLTDIGL 1wx0-a1-m1-cC_1wx0-a1-m1-cI Crystal structure of transaldolase from Thermus thermophilus HB8 Q5SJE8 Q5SJE8 2.27 X-RAY DIFFRACTION 50 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 211 211 1wx0-a1-m1-cA_1wx0-a1-m1-cF 1wx0-a1-m1-cB_1wx0-a1-m1-cJ 1wx0-a1-m1-cD_1wx0-a1-m1-cH 1wx0-a1-m1-cE_1wx0-a1-m1-cG MELYLDTASLEEIREIAAWGVLSGVTTNPTLVAKAFAAKGEALTEEAFAAHLRAICETVGGPVSAEVTALEAEAMVAEGRRLAAIHPNIVVKLPTTEEGLKACKRLSAEGIKVNMTLIFSANQALLAARAGASYVSPFLGRVDDISWDGGELLREIVEMIQVQDLPVKVIAASIRHPRHVTEAALLGADIATMPHAVFKQLLKHPLTDIGL MELYLDTASLEEIREIAAWGVLSGVTTNPTLVAKAFAAKGEALTEEAFAAHLRAICETVGGPVSAEVTALEAEAMVAEGRRLAAIHPNIVVKLPTTEEGLKACKRLSAEGIKVNMTLIFSANQALLAARAGASYVSPFLGRVDDISWDGGELLREIVEMIQVQDLPVKVIAASIRHPRHVTEAALLGADIATMPHAVFKQLLKHPLTDIGL 1wx0-a1-m1-cH_1wx0-a1-m1-cI Crystal structure of transaldolase from Thermus thermophilus HB8 Q5SJE8 Q5SJE8 2.27 X-RAY DIFFRACTION 82 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 211 211 1wx0-a1-m1-cA_1wx0-a1-m1-cB 1wx0-a1-m1-cA_1wx0-a1-m1-cE 1wx0-a1-m1-cB_1wx0-a1-m1-cC 1wx0-a1-m1-cC_1wx0-a1-m1-cD 1wx0-a1-m1-cD_1wx0-a1-m1-cE 1wx0-a1-m1-cF_1wx0-a1-m1-cG 1wx0-a1-m1-cF_1wx0-a1-m1-cJ 1wx0-a1-m1-cG_1wx0-a1-m1-cH 1wx0-a1-m1-cI_1wx0-a1-m1-cJ MELYLDTASLEEIREIAAWGVLSGVTTNPTLVAKAFAAKGEALTEEAFAAHLRAICETVGGPVSAEVTALEAEAMVAEGRRLAAIHPNIVVKLPTTEEGLKACKRLSAEGIKVNMTLIFSANQALLAARAGASYVSPFLGRVDDISWDGGELLREIVEMIQVQDLPVKVIAASIRHPRHVTEAALLGADIATMPHAVFKQLLKHPLTDIGL MELYLDTASLEEIREIAAWGVLSGVTTNPTLVAKAFAAKGEALTEEAFAAHLRAICETVGGPVSAEVTALEAEAMVAEGRRLAAIHPNIVVKLPTTEEGLKACKRLSAEGIKVNMTLIFSANQALLAARAGASYVSPFLGRVDDISWDGGELLREIVEMIQVQDLPVKVIAASIRHPRHVTEAALLGADIATMPHAVFKQLLKHPLTDIGL 1wx1-a1-m1-cA_1wx1-a1-m1-cB Crystal structure of nictinate-nucleotide-dimethylbenzimidazole phosphoribosyltransferase from Thermus thermophilus HB8 Q7SIC7 Q7SIC7 1.97 X-RAY DIFFRACTION 167 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 330 330 1j33-a1-m1-cA_1j33-a1-m2-cA MDPEVFAQARLRMDQLTKPPRALGYLEEVALRLAALQGRVKPELGRGAVVVAAADHGVVAEGVSAYPQEVTRQMVLNFLRGGAAINQFALAADCAVYVLDVGVVGELPDHPGLLKRKVRPGTANLAQGPAMTPEEAERALLAGREAARRAIAEGATLLAAGDMGIGNTTAAAALTAALLGLPPEAVVGGEEGLRRKRQAVARALARLHPGMGPLEVAAEVGGLELVAIAGIYLEGYEAGLPLVLDGFPVTAGALLAWKMAPGLRDHLFAGHLSREPGHRHQLEALGLRPLLDLDLALGEGTGAVLAMPLLRAAARILHMATFQEAGVSRG MDPEVFAQARLRMDQLTKPPRALGYLEEVALRLAALQGRVKPELGRGAVVVAAADHGVVAEGVSAYPQEVTRQMVLNFLRGGAAINQFALAADCAVYVLDVGVVGELPDHPGLLKRKVRPGTANLAQGPAMTPEEAERALLAGREAARRAIAEGATLLAAGDMGIGNTTAAAALTAALLGLPPEAVVGGEEGLRRKRQAVARALARLHPGMGPLEVAAEVGGLELVAIAGIYLEGYEAGLPLVLDGFPVTAGALLAWKMAPGLRDHLFAGHLSREPGHRHQLEALGLRPLLDLDLALGEGTGAVLAMPLLRAAARILHMATFQEAGVSRG 1wxi-a1-m1-cA_1wxi-a1-m2-cA E.coli NAD Synthetase, AMP.PP P18843 P18843 1.7 X-RAY DIFFRACTION 166 1.0 562 (Escherichia coli) 562 (Escherichia coli) 261 261 1wxe-a2-m1-cA_1wxe-a2-m2-cA 1wxf-a2-m1-cA_1wxf-a2-m2-cA 1wxg-a2-m1-cA_1wxg-a2-m2-cA 1wxh-a2-m1-cA_1wxh-a2-m2-cA TLQQQIIKALGAKPQINAEEEIRRSVDFLKSYLQTYPFIKSLVLGISGGQDSTLAGKLCQMAINELRLETGNESLQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKGAVLASEQALREAGIELSDFVRGNEKARERMKAQYSIAGMTSGVVVGTDHAAEAITGFFTKYGDGGTDINPLYRLNKRQGKQLLAALACPEHLYKKADEVALGVTYDNIDDYLEGKNVPQQVARTIENWYLKTEHKRRPPITVFDDFWKK TLQQQIIKALGAKPQINAEEEIRRSVDFLKSYLQTYPFIKSLVLGISGGQDSTLAGKLCQMAINELRLETGNESLQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKGAVLASEQALREAGIELSDFVRGNEKARERMKAQYSIAGMTSGVVVGTDHAAEAITGFFTKYGDGGTDINPLYRLNKRQGKQLLAALACPEHLYKKADEVALGVTYDNIDDYLEGKNVPQQVARTIENWYLKTEHKRRPPITVFDDFWKK 1wy0-a1-m1-cA_1wy0-a1-m2-cA Crystal structure of geranylgeranyl pyrophosphate synthetase from Pyrococcus horikoshii Ot3 O58799 O58799 2.2 X-RAY DIFFRACTION 114 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 327 327 EKYEELFARIKEKAKLIDEKIFELIPEKDPRVLYEAARHYPLAGGKRVRPFVVLTSTEAVGGDPLRAIYPAVAIELIHNYSLVHDDIMDMDETRRGKPTVHRIWGVNMAILAGDLLFSKAFEAVARAEIPPEKKARVLEVIVKASNELCEGQARDLEFEKKSTVTIEEYMEMISGKTGALFEASAKVGGIIGTDNEEYIKALSSWGRNVGIAFQIWDDVLDLIADEKKLGKPVGSDIRKGKKTLIVAHFFENADEKDKQRFLKIFGKDIKSDVMEAIDLLKKYGSIDYAAEIAKDMIKKANEALRILPKSKARMDLELLAKFIVERE EKYEELFARIKEKAKLIDEKIFELIPEKDPRVLYEAARHYPLAGGKRVRPFVVLTSTEAVGGDPLRAIYPAVAIELIHNYSLVHDDIMDMDETRRGKPTVHRIWGVNMAILAGDLLFSKAFEAVARAEIPPEKKARVLEVIVKASNELCEGQARDLEFEKKSTVTIEEYMEMISGKTGALFEASAKVGGIIGTDNEEYIKALSSWGRNVGIAFQIWDDVLDLIADEKKLGKPVGSDIRKGKKTLIVAHFFENADEKDKQRFLKIFGKDIKSDVMEAIDLLKKYGSIDYAAEIAKDMIKKANEALRILPKSKARMDLELLAKFIVERE 1wy2-a1-m1-cB_1wy2-a1-m1-cA Crystal Structure of the Prolidase from Pyrococcus horikoshii OT3 O58885 O58885 1.7 X-RAY DIFFRACTION 101 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 347 351 NEKVKKIIEFMDKNSIDAVLIAKNPNVYYISGASPLAGGYILITGESATLYVPELEYEMAKEESNIPVEKFKKMDEFYKALEGIKSLGIESSLPYGFIEELKKKANIKEFKKVDDVIRDMRIIKSEKEIKIIEKACEIADKAVMAAIEEITEGKKEREVAAKVEYLMKMNGAEKPAFDTIIASGYRSALPHGVASDKRIERGDLVVIDLGALYQHYNSDITRTIVVGSPNEKQKEIYEIVLEAQKKAVESAKPGITAKELDSIARNIIAEYGYGEYFNHSLGHGVGLEVHEWPRVSQYDETVLREGMVITIEPGIYIPKIGGVRIEDTILITKNGSKRLTKTERELI MDIMNEKVKKIIEFMDKNSIDAVLIAKNPNVYYISGASPLAGGYILITGESATLYVPELEYEMAKEESNIPVEKFKKMDEFYKALEGIKSLGIESSLPYGFIEELKKKANIKEFKKVDDVIRDMRIIKSEKEIKIIEKACEIADKAVMAAIEEITEGKKEREVAAKVEYLMKMNGAEKPAFDTIIASGYRSALPHGVASDKRIERGDLVVIDLGALYQHYNSDITRTIVVGSPNEKQKEIYEIVLEAQKKAVESAKPGITAKELDSIARNIIAEYGYGEYFNHSLGHGVGLEVHEWPRVSQYDETVLREGMVITIEPGIYIPKIGGVRIEDTILITKNGSKRLTKTERELI 1wy5-a2-m1-cA_1wy5-a2-m2-cB Crystal structure of isoluecyl-tRNA lysidine synthetase O67728 O67728 2.42 X-RAY DIFFRACTION 30 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 311 311 1wy5-a2-m1-cB_1wy5-a2-m2-cA MNPESRVIRKVLALQNDEKIFSGERRVLIAFSGGVDSVVLTDVLLKLKNYFSLKEVALAHFNHMLRESAERDEEFCKEFAKERNMKIFVGKEDVRAFAKENRMSLEEAGRFLRYKFLKEILESEGFDCIATAHHLNDLLETSLLFFTRGTGLDGLIGFLPKEEVIRRPLYYVKRSEIEEYAKFKGLRWVEDETNYEVSIPRNRIRHRVIPELKRINENLEDTFLKMVKVLRAEREFLEEEAQKLYKEVKKGNCLDVKKLKEKPLALQRRVIRKFIGEKDYEKVELVRSLLEKGGEVNLGKGKVLKRKERWL MNPESRVIRKVLALQNDEKIFSGERRVLIAFSGGVDSVVLTDVLLKLKNYFSLKEVALAHFNHMLRESAERDEEFCKEFAKERNMKIFVGKEDVRAFAKENRMSLEEAGRFLRYKFLKEILESEGFDCIATAHHLNDLLETSLLFFTRGTGLDGLIGFLPKEEVIRRPLYYVKRSEIEEYAKFKGLRWVEDETNYEVSIPRNRIRHRVIPELKRINENLEDTFLKMVKVLRAEREFLEEEAQKLYKEVKKGNCLDVKKLKEKPLALQRRVIRKFIGEKDYEKVELVRSLLEKGGEVNLGKGKVLKRKERWL 1wy5-a2-m2-cA_1wy5-a2-m2-cB Crystal structure of isoluecyl-tRNA lysidine synthetase O67728 O67728 2.42 X-RAY DIFFRACTION 116 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 311 311 1wy5-a1-m1-cA_1wy5-a1-m1-cB 1wy5-a2-m1-cA_1wy5-a2-m1-cB 2e21-a1-m1-cB_2e21-a1-m1-cA 2e21-a2-m1-cC_2e21-a2-m1-cD 2e89-a1-m1-cB_2e89-a1-m1-cA 2e89-a2-m1-cD_2e89-a2-m1-cC MNPESRVIRKVLALQNDEKIFSGERRVLIAFSGGVDSVVLTDVLLKLKNYFSLKEVALAHFNHMLRESAERDEEFCKEFAKERNMKIFVGKEDVRAFAKENRMSLEEAGRFLRYKFLKEILESEGFDCIATAHHLNDLLETSLLFFTRGTGLDGLIGFLPKEEVIRRPLYYVKRSEIEEYAKFKGLRWVEDETNYEVSIPRNRIRHRVIPELKRINENLEDTFLKMVKVLRAEREFLEEEAQKLYKEVKKGNCLDVKKLKEKPLALQRRVIRKFIGEKDYEKVELVRSLLEKGGEVNLGKGKVLKRKERWL MNPESRVIRKVLALQNDEKIFSGERRVLIAFSGGVDSVVLTDVLLKLKNYFSLKEVALAHFNHMLRESAERDEEFCKEFAKERNMKIFVGKEDVRAFAKENRMSLEEAGRFLRYKFLKEILESEGFDCIATAHHLNDLLETSLLFFTRGTGLDGLIGFLPKEEVIRRPLYYVKRSEIEEYAKFKGLRWVEDETNYEVSIPRNRIRHRVIPELKRINENLEDTFLKMVKVLRAEREFLEEEAQKLYKEVKKGNCLDVKKLKEKPLALQRRVIRKFIGEKDYEKVELVRSLLEKGGEVNLGKGKVLKRKERWL 1wy9-a2-m1-cA_1wy9-a2-m2-cA Crystal structure of microglia-specific protein, Iba1 O70200 O70200 2.1 X-RAY DIFFRACTION 100 1.0 10090 (Mus musculus) 10090 (Mus musculus) 111 111 KAQQEERLEGINKQFLDDPKYSNDEDLPSKLEAFKVKYMEFDLNGNGDIDIMSLKRMLEKLGVPKTHLELKRLIREVSSGSEETFSYSDFLRMMLGKRSAILRMILMYEEK KAQQEERLEGINKQFLDDPKYSNDEDLPSKLEAFKVKYMEFDLNGNGDIDIMSLKRMLEKLGVPKTHLELKRLIREVSSGSEETFSYSDFLRMMLGKRSAILRMILMYEEK 1wyd-a1-m1-cA_1wyd-a1-m1-cB Crystal Structure of Aspartyl-tRNA synthetase from Sulfolobus tokodaii Q976I3 Q976I3 2.3 X-RAY DIFFRACTION 240 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 428 429 MYRSHFIADVTPEYDGKEVIWAGWVHLLRDLGGKKFIILRDKTGLGQVVVDKNSSAFGISQELTQESVIQVRGIVKADKRAPRGIELHAEEITLLSKAKAPLPLDVSGKVKADIDTRLRERVLDLRRQEMQAVIKIQSLALKAFRETLYKEGFIEIFTPKIIASATEGGAQLFPVIYFGKEAFLAQSPQLYKELMAGVVERVFEVAPAWRAEESDTPFHLAEFISMDVEMAFADYNDVMQLLEKILHNIVKTIKEEGKEELKILNYEPPEVKIPIKRLKYTEAIEILRSKGYNIKFGDDIGTPELRILNEELKEDLYFIVDWPSDARPFYTKSKSEPELSESFDLIYKFLEIVSGSTRNHKREVLEEALKKKGLKPESFEFFLKWFDYGMPPHAGFGMGLARLMVMLTGIQSVKEIVPFPRDKKRLTP MYRSHFIADVTPEYDGKEVIWAGWVHLLRDLGGKKFIILRDKTGLGQVVVDKNSSAFGISQELTQESVIQVRGIVKADKRAPRGIELHAEEITLLSKAKAPLPLDVSGKVKADIDTRLRERVLDLRRQEMQAVIKIQSLALKAFRETLYKEGFIEIFTPKIIASATEGGAQLFPVIYFGKEAFLAQSPQLYKELMAGVVERVFEVAPAWRAEESDTPFHLAEFISMDVEMAFADYNDVMQLLEKILHNIVKTIKEEGKEELKILNYEPPEVKIPIKRLKYTEAIEILRSKGYNIKFGDDIGTPELRILNEELKEDLYFIVDWPSDARPFYTKSKSENPELSESFDLIYKFLEIVSGSTRNHKREVLEEALKKKGLKPESFEFFLKWFDYGMPPHAGFGMGLARLMVMLTGIQSVKEIVPFPRDKKRLTP 1wyi-a1-m1-cB_1wyi-a1-m2-cB human triosephosphate isomerase of new crystal form P60174 P60174 2.2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 248 APSRKFFVGGNWKMNGRKQSLGELIGTLNAAKVPADTEVVCAPPTAYIDFARQKLDPKIAVAAQNCYKVTNGAFTGEISPGMIKDCGATWVVLGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKVIADNVKDWSKVVLAYEPVWAIGTGKTATPQQAQEVHEKLRGWLKSNVSDAVAQSTRIIYGGSVTGATCKELASQPDVDGFLVGGASLKPEFVDIINAKQ APSRKFFVGGNWKMNGRKQSLGELIGTLNAAKVPADTEVVCAPPTAYIDFARQKLDPKIAVAAQNCYKVTNGAFTGEISPGMIKDCGATWVVLGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKVIADNVKDWSKVVLAYEPVWAIGTGKTATPQQAQEVHEKLRGWLKSNVSDAVAQSTRIIYGGSVTGATCKELASQPDVDGFLVGGASLKPEFVDIINAKQ 1wyu-a2-m1-cE_1wyu-a2-m1-cG Crystal structure of glycine decarboxylase (P-protein) of the glycine cleavage system, in holo form Q5SKW8 Q5SKW8 2.1 X-RAY DIFFRACTION 19 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 437 437 1wyt-a1-m1-cA_1wyt-a1-m1-cC 1wyu-a1-m1-cA_1wyu-a1-m1-cC 1wyv-a1-m1-cA_1wyv-a1-m1-cC 1wyv-a2-m1-cE_1wyv-a2-m1-cG MDYTPHTEEEIREMLRRVGAASLEDLFAHLPKEILSPPIDLPEPLPEWKVLEELRRLAAQNLPAHKAFLGGGVRSHHVPPVVQALAARGEFLTAYTPYQPEVSQGVLQATFEYQTMIAELAGLEIANASMYDGATALAEGVLLALRETGRMGVLVSQGVHPEYRAVLRAYLEAVGAKLLTLPLEGGRTPLPEVGEEVGAVVVQNPNFLGALEDLGPFAEAAHGAGALFVAVADPLSLGVLKPPGAYGADIAVGDGQSLGLPMGFGGPHFGFLATKKAFVRQLPGRLVSETVDVEGRRGFILTLQAREQYIRRAKAKSNITTNAQLTALMGAMYLAALGPEGLREVALKSVEMAHKLHALLLEVPGVRPFTPKPFFNEFALALPKDPEAVRRALAERGFHGATPVPREYGENLALFAATELHEEEDLLALREALKEVL MDYTPHTEEEIREMLRRVGAASLEDLFAHLPKEILSPPIDLPEPLPEWKVLEELRRLAAQNLPAHKAFLGGGVRSHHVPPVVQALAARGEFLTAYTPYQPEVSQGVLQATFEYQTMIAELAGLEIANASMYDGATALAEGVLLALRETGRMGVLVSQGVHPEYRAVLRAYLEAVGAKLLTLPLEGGRTPLPEVGEEVGAVVVQNPNFLGALEDLGPFAEAAHGAGALFVAVADPLSLGVLKPPGAYGADIAVGDGQSLGLPMGFGGPHFGFLATKKAFVRQLPGRLVSETVDVEGRRGFILTLQAREQYIRRAKAKSNITTNAQLTALMGAMYLAALGPEGLREVALKSVEMAHKLHALLLEVPGVRPFTPKPFFNEFALALPKDPEAVRRALAERGFHGATPVPREYGENLALFAATELHEEEDLLALREALKEVL 1wyu-a2-m1-cF_1wyu-a2-m1-cH Crystal structure of glycine decarboxylase (P-protein) of the glycine cleavage system, in holo form Q5SKW7 Q5SKW7 2.1 X-RAY DIFFRACTION 47 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 473 473 1wyt-a1-m1-cB_1wyt-a1-m1-cD 1wyu-a1-m1-cB_1wyu-a1-m1-cD 1wyv-a1-m1-cB_1wyv-a1-m1-cD 1wyv-a2-m1-cF_1wyv-a2-m1-cH SFPLIFERSRKGRRGLKLVKAVPKAEDLIPKEHLREVPPRLPEVDELTLVRHYTGLSRRQVGVDTTFYPLGSCTMKYNPKLHEEAARLFADLHPYQDPRTAQGALRLMWELGEYLKALTGMDAITLEPAAGAHGELTGILIIRAYHEDRGEGRTRRVVLVPDSAHGSNPATASMAGYQVREIPSGPEGEVDLEALKRELGPHVAALMLTNPNTLGLFERRILEISRLCKEAGVQLYYDGANLNAIMGWARPGDMGFDVVHLNLHKTFTVPHGGGGPGSGPVGVKAHLAPYLPVPLVERGEEGFYLDFDRPKSIGRVRSFYGNFLALVRAWAYIRTLGLEGLKKAAALAVLNARYLKELLKEKGYRVPYDGPSMHEFVAQPPEGFRALDLAKGLLELGFHPPTVYFPLIVKEALMVEPTETEAKETLEAFAEAMGALLKKPKEWLENAPYSTPVRRLDELRANKHPKLTYFDEG SFPLIFERSRKGRRGLKLVKAVPKAEDLIPKEHLREVPPRLPEVDELTLVRHYTGLSRRQVGVDTTFYPLGSCTMKYNPKLHEEAARLFADLHPYQDPRTAQGALRLMWELGEYLKALTGMDAITLEPAAGAHGELTGILIIRAYHEDRGEGRTRRVVLVPDSAHGSNPATASMAGYQVREIPSGPEGEVDLEALKRELGPHVAALMLTNPNTLGLFERRILEISRLCKEAGVQLYYDGANLNAIMGWARPGDMGFDVVHLNLHKTFTVPHGGGGPGSGPVGVKAHLAPYLPVPLVERGEEGFYLDFDRPKSIGRVRSFYGNFLALVRAWAYIRTLGLEGLKKAAALAVLNARYLKELLKEKGYRVPYDGPSMHEFVAQPPEGFRALDLAKGLLELGFHPPTVYFPLIVKEALMVEPTETEAKETLEAFAEAMGALLKKPKEWLENAPYSTPVRRLDELRANKHPKLTYFDEG 1wyx-a1-m1-cA_1wyx-a1-m1-cB The Crystal Structure of the p130Cas SH3 Domain at 1.1 A Resolution P56945 P56945 1.14 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 69 LNVLAKALYDNVAESPDELSFRKGDIMTVLEQDTQGLDGWWLCSLHGRQGIVPGNRLKILVGMYDKKP HLNVLAKALYDNVAESPDELSFRKGDIMTVLEQDTQGLDGWWLCSLHGRQGIVPGNRLKILVGMYDKKP 1wyy-a3-m4-cB_1wyy-a3-m5-cB Post-fusion hairpin conformation of the sars coronavirus spike glycoprotein P59594 P59594 2.2 X-RAY DIFFRACTION 135 1.0 124 124 1wyy-a1-m1-cA_1wyy-a1-m2-cA 1wyy-a1-m1-cA_1wyy-a1-m3-cA 1wyy-a1-m2-cA_1wyy-a1-m3-cA 1wyy-a3-m1-cB_1wyy-a3-m4-cB 1wyy-a3-m1-cB_1wyy-a3-m5-cB 1zvb-a1-m1-cA_1zvb-a1-m1-cC 1zvb-a1-m1-cB_1zvb-a1-m1-cA 1zvb-a1-m1-cB_1zvb-a1-m1-cC GVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVLGDISGINASVVNIQKEIDRLNEVAKNLNESLIDLQELGKYE GVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVLGDISGINASVVNIQKEIDRLNEVAKNLNESLIDLQELGKYE 1wyz-a2-m1-cB_1wyz-a2-m1-cD X-Ray structure of the putative methyltransferase from Bacteroides thetaiotaomicron VPI-5482 at the resolution 2.5 A. Norteast Structural Genomics Consortium target Btr28 Q8A031 Q8A031 2.5 X-RAY DIFFRACTION 134 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 224 224 1wyz-a1-m1-cA_1wyz-a1-m1-cC ETALYLLPVTLGDTPLEQVLPSYNTEIIRGIRHFIVEDVRSARRFLKKVDREIDIDSLTFYPLNKHTSPEDISGYLKPLAGGASGVISEDPGADVVAIAQRQKLKVIPLVGPSSIILSVASGFNGQSFAFHGYLPIEPGERAKKLKTLEQRVYAESQTQLFIETPYRNHKIEDILQNCRPQTKLCIAANITCEGEFIQTRTVKDWKGHIPELSKIPCIFLLYKL ETALYLLPVTLGDTPLEQVLPSYNTEIIRGIRHFIVEDVRSARRFLKKVDREIDIDSLTFYPLNKHTSPEDISGYLKPLAGGASGVISEDPGADVVAIAQRQKLKVIPLVGPSSIILSVASGFNGQSFAFHGYLPIEPGERAKKLKTLEQRVYAESQTQLFIETPYRNHKIEDILQNCRPQTKLCIAANITCEGEFIQTRTVKDWKGHIPELSKIPCIFLLYKL 1wz8-a1-m1-cB_1wz8-a1-m1-cF Crystal Structure of Probable Enoyl-CoA Dehydratase from Thermus Thermophilus HB8 Q5SLS5 Q5SLS5 1.8 X-RAY DIFFRACTION 15 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 263 263 1wz8-a1-m1-cA_1wz8-a1-m1-cD 1wz8-a1-m1-cC_1wz8-a1-m1-cE LASLEARYPGLAFAWPRPGVLEITFRGEKLNAMPPALHRGLARVWRDLEAVEGVRAVLLRGEGGVFSAGGSFGLIEEMRASHEALLRVFWEARDLVLGPLNFPRPVVAAVEKVAVGAGLALALAADIAVVGKGTRLLDGHLRLGVAAGDHAVLLWPLLVGMAKAKYHLLLNEPLTGEEAERLGLVALAVEDEKVYEKALEVAERLAQGPKEALHHTKHALNHWYRSFLPHFELSLALEFLGFSGKELEEGLKALKEKRPPEFP LASLEARYPGLAFAWPRPGVLEITFRGEKLNAMPPALHRGLARVWRDLEAVEGVRAVLLRGEGGVFSAGGSFGLIEEMRASHEALLRVFWEARDLVLGPLNFPRPVVAAVEKVAVGAGLALALAADIAVVGKGTRLLDGHLRLGVAAGDHAVLLWPLLVGMAKAKYHLLLNEPLTGEEAERLGLVALAVEDEKVYEKALEVAERLAQGPKEALHHTKHALNHWYRSFLPHFELSLALEFLGFSGKELEEGLKALKEKRPPEFP 1wz8-a1-m1-cC_1wz8-a1-m1-cF Crystal Structure of Probable Enoyl-CoA Dehydratase from Thermus Thermophilus HB8 Q5SLS5 Q5SLS5 1.8 X-RAY DIFFRACTION 38 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 263 263 1wz8-a1-m1-cA_1wz8-a1-m1-cE 1wz8-a1-m1-cB_1wz8-a1-m1-cD LASLEARYPGLAFAWPRPGVLEITFRGEKLNAMPPALHRGLARVWRDLEAVEGVRAVLLRGEGGVFSAGGSFGLIEEMRASHEALLRVFWEARDLVLGPLNFPRPVVAAVEKVAVGAGLALALAADIAVVGKGTRLLDGHLRLGVAAGDHAVLLWPLLVGMAKAKYHLLLNEPLTGEEAERLGLVALAVEDEKVYEKALEVAERLAQGPKEALHHTKHALNHWYRSFLPHFELSLALEFLGFSGKELEEGLKALKEKRPPEFP LASLEARYPGLAFAWPRPGVLEITFRGEKLNAMPPALHRGLARVWRDLEAVEGVRAVLLRGEGGVFSAGGSFGLIEEMRASHEALLRVFWEARDLVLGPLNFPRPVVAAVEKVAVGAGLALALAADIAVVGKGTRLLDGHLRLGVAAGDHAVLLWPLLVGMAKAKYHLLLNEPLTGEEAERLGLVALAVEDEKVYEKALEVAERLAQGPKEALHHTKHALNHWYRSFLPHFELSLALEFLGFSGKELEEGLKALKEKRPPEFP 1wz8-a1-m1-cE_1wz8-a1-m1-cF Crystal Structure of Probable Enoyl-CoA Dehydratase from Thermus Thermophilus HB8 Q5SLS5 Q5SLS5 1.8 X-RAY DIFFRACTION 111 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 263 263 1wz8-a1-m1-cA_1wz8-a1-m1-cB 1wz8-a1-m1-cA_1wz8-a1-m1-cC 1wz8-a1-m1-cB_1wz8-a1-m1-cC 1wz8-a1-m1-cD_1wz8-a1-m1-cE 1wz8-a1-m1-cD_1wz8-a1-m1-cF LASLEARYPGLAFAWPRPGVLEITFRGEKLNAMPPALHRGLARVWRDLEAVEGVRAVLLRGEGGVFSAGGSFGLIEEMRASHEALLRVFWEARDLVLGPLNFPRPVVAAVEKVAVGAGLALALAADIAVVGKGTRLLDGHLRLGVAAGDHAVLLWPLLVGMAKAKYHLLLNEPLTGEEAERLGLVALAVEDEKVYEKALEVAERLAQGPKEALHHTKHALNHWYRSFLPHFELSLALEFLGFSGKELEEGLKALKEKRPPEFP LASLEARYPGLAFAWPRPGVLEITFRGEKLNAMPPALHRGLARVWRDLEAVEGVRAVLLRGEGGVFSAGGSFGLIEEMRASHEALLRVFWEARDLVLGPLNFPRPVVAAVEKVAVGAGLALALAADIAVVGKGTRLLDGHLRLGVAAGDHAVLLWPLLVGMAKAKYHLLLNEPLTGEEAERLGLVALAVEDEKVYEKALEVAERLAQGPKEALHHTKHALNHWYRSFLPHFELSLALEFLGFSGKELEEGLKALKEKRPPEFP 1wzb-a1-m1-cA_1wzb-a1-m1-cC Crystal structure of the collagen triple helix model [{HYP(R)-HYP(R)-GLY}10]3 Q80BK4 Q80BK4 1.5 X-RAY DIFFRACTION 19 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 10 10 GGGGGGGGGG GGGGGGGGGG 1wzb-a1-m1-cB_1wzb-a1-m1-cA Crystal structure of the collagen triple helix model [{HYP(R)-HYP(R)-GLY}10]3 Q80BK4 Q80BK4 1.5 X-RAY DIFFRACTION 18 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 9 10 GGGGGGGGG GGGGGGGGGG 1wzd-a1-m1-cB_1wzd-a1-m1-cA Crystal Structure Of An Artificial Metalloprotein: Fe(10-CH2CH2COOH-Salophen)/Wild Type Heme oxygenase Q54AI1 Q54AI1 1.35 X-RAY DIFFRACTION 28 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 207 209 1wzf-a1-m1-cB_1wzf-a1-m1-cA 1wzg-a1-m1-cA_1wzg-a1-m1-cB GLAVELKQSTAQAHEKAEHSTFMSDLLKGRLGVAEFTRLQEQAWLFYTALEQAVDAVRASGFAESLLDPALNRAEVLARDLDKLNGSSEWRSRITASPAVIDYVNRLEEIRDNVDGPALVAHHYVRYLGDLSGGQVIARMMQRHYGVDPEALGFYHFEGIAKLKVYKDEYREKLNNLELSDEQREHLLKEATDAFVFNHQVFADLGK GLAVELKQSTAQAHEKAEHSTFMSDLLKGRLGVAEFTRLQEQAWLFYTALEQAVDAVRASGFAESLLDPALNRAEVLARDLDKLNGSSEWRSRITASPAVIDYVNRLEEIRDNVDGPALVAHHYVRYLGDLSGGQVIARMMQRHYGVDPEALGFYHFEGIAKLKVYKDEYREKLNNLELSDEQREHLLKEATDAFVFNHQVFADLGKGL 1wzl-a1-m1-cA_1wzl-a1-m1-cB Thermoactinomyces vulgaris R-47 alpha-amylase II (TVA II) mutatnt R469L Q08751 Q08751 2 X-RAY DIFFRACTION 92 1.0 2026 (Thermoactinomyces vulgaris) 2026 (Thermoactinomyces vulgaris) 585 585 1g1y-a1-m1-cA_1g1y-a1-m1-cB 1jf5-a1-m1-cA_1jf5-a1-m1-cB 1jf6-a1-m1-cA_1jf6-a1-m1-cB 1ji2-a1-m1-cA_1ji2-a1-m1-cB 1wzk-a1-m1-cA_1wzk-a1-m1-cB 1wzm-a1-m1-cA_1wzm-a1-m1-cB 2d2o-a1-m1-cA_2d2o-a1-m1-cB MLLEAIFHEAKGSYAYPISETQLRVRLRAKKGDVVRCEVLYADRYASPEEELAHALAGKAGSDERFDYFEALLECSTKRVKYVFLLTGPQGEAVYFGETGFSAERSKAGVFQYAYIHRSEVFTTPEWAKEAVIYQIFPERFANGDPSNDPPGTEQWAKDARPRHDSFYGGDLKGVIDRLPYLEELGVTALYFTPIFASPSHHKYDTADYLAIDPQFGDLPTFRRLVDEAHRRGIKIILDAVFNHAGDQFFAFRDVLQKGEQSRYKDWFFIEDFPVSKTSRTNYETFAVQVPAMPKLRTENPEVKEYLFDVARFWMEQGIDGWRLDVANEVDHAFWREFRRLVKSLNPDALIVGEIWHDASGWLMGDQFDSVMNYLFRESVIRFFATGEIHAERFDAELTRARMLYPEQAAQGLWNLLDSHDTERFLTSCGGNEAKFRLAVLFQMTYLGTPLIYYGDEIGMAGATDPDCLRPMIWEEKEQNRGLFEFYKELIRLRHRLASLTRGNVRSWHADKQANLYAFVRTVQDQHVGVVLNNRGEKQTVLLQVPESGGKTWLDCLTGEEVHGKQGQLKLTLRPYQGMILWNGR MLLEAIFHEAKGSYAYPISETQLRVRLRAKKGDVVRCEVLYADRYASPEEELAHALAGKAGSDERFDYFEALLECSTKRVKYVFLLTGPQGEAVYFGETGFSAERSKAGVFQYAYIHRSEVFTTPEWAKEAVIYQIFPERFANGDPSNDPPGTEQWAKDARPRHDSFYGGDLKGVIDRLPYLEELGVTALYFTPIFASPSHHKYDTADYLAIDPQFGDLPTFRRLVDEAHRRGIKIILDAVFNHAGDQFFAFRDVLQKGEQSRYKDWFFIEDFPVSKTSRTNYETFAVQVPAMPKLRTENPEVKEYLFDVARFWMEQGIDGWRLDVANEVDHAFWREFRRLVKSLNPDALIVGEIWHDASGWLMGDQFDSVMNYLFRESVIRFFATGEIHAERFDAELTRARMLYPEQAAQGLWNLLDSHDTERFLTSCGGNEAKFRLAVLFQMTYLGTPLIYYGDEIGMAGATDPDCLRPMIWEEKEQNRGLFEFYKELIRLRHRLASLTRGNVRSWHADKQANLYAFVRTVQDQHVGVVLNNRGEKQTVLLQVPESGGKTWLDCLTGEEVHGKQGQLKLTLRPYQGMILWNGR 1wzn-a1-m1-cC_1wzn-a1-m2-cC Crystal Structure of the SAM-dependent methyltransferase from Pyrococcus horikoshii OT3 O59000 O59000 1.9 X-RAY DIFFRACTION 61 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 244 244 1wzn-a1-m1-cA_1wzn-a1-m2-cB 1wzn-a1-m1-cB_1wzn-a1-m2-cA MYELYTLLAEYYDTIYRRRIERVKAEIDFVEEIFKEDAKREVRRVLDLACGTGIPTLELAERGYEVVGLDLHEEMLRVARRKAKERNLKIEFLQGDVLEIAFKNEFDAVTMFFSTIMYFDEEDLRKLFSKVAEALKPGGVFITDFPCGPVVWNEQKGEEKLVIMDWREVEPAVQKLRFKRLVQILRPNGEVKAFLVDDELNIYTPREVRLLAEKYFEKVKIYGNLKRELSPNDMRYWIVGIAKS MYELYTLLAEYYDTIYRRRIERVKAEIDFVEEIFKEDAKREVRRVLDLACGTGIPTLELAERGYEVVGLDLHEEMLRVARRKAKERNLKIEFLQGDVLEIAFKNEFDAVTMFFSTIMYFDEEDLRKLFSKVAEALKPGGVFITDFPCGPVVWNEQKGEEKLVIMDWREVEPAVQKLRFKRLVQILRPNGEVKAFLVDDELNIYTPREVRLLAEKYFEKVKIYGNLKRELSPNDMRYWIVGIAKS 1wzn-a1-m2-cB_1wzn-a1-m2-cC Crystal Structure of the SAM-dependent methyltransferase from Pyrococcus horikoshii OT3 O59000 O59000 1.9 X-RAY DIFFRACTION 31 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 244 244 1wzn-a1-m1-cA_1wzn-a1-m1-cB 1wzn-a1-m1-cA_1wzn-a1-m1-cC 1wzn-a1-m1-cB_1wzn-a1-m1-cC 1wzn-a1-m2-cA_1wzn-a1-m2-cB 1wzn-a1-m2-cA_1wzn-a1-m2-cC MYELYTLLAEYYDTIYRRRIERVKAEIDFVEEIFKEDAKREVRRVLDLACGTGIPTLELAERGYEVVGLDLHEEMLRVARRKAKERNLKIEFLQGDVLEIAFKNEFDAVTMFFSTIMYFDEEDLRKLFSKVAEALKPGGVFITDFPCGPVVWNEQKGEEKLVIMDWREVEPAVQKLRFKRLVQILRPNGEVKAFLVDDELNIYTPREVRLLAEKYFEKVKIYGNLKRELSPNDMRYWIVGIAKS MYELYTLLAEYYDTIYRRRIERVKAEIDFVEEIFKEDAKREVRRVLDLACGTGIPTLELAERGYEVVGLDLHEEMLRVARRKAKERNLKIEFLQGDVLEIAFKNEFDAVTMFFSTIMYFDEEDLRKLFSKVAEALKPGGVFITDFPCGPVVWNEQKGEEKLVIMDWREVEPAVQKLRFKRLVQILRPNGEVKAFLVDDELNIYTPREVRLLAEKYFEKVKIYGNLKRELSPNDMRYWIVGIAKS 1wzo-a1-m1-cA_1wzo-a1-m1-cD Crystal Structure of the HpcE from Thermus Thermophilus HB8 Q5SJQ0 Q5SJQ0 1.9 X-RAY DIFFRACTION 24 0.992 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 236 238 1wzo-a1-m1-cC_1wzo-a1-m1-cB MKLARFLAKGRVHQGVYREGLLLDEAGEAHRPEDVTWLLPFTPGKILGVALNYAGLSRPEEPALFWKPNTSLLPHKGVVLYPKGARFVHYEVELAVVVGRPMKRVRAKDALDYVLGYTIANDLVARDYVRPPIRAKGRDTFLPLGPFLVVEEVEDPQDLWLRAYVNGELRQEGHTSRMLYSVAELLEFISEFMTLEPYDVLLTGTPKGISQVRPGDVMRLEIEGLGALENPIEEEP MKLARFLAKGRVHQGVYREGLLLDEAGEAHRPEDVTWLLPFTPGKILGVALNYASRPEEPALFWKPNTSLLPHKGVVLYPKGARFVHYEVELAVVVGRPMKRVRAKDALDYVLGYTIANDLVARDYVTNTFRPPIRAKGRDTFLPLGPFLVVEEVEDPQDLWLRAYVNGELRQEGHTSRMLYSVAELLEFISEFMTLEPYDVLLTGTPKGISQVRPGDVMRLEIEGLGALENPIEEEP 1wzo-a1-m1-cB_1wzo-a1-m1-cD Crystal Structure of the HpcE from Thermus Thermophilus HB8 Q5SJQ0 Q5SJQ0 1.9 X-RAY DIFFRACTION 37 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 238 1wzo-a1-m1-cA_1wzo-a1-m1-cC MKLARFLAKGRVHQGVYREGLLLDEAGEAHRPEDVTWLLPFTPGKILGVALNYASRPEEPALFWKPNTSLLPHKGVVLYPKGARFVHYEVELAVVVGRPMKRVRAKDALDYVLGYTIANDLVARDYVTNTFRPPIRAKGRDTFLPLGPFLVVEEVEDPQDLWLRAYVNGELRQEGHTSRMLYSVAELLEFISEFMTLEPYDVLLTGTPKGISQVRPGDVMRLEIEGLGALENPIEEEP MKLARFLAKGRVHQGVYREGLLLDEAGEAHRPEDVTWLLPFTPGKILGVALNYASRPEEPALFWKPNTSLLPHKGVVLYPKGARFVHYEVELAVVVGRPMKRVRAKDALDYVLGYTIANDLVARDYVTNTFRPPIRAKGRDTFLPLGPFLVVEEVEDPQDLWLRAYVNGELRQEGHTSRMLYSVAELLEFISEFMTLEPYDVLLTGTPKGISQVRPGDVMRLEIEGLGALENPIEEEP 1wzo-a1-m1-cC_1wzo-a1-m1-cD Crystal Structure of the HpcE from Thermus Thermophilus HB8 Q5SJQ0 Q5SJQ0 1.9 X-RAY DIFFRACTION 81 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 236 238 1wzo-a1-m1-cA_1wzo-a1-m1-cB MKLARFLAKGRVHQGVYREGLLLDEAGEAHRPEDVTWLLPFTPGKILGVALNYARPEEPALFWKPNTSLLPHKGVVLYPKGARFVHYEVELAVVVGRPMKRVRAKDALDYVLGYTIANDLVARDYVTNTFRPPIRAKGRDTFLPLGPFLVVEEVEDPQDLWLRAYVNGELRQEGHTSRMLYSVAELLEFISEFMTLEPYDVLLTGTPKGISQVRPGDVMRLEIEGLGALENPIEEE MKLARFLAKGRVHQGVYREGLLLDEAGEAHRPEDVTWLLPFTPGKILGVALNYASRPEEPALFWKPNTSLLPHKGVVLYPKGARFVHYEVELAVVVGRPMKRVRAKDALDYVLGYTIANDLVARDYVTNTFRPPIRAKGRDTFLPLGPFLVVEEVEDPQDLWLRAYVNGELRQEGHTSRMLYSVAELLEFISEFMTLEPYDVLLTGTPKGISQVRPGDVMRLEIEGLGALENPIEEEP 1wzx-a1-m1-cB_1wzx-a1-m1-cA Crystal Structure of Family 30 Carbohydrate Binding Module. A3DD30 A3DD30 3.52 X-RAY DIFFRACTION 24 0.994 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 174 175 LLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSED RKLLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSE 1wzx-a1-m1-cC_1wzx-a1-m1-cA Crystal Structure of Family 30 Carbohydrate Binding Module. A3DD30 A3DD30 3.52 X-RAY DIFFRACTION 31 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 173 175 LLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSE RKLLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSE 1wzx-a1-m1-cD_1wzx-a1-m1-cB Crystal Structure of Family 30 Carbohydrate Binding Module. A3DD30 A3DD30 3.52 X-RAY DIFFRACTION 20 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 173 174 LLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSE LLDVQIFKDSPVVGWSGSGMGELETIGDTLPVDTTVTYNGLPTLRLNVQTTVQSGWWISLLTLRGWNTHDLSQYVENGYLEFDIKGKEGGEDFVIGFRDKVYERVYGLEIDVTTVISNYVTVTTDWQHVKIPLRDLMKINNGFDPSSVTCLVFSKRYADPFTVWFSDIKITSED 1x0g-a1-m1-cA_1x0g-a1-m1-cD Crystal Structure of IscA with the [2Fe-2S] cluster Q8DLM0 Q8DLM0 2.5 X-RAY DIFFRACTION 57 0.98 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 102 104 1x0g-a1-m1-cB_1x0g-a1-m1-cC MVELTPAAIQELERLQILRIQVQPSECGDWRYDLALVAEPKPTDLLTQSQGWTIAIAAEAAELLRGLRVDYIEDLMGGAFRFHNPNASQTCGCGMAFRVSRS MVELTPAAIQELERLQTHAAILRIQVQPSECGDWRYDLALVAEPKPTDLLTQSQGWTIAIAAEAAELLRGLRVDYIEDLMGGAFRFHNPNASQTCGCGMAFRVS 1x0g-a1-m1-cD_1x0g-a1-m1-cB Crystal Structure of IscA with the [2Fe-2S] cluster Q8DLM0 Q8DLM0 2.5 X-RAY DIFFRACTION 314 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 104 110 MVELTPAAIQELERLQTHAAILRIQVQPSECGDWRYDLALVAEPKPTDLLTQSQGWTIAIAAEAAELLRGLRVDYIEDLMGGAFRFHNPNASQTCGCGMAFRVS MVELTPAAIQELERLQTHGVRRGQAAILRIQVQPSECGDWRYDLALVAEPKPTDLLTQSQGWTIAIAAEAAELLRGLRVDYIEDLMGGAFRFHNPNASQTCGCGMAFRVS 1x0g-a1-m1-cD_1x0g-a1-m1-cC Crystal Structure of IscA with the [2Fe-2S] cluster Q8DLM0 Q8DLM0 2.5 X-RAY DIFFRACTION 33 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 104 111 1x0g-a1-m1-cA_1x0g-a1-m1-cB MVELTPAAIQELERLQTHAAILRIQVQPSECGDWRYDLALVAEPKPTDLLTQSQGWTIAIAAEAAELLRGLRVDYIEDLMGGAFRFHNPNASQTCGCGMAFRVS MVELTPAAIQELERLQTHGVRRGQAAILRIQVQPSECGDWRYDLALVAEPKPTDLLTQSQGWTIAIAAEAAELLRGLRVDYIEDLMGGAFRFHNPNASQTCGCGMAFRVSR 1x0p-a1-m1-cH_1x0p-a1-m1-cC Structure of a cyanobacterial BLUF protein, Tll0078 Q8DMN3 Q8DMN3 2 X-RAY DIFFRACTION 52 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 138 139 1x0p-a1-m1-cA_1x0p-a1-m1-cF 1x0p-a1-m1-cB_1x0p-a1-m1-cG 1x0p-a1-m1-cD_1x0p-a1-m1-cI 1x0p-a1-m1-cJ_1x0p-a1-m1-cE GLHRLIYLSCATDGLSYPDLRDIMAKSEVNNLRDGITGMLCYGNGMFLQTLEGDRQKVSETYARILKDPRHHSAEIVEFKAIEERTFINWSMRLVQLGEMDSDTIRRLRLKYSPAATFQPRSMTAEQCFRFLKELYDM GLHRLIYLSCATDGLSYPDLRDIMAKSEVNNLRDGITGMLCYGNGMFLQTLEGDRQKVSETYARILKDPRHHSAEIVEFKAIEERTFINWSMRLVQLGEMDSDTIRRLRLKYSPAATFQPRSMTAEQCFRFLKELYDMS 1x0p-a1-m1-cH_1x0p-a1-m1-cG Structure of a cyanobacterial BLUF protein, Tll0078 Q8DMN3 Q8DMN3 2 X-RAY DIFFRACTION 43 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 138 139 1x0p-a1-m1-cB_1x0p-a1-m1-cC 1x0p-a1-m1-cB_1x0p-a1-m1-cF 1x0p-a1-m1-cC_1x0p-a1-m1-cD 1x0p-a1-m1-cD_1x0p-a1-m1-cE 1x0p-a1-m1-cE_1x0p-a1-m1-cF 1x0p-a1-m1-cG_1x0p-a1-m1-cA 1x0p-a1-m1-cH_1x0p-a1-m1-cI 1x0p-a1-m1-cJ_1x0p-a1-m1-cA 1x0p-a1-m1-cJ_1x0p-a1-m1-cI GLHRLIYLSCATDGLSYPDLRDIMAKSEVNNLRDGITGMLCYGNGMFLQTLEGDRQKVSETYARILKDPRHHSAEIVEFKAIEERTFINWSMRLVQLGEMDSDTIRRLRLKYSPAATFQPRSMTAEQCFRFLKELYDM GLHRLIYLSCATDGLSYPDLRDIMAKSEVNNLRDGITGMLCYGNGMFLQTLEGDRQKVSETYARILKDPRHHSAEIVEFKAIEERTFINWSMRLVQLGEMDSDTIRRLRLKYSPAATFQPRSMTAEQCFRFLKELYDMS 1x0u-a1-m1-cB_1x0u-a1-m1-cE Crystal Structure of the carboxyl transferase subunit of putative PCC of Sulfolobus tokodaii F9VN45 F9VN45 2.2 X-RAY DIFFRACTION 375 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 518 518 1x0u-a1-m1-cA_1x0u-a1-m1-cD 1x0u-a1-m1-cC_1x0u-a1-m1-cF KPPVEKLIEELRQLKEKAYKGGGDERIQFQHSKGKLTARERLALLFDDGKFNEIMTFATTRATEFGLDKQRFYGDGVVTGWGKVDGRTVFAYAQDFTVLGGSLGETHANKIVRAYELALKVGAPVVGINDSGGARIQEGALSLEGYGAVFKMNVMASGVIPQITIMAGPAAGGAVYSPALTDFIIMIKGDAYYMFVTGPEITKVVLGEEVSFQDLGGAVVHATKSGVVHFMVDSEQEAINLTKRLLSYLPSNNMEEPPYIDTGDPADRDATGVEQIVPNDAAKPYNMREIIYKIVDNGEFLEVHKHWAQNIIVGFARIAGNVVGIVANNPEEFGGSIDIDAADKAARFIRFCDAFNIPLISLVDTPGYVPGTDQEYKGIIRHGAKMLYAFAEATVPKITVIVRKSYGGAHIAMSIKSLGADLVYAWPTAEIAVTGPEGAVRILYRKEIQQASNPDDVLKQRIAEYRKLFANPYWAAEKGLVDDVIEPKDTRRVIVAGLEMLKTKREYRYPKKHGNIPL KPPVEKLIEELRQLKEKAYKGGGDERIQFQHSKGKLTARERLALLFDDGKFNEIMTFATTRATEFGLDKQRFYGDGVVTGWGKVDGRTVFAYAQDFTVLGGSLGETHANKIVRAYELALKVGAPVVGINDSGGARIQEGALSLEGYGAVFKMNVMASGVIPQITIMAGPAAGGAVYSPALTDFIIMIKGDAYYMFVTGPEITKVVLGEEVSFQDLGGAVVHATKSGVVHFMVDSEQEAINLTKRLLSYLPSNNMEEPPYIDTGDPADRDATGVEQIVPNDAAKPYNMREIIYKIVDNGEFLEVHKHWAQNIIVGFARIAGNVVGIVANNPEEFGGSIDIDAADKAARFIRFCDAFNIPLISLVDTPGYVPGTDQEYKGIIRHGAKMLYAFAEATVPKITVIVRKSYGGAHIAMSIKSLGADLVYAWPTAEIAVTGPEGAVRILYRKEIQQASNPDDVLKQRIAEYRKLFANPYWAAEKGLVDDVIEPKDTRRVIVAGLEMLKTKREYRYPKKHGNIPL 1x0u-a1-m1-cD_1x0u-a1-m1-cE Crystal Structure of the carboxyl transferase subunit of putative PCC of Sulfolobus tokodaii F9VN45 F9VN45 2.2 X-RAY DIFFRACTION 73 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 518 518 1x0u-a1-m1-cA_1x0u-a1-m1-cB 1x0u-a1-m1-cA_1x0u-a1-m1-cC 1x0u-a1-m1-cB_1x0u-a1-m1-cC 1x0u-a1-m1-cD_1x0u-a1-m1-cF 1x0u-a1-m1-cE_1x0u-a1-m1-cF KPPVEKLIEELRQLKEKAYKGGGDERIQFQHSKGKLTARERLALLFDDGKFNEIMTFATTRATEFGLDKQRFYGDGVVTGWGKVDGRTVFAYAQDFTVLGGSLGETHANKIVRAYELALKVGAPVVGINDSGGARIQEGALSLEGYGAVFKMNVMASGVIPQITIMAGPAAGGAVYSPALTDFIIMIKGDAYYMFVTGPEITKVVLGEEVSFQDLGGAVVHATKSGVVHFMVDSEQEAINLTKRLLSYLPSNNMEEPPYIDTGDPADRDATGVEQIVPNDAAKPYNMREIIYKIVDNGEFLEVHKHWAQNIIVGFARIAGNVVGIVANNPEEFGGSIDIDAADKAARFIRFCDAFNIPLISLVDTPGYVPGTDQEYKGIIRHGAKMLYAFAEATVPKITVIVRKSYGGAHIAMSIKSLGADLVYAWPTAEIAVTGPEGAVRILYRKEIQQASNPDDVLKQRIAEYRKLFANPYWAAEKGLVDDVIEPKDTRRVIVAGLEMLKTKREYRYPKKHGNIPL KPPVEKLIEELRQLKEKAYKGGGDERIQFQHSKGKLTARERLALLFDDGKFNEIMTFATTRATEFGLDKQRFYGDGVVTGWGKVDGRTVFAYAQDFTVLGGSLGETHANKIVRAYELALKVGAPVVGINDSGGARIQEGALSLEGYGAVFKMNVMASGVIPQITIMAGPAAGGAVYSPALTDFIIMIKGDAYYMFVTGPEITKVVLGEEVSFQDLGGAVVHATKSGVVHFMVDSEQEAINLTKRLLSYLPSNNMEEPPYIDTGDPADRDATGVEQIVPNDAAKPYNMREIIYKIVDNGEFLEVHKHWAQNIIVGFARIAGNVVGIVANNPEEFGGSIDIDAADKAARFIRFCDAFNIPLISLVDTPGYVPGTDQEYKGIIRHGAKMLYAFAEATVPKITVIVRKSYGGAHIAMSIKSLGADLVYAWPTAEIAVTGPEGAVRILYRKEIQQASNPDDVLKQRIAEYRKLFANPYWAAEKGLVDDVIEPKDTRRVIVAGLEMLKTKREYRYPKKHGNIPL 1x0x-a2-m1-cA_1x0x-a2-m2-cA Co-Structure of Homo Sapiens Glycerol-3-Phosphate Dehydrogenase 1 complex with NAD P21695 P21695 2.75 X-RAY DIFFRACTION 144 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 350 350 1wpq-a1-m1-cA_1wpq-a1-m1-cB 1x0v-a1-m1-cA_1x0v-a1-m1-cB 6e8y-a1-m1-cB_6e8y-a1-m1-cA 6e8z-a1-m1-cA_6e8z-a1-m1-cB 6e90-a1-m1-cA_6e90-a1-m1-cC 6e90-a2-m2-cD_6e90-a2-m1-cB 6pyp-a1-m1-cB_6pyp-a1-m1-cA SMASKKVCIVGSGNWGSAIAKIVGGNAAQLAQFDPRVTMWVFEEDIGGKKLTEIINTQHENVKYLPGHKLPPNVVAVPDVVQAAEDADILIFVVPHQFIGKICDQLKGHLKANATGISLIKGVDEGPNGLKLISEVIGERLGIPMSVLMGANIASEVADEKFCETTIGCKDPAQGQLLKELMQTPNFRITVVQEVDTVEICGALKNVVAVGAGFCDGLGFGDNTKAAVIRLGLMEMIAFAKLFCSGPVSSATFLESCGVADLITTCYGGRNRKVAEAFARTGKSIEQLEKELLNGQKLQGPETARELYSILQHKGLVDKFPLFMAVYKVCYEGQPVGEFIHCLQNHPEHM SMASKKVCIVGSGNWGSAIAKIVGGNAAQLAQFDPRVTMWVFEEDIGGKKLTEIINTQHENVKYLPGHKLPPNVVAVPDVVQAAEDADILIFVVPHQFIGKICDQLKGHLKANATGISLIKGVDEGPNGLKLISEVIGERLGIPMSVLMGANIASEVADEKFCETTIGCKDPAQGQLLKELMQTPNFRITVVQEVDTVEICGALKNVVAVGAGFCDGLGFGDNTKAAVIRLGLMEMIAFAKLFCSGPVSSATFLESCGVADLITTCYGGRNRKVAEAFARTGKSIEQLEKELLNGQKLQGPETARELYSILQHKGLVDKFPLFMAVYKVCYEGQPVGEFIHCLQNHPEHM 1x11-a2-m1-cA_1x11-a2-m2-cA X11 PTB DOMAIN Q02410 Q02410 2.5 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 EDLIDGIIFAANYLGSTQLLSDKTPSKNVRQAQEAVSRIKAQTEVDLFILTQRIKVLNADTQETDHPLRTISYIADIGNIVVLARDGKRQYKICHVFESEDAQLIAQSIGQAFSVAYQEFLRANGI EDLIDGIIFAANYLGSTQLLSDKTPSKNVRQAQEAVSRIKAQTEVDLFILTQRIKVLNADTQETDHPLRTISYIADIGNIVVLARDGKRQYKICHVFESEDAQLIAQSIGQAFSVAYQEFLRANGI 1x13-a1-m1-cB_1x13-a1-m1-cA Crystal structure of E. coli transhydrogenase domain I P07001 P07001 1.9 X-RAY DIFFRACTION 114 0.989 562 (Escherichia coli) 562 (Escherichia coli) 364 368 1x14-a1-m1-cB_1x14-a1-m1-cA 1x15-a1-m1-cB_1x15-a1-m1-cA 2bru-a1-m1-cB_2bru-a1-m1-cA HHGRIGIPRERLTNETRVAATPKTVEQLLKLGFTVAVESGAGQLASFDDKAFVQAGAEIVEGNSVWQSEIILKVNAPLDDEIALLNPGTTLVSFIWPAQNPELMQKLAERNVTVMAMDSVPRISRAQSLDALSSMANIAGYRAIVEAAHEFGRFFTGQITAAGKVPPAKVMVIGAGVAGLAAIGAANSLGAIVRAFDTRPEVKEQVQSMGAEFLELDSDAFIKAEMELFAAQAKEVDIIVTTALIPGKPAPKLITREMVDSMKAGSVIVDLAAQNGGNCEYTVPGEIFTTENGVKVIGYTDLPGRLPTQSSQLYGTNLVNLLKLLCKEKDGNITVDFDDVVIRGVTVIRAGEITWPAPPIQVSA GRIGIPRERLTNETRVAATPKTVEQLLKLGFTVAVESGAGQLASFDDKAFVQAGAEIVEGNSVWQSEIILKVNAPLDDEIALLNPGTTLVSFIWPAQNPELMQKLAERNVTVMAMDSVPRISRAQSLDALSSMANIAGYRAIVEAAHEFGRFFTGQITAAGKVPPAKVMVIGAGVAGLAAIGAANSLGAIVRAFDTRPEVKEQVQSMGAEFLELGDGYAKVMSDAFIKAEMELFAAQAKEVDIIVTTALIPGKPAPKLITREMVDSMKAGSVIVDLAAQNGGNCEYTVPGEIFTTENGVKVIGYTDLPGRLPTQSSQLYGTNLVNLLKLLCKEKDGNITVDFDDVVIRGVTVIRAGEITWPAPPIQVS 1x1b-a2-m1-cA_1x1b-a2-m2-cA Crystal structure of BchU complexed with S-adenosyl-L-homocysteine Q8KGE0 Q8KGE0 2.6 X-RAY DIFFRACTION 261 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 337 337 1x19-a2-m1-cA_1x19-a2-m2-cA 1x1a-a2-m1-cA_1x1a-a2-m2-cA 1x1c-a2-m1-cA_1x1c-a2-m2-cA 1x1d-a2-m1-cA_1x1d-a2-m2-cA SNNDLLNYYHRANELVFKGLIEFSCMKAAIELDLFSHMAEGPKDLATLAADTGSVPPRLEMLLETLRQMRVINLEDGKWSLTEFADYMFSPTPKEPNLHQTPVAKAMAFLADDFYMGLSQAVRGQKNFKGQVPYPPVTREDNLYFEEIHRSNAKFAIQLLLEEAKLDGVKKMIDVGGGIGDISAAMLKHFPELDSTILNLPGAIDLVNENAAEKGVADRMRGIAVDIYKESYPEADAVLFCRILYSANEQLSTIMCKKAFDAMRSGGRLLILDMVIDDPENPNFDYLSHYILGAGMPFSVLGFKEQARYKEILESLGYKDVTMVRKYDHLLVQAVKP SNNDLLNYYHRANELVFKGLIEFSCMKAAIELDLFSHMAEGPKDLATLAADTGSVPPRLEMLLETLRQMRVINLEDGKWSLTEFADYMFSPTPKEPNLHQTPVAKAMAFLADDFYMGLSQAVRGQKNFKGQVPYPPVTREDNLYFEEIHRSNAKFAIQLLLEEAKLDGVKKMIDVGGGIGDISAAMLKHFPELDSTILNLPGAIDLVNENAAEKGVADRMRGIAVDIYKESYPEADAVLFCRILYSANEQLSTIMCKKAFDAMRSGGRLLILDMVIDDPENPNFDYLSHYILGAGMPFSVLGFKEQARYKEILESLGYKDVTMVRKYDHLLVQAVKP 1x1k-a1-m1-cB_1x1k-a1-m1-cD Host-guest peptide (Pro-Pro-Gly)4-(Pro-alloHyp-Gly)-(Pro-Pro-Gly)4 Q80BK4 Q80BK4 1.1 X-RAY DIFFRACTION 10 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 26 26 PPGPPGPPGPPGPGPPGPPGPPGPPG PPGPPGPPGPPGPGPPGPPGPPGPPG 1x1n-a2-m1-cA_1x1n-a2-m2-cA Structure determination and refinement at 1.8 A resolution of Disproportionating Enzyme from Potato Q06801 Q06801 1.8 X-RAY DIFFRACTION 153 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 523 523 6lx1-a1-m1-cA_6lx1-a1-m2-cA 6lx2-a1-m1-cA_6lx2-a1-m2-cA 7cov-a1-m1-cA_7cov-a1-m2-cA VPAVGEDFPIDYADWLPKRDPNDRRRAGILLHPTSFPGPYGIGDLGPQAFKFLDWLHLAGCSLWQVLPLVPPGKRGNEDGSPYSGQDANCGNTLLISLEELVDDGLLKMEELPEPLPTDRVNYSTISEIKDPLITKAAKRLLSSEGELKDQLENFRRDPNISSWLEDAAYFAAIDNSVNTISWYDWPEPLKNRHLAALEEVYQSEKDFIDIFIAQQFLFQRQWKKVRDYARSKGISIMGDMPIYVGYHSADVWANKKQFLLNRKGFPLIVSGVPPDAFSETGQLWGSPLYDWKAMEKDGFSWWVRRIQRATDLFDEFRIDHFRGFAGFWAVPSEEKIAILGRWKVGPGKPLFDAILQAVGKINIIAEDLGVITEDVVQLRKSIEAPGMAVLQFAFGSDAENPHLPHNHEQNQVVYTGTHDNDTIRGWWDTLPQEEKSNVLKYLSNIEEEEISRGLIEGAVSSVARIAIIPMQDVLGLGSDSRMNIPATQFGNWSWRIPSSTSFDNLDAEAKKLRDILATYGRL VPAVGEDFPIDYADWLPKRDPNDRRRAGILLHPTSFPGPYGIGDLGPQAFKFLDWLHLAGCSLWQVLPLVPPGKRGNEDGSPYSGQDANCGNTLLISLEELVDDGLLKMEELPEPLPTDRVNYSTISEIKDPLITKAAKRLLSSEGELKDQLENFRRDPNISSWLEDAAYFAAIDNSVNTISWYDWPEPLKNRHLAALEEVYQSEKDFIDIFIAQQFLFQRQWKKVRDYARSKGISIMGDMPIYVGYHSADVWANKKQFLLNRKGFPLIVSGVPPDAFSETGQLWGSPLYDWKAMEKDGFSWWVRRIQRATDLFDEFRIDHFRGFAGFWAVPSEEKIAILGRWKVGPGKPLFDAILQAVGKINIIAEDLGVITEDVVQLRKSIEAPGMAVLQFAFGSDAENPHLPHNHEQNQVVYTGTHDNDTIRGWWDTLPQEEKSNVLKYLSNIEEEEISRGLIEGAVSSVARIAIIPMQDVLGLGSDSRMNIPATQFGNWSWRIPSSTSFDNLDAEAKKLRDILATYGRL 1x1o-a1-m2-cA_1x1o-a1-m2-cC Crystal structure of project ID TT0268 from Thermus thermophilus HB8 Q5SJM3 Q5SJM3 1.9 X-RAY DIFFRACTION 18 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 277 277 1x1o-a1-m1-cA_1x1o-a1-m1-cC 1x1o-a1-m1-cB_1x1o-a1-m2-cA 1x1o-a1-m1-cB_1x1o-a1-m2-cC 1x1o-a1-m2-cB_1x1o-a1-m1-cA 1x1o-a1-m2-cB_1x1o-a1-m1-cC WQGGLEEALRAWLREDLGQGDLTSLLVVPEDLEGEAVILAKEGGVLAGLWVAERVFALADPRTAFTPLVAEGARVAEGTEVARVRGPLRGILAGERLALNLLQRLSGIATLTRAYVEALAGTKAQILDTRKTTPGLRALEKYAVRVGGGRNHRYGLFDGILLKENHVRAAGGVGEAVRRAKARAPHYLKVEVEVRSLEELEEALEAGADLILLDNFPLEALREAVRRVGGRVPLEASGNMTLERAKAAAEAGVDYVSVGALTHSAKALDLSLLVVRP WQGGLEEALRAWLREDLGQGDLTSLLVVPEDLEGEAVILAKEGGVLAGLWVAERVFALADPRTAFTPLVAEGARVAEGTEVARVRGPLRGILAGERLALNLLQRLSGIATLTRAYVEALAGTKAQILDTRKTTPGLRALEKYAVRVGGGRNHRYGLFDGILLKENHVRAAGGVGEAVRRAKARAPHYLKVEVEVRSLEELEEALEAGADLILLDNFPLEALREAVRRVGGRVPLEASGNMTLERAKAAAEAGVDYVSVGALTHSAKALDLSLLVVRP 1x1o-a1-m2-cB_1x1o-a1-m2-cA Crystal structure of project ID TT0268 from Thermus thermophilus HB8 Q5SJM3 Q5SJM3 1.9 X-RAY DIFFRACTION 176 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 276 277 1x1o-a1-m1-cB_1x1o-a1-m1-cA 1x1o-a1-m1-cC_1x1o-a1-m2-cC QGGLEEALRAWLREDLGQGDLTSLLVVPEDLEGEAVILAKEGGVLAGLWVAERVFALADPRTAFTPLVAEGARVAEGTEVARVRGPLRGILAGERLALNLLQRLSGIATLTRAYVEALAGTKAQILDTRKTTPGLRALEKYAVRVGGGRNHRYGLFDGILLKENHVRAAGGVGEAVRRAKARAPHYLKVEVEVRSLEELEEALEAGADLILLDNFPLEALREAVRRVGGRVPLEASGNMTLERAKAAAEAGVDYVSVGALTHSAKALDLSLLVVRP WQGGLEEALRAWLREDLGQGDLTSLLVVPEDLEGEAVILAKEGGVLAGLWVAERVFALADPRTAFTPLVAEGARVAEGTEVARVRGPLRGILAGERLALNLLQRLSGIATLTRAYVEALAGTKAQILDTRKTTPGLRALEKYAVRVGGGRNHRYGLFDGILLKENHVRAAGGVGEAVRRAKARAPHYLKVEVEVRSLEELEEALEAGADLILLDNFPLEALREAVRRVGGRVPLEASGNMTLERAKAAAEAGVDYVSVGALTHSAKALDLSLLVVRP 1x1o-a1-m2-cB_1x1o-a1-m2-cC Crystal structure of project ID TT0268 from Thermus thermophilus HB8 Q5SJM3 Q5SJM3 1.9 X-RAY DIFFRACTION 58 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 276 277 1x1o-a1-m1-cA_1x1o-a1-m2-cA 1x1o-a1-m1-cB_1x1o-a1-m1-cC QGGLEEALRAWLREDLGQGDLTSLLVVPEDLEGEAVILAKEGGVLAGLWVAERVFALADPRTAFTPLVAEGARVAEGTEVARVRGPLRGILAGERLALNLLQRLSGIATLTRAYVEALAGTKAQILDTRKTTPGLRALEKYAVRVGGGRNHRYGLFDGILLKENHVRAAGGVGEAVRRAKARAPHYLKVEVEVRSLEELEEALEAGADLILLDNFPLEALREAVRRVGGRVPLEASGNMTLERAKAAAEAGVDYVSVGALTHSAKALDLSLLVVRP WQGGLEEALRAWLREDLGQGDLTSLLVVPEDLEGEAVILAKEGGVLAGLWVAERVFALADPRTAFTPLVAEGARVAEGTEVARVRGPLRGILAGERLALNLLQRLSGIATLTRAYVEALAGTKAQILDTRKTTPGLRALEKYAVRVGGGRNHRYGLFDGILLKENHVRAAGGVGEAVRRAKARAPHYLKVEVEVRSLEELEEALEAGADLILLDNFPLEALREAVRRVGGRVPLEASGNMTLERAKAAAEAGVDYVSVGALTHSAKALDLSLLVVRP 1x1q-a1-m1-cB_1x1q-a1-m1-cA Crystal structure of tryptophan synthase beta chain from Thermus thermophilus HB8 P16609 P16609 2.5 X-RAY DIFFRACTION 84 0.991 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 347 377 LTLPDFPLPDARGRFGPYGGRYVPETLIPALEELEAAYREAKKDPAFLEELDHYLRQFAGRPTPLYHAKRLSEYWGGAQVFLKREDLLHTGAHKINNTLGQALLARRGKRRVIAETGAGQHGVSVATVAALFGLECVVYGEEDVRRQALNVFRKLLGAEVRPTLKDATNEAIRDWITNVRTTFYILGSVVGPHPYPVRDFQSVIGEEVKRQSLELFGRLPDALIAAVGGGSNAIGLFAPFAYLPEGRPKLIGVEAASVSAGLDYPGVGPEHSYYADAGVAEYASVTDEEALEGFKLLARLEGIIPALESAHAIAYAAKVVPEDKDQVVVINLSGRGDKDVTEVRLLG LTLPDFPLPDARGRFGPYGGRYVPETLIPALEELEAAYREAKKDPAFLEELDHYLRQFAGRPTPLYHAKRLSEYWGGAQVFLKREDLLHTGAHKINNTLGQALLARRGKRRVIAETGAGQHGVSVATVAALFGLECVVYGEEDVRRQALNVFRKLLGAEVRPVAAGSRTLKDATNEAIRDWITNVRTTFYILGSVVGPHPYPVRDFQSVIGEEVKRQSLELFGRLPDALIAAVGGGSNAIGLFAPFAYLPEGRPKLIGVEAAGEGLSTGRHAASIGAGKRGVLHGSYYLLYDYPGVGPEHSYYADAGVAEYASVTDEEALEGFKLLARLEGIIPALESAHAIAYAAKVVPEDKDQVVVINLSGRGDKDVTEVRLLGG 1x1t-a1-m1-cA_1x1t-a1-m4-cA Crystal Structure of D-3-Hydroxybutyrate Dehydrogenase from Pseudomonas fragi Complexed with NAD+ Q5KST5 Q5KST5 1.52 X-RAY DIFFRACTION 10 1.0 296 (Pseudomonas fragi) 296 (Pseudomonas fragi) 236 236 1wmb-a1-m1-cA_1wmb-a1-m2-cB 1wmb-a1-m1-cB_1wmb-a1-m2-cA 1x1t-a1-m2-cA_1x1t-a1-m3-cA 2ztl-a1-m1-cA_2ztl-a1-m1-cD 2ztl-a1-m1-cB_2ztl-a1-m1-cC 2ztm-a1-m1-cB_2ztm-a1-m1-cC 2ztm-a1-m1-cD_2ztm-a1-m1-cA 2ztu-a1-m1-cA_2ztu-a1-m1-cD 2ztu-a1-m1-cB_2ztu-a1-m1-cC 2ztv-a1-m1-cB_2ztv-a1-m1-cC 2ztv-a1-m1-cD_2ztv-a1-m1-cA MLKGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEIEKVRAGLAAQHGVKVLYDGADLSKGEAVRGLVDNAVRQMGRIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGVVGFTKVTALETAGQGITANAICPGWVRTLLSEKQPSLQFVTPEQLGGTAVFLASDAAAQITGTTVSVDGGWTAR MLKGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEIEKVRAGLAAQHGVKVLYDGADLSKGEAVRGLVDNAVRQMGRIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGVVGFTKVTALETAGQGITANAICPGWVRTLLSEKQPSLQFVTPEQLGGTAVFLASDAAAQITGTTVSVDGGWTAR 1x25-a3-m4-cB_1x25-a3-m5-cB Crystal Structure of a Member of YjgF Family from Sulfolobus Tokodaii (ST0811) Q973T6 Q973T6 2 X-RAY DIFFRACTION 92 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 128 128 1x25-a1-m1-cA_1x25-a1-m2-cA 1x25-a1-m1-cA_1x25-a1-m3-cA 1x25-a1-m2-cA_1x25-a1-m3-cA 1x25-a3-m1-cB_1x25-a3-m4-cB 1x25-a3-m1-cB_1x25-a3-m5-cB GSHMETVFTEKAPKPVGPYSQAIKVGNTLYVSGQIPIDPRTNEIVKGDIKVQTRQVLDNIKEIVKAAGFSLSDVAMAFVFLKDMNMFNDFNSVYAEYFKDKPPARVTVEVSRLPKDALIEIAVICSKG GSHMETVFTEKAPKPVGPYSQAIKVGNTLYVSGQIPIDPRTNEIVKGDIKVQTRQVLDNIKEIVKAAGFSLSDVAMAFVFLKDMNMFNDFNSVYAEYFKDKPPARVTVEVSRLPKDALIEIAVICSKG 1x27-a1-m1-cA_1x27-a1-m1-cF Crystal Structure of Lck SH2-SH3 with SH2 binding site of p130Cas P06239 P06239 2.7 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 1x27-a1-m1-cD_1x27-a1-m1-cB 1x27-a1-m1-cE_1x27-a1-m1-cC NLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKANSLEPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQT NLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKANSLEPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQT 1x27-a1-m1-cD_1x27-a1-m1-cF Crystal Structure of Lck SH2-SH3 with SH2 binding site of p130Cas P06239 P06239 2.7 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 1x27-a1-m1-cA_1x27-a1-m1-cE 1x27-a1-m1-cB_1x27-a1-m1-cC NLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKANSLEPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQT NLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKANSLEPEPWFFKNLSRKDAERQLLAPGNTHGSFLIRESESTAGSFSLSVRDFDQNQGEVVKHYKIRNLDNGGFYISPRITFPGLHELVRHYTNASDGLCTRLSRPCQT 1x2g-a4-m2-cB_1x2g-a4-m2-cA Crystal Structure of Lipate-Protein Ligase A from Escherichia coli P32099 P32099 2.4 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 325 326 1x2g-a4-m1-cB_1x2g-a4-m1-cA STLRLLISDSYDPWFNLAVEECIFRQPATQRVLFLWRNADTVVIGRAQNPWKECNTRREEDNVRLARRSSGGGAVFHDLGNTCFTFAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADLQQECEALLVDFPEQEKELRELSAWAGAVR STLRLLISDSYDPWFNLAVEECIFRQPATQRVLFLWRNADTVVIGRAQNPWKECNTRREEDNVRLARRSSGGGAVFHDLGNTCFTFAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKGRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADLQQECEALLVDFPEQEKELRELSAWAGAVR 1x2g-a4-m2-cB_1x2g-a4-m2-cC Crystal Structure of Lipate-Protein Ligase A from Escherichia coli P32099 P32099 2.4 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 325 332 1x2g-a4-m1-cB_1x2g-a4-m1-cC 1x2g-a4-m1-cB_1x2g-a4-m2-cA 1x2g-a4-m2-cB_1x2g-a4-m1-cA STLRLLISDSYDPWFNLAVEECIFRQPATQRVLFLWRNADTVVIGRAQNPWKECNTRREEDNVRLARRSSGGGAVFHDLGNTCFTFAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADLQQECEALLVDFPEQEKELRELSAWAGAVR STLRLLISDSYDPWFNLAVEECIFRQPATQRVLFLWRNADTVVIGRAQNPWKECNTRREEDNVRLARRSSGGGAVFHDLGNTCFTFAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKGITSVRSRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADLQQECEALLVDFPEQEKELRELSAWAGAVR 1x2g-a5-m1-cA_1x2g-a5-m1-cC Crystal Structure of Lipate-Protein Ligase A from Escherichia coli P32099 P32099 2.4 X-RAY DIFFRACTION 115 1.0 562 (Escherichia coli) 562 (Escherichia coli) 326 332 1x2g-a4-m1-cA_1x2g-a4-m1-cC 1x2g-a4-m1-cB_1x2g-a4-m2-cB 1x2g-a4-m2-cA_1x2g-a4-m2-cC 1x2g-a6-m1-cB_1x2g-a6-m2-cB STLRLLISDSYDPWFNLAVEECIFRQPATQRVLFLWRNADTVVIGRAQNPWKECNTRREEDNVRLARRSSGGGAVFHDLGNTCFTFAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKGRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADLQQECEALLVDFPEQEKELRELSAWAGAVR STLRLLISDSYDPWFNLAVEECIFRQPATQRVLFLWRNADTVVIGRAQNPWKECNTRREEDNVRLARRSSGGGAVFHDLGNTCFTFAGKPEYDKTISTSIVLNALNALGVSAEASGRNDLVVKTVEGDRKVSGSAYRETKDRGFHHGTLLLNADLSRLANYLNPDKKKLAAKGITSVRSRVTNLTELLPGITHEQVCEAITEAFFAHYGERVEAEIISPNKTPDLPNFAETFARQSSWEWNFGQAPAFSHLLDERFTWGGVELHFDVEKGHITRAQVFTDSLNPAPLEALAGRLQGCLYRADLQQECEALLVDFPEQEKELRELSAWAGAVR 1x2i-a1-m1-cA_1x2i-a1-m1-cB Crystal Structure Of Archaeal Xpf/Mus81 Homolog, Hef From Pyrococcus Furiosus, Helix-hairpin-helix Domain Q8TZH8 Q8TZH8 1.45 X-RAY DIFFRACTION 80 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 68 68 ALTLAERQRLIVEGLPHVSATLARRLLKHFGSVERVFTASVAELMKVEGIGEKIAKEIRRVITAPYIE ALTLAERQRLIVEGLPHVSATLARRLLKHFGSVERVFTASVAELMKVEGIGEKIAKEIRRVITAPYIE 1x2w-a2-m1-cA_1x2w-a2-m2-cA Crystal Structure of Apo-Habu IX-bp at pH 4.6 Q7LZ71 Q7LZ71 2.29 X-RAY DIFFRACTION 37 1.0 88087 (Protobothrops flavoviridis) 88087 (Protobothrops flavoviridis) 129 129 DCPSGWSSYEGHCYKPFKLYKTWDDAERFCTEQAKGGHLVSIESAGEADFVAQLVTENIQNTKSYVWIGLRVQGKEKQCSSEWSDGSSVSYENWIEAESKTCLGLEKETGFRKWVNIYCGQQNPFVCEA DCPSGWSSYEGHCYKPFKLYKTWDDAERFCTEQAKGGHLVSIESAGEADFVAQLVTENIQNTKSYVWIGLRVQGKEKQCSSEWSDGSSVSYENWIEAESKTCLGLEKETGFRKWVNIYCGQQNPFVCEA 1x31-a2-m1-cA_1x31-a2-m2-cA Crystal Structure of Heterotetrameric Sarcosine Oxidase from Corynebacterium sp. U-96 Q50LF0 Q50LF0 2.15 X-RAY DIFFRACTION 59 1.0 31944 (Corynebacterium sp. U-96) 31944 (Corynebacterium sp. U-96) 963 963 1vrq-a2-m1-cA_1vrq-a2-m2-cA SKPQRLSAAQTAGARINRDEALTLTVDGQQLSAFRGDTVASAMLANGLRSCGNSMYLDRPRGIFSAGVEEPNALITVGARHQADINESMLPATTVSVTDGLNATLLSGLGVLDPSEDPAYYDHVHVHTDVLVVGAGPAGLAAAREASRSGARVMLLDERPEAGGTLREASGEQIDGIDAAQWIDAVTEELAAAEETTHLQRTTVFGSYDANYILAAQRRTVHLDGPSGQGVSRERIWHIRAKQVVLATAAHERPIVFENNDRPGIMLAGSVRSYLNRFGVRAGSKIAVATTNDSVYPLVSELAASGGVVAVIDARQNISAAAAQAVTDGVTVLTGSVVANTEADASGELSAVLVATLDEQRNLGEAQRFEADVLAVSGGFNPVVHLHSQRQGKLNWDTSIHAFVPADAVANQHLAGALTGLLDTASALSTGAATGAAAASAAGFEKIAEVPQALAVPAGETRPVWLVPSLSGDDAVHYKFHFVDLQRDQTVADVLRATGAGMQSVEHIKRYTSISTANDQGKTSGVAAIGVIAAVLGIENPAQIGTTTFRAPYTPVSFAALAGRTRGELLDPARLTAMHPWHLAHGAKFEDVGQWKRPWYYPQDGESMDEAVYRECKAVRDSVGMLDASTLGKIEIRGKDAAEFLNRMYTNGYTKLKVGMGRYGVMCKADGMIFDDGVTLRLAEDRFLMHTTTGGAADVLDWLEEWLQTEWPELDVTCTSVTEQLATVAVVGPRSRDVIAKLASSLDVSNDAFKFMAFQDVTLDSGIEARISRISFSGELAFEIAIPAWHGLQVWEDVYAAGQEFNITPYGTETMHVLRAEKGFIIVGQDTDGTVTPQDAGMEWVVSKLKDFVGKRSFSREDNVREDRKHLVSVLPVDSSLRLAEGAALVAADAVASEGVTPMEGWVTHAYNSPALGRTFGLALIKNGRNRIGEVLKTPVDGQLVDVQVSDLVLFDPEGSRRD SKPQRLSAAQTAGARINRDEALTLTVDGQQLSAFRGDTVASAMLANGLRSCGNSMYLDRPRGIFSAGVEEPNALITVGARHQADINESMLPATTVSVTDGLNATLLSGLGVLDPSEDPAYYDHVHVHTDVLVVGAGPAGLAAAREASRSGARVMLLDERPEAGGTLREASGEQIDGIDAAQWIDAVTEELAAAEETTHLQRTTVFGSYDANYILAAQRRTVHLDGPSGQGVSRERIWHIRAKQVVLATAAHERPIVFENNDRPGIMLAGSVRSYLNRFGVRAGSKIAVATTNDSVYPLVSELAASGGVVAVIDARQNISAAAAQAVTDGVTVLTGSVVANTEADASGELSAVLVATLDEQRNLGEAQRFEADVLAVSGGFNPVVHLHSQRQGKLNWDTSIHAFVPADAVANQHLAGALTGLLDTASALSTGAATGAAAASAAGFEKIAEVPQALAVPAGETRPVWLVPSLSGDDAVHYKFHFVDLQRDQTVADVLRATGAGMQSVEHIKRYTSISTANDQGKTSGVAAIGVIAAVLGIENPAQIGTTTFRAPYTPVSFAALAGRTRGELLDPARLTAMHPWHLAHGAKFEDVGQWKRPWYYPQDGESMDEAVYRECKAVRDSVGMLDASTLGKIEIRGKDAAEFLNRMYTNGYTKLKVGMGRYGVMCKADGMIFDDGVTLRLAEDRFLMHTTTGGAADVLDWLEEWLQTEWPELDVTCTSVTEQLATVAVVGPRSRDVIAKLASSLDVSNDAFKFMAFQDVTLDSGIEARISRISFSGELAFEIAIPAWHGLQVWEDVYAAGQEFNITPYGTETMHVLRAEKGFIIVGQDTDGTVTPQDAGMEWVVSKLKDFVGKRSFSREDNVREDRKHLVSVLPVDSSLRLAEGAALVAADAVASEGVTPMEGWVTHAYNSPALGRTFGLALIKNGRNRIGEVLKTPVDGQLVDVQVSDLVLFDPEGSRRD 1x31-a3-m1-cA_1x31-a3-m3-cA Crystal Structure of Heterotetrameric Sarcosine Oxidase from Corynebacterium sp. U-96 Q50LF0 Q50LF0 2.15 X-RAY DIFFRACTION 112 1.0 31944 (Corynebacterium sp. U-96) 31944 (Corynebacterium sp. U-96) 963 963 1vrq-a3-m1-cA_1vrq-a3-m3-cA SKPQRLSAAQTAGARINRDEALTLTVDGQQLSAFRGDTVASAMLANGLRSCGNSMYLDRPRGIFSAGVEEPNALITVGARHQADINESMLPATTVSVTDGLNATLLSGLGVLDPSEDPAYYDHVHVHTDVLVVGAGPAGLAAAREASRSGARVMLLDERPEAGGTLREASGEQIDGIDAAQWIDAVTEELAAAEETTHLQRTTVFGSYDANYILAAQRRTVHLDGPSGQGVSRERIWHIRAKQVVLATAAHERPIVFENNDRPGIMLAGSVRSYLNRFGVRAGSKIAVATTNDSVYPLVSELAASGGVVAVIDARQNISAAAAQAVTDGVTVLTGSVVANTEADASGELSAVLVATLDEQRNLGEAQRFEADVLAVSGGFNPVVHLHSQRQGKLNWDTSIHAFVPADAVANQHLAGALTGLLDTASALSTGAATGAAAASAAGFEKIAEVPQALAVPAGETRPVWLVPSLSGDDAVHYKFHFVDLQRDQTVADVLRATGAGMQSVEHIKRYTSISTANDQGKTSGVAAIGVIAAVLGIENPAQIGTTTFRAPYTPVSFAALAGRTRGELLDPARLTAMHPWHLAHGAKFEDVGQWKRPWYYPQDGESMDEAVYRECKAVRDSVGMLDASTLGKIEIRGKDAAEFLNRMYTNGYTKLKVGMGRYGVMCKADGMIFDDGVTLRLAEDRFLMHTTTGGAADVLDWLEEWLQTEWPELDVTCTSVTEQLATVAVVGPRSRDVIAKLASSLDVSNDAFKFMAFQDVTLDSGIEARISRISFSGELAFEIAIPAWHGLQVWEDVYAAGQEFNITPYGTETMHVLRAEKGFIIVGQDTDGTVTPQDAGMEWVVSKLKDFVGKRSFSREDNVREDRKHLVSVLPVDSSLRLAEGAALVAADAVASEGVTPMEGWVTHAYNSPALGRTFGLALIKNGRNRIGEVLKTPVDGQLVDVQVSDLVLFDPEGSRRD SKPQRLSAAQTAGARINRDEALTLTVDGQQLSAFRGDTVASAMLANGLRSCGNSMYLDRPRGIFSAGVEEPNALITVGARHQADINESMLPATTVSVTDGLNATLLSGLGVLDPSEDPAYYDHVHVHTDVLVVGAGPAGLAAAREASRSGARVMLLDERPEAGGTLREASGEQIDGIDAAQWIDAVTEELAAAEETTHLQRTTVFGSYDANYILAAQRRTVHLDGPSGQGVSRERIWHIRAKQVVLATAAHERPIVFENNDRPGIMLAGSVRSYLNRFGVRAGSKIAVATTNDSVYPLVSELAASGGVVAVIDARQNISAAAAQAVTDGVTVLTGSVVANTEADASGELSAVLVATLDEQRNLGEAQRFEADVLAVSGGFNPVVHLHSQRQGKLNWDTSIHAFVPADAVANQHLAGALTGLLDTASALSTGAATGAAAASAAGFEKIAEVPQALAVPAGETRPVWLVPSLSGDDAVHYKFHFVDLQRDQTVADVLRATGAGMQSVEHIKRYTSISTANDQGKTSGVAAIGVIAAVLGIENPAQIGTTTFRAPYTPVSFAALAGRTRGELLDPARLTAMHPWHLAHGAKFEDVGQWKRPWYYPQDGESMDEAVYRECKAVRDSVGMLDASTLGKIEIRGKDAAEFLNRMYTNGYTKLKVGMGRYGVMCKADGMIFDDGVTLRLAEDRFLMHTTTGGAADVLDWLEEWLQTEWPELDVTCTSVTEQLATVAVVGPRSRDVIAKLASSLDVSNDAFKFMAFQDVTLDSGIEARISRISFSGELAFEIAIPAWHGLQVWEDVYAAGQEFNITPYGTETMHVLRAEKGFIIVGQDTDGTVTPQDAGMEWVVSKLKDFVGKRSFSREDNVREDRKHLVSVLPVDSSLRLAEGAALVAADAVASEGVTPMEGWVTHAYNSPALGRTFGLALIKNGRNRIGEVLKTPVDGQLVDVQVSDLVLFDPEGSRRD 1x33-a1-m57-cC_1x33-a1-m9-cC T=3 recombinant capsid of SeMV CP Q9EB06 Q9EB06 3.6 X-RAY DIFFRACTION 46 1.0 12558 (Sesbania mosaic virus) 12558 (Sesbania mosaic virus) 225 225 1smv-a1-m10-cC_1smv-a1-m25-cC 1smv-a1-m10-cC_1smv-a1-m55-cC 1smv-a1-m11-cC_1smv-a1-m17-cC 1smv-a1-m11-cC_1smv-a1-m29-cC 1smv-a1-m12-cC_1smv-a1-m16-cC 1smv-a1-m12-cC_1smv-a1-m39-cC 1smv-a1-m13-cC_1smv-a1-m38-cC 1smv-a1-m13-cC_1smv-a1-m48-cC 1smv-a1-m14-cC_1smv-a1-m41-cC 1smv-a1-m14-cC_1smv-a1-m47-cC 1smv-a1-m15-cC_1smv-a1-m30-cC 1smv-a1-m15-cC_1smv-a1-m45-cC 1smv-a1-m16-cC_1smv-a1-m39-cC 1smv-a1-m17-cC_1smv-a1-m29-cC 1smv-a1-m18-cC_1smv-a1-m28-cC 1smv-a1-m18-cC_1smv-a1-m53-cC 1smv-a1-m19-cC_1smv-a1-m52-cC 1smv-a1-m19-cC_1smv-a1-m56-cC 1smv-a1-m1-cC_1smv-a1-m34-cC 1smv-a1-m1-cC_1smv-a1-m7-cC 1smv-a1-m20-cC_1smv-a1-m40-cC 1smv-a1-m20-cC_1smv-a1-m60-cC 1smv-a1-m21-cC_1smv-a1-m27-cC 1smv-a1-m21-cC_1smv-a1-m54-cC 1smv-a1-m22-cC_1smv-a1-m26-cC 1smv-a1-m22-cC_1smv-a1-m44-cC 1smv-a1-m23-cC_1smv-a1-m3-cC 1smv-a1-m23-cC_1smv-a1-m43-cC 1smv-a1-m24-cC_1smv-a1-m6-cC 1smv-a1-m25-cC_1smv-a1-m55-cC 1smv-a1-m26-cC_1smv-a1-m44-cC 1smv-a1-m27-cC_1smv-a1-m54-cC 1smv-a1-m28-cC_1smv-a1-m53-cC 1smv-a1-m2-cC_1smv-a1-m24-cC 1smv-a1-m2-cC_1smv-a1-m6-cC 1smv-a1-m30-cC_1smv-a1-m45-cC 1smv-a1-m31-cC_1smv-a1-m37-cC 1smv-a1-m31-cC_1smv-a1-m49-cC 1smv-a1-m32-cC_1smv-a1-m36-cC 1smv-a1-m32-cC_1smv-a1-m59-cC 1smv-a1-m33-cC_1smv-a1-m58-cC 1smv-a1-m33-cC_1smv-a1-m8-cC 1smv-a1-m34-cC_1smv-a1-m7-cC 1smv-a1-m35-cC_1smv-a1-m50-cC 1smv-a1-m35-cC_1smv-a1-m5-cC 1smv-a1-m36-cC_1smv-a1-m59-cC 1smv-a1-m37-cC_1smv-a1-m49-cC 1smv-a1-m38-cC_1smv-a1-m48-cC 1smv-a1-m3-cC_1smv-a1-m43-cC 1smv-a1-m40-cC_1smv-a1-m60-cC 1smv-a1-m41-cC_1smv-a1-m47-cC 1smv-a1-m42-cC_1smv-a1-m46-cC 1smv-a1-m4-cC_1smv-a1-m42-cC 1smv-a1-m4-cC_1smv-a1-m46-cC 1smv-a1-m51-cC_1smv-a1-m57-cC 1smv-a1-m51-cC_1smv-a1-m9-cC 1smv-a1-m52-cC_1smv-a1-m56-cC 1smv-a1-m57-cC_1smv-a1-m9-cC 1smv-a1-m58-cC_1smv-a1-m8-cC 1smv-a1-m5-cC_1smv-a1-m50-cC 1x33-a1-m10-cC_1x33-a1-m25-cC 1x33-a1-m10-cC_1x33-a1-m55-cC 1x33-a1-m11-cC_1x33-a1-m17-cC 1x33-a1-m11-cC_1x33-a1-m29-cC 1x33-a1-m12-cC_1x33-a1-m16-cC 1x33-a1-m12-cC_1x33-a1-m39-cC 1x33-a1-m13-cC_1x33-a1-m38-cC 1x33-a1-m13-cC_1x33-a1-m48-cC 1x33-a1-m14-cC_1x33-a1-m41-cC 1x33-a1-m14-cC_1x33-a1-m47-cC 1x33-a1-m15-cC_1x33-a1-m30-cC 1x33-a1-m15-cC_1x33-a1-m45-cC 1x33-a1-m16-cC_1x33-a1-m39-cC 1x33-a1-m17-cC_1x33-a1-m29-cC 1x33-a1-m18-cC_1x33-a1-m28-cC 1x33-a1-m18-cC_1x33-a1-m53-cC 1x33-a1-m19-cC_1x33-a1-m52-cC 1x33-a1-m19-cC_1x33-a1-m56-cC 1x33-a1-m1-cC_1x33-a1-m34-cC 1x33-a1-m1-cC_1x33-a1-m7-cC 1x33-a1-m20-cC_1x33-a1-m40-cC 1x33-a1-m20-cC_1x33-a1-m60-cC 1x33-a1-m21-cC_1x33-a1-m27-cC 1x33-a1-m21-cC_1x33-a1-m54-cC 1x33-a1-m22-cC_1x33-a1-m26-cC 1x33-a1-m22-cC_1x33-a1-m44-cC 1x33-a1-m23-cC_1x33-a1-m3-cC 1x33-a1-m23-cC_1x33-a1-m43-cC 1x33-a1-m24-cC_1x33-a1-m6-cC 1x33-a1-m25-cC_1x33-a1-m55-cC 1x33-a1-m26-cC_1x33-a1-m44-cC 1x33-a1-m27-cC_1x33-a1-m54-cC 1x33-a1-m28-cC_1x33-a1-m53-cC 1x33-a1-m2-cC_1x33-a1-m24-cC 1x33-a1-m2-cC_1x33-a1-m6-cC 1x33-a1-m30-cC_1x33-a1-m45-cC 1x33-a1-m31-cC_1x33-a1-m37-cC 1x33-a1-m31-cC_1x33-a1-m49-cC 1x33-a1-m32-cC_1x33-a1-m36-cC 1x33-a1-m32-cC_1x33-a1-m59-cC 1x33-a1-m33-cC_1x33-a1-m58-cC 1x33-a1-m33-cC_1x33-a1-m8-cC 1x33-a1-m34-cC_1x33-a1-m7-cC 1x33-a1-m35-cC_1x33-a1-m50-cC 1x33-a1-m35-cC_1x33-a1-m5-cC 1x33-a1-m36-cC_1x33-a1-m59-cC 1x33-a1-m37-cC_1x33-a1-m49-cC 1x33-a1-m38-cC_1x33-a1-m48-cC 1x33-a1-m3-cC_1x33-a1-m43-cC 1x33-a1-m40-cC_1x33-a1-m60-cC 1x33-a1-m41-cC_1x33-a1-m47-cC 1x33-a1-m42-cC_1x33-a1-m46-cC 1x33-a1-m4-cC_1x33-a1-m42-cC 1x33-a1-m4-cC_1x33-a1-m46-cC 1x33-a1-m51-cC_1x33-a1-m57-cC 1x33-a1-m51-cC_1x33-a1-m9-cC 1x33-a1-m52-cC_1x33-a1-m56-cC 1x33-a1-m58-cC_1x33-a1-m8-cC 1x33-a1-m5-cC_1x33-a1-m50-cC 1x35-a1-m10-cC_1x35-a1-m25-cC 1x35-a1-m10-cC_1x35-a1-m55-cC 1x35-a1-m11-cC_1x35-a1-m17-cC 1x35-a1-m11-cC_1x35-a1-m29-cC 1x35-a1-m12-cC_1x35-a1-m16-cC 1x35-a1-m12-cC_1x35-a1-m39-cC 1x35-a1-m13-cC_1x35-a1-m38-cC 1x35-a1-m13-cC_1x35-a1-m48-cC 1x35-a1-m14-cC_1x35-a1-m41-cC 1x35-a1-m14-cC_1x35-a1-m47-cC 1x35-a1-m15-cC_1x35-a1-m30-cC 1x35-a1-m15-cC_1x35-a1-m45-cC 1x35-a1-m16-cC_1x35-a1-m39-cC 1x35-a1-m17-cC_1x35-a1-m29-cC 1x35-a1-m18-cC_1x35-a1-m28-cC 1x35-a1-m18-cC_1x35-a1-m53-cC 1x35-a1-m19-cC_1x35-a1-m52-cC 1x35-a1-m19-cC_1x35-a1-m56-cC 1x35-a1-m1-cC_1x35-a1-m34-cC 1x35-a1-m1-cC_1x35-a1-m7-cC 1x35-a1-m20-cC_1x35-a1-m40-cC 1x35-a1-m20-cC_1x35-a1-m60-cC 1x35-a1-m21-cC_1x35-a1-m27-cC 1x35-a1-m21-cC_1x35-a1-m54-cC 1x35-a1-m22-cC_1x35-a1-m26-cC 1x35-a1-m22-cC_1x35-a1-m44-cC 1x35-a1-m23-cC_1x35-a1-m3-cC 1x35-a1-m23-cC_1x35-a1-m43-cC 1x35-a1-m24-cC_1x35-a1-m6-cC 1x35-a1-m25-cC_1x35-a1-m55-cC 1x35-a1-m26-cC_1x35-a1-m44-cC 1x35-a1-m27-cC_1x35-a1-m54-cC 1x35-a1-m28-cC_1x35-a1-m53-cC 1x35-a1-m2-cC_1x35-a1-m24-cC 1x35-a1-m2-cC_1x35-a1-m6-cC 1x35-a1-m30-cC_1x35-a1-m45-cC 1x35-a1-m31-cC_1x35-a1-m37-cC 1x35-a1-m31-cC_1x35-a1-m49-cC 1x35-a1-m32-cC_1x35-a1-m36-cC 1x35-a1-m32-cC_1x35-a1-m59-cC 1x35-a1-m33-cC_1x35-a1-m58-cC 1x35-a1-m33-cC_1x35-a1-m8-cC 1x35-a1-m34-cC_1x35-a1-m7-cC 1x35-a1-m35-cC_1x35-a1-m50-cC 1x35-a1-m35-cC_1x35-a1-m5-cC 1x35-a1-m36-cC_1x35-a1-m59-cC 1x35-a1-m37-cC_1x35-a1-m49-cC 1x35-a1-m38-cC_1x35-a1-m48-cC 1x35-a1-m3-cC_1x35-a1-m43-cC 1x35-a1-m40-cC_1x35-a1-m60-cC 1x35-a1-m41-cC_1x35-a1-m47-cC 1x35-a1-m42-cC_1x35-a1-m46-cC 1x35-a1-m4-cC_1x35-a1-m42-cC 1x35-a1-m4-cC_1x35-a1-m46-cC 1x35-a1-m51-cC_1x35-a1-m57-cC 1x35-a1-m51-cC_1x35-a1-m9-cC 1x35-a1-m52-cC_1x35-a1-m56-cC 1x35-a1-m57-cC_1x35-a1-m9-cC 1x35-a1-m58-cC_1x35-a1-m8-cC 1x35-a1-m5-cC_1x35-a1-m50-cC PTQAGISMAPSAQGAMVRIRNPAVSSSRGGITVLTHSELSAEIGVTDSIVVSSELVMPYTVGTWLRGVAANWSKYSWLSVRYTYIPSCPSSTAGSIHMGFQYDMADTVPVSVNQLSNLRGYVSGQVWSGSAGLCFINGTRCSDTSTAISTTLDVSKLGKKWYPYKTSADYATAVGVDVNIATPLVPARLVIALLDGSSSTAVAAGRIYCTYTIQMIEPTASALNN PTQAGISMAPSAQGAMVRIRNPAVSSSRGGITVLTHSELSAEIGVTDSIVVSSELVMPYTVGTWLRGVAANWSKYSWLSVRYTYIPSCPSSTAGSIHMGFQYDMADTVPVSVNQLSNLRGYVSGQVWSGSAGLCFINGTRCSDTSTAISTTLDVSKLGKKWYPYKTSADYATAVGVDVNIATPLVPARLVIALLDGSSSTAVAAGRIYCTYTIQMIEPTASALNN 1x3e-a1-m1-cA_1x3e-a1-m2-cA Crystal structure of the single-stranded DNA-binding protein from Mycobacterium smegmatis Q9AFI5 Q9AFI5 2.15 X-RAY DIFFRACTION 52 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 110 110 1x3f-a1-m1-cA_1x3f-a1-m2-cA GDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFETREKRTVVEVEVDEIGPSLRYATAKVNKA GDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFETREKRTVVEVEVDEIGPSLRYATAKVNKA 1x3e-a1-m2-cA_1x3e-a1-m2-cB Crystal structure of the single-stranded DNA-binding protein from Mycobacterium smegmatis Q9AFI5 Q9AFI5 2.15 X-RAY DIFFRACTION 112 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 110 119 1x3e-a1-m1-cA_1x3e-a1-m1-cB 3a5u-a1-m1-cB_3a5u-a1-m2-cB GDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFETREKRTVVEVEVDEIGPSLRYATAKVNKA AGDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMFDRQSGEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFETREGEKRTVVEVEVDEIGPSLRYATAKVNKA 1x3n-a1-m1-cA_1x3n-a1-m2-cA Crystal structure of AMPPNP bound Propionate kinase (TdcD) from Salmonella typhimurium O06961 O06961 2.3 X-RAY DIFFRACTION 230 1.0 394 394 1x3m-a1-m1-cA_1x3m-a1-m2-cA 2e1y-a1-m1-cA_2e1y-a1-m2-cA 2e1z-a1-m1-cA_2e1z-a1-m2-cA 2e20-a1-m1-cA_2e20-a1-m2-cA 4fwk-a1-m1-cA_4fwk-a1-m2-cA 4fwl-a1-m1-cA_4fwl-a1-m2-cA 4fwm-a1-m1-cA_4fwm-a1-m2-cA 4fwn-a1-m1-cA_4fwn-a1-m2-cA 4fwo-a1-m1-cA_4fwo-a1-m2-cA 4fwp-a1-m1-cA_4fwp-a1-m2-cA 4fwq-a1-m1-cA_4fwq-a1-m2-cA 4fwr-a1-m1-cA_4fwr-a1-m2-cA 4fws-a1-m1-cA_4fws-a1-m2-cA 4xh1-a1-m1-cA_4xh1-a1-m2-cA 4xh4-a1-m1-cA_4xh4-a1-m2-cA 4xh5-a1-m1-cA_4xh5-a1-m2-cA FPVVLVINCGSSSIKFSVLDVATCDVLMAGIADGMNTENAFLSINGDKPINLAHSNYEDALKAIAFELEKRDLTDSVALIGHRIAHGGELFTQSVIITDEIIDNIRRVSPLAPLHNYANLSGIDAARHLFPAVRQVAVFDTSFHQTLAPEAYLYGLPWEYFSSLGVRRYGFHGTSHRYVSRRAYELLDLDEKDSGLIVAHLGNGASICAVRNGQSVDTSMGMTPLEGLMMGTRSGDVDFGAMAWIAKETGQTLSDLERVVNKESGLLGISGLSSDLRVLEKAWHEGHERARLAIKTFVHRIARHIAGHAASLHRLDGIIFTGGIGENSVLIRQLVIEHLGVLGLTLDVEMNKQPNSHGERIISANPSQVICAVIPTNEEKMIALDAIHLGNVKA FPVVLVINCGSSSIKFSVLDVATCDVLMAGIADGMNTENAFLSINGDKPINLAHSNYEDALKAIAFELEKRDLTDSVALIGHRIAHGGELFTQSVIITDEIIDNIRRVSPLAPLHNYANLSGIDAARHLFPAVRQVAVFDTSFHQTLAPEAYLYGLPWEYFSSLGVRRYGFHGTSHRYVSRRAYELLDLDEKDSGLIVAHLGNGASICAVRNGQSVDTSMGMTPLEGLMMGTRSGDVDFGAMAWIAKETGQTLSDLERVVNKESGLLGISGLSSDLRVLEKAWHEGHERARLAIKTFVHRIARHIAGHAASLHRLDGIIFTGGIGENSVLIRQLVIEHLGVLGLTLDVEMNKQPNSHGERIISANPSQVICAVIPTNEEKMIALDAIHLGNVKA 1x54-a1-m1-cA_1x54-a1-m2-cA Crystal structure of asparaginyl-tRNA synthetase from Pyrococcus horikoshii complexed with asparaginyl-adenylate O57980 O57980 1.45 X-RAY DIFFRACTION 238 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 434 434 1x55-a1-m1-cA_1x55-a1-m2-cA 1x56-a1-m1-cA_1x56-a1-m2-cA MIEKVYCQEVKPELDGKKVRLAGWVYTNMRVGKKIFLWIRDSTGIVQAVVAKNVVGEETFEKAKKLGRESSVIVEGIVKADERAPGGAEVHVEKLEVIQAVSEFPIPENPEQASPELLLDYRHLHIRTPKASAIMKVKETLIMAAREWLLKDGWHEVFPPILVTGAVEGGATLFKLKYFDKYAYLSQSAQLYLEAAIFGLEKVWSLTPSFRAEKSRTRRHLTEFWHLELEAAWMDLWDIMKVEEELVSYMVQRTLELRKKEIEMFRDDLTTLKNTEPPFPRISYDEAIDILQSKGVNVEWGDDLGADEERVLTEEFDRPFFVYGYPKHIKAFYMKEDPNDPRKVLASDMLAPEGYGEIIGGSQREDDYDKLLNRILEEGMDPKDYEWYLDLRRYGSVPHSGFGLGVERLVAWVLKLDHIRWAALFPRTPARLYP MIEKVYCQEVKPELDGKKVRLAGWVYTNMRVGKKIFLWIRDSTGIVQAVVAKNVVGEETFEKAKKLGRESSVIVEGIVKADERAPGGAEVHVEKLEVIQAVSEFPIPENPEQASPELLLDYRHLHIRTPKASAIMKVKETLIMAAREWLLKDGWHEVFPPILVTGAVEGGATLFKLKYFDKYAYLSQSAQLYLEAAIFGLEKVWSLTPSFRAEKSRTRRHLTEFWHLELEAAWMDLWDIMKVEEELVSYMVQRTLELRKKEIEMFRDDLTTLKNTEPPFPRISYDEAIDILQSKGVNVEWGDDLGADEERVLTEEFDRPFFVYGYPKHIKAFYMKEDPNDPRKVLASDMLAPEGYGEIIGGSQREDDYDKLLNRILEEGMDPKDYEWYLDLRRYGSVPHSGFGLGVERLVAWVLKLDHIRWAALFPRTPARLYP 1x6i-a1-m1-cB_1x6i-a1-m1-cA Crystal structure of ygfY from Escherichia coli P64559 P64559 1.2 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 89 MDINNKARIHWACRRGMRELDISIMPFFEHEYDSLSDDEKRIFIRLLECDDPDLFNWLMNHGKPADAELEMMVRLIQTRNRERGPVA HMDINNKARIHWACRRGMRELDISIMPFFEHEYDSLSDDEKRIFIRLLECDDPDLFNWLMNHGKPADAELEMMVRLIQTRNRERGPVAI 1x6m-a2-m1-cC_1x6m-a2-m1-cB Crystal structure of the glutathione-dependent formaldehyde-activating enzyme (Gfa) Q51669 Q51669 2.35 X-RAY DIFFRACTION 79 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 194 196 1x6m-a1-m1-cD_1x6m-a1-m1-cA 1xa8-a1-m1-cD_1xa8-a1-m1-cA 1xa8-a2-m1-cC_1xa8-a2-m1-cB 1xa8-a3-m1-cD_1xa8-a3-m1-cA 1xa8-a3-m2-cC_1xa8-a3-m2-cB MVDTSGVKIHPAVDNGIKPAQPGFAGGTLHCKCSTNPVRVAVRAQTAHNHVCGCTKCWKPEGAIFSQVAVVGRDALEVLEGAEKLEIVNAEAPIQRHRCRDCGVHMYGRIENRDHPFYGLDFVHTELSDEDGWSAPEFAAFVSSIIESGVDPSRMEAIRARLRELGLEPYDALSPPLMDAIATHIAKRSGALAA GHMVDTSGVKIHPAVDNGIKPAQPGFAGGTLHCKCSTNPVRVAVRAQTAHNHVCGCTKCWKPEGAIFSQVAVVGRDALEVLEGAEKLEIVNAEAPIQRHRCRDCGVHMYGRIENRDHPFYGLDFVHTELSDEDGWSAPEFAAFVSSIIESGVDPSRMEAIRARLRELGLEPYDALSPPLMDAIATHIAKRSGALAA 1x6v-a1-m1-cA_1x6v-a1-m1-cB The crystal structure of human 3'-phosphoadenosine-5'-phosphosulfate synthetase 1 O43252 O43252 1.75 X-RAY DIFFRACTION 164 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 564 586 1xjq-a1-m1-cA_1xjq-a1-m1-cB 1xnj-a1-m1-cA_1xnj-a1-m1-cB 2qjf-a1-m1-cA_2qjf-a1-m1-cB HVSRNKRGQVVGTRGGFRGCTVWLTGLSGAGKTTVSMALEEYLVCHGIPCYTLDGDNIRQGLNKNLGFSPEDREENVRRIAEVAKLFADAGLVCITSFISPYTQDRNNARQIHEGASLPFFEVFVDAEYEKPEAPELVLKTDSCDVNDCVQQVVELLQERDIVPVDASYEVKELYVPENKLHLAKTDAETLPALKINKVDMQWVQVLAEGWATPLNGFMREREYLQCLHFDCLLDGGVINLSVPIVLTATHEDKERLDGCTAFALMYEGRRVAILRNPEFFEHRKEERCARQWGTTCKNHPYIKMVMEQGDWLIGGDLQVLDRVYWNDGLDQYRLTPTELKQKFKDMNADAVSAFQLRNPVHNGHALLMQDTHKQLLERGYRRPVLLLHPLGGWTKDDDVPLMWRMKQHAAVLEEGVLNPETTVVAIFPSPMMYAGPTEVQWHCRARMVAGANFYIVGRDPAGMPHPETGKDLYEPSHGAKVLTMAPGLITLEIVPFRVAAYNKKKKRMDYYDSEHHEDFEFISGTRMRKLAREGQKPPEGFMAPKAWTVLTEYYKSLEKAHHH HVSRNKRGQVVGTRGGFRGCTVWLTGLSGAGKTTVSMALEEYLVCHGIPCYTLDGDNIRQGLNKNLGFSPEDREENVRRIAEVAKLFADAGLVCITSFISPYTQDRNNARQIHEGASLPFFEVFVDAPLHVCEQRDVKGLYKKARAGFTGIDSEYEKPEAPELVLKTDSCDVNDCVQQVVELLQERDIVPVDASYEVKELYVPENKLHLAKTDAETLPALKINKVDMQWVQVLAEGWATPLNGFMREREYLQCLHFDCLLDGGVINLSVPIVLTATHEDKERLDGCTAFALMYEGRRVAILRNPEFFEHRKEERCARQWGTTCKNHPYIKMVMEQGDWLIGGDLQVLDRVYWNDGLDQYRLTPTELKQKFKDMNADAVSAFQLRNPVHNGHALLMQDTHKQLLERGYRRPVLLLHPLGGWTKDDDVPLMWRMKQHAAVLEEGVLNPETTVVAIFPSPMMYAGPTEVQWHCRARMVAGANFYIVGRDPAGMPHPETGKDLYEPSHGAKVLTMAPGLITLEIVPFRVAAYNKKKKRMDYYDSEHHEDFEFISGTRMRKLAREGQKPPEGFMAPKAWTVLTEYYKSLEK 1x77-a1-m1-cA_1x77-a1-m1-cB Crystal structure of a NAD(P)H-dependent FMN reductase complexed with FMN Q9I4D4 Q9I4D4 2.7 X-RAY DIFFRACTION 104 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 174 174 IKVLGISGSLRSGSYNSAALQEAIGLVPPGMSIELADISGIPLYNEDVYALGFPPAVERFREQIRAADALLFATPEYNYSMAGVLKNAIDWASRPPEQPFSGKPAAILGASAGRFGTARAQYHLRQTLVFLDVHPLNKPEVMISSAQNAFDAQGRLLDDKARELIQQQLQALQL IKVLGISGSLRSGSYNSAALQEAIGLVPPGMSIELADISGIPLYNEDVYALGFPPAVERFREQIRAADALLFATPEYNYSMAGVLKNAIDWASRPPEQPFSGKPAAILGASAGRFGTARAQYHLRQTLVFLDVHPLNKPEVMISSAQNAFDAQGRLLDDKARELIQQQLQALQL 1x79-a1-m1-cC_1x79-a1-m1-cB Crystal structure of human GGA1 GAT domain complexed with the GAT-binding domain of Rabaptin5 Q15276 Q15276 2.41 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 90 TRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQSREQVSE ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQSREQVSEE 1x7a-a2-m1-cL_1x7a-a2-m2-cL Porcine Factor IXa Complexed to 1-{3-[amino(imino)methyl]phenyl}-N-[4-(1H-benzimidazol-1-yl)-2-fluorophenyl]-3-(trifluoromethyl)-1H-pyrazole-5-carboxamide P16293 P16293 2.9 X-RAY DIFFRACTION 40 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 97 97 QCEPNPCLNGGLCKDDINSYECWCQVGFEGKNCELDATCNIKNGRCKQFCKTGADSKVLCSCTTGYRLAPDQKSCKPAVPFPCGRVSVSHSPTTLTR QCEPNPCLNGGLCKDDINSYECWCQVGFEGKNCELDATCNIKNGRCKQFCKTGADSKVLCSCTTGYRLAPDQKSCKPAVPFPCGRVSVSHSPTTLTR 1x7d-a1-m1-cB_1x7d-a1-m1-cA Crystal Structure Analysis of Ornithine Cyclodeaminase Complexed with NAD and ornithine to 1.6 Angstroms Q88H32 Q88H32 1.6 X-RAY DIFFRACTION 245 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 331 332 1u7h-a1-m1-cB_1u7h-a1-m1-cA TYFIDVPTSDLVHDIGVAPFIGELAAALRDDFKRWQAFDKSARVASHSEVGVIELPVADKSRYAFKYVNGHPANTARNLHTVAFGVLADVDSGYPVLLSELTIATALRTAATSLAAQALARPNARKALIGNGAQSEFQALAFHKHLGIEEIVAYDTDPLATAKLIANLKEYSGLTIRRASSVAEAVKGVDIITTVTADKAYATIITPDLEPGHLNAVGGDCPGKTELHADVLRNARVFVEYEPQTRIEGEIQQLPADFPVVDLWRVLRGETEGRQSDSQVTVFDSVGFALEDYTVLRYVLQQAEKRGGTKIDLVPWVEDDPKDLFSHTRGR TYFIDVPTSDLVHDIGVAPFIGELAAALRDDFKRWQAFDKSARVASHSEVGVIELPVADKSRYAFKYVNGHPANTARNLHTVAFGVLADVDSGYPVLLSELTIATALRTAATSLAAQALARPNARKALIGNGAQSEFQALAFHKHLGIEEIVAYDTDPLATAKLIANLKEYSGLTIRRASSVAEAVKGVDIITTVTADKAYATIITPDLEPGHLNAVGGDCPGKTELHADVLRNARVFVEYEPQTRIEGEIQQLPADFPVVDLWRVLRGETEGRQSDSQVTVFDSVGFALEDYTVLRYVLQQAEKRGGTKIDLVPWVEDDPKDLFSHTRGRA 1x7g-a1-m2-cB_1x7g-a1-m1-cA Actinorhodin Polyketide Ketoreductase, act KR, with NADP bound P16544 P16544 2.3 X-RAY DIFFRACTION 103 0.98 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 248 256 1x7g-a1-m1-cB_1x7g-a1-m2-cA 1x7h-a1-m1-cA_1x7h-a1-m2-cB 1x7h-a1-m2-cA_1x7h-a1-m1-cB 1xr3-a1-m1-cB_1xr3-a1-m2-cA 1xr3-a1-m2-cB_1xr3-a1-m1-cA 2rh4-a1-m1-cA_2rh4-a1-m2-cB 2rh4-a1-m2-cA_2rh4-a1-m1-cB 2rhc-a1-m1-cA_2rhc-a1-m2-cB 2rhc-a1-m2-cA_2rhc-a1-m1-cB 3qrw-a1-m1-cA_3qrw-a1-m2-cB 3qrw-a1-m2-cA_3qrw-a1-m1-cB 4dbz-a1-m1-cA_4dbz-a1-m2-cB 4dbz-a1-m2-cA_4dbz-a1-m1-cB 4dc0-a1-m1-cA_4dc0-a1-m2-cB 4dc0-a1-m2-cA_4dc0-a1-m1-cB 4dc1-a1-m1-cA_4dc1-a1-m2-cB 4dc1-a1-m2-cA_4dc1-a1-m1-cB MATQDSEVALVTGATSGIGLEIARRLGKEGLRVFVCARGEEGLRTTLKELREAGVEADGRTCDVRSVPEIEALVAAVVERYGPVDVLVNNAGRPGGGATAELADELWLDVVETNLTGVFRVTKQVLKAGGMLERGTGRIVNIASTGGKQGVVHAAPYSASKHGVVGFTKALGLELARTGITVNAVCPGFVETPMAASVREFDRITARVPIGRYVQPSEVAEMVAYLIGPGAAAVTAQALNVCGGLGNY SEVALVTGATSGIGLEIARRLGKEGLRVFVCARGEEGLRTTLKELREAGVEADGRTCDVRSVPEIEALVAAVVERYGPVDVLVNNAGRPGGGATAELADELWLDVVETNLTGVFRVTKQVLKAGGMLERGTGRIVNIASTGGKQGVVHAAPYSASKHGVVGFTKALGLELARTGITVNAVCPGFVETPMAASVREHYSDIWEVSTEEAFDRITARVPIGRYVQPSEVAEMVAYLIGPGAAAVTAQALNVCGGLGNY 1x7g-a1-m2-cB_1x7g-a1-m2-cA Actinorhodin Polyketide Ketoreductase, act KR, with NADP bound P16544 P16544 2.3 X-RAY DIFFRACTION 126 0.98 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 248 256 1x7g-a1-m1-cB_1x7g-a1-m1-cA 1x7h-a1-m1-cA_1x7h-a1-m1-cB 1x7h-a1-m2-cA_1x7h-a1-m2-cB 1xr3-a1-m1-cB_1xr3-a1-m1-cA 1xr3-a1-m2-cB_1xr3-a1-m2-cA 2rh4-a1-m1-cA_2rh4-a1-m1-cB 2rh4-a1-m2-cA_2rh4-a1-m2-cB 2rhc-a1-m1-cA_2rhc-a1-m1-cB 2rhc-a1-m2-cA_2rhc-a1-m2-cB 3qrw-a1-m1-cA_3qrw-a1-m1-cB 3qrw-a1-m2-cA_3qrw-a1-m2-cB 4dbz-a1-m1-cA_4dbz-a1-m1-cB 4dbz-a1-m2-cA_4dbz-a1-m2-cB 4dc0-a1-m1-cA_4dc0-a1-m1-cB 4dc0-a1-m2-cA_4dc0-a1-m2-cB 4dc1-a1-m1-cA_4dc1-a1-m1-cB 4dc1-a1-m2-cA_4dc1-a1-m2-cB MATQDSEVALVTGATSGIGLEIARRLGKEGLRVFVCARGEEGLRTTLKELREAGVEADGRTCDVRSVPEIEALVAAVVERYGPVDVLVNNAGRPGGGATAELADELWLDVVETNLTGVFRVTKQVLKAGGMLERGTGRIVNIASTGGKQGVVHAAPYSASKHGVVGFTKALGLELARTGITVNAVCPGFVETPMAASVREFDRITARVPIGRYVQPSEVAEMVAYLIGPGAAAVTAQALNVCGGLGNY SEVALVTGATSGIGLEIARRLGKEGLRVFVCARGEEGLRTTLKELREAGVEADGRTCDVRSVPEIEALVAAVVERYGPVDVLVNNAGRPGGGATAELADELWLDVVETNLTGVFRVTKQVLKAGGMLERGTGRIVNIASTGGKQGVVHAAPYSASKHGVVGFTKALGLELARTGITVNAVCPGFVETPMAASVREHYSDIWEVSTEEAFDRITARVPIGRYVQPSEVAEMVAYLIGPGAAAVTAQALNVCGGLGNY 1x7i-a1-m1-cA_1x7i-a1-m1-cB Crystal structure of the native copper homeostasis protein (cutCm) with calcium binding from Shigella flexneri 2a str. 301 P67825 P67825 1.7 X-RAY DIFFRACTION 176 0.996 198214 (Shigella flexneri 2a str. 301) 198214 (Shigella flexneri 2a str. 301) 236 238 1twd-a1-m1-cA_1twd-a1-m1-cB 1x8c-a1-m1-cA_1x8c-a1-m1-cB MALLEICCYSMECALTAQQNGADRVELCAAPKEGGLTPSLGVLKSVRQRVTIPVHPIIRPRGGDFCYSDGEFAAILEDVRTVRELGFPGLVTGVLDVDGNVDMPRMEKIMAAAGPLAVTFHRAFDMCANPLYTLNNLAELGIARVLTSGQKSDALQGLSKIMELIAHRDAPIIMAGAGVRAENLHHFLDAGVLEVHSSAGAWQASPMRYRDEYSRYIVDGAAVAEMKGIIERHQAK MALLEICCYSMECALTAQQNGADRVELCAAPKEGGLTPSLGVLKSVRQRVTIPVHPIIRPRGGDFCYSDGEFAAILEDVRTVRELGFPGLVTGVLDVDGNVDMPRMEKIMAAAGPLAVTFHRAFDMCANPLYTLNNLAELGIARVLTSGQKSDALQGLSKIMELIAHRDAPIIMAGAGVRAENLHHFLDAGVLEVHSSAGAWQASPMRYRNEYSRYIVDGAAVAEMKGIIERHQAKLE 1x7o-a1-m1-cB_1x7o-a1-m1-cA Crystal structure of the SpoU Methyltransferase AviRb from Streptomyces viridochromogenes Q9F5K6 Q9F5K6 2.37 X-RAY DIFFRACTION 95 1.0 1938 (Streptomyces viridochromogenes) 1938 (Streptomyces viridochromogenes) 251 261 1x7p-a1-m1-cB_1x7p-a1-m1-cA NARFQQWQALLGNRNKRTRAGEFLVGVRPISLAVEHGWPVRTLLYDGLSKWARELLRTVRTEQIAAPDLLELPPEVVAVVEPADDLDRIPVREDFLGVLFDRPTSPGNIGSIIRSADALGAHGLIVAGHAADVYDPKSVRSSTGSLFSLPAVRVPSPGEVDWVEARRAAGTPIVLVGTDEHGDCDVFDFDFTQPTLLLIGNETAGLSNAWRTLCDYTVSIPAGSASSLNAANAATAILYEAVRQRISGRTA RNARFQQWQALLGNRNKRTRAGEFLVGVRPISLAVEHGWPVRTLLYDGQRELSKWARELLRTVRTEQIAAPDLLELGEKNEAPPEVVAVVEPADDLDRIPVREDFLGVLFDRPTSPGNIGSIIRSADALGAHGLIVAGHAADVYDPKSVRSSTGSLFSLPAVRVPSPGEVDWVEARRAAGTPIVLVGTDEHGDCDVFDFDFTQPTLLLIGNETAGLSNAWRTLCDYTVSIPAGSASSLNAANAATAILYEAVRQRISGRTA 1x7v-a4-m2-cA_1x7v-a4-m2-cB Crystal structure of PA3566 from Pseudomonas aeruginosa Q9HY51 Q9HY51 1.78 X-RAY DIFFRACTION 62 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 96 96 1x7v-a4-m1-cA_1x7v-a4-m1-cB 1x7v-a4-m1-cC_1x7v-a4-m2-cC HSTPLTLIATITAAPGHAEALERELRALVAPSRAEAGCLQYDLHQDRHDSHLFYIEQWRDDAALERHQNTEHFLRFSRGNEALLQNVKIDQLYRLA HSTPLTLIATITAAPGHAEALERELRALVAPSRAEAGCLQYDLHQDRHDSHLFYIEQWRDDAALERHQNTEHFLRFSRGNEALLQNVKIDQLYRLA 1x7v-a5-m1-cB_1x7v-a5-m1-cC Crystal structure of PA3566 from Pseudomonas aeruginosa Q9HY51 Q9HY51 1.78 X-RAY DIFFRACTION 59 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 96 97 1x7v-a4-m1-cA_1x7v-a4-m2-cA 1x7v-a4-m1-cB_1x7v-a4-m1-cC 1x7v-a4-m2-cB_1x7v-a4-m2-cC 1x7v-a6-m1-cA_1x7v-a6-m2-cA HSTPLTLIATITAAPGHAEALERELRALVAPSRAEAGCLQYDLHQDRHDSHLFYIEQWRDDAALERHQNTEHFLRFSRGNEALLQNVKIDQLYRLA GHSTPLTLIATITAAPGHAEALERELRALVAPSRAEAGCLQYDLHQDRHDSHLFYIEQWRDDAALERHQNTEHFLRFSRGNEALLQNVKIDQLYRLA 1x7v-a7-m3-cA_1x7v-a7-m1-cC Crystal structure of PA3566 from Pseudomonas aeruginosa Q9HY51 Q9HY51 1.78 X-RAY DIFFRACTION 26 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 96 97 HSTPLTLIATITAAPGHAEALERELRALVAPSRAEAGCLQYDLHQDRHDSHLFYIEQWRDDAALERHQNTEHFLRFSRGNEALLQNVKIDQLYRLA GHSTPLTLIATITAAPGHAEALERELRALVAPSRAEAGCLQYDLHQDRHDSHLFYIEQWRDDAALERHQNTEHFLRFSRGNEALLQNVKIDQLYRLA 1x8d-a2-m1-cC_1x8d-a2-m1-cD Crystal structure of E. coli YiiL protein containing L-rhamnose P32156 P32156 1.8 X-RAY DIFFRACTION 116 1.0 562 (Escherichia coli) 562 (Escherichia coli) 104 104 1x8d-a1-m1-cA_1x8d-a1-m1-cB MIRKAFVMQVNPDAHEEYQRRHNPIWPELEAVLKSHGAHNYAIYLDKARNLLFAMVEIESEERWNAVASTDVCQRWWKYMTDVMPANPDNSPVSSELQEVFYLP MIRKAFVMQVNPDAHEEYQRRHNPIWPELEAVLKSHGAHNYAIYLDKARNLLFAMVEIESEERWNAVASTDVCQRWWKYMTDVMPANPDNSPVSSELQEVFYLP 1x8z-a1-m1-cA_1x8z-a1-m2-cA Crystal structure of a pectin methylesterase inhibitor from Arabidopsis thaliana Q9LNF2 Q9LNF2 2.86 X-RAY DIFFRACTION 70 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 151 151 MDSSEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN MDSSEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN 1x8z-a3-m1-cB_1x8z-a3-m1-cA Crystal structure of a pectin methylesterase inhibitor from Arabidopsis thaliana Q9LNF2 Q9LNF2 2.86 X-RAY DIFFRACTION 41 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 147 151 SEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPR MDSSEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN 1x8z-a3-m1-cB_1x8z-a3-m1-cC Crystal structure of a pectin methylesterase inhibitor from Arabidopsis thaliana Q9LNF2 Q9LNF2 2.86 X-RAY DIFFRACTION 77 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 147 150 1x8z-a2-m1-cB_1x8z-a2-m1-cC SEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPR DSSEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN 1x8z-a3-m1-cC_1x8z-a3-m1-cA Crystal structure of a pectin methylesterase inhibitor from Arabidopsis thaliana Q9LNF2 Q9LNF2 2.86 X-RAY DIFFRACTION 18 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 150 151 DSSEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN MDSSEMSTICDKTLNPSFCLKFLNTKFASPNLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN 1x90-a4-m4-cB_1x90-a4-m5-cB Crystal structure of mutant form B of a pectin methylesterase inhibitor from Arabidopsis Q9LNF2 Q9LNF2 2.68 X-RAY DIFFRACTION 35 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 147 147 1x90-a3-m1-cA_1x90-a3-m2-cA 1x90-a3-m1-cA_1x90-a3-m3-cA 1x90-a3-m2-cA_1x90-a3-m3-cA 1x90-a4-m1-cB_1x90-a4-m4-cB 1x90-a4-m1-cB_1x90-a4-m5-cB EMSTICDKTLNPSFCLKFLNTKFASANLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN EMSTICDKTLNPSFCLKFLNTKFASANLQALAKTTLDSTQARATQTLKKLQSIIDGGVDPRSKLAYRSCVDEYESAIGNLEEAFEHLASGDGMGMNMKVSAALDGADTCLDDVKRLRSVDSSVVNNSKTIKNLCGIALVISNMLPRN 1x92-a1-m1-cA_1x92-a1-m2-cB CRYSTAL STRUCTURE OF PSEUDOMONAS AERUGINOSA PHOSPHOHEPTOSE ISOMERASE IN COMPLEX WITH REACTION PRODUCT D-GLYCERO-D-MANNOPYRANOSE-7-PHOSPHATE Q9HVZ0 Q9HVZ0 2.3 X-RAY DIFFRACTION 68 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 194 197 1x92-a1-m2-cA_1x92-a1-m1-cB DMQHRIRQLFQASIETKQQALEVLPPYIEQASLVMVNALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMLVVALTGRDGGGMASLLLPEDVEIRVPSKITARIQEVHLLAIHCLCDLIDRQLFGS GHMDMQHRIRQLFQASIETKQQALEVLPPYIEQASLVMVNALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMLVVALTGRDGGGMASLLLPEDVEIRVPSKITARIQEVHLLAIHCLCDLIDRQLFGS 1x92-a1-m1-cB_1x92-a1-m2-cB CRYSTAL STRUCTURE OF PSEUDOMONAS AERUGINOSA PHOSPHOHEPTOSE ISOMERASE IN COMPLEX WITH REACTION PRODUCT D-GLYCERO-D-MANNOPYRANOSE-7-PHOSPHATE Q9HVZ0 Q9HVZ0 2.3 X-RAY DIFFRACTION 98 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 197 197 1x92-a1-m1-cA_1x92-a1-m2-cA 3bjz-a1-m1-cC_3bjz-a1-m1-cB 3bjz-a1-m1-cD_3bjz-a1-m1-cA GHMDMQHRIRQLFQASIETKQQALEVLPPYIEQASLVMVNALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMLVVALTGRDGGGMASLLLPEDVEIRVPSKITARIQEVHLLAIHCLCDLIDRQLFGS GHMDMQHRIRQLFQASIETKQQALEVLPPYIEQASLVMVNALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMLVVALTGRDGGGMASLLLPEDVEIRVPSKITARIQEVHLLAIHCLCDLIDRQLFGS 1x92-a1-m2-cA_1x92-a1-m2-cB CRYSTAL STRUCTURE OF PSEUDOMONAS AERUGINOSA PHOSPHOHEPTOSE ISOMERASE IN COMPLEX WITH REACTION PRODUCT D-GLYCERO-D-MANNOPYRANOSE-7-PHOSPHATE Q9HVZ0 Q9HVZ0 2.3 X-RAY DIFFRACTION 120 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 194 197 1x92-a1-m1-cA_1x92-a1-m1-cB 3bjz-a1-m1-cA_3bjz-a1-m1-cB 3bjz-a1-m1-cD_3bjz-a1-m1-cC DMQHRIRQLFQASIETKQQALEVLPPYIEQASLVMVNALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMLVVALTGRDGGGMASLLLPEDVEIRVPSKITARIQEVHLLAIHCLCDLIDRQLFGS GHMDMQHRIRQLFQASIETKQQALEVLPPYIEQASLVMVNALLNEGKILSCGNGGSAGDAQHFSSELLNRFERERPSLPAVALTTDSSTITSIANDYSYNEVFSKQIRALGQPGDVLLAISTSGNSANVIQAIQAAHDREMLVVALTGRDGGGMASLLLPEDVEIRVPSKITARIQEVHLLAIHCLCDLIDRQLFGS 1x93-a1-m1-cA_1x93-a1-m1-cB NMR Structure of Helicobacter pylori HP0222 O25010 O25010 NOT SOLUTION NMR 81 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 43 43 TRAVSLYFSDEQYQKLEKMANEEEESVGSYIKRYILKALRKIE TRAVSLYFSDEQYQKLEKMANEEEESVGSYIKRYILKALRKIE 1x94-a2-m1-cB_1x94-a2-m2-cB Crystal Structure of a Hypothetical protein Q9KPY2 Q9KPY2 2.5 X-RAY DIFFRACTION 36 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 176 176 1x94-a2-m1-cA_1x94-a2-m2-cA MYQDLIRSELTEAADVLQKFLSDDHNIAQIEAAAKLIADSFKQGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPGIAIDYVFSRYVEAVGAKGDVLFGLSTSGNSGNILKAIEAAKAKGMKTIALTGKDGGKMAGLADVEIRVPHFGYADRIQEVHIKIIHIIIQLIEKEMA MYQDLIRSELTEAADVLQKFLSDDHNIAQIEAAAKLIADSFKQGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPGIAIDYVFSRYVEAVGAKGDVLFGLSTSGNSGNILKAIEAAKAKGMKTIALTGKDGGKMAGLADVEIRVPHFGYADRIQEVHIKIIHIIIQLIEKEMA 1x94-a2-m2-cA_1x94-a2-m2-cB Crystal Structure of a Hypothetical protein Q9KPY2 Q9KPY2 2.5 X-RAY DIFFRACTION 95 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 176 176 1x94-a1-m1-cA_1x94-a1-m1-cB 1x94-a2-m1-cA_1x94-a2-m1-cB MYQDLIRSELTEAADVLQKFLSDDHNIAQIEAAAKLIADSFKQGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPGIAIDYVFSRYVEAVGAKGDVLFGLSTSGNSGNILKAIEAAKAKGMKTIALTGKDGGKMAGLADVEIRVPHFGYADRIQEVHIKIIHIIIQLIEKEMA MYQDLIRSELTEAADVLQKFLSDDHNIAQIEAAAKLIADSFKQGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPGIAIDYVFSRYVEAVGAKGDVLFGLSTSGNSGNILKAIEAAKAKGMKTIALTGKDGGKMAGLADVEIRVPHFGYADRIQEVHIKIIHIIIQLIEKEMA 1x99-a1-m1-cB_1x99-a1-m2-cB X-ray crystal structure of Xerocomus chrysenteron lectin XCL at 1.4 Angstroms resolution, mutated at Q46M, V54M, L58M Q8WZC9 Q8WZC9 1.4 X-RAY DIFFRACTION 28 1.0 139 139 1x99-a1-m1-cA_1x99-a1-m2-cA 1xi0-a1-m1-cA_1xi0-a1-m2-cA 1xi0-a1-m1-cB_1xi0-a1-m2-cB SYSITLRVYQTNRDRGYFSIVEKTVWHFANGGTWSEANGAHTLTGGSGTSGLRFSTKGERITVAVGVHNYKRWCDVVTGLKPDETALVINPQYYNNGGRDYVREKQLAEYSVTSAIGTKVEVVYTVAEGNNLEANVIFS SYSITLRVYQTNRDRGYFSIVEKTVWHFANGGTWSEANGAHTLTGGSGTSGLRFSTKGERITVAVGVHNYKRWCDVVTGLKPDETALVINPQYYNNGGRDYVREKQLAEYSVTSAIGTKVEVVYTVAEGNNLEANVIFS 1x99-a1-m2-cB_1x99-a1-m1-cA X-ray crystal structure of Xerocomus chrysenteron lectin XCL at 1.4 Angstroms resolution, mutated at Q46M, V54M, L58M Q8WZC9 Q8WZC9 1.4 X-RAY DIFFRACTION 14 1.0 139 141 1x99-a1-m1-cB_1x99-a1-m2-cA SYSITLRVYQTNRDRGYFSIVEKTVWHFANGGTWSEANGAHTLTGGSGTSGLRFSTKGERITVAVGVHNYKRWCDVVTGLKPDETALVINPQYYNNGGRDYVREKQLAEYSVTSAIGTKVEVVYTVAEGNNLEANVIFS GHSYSITLRVYQTNRDRGYFSIVEKTVWHFANGGTWSEANGAHTLTGGSGTSGLRFSTKGERITVAVGVHNYKRWCDVVTGLKPDETALVINPQYYNNGGRDYVREKQLAEYSVTSAIGTKVEVVYTVAEGNNLEANVIFS 1x99-a1-m2-cB_1x99-a1-m2-cA X-ray crystal structure of Xerocomus chrysenteron lectin XCL at 1.4 Angstroms resolution, mutated at Q46M, V54M, L58M Q8WZC9 Q8WZC9 1.4 X-RAY DIFFRACTION 81 1.0 139 141 1x99-a1-m1-cB_1x99-a1-m1-cA 1xi0-a1-m1-cB_1xi0-a1-m1-cA 1xi0-a1-m2-cB_1xi0-a1-m2-cA SYSITLRVYQTNRDRGYFSIVEKTVWHFANGGTWSEANGAHTLTGGSGTSGLRFSTKGERITVAVGVHNYKRWCDVVTGLKPDETALVINPQYYNNGGRDYVREKQLAEYSVTSAIGTKVEVVYTVAEGNNLEANVIFS GHSYSITLRVYQTNRDRGYFSIVEKTVWHFANGGTWSEANGAHTLTGGSGTSGLRFSTKGERITVAVGVHNYKRWCDVVTGLKPDETALVINPQYYNNGGRDYVREKQLAEYSVTSAIGTKVEVVYTVAEGNNLEANVIFS 1x9a-a1-m1-cA_1x9a-a1-m1-cB Solution NMR Structure of Protein Tm0979 from Thermotoga maritima. Ontario Center for Structural Proteomics Target TM0979_1_87; Northeast Structural Genomics Consortium Target VT98. Q9X074 Q9X074 NOT SOLUTION NMR 55 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 87 87 MALVLVKYGTDHPVEKLKIRSAKAEDKIVLIQNGVFWALEELETPAKVYAIKDDFLARGYSEEDSKVPLITYSEFIDLLEGEEKFIG MALVLVKYGTDHPVEKLKIRSAKAEDKIVLIQNGVFWALEELETPAKVYAIKDDFLARGYSEEDSKVPLITYSEFIDLLEGEEKFIG 1x9g-a1-m2-cA_1x9g-a1-m4-cA PUTATIVE MAR1 RIBONUCLEASE FROM LEISHMANIA DONOVANI D0VWV0 D0VWV0 2.41 X-RAY DIFFRACTION 64 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 192 192 1x9g-a1-m1-cA_1x9g-a1-m3-cA 1x9g-a1-m1-cA_1x9g-a1-m4-cA 1x9g-a1-m2-cA_1x9g-a1-m3-cA 1xn4-a1-m1-cA_1xn4-a1-m3-cA 1xn4-a1-m1-cA_1xn4-a1-m4-cA 1xn4-a1-m2-cA_1xn4-a1-m3-cA 1xn4-a1-m2-cA_1xn4-a1-m4-cA MSRLMPHYSKGKTAFLCVDLQEAFSKRIENFANCVFVANRLARLHEVVPENTKYIVTEHYPKGLGRIVPEITLPKTAHLIEKTRFSCVVPQVEELLEDVDNAVVFGIEGHACILQTVADLLDMNKRVFLPKDGLGSQKKTDFKAAIKLMSSWGPNCEITTSESILLQMTKDAMDPNFKRISKLLKEEPPIPL MSRLMPHYSKGKTAFLCVDLQEAFSKRIENFANCVFVANRLARLHEVVPENTKYIVTEHYPKGLGRIVPEITLPKTAHLIEKTRFSCVVPQVEELLEDVDNAVVFGIEGHACILQTVADLLDMNKRVFLPKDGLGSQKKTDFKAAIKLMSSWGPNCEITTSESILLQMTKDAMDPNFKRISKLLKEEPPIPL 1x9i-a1-m1-cA_1x9i-a1-m1-cB Crystal structure of Crystal structure of phosphoglucose/phosphomannose phosphoglucose/phosphomannoseisomerase from Pyrobaculum aerophilum in complex with glucose 6-phosphate Q8ZWV0 Q8ZWV0 1.16 X-RAY DIFFRACTION 161 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 300 301 1tzb-a1-m1-cB_1tzb-a1-m1-cA 1tzc-a1-m1-cA_1tzc-a1-m1-cB 1x9h-a1-m1-cA_1x9h-a1-m1-cB SQLLQDYLNWENYILRRVDFPTSYVVEGEVVRIEAMPRLYISGMGGSGVVADLIRDFSLTWNWEVEVIAVKDYFLKARDGLLIAVSYSGNTIETLYTVEYAKRRRIPAVAITTGGRLAQMGVPTVIVPKASAPRAALPQLLTAALHVVAKVYGIDVKIPEGLEPPNEALIHKLVEEFQKRPTIIAAESMRGVAYRVKNEFNENAKIEPSVEILPEAHHNWIEGSERAVVALTSPHIPKEHQERVKATVEIVGGSIYAVEMHPKGVLSFLRDVGIASVKLAEIRGVNPLATPRIDALKRRL SQLLQDYLNWENYILRRVDFPTSYVVEGEVVRIEAMPRLYISGMGGSGVVADLIRDFSLTWNWEVEVIAVKDYFLKARDGLLIAVSYSGNTIETLYTVEYAKRRRIPAVAITTGGRLAQMGVPTVIVPKASAPRAALPQLLTAALHVVAKVYGIDVKIPEGLEPPNEALIHKLVEEFQKRPTIIAAESMRGVAYRVKNEFNENAKIEPSVEILPEAHHNWIEGSERAVVALTSPHIPKEHQERVKATVEIVGGSIYAVEMHPKGVLSFLRDVGIASVKLAEIRGVNPLATPRIDALKRRLQ 1x9j-a3-m1-cB_1x9j-a3-m1-cC Structure of butyrate kinase 2 reveals both open- and citrate-induced closed conformations: implications for substrate-induced fit conformational changes Q9X278 Q9X278 3 X-RAY DIFFRACTION 199 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 371 371 1saz-a1-m1-cA_1saz-a1-m6-cA 1saz-a1-m2-cA_1saz-a1-m5-cA 1saz-a1-m3-cA_1saz-a1-m7-cA 1saz-a1-m4-cA_1saz-a1-m8-cA 1x9j-a1-m1-cB_1x9j-a1-m1-cC 1x9j-a1-m1-cE_1x9j-a1-m1-cD 1x9j-a1-m1-cF_1x9j-a1-m1-cG 1x9j-a1-m1-cH_1x9j-a1-m1-cA 1x9j-a2-m1-cH_1x9j-a2-m1-cA 1x9j-a4-m1-cF_1x9j-a4-m1-cG 1x9j-a5-m1-cE_1x9j-a5-m1-cD MFRILTINPGSTSTKLSIFEDERMVKMQNFSHSPDELGRFQKILDQLEFREKIARQFVEETGYSLSSFSAFVSRGGLLDPIPGGVYLVDGLMIKTLKSGKNGEHASNLGAIIAHRFSSETGVPAYVVDPVVVDEMEDVARVSGHPNYQRKSIFHALNQKTVAKEVARMMNKRYEEMNLVVAHMGGGISIAAHRKGRVIDVNNALDGDGPFTPERSGTLPLTQLVDLCFSGKFTYEEMKKRIVGNGGLVAYLGTSDAREVVRRIKQGDEWAKRVYRAMAYQIAKWIGKMAAVLKGEVDFIVLTGGLAHEKEFLVPWITKRVSFIAPVLVFPGSNEEKALALSALRVLRGEEKPKNYSEESRRWRERYDSYLD MFRILTINPGSTSTKLSIFEDERMVKMQNFSHSPDELGRFQKILDQLEFREKIARQFVEETGYSLSSFSAFVSRGGLLDPIPGGVYLVDGLMIKTLKSGKNGEHASNLGAIIAHRFSSETGVPAYVVDPVVVDEMEDVARVSGHPNYQRKSIFHALNQKTVAKEVARMMNKRYEEMNLVVAHMGGGISIAAHRKGRVIDVNNALDGDGPFTPERSGTLPLTQLVDLCFSGKFTYEEMKKRIVGNGGLVAYLGTSDAREVVRRIKQGDEWAKRVYRAMAYQIAKWIGKMAAVLKGEVDFIVLTGGLAHEKEFLVPWITKRVSFIAPVLVFPGSNEEKALALSALRVLRGEEKPKNYSEESRRWRERYDSYLD 1x9v-a1-m1-cA_1x9v-a1-m1-cB Dimeric structure of the C-terminal domain of Vpr Q73369 Q73369 NOT SOLUTION NMR 26 1.0 401671 (HIV-1 M:B_89.6) 401671 (HIV-1 M:B_89.6) 45 45 DTWTGVEALIRILQQLLFIHFRIGCRHSRIGIIQQRRTRNGASKS DTWTGVEALIRILQQLLFIHFRIGCRHSRIGIIQQRRTRNGASKS 1x9x-a1-m1-cA_1x9x-a1-m1-cB Solution Structure of Dimeric SAM Domain from MAPKKK Ste11 P23561 P23561 NOT SOLUTION NMR 41 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 62 62 LPFVQLFLEEIGCTQYLDSFIQCNLVTEEEIKYLDKDILIALGVNKIGDRLKILRKSKSFQR LPFVQLFLEEIGCTQYLDSFIQCNLVTEEEIKYLDKDILIALGVNKIGDRLKILRKSKSFQR 1x9z-a2-m1-cA_1x9z-a2-m4-cB Crystal structure of the MutL C-terminal domain P23367 P23367 2.1 X-RAY DIFFRACTION 12 0.994 562 (Escherichia coli) 562 (Escherichia coli) 180 180 1x9z-a2-m2-cA_1x9z-a2-m3-cB QSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLSEHAQWSAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALKD SQSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLSEHAQWSAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALK 1x9z-a3-m5-cA_1x9z-a3-m5-cB Crystal structure of the MutL C-terminal domain P23367 P23367 2.1 X-RAY DIFFRACTION 46 0.994 562 (Escherichia coli) 562 (Escherichia coli) 180 180 1x9z-a1-m1-cA_1x9z-a1-m1-cB 1x9z-a3-m1-cA_1x9z-a3-m1-cB QSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLSEHAQWSAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALKD SQSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLSEHAQWSAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALK 1x9z-a5-m1-cB_1x9z-a5-m5-cB Crystal structure of the MutL C-terminal domain P23367 P23367 2.1 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 180 180 1x9z-a2-m1-cA_1x9z-a2-m2-cA 1x9z-a2-m3-cB_1x9z-a2-m4-cB 1x9z-a3-m1-cB_1x9z-a3-m5-cB 1x9z-a4-m1-cA_1x9z-a4-m2-cA SQSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLSEHAQWSAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALK SQSFGRVLTIVHSDCALLERDGNISLLSLPVAERWLRQAQLTPGEAPVCAQPLLIPLRLKVSAEEKSALEKAQSALAELGIDFQSDAQHVTIRAVPLPLRQQNLQILIPELIGYLAKQSVFEPGNIAQWIARNLSEHAQWSAQAITLLADVERLCPQLVKTPPGGLLQSVDLHPAIKALK 1xa0-a1-m1-cB_1xa0-a1-m1-cA Crystal Structure of MCSG Target APC35536 from Bacillus stearothermophilus 2.8 X-RAY DIFFRACTION 48 0.987 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 311 312 SAFQAFVVNKTETEFTAGVQTISDDLPEGDVLVRVHYSSVNYKDGLASIPDGKIVKTPFVPGIDLAGVVVSSQHPEGDEVIATGYEIGVTHFGGYSEYARLHGEWLVPLPKGLTLKEAAIGTAGFTAALSIHRLEEHGLTPERGPVLVTGATGGVGSLAVSLAKRGYTVEASTGKAAEHDYLRVLGAKEVLAERIRPLDKQRWAAAVDPVGGRTLATVLSRRYGGAVAVSGLTGGAEVPTTVHPFILRGVSLLGIDSVYCPDLRLRIWERLAGDLKPDLERIAQEISLAELPQALKRILRGELRGRTVVRL SAFQAFVVNKTETEFTAGVQTISDDLPEGDVLVRVHYSSVNYKDGLASIPDGKIVKTPFVPGIDLAGVVVSSQHPRFREGDEVIATGYEIGVTHFGGYSEYARLHGEWLVPLPKGLTLKEAAIGTAGFTAALSIHRLEEHGLTPERGPVLVTGATGGVGSLAVSLAKRGYTVEASTGKAAEHDYLRVLGAKEVLARELDKQRWAAAVDPVGGRTLATVLSRRYGGAVAVSGLTGGAEVPTTVHPFILRGVSLLGIDSVYCPDLRLRIWERLAGDLKPDLERIAQEISLAELPQALKRILRGELRGRTVVRLA 1xa8-a3-m1-cA_1xa8-a3-m2-cB Crystal Structure Analysis of Glutathione-dependent formaldehyde-activating enzyme (Gfa) Q51669 Q51669 2.4 X-RAY DIFFRACTION 55 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 196 196 GHMVDTSGVKIHPAVDNGIKPAQPGFAGGTLHCKCSTNPVRVAVRAQTAHNHVCGCTKCWKPEGAIFSQVAVVGRDALEVLEGAEKLEIVNAEAPIQRHRCRDCGVHMYGRIENRDHPFYGLDFVHTELSDEDGWSAPEFAAFVSSIIESGVDPSRMEAIRARLRELGLEPYDALSPPLMDAIATHIAKRSGALAA GHMVDTSGVKIHPAVDNGIKPAQPGFAGGTLHCKCSTNPVRVAVRAQTAHNHVCGCTKCWKPEGAIFSQVAVVGRDALEVLEGAEKLEIVNAEAPIQRHRCRDCGVHMYGRIENRDHPFYGLDFVHTELSDEDGWSAPEFAAFVSSIIESGVDPSRMEAIRARLRELGLEPYDALSPPLMDAIATHIAKRSGALAA 1xaa-a1-m1-cA_1xaa-a1-m2-cA 3-ISOPROPYLMALATE DEHYDROGENASE, LOW TEMPERATURE (100K) STRUCTURE Q5SIY4 Q5SIY4 2.1 X-RAY DIFFRACTION 140 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 345 345 1dpz-a1-m1-cB_1dpz-a1-m1-cA 1dr0-a1-m1-cA_1dr0-a1-m1-cB 1dr8-a1-m1-cA_1dr8-a1-m1-cB 1g2u-a1-m1-cA_1g2u-a1-m2-cA 1gc8-a1-m1-cA_1gc8-a1-m1-cB 1gc9-a1-m1-cA_1gc9-a1-m2-cA 1hex-a1-m1-cA_1hex-a1-m2-cA 1idm-a1-m1-cA_1idm-a1-m2-cA 1ipd-a1-m1-cA_1ipd-a1-m2-cA 1osi-a1-m1-cA_1osi-a1-m1-cC 1osi-a2-m1-cB_1osi-a2-m1-cD 1osj-a1-m1-cA_1osj-a1-m1-cB 1wal-a1-m1-cA_1wal-a1-m2-cA 1xab-a1-m1-cA_1xab-a1-m2-cA 1xac-a1-m1-cA_1xac-a1-m2-cA 1xad-a1-m1-cA_1xad-a1-m2-cA 2y3z-a1-m1-cA_2y3z-a1-m2-cA 2y40-a1-m1-cB_2y40-a1-m1-cA 2y41-a1-m1-cA_2y41-a1-m1-cB 2y42-a1-m1-cA_2y42-a1-m1-cB 2y42-a2-m1-cC_2y42-a2-m1-cD 2ztw-a1-m1-cA_2ztw-a1-m2-cA 4f7i-a1-m1-cA_4f7i-a1-m1-cB 4f7i-a2-m1-cC_4f7i-a2-m1-cD 4wuo-a1-m1-cB_4wuo-a1-m1-cA MKVAVLPGDGIGPEVTEAALKVLRALDEAEGLGLAYEVFPFGGAAIDAFGEPFPEPTRKGVEEAEAVLLGSVGGPKWDGLPRKIRPETGLLSLRKSQDLFANLRPAKVFPGLERLSPLKEEIARGVDVLIVRELTGGIYFGEPRGMSEAEAWNTERYSKPEVERVARVAFEAARKRRKHVVSVDKANVLEVGEFWRKTVEEVGRGYPDVALEHQYVDAMAMHLVRSPARFDVVVTGNIFGDILSDLASVLPGSLGLLPSASLGRGTPVFEPVHGSAPDIAGKGIANPTAAILSAAMMLEHAFGLVELARKVEDAVAKALLETPPPDLGGSAGTEAFTATVLRHLA MKVAVLPGDGIGPEVTEAALKVLRALDEAEGLGLAYEVFPFGGAAIDAFGEPFPEPTRKGVEEAEAVLLGSVGGPKWDGLPRKIRPETGLLSLRKSQDLFANLRPAKVFPGLERLSPLKEEIARGVDVLIVRELTGGIYFGEPRGMSEAEAWNTERYSKPEVERVARVAFEAARKRRKHVVSVDKANVLEVGEFWRKTVEEVGRGYPDVALEHQYVDAMAMHLVRSPARFDVVVTGNIFGDILSDLASVLPGSLGLLPSASLGRGTPVFEPVHGSAPDIAGKGIANPTAAILSAAMMLEHAFGLVELARKVEDAVAKALLETPPPDLGGSAGTEAFTATVLRHLA 1xaf-a1-m1-cB_1xaf-a1-m1-cA Crystal Structure of Protein of Unknown Function YfiH from Shigella flexneri 2a str. 2457T A0A384KG77 A0A384KG77 2.01 X-RAY DIFFRACTION 14 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 238 239 1u05-a1-m1-cA_1u05-a1-m1-cB KLIVPQWPLPKGVAACSSTRIGGVSLPPYDSLNLGAHCGDNPDHVEENRKRLFAAGNLPSKPVWLEQVHGKDVLKLTGEPYASKRADASYSNTPGTVCAVTADCLPVLFCNRAGTEVAAVHAGWRGLCAGVLEETVSCFADKPENILAWLGPAIGPRAFEVGAEVREAFAVDAKASAAFIQHGDKYLADIYQLARQRLANVGVEQIFGGDRCTYTENETFFSYRRDKTTGRASFIWLI SKLIVPQWPLPKGVAACSSTRIGGVSLPPYDSLNLGAHCGDNPDHVEENRKRLFAAGNLPSKPVWLEQVHGKDVLKLTGEPYASKRADASYSNTPGTVCAVTADCLPVLFCNRAGTEVAAVHAGWRGLCAGVLEETVSCFADKPENILAWLGPAIGPRAFEVGAEVREAFAVDAKASAAFIQHGDKYLADIYQLARQRLANVGVEQIFGGDRCTYTENETFFSYRRDKTTGRASFIWLI 1xao-a1-m1-cA_1xao-a1-m1-cB Hsp40-Ydj1 dimerization domain P25491 P25491 2.07 X-RAY DIFFRACTION 227 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 115 115 SFKRDGDDLVYEAEIDLLTAIAGGEFALEHVSGDWLKVGIVPGEVIAPGMRKVIEGKGMPYGNLIIKFTIKFPENHFTSEENLKKLEEILPPRIVPAIPKKATVDECVLADFDPA SFKRDGDDLVYEAEIDLLTAIAGGEFALEHVSGDWLKVGIVPGEVIAPGMRKVIEGKGMPYGNLIIKFTIKFPENHFTSEENLKKLEEILPPRIVPAIPKKATVDECVLADFDPA 1xar-a1-m1-cB_1xar-a1-m2-cB Crystal Structure of a fragment of DC-SIGNR (containing the carbohydrate recognition domain and two repeats of the neck). Q9H2X3 Q9H2X3 2.25 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 ELTDLKTAFERLCRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAACF ELTDLKTAFERLCRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAACF 1xar-a1-m2-cB_1xar-a1-m1-cA Crystal Structure of a fragment of DC-SIGNR (containing the carbohydrate recognition domain and two repeats of the neck). Q9H2X3 Q9H2X3 2.25 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 146 1xar-a1-m1-cB_1xar-a1-m2-cA ELTDLKTAFERLCRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAACF YQELTDLKTAFERLCRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAACF 1xar-a1-m2-cB_1xar-a1-m2-cA Crystal Structure of a fragment of DC-SIGNR (containing the carbohydrate recognition domain and two repeats of the neck). Q9H2X3 Q9H2X3 2.25 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 146 1xar-a1-m1-cB_1xar-a1-m1-cA ELTDLKTAFERLCRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAACF YQELTDLKTAFERLCRHCPKDWTFFQGNCYFMSNSQRNWHDSVTACQEVRAQLVVIKTAEEQNFLQLQTSRSNRFSWMGLSDLNQEGTWQWVDGSPLSPSFQRYWNSGEPNNSGNEDCAEFSGSGWNDNRCDVDNYWICKKPAACF 1xb0-a1-m1-cE_1xb0-a1-m1-cF Structure of the BIR domain of IAP-like protein 2 Q96P09 Q96P09 2.2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 103 1xb0-a1-m1-cA_1xb0-a1-m1-cF 1xb0-a1-m1-cC_1xb0-a1-m1-cB 1xb0-a1-m1-cC_1xb0-a1-m1-cD 1xb0-a1-m1-cD_1xb0-a1-m1-cE 1xb1-a1-m1-cA_1xb1-a1-m1-cB 1xb1-a1-m1-cC_1xb1-a1-m1-cB 1xb1-a1-m1-cC_1xb1-a1-m1-cD 1xb1-a1-m1-cD_1xb1-a1-m1-cE 1xb1-a1-m1-cF_1xb1-a1-m1-cA 1xb1-a1-m1-cF_1xb1-a1-m1-cE 1xb1-a2-m1-cA_1xb1-a2-m1-cB 1xb1-a2-m1-cC_1xb1-a2-m1-cB 1xb1-a2-m1-cC_1xb1-a2-m1-cD 1xb1-a2-m1-cD_1xb1-a2-m1-cE 1xb1-a2-m1-cF_1xb1-a2-m1-cA 1xb1-a2-m1-cF_1xb1-a2-m1-cE 1xb1-a2-m2-cA_1xb1-a2-m2-cB 1xb1-a2-m2-cC_1xb1-a2-m2-cB 1xb1-a2-m2-cC_1xb1-a2-m2-cD 1xb1-a2-m2-cD_1xb1-a2-m2-cE 1xb1-a2-m2-cF_1xb1-a2-m2-cA 1xb1-a2-m2-cF_1xb1-a2-m2-cE NLPRNPSMTGYEARLITFGTWMYSVNKEQLARAGFYAIGQEDKVQCFHCGGGLANWKPKEDPWEQHAKWYPGCKYLLEEKGHEYINNIHLTRS TNLPRNPSMTGYEARLITFGTWMYSVNKEQLARAGFYAIGQEDKVQCFHCGGGLANWKPKEDPWEQHAKWYPGCKYLLEEKGHEYINNIHLTRSLEGALVQTT 1xb1-a2-m2-cF_1xb1-a2-m1-cA The Structure of the BIR domain of IAP-like protein 2 Q96P09 Q96P09 2.7 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 90 1xb1-a2-m1-cB_1xb1-a2-m2-cE 1xb1-a2-m1-cC_1xb1-a2-m2-cD 1xb1-a2-m1-cD_1xb1-a2-m2-cC 1xb1-a2-m1-cE_1xb1-a2-m2-cB 1xb1-a2-m1-cF_1xb1-a2-m2-cA NLPRNPSMTGYEARLITFGTWMYSVNKEQLARAGFYAIGQEDKVQCFHCGGGLANWKPKEDPWEQHAKWYPGCKYLLEEKGHEYINNIH NLPRNPSMTGYEARLITFGTWMYSVNKEQLARAGFYAIGQEDKVQCFHCGGGLANWKPKEDPWEQHAKWYPGCKYLLEEKGHEYINNIHL 1xb1-a2-m2-cF_1xb1-a2-m1-cB The Structure of the BIR domain of IAP-like protein 2 Q96P09 Q96P09 2.7 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 102 1xb1-a2-m1-cC_1xb1-a2-m2-cE 1xb1-a2-m1-cF_1xb1-a2-m2-cB 1xb1-a2-m2-cC_1xb1-a2-m1-cE NLPRNPSMTGYEARLITFGTWMYSVNKEQLARAGFYAIGQEDKVQCFHCGGGLANWKPKEDPWEQHAKWYPGCKYLLEEKGHEYINNIH NLPRNPSMTGYEARLITFGTWMYSVNKEQLARAGFYAIGQEDKVQCFHCGGGLANWKPKEDPWEQHAKWYPGCKYLLEEKGHEYINNIHLTRSLEGALVQTT 1xb4-a2-m1-cD_1xb4-a2-m1-cC Crystal structure of subunit VPS25 of the endosomal trafficking complex ESCRT-II P47142 P47142 3.1 X-RAY DIFFRACTION 53 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 154 180 SALPPVYSFPPLYTRQPTRRQQISTWIDIISQYCKTKKIWYMSVDGTVINNLFNNEDIQRSVSQVFIDEIWSQMTKEGKCLPIYFILWKSLDSWASLILQWFGKLNQVITLYELSVNWEFHRMPESLLYYCLKPLCDRNTMLKDENDKVIAIKV ALPPVYSFPPLYTRQPNSLTRRQQISTWIDIISQYCKTKKIWYMSVDGTVINDNKNLFNNEDIQRSVSQVFIDEIWSQMTKEGKCLPIDQSGRRSSNTTTTRYFILWKSLDSWASLILQWFEDSGKLNQVITLYELSETVNWEFHRMPESLLYYCLKPLCDRNRATMLKDENDKVIAIKV 1xbw-a2-m1-cC_1xbw-a2-m1-cD 1.9A Crystal Structure of the protein isdG from Staphylococcus aureus aureus, Structural genomics, MCSG Q8NX62 Q8NX62 1.9 X-RAY DIFFRACTION 85 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 90 98 TMKFMAENRLTLTKGTAKDIIERFYTRHGIETLEGFDGMFVTQTLEQEDFDEVKILTVWKSKQAFTDWLKSSPIINNKVITYDIGYSYMK TMKFMAENRLTLTKGTAKDIIERFYTRHGIETLEGFDGMFVTQTLEQEDFDEVKILTVWKSKQAFTDWLKSDVFKAAHKSPIINNKVITYDIGYSYMK 1xc4-a1-m1-cB_1xc4-a1-m2-cA Crystal structure of wild-type tryptophan synthase alpha-subunits from Escherichia coli P0A877 P0A877 2.8 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 240 240 MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLALIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLALIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS 1xc4-a1-m2-cA_1xc4-a1-m2-cB Crystal structure of wild-type tryptophan synthase alpha-subunits from Escherichia coli P0A877 P0A877 2.8 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 240 240 1xc4-a1-m1-cA_1xc4-a1-m1-cB MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLALIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS MERYESLFAQLKERKEGAFVPFVTLGDPGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLALIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGYTYLLSRAGAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATRS 1xcb-a5-m3-cD_1xcb-a5-m3-cC X-ray Structure of a Rex-Family Repressor/NADH Complex from Thermus Aquaticus Q9X2V5 Q9X2V5 2.9 X-RAY DIFFRACTION 148 0.995 271 (Thermus aquaticus) 271 (Thermus aquaticus) 196 202 1xcb-a1-m1-cB_1xcb-a1-m1-cA 1xcb-a2-m1-cD_1xcb-a2-m1-cC 1xcb-a3-m1-cF_1xcb-a3-m1-cE 1xcb-a4-m1-cG_1xcb-a4-m2-cG 1xcb-a5-m1-cD_1xcb-a5-m1-cC 1xcb-a5-m1-cF_1xcb-a5-m1-cE 1xcb-a5-m3-cF_1xcb-a5-m3-cE 1xcb-a5-m4-cB_1xcb-a5-m4-cA 1xcb-a5-m4-cG_1xcb-a5-m5-cG 1xcb-a5-m5-cB_1xcb-a5-m5-cA 2dt5-a1-m1-cA_2dt5-a1-m1-cB 2dt5-a2-m1-cA_2dt5-a2-m1-cB 2dt5-a2-m2-cA_2dt5-a2-m2-cB PEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGSYGYTVPVLKRELRHILGLNRKWGLCIVGGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKW KVPEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPK 1xcb-a5-m5-cG_1xcb-a5-m5-cA X-ray Structure of a Rex-Family Repressor/NADH Complex from Thermus Aquaticus Q9X2V5 Q9X2V5 2.9 X-RAY DIFFRACTION 10 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 191 204 1xcb-a5-m1-cD_1xcb-a5-m1-cF 1xcb-a5-m1-cD_1xcb-a5-m4-cA 1xcb-a5-m3-cD_1xcb-a5-m3-cF 1xcb-a5-m3-cD_1xcb-a5-m5-cA 1xcb-a5-m4-cG_1xcb-a5-m4-cA PEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGYTVPVLKRELRHILGLNRKWGLCIVGGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNP KVPEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWR 1xcb-a5-m5-cG_1xcb-a5-m5-cB X-ray Structure of a Rex-Family Repressor/NADH Complex from Thermus Aquaticus Q9X2V5 Q9X2V5 2.9 X-RAY DIFFRACTION 24 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 191 196 1xcb-a5-m1-cC_1xcb-a5-m4-cA 1xcb-a5-m1-cD_1xcb-a5-m1-cE 1xcb-a5-m3-cC_1xcb-a5-m5-cA 1xcb-a5-m3-cD_1xcb-a5-m3-cE 1xcb-a5-m4-cG_1xcb-a5-m4-cB PEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGYTVPVLKRELRHILGLNRKWGLCIVGGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNP PEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGSGYTVPVLKRELRHILGLNRKWGLCIVGGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWR 1xcc-a1-m1-cC_1xcc-a1-m1-cA 1-Cys peroxidoxin from Plasmodium Yoelli Q86SB3 Q86SB3 2.3 X-RAY DIFFRACTION 196 1.0 5861 (Plasmodium yoelii) 5861 (Plasmodium yoelii) 218 219 1xcc-a2-m1-cD_1xcc-a2-m1-cB 3tb2-a1-m1-cA_3tb2-a1-m1-cC 3tb2-a2-m1-cB_3tb2-a2-m1-cD YHLGATFPNFTAKASGIDGDFELYKYIENSWAILFSHPNDFTPVCTTELAELGKMHEDFLKLNCKLIGFSCNSKESHDKWIEDIKYYGKLNKWEIPIVCDESRELANKLKIMDEQEKDITGLPLTCRCLFFISPEKKIKATVLYPATTGRNAHEILRVLKSLQLTYTTPVATPVNWNEGDKCCVIPTLQDDEISKHFKNEITKVEMPSKKKYLRFVNL GYHLGATFPNFTAKASGIDGDFELYKYIENSWAILFSHPNDFTPVCTTELAELGKMHEDFLKLNCKLIGFSCNSKESHDKWIEDIKYYGKLNKWEIPIVCDESRELANKLKIMDEQEKDITGLPLTCRCLFFISPEKKIKATVLYPATTGRNAHEILRVLKSLQLTYTTPVATPVNWNEGDKCCVIPTLQDDEISKHFKNEITKVEMPSKKKYLRFVNL 1xcf-a1-m1-cB_1xcf-a1-m2-cB Crystal structure of P28L/Y173F tryptophan synthase alpha-subunits from Escherichia coli P0A877 P0A877 1.8 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 238 238 MERYESLFAQLKERKEGAFVPFVTLGDLGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLAIIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGFTYLLSRAAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATR MERYESLFAQLKERKEGAFVPFVTLGDLGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLAIIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGFTYLLSRAAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATR 1xcf-a1-m2-cA_1xcf-a1-m2-cB Crystal structure of P28L/Y173F tryptophan synthase alpha-subunits from Escherichia coli P0A877 P0A877 1.8 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 238 238 1xcf-a1-m1-cA_1xcf-a1-m1-cB MERYESLFAQLKERKEGAFVPFVTLGDLGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLAIIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGFTYLLSRAAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATR MERYESLFAQLKERKEGAFVPFVTLGDLGIEQSLKIIDTLIEAGADALELGIPFVTPAQCFEMLAIIREKHPTIPIGLLMYANLVFNKGIDEFYARCEKVGVDSVLVADVPVEESAPFRQAALRHNVAPIFICPPNADDDLLRQIASYGRGFTYLLSRAAALPLNHLVAKLKEYNAAPPLQGFGISAPDQVKAAIDAGAAGAISGSAIVKIIEQHINEPEKMLAALKVFVQPMKAATR 1xco-a1-m1-cA_1xco-a1-m1-cB Crystal Structure of a Phosphotransacetylase from Bacillus subtilis in complex with acetylphosphate P39646 P39646 2.85 X-RAY DIFFRACTION 111 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 324 324 1td9-a1-m1-cA_1td9-a1-m1-cB 1td9-a2-m1-cC_1td9-a2-m1-cD 1td9-a3-m1-cE_1td9-a3-m2-cE 1td9-a4-m1-cF_1td9-a4-m2-cF 1xco-a2-m1-cC_1xco-a2-m1-cD 1xco-a3-m1-cE_1xco-a3-m2-cE 1xco-a4-m1-cF_1xco-a4-m2-cF GMADLFSTVQEKVAGKDVKIVFPEGLDERILEAVSKLAGNKVLNPIVIGNENEIQAKAKELNLTLGGVKIYDPHTYEGMEDLVQAFVERRKGKATEEQARKALLDENYFGTMLVYKGLADGLVSGAAHSTADTVRPALQIIKTKEGVKKTSGVFIMARGEEQYVFADCAINIAPDSQDLAEIAIESANTAKMFDIEPRVAMLSFSTKGSAKSDETEKVADAVKIAKEKAPELTLDGEFQFDAAFVPSVAEKKAPDSEIKGDANVFVFPSLEAGNIGYKIAQRLGNFEAVGPILQGLNMPVNDLSRGCNAEDVYNLALITAAQAL GMADLFSTVQEKVAGKDVKIVFPEGLDERILEAVSKLAGNKVLNPIVIGNENEIQAKAKELNLTLGGVKIYDPHTYEGMEDLVQAFVERRKGKATEEQARKALLDENYFGTMLVYKGLADGLVSGAAHSTADTVRPALQIIKTKEGVKKTSGVFIMARGEEQYVFADCAINIAPDSQDLAEIAIESANTAKMFDIEPRVAMLSFSTKGSAKSDETEKVADAVKIAKEKAPELTLDGEFQFDAAFVPSVAEKKAPDSEIKGDANVFVFPSLEAGNIGYKIAQRLGNFEAVGPILQGLNMPVNDLSRGCNAEDVYNLALITAAQAL 1xd5-a5-m1-cA_1xd5-a5-m1-cB Crystal structures of novel monomeric monocot mannose-binding lectins from Gastrodia elata Q9AXZ2 Q9AXZ2 2 X-RAY DIFFRACTION 19 1.0 91201 (Gastrodia elata) 91201 (Gastrodia elata) 112 112 SDRLNSGHQLDTGGSLAEGGYLFIIQNDCNLVLYDNNRAVWASGTNGKASGCVLKMQNDGNLVIYSGSRAIWASNTNRQNGNYYLILQRDRNVVIYDNSNNAIWATHTNVGN SDRLNSGHQLDTGGSLAEGGYLFIIQNDCNLVLYDNNRAVWASGTNGKASGCVLKMQNDGNLVIYSGSRAIWASNTNRQNGNYYLILQRDRNVVIYDNSNNAIWATHTNVGN 1xd7-a1-m1-cA_1xd7-a1-m2-cA Crystal structure of a putative DNA binding protein P71036 P71036 2.3 X-RAY DIFFRACTION 84 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 116 116 SRLAVAIHILSLISMDEKTSSEIIADSVNTNPVVVRRMISLLKKADILTSRAGVPGASLKKDPADISLLEVYRAVQKNPKCPVGKKIQNALDETFESVQRAMENELASKSLKDVMN SRLAVAIHILSLISMDEKTSSEIIADSVNTNPVVVRRMISLLKKADILTSRAGVPGASLKKDPADISLLEVYRAVQKNPKCPVGKKIQNALDETFESVQRAMENELASKSLKDVMN 1xdh-a1-m1-cA_1xdh-a1-m1-cB Structure of plasmepsin II in complex with pepstatin A P46925 P46925 1.7 X-RAY DIFFRACTION 88 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 329 329 1m43-a3-m1-cA_1m43-a3-m1-cB 1me6-a3-m1-cA_1me6-a3-m2-cB 1w6i-a3-m1-cA_1w6i-a3-m2-cC 1xe5-a1-m1-cA_1xe5-a1-m1-cB 1xe6-a1-m1-cA_1xe6-a1-m1-cB SSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNIMLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL SSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNIMLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 1xdi-a1-m1-cA_1xdi-a1-m2-cB Crystal structure of LpdA (Rv3303c) from Mycobacterium tuberculosis P9WHH7 P9WHH7 2.81 X-RAY DIFFRACTION 53 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 459 459 1xdi-a1-m1-cB_1xdi-a1-m2-cA VTRIVILGGGPAGYEAALVAATSHPETTQVTVIDCDGIGGAAVLDDCVPSKTFIASTGLRTELRRAPHLGFHKISLPQIHARVKTLAAAQSADITAQLLSMGVQVIAGRGELIDSTPGLARHRIKATAADGSTSEHEADVVLVATGASPRILPSAQPDGERILTWRQLYDLDALPDHLIVVGSGVTGAEFVDAYTELGVPVTVVASQDHVLPYEDADAALVLEESFAERGVRLFKNARAASVTRTGAGVLVTMTDGRTVEGSHALMTIGSVPNTSGLGLERVGIQLGRGNYLTVDRVSRTLATGIYAAGDCTGLLPLASVAAMQGRIAMYHALGEGVSPIRLRTVAATVFTRPEIAAVGVPQSVIDAGSVAARTIMLPLRTNARAKMSEMRHGFVKIFCRRSTGVVIGGVVVAPIASELILPIAVAVQNRITVNELAQTLAVYPSLSGSITEAARRLMA VTRIVILGGGPAGYEAALVAATSHPETTQVTVIDCDGIGGAAVLDDCVPSKTFIASTGLRTELRRAPHLGFHKISLPQIHARVKTLAAAQSADITAQLLSMGVQVIAGRGELIDSTPGLARHRIKATAADGSTSEHEADVVLVATGASPRILPSAQPDGERILTWRQLYDLDALPDHLIVVGSGVTGAEFVDAYTELGVPVTVVASQDHVLPYEDADAALVLEESFAERGVRLFKNARAASVTRTGAGVLVTMTDGRTVEGSHALMTIGSVPNTSGLGLERVGIQLGRGNYLTVDRVSRTLATGIYAAGDCTGLLPLASVAAMQGRIAMYHALGEGVSPIRLRTVAATVFTRPEIAAVGVPQSVIDAGSVAARTIMLPLRTNARAKMSEMRHGFVKIFCRRSTGVVIGGVVVAPIASELILPIAVAVQNRITVNELAQTLAVYPSLSGSITEAARRLMA 1xdi-a1-m1-cB_1xdi-a1-m2-cB Crystal structure of LpdA (Rv3303c) from Mycobacterium tuberculosis P9WHH7 P9WHH7 2.81 X-RAY DIFFRACTION 13 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 459 459 1xdi-a1-m1-cA_1xdi-a1-m2-cA VTRIVILGGGPAGYEAALVAATSHPETTQVTVIDCDGIGGAAVLDDCVPSKTFIASTGLRTELRRAPHLGFHKISLPQIHARVKTLAAAQSADITAQLLSMGVQVIAGRGELIDSTPGLARHRIKATAADGSTSEHEADVVLVATGASPRILPSAQPDGERILTWRQLYDLDALPDHLIVVGSGVTGAEFVDAYTELGVPVTVVASQDHVLPYEDADAALVLEESFAERGVRLFKNARAASVTRTGAGVLVTMTDGRTVEGSHALMTIGSVPNTSGLGLERVGIQLGRGNYLTVDRVSRTLATGIYAAGDCTGLLPLASVAAMQGRIAMYHALGEGVSPIRLRTVAATVFTRPEIAAVGVPQSVIDAGSVAARTIMLPLRTNARAKMSEMRHGFVKIFCRRSTGVVIGGVVVAPIASELILPIAVAVQNRITVNELAQTLAVYPSLSGSITEAARRLMA VTRIVILGGGPAGYEAALVAATSHPETTQVTVIDCDGIGGAAVLDDCVPSKTFIASTGLRTELRRAPHLGFHKISLPQIHARVKTLAAAQSADITAQLLSMGVQVIAGRGELIDSTPGLARHRIKATAADGSTSEHEADVVLVATGASPRILPSAQPDGERILTWRQLYDLDALPDHLIVVGSGVTGAEFVDAYTELGVPVTVVASQDHVLPYEDADAALVLEESFAERGVRLFKNARAASVTRTGAGVLVTMTDGRTVEGSHALMTIGSVPNTSGLGLERVGIQLGRGNYLTVDRVSRTLATGIYAAGDCTGLLPLASVAAMQGRIAMYHALGEGVSPIRLRTVAATVFTRPEIAAVGVPQSVIDAGSVAARTIMLPLRTNARAKMSEMRHGFVKIFCRRSTGVVIGGVVVAPIASELILPIAVAVQNRITVNELAQTLAVYPSLSGSITEAARRLMA 1xdi-a2-m1-cA_1xdi-a2-m1-cB Crystal structure of LpdA (Rv3303c) from Mycobacterium tuberculosis P9WHH7 P9WHH7 2.81 X-RAY DIFFRACTION 227 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 459 459 1xdi-a1-m1-cA_1xdi-a1-m1-cB 1xdi-a1-m2-cA_1xdi-a1-m2-cB VTRIVILGGGPAGYEAALVAATSHPETTQVTVIDCDGIGGAAVLDDCVPSKTFIASTGLRTELRRAPHLGFHKISLPQIHARVKTLAAAQSADITAQLLSMGVQVIAGRGELIDSTPGLARHRIKATAADGSTSEHEADVVLVATGASPRILPSAQPDGERILTWRQLYDLDALPDHLIVVGSGVTGAEFVDAYTELGVPVTVVASQDHVLPYEDADAALVLEESFAERGVRLFKNARAASVTRTGAGVLVTMTDGRTVEGSHALMTIGSVPNTSGLGLERVGIQLGRGNYLTVDRVSRTLATGIYAAGDCTGLLPLASVAAMQGRIAMYHALGEGVSPIRLRTVAATVFTRPEIAAVGVPQSVIDAGSVAARTIMLPLRTNARAKMSEMRHGFVKIFCRRSTGVVIGGVVVAPIASELILPIAVAVQNRITVNELAQTLAVYPSLSGSITEAARRLMA VTRIVILGGGPAGYEAALVAATSHPETTQVTVIDCDGIGGAAVLDDCVPSKTFIASTGLRTELRRAPHLGFHKISLPQIHARVKTLAAAQSADITAQLLSMGVQVIAGRGELIDSTPGLARHRIKATAADGSTSEHEADVVLVATGASPRILPSAQPDGERILTWRQLYDLDALPDHLIVVGSGVTGAEFVDAYTELGVPVTVVASQDHVLPYEDADAALVLEESFAERGVRLFKNARAASVTRTGAGVLVTMTDGRTVEGSHALMTIGSVPNTSGLGLERVGIQLGRGNYLTVDRVSRTLATGIYAAGDCTGLLPLASVAAMQGRIAMYHALGEGVSPIRLRTVAATVFTRPEIAAVGVPQSVIDAGSVAARTIMLPLRTNARAKMSEMRHGFVKIFCRRSTGVVIGGVVVAPIASELILPIAVAVQNRITVNELAQTLAVYPSLSGSITEAARRLMA 1xdk-a3-m1-cB_1xdk-a3-m1-cF Crystal Structure of the RARbeta/RXRalpha Ligand Binding Domain Heterodimer in Complex with 9-cis Retinoic Acid and a Fragment of the TRAP220 Coactivator P22605 P22605 2.9 X-RAY DIFFRACTION 75 1.0 10090 (Mus musculus) 10090 (Mus musculus) 245 245 AELDDLTEKIRKAHQETFPSLCQLGKYTTNSSADHRVRLDLGLWDKFSELATKCIIKIVEFAKRLPGFTGLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFTFANQLLPLEMDDTETGLLSAICLICGDRQDLEEPTKVDKLQEPLLEALKIYIRKRRPSKPHMFPKILMKITDLRSISAKGAERVITLKMEIPGSMPPLIQEMLENSEGHEPLTPS AELDDLTEKIRKAHQETFPSLCQLGKYTTNSSADHRVRLDLGLWDKFSELATKCIIKIVEFAKRLPGFTGLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFTFANQLLPLEMDDTETGLLSAICLICGDRQDLEEPTKVDKLQEPLLEALKIYIRKRRPSKPHMFPKILMKITDLRSISAKGAERVITLKMEIPGSMPPLIQEMLENSEGHEPLTPS 1xdm-a1-m1-cA_1xdm-a1-m1-cB Structure of human aldolase B associated with hereditary fructose intolerance (A149P), at 291K P05062 P05062 3 X-RAY DIFFRACTION 58 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 303 304 1xdl-a1-m1-cB_1xdl-a1-m1-cA 1xdl-a2-m1-cD_1xdl-a2-m1-cC 1xdl-a3-m1-cW_1xdl-a3-m1-cX 1xdl-a4-m1-cZ_1xdl-a4-m1-cY 1xdm-a2-m1-cD_1xdm-a2-m1-cC 1xdm-a3-m1-cW_1xdm-a3-m1-cX 1xdm-a4-m1-cZ_1xdm-a4-m1-cY PALTQEQKKELSEIAQSIVANGKGILAADESVGTMGNRLQRIKVENTEENRRQFREILFSVDSSINQSIGGVILFHETLYQKDSQGKLFRNILKEKGIVVGIKLDGLDGLSERCAQYKKDGVDFGKWRPSSLAIQENANALARYASICQQNGLVPIVEPEVIDHDLEHCQYVTEKVLAAVYKALNDHHVYLEGTLLKPNMVTAYTPEQVAMATVTALHRTVPAAVPGICFLSGGMSEEDATLNLNAINLCPLPKPWKLSFSYGRALQASALAAWGGKAANKEATQEAFMKRAMANCQAAKGQY ALTQEQKKELSEIAQSIVANGKGILAADESVGTMGNRLQRIKVENTEENRRQFREILFSVDSSINQSIGGVILFHETLYQKDSQGKLFRNILKEKGIVVGIKLDDGLSERCAQYKKDGVDFGKWRPSSLAIQENANALARYASICQQNGLVPIVEPEVIPDDLEHCQYVTEKVLAAVYKALNDHHVYLEGTLLKPNMVTKKYTPEQVAMATVTALHRTVPAAVPGICFLSGGMSEEDATLNLNAINLCPLPKPWKLSFSYGRALQASALAAWGGKAANKEATQEAFMKRAMANCQAAKGQYVHT 1xdo-a2-m1-cB_1xdo-a2-m2-cB Crystal Structure of Escherichia coli Polyphosphate Kinase P0A7B1 P0A7B1 3 X-RAY DIFFRACTION 14 1.0 562 (Escherichia coli) 562 (Escherichia coli) 687 687 1xdo-a2-m1-cA_1xdo-a2-m2-cA 1xdp-a2-m1-cA_1xdp-a2-m2-cA GQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE GQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE 1xdp-a2-m1-cA_1xdp-a2-m2-cB Crystal Structure of the E.coli Polyphosphate Kinase in complex with AMPPNP P0A7B1 P0A7B1 2.5 X-RAY DIFFRACTION 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 687 687 1xdo-a2-m1-cA_1xdo-a2-m2-cB 1xdo-a2-m1-cB_1xdo-a2-m2-cA 1xdp-a2-m1-cB_1xdp-a2-m2-cA GQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE GQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE 1xdp-a2-m2-cA_1xdp-a2-m2-cB Crystal Structure of the E.coli Polyphosphate Kinase in complex with AMPPNP P0A7B1 P0A7B1 2.5 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 687 687 1xdo-a1-m1-cA_1xdo-a1-m1-cB 1xdo-a2-m1-cA_1xdo-a2-m1-cB 1xdo-a2-m2-cA_1xdo-a2-m2-cB 1xdp-a1-m1-cA_1xdp-a1-m1-cB 1xdp-a2-m1-cA_1xdp-a2-m1-cB GQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE GQEKLYIEKELSWLSFNERVLQEAADKSNPLIERMRFLGIYSNNLDEFYKVRFAELKRRIIISEEQGSNSHSRHLLGKIQSRVLKADQEFDGLYNELLLEMARNQIFLINERQLSVNQQNWLRHYFKQYLRQHITPILINPDTDLVQFLKDDYTYLAVEIIRGDTIRYALLEIPSDKVPRFVNLPPEAPRRRKPMILLDNILRYCLDDIFKGFFDYDALNAYSMKMTRDAEYDLVHEMEASLMELMSSSLKQRLTAEPVRFVYQRDMPNALVEVLREKLTISRYDSIVPGGRYHNFKDFINFPNVGKANLVNKPLPRLRHIWFDKAQFRNGFDAIRERDVLLYYPYHTFEHVLELLRQASFDPSVLAIKINIYRVAKDSRIIDSMIHAAHNGKKVTVVVELQARFDEEANIHWAKRLTEAGVHVIFSAPGLKIHAKLFLISRKENGEVVRYAHIGTGNFNEKTARLYTDYSLLTADARITNEVRRVFNFIENPYRPVTFDYLMVSPQNSRRLLYEMVDREIANAQQGLPSGITLKLNNLVDKGLVDRLYAASSSGVPVNLLVRGMCSLIPNLEGISDNIRAISIVDRYLEHDRVYIFENGGDKKVYLSSADWMTRNIDYRIEVATPLLDPRLKQRVLDIIDILFSDTVKARYIDKELSNRYVPRGNRRKVRAQLAIYDYIKSLEQPE 1xdx-a1-m1-cA_1xdx-a1-m1-cB Solution Structure of the Tctex1 Light Chain From Chlamydomonas Inner Dynein Arm I1 O64980 O64980 NOT SOLUTION NMR 130 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 114 114 MEGVDPAVEEAAFVADDVSNIIKESIDAVLQNQQYSEAKVSQWTSSCLEHCIKRLTALNKPFKYVVTCIIMQKNGAGLHTAASCWWDSTTDGSRTVRWENKSMYCICTVFGLAI MEGVDPAVEEAAFVADDVSNIIKESIDAVLQNQQYSEAKVSQWTSSCLEHCIKRLTALNKPFKYVVTCIIMQKNGAGLHTAASCWWDSTTDGSRTVRWENKSMYCICTVFGLAI 1xe0-a2-m1-cJ_1xe0-a2-m1-cI The structure and function of Xenopus NO38-core, a histone binding chaperone in the nucleolus P07222 P07222 1.7 X-RAY DIFFRACTION 92 0.99 8355 (Xenopus laevis) 8355 (Xenopus laevis) 104 105 1xb9-a1-m1-cB_1xb9-a1-m1-cA 1xb9-a1-m1-cC_1xb9-a1-m1-cB 1xb9-a1-m1-cC_1xb9-a1-m1-cD 1xb9-a1-m1-cD_1xb9-a1-m1-cE 1xb9-a1-m1-cE_1xb9-a1-m1-cA 1xb9-a2-m1-cF_1xb9-a2-m1-cG 1xb9-a2-m1-cF_1xb9-a2-m1-cJ 1xb9-a2-m1-cG_1xb9-a2-m1-cH 1xb9-a2-m1-cH_1xb9-a2-m1-cI 1xb9-a2-m1-cJ_1xb9-a2-m1-cI 1xe0-a1-m1-cB_1xe0-a1-m1-cA 1xe0-a1-m1-cC_1xe0-a1-m1-cB 1xe0-a1-m1-cC_1xe0-a1-m1-cD 1xe0-a1-m1-cE_1xe0-a1-m1-cA 1xe0-a1-m1-cE_1xe0-a1-m1-cD 1xe0-a2-m1-cG_1xe0-a2-m1-cF 1xe0-a2-m1-cG_1xe0-a2-m1-cH 1xe0-a2-m1-cH_1xe0-a2-m1-cI 1xe0-a2-m1-cJ_1xe0-a2-m1-cF SQNFLFGCELKADKKEYSFKVEENEHQLSLRTVSLGASAKDELHVVEAEGINYEGKTIKIALASLKPSVQPTVSLGGFEITPPVILRLKSGSGPVYVSGQHLVA SQNFLFGCELKADKKEYSFKVEDDNEHQLSLRTVSLGASAKDELHVVEAEGINYEGKTIKIALASLKPSVQPTVSLGGFEITPPVILRLKSGSGPVYVSGQHLVA 1xe1-a3-m1-cA_1xe1-a3-m3-cA Hypothetical Protein From Pyrococcus Furiosus Pfu-880080-001 Q8U2D2 Q8U2D2 2 X-RAY DIFFRACTION 20 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 89 89 IEILSKKPAGKVVVEEVVNIGKDVIIGTVESGIGVGFKVKGPSGIGGIVRIERNREKVEFAIAGDRIGISIEGKIGKVKKGDVLEIYQT IEILSKKPAGKVVVEEVVNIGKDVIIGTVESGIGVGFKVKGPSGIGGIVRIERNREKVEFAIAGDRIGISIEGKIGKVKKGDVLEIYQT 1xe8-a2-m1-cC_1xe8-a2-m2-cC Crystal structure of the YML079w protein from Saccharomyces cerevisiae reveals a new sequence family of the jelly roll fold. Q03629 Q03629 2.8 X-RAY DIFFRACTION 55 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 185 185 1xe7-a1-m1-cA_1xe7-a1-m1-cB 1xe7-a2-m1-cC_1xe7-a2-m2-cC 1xe8-a1-m1-cA_1xe8-a1-m1-cB ANAAIEPASFVKVPPEPPSSLQQLINDWQLIKHREGGYFKETDRSPYTEVEKPTEVTRNQSTLIYYLLTPDSPIGKFHKNINRIIHILQRGKGQYVLVYPDGQVKSFKVGFDYKNGEVSQWVVPGGVFKASFLLPNEEFDNGFLISEVVVPGFDFEDHTFLKGEDELKHLVGPEKAAELAFLAHH ANAAIEPASFVKVPPEPPSSLQQLINDWQLIKHREGGYFKETDRSPYTEVEKPTEVTRNQSTLIYYLLTPDSPIGKFHKNINRIIHILQRGKGQYVLVYPDGQVKSFKVGFDYKNGEVSQWVVPGGVFKASFLLPNEEFDNGFLISEVVVPGFDFEDHTFLKGEDELKHLVGPEKAAELAFLAHH 1xea-a1-m1-cA_1xea-a1-m1-cD Crystal structure of a Gfo/Idh/MocA family oxidoreductase from Vibrio cholerae Q9KKQ4 Q9KKQ4 2.65 X-RAY DIFFRACTION 23 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 304 304 1xea-a1-m1-cB_1xea-a1-m1-cC SLKIAIGLGDIAQKAYLPVLAQWPDIELVLCTRNPKVLGTLATRYRVSATCTDYRDVLQYGVDAVIHAATDVHSTLAAFFLHLGIPTFVDKPLAASAQECENLYELAEKHHQPLYVGFNRRHIPLYNQHLSELAQQECGALRSLRWEKHRHALPGDIRTFVFDDFIHPLDSVNLSRQCNLDDLHLTYHSEGLLARLDVQWQTGDTLLHASNRQFGITTEHVTASYDNVAYLFDSFTQGKWRDNQESRVALKDWTPLASKGFDAVQDWLQVAAAGKLPTHIIERNLASHQLAEAICQQITQQVTK SLKIAIGLGDIAQKAYLPVLAQWPDIELVLCTRNPKVLGTLATRYRVSATCTDYRDVLQYGVDAVIHAATDVHSTLAAFFLHLGIPTFVDKPLAASAQECENLYELAEKHHQPLYVGFNRRHIPLYNQHLSELAQQECGALRSLRWEKHRHALPGDIRTFVFDDFIHPLDSVNLSRQCNLDDLHLTYHSEGLLARLDVQWQTGDTLLHASNRQFGITTEHVTASYDNVAYLFDSFTQGKWRDNQESRVALKDWTPLASKGFDAVQDWLQVAAAGKLPTHIIERNLASHQLAEAICQQITQQVTK 1xea-a1-m1-cB_1xea-a1-m1-cD Crystal structure of a Gfo/Idh/MocA family oxidoreductase from Vibrio cholerae Q9KKQ4 Q9KKQ4 2.65 X-RAY DIFFRACTION 11 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 304 304 1xea-a1-m1-cA_1xea-a1-m1-cC SLKIAIGLGDIAQKAYLPVLAQWPDIELVLCTRNPKVLGTLATRYRVSATCTDYRDVLQYGVDAVIHAATDVHSTLAAFFLHLGIPTFVDKPLAASAQECENLYELAEKHHQPLYVGFNRRHIPLYNQHLSELAQQECGALRSLRWEKHRHALPGDIRTFVFDDFIHPLDSVNLSRQCNLDDLHLTYHSEGLLARLDVQWQTGDTLLHASNRQFGITTEHVTASYDNVAYLFDSFTQGKWRDNQESRVALKDWTPLASKGFDAVQDWLQVAAAGKLPTHIIERNLASHQLAEAICQQITQQVTK SLKIAIGLGDIAQKAYLPVLAQWPDIELVLCTRNPKVLGTLATRYRVSATCTDYRDVLQYGVDAVIHAATDVHSTLAAFFLHLGIPTFVDKPLAASAQECENLYELAEKHHQPLYVGFNRRHIPLYNQHLSELAQQECGALRSLRWEKHRHALPGDIRTFVFDDFIHPLDSVNLSRQCNLDDLHLTYHSEGLLARLDVQWQTGDTLLHASNRQFGITTEHVTASYDNVAYLFDSFTQGKWRDNQESRVALKDWTPLASKGFDAVQDWLQVAAAGKLPTHIIERNLASHQLAEAICQQITQQVTK 1xea-a1-m1-cC_1xea-a1-m1-cD Crystal structure of a Gfo/Idh/MocA family oxidoreductase from Vibrio cholerae Q9KKQ4 Q9KKQ4 2.65 X-RAY DIFFRACTION 98 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 304 304 1xea-a1-m1-cA_1xea-a1-m1-cB SLKIAIGLGDIAQKAYLPVLAQWPDIELVLCTRNPKVLGTLATRYRVSATCTDYRDVLQYGVDAVIHAATDVHSTLAAFFLHLGIPTFVDKPLAASAQECENLYELAEKHHQPLYVGFNRRHIPLYNQHLSELAQQECGALRSLRWEKHRHALPGDIRTFVFDDFIHPLDSVNLSRQCNLDDLHLTYHSEGLLARLDVQWQTGDTLLHASNRQFGITTEHVTASYDNVAYLFDSFTQGKWRDNQESRVALKDWTPLASKGFDAVQDWLQVAAAGKLPTHIIERNLASHQLAEAICQQITQQVTK SLKIAIGLGDIAQKAYLPVLAQWPDIELVLCTRNPKVLGTLATRYRVSATCTDYRDVLQYGVDAVIHAATDVHSTLAAFFLHLGIPTFVDKPLAASAQECENLYELAEKHHQPLYVGFNRRHIPLYNQHLSELAQQECGALRSLRWEKHRHALPGDIRTFVFDDFIHPLDSVNLSRQCNLDDLHLTYHSEGLLARLDVQWQTGDTLLHASNRQFGITTEHVTASYDNVAYLFDSFTQGKWRDNQESRVALKDWTPLASKGFDAVQDWLQVAAAGKLPTHIIERNLASHQLAEAICQQITQQVTK 1xeb-a9-m1-cD_1xeb-a9-m1-cA Crystal Structure of an Acyl-CoA N-acyltransferase from Pseudomonas aeruginosa Q9I717 Q9I717 2.35 X-RAY DIFFRACTION 65 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 145 146 1xeb-a11-m1-cB_1xeb-a11-m1-cC 1xeb-a12-m1-cH_1xeb-a12-m1-cG LDWTCKHHADLTLKELYALLQLRTEVFVVEQKCPYQEVDGLDLVGDTHHLAWRDGQLLAYLRLLDPVRHEGQVVIGRVVSSSAARGQGLGHQLERALQAAERLWLDTPVYLSAQAHLQAYYGRYGFVAVTEVYLEDDIPHIGRRA SLDWTCKHHADLTLKELYALLQLRTEVFVVEQKCPYQEVDGLDLVGDTHHLAWRDGQLLAYLRLLDPVRHEGQVVIGRVVSSSAARGQGLGHQLERALQAAERLWLDTPVYLSAQAHLQAYYGRYGFVAVTEVYLEDDIPHIGRRA 1xed-a7-m1-cC_1xed-a7-m1-cB Crystal Structure of a Ligand-Binding Domain of the Human Polymeric Ig Receptor, pIgR P01833 P01833 1.9 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 109 PIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVLEH PIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVLEHHHHH 1xed-a7-m1-cC_1xed-a7-m1-cD Crystal Structure of a Ligand-Binding Domain of the Human Polymeric Ig Receptor, pIgR P01833 P01833 1.9 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 1xed-a7-m1-cB_1xed-a7-m1-cA PIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVLEH PIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVLEH 1xed-a9-m1-cC_1xed-a9-m1-cA Crystal Structure of a Ligand-Binding Domain of the Human Polymeric Ig Receptor, pIgR P01833 P01833 1.9 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 111 1xed-a7-m1-cC_1xed-a7-m1-cA 1xed-a7-m1-cD_1xed-a7-m1-cB 1xed-a8-m1-cD_1xed-a8-m1-cB PIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVLEH SPIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVLEHHHHHH 1xeq-a2-m1-cA_1xeq-a2-m2-cA Crystal tructure of RNA binding domain of influenza B virus non-structural protein P03502 P03502 2.1 X-RAY DIFFRACTION 10 1.0 89 89 GATNATINFEAGILECYERFSWQRALDYPGQDRLHRLKRKLESRIKTHNKSEPENKRMSLEERKAIGVKMMKVLLFMDPSAGIEGFEPY GATNATINFEAGILECYERFSWQRALDYPGQDRLHRLKRKLESRIKTHNKSEPENKRMSLEERKAIGVKMMKVLLFMDPSAGIEGFEPY 1xeq-a2-m1-cB_1xeq-a2-m2-cB Crystal tructure of RNA binding domain of influenza B virus non-structural protein P03502 P03502 2.1 X-RAY DIFFRACTION 11 1.0 85 85 QIEVGPGATNATINFEAGILECYERFSWQRALDYPGQDRLHRLKRKLESRIKTHNKSEPENKRMSLEERKAIGVKMMKVLLFMDP QIEVGPGATNATINFEAGILECYERFSWQRALDYPGQDRLHRLKRKLESRIKTHNKSEPENKRMSLEERKAIGVKMMKVLLFMDP 1xer-a1-m1-cA_1xer-a1-m2-cA STRUCTURE OF FERREDOXIN P55907 P55907 2 X-RAY DIFFRACTION 21 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 102 102 GIDPNYRTNRQVVGEHSGHKVYGPVEPPVLGIHGTIVGVDFDLCIADGSCINACPVNVFQWYDTPGHPASEKKADPVNEQACIFCMACVNVCPVAAIDVKPP GIDPNYRTNRQVVGEHSGHKVYGPVEPPVLGIHGTIVGVDFDLCIADGSCINACPVNVFQWYDTPGHPASEKKADPVNEQACIFCMACVNVCPVAAIDVKPP 1xes-a2-m1-cC_1xes-a2-m1-cD Crystal structure of stilbene synthase from Pinus sylvestris Q02323 Q02323 1.7 X-RAY DIFFRACTION 160 0.995 3349 (Pinus sylvestris) 3349 (Pinus sylvestris) 378 382 1u0u-a1-m1-cA_1u0u-a1-m1-cB 1u0u-a2-m1-cC_1u0u-a2-m1-cD 1u0u-a3-m1-cE_1u0u-a3-m1-cF 1xes-a1-m1-cA_1xes-a1-m1-cB 1xet-a1-m1-cA_1xet-a1-m1-cB 1xet-a2-m1-cC_1xet-a2-m1-cD FEGFRKLQRADGFASILAIGTANPPNAVDQSTYPDFYFRITGNEKFKRICERSAIKQRYMYLTEEILKKNPDVCAFVEVPSLDARQAMLAMEVPRLAKEAAEKAIQEWGQSKSGITHLIFCSTTTPDLPGADFEVAKLLGLHPSVKRVGVFQHGCFAGGTVLRMAKDLAENNRGARVLVICSETTAVTFRGPSETHSLVGQALFGDGASALIVGADPIPQVEKACFEIVWTAQTVVPNSEGAIGGKVREVGLTFQLKGAVPDLISANIENCMVEAFSQFKISDWNKLFWVVHPGGRAILDRVEAKLNLDPTKLIPTRHVMSEYGNMSSACVHFILDQTRKASLQNGCSTTGEGLEMGVLFGFGPGLTIETVVLKSVPI FEGFRKLQRADGFASILAIGTANPPNAVDQSTYPDFYFRITGNELKDKFKRICSAIKQRYMYLTEEILKKNPDVCAFVEVPSLDARQAMLAMEVPRLAKEAAEKAIQEWGQSKSGITHLIFCSTTTPDLPGADFEVAKLLGLHPSVKRVGVFQHGCFAGGTVLRMAKDLAENNRGARVLVICSETTAVTFRGPSETHLDSLVGQALFGDGASALIVGADPIPQVEKACFEIVWTAQTVVPNSEGAIGGKVREVGLTFQLKGAVPDLISANIENCMVEAFSQFKISDWNKLFWVVHPGGRAILDRVEAKLNLDPTKLIPTRHVMSEYGNMSSACVHFILDQTRKASLQNGCSTTGEGLEMGVLFGFGPGLTIETVVLKSVPIQ 1xex-a1-m1-cB_1xex-a1-m2-cB Structural biochemistry of ATP-driven dimerization and DNA stimulated activation of SMC ATPases. 2.5 X-RAY DIFFRACTION 47 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 161 161 KKNVFMRTFEAISRNFSEIFAKLSPGGSARLILENPFSGGLEIEAKPAGKDVKRIEAMSGGEKALTALAFVFAIQKFKPAPFYLFDQIDAHLDDANVKRVADLIKESSKESQFIVITLRDVMMANADKIIGVSMRDGVSKVVSLSLEKAMKILEEIRKKQG KKNVFMRTFEAISRNFSEIFAKLSPGGSARLILENPFSGGLEIEAKPAGKDVKRIEAMSGGEKALTALAFVFAIQKFKPAPFYLFDQIDAHLDDANVKRVADLIKESSKESQFIVITLRDVMMANADKIIGVSMRDGVSKVVSLSLEKAMKILEEIRKKQG 1xf1-a1-m1-cA_1xf1-a1-m1-cB Structure of C5a peptidase- a key virulence factor from Streptococcus P15926 P15926 1.9 X-RAY DIFFRACTION 194 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 910 910 NDPSQVKTLQEKAGKGAGTVVAVIDAGFDKNHEAWRLTDKTKARYQSKEDLEKAKKEHGITYGEWVNDKVAYYHDYSKDGKTAVDQEHGTHVSGILSGNAPSETKEPYRLEGAPEAQLLLRVEIVNGLADYARNYAQAIRDAINLGAKVINSFGNAALAYANLPDETKKAFDYAKSKGVSIVTSAGNDSSFGGKTRLPLADHPDYGVVGTPAAADSTLTVASYSPDKQLTETVRVKTADQQDKEPVLSTNRFEPNKAYDYAYANRGTKEDDFKDVKGKIALIERGDIDFKDKIAKAKKAGAVGVLIYDNQDKGFPIELPNVDQPAAFISRKDGLLLKDNPQKTITFNATPKVLPTASGTKLSRFSSWGLTADGNIKPDIAAPGQDILSSVANNKYAKLSGTSSAPLVAGIGLLQKQYETQYPDTPSERLDLAKKVLSSATALYDEDEKAYFSPRQQGAGAVDAKKASAATYVTDKDNTSSKVHLNNVSDKFEVTVNVHNKSDKPQELYYQATVQTDKVDGKHFALAPKVLYETSWQKITIPANSSKQVTVPIDASRFSKDLLAQKNGYFLEGFVRFKQDPTKEELSIPYIGFRGDFGNLSALEKPIYDSKDGSSYYHEANSDAKDQLDGDGLQFYALKNNFTALTTESNPWTIIKAVKEGVENIEDIESSEITETIFAGTFAKQDDDSHYYIHRHANGKPYAAISPNGDGNRDYVQFQGTFLRNAKNLVAEVLDKEGNVVWTSEVTEQVVKNYNNDLASTLGSTRFEKTRWDGKDKDGKVVANGTYTYRVRYTPISSGAKEQHTDFDVIVDNTTPEVATSATFSTEDRRLTLASKPKTSQPVYRERIAYTYDEDLPTTEYISPNEDGTFTLPEEAETEGATVPLKSDFTYVVEDAGNITYTPVTKLLEGH NDPSQVKTLQEKAGKGAGTVVAVIDAGFDKNHEAWRLTDKTKARYQSKEDLEKAKKEHGITYGEWVNDKVAYYHDYSKDGKTAVDQEHGTHVSGILSGNAPSETKEPYRLEGAPEAQLLLRVEIVNGLADYARNYAQAIRDAINLGAKVINSFGNAALAYANLPDETKKAFDYAKSKGVSIVTSAGNDSSFGGKTRLPLADHPDYGVVGTPAAADSTLTVASYSPDKQLTETVRVKTADQQDKEPVLSTNRFEPNKAYDYAYANRGTKEDDFKDVKGKIALIERGDIDFKDKIAKAKKAGAVGVLIYDNQDKGFPIELPNVDQPAAFISRKDGLLLKDNPQKTITFNATPKVLPTASGTKLSRFSSWGLTADGNIKPDIAAPGQDILSSVANNKYAKLSGTSSAPLVAGIGLLQKQYETQYPDTPSERLDLAKKVLSSATALYDEDEKAYFSPRQQGAGAVDAKKASAATYVTDKDNTSSKVHLNNVSDKFEVTVNVHNKSDKPQELYYQATVQTDKVDGKHFALAPKVLYETSWQKITIPANSSKQVTVPIDASRFSKDLLAQKNGYFLEGFVRFKQDPTKEELSIPYIGFRGDFGNLSALEKPIYDSKDGSSYYHEANSDAKDQLDGDGLQFYALKNNFTALTTESNPWTIIKAVKEGVENIEDIESSEITETIFAGTFAKQDDDSHYYIHRHANGKPYAAISPNGDGNRDYVQFQGTFLRNAKNLVAEVLDKEGNVVWTSEVTEQVVKNYNNDLASTLGSTRFEKTRWDGKDKDGKVVANGTYTYRVRYTPISSGAKEQHTDFDVIVDNTTPEVATSATFSTEDRRLTLASKPKTSQPVYRERIAYTYDEDLPTTEYISPNEDGTFTLPEEAETEGATVPLKSDFTYVVEDAGNITYTPVTKLLEGH 1xf4-a4-m9-cH_1xf4-a4-m3-cB Structure of ligand-free Fab DNA-1 in space group P321 solved from crystals with perfect hemihedral twinning 2.5 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 1xf4-a3-m4-cB_1xf4-a3-m1-cH 1xf4-a3-m5-cB_1xf4-a3-m2-cH 1xf4-a3-m6-cB_1xf4-a3-m3-cH 1xf4-a4-m7-cH_1xf4-a4-m1-cB 1xf4-a4-m8-cH_1xf4-a4-m2-cB QVKLLESGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCVRGGYRPYYAMDYWGQGTSVTVSSAKTTPPSVYPLAPSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR QVKLLESGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCVRGGYRPYYAMDYWGQGTSVTVSSAKTTPPSVYPLAPSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR 1xfb-a3-m1-cI_1xfb-a3-m1-cL Human Brain Fructose 1,6-(bis)phosphate Aldolase (C isozyme) P09972 P09972 3 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 342 342 1xfb-a1-m1-cA_1xfb-a1-m1-cD 1xfb-a1-m1-cB_1xfb-a1-m1-cC 1xfb-a2-m1-cE_1xfb-a2-m1-cH 1xfb-a2-m1-cF_1xfb-a2-m1-cG 1xfb-a3-m1-cJ_1xfb-a3-m1-cK HSYPALSAEQKKELSDIALRIVAPGKGILAADESVGSMAKRLSQIGVENTEENRRLYRQVLFSADDRVKKCIGGVIFFHETLYQKDDNGVPFVRTIQDKGIVVGIKVDKGVVPLAGTDGETTTQGLDGLSERCAQYKKDGADFAKWRCVLKISERTPSALAILENANVLARYASICQQNGIVPIVEPEILPDGDHDLKRCQYVTEKVLAAVYKALSDHHVYLEGTLLKPNMVTPGHACPIKYTPEEIAMATVTALRRTVPPAVPGVTFLSGGQSEEEASFNLNAINRCPLPRPWALTFSYGRALQASALNAWRGQRDNAGAATEEFIKRAEVNGLAAQGKYE HSYPALSAEQKKELSDIALRIVAPGKGILAADESVGSMAKRLSQIGVENTEENRRLYRQVLFSADDRVKKCIGGVIFFHETLYQKDDNGVPFVRTIQDKGIVVGIKVDKGVVPLAGTDGETTTQGLDGLSERCAQYKKDGADFAKWRCVLKISERTPSALAILENANVLARYASICQQNGIVPIVEPEILPDGDHDLKRCQYVTEKVLAAVYKALSDHHVYLEGTLLKPNMVTPGHACPIKYTPEEIAMATVTALRRTVPPAVPGVTFLSGGQSEEEASFNLNAINRCPLPRPWALTFSYGRALQASALNAWRGQRDNAGAATEEFIKRAEVNGLAAQGKYE 1xfb-a3-m1-cK_1xfb-a3-m1-cL Human Brain Fructose 1,6-(bis)phosphate Aldolase (C isozyme) P09972 P09972 3 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 342 342 1xfb-a1-m1-cA_1xfb-a1-m1-cB 1xfb-a1-m1-cC_1xfb-a1-m1-cD 1xfb-a2-m1-cE_1xfb-a2-m1-cF 1xfb-a2-m1-cG_1xfb-a2-m1-cH 1xfb-a3-m1-cI_1xfb-a3-m1-cJ HSYPALSAEQKKELSDIALRIVAPGKGILAADESVGSMAKRLSQIGVENTEENRRLYRQVLFSADDRVKKCIGGVIFFHETLYQKDDNGVPFVRTIQDKGIVVGIKVDKGVVPLAGTDGETTTQGLDGLSERCAQYKKDGADFAKWRCVLKISERTPSALAILENANVLARYASICQQNGIVPIVEPEILPDGDHDLKRCQYVTEKVLAAVYKALSDHHVYLEGTLLKPNMVTPGHACPIKYTPEEIAMATVTALRRTVPPAVPGVTFLSGGQSEEEASFNLNAINRCPLPRPWALTFSYGRALQASALNAWRGQRDNAGAATEEFIKRAEVNGLAAQGKYE HSYPALSAEQKKELSDIALRIVAPGKGILAADESVGSMAKRLSQIGVENTEENRRLYRQVLFSADDRVKKCIGGVIFFHETLYQKDDNGVPFVRTIQDKGIVVGIKVDKGVVPLAGTDGETTTQGLDGLSERCAQYKKDGADFAKWRCVLKISERTPSALAILENANVLARYASICQQNGIVPIVEPEILPDGDHDLKRCQYVTEKVLAAVYKALSDHHVYLEGTLLKPNMVTPGHACPIKYTPEEIAMATVTALRRTVPPAVPGVTFLSGGQSEEEASFNLNAINRCPLPRPWALTFSYGRALQASALNAWRGQRDNAGAATEEFIKRAEVNGLAAQGKYE 1xfd-a2-m1-cC_1xfd-a2-m1-cD Structure of a human A-type Potassium Channel Accelerating factor DPPX, a member of the dipeptidyl aminopeptidase family P42658 P42658 3 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 723 723 1xfd-a1-m1-cA_1xfd-a1-m1-cB 7e89-a1-m1-cA_7e89-a1-m1-cB 7e89-a1-m1-cI_7e89-a1-m1-cJ 7e8b-a1-m1-cI_7e8b-a1-m1-cJ 7e8b-a1-m1-cK_7e8b-a1-m1-cL 7e8g-a1-m1-cI_7e8g-a1-m1-cJ 7e8g-a1-m1-cK_7e8g-a1-m1-cL 7e8h-a1-m1-cJ_7e8h-a1-m1-cI 7e8h-a1-m1-cL_7e8h-a1-m1-cK 7w6t-a1-m1-cI_7w6t-a1-m1-cJ QKKKVTVEDLFSEDFKIHDPEAKWISDTEFIYREQKGTVRLWNVETNTSTVLIEGKKIESLRAIRYEISPDREYALFSYNVEPIYQHSYTGYYVLSKIPHGDPQSLDPPEVSNAKLQYAGWGPKGQQLIFIFENNIYYCAHVGKQAIRVVSTGKEGVIYNGLSDWLYEEEILKTHIAHWWSPDGTRLAYAAINDSRVPIMELPTYTGSIYPTVKPYHYPKAGSENPSISLHVIGLNGPTHDLEMMPPDDPRMREYYITMVKWATSTKVAVTWLNRAQNVSILTLCDATTGVCTKKHEDESEAWLHRQNEEPVFSKDGRKFFFIRAIPQGGRGKFYHITVSSSQPNSSNDNIQSITSGDWDVTKILAYDEKGNKIYFLSTEDLPRRRQLYSANTVGNFNRQCLSCDLVENCTYFSASFSHSMDFFLLKCEGPGVPMVTVHNTTDKKKMFDLETNEHVKKAINDRQMPKVEYRDIEIDDYNLPMQILKPATFTDTTHYPLLLVVDGTPGSQSVAEKFEVSWETVMVSSHGAVVVKCDGRGSGFQGTKLLHEVRRRLGLLEEKDQMEAVRTMLKEQYIDRTRVAVFGKDYGGYLSTYILPAKGENQGQTFTCGSALSPITDFKLYASAFSERYLGLHGLDNRAYEMTKVAHRVSALEEQQFLIIHPTADEKIHFQHTAELITQLIRGKANYSLQIYPDESHYFTSSSLKQHLYRSIINFFVECFRI QKKKVTVEDLFSEDFKIHDPEAKWISDTEFIYREQKGTVRLWNVETNTSTVLIEGKKIESLRAIRYEISPDREYALFSYNVEPIYQHSYTGYYVLSKIPHGDPQSLDPPEVSNAKLQYAGWGPKGQQLIFIFENNIYYCAHVGKQAIRVVSTGKEGVIYNGLSDWLYEEEILKTHIAHWWSPDGTRLAYAAINDSRVPIMELPTYTGSIYPTVKPYHYPKAGSENPSISLHVIGLNGPTHDLEMMPPDDPRMREYYITMVKWATSTKVAVTWLNRAQNVSILTLCDATTGVCTKKHEDESEAWLHRQNEEPVFSKDGRKFFFIRAIPQGGRGKFYHITVSSSQPNSSNDNIQSITSGDWDVTKILAYDEKGNKIYFLSTEDLPRRRQLYSANTVGNFNRQCLSCDLVENCTYFSASFSHSMDFFLLKCEGPGVPMVTVHNTTDKKKMFDLETNEHVKKAINDRQMPKVEYRDIEIDDYNLPMQILKPATFTDTTHYPLLLVVDGTPGSQSVAEKFEVSWETVMVSSHGAVVVKCDGRGSGFQGTKLLHEVRRRLGLLEEKDQMEAVRTMLKEQYIDRTRVAVFGKDYGGYLSTYILPAKGENQGQTFTCGSALSPITDFKLYASAFSERYLGLHGLDNRAYEMTKVAHRVSALEEQQFLIIHPTADEKIHFQHTAELITQLIRGKANYSLQIYPDESHYFTSSSLKQHLYRSIINFFVECFRI 1xfs-a1-m1-cA_1xfs-a1-m1-cB X-Ray Crystal Structure of Protein NE0264 from Nitrosomonas europaea. Northeast Structural Genomics Consortium Target NeR5. Q82XK1 Q82XK1 1.7 X-RAY DIFFRACTION 65 0.98 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 149 149 IDAELDLLKRELAVPVNLVWRGLTEPELLKKWFVPKPWSISDCRVDLRPGGEFYTVQDPEGNKFPNSGCFLEVTDEKRLIWTSALVKNYRPAVPVTAVIELQPTSSGTRYTACAHNTPGQRKLHEEGFHEGWGTTITQLEELLKQEKAY TPIDAELDLLKRELAVPVNLVWRGLTEPELLKKWFVPKPWSISDCRVDLRPGGEFYTVQDPEGNKFPNSGCFLEVTDEKRLIWTSALVKNYRPAVPIVTAVIELQPTSSGTRYTACAHNTPGQRKLHEEGFHGWGTTITQLEELLKQEK 1xfw-a9-m1-cF_1xfw-a9-m4-cE Crystal structure of anthrax edema factor (EF) in complex with calmodulin and 3'5' cyclic AMP (cAMP) P40136 P40136 3.4 X-RAY DIFFRACTION 78 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 735 735 1xfw-a7-m1-cA_1xfw-a7-m2-cD 1xfw-a8-m1-cB_1xfw-a8-m3-cC NNLVKTEFTNETLDKIQQTQDLLKKIPKDVLEIYSELGGEIYFTDIDLVEHKELQDLSEEEKNSMNSRGEKVPFASRFVFEKKRETPKLIINIKDYAINSEQSKEVYYEIGKGISLDIISKDKSLDPEFLNLIKSLSDDSDSSDLLFSQKFKEKLELNNKSIDINFIKENLTEFQHAFSLAFSYYFAPDHRTVLELYAPDMFEYMNKLEKGGFEKISESLKKEGVEKDRIDVLKGEKALKASGLVPEHADAFKKIARELNTYILFRPVNKLATNLIKSGVATKGLNVHGKSSDWGPVAGYIPFDQDLSKKHGQQLAVEKGNLENKKSITEHEGEIGKIPLKLDHLRIEELKENGIILKGKKEIDNGKKYYLLESNNQVYEFRISDENNEVQYKTKEGKITVLGEKFNWRNIEVMAKNVEGVLKPLTADYDLFALAPSLTEIKKQIPQKEWDKVVNTPNSLEKQKGVTNLLIKYGIERKPDSTKGTLSNWQKQMLDRLNEAVKYTGYTGGDVVNHGTEQDNEEFPEKDNEIFIINPEGEFILTKNWEMTGRFIEKNITGKDYLYYFNRSYNKIAPGNKAYIEWTDPITKAKINTIPTSAEFIKNLSSIRRSSNVGVYKDSGDKDEFAKKESVKKIAGYLSDYYNSANHIFSQEKKRKISIFRGIQAYNEIENVLKSKQIAPEYKNYFQYLKERITNQVQLLLTHQKSNIEFKLLYKQLNFTENETDNFEVFQKIID NNLVKTEFTNETLDKIQQTQDLLKKIPKDVLEIYSELGGEIYFTDIDLVEHKELQDLSEEEKNSMNSRGEKVPFASRFVFEKKRETPKLIINIKDYAINSEQSKEVYYEIGKGISLDIISKDKSLDPEFLNLIKSLSDDSDSSDLLFSQKFKEKLELNNKSIDINFIKENLTEFQHAFSLAFSYYFAPDHRTVLELYAPDMFEYMNKLEKGGFEKISESLKKEGVEKDRIDVLKGEKALKASGLVPEHADAFKKIARELNTYILFRPVNKLATNLIKSGVATKGLNVHGKSSDWGPVAGYIPFDQDLSKKHGQQLAVEKGNLENKKSITEHEGEIGKIPLKLDHLRIEELKENGIILKGKKEIDNGKKYYLLESNNQVYEFRISDENNEVQYKTKEGKITVLGEKFNWRNIEVMAKNVEGVLKPLTADYDLFALAPSLTEIKKQIPQKEWDKVVNTPNSLEKQKGVTNLLIKYGIERKPDSTKGTLSNWQKQMLDRLNEAVKYTGYTGGDVVNHGTEQDNEEFPEKDNEIFIINPEGEFILTKNWEMTGRFIEKNITGKDYLYYFNRSYNKIAPGNKAYIEWTDPITKAKINTIPTSAEFIKNLSSIRRSSNVGVYKDSGDKDEFAKKESVKKIAGYLSDYYNSANHIFSQEKKRKISIFRGIQAYNEIENVLKSKQIAPEYKNYFQYLKERITNQVQLLLTHQKSNIEFKLLYKQLNFTENETDNFEVFQKIID 1xg5-a1-m1-cC_1xg5-a1-m1-cD Structure of human putative dehydrogenase MGC4172 in complex with NADP Q6UWP2 Q6UWP2 1.53 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 257 1xg5-a1-m1-cB_1xg5-a1-m1-cA ARPGMERWRDRLALVTGASGGIGAAVARALVQQGLKVVGCARTVGNIEELAAECKSAGYPGTLIPYRCDLSNEEDILSMFSAIRSQHSGVDICINNAGLARPDTLLSGSTSGWKDMFNVNVLALSICTREAYQSMKERNVDDGHIININSMSGHRVLPLSVTHFYSATKYAVTALTEGLRQELREAQTHIRATCISPGVVETQFAFKLHDKDPEKAAATYEQMKCLKPEDVAEAVIYVLSTPAHIQIGDIQMRPTGS ARPGMERWRDRLALVTGASGGIGAAVARALVQQGLKVVGCARTVGNIEELAAECKSAGYPGTLIPYRCDLSNEEDILSMFSAIRSQHSGVDICINNAGLARPDTLLSGSTSGWKDMFNVNVLALSICTREAYQSMKERNVDDGHIININSMSGHRVLPLSVTHFYSATKYAVTALTEGLRQELREAQTHIRATCISPGVVETQFAFKLHDKDPEKAAATYEQMKCLKPEDVAEAVIYVLSTPAHIQIGDIQMRPTGS 1xg5-a2-m2-cB_1xg5-a2-m1-cD Structure of human putative dehydrogenase MGC4172 in complex with NADP Q6UWP2 Q6UWP2 1.53 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 257 ARPGMERWRDRLALVTGASGGIGAAVARALVQQGLKVVGCARTVGNIEELAAECKSAGYPGTLIPYRCDLSNEEDILSMFSAIRSQHSGVDICINNAGLARPDTLLSGSTSGWKDMFNVNVLALSICTREAYQSMKERNVDDGHIININSMSGHRVLPLSVTHFYSATKYAVTALTEGLRQELREAQTHIRATCISPGVVETQFAFKLHMKCLKPEDVAEAVIYVLSTPAHIQIGDIQMRPTGS ARPGMERWRDRLALVTGASGGIGAAVARALVQQGLKVVGCARTVGNIEELAAECKSAGYPGTLIPYRCDLSNEEDILSMFSAIRSQHSGVDICINNAGLARPDTLLSGSTSGWKDMFNVNVLALSICTREAYQSMKERNVDDGHIININSMSGHRVLPLSVTHFYSATKYAVTALTEGLRQELREAQTHIRATCISPGVVETQFAFKLHDKDPEKAAATYEQMKCLKPEDVAEAVIYVLSTPAHIQIGDIQMRPTGS 1xg5-a2-m2-cB_1xg5-a2-m2-cC Structure of human putative dehydrogenase MGC4172 in complex with NADP Q6UWP2 Q6UWP2 1.53 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 257 1xg5-a1-m1-cA_1xg5-a1-m1-cD 1xg5-a1-m1-cB_1xg5-a1-m1-cC 1xg5-a2-m1-cA_1xg5-a2-m1-cD ARPGMERWRDRLALVTGASGGIGAAVARALVQQGLKVVGCARTVGNIEELAAECKSAGYPGTLIPYRCDLSNEEDILSMFSAIRSQHSGVDICINNAGLARPDTLLSGSTSGWKDMFNVNVLALSICTREAYQSMKERNVDDGHIININSMSGHRVLPLSVTHFYSATKYAVTALTEGLRQELREAQTHIRATCISPGVVETQFAFKLHMKCLKPEDVAEAVIYVLSTPAHIQIGDIQMRPTGS ARPGMERWRDRLALVTGASGGIGAAVARALVQQGLKVVGCARTVGNIEELAAECKSAGYPGTLIPYRCDLSNEEDILSMFSAIRSQHSGVDICINNAGLARPDTLLSGSTSGWKDMFNVNVLALSICTREAYQSMKERNVDDGHIININSMSGHRVLPLSVTHFYSATKYAVTALTEGLRQELREAQTHIRATCISPGVVETQFAFKLHDKDPEKAAATYEQMKCLKPEDVAEAVIYVLSTPAHIQIGDIQMRPTGS 1xg7-a1-m1-cB_1xg7-a1-m1-cA Conserved hypothetical protein Pfu-877259-001 from Pyrococcus furiosus Q8U2D5 Q8U2D5 1.88 X-RAY DIFFRACTION 32 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 239 245 ELVEIIKGIGIEGAKEVEEKVDRQFYALQYLFRHQDPEMFIKLVIANSLVSYQLTGRGEDWWWEFARYFSGREVDSIWKAYGEFLPKSKNNRRLIEAKLNRIRKVEGFLSTLTLKDLEGYYKNMKMLWKALIKIMGSREDSKTIVFTVKMFGYASRIAFSRFIPYPMEIPIPEDLRIKSVTSKLTQEKPTKFWMKIGQESGVPPLHIDSLIWPLLGNADLTPLDIELRNKLMKLTELLG HHGSRELVEIIKGIGIEGAKEVEEKVDRQFYALQYLFRHQDPEMFIKLVIANSLVSYQLTGRGEDWWWEFARYFSGREVDSIWKAYGEFLPKSKNNRRLIEAKLNRIRKVEGFLSTLTLKDLEGYYKNMKMLWKALIKIMGSREDSKTIVFTVKMFGYASRIAFSRFIPYPMEIPIPEDLRIKSVTSKLTQEKPTKFWMKIGQESGVPPLHIDSLIWPLLGNADLTPLDIELRNKLMKLTELLGL 1xgs-a1-m1-cA_1xgs-a1-m1-cB METHIONINE AMINOPEPTIDASE FROM HYPERTHERMOPHILE PYROCOCCUS FURIOSUS P56218 P56218 1.75 X-RAY DIFFRACTION 59 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 295 295 1xgm-a1-m1-cA_1xgm-a1-m1-cB 2dfi-a1-m1-cA_2dfi-a1-m1-cB MDTEKLMKAGEIAKKVREKAIKLARPGMLLLELAESIEKMIMELGGKPAFPVNLSINEIAAHYTPYKGDTTVLKEGDYLKIDVGVHIDGFIADTAVTVRVGMEEDELMEAAKEALNAAISVARAGVEIKELGKAIENEIRKRGFKPIVNLSGHKIERYKLHAGISIPNIYRPHDNYVLKEGDVFAIEPFATIGAGQVIEVPPTLIYMYVRDVPVRVAQARFLLAKIKREYGTLPFAYRWLQNDMPEGQLKLALKTLEKAGAIYGYPVLKEIRNGIVAQFEHTIIVEKDSVIVTTE MDTEKLMKAGEIAKKVREKAIKLARPGMLLLELAESIEKMIMELGGKPAFPVNLSINEIAAHYTPYKGDTTVLKEGDYLKIDVGVHIDGFIADTAVTVRVGMEEDELMEAAKEALNAAISVARAGVEIKELGKAIENEIRKRGFKPIVNLSGHKIERYKLHAGISIPNIYRPHDNYVLKEGDVFAIEPFATIGAGQVIEVPPTLIYMYVRDVPVRVAQARFLLAKIKREYGTLPFAYRWLQNDMPEGQLKLALKTLEKAGAIYGYPVLKEIRNGIVAQFEHTIIVEKDSVIVTTE 1xhd-a2-m2-cA_1xhd-a2-m3-cA X-ray crystal structure of putative acetyltransferase, product of BC4754 gene [Bacillus cereus] Q816R4 Q816R4 1.9 X-RAY DIFFRACTION 49 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 169 169 1xhd-a2-m1-cA_1xhd-a2-m2-cA 1xhd-a2-m1-cA_1xhd-a2-m3-cA SNAIYPYKEKKPKIASSAFIADYVTITGDVYVGEESSIWFNTVIRGDVSPTIIGDRVNVQDQCTLHQSPQYPLILEDDVTVGHQVILHSCHIKKDALIGGSIILDGAEIGEGAFIGAGSLVSQGKKIPPNTLAFGRPAKVIRELTAEDRKDERIRTQYVEKGQYYKSLQ SNAIYPYKEKKPKIASSAFIADYVTITGDVYVGEESSIWFNTVIRGDVSPTIIGDRVNVQDQCTLHQSPQYPLILEDDVTVGHQVILHSCHIKKDALIGGSIILDGAEIGEGAFIGAGSLVSQGKKIPPNTLAFGRPAKVIRELTAEDRKDERIRTQYVEKGQYYKSLQ 1xhf-a1-m1-cA_1xhf-a1-m1-cB Crystal structure of the bef3-activated receiver domain of redox response regulator arca P0A9Q1 P0A9Q1 2.152 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 117 117 1xhe-a1-m1-cA_1xhe-a1-m1-cB QTPHILIVEDELVTRNTLKSIFEAEGYDVFEATDGAEHQILSEYDINLVIDINLPGKNGLLLARELREQANVALFLTGRDNEVDKILGLEIGADDYITKPFNPRELTIRARNLLSRT QTPHILIVEDELVTRNTLKSIFEAEGYDVFEATDGAEHQILSEYDINLVIDINLPGKNGLLLARELREQANVALFLTGRDNEVDKILGLEIGADDYITKPFNPRELTIRARNLLSRT 1xhk-a1-m1-cA_1xhk-a1-m1-cB Crystal structure of M. jannaschii Lon proteolytic domain Q58812 Q58812 1.9 X-RAY DIFFRACTION 68 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 184 185 EPKVGVIYGLAVLGAGGIGDVTKIIVQILESKNPGTHLLNISGDIAKHSITLASALSKKLVAEKKLPLPKKDIDLNNKEIYIQFSQSYSKIDGDSATAAVCLAIISALLDIPLKQDFAITGSLDLSGNVLAIGGVNEKIEAAKRYGFKRVIIPEANIDVIETEGIEIIPVKTLDEIVPLVFDLD HEPKVGVIYGLAVLGAGGIGDVTKIIVQILESKNPGTHLLNISGDIAKHSITLASALSKKLVAEKKLPLPKKDIDLNNKEIYIQFSQSYSKIDGDSATAAVCLAIISALLDIPLKQDFAITGSLDLSGNVLAIGGVNEKIEAAKRYGFKRVIIPEANIDVIETEGIEIIPVKTLDEIVPLVFDLD 1xhl-a1-m1-cA_1xhl-a1-m2-cB Crystal Structure of putative Tropinone Reductase-II from Caenorhabditis Elegans with Cofactor and Substrate Q19774 Q19774 2.4 X-RAY DIFFRACTION 83 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 274 274 1xhl-a1-m1-cB_1xhl-a1-m2-cA RFSGKSVIITGSSNGIGRSAAVIFAKEGAQVTITGRNEDRLEETKQQILKAGVPAEKINAVVADVTEASGQDDIINTTLAKFGKIDILVNNAGANLADGTANTDQPVELYQKTFKLNFQAVIEMTQKTKEHLIKTKGEIVNVSSIVAGPQAHSGYPYYACAKAALDQYTRCTAIDLIQHGVRVNSVSPGAVATGFMGAMGLPETASDKLYSFIGSRKECIPVGHCGKPEEIANIIVFLADRNLSSYIIGQSIVADGGSTLVMGMQTHDLMSVLS RFSGKSVIITGSSNGIGRSAAVIFAKEGAQVTITGRNEDRLEETKQQILKAGVPAEKINAVVADVTEASGQDDIINTTLAKFGKIDILVNNAGANLADGTANTDQPVELYQKTFKLNFQAVIEMTQKTKEHLIKTKGEIVNVSSIVAGPQAHSGYPYYACAKAALDQYTRCTAIDLIQHGVRVNSVSPGAVATGFMGAMGLPETASDKLYSFIGSRKECIPVGHCGKPEEIANIIVFLADRNLSSYIIGQSIVADGGSTLVMGMQTHDLMSVLS 1xhl-a1-m1-cB_1xhl-a1-m2-cB Crystal Structure of putative Tropinone Reductase-II from Caenorhabditis Elegans with Cofactor and Substrate Q19774 Q19774 2.4 X-RAY DIFFRACTION 104 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 274 274 1xhl-a1-m1-cA_1xhl-a1-m2-cA RFSGKSVIITGSSNGIGRSAAVIFAKEGAQVTITGRNEDRLEETKQQILKAGVPAEKINAVVADVTEASGQDDIINTTLAKFGKIDILVNNAGANLADGTANTDQPVELYQKTFKLNFQAVIEMTQKTKEHLIKTKGEIVNVSSIVAGPQAHSGYPYYACAKAALDQYTRCTAIDLIQHGVRVNSVSPGAVATGFMGAMGLPETASDKLYSFIGSRKECIPVGHCGKPEEIANIIVFLADRNLSSYIIGQSIVADGGSTLVMGMQTHDLMSVLS RFSGKSVIITGSSNGIGRSAAVIFAKEGAQVTITGRNEDRLEETKQQILKAGVPAEKINAVVADVTEASGQDDIINTTLAKFGKIDILVNNAGANLADGTANTDQPVELYQKTFKLNFQAVIEMTQKTKEHLIKTKGEIVNVSSIVAGPQAHSGYPYYACAKAALDQYTRCTAIDLIQHGVRVNSVSPGAVATGFMGAMGLPETASDKLYSFIGSRKECIPVGHCGKPEEIANIIVFLADRNLSSYIIGQSIVADGGSTLVMGMQTHDLMSVLS 1xhl-a1-m2-cA_1xhl-a1-m2-cB Crystal Structure of putative Tropinone Reductase-II from Caenorhabditis Elegans with Cofactor and Substrate Q19774 Q19774 2.4 X-RAY DIFFRACTION 114 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 274 274 1xhl-a1-m1-cA_1xhl-a1-m1-cB RFSGKSVIITGSSNGIGRSAAVIFAKEGAQVTITGRNEDRLEETKQQILKAGVPAEKINAVVADVTEASGQDDIINTTLAKFGKIDILVNNAGANLADGTANTDQPVELYQKTFKLNFQAVIEMTQKTKEHLIKTKGEIVNVSSIVAGPQAHSGYPYYACAKAALDQYTRCTAIDLIQHGVRVNSVSPGAVATGFMGAMGLPETASDKLYSFIGSRKECIPVGHCGKPEEIANIIVFLADRNLSSYIIGQSIVADGGSTLVMGMQTHDLMSVLS RFSGKSVIITGSSNGIGRSAAVIFAKEGAQVTITGRNEDRLEETKQQILKAGVPAEKINAVVADVTEASGQDDIINTTLAKFGKIDILVNNAGANLADGTANTDQPVELYQKTFKLNFQAVIEMTQKTKEHLIKTKGEIVNVSSIVAGPQAHSGYPYYACAKAALDQYTRCTAIDLIQHGVRVNSVSPGAVATGFMGAMGLPETASDKLYSFIGSRKECIPVGHCGKPEEIANIIVFLADRNLSSYIIGQSIVADGGSTLVMGMQTHDLMSVLS 1xhn-a2-m1-cC_1xhn-a2-m1-cD The crystal structure of Cellular Repressor of E1A-stimulated Genes (CREG) O75629 O75629 1.95 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 168 1xhn-a1-m1-cB_1xhn-a1-m1-cA SLPPREDAARVARFVTHVSDWGALATISTLEAVRGRPFADVLSLSDGPPGAGSGVPYFYLSPLQLSVSNLQENPYATLTTLAQTNFCKKHGFDPQSPLCVHILSGTVTKVNETEDIAKHSLFIRHPEKTWPSSHNWFFAKLNITNIWVLDYFGGPKIVTPEEYYNVT GSLPPREDAARVARFVTHVSDWGALATISTLEAVRGRPFADVLSLSDGPPGAGSGVPYFYLSPLQLSVSNLQENPYATLTTLAQTNFCKKHGFDPQSPLCVHILSGTVTKVNETEDIAKHSLFIRHPEKTWPSSHNWFFAKLNITNIWVLDYFGGPKIVTPEEYYNVT 1xho-a1-m1-cB_1xho-a1-m1-cC Chorismate mutase from Clostridium thermocellum Cth-682 A3DDB7 A3DDB7 2.2 X-RAY DIFFRACTION 42 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 106 106 1xho-a1-m1-cA_1xho-a1-m1-cB 1xho-a1-m1-cA_1xho-a1-m1-cC VWAIRGATTVSDNTADEIVAETQKLLKEAEKNGLEEDDIISIIFTVTKDLDAAFPAIAARNGWTSTALCNEIDVPGSLEKCIRVHVNTDKDKKDIKHVYLNGAKVL VWAIRGATTVSDNTADEIVAETQKLLKEAEKNGLEEDDIISIIFTVTKDLDAAFPAIAARNGWTSTALCNEIDVPGSLEKCIRVHVNTDKDKKDIKHVYLNGAKVL 1xi3-a1-m1-cA_1xi3-a1-m1-cB Thiamine phosphate pyrophosphorylase from Pyrococcus furiosus Pfu-1255191-001 Q8U192 Q8U192 1.7 X-RAY DIFFRACTION 61 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 202 202 NLRNKLKLYVITDRRLKPEVESVREALEGGATAIQMRIKNAPTREMYEIGKTLRQLTREYDALFFVDDRVDVALAVDADGVQLGPEDMPIEVAKEIAPNLIIGASVYSLEEALEAEKKGADYLGAGSVFPTDARVIGLEGLRKIVESVKIPVVAIGGINKDNAREVLKTGVDGIAVISAVMGAEDVRKATEELRKIVEEVLG NLRNKLKLYVITDRRLKPEVESVREALEGGATAIQMRIKNAPTREMYEIGKTLRQLTREYDALFFVDDRVDVALAVDADGVQLGPEDMPIEVAKEIAPNLIIGASVYSLEEALEAEKKGADYLGAGSVFPTDARVIGLEGLRKIVESVKIPVVAIGGINKDNAREVLKTGVDGIAVISAVMGAEDVRKATEELRKIVEEVLG 1xi8-a1-m1-cB_1xi8-a1-m1-cA Molybdenum cofactor biosynthesis protein from Pyrococcus furiosus Pfu-1657500-001 Q8U034 Q8U034 2.504 X-RAY DIFFRACTION 134 0.996 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 265 269 RLTPYEEALSIVLNDLKEIEEVEYVPLKDALGRVLAEDIVASYDLSFAGEDVKKGDIALKKGTILRPQDLALLKALGIRKVPVKVKPKVGIIITGDTNSIMLSALVERYFGEPILYGVVPDNEDLIRSALEKAKRECDLVLITGVNLLFHGTTIRPGRPIGYGERVFVMSGYPVAVFTQFHLFVKHALAKLVGAKDYEVKVRAVLEDDVPSQLGRYEFVRVMYRDGKAKVIKKIISSLVQSNAYLVVPEDVEGYRRGEEVWVTLY RLTPYEEALSIVLNDLKEIEEVEYVPLKDALGRVLAEDIVASYDLSFAGEDVKKGDIALKKGTILRPQDLALLKALGIRKVPVKVKPKVGIIITVDTNSIMLSALVERYFGEPILYGVVPDNEDLIRSALEKAKRECDLVLITGFVNLLFHGTTIRPGRPIGYGERVFVMSGYPVAVFTQFHLFVKHALAKLVGAKDYEVKVRAVLEDDVPSQLGRYEFVRVMYRDGKAKVIKKGSGIISSLVQSNAYLVVPEDVEGYRRGEEVWVTLY 1xi9-a1-m1-cB_1xi9-a1-m1-cC Alanine aminotransferase from Pyrococcus furiosus Pfu-1397077-001 Q9P9M8 Q9P9M8 2.33 X-RAY DIFFRACTION 12 0.997 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 386 393 IRASKRALSVEPARELEKKGIKVIRLNIGDPVKFDFQPPEHMKEAYCKAIKEGHNYYGDSEGLPELRKAIVEREKRKNGVDITPDDVRVTAAVTEALQLIFGALLDPGDEILVPGPSYPPYTGLVKFYGGKPVEYRTIEEEDWQPDIDDIRKKITDRTKAIAVINPNNPTGALYDKKTLEEILNIAGEYEIPVISDEIYDLMTYEGEHISPGSLTKDVPVIVMNGLSKVYFATGWRLGYMYFVDPENKLSEVREAIDRLARIRLCPNTPAQFAAIAGLTGPMDYLKEYMKKLKERRDYIYKRLNEIPGISTTKPQGAFYIFPKIEVGPWKNDKEFVLDVLHNAHVLFVHGSGFGEYGAGHFRAVFLPPIEILEEAMDRFEKFMKER RASKRALSVEYAIRDVVLPARELEKKGIKVIRLNIGDPVKFDFQPPEHMKEAYCKAIKEGHNYYGDSEGLPELRKAIVEREKRKNGVDITPDDVRVTAAVTEALQLIFGALLDPGDEILVPGPSYPPYTGLVKFYGGKPVEYRTIEEEDWQPDIDDIRKKITDRTKAIAVINPNNPTGALYDKKTLEEILNIAGEYEIPVISDEIYDLMTYEGEHISPGSLTKDVPVIVMNGLSKVYFATGWRLGYMYFVDPENKLSEVREAIDRLARIRLCPNTPAQFAAIAGLTGPMDYLKEYMKKLKERRDYIYKRLNEIPGISTTKPQGAFYIFPKIEVGPWKNDKEFVLDVLHNAHVLFVHGSGFGEYGAGHFRAVFLPPIEILEEAMDRFEKFMKER 1xi9-a3-m1-cD_1xi9-a3-m1-cC Alanine aminotransferase from Pyrococcus furiosus Pfu-1397077-001 Q9P9M8 Q9P9M8 2.33 X-RAY DIFFRACTION 191 0.997 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 386 393 1xi9-a1-m1-cB_1xi9-a1-m1-cA 1xi9-a1-m1-cD_1xi9-a1-m1-cC 1xi9-a2-m1-cB_1xi9-a2-m1-cA IRASKRALSVEPARELEKKGIKVIRLNIGDPVKFDFQPPEHMKEAYCKAIKEGHNYYGDSEGLPELRKAIVEREKRKNGVDITPDDVRVTAAVTEALQLIFGALLDPGDEILVPGPSYPPYTGLVKFYGGKPVEYRTIEEEDWQPDIDDIRKKITDRTKAIAVINPNNPTGALYDKKTLEEILNIAGEYEIPVISDEIYDLMTYEGEHISPGSLTKDVPVIVMNGLSKVYFATGWRLGYMYFVDPENKLSEVREAIDRLARIRLCPNTPAQFAAIAGLTGPMDYLKEYMKKLKERRDYIYKRLNEIPGISTTKPQGAFYIFPKIEVGPWKNDKEFVLDVLHNAHVLFVHGSGFGEYGAGHFRAVFLPPIEILEEAMDRFEKFMKER RASKRALSVEYAIRDVVLPARELEKKGIKVIRLNIGDPVKFDFQPPEHMKEAYCKAIKEGHNYYGDSEGLPELRKAIVEREKRKNGVDITPDDVRVTAAVTEALQLIFGALLDPGDEILVPGPSYPPYTGLVKFYGGKPVEYRTIEEEDWQPDIDDIRKKITDRTKAIAVINPNNPTGALYDKKTLEEILNIAGEYEIPVISDEIYDLMTYEGEHISPGSLTKDVPVIVMNGLSKVYFATGWRLGYMYFVDPENKLSEVREAIDRLARIRLCPNTPAQFAAIAGLTGPMDYLKEYMKKLKERRDYIYKRLNEIPGISTTKPQGAFYIFPKIEVGPWKNDKEFVLDVLHNAHVLFVHGSGFGEYGAGHFRAVFLPPIEILEEAMDRFEKFMKER 1xio-a2-m1-cA_1xio-a2-m2-cA Anabaena sensory rhodopsin Q8YSC4 Q8YSC4 2 X-RAY DIFFRACTION 43 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 217 217 4tl3-a1-m1-cA_4tl3-a1-m1-cB MNLESLLHWIYVAGMTIGALHFWSLSRNPRGVPQYEYLVAMFIPIWSGLAYMAMAIDIAHYARYIDWMVTTPLLLLSLSWTAMQFIKKDWTLIGFLMSTQIVVITSGLIADLSERDWVRYLWYICGVCAFLIILWGIWNPLRAKTRTQSSELANLYDKLVTYFTVLWIGYPIVWIIGPSGFGWINQTIDTFLFCLLPFFSKVGFSFLDLHGLRNLND MNLESLLHWIYVAGMTIGALHFWSLSRNPRGVPQYEYLVAMFIPIWSGLAYMAMAIDIAHYARYIDWMVTTPLLLLSLSWTAMQFIKKDWTLIGFLMSTQIVVITSGLIADLSERDWVRYLWYICGVCAFLIILWGIWNPLRAKTRTQSSELANLYDKLVTYFTVLWIGYPIVWIIGPSGFGWINQTIDTFLFCLLPFFSKVGFSFLDLHGLRNLND 1xiq-a1-m1-cB_1xiq-a1-m1-cE Plasmodium falciparum Nucleoside diphosphate kinase B Q8ID43 Q8ID43 3.05 X-RAY DIFFRACTION 76 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 149 149 1xiq-a1-m1-cA_1xiq-a1-m1-cF 1xiq-a1-m1-cC_1xiq-a1-m1-cD MEKSFIMIKPDGVQRGLVGTIIKRFEKKGYKLIAIKMLNPTEEILKEHYKELSDQPFFKNLVAYISKGPVVAMVWEGVDMVKQGRKLIGETNPLTSNTGTIRGDFCLEVSKNVIHGSDSVASANKEINIWFKAEELTQWKHHMKEWICS MEKSFIMIKPDGVQRGLVGTIIKRFEKKGYKLIAIKMLNPTEEILKEHYKELSDQPFFKNLVAYISKGPVVAMVWEGVDMVKQGRKLIGETNPLTSNTGTIRGDFCLEVSKNVIHGSDSVASANKEINIWFKAEELTQWKHHMKEWICS 1xiq-a1-m1-cE_1xiq-a1-m1-cF Plasmodium falciparum Nucleoside diphosphate kinase B Q8ID43 Q8ID43 3.05 X-RAY DIFFRACTION 50 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 149 149 1xiq-a1-m1-cA_1xiq-a1-m1-cB 1xiq-a1-m1-cA_1xiq-a1-m1-cC 1xiq-a1-m1-cB_1xiq-a1-m1-cC 1xiq-a1-m1-cD_1xiq-a1-m1-cE 1xiq-a1-m1-cD_1xiq-a1-m1-cF MEKSFIMIKPDGVQRGLVGTIIKRFEKKGYKLIAIKMLNPTEEILKEHYKELSDQPFFKNLVAYISKGPVVAMVWEGVDMVKQGRKLIGETNPLTSNTGTIRGDFCLEVSKNVIHGSDSVASANKEINIWFKAEELTQWKHHMKEWICS MEKSFIMIKPDGVQRGLVGTIIKRFEKKGYKLIAIKMLNPTEEILKEHYKELSDQPFFKNLVAYISKGPVVAMVWEGVDMVKQGRKLIGETNPLTSNTGTIRGDFCLEVSKNVIHGSDSVASANKEINIWFKAEELTQWKHHMKEWICS 1xiu-a1-m1-cA_1xiu-a1-m2-cA Crystal structure of the agonist-bound ligand-binding domain of Biomphalaria glabrata RXR Q8T5C6 Q8T5C6 2.5 X-RAY DIFFRACTION 82 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 221 221 NDMPVEQILEAELAVDPKIDTYIDAQKDPVTNICQAADKQLFTLVEWAKRIPHFTELPLEDQVILLRAGWNELLIAGFSHRSIMAKDGILLATGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAVVLFNPDAKGLTAVQEVEQLREKVYASLEEYTKSRYPEEPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDQPIDTFLMEMLE NDMPVEQILEAELAVDPKIDTYIDAQKDPVTNICQAADKQLFTLVEWAKRIPHFTELPLEDQVILLRAGWNELLIAGFSHRSIMAKDGILLATGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAVVLFNPDAKGLTAVQEVEQLREKVYASLEEYTKSRYPEEPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDQPIDTFLMEMLE 1xiu-a1-m1-cA_1xiu-a1-m2-cB Crystal structure of the agonist-bound ligand-binding domain of Biomphalaria glabrata RXR Q8T5C6 Q8T5C6 2.5 X-RAY DIFFRACTION 11 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 221 224 1xiu-a1-m2-cA_1xiu-a1-m1-cB NDMPVEQILEAELAVDPKIDTYIDAQKDPVTNICQAADKQLFTLVEWAKRIPHFTELPLEDQVILLRAGWNELLIAGFSHRSIMAKDGILLATGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAVVLFNPDAKGLTAVQEVEQLREKVYASLEEYTKSRYPEEPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDQPIDTFLMEMLE NNDMPVEQILEAELAVDPKIDTYIDAQKDPVTNICQAADKQLFTLVEWAKRIPHFTELPLEDQVILLRAGWNELLIAGFSHRSIMAKDGILLATGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAVVLFNPDAKGLTAVQEVEQLREKVYASLEEYTKSRYPEEPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDQPIDTFLMEMLENP 1xiu-a1-m2-cA_1xiu-a1-m2-cB Crystal structure of the agonist-bound ligand-binding domain of Biomphalaria glabrata RXR Q8T5C6 Q8T5C6 2.5 X-RAY DIFFRACTION 54 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 221 224 1xiu-a1-m1-cA_1xiu-a1-m1-cB NDMPVEQILEAELAVDPKIDTYIDAQKDPVTNICQAADKQLFTLVEWAKRIPHFTELPLEDQVILLRAGWNELLIAGFSHRSIMAKDGILLATGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAVVLFNPDAKGLTAVQEVEQLREKVYASLEEYTKSRYPEEPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDQPIDTFLMEMLE NNDMPVEQILEAELAVDPKIDTYIDAQKDPVTNICQAADKQLFTLVEWAKRIPHFTELPLEDQVILLRAGWNELLIAGFSHRSIMAKDGILLATGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAVVLFNPDAKGLTAVQEVEQLREKVYASLEEYTKSRYPEEPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDQPIDTFLMEMLENP 1xj4-a4-m1-cA_1xj4-a4-m3-cA CO-bound structure of BjFixLH P23222 P23222 1.8 X-RAY DIFFRACTION 14 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 106 106 1xj6-a4-m1-cA_1xj6-a4-m3-cA DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEH DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEH 1xj4-a6-m1-cA_1xj4-a6-m2-cA CO-bound structure of BjFixLH P23222 P23222 1.8 X-RAY DIFFRACTION 13 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 106 106 1xj4-a3-m1-cA_1xj4-a3-m2-cA DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEH DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEH 1xj6-a5-m1-cA_1xj6-a5-m1-cB Structure of bjFixLH in the unliganded ferrous form P23222 P23222 1.9 X-RAY DIFFRACTION 61 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 105 107 1xj4-a3-m1-cA_1xj4-a3-m1-cB 1xj4-a3-m2-cA_1xj4-a3-m2-cB 1xj4-a4-m1-cA_1xj4-a4-m1-cB 1xj4-a4-m3-cA_1xj4-a4-m3-cB 1xj4-a5-m1-cA_1xj4-a5-m1-cB 1xj6-a3-m1-cA_1xj6-a3-m1-cB 1xj6-a3-m2-cA_1xj6-a3-m2-cB 1xj6-a4-m1-cA_1xj6-a4-m1-cB 1xj6-a4-m3-cA_1xj6-a4-m3-cB 2vv6-a1-m1-cA_2vv6-a1-m1-cB 2vv6-a2-m1-cC_2vv6-a2-m1-cD 2vv7-a1-m1-cA_2vv7-a1-m1-cB 2vv7-a1-m1-cC_2vv7-a1-m1-cD 2vv8-a1-m1-cA_2vv8-a1-m1-cB 2vv8-a1-m1-cC_2vv8-a1-m1-cD PDAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLT TIPDAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLT 1xjc-a2-m1-cA_1xjc-a2-m2-cA X-ray crystal structure of MobB protein homolog from Bacillus stearothermophilus D0VWV1 D0VWV1 2.1 X-RAY DIFFRACTION 134 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 142 142 NVWQVVGYKHSGKTTLEKWVAAAVREGWRVGTVKHHGAVATAVEGDGLLQLHLRRPLWRLDDVLALYAPLRLDLVLVEGYKQERHPKVVLVRSEEDWASLQHLANIRAVIAWEPLEGPLAHPVFSLADDDEYIPWLNEVRTR NVWQVVGYKHSGKTTLEKWVAAAVREGWRVGTVKHHGAVATAVEGDGLLQLHLRRPLWRLDDVLALYAPLRLDLVLVEGYKQERHPKVVLVRSEEDWASLQHLANIRAVIAWEPLEGPLAHPVFSLADDDEYIPWLNEVRTR 1xje-a1-m1-cB_1xje-a1-m1-cA Structural mechanism of allosteric substrate specificity in a ribonucleotide reductase: dTTP-GDP complex O33839 O33839 1.9 X-RAY DIFFRACTION 91 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 618 627 1xjf-a1-m1-cB_1xjf-a1-m1-cA 1xjg-a1-m1-cB_1xjg-a1-m1-cA 1xjj-a1-m1-cB_1xjj-a1-m1-cA 1xjk-a1-m1-cB_1xjk-a1-m1-cA 1xjm-a1-m1-cB_1xjm-a1-m1-cA 1xjn-a1-m1-cB_1xjn-a1-m1-cA 1xjn-a2-m1-cD_1xjn-a2-m1-cC 3o0n-a1-m1-cA_3o0n-a1-m1-cB 3o0o-a1-m1-cA_3o0o-a1-m1-cB 3o0q-a1-m1-cA_3o0q-a1-m1-cB MKLSDLISRWIDVEPSKNAQIILRDRYFMKDLDGNYLETKWEDVARRVARVVATAELLNPSYKKNEKLDRIKEWEDIFFRVLKARLFIPNSPTLFNAGLGVKHDLLWKPIDQMTLEDYEEIYRSRNHLHMLSACFVVPVGDSIEEIFEAVKEYALITKVGGGVGSNFSELRPKGSFVAGTHGKASGPVSFMHVFNSAISVVKQGSRRRGALMGILNINHPDIEEFIDAKKVLNFFNLSVGFPMDKKEILKLYEEDGELELSHPRSTIRKKVKIRELFRKIATNAWKSGDPGLAFLGEMNKYYPLYPHRKINSTNPCGEIGLSDYEACNLGSIDVAKFYNNGFVDLEALQELVQIAVRFLDNVIDVNVFPIDKITKAVKESRRLGLGIMGFADLLYKLEIPYNSQEARDFAANLMAFIALHAHRTSYELGKEKGNFPLLEISRYRTEDNFVPFAMGMSNYDDEIREVMKMTKEFRRNVALLTIAPTGSISNIADTSSGLEPNFLLAYTRFPLLYVNQVLREKLNPEILKRIEKELIEKGSLKDIPDVPEKIKKVFVVALDIDPMDHLLMQDAFQRYVDNNISKTINMPQSATVDDVLNVYLEALRTNVRGITVYRDGSL MKLSDLISRWIDVEPSKNAQIILRDRYFMKDLDGNYLETKWEDVARRVARVVATAELLNPSYKKNEKLDRIKEWEDIFFRVLKARLFIPNSPTLFNAGLGVKHDLLWKPIDQMTLEDYEEIYRSRNHLHMLSACFVVPVGDSIEEIFEAVKEYALITKVGGGVGSNFSELRPKGSFVAGTHGKASGPVSFMHVFNSAISVVKQGSRRRGALMGILNINHPDIEEFIDAKKVLNFFNLSVGFPMDKKEILKLYEEDGELELSHPRSTIRKKVKIRELFRKIATNAWKSGDPGLAFLGEMNKYYPLYPHRKINSTNPCGEIGLSDYEACNLGSIDVAKFYNNGFVDLEALQELVQIAVRFLDNVIDVNVFPIDKITKAVKESRRLGLGIMGFADLLYKLEIPYNSQEARDFAANLMAFIALHAHRTSYELGKEKGNFPLLEISRYRTEDNFVPFAMGMSNYDDEIREVMKMTKEFRRNVALLTIAPTGSISNIADTSSGLEPNFLLAYTRFVTKEDGTKEPLLYVNQVLREKLNPEILKRIEKELIEKGSLKDIPDVPEKIKKVFVVALDIDPMDHLLMQDAFQRYVDNNISKTINMPQSATVDDVLNVYLEALRTNVRGITVYRDGSL 1xju-a3-m1-cB_1xju-a3-m2-cA Crystal structure of secreted inactive form of P1 phage endolysin Lyz Q37875 Q37875 1.07 X-RAY DIFFRACTION 113 1.0 10678 (Punavirus P1) 10678 (Punavirus P1) 155 156 RTNQAGLELIGNAEGCRRDPYMCPAGVWTDGIGGVTPGVRKTDQQIAADWEKNILIAERCINQHFRGKDMPDNAFSAMTSAAFNMGCNSLRTYYSKARGMRVETSIHKWAQKGEWVNMCNHLPDFVNSNGVPLRGLKIRREKERQLCLTGLVNEH RTNQAGLELIGNAEGCRRDPYMCPAGVWTDGIGNGVTPGVRKTDQQIAADWEKNILIAERCINQHFRGKDMPDNAFSAMTSAAFNMGCNSLRTYYSKARGMRVETSIHKWAQKGEWVNMCNHLPDFVNSNGVPLRGLKIRREKERQLCLTGLVNEH 1xk6-a2-m1-cB_1xk6-a2-m1-cD Crystal Structure- P1 form- of Escherichia coli Crotonobetainyl-CoA: carnitine CoA Transferase (CaiB) P31572 P31572 1.85 X-RAY DIFFRACTION 370 1.0 562 (Escherichia coli) 562 (Escherichia coli) 386 386 1xa3-a1-m1-cA_1xa3-a1-m1-cB 1xa4-a1-m1-cA_1xa4-a1-m1-cB 1xk6-a1-m1-cA_1xk6-a1-m1-cC 1xk7-a1-m1-cA_1xk7-a1-m2-cA 1xk7-a2-m1-cB_1xk7-a2-m1-cC 1xvt-a1-m1-cA_1xvt-a1-m2-cA 1xvu-a1-m1-cA_1xvu-a1-m2-cA 1xvv-a1-m1-cA_1xvv-a1-m2-cA LPPKFGPLAGLRVVFSGIEIAGPFAGQFAEWGAEVIWIENVAWADTIRVQPNYPQLSRRNLHALSLNIFKDEGREAFLKLETTDIFIEASKGPAFARRGITDEVLWQHNPKLVIAHLSGFGQYGTEEYTNLPAYNTIAQAFSGYLIQNGDVDQPPAFPYTADYFSGLTATTAALAALHKVRETGKGESIDIAYEVLRGQYFDYFNGGECPRSKGKDPYYAGCGLYKCADGYIVELVGITQIEECFKDIGLAHLLGTPEIPEGTQLIHRIECPYGPLVEEKLDAWLATHTIAEVKERFAELNIACAKVLTVPELESNPQYVARESITQWQTDGRTCKGPNIPKFKNNPGQIWRGPSHGDTAAILKNIGYSENDIQELVSKGLAKVED LPPKFGPLAGLRVVFSGIEIAGPFAGQFAEWGAEVIWIENVAWADTIRVQPNYPQLSRRNLHALSLNIFKDEGREAFLKLETTDIFIEASKGPAFARRGITDEVLWQHNPKLVIAHLSGFGQYGTEEYTNLPAYNTIAQAFSGYLIQNGDVDQPPAFPYTADYFSGLTATTAALAALHKVRETGKGESIDIAYEVLRGQYFDYFNGGECPRSKGKDPYYAGCGLYKCADGYIVELVGITQIEECFKDIGLAHLLGTPEIPEGTQLIHRIECPYGPLVEEKLDAWLATHTIAEVKERFAELNIACAKVLTVPELESNPQYVARESITQWQTDGRTCKGPNIPKFKNNPGQIWRGPSHGDTAAILKNIGYSENDIQELVSKGLAKVED 1xk8-a1-m1-cA_1xk8-a1-m1-cC Divalent cation tolerant protein CUTA from Homo sapiens O60888 O60888 O60888 2.7 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 1osc-a1-m1-cA_1osc-a1-m1-cB 1osc-a1-m1-cA_1osc-a1-m1-cC 1osc-a1-m1-cC_1osc-a1-m1-cB 1osc-a2-m1-cD_1osc-a2-m1-cE 1osc-a2-m1-cD_1osc-a2-m1-cF 1osc-a2-m1-cE_1osc-a2-m1-cF 1osc-a3-m1-cA_1osc-a3-m1-cB 1osc-a3-m1-cA_1osc-a3-m1-cC 1osc-a3-m1-cC_1osc-a3-m1-cB 1osc-a3-m1-cD_1osc-a3-m1-cE 1osc-a3-m1-cD_1osc-a3-m1-cF 1osc-a3-m1-cE_1osc-a3-m1-cF 1xk8-a1-m1-cA_1xk8-a1-m1-cB 1xk8-a1-m1-cB_1xk8-a1-m1-cC 1xk8-a1-m1-cE_1xk8-a1-m1-cD 1xk8-a1-m1-cE_1xk8-a1-m1-cF 1xk8-a1-m1-cF_1xk8-a1-m1-cD 2zfh-a1-m1-cB_2zfh-a1-m1-cA 2zfh-a1-m1-cC_2zfh-a1-m1-cA 2zfh-a1-m1-cC_2zfh-a1-m1-cB 2zfh-a2-m1-cD_2zfh-a2-m1-cE 2zfh-a2-m1-cD_2zfh-a2-m1-cF 2zfh-a2-m1-cE_2zfh-a2-m1-cF YVPGSVSAAFVTCPNEKVAKEIARAVVEKRLAACVNLIPQITSIYEWKGKIEEDSEVLMMIKTQSSLVPALTDFVRSVHPYEVAEVIALPVEQGNFPYLQWVRQVTE YVPGSVSAAFVTCPNEKVAKEIARAVVEKRLAACVNLIPQITSIYEWKGKIEEDSEVLMMIKTQSSLVPALTDFVRSVHPYEVAEVIALPVEQGNFPYLQWVRQVTE 1xk8-a1-m1-cB_1xk8-a1-m1-cF Divalent cation tolerant protein CUTA from Homo sapiens O60888 O60888 O60888 2.7 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 1osc-a3-m1-cA_1osc-a3-m1-cD 1osc-a3-m1-cB_1osc-a3-m1-cE 1osc-a3-m1-cC_1osc-a3-m1-cF 1xk8-a1-m1-cA_1xk8-a1-m1-cD 1xk8-a1-m1-cC_1xk8-a1-m1-cE YVPGSVSAAFVTCPNEKVAKEIARAVVEKRLAACVNLIPQITSIYEWKGKIEEDSEVLMMIKTQSSLVPALTDFVRSVHPYEVAEVIALPVEQGNFPYLQWVRQVTE YVPGSVSAAFVTCPNEKVAKEIARAVVEKRLAACVNLIPQITSIYEWKGKIEEDSEVLMMIKTQSSLVPALTDFVRSVHPYEVAEVIALPVEQGNFPYLQWVRQVTE 1xkf-a2-m1-cA_1xkf-a2-m1-cB Crystal structure of Hypoxic Response Protein I (HRPI) with two coordinated zinc ions P9WJA3 P9WJA3 1.9 X-RAY DIFFRACTION 31 0.992 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 120 123 TTARDIMNAGVTCVGEHETLTAAAQYMREHDIGALPICGDDDRLHGMLTDRDIVIKGLAAGLDPNTATAGELAIYYVDANASIQEMLNVMEEHQVRRVPVISEHRLVGIVTEADIARHLP MTTARDIMNAGVTCVGEHETLTAAAQYMREHDIGALPICGDDDRLHGMLTDRDIVIKGLAAGLDPNTATAGELARDSIYYVDANASIQEMLNVMEEHQVRRVPVISEHRLVGIVTEADIARHL 1xkl-a1-m1-cB_1xkl-a1-m1-cC Crystal Structure of Salicylic Acid-binding Protein 2 (SABP2) from Nicotiana tabacum, NESG Target AR2241 Q6RYA0 Q6RYA0 2 X-RAY DIFFRACTION 15 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 247 248 EGKHFVLVHGACHGGWSWYKLKPLLEAAGHKVTALDLAASGTDLRKIEELRTLYDYTLPLELESLSADEKVILVGHSLGGNLGLAEKYPQKIYAAVFLAAFPDSVHNSSFVLEQYNERTPAENWLDTQFLPYGSPEEPLTSFFGPKFLAHKLYQLCSPEDLALASSLVRPSSLFEDLSKAKYFTDERFGSVKRVYIVCTEDKGIPEEFQRWQIDNIGVTEAIEIKGADHALCEPQKLCASLLEIAHK EGKHFVLVHGACHGGWSWYKLKPLLEAAGHKVTALDLAASGTDLRKIEELRTLYDYTLPLELESLSADEKVILVGHSLGGNLGLAEKYPQKIYAAVFLAAFPDSVHNSSFVLEQYNERTPAENWLDTQFLPYGSPEEPLTSFFGPKFLAHKLYQLCSPEDLALASSLVRPSSLFEDLSKAKYFTDERFGSVKRVYIVCTEDKGIPEEFQRWQIDNIGVTEAIEIKGADHALCEPQKLCASLLEIAHKY 1xkl-a1-m1-cC_1xkl-a1-m1-cD Crystal Structure of Salicylic Acid-binding Protein 2 (SABP2) from Nicotiana tabacum, NESG Target AR2241 Q6RYA0 Q6RYA0 2 X-RAY DIFFRACTION 65 0.996 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 248 248 1xkl-a1-m1-cB_1xkl-a1-m1-cA 1y7h-a1-m1-cA_1y7h-a1-m1-cB 1y7h-a2-m1-cC_1y7h-a2-m1-cD 1y7h-a3-m1-cE_1y7h-a3-m1-cF 1y7h-a4-m1-cG_1y7h-a4-m1-cH 1y7i-a1-m1-cA_1y7i-a1-m1-cB 1y7i-a2-m1-cA_1y7i-a2-m1-cB 1y7i-a2-m2-cA_1y7i-a2-m2-cB EGKHFVLVHGACHGGWSWYKLKPLLEAAGHKVTALDLAASGTDLRKIEELRTLYDYTLPLELESLSADEKVILVGHSLGGNLGLAEKYPQKIYAAVFLAAFPDSVHNSSFVLEQYNERTPAENWLDTQFLPYGSPEEPLTSFFGPKFLAHKLYQLCSPEDLALASSLVRPSSLFEDLSKAKYFTDERFGSVKRVYIVCTEDKGIPEEFQRWQIDNIGVTEAIEIKGADHALCEPQKLCASLLEIAHKY EGKHFVLVHGACHGGWSWYKLKPLLEAAGHKVTALDLAASGTDLRKIEELRTLYDYTLPLELESLSADEKVILVGHSLGGNLGLAEKYPQKIYAAVFLAAFPDSVHNSSFVLEQYNERTPAENWLDTQFLPYGSPEEPLTSFFGPKFLAHKLYQLCSPEDLALASSLVRPSSLFEDLSKAYFTDERFGSVKRVYIVCTEDKGIPEEFQRWQIDNIGVTEAIEIKGADHALCEPQKLCASLLEIAHKYN 1xkm-a1-m1-cA_1xkm-a1-m1-cC NMR structure of antimicrobial peptide distinctin in water NOT SOLUTION NMR 14 1.0 22 22 ENREVPPGFTALIKTLRKCKII ENREVPPGFTALIKTLRKCKII 1xkq-a1-m1-cB_1xkq-a1-m1-cD Crystal Structure of Short-Chain Dehydrogenase/Reductase of unknown Function from Caenorhabditis Elegans with Cofactor Q9N5G4 Q9N5G4 2.1 X-RAY DIFFRACTION 111 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 271 271 1xkq-a1-m1-cC_1xkq-a1-m1-cA PRFSNKTVIITGSSNGIGRTTAILFAQEGANVTITGRSSERLEETRQIILKSGVSEKQVNSVVADVTTEDGQDQIINSTLKQFGKIDVLVNNAGAAIPDAFGTTGTDQGIDIYHKTLKLNLQAVIEMTKKVKPHLVASKGEIVNVSSIVAGPQAQPDFLYYAIAKAALDQYTRSTAIDLAKFGIRVNSVSPGMVETGFTNAMGMPDQASQKFYNFMASHKECIPIGAAGKPEHIANIILFLADRNLSFYILGQSIVADGGTSLVMGTQAHD PRFSNKTVIITGSSNGIGRTTAILFAQEGANVTITGRSSERLEETRQIILKSGVSEKQVNSVVADVTTEDGQDQIINSTLKQFGKIDVLVNNAGAAIPDAFGTTGTDQGIDIYHKTLKLNLQAVIEMTKKVKPHLVASKGEIVNVSSIVAGPQAQPDFLYYAIAKAALDQYTRSTAIDLAKFGIRVNSVSPGMVETGFTNAMGMPDQASQKFYNFMASHKECIPIGAAGKPEHIANIILFLADRNLSFYILGQSIVADGGTSLVMGTQAHD 1xkq-a1-m1-cC_1xkq-a1-m1-cD Crystal Structure of Short-Chain Dehydrogenase/Reductase of unknown Function from Caenorhabditis Elegans with Cofactor Q9N5G4 Q9N5G4 2.1 X-RAY DIFFRACTION 109 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 271 271 1xkq-a1-m1-cB_1xkq-a1-m1-cA PRFSNKTVIITGSSNGIGRTTAILFAQEGANVTITGRSSERLEETRQIILKSGVSEKQVNSVVADVTTEDGQDQIINSTLKQFGKIDVLVNNAGAAIPDAFGTTGTDQGIDIYHKTLKLNLQAVIEMTKKVKPHLVASKGEIVNVSSIVAGPQAQPDFLYYAIAKAALDQYTRSTAIDLAKFGIRVNSVSPGMVETGFTNAMGMPDQASQKFYNFMASHKECIPIGAAGKPEHIANIILFLADRNLSFYILGQSIVADGGTSLVMGTQAHD PRFSNKTVIITGSSNGIGRTTAILFAQEGANVTITGRSSERLEETRQIILKSGVSEKQVNSVVADVTTEDGQDQIINSTLKQFGKIDVLVNNAGAAIPDAFGTTGTDQGIDIYHKTLKLNLQAVIEMTKKVKPHLVASKGEIVNVSSIVAGPQAQPDFLYYAIAKAALDQYTRSTAIDLAKFGIRVNSVSPGMVETGFTNAMGMPDQASQKFYNFMASHKECIPIGAAGKPEHIANIILFLADRNLSFYILGQSIVADGGTSLVMGTQAHD 1xkq-a1-m1-cD_1xkq-a1-m1-cA Crystal Structure of Short-Chain Dehydrogenase/Reductase of unknown Function from Caenorhabditis Elegans with Cofactor Q9N5G4 Q9N5G4 2.1 X-RAY DIFFRACTION 68 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 271 272 1xkq-a1-m1-cB_1xkq-a1-m1-cC PRFSNKTVIITGSSNGIGRTTAILFAQEGANVTITGRSSERLEETRQIILKSGVSEKQVNSVVADVTTEDGQDQIINSTLKQFGKIDVLVNNAGAAIPDAFGTTGTDQGIDIYHKTLKLNLQAVIEMTKKVKPHLVASKGEIVNVSSIVAGPQAQPDFLYYAIAKAALDQYTRSTAIDLAKFGIRVNSVSPGMVETGFTNAMGMPDQASQKFYNFMASHKECIPIGAAGKPEHIANIILFLADRNLSFYILGQSIVADGGTSLVMGTQAHD PRFSNKTVIITGSSNGIGRTTAILFAQEGANVTITGRSSERLEETRQIILKSGVSEKQVNSVVADVTTEDGQDQIINSTLKQFGKIDVLVNNAGAAIPDAFGTTGTDQGIDIYHKTLKLNLQAVIEMTKKVKPHLVASKGEIVNVSSIVAGPQAQPDFLYYAIAKAALDQYTRSTAIDLAKFGIRVNSVSPGMVETGFTNAMGMPDQASQKFYNFMASHKECIPIGAAGKPEHIANIILFLADRNLSFYILGQSIVADGGTSLVMGTQAHDV 1xku-a1-m1-cA_1xku-a1-m2-cA Crystal structure of the dimeric protein core of decorin, the archetypal small leucine-rich repeat proteoglycan P21793 P21793 2.15 X-RAY DIFFRACTION 65 1.0 9913 (Bos taurus) 9913 (Bos taurus) 305 305 1xcd-a1-m1-cA_1xcd-a1-m2-cA 1xec-a1-m1-cA_1xec-a1-m1-cB GPVCPFRCQCHLRVVQCSDLGLEKVPKDLPPDTALLDLQNNKITEIKDGDFKNLKNLHTLILINNKISKISPGAFAPLVKLERLYLSKNQLKELPEKMPKTLQELRVHENEITKVRKSVFNGLNQMIVVELGTNPLKSSGIENGAFQGMKKLSYIRIADTNITTIPQGLPPSLTELHLDGNKITKVDAASLKGLNNLAKLGLSFNSISAVDNGSLANTPHLRELHLNNNKLVKVPGGLADHKYIQVVYLHNNNISAIGSNDFCPPGYNTKKASYSGVSLFSNPVQYWEIQPSTFRCVYVRAAVQL GPVCPFRCQCHLRVVQCSDLGLEKVPKDLPPDTALLDLQNNKITEIKDGDFKNLKNLHTLILINNKISKISPGAFAPLVKLERLYLSKNQLKELPEKMPKTLQELRVHENEITKVRKSVFNGLNQMIVVELGTNPLKSSGIENGAFQGMKKLSYIRIADTNITTIPQGLPPSLTELHLDGNKITKVDAASLKGLNNLAKLGLSFNSISAVDNGSLANTPHLRELHLNNNKLVKVPGGLADHKYIQVVYLHNNNISAIGSNDFCPPGYNTKKASYSGVSLFSNPVQYWEIQPSTFRCVYVRAAVQL 1xky-a1-m1-cA_1xky-a1-m1-cD Crystal Structure of Dihydrodipicolinate Synthase DapA-2 (BA3935) from Bacillus Anthracis at 1.94A Resolution. A0A6L7H340 A0A6L7H340 1.94 X-RAY DIFFRACTION 58 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 292 292 1xky-a1-m1-cB_1xky-a1-m1-cC 1xl9-a1-m1-cA_1xl9-a1-m1-cD 1xl9-a1-m1-cB_1xl9-a1-m1-cC 3hij-a1-m1-cA_3hij-a1-m1-cD 3hij-a1-m1-cB_3hij-a1-m1-cC MIDFGTIATAMVTPFDINGNIDFAKTTKLVNYLIDNGTTAIVVGGTTGESPTLTSEEKVALYRHVVSVVDKRVPVIAGTGSNNTHASIDLTKKATEVGVDAVMLVAPYYNKPSQEGMYQHFKAIAESTPLPVMLYNVPGRSIVQISVDTVVRLSEIENIVAIKDAGGDVLTMTEIIEKTADDFAVYSGDDGLTLPAMAVGAKGIVSVASHVIGNEMQEMIAAFQAGEFKKAQKLHQLLVRVTDSLFMAPSPTPVKTALQMVGLDVGSVRLPLLPLTEEERVTLQSVMQSIPR MIDFGTIATAMVTPFDINGNIDFAKTTKLVNYLIDNGTTAIVVGGTTGESPTLTSEEKVALYRHVVSVVDKRVPVIAGTGSNNTHASIDLTKKATEVGVDAVMLVAPYYNKPSQEGMYQHFKAIAESTPLPVMLYNVPGRSIVQISVDTVVRLSEIENIVAIKDAGGDVLTMTEIIEKTADDFAVYSGDDGLTLPAMAVGAKGIVSVASHVIGNEMQEMIAAFQAGEFKKAQKLHQLLVRVTDSLFMAPSPTPVKTALQMVGLDVGSVRLPLLPLTEEERVTLQSVMQSIPR 1xky-a1-m1-cC_1xky-a1-m1-cD Crystal Structure of Dihydrodipicolinate Synthase DapA-2 (BA3935) from Bacillus Anthracis at 1.94A Resolution. A0A6L7H340 A0A6L7H340 1.94 X-RAY DIFFRACTION 111 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 292 292 1xky-a1-m1-cA_1xky-a1-m1-cB 1xl9-a1-m1-cA_1xl9-a1-m1-cB 1xl9-a1-m1-cC_1xl9-a1-m1-cD 3hij-a1-m1-cA_3hij-a1-m1-cB 3hij-a1-m1-cC_3hij-a1-m1-cD MIDFGTIATAMVTPFDINGNIDFAKTTKLVNYLIDNGTTAIVVGGTTGESPTLTSEEKVALYRHVVSVVDKRVPVIAGTGSNNTHASIDLTKKATEVGVDAVMLVAPYYNKPSQEGMYQHFKAIAESTPLPVMLYNVPGRSIVQISVDTVVRLSEIENIVAIKDAGGDVLTMTEIIEKTADDFAVYSGDDGLTLPAMAVGAKGIVSVASHVIGNEMQEMIAAFQAGEFKKAQKLHQLLVRVTDSLFMAPSPTPVKTALQMVGLDVGSVRLPLLPLTEEERVTLQSVMQSIPR MIDFGTIATAMVTPFDINGNIDFAKTTKLVNYLIDNGTTAIVVGGTTGESPTLTSEEKVALYRHVVSVVDKRVPVIAGTGSNNTHASIDLTKKATEVGVDAVMLVAPYYNKPSQEGMYQHFKAIAESTPLPVMLYNVPGRSIVQISVDTVVRLSEIENIVAIKDAGGDVLTMTEIIEKTADDFAVYSGDDGLTLPAMAVGAKGIVSVASHVIGNEMQEMIAAFQAGEFKKAQKLHQLLVRVTDSLFMAPSPTPVKTALQMVGLDVGSVRLPLLPLTEEERVTLQSVMQSIPR 1xkz-a2-m1-cD_1xkz-a2-m1-cC Crystal structure of the acylated beta-lactam sensor domain of Blar1 from S. aureus P18357 P18357 1.75 X-RAY DIFFRACTION 28 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 244 248 1xkz-a1-m1-cA_1xkz-a1-m1-cB NYKKPLHNDYQILDKSKIFGSNSGSFVMYSMKKDKYYIYNEKESRKRYSPNSTYKIYLAMFGLDRHIINDENSRMSWNHKHYPFDAWNKEQDLNTAMQNSVNWYFERISDQIPKNYTATQLKQLNYGNKNLGSYKSYWMEDSLKISNLEQVIVFKNMMEQNHFSKKAKNQLSSSLLIKKNEKYELYGKTGTGIVNGKYNNGWFVGYVITNHDKYYFATHLSDGKPSGKNAELISEKILKEMGVL NYKKPLHNDYQILDKSKIFGSNSGSFVMYSMKKDKYYIYNEKESRKRYSPNSTYKIYLAMFGLDRHIINDENSRMSWNHKHYPFDAWNKEQDLNTAMQNSVNWYFERISDQIPKNYTATQLKQLNYGNKNLGSYKSYWMEDSLKISNLEQVIVFKNMMEQNNHFSKKAKNQLSSSLLIKKNEKYELYGKTGTGIVNGKYNNGWFVGYVITNHDKYYFATHLSDGKPSGKNAELISEKILKEMGVLNGQ 1xlq-a4-m1-cA_1xlq-a4-m1-cB Crystal structure of reduced C73S putidaredoxin from Pseudomonas putida P00259 P00259 1.45 X-RAY DIFFRACTION 60 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 106 106 1oqr-a4-m1-cB_1oqr-a4-m2-cC 1xlp-a4-m1-cB_1xlp-a4-m2-cC SKVVYVSHDGTRRELDVADGVSLMQAAVSNGIYDIVGDCGGSASCATCHVYVNEAFTDKVPAANEREIGMLESVTAELKPNSRLCCQIIMTPELDGIVVDVPDRQW SKVVYVSHDGTRRELDVADGVSLMQAAVSNGIYDIVGDCGGSASCATCHVYVNEAFTDKVPAANEREIGMLESVTAELKPNSRLCCQIIMTPELDGIVVDVPDRQW 1xls-a5-m1-cM_1xls-a5-m3-cP Crystal structure of the mouse CAR/RXR LBD heterodimer bound to TCPOBOP and 9cRA and a TIF2 peptide containg the third LXXLL motifs Q9WUI9 Q9WUI9 2.96 X-RAY DIFFRACTION 19 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 18 18 AKENALLRYLLDKDDTKD AKENALLRYLLDKDDTKD 1xls-a7-m1-cF_1xls-a7-m4-cH Crystal structure of the mouse CAR/RXR LBD heterodimer bound to TCPOBOP and 9cRA and a TIF2 peptide containg the third LXXLL motifs O35627 O35627 2.96 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 242 242 1xls-a5-m1-cE_1xls-a5-m1-cG 1xls-a5-m2-cF_1xls-a5-m3-cH 1xls-a6-m1-cE_1xls-a6-m1-cG NQQQKELVQILLGAHTRHVGPLFDQFVQFRPPAYLFMHHRPFQPRGPVLPLLTHFADINTFMVQQIIKFTKDLPLFRSLTMEDQISLLKGAAVEILHISLNTTFCLQTENFFCGPLCYKMEDAVHAGFQYEFLESILHFHKNLKGLHLQEPEYVLMAATALFSPDRPGVTQREEIDQLQEEMALILNNHIMEQQSRLQSRFLYAKLMGLLADLRSINNAYSYELQRLEELSAMTPLLGEICS NQQQKELVQILLGAHTRHVGPLFDQFVQFRPPAYLFMHHRPFQPRGPVLPLLTHFADINTFMVQQIIKFTKDLPLFRSLTMEDQISLLKGAAVEILHISLNTTFCLQTENFFCGPLCYKMEDAVHAGFQYEFLESILHFHKNLKGLHLQEPEYVLMAATALFSPDRPGVTQREEIDQLQEEMALILNNHIMEQQSRLQSRFLYAKLMGLLADLRSINNAYSYELQRLEELSAMTPLLGEICS 1xm3-a1-m1-cC_1xm3-a1-m1-cB Crystal structure of Northeast Structural Genomics Target SR156 O31618 O31618 1.8 X-RAY DIFFRACTION 86 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 242 244 1tyg-a1-m1-cA_1tyg-a1-m2-cA 1tyg-a1-m1-cC_1tyg-a1-m2-cC 1xm3-a1-m1-cA_1xm3-a1-m1-cD SLTIGGKSFQSRLLLGTGKYPSFDIQKEAVAVSESDILTFAVRRNIFEASQPNFLEQLDLSKYTLLPNTAGASTAEEAVRIARLAKASGLCDIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLPYTSDDVVLARKLEELGVHAIPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGIGSPKDAAYAELGADGVLLNTAVSGADDPVKARAKLAVEAGRLSYEAGRIPLKQYGTASSP SLTIGGKSFQSRLLLGTGKYPSFDIQKEAVAVSESDILTFAVRRNIFEASQPNFLEQLDLSKYTLLPNTAGASTAEEAVRIARLAKASGLCDIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLPYTSDDVVLARKLEELGVHAIPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGIGSPKDAAYAELGADGVLLNTAVSGADDPVKARAKLAVEAGRLSYEAGRIPLKQYGTASSPGE 1xm3-a1-m1-cD_1xm3-a1-m1-cB Crystal structure of Northeast Structural Genomics Target SR156 O31618 O31618 1.8 X-RAY DIFFRACTION 54 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 242 244 1xm3-a1-m1-cA_1xm3-a1-m1-cC SLTIGGKSFQSRLLLGTGKYPSFDIQKEAVAVSESDILTFAVRRNIFEASQPNFLEQLDLSKYTLLPNTAGASTAEEAVRIARLAKASGLCDIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLPYTSDDVVLARKLEELGVHAIPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGIGSPKDAAYAELGADGVLLNTAVSGADDPVKARAKLAVEAGRLSYEAGRIPLKQYGTASSP SLTIGGKSFQSRLLLGTGKYPSFDIQKEAVAVSESDILTFAVRRNIFEASQPNFLEQLDLSKYTLLPNTAGASTAEEAVRIARLAKASGLCDIKVEVIGCSRSLLPDPVETLKASEQLLEEGFIVLPYTSDDVVLARKLEELGVHAIPGASPIGSGQGILNPLNLSFIIEQAKVPVIVDAGIGSPKDAAYAELGADGVLLNTAVSGADDPVKARAKLAVEAGRLSYEAGRIPLKQYGTASSPGE 1xma-a1-m1-cA_1xma-a1-m2-cB Structure of a transcriptional regulator from Clostridium thermocellum Cth-833 A3DGR1 A3DGR1 2.301 X-RAY DIFFRACTION 90 0.99 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 101 103 SDVIRGYVDTIILSLLIEGDSYGYEISKNIRIKTDELYVIKETTLYSAFARLEKNGYIKSYYGEETKRRTYYRITPEGIKYYKQKCEEWELTKKVINKFVK VISSDVIRGYVDTIILSLLIEGDSYGYEISKNIRIKTDELYVIKETTLYSAFARLEKNGYIKSYYGEETRRTYYRITPEGIKYYKQKCEEWELTKKVINKFVK 1xmi-a1-m1-cA_1xmi-a1-m1-cC Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 21 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 267 270 STTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL TTEVVMENVTAFWEEGFGELFEKAKQNSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL 1xmi-a1-m1-cB_1xmi-a1-m1-cA Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 14 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 258 267 STTEVVMENVTAFWEEGFGELFEKAKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKIVLTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL STTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL 1xmi-a1-m1-cB_1xmi-a1-m1-cD Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 13 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 258 268 STTEVVMENVTAFWEEGFGELFEKAKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKIVLTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL STTEVVMENVTAFWEEGFGELFEDSLSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSLE 1xmi-a1-m1-cE_1xmi-a1-m1-cD Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 11 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 266 268 TTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL STTEVVMENVTAFWEEGFGELFEDSLSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSLE 1xmi-a2-m6-cB_1xmi-a2-m1-cA Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 47 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 258 267 1xmi-a2-m1-cD_1xmi-a2-m3-cC 1xmi-a2-m2-cD_1xmi-a2-m4-cC 1xmi-a2-m5-cB_1xmi-a2-m2-cA 1xmi-a2-m5-cE_1xmi-a2-m6-cE STTEVVMENVTAFWEEGFGELFEKAKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKIVLTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL STTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL 1xmi-a2-m6-cB_1xmi-a2-m6-cE Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 62 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 258 266 1xmi-a1-m1-cA_1xmi-a1-m1-cD 1xmi-a1-m1-cB_1xmi-a1-m1-cE 1xmi-a2-m1-cA_1xmi-a2-m1-cD 1xmi-a2-m1-cD_1xmi-a2-m4-cC 1xmi-a2-m2-cA_1xmi-a2-m2-cD 1xmi-a2-m2-cD_1xmi-a2-m3-cC 1xmi-a2-m5-cB_1xmi-a2-m4-cC 1xmi-a2-m5-cB_1xmi-a2-m5-cE 1xmi-a2-m5-cE_1xmi-a2-m1-cA 1xmi-a2-m6-cB_1xmi-a2-m3-cC 1xmi-a2-m6-cE_1xmi-a2-m2-cA STTEVVMENVTAFWEEGFGELFEKAKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKIVLTLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL TTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL 1xmi-a2-m6-cE_1xmi-a2-m1-cA Crystal structure of human F508A NBD1 domain with ATP P13569 P13569 2.25 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 267 1xmi-a2-m5-cB_1xmi-a2-m2-cD 1xmi-a2-m5-cE_1xmi-a2-m2-cA 1xmi-a2-m6-cB_1xmi-a2-m1-cD TTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL STTEVVMENVTAFWEEGFGELFEKSFSNFSLLGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIAGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQPDFSSKLMGCDSFDQFSAERRNSILTETLRRFSL 1xmn-a1-m1-cD_1xmn-a1-m1-cB Crystal structure of thrombin bound to heparin P00734 P00734 1.85 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 256 3u8r-a1-m1-cI_3u8r-a1-m1-cH 4ch8-a1-m1-cP_4ch8-a1-m1-cB 4ch8-a4-m1-cS_4ch8-a4-m1-cH IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETWTANQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQFG IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETWTANKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQFG 1xmp-a1-m1-cD_1xmp-a1-m1-cE Crystal Structure of PurE (BA0288) from Bacillus anthracis at 1.8 Resolution A0A6L7HA71 A0A6L7HA71 1.8 X-RAY DIFFRACTION 89 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 155 155 1xmp-a1-m1-cA_1xmp-a1-m1-cG 1xmp-a1-m1-cB_1xmp-a1-m1-cC 1xmp-a1-m1-cF_1xmp-a1-m1-cH 4ay4-a1-m1-cA_4ay4-a1-m1-cC 4ay4-a1-m1-cB_4ay4-a1-m1-cD 4ay4-a1-m2-cA_4ay4-a1-m2-cC 4ay4-a1-m2-cB_4ay4-a1-m2-cD 4b4k-a1-m1-cA_4b4k-a1-m1-cC 4b4k-a1-m1-cB_4b4k-a1-m1-cD 4b4k-a1-m2-cA_4b4k-a1-m2-cC 4b4k-a1-m2-cB_4b4k-a1-m2-cD 4b4k-a2-m1-cE_4b4k-a2-m1-cG 4b4k-a2-m1-cH_4b4k-a2-m1-cF 4b4k-a2-m1-cI_4b4k-a2-m1-cK 4b4k-a2-m1-cJ_4b4k-a2-m1-cL KSLVGVIMGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRREAIEKDVRE KSLVGVIMGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRREAIEKDVRE 1xmv-a1-m2-cA_1xmv-a1-m6-cA E. coli RecA in complex with MgADP P0A7G6 P0A7G6 1.9 X-RAY DIFFRACTION 94 1.0 562 (Escherichia coli) 562 (Escherichia coli) 293 293 1xmv-a1-m1-cA_1xmv-a1-m6-cA 1xmv-a1-m2-cA_1xmv-a1-m4-cA 1xmv-a1-m3-cA_1xmv-a1-m4-cA 1xmv-a1-m3-cA_1xmv-a1-m5-cA DENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQVIAAAQREGKTCAFIDAEHALDPIYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIESQAMRKLAGNLKQSNTLLIFINQNALKFYASVRLDIRRIGAVKEGENVVGSETRVKVVKNKIAAPFKQAEFQILYGEGINFYGELVDLGVKEKLIEKAGAWYSYKGEKIGQGKANATAWLKDNPETAKEIEKKVRELLL DENKQKALAAALGQIEKQFGKGSIMRLGEDRSMDVETISTGSLSLDIALGAGGLPMGRIVEIYGPESSGKTTLTLQVIAAAQREGKTCAFIDAEHALDPIYARKLGVDIDNLLCSQPDTGEQALEICDALARSGAVDVIVVDSVAALTPKAEIESQAMRKLAGNLKQSNTLLIFINQNALKFYASVRLDIRRIGAVKEGENVVGSETRVKVVKNKIAAPFKQAEFQILYGEGINFYGELVDLGVKEKLIEKAGAWYSYKGEKIGQGKANATAWLKDNPETAKEIEKKVRELLL 1xmx-a2-m1-cA_1xmx-a2-m2-cA Crystal structure of protein VC1899 from Vibrio cholerae Q9KQU9 Q9KQU9 2.1 X-RAY DIFFRACTION 126 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 380 380 NAMAIHVGIIDQDPVRLVTPLLDHRTVSRHIIFIGDHTQTVIYQRLSDVLNKRNISTDFFEIPAGSNTSAIKSAIRELAETLKARGEEVKFNASCGLRHRLLSAYEVFRSYHWPIFVVEPNSDCLCWLYPEGNNDTQVQDRITIADYLTIFGARGEFNSPQLDQQLYQLGERWASNALELGPGLATLNYLATTCRKEQKLDVELSDKQQGYRELNLLLSDLVEAKIASYENGILTFINEEARRFANGEWLETLVHSTVKQIQDDMPTIQDRSLNVQVYRQLGEREVRNELDVATVVNNKLHIIECKTKGMRDGDDTLYKLESLRDLLGGLQARAMLVSFRPLRHNDITRAEDLGLALIGPDELKDLKTHLTQWFKAAGGN NAMAIHVGIIDQDPVRLVTPLLDHRTVSRHIIFIGDHTQTVIYQRLSDVLNKRNISTDFFEIPAGSNTSAIKSAIRELAETLKARGEEVKFNASCGLRHRLLSAYEVFRSYHWPIFVVEPNSDCLCWLYPEGNNDTQVQDRITIADYLTIFGARGEFNSPQLDQQLYQLGERWASNALELGPGLATLNYLATTCRKEQKLDVELSDKQQGYRELNLLLSDLVEAKIASYENGILTFINEEARRFANGEWLETLVHSTVKQIQDDMPTIQDRSLNVQVYRQLGEREVRNELDVATVVNNKLHIIECKTKGMRDGDDTLYKLESLRDLLGGLQARAMLVSFRPLRHNDITRAEDLGLALIGPDELKDLKTHLTQWFKAAGGN 1xn1-a1-m1-cA_1xn1-a1-m1-cF Crystal Structure Of Lumazine Synthase From Brucella Abortus (Orthorhombic Form At 3.05 Angstroms) P61711 P61711 3.05 X-RAY DIFFRACTION 16 1.0 235 (Brucella abortus) 235 (Brucella abortus) 148 148 1di0-a2-m1-cE_1di0-a2-m2-cD 1di0-a2-m2-cE_1di0-a2-m1-cD 1t13-a1-m1-cA_1t13-a1-m2-cA 1t13-a1-m1-cC_1t13-a1-m2-cD 1t13-a1-m2-cB_1t13-a1-m1-cE 1t13-a1-m2-cC_1t13-a1-m1-cD 1t13-a1-m2-cE_1t13-a1-m1-cB 1xn1-a1-m1-cC_1xn1-a1-m1-cI 1xn1-a1-m1-cE_1xn1-a1-m1-cG 1xn1-a1-m1-cH_1xn1-a1-m1-cD 1xn1-a1-m1-cJ_1xn1-a1-m1-cB TSFKIAFIQARWHADIVDEARKSFVAELAAKTGGSVEVEIFDVPGAYEIPLHAKTLARTGRYAAIVGAAFVIDGGIYRHDFVATAVINGMMQVQLETEVPVLSVVLTPHHFHESKEHHDFFHAHFKVKGVEAAHAALQIVSERSRIAA TSFKIAFIQARWHADIVDEARKSFVAELAAKTGGSVEVEIFDVPGAYEIPLHAKTLARTGRYAAIVGAAFVIDGGIYRHDFVATAVINGMMQVQLETEVPVLSVVLTPHHFHESKEHHDFFHAHFKVKGVEAAHAALQIVSERSRIAA 1xng-a1-m1-cA_1xng-a1-m1-cB Crystal Structure of NH3-dependent NAD+ synthetase from Helicobacter pylori O25096 O25096 1.7 X-RAY DIFFRACTION 126 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 255 262 1xnh-a1-m1-cA_1xnh-a1-m2-cA KDYQKLIVYLCDFLEKEVQKRGFKKVVYGLSGGLDSAVVGVLCQKVFKENAHALLMPSSVSMPENKTDALNLCEKFSIPYTEYSIAPYDAIFSSHFKDASLTRKGNFCARLRMAFLYDYSLKSDSLVIGTSNKSERMLGYGTLFGDLACAINPIGELFKTEVYELARRLNIPKKILNKPPSADLFVGQSDEKDLGYPYSVIDPLLKDIEALFQTKPIDTETLAQLGYDEILVKNITSRIQKNAFKLELPAIAKRF KDYQKLIVYLCDFLEKEVQKRGFKKVVYGLSGGLDSAVVGVLCQKVFKENAHALLMPSSVSMPENKTDALNLCEKFSIPYTEYSIAPYDAIFSSHFKDASLTRKGNFCARLRMAFLYDYSLKSDSLVIGTSNKSERMLGYGTLFGDLACAINPIGELFKTEVYELARRLNIPKKILNKPPSADLFVGQSDEKDLGYPYSVIDPLLKDIEALFQTKPIDTETLAQLGYDEILVKNITSRIQKNAFKLELPAIAKRFNPELEHH 1xnk-a3-m1-cA_1xnk-a3-m2-cB Beta-1,4-xylanase from Chaetomium thermophilum complexed with methyl thioxylopentoside Q8J1V6 Q8J1V6 1.55 X-RAY DIFFRACTION 40 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 190 190 1xnk-a3-m1-cB_1xnk-a3-m2-cA TLTSSATGTHNGYYYSFWTDGQGNIRFNLESGGQYSVTWSGNGNWVGGKGWNPGTDNRVINYTADYRPNGNSYLAVYGWTRNPLIEYYVVESFGTYDPSTGATRMGSVTTDGGTYNIYRTQRVNAPSIEGTKTFYQYWSVRTSKRTGGTVTMANHFNAWRQAGLQLGSHDYQIVATEGYYSSGSATVNVG TLTSSATGTHNGYYYSFWTDGQGNIRFNLESGGQYSVTWSGNGNWVGGKGWNPGTDNRVINYTADYRPNGNSYLAVYGWTRNPLIEYYVVESFGTYDPSTGATRMGSVTTDGGTYNIYRTQRVNAPSIEGTKTFYQYWSVRTSKRTGGTVTMANHFNAWRQAGLQLGSHDYQIVATEGYYSSGSATVNVG 1xnk-a3-m2-cA_1xnk-a3-m2-cB Beta-1,4-xylanase from Chaetomium thermophilum complexed with methyl thioxylopentoside Q8J1V6 Q8J1V6 1.55 X-RAY DIFFRACTION 19 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 190 190 1xnk-a3-m1-cA_1xnk-a3-m1-cB TLTSSATGTHNGYYYSFWTDGQGNIRFNLESGGQYSVTWSGNGNWVGGKGWNPGTDNRVINYTADYRPNGNSYLAVYGWTRNPLIEYYVVESFGTYDPSTGATRMGSVTTDGGTYNIYRTQRVNAPSIEGTKTFYQYWSVRTSKRTGGTVTMANHFNAWRQAGLQLGSHDYQIVATEGYYSSGSATVNVG TLTSSATGTHNGYYYSFWTDGQGNIRFNLESGGQYSVTWSGNGNWVGGKGWNPGTDNRVINYTADYRPNGNSYLAVYGWTRNPLIEYYVVESFGTYDPSTGATRMGSVTTDGGTYNIYRTQRVNAPSIEGTKTFYQYWSVRTSKRTGGTVTMANHFNAWRQAGLQLGSHDYQIVATEGYYSSGSATVNVG 1xoc-a3-m1-cA_1xoc-a3-m3-cA The structure of the oligopeptide-binding protein, AppA, from Bacillus subtilis in complex with a nonapeptide. P42061 P42061 1.55 X-RAY DIFFRACTION 20 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 504 504 KPQQGGDLVVGSIGEPTLFNSLYSTDDASTDIENMLYSFLTKTDEKLNVKLSLAESIKELDGGLAYDVKIKKGVKFHDGKELTADDVVFTYSVPLSKDYKGERGSTYEMLKSVEKKGDYEVLFKLKYKDGNFYNNALDSTAILPKHILGNVPIADLEENEFNRKKPIGSGPFKFKEWKQGQYIKLEANDDYFEGRPYLDTVTYKVIPDANAAEAQLQAGDINFFNVPATDYKTAEKFNNLKIVTDLALSYVYIGWNEKNELFKDKKVRQALTTALDRESIVSQVLDGDGEVAYIPESPLSWNYPKDIDVPKFEYNEKKAKQMLAEAGWKDTNGDGILDKDGKKFSFTLKTNQGNKVREDIAVVVQEQLKKIGIEVKTQIVEWSALVEQMNPPNWDFDAMVMGWSLSTFPDQYDIFHSSQIKKGLNYVWYKNAEADKLMKDAKSISDRKQYSKEYEQIYQKIAEDQPYTFLYYPNNHMAMPENLEGYKYHPKRDLYNIEKWWLAK KPQQGGDLVVGSIGEPTLFNSLYSTDDASTDIENMLYSFLTKTDEKLNVKLSLAESIKELDGGLAYDVKIKKGVKFHDGKELTADDVVFTYSVPLSKDYKGERGSTYEMLKSVEKKGDYEVLFKLKYKDGNFYNNALDSTAILPKHILGNVPIADLEENEFNRKKPIGSGPFKFKEWKQGQYIKLEANDDYFEGRPYLDTVTYKVIPDANAAEAQLQAGDINFFNVPATDYKTAEKFNNLKIVTDLALSYVYIGWNEKNELFKDKKVRQALTTALDRESIVSQVLDGDGEVAYIPESPLSWNYPKDIDVPKFEYNEKKAKQMLAEAGWKDTNGDGILDKDGKKFSFTLKTNQGNKVREDIAVVVQEQLKKIGIEVKTQIVEWSALVEQMNPPNWDFDAMVMGWSLSTFPDQYDIFHSSQIKKGLNYVWYKNAEADKLMKDAKSISDRKQYSKEYEQIYQKIAEDQPYTFLYYPNNHMAMPENLEGYKYHPKRDLYNIEKWWLAK 1xp8-a1-m2-cA_1xp8-a1-m6-cA Deinococcus radiodurans RecA in complex with ATP-gamma-S P42443 P42443 2.5 X-RAY DIFFRACTION 88 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 298 298 1xp8-a1-m1-cA_1xp8-a1-m6-cA 1xp8-a1-m2-cA_1xp8-a1-m4-cA 1xp8-a1-m3-cA_1xp8-a1-m4-cA 1xp8-a1-m3-cA_1xp8-a1-m5-cA AKERSKAIETAMSQIEKAFGKGSIMKLGAESKLDVQVVSTGSLSLDLALGVGGIPRGRITEIYGPESGGKTTLALAIVAQAQKAGGTCAFIDAEHALDPVYARALGVNTDELLVSQPDNGEQALEIMELLVRSGAIDVVVVDSVAALTPRAEIPGLQARLMSQALRKLTAILSKTGTAAIFINQVGGRALKFYASVRLDVRKIGQPTVANTVKIKTVKNKVAAPFKEVELALVYGKGFDQLSDLVGLAADMDIIKKAGSFYSYGDERIGQGKEKTIAYIAERPEMEQEIRDRVMAAIR AKERSKAIETAMSQIEKAFGKGSIMKLGAESKLDVQVVSTGSLSLDLALGVGGIPRGRITEIYGPESGGKTTLALAIVAQAQKAGGTCAFIDAEHALDPVYARALGVNTDELLVSQPDNGEQALEIMELLVRSGAIDVVVVDSVAALTPRAEIPGLQARLMSQALRKLTAILSKTGTAAIFINQVGGRALKFYASVRLDVRKIGQPTVANTVKIKTVKNKVAAPFKEVELALVYGKGFDQLSDLVGLAADMDIIKKAGSFYSYGDERIGQGKEKTIAYIAERPEMEQEIRDRVMAAIR 1xpi-a3-m1-cA_1xpi-a3-m2-cB Crystal structure of the catalytic domain of E. coli pseudouridine synthase RluC P0AA39 P0AA39 2.2 X-RAY DIFFRACTION 18 0.991 562 (Escherichia coli) 562 (Escherichia coli) 229 229 1xpi-a3-m1-cB_1xpi-a3-m2-cA AALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRNAR AALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRN 1xpi-a3-m1-cB_1xpi-a3-m2-cB Crystal structure of the catalytic domain of E. coli pseudouridine synthase RluC P0AA39 P0AA39 2.2 X-RAY DIFFRACTION 78 1.0 562 (Escherichia coli) 562 (Escherichia coli) 229 229 1xpi-a3-m1-cA_1xpi-a3-m2-cA AALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRN AALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRN 1xpi-a3-m2-cA_1xpi-a3-m2-cB Crystal structure of the catalytic domain of E. coli pseudouridine synthase RluC P0AA39 P0AA39 2.2 X-RAY DIFFRACTION 76 0.991 562 (Escherichia coli) 562 (Escherichia coli) 229 229 1xpi-a3-m1-cA_1xpi-a3-m1-cB AALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRNAR AALADVILYEDDHILVLNKPSGTAVHGGSGLSFGVIEGLRALRPEARFLELVHRLDRDTSGVLLVAKKRSALRSLHEQLREKGMQKDYLALVRGQWQSHVKSVQAPLLKNILQSGERIVRVSQEGKPSETRFKVEERYAFATLVRCSPVTGRTHQIRVHTQYAGHPIAFDDRYGDREFDRQLTEAGTGLNRLFLHAAALKFTHPGTGEVMRIEAPMDEGLKRCLQKLRN 1xpj-a1-m1-cC_1xpj-a1-m1-cD Crystal Structure of MCSG Target APC26283 from Vibrio cholerae Q9KVB4 Q9KVB4 2.3 X-RAY DIFFRACTION 39 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 123 123 1xpj-a1-m1-cB_1xpj-a1-m1-cA MKKLIVDLDGTLTQANTSDYRNVLPRLDVIEQLREYHQLGFEIVISTARNMRTYEGNVGKINIHTLPIITEWLDKHQVPYDEILVGKPWCGHDGFYIDDRAVRPSEFASMNLEEIHQLFEKEK MKKLIVDLDGTLTQANTSDYRNVLPRLDVIEQLREYHQLGFEIVISTARNMRTYEGNVGKINIHTLPIITEWLDKHQVPYDEILVGKPWCGHDGFYIDDRAVRPSEFASMNLEEIHQLFEKEK 1xpj-a1-m1-cD_1xpj-a1-m1-cA Crystal Structure of MCSG Target APC26283 from Vibrio cholerae Q9KVB4 Q9KVB4 2.3 X-RAY DIFFRACTION 143 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 123 124 1xpj-a1-m1-cB_1xpj-a1-m1-cC MKKLIVDLDGTLTQANTSDYRNVLPRLDVIEQLREYHQLGFEIVISTARNMRTYEGNVGKINIHTLPIITEWLDKHQVPYDEILVGKPWCGHDGFYIDDRAVRPSEFASMNLEEIHQLFEKEK MKKLIVDLDGTLTQANTSDYRNVLPRLDVIEQLREYHQLGFEIVISTARNMRTYEGNVGKINIHTLPIITEWLDKHQVPYDEILVGKPWCGHDGFYIDDRAVRPSEFASMNLEEIHQLFEKEKS 1xpm-a2-m1-cC_1xpm-a2-m1-cD Crystal Structure of Staphylococcus aureus HMG-COA Synthase with HMG-CoA and Acetoacetyl-COA and Acetylated Cysteine A0A0H3K1U2 A0A0H3K1U2 1.6 X-RAY DIFFRACTION 192 1.0 388 388 1tvz-a1-m1-cA_1tvz-a1-m2-cA 1txt-a1-m1-cA_1txt-a1-m1-cB 1txt-a2-m1-cC_1txt-a2-m1-cD 1xpk-a1-m1-cA_1xpk-a1-m1-cB 1xpk-a2-m1-cD_1xpk-a2-m1-cC 1xpl-a1-m1-cA_1xpl-a1-m1-cB 1xpl-a2-m1-cC_1xpl-a2-m1-cD 1xpm-a1-m1-cA_1xpm-a1-m1-cB AIGIDKINFYVPKYYVDMAKLAEARQVDPNKFLIGIGQTEMAVSPVNQDIVSMGANAAKDIITDEDKKKIGMVIVATESAVDAAKAAAVQIHNLLGIQPFARCFEMKEAYAATPAIQLAKDYLATRPNEKVLVIATDTARYGLNSGGEPTQGAGAVAMVIAHNPSILALNEDAVAYTEDVYDFWRPTGHKYPLVDGALSKDAYIRSFQQSWNEYAKRQGKSLADFASLCFHVPFTKMGKKALESIIDNADETTQERLRSGYEDAVDYNRYVGNIYTGSLYLSLISLLENRDLQAGETIGLFSYGSGSVGEFYSATLVEGYKDHLDQAAHKALLNNRTEVSVDAYETFFKRFDDVEFDEEQDAVHEDRHIFYLSNIENNVREYHRPELE AIGIDKINFYVPKYYVDMAKLAEARQVDPNKFLIGIGQTEMAVSPVNQDIVSMGANAAKDIITDEDKKKIGMVIVATESAVDAAKAAAVQIHNLLGIQPFARCFEMKEAYAATPAIQLAKDYLATRPNEKVLVIATDTARYGLNSGGEPTQGAGAVAMVIAHNPSILALNEDAVAYTEDVYDFWRPTGHKYPLVDGALSKDAYIRSFQQSWNEYAKRQGKSLADFASLCFHVPFTKMGKKALESIIDNADETTQERLRSGYEDAVDYNRYVGNIYTGSLYLSLISLLENRDLQAGETIGLFSYGSGSVGEFYSATLVEGYKDHLDQAAHKALLNNRTEVSVDAYETFFKRFDDVEFDEEQDAVHEDRHIFYLSNIENNVREYHRPELE 1xpp-a1-m1-cB_1xpp-a1-m1-cD Crystal Structure of TA1416,DNA-directed RNA polymerase subunit L, from Thermoplasma acidophilum Q9HIC5 Q9HIC5 1.6 X-RAY DIFFRACTION 16 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 98 99 ESSLRVISKEKNSITVEMINYDNTLLRTLVEEILKDDQVDEARYYIKHPVIDNPQIYVRVKSGKPQSAIKRAVRKLSKLYEDLGTQFQKEFQRYESDH AESSLRVISKEKNSITVEMINYDNTLLRTLVEEILKDDQVDEARYYIKHPVIDNPQIYVRVKSGKPQSAIKRAVRKLSKLYEDLGTQFQKEFQRYESDH 1xpp-a1-m1-cC_1xpp-a1-m1-cD Crystal Structure of TA1416,DNA-directed RNA polymerase subunit L, from Thermoplasma acidophilum Q9HIC5 Q9HIC5 1.6 X-RAY DIFFRACTION 87 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 99 99 1xpp-a1-m1-cB_1xpp-a1-m1-cA AESSLRVISKEKNSITVEMINYDNTLLRTLVEEILKDDQVDEARYYIKHPVIDNPQIYVRVKSGKPQSAIKRAVRKLSKLYEDLGTQFQKEFQRYESDH AESSLRVISKEKNSITVEMINYDNTLLRTLVEEILKDDQVDEARYYIKHPVIDNPQIYVRVKSGKPQSAIKRAVRKLSKLYEDLGTQFQKEFQRYESDH 1xq4-a1-m1-cB_1xq4-a1-m1-cD Crystal Structure of the Putative ApaA Protein from Bordetella pertussis, Northeast Structural Genomics Target BeR40 Q7VU61 Q7VU61 2.7 X-RAY DIFFRACTION 33 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 119 120 1xq4-a1-m1-cC_1xq4-a1-m1-cA PVKPYDLTVSVTPRYVPEQSDPSQQQYVFAYTVRITNTGSHPAQVISRHWIITDGEERVQEVRGLGVVGQQPLLAPGETFEYTSGCPLPTPIGTRGTYHCVGENGIPFEVPIAEFLLAP PVKPYDLTVSVTPRYVPEQSDPSQQQYVFAYTVRITNTGSHPAQVISRHWIITDGEERVQEVRGLGVVGQQPLLAPGETFEYTSGCPLPTPIGTRGTYHCVGENGIPFEVPIAEFLLAPR 1xq4-a1-m1-cD_1xq4-a1-m1-cA Crystal Structure of the Putative ApaA Protein from Bordetella pertussis, Northeast Structural Genomics Target BeR40 Q7VU61 Q7VU61 2.7 X-RAY DIFFRACTION 54 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 120 121 1xq4-a1-m1-cB_1xq4-a1-m1-cC PVKPYDLTVSVTPRYVPEQSDPSQQQYVFAYTVRITNTGSHPAQVISRHWIITDGEERVQEVRGLGVVGQQPLLAPGETFEYTSGCPLPTPIGTRGTYHCVGENGIPFEVPIAEFLLAPR PVKPYDLTVSVTPRYVPEQSDPSQQQYVFAYTVRITNTGSHPAQVISRHWIITDGEERVQEVRGLGVVGQQPLLAPGETFEYTSGCPLPTPIGTRGTYHCVGENGIPFEVPIAEFLLAPRT 1xqa-a1-m1-cB_1xqa-a1-m1-cA Structure of a possible Glyoxalase from Bacillus cereus Q81AI8 Q81AI8 1.8 X-RAY DIFFRACTION 17 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 107 108 GIKHLNLTVADVVAAREFLEKYFGLTCSGTRGNAFAVRDNDGFILTLKGKEVQYPKTFHVGFPQESEEQVDKINQRLKEDGFLVEPPKHAAYTFYVEAPGGFTIEVC AGIKHLNLTVADVVAAREFLEKYFGLTCSGTRGNAFAVRDNDGFILTLKGKEVQYPKTFHVGFPQESEEQVDKINQRLKEDGFLVEPPKHAAYTFYVEAPGGFTIEVC 1xqa-a2-m1-cB_1xqa-a2-m2-cA Structure of a possible Glyoxalase from Bacillus cereus Q81AI8 Q81AI8 1.8 X-RAY DIFFRACTION 99 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 107 108 GIKHLNLTVADVVAAREFLEKYFGLTCSGTRGNAFAVRDNDGFILTLKGKEVQYPKTFHVGFPQESEEQVDKINQRLKEDGFLVEPPKHAAYTFYVEAPGGFTIEVC AGIKHLNLTVADVVAAREFLEKYFGLTCSGTRGNAFAVRDNDGFILTLKGKEVQYPKTFHVGFPQESEEQVDKINQRLKEDGFLVEPPKHAAYTFYVEAPGGFTIEVC 1xqb-a1-m1-cA_1xqb-a1-m1-cB X-Ray Structure Of YaeB from Haemophilus influenzae. Northeast Structural Genomics Research Consortium (NESGC)target IR47. P44740 P44740 2.85 X-RAY DIFFRACTION 180 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 183 183 NDLTLSPIAIIHTPYKEKFSVPRQPNLVEDGVGIVELLPPYNSPEAVRGLEQFSHLWLIFQVGVFASRATHRPNPLGSKVELRQVECINGNIFLHLGAVDLVDGTPIFDIKPYIAYADSEPNAQSSVKMTVEFTEQAKSAVKKREEKRPHLSRFIRQVLEDRIYGMSLYEFNVKWAGTVNCVE NDLTLSPIAIIHTPYKEKFSVPRQPNLVEDGVGIVELLPPYNSPEAVRGLEQFSHLWLIFQVGVFASRATHRPNPLGSKVELRQVECINGNIFLHLGAVDLVDGTPIFDIKPYIAYADSEPNAQSSVKMTVEFTEQAKSAVKKREEKRPHLSRFIRQVLEDRIYGMSLYEFNVKWAGTVNCVE 1xqi-a3-m3-cC_1xqi-a3-m5-cB Crystal Structure Analysis of an NDP kinase from Pyrobaculum aerophilum Q8ZWY4 Q8ZWY4 2.5 X-RAY DIFFRACTION 40 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 179 179 1xqi-a3-m1-cA_1xqi-a3-m3-cC 1xqi-a3-m1-cA_1xqi-a3-m5-cB 1xqi-a3-m1-cC_1xqi-a3-m3-cA 1xqi-a3-m1-cC_1xqi-a3-m4-cB 1xqi-a3-m3-cA_1xqi-a3-m4-cB PVEKTLLILKPDAVARGLVDEIISRFKKAGLKIVALKVKASPEEIERFYPSSEEWLQSAGQKLLKAYQELGIDPRAKIGTDDPVEVGRIIKRNLVKYTSGPNVVVLKGNRAVEIVRKLVGPTSPHSAPPGTIRGDYSIDSPDLAAEEGRVVFNLVHASDSPSEAEREIRFWFREEEVLE PVEKTLLILKPDAVARGLVDEIISRFKKAGLKIVALKVKASPEEIERFYPSSEEWLQSAGQKLLKAYQELGIDPRAKIGTDDPVEVGRIIKRNLVKYTSGPNVVVLKGNRAVEIVRKLVGPTSPHSAPPGTIRGDYSIDSPDLAAEEGRVVFNLVHASDSPSEAEREIRFWFREEEVLE 1xqi-a3-m4-cB_1xqi-a3-m5-cB Crystal Structure Analysis of an NDP kinase from Pyrobaculum aerophilum Q8ZWY4 Q8ZWY4 2.5 X-RAY DIFFRACTION 41 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 179 179 1xqi-a1-m1-cA_1xqi-a1-m1-cC 1xqi-a2-m1-cB_1xqi-a2-m2-cB 1xqi-a3-m1-cA_1xqi-a3-m1-cC 1xqi-a3-m3-cA_1xqi-a3-m3-cC PVEKTLLILKPDAVARGLVDEIISRFKKAGLKIVALKVKASPEEIERFYPSSEEWLQSAGQKLLKAYQELGIDPRAKIGTDDPVEVGRIIKRNLVKYTSGPNVVVLKGNRAVEIVRKLVGPTSPHSAPPGTIRGDYSIDSPDLAAEEGRVVFNLVHASDSPSEAEREIRFWFREEEVLE PVEKTLLILKPDAVARGLVDEIISRFKKAGLKIVALKVKASPEEIERFYPSSEEWLQSAGQKLLKAYQELGIDPRAKIGTDDPVEVGRIIKRNLVKYTSGPNVVVLKGNRAVEIVRKLVGPTSPHSAPPGTIRGDYSIDSPDLAAEEGRVVFNLVHASDSPSEAEREIRFWFREEEVLE 1xr4-a1-m1-cA_1xr4-a1-m1-cB X-ray crystal structure of putative citrate lyase alpha chain/citrate-ACP transferase [Salmonella typhimurium] Q8ZRY1 Q8ZRY1 2.37 X-RAY DIFFRACTION 186 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 494 494 AKETVTLNQQYVVPEGLQPYQGVTANSPWLASETEKRRRKICDSLEEAIRRSGLKNGTISFHHAFRGGDKVVNVAKLAEGFRDLTLASSSLIDAHWPLIEHIKNGVVRQIYTSGLRGKLGEEISAGLENPVQIHSHGGRVKLIQSGELNIDVAFLGVPCCDEFGNANGFSGKSRCGSLGYAQVDAQYAKCVVLLTEEWVEFPNYPASIAQDQVDLIVQVDEVGDPEKITAGAIRLSSNPRELLIARQAANVIEHSGYFCDGFSLQTGTGGASLAVTRFLEDKRRHNITASFGLGGITGTVDLHEKGLIKALLDTQSFDGDAARSLAQNPHHIEISTNQYANPASKGAACERLNVVLSALEIDVNFNVNVTGSNGVLRGASGGHSDTAAGADLTIITAPLVRGRIPCVVEKVLTTVTPGASVDVLVTDHGIAVNPARQDLLDNLRAAGVALTIEQLQQRAEQLTGKPQPIEFTDRVVAVVRYRDGSVIDVIRQVK AKETVTLNQQYVVPEGLQPYQGVTANSPWLASETEKRRRKICDSLEEAIRRSGLKNGTISFHHAFRGGDKVVNVAKLAEGFRDLTLASSSLIDAHWPLIEHIKNGVVRQIYTSGLRGKLGEEISAGLENPVQIHSHGGRVKLIQSGELNIDVAFLGVPCCDEFGNANGFSGKSRCGSLGYAQVDAQYAKCVVLLTEEWVEFPNYPASIAQDQVDLIVQVDEVGDPEKITAGAIRLSSNPRELLIARQAANVIEHSGYFCDGFSLQTGTGGASLAVTRFLEDKRRHNITASFGLGGITGTVDLHEKGLIKALLDTQSFDGDAARSLAQNPHHIEISTNQYANPASKGAACERLNVVLSALEIDVNFNVNVTGSNGVLRGASGGHSDTAAGADLTIITAPLVRGRIPCVVEKVLTTVTPGASVDVLVTDHGIAVNPARQDLLDNLRAAGVALTIEQLQQRAEQLTGKPQPIEFTDRVVAVVRYRDGSVIDVIRQVK 1xre-a1-m1-cA_1xre-a1-m1-cB Crystal Structure of SodA-2 (BA5696) from Bacillus anthracis at 1.8A Resolution. Q81JK8 Q81JK8 1.8 X-RAY DIFFRACTION 47 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 201 201 SFQLPKLSYDYDELEPYIDSNTLSIHHGKHHATYVNNLNAALENYSELHNKSLEELLCNLETLPKEIVTAVRNNGGGHYCHSLFWEVMSPRGGGEPNGDVAKVIDYYFNTFDNLKDQLSKAAISRFGSGYGWLVLDGEELSVMSTPNQDTPLQEGKIPLLVIDVWEHAYYLKYQNRRPEFVTNWWHTVNWDRVNEKYLQAI SFQLPKLSYDYDELEPYIDSNTLSIHHGKHHATYVNNLNAALENYSELHNKSLEELLCNLETLPKEIVTAVRNNGGGHYCHSLFWEVMSPRGGGEPNGDVAKVIDYYFNTFDNLKDQLSKAAISRFGSGYGWLVLDGEELSVMSTPNQDTPLQEGKIPLLVIDVWEHAYYLKYQNRRPEFVTNWWHTVNWDRVNEKYLQAI 1xrg-a1-m1-cC_1xrg-a1-m1-cB Conserved hypothetical protein from Clostridium thermocellum Cth-2968 A3DJ68 A3DJ68 2.2 X-RAY DIFFRACTION 84 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 135 136 1xrg-a1-m1-cA_1xrg-a1-m1-cB 1xrg-a1-m1-cA_1xrg-a1-m1-cC QSTSLYKKAGLYIEVVKTNKAPEAIGPYSQAIVTGSFVYTSGQIPINPQTGEVVDGGIEEQAKQVLENLKNVLEAAGSSLNKVVKTTVFIKDDSFAKVNEVYAKYFSEPYPARSCVEVSKLPKGVLIEIEAVAIK SQSTSLYKKAGLYIEVVKTNKAPEAIGPYSQAIVTGSFVYTSGQIPINPQTGEVVDGGIEEQAKQVLENLKNVLEAAGSSLNKVVKTTVFIKDDSFAKVNEVYAKYFSEPYPARSCVEVSKLPKGVLIEIEAVAIK 1xri-a2-m2-cB_1xri-a2-m3-cB X-ray structure of a putative phosphoprotein phosphatase from Arabidopsis thaliana gene AT1G05000 Q9ZVN4 Q9ZVN4 3.3 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 148 148 1xri-a2-m1-cA_1xri-a2-m2-cA 1xri-a2-m1-cA_1xri-a2-m3-cA 1xri-a2-m1-cB_1xri-a2-m2-cB 1xri-a2-m1-cB_1xri-a2-m3-cB 1xri-a2-m2-cA_1xri-a2-m3-cA 2q47-a2-m1-cA_2q47-a2-m2-cA 2q47-a2-m1-cA_2q47-a2-m3-cA 2q47-a2-m1-cB_2q47-a2-m2-cB 2q47-a2-m1-cB_2q47-a2-m3-cB 2q47-a2-m2-cA_2q47-a2-m3-cA 2q47-a2-m2-cB_2q47-a2-m3-cB HLIPPLNFSVDNGIFRSGFPDSANFSFLQTLGLRSIIYLCPEPYPESNLQFLKSNGIRLFQFGIEGNKEPFVNIPDHKIRALKVLLDEKNHPVLIHCKRGKHRTGCLVGCLRKLQKWCLTSIFDEYQRFAAAKARVSDQRFEIFDVSS HLIPPLNFSVDNGIFRSGFPDSANFSFLQTLGLRSIIYLCPEPYPESNLQFLKSNGIRLFQFGIEGNKEPFVNIPDHKIRALKVLLDEKNHPVLIHCKRGKHRTGCLVGCLRKLQKWCLTSIFDEYQRFAAAKARVSDQRFEIFDVSS 1xrs-a1-m1-cA_1xrs-a1-m2-cA Crystal structure of Lysine 5,6-Aminomutase in complex with PLP, cobalamin, and 5'-deoxyadenosine E3PRJ5 E3PRJ5 2.8 X-RAY DIFFRACTION 110 1.0 1511 (Acetoanaerobium sticklandii) 1511 (Acetoanaerobium sticklandii) 516 516 MESKLNLDFNLVEKARAKAKAIAIDTQEFIEKHTTVTVERAVCRLLGIDGVDTDEVPLPNIVVDHIKENNGLNLGAAMYIANAVLNTGKTPQEIAQAISAGELDLTKLPMKDLFEVKTKALSMAKETVEKIKNNRSIRESRFEEYGDKSGPLLYVIVATGNIYEDITQAVAAAKQGADVIAVIRTTGQSLLDYVPYGATTEGFGGTYATQENFRLMREALDKVGAEVGKYIRLCNYCSGLCMPEIAAMGAIERLDVMLNDALYGILFRDINMQRTMIDQNFSRIINGFAGVIINTGEDNYLTTADAFEEAHTVLASQFINEQFALLAGLPEEQMGLGHAFEMDPELKNGFLYELSQAQMAREIFPKAPLKYMPPTKFMTGNIFKGHIQDALFNMVTIMTNQRIHLLGMLTEALHTPFMSDRALSIENAQYIFNNMESISEEIQFKEDGLIQKRAGFVLEKANELLEEIEQLGLFDTLEKGIFGGVKRPKDGGKGLNGVVSKDENYYNPFVELMLNK MESKLNLDFNLVEKARAKAKAIAIDTQEFIEKHTTVTVERAVCRLLGIDGVDTDEVPLPNIVVDHIKENNGLNLGAAMYIANAVLNTGKTPQEIAQAISAGELDLTKLPMKDLFEVKTKALSMAKETVEKIKNNRSIRESRFEEYGDKSGPLLYVIVATGNIYEDITQAVAAAKQGADVIAVIRTTGQSLLDYVPYGATTEGFGGTYATQENFRLMREALDKVGAEVGKYIRLCNYCSGLCMPEIAAMGAIERLDVMLNDALYGILFRDINMQRTMIDQNFSRIINGFAGVIINTGEDNYLTTADAFEEAHTVLASQFINEQFALLAGLPEEQMGLGHAFEMDPELKNGFLYELSQAQMAREIFPKAPLKYMPPTKFMTGNIFKGHIQDALFNMVTIMTNQRIHLLGMLTEALHTPFMSDRALSIENAQYIFNNMESISEEIQFKEDGLIQKRAGFVLEKANELLEEIEQLGLFDTLEKGIFGGVKRPKDGGKGLNGVVSKDENYYNPFVELMLNK 1xrs-a1-m1-cB_1xrs-a1-m2-cB Crystal structure of Lysine 5,6-Aminomutase in complex with PLP, cobalamin, and 5'-deoxyadenosine E3PRJ4 E3PRJ4 2.8 X-RAY DIFFRACTION 25 1.0 1511 (Acetoanaerobium sticklandii) 1511 (Acetoanaerobium sticklandii) 212 212 KVQLSFTLPLKNNERSAEAAKQIALKMGLEEPSVVMQQSLDEEFTFFVVYGNEILSMEETDEYIKENIGRKIVVVGASTGTDAHTVGIDAIMNMKGYAGHYGLERYEMIDAYNLGSQVANEDFIKKAVELEADVLLVSQTVTQKNVHIQNMTHLIELLEAEGLRDRFVLLCGGPRINNEIAKELGYDAGFGPGRFADDVATFAVKTLNDRMN KVQLSFTLPLKNNERSAEAAKQIALKMGLEEPSVVMQQSLDEEFTFFVVYGNEILSMEETDEYIKENIGRKIVVVGASTGTDAHTVGIDAIMNMKGYAGHYGLERYEMIDAYNLGSQVANEDFIKKAVELEADVLLVSQTVTQKNVHIQNMTHLIELLEAEGLRDRFVLLCGGPRINNEIAKELGYDAGFGPGRFADDVATFAVKTLNDRMN 1xru-a1-m3-cA_1xru-a1-m3-cB Crystal Structure of 5-keto-4-deoxyuronate Isomerase from Eschericia coli Q46938 Q46938 1.94 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 270 270 1xru-a1-m1-cA_1xru-a1-m1-cB 1xru-a1-m2-cA_1xru-a1-m2-cB GSAMDVRQSIHSAHAKTLDTQGLRNEFLVEKVFVADEYTVYSHIDRIIVGGIPITKTVSVGGEVGKQLGVSYFLERRELGVINIGGAGTITVDGQCYEIGHRDALYVGKGAKEVVFASIDTGTPAKFYYNCAPAHTTYPTKKVTPDEVSPVTLGDNLTSNRRTINKYFVPDVLETCQLSGLTELAPGNLWNTPCHTHERREVYFYFNDDDACVFHGQPQETRHIVHNEQAVISPSWSIHSGVGTKAYTFIWGVGENQVFDDDHVAVKEIC GSAMDVRQSIHSAHAKTLDTQGLRNEFLVEKVFVADEYTVYSHIDRIIVGGIPITKTVSVGGEVGKQLGVSYFLERRELGVINIGGAGTITVDGQCYEIGHRDALYVGKGAKEVVFASIDTGTPAKFYYNCAPAHTTYPTKKVTPDEVSPVTLGDNLTSNRRTINKYFVPDVLETCQLSGLTELAPGNLWNTPCHTHERREVYFYFNDDDACVFHGQPQETRHIVHNEQAVISPSWSIHSGVGTKAYTFIWGVGENQVFDDDHVAVKEIC 1xru-a2-m1-cA_1xru-a2-m2-cB Crystal Structure of 5-keto-4-deoxyuronate Isomerase from Eschericia coli Q46938 Q46938 1.94 X-RAY DIFFRACTION 91 1.0 562 (Escherichia coli) 562 (Escherichia coli) 270 270 1xru-a1-m1-cA_1xru-a1-m2-cB 1xru-a1-m1-cB_1xru-a1-m3-cA 1xru-a1-m2-cA_1xru-a1-m3-cB GSAMDVRQSIHSAHAKTLDTQGLRNEFLVEKVFVADEYTVYSHIDRIIVGGIPITKTVSVGGEVGKQLGVSYFLERRELGVINIGGAGTITVDGQCYEIGHRDALYVGKGAKEVVFASIDTGTPAKFYYNCAPAHTTYPTKKVTPDEVSPVTLGDNLTSNRRTINKYFVPDVLETCQLSGLTELAPGNLWNTPCHTHERREVYFYFNDDDACVFHGQPQETRHIVHNEQAVISPSWSIHSGVGTKAYTFIWGVGENQVFDDDHVAVKEIC GSAMDVRQSIHSAHAKTLDTQGLRNEFLVEKVFVADEYTVYSHIDRIIVGGIPITKTVSVGGEVGKQLGVSYFLERRELGVINIGGAGTITVDGQCYEIGHRDALYVGKGAKEVVFASIDTGTPAKFYYNCAPAHTTYPTKKVTPDEVSPVTLGDNLTSNRRTINKYFVPDVLETCQLSGLTELAPGNLWNTPCHTHERREVYFYFNDDDACVFHGQPQETRHIVHNEQAVISPSWSIHSGVGTKAYTFIWGVGENQVFDDDHVAVKEIC 1xrx-a1-m2-cB_1xrx-a1-m2-cC Crystal structure of a DNA-binding protein P0AFY8 P0AFY8 2.15 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 33 33 1xrx-a1-m1-cA_1xrx-a1-m2-cD 1xrx-a1-m1-cB_1xrx-a1-m1-cC KTIEVDDELYSYIASHTKHIGESASDILRRLKF KTIEVDDELYSYIASHTKHIGESASDILRRLKF 1xs0-a2-m1-cB_1xs0-a2-m1-cC Structure of the E. coli Ivy protein P0AD59 P0AD59 1.58 X-RAY DIFFRACTION 61 0.984 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 127 129 1gpq-a1-m1-cA_1gpq-a1-m1-cB 1xs0-a1-m1-cA_1xs0-a1-m2-cA QDDLTISSLAKGETTKAAFNQMVQGHKLPAWVMKGGTYTPAQTVTLGDETYQVMSACKPHDCGSQRIAVMWSEKSNQMTGLFSTIDEKQEKLTWLNVNDALSIDGKTVLFAALTGSLENHPDGFNFR DLTISSLAKGETTKAAFNQMVQGHKLPAWVMKGGTYTPAQTVTLGDETYQVMSACKPHDCGSQRIAVMWSEKSNQMTGLFSTIDEKTSQEKLTWLNVNDALSIDGKTVLFAALTGSLENHPDGFNFRSH 1xs1-a3-m1-cB_1xs1-a3-m1-cF dCTP deaminase from Escherichia coli in complex with dUTP P28248 P28248 1.8 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 1xs1-a3-m1-cA_1xs1-a3-m1-cD 1xs1-a3-m1-cC_1xs1-a3-m1-cE 1xs4-a3-m1-cA_1xs4-a3-m1-cD 1xs4-a3-m1-cB_1xs4-a3-m1-cF 1xs4-a3-m1-cC_1xs4-a3-m1-cE 1xs6-a3-m1-cA_1xs6-a3-m2-cA MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD 1xs1-a3-m1-cC_1xs1-a3-m1-cF dCTP deaminase from Escherichia coli in complex with dUTP P28248 P28248 1.8 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 1xs1-a3-m1-cA_1xs1-a3-m1-cE 1xs1-a3-m1-cB_1xs1-a3-m1-cD 1xs4-a3-m1-cA_1xs4-a3-m1-cE 1xs4-a3-m1-cB_1xs4-a3-m1-cD 1xs4-a3-m1-cC_1xs4-a3-m1-cF 1xs6-a3-m1-cA_1xs6-a3-m2-cB 1xs6-a3-m1-cB_1xs6-a3-m2-cA 1xs6-a3-m1-cC_1xs6-a3-m2-cC 1xs6-a4-m1-cD_1xs6-a4-m3-cF 1xs6-a4-m1-cE_1xs6-a4-m3-cE 1xs6-a4-m1-cF_1xs6-a4-m3-cD 2v9x-a1-m1-cA_2v9x-a1-m1-cK 2v9x-a1-m1-cJ_2v9x-a1-m1-cB 2v9x-a1-m1-cL_2v9x-a1-m1-cC 2v9x-a2-m1-cD_2v9x-a2-m1-cG 2v9x-a2-m1-cE_2v9x-a2-m1-cI 2v9x-a2-m1-cF_2v9x-a2-m1-cH MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD 1xs1-a3-m1-cE_1xs1-a3-m1-cF dCTP deaminase from Escherichia coli in complex with dUTP P28248 P28248 1.8 X-RAY DIFFRACTION 157 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 1xs1-a1-m1-cA_1xs1-a1-m1-cB 1xs1-a1-m1-cA_1xs1-a1-m1-cC 1xs1-a1-m1-cB_1xs1-a1-m1-cC 1xs1-a2-m1-cD_1xs1-a2-m1-cE 1xs1-a2-m1-cD_1xs1-a2-m1-cF 1xs1-a2-m1-cE_1xs1-a2-m1-cF 1xs1-a3-m1-cA_1xs1-a3-m1-cB 1xs1-a3-m1-cA_1xs1-a3-m1-cC 1xs1-a3-m1-cB_1xs1-a3-m1-cC 1xs1-a3-m1-cD_1xs1-a3-m1-cE 1xs1-a3-m1-cD_1xs1-a3-m1-cF 1xs4-a1-m1-cA_1xs4-a1-m1-cB 1xs4-a1-m1-cA_1xs4-a1-m1-cC 1xs4-a1-m1-cB_1xs4-a1-m1-cC 1xs4-a2-m1-cD_1xs4-a2-m1-cE 1xs4-a2-m1-cD_1xs4-a2-m1-cF 1xs4-a2-m1-cE_1xs4-a2-m1-cF 1xs4-a3-m1-cA_1xs4-a3-m1-cB 1xs4-a3-m1-cA_1xs4-a3-m1-cC 1xs4-a3-m1-cB_1xs4-a3-m1-cC 1xs4-a3-m1-cD_1xs4-a3-m1-cE 1xs4-a3-m1-cD_1xs4-a3-m1-cF 1xs4-a3-m1-cE_1xs4-a3-m1-cF 1xs6-a1-m1-cA_1xs6-a1-m1-cB 1xs6-a1-m1-cA_1xs6-a1-m1-cC 1xs6-a1-m1-cB_1xs6-a1-m1-cC 1xs6-a2-m1-cD_1xs6-a2-m1-cE 1xs6-a2-m1-cD_1xs6-a2-m1-cF 1xs6-a2-m1-cE_1xs6-a2-m1-cF 1xs6-a3-m1-cA_1xs6-a3-m1-cB 1xs6-a3-m1-cA_1xs6-a3-m1-cC 1xs6-a3-m1-cB_1xs6-a3-m1-cC 1xs6-a3-m2-cA_1xs6-a3-m2-cB 1xs6-a3-m2-cA_1xs6-a3-m2-cC 1xs6-a3-m2-cB_1xs6-a3-m2-cC 1xs6-a4-m1-cD_1xs6-a4-m1-cE 1xs6-a4-m1-cD_1xs6-a4-m1-cF 1xs6-a4-m1-cE_1xs6-a4-m1-cF 1xs6-a4-m3-cD_1xs6-a4-m3-cE 1xs6-a4-m3-cD_1xs6-a4-m3-cF 1xs6-a4-m3-cE_1xs6-a4-m3-cF 2j4h-a1-m1-cA_2j4h-a1-m2-cA 2j4h-a1-m1-cA_2j4h-a1-m3-cA 2j4h-a1-m2-cA_2j4h-a1-m3-cA 2j4h-a2-m1-cB_2j4h-a2-m4-cB 2j4h-a2-m1-cB_2j4h-a2-m5-cB 2j4h-a2-m4-cB_2j4h-a2-m5-cB 2j4q-a1-m1-cA_2j4q-a1-m2-cA 2j4q-a1-m1-cA_2j4q-a1-m3-cA 2j4q-a1-m2-cA_2j4q-a1-m3-cA 2j4q-a2-m1-cB_2j4q-a2-m4-cB 2j4q-a2-m1-cB_2j4q-a2-m5-cB 2j4q-a2-m4-cB_2j4q-a2-m5-cB 2v9x-a1-m1-cA_2v9x-a1-m1-cB 2v9x-a1-m1-cA_2v9x-a1-m1-cC 2v9x-a1-m1-cB_2v9x-a1-m1-cC 2v9x-a1-m1-cJ_2v9x-a1-m1-cK 2v9x-a1-m1-cJ_2v9x-a1-m1-cL 2v9x-a1-m1-cL_2v9x-a1-m1-cK 2v9x-a2-m1-cD_2v9x-a2-m1-cE 2v9x-a2-m1-cD_2v9x-a2-m1-cF 2v9x-a2-m1-cE_2v9x-a2-m1-cF 2v9x-a2-m1-cG_2v9x-a2-m1-cH 2v9x-a2-m1-cG_2v9x-a2-m1-cI 2v9x-a2-m1-cH_2v9x-a2-m1-cI MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD MRLCDRDIEAWLDEGRLSINPRPPVERINGATVDVRLGNKFRTFRGHTAAFIDLSGPKDEVSAALDRVMSDEIVLDEGEAFYLHPGELALAVTLESVTLPADLVGWLDGRSSLARLGLMVHVTAHRIDPGWSGCIVLEFYNSGKLPLALRPGMLIGALSFEPLSGPAVRPYNRREDAKYRNQQGAVASRIDKD 1xsd-a1-m1-cA_1xsd-a1-m2-cA Crystal structure of the BlaI repressor in complex with DNA P0A042 P0A042 2.7 X-RAY DIFFRACTION 105 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 125 125 TNKQVEISMAEWDVMNIIWDKKSVSANEIVVEIQKYKEVSDKTIRTLITRLYKKEIIKRYKSENIYFYSSNIKEDDIKMKTAKTFLNKLYGGDMKSLVLNFAKNEELNNKEIEELRDILNDISKK TNKQVEISMAEWDVMNIIWDKKSVSANEIVVEIQKYKEVSDKTIRTLITRLYKKEIIKRYKSENIYFYSSNIKEDDIKMKTAKTFLNKLYGGDMKSLVLNFAKNEELNNKEIEELRDILNDISKK 1xso-a1-m1-cB_1xso-a1-m1-cA THREE-DIMENSIONAL STRUCTURE OF XENOPUS LAEVIS CU,ZN SUPEROXIDE DISMUTASE B DETERMINED BY X-RAY CRYSTALLOGRAPHY AT 1.5 ANGSTROMS RESOLUTION P15107 P15107 1.49 X-RAY DIFFRACTION 66 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 150 150 VKAVCVLAGSGDVKGVVHFEQQDEGAVSVEGKIEGLTDGLHGFHIHVFGDNTNGCMSAGSHFNPENKNHGAPGDTDRHVGDLGNVTAEGGVAQFKITDSLISLKGPNSIIGRTAVVHEKADDLGKGGNDESLKTGNAGGRLACGVIGYSP VKAVCVLAGSGDVKGVVHFEQQDEGAVSVEGKIEGLTDGLHGFHIHVFGDNTNGCMSAGSHFNPENKNHGAPGDTDRHVGDLGNVTAEGGVAQFKITDSLISLKGPNSIIGRTAVVHEKADDLGKGGNDESLKTGNAGGRLACGVIGYSP 1xsv-a1-m1-cA_1xsv-a1-m1-cB X-ray crystal structure of conserved hypothetical UPF0122 protein SAV1236 from Staphylococcus aureus subsp. aureus Mu50 P67248 P67248 1.7 X-RAY DIFFRACTION 43 1.0 104 104 DLVKTLRNYLFDFYQSLLTNKQRNYLELFYLEDYSLSEIADTFNVSRQAVYDNIRRTGDLVEDYEKKLELYQKFEQRREIYDEKQHLSNPEQIQRYIQQLEDLE DLVKTLRNYLFDFYQSLLTNKQRNYLELFYLEDYSLSEIADTFNVSRQAVYDNIRRTGDLVEDYEKKLELYQKFEQRREIYDEKQHLSNPEQIQRYIQQLEDLE 1xt3-a1-m1-cA_1xt3-a1-m2-cB Structure Basis of Venom Citrate-Dependent Heparin Sulfate-Mediated Cell Surface Retention of Cobra Cardiotoxin A3 P60301 P60301 2.4 X-RAY DIFFRACTION 25 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 LKCNKLVPLFYKTCPAGKNLCYKMFMVATPKVPVKRGCIDVCPKSSLLVKYVCCNTDRCN LKCNKLVPLFYKTCPAGKNLCYKMFMVATPKVPVKRGCIDVCPKSSLLVKYVCCNTDRCN 1xta-a1-m1-cB_1xta-a1-m1-cA Crystal Structure of Natrin, a snake venom CRISP from Taiwan cobra (Naja atra) Q7T1K6 Q7T1K6 1.58 X-RAY DIFFRACTION 21 1.0 8656 (Naja atra) 8656 (Naja atra) 219 220 DFNSESTRRKKKQKEIVDLHNSLRRRVSPTASNMLKMEWYPEAASNAERWANTCSLNHSPDNLRVLEGIQCGESIYMSSNARTWTEIIHLWHDEYKNFVYGVGASPPGSVTGHYTQIVWYQTYRAGCAVSYCPSSAWSYFYVCQYCPSGNFQGKTATPYKLGPPCGDCPSACDNGLCTNPCTIYNKLTNCDSLLKQSSCQDDWIKSNCPASCFCRNKII VDFNSESTRRKKKQKEIVDLHNSLRRRVSPTASNMLKMEWYPEAASNAERWANTCSLNHSPDNLRVLEGIQCGESIYMSSNARTWTEIIHLWHDEYKNFVYGVGASPPGSVTGHYTQIVWYQTYRAGCAVSYCPSSAWSYFYVCQYCPSGNFQGKTATPYKLGPPCGDCPSACDNGLCTNPCTIYNKLTNCDSLLKQSSCQDDWIKSNCPASCFCRNKII 1xtl-a1-m1-cA_1xtl-a1-m1-cB Crystal structure of P104H mutant of SOD-like protein from Bacillus subtilis. O31851 O31851 2 X-RAY DIFFRACTION 38 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 152 AFGHHVQLVNREGKAVGFIEIKESDDEGLDIHISANSLRPGASLGFHIYEKGSCVRPDFESAGGHFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPDTSLKKGSKLNILDEDGSAFIIHEQADDYLTNPSGNSGARIVCGALLG AFGHHVQLVNREGKAVGFIEIKESDDEGLDIHISANSLRPGASLGFHIYEKGSCVRPDFESAGGHFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPDTSLKKGSKLNILDEDGSAFIIHEQADDYLTNPSGNSGARIVCGALLG 1xtl-a1-m1-cA_1xtl-a1-m1-cD Crystal structure of P104H mutant of SOD-like protein from Bacillus subtilis. O31851 O31851 2 X-RAY DIFFRACTION 32 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 152 1xtl-a1-m1-cB_1xtl-a1-m1-cC AFGHHVQLVNREGKAVGFIEIKESDDEGLDIHISANSLRPGASLGFHIYEKGSCVRPDFESAGGHFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPDTSLKKGSKLNILDEDGSAFIIHEQADDYLTNPSGNSGARIVCGALLG AFGHHVQLVNREGKAVGFIEIKESDDEGLDIHISANSLRPGASLGFHIYEKGSCVRPDFESAGGHFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPDTSLKKGSKLNILDEDGSAFIIHEQADDYLTNPSGNSGARIVCGALLG 1xtm-a1-m2-cA_1xtm-a1-m1-cB Crystal structure of the double mutant Y88H-P104H of a SOD-like protein from Bacillus subtilis. O31851 O31851 1.6 X-RAY DIFFRACTION 23 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 152 153 1s4i-a5-m1-cD_1s4i-a5-m1-cB 1s4i-a6-m1-cA_1s4i-a6-m1-cC 1xtl-a2-m1-cB_1xtl-a2-m2-cC AFGHHVQLVNREGKAVGFIEIKESDDEGLDIHISANSLRPGASLGFHIHEKGSCVRPDFESAGGHFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPDTSLKKGSKLNILDEDGSAFIIHEQADDYLTNPSGNSGARIVCGALLG SAFGHHVQLVNREGKAVGFIEIKESDDEGLDIHISANSLRPGASLGFHIHEKGSCVRPDFESAGGHFNPLNKEHGFNNPMGHHAGDLPNLEVGADGKVDVIMNAPDTSLKKGSKLNILDEDGSAFIIHEQADDYLTNPSGNSGARIVCGALLG 1xtu-a2-m1-cB_1xtu-a2-m1-cF Sulfolobus solfataricus uracil phosphoribosyltransferase in complex with uridine 5'-monophosphate (UMP) and cytidine 5'-triphosphate (CTP) Q980Q4 Q980Q4 2.8 X-RAY DIFFRACTION 125 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 215 215 1vst-a1-m1-cA_1vst-a1-m2-cA 1vst-a1-m3-cA_1vst-a1-m4-cA 1xtt-a1-m1-cB_1xtt-a1-m1-cA 1xtt-a1-m1-cD_1xtt-a1-m1-cC 1xtu-a1-m1-cA_1xtu-a1-m1-cE 1xtu-a1-m1-cD_1xtu-a1-m1-cH 1xtu-a2-m1-cC_1xtu-a2-m1-cG 1xtv-a1-m1-cA_1xtv-a1-m1-cB 1xtv-a1-m1-cC_1xtv-a1-m1-cD 1xtv-a2-m1-cE_1xtv-a2-m1-cF 1xtv-a2-m1-cG_1xtv-a2-m1-cH 3g6w-a1-m1-cB_3g6w-a1-m1-cA 3g6w-a1-m1-cC_3g6w-a1-m1-cD PLYVIDKPITLHILTQLRDKYTDQINFRKNLVRLGRILGYEISNTLDYEIVEVETPLGVKTKGVDITDLNNIVIINILRAAVPLVEGLLKAFPKARQGVIGASRVEVDGKEVPKDMDVYIYYKKIPDIRAKVDNVIIADPMIATASTMLKVLEEVVKANPKRIYIVSIISSEYGVNKILSKYPFIYLFTVAIDPELNNKGYILPGLGDAGDRAFG PLYVIDKPITLHILTQLRDKYTDQINFRKNLVRLGRILGYEISNTLDYEIVEVETPLGVKTKGVDITDLNNIVIINILRAAVPLVEGLLKAFPKARQGVIGASRVEVDGKEVPKDMDVYIYYKKIPDIRAKVDNVIIADPMIATASTMLKVLEEVVKANPKRIYIVSIISSEYGVNKILSKYPFIYLFTVAIDPELNNKGYILPGLGDAGDRAFG 1xtu-a2-m1-cC_1xtu-a2-m1-cF Sulfolobus solfataricus uracil phosphoribosyltransferase in complex with uridine 5'-monophosphate (UMP) and cytidine 5'-triphosphate (CTP) Q980Q4 Q980Q4 2.8 X-RAY DIFFRACTION 68 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 215 215 1vst-a1-m1-cA_1vst-a1-m3-cA 1vst-a1-m2-cA_1vst-a1-m4-cA 1xtt-a1-m1-cB_1xtt-a1-m1-cC 1xtt-a1-m1-cD_1xtt-a1-m1-cA 1xtu-a1-m1-cA_1xtu-a1-m1-cH 1xtu-a1-m1-cD_1xtu-a1-m1-cE 1xtu-a2-m1-cB_1xtu-a2-m1-cG 1xtv-a1-m1-cA_1xtv-a1-m1-cD 1xtv-a1-m1-cB_1xtv-a1-m1-cC 1xtv-a2-m1-cE_1xtv-a2-m1-cH 1xtv-a2-m1-cF_1xtv-a2-m1-cG 3g6w-a1-m1-cB_3g6w-a1-m1-cD 3g6w-a1-m1-cC_3g6w-a1-m1-cA PLYVIDKPITLHILTQLRDKYTDQINFRKNLVRLGRILGYEISNTLDYEIVEVETPLGVKTKGVDITDLNNIVIINILRAAVPLVEGLLKAFPKARQGVIGASRVEVDGKEVPKDMDVYIYYKKIPDIRAKVDNVIIADPMIATASTMLKVLEEVVKANPKRIYIVSIISSEYGVNKILSKYPFIYLFTVAIDPELNNKGYILPGLGDAGDRAFG PLYVIDKPITLHILTQLRDKYTDQINFRKNLVRLGRILGYEISNTLDYEIVEVETPLGVKTKGVDITDLNNIVIINILRAAVPLVEGLLKAFPKARQGVIGASRVEVDGKEVPKDMDVYIYYKKIPDIRAKVDNVIIADPMIATASTMLKVLEEVVKANPKRIYIVSIISSEYGVNKILSKYPFIYLFTVAIDPELNNKGYILPGLGDAGDRAFG 1xty-a2-m1-cC_1xty-a2-m1-cD Crystal structure of Sulfolobus solfataricus peptidyl-tRNA hydrolase Q980V1 Q980V1 1.8 X-RAY DIFFRACTION 75 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 120 120 1xty-a1-m1-cA_1xty-a1-m1-cB MIKMVIVVRSDIKMGKGKIAAQVAHAAVTLVVSIINSNNLRWKEWLNEWLHQGQPKIIVKVNSLDEIISRAKKAETMNLPFSIIEDAGKTQLEPGTITCLGIGPAPENLVDSITGDLKLL MIKMVIVVRSDIKMGKGKIAAQVAHAAVTLVVSIINSNNLRWKEWLNEWLHQGQPKIIVKVNSLDEIISRAKKAETMNLPFSIIEDAGKTQLEPGTITCLGIGPAPENLVDSITGDLKLL 1xtz-a1-m1-cA_1xtz-a1-m4-cA Crystal structure of the S. cerevisiae D-ribose-5-phosphate isomerase: comparison with the archeal and bacterial enzymes Q12189 Q12189 2.1 X-RAY DIFFRACTION 68 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 246 246 1xtz-a1-m2-cA_1xtz-a1-m3-cA EDAKRAAAYRAVDENLKFDDHKIIGIGSGSTVVYVAERIGQYLHDPKFYEVASKFICIPTGFQSRNLILDNKLQLGSIEQYPRIDIAFDGADEVDENLQLIKGGGACLFQEKLVSTSAKTFIVVADSRKKSPKHLGKNWRQGVPIEIVPSSYVRVKNDLLEQLHAEKVDIRQGGSAKAGPVVTDNNNFIIDADFGEISDPRKLHREIKLLVGVVETGLFIDNASKAYFGNSDGSVEVTEKHHHHHH EDAKRAAAYRAVDENLKFDDHKIIGIGSGSTVVYVAERIGQYLHDPKFYEVASKFICIPTGFQSRNLILDNKLQLGSIEQYPRIDIAFDGADEVDENLQLIKGGGACLFQEKLVSTSAKTFIVVADSRKKSPKHLGKNWRQGVPIEIVPSSYVRVKNDLLEQLHAEKVDIRQGGSAKAGPVVTDNNNFIIDADFGEISDPRKLHREIKLLVGVVETGLFIDNASKAYFGNSDGSVEVTEKHHHHHH 1xtz-a1-m3-cA_1xtz-a1-m4-cA Crystal structure of the S. cerevisiae D-ribose-5-phosphate isomerase: comparison with the archeal and bacterial enzymes Q12189 Q12189 2.1 X-RAY DIFFRACTION 72 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 246 246 1xtz-a1-m1-cA_1xtz-a1-m2-cA EDAKRAAAYRAVDENLKFDDHKIIGIGSGSTVVYVAERIGQYLHDPKFYEVASKFICIPTGFQSRNLILDNKLQLGSIEQYPRIDIAFDGADEVDENLQLIKGGGACLFQEKLVSTSAKTFIVVADSRKKSPKHLGKNWRQGVPIEIVPSSYVRVKNDLLEQLHAEKVDIRQGGSAKAGPVVTDNNNFIIDADFGEISDPRKLHREIKLLVGVVETGLFIDNASKAYFGNSDGSVEVTEKHHHHHH EDAKRAAAYRAVDENLKFDDHKIIGIGSGSTVVYVAERIGQYLHDPKFYEVASKFICIPTGFQSRNLILDNKLQLGSIEQYPRIDIAFDGADEVDENLQLIKGGGACLFQEKLVSTSAKTFIVVADSRKKSPKHLGKNWRQGVPIEIVPSSYVRVKNDLLEQLHAEKVDIRQGGSAKAGPVVTDNNNFIIDADFGEISDPRKLHREIKLLVGVVETGLFIDNASKAYFGNSDGSVEVTEKHHHHHH 1xu1-a1-m1-cA_1xu1-a1-m1-cB The crystal structure of APRIL bound to TACI Q9D777 Q9D777 1.9 X-RAY DIFFRACTION 58 1.0 10090 (Mus musculus) 10090 (Mus musculus) 137 137 1u5x-a1-m1-cA_1u5x-a1-m2-cA 1u5x-a1-m1-cA_1u5x-a1-m3-cA 1u5x-a1-m2-cA_1u5x-a1-m3-cA 1u5y-a1-m1-cA_1u5y-a1-m1-cB 1u5y-a1-m1-cD_1u5y-a1-m1-cA 1u5y-a1-m1-cD_1u5y-a1-m1-cB 1u5z-a1-m1-cA_1u5z-a1-m2-cA 1u5z-a1-m1-cA_1u5z-a1-m3-cA 1u5z-a1-m2-cA_1u5z-a1-m3-cA 1xu1-a1-m1-cA_1xu1-a1-m1-cD 1xu1-a1-m1-cB_1xu1-a1-m1-cD 1xu2-a1-m1-cA_1xu2-a1-m1-cB 1xu2-a1-m1-cA_1xu2-a1-m1-cD 1xu2-a1-m1-cB_1xu2-a1-m1-cD 3k48-a1-m1-cA_3k48-a1-m1-cB 3k48-a1-m1-cA_3k48-a1-m1-cD 3k48-a1-m1-cB_3k48-a1-m1-cD KHSVLHLVPVNITSKADSDVTEVMWQPVLRRGRGLEAQGDIVRVWDTGIYLLYSQVLFHDVTFTMGQVVSREGQGRRETLFRCIRSMPSDPDRAYNSCYSAGVFHLHQGDIITVKIPRANAKLSLSPHGTFLGFVKL KHSVLHLVPVNITSKADSDVTEVMWQPVLRRGRGLEAQGDIVRVWDTGIYLLYSQVLFHDVTFTMGQVVSREGQGRRETLFRCIRSMPSDPDRAYNSCYSAGVFHLHQGDIITVKIPRANAKLSLSPHGTFLGFVKL 1xub-a1-m1-cA_1xub-a1-m2-cA Structure and function of the phenazine biosynthetic protein PhzF from Pseudomonas fluorescens Q51792 Q51792 1.3 X-RAY DIFFRACTION 39 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 278 278 MHNYVIIDAFASVPLEGNPVAVFFDADDLPPAQMQRIAREMNLSESTFVLKPRNGGDALIRIFTPVNELPFAGAPLLGTAIALGAHTDNHRLYLETQMGTIAFELERQNGSVIAASMDQPIPTWTALGRDAELLKALGISDSTFPIEIYHNGPRHVFVGLPSIDALSALHPDHRALSNFHDMAINCFAGAGRRWRSRMFSPAYGVVEDAATGSAAGPLAIHLARHGQIEFGQPVEILQGVEIGRPSLMFAKAEGRAEQLTRVEVSGNGVTFGRGTIVL MHNYVIIDAFASVPLEGNPVAVFFDADDLPPAQMQRIAREMNLSESTFVLKPRNGGDALIRIFTPVNELPFAGAPLLGTAIALGAHTDNHRLYLETQMGTIAFELERQNGSVIAASMDQPIPTWTALGRDAELLKALGISDSTFPIEIYHNGPRHVFVGLPSIDALSALHPDHRALSNFHDMAINCFAGAGRRWRSRMFSPAYGVVEDAATGSAAGPLAIHLARHGQIEFGQPVEILQGVEIGRPSLMFAKAEGRAEQLTRVEVSGNGVTFGRGTIVL 1xuq-a1-m1-cA_1xuq-a1-m1-cB Crystal Structure of SodA-1 (BA4499) from Bacillus anthracis at 1.8A Resolution. Q81LW0 Q81LW0 1.8 X-RAY DIFFRACTION 49 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 200 200 KHELPNLPYAYDALEPHFDKETMNIHHTKHHNTYITNLNAALEGHAELADKSVEELVANLNEVPEAIRTAVRNNGGGHANHTFFWTILSPNGGGQPVGELATAIEAKFGSFDAFKEEFAKAGATRFGSGWAWLVVNNGELEVTSTPNQDSPLTEGKTPVIGLDVWEHAYYLNYQNRRPDYIGAFWNVVDWNAAEKRYQEA KHELPNLPYAYDALEPHFDKETMNIHHTKHHNTYITNLNAALEGHAELADKSVEELVANLNEVPEAIRTAVRNNGGGHANHTFFWTILSPNGGGQPVGELATAIEAKFGSFDAFKEEFAKAGATRFGSGWAWLVVNNGELEVTSTPNQDSPLTEGKTPVIGLDVWEHAYYLNYQNRRPDYIGAFWNVVDWNAAEKRYQEA 1xuv-a2-m1-cB_1xuv-a2-m2-cB X-Ray Crystal Structure of Protein MM0500 from Methanosarcina mazei. Northeast Structural Genomics Consortium Target MaR10. Q8PZJ2 Q8PZJ2 2.1 X-RAY DIFFRACTION 76 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 160 160 1xuv-a1-m1-cA_1xuv-a1-m1-cC NPTRITAEPGKQEIIITREFDAPRELVFKAFTDPDLYTQWIGPRGFTTALKIFEPKNGGSWQYIQKDPEGNEYAFHGVNHDVTEPERIISTFEFEGLPEKGHVILDTARFEALPGDRTKLTSHSVFQTIEDRDGLQSGEEGINDSYERLDELLEKKKLEH NPTRITAEPGKQEIIITREFDAPRELVFKAFTDPDLYTQWIGPRGFTTALKIFEPKNGGSWQYIQKDPEGNEYAFHGVNHDVTEPERIISTFEFEGLPEKGHVILDTARFEALPGDRTKLTSHSVFQTIEDRDGLQSGEEGINDSYERLDELLEKKKLEH 1xv2-a2-m1-cD_1xv2-a2-m1-cC Crystal Structure of a Protein of Unknown Function Similar to Alpha-acetolactate Decarboxylase from Staphylococcus aureus A0A0H3JS15 A0A0H3JS15 2 X-RAY DIFFRACTION 85 1.0 227 228 1xv2-a1-m1-cA_1xv2-a1-m1-cB NVLYQHGTLGTLAGLLEGTATINELLEHGNLGIATLTGSDGEVIFLDGKAYHANEHKEFIELKGDEKVPYASITNFKASKTFPLQQLSQDDVFAQIKNELSENLFSAVKIYGTFKHHVRPAQQPPYTRLIDSARRQPEEKRQDIRGAIVGFFTPELFHGVGSAGFHIHFADDERAYGGHVLDFEVDDVVVEIQNFETFQQHFPVNNETFVKAKIDYKDVAEEIREAE TNVLYQHGTLGTLAGLLEGTATINELLEHGNLGIATLTGSDGEVIFLDGKAYHANEHKEFIELKGDEKVPYASITNFKASKTFPLQQLSQDDVFAQIKNELSENLFSAVKIYGTFKHHVRPAQQPPYTRLIDSARRQPEEKRQDIRGAIVGFFTPELFHGVGSAGFHIHFADDERAYGGHVLDFEVDDVVVEIQNFETFQQHFPVNNETFVKAKIDYKDVAEEIREAE 1xv8-a1-m1-cA_1xv8-a1-m1-cB Crystal Structure of Human Salivary Alpha-Amylase Dimer P0DUB6 P0DUB6 3 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 495 495 YSSNTQQGRTSIVHLFEWRWVDIALECERYLAPKGFGGVQVSPPNENVAIHNPFRPWWERYQPVSYKLCTRSGNEDEFRNMVTRCNNVGVRIYVDAVINHMCGNAVSAGTSSTCGSYFNPGSRDFPAVPYSGWDFNDGKCKTGSGDIENYNDATQVRDCRLSGLLDLALGKDYVRSKIAEYMNHLIDIGVAGFRIDASKHMWPGDIKAILDKLHNLNSNWFPEGSKPFIYQEVIDLGGEPIKSSDYFGNGRVTEFKYGAKLGTVIRKWNGEKMSYLKNWGEGWGFMPSDRALVFVDNHDNQRGHGAGGASILTFWDARLYKMAVGFMLAHPYGFTRVMSSYRWPRYFENGKDVNDWVGPPNDNGVTKEVTINPDTTCGNDWVCEHRWRQIRNMVNFRNVVDGQPFTNWYDNGSNQVAFGRGNRGFIVFNNDDWTFSLTLQTGLPAGTYCDVISGDKINGNCTGIKIYVSDDGKAHFSISNSAEDPFIAIHAESKL YSSNTQQGRTSIVHLFEWRWVDIALECERYLAPKGFGGVQVSPPNENVAIHNPFRPWWERYQPVSYKLCTRSGNEDEFRNMVTRCNNVGVRIYVDAVINHMCGNAVSAGTSSTCGSYFNPGSRDFPAVPYSGWDFNDGKCKTGSGDIENYNDATQVRDCRLSGLLDLALGKDYVRSKIAEYMNHLIDIGVAGFRIDASKHMWPGDIKAILDKLHNLNSNWFPEGSKPFIYQEVIDLGGEPIKSSDYFGNGRVTEFKYGAKLGTVIRKWNGEKMSYLKNWGEGWGFMPSDRALVFVDNHDNQRGHGAGGASILTFWDARLYKMAVGFMLAHPYGFTRVMSSYRWPRYFENGKDVNDWVGPPNDNGVTKEVTINPDTTCGNDWVCEHRWRQIRNMVNFRNVVDGQPFTNWYDNGSNQVAFGRGNRGFIVFNNDDWTFSLTLQTGLPAGTYCDVISGDKINGNCTGIKIYVSDDGKAHFSISNSAEDPFIAIHAESKL 1xvi-a1-m1-cA_1xvi-a1-m1-cB Crystal Structure of YedP, phosphatase-like domain protein from Escherichia coli K12 P76329 P76329 2.26 X-RAY DIFFRACTION 18 0.996 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 232 234 IQQPLLVFSDLDGTLLDSHSYDWQPAAPWLTRLREANVPVILCSSKTSAEMLYLQKTLGLQGLPLIAENGAVIQLAEQWQEIDGFPRIISGISHGEISLVLNTLREKEHFKFTTFDDVDDATIAEWTGLSRSQAALTQLHEASVTLIWRDSDERMAQFTARLNELGLQFMQGARFWHVLDASAGKDQAANWIIATYQQLSGKRPTTLGLGDGPNDAPLLEVMDYAVIVKGLN MFSIQQPLLVFSDLDGTLLDSHSYDWQPAAPWLTRLREANVPVILCSSKTSAEMLYLQKTLGLQGLPLIAENGAVIQLAEQWQEIDGFPRIISGISHGEISLVLNTLREKEHFKFTTFDDVDDATIAEWTGLSRSQAALTQLHEASVTLIWRDSDERMAQFTARLNELGLQFMQGARFWHVLDASAGKDQAANWIIATYQQLSGKRPTTLGLGDGPNDAPLLEVMDYAVIVKGL 1xvq-a2-m1-cA_1xvq-a2-m2-cA Crystal structure of thiol peroxidase from Mycobacterium tuberculosis P9WG35 P9WG35 1.75 X-RAY DIFFRACTION 53 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 159 159 AQITLRGNAINTVGELPAVGSPAPAFTLTGGDLGVISSDQFRGKSVLLNIFPSVDTPVCATSVRTFDERAAASGATVLVSKDLPFAQKRFCNVMPASAFRDSFGEDYGVTIADGPMAGLLARAIVVIGADGNVAYTELVPEIAQEPNYEAALAALGATS AQITLRGNAINTVGELPAVGSPAPAFTLTGGDLGVISSDQFRGKSVLLNIFPSVDTPVCATSVRTFDERAAASGATVLVSKDLPFAQKRFCNVMPASAFRDSFGEDYGVTIADGPMAGLLARAIVVIGADGNVAYTELVPEIAQEPNYEAALAALGATS 1xvs-a1-m1-cA_1xvs-a1-m1-cB Crystal structure of apaG Protein from Vibrio cholerae Q9KUS3 Q9KUS3 2.01 X-RAY DIFFRACTION 48 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 120 120 DVSLPCIKIQVQTRYIEEQSNPEYQRFVFAYLITIKNLSSQTVQLSRRWLITDADGKQTVVEGDGVVGEQPRIKANDEYTYSSGTALDTPVGVQGQYLIDEQGESFTVEIEPFRLAVPHV DVSLPCIKIQVQTRYIEEQSNPEYQRFVFAYLITIKNLSSQTVQLSRRWLITDADGKQTVVEGDGVVGEQPRIKANDEYTYSSGTALDTPVGVQGQYLIDEQGESFTVEIEPFRLAVPHV 1xvw-a1-m4-cA_1xvw-a1-m4-cB Crystal Structure of AhpE from Mycobacterium tuberculosis, a 1-Cys peroxiredoxin P9WIE3 P9WIE3 1.9 X-RAY DIFFRACTION 21 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 157 159 1xvw-a1-m1-cA_1xvw-a1-m1-cB 1xvw-a1-m2-cA_1xvw-a1-m2-cB 1xvw-a1-m3-cA_1xvw-a1-m3-cB PRGSHMLNVGATAPDFTLRDQNQQLVTLRGYRGAKNVLLVFFPLAFTGIQGELDQLRDHLPEFENDDSAALAISVGPPPTHKIWATQSGFTFPLLSDFWPHGAVSQAYGVFNEQAGIANRGTFVVDRSGIIRFAEMKQPGEVRDQRLWTDALAALTA KVPRGSHMLNVGATAPDFTLRDQNQQLVTLRGYRGAKNVLLVFFPLAFTGIQGELDQLRDHLPEFENDDSAALAISVGPPPTHKIWATQSGFTFPLLSDFWPHGAVSQAYGVFNEQAGIANRGTFVVDRSGIIRFAEMKQPGEVRDQRLWTDALAALTA 1xw7-a4-m4-cA_1xw7-a4-m5-cA Diabetes-Associated Mutations in Human Insulin: Crystal Structure and Photo-Cross-Linking Studies of A-Chain Variant Insulin Wakayama P01308 P01308 2.3 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 1xw7-a4-m1-cA_1xw7-a4-m4-cA 1xw7-a4-m1-cA_1xw7-a4-m5-cA GILEQCCTSICSLYQLENYCN GILEQCCTSICSLYQLENYCN 1xw8-a1-m1-cA_1xw8-a1-m2-cA X-ray structure of putative lactam utilization protein YBGL. Northeast Structural Genomics Consortium target ET90. P75746 P75746 2 X-RAY DIFFRACTION 73 1.0 562 (Escherichia coli) 562 (Escherichia coli) 224 224 KIDLNADLGEGCASDAELLTLVSSANIACGFHAGDAQIQACVREAIKNGVAIGAHPSFPSAQLPPETVYAQTLYQIGALATIARAQGGVRHVKPHGLYNQAAKEAQLADAIARAVYACDPALILVGLAGSELIRAGKQYGLTTREEVFADRGYQADGSLVPRSQSGEEQALAQTLEVQHGRVKSITGEWATVAAQTVCLHGDGHALAFARRLRSAFIVVAALEH KIDLNADLGEGCASDAELLTLVSSANIACGFHAGDAQIQACVREAIKNGVAIGAHPSFPSAQLPPETVYAQTLYQIGALATIARAQGGVRHVKPHGLYNQAAKEAQLADAIARAVYACDPALILVGLAGSELIRAGKQYGLTTREEVFADRGYQADGSLVPRSQSGEEQALAQTLEVQHGRVKSITGEWATVAAQTVCLHGDGHALAFARRLRSAFIVVAALEH 1xwa-a5-m4-cC_1xwa-a5-m1-cA Drospohila thioredoxin, oxidized, P41212 Q9V429 Q9V429 2.2 X-RAY DIFFRACTION 56 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 106 111 1xwa-a5-m2-cD_1xwa-a5-m3-cB 1xwb-a5-m1-cA_1xwb-a5-m2-cB MVYQVKDKADLDGQLTKASGKLVVLDFFATWCGPCKMISPKLVELSTQFADNVVVLKVDVDECEDIAMEYNISSMPTFVFLKNGVKVEEFAGANAKRLEDVIKANI AAAAAMVYQVKDKADLDGQLTKASGKLVVLDFFATWCGPCKMISPKLVELSTQFADNVVVLKVDVDECEDIAMEYNISSMPTFVFLKNGVKVEEFAGANAKRLEDVIKANI 1xwk-a1-m1-cA_1xwk-a1-m1-cC 2.3 angstrom resolution crystal structure of human glutathione S-transferase M1A-1A complexed with glutathionyl-S-dinitrobenzene P09488 P09488 2.3 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 217 1gtu-a1-m1-cA_1gtu-a1-m1-cB 1gtu-a2-m1-cC_1gtu-a2-m1-cD 1xw6-a1-m1-cA_1xw6-a1-m1-cB 1xw6-a2-m1-cC_1xw6-a2-m1-cD 1xwk-a2-m1-cB_1xwk-a2-m2-cB 1yj6-a1-m1-cA_1yj6-a1-m1-cB 1yj6-a2-m1-cC_1yj6-a2-m2-cC 2f3m-a1-m1-cA_2f3m-a1-m1-cB 2f3m-a2-m1-cC_2f3m-a2-m1-cD 2f3m-a3-m1-cE_2f3m-a3-m1-cF 7beu-a1-m1-cA_7beu-a1-m1-cD 7beu-a2-m1-cB_7beu-a2-m1-cC PMILGYWDIRGLAHAIRLLLEYTDSSYEEKKYTMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGAHKITQSNAILCYIARKHNLCGETEEEKIRVDILENQTMDNHMQLGMICYNPEFEKLKPKYLEELPEKLKLYSEFLGKRPWFAGNKITFVDFLVYDVLDLHRIFEPKCLDAFPNLKDFISRFEGLEKISAYMKSSRFLPRPVFSKMAVWGNK PMILGYWDIRGLAHAIRLLLEYTDSSYEEKKYTMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGAHKITQSNAILCYIARKHNLCGETEEEKIRVDILENQTMDNHMQLGMICYNPEFEKLKPKYLEELPEKLKLYSEFLGKRPWFAGNKITFVDFLVYDVLDLHRIFEPKCLDAFPNLKDFISRFEGLEKISAYMKSSRFLPRPVFSKMAVWGNK 1xwm-a1-m1-cA_1xwm-a1-m2-cA The crystal structure of PhoU (phosphate uptake regulator), Structural genomics 2.5 X-RAY DIFFRACTION 55 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 212 212 TFADDLASLHNKLIEMGRLTEVALQQAIEAFQTQNANLAMAVIDGDGSIDALEEEVNDFALWLIAAQQPVATDLRRIVAAIKIASDIERIADFAVNIAKACIRIGGQPFVMDIGPLVLMYRLATDMVSTAIAAYDREDASLAAQIADMDHRVDEQYGEMMASLLAVAKTDAATLAQMNVLALVARYIERTADHATNIAEHLVYLVKGKHYDF TFADDLASLHNKLIEMGRLTEVALQQAIEAFQTQNANLAMAVIDGDGSIDALEEEVNDFALWLIAAQQPVATDLRRIVAAIKIASDIERIADFAVNIAKACIRIGGQPFVMDIGPLVLMYRLATDMVSTAIAAYDREDASLAAQIADMDHRVDEQYGEMMASLLAVAKTDAATLAQMNVLALVARYIERTADHATNIAEHLVYLVKGKHYDF 1xwr-a1-m1-cB_1xwr-a1-m1-cA Crystal structure of the coliphage lambda transcription activator protein CII P03042 P03042 2.56 X-RAY DIFFRACTION 74 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 77 79 1zpq-a1-m1-cA_1zpq-a1-m1-cB 1zs4-a1-m1-cA_1zs4-a1-m1-cB 8igr-a1-m1-cB_8igr-a1-m1-cA ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN VRANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN 1xwr-a1-m1-cB_1xwr-a1-m1-cD Crystal structure of the coliphage lambda transcription activator protein CII P03042 P03042 2.56 X-RAY DIFFRACTION 33 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 77 77 1zpq-a1-m1-cB_1zpq-a1-m1-cC ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN 1xwr-a1-m1-cC_1xwr-a1-m1-cA Crystal structure of the coliphage lambda transcription activator protein CII P03042 P03042 2.56 X-RAY DIFFRACTION 12 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 76 79 ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILT VRANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN 1xwr-a1-m1-cC_1xwr-a1-m1-cD Crystal structure of the coliphage lambda transcription activator protein CII P03042 P03042 2.56 X-RAY DIFFRACTION 70 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 76 77 1zpq-a1-m1-cC_1zpq-a1-m1-cD 1zs4-a1-m1-cD_1zs4-a1-m1-cC 8igr-a1-m1-cD_8igr-a1-m1-cC ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILT ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN 1xwr-a1-m1-cD_1xwr-a1-m1-cA Crystal structure of the coliphage lambda transcription activator protein CII P03042 P03042 2.56 X-RAY DIFFRACTION 13 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 77 79 1zpq-a1-m1-cA_1zpq-a1-m1-cC ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN VRANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTN 1xx1-a3-m1-cA_1xx1-a3-m2-cD Structural basis for ion-coordination and the catalytic mechanism of sphingomyelinases D Q8I914 Q8I914 1.75 X-RAY DIFFRACTION 26 1.0 58217 (Loxosceles laeta) 58217 (Loxosceles laeta) 285 285 1xx1-a3-m1-cB_1xx1-a3-m2-cC 2f9r-a5-m1-cC_2f9r-a5-m2-cB 2f9r-a5-m1-cD_2f9r-a5-m2-cA ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN 1xx1-a3-m2-cC_1xx1-a3-m2-cD Structural basis for ion-coordination and the catalytic mechanism of sphingomyelinases D Q8I914 Q8I914 1.75 X-RAY DIFFRACTION 75 1.0 58217 (Loxosceles laeta) 58217 (Loxosceles laeta) 285 285 1xx1-a1-m1-cA_1xx1-a1-m1-cB 1xx1-a2-m1-cC_1xx1-a2-m1-cD 1xx1-a3-m1-cA_1xx1-a3-m1-cB 2f9r-a5-m1-cC_2f9r-a5-m1-cD 2f9r-a5-m2-cA_2f9r-a5-m2-cB 2f9r-a6-m1-cA_2f9r-a6-m1-cB 2f9r-a7-m1-cC_2f9r-a7-m1-cD ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN 1xx1-a5-m1-cB_1xx1-a5-m4-cA Structural basis for ion-coordination and the catalytic mechanism of sphingomyelinases D Q8I914 Q8I914 1.75 X-RAY DIFFRACTION 10 1.0 58217 (Loxosceles laeta) 58217 (Loxosceles laeta) 285 285 ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN 1xx1-a5-m2-cD_1xx1-a5-m5-cC Structural basis for ion-coordination and the catalytic mechanism of sphingomyelinases D Q8I914 Q8I914 1.75 X-RAY DIFFRACTION 27 1.0 58217 (Loxosceles laeta) 58217 (Loxosceles laeta) 285 285 ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN 1xx1-a5-m4-cA_1xx1-a5-m5-cC Structural basis for ion-coordination and the catalytic mechanism of sphingomyelinases D Q8I914 Q8I914 1.75 X-RAY DIFFRACTION 32 1.0 58217 (Loxosceles laeta) 58217 (Loxosceles laeta) 285 285 1xx1-a3-m1-cA_1xx1-a3-m2-cC 1xx1-a3-m1-cB_1xx1-a3-m2-cD 1xx1-a4-m1-cB_1xx1-a4-m2-cD 1xx1-a4-m1-cC_1xx1-a4-m3-cA 1xx1-a5-m1-cB_1xx1-a5-m2-cD 2f9r-a5-m1-cC_2f9r-a5-m2-cA 2f9r-a5-m1-cD_2f9r-a5-m2-cB ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN ADNRRPIWNLAHMVNAVAQIPDFLDLGANALEADVTFKGSVPTYTYHGTPCDFGRDCIRWEYFNVFLKTLREYTTPGNAKYRDGFILFVLDLKTGSLSNDQVRPAGENVAKELLQNYWNNGNNGGRAYVVLSLPDIGHYEFVRGFKEVLKKEGHEDLLEKVGYDFSGPYLPSLPTLDATHEAYKKAGVDGHIWLSDGLTNFSPLGDMARLKEAIKSRDSANGFINKIYYWSVDKVSTTKAALDVGVDGIMTNYPNVLIGVLKESGYNDKYRLATYDDNPWETFKN 1xx4-a1-m2-cA_1xx4-a1-m3-cA Crystal Structure of Rat Mitochondrial 3,2-Enoyl-CoA P23965 P23965 2.2 X-RAY DIFFRACTION 57 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 254 254 1xx4-a1-m1-cA_1xx4-a1-m2-cA 1xx4-a1-m1-cA_1xx4-a1-m3-cA FSNKRVLVEKAGIAVMKFKNPPVNSLSLEFLTEFVISLEKLENDKSIRGVILTSERPGIFSAGLDLMEMYGRNPAHYAEYWKAVQELWLRLYLSNLTLISAINGASPAGGCLMALTCDYRIMADNSKYTIGLNESLLGIVAPFWLKDNYVNTIGHRAAERALQLGTLFPPAEALKVGLVDEVVPEDQVHSKARSVMAKWFTIPDHSRQLTKSMMRKATADNLIKQREADIQNFTSFISRDSIQKSLHVYLEKLK FSNKRVLVEKAGIAVMKFKNPPVNSLSLEFLTEFVISLEKLENDKSIRGVILTSERPGIFSAGLDLMEMYGRNPAHYAEYWKAVQELWLRLYLSNLTLISAINGASPAGGCLMALTCDYRIMADNSKYTIGLNESLLGIVAPFWLKDNYVNTIGHRAAERALQLGTLFPPAEALKVGLVDEVVPEDQVHSKARSVMAKWFTIPDHSRQLTKSMMRKATADNLIKQREADIQNFTSFISRDSIQKSLHVYLEKLK 1xx6-a2-m2-cB_1xx6-a2-m1-cA X-ray structure of Clostridium acetobutylicum thymidine kinase with ADP. Northeast Structural Genomics Target CAR26. Q97F65 Q97F65 2 X-RAY DIFFRACTION 19 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 162 173 1xx6-a2-m1-cB_1xx6-a2-m2-cA YRPKDHGWVEVIVGPYSGKSEELIRRIRRAKIAKQKIQVFKPEAVAIKNSREILKYFEEDTEVIAIDEVQFFDDEIVEIVNKIAESGRRVICAGLDDFRGKPFGPIPELAIAEFVDKIQAICVVCGNPATRTQRLINGKPAFYDDPVESYEARCRKCHVVPQ YRPKDHGWVEVIVGPYSGKSEELIRRIRRAKIAKQKIQVFKPEEDVVSHGEKEQAVAIKNSREILKYFEEDTEVIAIDEVQFFDDEIVEIVNKIAESGRRVICAGLDDFRGKPFGPIPELAIAEFVDKIQAICVVCGNPATRTQRLINGKPAFYDDPVESYEARCRKCHVVPQ 1xx6-a2-m2-cB_1xx6-a2-m2-cA X-ray structure of Clostridium acetobutylicum thymidine kinase with ADP. Northeast Structural Genomics Target CAR26. Q97F65 Q97F65 2 X-RAY DIFFRACTION 64 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 162 173 1xx6-a1-m1-cB_1xx6-a1-m1-cA 1xx6-a2-m1-cB_1xx6-a2-m1-cA YRPKDHGWVEVIVGPYSGKSEELIRRIRRAKIAKQKIQVFKPEAVAIKNSREILKYFEEDTEVIAIDEVQFFDDEIVEIVNKIAESGRRVICAGLDDFRGKPFGPIPELAIAEFVDKIQAICVVCGNPATRTQRLINGKPAFYDDPVESYEARCRKCHVVPQ YRPKDHGWVEVIVGPYSGKSEELIRRIRRAKIAKQKIQVFKPEEDVVSHGEKEQAVAIKNSREILKYFEEDTEVIAIDEVQFFDDEIVEIVNKIAESGRRVICAGLDDFRGKPFGPIPELAIAEFVDKIQAICVVCGNPATRTQRLINGKPAFYDDPVESYEARCRKCHVVPQ 1xx7-a1-m1-cA_1xx7-a1-m1-cC Conserved hypothetical protein from Pyrococcus furiosus Pfu-403030-001 Q8U3R1 Q8U3R1 2.261 X-RAY DIFFRACTION 21 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 172 172 1xx7-a1-m1-cA_1xx7-a1-m1-cB 1xx7-a1-m1-cB_1xx7-a1-m1-cC 1xx7-a1-m1-cD_1xx7-a1-m1-cE 1xx7-a1-m1-cD_1xx7-a1-m1-cF 1xx7-a1-m1-cF_1xx7-a1-m1-cE SIDLILLAGKLKRIPRMGWLIKGVPNPESVADHSYRVAFITLLLAEELKKKGVEIDVEKALKIAIIHDLGEAIITDLPLSAQKYLNKEEAEAKALKDVLPEYTELFEEYSKALTLEGQLVKIADKLDMIIQAYEYELSGAKNLSEFWNALEDLEKLEISRYLREIIEEVRRL SIDLILLAGKLKRIPRMGWLIKGVPNPESVADHSYRVAFITLLLAEELKKKGVEIDVEKALKIAIIHDLGEAIITDLPLSAQKYLNKEEAEAKALKDVLPEYTELFEEYSKALTLEGQLVKIADKLDMIIQAYEYELSGAKNLSEFWNALEDLEKLEISRYLREIIEEVRRL 1xx7-a1-m1-cE_1xx7-a1-m1-cC Conserved hypothetical protein from Pyrococcus furiosus Pfu-403030-001 Q8U3R1 Q8U3R1 2.261 X-RAY DIFFRACTION 57 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 166 172 1xx7-a1-m1-cD_1xx7-a1-m1-cA 1xx7-a1-m1-cF_1xx7-a1-m1-cB SIDLILLAGKLKRIPRMGWLIKGVPNPESVADHSYRVAFITLLLAEELKKKGVEIDVEKALKIAIIHDLGEAIITDLPLSAQKYLNKEEAEAKALKDVLPEYTELFEEYSKALTLEGQLVKIADKLDMIIQAYEYELSGAKNLSEFLEKLEISRYLREIIEEVRRL SIDLILLAGKLKRIPRMGWLIKGVPNPESVADHSYRVAFITLLLAEELKKKGVEIDVEKALKIAIIHDLGEAIITDLPLSAQKYLNKEEAEAKALKDVLPEYTELFEEYSKALTLEGQLVKIADKLDMIIQAYEYELSGAKNLSEFWNALEDLEKLEISRYLREIIEEVRRL 1xx7-a1-m1-cF_1xx7-a1-m1-cA Conserved hypothetical protein from Pyrococcus furiosus Pfu-403030-001 Q8U3R1 Q8U3R1 2.261 X-RAY DIFFRACTION 112 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 165 172 1xx7-a1-m1-cD_1xx7-a1-m1-cC 1xx7-a1-m1-cE_1xx7-a1-m1-cB SIDLILLAGKLKRIPRMGWLIKGVPNPESVADHSYRVAFITLLLAEELKKKGVEIDVEKALKIAIIHDLGEAIITDLPLSAQKYLNKEEAEAKALKDVLPEYTELFEEYSKALTLEGQLVKIADKLDMIIQAYEYELSGAKNLSEFWNALISRYLREIIEEVRRL SIDLILLAGKLKRIPRMGWLIKGVPNPESVADHSYRVAFITLLLAEELKKKGVEIDVEKALKIAIIHDLGEAIITDLPLSAQKYLNKEEAEAKALKDVLPEYTELFEEYSKALTLEGQLVKIADKLDMIIQAYEYELSGAKNLSEFWNALEDLEKLEISRYLREIIEEVRRL 1xxb-a1-m1-cA_1xxb-a1-m1-cD C-TERMINAL DOMAIN OF ESCHERICHIA COLI ARGININE REPRESSOR/ L-ARGININE COMPLEX P0A6D0 P0A6D0 2.6 X-RAY DIFFRACTION 23 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 71 71 1xxa-a1-m1-cA_1xxa-a1-m1-cD 1xxa-a1-m1-cE_1xxa-a1-m1-cC 1xxa-a1-m1-cF_1xxa-a1-m1-cB 1xxb-a1-m1-cE_1xxb-a1-m1-cC 1xxb-a1-m1-cF_1xxb-a1-m1-cB 1xxc-a1-m1-cA_1xxc-a1-m1-cD 1xxc-a1-m1-cB_1xxc-a1-m1-cF 1xxc-a1-m1-cC_1xxc-a1-m1-cE LKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELF LKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELF 1xxb-a1-m1-cE_1xxb-a1-m1-cF C-TERMINAL DOMAIN OF ESCHERICHIA COLI ARGININE REPRESSOR/ L-ARGININE COMPLEX P0A6D0 P0A6D0 2.6 X-RAY DIFFRACTION 37 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 71 71 1xxa-a1-m1-cA_1xxa-a1-m1-cB 1xxa-a1-m1-cA_1xxa-a1-m1-cC 1xxa-a1-m1-cB_1xxa-a1-m1-cC 1xxa-a1-m1-cD_1xxa-a1-m1-cE 1xxa-a1-m1-cD_1xxa-a1-m1-cF 1xxa-a1-m1-cE_1xxa-a1-m1-cF 1xxb-a1-m1-cA_1xxb-a1-m1-cB 1xxb-a1-m1-cA_1xxb-a1-m1-cC 1xxb-a1-m1-cB_1xxb-a1-m1-cC 1xxb-a1-m1-cD_1xxb-a1-m1-cE 1xxb-a1-m1-cD_1xxb-a1-m1-cF 1xxc-a1-m1-cA_1xxc-a1-m1-cB 1xxc-a1-m1-cA_1xxc-a1-m1-cC 1xxc-a1-m1-cB_1xxc-a1-m1-cC 1xxc-a1-m1-cD_1xxc-a1-m1-cE 1xxc-a1-m1-cD_1xxc-a1-m1-cF 1xxc-a1-m1-cE_1xxc-a1-m1-cF LKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELF LKNLVLDIDYNDAVVVIHTSPGAAQLIARLLDSLGKAEGILGTIAGDDTIFTTPANGFTVKDLYEAILELF 1xxh-a2-m1-cI_1xxh-a2-m1-cH ATPgS Bound E. Coli Clamp Loader Complex P06710 P06710 3.45 X-RAY DIFFRACTION 137 1.0 562 (Escherichia coli) 562 (Escherichia coli) 364 366 1jr3-a1-m1-cB_1jr3-a1-m1-cA 1xxh-a1-m1-cD_1xxh-a1-m1-cC 1xxi-a1-m1-cD_1xxi-a1-m1-cC 1xxi-a2-m1-cI_1xxi-a2-m1-cH 3glh-a1-m1-cD_3glh-a1-m1-cC 3glh-a2-m1-cI_3glh-a2-m1-cH 3glh-a3-m1-cN_3glh-a3-m1-cM VLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRMPLPEP YQVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRMPLPEP 1xxq-a1-m1-cA_1xxq-a1-m1-cB Structure of a mannose-specific jacalin-related lectin from Morus nigra Q8LGR3 Q8LGR3 1.8 X-RAY DIFFRACTION 88 1.0 85232 (Morus nigra) 85232 (Morus nigra) 154 154 1xxq-a1-m1-cC_1xxq-a1-m1-cD 1xxr-a1-m1-cA_1xxr-a1-m1-cB 1xxr-a1-m1-cC_1xxr-a1-m1-cD TQTTGTSQTIEVGLWGGPGGNAWDDGSYTGIREINLSHGDAIGAFSVIYDLNGQPFTGPTHPGNEPSFKTVKITLDFPNEFLVSVSGYTGVLARLATGKDVIRSLTFKTNKKTYGPYGKEEGTPFSLPIENGLIVGFKGRSGFVVDAIGFHLSL TQTTGTSQTIEVGLWGGPGGNAWDDGSYTGIREINLSHGDAIGAFSVIYDLNGQPFTGPTHPGNEPSFKTVKITLDFPNEFLVSVSGYTGVLARLATGKDVIRSLTFKTNKKTYGPYGKEEGTPFSLPIENGLIVGFKGRSGFVVDAIGFHLSL 1xxq-a1-m1-cA_1xxq-a1-m1-cD Structure of a mannose-specific jacalin-related lectin from Morus nigra Q8LGR3 Q8LGR3 1.8 X-RAY DIFFRACTION 67 1.0 85232 (Morus nigra) 85232 (Morus nigra) 154 154 1xxq-a1-m1-cB_1xxq-a1-m1-cC 1xxr-a1-m1-cA_1xxr-a1-m1-cD 1xxr-a1-m1-cB_1xxr-a1-m1-cC TQTTGTSQTIEVGLWGGPGGNAWDDGSYTGIREINLSHGDAIGAFSVIYDLNGQPFTGPTHPGNEPSFKTVKITLDFPNEFLVSVSGYTGVLARLATGKDVIRSLTFKTNKKTYGPYGKEEGTPFSLPIENGLIVGFKGRSGFVVDAIGFHLSL TQTTGTSQTIEVGLWGGPGGNAWDDGSYTGIREINLSHGDAIGAFSVIYDLNGQPFTGPTHPGNEPSFKTVKITLDFPNEFLVSVSGYTGVLARLATGKDVIRSLTFKTNKKTYGPYGKEEGTPFSLPIENGLIVGFKGRSGFVVDAIGFHLSL 1xxu-a1-m1-cA_1xxu-a1-m1-cC Crystal Structure of AhpE from Mycrobacterium tuberculosis, a 1-Cys peroxiredoxin P9WIE3 P9WIE3 1.9 X-RAY DIFFRACTION 27 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 153 153 MLNVGATAPDFTLRDQNQQLVTLRGYRGAKNVLLVFFPLAFTGICQGELDQLRDHLPEFENDDSAALAISVGPPPTHKIWATQSGFTFPLLSDFWPHGAVSQAYGVFNEQAGIANRGTFVVDRSGIIRFAEMKQPGEVRDQRLWTDALAALTA MLNVGATAPDFTLRDQNQQLVTLRGYRGAKNVLLVFFPLAFTGICQGELDQLRDHLPEFENDDSAALAISVGPPPTHKIWATQSGFTFPLLSDFWPHGAVSQAYGVFNEQAGIANRGTFVVDRSGIIRFAEMKQPGEVRDQRLWTDALAALTA 1xyn-a1-m1-cA_1xyn-a1-m2-cA STRUCTURAL COMPARISON OF TWO MAJOR ENDO-1,4-BETA-XYLANASES FROM TRICHODREMA REESEI P36218 P36218 2 X-RAY DIFFRACTION 42 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 178 178 ASINYDQNYQTGGQVSYSPSNTGFSVNWNTQDDFVVGVGWTTGSSAPINFGGSFSVNSGTGLLSVYGWSTNPLVEYYIMEDNHNYPAQGTVKGTVTSDGATYTIWENTRVNEPSIQGTATFNQYISVRNSPRTSGTVTVQNHFNAWASLGLHLGQMNYQVVAVEGWGGSGSASQSVSN ASINYDQNYQTGGQVSYSPSNTGFSVNWNTQDDFVVGVGWTTGSSAPINFGGSFSVNSGTGLLSVYGWSTNPLVEYYIMEDNHNYPAQGTVKGTVTSDGATYTIWENTRVNEPSIQGTATFNQYISVRNSPRTSGTVTVQNHFNAWASLGLHLGQMNYQVVAVEGWGGSGSASQSVSN 1xyr-a1-m8-c5_1xyr-a1-m9-c5 Poliovirus 135S cell entry intermediate P03300 P03300 11.0 ELECTRON MICROSCOPY 33 1.0 12080 (Poliovirus 1) 12080 (Poliovirus 1) 12 12 1xyr-a1-m10-c5_1xyr-a1-m6-c5 1xyr-a1-m10-c5_1xyr-a1-m9-c5 1xyr-a1-m11-c5_1xyr-a1-m12-c5 1xyr-a1-m11-c5_1xyr-a1-m15-c5 1xyr-a1-m12-c5_1xyr-a1-m13-c5 1xyr-a1-m13-c5_1xyr-a1-m14-c5 1xyr-a1-m14-c5_1xyr-a1-m15-c5 1xyr-a1-m16-c5_1xyr-a1-m17-c5 1xyr-a1-m16-c5_1xyr-a1-m20-c5 1xyr-a1-m17-c5_1xyr-a1-m18-c5 1xyr-a1-m18-c5_1xyr-a1-m19-c5 1xyr-a1-m19-c5_1xyr-a1-m20-c5 1xyr-a1-m1-c5_1xyr-a1-m2-c5 1xyr-a1-m1-c5_1xyr-a1-m5-c5 1xyr-a1-m21-c5_1xyr-a1-m22-c5 1xyr-a1-m21-c5_1xyr-a1-m25-c5 1xyr-a1-m22-c5_1xyr-a1-m23-c5 1xyr-a1-m23-c5_1xyr-a1-m24-c5 1xyr-a1-m24-c5_1xyr-a1-m25-c5 1xyr-a1-m26-c5_1xyr-a1-m27-c5 1xyr-a1-m26-c5_1xyr-a1-m30-c5 1xyr-a1-m27-c5_1xyr-a1-m28-c5 1xyr-a1-m28-c5_1xyr-a1-m29-c5 1xyr-a1-m29-c5_1xyr-a1-m30-c5 1xyr-a1-m2-c5_1xyr-a1-m3-c5 1xyr-a1-m31-c5_1xyr-a1-m32-c5 1xyr-a1-m31-c5_1xyr-a1-m35-c5 1xyr-a1-m32-c5_1xyr-a1-m33-c5 1xyr-a1-m33-c5_1xyr-a1-m34-c5 1xyr-a1-m34-c5_1xyr-a1-m35-c5 1xyr-a1-m36-c5_1xyr-a1-m37-c5 1xyr-a1-m36-c5_1xyr-a1-m40-c5 1xyr-a1-m37-c5_1xyr-a1-m38-c5 1xyr-a1-m38-c5_1xyr-a1-m39-c5 1xyr-a1-m39-c5_1xyr-a1-m40-c5 1xyr-a1-m3-c5_1xyr-a1-m4-c5 1xyr-a1-m41-c5_1xyr-a1-m42-c5 1xyr-a1-m41-c5_1xyr-a1-m45-c5 1xyr-a1-m42-c5_1xyr-a1-m43-c5 1xyr-a1-m43-c5_1xyr-a1-m44-c5 1xyr-a1-m44-c5_1xyr-a1-m45-c5 1xyr-a1-m46-c5_1xyr-a1-m47-c5 1xyr-a1-m46-c5_1xyr-a1-m50-c5 1xyr-a1-m47-c5_1xyr-a1-m48-c5 1xyr-a1-m48-c5_1xyr-a1-m49-c5 1xyr-a1-m49-c5_1xyr-a1-m50-c5 1xyr-a1-m4-c5_1xyr-a1-m5-c5 1xyr-a1-m51-c5_1xyr-a1-m52-c5 1xyr-a1-m51-c5_1xyr-a1-m55-c5 1xyr-a1-m52-c5_1xyr-a1-m53-c5 1xyr-a1-m53-c5_1xyr-a1-m54-c5 1xyr-a1-m54-c5_1xyr-a1-m55-c5 1xyr-a1-m56-c5_1xyr-a1-m57-c5 1xyr-a1-m56-c5_1xyr-a1-m60-c5 1xyr-a1-m57-c5_1xyr-a1-m58-c5 1xyr-a1-m58-c5_1xyr-a1-m59-c5 1xyr-a1-m59-c5_1xyr-a1-m60-c5 1xyr-a1-m6-c5_1xyr-a1-m7-c5 1xyr-a1-m7-c5_1xyr-a1-m8-c5 GLPVMNTPGSNQ GLPVMNTPGSNQ 1xzo-a4-m1-cB_1xzo-a4-m1-cA Identification of a disulfide switch in BsSco, a member of the Sco family of cytochrome c oxidase assembly proteins P54178 P54178 1.702 X-RAY DIFFRACTION 38 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 171 172 1xzo-a3-m1-cB_1xzo-a3-m1-cA 1xzo-a3-m2-cB_1xzo-a3-m2-cA QQIKDPLNYEVEPFTFQNQDGKNVSLESLKGEVWLADFIFTNCETICPPMTAHMTDLQKKLKAENIDVRIISFSVDPENDKPKQLKKFAANYPLSFDNWDFLTGYSQSEIEEFALKSFKAIVKKPEGDQVIHQSSFYLVGPDGKVLKDYNGVENTPYDDIISDVKSASTLK QQIKDPLNYEVEPFTFQNQDGKNVSLESLKGEVWLADFIFTNCETICPPMTAHMTDLQKKLKAENIDVRIISFSVDPENDKPKQLKKFAANYPLSFDNWDFLTGYSQSEIEEFALKSFKAIVKKPEGEDQVIHQSSFYLVGPDGKVLKDYNGVENTPYDDIISDVKSASTLK 1xzp-a2-m1-cB_1xzp-a2-m2-cB Structure of the GTP-binding protein TrmE from Thermotoga maritima Q9WYA4 Q9WYA4 2.3 X-RAY DIFFRACTION 13 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 131 131 1xzq-a2-m1-cB_1xzq-a2-m2-cB HWGSPNSSSVDKLMDTIVAVATPPGKGAIAILRLSGPDSWKIVQKHLRTRSKIVPRKAIHGWIHENGEDVDEVVVVFYKSPKSYTGEDMVEVMCHGGPLVVKKLLDLFLKSGARMAEPGEFTKRAFLNGKM HWGSPNSSSVDKLMDTIVAVATPPGKGAIAILRLSGPDSWKIVQKHLRTRSKIVPRKAIHGWIHENGEDVDEVVVVFYKSPKSYTGEDMVEVMCHGGPLVVKKLLDLFLKSGARMAEPGEFTKRAFLNGKM 1xzq-a2-m2-cB_1xzq-a2-m2-cA Structure of the GTP-binding protein TrmE from Thermotoga maritima complexed with 5-formyl-THF Q9WYA4 Q9WYA4 2.9 X-RAY DIFFRACTION 105 0.991 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 117 449 1xzq-a1-m1-cB_1xzq-a1-m1-cA 1xzq-a2-m1-cA_1xzq-a2-m2-cA 1xzq-a2-m1-cB_1xzq-a2-m1-cA 1xzq-a2-m1-cB_1xzq-a2-m2-cA 1xzq-a2-m2-cB_1xzq-a2-m1-cA MDTIVAVATPPGKGAIAILRLSGPDSWKIVQKHLRTRSKIVPRKAIHGWIHENGEDVDEVVVVFYKSPKSYTGEDMVEVMCHGGPLVVKKLLDLFLKSGARMAEPGEFTKRAFLNGK DTIVAVATPPGKGAIAILRLSGPDSWKIVQKHLRTRSKIVPRKAIHGWIHENGEDVDEVVVVFYKSPKSYTGEDMVEVMCHGGPLVVKKLLDLFLKSGARMAEPGEFTKRAFLNGKMDLTSAEAVRDLIEAKSETSLKLSLRNLKGGLRDFVDSLRRELIEVLAEIRVELDYPDEIETNTGEVVTRLERIKEKLTEELKKADAGILLNRGLRMVIVGKPNVGKSTLLNRLLNEDRAIVTDIPGTTRDVISEEIVIRGILFRIVDTAGVRSETNDLVERLGIERTLQEIEKADIVLFVLDASSPLDEEDRKILERIKNKRYLVVINKVDVVEKINEEEIKNKLGTDRHMVKISALKGEGLEKLEESIYRETQEIFERGSDSLITNLRQKQLLENVKGHLEDAIKSLKEGMPVDMASIDLERALNLLDEVTGRSFREDLLDTIFSNFCVGK 1xzw-a1-m1-cA_1xzw-a1-m1-cB Sweet potato purple acid phosphatase/phosphate complex Q9SE00 Q9SE00 2.5 X-RAY DIFFRACTION 99 1.0 4120 (Ipomoea batatas) 4120 (Ipomoea batatas) 424 426 LPNAEDVDMPWDSDVFAVPSGYNAPQQVHITQGDYEGRGVIISWTTPYDKAGANKVFYWSENSKSQKRAMGTVVTYKYYNYTSAFIHHCTIKDLEYDTKYYYRLGFGDAKRQFWFVTPPKPGPDVPYVFGLIGDIGQTHDSNTTLTHYEQNSAKGQAVLFMGDLSYSNRWPNHDNNRWDTWGRFSERSVAYQPWIWTAGNHEIDYAPDIGEYQPFVPFTNRYPTPHEASGSGDPLWYAIKRASAHIIVLSSYSGFVKYSPQYKWFTSELEKVNRSETPWLIVLVHAPLYNSYEAHYMEGEAMRAIFEPYFVYYKVDIVFSGHVHSYERSERVSNVAYNIVNAKCTPVSDESAPVYITIGDGGNSEGLASEMTQPQPSYSAFREASFGHGIFDIKNRTHAHFSWHRNQDGASVEADSLWLLNRYW LPNAEDVDMPWDSDVFAVPSGYNAPQQVHITQGDYEGRGVIISWTTPYDKAGANKVFYWSENSKSQKRAMGTVVTYKYYNYTSAFIHHCTIKDLEYDTKYYYRLGFGDAKRQFWFVTPPKPGPDVPYVFGLIGDIGQTHDSNTTLTHYEQNSAKGQAVLFMGDLSYSNRWPNHDNNRWDTWGRFSERSVAYQPWIWTAGNHEIDYAPDIGEYQPFVPFTNRYPTPHEASGSGDPLWYAIKRASAHIIVLSSYSGFVKYSPQYKWFTSELEKVNRSETPWLIVLVHAPLYNSYEAHYMEGEAMRAIFEPYFVYYKVDIVFSGHVHSYERSERVSNVAYNIVNAKCTPVSDESAPVYITIGDGGNSEGLASEMTQPQPSYSAFREASFGHGIFDIKNRTHAHFSWHRNQDGASVEADSLWLLNRYWAS 1y00-a1-m1-cA_1y00-a1-m1-cB Solution structure of the Carbon Storage Regulator protein CsrA P69913 P69913 NOT SOLUTION NMR 137 1.0 562 (Escherichia coli) 562 (Escherichia coli) 61 61 MLILTRRVGETLMIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEKSQQSSY MLILTRRVGETLMIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEKSQQSSY 1y07-a3-m1-cA_1y07-a3-m1-cB Crystal structure of the superoxide reductase from Treponema pallidum O83795 O83795 1.55 X-RAY DIFFRACTION 93 0.983 243276 (Treponema pallidum subsp. pallidum str. Nichols) 243276 (Treponema pallidum subsp. pallidum str. Nichols) 121 122 1y07-a1-m1-cA_1y07-a1-m1-cB RELSFFLQFFLGMDAPAGSSVACGSEVLRAVPVGTVDAAKEKHIPVVEVHGHEVKVKVGSVAHPMTPEHYIAWVCLKTRKGIQLKELPVDGAPEVTFALTADDQVLEAYEFCNLHGVWSGK GRELSFFLQAGFFLGMDAPAGSSVACGSEVLRAVPVGDAAKEKHIPVVEVHGHEVKVKVGSVAHPMTPEHYIAWVCLKTRKGIQLKELPVDGAPEVTFALTADDQVLEAYEFCNLHGVWSGK 1y0g-a2-m1-cC_1y0g-a2-m1-cD CRYSTAL STRUCTURE OF THE ESCHERICHIA COLI YCEI PROTEIN, STRUCTURAL GENOMICS P0A8X2 P0A8X2 2.2 X-RAY DIFFRACTION 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 169 169 1y0g-a1-m1-cA_1y0g-a1-m1-cB ADYKIDKEGQHAFVNFRIQHLGYSWLYGTFKDFDGTFTFDEKNPAADKVNVTINTTSVDTNHAERDKHLRSADFLNTAKYPQATFTSTSVKKDGDELDITGDLTLNGVTKPVTLEAKLIGQGDDPWGGKRAGFEAEGKIKLKDFNIKTDLGPASQEVDLIISVEGVQQK ADYKIDKEGQHAFVNFRIQHLGYSWLYGTFKDFDGTFTFDEKNPAADKVNVTINTTSVDTNHAERDKHLRSADFLNTAKYPQATFTSTSVKKDGDELDITGDLTLNGVTKPVTLEAKLIGQGDDPWGGKRAGFEAEGKIKLKDFNIKTDLGPASQEVDLIISVEGVQQK 1y0h-a1-m1-cB_1y0h-a1-m1-cA Structure of Rv0793 from Mycobacterium tuberculosis O86332 O86332 1.6 X-RAY DIFFRACTION 80 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 98 101 SPVAVIARFMPRPDARSALRALLDAMITPTRAEDGCRSYDLYESADGGELVLFERYRSRIALDEHRGSPHYLNYRAQVGELLTRPVAVTVLAPLDEAS GMTSPVAVIARFMPRPDARSALRALLDAMITPTRAEDGCRSYDLYESADGGELVLFERYRSRIALDEHRGSPHYLNYRAQVGELLTRPVAVTVLAPLDEAS 1y0o-a6-m2-cA_1y0o-a6-m6-cB crystal structure of reduced AtFKBP13 Q9SCY2 Q9SCY2 1.89 X-RAY DIFFRACTION 47 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 125 125 1u79-a6-m1-cA_1u79-a6-m5-cB 1u79-a6-m1-cD_1u79-a6-m2-cD 1u79-a6-m2-cA_1u79-a6-m6-cB 1u79-a6-m3-cC_1u79-a6-m4-cE 1u79-a6-m3-cE_1u79-a6-m4-cC 1y0o-a6-m1-cA_1y0o-a6-m5-cB 1y0o-a6-m1-cD_1y0o-a6-m2-cD 1y0o-a6-m3-cC_1y0o-a6-m4-cE 1y0o-a6-m3-cE_1y0o-a6-m4-cC CEFSVSPSGLAFCDKVVGYGPEAVKGQLIKAHYVGKLENGKVFDSSYNRGKPLTFRIGVGEVIKGWDQGILGSDGIPPMLTGGKRTLRIPPELAYGDRGAGCKGGSCLIPPASVLLFDIEYIGKA CEFSVSPSGLAFCDKVVGYGPEAVKGQLIKAHYVGKLENGKVFDSSYNRGKPLTFRIGVGEVIKGWDQGILGSDGIPPMLTGGKRTLRIPPELAYGDRGAGCKGGSCLIPPASVLLFDIEYIGKA 1y0u-a1-m1-cB_1y0u-a1-m1-cA Crystal Structure of the putative arsenical resistance operon repressor from Archaeoglobus fulgidus O30069 O30069 1.6 X-RAY DIFFRACTION 63 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 85 86 GHSLEEWIKADSLEKADEYHKRYNYAVTNPVRRKILRLDKGRSEEEIQTLSLSKKQLDYHLKVLEAGFCIERVGERWVVTDAGKI GHSLEEWIKADSLEKADEYHKRYNYAVTNPVRRKILRLDKGRSEEEIQTLSLSKKQLDYHLKVLEAGFCIERVGERWVVTDAGKIV 1y10-a3-m1-cD_1y10-a3-m1-cA Mycobacterial adenylyl cyclase Rv1264, holoenzyme, inhibited state P9WMU9 P9WMU9 2.3 X-RAY DIFFRACTION 60 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 356 360 1y10-a3-m1-cB_1y10-a3-m1-cC DDLLGDLGGTARAERAKLVEWLLEQGITPDEIRATNPPLLLATRHLVGDDGTYVSAREISENYGVDLELLQRVQRAVGLARVDDPDAVVHMRADGEAAARAQRFVELGLNPDQVVLVVRVLAEGLSHAAEAMRYTALEAIMRPGATELDIAKGSQALVSQIVPLLGPMIQDMLFMQLRHMMETEAVNAGERAAGKPLPGARQVTVAFADLVGFEVVSAEELGHLAGRLAGLARDLTAPPVWFIKTIGDAVMLVCPDPAPLLDTVLKLVEVVDTDNNFPRLRAGVASGMAVSRAGDWFGSPVNVASRVTGVARPGAVLVADSVREALGDADGFQWSFAGPRRLRGIRGDVRLFRVRR DDLLGDLGGTARAERAKLVEWLLEQGITPDEIRATNPPLLLATRHLVGDDGTYVSAREISENYGVDLELLQRVQRAVGLARVDDPDAVVHMRADGEAAARAQRFVELGLNPDQVVLVVRVLAEGLSHAAEAMRYTALEAIMRPGATELDIAKGSQALVSQIVPLLGPMIQDMLFMQLRHMMETEAVNAGERAAGKPLPGARQVTVAFADLVGFTQLGEVVSAEELGHLAGRLAGLARDLTAPPVWFIKTIGDAVMLVCPDPAPLLDTVLKLVEVVDTDNNFPRLRAGVASGMAVSRAGDWFGSPVNVASRVTGVARPGAVLVADSVREALGDADGFQWSFAGPRRLRGIRGDVRLFRVRR 1y10-a3-m1-cD_1y10-a3-m1-cC Mycobacterial adenylyl cyclase Rv1264, holoenzyme, inhibited state P9WMU9 P9WMU9 2.3 X-RAY DIFFRACTION 355 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 356 363 1y10-a1-m1-cB_1y10-a1-m1-cA 1y10-a2-m1-cD_1y10-a2-m1-cC 1y10-a3-m1-cB_1y10-a3-m1-cA DDLLGDLGGTARAERAKLVEWLLEQGITPDEIRATNPPLLLATRHLVGDDGTYVSAREISENYGVDLELLQRVQRAVGLARVDDPDAVVHMRADGEAAARAQRFVELGLNPDQVVLVVRVLAEGLSHAAEAMRYTALEAIMRPGATELDIAKGSQALVSQIVPLLGPMIQDMLFMQLRHMMETEAVNAGERAAGKPLPGARQVTVAFADLVGFEVVSAEELGHLAGRLAGLARDLTAPPVWFIKTIGDAVMLVCPDPAPLLDTVLKLVEVVDTDNNFPRLRAGVASGMAVSRAGDWFGSPVNVASRVTGVARPGAVLVADSVREALGDADGFQWSFAGPRRLRGIRGDVRLFRVRR NIDDLLGDLGGTARAERAKLVEWLLEQGITPDEIRATNPPLLLATRHLVGDDGTYVSAREISENYGVDLELLQRVQRAVGLARVDDPDAVVHMRADGEAAARAQRFVELGLNPDQVVLVVRVLAEGLSHAAEAMRYTALEAIMRPGATELDIAKGSQALVSQIVPLLGPMIQDMLFMQLRHMMETEAVNAGERAAGKPLPGARQVTVAFADLVGFTQLGEVVSAEELGHLAGRLAGLARDLTAPPVWFIKTIGDAVMLVCPDPAPLLDTVLKLVEVVDTDNNFPRLRAGVASGMAVSRAGDWFGSPVNVASRVTGVARPGAVLVADSVREALGDADGFQWSFAGPRRLRGIRGDVRLFRVRRG 1y13-a1-m1-cC_1y13-a1-m2-cC Structural Analysis of Plasmodium falciparum 6-pyruvoyl tetrahydropterin synthase (PTPS) C6KTB6 C6KTB6 2.2 X-RAY DIFFRACTION 98 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 162 162 1y13-a1-m1-cA_1y13-a1-m2-cB 1y13-a1-m1-cB_1y13-a1-m2-cA NSSAEVSVESPSFSFNCAHFIAYNGFRETLHGHNYNVSLKVRGYVRDDGYVIDFSILKEKVKKVCNKLDHHFILPIYSDVLKFENVKNNIKIICEDNSEYSFPERDCIKLPIKHSSTEEIGQYILNQLIEEDVSLLKSRHIHYIEISVSESPTQKAIVHKYI NSSAEVSVESPSFSFNCAHFIAYNGFRETLHGHNYNVSLKVRGYVRDDGYVIDFSILKEKVKKVCNKLDHHFILPIYSDVLKFENVKNNIKIICEDNSEYSFPERDCIKLPIKHSSTEEIGQYILNQLIEEDVSLLKSRHIHYIEISVSESPTQKAIVHKYI 1y13-a2-m1-cB_1y13-a2-m1-cC Structural Analysis of Plasmodium falciparum 6-pyruvoyl tetrahydropterin synthase (PTPS) C6KTB6 C6KTB6 2.2 X-RAY DIFFRACTION 50 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 162 162 1y13-a1-m1-cA_1y13-a1-m1-cB 1y13-a1-m1-cA_1y13-a1-m1-cC 1y13-a1-m1-cB_1y13-a1-m1-cC 1y13-a1-m2-cA_1y13-a1-m2-cB 1y13-a1-m2-cA_1y13-a1-m2-cC 1y13-a1-m2-cB_1y13-a1-m2-cC 1y13-a2-m1-cA_1y13-a2-m1-cB 1y13-a2-m1-cA_1y13-a2-m1-cC NSSAEVSVESPSFSFNCAHFIAYNGFRETLHGHNYNVSLKVRGYVRDDGYVIDFSILKEKVKKVCNKLDHHFILPIYSDVLKFENVKNNIKIICEDNSEYSFPERDCIKLPIKHSSTEEIGQYILNQLIEEDVSLLKSRHIHYIEISVSESPTQKAIVHKYI NSSAEVSVESPSFSFNCAHFIAYNGFRETLHGHNYNVSLKVRGYVRDDGYVIDFSILKEKVKKVCNKLDHHFILPIYSDVLKFENVKNNIKIICEDNSEYSFPERDCIKLPIKHSSTEEIGQYILNQLIEEDVSLLKSRHIHYIEISVSESPTQKAIVHKYI 1y14-a1-m1-cB_1y14-a1-m1-cD Crystal structure of yeast subcomplex of Rpb4 and Rpb7 P34087 P34087 2.3 X-RAY DIFFRACTION 42 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 154 160 MFFIKDLSLNITLHPSFFGPRMKQYLKTKLLEEVEGSCTGKFGYILCVLDYDNIDIQFNVKYRAVVFKPFKGEVVDGTVVSCSQHGFEVQVGPMKVFVTKHLMPQDLTFNASYQSSEDVITIKSRIRVKIEGCISQVSSIHAIGSIKEDYLGAI MFFIKDLSLNITLPSFFGPRMKQYLKTKLLEEVEGSCTGKFGYILCVLDYDNIDIQAEFNVKYRAVVFKPFKGEVVDGTVVSCSQHGFEVQVGPMKVFVTKHLMPQDLTFNAGSNPPSYQSSEDVITIKSRIRVKIEGCISQVSSIHAIGSIKEDYLGAI 1y1a-a4-m1-cA_1y1a-a4-m1-cB CRYSTAL STRUCTURE OF CALCIUM AND INTEGRIN BINDING PROTEIN Q99828 Q99828 2.3 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 1y1a-a3-m1-cA_1y1a-a3-m1-cB 1y1a-a3-m2-cA_1y1a-a3-m2-cB SKELLAEYQDLTFLTKQEILLAHRRFCELLPQEQRSVESSLRAQVPFEQILSLPELKANPFKERICRVFSTSPAKDSLSFEDFLDLLSVFSDTATPDIKSHYAFRIFDFDDDGTLNREDLSRLVNCLTGEGEDTRLSASEMKQLIDNILEESDIDRDGTINLSEFQHVISRSPDFASSFKIVL SKELLAEYQDLTFLTKQEILLAHRRFCELLPQEQRSVESSLRAQVPFEQILSLPELKANPFKERICRVFSTSPAKDSLSFEDFLDLLSVFSDTATPDIKSHYAFRIFDFDDDGTLNREDLSRLVNCLTGEGEDTRLSASEMKQLIDNILEESDIDRDGTINLSEFQHVISRSPDFASSFKIVL 1y1a-a5-m1-cB_1y1a-a5-m2-cB CRYSTAL STRUCTURE OF CALCIUM AND INTEGRIN BINDING PROTEIN Q99828 Q99828 2.3 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 1y1a-a3-m1-cB_1y1a-a3-m2-cB SKELLAEYQDLTFLTKQEILLAHRRFCELLPQEQRSVESSLRAQVPFEQILSLPELKANPFKERICRVFSTSPAKDSLSFEDFLDLLSVFSDTATPDIKSHYAFRIFDFDDDGTLNREDLSRLVNCLTGEGEDTRLSASEMKQLIDNILEESDIDRDGTINLSEFQHVISRSPDFASSFKIVL SKELLAEYQDLTFLTKQEILLAHRRFCELLPQEQRSVESSLRAQVPFEQILSLPELKANPFKERICRVFSTSPAKDSLSFEDFLDLLSVFSDTATPDIKSHYAFRIFDFDDDGTLNREDLSRLVNCLTGEGEDTRLSASEMKQLIDNILEESDIDRDGTINLSEFQHVISRSPDFASSFKIVL 1y1l-a1-m1-cA_1y1l-a1-m1-cD Crystal structure of arsenate reductase from Archaeoglobus fulgidus DSM 4304, structural genomics O28910 O28910 2.8 X-RAY DIFFRACTION 55 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 124 124 1y1l-a1-m1-cB_1y1l-a1-m1-cC KVLFVCIHNTARSVMAEALFNAMAKSWKAESAGVEKAERVDETVKRLLAERGLKAKEKPRTVDEVNLDDFDLIVTVCEESSCVVLPTDKPVTRWHIENPAGKDEGTYRRVLAEIEERVKKLVGE KVLFVCIHNTARSVMAEALFNAMAKSWKAESAGVEKAERVDETVKRLLAERGLKAKEKPRTVDEVNLDDFDLIVTVCEESSCVVLPTDKPVTRWHIENPAGKDEGTYRRVLAEIEERVKKLVGE 1y1l-a1-m1-cC_1y1l-a1-m1-cD Crystal structure of arsenate reductase from Archaeoglobus fulgidus DSM 4304, structural genomics O28910 O28910 2.8 X-RAY DIFFRACTION 29 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 124 124 1y1l-a1-m1-cA_1y1l-a1-m1-cB KVLFVCIHNTARSVMAEALFNAMAKSWKAESAGVEKAERVDETVKRLLAERGLKAKEKPRTVDEVNLDDFDLIVTVCEESSCVVLPTDKPVTRWHIENPAGKDEGTYRRVLAEIEERVKKLVGE KVLFVCIHNTARSVMAEALFNAMAKSWKAESAGVEKAERVDETVKRLLAERGLKAKEKPRTVDEVNLDDFDLIVTVCEESSCVVLPTDKPVTRWHIENPAGKDEGTYRRVLAEIEERVKKLVGE 1y1m-a3-m1-cB_1y1m-a3-m1-cA Crystal structure of the NR1 ligand binding core in complex with cycloleucine P35439 P35439 1.8 X-RAY DIFFRACTION 56 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 264 271 4kcc-a1-m1-cA_4kcc-a1-m2-cA RLKIVTIHQEPFVYVKPTMSDGTCKEEFTVNGDPVKKVICTGPTVPQCCYGFCIDLLIKLARTMNFTYEVHLVADGKFGTQEKEWNGMMGELLSGQADMIVAPLTINNERAQYIEFSKPFKYQGLTILVKKGTRITGINDPRLRNPSDKFIYATVKQSSVDIYFRRQVELSTMYRHMEKHNYESAAEAIQAVRDNKLHAFIWDSAVLEFEASQKCDLVTTGELFFRSGFGIGMRKDSPWKQNVSLSILKSHENGFMEDLDKTWV RLKIVTIHQEPFVYVKPTMSDGTCKEEFTVNGDPVKKVICTGPTVPQCCYGFCIDLLIKLARTMNFTYEVHLVADGKFGTQERVNNSNKKEWNGMMGELLSGQADMIVAPLTINNERAQYIEFSKPFKYQGLTILVKKGTRITGINDPRLRNPSDKFIYATVKQSSVDIYFRRQVELSTMYRHMEKHNYESAAEAIQAVRDNKLHAFIWDSAVLEFEASQKCDLVTTGELFFRSGFGIGMRKDSPWKQNVSLSILKSHENGFMEDLDKTWV 1y1o-a1-m1-cA_1y1o-a1-m1-cC X-ray crystal Structure of Penicillin-binding protein-related factor A from Bacillus stearothermophilus Q5KXY4 Q5KXY4 2.2 X-RAY DIFFRACTION 49 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 166 166 TLEDDLNATNEYYRERGIAVIHKKPTPVQIVRVDYPKRSAAVITEAYFRQASTTDYNGVYRGKYIDFEAKETKNKTAFPLKNFHAHQIRHEQVVAHGGICFAILRFSLLNETYLLDASHLIAWWNKQEAGGRKSIPKQEIERHGHSIPLGYQPRLDYISVVDNVYF TLEDDLNATNEYYRERGIAVIHKKPTPVQIVRVDYPKRSAAVITEAYFRQASTTDYNGVYRGKYIDFEAKETKNKTAFPLKNFHAHQIRHEQVVAHGGICFAILRFSLLNETYLLDASHLIAWWNKQEAGGRKSIPKQEIERHGHSIPLGYQPRLDYISVVDNVYF 1y1o-a1-m1-cC_1y1o-a1-m1-cD X-ray crystal Structure of Penicillin-binding protein-related factor A from Bacillus stearothermophilus Q5KXY4 Q5KXY4 2.2 X-RAY DIFFRACTION 111 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 166 166 1y1o-a1-m1-cA_1y1o-a1-m1-cB TLEDDLNATNEYYRERGIAVIHKKPTPVQIVRVDYPKRSAAVITEAYFRQASTTDYNGVYRGKYIDFEAKETKNKTAFPLKNFHAHQIRHEQVVAHGGICFAILRFSLLNETYLLDASHLIAWWNKQEAGGRKSIPKQEIERHGHSIPLGYQPRLDYISVVDNVYF TLEDDLNATNEYYRERGIAVIHKKPTPVQIVRVDYPKRSAAVITEAYFRQASTTDYNGVYRGKYIDFEAKETKNKTAFPLKNFHAHQIRHEQVVAHGGICFAILRFSLLNETYLLDASHLIAWWNKQEAGGRKSIPKQEIERHGHSIPLGYQPRLDYISVVDNVYF 1y1q-a1-m1-cB_1y1q-a1-m1-cC Crystal Structure of the Uridine Phosphorylase from Salmonella Typhimurium in Complex with Uridine-5p-monophosphate and Sulfate Ion at 2.35A Resolution P0A1F6 P0A1F6 2.35 X-RAY DIFFRACTION 78 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 239 240 1k3f-a1-m1-cA_1k3f-a1-m1-cE 1k3f-a1-m1-cB_1k3f-a1-m1-cD 1k3f-a1-m1-cC_1k3f-a1-m1-cF 1lx7-a1-m2-cB_1lx7-a1-m1-cA 1lx7-a1-m3-cB_1lx7-a1-m2-cA 1rxc-a1-m1-cA_1rxc-a1-m1-cF 1rxc-a1-m1-cC_1rxc-a1-m1-cB 1rxc-a1-m1-cD_1rxc-a1-m1-cE 1rxc-a2-m1-cG_1rxc-a2-m1-cL 1rxc-a2-m1-cH_1rxc-a2-m1-cI 1rxc-a2-m1-cK_1rxc-a2-m1-cJ 1rxs-a1-m1-ca_1rxs-a1-m1-cB 1rxs-a1-m1-cb_1rxs-a1-m1-cC 1rxs-a1-m1-cc_1rxs-a1-m1-cA 1rxs-a2-m1-cD_1rxs-a2-m1-cR 1rxs-a2-m1-cE_1rxs-a2-m1-cd 1rxs-a2-m1-ce_1rxs-a2-m1-cF 1rxs-a3-m1-cG_1rxs-a3-m1-ci 1rxs-a3-m1-cI_1rxs-a3-m1-ch 1rxs-a3-m1-cP_1rxs-a3-m1-cH 1rxs-a4-m1-cj_1rxs-a4-m1-cK 1rxs-a4-m1-ck_1rxs-a4-m1-cL 1rxs-a4-m1-cl_1rxs-a4-m1-cJ 1rxs-a5-m1-cM_1rxs-a5-m1-co 1rxs-a5-m1-cN_1rxs-a5-m1-cm 1rxs-a5-m1-cO_1rxs-a5-m1-cQ 1rxu-a1-m1-cA_1rxu-a1-m1-cF 1rxu-a1-m1-cB_1rxu-a1-m1-cC 1rxu-a1-m1-cD_1rxu-a1-m1-cE 1rxu-a2-m1-cG_1rxu-a2-m1-cL 1rxu-a2-m1-cH_1rxu-a2-m1-cI 1rxu-a2-m1-cJ_1rxu-a2-m1-cK 1rxu-a3-m1-cM_1rxu-a3-m1-cR 1rxu-a3-m1-cN_1rxu-a3-m1-cO 1rxu-a3-m1-cP_1rxu-a3-m1-cQ 1rxy-a1-m1-cA_1rxy-a1-m2-cB 1rxy-a1-m1-cB_1rxy-a1-m3-cA 1rxy-a1-m2-cA_1rxy-a1-m3-cB 1ryz-a1-m1-cB_1ryz-a1-m1-cF 1ryz-a2-m1-cA_1ryz-a2-m2-cE 1ryz-a2-m1-cB_1ryz-a2-m1-cF 1ryz-a2-m1-cD_1ryz-a2-m2-cC 1ryz-a3-m1-cB_1ryz-a3-m1-cF 1sj9-a1-m1-cA_1sj9-a1-m1-cE 1sj9-a1-m1-cB_1sj9-a1-m1-cF 1sj9-a1-m1-cC_1sj9-a1-m1-cD 1t0u-a1-m3-cA_1t0u-a1-m1-cB 1tgv-a1-m1-cB_1tgv-a1-m3-cA 1tgv-a1-m2-cB_1tgv-a1-m1-cA 1tgv-a1-m3-cB_1tgv-a1-m2-cA 1tgy-a1-m1-cA_1tgy-a1-m2-cB 1tgy-a1-m1-cB_1tgy-a1-m3-cA 1tgy-a1-m2-cA_1tgy-a1-m3-cB 1u1c-a1-m1-cC_1u1c-a1-m1-cA 1u1c-a1-m1-cD_1u1c-a1-m1-cE 1u1c-a1-m1-cF_1u1c-a1-m1-cB 1u1d-a1-m1-cC_1u1d-a1-m1-cA 1u1d-a1-m1-cD_1u1d-a1-m1-cE 1u1d-a1-m1-cF_1u1d-a1-m1-cB 1u1e-a1-m1-cC_1u1e-a1-m1-cA 1u1e-a1-m1-cD_1u1e-a1-m1-cE 1u1e-a1-m1-cF_1u1e-a1-m1-cB 1u1f-a1-m1-cA_1u1f-a1-m1-cC 1u1f-a1-m1-cE_1u1f-a1-m1-cD 1u1f-a1-m1-cF_1u1f-a1-m1-cB 1u1g-a1-m1-cA_1u1g-a1-m1-cC 1u1g-a1-m1-cE_1u1g-a1-m1-cD 1u1g-a1-m1-cF_1u1g-a1-m1-cB 1y1q-a1-m1-cD_1y1q-a1-m1-cA 1y1q-a1-m1-cE_1y1q-a1-m1-cF 1y1r-a1-m1-cD_1y1r-a1-m1-cC 1y1r-a1-m1-cE_1y1r-a1-m1-cA 1y1r-a1-m1-cF_1y1r-a1-m1-cB 1y1s-a1-m1-cA_1y1s-a1-m1-cE 1y1s-a1-m1-cB_1y1s-a1-m1-cF 1y1s-a1-m1-cC_1y1s-a1-m1-cD 1y1t-a1-m3-cF_1y1t-a1-m1-cA 1zl2-a1-m1-cD_1zl2-a1-m1-cC 1zl2-a1-m1-cE_1zl2-a1-m1-cA 1zl2-a1-m1-cF_1zl2-a1-m1-cB 2hn9-a1-m1-cC_2hn9-a1-m1-cD 2hn9-a1-m1-cE_2hn9-a1-m1-cA 2hn9-a1-m1-cF_2hn9-a1-m1-cB 2hrd-a1-m1-cA_2hrd-a1-m1-cE 2hrd-a1-m1-cD_2hrd-a1-m1-cC 2hrd-a1-m1-cF_2hrd-a1-m1-cB 2hsw-a1-m3-cB_2hsw-a1-m1-cA 2hwu-a1-m1-cB_2hwu-a1-m1-cF 2hwu-a1-m1-cC_2hwu-a1-m1-cD 2hwu-a1-m1-cE_2hwu-a1-m1-cA 2i8a-a1-m1-cB_2i8a-a1-m1-cC 2i8a-a1-m1-cD_2i8a-a1-m1-cF 2i8a-a1-m1-cE_2i8a-a1-m1-cA 2iq5-a1-m1-cB_2iq5-a1-m2-cA 2iq5-a1-m2-cB_2iq5-a1-m3-cA 2iq5-a1-m3-cB_2iq5-a1-m1-cA 2oec-a1-m1-cB_2oec-a1-m1-cF 2oec-a1-m1-cC_2oec-a1-m1-cA 2oec-a1-m1-cE_2oec-a1-m1-cD 2oxf-a1-m1-cF_2oxf-a1-m2-cA 2oxf-a1-m2-cF_2oxf-a1-m3-cA 2oxf-a1-m3-cF_2oxf-a1-m1-cA 2pga-a1-m1-cD_2pga-a1-m1-cC 2pga-a1-m1-cE_2pga-a1-m1-cA 2pga-a1-m1-cF_2pga-a1-m1-cB 2qdk-a1-m1-cB_2qdk-a1-m1-cC 2qdk-a1-m1-cD_2qdk-a1-m1-cF 2qdk-a1-m1-cE_2qdk-a1-m1-cA 2rj3-a1-m1-cD_2rj3-a1-m1-cC 2rj3-a1-m1-cE_2rj3-a1-m1-cA 2rj3-a1-m1-cF_2rj3-a1-m1-cB 3c74-a1-m1-cB_3c74-a1-m1-cF 3c74-a1-m1-cC_3c74-a1-m1-cD 3c74-a1-m1-cE_3c74-a1-m1-cA 3ddo-a1-m1-cA_3ddo-a1-m1-cE 3ddo-a1-m1-cC_3ddo-a1-m1-cD 3ddo-a1-m1-cF_3ddo-a1-m1-cB 3dps-a1-m1-cF_3dps-a1-m2-cA 3dps-a1-m2-cF_3dps-a1-m3-cA 3dps-a1-m3-cF_3dps-a1-m1-cA 3fwp-a1-m1-cD_3fwp-a1-m1-cC 3fwp-a1-m1-cE_3fwp-a1-m1-cA 3fwp-a1-m1-cF_3fwp-a1-m1-cB 3kvv-a1-m1-cC_3kvv-a1-m1-cA 3kvv-a1-m1-cD_3kvv-a1-m1-cE 3kvv-a1-m1-cF_3kvv-a1-m1-cB 4e1v-a1-m1-cB_4e1v-a1-m1-cC 4e1v-a1-m1-cD_4e1v-a1-m1-cE 4e1v-a1-m1-cF_4e1v-a1-m1-cA 4e1v-a2-m1-cG_4e1v-a2-m2-cG 4e1v-a2-m1-cH_4e1v-a2-m1-cI 4e1v-a2-m2-cH_4e1v-a2-m2-cI 4i2v-a1-m1-cA_4i2v-a1-m2-cB 4i2v-a1-m1-cB_4i2v-a1-m3-cA 4i2v-a1-m2-cA_4i2v-a1-m3-cB 4i2v-a2-m1-cC_4i2v-a2-m5-cD 4i2v-a2-m1-cD_4i2v-a2-m4-cC 4i2v-a2-m4-cD_4i2v-a2-m5-cC 4i2v-a3-m1-cE_4i2v-a3-m6-cF 4i2v-a3-m1-cF_4i2v-a3-m7-cE 4i2v-a3-m6-cE_4i2v-a3-m7-cF 4jp5-a1-m1-cA_4jp5-a1-m1-cB 4jp5-a1-m1-cC_4jp5-a1-m1-cD 4jp5-a1-m1-cF_4jp5-a1-m1-cE 4ny1-a1-m1-cA_4ny1-a1-m3-cB 4ny1-a1-m1-cB_4ny1-a1-m2-cA 4ny1-a1-m2-cB_4ny1-a1-m3-cA 4of4-a1-m1-cA_4of4-a1-m2-cB 4of4-a1-m1-cB_4of4-a1-m3-cA 4of4-a1-m2-cA_4of4-a1-m3-cB 4ogk-a1-m1-cB_4ogk-a1-m1-cC 4ogk-a1-m1-cD_4ogk-a1-m1-cE 4ogk-a1-m1-cF_4ogk-a1-m1-cA 7q1i-a1-m1-cAAA_7q1i-a1-m2-cBBB 7q1i-a1-m1-cBBB_7q1i-a1-m3-cAAA 7q1i-a1-m2-cAAA_7q1i-a1-m3-cBBB 7q1j-a1-m1-cAAA_7q1j-a1-m2-cBBB 7q1j-a1-m1-cBBB_7q1j-a1-m3-cAAA 7q1j-a1-m2-cAAA_7q1j-a1-m3-cBBB 7q31-a1-m1-cAAA_7q31-a1-m2-cBBB 7q31-a1-m1-cBBB_7q31-a1-m3-cAAA 7q31-a1-m2-cAAA_7q31-a1-m3-cBBB 7q32-a1-m1-cAAA_7q32-a1-m2-cBBB 7q32-a1-m1-cBBB_7q32-a1-m3-cAAA 7q32-a1-m2-cAAA_7q32-a1-m3-cBBB SDVFHLGLTKNDLQGAQLAIVPGDPERVEKIAALMDKPVKLASHREFTSWRAELDGKAVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPMEFPAVADFACTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRRFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQTESHAVKIVVEAARRLL SDVFHLGLTKNDLQGAQLAIVPGDPERVEKIAALMDKPVKLASHREFTSWRAELDGKAVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPMEFPAVADFACTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRRFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQTESHAVKIVVEAARRLL 1y1u-a2-m1-cC_1y1u-a2-m2-cC Structure of unphosphorylated STAT5a P42230 P42230 3.21 X-RAY DIFFRACTION 79 1.0 10090 (Mus musculus) 10090 (Mus musculus) 544 544 1y1u-a1-m1-cA_1y1u-a1-m1-cB SQKHLQINQRFEELRLITQDTENELKKLQQTQEYFIIQYQESLRIQAQFAQLGQLNPQERMSRETALQQKQVSLETWLQREAQTLQQYRVELAEKHQKTLQLLRKQQTIILDDELIQWKRRQQLAGNGGPPEGSLDVLQSWCEKLAEIIWQNRQQIRRAEHLCQQLPIPGPVEEMLAEVNATITDIISALVTSTFIIEKQPPQVLKTQTKFAATVRLLVGGKLNVHMNPPQVKATIISEQQAKSLLKNENTRNECSGEILNNCCVMEYHQATGTLSAHFRNMSLKRESVTEEKFTVLFESQFSVGSNELVFQVKTLSLPVVVIVHGSQDHNATATVLWDNAFAEPGRVPFAVPDKVLWPQLCEALNMKFKAEVQSNRGLTKENLVFLAQKLFNISSNHLEDYNSMSVSWSQFNRENLPGWNYTFWQWFDGVMEVLKKHHKPHWNDGAILGFVNKQQAHDLLINKPDGTFLLRFSDSEIGGITIAWKFDSPDRNLWNLKPFTTRDFSIRSLADRLGDLNYLIYVFPDRPKDEVFAKYYTPVLAKA SQKHLQINQRFEELRLITQDTENELKKLQQTQEYFIIQYQESLRIQAQFAQLGQLNPQERMSRETALQQKQVSLETWLQREAQTLQQYRVELAEKHQKTLQLLRKQQTIILDDELIQWKRRQQLAGNGGPPEGSLDVLQSWCEKLAEIIWQNRQQIRRAEHLCQQLPIPGPVEEMLAEVNATITDIISALVTSTFIIEKQPPQVLKTQTKFAATVRLLVGGKLNVHMNPPQVKATIISEQQAKSLLKNENTRNECSGEILNNCCVMEYHQATGTLSAHFRNMSLKRESVTEEKFTVLFESQFSVGSNELVFQVKTLSLPVVVIVHGSQDHNATATVLWDNAFAEPGRVPFAVPDKVLWPQLCEALNMKFKAEVQSNRGLTKENLVFLAQKLFNISSNHLEDYNSMSVSWSQFNRENLPGWNYTFWQWFDGVMEVLKKHHKPHWNDGAILGFVNKQQAHDLLINKPDGTFLLRFSDSEIGGITIAWKFDSPDRNLWNLKPFTTRDFSIRSLADRLGDLNYLIYVFPDRPKDEVFAKYYTPVLAKA 1y1x-a3-m1-cB_1y1x-a3-m1-cA Structural analysis of a homolog of programmed cell death 6 protein from Leishmania major Friedlin Q4QG08 Q4QG08 1.95 X-RAY DIFFRACTION 95 1.0 347515 (Leishmania major strain Friedlin) 347515 (Leishmania major strain Friedlin) 174 182 TSTGVYAPSQELMEWFRAVDTDGSGAISVPELNAALSSAGVPFSLATTEKLLHMYDKNHSGEITFDEFKDLHHFILSMREGFRKRDSSGDGRLDSNEVRAALLSSGYQVSEQTFQALMRKFDRQRRGSLGFDDYVELSIFVCRVRNVFAFYDRERTGQVTFTFDTFIGGSVSIL PTSTGVYAPSARHMNDNQELMEWFRAVDTDGSGAISVPELNAALSSAGVPFSLATTEKLLHMYDKNHSGEITFDEFKDLHHFILSMREGFRKRDSSGDGRLDSNEVRAALLSSGYQVSEQTFQALMRKFDRQRRGSLGFDDYVELSIFVCRVRNVFAFYDRERTGQVTFTFDTFIGGSVSIL 1y23-a2-m1-cC_1y23-a2-m1-cD Crystal structure of a member of HIT family of proteins from bacillus subtilis O07513 O07513 2.3 X-RAY DIFFRACTION 235 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 138 139 1y23-a1-m1-cA_1y23-a1-m1-cB 1y23-a3-m1-cE_1y23-a3-m2-cE ENCIFCKIIAGDIPSAKVYEDEHVLAFLDISQVTKGHTLVIPKTHIENVYEFTDELAKQYFHAVPKIARAIRDEFEPIGLNTLNNNGEKAGQSVFHYHMHIIPRYGKGDGFGAVWKTHADDYKPEDLQNISSSIAKRL ENCIFCKIIAGDIPSAKVYEDEHVLAFLDISQVTKGHTLVIPKTHIENVYEFTDELAKQYFHAVPKIARAIRDEFEPIGLNTLNNNGEKAGQSVFHYHMHIIPRYGKGDGFGAVWKTHADDYKPEDLQNISSSIAKRLA 1y25-a1-m1-cA_1y25-a1-m1-cB structure of mycobacterial thiol peroxidase Tpx P9WG35 P9WG35 2.1 X-RAY DIFFRACTION 40 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 165 165 HSQITLRGNAINTVGELPAVGSPAPAFTLTGGDLGVISSDQFRGKSVLLNIFPSVDTPVSATSVRTFDERAAASGATVLCVSKDLPFAQKRFCGAEGTENVMPASAFRDSFGEDYGVTIADGPMAGLLARAIVVIGADGNVAYTELVPEIAQEPNYEAALAALGA HSQITLRGNAINTVGELPAVGSPAPAFTLTGGDLGVISSDQFRGKSVLLNIFPSVDTPVSATSVRTFDERAAASGATVLCVSKDLPFAQKRFCGAEGTENVMPASAFRDSFGEDYGVTIADGPMAGLLARAIVVIGADGNVAYTELVPEIAQEPNYEAALAALGA 1y2i-a1-m1-cD_1y2i-a1-m1-cE Crystal Structure of MCSG Target APC27401 from Shigella flexneri Q83LS2 Q83LS2 2.3 X-RAY DIFFRACTION 109 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 106 106 1y2i-a1-m1-cA_1y2i-a1-m1-cB 1y2i-a1-m1-cA_1y2i-a1-m1-cE 1y2i-a1-m1-cB_1y2i-a1-m1-cC 1y2i-a1-m1-cC_1y2i-a1-m1-cD QFSTTPTLEGLTIVEYCGVVTGEAILGANIFRDFFAGIRDIVGGRSGAYEKELRKAREIAFEELGSQARALGADAVVGIDIDYETVGQNGSLVSVSGTAVKTRRNI QFSTTPTLEGLTIVEYCGVVTGEAILGANIFRDFFAGIRDIVGGRSGAYEKELRKAREIAFEELGSQARALGADAVVGIDIDYETVGQNGSLVSVSGTAVKTRRNI 1y2m-a1-m1-cA_1y2m-a1-m1-cB Crystal structure of phenylalanine ammonia-lyase from yeast Rhododporidium toruloides P11544 P11544 1.6 X-RAY DIFFRACTION 261 0.994 5286 (Rhodotorula toruloides) 5286 (Rhodotorula toruloides) 652 655 1t6j-a1-m1-cA_1t6j-a1-m2-cB 1t6j-a1-m1-cB_1t6j-a1-m2-cA 1t6p-a1-m1-cC_1t6p-a1-m1-cA 1t6p-a1-m1-cD_1t6p-a1-m1-cB 1t6p-a2-m1-cF_1t6p-a2-m1-cG 1t6p-a2-m1-cH_1t6p-a2-m1-cE 1y2m-a1-m1-cD_1y2m-a1-m1-cC ASTNLAVAGSHLPTTQVTQVDIVEKLAAPTDSTLELDGYSLNLGDVVSAARKGRPVRVKDSDEIRSKIDKSVEFLRTEDAISLQKALLEHQLCGVLPSSFDSFRLGRGLENSLPLEVVRGATIRVNSLTRGHSAVRLVVLEALTNFLNHGITPIVPLRGTISASGDLSPLSYIAAAISGHPDSKVHVVHEGKEKILYAREAALFNLEPVVLGPKEGLGLVNGTAVSASATLALHDAHLSLLSQSLTATVEAVGHAGSFHPFLHDVTRPHPTQIEVAGNIRKLLEGSRFAVHHEEEVDEGILRQDRYPLRTSPQWLGPLVSDLIHAHAVLTIEAGQSTTDNPLIDVENKTSHHGGNFQAAAVANTEKTRLGLAQIGKLNFTQLTELNAGNRGLPSCLAAEDPSLSYHCKGLDIAAAAYTSELGHLANPVTTHVQPAEANQAVNSLALISARRTTESNDVLSLLLATHLYCVLQAIDLRAIEFEFKKQFGPAIVSLIDQHFGSATGSNLRDELVEKVNKTLAKRLEQTNSYDLVPRWHDAFSFAAGTVVEVLSSTSLSLAAVNAWKVAAAESAISLTRQVRETFWSAASTSSPALSYLSPRTQILYAFVREELGVKARRGDVFLGKQEVTIGSNVSKIYEAIKSGRINNVLLKL ASTNLAVAGTTQVTQVDIVEKLAAPTDSTLELDGYSLNLGDVVSAARKGRPVRVKDSDEIRSKIDKSVEFLRSQLSSTEDAISLQKALLEHQLCGVLPSSFDSFRLGRGLENSLPLEVVRGATIRVNSLTRGHSAVRLVVLEALTNFLNHGITPIVPLRGTISASGDLSPLSYIAAAISGHPDSKVHVVHEGKEKILYAREAALFNLEPVVLGPKEGLGLVNGTAVSASATLALHDAHLSLLSQSLTATVEAVGHAGSFHPFLHDVTRPHPTQIEVAGNIRKLLEGSRFAVHHEEEVKDEGILRQDRYPLRTSPQWLGPLVSDLIHAHAVLTIEAGQSTTDNPLIDVENKTSHHGGNFQAAAVANTEKTRLGLAQIGKLNFTQLTELNAGNRGLPSCLAAEDPSLSYHCKGLDIAAAAYTSELGHLANPVTTHVQPAEANQAVNSLALISARRTTESNDVLSLLLATHLYCVLQAIDLRAIEFEFKKQFGPAIVSLIDQHFGSATGSNLRDELVEKVNKTLAKRLEQTNSYDLVPRWHDAFSFAAGTVVEVLSSTSLSLAAVNAWKVAAAESAISLTRQVRETFWSAASTSSPALSYLSPRTQILYAFVREELGVKARRGDVFLGKQEVTIGSNVSKIYEAIKSGRINNVLLKLA 1y2m-a1-m1-cC_1y2m-a1-m1-cB Crystal structure of phenylalanine ammonia-lyase from yeast Rhododporidium toruloides P11544 P11544 1.6 X-RAY DIFFRACTION 111 0.994 5286 (Rhodotorula toruloides) 5286 (Rhodotorula toruloides) 651 655 1t6j-a1-m1-cA_1t6j-a1-m1-cB 1t6j-a1-m2-cA_1t6j-a1-m2-cB 1t6p-a1-m1-cA_1t6p-a1-m1-cB 1t6p-a1-m1-cC_1t6p-a1-m1-cD 1t6p-a2-m1-cF_1t6p-a2-m1-cE 1t6p-a2-m1-cH_1t6p-a2-m1-cG 1y2m-a1-m1-cD_1y2m-a1-m1-cA ASTNLAVAGSHLPTTQVTQVDIVEKLAAPTDSTLELDGYSLNLGDVVSAARKGRPVRVKDSDEIRSKIDKSVEFLRSEDAISLQKALLEHQLCGVLPSSFDSFRLGRGLENSLPLEVVRGATIRVNSLTRGHSAVRLVVLEALTNFLNHGITPIVPLRGTISASGDLSPLSYIAAAISGHPDSKVHVVHEGKEKILYAREAALFNLEPVVLGPKEGLGLVNGTAVSASATLALHDAHLSLLSQSLTATVEAVGHAGSFHPFLHDVTRPHPTQIEVAGNIRKLLEGSRFAVHHEEDEGILRQDRYPLRTSPQWLGPLVSDLIHAHAVLTIEAGQSTTDNPLIDVENKTSHHGGNFQAAAVANTEKTRLGLAQIGKLNFTQLTELNAGNRGLPSCLAAEDPSLSYHCKGLDIAAAAYTSELGHLANPVTTHVQPAEANQAVNSLALISARRTTESNDVLSLLLATHLYCVLQAIDLRAIEFEFKKQFGPAIVSLIDQHFGSATGSNLRDELVEKVNKTLAKRLEQTNSYDLVPRWHDAFSFAAGTVVEVLSSTSLSLAAVNAWKVAAAESAISLTRQVRETFWSAASTSSPALSYLSPRTQILYAFVREELGVKARRGDVFLGKQEVTIGSNVSKIYEAIKSGRINNVLLKLA ASTNLAVAGTTQVTQVDIVEKLAAPTDSTLELDGYSLNLGDVVSAARKGRPVRVKDSDEIRSKIDKSVEFLRSQLSSTEDAISLQKALLEHQLCGVLPSSFDSFRLGRGLENSLPLEVVRGATIRVNSLTRGHSAVRLVVLEALTNFLNHGITPIVPLRGTISASGDLSPLSYIAAAISGHPDSKVHVVHEGKEKILYAREAALFNLEPVVLGPKEGLGLVNGTAVSASATLALHDAHLSLLSQSLTATVEAVGHAGSFHPFLHDVTRPHPTQIEVAGNIRKLLEGSRFAVHHEEEVKDEGILRQDRYPLRTSPQWLGPLVSDLIHAHAVLTIEAGQSTTDNPLIDVENKTSHHGGNFQAAAVANTEKTRLGLAQIGKLNFTQLTELNAGNRGLPSCLAAEDPSLSYHCKGLDIAAAAYTSELGHLANPVTTHVQPAEANQAVNSLALISARRTTESNDVLSLLLATHLYCVLQAIDLRAIEFEFKKQFGPAIVSLIDQHFGSATGSNLRDELVEKVNKTLAKRLEQTNSYDLVPRWHDAFSFAAGTVVEVLSSTSLSLAAVNAWKVAAAESAISLTRQVRETFWSAASTSSPALSYLSPRTQILYAFVREELGVKARRGDVFLGKQEVTIGSNVSKIYEAIKSGRINNVLLKLA 1y2t-a1-m1-cA_1y2t-a1-m2-cB Crystal structure of the common edible mushroom (Agaricus bisporus) lectin Q00022 Q00022 1.5 X-RAY DIFFRACTION 35 1.0 5341 (Agaricus bisporus) 5341 (Agaricus bisporus) 142 142 1y2t-a1-m1-cB_1y2t-a1-m2-cA 1y2u-a1-m1-cA_1y2u-a1-m2-cB 1y2u-a1-m1-cB_1y2u-a1-m2-cA 1y2v-a1-m1-cA_1y2v-a1-m2-cB 1y2v-a1-m1-cB_1y2v-a1-m2-cA 1y2w-a1-m1-cA_1y2w-a1-m2-cB 1y2w-a1-m1-cB_1y2w-a1-m2-cA 1y2x-a1-m1-cA_1y2x-a1-m1-cC 1y2x-a1-m1-cB_1y2x-a1-m1-cD TYTISIRVYQTTPKGFFRPVERTNWKYANGGTWDEVRGEYVLTMGGSGTSGSLRFVSSDTDESFVATFGVHNYKRWCDIVTNLTNEQTALVINQEYYGVPIRDQARENQLTSYNVANAKGRRFAIEYTVTEGDNLKANLIIG TYTISIRVYQTTPKGFFRPVERTNWKYANGGTWDEVRGEYVLTMGGSGTSGSLRFVSSDTDESFVATFGVHNYKRWCDIVTNLTNEQTALVINQEYYGVPIRDQARENQLTSYNVANAKGRRFAIEYTVTEGDNLKANLIIG 1y2t-a1-m2-cA_1y2t-a1-m2-cB Crystal structure of the common edible mushroom (Agaricus bisporus) lectin Q00022 Q00022 1.5 X-RAY DIFFRACTION 73 1.0 5341 (Agaricus bisporus) 5341 (Agaricus bisporus) 142 142 1y2t-a1-m1-cA_1y2t-a1-m1-cB 1y2u-a1-m1-cA_1y2u-a1-m1-cB 1y2u-a1-m2-cA_1y2u-a1-m2-cB 1y2v-a1-m1-cA_1y2v-a1-m1-cB 1y2v-a1-m2-cA_1y2v-a1-m2-cB 1y2w-a1-m1-cA_1y2w-a1-m1-cB 1y2w-a1-m2-cA_1y2w-a1-m2-cB 1y2x-a1-m1-cA_1y2x-a1-m1-cB 1y2x-a1-m1-cC_1y2x-a1-m1-cD TYTISIRVYQTTPKGFFRPVERTNWKYANGGTWDEVRGEYVLTMGGSGTSGSLRFVSSDTDESFVATFGVHNYKRWCDIVTNLTNEQTALVINQEYYGVPIRDQARENQLTSYNVANAKGRRFAIEYTVTEGDNLKANLIIG TYTISIRVYQTTPKGFFRPVERTNWKYANGGTWDEVRGEYVLTMGGSGTSGSLRFVSSDTDESFVATFGVHNYKRWCDIVTNLTNEQTALVINQEYYGVPIRDQARENQLTSYNVANAKGRRFAIEYTVTEGDNLKANLIIG 1y2w-a1-m1-cA_1y2w-a1-m2-cA Crystal structure of the orthorhombic form of the common edible mushroom (Agaricus bisporus) lectin in complex with T-antigen and N-acetylglucosamine Q00022 Q00022 1.74 X-RAY DIFFRACTION 16 1.0 5341 (Agaricus bisporus) 5341 (Agaricus bisporus) 142 142 1y2t-a1-m1-cA_1y2t-a1-m2-cA 1y2t-a1-m1-cB_1y2t-a1-m2-cB 1y2u-a1-m1-cA_1y2u-a1-m2-cA 1y2u-a1-m1-cB_1y2u-a1-m2-cB 1y2v-a1-m1-cA_1y2v-a1-m2-cA 1y2v-a1-m1-cB_1y2v-a1-m2-cB 1y2w-a1-m1-cB_1y2w-a1-m2-cB 1y2x-a1-m1-cA_1y2x-a1-m1-cD 1y2x-a1-m1-cB_1y2x-a1-m1-cC TYTISIRVYQTTPKGFFRPVERTNWKYANGGTWDEVRGEYVLTMGGSGTSGSLRFVSSDTDESFVATFGVHNYKRWCDIVTNLTNEQTALVINQEYYGVPIRDQARENQLTSYNVANAKGRRFAIEYTVTEGDNLKANLIIG TYTISIRVYQTTPKGFFRPVERTNWKYANGGTWDEVRGEYVLTMGGSGTSGSLRFVSSDTDESFVATFGVHNYKRWCDIVTNLTNEQTALVINQEYYGVPIRDQARENQLTSYNVANAKGRRFAIEYTVTEGDNLKANLIIG 1y3i-a2-m1-cA_1y3i-a2-m1-cB Crystal Structure of Mycobacterium tuberculosis NAD kinase-NAD complex P9WHV7 P9WHV7 2.6 X-RAY DIFFRACTION 121 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 231 231 1u0r-a1-m1-cA_1u0r-a1-m1-cD 1u0r-a1-m1-cB_1u0r-a1-m1-cC 1u0t-a1-m1-cA_1u0t-a1-m1-cB 1u0t-a1-m2-cA_1u0t-a1-m2-cB 1y3h-a1-m1-cB_1y3h-a1-m1-cA 1y3h-a1-m2-cB_1y3h-a1-m2-cA 1y3i-a1-m1-cA_1y3i-a1-m1-cB 1y3i-a1-m2-cA_1y3i-a1-m2-cB VLLVVHLVLVLGGDGTFLRAAELARNASIPVLGVNLGRIGFLAEAEAEAIDAVLEHVVAQDYRVEDRLTLDVVVRQGGRIVNRGWALNEVSLEKGPRLGVLGVVVEIDGRPVSAFGCDGVLVSTPTGSTAYAFSAGGPVLWPDLEAILVVPNNAHALFGRPMVTSPEATIAIEIEADGHDALVFCDGRREMLIPAGSRLEVTRCVTSVKWARLDSAPFTDRLVRKFRLPVT VLLVVHLVLVLGGDGTFLRAAELARNASIPVLGVNLGRIGFLAEAEAEAIDAVLEHVVAQDYRVEDRLTLDVVVRQGGRIVNRGWALNEVSLEKGPRLGVLGVVVEIDGRPVSAFGCDGVLVSTPTGSTAYAFSAGGPVLWPDLEAILVVPNNAHALFGRPMVTSPEATIAIEIEADGHDALVFCDGRREMLIPAGSRLEVTRCVTSVKWARLDSAPFTDRLVRKFRLPVT 1y47-a3-m1-cB_1y47-a3-m3-cB Structural studies of designed alpha-helical hairpins 2.7 X-RAY DIFFRACTION 61 1.0 46 46 1u7j-a1-m1-cA_1u7j-a1-m1-cB 1y47-a1-m1-cA_1y47-a1-m2-cA DYLRELYKLEQQAMKLYREASERVGDPVLAKILEDEEKHIEWLETI DYLRELYKLEQQAMKLYREASERVGDPVLAKILEDEEKHIEWLETI 1y4j-a1-m1-cA_1y4j-a1-m1-cB Crystal structure of the paralogue of the human formylglycine generating enzyme Q8NBJ7 Q8NBJ7 1.864 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 268 TSMVQLQGGRFLMGTNSPDSRDGEGPVREATVKPFAIDIFPVTNKDFRDFVREKKYRTEAEMFGWSFVFEDFVSDELRNKAQPMKSVLWWLPVEKAFWRQPAGPGSGIRERLEHPVLHVSWNDARAYCAWRGKRLPTEEEWEFAARGGLKGQVYPWGNWFQPNRTNLWQGKFPKGDKAEDGFHGVSPVNAFPAQNNYGLYDLLGNVWEWTASPYQAAEQDMRVLRGASWIDTADGSANHRARVTTRMGNTPDSASDNLGFRCAADA ATSMVQLQGGRFLMGTNSPDSRDGEGPVREATVKPFAIDIFPVTNKDFRDFVREKKYRTEAEMFGWSFVFEDFVSDELRNKATQPMKSVLWWLPVEKAFWRQPAGPGSGIRERLEHPVLHVSWNDARAYCAWRGKRLPTEEEWEFAARGGLKGQVYPWGNWFQPNRTNLWQGKFPKGDKAEDGFHGVSPVNAFPAQNNYGLYDLLGNVWEWTASPYQAAEQDMRVLRGASWIDTADGSANHRARVTTRMGNTPDSASDNLGFRCAADA 1y4s-a1-m1-cA_1y4s-a1-m1-cB Conformation rearrangement of heat shock protein 90 upon ADP binding P0A6Z3 P0A6Z3 2.9 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 475 475 MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSV MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSV 1y4u-a1-m1-cB_1y4u-a1-m1-cA Conformation rearrangement of heat shock protein 90 upon ADP binding P0A6Z3 P0A6Z3 2.9 X-RAY DIFFRACTION 116 1.0 562 (Escherichia coli) 562 (Escherichia coli) 454 472 QLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDES MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDES 1y50-a2-m2-cA_1y50-a2-m4-cA X-ray crystal structure of Bacillus stearothermophilus Histidine phosphocarrier protein (Hpr) F29W mutant domain_swapped dimer P42013 P42013 2 X-RAY DIFFRACTION 29 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 87 87 1y50-a2-m1-cA_1y50-a2-m3-cA AEKTFKVVSDSGIHARPATILVQTASKWNSEIQLEYNGKTVNLKSIMGVMSLGIPKGATIKITAEGADAAEAMAALTDTLAKEGLAE AEKTFKVVSDSGIHARPATILVQTASKWNSEIQLEYNGKTVNLKSIMGVMSLGIPKGATIKITAEGADAAEAMAALTDTLAKEGLAE 1y50-a2-m3-cA_1y50-a2-m4-cA X-ray crystal structure of Bacillus stearothermophilus Histidine phosphocarrier protein (Hpr) F29W mutant domain_swapped dimer P42013 P42013 2 X-RAY DIFFRACTION 275 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 87 87 1y50-a1-m1-cA_1y50-a1-m2-cA 1y50-a2-m1-cA_1y50-a2-m2-cA AEKTFKVVSDSGIHARPATILVQTASKWNSEIQLEYNGKTVNLKSIMGVMSLGIPKGATIKITAEGADAAEAMAALTDTLAKEGLAE AEKTFKVVSDSGIHARPATILVQTASKWNSEIQLEYNGKTVNLKSIMGVMSLGIPKGATIKITAEGADAAEAMAALTDTLAKEGLAE 1y52-a1-m1-cX_1y52-a1-m2-cY structure of insect cell (Baculovirus) expressed AVR4 (C122S)-biotin complex P56734 P56734 1.7 X-RAY DIFFRACTION 28 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 120 120 1y52-a1-m1-cY_1y52-a1-m2-cX 1y53-a1-m1-cX_1y53-a1-m2-cY 1y53-a1-m1-cY_1y53-a1-m2-cX 1y55-a1-m1-cX_1y55-a1-m2-cY 1y55-a1-m1-cY_1y55-a1-m2-cX 2fhl-a1-m1-cA_2fhl-a1-m2-cB 2fhl-a1-m1-cB_2fhl-a1-m2-cA 2fhn-a1-m1-cX_2fhn-a1-m2-cY 2fhn-a1-m1-cY_2fhn-a1-m2-cX 2mf6-a1-m1-cA_2mf6-a1-m1-cC 2mf6-a1-m1-cB_2mf6-a1-m1-cD 2of8-a1-m1-cA_2of8-a1-m2-cB 2of8-a1-m1-cB_2of8-a1-m2-cA 2of9-a1-m1-cA_2of9-a1-m2-cB 2of9-a1-m1-cB_2of9-a1-m2-cA 2ofa-a1-m1-cB_2ofa-a1-m2-cA 2ofa-a1-m2-cB_2ofa-a1-m1-cA 2ofb-a1-m1-cB_2ofb-a1-m2-cA 2ofb-a1-m2-cB_2ofb-a1-m1-cA 3mm0-a1-m1-cA_3mm0-a1-m1-cC 3mm0-a1-m1-cB_3mm0-a1-m1-cD 3mm0-a2-m1-cE_3mm0-a2-m1-cG 3mm0-a2-m1-cH_3mm0-a2-m1-cF 3mm0-a3-m1-cI_3mm0-a3-m1-cK 3mm0-a3-m2-cI_3mm0-a3-m2-cK 3mm0-a4-m1-cM_3mm0-a4-m3-cN 3mm0-a4-m3-cM_3mm0-a4-m1-cN 4bcs-a1-m1-cB_4bcs-a1-m2-cA 4bcs-a1-m2-cB_4bcs-a1-m1-cA KCSLTGKWTNNLGSIMTIRAVNSRGEFTGTYLTAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDISYDWKATRVGYNNFTRLS KCSLTGKWTNNLGSIMTIRAVNSRGEFTGTYLTAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDISYDWKATRVGYNNFTRLS 1y52-a1-m2-cX_1y52-a1-m2-cY structure of insect cell (Baculovirus) expressed AVR4 (C122S)-biotin complex P56734 P56734 1.7 X-RAY DIFFRACTION 149 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 120 120 1y52-a1-m1-cX_1y52-a1-m1-cY 1y53-a1-m1-cX_1y53-a1-m1-cY 1y53-a1-m2-cX_1y53-a1-m2-cY 1y55-a1-m1-cX_1y55-a1-m1-cY 1y55-a1-m2-cX_1y55-a1-m2-cY 2fhl-a1-m1-cA_2fhl-a1-m1-cB 2fhl-a1-m2-cA_2fhl-a1-m2-cB 2fhn-a1-m1-cX_2fhn-a1-m1-cY 2fhn-a1-m2-cX_2fhn-a1-m2-cY 2mf6-a1-m1-cA_2mf6-a1-m1-cD 2mf6-a1-m1-cB_2mf6-a1-m1-cC 2of8-a1-m1-cA_2of8-a1-m1-cB 2of8-a1-m2-cA_2of8-a1-m2-cB 2of9-a1-m1-cA_2of9-a1-m1-cB 2of9-a1-m2-cA_2of9-a1-m2-cB 2ofa-a1-m1-cB_2ofa-a1-m1-cA 2ofa-a1-m2-cB_2ofa-a1-m2-cA 2ofb-a1-m1-cB_2ofb-a1-m1-cA 2ofb-a1-m2-cB_2ofb-a1-m2-cA 3mm0-a1-m1-cA_3mm0-a1-m1-cD 3mm0-a1-m1-cB_3mm0-a1-m1-cC 3mm0-a2-m1-cE_3mm0-a2-m1-cH 3mm0-a2-m1-cG_3mm0-a2-m1-cF 3mm0-a3-m1-cI_3mm0-a3-m2-cK 3mm0-a3-m2-cI_3mm0-a3-m1-cK 3mm0-a4-m1-cM_3mm0-a4-m3-cM 3mm0-a4-m1-cN_3mm0-a4-m3-cN 4bcs-a1-m1-cA_4bcs-a1-m2-cA 4bcs-a1-m1-cB_4bcs-a1-m2-cB KCSLTGKWTNNLGSIMTIRAVNSRGEFTGTYLTAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDISYDWKATRVGYNNFTRLS KCSLTGKWTNNLGSIMTIRAVNSRGEFTGTYLTAVADNPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDISYDWKATRVGYNNFTRLS 1y56-a1-m1-cA_1y56-a1-m4-cA Crystal structure of L-proline dehydrogenase from P.horikoshii O59088 O59088 2.86 X-RAY DIFFRACTION 28 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 484 484 1y56-a1-m2-cA_1y56-a1-m3-cA MRPLDLTEKRGKKVTIYFEGKELEAYEGEKLPVALLANEIYWLTTSNEGRKRGAFTFGPVPMTVNGVKGLEARRIKVKDGMKIERQGYYDFHEEEIERVVVDVAIIGGGPAGIGAALELQQYLTVALIEERGWLGGDMWLKGIKQEGFNKDSRKVVEELVGKLNENTKIYLETSALGVFDKGEYFLVPVVRGDKLIEILAKRVVLATGAIDSTMLFENNDMPGVFRRDFALEVMNVWEVAPGRKVAVTGSKADEVIQELERWGIDYVHIPNVKRVEGNEKVERVIDMNNHEYKVDALIFADGRRPDINPITQAGGKLRFRRGYYSPVLDEYHRIKDGIYVAGSAVSIKPHYANYLEGKLVGAYILKEFGYDAQPCIYEEKLREYEPESLSIPRIPLDKFNLEDVQICGCDVSLKKVDEVIRKGITDLQIIKRLTHLAMGFCQGRYCLFNGAVVVSQRTGKKLSEIDLPVARSPIKNVKMGILAR MRPLDLTEKRGKKVTIYFEGKELEAYEGEKLPVALLANEIYWLTTSNEGRKRGAFTFGPVPMTVNGVKGLEARRIKVKDGMKIERQGYYDFHEEEIERVVVDVAIIGGGPAGIGAALELQQYLTVALIEERGWLGGDMWLKGIKQEGFNKDSRKVVEELVGKLNENTKIYLETSALGVFDKGEYFLVPVVRGDKLIEILAKRVVLATGAIDSTMLFENNDMPGVFRRDFALEVMNVWEVAPGRKVAVTGSKADEVIQELERWGIDYVHIPNVKRVEGNEKVERVIDMNNHEYKVDALIFADGRRPDINPITQAGGKLRFRRGYYSPVLDEYHRIKDGIYVAGSAVSIKPHYANYLEGKLVGAYILKEFGYDAQPCIYEEKLREYEPESLSIPRIPLDKFNLEDVQICGCDVSLKKVDEVIRKGITDLQIIKRLTHLAMGFCQGRYCLFNGAVVVSQRTGKKLSEIDLPVARSPIKNVKMGILAR 1y56-a1-m2-cA_1y56-a1-m4-cA Crystal structure of L-proline dehydrogenase from P.horikoshii O59088 O59088 2.86 X-RAY DIFFRACTION 13 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 484 484 1y56-a1-m1-cA_1y56-a1-m3-cA MRPLDLTEKRGKKVTIYFEGKELEAYEGEKLPVALLANEIYWLTTSNEGRKRGAFTFGPVPMTVNGVKGLEARRIKVKDGMKIERQGYYDFHEEEIERVVVDVAIIGGGPAGIGAALELQQYLTVALIEERGWLGGDMWLKGIKQEGFNKDSRKVVEELVGKLNENTKIYLETSALGVFDKGEYFLVPVVRGDKLIEILAKRVVLATGAIDSTMLFENNDMPGVFRRDFALEVMNVWEVAPGRKVAVTGSKADEVIQELERWGIDYVHIPNVKRVEGNEKVERVIDMNNHEYKVDALIFADGRRPDINPITQAGGKLRFRRGYYSPVLDEYHRIKDGIYVAGSAVSIKPHYANYLEGKLVGAYILKEFGYDAQPCIYEEKLREYEPESLSIPRIPLDKFNLEDVQICGCDVSLKKVDEVIRKGITDLQIIKRLTHLAMGFCQGRYCLFNGAVVVSQRTGKKLSEIDLPVARSPIKNVKMGILAR MRPLDLTEKRGKKVTIYFEGKELEAYEGEKLPVALLANEIYWLTTSNEGRKRGAFTFGPVPMTVNGVKGLEARRIKVKDGMKIERQGYYDFHEEEIERVVVDVAIIGGGPAGIGAALELQQYLTVALIEERGWLGGDMWLKGIKQEGFNKDSRKVVEELVGKLNENTKIYLETSALGVFDKGEYFLVPVVRGDKLIEILAKRVVLATGAIDSTMLFENNDMPGVFRRDFALEVMNVWEVAPGRKVAVTGSKADEVIQELERWGIDYVHIPNVKRVEGNEKVERVIDMNNHEYKVDALIFADGRRPDINPITQAGGKLRFRRGYYSPVLDEYHRIKDGIYVAGSAVSIKPHYANYLEGKLVGAYILKEFGYDAQPCIYEEKLREYEPESLSIPRIPLDKFNLEDVQICGCDVSLKKVDEVIRKGITDLQIIKRLTHLAMGFCQGRYCLFNGAVVVSQRTGKKLSEIDLPVARSPIKNVKMGILAR 1y5e-a2-m1-cC_1y5e-a2-m2-cC Crystal structure of Molybdenum cofactor biosynthesis protein B Q816R0 Q816R0 1.9 X-RAY DIFFRACTION 28 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 157 157 1y5e-a2-m1-cA_1y5e-a2-m2-cB 1y5e-a2-m2-cA_1y5e-a2-m1-cB QAPKEVRCKIVTISDTRTEETDKSGQLLHELLKEAGHKVTSYEIVKDDKESIQQAVLAGYHKEDVDVVLTNGGTGITKRDVTIEAVSALLDKEIVGFGELFRISYLEDIGSSALSRAIGGTIGRKVVFSPGSSGAVRLANKLILPELGHITFELHRQ QAPKEVRCKIVTISDTRTEETDKSGQLLHELLKEAGHKVTSYEIVKDDKESIQQAVLAGYHKEDVDVVLTNGGTGITKRDVTIEAVSALLDKEIVGFGELFRISYLEDIGSSALSRAIGGTIGRKVVFSPGSSGAVRLANKLILPELGHITFELHRQ 1y5e-a2-m2-cB_1y5e-a2-m2-cC Crystal structure of Molybdenum cofactor biosynthesis protein B Q816R0 Q816R0 1.9 X-RAY DIFFRACTION 38 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 156 157 1y5e-a1-m1-cA_1y5e-a1-m1-cB 1y5e-a1-m1-cA_1y5e-a1-m1-cC 1y5e-a1-m1-cB_1y5e-a1-m1-cC 1y5e-a2-m1-cA_1y5e-a2-m1-cB 1y5e-a2-m1-cA_1y5e-a2-m1-cC 1y5e-a2-m1-cB_1y5e-a2-m1-cC 1y5e-a2-m2-cA_1y5e-a2-m2-cB 1y5e-a2-m2-cA_1y5e-a2-m2-cC QAPKEVRCKIVTISDTRTEETDKSGQLLHELLKEAGHKVTSYEIVKDDKESIQQAVLAGYHKEDVDVVLTNGGTGITKRDVTIEAVSALLDKEIVGFGELFRISYLEDIGSSALSRAIGGTIGRKVVFSPGSSGAVRLANKLILPELGHITFELHR QAPKEVRCKIVTISDTRTEETDKSGQLLHELLKEAGHKVTSYEIVKDDKESIQQAVLAGYHKEDVDVVLTNGGTGITKRDVTIEAVSALLDKEIVGFGELFRISYLEDIGSSALSRAIGGTIGRKVVFSPGSSGAVRLANKLILPELGHITFELHRQ 1y5h-a1-m1-cB_1y5h-a1-m1-cA Crystal structure of truncated Se-Met Hypoxic Response Protein I (HRPI) P9WJA3 P9WJA3 1.5 X-RAY DIFFRACTION 48 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 117 118 1xkf-a1-m1-cA_1xkf-a1-m2-cB TTARDINAGVTCVGEHETLTAAAQYREHDIGALPICGDDDRLHGLTDRDIVIKGLAAGLDPNTATAGELARDSIYYVDANASIQELNVEEHQVRRVPVISEHRLVGIVTEADIARHL TTARDINAGVTCVGEHETLTAAAQYREHDIGALPICGDDDRLHGLTDRDIVIKGLAAGLDPNTATAGELARDSIYYVDANASIQELNVEEHQVRRVPVISEHRLVGIVTEADIARHLP 1y5y-a2-m2-cC_1y5y-a2-m1-cA Structure of the tetrahydromethanopterin dependent formaldehyde-activating enzyme (Fae) from Methylobacterium extorquens AM1 Q9FA38 Q9FA38 2 X-RAY DIFFRACTION 17 1.0 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 158 159 1y5y-a2-m1-cB_1y5y-a2-m2-cB 1y5y-a2-m1-cC_1y5y-a2-m2-cA AKITKVQVGEALVGDGNEVAHIDLIIGPRGSPAETAFCNGLVNNKHGFTSLLAVIAPNLPCKPNTLMFNKVTINDARQAVQMFGPAQHGVAMAVQDAVAEGIIPADEADDLYVLVGVFIHWEAADDAKIQKYNYEATKLSIQRAVNGEPKASVVTEQR AKITKVQVGEALVGDGNEVAHIDLIIGPRGSPAETAFCNGLVNNKHGFTSLLAVIAPNLPCKPNTLMFNKVTINDARQAVQMFGPAQHGVAMAVQDAVAEGIIPADEADDLYVLVGVFIHWEAADDAKIQKYNYEATKLSIQRAVNGEPKASVVTEQRK 1y5y-a2-m2-cE_1y5y-a2-m2-cA Structure of the tetrahydromethanopterin dependent formaldehyde-activating enzyme (Fae) from Methylobacterium extorquens AM1 Q9FA38 Q9FA38 2 X-RAY DIFFRACTION 99 1.0 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 158 159 1y5y-a1-m1-cA_1y5y-a1-m1-cB 1y5y-a1-m1-cC_1y5y-a1-m1-cB 1y5y-a1-m1-cC_1y5y-a1-m1-cD 1y5y-a1-m1-cE_1y5y-a1-m1-cA 1y5y-a1-m1-cE_1y5y-a1-m1-cD 1y5y-a2-m1-cA_1y5y-a2-m1-cB 1y5y-a2-m1-cC_1y5y-a2-m1-cB 1y5y-a2-m1-cC_1y5y-a2-m1-cD 1y5y-a2-m1-cE_1y5y-a2-m1-cA 1y5y-a2-m1-cE_1y5y-a2-m1-cD 1y5y-a2-m2-cA_1y5y-a2-m2-cB 1y5y-a2-m2-cC_1y5y-a2-m2-cB 1y5y-a2-m2-cC_1y5y-a2-m2-cD 1y5y-a2-m2-cE_1y5y-a2-m2-cD 1y60-a1-m1-cA_1y60-a1-m1-cB 1y60-a1-m1-cA_1y60-a1-m1-cE 1y60-a1-m1-cB_1y60-a1-m1-cC 1y60-a1-m1-cC_1y60-a1-m1-cD 1y60-a1-m1-cE_1y60-a1-m1-cD AKITKVQVGEALVGDGNEVAHIDLIIGPRGSPAETAFCNGLVNNKHGFTSLLAVIAPNLPCKPNTLMFNKVTINDARQAVQMFGPAQHGVAMAVQDAVAEGIIPADEADDLYVLVGVFIHWEAADDAKIQKYNYEATKLSIQRAVNGEPKASVVTEQR AKITKVQVGEALVGDGNEVAHIDLIIGPRGSPAETAFCNGLVNNKHGFTSLLAVIAPNLPCKPNTLMFNKVTINDARQAVQMFGPAQHGVAMAVQDAVAEGIIPADEADDLYVLVGVFIHWEAADDAKIQKYNYEATKLSIQRAVNGEPKASVVTEQRK 1y66-a1-m1-cB_1y66-a1-m1-cA Dioxane contributes to the altered conformation and oligomerization state of a designed engrailed homeodomain variant 1.65 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 46 50 SEEVERKLKEFVRRHQEITQETLHEYAQKLGLNQQAIEQFFREFEQ QWSEEVERKLKEFVRRHQEITQETLHEYAQKLGLNQQAIEQFFREFEQRK 1y66-a1-m1-cB_1y66-a1-m1-cD Dioxane contributes to the altered conformation and oligomerization state of a designed engrailed homeodomain variant 1.65 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 46 46 SEEVERKLKEFVRRHQEITQETLHEYAQKLGLNQQAIEQFFREFEQ SEEVERKLKEFVRRHQEITQETLHEYAQKLGLNQQAIEQFFREFEQ 1y66-a1-m1-cD_1y66-a1-m1-cA Dioxane contributes to the altered conformation and oligomerization state of a designed engrailed homeodomain variant 1.65 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 46 50 SEEVERKLKEFVRRHQEITQETLHEYAQKLGLNQQAIEQFFREFEQ QWSEEVERKLKEFVRRHQEITQETLHEYAQKLGLNQQAIEQFFREFEQRK 1y6h-a2-m1-cA_1y6h-a2-m2-cA Crystal structure of LIPDF Q93LE9 Q93LE9 2.2 X-RAY DIFFRACTION 84 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 177 177 SVRKILRMGDPILRKISEPVTEDEIQTKEFKKLIRDMFDTMRHAEGVGLAAPQIGILKQIVVVGSEDNERYPGTPDVPERIILNPVITPLTKDTSGFWEGCLSVPGMRGYVERPNQIRMQWMDEKGNQFDETIDGYKAIVYQHECDHLQGILYVDRLKDTKLFGFNETLDSSHNVLD SVRKILRMGDPILRKISEPVTEDEIQTKEFKKLIRDMFDTMRHAEGVGLAAPQIGILKQIVVVGSEDNERYPGTPDVPERIILNPVITPLTKDTSGFWEGCLSVPGMRGYVERPNQIRMQWMDEKGNQFDETIDGYKAIVYQHECDHLQGILYVDRLKDTKLFGFNETLDSSHNVLD 1y6j-a2-m1-cA_1y6j-a2-m2-cA L-Lactate Dehydrogenase from Clostridium Thermocellum Cth-1135 A3DCA4 A3DCA4 3.01 X-RAY DIFFRACTION 107 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 289 289 RSKVAIIGAGFVGASAAFTMALRQTANELVLIDVFAIGEAMDINHGLPFMGQMSLYDYSDVKDCDVIVVTAGATRLDLAKKNVMIAKEVTQNIMKYYNHGVILVVSNPVDIITYMIQKWSGLPVGKVIGSGTVLDSIRFRYLLSEKLGVDVKNVHGYIIGEHGDSQLPLWSCTHIAGKNINEYDKKKIAEDVKTAGATIIKNKGATYYGIAVSINTIVETLLKNQNTIRTVGTVINGMYGIEDVAISLPSIVNSEGVQEVLQFNLTPEEEEALRFSAEQVKKVLNEVKN RSKVAIIGAGFVGASAAFTMALRQTANELVLIDVFAIGEAMDINHGLPFMGQMSLYDYSDVKDCDVIVVTAGATRLDLAKKNVMIAKEVTQNIMKYYNHGVILVVSNPVDIITYMIQKWSGLPVGKVIGSGTVLDSIRFRYLLSEKLGVDVKNVHGYIIGEHGDSQLPLWSCTHIAGKNINEYDKKKIAEDVKTAGATIIKNKGATYYGIAVSINTIVETLLKNQNTIRTVGTVINGMYGIEDVAISLPSIVNSEGVQEVLQFNLTPEEEEALRFSAEQVKKVLNEVKN 1y6n-a1-m1-cL_1y6n-a1-m2-cL Crystal structure of Epstein-Barr virus IL-10 mutant (A87I) complexed with the soluble IL-10R1 chain P03180 P03180 2.7 X-RAY DIFFRACTION 213 1.0 10376 (Human gammaherpesvirus 4) 10376 (Human gammaherpesvirus 4) 137 137 CDNFPQLRDLRDAFSRVKTFFQTKDEVDNLLLKESLLEDFKGYLGCQALSEIQFYLEEVPQAENQDPEIKDHVNSLGENLKTLRLRLRRCHRFLPCENKSKAVEQIKNAFNKLQEKGIYKASEFDIFINYIEAYTIK CDNFPQLRDLRDAFSRVKTFFQTKDEVDNLLLKESLLEDFKGYLGCQALSEIQFYLEEVPQAENQDPEIKDHVNSLGENLKTLRLRLRRCHRFLPCENKSKAVEQIKNAFNKLQEKGIYKASEFDIFINYIEAYTIK 1y6x-a1-m1-cA_1y6x-a1-m2-cA The 1.25 A resolution structure of phosphoribosyl-ATP pyrophosphohydrolase from Mycobacterium tuberculosis P9WMM9 P9WMM9 1.25 X-RAY DIFFRACTION 33 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 86 86 VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL 1y6x-a2-m1-cA_1y6x-a2-m3-cA The 1.25 A resolution structure of phosphoribosyl-ATP pyrophosphohydrolase from Mycobacterium tuberculosis P9WMM9 P9WMM9 1.25 X-RAY DIFFRACTION 13 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 86 86 VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL 1y6x-a2-m1-cA_1y6x-a2-m4-cA The 1.25 A resolution structure of phosphoribosyl-ATP pyrophosphohydrolase from Mycobacterium tuberculosis P9WMM9 P9WMM9 1.25 X-RAY DIFFRACTION 10 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 86 86 VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL 1y6x-a3-m1-cA_1y6x-a3-m5-cA The 1.25 A resolution structure of phosphoribosyl-ATP pyrophosphohydrolase from Mycobacterium tuberculosis P9WMM9 P9WMM9 1.25 X-RAY DIFFRACTION 128 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 86 86 1y6x-a2-m3-cA_1y6x-a2-m4-cA 3c90-a1-m1-cA_3c90-a1-m1-cX 3c90-a2-m1-cB_3c90-a2-m1-cC VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL VKTFEDLFAELGDRARTRPADSTTVAALDGGVHALGKKLLEEAGEVWLAAEHESNDALAEEISQLLYWTQVLISRGLSLDDVYRKL 1y6z-a1-m1-cA_1y6z-a1-m1-cB Middle domain of Plasmodium falciparum putative heat shock protein PF14_0417 Q8IL32 Q8IL32 1.88 X-RAY DIFFRACTION 19 0.992 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 242 246 PIWKQDEKSLTENDYYSFYKNTFKAYDDPLAYVHFNVEGQISFNSILYIPGSLPWELSKNMFRGIRLYVKRVFINDKFSESIPRWLTFLRGIVDSENSKMLSIINKRIVLKSISMMKGLKETGGDKWTKFLNTFGKYLKIGVVEDKENQEEIASLVEFYSINSGDKKTDLDSYIENMKEDQKCIYYISGENKKTAQNSPSLEKLKALNYDVLFSLEPIDEFCLSSLTVNKYKGYEVLDVNKA LPIWKQDEKSLTENDYYSFYKNTFKAYDDPLAYVHFNVEGQISFNSILYIPGSLPWELSKNMFDEESRGIRLYVKRVFINDKFSESIPRWLTFLRGIVDSENKSKMLSIINKRIVLKSISMMKGLKETGGDKWTKFLNTFGKYLKIGVVEDKENQEEIASLVEFYSINSGDKKTDLDSYIENMKEDQKCIYYISGENKKTAQNSPSLEKLKALNYDVLFSLEPIDEFCLSSLTVNKYKGYEVLDVN 1y71-a1-m1-cA_1y71-a1-m1-cB X-ray crystal structure of kinase-associated protein B from Bacillus cereus Q816F1 Q816F1 1.95 X-RAY DIFFRACTION 36 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 107 110 TFEIGEIVTGIYKTGKYIGEVTNSRPGSYVVKVLAVLKHPVQERRALAFREQTNIPEQVKKYEGEIPDYTESLKLALETQNSFSEDDSPFAERSLETLQQLKKDYKL TFEIGEIVTGIYKTGKYIGEVTNSRPGSYVVKVLAVLKHPVQGFHERRALAFREQTNIPEQVKKYEGEIPDYTESLKLALETQNSFSEDDSPFAERSLETLQQLKKDYKL 1y74-a1-m1-cA_1y74-a1-m1-cC Solution Structure of mLin-2/mLin-7 L27 Domain Complex O88951 O88951 NOT SOLUTION NMR 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 57 57 LGLERDVSRAVELLERLQRSGELPPQKLQALQRVLQSRFCSAIREVYEQLYDTLDIT LGLERDVSRAVELLERLQRSGELPPQKLQALQRVLQSRFCSAIREVYEQLYDTLDIT 1y74-a1-m1-cB_1y74-a1-m1-cD Solution Structure of mLin-2/mLin-7 L27 Domain Complex O70589 O70589 NOT SOLUTION NMR 16 1.0 10090 (Mus musculus) 10090 (Mus musculus) 50 50 AVQRAKEVLEEISCYPENNDAKELKRILTQPHFMALLQTHDVVAHEVYSD AVQRAKEVLEEISCYPENNDAKELKRILTQPHFMALLQTHDVVAHEVYSD 1y76-a1-m1-cA_1y76-a1-m1-cC Solution Structure of Patj/Pals1 L27 Domain Complex O55164 O55164 NOT SOLUTION NMR 14 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 62 62 NPAAEKMQVLQVLDRLRGKLQEKGDTTQNEKLSAFYETLKSPLFNQILTLQQSIKQLKGQLS NPAAEKMQVLQVLDRLRGKLQEKGDTTQNEKLSAFYETLKSPLFNQILTLQQSIKQLKGQLS 1y76-a1-m1-cB_1y76-a1-m1-cD Solution Structure of Patj/Pals1 L27 Domain Complex Q8N3R9 Q8N3R9 NOT SOLUTION NMR 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 AVKILEIEDLFSSLKHIQHTLVDSQSQEDISLLLQLVQNKDFQNAFKIHNAITVHMNKAS AVKILEIEDLFSSLKHIQHTLVDSQSQEDISLLLQLVQNKDFQNAFKIHNAITVHMNKAS 1y7b-a1-m1-cB_1y7b-a1-m1-cD BETA-D-XYLOSIDASE, A FAMILY 43 GLYCOSIDE HYDROLASE Q97DM1 Q97DM1 1.6 X-RAY DIFFRACTION 45 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 534 534 1y7b-a1-m1-cA_1y7b-a1-m1-cC 1yi7-a1-m1-cA_1yi7-a1-m1-cC 1yi7-a1-m1-cB_1yi7-a1-m1-cD SLIKNPILRGFNPDPSICRADTDYYIATSTFEWFPGVQIHHSKDLVNWHLVAHPLNRTSLLDMKGNPNSGGIWAPDLSYHDGKFWLIYTDVKVTDGMWKDCHNYLTTCESVDGVWSDPITLNGSGFDASLFHDNDGKKYLVNMYWDQRTYNHNFYGIVLQEYSDKEKKLIGKAKIIYKGTDIKYTEGPHIYHIGDYYYLFTAEGGTTYEHSETVARSKNIDGPYEIDPEYPLLTSWHDPRNSLQKCGHASLVHTHTDEWYLAHLVGRPLPVGNQPVLEQRGYCPLGRETSIQRIEWVDNWPRVVGGKQGSVNVEAPKIPEVKWEKTYDEKDNFDSDKLNINFQSLRIPLTENIASLKAKKGNLRLYGKESLTSTFTQAFIARRWQSFKFDASTSVSFSPDTFQQAAGLTCYYNTENWSTIQVTWNEDKGRVIDIVCCDNFHFDMPLKSNVIPIPKDVEYIHLKVEVRVETYQYSYSFDGINWSKVPAIFESRKLSDDYVQGGGFFTGAFVGINCIDITGNNKPADFDYFCYKEE SLIKNPILRGFNPDPSICRADTDYYIATSTFEWFPGVQIHHSKDLVNWHLVAHPLNRTSLLDMKGNPNSGGIWAPDLSYHDGKFWLIYTDVKVTDGMWKDCHNYLTTCESVDGVWSDPITLNGSGFDASLFHDNDGKKYLVNMYWDQRTYNHNFYGIVLQEYSDKEKKLIGKAKIIYKGTDIKYTEGPHIYHIGDYYYLFTAEGGTTYEHSETVARSKNIDGPYEIDPEYPLLTSWHDPRNSLQKCGHASLVHTHTDEWYLAHLVGRPLPVGNQPVLEQRGYCPLGRETSIQRIEWVDNWPRVVGGKQGSVNVEAPKIPEVKWEKTYDEKDNFDSDKLNINFQSLRIPLTENIASLKAKKGNLRLYGKESLTSTFTQAFIARRWQSFKFDASTSVSFSPDTFQQAAGLTCYYNTENWSTIQVTWNEDKGRVIDIVCCDNFHFDMPLKSNVIPIPKDVEYIHLKVEVRVETYQYSYSFDGINWSKVPAIFESRKLSDDYVQGGGFFTGAFVGINCIDITGNNKPADFDYFCYKEE 1y7b-a1-m1-cC_1y7b-a1-m1-cD BETA-D-XYLOSIDASE, A FAMILY 43 GLYCOSIDE HYDROLASE Q97DM1 Q97DM1 1.6 X-RAY DIFFRACTION 118 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 534 534 1y7b-a1-m1-cA_1y7b-a1-m1-cB 1yi7-a1-m1-cA_1yi7-a1-m1-cB 1yi7-a1-m1-cC_1yi7-a1-m1-cD SLIKNPILRGFNPDPSICRADTDYYIATSTFEWFPGVQIHHSKDLVNWHLVAHPLNRTSLLDMKGNPNSGGIWAPDLSYHDGKFWLIYTDVKVTDGMWKDCHNYLTTCESVDGVWSDPITLNGSGFDASLFHDNDGKKYLVNMYWDQRTYNHNFYGIVLQEYSDKEKKLIGKAKIIYKGTDIKYTEGPHIYHIGDYYYLFTAEGGTTYEHSETVARSKNIDGPYEIDPEYPLLTSWHDPRNSLQKCGHASLVHTHTDEWYLAHLVGRPLPVGNQPVLEQRGYCPLGRETSIQRIEWVDNWPRVVGGKQGSVNVEAPKIPEVKWEKTYDEKDNFDSDKLNINFQSLRIPLTENIASLKAKKGNLRLYGKESLTSTFTQAFIARRWQSFKFDASTSVSFSPDTFQQAAGLTCYYNTENWSTIQVTWNEDKGRVIDIVCCDNFHFDMPLKSNVIPIPKDVEYIHLKVEVRVETYQYSYSFDGINWSKVPAIFESRKLSDDYVQGGGFFTGAFVGINCIDITGNNKPADFDYFCYKEE SLIKNPILRGFNPDPSICRADTDYYIATSTFEWFPGVQIHHSKDLVNWHLVAHPLNRTSLLDMKGNPNSGGIWAPDLSYHDGKFWLIYTDVKVTDGMWKDCHNYLTTCESVDGVWSDPITLNGSGFDASLFHDNDGKKYLVNMYWDQRTYNHNFYGIVLQEYSDKEKKLIGKAKIIYKGTDIKYTEGPHIYHIGDYYYLFTAEGGTTYEHSETVARSKNIDGPYEIDPEYPLLTSWHDPRNSLQKCGHASLVHTHTDEWYLAHLVGRPLPVGNQPVLEQRGYCPLGRETSIQRIEWVDNWPRVVGGKQGSVNVEAPKIPEVKWEKTYDEKDNFDSDKLNINFQSLRIPLTENIASLKAKKGNLRLYGKESLTSTFTQAFIARRWQSFKFDASTSVSFSPDTFQQAAGLTCYYNTENWSTIQVTWNEDKGRVIDIVCCDNFHFDMPLKSNVIPIPKDVEYIHLKVEVRVETYQYSYSFDGINWSKVPAIFESRKLSDDYVQGGGFFTGAFVGINCIDITGNNKPADFDYFCYKEE 1y7e-a2-m11-cA_1y7e-a2-m9-cA The Crystal Structure of Aminopeptidase I from Borrelia burgdorferi B31 P0C925 P0C925 3.2 X-RAY DIFFRACTION 63 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 397 397 1y7e-a2-m10-cA_1y7e-a2-m2-cA 1y7e-a2-m10-cA_1y7e-a2-m6-cA 1y7e-a2-m12-cA_1y7e-a2-m4-cA 1y7e-a2-m12-cA_1y7e-a2-m8-cA 1y7e-a2-m1-cA_1y7e-a2-m11-cA 1y7e-a2-m1-cA_1y7e-a2-m9-cA 1y7e-a2-m2-cA_1y7e-a2-m6-cA 1y7e-a2-m3-cA_1y7e-a2-m5-cA 1y7e-a2-m3-cA_1y7e-a2-m7-cA 1y7e-a2-m4-cA_1y7e-a2-m8-cA 1y7e-a2-m5-cA_1y7e-a2-m7-cA QNPWIYLNEEEKNQILNFSESYKKFISKFKTEREVTAYALDKAKKLGFINAEEKKNLPGDKIFYTCREKSVAFAIIGKNPIEDGNFIVSHTDSPRLDAKPSPISEENELTFIKTNYYGGIKKYQWLSTPLSIRGVVFLKNGEKVEINIGDNENDPVFVIPDILNLKILIGSLPIETKEKNKVKLATLQLIKEKYKIEEEDFVSSEIEIVPAGTAKDVGFDKALIGAYGQDDKICVFTSLESIFDLEETPNKTAICFLVDKEEIDSRYLEYFVSDIFKIKKSEYNNLHVQKALWNSKSISADVCAAINPEQNAPQLGYGIPIKYTDAELVSYIRQLLNKNNIAWQVATLGKGGTVAKFLAGYGIRTIDGPAVISHSPEITSKFDLYNAYLAYKAFYRE QNPWIYLNEEEKNQILNFSESYKKFISKFKTEREVTAYALDKAKKLGFINAEEKKNLPGDKIFYTCREKSVAFAIIGKNPIEDGNFIVSHTDSPRLDAKPSPISEENELTFIKTNYYGGIKKYQWLSTPLSIRGVVFLKNGEKVEINIGDNENDPVFVIPDILNLKILIGSLPIETKEKNKVKLATLQLIKEKYKIEEEDFVSSEIEIVPAGTAKDVGFDKALIGAYGQDDKICVFTSLESIFDLEETPNKTAICFLVDKEEIDSRYLEYFVSDIFKIKKSEYNNLHVQKALWNSKSISADVCAAINPEQNAPQLGYGIPIKYTDAELVSYIRQLLNKNNIAWQVATLGKGGTVAKFLAGYGIRTIDGPAVISHSPEITSKFDLYNAYLAYKAFYRE 1y7e-a2-m3-cA_1y7e-a2-m9-cA The Crystal Structure of Aminopeptidase I from Borrelia burgdorferi B31 P0C925 P0C925 3.2 X-RAY DIFFRACTION 190 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 397 397 1y7e-a2-m11-cA_1y7e-a2-m8-cA 1y7e-a2-m12-cA_1y7e-a2-m6-cA 1y7e-a2-m1-cA_1y7e-a2-m10-cA 1y7e-a2-m2-cA_1y7e-a2-m5-cA 1y7e-a2-m4-cA_1y7e-a2-m7-cA QNPWIYLNEEEKNQILNFSESYKKFISKFKTEREVTAYALDKAKKLGFINAEEKKNLPGDKIFYTCREKSVAFAIIGKNPIEDGNFIVSHTDSPRLDAKPSPISEENELTFIKTNYYGGIKKYQWLSTPLSIRGVVFLKNGEKVEINIGDNENDPVFVIPDILNLKILIGSLPIETKEKNKVKLATLQLIKEKYKIEEEDFVSSEIEIVPAGTAKDVGFDKALIGAYGQDDKICVFTSLESIFDLEETPNKTAICFLVDKEEIDSRYLEYFVSDIFKIKKSEYNNLHVQKALWNSKSISADVCAAINPEQNAPQLGYGIPIKYTDAELVSYIRQLLNKNNIAWQVATLGKGGTVAKFLAGYGIRTIDGPAVISHSPEITSKFDLYNAYLAYKAFYRE QNPWIYLNEEEKNQILNFSESYKKFISKFKTEREVTAYALDKAKKLGFINAEEKKNLPGDKIFYTCREKSVAFAIIGKNPIEDGNFIVSHTDSPRLDAKPSPISEENELTFIKTNYYGGIKKYQWLSTPLSIRGVVFLKNGEKVEINIGDNENDPVFVIPDILNLKILIGSLPIETKEKNKVKLATLQLIKEKYKIEEEDFVSSEIEIVPAGTAKDVGFDKALIGAYGQDDKICVFTSLESIFDLEETPNKTAICFLVDKEEIDSRYLEYFVSDIFKIKKSEYNNLHVQKALWNSKSISADVCAAINPEQNAPQLGYGIPIKYTDAELVSYIRQLLNKNNIAWQVATLGKGGTVAKFLAGYGIRTIDGPAVISHSPEITSKFDLYNAYLAYKAFYRE 1y7i-a2-m1-cA_1y7i-a2-m2-cB Structural and biochemical studies identify tobacco SABP2 as a methylsalicylate esterase and further implicate it in plant innate immunity, Northeast Structural Genomics Target AR2241 Q6RYA0 Q6RYA0 2.1 X-RAY DIFFRACTION 20 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 249 253 1y7i-a2-m2-cA_1y7i-a2-m1-cB EGKHFVLVHGACHGGWSWYKLKPLLEAAGHKVTALDLAASGTDLRKIEELRTLYDYTLPLELESLSADEKVILVGHSLGGNLGLAEKYPQKIYAAVFLAAFPDSVHNSSFVLEQYNERTPAENWLDTQFLPYGSPEEPLTSFFGPKFLAHKLYQLCSPEDLALASSLVRPSSLFEDLSKAKYFTDERFGSVKRVYIVCTEDKGIPEEFQRWQIDNIGVTEAIEIKGADHALCEPQKLCASLLEIAHKYN EGKHFVLVHGACHGGWSWYKLKPLLEAAGHKVTALDLAASGTDLRKIEELRTLYDYTLPLELESLSADEKVILVGHSLGGNLGLAEKYPQKIYAAVFLAAFPDSVHNSSFVLEQYNERTPAENWLDTQFLPYGSPEEPLTSFFGPKFLAHKLYQLCSPEDLALASSLVRPSSLFEDLSKAKYFTDERFGSVKRVYIVCTEDKGIPEEFQRWQIDNIGVTEAIEIKGADHALCEPQKLCASLLEIAHKYNLEHH 1y7m-a1-m1-cA_1y7m-a1-m1-cB Crystal Structure of the B. subtilis YkuD protein at 2 A resolution O34816 O34816 2.05 X-RAY DIFFRACTION 56 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 161 161 LTYQVKQGDTLNSIAADFRISTAALLQANPSLQAGLTAGQSIVIPGLPDPYTIPYHIAVSIGAKTLTLSLNNRVKTYPIAVGKILTQTPTGEFYIINRQRNPGGPFGAYWLSLSAAHYGIHGTNNPASIGKAVSKGCIRHNKDVIELASIVPNGTRVTINR LTYQVKQGDTLNSIAADFRISTAALLQANPSLQAGLTAGQSIVIPGLPDPYTIPYHIAVSIGAKTLTLSLNNRVKTYPIAVGKILTQTPTGEFYIINRQRNPGGPFGAYWLSLSAAHYGIHGTNNPASIGKAVSKGCIRHNKDVIELASIVPNGTRVTINR 1y7o-a1-m1-cA_1y7o-a1-m2-cA The structure of Streptococcus pneumoniae A153P ClpP P63788 P63788 2.51 X-RAY DIFFRACTION 11 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 159 159 1y7o-a1-m1-cE_1y7o-a1-m2-cD 1y7o-a1-m1-cF_1y7o-a1-m2-cC 1y7o-a1-m1-cG_1y7o-a1-m2-cB 1y7o-a1-m2-cE_1y7o-a1-m1-cD 1y7o-a1-m2-cF_1y7o-a1-m1-cC 1y7o-a1-m2-cG_1y7o-a1-m1-cB IPVVIESYDIYSRLLKDRIILTGPVEDNANSVIAQLLFLDAQDSTKDIYLYVNTPGGSVSAGLAIVDTNFIKADVQTIVGAASGTVIASSGAKGKRFLPNAEYIHQPAPEHLLKTRNTLEKILAENSGQSEKVHADAERDNWSAQETLEYGFIDEIANN IPVVIESYDIYSRLLKDRIILTGPVEDNANSVIAQLLFLDAQDSTKDIYLYVNTPGGSVSAGLAIVDTNFIKADVQTIVGAASGTVIASSGAKGKRFLPNAEYIHQPAPEHLLKTRNTLEKILAENSGQSEKVHADAERDNWSAQETLEYGFIDEIANN 1y7o-a2-m1-cF_1y7o-a2-m1-cE The structure of Streptococcus pneumoniae A153P ClpP P63788 P63788 2.51 X-RAY DIFFRACTION 84 0.994 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 161 162 1y7o-a1-m1-cA_1y7o-a1-m1-cB 1y7o-a1-m1-cA_1y7o-a1-m1-cG 1y7o-a1-m1-cC_1y7o-a1-m1-cB 1y7o-a1-m1-cC_1y7o-a1-m1-cD 1y7o-a1-m1-cE_1y7o-a1-m1-cD 1y7o-a1-m1-cF_1y7o-a1-m1-cE 1y7o-a1-m1-cF_1y7o-a1-m1-cG 1y7o-a1-m2-cA_1y7o-a1-m2-cB 1y7o-a1-m2-cA_1y7o-a1-m2-cG 1y7o-a1-m2-cC_1y7o-a1-m2-cB 1y7o-a1-m2-cC_1y7o-a1-m2-cD 1y7o-a1-m2-cE_1y7o-a1-m2-cD 1y7o-a1-m2-cF_1y7o-a1-m2-cE 1y7o-a1-m2-cF_1y7o-a1-m2-cG 1y7o-a2-m1-cA_1y7o-a2-m1-cB 1y7o-a2-m1-cA_1y7o-a2-m1-cG 1y7o-a2-m1-cC_1y7o-a2-m1-cB 1y7o-a2-m1-cC_1y7o-a2-m1-cD 1y7o-a2-m1-cE_1y7o-a2-m1-cD 1y7o-a2-m1-cF_1y7o-a2-m1-cG MIPVVISYDIYSRLLKDRIILTGPVEDNANSVIAQLLFLDAQDSTKDIYLYVNTPGGSVSAGLAIVDTNFIKADVQTIVGAASGTVIASSGAKGKRFLPNAEYIHQPAPEHLLKTRNTLEKILAENSGQSEKVHADAERDNWSAQETLEYGFIDEIANNSL MIPVVIERSYDIYSRLLKDRIILTGPVEDNANSVIAQLLFLDAQDSTKDIYLYVNTPGGSVSAGLAIVDTNFIKADVQTIVGAASGTVIASSGAKGKRFLPNAEYIHQPAPEHLLKTRNTLEKILAENSGQSEKVHADAERDNWSAQETLEYGFIDEIANNS 1y7p-a3-m1-cA_1y7p-a3-m5-cA 1.9 A Crystal Structure of a Protein of Unknown Function AF1403 from Archaeoglobus fulgidus, Probable Metabolic Regulator O28869 O28869 1.9 X-RAY DIFFRACTION 12 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 212 212 LRGLRIIAENKIGVLRDLTTIIANITFAQTFLIKHGEHEGKALIYFEIEGGDFEKILERVKTFDYIIEIEEEESFERVFGKRVIILGGGALVSQVAIGAISEADRHNLRGERISVDTMPVVGEEEIAEAVKAVSRLHRAEVLVLAGGIMGGKITEEVKKLRKSGIRVISLSMFGSVPDVADVVISDPVMAGTLAVMHISEKAKFDLDRVKGR LRGLRIIAENKIGVLRDLTTIIANITFAQTFLIKHGEHEGKALIYFEIEGGDFEKILERVKTFDYIIEIEEEESFERVFGKRVIILGGGALVSQVAIGAISEADRHNLRGERISVDTMPVVGEEEIAEAVKAVSRLHRAEVLVLAGGIMGGKITEEVKKLRKSGIRVISLSMFGSVPDVADVVISDPVMAGTLAVMHISEKAKFDLDRVKGR 1y7p-a3-m3-cB_1y7p-a3-m4-cB 1.9 A Crystal Structure of a Protein of Unknown Function AF1403 from Archaeoglobus fulgidus, Probable Metabolic Regulator O28869 O28869 1.9 X-RAY DIFFRACTION 191 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 217 217 1y7p-a2-m1-cB_1y7p-a2-m2-cB GHMLRGLRIIAENKIGVLRDLTTIIAEEGGNITFAQTFLIKHGEHEGKALIYFEIEGGDFEKILERVKTFDYIIEIEEEESFERVFGKRVIILGGGALVSQVAIGAISEADRHNLRGERISVDTMPVVGEEEIAEAVKAVSRLHRAEVLVLAGGIMGGKITEEVKKLRKSGIRVISLSMFGSVPDVADVVISDPVMAGTLAVMHISEKAKFDLDRVK GHMLRGLRIIAENKIGVLRDLTTIIAEEGGNITFAQTFLIKHGEHEGKALIYFEIEGGDFEKILERVKTFDYIIEIEEEESFERVFGKRVIILGGGALVSQVAIGAISEADRHNLRGERISVDTMPVVGEEEIAEAVKAVSRLHRAEVLVLAGGIMGGKITEEVKKLRKSGIRVISLSMFGSVPDVADVVISDPVMAGTLAVMHISEKAKFDLDRVK 1y7p-a4-m5-cA_1y7p-a4-m3-cB 1.9 A Crystal Structure of a Protein of Unknown Function AF1403 from Archaeoglobus fulgidus, Probable Metabolic Regulator O28869 O28869 1.9 X-RAY DIFFRACTION 46 0.991 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 212 217 1y7p-a3-m1-cA_1y7p-a3-m4-cB 1y7p-a3-m5-cA_1y7p-a3-m3-cB LRGLRIIAENKIGVLRDLTTIIANITFAQTFLIKHGEHEGKALIYFEIEGGDFEKILERVKTFDYIIEIEEEESFERVFGKRVIILGGGALVSQVAIGAISEADRHNLRGERISVDTMPVVGEEEIAEAVKAVSRLHRAEVLVLAGGIMGGKITEEVKKLRKSGIRVISLSMFGSVPDVADVVISDPVMAGTLAVMHISEKAKFDLDRVKGR GHMLRGLRIIAENKIGVLRDLTTIIAEEGGNITFAQTFLIKHGEHEGKALIYFEIEGGDFEKILERVKTFDYIIEIEEEESFERVFGKRVIILGGGALVSQVAIGAISEADRHNLRGERISVDTMPVVGEEEIAEAVKAVSRLHRAEVLVLAGGIMGGKITEEVKKLRKSGIRVISLSMFGSVPDVADVVISDPVMAGTLAVMHISEKAKFDLDRVK 1y7q-a1-m1-cA_1y7q-a1-m1-cB Mammalian SCAN domain dimer is a domain-swapped homologue of the HIV capsid C-terminal domain Q15697 Q15697 NOT SOLUTION NMR 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 GSKNCPDPELCRQSFRRFCYQEVSGPQEALSQLRQLCRQWLQPELHTKEQILELLVMEQFLTILPEEIQARVRHRCLMSSKEIVTLVEDFHRASKKPK GSKNCPDPELCRQSFRRFCYQEVSGPQEALSQLRQLCRQWLQPELHTKEQILELLVMEQFLTILPEEIQARVRHRCLMSSKEIVTLVEDFHRASKKPK 1y7r-a1-m1-cA_1y7r-a1-m1-cB 1.7 A Crystal Structure of Protein of Unknown Function SA2161 from Meticillin-Resistant Staphylococcus aureus, Probable Acetyltransferase A0A0H3JSZ8 A0A0H3JSZ8 1.7 X-RAY DIFFRACTION 198 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 126 126 VKVTYDIPTCEDYCALRINAGSPKTREAAEKGLPNALFTVTLYDKDRLIGGRVIGDGGTVFQIVDIAVLKSYQGQAYGSLIEHIKYIKNVSVESVYVSLIADYPADKLYVKFGFPTEPDSGGYIKY VKVTYDIPTCEDYCALRINAGSPKTREAAEKGLPNALFTVTLYDKDRLIGGRVIGDGGTVFQIVDIAVLKSYQGQAYGSLIEHIKYIKNVSVESVYVSLIADYPADKLYVKFGFPTEPDSGGYIKY 1y7t-a1-m1-cA_1y7t-a1-m1-cB Crystal structure of NAD(H)-depenent malate dehydrogenase complexed with NADPH P10584 P10584 1.65 X-RAY DIFFRACTION 122 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 327 327 1bdm-a1-m1-cA_1bdm-a1-m1-cB 1bmd-a1-m1-cA_1bmd-a1-m1-cB 1iz9-a1-m1-cA_1iz9-a1-m1-cB 1wze-a1-m1-cA_1wze-a1-m1-cB 1wzi-a1-m1-cA_1wzi-a1-m1-cB 2cvq-a1-m1-cA_2cvq-a1-m1-cB 4kde-a1-m1-cB_4kde-a1-m1-cA 4kdf-a1-m1-cA_4kdf-a1-m1-cD 4kdf-a2-m1-cB_4kdf-a2-m1-cC MKAPVRVAVTGAAGQIGYSLLFRIAAGEMLGKDQPVILQLLEIPQAMKALEGVVMELEDCAFPLLAGLEATDDPKVAFKDADYALLVGAAPRKAGMERRDLLQVNGKIFTEQGRALAEVAKKDVKVLVVGNPANTNALIAYKNAPGLNPRNFTAMTRLDHNRAKAQLAKKTGTGVDRIRRMTVWGNHSSTMFPDLFHAEVDGRPALELVDMEWYEKVFIPTVAQRGAAIIQARGASSAASAANAAIEHIRDWALGTPEGDWVSMAVPSQGEYGIPEGIVYSFPVTAKDGAYRVVEGLEINEFARKRMEITAQELLDEMEQVKALGLI MKAPVRVAVTGAAGQIGYSLLFRIAAGEMLGKDQPVILQLLEIPQAMKALEGVVMELEDCAFPLLAGLEATDDPKVAFKDADYALLVGAAPRKAGMERRDLLQVNGKIFTEQGRALAEVAKKDVKVLVVGNPANTNALIAYKNAPGLNPRNFTAMTRLDHNRAKAQLAKKTGTGVDRIRRMTVWGNHSSTMFPDLFHAEVDGRPALELVDMEWYEKVFIPTVAQRGAAIIQARGASSAASAANAAIEHIRDWALGTPEGDWVSMAVPSQGEYGIPEGIVYSFPVTAKDGAYRVVEGLEINEFARKRMEITAQELLDEMEQVKALGLI 1y7u-a1-m1-cA_1y7u-a1-m2-cC Crystal Structure of Acyl-Coa hydrolase from Bacillus cereus Q81EE4 Q81EE4 2.8 X-RAY DIFFRACTION 127 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 160 160 1y7u-a1-m1-cB_1y7u-a1-m2-cB 1y7u-a1-m1-cC_1y7u-a1-m2-cA KGKTANESRVFKTSRVFPTDLNDHNTLFGGKILSEDVASISASRHSRKECVTASDWVDFLHPVRSSDCVSYESFVIWTGRTSEVFVKVVSEYLISGEKRIAATSFVTFVALSKENNPVPVPRVIPDTEEEKESHRIAVLRAEQRHIRKAESKKVATLLTF KGKTANESRVFKTSRVFPTDLNDHNTLFGGKILSEDVASISASRHSRKECVTASDWVDFLHPVRSSDCVSYESFVIWTGRTSEVFVKVVSEYLISGEKRIAATSFVTFVALSKENNPVPVPRVIPDTEEEKESHRIAVLRAEQRHIRKAESKKVATLLTF 1y7u-a1-m1-cC_1y7u-a1-m2-cC Crystal Structure of Acyl-Coa hydrolase from Bacillus cereus Q81EE4 Q81EE4 2.8 X-RAY DIFFRACTION 42 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 160 160 1y7u-a1-m1-cA_1y7u-a1-m2-cB 1y7u-a1-m1-cB_1y7u-a1-m2-cA KGKTANESRVFKTSRVFPTDLNDHNTLFGGKILSEDVASISASRHSRKECVTASDWVDFLHPVRSSDCVSYESFVIWTGRTSEVFVKVVSEYLISGEKRIAATSFVTFVALSKENNPVPVPRVIPDTEEEKESHRIAVLRAEQRHIRKAESKKVATLLTF KGKTANESRVFKTSRVFPTDLNDHNTLFGGKILSEDVASISASRHSRKECVTASDWVDFLHPVRSSDCVSYESFVIWTGRTSEVFVKVVSEYLISGEKRIAATSFVTFVALSKENNPVPVPRVIPDTEEEKESHRIAVLRAEQRHIRKAESKKVATLLTF 1y7w-a3-m1-cA_1y7w-a3-m1-cB Crystal structure of a halotolerant carbonic anhydrase from Dunaliella salina 1.86 X-RAY DIFFRACTION 27 1.0 3046 (Dunaliella salina) 3046 (Dunaliella salina) 274 274 NPNDGYDYMQHGFDWPGLQEGGTTKYPACSGSNQSPIDINTNQLMEPSSRSGTSAVSLNGLNVDGAQADGITLTNAKVDLEQGMKVTFDQPAANLPTIEIGGTTKSFVPIQFHFHHFLSEHTINGIHYPLELHIVMQEQDPADVATAQLAVIGIMYKYSENGDAFLNSLQTQIEGKIGDGTASYGDTGVSIDNINVKTQLLPSSLKYAGYDGSLTTPGCDERVKWHVFTTPREVTREQMKLFVDVTMGAHAGADVVNNRMIQDLGDREVYKYNY NPNDGYDYMQHGFDWPGLQEGGTTKYPACSGSNQSPIDINTNQLMEPSSRSGTSAVSLNGLNVDGAQADGITLTNAKVDLEQGMKVTFDQPAANLPTIEIGGTTKSFVPIQFHFHHFLSEHTINGIHYPLELHIVMQEQDPADVATAQLAVIGIMYKYSENGDAFLNSLQTQIEGKIGDGTASYGDTGVSIDNINVKTQLLPSSLKYAGYDGSLTTPGCDERVKWHVFTTPREVTREQMKLFVDVTMGAHAGADVVNNRMIQDLGDREVYKYNY 1y7y-a1-m1-cB_1y7y-a1-m1-cA High-resolution crystal structure of the restriction-modification controller protein C.AhdI from Aeromonas hydrophila Q7X0F0 Q7X0F0 1.69 X-RAY DIFFRACTION 42 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 66 69 YADLVKFGQRLRELRTAKGLSQETLAFLSGLDRSYVGGVERGQRNVSLVNILKLATALDIEPRELF HDHYADLVKFGQRLRELRTAKGLSQETLAFLSGLDRSYVGGVERGQRNVSLVNILKLATALDIEPRELF 1y82-a1-m1-cC_1y82-a1-m1-cA Conserved hypothetical protein Pfu-367848-001 from Pyrococcus furiosus Q8U3V0 Q8U3V0 2.3 X-RAY DIFFRACTION 21 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 138 139 LPPDITFDSLALIKHSQSKKILEITLAKFTVNLSIVTVYRYLTVRAYLKKNIELELDVLKDIYNIVPLNEEIAIKAAQIEADLRKGPDIEDVLTAATAIYTKSLLITDDSKRYEPRRFGLDTPLDKFVKEVELVEKEL PLPPDITFDSLALIKHSQSKKILEITLAKFTVNLSIVTVYRYLTVRAYLKKNIELELDVLKDIYNIVPLNEEIAIKAAQIEADLRKGPDIEDVLTAATAIYTKSLLITDDSKRYEPRRFGLDTPLDKFVKEVELVEKEL 1y82-a3-m1-cB_1y82-a3-m1-cA Conserved hypothetical protein Pfu-367848-001 from Pyrococcus furiosus Q8U3V0 Q8U3V0 2.3 X-RAY DIFFRACTION 87 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 138 139 1y82-a1-m1-cB_1y82-a1-m1-cA 1y82-a1-m1-cD_1y82-a1-m1-cC 1y82-a2-m1-cD_1y82-a2-m1-cC LPPDITFDSLALIKHSQSKKILEITLAKFTVNLSIVTVYRYLTVRAYLKKNIELELDVLKDIYNIVPLNEEIAIKAAQIEADLRKGPDIEDVLTAATAIYTKSLLITDDSKRYEPRRFGLDTPLDKFVKEVELVEKEL PLPPDITFDSLALIKHSQSKKILEITLAKFTVNLSIVTVYRYLTVRAYLKKNIELELDVLKDIYNIVPLNEEIAIKAAQIEADLRKGPDIEDVLTAATAIYTKSLLITDDSKRYEPRRFGLDTPLDKFVKEVELVEKEL 1y88-a1-m1-cA_1y88-a1-m2-cA Crystal Structure of Protein of Unknown Function AF1548 O28724 O28724 1.85 X-RAY DIFFRACTION 40 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 184 184 NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS 1y88-a2-m3-cA_1y88-a2-m7-cA Crystal Structure of Protein of Unknown Function AF1548 O28724 O28724 1.85 X-RAY DIFFRACTION 11 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 184 184 1y88-a2-m1-cA_1y88-a2-m5-cA 1y88-a2-m4-cA_1y88-a2-m6-cA NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS 1y88-a2-m4-cA_1y88-a2-m7-cA Crystal Structure of Protein of Unknown Function AF1548 O28724 O28724 1.85 X-RAY DIFFRACTION 21 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 184 184 1y88-a2-m1-cA_1y88-a2-m6-cA 1y88-a2-m3-cA_1y88-a2-m5-cA NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS 1y88-a2-m6-cA_1y88-a2-m7-cA Crystal Structure of Protein of Unknown Function AF1548 O28724 O28724 1.85 X-RAY DIFFRACTION 28 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 184 184 1y88-a2-m1-cA_1y88-a2-m3-cA 1y88-a2-m1-cA_1y88-a2-m4-cA 1y88-a2-m3-cA_1y88-a2-m4-cA 1y88-a2-m5-cA_1y88-a2-m6-cA 1y88-a2-m5-cA_1y88-a2-m7-cA NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS NLYFQGHMVARLLEEHGFETKTNVIVQGNCVEQEIDVVAERDGERYMIECKFHNIPVYTGLKEAMYTYARFLDVEKHGFTQPWIFTNTKFSEEAKKYAGCVGIKLTGWSYPEKEGIEVLLESKGLYPITILRIDKEVLDELVRAGLVFCRDVVSAGEEKLREIGLSAKKAREVIAEAKKVIGGS 1y89-a1-m1-cA_1y89-a1-m1-cB Crystal Structure of devB protein Q9KL51 Q9KL51 2 X-RAY DIFFRACTION 16 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 233 233 INHKIFPTADAVVKSLADDLAYSQQGQPVHISLSGGSTPKLFKLLASQPYANDIQWKNLHFWWGDERCVAPDDAESNYGEANALLFSKINPAQNIHRILGENEPQAEAERFAQAAHVIPTENGTPVFDWILLGVGADGHTASLFPGQTDYADANLSVVASHPESGQLRVSKTAKVLQAAKRISYLVLGAGKAEIVEQIHTTPAEQLPYPAAKIHSTSGVTEWYLDSDAAAKIA INHKIFPTADAVVKSLADDLAYSQQGQPVHISLSGGSTPKLFKLLASQPYANDIQWKNLHFWWGDERCVAPDDAESNYGEANALLFSKINPAQNIHRILGENEPQAEAERFAQAAHVIPTENGTPVFDWILLGVGADGHTASLFPGQTDYADANLSVVASHPESGQLRVSKTAKVLQAAKRISYLVLGAGKAEIVEQIHTTPAEQLPYPAAKIHSTSGVTEWYLDSDAAAKIA 1y8g-a1-m1-cA_1y8g-a1-m1-cB Catalytic and ubiqutin-associated domains of MARK2/PAR-1: Inactive double mutant with selenomethionine O08679 O08679 2.501 X-RAY DIFFRACTION 88 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 292 292 HIGNYRLLKTIGKGNFAKVKLARHILTGKEVAVKIIDKTQLNSSSLQKLFREVRIKVLNHPNIVKLFEVIETEKTLYLVEYASGGEVFDYLVAHGRKEKEARAKFRQIVSAVQYCHQKFIVHRDLKAENLLLDADNIKIALDAFCGAPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYSTDCENLLKKFLILNPSKRGTLEQIKDRWNVGHEDDELKPYVEPLPDYKDPRRTELVSGYTREEIQDSLVGQRYNEVATYLLLGY PHIGNYRLLKTIGKGNFAKVKLARHILTGKEVAVKIIDKTQLNSSSLQKLFREVRIKVLNHPNIVKLFEVIETEKTLYLVEYASGGEVFDYLVAHGRKEKEARAKFRQIVSAVQYCHQKFIVHRDLKAENLLLDADNIKIALDAFCGAPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYSTDCENLLKKFLILNPSKRGTLEQIKDRWNVGHEDDELKPYVEPLPDYKDPRRTELVSGYTREEIQDSLVGQRYNEVATYLLLG 1y8o-a1-m1-cA_1y8o-a1-m2-cA Crystal structure of the PDK3-L2 complex Q15120 Q15120 2.48 X-RAY DIFFRACTION 180 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 374 374 1y8n-a1-m1-cA_1y8n-a1-m2-cA 1y8p-a1-m1-cA_1y8p-a1-m2-cA 2pnr-a1-m1-cB_2pnr-a1-m1-cA 2pnr-a2-m1-cF_2pnr-a2-m1-cE 2q8i-a1-m1-cA_2q8i-a1-m2-cA PKQIERYSRFSPSPLSIKQFLDFGRDNACEKTSYMFLRKELPVRLANTMREVNLLPDNLLNRPSVGLVQSWYMQSFLELLEYENKSPEDPQVLDNFLQVLIKVRNRHNDVVPTMAQGVIEYKEKFGFDPFISTNIQYFLDRFYTNRISFRMLINQHTLLFGGDTNPVHPKHIGSIDPTCNVADVVKDAYETAKMLCEQYYLVAPELEVEEFNAKAPDKPIQVVYVPSHLFHMLFELFKNSMRATVELYEDRKEGYPAVKTLVTLGKEDLSIKISDLGGGVPLRKIDRLFNYMYSPLFGYGLPISRLYARYFQGDLKLYSMEGVGTDAVIYLKALSSESFERLPVFNKSAWRHYKTTPEADDWSNPSSEPRDASK PKQIERYSRFSPSPLSIKQFLDFGRDNACEKTSYMFLRKELPVRLANTMREVNLLPDNLLNRPSVGLVQSWYMQSFLELLEYENKSPEDPQVLDNFLQVLIKVRNRHNDVVPTMAQGVIEYKEKFGFDPFISTNIQYFLDRFYTNRISFRMLINQHTLLFGGDTNPVHPKHIGSIDPTCNVADVVKDAYETAKMLCEQYYLVAPELEVEEFNAKAPDKPIQVVYVPSHLFHMLFELFKNSMRATVELYEDRKEGYPAVKTLVTLGKEDLSIKISDLGGGVPLRKIDRLFNYMYSPLFGYGLPISRLYARYFQGDLKLYSMEGVGTDAVIYLKALSSESFERLPVFNKSAWRHYKTTPEADDWSNPSSEPRDASK 1y97-a1-m1-cB_1y97-a1-m1-cA The human TREX2 3' exonuclease structure suggests a mechanism for efficient non-processive DNA catalysis Q9BQ50 Q9BQ50 2.5 X-RAY DIFFRACTION 95 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 209 211 EAPRAETFVFLDLEATGLPSVEPEIAELSLFAVHRSSLENPEHDESGALVLPRVLDKLTLCCPERPFTAKASEITGLSSEGLARCRKAGFDGAVVRTLQAFLSRQAGPICLVAHNGFDYDFPLLCAELRRLGARLPRDTVCLDTLPALRGLDRGYSLGSLFHRYFRAEPHSAEGDVHTLLLIFLHRAAELLAWADEQARGWAHIEPYLP AGSEAPRAETFVFLDLEATGLPSVEPEIAELSLFAVHRSSLENPEHGALVLPRVLDKLTLCCPERPFTAKASEITGLSSEGLARCRKAGFDGAVVRTLQAFLSRQAGPICLVAHNGFDYDFPLLCAELRRLGARLPRDTVCLDTLPALRGLDRAHGYSLGSLFHRYFRAEPSSAEGDVHTLLLIFLHRAAELLAWADEQARGWAHIEPYLP 1y9b-a1-m1-cB_1y9b-a1-m1-cA Structure of Conserved Putative Transcriptional Factor from Vibrio cholerae O1 biovar eltor str. N16961 Q9K2J6 Q9K2J6 2.2 X-RAY DIFFRACTION 112 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 76 79 PRITARVDVDTQDLLAKAAALAGSSINSFVLNAAIEKAKQVIEREQALKLSQADAVLLEALDNPAVVNAKLKLASE TTLPRITARVDVDTQDLLAKAAALAGSSINSFVLNAAIEKAKQVIEREQALKLSQADAVLLEALDNPAVVNAKLKLASE 1y9b-a2-m4-cB_1y9b-a2-m1-cA Structure of Conserved Putative Transcriptional Factor from Vibrio cholerae O1 biovar eltor str. N16961 Q9K2J6 Q9K2J6 2.2 X-RAY DIFFRACTION 33 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 76 79 1y9b-a2-m3-cB_1y9b-a2-m2-cA PRITARVDVDTQDLLAKAAALAGSSINSFVLNAAIEKAKQVIEREQALKLSQADAVLLEALDNPAVVNAKLKLASE TTLPRITARVDVDTQDLLAKAAALAGSSINSFVLNAAIEKAKQVIEREQALKLSQADAVLLEALDNPAVVNAKLKLASE 1y9b-a2-m4-cB_1y9b-a2-m2-cA Structure of Conserved Putative Transcriptional Factor from Vibrio cholerae O1 biovar eltor str. N16961 Q9K2J6 Q9K2J6 2.2 X-RAY DIFFRACTION 12 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 76 79 1y9b-a2-m3-cB_1y9b-a2-m1-cA PRITARVDVDTQDLLAKAAALAGSSINSFVLNAAIEKAKQVIEREQALKLSQADAVLLEALDNPAVVNAKLKLASE TTLPRITARVDVDTQDLLAKAAALAGSSINSFVLNAAIEKAKQVIEREQALKLSQADAVLLEALDNPAVVNAKLKLASE 1y9i-a1-m1-cA_1y9i-a1-m1-cD Crystal structure of low temperature requirement C protein from Listeria monocytogenes Q8Y4N7 Q8Y4N7 1.8 X-RAY DIFFRACTION 74 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 158 158 1y9i-a1-m1-cB_1y9i-a1-m1-cC KQSALESKARSWLIERGVEIDDIAELVLFLQQKYHPGLELDICRQNVEHVLRKREVQNAVLTGIQLDVAEKGELVQPLQNIISADEGLYGVDEILALSIVNVYGSIGFTNYGYIDKVKPGILAKLNEHDGIAVHTFLDDIVGAIAAAAASRLAHSYHD KQSALESKARSWLIERGVEIDDIAELVLFLQQKYHPGLELDICRQNVEHVLRKREVQNAVLTGIQLDVAEKGELVQPLQNIISADEGLYGVDEILALSIVNVYGSIGFTNYGYIDKVKPGILAKLNEHDGIAVHTFLDDIVGAIAAAAASRLAHSYHD 1y9i-a1-m1-cB_1y9i-a1-m1-cD Crystal structure of low temperature requirement C protein from Listeria monocytogenes Q8Y4N7 Q8Y4N7 1.8 X-RAY DIFFRACTION 16 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 158 158 1y9i-a1-m1-cA_1y9i-a1-m1-cC KQSALESKARSWLIERGVEIDDIAELVLFLQQKYHPGLELDICRQNVEHVLRKREVQNAVLTGIQLDVAEKGELVQPLQNIISADEGLYGVDEILALSIVNVYGSIGFTNYGYIDKVKPGILAKLNEHDGIAVHTFLDDIVGAIAAAAASRLAHSYHD KQSALESKARSWLIERGVEIDDIAELVLFLQQKYHPGLELDICRQNVEHVLRKREVQNAVLTGIQLDVAEKGELVQPLQNIISADEGLYGVDEILALSIVNVYGSIGFTNYGYIDKVKPGILAKLNEHDGIAVHTFLDDIVGAIAAAAASRLAHSYHD 1y9i-a1-m1-cC_1y9i-a1-m1-cD Crystal structure of low temperature requirement C protein from Listeria monocytogenes Q8Y4N7 Q8Y4N7 1.8 X-RAY DIFFRACTION 70 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 158 158 1y9i-a1-m1-cA_1y9i-a1-m1-cB KQSALESKARSWLIERGVEIDDIAELVLFLQQKYHPGLELDICRQNVEHVLRKREVQNAVLTGIQLDVAEKGELVQPLQNIISADEGLYGVDEILALSIVNVYGSIGFTNYGYIDKVKPGILAKLNEHDGIAVHTFLDDIVGAIAAAAASRLAHSYHD KQSALESKARSWLIERGVEIDDIAELVLFLQQKYHPGLELDICRQNVEHVLRKREVQNAVLTGIQLDVAEKGELVQPLQNIISADEGLYGVDEILALSIVNVYGSIGFTNYGYIDKVKPGILAKLNEHDGIAVHTFLDDIVGAIAAAAASRLAHSYHD 1y9q-a1-m1-cA_1y9q-a1-m2-cA Crystal Structure of HTH_3 family Transcriptional Regulator from Vibrio cholerae Q9KQN0 Q9KQN0 1.9 X-RAY DIFFRACTION 18 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 173 173 TDVFKSQIANQLKNLRKSRGLSLDATAQLTGVSKALGQIERGESSPTIATLWKIASGLEASFSAFFANDPQLLSSERSFPDDLNKIHTLFPYAADTGLEIFEITLLDHHQQSSPHALGVIEYIHVLEGIKVFFDEQWHELQQGEHIRFFSDQPHGYAAVTEKAVFQNIVAYPR TDVFKSQIANQLKNLRKSRGLSLDATAQLTGVSKALGQIERGESSPTIATLWKIASGLEASFSAFFANDPQLLSSERSFPDDLNKIHTLFPYAADTGLEIFEITLLDHHQQSSPHALGVIEYIHVLEGIKVFFDEQWHELQQGEHIRFFSDQPHGYAAVTEKAVFQNIVAYPR 1y9w-a1-m1-cA_1y9w-a1-m1-cB Structural Genomics, 1.9A crystal structure of an acetyltransferase from Bacillus cereus ATCC 14579 Q81CG1 Q81CG1 1.9 X-RAY DIFFRACTION 179 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 140 140 MYMKHIENGTRIEGEYIKNKVIQYNMSILTDEVKQPMEEVSLVVKNEEGKIFGGVTGTMYFYHLHIDFLWVDESVRHDGYGSQLLHEIEGIAKEKGCRLILLDSFSFQAPEFYKKHGYREYGVVEDHPKGHSQHFFEKRL MYMKHIENGTRIEGEYIKNKVIQYNMSILTDEVKQPMEEVSLVVKNEEGKIFGGVTGTMYFYHLHIDFLWVDESVRHDGYGSQLLHEIEGIAKEKGCRLILLDSFSFQAPEFYKKHGYREYGVVEDHPKGHSQHFFEKRL 1yaa-a2-m1-cD_1yaa-a2-m1-cC ASPARTATE AMINOTRANSFERASE FROM SACCHAROMYCES CEREVISIAE CYTOPLASM P23542 P23542 2.05 X-RAY DIFFRACTION 247 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 412 412 1yaa-a1-m1-cB_1yaa-a1-m1-cA SATLFNNIELLPPDALFGIKQRYGQDQRATKVDLGIGAYRDDNGKPWVLPSVKAAEKLIHNDSSYNHEYLGITGLPSLTSNAAKIIFGTQSDALQEDRVISVQSLSGTGALHISAKFFSKFFPDKLVYLSKPTWANHMAIFENQGLKTATYPYWANETKSLDLNGFLNAIQKAPEGSIFVLHSCAHNPTGLDPTSEQWVQIVDAIASKNHIALFDTAYQGFATGDLDKDAYAVRLGVEKLSTVSPVFVCQSFAKNAGMYGERVGCFHLALTKQAQNKTIKPAVTSQLAKIIRSEVSNPPAYGAKIVAKLLETPELTEQWHKDMVTMSSRITKMRHALRDHLVKLGTPGNWDHIVNQCGMFSFTGLTPQMVKRLEETHAVYLVASGRASIAGLNQGNVEYVAKAIDEVVRFYA SATLFNNIELLPPDALFGIKQRYGQDQRATKVDLGIGAYRDDNGKPWVLPSVKAAEKLIHNDSSYNHEYLGITGLPSLTSNAAKIIFGTQSDALQEDRVISVQSLSGTGALHISAKFFSKFFPDKLVYLSKPTWANHMAIFENQGLKTATYPYWANETKSLDLNGFLNAIQKAPEGSIFVLHSCAHNPTGLDPTSEQWVQIVDAIASKNHIALFDTAYQGFATGDLDKDAYAVRLGVEKLSTVSPVFVCQSFAKNAGMYGERVGCFHLALTKQAQNKTIKPAVTSQLAKIIRSEVSNPPAYGAKIVAKLLETPELTEQWHKDMVTMSSRITKMRHALRDHLVKLGTPGNWDHIVNQCGMFSFTGLTPQMVKRLEETHAVYLVASGRASIAGLNQGNVEYVAKAIDEVVRFYA 1yab-a3-m1-cA_1yab-a3-m2-cB Structure of T. maritima FliN flagellar rotor protein A0A0F6AJI7 A0A0F6AJI7 3.4 X-RAY DIFFRACTION 33 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 85 87 1yab-a3-m2-cA_1yab-a3-m1-cB SDKLELLLDIPLKVTVELGRTRMTLKRVLEMIHGSIIELDKLTGEPVDILVNGKLIARGEVVVIDENFGVRITEIVSPKERLELL SDKLELLLDIPLKVTVELGRTRMTLKRVLEMIHGSIIELDKLTGEPVDILVNGKLIARGEVVVIDENFGVRITEIVSPKERLELLNE 1yab-a3-m2-cA_1yab-a3-m2-cB Structure of T. maritima FliN flagellar rotor protein A0A0F6AJI7 A0A0F6AJI7 3.4 X-RAY DIFFRACTION 185 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 85 87 1o6a-a1-m1-cB_1o6a-a1-m1-cA 1yab-a3-m1-cA_1yab-a3-m1-cB SDKLELLLDIPLKVTVELGRTRMTLKRVLEMIHGSIIELDKLTGEPVDILVNGKLIARGEVVVIDENFGVRITEIVSPKERLELL SDKLELLLDIPLKVTVELGRTRMTLKRVLEMIHGSIIELDKLTGEPVDILVNGKLIARGEVVVIDENFGVRITEIVSPKERLELLNE 1yac-a1-m1-cA_1yac-a1-m4-cB THE 1.8 ANGSTROM CRYSTAL STRUCTURE OF THE YCAC GENE PRODUCT FROM ESCHERICHIA COLI REVEALS AN OCTAMERIC HYDROLASE OF UNKNOWN SPECIFICITY P21367 P21367 1.8 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 204 204 1yac-a1-m1-cB_1yac-a1-m3-cA 1yac-a1-m2-cA_1yac-a1-m3-cB 1yac-a1-m2-cB_1yac-a1-m4-cA TKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSAETGPNGPLVPELKAQFPDAPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRMSQAGAQLMTWFGVACELHRDWRNDIAGLATLFSNHIPDYRNLMTSYDTLT TKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSAETGPNGPLVPELKAQFPDAPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRMSQAGAQLMTWFGVACELHRDWRNDIAGLATLFSNHIPDYRNLMTSYDTLT 1yac-a1-m2-cB_1yac-a1-m4-cB THE 1.8 ANGSTROM CRYSTAL STRUCTURE OF THE YCAC GENE PRODUCT FROM ESCHERICHIA COLI REVEALS AN OCTAMERIC HYDROLASE OF UNKNOWN SPECIFICITY P21367 P21367 1.8 X-RAY DIFFRACTION 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 204 204 1yac-a1-m1-cA_1yac-a1-m3-cA 1yac-a1-m1-cA_1yac-a1-m4-cA 1yac-a1-m1-cB_1yac-a1-m3-cB 1yac-a1-m1-cB_1yac-a1-m4-cB 1yac-a1-m2-cA_1yac-a1-m3-cA 1yac-a1-m2-cA_1yac-a1-m4-cA 1yac-a1-m2-cB_1yac-a1-m3-cB TKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSAETGPNGPLVPELKAQFPDAPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRMSQAGAQLMTWFGVACELHRDWRNDIAGLATLFSNHIPDYRNLMTSYDTLT TKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSAETGPNGPLVPELKAQFPDAPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRMSQAGAQLMTWFGVACELHRDWRNDIAGLATLFSNHIPDYRNLMTSYDTLT 1yac-a1-m4-cA_1yac-a1-m4-cB THE 1.8 ANGSTROM CRYSTAL STRUCTURE OF THE YCAC GENE PRODUCT FROM ESCHERICHIA COLI REVEALS AN OCTAMERIC HYDROLASE OF UNKNOWN SPECIFICITY P21367 P21367 1.8 X-RAY DIFFRACTION 62 1.0 562 (Escherichia coli) 562 (Escherichia coli) 204 204 1yac-a1-m1-cA_1yac-a1-m1-cB 1yac-a1-m2-cA_1yac-a1-m2-cB 1yac-a1-m3-cA_1yac-a1-m3-cB TKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSAETGPNGPLVPELKAQFPDAPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRMSQAGAQLMTWFGVACELHRDWRNDIAGLATLFSNHIPDYRNLMTSYDTLT TKPYVRLDKNDAAVLLVDHQAGLLSLVRDIEPDKFKNNVLALGDLAKYFNLPTILTTSAETGPNGPLVPELKAQFPDAPYIARPGNINAWDNEDFVKAVKATGKKQLIIAGVVTEVCVAFPALSAIEEGFDVFVVTDASGTFNEITRHSAWDRMSQAGAQLMTWFGVACELHRDWRNDIAGLATLFSNHIPDYRNLMTSYDTLT 1yad-a2-m1-cC_1yad-a2-m1-cD Structure of TenI from Bacillus subtilis P25053 P25053 2.1 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 190 190 1yad-a1-m1-cA_1yad-a1-m1-cB 3qh2-a1-m1-cA_3qh2-a1-m1-cB 3qh2-a2-m1-cC_3qh2-a2-m1-cD MELHAITDDSKPVEELARIIITIQNEVDFIHIRERSKSAADILKLLDLIFEGGIDKRKLVMNGRVDIALFSTIHRVQLPSGSFSPKQIRARFPHLHIGRSVHSLEEAVQAEKEDADYVLFGHVFRGVSLLSDIKQRISIPVIAIGGMTPDRLRDVKQAGADGIAVMSGIFSSAEPLEAARRYSRKLKEMR MELHAITDDSKPVEELARIIITIQNEVDFIHIRERSKSAADILKLLDLIFEGGIDKRKLVMNGRVDIALFSTIHRVQLPSGSFSPKQIRARFPHLHIGRSVHSLEEAVQAEKEDADYVLFGHVFRGVSLLSDIKQRISIPVIAIGGMTPDRLRDVKQAGADGIAVMSGIFSSAEPLEAARRYSRKLKEMR 1yag-a2-m1-cA_1yag-a2-m2-cA STRUCTURE OF THE YEAST ACTIN-HUMAN GELSOLIN SEGMENT 1 COMPLEX P60010 P60010 1.9 X-RAY DIFFRACTION 83 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 372 372 1yvn-a2-m1-cA_1yvn-a2-m2-cA EVAALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGMGQKDSYVGDEAQSKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLTEAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGVTHVVPIYAGFSLPHAILRIDLAGRDLTDYLMKILSERGYSFSTTAEREIVRDIKEKLCYVALDFEQEMQTAAQSSSIEKSYELPDGQVITIGNERFRAPEALFHPSVLGLESAGIDQTTYNSIMKCDVDVRKELYGNIVMSGGTTMFPGIAERMQKEITALAPSSMKVKIIAPPERKYSVWIGGSILASLTTFQQMWISKQEYDESGPSIVHHKCF EVAALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGMGQKDSYVGDEAQSKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLTEAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGVTHVVPIYAGFSLPHAILRIDLAGRDLTDYLMKILSERGYSFSTTAEREIVRDIKEKLCYVALDFEQEMQTAAQSSSIEKSYELPDGQVITIGNERFRAPEALFHPSVLGLESAGIDQTTYNSIMKCDVDVRKELYGNIVMSGGTTMFPGIAERMQKEITALAPSSMKVKIIAPPERKYSVWIGGSILASLTTFQQMWISKQEYDESGPSIVHHKCF 1yai-a2-m1-cC_1yai-a2-m1-cB X-RAY STRUCTURE OF A BACTERIAL COPPER,ZINC SUPEROXIDE DISMUTASE P00446 P00446 1.9 X-RAY DIFFRACTION 26 1.0 658 (Photobacterium leiognathi subsp. leiognathi) 658 (Photobacterium leiognathi subsp. leiognathi) 150 151 DLTVKMTDLQTGKPVGTIELSQNKYGVVFTPELADLTPGMHGFHIHQNGSCASSEKDGKVVLGGAAGGHYDPEHTNKHGFPWTDDNHKGDLPALFVSANGLATNPVLAPRLTLKELKGHAIMIHAGGDNHSDMPKALGGGGARVACGVIQ QDLTVKMTDLQTGKPVGTIELSQNKYGVVFTPELADLTPGMHGFHIHQNGSCASSEKDGKVVLGGAAGGHYDPEHTNKHGFPWTDDNHKGDLPALFVSANGLATNPVLAPRLTLKELKGHAIMIHAGGDNHSDMPKALGGGGARVACGVIQ 1yal-a1-m1-cA_1yal-a1-m2-cA CARICA PAPAYA CHYMOPAPAIN AT 1.7 ANGSTROMS RESOLUTION P14080 P14080 1.7 X-RAY DIFFRACTION 35 1.0 3649 (Carica papaya) 3649 (Carica papaya) 216 216 YPQSIDWRAKGAVTPVKNQGACGSWAFSTIATVEGINKIVTGNLLELSEQELVDCDKHSYGCKGGYQTTSLQYVANNGVHTSKVYPYQAKQYKCRATDKPGPKVKITGYKRVPSNETSFLGALANQPLSVLVEAGGKPFQLYKSGVFDGPCGTKLDHAVTAVGYGTSDGKNYIIIKNSWGPNWGEKGYMRLKRQSGNSQGTCGVYKSSYYPFKGFA YPQSIDWRAKGAVTPVKNQGACGSWAFSTIATVEGINKIVTGNLLELSEQELVDCDKHSYGCKGGYQTTSLQYVANNGVHTSKVYPYQAKQYKCRATDKPGPKVKITGYKRVPSNETSFLGALANQPLSVLVEAGGKPFQLYKSGVFDGPCGTKLDHAVTAVGYGTSDGKNYIIIKNSWGPNWGEKGYMRLKRQSGNSQGTCGVYKSSYYPFKGFA 1yar-a1-m1-cH_1yar-a1-m2-cM Structure of Archeabacterial 20S proteasome mutant D9S- PA26 complex P28061 P28061 1.9 X-RAY DIFFRACTION 55 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 203 203 1pma-a1-m1-c1_1pma-a1-m1-cU 1pma-a1-m1-c2_1pma-a1-m1-cT 1pma-a1-m1-cB_1pma-a1-m1-cZ 1pma-a1-m1-cP_1pma-a1-m1-cY 1pma-a1-m1-cQ_1pma-a1-m1-cX 1pma-a1-m1-cR_1pma-a1-m1-cW 1pma-a1-m1-cS_1pma-a1-m1-cV 1ya7-a1-m1-cH_1ya7-a1-m2-cM 1ya7-a1-m1-cI_1ya7-a1-m2-cL 1ya7-a1-m1-cJ_1ya7-a1-m2-cK 1ya7-a1-m1-cK_1ya7-a1-m2-cJ 1ya7-a1-m1-cL_1ya7-a1-m2-cI 1ya7-a1-m1-cM_1ya7-a1-m2-cH 1ya7-a1-m1-cN_1ya7-a1-m2-cN 1yar-a1-m1-cI_1yar-a1-m2-cL 1yar-a1-m1-cJ_1yar-a1-m2-cK 1yar-a1-m1-cK_1yar-a1-m2-cJ 1yar-a1-m1-cL_1yar-a1-m2-cI 1yar-a1-m1-cM_1yar-a1-m2-cH 1yar-a1-m1-cN_1yar-a1-m2-cN 1yau-a1-m1-cH_1yau-a1-m2-cM 1yau-a1-m1-cI_1yau-a1-m2-cL 1yau-a1-m1-cJ_1yau-a1-m2-cK 1yau-a1-m1-cK_1yau-a1-m2-cJ 1yau-a1-m1-cL_1yau-a1-m2-cI 1yau-a1-m1-cM_1yau-a1-m2-cH 1yau-a1-m1-cN_1yau-a1-m2-cN 3c91-a1-m1-c1_3c91-a1-m1-cM 3c91-a1-m1-c2_3c91-a1-m1-cL 3c91-a1-m1-cH_3c91-a1-m1-cY 3c91-a1-m1-cI_3c91-a1-m1-cX 3c91-a1-m1-cJ_3c91-a1-m1-cW 3c91-a1-m1-cK_3c91-a1-m1-cV 3c91-a1-m1-cN_3c91-a1-m1-cZ 3c92-a1-m1-c1_3c92-a1-m1-cM 3c92-a1-m1-c2_3c92-a1-m1-cL 3c92-a1-m1-cH_3c92-a1-m1-cY 3c92-a1-m1-cI_3c92-a1-m1-cX 3c92-a1-m1-cJ_3c92-a1-m1-cW 3c92-a1-m1-cK_3c92-a1-m1-cV 3c92-a1-m1-cN_3c92-a1-m1-cZ 3ipm-a1-m1-cH_3ipm-a1-m2-cH 3ipm-a1-m1-cI_3ipm-a1-m2-cN 3ipm-a1-m1-cJ_3ipm-a1-m2-cM 3ipm-a1-m1-cK_3ipm-a1-m2-cL 3ipm-a1-m1-cL_3ipm-a1-m2-cK 3ipm-a1-m1-cM_3ipm-a1-m2-cJ 3ipm-a1-m1-cN_3ipm-a1-m2-cI 3j9i-a1-m1-c1_3j9i-a1-m1-cM 3j9i-a1-m1-c2_3j9i-a1-m1-cL 3j9i-a1-m1-cH_3j9i-a1-m1-cY 3j9i-a1-m1-cI_3j9i-a1-m1-cX 3j9i-a1-m1-cJ_3j9i-a1-m1-cW 3j9i-a1-m1-cK_3j9i-a1-m1-cV 3j9i-a1-m1-cN_3j9i-a1-m1-cZ 3jrm-a1-m1-cH_3jrm-a1-m2-cM 3jrm-a1-m1-cI_3jrm-a1-m2-cL 3jrm-a1-m1-cJ_3jrm-a1-m2-cK 3jrm-a1-m1-cK_3jrm-a1-m2-cJ 3jrm-a1-m1-cL_3jrm-a1-m2-cI 3jrm-a1-m1-cM_3jrm-a1-m2-cH 3jrm-a1-m1-cN_3jrm-a1-m2-cN 3jse-a1-m1-cH_3jse-a1-m2-cM 3jse-a1-m1-cI_3jse-a1-m2-cL 3jse-a1-m1-cJ_3jse-a1-m2-cK 3jse-a1-m1-cK_3jse-a1-m2-cJ 3jse-a1-m1-cL_3jse-a1-m2-cI 3jse-a1-m1-cM_3jse-a1-m2-cH 3jse-a1-m1-cN_3jse-a1-m2-cN 3jtl-a1-m1-cH_3jtl-a1-m2-cM 3jtl-a1-m1-cI_3jtl-a1-m2-cL 3jtl-a1-m1-cJ_3jtl-a1-m2-cK 3jtl-a1-m1-cK_3jtl-a1-m2-cJ 3jtl-a1-m1-cL_3jtl-a1-m2-cI 3jtl-a1-m1-cM_3jtl-a1-m2-cH 3jtl-a1-m1-cN_3jtl-a1-m2-cN 5vy3-a1-m1-c1_5vy3-a1-m1-cN 5vy3-a1-m1-cB_5vy3-a1-m1-cP 5vy3-a1-m1-cD_5vy3-a1-m1-cR 5vy3-a1-m1-cF_5vy3-a1-m1-cT 5vy3-a1-m1-cH_5vy3-a1-m1-cV 5vy3-a1-m1-cJ_5vy3-a1-m1-cX 5vy3-a1-m1-cL_5vy3-a1-m1-cZ 5vy4-a1-m1-c1_5vy4-a1-m1-cN 5vy4-a1-m1-cB_5vy4-a1-m1-cP 5vy4-a1-m1-cD_5vy4-a1-m1-cR 5vy4-a1-m1-cF_5vy4-a1-m1-cT 5vy4-a1-m1-cH_5vy4-a1-m1-cV 5vy4-a1-m1-cJ_5vy4-a1-m1-cX 5vy4-a1-m1-cL_5vy4-a1-m1-cZ 6bdf-a1-m1-c1_6bdf-a1-m1-cJ 6bdf-a1-m1-cB_6bdf-a1-m1-cT 6bdf-a1-m1-cD_6bdf-a1-m1-cV 6bdf-a1-m1-cF_6bdf-a1-m1-cX 6bdf-a1-m1-cH_6bdf-a1-m1-cZ 6bdf-a1-m1-cL_6bdf-a1-m1-cP 6bdf-a1-m1-cN_6bdf-a1-m1-cR 6utf-a1-m1-c1_6utf-a1-m1-cM 6utf-a1-m1-c2_6utf-a1-m1-cL 6utf-a1-m1-cH_6utf-a1-m1-cY 6utf-a1-m1-cI_6utf-a1-m1-cX 6utf-a1-m1-cJ_6utf-a1-m1-cW 6utf-a1-m1-cK_6utf-a1-m1-cV 6utf-a1-m1-cN_6utf-a1-m1-cZ 6utg-a1-m1-c1_6utg-a1-m1-cM 6utg-a1-m1-c2_6utg-a1-m1-cL 6utg-a1-m1-cH_6utg-a1-m1-cY 6utg-a1-m1-cI_6utg-a1-m1-cX 6utg-a1-m1-cJ_6utg-a1-m1-cW 6utg-a1-m1-cK_6utg-a1-m1-cV 6utg-a1-m1-cN_6utg-a1-m1-cZ 6uth-a1-m1-c1_6uth-a1-m1-cM 6uth-a1-m1-c2_6uth-a1-m1-cL 6uth-a1-m1-cH_6uth-a1-m1-cY 6uth-a1-m1-cI_6uth-a1-m1-cX 6uth-a1-m1-cJ_6uth-a1-m1-cW 6uth-a1-m1-cK_6uth-a1-m1-cV 6uth-a1-m1-cN_6uth-a1-m1-cZ 6uti-a1-m1-cH_6uti-a1-m1-ca 6uti-a1-m1-cI_6uti-a1-m1-cZ 6uti-a1-m1-cJ_6uti-a1-m1-cY 6uti-a1-m1-cK_6uti-a1-m1-cX 6uti-a1-m1-cL_6uti-a1-m1-cW 6uti-a1-m1-cM_6uti-a1-m1-cV 6uti-a1-m1-cN_6uti-a1-m1-cb 6utj-a1-m1-c1_6utj-a1-m1-cM 6utj-a1-m1-c2_6utj-a1-m1-cL 6utj-a1-m1-cH_6utj-a1-m1-cY 6utj-a1-m1-cI_6utj-a1-m1-cX 6utj-a1-m1-cJ_6utj-a1-m1-cW 6utj-a1-m1-cK_6utj-a1-m1-cV 6utj-a1-m1-cN_6utj-a1-m1-cZ TTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPHVFSIDAAGGSVEDIYASTGSGSPFVYGVLESQYSEKMTVDEGVDLVIRAISAAKQRDSASGGMIDVAVITRKDGYVQLPTDQIESRIRKLGLIL TTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPHVFSIDAAGGSVEDIYASTGSGSPFVYGVLESQYSEKMTVDEGVDLVIRAISAAKQRDSASGGMIDVAVITRKDGYVQLPTDQIESRIRKLGLIL 1yar-a1-m1-cM_1yar-a1-m2-cN Structure of Archeabacterial 20S proteasome mutant D9S- PA26 complex P28061 P28061 1.9 X-RAY DIFFRACTION 33 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 203 203 1pma-a1-m1-c1_1pma-a1-m1-cT 1pma-a1-m1-c2_1pma-a1-m1-cS 1pma-a1-m1-cB_1pma-a1-m1-cY 1pma-a1-m1-cP_1pma-a1-m1-cX 1pma-a1-m1-cQ_1pma-a1-m1-cW 1pma-a1-m1-cR_1pma-a1-m1-cV 1pma-a1-m1-cU_1pma-a1-m1-cZ 1ya7-a1-m1-cH_1ya7-a1-m2-cL 1ya7-a1-m1-cI_1ya7-a1-m2-cK 1ya7-a1-m1-cJ_1ya7-a1-m2-cJ 1ya7-a1-m1-cK_1ya7-a1-m2-cI 1ya7-a1-m1-cL_1ya7-a1-m2-cH 1ya7-a1-m1-cM_1ya7-a1-m2-cN 1ya7-a1-m1-cN_1ya7-a1-m2-cM 1yar-a1-m1-cH_1yar-a1-m2-cL 1yar-a1-m1-cI_1yar-a1-m2-cK 1yar-a1-m1-cJ_1yar-a1-m2-cJ 1yar-a1-m1-cK_1yar-a1-m2-cI 1yar-a1-m1-cL_1yar-a1-m2-cH 1yar-a1-m1-cN_1yar-a1-m2-cM 1yau-a1-m1-cH_1yau-a1-m2-cL 1yau-a1-m1-cI_1yau-a1-m2-cK 1yau-a1-m1-cJ_1yau-a1-m2-cJ 1yau-a1-m1-cK_1yau-a1-m2-cI 1yau-a1-m1-cL_1yau-a1-m2-cH 1yau-a1-m1-cM_1yau-a1-m2-cN 1yau-a1-m1-cN_1yau-a1-m2-cM 3c91-a1-m1-c1_3c91-a1-m1-cL 3c91-a1-m1-c2_3c91-a1-m1-cK 3c91-a1-m1-cH_3c91-a1-m1-cX 3c91-a1-m1-cI_3c91-a1-m1-cW 3c91-a1-m1-cJ_3c91-a1-m1-cV 3c91-a1-m1-cM_3c91-a1-m1-cZ 3c91-a1-m1-cN_3c91-a1-m1-cY 3c92-a1-m1-c1_3c92-a1-m1-cL 3c92-a1-m1-c2_3c92-a1-m1-cK 3c92-a1-m1-cH_3c92-a1-m1-cX 3c92-a1-m1-cI_3c92-a1-m1-cW 3c92-a1-m1-cJ_3c92-a1-m1-cV 3c92-a1-m1-cM_3c92-a1-m1-cZ 3c92-a1-m1-cN_3c92-a1-m1-cY 3ipm-a1-m1-cH_3ipm-a1-m2-cN 3ipm-a1-m1-cI_3ipm-a1-m2-cM 3ipm-a1-m1-cJ_3ipm-a1-m2-cL 3ipm-a1-m1-cK_3ipm-a1-m2-cK 3ipm-a1-m1-cL_3ipm-a1-m2-cJ 3ipm-a1-m1-cM_3ipm-a1-m2-cI 3ipm-a1-m1-cN_3ipm-a1-m2-cH 3j9i-a1-m1-c1_3j9i-a1-m1-cL 3j9i-a1-m1-c2_3j9i-a1-m1-cK 3j9i-a1-m1-cH_3j9i-a1-m1-cX 3j9i-a1-m1-cI_3j9i-a1-m1-cW 3j9i-a1-m1-cJ_3j9i-a1-m1-cV 3j9i-a1-m1-cM_3j9i-a1-m1-cZ 3j9i-a1-m1-cN_3j9i-a1-m1-cY 3jrm-a1-m1-cH_3jrm-a1-m2-cL 3jrm-a1-m1-cI_3jrm-a1-m2-cK 3jrm-a1-m1-cJ_3jrm-a1-m2-cJ 3jrm-a1-m1-cK_3jrm-a1-m2-cI 3jrm-a1-m1-cL_3jrm-a1-m2-cH 3jrm-a1-m1-cM_3jrm-a1-m2-cN 3jrm-a1-m1-cN_3jrm-a1-m2-cM 3jse-a1-m1-cH_3jse-a1-m2-cL 3jse-a1-m1-cI_3jse-a1-m2-cK 3jse-a1-m1-cJ_3jse-a1-m2-cJ 3jse-a1-m1-cK_3jse-a1-m2-cI 3jse-a1-m1-cL_3jse-a1-m2-cH 3jse-a1-m1-cM_3jse-a1-m2-cN 3jse-a1-m1-cN_3jse-a1-m2-cM 3jtl-a1-m1-cH_3jtl-a1-m2-cL 3jtl-a1-m1-cI_3jtl-a1-m2-cK 3jtl-a1-m1-cJ_3jtl-a1-m2-cJ 3jtl-a1-m1-cK_3jtl-a1-m2-cI 3jtl-a1-m1-cL_3jtl-a1-m2-cH 3jtl-a1-m1-cM_3jtl-a1-m2-cN 3jtl-a1-m1-cN_3jtl-a1-m2-cM 5vy3-a1-m1-c1_5vy3-a1-m1-cL 5vy3-a1-m1-cB_5vy3-a1-m1-cR 5vy3-a1-m1-cD_5vy3-a1-m1-cT 5vy3-a1-m1-cF_5vy3-a1-m1-cV 5vy3-a1-m1-cH_5vy3-a1-m1-cX 5vy3-a1-m1-cJ_5vy3-a1-m1-cZ 5vy3-a1-m1-cN_5vy3-a1-m1-cP 5vy4-a1-m1-c1_5vy4-a1-m1-cL 5vy4-a1-m1-cB_5vy4-a1-m1-cR 5vy4-a1-m1-cD_5vy4-a1-m1-cT 5vy4-a1-m1-cF_5vy4-a1-m1-cV 5vy4-a1-m1-cH_5vy4-a1-m1-cX 5vy4-a1-m1-cJ_5vy4-a1-m1-cZ 5vy4-a1-m1-cN_5vy4-a1-m1-cP 6bdf-a1-m1-c1_6bdf-a1-m1-cL 6bdf-a1-m1-cB_6bdf-a1-m1-cR 6bdf-a1-m1-cD_6bdf-a1-m1-cT 6bdf-a1-m1-cF_6bdf-a1-m1-cV 6bdf-a1-m1-cH_6bdf-a1-m1-cX 6bdf-a1-m1-cJ_6bdf-a1-m1-cZ 6bdf-a1-m1-cN_6bdf-a1-m1-cP 6utf-a1-m1-c1_6utf-a1-m1-cL 6utf-a1-m1-c2_6utf-a1-m1-cK 6utf-a1-m1-cH_6utf-a1-m1-cX 6utf-a1-m1-cI_6utf-a1-m1-cW 6utf-a1-m1-cJ_6utf-a1-m1-cV 6utf-a1-m1-cM_6utf-a1-m1-cZ 6utf-a1-m1-cN_6utf-a1-m1-cY 6utg-a1-m1-c1_6utg-a1-m1-cL 6utg-a1-m1-c2_6utg-a1-m1-cK 6utg-a1-m1-cH_6utg-a1-m1-cX 6utg-a1-m1-cI_6utg-a1-m1-cW 6utg-a1-m1-cJ_6utg-a1-m1-cV 6utg-a1-m1-cM_6utg-a1-m1-cZ 6utg-a1-m1-cN_6utg-a1-m1-cY 6uth-a1-m1-c1_6uth-a1-m1-cL 6uth-a1-m1-c2_6uth-a1-m1-cK 6uth-a1-m1-cH_6uth-a1-m1-cX 6uth-a1-m1-cI_6uth-a1-m1-cW 6uth-a1-m1-cJ_6uth-a1-m1-cV 6uth-a1-m1-cM_6uth-a1-m1-cZ 6uth-a1-m1-cN_6uth-a1-m1-cY 6uti-a1-m1-cH_6uti-a1-m1-cZ 6uti-a1-m1-cI_6uti-a1-m1-cY 6uti-a1-m1-cJ_6uti-a1-m1-cX 6uti-a1-m1-cK_6uti-a1-m1-cW 6uti-a1-m1-cL_6uti-a1-m1-cV 6uti-a1-m1-cM_6uti-a1-m1-cb 6uti-a1-m1-cN_6uti-a1-m1-ca 6utj-a1-m1-c1_6utj-a1-m1-cL 6utj-a1-m1-c2_6utj-a1-m1-cK 6utj-a1-m1-cH_6utj-a1-m1-cX 6utj-a1-m1-cI_6utj-a1-m1-cW 6utj-a1-m1-cJ_6utj-a1-m1-cV 6utj-a1-m1-cM_6utj-a1-m1-cZ 6utj-a1-m1-cN_6utj-a1-m1-cY TTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPHVFSIDAAGGSVEDIYASTGSGSPFVYGVLESQYSEKMTVDEGVDLVIRAISAAKQRDSASGGMIDVAVITRKDGYVQLPTDQIESRIRKLGLIL TTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPHVFSIDAAGGSVEDIYASTGSGSPFVYGVLESQYSEKMTVDEGVDLVIRAISAAKQRDSASGGMIDVAVITRKDGYVQLPTDQIESRIRKLGLIL 1yar-a1-m2-cD_1yar-a1-m2-cE Structure of Archeabacterial 20S proteasome mutant D9S- PA26 complex P25156 P25156 1.9 X-RAY DIFFRACTION 86 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 221 221 1pma-a1-m1-cA_1pma-a1-m1-cC 1pma-a1-m1-cA_1pma-a1-m1-cH 1pma-a1-m1-cC_1pma-a1-m1-cD 1pma-a1-m1-cD_1pma-a1-m1-cE 1pma-a1-m1-cE_1pma-a1-m1-cF 1pma-a1-m1-cF_1pma-a1-m1-cG 1pma-a1-m1-cG_1pma-a1-m1-cH 1pma-a1-m1-cI_1pma-a1-m1-cJ 1pma-a1-m1-cI_1pma-a1-m1-cO 1pma-a1-m1-cJ_1pma-a1-m1-cK 1pma-a1-m1-cK_1pma-a1-m1-cL 1pma-a1-m1-cL_1pma-a1-m1-cM 1pma-a1-m1-cM_1pma-a1-m1-cN 1pma-a1-m1-cN_1pma-a1-m1-cO 1ya7-a1-m1-cA_1ya7-a1-m1-cB 1ya7-a1-m1-cA_1ya7-a1-m1-cG 1ya7-a1-m1-cB_1ya7-a1-m1-cC 1ya7-a1-m1-cC_1ya7-a1-m1-cD 1ya7-a1-m1-cD_1ya7-a1-m1-cE 1ya7-a1-m1-cE_1ya7-a1-m1-cF 1ya7-a1-m1-cF_1ya7-a1-m1-cG 1ya7-a1-m2-cA_1ya7-a1-m2-cB 1ya7-a1-m2-cA_1ya7-a1-m2-cG 1ya7-a1-m2-cB_1ya7-a1-m2-cC 1ya7-a1-m2-cC_1ya7-a1-m2-cD 1ya7-a1-m2-cD_1ya7-a1-m2-cE 1ya7-a1-m2-cE_1ya7-a1-m2-cF 1ya7-a1-m2-cF_1ya7-a1-m2-cG 1yar-a1-m1-cA_1yar-a1-m1-cB 1yar-a1-m1-cA_1yar-a1-m1-cG 1yar-a1-m1-cB_1yar-a1-m1-cC 1yar-a1-m1-cC_1yar-a1-m1-cD 1yar-a1-m1-cD_1yar-a1-m1-cE 1yar-a1-m1-cE_1yar-a1-m1-cF 1yar-a1-m1-cF_1yar-a1-m1-cG 1yar-a1-m2-cA_1yar-a1-m2-cB 1yar-a1-m2-cA_1yar-a1-m2-cG 1yar-a1-m2-cB_1yar-a1-m2-cC 1yar-a1-m2-cC_1yar-a1-m2-cD 1yar-a1-m2-cE_1yar-a1-m2-cF 1yar-a1-m2-cF_1yar-a1-m2-cG 1yau-a1-m1-cA_1yau-a1-m1-cB 1yau-a1-m1-cA_1yau-a1-m1-cG 1yau-a1-m1-cB_1yau-a1-m1-cC 1yau-a1-m1-cC_1yau-a1-m1-cD 1yau-a1-m1-cD_1yau-a1-m1-cE 1yau-a1-m1-cE_1yau-a1-m1-cF 1yau-a1-m1-cF_1yau-a1-m1-cG 1yau-a1-m2-cA_1yau-a1-m2-cB 1yau-a1-m2-cA_1yau-a1-m2-cG 1yau-a1-m2-cB_1yau-a1-m2-cC 1yau-a1-m2-cC_1yau-a1-m2-cD 1yau-a1-m2-cD_1yau-a1-m2-cE 1yau-a1-m2-cE_1yau-a1-m2-cF 1yau-a1-m2-cF_1yau-a1-m2-cG 2ku1-a1-m1-cA_2ku1-a1-m1-cB 2ku1-a1-m1-cA_2ku1-a1-m1-cG 2ku1-a1-m1-cB_2ku1-a1-m1-cC 2ku1-a1-m1-cC_2ku1-a1-m1-cD 2ku1-a1-m1-cD_2ku1-a1-m1-cE 2ku1-a1-m1-cE_2ku1-a1-m1-cF 2ku1-a1-m1-cF_2ku1-a1-m1-cG 2ku2-a1-m1-cA_2ku2-a1-m1-cB 2ku2-a1-m1-cA_2ku2-a1-m1-cG 2ku2-a1-m1-cB_2ku2-a1-m1-cC 2ku2-a1-m1-cC_2ku2-a1-m1-cD 2ku2-a1-m1-cD_2ku2-a1-m1-cE 2ku2-a1-m1-cE_2ku2-a1-m1-cF 2ku2-a1-m1-cF_2ku2-a1-m1-cG 3c91-a1-m1-cA_3c91-a1-m1-cB 3c91-a1-m1-cA_3c91-a1-m1-cG 3c91-a1-m1-cB_3c91-a1-m1-cC 3c91-a1-m1-cC_3c91-a1-m1-cD 3c91-a1-m1-cD_3c91-a1-m1-cE 3c91-a1-m1-cE_3c91-a1-m1-cF 3c91-a1-m1-cF_3c91-a1-m1-cG 3c91-a1-m1-cO_3c91-a1-m1-cP 3c91-a1-m1-cO_3c91-a1-m1-cU 3c91-a1-m1-cP_3c91-a1-m1-cQ 3c91-a1-m1-cQ_3c91-a1-m1-cR 3c91-a1-m1-cR_3c91-a1-m1-cS 3c91-a1-m1-cS_3c91-a1-m1-cT 3c91-a1-m1-cT_3c91-a1-m1-cU 3c92-a1-m1-cA_3c92-a1-m1-cB 3c92-a1-m1-cA_3c92-a1-m1-cG 3c92-a1-m1-cB_3c92-a1-m1-cC 3c92-a1-m1-cC_3c92-a1-m1-cD 3c92-a1-m1-cD_3c92-a1-m1-cE 3c92-a1-m1-cE_3c92-a1-m1-cF 3c92-a1-m1-cF_3c92-a1-m1-cG 3c92-a1-m1-cO_3c92-a1-m1-cP 3c92-a1-m1-cO_3c92-a1-m1-cU 3c92-a1-m1-cP_3c92-a1-m1-cQ 3c92-a1-m1-cQ_3c92-a1-m1-cR 3c92-a1-m1-cR_3c92-a1-m1-cS 3c92-a1-m1-cS_3c92-a1-m1-cT 3c92-a1-m1-cT_3c92-a1-m1-cU 3ipm-a1-m1-cA_3ipm-a1-m1-cB 3ipm-a1-m1-cA_3ipm-a1-m1-cG 3ipm-a1-m1-cB_3ipm-a1-m1-cC 3ipm-a1-m1-cC_3ipm-a1-m1-cD 3ipm-a1-m1-cD_3ipm-a1-m1-cE 3ipm-a1-m1-cE_3ipm-a1-m1-cF 3ipm-a1-m1-cF_3ipm-a1-m1-cG 3ipm-a1-m2-cA_3ipm-a1-m2-cB 3ipm-a1-m2-cA_3ipm-a1-m2-cG 3ipm-a1-m2-cB_3ipm-a1-m2-cC 3ipm-a1-m2-cC_3ipm-a1-m2-cD 3ipm-a1-m2-cD_3ipm-a1-m2-cE 3ipm-a1-m2-cE_3ipm-a1-m2-cF 3ipm-a1-m2-cF_3ipm-a1-m2-cG 3j9i-a1-m1-cA_3j9i-a1-m1-cB 3j9i-a1-m1-cA_3j9i-a1-m1-cG 3j9i-a1-m1-cB_3j9i-a1-m1-cC 3j9i-a1-m1-cC_3j9i-a1-m1-cD 3j9i-a1-m1-cD_3j9i-a1-m1-cE 3j9i-a1-m1-cE_3j9i-a1-m1-cF 3j9i-a1-m1-cF_3j9i-a1-m1-cG 3j9i-a1-m1-cO_3j9i-a1-m1-cP 3j9i-a1-m1-cO_3j9i-a1-m1-cU 3j9i-a1-m1-cP_3j9i-a1-m1-cQ 3j9i-a1-m1-cQ_3j9i-a1-m1-cR 3j9i-a1-m1-cR_3j9i-a1-m1-cS 3j9i-a1-m1-cS_3j9i-a1-m1-cT 3j9i-a1-m1-cT_3j9i-a1-m1-cU 3jrm-a1-m1-cA_3jrm-a1-m1-cB 3jrm-a1-m1-cA_3jrm-a1-m1-cG 3jrm-a1-m1-cB_3jrm-a1-m1-cC 3jrm-a1-m1-cC_3jrm-a1-m1-cD 3jrm-a1-m1-cD_3jrm-a1-m1-cE 3jrm-a1-m1-cE_3jrm-a1-m1-cF 3jrm-a1-m1-cF_3jrm-a1-m1-cG 3jrm-a1-m2-cA_3jrm-a1-m2-cB 3jrm-a1-m2-cA_3jrm-a1-m2-cG 3jrm-a1-m2-cB_3jrm-a1-m2-cC 3jrm-a1-m2-cC_3jrm-a1-m2-cD 3jrm-a1-m2-cD_3jrm-a1-m2-cE 3jrm-a1-m2-cE_3jrm-a1-m2-cF 3jrm-a1-m2-cF_3jrm-a1-m2-cG 3jse-a1-m1-cA_3jse-a1-m1-cB 3jse-a1-m1-cA_3jse-a1-m1-cG 3jse-a1-m1-cB_3jse-a1-m1-cC 3jse-a1-m1-cC_3jse-a1-m1-cD 3jse-a1-m1-cD_3jse-a1-m1-cE 3jse-a1-m1-cE_3jse-a1-m1-cF 3jse-a1-m1-cF_3jse-a1-m1-cG 3jse-a1-m2-cA_3jse-a1-m2-cB 3jse-a1-m2-cA_3jse-a1-m2-cG 3jse-a1-m2-cB_3jse-a1-m2-cC 3jse-a1-m2-cC_3jse-a1-m2-cD 3jse-a1-m2-cD_3jse-a1-m2-cE 3jse-a1-m2-cE_3jse-a1-m2-cF 3jse-a1-m2-cF_3jse-a1-m2-cG 3jtl-a1-m1-cA_3jtl-a1-m1-cB 3jtl-a1-m1-cA_3jtl-a1-m1-cG 3jtl-a1-m1-cB_3jtl-a1-m1-cC 3jtl-a1-m1-cC_3jtl-a1-m1-cD 3jtl-a1-m1-cD_3jtl-a1-m1-cE 3jtl-a1-m1-cE_3jtl-a1-m1-cF 3jtl-a1-m1-cF_3jtl-a1-m1-cG 3jtl-a1-m2-cA_3jtl-a1-m2-cB 3jtl-a1-m2-cA_3jtl-a1-m2-cG 3jtl-a1-m2-cB_3jtl-a1-m2-cC 3jtl-a1-m2-cC_3jtl-a1-m2-cD 3jtl-a1-m2-cD_3jtl-a1-m2-cE 3jtl-a1-m2-cE_3jtl-a1-m2-cF 3jtl-a1-m2-cF_3jtl-a1-m2-cG 5vy3-a1-m1-c0_5vy3-a1-m1-cO 5vy3-a1-m1-c0_5vy3-a1-m1-cY 5vy3-a1-m1-cA_5vy3-a1-m1-cC 5vy3-a1-m1-cA_5vy3-a1-m1-cM 5vy3-a1-m1-cC_5vy3-a1-m1-cE 5vy3-a1-m1-cE_5vy3-a1-m1-cG 5vy3-a1-m1-cG_5vy3-a1-m1-cI 5vy3-a1-m1-cI_5vy3-a1-m1-cK 5vy3-a1-m1-cK_5vy3-a1-m1-cM 5vy3-a1-m1-cO_5vy3-a1-m1-cQ 5vy3-a1-m1-cQ_5vy3-a1-m1-cS 5vy3-a1-m1-cS_5vy3-a1-m1-cU 5vy3-a1-m1-cU_5vy3-a1-m1-cW 5vy3-a1-m1-cW_5vy3-a1-m1-cY 5vy4-a1-m1-c0_5vy4-a1-m1-cO 5vy4-a1-m1-c0_5vy4-a1-m1-cY 5vy4-a1-m1-cA_5vy4-a1-m1-cC 5vy4-a1-m1-cA_5vy4-a1-m1-cM 5vy4-a1-m1-cC_5vy4-a1-m1-cE 5vy4-a1-m1-cE_5vy4-a1-m1-cG 5vy4-a1-m1-cG_5vy4-a1-m1-cI 5vy4-a1-m1-cI_5vy4-a1-m1-cK 5vy4-a1-m1-cK_5vy4-a1-m1-cM 5vy4-a1-m1-cO_5vy4-a1-m1-cQ 5vy4-a1-m1-cQ_5vy4-a1-m1-cS 5vy4-a1-m1-cS_5vy4-a1-m1-cU 5vy4-a1-m1-cU_5vy4-a1-m1-cW 5vy4-a1-m1-cW_5vy4-a1-m1-cY 6bdf-a1-m1-c0_6bdf-a1-m1-cO 6bdf-a1-m1-c0_6bdf-a1-m1-cY 6bdf-a1-m1-cA_6bdf-a1-m1-cC 6bdf-a1-m1-cA_6bdf-a1-m1-cM 6bdf-a1-m1-cC_6bdf-a1-m1-cE 6bdf-a1-m1-cE_6bdf-a1-m1-cG 6bdf-a1-m1-cG_6bdf-a1-m1-cI 6bdf-a1-m1-cI_6bdf-a1-m1-cK 6bdf-a1-m1-cK_6bdf-a1-m1-cM 6bdf-a1-m1-cO_6bdf-a1-m1-cQ 6bdf-a1-m1-cQ_6bdf-a1-m1-cS 6bdf-a1-m1-cS_6bdf-a1-m1-cU 6bdf-a1-m1-cU_6bdf-a1-m1-cW 6bdf-a1-m1-cW_6bdf-a1-m1-cY 6utf-a1-m1-cA_6utf-a1-m1-cB 6utf-a1-m1-cA_6utf-a1-m1-cG 6utf-a1-m1-cB_6utf-a1-m1-cC 6utf-a1-m1-cC_6utf-a1-m1-cD 6utf-a1-m1-cD_6utf-a1-m1-cE 6utf-a1-m1-cE_6utf-a1-m1-cF 6utf-a1-m1-cF_6utf-a1-m1-cG 6utf-a1-m1-cO_6utf-a1-m1-cP 6utf-a1-m1-cO_6utf-a1-m1-cU 6utf-a1-m1-cP_6utf-a1-m1-cQ 6utf-a1-m1-cQ_6utf-a1-m1-cR 6utf-a1-m1-cR_6utf-a1-m1-cS 6utf-a1-m1-cS_6utf-a1-m1-cT 6utf-a1-m1-cT_6utf-a1-m1-cU 6utg-a1-m1-ca_6utg-a1-m1-cb 6utg-a1-m1-cA_6utg-a1-m1-cB 6utg-a1-m1-ca_6utg-a1-m1-cg 6utg-a1-m1-cA_6utg-a1-m1-cG 6utg-a1-m1-cB_6utg-a1-m1-cC 6utg-a1-m1-cb_6utg-a1-m1-cd 6utg-a1-m1-cc_6utg-a1-m1-cd 6utg-a1-m1-cC_6utg-a1-m1-cD 6utg-a1-m1-cc_6utg-a1-m1-ce 6utg-a1-m1-cD_6utg-a1-m1-cE 6utg-a1-m1-ce_6utg-a1-m1-cf 6utg-a1-m1-cE_6utg-a1-m1-cF 6utg-a1-m1-cf_6utg-a1-m1-cg 6utg-a1-m1-cF_6utg-a1-m1-cG 6uth-a1-m1-cA_6uth-a1-m1-cB 6uth-a1-m1-cA_6uth-a1-m1-cG 6uth-a1-m1-cB_6uth-a1-m1-cC 6uth-a1-m1-cC_6uth-a1-m1-cD 6uth-a1-m1-cD_6uth-a1-m1-cE 6uth-a1-m1-cE_6uth-a1-m1-cF 6uth-a1-m1-cF_6uth-a1-m1-cG 6uth-a1-m1-cO_6uth-a1-m1-cP 6uth-a1-m1-cO_6uth-a1-m1-cU 6uth-a1-m1-cP_6uth-a1-m1-cQ 6uth-a1-m1-cQ_6uth-a1-m1-cR 6uth-a1-m1-cR_6uth-a1-m1-cS 6uth-a1-m1-cS_6uth-a1-m1-cT 6uth-a1-m1-cT_6uth-a1-m1-cU 6uti-a1-m1-cA_6uti-a1-m1-cB 6uti-a1-m1-cA_6uti-a1-m1-cG 6uti-a1-m1-cB_6uti-a1-m1-cC 6uti-a1-m1-cC_6uti-a1-m1-cD 6uti-a1-m1-cD_6uti-a1-m1-cE 6uti-a1-m1-cE_6uti-a1-m1-cF 6uti-a1-m1-cF_6uti-a1-m1-cG 6uti-a1-m1-cO_6uti-a1-m1-cP 6uti-a1-m1-cO_6uti-a1-m1-cU 6uti-a1-m1-cP_6uti-a1-m1-cQ 6uti-a1-m1-cQ_6uti-a1-m1-cR 6uti-a1-m1-cR_6uti-a1-m1-cS 6uti-a1-m1-cS_6uti-a1-m1-cT 6uti-a1-m1-cT_6uti-a1-m1-cU 6utj-a1-m1-ca_6utj-a1-m1-cb 6utj-a1-m1-cA_6utj-a1-m1-cB 6utj-a1-m1-ca_6utj-a1-m1-cg 6utj-a1-m1-cA_6utj-a1-m1-cG 6utj-a1-m1-cb_6utj-a1-m1-cc 6utj-a1-m1-cB_6utj-a1-m1-cC 6utj-a1-m1-cc_6utj-a1-m1-cd 6utj-a1-m1-cC_6utj-a1-m1-cD 6utj-a1-m1-cd_6utj-a1-m1-ce 6utj-a1-m1-cD_6utj-a1-m1-cE 6utj-a1-m1-ce_6utj-a1-m1-cf 6utj-a1-m1-cE_6utj-a1-m1-cF 6utj-a1-m1-cf_6utj-a1-m1-cg 6utj-a1-m1-cF_6utj-a1-m1-cG TVFSPDGRLFQVEYAREAVKKGSTALGMKFANGVLLISDKKVRSRLIEQNSIEKIQLIDDYVAAVTSGLVADARVLVDFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGPRLFDCDPAGTINEYKATAIGSGKDAVVSFLEREYKENLPEKEAVTLGIKALKSSLEEGEELKAPEIASITVGNKYRIYDQEEVKKFL TVFSPDGRLFQVEYAREAVKKGSTALGMKFANGVLLISDKKVRSRLIEQNSIEKIQLIDDYVAAVTSGLVADARVLVDFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGPRLFDCDPAGTINEYKATAIGSGKDAVVSFLEREYKENLPEKEAVTLGIKALKSSLEEGEELKAPEIASITVGNKYRIYDQEEVKKFL 1yar-a1-m2-cH_1yar-a1-m2-cN Structure of Archeabacterial 20S proteasome mutant D9S- PA26 complex P28061 P28061 1.9 X-RAY DIFFRACTION 43 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 203 203 1pma-a1-m1-c1_1pma-a1-m1-c2 1pma-a1-m1-c1_1pma-a1-m1-cZ 1pma-a1-m1-c2_1pma-a1-m1-cV 1pma-a1-m1-cB_1pma-a1-m1-cP 1pma-a1-m1-cB_1pma-a1-m1-cU 1pma-a1-m1-cP_1pma-a1-m1-cQ 1pma-a1-m1-cQ_1pma-a1-m1-cR 1pma-a1-m1-cR_1pma-a1-m1-cS 1pma-a1-m1-cS_1pma-a1-m1-cT 1pma-a1-m1-cT_1pma-a1-m1-cU 1pma-a1-m1-cV_1pma-a1-m1-cW 1pma-a1-m1-cW_1pma-a1-m1-cX 1pma-a1-m1-cX_1pma-a1-m1-cY 1pma-a1-m1-cY_1pma-a1-m1-cZ 1ya7-a1-m1-cH_1ya7-a1-m1-cI 1ya7-a1-m1-cH_1ya7-a1-m1-cN 1ya7-a1-m1-cI_1ya7-a1-m1-cJ 1ya7-a1-m1-cJ_1ya7-a1-m1-cK 1ya7-a1-m1-cK_1ya7-a1-m1-cL 1ya7-a1-m1-cL_1ya7-a1-m1-cM 1ya7-a1-m1-cM_1ya7-a1-m1-cN 1ya7-a1-m2-cH_1ya7-a1-m2-cI 1ya7-a1-m2-cH_1ya7-a1-m2-cN 1ya7-a1-m2-cI_1ya7-a1-m2-cJ 1ya7-a1-m2-cJ_1ya7-a1-m2-cK 1ya7-a1-m2-cK_1ya7-a1-m2-cL 1ya7-a1-m2-cL_1ya7-a1-m2-cM 1ya7-a1-m2-cM_1ya7-a1-m2-cN 1yar-a1-m1-cH_1yar-a1-m1-cI 1yar-a1-m1-cH_1yar-a1-m1-cN 1yar-a1-m1-cI_1yar-a1-m1-cJ 1yar-a1-m1-cJ_1yar-a1-m1-cK 1yar-a1-m1-cK_1yar-a1-m1-cL 1yar-a1-m1-cL_1yar-a1-m1-cM 1yar-a1-m1-cM_1yar-a1-m1-cN 1yar-a1-m2-cH_1yar-a1-m2-cI 1yar-a1-m2-cI_1yar-a1-m2-cJ 1yar-a1-m2-cJ_1yar-a1-m2-cK 1yar-a1-m2-cK_1yar-a1-m2-cL 1yar-a1-m2-cL_1yar-a1-m2-cM 1yar-a1-m2-cM_1yar-a1-m2-cN 1yau-a1-m1-cH_1yau-a1-m1-cI 1yau-a1-m1-cH_1yau-a1-m1-cN 1yau-a1-m1-cI_1yau-a1-m1-cJ 1yau-a1-m1-cJ_1yau-a1-m1-cK 1yau-a1-m1-cK_1yau-a1-m1-cL 1yau-a1-m1-cL_1yau-a1-m1-cM 1yau-a1-m1-cM_1yau-a1-m1-cN 1yau-a1-m2-cH_1yau-a1-m2-cI 1yau-a1-m2-cH_1yau-a1-m2-cN 1yau-a1-m2-cI_1yau-a1-m2-cJ 1yau-a1-m2-cJ_1yau-a1-m2-cK 1yau-a1-m2-cK_1yau-a1-m2-cL 1yau-a1-m2-cL_1yau-a1-m2-cM 1yau-a1-m2-cM_1yau-a1-m2-cN 3c91-a1-m1-c1_3c91-a1-m1-c2 3c91-a1-m1-c1_3c91-a1-m1-cZ 3c91-a1-m1-c2_3c91-a1-m1-cV 3c91-a1-m1-cH_3c91-a1-m1-cI 3c91-a1-m1-cH_3c91-a1-m1-cN 3c91-a1-m1-cI_3c91-a1-m1-cJ 3c91-a1-m1-cJ_3c91-a1-m1-cK 3c91-a1-m1-cK_3c91-a1-m1-cL 3c91-a1-m1-cL_3c91-a1-m1-cM 3c91-a1-m1-cM_3c91-a1-m1-cN 3c91-a1-m1-cV_3c91-a1-m1-cW 3c91-a1-m1-cW_3c91-a1-m1-cX 3c91-a1-m1-cX_3c91-a1-m1-cY 3c91-a1-m1-cY_3c91-a1-m1-cZ 3c92-a1-m1-c1_3c92-a1-m1-c2 3c92-a1-m1-c1_3c92-a1-m1-cZ 3c92-a1-m1-c2_3c92-a1-m1-cV 3c92-a1-m1-cH_3c92-a1-m1-cI 3c92-a1-m1-cH_3c92-a1-m1-cN 3c92-a1-m1-cI_3c92-a1-m1-cJ 3c92-a1-m1-cJ_3c92-a1-m1-cK 3c92-a1-m1-cK_3c92-a1-m1-cL 3c92-a1-m1-cL_3c92-a1-m1-cM 3c92-a1-m1-cM_3c92-a1-m1-cN 3c92-a1-m1-cV_3c92-a1-m1-cW 3c92-a1-m1-cW_3c92-a1-m1-cX 3c92-a1-m1-cX_3c92-a1-m1-cY 3c92-a1-m1-cY_3c92-a1-m1-cZ 3ipm-a1-m1-cH_3ipm-a1-m1-cI 3ipm-a1-m1-cH_3ipm-a1-m1-cN 3ipm-a1-m1-cI_3ipm-a1-m1-cJ 3ipm-a1-m1-cJ_3ipm-a1-m1-cK 3ipm-a1-m1-cK_3ipm-a1-m1-cL 3ipm-a1-m1-cL_3ipm-a1-m1-cM 3ipm-a1-m1-cM_3ipm-a1-m1-cN 3ipm-a1-m2-cH_3ipm-a1-m2-cI 3ipm-a1-m2-cH_3ipm-a1-m2-cN 3ipm-a1-m2-cI_3ipm-a1-m2-cJ 3ipm-a1-m2-cJ_3ipm-a1-m2-cK 3ipm-a1-m2-cK_3ipm-a1-m2-cL 3ipm-a1-m2-cL_3ipm-a1-m2-cM 3ipm-a1-m2-cM_3ipm-a1-m2-cN 3j9i-a1-m1-c1_3j9i-a1-m1-c2 3j9i-a1-m1-c1_3j9i-a1-m1-cZ 3j9i-a1-m1-c2_3j9i-a1-m1-cV 3j9i-a1-m1-cH_3j9i-a1-m1-cI 3j9i-a1-m1-cH_3j9i-a1-m1-cN 3j9i-a1-m1-cI_3j9i-a1-m1-cJ 3j9i-a1-m1-cJ_3j9i-a1-m1-cK 3j9i-a1-m1-cK_3j9i-a1-m1-cL 3j9i-a1-m1-cL_3j9i-a1-m1-cM 3j9i-a1-m1-cM_3j9i-a1-m1-cN 3j9i-a1-m1-cV_3j9i-a1-m1-cW 3j9i-a1-m1-cW_3j9i-a1-m1-cX 3j9i-a1-m1-cX_3j9i-a1-m1-cY 3j9i-a1-m1-cY_3j9i-a1-m1-cZ 3jrm-a1-m1-cH_3jrm-a1-m1-cI 3jrm-a1-m1-cH_3jrm-a1-m1-cN 3jrm-a1-m1-cI_3jrm-a1-m1-cJ 3jrm-a1-m1-cJ_3jrm-a1-m1-cK 3jrm-a1-m1-cK_3jrm-a1-m1-cL 3jrm-a1-m1-cL_3jrm-a1-m1-cM 3jrm-a1-m1-cM_3jrm-a1-m1-cN 3jrm-a1-m2-cH_3jrm-a1-m2-cI 3jrm-a1-m2-cH_3jrm-a1-m2-cN 3jrm-a1-m2-cI_3jrm-a1-m2-cJ 3jrm-a1-m2-cJ_3jrm-a1-m2-cK 3jrm-a1-m2-cK_3jrm-a1-m2-cL 3jrm-a1-m2-cL_3jrm-a1-m2-cM 3jrm-a1-m2-cM_3jrm-a1-m2-cN 3jse-a1-m1-cH_3jse-a1-m1-cI 3jse-a1-m1-cH_3jse-a1-m1-cN 3jse-a1-m1-cI_3jse-a1-m1-cJ 3jse-a1-m1-cJ_3jse-a1-m1-cK 3jse-a1-m1-cK_3jse-a1-m1-cL 3jse-a1-m1-cL_3jse-a1-m1-cM 3jse-a1-m1-cM_3jse-a1-m1-cN 3jse-a1-m2-cH_3jse-a1-m2-cI 3jse-a1-m2-cH_3jse-a1-m2-cN 3jse-a1-m2-cI_3jse-a1-m2-cJ 3jse-a1-m2-cJ_3jse-a1-m2-cK 3jse-a1-m2-cK_3jse-a1-m2-cL 3jse-a1-m2-cL_3jse-a1-m2-cM 3jse-a1-m2-cM_3jse-a1-m2-cN 3jtl-a1-m1-cH_3jtl-a1-m1-cI 3jtl-a1-m1-cH_3jtl-a1-m1-cN 3jtl-a1-m1-cI_3jtl-a1-m1-cJ 3jtl-a1-m1-cJ_3jtl-a1-m1-cK 3jtl-a1-m1-cK_3jtl-a1-m1-cL 3jtl-a1-m1-cL_3jtl-a1-m1-cM 3jtl-a1-m1-cM_3jtl-a1-m1-cN 3jtl-a1-m2-cH_3jtl-a1-m2-cI 3jtl-a1-m2-cH_3jtl-a1-m2-cN 3jtl-a1-m2-cI_3jtl-a1-m2-cJ 3jtl-a1-m2-cJ_3jtl-a1-m2-cK 3jtl-a1-m2-cK_3jtl-a1-m2-cL 3jtl-a1-m2-cL_3jtl-a1-m2-cM 3jtl-a1-m2-cM_3jtl-a1-m2-cN 5vy3-a1-m1-c1_5vy3-a1-m1-cP 5vy3-a1-m1-c1_5vy3-a1-m1-cZ 5vy3-a1-m1-cB_5vy3-a1-m1-cD 5vy3-a1-m1-cB_5vy3-a1-m1-cN 5vy3-a1-m1-cD_5vy3-a1-m1-cF 5vy3-a1-m1-cF_5vy3-a1-m1-cH 5vy3-a1-m1-cH_5vy3-a1-m1-cJ 5vy3-a1-m1-cJ_5vy3-a1-m1-cL 5vy3-a1-m1-cL_5vy3-a1-m1-cN 5vy3-a1-m1-cP_5vy3-a1-m1-cR 5vy3-a1-m1-cR_5vy3-a1-m1-cT 5vy3-a1-m1-cT_5vy3-a1-m1-cV 5vy3-a1-m1-cV_5vy3-a1-m1-cX 5vy3-a1-m1-cX_5vy3-a1-m1-cZ 5vy4-a1-m1-c1_5vy4-a1-m1-cP 5vy4-a1-m1-c1_5vy4-a1-m1-cZ 5vy4-a1-m1-cB_5vy4-a1-m1-cD 5vy4-a1-m1-cB_5vy4-a1-m1-cN 5vy4-a1-m1-cD_5vy4-a1-m1-cF 5vy4-a1-m1-cF_5vy4-a1-m1-cH 5vy4-a1-m1-cH_5vy4-a1-m1-cJ 5vy4-a1-m1-cJ_5vy4-a1-m1-cL 5vy4-a1-m1-cL_5vy4-a1-m1-cN 5vy4-a1-m1-cP_5vy4-a1-m1-cR 5vy4-a1-m1-cR_5vy4-a1-m1-cT 5vy4-a1-m1-cT_5vy4-a1-m1-cV 5vy4-a1-m1-cV_5vy4-a1-m1-cX 5vy4-a1-m1-cX_5vy4-a1-m1-cZ 6bdf-a1-m1-c1_6bdf-a1-m1-cP 6bdf-a1-m1-c1_6bdf-a1-m1-cZ 6bdf-a1-m1-cB_6bdf-a1-m1-cD 6bdf-a1-m1-cB_6bdf-a1-m1-cN 6bdf-a1-m1-cD_6bdf-a1-m1-cF 6bdf-a1-m1-cF_6bdf-a1-m1-cH 6bdf-a1-m1-cH_6bdf-a1-m1-cJ 6bdf-a1-m1-cJ_6bdf-a1-m1-cL 6bdf-a1-m1-cL_6bdf-a1-m1-cN 6bdf-a1-m1-cP_6bdf-a1-m1-cR 6bdf-a1-m1-cR_6bdf-a1-m1-cT 6bdf-a1-m1-cT_6bdf-a1-m1-cV 6bdf-a1-m1-cV_6bdf-a1-m1-cX 6bdf-a1-m1-cX_6bdf-a1-m1-cZ 6utf-a1-m1-c1_6utf-a1-m1-c2 6utf-a1-m1-c1_6utf-a1-m1-cZ 6utf-a1-m1-c2_6utf-a1-m1-cV 6utf-a1-m1-cH_6utf-a1-m1-cI 6utf-a1-m1-cH_6utf-a1-m1-cN 6utf-a1-m1-cI_6utf-a1-m1-cJ 6utf-a1-m1-cJ_6utf-a1-m1-cK 6utf-a1-m1-cK_6utf-a1-m1-cL 6utf-a1-m1-cL_6utf-a1-m1-cM 6utf-a1-m1-cM_6utf-a1-m1-cN 6utf-a1-m1-cV_6utf-a1-m1-cW 6utf-a1-m1-cW_6utf-a1-m1-cX 6utf-a1-m1-cX_6utf-a1-m1-cY 6utf-a1-m1-cY_6utf-a1-m1-cZ 6utg-a1-m1-c1_6utg-a1-m1-c2 6utg-a1-m1-c1_6utg-a1-m1-cZ 6utg-a1-m1-c2_6utg-a1-m1-cV 6utg-a1-m1-cH_6utg-a1-m1-cI 6utg-a1-m1-cH_6utg-a1-m1-cN 6utg-a1-m1-cI_6utg-a1-m1-cJ 6utg-a1-m1-cJ_6utg-a1-m1-cK 6utg-a1-m1-cK_6utg-a1-m1-cL 6utg-a1-m1-cL_6utg-a1-m1-cM 6utg-a1-m1-cM_6utg-a1-m1-cN 6utg-a1-m1-cV_6utg-a1-m1-cW 6utg-a1-m1-cW_6utg-a1-m1-cX 6utg-a1-m1-cX_6utg-a1-m1-cY 6utg-a1-m1-cY_6utg-a1-m1-cZ 6uth-a1-m1-c1_6uth-a1-m1-c2 6uth-a1-m1-c1_6uth-a1-m1-cZ 6uth-a1-m1-c2_6uth-a1-m1-cV 6uth-a1-m1-cH_6uth-a1-m1-cI 6uth-a1-m1-cH_6uth-a1-m1-cN 6uth-a1-m1-cI_6uth-a1-m1-cJ 6uth-a1-m1-cJ_6uth-a1-m1-cK 6uth-a1-m1-cK_6uth-a1-m1-cL 6uth-a1-m1-cL_6uth-a1-m1-cM 6uth-a1-m1-cM_6uth-a1-m1-cN 6uth-a1-m1-cV_6uth-a1-m1-cW 6uth-a1-m1-cW_6uth-a1-m1-cX 6uth-a1-m1-cX_6uth-a1-m1-cY 6uth-a1-m1-cY_6uth-a1-m1-cZ 6uti-a1-m1-ca_6uti-a1-m1-cb 6uti-a1-m1-cH_6uti-a1-m1-cI 6uti-a1-m1-cH_6uti-a1-m1-cN 6uti-a1-m1-cI_6uti-a1-m1-cJ 6uti-a1-m1-cJ_6uti-a1-m1-cK 6uti-a1-m1-cK_6uti-a1-m1-cL 6uti-a1-m1-cL_6uti-a1-m1-cM 6uti-a1-m1-cM_6uti-a1-m1-cN 6uti-a1-m1-cV_6uti-a1-m1-cb 6uti-a1-m1-cV_6uti-a1-m1-cW 6uti-a1-m1-cW_6uti-a1-m1-cX 6uti-a1-m1-cX_6uti-a1-m1-cY 6uti-a1-m1-cY_6uti-a1-m1-cZ 6uti-a1-m1-cZ_6uti-a1-m1-ca 6utj-a1-m1-c1_6utj-a1-m1-c2 6utj-a1-m1-c1_6utj-a1-m1-cZ 6utj-a1-m1-c2_6utj-a1-m1-cV 6utj-a1-m1-cH_6utj-a1-m1-cI 6utj-a1-m1-cH_6utj-a1-m1-cN 6utj-a1-m1-cI_6utj-a1-m1-cJ 6utj-a1-m1-cJ_6utj-a1-m1-cK 6utj-a1-m1-cK_6utj-a1-m1-cL 6utj-a1-m1-cL_6utj-a1-m1-cM 6utj-a1-m1-cM_6utj-a1-m1-cN 6utj-a1-m1-cV_6utj-a1-m1-cW 6utj-a1-m1-cW_6utj-a1-m1-cX 6utj-a1-m1-cX_6utj-a1-m1-cY 6utj-a1-m1-cY_6utj-a1-m1-cZ TTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPHVFSIDAAGGSVEDIYASTGSGSPFVYGVLESQYSEKMTVDEGVDLVIRAISAAKQRDSASGGMIDVAVITRKDGYVQLPTDQIESRIRKLGLIL TTTVGITLKDAVIMATERRVTMENFIMHKNGKKLFQIDTYTGMTIAGLVGDAQVLVRYMKAELELYRLQRRVNMPIEAVATLLSNMLNQVKYMPYMVQLLVGGIDTAPHVFSIDAAGGSVEDIYASTGSGSPFVYGVLESQYSEKMTVDEGVDLVIRAISAAKQRDSASGGMIDVAVITRKDGYVQLPTDQIESRIRKLGLIL 1yar-a1-m2-cT_1yar-a1-m2-cU Structure of Archeabacterial 20S proteasome mutant D9S- PA26 complex Q9U8G2 Q9U8G2 1.9 X-RAY DIFFRACTION 133 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 218 218 1ya7-a1-m1-cO_1ya7-a1-m1-cP 1ya7-a1-m1-cO_1ya7-a1-m1-cU 1ya7-a1-m1-cP_1ya7-a1-m1-cQ 1ya7-a1-m1-cQ_1ya7-a1-m1-cR 1ya7-a1-m1-cR_1ya7-a1-m1-cS 1ya7-a1-m1-cS_1ya7-a1-m1-cT 1ya7-a1-m1-cT_1ya7-a1-m1-cU 1ya7-a1-m2-cO_1ya7-a1-m2-cP 1ya7-a1-m2-cO_1ya7-a1-m2-cU 1ya7-a1-m2-cP_1ya7-a1-m2-cQ 1ya7-a1-m2-cQ_1ya7-a1-m2-cR 1ya7-a1-m2-cR_1ya7-a1-m2-cS 1ya7-a1-m2-cS_1ya7-a1-m2-cT 1ya7-a1-m2-cT_1ya7-a1-m2-cU 1yar-a1-m1-cO_1yar-a1-m1-cP 1yar-a1-m1-cO_1yar-a1-m1-cU 1yar-a1-m1-cP_1yar-a1-m1-cQ 1yar-a1-m1-cQ_1yar-a1-m1-cR 1yar-a1-m1-cR_1yar-a1-m1-cS 1yar-a1-m1-cS_1yar-a1-m1-cT 1yar-a1-m1-cT_1yar-a1-m1-cU 1yar-a1-m2-cO_1yar-a1-m2-cP 1yar-a1-m2-cO_1yar-a1-m2-cU 1yar-a1-m2-cP_1yar-a1-m2-cQ 1yar-a1-m2-cQ_1yar-a1-m2-cR 1yar-a1-m2-cR_1yar-a1-m2-cS 1yar-a1-m2-cS_1yar-a1-m2-cT 1yau-a1-m1-cO_1yau-a1-m1-cP 1yau-a1-m1-cO_1yau-a1-m1-cU 1yau-a1-m1-cP_1yau-a1-m1-cQ 1yau-a1-m1-cQ_1yau-a1-m1-cR 1yau-a1-m1-cR_1yau-a1-m1-cS 1yau-a1-m1-cS_1yau-a1-m1-cT 1yau-a1-m1-cT_1yau-a1-m1-cU 1yau-a1-m2-cO_1yau-a1-m2-cP 1yau-a1-m2-cO_1yau-a1-m2-cU 1yau-a1-m2-cP_1yau-a1-m2-cQ 1yau-a1-m2-cQ_1yau-a1-m2-cR 1yau-a1-m2-cR_1yau-a1-m2-cS 1yau-a1-m2-cS_1yau-a1-m2-cT 1yau-a1-m2-cT_1yau-a1-m2-cU 1z7q-a1-m1-cc_1z7q-a1-m1-cd 1z7q-a1-m1-cc_1z7q-a1-m1-ci 1z7q-a1-m1-cd_1z7q-a1-m1-ce 1z7q-a1-m1-ce_1z7q-a1-m1-cf 1z7q-a1-m1-cf_1z7q-a1-m1-cg 1z7q-a1-m1-cg_1z7q-a1-m1-ch 1z7q-a1-m1-ch_1z7q-a1-m1-ci 1z7q-a1-m1-cj_1z7q-a1-m1-ck 1z7q-a1-m1-cj_1z7q-a1-m1-cp 1z7q-a1-m1-ck_1z7q-a1-m1-cl 1z7q-a1-m1-cl_1z7q-a1-m1-cm 1z7q-a1-m1-cm_1z7q-a1-m1-cn 1z7q-a1-m1-cn_1z7q-a1-m1-co 1z7q-a1-m1-co_1z7q-a1-m1-cp 3ipm-a1-m1-cO_3ipm-a1-m1-cP 3ipm-a1-m1-cO_3ipm-a1-m1-cU 3ipm-a1-m1-cP_3ipm-a1-m1-cQ 3ipm-a1-m1-cQ_3ipm-a1-m1-cR 3ipm-a1-m1-cR_3ipm-a1-m1-cS 3ipm-a1-m1-cS_3ipm-a1-m1-cT 3ipm-a1-m1-cT_3ipm-a1-m1-cU 3ipm-a1-m2-cO_3ipm-a1-m2-cP 3ipm-a1-m2-cO_3ipm-a1-m2-cU 3ipm-a1-m2-cP_3ipm-a1-m2-cQ 3ipm-a1-m2-cQ_3ipm-a1-m2-cR 3ipm-a1-m2-cR_3ipm-a1-m2-cS 3ipm-a1-m2-cS_3ipm-a1-m2-cT 3ipm-a1-m2-cT_3ipm-a1-m2-cU 3jrm-a1-m1-cO_3jrm-a1-m1-cP 3jrm-a1-m1-cO_3jrm-a1-m1-cU 3jrm-a1-m1-cP_3jrm-a1-m1-cQ 3jrm-a1-m1-cQ_3jrm-a1-m1-cR 3jrm-a1-m1-cR_3jrm-a1-m1-cS 3jrm-a1-m1-cS_3jrm-a1-m1-cT 3jrm-a1-m1-cT_3jrm-a1-m1-cU 3jrm-a1-m2-cO_3jrm-a1-m2-cP 3jrm-a1-m2-cO_3jrm-a1-m2-cU 3jrm-a1-m2-cP_3jrm-a1-m2-cQ 3jrm-a1-m2-cQ_3jrm-a1-m2-cR 3jrm-a1-m2-cR_3jrm-a1-m2-cS 3jrm-a1-m2-cS_3jrm-a1-m2-cT 3jrm-a1-m2-cT_3jrm-a1-m2-cU 3jse-a1-m1-cO_3jse-a1-m1-cP 3jse-a1-m1-cO_3jse-a1-m1-cU 3jse-a1-m1-cP_3jse-a1-m1-cQ 3jse-a1-m1-cQ_3jse-a1-m1-cR 3jse-a1-m1-cR_3jse-a1-m1-cS 3jse-a1-m1-cS_3jse-a1-m1-cT 3jse-a1-m1-cT_3jse-a1-m1-cU 3jse-a1-m2-cO_3jse-a1-m2-cP 3jse-a1-m2-cO_3jse-a1-m2-cU 3jse-a1-m2-cP_3jse-a1-m2-cQ 3jse-a1-m2-cQ_3jse-a1-m2-cR 3jse-a1-m2-cR_3jse-a1-m2-cS 3jse-a1-m2-cS_3jse-a1-m2-cT 3jse-a1-m2-cT_3jse-a1-m2-cU 3jtl-a1-m1-cO_3jtl-a1-m1-cP 3jtl-a1-m1-cO_3jtl-a1-m1-cU 3jtl-a1-m1-cP_3jtl-a1-m1-cQ 3jtl-a1-m1-cQ_3jtl-a1-m1-cR 3jtl-a1-m1-cR_3jtl-a1-m1-cS 3jtl-a1-m1-cS_3jtl-a1-m1-cT 3jtl-a1-m1-cT_3jtl-a1-m1-cU 3jtl-a1-m2-cO_3jtl-a1-m2-cP 3jtl-a1-m2-cO_3jtl-a1-m2-cU 3jtl-a1-m2-cP_3jtl-a1-m2-cQ 3jtl-a1-m2-cQ_3jtl-a1-m2-cR 3jtl-a1-m2-cR_3jtl-a1-m2-cS 3jtl-a1-m2-cS_3jtl-a1-m2-cT 3jtl-a1-m2-cT_3jtl-a1-m2-cU 6utg-a1-m1-cO_6utg-a1-m1-cP 6utg-a1-m1-cO_6utg-a1-m1-cU 6utg-a1-m1-cP_6utg-a1-m1-cQ 6utg-a1-m1-cQ_6utg-a1-m1-cR 6utg-a1-m1-cR_6utg-a1-m1-cS 6utg-a1-m1-cS_6utg-a1-m1-cT 6utg-a1-m1-cT_6utg-a1-m1-cU 6uth-a1-m1-ca_6uth-a1-m1-cb 6uth-a1-m1-ca_6uth-a1-m1-cg 6uth-a1-m1-cb_6uth-a1-m1-cc 6uth-a1-m1-cc_6uth-a1-m1-cd 6uth-a1-m1-cd_6uth-a1-m1-ce 6uth-a1-m1-ce_6uth-a1-m1-cf 6uth-a1-m1-cf_6uth-a1-m1-cg 6utj-a1-m1-cO_6utj-a1-m1-cP 6utj-a1-m1-cO_6utj-a1-m1-cU 6utj-a1-m1-cP_6utj-a1-m1-cQ 6utj-a1-m1-cQ_6utj-a1-m1-cR 6utj-a1-m1-cR_6utj-a1-m1-cS 6utj-a1-m1-cS_6utj-a1-m1-cT 6utj-a1-m1-cT_6utj-a1-m1-cU KRAALIQNLRDSYTETSSFAVIEEWAAGTLQEIEGIAKAAAEAHGVIRNSTYGRAQAEKSPEQLLGVLQRYQDLCHNVYCQAETIRTVIAIRIPEHKEEDNLGVAVQHAVLKIIDELEIKTLGSGEKSGSGGAPTPIGMYALREYLSARSTVEDKLLGGGSQSPSLLLELRQIDADFMLKVELATTHLSTMVRAVINAYLLNWKKLIQPRTGSDHMVS KRAALIQNLRDSYTETSSFAVIEEWAAGTLQEIEGIAKAAAEAHGVIRNSTYGRAQAEKSPEQLLGVLQRYQDLCHNVYCQAETIRTVIAIRIPEHKEEDNLGVAVQHAVLKIIDELEIKTLGSGEKSGSGGAPTPIGMYALREYLSARSTVEDKLLGGGSQSPSLLLELRQIDADFMLKVELATTHLSTMVRAVINAYLLNWKKLIQPRTGSDHMVS 1yax-a1-m1-cD_1yax-a1-m1-cC Cystal structure Analysis of S.typhimurium PhoQ sensor domain with Calcium P0DM80 P0DM80 2.4 X-RAY DIFFRACTION 37 1.0 134 153 DKTTFRLLRGESNLFYTLAKWENNKISVELPTMTLIYDETGKLLWTQRNIPWLIKSIQPEWLKTNGFHEIETNVDATSTLLSEDHSAQEKLKEVREDDDDAEMTHSVAVNIYPATARMPQLTIVVVDTIPIELK MDKTTFRLLRGESNLFYTLAKWENNKISVELPENLDMQSPTMTLIYDETGKLLWTQRNIPWLIKSIQPEWLKTNGFHEIETNVDATSTLLSEDHSAQEKLKEVREDDDDAEMTHSVAVNIYPATARMPQLTIVVVDTIPIELKRSYMHHHHHH 1yb0-a1-m1-cC_1yb0-a1-m1-cB Structure of PlyL A0A6H3AMF3 A0A6H3AMF3 1.86 X-RAY DIFFRACTION 18 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 157 159 1yb0-a1-m1-cA_1yb0-a1-m1-cB 1yb0-a1-m1-cA_1yb0-a1-m1-cC 2ar3-a1-m1-cA_2ar3-a1-m1-cB 2ar3-a1-m1-cA_2ar3-a1-m1-cC 2ar3-a1-m1-cC_2ar3-a1-m1-cB MEIRKKLVVPSKYGTKCPYTMKPKYITVHNTYNDAPAENEVNYMITNNNEVSFHVAVDDKQAIQGIPWERNAWACGDGNGPGNRESISVEICYSKSGGDRYYKAENNAVDVVRQLMSMYNIPIENVRTHQSWSGKYCPHRMLAEGRWGAFIQKVKSG MEIRKKLVVPSKYGTKCPYTMKPKYITVHNTYNDAPAENEVNYMITNNNEVSFHVAVDDKQAIQGIPWERNAWACGDGNGPGNRESISVEICYSKSGGDRYYKAENNAVDVVRQLMSMYNIPIENVRTHQSWSGKYCPHRMLAEGRWGAFIQKVKSGNV 1yb1-a2-m1-cB_1yb1-a2-m2-cB Crystal structure of human 17-beta-hydroxysteroid dehydrogenase type XI Q8NBQ5 Q8NBQ5 1.95 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 1yb1-a2-m1-cA_1yb1-a2-m2-cA RRKSVTGEIVLITGAGHGIGRLTAYEFAKLKSKLVLWDINKHGLEETAAKCKGLGAKVHTFVVDCSNREDIYSSAKKVKAEIGDVSILVNNAGVVYTSDLFATQDPQIEKTFEVNVLAHFWTTKAFLPAMTKNNHGHIVTVASAHVSVPFLLAYCSSKFAAVGFHKTLTDELAALQITGVKTTCLCPNFVNTGFIKNPSTSLGPTLEPEEVVNRLMHGILTEQKMIFIPSSIAFLTTLERIL RRKSVTGEIVLITGAGHGIGRLTAYEFAKLKSKLVLWDINKHGLEETAAKCKGLGAKVHTFVVDCSNREDIYSSAKKVKAEIGDVSILVNNAGVVYTSDLFATQDPQIEKTFEVNVLAHFWTTKAFLPAMTKNNHGHIVTVASAHVSVPFLLAYCSSKFAAVGFHKTLTDELAALQITGVKTTCLCPNFVNTGFIKNPSTSLGPTLEPEEVVNRLMHGILTEQKMIFIPSSIAFLTTLERIL 1yb1-a2-m2-cB_1yb1-a2-m2-cA Crystal structure of human 17-beta-hydroxysteroid dehydrogenase type XI Q8NBQ5 Q8NBQ5 1.95 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 243 1yb1-a1-m1-cB_1yb1-a1-m1-cA 1yb1-a2-m1-cB_1yb1-a2-m1-cA RRKSVTGEIVLITGAGHGIGRLTAYEFAKLKSKLVLWDINKHGLEETAAKCKGLGAKVHTFVVDCSNREDIYSSAKKVKAEIGDVSILVNNAGVVYTSDLFATQDPQIEKTFEVNVLAHFWTTKAFLPAMTKNNHGHIVTVASAHVSVPFLLAYCSSKFAAVGFHKTLTDELAALQITGVKTTCLCPNFVNTGFIKNPSTSLGPTLEPEEVVNRLMHGILTEQKMIFIPSSIAFLTTLERIL RRKSVTGEIVLITGAGHGIGRLTAYEFAKLKSKLVLWDINKHGLEETAAKCKGLGAKVHTFVVDCSNREDIYSSAKKVKAEIGDVSILVNNAGVVYTSDLFATQDPQIEKTFEVNVLAHFWTTKAFLPAMTKNNHGHIVTVASAAHVSVPFLLAYCSSKFAAVGFHKTLTDELAALQITGVKTTCLCPNFVNTGFIKNPSTSLGPTLEPEEVVNRLMHGILTEQKMIFIPSSIAFLTTLERIL 1yb2-a1-m1-cA_1yb2-a1-m2-cA Structure of a putative methyltransferase from Thermoplasma acidophilum. Q9HJW1 Q9HJW1 2.01 X-RAY DIFFRACTION 110 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 219 219 PVILVSEDEYGKFDESTNSILVGKHHLGSRVIEPGDELIVSGKSFIVSDFSPYFGRVICGLRPGDILEVGVGSGNSSYILYALNGKGTLTVVERDEDNLKKADNLSEFYDIGNVRTSRSDIADFISDQYDAVIADIPDPWNHVQKIASKPGSVATFYLPNFDQSEKTVLSLSASGHHLETVELKRRILVREGATRPASDDLTHTAFITFAIKKSGVYRI PVILVSEDEYGKFDESTNSILVGKHHLGSRVIEPGDELIVSGKSFIVSDFSPYFGRVICGLRPGDILEVGVGSGNSSYILYALNGKGTLTVVERDEDNLKKADNLSEFYDIGNVRTSRSDIADFISDQYDAVIADIPDPWNHVQKIASKPGSVATFYLPNFDQSEKTVLSLSASGHHLETVELKRRILVREGATRPASDDLTHTAFITFAIKKSGVYRI 1yb3-a2-m1-cA_1yb3-a2-m2-cA Conserved hypothetical protein Pfu-178653-001 from Pyrococcus furiosus Q8U4C0 Q8U4C0 1.6 X-RAY DIFFRACTION 50 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 163 163 LKEVHELLNRIWGDIFELREELKEELKGFTVEEVSEVFNAYLYIDGKWEEKYPHPAFAVKPGGEVGATPQGFYFVFAFPKEELSKEFIEDVIRAFEKLFIYGAENFLEDFYNFEHPISGDEVWDRIVNSDEEINFEVDLGFDKEEVKREIKRFIELARRYNLL LKEVHELLNRIWGDIFELREELKEELKGFTVEEVSEVFNAYLYIDGKWEEKYPHPAFAVKPGGEVGATPQGFYFVFAFPKEELSKEFIEDVIRAFEKLFIYGAENFLEDFYNFEHPISGDEVWDRIVNSDEEINFEVDLGFDKEEVKREIKRFIELARRYNLL 1yb4-a1-m1-cA_1yb4-a1-m2-cB Crystal Structure of the Tartronic Semialdehyde Reductase from Salmonella typhimurium LT2 Q8ZR83 Q8ZR83 2.4 X-RAY DIFFRACTION 55 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 280 280 1yb4-a1-m1-cB_1yb4-a1-m2-cA KLGFIGLGIGSPAINLARAGHQLHVTTIGPVADELLSLGAVNVETARQVTEFADIIFIVPDTPQVEDVLFGEHGCAKTSLQGKTIVDSSISPIETKRFAQRVNEGADYLDAPVSGGEIGAREGTLSIVGGEQKVFDRVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPVRVRQALGGFASSRILEVHGERINRTFEPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSAVQALELANHKL KLGFIGLGIGSPAINLARAGHQLHVTTIGPVADELLSLGAVNVETARQVTEFADIIFIVPDTPQVEDVLFGEHGCAKTSLQGKTIVDSSISPIETKRFAQRVNEGADYLDAPVSGGEIGAREGTLSIVGGEQKVFDRVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPVRVRQALGGFASSRILEVHGERINRTFEPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSAVQALELANHKL 1yb4-a1-m1-cB_1yb4-a1-m2-cB Crystal Structure of the Tartronic Semialdehyde Reductase from Salmonella typhimurium LT2 Q8ZR83 Q8ZR83 2.4 X-RAY DIFFRACTION 16 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 280 280 1yb4-a1-m1-cA_1yb4-a1-m2-cA KLGFIGLGIGSPAINLARAGHQLHVTTIGPVADELLSLGAVNVETARQVTEFADIIFIVPDTPQVEDVLFGEHGCAKTSLQGKTIVDSSISPIETKRFAQRVNEGADYLDAPVSGGEIGAREGTLSIVGGEQKVFDRVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPVRVRQALGGFASSRILEVHGERINRTFEPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSAVQALELANHKL KLGFIGLGIGSPAINLARAGHQLHVTTIGPVADELLSLGAVNVETARQVTEFADIIFIVPDTPQVEDVLFGEHGCAKTSLQGKTIVDSSISPIETKRFAQRVNEGADYLDAPVSGGEIGAREGTLSIVGGEQKVFDRVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPVRVRQALGGFASSRILEVHGERINRTFEPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSAVQALELANHKL 1yb4-a1-m2-cA_1yb4-a1-m2-cB Crystal Structure of the Tartronic Semialdehyde Reductase from Salmonella typhimurium LT2 Q8ZR83 Q8ZR83 2.4 X-RAY DIFFRACTION 250 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 280 280 1yb4-a1-m1-cA_1yb4-a1-m1-cB KLGFIGLGIGSPAINLARAGHQLHVTTIGPVADELLSLGAVNVETARQVTEFADIIFIVPDTPQVEDVLFGEHGCAKTSLQGKTIVDSSISPIETKRFAQRVNEGADYLDAPVSGGEIGAREGTLSIVGGEQKVFDRVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPVRVRQALGGFASSRILEVHGERINRTFEPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSAVQALELANHKL KLGFIGLGIGSPAINLARAGHQLHVTTIGPVADELLSLGAVNVETARQVTEFADIIFIVPDTPQVEDVLFGEHGCAKTSLQGKTIVDSSISPIETKRFAQRVNEGADYLDAPVSGGEIGAREGTLSIVGGEQKVFDRVKPLFDILGKNITLVGGNGDGQTCKVANQIIVALNIEAVSEALVFASKAGADPVRVRQALGGFASSRILEVHGERINRTFEPGFKIALHQKDLNLALQSAKALALNLPNTATCQELFNTCAANGGSQLDHSAVQALELANHKL 1yb5-a2-m1-cA_1yb5-a2-m2-cB Crystal structure of human Zeta-Crystallin with bound NADP Q08257 Q08257 1.85 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 324 1yb5-a2-m1-cB_1yb5-a2-m2-cA KLMRAVRVFEFGGPEVLKLRSDIAVPIPKDHQVLIKVHACGVNPVETYIRSGTYSRKPLLPYTPGSDVAGVIEAVGDNASAFKKGDRVFTSSTISGGYAEYALAADHTVYKLPEKLDFKQGAAIGIPYFTAYRALIHSACVKAGESVLVHGASGGVGLAACQIARAYGLKILGTAGTEEGQKIVLQNGAHEVFNHREVNYIDKIKKYVGEKGIDIIIEMLANVNLSKDLSLLSHGGRVIVVGSRGTIEINPRDTMAKESSIIGVTLFSSTKEEFQQYAAALQAGMEIGWLKPVIGSQYPLEKVAEAHENIIHGSGATGKMILLL KLMRAVRVFEFGGPEVLKLRSDIAVPIPKDHQVLIKVHACGVNPVETYIRSGTYSRKPLLPYTPGSDVAGVIEAVGDNASAFKKGDRVFTSSTISGGYAEYALAADHTVYKLPEKLDFKQGAAIGIPYFTAYRALIHSACVKAGESVLVHGASGGVGLAACQIARAYGLKILGTAGTEEGQKIVLQNGAHEVFNHREVNYIDKIKKYVGEKGIDIIIEMLANVNLSKDLSLLSHGGRVIVVGSRGTIEINPRDTMAKESSIIGVTLFSSTKEEFQQYAAALQAGMEIGWLKPVIGSQYPLEKVAEAHENIIHGSGATGKMILLL 1yb5-a2-m2-cA_1yb5-a2-m2-cB Crystal structure of human Zeta-Crystallin with bound NADP Q08257 Q08257 1.85 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 324 1yb5-a1-m1-cA_1yb5-a1-m1-cB 1yb5-a2-m1-cA_1yb5-a2-m1-cB KLMRAVRVFEFGGPEVLKLRSDIAVPIPKDHQVLIKVHACGVNPVETYIRSGTYSRKPLLPYTPGSDVAGVIEAVGDNASAFKKGDRVFTSSTISGGYAEYALAADHTVYKLPEKLDFKQGAAIGIPYFTAYRALIHSACVKAGESVLVHGASGGVGLAACQIARAYGLKILGTAGTEEGQKIVLQNGAHEVFNHREVNYIDKIKKYVGEKGIDIIIEMLANVNLSKDLSLLSHGGRVIVVGSRGTIEINPRDTMAKESSIIGVTLFSSTKEEFQQYAAALQAGMEIGWLKPVIGSQYPLEKVAEAHENIIHGSGATGKMILLL KLMRAVRVFEFGGPEVLKLRSDIAVPIPKDHQVLIKVHACGVNPVETYIRSGTYSRKPLLPYTPGSDVAGVIEAVGDNASAFKKGDRVFTSSTISGGYAEYALAADHTVYKLPEKLDFKQGAAIGIPYFTAYRALIHSACVKAGESVLVHGASGGVGLAACQIARAYGLKILGTAGTEEGQKIVLQNGAHEVFNHREVNYIDKIKKYVGEKGIDIIIEMLANVNLSKDLSLLSHGGRVIVVGSRGTIEINPRDTMAKESSIIGVTLFSSTKEEFQQYAAALQAGMEIGWLKPVIGSQYPLEKVAEAHENIIHGSGATGKMILLL 1ybd-a5-m4-cB_1ybd-a5-m8-cB Crystal structure analysis of uridylate kinase from Neisseria meningitidis P65932 P65932 2.6 X-RAY DIFFRACTION 41 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 225 225 1ybd-a1-m1-cA_1ybd-a1-m2-cC 1ybd-a1-m1-cC_1ybd-a1-m3-cA 1ybd-a1-m2-cA_1ybd-a1-m3-cC 1ybd-a2-m1-cB_1ybd-a2-m6-cB 1ybd-a5-m1-cB_1ybd-a5-m6-cB 1ybd-a5-m5-cB_1ybd-a5-m7-cB QIKYKRVLLKLSGESLGSDPFGINHDTIVQTVGEIAEVVKGVQVGIVVGGGNIFRGVSAQAGSDRATADYGATVNALALKDAFETLGIKARVQSALSQQIAETYARPKAIQYLEEGKVVIFAAGTGNPFFTTDTAAALRGAENCDVLKATNVDGVYTADPKKDPSATRYETITFDEALLKNLKVDATAFALCRERKLNIVVFGIAKEGSLKRVITGEDEGTLVHC QIKYKRVLLKLSGESLGSDPFGINHDTIVQTVGEIAEVVKGVQVGIVVGGGNIFRGVSAQAGSDRATADYGATVNALALKDAFETLGIKARVQSALSQQIAETYARPKAIQYLEEGKVVIFAAGTGNPFFTTDTAAALRGAENCDVLKATNVDGVYTADPKKDPSATRYETITFDEALLKNLKVDATAFALCRERKLNIVVFGIAKEGSLKRVITGEDEGTLVHC 1ybd-a5-m6-cB_1ybd-a5-m8-cB Crystal structure analysis of uridylate kinase from Neisseria meningitidis P65932 P65932 2.6 X-RAY DIFFRACTION 74 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 225 225 1ybd-a1-m1-cA_1ybd-a1-m1-cC 1ybd-a1-m2-cA_1ybd-a1-m2-cC 1ybd-a1-m3-cA_1ybd-a1-m3-cC 1ybd-a2-m1-cB_1ybd-a2-m5-cB 1ybd-a3-m1-cA_1ybd-a3-m1-cC 1ybd-a4-m1-cB_1ybd-a4-m5-cB 1ybd-a5-m1-cB_1ybd-a5-m5-cB 1ybd-a5-m4-cB_1ybd-a5-m7-cB QIKYKRVLLKLSGESLGSDPFGINHDTIVQTVGEIAEVVKGVQVGIVVGGGNIFRGVSAQAGSDRATADYGATVNALALKDAFETLGIKARVQSALSQQIAETYARPKAIQYLEEGKVVIFAAGTGNPFFTTDTAAALRGAENCDVLKATNVDGVYTADPKKDPSATRYETITFDEALLKNLKVDATAFALCRERKLNIVVFGIAKEGSLKRVITGEDEGTLVHC QIKYKRVLLKLSGESLGSDPFGINHDTIVQTVGEIAEVVKGVQVGIVVGGGNIFRGVSAQAGSDRATADYGATVNALALKDAFETLGIKARVQSALSQQIAETYARPKAIQYLEEGKVVIFAAGTGNPFFTTDTAAALRGAENCDVLKATNVDGVYTADPKKDPSATRYETITFDEALLKNLKVDATAFALCRERKLNIVVFGIAKEGSLKRVITGEDEGTLVHC 1ybe-a1-m1-cA_1ybe-a1-m1-cB Crystal Structure of a Nicotinate phosphoribosyltransferase Q8UIS9 Q8UIS9 2.5 X-RAY DIFFRACTION 22 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 416 416 MTKTDIATRWKLDPIVRSLIDTDFYKLLMLQMIWKLYPEVDATFSLINRTKTVRLAEEIDEMELREQLDHARTLRLSKKENIWLAGNTFYGRSQIFEPEFLSWLSSYQLPEYELFKRDGQYELNFHGRWMDTTLWEIPALSIINELRSRSAMRSLGYFTLDVLYARAKAKMWEKVERLRELPGLRISDFGTRRRHSFLWQRWCVEALKEGIGPAFTGTSNVLLAMDSDLEAVGTNAHELPMVVAALAQTNEELAAAPYQVLKDWNRLYGGNLLIVLPDAFGTAAFLRNAPEWVADWTGFRPDSAPPIEGGEKIIEWWRKMGRDPRTKMLIFSDGLDVDAIVDTYRHFEGRVRMSFGWGTNLTNDFAGCAPLKPISIVCKVSDANGRPAVKLSDNPQKATGDPAEVERYLKFFGEED MTKTDIATRWKLDPIVRSLIDTDFYKLLMLQMIWKLYPEVDATFSLINRTKTVRLAEEIDEMELREQLDHARTLRLSKKENIWLAGNTFYGRSQIFEPEFLSWLSSYQLPEYELFKRDGQYELNFHGRWMDTTLWEIPALSIINELRSRSAMRSLGYFTLDVLYARAKAKMWEKVERLRELPGLRISDFGTRRRHSFLWQRWCVEALKEGIGPAFTGTSNVLLAMDSDLEAVGTNAHELPMVVAALAQTNEELAAAPYQVLKDWNRLYGGNLLIVLPDAFGTAAFLRNAPEWVADWTGFRPDSAPPIEGGEKIIEWWRKMGRDPRTKMLIFSDGLDVDAIVDTYRHFEGRVRMSFGWGTNLTNDFAGCAPLKPISIVCKVSDANGRPAVKLSDNPQKATGDPAEVERYLKFFGEED 1ybf-a2-m1-cA_1ybf-a2-m2-cA Crystal structure of AMP nucleosidase from Bacteroides thetaiotaomicron VPI-5482 Q7MVU1 Q7MVU1 2.9 X-RAY DIFFRACTION 69 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 232 232 TKQEIVENWLPRYTQRQLIDFEPYILLTNFSHYLHVFAEHYGVPIVGEHTSPNASAEGVTLINFGGSANAATIDLLWAIHPKAVIFLGKCGGLKLENALGDYLLPIAAIRGEGTSNDYLPEEVPSLPSFSVLRAISSAIQNKGKDYWTGTVYTTNRRVWEYDEKFKDYLRSTHASGVDETATLTVGFANKIPGALLLISDRPFPEGVKTEESNFAEEHLLGIDALEIIRENK TKQEIVENWLPRYTQRQLIDFEPYILLTNFSHYLHVFAEHYGVPIVGEHTSPNASAEGVTLINFGGSANAATIDLLWAIHPKAVIFLGKCGGLKLENALGDYLLPIAAIRGEGTSNDYLPEEVPSLPSFSVLRAISSAIQNKGKDYWTGTVYTTNRRVWEYDEKFKDYLRSTHASGVDETATLTVGFANKIPGALLLISDRPFPEGVKTEESNFAEEHLLGIDALEIIRENK 1ybf-a2-m2-cB_1ybf-a2-m2-cA Crystal structure of AMP nucleosidase from Bacteroides thetaiotaomicron VPI-5482 Q7MVU1 Q7MVU1 2.9 X-RAY DIFFRACTION 95 0.991 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 221 232 1ybf-a1-m1-cB_1ybf-a1-m1-cA 1ybf-a2-m1-cB_1ybf-a2-m1-cA 1ybf-a2-m1-cC_1ybf-a2-m2-cC TKQEIVENWLPRYTQRQLIDFEPYILLTNFSHYLHVFAEHYGVPIVGEHTSPNASAEGVTLINFGGSANAATIDLLWAIHPKAVIFLGKCGGLKLENALGDYLLPIAAIRGEGTSNDYLPEEVPSLPSFSVLRAISSAIQNKGKDYWTGTVYTTNRRVWEYDEKFKDYLRSTHASGVDETATLTVGFANKIPGALLLISNFAEEHLLGIDALEIIRENKSS TKQEIVENWLPRYTQRQLIDFEPYILLTNFSHYLHVFAEHYGVPIVGEHTSPNASAEGVTLINFGGSANAATIDLLWAIHPKAVIFLGKCGGLKLENALGDYLLPIAAIRGEGTSNDYLPEEVPSLPSFSVLRAISSAIQNKGKDYWTGTVYTTNRRVWEYDEKFKDYLRSTHASGVDETATLTVGFANKIPGALLLISDRPFPEGVKTEESNFAEEHLLGIDALEIIRENK 1ybt-a2-m1-cD_1ybt-a2-m1-cC MYCOBACTERIUM TUBERCULOSIS ADENYLYL CYCLASE, RV1900C CHD O07732 O07732 2.31 X-RAY DIFFRACTION 32 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 164 169 1ybt-a1-m1-cA_1ybt-a1-m1-cB 1ybu-a1-m1-cB_1ybu-a1-m1-cA 1ybu-a2-m1-cC_1ybu-a2-m1-cD AERLATIFTDIVGSTQHAAALGDDRWRDLLDNHDTIVCHEIQRFGGREVNTAGDGFVATFTSPSAAIACADDIVDAVAALGIEVRIGIHAGEVEVRDASHGTDVAGVAVHIGARVCALAGPSEVLVSSTVRDIVAGSRHRFAERGEQELKGVPGRWRLCVLRDD AERLATIFTDIVGSTQHAAALGDDRWRDLLDNHDTIVCHEIQRFGGREVNTAGDGFVATFTSPSAAIACADDIVDAVAALGIEVRIGIHAGEVEVRDASHGTDVAGVAVHIGARVCALAGPSEVLVSSTVRDIVAGSRHRFAERGEQELKGVPGRWRLCVLRDDATRTR 1ybx-a1-m1-cA_1ybx-a1-m1-cB Conserved hypothetical protein Cth-383 from Clostridium thermocellum A3DHB8 A3DHB8 1.8 X-RAY DIFFRACTION 57 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 87 88 INNLVKQAQKQRDERVQEELKEKTVEASAGGGAVTVVATGRKDIKEITIKPEVVDPDDVELQDLILAAVNEALRKADEVTAEISKIT NINNLVKQAQKQRDERVQEELKEKTVEASAGGGAVTVVATGRKDIKEITIKPEVVDPDDVELQDLILAAVNEALRKADEVTAEISKIT 1ybz-a2-m1-cA_1ybz-a2-m2-cA Conserved hypothetical protein from Pyrococcus furiosus Pfu-1581948-001 Q8U098 Q8U098 1.82 X-RAY DIFFRACTION 104 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 76 76 GSTTLKLLRKEIDKIDNQIISLLKKRLEIAQAIGKIKKELNLPIEDRKREEEVLRRAGEFREIFEKILEVSKDVQR GSTTLKLLRKEIDKIDNQIISLLKKRLEIAQAIGKIKKELNLPIEDRKREEEVLRRAGEFREIFEKILEVSKDVQR 1yc9-a1-m2-cA_1yc9-a1-m3-cA The crystal structure of the outer membrane protein VceC from the bacterial pathogen Vibrio cholerae at 1.8 resolution Q9KS51 Q9KS51 1.8 X-RAY DIFFRACTION 233 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 411 411 1yc9-a1-m1-cA_1yc9-a1-m2-cA 1yc9-a1-m1-cA_1yc9-a1-m3-cA WPSANWWQRYQDAQLNHLIEEALQHSPSLCMAMARLKGAQGFARQAGAIRSFDLGLAASATESKVSERYQSATPPDGWNDYGTLTLNFQYDFDFWGKNRAAVVAATSELAAAEAESVAARLMISTSIANAYAELARLYANQETVHAALQVRNKTVELLEKRYANGLETLGSVSQAKAVAASVEAELLGIQESIQLQKNALAALVGQGPDRAASIEEPHITLTSRYVGLLGHRADITAARWRAEAAAQQVGIAQAQFYPDVTLSAFIGYQAFGLDHLFDSGNDAGAIGPAIYLPLFTGGRLEGQLTSAEARYQEAVAQYNGTLVQALHEIADVVTSSQALQARINKTEQAVQQAEQALHIATNRYQGGLATYLDVLVAEESLLNNQRALVNLQSRAFSLDLALIHALGGGFE WPSANWWQRYQDAQLNHLIEEALQHSPSLCMAMARLKGAQGFARQAGAIRSFDLGLAASATESKVSERYQSATPPDGWNDYGTLTLNFQYDFDFWGKNRAAVVAATSELAAAEAESVAARLMISTSIANAYAELARLYANQETVHAALQVRNKTVELLEKRYANGLETLGSVSQAKAVAASVEAELLGIQESIQLQKNALAALVGQGPDRAASIEEPHITLTSRYVGLLGHRADITAARWRAEAAAQQVGIAQAQFYPDVTLSAFIGYQAFGLDHLFDSGNDAGAIGPAIYLPLFTGGRLEGQLTSAEARYQEAVAQYNGTLVQALHEIADVVTSSQALQARINKTEQAVQQAEQALHIATNRYQGGLATYLDVLVAEESLLNNQRALVNLQSRAFSLDLALIHALGGGFE 1ycg-a7-m1-cA_1ycg-a7-m1-cD X-ray Structures of Moorella thermoacetica FprA. Novel Diiron Site Structure and Mechanistic Insights into a Scavenging Nitric Oxide Reductase Q9FDN7 Q9FDN7 2.8 X-RAY DIFFRACTION 25 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 398 398 1ycg-a6-m1-cA_1ycg-a6-m1-cD SQPVAITDGIYWVGAVDWNIRYFHGPAFSTHRGTTYNAYLIVDDKTALVDTVYEPFKEELIAKLKQIKDPVKLDYLVVNHTESDHAGAFPAIMELCPDAHVLCTQRAFDSLKAHYSHIDFNYTIVKTGTSVSLGKRSLTFIEAPMLHWPDSMFTYVPEEALLLPNDAFGQHIATSVRFDDQVDAGLIMDEAAKYYANILMPFSNLITKKLDEIQKINLAIKTIAPSHGIIWRKDPGRIIEAYARWAEGQGKAKAVIAYDTMWLSTEKMAHALMDGLVAGGCEVKLFKLSVSDRNDVIKEILDARAVLVGSPTINNDILPVVSPLLDDLVGLRPKNKVGLAFGAYGWGGGAQKILEERLKAAKIELIAEPGPTVQWVPRGEDLQRCYELGRKIAARIAD SQPVAITDGIYWVGAVDWNIRYFHGPAFSTHRGTTYNAYLIVDDKTALVDTVYEPFKEELIAKLKQIKDPVKLDYLVVNHTESDHAGAFPAIMELCPDAHVLCTQRAFDSLKAHYSHIDFNYTIVKTGTSVSLGKRSLTFIEAPMLHWPDSMFTYVPEEALLLPNDAFGQHIATSVRFDDQVDAGLIMDEAAKYYANILMPFSNLITKKLDEIQKINLAIKTIAPSHGIIWRKDPGRIIEAYARWAEGQGKAKAVIAYDTMWLSTEKMAHALMDGLVAGGCEVKLFKLSVSDRNDVIKEILDARAVLVGSPTINNDILPVVSPLLDDLVGLRPKNKVGLAFGAYGWGGGAQKILEERLKAAKIELIAEPGPTVQWVPRGEDLQRCYELGRKIAARIAD 1ych-a3-m2-cC_1ych-a3-m2-cD X-ray Crystal Structures of Moorella thermoacetica FprA. Novel Diiron Site Structure and Mechanistic Insights into a Scavenging Nitric Oxide Reductase Q9FDN7 Q9FDN7 2.8 X-RAY DIFFRACTION 99 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 398 398 1ycf-a1-m1-cA_1ycf-a1-m1-cB 1ycf-a2-m1-cC_1ycf-a2-m1-cD 1ycf-a3-m1-cA_1ycf-a3-m1-cB 1ycf-a3-m2-cC_1ycf-a3-m2-cD 1ycg-a1-m1-cA_1ycg-a1-m1-cB 1ycg-a2-m1-cC_1ycg-a2-m1-cD 1ycg-a3-m1-cA_1ycg-a3-m1-cB 1ycg-a3-m2-cA_1ycg-a3-m2-cB 1ycg-a3-m3-cC_1ycg-a3-m3-cD 1ycg-a3-m4-cC_1ycg-a3-m4-cD 1ycg-a4-m1-cA_1ycg-a4-m1-cB 1ycg-a4-m2-cA_1ycg-a4-m2-cB 1ycg-a4-m3-cC_1ycg-a4-m3-cD 1ycg-a4-m4-cC_1ycg-a4-m4-cD 1ycg-a5-m1-cA_1ycg-a5-m1-cB 1ycg-a5-m4-cC_1ycg-a5-m4-cD 1ycg-a7-m1-cA_1ycg-a7-m1-cB 1ycg-a7-m1-cC_1ycg-a7-m1-cD 1ych-a1-m1-cA_1ych-a1-m1-cB 1ych-a2-m1-cC_1ych-a2-m1-cD 1ych-a3-m1-cA_1ych-a3-m1-cB SQPVAITDGIYWVGAVDWNIRYFHGPAFSTHRGTTYNAYLIVDDKTALVDTVYEPFKEELIAKLKQIKDPVKLDYLVVNHTESDHAGAFPAIMELCPDAHVLCTQRAFDSLKAHYSHIDFNYTIVKTGTSVSLGKRSLTFIEAPMLHWPDSMFTYVPEEALLLPNDAFGQHIATSVRFDDQVDAGLIMDEAAKYYANILMPFSNLITKKLDEIQKINLAIKTIAPSHGIIWRKDPGRIIEAYARWAEGQGKAKAVIAYDTMWLSTEKMAHALMDGLVAGGCEVKLFKLSVSDRNDVIKEILDARAVLVGSPTINNDILPVVSPLLDDLVGLRPKNKVGLAFGAYGWGGGAQKILEERLKAAKIELIAEPGPTVQWVPRGEDLQRCYELGRKIAARIAD SQPVAITDGIYWVGAVDWNIRYFHGPAFSTHRGTTYNAYLIVDDKTALVDTVYEPFKEELIAKLKQIKDPVKLDYLVVNHTESDHAGAFPAIMELCPDAHVLCTQRAFDSLKAHYSHIDFNYTIVKTGTSVSLGKRSLTFIEAPMLHWPDSMFTYVPEEALLLPNDAFGQHIATSVRFDDQVDAGLIMDEAAKYYANILMPFSNLITKKLDEIQKINLAIKTIAPSHGIIWRKDPGRIIEAYARWAEGQGKAKAVIAYDTMWLSTEKMAHALMDGLVAGGCEVKLFKLSVSDRNDVIKEILDARAVLVGSPTINNDILPVVSPLLDDLVGLRPKNKVGLAFGAYGWGGGAQKILEERLKAAKIELIAEPGPTVQWVPRGEDLQRCYELGRKIAARIAD 1ych-a5-m1-cA_1ych-a5-m2-cC X-ray Crystal Structures of Moorella thermoacetica FprA. Novel Diiron Site Structure and Mechanistic Insights into a Scavenging Nitric Oxide Reductase Q9FDN7 Q9FDN7 2.8 X-RAY DIFFRACTION 59 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 398 398 1ycf-a3-m1-cA_1ycf-a3-m2-cC 1ycf-a3-m1-cB_1ycf-a3-m2-cD 1ycf-a4-m1-cA_1ycf-a4-m2-cC 1ycf-a5-m1-cB_1ycf-a5-m2-cD 1ycg-a3-m1-cA_1ycg-a3-m4-cC 1ycg-a3-m1-cB_1ycg-a3-m4-cD 1ycg-a3-m2-cA_1ycg-a3-m3-cC 1ycg-a3-m2-cB_1ycg-a3-m3-cD 1ycg-a4-m1-cA_1ycg-a4-m4-cC 1ycg-a4-m1-cB_1ycg-a4-m4-cD 1ycg-a4-m2-cA_1ycg-a4-m3-cC 1ycg-a4-m2-cB_1ycg-a4-m3-cD 1ycg-a5-m1-cA_1ycg-a5-m4-cC 1ycg-a5-m1-cB_1ycg-a5-m4-cD 1ycg-a6-m1-cA_1ycg-a6-m4-cC 1ycg-a6-m1-cD_1ycg-a6-m5-cB 1ycg-a8-m1-cB_1ycg-a8-m4-cD 1ycg-a9-m1-cA_1ycg-a9-m4-cC 1ych-a3-m1-cA_1ych-a3-m2-cC 1ych-a3-m1-cB_1ych-a3-m2-cD 1ych-a4-m1-cB_1ych-a4-m2-cD SQPVAITDGIYWVGAVDWNIRYFHGPAFSTHRGTTYNAYLIVDDKTALVDTVYEPFKEELIAKLKQIKDPVKLDYLVVNHTESDHAGAFPAIMELCPDAHVLCTQRAFDSLKAHYSHIDFNYTIVKTGTSVSLGKRSLTFIEAPMLHWPDSMFTYVPEEALLLPNDAFGQHIATSVRFDDQVDAGLIMDEAAKYYANILMPFSNLITKKLDEIQKINLAIKTIAPSHGIIWRKDPGRIIEAYARWAEGQGKAKAVIAYDTMWLSTEKMAHALMDGLVAGGCEVKLFKLSVSDRNDVIKEILDARAVLVGSPTINNDILPVVSPLLDDLVGLRPKNKVGLAFGAYGWGGGAQKILEERLKAAKIELIAEPGPTVQWVPRGEDLQRCYELGRKIAARIAD SQPVAITDGIYWVGAVDWNIRYFHGPAFSTHRGTTYNAYLIVDDKTALVDTVYEPFKEELIAKLKQIKDPVKLDYLVVNHTESDHAGAFPAIMELCPDAHVLCTQRAFDSLKAHYSHIDFNYTIVKTGTSVSLGKRSLTFIEAPMLHWPDSMFTYVPEEALLLPNDAFGQHIATSVRFDDQVDAGLIMDEAAKYYANILMPFSNLITKKLDEIQKINLAIKTIAPSHGIIWRKDPGRIIEAYARWAEGQGKAKAVIAYDTMWLSTEKMAHALMDGLVAGGCEVKLFKLSVSDRNDVIKEILDARAVLVGSPTINNDILPVVSPLLDDLVGLRPKNKVGLAFGAYGWGGGAQKILEERLKAAKIELIAEPGPTVQWVPRGEDLQRCYELGRKIAARIAD 1yco-a1-m1-cB_1yco-a1-m1-cA Crystal structure of a branched-chain phosphotransacylase from Enterococcus faecalis V583 Q834I9 Q834I9 2.4 X-RAY DIFFRACTION 109 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 267 276 MITVSIAGGSQPEILQLVKKALKEAEQPLQFIVFDTNENLDTENLWKYVHCSDEAAVAQEAVSLVATGQAQILLKGIIQTHTLLKEMLKSEPILSHVAMVELPAGKTFLLTDCAMNIAPTQATLIEIVENAKEVAQKLGLHHPKIALLSAANFNPKMPSSVLAKEVTAHFNDQQEATVFGPLSLDLATSEEAVAHKRYSGPIMGDADILVVPTIDVGNCLYKSLTLFGHAKVGGTIVGTKVPVVLTSRSDSTESKFHSLRFAMRQVH MITVSIAGGSQPEILQLVKKALKEAEQPLQFIVFDTNENLDTENLWKYVHCSDEAAVAQEAVSLVATGQAQILLKGIIQTHTLLKEMLKSEHQLKNKPILSHVAMVELPAGKTFLLTDCAMNIAPTQATLIEIVENAKEVAQKLGLHHPKIALLSAAENFNPKMPSSVLAKEVTAHFNDQQEATVFGPLSLDLATSEEAVAHKRYSGPIMGDADILVVPTIDVGNCLYKSLTLFGHAKVGGTIVGTKVPVVLTSRSDSTESKFHSLRFAMRQVHHH 1ycy-a1-m2-cC_1ycy-a1-m4-cD Conserved hypothetical protein Pfu-1806301-001 from Pyrococcus furiosus Q8TZN2 Q8TZN2 2.8 X-RAY DIFFRACTION 19 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 60 60 1ycy-a1-m1-cA_1ycy-a1-m4-cB 1ycy-a1-m1-cB_1ycy-a1-m4-cA 1ycy-a1-m1-cC_1ycy-a1-m3-cD 1ycy-a1-m1-cD_1ycy-a1-m3-cC 1ycy-a1-m2-cA_1ycy-a1-m3-cB 1ycy-a1-m2-cB_1ycy-a1-m3-cA 1ycy-a1-m2-cD_1ycy-a1-m4-cC SLLEKVLKEWKGHKVAVSVGFTGTLEDFDEEVILLKDVVDVIGNRGKQLIGLEDINWILL SLLEKVLKEWKGHKVAVSVGFTGTLEDFDEEVILLKDVVDVIGNRGKQLIGLEDINWILL 1ycy-a2-m2-cC_1ycy-a2-m2-cD Conserved hypothetical protein Pfu-1806301-001 from Pyrococcus furiosus Q8TZN2 Q8TZN2 2.8 X-RAY DIFFRACTION 35 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 60 60 1ycy-a1-m1-cA_1ycy-a1-m1-cB 1ycy-a1-m1-cA_1ycy-a1-m1-cC 1ycy-a1-m1-cB_1ycy-a1-m2-cD 1ycy-a1-m1-cC_1ycy-a1-m1-cD 1ycy-a1-m1-cD_1ycy-a1-m2-cB 1ycy-a1-m2-cA_1ycy-a1-m2-cB 1ycy-a1-m2-cA_1ycy-a1-m2-cC 1ycy-a1-m2-cC_1ycy-a1-m2-cD 1ycy-a1-m3-cA_1ycy-a1-m3-cB 1ycy-a1-m3-cA_1ycy-a1-m3-cC 1ycy-a1-m3-cB_1ycy-a1-m4-cD 1ycy-a1-m3-cC_1ycy-a1-m3-cD 1ycy-a1-m3-cD_1ycy-a1-m4-cB 1ycy-a1-m4-cA_1ycy-a1-m4-cB 1ycy-a1-m4-cA_1ycy-a1-m4-cC 1ycy-a1-m4-cC_1ycy-a1-m4-cD 1ycy-a2-m1-cA_1ycy-a2-m1-cB 1ycy-a2-m1-cA_1ycy-a2-m1-cC 1ycy-a2-m1-cB_1ycy-a2-m2-cD 1ycy-a2-m1-cC_1ycy-a2-m1-cD 1ycy-a2-m1-cD_1ycy-a2-m2-cB 1ycy-a2-m2-cA_1ycy-a2-m2-cB 1ycy-a2-m2-cA_1ycy-a2-m2-cC SLLEKVLKEWKGHKVAVSVGFTGTLEDFDEEVILLKDVVDVIGNRGKQLIGLEDINWILL SLLEKVLKEWKGHKVAVSVGFTGTLEDFDEEVILLKDVVDVIGNRGKQLIGLEDINWILL 1yd6-a2-m1-cB_1yd6-a2-m2-cB Crystal structure of the GIY-YIG N-terminal endonuclease domain of UvrC from Bacillus caldotenax Q5KWH6 Q5KWH6 2 X-RAY DIFFRACTION 12 1.0 1395 ([Bacillus] caldotenax) 1395 ([Bacillus] caldotenax) 88 88 KLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLKD KLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLKD 1yd6-a2-m1-cC_1yd6-a2-m2-cD Crystal structure of the GIY-YIG N-terminal endonuclease domain of UvrC from Bacillus caldotenax Q5KWH6 Q5KWH6 2 X-RAY DIFFRACTION 28 0.989 1395 ([Bacillus] caldotenax) 1395 ([Bacillus] caldotenax) 94 96 1yd6-a2-m2-cC_1yd6-a2-m1-cD MNERLKEKLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLK NERLKEKLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLKDDK 1yd6-a2-m2-cA_1yd6-a2-m2-cD Crystal structure of the GIY-YIG N-terminal endonuclease domain of UvrC from Bacillus caldotenax Q5KWH6 Q5KWH6 2 X-RAY DIFFRACTION 26 0.989 1395 ([Bacillus] caldotenax) 1395 ([Bacillus] caldotenax) 95 96 1yd6-a1-m1-cA_1yd6-a1-m1-cD 1yd6-a1-m1-cB_1yd6-a1-m1-cA 1yd6-a1-m1-cB_1yd6-a1-m1-cC 1yd6-a1-m1-cC_1yd6-a1-m1-cD 1yd6-a2-m1-cA_1yd6-a2-m1-cD 1yd6-a2-m1-cB_1yd6-a2-m1-cA 1yd6-a2-m1-cB_1yd6-a2-m1-cC 1yd6-a2-m1-cC_1yd6-a2-m1-cD 1yd6-a2-m2-cB_1yd6-a2-m2-cA 1yd6-a2-m2-cB_1yd6-a2-m2-cC 1yd6-a2-m2-cC_1yd6-a2-m2-cD MNERLKEKLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLKD NERLKEKLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLKDDK 1yd6-a2-m2-cC_1yd6-a2-m1-cA Crystal structure of the GIY-YIG N-terminal endonuclease domain of UvrC from Bacillus caldotenax Q5KWH6 Q5KWH6 2 X-RAY DIFFRACTION 15 1.0 1395 ([Bacillus] caldotenax) 1395 ([Bacillus] caldotenax) 94 95 1yd6-a2-m1-cC_1yd6-a2-m2-cA 1yd6-a2-m1-cD_1yd6-a2-m2-cD MNERLKEKLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLK MNERLKEKLAVLPEQPGCYLMKDKHGTVIYVGKAKSLKERVRSYFTGTHDGKTQRLVEEIADFEYIVTSSNAEALILEMNLIKKHDPKYNVMLKD 1ydg-a1-m1-cA_1ydg-a1-m1-cB Crystal Structure of Trp repressor binding protein WrbA Q9RYU4 Q9RYU4 2 X-RAY DIFFRACTION 86 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 201 202 1ydg-a1-m1-cC_1ydg-a1-m1-cD 1ydg-a2-m1-cF_1ydg-a2-m1-cE 1ydg-a2-m1-cG_1ydg-a2-m1-cH 1yrh-a1-m1-cA_1yrh-a1-m1-cB 1yrh-a1-m1-cC_1yrh-a1-m1-cD 1yrh-a2-m1-cE_1yrh-a2-m1-cF 1yrh-a2-m1-cG_1yrh-a2-m1-cH APVKLAIVFYSSTGTGYAMAQEAAEAGRAAGAEVRLLKVRETAPQDVIDGQDAWKANIEAMKDVPEATPADLEWAEAIVFSSPTRFGGATSQMRAFIDTLGGLWSSGKLANKTFSAMTSAQNVNGGQETTLQTLYMTAMHWGAVLTPPGYTDEVIFKSGGNPYGASVTANGQPLLENDRASIRHQVRRQVELTAKLLEGGS TAPVKLAIVFYSSTGTGYAMAQEAAEAGRAAGAEVRLLKVRETAPQDVIDGQDAWKANIEAMKDVPEATPADLEWAEAIVFSSPTRFGGATSQMRAFIDTLGGLWSSGKLANKTFSAMTSAQNVNGGQETTLQTLYMTAMHWGAVLTPPGYTDEVIFKSGGNPYGASVTANGQPLLENDRASIRHQVRRQVELTAKLLEGGS 1ydg-a1-m1-cA_1ydg-a1-m1-cD Crystal Structure of Trp repressor binding protein WrbA Q9RYU4 Q9RYU4 2 X-RAY DIFFRACTION 66 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 201 202 1ydg-a1-m1-cB_1ydg-a1-m1-cC 1ydg-a2-m1-cF_1ydg-a2-m1-cH 1ydg-a2-m1-cG_1ydg-a2-m1-cE 1yrh-a1-m1-cA_1yrh-a1-m1-cD 1yrh-a1-m1-cB_1yrh-a1-m1-cC 1yrh-a2-m1-cE_1yrh-a2-m1-cH 1yrh-a2-m1-cG_1yrh-a2-m1-cF APVKLAIVFYSSTGTGYAMAQEAAEAGRAAGAEVRLLKVRETAPQDVIDGQDAWKANIEAMKDVPEATPADLEWAEAIVFSSPTRFGGATSQMRAFIDTLGGLWSSGKLANKTFSAMTSAQNVNGGQETTLQTLYMTAMHWGAVLTPPGYTDEVIFKSGGNPYGASVTANGQPLLENDRASIRHQVRRQVELTAKLLEGGS TAPVKLAIVFYSSTGTGYAMAQEAAEAGRAAGAEVRLLKVRETAPQDVIDGQDAWKANIEAMKDVPEATPADLEWAEAIVFSSPTRFGGATSQMRAFIDTLGGLWSSGKLANKTFSAMTSAQNVNGGQETTLQTLYMTAMHWGAVLTPPGYTDEVIFKSGGNPYGASVTANGQPLLENDRASIRHQVRRQVELTAKLLEGGS 1ydg-a2-m1-cH_1ydg-a2-m1-cE Crystal Structure of Trp repressor binding protein WrbA Q9RYU4 Q9RYU4 2 X-RAY DIFFRACTION 53 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 202 204 1ydg-a1-m1-cA_1ydg-a1-m1-cC 1ydg-a1-m1-cB_1ydg-a1-m1-cD 1ydg-a2-m1-cF_1ydg-a2-m1-cG 1yrh-a1-m1-cA_1yrh-a1-m1-cC 1yrh-a1-m1-cB_1yrh-a1-m1-cD 1yrh-a2-m1-cE_1yrh-a2-m1-cG 1yrh-a2-m1-cH_1yrh-a2-m1-cF TAPVKLAIVFYSSTGTGYAMAQEAAEAGRAAGAEVRLLKVRETAPQDVIDGQDAWKANIEAMKDVPEATPADLEWAEAIVFSSPTRFGGATSQMRAFIDTLGGLWSSGKLANKTFSAMTSAQNVNGGQETTLQTLYMTAMHWGAVLTPPGYTDEVIFKSGGNPYGASVTANGQPLLENDRASIRHQVRRQVELTAKLLEGGS SLTAPVKLAIVFYSSTGTGYAMAQEAAEAGRAAGAEVRLLKVRETAPQDVIDGQDAWKANIEAMKDVPEATPADLEWAEAIVFSSPTRFGGATSQMRAFIDTLGGLWSSGKLANKTFSAMTSAQNVNGGQETTLQTLYMTAMHWGAVLTPPGYTDEVIFKSGGNPYGASVTANGQPLLENDRASIRHQVRRQVELTAKLLEGGS 1ydm-a1-m1-cA_1ydm-a1-m1-cC X-Ray structure of Northeast Structural Genomics target SR44 P54491 P54491 2.5 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 175 179 QLRKKTLEALSALSNEDILQKTERYKYLFSLPEWQNAGTIAVTISRGLEIPTRPVIEQAWEEGKQVCIPKCTKKQFRTYQTDDQLETVYAGLLEPVKTKEVNPSQIDLIVPGVCFDVNGFRVGFGGGYYDRYLSEYEGKTVSLLLECQLFAHVPRLPHDIPVHKLITEDRIISCF QLRKKTLEALSALSNEDILQKTERYKYLFSLPEWQNAGTIAVTISRGLEIPTRPVIEQAWEEGKQVCIPKCHPDTKKQFRTYQTDDQLETVYAGLLEPVEKTKEVNPSQIDLIVPGVCFDVNGFRVGFGGGYYDRYLSEYEGKTVSLLLECQLFAHVPRLPHDIPVHKLITEDRIISCF 1ydm-a1-m1-cB_1ydm-a1-m1-cC X-Ray structure of Northeast Structural Genomics target SR44 P54491 P54491 2.5 X-RAY DIFFRACTION 81 0.994 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 179 179 QLRKKTLEALSALSNEDILQKTERYKYLFSLPEWQNAGTIAVTISRGLEIPTRPVIEQAWEEGKQVCIPKCHPDTKKQFRTYQTDDQLETVYAGLLEPVIKTKEVNPSQIDLIVPGVCFDVNGFRVGFGGGYYDRYLSEYEGKTVSLLLECQLFAHVPRLPHDIPVHKLITEDRIISCF QLRKKTLEALSALSNEDILQKTERYKYLFSLPEWQNAGTIAVTISRGLEIPTRPVIEQAWEEGKQVCIPKCHPDTKKQFRTYQTDDQLETVYAGLLEPVEKTKEVNPSQIDLIVPGVCFDVNGFRVGFGGGYYDRYLSEYEGKTVSLLLECQLFAHVPRLPHDIPVHKLITEDRIISCF 1ydo-a3-m1-cA_1ydo-a3-m1-cD Crystal Structure of the Bacillis subtilis HMG-CoA Lyase, Northeast Structural Genomics Target SR181. O34873 O34873 2.71 X-RAY DIFFRACTION 32 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 291 291 1ydo-a3-m1-cB_1ydo-a3-m1-cC PYPKKVTIKEVGPRDGLQNEPVWIATEDKITWINQLSRTGLSYIEITSFVHPKWIPALRDAIDVAKGIDREKGVTYAALVPNQRGLENALEGGINEACVFSASETHNRKNINKSTSESLHILKQVNNDAQKANLTTRAYLSTVFGCPYEKDVPIEQVIRLSEALFEFGISELSLGDTIGAANPAQVETVLEALLARFPANQIALHFHDTRGTALANVTALQGITVFDGSAGGLGGCPYAPGSSGNAATEDIVYLEQDIKTNVKLEKLLSAAKWIEEKGKPLPSRNLQVFKS PYPKKVTIKEVGPRDGLQNEPVWIATEDKITWINQLSRTGLSYIEITSFVHPKWIPALRDAIDVAKGIDREKGVTYAALVPNQRGLENALEGGINEACVFSASETHNRKNINKSTSESLHILKQVNNDAQKANLTTRAYLSTVFGCPYEKDVPIEQVIRLSEALFEFGISELSLGDTIGAANPAQVETVLEALLARFPANQIALHFHDTRGTALANVTALQGITVFDGSAGGLGGCPYAPGSSGNAATEDIVYLEQDIKTNVKLEKLLSAAKWIEEKGKPLPSRNLQVFKS 1ydo-a3-m1-cC_1ydo-a3-m1-cD Crystal Structure of the Bacillis subtilis HMG-CoA Lyase, Northeast Structural Genomics Target SR181. O34873 O34873 2.71 X-RAY DIFFRACTION 69 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 291 291 1ydo-a1-m1-cA_1ydo-a1-m1-cB 1ydo-a2-m1-cC_1ydo-a2-m1-cD 1ydo-a3-m1-cA_1ydo-a3-m1-cB PYPKKVTIKEVGPRDGLQNEPVWIATEDKITWINQLSRTGLSYIEITSFVHPKWIPALRDAIDVAKGIDREKGVTYAALVPNQRGLENALEGGINEACVFSASETHNRKNINKSTSESLHILKQVNNDAQKANLTTRAYLSTVFGCPYEKDVPIEQVIRLSEALFEFGISELSLGDTIGAANPAQVETVLEALLARFPANQIALHFHDTRGTALANVTALQGITVFDGSAGGLGGCPYAPGSSGNAATEDIVYLEQDIKTNVKLEKLLSAAKWIEEKGKPLPSRNLQVFKS PYPKKVTIKEVGPRDGLQNEPVWIATEDKITWINQLSRTGLSYIEITSFVHPKWIPALRDAIDVAKGIDREKGVTYAALVPNQRGLENALEGGINEACVFSASETHNRKNINKSTSESLHILKQVNNDAQKANLTTRAYLSTVFGCPYEKDVPIEQVIRLSEALFEFGISELSLGDTIGAANPAQVETVLEALLARFPANQIALHFHDTRGTALANVTALQGITVFDGSAGGLGGCPYAPGSSGNAATEDIVYLEQDIKTNVKLEKLLSAAKWIEEKGKPLPSRNLQVFKS 1ydw-a1-m1-cA_1ydw-a1-m1-cB X-RAY STRUCTURE OF GENE PRODUCT FROM ARABIDOPSIS THALIANA AT4G09670 Q9SZ83 Q9SZ83 2.488 X-RAY DIFFRACTION 175 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 337 344 2q4e-a1-m1-cA_2q4e-a1-m1-cB QIRIGVGCADIARKVSRAIHLAPNATISGVASRSLEKAKAFATANNYPESTKIHGSYESLLEDPEIDALYVPLPTSLHVEWAIKAAEKGKHILLEKPVANVTEFDKIVDACEANGVQIDGTWVHNPRTALLKEFLSDSERFGQLKTVQSCFSFAGDEDFLKNDIRVKPGLDGLGALGDAGWYAIRATLLANNFELPKTVTAFPGAVLNEAGVILSCGASLSWEDGRTATIYCSFLANLTEITAIGTKGTLRVHDFIIPYKETEASFTTSTKAWFNDLVTAWVSPPSEHTVKTELPQEACVREFARLVYWPSISRKTQLVVDAVKESVDKNYQQISLS QIRIGVGCADIARKVSRAIHLAPNATISGVASRSLEKAKAFATANNYPESTKIHGSYESLLEDPEIDALYVPLPTSLHVEWAIKAAEKGKHILLEKPVANVTEFDKIVDACEANGVQIDGTWVHNPRTALLKEFLSDSERFGQLKTVQSCFSFAGDEDFLKNDIRVKPGLDGLGALGDAGWYAIRATLLANNFELPKTVTAFPGAVLNEAGVILSCGASLSWEDGRTATIYCSFLANLTEITAIGTKGTLRVHDFIIPYKETEASFTTSTKAWFNDLVTAWVSPPSEHTVKTELPQEACVREFAIKNNGAKPDGYWPSISRKTQLVVDAVKESVDKNYQQISLS 1ye6-a5-m1-cA_1ye6-a5-m5-cC Crystal structure of the Lys-274 to Arg mutant of Candida tenuis xylose reductase (AKR2B5) bound to NADP+ O74237 O74237 2.3 X-RAY DIFFRACTION 17 1.0 319 319 1ye4-a4-m1-cA_1ye4-a4-m3-cC SIPDIKLSSGHLMPSIGFGCWKLANATAGEQVYQAIKAGYRLFDGAEDYGNEKEVGDGVKRAIDEGLVKREEIFLTSKLWNNYHDPKNVETALNKTLADLKVDYVDLFLIHFPIAFKFVPIEEKYPPGFYCGDGNNFVYEDVPILETWKALEKLVAAGKIKSIGVSNFPGALLLDLLRGATIKPAVLQVEHHPYLQQPKLIEFAQKAGVTITAYSSFGPQSFVEMNQGRALNTPTLFAHDTIKAIAAKYNKTPAEVLLRWAAQRGIAVIPRSNLPERLVQNRSFNTFDLTKEDFEEIAKLDIGLRFNDPWDWDNIPIFV SIPDIKLSSGHLMPSIGFGCWKLANATAGEQVYQAIKAGYRLFDGAEDYGNEKEVGDGVKRAIDEGLVKREEIFLTSKLWNNYHDPKNVETALNKTLADLKVDYVDLFLIHFPIAFKFVPIEEKYPPGFYCGDGNNFVYEDVPILETWKALEKLVAAGKIKSIGVSNFPGALLLDLLRGATIKPAVLQVEHHPYLQQPKLIEFAQKAGVTITAYSSFGPQSFVEMNQGRALNTPTLFAHDTIKAIAAKYNKTPAEVLLRWAAQRGIAVIPRSNLPERLVQNRSFNTFDLTKEDFEEIAKLDIGLRFNDPWDWDNIPIFV 1yea-a1-m1-cA_1yea-a1-m2-cA STRUCTURE DETERMINATION AND ANALYSIS OF YEAST ISO-2-CYTOCHROME C AND A COMPOSITE MUTANT PROTEIN P00045 P00045 1.9 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 111 111 AKESTGFKPGSAKKGATLFKTRCQQCHTIEEGGPNKVGPNLHGIFGRHSGQVKGYSYTDANINKNVKWDEDSMSEYLTNPKYIPGTKMAFAGLKKEKDRNDLITYMTKAAK AKESTGFKPGSAKKGATLFKTRCQQCHTIEEGGPNKVGPNLHGIFGRHSGQVKGYSYTDANINKNVKWDEDSMSEYLTNPKYIPGTKMAFAGLKKEKDRNDLITYMTKAAK 1yeb-a1-m1-cA_1yeb-a1-m2-cA STRUCTURE DETERMINATION AND ANALYSIS OF YEAST ISO-2-CYTOCHROME C AND A COMPOSITE MUTANT PROTEIN P00045 P00045 1.95 X-RAY DIFFRACTION 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 107 107 TEFKAGSAKKGATLFKTRCQQCHTIEEGGPNKVGPNLHGIFGRHSGQVKGYSYTDANINKNVKWDEDSMSEYLTNPKYIPGTKMAFGGLKKEKDRNDLITYLKKACE TEFKAGSAKKGATLFKTRCQQCHTIEEGGPNKVGPNLHGIFGRHSGQVKGYSYTDANINKNVKWDEDSMSEYLTNPKYIPGTKMAFGGLKKEKDRNDLITYLKKACE 1yei-a3-m2-cL_1yei-a3-m1-cL CATALYTIC ANTIBODY D2.3 COMPLEX Q58EU8 Q58EU8 1.9 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 1kn2-a2-m2-cL_1kn2-a2-m1-cL 1kn2-a3-m2-cL_1kn2-a3-m1-cL 1kn4-a2-m2-cL_1kn4-a2-m1-cL 1kn4-a3-m2-cL_1kn4-a3-m1-cL 1yei-a2-m2-cL_1yei-a2-m1-cL DIVMTQSPLTLSVTIGQPASISCKSSQSLLYSNGKTYLNWLLQRPGQSPKRLIHLVSKLDSGVPDRITGSGSGTDFTLKISRVEAADLGVYYCVQGTHFPYTFGGGTKLEILRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DIVMTQSPLTLSVTIGQPASISCKSSQSLLYSNGKTYLNWLLQRPGQSPKRLIHLVSKLDSGVPDRITGSGSGTDFTLKISRVEAADLGVYYCVQGTHFPYTFGGGTKLEILRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 1yem-a1-m1-cA_1yem-a1-m1-cB Conserved hypothetical protein Pfu-838710-001 from Pyrococcus furiosus Q8U2H2 Q8U2H2 2.3 X-RAY DIFFRACTION 53 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 163 166 SEVEIKFKIKLEDFLHTLNTFNPEFVRYEEQEDVYFEVPRPKLLRIRGVHNLKKYYLTFKEILDENNEEFYEVEFEIGDFEKAVEVFKRLGFKIQATIKKKRWVYKLNGVTLEVNRVEGIGDFVDIEVISDSPEEAKEKIWEVAKMLGLKEEDVEPRLYLELI SEVEIKFKIKLEDFLHTLNTFNPEFVRYEEQEDVYFEVPRPKLLRIRGVHNLKKYYLTFKEILDENNEEFYEVEFEIGDFEKAVEVFKRLGFKIQATIKKKRWVYKLNGVTLEVNRVEGIGDFVDIEVISDSPEEAKEKIWEVAKMLGLKEEDVEPRLYLELINEL 1yew-a6-m1-cF_1yew-a6-m1-cJ Crystal structure of particulate methane monooxygenase Q607G3 Q607G3 2.801 X-RAY DIFFRACTION 16 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 238 238 1yew-a4-m1-cB_1yew-a4-m1-cF 1yew-a4-m1-cB_1yew-a4-m1-cJ 1yew-a4-m1-cF_1yew-a4-m1-cJ 1yew-a4-m2-cB_1yew-a4-m2-cF 1yew-a4-m2-cB_1yew-a4-m2-cJ 1yew-a4-m2-cF_1yew-a4-m2-cJ 1yew-a5-m1-cB_1yew-a5-m1-cF 1yew-a5-m1-cB_1yew-a5-m1-cJ 1yew-a5-m1-cF_1yew-a5-m1-cJ 1yew-a5-m3-cB_1yew-a5-m3-cF 1yew-a5-m3-cB_1yew-a5-m3-cJ 1yew-a5-m3-cF_1yew-a5-m3-cJ 1yew-a6-m1-cB_1yew-a6-m1-cF 1yew-a6-m1-cB_1yew-a6-m1-cJ AVRSHAEAVQVSRTIDWMALFVVFFVIVGSYHIHAMLTMGDWDFWSDWKDRRLWVTVTPIVLVTFPAAVQSYLWERYRLPWGATVCVLGLLLGEWINRYFNFWGWTYFPINFVFPASLVPGAIILDTVLMLSGSYLFTAIVGAMGWGLIFYPGNWPIIAPLHVPVEYNGMLMSIADIQGYNYVRTGTPEYIRMVEKGTLRTFGKDVAPVSAFFSAFMSILIYFMWHFIGRWFSNERFL AVRSHAEAVQVSRTIDWMALFVVFFVIVGSYHIHAMLTMGDWDFWSDWKDRRLWVTVTPIVLVTFPAAVQSYLWERYRLPWGATVCVLGLLLGEWINRYFNFWGWTYFPINFVFPASLVPGAIILDTVLMLSGSYLFTAIVGAMGWGLIFYPGNWPIIAPLHVPVEYNGMLMSIADIQGYNYVRTGTPEYIRMVEKGTLRTFGKDVAPVSAFFSAFMSILIYFMWHFIGRWFSNERFL 1yey-a6-m1-cA_1yey-a6-m1-cB Crystal Structure of L-fuconate Dehydratase from Xanthomonas campestris pv. campestris str. ATCC 33913 Q8P3K2 Q8P3K2 2.34 X-RAY DIFFRACTION 165 0.993 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 416 423 1yey-a5-m1-cD_1yey-a5-m1-cC 2hne-a1-m1-cA_2hne-a1-m1-cB 2hne-a2-m1-cD_2hne-a2-m1-cC 2hxt-a1-m1-cA_2hxt-a1-m2-cA 2hxu-a1-m1-cA_2hxu-a1-m2-cA RTIIALETHDVRFPTSRENPDPDYSAAYVVLRTDGAEDLAGYGLVFTIGRGNDVQTAAVAALAEHVVGLSVDKVIADLGAFARRLTNDSQLRWLGPEKGVHAIGAVINAAWDLAARAANKPLWRFIAELTPEQLVDTIDFRYLSDALTRDEALAILRDAQPQRAARTATLIEQGYPAYTTSPGWDEKLVRLAKEAVADGFRTIKLKVGANVQDDIRRCRLARAAIGPDIAAVDANQRWDVGPAIDWRQLAEFDIAWIEEPTSPDDVLGHAAIRQGITPVPVSTGEHTQNRVVFKQLLQAGAVDLIQIDAARVGGVNENLAILLLAAKFGVRVFPHAGGVGLCELVQHLAADFVAITGKEDRAIEFVDHLHQHFLDPVRIQHGRYLAPEVPGFSAEHPASIAEFSYPDGRFWVEDLA RTIIALETHDVRFPTSRELDGSDANPDPDYSAAYVVLRTDGAEDLAGYGLVFTIGRGNDVQTAAVAALAEHVVGLSVDKVIADLGAFARRLTNDSQLRWLGPEKGVHAIGAVINAAWDLAARAANKPLWRFIAELTPEQLVDTIDFRYLSDALTRDEALAILRDAQPQRAARTATLIEQGYPAYTTSPGWLGYSDEKLVRLAKEAVADGFRTIKLKVGANVQDDIRRCRLARAAIGPDIAAVDANQRWDVGPAIDWRQLAEFDIAWIEEPTSPDDVLGHAAIRQGITPVPVSTGEHTQNRVVFKQLLQAGAVDLIQIDAARVGGVNENLAILLLAAKFGVRVFPHAGGVGLCELVQHLAADFVAITGKEDRAIEFVDHLHQHFLDPVRIQHGRYLAPEVPGFSAEHPASIAEFSYPDGRFWVE 1yf5-a1-m1-cL_1yf5-a1-m2-cL Cyto-Epsl: The Cytoplasmic Domain Of Epsl, An Inner Membrane Component Of The Type II Secretion System Of Vibrio Cholerae P45782 P45782 2.75 X-RAY DIFFRACTION 26 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 235 235 SEFLTVRLSSQKEADIPWLVWSAEQQEVIASGQVAGWEALHEIESYADQRSVVVLLAASDLILTSVEIPPGASRQLENLPYLLEDEIAQDVEDVHFCVLSKGRETADVVGVDRLWLRACLDHLKACGFDVKRVLPDVLAIPRPEHGLAALQLGDEWLVRKSTTQGAVDAQWLSLLAASDWVQNEGEYLPLQALTPLPELSLAETQEWRYEPSGLVQLLTQEALTSKFNLLTGSFK SEFLTVRLSSQKEADIPWLVWSAEQQEVIASGQVAGWEALHEIESYADQRSVVVLLAASDLILTSVEIPPGASRQLENLPYLLEDEIAQDVEDVHFCVLSKGRETADVVGVDRLWLRACLDHLKACGFDVKRVLPDVLAIPRPEHGLAALQLGDEWLVRKSTTQGAVDAQWLSLLAASDWVQNEGEYLPLQALTPLPELSLAETQEWRYEPSGLVQLLTQEALTSKFNLLTGSFK 1yf9-a2-m1-cA_1yf9-a2-m2-cB Structural analysis of Leishmania major ubiquitin conjugating enzyme E2 Q4Q5L3 Q4Q5L3 2 X-RAY DIFFRACTION 11 1.0 5664 (Leishmania major) 5664 (Leishmania major) 158 160 1yf9-a2-m1-cC_1yf9-a2-m2-cC 1yf9-a2-m2-cA_1yf9-a2-m1-cB SNRRREMDYMRLCNSTRKVYPSDTVAEFWVEFKGPEGTPYEDGTWMLHVQLPSDYPFKSPSIGFCNRILHPNVDERSGSVCLDVINQTWTPMYQLENIFDVFLPQLLRYPNPSDPLNVQAAHLLHADRVGFDALLREHVSTHATPQKALESIPEAYRP LRSNRRREMDYMRLCNSTRKVYPSDTVAEFWVEFKGPEGTPYEDGTWMLHVQLPSDYPFKSPSIGFCNRILHPNVDERSGSVCLDVINQTWTPMYQLENIFDVFLPQLLRYPNPSDPLNVQAAHLLHADRVGFDALLREHVSTHATPQKALESIPEAYRP 1yf9-a2-m2-cC_1yf9-a2-m1-cB Structural analysis of Leishmania major ubiquitin conjugating enzyme E2 Q4Q5L3 Q4Q5L3 2 X-RAY DIFFRACTION 18 0.994 5664 (Leishmania major) 5664 (Leishmania major) 159 160 1yf9-a2-m1-cA_1yf9-a2-m2-cA 1yf9-a2-m1-cC_1yf9-a2-m2-cB SNRRREMDYMRLCNSTRKVYPSDTVAEFWVEFKGPEGTPYEDGTWMLHVQLPSDYPFKSPSIGFCNRILHPNVDERSGSVCLDVINQTWTPMYQLENIFDVFLPQLLRYPNPSDPLNVQAAHLLHADRVGFDALLREHVSTHATPQKALESIPEAYRPH LRSNRRREMDYMRLCNSTRKVYPSDTVAEFWVEFKGPEGTPYEDGTWMLHVQLPSDYPFKSPSIGFCNRILHPNVDERSGSVCLDVINQTWTPMYQLENIFDVFLPQLLRYPNPSDPLNVQAAHLLHADRVGFDALLREHVSTHATPQKALESIPEAYRP 1yf9-a2-m2-cC_1yf9-a2-m2-cB Structural analysis of Leishmania major ubiquitin conjugating enzyme E2 Q4Q5L3 Q4Q5L3 2 X-RAY DIFFRACTION 25 0.994 5664 (Leishmania major) 5664 (Leishmania major) 159 160 1yf9-a1-m1-cA_1yf9-a1-m1-cB 1yf9-a1-m1-cA_1yf9-a1-m1-cC 1yf9-a1-m1-cC_1yf9-a1-m1-cB 1yf9-a2-m1-cA_1yf9-a2-m1-cB 1yf9-a2-m1-cA_1yf9-a2-m1-cC 1yf9-a2-m1-cC_1yf9-a2-m1-cB 1yf9-a2-m2-cA_1yf9-a2-m2-cB 1yf9-a2-m2-cA_1yf9-a2-m2-cC SNRRREMDYMRLCNSTRKVYPSDTVAEFWVEFKGPEGTPYEDGTWMLHVQLPSDYPFKSPSIGFCNRILHPNVDERSGSVCLDVINQTWTPMYQLENIFDVFLPQLLRYPNPSDPLNVQAAHLLHADRVGFDALLREHVSTHATPQKALESIPEAYRPH LRSNRRREMDYMRLCNSTRKVYPSDTVAEFWVEFKGPEGTPYEDGTWMLHVQLPSDYPFKSPSIGFCNRILHPNVDERSGSVCLDVINQTWTPMYQLENIFDVFLPQLLRYPNPSDPLNVQAAHLLHADRVGFDALLREHVSTHATPQKALESIPEAYRP 1yfl-a2-m1-cE_1yfl-a2-m1-cD T4Dam in Complex with Sinefungin and 16-mer Oligonucleotide Showing Semi-specific and Specific Contact and Flipped Base P04392 P04392 3.09 X-RAY DIFFRACTION 14 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 248 249 MLGAIAYTGNKQSLLPELKSHFPKYNRFVDLFCGGLSVSLNVNGPVLANDIQEPIIEMYKRLINVSWDDVLKVIKQYKLSKTSKEEFLKLREDYNKTRDPLLLYVLHFHGFSNMIRINDKGNFTTPFGKRTINKNSEKRFNHFKQNCDKIIFSSLHFKDVKILDGDFVYVDPPYLITVADYNKFWSEDEEKDLLNLLDSLNDRGIKFGLSNVLEHHGKENTLLKEWSKKYNVKHLNKKNGTDEVYIFN MLGAIAYTGNKQSLLPELKSHFPKYNRFVDLFCGGLSVSLNVNGPVLANDIQEPIIEMYKRLINVSWDDVLKVIKQYKLSKTSKEEFLKLREDYNKTRDPLLLYVLHFHGFSNMIRINDKGNFTTPFGKRTINKNSEKRFNHFKQNCDKIIFSSLHFKDVKILDGDFVYVDPPYLITVADYNKFWSEDEEKDLLNLLDSLNDRGIKFGLSNVLEHHGKENTLLKEWSKKYNVKHLNKKYNGTDEVYIFN 1yfm-a1-m1-cA_1yfm-a1-m4-cA RECOMBINANT YEAST FUMARASE P08417 P08417 2.6 X-RAY DIFFRACTION 174 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 450 450 1yfm-a1-m2-cA_1yfm-a1-m3-cA SFRTETDAFGEIHVPADKYWGAQTQRSFQNFKIGGARERMPLPLVHAFGVLKKSAAIVNESLGGLDPKISKAIQQAADEVASGKLDDHFPLVVFQTGSGTQSNMNANEVISNRAIEIVHPNNHCNQSQSSNDTFPTVMHIAASLQIQNELIPELTNLKNALEAKSKEFDHIVKIGRTHLQDATPLTLGQEFSGYVQQVENGIQRVAHSLKTLSFLAQGGTAVGTGLNTKPGFDVKIAEQISKETGLKFQTAPNRFEALAAHDAIVECSGALNTLACSLFKIAQDIRYLGSGPRCGYHELMLPENEPGSSIMPGKVNPTQNEALTQVCVQVMGNNAAITFAGSQGQFELNVFKPVMIANLLNSIRLITDAAYSFRVHCVEGIKANEPRIHELLTKSLMLVTALNPKIGYDAASKVAKNAHKKGITLKESALELGVLTEKEFDEWVVPEHML SFRTETDAFGEIHVPADKYWGAQTQRSFQNFKIGGARERMPLPLVHAFGVLKKSAAIVNESLGGLDPKISKAIQQAADEVASGKLDDHFPLVVFQTGSGTQSNMNANEVISNRAIEIVHPNNHCNQSQSSNDTFPTVMHIAASLQIQNELIPELTNLKNALEAKSKEFDHIVKIGRTHLQDATPLTLGQEFSGYVQQVENGIQRVAHSLKTLSFLAQGGTAVGTGLNTKPGFDVKIAEQISKETGLKFQTAPNRFEALAAHDAIVECSGALNTLACSLFKIAQDIRYLGSGPRCGYHELMLPENEPGSSIMPGKVNPTQNEALTQVCVQVMGNNAAITFAGSQGQFELNVFKPVMIANLLNSIRLITDAAYSFRVHCVEGIKANEPRIHELLTKSLMLVTALNPKIGYDAASKVAKNAHKKGITLKESALELGVLTEKEFDEWVVPEHML 1yfm-a1-m2-cA_1yfm-a1-m4-cA RECOMBINANT YEAST FUMARASE P08417 P08417 2.6 X-RAY DIFFRACTION 114 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 450 450 1yfm-a1-m1-cA_1yfm-a1-m3-cA SFRTETDAFGEIHVPADKYWGAQTQRSFQNFKIGGARERMPLPLVHAFGVLKKSAAIVNESLGGLDPKISKAIQQAADEVASGKLDDHFPLVVFQTGSGTQSNMNANEVISNRAIEIVHPNNHCNQSQSSNDTFPTVMHIAASLQIQNELIPELTNLKNALEAKSKEFDHIVKIGRTHLQDATPLTLGQEFSGYVQQVENGIQRVAHSLKTLSFLAQGGTAVGTGLNTKPGFDVKIAEQISKETGLKFQTAPNRFEALAAHDAIVECSGALNTLACSLFKIAQDIRYLGSGPRCGYHELMLPENEPGSSIMPGKVNPTQNEALTQVCVQVMGNNAAITFAGSQGQFELNVFKPVMIANLLNSIRLITDAAYSFRVHCVEGIKANEPRIHELLTKSLMLVTALNPKIGYDAASKVAKNAHKKGITLKESALELGVLTEKEFDEWVVPEHML SFRTETDAFGEIHVPADKYWGAQTQRSFQNFKIGGARERMPLPLVHAFGVLKKSAAIVNESLGGLDPKISKAIQQAADEVASGKLDDHFPLVVFQTGSGTQSNMNANEVISNRAIEIVHPNNHCNQSQSSNDTFPTVMHIAASLQIQNELIPELTNLKNALEAKSKEFDHIVKIGRTHLQDATPLTLGQEFSGYVQQVENGIQRVAHSLKTLSFLAQGGTAVGTGLNTKPGFDVKIAEQISKETGLKFQTAPNRFEALAAHDAIVECSGALNTLACSLFKIAQDIRYLGSGPRCGYHELMLPENEPGSSIMPGKVNPTQNEALTQVCVQVMGNNAAITFAGSQGQFELNVFKPVMIANLLNSIRLITDAAYSFRVHCVEGIKANEPRIHELLTKSLMLVTALNPKIGYDAASKVAKNAHKKGITLKESALELGVLTEKEFDEWVVPEHML 1yfm-a1-m3-cA_1yfm-a1-m4-cA RECOMBINANT YEAST FUMARASE P08417 P08417 2.6 X-RAY DIFFRACTION 177 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 450 450 1yfm-a1-m1-cA_1yfm-a1-m2-cA SFRTETDAFGEIHVPADKYWGAQTQRSFQNFKIGGARERMPLPLVHAFGVLKKSAAIVNESLGGLDPKISKAIQQAADEVASGKLDDHFPLVVFQTGSGTQSNMNANEVISNRAIEIVHPNNHCNQSQSSNDTFPTVMHIAASLQIQNELIPELTNLKNALEAKSKEFDHIVKIGRTHLQDATPLTLGQEFSGYVQQVENGIQRVAHSLKTLSFLAQGGTAVGTGLNTKPGFDVKIAEQISKETGLKFQTAPNRFEALAAHDAIVECSGALNTLACSLFKIAQDIRYLGSGPRCGYHELMLPENEPGSSIMPGKVNPTQNEALTQVCVQVMGNNAAITFAGSQGQFELNVFKPVMIANLLNSIRLITDAAYSFRVHCVEGIKANEPRIHELLTKSLMLVTALNPKIGYDAASKVAKNAHKKGITLKESALELGVLTEKEFDEWVVPEHML SFRTETDAFGEIHVPADKYWGAQTQRSFQNFKIGGARERMPLPLVHAFGVLKKSAAIVNESLGGLDPKISKAIQQAADEVASGKLDDHFPLVVFQTGSGTQSNMNANEVISNRAIEIVHPNNHCNQSQSSNDTFPTVMHIAASLQIQNELIPELTNLKNALEAKSKEFDHIVKIGRTHLQDATPLTLGQEFSGYVQQVENGIQRVAHSLKTLSFLAQGGTAVGTGLNTKPGFDVKIAEQISKETGLKFQTAPNRFEALAAHDAIVECSGALNTLACSLFKIAQDIRYLGSGPRCGYHELMLPENEPGSSIMPGKVNPTQNEALTQVCVQVMGNNAAITFAGSQGQFELNVFKPVMIANLLNSIRLITDAAYSFRVHCVEGIKANEPRIHELLTKSLMLVTALNPKIGYDAASKVAKNAHKKGITLKESALELGVLTEKEFDEWVVPEHML 1yft-a2-m1-cA_1yft-a2-m2-cA The crystal structure of the catalytic fragment of alanyl-tRNA synthetase in complex wtih glycine O67323 O67323 2.23 X-RAY DIFFRACTION 279 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 448 448 1ygb-a2-m1-cA_1ygb-a2-m2-cA 3htz-a2-m1-cA_3htz-a2-m2-cA SLSAHEIRELFLSFFEKKGHTRVKSAPLVPENDPTLLFVNAGMVPFKNVFLGLEKRPYKRATSCQKCLRVSGKHNDLEQVGYTSRHHTFFEMLGNFSFGDYFKKEAIEYAWEFVTEVLKLPKEKLYVSVYKDDEEAYRIWNEHIGIPSERIWRLGEEDNFWQMGDVGPCGPSSEIYVDRGEEYEGDERYLEIWNLVFMQYNRDENGVLTPLPHPNIDTGMGLERIASVLQGKNSNFEIDIIFPLIQFGEEVSGKKYGEKFETDVALRVIADHLRAITFAISDGVIPSNEGRGYVIRRILRRAMRFGYKLGIENPFLYKGVDLVVDIMKEPYPELELSREFVKGIVKGEEKRFIKTLKAGMEYIQEVIQKALEEGRKTLSGKEVFTAYDTYGFPVDLIDEIAREKGLGIDLEGFQCELEEQRERARKHPVYSHLKELGKTSAFVGAAAL SLSAHEIRELFLSFFEKKGHTRVKSAPLVPENDPTLLFVNAGMVPFKNVFLGLEKRPYKRATSCQKCLRVSGKHNDLEQVGYTSRHHTFFEMLGNFSFGDYFKKEAIEYAWEFVTEVLKLPKEKLYVSVYKDDEEAYRIWNEHIGIPSERIWRLGEEDNFWQMGDVGPCGPSSEIYVDRGEEYEGDERYLEIWNLVFMQYNRDENGVLTPLPHPNIDTGMGLERIASVLQGKNSNFEIDIIFPLIQFGEEVSGKKYGEKFETDVALRVIADHLRAITFAISDGVIPSNEGRGYVIRRILRRAMRFGYKLGIENPFLYKGVDLVVDIMKEPYPELELSREFVKGIVKGEEKRFIKTLKAGMEYIQEVIQKALEEGRKTLSGKEVFTAYDTYGFPVDLIDEIAREKGLGIDLEGFQCELEEQRERARKHPVYSHLKELGKTSAFVGAAAL 1yfz-a2-m1-cB_1yfz-a2-m2-cB Novel IMP Binding in Feedback Inhibition of Hypoxanthine-Guanine Phosphoribosyltransferase from Thermoanaerobacter tengcongensis Q8R7L0 Q8R7L0 2.2 X-RAY DIFFRACTION 74 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 177 177 1r3u-a1-m1-cA_1r3u-a1-m2-cA 1r3u-a1-m1-cB_1r3u-a1-m2-cB 1yfz-a1-m1-cA_1yfz-a1-m2-cA 1yfz-a1-m1-cB_1yfz-a1-m2-cB 1yfz-a3-m1-cA_1yfz-a3-m2-cA 2geb-a1-m1-cA_2geb-a1-m3-cA 2geb-a1-m2-cA_2geb-a1-m4-cA PMEDIEEILITEEQLKAKVKELGEMITRDYEGKDLVLIGVLKGAIMFMSGLSRAIDLPLSIDFLAVSSYGSSTKSSGIVKIIKDHDIDIEGKDVLIVEDIIDSGLTLAYLRETLLGRKPRSLKICTILDKPERREADVKVDYCGFKIPDKFVVGYGLDYAEKYRNLPFIGVLKPELY PMEDIEEILITEEQLKAKVKELGEMITRDYEGKDLVLIGVLKGAIMFMSGLSRAIDLPLSIDFLAVSSYGSSTKSSGIVKIIKDHDIDIEGKDVLIVEDIIDSGLTLAYLRETLLGRKPRSLKICTILDKPERREADVKVDYCGFKIPDKFVVGYGLDYAEKYRNLPFIGVLKPELY 1yg2-a1-m1-cA_1yg2-a1-m2-cA Structure of the Vibrio cholerae virulence activator AphA Q9X399 Q9X399 2.2 X-RAY DIFFRACTION 186 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 169 169 SLPHVILTVLSTRDATGYDITKEFSASIGYFWKASHQQVYRELNKMGEQGLVTCVLEVYSITQAGRSALGEWFDQPTAHPTVRDEFSAKLMACSVQSAEPYRLQLAELVEESRKLVAHYQEIEAAYYANPAVLDKQQRLERLTLRRNLLVRQAWIQWADEVLAELNAMA SLPHVILTVLSTRDATGYDITKEFSASIGYFWKASHQQVYRELNKMGEQGLVTCVLEVYSITQAGRSALGEWFDQPTAHPTVRDEFSAKLMACSVQSAEPYRLQLAELVEESRKLVAHYQEIEAAYYANPAVLDKQQRLERLTLRRNLLVRQAWIQWADEVLAELNAMA 1yga-a1-m1-cA_1yga-a1-m1-cB CRYSTAL STRUCTURE OF Saccharomyces cerevisiae YN9A PROTEIN, NEW YORK STRUCTURAL GENOMICS CONSORTIUM P53757 P53757 2 X-RAY DIFFRACTION 38 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 336 336 DNKYGVITIGDEKKFQATIAPLGATLVDLKVNGQSVVQGYSNVQDYLTDGNMMGATVGRYANRIAKGVFSLDDGPHKLTVNNCGNTNHSSISSLNLKQYKASPVENPSKGVYVVEFKLLDDHTQPNPNEFPGDLEVTVKYTLNVAEMTLDMEYQAQLVRGDATPINMTNHSYFNLNKVKSEKSIRGTEVKVCSNKSLEVTEGALLPTGKIIERNIATFDSTKPTVLHEDTPVFDCTFIIDANKDLKTTDSVSVNKLVPVFKAYHPESHIKFEVSTTEPTVHLYTGDNLCGKFVPRSGFAVQQGRYVDAINRDEWRGCVLLKRGEVYTSKTQYKFDI DNKYGVITIGDEKKFQATIAPLGATLVDLKVNGQSVVQGYSNVQDYLTDGNMMGATVGRYANRIAKGVFSLDDGPHKLTVNNCGNTNHSSISSLNLKQYKASPVENPSKGVYVVEFKLLDDHTQPNPNEFPGDLEVTVKYTLNVAEMTLDMEYQAQLVRGDATPINMTNHSYFNLNKVKSEKSIRGTEVKVCSNKSLEVTEGALLPTGKIIERNIATFDSTKPTVLHEDTPVFDCTFIIDANKDLKTTDSVSVNKLVPVFKAYHPESHIKFEVSTTEPTVHLYTGDNLCGKFVPRSGFAVQQGRYVDAINRDEWRGCVLLKRGEVYTSKTQYKFDI 1ygp-a1-m1-cB_1ygp-a1-m1-cA PHOSPHORYLATED FORM OF YEAST GLYCOGEN PHOSPHORYLASE WITH PHOSPHATE BOUND IN THE ACTIVE SITE. P06738 P06738 2.8 X-RAY DIFFRACTION 312 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 858 858 TRRLTGFLPQEIKSIDTMIPLLSRALWNKHQVKKFNKAEDFQDRFIDHVETTLARSLYNCDDMVAYEAASMSIRDNLVIDWNKTQQKFTTRDPKRVYYLSLEFLMGRALDNALINMKIPREMIKGALDELGFKLEDVLDQEPDAGLGNGGLGRLAACFVDSMATEGIPAWGYGLRYEYGIFAQKIIDGYQVETPDYWLNSGNPWEIERNEVQIPVTFYGYVDRPTTLSASQWIGGERVLAVAYDFPVPGFKTSNVNNLRLWQARPTTEFDLNKFNNGDYKNSVAQQQRAESITAVLYPNDNFAQGKELRLKQQYFWCAASLHDILRRFKKSKRPWTEFPDQVAIQLNDTHPTLAIVELQRVLVDLEKLDWHEAWDIVTKTFAYTNHTVMQEALEKWPRRLFGHLLPRHLEIIYDINWFFLEDVAKKFPKDVDLLSRISIIEENSPERQIRMAFLAIVGSHKVNGVVELHSELIKTTIFKDFIKFYGPSKFVNVTNGITPRRWLKQANPSLAKLISETLNDPTEEYLLDMAKLTQLEKYVEDKEFLKKWNQVKLNNKIRLVDLIKKENDGVDIINREYLDDTLFDMQVKRIHEYKRQQLNVFGIIYRYLAMKNMLKNGASIEEVARKYPRKVSIFGGKSAPGYYMAKLIIKLINCVADIVNNDESIEHLLKVVFVADYNVSKAEIIIPASDLSEHISTAGTEASGTSNMKFVMNGGLIIGTVDGANVEITREIGEDNVFLFGNLSENVEELRYNHQYHPQDLPSSLDSVLSYIEQFSPENPNEFKPLVDSIKYHGDYYLVSDDFESYLATHELVDQEFHNQRSEWLKKSVLSLANVGFFSSDRCIEEYSDTIWNVEPVT TRRLTGFLPQEIKSIDTMIPLLSRALWNKHQVKKFNKAEDFQDRFIDHVETTLARSLYNCDDMVAYEAASMSIRDNLVIDWNKTQQKFTTRDPKRVYYLSLEFLMGRALDNALINMKIPREMIKGALDELGFKLEDVLDQEPDAGLGNGGLGRLAACFVDSMATEGIPAWGYGLRYEYGIFAQKIIDGYQVETPDYWLNSGNPWEIERNEVQIPVTFYGYVDRPTTLSASQWIGGERVLAVAYDFPVPGFKTSNVNNLRLWQARPTTEFDLNKFNNGDYKNSVAQQQRAESITAVLYPNDNFAQGKELRLKQQYFWCAASLHDILRRFKKSKRPWTEFPDQVAIQLNDTHPTLAIVELQRVLVDLEKLDWHEAWDIVTKTFAYTNHTVMQEALEKWPRRLFGHLLPRHLEIIYDINWFFLEDVAKKFPKDVDLLSRISIIEENSPERQIRMAFLAIVGSHKVNGVVELHSELIKTTIFKDFIKFYGPSKFVNVTNGITPRRWLKQANPSLAKLISETLNDPTEEYLLDMAKLTQLEKYVEDKEFLKKWNQVKLNNKIRLVDLIKKENDGVDIINREYLDDTLFDMQVKRIHEYKRQQLNVFGIIYRYLAMKNMLKNGASIEEVARKYPRKVSIFGGKSAPGYYMAKLIIKLINCVADIVNNDESIEHLLKVVFVADYNVSKAEIIIPASDLSEHISTAGTEASGTSNMKFVMNGGLIIGTVDGANVEITREIGEDNVFLFGNLSENVEELRYNHQYHPQDLPSSLDSVLSYIEQFSPENPNEFKPLVDSIKYHGDYYLVSDDFESYLATHELVDQEFHNQRSEWLKKSVLSLANVGFFSSDRCIEEYSDTIWNVEPVT 1ygs-a1-m2-cA_1ygs-a1-m3-cA CRYSTAL STRUCTURE OF THE SMAD4 TUMOR SUPPRESSOR C-TERMINAL DOMAIN Q13485 Q13485 2.1 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 190 1ygs-a1-m1-cA_1ygs-a1-m2-cA 1ygs-a1-m1-cA_1ygs-a1-m3-cA APEYWCSIAYFEMDVQVGETFKVPSSCPIVTVDGYVDPSGGDRFCLGQLSNVHRTEAIERARLHIGKGVQLECKGEGDVWVRCLSDHAVFVQSYYLDREAGRAPGDAVHKIYPSAYIKVFDLRQCHRQMQQQAATAQAVDDLRRLCILRMSFVKGWGPDYPRQSIKETPCWIEIHLHRALQLLDEVLHTM APEYWCSIAYFEMDVQVGETFKVPSSCPIVTVDGYVDPSGGDRFCLGQLSNVHRTEAIERARLHIGKGVQLECKGEGDVWVRCLSDHAVFVQSYYLDREAGRAPGDAVHKIYPSAYIKVFDLRQCHRQMQQQAATAQAVDDLRRLCILRMSFVKGWGPDYPRQSIKETPCWIEIHLHRALQLLDEVLHTM 1ygy-a1-m1-cA_1ygy-a1-m2-cA Crystal Structure of D-3-Phosphoglycerate dehydrogenase From Mycobacterium tuberculosis P9WNX3 P9WNX3 2.3 X-RAY DIFFRACTION 55 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 527 527 3dc2-a1-m1-cA_3dc2-a1-m2-cA 3ddn-a1-m1-cA_3ddn-a1-m2-cA SLPVVLIADKLAPSTVAALGDQVEVRWVDGPDRDKLLAAVPEADALLVRSATTVDAEVLAAAPKLKIVARAGVGLDNVDVDAATARGVLVVNAPTSNIHSAAEHALALLLAASRQIPAADASLREHTWKRSSFSGTEIFGKTVGVVGLGRIGQLVAQRIAAFGAYVVAYDPYVSPARAAQLGIELLSLDDLLARADFISVHLPKTPETAGLIDKEALAKTKPGVIIVNAARGGLVDEAALADAITGGHVRAAGLDVFATEPCTDSPLFELAQVVVTPHLGASTAEAQDRAGTDVAESVRLALAGEFVPDAVNVGGGVVNEEVAPWLDLVRKLGVLAGVLSDELPVSLSVQVRGELAAEEVEVLRLSALRGLFSAVIEDAVTFVNAPALAAERGVTAEICKASESPNHRSVVDVRAVGADGSVVTVSGTLYGPQLSQKIVQINGRHFDLRAQGINLIIHYVDRPGALGKIGTLLGTAGVNIQAAQLSEDAEGPGATILLRLDQDVPDDVRTAIAAAVDAYKLEVVDLS SLPVVLIADKLAPSTVAALGDQVEVRWVDGPDRDKLLAAVPEADALLVRSATTVDAEVLAAAPKLKIVARAGVGLDNVDVDAATARGVLVVNAPTSNIHSAAEHALALLLAASRQIPAADASLREHTWKRSSFSGTEIFGKTVGVVGLGRIGQLVAQRIAAFGAYVVAYDPYVSPARAAQLGIELLSLDDLLARADFISVHLPKTPETAGLIDKEALAKTKPGVIIVNAARGGLVDEAALADAITGGHVRAAGLDVFATEPCTDSPLFELAQVVVTPHLGASTAEAQDRAGTDVAESVRLALAGEFVPDAVNVGGGVVNEEVAPWLDLVRKLGVLAGVLSDELPVSLSVQVRGELAAEEVEVLRLSALRGLFSAVIEDAVTFVNAPALAAERGVTAEICKASESPNHRSVVDVRAVGADGSVVTVSGTLYGPQLSQKIVQINGRHFDLRAQGINLIIHYVDRPGALGKIGTLLGTAGVNIQAAQLSEDAEGPGATILLRLDQDVPDDVRTAIAAAVDAYKLEVVDLS 1ygy-a1-m1-cA_1ygy-a1-m2-cB Crystal Structure of D-3-Phosphoglycerate dehydrogenase From Mycobacterium tuberculosis P9WNX3 P9WNX3 2.3 X-RAY DIFFRACTION 127 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 527 527 1ygy-a1-m1-cB_1ygy-a1-m2-cA 3dc2-a1-m1-cB_3dc2-a1-m2-cA 3dc2-a1-m2-cB_3dc2-a1-m1-cA 3ddn-a1-m1-cB_3ddn-a1-m2-cA 3ddn-a1-m2-cB_3ddn-a1-m1-cA SLPVVLIADKLAPSTVAALGDQVEVRWVDGPDRDKLLAAVPEADALLVRSATTVDAEVLAAAPKLKIVARAGVGLDNVDVDAATARGVLVVNAPTSNIHSAAEHALALLLAASRQIPAADASLREHTWKRSSFSGTEIFGKTVGVVGLGRIGQLVAQRIAAFGAYVVAYDPYVSPARAAQLGIELLSLDDLLARADFISVHLPKTPETAGLIDKEALAKTKPGVIIVNAARGGLVDEAALADAITGGHVRAAGLDVFATEPCTDSPLFELAQVVVTPHLGASTAEAQDRAGTDVAESVRLALAGEFVPDAVNVGGGVVNEEVAPWLDLVRKLGVLAGVLSDELPVSLSVQVRGELAAEEVEVLRLSALRGLFSAVIEDAVTFVNAPALAAERGVTAEICKASESPNHRSVVDVRAVGADGSVVTVSGTLYGPQLSQKIVQINGRHFDLRAQGINLIIHYVDRPGALGKIGTLLGTAGVNIQAAQLSEDAEGPGATILLRLDQDVPDDVRTAIAAAVDAYKLEVVDLS SLPVVLIADKLAPSTVAALGDQVEVRWVDGPDRDKLLAAVPEADALLVRSATTVDAEVLAAAPKLKIVARAGVGLDNVDVDAATARGVLVVNAPTSNIHSAAEHALALLLAASRQIPAADASLREHTWKRSSFSGTEIFGKTVGVVGLGRIGQLVAQRIAAFGAYVVAYDPYVSPARAAQLGIELLSLDDLLARADFISVHLPKTPETAGLIDKEALAKTKPGVIIVNAARGGLVDEAALADAITGGHVRAAGLDVFATEPCTDSPLFELAQVVVTPHLGASTAEAQDRAGTDVAESVRLALAGEFVPDAVNVGGGVVNEEVAPWLDLVRKLGVLAGVLSDELPVSLSVQVRGELAAEEVEVLRLSALRGLFSAVIEDAVTFVNAPALAAERGVTAEICKASESPNHRSVVDVRAVGADGSVVTVSGTLYGPQLSQKIVQINGRHFDLRAQGINLIIHYVDRPGALGKIGTLLGTAGVNIQAAQLSEDAEGPGATILLRLDQDVPDDVRTAIAAAVDAYKLEVVDLS 1ygy-a1-m2-cA_1ygy-a1-m2-cB Crystal Structure of D-3-Phosphoglycerate dehydrogenase From Mycobacterium tuberculosis P9WNX3 P9WNX3 2.3 X-RAY DIFFRACTION 178 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 527 527 1ygy-a1-m1-cA_1ygy-a1-m1-cB 3dc2-a1-m1-cB_3dc2-a1-m1-cA 3dc2-a1-m2-cB_3dc2-a1-m2-cA 3ddn-a1-m1-cB_3ddn-a1-m1-cA 3ddn-a1-m2-cB_3ddn-a1-m2-cA SLPVVLIADKLAPSTVAALGDQVEVRWVDGPDRDKLLAAVPEADALLVRSATTVDAEVLAAAPKLKIVARAGVGLDNVDVDAATARGVLVVNAPTSNIHSAAEHALALLLAASRQIPAADASLREHTWKRSSFSGTEIFGKTVGVVGLGRIGQLVAQRIAAFGAYVVAYDPYVSPARAAQLGIELLSLDDLLARADFISVHLPKTPETAGLIDKEALAKTKPGVIIVNAARGGLVDEAALADAITGGHVRAAGLDVFATEPCTDSPLFELAQVVVTPHLGASTAEAQDRAGTDVAESVRLALAGEFVPDAVNVGGGVVNEEVAPWLDLVRKLGVLAGVLSDELPVSLSVQVRGELAAEEVEVLRLSALRGLFSAVIEDAVTFVNAPALAAERGVTAEICKASESPNHRSVVDVRAVGADGSVVTVSGTLYGPQLSQKIVQINGRHFDLRAQGINLIIHYVDRPGALGKIGTLLGTAGVNIQAAQLSEDAEGPGATILLRLDQDVPDDVRTAIAAAVDAYKLEVVDLS SLPVVLIADKLAPSTVAALGDQVEVRWVDGPDRDKLLAAVPEADALLVRSATTVDAEVLAAAPKLKIVARAGVGLDNVDVDAATARGVLVVNAPTSNIHSAAEHALALLLAASRQIPAADASLREHTWKRSSFSGTEIFGKTVGVVGLGRIGQLVAQRIAAFGAYVVAYDPYVSPARAAQLGIELLSLDDLLARADFISVHLPKTPETAGLIDKEALAKTKPGVIIVNAARGGLVDEAALADAITGGHVRAAGLDVFATEPCTDSPLFELAQVVVTPHLGASTAEAQDRAGTDVAESVRLALAGEFVPDAVNVGGGVVNEEVAPWLDLVRKLGVLAGVLSDELPVSLSVQVRGELAAEEVEVLRLSALRGLFSAVIEDAVTFVNAPALAAERGVTAEICKASESPNHRSVVDVRAVGADGSVVTVSGTLYGPQLSQKIVQINGRHFDLRAQGINLIIHYVDRPGALGKIGTLLGTAGVNIQAAQLSEDAEGPGATILLRLDQDVPDDVRTAIAAAVDAYKLEVVDLS 1ygz-a1-m1-cD_1ygz-a1-m1-cE Crystal Structure of Inorganic Pyrophosphatase from Helicobacter pylori P56153 P56153 2.6 X-RAY DIFFRACTION 13 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 168 168 1ygz-a1-m1-cB_1ygz-a1-m1-cC NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ 1ygz-a3-m4-cA_1ygz-a3-m5-cA Crystal Structure of Inorganic Pyrophosphatase from Helicobacter pylori P56153 P56153 2.6 X-RAY DIFFRACTION 54 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 168 168 1ygz-a2-m1-cE_1ygz-a2-m2-cE 1ygz-a2-m1-cE_1ygz-a2-m3-cE 1ygz-a2-m1-cF_1ygz-a2-m2-cF 1ygz-a2-m1-cF_1ygz-a2-m3-cF 1ygz-a2-m2-cE_1ygz-a2-m3-cE 1ygz-a2-m2-cF_1ygz-a2-m3-cF 1ygz-a3-m1-cA_1ygz-a3-m4-cA 1ygz-a3-m1-cA_1ygz-a3-m5-cA 1ygz-a3-m1-cB_1ygz-a3-m4-cB 1ygz-a3-m1-cB_1ygz-a3-m5-cB 1ygz-a3-m4-cB_1ygz-a3-m5-cB 1ygz-a4-m1-cC_1ygz-a4-m6-cC 1ygz-a4-m1-cC_1ygz-a4-m7-cC 1ygz-a4-m1-cD_1ygz-a4-m6-cD 1ygz-a4-m1-cD_1ygz-a4-m7-cD 1ygz-a4-m6-cC_1ygz-a4-m7-cC 1ygz-a4-m6-cD_1ygz-a4-m7-cD 2bqx-a1-m1-cA_2bqx-a1-m3-cA 2bqx-a1-m1-cA_2bqx-a1-m4-cA 2bqx-a1-m2-cA_2bqx-a1-m5-cA 2bqx-a1-m2-cA_2bqx-a1-m6-cA 2bqx-a1-m3-cA_2bqx-a1-m4-cA 2bqx-a1-m5-cA_2bqx-a1-m6-cA 2bqy-a1-m1-cA_2bqy-a1-m2-cA 2bqy-a1-m1-cA_2bqy-a1-m3-cA 2bqy-a1-m2-cA_2bqy-a1-m3-cA 2bqy-a1-m4-cA_2bqy-a1-m5-cA 2bqy-a1-m4-cA_2bqy-a1-m6-cA 2bqy-a1-m5-cA_2bqy-a1-m6-cA NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ 1ygz-a4-m1-cC_1ygz-a4-m7-cD Crystal Structure of Inorganic Pyrophosphatase from Helicobacter pylori P56153 P56153 2.6 X-RAY DIFFRACTION 24 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 168 168 1ygz-a2-m1-cE_1ygz-a2-m2-cF 1ygz-a2-m1-cF_1ygz-a2-m3-cE 1ygz-a2-m2-cE_1ygz-a2-m3-cF 1ygz-a3-m1-cA_1ygz-a3-m4-cB 1ygz-a3-m1-cB_1ygz-a3-m5-cA 1ygz-a3-m4-cA_1ygz-a3-m5-cB 1ygz-a4-m1-cD_1ygz-a4-m6-cC 1ygz-a4-m6-cD_1ygz-a4-m7-cC 2bqx-a1-m1-cA_2bqx-a1-m2-cA 2bqx-a1-m3-cA_2bqx-a1-m5-cA 2bqx-a1-m4-cA_2bqx-a1-m6-cA 2bqy-a1-m1-cA_2bqy-a1-m5-cA 2bqy-a1-m2-cA_2bqy-a1-m4-cA 2bqy-a1-m3-cA_2bqy-a1-m6-cA NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ 1ygz-a4-m7-cC_1ygz-a4-m7-cD Crystal Structure of Inorganic Pyrophosphatase from Helicobacter pylori P56153 P56153 2.6 X-RAY DIFFRACTION 47 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 168 168 1ygz-a1-m1-cA_1ygz-a1-m1-cB 1ygz-a1-m1-cC_1ygz-a1-m1-cD 1ygz-a1-m1-cE_1ygz-a1-m1-cF 1ygz-a2-m1-cE_1ygz-a2-m1-cF 1ygz-a2-m2-cE_1ygz-a2-m2-cF 1ygz-a2-m3-cE_1ygz-a2-m3-cF 1ygz-a3-m1-cA_1ygz-a3-m1-cB 1ygz-a3-m4-cA_1ygz-a3-m4-cB 1ygz-a3-m5-cA_1ygz-a3-m5-cB 1ygz-a4-m1-cC_1ygz-a4-m1-cD 1ygz-a4-m6-cC_1ygz-a4-m6-cD 2bqx-a1-m1-cA_2bqx-a1-m5-cA 2bqx-a1-m2-cA_2bqx-a1-m4-cA 2bqx-a1-m3-cA_2bqx-a1-m6-cA 2bqy-a1-m1-cA_2bqy-a1-m4-cA 2bqy-a1-m2-cA_2bqy-a1-m6-cA 2bqy-a1-m3-cA_2bqy-a1-m5-cA NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ NLEKLEVSHDADSLCVVIEISKHSNIKYELDKESGALVDRVLYGAQNYPANYGFVPNTLGSDGDPVDALVLSDVAFQAGSVVKARLVGVLNEDESGDEKLIALPIDKIDPTHSYVKDIDDLSKHTLDKIKHFFETYKDLEPNKWVKVKGFENKESAIKVLEKAIKAYQ 1yhf-a2-m1-cA_1yhf-a2-m2-cA Crystal Structure of Conserved SPY1581 Protein of Unknown Function from Streptococcus pyogenes Q99YR1 Q99YR1 2 X-RAY DIFFRACTION 122 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 108 108 NASYINNIEHAKVLDLTQEVIEQDQLSRTLVQRQDLGITVFSLDKGQEIGRHSSPGDAVTILSGLAEITIDQETYRVAEGQTIVPAGIPHALYAVEAFQLLVVVKPEA NASYINNIEHAKVLDLTQEVIEQDQLSRTLVQRQDLGITVFSLDKGQEIGRHSSPGDAVTILSGLAEITIDQETYRVAEGQTIVPAGIPHALYAVEAFQLLVVVKPEA 1yhn-a1-m1-cB_1yhn-a1-m2-cB Structure basis of RILP recruitment by Rab7 Q96NA2 Q96NA2 3 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 SREEFEQILQERNELKAKVFLLKEELAYFQRELLTDHRVPSLLLEAMKVAVRKQRKKIKAKMLGT SREEFEQILQERNELKAKVFLLKEELAYFQRELLTDHRVPSLLLEAMKVAVRKQRKKIKAKMLGT 1yhu-a1-m1-cE_1yhu-a1-m1-cU Crystal structure of Riftia pachyptila C1 hemoglobin reveals novel assembly of 24 subunits. Q8IFK4 Q8IFK4 3.15 X-RAY DIFFRACTION 53 1.0 6426 (Riftia pachyptila) 6426 (Riftia pachyptila) 145 145 1yhu-a1-m1-cA_1yhu-a1-m1-cM 1yhu-a1-m1-cI_1yhu-a1-m1-cQ ACAMLERAKVKDEWAKAYGIGAARSKFGDALWRNVFNYAPNARDIFESVNSKDMASPEFKAHIARVLGGLDRVISMLDNQATLDADLAHLKSQHDPRTIDPVNFVVFRKALIATVAGTFGVCFDVPAWQGCYNIIAKGITGSDAA ACAMLERAKVKDEWAKAYGIGAARSKFGDALWRNVFNYAPNARDIFESVNSKDMASPEFKAHIARVLGGLDRVISMLDNQATLDADLAHLKSQHDPRTIDPVNFVVFRKALIATVAGTFGVCFDVPAWQGCYNIIAKGITGSDAA 1yhu-a1-m1-cR_1yhu-a1-m1-cV Crystal structure of Riftia pachyptila C1 hemoglobin reveals novel assembly of 24 subunits. P80592 P80592 3.15 X-RAY DIFFRACTION 18 1.0 6426 (Riftia pachyptila) 6426 (Riftia pachyptila) 144 144 1yhu-a1-m1-cB_1yhu-a1-m1-cF 1yhu-a1-m1-cB_1yhu-a1-m1-cJ 1yhu-a1-m1-cF_1yhu-a1-m1-cJ 1yhu-a1-m1-cN_1yhu-a1-m1-cR 1yhu-a1-m1-cN_1yhu-a1-m1-cV DYVCGPLQRLKVKRQWAEAYGSGNSREEFGHFIWSHVFQHSPAARDMFKRVRGDNIHTPAFRAHATRVLGGLDMCIALLDDEPVLNTQLAHLAKQHETRGVEAAHYDTVNHAVMMGVENVIGSEVFDQDAWKPCLNVITNGIQG DYVCGPLQRLKVKRQWAEAYGSGNSREEFGHFIWSHVFQHSPAARDMFKRVRGDNIHTPAFRAHATRVLGGLDMCIALLDDEPVLNTQLAHLAKQHETRGVEAAHYDTVNHAVMMGVENVIGSEVFDQDAWKPCLNVITNGIQG 1yi8-a2-m1-cA_1yi8-a2-m2-cA Crystal structure of tryptophanyl trRNA synthetase II from Deinococcus radiodurans in complex with L-Trp Q9RVD6 Q9RVD6 2.1 X-RAY DIFFRACTION 141 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 331 331 1yi8-a1-m1-cB_1yi8-a1-m1-cC 1yia-a1-m1-cB_1yia-a1-m1-cC 1yia-a2-m1-cA_1yia-a2-m2-cA 1yid-a1-m1-cB_1yid-a1-m1-cC 1yid-a2-m1-cA_1yid-a2-m2-cA 2a4m-a1-m1-cA_2a4m-a1-m1-cC 2a4m-a2-m1-cB_2a4m-a2-m2-cB ARPRVLTGDRPTGALHLGHLAGSLQNRVRLQDEAELFVLLADVQALTDHFDRPEQVRENVLAVALDYLAAGLDPQKTTCVVQSAVPELAELTVYFLNLVTVSHLRQNPTVKAEIAQKGYGERVPAGFFVYPVSQAADIAAFGATLVPVGDDQLPMLEQTREIVRRFNALYAPVLAEPQAQLSRVPRLPGLDGQAKMSKSLGNAIALGDSADEVARKVMGMYTDPGHLRASDPGRVEGNPVFTFLDAFDPDPARVQALKDQYRAGGLGDVKVKKHLIDVLNGVLAPIRTRRAEYERDPDAVLRFVTEGTARGREVAAQTLGQVRRAMRLFGH ARPRVLTGDRPTGALHLGHLAGSLQNRVRLQDEAELFVLLADVQALTDHFDRPEQVRENVLAVALDYLAAGLDPQKTTCVVQSAVPELAELTVYFLNLVTVSHLRQNPTVKAEIAQKGYGERVPAGFFVYPVSQAADIAAFGATLVPVGDDQLPMLEQTREIVRRFNALYAPVLAEPQAQLSRVPRLPGLDGQAKMSKSLGNAIALGDSADEVARKVMGMYTDPGHLRASDPGRVEGNPVFTFLDAFDPDPARVQALKDQYRAGGLGDVKVKKHLIDVLNGVLAPIRTRRAEYERDPDAVLRFVTEGTARGREVAAQTLGQVRRAMRLFGH 1yif-a1-m1-cA_1yif-a1-m1-cD CRYSTAL STRUCTURE OF beta-1,4-xylosidase FROM BACILLUS SUBTILIS, NEW YORK STRUCTURAL GENOMICS CONSORTIUM P94489 P94489 1.8 X-RAY DIFFRACTION 45 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 532 532 1yif-a1-m1-cB_1yif-a1-m1-cC KITNPVLKGFNPDPSICRAGEDYYIAVSTFEWFPGVQIHHSKDLVNWHLVAHPLQRVSQLDMKGNPNSGGVWAPCLSYSDGKFWLIYTDVKVVDGAWKDCHNYLVTCETINGDWSEPIKLNSSGFDASLFHDTDGKKYLLNMLWDHRIDRHSFGGIVIQEYSDKEQKLIGKPKVIFEGTDRKLTEAPHLYHIGNYYYLLTAEGGTRYEHAATIARSANIEGPYEVHPDNPILTSWHDPGNPLQKCGHASIVQTHTDEWYLAHLTGRPIHPDDDSIFQQRGYCPLGRETAIQKLYWKDEWPYVVGGKEGSLEVDAPSIPETIFEATYPEVDEFEDSTLNINFQTLRIPFTNELGSLTQAPNHLRLFGHESLTSTFTQAFVARRWQSLHFEAETAVEFYPENFQQAAGLVNYYNTENWTALQVTHDEELGRILELTICDNFSFSQPLNNKIVIPREVKYVYLRVNIEKDKYYYFYSFNKEDWHKIDIALESKKLSDDYIRGGGFFTGAFVGMQCQDTGGNHIPADFRYFRYKEK KITNPVLKGFNPDPSICRAGEDYYIAVSTFEWFPGVQIHHSKDLVNWHLVAHPLQRVSQLDMKGNPNSGGVWAPCLSYSDGKFWLIYTDVKVVDGAWKDCHNYLVTCETINGDWSEPIKLNSSGFDASLFHDTDGKKYLLNMLWDHRIDRHSFGGIVIQEYSDKEQKLIGKPKVIFEGTDRKLTEAPHLYHIGNYYYLLTAEGGTRYEHAATIARSANIEGPYEVHPDNPILTSWHDPGNPLQKCGHASIVQTHTDEWYLAHLTGRPIHPDDDSIFQQRGYCPLGRETAIQKLYWKDEWPYVVGGKEGSLEVDAPSIPETIFEATYPEVDEFEDSTLNINFQTLRIPFTNELGSLTQAPNHLRLFGHESLTSTFTQAFVARRWQSLHFEAETAVEFYPENFQQAAGLVNYYNTENWTALQVTHDEELGRILELTICDNFSFSQPLNNKIVIPREVKYVYLRVNIEKDKYYYFYSFNKEDWHKIDIALESKKLSDDYIRGGGFFTGAFVGMQCQDTGGNHIPADFRYFRYKEK 1yif-a1-m1-cC_1yif-a1-m1-cD CRYSTAL STRUCTURE OF beta-1,4-xylosidase FROM BACILLUS SUBTILIS, NEW YORK STRUCTURAL GENOMICS CONSORTIUM P94489 P94489 1.8 X-RAY DIFFRACTION 123 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 532 532 1yif-a1-m1-cA_1yif-a1-m1-cB KITNPVLKGFNPDPSICRAGEDYYIAVSTFEWFPGVQIHHSKDLVNWHLVAHPLQRVSQLDMKGNPNSGGVWAPCLSYSDGKFWLIYTDVKVVDGAWKDCHNYLVTCETINGDWSEPIKLNSSGFDASLFHDTDGKKYLLNMLWDHRIDRHSFGGIVIQEYSDKEQKLIGKPKVIFEGTDRKLTEAPHLYHIGNYYYLLTAEGGTRYEHAATIARSANIEGPYEVHPDNPILTSWHDPGNPLQKCGHASIVQTHTDEWYLAHLTGRPIHPDDDSIFQQRGYCPLGRETAIQKLYWKDEWPYVVGGKEGSLEVDAPSIPETIFEATYPEVDEFEDSTLNINFQTLRIPFTNELGSLTQAPNHLRLFGHESLTSTFTQAFVARRWQSLHFEAETAVEFYPENFQQAAGLVNYYNTENWTALQVTHDEELGRILELTICDNFSFSQPLNNKIVIPREVKYVYLRVNIEKDKYYYFYSFNKEDWHKIDIALESKKLSDDYIRGGGFFTGAFVGMQCQDTGGNHIPADFRYFRYKEK KITNPVLKGFNPDPSICRAGEDYYIAVSTFEWFPGVQIHHSKDLVNWHLVAHPLQRVSQLDMKGNPNSGGVWAPCLSYSDGKFWLIYTDVKVVDGAWKDCHNYLVTCETINGDWSEPIKLNSSGFDASLFHDTDGKKYLLNMLWDHRIDRHSFGGIVIQEYSDKEQKLIGKPKVIFEGTDRKLTEAPHLYHIGNYYYLLTAEGGTRYEHAATIARSANIEGPYEVHPDNPILTSWHDPGNPLQKCGHASIVQTHTDEWYLAHLTGRPIHPDDDSIFQQRGYCPLGRETAIQKLYWKDEWPYVVGGKEGSLEVDAPSIPETIFEATYPEVDEFEDSTLNINFQTLRIPFTNELGSLTQAPNHLRLFGHESLTSTFTQAFVARRWQSLHFEAETAVEFYPENFQQAAGLVNYYNTENWTALQVTHDEELGRILELTICDNFSFSQPLNNKIVIPREVKYVYLRVNIEKDKYYYFYSFNKEDWHKIDIALESKKLSDDYIRGGGFFTGAFVGMQCQDTGGNHIPADFRYFRYKEK 1yis-a1-m1-cA_1yis-a1-m4-cA Structural genomics of Caenorhabditis elegans: adenylosuccinate lyase Q21774 Q21774 2.4 X-RAY DIFFRACTION 45 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 411 411 1yis-a1-m2-cA_1yis-a1-m3-cA ASEDKFESVLSTRYCKNSPLVSILSETNKATLWRQLWIWLAEAEKELGLKQVTQDAIDEKSNRDVFDWPFIRSEERKLKHDVAHNHAFGKLCPTAAGIIHLGATSCFVQDNADLIAYRDSIDHILKRFATVIDRLAAFSLKNKEVVTVGRTHYQTASLVTVGKRGVLWAQELLAFQSLSEFRDKRFRGIKGATGTQDSFLTLFAGDESKVEALDELVTKKANFSNRFLITGQTYSRQQDSQLVFSLSLLGAAAKKVCTDIRVLQAFGELLEPKKNPKSERCCALSRKLINAPQEALTILADQGLERTLDDSAGRRLIPDVLLTAEALLTTLQNIFEGLSVQTDNVKKIVEDEIAFLGLEKALQTADPFFDSVRDRVVGLVNNPINFTGRCVSQTESFIAKELKPTIDKYLD ASEDKFESVLSTRYCKNSPLVSILSETNKATLWRQLWIWLAEAEKELGLKQVTQDAIDEKSNRDVFDWPFIRSEERKLKHDVAHNHAFGKLCPTAAGIIHLGATSCFVQDNADLIAYRDSIDHILKRFATVIDRLAAFSLKNKEVVTVGRTHYQTASLVTVGKRGVLWAQELLAFQSLSEFRDKRFRGIKGATGTQDSFLTLFAGDESKVEALDELVTKKANFSNRFLITGQTYSRQQDSQLVFSLSLLGAAAKKVCTDIRVLQAFGELLEPKKNPKSERCCALSRKLINAPQEALTILADQGLERTLDDSAGRRLIPDVLLTAEALLTTLQNIFEGLSVQTDNVKKIVEDEIAFLGLEKALQTADPFFDSVRDRVVGLVNNPINFTGRCVSQTESFIAKELKPTIDKYLD 1yis-a1-m2-cA_1yis-a1-m4-cA Structural genomics of Caenorhabditis elegans: adenylosuccinate lyase Q21774 Q21774 2.4 X-RAY DIFFRACTION 233 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 411 411 1yis-a1-m1-cA_1yis-a1-m3-cA ASEDKFESVLSTRYCKNSPLVSILSETNKATLWRQLWIWLAEAEKELGLKQVTQDAIDEKSNRDVFDWPFIRSEERKLKHDVAHNHAFGKLCPTAAGIIHLGATSCFVQDNADLIAYRDSIDHILKRFATVIDRLAAFSLKNKEVVTVGRTHYQTASLVTVGKRGVLWAQELLAFQSLSEFRDKRFRGIKGATGTQDSFLTLFAGDESKVEALDELVTKKANFSNRFLITGQTYSRQQDSQLVFSLSLLGAAAKKVCTDIRVLQAFGELLEPKKNPKSERCCALSRKLINAPQEALTILADQGLERTLDDSAGRRLIPDVLLTAEALLTTLQNIFEGLSVQTDNVKKIVEDEIAFLGLEKALQTADPFFDSVRDRVVGLVNNPINFTGRCVSQTESFIAKELKPTIDKYLD ASEDKFESVLSTRYCKNSPLVSILSETNKATLWRQLWIWLAEAEKELGLKQVTQDAIDEKSNRDVFDWPFIRSEERKLKHDVAHNHAFGKLCPTAAGIIHLGATSCFVQDNADLIAYRDSIDHILKRFATVIDRLAAFSLKNKEVVTVGRTHYQTASLVTVGKRGVLWAQELLAFQSLSEFRDKRFRGIKGATGTQDSFLTLFAGDESKVEALDELVTKKANFSNRFLITGQTYSRQQDSQLVFSLSLLGAAAKKVCTDIRVLQAFGELLEPKKNPKSERCCALSRKLINAPQEALTILADQGLERTLDDSAGRRLIPDVLLTAEALLTTLQNIFEGLSVQTDNVKKIVEDEIAFLGLEKALQTADPFFDSVRDRVVGLVNNPINFTGRCVSQTESFIAKELKPTIDKYLD 1yis-a1-m3-cA_1yis-a1-m4-cA Structural genomics of Caenorhabditis elegans: adenylosuccinate lyase Q21774 Q21774 2.4 X-RAY DIFFRACTION 142 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 411 411 1yis-a1-m1-cA_1yis-a1-m2-cA ASEDKFESVLSTRYCKNSPLVSILSETNKATLWRQLWIWLAEAEKELGLKQVTQDAIDEKSNRDVFDWPFIRSEERKLKHDVAHNHAFGKLCPTAAGIIHLGATSCFVQDNADLIAYRDSIDHILKRFATVIDRLAAFSLKNKEVVTVGRTHYQTASLVTVGKRGVLWAQELLAFQSLSEFRDKRFRGIKGATGTQDSFLTLFAGDESKVEALDELVTKKANFSNRFLITGQTYSRQQDSQLVFSLSLLGAAAKKVCTDIRVLQAFGELLEPKKNPKSERCCALSRKLINAPQEALTILADQGLERTLDDSAGRRLIPDVLLTAEALLTTLQNIFEGLSVQTDNVKKIVEDEIAFLGLEKALQTADPFFDSVRDRVVGLVNNPINFTGRCVSQTESFIAKELKPTIDKYLD ASEDKFESVLSTRYCKNSPLVSILSETNKATLWRQLWIWLAEAEKELGLKQVTQDAIDEKSNRDVFDWPFIRSEERKLKHDVAHNHAFGKLCPTAAGIIHLGATSCFVQDNADLIAYRDSIDHILKRFATVIDRLAAFSLKNKEVVTVGRTHYQTASLVTVGKRGVLWAQELLAFQSLSEFRDKRFRGIKGATGTQDSFLTLFAGDESKVEALDELVTKKANFSNRFLITGQTYSRQQDSQLVFSLSLLGAAAKKVCTDIRVLQAFGELLEPKKNPKSERCCALSRKLINAPQEALTILADQGLERTLDDSAGRRLIPDVLLTAEALLTTLQNIFEGLSVQTDNVKKIVEDEIAFLGLEKALQTADPFFDSVRDRVVGLVNNPINFTGRCVSQTESFIAKELKPTIDKYLD 1yj0-a2-m2-cA_1yj0-a2-m3-cA Crystal Structures of Chicken Annexin V in Complex with Zn2+ P17153 P17153 2.95 X-RAY DIFFRACTION 30 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 317 317 1yj0-a2-m1-cA_1yj0-a2-m2-cA 1yj0-a2-m1-cA_1yj0-a2-m3-cA KYTRGTVTAFSPFDARADAEALRKAMKGMGTDEETILKILTSRNNAQRQEIASAFKTLFGRDLVDDLKSELTGKFETLMVSLMRPARIFDAHALKHAIKGAGTNEKVLTEILASRTPAEVQNIKQVYMQEYEANLEDKITGETSGHFQRLLVVLLQANRDPDGRVDEALVEKDAQVLFRAGELKWGTDEETFITILGTRSVSHLRRVFDKYMTISGFQIEETIDRETSGDLEKLLLAVVKCIRSVPAYFAETLYYSMKGAGTDDDTLIRVMVSRSEIDLLDIRHEFRKNFAKSLYQMIQKDTSGDYRKALLLLCGGD KYTRGTVTAFSPFDARADAEALRKAMKGMGTDEETILKILTSRNNAQRQEIASAFKTLFGRDLVDDLKSELTGKFETLMVSLMRPARIFDAHALKHAIKGAGTNEKVLTEILASRTPAEVQNIKQVYMQEYEANLEDKITGETSGHFQRLLVVLLQANRDPDGRVDEALVEKDAQVLFRAGELKWGTDEETFITILGTRSVSHLRRVFDKYMTISGFQIEETIDRETSGDLEKLLLAVVKCIRSVPAYFAETLYYSMKGAGTDDDTLIRVMVSRSEIDLLDIRHEFRKNFAKSLYQMIQKDTSGDYRKALLLLCGGD 1yj5-a1-m1-cA_1yj5-a1-m1-cB Molecular architecture of mammalian polynucleotide kinase, a DNA repair enzyme Q9JLV6 Q9JLV6 2.8 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 374 378 LGWESLKKLLVFTASGVKPQGKVAAFDLDGTLITTRSGKVFPTSPSDWRILYPEIPKKLQELAAEGYKLVIFTNQGIGRGKLPAEVFKGKVEAVLEKLGVPFQVLVATHAGLNRKPVSGWDHLQEQANEGIPISVEDSVFVGDAAGRLANWAPGRKKKDFSCADRLFALNVGLPFATPEEFFLKWPAARFELPAFDPRTISSAGPLYLPESSSLLSPNPEVVVAVGFPGAGKSTFIQEHLVSAGYVHVNRDTLGSWQRCVSSCQAALRQGKRVVIDNTNPDVPSRARYIQCAKDAGVPCRCFNFCATIEQARHNNRFRETDPSHAPVSDVFSYRKQFEPPTLAEGFLEILEIPFRLQEHLDPALQRLYRQFSEG RKSSLGWESLKKLLVFTASGVKPQGKVAAFDLDGTLITTRSGKVFPTSPSDWRILYPEIPKKLQELAAEGYKLVIFTNQGIGRGKLPAEVFKGKVEAVLEKLGVPFQVLVATHAGLNRKPVSGWDHLQEQANEGIPISVEDSVFVGDAAGRLANWAPGRKKKDFSCADRLFALNVGLPFATPEEFFLKWPAARFELPAFDPRTISSAGPLYLPESSSLLSPNPEVVVAVGFPGAGKSTFIQEHLVSAGYVHVNRDTLGSWQRCVSSCQAALRQGKRVVIDNTNPDVPSRARYIQCAKDAGVPCRCFNFCATIEQARHNNRFRETDPSHAPVSDVFSYRKQFEPPTLAEGFLEILEIPFRLQEHLDPALQRLYRQFSEG 1yj7-a1-m1-cC_1yj7-a1-m1-cD Crystal structure of enteropathogenic E.coli (EPEC) type III secretion system protein EscJ Q8VQD3 Q8VQD3 1.8 X-RAY DIFFRACTION 123 1.0 562 (Escherichia coli) 562 (Escherichia coli) 153 158 1yj7-a1-m1-cA_1yj7-a1-m1-cB 1yj7-a1-m1-cC_1yj7-a1-m1-cB KEQLYTGLTEKEANQMQALLLSNDVNVSKEMDKSGNMTLSVAAADFVRAITILNNNGFPKKKFADIEVIFPSPSQENAKINYLKEQDIERLLSKIPGVIDCSVSLNVPSSAAVLVISSPEVNLAPSVIQIKNLVKNSVDDLKLENISVVIKSS KEQLYTGLTEKEANQMQALLLSNDVNVSKEMDKSGNMTLSVAAADFVRAITILNNNGFPKKKFADIEVIFPSPSQENAKINYLKEQDIERLLSKIPGVIDCSVSLNVPSSAAVLVISSPEVNLAPSVIQIKNLVKNSVDDLKLENISVVIKSSSGQDG 1yj8-a2-m1-cB_1yj8-a2-m1-cC Initial structural analysis of Plasmodium falciparum Glycerol-3-phosphate dehydrogenase Q8I5P5 Q8I5P5 2.85 X-RAY DIFFRACTION 163 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 357 357 1yj8-a1-m1-cA_1yj8-a1-m2-cA YRNLFDKLKDGPLKISILGSGNWASAISKVVGTNAKNNYLFENEVRMWIRDEFERMVDIINNKHENTKYLKGVPLPHNIVAHSDLASVINDADLLIFIVPCQYLESVLASIKEIKIASHAKAISLTKGFIVKKNQMKLCSNYISDFLNIPCSALSGANIAMDVAMENFSEATIGGNDKDSLVIWQRVFDLPYFKINCVNETIEVEICGALKNIITLACGFCDGLNLPTNSKSAIIRNGINEMILFGKVFFQKFNENILLESCGFADIITSFLAGRNAKCSAEFIKSTPKKTWEELENEILKGQKLQGTVTLKYVYHMIKEKNMTNEFPLFTVLHKISFENEDPSSLLKTFMNNKINQ YRNLFDKLKDGPLKISILGSGNWASAISKVVGTNAKNNYLFENEVRMWIRDEFERMVDIINNKHENTKYLKGVPLPHNIVAHSDLASVINDADLLIFIVPCQYLESVLASIKEIKIASHAKAISLTKGFIVKKNQMKLCSNYISDFLNIPCSALSGANIAMDVAMENFSEATIGGNDKDSLVIWQRVFDLPYFKINCVNETIEVEICGALKNIITLACGFCDGLNLPTNSKSAIIRNGINEMILFGKVFFQKFNENILLESCGFADIITSFLAGRNAKCSAEFIKSTPKKTWEELENEILKGQKLQGTVTLKYVYHMIKEKNMTNEFPLFTVLHKISFENEDPSSLLKTFMNNKINQ 1yjd-a1-m1-cC_1yjd-a1-m2-cC Crystal structure of human CD28 in complex with the Fab fragment of a mitogenic antibody (5.11A1) P10747 P10747 2.7 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 6o8d-a1-m1-cC_6o8d-a1-m2-cC NKILVKQSPMLVAYDNAVNLSCKYSYNLFSREFRASLHKGLDSAVEVCVVYGNYSQQLQVYSKTGFNCDGKLGNESVTFYLQNLYVNQTDIYFCKIEVMYPPPYLDNEKSNGTIIHVK NKILVKQSPMLVAYDNAVNLSCKYSYNLFSREFRASLHKGLDSAVEVCVVYGNYSQQLQVYSKTGFNCDGKLGNESVTFYLQNLYVNQTDIYFCKIEVMYPPPYLDNEKSNGTIIHVK 1yk3-a9-m1-cA_1yk3-a9-m2-cC Crystal structure of Rv1347c from Mycobacterium tuberculosis P9WK15 P9WK15 2.2 X-RAY DIFFRACTION 31 0.995 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 198 199 1yk3-a10-m3-cG_1yk3-a10-m1-cF ADDALVRLARERFDLPDQVRRLARPPVPSLEPPYGLRVAQLTDAEMLAEWMNRPHLAAAWEYDWPASRWRQHLNAQLEGTYSLPLIGSWHGTDGGYLELYWAAKDLISHYYDADPYDLGLHAAIADLSKVNRGFGPLLLPRIVASVFANEPRCRRIMFDPDHRNTATRRLCEWAGCKFLGEHDTTNRRMALYALEAPT DDALVRLARERFDLPDQVRRLARPPVPSLEPPYGLRVAQLTDAEMLAEWMNRPHLAAAWEYDWPASRWRQHLNAQLEGTYSLPLIGSWHGTDGGYLELYWAAKDLISHYYDADPYDLGLHAAIADLSKVNRGFGPLLLPRIVASVFANEPRCRRIMFDPDHRNTATRRLCEWAGCKFLGEHDTTNRRMALYALEAPTTA 1ykb-a1-m1-cA_1ykb-a1-m1-cF Crystal Structure of Insect Cell Expressed IL-22 Q9GZX6 Q9GZX6 2.6 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 142 1ykb-a1-m1-cC_1ykb-a1-m1-cE HCRLDKSNFQQPYITNRTFMLAKEASLADNNTDVRLIGEKLFHGVSMSERCYLMKQVLNFTLEEVLFPQSDRFQPYMQEVVPFLARLSNRLSTCHIEGDDLHIQRNVQKLKDTVKKLGESGEIKAIGELDLLFMSLRNACI SHCRLDKSNFQQPYITNRTFMLAKEASLADNNTDVRLIGEKLFHGVSMSERCYLMKQVLNFTLEEVLFPQSDRFQPYMQEVVPFLARLSNRLSTCHIEGDDLHIQRNVQKLKDTVKKLGESGEIKAIGELDLLFMSLRNACI 1ykb-a1-m1-cE_1ykb-a1-m1-cF Crystal Structure of Insect Cell Expressed IL-22 Q9GZX6 Q9GZX6 2.6 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 142 1m4r-a1-m1-cB_1m4r-a1-m1-cA 1ykb-a1-m1-cA_1ykb-a1-m1-cB 1ykb-a1-m1-cC_1ykb-a1-m1-cD SHCRLDKSNFQQPYITNRTFMLAKEASLADNNTDVRLIGEKLFHGVSMSERCYLMKQVLNFTLEEVLFPQSDRFQPYMQEVVPFLARLSNRLSTCHIEGDDLHIQRNVQKLKDTVKKLGESGEIKAIGELDLLFMSLRNACI SHCRLDKSNFQQPYITNRTFMLAKEASLADNNTDVRLIGEKLFHGVSMSERCYLMKQVLNFTLEEVLFPQSDRFQPYMQEVVPFLARLSNRLSTCHIEGDDLHIQRNVQKLKDTVKKLGESGEIKAIGELDLLFMSLRNACI 1ykc-a1-m1-cA_1ykc-a1-m1-cB human glutathione S-transferase m2-2 (E.C.2.5.1.18) complexed with glutathione-disulfide P28161 P28161 2.1 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 217 1hna-a1-m1-cA_1hna-a1-m2-cA 1hnb-a1-m1-cA_1hnb-a1-m1-cB 1hnc-a1-m1-cA_1hnc-a1-m1-cB 1hnc-a2-m1-cC_1hnc-a2-m1-cD 1xw5-a1-m1-cA_1xw5-a1-m1-cB 2ab6-a1-m1-cA_2ab6-a1-m1-cB 2ab6-a2-m1-cC_2ab6-a2-m1-cD 2c4j-a1-m1-cA_2c4j-a1-m1-cB 2c4j-a2-m1-cC_2c4j-a2-m1-cD 2gtu-a1-m1-cA_2gtu-a1-m1-cB 3gur-a1-m1-cB_3gur-a1-m1-cA 3gur-a2-m1-cC_3gur-a2-m1-cD 5hwl-a1-m1-cB_5hwl-a1-m1-cA PMTLGYWNIRGLAHSIRLLLEYTDSSYEEKKYTMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGTHKITQSNAILRYIARKHNLCGESEKEQIREDILENQFMDSRMQLAKLCYDPDFEKLKPEYLQALPEMLKLYSQFLGKQPWFLGDKITFVDFIAYDVLERNQVFEPSCLDAFPNLKDFISRFEGLEKISAYMKSSRFLPRPVFTKMAVWGNK PMTLGYWNIRGLAHSIRLLLEYTDSSYEEKKYTMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGTHKITQSNAILRYIARKHNLCGESEKEQIREDILENQFMDSRMQLAKLCYDPDFEKLKPEYLQALPEMLKLYSQFLGKQPWFLGDKITFVDFIAYDVLERNQVFEPSCLDAFPNLKDFISRFEGLEKISAYMKSSRFLPRPVFTKMAVWGNK 1ykd-a1-m1-cB_1ykd-a1-m1-cA Crystal Structure of the Tandem GAF Domains from a Cyanobacterial Adenylyl Cyclase: Novel Modes of Ligand-Binding and Dimerization P94182 P94182 1.9 X-RAY DIFFRACTION 232 0.997 1167 (Anabaena sp.) 1167 (Anabaena sp.) 380 383 VTEVEQKLQIVHQTLSMLDSHGFENILQEMLQSITLKTGELLGADRTTIFLLDEEKQELWSIVAAGSLEIRIPADKGIAGEVATFKQVVNIPFDFYHDPRSIFAQKQEKITGYRTYTMLALPLLSEQGRLVAVVQLLNKLKPYSPPDALLAERIDNQGFTSADEQLFQEFAPSIRLILESSRSFYIATQKQRAAAAMMKAVKSLSQSSLDLEDTLKRVMDEAKELMNADRSTLWLIDRDRHELWTKITQDNGSTKELRVPIGKGFAGIVAASGQKLNIPFDLYDHPDSATAKQIDQQNGYRTCSLLCMPVFNGDQELIGVTQLVNKKKTGEFPPYNPETWPIAPECFQASFDRNDEEFMEAFNIQAGVALQNAQLFATVK VTEVEQKLQIVHQTLSMLDSHGFENILQEMLQSITLKTGELLGADRTTIFLLDEEKQELWSIVAAGEGDRSLEIRIPADKGIAGEVATFKQVVNIPFDFYHDPRSIFAQKQEKITGYRTYTMLALPLLSEQGRLVAVVQLLNKLKPYSPPDALLAERIDNQGFTSADEQLFQEFAPSIRLILESSRSFYIATQKQRAAAAMMKAVKSLSQSSLDLEDTLKRVMDEAKELMNADRSTLWLIDRDRHELWTKITQDNGSTKELRVPIGKGFAGIVAASGQKLNIPFDLYDHPDSATAKQIDQQNGYRTCSLLCMPVFNGDQELIGVTQLVNKKKTGEFPPYNPETWPIAPECFQASFDRNDEEFMEAFNIQAGVALQNAQLFATV 1yke-a3-m1-cA_1yke-a3-m1-cC Structure of the mediator MED7/MED21 subcomplex Q08278 Q08278 3.3 X-RAY DIFFRACTION 24 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 98 98 ESTNYQYKIQELRKLLKSLLLNYLELIGVLSINPDMYERKVENIRTILVNIHHLLNEYRPHQSRESLIMLLEEQLEYKRGEIREIEQVCKQVHDKLTS ESTNYQYKIQELRKLLKSLLLNYLELIGVLSINPDMYERKVENIRTILVNIHHLLNEYRPHQSRESLIMLLEEQLEYKRGEIREIEQVCKQVHDKLTS 1ykw-a1-m1-cB_1ykw-a1-m1-cA Crystal Structure of a Novel RuBisCO-Like Protein from the Green Sulfur Bacterium Chlorobium tepidum Q8KBL4 Q8KBL4 2 X-RAY DIFFRACTION 222 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 412 414 1tel-a1-m1-cA_1tel-a1-m1-cB EDVKGFFASRESLDMEQYLVLDYYLESVGDIETALAHFCSEQSTFRLVHAAKVIDYEVIEELEQLSYPVKHSETGKIHACRVTIAHPHCNFGPKIPNLLTAVCGEGTYFTPGVPVVKLMDIHFPDTYLADFEGPKFGIEGLRDILNAHGRPIFFGVVKPNLSPGEFAEIAYQSWLGGLDIAKDDEMLADVTWSSIEERAAHLGKARRKAEAETGEPKIYLANITDEVDSLMEKHDVAVRNGANALLINALPVGLSAVRMLSNYTQVPLIGHFPFIASFSRMEKYGIHSKVMTKLQRLAGLDAVIMPGFGDRVMTPEEEVLENVIECTKPMGRIKPCLPVPGGSDSALTLQTVYEKVGNVDFGFVPGRGVFGHPMGPKAGAKSIRQAWEAIEQGISIETWAETHPELQAMVDQ EDVKGFFASRESLDMEQYLVLDYYLESVGDIETALAHFCSEQSTFRLVHAAKVIDYEVIEELEQLSYPVKHSETGKIHACRVTIAHPHCNFGPKIPNLLTAVCGEGTYFTPGVPVVKLMDIHFPDTYLADFEGPKFGIEGLRDILNAHGRPIFFGVVKPNIGLSPGEFAEIAYQSWLGGLDIAKDDEMLADVTWSSIEERAAHLGKARRKAEAETGEPKIYLANITDEVDSLMEKHDVAVRNGANALLINALPVGLSAVRMLSNYTQVPLIGHFPFIASFSRMEKYGIHSKVMTKLQRLAGLDAVIMPGFGDRVMTPEEEVLENVIECTKPMGRIKPCLPVPGGSDSALTLQTVYEKVGNVDFGFVPGRGVFGHPMGPKAGAKSIRQAWEAIEQGISIETWAETHPELQAMVDQ 1yla-a1-m1-cA_1yla-a1-m1-cB Ubiquitin-conjugating enzyme E2-25 kDa (Huntington interacting protein 2) P61086 P61086 2.4 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 GSMANIAVQRIKREFKEVLKSEETSKNQIKVDLVDENFTELRGEIAGPPDTPYEGGRYQLEIKIPETYPFNPPKVRFITKIWHPNISSVTGAICLDILKDQWAAAMTLRTVLLSLQALLAAAEPDDPQDAVVANQYKQNPEMFKQTARLWAHVYAGAPVSSPEYTKKIENLCAMGFDRNAVIVALSSKSWDVETATELLLS GSMANIAVQRIKREFKEVLKSEETSKNQIKVDLVDENFTELRGEIAGPPDTPYEGGRYQLEIKIPETYPFNPPKVRFITKIWHPNISSVTGAICLDILKDQWAAAMTLRTVLLSLQALLAAAEPDDPQDAVVANQYKQNPEMFKQTARLWAHVYAGAPVSSPEYTKKIENLCAMGFDRNAVIVALSSKSWDVETATELLLS 1ylf-a2-m1-cA_1ylf-a2-m2-cA X-ray crystal structure of BC1842 protein from Bacillus cereus, a member of the Rrf2 family of putative transcription regulators. Q81EX1 Q81EX1 2.5 X-RAY DIFFRACTION 74 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 113 113 KISSRFSIAVHILSILKNNPSSLCTSDYAESVNTNPVVIRKISYLKQAGFVYVNGGAGLLKDLHEITLLDVYHAVNVIGANIQAVLEIILIQAQSAEEVLRNITGQLFETLQE KISSRFSIAVHILSILKNNPSSLCTSDYAESVNTNPVVIRKISYLKQAGFVYVNGGAGLLKDLHEITLLDVYHAVNVIGANIQAVLEIILIQAQSAEEVLRNITGQLFETLQE 1ylf-a2-m1-cC_1ylf-a2-m2-cC X-ray crystal structure of BC1842 protein from Bacillus cereus, a member of the Rrf2 family of putative transcription regulators. Q81EX1 Q81EX1 2.5 X-RAY DIFFRACTION 13 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 115 115 ISSRFSIAVHILSILKNNPSSLCTSDYAESVNTNPVVIRKISYLKQAGFVYVNRGPGGAGLLKDLHEITLLDVYHAVNVGANIQAVLEIILIQAQSAEEVLRNITGQLFETLQEK ISSRFSIAVHILSILKNNPSSLCTSDYAESVNTNPVVIRKISYLKQAGFVYVNRGPGGAGLLKDLHEITLLDVYHAVNVGANIQAVLEIILIQAQSAEEVLRNITGQLFETLQEK 1ylf-a2-m2-cA_1ylf-a2-m2-cC X-ray crystal structure of BC1842 protein from Bacillus cereus, a member of the Rrf2 family of putative transcription regulators. Q81EX1 Q81EX1 2.5 X-RAY DIFFRACTION 19 0.982 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 113 115 1ylf-a1-m1-cA_1ylf-a1-m1-cC 1ylf-a2-m1-cA_1ylf-a2-m1-cC KISSRFSIAVHILSILKNNPSSLCTSDYAESVNTNPVVIRKISYLKQAGFVYVNGGAGLLKDLHEITLLDVYHAVNVIGANIQAVLEIILIQAQSAEEVLRNITGQLFETLQE ISSRFSIAVHILSILKNNPSSLCTSDYAESVNTNPVVIRKISYLKQAGFVYVNRGPGGAGLLKDLHEITLLDVYHAVNVGANIQAVLEIILIQAQSAEEVLRNITGQLFETLQEK 1yli-a1-m2-cA_1yli-a1-m3-cB Crystal structure of HI0827, a hexameric broad specificity acyl-coenzyme A thioesterase P44886 P44886 1.95 X-RAY DIFFRACTION 30 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 142 148 1yli-a1-m1-cA_1yli-a1-m2-cB 1yli-a1-m3-cA_1yli-a1-m1-cB 3bjk-a1-m1-cD_3bjk-a1-m1-cA 3bjk-a1-m1-cE_3bjk-a1-m1-cB 3bjk-a1-m1-cF_3bjk-a1-m1-cC RQSKGVLLLRTLAMPSDTNANGDIFGGWIMSQMDMGGAILAKEIAHGRVVTVAVESMNFIKPISVGDVVCCYGQCLKVGRSSIKIKVEVWVKKVASEPIGERYCVTDAVFTFVAVDNNGRSRTIPRENNQELEKALALISEQ FTDKNGRQSKGVLLLRTLAMPSDTNANGDIFGGWIMSQMDMGGAILAKEIAHGRVVTVAVESMNFIKPISVGDVVCCYGQCLKVGRSSIKIKVEVWVKKVASEPIGERYCVTDAVFTFVAVDNNGRSRTIPRENNQELEKALALISEQ 1yli-a1-m2-cB_1yli-a1-m3-cB Crystal structure of HI0827, a hexameric broad specificity acyl-coenzyme A thioesterase P44886 P44886 1.95 X-RAY DIFFRACTION 15 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 148 148 1yli-a1-m1-cA_1yli-a1-m2-cA 1yli-a1-m1-cA_1yli-a1-m3-cA 1yli-a1-m1-cB_1yli-a1-m2-cB 1yli-a1-m1-cB_1yli-a1-m3-cB 1yli-a1-m2-cA_1yli-a1-m3-cA 3bjk-a1-m1-cA_3bjk-a1-m1-cC 3bjk-a1-m1-cA_3bjk-a1-m1-cE 3bjk-a1-m1-cD_3bjk-a1-m1-cB 3bjk-a1-m1-cE_3bjk-a1-m1-cC 3bjk-a1-m1-cF_3bjk-a1-m1-cB FTDKNGRQSKGVLLLRTLAMPSDTNANGDIFGGWIMSQMDMGGAILAKEIAHGRVVTVAVESMNFIKPISVGDVVCCYGQCLKVGRSSIKIKVEVWVKKVASEPIGERYCVTDAVFTFVAVDNNGRSRTIPRENNQELEKALALISEQ FTDKNGRQSKGVLLLRTLAMPSDTNANGDIFGGWIMSQMDMGGAILAKEIAHGRVVTVAVESMNFIKPISVGDVVCCYGQCLKVGRSSIKIKVEVWVKKVASEPIGERYCVTDAVFTFVAVDNNGRSRTIPRENNQELEKALALISEQ 1yli-a1-m3-cA_1yli-a1-m3-cB Crystal structure of HI0827, a hexameric broad specificity acyl-coenzyme A thioesterase P44886 P44886 1.95 X-RAY DIFFRACTION 78 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 142 148 1yli-a1-m1-cA_1yli-a1-m1-cB 1yli-a1-m2-cA_1yli-a1-m2-cB 3bjk-a1-m1-cA_3bjk-a1-m1-cB 3bjk-a1-m1-cD_3bjk-a1-m1-cC 3bjk-a1-m1-cF_3bjk-a1-m1-cE RQSKGVLLLRTLAMPSDTNANGDIFGGWIMSQMDMGGAILAKEIAHGRVVTVAVESMNFIKPISVGDVVCCYGQCLKVGRSSIKIKVEVWVKKVASEPIGERYCVTDAVFTFVAVDNNGRSRTIPRENNQELEKALALISEQ FTDKNGRQSKGVLLLRTLAMPSDTNANGDIFGGWIMSQMDMGGAILAKEIAHGRVVTVAVESMNFIKPISVGDVVCCYGQCLKVGRSSIKIKVEVWVKKVASEPIGERYCVTDAVFTFVAVDNNGRSRTIPRENNQELEKALALISEQ 1yll-a1-m1-cC_1yll-a1-m1-cD Crystal Structure of the Conserved Protein of Unknown Function PA5104 from Pseudomonas aeruginosa PAO1 Q9HU79 Q9HU79 1.64 X-RAY DIFFRACTION 68 0.995 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 192 193 SELRILRAVDYPRPWKNGAGSTEEIARDGGDGLDGFGWRLSIADVGESGGFSGFAGYQRIISVLEGGGRLRVDGAESAPLRARQAFAFSGDSEVHCTLLDGAIRDFNLIYAPRRHRARLQWLRVEGELDWHGTASTLLLFAQQDGVAISLQGQPRGQLAAHDCLCAEGLQGLQHWRLTAHEPAWVCAVELDS ELRILRAVDYPRPWKNGAGSTEEIARDGGDGLDGFGWRLSIADVGESGGFSGFAGYQRIISVLEGGGRLRVDGAESAPLRARQAFAFSGDSEVHCTLLDGAIRDFNLIYAPRRHRARLQWLRVEGELDWHGTASTLLLFAQQDGVAISLQGQPRGQLAAHDCLCAEGLQGLQHWRLTAHEPAWVCAVELDSLG 1ylm-a1-m1-cA_1ylm-a1-m1-cB Structure of Cytosolic Protein of Unknown Function YutE from Bacillus subtilis O32126 O32126 1.83 X-RAY DIFFRACTION 48 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 139 139 YFVDRSKIEKTLGFFEHQLALFDSQTDWQSEIGELALQRIGHLLIECILDTGNDIDGFIRDPGSYDDIDILVDEKVVTEKEGDELKKLIAYRKTLVQQYLLADSGELYRLIKAHQTALQDFPKRIRSYLETELGPVSAF YFVDRSKIEKTLGFFEHQLALFDSQTDWQSEIGELALQRIGHLLIECILDTGNDIDGFIRDPGSYDDIDILVDEKVVTEKEGDELKKLIAYRKTLVQQYLLADSGELYRLIKAHQTALQDFPKRIRSYLETELGPVSAF 1yln-a1-m1-cA_1yln-a1-m2-cA The Crystal Structure of the Protein of Unknown Function VCA0042 from Vibrio cholerae O1 Q9KNC3 Q9KNC3 2.2 X-RAY DIFFRACTION 51 1.0 127906 (Vibrio cholerae O1) 127906 (Vibrio cholerae O1) 225 225 TVSTINSTDALAMVEHSELTLSITTPVGTKFVCRTPFIGTHTDKFLLVEMPKISADDLQYFFQEGFWMNIRAISPRGEGALIHFRSQLMHILQEPVPMAFLSIPNTMQVSQLRKEPRFELNLAGKVLFDEHRGDCELRDLSRSGCRFITPPLGKTYQVGDLVALEIFSDLRGTKTFPPLTGKICNLQRSLHHARYGLEFNEEGRNNAKNLLAQLKFNGTKLTLNA TVSTINSTDALAMVEHSELTLSITTPVGTKFVCRTPFIGTHTDKFLLVEMPKISADDLQYFFQEGFWMNIRAISPRGEGALIHFRSQLMHILQEPVPMAFLSIPNTMQVSQLRKEPRFELNLAGKVLFDEHRGDCELRDLSRSGCRFITPPLGKTYQVGDLVALEIFSDLRGTKTFPPLTGKICNLQRSLHHARYGLEFNEEGRNNAKNLLAQLKFNGTKLTLNA 1ylo-a1-m1-cB_1ylo-a1-m2-cF Crystal Structure of Protein of Unknown Function (Possible Aminopeptidase) S2589 from Shigella flexneri 2a str. 2457T A0A0H2VWV0 A0A0H2VWV0 2.15 X-RAY DIFFRACTION 129 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 334 334 1ylo-a1-m1-cA_1ylo-a1-m1-cE 1ylo-a1-m1-cC_1ylo-a1-m2-cC 1ylo-a1-m1-cD_1ylo-a1-m2-cD 1ylo-a1-m1-cF_1ylo-a1-m2-cB 1ylo-a1-m2-cA_1ylo-a1-m2-cE ADLSLLKALSEADAIASSEQEVRQILLEEAARLQKEVRFDGLGSVLIRLNESTGPKVICAHDEVGFVRSISREGAIDVLPVGNVRAARQLQPVRITTREECKIPGLLDGDRQGNDVSARVDIGARTYDEVQAGIRPGDRVTFDTTFQVLPHQRVGKAFDDRLSCYLLVTLLRELHDAELPAEVWLVASSSEEVGLRGGQTATRAVSPDVAIVLDTACWAKNFDYGAANHRQIGNGPLVLSDKSLIAPPKLTAWIETVAAEIGVPLQADFSNGGTDGGAVHLTGTGVPTLVGPATRHGHCAASIADCRDILQEQLLSALIQRLTRETVVQLTDFR ADLSLLKALSEADAIASSEQEVRQILLEEAARLQKEVRFDGLGSVLIRLNESTGPKVICAHDEVGFVRSISREGAIDVLPVGNVRAARQLQPVRITTREECKIPGLLDGDRQGNDVSARVDIGARTYDEVQAGIRPGDRVTFDTTFQVLPHQRVGKAFDDRLSCYLLVTLLRELHDAELPAEVWLVASSSEEVGLRGGQTATRAVSPDVAIVLDTACWAKNFDYGAANHRQIGNGPLVLSDKSLIAPPKLTAWIETVAAEIGVPLQADFSNGGTDGGAVHLTGTGVPTLVGPATRHGHCAASIADCRDILQEQLLSALIQRLTRETVVQLTDFR 1ylo-a1-m2-cE_1ylo-a1-m2-cF Crystal Structure of Protein of Unknown Function (Possible Aminopeptidase) S2589 from Shigella flexneri 2a str. 2457T A0A0H2VWV0 A0A0H2VWV0 2.15 X-RAY DIFFRACTION 58 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 334 334 1ylo-a1-m1-cA_1ylo-a1-m1-cB 1ylo-a1-m1-cA_1ylo-a1-m1-cC 1ylo-a1-m1-cB_1ylo-a1-m1-cC 1ylo-a1-m1-cD_1ylo-a1-m1-cE 1ylo-a1-m1-cD_1ylo-a1-m1-cF 1ylo-a1-m1-cE_1ylo-a1-m1-cF 1ylo-a1-m2-cA_1ylo-a1-m2-cB 1ylo-a1-m2-cA_1ylo-a1-m2-cC 1ylo-a1-m2-cB_1ylo-a1-m2-cC 1ylo-a1-m2-cD_1ylo-a1-m2-cE 1ylo-a1-m2-cD_1ylo-a1-m2-cF ADLSLLKALSEADAIASSEQEVRQILLEEAARLQKEVRFDGLGSVLIRLNESTGPKVICAHDEVGFVRSISREGAIDVLPVGNVRAARQLQPVRITTREECKIPGLLDGDRQGNDVSARVDIGARTYDEVQAGIRPGDRVTFDTTFQVLPHQRVGKAFDDRLSCYLLVTLLRELHDAELPAEVWLVASSSEEVGLRGGQTATRAVSPDVAIVLDTACWAKNFDYGAANHRQIGNGPLVLSDKSLIAPPKLTAWIETVAAEIGVPLQADFSNGGTDGGAVHLTGTGVPTLVGPATRHGHCAASIADCRDILQEQLLSALIQRLTRETVVQLTDFR ADLSLLKALSEADAIASSEQEVRQILLEEAARLQKEVRFDGLGSVLIRLNESTGPKVICAHDEVGFVRSISREGAIDVLPVGNVRAARQLQPVRITTREECKIPGLLDGDRQGNDVSARVDIGARTYDEVQAGIRPGDRVTFDTTFQVLPHQRVGKAFDDRLSCYLLVTLLRELHDAELPAEVWLVASSSEEVGLRGGQTATRAVSPDVAIVLDTACWAKNFDYGAANHRQIGNGPLVLSDKSLIAPPKLTAWIETVAAEIGVPLQADFSNGGTDGGAVHLTGTGVPTLVGPATRHGHCAASIADCRDILQEQLLSALIQRLTRETVVQLTDFR 1ylq-a1-m1-cA_1ylq-a1-m1-cB Crystal structure of putative nucleotidyltransferase O29641 O29641 2.016 X-RAY DIFFRACTION 67 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 93 93 AGHMKEIKEITKKDVQDAEIYLYGSVVEGDYSIGLSDIDVAIVSDVFEDRNRKLEFFGKITKKFFDSPFEFHILTKKEWKMSKRFIRKYRRLD AGHMKEIKEITKKDVQDAEIYLYGSVVEGDYSIGLSDIDVAIVSDVFEDRNRKLEFFGKITKKFFDSPFEFHILTKKEWKMSKRFIRKYRRLD 1ylx-a1-m1-cA_1ylx-a1-m1-cB Crystal Structure of a Protein of Unknown Function from Bacillus stearothermophilus Q5KZY7 Q5KZY7 1.6 X-RAY DIFFRACTION 45 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 94 94 EFAPRSVVIEEFIDTLEPEAYGLDQVGIFEEHGEGNRYYVGYTINKDDEITIHPFVKNERGELALEKQEWTVRKDGREKKGFHSLQEAEEVIHS EFAPRSVVIEEFIDTLEPEAYGLDQVGIFEEHGEGNRYYVGYTINKDDEITIHPFVKNERGELALEKQEWTVRKDGREKKGFHSLQEAEEVIHS 1ym0-a2-m2-cA_1ym0-a2-m1-cA Crystal Structure of Earthworm Fibrinolytic Enzyme Component B: a Novel, Glycosylated Two-chained Trypsin Q3HR18 Q3HR18 2.06 X-RAY DIFFRACTION 16 1.0 6396 (Eisenia fetida) 6396 (Eisenia fetida) 238 238 IVGGIEARPYEFPWQVSVRRKSSDSHFCGGSIINDRWVVCAAHCMQGEAPALVSLVVGEHDSSAASTVRQTHDVDSIFVNENYDPATLENDVSVIKTAVAITFDINVGPICAPDPANDYVYRKSQCSGWGTINSGGVCCPAVLRYVTLNITTNAFCDAVYTSDTIYDDMICATDNTGMTDRDSCQGDSGGPLSVKDGSGIFSLVGIVSWGIGCASGYPGVYSRVGFHAGWITDTITNN IVGGIEARPYEFPWQVSVRRKSSDSHFCGGSIINDRWVVCAAHCMQGEAPALVSLVVGEHDSSAASTVRQTHDVDSIFVNENYDPATLENDVSVIKTAVAITFDINVGPICAPDPANDYVYRKSQCSGWGTINSGGVCCPAVLRYVTLNITTNAFCDAVYTSDTIYDDMICATDNTGMTDRDSCQGDSGGPLSVKDGSGIFSLVGIVSWGIGCASGYPGVYSRVGFHAGWITDTITNN 1ym5-a1-m1-cA_1ym5-a1-m2-cA Crystal structure of YHI9, the yeast member of the phenazine biosynthesis PhzF enzyme superfamily. P38765 P38765 2.05 X-RAY DIFFRACTION 72 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 294 294 TLMVPFKQVDVFTEKPFMGNPVAVINFLEIDENEVSQEELQAIANWTNLSETTFLFKPSDKKYDYKLRIFTPRSELPFAGHPTIGSCKAFLEFTKNTTATSLVQECKIGAVPITINEGLISFKAPMADYESISSEMIADYEKAIGLKFIKPPALLHTGPEWIVALVEDAETCFNANPNFAMLAHQTKQNDHVGIILAGPKKEAAIKNSYEMRAFAPVINVYEDPVCGSGSVALARYLQEVYKFEKTTDITISEGGRLKRNGLMLASIKKEADNSTSYYIAGHATTVIDGKIKVH TLMVPFKQVDVFTEKPFMGNPVAVINFLEIDENEVSQEELQAIANWTNLSETTFLFKPSDKKYDYKLRIFTPRSELPFAGHPTIGSCKAFLEFTKNTTATSLVQECKIGAVPITINEGLISFKAPMADYESISSEMIADYEKAIGLKFIKPPALLHTGPEWIVALVEDAETCFNANPNFAMLAHQTKQNDHVGIILAGPKKEAAIKNSYEMRAFAPVINVYEDPVCGSGSVALARYLQEVYKFEKTTDITISEGGRLKRNGLMLASIKKEADNSTSYYIAGHATTVIDGKIKVH 1ym8-a1-m1-cA_1ym8-a1-m1-cB crystal structure of GZZ shows up puckering of the proline ring in the Xaa position. Q80BK4 Q80BK4 1.55 X-RAY DIFFRACTION 17 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 9 9 1wzb-a1-m1-cB_1wzb-a1-m1-cC 1ym8-a2-m1-cD_1ym8-a2-m1-cF GGGGGGGGG GGGGGGGGG 1ym8-a2-m1-cD_1ym8-a2-m1-cE crystal structure of GZZ shows up puckering of the proline ring in the Xaa position. Q80BK4 Q80BK4 1.55 X-RAY DIFFRACTION 17 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 9 9 1ym8-a1-m1-cB_1ym8-a1-m1-cG GGGGGGGGG GGGGGGGGG 1ym8-a2-m1-cE_1ym8-a2-m1-cF crystal structure of GZZ shows up puckering of the proline ring in the Xaa position. Q80BK4 Q80BK4 1.55 X-RAY DIFFRACTION 17 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 9 9 1ym8-a1-m1-cA_1ym8-a1-m1-cG GGGGGGGGG GGGGGGGGG 1ymg-a1-m2-cA_1ymg-a1-m4-cA The Channel Architecture of Aquaporin O at 2.2 Angstrom Resolution P06624 P06624 2.24 X-RAY DIFFRACTION 108 1.0 9913 (Bos taurus) 9913 (Bos taurus) 233 233 1sor-a1-m1-cA_1sor-a1-m3-cA 1sor-a1-m1-cA_1sor-a1-m4-cA 1sor-a1-m2-cA_1sor-a1-m3-cA 1sor-a1-m2-cA_1sor-a1-m4-cA 1sor-a1-m5-cA_1sor-a1-m7-cA 1sor-a1-m5-cA_1sor-a1-m8-cA 1sor-a1-m6-cA_1sor-a1-m7-cA 1sor-a1-m6-cA_1sor-a1-m8-cA 1ymg-a1-m1-cA_1ymg-a1-m3-cA 1ymg-a1-m1-cA_1ymg-a1-m4-cA 1ymg-a1-m2-cA_1ymg-a1-m3-cA 2b6p-a1-m1-cA_2b6p-a1-m3-cA 2b6p-a1-m1-cA_2b6p-a1-m4-cA 2b6p-a1-m2-cA_2b6p-a1-m3-cA 2b6p-a1-m2-cA_2b6p-a1-m4-cA 2c32-a1-m1-cA_2c32-a1-m2-cA 2c32-a1-m1-cA_2c32-a1-m3-cA 2c32-a1-m2-cA_2c32-a1-m4-cA 2c32-a1-m3-cA_2c32-a1-m4-cA 3j41-a1-m1-cA_3j41-a1-m1-cB 3j41-a1-m1-cA_3j41-a1-m1-cD 3j41-a1-m1-cB_3j41-a1-m1-cC 3j41-a1-m1-cC_3j41-a1-m1-cD SASFWRAICAEFFASLFYVFFGLGASLRWAGPLHVLQVALAFGLALATLVQAVGHISGAHVNPAVTFAFLVGSQMSLLRAICYMVAQLLGAVAGAAVLYSVTPPAVRGNLALNTLHPGVSVGQATIVEIFLTLQFVLCIFATYDERRNGRLGSVALAVGFSLTLGHLFGMYYTGAGMNPARSFAPAILTRNFTNHWVYWVGPVIGAGLGSLLYDFLLFPRLKSVSERLSILKG SASFWRAICAEFFASLFYVFFGLGASLRWAGPLHVLQVALAFGLALATLVQAVGHISGAHVNPAVTFAFLVGSQMSLLRAICYMVAQLLGAVAGAAVLYSVTPPAVRGNLALNTLHPGVSVGQATIVEIFLTLQFVLCIFATYDERRNGRLGSVALAVGFSLTLGHLFGMYYTGAGMNPARSFAPAILTRNFTNHWVYWVGPVIGAGLGSLLYDFLLFPRLKSVSERLSILKG 1ymu-a1-m1-cA_1ymu-a1-m1-cB SIGNAL TRANSDUCTION PROTEIN CHEY MUTANT WITH MET 17 REPLACED BY GLY (M17G) P0AE67 P0AE67 2.3 X-RAY DIFFRACTION 60 1.0 562 (Escherichia coli) 562 (Escherichia coli) 125 125 ELKFLVVDDFSTGRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM ELKFLVVDDFSTGRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 1ynb-a2-m1-cC_1ynb-a2-m2-cC crystal structure of genomics APC5600 O28840 O28840 1.76 X-RAY DIFFRACTION 157 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 167 167 1ynb-a1-m1-cA_1ynb-a1-m1-cB 1ynb-a2-m1-cA_1ynb-a2-m1-cB 1ynb-a2-m2-cA_1ynb-a2-m2-cB MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHNFRAAIIAFILALKSGESVEKACKAATAALFHDLHEARTMDLHKIARRYVSCDEEGAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWWR MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHNFRAAIIAFILALKSGESVEKACKAATAALFHDLHEARTMDLHKIARRYVSCDEEGAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWWR 1ynb-a2-m2-cA_1ynb-a2-m2-cC crystal structure of genomics APC5600 O28840 O28840 1.76 X-RAY DIFFRACTION 15 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 167 167 1ynb-a1-m1-cA_1ynb-a1-m1-cC 1ynb-a2-m1-cA_1ynb-a2-m1-cC 1ynb-a2-m1-cA_1ynb-a2-m2-cB 1ynb-a2-m1-cB_1ynb-a2-m2-cA 1ynb-a2-m1-cB_1ynb-a2-m2-cC 1ynb-a2-m1-cC_1ynb-a2-m2-cB MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHNFRAAIIAFILALKSGESVEKACKAATAALFHDLHEARTMDLHKIARRYVSCDEEGAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWWR MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHNFRAAIIAFILALKSGESVEKACKAATAALFHDLHEARTMDLHKIARRYVSCDEEGAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWWR 1ynb-a2-m2-cB_1ynb-a2-m2-cC crystal structure of genomics APC5600 O28840 O28840 1.76 X-RAY DIFFRACTION 68 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 167 167 1ynb-a1-m1-cB_1ynb-a1-m1-cC 1ynb-a2-m1-cA_1ynb-a2-m2-cA 1ynb-a2-m1-cB_1ynb-a2-m1-cC MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHNFRAAIIAFILALKSGESVEKACKAATAALFHDLHEARTMDLHKIARRYVSCDEEGAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWWR MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHNFRAAIIAFILALKSGESVEKACKAATAALFHDLHEARTMDLHKIARRYVSCDEEGAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWWR 1ynh-a2-m1-cC_1ynh-a2-m1-cB Crystal Structure of N-Succinylarginine Dihydrolase, AstB, bound to Substrate and Product, an Enzyme from the Arginine Catabolic Pathway of Escherichia coli P76216 P76216 1.95 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 439 440 1ynf-a1-m1-cA_1ynf-a1-m1-cF 1ynf-a2-m1-cB_1ynf-a2-m1-cD 1ynf-a3-m1-cC_1ynf-a3-m1-cE 1ynh-a1-m1-cA_1ynh-a1-m1-cD 1yni-a1-m1-cA_1yni-a1-m1-cD 1yni-a2-m1-cB_1yni-a2-m1-cC AWEVNFDGLVGLTHHYAGLSFGNEASTRHRFQVSNPRLAAKQGLLKMKALADAGFPQAVIPPHERPFIPVLRQLGFSGSDEQVLEKVARQAPHWLSSVSSASPMWVANAATIAPSADTLDGKVHLTVANLNNKFHRSLEAPVTESLLKAIFNDEEKFSVHSALPQVALLGDEGAANHNRLGGHYGEPGMQLFVYGREEGNDTRPSRYPARQTREASEAVARLNQVNPQQVIFAQQNPDVIDQGVFHNDVIAVSNRQVLFCHQQAFARQSQLLANLRARVNGFMAIEVPATQVSVSDTVSTYLFNSQLLSRDDGSMMLVLPQECREHAGVWGYLNELLAADNPISELKVFDLRESMANGGGPACLRLRVVLTEEERRAVNPAVMMNDTLFNALNDWVDRYYRDRLTAADLADPQLLREGREALDVLSQLLNLGSVYPFQR NAWEVNFDGLVGLTHHYAGLSFGNEASTRHRFQVSNPRLAAKQGLLKMKALADAGFPQAVIPPHERPFIPVLRQLGFSGSDEQVLEKVARQAPHWLSSVSSASPMWVANAATIAPSADTLDGKVHLTVANLNNKFHRSLEAPVTESLLKAIFNDEEKFSVHSALPQVALLGDEGAANHNRLGGHYGEPGMQLFVYGREEGNDTRPSRYPARQTREASEAVARLNQVNPQQVIFAQQNPDVIDQGVFHNDVIAVSNRQVLFCHQQAFARQSQLLANLRARVNGFMAIEVPATQVSVSDTVSTYLFNSQLLSRDDGSMMLVLPQECREHAGVWGYLNELLAADNPISELKVFDLRESMANGGGPACLRLRVVLTEEERRAVNPAVMMNDTLFNALNDWVDRYYRDRLTAADLADPQLLREGREALDVLSQLLNLGSVYPFQR 1ynr-a1-m1-cA_1ynr-a1-m1-cC Crystal structure of the cytochrome c-552 from Hydrogenobacter thermophilus at 2.0 resolution P15452 P15452 2 X-RAY DIFFRACTION 26 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 80 80 NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK 1ynr-a1-m1-cD_1ynr-a1-m1-cA Crystal structure of the cytochrome c-552 from Hydrogenobacter thermophilus at 2.0 resolution P15452 P15452 2 X-RAY DIFFRACTION 18 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 79 80 1ynr-a1-m1-cB_1ynr-a1-m1-cC NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSI NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK 1ynr-a1-m1-cD_1ynr-a1-m1-cC Crystal structure of the cytochrome c-552 from Hydrogenobacter thermophilus at 2.0 resolution P15452 P15452 2 X-RAY DIFFRACTION 27 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 79 80 1ynr-a1-m1-cB_1ynr-a1-m1-cA NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSI NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK 1yo6-a3-m1-cF_1yo6-a3-m1-cE Crystal Structure of the putative Carbonyl Reductase Sniffer of Caenorhabditis elegans P90780 P90780 2.6 X-RAY DIFFRACTION 149 0.996 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 230 235 1yo6-a1-m1-cB_1yo6-a1-m1-cA 1yo6-a2-m1-cD_1yo6-a2-m1-cC SPGSVVVTGANRGIGLGLVQQLVKDKNIRHIIATARDVEKATELKSDSRVHVLPLTVTCDKSLDTFVSKVGEIVGSDSLLINNAGVLLSYGTNTEPNRAVIAEQLDVNTTSVVLLTQKLLPLLKNAASKEDQLSVSRAAVITISSGLGSITDNTSGSAQFPVLAYRMSKAAINMFGRTLAVDLKDDNVLVVNFCPGWVEQSTAELISSFNKLDNSHNGRFFMRNLKPYEF SPGSVVVTGANRGIGLGLVQQLVKDKNIRHIIATARDVEKATELKSIKDSRVHVLPLTVTCDKSLDTFVSKVGEIVGSDGLSLLINNAGVLLSYGTNTEPNRAVIAEQLDVNTTSVVLLTQKLLPLLKNAASKESGDQLSVSRAAVITISSGLGSITDNTSGSAQFPVLAYRMSKAAINMFGRTLAVDLKDDNVLVVNFCPGVEQSTAELISSFNKLDNSHNGRFFMRNLKPYEF 1yoa-a1-m1-cA_1yoa-a1-m2-cA Crystal structure of a probable flavoprotein from Thermus thermophilus HB8 Q5SL73 Q5SL73 1.9 X-RAY DIFFRACTION 204 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 159 159 1wgb-a2-m1-cA_1wgb-a2-m2-cA MNLEAKKKVLRSFTYGLYVLTAKDGDEVAAGTVNWVTQASFQPPLVAVGLKRDSHLHALVERTGKLALMTLAHDQKAIAQDFFKPTVREGDRLNGHPFEPSPTFGLPLLTELPYWLEAEVRHLYPGGDHSLVVAEVVEAGVRREEKPLVMWDTGWFYGG MNLEAKKKVLRSFTYGLYVLTAKDGDEVAAGTVNWVTQASFQPPLVAVGLKRDSHLHALVERTGKLALMTLAHDQKAIAQDFFKPTVREGDRLNGHPFEPSPTFGLPLLTELPYWLEAEVRHLYPGGDHSLVVAEVVEAGVRREEKPLVMWDTGWFYGG 1yoc-a2-m1-cA_1yoc-a2-m2-cB Crystal Structure of genomics APC5556 Q9I2R0 Q9I2R0 1.7 X-RAY DIFFRACTION 10 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 145 147 1yoc-a2-m2-cA_1yoc-a2-m1-cB MSQMMQMYQQVGPAQFSAMIGQFAPYFASIAPQFVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPAGHRWIPRGMTVEYLAKATGDVRAVADGSQIDWQATGNLVVPVVAYVDDKPVFRAEITMYVSQA AFMSQMMQMYQQVGPAQFSAMIGQFAPYFASIAPQFVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPAGHRWIPRGMTVEYLAKATGDVRAVADGSQIDWQATGNLVVPVVAYVDDKPVFRAEITMYVSQA 1yoc-a2-m1-cB_1yoc-a2-m2-cB Crystal Structure of genomics APC5556 Q9I2R0 Q9I2R0 1.7 X-RAY DIFFRACTION 14 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 147 147 AFMSQMMQMYQQVGPAQFSAMIGQFAPYFASIAPQFVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPAGHRWIPRGMTVEYLAKATGDVRAVADGSQIDWQATGNLVVPVVAYVDDKPVFRAEITMYVSQA AFMSQMMQMYQQVGPAQFSAMIGQFAPYFASIAPQFVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPAGHRWIPRGMTVEYLAKATGDVRAVADGSQIDWQATGNLVVPVVAYVDDKPVFRAEITMYVSQA 1yoc-a2-m2-cA_1yoc-a2-m2-cB Crystal Structure of genomics APC5556 Q9I2R0 Q9I2R0 1.7 X-RAY DIFFRACTION 86 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 145 147 1yoc-a1-m1-cA_1yoc-a1-m1-cB 1yoc-a2-m1-cA_1yoc-a2-m1-cB MSQMMQMYQQVGPAQFSAMIGQFAPYFASIAPQFVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPAGHRWIPRGMTVEYLAKATGDVRAVADGSQIDWQATGNLVVPVVAYVDDKPVFRAEITMYVSQA AFMSQMMQMYQQVGPAQFSAMIGQFAPYFASIAPQFVELRPGYAEVTFPKRREVLNHIGTVHAIALCNAAELAAGTMTDASIPAGHRWIPRGMTVEYLAKATGDVRAVADGSQIDWQATGNLVVPVVAYVDDKPVFRAEITMYVSQA 1yod-a1-m2-cB_1yod-a1-m1-cA Crystal structure of a water soluble analog of phospholamban 1.8 X-RAY DIFFRACTION 15 1.0 26 29 1yod-a1-m1-cB_1yod-a1-m2-cA RQNLQNLYINRCLREICQELKEIRAL QQARQNLQNLYINRCLREICQELKEIRAL 1yod-a1-m2-cB_1yod-a1-m2-cA Crystal structure of a water soluble analog of phospholamban 1.8 X-RAY DIFFRACTION 27 1.0 26 29 1yod-a1-m1-cB_1yod-a1-m1-cA RQNLQNLYINRCLREICQELKEIRAL QQARQNLQNLYINRCLREICQELKEIRAL 1yoe-a1-m3-cA_1yoe-a1-m4-cA Crystal structure of a the E. coli pyrimidine nucleoside hydrolase YbeK with bound ribose P41409 P41409 1.78 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 302 302 1yoe-a1-m1-cA_1yoe-a1-m2-cA GSALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIAESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA GSALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIAESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA 1yoe-a4-m3-cA_1yoe-a4-m6-cA Crystal structure of a the E. coli pyrimidine nucleoside hydrolase YbeK with bound ribose P41409 P41409 1.78 X-RAY DIFFRACTION 88 1.0 562 (Escherichia coli) 562 (Escherichia coli) 302 302 1yoe-a4-m1-cA_1yoe-a4-m5-cA 3g5i-a1-m1-cB_3g5i-a1-m1-cD 3g5i-a1-m1-cC_3g5i-a1-m1-cA GSALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIAESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA GSALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIAESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA 1yoe-a4-m5-cA_1yoe-a4-m6-cA Crystal structure of a the E. coli pyrimidine nucleoside hydrolase YbeK with bound ribose P41409 P41409 1.78 X-RAY DIFFRACTION 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 302 302 1yoe-a1-m1-cA_1yoe-a1-m3-cA 1yoe-a1-m2-cA_1yoe-a1-m4-cA 1yoe-a2-m1-cA_1yoe-a2-m3-cA 1yoe-a3-m1-cA_1yoe-a3-m3-cA 1yoe-a4-m1-cA_1yoe-a4-m3-cA 3g5i-a1-m1-cB_3g5i-a1-m1-cA 3g5i-a1-m1-cC_3g5i-a1-m1-cD GSALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIAESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA GSALPILLDCDPGHDDAIAIVLALASPELDVKAITSSAGNQTPEKTLRNVLRMLTLLNRTDIPVAGGAVKPLMRELIIAESGLDGPALPEPTFAPQNCTAVELMAKTLRESAEPVTIVSTGPQTNVALLLNSHPELHSKIARIVIMGGAMGLGNWTPAAEFNIYVDPEAAEIVFQSGIPVVMAGLDVTHKAQIHVEDTERFRAIGNPVSTIVAELLDFFLEKWGFVGAPLHDPCTIAWLLKPELFTSVERWVGVETQGKYTQGMTVVDYYYLTGNKPNATVMVDVDRQGFVDLLADRLKFYA 1yok-a1-m1-cB_1yok-a1-m1-cC crystal structure of human LRH-1 bound with TIF-2 peptide and phosphatidylglycerol Q15596 Q15596 2.5 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 14 NALLRYLLDKD KENALLRYLLDKDD 1yox-a2-m1-cE_1yox-a2-m1-cD Structure of the conserved Protein of Unknown Function PA3696 from Pseudomonas aeruginosa Q9HXU4 Q9HXU4 2.3 X-RAY DIFFRACTION 96 0.98 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 198 204 SHELDYRILGESQTVEIELDPGETVIAEAGANYTGDIRFTARGSVFTHFTNEGQGKQHVAFAAPYPGSVVAVDLDDVGGRLFCQKDSFLCAAYGTRVGIAFTKRLGAGFFGGEGFILQKLEGDGLVFVHAGGTLIRRQLNGETLRVDTGCLVAFTDGIDYDVQLAEGLLLTTLKGSGTVWLQSLPFSRLAGRIYDATF ASHELDYRILGESQTVEIELDPGETVIAEAGANYTGDIRFTARTHFTNEGQGKQHVAFAAPYPGSVVAVDLDDVGGRLFCQKDSFLCAAYGTRVGIAFTKRLGAGFFGGEGFILQKLEGDGLVFVHAGGTLIRRQLNGETLRVDTGCLVAFTDGIDYDVQLAGGLKSLFGGEGLLLTTLKGSGTVWLQSLPFSRLAGRIYDATF 1yoy-a2-m1-cA_1yoy-a2-m6-cA Predicted coding region AF1432 from Archaeoglobus Fulgidus O28840 O28840 2 X-RAY DIFFRACTION 21 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 146 146 1yoy-a2-m2-cA_1yoy-a2-m4-cA 1yoy-a2-m3-cA_1yoy-a2-m5-cA MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHSFRAAIIAFILALKSGESVEKACKAATAALFHDLHEAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWW MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHSFRAAIIAFILALKSGESVEKACKAATAALFHDLHEAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWW 1yoy-a2-m3-cA_1yoy-a2-m6-cA Predicted coding region AF1432 from Archaeoglobus Fulgidus O28840 O28840 2 X-RAY DIFFRACTION 156 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 146 146 1yoy-a1-m1-cA_1yoy-a1-m2-cA 1yoy-a2-m1-cA_1yoy-a2-m2-cA 1yoy-a2-m4-cA_1yoy-a2-m5-cA MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHSFRAAIIAFILALKSGESVEKACKAATAALFHDLHEAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWW MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHSFRAAIIAFILALKSGESVEKACKAATAALFHDLHEAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWW 1yoy-a2-m5-cA_1yoy-a2-m6-cA Predicted coding region AF1432 from Archaeoglobus Fulgidus O28840 O28840 2 X-RAY DIFFRACTION 14 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 146 146 1yoy-a2-m1-cA_1yoy-a2-m3-cA 1yoy-a2-m1-cA_1yoy-a2-m4-cA 1yoy-a2-m2-cA_1yoy-a2-m5-cA 1yoy-a2-m2-cA_1yoy-a2-m6-cA 1yoy-a2-m3-cA_1yoy-a2-m4-cA MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHSFRAAIIAFILALKSGESVEKACKAATAALFHDLHEAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWW MDDVVKFIHEVGSLKLTPRSGWLKLGIRLPESVAEHSFRAAIIAFILALKSGESVEKACKAATAALFHDLHEAREEQLSWMESKPDFSDVEVYVSDADKLELAFQGVEYSQQVSYAIRFAENVELKTDAAKEIYRVLMERKNPVWW 1yoz-a1-m1-cA_1yoz-a1-m1-cB Predicted coding region AF0941 from Archaeoglobus fulgidus O29321 O29321 2 X-RAY DIFFRACTION 29 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 113 116 GHMLYINSFLDRMGEIIRGEKSVEEADKLLDQKNIFEMFRSDCEEILNLYKSGKAEKEEVQRNFYLLKTYVVSQLSIHFERLKEFAESKGEKKLDPEVINEIALYIDRVEKEV GHMLYINSFLDRMGEIIRGEKSVEEADKLLDQKNIFEMFRSDCEEILNLYKSGKAEKEEVQRNFYLLKTYVVSQLSIHFERLKEFAESKGFKIEKKLDPEVINEIALYIDRVEKEV 1yp3-a1-m1-cA_1yp3-a1-m1-cC Crystal structure of potato tuber ADP-glucose pyrophosphorylase in complex with ATP P23509 P23509 2.6 X-RAY DIFFRACTION 10 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 433 435 QTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYEGFVEVLAAQQSPENPDWFQGTADAVRQYLWLFEEHTVLEYLILAGDHLYRMDYEKFIQAHRETDADITVAALPMDEKRATAFGLMKIDEEGRIIEFAEKPQGEQLQAMKVDTTILGLDDKRAKEMPFIASMGIYVISKDVMLNLLRDKFPGANDFGSEVIPGATSLGMRVQAYLYDGYWEDIGTIEAFYNANLGITKKPVPDFSFYDRSAPIYTQPRYLPPSKMLDADVTDSVIGEGCVIKNCKIHHSVVGLRSCISEGAIIEDSLLMGADYYETDADRKLLAAKGSVPIGIGKNCHIKRAIIDKNARIGDNVKIINKDNVQEAARETDGYFIKSGIVTVIKDALIPSGIII QTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASEGFVEVLAAQQSPENPDWFQGTADAVRQYLWLFEEHTVLEYLILAGDHLYRMDYEKFIQAHRETDADITVAALPMDEKRATAFGLMKIDEEGRIIEFAEKPQGEQLQAMKVDTTILGLDDKRAKEMPFIASMGIYVISKDVMLNLLRDKFPGANDFGSEVIPGATSLGMRVQAYLYDGYWEDIGTIEAFYNANLGITKKPVPDFSFYDRSAPIYTQPRYLPPSKMLDADVTDSVIGEGCVIKNCKIHHSVVGLRSCISEGAIIEDSLLMGADYYETDADRKLLAAKGSVPIGIGKNCHIKRAIIDKNARIGDNVKIINKDNVQEAARETDGYFIKSGIVTVIKDALIPSGIII 1yp3-a1-m1-cB_1yp3-a1-m1-cC Crystal structure of potato tuber ADP-glucose pyrophosphorylase in complex with ATP P23509 P23509 2.6 X-RAY DIFFRACTION 44 0.995 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 432 435 1yp2-a1-m1-cB_1yp2-a1-m1-cC 1yp2-a1-m1-cD_1yp2-a1-m1-cA 1yp3-a1-m1-cD_1yp3-a1-m1-cA 1yp4-a1-m1-cB_1yp4-a1-m1-cC 1yp4-a1-m1-cD_1yp4-a1-m1-cA TCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASNNEGFVEVLAAQQSPENQGTADAVRQYLWLFEEHTVLEYLILAGDHLYRMDYEKFIQAHRETDADITVAALPMDEKRATAFGLMKIDEEGRIIEFAEKPQGEQLQAMKVDTTILGLDDKRAKEMPFIASMGIYVISKDVMLNLLRDKFPGANDFGSEVIPGATSLGMRVQAYLYDGYWEDIGTIEAFYNANLGITKKPVPDFSFYDRSAPIYTQPRYLPPSKMLDADVTDSVIGEGCVIKNCKIHHSVVGLRSCISEGAIIEDSLLMGADYYETDADRKLLAAKGSVPIGIGKNCHIKRAIIDKNARIGDNVKIINKDNVQEAARETDGYFIKSGIVTVIKDALIPSGIII QTCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASEGFVEVLAAQQSPENPDWFQGTADAVRQYLWLFEEHTVLEYLILAGDHLYRMDYEKFIQAHRETDADITVAALPMDEKRATAFGLMKIDEEGRIIEFAEKPQGEQLQAMKVDTTILGLDDKRAKEMPFIASMGIYVISKDVMLNLLRDKFPGANDFGSEVIPGATSLGMRVQAYLYDGYWEDIGTIEAFYNANLGITKKPVPDFSFYDRSAPIYTQPRYLPPSKMLDADVTDSVIGEGCVIKNCKIHHSVVGLRSCISEGAIIEDSLLMGADYYETDADRKLLAAKGSVPIGIGKNCHIKRAIIDKNARIGDNVKIINKDNVQEAARETDGYFIKSGIVTVIKDALIPSGIII 1yp4-a1-m1-cD_1yp4-a1-m1-cC Crystal structure of potato tuber ADP-glucose pyrophosphorylase in complex with ADP-glucose P23509 P23509 2.3 X-RAY DIFFRACTION 98 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 426 434 1yp2-a1-m1-cB_1yp2-a1-m1-cA 1yp2-a1-m1-cD_1yp2-a1-m1-cC 1yp3-a1-m1-cB_1yp3-a1-m1-cA 1yp3-a1-m1-cD_1yp3-a1-m1-cC 1yp4-a1-m1-cA_1yp4-a1-m1-cB CLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYEGFVEVLAAQQSPEQGTADAVRQYLWLFEEHTVLEYLILAGDHLYRMDYEKFIQAHRETDADITVAALPMDEKRATAFGLMKIDEEGRIIEFAEKPQGEQLQAMKVDTTILGLDDKRAKEMPFIASMGIYVISKDVMLNLLRDKFPGANDFGSEVIPGATSLGMRVQAYLYDGYWEDIGTIEAFYNANLGITKKPVPDFSFYDRSAPIYTQPRYLPPSKMLDADVTDSVIGEGCVIKNCKIHHSVVGLRSCISEGAIIEDSLLMGADYYETDADRKLLAAKGSVPIGIGKNCHIKRAIIDKNARIGDNVKIINKDNVQEAARETDGYFIKSGIVTVIKDALIPSGIII TCLDPDASRSVLGIILGGGAGTRLYPLTKKRAKPAVPLGANYRLIDIPVSNCLNSNISKIYVLTQFNSASLNRHLSRAYASEGFVEVLAAQQSPENPDWFQGTADAVRQYLWLFEEHTVLEYLILAGDHLYRMDYEKFIQAHRETDADITVAALPMDEKRATAFGLMKIDEEGRIIEFAEKPQGEQLQAMKVDTTILGLDDKRAKEMPFIASMGIYVISKDVMLNLLRDKFPGANDFGSEVIPGATSLGMRVQAYLYDGYWEDIGTIEAFYNANLGITKKPVPDFSFYDRSAPIYTQPRYLPPSKMLDADVTDSVIGEGCVIKNCKIHHSVVGLRSCISEGAIIEDSLLMGADYYETDADRKLLAAKGSVPIGIGKNCHIKRAIIDKNARIGDNVKIINKDNVQEAARETDGYFIKSGIVTVIKDALIPSGIII 1ypf-a3-m5-cB_1ypf-a3-m7-cB Crystal Structure of GuaC (BA5705) from Bacillus anthracis at 1.8 A Resolution Q81JJ9 Q81JJ9 1.8 X-RAY DIFFRACTION 93 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 295 295 1ypf-a1-m1-cA_1ypf-a1-m3-cA 1ypf-a1-m1-cA_1ypf-a1-m4-cA 1ypf-a1-m2-cA_1ypf-a1-m3-cA 1ypf-a1-m2-cA_1ypf-a1-m4-cA 1ypf-a3-m1-cB_1ypf-a3-m6-cB 1ypf-a3-m1-cB_1ypf-a3-m7-cB 1ypf-a3-m5-cB_1ypf-a3-m6-cB 2a1y-a1-m1-cA_2a1y-a1-m3-cA 2a1y-a1-m1-cA_2a1y-a1-m4-cA 2a1y-a1-m2-cA_2a1y-a1-m3-cA 2a1y-a1-m2-cA_2a1y-a1-m4-cA GNVFDYEDIQLIPAKCIVNSRSECDTTVTLGKHKFKLPVVPANMQTIIDERIATYLAENNYFYIMHRFQPEKRISFIRDMQSRGLIASISVGVKEDEYEFVQQLAAEHLTPEYITIDIAHGHSNAVINMIQHIKKHLPESFVIAGNVGTPEAVRELENAGADATKVGIGPGKVCITKIKTGFGTGGWQLAALRWCAKAASKPIIADGGIRTNGDVAKSIRFGATMVMIGSLFAGHEESPGETIEKEGKKMFVEHKGSLEDTLIEMEQDLQSSISYAGGTKLDSIRTVDYVVVKNS GNVFDYEDIQLIPAKCIVNSRSECDTTVTLGKHKFKLPVVPANMQTIIDERIATYLAENNYFYIMHRFQPEKRISFIRDMQSRGLIASISVGVKEDEYEFVQQLAAEHLTPEYITIDIAHGHSNAVINMIQHIKKHLPESFVIAGNVGTPEAVRELENAGADATKVGIGPGKVCITKIKTGFGTGGWQLAALRWCAKAASKPIIADGGIRTNGDVAKSIRFGATMVMIGSLFAGHEESPGETIEKEGKKMFVEHKGSLEDTLIEMEQDLQSSISYAGGTKLDSIRTVDYVVVKNS 1ypt-a1-m1-cA_1ypt-a1-m1-cB CRYSTAL STRUCTURE OF YERSINIA PROTEIN TYROSINE PHOSPHATASE AT 2.5 ANGSTROMS AND THE COMPLEX WITH TUNGSTATE P15273 P15273 2.5 X-RAY DIFFRACTION 45 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 278 280 PEARAELSSRLTTLRNTLAPATNDPRYLQACGGEKLNRFRDIQCRRQTAVRADLNANYIQVGNTRTIACQYPLQSQLESHFRMLAENRTPVLAVLASSSEIANQRFGMPDYFRQSGTYGSITVESKMTQQVGLGDGIMADMYTLTIREAGQKTISVPVVHVGNWPDQTAVSSEVTKALASLVDQTAETKRNMYESKGSSAVADDSKLRPVIHCRAGVGRTAQLIGAMCMNDSRNSQLSVEDMVSQMRVQRNGIMVQKDEQLDVLIKLAEGQGRPLLNS YGPEARAELSSRLTTLRNTLAPATNDPRYLQACGGEKLNRFRDIQCRRQTAVRADLNANYIQVGNTRTIACQYPLQSQLESHFRMLAENRTPVLAVLASSSEIANQRFGMPDYFRQSGTYGSITVESKMTQQVGLGDGIMADMYTLTIREAGQKTISVPVVHVGNWPDQTAVSSEVTKALASLVDQTAETKRNMYESKGSSAVADDSKLRPVIHCRAGVGRTAQLIGAMCMNDSRNSQLSVEDMVSQMRVQRNGIMVQKDEQLDVLIKLAEGQGRPLLNS 1ypz-a1-m1-cE_1ypz-a1-m1-cG Immune receptor 3.4 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 207 GDQVEQSPSALSLHEGTDSALRCNFTTTMRSVQWFRQNSRGSLISLFYLASGTKENGRLKSAFDSKERRYSTLHIRDAQLEDSGTYFCAADTWHISEGYELGTDKLVFGQGTQVTVEPKSQPPAKPSVFIMKNGTNVACLVKDFYPKEVTISLRSSKKIVEFDPAIVISPSGKYSAVKLGQYGDSNSVTCSVQHNSETVHSTDFEAA GDQVEQSPSALSLHEGTDSALRCNFTTTMRSVQWFRQNSRGSLISLFYLASGTKENGRLKSAFDSKERRYSTLHIRDAQLEDSGTYFCAADTWHISEGYELGTDKLVFGQGTQVTVEPKSQPPAKPSVFIMKNGTNVACLVKDFYPKEVTISLRSSKKIVEFDPAIVISPSGKYSAVKLGQYGDSNSVTCSVQHNSETVHSTDFEAA 1yq1-a2-m1-cA_1yq1-a2-m2-cB Structural Genomics Of Caenorhabditis Elegans: glutathione S-Transferase Q93698 Q93698 3 X-RAY DIFFRACTION 13 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 198 198 1yq1-a2-m1-cB_1yq1-a2-m2-cA PSYKLTYFFFRGLGEPIRLLFHLAGVQFEEVRNPDQTWLDIKDSTPKQLPVLNIDGFELPQSGAILRYLARKFGFAGKTPEEEAWVDAVHDLFKDFLAEFKKFAAERRSGEVEKFRSEFFLPARNTYFNILNGLLEKSNSGFLIGSDITFADLVVVDNLLTLKNYGLFDESEFTKLAALREKVNSYPGIKEYIAKRPV PSYKLTYFFFRGLGEPIRLLFHLAGVQFEEVRNPDQTWLDIKDSTPKQLPVLNIDGFELPQSGAILRYLARKFGFAGKTPEEEAWVDAVHDLFKDFLAEFKKFAAERRSGEVEKFRSEFFLPARNTYFNILNGLLEKSNSGFLIGSDITFADLVVVDNLLTLKNYGLFDESEFTKLAALREKVNSYPGIKEYIAKRPV 1yq1-a2-m2-cA_1yq1-a2-m2-cB Structural Genomics Of Caenorhabditis Elegans: glutathione S-Transferase Q93698 Q93698 3 X-RAY DIFFRACTION 68 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 198 198 1yq1-a1-m1-cA_1yq1-a1-m1-cB 1yq1-a2-m1-cA_1yq1-a2-m1-cB PSYKLTYFFFRGLGEPIRLLFHLAGVQFEEVRNPDQTWLDIKDSTPKQLPVLNIDGFELPQSGAILRYLARKFGFAGKTPEEEAWVDAVHDLFKDFLAEFKKFAAERRSGEVEKFRSEFFLPARNTYFNILNGLLEKSNSGFLIGSDITFADLVVVDNLLTLKNYGLFDESEFTKLAALREKVNSYPGIKEYIAKRPV PSYKLTYFFFRGLGEPIRLLFHLAGVQFEEVRNPDQTWLDIKDSTPKQLPVLNIDGFELPQSGAILRYLARKFGFAGKTPEEEAWVDAVHDLFKDFLAEFKKFAAERRSGEVEKFRSEFFLPARNTYFNILNGLLEKSNSGFLIGSDITFADLVVVDNLLTLKNYGLFDESEFTKLAALREKVNSYPGIKEYIAKRPV 1yq2-a1-m1-cA_1yq2-a1-m1-cF beta-galactosidase from Arthrobacter sp. C2-2 (isoenzyme C2-2-1) Q8KRF6 Q8KRF6 1.9 X-RAY DIFFRACTION 117 1.0 192168 (Arthrobacter sp. C2-2) 192168 (Arthrobacter sp. C2-2) 1020 1020 1yq2-a1-m1-cB_1yq2-a1-m1-cE 1yq2-a1-m1-cC_1yq2-a1-m1-cD ADVSYLTDQGPGSGRRVPARSWLHSDAPALSLNGDWRFRLLPAAPGTAGAGSVLPSGETVEGVAAESYDDAAWDTLPVPSHWVMGQDGKYGRPIYTNVQYPFPIDPPHVPDANPTGDFRRRFDVPAQWFESTTAALTLRFDGVESRYKVWVNGQEIGVGSGSRLAQEFDVSDALRAGSNLLVVRVHQWSAASYLEDQDQWWLPGIFRDVTLQARPAGGITDAWLRTGWSARSGAGTGTIDPEITADATAFPVTLSVPELGVNVTWKSAEEVAPLALENVEPWSAEVPRLYEASVSSAAESISVRLGFRTVRIVGDQFLVNGRRVVFHGVNRHETHPDRGRVFDEAGAREDLALMKRFNVNAIRTSHYPPHPRLLDLADEMGFWVILECDLETHGFEAGGWVENPSDVPAWRDALVDRMERTVERDKNHPSIVMWSLGNESGTGSNLAAMAAWAHARDSSRPVHYEGDYTGAYTDVYSRMYSSIPETDSIGRNDSHALLLGCDSAESARQRTKPFILCEYVHAMGNGPGAMDQYEALVDKYPRLHGGFVWEWRDHGIRTRTAEGMEFFAYGGDFGEVVHDSNFVMDGMVLSDSTPTPGLYEFKQIVSPIRLGLSLPAGGKPTLAVANLRHTADASDVVLRWRVEHDGAVAASGEVAAEGSDGPLRAGESATIALPAMPAAPLGETWLTVEAVLRDATGWAPAGHPLGAVQLDLSAPAVPTRSPRPATPLDGALPVSLGPATFDAGTLVSLAGQPVSGPRLELWRAPTDNDRGAGFGAYGPGDPWLNSGRGVPAPSSEAVWKQAGLDRLTRRVEDVAALPDGIRVRTRYAAADSTHSVAVEENWQLDGGELCLRIDITPSAGWNLVWPRIGVRWDLPTDVDGAAWFGAGPRESYPDSMHATMVARHAASLEELNVPYARPQETGHRSDVRWLELDRAGAPWLRIDAEPDAAGRRPGFSLARHTAQEIAAAGHPHELPTPSHSYLYVDAAQHGLGSRACGPDVWPDFALRPEARTLKLRISPA ADVSYLTDQGPGSGRRVPARSWLHSDAPALSLNGDWRFRLLPAAPGTAGAGSVLPSGETVEGVAAESYDDAAWDTLPVPSHWVMGQDGKYGRPIYTNVQYPFPIDPPHVPDANPTGDFRRRFDVPAQWFESTTAALTLRFDGVESRYKVWVNGQEIGVGSGSRLAQEFDVSDALRAGSNLLVVRVHQWSAASYLEDQDQWWLPGIFRDVTLQARPAGGITDAWLRTGWSARSGAGTGTIDPEITADATAFPVTLSVPELGVNVTWKSAEEVAPLALENVEPWSAEVPRLYEASVSSAAESISVRLGFRTVRIVGDQFLVNGRRVVFHGVNRHETHPDRGRVFDEAGAREDLALMKRFNVNAIRTSHYPPHPRLLDLADEMGFWVILECDLETHGFEAGGWVENPSDVPAWRDALVDRMERTVERDKNHPSIVMWSLGNESGTGSNLAAMAAWAHARDSSRPVHYEGDYTGAYTDVYSRMYSSIPETDSIGRNDSHALLLGCDSAESARQRTKPFILCEYVHAMGNGPGAMDQYEALVDKYPRLHGGFVWEWRDHGIRTRTAEGMEFFAYGGDFGEVVHDSNFVMDGMVLSDSTPTPGLYEFKQIVSPIRLGLSLPAGGKPTLAVANLRHTADASDVVLRWRVEHDGAVAASGEVAAEGSDGPLRAGESATIALPAMPAAPLGETWLTVEAVLRDATGWAPAGHPLGAVQLDLSAPAVPTRSPRPATPLDGALPVSLGPATFDAGTLVSLAGQPVSGPRLELWRAPTDNDRGAGFGAYGPGDPWLNSGRGVPAPSSEAVWKQAGLDRLTRRVEDVAALPDGIRVRTRYAAADSTHSVAVEENWQLDGGELCLRIDITPSAGWNLVWPRIGVRWDLPTDVDGAAWFGAGPRESYPDSMHATMVARHAASLEELNVPYARPQETGHRSDVRWLELDRAGAPWLRIDAEPDAAGRRPGFSLARHTAQEIAAAGHPHELPTPSHSYLYVDAAQHGLGSRACGPDVWPDFALRPEARTLKLRISPA 1yq2-a1-m1-cE_1yq2-a1-m1-cF beta-galactosidase from Arthrobacter sp. C2-2 (isoenzyme C2-2-1) Q8KRF6 Q8KRF6 1.9 X-RAY DIFFRACTION 99 1.0 192168 (Arthrobacter sp. C2-2) 192168 (Arthrobacter sp. C2-2) 1020 1020 1yq2-a1-m1-cA_1yq2-a1-m1-cB 1yq2-a1-m1-cA_1yq2-a1-m1-cC 1yq2-a1-m1-cB_1yq2-a1-m1-cC 1yq2-a1-m1-cD_1yq2-a1-m1-cE 1yq2-a1-m1-cD_1yq2-a1-m1-cF ADVSYLTDQGPGSGRRVPARSWLHSDAPALSLNGDWRFRLLPAAPGTAGAGSVLPSGETVEGVAAESYDDAAWDTLPVPSHWVMGQDGKYGRPIYTNVQYPFPIDPPHVPDANPTGDFRRRFDVPAQWFESTTAALTLRFDGVESRYKVWVNGQEIGVGSGSRLAQEFDVSDALRAGSNLLVVRVHQWSAASYLEDQDQWWLPGIFRDVTLQARPAGGITDAWLRTGWSARSGAGTGTIDPEITADATAFPVTLSVPELGVNVTWKSAEEVAPLALENVEPWSAEVPRLYEASVSSAAESISVRLGFRTVRIVGDQFLVNGRRVVFHGVNRHETHPDRGRVFDEAGAREDLALMKRFNVNAIRTSHYPPHPRLLDLADEMGFWVILECDLETHGFEAGGWVENPSDVPAWRDALVDRMERTVERDKNHPSIVMWSLGNESGTGSNLAAMAAWAHARDSSRPVHYEGDYTGAYTDVYSRMYSSIPETDSIGRNDSHALLLGCDSAESARQRTKPFILCEYVHAMGNGPGAMDQYEALVDKYPRLHGGFVWEWRDHGIRTRTAEGMEFFAYGGDFGEVVHDSNFVMDGMVLSDSTPTPGLYEFKQIVSPIRLGLSLPAGGKPTLAVANLRHTADASDVVLRWRVEHDGAVAASGEVAAEGSDGPLRAGESATIALPAMPAAPLGETWLTVEAVLRDATGWAPAGHPLGAVQLDLSAPAVPTRSPRPATPLDGALPVSLGPATFDAGTLVSLAGQPVSGPRLELWRAPTDNDRGAGFGAYGPGDPWLNSGRGVPAPSSEAVWKQAGLDRLTRRVEDVAALPDGIRVRTRYAAADSTHSVAVEENWQLDGGELCLRIDITPSAGWNLVWPRIGVRWDLPTDVDGAAWFGAGPRESYPDSMHATMVARHAASLEELNVPYARPQETGHRSDVRWLELDRAGAPWLRIDAEPDAAGRRPGFSLARHTAQEIAAAGHPHELPTPSHSYLYVDAAQHGLGSRACGPDVWPDFALRPEARTLKLRISPA ADVSYLTDQGPGSGRRVPARSWLHSDAPALSLNGDWRFRLLPAAPGTAGAGSVLPSGETVEGVAAESYDDAAWDTLPVPSHWVMGQDGKYGRPIYTNVQYPFPIDPPHVPDANPTGDFRRRFDVPAQWFESTTAALTLRFDGVESRYKVWVNGQEIGVGSGSRLAQEFDVSDALRAGSNLLVVRVHQWSAASYLEDQDQWWLPGIFRDVTLQARPAGGITDAWLRTGWSARSGAGTGTIDPEITADATAFPVTLSVPELGVNVTWKSAEEVAPLALENVEPWSAEVPRLYEASVSSAAESISVRLGFRTVRIVGDQFLVNGRRVVFHGVNRHETHPDRGRVFDEAGAREDLALMKRFNVNAIRTSHYPPHPRLLDLADEMGFWVILECDLETHGFEAGGWVENPSDVPAWRDALVDRMERTVERDKNHPSIVMWSLGNESGTGSNLAAMAAWAHARDSSRPVHYEGDYTGAYTDVYSRMYSSIPETDSIGRNDSHALLLGCDSAESARQRTKPFILCEYVHAMGNGPGAMDQYEALVDKYPRLHGGFVWEWRDHGIRTRTAEGMEFFAYGGDFGEVVHDSNFVMDGMVLSDSTPTPGLYEFKQIVSPIRLGLSLPAGGKPTLAVANLRHTADASDVVLRWRVEHDGAVAASGEVAAEGSDGPLRAGESATIALPAMPAAPLGETWLTVEAVLRDATGWAPAGHPLGAVQLDLSAPAVPTRSPRPATPLDGALPVSLGPATFDAGTLVSLAGQPVSGPRLELWRAPTDNDRGAGFGAYGPGDPWLNSGRGVPAPSSEAVWKQAGLDRLTRRVEDVAALPDGIRVRTRYAAADSTHSVAVEENWQLDGGELCLRIDITPSAGWNLVWPRIGVRWDLPTDVDGAAWFGAGPRESYPDSMHATMVARHAASLEELNVPYARPQETGHRSDVRWLELDRAGAPWLRIDAEPDAAGRRPGFSLARHTAQEIAAAGHPHELPTPSHSYLYVDAAQHGLGSRACGPDVWPDFALRPEARTLKLRISPA 1yq5-a2-m4-cB_1yq5-a2-m5-cB PRD1 vertex protein P5 P22536 P22536 2 X-RAY DIFFRACTION 92 1.0 10658 (Enterobacteria phage PRD1) 10658 (Enterobacteria phage PRD1) 142 142 1yq5-a1-m1-cA_1yq5-a1-m2-cA 1yq5-a1-m1-cA_1yq5-a1-m3-cA 1yq5-a1-m2-cA_1yq5-a1-m3-cA 1yq5-a2-m1-cB_1yq5-a2-m4-cB 1yq5-a2-m1-cB_1yq5-a2-m5-cB 1yq6-a1-m1-cA_1yq6-a1-m1-cB 1yq6-a1-m1-cA_1yq6-a1-m1-cC 1yq6-a1-m1-cB_1yq6-a1-m1-cC 1yq8-a1-m1-cA_1yq8-a1-m2-cA 1yq8-a1-m1-cA_1yq8-a1-m3-cA 1yq8-a1-m2-cA_1yq8-a1-m3-cA GGVTDALSLYSTSTGGPASIAANALTDFDLSGALTVNSVGTGLTKSAAGIQLAAGKSGLYQITTVKNNTVTTGNYLLRVKYGSSDFVVACPASSLTAGGTISLLIYCNVLGVVSLDVLKFSLCNDGAALSNYIINITAAKIN GGVTDALSLYSTSTGGPASIAANALTDFDLSGALTVNSVGTGLTKSAAGIQLAAGKSGLYQITTVKNNTVTTGNYLLRVKYGSSDFVVACPASSLTAGGTISLLIYCNVLGVVSLDVLKFSLCNDGAALSNYIINITAAKIN 1yqc-a1-m1-cA_1yqc-a1-m1-cB Crystal Structure of Ureidoglycolate Hydrolase (AllA) from Escherichia coli O157:H7 P63486 P63486 1.709 X-RAY DIFFRACTION 130 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 158 158 1xsq-a1-m1-cA_1xsq-a1-m1-cB 1xsr-a1-m1-cA_1xsr-a1-m1-cB KLQVLPLSQEAFSAYGDVIETQQRDFFHINNGLVERYHDLALVEILEQDRTLISINRAQPANLPLTIHELERHPLGTQAFIPKGEVFVVVVALGDDKPDLSTLRAFITNGEQGVNYHRNVWHHPLFAWQRVTDFLTIDRGGSDNCDVESIPEQELCFA KLQVLPLSQEAFSAYGDVIETQQRDFFHINNGLVERYHDLALVEILEQDRTLISINRAQPANLPLTIHELERHPLGTQAFIPKGEVFVVVVALGDDKPDLSTLRAFITNGEQGVNYHRNVWHHPLFAWQRVTDFLTIDRGGSDNCDVESIPEQELCFA 1yqd-a1-m1-cA_1yqd-a1-m1-cB Sinapyl Alcohol Dehydrogenase complexed with NADP+ Q94G59 Q94G59 1.65 X-RAY DIFFRACTION 103 1.0 3693 (Populus tremuloides) 3693 (Populus tremuloides) 359 359 1yqx-a1-m1-cA_1yqx-a1-m1-cB SPEEEHPVKAFGWAARDQSGHLSPFNFSRRATGEEDVRFKVLYCGVCHSDLHSIKNDWGFSMYPLVPGHEIVGEVTEVGSKVKKVNVGDKVGVGCLVGACHSCESCANDLENYCPKMILTYASIYHDGTITYGGYSNHMVANERYIIRFPDNMPLDGGAPLLCAGITVYSPLKYFGLDEPGKHIGIVGLGGLGHVAVKFAKAFGSKVTVISTSPSKKEEALKNFGADSFLVSRDQEQMQAAAGTLDGIIDTVSAVHPLLPLFGLLKSHGKLILVGAPEKPLELPAFSLIAGRKIVAGSGIGGMKETQEMIDFAAKHNITADIEVISTDYLNTAMERLAKNDVRYRFVIDVGNTLAATKP SPEEEHPVKAFGWAARDQSGHLSPFNFSRRATGEEDVRFKVLYCGVCHSDLHSIKNDWGFSMYPLVPGHEIVGEVTEVGSKVKKVNVGDKVGVGCLVGACHSCESCANDLENYCPKMILTYASIYHDGTITYGGYSNHMVANERYIIRFPDNMPLDGGAPLLCAGITVYSPLKYFGLDEPGKHIGIVGLGGLGHVAVKFAKAFGSKVTVISTSPSKKEEALKNFGADSFLVSRDQEQMQAAAGTLDGIIDTVSAVHPLLPLFGLLKSHGKLILVGAPEKPLELPAFSLIAGRKIVAGSGIGGMKETQEMIDFAAKHNITADIEVISTDYLNTAMERLAKNDVRYRFVIDVGNTLAATKP 1yqf-a2-m1-cD_1yqf-a2-m1-cF Hypothetical protein from leishmania major unknown function sequence homologue to human p32 protein Q4Q7K6 Q4Q7K6 2.3 X-RAY DIFFRACTION 85 1.0 5664 (Leishmania major) 5664 (Leishmania major) 182 182 1yqf-a1-m1-cB_1yqf-a1-m1-cA 1yqf-a1-m1-cB_1yqf-a1-m1-cC 1yqf-a1-m1-cC_1yqf-a1-m1-cA 1yqf-a2-m1-cE_1yqf-a2-m1-cD 1yqf-a2-m1-cE_1yqf-a2-m1-cF ASDAALADATRRELEEEMGRSDKPEQPTPPAGWQVVRKPGTCTFDLTKSFEGEDLVVRYSTNQDSDKANSHNIFVYITQKNGQTMQADLSIEEGELVLNNIRFYDEAALAKDTGAEAEAKRNELYTGPLVHELDYDLLNCVMTYLEKRGVDEKLGEFVVLYSFWAEQQDYEAWLTTMNKFAS ASDAALADATRRELEEEMGRSDKPEQPTPPAGWQVVRKPGTCTFDLTKSFEGEDLVVRYSTNQDSDKANSHNIFVYITQKNGQTMQADLSIEEGELVLNNIRFYDEAALAKDTGAEAEAKRNELYTGPLVHELDYDLLNCVMTYLEKRGVDEKLGEFVVLYSFWAEQQDYEAWLTTMNKFAS 1yqg-a1-m1-cA_1yqg-a1-m2-cA Crystal structure of a pyrroline-5-carboxylate reductase from neisseria meningitides mc58 Q9K1N1 Q9K1N1 1.9 X-RAY DIFFRACTION 368 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 254 254 2ag8-a1-m1-cA_2ag8-a1-m2-cA NVYFLGGGNAAAVAGGLVKQGGYRIYIANRGAEKRERLEKELGVETSATLPELHSDDVLILAVKPQDEAACKNIRTNGALVLSVAAGLSVGTLSRYLGGTRRIVRVPNTPGKIGLGVSGYAEAEVSETDRRIADRIKSVGLTVWLDDEEKHGITGISGSGPAYVFYLLDALQNAAIRQGFDAEARALSLATFKGAVALAEQTGEDFEKLQKNVTSKGGTTHEAVEAFRRHRVAEAISEGVCACVRRSQEERQYQ NVYFLGGGNAAAVAGGLVKQGGYRIYIANRGAEKRERLEKELGVETSATLPELHSDDVLILAVKPQDEAACKNIRTNGALVLSVAAGLSVGTLSRYLGGTRRIVRVPNTPGKIGLGVSGYAEAEVSETDRRIADRIKSVGLTVWLDDEEKHGITGISGSGPAYVFYLLDALQNAAIRQGFDAEARALSLATFKGAVALAEQTGEDFEKLQKNVTSKGGTTHEAVEAFRRHRVAEAISEGVCACVRRSQEERQYQ 1yqh-a1-m1-cB_1yqh-a1-m2-cB Structure of domain of unknown function DUF77 from Bacillus cereus Q81IG4 Q81IG4 1.7 X-RAY DIFFRACTION 63 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 98 98 1yqh-a1-m1-cA_1yqh-a1-m2-cA SQQVTSFSVVPQAKTKDVYSVVDKAIEVVQQSGVRYEVGAETTLEGELDVLLDVVKRAQQACVDAGAEEVITSIKIHYRPSTGVTIDEKVWKYRDEYA SQQVTSFSVVPQAKTKDVYSVVDKAIEVVQQSGVRYEVGAETTLEGELDVLLDVVKRAQQACVDAGAEEVITSIKIHYRPSTGVTIDEKVWKYRDEYA 1yqh-a1-m2-cB_1yqh-a1-m2-cA Structure of domain of unknown function DUF77 from Bacillus cereus Q81IG4 Q81IG4 1.7 X-RAY DIFFRACTION 54 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 98 101 1yqh-a1-m1-cB_1yqh-a1-m1-cA SQQVTSFSVVPQAKTKDVYSVVDKAIEVVQQSGVRYEVGAETTLEGELDVLLDVVKRAQQACVDAGAEEVITSIKIHYRPSTGVTIDEKVWKYRDEYA SNASQQVTSFSVVPQAKTKDVYSVVDKAIEVVQQSGVRYEVGAETTLEGELDVLLDVVKRAQQACVDAGAEEVITSIKIHYRPSTGVTIDEKVWKYRDEYA 1yqq-a1-m1-cB_1yqq-a1-m2-cC Escherichia coli purine nucleoside phosphorylase II, the product of the xapA gene P45563 P45563 2.6 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 273 273 1yqq-a1-m1-cA_1yqq-a1-m2-cA 1yqq-a1-m1-cC_1yqq-a1-m2-cB 1yr3-a1-m1-cA_1yr3-a1-m1-cF 1yr3-a1-m1-cB_1yr3-a1-m1-cE 1yr3-a1-m1-cC_1yr3-a1-m1-cD QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSTVHGHAGELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNMAEGLSDVKLSHAQTLAAAELSKQNFINLICGFLRKIA QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSTVHGHAGELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNMAEGLSDVKLSHAQTLAAAELSKQNFINLICGFLRKIA 1yqq-a2-m1-cB_1yqq-a2-m1-cC Escherichia coli purine nucleoside phosphorylase II, the product of the xapA gene P45563 P45563 2.6 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 273 273 1yqq-a1-m1-cA_1yqq-a1-m1-cB 1yqq-a1-m1-cA_1yqq-a1-m1-cC 1yqq-a1-m1-cB_1yqq-a1-m1-cC 1yqq-a1-m2-cA_1yqq-a1-m2-cB 1yqq-a1-m2-cA_1yqq-a1-m2-cC 1yqq-a1-m2-cB_1yqq-a1-m2-cC 1yqq-a2-m1-cA_1yqq-a2-m1-cB 1yqq-a2-m1-cA_1yqq-a2-m1-cC 1yr3-a1-m1-cA_1yr3-a1-m1-cB 1yr3-a1-m1-cA_1yr3-a1-m1-cC 1yr3-a1-m1-cB_1yr3-a1-m1-cC 1yr3-a1-m1-cD_1yr3-a1-m1-cE 1yr3-a1-m1-cD_1yr3-a1-m1-cF 1yr3-a1-m1-cE_1yr3-a1-m1-cF QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSTVHGHAGELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNMAEGLSDVKLSHAQTLAAAELSKQNFINLICGFLRKIA QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSTVHGHAGELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNMAEGLSDVKLSHAQTLAAAELSKQNFINLICGFLRKIA 1yqu-a1-m1-cA_1yqu-a1-m2-cC Escherichia coli purine nucleoside phosphorylase II, the product of the xapA gene P45563 P45563 3.1 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 243 243 1yqu-a1-m1-cB_1yqu-a1-m2-cB 1yqu-a1-m1-cC_1yqu-a1-m2-cA QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNQNFINLICGFLRKIA QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNQNFINLICGFLRKIA 1yqu-a1-m2-cB_1yqu-a1-m2-cC Escherichia coli purine nucleoside phosphorylase II, the product of the xapA gene P45563 P45563 3.1 X-RAY DIFFRACTION 74 1.0 562 (Escherichia coli) 562 (Escherichia coli) 243 243 1yqu-a1-m1-cA_1yqu-a1-m1-cB 1yqu-a1-m1-cA_1yqu-a1-m1-cC 1yqu-a1-m1-cB_1yqu-a1-m1-cC 1yqu-a1-m2-cA_1yqu-a1-m2-cB 1yqu-a1-m2-cA_1yqu-a1-m2-cC QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNQNFINLICGFLRKIA QFSHNPLFCIDIIKTYKPDFTPRVAFILGSGLGALADQIENAVAISYEKLPGFPVSELVLGHLQGVPVVCMKGRGHFYEGRGMTIMTDAIRTFKLLGCELLFCTNAAGSLRPEVGAGSLVALKDHINTMPGTPMVGLNDDRFGERFFSLANAYDAEYRALLQKVAKEEGFPLTEGVFVSYPGPNFETAAEIRMMQIIGGDVVGMSVVPEVISARHCDLKVVAVSAITNQNFINLICGFLRKIA 1yr0-a2-m1-cC_1yr0-a2-m1-cD Crystal structure of phosphinothricin acetyltransferase from agrobacterium tumefaciens A9CJR4 A9CJR4 2 X-RAY DIFFRACTION 83 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 160 160 1yr0-a1-m1-cA_1yr0-a1-m1-cB SVELRDATVDDLSGIEIYNDAVVNTTAIWNEVVVDLENRKDWFAARTSRGFPVIVAILDGKVAGYASYGDWRAFDGYRHTREHSVYVHKDARGHGIGKRLQALIDHAGGNDVHVLIAAIEAENTASIRLHESLGFRVVGRFSEVGTKFGRWLDLTCELKL SVELRDATVDDLSGIEIYNDAVVNTTAIWNEVVVDLENRKDWFAARTSRGFPVIVAILDGKVAGYASYGDWRAFDGYRHTREHSVYVHKDARGHGIGKRLQALIDHAGGNDVHVLIAAIEAENTASIRLHESLGFRVVGRFSEVGTKFGRWLDLTCELKL 1yra-a1-m1-cA_1yra-a1-m1-cB PAB0955 crystal structure : a GTPase in GDP bound form from Pyrococcus abyssi Q9UYR9 Q9UYR9 2.3 X-RAY DIFFRACTION 137 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 260 261 1yr6-a1-m1-cA_1yr6-a1-m2-cA 1yr7-a1-m1-cA_1yr7-a1-m2-cA 1yr8-a1-m1-cA_1yr8-a1-m2-cA 1yr9-a1-m1-cA_1yr9-a1-m2-cA 1yrb-a1-m1-cA_1yrb-a1-m1-cB 2oxr-a1-m1-cA_2oxr-a1-m2-cA MRGSHHHHHHGMASMIVVFVGTAGSGKTTLTGEFGRYLEDNYKVAYVNLDTGVKELPYEPSIDVREFVTVEEIMREGYGPNGAIVESYDRLMEKFNEYLNKILRLEKENDYVLIDTPGQMETFLFHEFGVRLMENLPYPLVVYISDPEILKKPNDYCFVRFFALLIDLRLGATTIPALNKVDLLSEEEKERHRKYFEDIDYLTARLKLDPSMQGLMAYKMCSMMTEVLPPVRVLYLSAKTREGFEDLETLAYEHYCTCGD MRGSHHHHHHGMASMIVVFVGTAGSGKTTLTGEFGRYLEDNYKVAYVNLDTGVKELPYEPSIDVREFVTVEEIMREGYGPNGAIVESYDRLMEKFNEYLNKILRLEKENDYVLIDTPGQMETFLFHEFGVRLMENLPYPLVVYISDPEILKKPNDYCFVRFFALLIDLRLGATTIPALNKVDLLSEEEKERHRKYFEDIDYLTARLKLDPSMQGLMAYKMCSMMTEVLPPVRVLYLSAKTREGFEDLETLAYEHYCTCGDL 1yre-a2-m1-cC_1yre-a2-m1-cD Hypothetical protein PA3270 from Pseudomonas aeruginosa in complex with CoA Q9HYX1 Q9HYX1 2.15 X-RAY DIFFRACTION 64 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 182 187 1yre-a1-m1-cA_1yre-a1-m1-cB 8gxj-a1-m1-cC_8gxj-a1-m1-cA 8gxj-a2-m1-cB_8gxj-a2-m2-cD PITLQRGALRLEPLVEADIPELVSLAEANREALQYMDGPTRPDWYRQSLAEQREGRALPLAVRLGVQLVGTTRFAEFLPALPACEIGWTWLDQAQHGSGLNRMIKYLMLKHAFDNLRMVRVQLSTAASNLRAQGAIDKLGAQREGVLRNHRRLAGGRLDDTFVYSITDHEWPQVKAALEASF FKPLPITLQRGALRLEPLVEADIPELVSLAEANREALQYMDGPTRPDWYRQSLAEQREGRALPLAVRLGVQLVGTTRFAEFLPALPACEIGWTWLDQAQHGSGLNRMIKYLMLKHAFDNLRMVRVQLSTAASNLRAQGAIDKLGAQREGVLRNHRRLAGGRLDDTFVYSITDHEWPQVKAALEASFT 1yrp-a1-m1-cA_1yrp-a1-m1-cB Catalytic domain of human ZIP kinase phosphorylated at Thr265 O43293 O43293 3.1 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 275 STFRQEDVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSSSRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEAGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMIAQSLEHSWIKA STFRQEDVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSSSRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEAGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMIAQSLEHSWIKA 1yrr-a1-m1-cB_1yrr-a1-m2-cA Crystal Structure Of The N-Acetylglucosamine-6-Phosphate Deacetylase From Escherichia Coli K12 at 2.0 A Resolution P0AF18 P0AF18 2 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 334 381 YALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ MYALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNLVKKTHNPNFVRKPDAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATAPAGANIEQFIFAGKTIYYRNGLCVDENGTLSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ 1yrr-a1-m1-cB_1yrr-a1-m2-cB Crystal Structure Of The N-Acetylglucosamine-6-Phosphate Deacetylase From Escherichia Coli K12 at 2.0 A Resolution P0AF18 P0AF18 2 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 334 334 YALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ YALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ 1yrr-a1-m2-cB_1yrr-a1-m1-cA Crystal Structure Of The N-Acetylglucosamine-6-Phosphate Deacetylase From Escherichia Coli K12 at 2.0 A Resolution P0AF18 P0AF18 2 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 334 381 YALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ MYALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNLVKKTHNPNFVRKPDAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATAPAGANIEQFIFAGKTIYYRNGLCVDENGTLSGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ 1ys4-a2-m1-cA_1ys4-a2-m2-cB Structure of Aspartate-Semialdehyde Dehydrogenase from Methanococcus jannaschii Q57658 Q57658 2.29 X-RAY DIFFRACTION 27 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 338 338 1ys4-a2-m1-cB_1ys4-a2-m2-cA KIKVGVLGATGSVGQRFVQLLADHPFELTALAASERSAGKKYKDACYWFQDRDIPENIKDVVIPTDPKHEEFEDVDIVFSALPSDLAKKFEPEFAKEGKLIFSNASAYREEDVPLVIPEVNADHLELIEIQREKRGWDGAIITNPNCSTICAVITLKPIDKFGLEAVFIATQAVSGAGYNGVPSAILDNLIPFIKNEEEKQTESLKLLGTLKDGKVELANFKISASCNRVAVIDGHTESIFVKTKEGAEPEEIKEVDKFDPLKDLNLPTYAKPIVIREEIDRPQPRLDRNEGNGSIVVGRIRKDPIFDVKYTALEHNTIRGAAGASVLNAEYFVKKYI KIKVGVLGATGSVGQRFVQLLADHPFELTALAASERSAGKKYKDACYWFQDRDIPENIKDVVIPTDPKHEEFEDVDIVFSALPSDLAKKFEPEFAKEGKLIFSNASAYREEDVPLVIPEVNADHLELIEIQREKRGWDGAIITNPNCSTICAVITLKPIDKFGLEAVFIATQAVSGAGYNGVPSAILDNLIPFIKNEEEKQTESLKLLGTLKDGKVELANFKISASCNRVAVIDGHTESIFVKTKEGAEPEEIKEVDKFDPLKDLNLPTYAKPIVIREEIDRPQPRLDRNEGNGSIVVGRIRKDPIFDVKYTALEHNTIRGAAGASVLNAEYFVKKYI 1ys4-a2-m1-cB_1ys4-a2-m2-cB Structure of Aspartate-Semialdehyde Dehydrogenase from Methanococcus jannaschii Q57658 Q57658 2.29 X-RAY DIFFRACTION 37 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 338 338 1ys4-a2-m1-cA_1ys4-a2-m2-cA KIKVGVLGATGSVGQRFVQLLADHPFELTALAASERSAGKKYKDACYWFQDRDIPENIKDVVIPTDPKHEEFEDVDIVFSALPSDLAKKFEPEFAKEGKLIFSNASAYREEDVPLVIPEVNADHLELIEIQREKRGWDGAIITNPNCSTICAVITLKPIDKFGLEAVFIATQAVSGAGYNGVPSAILDNLIPFIKNEEEKQTESLKLLGTLKDGKVELANFKISASCNRVAVIDGHTESIFVKTKEGAEPEEIKEVDKFDPLKDLNLPTYAKPIVIREEIDRPQPRLDRNEGNGSIVVGRIRKDPIFDVKYTALEHNTIRGAAGASVLNAEYFVKKYI KIKVGVLGATGSVGQRFVQLLADHPFELTALAASERSAGKKYKDACYWFQDRDIPENIKDVVIPTDPKHEEFEDVDIVFSALPSDLAKKFEPEFAKEGKLIFSNASAYREEDVPLVIPEVNADHLELIEIQREKRGWDGAIITNPNCSTICAVITLKPIDKFGLEAVFIATQAVSGAGYNGVPSAILDNLIPFIKNEEEKQTESLKLLGTLKDGKVELANFKISASCNRVAVIDGHTESIFVKTKEGAEPEEIKEVDKFDPLKDLNLPTYAKPIVIREEIDRPQPRLDRNEGNGSIVVGRIRKDPIFDVKYTALEHNTIRGAAGASVLNAEYFVKKYI 1ys4-a2-m2-cA_1ys4-a2-m2-cB Structure of Aspartate-Semialdehyde Dehydrogenase from Methanococcus jannaschii Q57658 Q57658 2.29 X-RAY DIFFRACTION 119 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 338 338 1ys4-a1-m1-cA_1ys4-a1-m1-cB 1ys4-a2-m1-cA_1ys4-a2-m1-cB KIKVGVLGATGSVGQRFVQLLADHPFELTALAASERSAGKKYKDACYWFQDRDIPENIKDVVIPTDPKHEEFEDVDIVFSALPSDLAKKFEPEFAKEGKLIFSNASAYREEDVPLVIPEVNADHLELIEIQREKRGWDGAIITNPNCSTICAVITLKPIDKFGLEAVFIATQAVSGAGYNGVPSAILDNLIPFIKNEEEKQTESLKLLGTLKDGKVELANFKISASCNRVAVIDGHTESIFVKTKEGAEPEEIKEVDKFDPLKDLNLPTYAKPIVIREEIDRPQPRLDRNEGNGSIVVGRIRKDPIFDVKYTALEHNTIRGAAGASVLNAEYFVKKYI KIKVGVLGATGSVGQRFVQLLADHPFELTALAASERSAGKKYKDACYWFQDRDIPENIKDVVIPTDPKHEEFEDVDIVFSALPSDLAKKFEPEFAKEGKLIFSNASAYREEDVPLVIPEVNADHLELIEIQREKRGWDGAIITNPNCSTICAVITLKPIDKFGLEAVFIATQAVSGAGYNGVPSAILDNLIPFIKNEEEKQTESLKLLGTLKDGKVELANFKISASCNRVAVIDGHTESIFVKTKEGAEPEEIKEVDKFDPLKDLNLPTYAKPIVIREEIDRPQPRLDRNEGNGSIVVGRIRKDPIFDVKYTALEHNTIRGAAGASVLNAEYFVKKYI 1ys7-a1-m1-cA_1ys7-a1-m1-cB Crystal structure of the response regulator protein prrA complexed with Mg2+ P9WGM1 P9WGM1 1.58 X-RAY DIFFRACTION 33 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 224 226 1ys6-a1-m1-cA_1ys6-a1-m1-cB SPRVLVVDDDSDVLASLERGLRLSGFEVATAVDGAEALRSATENRPDAIVLDINMPVLDGVSVVTALRAMDNDVPVCVLSARSSVDDRVAGLEAGADDYLVKPFVLAELVARVKALLRRRGSTATSSSETITVGPLEVDIPGRRARVNGVDVDLTKREFDLLAVLAEHKTAVLSRAQLLELVWGYDFADTNVVDVFIGYLRRKLEAGPRLLHTVRGVGFVLRMQ SPRVLVVDDDSDVLASLERGLRLSGFEVATAVDGAEALRSATENRPDAIVLDINMPVLDGVSVVTALRAMDNDVPVCVLSARSSVDDRVAGLEAGADDYLVKPFVLAELVARVKALLRRRGSTATSSSETITVGPLEVDIPGRRARVNGVDVDLTKREFDLLAVLAEHKTAVLSRAQLLELVWGYDFAADTNVVDVFIGYLRRKLEAGGPRLLHTVRGVGFVLRMQ 1ysb-a1-m1-cA_1ysb-a1-m1-cB Yeast Cytosine Deaminase Triple Mutant Q12178 Q12178 1.7 X-RAY DIFFRACTION 92 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 156 161 1ox7-a1-m1-cA_1ox7-a1-m1-cB 1p6o-a1-m1-cA_1p6o-a1-m1-cB 1rb7-a1-m1-cA_1rb7-a1-m1-cB 1uaq-a1-m1-cA_1uaq-a1-m1-cB 1ysd-a1-m1-cA_1ysd-a1-m1-cB 2o3k-a1-m1-cB_2o3k-a1-m1-cA TGGMASKWDQKGMDIAYEEALLGYKEGGVPIGGCLINNKDGSVLGRGHNMRFQKGSATLHGEISTLENCGRLEGKVYKDTTLYTTLSPCDMCTGAIIMYGIPRCVIGENVNFKSKGEKYLQTRGHEVVVVDDERCKKLMKQFIDERPQDWFEDIGE GSSMVTGGMASKWDQKGMDIAYEEALLGYKEGGVPIGGCLINNKDGSVLGRGHNMRFQKGSATLHGEISTLENCGRLEGKVYKDTTLYTTLSPCDMCTGAIIMYGIPRCVIGENVNFKSKGEKYLQTRGHEVVVVDDERCKKLMKQFIDERPQDWFEDIGE 1ysf-a1-m1-cA_1ysf-a1-m1-cB The solution structure of the N-domain of the transcription factor abrB P08874 P08874 NOT SOLUTION NMR 137 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 52 52 1yfb-a1-m1-cA_1yfb-a1-m1-cB 2k1n-a1-m1-cC_2k1n-a1-m1-cD FMKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPN FMKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPN 1ysj-a1-m1-cB_1ysj-a1-m1-cA Crystal Structure of Bacillus Subtilis YXEP Protein (APC1829), a Dinuclear Metal Binding Peptidase from M20 Family P54955 P54955 2.4 X-RAY DIFFRACTION 93 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 348 351 DKAFHTRLINRRDLHEHPELSFQEVETTKKIRRWLEEEQIEILDVPQLKTGVIAEIKGREDGPVIAIRADIDALPIQEQTNLPFASKVDGTHACGHDFHTASIIGTALLNQRRAELKGTVRFIFQPAEEIAAGARKVLEAGVLNGVSAIFGHNKPDLPVGTIGVKEGPLASVDRFEIVIKGKIDPIAAAGQIISGLQNAVVSITRVQAGTSWNVIPDQAEEGTVRTFQKEARQAVPEHRRVAEGIAAGYGAQAEFKWFPYLPSVQNDGTFLNAASEAAARLGYQTVHAEQSPGGEDFALYQEKIPGFFVWGTNGTEEWHHPAFTLDEEALTVASQYFAELAVIVLETI ADKAFHTRLINRRDLHEHPELSFQEVETTKKIRRWLEEEQIEILDVPQLKTGVIAEIKGREDGPVIAIRADIDALPIQEQTNLPFASKVDGTHACGHDFHTASIIGTALLNQRRAELKGTVRFIFQPAEEIAAGARKVLEAGVLNGVSAIFGHNKPDLPVGTIGVKEGPLASVDRFEIVIKGKNSIDPIAAAGQIISGLQNAVVSITRVQAGTSWNVIPDQAEEGTVRTFQKEARQAVPEHRRVAEGIAAGYGAQAEFKWFPYLPSVQNDGTFLNAASEAAARLGYQTVHAEQSPGGEDFALYQEKIPGFFVWGTNGTEEWHHPAFTLDEEALTVASQYFAELAVIVLETI 1ysp-a2-m1-cA_1ysp-a2-m2-cA Crystal structure of the C-terminal domain of E. coli transcriptional regulator KdgR. P76268 P76268 1.8 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 164 164 MDLIRSADIQMRELSRLTKETIHLGALDEDSIVYIHKIDSMIGRRNPLYSTAIGKVLLAWRDRDEVKQILEGVEYKRSTERTITSTEALLPVLDQVREQGYGEDNEEQEEGLRCIAVPVFDRFGVVIAGLSISFPTLRFSEERLQEYVAMLHTAARKISAQMGY MDLIRSADIQMRELSRLTKETIHLGALDEDSIVYIHKIDSMIGRRNPLYSTAIGKVLLAWRDRDEVKQILEGVEYKRSTERTITSTEALLPVLDQVREQGYGEDNEEQEEGLRCIAVPVFDRFGVVIAGLSISFPTLRFSEERLQEYVAMLHTAARKISAQMGY 1ysr-a1-m1-cC_1ysr-a1-m1-cA Crystal Structure of ATP binding domain of PrrB from Mycobacterium Tuberculosis P9WGK7 P9WGK7 1.78 X-RAY DIFFRACTION 44 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 136 137 1ys3-a1-m1-cA_1ys3-a1-m1-cB 1ys3-a1-m1-cC_1ys3-a1-m1-cA 1ysr-a1-m1-cA_1ysr-a1-m1-cB DDHVPVDITDLLDRAAHDAARIYPDLDVSLVPSPTCIIVGLPAGLRLAVDNAIANAVKHGGATLVQLSAVSSRAGVEIAIDDNGSGVPEGERQVVFERFLGLALVAQQAQLHGGTASLENSPLGGARLVLRLPGPS DDHVPVDITDLLDRAAHDAARIYPDLDVSLVPSPTCIIVGLPAGLRLAVDNAIANAVKHGGATLVQLSAVSSRAGVEIAIDDNGSGVPEGERQVVFERFSLGLALVAQQAQLHGGTASLENSPLGGARLVLRLPGPS 1yt5-a3-m1-cD_1yt5-a3-m2-cB Crystal structure of NAD kinase from Thermotoga maritima Q9X255 Q9X255 2.3 X-RAY DIFFRACTION 10 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 256 256 MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFKAGRLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFKAGRLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR 1yt5-a4-m3-cC_1yt5-a4-m3-cB Crystal structure of NAD kinase from Thermotoga maritima Q9X255 Q9X255 2.3 X-RAY DIFFRACTION 44 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 252 256 1yt5-a1-m1-cA_1yt5-a1-m1-cD 1yt5-a2-m1-cC_1yt5-a2-m1-cB 1yt5-a3-m1-cA_1yt5-a3-m1-cD 1yt5-a3-m2-cC_1yt5-a3-m2-cB 1yt5-a4-m1-cA_1yt5-a4-m1-cD MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFKAGRLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR 1yt5-a6-m2-cC_1yt5-a6-m1-cD Crystal structure of NAD kinase from Thermotoga maritima Q9X255 Q9X255 2.3 X-RAY DIFFRACTION 116 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 252 256 1yt5-a3-m1-cA_1yt5-a3-m2-cB 1yt5-a3-m2-cC_1yt5-a3-m1-cD 1yt5-a5-m1-cA_1yt5-a5-m2-cB MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFKAGRLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR 1yt5-a8-m3-cC_1yt5-a8-m1-cD Crystal structure of NAD kinase from Thermotoga maritima Q9X255 Q9X255 2.3 X-RAY DIFFRACTION 29 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 252 256 1yt5-a4-m1-cA_1yt5-a4-m3-cB 1yt5-a4-m3-cC_1yt5-a4-m1-cD 1yt5-a7-m1-cA_1yt5-a7-m3-cB MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR MKIAILYREEREKEGEFLKEKISKEHEVIEFGEANAPGRVTADLIVVVGGDGTVLKAAKKAADGTPMVGFKAGRLGFLTSYTLDEIDRFLEDLRNWNFREETRWFIQIESELGNHLALNDVTLERDLSGKMVEIEVEVEHHSSMWFFADGVVISTPTGSTAYSLSIGGPIIFPECEVLEISPIAPQFFLTRSVVIPSNFKVVVESQRDINMLVDGVLTGKTKRIEVKKSRRYVRILRPPEYDYVTVIRDKLGYGRR 1yta-a2-m1-cC_1yta-a2-m1-cD Crystal Structure of Oligoribonuclease, the lone essential exoribonuclease in Escherichia coli P0A784 P0A784 2.2 X-RAY DIFFRACTION 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 175 175 1yta-a1-m1-cA_1yta-a1-m1-cB 2igi-a1-m1-cB_2igi-a1-m1-cA 7vh4-a1-m1-cC_7vh4-a1-m2-cD 7vh4-a2-m1-cA_7vh4-a2-m1-cB SANENNLIWIDLETGLDPERDRIIEIATLVTDANLNILAEGPTIAVHQSDEQLALDDWNVRTHTASGLVERVKASTGDREAELATLEFLKQWVPAGKSPICGNSIGQDRRFLFKYPELEAYFHYRYLDVSTLKELARRWKPEILDGFTKQGTHQADDIRESVAELAYYREHFIKL SANENNLIWIDLETGLDPERDRIIEIATLVTDANLNILAEGPTIAVHQSDEQLALDDWNVRTHTASGLVERVKASTGDREAELATLEFLKQWVPAGKSPICGNSIGQDRRFLFKYPELEAYFHYRYLDVSTLKELARRWKPEILDGFTKQGTHQADDIRESVAELAYYREHFIKL 1ytq-a3-m1-cA_1ytq-a3-m4-cA Structure of Native Human Beta B2 Crystallin P43320 P43320 1.7 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 1blb-a1-m1-cA_1blb-a1-m2-cA 1blb-a1-m1-cB_1blb-a1-m2-cB 1blb-a2-m1-cC_1blb-a2-m3-cC 1blb-a2-m1-cD_1blb-a2-m3-cD 1ytq-a3-m2-cA_1ytq-a3-m3-cA 2bb2-a1-m1-cA_2bb2-a1-m3-cA 2bb2-a1-m4-cA_2bb2-a1-m2-cA 7k7u-a1-m1-cI_7k7u-a1-m1-cK 7k7u-a1-m1-cL_7k7u-a1-m1-cJ 7k7u-a2-m1-cA_7k7u-a2-m1-cC 7k7u-a2-m1-cD_7k7u-a2-m1-cE 7k7u-a3-m1-cF_7k7u-a3-m1-cB 7k7u-a3-m1-cH_7k7u-a3-m1-cG LNPKIIIFEQENFQGHSHELNGPCPNLKETGVEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIKVDSQEHKIILYENPNFTGKKMEIIDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDSSDFGAPHPQVQSVRRIRDMQW LNPKIIIFEQENFQGHSHELNGPCPNLKETGVEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIKVDSQEHKIILYENPNFTGKKMEIIDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDSSDFGAPHPQVQSVRRIRDMQW 1ytq-a3-m2-cA_1ytq-a3-m4-cA Structure of Native Human Beta B2 Crystallin P43320 P43320 1.7 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 1blb-a1-m1-cB_1blb-a1-m2-cA 1blb-a1-m2-cB_1blb-a1-m1-cA 1blb-a2-m1-cD_1blb-a2-m3-cC 1blb-a2-m3-cD_1blb-a2-m1-cC 1ytq-a3-m1-cA_1ytq-a3-m3-cA 2bb2-a1-m1-cA_2bb2-a1-m2-cA 2bb2-a1-m4-cA_2bb2-a1-m3-cA 7k7u-a1-m1-cI_7k7u-a1-m1-cJ 7k7u-a1-m1-cL_7k7u-a1-m1-cK 7k7u-a2-m1-cD_7k7u-a2-m1-cC 7k7u-a2-m1-cE_7k7u-a2-m1-cA 7k7u-a3-m1-cF_7k7u-a3-m1-cG 7k7u-a3-m1-cH_7k7u-a3-m1-cB LNPKIIIFEQENFQGHSHELNGPCPNLKETGVEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIKVDSQEHKIILYENPNFTGKKMEIIDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDSSDFGAPHPQVQSVRRIRDMQW LNPKIIIFEQENFQGHSHELNGPCPNLKETGVEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIKVDSQEHKIILYENPNFTGKKMEIIDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDSSDFGAPHPQVQSVRRIRDMQW 1ytq-a3-m3-cA_1ytq-a3-m4-cA Structure of Native Human Beta B2 Crystallin P43320 P43320 1.7 X-RAY DIFFRACTION 141 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 1blb-a1-m1-cB_1blb-a1-m1-cA 1blb-a1-m2-cB_1blb-a1-m2-cA 1blb-a2-m1-cD_1blb-a2-m1-cC 1blb-a2-m3-cD_1blb-a2-m3-cC 1e7n-a1-m1-cB_1e7n-a1-m1-cA 1ytq-a2-m1-cA_1ytq-a2-m2-cA 1ytq-a3-m1-cA_1ytq-a3-m2-cA 2bb2-a1-m2-cA_2bb2-a1-m3-cA 2bb2-a1-m4-cA_2bb2-a1-m1-cA 2bb2-a2-m4-cA_2bb2-a2-m1-cA 7k7u-a1-m1-cI_7k7u-a1-m1-cL 7k7u-a1-m1-cK_7k7u-a1-m1-cJ 7k7u-a2-m1-cD_7k7u-a2-m1-cA 7k7u-a2-m1-cE_7k7u-a2-m1-cC 7k7u-a3-m1-cG_7k7u-a3-m1-cB 7k7u-a3-m1-cH_7k7u-a3-m1-cF LNPKIIIFEQENFQGHSHELNGPCPNLKETGVEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIKVDSQEHKIILYENPNFTGKKMEIIDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDSSDFGAPHPQVQSVRRIRDMQW LNPKIIIFEQENFQGHSHELNGPCPNLKETGVEKAGSVLVQAGPWVGYEQANCKGEQFVFEKGEYPRWDSWTSSRRTDSLSSLRPIKVDSQEHKIILYENPNFTGKKMEIIDDDVPSFHAHGYQEKVSSVRVQSGTWVGYQYPGYRGLQYLLEKGDYKDSSDFGAPHPQVQSVRRIRDMQW 1yu0-a1-m2-cA_1yu0-a1-m3-cA Major Tropism Determinant P1 Variant Q775D6 Q775D6 1.56 X-RAY DIFFRACTION 190 1.0 194699 (Rauchvirus BPP1) 194699 (Rauchvirus BPP1) 376 376 1yu0-a1-m1-cA_1yu0-a1-m2-cA 1yu0-a1-m1-cA_1yu0-a1-m3-cA 1yu1-a1-m1-cA_1yu1-a1-m2-cA 1yu1-a1-m1-cA_1yu1-a1-m3-cA 1yu1-a1-m2-cA_1yu1-a1-m3-cA 1yu2-a1-m1-cA_1yu2-a1-m2-cA 1yu2-a1-m1-cA_1yu2-a1-m3-cA 1yu2-a1-m2-cA_1yu2-a1-m3-cA 1yu3-a1-m1-cA_1yu3-a1-m2-cA 1yu3-a1-m1-cA_1yu3-a1-m3-cA 1yu3-a1-m2-cA_1yu3-a1-m3-cA 1yu4-a1-m1-cA_1yu4-a1-m1-cB 1yu4-a1-m1-cA_1yu4-a1-m1-cC 1yu4-a1-m1-cB_1yu4-a1-m1-cC 2iou-a1-m1-cA_2iou-a1-m1-cB 2iou-a1-m1-cA_2iou-a1-m1-cC 2iou-a1-m1-cB_2iou-a1-m1-cC 2iou-a1-m1-cD_2iou-a1-m1-cE 2iou-a1-m1-cD_2iou-a1-m1-cF 2iou-a1-m1-cE_2iou-a1-m1-cF VQFRGGTTAQHATFTGAAREITVDTDKNTVVVHDGATAGGFPLARHDLVKTAFIKADKSAVAFTRTGNATASIKAGTIVEVNGKLVQFTADTAITMPALTAGTDYAIYVCDDGTVRADSNFSAPTGYTSTTARKVGGFHYAPGSNAAAQAGGNTTAQINEYSLWDIKFRPAALDPRGMTLVAGAFWADIYLLGVNHLTDGTSKYNVTIADGSASPKKSTKFGGDGSAAYSDGAWYNFAEVMTHHGKRLPNYNEFQALAFGTTEATSSGGTDVPTTGVNGTGATSAWNIFTSKWGVVQASGCLWTWGNEFGGVNGASEYTANTGGRGSVYAQPAAALFGGAWNGTSLSGSRAALWYSGPSFSFAFFGARGVCDHLIL VQFRGGTTAQHATFTGAAREITVDTDKNTVVVHDGATAGGFPLARHDLVKTAFIKADKSAVAFTRTGNATASIKAGTIVEVNGKLVQFTADTAITMPALTAGTDYAIYVCDDGTVRADSNFSAPTGYTSTTARKVGGFHYAPGSNAAAQAGGNTTAQINEYSLWDIKFRPAALDPRGMTLVAGAFWADIYLLGVNHLTDGTSKYNVTIADGSASPKKSTKFGGDGSAAYSDGAWYNFAEVMTHHGKRLPNYNEFQALAFGTTEATSSGGTDVPTTGVNGTGATSAWNIFTSKWGVVQASGCLWTWGNEFGGVNGASEYTANTGGRGSVYAQPAAALFGGAWNGTSLSGSRAALWYSGPSFSFAFFGARGVCDHLIL 1yu9-a2-m1-cA_1yu9-a2-m2-cA GppNHp-Bound Rab4A P20338 P20338 2.07 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 GPLGSETYDFLFKFLVIGNAGTGKSCLLHQFIEKKFKDDSNHTIGVEFGSKIINVGGKYVKLQIWDTAGQERFRSVTRSYYRGAAGALLVYDITSRETYNALTNWLTDARMLASQNIVIILCGNKKDLDADREVTFLEASRFAQENELMFLETSALTGEDVEEAFVQCARKILNK GPLGSETYDFLFKFLVIGNAGTGKSCLLHQFIEKKFKDDSNHTIGVEFGSKIINVGGKYVKLQIWDTAGQERFRSVTRSYYRGAAGALLVYDITSRETYNALTNWLTDARMLASQNIVIILCGNKKDLDADREVTFLEASRFAQENELMFLETSALTGEDVEEAFVQCARKILNK 1yuc-a3-m1-cB_1yuc-a3-m2-cA Human Nuclear Receptor Liver Receptor Homologue-1, LRH-1, Bound to Phospholipid and a Fragment of Human SHP O00482 O00482 1.9 X-RAY DIFFRACTION 44 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 240 240 SIPHLILELLKCEPDEPQVQAKIMAYLQQEQANRSKHEKLSTFGLMCKMADQTLFSIVEWARSSIFFRELKVDDQMKLLQNCWSELLILDHIYRQVVHGKEGSIFLVTGQQVDYSIIASQAGATLNNLMSHAQELVAKLRSLQFDQREFVCLKFLVLFSLDVKNLENFQLVEGVQEQVNAALLDYTMCNYPQQTEKFGQLLLRLPEIRAISMQAEEYLYYKHLNGDVPYNNLLIEMLHAK ASIPHLILELLKCEPDEPQVQAKIMAYLQQEQANRSKHEKLSTFGLMCKMADQTLFSIVEWARSSIFFRELKVDDQMKLLQNCWSELLILDHIYRQVVHGKEGSIFLVTGQQVDYSIIASQAGATLNNLMSHAQELVAKLRSLQFDQREFVCLKFLVLFSLDVKNLENFQLVEGVQEQVNAALLDYTMCNYPQQTEKFGQLLLRLPEIRAISMQAEEYLYYKHLNGDVPYNNLLIEMLHA 1yud-a5-m1-cG_1yud-a5-m1-cI X-ray Crystal Structure of Protein SO0799 from Shewanella oneidensis. Northeast Structural Genomics Consortium Target SoR12. Q8EIN8 Q8EIN8 2.7 X-RAY DIFFRACTION 80 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 152 152 1yud-a1-m1-cA_1yud-a1-m1-cH 1yud-a2-m1-cB_1yud-a2-m1-cC 1yud-a3-m1-cD_1yud-a3-m1-cJ 1yud-a4-m1-cE_1yud-a4-m1-cF QNADDFIKFLELEQHVEGGFYRSSYRSETAFDPSRQLWSSIYFLLRTGEVSHFHRLTADEWYFHAGQSLTIYISPEGELTTAQLGLDLAAGERPQFLVPKGCIFGSANQDGFSLVGCVSPGFTFDDFELFSQEALLAYPQHKAVVQKLSRPE QNADDFIKFLELEQHVEGGFYRSSYRSETAFDPSRQLWSSIYFLLRTGEVSHFHRLTADEWYFHAGQSLTIYISPEGELTTAQLGLDLAAGERPQFLVPKGCIFGSANQDGFSLVGCVSPGFTFDDFELFSQEALLAYPQHKAVVQKLSRPE 1yum-a1-m1-cA_1yum-a1-m1-cD Crystal Structure of Nicotinic Acid Mononucleotide Adenylyltransferase from Pseudomonas aeruginosa Q9HX21 Q9HX21 1.7 X-RAY DIFFRACTION 21 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 212 212 1yum-a1-m1-cB_1yum-a1-m1-cC GKRIGLFGGTFDPVHIGHMRSAVEMAEQFALDELRLLPNARPPHRETPQVSAAQRLAMVERAVAGVERLTVDPRELQRDKPSYTIDTLESVRAELAADDQLFMLIGWDAFCGLPTWHRWEALLDHCHIVVLQRPDADSEPPESLRDLLAARSVADPQALKGPGGQITFVWQTPLAVSATQIRALLGAGRSVRFLVPDAVLNYIEAHHLYRAP GKRIGLFGGTFDPVHIGHMRSAVEMAEQFALDELRLLPNARPPHRETPQVSAAQRLAMVERAVAGVERLTVDPRELQRDKPSYTIDTLESVRAELAADDQLFMLIGWDAFCGLPTWHRWEALLDHCHIVVLQRPDADSEPPESLRDLLAARSVADPQALKGPGGQITFVWQTPLAVSATQIRALLGAGRSVRFLVPDAVLNYIEAHHLYRAP 1yum-a1-m1-cB_1yum-a1-m1-cD Crystal Structure of Nicotinic Acid Mononucleotide Adenylyltransferase from Pseudomonas aeruginosa Q9HX21 Q9HX21 1.7 X-RAY DIFFRACTION 43 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 212 212 GKRIGLFGGTFDPVHIGHMRSAVEMAEQFALDELRLLPNARPPHRETPQVSAAQRLAMVERAVAGVERLTVDPRELQRDKPSYTIDTLESVRAELAADDQLFMLIGWDAFCGLPTWHRWEALLDHCHIVVLQRPDADSEPPESLRDLLAARSVADPQALKGPGGQITFVWQTPLAVSATQIRALLGAGRSVRFLVPDAVLNYIEAHHLYRAP GKRIGLFGGTFDPVHIGHMRSAVEMAEQFALDELRLLPNARPPHRETPQVSAAQRLAMVERAVAGVERLTVDPRELQRDKPSYTIDTLESVRAELAADDQLFMLIGWDAFCGLPTWHRWEALLDHCHIVVLQRPDADSEPPESLRDLLAARSVADPQALKGPGGQITFVWQTPLAVSATQIRALLGAGRSVRFLVPDAVLNYIEAHHLYRAP 1yum-a1-m1-cC_1yum-a1-m1-cD Crystal Structure of Nicotinic Acid Mononucleotide Adenylyltransferase from Pseudomonas aeruginosa Q9HX21 Q9HX21 1.7 X-RAY DIFFRACTION 19 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 212 212 1yum-a1-m1-cA_1yum-a1-m1-cB GKRIGLFGGTFDPVHIGHMRSAVEMAEQFALDELRLLPNARPPHRETPQVSAAQRLAMVERAVAGVERLTVDPRELQRDKPSYTIDTLESVRAELAADDQLFMLIGWDAFCGLPTWHRWEALLDHCHIVVLQRPDADSEPPESLRDLLAARSVADPQALKGPGGQITFVWQTPLAVSATQIRALLGAGRSVRFLVPDAVLNYIEAHHLYRAP GKRIGLFGGTFDPVHIGHMRSAVEMAEQFALDELRLLPNARPPHRETPQVSAAQRLAMVERAVAGVERLTVDPRELQRDKPSYTIDTLESVRAELAADDQLFMLIGWDAFCGLPTWHRWEALLDHCHIVVLQRPDADSEPPESLRDLLAARSVADPQALKGPGGQITFVWQTPLAVSATQIRALLGAGRSVRFLVPDAVLNYIEAHHLYRAP 1yus-a1-m1-cA_1yus-a1-m1-cB Solution structure of apo-S100A13 Q99584 Q99584 NOT SOLUTION NMR 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 1yur-a1-m1-cA_1yur-a1-m1-cB MAAEPLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLKIRKK MAAEPLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLKIRKK 1yut-a1-m1-cA_1yut-a1-m1-cB Solution structure of Calcium-S100A13 (minimized mean structure) Q99584 Q99584 NOT SOLUTION NMR 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 1yuu-a1-m1-cA_1yuu-a1-m1-cB 2kot-a1-m1-cA_2kot-a1-m1-cB MAAEPLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLKIRKK MAAEPLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLKIRKK 1yuz-a1-m1-cA_1yuz-a1-m1-cB Partially Reduced State of Nigerythrin P30820 P30820 1.4 X-RAY DIFFRACTION 101 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 200 202 1yux-a1-m1-cA_1yux-a1-m1-cB 1yv1-a1-m1-cA_1yv1-a1-m1-cB MKVRAQVPTVKNATNFNMVADSKTAVGSTLENLKAAIAGETGAHAKYTAFAKAAREQGYEQIARLFEATAAAELIHIGLEYALVAEMEPGYEKPTVPSAYSCDLNLISGANGEIYETSDMYPAFIRKAQEEGNSKAVHVFTRAKLAESVHAERYLAAYNDIDAPDDDKFHLCPICGYIHKGEDFEKCPICFRPKDTFTAY MKVRAQVPTVKNATNFNMVADSKTAVGSTLENLKAAIAGETGAHAKYTAFAKAAREQGYEQIARLFEATAAAELIHIGLEYALVAEMEPGYEKPTVAAPSAYSCDLNLISGANGEIYETSDMYPAFIRKAQEEGNSKAVHVFTRAKLAESVHAERYLAAYNDIDAPDDDKFHLCPICGYIHKGEDFEKCPICFRPKDTFTAY 1yv9-a1-m1-cA_1yv9-a1-m1-cB Crystal structure of a HAD-like phosphatase from Enterococcus faecalis V583 Q836C7 Q836C7 2.8 X-RAY DIFFRACTION 42 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 257 257 SLDYQGYLIDLDGTIYLGKEPIPAGKRFVERLQEKDLPFLFVTNNTTKSPETVAQRLANEFDIHVPASLVYTATLATIDYMKEANRGKKVFVIGEAGLIDLILEAGFEWDETNPDYVVVGLDTELSYEKVVLATLAIQKGALFIGTNPDKNIPTERGLLPGAGSVVTFVETATQTKPVYIGKPKAIIMERAIAHLGVEKEQVIMVGDNYETDIQSGIQNGIDSLLVTSGFTPKSAVPTLPTPPTYVVDSLDEWTFEG SLDYQGYLIDLDGTIYLGKEPIPAGKRFVERLQEKDLPFLFVTNNTTKSPETVAQRLANEFDIHVPASLVYTATLATIDYMKEANRGKKVFVIGEAGLIDLILEAGFEWDETNPDYVVVGLDTELSYEKVVLATLAIQKGALFIGTNPDKNIPTERGLLPGAGSVVTFVETATQTKPVYIGKPKAIIMERAIAHLGVEKEQVIMVGDNYETDIQSGIQNGIDSLLVTSGFTPKSAVPTLPTPPTYVVDSLDEWTFEG 1yvf-a2-m1-cA_1yvf-a2-m2-cA Hepatitis C virus NS5B RNA-dependent RNA polymerase complex with inhibitor PHA-00729145 O93077 O93077 2.5 X-RAY DIFFRACTION 43 1.0 11103 () 11103 () 564 564 1z4u-a2-m1-cA_1z4u-a2-m2-cA MSMSYTWTGALITPCAAEESKLPINALSNSLLRHHNLVYSTTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRSLSSRAVNHIRSVWKDLLEDTDTPIQTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQAVMGSSYGFQYSPKQRVEFLVNTWKAKKCPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIRSLTERLYVGGPMTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKAAAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTVPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRAKLLSQGGRAAICGKYLFNWAVRTKLKLTPIPAASRLLLSGWFVAGYSGGDIYHS MSMSYTWTGALITPCAAEESKLPINALSNSLLRHHNLVYSTTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRSLSSRAVNHIRSVWKDLLEDTDTPIQTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQAVMGSSYGFQYSPKQRVEFLVNTWKAKKCPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIRSLTERLYVGGPMTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKAAAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTVPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRAKLLSQGGRAAICGKYLFNWAVRTKLKLTPIPAASRLLLSGWFVAGYSGGDIYHS 1yvg-a1-m1-cA_1yvg-a1-m2-cA Structural analysis of the catalytic domain of tetanus neurotoxin P04958 P04958 2.6 X-RAY DIFFRACTION 60 1.0 1513 (Clostridium tetani) 1513 (Clostridium tetani) 397 397 PITINNFRYSDPVNNDTIIMMEPPYCKGLDIYYKAFKITDRIWIVPERYEFGTKPEDFNPPSSASEYYDPNYLRTDSDKDRFLQTMVKLFNRIKNNVAGEALLDKIINAIPYLGNSYSLLDKFDTNSNSVSFNLLEQDPSGATTKSAMLTNLIIFGPGPVLNKNEVRGIVLRVDNKNYFPCRDGFGSIMQMAFCPEYVPTFDNSKYFQDPALLLMHELIHVLHGLYGMQVSSHEIPISAEELFTFGGQDANLISIDIKNDLYEKTLNDYKAIANKLSQVTSCNDPNIDIDSYKQIYQQKYQFDKDSNGQYIVNEDKFQILYNSIMYGFTEIELGKKFNIKTRLSYFSMNHDPVKIPNLLDDTIYNDTEGFNIESKDLKSEYKGQNMRVNTNAFRNVD PITINNFRYSDPVNNDTIIMMEPPYCKGLDIYYKAFKITDRIWIVPERYEFGTKPEDFNPPSSASEYYDPNYLRTDSDKDRFLQTMVKLFNRIKNNVAGEALLDKIINAIPYLGNSYSLLDKFDTNSNSVSFNLLEQDPSGATTKSAMLTNLIIFGPGPVLNKNEVRGIVLRVDNKNYFPCRDGFGSIMQMAFCPEYVPTFDNSKYFQDPALLLMHELIHVLHGLYGMQVSSHEIPISAEELFTFGGQDANLISIDIKNDLYEKTLNDYKAIANKLSQVTSCNDPNIDIDSYKQIYQQKYQFDKDSNGQYIVNEDKFQILYNSIMYGFTEIELGKKFNIKTRLSYFSMNHDPVKIPNLLDDTIYNDTEGFNIESKDLKSEYKGQNMRVNTNAFRNVD 1yvk-a1-m1-cA_1yvk-a1-m1-cD Crystal Structure of the Bacillis subtilis Acetyltransferase in complex with CoA, Northeast Structural Genomics Target SR237. O32248 O32248 3.01 X-RAY DIFFRACTION 41 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 151 151 1yvk-a1-m1-cB_1yvk-a1-m1-cC KLRIELGEETNDELYDLLLLADPSKDIVDEYLERGECYTAWAGDELAGVYVLLKTRPQTVEIVNIAVKESLQKKGFGKQLVLDAIEKAKKLGADTIEIGTGNSSIHQLSLYQKCGFRIQAIDHDFFLRHYDEDIFENGIQCRDVRLYLDLL KLRIELGEETNDELYDLLLLADPSKDIVDEYLERGECYTAWAGDELAGVYVLLKTRPQTVEIVNIAVKESLQKKGFGKQLVLDAIEKAKKLGADTIEIGTGNSSIHQLSLYQKCGFRIQAIDHDFFLRHYDEDIFENGIQCRDVRLYLDLL 1yvk-a1-m1-cC_1yvk-a1-m1-cD Crystal Structure of the Bacillis subtilis Acetyltransferase in complex with CoA, Northeast Structural Genomics Target SR237. O32248 O32248 3.01 X-RAY DIFFRACTION 48 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 151 151 1yvk-a1-m1-cA_1yvk-a1-m1-cB KLRIELGEETNDELYDLLLLADPSKDIVDEYLERGECYTAWAGDELAGVYVLLKTRPQTVEIVNIAVKESLQKKGFGKQLVLDAIEKAKKLGADTIEIGTGNSSIHQLSLYQKCGFRIQAIDHDFFLRHYDEDIFENGIQCRDVRLYLDLL KLRIELGEETNDELYDLLLLADPSKDIVDEYLERGECYTAWAGDELAGVYVLLKTRPQTVEIVNIAVKESLQKKGFGKQLVLDAIEKAKKLGADTIEIGTGNSSIHQLSLYQKCGFRIQAIDHDFFLRHYDEDIFENGIQCRDVRLYLDLL 1yvl-a3-m1-cA_1yvl-a3-m2-cA Structure of Unphosphorylated STAT1 P42224 P42224 3 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 652 652 SQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNQAQTVMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREAKSDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQKNIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSR SQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNQAQTVMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREAKSDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQKNIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSR 1yvl-a3-m3-cB_1yvl-a3-m4-cB Structure of Unphosphorylated STAT1 P42224 P42224 3 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 653 653 SQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREHDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSNGGEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSR SQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREHDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSNGGEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSR 1yvl-a4-m1-cA_1yvl-a4-m4-cB Structure of Unphosphorylated STAT1 P42224 P42224 3 X-RAY DIFFRACTION 69 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 652 653 1yvl-a3-m1-cA_1yvl-a3-m4-cB 1yvl-a3-m2-cA_1yvl-a3-m3-cB 3wwt-a1-m1-cA_3wwt-a1-m2-cA SQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNQAQTVMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREAKSDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQKNIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSQEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSR SQWYELQQLDSKFLEQVHQLYDDSFPMEIRQYLAQWLEKQDWEHAANDVSFATIRFHDLLSQLDDQYSRFSLENNFLLQHNIRKSKRNLQDNFQEDPIQMSMIIYSCLKEERKILENAQRFNMLDKQKELDSKVRNVKDKVMCIEHEIKSLEDLQDEYDFKCKTLQNREHDQKQEQLLLKKMYLMLDNKRKEVVHKIIELLNVTELTQNALINDELVEWKRRQQSACIGGPPNACLDQLQNWFTIVAESLQQVRQQLKKLEELEQKYTYEHDPITKNKQVLWDRTFSLFQQLIQSSFVVERQPCMPTHPQRPLVLKTGVQFTVKLRLLVKLQELNYNLKVKVLFDKDVNERNTVKGFRKFNILGTHTKVMNMEESTNGSLAAEFRHLQLKEQGPLIVTEELHSLSFETQLCQPGLVIDLETTSLPVVVISNVSQLPSGWASILWYNMLVAEPRNLSFFLTPPCARWAQLSEVLSWQFSSVTKRGLNVDQLNMLGEKLLGPNASPDGLIPWTRFCKENINDKNFPFWLWIESILELIKKHLLPLWNDGCIMGFISKERERALLKDQQPGTFLLRFSESSREGAITFTWVERSNGGEPDFHAVEPYTKKELSAVTFPDIIRNYKVMAAENIPENPLKYLYPNIDKDHAFGKYYSR 1yvs-a2-m3-cA_1yvs-a2-m6-cA Trimeric domain swapped barnase P00648 P00648 2.2 X-RAY DIFFRACTION 13 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 108 108 1yvs-a2-m1-cA_1yvs-a2-m5-cA 1yvs-a2-m2-cA_1yvs-a2-m4-cA VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR 1yvs-a2-m5-cA_1yvs-a2-m6-cA Trimeric domain swapped barnase P00648 P00648 2.2 X-RAY DIFFRACTION 90 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 108 108 1yvs-a1-m1-cA_1yvs-a1-m2-cA 1yvs-a1-m1-cA_1yvs-a1-m3-cA 1yvs-a1-m2-cA_1yvs-a1-m3-cA 1yvs-a2-m1-cA_1yvs-a2-m2-cA 1yvs-a2-m1-cA_1yvs-a2-m3-cA 1yvs-a2-m2-cA_1yvs-a2-m3-cA 1yvs-a2-m4-cA_1yvs-a2-m5-cA 1yvs-a2-m4-cA_1yvs-a2-m6-cA VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR 1yvw-a1-m1-cA_1yvw-a1-m1-cD Crystal structure of Phosphoribosyl-ATP pyrophosphohydrolase from Bacillus cereus. NESGC target BcR13. Q81G00 Q81G00 2.6 X-RAY DIFFRACTION 28 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 90 90 1yvw-a1-m1-cB_1yvw-a1-m1-cC AFKLLYKTIEERKGSPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEVDVFYHCFVLLAEKNIALEDVREVKERNGKL AFKLLYKTIEERKGSPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEVDVFYHCFVLLAEKNIALEDVREVKERNGKL 1yvw-a1-m1-cB_1yvw-a1-m1-cD Crystal structure of Phosphoribosyl-ATP pyrophosphohydrolase from Bacillus cereus. NESGC target BcR13. Q81G00 Q81G00 2.6 X-RAY DIFFRACTION 14 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 90 90 1yvw-a1-m1-cA_1yvw-a1-m1-cC AFKLLYKTIEERKGSPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEVDVFYHCFVLLAEKNIALEDVREVKERNGKL AFKLLYKTIEERKGSPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEVDVFYHCFVLLAEKNIALEDVREVKERNGKL 1yvw-a1-m1-cC_1yvw-a1-m1-cD Crystal structure of Phosphoribosyl-ATP pyrophosphohydrolase from Bacillus cereus. NESGC target BcR13. Q81G00 Q81G00 2.6 X-RAY DIFFRACTION 109 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 90 90 1yvw-a1-m1-cA_1yvw-a1-m1-cB AFKLLYKTIEERKGSPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEVDVFYHCFVLLAEKNIALEDVREVKERNGKL AFKLLYKTIEERKGSPLPESYTNYLFSKGEDKILKKIGEECAEVIIACKNNDKEEVVKEVDVFYHCFVLLAEKNIALEDVREVKERNGKL 1yw4-a1-m1-cB_1yw4-a1-m1-cA Crystal Structure of the Succinylglutamate Desuccinylase from Chromobacterium violaceum, Northeast Structural Genomics Target CvR22. Q7NU26 Q7NU26 2 X-RAY DIFFRACTION 10 0.984 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 305 315 SPSFLQHALSSSDTRAEWPLPGGLAARWLAPGCVELNGDARGADSVLLSCGVHGNETAPIEVVDGLTDIAAGQLALNCRLLVFANLDAIRQGVRYGNYDNRLFNGAHARHPELPESVRAAELETLAAEFFAGARARKLHYDLHTAIRGSVFEKFAIYPFLHDGRTHKREQLAWLQRCGIEAVLLHTQPANTFSYFTSQYCEADAFTLELGKARPFGQNDLSRFSGIDGALRGLLSNPQANVPDLDEDKLPLFRAKYDLVLNLADSVENFTLLPDGLIARYQATGGEERILFPNPAGIVVEPARLP THSPSFLQHALSSSDTRAEWPLPGGLAARWLAPGCVELNGDARGADSVLLSCGVHGNETAPIEVVDGLTDIAAGQLALNCRLLVFANLDAIRQGVRYGNYDNRLFNGAHARHPELPESVRAAELETLAAEFFAGARARKLHYDLHTAIRGSVFEKFAIYPFLHRTHKREQLAWLQRCGIEAVLLHTQPANTFSYFTSQYCEADAFTLELGKARPFGQNDLSRFSGIDGALRGLLSNPQANVPDLDEDKLPLFRAKYDLVKHSFKLNLADSVENFTLLPDGLIAATGGEERILFPNPAVKPGLRAGIVVEPARLPS 1yw6-a2-m1-cA_1yw6-a2-m2-cA Crystal Structure of Succinylglutamate Desuccinylase from Escherichia coli, Northeast Structural Genomics Target ET72. P76215 P76215 3.1 X-RAY DIFFRACTION 87 1.0 562 (Escherichia coli) 562 (Escherichia coli) 308 308 GDPDNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVELDALLGAISHGEIPLRWRLLVILGNPPALKQGKRSDNRFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQRDIPWDEKFLTWLGAAGLEALVFHQEPGGTFTHFSARHFGALACTLELGKALLRQFAVTASAIAALLSGESVGIVRTPPLRYRVVSQITRHSPSFEHASDTLNFPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLLEKIS GDPDNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVELDALLGAISHGEIPLRWRLLVILGNPPALKQGKRSDNRFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQRDIPWDEKFLTWLGAAGLEALVFHQEPGGTFTHFSARHFGALACTLELGKALLRQFAVTASAIAALLSGESVGIVRTPPLRYRVVSQITRHSPSFEHASDTLNFPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLLEKIS 1yw6-a2-m2-cB_1yw6-a2-m1-cA Crystal Structure of Succinylglutamate Desuccinylase from Escherichia coli, Northeast Structural Genomics Target ET72. P76215 P76215 3.1 X-RAY DIFFRACTION 24 0.99 562 (Escherichia coli) 562 (Escherichia coli) 295 308 1yw6-a2-m1-cB_1yw6-a2-m2-cA DNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVELDALLGAISHGEIPLRWRLLVILGNPPALKQGKRYCHSDNRFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQPWDEKFLTWLGAAGLEALVFHPGGTFTHFSARHFGALACTLELLRQFAVTASAIAALLSGIVRTPPLRYRVVSQITRHSPSFEHASDTLNFPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLLEKIS GDPDNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVELDALLGAISHGEIPLRWRLLVILGNPPALKQGKRSDNRFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQRDIPWDEKFLTWLGAAGLEALVFHQEPGGTFTHFSARHFGALACTLELGKALLRQFAVTASAIAALLSGESVGIVRTPPLRYRVVSQITRHSPSFEHASDTLNFPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLLEKIS 1yw6-a2-m2-cB_1yw6-a2-m2-cA Crystal Structure of Succinylglutamate Desuccinylase from Escherichia coli, Northeast Structural Genomics Target ET72. P76215 P76215 3.1 X-RAY DIFFRACTION 47 0.99 562 (Escherichia coli) 562 (Escherichia coli) 295 308 1yw6-a1-m1-cB_1yw6-a1-m1-cA 1yw6-a2-m1-cB_1yw6-a2-m1-cA DNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVELDALLGAISHGEIPLRWRLLVILGNPPALKQGKRYCHSDNRFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQPWDEKFLTWLGAAGLEALVFHPGGTFTHFSARHFGALACTLELLRQFAVTASAIAALLSGIVRTPPLRYRVVSQITRHSPSFEHASDTLNFPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLLEKIS GDPDNFLALTLTGKKPVITEREINGVRWRWLGDGVLELTPLTPPQGALVISAGIHGNETAPVELDALLGAISHGEIPLRWRLLVILGNPPALKQGKRSDNRFGGRWQLFAESGETCRARELEQCLEDFYDQGKESVRWHLDLHTAIRGSLHPQFGVLPQRDIPWDEKFLTWLGAAGLEALVFHQEPGGTFTHFSARHFGALACTLELGKALLRQFAVTASAIAALLSGESVGIVRTPPLRYRVVSQITRHSPSFEHASDTLNFPFEKGTLLAQDGEERFTVTHDVEYVLFPNPLVALGLRAGLLEKIS 1ywh-a1-m1-cE_1ywh-a1-m1-cM crystal structure of urokinase plasminogen activator receptor Q03405 Q03405 2.7 X-RAY DIFFRACTION 10 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 262 263 1ywh-a1-m1-cK_1ywh-a1-m1-cG LRCMQCKTNGDCRVEECALGQDLCRTTIVRLWEEGEELELVEKSCTHSEKTNRTLSYRTGLKITSLTEVVCGLDLCNQGRSRYLECISCGSSDMSCERGRHQSLQCRSPEEQCLDVVTHWIQKDDRHLRGCGYLPGCPGSNGFHNNDTFHFLKCCNTTKCNEGPILELENLPQNGRQCYSCKGQSTHGCSSEETFLIDCRGPMNQCLVATGTHEPKNQSYMVRGCATASMCQHAHLGDAFSMNHIDVSCCTKSGCNHPDLDV LRCMQCKTNGDCRVEECALGQDLCRTTIVRLWEEGEELELVEKSCTHSEKTNRTLSYRTGLKITSLTEVVCGLDLCNQGNSSRSRYLECISCGSSDMSCERGRHQSLQCRSPEEQCLDVVTHWIQDDRHLRGCGYLPGCPGSNGFHNNDTFHFLKCCNTTKCNEGPILELENLPQNGRQCYSCKGQSTHGCSSEETFLIDCRGPMNQCLVATGTHEPKNQSYMVRGCATASMCQHAHLGDAFSMNHIDVSCCTKSGCNHPDLD 1ywh-a2-m1-cC_1ywh-a2-m1-cE crystal structure of urokinase plasminogen activator receptor Q03405 Q03405 2.7 X-RAY DIFFRACTION 40 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 259 262 1ywh-a1-m1-cC_1ywh-a1-m1-cA 1ywh-a1-m1-cC_1ywh-a1-m1-cE 1ywh-a1-m1-cG_1ywh-a1-m1-cA 1ywh-a1-m1-cG_1ywh-a1-m1-cE 1ywh-a1-m1-cK_1ywh-a1-m1-cI 1ywh-a1-m1-cK_1ywh-a1-m1-cM 1ywh-a1-m1-cO_1ywh-a1-m1-cI 1ywh-a1-m1-cO_1ywh-a1-m1-cM 1ywh-a2-m1-cC_1ywh-a2-m1-cA 1ywh-a2-m1-cG_1ywh-a2-m1-cA 1ywh-a2-m1-cG_1ywh-a2-m1-cE 1ywh-a3-m1-cK_1ywh-a3-m1-cI 1ywh-a3-m1-cK_1ywh-a3-m1-cM 1ywh-a3-m1-cO_1ywh-a3-m1-cI 1ywh-a3-m1-cO_1ywh-a3-m1-cM LRCMQCKTNGDCRVEECALGQDLCRTTIVRLWEEGEELELVEKSCTHSEKTNRTLSYRTGLKITSLTEVVCGLDLCNQGNRYLECISCGSSDMSCERGRHQSLQCRSPEEQCLDVVTHWIQPKDDRHLRGCGYLPGCPGSNGFHNNDTFHFLKCCNTTKCNEGPILELENLPQNGRQCYSCKGQSTHGCSSEETFLIDCRGPMNQCLVATGTHEPKNQSYMVRGCATASMCQHAHLGDAFSMNHIDVSCCTKSGCNHPD LRCMQCKTNGDCRVEECALGQDLCRTTIVRLWEEGEELELVEKSCTHSEKTNRTLSYRTGLKITSLTEVVCGLDLCNQGRSRYLECISCGSSDMSCERGRHQSLQCRSPEEQCLDVVTHWIQKDDRHLRGCGYLPGCPGSNGFHNNDTFHFLKCCNTTKCNEGPILELENLPQNGRQCYSCKGQSTHGCSSEETFLIDCRGPMNQCLVATGTHEPKNQSYMVRGCATASMCQHAHLGDAFSMNHIDVSCCTKSGCNHPDLDV 1ywq-a1-m1-cA_1ywq-a1-m2-cA Crystal structure of a nitroreductase family protein from Bacillus cereus ATCC 14579 Q81EW9 Q81EW9 2.3 X-RAY DIFFRACTION 167 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 199 199 SATTTNLKEAIVNRRSIRKVTKNDAITKERIEEVLKTALHAPTSFNMQSGRMVVLMDGEHEKFWDIVKETLRARVPAENFEATVERLKGFHAGVGTVLFFEDQATVEKMQENAPLYKDQFPFWSHQGNAMLQHTVWMLLSAEGIGASLQHYNPIVDAEVKETWNIPAEWSLVGQMPFGEPNEQPAERTFLPTEDVVKFY SATTTNLKEAIVNRRSIRKVTKNDAITKERIEEVLKTALHAPTSFNMQSGRMVVLMDGEHEKFWDIVKETLRARVPAENFEATVERLKGFHAGVGTVLFFEDQATVEKMQENAPLYKDQFPFWSHQGNAMLQHTVWMLLSAEGIGASLQHYNPIVDAEVKETWNIPAEWSLVGQMPFGEPNEQPAERTFLPTEDVVKFY 1yx1-a1-m1-cA_1yx1-a1-m1-cC Crystal Structure of Protein of Unknown Function PA2260 from Pseudomonas aeruginosa, Possible Sugar Phosphate Isomerase Q9I1L3 Q9I1L3 1.8 X-RAY DIFFRACTION 38 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 248 248 1yx1-a1-m1-cA_1yx1-a1-m1-cB 1yx1-a1-m1-cC_1yx1-a1-m1-cB LHPVSISLSSYGADLVRSRGQASFLPLLAAGAQRVELREELFAGPPDTEALTAAIQLQGLECVFSSPLELWREDGQLNPELEPTLRRAEACGAGWLKVSLGLLPEQPDLAALGRRLARHGLQLLVENDQTPQGGRIEVLERFFRLAERQQLDLATFDIGNWRWQEQAADEAALRLGRYVGYVHCKAVIRNRDGKLVAVPPSAADLQYWQRLLQHFPEGVARAIEYPLQGDDLLSLSRRHIAALARLGQ LHPVSISLSSYGADLVRSRGQASFLPLLAAGAQRVELREELFAGPPDTEALTAAIQLQGLECVFSSPLELWREDGQLNPELEPTLRRAEACGAGWLKVSLGLLPEQPDLAALGRRLARHGLQLLVENDQTPQGGRIEVLERFFRLAERQQLDLATFDIGNWRWQEQAADEAALRLGRYVGYVHCKAVIRNRDGKLVAVPPSAADLQYWQRLLQHFPEGVARAIEYPLQGDDLLSLSRRHIAALARLGQ 1yxb-a2-m1-cE_1yxb-a2-m1-cH Crystal structure of Phosphoribosyl-ATP pyrophosphatase from Streptomyces coelicolor. NESG target RR8. Q9EWK0 Q9EWK0 2.6 X-RAY DIFFRACTION 13 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 81 81 1yxb-a1-m1-cA_1yxb-a1-m1-cD 1yxb-a1-m1-cB_1yxb-a1-m1-cC 1yxb-a2-m1-cF_1yxb-a2-m1-cG KTFEELFTELQHKAANTSRTAELVDKGVHAIGKKVVEEAAEVWAAEYEGKDAAAEEISQLLYHVQVVARGISLDDVYAHLL KTFEELFTELQHKAANTSRTAELVDKGVHAIGKKVVEEAAEVWAAEYEGKDAAAEEISQLLYHVQVVARGISLDDVYAHLL 1yxb-a2-m1-cG_1yxb-a2-m1-cH Crystal structure of Phosphoribosyl-ATP pyrophosphatase from Streptomyces coelicolor. NESG target RR8. Q9EWK0 Q9EWK0 2.6 X-RAY DIFFRACTION 119 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 81 81 1yxb-a1-m1-cA_1yxb-a1-m1-cB 1yxb-a1-m1-cC_1yxb-a1-m1-cD 1yxb-a2-m1-cE_1yxb-a2-m1-cF KTFEELFTELQHKAANTSRTAELVDKGVHAIGKKVVEEAAEVWAAEYEGKDAAAEEISQLLYHVQVVARGISLDDVYAHLL KTFEELFTELQHKAANTSRTAELVDKGVHAIGKKVVEEAAEVWAAEYEGKDAAAEEISQLLYHVQVVARGISLDDVYAHLL 1yxm-a1-m1-cB_1yxm-a1-m1-cA Crystal structure of peroxisomal trans 2-enoyl CoA reductase Q9BY49 Q9BY49 1.9 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 283 297 RSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLPPTKQARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFK GRSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLPPTKQARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAVENYGSWGQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFKEKAKL 1yxm-a1-m1-cB_1yxm-a1-m1-cD Crystal structure of peroxisomal trans 2-enoyl CoA reductase Q9BY49 Q9BY49 1.9 X-RAY DIFFRACTION 46 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 283 291 1yxm-a1-m1-cC_1yxm-a1-m1-cA RSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLPPTKQARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFK RSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAVENYGSWGQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFKEKAKL 1yxm-a1-m1-cC_1yxm-a1-m1-cD Crystal structure of peroxisomal trans 2-enoyl CoA reductase Q9BY49 Q9BY49 1.9 X-RAY DIFFRACTION 101 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 264 291 AKGRSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLKQARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAVFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFKE RSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAVENYGSWGQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFKEKAKL 1yxm-a1-m1-cD_1yxm-a1-m1-cA Crystal structure of peroxisomal trans 2-enoyl CoA reductase Q9BY49 Q9BY49 1.9 X-RAY DIFFRACTION 178 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 291 297 1yxm-a1-m1-cC_1yxm-a1-m1-cB RSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAVENYGSWGQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFKEKAKL GRSYLAPGLLQGQVAIVTGGATGIGKAIVKELLELGSNVVIASRKLERLKSAADELQANLPPTKQARVIPIQCNIRNEEEVNNLVKSTLDTFGKINFLVNNGGGQFLSPAEHISSKGWHAVLETNLTGTFYMCKAVYSSWMKEHGGSIVNIIVPTKAGFPLAVHSGAARAGVYNLTKSLALEWACSGIRINCVAPGVIYSQTAVENYGSWGQSFFEGSFQKIPAKRIGVPEEVSSVVCFLLSPAASFITGQSVDVDGGRSLYTHSYEVPDHDNWPKGAGDLSVVKKMKETFKEKAKL 1yxo-a1-m1-cA_1yxo-a1-m1-cB Crystal Structure of pyridoxal phosphate biosynthetic protein PdxA PA0593 Q9I5U4 Q9I5U4 2.01 X-RAY DIFFRACTION 126 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 322 322 SLRFALTPGEPAGIGPDLCLLLARSAQPHPLIAIASRTLLQERAGQLGLAIDLKDVSPAAWPERPAKAGQLYVWDTPLAAPVRPGQLDRANAAYVLETLTRAGQGCLDGHFAGITAPVHKGVINEAGIPFSGHTEFLADLTHTAQVVLATRGLRVALATTHLPLREVADAISDERLTRVARILHADLRDKFGIAHPRILVCGLNPHAGEGGHLGREEIEVIEPCLERLRGEGLDLIGPLPADTLFTPKHLEHCDAVLAYHDQGLPVLKYKGFGAAVNVTLGLPIIRTSVDHGTALDLAGSGRIDSGSLQVALETAYQAASRC SLRFALTPGEPAGIGPDLCLLLARSAQPHPLIAIASRTLLQERAGQLGLAIDLKDVSPAAWPERPAKAGQLYVWDTPLAAPVRPGQLDRANAAYVLETLTRAGQGCLDGHFAGITAPVHKGVINEAGIPFSGHTEFLADLTHTAQVVLATRGLRVALATTHLPLREVADAISDERLTRVARILHADLRDKFGIAHPRILVCGLNPHAGEGGHLGREEIEVIEPCLERLRGEGLDLIGPLPADTLFTPKHLEHCDAVLAYHDQGLPVLKYKGFGAAVNVTLGLPIIRTSVDHGTALDLAGSGRIDSGSLQVALETAYQAASRC 1yxy-a3-m1-cA_1yxy-a3-m2-cB Crystal Structure of putative N-acetylmannosamine-6-P epimerase from Streptococcus pyogenes (APC29713) Structural genomics, MCSG P65522 P65522 1.6 X-RAY DIFFRACTION 126 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 230 230 KPTKEKLMEQLKGGIIVSCQALPGEPLYSETGGIMPLMAKAAQEAGAVGIRANSVRDIKEIQAITDLPIIGIIKKDYPPQEPFITATMTEVDQLAALNIAVIAMDCTKRDRHDGLDIASFIRQVKEKYPNQLLMADISTFDEGLVAHQAGIDFVGTTLSGYTPYSRQEAGPDVALIEALCKAGIAVIAEGKIHSPEEAKKINDLGVAGIVVGGAITRPKEIAERFIEALK KPTKEKLMEQLKGGIIVSCQALPGEPLYSETGGIMPLMAKAAQEAGAVGIRANSVRDIKEIQAITDLPIIGIIKKDYPPQEPFITATMTEVDQLAALNIAVIAMDCTKRDRHDGLDIASFIRQVKEKYPNQLLMADISTFDEGLVAHQAGIDFVGTTLSGYTPYSRQEAGPDVALIEALCKAGIAVIAEGKIHSPEEAKKINDLGVAGIVVGGAITRPKEIAERFIEALK 1yxy-a4-m1-cA_1yxy-a4-m1-cB Crystal Structure of putative N-acetylmannosamine-6-P epimerase from Streptococcus pyogenes (APC29713) Structural genomics, MCSG P65522 P65522 1.6 X-RAY DIFFRACTION 24 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 230 230 KPTKEKLMEQLKGGIIVSCQALPGEPLYSETGGIMPLMAKAAQEAGAVGIRANSVRDIKEIQAITDLPIIGIIKKDYPPQEPFITATMTEVDQLAALNIAVIAMDCTKRDRHDGLDIASFIRQVKEKYPNQLLMADISTFDEGLVAHQAGIDFVGTTLSGYTPYSRQEAGPDVALIEALCKAGIAVIAEGKIHSPEEAKKINDLGVAGIVVGGAITRPKEIAERFIEALK KPTKEKLMEQLKGGIIVSCQALPGEPLYSETGGIMPLMAKAAQEAGAVGIRANSVRDIKEIQAITDLPIIGIIKKDYPPQEPFITATMTEVDQLAALNIAVIAMDCTKRDRHDGLDIASFIRQVKEKYPNQLLMADISTFDEGLVAHQAGIDFVGTTLSGYTPYSRQEAGPDVALIEALCKAGIAVIAEGKIHSPEEAKKINDLGVAGIVVGGAITRPKEIAERFIEALK 1yy7-a1-m1-cB_1yy7-a1-m1-cA Crystal structure of stringent starvation protein A (SspA), an RNA polymerase-associated transcription factor A0A5P8YJZ1 A0A5P8YJZ1 2.02 X-RAY DIFFRACTION 51 0.98 632 (Yersinia pestis) 632 (Yersinia pestis) 204 206 VMTLFSGPTDIFSHQVRIVLAEKGVSVEIEQVEADNLPQDLIDLNPYRTVPTLVDRELTLYESRIIMEYLDERFPHPPLMPVYPVARGSSRLMMHRIEHDWYSLLYKIEQGNAQEAEAARKQLREELLSIAPVFNETPFFMSEEFSLVDCYLAPLLWRLPVLGIEFTGAGSKELKGYMTRVFERDAFLASLTEAEREMHLKTRS AANKRSVMTLFSGPTDIFSHQVRIVLAEKGVSVEIEQVEADNLPQDLIDLNPYRTVPTLVDRELTLYESRIIMEYLDERFPHPPLMPVYPVARGSSRLMMHRIEHDWYSLLYKIEQGNAQEAEAARKQLREELLSIAPVFNETPFFMSEEFSLVDCYLAPLLWRLPVLGIEFTGAGSKELKGYMTRVFERDAFLASLTEAEREMHL 1yya-a1-m1-cA_1yya-a1-m1-cB Crystal structure of TT0473, putative Triosephosphate Isomerase from Thermus thermophilus HB8 Q5SJR1 Q5SJR1 1.6 X-RAY DIFFRACTION 136 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 250 250 MRRVLVAGNWKMHKTPSEARVWFAELKRLLPPLQSEAAVLPAFPILPVAKEVLAETQVGYGAQDVSAHKEGAYTGEVSARMLSDLGCRYAIVGHSERRRYHGETDALVAEKAKRLLEEGITPILCVGEPLEVREKGEAVPYTLRQLRGSLEGVEPPGPEALVIAYEPVWAIGTGKNATPEDAEAMHQAIRKALSERYGEAFASRVRILYGGSVNPKNFADLLSMPNVDGGLVGGASLELESFLALLRIAG MRRVLVAGNWKMHKTPSEARVWFAELKRLLPPLQSEAAVLPAFPILPVAKEVLAETQVGYGAQDVSAHKEGAYTGEVSARMLSDLGCRYAIVGHSERRRYHGETDALVAEKAKRLLEEGITPILCVGEPLEVREKGEAVPYTLRQLRGSLEGVEPPGPEALVIAYEPVWAIGTGKNATPEDAEAMHQAIRKALSERYGEAFASRVRILYGGSVNPKNFADLLSMPNVDGGLVGGASLELESFLALLRIAG 1yyv-a1-m1-cB_1yyv-a1-m1-cA Putative transcriptional regulator ytfH from Salmonella typhimurium Q7CP90 Q7CP90 2.35 X-RAY DIFFRACTION 133 0.991 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 107 109 EGNLFAEQCPSREVLKHVTSRWGVLILVALRDGTHRFSDLRRGGVSELAQSLQALEQDGFLNRVSYPVVPPHVEYSLTPLGEQVSDVAALADWIELNLPQVLAQRER QLREGNLFAEQCPSREVLKHVTSRWGVLILVALRDGTHRFSDLRRGGVSELAQSLQALEQDGFLNRVSYPVVPPHVEYSLTPLGEQVSDVAALADWIELNLPQVLAQRE 1yyw-a2-m1-cC_1yyw-a2-m1-cD Crystal structure of RNase III from Aquifex aeolicus complexed with double stranded RNA at 2.8-Angstrom Resolution O67082 O67082 2.8 X-RAY DIFFRACTION 63 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 218 219 1yyw-a1-m1-cA_1yyw-a1-m1-cB KMLEQLEKKLGYTFKDKSLLEKALTHVSYSKKEHYETLEFLGDALVNFFIVDLLVQYSPNKREGFLSPLKAYLISEEFFNLLAQKLELHKFIRIKRGKINETIIGDVFEALWAAVYIDSGRDANFTRELFYKLFKEDILSAIKEGRVKKDYKTILQEITQKRWKERPEYRLISVEGPHHKKKFIVEAKIKEYRTLGEGKSKKEAEQRAAEELIKLLEE KMLEQLEKKLGYTFKDKSLLEKALTHVSYSKKEHYETLEFLGDALVNFFIVDLLVQYSPNKREGFLSPLKAYLISEEFFNLLAQKLELHKFIRIKRGKINETIIGDVFEALWAAVYIDSGRDANFTRELFYKLFKEDILSAIKEGRVKKDYKTILQEITQKRWKERPEYRLISVEGPHHKKKFIVEAKIKEYRTLGEGKSKKEAEQRAAEELIKLLEES 1yzv-a2-m15-cA_1yzv-a2-m9-cA HYPOTHETICAL PROTEIN FROM TRYPANOSOMA CRUZI Q4D3U8 Q4D3U8 2.001 X-RAY DIFFRACTION 43 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 195 195 1yzv-a2-m10-cA_1yzv-a2-m3-cA 1yzv-a2-m11-cA_1yzv-a2-m24-cA 1yzv-a2-m12-cA_1yzv-a2-m22-cA 1yzv-a2-m13-cA_1yzv-a2-m23-cA 1yzv-a2-m14-cA_1yzv-a2-m21-cA 1yzv-a2-m16-cA_1yzv-a2-m7-cA 1yzv-a2-m17-cA_1yzv-a2-m2-cA 1yzv-a2-m18-cA_1yzv-a2-m6-cA 1yzv-a2-m1-cA_1yzv-a2-m19-cA 1yzv-a2-m20-cA_1yzv-a2-m5-cA 1yzv-a2-m4-cA_1yzv-a2-m8-cA SRLLKHYGSCKTAFFCCDIQEKFMGRIANSANCVFVANRFAGLHTALGTAHSVYIVTEQYPKGLGATSADIRLPPDAHVFSKKRFAMLVPQVMPLVDLPEVEQVVLWGFETHVCILQTAAALLDMKKKVVIAVDGCGSQSQGDHCTAIQLMQSWSGDGCYISTSESILMQLLKDASDPVFKTIAPLMKQTHPIRI SRLLKHYGSCKTAFFCCDIQEKFMGRIANSANCVFVANRFAGLHTALGTAHSVYIVTEQYPKGLGATSADIRLPPDAHVFSKKRFAMLVPQVMPLVDLPEVEQVVLWGFETHVCILQTAAALLDMKKKVVIAVDGCGSQSQGDHCTAIQLMQSWSGDGCYISTSESILMQLLKDASDPVFKTIAPLMKQTHPIRI 1yzv-a2-m24-cA_1yzv-a2-m9-cA HYPOTHETICAL PROTEIN FROM TRYPANOSOMA CRUZI Q4D3U8 Q4D3U8 2.001 X-RAY DIFFRACTION 68 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 195 195 1yzv-a1-m1-cA_1yzv-a1-m3-cA 1yzv-a1-m1-cA_1yzv-a1-m4-cA 1yzv-a1-m2-cA_1yzv-a1-m3-cA 1yzv-a1-m2-cA_1yzv-a1-m4-cA 1yzv-a2-m10-cA_1yzv-a2-m23-cA 1yzv-a2-m10-cA_1yzv-a2-m24-cA 1yzv-a2-m11-cA_1yzv-a2-m17-cA 1yzv-a2-m11-cA_1yzv-a2-m18-cA 1yzv-a2-m12-cA_1yzv-a2-m17-cA 1yzv-a2-m12-cA_1yzv-a2-m18-cA 1yzv-a2-m13-cA_1yzv-a2-m19-cA 1yzv-a2-m13-cA_1yzv-a2-m20-cA 1yzv-a2-m14-cA_1yzv-a2-m19-cA 1yzv-a2-m14-cA_1yzv-a2-m20-cA 1yzv-a2-m15-cA_1yzv-a2-m5-cA 1yzv-a2-m15-cA_1yzv-a2-m6-cA 1yzv-a2-m16-cA_1yzv-a2-m5-cA 1yzv-a2-m16-cA_1yzv-a2-m6-cA 1yzv-a2-m1-cA_1yzv-a2-m3-cA 1yzv-a2-m1-cA_1yzv-a2-m4-cA 1yzv-a2-m21-cA_1yzv-a2-m7-cA 1yzv-a2-m21-cA_1yzv-a2-m8-cA 1yzv-a2-m22-cA_1yzv-a2-m7-cA 1yzv-a2-m22-cA_1yzv-a2-m8-cA 1yzv-a2-m23-cA_1yzv-a2-m9-cA 1yzv-a2-m2-cA_1yzv-a2-m3-cA 1yzv-a2-m2-cA_1yzv-a2-m4-cA SRLLKHYGSCKTAFFCCDIQEKFMGRIANSANCVFVANRFAGLHTALGTAHSVYIVTEQYPKGLGATSADIRLPPDAHVFSKKRFAMLVPQVMPLVDLPEVEQVVLWGFETHVCILQTAAALLDMKKKVVIAVDGCGSQSQGDHCTAIQLMQSWSGDGCYISTSESILMQLLKDASDPVFKTIAPLMKQTHPIRI SRLLKHYGSCKTAFFCCDIQEKFMGRIANSANCVFVANRFAGLHTALGTAHSVYIVTEQYPKGLGATSADIRLPPDAHVFSKKRFAMLVPQVMPLVDLPEVEQVVLWGFETHVCILQTAAALLDMKKKVVIAVDGCGSQSQGDHCTAIQLMQSWSGDGCYISTSESILMQLLKDASDPVFKTIAPLMKQTHPIRI 1yzv-a2-m5-cA_1yzv-a2-m9-cA HYPOTHETICAL PROTEIN FROM TRYPANOSOMA CRUZI Q4D3U8 Q4D3U8 2.001 X-RAY DIFFRACTION 10 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 195 195 1yzv-a2-m10-cA_1yzv-a2-m11-cA 1yzv-a2-m10-cA_1yzv-a2-m2-cA 1yzv-a2-m11-cA_1yzv-a2-m2-cA 1yzv-a2-m12-cA_1yzv-a2-m6-cA 1yzv-a2-m12-cA_1yzv-a2-m7-cA 1yzv-a2-m13-cA_1yzv-a2-m5-cA 1yzv-a2-m13-cA_1yzv-a2-m9-cA 1yzv-a2-m14-cA_1yzv-a2-m8-cA 1yzv-a2-m15-cA_1yzv-a2-m18-cA 1yzv-a2-m15-cA_1yzv-a2-m24-cA 1yzv-a2-m16-cA_1yzv-a2-m20-cA 1yzv-a2-m16-cA_1yzv-a2-m21-cA 1yzv-a2-m17-cA_1yzv-a2-m22-cA 1yzv-a2-m17-cA_1yzv-a2-m4-cA 1yzv-a2-m18-cA_1yzv-a2-m24-cA 1yzv-a2-m19-cA_1yzv-a2-m23-cA 1yzv-a2-m19-cA_1yzv-a2-m3-cA 1yzv-a2-m1-cA_1yzv-a2-m14-cA 1yzv-a2-m1-cA_1yzv-a2-m8-cA 1yzv-a2-m20-cA_1yzv-a2-m21-cA 1yzv-a2-m22-cA_1yzv-a2-m4-cA 1yzv-a2-m23-cA_1yzv-a2-m3-cA 1yzv-a2-m6-cA_1yzv-a2-m7-cA SRLLKHYGSCKTAFFCCDIQEKFMGRIANSANCVFVANRFAGLHTALGTAHSVYIVTEQYPKGLGATSADIRLPPDAHVFSKKRFAMLVPQVMPLVDLPEVEQVVLWGFETHVCILQTAAALLDMKKKVVIAVDGCGSQSQGDHCTAIQLMQSWSGDGCYISTSESILMQLLKDASDPVFKTIAPLMKQTHPIRI SRLLKHYGSCKTAFFCCDIQEKFMGRIANSANCVFVANRFAGLHTALGTAHSVYIVTEQYPKGLGATSADIRLPPDAHVFSKKRFAMLVPQVMPLVDLPEVEQVVLWGFETHVCILQTAAALLDMKKKVVIAVDGCGSQSQGDHCTAIQLMQSWSGDGCYISTSESILMQLLKDASDPVFKTIAPLMKQTHPIRI 1yzz-a1-m1-cA_1yzz-a1-m1-cB Humanized caban33 at room temperature 2.7 X-RAY DIFFRACTION 44 0.991 9838 (Camelus dromedarius) 9838 (Camelus dromedarius) 114 115 1yc8-a1-m1-cB_1yc8-a1-m1-cA DVQLVESGGGSVQAGGSLRLSCAVSGSTYSPCTTGWVRQAPGKGLEWVSSISSPGTIYYQDSVKGRFTISRDNAKNTVYLQMNSLQREDTGMYYCQIQCSIREYWGQGTQVTVS DVQLVESGGGSVQAGGSLRLSCAVSGSTYSPCTTGWVRQAPGKGLEWVSSISSPGTIYYQDSVKGRFTISRDNAKNTVYLQMNSLQREDTGMYYCQIQCGVIREYWGQGTQVTVS 1z02-a3-m1-cA_1z02-a3-m2-cF 2-Oxoquinoline 8-Monooxygenase Component: Active site Modulation by Rieske-[2fe-2S] Center Oxidation/Reduction O05935 O05935 1.8 X-RAY DIFFRACTION 31 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 427 427 1z01-a3-m1-cA_1z01-a3-m2-cF 1z01-a3-m1-cB_1z01-a3-m2-cE 1z01-a3-m1-cC_1z01-a3-m2-cD 1z02-a3-m1-cB_1z02-a3-m2-cE 1z02-a3-m1-cC_1z02-a3-m2-cD 1z03-a3-m1-cA_1z03-a3-m2-cF 1z03-a3-m1-cB_1z03-a3-m2-cE 1z03-a3-m1-cC_1z03-a3-m2-cD ISDARANNAKTQSQYQPYKDAAWGFINHWYPALFTHELEEDQVQGIQICGVPIVLRRVNGKVFALKDQCLHRGVRLSEKPTCFTKSTISCWYHGFTFDLETGKLVTIVANPEDKLIGTTGVTTYPVHEVNGMIFVFVREDDFPDEDVPPLAHDLPFRFPERSEQFPHPLWPSSPSVLDDNAVVHGMHRTGFGNWRIACENGFDNAHILVHKDNTIVHAMDWVLPLGLLPTSDDCIAVVEDDDGPKGMMQWLFTDKWAPVLENQELGLKVEGLKGRHYRTSVVLPGVLMVENWPEEHVVQYEWYVPITDDTHEYWEILVRVCPTDEDRKKFQYRYDHMYKPLCLHGFNDSDLYAREAMQNFYYDGTGWDDEQLVATDISPITWRKLASRWNRGIAKPGRGVAGAVKDTSLIFKQTADGKRPGYKVEQI ISDARANNAKTQSQYQPYKDAAWGFINHWYPALFTHELEEDQVQGIQICGVPIVLRRVNGKVFALKDQCLHRGVRLSEKPTCFTKSTISCWYHGFTFDLETGKLVTIVANPEDKLIGTTGVTTYPVHEVNGMIFVFVREDDFPDEDVPPLAHDLPFRFPERSEQFPHPLWPSSPSVLDDNAVVHGMHRTGFGNWRIACENGFDNAHILVHKDNTIVHAMDWVLPLGLLPTSDDCIAVVEDDDGPKGMMQWLFTDKWAPVLENQELGLKVEGLKGRHYRTSVVLPGVLMVENWPEEHVVQYEWYVPITDDTHEYWEILVRVCPTDEDRKKFQYRYDHMYKPLCLHGFNDSDLYAREAMQNFYYDGTGWDDEQLVATDISPITWRKLASRWNRGIAKPGRGVAGAVKDTSLIFKQTADGKRPGYKVEQI 1z02-a3-m2-cE_1z02-a3-m2-cF 2-Oxoquinoline 8-Monooxygenase Component: Active site Modulation by Rieske-[2fe-2S] Center Oxidation/Reduction O05935 O05935 1.8 X-RAY DIFFRACTION 164 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 427 427 1z01-a1-m1-cA_1z01-a1-m1-cB 1z01-a1-m1-cA_1z01-a1-m1-cC 1z01-a1-m1-cB_1z01-a1-m1-cC 1z01-a2-m1-cD_1z01-a2-m1-cE 1z01-a2-m1-cD_1z01-a2-m1-cF 1z01-a2-m1-cE_1z01-a2-m1-cF 1z01-a3-m1-cA_1z01-a3-m1-cB 1z01-a3-m1-cA_1z01-a3-m1-cC 1z01-a3-m1-cB_1z01-a3-m1-cC 1z01-a3-m2-cD_1z01-a3-m2-cE 1z01-a3-m2-cD_1z01-a3-m2-cF 1z01-a3-m2-cE_1z01-a3-m2-cF 1z02-a1-m1-cA_1z02-a1-m1-cB 1z02-a1-m1-cA_1z02-a1-m1-cC 1z02-a1-m1-cB_1z02-a1-m1-cC 1z02-a2-m1-cD_1z02-a2-m1-cE 1z02-a2-m1-cD_1z02-a2-m1-cF 1z02-a2-m1-cE_1z02-a2-m1-cF 1z02-a3-m1-cA_1z02-a3-m1-cB 1z02-a3-m1-cA_1z02-a3-m1-cC 1z02-a3-m1-cB_1z02-a3-m1-cC 1z02-a3-m2-cD_1z02-a3-m2-cE 1z02-a3-m2-cD_1z02-a3-m2-cF 1z03-a1-m1-cA_1z03-a1-m1-cB 1z03-a1-m1-cA_1z03-a1-m1-cC 1z03-a1-m1-cB_1z03-a1-m1-cC 1z03-a2-m1-cD_1z03-a2-m1-cE 1z03-a2-m1-cD_1z03-a2-m1-cF 1z03-a2-m1-cE_1z03-a2-m1-cF 1z03-a3-m1-cA_1z03-a3-m1-cB 1z03-a3-m1-cA_1z03-a3-m1-cC 1z03-a3-m1-cB_1z03-a3-m1-cC 1z03-a3-m2-cD_1z03-a3-m2-cE 1z03-a3-m2-cD_1z03-a3-m2-cF 1z03-a3-m2-cE_1z03-a3-m2-cF ISDARANNAKTQSQYQPYKDAAWGFINHWYPALFTHELEEDQVQGIQICGVPIVLRRVNGKVFALKDQCLHRGVRLSEKPTCFTKSTISCWYHGFTFDLETGKLVTIVANPEDKLIGTTGVTTYPVHEVNGMIFVFVREDDFPDEDVPPLAHDLPFRFPERSEQFPHPLWPSSPSVLDDNAVVHGMHRTGFGNWRIACENGFDNAHILVHKDNTIVHAMDWVLPLGLLPTSDDCIAVVEDDDGPKGMMQWLFTDKWAPVLENQELGLKVEGLKGRHYRTSVVLPGVLMVENWPEEHVVQYEWYVPITDDTHEYWEILVRVCPTDEDRKKFQYRYDHMYKPLCLHGFNDSDLYAREAMQNFYYDGTGWDDEQLVATDISPITWRKLASRWNRGIAKPGRGVAGAVKDTSLIFKQTADGKRPGYKVEQI ISDARANNAKTQSQYQPYKDAAWGFINHWYPALFTHELEEDQVQGIQICGVPIVLRRVNGKVFALKDQCLHRGVRLSEKPTCFTKSTISCWYHGFTFDLETGKLVTIVANPEDKLIGTTGVTTYPVHEVNGMIFVFVREDDFPDEDVPPLAHDLPFRFPERSEQFPHPLWPSSPSVLDDNAVVHGMHRTGFGNWRIACENGFDNAHILVHKDNTIVHAMDWVLPLGLLPTSDDCIAVVEDDDGPKGMMQWLFTDKWAPVLENQELGLKVEGLKGRHYRTSVVLPGVLMVENWPEEHVVQYEWYVPITDDTHEYWEILVRVCPTDEDRKKFQYRYDHMYKPLCLHGFNDSDLYAREAMQNFYYDGTGWDDEQLVATDISPITWRKLASRWNRGIAKPGRGVAGAVKDTSLIFKQTADGKRPGYKVEQI 1z05-a1-m1-cA_1z05-a1-m2-cA Crystal structure of the ROK family transcriptional regulator, homolog of E.coli MLC protein. Q9KQJ1 Q9KQJ1 2 X-RAY DIFFRACTION 100 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 396 396 DHIKQINAGRVYKLIDQKGPISRIDLSKESELAPASITKITRELIDAHLIHETTVQEAISRGRPAVGLQTNNLGWQFLSMRLGRGYLTIALHELGGEVLIDTKIDIHEIDQDDVLARLLFEIEEFFQTYAAQLDRVTSIAITLPGLVNSEQGIVLQMPHYNVKNLALGPEIYKATGLPVFVANDTRAWALAEKLFGHSQDVDNSVLISIHHGLGAGIVLDGRVLQGRHGNIGELGHIQIDPQGKRCHCGNYGCLETVASSQAIRDQVTARIQAGEPSCLATVEEISIEDICAAAADGDPLAVDVIQQLGRYLGAAIAIVINLFNPEKILIGGVINQAKSILYPSIEQCIREQSLPVYHQDLKLVESRFYKQATMPGAALIKQALYDGLLLMKVVEG DHIKQINAGRVYKLIDQKGPISRIDLSKESELAPASITKITRELIDAHLIHETTVQEAISRGRPAVGLQTNNLGWQFLSMRLGRGYLTIALHELGGEVLIDTKIDIHEIDQDDVLARLLFEIEEFFQTYAAQLDRVTSIAITLPGLVNSEQGIVLQMPHYNVKNLALGPEIYKATGLPVFVANDTRAWALAEKLFGHSQDVDNSVLISIHHGLGAGIVLDGRVLQGRHGNIGELGHIQIDPQGKRCHCGNYGCLETVASSQAIRDQVTARIQAGEPSCLATVEEISIEDICAAAADGDPLAVDVIQQLGRYLGAAIAIVINLFNPEKILIGGVINQAKSILYPSIEQCIREQSLPVYHQDLKLVESRFYKQATMPGAALIKQALYDGLLLMKVVEG 1z08-a5-m1-cD_1z08-a5-m2-cC GppNHp-Bound Rab21 Q53G mutant GTPase Q9UL25 Q9UL25 1.8 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 167 YSFKVVLLGEGCVGKTSLVLRYCENKFNDKHITTLGASFLTKKLNIGGKRVNLAIWDTAGQERFHALGPIYYRDSNGAILVYDITDEDSFQKVKNWVKELRKMLGNEICLCIVGNKIDLEKERHVSIQEAESYAESVGAKHYHTSAKQNKGIEELFLDLCKRMIET AYSFKVVLLGEGCVGKTSLVLRYCENKFNDKHITTLGASFLTKKLNIGGKRVNLAIWDTAGQERFHALGPIYYRDSNGAILVYDITDEDSFQKVKNWVKELRKMLGNEICLCIVGNKIDLEKERHVSIQEAESYAESVGAKHYHTSAKQNKGIEELFLDLCKRMIET 1z0a-a5-m1-cA_1z0a-a5-m1-cC GDP-Bound Rab2A GTPase P61019 P61019 2.12 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 169 AYAYLFKYIIIGDTGVGKSCLLLQFTDKRFQDLTIGVEFGARMITIDGKQIKLQIWDTAGQESFRSITRSYYRGAAGALLVYDITRRDTFNHLTTWLEDARQHSNSNMVIMLIGNKSDLESRREVKKEEGEAFAREHGLIFMETSAKTASNVEEAFINTAKEIYEK AYAYLFKYIIIGDTGVGKSCLLLQFTDKRFQPVHDLTIGVEFGARMITIDGKQIKLQIWDTAGQESFRSITRSYYRGAAGALLVYDITRRDTFNHLTTWLEDARQHSNSNMVIMLIGNKSDLESRREVKKEEGEAFAREHGLIFMETSAKTASNVEEAFINTAKEIYEK 1z0a-a6-m1-cD_1z0a-a6-m1-cC GDP-Bound Rab2A GTPase P61019 P61019 2.12 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 158 169 1z0a-a5-m1-cB_1z0a-a5-m1-cA 1z0a-a5-m1-cD_1z0a-a5-m1-cC YAYLFKYIIIGDTGVGKSCLLLQFTDLTIGVEFGARMITIDGKQIKLQIWDTAGQESFRSITRSYYRGAAGALLVYDITRRDTFNHLTTWLEDARQHSNSNMVIMLIGNKSDLESRREVKKEEGEAFARELIFMETSAKTASNVEEAFINTAKEIYEK AYAYLFKYIIIGDTGVGKSCLLLQFTDKRFQPVHDLTIGVEFGARMITIDGKQIKLQIWDTAGQESFRSITRSYYRGAAGALLVYDITRRDTFNHLTTWLEDARQHSNSNMVIMLIGNKSDLESRREVKKEEGEAFAREHGLIFMETSAKTASNVEEAFINTAKEIYEK 1z0a-a7-m1-cB_1z0a-a7-m1-cC GDP-Bound Rab2A GTPase P61019 P61019 2.12 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 169 1z0a-a5-m1-cB_1z0a-a5-m1-cC 1z0a-a5-m1-cD_1z0a-a5-m1-cA YAYLFKYIIIGDTGVGKSCLLLQFTDKRFDLTIGVEFGARMITIDGKQIKLQIWDTAGQESFRSITRSYYRGAAGALLVYDITRRDTFNHLTTWLEDARQHSNSNMVIMLIGNKSDLESRREVKKEEGEAFAREHGLIFMETSAKTASNVEEAFINTAKEIYE AYAYLFKYIIIGDTGVGKSCLLLQFTDKRFQPVHDLTIGVEFGARMITIDGKQIKLQIWDTAGQESFRSITRSYYRGAAGALLVYDITRRDTFNHLTTWLEDARQHSNSNMVIMLIGNKSDLESRREVKKEEGEAFAREHGLIFMETSAKTASNVEEAFINTAKEIYEK 1z0c-a1-m1-cA_1z0c-a1-m2-cA Crystal Structure of A. fulgidus Lon proteolytic domain D508A mutant O29883 O29883 1.55 X-RAY DIFFRACTION 10 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 200 200 YKLFITEGYEVGRVNGLAVIGESAGIVLPIIAEVTPSMEGRVIATGRLQEIAREAVMNVSAIIKKYTGRDISNMDVHIQFVGTYEGVEGASASISIATAVISAIEGIPVDQSVAMTGSLSVKGEVLPVGGVTQKIEAAIQAGLKKVIIPKDNIDDVLLDAEHEGKIEVIPVSRINEVLEHVLEDGKKKNRLMSKFKELEL YKLFITEGYEVGRVNGLAVIGESAGIVLPIIAEVTPSMEGRVIATGRLQEIAREAVMNVSAIIKKYTGRDISNMDVHIQFVGTYEGVEGASASISIATAVISAIEGIPVDQSVAMTGSLSVKGEVLPVGGVTQKIEAAIQAGLKKVIIPKDNIDDVLLDAEHEGKIEVIPVSRINEVLEHVLEDGKKKNRLMSKFKELEL 1z0c-a1-m5-cA_1z0c-a1-m6-cA Crystal Structure of A. fulgidus Lon proteolytic domain D508A mutant O29883 O29883 1.55 X-RAY DIFFRACTION 61 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 200 200 1z0b-a1-m1-cA_1z0b-a1-m6-cA 1z0b-a1-m2-cA_1z0b-a1-m3-cA 1z0b-a1-m3-cA_1z0b-a1-m4-cA 1z0b-a1-m4-cA_1z0b-a1-m5-cA 1z0b-a1-m5-cA_1z0b-a1-m6-cA 1z0c-a1-m1-cA_1z0c-a1-m6-cA 1z0c-a1-m2-cA_1z0c-a1-m3-cA 1z0c-a1-m3-cA_1z0c-a1-m4-cA 1z0c-a1-m4-cA_1z0c-a1-m5-cA 1z0e-a1-m1-cA_1z0e-a1-m1-cB 1z0e-a1-m1-cA_1z0e-a1-m1-cF 1z0e-a1-m1-cC_1z0e-a1-m1-cB 1z0e-a1-m1-cC_1z0e-a1-m1-cD 1z0e-a1-m1-cD_1z0e-a1-m1-cE 1z0e-a1-m1-cE_1z0e-a1-m1-cF 1z0g-a1-m1-cA_1z0g-a1-m1-cB 1z0g-a1-m1-cA_1z0g-a1-m1-cF 1z0g-a1-m1-cB_1z0g-a1-m1-cC 1z0g-a1-m1-cC_1z0g-a1-m1-cD 1z0g-a1-m1-cE_1z0g-a1-m1-cD 1z0g-a1-m1-cE_1z0g-a1-m1-cF 1z0t-a1-m1-cA_1z0t-a1-m1-cB 1z0t-a1-m1-cA_1z0t-a1-m1-cF 1z0t-a1-m1-cB_1z0t-a1-m1-cC 1z0t-a1-m1-cC_1z0t-a1-m1-cD 1z0t-a1-m1-cE_1z0t-a1-m1-cD 1z0t-a1-m1-cE_1z0t-a1-m1-cF 1z0v-a1-m1-cA_1z0v-a1-m1-cB 1z0v-a1-m1-cA_1z0v-a1-m1-cF 1z0v-a1-m1-cC_1z0v-a1-m1-cB 1z0v-a1-m1-cC_1z0v-a1-m1-cD 1z0v-a1-m1-cD_1z0v-a1-m1-cE 1z0v-a1-m1-cE_1z0v-a1-m1-cF 1z0w-a1-m1-cA_1z0w-a1-m6-cA 1z0w-a1-m2-cA_1z0w-a1-m3-cA 1z0w-a1-m3-cA_1z0w-a1-m4-cA 1z0w-a1-m4-cA_1z0w-a1-m5-cA 1z0w-a1-m5-cA_1z0w-a1-m6-cA YKLFITEGYEVGRVNGLAVIGESAGIVLPIIAEVTPSMEGRVIATGRLQEIAREAVMNVSAIIKKYTGRDISNMDVHIQFVGTYEGVEGASASISIATAVISAIEGIPVDQSVAMTGSLSVKGEVLPVGGVTQKIEAAIQAGLKKVIIPKDNIDDVLLDAEHEGKIEVIPVSRINEVLEHVLEDGKKKNRLMSKFKELEL YKLFITEGYEVGRVNGLAVIGESAGIVLPIIAEVTPSMEGRVIATGRLQEIAREAVMNVSAIIKKYTGRDISNMDVHIQFVGTYEGVEGASASISIATAVISAIEGIPVDQSVAMTGSLSVKGEVLPVGGVTQKIEAAIQAGLKKVIIPKDNIDDVLLDAEHEGKIEVIPVSRINEVLEHVLEDGKKKNRLMSKFKELEL 1z0p-a1-m1-cA_1z0p-a1-m2-cA Crystal structure of the Protein of Unknown Function SPY1572 from Streptococcus pyogenes Q99YR7 Q99YR7 1.7 X-RAY DIFFRACTION 66 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 73 73 MSYEKEFLKDFEDWVKTQIQVNQLAMATSQEVADERAKDAFIRYESKLDAYEFLLGKFDNYKNGKAFHDIPDE MSYEKEFLKDFEDWVKTQIQVNQLAMATSQEVADERAKDAFIRYESKLDAYEFLLGKFDNYKNGKAFHDIPDE 1z0u-a1-m1-cB_1z0u-a1-m2-cB Crystal structure of a NAD kinase from Archaeoglobus fulgidus bound by NADP O30297 O30297 2 X-RAY DIFFRACTION 74 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 249 249 1suw-a1-m1-cA_1suw-a1-m1-cD 1suw-a1-m1-cB_1suw-a1-m1-cC 1z0s-a1-m1-cA_1z0s-a1-m1-cD 1z0s-a1-m1-cB_1z0s-a1-m1-cC 1z0u-a1-m1-cA_1z0u-a1-m2-cA 1z0z-a1-m1-cA_1z0z-a1-m1-cD 1z0z-a1-m1-cB_1z0z-a1-m1-cC MRAAVVYKTDGHVKRIEEALKRLEVEVELFNQPSEELENFDFIVSVGGDGTILRILQKLKRCPPIFGINTGRVGLLTHASPENFEVELKKAVEKFEVERFPRVSCSAMPDVLALNEIAVLSRKPAKMIDVALRVDGVEVDRIRCDGFIVATQIGSTGYAFSAGGPVVEPYLECFILIPIAPFRFGWKPYVVSMERKIEVIAEKAIVVADGQKSVDFDGEITIEKSEFPAVFFKNEKRFRNLFGKVRSIG MRAAVVYKTDGHVKRIEEALKRLEVEVELFNQPSEELENFDFIVSVGGDGTILRILQKLKRCPPIFGINTGRVGLLTHASPENFEVELKKAVEKFEVERFPRVSCSAMPDVLALNEIAVLSRKPAKMIDVALRVDGVEVDRIRCDGFIVATQIGSTGYAFSAGGPVVEPYLECFILIPIAPFRFGWKPYVVSMERKIEVIAEKAIVVADGQKSVDFDGEITIEKSEFPAVFFKNEKRFRNLFGKVRSIG 1z0u-a1-m2-cA_1z0u-a1-m2-cB Crystal structure of a NAD kinase from Archaeoglobus fulgidus bound by NADP O30297 O30297 2 X-RAY DIFFRACTION 79 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 249 249 1suw-a1-m1-cA_1suw-a1-m1-cB 1suw-a1-m1-cC_1suw-a1-m1-cD 1z0s-a1-m1-cA_1z0s-a1-m1-cB 1z0s-a1-m1-cC_1z0s-a1-m1-cD 1z0u-a1-m1-cA_1z0u-a1-m1-cB 1z0z-a1-m1-cA_1z0z-a1-m1-cB 1z0z-a1-m1-cC_1z0z-a1-m1-cD MRAAVVYKTDGHVKRIEEALKRLEVEVELFNQPSEELENFDFIVSVGGDGTILRILQKLKRCPPIFGINTGRVGLLTHASPENFEVELKKAVEKFEVERFPRVSCSAMPDVLALNEIAVLSRKPAKMIDVALRVDGVEVDRIRCDGFIVATQIGSTGYAFSAGGPVVEPYLECFILIPIAPFRFGWKPYVVSMERKIEVIAEKAIVVADGQKSVDFDGEITIEKSEFPAVFFKNEKRFRNLFGKVRSIG MRAAVVYKTDGHVKRIEEALKRLEVEVELFNQPSEELENFDFIVSVGGDGTILRILQKLKRCPPIFGINTGRVGLLTHASPENFEVELKKAVEKFEVERFPRVSCSAMPDVLALNEIAVLSRKPAKMIDVALRVDGVEVDRIRCDGFIVATQIGSTGYAFSAGGPVVEPYLECFILIPIAPFRFGWKPYVVSMERKIEVIAEKAIVVADGQKSVDFDGEITIEKSEFPAVFFKNEKRFRNLFGKVRSIG 1z0x-a1-m1-cB_1z0x-a1-m1-cA Crystal structure of transcriptional regulator, tetR Family from Enterococcus faecalis V583 Q837P6 Q837P6 2.4 X-RAY DIFFRACTION 178 0.99 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 200 206 PKLSKDTIIAAAFSLLEKSPTLEQLSRKVAKQLGVQAPAIYWYFKNKQALLQSAEAIEEHFQEPALCGEWYSDLLAFENYYDLYQQFPCAVAIEIQTVPAYPQRLRHLNQGILREAGFSPETHLAVTSLQHLLFGIDATEEKQLVSQVLNGDDYLKEQVLHKQYVSDNELTYEESIQFRIHQKSAFIQAVKTYLDGLQAD KLSKDTIIAAAFSLLEKSPTLEQLSRKVAKQLGVQAPAIYWYFKNKQALLQSAEAIEEHFQEPALCGEWYSDLLAFENYYDLYQQFPCAVAIEIQTVPAYPQRLRHLNQGILREAGFSPETHLAVTSLQHLLFGIDATEEKQLVSQVLNGDDYLKEQVLHKQYVSDNELTYEESIQFHSIHQKSAFIQAVKTYLDGLQADNTSSSK 1z1c-a1-m55-cA_1z1c-a1-m9-cA Structural Determinants of Tissue Tropism and In Vivo Pathogenicity for the Parvovirus Minute virus of Mice P07302 P07302 3.5 X-RAY DIFFRACTION 134 1.0 10795 (Murine minute virus (STRAIN MVMI)) 10795 (Murine minute virus (STRAIN MVMI)) 549 549 1mvm-a1-m10-cA_1mvm-a1-m24-cA 1mvm-a1-m11-cA_1mvm-a1-m16-cA 1mvm-a1-m12-cA_1mvm-a1-m38-cA 1mvm-a1-m13-cA_1mvm-a1-m47-cA 1mvm-a1-m14-cA_1mvm-a1-m45-cA 1mvm-a1-m15-cA_1mvm-a1-m29-cA 1mvm-a1-m17-cA_1mvm-a1-m28-cA 1mvm-a1-m18-cA_1mvm-a1-m52-cA 1mvm-a1-m19-cA_1mvm-a1-m60-cA 1mvm-a1-m1-cA_1mvm-a1-m6-cA 1mvm-a1-m20-cA_1mvm-a1-m39-cA 1mvm-a1-m21-cA_1mvm-a1-m26-cA 1mvm-a1-m22-cA_1mvm-a1-m43-cA 1mvm-a1-m25-cA_1mvm-a1-m54-cA 1mvm-a1-m27-cA_1mvm-a1-m53-cA 1mvm-a1-m2-cA_1mvm-a1-m23-cA 1mvm-a1-m30-cA_1mvm-a1-m44-cA 1mvm-a1-m31-cA_1mvm-a1-m36-cA 1mvm-a1-m32-cA_1mvm-a1-m58-cA 1mvm-a1-m33-cA_1mvm-a1-m7-cA 1mvm-a1-m34-cA_1mvm-a1-m5-cA 1mvm-a1-m35-cA_1mvm-a1-m49-cA 1mvm-a1-m37-cA_1mvm-a1-m48-cA 1mvm-a1-m3-cA_1mvm-a1-m42-cA 1mvm-a1-m40-cA_1mvm-a1-m59-cA 1mvm-a1-m41-cA_1mvm-a1-m46-cA 1mvm-a1-m4-cA_1mvm-a1-m50-cA 1mvm-a1-m51-cA_1mvm-a1-m56-cA 1mvm-a1-m55-cA_1mvm-a1-m9-cA 1mvm-a1-m57-cA_1mvm-a1-m8-cA 1z14-a1-m10-cA_1z14-a1-m24-cA 1z14-a1-m11-cA_1z14-a1-m16-cA 1z14-a1-m12-cA_1z14-a1-m38-cA 1z14-a1-m13-cA_1z14-a1-m47-cA 1z14-a1-m14-cA_1z14-a1-m45-cA 1z14-a1-m15-cA_1z14-a1-m29-cA 1z14-a1-m17-cA_1z14-a1-m28-cA 1z14-a1-m18-cA_1z14-a1-m52-cA 1z14-a1-m19-cA_1z14-a1-m60-cA 1z14-a1-m1-cA_1z14-a1-m6-cA 1z14-a1-m20-cA_1z14-a1-m39-cA 1z14-a1-m21-cA_1z14-a1-m26-cA 1z14-a1-m22-cA_1z14-a1-m43-cA 1z14-a1-m25-cA_1z14-a1-m54-cA 1z14-a1-m27-cA_1z14-a1-m53-cA 1z14-a1-m2-cA_1z14-a1-m23-cA 1z14-a1-m30-cA_1z14-a1-m44-cA 1z14-a1-m31-cA_1z14-a1-m36-cA 1z14-a1-m32-cA_1z14-a1-m58-cA 1z14-a1-m33-cA_1z14-a1-m7-cA 1z14-a1-m34-cA_1z14-a1-m5-cA 1z14-a1-m35-cA_1z14-a1-m49-cA 1z14-a1-m37-cA_1z14-a1-m48-cA 1z14-a1-m3-cA_1z14-a1-m42-cA 1z14-a1-m40-cA_1z14-a1-m59-cA 1z14-a1-m41-cA_1z14-a1-m46-cA 1z14-a1-m4-cA_1z14-a1-m50-cA 1z14-a1-m51-cA_1z14-a1-m56-cA 1z14-a1-m55-cA_1z14-a1-m9-cA 1z14-a1-m57-cA_1z14-a1-m8-cA 1z1c-a1-m10-cA_1z1c-a1-m24-cA 1z1c-a1-m11-cA_1z1c-a1-m16-cA 1z1c-a1-m12-cA_1z1c-a1-m38-cA 1z1c-a1-m13-cA_1z1c-a1-m47-cA 1z1c-a1-m14-cA_1z1c-a1-m45-cA 1z1c-a1-m15-cA_1z1c-a1-m29-cA 1z1c-a1-m17-cA_1z1c-a1-m28-cA 1z1c-a1-m18-cA_1z1c-a1-m52-cA 1z1c-a1-m19-cA_1z1c-a1-m60-cA 1z1c-a1-m1-cA_1z1c-a1-m6-cA 1z1c-a1-m20-cA_1z1c-a1-m39-cA 1z1c-a1-m21-cA_1z1c-a1-m26-cA 1z1c-a1-m22-cA_1z1c-a1-m43-cA 1z1c-a1-m25-cA_1z1c-a1-m54-cA 1z1c-a1-m27-cA_1z1c-a1-m53-cA 1z1c-a1-m2-cA_1z1c-a1-m23-cA 1z1c-a1-m30-cA_1z1c-a1-m44-cA 1z1c-a1-m31-cA_1z1c-a1-m36-cA 1z1c-a1-m32-cA_1z1c-a1-m58-cA 1z1c-a1-m33-cA_1z1c-a1-m7-cA 1z1c-a1-m34-cA_1z1c-a1-m5-cA 1z1c-a1-m35-cA_1z1c-a1-m49-cA 1z1c-a1-m37-cA_1z1c-a1-m48-cA 1z1c-a1-m3-cA_1z1c-a1-m42-cA 1z1c-a1-m40-cA_1z1c-a1-m59-cA 1z1c-a1-m41-cA_1z1c-a1-m46-cA 1z1c-a1-m4-cA_1z1c-a1-m50-cA 1z1c-a1-m51-cA_1z1c-a1-m56-cA 1z1c-a1-m57-cA_1z1c-a1-m8-cA 2xgk-a1-m10-cA_2xgk-a1-m24-cA 2xgk-a1-m11-cA_2xgk-a1-m16-cA 2xgk-a1-m12-cA_2xgk-a1-m38-cA 2xgk-a1-m13-cA_2xgk-a1-m47-cA 2xgk-a1-m14-cA_2xgk-a1-m45-cA 2xgk-a1-m15-cA_2xgk-a1-m29-cA 2xgk-a1-m17-cA_2xgk-a1-m28-cA 2xgk-a1-m18-cA_2xgk-a1-m52-cA 2xgk-a1-m19-cA_2xgk-a1-m60-cA 2xgk-a1-m1-cA_2xgk-a1-m6-cA 2xgk-a1-m20-cA_2xgk-a1-m39-cA 2xgk-a1-m21-cA_2xgk-a1-m26-cA 2xgk-a1-m22-cA_2xgk-a1-m43-cA 2xgk-a1-m25-cA_2xgk-a1-m54-cA 2xgk-a1-m27-cA_2xgk-a1-m53-cA 2xgk-a1-m2-cA_2xgk-a1-m23-cA 2xgk-a1-m30-cA_2xgk-a1-m44-cA 2xgk-a1-m31-cA_2xgk-a1-m36-cA 2xgk-a1-m32-cA_2xgk-a1-m58-cA 2xgk-a1-m33-cA_2xgk-a1-m7-cA 2xgk-a1-m34-cA_2xgk-a1-m5-cA 2xgk-a1-m35-cA_2xgk-a1-m49-cA 2xgk-a1-m37-cA_2xgk-a1-m48-cA 2xgk-a1-m3-cA_2xgk-a1-m42-cA 2xgk-a1-m40-cA_2xgk-a1-m59-cA 2xgk-a1-m41-cA_2xgk-a1-m46-cA 2xgk-a1-m4-cA_2xgk-a1-m50-cA 2xgk-a1-m51-cA_2xgk-a1-m56-cA 2xgk-a1-m55-cA_2xgk-a1-m9-cA 2xgk-a1-m57-cA_2xgk-a1-m8-cA 4zpy-a1-m10-cA_4zpy-a1-m24-cA 4zpy-a1-m11-cA_4zpy-a1-m16-cA 4zpy-a1-m12-cA_4zpy-a1-m38-cA 4zpy-a1-m13-cA_4zpy-a1-m47-cA 4zpy-a1-m14-cA_4zpy-a1-m45-cA 4zpy-a1-m15-cA_4zpy-a1-m29-cA 4zpy-a1-m17-cA_4zpy-a1-m28-cA 4zpy-a1-m18-cA_4zpy-a1-m52-cA 4zpy-a1-m19-cA_4zpy-a1-m60-cA 4zpy-a1-m1-cA_4zpy-a1-m6-cA 4zpy-a1-m20-cA_4zpy-a1-m39-cA 4zpy-a1-m21-cA_4zpy-a1-m26-cA 4zpy-a1-m22-cA_4zpy-a1-m43-cA 4zpy-a1-m25-cA_4zpy-a1-m54-cA 4zpy-a1-m27-cA_4zpy-a1-m53-cA 4zpy-a1-m2-cA_4zpy-a1-m23-cA 4zpy-a1-m30-cA_4zpy-a1-m44-cA 4zpy-a1-m31-cA_4zpy-a1-m36-cA 4zpy-a1-m32-cA_4zpy-a1-m58-cA 4zpy-a1-m33-cA_4zpy-a1-m7-cA 4zpy-a1-m34-cA_4zpy-a1-m5-cA 4zpy-a1-m35-cA_4zpy-a1-m49-cA 4zpy-a1-m37-cA_4zpy-a1-m48-cA 4zpy-a1-m3-cA_4zpy-a1-m42-cA 4zpy-a1-m40-cA_4zpy-a1-m59-cA 4zpy-a1-m41-cA_4zpy-a1-m46-cA 4zpy-a1-m4-cA_4zpy-a1-m50-cA 4zpy-a1-m51-cA_4zpy-a1-m56-cA 4zpy-a1-m55-cA_4zpy-a1-m9-cA 4zpy-a1-m57-cA_4zpy-a1-m8-cA 7z5d-a1-m10-cA_7z5d-a1-m5-cA 7z5d-a1-m11-cA_7z5d-a1-m37-cA 7z5d-a1-m12-cA_7z5d-a1-m46-cA 7z5d-a1-m13-cA_7z5d-a1-m44-cA 7z5d-a1-m14-cA_7z5d-a1-m28-cA 7z5d-a1-m15-cA_7z5d-a1-m20-cA 7z5d-a1-m16-cA_7z5d-a1-m27-cA 7z5d-a1-m17-cA_7z5d-a1-m51-cA 7z5d-a1-m18-cA_7z5d-a1-m59-cA 7z5d-a1-m19-cA_7z5d-a1-m38-cA 7z5d-a1-m1-cA_7z5d-a1-m22-cA 7z5d-a1-m21-cA_7z5d-a1-m42-cA 7z5d-a1-m23-cA_7z5d-a1-m9-cA 7z5d-a1-m24-cA_7z5d-a1-m53-cA 7z5d-a1-m25-cA_7z5d-a1-m30-cA 7z5d-a1-m26-cA_7z5d-a1-m52-cA 7z5d-a1-m29-cA_7z5d-a1-m43-cA 7z5d-a1-m2-cA_7z5d-a1-m41-cA 7z5d-a1-m31-cA_7z5d-a1-m57-cA 7z5d-a1-m32-cA_7z5d-a1-m6-cA 7z5d-a1-m33-cA_7z5d-a1-m4-cA 7z5d-a1-m34-cA_7z5d-a1-m48-cA 7z5d-a1-m35-cA_7z5d-a1-m40-cA 7z5d-a1-m36-cA_7z5d-a1-m47-cA 7z5d-a1-m39-cA_7z5d-a1-m58-cA 7z5d-a1-m3-cA_7z5d-a1-m49-cA 7z5d-a1-m45-cA_7z5d-a1-m50-cA 7z5d-a1-m54-cA_7z5d-a1-m8-cA 7z5d-a1-m55-cA_7z5d-a1-m60-cA 7z5d-a1-m56-cA_7z5d-a1-m7-cA 7z5e-a1-m10-cA_7z5e-a1-m5-cA 7z5e-a1-m11-cA_7z5e-a1-m37-cA 7z5e-a1-m12-cA_7z5e-a1-m46-cA 7z5e-a1-m13-cA_7z5e-a1-m44-cA 7z5e-a1-m14-cA_7z5e-a1-m28-cA 7z5e-a1-m15-cA_7z5e-a1-m20-cA 7z5e-a1-m16-cA_7z5e-a1-m27-cA 7z5e-a1-m17-cA_7z5e-a1-m51-cA 7z5e-a1-m18-cA_7z5e-a1-m59-cA 7z5e-a1-m19-cA_7z5e-a1-m38-cA 7z5e-a1-m1-cA_7z5e-a1-m22-cA 7z5e-a1-m21-cA_7z5e-a1-m42-cA 7z5e-a1-m23-cA_7z5e-a1-m9-cA 7z5e-a1-m24-cA_7z5e-a1-m53-cA 7z5e-a1-m25-cA_7z5e-a1-m30-cA 7z5e-a1-m26-cA_7z5e-a1-m52-cA 7z5e-a1-m29-cA_7z5e-a1-m43-cA 7z5e-a1-m2-cA_7z5e-a1-m41-cA 7z5e-a1-m31-cA_7z5e-a1-m57-cA 7z5e-a1-m32-cA_7z5e-a1-m6-cA 7z5e-a1-m33-cA_7z5e-a1-m4-cA 7z5e-a1-m34-cA_7z5e-a1-m48-cA 7z5e-a1-m35-cA_7z5e-a1-m40-cA 7z5e-a1-m36-cA_7z5e-a1-m47-cA 7z5e-a1-m39-cA_7z5e-a1-m58-cA 7z5e-a1-m3-cA_7z5e-a1-m49-cA 7z5e-a1-m45-cA_7z5e-a1-m50-cA 7z5e-a1-m54-cA_7z5e-a1-m8-cA 7z5e-a1-m55-cA_7z5e-a1-m60-cA 7z5e-a1-m56-cA_7z5e-a1-m7-cA 7z5f-a1-m10-cA_7z5f-a1-m5-cA 7z5f-a1-m11-cA_7z5f-a1-m37-cA 7z5f-a1-m12-cA_7z5f-a1-m46-cA 7z5f-a1-m13-cA_7z5f-a1-m44-cA 7z5f-a1-m14-cA_7z5f-a1-m28-cA 7z5f-a1-m15-cA_7z5f-a1-m20-cA 7z5f-a1-m16-cA_7z5f-a1-m27-cA 7z5f-a1-m17-cA_7z5f-a1-m51-cA 7z5f-a1-m18-cA_7z5f-a1-m59-cA 7z5f-a1-m19-cA_7z5f-a1-m38-cA 7z5f-a1-m1-cA_7z5f-a1-m22-cA 7z5f-a1-m21-cA_7z5f-a1-m42-cA 7z5f-a1-m23-cA_7z5f-a1-m9-cA 7z5f-a1-m24-cA_7z5f-a1-m53-cA 7z5f-a1-m25-cA_7z5f-a1-m30-cA 7z5f-a1-m26-cA_7z5f-a1-m52-cA 7z5f-a1-m29-cA_7z5f-a1-m43-cA 7z5f-a1-m2-cA_7z5f-a1-m41-cA 7z5f-a1-m31-cA_7z5f-a1-m57-cA 7z5f-a1-m32-cA_7z5f-a1-m6-cA 7z5f-a1-m33-cA_7z5f-a1-m4-cA 7z5f-a1-m34-cA_7z5f-a1-m48-cA 7z5f-a1-m35-cA_7z5f-a1-m40-cA 7z5f-a1-m36-cA_7z5f-a1-m47-cA 7z5f-a1-m39-cA_7z5f-a1-m58-cA 7z5f-a1-m3-cA_7z5f-a1-m49-cA 7z5f-a1-m45-cA_7z5f-a1-m50-cA 7z5f-a1-m54-cA_7z5f-a1-m8-cA 7z5f-a1-m55-cA_7z5f-a1-m60-cA 7z5f-a1-m56-cA_7z5f-a1-m7-cA GVGVSTGSYDNQTHYRFLGDGWVEITALATRLVHLNMPKSENYCRIRVHNTTDTSVKGNMAKDDAHEQIWTPWSLVDANAWGVWLQPSDWQYICNTMSQLNLVSLDQEIFNVVLKTVTEQDSGGQAIKIYNNDLTACMMVAVDSNNILPYTPAANSMETLGFYPWKPTIASPYRYYFCVDRDLSVTYENQEGTIEHNVMGTPKGMNSQFFTIENTQQITLLRTGDEFATGTYYFDTNPVKLTHTWQTNRQLGQPPLLSTFPEADTDAGTLTAQGSRHGATQMEVNWVSEAIRTRPAQVGFCQPHNDFEASRAGPFAAPKVPADVTQGMDREANGSVRYSYGKQHGENWAAHGPAPERYTWDETNFGSGRDTRDGFIQSAPLVVPPPLNGILTNANPIGTKNDIHFSNVFNSYGPLTTFSHPSPVYPQGQIWDKELDLEHKPRLHITAPFVCKNNAPGQMLVRLGPNLTDQYDPNGATLSRIVTYGTFFWKGKLTMRAKLRANTTWNPVYQVSVEDNGNSYMSVTKWLPTATGNMQSVPLITRPVARNTY GVGVSTGSYDNQTHYRFLGDGWVEITALATRLVHLNMPKSENYCRIRVHNTTDTSVKGNMAKDDAHEQIWTPWSLVDANAWGVWLQPSDWQYICNTMSQLNLVSLDQEIFNVVLKTVTEQDSGGQAIKIYNNDLTACMMVAVDSNNILPYTPAANSMETLGFYPWKPTIASPYRYYFCVDRDLSVTYENQEGTIEHNVMGTPKGMNSQFFTIENTQQITLLRTGDEFATGTYYFDTNPVKLTHTWQTNRQLGQPPLLSTFPEADTDAGTLTAQGSRHGATQMEVNWVSEAIRTRPAQVGFCQPHNDFEASRAGPFAAPKVPADVTQGMDREANGSVRYSYGKQHGENWAAHGPAPERYTWDETNFGSGRDTRDGFIQSAPLVVPPPLNGILTNANPIGTKNDIHFSNVFNSYGPLTTFSHPSPVYPQGQIWDKELDLEHKPRLHITAPFVCKNNAPGQMLVRLGPNLTDQYDPNGATLSRIVTYGTFFWKGKLTMRAKLRANTTWNPVYQVSVEDNGNSYMSVTKWLPTATGNMQSVPLITRPVARNTY 1z1e-a1-m1-cA_1z1e-a1-m2-cA Crystal structure of stilbene synthase from Arachis hypogaea Q9SLV5 Q9SLV5 2.4 X-RAY DIFFRACTION 177 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 388 388 1z1f-a1-m1-cA_1z1f-a1-m2-cA VSVSGIRKVQRAEGPATVLAIGTANPPNCVDQSTYADYYFRVTNSEHMTDLKKKFQRICERTQIKNRHMYLTEEILKENPNMCAYKAPSLDAREDMMIREVPRVGKEAATKAIKEWGQPMSKITHLIFCTTSGVALPGVDYELIVLLGLDPSVKRYMMYHQGCFAGGTVLRLAKDLAENNKDARVLIVCSENTSVTFRGPSETDMDSLVGQALFADGAAAIIIGSDPVPEVENPLFEIVSTDQQLVPNSHGAIGGLLREVGLTFYLNKSVPDIISQNINDALSKAFDPLGISDYNSIFWIAHPGGRAILDQVEEKVNLKPEKMKATRDVLSNYGNMSSACVFFIMDLMRKKSLEAGLKTTGEGLDWGVLFGFGPGLTIETVVLRSMAI VSVSGIRKVQRAEGPATVLAIGTANPPNCVDQSTYADYYFRVTNSEHMTDLKKKFQRICERTQIKNRHMYLTEEILKENPNMCAYKAPSLDAREDMMIREVPRVGKEAATKAIKEWGQPMSKITHLIFCTTSGVALPGVDYELIVLLGLDPSVKRYMMYHQGCFAGGTVLRLAKDLAENNKDARVLIVCSENTSVTFRGPSETDMDSLVGQALFADGAAAIIIGSDPVPEVENPLFEIVSTDQQLVPNSHGAIGGLLREVGLTFYLNKSVPDIISQNINDALSKAFDPLGISDYNSIFWIAHPGGRAILDQVEEKVNLKPEKMKATRDVLSNYGNMSSACVFFIMDLMRKKSLEAGLKTTGEGLDWGVLFGFGPGLTIETVVLRSMAI 1z1x-a1-m1-cA_1z1x-a1-m2-cA Crystal Structure of a novel disintegrin from Saw-scaled viper at 3.2 A resolution Q5EE07 Q5EE07 3.2 X-RAY DIFFRACTION 38 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 64 64 NSVHPCCDPVKCEPREGEHCISGPCCRNCKFLNAGTICKRAMLDGLHDYCTGVTSDCPRNRYNH NSVHPCCDPVKCEPREGEHCISGPCCRNCKFLNAGTICKRAMLDGLHDYCTGVTSDCPRNRYNH 1z1y-a1-m1-cB_1z1y-a1-m1-cA Crystal structure of Methylated Pvs25, an ookinete protein from Plasmodium vivax O96555 O96555 2 X-RAY DIFFRACTION 25 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 157 159 AVTVDTICNGQLVQMSNHFCMCNEGLVHLSENTCEENECETLGACGEFGQCIENPDPAQVNMYCGCIEGYTLEDTCVLDVCQYNCGESGECIVEYLSEIQSAGCSCAIGVPNPEDECTTGETACQLCNTDNEVCNVEGVYCQCMEGFTFDENVCLGP AVTVDTICNGQLVQMSNHFCMCNEGLVHLSENTCEENECETLGACGEFGQCIENPDPAQVNMYCGCIEGYTLEDTCVLDVCQYNCGESGECIVEYLSEIQSAGCSCAIGVPNPEDECTTGETACQLCNTDNEVCNVEGVYCQCMEGFTFDENVCLGPHH 1z24-a1-m1-cA_1z24-a1-m2-cA The molecular structure of insecticyanin from the tobacco hornworm Manduca sexta L. at 2.6 A resolution. P00305 P00305 2.6 X-RAY DIFFRACTION 22 1.0 7130 (Manduca sexta) 7130 (Manduca sexta) 189 189 GDIFYPGYCPDVKPVNDFDLSAFAGAWHEIAKLPLENENQGKCTIAEYKYDGKKASVYNSFVSNGVKEYMEGDLEIAPDAKYTKQGKYVMTFKFGQRVVNLVPWVLATDYKNYAINYNCDYHPDKKAHSIHAWILSKSKVLEGNTKEVVDNVLKTFSHLIDASKFISNDFSEAACQYSTTYSLTGPDRH GDIFYPGYCPDVKPVNDFDLSAFAGAWHEIAKLPLENENQGKCTIAEYKYDGKKASVYNSFVSNGVKEYMEGDLEIAPDAKYTKQGKYVMTFKFGQRVVNLVPWVLATDYKNYAINYNCDYHPDKKAHSIHAWILSKSKVLEGNTKEVVDNVLKTFSHLIDASKFISNDFSEAACQYSTTYSLTGPDRH 1z29-a1-m1-cA_1z29-a1-m2-cA Crystal Structures of SULT1A2 and SULT1A1*3: Implications in the bioactivation of N-hydroxy-2-acetylamino fluorine (OH-AAF) P50226 P50226 2.4 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 SRPPLEYVKGVPLIKYFAEALGPLQSFQARPDDLLISTYPKSGTTWVSQILDMIYQGGAPIFMRVPFLEFKVPGIPSGMETLKNTPAPRLLKTHLPLALLPQTLLDQKVKVVYVARNAKDVAVSYYHFYHMAKVYPHPGTWESFLEKFMAGEVSYGSWYQHVQEWWELSRTHPVLYLFYEDMKENPKREIQKILEFVGRSLPEETVDLMVEHTSFKEMKKNPMTNYTTVRREFMDHSISPFMRKGMAGDWKTTFTVAQNERFDADYAEKMAGCSLSFRSEL SRPPLEYVKGVPLIKYFAEALGPLQSFQARPDDLLISTYPKSGTTWVSQILDMIYQGGAPIFMRVPFLEFKVPGIPSGMETLKNTPAPRLLKTHLPLALLPQTLLDQKVKVVYVARNAKDVAVSYYHFYHMAKVYPHPGTWESFLEKFMAGEVSYGSWYQHVQEWWELSRTHPVLYLFYEDMKENPKREIQKILEFVGRSLPEETVDLMVEHTSFKEMKKNPMTNYTTVRREFMDHSISPFMRKGMAGDWKTTFTVAQNERFDADYAEKMAGCSLSFRSEL 1z2c-a1-m1-cA_1z2c-a1-m2-cA Crystal structure of mDIA1 GBD-FH3 in complex with RhoC-GMPPNP P08134 P08134 3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 179 179 MAAIRKKLVIVGDGACGKTCLLIVNSKDQFPEVYVPTVFENYIADIEVDGKQVELALWDTAGQEDYDRLRPLSYPDTDVILMCFSIDSPDSLENIPEKWTPEVKHFCPNVPIILVGNKKDLRQDEHTRRELAKMKQEPVRSEEGRDMANRISAFGYLECSAKTKEGVREVFEMATRAGL MAAIRKKLVIVGDGACGKTCLLIVNSKDQFPEVYVPTVFENYIADIEVDGKQVELALWDTAGQEDYDRLRPLSYPDTDVILMCFSIDSPDSLENIPEKWTPEVKHFCPNVPIILVGNKKDLRQDEHTRRELAKMKQEPVRSEEGRDMANRISAFGYLECSAKTKEGVREVFEMATRAGL 1z2c-a2-m1-cD_1z2c-a2-m3-cD Crystal structure of mDIA1 GBD-FH3 in complex with RhoC-GMPPNP O08808 O08808 3 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 335 335 VLVLFEQMLVDMNLNEEKQQPLREKDIVIKREMVSQYLHTSAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLHK VLVLFEQMLVDMNLNEEKQQPLREKDIVIKREMVSQYLHTSAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLHK 1z2i-a2-m1-cC_1z2i-a2-m1-cD CRYSTAL STRUCTURE OF Agrobacterium tumefaciens MALATE DEHYDROGENASE, NEW YORK STRUCTURAL GENOMICS CONSORTIUM Q7CRW4 Q7CRW4 2.2 X-RAY DIFFRACTION 235 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 350 350 1z2i-a1-m1-cA_1z2i-a1-m1-cB TVLARLDELERFCRAVFLAVGTDEETADAATRAMMHGTRLGVDSHGVRLLAHYVTALEGGRLNRRPQISRVSGFGAVETIDADHAHGARATYAAMENAMALAEKFGIGAVAIRNSSHFGPAGAYALEAARQGYIGLAFCNSDSFVRLHDGAMRFHGTNPIAVGVPAADDMPWLLDMATSAVPYNRVLLYRSLGQQLPQGVASDGDGVDTRDPNAVEMLAPVGGEFGFKGAALAGVVEIFSAVLTGMRLSFDLAPMGGPDFSTPRGLGAFVLALKPEAFLERDVFDESMKRYLEVLRGSPAREDCKVMAPGDREWAVAAKREREGAPVDPVTRAAFSELAEKFSVSPPTYH TVLARLDELERFCRAVFLAVGTDEETADAATRAMMHGTRLGVDSHGVRLLAHYVTALEGGRLNRRPQISRVSGFGAVETIDADHAHGARATYAAMENAMALAEKFGIGAVAIRNSSHFGPAGAYALEAARQGYIGLAFCNSDSFVRLHDGAMRFHGTNPIAVGVPAADDMPWLLDMATSAVPYNRVLLYRSLGQQLPQGVASDGDGVDTRDPNAVEMLAPVGGEFGFKGAALAGVVEIFSAVLTGMRLSFDLAPMGGPDFSTPRGLGAFVLALKPEAFLERDVFDESMKRYLEVLRGSPAREDCKVMAPGDREWAVAAKREREGAPVDPVTRAAFSELAEKFSVSPPTYH 1z2l-a1-m1-cB_1z2l-a1-m1-cA Crystal structure of Allantoate-amidohydrolase from E.coli K12 in complex with substrate Allantoate P77425 P77425 2.25 X-RAY DIFFRACTION 182 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 410 411 2imo-a1-m1-cB_2imo-a1-m1-cA LITHFRQAIEETLPWLSSFGADPAGGMTRLLYSPEWLETQQQFKKRMAASGLETRFDEVGNLYGRLNGTEYPQEVVLSGSHIDTVVNGGNLDGQFGALAAWLAIDWLKTQYGAPLRTVEVVAMAEEEGSRFPYVFWGSKNIFGLANPDDVRNICDAKGNSFVDAMKACGFTLPNAPLTPRQDIKAFVELHIEQGCVLESNGQSIGVVNAIVGQRRYTVTLNGESNHAGTTPMGYRRDTVYAFSRICHQSVEKAKRMGDPLVLTFGKVEPRPNTVNVVPGKTTFTIDCRHTDAAVLRDFTQQLENDMRAICDEMDIGIDIDLWMDEEPVPMNKELVATLTELCEREKLNYRVMHSGAGHDAQIFAPRVPTCMIFIPSINGISHNPAERTNITDLAEGVKTLALMLYQLAWQ LITHFRQAIEETLPWLSSFGADPAGGMTRLLYSPEWLETQQQFKKRMAASGLETRFDEVGNLYGRLNGTEYPQEVVLSGSHIDTVVNGGNLDGQFGALAAWLAIDWLKTQYGAPLRTVEVVAMAEEEGSRFPYVFWGSKNIFGLANPDDVRNICDAKGNSFVDAMKACGFTLPNAPLTPRQDIKAFVELHIEQGCVLESNGQSIGVVNAIVGQRRYTVTLNGESNHAGTTPMGYRRDTVYAFSRICHQSVEKAKRMGDPLVLTFGKVEPRPNTVNVVPGKTTFTIDCRHTDAAVLRDFTQQLENDMRAICDEMDIGIDIDLWMDEEPVPMNKELVATLTELCEREKLNYRVMHSGAGHDAQIFAPRVPTCMIFIPSINGISHNPAERTNITDLAEGVKTLALMLYQLAWQK 1z2w-a3-m1-cA_1z2w-a3-m1-cB Crystal structure of mouse Vps29 complexed with Mn2+ Q9QZ88 Q9QZ88 2 X-RAY DIFFRACTION 94 1.0 10090 (Mus musculus) 10090 (Mus musculus) 182 182 1z2x-a3-m1-cA_1z2x-a3-m1-cB 3psn-a3-m1-cB_3psn-a3-m1-cA 3pso-a3-m1-cA_3pso-a3-m1-cB MLVLVLGDLHIPHRCNSLPAKFKKLLVPGKIQHILCTGNLCTKESYDYLKTLAGDVHIVRGDFDENLNYPEQKVVTVGQFKIGLIHGHQVIPWGDMASLALLQRQFDVDILISGHTHKFEAFEHENKFYINPGSATGAYNALETNIIPSFVLMDIQASTVVTYVYQLIGDDVKVERIEYKKS MLVLVLGDLHIPHRCNSLPAKFKKLLVPGKIQHILCTGNLCTKESYDYLKTLAGDVHIVRGDFDENLNYPEQKVVTVGQFKIGLIHGHQVIPWGDMASLALLQRQFDVDILISGHTHKFEAFEHENKFYINPGSATGAYNALETNIIPSFVLMDIQASTVVTYVYQLIGDDVKVERIEYKKS 1z34-a1-m2-cA_1z34-a1-m6-cA Crystal structure of Trichomonas vaginalis purine nucleoside phosphorylase complexed with 2-fluoro-2'-deoxyadenosine 2.4 X-RAY DIFFRACTION 95 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 230 230 1z33-a1-m1-cA_1z33-a1-m4-cA 1z33-a1-m2-cA_1z33-a1-m6-cA 1z33-a1-m3-cA_1z33-a1-m5-cA 1z34-a1-m1-cA_1z34-a1-m4-cA 1z34-a1-m3-cA_1z34-a1-m5-cA 1z35-a1-m1-cA_1z35-a1-m4-cA 1z35-a1-m2-cA_1z35-a1-m6-cA 1z35-a1-m3-cA_1z35-a1-m5-cA 1z36-a1-m1-cA_1z36-a1-m4-cA 1z36-a1-m2-cA_1z36-a1-m6-cA 1z36-a1-m3-cA_1z36-a1-m5-cA 1z37-a1-m1-cA_1z37-a1-m4-cA 1z37-a1-m2-cA_1z37-a1-m6-cA 1z37-a1-m3-cA_1z37-a1-m5-cA 1z38-a1-m1-cA_1z38-a1-m4-cA 1z38-a1-m2-cA_1z38-a1-m6-cA 1z38-a1-m3-cA_1z38-a1-m5-cA 1z39-a1-m1-cA_1z39-a1-m4-cA 1z39-a1-m2-cA_1z39-a1-m6-cA 1z39-a1-m3-cA_1z39-a1-m5-cA 2i4t-a1-m1-cB_2i4t-a1-m2-cB 2i4t-a1-m1-cC_2i4t-a1-m1-cA 2i4t-a1-m2-cC_2i4t-a1-m2-cA 2isc-a1-m1-cA_2isc-a1-m1-cC 2isc-a1-m1-cB_2isc-a1-m1-cD 2isc-a1-m1-cE_2isc-a1-m1-cF ATPHNSAQVGDFAETVLMCGDPLRAKLIAETYLENPKLVNNVRGIQGYTGTYKGKPISVMGHGMGLPSICIYAEELYSTYKVKTIIRVGTCGAIDMDIHTRDIVIFTSAGTNSKINRIRFMDHDYPATASFDVVCALVDAAKELNIPAKVGKGFSTDLFYNPQTELAQLMNKFHFLAVEMESAGLFPIADLYGARAGCICTVSDHILHHEERQNSFQNMMKIALEAAIKL ATPHNSAQVGDFAETVLMCGDPLRAKLIAETYLENPKLVNNVRGIQGYTGTYKGKPISVMGHGMGLPSICIYAEELYSTYKVKTIIRVGTCGAIDMDIHTRDIVIFTSAGTNSKINRIRFMDHDYPATASFDVVCALVDAAKELNIPAKVGKGFSTDLFYNPQTELAQLMNKFHFLAVEMESAGLFPIADLYGARAGCICTVSDHILHHEERQNSFQNMMKIALEAAIKL 1z3i-a2-m5-cX_1z3i-a2-m6-cX Structure of the SWI2/SNF2 chromatin remodeling domain of eukaryotic Rad54 F1Q8K0 F1Q8K0 3 X-RAY DIFFRACTION 40 1.0 7955 (Danio rerio) 7955 (Danio rerio) 644 644 1z3i-a2-m1-cX_1z3i-a2-m2-cX 1z3i-a2-m1-cX_1z3i-a2-m3-cX 1z3i-a2-m2-cX_1z3i-a2-m3-cX 1z3i-a2-m4-cX_1z3i-a2-m5-cX 1z3i-a2-m4-cX_1z3i-a2-m6-cX LGLRRAGVRKALHDPFEDGALVLYEPPAISAHDLIKADKEKLPVHVVVDPVLSKVLRPHQREGVKFLWDCVTGRRIENSYGCIMADEMGLGKTLQCITLIWTLLKQSPDCKPEIDKVIVVSPSSLVRNWYNEVGKWLGGRVQPVAIDGGSKDEIDSKLVNFISQQGMRIPTPILIISYETFRLHAEVLHKGKVGLVICDEGHRLKNSDNQTYLALNSMNAQRRVLISGTPIQNDLLEYFSLVHFVNSGILGTAQEFKKRFEIPILKGRDADASDKDRAAGEQKLQELISIVNRCLIRRTSDILSKYLPVKIEQVVCCNLTPLQKELYKLFLKQAKPVESLQTGKISVSSLSSITSLKKLCNHPALIYEKCLTGEEGFDGALDLFPQNYSTKAVEPQLSGKMLVLDYILAMTRTTTSDKVVLVSNYTQTLDLFEKLCRNRRYLYVRLDGTMSIKKRAKIVERFNNPSSPEFIFMLSSKAGGCGLNLIGANRLVMFDPDWNPANDEQAMARVWRDGQKKTCYIYRLLSTGTIEEKILQRQAHKKALSSCVVDEEQDVERHFSLGELRELFSLNEKTLSDTHDRFRCRRCVNGRQVRPPPDDSDCTCDLSNWHHCADKRGLRDPVLQASWDAAVSFVFHQRSHEDQR LGLRRAGVRKALHDPFEDGALVLYEPPAISAHDLIKADKEKLPVHVVVDPVLSKVLRPHQREGVKFLWDCVTGRRIENSYGCIMADEMGLGKTLQCITLIWTLLKQSPDCKPEIDKVIVVSPSSLVRNWYNEVGKWLGGRVQPVAIDGGSKDEIDSKLVNFISQQGMRIPTPILIISYETFRLHAEVLHKGKVGLVICDEGHRLKNSDNQTYLALNSMNAQRRVLISGTPIQNDLLEYFSLVHFVNSGILGTAQEFKKRFEIPILKGRDADASDKDRAAGEQKLQELISIVNRCLIRRTSDILSKYLPVKIEQVVCCNLTPLQKELYKLFLKQAKPVESLQTGKISVSSLSSITSLKKLCNHPALIYEKCLTGEEGFDGALDLFPQNYSTKAVEPQLSGKMLVLDYILAMTRTTTSDKVVLVSNYTQTLDLFEKLCRNRRYLYVRLDGTMSIKKRAKIVERFNNPSSPEFIFMLSSKAGGCGLNLIGANRLVMFDPDWNPANDEQAMARVWRDGQKKTCYIYRLLSTGTIEEKILQRQAHKKALSSCVVDEEQDVERHFSLGELRELFSLNEKTLSDTHDRFRCRRCVNGRQVRPPPDDSDCTCDLSNWHHCADKRGLRDPVLQASWDAAVSFVFHQRSHEDQR 1z3i-a3-m1-cX_1z3i-a3-m4-cX Structure of the SWI2/SNF2 chromatin remodeling domain of eukaryotic Rad54 F1Q8K0 F1Q8K0 3 X-RAY DIFFRACTION 95 1.0 7955 (Danio rerio) 7955 (Danio rerio) 644 644 1z3i-a2-m1-cX_1z3i-a2-m4-cX 1z3i-a2-m2-cX_1z3i-a2-m6-cX 1z3i-a2-m3-cX_1z3i-a2-m5-cX LGLRRAGVRKALHDPFEDGALVLYEPPAISAHDLIKADKEKLPVHVVVDPVLSKVLRPHQREGVKFLWDCVTGRRIENSYGCIMADEMGLGKTLQCITLIWTLLKQSPDCKPEIDKVIVVSPSSLVRNWYNEVGKWLGGRVQPVAIDGGSKDEIDSKLVNFISQQGMRIPTPILIISYETFRLHAEVLHKGKVGLVICDEGHRLKNSDNQTYLALNSMNAQRRVLISGTPIQNDLLEYFSLVHFVNSGILGTAQEFKKRFEIPILKGRDADASDKDRAAGEQKLQELISIVNRCLIRRTSDILSKYLPVKIEQVVCCNLTPLQKELYKLFLKQAKPVESLQTGKISVSSLSSITSLKKLCNHPALIYEKCLTGEEGFDGALDLFPQNYSTKAVEPQLSGKMLVLDYILAMTRTTTSDKVVLVSNYTQTLDLFEKLCRNRRYLYVRLDGTMSIKKRAKIVERFNNPSSPEFIFMLSSKAGGCGLNLIGANRLVMFDPDWNPANDEQAMARVWRDGQKKTCYIYRLLSTGTIEEKILQRQAHKKALSSCVVDEEQDVERHFSLGELRELFSLNEKTLSDTHDRFRCRRCVNGRQVRPPPDDSDCTCDLSNWHHCADKRGLRDPVLQASWDAAVSFVFHQRSHEDQR LGLRRAGVRKALHDPFEDGALVLYEPPAISAHDLIKADKEKLPVHVVVDPVLSKVLRPHQREGVKFLWDCVTGRRIENSYGCIMADEMGLGKTLQCITLIWTLLKQSPDCKPEIDKVIVVSPSSLVRNWYNEVGKWLGGRVQPVAIDGGSKDEIDSKLVNFISQQGMRIPTPILIISYETFRLHAEVLHKGKVGLVICDEGHRLKNSDNQTYLALNSMNAQRRVLISGTPIQNDLLEYFSLVHFVNSGILGTAQEFKKRFEIPILKGRDADASDKDRAAGEQKLQELISIVNRCLIRRTSDILSKYLPVKIEQVVCCNLTPLQKELYKLFLKQAKPVESLQTGKISVSSLSSITSLKKLCNHPALIYEKCLTGEEGFDGALDLFPQNYSTKAVEPQLSGKMLVLDYILAMTRTTTSDKVVLVSNYTQTLDLFEKLCRNRRYLYVRLDGTMSIKKRAKIVERFNNPSSPEFIFMLSSKAGGCGLNLIGANRLVMFDPDWNPANDEQAMARVWRDGQKKTCYIYRLLSTGTIEEKILQRQAHKKALSSCVVDEEQDVERHFSLGELRELFSLNEKTLSDTHDRFRCRRCVNGRQVRPPPDDSDCTCDLSNWHHCADKRGLRDPVLQASWDAAVSFVFHQRSHEDQR 1z40-a1-m1-cE_1z40-a1-m1-cA AMA1 from Plasmodium falciparum Q7KQK5 Q7KQK5 1.901 X-RAY DIFFRACTION 23 0.997 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 306 311 NPWTEYMAKYDIEEVHGSGIRVDLGEDAEVAGTQYRLPSGKCPVFGKGIIIENSNTTFLTPVATKDGGFAFPPTEPLMSPMTLDEMRHFYKDNKYVKNLDELTLCSRHAGNMIPDNDKNSNYKYPAVYDDKDKKCHILYIAAQENNMFCFRPAKDISFQNYTYLSKNVVDNWEKVCPRKNLQNAKFGLWVDGNCEDIPHVNEFPAIDLFECNKLVFELSASDQPKQYEQHLTDYEKIKEGFKNKNASMIKSAFLPDRYKSHGKGYNWGNYNTETQKCEIFNVKPTCLINNSSYIATTALSHPIEVE NPWTEYMAKYDIEEVHGSGIRVDLGEDAEVAGTQYRLPSGKCPVFGKGIIIENSNTTFLTPVATKDGGFAFPPTEPLMSPMTLDEMRHFYKDNKYVKNLDELTLCSRHAGNMIPDNDKNSNYKYPAVYDDKDKKCHILYIAAQENNGPRYCFCFRPAKDISFQNYTYLSKNVVDNWEKVCPRKNLQNAKFGLWVDGNCEDIPHVNEFPAIDLFECNKLVFELSASDQPKQYEQHLTDYEKIKEGFKNKNASMIKSAFLPTDRYKSHGKGYNWGNYNTETQKCEIFNVKPTCLINNSSYIATTALSHPIEVE 1z41-a1-m1-cB_1z41-a1-m2-cB Crystal structure of oxidized YqjM from Bacillus subtilis P54550 P54550 1.3 X-RAY DIFFRACTION 41 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 327 327 1z41-a1-m1-cA_1z41-a1-m2-cA 1z42-a1-m1-cA_1z42-a1-m2-cA 1z42-a1-m1-cB_1z42-a1-m2-cB 1z44-a1-m1-cA_1z44-a1-m2-cA 1z44-a1-m1-cB_1z44-a1-m2-cB 1z48-a1-m1-cA_1z48-a1-m2-cA 1z48-a1-m1-cB_1z48-a1-m2-cB ARKLFTPITIKDTLKNRIVSPCYSSHEKDGKLTPFHAHYISRAIGQVGLIIVEASAVNPQGRITDQDLGIWSDEHIEGFAKLTEQVKEQGSKIGIQLAHAGRKAELEGDIFAPSAIAFDEQSATPVESAEKVKETVQEFKQAAARAKEAGFDVIEIHAAHGYLIHEFLSPLSNHRTDEYGGSPENRYRFLREIIDEVKQVWDGPLFVRVSASDYTDKGLDIADHIGFAKWKEQGVDLIDCSSGALVHADINVFPGYQVSFAEKIREQADATGAVGITDGSAEEILQNGRADLIFIGRELLRDPFFARTAAKQLNTEIPAPVQYERGW ARKLFTPITIKDTLKNRIVSPCYSSHEKDGKLTPFHAHYISRAIGQVGLIIVEASAVNPQGRITDQDLGIWSDEHIEGFAKLTEQVKEQGSKIGIQLAHAGRKAELEGDIFAPSAIAFDEQSATPVESAEKVKETVQEFKQAAARAKEAGFDVIEIHAAHGYLIHEFLSPLSNHRTDEYGGSPENRYRFLREIIDEVKQVWDGPLFVRVSASDYTDKGLDIADHIGFAKWKEQGVDLIDCSSGALVHADINVFPGYQVSFAEKIREQADATGAVGITDGSAEEILQNGRADLIFIGRELLRDPFFARTAAKQLNTEIPAPVQYERGW 1z41-a2-m1-cA_1z41-a2-m1-cB Crystal structure of oxidized YqjM from Bacillus subtilis P54550 P54550 1.3 X-RAY DIFFRACTION 73 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 327 327 1z41-a1-m1-cA_1z41-a1-m1-cB 1z41-a1-m2-cA_1z41-a1-m2-cB 1z42-a1-m1-cA_1z42-a1-m1-cB 1z42-a1-m2-cA_1z42-a1-m2-cB 1z42-a2-m1-cA_1z42-a2-m1-cB 1z44-a1-m1-cA_1z44-a1-m1-cB 1z44-a1-m2-cA_1z44-a1-m2-cB 1z44-a2-m1-cA_1z44-a2-m1-cB 1z48-a1-m1-cA_1z48-a1-m1-cB 1z48-a1-m2-cA_1z48-a1-m2-cB ARKLFTPITIKDTLKNRIVSPCYSSHEKDGKLTPFHAHYISRAIGQVGLIIVEASAVNPQGRITDQDLGIWSDEHIEGFAKLTEQVKEQGSKIGIQLAHAGRKAELEGDIFAPSAIAFDEQSATPVESAEKVKETVQEFKQAAARAKEAGFDVIEIHAAHGYLIHEFLSPLSNHRTDEYGGSPENRYRFLREIIDEVKQVWDGPLFVRVSASDYTDKGLDIADHIGFAKWKEQGVDLIDCSSGALVHADINVFPGYQVSFAEKIREQADATGAVGITDGSAEEILQNGRADLIFIGRELLRDPFFARTAAKQLNTEIPAPVQYERGW ARKLFTPITIKDTLKNRIVSPCYSSHEKDGKLTPFHAHYISRAIGQVGLIIVEASAVNPQGRITDQDLGIWSDEHIEGFAKLTEQVKEQGSKIGIQLAHAGRKAELEGDIFAPSAIAFDEQSATPVESAEKVKETVQEFKQAAARAKEAGFDVIEIHAAHGYLIHEFLSPLSNHRTDEYGGSPENRYRFLREIIDEVKQVWDGPLFVRVSASDYTDKGLDIADHIGFAKWKEQGVDLIDCSSGALVHADINVFPGYQVSFAEKIREQADATGAVGITDGSAEEILQNGRADLIFIGRELLRDPFFARTAAKQLNTEIPAPVQYERGW 1z45-a1-m1-cA_1z45-a1-m2-cA Crystal structure of the gal10 fusion protein galactose mutarotase/UDP-galactose 4-epimerase from Saccharomyces cerevisiae complexed with NAD, UDP-glucose, and galactose P04397 P04397 1.85 X-RAY DIFFRACTION 75 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 674 674 SKIVLVTGGAGYIGSHTVVELIENGYDCVVADNLSNSTYDSVARLEVLTKHHIPFYEVDLCDRKGLEKVFKEYKIDSVIHFAGLKAVGESTQIPLRYYHNNILGTVVLLELMQQYNVSKFVFSSSATVYGDATRFPNMIPIPEECPLGPTNPYGHTKYAIENILNDLYNSDKKSWKFAILRYFNPIGAHPSGLIGEDPLGIPNNLLPYMAQVAVGRREKLYIFRDGTPIRDYIHVVDLAKGHIAALQYLEAYNENEGLCREWNLGSGKGSTVFEVYHAFCKASGIDLPYVLNLTAKPDRAKRELKWQTELQVEDSCKDLWKWTTENPFGYQLRGVEARFSAEDMRYDARFVTIGAGTRFQATFANLGASIVDLKVNGQSVVLGYENEEGYLNPDSAYIGATIGRYANRISKGKFSLCNKDYQLTVNNGVNANHSSIGSFHRKRFLGPIIQNPSKDVFTAEYMLIDNEKDTEFPGDLLVTIQYTVNVAQKSLEIVYKGKLTAGEATPINLTNHSYFNLNKPYGDTIEGTEIMVRSKKSVDVDKNMIPTGNIVDREIATFNSTKPTVLGPKNPQFDCCFVVDENAKPSQINTLNNELTLIVKAFHPDSNITLEVLSTEPTYQFYTGDFLSAGYEARQGFAIEPGRYIDAINQENWKDCVTLKNGETYGSKIVYRFS SKIVLVTGGAGYIGSHTVVELIENGYDCVVADNLSNSTYDSVARLEVLTKHHIPFYEVDLCDRKGLEKVFKEYKIDSVIHFAGLKAVGESTQIPLRYYHNNILGTVVLLELMQQYNVSKFVFSSSATVYGDATRFPNMIPIPEECPLGPTNPYGHTKYAIENILNDLYNSDKKSWKFAILRYFNPIGAHPSGLIGEDPLGIPNNLLPYMAQVAVGRREKLYIFRDGTPIRDYIHVVDLAKGHIAALQYLEAYNENEGLCREWNLGSGKGSTVFEVYHAFCKASGIDLPYVLNLTAKPDRAKRELKWQTELQVEDSCKDLWKWTTENPFGYQLRGVEARFSAEDMRYDARFVTIGAGTRFQATFANLGASIVDLKVNGQSVVLGYENEEGYLNPDSAYIGATIGRYANRISKGKFSLCNKDYQLTVNNGVNANHSSIGSFHRKRFLGPIIQNPSKDVFTAEYMLIDNEKDTEFPGDLLVTIQYTVNVAQKSLEIVYKGKLTAGEATPINLTNHSYFNLNKPYGDTIEGTEIMVRSKKSVDVDKNMIPTGNIVDREIATFNSTKPTVLGPKNPQFDCCFVVDENAKPSQINTLNNELTLIVKAFHPDSNITLEVLSTEPTYQFYTGDFLSAGYEARQGFAIEPGRYIDAINQENWKDCVTLKNGETYGSKIVYRFS 1z47-a1-m1-cB_1z47-a1-m2-cB Structure of the ATPase subunit CysA of the putative sulfate ATP-binding cassette (ABC) transporter from Alicyclobacillus acidocaldarius Q9RHZ7 Q9RHZ7 1.9 X-RAY DIFFRACTION 79 1.0 405212 (Alicyclobacillus acidocaldarius) 405212 (Alicyclobacillus acidocaldarius) 342 342 TIEFVGVEKIYPGGARSVRGVSFQIREGEMVGLLGPSGSGKTTILRLIAGLERPTKGDVWIGGKRVTDLPPQKRNVGLVFQNYALFQHMTVYDNVSFGLREKRVPKDEMDARVRELLRFMRLESYANRFPHELSGGQQQRVALARALAPRPQVLLFDEPFAAIDTQIRRELRTFVRQVHDEMGVTSVFVTHDQEEALEVADRVLVLHEGNVEQFGTPEEVYEKPGTLFVASFIGESNVWTRAVQNGRIEVAGAALPVDPAVSEGSEVAVVVRPKDVELQPASEREAHAQVVRSAFKGSYSACWIRTKDGEVWEVHVPSADRHRWSPGAWVHMNVTRWFIFPR TIEFVGVEKIYPGGARSVRGVSFQIREGEMVGLLGPSGSGKTTILRLIAGLERPTKGDVWIGGKRVTDLPPQKRNVGLVFQNYALFQHMTVYDNVSFGLREKRVPKDEMDARVRELLRFMRLESYANRFPHELSGGQQQRVALARALAPRPQVLLFDEPFAAIDTQIRRELRTFVRQVHDEMGVTSVFVTHDQEEALEVADRVLVLHEGNVEQFGTPEEVYEKPGTLFVASFIGESNVWTRAVQNGRIEVAGAALPVDPAVSEGSEVAVVVRPKDVELQPASEREAHAQVVRSAFKGSYSACWIRTKDGEVWEVHVPSADRHRWSPGAWVHMNVTRWFIFPR 1z4e-a1-m1-cA_1z4e-a1-m1-cB Crystal structure of transcriptional regulator from Bacillus halodurans C-125 Q9KBG0 Q9KBG0 2 X-RAY DIFFRACTION 201 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 150 150 HVTIREATEGDLEQMVHMLADDVLGRKRERYEKPLPVSYVRAFKEIKKDKNNELIVACNGEEIVGMLQVTFTPYLTYQGSWRATIEGVRTHSAARGQGIGSQLVCWAIERAKERGCHLIQLTTDKQRPDALRFYEQLGFKASHEGLKMHF HVTIREATEGDLEQMVHMLADDVLGRKRERYEKPLPVSYVRAFKEIKKDKNNELIVACNGEEIVGMLQVTFTPYLTYQGSWRATIEGVRTHSAARGQGIGSQLVCWAIERAKERGCHLIQLTTDKQRPDALRFYEQLGFKASHEGLKMHF 1z54-a1-m1-cC_1z54-a1-m1-cD Crystal structure of a hypothetical protein TT1821 from Thermus thermophilus Q5SJV0 Q5SJV0 2.1 X-RAY DIFFRACTION 24 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 129 130 1z54-a1-m1-cB_1z54-a1-m1-cA ESVTRIKVRYAETDQMGVVHHSVYAVYLEAARVDFLERAGLPYHRVEARGVFFPVVELGLTFRAPARFGEVVEVRTRLAELSSRALLFRYRVEREGVLLAEGFTRHLCQVGERAARIPEDIYRALSVLH MESVTRIKVRYAETDQMGVVHHSVYAVYLEAARVDFLERAGLPYHRVEARGVFFPVVELGLTFRAPARFGEVVEVRTRLAELSSRALLFRYRVEREGVLLAEGFTRHLCQVGERAARIPEDIYRALSVLH 1z54-a1-m1-cD_1z54-a1-m1-cA Crystal structure of a hypothetical protein TT1821 from Thermus thermophilus Q5SJV0 Q5SJV0 2.1 X-RAY DIFFRACTION 37 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 130 132 1z54-a1-m1-cC_1z54-a1-m1-cB MESVTRIKVRYAETDQMGVVHHSVYAVYLEAARVDFLERAGLPYHRVEARGVFFPVVELGLTFRAPARFGEVVEVRTRLAELSSRALLFRYRVEREGVLLAEGFTRHLCQVGERAARIPEDIYRALSVLH MESVTRIKVRYAETDQMGVVHHSVYAVYLEAARVDFLERAGLPYHRVEARGVFFPVVELGLTFRAPARFGEVVEVRTRLAELSSRALLFRYRVEREGVLLAEGFTRHLCQVGERAARIPEDIYRALSVLHLK 1z54-a1-m1-cD_1z54-a1-m1-cB Crystal structure of a hypothetical protein TT1821 from Thermus thermophilus Q5SJV0 Q5SJV0 2.1 X-RAY DIFFRACTION 52 0.992 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 130 131 1z54-a1-m1-cC_1z54-a1-m1-cA MESVTRIKVRYAETDQMGVVHHSVYAVYLEAARVDFLERAGLPYHRVEARGVFFPVVELGLTFRAPARFGEVVEVRTRLAELSSRALLFRYRVEREGVLLAEGFTRHLCQVGERAARIPEDIYRALSVLH MESVTRIKVRYAETDQMGVVHHSVYAVYLEAARVDFLERAGLPYHRVEARGVFFPVVELGLTFRAPARFGEVVEVRTRLAELSSRALLFRYRVEREGVLLAEGFTRHLCQVERAARIPEDIYRALSVLHLK 1z5c-a1-m1-cB_1z5c-a1-m1-cA Topoisomerase VI-B, ADP Pi bound dimer form O05207 O05207 2.2 X-RAY DIFFRACTION 153 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 455 461 1mx0-a1-m1-cB_1mx0-a1-m1-cA 1mx0-a2-m1-cD_1mx0-a2-m1-cC 1mx0-a3-m1-cF_1mx0-a3-m1-cE 1z5a-a1-m1-cB_1z5a-a1-m1-cA 1z5b-a1-m1-cB_1z5b-a1-m1-cA KEKFTSLSPAEFFKRNPELAGFPNPARALYQTVRELIENSLDATDVHGILPNIKITIDLIDDARQIYKVNVVDNGIGIPPQEVPNAFGRVLYSSKYVNRQTRGYGLGVKAAVLYSQHQDKPIEIETSPVNSKRIYTFKLKIDINKNEPIIVERGSVENTRGFHGTSVAISIPGDWPKAKSRIYEYIKRTYIITPYAEFIFKDPEGNVTYYPRLTNKIPKPPQEVKPHPYGVDREEIKILINNLKRDYTIKEFLVNEFQSIGDTTADKILELAGLKPNKKVKNLTEEEITRLVETFKKYEDFRSPSADSLSVIGEDLIELGLKKIFNPDFAASITRKPKAYQGHPFIVEAGVAFGGSIPVGEEPIVLRYANKIPLIYDEKSDVIWKVVEELDWKRYGIESDQYQVVVHLCSTKIPYKSAGKESIAEVEDIEKEIKNALEVARKLKQYLSEKRKEQE KEKFTSLSPAEFFKRNPELAGFPNPARALYQTVRELIENSLDATDVHGILPNIKITIDLIDDARQIYKVNVVDNGIGIPPQEVPNAFGRVLYSSKYVNRQTRGYGLGVKAAVLYSQHQDKPIEIETSPVNSKRIYTFKLKIDINKNEPIIVERGSVENTRGFHGTSVAISIPGDWPKAKSRIYEYIKRTYIITPYAEFIFKDPEGNVTYYPRLTNKIPKPPQEVKPHPYGVDREEIKILINNLKRDYTIKEFLVNEFQSIGDTTADKILELAGLKPNKKVKNLTEEEITRLVETFKKYEDFRSPSADSLSVIGEDLIELGLKKIFNPDFAASITRKPKAYQGHPFIVEAGVAFGGSIPVGEEPIVLRYANKIPLIYDEKSDVIWKVVEELDWKRYGIESDQYQVVVHLCSTKIPYKSAGKESIAEVEDIEKEIKNALEVARKLKQYLSEKRKEQEAKKKLL 1z5h-a3-m1-cA_1z5h-a3-m2-cA Crystal structures of the Tricorn interacting Factor F3 from Thermoplasma acidophilum O93655 O93655 2.3 X-RAY DIFFRACTION 35 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 780 780 MEVEKYDLTLDFDIQKRTFNGTETITADAGDIVLDAVGLQINWMKVNGRDTAFTYDGQTVRAPGDSQPQKIEISFAGKVSDSLSGIYYAGRENGMITTHFEATDARRMFPCVDHPAYKAVFAITVVIDKDYDAISNMPPKRIEVSERKVVEFQDTPRMSTYLLYVGIGKFRYEYEKYRDIDLILASLKDIRSKYPLDMARKSVEFYENYFGIPYALPKMHLISVPEFGAGAMENWGAITFREIYMDIAENSAVTVKRNSANVIAHEIAHQWFGDLVTMKWWNDLWLNESFATFMSYKTMDTLFPEWSFWGDFFVSRTSGALRSDSLKNTHPIEVDVRDPDEISQIFDEISYGKGASILRMIEDYAGYEEFRKGISKYLNDHKFGNAEGSDLWTAIEDVSGKPVKRVMEYWIKNPGYPVIKLKRNGRKITMYQTRFLLNGEEEGRWPVPVNIKKKDGVERILLEDEASIEADGLIKINADSAGFYRVLYDDATFSDVMGHYRDLSPLDRIGLVDDLFAFLLSGHIDPETYRQRIRNFFDDEDHNVITAIVGQMEYLRMLTHAFDDDARAFCRSRMQFLTGKQDENLKIALGRVSRLYVMVDESYAEEMSKLFKDFDSAEPEMRSSIATAYALVTGDLKGLLEKFRSVDRDEDRVRIISAFGKLKSNTDLSTVYGMVEKTEIKKQDMISFFSSALETLPGREFIFANLDRIIRLVIRYFTGNRTASRTVEMMIPVIGLDHPDAEDIVRNIGSKNISMGLAKGIEMLAVNRKLVERIRQTAVK MEVEKYDLTLDFDIQKRTFNGTETITADAGDIVLDAVGLQINWMKVNGRDTAFTYDGQTVRAPGDSQPQKIEISFAGKVSDSLSGIYYAGRENGMITTHFEATDARRMFPCVDHPAYKAVFAITVVIDKDYDAISNMPPKRIEVSERKVVEFQDTPRMSTYLLYVGIGKFRYEYEKYRDIDLILASLKDIRSKYPLDMARKSVEFYENYFGIPYALPKMHLISVPEFGAGAMENWGAITFREIYMDIAENSAVTVKRNSANVIAHEIAHQWFGDLVTMKWWNDLWLNESFATFMSYKTMDTLFPEWSFWGDFFVSRTSGALRSDSLKNTHPIEVDVRDPDEISQIFDEISYGKGASILRMIEDYAGYEEFRKGISKYLNDHKFGNAEGSDLWTAIEDVSGKPVKRVMEYWIKNPGYPVIKLKRNGRKITMYQTRFLLNGEEEGRWPVPVNIKKKDGVERILLEDEASIEADGLIKINADSAGFYRVLYDDATFSDVMGHYRDLSPLDRIGLVDDLFAFLLSGHIDPETYRQRIRNFFDDEDHNVITAIVGQMEYLRMLTHAFDDDARAFCRSRMQFLTGKQDENLKIALGRVSRLYVMVDESYAEEMSKLFKDFDSAEPEMRSSIATAYALVTGDLKGLLEKFRSVDRDEDRVRIISAFGKLKSNTDLSTVYGMVEKTEIKKQDMISFFSSALETLPGREFIFANLDRIIRLVIRYFTGNRTASRTVEMMIPVIGLDHPDAEDIVRNIGSKNISMGLAKGIEMLAVNRKLVERIRQTAVK 1z5h-a4-m1-cA_1z5h-a4-m4-cB Crystal structures of the Tricorn interacting Factor F3 from Thermoplasma acidophilum O93655 O93655 2.3 X-RAY DIFFRACTION 26 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 780 780 1z5h-a3-m1-cA_1z5h-a3-m4-cB 1z5h-a3-m2-cA_1z5h-a3-m3-cB MEVEKYDLTLDFDIQKRTFNGTETITADAGDIVLDAVGLQINWMKVNGRDTAFTYDGQTVRAPGDSQPQKIEISFAGKVSDSLSGIYYAGRENGMITTHFEATDARRMFPCVDHPAYKAVFAITVVIDKDYDAISNMPPKRIEVSERKVVEFQDTPRMSTYLLYVGIGKFRYEYEKYRDIDLILASLKDIRSKYPLDMARKSVEFYENYFGIPYALPKMHLISVPEFGAGAMENWGAITFREIYMDIAENSAVTVKRNSANVIAHEIAHQWFGDLVTMKWWNDLWLNESFATFMSYKTMDTLFPEWSFWGDFFVSRTSGALRSDSLKNTHPIEVDVRDPDEISQIFDEISYGKGASILRMIEDYAGYEEFRKGISKYLNDHKFGNAEGSDLWTAIEDVSGKPVKRVMEYWIKNPGYPVIKLKRNGRKITMYQTRFLLNGEEEGRWPVPVNIKKKDGVERILLEDEASIEADGLIKINADSAGFYRVLYDDATFSDVMGHYRDLSPLDRIGLVDDLFAFLLSGHIDPETYRQRIRNFFDDEDHNVITAIVGQMEYLRMLTHAFDDDARAFCRSRMQFLTGKQDENLKIALGRVSRLYVMVDESYAEEMSKLFKDFDSAEPEMRSSIATAYALVTGDLKGLLEKFRSVDRDEDRVRIISAFGKLKSNTDLSTVYGMVEKTEIKKQDMISFFSSALETLPGREFIFANLDRIIRLVIRYFTGNRTASRTVEMMIPVIGLDHPDAEDIVRNIGSKNISMGLAKGIEMLAVNRKLVERIRQTAVK MEVEKYDLTLDFDIQKRTFNGTETITADAGDIVLDAVGLQINWMKVNGRDTAFTYDGQTVRAPGDSQPQKIEISFAGKVSDSLSGIYYAGRENGMITTHFEATDARRMFPCVDHPAYKAVFAITVVIDKDYDAISNMPPKRIEVSERKVVEFQDTPRMSTYLLYVGIGKFRYEYEKYRDIDLILASLKDIRSKYPLDMARKSVEFYENYFGIPYALPKMHLISVPEFGAGAMENWGAITFREIYMDIAENSAVTVKRNSANVIAHEIAHQWFGDLVTMKWWNDLWLNESFATFMSYKTMDTLFPEWSFWGDFFVSRTSGALRSDSLKNTHPIEVDVRDPDEISQIFDEISYGKGASILRMIEDYAGYEEFRKGISKYLNDHKFGNAEGSDLWTAIEDVSGKPVKRVMEYWIKNPGYPVIKLKRNGRKITMYQTRFLLNGEEEGRWPVPVNIKKKDGVERILLEDEASIEADGLIKINADSAGFYRVLYDDATFSDVMGHYRDLSPLDRIGLVDDLFAFLLSGHIDPETYRQRIRNFFDDEDHNVITAIVGQMEYLRMLTHAFDDDARAFCRSRMQFLTGKQDENLKIALGRVSRLYVMVDESYAEEMSKLFKDFDSAEPEMRSSIATAYALVTGDLKGLLEKFRSVDRDEDRVRIISAFGKLKSNTDLSTVYGMVEKTEIKKQDMISFFSSALETLPGREFIFANLDRIIRLVIRYFTGNRTASRTVEMMIPVIGLDHPDAEDIVRNIGSKNISMGLAKGIEMLAVNRKLVERIRQTAVK 1z68-a1-m1-cA_1z68-a1-m1-cB Crystal Structure Of Human Fibroblast Activation Protein alpha Q12884 Q12884 2.6 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 719 719 6y0f-a1-m1-cB_6y0f-a1-m1-cA 6y0f-a2-m1-cD_6y0f-a2-m1-cC MRALTLKDILNGTFSYKTFFPNWISGQEYLHQSADNNIVLYNIETGQSYTILSNRTMKSVNASNYGLSPDRQFVYLESDYSKLWRYSYTATYYIYDLSNGEFVRGNELPRPIQYLCWSPVGSKLAYVYQNNIYLKQRPGDPPFQITFNGRENKIFNGIPDWVYEEEMLATKYALWWSPNGKFLAYAEFNDTDIPVIAYSYYGDEQYPRTINIPYPKAGAKNPVVRIFIIDTTYPAYVGPQEVPVPAMIASSDYYFSWLTWVTDERVCLQWLKRVQNVSVLSICDFREDWQTWDCPKTQEHIEESRTGWAGGFFVSTPVFSYDAISYYKIFSDKDGYKHIHYIKDTVENAIQITSGKWEAINIFRVTQDSLFYSSNEFEEYPGRRNIYRISIGSYPPSKKCVTCHLRKERCQYYTASFSDYAKYYALVCYGPGIPISTLHDGRTDQEIKILEENKELENALKNIQLPKEEIKKLEVDEITLWYKMILPPQFDRSKKYPLLIQVYGGPCSQSVRSVFAVNWISYLASKEGMVIALVDGRGTAFQGDKLLYAVYRKLGVYEVEDQITAVRKFIEMGFIDEKRIAIWGWSYGGYVSSLALASGTGLFKCGIAVAPVSSWEYYASVYTERFMGLPTKDDNLEHYKNSTVMARAEYFRNVDYLLIHGTADDNVHFQNSAQIAKALVNAQVDFQAMWYSDQNHGLSGLSTNHLYTHMTHFLKQCFS MRALTLKDILNGTFSYKTFFPNWISGQEYLHQSADNNIVLYNIETGQSYTILSNRTMKSVNASNYGLSPDRQFVYLESDYSKLWRYSYTATYYIYDLSNGEFVRGNELPRPIQYLCWSPVGSKLAYVYQNNIYLKQRPGDPPFQITFNGRENKIFNGIPDWVYEEEMLATKYALWWSPNGKFLAYAEFNDTDIPVIAYSYYGDEQYPRTINIPYPKAGAKNPVVRIFIIDTTYPAYVGPQEVPVPAMIASSDYYFSWLTWVTDERVCLQWLKRVQNVSVLSICDFREDWQTWDCPKTQEHIEESRTGWAGGFFVSTPVFSYDAISYYKIFSDKDGYKHIHYIKDTVENAIQITSGKWEAINIFRVTQDSLFYSSNEFEEYPGRRNIYRISIGSYPPSKKCVTCHLRKERCQYYTASFSDYAKYYALVCYGPGIPISTLHDGRTDQEIKILEENKELENALKNIQLPKEEIKKLEVDEITLWYKMILPPQFDRSKKYPLLIQVYGGPCSQSVRSVFAVNWISYLASKEGMVIALVDGRGTAFQGDKLLYAVYRKLGVYEVEDQITAVRKFIEMGFIDEKRIAIWGWSYGGYVSSLALASGTGLFKCGIAVAPVSSWEYYASVYTERFMGLPTKDDNLEHYKNSTVMARAEYFRNVDYLLIHGTADDNVHFQNSAQIAKALVNAQVDFQAMWYSDQNHGLSGLSTNHLYTHMTHFLKQCFS 1z69-a1-m1-cA_1z69-a1-m1-cD Crystal structure of methylenetetrahydromethanopterin reductase (Mer) in complex with coenzyme F420 Q46FV4 Q46FV4 2.61 X-RAY DIFFRACTION 24 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 327 327 1z69-a1-m1-cB_1z69-a1-m1-cC MKFGIEFVPSDPALKIAYYAKLSEQQGFDHVWITDHYNNRDVYSTLTVLALNTNSIKIGPGVTNSYTRNPAITASSIASIAEISGGRAVLGLGPGDKATFDAMGIAWKKPLATTKEAIQAIRDFISGKKVSMDGEMIKFAGAKLAFKAGNIPIYMGAQGPKMLELAGEIADGVLINASHPKDFEVAVEQIKKGAEKAGRDPSEVDVTAYACFSIDKDPVKAVNAAKVVVAFIVAGSPDLVLERHGIPVEAKSQIGAAIAKGDFGALMGGLVTPQMIEAFSICGTPDDCMKRIKDLEAIGVTQIVAGSPIGPAKEKAIKLIGKEIIAK MKFGIEFVPSDPALKIAYYAKLSEQQGFDHVWITDHYNNRDVYSTLTVLALNTNSIKIGPGVTNSYTRNPAITASSIASIAEISGGRAVLGLGPGDKATFDAMGIAWKKPLATTKEAIQAIRDFISGKKVSMDGEMIKFAGAKLAFKAGNIPIYMGAQGPKMLELAGEIADGVLINASHPKDFEVAVEQIKKGAEKAGRDPSEVDVTAYACFSIDKDPVKAVNAAKVVVAFIVAGSPDLVLERHGIPVEAKSQIGAAIAKGDFGALMGGLVTPQMIEAFSICGTPDDCMKRIKDLEAIGVTQIVAGSPIGPAKEKAIKLIGKEIIAK 1z69-a1-m1-cB_1z69-a1-m1-cD Crystal structure of methylenetetrahydromethanopterin reductase (Mer) in complex with coenzyme F420 Q46FV4 Q46FV4 2.61 X-RAY DIFFRACTION 15 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 327 327 1z69-a1-m1-cA_1z69-a1-m1-cC MKFGIEFVPSDPALKIAYYAKLSEQQGFDHVWITDHYNNRDVYSTLTVLALNTNSIKIGPGVTNSYTRNPAITASSIASIAEISGGRAVLGLGPGDKATFDAMGIAWKKPLATTKEAIQAIRDFISGKKVSMDGEMIKFAGAKLAFKAGNIPIYMGAQGPKMLELAGEIADGVLINASHPKDFEVAVEQIKKGAEKAGRDPSEVDVTAYACFSIDKDPVKAVNAAKVVVAFIVAGSPDLVLERHGIPVEAKSQIGAAIAKGDFGALMGGLVTPQMIEAFSICGTPDDCMKRIKDLEAIGVTQIVAGSPIGPAKEKAIKLIGKEIIAK MKFGIEFVPSDPALKIAYYAKLSEQQGFDHVWITDHYNNRDVYSTLTVLALNTNSIKIGPGVTNSYTRNPAITASSIASIAEISGGRAVLGLGPGDKATFDAMGIAWKKPLATTKEAIQAIRDFISGKKVSMDGEMIKFAGAKLAFKAGNIPIYMGAQGPKMLELAGEIADGVLINASHPKDFEVAVEQIKKGAEKAGRDPSEVDVTAYACFSIDKDPVKAVNAAKVVVAFIVAGSPDLVLERHGIPVEAKSQIGAAIAKGDFGALMGGLVTPQMIEAFSICGTPDDCMKRIKDLEAIGVTQIVAGSPIGPAKEKAIKLIGKEIIAK 1z69-a1-m1-cC_1z69-a1-m1-cD Crystal structure of methylenetetrahydromethanopterin reductase (Mer) in complex with coenzyme F420 Q46FV4 Q46FV4 2.61 X-RAY DIFFRACTION 147 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 327 327 1z69-a1-m1-cA_1z69-a1-m1-cB MKFGIEFVPSDPALKIAYYAKLSEQQGFDHVWITDHYNNRDVYSTLTVLALNTNSIKIGPGVTNSYTRNPAITASSIASIAEISGGRAVLGLGPGDKATFDAMGIAWKKPLATTKEAIQAIRDFISGKKVSMDGEMIKFAGAKLAFKAGNIPIYMGAQGPKMLELAGEIADGVLINASHPKDFEVAVEQIKKGAEKAGRDPSEVDVTAYACFSIDKDPVKAVNAAKVVVAFIVAGSPDLVLERHGIPVEAKSQIGAAIAKGDFGALMGGLVTPQMIEAFSICGTPDDCMKRIKDLEAIGVTQIVAGSPIGPAKEKAIKLIGKEIIAK MKFGIEFVPSDPALKIAYYAKLSEQQGFDHVWITDHYNNRDVYSTLTVLALNTNSIKIGPGVTNSYTRNPAITASSIASIAEISGGRAVLGLGPGDKATFDAMGIAWKKPLATTKEAIQAIRDFISGKKVSMDGEMIKFAGAKLAFKAGNIPIYMGAQGPKMLELAGEIADGVLINASHPKDFEVAVEQIKKGAEKAGRDPSEVDVTAYACFSIDKDPVKAVNAAKVVVAFIVAGSPDLVLERHGIPVEAKSQIGAAIAKGDFGALMGGLVTPQMIEAFSICGTPDDCMKRIKDLEAIGVTQIVAGSPIGPAKEKAIKLIGKEIIAK 1z6a-a2-m1-cA_1z6a-a2-m2-cA Sulfolobus solfataricus SWI2/SNF2 ATPase core domain Q97XQ7 Q97XQ7 3 X-RAY DIFFRACTION 50 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 480 480 LVPRGSHMASKSFQLLEPYNIKANLRPYQIKGFSWMRFMNKLGFGICLADDMGLGKTLQTIAVFSDAKKENELTPSLVICPLSVLKNWEEELSKFAPHLRFAVFHEDRSKIKLEDYDIILTTYAVLLRDTRLKEVEWKYIVIDEAQNIKNPQTKIFKAVKELKSKYRIALTGTPIENKVDDLWSIMTFLNPGLLGSYSEFKSKFATPIKKGDNMAKEELKAIISPFILRRTKYDKAIINDLPDKIETNVYCNLTPEQAAMYKAEVENLFNNIDSVTGIKRKGMILSTLLKLKQIVDHPALLKGGEQSVRRSGKMIRTMEIIEEALDEGDKIAIFTQFVDMGKIIRNIIEKELNTEVPFLYGELSKKERDDIISKFQNNPSVKFIVLSVKAGGFGINLTSANRVIHFDRWWDQATDRVYRIGQTRNVIVHKLISVGTLEEKIDQLLAFKRSLFKDIISSGDSWITELSTEELRKVIELSVG LVPRGSHMASKSFQLLEPYNIKANLRPYQIKGFSWMRFMNKLGFGICLADDMGLGKTLQTIAVFSDAKKENELTPSLVICPLSVLKNWEEELSKFAPHLRFAVFHEDRSKIKLEDYDIILTTYAVLLRDTRLKEVEWKYIVIDEAQNIKNPQTKIFKAVKELKSKYRIALTGTPIENKVDDLWSIMTFLNPGLLGSYSEFKSKFATPIKKGDNMAKEELKAIISPFILRRTKYDKAIINDLPDKIETNVYCNLTPEQAAMYKAEVENLFNNIDSVTGIKRKGMILSTLLKLKQIVDHPALLKGGEQSVRRSGKMIRTMEIIEEALDEGDKIAIFTQFVDMGKIIRNIIEKELNTEVPFLYGELSKKERDDIISKFQNNPSVKFIVLSVKAGGFGINLTSANRVIHFDRWWDQATDRVYRIGQTRNVIVHKLISVGTLEEKIDQLLAFKRSLFKDIISSGDSWITELSTEELRKVIELSVG 1z6a-a3-m1-cA_1z6a-a3-m3-cA Sulfolobus solfataricus SWI2/SNF2 ATPase core domain Q97XQ7 Q97XQ7 3 X-RAY DIFFRACTION 62 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 480 480 LVPRGSHMASKSFQLLEPYNIKANLRPYQIKGFSWMRFMNKLGFGICLADDMGLGKTLQTIAVFSDAKKENELTPSLVICPLSVLKNWEEELSKFAPHLRFAVFHEDRSKIKLEDYDIILTTYAVLLRDTRLKEVEWKYIVIDEAQNIKNPQTKIFKAVKELKSKYRIALTGTPIENKVDDLWSIMTFLNPGLLGSYSEFKSKFATPIKKGDNMAKEELKAIISPFILRRTKYDKAIINDLPDKIETNVYCNLTPEQAAMYKAEVENLFNNIDSVTGIKRKGMILSTLLKLKQIVDHPALLKGGEQSVRRSGKMIRTMEIIEEALDEGDKIAIFTQFVDMGKIIRNIIEKELNTEVPFLYGELSKKERDDIISKFQNNPSVKFIVLSVKAGGFGINLTSANRVIHFDRWWDQATDRVYRIGQTRNVIVHKLISVGTLEEKIDQLLAFKRSLFKDIISSGDSWITELSTEELRKVIELSVG LVPRGSHMASKSFQLLEPYNIKANLRPYQIKGFSWMRFMNKLGFGICLADDMGLGKTLQTIAVFSDAKKENELTPSLVICPLSVLKNWEEELSKFAPHLRFAVFHEDRSKIKLEDYDIILTTYAVLLRDTRLKEVEWKYIVIDEAQNIKNPQTKIFKAVKELKSKYRIALTGTPIENKVDDLWSIMTFLNPGLLGSYSEFKSKFATPIKKGDNMAKEELKAIISPFILRRTKYDKAIINDLPDKIETNVYCNLTPEQAAMYKAEVENLFNNIDSVTGIKRKGMILSTLLKLKQIVDHPALLKGGEQSVRRSGKMIRTMEIIEEALDEGDKIAIFTQFVDMGKIIRNIIEKELNTEVPFLYGELSKKERDDIISKFQNNPSVKFIVLSVKAGGFGINLTSANRVIHFDRWWDQATDRVYRIGQTRNVIVHKLISVGTLEEKIDQLLAFKRSLFKDIISSGDSWITELSTEELRKVIELSVG 1z6o-a1-m1-cE_1z6o-a1-m1-cL Crystal Structure of Trichoplusia ni secreted ferritin Q52SA8 Q52SA8 1.91 X-RAY DIFFRACTION 86 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 212 212 1z6o-a1-m1-cA_1z6o-a1-m1-cE 1z6o-a1-m1-cA_1z6o-a1-m1-cL 1z6o-a1-m1-cB_1z6o-a1-m1-cD 1z6o-a1-m1-cB_1z6o-a1-m1-cK 1z6o-a1-m1-cC_1z6o-a1-m1-cH 1z6o-a1-m1-cC_1z6o-a1-m1-cI 1z6o-a1-m1-cD_1z6o-a1-m1-cK 1z6o-a1-m1-cF_1z6o-a1-m1-cG 1z6o-a1-m1-cF_1z6o-a1-m1-cJ 1z6o-a1-m1-cG_1z6o-a1-m1-cJ 1z6o-a1-m1-cH_1z6o-a1-m1-cI ADTCYNDVALDCGITSNSLALPRCNAVYGEYGSHGNVATELQAYAKLHLERSYDYLLSAAYFNNYQTNRAGFSKLFKKLSDEAWSKTIDIIKHVTKRGDKMNFDQHSTMKTERKNYTAENHELEALAKALDTQKELAERAFYIHREATRNSQHLHDPEIAQYLEEEFIEDHAEKIRTLAGHTSDLKKFITANNGHDLSLALYVFDEYLQKTV ADTCYNDVALDCGITSNSLALPRCNAVYGEYGSHGNVATELQAYAKLHLERSYDYLLSAAYFNNYQTNRAGFSKLFKKLSDEAWSKTIDIIKHVTKRGDKMNFDQHSTMKTERKNYTAENHELEALAKALDTQKELAERAFYIHREATRNSQHLHDPEIAQYLEEEFIEDHAEKIRTLAGHTSDLKKFITANNGHDLSLALYVFDEYLQKTV 1z6o-a1-m1-cV_1z6o-a1-m1-cX Crystal Structure of Trichoplusia ni secreted ferritin Q52SA9 Q52SA9 1.91 X-RAY DIFFRACTION 50 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 191 191 1z6o-a1-m1-cM_1z6o-a1-m1-cN 1z6o-a1-m1-cM_1z6o-a1-m1-cO 1z6o-a1-m1-cN_1z6o-a1-m1-cO 1z6o-a1-m1-cP_1z6o-a1-m1-cQ 1z6o-a1-m1-cP_1z6o-a1-m1-cR 1z6o-a1-m1-cQ_1z6o-a1-m1-cR 1z6o-a1-m1-cS_1z6o-a1-m1-cU 1z6o-a1-m1-cS_1z6o-a1-m1-cW 1z6o-a1-m1-cT_1z6o-a1-m1-cV 1z6o-a1-m1-cT_1z6o-a1-m1-cX 1z6o-a1-m1-cU_1z6o-a1-m1-cW TQCNVNPVQIPKDWITMHRSCRNSMRQQIQMEVGASLQYLAMGAHFSKDVVNRPGFAQLFFDAASEEREHAMKLIEYLLMRGELTNDVSSLLQVRPPTRSSWKGGVEALEHALSMESDVTKSIRNVIKACEDDSEFNDYHLVDYLTGDFLEEQYKGQRDLAGKASTLKKLMDRHEALGEFIFDKKLLGIDV TQCNVNPVQIPKDWITMHRSCRNSMRQQIQMEVGASLQYLAMGAHFSKDVVNRPGFAQLFFDAASEEREHAMKLIEYLLMRGELTNDVSSLLQVRPPTRSSWKGGVEALEHALSMESDVTKSIRNVIKACEDDSEFNDYHLVDYLTGDFLEEQYKGQRDLAGKASTLKKLMDRHEALGEFIFDKKLLGIDV 1z6r-a3-m1-cA_1z6r-a3-m1-cD Crystal structure of Mlc from Escherichia coli P50456 P50456 2.7 X-RAY DIFFRACTION 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 373 373 1z6r-a3-m1-cB_1z6r-a3-m1-cC QIKQTNAGAVYRLIDQLGPVSRIDLSRLAQLAPASITKIVHELEAHLVQELGLVVETEAWHYLSLRISRGEIFLALRDLSSKLVVEESQELALKDDLPLLDRIISHIDQFFIRHQKKLERLTSIAITLPGIIDTENGIVHRPFYEDVKEPLGEALEQHTGVPVYIQHDISAWTAEALFGASRGARDVIQVVIDHNVGAGVITDGHLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVDSILELAQLRLNQSSSLHGQPLTVDSLCQAALRGDLLAKDIITGVGAHVGRILAIVNLFNPQKILIGSPLSKAADILFPVISDSIRQQALPAYSQHISVESTQFSNQGTAGAALVKDAYNGSLLIRLLQG QIKQTNAGAVYRLIDQLGPVSRIDLSRLAQLAPASITKIVHELEAHLVQELGLVVETEAWHYLSLRISRGEIFLALRDLSSKLVVEESQELALKDDLPLLDRIISHIDQFFIRHQKKLERLTSIAITLPGIIDTENGIVHRPFYEDVKEPLGEALEQHTGVPVYIQHDISAWTAEALFGASRGARDVIQVVIDHNVGAGVITDGHLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVDSILELAQLRLNQSSSLHGQPLTVDSLCQAALRGDLLAKDIITGVGAHVGRILAIVNLFNPQKILIGSPLSKAADILFPVISDSIRQQALPAYSQHISVESTQFSNQGTAGAALVKDAYNGSLLIRLLQG 1z6r-a3-m1-cC_1z6r-a3-m1-cD Crystal structure of Mlc from Escherichia coli P50456 P50456 2.7 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 373 373 1z6r-a1-m1-cA_1z6r-a1-m1-cB 1z6r-a2-m1-cC_1z6r-a2-m1-cD 1z6r-a3-m1-cA_1z6r-a3-m1-cB 3bp8-a1-m1-cB_3bp8-a1-m1-cA 3bp8-a2-m1-cB_3bp8-a2-m1-cA QIKQTNAGAVYRLIDQLGPVSRIDLSRLAQLAPASITKIVHELEAHLVQELGLVVETEAWHYLSLRISRGEIFLALRDLSSKLVVEESQELALKDDLPLLDRIISHIDQFFIRHQKKLERLTSIAITLPGIIDTENGIVHRPFYEDVKEPLGEALEQHTGVPVYIQHDISAWTAEALFGASRGARDVIQVVIDHNVGAGVITDGHLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVDSILELAQLRLNQSSSLHGQPLTVDSLCQAALRGDLLAKDIITGVGAHVGRILAIVNLFNPQKILIGSPLSKAADILFPVISDSIRQQALPAYSQHISVESTQFSNQGTAGAALVKDAYNGSLLIRLLQG QIKQTNAGAVYRLIDQLGPVSRIDLSRLAQLAPASITKIVHELEAHLVQELGLVVETEAWHYLSLRISRGEIFLALRDLSSKLVVEESQELALKDDLPLLDRIISHIDQFFIRHQKKLERLTSIAITLPGIIDTENGIVHRPFYEDVKEPLGEALEQHTGVPVYIQHDISAWTAEALFGASRGARDVIQVVIDHNVGAGVITDGHLLHAGSSSLVEIGHTQVDPYGKRCYCGNHGCLETIASVDSILELAQLRLNQSSSLHGQPLTVDSLCQAALRGDLLAKDIITGVGAHVGRILAIVNLFNPQKILIGSPLSKAADILFPVISDSIRQQALPAYSQHISVESTQFSNQGTAGAALVKDAYNGSLLIRLLQG 1z72-a1-m1-cB_1z72-a1-m1-cA Structure of a putative transcriptional regulator from Streptococcus pneumoniae A0A0H2UP67 A0A0H2UP67 1.45 X-RAY DIFFRACTION 87 0.995 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 212 213 2a6b-a1-m1-cA_2a6b-a1-m2-cA TQDYAFQPGLTVGELLKSSQKDWQAAINHRFVKELFAGTIENKVLKDYLIQDYHFFDAFLSLGACVAHADKLESKLRFAKQLGFLEADEDGYFQKAFKELKVAENDYLEVTLHPVTKAFQDLYSAVASSDYAHLLVLVIAEGLYLDWGSKDLALPEVYIHSEWINLHRGPFFAEWVQFLVDELNRVGKRLTELQQRWNQAVALELAFFDIGY QDYAFQPGLTVGELLKSSQKDWQAAINHRFVKELFAGTIENKVLKDYLIQDYHFFDAFLSLGACVAHADKLESKLRFAKQLGFLEADEDGYFQKAFKELKVAENDYLEVTLHPVTKAFQDLYSAVASSDYAHLLVLVIAEGLYLDWGSKDLALPEVYIHSEWINLHRGPFFAEWVQFLVDELNRVGKREDLTELQQRWNQAVALELAFFDIGY 1z75-a2-m5-cA_1z75-a2-m6-cA Crystal Structure of ArnA dehydrogenase (decarboxylase) domain, R619M mutant P77398 P77398 2.4 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 334 334 1u9j-a3-m1-cA_1u9j-a3-m3-cA 1u9j-a3-m1-cA_1u9j-a3-m4-cA 1u9j-a3-m2-cA_1u9j-a3-m5-cA 1u9j-a3-m2-cA_1u9j-a3-m6-cA 1u9j-a3-m3-cA_1u9j-a3-m4-cA 1u9j-a3-m5-cA_1u9j-a3-m6-cA 1z73-a2-m1-cA_1z73-a2-m2-cA 1z73-a2-m1-cA_1z73-a2-m3-cA 1z73-a2-m2-cA_1z73-a2-m3-cA 1z73-a2-m4-cA_1z73-a2-m5-cA 1z73-a2-m4-cA_1z73-a2-m6-cA 1z73-a2-m5-cA_1z73-a2-m6-cA 1z75-a2-m1-cA_1z75-a2-m2-cA 1z75-a2-m1-cA_1z75-a2-m3-cA 1z75-a2-m2-cA_1z75-a2-m3-cA 1z75-a2-m4-cA_1z75-a2-m5-cA 1z75-a2-m4-cA_1z75-a2-m6-cA 1z7e-a1-m1-cA_1z7e-a1-m1-cB 1z7e-a1-m1-cA_1z7e-a1-m1-cC 1z7e-a1-m1-cB_1z7e-a1-m1-cC 1z7e-a1-m1-cE_1z7e-a1-m1-cD 1z7e-a1-m1-cE_1z7e-a1-m1-cF 1z7e-a1-m1-cF_1z7e-a1-m1-cD 4wkg-a1-m1-cA_4wkg-a1-m1-cB 4wkg-a1-m1-cA_4wkg-a1-m1-cC 4wkg-a1-m1-cC_4wkg-a1-m1-cB 4wkg-a1-m1-cD_4wkg-a1-m1-cE 4wkg-a1-m1-cF_4wkg-a1-m1-cD 4wkg-a1-m1-cF_4wkg-a1-m1-cE RTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESQDVEHMKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLT RTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESQDVEHMKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLT 1z7a-a2-m1-cG_1z7a-a2-m1-cH Crystal structure of probable Polysaccharide deacetylase from Pseudomonas aeruginosa PAO1 Q9I3J6 Q9I3J6 1.71 X-RAY DIFFRACTION 121 0.997 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 290 290 1z7a-a1-m1-cA_1z7a-a1-m1-cB 1z7a-a1-m1-cC_1z7a-a1-m1-cB 1z7a-a1-m1-cC_1z7a-a1-m1-cD 1z7a-a1-m1-cD_1z7a-a1-m1-cA 1z7a-a2-m1-cE_1z7a-a2-m1-cF 1z7a-a2-m1-cE_1z7a-a2-m1-cH 1z7a-a2-m1-cF_1z7a-a2-m1-cG DYPRDLIGYGNNPPHPHWPGDARIALSFVLNYEEGGERCVLHGDKESEAFLSEVAAQPLQGVRHSESLYEYGSRAGVWRLLKLFKRRNVPLTVFAVAAAQRNPEVIRAVADGHEICSHGYRWIDYQYDEAQEREHLEAIRILTELTGQRPVGWYTGRTGPNTRRLVEEGGFLYDSDTYDDDLPYWDPASTAEKPHLVIPYTLDTNDRFTQVQGFNNGEQFFQYLKDAFDVLYEEGATAPKLSIGLHCRLIGRPARAALERFIQYAQSHDKVWFARREDIARHWHREHPFQ YPRDLIGYGNNPPHPHWPGDARIALSFVLNYEEGGERCVLHGDKESEAFLSEVAAQPLQGVRHSESLYEYGSRAGVWRLLKLFKRRNVPLTVFAVAAAQRNPEVIRAVADGHEICSHGYRWIDYQYDEAQEREHLEAIRILTELTGQRPVGWYTGRTGPNTRRLVEEGGFLYDSDTYDDDLPYWDPASTAEKPHLVIPYTLDTNDRFTQVQGFNNGEQFFQYLKDAFDVLYEEGATAPKLSIGLHCRLIGRPARAALERFIQYAQSHDKVWFARREDIARHWHREHPFQE 1z7d-a1-m1-cB_1z7d-a1-m1-cA Ornithine aminotransferase PY00104 from Plasmodium Yoelii Q7RT90 Q7RT90 2.1 X-RAY DIFFRACTION 270 1.0 73239 (Plasmodium yoelii yoelii) 73239 (Plasmodium yoelii yoelii) 377 378 1z7d-a2-m1-cC_1z7d-a2-m1-cD 1z7d-a3-m1-cE_1z7d-a3-m1-cF KTPEDYINNELKYGAHNYDPIPVVLKRAKGVFVYDVNDKRYYDFLSAYSSVNQGHCHPNILNAMINQAKNLTICSRAFFSVPLGICERYLTNLLGYDKVLMMNTGAEANETAYKLCRKWGYEVKKIPENMAKIVVCKNNFSKVPYDDLEALEEELKDPNVCAFIVEPIQGEAGVIVPSDNYLQGVYDICKKYNVLFVADEVQTGLGRTGKLLCVHHYNVKPDVILLGKALSGGHYPISAVLANDDIMLVIKPGEHGSTYGGNPLAASICVEALNVLINEKLCENAEKLGGPFLENLKRELKDSKIVRDVRGKGLLCAIEFKNELVNVLDICLKLKENGLITRDVHDKTIRLTPPLCITKEQLDECTEIIVKTVKFFD KTPEDYINNELKYGAHNYDPIPVVLKRAKGVFVYDVNDKRYYDFLSAYSSVNQGHCHPNILNAMINQAKNLTICSRAFFSVPLGICERYLTNLLGYDKVLMMNTGAEANETAYKLCRKWGYEVKKIPENMAKIVVCKNNQFSKVPYDDLEALEEELKDPNVCAFIVEPIQGEAGVIVPSDNYLQGVYDICKKYNVLFVADEVQTGLGRTGKLLCVHHYNVKPDVILLGKALSGGHYPISAVLANDDIMLVIKPGEHGSTYGGNPLAASICVEALNVLINEKLCENAEKLGGPFLENLKRELKDSKIVRDVRGKGLLCAIEFKNELVNVLDICLKLKENGLITRDVHDKTIRLTPPLCITKEQLDECTEIIVKTVKFFD 1z7e-a1-m1-cC_1z7e-a1-m1-cD Crystal structure of full length ArnA P77398 P77398 3 X-RAY DIFFRACTION 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 639 644 1z7e-a1-m1-cA_1z7e-a1-m1-cE 1z7e-a1-m1-cB_1z7e-a1-m1-cF 4wkg-a1-m1-cA_4wkg-a1-m1-cE 4wkg-a1-m1-cC_4wkg-a1-m1-cD 4wkg-a1-m1-cF_4wkg-a1-m1-cB 6pih-a1-m1-cA_6pih-a1-m1-cB 6pih-a1-m1-cC_6pih-a1-m1-cD 6pih-a1-m1-cE_6pih-a1-m1-cF 6pik-a1-m1-cA_6pik-a1-m1-cB 6pik-a1-m1-cC_6pik-a1-m1-cD MKTVVFAYHDMGCLGIEALLAAGYEISAIFTHTDGSVARLAAERGIPVYAPDNVNHPLWVERIAQLSPDVIFSFYYRHLIYDEILQLAPAGAFNLHGSLLPKYRGRAPLNWVLVNGETETGVTLHRMVKRADAGAIVAQLRIAIAPDDIAITLHHKLCHAARQLLEQTLPAIKHGNILEIAQRENEATCFGRRTPDDSFLEWHKPASVLHNMVRAVADPWPGAFSYVGNQKFTVWSSRVHPHASKAQPGSVISVAPLLIACGDGALEIVTGQAGDGITMQGSQLAQTLGLVQGSRLRRTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESSSYYGKGYQDVEHRKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLT MKTVVFAYHDMGCLGIEALLAAGYEISAIFTHTDGSVARLAAERGIPVYAPDNVNHPLWVERIAQLSPDVIFSFYYRHLIYDEILQLAPAGAFNLHGSLLPKYRGRAPLNWVLVNGETETGVTLHRMVKRADAGAIVAQLRIAIAPDDIAITLHHKLCHAARQLLEQTLPAIKHGNILEIAQRENEATCFGRRTPDDSFLEWHKPASVLHNMVRAVADPWPGAFSYVGNQKFTVWSSRVHPHASKAQPGSVISVAPLLIACGDGALEIVTGQAGDGITMQGSQLAQTLGLVQGSRLNSQPRRRTRVLILGVNGFIGNHLTERLLREDHYEVYGLDIGSDAISRFLNHPHFHFVEGDISIHSEWIEYHVKKCDVVLPLVAIATPIEYTRNPLRVFELDFEENLRIIRYCVKYRKRIIFPSTSEVYGMCSDKYFDEDHSNLIVGPVNKPRWIYSVSKQLLDRVIWAYGEKEGLQFTLFRPFNWMGPRLDNLNAARIGSSRAITQLILNLVEGSPIKLIDGGKQKRCFTDIRDGIEALYRIIENAGNRCDGEIINIGNPENEASIEELGEMLLASFEKHPLRHHFPPFAGFRVVESSSYYGKGYQDVEHRKPSIRNAHRCLDWEPKIDMQETIDETLDFFLRTVDLT 1z7m-a1-m1-cD_1z7m-a1-m1-cB ATP Phosphoribosyl transferase (HisZG ATP-PRTase) from Lactococcus lactis Q02147 Q02147 2.9 X-RAY DIFFRACTION 24 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 314 318 1z7m-a1-m1-cC_1z7m-a1-m1-cA 1z7n-a1-m1-cC_1z7n-a1-m1-cA 1z7n-a1-m1-cD_1z7n-a1-m1-cB YLLPEESAEMTLNQVKSLRQIEGRLRKLFSLKNYQEVMPPSFEYTQLYTALETFNQEKMFQFIKHEGQSITLRYDFTLPLVRLYSQIKDSTSARYSYFGKIFRKEKRHKGRSTENYQIGIELFGESADKSELEILSLALQVIEQLGLNKTVFEIGSAKFFQRLCQLADGSTELLTELLLKKDLSGLNAFIEKNNFSKELRGLLKEIFITNELSRLENLVTNTKDDVLISSFDQLKEFSEKLSMIKPIIIDLGMVPKMDYYTDLMFKAYSSAANQPILSGGRYDQLLSNFQEEAFAIGFCCHMDTILKALERQEL YLLPEESAEMTLNQVKSLRQIEGRLRKLFSLKNYQEVMPPSFEYTQLYTALESNGKTFNQEKMFQFIKHEGQSITLRYDFTLPLVRLYSQIKDSTSARYSYFGKIFRKEKRHKGRSTENYQIGIELFGESADKSELEILSLALQVIEQLGLNKTVFEIGSAKFFQRLCQLADGSTELLTELLLKKDLSGLNAFIEKNNFSKELRGLLKEIFITNELSRLENLVTNTKDDVLISSFDQLKEFSEKLSMIKPIIIDLGMVPKMDYYTDLMFKAYSSAANQPILSGGRYDQLLSNFQEEAFAIGFCCHMDTILKALERQEL 1z7m-a2-m1-cA_1z7m-a2-m1-cB ATP Phosphoribosyl transferase (HisZG ATP-PRTase) from Lactococcus lactis Q02147 Q02147 2.9 X-RAY DIFFRACTION 106 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 311 318 1z7m-a1-m1-cA_1z7m-a1-m1-cB 1z7m-a1-m1-cC_1z7m-a1-m1-cD 1z7m-a3-m1-cC_1z7m-a3-m1-cD 1z7n-a1-m1-cA_1z7n-a1-m1-cB 1z7n-a1-m1-cC_1z7n-a1-m1-cD YLLPEESAEMTLNQVKSLRQIEGRLRKLFSLKNYQEVMPPSFEYTQLYTALESNGKTFNQEKMFQFIKHEGQSITLRYDFTLPLVRLYSQIKDSTSARYSYFGKIFRKEKENYQIGIELFGESADKSELEILSLALQVIEQLGLNKTVFEIGSAKFFQRLCQLADGSTELLTELLLKKDLSGLNAFIEKNNFSKELRGLLKEIFITNELSRLENLVTNTKDDVLISSFDQLKEFSEKLSMIKPIIIDLGMVPKMDYYTDLMFKAYSSAANQPILSGGRYDQLLSNFQEEAFAIGFCCHMDTILKALERQEL YLLPEESAEMTLNQVKSLRQIEGRLRKLFSLKNYQEVMPPSFEYTQLYTALESNGKTFNQEKMFQFIKHEGQSITLRYDFTLPLVRLYSQIKDSTSARYSYFGKIFRKEKRHKGRSTENYQIGIELFGESADKSELEILSLALQVIEQLGLNKTVFEIGSAKFFQRLCQLADGSTELLTELLLKKDLSGLNAFIEKNNFSKELRGLLKEIFITNELSRLENLVTNTKDDVLISSFDQLKEFSEKLSMIKPIIIDLGMVPKMDYYTDLMFKAYSSAANQPILSGGRYDQLLSNFQEEAFAIGFCCHMDTILKALERQEL 1z7m-a2-m1-cH_1z7m-a2-m1-cG ATP Phosphoribosyl transferase (HisZG ATP-PRTase) from Lactococcus lactis Q02129 Q02129 2.9 X-RAY DIFFRACTION 58 0.995 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 199 203 1z7m-a1-m1-cE_1z7m-a1-m1-cF 1z7m-a1-m1-cH_1z7m-a1-m1-cG 1z7m-a3-m1-cE_1z7m-a3-m1-cF 1z7n-a1-m1-cE_1z7n-a1-m1-cF 1z7n-a1-m1-cH_1z7n-a1-m1-cG MIKIAITKGRIQKQVTKLLENADYDVEPILNIKTKDDLQIIFGKPNDVITFLEHGIVDIGFVGKDTLDENDFDDYYELLYLKIGQCIFALASYPDFSNKNFQRHKRIASKYPRVTKKYFAQKQEDIEIIKLEGSVELGPVVGLADAIVDIVETGNTLSANGLEVIEKISDISTRMIVNKSSFKFKKDKIIEMVERLEDA MIKIAITKGRIQKQVTKLLENADYDVEPILRELQIKTKDDLQIIFGKPNDVITFLEHGIVDIGFVGKDTLDENDFDDYYELLYLKIGQCIFALASYPDFSNKNFQRHKRIASKYPRVTKKYFAQKQEDIEIIKLEGSVELGPVVGLADAIVDIVETGNTLSANGLEVIEKISDISTRMIVNKSSFKFKKDKIIEMVERLEDAQ 1z7s-a1-m23-c2_1z7s-a1-m9-c2 The crystal structure of coxsackievirus A21 P22055 P22055 3.2 X-RAY DIFFRACTION 59 1.0 12069 (Coxsackievirus A21) 12069 (Coxsackievirus A21) 267 267 1z7s-a1-m10-c2_1z7s-a1-m5-c2 1z7s-a1-m11-c2_1z7s-a1-m37-c2 1z7s-a1-m12-c2_1z7s-a1-m46-c2 1z7s-a1-m13-c2_1z7s-a1-m44-c2 1z7s-a1-m14-c2_1z7s-a1-m28-c2 1z7s-a1-m15-c2_1z7s-a1-m20-c2 1z7s-a1-m16-c2_1z7s-a1-m27-c2 1z7s-a1-m17-c2_1z7s-a1-m51-c2 1z7s-a1-m18-c2_1z7s-a1-m59-c2 1z7s-a1-m19-c2_1z7s-a1-m38-c2 1z7s-a1-m1-c2_1z7s-a1-m22-c2 1z7s-a1-m21-c2_1z7s-a1-m42-c2 1z7s-a1-m24-c2_1z7s-a1-m53-c2 1z7s-a1-m25-c2_1z7s-a1-m30-c2 1z7s-a1-m26-c2_1z7s-a1-m52-c2 1z7s-a1-m29-c2_1z7s-a1-m43-c2 1z7s-a1-m2-c2_1z7s-a1-m41-c2 1z7s-a1-m31-c2_1z7s-a1-m57-c2 1z7s-a1-m32-c2_1z7s-a1-m6-c2 1z7s-a1-m33-c2_1z7s-a1-m4-c2 1z7s-a1-m34-c2_1z7s-a1-m48-c2 1z7s-a1-m35-c2_1z7s-a1-m40-c2 1z7s-a1-m36-c2_1z7s-a1-m47-c2 1z7s-a1-m39-c2_1z7s-a1-m58-c2 1z7s-a1-m3-c2_1z7s-a1-m49-c2 1z7s-a1-m45-c2_1z7s-a1-m50-c2 1z7s-a1-m54-c2_1z7s-a1-m8-c2 1z7s-a1-m55-c2_1z7s-a1-m60-c2 1z7s-a1-m56-c2_1z7s-a1-m7-c2 1z7z-a1-m10-c2_1z7z-a1-m24-c2 1z7z-a1-m11-c2_1z7z-a1-m16-c2 1z7z-a1-m12-c2_1z7z-a1-m38-c2 1z7z-a1-m13-c2_1z7z-a1-m47-c2 1z7z-a1-m14-c2_1z7z-a1-m45-c2 1z7z-a1-m15-c2_1z7z-a1-m29-c2 1z7z-a1-m17-c2_1z7z-a1-m28-c2 1z7z-a1-m18-c2_1z7z-a1-m52-c2 1z7z-a1-m19-c2_1z7z-a1-m60-c2 1z7z-a1-m1-c2_1z7z-a1-m6-c2 1z7z-a1-m20-c2_1z7z-a1-m39-c2 1z7z-a1-m21-c2_1z7z-a1-m26-c2 1z7z-a1-m22-c2_1z7z-a1-m43-c2 1z7z-a1-m25-c2_1z7z-a1-m54-c2 1z7z-a1-m27-c2_1z7z-a1-m53-c2 1z7z-a1-m2-c2_1z7z-a1-m23-c2 1z7z-a1-m30-c2_1z7z-a1-m44-c2 1z7z-a1-m31-c2_1z7z-a1-m36-c2 1z7z-a1-m32-c2_1z7z-a1-m58-c2 1z7z-a1-m33-c2_1z7z-a1-m7-c2 1z7z-a1-m34-c2_1z7z-a1-m5-c2 1z7z-a1-m35-c2_1z7z-a1-m49-c2 1z7z-a1-m37-c2_1z7z-a1-m48-c2 1z7z-a1-m3-c2_1z7z-a1-m42-c2 1z7z-a1-m40-c2_1z7z-a1-m59-c2 1z7z-a1-m41-c2_1z7z-a1-m46-c2 1z7z-a1-m4-c2_1z7z-a1-m50-c2 1z7z-a1-m51-c2_1z7z-a1-m56-c2 1z7z-a1-m55-c2_1z7z-a1-m9-c2 1z7z-a1-m57-c2_1z7z-a1-m8-c2 ACGYSDRVRQITLGNSTITTQEAANAIVAYGEWPTYINDSEANPVDAPTEPDVSSNRFYTLESVSWKTTSRGWWWKLPDCLKDMGMFGQNMYYHYLGRSGYTIHVQCNASKFHQGALGVFLIPEFVMACNTESKTSYVSYINANPGERGGEFTNTYNPSNTDASEGRKFAALDYLLGSGVLAGNAFVYPHQIINLRTNNSATIVVPYVNSLVIDCMAKHNNWGIVILPLAPLAFAATSSPQVPITVTIAPMCTEFNGLRNITVPVHQ ACGYSDRVRQITLGNSTITTQEAANAIVAYGEWPTYINDSEANPVDAPTEPDVSSNRFYTLESVSWKTTSRGWWWKLPDCLKDMGMFGQNMYYHYLGRSGYTIHVQCNASKFHQGALGVFLIPEFVMACNTESKTSYVSYINANPGERGGEFTNTYNPSNTDASEGRKFAALDYLLGSGVLAGNAFVYPHQIINLRTNNSATIVVPYVNSLVIDCMAKHNNWGIVILPLAPLAFAATSSPQVPITVTIAPMCTEFNGLRNITVPVHQ 1z7u-a1-m1-cB_1z7u-a1-m1-cA Crystal Structure of the Putitive Transcriptional Regulator of MarR Family from Enterococcus faecalis V583 Q838C3 Q838C3 2.2 X-RAY DIFFRACTION 109 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 106 107 SNATTDKQTSINLALSTINGKWKLSLDELFQGTKRNGELRALDGITQRVLTDRLREEKDGLVHRESFNELPPRVEYTLTPEGYALYDALSSLCHWGETFAQKKARL SNATTDKQTSINLALSTINGKWKLSLDELFQGTKRNGELRALDGITQRVLTDRLREEKDGLVHRESFNELPPRVEYTLTPEGYALYDALSSLCHWGETFAQKKARLN 1z7w-a2-m1-cA_1z7w-a2-m2-cA Crystal Structure of O-Acetylserine Sulfhydrylase from Arabidopsis thaliana P47998 P47998 2.2 X-RAY DIFFRACTION 197 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 320 320 1z7y-a2-m1-cA_1z7y-a2-m2-cA 2isq-a1-m1-cA_2isq-a1-m2-cA SRIAKDVTELIGNTPLVYLNNVAEGCVGRVAAKLEMMEPCSSVKDRIGFSMISDAEKKGLIKPGESVLIEPTSGNTGVGLAFTAAAKGYKLIITMPASMSTERRIILLAFGVELVLTDPAKGMKGAIAKAEEILAKTPNGYMLQQFENPANPKIHYETTGPEIWKGTGGKIDGFVSGIGTGGTITGAGKYLKEQNANVKLYGVEPVESAILSGGKPGPHKIQGIGAGFIPSVLNVDLIDEVVQVSSDESIDMARQLALKEGLLVGISSGAAAAAAIKLAQRPENAGKLFVAIFPSFGERYLSTVLFDATRKEAEAMTFEA SRIAKDVTELIGNTPLVYLNNVAEGCVGRVAAKLEMMEPCSSVKDRIGFSMISDAEKKGLIKPGESVLIEPTSGNTGVGLAFTAAAKGYKLIITMPASMSTERRIILLAFGVELVLTDPAKGMKGAIAKAEEILAKTPNGYMLQQFENPANPKIHYETTGPEIWKGTGGKIDGFVSGIGTGGTITGAGKYLKEQNANVKLYGVEPVESAILSGGKPGPHKIQGIGAGFIPSVLNVDLIDEVVQVSSDESIDMARQLALKEGLLVGISSGAAAAAAIKLAQRPENAGKLFVAIFPSFGERYLSTVLFDATRKEAEAMTFEA 1z7x-a1-m1-cW_1z7x-a1-m1-cY X-ray structure of human ribonuclease inhibitor complexed with ribonuclease I P13489 P13489 1.95 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 460 460 1a4y-a1-m1-cA_1a4y-a1-m1-cD 2q4g-a1-m1-cW_2q4g-a1-m1-cY SLDIQSLDIQCEELSDARWAELLPLLQQCQVVRLDDCGLTEARCKDISSALRVNPALAELNLRSNELGDVGVHCVLQGLQTPSCKIQKLSLQNCCLTGAGCGVLSSTLRTLPTLQELHLSDNLLGDAGLQLLCEGLLDPQCRLEKLQLEYCSLSAASCEPLASVLRAKPDFKELTVSNNDINEAGVRVLCQGLKDSPCQLEALKLESCGVTSDNCRDLCGIVASKASLRELALGSNKLGDVGMAELCPGLLHPSSRLRTLWIWECGITAKGCGDLCRVLRAKESLKELSLAGNELGDEGARLLCETLLEPGCQLESLWVKSCSFTAACCSHFSSVLAQNRFLLELQISNNRLEDAGVRELCQGLGQPGSVLRVLWLADCDVSDSSCSSLAATLLANHSLRELDLSNNCLGDAGILQLVESVRQPGCLLEQLVLYDIYWSEEMEDRLQALEKDKPSLRVIS SLDIQSLDIQCEELSDARWAELLPLLQQCQVVRLDDCGLTEARCKDISSALRVNPALAELNLRSNELGDVGVHCVLQGLQTPSCKIQKLSLQNCCLTGAGCGVLSSTLRTLPTLQELHLSDNLLGDAGLQLLCEGLLDPQCRLEKLQLEYCSLSAASCEPLASVLRAKPDFKELTVSNNDINEAGVRVLCQGLKDSPCQLEALKLESCGVTSDNCRDLCGIVASKASLRELALGSNKLGDVGMAELCPGLLHPSSRLRTLWIWECGITAKGCGDLCRVLRAKESLKELSLAGNELGDEGARLLCETLLEPGCQLESLWVKSCSFTAACCSHFSSVLAQNRFLLELQISNNRLEDAGVRELCQGLGQPGSVLRVLWLADCDVSDSSCSSLAATLLANHSLRELDLSNNCLGDAGILQLVESVRQPGCLLEQLVLYDIYWSEEMEDRLQALEKDKPSLRVIS 1z82-a1-m1-cA_1z82-a1-m1-cB Crystal structure of glycerol-3-phosphate dehydrogenase (TM0378) from THERMOTOGA MARITIMA at 2.00 A resolution A0A0F6AK91 A0A0F6AK91 2 X-RAY DIFFRACTION 97 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 302 302 ERFFVLGAGSWGTVFAQLHENGEEVILWARRKEIVDLINVSHTSPYVEESKITVRATNDLEEIKKEDILVIAIPVQYIREHLLRLPVKPSVLNLSKGIEIKTGKRVSEIVEEILGCPYAVLSGPSHAEEVAKKLPTAVTLAGENSKELQKRISTEYFRVYTCEDVVGVEIAGALKNVIAIAAGILDGFGGWDNAKAALETRGIYEIARFGFFGADQKTFGLAGIGDLVTCNSRYSRNRRFGELIARGFNPLKLLESSNQVVEGAFTVKAVKIAKENKIDPISEEVYRVVYEGKPPLQSRDLR RFFVLGAGSWGTVFAQLHENGEEVILWARRKEIVDLINVSHTSPYVEESKITVRATNDLEEIKKEDILVIAIPVQYIREHLLRLPVKPSVLNLSKGIEIKTGKRVSEIVEEILGCPYAVLSGPSHAEEVAKKLPTAVTLAGENSKELQKRISTEYFRVYTCEDVVGVEIAGALKNVIAIAAGILDGFGGWDNAKAALETRGIYEIARFGFFGADQKTFGLAGIGDLVTCNSRYSRNRRFGELIARGFNPLKLLESSNQVVEGAFTVKAVKIAKENKIDPISEEVYRVVYEGKPPLQSRDLRR 1z83-a1-m1-cA_1z83-a1-m1-cB Crystal structure of human AK1A in complex with AP5A P00568 P00568 1.9 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 SMEEKLKKTNIIFVVGGPGSGKGTQCEKIVQKYGYTHLSTGDLLRSEVSSGSARGKKLSEIMEKGQLVPLETVLDMLRDAMVAKVNTSKGFLIDGYPREVQQGEEFERRIGQPTLLLYVDAGPETMTQRLLKRGETSGRVDDNEETIKKRLETYYKATEPVIAFYEKRGIVRKVNAEGSVDSVFSQVCTHLDALL SMEEKLKKTNIIFVVGGPGSGKGTQCEKIVQKYGYTHLSTGDLLRSEVSSGSARGKKLSEIMEKGQLVPLETVLDMLRDAMVAKVNTSKGFLIDGYPREVQQGEEFERRIGQPTLLLYVDAGPETMTQRLLKRGETSGRVDDNEETIKKRLETYYKATEPVIAFYEKRGIVRKVNAEGSVDSVFSQVCTHLDALL 1z83-a2-m1-cB_1z83-a2-m1-cC Crystal structure of human AK1A in complex with AP5A P00568 P00568 1.9 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 SMEEKLKKTNIIFVVGGPGSGKGTQCEKIVQKYGYTHLSTGDLLRSEVSSGSARGKKLSEIMEKGQLVPLETVLDMLRDAMVAKVNTSKGFLIDGYPREVQQGEEFERRIGQPTLLLYVDAGPETMTQRLLKRGETSGRVDDNEETIKKRLETYYKATEPVIAFYEKRGIVRKVNAEGSVDSVFSQVCTHLDALL SMEEKLKKTNIIFVVGGPGSGKGTQCEKIVQKYGYTHLSTGDLLRSEVSSGSARGKKLSEIMEKGQLVPLETVLDMLRDAMVAKVNTSKGFLIDGYPREVQQGEEFERRIGQPTLLLYVDAGPETMTQRLLKRGETSGRVDDNEETIKKRLETYYKATEPVIAFYEKRGIVRKVNAEGSVDSVFSQVCTHLDALL 1z85-a1-m1-cA_1z85-a1-m1-cB Crystal structure of a predicted rna methyltransferase (tm1380) from thermotoga maritima msb8 at 2.12 A resolution Q9X1A0 Q9X1A0 2.12 X-RAY DIFFRACTION 38 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 211 215 PHLFYGTAQNGEVIFDEREAHHRVVRLKEGDVIEATDGNGFSYTCILKSLKKKTAAAKIVKVEEKEKEPTEKLSVVVPIGRWERTRFLIEKCVELGVDEIFFHKFERSQHEISLDKAKIVVREAAKQCKRYLFPKVSFLEKLEFSGNVITLDLQNLLDANLEGSITVVVGPEGGFSEKERELLRSSTTIVLRFETAAILTVGYIALKKQKI PHLFYGTAQNGEVIFDEREAHHRVVRLKEGDVIEATDGNGFSYTCILKSLKKKTAAAKIVKVEEKEKEPTEKLSVVVPIGRWERTRFLIEKCVELGVDEIFFHKFERSQHEISLDKAKIVVREAAKQCKRYLFPKVSFLEKLEFSGNVITLDLDASQNLLDANLEGSITVVVGPEGGFSEKERELLRSSTTIVILRFETAAILTVGYIALKKQKI 1z85-a2-m2-cA_1z85-a2-m1-cB Crystal structure of a predicted rna methyltransferase (tm1380) from thermotoga maritima msb8 at 2.12 A resolution Q9X1A0 Q9X1A0 2.12 X-RAY DIFFRACTION 29 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 211 215 PHLFYGTAQNGEVIFDEREAHHRVVRLKEGDVIEATDGNGFSYTCILKSLKKKTAAAKIVKVEEKEKEPTEKLSVVVPIGRWERTRFLIEKCVELGVDEIFFHKFERSQHEISLDKAKIVVREAAKQCKRYLFPKVSFLEKLEFSGNVITLDLQNLLDANLEGSITVVVGPEGGFSEKERELLRSSTTIVLRFETAAILTVGYIALKKQKI PHLFYGTAQNGEVIFDEREAHHRVVRLKEGDVIEATDGNGFSYTCILKSLKKKTAAAKIVKVEEKEKEPTEKLSVVVPIGRWERTRFLIEKCVELGVDEIFFHKFERSQHEISLDKAKIVVREAAKQCKRYLFPKVSFLEKLEFSGNVITLDLDASQNLLDANLEGSITVVVGPEGGFSEKERELLRSSTTIVILRFETAAILTVGYIALKKQKI 1z8w-a1-m1-cA_1z8w-a1-m1-cC Structure of Mutant Pyrrolidone Carboxyl Peptidase (E192I) from a Hyperthermophile, Pyrococcus furiosus O73944 O73944 2 X-RAY DIFFRACTION 63 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 208 208 1iof-a1-m1-cA_1iof-a1-m1-cC 1iof-a1-m1-cB_1iof-a1-m1-cD 1ioi-a1-m1-cA_1ioi-a1-m1-cC 1ioi-a1-m1-cB_1ioi-a1-m1-cD 1x10-a1-m1-cA_1x10-a1-m1-cC 1x10-a1-m1-cB_1x10-a1-m1-cD 1x12-a1-m1-cA_1x12-a1-m1-cC 1x12-a1-m1-cB_1x12-a1-m1-cD 1z8t-a1-m1-cA_1z8t-a1-m1-cC 1z8t-a1-m1-cB_1z8t-a1-m1-cD 1z8w-a1-m1-cB_1z8w-a1-m1-cD 1z8x-a1-m1-cA_1z8x-a1-m1-cC 1z8x-a1-m1-cB_1z8x-a1-m1-cD 2df5-a1-m1-cA_2df5-a1-m1-cC 2df5-a1-m1-cB_2df5-a1-m1-cD 2eo8-a1-m1-cA_2eo8-a1-m1-cC 2eo8-a1-m1-cB_2eo8-a1-m1-cD MKVLVTGFEPFGGEKINPTERIAKDLDGIKIGDAQVFGRVLPVVFGKAKEVLEKTLEEIKPDIAIHVGLAPGRSAISIERIAVNAIDARIPDNEGKKIEDEPIVPGAPTAYFSTLPIKKIMKKLHERGIPAYISNSAGLYLSNYVMYLSLHHSATKGYPKMSGFIHVPYIPEQIIDKIGKGQVPPSMSYEMILEAVKVAIEVALEELL MKVLVTGFEPFGGEKINPTERIAKDLDGIKIGDAQVFGRVLPVVFGKAKEVLEKTLEEIKPDIAIHVGLAPGRSAISIERIAVNAIDARIPDNEGKKIEDEPIVPGAPTAYFSTLPIKKIMKKLHERGIPAYISNSAGLYLSNYVMYLSLHHSATKGYPKMSGFIHVPYIPEQIIDKIGKGQVPPSMSYEMILEAVKVAIEVALEELL 1z8y-a1-m9-cQ_1z8y-a1-m9-cS Mapping the E2 Glycoprotein of Alphaviruses P03316 P03316 9.0 ELECTRON MICROSCOPY 21 1.0 11034 (Sindbis virus) 11034 (Sindbis virus) 151 151 1ld4-a1-m10-cA_1ld4-a1-m10-cC 1ld4-a1-m10-cB_1ld4-a1-m23-cA 1ld4-a1-m10-cD_1ld4-a1-m6-cD 1ld4-a1-m10-cD_1ld4-a1-m9-cD 1ld4-a1-m11-cA_1ld4-a1-m11-cC 1ld4-a1-m11-cA_1ld4-a1-m38-cB 1ld4-a1-m11-cB_1ld4-a1-m20-cA 1ld4-a1-m11-cD_1ld4-a1-m12-cD 1ld4-a1-m11-cD_1ld4-a1-m15-cD 1ld4-a1-m12-cA_1ld4-a1-m12-cC 1ld4-a1-m12-cA_1ld4-a1-m47-cB 1ld4-a1-m12-cB_1ld4-a1-m37-cA 1ld4-a1-m12-cD_1ld4-a1-m13-cD 1ld4-a1-m13-cA_1ld4-a1-m13-cC 1ld4-a1-m13-cA_1ld4-a1-m45-cB 1ld4-a1-m13-cB_1ld4-a1-m46-cA 1ld4-a1-m13-cD_1ld4-a1-m14-cD 1ld4-a1-m14-cA_1ld4-a1-m14-cC 1ld4-a1-m14-cA_1ld4-a1-m29-cB 1ld4-a1-m14-cB_1ld4-a1-m44-cA 1ld4-a1-m14-cD_1ld4-a1-m15-cD 1ld4-a1-m15-cA_1ld4-a1-m15-cC 1ld4-a1-m15-cA_1ld4-a1-m16-cB 1ld4-a1-m15-cB_1ld4-a1-m28-cA 1ld4-a1-m16-cA_1ld4-a1-m16-cC 1ld4-a1-m16-cA_1ld4-a1-m28-cB 1ld4-a1-m16-cD_1ld4-a1-m17-cD 1ld4-a1-m16-cD_1ld4-a1-m20-cD 1ld4-a1-m17-cA_1ld4-a1-m17-cC 1ld4-a1-m17-cA_1ld4-a1-m52-cB 1ld4-a1-m17-cB_1ld4-a1-m27-cA 1ld4-a1-m17-cD_1ld4-a1-m18-cD 1ld4-a1-m18-cA_1ld4-a1-m18-cC 1ld4-a1-m18-cA_1ld4-a1-m60-cB 1ld4-a1-m18-cB_1ld4-a1-m51-cA 1ld4-a1-m18-cD_1ld4-a1-m19-cD 1ld4-a1-m19-cA_1ld4-a1-m19-cC 1ld4-a1-m19-cA_1ld4-a1-m39-cB 1ld4-a1-m19-cB_1ld4-a1-m59-cA 1ld4-a1-m19-cD_1ld4-a1-m20-cD 1ld4-a1-m1-cA_1ld4-a1-m1-cC 1ld4-a1-m1-cA_1ld4-a1-m23-cB 1ld4-a1-m1-cB_1ld4-a1-m10-cA 1ld4-a1-m1-cD_1ld4-a1-m2-cD 1ld4-a1-m1-cD_1ld4-a1-m5-cD 1ld4-a1-m20-cA_1ld4-a1-m20-cC 1ld4-a1-m20-cB_1ld4-a1-m38-cA 1ld4-a1-m21-cA_1ld4-a1-m21-cC 1ld4-a1-m21-cA_1ld4-a1-m43-cB 1ld4-a1-m21-cB_1ld4-a1-m30-cA 1ld4-a1-m21-cD_1ld4-a1-m22-cD 1ld4-a1-m21-cD_1ld4-a1-m25-cD 1ld4-a1-m22-cA_1ld4-a1-m22-cC 1ld4-a1-m22-cB_1ld4-a1-m42-cA 1ld4-a1-m22-cD_1ld4-a1-m23-cD 1ld4-a1-m23-cA_1ld4-a1-m23-cC 1ld4-a1-m23-cD_1ld4-a1-m24-cD 1ld4-a1-m24-cA_1ld4-a1-m24-cC 1ld4-a1-m24-cA_1ld4-a1-m54-cB 1ld4-a1-m24-cB_1ld4-a1-m9-cA 1ld4-a1-m24-cD_1ld4-a1-m25-cD 1ld4-a1-m25-cA_1ld4-a1-m25-cC 1ld4-a1-m25-cA_1ld4-a1-m26-cB 1ld4-a1-m25-cB_1ld4-a1-m53-cA 1ld4-a1-m26-cA_1ld4-a1-m26-cC 1ld4-a1-m26-cA_1ld4-a1-m53-cB 1ld4-a1-m26-cD_1ld4-a1-m27-cD 1ld4-a1-m26-cD_1ld4-a1-m30-cD 1ld4-a1-m27-cA_1ld4-a1-m27-cC 1ld4-a1-m27-cB_1ld4-a1-m52-cA 1ld4-a1-m27-cD_1ld4-a1-m28-cD 1ld4-a1-m28-cA_1ld4-a1-m28-cC 1ld4-a1-m28-cD_1ld4-a1-m29-cD 1ld4-a1-m29-cA_1ld4-a1-m29-cC 1ld4-a1-m29-cA_1ld4-a1-m44-cB 1ld4-a1-m29-cD_1ld4-a1-m30-cD 1ld4-a1-m2-cA_1ld4-a1-m2-cC 1ld4-a1-m2-cA_1ld4-a1-m42-cB 1ld4-a1-m2-cB_1ld4-a1-m22-cA 1ld4-a1-m2-cD_1ld4-a1-m3-cD 1ld4-a1-m30-cA_1ld4-a1-m30-cC 1ld4-a1-m30-cB_1ld4-a1-m43-cA 1ld4-a1-m31-cA_1ld4-a1-m31-cC 1ld4-a1-m31-cA_1ld4-a1-m58-cB 1ld4-a1-m31-cB_1ld4-a1-m40-cA 1ld4-a1-m31-cD_1ld4-a1-m32-cD 1ld4-a1-m31-cD_1ld4-a1-m35-cD 1ld4-a1-m32-cA_1ld4-a1-m32-cC 1ld4-a1-m32-cA_1ld4-a1-m7-cB 1ld4-a1-m32-cB_1ld4-a1-m57-cA 1ld4-a1-m32-cD_1ld4-a1-m33-cD 1ld4-a1-m33-cA_1ld4-a1-m33-cC 1ld4-a1-m33-cA_1ld4-a1-m5-cB 1ld4-a1-m33-cB_1ld4-a1-m6-cA 1ld4-a1-m33-cD_1ld4-a1-m34-cD 1ld4-a1-m34-cA_1ld4-a1-m34-cC 1ld4-a1-m34-cA_1ld4-a1-m49-cB 1ld4-a1-m34-cB_1ld4-a1-m4-cA 1ld4-a1-m34-cD_1ld4-a1-m35-cD 1ld4-a1-m35-cA_1ld4-a1-m35-cC 1ld4-a1-m35-cA_1ld4-a1-m36-cB 1ld4-a1-m35-cB_1ld4-a1-m48-cA 1ld4-a1-m36-cA_1ld4-a1-m36-cC 1ld4-a1-m36-cA_1ld4-a1-m48-cB 1ld4-a1-m36-cD_1ld4-a1-m37-cD 1ld4-a1-m36-cD_1ld4-a1-m40-cD 1ld4-a1-m37-cA_1ld4-a1-m37-cC 1ld4-a1-m37-cB_1ld4-a1-m47-cA 1ld4-a1-m37-cD_1ld4-a1-m38-cD 1ld4-a1-m38-cA_1ld4-a1-m38-cC 1ld4-a1-m38-cD_1ld4-a1-m39-cD 1ld4-a1-m39-cA_1ld4-a1-m39-cC 1ld4-a1-m39-cA_1ld4-a1-m59-cB 1ld4-a1-m39-cD_1ld4-a1-m40-cD 1ld4-a1-m3-cA_1ld4-a1-m3-cC 1ld4-a1-m3-cA_1ld4-a1-m50-cB 1ld4-a1-m3-cB_1ld4-a1-m41-cA 1ld4-a1-m3-cD_1ld4-a1-m4-cD 1ld4-a1-m40-cA_1ld4-a1-m40-cC 1ld4-a1-m40-cB_1ld4-a1-m58-cA 1ld4-a1-m41-cA_1ld4-a1-m41-cC 1ld4-a1-m41-cB_1ld4-a1-m50-cA 1ld4-a1-m41-cD_1ld4-a1-m42-cD 1ld4-a1-m41-cD_1ld4-a1-m45-cD 1ld4-a1-m42-cA_1ld4-a1-m42-cC 1ld4-a1-m42-cD_1ld4-a1-m43-cD 1ld4-a1-m43-cA_1ld4-a1-m43-cC 1ld4-a1-m43-cD_1ld4-a1-m44-cD 1ld4-a1-m44-cA_1ld4-a1-m44-cC 1ld4-a1-m44-cD_1ld4-a1-m45-cD 1ld4-a1-m45-cA_1ld4-a1-m45-cC 1ld4-a1-m45-cA_1ld4-a1-m46-cB 1ld4-a1-m46-cA_1ld4-a1-m46-cC 1ld4-a1-m46-cD_1ld4-a1-m47-cD 1ld4-a1-m46-cD_1ld4-a1-m50-cD 1ld4-a1-m47-cA_1ld4-a1-m47-cC 1ld4-a1-m47-cD_1ld4-a1-m48-cD 1ld4-a1-m48-cA_1ld4-a1-m48-cC 1ld4-a1-m48-cD_1ld4-a1-m49-cD 1ld4-a1-m49-cA_1ld4-a1-m49-cC 1ld4-a1-m49-cD_1ld4-a1-m50-cD 1ld4-a1-m4-cA_1ld4-a1-m4-cC 1ld4-a1-m4-cB_1ld4-a1-m49-cA 1ld4-a1-m4-cD_1ld4-a1-m5-cD 1ld4-a1-m50-cA_1ld4-a1-m50-cC 1ld4-a1-m51-cA_1ld4-a1-m51-cC 1ld4-a1-m51-cB_1ld4-a1-m60-cA 1ld4-a1-m51-cD_1ld4-a1-m52-cD 1ld4-a1-m51-cD_1ld4-a1-m55-cD 1ld4-a1-m52-cA_1ld4-a1-m52-cC 1ld4-a1-m52-cD_1ld4-a1-m53-cD 1ld4-a1-m53-cA_1ld4-a1-m53-cC 1ld4-a1-m53-cD_1ld4-a1-m54-cD 1ld4-a1-m54-cA_1ld4-a1-m54-cC 1ld4-a1-m54-cA_1ld4-a1-m9-cB 1ld4-a1-m54-cD_1ld4-a1-m55-cD 1ld4-a1-m55-cA_1ld4-a1-m55-cC 1ld4-a1-m55-cA_1ld4-a1-m56-cB 1ld4-a1-m55-cB_1ld4-a1-m8-cA 1ld4-a1-m56-cA_1ld4-a1-m56-cC 1ld4-a1-m56-cA_1ld4-a1-m8-cB 1ld4-a1-m56-cD_1ld4-a1-m57-cD 1ld4-a1-m56-cD_1ld4-a1-m60-cD 1ld4-a1-m57-cA_1ld4-a1-m57-cC 1ld4-a1-m57-cB_1ld4-a1-m7-cA 1ld4-a1-m57-cD_1ld4-a1-m58-cD 1ld4-a1-m58-cA_1ld4-a1-m58-cC 1ld4-a1-m58-cD_1ld4-a1-m59-cD 1ld4-a1-m59-cA_1ld4-a1-m59-cC 1ld4-a1-m59-cD_1ld4-a1-m60-cD 1ld4-a1-m5-cA_1ld4-a1-m5-cC 1ld4-a1-m5-cA_1ld4-a1-m6-cB 1ld4-a1-m60-cA_1ld4-a1-m60-cC 1ld4-a1-m6-cA_1ld4-a1-m6-cC 1ld4-a1-m6-cD_1ld4-a1-m7-cD 1ld4-a1-m7-cA_1ld4-a1-m7-cC 1ld4-a1-m7-cD_1ld4-a1-m8-cD 1ld4-a1-m8-cA_1ld4-a1-m8-cC 1ld4-a1-m8-cD_1ld4-a1-m9-cD 1ld4-a1-m9-cA_1ld4-a1-m9-cC 1z8y-a1-m10-cQ_1z8y-a1-m10-cS 1z8y-a1-m10-cR_1z8y-a1-m23-cQ 1z8y-a1-m10-cR_1z8y-a1-m9-cS 1z8y-a1-m10-cS_1z8y-a1-m6-cR 1z8y-a1-m10-cT_1z8y-a1-m6-cT 1z8y-a1-m10-cT_1z8y-a1-m9-cT 1z8y-a1-m11-cQ_1z8y-a1-m11-cS 1z8y-a1-m11-cQ_1z8y-a1-m38-cR 1z8y-a1-m11-cR_1z8y-a1-m15-cS 1z8y-a1-m11-cR_1z8y-a1-m20-cQ 1z8y-a1-m11-cS_1z8y-a1-m12-cR 1z8y-a1-m11-cT_1z8y-a1-m12-cT 1z8y-a1-m11-cT_1z8y-a1-m15-cT 1z8y-a1-m12-cQ_1z8y-a1-m12-cS 1z8y-a1-m12-cQ_1z8y-a1-m47-cR 1z8y-a1-m12-cR_1z8y-a1-m37-cQ 1z8y-a1-m12-cS_1z8y-a1-m13-cR 1z8y-a1-m12-cT_1z8y-a1-m13-cT 1z8y-a1-m13-cQ_1z8y-a1-m13-cS 1z8y-a1-m13-cQ_1z8y-a1-m45-cR 1z8y-a1-m13-cR_1z8y-a1-m46-cQ 1z8y-a1-m13-cS_1z8y-a1-m14-cR 1z8y-a1-m13-cT_1z8y-a1-m14-cT 1z8y-a1-m14-cQ_1z8y-a1-m14-cS 1z8y-a1-m14-cQ_1z8y-a1-m29-cR 1z8y-a1-m14-cR_1z8y-a1-m44-cQ 1z8y-a1-m14-cS_1z8y-a1-m15-cR 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3j0f-a1-m26-cC_3j0f-a1-m26-cD 3j0f-a1-m26-cC_3j0f-a1-m27-cB 3j0f-a1-m26-cD_3j0f-a1-m53-cB 3j0f-a1-m27-cA_3j0f-a1-m28-cA 3j0f-a1-m27-cB_3j0f-a1-m52-cD 3j0f-a1-m27-cC_3j0f-a1-m27-cD 3j0f-a1-m27-cC_3j0f-a1-m28-cB 3j0f-a1-m28-cA_3j0f-a1-m29-cA 3j0f-a1-m28-cC_3j0f-a1-m28-cD 3j0f-a1-m28-cC_3j0f-a1-m29-cB 3j0f-a1-m29-cA_3j0f-a1-m30-cA 3j0f-a1-m29-cC_3j0f-a1-m29-cD 3j0f-a1-m29-cC_3j0f-a1-m30-cB 3j0f-a1-m29-cD_3j0f-a1-m44-cB 3j0f-a1-m2-cA_3j0f-a1-m3-cA 3j0f-a1-m2-cB_3j0f-a1-m22-cD 3j0f-a1-m2-cC_3j0f-a1-m2-cD 3j0f-a1-m2-cC_3j0f-a1-m3-cB 3j0f-a1-m2-cD_3j0f-a1-m42-cB 3j0f-a1-m30-cB_3j0f-a1-m43-cD 3j0f-a1-m30-cC_3j0f-a1-m30-cD 3j0f-a1-m31-cA_3j0f-a1-m32-cA 3j0f-a1-m31-cA_3j0f-a1-m35-cA 3j0f-a1-m31-cB_3j0f-a1-m35-cC 3j0f-a1-m31-cB_3j0f-a1-m40-cD 3j0f-a1-m31-cC_3j0f-a1-m31-cD 3j0f-a1-m31-cC_3j0f-a1-m32-cB 3j0f-a1-m31-cD_3j0f-a1-m58-cB 3j0f-a1-m32-cA_3j0f-a1-m33-cA 3j0f-a1-m32-cB_3j0f-a1-m57-cD 3j0f-a1-m32-cC_3j0f-a1-m32-cD 3j0f-a1-m32-cC_3j0f-a1-m33-cB 3j0f-a1-m32-cD_3j0f-a1-m7-cB 3j0f-a1-m33-cA_3j0f-a1-m34-cA 3j0f-a1-m33-cB_3j0f-a1-m6-cD 3j0f-a1-m33-cC_3j0f-a1-m33-cD 3j0f-a1-m33-cC_3j0f-a1-m34-cB 3j0f-a1-m33-cD_3j0f-a1-m5-cB 3j0f-a1-m34-cA_3j0f-a1-m35-cA 3j0f-a1-m34-cB_3j0f-a1-m4-cD 3j0f-a1-m34-cC_3j0f-a1-m34-cD 3j0f-a1-m34-cC_3j0f-a1-m35-cB 3j0f-a1-m34-cD_3j0f-a1-m49-cB 3j0f-a1-m35-cB_3j0f-a1-m48-cD 3j0f-a1-m35-cC_3j0f-a1-m35-cD 3j0f-a1-m35-cD_3j0f-a1-m36-cB 3j0f-a1-m36-cA_3j0f-a1-m37-cA 3j0f-a1-m36-cA_3j0f-a1-m40-cA 3j0f-a1-m36-cB_3j0f-a1-m40-cC 3j0f-a1-m36-cC_3j0f-a1-m36-cD 3j0f-a1-m36-cC_3j0f-a1-m37-cB 3j0f-a1-m36-cD_3j0f-a1-m48-cB 3j0f-a1-m37-cA_3j0f-a1-m38-cA 3j0f-a1-m37-cB_3j0f-a1-m47-cD 3j0f-a1-m37-cC_3j0f-a1-m37-cD 3j0f-a1-m37-cC_3j0f-a1-m38-cB 3j0f-a1-m38-cA_3j0f-a1-m39-cA 3j0f-a1-m38-cC_3j0f-a1-m38-cD 3j0f-a1-m38-cC_3j0f-a1-m39-cB 3j0f-a1-m39-cA_3j0f-a1-m40-cA 3j0f-a1-m39-cC_3j0f-a1-m39-cD 3j0f-a1-m39-cC_3j0f-a1-m40-cB 3j0f-a1-m39-cD_3j0f-a1-m59-cB 3j0f-a1-m3-cA_3j0f-a1-m4-cA 3j0f-a1-m3-cB_3j0f-a1-m41-cD 3j0f-a1-m3-cC_3j0f-a1-m3-cD 3j0f-a1-m3-cC_3j0f-a1-m4-cB 3j0f-a1-m3-cD_3j0f-a1-m50-cB 3j0f-a1-m40-cB_3j0f-a1-m58-cD 3j0f-a1-m40-cC_3j0f-a1-m40-cD 3j0f-a1-m41-cA_3j0f-a1-m42-cA 3j0f-a1-m41-cA_3j0f-a1-m45-cA 3j0f-a1-m41-cB_3j0f-a1-m45-cC 3j0f-a1-m41-cB_3j0f-a1-m50-cD 3j0f-a1-m41-cC_3j0f-a1-m41-cD 3j0f-a1-m41-cC_3j0f-a1-m42-cB 3j0f-a1-m42-cA_3j0f-a1-m43-cA 3j0f-a1-m42-cC_3j0f-a1-m42-cD 3j0f-a1-m42-cC_3j0f-a1-m43-cB 3j0f-a1-m43-cA_3j0f-a1-m44-cA 3j0f-a1-m43-cC_3j0f-a1-m43-cD 3j0f-a1-m43-cC_3j0f-a1-m44-cB 3j0f-a1-m44-cA_3j0f-a1-m45-cA 3j0f-a1-m44-cC_3j0f-a1-m44-cD 3j0f-a1-m44-cC_3j0f-a1-m45-cB 3j0f-a1-m45-cC_3j0f-a1-m45-cD 3j0f-a1-m45-cD_3j0f-a1-m46-cB 3j0f-a1-m46-cA_3j0f-a1-m47-cA 3j0f-a1-m46-cA_3j0f-a1-m50-cA 3j0f-a1-m46-cB_3j0f-a1-m50-cC 3j0f-a1-m46-cC_3j0f-a1-m46-cD 3j0f-a1-m46-cC_3j0f-a1-m47-cB 3j0f-a1-m47-cA_3j0f-a1-m48-cA 3j0f-a1-m47-cC_3j0f-a1-m47-cD 3j0f-a1-m47-cC_3j0f-a1-m48-cB 3j0f-a1-m48-cA_3j0f-a1-m49-cA 3j0f-a1-m48-cC_3j0f-a1-m48-cD 3j0f-a1-m48-cC_3j0f-a1-m49-cB 3j0f-a1-m49-cA_3j0f-a1-m50-cA 3j0f-a1-m49-cC_3j0f-a1-m49-cD 3j0f-a1-m49-cC_3j0f-a1-m50-cB 3j0f-a1-m4-cA_3j0f-a1-m5-cA 3j0f-a1-m4-cB_3j0f-a1-m49-cD 3j0f-a1-m4-cC_3j0f-a1-m4-cD 3j0f-a1-m4-cC_3j0f-a1-m5-cB 3j0f-a1-m50-cC_3j0f-a1-m50-cD 3j0f-a1-m51-cA_3j0f-a1-m52-cA 3j0f-a1-m51-cA_3j0f-a1-m55-cA 3j0f-a1-m51-cB_3j0f-a1-m55-cC 3j0f-a1-m51-cB_3j0f-a1-m60-cD 3j0f-a1-m51-cC_3j0f-a1-m51-cD 3j0f-a1-m51-cC_3j0f-a1-m52-cB 3j0f-a1-m52-cA_3j0f-a1-m53-cA 3j0f-a1-m52-cC_3j0f-a1-m52-cD 3j0f-a1-m52-cC_3j0f-a1-m53-cB 3j0f-a1-m53-cA_3j0f-a1-m54-cA 3j0f-a1-m53-cC_3j0f-a1-m53-cD 3j0f-a1-m53-cC_3j0f-a1-m54-cB 3j0f-a1-m54-cA_3j0f-a1-m55-cA 3j0f-a1-m54-cC_3j0f-a1-m54-cD 3j0f-a1-m54-cC_3j0f-a1-m55-cB 3j0f-a1-m54-cD_3j0f-a1-m9-cB 3j0f-a1-m55-cB_3j0f-a1-m8-cD 3j0f-a1-m55-cC_3j0f-a1-m55-cD 3j0f-a1-m55-cD_3j0f-a1-m56-cB 3j0f-a1-m56-cA_3j0f-a1-m57-cA 3j0f-a1-m56-cA_3j0f-a1-m60-cA 3j0f-a1-m56-cB_3j0f-a1-m60-cC 3j0f-a1-m56-cC_3j0f-a1-m56-cD 3j0f-a1-m56-cC_3j0f-a1-m57-cB 3j0f-a1-m56-cD_3j0f-a1-m8-cB 3j0f-a1-m57-cA_3j0f-a1-m58-cA 3j0f-a1-m57-cB_3j0f-a1-m7-cD 3j0f-a1-m57-cC_3j0f-a1-m57-cD 3j0f-a1-m57-cC_3j0f-a1-m58-cB 3j0f-a1-m58-cA_3j0f-a1-m59-cA 3j0f-a1-m58-cC_3j0f-a1-m58-cD 3j0f-a1-m58-cC_3j0f-a1-m59-cB 3j0f-a1-m59-cA_3j0f-a1-m60-cA 3j0f-a1-m59-cC_3j0f-a1-m59-cD 3j0f-a1-m59-cC_3j0f-a1-m60-cB 3j0f-a1-m5-cC_3j0f-a1-m5-cD 3j0f-a1-m5-cD_3j0f-a1-m6-cB 3j0f-a1-m60-cC_3j0f-a1-m60-cD 3j0f-a1-m6-cA_3j0f-a1-m7-cA 3j0f-a1-m6-cC_3j0f-a1-m6-cD 3j0f-a1-m6-cC_3j0f-a1-m7-cB 3j0f-a1-m7-cA_3j0f-a1-m8-cA 3j0f-a1-m7-cC_3j0f-a1-m7-cD 3j0f-a1-m7-cC_3j0f-a1-m8-cB 3j0f-a1-m8-cA_3j0f-a1-m9-cA 3j0f-a1-m8-cC_3j0f-a1-m8-cD 3j0f-a1-m8-cC_3j0f-a1-m9-cB 3j0f-a1-m9-cC_3j0f-a1-m9-cD RLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDSGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEW RLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDSGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEW 1z94-a2-m1-cF_1z94-a2-m2-cF X-Ray Crystal Structure of Protein CV1439 from Chromobacterium violaceum. Northeast Structural Genomics Consortium Target CvR12. Q7NY36 Q7NY36 2.1 X-RAY DIFFRACTION 76 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 141 141 1z94-a1-m1-cA_1z94-a1-m1-cD 1z94-a1-m1-cB_1z94-a1-m1-cC 1z94-a2-m1-cE_1z94-a2-m2-cE PNTIRLHRVLSAPPERVYRAFLDPLALAKWLPPEGFVCKVLEHDARVGGAYKEFLAFASGQKHAFGGRYLELVPGERIRYTDRFDDAGLPGDITTITLAPLSCGADLSIVQEGIPDAIPPENCYLGWQQSLKQLAALVEPD PNTIRLHRVLSAPPERVYRAFLDPLALAKWLPPEGFVCKVLEHDARVGGAYKEFLAFASGQKHAFGGRYLELVPGERIRYTDRFDDAGLPGDITTITLAPLSCGADLSIVQEGIPDAIPPENCYLGWQQSLKQLAALVEPD 1z94-a2-m2-cE_1z94-a2-m2-cF X-Ray Crystal Structure of Protein CV1439 from Chromobacterium violaceum. Northeast Structural Genomics Consortium Target CvR12. Q7NY36 Q7NY36 2.1 X-RAY DIFFRACTION 38 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 136 141 1z94-a1-m1-cA_1z94-a1-m1-cB 1z94-a1-m1-cC_1z94-a1-m1-cD 1z94-a2-m1-cE_1z94-a2-m1-cF PNTIRLHRVLSAPPERVYRAFLDPLALAKWLPPEGFVCKVLEHDARVGGAYKEFLAFASGQKHAFGGRYLELVPGERIRYTDRFDGDITTITLAPLSCGADLSIVQEGIPDAIPPENCYLGWQQSLKQLAALVEPD PNTIRLHRVLSAPPERVYRAFLDPLALAKWLPPEGFVCKVLEHDARVGGAYKEFLAFASGQKHAFGGRYLELVPGERIRYTDRFDDAGLPGDITTITLAPLSCGADLSIVQEGIPDAIPPENCYLGWQQSLKQLAALVEPD 1z9c-a3-m1-cE_1z9c-a3-m1-cF Crystal structure of OhrR bound to the ohrA promoter: Structure of MarR family protein with operator DNA O34777 O34777 2.64 X-RAY DIFFRACTION 165 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 137 138 1z91-a1-m1-cA_1z91-a1-m2-cA 1z9c-a1-m1-cA_1z9c-a1-m1-cB 1z9c-a2-m1-cD_1z9c-a2-m1-cC MKLENQLSFLLYASSREMTKQYKPLLDKLNITYPQYLALLLLWEHETLTVKKMGEQLYLDSGTLTPMLKRMEQQGLITRKRSEEDERSVLISLTEDGALLKEKAVDIPGTILGLSKQSGEDLKQLKSALYTLLETLH HMKLENQLSFLLYASSREMTKQYKPLLDKLNITYPQYLALLLLWEHETLTVKKMGEQLYLDSGTLTPMLKRMEQQGLITRKRSEEDERSVLISLTEDGALLKEKAVDIPGTILGLSKQSGEDLKQLKSALYTLLETLH 1z9d-a4-m1-cB_1z9d-a4-m2-cC Crystal structure of a putative uridylate kinase (UMP-kinase) from Streptococcus pyogenes P65938 P65938 2.8 X-RAY DIFFRACTION 70 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 229 229 1z9d-a4-m1-cA_1z9d-a4-m2-cA 1z9d-a4-m1-cC_1z9d-a4-m2-cB EPKYQRILIKLSGEALAGEKGVGIDIPTVQAIAKEIAEVHVSGVQIALVIGGGNLWRGEPAADAGDRVQADYTGLGTVNALVADSLQHYGVDTRVQTAIPQNVAEPYIRGRALRHLEKNRIVVFGAGIGSPYFSTDTTAALRAAEIEADAILAKNGVDGVYNADPKKDANAVKFDELTHGEVIKRGLKIDATASTLSDNDIDLVVFNNEAGNIQRVVFGEHIGTTVSNK EPKYQRILIKLSGEALAGEKGVGIDIPTVQAIAKEIAEVHVSGVQIALVIGGGNLWRGEPAADAGDRVQADYTGLGTVNALVADSLQHYGVDTRVQTAIPQNVAEPYIRGRALRHLEKNRIVVFGAGIGSPYFSTDTTAALRAAEIEADAILAKNGVDGVYNADPKKDANAVKFDELTHGEVIKRGLKIDATASTLSDNDIDLVVFNNEAGNIQRVVFGEHIGTTVSNK 1z9d-a4-m1-cC_1z9d-a4-m2-cC Crystal structure of a putative uridylate kinase (UMP-kinase) from Streptococcus pyogenes P65938 P65938 2.8 X-RAY DIFFRACTION 29 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 229 229 1z9d-a4-m1-cA_1z9d-a4-m2-cB 1z9d-a4-m1-cB_1z9d-a4-m2-cA EPKYQRILIKLSGEALAGEKGVGIDIPTVQAIAKEIAEVHVSGVQIALVIGGGNLWRGEPAADAGDRVQADYTGLGTVNALVADSLQHYGVDTRVQTAIPQNVAEPYIRGRALRHLEKNRIVVFGAGIGSPYFSTDTTAALRAAEIEADAILAKNGVDGVYNADPKKDANAVKFDELTHGEVIKRGLKIDATASTLSDNDIDLVVFNNEAGNIQRVVFGEHIGTTVSNK EPKYQRILIKLSGEALAGEKGVGIDIPTVQAIAKEIAEVHVSGVQIALVIGGGNLWRGEPAADAGDRVQADYTGLGTVNALVADSLQHYGVDTRVQTAIPQNVAEPYIRGRALRHLEKNRIVVFGAGIGSPYFSTDTTAALRAAEIEADAILAKNGVDGVYNADPKKDANAVKFDELTHGEVIKRGLKIDATASTLSDNDIDLVVFNNEAGNIQRVVFGEHIGTTVSNK 1z9f-a2-m1-cA_1z9f-a2-m4-cA Crystal structure of single stranded DNA-binding protein (TM0604) from Thermotoga maritima at 2.60 A resolution Q9WZ73 Q9WZ73 2.3 X-RAY DIFFRACTION 30 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 89 89 1z9f-a2-m2-cA_1z9f-a2-m3-cA HMSFFNKIILIGRLVRDPEERYTLTPVTTFTIAVDRTTDFFRIVTFGRLAEFARTYLTKGRLVLVEGEMRMRRKRVSPEVVANVVRFMD HMSFFNKIILIGRLVRDPEERYTLTPVTTFTIAVDRTTDFFRIVTFGRLAEFARTYLTKGRLVLVEGEMRMRRKRVSPEVVANVVRFMD 1z9f-a2-m3-cA_1z9f-a2-m4-cA Crystal structure of single stranded DNA-binding protein (TM0604) from Thermotoga maritima at 2.60 A resolution Q9WZ73 Q9WZ73 2.3 X-RAY DIFFRACTION 78 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 89 89 1z9f-a1-m1-cA_1z9f-a1-m2-cA 1z9f-a2-m1-cA_1z9f-a2-m2-cA HMSFFNKIILIGRLVRDPEERYTLTPVTTFTIAVDRTTDFFRIVTFGRLAEFARTYLTKGRLVLVEGEMRMRRKRVSPEVVANVVRFMD HMSFFNKIILIGRLVRDPEERYTLTPVTTFTIAVDRTTDFFRIVTFGRLAEFARTYLTKGRLVLVEGEMRMRRKRVSPEVVANVVRFMD 1z9h-a3-m2-cA_1z9h-a3-m2-cD Microsomal prostaglandin E synthase type-2 Q9N0A4 Q9N0A4 2.6 X-RAY DIFFRACTION 15 1.0 9541 (Macaca fascicularis) 9541 (Macaca fascicularis) 274 274 1z9h-a3-m1-cA_1z9h-a3-m1-cD 1z9h-a3-m1-cA_1z9h-a3-m2-cD 1z9h-a3-m1-cB_1z9h-a3-m1-cC 1z9h-a3-m1-cB_1z9h-a3-m2-cC 1z9h-a3-m1-cC_1z9h-a3-m2-cB 1z9h-a3-m1-cD_1z9h-a3-m2-cA 1z9h-a3-m2-cB_1z9h-a3-m2-cC LQLTLYQYKTCPFCSKVRAFLDFHALPYQVVEVNPVLRAEIKFSSYRKVPILVAQEGESSQQLNDSSVIISALKTYLVSGQPLEEIITYYPAMKAVNDQGKEVTEFGNKYWLMLNEKEAQQVYSGKEARTEEMKWRQWADDWLVHLISPNVYRTPTEALASFDYIVREGKFGAVEGAVAKYMGAAAMYLISKRLKSRHRLQDNVREDLYEAADKWVAAVGKDRPFMGGQKPNLADLAVYGVLRVMEGLDAFDDLMQHTHIQPWYLRVERAITEA LQLTLYQYKTCPFCSKVRAFLDFHALPYQVVEVNPVLRAEIKFSSYRKVPILVAQEGESSQQLNDSSVIISALKTYLVSGQPLEEIITYYPAMKAVNDQGKEVTEFGNKYWLMLNEKEAQQVYSGKEARTEEMKWRQWADDWLVHLISPNVYRTPTEALASFDYIVREGKFGAVEGAVAKYMGAAAMYLISKRLKSRHRLQDNVREDLYEAADKWVAAVGKDRPFMGGQKPNLADLAVYGVLRVMEGLDAFDDLMQHTHIQPWYLRVERAITEA 1z9h-a3-m2-cC_1z9h-a3-m2-cD Microsomal prostaglandin E synthase type-2 Q9N0A4 Q9N0A4 2.6 X-RAY DIFFRACTION 64 1.0 9541 (Macaca fascicularis) 9541 (Macaca fascicularis) 274 274 1z9h-a1-m1-cA_1z9h-a1-m1-cB 1z9h-a2-m1-cC_1z9h-a2-m1-cD 1z9h-a3-m1-cA_1z9h-a3-m1-cB 1z9h-a3-m1-cC_1z9h-a3-m1-cD 1z9h-a3-m2-cA_1z9h-a3-m2-cB 2pbj-a1-m1-cA_2pbj-a1-m1-cB 2pbj-a2-m1-cC_2pbj-a2-m1-cD LQLTLYQYKTCPFCSKVRAFLDFHALPYQVVEVNPVLRAEIKFSSYRKVPILVAQEGESSQQLNDSSVIISALKTYLVSGQPLEEIITYYPAMKAVNDQGKEVTEFGNKYWLMLNEKEAQQVYSGKEARTEEMKWRQWADDWLVHLISPNVYRTPTEALASFDYIVREGKFGAVEGAVAKYMGAAAMYLISKRLKSRHRLQDNVREDLYEAADKWVAAVGKDRPFMGGQKPNLADLAVYGVLRVMEGLDAFDDLMQHTHIQPWYLRVERAITEA LQLTLYQYKTCPFCSKVRAFLDFHALPYQVVEVNPVLRAEIKFSSYRKVPILVAQEGESSQQLNDSSVIISALKTYLVSGQPLEEIITYYPAMKAVNDQGKEVTEFGNKYWLMLNEKEAQQVYSGKEARTEEMKWRQWADDWLVHLISPNVYRTPTEALASFDYIVREGKFGAVEGAVAKYMGAAAMYLISKRLKSRHRLQDNVREDLYEAADKWVAAVGKDRPFMGGQKPNLADLAVYGVLRVMEGLDAFDDLMQHTHIQPWYLRVERAITEA 1z9m-a1-m1-cA_1z9m-a1-m1-cB Crystal Structure of Nectin-like molecule-1 protein Domain 1 Q8N126 Q8N126 2.4 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 105 QDDSQPWTSDETVVAGGTVVLKCQVKDHEDSSLQWSNPAQQTLYFGEKRALRDNRIQLVTSTPHELSISISNVALADEGEYTCSIFTMPVRTAKSLVTVLGIPQ SQDDSQPWTSDETVVAGGTVVLKCQVKDHEDSSLQWSNPAQQTLYFGEKRALRDNRIQLVTSTPHELSISISNVALADEGEYTCSIFTMPVRTAKSLVTVLGIPQ 1z9n-a2-m1-cC_1z9n-a2-m1-cD X-Ray structure of a Cu-Zn superoxide dismutase from Haemophilus ducreyi with haem bound at the dimer interface Q59452 Q59452 1.5 X-RAY DIFFRACTION 53 1.0 730 ([Haemophilus] ducreyi) 730 ([Haemophilus] ducreyi) 155 155 1z9n-a1-m1-cA_1z9n-a1-m1-cB 1z9p-a1-m1-cA_1z9p-a1-m1-cB EKIVVPVQQLDPQNGNKDVGTVEITESAYGLVFTPKLHDLAHGLHGFHIHEKPSCEPKEKDGKLVAGLGAGGHWDPKQTQKHGYPWSDDAHMGDLPALFVMHDGSATTPVLAPRLKKLAEVKGHSLMIHAGGDNHSDHPAPLGGGGPRMACGVIK EKIVVPVQQLDPQNGNKDVGTVEITESAYGLVFTPKLHDLAHGLHGFHIHEKPSCEPKEKDGKLVAGLGAGGHWDPKQTQKHGYPWSDDAHMGDLPALFVMHDGSATTPVLAPRLKKLAEVKGHSLMIHAGGDNHSDHPAPLGGGGPRMACGVIK 1z9o-a1-m1-cB_1z9o-a1-m1-cE 1.9 Angstrom Crystal Structure of the Rat VAP-A MSP Homology Domain in Complex with the Rat ORP1 FFAT Motif Q9Z270 Q9Z270 1.9 X-RAY DIFFRACTION 12 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 119 119 1z9o-a1-m1-cA_1z9o-a1-m1-cC EQILVLDPPSDLKFKGPFTDVVTTNLKLQNPSDRKVCFKVKTTAPRRYCVRPNSGVIDPGSIVTVSVMLQPFDYDPNEKSKHKFMVQTIFAPPSDMEAVWKEAKPDELMDSKLRCVFEM EQILVLDPPSDLKFKGPFTDVVTTNLKLQNPSDRKVCFKVKTTAPRRYCVRPNSGVIDPGSIVTVSVMLQPFDYDPNEKSKHKFMVQTIFAPPSDMEAVWKEAKPDELMDSKLRCVFEM 1z9o-a1-m1-cE_1z9o-a1-m1-cF 1.9 Angstrom Crystal Structure of the Rat VAP-A MSP Homology Domain in Complex with the Rat ORP1 FFAT Motif Q9Z270 Q9Z270 1.9 X-RAY DIFFRACTION 29 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 119 119 1z9o-a1-m1-cA_1z9o-a1-m1-cB 1z9o-a1-m1-cC_1z9o-a1-m1-cD EQILVLDPPSDLKFKGPFTDVVTTNLKLQNPSDRKVCFKVKTTAPRRYCVRPNSGVIDPGSIVTVSVMLQPFDYDPNEKSKHKFMVQTIFAPPSDMEAVWKEAKPDELMDSKLRCVFEM EQILVLDPPSDLKFKGPFTDVVTTNLKLQNPSDRKVCFKVKTTAPRRYCVRPNSGVIDPGSIVTVSVMLQPFDYDPNEKSKHKFMVQTIFAPPSDMEAVWKEAKPDELMDSKLRCVFEM 1z9u-a2-m4-cA_1z9u-a2-m1-cB Structural Genomics, The crystal structure of the acetyl transferase, modifies N-terminal serine of 50S ribosomal subunit protein L7/L12 from Salmonella typhimurium Q8ZPC0 Q8ZPC0 2.2 X-RAY DIFFRACTION 36 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 172 176 1z9u-a2-m3-cA_1z9u-a2-m2-cB EIIPVSTTLELRAADESHVPALHQLVLKNKAWLQQSLDQYTSQEETRKHVQGNILLHQRGYAKMYLIFCQNEMAGVLSFNAIEPINKAAYIGYWLDESFQGQGIMSQSLQALMTHYARRGDIRRFVIKCRVDNQASNAVARRNHFTLEGCMKQAEYLNGDYHDVNMYARIID VEIIPVSTTLELRAADESHVPALHQLVLKNKAWLQQSLDWPQYVTSQEETRKHVQGNILLHQRGYAKMYLIFCQNEMAGVLSFNAIEPINKAAYIGYWLDESFQGQGIMSQSLQALMTHYARRGDIRRFVIKCRVDNQASNAVARRNHFTLEGCMKQAEYLNGDYHDVNMYARIID 1z9u-a2-m4-cA_1z9u-a2-m2-cB Structural Genomics, The crystal structure of the acetyl transferase, modifies N-terminal serine of 50S ribosomal subunit protein L7/L12 from Salmonella typhimurium Q8ZPC0 Q8ZPC0 2.2 X-RAY DIFFRACTION 19 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 172 176 1z9u-a2-m3-cA_1z9u-a2-m1-cB EIIPVSTTLELRAADESHVPALHQLVLKNKAWLQQSLDQYTSQEETRKHVQGNILLHQRGYAKMYLIFCQNEMAGVLSFNAIEPINKAAYIGYWLDESFQGQGIMSQSLQALMTHYARRGDIRRFVIKCRVDNQASNAVARRNHFTLEGCMKQAEYLNGDYHDVNMYARIID VEIIPVSTTLELRAADESHVPALHQLVLKNKAWLQQSLDWPQYVTSQEETRKHVQGNILLHQRGYAKMYLIFCQNEMAGVLSFNAIEPINKAAYIGYWLDESFQGQGIMSQSLQALMTHYARRGDIRRFVIKCRVDNQASNAVARRNHFTLEGCMKQAEYLNGDYHDVNMYARIID 1z9z-a4-m1-cA_1z9z-a4-m4-cB Crystal structure of yeast sla1 SH3 domain 3 P32790 P32790 1.95 X-RAY DIFFRACTION 24 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 60 60 1z9z-a3-m1-cA_1z9z-a3-m4-cB 1z9z-a3-m2-cA_1z9z-a3-m3-cB GMERGIVQYDFMAESQDELTIKSGDKVYILDDKKSKDWWMCQLVDSGKSGLVPAQFIEPV GMERGIVQYDFMAESQDELTIKSGDKVYILDDKKSKDWWMCQLVDSGKSGLVPAQFIEPV 1z9z-a5-m1-cB_1z9z-a5-m5-cB Crystal structure of yeast sla1 SH3 domain 3 P32790 P32790 1.95 X-RAY DIFFRACTION 48 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 60 60 1z9z-a3-m1-cA_1z9z-a3-m2-cA 1z9z-a3-m3-cB_1z9z-a3-m4-cB GMERGIVQYDFMAESQDELTIKSGDKVYILDDKKSKDWWMCQLVDSGKSGLVPAQFIEPV GMERGIVQYDFMAESQDELTIKSGDKVYILDDKKSKDWWMCQLVDSGKSGLVPAQFIEPV 1za0-a2-m1-cA_1za0-a2-m2-cA X-ray structure of putative acyl-ACP desaturase DesA2 from Mycobacterium tuberculosis H37Rv P9WNZ5 P9WNZ5 2 X-RAY DIFFRACTION 91 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 242 242 DALTLELEPVVEANMTRHLDTEDIWFAHDYVPFDQGENFAFLGGRDWDPSQSTLPRTITDACEILLILKDNDWWGRWLGRWTAEEHLHAIALREYLVVTREVDPVANEDVRVKYTQVETLVYMAFYERCGAVFCRNLAAQIEEPILAGLIDRIARDEVRHEEFFANLVTHCLDYTRDETIAAIAARAADLDVLGADIEAYRDKLQNVADAGIFGKPQLRQLISDRITAWGLAGEPSLKQFVT DALTLELEPVVEANMTRHLDTEDIWFAHDYVPFDQGENFAFLGGRDWDPSQSTLPRTITDACEILLILKDNDWWGRWLGRWTAEEHLHAIALREYLVVTREVDPVANEDVRVKYTQVETLVYMAFYERCGAVFCRNLAAQIEEPILAGLIDRIARDEVRHEEFFANLVTHCLDYTRDETIAAIAARAADLDVLGADIEAYRDKLQNVADAGIFGKPQLRQLISDRITAWGLAGEPSLKQFVT 1za6-a3-m1-cE_1za6-a3-m2-cG The structure of an antitumor CH2-domain-deleted humanized antibody 2.8 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 1za6-a3-m1-cA_1za6-a3-m2-cC 1za6-a3-m1-cC_1za6-a3-m2-cA 1za6-a3-m1-cG_1za6-a3-m2-cE DIVMSQSPDSLAVSLGERVTLNCKSSQSLLYSGNQKNYLAWYQQKPGQSPKLLIYWASARESGVPDRFSGSGSGTDFTLTISSVQAEDVAVYYCQQYYSYPLTFGAGTKLELKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC DIVMSQSPDSLAVSLGERVTLNCKSSQSLLYSGNQKNYLAWYQQKPGQSPKLLIYWASARESGVPDRFSGSGSGTDFTLTISSVQAEDVAVYYCQQYYSYPLTFGAGTKLELKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 1za6-a3-m1-cF_1za6-a3-m2-cF The structure of an antitumor CH2-domain-deleted humanized antibody Q6GMX6 Q6GMX6 2.8 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 324 1za6-a3-m1-cB_1za6-a3-m2-cB QVQLVQSGAEVVKPGASVKISCKASGYTFTDHAIHWVKQNPGQRLEWIGYFSPGNDDFKYNERFKGKATLTADTSASTAYVELSSLRSEDTAVYFCTRSLNMAYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK QVQLVQSGAEVVKPGASVKISCKASGYTFTDHAIHWVKQNPGQRLEWIGYFSPGNDDFKYNERFKGKATLTADTSASTAYVELSSLRSEDTAVYFCTRSLNMAYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK 1za6-a3-m1-cF_1za6-a3-m2-cH The structure of an antitumor CH2-domain-deleted humanized antibody Q6GMX6 Q6GMX6 2.8 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 324 1za6-a3-m1-cB_1za6-a3-m2-cD 1za6-a3-m1-cD_1za6-a3-m2-cB 1za6-a3-m1-cH_1za6-a3-m2-cF QVQLVQSGAEVVKPGASVKISCKASGYTFTDHAIHWVKQNPGQRLEWIGYFSPGNDDFKYNERFKGKATLTADTSASTAYVELSSLRSEDTAVYFCTRSLNMAYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK QVQLVQSGAEVVKPGASVKISCKASGYTFTDHAIHWVKQNPGQRLEWIGYFSPGNDDFKYNERFKGKATLTADTSASTAYVELSSLRSEDTAVYFCTRSLNMAYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK 1za6-a4-m1-cF_1za6-a4-m1-cH The structure of an antitumor CH2-domain-deleted humanized antibody Q6GMX6 Q6GMX6 2.8 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 324 324 1za6-a1-m1-cB_1za6-a1-m1-cD 1za6-a2-m1-cF_1za6-a2-m1-cH 1za6-a3-m1-cB_1za6-a3-m1-cD 1za6-a3-m1-cF_1za6-a3-m1-cH 1za6-a3-m2-cB_1za6-a3-m2-cD 1za6-a3-m2-cF_1za6-a3-m2-cH 1za6-a4-m1-cB_1za6-a4-m1-cD QVQLVQSGAEVVKPGASVKISCKASGYTFTDHAIHWVKQNPGQRLEWIGYFSPGNDDFKYNERFKGKATLTADTSASTAYVELSSLRSEDTAVYFCTRSLNMAYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK QVQLVQSGAEVVKPGASVKISCKASGYTFTDHAIHWVKQNPGQRLEWIGYFSPGNDDFKYNERFKGKATLTADTSASTAYVELSSLRSEDTAVYFCTRSLNMAYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSCQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLSPGK 1za7-a1-m55-cB_1za7-a1-m9-cC The crystal structure of salt stable cowpea cholorotic mottle virus at 2.7 angstroms resolution. P03601 P03601 2.7 X-RAY DIFFRACTION 81 1.0 12303 (Cowpea chlorotic mottle virus) 12303 (Cowpea chlorotic mottle virus) 165 165 1cwp-a1-m10-cA_1cwp-a1-m6-cA 1cwp-a1-m10-cA_1cwp-a1-m9-cA 1cwp-a1-m10-cB_1cwp-a1-m24-cC 1cwp-a1-m10-cB_1cwp-a1-m6-cC 1cwp-a1-m10-cC_1cwp-a1-m24-cB 1cwp-a1-m10-cC_1cwp-a1-m9-cB 1cwp-a1-m11-cA_1cwp-a1-m12-cA 1cwp-a1-m11-cA_1cwp-a1-m15-cA 1cwp-a1-m11-cB_1cwp-a1-m12-cC 1cwp-a1-m11-cB_1cwp-a1-m16-cC 1cwp-a1-m11-cC_1cwp-a1-m15-cB 1cwp-a1-m11-cC_1cwp-a1-m16-cB 1cwp-a1-m12-cA_1cwp-a1-m13-cA 1cwp-a1-m12-cB_1cwp-a1-m13-cC 1cwp-a1-m12-cB_1cwp-a1-m38-cC 1cwp-a1-m12-cC_1cwp-a1-m38-cB 1cwp-a1-m13-cA_1cwp-a1-m14-cA 1cwp-a1-m13-cB_1cwp-a1-m14-cC 1cwp-a1-m13-cB_1cwp-a1-m47-cC 1cwp-a1-m13-cC_1cwp-a1-m47-cB 1cwp-a1-m14-cA_1cwp-a1-m15-cA 1cwp-a1-m14-cB_1cwp-a1-m15-cC 1cwp-a1-m14-cB_1cwp-a1-m45-cC 1cwp-a1-m14-cC_1cwp-a1-m45-cB 1cwp-a1-m15-cB_1cwp-a1-m29-cC 1cwp-a1-m15-cC_1cwp-a1-m29-cB 1cwp-a1-m16-cA_1cwp-a1-m17-cA 1cwp-a1-m16-cA_1cwp-a1-m20-cA 1cwp-a1-m16-cB_1cwp-a1-m17-cC 1cwp-a1-m16-cC_1cwp-a1-m20-cB 1cwp-a1-m17-cA_1cwp-a1-m18-cA 1cwp-a1-m17-cB_1cwp-a1-m18-cC 1cwp-a1-m17-cB_1cwp-a1-m28-cC 1cwp-a1-m17-cC_1cwp-a1-m28-cB 1cwp-a1-m18-cA_1cwp-a1-m19-cA 1cwp-a1-m18-cB_1cwp-a1-m19-cC 1cwp-a1-m18-cB_1cwp-a1-m52-cC 1cwp-a1-m18-cC_1cwp-a1-m52-cB 1cwp-a1-m19-cA_1cwp-a1-m20-cA 1cwp-a1-m19-cB_1cwp-a1-m20-cC 1cwp-a1-m19-cB_1cwp-a1-m60-cC 1cwp-a1-m19-cC_1cwp-a1-m60-cB 1cwp-a1-m1-cA_1cwp-a1-m2-cA 1cwp-a1-m1-cA_1cwp-a1-m5-cA 1cwp-a1-m1-cB_1cwp-a1-m2-cC 1cwp-a1-m1-cB_1cwp-a1-m6-cC 1cwp-a1-m1-cC_1cwp-a1-m5-cB 1cwp-a1-m1-cC_1cwp-a1-m6-cB 1cwp-a1-m20-cB_1cwp-a1-m39-cC 1cwp-a1-m20-cC_1cwp-a1-m39-cB 1cwp-a1-m21-cA_1cwp-a1-m22-cA 1cwp-a1-m21-cA_1cwp-a1-m25-cA 1cwp-a1-m21-cB_1cwp-a1-m22-cC 1cwp-a1-m21-cB_1cwp-a1-m26-cC 1cwp-a1-m21-cC_1cwp-a1-m25-cB 1cwp-a1-m21-cC_1cwp-a1-m26-cB 1cwp-a1-m22-cA_1cwp-a1-m23-cA 1cwp-a1-m22-cB_1cwp-a1-m23-cC 1cwp-a1-m22-cB_1cwp-a1-m43-cC 1cwp-a1-m22-cC_1cwp-a1-m43-cB 1cwp-a1-m23-cA_1cwp-a1-m24-cA 1cwp-a1-m23-cB_1cwp-a1-m24-cC 1cwp-a1-m24-cA_1cwp-a1-m25-cA 1cwp-a1-m24-cB_1cwp-a1-m25-cC 1cwp-a1-m25-cB_1cwp-a1-m54-cC 1cwp-a1-m25-cC_1cwp-a1-m54-cB 1cwp-a1-m26-cA_1cwp-a1-m27-cA 1cwp-a1-m26-cA_1cwp-a1-m30-cA 1cwp-a1-m26-cB_1cwp-a1-m27-cC 1cwp-a1-m26-cC_1cwp-a1-m30-cB 1cwp-a1-m27-cA_1cwp-a1-m28-cA 1cwp-a1-m27-cB_1cwp-a1-m28-cC 1cwp-a1-m27-cB_1cwp-a1-m53-cC 1cwp-a1-m27-cC_1cwp-a1-m53-cB 1cwp-a1-m28-cA_1cwp-a1-m29-cA 1cwp-a1-m28-cB_1cwp-a1-m29-cC 1cwp-a1-m29-cA_1cwp-a1-m30-cA 1cwp-a1-m29-cB_1cwp-a1-m30-cC 1cwp-a1-m2-cA_1cwp-a1-m3-cA 1cwp-a1-m2-cB_1cwp-a1-m23-cC 1cwp-a1-m2-cB_1cwp-a1-m3-cC 1cwp-a1-m2-cC_1cwp-a1-m23-cB 1cwp-a1-m30-cB_1cwp-a1-m44-cC 1cwp-a1-m30-cC_1cwp-a1-m44-cB 1cwp-a1-m31-cA_1cwp-a1-m32-cA 1cwp-a1-m31-cA_1cwp-a1-m35-cA 1cwp-a1-m31-cB_1cwp-a1-m32-cC 1cwp-a1-m31-cB_1cwp-a1-m36-cC 1cwp-a1-m31-cC_1cwp-a1-m35-cB 1cwp-a1-m31-cC_1cwp-a1-m36-cB 1cwp-a1-m32-cA_1cwp-a1-m33-cA 1cwp-a1-m32-cB_1cwp-a1-m33-cC 1cwp-a1-m32-cB_1cwp-a1-m58-cC 1cwp-a1-m32-cC_1cwp-a1-m58-cB 1cwp-a1-m33-cA_1cwp-a1-m34-cA 1cwp-a1-m33-cB_1cwp-a1-m34-cC 1cwp-a1-m33-cB_1cwp-a1-m7-cC 1cwp-a1-m33-cC_1cwp-a1-m7-cB 1cwp-a1-m34-cA_1cwp-a1-m35-cA 1cwp-a1-m34-cB_1cwp-a1-m35-cC 1cwp-a1-m34-cB_1cwp-a1-m5-cC 1cwp-a1-m34-cC_1cwp-a1-m5-cB 1cwp-a1-m35-cB_1cwp-a1-m49-cC 1cwp-a1-m35-cC_1cwp-a1-m49-cB 1cwp-a1-m36-cA_1cwp-a1-m37-cA 1cwp-a1-m36-cA_1cwp-a1-m40-cA 1cwp-a1-m36-cB_1cwp-a1-m37-cC 1cwp-a1-m36-cC_1cwp-a1-m40-cB 1cwp-a1-m37-cA_1cwp-a1-m38-cA 1cwp-a1-m37-cB_1cwp-a1-m38-cC 1cwp-a1-m37-cB_1cwp-a1-m48-cC 1cwp-a1-m37-cC_1cwp-a1-m48-cB 1cwp-a1-m38-cA_1cwp-a1-m39-cA 1cwp-a1-m38-cB_1cwp-a1-m39-cC 1cwp-a1-m39-cA_1cwp-a1-m40-cA 1cwp-a1-m39-cB_1cwp-a1-m40-cC 1cwp-a1-m3-cA_1cwp-a1-m4-cA 1cwp-a1-m3-cB_1cwp-a1-m42-cC 1cwp-a1-m3-cB_1cwp-a1-m4-cC 1cwp-a1-m3-cC_1cwp-a1-m42-cB 1cwp-a1-m40-cB_1cwp-a1-m59-cC 1cwp-a1-m40-cC_1cwp-a1-m59-cB 1cwp-a1-m41-cA_1cwp-a1-m42-cA 1cwp-a1-m41-cA_1cwp-a1-m45-cA 1cwp-a1-m41-cB_1cwp-a1-m42-cC 1cwp-a1-m41-cB_1cwp-a1-m46-cC 1cwp-a1-m41-cC_1cwp-a1-m45-cB 1cwp-a1-m41-cC_1cwp-a1-m46-cB 1cwp-a1-m42-cA_1cwp-a1-m43-cA 1cwp-a1-m42-cB_1cwp-a1-m43-cC 1cwp-a1-m43-cA_1cwp-a1-m44-cA 1cwp-a1-m43-cB_1cwp-a1-m44-cC 1cwp-a1-m44-cA_1cwp-a1-m45-cA 1cwp-a1-m44-cB_1cwp-a1-m45-cC 1cwp-a1-m46-cA_1cwp-a1-m47-cA 1cwp-a1-m46-cA_1cwp-a1-m50-cA 1cwp-a1-m46-cB_1cwp-a1-m47-cC 1cwp-a1-m46-cC_1cwp-a1-m50-cB 1cwp-a1-m47-cA_1cwp-a1-m48-cA 1cwp-a1-m47-cB_1cwp-a1-m48-cC 1cwp-a1-m48-cA_1cwp-a1-m49-cA 1cwp-a1-m48-cB_1cwp-a1-m49-cC 1cwp-a1-m49-cA_1cwp-a1-m50-cA 1cwp-a1-m49-cB_1cwp-a1-m50-cC 1cwp-a1-m4-cA_1cwp-a1-m5-cA 1cwp-a1-m4-cB_1cwp-a1-m50-cC 1cwp-a1-m4-cB_1cwp-a1-m5-cC 1cwp-a1-m4-cC_1cwp-a1-m50-cB 1cwp-a1-m51-cA_1cwp-a1-m52-cA 1cwp-a1-m51-cA_1cwp-a1-m55-cA 1cwp-a1-m51-cB_1cwp-a1-m52-cC 1cwp-a1-m51-cB_1cwp-a1-m56-cC 1cwp-a1-m51-cC_1cwp-a1-m55-cB 1cwp-a1-m51-cC_1cwp-a1-m56-cB 1cwp-a1-m52-cA_1cwp-a1-m53-cA 1cwp-a1-m52-cB_1cwp-a1-m53-cC 1cwp-a1-m53-cA_1cwp-a1-m54-cA 1cwp-a1-m53-cB_1cwp-a1-m54-cC 1cwp-a1-m54-cA_1cwp-a1-m55-cA 1cwp-a1-m54-cB_1cwp-a1-m55-cC 1cwp-a1-m55-cB_1cwp-a1-m9-cC 1cwp-a1-m55-cC_1cwp-a1-m9-cB 1cwp-a1-m56-cA_1cwp-a1-m57-cA 1cwp-a1-m56-cA_1cwp-a1-m60-cA 1cwp-a1-m56-cB_1cwp-a1-m57-cC 1cwp-a1-m56-cC_1cwp-a1-m60-cB 1cwp-a1-m57-cA_1cwp-a1-m58-cA 1cwp-a1-m57-cB_1cwp-a1-m58-cC 1cwp-a1-m57-cB_1cwp-a1-m8-cC 1cwp-a1-m57-cC_1cwp-a1-m8-cB 1cwp-a1-m58-cA_1cwp-a1-m59-cA 1cwp-a1-m58-cB_1cwp-a1-m59-cC 1cwp-a1-m59-cA_1cwp-a1-m60-cA 1cwp-a1-m59-cB_1cwp-a1-m60-cC 1cwp-a1-m6-cA_1cwp-a1-m7-cA 1cwp-a1-m6-cB_1cwp-a1-m7-cC 1cwp-a1-m7-cA_1cwp-a1-m8-cA 1cwp-a1-m7-cB_1cwp-a1-m8-cC 1cwp-a1-m8-cA_1cwp-a1-m9-cA 1cwp-a1-m8-cB_1cwp-a1-m9-cC 1za7-a1-m10-cA_1za7-a1-m6-cA 1za7-a1-m10-cA_1za7-a1-m9-cA 1za7-a1-m10-cB_1za7-a1-m24-cC 1za7-a1-m10-cB_1za7-a1-m6-cC 1za7-a1-m10-cC_1za7-a1-m24-cB 1za7-a1-m10-cC_1za7-a1-m9-cB 1za7-a1-m11-cA_1za7-a1-m12-cA 1za7-a1-m11-cA_1za7-a1-m15-cA 1za7-a1-m11-cB_1za7-a1-m12-cC 1za7-a1-m11-cB_1za7-a1-m16-cC 1za7-a1-m11-cC_1za7-a1-m15-cB 1za7-a1-m11-cC_1za7-a1-m16-cB 1za7-a1-m12-cA_1za7-a1-m13-cA 1za7-a1-m12-cB_1za7-a1-m13-cC 1za7-a1-m12-cB_1za7-a1-m38-cC 1za7-a1-m12-cC_1za7-a1-m38-cB 1za7-a1-m13-cA_1za7-a1-m14-cA 1za7-a1-m13-cB_1za7-a1-m14-cC 1za7-a1-m13-cB_1za7-a1-m47-cC 1za7-a1-m13-cC_1za7-a1-m47-cB 1za7-a1-m14-cA_1za7-a1-m15-cA 1za7-a1-m14-cB_1za7-a1-m15-cC 1za7-a1-m14-cB_1za7-a1-m45-cC 1za7-a1-m14-cC_1za7-a1-m45-cB 1za7-a1-m15-cB_1za7-a1-m29-cC 1za7-a1-m15-cC_1za7-a1-m29-cB 1za7-a1-m16-cA_1za7-a1-m17-cA 1za7-a1-m16-cA_1za7-a1-m20-cA 1za7-a1-m16-cB_1za7-a1-m17-cC 1za7-a1-m16-cC_1za7-a1-m20-cB 1za7-a1-m17-cA_1za7-a1-m18-cA 1za7-a1-m17-cB_1za7-a1-m18-cC 1za7-a1-m17-cB_1za7-a1-m28-cC 1za7-a1-m17-cC_1za7-a1-m28-cB 1za7-a1-m18-cA_1za7-a1-m19-cA 1za7-a1-m18-cB_1za7-a1-m19-cC 1za7-a1-m18-cB_1za7-a1-m52-cC 1za7-a1-m18-cC_1za7-a1-m52-cB 1za7-a1-m19-cA_1za7-a1-m20-cA 1za7-a1-m19-cB_1za7-a1-m20-cC 1za7-a1-m19-cB_1za7-a1-m60-cC 1za7-a1-m19-cC_1za7-a1-m60-cB 1za7-a1-m1-cA_1za7-a1-m2-cA 1za7-a1-m1-cA_1za7-a1-m5-cA 1za7-a1-m1-cB_1za7-a1-m2-cC 1za7-a1-m1-cB_1za7-a1-m6-cC 1za7-a1-m1-cC_1za7-a1-m5-cB 1za7-a1-m1-cC_1za7-a1-m6-cB 1za7-a1-m20-cB_1za7-a1-m39-cC 1za7-a1-m20-cC_1za7-a1-m39-cB 1za7-a1-m21-cA_1za7-a1-m22-cA 1za7-a1-m21-cA_1za7-a1-m25-cA 1za7-a1-m21-cB_1za7-a1-m22-cC 1za7-a1-m21-cB_1za7-a1-m26-cC 1za7-a1-m21-cC_1za7-a1-m25-cB 1za7-a1-m21-cC_1za7-a1-m26-cB 1za7-a1-m22-cA_1za7-a1-m23-cA 1za7-a1-m22-cB_1za7-a1-m23-cC 1za7-a1-m22-cB_1za7-a1-m43-cC 1za7-a1-m22-cC_1za7-a1-m43-cB 1za7-a1-m23-cA_1za7-a1-m24-cA 1za7-a1-m23-cB_1za7-a1-m24-cC 1za7-a1-m24-cA_1za7-a1-m25-cA 1za7-a1-m24-cB_1za7-a1-m25-cC 1za7-a1-m25-cB_1za7-a1-m54-cC 1za7-a1-m25-cC_1za7-a1-m54-cB 1za7-a1-m26-cA_1za7-a1-m27-cA 1za7-a1-m26-cA_1za7-a1-m30-cA 1za7-a1-m26-cB_1za7-a1-m27-cC 1za7-a1-m26-cC_1za7-a1-m30-cB 1za7-a1-m27-cA_1za7-a1-m28-cA 1za7-a1-m27-cB_1za7-a1-m28-cC 1za7-a1-m27-cB_1za7-a1-m53-cC 1za7-a1-m27-cC_1za7-a1-m53-cB 1za7-a1-m28-cA_1za7-a1-m29-cA 1za7-a1-m28-cB_1za7-a1-m29-cC 1za7-a1-m29-cA_1za7-a1-m30-cA 1za7-a1-m29-cB_1za7-a1-m30-cC 1za7-a1-m2-cA_1za7-a1-m3-cA 1za7-a1-m2-cB_1za7-a1-m23-cC 1za7-a1-m2-cB_1za7-a1-m3-cC 1za7-a1-m2-cC_1za7-a1-m23-cB 1za7-a1-m30-cB_1za7-a1-m44-cC 1za7-a1-m30-cC_1za7-a1-m44-cB 1za7-a1-m31-cA_1za7-a1-m32-cA 1za7-a1-m31-cA_1za7-a1-m35-cA 1za7-a1-m31-cB_1za7-a1-m32-cC 1za7-a1-m31-cB_1za7-a1-m36-cC 1za7-a1-m31-cC_1za7-a1-m35-cB 1za7-a1-m31-cC_1za7-a1-m36-cB 1za7-a1-m32-cA_1za7-a1-m33-cA 1za7-a1-m32-cB_1za7-a1-m33-cC 1za7-a1-m32-cB_1za7-a1-m58-cC 1za7-a1-m32-cC_1za7-a1-m58-cB 1za7-a1-m33-cA_1za7-a1-m34-cA 1za7-a1-m33-cB_1za7-a1-m34-cC 1za7-a1-m33-cB_1za7-a1-m7-cC 1za7-a1-m33-cC_1za7-a1-m7-cB 1za7-a1-m34-cA_1za7-a1-m35-cA 1za7-a1-m34-cB_1za7-a1-m35-cC 1za7-a1-m34-cB_1za7-a1-m5-cC 1za7-a1-m34-cC_1za7-a1-m5-cB 1za7-a1-m35-cB_1za7-a1-m49-cC 1za7-a1-m35-cC_1za7-a1-m49-cB 1za7-a1-m36-cA_1za7-a1-m37-cA 1za7-a1-m36-cA_1za7-a1-m40-cA 1za7-a1-m36-cB_1za7-a1-m37-cC 1za7-a1-m36-cC_1za7-a1-m40-cB 1za7-a1-m37-cA_1za7-a1-m38-cA 1za7-a1-m37-cB_1za7-a1-m38-cC 1za7-a1-m37-cB_1za7-a1-m48-cC 1za7-a1-m37-cC_1za7-a1-m48-cB 1za7-a1-m38-cA_1za7-a1-m39-cA 1za7-a1-m38-cB_1za7-a1-m39-cC 1za7-a1-m39-cA_1za7-a1-m40-cA 1za7-a1-m39-cB_1za7-a1-m40-cC 1za7-a1-m3-cA_1za7-a1-m4-cA 1za7-a1-m3-cB_1za7-a1-m42-cC 1za7-a1-m3-cB_1za7-a1-m4-cC 1za7-a1-m3-cC_1za7-a1-m42-cB 1za7-a1-m40-cB_1za7-a1-m59-cC 1za7-a1-m40-cC_1za7-a1-m59-cB 1za7-a1-m41-cA_1za7-a1-m42-cA 1za7-a1-m41-cA_1za7-a1-m45-cA 1za7-a1-m41-cB_1za7-a1-m42-cC 1za7-a1-m41-cB_1za7-a1-m46-cC 1za7-a1-m41-cC_1za7-a1-m45-cB 1za7-a1-m41-cC_1za7-a1-m46-cB 1za7-a1-m42-cA_1za7-a1-m43-cA 1za7-a1-m42-cB_1za7-a1-m43-cC 1za7-a1-m43-cA_1za7-a1-m44-cA 1za7-a1-m43-cB_1za7-a1-m44-cC 1za7-a1-m44-cA_1za7-a1-m45-cA 1za7-a1-m44-cB_1za7-a1-m45-cC 1za7-a1-m46-cA_1za7-a1-m47-cA 1za7-a1-m46-cA_1za7-a1-m50-cA 1za7-a1-m46-cB_1za7-a1-m47-cC 1za7-a1-m46-cC_1za7-a1-m50-cB 1za7-a1-m47-cA_1za7-a1-m48-cA 1za7-a1-m47-cB_1za7-a1-m48-cC 1za7-a1-m48-cA_1za7-a1-m49-cA 1za7-a1-m48-cB_1za7-a1-m49-cC 1za7-a1-m49-cA_1za7-a1-m50-cA 1za7-a1-m49-cB_1za7-a1-m50-cC 1za7-a1-m4-cA_1za7-a1-m5-cA 1za7-a1-m4-cB_1za7-a1-m50-cC 1za7-a1-m4-cB_1za7-a1-m5-cC 1za7-a1-m4-cC_1za7-a1-m50-cB 1za7-a1-m51-cA_1za7-a1-m52-cA 1za7-a1-m51-cA_1za7-a1-m55-cA 1za7-a1-m51-cB_1za7-a1-m52-cC 1za7-a1-m51-cB_1za7-a1-m56-cC 1za7-a1-m51-cC_1za7-a1-m55-cB 1za7-a1-m51-cC_1za7-a1-m56-cB 1za7-a1-m52-cA_1za7-a1-m53-cA 1za7-a1-m52-cB_1za7-a1-m53-cC 1za7-a1-m53-cA_1za7-a1-m54-cA 1za7-a1-m53-cB_1za7-a1-m54-cC 1za7-a1-m54-cA_1za7-a1-m55-cA 1za7-a1-m54-cB_1za7-a1-m55-cC 1za7-a1-m55-cC_1za7-a1-m9-cB 1za7-a1-m56-cA_1za7-a1-m57-cA 1za7-a1-m56-cA_1za7-a1-m60-cA 1za7-a1-m56-cB_1za7-a1-m57-cC 1za7-a1-m56-cC_1za7-a1-m60-cB 1za7-a1-m57-cA_1za7-a1-m58-cA 1za7-a1-m57-cB_1za7-a1-m58-cC 1za7-a1-m57-cB_1za7-a1-m8-cC 1za7-a1-m57-cC_1za7-a1-m8-cB 1za7-a1-m58-cA_1za7-a1-m59-cA 1za7-a1-m58-cB_1za7-a1-m59-cC 1za7-a1-m59-cA_1za7-a1-m60-cA 1za7-a1-m59-cB_1za7-a1-m60-cC 1za7-a1-m6-cA_1za7-a1-m7-cA 1za7-a1-m6-cB_1za7-a1-m7-cC 1za7-a1-m7-cA_1za7-a1-m8-cA 1za7-a1-m7-cB_1za7-a1-m8-cC 1za7-a1-m8-cA_1za7-a1-m9-cA 1za7-a1-m8-cB_1za7-a1-m9-cC RVVQPVIVEPIASGQGRAIKAWTGYSVSKWTASCAAAEAKVTSAITISLPNELSSERNKQLKVGRVLLWLGLLPSVSGTVKSCVTETQTTAAASFQVALAVADNSKDVVAAMYPEAFKGITLEQLAADLTIYLYSSAALTEGDVIVHLEVEHVRPTFDDSFTPVY RVVQPVIVEPIASGQGRAIKAWTGYSVSKWTASCAAAEAKVTSAITISLPNELSSERNKQLKVGRVLLWLGLLPSVSGTVKSCVTETQTTAAASFQVALAVADNSKDVVAAMYPEAFKGITLEQLAADLTIYLYSSAALTEGDVIVHLEVEHVRPTFDDSFTPVY 1za7-a1-m9-cB_1za7-a1-m9-cC The crystal structure of salt stable cowpea cholorotic mottle virus at 2.7 angstroms resolution. P03601 P03601 2.7 X-RAY DIFFRACTION 20 1.0 12303 (Cowpea chlorotic mottle virus) 12303 (Cowpea chlorotic mottle virus) 165 165 1cwp-a1-m10-cA_1cwp-a1-m10-cB 1cwp-a1-m10-cA_1cwp-a1-m10-cC 1cwp-a1-m10-cB_1cwp-a1-m10-cC 1cwp-a1-m11-cA_1cwp-a1-m11-cB 1cwp-a1-m11-cA_1cwp-a1-m11-cC 1cwp-a1-m11-cB_1cwp-a1-m11-cC 1cwp-a1-m12-cA_1cwp-a1-m12-cB 1cwp-a1-m12-cA_1cwp-a1-m12-cC 1cwp-a1-m12-cB_1cwp-a1-m12-cC 1cwp-a1-m13-cA_1cwp-a1-m13-cB 1cwp-a1-m13-cA_1cwp-a1-m13-cC 1cwp-a1-m13-cB_1cwp-a1-m13-cC 1cwp-a1-m14-cA_1cwp-a1-m14-cB 1cwp-a1-m14-cA_1cwp-a1-m14-cC 1cwp-a1-m14-cB_1cwp-a1-m14-cC 1cwp-a1-m15-cA_1cwp-a1-m15-cB 1cwp-a1-m15-cA_1cwp-a1-m15-cC 1cwp-a1-m15-cB_1cwp-a1-m15-cC 1cwp-a1-m16-cA_1cwp-a1-m16-cB 1cwp-a1-m16-cA_1cwp-a1-m16-cC 1cwp-a1-m16-cB_1cwp-a1-m16-cC 1cwp-a1-m17-cA_1cwp-a1-m17-cB 1cwp-a1-m17-cA_1cwp-a1-m17-cC 1cwp-a1-m17-cB_1cwp-a1-m17-cC 1cwp-a1-m18-cA_1cwp-a1-m18-cB 1cwp-a1-m18-cA_1cwp-a1-m18-cC 1cwp-a1-m18-cB_1cwp-a1-m18-cC 1cwp-a1-m19-cA_1cwp-a1-m19-cB 1cwp-a1-m19-cA_1cwp-a1-m19-cC 1cwp-a1-m19-cB_1cwp-a1-m19-cC 1cwp-a1-m1-cA_1cwp-a1-m1-cB 1cwp-a1-m1-cA_1cwp-a1-m1-cC 1cwp-a1-m1-cB_1cwp-a1-m1-cC 1cwp-a1-m20-cA_1cwp-a1-m20-cB 1cwp-a1-m20-cA_1cwp-a1-m20-cC 1cwp-a1-m20-cB_1cwp-a1-m20-cC 1cwp-a1-m21-cA_1cwp-a1-m21-cB 1cwp-a1-m21-cA_1cwp-a1-m21-cC 1cwp-a1-m21-cB_1cwp-a1-m21-cC 1cwp-a1-m22-cA_1cwp-a1-m22-cB 1cwp-a1-m22-cA_1cwp-a1-m22-cC 1cwp-a1-m22-cB_1cwp-a1-m22-cC 1cwp-a1-m23-cA_1cwp-a1-m23-cB 1cwp-a1-m23-cA_1cwp-a1-m23-cC 1cwp-a1-m23-cB_1cwp-a1-m23-cC 1cwp-a1-m24-cA_1cwp-a1-m24-cB 1cwp-a1-m24-cA_1cwp-a1-m24-cC 1cwp-a1-m24-cB_1cwp-a1-m24-cC 1cwp-a1-m25-cA_1cwp-a1-m25-cB 1cwp-a1-m25-cA_1cwp-a1-m25-cC 1cwp-a1-m25-cB_1cwp-a1-m25-cC 1cwp-a1-m26-cA_1cwp-a1-m26-cB 1cwp-a1-m26-cA_1cwp-a1-m26-cC 1cwp-a1-m26-cB_1cwp-a1-m26-cC 1cwp-a1-m27-cA_1cwp-a1-m27-cB 1cwp-a1-m27-cA_1cwp-a1-m27-cC 1cwp-a1-m27-cB_1cwp-a1-m27-cC 1cwp-a1-m28-cA_1cwp-a1-m28-cB 1cwp-a1-m28-cA_1cwp-a1-m28-cC 1cwp-a1-m28-cB_1cwp-a1-m28-cC 1cwp-a1-m29-cA_1cwp-a1-m29-cB 1cwp-a1-m29-cA_1cwp-a1-m29-cC 1cwp-a1-m29-cB_1cwp-a1-m29-cC 1cwp-a1-m2-cA_1cwp-a1-m2-cB 1cwp-a1-m2-cA_1cwp-a1-m2-cC 1cwp-a1-m2-cB_1cwp-a1-m2-cC 1cwp-a1-m30-cA_1cwp-a1-m30-cB 1cwp-a1-m30-cA_1cwp-a1-m30-cC 1cwp-a1-m30-cB_1cwp-a1-m30-cC 1cwp-a1-m31-cA_1cwp-a1-m31-cB 1cwp-a1-m31-cA_1cwp-a1-m31-cC 1cwp-a1-m31-cB_1cwp-a1-m31-cC 1cwp-a1-m32-cA_1cwp-a1-m32-cB 1cwp-a1-m32-cA_1cwp-a1-m32-cC 1cwp-a1-m32-cB_1cwp-a1-m32-cC 1cwp-a1-m33-cA_1cwp-a1-m33-cB 1cwp-a1-m33-cA_1cwp-a1-m33-cC 1cwp-a1-m33-cB_1cwp-a1-m33-cC 1cwp-a1-m34-cA_1cwp-a1-m34-cB 1cwp-a1-m34-cA_1cwp-a1-m34-cC 1cwp-a1-m34-cB_1cwp-a1-m34-cC 1cwp-a1-m35-cA_1cwp-a1-m35-cB 1cwp-a1-m35-cA_1cwp-a1-m35-cC 1cwp-a1-m35-cB_1cwp-a1-m35-cC 1cwp-a1-m36-cA_1cwp-a1-m36-cB 1cwp-a1-m36-cA_1cwp-a1-m36-cC 1cwp-a1-m36-cB_1cwp-a1-m36-cC 1cwp-a1-m37-cA_1cwp-a1-m37-cB 1cwp-a1-m37-cA_1cwp-a1-m37-cC 1cwp-a1-m37-cB_1cwp-a1-m37-cC 1cwp-a1-m38-cA_1cwp-a1-m38-cB 1cwp-a1-m38-cA_1cwp-a1-m38-cC 1cwp-a1-m38-cB_1cwp-a1-m38-cC 1cwp-a1-m39-cA_1cwp-a1-m39-cB 1cwp-a1-m39-cA_1cwp-a1-m39-cC 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1cwp-a1-m49-cB_1cwp-a1-m49-cC 1cwp-a1-m4-cA_1cwp-a1-m4-cB 1cwp-a1-m4-cA_1cwp-a1-m4-cC 1cwp-a1-m4-cB_1cwp-a1-m4-cC 1cwp-a1-m50-cA_1cwp-a1-m50-cB 1cwp-a1-m50-cA_1cwp-a1-m50-cC 1cwp-a1-m50-cB_1cwp-a1-m50-cC 1cwp-a1-m51-cA_1cwp-a1-m51-cB 1cwp-a1-m51-cA_1cwp-a1-m51-cC 1cwp-a1-m51-cB_1cwp-a1-m51-cC 1cwp-a1-m52-cA_1cwp-a1-m52-cB 1cwp-a1-m52-cA_1cwp-a1-m52-cC 1cwp-a1-m52-cB_1cwp-a1-m52-cC 1cwp-a1-m53-cA_1cwp-a1-m53-cB 1cwp-a1-m53-cA_1cwp-a1-m53-cC 1cwp-a1-m53-cB_1cwp-a1-m53-cC 1cwp-a1-m54-cA_1cwp-a1-m54-cB 1cwp-a1-m54-cA_1cwp-a1-m54-cC 1cwp-a1-m54-cB_1cwp-a1-m54-cC 1cwp-a1-m55-cA_1cwp-a1-m55-cB 1cwp-a1-m55-cA_1cwp-a1-m55-cC 1cwp-a1-m55-cB_1cwp-a1-m55-cC 1cwp-a1-m56-cA_1cwp-a1-m56-cB 1cwp-a1-m56-cA_1cwp-a1-m56-cC 1cwp-a1-m56-cB_1cwp-a1-m56-cC 1cwp-a1-m57-cA_1cwp-a1-m57-cB 1cwp-a1-m57-cA_1cwp-a1-m57-cC 1cwp-a1-m57-cB_1cwp-a1-m57-cC 1cwp-a1-m58-cA_1cwp-a1-m58-cB 1cwp-a1-m58-cA_1cwp-a1-m58-cC 1cwp-a1-m58-cB_1cwp-a1-m58-cC 1cwp-a1-m59-cA_1cwp-a1-m59-cB 1cwp-a1-m59-cA_1cwp-a1-m59-cC 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1za7-a1-m45-cA_1za7-a1-m45-cB 1za7-a1-m45-cA_1za7-a1-m45-cC 1za7-a1-m45-cB_1za7-a1-m45-cC 1za7-a1-m46-cA_1za7-a1-m46-cB 1za7-a1-m46-cA_1za7-a1-m46-cC 1za7-a1-m46-cB_1za7-a1-m46-cC 1za7-a1-m47-cA_1za7-a1-m47-cB 1za7-a1-m47-cA_1za7-a1-m47-cC 1za7-a1-m47-cB_1za7-a1-m47-cC 1za7-a1-m48-cA_1za7-a1-m48-cB 1za7-a1-m48-cA_1za7-a1-m48-cC 1za7-a1-m48-cB_1za7-a1-m48-cC 1za7-a1-m49-cA_1za7-a1-m49-cB 1za7-a1-m49-cA_1za7-a1-m49-cC 1za7-a1-m49-cB_1za7-a1-m49-cC 1za7-a1-m4-cA_1za7-a1-m4-cB 1za7-a1-m4-cA_1za7-a1-m4-cC 1za7-a1-m4-cB_1za7-a1-m4-cC 1za7-a1-m50-cA_1za7-a1-m50-cB 1za7-a1-m50-cA_1za7-a1-m50-cC 1za7-a1-m50-cB_1za7-a1-m50-cC 1za7-a1-m51-cA_1za7-a1-m51-cB 1za7-a1-m51-cA_1za7-a1-m51-cC 1za7-a1-m51-cB_1za7-a1-m51-cC 1za7-a1-m52-cA_1za7-a1-m52-cB 1za7-a1-m52-cA_1za7-a1-m52-cC 1za7-a1-m52-cB_1za7-a1-m52-cC 1za7-a1-m53-cA_1za7-a1-m53-cB 1za7-a1-m53-cA_1za7-a1-m53-cC 1za7-a1-m53-cB_1za7-a1-m53-cC 1za7-a1-m54-cA_1za7-a1-m54-cB 1za7-a1-m54-cA_1za7-a1-m54-cC 1za7-a1-m54-cB_1za7-a1-m54-cC 1za7-a1-m55-cA_1za7-a1-m55-cB 1za7-a1-m55-cA_1za7-a1-m55-cC 1za7-a1-m55-cB_1za7-a1-m55-cC 1za7-a1-m56-cA_1za7-a1-m56-cB 1za7-a1-m56-cA_1za7-a1-m56-cC 1za7-a1-m56-cB_1za7-a1-m56-cC 1za7-a1-m57-cA_1za7-a1-m57-cB 1za7-a1-m57-cA_1za7-a1-m57-cC 1za7-a1-m57-cB_1za7-a1-m57-cC 1za7-a1-m58-cA_1za7-a1-m58-cB 1za7-a1-m58-cA_1za7-a1-m58-cC 1za7-a1-m58-cB_1za7-a1-m58-cC 1za7-a1-m59-cA_1za7-a1-m59-cB 1za7-a1-m59-cA_1za7-a1-m59-cC 1za7-a1-m59-cB_1za7-a1-m59-cC 1za7-a1-m5-cA_1za7-a1-m5-cB 1za7-a1-m5-cA_1za7-a1-m5-cC 1za7-a1-m5-cB_1za7-a1-m5-cC 1za7-a1-m60-cA_1za7-a1-m60-cB 1za7-a1-m60-cA_1za7-a1-m60-cC 1za7-a1-m60-cB_1za7-a1-m60-cC 1za7-a1-m6-cA_1za7-a1-m6-cB 1za7-a1-m6-cA_1za7-a1-m6-cC 1za7-a1-m6-cB_1za7-a1-m6-cC 1za7-a1-m7-cA_1za7-a1-m7-cB 1za7-a1-m7-cA_1za7-a1-m7-cC 1za7-a1-m7-cB_1za7-a1-m7-cC 1za7-a1-m8-cA_1za7-a1-m8-cB 1za7-a1-m8-cA_1za7-a1-m8-cC 1za7-a1-m8-cB_1za7-a1-m8-cC 1za7-a1-m9-cA_1za7-a1-m9-cB 1za7-a1-m9-cA_1za7-a1-m9-cC RVVQPVIVEPIASGQGRAIKAWTGYSVSKWTASCAAAEAKVTSAITISLPNELSSERNKQLKVGRVLLWLGLLPSVSGTVKSCVTETQTTAAASFQVALAVADNSKDVVAAMYPEAFKGITLEQLAADLTIYLYSSAALTEGDVIVHLEVEHVRPTFDDSFTPVY RVVQPVIVEPIASGQGRAIKAWTGYSVSKWTASCAAAEAKVTSAITISLPNELSSERNKQLKVGRVLLWLGLLPSVSGTVKSCVTETQTTAAASFQVALAVADNSKDVVAAMYPEAFKGITLEQLAADLTIYLYSSAALTEGDVIVHLEVEHVRPTFDDSFTPVY 1zak-a1-m1-cA_1zak-a1-m1-cB ADENYLATE KINASE FROM MAIZE IN COMPLEX WITH THE INHIBITOR P1,P5-BIS(ADENOSINE-5'-)PENTAPHOSPHATE (AP5A) P43188 P43188 3.5 X-RAY DIFFRACTION 42 1.0 4577 (Zea mays) 4577 (Zea mays) 220 220 ADPLKVMISGAPASGKGTQCELIKTKYQLAHISAGDLLRAEIAAGSENGKRAKEFMEKGQLVPDEIVVNMVKERLRQPDAQENGWLLDGYPRSYSQAMALETLEIRPDTFILLDVPDELLVERVVGRRLDPVTGKIYHLKYSPPENEEIASRLTQRFDDTEEKVKLRLETYYQNIESLLSTYENIIVKVQGDATVDAVFAKIDELLGSILEKKNEMVSST ADPLKVMISGAPASGKGTQCELIKTKYQLAHISAGDLLRAEIAAGSENGKRAKEFMEKGQLVPDEIVVNMVKERLRQPDAQENGWLLDGYPRSYSQAMALETLEIRPDTFILLDVPDELLVERVVGRRLDPVTGKIYHLKYSPPENEEIASRLTQRFDDTEEKVKLRLETYYQNIESLLSTYENIIVKVQGDATVDAVFAKIDELLGSILEKKNEMVSST 1zb7-a2-m2-cA_1zb7-a2-m4-cA Crystal Structure of Botulinum Neurotoxin Type G Light Chain Q60393 Q60393 2.35 X-RAY DIFFRACTION 48 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 414 414 1zb7-a2-m1-cA_1zb7-a2-m3-cA PVNIKNFNYNDPINNDDIIMMEPFNDPGPGTYYKAFRIIDRIWIVPERFTYKDVYEYYDPTYLKTDAEKDKFLKTMIKLFNRINSKPSGQRLLDMIVDAIPYLGNASTPPDKFAANVANVSINKKIIQPGAEDQIKGLMTNLIIFGPGPVLSDNFTDSMIMNGHSPISEGFGARMMIRFCPSCLNVFNNVQENKIFSRRAYFADPALTLMHELIHVLHGLYGIKISNLPITPFMQHSDPVQAEELYTFGGHDPSVISPSTDMNIYNKALQNFQDIANRLNIVSSAQGSGIDISLYKQIYKNKYDFVEDPNGKYSVDKDKFDKLYKALMFGFTETNLAGEYGIKTRYSYFSEYLPPIKTEKLLDNTIYTQNEGFNIASKNLKTEFNGQNKAVNKEAYEEISLEHLVIYRIAMCKP PVNIKNFNYNDPINNDDIIMMEPFNDPGPGTYYKAFRIIDRIWIVPERFTYKDVYEYYDPTYLKTDAEKDKFLKTMIKLFNRINSKPSGQRLLDMIVDAIPYLGNASTPPDKFAANVANVSINKKIIQPGAEDQIKGLMTNLIIFGPGPVLSDNFTDSMIMNGHSPISEGFGARMMIRFCPSCLNVFNNVQENKIFSRRAYFADPALTLMHELIHVLHGLYGIKISNLPITPFMQHSDPVQAEELYTFGGHDPSVISPSTDMNIYNKALQNFQDIANRLNIVSSAQGSGIDISLYKQIYKNKYDFVEDPNGKYSVDKDKFDKLYKALMFGFTETNLAGEYGIKTRYSYFSEYLPPIKTEKLLDNTIYTQNEGFNIASKNLKTEFNGQNKAVNKEAYEEISLEHLVIYRIAMCKP 1zb7-a2-m3-cA_1zb7-a2-m4-cA Crystal Structure of Botulinum Neurotoxin Type G Light Chain Q60393 Q60393 2.35 X-RAY DIFFRACTION 124 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 414 414 1zb7-a1-m1-cA_1zb7-a1-m2-cA 1zb7-a2-m1-cA_1zb7-a2-m2-cA PVNIKNFNYNDPINNDDIIMMEPFNDPGPGTYYKAFRIIDRIWIVPERFTYKDVYEYYDPTYLKTDAEKDKFLKTMIKLFNRINSKPSGQRLLDMIVDAIPYLGNASTPPDKFAANVANVSINKKIIQPGAEDQIKGLMTNLIIFGPGPVLSDNFTDSMIMNGHSPISEGFGARMMIRFCPSCLNVFNNVQENKIFSRRAYFADPALTLMHELIHVLHGLYGIKISNLPITPFMQHSDPVQAEELYTFGGHDPSVISPSTDMNIYNKALQNFQDIANRLNIVSSAQGSGIDISLYKQIYKNKYDFVEDPNGKYSVDKDKFDKLYKALMFGFTETNLAGEYGIKTRYSYFSEYLPPIKTEKLLDNTIYTQNEGFNIASKNLKTEFNGQNKAVNKEAYEEISLEHLVIYRIAMCKP PVNIKNFNYNDPINNDDIIMMEPFNDPGPGTYYKAFRIIDRIWIVPERFTYKDVYEYYDPTYLKTDAEKDKFLKTMIKLFNRINSKPSGQRLLDMIVDAIPYLGNASTPPDKFAANVANVSINKKIIQPGAEDQIKGLMTNLIIFGPGPVLSDNFTDSMIMNGHSPISEGFGARMMIRFCPSCLNVFNNVQENKIFSRRAYFADPALTLMHELIHVLHGLYGIKISNLPITPFMQHSDPVQAEELYTFGGHDPSVISPSTDMNIYNKALQNFQDIANRLNIVSSAQGSGIDISLYKQIYKNKYDFVEDPNGKYSVDKDKFDKLYKALMFGFTETNLAGEYGIKTRYSYFSEYLPPIKTEKLLDNTIYTQNEGFNIASKNLKTEFNGQNKAVNKEAYEEISLEHLVIYRIAMCKP 1zb9-a1-m1-cB_1zb9-a1-m1-cA Crystal structure of Xylella fastidiosa organic peroxide resistance protein Q9PCF4 Q9PCF4 1.8 X-RAY DIFFRACTION 304 1.0 160492 (Xylella fastidiosa 9a5c) 160492 (Xylella fastidiosa 9a5c) 140 141 1zb8-a1-m1-cA_1zb8-a1-m1-cB 4xx2-a1-m1-cA_4xx2-a1-m2-cA 4xx2-a2-m1-cB_4xx2-a2-m1-cC SLEKVLYTAIVTATGGRDGSVVSSDNVLNVKLSVPQGLGGPGGSGTNPEQLFAAGYSAFIGALKFVANKEKVDLPAEPRVEGRVGIGEIPGGFGLVVELRIAVSGMERSMLQTLVDKAHRVCPYSNATRGNIDVVLILID NSLEKVLYTAIVTATGGRDGSVVSSDNVLNVKLSVPQGLGGPGGSGTNPEQLFAAGYSAFIGALKFVANKEKVDLPAEPRVEGRVGIGEIPGGFGLVVELRIAVSGMERSMLQTLVDKAHRVCPYSNATRGNIDVVLILID 1zba-a1-m55-c2_1zba-a1-m9-c2 Foot-and-Mouth Disease virus serotype A1061 complexed with oligosaccharide receptor. P03306 P03306 2 X-RAY DIFFRACTION 30 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 207 207 1zba-a1-m10-c2_1zba-a1-m24-c2 1zba-a1-m11-c2_1zba-a1-m16-c2 1zba-a1-m12-c2_1zba-a1-m38-c2 1zba-a1-m13-c2_1zba-a1-m47-c2 1zba-a1-m14-c2_1zba-a1-m45-c2 1zba-a1-m15-c2_1zba-a1-m29-c2 1zba-a1-m17-c2_1zba-a1-m28-c2 1zba-a1-m18-c2_1zba-a1-m52-c2 1zba-a1-m19-c2_1zba-a1-m60-c2 1zba-a1-m1-c2_1zba-a1-m6-c2 1zba-a1-m20-c2_1zba-a1-m39-c2 1zba-a1-m21-c2_1zba-a1-m26-c2 1zba-a1-m22-c2_1zba-a1-m43-c2 1zba-a1-m25-c2_1zba-a1-m54-c2 1zba-a1-m27-c2_1zba-a1-m53-c2 1zba-a1-m2-c2_1zba-a1-m23-c2 1zba-a1-m30-c2_1zba-a1-m44-c2 1zba-a1-m31-c2_1zba-a1-m36-c2 1zba-a1-m32-c2_1zba-a1-m58-c2 1zba-a1-m33-c2_1zba-a1-m7-c2 1zba-a1-m34-c2_1zba-a1-m5-c2 1zba-a1-m35-c2_1zba-a1-m49-c2 1zba-a1-m37-c2_1zba-a1-m48-c2 1zba-a1-m3-c2_1zba-a1-m42-c2 1zba-a1-m40-c2_1zba-a1-m59-c2 1zba-a1-m41-c2_1zba-a1-m46-c2 1zba-a1-m4-c2_1zba-a1-m50-c2 1zba-a1-m51-c2_1zba-a1-m56-c2 1zba-a1-m57-c2_1zba-a1-m8-c2 1zbe-a1-m10-c2_1zbe-a1-m24-c2 1zbe-a1-m11-c2_1zbe-a1-m16-c2 1zbe-a1-m12-c2_1zbe-a1-m38-c2 1zbe-a1-m13-c2_1zbe-a1-m47-c2 1zbe-a1-m14-c2_1zbe-a1-m45-c2 1zbe-a1-m15-c2_1zbe-a1-m29-c2 1zbe-a1-m17-c2_1zbe-a1-m28-c2 1zbe-a1-m18-c2_1zbe-a1-m52-c2 1zbe-a1-m19-c2_1zbe-a1-m60-c2 1zbe-a1-m1-c2_1zbe-a1-m6-c2 1zbe-a1-m20-c2_1zbe-a1-m39-c2 1zbe-a1-m21-c2_1zbe-a1-m26-c2 1zbe-a1-m22-c2_1zbe-a1-m43-c2 1zbe-a1-m25-c2_1zbe-a1-m54-c2 1zbe-a1-m27-c2_1zbe-a1-m53-c2 1zbe-a1-m2-c2_1zbe-a1-m23-c2 1zbe-a1-m30-c2_1zbe-a1-m44-c2 1zbe-a1-m31-c2_1zbe-a1-m36-c2 1zbe-a1-m32-c2_1zbe-a1-m58-c2 1zbe-a1-m33-c2_1zbe-a1-m7-c2 1zbe-a1-m34-c2_1zbe-a1-m5-c2 1zbe-a1-m35-c2_1zbe-a1-m49-c2 1zbe-a1-m37-c2_1zbe-a1-m48-c2 1zbe-a1-m3-c2_1zbe-a1-m42-c2 1zbe-a1-m40-c2_1zbe-a1-m59-c2 1zbe-a1-m41-c2_1zbe-a1-m46-c2 1zbe-a1-m4-c2_1zbe-a1-m50-c2 1zbe-a1-m51-c2_1zbe-a1-m56-c2 1zbe-a1-m55-c2_1zbe-a1-m9-c2 1zbe-a1-m57-c2_1zbe-a1-m8-c2 DRLLTTRNGHTTSTTQSSVGVTYGYSTEEDHVAGPNTSGLETRVVQAERFFKKFLFDWTTDKPFGYLTKLELPTDHHGVFGHLVDSYAYMRNGWDVEVSAVGNQFNGGCLLVAMVPEWKAFDTREKYQLTLFPHQFISPRTNMTAHITVPYLGVNRYDQYKKHKPWTLVVMVLSPLTVSNTAAPQIKVYANIAPTYVHVAGELPSKE DRLLTTRNGHTTSTTQSSVGVTYGYSTEEDHVAGPNTSGLETRVVQAERFFKKFLFDWTTDKPFGYLTKLELPTDHHGVFGHLVDSYAYMRNGWDVEVSAVGNQFNGGCLLVAMVPEWKAFDTREKYQLTLFPHQFISPRTNMTAHITVPYLGVNRYDQYKKHKPWTLVVMVLSPLTVSNTAAPQIKVYANIAPTYVHVAGELPSKE 1zba-a1-m8-c1_1zba-a1-m9-c1 Foot-and-Mouth Disease virus serotype A1061 complexed with oligosaccharide receptor. P03306 P03306 2 X-RAY DIFFRACTION 54 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 191 191 1zba-a1-m10-c1_1zba-a1-m6-c1 1zba-a1-m10-c1_1zba-a1-m9-c1 1zba-a1-m11-c1_1zba-a1-m12-c1 1zba-a1-m11-c1_1zba-a1-m15-c1 1zba-a1-m12-c1_1zba-a1-m13-c1 1zba-a1-m13-c1_1zba-a1-m14-c1 1zba-a1-m14-c1_1zba-a1-m15-c1 1zba-a1-m16-c1_1zba-a1-m17-c1 1zba-a1-m16-c1_1zba-a1-m20-c1 1zba-a1-m17-c1_1zba-a1-m18-c1 1zba-a1-m18-c1_1zba-a1-m19-c1 1zba-a1-m19-c1_1zba-a1-m20-c1 1zba-a1-m1-c1_1zba-a1-m2-c1 1zba-a1-m1-c1_1zba-a1-m5-c1 1zba-a1-m21-c1_1zba-a1-m22-c1 1zba-a1-m21-c1_1zba-a1-m25-c1 1zba-a1-m22-c1_1zba-a1-m23-c1 1zba-a1-m23-c1_1zba-a1-m24-c1 1zba-a1-m24-c1_1zba-a1-m25-c1 1zba-a1-m26-c1_1zba-a1-m27-c1 1zba-a1-m26-c1_1zba-a1-m30-c1 1zba-a1-m27-c1_1zba-a1-m28-c1 1zba-a1-m28-c1_1zba-a1-m29-c1 1zba-a1-m29-c1_1zba-a1-m30-c1 1zba-a1-m2-c1_1zba-a1-m3-c1 1zba-a1-m31-c1_1zba-a1-m32-c1 1zba-a1-m31-c1_1zba-a1-m35-c1 1zba-a1-m32-c1_1zba-a1-m33-c1 1zba-a1-m33-c1_1zba-a1-m34-c1 1zba-a1-m34-c1_1zba-a1-m35-c1 1zba-a1-m36-c1_1zba-a1-m37-c1 1zba-a1-m36-c1_1zba-a1-m40-c1 1zba-a1-m37-c1_1zba-a1-m38-c1 1zba-a1-m38-c1_1zba-a1-m39-c1 1zba-a1-m39-c1_1zba-a1-m40-c1 1zba-a1-m3-c1_1zba-a1-m4-c1 1zba-a1-m41-c1_1zba-a1-m42-c1 1zba-a1-m41-c1_1zba-a1-m45-c1 1zba-a1-m42-c1_1zba-a1-m43-c1 1zba-a1-m43-c1_1zba-a1-m44-c1 1zba-a1-m44-c1_1zba-a1-m45-c1 1zba-a1-m46-c1_1zba-a1-m47-c1 1zba-a1-m46-c1_1zba-a1-m50-c1 1zba-a1-m47-c1_1zba-a1-m48-c1 1zba-a1-m48-c1_1zba-a1-m49-c1 1zba-a1-m49-c1_1zba-a1-m50-c1 1zba-a1-m4-c1_1zba-a1-m5-c1 1zba-a1-m51-c1_1zba-a1-m52-c1 1zba-a1-m51-c1_1zba-a1-m55-c1 1zba-a1-m52-c1_1zba-a1-m53-c1 1zba-a1-m53-c1_1zba-a1-m54-c1 1zba-a1-m54-c1_1zba-a1-m55-c1 1zba-a1-m56-c1_1zba-a1-m57-c1 1zba-a1-m56-c1_1zba-a1-m60-c1 1zba-a1-m57-c1_1zba-a1-m58-c1 1zba-a1-m58-c1_1zba-a1-m59-c1 1zba-a1-m59-c1_1zba-a1-m60-c1 1zba-a1-m6-c1_1zba-a1-m7-c1 1zba-a1-m7-c1_1zba-a1-m8-c1 1zbe-a1-m10-c1_1zbe-a1-m6-c1 1zbe-a1-m10-c1_1zbe-a1-m9-c1 1zbe-a1-m11-c1_1zbe-a1-m12-c1 1zbe-a1-m11-c1_1zbe-a1-m15-c1 1zbe-a1-m12-c1_1zbe-a1-m13-c1 1zbe-a1-m13-c1_1zbe-a1-m14-c1 1zbe-a1-m14-c1_1zbe-a1-m15-c1 1zbe-a1-m16-c1_1zbe-a1-m17-c1 1zbe-a1-m16-c1_1zbe-a1-m20-c1 1zbe-a1-m17-c1_1zbe-a1-m18-c1 1zbe-a1-m18-c1_1zbe-a1-m19-c1 1zbe-a1-m19-c1_1zbe-a1-m20-c1 1zbe-a1-m1-c1_1zbe-a1-m2-c1 1zbe-a1-m1-c1_1zbe-a1-m5-c1 1zbe-a1-m21-c1_1zbe-a1-m22-c1 1zbe-a1-m21-c1_1zbe-a1-m25-c1 1zbe-a1-m22-c1_1zbe-a1-m23-c1 1zbe-a1-m23-c1_1zbe-a1-m24-c1 1zbe-a1-m24-c1_1zbe-a1-m25-c1 1zbe-a1-m26-c1_1zbe-a1-m27-c1 1zbe-a1-m26-c1_1zbe-a1-m30-c1 1zbe-a1-m27-c1_1zbe-a1-m28-c1 1zbe-a1-m28-c1_1zbe-a1-m29-c1 1zbe-a1-m29-c1_1zbe-a1-m30-c1 1zbe-a1-m2-c1_1zbe-a1-m3-c1 1zbe-a1-m31-c1_1zbe-a1-m32-c1 1zbe-a1-m31-c1_1zbe-a1-m35-c1 1zbe-a1-m32-c1_1zbe-a1-m33-c1 1zbe-a1-m33-c1_1zbe-a1-m34-c1 1zbe-a1-m34-c1_1zbe-a1-m35-c1 1zbe-a1-m36-c1_1zbe-a1-m37-c1 1zbe-a1-m36-c1_1zbe-a1-m40-c1 1zbe-a1-m37-c1_1zbe-a1-m38-c1 1zbe-a1-m38-c1_1zbe-a1-m39-c1 1zbe-a1-m39-c1_1zbe-a1-m40-c1 1zbe-a1-m3-c1_1zbe-a1-m4-c1 1zbe-a1-m41-c1_1zbe-a1-m42-c1 1zbe-a1-m41-c1_1zbe-a1-m45-c1 1zbe-a1-m42-c1_1zbe-a1-m43-c1 1zbe-a1-m43-c1_1zbe-a1-m44-c1 1zbe-a1-m44-c1_1zbe-a1-m45-c1 1zbe-a1-m46-c1_1zbe-a1-m47-c1 1zbe-a1-m46-c1_1zbe-a1-m50-c1 1zbe-a1-m47-c1_1zbe-a1-m48-c1 1zbe-a1-m48-c1_1zbe-a1-m49-c1 1zbe-a1-m49-c1_1zbe-a1-m50-c1 1zbe-a1-m4-c1_1zbe-a1-m5-c1 1zbe-a1-m51-c1_1zbe-a1-m52-c1 1zbe-a1-m51-c1_1zbe-a1-m55-c1 1zbe-a1-m52-c1_1zbe-a1-m53-c1 1zbe-a1-m53-c1_1zbe-a1-m54-c1 1zbe-a1-m54-c1_1zbe-a1-m55-c1 1zbe-a1-m56-c1_1zbe-a1-m57-c1 1zbe-a1-m56-c1_1zbe-a1-m60-c1 1zbe-a1-m57-c1_1zbe-a1-m58-c1 1zbe-a1-m58-c1_1zbe-a1-m59-c1 1zbe-a1-m59-c1_1zbe-a1-m60-c1 1zbe-a1-m6-c1_1zbe-a1-m7-c1 1zbe-a1-m7-c1_1zbe-a1-m8-c1 1zbe-a1-m8-c1_1zbe-a1-m9-c1 5oyi-a1-m1-c1_5oyi-a1-m1-cG 5oyi-a1-m1-c1_5oyi-a1-m1-cJ 5oyi-a1-m1-cA_5oyi-a1-m1-cD 5oyi-a1-m1-cA_5oyi-a1-m1-cJ 5oyi-a1-m1-cD_5oyi-a1-m1-cG TTTTGESADPVTTTVENYGGDTQVQRRHHTDVGFIMDRFVKINSLSPTHVIDLMQTHKHGIVGALLRAATYYFSDLEIVVRHDGNLTWVPNGAPEAALSNTSNPTAYNKAPFTRLALPYTAPHRVLATVYDGTNKYSTQLPASFNYGAIQAQAIHELLVRMKRAELYCPRPLLAIKVTSQDRYKQKIIAPA TTTTGESADPVTTTVENYGGDTQVQRRHHTDVGFIMDRFVKINSLSPTHVIDLMQTHKHGIVGALLRAATYYFSDLEIVVRHDGNLTWVPNGAPEAALSNTSNPTAYNKAPFTRLALPYTAPHRVLATVYDGTNKYSTQLPASFNYGAIQAQAIHELLVRMKRAELYCPRPLLAIKVTSQDRYKQKIIAPA 1zba-a1-m8-c4_1zba-a1-m9-c4 Foot-and-Mouth Disease virus serotype A1061 complexed with oligosaccharide receptor. P03306 P03306 2 X-RAY DIFFRACTION 13 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 49 49 1zba-a1-m10-c4_1zba-a1-m6-c4 1zba-a1-m10-c4_1zba-a1-m9-c4 1zba-a1-m11-c4_1zba-a1-m12-c4 1zba-a1-m11-c4_1zba-a1-m15-c4 1zba-a1-m12-c4_1zba-a1-m13-c4 1zba-a1-m13-c4_1zba-a1-m14-c4 1zba-a1-m14-c4_1zba-a1-m15-c4 1zba-a1-m16-c4_1zba-a1-m17-c4 1zba-a1-m16-c4_1zba-a1-m20-c4 1zba-a1-m17-c4_1zba-a1-m18-c4 1zba-a1-m18-c4_1zba-a1-m19-c4 1zba-a1-m19-c4_1zba-a1-m20-c4 1zba-a1-m1-c4_1zba-a1-m2-c4 1zba-a1-m1-c4_1zba-a1-m5-c4 1zba-a1-m21-c4_1zba-a1-m22-c4 1zba-a1-m21-c4_1zba-a1-m25-c4 1zba-a1-m22-c4_1zba-a1-m23-c4 1zba-a1-m23-c4_1zba-a1-m24-c4 1zba-a1-m24-c4_1zba-a1-m25-c4 1zba-a1-m26-c4_1zba-a1-m27-c4 1zba-a1-m26-c4_1zba-a1-m30-c4 1zba-a1-m27-c4_1zba-a1-m28-c4 1zba-a1-m28-c4_1zba-a1-m29-c4 1zba-a1-m29-c4_1zba-a1-m30-c4 1zba-a1-m2-c4_1zba-a1-m3-c4 1zba-a1-m31-c4_1zba-a1-m32-c4 1zba-a1-m31-c4_1zba-a1-m35-c4 1zba-a1-m32-c4_1zba-a1-m33-c4 1zba-a1-m33-c4_1zba-a1-m34-c4 1zba-a1-m34-c4_1zba-a1-m35-c4 1zba-a1-m36-c4_1zba-a1-m37-c4 1zba-a1-m36-c4_1zba-a1-m40-c4 1zba-a1-m37-c4_1zba-a1-m38-c4 1zba-a1-m38-c4_1zba-a1-m39-c4 1zba-a1-m39-c4_1zba-a1-m40-c4 1zba-a1-m3-c4_1zba-a1-m4-c4 1zba-a1-m41-c4_1zba-a1-m42-c4 1zba-a1-m41-c4_1zba-a1-m45-c4 1zba-a1-m42-c4_1zba-a1-m43-c4 1zba-a1-m43-c4_1zba-a1-m44-c4 1zba-a1-m44-c4_1zba-a1-m45-c4 1zba-a1-m46-c4_1zba-a1-m47-c4 1zba-a1-m46-c4_1zba-a1-m50-c4 1zba-a1-m47-c4_1zba-a1-m48-c4 1zba-a1-m48-c4_1zba-a1-m49-c4 1zba-a1-m49-c4_1zba-a1-m50-c4 1zba-a1-m4-c4_1zba-a1-m5-c4 1zba-a1-m51-c4_1zba-a1-m52-c4 1zba-a1-m51-c4_1zba-a1-m55-c4 1zba-a1-m52-c4_1zba-a1-m53-c4 1zba-a1-m53-c4_1zba-a1-m54-c4 1zba-a1-m54-c4_1zba-a1-m55-c4 1zba-a1-m56-c4_1zba-a1-m57-c4 1zba-a1-m56-c4_1zba-a1-m60-c4 1zba-a1-m57-c4_1zba-a1-m58-c4 1zba-a1-m58-c4_1zba-a1-m59-c4 1zba-a1-m59-c4_1zba-a1-m60-c4 1zba-a1-m6-c4_1zba-a1-m7-c4 1zba-a1-m7-c4_1zba-a1-m8-c4 1zbe-a1-m10-c4_1zbe-a1-m6-c4 1zbe-a1-m10-c4_1zbe-a1-m9-c4 1zbe-a1-m11-c4_1zbe-a1-m12-c4 1zbe-a1-m11-c4_1zbe-a1-m15-c4 1zbe-a1-m12-c4_1zbe-a1-m13-c4 1zbe-a1-m13-c4_1zbe-a1-m14-c4 1zbe-a1-m14-c4_1zbe-a1-m15-c4 1zbe-a1-m16-c4_1zbe-a1-m17-c4 1zbe-a1-m16-c4_1zbe-a1-m20-c4 1zbe-a1-m17-c4_1zbe-a1-m18-c4 1zbe-a1-m18-c4_1zbe-a1-m19-c4 1zbe-a1-m19-c4_1zbe-a1-m20-c4 1zbe-a1-m1-c4_1zbe-a1-m2-c4 1zbe-a1-m1-c4_1zbe-a1-m5-c4 1zbe-a1-m21-c4_1zbe-a1-m22-c4 1zbe-a1-m21-c4_1zbe-a1-m25-c4 1zbe-a1-m22-c4_1zbe-a1-m23-c4 1zbe-a1-m23-c4_1zbe-a1-m24-c4 1zbe-a1-m24-c4_1zbe-a1-m25-c4 1zbe-a1-m26-c4_1zbe-a1-m27-c4 1zbe-a1-m26-c4_1zbe-a1-m30-c4 1zbe-a1-m27-c4_1zbe-a1-m28-c4 1zbe-a1-m28-c4_1zbe-a1-m29-c4 1zbe-a1-m29-c4_1zbe-a1-m30-c4 1zbe-a1-m2-c4_1zbe-a1-m3-c4 1zbe-a1-m31-c4_1zbe-a1-m32-c4 1zbe-a1-m31-c4_1zbe-a1-m35-c4 1zbe-a1-m32-c4_1zbe-a1-m33-c4 1zbe-a1-m33-c4_1zbe-a1-m34-c4 1zbe-a1-m34-c4_1zbe-a1-m35-c4 1zbe-a1-m36-c4_1zbe-a1-m37-c4 1zbe-a1-m36-c4_1zbe-a1-m40-c4 1zbe-a1-m37-c4_1zbe-a1-m38-c4 1zbe-a1-m38-c4_1zbe-a1-m39-c4 1zbe-a1-m39-c4_1zbe-a1-m40-c4 1zbe-a1-m3-c4_1zbe-a1-m4-c4 1zbe-a1-m41-c4_1zbe-a1-m42-c4 1zbe-a1-m41-c4_1zbe-a1-m45-c4 1zbe-a1-m42-c4_1zbe-a1-m43-c4 1zbe-a1-m43-c4_1zbe-a1-m44-c4 1zbe-a1-m44-c4_1zbe-a1-m45-c4 1zbe-a1-m46-c4_1zbe-a1-m47-c4 1zbe-a1-m46-c4_1zbe-a1-m50-c4 1zbe-a1-m47-c4_1zbe-a1-m48-c4 1zbe-a1-m48-c4_1zbe-a1-m49-c4 1zbe-a1-m49-c4_1zbe-a1-m50-c4 1zbe-a1-m4-c4_1zbe-a1-m5-c4 1zbe-a1-m51-c4_1zbe-a1-m52-c4 1zbe-a1-m51-c4_1zbe-a1-m55-c4 1zbe-a1-m52-c4_1zbe-a1-m53-c4 1zbe-a1-m53-c4_1zbe-a1-m54-c4 1zbe-a1-m54-c4_1zbe-a1-m55-c4 1zbe-a1-m56-c4_1zbe-a1-m57-c4 1zbe-a1-m56-c4_1zbe-a1-m60-c4 1zbe-a1-m57-c4_1zbe-a1-m58-c4 1zbe-a1-m58-c4_1zbe-a1-m59-c4 1zbe-a1-m59-c4_1zbe-a1-m60-c4 1zbe-a1-m6-c4_1zbe-a1-m7-c4 1zbe-a1-m7-c4_1zbe-a1-m8-c4 1zbe-a1-m8-c4_1zbe-a1-m9-c4 SGNTGSIINNYYMQQYQNSMSTQLGTQNNDWFSKLASSAFTGLFGALLA SGNTGSIINNYYMQQYQNSMSTQLGTQNNDWFSKLASSAFTGLFGALLA 1zbb-a1-m1-cH_1zbb-a1-m2-ch Structure of the 4_601_167 Tetranucleosome P02281 P02281 9 X-RAY DIFFRACTION 11 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 99 99 1zbb-a1-m1-ch_1zbb-a1-m2-cH 7pet-a1-m1-cH_7pet-a1-m1-cN 7peu-a1-m1-cH_7peu-a1-m1-cN 7pev-a1-m1-cH_7pev-a1-m1-cN 7pf0-a1-m1-cH_7pf0-a1-m1-cN 7pfa-a1-m1-cH_7pfa-a1-m1-cR 7pft-a1-m1-cH_7pft-a1-m1-cR KKRRKTRKESYAIYVYKVLKQVHPDTGISSKAMSIMNSFVNDVFERIAGEASRLAHYNKRSTITSREIQTAVRLLLPGELAKHAVSEGTKAVTKYTSAK KKRRKTRKESYAIYVYKVLKQVHPDTGISSKAMSIMNSFVNDVFERIAGEASRLAHYNKRSTITSREIQTAVRLLLPGELAKHAVSEGTKAVTKYTSAK 1zbh-a1-m1-cA_1zbh-a1-m1-cD 3'-end specific recognition of histone mRNA stem-loop by 3'-exonuclease Q8IV48 Q8IV48 3 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 289 DFSDPVYKEIAITNGCINRMSKEELRAKLSEFKLETRGVKDVLKKRLKNYYKKQKLMLKESNFADSYYDYICIIDFEATCEEGNPPEFVHEIIEFPVVLLNTHTLEIEDTFQQYVRPEINTQLSDFCISLTGITQDQVDRADTFPQVLKKVIDLMKLKELGTKYKYSLLTDGSWDMSKFLNIQCQLSRLKYPPFAKKWINIRKSYGNFYKVPRSQTKLTIMLEKLGMDYDGRPNCGLDDSKNIARIAVRMLQDGCELRINEKMHAGQLMSVSSSLPIEGTPPPQMPHFR DFSDPVYKEIAITNGCINRMSKEELRAKLSEFKLETRGVKDVLKKRLKNYYKKQKLMLKESNFADSYYDYICIIDFEATCEEGNPPEFVHEIIEFPVVLLNTHTLEIEDTFQQYVRPEINTQLSDFCISLTGITQDQVDRADTFPQVLKKVIDLMKLKELGTKYKYSLLTDGSWDMSKFLNIQCQLSRLKYPPFAKKWINIRKSYGNFYKVPRSQTKLTIMLEKLGMDYDGRPNCGLDDSKNIARIAVRMLQDGCELRINEKMHAGQLMSVSSSLPIEGTPPPQMPHFR 1zbh-a1-m1-cC_1zbh-a1-m1-cD 3'-end specific recognition of histone mRNA stem-loop by 3'-exonuclease Q8IV48 Q8IV48 3 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 289 1zbh-a1-m1-cB_1zbh-a1-m1-cA DSYYDYICIIDFEATCEEGNPPEFVHEIIEFPVVLLNTHTLEIEDTFQQYVRPEINTQLSDFCISLTGITQDQVDRADTFPQVLKKVIDLMKLKELGTKYKYSLLTDGSWDMSKFLNIQCQLSRLKYPPFAKKWINIRKSYGNFYKVPRSQTKLTIMLEKLGMDYDGRPNCGLDDSKNIARIAVRMLQDGCELRINEKMHAGQLMSVSSSLPIEGTPPPQMPHFR DFSDPVYKEIAITNGCINRMSKEELRAKLSEFKLETRGVKDVLKKRLKNYYKKQKLMLKESNFADSYYDYICIIDFEATCEEGNPPEFVHEIIEFPVVLLNTHTLEIEDTFQQYVRPEINTQLSDFCISLTGITQDQVDRADTFPQVLKKVIDLMKLKELGTKYKYSLLTDGSWDMSKFLNIQCQLSRLKYPPFAKKWINIRKSYGNFYKVPRSQTKLTIMLEKLGMDYDGRPNCGLDDSKNIARIAVRMLQDGCELRINEKMHAGQLMSVSSSLPIEGTPPPQMPHFR 1zbo-a2-m1-cA_1zbo-a2-m2-cA X-Ray Crystal Structure of Protein BPP1347 from Bordetella parapertussis. Northeast Structural Genomics Consortium Target BoR27. Q7WAM7 Q7WAM7 2.6 X-RAY DIFFRACTION 33 1.0 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 191 191 AEIPLFPLSNALFPAGVLRLRVFEIRYLDVRRCIADGSEFGVVVLEQGTEVRRPDGREVLARAGTARIDHWEAPPALLELACTGTGRFRLHACTQGKYGLWTGQAEPVPDDAPLEVPPELARSASALGRLIARLQREGVPPHIPAAPFRLDDCGWVADRWAELSLPPADKARLLLLPPLDRLREIDAVLAA AEIPLFPLSNALFPAGVLRLRVFEIRYLDVRRCIADGSEFGVVVLEQGTEVRRPDGREVLARAGTARIDHWEAPPALLELACTGTGRFRLHACTQGKYGLWTGQAEPVPDDAPLEVPPELARSASALGRLIARLQREGVPPHIPAAPFRLDDCGWVADRWAELSLPPADKARLLLLPPLDRLREIDAVLAA 1zbo-a2-m1-cA_1zbo-a2-m2-cB X-Ray Crystal Structure of Protein BPP1347 from Bordetella parapertussis. Northeast Structural Genomics Consortium Target BoR27. Q7WAM7 Q7WAM7 2.6 X-RAY DIFFRACTION 18 1.0 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 191 194 1zbo-a2-m2-cA_1zbo-a2-m1-cB AEIPLFPLSNALFPAGVLRLRVFEIRYLDVRRCIADGSEFGVVVLEQGTEVRRPDGREVLARAGTARIDHWEAPPALLELACTGTGRFRLHACTQGKYGLWTGQAEPVPDDAPLEVPPELARSASALGRLIARLQREGVPPHIPAAPFRLDDCGWVADRWAELSLPPADKARLLLLPPLDRLREIDAVLAA AEIPLFPLSNALFPAGVLRLRVFEIRYLDVRRCIADGSEFGVVVLEQGTEVRRPDGREVLARAGTARIDHWEAPPALLELACTGTGRFRLHACTQGKYGLWTGQAEPVPDDAPLEVPPELARSASALGRLIARLQREGVPPHIPAAPFRLDDCGWVADRWAELSLPPADKARLLLLPPLDRLREIDAVLAADGH 1zbo-a2-m2-cA_1zbo-a2-m2-cB X-Ray Crystal Structure of Protein BPP1347 from Bordetella parapertussis. Northeast Structural Genomics Consortium Target BoR27. Q7WAM7 Q7WAM7 2.6 X-RAY DIFFRACTION 96 1.0 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 191 194 1zbo-a1-m1-cA_1zbo-a1-m1-cB 1zbo-a2-m1-cA_1zbo-a2-m1-cB AEIPLFPLSNALFPAGVLRLRVFEIRYLDVRRCIADGSEFGVVVLEQGTEVRRPDGREVLARAGTARIDHWEAPPALLELACTGTGRFRLHACTQGKYGLWTGQAEPVPDDAPLEVPPELARSASALGRLIARLQREGVPPHIPAAPFRLDDCGWVADRWAELSLPPADKARLLLLPPLDRLREIDAVLAA AEIPLFPLSNALFPAGVLRLRVFEIRYLDVRRCIADGSEFGVVVLEQGTEVRRPDGREVLARAGTARIDHWEAPPALLELACTGTGRFRLHACTQGKYGLWTGQAEPVPDDAPLEVPPELARSASALGRLIARLQREGVPPHIPAAPFRLDDCGWVADRWAELSLPPADKARLLLLPPLDRLREIDAVLAADGH 1zbq-a3-m1-cE_1zbq-a3-m1-cF Crystal Structure Of Human 17-Beta-Hydroxysteroid Dehydrogenase Type 4 In Complex With NAD P51659 P51659 2.19 X-RAY DIFFRACTION 337 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 302 1gz6-a1-m1-cB_1gz6-a1-m1-cA 1gz6-a2-m1-cC_1gz6-a2-m1-cD 1zbq-a1-m1-cA_1zbq-a1-m1-cB 1zbq-a2-m1-cC_1zbq-a2-m1-cD SPLRFDGRVVLVTGAGAGLGRAYALAFAERGALVVVNDLGGDFKGVGKGSLAADKVVEEIRRRGGKAVANYDSVEEGEKVVKTALDAFGRIDVVVNNAGILRDRSFARISDEDWDIIHRVHLRGSFQVTRAAWEHMKKQKYGRIIMTSSASGIYGNFGQANYSAAKLGLLGLANSLAIEGRKSNIHCNTIAPNAGSRMTQTVMPEDLVEALKPEYVAPLVLWLCHESCEENGGLFEVGAGWIGKLRWERTLGAIVRQKNHPMTPEAVKANWKKICDFENASKPQSIQESTGSIIEVLSKIDS SPLRFDGRVVLVTGAGAGLGRAYALAFAERGALVVVNDLGGDFKGVGKGSLAADKVVEEIRRRGGKAVANYDSVEEGEKVVKTALDAFGRIDVVVNNAGILRDRSFARISDEDWDIIHRVHLRGSFQVTRAAWEHMKKQKYGRIIMTSSASGIYGNFGQANYSAAKLGLLGLANSLAIEGRKSNIHCNTIAPNAGSRMTQTVMPEDLVEALKPEYVAPLVLWLCHESCEENGGLFEVGAGWIGKLRWERTLGAIVRQKNHPMTPEAVKANWKKICDFENASKPQSIQESTGSIIEVLSKIDS 1zbr-a1-m1-cA_1zbr-a1-m1-cB Crystal Structure of the Putative Arginine Deiminase from Porphyromonas gingivalis, Northeast Structural Genomics Target PgR3 Q7MXM8 Q7MXM8 2.6 X-RAY DIFFRACTION 43 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 332 332 KRLFLPEWAPQEAVQLTWPHDRTDWAYLDEVETCFVRIATAILRHERLIVVCPDRKRVFGLLPPELHHRLYCFELPSNDTWARDHGGISLLADGRPIADFAFNGWGKFAAHHDNLITRRLHALGLFAEGVTLDNRLAFVLEGGALETDGEGTLLTTDSCLFEPNRNAGLSRTAIIDTLKESLGVSRVLSLRHGALAGDDTDGHIDTLARFVDTRTIVYVRSEDPSDEHYSDLTAEQELKELRRPDGQPYRLVPLPAEALYDGADRLPATYANFLIINGAVLVPTYDSHLDAVALSVQGLFPDREVIGIDCRPLVKQHGSLHCVTQYPQGFIR KRLFLPEWAPQEAVQLTWPHDRTDWAYLDEVETCFVRIATAILRHERLIVVCPDRKRVFGLLPPELHHRLYCFELPSNDTWARDHGGISLLADGRPIADFAFNGWGKFAAHHDNLITRRLHALGLFAEGVTLDNRLAFVLEGGALETDGEGTLLTTDSCLFEPNRNAGLSRTAIIDTLKESLGVSRVLSLRHGALAGDDTDGHIDTLARFVDTRTIVYVRSEDPSDEHYSDLTAEQELKELRRPDGQPYRLVPLPAEALYDGADRLPATYANFLIINGAVLVPTYDSHLDAVALSVQGLFPDREVIGIDCRPLVKQHGSLHCVTQYPQGFIR 1zbs-a1-m1-cA_1zbs-a1-m2-cA Crystal Structure of the Putative N-acetylglucosamine Kinase (PG1100) from Porphyromonas gingivalis, Northeast Structural Genomics Target PgR18 Q7MVG4 Q7MVG4 2.3 X-RAY DIFFRACTION 65 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 277 277 ILIGDSGSTKTDWCIAKEGKSLGRFQTSGINPFQQDRNEIDTALRSEVLPAIGQKASSIRAVYFYGAGCTPAKAPLNEALDSLPHCDRIEVAGDLGAARALCGDSEGIACILGTGSNSCLFDGREIKANVSPLGYILGDEGSGAVLGRLFIGSLLKGQPEGLCEAFLQEYGLTSADIIESVYRKPFPNRFLAGFSPFIAQHLDIPAVYSLVQNSFDDFLVRNVLRYNRPDLPLHFIGSVAFHYREVLSSVIKKRGLTLGSVLQSPEGLIQYHHNNHV ILIGDSGSTKTDWCIAKEGKSLGRFQTSGINPFQQDRNEIDTALRSEVLPAIGQKASSIRAVYFYGAGCTPAKAPLNEALDSLPHCDRIEVAGDLGAARALCGDSEGIACILGTGSNSCLFDGREIKANVSPLGYILGDEGSGAVLGRLFIGSLLKGQPEGLCEAFLQEYGLTSADIIESVYRKPFPNRFLAGFSPFIAQHLDIPAVYSLVQNSFDDFLVRNVLRYNRPDLPLHFIGSVAFHYREVLSSVIKKRGLTLGSVLQSPEGLIQYHHNNHV 1zc6-a1-m1-cA_1zc6-a1-m1-cB Crystal Structure of Putative N-acetylglucosamine Kinase from Chromobacterium violaceum. Northeast Structural Genomics Target Cvr23. Q7NU07 Q7NU07 2.2 X-RAY DIFFRACTION 47 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 281 288 PSIRYLIGVDGGGTGTRIRLHASDGTPLAAEGGASALSQGIAKSWQAVLSTLEAAFQQAGLPAAPASACAIGLGLSGVHNRQWAGEFESQAPGFARLSLATDGYTTLLGAHGGQPGIIVALGTGSIGEALYPDGSHREAGGWGYPSGDEASGAWLGQRAAQLTQALDGRHSHSPLTRAVLDFVGGDWQAAWNGRATPAQFARLAPLVLSAARVDPEADALLRQAGEDAWAIARALDPQDELPVALCGGLGQALRDWLPPGFRQRLVAPQGDSAQGALLLLQ RQTNPSIRYLIGVDGGGTGTRIRLHASDGTPLAAEGGASALSQGIAKSWQAVLSTLEAAFQQAGLPAAPASACAIGLGLSGVHNRQWAGEFESQAPGFARLSLATDGYTTLLGAHGGQPGIIVALGTGSIGEALYPDGSHREAGGWGYPSGDEASGAWLGQRAAQLTQALDGRHSHSPLTRAVLDFVGGDWQAAWNGRATPAQFARLAPLVLSAARVDPEADALLRQAGEDAWAIARALDPQDELPVALCGGLGQALRDWLPPGFRQRLVAPQGDSAQGALLLLQRPS 1zcc-a1-m1-cB_1zcc-a1-m1-cC Crystal structure of glycerophosphodiester phosphodiesterase from Agrobacterium tumefaciens str.C58 A9CG82 A9CG82 2.5 X-RAY DIFFRACTION 53 0.996 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 228 233 1zcc-a1-m1-cB_1zcc-a1-m1-cA 1zcc-a1-m1-cC_1zcc-a1-m1-cA 1zcc-a1-m1-cD_1zcc-a1-m1-cE 1zcc-a1-m1-cD_1zcc-a1-m1-cF 1zcc-a1-m1-cE_1zcc-a1-m1-cF MTKIVSHRGANRFAPENTFAAADLALQQGADYIELDVRESADGVLYVIHDETLDRTTNGTGPVGHMLSSEIDTLDAGGWFRFKGAIVPRLDAYLEHLRGRAGVYIELKYCDPAKVAALVRHLGMVRDTFYFSFSEEMRQGLQSIAPEFRRMMTLDIAKSPSLVGAVHHASIIEITPAQMRRPGIIEASRKAGLEIMVYYGGDDMAVHREIATSDVDYINLDRPDLFAA MTKIVSHRGANRFAPENTFAAADLALQQGADYIELDVRESADGVLYVIHDETLDRTTNGTGPVGHMLSSEIDTLDAGGWFDDRFGAIVPRLDAYLEHLRGRAGVYIELKYCDPAKVAALVRHLGMVRDTFYFSFSEEMRQGLQSIAPEFRRMMTLDIAKSPSLVGAVHHASIIEITPAQMRRPGIIEASRKAGLEIMVYYGGDDMAVHREIATSDVDYINLDRPDLFAAVRSG 1zcc-a1-m1-cB_1zcc-a1-m1-cE Crystal structure of glycerophosphodiester phosphodiesterase from Agrobacterium tumefaciens str.C58 A9CG82 A9CG82 2.5 X-RAY DIFFRACTION 33 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 228 233 1zcc-a1-m1-cC_1zcc-a1-m1-cF 1zcc-a1-m1-cD_1zcc-a1-m1-cA MTKIVSHRGANRFAPENTFAAADLALQQGADYIELDVRESADGVLYVIHDETLDRTTNGTGPVGHMLSSEIDTLDAGGWFRFKGAIVPRLDAYLEHLRGRAGVYIELKYCDPAKVAALVRHLGMVRDTFYFSFSEEMRQGLQSIAPEFRRMMTLDIAKSPSLVGAVHHASIIEITPAQMRRPGIIEASRKAGLEIMVYYGGDDMAVHREIATSDVDYINLDRPDLFAA MTKIVSHRGANRFAPENTFAAADLALQQGADYIELDVRESADGVLYVIHDETLDRTTNGTGPVGHMLSSEIDTLDAGGWFDDRFKGAIVPRLDAYLEHLRGRAGVYIELKYCDPAKVAALVRHLGMVRDTFYFSFSEEMRQGLQSIAPEFRRMMTLDIAKSPSLVGAVHHASIIEITPAQMRRPGIIEASRKAGLEIMVYYGGDDMAVHREIATSDVDYINLDRPDLFAAVRS 1zcc-a1-m1-cE_1zcc-a1-m1-cA Crystal structure of glycerophosphodiester phosphodiesterase from Agrobacterium tumefaciens str.C58 A9CG82 A9CG82 2.5 X-RAY DIFFRACTION 35 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 233 240 1zcc-a1-m1-cB_1zcc-a1-m1-cF 1zcc-a1-m1-cD_1zcc-a1-m1-cC MTKIVSHRGANRFAPENTFAAADLALQQGADYIELDVRESADGVLYVIHDETLDRTTNGTGPVGHMLSSEIDTLDAGGWFDDRFKGAIVPRLDAYLEHLRGRAGVYIELKYCDPAKVAALVRHLGMVRDTFYFSFSEEMRQGLQSIAPEFRRMMTLDIAKSPSLVGAVHHASIIEITPAQMRRPGIIEASRKAGLEIMVYYGGDDMAVHREIATSDVDYINLDRPDLFAAVRS MTKIVSHRGANRFAPENTFAAADLALQQGADYIELDVRESADGVLYVIHDETLDRTTNGTGPVGHMLSSEIDTLDAGGWFDDRFKGAIVPRLDAYLEHLRGRAGVYIELKYCDPAKVAALVRHLGMVRDTFYFSFSEEMRQGLQSIAPEFRRMMTLDIAKSPSLVGAVHHASIIEITPAQMRRPGIIEASRKAGLEIMVYYGGDDMAVHREIATSDVDYINLDRPDLFAAVRSGMAELLL 1zch-a1-m1-cA_1zch-a1-m2-cA Structure of the hypothetical oxidoreductase YcnD from Bacillus subtilis P94424 P94424 1.85 X-RAY DIFFRACTION 390 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 249 249 MNEVIKSLTDHRSIRSYTDEPVAQEQLDQIIEAVQSAPSSINGQQVTVITVQDKERKKKISELAGGQPWIDQAPVFLLFCADFNRAKIALEDLHDFKMEITNGLESVLVGAVDAGIALGTATAAAESLGLGTVPIGAVRGNPQELIELLELPKYVFPLSGLVIGHPADRSAKKPRLPQEAVNHQETYLNQDELTSHIQAYDEQMSEYMNKRTNGKETRNWSQSIASYYERLYYPHIREMLEKQGFKVEK MNEVIKSLTDHRSIRSYTDEPVAQEQLDQIIEAVQSAPSSINGQQVTVITVQDKERKKKISELAGGQPWIDQAPVFLLFCADFNRAKIALEDLHDFKMEITNGLESVLVGAVDAGIALGTATAAAESLGLGTVPIGAVRGNPQELIELLELPKYVFPLSGLVIGHPADRSAKKPRLPQEAVNHQETYLNQDELTSHIQAYDEQMSEYMNKRTNGKETRNWSQSIASYYERLYYPHIREMLEKQGFKVEK 1zcp-a1-m1-cA_1zcp-a1-m1-cB Crystal Structure of a catalytic site mutant E. coli TrxA (CACA) P0AA25 P0AA25 2.3 X-RAY DIFFRACTION 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 106 1zcp-a2-m1-cC_1zcp-a2-m1-cD 4hu7-a3-m2-cB_4hu7-a3-m1-cA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCACAKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANL DKIIHLTDDSFDTDVLKADGAILVDFWAEWCACAKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANL 1zcz-a1-m1-cA_1zcz-a1-m1-cB Crystal structure of Phosphoribosylaminoimidazolecarboxamide formyltransferase / IMP cyclohydrolase (TM1249) from THERMOTOGA MARITIMA at 1.88 A resolution Q9X0X6 Q9X0X6 1.88 X-RAY DIFFRACTION 421 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 452 454 MKRILVSLYEKEKYLDILRELHEKGWEIWASSGTAKFLKSNGIEANDVSTITGFENLLGGLVKTLHPEIFAGILGPEPRWDVVFVDLYPPPDIDIGGVALLRAAAKNWKKVKPAFDMETLKLAIEIDDEETRKYLAGMTFAFTSVYDSIRANQFVEGISLAFKREDLQLRYGENPHEKAFVYGKPAFEILHEGKTISFNNILDAENAWFMAKNLPRMGAVVVKHQSPCGAAIGEDKVEIVKKAIEADDESSFGGILAVNFEMDEEVAKSLKKYLEVIVAPSFTQEAIEVLSKKKVRLLKPGDYASWAGKMAFGSLVLSERKYPEGNFELVVGEPLSEKELEDLEFAYRVVEGAKSNAVLIAKDGVTVGIGSGQPSRKRAAWIATVMAGEKAKGAVAASDAFFPFPDSLEILAQAGVKAVVAPLGSIRDEEVIEKARELGITFYKAPSRVFRH HHMKRILVSLYEKEKYLDILRELHEKGWEIWASSGTAKFLKSNGIEANDVSTITGFENLLGGLVKTLHPEIFAGILGPEPRWDVVFVDLYPPPDIDIGGVALLRAAAKNWKKVKPAFDMETLKLAIEIDDEETRKYLAGMTFAFTSVYDSIRANQFVEGISLAFKREDLQLRYGENPHEKAFVYGKPAFEILHEGKTISFNNILDAENAWFMAKNLPRMGAVVVKHQSPCGAAIGEDKVEIVKKAIEADDESSFGGILAVNFEMDEEVAKSLKKYLEVIVAPSFTQEAIEVLSKKKVRLLKPGDYASWAGKMAFGSLVLSERKYPEGNFELVVGEPLSEKELEDLEFAYRVVEGAKSNAVLIAKDGVTVGIGSGQPSRKRAAWIATVMAGEKAKGAVAASDAFFPFPDSLEILAQAGVKAVVAPLGSIRDEEVIEKARELGITFYKAPSRVFRH 1zdt-a3-m1-cA_1zdt-a3-m2-cB The Crystal Structure of Human Steroidogenic Factor-1 Q13285 Q13285 2.1 X-RAY DIFFRACTION 51 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 233 239 PNVPELILQLLQLEPDEDQVRARILGSLPDQPAAFGLLCRMADQTFISIVDWARRCMVFKELEVADQMTLLQNCWSELLVFDHIYRQVQHGKEGSILLVTGQEVELTTVATQAGSLLHSLVLRAQELVLQLLALQLDRQEFVCLKFIILFSLDLKFLNNHILVKDAQEKANAALLDYTLCHYPHSGDKFQQLLLCLVEVRALSMQAKEYLYHKHLGNEMPRNNLLIEMLQAKQ PNVPELILQLLQLEPDEDQVRARILGSLQEPTKSRPDQPAAFGLLCRMADQTFISIVDWARRCMVFKELEVADQMTLLQNCWSELLVFDHIYRQVQHGKEGSILLVTGQEVELTTVATQAGSLLHSLVLRAQELVLQLLALQLDRQEFVCLKFIILFSLDLKFLNNHILVKDAQEKANAALLDYTLCHYPHSGDKFQQLLLCLVEVRALSMQAKEYLYHKHLGNEMPRNNLLIEMLQAK 1zee-a2-m1-cB_1zee-a2-m2-cB X-Ray Crystal Structure of Protein SO4414 from Shewanella oneidensis. Northeast Structural Genomics Consortium Target SoR52. Q8E972 Q8E972 2.31 X-RAY DIFFRACTION 74 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 356 356 1zee-a2-m1-cA_1zee-a2-m2-cA 2nwb-a1-m1-cA_2nwb-a1-m2-cA 2nwb-a1-m1-cB_2nwb-a1-m2-cB YNTEAFDEWIRSRFVELNSQLEQLYYQQTDRANVQEVGTELKHTLESEGRELVKALLDEGNTDEGFDSAFDLLGNVGLYAACRRHEITEPTRETTSPLLEASALAHIGASIGVTPRFATAHLTTHNRAHNGIYKRFTDLPDEKLFVDYNTKGILAYKRASDALLKIQPLGISHPISHDLLRVTKQALQDVIESNQQLFNRLDTDRFFYCVRPYYKPYRVGSVVYRGANAGDFAGINVIDLTLGLCFANEASYSQLVDKFLYPEDQQILRECRRPNLDDFLQAKGCIHQDWYQENLKLFIEVCELHGQTAIQHHNELVTKYVLLASLERLRDRRAAVLRDDIRTRYYDLKKLKDSLR YNTEAFDEWIRSRFVELNSQLEQLYYQQTDRANVQEVGTELKHTLESEGRELVKALLDEGNTDEGFDSAFDLLGNVGLYAACRRHEITEPTRETTSPLLEASALAHIGASIGVTPRFATAHLTTHNRAHNGIYKRFTDLPDEKLFVDYNTKGILAYKRASDALLKIQPLGISHPISHDLLRVTKQALQDVIESNQQLFNRLDTDRFFYCVRPYYKPYRVGSVVYRGANAGDFAGINVIDLTLGLCFANEASYSQLVDKFLYPEDQQILRECRRPNLDDFLQAKGCIHQDWYQENLKLFIEVCELHGQTAIQHHNELVTKYVLLASLERLRDRRAAVLRDDIRTRYYDLKKLKDSLR 1zee-a2-m2-cA_1zee-a2-m2-cB X-Ray Crystal Structure of Protein SO4414 from Shewanella oneidensis. Northeast Structural Genomics Consortium Target SoR52. Q8E972 Q8E972 2.31 X-RAY DIFFRACTION 93 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 356 356 1zee-a1-m1-cA_1zee-a1-m1-cB 1zee-a2-m1-cA_1zee-a2-m1-cB 2nwb-a1-m1-cB_2nwb-a1-m1-cA 2nwb-a1-m2-cB_2nwb-a1-m2-cA YNTEAFDEWIRSRFVELNSQLEQLYYQQTDRANVQEVGTELKHTLESEGRELVKALLDEGNTDEGFDSAFDLLGNVGLYAACRRHEITEPTRETTSPLLEASALAHIGASIGVTPRFATAHLTTHNRAHNGIYKRFTDLPDEKLFVDYNTKGILAYKRASDALLKIQPLGISHPISHDLLRVTKQALQDVIESNQQLFNRLDTDRFFYCVRPYYKPYRVGSVVYRGANAGDFAGINVIDLTLGLCFANEASYSQLVDKFLYPEDQQILRECRRPNLDDFLQAKGCIHQDWYQENLKLFIEVCELHGQTAIQHHNELVTKYVLLASLERLRDRRAAVLRDDIRTRYYDLKKLKDSLR YNTEAFDEWIRSRFVELNSQLEQLYYQQTDRANVQEVGTELKHTLESEGRELVKALLDEGNTDEGFDSAFDLLGNVGLYAACRRHEITEPTRETTSPLLEASALAHIGASIGVTPRFATAHLTTHNRAHNGIYKRFTDLPDEKLFVDYNTKGILAYKRASDALLKIQPLGISHPISHDLLRVTKQALQDVIESNQQLFNRLDTDRFFYCVRPYYKPYRVGSVVYRGANAGDFAGINVIDLTLGLCFANEASYSQLVDKFLYPEDQQILRECRRPNLDDFLQAKGCIHQDWYQENLKLFIEVCELHGQTAIQHHNELVTKYVLLASLERLRDRRAAVLRDDIRTRYYDLKKLKDSLR 1zei-a1-m1-cE_1zei-a1-m1-cF CROSS-LINKED B28 ASP INSULIN P01315 P01315 1.9 X-RAY DIFFRACTION 28 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 53 53 2w44-a1-m1-cB_2w44-a1-m2-cB FVNQHLCGSHLVEALYLVCGERGFFYTDKAAKGIVEQCCTSICSLYQLENYCN FVNQHLCGSHLVEALYLVCGERGFFYTDKAAKGIVEQCCTSICSLYQLENYCN 1zej-a1-m1-cA_1zej-a1-m2-cA Crystal structure of the 3-hydroxyacyl-coa dehydrogenase (hbd-9, af2017) from archaeoglobus fulgidus dsm 4304 at 2.00 A resolution O28262 O28262 2 X-RAY DIFFRACTION 232 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 276 276 HKVFVIGAGLGRGIAIAIASKHEVVLQDVSEKALEAAREQIPEELLSKIEFTTTLEKVKDCDIVEAVFEDLNTKVEVLREVERLTNAPLCSNTSVISVDDIAERLDSPSRFLGVHWNPPHVPLVEIVISRFTDSKTVAFVEGFLRELGKEVVVCKGQSLVNRFNAAVLSEASRIEEGVRAEDVDRVWKHHLGLLYTLFGPLGNLDYIGLDVAYYASLYLYKRFGDEKFKPPEWLQEKIKKGEVGVKAGKGIYEYGPKAYEERVERLKKLLRFLGLE HKVFVIGAGLGRGIAIAIASKHEVVLQDVSEKALEAAREQIPEELLSKIEFTTTLEKVKDCDIVEAVFEDLNTKVEVLREVERLTNAPLCSNTSVISVDDIAERLDSPSRFLGVHWNPPHVPLVEIVISRFTDSKTVAFVEGFLRELGKEVVVCKGQSLVNRFNAAVLSEASRIEEGVRAEDVDRVWKHHLGLLYTLFGPLGNLDYIGLDVAYYASLYLYKRFGDEKFKPPEWLQEKIKKGEVGVKAGKGIYEYGPKAYEERVERLKKLLRFLGLE 1zem-a3-m2-cE_1zem-a3-m2-cH Crystal Structure of NAD+-Bound Xylitol Dehydrogenase Q8GR61 Q8GR61 1.9 X-RAY DIFFRACTION 84 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 260 260 1zem-a1-m1-cA_1zem-a1-m1-cD 1zem-a1-m1-cB_1zem-a1-m1-cC 1zem-a2-m1-cE_1zem-a2-m1-cH 1zem-a2-m1-cF_1zem-a2-m1-cG 1zem-a3-m1-cA_1zem-a3-m1-cD 1zem-a3-m1-cB_1zem-a3-m1-cC 1zem-a3-m2-cF_1zem-a3-m2-cG KKFNGKVCLVTGAGGNIGLATALRLAEEGTAIALLDMNREALEKAEASVREKGVEARSYVCDVTSEEAVIGTVDSVVRDFGKIDFLFNNAGYQGAFAPVQDYPSDDFARVLTINVTGAFHVLKAVSRQMITQNYGRIVNTASMAGVKGPPNMAAYGTSKGAIIALTETAALDLAPYNIRVNAISPGYMGPGFMWERQVELQAKVGSQYFSTDPKVVAQQMIGSVPMRRYGDINEIPGVVAFLLGDDSSFMTGVNLPIAGG KKFNGKVCLVTGAGGNIGLATALRLAEEGTAIALLDMNREALEKAEASVREKGVEARSYVCDVTSEEAVIGTVDSVVRDFGKIDFLFNNAGYQGAFAPVQDYPSDDFARVLTINVTGAFHVLKAVSRQMITQNYGRIVNTASMAGVKGPPNMAAYGTSKGAIIALTETAALDLAPYNIRVNAISPGYMGPGFMWERQVELQAKVGSQYFSTDPKVVAQQMIGSVPMRRYGDINEIPGVVAFLLGDDSSFMTGVNLPIAGG 1zem-a3-m2-cF_1zem-a3-m2-cH Crystal Structure of NAD+-Bound Xylitol Dehydrogenase Q8GR61 Q8GR61 1.9 X-RAY DIFFRACTION 154 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 260 260 1zem-a1-m1-cA_1zem-a1-m1-cC 1zem-a1-m1-cB_1zem-a1-m1-cD 1zem-a2-m1-cE_1zem-a2-m1-cG 1zem-a2-m1-cF_1zem-a2-m1-cH 1zem-a3-m1-cA_1zem-a3-m1-cC 1zem-a3-m1-cB_1zem-a3-m1-cD 1zem-a3-m2-cE_1zem-a3-m2-cG KKFNGKVCLVTGAGGNIGLATALRLAEEGTAIALLDMNREALEKAEASVREKGVEARSYVCDVTSEEAVIGTVDSVVRDFGKIDFLFNNAGYQGAFAPVQDYPSDDFARVLTINVTGAFHVLKAVSRQMITQNYGRIVNTASMAGVKGPPNMAAYGTSKGAIIALTETAALDLAPYNIRVNAISPGYMGPGFMWERQVELQAKVGSQYFSTDPKVVAQQMIGSVPMRRYGDINEIPGVVAFLLGDDSSFMTGVNLPIAGG KKFNGKVCLVTGAGGNIGLATALRLAEEGTAIALLDMNREALEKAEASVREKGVEARSYVCDVTSEEAVIGTVDSVVRDFGKIDFLFNNAGYQGAFAPVQDYPSDDFARVLTINVTGAFHVLKAVSRQMITQNYGRIVNTASMAGVKGPPNMAAYGTSKGAIIALTETAALDLAPYNIRVNAISPGYMGPGFMWERQVELQAKVGSQYFSTDPKVVAQQMIGSVPMRRYGDINEIPGVVAFLLGDDSSFMTGVNLPIAGG 1zes-a2-m1-cB_1zes-a2-m1-cC BeF3- activated PhoB receiver domain P0AFJ5 P0AFJ5 1.9 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 118 120 1zes-a1-m1-cA_1zes-a1-m2-cA RRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNWPDLILLDWMLPGGSGIQFIKHLKRESMTRDIPVVMLTARGEEEDRVRGLETGADDYITKPFSPKELVARIKAVMRR RRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLDWMLPGGSGIQFIKHLKRESMTRDIPVVMLTARGEEEDRVRGLETGADDYITKPFSPKELVARIKAVMRR 1zfj-a2-m4-cA_1zfj-a2-m8-cA INOSINE MONOPHOSPHATE DEHYDROGENASE (IMPDH; EC 1.1.1.205) FROM STREPTOCOCCUS PYOGENES P0C0H6 P0C0H6 1.9 X-RAY DIFFRACTION 62 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 463 463 1zfj-a2-m1-cA_1zfj-a2-m6-cA 1zfj-a2-m2-cA_1zfj-a2-m5-cA 1zfj-a2-m3-cA_1zfj-a2-m7-cA SNWDTKFLKKGYTFDDVLLIPAESHVLPNEVDLKTKLADNLTLNIPIITAADTVTGSKAIAIARAGGLGVIHKNSITEQAEEVRKVKRSENGVIIDPFFLTPEHKVSEAEELQRYRISGVPIVETLANRKLVGIITNRDRFISDYNAPISEHTSEHLVTAAVGTDLETAERILHEHRIEKLPLVDNSGRLSGLITIKDIEKVIEFPHAAKDEFGRLLVAAAVGVTSDTFERAEALFEAGADAIVIDTAHGHSAGVLRKIAEIRAHFPNRTLIAGNIATAEGARALYDAGVDVVKVGIGPGSICTTRVVAGVGVPQVTAIYDAAAVAREYGKTIIADGGIKYSGDIVKALAAGGNAVLGSFAGTDEAPGETEIYQGRKYKTYRGGSIAAKKNKLVPEGIEGRVAYKGAASDIVFQLGGIRSGGYVGAGDIQELHENAQFVESGAGLIESHPHDVQITNEAPNYS SNWDTKFLKKGYTFDDVLLIPAESHVLPNEVDLKTKLADNLTLNIPIITAADTVTGSKAIAIARAGGLGVIHKNSITEQAEEVRKVKRSENGVIIDPFFLTPEHKVSEAEELQRYRISGVPIVETLANRKLVGIITNRDRFISDYNAPISEHTSEHLVTAAVGTDLETAERILHEHRIEKLPLVDNSGRLSGLITIKDIEKVIEFPHAAKDEFGRLLVAAAVGVTSDTFERAEALFEAGADAIVIDTAHGHSAGVLRKIAEIRAHFPNRTLIAGNIATAEGARALYDAGVDVVKVGIGPGSICTTRVVAGVGVPQVTAIYDAAAVAREYGKTIIADGGIKYSGDIVKALAAGGNAVLGSFAGTDEAPGETEIYQGRKYKTYRGGSIAAKKNKLVPEGIEGRVAYKGAASDIVFQLGGIRSGGYVGAGDIQELHENAQFVESGAGLIESHPHDVQITNEAPNYS 1zfj-a2-m6-cA_1zfj-a2-m8-cA INOSINE MONOPHOSPHATE DEHYDROGENASE (IMPDH; EC 1.1.1.205) FROM STREPTOCOCCUS PYOGENES P0C0H6 P0C0H6 1.9 X-RAY DIFFRACTION 212 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 463 463 1zfj-a1-m1-cA_1zfj-a1-m3-cA 1zfj-a1-m1-cA_1zfj-a1-m4-cA 1zfj-a1-m2-cA_1zfj-a1-m3-cA 1zfj-a1-m2-cA_1zfj-a1-m4-cA 1zfj-a2-m1-cA_1zfj-a2-m3-cA 1zfj-a2-m1-cA_1zfj-a2-m4-cA 1zfj-a2-m2-cA_1zfj-a2-m3-cA 1zfj-a2-m2-cA_1zfj-a2-m4-cA 1zfj-a2-m5-cA_1zfj-a2-m7-cA 1zfj-a2-m5-cA_1zfj-a2-m8-cA 1zfj-a2-m6-cA_1zfj-a2-m7-cA SNWDTKFLKKGYTFDDVLLIPAESHVLPNEVDLKTKLADNLTLNIPIITAADTVTGSKAIAIARAGGLGVIHKNSITEQAEEVRKVKRSENGVIIDPFFLTPEHKVSEAEELQRYRISGVPIVETLANRKLVGIITNRDRFISDYNAPISEHTSEHLVTAAVGTDLETAERILHEHRIEKLPLVDNSGRLSGLITIKDIEKVIEFPHAAKDEFGRLLVAAAVGVTSDTFERAEALFEAGADAIVIDTAHGHSAGVLRKIAEIRAHFPNRTLIAGNIATAEGARALYDAGVDVVKVGIGPGSICTTRVVAGVGVPQVTAIYDAAAVAREYGKTIIADGGIKYSGDIVKALAAGGNAVLGSFAGTDEAPGETEIYQGRKYKTYRGGSIAAKKNKLVPEGIEGRVAYKGAASDIVFQLGGIRSGGYVGAGDIQELHENAQFVESGAGLIESHPHDVQITNEAPNYS SNWDTKFLKKGYTFDDVLLIPAESHVLPNEVDLKTKLADNLTLNIPIITAADTVTGSKAIAIARAGGLGVIHKNSITEQAEEVRKVKRSENGVIIDPFFLTPEHKVSEAEELQRYRISGVPIVETLANRKLVGIITNRDRFISDYNAPISEHTSEHLVTAAVGTDLETAERILHEHRIEKLPLVDNSGRLSGLITIKDIEKVIEFPHAAKDEFGRLLVAAAVGVTSDTFERAEALFEAGADAIVIDTAHGHSAGVLRKIAEIRAHFPNRTLIAGNIATAEGARALYDAGVDVVKVGIGPGSICTTRVVAGVGVPQVTAIYDAAAVAREYGKTIIADGGIKYSGDIVKALAAGGNAVLGSFAGTDEAPGETEIYQGRKYKTYRGGSIAAKKNKLVPEGIEGRVAYKGAASDIVFQLGGIRSGGYVGAGDIQELHENAQFVESGAGLIESHPHDVQITNEAPNYS 1zfn-a3-m2-cA_1zfn-a3-m3-cC Structural Analysis of Escherichia coli ThiF P30138 P30138 2.75 X-RAY DIFFRACTION 14 1.0 562 (Escherichia coli) 562 (Escherichia coli) 244 244 1zfn-a3-m1-cA_1zfn-a3-m2-cC 1zfn-a3-m1-cC_1zfn-a3-m3-cA 1zfn-a4-m1-cB_1zfn-a4-m4-cD 1zfn-a4-m4-cB_1zfn-a4-m1-cD 1zkm-a3-m1-cB_1zkm-a3-m2-cD 1zkm-a3-m2-cB_1zkm-a3-m1-cD MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG 1zfn-a4-m1-cB_1zfn-a4-m4-cC Structural Analysis of Escherichia coli ThiF P30138 P30138 2.75 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 232 244 1zfn-a4-m4-cB_1zfn-a4-m1-cC MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG 1zfn-a4-m4-cD_1zfn-a4-m4-cA Structural Analysis of Escherichia coli ThiF P30138 P30138 2.75 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 244 1zfn-a3-m1-cB_1zfn-a3-m1-cC 1zfn-a3-m1-cD_1zfn-a3-m1-cA 1zfn-a3-m2-cB_1zfn-a3-m2-cC 1zfn-a3-m2-cD_1zfn-a3-m2-cA 1zfn-a3-m3-cB_1zfn-a3-m3-cC 1zfn-a3-m3-cD_1zfn-a3-m3-cA 1zfn-a4-m1-cB_1zfn-a4-m1-cC 1zfn-a4-m1-cD_1zfn-a4-m1-cA 1zfn-a4-m4-cB_1zfn-a4-m4-cC 1zkm-a3-m1-cB_1zkm-a3-m1-cC 1zkm-a3-m1-cD_1zkm-a3-m1-cA 1zkm-a3-m2-cB_1zkm-a3-m2-cC 1zkm-a3-m2-cD_1zkm-a3-m2-cA MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG 1zfn-a4-m4-cD_1zfn-a4-m4-cC Structural Analysis of Escherichia coli ThiF P30138 P30138 2.75 X-RAY DIFFRACTION 175 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 244 1zfn-a1-m1-cB_1zfn-a1-m1-cA 1zfn-a2-m1-cD_1zfn-a2-m1-cC 1zfn-a3-m1-cB_1zfn-a3-m1-cA 1zfn-a3-m1-cD_1zfn-a3-m1-cC 1zfn-a3-m2-cB_1zfn-a3-m2-cA 1zfn-a3-m2-cD_1zfn-a3-m2-cC 1zfn-a3-m3-cB_1zfn-a3-m3-cA 1zfn-a3-m3-cD_1zfn-a3-m3-cC 1zfn-a4-m1-cB_1zfn-a4-m1-cA 1zfn-a4-m1-cD_1zfn-a4-m1-cC 1zfn-a4-m4-cB_1zfn-a4-m4-cA 1zkm-a1-m1-cB_1zkm-a1-m1-cA 1zkm-a2-m1-cD_1zkm-a2-m1-cC 1zkm-a3-m1-cB_1zkm-a3-m1-cA 1zkm-a3-m1-cD_1zkm-a3-m1-cC 1zkm-a3-m2-cB_1zkm-a3-m2-cA 1zkm-a3-m2-cD_1zkm-a3-m2-cC 1zud-a1-m1-c1_1zud-a1-m1-c3 MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG MNDRDFMRYSRQILLDDIALDGQQKLLDSQVLIIGLGGLGTPAALYLAGAGVGTLVLADDDDVHLSNLQRQILFTTEDIDRPKSQVSQQRLTQLNPDIQLTALQQRLTGEALKDAVARADVVLDCTDNMATRQEINAACVALNTPLITASAVGFGGQLMVLTPPWEQGCYRCLWPDNQEPERNCRTAGVVGPVVGVMGTLQALEAIKLLSGIETPAGELRLFDGKSSQWRSLALRRASGCPVCG 1zga-a1-m1-cA_1zga-a1-m2-cA Crystal structure of isoflavanone 4'-O-methyltransferase complexed with (+)-6a-hydroxymaackiain Q29U70 Q29U70 2.35 X-RAY DIFFRACTION 266 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 357 357 1zg3-a1-m1-cA_1zg3-a1-m2-cA 1zgj-a1-m1-cA_1zgj-a1-m2-cA 1zhf-a1-m1-cA_1zhf-a1-m2-cA SEESELYHAQIHLYKHVYNFVSSMALKSAMELGIADAIHNHGKPMTLSELASSLKLHPSKVNILHRFLRLLTHNGFFAKTIVKGKEGDEEEEIAYSLTPPSKLLISGKPTCLSSIVKGALHPSSLDMWSSSKKWFNEDKEQTLFECATGESFWDFLNKDSESSTLSMFQDAMASDSRMFKLVLQENKRVFEGLESLVDVGGGTGGVTKLIHEIFPHLKCTVFDQPQVVGNLTGNENLNFVGGDMFKSIPSADAVLLKWVLHDWNDEQSLKILKNSKEAISHKGKDGKVIIIDISIDETSDDRGLTELQLDYDLVMLTMFLGKERTKQEWEKLIYDAGFSSYKITPISGFKSLIEVYP SEESELYHAQIHLYKHVYNFVSSMALKSAMELGIADAIHNHGKPMTLSELASSLKLHPSKVNILHRFLRLLTHNGFFAKTIVKGKEGDEEEEIAYSLTPPSKLLISGKPTCLSSIVKGALHPSSLDMWSSSKKWFNEDKEQTLFECATGESFWDFLNKDSESSTLSMFQDAMASDSRMFKLVLQENKRVFEGLESLVDVGGGTGGVTKLIHEIFPHLKCTVFDQPQVVGNLTGNENLNFVGGDMFKSIPSADAVLLKWVLHDWNDEQSLKILKNSKEAISHKGKDGKVIIIDISIDETSDDRGLTELQLDYDLVMLTMFLGKERTKQEWEKLIYDAGFSSYKITPISGFKSLIEVYP 1zgo-a1-m1-cB_1zgo-a1-m1-cD High Resolution Crystal Structure of the Discosoma Red Fluorescent Protein (DsRed) Q9U6Y8 Q9U6Y8 1.4 X-RAY DIFFRACTION 61 1.0 86600 (Discosoma sp.) 86600 (Discosoma sp.) 217 217 1g7k-a1-m1-cA_1g7k-a1-m1-cC 1g7k-a1-m1-cB_1g7k-a1-m1-cD 1ggx-a1-m1-cA_1ggx-a1-m1-cB 1ggx-a1-m1-cC_1ggx-a1-m1-cD 1zgo-a1-m1-cA_1zgo-a1-m1-cC 1zgp-a1-m1-cA_1zgp-a1-m1-cC 1zgp-a1-m1-cB_1zgp-a1-m1-cD 1zgq-a1-m1-cA_1zgq-a1-m1-cC 1zgq-a1-m1-cB_1zgq-a1-m1-cD 1zgq-a2-m1-cE_1zgq-a2-m1-cG 1zgq-a2-m1-cF_1zgq-a2-m1-cH 2h8q-a1-m1-cA_2h8q-a1-m2-cA 2h8q-a1-m1-cB_2h8q-a1-m2-cB 2h8q-a2-m1-cC_2h8q-a2-m3-cC 2h8q-a2-m1-cD_2h8q-a2-m3-cD 2v4e-a1-m1-cA_2v4e-a1-m1-cB 2v4e-a1-m1-cC_2v4e-a1-m1-cD 2v4e-a2-m1-cE_2v4e-a2-m1-cF 2v4e-a2-m1-cG_2v4e-a2-m1-cH 2vae-a1-m1-cA_2vae-a1-m1-cB 2vae-a1-m1-cC_2vae-a1-m1-cD 2vae-a2-m1-cE_2vae-a2-m1-cF 2vae-a2-m1-cG_2vae-a2-m1-cH NVIKEFMRFKVRMEGTVNGHEFEIEGEGEGRPYEGHNTVKLKVTKGGPLPFAWDILSPQFSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGCFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGEIHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERTEGRHHLFL NVIKEFMRFKVRMEGTVNGHEFEIEGEGEGRPYEGHNTVKLKVTKGGPLPFAWDILSPQFSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGCFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGEIHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERTEGRHHLFL 1zgo-a1-m1-cC_1zgo-a1-m1-cD High Resolution Crystal Structure of the Discosoma Red Fluorescent Protein (DsRed) Q9U6Y8 Q9U6Y8 1.4 X-RAY DIFFRACTION 76 1.0 86600 (Discosoma sp.) 86600 (Discosoma sp.) 217 217 1g7k-a1-m1-cA_1g7k-a1-m1-cB 1g7k-a1-m1-cC_1g7k-a1-m1-cD 1ggx-a1-m1-cA_1ggx-a1-m1-cC 1ggx-a1-m1-cB_1ggx-a1-m1-cD 1zgo-a1-m1-cA_1zgo-a1-m1-cB 1zgp-a1-m1-cA_1zgp-a1-m1-cB 1zgp-a1-m1-cC_1zgp-a1-m1-cD 1zgq-a1-m1-cA_1zgq-a1-m1-cB 1zgq-a1-m1-cC_1zgq-a1-m1-cD 1zgq-a2-m1-cE_1zgq-a2-m1-cF 1zgq-a2-m1-cG_1zgq-a2-m1-cH 2h8q-a1-m1-cA_2h8q-a1-m1-cB 2h8q-a1-m2-cA_2h8q-a1-m2-cB 2h8q-a2-m1-cC_2h8q-a2-m1-cD 2h8q-a2-m3-cC_2h8q-a2-m3-cD 2v4e-a1-m1-cA_2v4e-a1-m1-cC 2v4e-a1-m1-cB_2v4e-a1-m1-cD 2v4e-a2-m1-cE_2v4e-a2-m1-cG 2v4e-a2-m1-cF_2v4e-a2-m1-cH 2vae-a1-m1-cA_2vae-a1-m1-cC 2vae-a1-m1-cB_2vae-a1-m1-cD 2vae-a2-m1-cE_2vae-a2-m1-cG 2vae-a2-m1-cF_2vae-a2-m1-cH NVIKEFMRFKVRMEGTVNGHEFEIEGEGEGRPYEGHNTVKLKVTKGGPLPFAWDILSPQFSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGCFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGEIHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERTEGRHHLFL NVIKEFMRFKVRMEGTVNGHEFEIEGEGEGRPYEGHNTVKLKVTKGGPLPFAWDILSPQFSKVYVKHPADIPDYKKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGCFIYKVKFIGVNFPSDGPVMQKKTMGWEASTERLYPRDGVLKGEIHKALKLKDGGHYLVEFKSIYMAKKPVQLPGYYYVDSKLDITSHNEDYTIVEQYERTEGRHHLFL 1zgs-a1-m1-cA_1zgs-a1-m1-cB Parkia platycephala seed lectin in complex with 5-bromo-4-chloro-3-indolyl-a-D-mannose P83304 P83304 2.5 X-RAY DIFFRACTION 103 1.0 185447 (Parkia platycephala) 185447 (Parkia platycephala) 442 442 1zgr-a1-m1-cA_1zgr-a1-m1-cB 4mq0-a1-m1-cA_4mq0-a1-m2-cA KGMISVGPWGGSGGNYWSFKANHAITEIVIHVKDNIKSISFKDASGDISGTFGGKDPRENEKGDEKKIKIHWPTEYLKSISGSYGDYNGVLVIRSLSFITNLTTYGPFGSTSGGESFSIPIADSVVVGFHGRAGYYLDALGIFVQPVPHGTISFGPWGGPAGDDAFNFKVGSWIKDIIIYADAAINSIAFKDANGHCYGKFGGQDPNDIGVEKKVEIDGNLEHLKSISGTYGNYKGFEVVTSLSFITNVTKHGPFGIASGTSFSIPIEGSLVTGFHGKSGYYLDSIGIYVKPRDVEGSISIGPWGGSGGDPWSYTANEGINQIIIYAGSNIKSVAFKDTSGLDSATFGGVNPKDTGEKNTVSINWPSEYLTSISGTYGQYKFKDVFTTITSLSFTTNLATYGPFGKASATSFSIPIHNNMVVGFHGRAGDYLDAIGIFVKPD KGMISVGPWGGSGGNYWSFKANHAITEIVIHVKDNIKSISFKDASGDISGTFGGKDPRENEKGDEKKIKIHWPTEYLKSISGSYGDYNGVLVIRSLSFITNLTTYGPFGSTSGGESFSIPIADSVVVGFHGRAGYYLDALGIFVQPVPHGTISFGPWGGPAGDDAFNFKVGSWIKDIIIYADAAINSIAFKDANGHCYGKFGGQDPNDIGVEKKVEIDGNLEHLKSISGTYGNYKGFEVVTSLSFITNVTKHGPFGIASGTSFSIPIEGSLVTGFHGKSGYYLDSIGIYVKPRDVEGSISIGPWGGSGGDPWSYTANEGINQIIIYAGSNIKSVAFKDTSGLDSATFGGVNPKDTGEKNTVSINWPSEYLTSISGTYGQYKFKDVFTTITSLSFTTNLATYGPFGKASATSFSIPIHNNMVVGFHGRAGDYLDAIGIFVKPD 1zgz-a3-m1-cC_1zgz-a3-m1-cA Crystal Structure Of The Receiver Domain Of TMAO Respiratory System Response Regulator TorR P38684 P38684 1.8 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 117 118 PHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIQNQSVDLILLDINLPDENGLLTRALRERSTVGIILVTGRSDRIDRIVGLEGADDYVTKPLELRELVVRVKNLLWRID PHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIQNQSVDLILLDINLPDENGLLTRALRERSTVGIILVTGRSDRIDRIVGLEGADDYVTKPLELRELVVRVKNLLWRIDQ 1zgz-a3-m1-cC_1zgz-a3-m1-cD Crystal Structure Of The Receiver Domain Of TMAO Respiratory System Response Regulator TorR P38684 P38684 1.8 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 117 117 1zgz-a1-m1-cB_1zgz-a1-m1-cA 1zgz-a2-m1-cC_1zgz-a2-m1-cD 1zgz-a3-m1-cB_1zgz-a3-m1-cA PHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIQNQSVDLILLDINLPDENGLLTRALRERSTVGIILVTGRSDRIDRIVGLEGADDYVTKPLELRELVVRVKNLLWRID PHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIQNQSVDLILLDINLPDENGLLTRALRERSTVGIILVTGRSDRIDRIVGLEGADDYVTKPLELRELVVRVKNLLWRID 1zgz-a3-m1-cD_1zgz-a3-m1-cA Crystal Structure Of The Receiver Domain Of TMAO Respiratory System Response Regulator TorR P38684 P38684 1.8 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 117 118 PHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIQNQSVDLILLDINLPDENGLLTRALRERSTVGIILVTGRSDRIDRIVGLEGADDYVTKPLELRELVVRVKNLLWRID PHHIVIVEDEPVTQARLQSYFTQEGYTVSVTASGAGLREIQNQSVDLILLDINLPDENGLLTRALRERSTVGIILVTGRSDRIDRIVGLEGADDYVTKPLELRELVVRVKNLLWRIDQ 1zh1-a1-m1-cA_1zh1-a1-m1-cB Structure of the zinc-binding domain of HCV NS5A Q9WMX2 Q9WMX2 2.5 X-RAY DIFFRACTION 50 1.0 11103 () 11103 () 163 163 FFSCQRGYKGVWRGDGIMQTTCPCGAQITGHVKNGSMRIVGPRTCSNTWHGTFPINAYTTGPCTPSPAPNYSRALWRVAAEEYVEVTRVGDFHYVTGMTTDNVKCPCQVPAPEFFTEVDGVRLHRYAPACKPLLREEVTFLVGLNQYLVGSQLPCEPEPDVAV FFSCQRGYKGVWRGDGIMQTTCPCGAQITGHVKNGSMRIVGPRTCSNTWHGTFPINAYTTGPCTPSPAPNYSRALWRVAAEEYVEVTRVGDFHYVTGMTTDNVKCPCQVPAPEFFTEVDGVRLHRYAPACKPLLREEVTFLVGLNQYLVGSQLPCEPEPDVAV 1zh8-a1-m1-cB_1zh8-a1-m1-cA Crystal structure of Oxidoreductase (TM0312) from Thermotoga maritima at 2.50 A resolution Q9WYE8 Q9WYE8 2.5 X-RAY DIFFRACTION 90 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 318 319 RKIRLGIVGCGIAARELHLPALKNLSHLFEITAVTSRTRSHAEEFAKVGNPAVFDSYEELLESGLVDAVDLTLPVELNLPFIEKALRKGVHVICEKPISTDVETGKKVVELSEKSEKTVYIAENFRHVPAFWKAKELVESGAIGDPVFNWQIWVGDENNKYVHTDWRKKPKHVGGFLSDGGVHHAAARLILGEIEWISAVAKDLSPLLGGDFLSSIFEFENGTVGNYTISYSLKGNERFEITGTKGKISISWDKIVLNEEEKVPQENSYQKEFEDFYQVVAEGKPNDLGSPVQALKDLAFIEACVRSAGNKVFVSSLL LRKIRLGIVGCGIAARELHLPALKNLSHLFEITAVTSRTRSHAEEFAKVGNPAVFDSYEELLESGLVDAVDLTLPVELNLPFIEKALRKGVHVICEKPISTDVETGKKVVELSEKSEKTVYIAENFRHVPAFWKAKELVESGAIGDPVFNWQIWVGDENNKYVHTDWRKKPKHVGGFLSDGGVHHAAARLILGEIEWISAVAKDLSPLLGGDFLSSIFEFENGTVGNYTISYSLKGNERFEITGTKGKISISWDKIVLNEEEKVPQENSYQKEFEDFYQVVAEGKPNDLGSPVQALKDLAFIEACVRSAGNKVFVSSLL 1zhs-a4-m1-cG_1zhs-a4-m1-cH Crystal structure of MVL bound to Man3GlcNAc2 Q9RHG4 Q9RHG4 1.8 X-RAY DIFFRACTION 137 1.0 44822 (Microcystis viridis) 44822 (Microcystis viridis) 113 113 1zhq-a1-m1-cA_1zhq-a1-m1-cB 1zhq-a2-m1-cC_1zhq-a2-m1-cD 1zhq-a3-m1-cE_1zhq-a3-m1-cF 1zhq-a4-m1-cG_1zhq-a4-m1-cH 1zhs-a1-m1-cA_1zhs-a1-m1-cB 1zhs-a2-m1-cC_1zhs-a2-m1-cD 1zhs-a3-m1-cE_1zhs-a3-m1-cF ASYKVNIPAGPLWSNAEAQQVGPKIAAAHQGNFTGQWTTVVESAMSVVEVELQVENTGIHEFKTDVLAGPLWSNDEAQKLGPQIAASYGAEFTGQWRTIVEGVMSVIQIKYTF ASYKVNIPAGPLWSNAEAQQVGPKIAAAHQGNFTGQWTTVVESAMSVVEVELQVENTGIHEFKTDVLAGPLWSNDEAQKLGPQIAASYGAEFTGQWRTIVEGVMSVIQIKYTF 1zhv-a2-m1-cA_1zhv-a2-m2-cA X-ray Crystal Structure Protein Atu0741 from Agobacterium tumefaciens. Northeast Structural Genomics Consortium Target AtR8. A9CJY8 A9CJY8 1.5 X-RAY DIFFRACTION 134 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 134 134 APRIKLKILNGSYGIARLSASEAIPAWADGGGFVSITRTDDELSIVCLIDRIPQDVRVDPGWSCFKFQGPFAFDETGIVLSVISPLSTNGIGIFVVSTFDGDHLLVRSNDLEKTADLLANAGHSLLLEHHHHHH APRIKLKILNGSYGIARLSASEAIPAWADGGGFVSITRTDDELSIVCLIDRIPQDVRVDPGWSCFKFQGPFAFDETGIVLSVISPLSTNGIGIFVVSTFDGDHLLVRSNDLEKTADLLANAGHSLLLEHHHHHH 1zi7-a5-m1-cB_1zi7-a5-m1-cA Structure of truncated yeast oxysterol binding protein Osh4 P35844 P35844 2.5 X-RAY DIFFRACTION 65 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 398 402 1zi7-a4-m1-cB_1zi7-a4-m1-cA LSPISLTEFSQYWAEHPELFLEPSFINDDNYKEHCLIDPEVESPELARMLAVTKWFISTLKSQYCSRNESLGSEKKPLNPFLGELFVGKWENKEHPEFGETVLLSEQVSHHPPVTAFSIFNDKNKVKLQGYNQIKASFTKSLMLTVKQFGHTMLDIKDESYLVTPPPLHIEGILVASPFVELEGKSYIQSSTGLLCVIEFSGVDGKKNSFKARIYKDSKDSKDKEKALYTISGQWSGSSKIIKANKKEESRLFYDAARIPAEHLNVKPLEEQHPLESRKAWYDVAGAIKLGDFNLIAKTKTELEETQRELRKEEEAKGISWQRRWFKDFDYSVTPEEGALVPEKDDTFLKLASALNLSTKNAPSGTLVGDKEDRKEDLSSIHWRFQRELWDEEKEIVL PPFILSPISLTEFSQYWAEHPELFLEPSFINDDNYKEHCLIDPEVESPELARMLAVTKWFISTLKSQYCSRNESLGSEKKPLNPFLGELFVGKWENKEHPEFGETVLLSEQVSHHPPVTAFSIFNDKNKVKLQGYNQIKASFTKSLMLTVKQFGHTMLDIKDESYLVTPPPLHIEGILVASPFVELEGKSYIQSSTGLLCVIEFSGVDGKKNSFKARIYKDSKDSKDKEKALYTISGQWSGSSKIIKANKKEESRLFYDAARIPAEHLNVKPLEEQHPLESRKAWYDVAGAIKLGDFNLIAKTKTELEETQRELRKEEEAKGISWQRRWFKDFDYSVTPEEGALVPEKDDTFLKLASALNLSTKNAPSGTLVGDKEDRKEDLSSIHWRFQRELWDEEKEIVL 1zi7-a6-m2-cC_1zi7-a6-m1-cA Structure of truncated yeast oxysterol binding protein Osh4 P35844 P35844 2.5 X-RAY DIFFRACTION 57 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 398 402 1zi7-a4-m2-cC_1zi7-a4-m1-cA LSPISLTEFSQYWAEHPELFLEPSFINDDNYKEHCLIDPEVESPELARMLAVTKWFISTLKSQYCSRNESLGSEKKPLNPFLGELFVGKWENKEHPEFGETVLLSEQVSHHPPVTAFSIFNDKNKVKLQGYNQIKASFTKSLMLTVKQFGHTMLDIKDESYLVTPPPLHIEGILVASPFVELEGKSYIQSSTGLLCVIEFSGVDGKKNSFKARIYKDSKDSKDKEKALYTISGQWSGSSKIIKANKKEESRLFYDAARIPAEHLNVKPLEEQHPLESRKAWYDVAGAIKLGDFNLIAKTKTELEETQRELRKEEEAKGISWQRRWFKDFDYSVTPEEGALVPEKDDTFLKLASALNLSTKNAPSGTLVGDKEDRKEDLSSIHWRFQRELWDEEKEIVL PPFILSPISLTEFSQYWAEHPELFLEPSFINDDNYKEHCLIDPEVESPELARMLAVTKWFISTLKSQYCSRNESLGSEKKPLNPFLGELFVGKWENKEHPEFGETVLLSEQVSHHPPVTAFSIFNDKNKVKLQGYNQIKASFTKSLMLTVKQFGHTMLDIKDESYLVTPPPLHIEGILVASPFVELEGKSYIQSSTGLLCVIEFSGVDGKKNSFKARIYKDSKDSKDKEKALYTISGQWSGSSKIIKANKKEESRLFYDAARIPAEHLNVKPLEEQHPLESRKAWYDVAGAIKLGDFNLIAKTKTELEETQRELRKEEEAKGISWQRRWFKDFDYSVTPEEGALVPEKDDTFLKLASALNLSTKNAPSGTLVGDKEDRKEDLSSIHWRFQRELWDEEKEIVL 1zj6-a2-m1-cA_1zj6-a2-m2-cA Crystal structure of human ARL5 Q9Y689 Q9Y689 2 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 GILFTRIWRLFNHQEHKVIIVGLDNAGKTTILYQFSMNEVVHTSPTIGSNVEEIVINNTRFLMWDIGGRSSWNTYYTNTEFVIVVVDSTDRERISVTREELYKMLAHEDLRKAGLLIFANKQDVKECMTVAEISQFLKLTSIKDHQWHIQACCALTGEGLCQGLEWMMSRLKI GILFTRIWRLFNHQEHKVIIVGLDNAGKTTILYQFSMNEVVHTSPTIGSNVEEIVINNTRFLMWDIGGRSSWNTYYTNTEFVIVVVDSTDRERISVTREELYKMLAHEDLRKAGLLIFANKQDVKECMTVAEISQFLKLTSIKDHQWHIQACCALTGEGLCQGLEWMMSRLKI 1zj6-a3-m1-cA_1zj6-a3-m3-cA Crystal structure of human ARL5 Q9Y689 Q9Y689 2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 GILFTRIWRLFNHQEHKVIIVGLDNAGKTTILYQFSMNEVVHTSPTIGSNVEEIVINNTRFLMWDIGGRSSWNTYYTNTEFVIVVVDSTDRERISVTREELYKMLAHEDLRKAGLLIFANKQDVKECMTVAEISQFLKLTSIKDHQWHIQACCALTGEGLCQGLEWMMSRLKI GILFTRIWRLFNHQEHKVIIVGLDNAGKTTILYQFSMNEVVHTSPTIGSNVEEIVINNTRFLMWDIGGRSSWNTYYTNTEFVIVVVDSTDRERISVTREELYKMLAHEDLRKAGLLIFANKQDVKECMTVAEISQFLKLTSIKDHQWHIQACCALTGEGLCQGLEWMMSRLKI 1zjc-a1-m1-cA_1zjc-a1-m2-cA Aminopeptidase S from S. aureus A0A0H3K3S3 A0A0H3K3S3 1.8 X-RAY DIFFRACTION 76 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 413 413 NYKEKLQQYAELLVKVGMNVQPKQPVFIRSSVETLELTHLIVEEAYHCGASDVRVVYSDPTLKRLKFENESVEHFANHEIKSYDVEARMDYVKRGAANLALISEDPDLMDGIDSQKLQAFQQQNARAFKGYMESVQKNQFPWVVAAFPSKAWAKRVYPELSVEEAYIKFIDEVFDIVRIDGNDPVENWRQHIANLSVYAQKLQQKNYHALHYVSEGTDLTVGLAKNHIWEDATSYVNGKEQAFIANIPTEEVFTAPDRNRVDGYVTNKLPLSYNGTIIDQFKLMFKDGEIIDFSAEKGEAVLKDLINTDEGSRRLGEVALVPDDSPISNRNTIFYNTLFDENAACHLAIGSAYAFNIQGGTEMTVEEKIASGLNDSNVHVDFMIGSSDLTIYGIFEDGSKELVFENGNWASTF NYKEKLQQYAELLVKVGMNVQPKQPVFIRSSVETLELTHLIVEEAYHCGASDVRVVYSDPTLKRLKFENESVEHFANHEIKSYDVEARMDYVKRGAANLALISEDPDLMDGIDSQKLQAFQQQNARAFKGYMESVQKNQFPWVVAAFPSKAWAKRVYPELSVEEAYIKFIDEVFDIVRIDGNDPVENWRQHIANLSVYAQKLQQKNYHALHYVSEGTDLTVGLAKNHIWEDATSYVNGKEQAFIANIPTEEVFTAPDRNRVDGYVTNKLPLSYNGTIIDQFKLMFKDGEIIDFSAEKGEAVLKDLINTDEGSRRLGEVALVPDDSPISNRNTIFYNTLFDENAACHLAIGSAYAFNIQGGTEMTVEEKIASGLNDSNVHVDFMIGSSDLTIYGIFEDGSKELVFENGNWASTF 1zjj-a1-m1-cA_1zjj-a1-m1-cB Crystal structure of hypothetical protein PH1952 from Pyrococcus horikoshii OT3 O59622 O59622 1.85 X-RAY DIFFRACTION 97 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 261 263 MVAIIFDMDGVLYRGNRAIPGVRELIEFLKERGIPFAFLTNNSTKTPEMYREKLLKMGIDVSSSIIITSGLATRLYMSKHLDPGKIFVIGGEGLVKEMQALGWGIVTLDEARQGSWKEVKHVVVGLDPDLTYEKLKYATLAIRNGATFIGTNPDATLPGEEGIYPGAGSIIAALKVATNVEPIIIGKPNEPMYEVVREMFPGEELWMVGDRLDTDIAFAKKFGMKAIMVLTGVSSLEDIKKSEYKPDLVLPSVYELIDYLK MVAIIFDMDGVLYRGNRAIPGVRELIEFLKERGIPFAFLTNNSTKTPEMYREKLLKMGIDVSSSIIITSGLATRLYMSKHLDPGKIFVIGGEGLVKEMQALGWGIVTLDEARQGSWKEVKHVVVGLDPDLTYEKLKYATLAIRNGATFIGTNPDATLPGEEGIYPGAGSIIAALKVATNVEPIIIGKPNEPMYEVVREMFPGEELWMVGDRLDTDIAFAKKFGMKAIMVLTGVSSLEDIKKSEYKPDLVLPSVYELIDYLKTL 1zjr-a2-m1-cA_1zjr-a2-m2-cA Crystal Structure of A. aeolicus TrmH/SpoU tRNA modifying enzyme O67577 O67577 1.85 X-RAY DIFFRACTION 113 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 197 197 LVLEKRLKRLREVLEKRQKDLIVFADNVKNEHNFSAIVRTCDAVGVLYLYYYHAEGKKAKINEGITQGSHKWVFIEKVDNPVQKLLEFKNRGFQIVATWLSKESVNFREVDYTKPTVLVVGNELQGVSPEIVEIADKKIVIPMYGMAQSLNVSVATGIILYEAQRQREEKGMYSRPSLSEEEIQKILKKWAYEDVIK LVLEKRLKRLREVLEKRQKDLIVFADNVKNEHNFSAIVRTCDAVGVLYLYYYHAEGKKAKINEGITQGSHKWVFIEKVDNPVQKLLEFKNRGFQIVATWLSKESVNFREVDYTKPTVLVVGNELQGVSPEIVEIADKKIVIPMYGMAQSLNVSVATGIILYEAQRQREEKGMYSRPSLSEEEIQKILKKWAYEDVIK 1zk8-a1-m1-cB_1zk8-a1-m1-cA Crystal structure of transcriptional regulator from Bacillus cereus ATCC 14579 Q815X4 Q815X4 2.15 X-RAY DIFFRACTION 106 0.994 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 175 176 LTLQKIVETAAEIADANGVQEVTLASLAQTLGVRSPSLYNHVKGLQDVRKNLGIYGIKKLHNRLEEAAEDKRDEAIHALGEAYVAFVRKHPGLYEATFLRDEEVRKAGDGIVKLCLQVLQQYGLEGENALHATRGFRSICHGFASIEQQGGFGLPLDLDISLHVLLETFIKGLRE IGLTLQKIVETAAEIADANGVQEVTLASLAQTLGVRSPSLYNHVKGLQDVRKNLGIYGIKKLHNRLEEAAEDKRDEAIHALGEAYVAFVRKHPGLYEATFLRDEEVRKAGDGIVKLCLQVLQQYGLEGENALHATRGFRSICHGFASIEQQGGFGLPLDLDISLHVLLETFIKGLR 1zkd-a1-m1-cB_1zkd-a1-m1-cA X-Ray structure of the putative protein Q6N1P6 from Rhodopseudomonas palustris at the resolution 2.1 A , Northeast Structural Genomics Consortium target RpR58 Q6N1P6 Q6N1P6 2.1 X-RAY DIFFRACTION 55 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 348 349 IDQTALATEIKRLIKAAGPPVWRYELCLGHPEHGYYVTFTTSPEISQFGELLGLWSASVWKAADEPQTLRLIEIGPGRGTADALRALRVLPILYQSLSVHLVEINPVLRQKQQTLLAGIRNIHWHDSFEDVPEGPAVILANEYFDVLPIHQAIKRETGWHERVIEIGASGELVFGVAADPIPGFEALLPPLARLSPPGAVFEWRPDTEILKIASRVRDQGGAALIIDYGHLRSDVGDTFQAIASHSYADPLQHPGRADLTAHVDFDALGRAAESIGARAHGPVTQGAFLKRLGIETRALSLAKATPQVSEDIAGALQRLTGEGRGAGSFKVIGVSDPKIETLVALSDD IDQTALATEIKRLIKAAGPPVWRYELCLGHPEHGYYVTRFTTSPEISQFGELLGLWSASVWKAADEPQTLRLIEIGPGRGTADALRALRVLPILYQSLSVHLVEINPVLRQKQQTLLAGIRNIHWHDSFEDVPEGPAVILANEYFDVLPIHQAIKRETGWHERVIEIGASGELVFGVAADPIPGFEALLPPLARLSPPGAVFEWRPDTEILKIASRVRDQGGAALIIDYGHLRSDVGDTFQAIASHSYADPLQHPGRADLTAHVDFDALGRAAESIGARAHGPVTQGAFLKRLGIETRALSLAKATPQVSEDIAGALQRLTGEGRGAGSFKVIGVSDPKIETLVALSDD 1zke-a4-m1-cC_1zke-a4-m3-cD 1.6 A Crystal Structure of a Protein HP1531 of Unknown Function from Helicobacter pylori P64665 P64665 1.6 X-RAY DIFFRACTION 20 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 81 83 1zke-a4-m1-cA_1zke-a4-m2-cF 1zke-a4-m2-cB_1zke-a4-m3-cE MFEKIRKILADIEDSQNEIEMLLKLANLSLGDFIEIKRGSMDMPKGVNEAFFTQLSEEVERLKELINALNKIKKGLLVFGS GHMFEKIRKILADIEDSQNEIEMLLKLANLSLGDFIEIKRGSMDMPKGVNEAFFTQLSEEVERLKELINALNKIKKGLLVFGS 1zke-a4-m2-cB_1zke-a4-m2-cF 1.6 A Crystal Structure of a Protein HP1531 of Unknown Function from Helicobacter pylori P64665 P64665 1.6 X-RAY DIFFRACTION 65 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 82 83 1zke-a1-m1-cA_1zke-a1-m1-cC 1zke-a2-m1-cB_1zke-a2-m1-cF 1zke-a3-m1-cE_1zke-a3-m1-cD 1zke-a4-m1-cA_1zke-a4-m1-cC 1zke-a4-m3-cE_1zke-a4-m3-cD HMFEKIRKILADIEDSQNEIEMLLKLANLSLGDFIEIKRGSMDMPKGVNEAFFTQLSEEVERLKELINALNKIKKGLLVFGS GHMFEKIRKILADIEDSQNEIEMLLKLANLSLGDFIEIKRGSMDMPKGVNEAFFTQLSEEVERLKELINALNKIKKGLLVFGS 1zki-a1-m1-cA_1zki-a1-m1-cB Structure of conserved protein PA5202 from Pseudomonas aeruginosa Q9HTY7 Q9HTY7 1.7 X-RAY DIFFRACTION 40 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 120 120 PAREQISAYSELVGLDPVSLGDGVAEVRLPAAHLRNRGGVHGGALFSLDVTGLACSSSHGFDRQSVTLECKINYIRAVADGEVRCVARVLHAGRRSLVVEAEVRQGDKLVAKGQGTFAQL PAREQISAYSELVGLDPVSLGDGVAEVRLPAAHLRNRGGVHGGALFSLDVTGLACSSSHGFDRQSVTLECKINYIRAVADGEVRCVARVLHAGRRSLVVEAEVRQGDKLVAKGQGTFAQL 1zkk-a1-m1-cA_1zkk-a1-m1-cB Crystal structure of hSET8 in ternary complex with H4 peptide (16-24) and AdoHcy Q9NQR1 Q9NQR1 1.45 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 161 1zkk-a1-m1-cA_1zkk-a1-m1-cC 1zkk-a1-m1-cC_1zkk-a1-m1-cD KSKAELQSEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKCGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDRSKASIEAHPWLKH RKSKAELQSEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKCGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDRSKASIEAHPWLKH 1zko-a3-m1-cA_1zko-a3-m2-cB Crystal structure of Glycine cleavage system H protein (tm0212) from Thermotoga maritima at 1.65 A resolution Q9WY55 Q9WY55 1.65 X-RAY DIFFRACTION 35 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 126 126 HHHHHLKKKYTKTHEWVSIEDKVATVGITNHAQEQLGDVVYVDLPEVGREVKKGEVVASIESVKAAADVYAPLSGKIVEVNEKLDTEPELINKDPEGEGWLFKEISDEGELEDLLDEQAYQEFCAQ HHHHHLKKKYTKTHEWVSIEDKVATVGITNHAQEQLGDVVYVDLPEVGREVKKGEVVASIESVKAAADVYAPLSGKIVEVNEKLDTEPELINKDPEGEGWLFKEISDEGELEDLLDEQAYQEFCAQ 1zkp-a2-m1-cB_1zkp-a2-m1-cD 1.5A Resolution Crystal Structure of a Metallo Beta Lactamase Family Protein, the ELAC Homolgue of Bacillus anthracis, a Putative Ribonuclease A0A6L8PRK4 A0A6L8PRK4 1.502 X-RAY DIFFRACTION 115 0.996 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 246 246 1zkp-a1-m1-cC_1zkp-a1-m1-cA NLYFQSAKTVVGFWGGFPEAGEATSGYLFEHDGFRLLVDCGSGVLAQLQKYITPSDIDAVVLSHYHHDHVADIGVLQYARLITSATKGQLPELPIYGHTFDENGFHSLTHEPHTKGIPYNPEETLQIGPFSISFLKTVHPVTCFARITAGNDIVVYSADSSYIPEFIPFTKDADLFICECNYAHQEAAKAGHNSTEVASIAKDANVKELLLTHLPHTGNPADLVTEAKQIFSGHITLAHSGYVWNS LYFQSNAKTVVGFWGGFPEAGEATSGYLFEHDGFRLLVDCGSGVLAQLQKYITPSDIDAVVLSHYHHDHVADIGVLQYARLITSATKGQLPELPIYGHTFDENGFHSLTHEPHTKGIPYNPEETLQIGPFSISFLKTVHPVTCFARITAGNDIVVYSADSSYIPEFIPFTKDADLFICECNYAHQEAAKAGHNSTEVASIAKDANVKELLLTHLPHTGNPADLVTEAKQIFSGHITLAHSGYVWNS 1zkr-a1-m1-cB_1zkr-a1-m1-cA Crystal structure of the major cat allergen Fel d 1 (1+2) P30440 P30440 1.64 X-RAY DIFFRACTION 27 1.0 9685 (Felis catus) 9685 (Felis catus) 145 146 MEICPAVKRDVDLFLTGTPDEYVEQVAQYKALPVVLENARILKNCVDAKMTEEDKENALSLLDKIYTSPLCVKMAETCPIFYDVFFAVANGNELLLDLSLTKVNATEPERTAMKKIQDCYVENGLISRVLDGLVMTTISSSKDCM MEICPAVKRDVDLFLTGTPDEYVEQVAQYKALPVVLENARILKNCVDAKMTEEDKENALSLLDKIYTSPLCVKMAETCPIFYDVFFAVANGNELLLDLSLTKVNATEPERTAMKKIQDCYVENGLISRVLDGLVMTTISSSKDCMG 1zkx-a2-m1-cA_1zkx-a2-m2-cA Crystal structure of Glu158Ala/Thr159Ala/Asn160Ala- a triple mutant of Clostridium botulinum neurotoxin E catalytic domain Q00496 Q00496 2.52 X-RAY DIFFRACTION 46 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 400 400 1zl5-a2-m1-cA_1zl5-a2-m2-cA PKINSFNYNDPVNDRTILYIKPGGCQEFYKSFNIMKNIWIIPERNVIGTTPQDFHPPTSLKNGDSSYYDPNYLQSDEEKDRFLKIVTKIFNRINNNLSGGILLEELSKANPYLGNDNTPDNQFHIGDASAVEIKFSNGSQDILLPNVIIMGAEPDLFAAASSNISLRNNYMPSNHGFGSIAIVTFSPEYSFRFNDNSMNEFIQDPALTLMHELIHSLHGLYGAKGITTKYTITGTNIEEFLTFGGTDLNIITSAQSNDIYTNLLADYKKIASKLSKVQVSNPLLNPYKDVFEAKYGLDKDASGIYSVNINKFNDIFKKLYSFTEFDLATKFQVKCRQTYIGQYKYFKLSNLLNDSIYNISEGYNINNLKVNFRGQNANLNPRIITPITGRGLVKKIIRFC PKINSFNYNDPVNDRTILYIKPGGCQEFYKSFNIMKNIWIIPERNVIGTTPQDFHPPTSLKNGDSSYYDPNYLQSDEEKDRFLKIVTKIFNRINNNLSGGILLEELSKANPYLGNDNTPDNQFHIGDASAVEIKFSNGSQDILLPNVIIMGAEPDLFAAASSNISLRNNYMPSNHGFGSIAIVTFSPEYSFRFNDNSMNEFIQDPALTLMHELIHSLHGLYGAKGITTKYTITGTNIEEFLTFGGTDLNIITSAQSNDIYTNLLADYKKIASKLSKVQVSNPLLNPYKDVFEAKYGLDKDASGIYSVNINKFNDIFKKLYSFTEFDLATKFQVKCRQTYIGQYKYFKLSNLLNDSIYNISEGYNINNLKVNFRGQNANLNPRIITPITGRGLVKKIIRFC 1zl9-a1-m1-cA_1zl9-a1-m1-cB Crystal Structure of a major nematode C.elegans specific GST (CE01613) Q09596 Q09596 2.01 X-RAY DIFFRACTION 75 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 207 207 MVSYKLTYFNGRGAGEVSRQIFAYAGQQYEDNRVTQEQWPALKETCAAPFGQLPFLEVDGKKLAQSHAIARFLAREFKLNGKTAWEEAQVNSLADQYKDYSSEARPYFYAVMGFGPGDVETLKKDIFLPAFEKFYGFLVNFLKASGSGFLVGDSLTWIDLAIAQHSADLIAKGGDFSKFPELKAHAEKIQAIPQIKKWIETRPVTPF MVSYKLTYFNGRGAGEVSRQIFAYAGQQYEDNRVTQEQWPALKETCAAPFGQLPFLEVDGKKLAQSHAIARFLAREFKLNGKTAWEEAQVNSLADQYKDYSSEARPYFYAVMGFGPGDVETLKKDIFLPAFEKFYGFLVNFLKASGSGFLVGDSLTWIDLAIAQHSADLIAKGGDFSKFPELKAHAEKIQAIPQIKKWIETRPVTPF 1zlj-a4-m1-cH_1zlj-a4-m1-cG Crystal Structure of the Mycobacterium tuberculosis Hypoxic Response Regulator DosR C-terminal Domain R4MI41 R4MI41 2 X-RAY DIFFRACTION 34 0.984 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 64 67 1zlj-a2-m1-cD_1zlj-a2-m1-cC 1zlk-a1-m1-cA_1zlk-a1-m1-cB QDPLSGLTDQERTLLGLLSEGLTNKQIADRFLAEKTVKNYVSRLLAKLGERRTQAAVFATELKR DPLSGLTDQERTLLGLLSEGLTNKQIADRFLAEKTVKNYVSRLLAKLGERRTQAAVFATELKRSRPP 1zlp-a1-m1-cA_1zlp-a1-m2-cB Petal death protein PSR132 with cysteine-linked glutaraldehyde forming a thiohemiacetal adduct Q05957 Q05957 2.7 X-RAY DIFFRACTION 35 1.0 3570 (Dianthus caryophyllus) 3570 (Dianthus caryophyllus) 284 285 1zlp-a1-m2-cA_1zlp-a1-m1-cB KTTMHRLIEEHGSVLMPGVQDALSAAVVEKTGFHAAFVSGYSVSAAMLGLPDFGLLTTTEVVEATRRITAAAPNLCVVVDGDTGGGGPLNVQRFIRELISAGAKGVFLEDQVWPKKCGHMRGKAVVPAEEHALKIAAAREAIGDSDFFLVARTDARAPHGLEEGIRRANLYKEAGADATFVEAPANVDELKEVSAKTKGLRIANMIEGGKTPLHTPEEFKEMGFHLIAHSLTAVYATARALVNIMKILKEKGTTRDDLDQMATFSEFNELISLESWYEMESKFK KTTMHRLIEEHGSVLMPGVQDALSAAVVEKTGFHAAFVSGYSVSAAMLGLPDFGLLTTTEVVEATRRITAAAPNLCVVVDGDTGGGGPLNVQRFIRELISAGAKGVFLEDQVWPKKCGHMRGKAVVPAEEHALKIAAAREAIGDSDFFLVARTDARAPHGLEEGIRRANLYKEAGADATFVEAPANVDELKEVSAKTKGLRIANMIEGGKTPLHTPEEFKEMGFHLIAHSLTAVYATARALVNIMKILKEKGTTRDDLDQMATFSEFNELISLESWYEMESKFKN 1zlp-a1-m1-cB_1zlp-a1-m2-cB Petal death protein PSR132 with cysteine-linked glutaraldehyde forming a thiohemiacetal adduct Q05957 Q05957 2.7 X-RAY DIFFRACTION 229 1.0 3570 (Dianthus caryophyllus) 3570 (Dianthus caryophyllus) 285 285 1zlp-a1-m1-cA_1zlp-a1-m2-cA KTTMHRLIEEHGSVLMPGVQDALSAAVVEKTGFHAAFVSGYSVSAAMLGLPDFGLLTTTEVVEATRRITAAAPNLCVVVDGDTGGGGPLNVQRFIRELISAGAKGVFLEDQVWPKKCGHMRGKAVVPAEEHALKIAAAREAIGDSDFFLVARTDARAPHGLEEGIRRANLYKEAGADATFVEAPANVDELKEVSAKTKGLRIANMIEGGKTPLHTPEEFKEMGFHLIAHSLTAVYATARALVNIMKILKEKGTTRDDLDQMATFSEFNELISLESWYEMESKFKN KTTMHRLIEEHGSVLMPGVQDALSAAVVEKTGFHAAFVSGYSVSAAMLGLPDFGLLTTTEVVEATRRITAAAPNLCVVVDGDTGGGGPLNVQRFIRELISAGAKGVFLEDQVWPKKCGHMRGKAVVPAEEHALKIAAAREAIGDSDFFLVARTDARAPHGLEEGIRRANLYKEAGADATFVEAPANVDELKEVSAKTKGLRIANMIEGGKTPLHTPEEFKEMGFHLIAHSLTAVYATARALVNIMKILKEKGTTRDDLDQMATFSEFNELISLESWYEMESKFKN 1zlp-a1-m2-cA_1zlp-a1-m2-cB Petal death protein PSR132 with cysteine-linked glutaraldehyde forming a thiohemiacetal adduct Q05957 Q05957 2.7 X-RAY DIFFRACTION 37 1.0 3570 (Dianthus caryophyllus) 3570 (Dianthus caryophyllus) 284 285 1zlp-a1-m1-cA_1zlp-a1-m1-cB KTTMHRLIEEHGSVLMPGVQDALSAAVVEKTGFHAAFVSGYSVSAAMLGLPDFGLLTTTEVVEATRRITAAAPNLCVVVDGDTGGGGPLNVQRFIRELISAGAKGVFLEDQVWPKKCGHMRGKAVVPAEEHALKIAAAREAIGDSDFFLVARTDARAPHGLEEGIRRANLYKEAGADATFVEAPANVDELKEVSAKTKGLRIANMIEGGKTPLHTPEEFKEMGFHLIAHSLTAVYATARALVNIMKILKEKGTTRDDLDQMATFSEFNELISLESWYEMESKFK KTTMHRLIEEHGSVLMPGVQDALSAAVVEKTGFHAAFVSGYSVSAAMLGLPDFGLLTTTEVVEATRRITAAAPNLCVVVDGDTGGGGPLNVQRFIRELISAGAKGVFLEDQVWPKKCGHMRGKAVVPAEEHALKIAAAREAIGDSDFFLVARTDARAPHGLEEGIRRANLYKEAGADATFVEAPANVDELKEVSAKTKGLRIANMIEGGKTPLHTPEEFKEMGFHLIAHSLTAVYATARALVNIMKILKEKGTTRDDLDQMATFSEFNELISLESWYEMESKFKN 1zm0-a3-m1-cA_1zm0-a3-m2-cA Crystal Structure of the Carboxyl Terminal PH Domain of Pleckstrin To 2.1 Angstroms P08567 P08567 2.1 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 GVIIKQGCLLKQGHRRKNWKVRKFILREDPAYLHYYDPAGAEDPLGAIHLRGCVVTSVEEENLFEIITADEVHYFLQAATPKERTEWIKAIQMASR GVIIKQGCLLKQGHRRKNWKVRKFILREDPAYLHYYDPAGAEDPLGAIHLRGCVVTSVEEENLFEIITADEVHYFLQAATPKERTEWIKAIQMASR 1zm1-a1-m1-cB_1zm1-a1-m1-cA Crystal structures of complex F. succinogenes 1,3-1,4-beta-D-glucanase and beta-1,3-1,4-cellotriose P17989 P17989 2.3 X-RAY DIFFRACTION 38 1.0 833 (Fibrobacter succinogenes) 833 (Fibrobacter succinogenes) 229 237 AKDFSGAELYTLEEVQYGKFEARKAAASGTVSSFLYQNGSEIADGRPWVEVDIEVLGKNPGSFQSNIITGKAGAQKTSEKHHAVSPAADQAFHTYGLEWTPNYVRWTVDGQEVRKTEGGQVSNLTGTQGLRFNLWSSESAAWVGQFDESKLPLFQFINWVKVYKYTPGQGEGGSDFTLDWTDNFDTFDGSRWGKGDWTFDGNRVDLTDKNIYSRDGLILALTRKGQESF AKDFSGAELYTLEEVQYGKFEARKAAASGTVSSFLYQNGSEIADGRPWVEVDIEVLGKNPGSFQSNIITGKAGAQKTSEKHHAVSPAADQAFHTYGLEWTPNYVRWTVDGQEVRKTEGGQVSNLTGTQGLRFNLWSSESAAWVGQFDESKLPLFQFINWVKVYKYTPGQGEGGSDFTLDWTDNFDTFDGSRWGKGDWTFDGNRVDLTDKNIYSRDGLILALTRKGQESFNGQVPRDD 1zmb-a3-m1-cE_1zmb-a3-m1-cF Crystal Structure of the Putative Acetylxylan Esterase from Clostridium acetobutylicum, Northeast Structural Genomics Target CaR6 Q97LM8 Q97LM8 2.61 X-RAY DIFFRACTION 84 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 274 274 1zmb-a1-m1-cA_1zmb-a1-m1-cB 1zmb-a2-m1-cC_1zmb-a2-m1-cD VKSFLLGQSNAGRGFINEVPIYNERIQLRNGRWQTEPINYDRPVSGISLAGSFADAWSQKNQEDIIGLIPCAEGGSSIDEWALDGVLFRHALTEAKFAESSELTGILWHQGESDSLNGNYKVYYKKLLLIIEALRKELNVPDIPIIIGGLGDFLGKERFGKGCTEYNFINKELQKFAFEQDNCYFVTASGLTCNPDGIHIDAISQRKFGLRYFEAFFNRKHVLEPLINENELLNLNYARTHTKAEKIYIKSDFALGKISYDEFTSELKINNDLE VKSFLLGQSNAGRGFINEVPIYNERIQLRNGRWQTEPINYDRPVSGISLAGSFADAWSQKNQEDIIGLIPCAEGGSSIDEWALDGVLFRHALTEAKFAESSELTGILWHQGESDSLNGNYKVYYKKLLLIIEALRKELNVPDIPIIIGGLGDFLGKERFGKGCTEYNFINKELQKFAFEQDNCYFVTASGLTCNPDGIHIDAISQRKFGLRYFEAFFNRKHVLEPLINENELLNLNYARTHTKAEKIYIKSDFALGKISYDEFTSELKINNDLE 1zme-a1-m1-cC_1zme-a1-m1-cD CRYSTAL STRUCTURE OF PUT3/DNA COMPLEX P25502 P25502 2.5 X-RAY DIFFRACTION 66 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 70 70 SVACLSCRKRHIKCPGGNPCQKCVTSNAICEYLEPSKKIVVSTKYLQQLQKDLNDKTEENNRLKALLLER SVACLSCRKRHIKCPGGNPCQKCVTSNAICEYLEPSKKIVVSTKYLQQLQKDLNDKTEENNRLKALLLER 1zmh-a4-m1-cC_1zmh-a4-m3-cC Crystal structure of human neutrophil peptide 2, HNP-2 (variant Gly16-> D-Ala) P59666 P59666 1.5 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 CYCRIPACIAGERRYTCIYQGRLWAFCC CYCRIPACIAGERRYTCIYQGRLWAFCC 1zmi-a4-m1-cB_1zmi-a4-m4-cC Crystal structure of human alpha_defensin-2 (variant GLY16->D-ALA), P 32 2 1 space group ) P59666 P59666 1.15 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 1zmi-a3-m1-cB_1zmi-a3-m4-cC 1zmi-a3-m2-cB_1zmi-a3-m3-cC CYCRIPACIAGERRYTCIYQGRLWAFCC CYCRIPACIAGERRYTCIYQGRLWAFCC 1zmk-a2-m3-cA_1zmk-a2-m4-cA Crystal structure of human alpha-defensin-2 (variant Gly16-> D-ALA), P 42 21 2 space group P59666 P59666 1.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 1dfn-a2-m1-cA_1dfn-a2-m2-cA 1zmk-a2-m1-cA_1zmk-a2-m2-cA 3gny-a1-m1-cA_3gny-a1-m2-cA 4lb1-a1-m1-cA_4lb1-a1-m1-cD 4lb1-a1-m1-cB_4lb1-a1-m1-cE CYCRIPACIAGERRYTCIYQGRLWAFCC CYCRIPACIAGERRYTCIYQGRLWAFCC 1zmk-a2-m3-cB_1zmk-a2-m4-cB Crystal structure of human alpha-defensin-2 (variant Gly16-> D-ALA), P 42 21 2 space group P59666 P59666 1.3 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 1zmh-a4-m1-cD_1zmh-a4-m3-cD 1zmk-a2-m1-cB_1zmk-a2-m2-cB 3h6c-a1-m1-cB_3h6c-a1-m2-cB 3h6c-a1-m3-cA_3h6c-a1-m4-cA CYCRIPACIAGERRYTCIYQGRLWAFCC CYCRIPACIAGERRYTCIYQGRLWAFCC 1zmp-a5-m1-cA_1zmp-a5-m4-cB Crystal structure of human defensin-5 Q01523 Q01523 1.65 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 1zmp-a5-m2-cA_1zmp-a5-m3-cB ATCYCRTGRCATRESLSGVCEISGRLYRLCCR ATCYCRTGRCATRESLSGVCEISGRLYRLCCR 1zmp-a6-m1-cC_1zmp-a6-m6-cB Crystal structure of human defensin-5 Q01523 Q01523 1.65 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 1zmp-a6-m2-cC_1zmp-a6-m5-cB ATCYCRTGRCATRESLSGVCEISGRLYRLCCR ATCYCRTGRCATRESLSGVCEISGRLYRLCCR 1zmp-a7-m2-cA_1zmp-a7-m2-cC Crystal structure of human defensin-5 Q01523 Q01523 1.65 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 1zmp-a5-m1-cA_1zmp-a5-m1-cC 1zmp-a5-m2-cA_1zmp-a5-m2-cC 1zmp-a6-m1-cA_1zmp-a6-m1-cC 1zmp-a6-m2-cA_1zmp-a6-m2-cC 1zmp-a6-m5-cD_1zmp-a6-m5-cB 1zmp-a6-m6-cD_1zmp-a6-m6-cB 1zmp-a7-m1-cA_1zmp-a7-m1-cC 3i5w-a1-m1-cA_3i5w-a1-m1-cB ATCYCRTGRCATRESLSGVCEISGRLYRLCCR ATCYCRTGRCATRESLSGVCEISGRLYRLCCR 1zmp-a7-m6-cD_1zmp-a7-m1-cC Crystal structure of human defensin-5 Q01523 Q01523 1.65 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 32 1zmp-a5-m5-cD_1zmp-a5-m2-cC 1zmp-a5-m6-cD_1zmp-a5-m1-cC 1zmp-a6-m5-cD_1zmp-a6-m2-cC 1zmp-a6-m6-cD_1zmp-a6-m1-cC 1zmp-a7-m5-cD_1zmp-a7-m2-cC ATCYCRTGRLSGVCEISGRLYRLCC ATCYCRTGRCATRESLSGVCEISGRLYRLCCR 1zmp-a7-m6-cD_1zmp-a7-m2-cA Crystal structure of human defensin-5 Q01523 Q01523 1.65 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 32 1zmp-a5-m5-cD_1zmp-a5-m1-cA 1zmp-a5-m6-cD_1zmp-a5-m2-cA 1zmp-a6-m5-cD_1zmp-a6-m1-cA 1zmp-a6-m6-cD_1zmp-a6-m2-cA 1zmp-a7-m1-cB_1zmp-a7-m1-cC 1zmp-a7-m2-cB_1zmp-a7-m2-cC 1zmp-a7-m5-cD_1zmp-a7-m1-cA ATCYCRTGRLSGVCEISGRLYRLCC ATCYCRTGRCATRESLSGVCEISGRLYRLCCR 1znp-a4-m1-cD_1znp-a4-m3-cG X-Ray Crystal Structure of Protein Q8U9W0 from Agrobacterium tumefaciens. Northeast Structural Genomics Consortium Target AtR55. A9CFG3 A9CFG3 2.5 X-RAY DIFFRACTION 105 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 136 138 1znp-a2-m1-cC_1znp-a2-m1-cB 1znp-a3-m1-cE_1znp-a3-m2-cF SAQAIIRELGLEPHPEGGFYHQTFRDKAGGERGHSTAIYYLLEKGVRSHWHRVTDAVEVWHYYAGAPIALHLSQDGREVQTFTLGPAILEGERPQVIVPANCWQSAESLGDFTLVGCTVSPGFAFSSFVAEPGWSP SAQAIIRELGLEPHPEGGFYHQTFRDKAGGERGHSTAIYYLLEKGVRSHWHRVTDAVEVWHYYAGAPIALHLSQDGREVQTFTLGPAILEGERPQVIVPANCWQSAESLGDFTLVGCTVSPGFAFSSFVAEPGWSPGD 1znp-a5-m1-cG_1znp-a5-m3-cG X-Ray Crystal Structure of Protein Q8U9W0 from Agrobacterium tumefaciens. Northeast Structural Genomics Consortium Target AtR55. A9CFG3 A9CFG3 2.5 X-RAY DIFFRACTION 37 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 138 138 1znp-a1-m1-cA_1znp-a1-m1-cB SAQAIIRELGLEPHPEGGFYHQTFRDKAGGERGHSTAIYYLLEKGVRSHWHRVTDAVEVWHYYAGAPIALHLSQDGREVQTFTLGPAILEGERPQVIVPANCWQSAESLGDFTLVGCTVSPGFAFSSFVAEPGWSPGD SAQAIIRELGLEPHPEGGFYHQTFRDKAGGERGHSTAIYYLLEKGVRSHWHRVTDAVEVWHYYAGAPIALHLSQDGREVQTFTLGPAILEGERPQVIVPANCWQSAESLGDFTLVGCTVSPGFAFSSFVAEPGWSPGD 1zo2-a1-m1-cA_1zo2-a1-m1-cB Structure of nuclear transport factor 2 (Ntf2) from Cryptosporidium parvum Q5CQI4 Q5CQI4 1.6 X-RAY DIFFRACTION 75 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 124 124 SINLNPQFDQIGKQFVQHYYQTFQTNRPALGGLYGPQSMLTWEDTQFQGQANIVNKFNSLNFQRVQFEITRVDCQPSPNNGSIVFVTGDVRIDDGQPLKFSQVFNLMPSGNGGFMIFNDLFRLN SINLNPQFDQIGKQFVQHYYQTFQTNRPALGGLYGPQSMLTWEDTQFQGQANIVNKFNSLNFQRVQFEITRVDCQPSPNNGSIVFVTGDVRIDDGQPLKFSQVFNLMPSGNGGFMIFNDLFRLN 1zod-a2-m1-cA_1zod-a2-m4-cA Crystal structure of dialkylglycine decarboxylase bound with cesium ion P16932 P16932 1.8 X-RAY DIFFRACTION 74 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 431 431 1d7r-a1-m1-cA_1d7r-a1-m4-cA 1d7r-a1-m2-cA_1d7r-a1-m3-cA 1d7s-a1-m1-cA_1d7s-a1-m4-cA 1d7s-a1-m2-cA_1d7s-a1-m3-cA 1d7u-a1-m1-cA_1d7u-a1-m4-cA 1d7u-a1-m2-cA_1d7u-a1-m3-cA 1d7v-a1-m1-cA_1d7v-a1-m4-cA 1d7v-a1-m2-cA_1d7v-a1-m3-cA 1dgd-a1-m1-cA_1dgd-a1-m3-cA 1dgd-a1-m2-cA_1dgd-a1-m4-cA 1dge-a1-m1-cA_1dge-a1-m4-cA 1dge-a1-m2-cA_1dge-a1-m3-cA 1dka-a1-m1-cA_1dka-a1-m3-cA 1dka-a1-m2-cA_1dka-a1-m4-cA 1m0n-a1-m1-cA_1m0n-a1-m4-cA 1m0n-a1-m2-cA_1m0n-a1-m3-cA 1m0o-a1-m1-cA_1m0o-a1-m4-cA 1m0o-a1-m2-cA_1m0o-a1-m3-cA 1m0p-a1-m1-cA_1m0p-a1-m4-cA 1m0p-a1-m2-cA_1m0p-a1-m3-cA 1m0q-a1-m1-cA_1m0q-a1-m4-cA 1m0q-a1-m2-cA_1m0q-a1-m3-cA 1zob-a2-m1-cA_1zob-a2-m4-cA 1zob-a2-m2-cA_1zob-a2-m3-cA 1zod-a2-m2-cA_1zod-a2-m3-cA 2dkb-a2-m1-cA_2dkb-a2-m4-cA 2dkb-a2-m2-cA_2dkb-a2-m3-cA LNDDATFWRNARHHLVRYGGTFEPMIIERAKGSFVYDADGRAILDFTSGQMSAVLGHCHPEIVSVIGEYAGKLDHLFSEMLSRPVVDLATRLANITPPGLDRALLLSTGAESNEAAIRMAKLVTGKYEIVGFAQSWHGMTGAAASATYSAGRKGVGPAAVGSFAIPAPFTYRPRFERNGAYDYLAELDYAFDLIDRQSSGNLAAFIAEPILSSGGIIELPDGYMAALKRKCEARGMLLILDEAQTGVGRTGTMFACQRDGVTPDILTLSKTLGAGLPLAAIVTSAAIEERAHELGYLFYTTHVSDPLPAAVGLRVLDVVQRDGLVARANVMGDRLRRGLLDLMERFDCIGDVRGRGLLLGVEIVKDRRTKEPADGLGAKITRECMNLGLSMNIVQLPGMGGVFRIAPPLTVSEDEIDLGLSLLGQAIERAL LNDDATFWRNARHHLVRYGGTFEPMIIERAKGSFVYDADGRAILDFTSGQMSAVLGHCHPEIVSVIGEYAGKLDHLFSEMLSRPVVDLATRLANITPPGLDRALLLSTGAESNEAAIRMAKLVTGKYEIVGFAQSWHGMTGAAASATYSAGRKGVGPAAVGSFAIPAPFTYRPRFERNGAYDYLAELDYAFDLIDRQSSGNLAAFIAEPILSSGGIIELPDGYMAALKRKCEARGMLLILDEAQTGVGRTGTMFACQRDGVTPDILTLSKTLGAGLPLAAIVTSAAIEERAHELGYLFYTTHVSDPLPAAVGLRVLDVVQRDGLVARANVMGDRLRRGLLDLMERFDCIGDVRGRGLLLGVEIVKDRRTKEPADGLGAKITRECMNLGLSMNIVQLPGMGGVFRIAPPLTVSEDEIDLGLSLLGQAIERAL 1zod-a2-m2-cA_1zod-a2-m4-cA Crystal structure of dialkylglycine decarboxylase bound with cesium ion P16932 P16932 1.8 X-RAY DIFFRACTION 386 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 431 431 1d7r-a1-m1-cA_1d7r-a1-m3-cA 1d7r-a1-m2-cA_1d7r-a1-m4-cA 1d7s-a1-m1-cA_1d7s-a1-m3-cA 1d7s-a1-m2-cA_1d7s-a1-m4-cA 1d7u-a1-m1-cA_1d7u-a1-m3-cA 1d7u-a1-m2-cA_1d7u-a1-m4-cA 1d7v-a1-m1-cA_1d7v-a1-m3-cA 1d7v-a1-m2-cA_1d7v-a1-m4-cA 1dgd-a1-m1-cA_1dgd-a1-m2-cA 1dgd-a1-m3-cA_1dgd-a1-m4-cA 1dge-a1-m1-cA_1dge-a1-m3-cA 1dge-a1-m2-cA_1dge-a1-m4-cA 1dge-a2-m1-cA_1dge-a2-m3-cA 1dka-a1-m1-cA_1dka-a1-m2-cA 1dka-a1-m3-cA_1dka-a1-m4-cA 1m0n-a1-m1-cA_1m0n-a1-m3-cA 1m0n-a1-m2-cA_1m0n-a1-m4-cA 1m0o-a1-m1-cA_1m0o-a1-m3-cA 1m0o-a1-m2-cA_1m0o-a1-m4-cA 1m0p-a1-m1-cA_1m0p-a1-m3-cA 1m0p-a1-m2-cA_1m0p-a1-m4-cA 1m0q-a1-m1-cA_1m0q-a1-m3-cA 1m0q-a1-m2-cA_1m0q-a1-m4-cA 1zob-a2-m1-cA_1zob-a2-m3-cA 1zob-a2-m2-cA_1zob-a2-m4-cA 1zod-a2-m1-cA_1zod-a2-m3-cA 2dkb-a1-m1-cA_2dkb-a1-m2-cA 2dkb-a2-m1-cA_2dkb-a2-m2-cA 2dkb-a2-m3-cA_2dkb-a2-m4-cA LNDDATFWRNARHHLVRYGGTFEPMIIERAKGSFVYDADGRAILDFTSGQMSAVLGHCHPEIVSVIGEYAGKLDHLFSEMLSRPVVDLATRLANITPPGLDRALLLSTGAESNEAAIRMAKLVTGKYEIVGFAQSWHGMTGAAASATYSAGRKGVGPAAVGSFAIPAPFTYRPRFERNGAYDYLAELDYAFDLIDRQSSGNLAAFIAEPILSSGGIIELPDGYMAALKRKCEARGMLLILDEAQTGVGRTGTMFACQRDGVTPDILTLSKTLGAGLPLAAIVTSAAIEERAHELGYLFYTTHVSDPLPAAVGLRVLDVVQRDGLVARANVMGDRLRRGLLDLMERFDCIGDVRGRGLLLGVEIVKDRRTKEPADGLGAKITRECMNLGLSMNIVQLPGMGGVFRIAPPLTVSEDEIDLGLSLLGQAIERAL LNDDATFWRNARHHLVRYGGTFEPMIIERAKGSFVYDADGRAILDFTSGQMSAVLGHCHPEIVSVIGEYAGKLDHLFSEMLSRPVVDLATRLANITPPGLDRALLLSTGAESNEAAIRMAKLVTGKYEIVGFAQSWHGMTGAAASATYSAGRKGVGPAAVGSFAIPAPFTYRPRFERNGAYDYLAELDYAFDLIDRQSSGNLAAFIAEPILSSGGIIELPDGYMAALKRKCEARGMLLILDEAQTGVGRTGTMFACQRDGVTPDILTLSKTLGAGLPLAAIVTSAAIEERAHELGYLFYTTHVSDPLPAAVGLRVLDVVQRDGLVARANVMGDRLRRGLLDLMERFDCIGDVRGRGLLLGVEIVKDRRTKEPADGLGAKITRECMNLGLSMNIVQLPGMGGVFRIAPPLTVSEDEIDLGLSLLGQAIERAL 1zoe-a1-m1-cA_1zoe-a1-m2-cA Crystal structure of protein kinase CK2 in complex with TBB-derivatives inhibitors P28523 P28523 1.77 X-RAY DIFFRACTION 24 1.0 4577 (Zea mays) 4577 (Zea mays) 325 325 1zog-a1-m1-cA_1zog-a1-m2-cA 1zoh-a1-m1-cA_1zoh-a1-m2-cA SKARVYADVNVLRPKEYWDYEALTVQWGEQDDYEVVRKVGRGKYSEVFEGINVNNNEKCIIKILKPVKKKKIKREIKILQNLCGGPNIVKLLDIVRDQHSKTPSLIFEYVNNTDFKVLYPTLTDYDIRYYIYELLKALDYCHSQGIMHRDVKPHNVMIDHELRKLRLIDWGLAEFYHPGKEYNVRVASRYFKGPELLVDLQDYDYSLDMWSLGCMFAGMIFRKEPFFYGHDNHDQLVKIAKVLGTDGLNVYLNKYRIELDPQLEALVGRHSRKPWLKFMNADNQHLVSPEAIDFLDKLLRYDHQERLTALEAMTHPYFQQVRAAE SKARVYADVNVLRPKEYWDYEALTVQWGEQDDYEVVRKVGRGKYSEVFEGINVNNNEKCIIKILKPVKKKKIKREIKILQNLCGGPNIVKLLDIVRDQHSKTPSLIFEYVNNTDFKVLYPTLTDYDIRYYIYELLKALDYCHSQGIMHRDVKPHNVMIDHELRKLRLIDWGLAEFYHPGKEYNVRVASRYFKGPELLVDLQDYDYSLDMWSLGCMFAGMIFRKEPFFYGHDNHDQLVKIAKVLGTDGLNVYLNKYRIELDPQLEALVGRHSRKPWLKFMNADNQHLVSPEAIDFLDKLLRYDHQERLTALEAMTHPYFQQVRAAE 1zof-a1-m1-cA_1zof-a1-m1-cJ Crystal structure of alkyl hydroperoxide-reductase (AhpC) from Helicobacter Pylori P56876 P56876 2.95 X-RAY DIFFRACTION 56 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 170 175 1zof-a1-m1-cC_1zof-a1-m1-cB 1zof-a1-m1-cE_1zof-a1-m1-cD 1zof-a1-m1-cG_1zof-a1-m1-cF 1zof-a1-m1-cI_1zof-a1-m1-cH MVVTKLAPDFKAPAVLGNNEVDEHFELSKNLGKNGVILFFWPKDFTFVCPTEIIAFDKRVKDFHEKGFNVIGVSIDSEQVHFAWKNTPVEKGGIGQVSFPMVADITKSISRDYDVLFEEAIALRGAFLIDKNMKVRHAVINDLPLGRNADEMLRMVDALLHFEEHGEVCP MVVTKLAPDFKAPAVLGNNEVDEHFELSKNLGKNGVILFFWPKDFTFVCPTEIIAFDKRVKDFHEKGFNVIGVSIDSEQVHFAWKNTPVEKGGIGQVSFPMVADITKSISRDYDVLFEEAIALRGAFLIDKNMKVRHAVINDLPLGRNADEMLRMVDALLHFEEHGEVCPAGWRK 1zof-a1-m1-cI_1zof-a1-m1-cJ Crystal structure of alkyl hydroperoxide-reductase (AhpC) from Helicobacter Pylori P56876 P56876 2.95 X-RAY DIFFRACTION 111 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 170 175 1zof-a1-m1-cA_1zof-a1-m1-cB 1zof-a1-m1-cC_1zof-a1-m1-cD 1zof-a1-m1-cE_1zof-a1-m1-cF 1zof-a1-m1-cG_1zof-a1-m1-cH MVVTKLAPDFKAPAVLGNNEVDEHFELSKNLGKNGVILFFWPKDFTFVCPTEIIAFDKRVKDFHEKGFNVIGVSIDSEQVHFAWKNTPVEKGGIGQVSFPMVADITKSISRDYDVLFEEAIALRGAFLIDKNMKVRHAVINDLPLGRNADEMLRMVDALLHFEEHGEVCP MVVTKLAPDFKAPAVLGNNEVDEHFELSKNLGKNGVILFFWPKDFTFVCPTEIIAFDKRVKDFHEKGFNVIGVSIDSEQVHFAWKNTPVEKGGIGQVSFPMVADITKSISRDYDVLFEEAIALRGAFLIDKNMKVRHAVINDLPLGRNADEMLRMVDALLHFEEHGEVCPAGWRK 1zoi-a1-m1-cB_1zoi-a1-m1-cC Crystal Structure of a Stereoselective Esterase from Pseudomonas putida IFO12996 Q3HWU8 Q3HWU8 1.6 X-RAY DIFFRACTION 51 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 274 275 1zoi-a1-m1-cA_1zoi-a1-m1-cC 1zoi-a1-m1-cB_1zoi-a1-m1-cA SYVTTKDGVQIFYKDWGPRDAPVIHFHHGWPLSADDWDAQLLFFLAHGYRVVAHDRRGHGRSSQVWDGHDMDHYADDVAAVVAHLGIQGAVHVGHSTGGGEVVRYMARHPEDKVAKAVLIAAVPPLMVQTPGNPGGLPKSVFDGFQAQVASNRAQFYRDVPAGPFYGYNRPGVEASEGIIGNWWRQGMIGSAKAHYDGIVAFSQTDFTEDLKGIQQPVLVMHGDDDQIVPYENSGVLSAKLLPNGALKTYKGYPHGMPTTHADVINADLLAFIR SYVTTKDGVQIFYKDWGPRDAPVIHFHHGWPLSADDWDAQLLFFLAHGYRVVAHDRRGHGRSSQVWDGHDMDHYADDVAAVVAHLGIQGAVHVGHSTGGGEVVRYMARHPEDKVAKAVLIAAVPPLMVQTPGNPGGLPKSVFDGFQAQVASNRAQFYRDVPAGPFYGYNRPGVEASEGIIGNWWRQGMIGSAKAHYDGIVAFSQTDFTEDLKGIQQPVLVMHGDDDQIVPYENSGVLSAKLLPNGALKTYKGYPHGMPTTHADVINADLLAFIRS 1zor-a1-m1-cB_1zor-a1-m1-cA Isocitrate dehydrogenase from the hyperthermophile Thermotoga maritima Q9X0N2 Q9X0N2 2.24 X-RAY DIFFRACTION 244 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 396 399 VKVKNPIVELDGDEMARVMWKMIKEKLILPYLDIQLVYFDLGIKKRDETDDQITIEAAKAIKKYGVGVKCATITPDAERVKEYNLKKAWKSPNATIRAYLDGTVFRKPIMVKNVPPLVKRWKKPIIIGRHAYGDIYNAVEAKVEGPAEVELVVRNKENKTLLVHKFEGNGVVMAMHNLEKSIRSFAQSCINYAISEKVDIWFATKDTISKVYHAYFKDIFQEEVDKRKEELEKAGVNYRYMLIDDAAAQILRSEGGMLWACMNYEGDIMSDMIASGFGSLGLMTSVLVSPDGVYEFEAAHGTVRRHYYRYLKGEKTSTNPTASIFAWTGAIRKRGELDGTPEVCEFADKLEKAVINTIESGVITKDLQPFTEPPIDKYVTLEEFIDEVKKNLEKLL MEKVKVKNPIVELDGDEMARVMWKMIKEKLILPYLDIQLVYFDLGIKKRDETDDQITIEAAKAIKKYGVGVKCATITPDAERVKEYNLKKAWKSPNATIRAYLDGTVFRKPIMVKNVPPLVKRWKKPIIIGRHAYGDIYNAVEAKVEGPAEVELVVRNKENKTLLVHKFEGNGVVMAMHNLEKSIRSFAQSCINYAISEKVDIWFATKDTISKVYHAYFKDIFQEEVDKRKEELEKAGVNYRYMLIDDAAAQILRSEGGMLWACMNYEGDIMSDMIASGFGSLGLMTSVLVSPDGVYEFEAAHGTVRRHYYRYLKGEKTSTNPTASIFAWTGAIRKRGELDGTPEVCEFADKLEKAVINTIESGVITKDLQPFTEPPIDKYVTLEEFIDEVKKNLEKLL 1zos-a3-m1-cE_1zos-a3-m1-cF Structure of 5'-methylthionadenosine/S-Adenosylhomocysteine nucleosidase from S. pneumoniae with a transition-state inhibitor MT-ImmA Q8DQ16 Q8DQ16 1.6 X-RAY DIFFRACTION 115 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 230 230 1zos-a1-m1-cA_1zos-a1-m1-cB 1zos-a2-m1-cC_1zos-a2-m1-cD 3mms-a1-m1-cA_3mms-a1-m2-cA MKIGIIAAMPEELAYLVQHLDNTQEQVVLGNTYHTGTIASHEVVLVESGIGKVMSAMSVAILADHFQVDALINTGSAGAVAEGIAVGDVVIADKLAYHDVDVTAFGYAYGQMAQQPLYFESDKTFVAQIQESLSQLDQNWHLGLIATGDSFVAGNDKIEAIKSHFPEVLAVEMEGAAIAQAAHTLNLPVLVIRAMSDNANHEANIFFDEFIIEAGRRSAQVLLAFLKALD MKIGIIAAMPEELAYLVQHLDNTQEQVVLGNTYHTGTIASHEVVLVESGIGKVMSAMSVAILADHFQVDALINTGSAGAVAEGIAVGDVVIADKLAYHDVDVTAFGYAYGQMAQQPLYFESDKTFVAQIQESLSQLDQNWHLGLIATGDSFVAGNDKIEAIKSHFPEVLAVEMEGAAIAQAAHTLNLPVLVIRAMSDNANHEANIFFDEFIIEAGRRSAQVLLAFLKALD 1zow-a2-m1-cC_1zow-a2-m1-cD Crystal Structure of S. aureus FabH, beta-ketoacyl carrier protein synthase III Q8NXE2 Q8NXE2 2 X-RAY DIFFRACTION 162 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 312 312 1zow-a1-m1-cA_1zow-a1-m1-cB 3il7-a1-m1-cA_3il7-a1-m1-cB 6kvs-a1-m1-cA_6kvs-a1-m1-cB MNVGIKGFGAYAPEKIIDNAYFEQFLDTSDEWISKMTGIKERHWADDDQDTSDLAYEASVKAIADAGIQPEDIDMIIVATATGDMPFPTVANMLQERLGTGKVASMDQLAACSGFMYSMITAKQYVQSGDYHNILVVGADKLSKITDLTDRSTAVLFGDGAGAVIIGEVSEGRGIISYEMGSDGTGGKHLYLDKDTGKLKMNGREVFKFAVRIMGDASTRVVEKANLTSDDIDLFIPHQANIRIMESARERLGISKDKMSVSVNKYGNTSAASIPLSIDQELKNGKLKDDDTIVLVGFGGGLTWGAMTIKWG MNVGIKGFGAYAPEKIIDNAYFEQFLDTSDEWISKMTGIKERHWADDDQDTSDLAYEASVKAIADAGIQPEDIDMIIVATATGDMPFPTVANMLQERLGTGKVASMDQLAACSGFMYSMITAKQYVQSGDYHNILVVGADKLSKITDLTDRSTAVLFGDGAGAVIIGEVSEGRGIISYEMGSDGTGGKHLYLDKDTGKLKMNGREVFKFAVRIMGDASTRVVEKANLTSDDIDLFIPHQANIRIMESARERLGISKDKMSVSVNKYGNTSAASIPLSIDQELKNGKLKDDDTIVLVGFGGGLTWGAMTIKWG 1zp2-a2-m1-cA_1zp2-a2-m2-cA Structure of the Mediator subunit cyclin C O94503 O94503 3 X-RAY DIFFRACTION 95 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 227 227 WASSQLTQLFLSTDLESLEPTCLSKDTIYQWKVVQTFGDRLRLRQRVLATAIVLLRRYMLKKNEEKGFSLEALVATCIYLSCKVEECPVHIRTICNEANDLWSLKVKLSRSNISEIEFEIISVLDAFLIVHHPYTSLEQAFHDGIINQKQLEFAWSIVNDSYASSLCLMAHPHQLAYAALLISCCNDENTIPKLLDLIKSTDAFKVILCVQRIISIYYFEDIEAAAL WASSQLTQLFLSTDLESLEPTCLSKDTIYQWKVVQTFGDRLRLRQRVLATAIVLLRRYMLKKNEEKGFSLEALVATCIYLSCKVEECPVHIRTICNEANDLWSLKVKLSRSNISEIEFEIISVLDAFLIVHHPYTSLEQAFHDGIINQKQLEFAWSIVNDSYASSLCLMAHPHQLAYAALLISCCNDENTIPKLLDLIKSTDAFKVILCVQRIISIYYFEDIEAAAL 1zp6-a1-m1-cA_1zp6-a1-m2-cA Crystal Structure of Atu3015, a Putative Cytidylate Kinase from Agrobacterium tumefaciens, Northeast Structural Genomics Target AtR62 A9CEJ3 A9CEJ3 3.2 X-RAY DIFFRACTION 67 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 174 174 DLGGNILLLSGHPGSGKSTIAEALANLPGVPKVHFHSDDLWGYIKHGRIDPWLPQSHQQNRIQIAADVAGRYAKEGYFVILDGVVRPDWLPAFTALARPLHYIVLRTTAAEAIERCLDRGGDSLSDPLVVADLHSQFADLGAFEHHVLPVSGKDTDQALQSAINALQSGRFRID DLGGNILLLSGHPGSGKSTIAEALANLPGVPKVHFHSDDLWGYIKHGRIDPWLPQSHQQNRIQIAADVAGRYAKEGYFVILDGVVRPDWLPAFTALARPLHYIVLRTTAAEAIERCLDRGGDSLSDPLVVADLHSQFADLGAFEHHVLPVSGKDTDQALQSAINALQSGRFRID 1zps-a1-m1-cA_1zps-a1-m1-cB Crystal structure of Methanobacterium thermoautotrophicum phosphoribosyl-AMP cyclohydrolase HisI O26347 O26347 1.7 X-RAY DIFFRACTION 101 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 124 128 VNILLNFRHNINGEDLIIAVAQDHETGEVLMVAYMNREALRRTLETGTAHYWSTSRGKLWLKGESSGHVQRVKDVLVDCDGDAVVLKVEQEGGACHTGYRSCFYRSIDGDELKVREDAVKVFDP SKGDVNILLNFRHNINGEDLIIAVAQDHETGEVLMVAYMNREALRRTLETGTAHYWSTSRGKLWLKGESSGHVQRVKDVLVDCDGDAVVLKVEQEGGACHTGYRSCFYRSIDGDELKVREDAVKVFDP 1zpv-a1-m1-cB_1zpv-a1-m1-cA ACT domain protein from Streptococcus pneumoniae P67382 P67382 1.9 X-RAY DIFFRACTION 39 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 81 82 AKAIITVVGKDKSGIVAGVSGKIAELGLNIDDISQTVLDEYFTAVVSSDEKQDFTYLRNEFEAFGQTLNVKINIQSAAIFE NAKAIITVVGKDKSGIVAGVSGKIAELGLNIDDISQTVLDEYFTAVVSSDEKQDFTYLRNEFEAFGQTLNVKINIQSAAIFE 1zpv-a2-m1-cA_1zpv-a2-m1-cC ACT domain protein from Streptococcus pneumoniae P67382 P67382 1.9 X-RAY DIFFRACTION 59 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 82 84 1zpv-a1-m1-cA_1zpv-a1-m1-cC 1zpv-a3-m1-cB_1zpv-a3-m2-cB NAKAIITVVGKDKSGIVAGVSGKIAELGLNIDDISQTVLDEYFTAVVSSDEKQDFTYLRNEFEAFGQTLNVKINIQSAAIFE NAKAIITVVGKDKSGIVAGVSGKIAELGLNIDDISQTVLDEYFTAVVSSDEKQDFTYLRNEFEAFGQTLNVKINIQSAAIFEAY 1zpw-a2-m1-cX_1zpw-a2-m2-cX Crystal structure of a hypothetical protein TT1823 from Thermus thermophilus Q746F4 Q746F4 1.64 X-RAY DIFFRACTION 129 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 82 82 GKRLYAVAYDIPDDTRRVKLANLLKSYGERVQLSVFECYLDERLLEDLRRRARRLLDLGQDALRIYPVAGQVEVLGVGPLPE GKRLYAVAYDIPDDTRRVKLANLLKSYGERVQLSVFECYLDERLLEDLRRRARRLLDLGQDALRIYPVAGQVEVLGVGPLPE 1zq1-a1-m1-cA_1zq1-a1-m1-cB Structure of GatDE tRNA-Dependent Amidotransferase from Pyrococcus abyssi Q9V0T9 Q9V0T9 3 X-RAY DIFFRACTION 165 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 423 423 RVDEFLKERNINVGDFVRITKEEDGEEVTYEGYIPPYELSAGDTLVLKLENGYNIGIALEKIRRIEVLERAKVKPEVHFEALIEGKPGLPEVTIIGTGGTIASRIDYETGAVYPAFTAEELAKALPEIFEVANVKPKLLFNIFSEDKPKHWVKIAHEVAKALNSGDYGVVVAHGTDTGYTAAALSFLRNLGKPVVLVGAQRSSDRPSSDAANLICSVRATSEVAEVVVHGETGDTYCLAHRGTKVRKHTSRRDAFRSINDVPIAKIWPNGEIEFLRKDYRKRSDEEVEVDDKIEEKVALVKVYPGISSEIIDFLVDKGYKGIVIEGTGLGHTPNDIIPSIERAVEEGVAVCTSQCIYGRVNLNVYSTGRKLLKAGVIPCEDLPETAYVKLWVLGHTQNLEEVRKLTNYAGEITPYTRFDTYLR RVDEFLKERNINVGDFVRITKEEDGEEVTYEGYIPPYELSAGDTLVLKLENGYNIGIALEKIRRIEVLERAKVKPEVHFEALIEGKPGLPEVTIIGTGGTIASRIDYETGAVYPAFTAEELAKALPEIFEVANVKPKLLFNIFSEDKPKHWVKIAHEVAKALNSGDYGVVVAHGTDTGYTAAALSFLRNLGKPVVLVGAQRSSDRPSSDAANLICSVRATSEVAEVVVHGETGDTYCLAHRGTKVRKHTSRRDAFRSINDVPIAKIWPNGEIEFLRKDYRKRSDEEVEVDDKIEEKVALVKVYPGISSEIIDFLVDKGYKGIVIEGTGLGHTPNDIIPSIERAVEEGVAVCTSQCIYGRVNLNVYSTGRKLLKAGVIPCEDLPETAYVKLWVLGHTQNLEEVRKLTNYAGEITPYTRFDTYLR 1zq7-a1-m1-cA_1zq7-a1-m1-cD X-Ray Crystal Structure of Protein Q8PZK8 from Methanosarcina mazei. Northeast Structural Genomics Consortium Target MaR9. Q8PZK8 Q8PZK8 2.11 X-RAY DIFFRACTION 67 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 197 200 1zq7-a1-m1-cB_1zq7-a1-m1-cC LTETEGRAAVKLARKTIEIFLSKGKSPRSGVELSPVFEEYRGVFVTLTEGGLLRGCIGHPYPDSTLKEAILDSAISAATRDPRFPTVEQDEKNILVEVTILTQPEKINASPKELPDKVEIGKHGLIVKQGYCQGLLLPQVAPENDDSIDFLSHTCKAGLSPDAWVKGAEVYCFEGQIFKEKEPDGEVIEEKFLEHHH LTETEGRAAVKLARKTIEIFLSKGKSPRPDASGVELSPVFEEYRGVFVTLTEGGLLRGCIGHPYPDSTLKEAILDSAISAATRDPRFPTVEQDEKNILVEVTILTQPEKINASPKELPDKVEIGKHGLIVKQGYCQGLLLPQVAPENDDSIDFLSHTCKAGLSPDAWVKGAEVYCFEGQIFKEKEPDGEVIEEKFLEHHH 1zq7-a1-m1-cB_1zq7-a1-m1-cD X-Ray Crystal Structure of Protein Q8PZK8 from Methanosarcina mazei. Northeast Structural Genomics Consortium Target MaR9. Q8PZK8 Q8PZK8 2.11 X-RAY DIFFRACTION 27 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 200 200 1zq7-a1-m1-cA_1zq7-a1-m1-cC LTETEGRAAVKLARKTIEIFLSKGKSPRPDASGVELSPVFEEYRGVFVTLTEGGLLRGCIGHPYPDSTLKEAILDSAISAATRDPRFPTVEQDEKNILVEVTILTQPEKINASPKELPDKVEIGKHGLIVKQGYCQGLLLPQVAPENDDSIDFLSHTCKAGLSPDAWVKGAEVYCFEGQIFKEKEPDGEVIEEKFLEHHH LTETEGRAAVKLARKTIEIFLSKGKSPRPDASGVELSPVFEEYRGVFVTLTEGGLLRGCIGHPYPDSTLKEAILDSAISAATRDPRFPTVEQDEKNILVEVTILTQPEKINASPKELPDKVEIGKHGLIVKQGYCQGLLLPQVAPENDDSIDFLSHTCKAGLSPDAWVKGAEVYCFEGQIFKEKEPDGEVIEEKFLEHHH 1zq7-a1-m1-cC_1zq7-a1-m1-cD X-Ray Crystal Structure of Protein Q8PZK8 from Methanosarcina mazei. Northeast Structural Genomics Consortium Target MaR9. Q8PZK8 Q8PZK8 2.11 X-RAY DIFFRACTION 18 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 200 200 1zq7-a1-m1-cA_1zq7-a1-m1-cB LTETEGRAAVKLARKTIEIFLSKGKSPRPDASGVELSPVFEEYRGVFVTLTEGGLLRGCIGHPYPDSTLKEAILDSAISAATRDPRFPTVEQDEKNILVEVTILTQPEKINASPKELPDKVEIGKHGLIVKQGYCQGLLLPQVAPENDDSIDFLSHTCKAGLSPDAWVKGAEVYCFEGQIFKEKEPDGEVIEEKFLEHHH LTETEGRAAVKLARKTIEIFLSKGKSPRPDASGVELSPVFEEYRGVFVTLTEGGLLRGCIGHPYPDSTLKEAILDSAISAATRDPRFPTVEQDEKNILVEVTILTQPEKINASPKELPDKVEIGKHGLIVKQGYCQGLLLPQVAPENDDSIDFLSHTCKAGLSPDAWVKGAEVYCFEGQIFKEKEPDGEVIEEKFLEHHH 1zq9-a1-m1-cA_1zq9-a1-m1-cB Crystal structure of human Dimethyladenosine transferase Q9UNQ2 Q9UNQ2 1.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 QHILKNPLIINSIIDKAALRPTDVVLEVGPGTGNMTVKLLEKAKKVVACELDPRLVAELHKRVQGTPVASKLQVLVGDVLKTDLPFFDTCVANLPYQISSPFVFKLLLHRPFFRCAILMFQREFALRLVAKPGDKLYCRLSINTQLLARVDHLMKVGKNNFRPPPKVESSVVRIEPKNPPPPINFQEWDGLVRITFVRKNKTLSAAFKSSAVQQLLEKNYRIHCSVHNIIIPEDFSIADKIQQILTSTGFSDKRARSMDIDDFIRLLHGFNAEGIHFS QHILKNPLIINSIIDKAALRPTDVVLEVGPGTGNMTVKLLEKAKKVVACELDPRLVAELHKRVQGTPVASKLQVLVGDVLKTDLPFFDTCVANLPYQISSPFVFKLLLHRPFFRCAILMFQREFALRLVAKPGDKLYCRLSINTQLLARVDHLMKVGKNNFRPPPKVESSVVRIEPKNPPPPINFQEWDGLVRITFVRKNKTLSAAFKSSAVQQLLEKNYRIHCSVHNIIIPEDFSIADKIQQILTSTGFSDKRARSMDIDDFIRLLHGFNAEGIHFS 1zr2-a1-m2-cB_1zr2-a1-m1-cA Structure of a Synaptic gamma-delta Resolvase Tetramer Covalently Linked to two Cleaved DNAs P03012 P03012 3.9 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 182 183 1zr2-a1-m1-cB_1zr2-a1-m2-cA 1zr4-a1-m1-cB_1zr4-a1-m1-cE 2gm4-a1-m1-cA_2gm4-a1-m2-cA 2gm4-a1-m1-cB_2gm4-a1-m2-cB ALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVKEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDSYIGKMVVTILSAVAQAERQRILQRTNEGRQEAMAKGVVFGRKRKIDRDAVLNMWQQGLGASHISKTMNIARSTVYKVINESN MALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVKEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDSYIGKMVVTILSAVAQAERQRILQRTNEGRQEAMAKGVVFGRKRKIDRDAVLNMWQQGLGASHISKTMNIARSTVYKVINESN 1zr2-a1-m2-cB_1zr2-a1-m2-cA Structure of a Synaptic gamma-delta Resolvase Tetramer Covalently Linked to two Cleaved DNAs P03012 P03012 3.9 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 182 183 1zr2-a1-m1-cB_1zr2-a1-m1-cA 1zr4-a1-m1-cB_1zr4-a1-m1-cA 1zr4-a1-m1-cD_1zr4-a1-m1-cE 2gm4-a1-m1-cB_2gm4-a1-m1-cA 2gm4-a1-m2-cB_2gm4-a1-m2-cA ALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVKEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDSYIGKMVVTILSAVAQAERQRILQRTNEGRQEAMAKGVVFGRKRKIDRDAVLNMWQQGLGASHISKTMNIARSTVYKVINESN MALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVKEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDSYIGKMVVTILSAVAQAERQRILQRTNEGRQEAMAKGVVFGRKRKIDRDAVLNMWQQGLGASHISKTMNIARSTVYKVINESN 1zr4-a1-m1-cA_1zr4-a1-m1-cE Structure of a Synaptic gamma-delta Resolvase Tetramer Covalently linked to two Cleaved DNAs P03012 P03012 3.4 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 183 183 1zr2-a1-m1-cA_1zr2-a1-m2-cA 1zr2-a1-m1-cB_1zr2-a1-m2-cB 1zr4-a1-m1-cB_1zr4-a1-m1-cD MALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVKEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDSYIGKMVVTILSAVAQAERQRILQRTNEGRQEAMAKGVVFGRKRKIDRDAVLNMWQQGLGASHISKTMNIARSTVYKVINESN MALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVKEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDSYIGKMVVTILSAVAQAERQRILQRTNEGRQEAMAKGVVFGRKRKIDRDAVLNMWQQGLGASHISKTMNIARSTVYKVINESN 1zrn-a1-m1-cA_1zrn-a1-m2-cA INTERMEDIATE STRUCTURE OF L-2-HALOACID DEHALOGENASE WITH MONOCHLOROACETATE Q53464 Q53464 1.83 X-RAY DIFFRACTION 86 1.0 66693 (Pseudomonas sp. YL) 66693 (Pseudomonas sp. YL) 220 220 1jud-a1-m1-cA_1jud-a1-m2-cA 1qh9-a1-m1-cA_1qh9-a1-m2-cA 1zrm-a1-m1-cA_1zrm-a1-m2-cA YIKGIAFDLYGTLFDVHSVVGRCDEAFPGRGREISALWRQKQLEYTWLRSLMNRYVNFQQATEDALRFTCRHLGLDLDARTRSTLCDAYLRLAPFSEVPDSLRELKRRGLKLAILSNGSPQSIDAVVSHAGLRDGFDHLLSVDPVQVYKPDNRVYELAEQALGLDRSAILFVASNAWDATGARYFGFPTCWINRTGNVFEEMGQTPDWEVTSLRAVVELF YIKGIAFDLYGTLFDVHSVVGRCDEAFPGRGREISALWRQKQLEYTWLRSLMNRYVNFQQATEDALRFTCRHLGLDLDARTRSTLCDAYLRLAPFSEVPDSLRELKRRGLKLAILSNGSPQSIDAVVSHAGLRDGFDHLLSVDPVQVYKPDNRVYELAEQALGLDRSAILFVASNAWDATGARYFGFPTCWINRTGNVFEEMGQTPDWEVTSLRAVVELF 1zro-a1-m1-cA_1zro-a1-m1-cB Crystal structure of EBA-175 Region II (RII) crystallized in the presence of (alpha)2,3-sialyllactose Q25735 Q25735 2.25 X-RAY DIFFRACTION 80 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 588 588 1zrl-a1-m1-cA_1zrl-a1-m2-cA NEVLSNCREKRKGMKWDCKKKNDRSNYVCIPDRRIQLCIVNLAIIKTYTKETMKDHFIEASKKESQLLLKKNDNKYNSKFCNDLKNSFLDYGHLAMGNDMDFGGYSTKAENKIQEVFKGAHGEISEHKIKNFRKKWWNEFREKLWEAMLSEHKNNICKNIPQEELQITQWIKEWHGEFLLERDNRAKLPKSKCKNNALYEACEKECIDPCMKYRDWIIRSKFEWHTLSKEYETQKVPKENAENYLIKISENKNDAKVSLLLNNCDAEYSKYCDCKHTTTLVKSVLNGNDNTIKEKREHIDLDDFSKFGCDKNSVDTNTKVWECKKPYKLSTKDVCVPPRRQELCLGNIDRIYDKNLLMIKEHILAIAIYESRILKRKYKNKDDKEVCKIINKTFADIRDIIGGTDYWNDLSNRKLVGKINTNSNYVHRNKQNDKLFRDEWWKVIKKDVWNVISWVFKDKTVCKEDDIENIPQFFRWFSEWGDDYCQDKTKMIETLKVECCEDDNCKRKCNSYKEWISKKKEEYNKQAKQYQEYQKGNNYKMYSEFKSIKPEVYLKKYSEKCSNLNFEDEFKEELHSDYKNKCTMCPEV NEVLSNCREKRKGMKWDCKKKNDRSNYVCIPDRRIQLCIVNLAIIKTYTKETMKDHFIEASKKESQLLLKKNDNKYNSKFCNDLKNSFLDYGHLAMGNDMDFGGYSTKAENKIQEVFKGAHGEISEHKIKNFRKKWWNEFREKLWEAMLSEHKNNICKNIPQEELQITQWIKEWHGEFLLERDNRAKLPKSKCKNNALYEACEKECIDPCMKYRDWIIRSKFEWHTLSKEYETQKVPKENAENYLIKISENKNDAKVSLLLNNCDAEYSKYCDCKHTTTLVKSVLNGNDNTIKEKREHIDLDDFSKFGCDKNSVDTNTKVWECKKPYKLSTKDVCVPPRRQELCLGNIDRIYDKNLLMIKEHILAIAIYESRILKRKYKNKDDKEVCKIINKTFADIRDIIGGTDYWNDLSNRKLVGKINTNSNYVHRNKQNDKLFRDEWWKVIKKDVWNVISWVFKDKTVCKEDDIENIPQFFRWFSEWGDDYCQDKTKMIETLKVECCEDDNCKRKCNSYKEWISKKKEEYNKQAKQYQEYQKGNNYKMYSEFKSIKPEVYLKKYSEKCSNLNFEDEFKEELHSDYKNKCTMCPEV 1zrs-a1-m1-cA_1zrs-a1-m1-cB wild-type LD-carboxypeptidase Q9HTZ1 Q9HTZ1 1.5 X-RAY DIFFRACTION 68 0.993 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 294 294 2aum-a1-m1-cA_2aum-a1-m1-cB 2aun-a1-m1-cA_2aun-a1-m1-cB PSSDQTWQPIDGRVALIAPASAIATEVLEATLRQLEVHGVDYHLGRHVEARYRYLAGTVEQRLEDLHNAFDMPDITAVWCLRGGYGCGQLLPGLDWGRLEAASPRPLIGFSDISVLLSAFHRHGLPAIHGPVATGLGLQERLASLASVSRLLAGIDHELPVQHLGGHKQRVEGALIGGNLTALACMAGTLGGLHAPAGSILVLEDVGEPYYRLERSLWQLLESIDARQLGAICLGSFTDCPRKEVAHSLERIFGEYAAAIEVPLYHHLPSGHGAQNRAWPYGKTAVLEGNRLRW SDQTWQPIDGRVALIAPASAIATEVLEATLRQLEVHGVDYHLGRHVEARYRYLAGTVEQRLEDLHNAFDMPDITAVWCLRGGYGCGQLLPGLDWGRLEAASPRPLIGFSDISVLLSAFHRHGLPAIHGPVATGLGLEQQERLASLASVSRLLAGIDHELPVQHLGGHKQRVEGALIGGNLTALACMAGTLGGLHAPAGSILVLEDVGEPYYRLERSLWQLLESIDARQLGAICLGSFTDCPRKEVAHSLERIFGEYAAAIEVPLYHHLPSGHGAQNRAWPYGKTAVLEGNRLRW 1zrt-a1-m1-cC_1zrt-a1-m1-cP Rhodobacter capsulatus cytochrome bc1 complex with stigmatellin bound P0CY47 P0CY47 3.51 X-RAY DIFFRACTION 92 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 431 431 6xi0-a1-m1-cC_6xi0-a1-m1-cP 6xkt-a1-m1-cC_6xkt-a1-m1-cP 6xku-a1-m1-cC_6xku-a1-m1-cP 6xkv-a1-m1-cC_6xkv-a1-m1-cP 6xkw-a1-m1-cC_6xkw-a1-m1-cP 6xkx-a1-m1-cC_6xkx-a1-m1-cP 6xkz-a1-m1-cC_6xkz-a1-m1-cP SGIPHDHYEPKTGIEKWLHDRLPIVGLVYDTIMIPTPKNLNWWWIWGIVLAFTLVLQIVTGIVLAMHYTPHVDLAFASVEHIMRDVNGGWAMRYIHANGASLFFLAVYIHIFRGLYYGSYKAPREITWIVGMVIYLLMMGTAFMGYVLPWGQMSFWGATVITGLFGAIPGIGPSIQAWLLGGPAVDNATLNRFFSLHYLLPFVIAALVAIHIWAFHTTGNNNPTGVEVRRTSKADAEKDTLPFWPYFVIKDLFALALVLLGFFAVVAYMPNYLGHPDNYVQANPLSTPAHIVPEWYFLPFYAILRAFAADVWVVILVDGLTFGIVDAKFFGVIAMFGAIAVMALAPWLDTSKVRSGAYRPKFRMWFWFLVLDFVVLTWVGAMPTEYPYDWISLIASTYWFAYFLVILPLLGATEKPEPIPASIEEDFNSHY SGIPHDHYEPKTGIEKWLHDRLPIVGLVYDTIMIPTPKNLNWWWIWGIVLAFTLVLQIVTGIVLAMHYTPHVDLAFASVEHIMRDVNGGWAMRYIHANGASLFFLAVYIHIFRGLYYGSYKAPREITWIVGMVIYLLMMGTAFMGYVLPWGQMSFWGATVITGLFGAIPGIGPSIQAWLLGGPAVDNATLNRFFSLHYLLPFVIAALVAIHIWAFHTTGNNNPTGVEVRRTSKADAEKDTLPFWPYFVIKDLFALALVLLGFFAVVAYMPNYLGHPDNYVQANPLSTPAHIVPEWYFLPFYAILRAFAADVWVVILVDGLTFGIVDAKFFGVIAMFGAIAVMALAPWLDTSKVRSGAYRPKFRMWFWFLVLDFVVLTWVGAMPTEYPYDWISLIASTYWFAYFLVILPLLGATEKPEPIPASIEEDFNSHY 1zs3-a1-m1-cE_1zs3-a1-m1-cL The crystal structure of the Lactococcus lactis MG1363 DpsB protein 2.7 X-RAY DIFFRACTION 15 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 171 171 1zs3-a1-m1-cA_1zs3-a1-m1-cH 1zs3-a1-m1-cA_1zs3-a1-m1-cK 1zs3-a1-m1-cB_1zs3-a1-m1-cF 1zs3-a1-m1-cB_1zs3-a1-m1-cJ 1zs3-a1-m1-cC_1zs3-a1-m1-cE 1zs3-a1-m1-cC_1zs3-a1-m1-cL 1zs3-a1-m1-cD_1zs3-a1-m1-cG 1zs3-a1-m1-cD_1zs3-a1-m1-cI 1zs3-a1-m1-cF_1zs3-a1-m1-cJ 1zs3-a1-m1-cG_1zs3-a1-m1-cI 1zs3-a1-m1-cH_1zs3-a1-m1-cK TKLMIDEKYAKELDKAEIDHHKPTAGAMLGHVLSNLFIENIRLTQAGIYAKSPVKCEYLREIAQREVEYFFKISDLLLDENEIVPSTTEEFLKYHKFITEDPKAKYWTDEDLLESFIVDFQAQNMFITRAIKLANKEEKFALAAGVVELYGYNLQVIRNLAGDLGKSVADF TKLMIDEKYAKELDKAEIDHHKPTAGAMLGHVLSNLFIENIRLTQAGIYAKSPVKCEYLREIAQREVEYFFKISDLLLDENEIVPSTTEEFLKYHKFITEDPKAKYWTDEDLLESFIVDFQAQNMFITRAIKLANKEEKFALAAGVVELYGYNLQVIRNLAGDLGKSVADF 1zs3-a1-m1-cG_1zs3-a1-m1-cL The crystal structure of the Lactococcus lactis MG1363 DpsB protein 2.7 X-RAY DIFFRACTION 26 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 171 171 1zs3-a1-m1-cA_1zs3-a1-m1-cE 1zs3-a1-m1-cA_1zs3-a1-m1-cI 1zs3-a1-m1-cB_1zs3-a1-m1-cG 1zs3-a1-m1-cB_1zs3-a1-m1-cL 1zs3-a1-m1-cC_1zs3-a1-m1-cH 1zs3-a1-m1-cC_1zs3-a1-m1-cJ 1zs3-a1-m1-cD_1zs3-a1-m1-cF 1zs3-a1-m1-cD_1zs3-a1-m1-cK 1zs3-a1-m1-cE_1zs3-a1-m1-cI 1zs3-a1-m1-cF_1zs3-a1-m1-cK 1zs3-a1-m1-cH_1zs3-a1-m1-cJ TKLMIDEKYAKELDKAEIDHHKPTAGAMLGHVLSNLFIENIRLTQAGIYAKSPVKCEYLREIAQREVEYFFKISDLLLDENEIVPSTTEEFLKYHKFITEDPKAKYWTDEDLLESFIVDFQAQNMFITRAIKLANKEEKFALAAGVVELYGYNLQVIRNLAGDLGKSVADF TKLMIDEKYAKELDKAEIDHHKPTAGAMLGHVLSNLFIENIRLTQAGIYAKSPVKCEYLREIAQREVEYFFKISDLLLDENEIVPSTTEEFLKYHKFITEDPKAKYWTDEDLLESFIVDFQAQNMFITRAIKLANKEEKFALAAGVVELYGYNLQVIRNLAGDLGKSVADF 1zs3-a1-m1-cJ_1zs3-a1-m1-cL The crystal structure of the Lactococcus lactis MG1363 DpsB protein 2.7 X-RAY DIFFRACTION 85 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 171 171 1zs3-a1-m1-cA_1zs3-a1-m1-cC 1zs3-a1-m1-cB_1zs3-a1-m1-cD 1zs3-a1-m1-cE_1zs3-a1-m1-cG 1zs3-a1-m1-cF_1zs3-a1-m1-cH 1zs3-a1-m1-cI_1zs3-a1-m1-cK TKLMIDEKYAKELDKAEIDHHKPTAGAMLGHVLSNLFIENIRLTQAGIYAKSPVKCEYLREIAQREVEYFFKISDLLLDENEIVPSTTEEFLKYHKFITEDPKAKYWTDEDLLESFIVDFQAQNMFITRAIKLANKEEKFALAAGVVELYGYNLQVIRNLAGDLGKSVADF TKLMIDEKYAKELDKAEIDHHKPTAGAMLGHVLSNLFIENIRLTQAGIYAKSPVKCEYLREIAQREVEYFFKISDLLLDENEIVPSTTEEFLKYHKFITEDPKAKYWTDEDLLESFIVDFQAQNMFITRAIKLANKEEKFALAAGVVELYGYNLQVIRNLAGDLGKSVADF 1zs4-a1-m1-cC_1zs4-a1-m1-cA Structure of bacteriophage lambda cII protein in complex with DNA P03042 P03042 1.7 X-RAY DIFFRACTION 14 0.987 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 79 82 8igr-a1-m1-cA_8igr-a1-m1-cC ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTNKK GSHMANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTNK 1zs4-a1-m1-cC_1zs4-a1-m1-cB Structure of bacteriophage lambda cII protein in complex with DNA P03042 P03042 1.7 X-RAY DIFFRACTION 47 0.987 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 79 82 8igr-a1-m1-cB_8igr-a1-m1-cC ANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTNKK GSHMANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTNK 1zs4-a1-m1-cD_1zs4-a1-m1-cA Structure of bacteriophage lambda cII protein in complex with DNA P03042 P03042 1.7 X-RAY DIFFRACTION 12 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 73 82 8igr-a1-m1-cD_8igr-a1-m1-cA RNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILT GSHMANKRNEALRIESALLNKIAMLGTEKTAEAVGVDKSQISRWKRDWIPKFSMLLAVLEWGVVDDDMARLARQVAAILTNK 1zs6-a1-m1-cB_1zs6-a1-m2-cB structure of human nucleoside-diphosphate kinase 3 Q13232 Q13232 2.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 152 TGAHERTFLAVKPDGVQRRLVGEIVRRFERKGFKLVALKLVQASEELLREHYAELRERPFYGRLVKYMASGPVVAMVWQGLDVVRTSRALIGATNPADAPPGTIRGDFCIEVGKNLIHGSDSVESARREIALWFRADELLCWEDSAGHWLYE TGAHERTFLAVKPDGVQRRLVGEIVRRFERKGFKLVALKLVQASEELLREHYAELRERPFYGRLVKYMASGPVVAMVWQGLDVVRTSRALIGATNPADAPPGTIRGDFCIEVGKNLIHGSDSVESARREIALWFRADELLCWEDSAGHWLYE 1zs6-a1-m2-cA_1zs6-a1-m2-cB structure of human nucleoside-diphosphate kinase 3 Q13232 Q13232 2.3 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 152 1zs6-a1-m1-cA_1zs6-a1-m1-cB 1zs6-a1-m1-cA_1zs6-a1-m2-cD 1zs6-a1-m1-cB_1zs6-a1-m2-cD 1zs6-a1-m1-cD_1zs6-a1-m2-cA 1zs6-a1-m1-cD_1zs6-a1-m2-cB TGAHERTFLAVKPDGVQRRLVGEIVRRFERKGFKLVALKLVQASEELLREHYAELRERPFYGRLVKYMASGPVVAMVWQGLDVVRTSRALIGATNPADAPPGTIRGDFCIEVGKNLIHGSDSVESARREIALWFRADELLCWEDSAGHWLYE TGAHERTFLAVKPDGVQRRLVGEIVRRFERKGFKLVALKLVQASEELLREHYAELRERPFYGRLVKYMASGPVVAMVWQGLDVVRTSRALIGATNPADAPPGTIRGDFCIEVGKNLIHGSDSVESARREIALWFRADELLCWEDSAGHWLYE 1zs6-a1-m2-cB_1zs6-a1-m2-cD structure of human nucleoside-diphosphate kinase 3 Q13232 Q13232 2.3 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 152 1zs6-a1-m1-cA_1zs6-a1-m2-cA 1zs6-a1-m1-cB_1zs6-a1-m1-cD TGAHERTFLAVKPDGVQRRLVGEIVRRFERKGFKLVALKLVQASEELLREHYAELRERPFYGRLVKYMASGPVVAMVWQGLDVVRTSRALIGATNPADAPPGTIRGDFCIEVGKNLIHGSDSVESARREIALWFRADELLCWEDSAGHWLYE TGAHERTFLAVKPDGVQRRLVGEIVRRFERKGFKLVALKLVQASEELLREHYAELRERPFYGRLVKYMASGPVVAMVWQGLDVVRTSRALIGATNPADAPPGTIRGDFCIEVGKNLIHGSDSVESARREIALWFRADELLCWEDSAGHWLYE 1zs8-a6-m2-cG_1zs8-a6-m4-cC Crystal Structure of the Murine MHC Class Ib Molecule M10.5 Q860W6 Q860W6 3 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 261 261 1zs8-a6-m1-cA_1zs8-a6-m1-cI 1zs8-a6-m1-cA_1zs8-a6-m3-cE 1zs8-a6-m1-cI_1zs8-a6-m2-cG SHWLKTFRIVIMEPGILEPRFIQVSYVDSIQYQGFDSRSGMQPRAAWMKQEPPEYWKNETEHAMGASLLARRTLIYMVTENNNKKNDYHTLQEVFGCNVAHDGSFLGGHYGLTYYGYDYIILNEDLNSWTTEGKVGGKFNSVTEGWRTYLKGECTERFLRCLDLGKETLLRSDAPRTHVTHKVTVTLRCWALGFYPADITLTWKRDGKNHTQDMELPDTRPAGDGTFQKWAAVVVPFGEELRYTCHVHHEGLPGPLTLKWG SHWLKTFRIVIMEPGILEPRFIQVSYVDSIQYQGFDSRSGMQPRAAWMKQEPPEYWKNETEHAMGASLLARRTLIYMVTENNNKKNDYHTLQEVFGCNVAHDGSFLGGHYGLTYYGYDYIILNEDLNSWTTEGKVGGKFNSVTEGWRTYLKGECTERFLRCLDLGKETLLRSDAPRTHVTHKVTVTLRCWALGFYPADITLTWKRDGKNHTQDMELPDTRPAGDGTFQKWAAVVVPFGEELRYTCHVHHEGLPGPLTLKWG 1zso-a1-m1-cA_1zso-a1-m1-cB Hypothetical protein from plasmodium falciparum Q8IDI8 Q8IDI8 2.17 X-RAY DIFFRACTION 40 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 153 156 KNTVVRIKAELENVKRLFCDDEYLWIFNIRDSTSSLTRDNIQFRKTDILEIPNSRGTANFIKWTEYPKYSTINFVNTKNSCSYEEVNNNEWRDFASFECRGIELIDFFPSNNFIVEDTKGKLYYDVNLSDQNWCDYNEEHECVGIYNLEYEVN HHHKNTVVRIKAELENVKRLFCDDEYLWIFNIRDSTSSLTRDNIQFRKTDILEIPNSRGTANFIKWTEYPKYSTINFVNTKNSCSYEEVNNNEWRDFASFECRGIELIDFFPSNNFIVEDTKGKLYYDVNLSDQNWCDYNEEHECVGIYNLEYEVN 1zsv-a3-m1-cA_1zsv-a3-m1-cD Crystal structure of human NADP-dependent leukotriene B4 12-hydroxydehydrogenase Q14914 Q14914 2.3 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 328 328 1zsv-a3-m1-cB_1zsv-a3-m1-cC SMTKTWTLKKHFVGYPTNSDFELKTSELPPLKNGEVLLEALFLTVDPYMRVAAKRLKEGDTMMGQQVAKVVESKNVALPKGTIVLASPGWTTHSISDGKDLEKLLTEWPDTIPLSLALGTVGMPGLTAYFGLLEICGVKGGETVMVNAAAGAVGSVVGQIAKLKGCKVVGAVGSDEKVAYLQKLGFDVVFNYKTVESLEETLKKASPDGYDCYFDNVGGEFSNTVIGQMKKFGRIAICGAISTYNRTGPLPPGPPPEIVIYQELRMEAFVVYRWQGDARQKALKDLLKWVLEGKIQYKEYIIEGFENMPAAFMGMLKGDNLGKTIVKA SMTKTWTLKKHFVGYPTNSDFELKTSELPPLKNGEVLLEALFLTVDPYMRVAAKRLKEGDTMMGQQVAKVVESKNVALPKGTIVLASPGWTTHSISDGKDLEKLLTEWPDTIPLSLALGTVGMPGLTAYFGLLEICGVKGGETVMVNAAAGAVGSVVGQIAKLKGCKVVGAVGSDEKVAYLQKLGFDVVFNYKTVESLEETLKKASPDGYDCYFDNVGGEFSNTVIGQMKKFGRIAICGAISTYNRTGPLPPGPPPEIVIYQELRMEAFVVYRWQGDARQKALKDLLKWVLEGKIQYKEYIIEGFENMPAAFMGMLKGDNLGKTIVKA 1zsv-a3-m1-cC_1zsv-a3-m1-cD Crystal structure of human NADP-dependent leukotriene B4 12-hydroxydehydrogenase Q14914 Q14914 2.3 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 328 328 1zsv-a1-m1-cA_1zsv-a1-m1-cB 1zsv-a2-m1-cC_1zsv-a2-m1-cD 1zsv-a3-m1-cA_1zsv-a3-m1-cB SMTKTWTLKKHFVGYPTNSDFELKTSELPPLKNGEVLLEALFLTVDPYMRVAAKRLKEGDTMMGQQVAKVVESKNVALPKGTIVLASPGWTTHSISDGKDLEKLLTEWPDTIPLSLALGTVGMPGLTAYFGLLEICGVKGGETVMVNAAAGAVGSVVGQIAKLKGCKVVGAVGSDEKVAYLQKLGFDVVFNYKTVESLEETLKKASPDGYDCYFDNVGGEFSNTVIGQMKKFGRIAICGAISTYNRTGPLPPGPPPEIVIYQELRMEAFVVYRWQGDARQKALKDLLKWVLEGKIQYKEYIIEGFENMPAAFMGMLKGDNLGKTIVKA SMTKTWTLKKHFVGYPTNSDFELKTSELPPLKNGEVLLEALFLTVDPYMRVAAKRLKEGDTMMGQQVAKVVESKNVALPKGTIVLASPGWTTHSISDGKDLEKLLTEWPDTIPLSLALGTVGMPGLTAYFGLLEICGVKGGETVMVNAAAGAVGSVVGQIAKLKGCKVVGAVGSDEKVAYLQKLGFDVVFNYKTVESLEETLKKASPDGYDCYFDNVGGEFSNTVIGQMKKFGRIAICGAISTYNRTGPLPPGPPPEIVIYQELRMEAFVVYRWQGDARQKALKDLLKWVLEGKIQYKEYIIEGFENMPAAFMGMLKGDNLGKTIVKA 1zt2-a5-m1-cC_1zt2-a5-m3-cA Heterodimeric structure of the core primase. Q97Z83 Q97Z83 3.33 X-RAY DIFFRACTION 53 0.997 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 320 327 1zt2-a4-m3-cC_1zt2-a4-m1-cA TNLIKSFFRNYYLNAELELPKDMELREFALQPFGSDTYVRHLSFSSSEELRDYLVNRNLPLHLFYSSARYQLPSARNMEEKAWMGSDLLFDIDADHLCKLRSIRFCPVCGNAVVSEKCERDNVETLEYVEMTSECIKRGLEQTRNLVEILEDDFGLKPKVYFSGNRGFHVQVDCYGNCALLDSDERKEIAEYVMGIGVPGYPGGSENAPGWVGRKNRGINGVTIDEQVTIDVKRLIRIPNSLHGKSGLIVKRVPNLDDFEFNETLSPFTGYTIFLPYITIETEVLGSIIKLNRGIPIKIKSSIGIYLHLRNLGEVKAYVR TFTLHQGQTNLIKSFFRNYYLNAELELPKDMELREFALQPFGSDTYVRHLSFSSSEELRDYLVNRNLPLHLFYSSARYQLPSARNMEEKAWMGSDLLFDIDADHLCKLRSIRFCPVCGNAVVSEKCERDNVETLEYVEMTSECIKRGLEQTRNLVEILEDDFGLKPKVYFSGNRGFHVQVDCYGNCALLDSDERKEIAEYVMGIGVPGYPGGSENAPGWVGRKNRGINGVTIDEQVTIDVKRLIRIPNSLHGKSGLIVKRVPNLDDFEFNETLSPFTGYTIFLPYITIETEVLGSIIKLNRGIPIKIKSSIGIYLHLRNLGEVKAYV 1zt4-a3-m1-cA_1zt4-a3-m1-cC The crystal structure of human CD1d with and without alpha-Galactosylceramide P15813 P15813 3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 278 RLFPLRCLQISSFANSSWTRTDGLAWLGELQTHSWSNDSDTVRSLKPWSQGTFSDQQWETLQHIFRVYRSSFTRDVKEFAKMLRLSYPLELQVSAGCEVHPGNASNNFFHVAFQGKDILSFQGTSWEPTQEAPLWVNLAIQVLNQDKWTRETVQWLLNGTCPQFVSGLLESGKSELKKQVKPKAWLSRGPSPGPGRLLLVCHVSGFYPKPVWVKWMRGEQEQQGTQPGDILPNADETWYLRATLDVVAGEAAGLSCRVKHSSLEGQDIVLYW PQRLFPLRCLQISSFANSSWTRTDGLAWLGELQTHSWSNDSDTVRSLKPWSQGTFSDQQWETLQHIFRVYRSSFTRDVKEFAKMLRLSYPLELQVSAGCEVHPGNASNNFFHVAFQGKDILSFQGTSWEPTQEAPLWVNLAIQVLNQDKWTRETVQWLLNGTCPQFVSGLLESGKSELKKQVKPKAWLSRGPSPGPGRLLLVCHVSGFYPKPVWVKWMRGEQEQQGTQPGDILPNADETWYLRATLDVVAGEAAGLSCRVKHSSLEGQDIVLYWGGSY 1ztc-a1-m1-cD_1ztc-a1-m1-cA Crystal structure of a putative metallo-beta-lactamase (tm0894) from Thermotoga maritima at 2.10 A resolution Q9WZZ6 Q9WZZ6 2.1 X-RAY DIFFRACTION 57 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 206 207 1ztc-a1-m1-cC_1ztc-a1-m1-cB HHELKILVTGGNVFVPGRLNAHFSTVVYLEHKDRRIIIDPGNLSSDELEEKFSELGISPDDITDVLFTHVHLDHIFNSVLFENATFYVHEVYKTKNYLSFGTIVGRIYSKVISSWKNVVLLKGEESLFDEKVKVFHTPWHAREHLSFLLDTENAGRVLITGDITPNRLSYYDIIKGYGSVQVKNFLDRVGRIDLLVFPHDAPLKPE HHELKILVTGGNVFVPGRLNAHFSTVVYLEHKDRRIIIDPGNLSSDELEEKFSELGISPDDITDVLFTHVHLDHIFNSVLFENATFYVHEVYKTKNYLSFGTIVGRIYSKVISSWKNVVLLKGEESLFDEKVKVFHTPWHAREHLSFLLDTENAGRVLITGDITPNRLSYYDIIKGYGSVQVKNFLDRVGRIDLLVFPHDAPLKPEV 1ztc-a1-m1-cD_1ztc-a1-m1-cB Crystal structure of a putative metallo-beta-lactamase (tm0894) from Thermotoga maritima at 2.10 A resolution Q9WZZ6 Q9WZZ6 2.1 X-RAY DIFFRACTION 85 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 206 207 1ztc-a1-m1-cC_1ztc-a1-m1-cA HHELKILVTGGNVFVPGRLNAHFSTVVYLEHKDRRIIIDPGNLSSDELEEKFSELGISPDDITDVLFTHVHLDHIFNSVLFENATFYVHEVYKTKNYLSFGTIVGRIYSKVISSWKNVVLLKGEESLFDEKVKVFHTPWHAREHLSFLLDTENAGRVLITGDITPNRLSYYDIIKGYGSVQVKNFLDRVGRIDLLVFPHDAPLKPE HHELKILVTGGNVFVPGRLNAHFSTVVYLEHKDRRIIIDPGNLSSDELEEKFSELGISPDDITDVLFTHVHLDHIFNSVLFENATFYVHEVYKTKNYLSFGTIVGRIYSKVISSWKNVVLLKGEESLFDEKVKVFHTPWHAREHLSFLLDTENAGRVLITGDITPNRLSYYDIIKGYGSVQVKNFLDRVGRIDLLVFPHDAPLKPEV 1ztd-a1-m1-cA_1ztd-a1-m1-cB Hypothetical Protein Pfu-631545-001 From Pyrococcus furiosus Q8U363 Q8U363 2 X-RAY DIFFRACTION 64 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 125 125 SEIDKGLAKFGDSLINFLYSLALTEFLGKPTGDRVPNASLAIALELTGLSKNLRRVDKHAKGDYAEALIAKAWLMGLISEREAVEIIKKNLYPEVLDFSKKKEAIGRALAPLLVIISERLYSSQV SEIDKGLAKFGDSLINFLYSLALTEFLGKPTGDRVPNASLAIALELTGLSKNLRRVDKHAKGDYAEALIAKAWLMGLISEREAVEIIKKNLYPEVLDFSKKKEAIGRALAPLLVIISERLYSSQV 1ztv-a1-m1-cB_1ztv-a1-m1-cA Crystal structure of a duf72 family protein (ef0366) from enterococcus faecalis v583 at 3.10 A resolution Q838R9 Q838R9 3.1 X-RAY DIFFRACTION 60 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 275 279 MIRLGLTSFSEHDYLTGKKRSTLYEYASHLPLVEMDTAYYGIPPKERVAEWVKAVPENFRFVMKVYSGISCQGEWQTYYASEEEMITAFLESMAPLIESKKLFAFLVQFSGTFGCTKENVAYLQKIRHWFKDLPIAIELRNNSWYQPNFVKQMLQFMKENQFSLVIVDEPQIPTNPVPFYPYVTNPNLVLFRFHGRNAAGWLANDAEWRKKRTLYHYNTQEIADLSEAVLKMSQEAKEVGVIFNNNSGGDAAENALQMQKVLNLSYDDLNPKQLD HHHHMIRLGLTSFSEHDYLTGKKRSTLYEYASHLPLVEMDTAYYGIPPKERVAEWVKAVPENFRFVMKVYSGISCQGEWQTYYASEEEMITAFLESMAPLIESKKLFAFLVQFSGTFGCTKENVAYLQKIRHWFKDLPIAIELRNNSWYQPNFVKQMLQFMKENQFSLVIVDEPQIPTNPVPFYPYVTNPNLVLFRFHGRNAAGWLANDAEWRKKRTLYHYNTQEIADLSEAVLKMSQEAKEVGVIFNNNSGGDAAENALQMQKVLNLSYDDLNPKQLD 1ztz-a2-m1-cA_1ztz-a2-m2-cB Crystal structure of HIV protease- metallacarborane complex P03367 P03367 2.15 X-RAY DIFFRACTION 16 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1ztz-a2-m1-cB_1ztz-a2-m2-cA 3i8w-a2-m1-cA_3i8w-a2-m3-cA PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1ztz-a2-m1-cB_1ztz-a2-m2-cB Crystal structure of HIV protease- metallacarborane complex P03367 P03367 2.15 X-RAY DIFFRACTION 44 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1ztz-a2-m1-cA_1ztz-a2-m2-cA PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1ztz-a2-m2-cA_1ztz-a2-m2-cB Crystal structure of HIV protease- metallacarborane complex P03367 P03367 2.15 X-RAY DIFFRACTION 105 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1aid-a1-m1-cA_1aid-a1-m1-cB 1hhp-a1-m1-cA_1hhp-a1-m2-cA 1ztz-a1-m1-cA_1ztz-a1-m1-cB 1ztz-a2-m1-cA_1ztz-a2-m1-cB 2g69-a1-m1-cA_2g69-a1-m2-cA 2hb4-a1-m1-cA_2hb4-a1-m2-cA 2hvp-a1-m1-cA_2hvp-a1-m2-cA 2pc0-a1-m1-cA_2pc0-a1-m2-cA 2r8n-a1-m1-cA_2r8n-a1-m2-cA 3bc4-a1-m1-cA_3bc4-a1-m2-cA 3hvp-a1-m1-cA_3hvp-a1-m2-cA 3i8w-a1-m1-cA_3i8w-a1-m2-cA 3phv-a1-m1-cA_3phv-a1-m2-cA 3t11-a1-m1-cA_3t11-a1-m1-cB 3u71-a1-m1-cA_3u71-a1-m2-cA 4ej8-a1-m1-cA_4ej8-a1-m1-cB 5vj3-a1-m1-cA_5vj3-a1-m2-cA 6i45-a1-m1-cA_6i45-a1-m2-cA 7yf6-a1-m1-cA_7yf6-a1-m1-cB 8ci7-a1-m1-cA_8ci7-a1-m2-cA PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 1zuc-a1-m1-cA_1zuc-a1-m1-cB Progesterone receptor ligand binding domain in complex with the nonsteroidal agonist tanaproget P06401 P06401 2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 251 1sr7-a1-m1-cA_1sr7-a1-m1-cB 3g8o-a1-m1-cA_3g8o-a1-m1-cB 3hq5-a1-m1-cA_3hq5-a1-m1-cB QLIPPLINLLMSIEPDVIYAGHDNTKPDTSSSLLTSLNQLGERQLLSVVKWSKSLPGFRNLHIDDQITLIQYSWMSLMVFGLGWRSYKHVSGQMLYFAPDLILNEQRMKESSFYSLCLTMWQIPQEFVKLQVSQEEFLCMKVLLLLNTIPLEGLRSQTQFEEMRSSYIRELIKAIGLRQKGVVSSSQRFYQLTKLLDNLHDLVKQLHLYCLNTFIQSRALSVEFPEMMSEVIAAQLPKILAGMVKPLLFHK QLIPPLINLLMSIEPDVIYAGHDNTKPDTSSSLLTSLNQLGERQLLSVVKWSKSLPGFRNLHIDDQITLIQYSWMSLMVFGLGWRSYKHVSGQMLYFAPDLILNEQRMKESSFYSLCLTMWQIPQEFVKLQVSQEEFLCMKVLLLLNTIPLEGLRSQTQFEEMRSSYIRELIKAIGLRQKGVVSSSQRFYQLTKLLDNLHDLVKQLHLYCLNTFIQSRALSVEFPEMMSEVIAAQLPKILAGMVKPLLFHK 1zuj-a1-m2-cC_1zuj-a1-m3-cD The crystal structure of the Lactococcus lactis MG1363 DpsA protein 2.9 X-RAY DIFFRACTION 11 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 168 168 1zuj-a1-m1-cA_1zuj-a1-m1-cD 1zuj-a1-m1-cA_1zuj-a1-m3-cC 1zuj-a1-m1-cB_1zuj-a1-m2-cB 1zuj-a1-m1-cB_1zuj-a1-m3-cB 1zuj-a1-m1-cC_1zuj-a1-m2-cA 1zuj-a1-m1-cC_1zuj-a1-m2-cD 1zuj-a1-m1-cD_1zuj-a1-m3-cC 1zuj-a1-m2-cA_1zuj-a1-m2-cD 1zuj-a1-m2-cB_1zuj-a1-m3-cB 1zuj-a1-m2-cC_1zuj-a1-m3-cA 1zuj-a1-m3-cA_1zuj-a1-m3-cD SIDEKYEAEVKKSEIDHHKPTAGAMLSHVLSNIFYEKISLMQAGLYAKSANYRIKFREIALKEDEWFYLISEQLLDENELVPTTLDEFVSNHKFIENDPKAKYWTDEALIENFINDFQNQNLFIGRAIKLAQKEEKFSLELAIRKLYGYNLSIIPYFAGELGKTIGEF SIDEKYEAEVKKSEIDHHKPTAGAMLSHVLSNIFYEKISLMQAGLYAKSANYRIKFREIALKEDEWFYLISEQLLDENELVPTTLDEFVSNHKFIENDPKAKYWTDEALIENFINDFQNQNLFIGRAIKLAQKEEKFSLELAIRKLYGYNLSIIPYFAGELGKTIGEF 1zuj-a1-m2-cD_1zuj-a1-m3-cD The crystal structure of the Lactococcus lactis MG1363 DpsA protein 2.9 X-RAY DIFFRACTION 28 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 168 168 1zuj-a1-m1-cA_1zuj-a1-m1-cC 1zuj-a1-m1-cA_1zuj-a1-m2-cB 1zuj-a1-m1-cB_1zuj-a1-m3-cA 1zuj-a1-m1-cB_1zuj-a1-m3-cC 1zuj-a1-m1-cC_1zuj-a1-m2-cB 1zuj-a1-m1-cD_1zuj-a1-m2-cD 1zuj-a1-m1-cD_1zuj-a1-m3-cD 1zuj-a1-m2-cA_1zuj-a1-m2-cC 1zuj-a1-m2-cA_1zuj-a1-m3-cB 1zuj-a1-m2-cC_1zuj-a1-m3-cB 1zuj-a1-m3-cA_1zuj-a1-m3-cC SIDEKYEAEVKKSEIDHHKPTAGAMLSHVLSNIFYEKISLMQAGLYAKSANYRIKFREIALKEDEWFYLISEQLLDENELVPTTLDEFVSNHKFIENDPKAKYWTDEALIENFINDFQNQNLFIGRAIKLAQKEEKFSLELAIRKLYGYNLSIIPYFAGELGKTIGEF SIDEKYEAEVKKSEIDHHKPTAGAMLSHVLSNIFYEKISLMQAGLYAKSANYRIKFREIALKEDEWFYLISEQLLDENELVPTTLDEFVSNHKFIENDPKAKYWTDEALIENFINDFQNQNLFIGRAIKLAQKEEKFSLELAIRKLYGYNLSIIPYFAGELGKTIGEF 1zuj-a1-m3-cC_1zuj-a1-m3-cD The crystal structure of the Lactococcus lactis MG1363 DpsA protein 2.9 X-RAY DIFFRACTION 70 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 168 168 1zuj-a1-m1-cA_1zuj-a1-m1-cB 1zuj-a1-m1-cC_1zuj-a1-m1-cD 1zuj-a1-m2-cA_1zuj-a1-m2-cB 1zuj-a1-m2-cC_1zuj-a1-m2-cD 1zuj-a1-m3-cA_1zuj-a1-m3-cB SIDEKYEAEVKKSEIDHHKPTAGAMLSHVLSNIFYEKISLMQAGLYAKSANYRIKFREIALKEDEWFYLISEQLLDENELVPTTLDEFVSNHKFIENDPKAKYWTDEALIENFINDFQNQNLFIGRAIKLAQKEEKFSLELAIRKLYGYNLSIIPYFAGELGKTIGEF SIDEKYEAEVKKSEIDHHKPTAGAMLSHVLSNIFYEKISLMQAGLYAKSANYRIKFREIALKEDEWFYLISEQLLDENELVPTTLDEFVSNHKFIENDPKAKYWTDEALIENFINDFQNQNLFIGRAIKLAQKEEKFSLELAIRKLYGYNLSIIPYFAGELGKTIGEF 1zuo-a4-m1-cA_1zuo-a4-m9-cA Structure of Human Ubiquitin-Conjugating Enzyme (UBCi) Involved in Embryo Attachment and Implantation Q8WVN8 Q8WVN8 1.8 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 162 GSVQASDRLMKELRDIYRSQSYKTGIYSVELINDSLYDWHVKLQKVDPDSPLHSDLQILKEKEGIEYILLNFSFKDNFPFDPPFVRVVLPVLSGGYVLGGGALCMELLTKQGWSSAYSIESVIMQINATLVKGKARVQFGANKNQYNLARAQQSYNSIVQIH GSVQASDRLMKELRDIYRSQSYKTGIYSVELINDSLYDWHVKLQKVDPDSPLHSDLQILKEKEGIEYILLNFSFKDNFPFDPPFVRVVLPVLSGGYVLGGGALCMELLTKQGWSSAYSIESVIMQINATLVKGKARVQFGANKNQYNLARAQQSYNSIVQIH 1zuo-a5-m1-cB_1zuo-a5-m8-cB Structure of Human Ubiquitin-Conjugating Enzyme (UBCi) Involved in Embryo Attachment and Implantation Q8WVN8 Q8WVN8 1.8 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 1zuo-a3-m1-cB_1zuo-a3-m8-cB 1zuo-a3-m2-cB_1zuo-a3-m7-cB 1zuo-a3-m3-cB_1zuo-a3-m6-cB 1zuo-a3-m4-cB_1zuo-a3-m5-cB GSVQASDRLMKELRDIYRSQSYKTGIYSVELINDSLYDWHVKLQKVDPDSPLHSDLQILKEKEGIEYILLNFSFKDNFPFDPPFVRVVLPVLSGGYVLGGGALCMELLTKQGWSSAYSIESVIMQINATLVKGKARVQFG GSVQASDRLMKELRDIYRSQSYKTGIYSVELINDSLYDWHVKLQKVDPDSPLHSDLQILKEKEGIEYILLNFSFKDNFPFDPPFVRVVLPVLSGGYVLGGGALCMELLTKQGWSSAYSIESVIMQINATLVKGKARVQFG 1zuo-a6-m1-cB_1zuo-a6-m5-cB Structure of Human Ubiquitin-Conjugating Enzyme (UBCi) Involved in Embryo Attachment and Implantation Q8WVN8 Q8WVN8 1.8 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 1zuo-a3-m1-cB_1zuo-a3-m5-cB 1zuo-a3-m2-cB_1zuo-a3-m6-cB 1zuo-a3-m3-cB_1zuo-a3-m8-cB 1zuo-a3-m4-cB_1zuo-a3-m7-cB GSVQASDRLMKELRDIYRSQSYKTGIYSVELINDSLYDWHVKLQKVDPDSPLHSDLQILKEKEGIEYILLNFSFKDNFPFDPPFVRVVLPVLSGGYVLGGGALCMELLTKQGWSSAYSIESVIMQINATLVKGKARVQFG GSVQASDRLMKELRDIYRSQSYKTGIYSVELINDSLYDWHVKLQKVDPDSPLHSDLQILKEKEGIEYILLNFSFKDNFPFDPPFVRVVLPVLSGGYVLGGGALCMELLTKQGWSSAYSIESVIMQINATLVKGKARVQFG 1zup-a2-m1-cB_1zup-a2-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE NUCLEASE WITH A RIBONUCLEASE H-LIKE MOTIF FOLD (TM1739) FROM THERMOTOGA MARITIMA AT 2.20 A RESOLUTION Q9X261 Q9X261 2.2 X-RAY DIFFRACTION 39 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 282 282 1zup-a2-m1-cA_1zup-a2-m2-cA RIERAERIESELEEHVGDQTFVEESRFLEEDEQREGEILDQIIFVDGKRRSFVRITTDEGITGIFAELCVGAVIWDREGGTKTLFSPDKPPVKERVLGFSQSFQEEGYEEVGGILFKVVKEGKDAQSIDLYRSLEIEEVRKHDKNILIVKDGPAARELPFEENVGPIGLVKNIGVTELSKEDFKKLRFLKKGKRSKFVSKVGAYVKLIDGEGIRGLVRLETYDDNQIPYIRKVFDDLAKTLPHLTADLPLPENILPIQFLEENLSYYLTDKNYNTRLFAYIG RIERAERIESELEEHVGDQTFVEESRFLEEDEQREGEILDQIIFVDGKRRSFVRITTDEGITGIFAELCVGAVIWDREGGTKTLFSPDKPPVKERVLGFSQSFQEEGYEEVGGILFKVVKEGKDAQSIDLYRSLEIEEVRKHDKNILIVKDGPAARELPFEENVGPIGLVKNIGVTELSKEDFKKLRFLKKGKRSKFVSKVGAYVKLIDGEGIRGLVRLETYDDNQIPYIRKVFDDLAKTLPHLTADLPLPENILPIQFLEENLSYYLTDKNYNTRLFAYIG 1zup-a2-m2-cB_1zup-a2-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE NUCLEASE WITH A RIBONUCLEASE H-LIKE MOTIF FOLD (TM1739) FROM THERMOTOGA MARITIMA AT 2.20 A RESOLUTION Q9X261 Q9X261 2.2 X-RAY DIFFRACTION 156 0.986 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 282 287 1zup-a1-m1-cB_1zup-a1-m1-cA 1zup-a2-m1-cB_1zup-a2-m1-cA RIERAERIESELEEHVGDQTFVEESRFLEEDEQREGEILDQIIFVDGKRRSFVRITTDEGITGIFAELCVGAVIWDREGGTKTLFSPDKPPVKERVLGFSQSFQEEGYEEVGGILFKVVKEGKDAQSIDLYRSLEIEEVRKHDKNILIVKDGPAARELPFEENVGPIGLVKNIGVTELSKEDFKKLRFLKKGKRSKFVSKVGAYVKLIDGEGIRGLVRLETYDDNQIPYIRKVFDDLAKTLPHLTADLPLPENILPIQFLEENLSYYLTDKNYNTRLFAYIG HHQVRIERAERIESELEEHVGDQTFVEESRFLEEDEQREGEILDQIIFVDGKRRSFVRITTDEGITGIFAELCVGAVIWDREGGTKTLFSPDKPPVKERVLGFSQSFQEEGYEEVGGILFKVVKEGKDAQSIDLYRSLEIEEVRKHDKNILIVKDGPAARELPFEENVGPIGLVKNIGVTELSKEDFKKLRFLKKGKRSKFVSSLKKVGAYVKLIDGEGIRGLVRLETYVKDDNQIPYIRKVFDDLAKTLPHLTADLPNILPIQFLEENLSYYLTDKNYNTRLFAYI 1zuw-a2-m1-cB_1zuw-a2-m2-cB Crystal structure of B.subtilis glutamate racemase (RacE) with D-Glu P94556 P94556 1.75 X-RAY DIFFRACTION 67 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 256 256 1zuw-a1-m1-cA_1zuw-a1-m1-cC LEQPIGVIDSGVGGLTVAKEIMRQLPKENIIYVGDTKRCPYGPRPEEEVLQYTWELTNYLLENHHIKMLVIACNTATAIALDDIQRSVGIPVVGVIQPGARAAIKVTDNQHIGVIGTENTIKSNAYEEALLALNPDLKVENLACPLLVPFVESGKFLDQTADEIVKTSLYPLKDTSIDSLILGCTHYPILKEAIQRYMGEHVNIISSGDETAREVSTILSYKGLLNQSPIAPDHQFLTTGARFAIADDWFVECISL LEQPIGVIDSGVGGLTVAKEIMRQLPKENIIYVGDTKRCPYGPRPEEEVLQYTWELTNYLLENHHIKMLVIACNTATAIALDDIQRSVGIPVVGVIQPGARAAIKVTDNQHIGVIGTENTIKSNAYEEALLALNPDLKVENLACPLLVPFVESGKFLDQTADEIVKTSLYPLKDTSIDSLILGCTHYPILKEAIQRYMGEHVNIISSGDETAREVSTILSYKGLLNQSPIAPDHQFLTTGARFAIADDWFVECISL 1zuy-a1-m1-cA_1zuy-a1-m1-cB High-resolution structure of yeast Myo5 SH3 domain Q04439 Q04439 1.39 X-RAY DIFFRACTION 33 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 58 58 PMFEAAYDFPGSGSPSELPLKKGDVIYITREEPSGWSLGKLLDGSKEGWVPTAYMKPH PMFEAAYDFPGSGSPSELPLKKGDVIYITREEPSGWSLGKLLDGSKEGWVPTAYMKPH 1zv1-a1-m1-cA_1zv1-a1-m1-cB Crystal structure of the dimerization domain of doublesex protein from D. melanogaster P23023 P23023 1.6 X-RAY DIFFRACTION 62 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 59 59 2jz0-a1-m1-cA_2jz0-a1-m1-cB 2jz1-a1-m1-cA_2jz1-a1-m1-cB QDVFLDYCQKLLEKFRYPWELMPLMYVILKDADANIEEASRRIEEGQYVVNEYSRQHNL QDVFLDYCQKLLEKFRYPWELMPLMYVILKDADANIEEASRRIEEGQYVVNEYSRQHNL 1zva-a1-m1-cA_1zva-a1-m2-cA A structure-based mechanism of SARS virus membrane fusion P59594 P59594 1.5 X-RAY DIFFRACTION 97 1.0 75 75 ALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDISGGRGGDISGINASVVNIQKEIDRLNEVAKNLNESLID ALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDISGGRGGDISGINASVVNIQKEIDRLNEVAKNLNESLID 1zvf-a1-m1-cB_1zvf-a1-m1-cA The crystal structure of 3-hydroxyanthranilate 3,4-dioxygenase from Saccharomyces cerevisiae P47096 P47096 2.41 X-RAY DIFFRACTION 123 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 172 176 AMFNTTPINIDKWLKENEGLLKPPVNNYCLHKGGFTVMIVGGPNERTDYHINPTPEWFYQKKGSMLLKVVDETDAEPKFIDIIINEGDSYLLPGNVPHSPVRFADTVGIVVEQDRPGGENDKIRWYCSHCRQVVHESELQMLDLGTQVKEAILDFENDVEKRTCFHCKTLNY AMFNTTPINIDKWLKENEGLLKPPVNNYCLHKGGFTVMIVGGPNERTDYHINPTPEWFYQKKGSMLLKVVDETDAEPKFIDIIINEGDSYLLPGNVPHSPVRFADTVGIVVEQDRPGGENDKIRWYCSHCRQVVHESELQMLDLGTQVKEAILDFENDVEKRTCFHCKTLNYARPQ 1zvm-a8-m1-cB_1zvm-a8-m2-cB Crystal structure of human CD38: cyclic-ADP-ribosyl synthetase/NAD+ glycohydrolase P28907 P28907 2.2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 1zvm-a5-m1-cC_1zvm-a5-m2-cC 1zvm-a6-m1-cD_1zvm-a6-m3-cD 1zvm-a7-m1-cA_1zvm-a7-m3-cA WRQQWSGPGTTKRFPETVLARCVKYTEIHPEMRHVDCQSVWDAFKGAFISKHPCDITEEDYQPLMKLGTQTVPCNKILLWSRIKDLAHQFTQVQRDMFTLEDTLLGYLADDLTWCGEFATSKINYQSCPDWRKDCSNNPVSVFWKTVSRRFAEAACDVVHVMLDGSRSKIFDKDSTFGSVEVHNLQPEKVQTLEAWVIHGGREDSRDLCQDPTIKELESIISKRNIQFSCKNIYRPDKFLQCVKNPEDSSCT WRQQWSGPGTTKRFPETVLARCVKYTEIHPEMRHVDCQSVWDAFKGAFISKHPCDITEEDYQPLMKLGTQTVPCNKILLWSRIKDLAHQFTQVQRDMFTLEDTLLGYLADDLTWCGEFATSKINYQSCPDWRKDCSNNPVSVFWKTVSRRFAEAACDVVHVMLDGSRSKIFDKDSTFGSVEVHNLQPEKVQTLEAWVIHGGREDSRDLCQDPTIKELESIISKRNIQFSCKNIYRPDKFLQCVKNPEDSSCT 1zvn-a1-m1-cA_1zvn-a1-m1-cB Crystal structure of chick MN-cadherin EC1 Q8QGH3 Q8QGH3 2.16 X-RAY DIFFRACTION 70 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 99 99 SGWVWNQFFVLEEYTGTDPLYVGKLHSDMDRGDGSIKYILSGEGAGIVFTIDDTTGDIHAIQRLDREERSQYTLRAQALDRRTGRPMEPESEFIIKIQD SGWVWNQFFVLEEYTGTDPLYVGKLHSDMDRGDGSIKYILSGEGAGIVFTIDDTTGDIHAIQRLDREERSQYTLRAQALDRRTGRPMEPESEFIIKIQD 1zvo-a1-m1-cC_1zvo-a1-m1-cD Semi-extended solution structure of human myeloma immunoglobulin D determined by constrained X-ray scattering P0DOX3 P0DOX3 NOT SOLUTION SCATTERING 204 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 512 512 RLQLQESGPGLVKPSETLSLTCIVSGGPIRRTGYYWGWIRQPPGKGLEWIGGVYYTGSIYYNPSLRGRVTISVDTSRNQFSLNLRSMSAADTAMYYCARGNPPPYYDIGTGSDDGIDVWGQGTTVHVSSAPTKAPDVFPIISGCRHPKDNSPVVLACLITGYHPTSVTVTWYMGTQSQPQRTFPEIQRRDSYYMTSSQLSTPLQQWRQGEYKCVVQHTASKSKKEIFRWPESPKAQASSVPTAQPQAEGSLAKATTAPATTRNTGRGGEEKKKEKEKEEQEERETKTPECPSHTQPLGVYLLTPAVQDLWLRDKATFTCFVVGSDLKDAHLTWEVAGKVPTGGVEEGLLERHSNGSQSQHSRLTLPRSLWNAGTSVTCTLNHPSLPPQRLMALREPAAQAPVKLSLNLLASSDPPEAASWLLCEVSGFSPPNILLMWLEDQREVNTSGFAPARPPPQPGSTTFWAWSVLRVPAPPSPQPATYTCVVSHEDSRTLLNASRSLEVSYVTDHGPM RLQLQESGPGLVKPSETLSLTCIVSGGPIRRTGYYWGWIRQPPGKGLEWIGGVYYTGSIYYNPSLRGRVTISVDTSRNQFSLNLRSMSAADTAMYYCARGNPPPYYDIGTGSDDGIDVWGQGTTVHVSSAPTKAPDVFPIISGCRHPKDNSPVVLACLITGYHPTSVTVTWYMGTQSQPQRTFPEIQRRDSYYMTSSQLSTPLQQWRQGEYKCVVQHTASKSKKEIFRWPESPKAQASSVPTAQPQAEGSLAKATTAPATTRNTGRGGEEKKKEKEKEEQEERETKTPECPSHTQPLGVYLLTPAVQDLWLRDKATFTCFVVGSDLKDAHLTWEVAGKVPTGGVEEGLLERHSNGSQSQHSRLTLPRSLWNAGTSVTCTLNHPSLPPQRLMALREPAAQAPVKLSLNLLASSDPPEAASWLLCEVSGFSPPNILLMWLEDQREVNTSGFAPARPPPQPGSTTFWAWSVLRVPAPPSPQPATYTCVVSHEDSRTLLNASRSLEVSYVTDHGPM 1zvp-a1-m1-cA_1zvp-a1-m1-cD Crystal Structure of a Protein of Unknown Function VC0802 from Vibrio cholerae, Possible Transport Protein Q9KTT6 Q9KTT6 2.2 X-RAY DIFFRACTION 157 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 128 131 SGIKSLELLLQSMSPELMAGDYVFCTVNGALSDYLSLEPIATFREPEGLTLVLEAEKAQQAGLESSALFSLITLTVHSEAVGLTAAFATKLAEHGISANVIAGYYHDHIFVQKEKAQQALQALGEFAQ MSGIKSLELLLQSMSPELMAGDYVFCTVNGALSDYLSLEPIATFREPEGLTLVLEAEKAQQAGLESSALFSLITLTVHSSLEAVGLTAAFATKLAEHGISANVIAGYYHDHIFVQKEKAQQALQALGEFAQ 1zvu-a1-m1-cA_1zvu-a1-m2-cA Structure of the full-length E. coli ParC subunit P0AFI2 P0AFI2 3 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 685 685 DRALPFIGDGLKPVQRRIVYAMSELGLRTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYSELLLSELGQGTADWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAQAAIALIDQPKTTLDQLLDIVQGPDYPTEAEIITSRAEIRKIYENGRGSVRMRAVWKKEDGAVVISALPHQVSGARVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIVPRSNRVDMDQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNYRLEKVLKRLHILEGLLVAFLNIDEVIEIIRNEDEPKPALMSRFGLTETQAEAILELKLRHLAKLEEMKIRGEQSELEKERDQLQGILASERKMNNLLKKELQADAQAYGDDRRSPLQEREEAKAMSEHDMLPSEPVTIVLSQMGWVRSAKGFKAAVKGKSNQPVVFVDSTGRSYAIDPITLPSAREPLTGKLTLPPGATVDHMLMESDDQKLLMASDAGYGFVCTFNDLVARNRAGKALITLPENAHVMPPVVIEDASDMLLAITQAGRMLMFPVSDLPQLSKGKGNKIINIPSAEAARGEDGLAQLYVLPPQSTLTIHVGKRKIKLRPEELQKVTGERGRRGTLMRGLQRIDRVEID DRALPFIGDGLKPVQRRIVYAMSELGLRTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYSELLLSELGQGTADWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAQAAIALIDQPKTTLDQLLDIVQGPDYPTEAEIITSRAEIRKIYENGRGSVRMRAVWKKEDGAVVISALPHQVSGARVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIVPRSNRVDMDQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNYRLEKVLKRLHILEGLLVAFLNIDEVIEIIRNEDEPKPALMSRFGLTETQAEAILELKLRHLAKLEEMKIRGEQSELEKERDQLQGILASERKMNNLLKKELQADAQAYGDDRRSPLQEREEAKAMSEHDMLPSEPVTIVLSQMGWVRSAKGFKAAVKGKSNQPVVFVDSTGRSYAIDPITLPSAREPLTGKLTLPPGATVDHMLMESDDQKLLMASDAGYGFVCTFNDLVARNRAGKALITLPENAHVMPPVVIEDASDMLLAITQAGRMLMFPVSDLPQLSKGKGNKIINIPSAEAARGEDGLAQLYVLPPQSTLTIHVGKRKIKLRPEELQKVTGERGRRGTLMRGLQRIDRVEID 1zw0-a6-m1-cB_1zw0-a6-m2-cA Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 27 0.983 632 (Yersinia pestis) 632 (Yersinia pestis) 59 65 1zw0-a5-m3-cB_1zw0-a5-m4-cA MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMYQVWQRESKALESAIAIIHYVAGDLK MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDL 1zw0-a6-m6-cE_1zw0-a6-m6-cH Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 27 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 65 66 1zw0-a5-m1-cE_1zw0-a5-m1-cH 1zw0-a5-m2-cE_1zw0-a5-m2-cH 1zw0-a5-m4-cB_1zw0-a5-m3-cA 1zw0-a6-m2-cB_1zw0-a6-m1-cA 1zw0-a6-m5-cE_1zw0-a6-m5-cH MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDL MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a7-m5-cG_1zw0-a7-m7-cE Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 13 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 54 65 1zw0-a12-m5-cG_1zw0-a12-m7-cE TQLEEQLHNVETVRSITMQLEMALTKLKKDMMWQRESKALESAIAIIHYVAGDL MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDL 1zw0-a8-m1-cC_1zw0-a8-m1-cH Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 11 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 52 66 1zw0-a11-m1-cC_1zw0-a11-m1-cH 1zw0-a5-m1-cC_1zw0-a5-m1-cH 1zw0-a5-m2-cC_1zw0-a5-m2-cH MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGQVWQRESKALESAIAII MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a8-m1-cD_1zw0-a8-m1-cH Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 37 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 66 66 1zw0-a11-m1-cD_1zw0-a11-m1-cH 1zw0-a5-m1-cD_1zw0-a5-m1-cH 1zw0-a5-m2-cD_1zw0-a5-m2-cH MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a8-m1-cG_1zw0-a8-m1-cD Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 11 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 54 66 1zw0-a11-m1-cG_1zw0-a11-m1-cD 1zw0-a5-m1-cG_1zw0-a5-m1-cD 1zw0-a5-m2-cG_1zw0-a5-m2-cD TQLEEQLHNVETVRSITMQLEMALTKLKKDMMWQRESKALESAIAIIHYVAGDL MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a8-m3-cB_1zw0-a8-m1-cH Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 26 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 59 66 1zw0-a11-m3-cB_1zw0-a11-m1-cH 1zw0-a15-m1-cE_1zw0-a15-m10-cD 1zw0-a5-m3-cB_1zw0-a5-m1-cH 1zw0-a5-m4-cB_1zw0-a5-m2-cH 1zw0-a7-m7-cE_1zw0-a7-m1-cD MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMYQVWQRESKALESAIAIIHYVAGDLK MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a9-m1-cB_1zw0-a9-m1-cA Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 73 0.983 632 (Yersinia pestis) 632 (Yersinia pestis) 59 65 1zw0-a10-m1-cB_1zw0-a10-m1-cA 1zw0-a11-m3-cB_1zw0-a11-m3-cA 1zw0-a12-m1-cB_1zw0-a12-m1-cA 1zw0-a12-m7-cF_1zw0-a12-m7-cE 1zw0-a13-m1-cB_1zw0-a13-m1-cA 1zw0-a13-m9-cF_1zw0-a13-m9-cE 1zw0-a14-m1-cB_1zw0-a14-m1-cA 1zw0-a15-m1-cF_1zw0-a15-m1-cE 1zw0-a1-m1-cB_1zw0-a1-m1-cA 1zw0-a3-m1-cF_1zw0-a3-m1-cE 1zw0-a5-m1-cF_1zw0-a5-m1-cE 1zw0-a5-m2-cF_1zw0-a5-m2-cE 1zw0-a5-m3-cB_1zw0-a5-m3-cA 1zw0-a5-m4-cB_1zw0-a5-m4-cA 1zw0-a6-m1-cB_1zw0-a6-m1-cA 1zw0-a6-m2-cB_1zw0-a6-m2-cA 1zw0-a6-m5-cF_1zw0-a6-m5-cE 1zw0-a6-m6-cF_1zw0-a6-m6-cE 1zw0-a7-m1-cB_1zw0-a7-m1-cA 1zw0-a7-m7-cF_1zw0-a7-m7-cE 1zw0-a8-m3-cB_1zw0-a8-m3-cA 1zw0-a8-m8-cF_1zw0-a8-m8-cE 1zw0-a9-m9-cF_1zw0-a9-m9-cE MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMYQVWQRESKALESAIAIIHYVAGDLK MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDL 1zw0-a9-m1-cB_1zw0-a9-m5-cH Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 26 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 59 66 1zw0-a10-m1-cB_1zw0-a10-m5-cH 1zw0-a12-m1-cB_1zw0-a12-m5-cH 1zw0-a13-m1-cB_1zw0-a13-m5-cH 1zw0-a14-m1-cB_1zw0-a14-m5-cH 1zw0-a6-m1-cB_1zw0-a6-m5-cH 1zw0-a6-m2-cB_1zw0-a6-m6-cH 1zw0-a7-m1-cB_1zw0-a7-m5-cH MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMYQVWQRESKALESAIAIIHYVAGDLK MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a9-m1-cC_1zw0-a9-m1-cA Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 16 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 52 65 1zw0-a10-m1-cC_1zw0-a10-m1-cA 1zw0-a6-m1-cC_1zw0-a6-m1-cA 1zw0-a6-m2-cC_1zw0-a6-m2-cA 1zw0-a7-m1-cC_1zw0-a7-m1-cA MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGQVWQRESKALESAIAII MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDL 1zw0-a9-m5-cG_1zw0-a9-m5-cH Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 65 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 54 66 1zw0-a10-m1-cC_1zw0-a10-m1-cD 1zw0-a10-m5-cG_1zw0-a10-m5-cH 1zw0-a11-m1-cC_1zw0-a11-m1-cD 1zw0-a11-m1-cG_1zw0-a11-m1-cH 1zw0-a12-m5-cG_1zw0-a12-m5-cH 1zw0-a13-m5-cG_1zw0-a13-m5-cH 1zw0-a14-m5-cG_1zw0-a14-m5-cH 1zw0-a15-m10-cC_1zw0-a15-m10-cD 1zw0-a2-m1-cC_1zw0-a2-m1-cD 1zw0-a4-m1-cG_1zw0-a4-m1-cH 1zw0-a5-m1-cC_1zw0-a5-m1-cD 1zw0-a5-m1-cG_1zw0-a5-m1-cH 1zw0-a5-m2-cC_1zw0-a5-m2-cD 1zw0-a5-m2-cG_1zw0-a5-m2-cH 1zw0-a6-m1-cC_1zw0-a6-m1-cD 1zw0-a6-m2-cC_1zw0-a6-m2-cD 1zw0-a6-m5-cG_1zw0-a6-m5-cH 1zw0-a6-m6-cG_1zw0-a6-m6-cH 1zw0-a7-m1-cC_1zw0-a7-m1-cD 1zw0-a7-m5-cG_1zw0-a7-m5-cH 1zw0-a8-m1-cC_1zw0-a8-m1-cD 1zw0-a8-m1-cG_1zw0-a8-m1-cH 1zw0-a9-m1-cC_1zw0-a9-m1-cD TQLEEQLHNVETVRSITMQLEMALTKLKKDMMWQRESKALESAIAIIHYVAGDL MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDLK 1zw0-a9-m9-cF_1zw0-a9-m1-cA Crystal structure of the Yersinia Type III Secretion protein YscE O68692 O68692 1.8 X-RAY DIFFRACTION 25 0.981 632 (Yersinia pestis) 632 (Yersinia pestis) 52 65 1zw0-a13-m9-cF_1zw0-a13-m1-cA 1zw0-a8-m8-cF_1zw0-a8-m3-cA MTQLEEQLHNVETVRSITMQLEMALTKLKKDMESKALESAIAIIHYVAGDLK MTQLEEQLHNVETVRSITMQLEMALTKLKKDMMRGGDAKQYQVWQRESKALESAIAIIHYVAGDL 1zwj-a1-m1-cB_1zwj-a1-m1-cA X-ray structure of galt-like protein from arabidopsis thaliana AT5G18200 Q9FK51 Q9FK51 2.3 X-RAY DIFFRACTION 175 0.987 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 299 301 1z84-a1-m1-cB_1z84-a1-m1-cA 2h39-a1-m1-cA_2h39-a1-m1-cB 2q4h-a1-m1-cB_2q4h-a1-m1-cA 2q4l-a1-m1-cB_2q4l-a1-m1-cA QSPELRKDPVTNRWVIFSPTDFKSSCPFCIECAPELFRVPDHDPNWKLRVIENLYPALSRNLETRTIVGFGFHDVVIESPVHSIQLSDIDPVGIGDILIAYKKRINQIAQHDSINYIQVFKNQGASAGASMSHSHSQMMALPVVPPTVSSRLDGTKDYFEETGKCCLCEAKSKHFVIDESSHFVSVAPFAATYPFEIWIIPKDHSSHFHHLDDVKAVDLGGLLKLMLQKIAKQLNDPPYNYMIHTSPLKVTESQLPYTHWFLQIVPQLSGVGGFEIGTGCYINPVFPEDVAKVMREVSL PELRKDPVTNRWVIFSPFKSKSCPFCIGREQECAPELFRVPDHDPNWKLRVIENLYPALSRNLETRTIVGFGFHDVVIESPVHSIQLSDIDPVGIGDILIAYKKRINQIAQHDSINYIQVFKNQGASAGASMSHSHSQMMALPVVPPTVSSRLDGTKDYFEETGKCCLCEAKSKHFVIDESSHFVSVAPFAATYPFEIWIIPKDHSSHFHHLDDVKAVDLGGLLKLMLQKIAKQLNDPPYNYMIHTSPLKVTESQLPYTHWFLQIVPQLSGVGGFEIGTGCYINPVFPEDVAKVMREVSLT 1zwk-a3-m1-cB_1zwk-a3-m7-cB Structure of WrbA from Pseudomonas aeruginosa Q9I509 Q9I509 2.6 X-RAY DIFFRACTION 31 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 169 169 1zwk-a1-m1-cA_1zwk-a1-m3-cA 1zwk-a1-m2-cA_1zwk-a1-m4-cA 1zwk-a3-m5-cB_1zwk-a3-m6-cB 1zwl-a1-m1-cA_1zwl-a1-m3-cA 1zwl-a1-m2-cA_1zwl-a1-m4-cA 2a5l-a2-m1-cA_2a5l-a2-m2-cB 2a5l-a2-m2-cA_2a5l-a2-m1-cB PYILVLYYSRHGATAEMARQIARGVEQGGFEARVRTVPAVSTEGALYATLEDLKNCAGLALGSPTRFGNMASPLKYFLDGTSSLWLTGSLVGKPAAVFTSTASLHGGQETTQLSMLLPLLHHGMLVLGIPTPYGASHFAGADGKRSLDEHELTLCRALGKRLAETAGKL PYILVLYYSRHGATAEMARQIARGVEQGGFEARVRTVPAVSTEGALYATLEDLKNCAGLALGSPTRFGNMASPLKYFLDGTSSLWLTGSLVGKPAAVFTSTASLHGGQETTQLSMLLPLLHHGMLVLGIPTPYGASHFAGADGKRSLDEHELTLCRALGKRLAETAGKL 1zwk-a3-m5-cB_1zwk-a3-m7-cB Structure of WrbA from Pseudomonas aeruginosa Q9I509 Q9I509 2.6 X-RAY DIFFRACTION 52 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 169 169 1zwk-a1-m1-cA_1zwk-a1-m4-cA 1zwk-a1-m2-cA_1zwk-a1-m3-cA 1zwk-a3-m1-cB_1zwk-a3-m6-cB 1zwl-a1-m1-cA_1zwl-a1-m4-cA 1zwl-a1-m2-cA_1zwl-a1-m3-cA 2a5l-a2-m1-cA_2a5l-a2-m2-cA 2a5l-a2-m1-cB_2a5l-a2-m2-cB PYILVLYYSRHGATAEMARQIARGVEQGGFEARVRTVPAVSTEGALYATLEDLKNCAGLALGSPTRFGNMASPLKYFLDGTSSLWLTGSLVGKPAAVFTSTASLHGGQETTQLSMLLPLLHHGMLVLGIPTPYGASHFAGADGKRSLDEHELTLCRALGKRLAETAGKL PYILVLYYSRHGATAEMARQIARGVEQGGFEARVRTVPAVSTEGALYATLEDLKNCAGLALGSPTRFGNMASPLKYFLDGTSSLWLTGSLVGKPAAVFTSTASLHGGQETTQLSMLLPLLHHGMLVLGIPTPYGASHFAGADGKRSLDEHELTLCRALGKRLAETAGKL 1zwk-a3-m6-cB_1zwk-a3-m7-cB Structure of WrbA from Pseudomonas aeruginosa Q9I509 Q9I509 2.6 X-RAY DIFFRACTION 91 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 169 169 1zwk-a1-m1-cA_1zwk-a1-m2-cA 1zwk-a1-m3-cA_1zwk-a1-m4-cA 1zwk-a3-m1-cB_1zwk-a3-m5-cB 1zwl-a1-m1-cA_1zwl-a1-m2-cA 1zwl-a1-m3-cA_1zwl-a1-m4-cA 2a5l-a1-m1-cA_2a5l-a1-m1-cB 2a5l-a2-m1-cA_2a5l-a2-m1-cB 2a5l-a2-m2-cA_2a5l-a2-m2-cB PYILVLYYSRHGATAEMARQIARGVEQGGFEARVRTVPAVSTEGALYATLEDLKNCAGLALGSPTRFGNMASPLKYFLDGTSSLWLTGSLVGKPAAVFTSTASLHGGQETTQLSMLLPLLHHGMLVLGIPTPYGASHFAGADGKRSLDEHELTLCRALGKRLAETAGKL PYILVLYYSRHGATAEMARQIARGVEQGGFEARVRTVPAVSTEGALYATLEDLKNCAGLALGSPTRFGNMASPLKYFLDGTSSLWLTGSLVGKPAAVFTSTASLHGGQETTQLSMLLPLLHHGMLVLGIPTPYGASHFAGADGKRSLDEHELTLCRALGKRLAETAGKL 1zww-a2-m1-cA_1zww-a2-m2-cA Crystal structure of endophilin-A1 BAR domain Q62420 Q62420 2.3 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 199 199 TKLDDDFKEMERKVDVTSRAVMEIMTKTIEYLQPNPASRPQAEALLAEAMLKFGRELGDDCNFGPALGEVGEAMRELSEVKDSLDMEVKQNFIDPLQNLHDKDLREIQHHLKKLEGRRLDFGYKKKRQGKIPDEELRQALEKFDESKEIAESSMFNLLEMDIEQVSQLSALVQAQLEYHKQAVQILQQVTVRLEERIRQ TKLDDDFKEMERKVDVTSRAVMEIMTKTIEYLQPNPASRPQAEALLAEAMLKFGRELGDDCNFGPALGEVGEAMRELSEVKDSLDMEVKQNFIDPLQNLHDKDLREIQHHLKKLEGRRLDFGYKKKRQGKIPDEELRQALEKFDESKEIAESSMFNLLEMDIEQVSQLSALVQAQLEYHKQAVQILQQVTVRLEERIRQ 1zww-a2-m2-cB_1zww-a2-m2-cA Crystal structure of endophilin-A1 BAR domain Q62420 Q62420 2.3 X-RAY DIFFRACTION 178 0.985 10090 (Mus musculus) 10090 (Mus musculus) 196 199 1x03-a1-m1-cA_1x03-a1-m2-cA 1x04-a1-m1-cA_1x04-a1-m2-cA 1zww-a1-m1-cB_1zww-a1-m1-cA 1zww-a2-m1-cB_1zww-a2-m1-cA 2c08-a1-m1-cA_2c08-a1-m2-cA 2d4c-a1-m1-cA_2d4c-a1-m1-cB 2d4c-a2-m1-cD_2d4c-a2-m1-cC KLDDDFKEMERKVDVTSRAVMEIMTKTIEYLQPNPASRAKPQAEALLAEAMLKFGRELGDDCNFGPALGEVGEAMRELSEVKDSLDMEVKQNFIDPLQNLHDKDLREIQHHLKKLEGRRLDFGYKKKRDEELRQALEKFDESKEIAESSMFNLLEMDIEQVSQLSALVQAQLEYHKQAVQILQQVTVRLEERIRQA TKLDDDFKEMERKVDVTSRAVMEIMTKTIEYLQPNPASRPQAEALLAEAMLKFGRELGDDCNFGPALGEVGEAMRELSEVKDSLDMEVKQNFIDPLQNLHDKDLREIQHHLKKLEGRRLDFGYKKKRQGKIPDEELRQALEKFDESKEIAESSMFNLLEMDIEQVSQLSALVQAQLEYHKQAVQILQQVTVRLEERIRQ 1zwx-a2-m1-cA_1zwx-a2-m2-cA Crystal Structure of SmcL Q9RLV9 Q9RLV9 1.9 X-RAY DIFFRACTION 60 1.0 1638 (Listeria ivanovii) 1638 (Listeria ivanovii) 288 288 YPGNFKITSHNVYLFSRNIYPNWGQMHRADLIAQADYMKNNDVVILNEAFDTSASHRLLNNLREMYPHQTPVIGRSKHGWDKTEGALEDGGVAVVSQWPIVEKSQHIFQRGGGADRLSNKGFAYVKIMKNGKPYHIIGTHTQADDSLISKDTSRAIRAEQMQEIQTFIAKKNIPKDEIIFIGGDLNVNYGTDEYHDMLKLLNVSSPANFNGQMATWDPTTNSMLKESYPKAAPEYLDYIFVENGHARPHSWHNKVLHTKSPQWSVKSWFKTYTYQDFSDHYPVVGFTD YPGNFKITSHNVYLFSRNIYPNWGQMHRADLIAQADYMKNNDVVILNEAFDTSASHRLLNNLREMYPHQTPVIGRSKHGWDKTEGALEDGGVAVVSQWPIVEKSQHIFQRGGGADRLSNKGFAYVKIMKNGKPYHIIGTHTQADDSLISKDTSRAIRAEQMQEIQTFIAKKNIPKDEIIFIGGDLNVNYGTDEYHDMLKLLNVSSPANFNGQMATWDPTTNSMLKESYPKAAPEYLDYIFVENGHARPHSWHNKVLHTKSPQWSVKSWFKTYTYQDFSDHYPVVGFTD 1zwy-a1-m1-cA_1zwy-a1-m1-cC Crystal structure of protein VC0702 from Vibrio cholerae Q9KU27 Q9KU27 1.9 X-RAY DIFFRACTION 18 0.988 666 (Vibrio cholerae) 666 (Vibrio cholerae) 160 167 VRKIIIASQNPAKVNAVRSAFSTVFPDQEWEFIGVSVPSEVADQPSDEETKQGALNRVRNAKQRHPGAEYYVGLEAGIEENKTFAWIVESDQQRGESRSACLLPPLVLERLRQAELGDVDEVFGGGAIGLLTRHHLTRSTVYHQALILALIPFINPEHYP VRKIIIASQNPAKVNAVRSAFSTVFPDQEWEFIGVSVPSEVADQPSDEETKQGALNRVRNAKQRHPGAEYYVGLEAGIEENKTFAWIVESDQQRGESRSACLLPPLVLERLRELGDVDEVFGTENIKQKGGAIGLLTRHHLTRSTVYHQALILALIPFINPEHYPSA 1zwy-a3-m1-cA_1zwy-a3-m1-cB Crystal structure of protein VC0702 from Vibrio cholerae Q9KU27 Q9KU27 1.9 X-RAY DIFFRACTION 90 0.981 666 (Vibrio cholerae) 666 (Vibrio cholerae) 160 174 1zwy-a1-m1-cA_1zwy-a1-m1-cB 1zwy-a1-m1-cC_1zwy-a1-m1-cD 1zwy-a2-m1-cC_1zwy-a2-m1-cD VRKIIIASQNPAKVNAVRSAFSTVFPDQEWEFIGVSVPSEVADQPSDEETKQGALNRVRNAKQRHPGAEYYVGLEAGIEENKTFAWIVESDQQRGESRSACLLPPLVLERLRQAELGDVDEVFGGGAIGLLTRHHLTRSTVYHQALILALIPFINPEHYP NAPPIIKRRVRKIIIASQNPAKVNAVRSAFSTVFPDQEWEFIGVSVPSEVADQPSDEETKQGALNRVRNAKQRHPGAEYYVGLEAGIEENKTFAWIVESDQQRGESRSACLLPPLVLERLELGDVDEVFGTENIKQKGGAIGLLTRHHLTRSTVYHQALILALIPFINPEHYPS 1zx3-a2-m2-cA_1zx3-a2-m4-cA Structure of NE0241 Protein of Unknown Function from Nitrosomonas europaea Q82XL7 Q82XL7 2.5 X-RAY DIFFRACTION 17 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 83 83 1zx3-a2-m1-cA_1zx3-a2-m3-cA EVQQPDPRKNWIENDSGVIYLLESWLKAKSQETGKEISDIFANAVEFNIVLKDWGKEKLEETNTEYQNQQRKLRKTYIEYYDR EVQQPDPRKNWIENDSGVIYLLESWLKAKSQETGKEISDIFANAVEFNIVLKDWGKEKLEETNTEYQNQQRKLRKTYIEYYDR 1zx3-a3-m1-cA_1zx3-a3-m2-cA Structure of NE0241 Protein of Unknown Function from Nitrosomonas europaea Q82XL7 Q82XL7 2.5 X-RAY DIFFRACTION 109 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 83 83 1zx3-a2-m1-cA_1zx3-a2-m2-cA 1zx3-a2-m3-cA_1zx3-a2-m4-cA EVQQPDPRKNWIENDSGVIYLLESWLKAKSQETGKEISDIFANAVEFNIVLKDWGKEKLEETNTEYQNQQRKLRKTYIEYYDR EVQQPDPRKNWIENDSGVIYLLESWLKAKSQETGKEISDIFANAVEFNIVLKDWGKEKLEETNTEYQNQQRKLRKTYIEYYDR 1zx4-a1-m1-cB_1zx4-a1-m1-cA Structure of ParB bound to DNA Q38420 Q38420 2.98 X-RAY DIFFRACTION 74 0.982 10678 (Punavirus P1) 10678 (Punavirus P1) 170 174 SIREIGLRLRKNDGSQKDIAAKEGLSQAKVTRALQAASAPEELVALFPVQSELTFSDYKTLCAVGDEGNKNLEFDQLIQNISPEINDILSINEAEDEVKNKILRLITKEASLLTDKGKSVVTELWKFEDKDRFARKRVKGRAFSYEFNRLSKELQEELDRIGHILRKSLD ALQHSIREIGLRLRKNDGSQKDIAAKEGLSQAKVTRALQAASAPEELVALFPVQSELTFSDYKTLCAVGDEGNKNLEFDQLIQNISPEINDILSIEAEDEVKNKILRLITKEASLLTDKGSKDKSVVTELWKFEDKDRFARKRVKGRAFSYEFNRLSKELQEELDRIGHILRKS 1zx8-a4-m1-cC_1zx8-a4-m2-cC CRYSTAL STRUCTURE OF an atypical cyclophilin (peptidylprolyl cis-trans isomerase) (TM1367) FROM THERMOTOGA MARITIMA AT 1.90 A RESOLUTION Q9X187 Q9X187 1.9 X-RAY DIFFRACTION 50 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 125 125 HHHHHRVELLFESGKCVIDLNEEYEVVKLLKEKIPFESVVNTWGEEIYFSTPVNVQKENPREVVEIGDVGYWPPGKALCLFFGKTPSDDKIQPASAVNVIGKIVEGLEDLKKIKDGEKVAVRFAS HHHHHRVELLFESGKCVIDLNEEYEVVKLLKEKIPFESVVNTWGEEIYFSTPVNVQKENPREVVEIGDVGYWPPGKALCLFFGKTPSDDKIQPASAVNVIGKIVEGLEDLKKIKDGEKVAVRFAS 1zxj-a6-m4-cB_1zxj-a6-m4-cA Crystal structure of the hypthetical Mycoplasma protein, MPN555 P75223 P75223 2.8 X-RAY DIFFRACTION 25 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 171 192 1zxj-a6-m1-cB_1zxj-a6-m1-cA LKSTAKLVKPIQYDEVIEVERIFADPAFIEQHRQRILASFKDAKESALYHELTHIVIKDNLFSCAMNAIVGYFEFNIDEAELKNVMEGLDNTVQAIAEKIIKKALVFNHLQKEWKVEITDEVVKNVISLYYEQSVREYLDDKQKFEGVRTALLEERMVLETINHFKFHFNL DYDIFQGHMANLKSTAKLVKPIQYDEVIEVERIFADPAFIEQHRQRILASFKDAKESALYHELTHIVIKDNLFSCAMNAIVGYFEFNIDEAELKNVMEGLKRDEDNTVQAIAEKIIKKALVFNHLQKEWKVEITDEVVKNVISLYYEKTNQSVREYLDDKQKFEGVRTALLEERMVLETINHFKFHFNLTGQ 1zxj-a8-m4-cB_1zxj-a8-m1-cA Crystal structure of the hypthetical Mycoplasma protein, MPN555 P75223 P75223 2.8 X-RAY DIFFRACTION 81 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 171 192 1zxj-a6-m1-cB_1zxj-a6-m4-cA 1zxj-a6-m4-cB_1zxj-a6-m1-cA LKSTAKLVKPIQYDEVIEVERIFADPAFIEQHRQRILASFKDAKESALYHELTHIVIKDNLFSCAMNAIVGYFEFNIDEAELKNVMEGLDNTVQAIAEKIIKKALVFNHLQKEWKVEITDEVVKNVISLYYEQSVREYLDDKQKFEGVRTALLEERMVLETINHFKFHFNL DYDIFQGHMANLKSTAKLVKPIQYDEVIEVERIFADPAFIEQHRQRILASFKDAKESALYHELTHIVIKDNLFSCAMNAIVGYFEFNIDEAELKNVMEGLKRDEDNTVQAIAEKIIKKALVFNHLQKEWKVEITDEVVKNVISLYYEKTNQSVREYLDDKQKFEGVRTALLEERMVLETINHFKFHFNLTGQ 1zxj-a9-m1-cB_1zxj-a9-m4-cB Crystal structure of the hypthetical Mycoplasma protein, MPN555 P75223 P75223 2.8 X-RAY DIFFRACTION 46 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 171 171 1zxj-a10-m1-cD_1zxj-a10-m5-cD 1zxj-a5-m3-cD_1zxj-a5-m4-cD 1zxj-a6-m1-cB_1zxj-a6-m4-cB LKSTAKLVKPIQYDEVIEVERIFADPAFIEQHRQRILASFKDAKESALYHELTHIVIKDNLFSCAMNAIVGYFEFNIDEAELKNVMEGLDNTVQAIAEKIIKKALVFNHLQKEWKVEITDEVVKNVISLYYEQSVREYLDDKQKFEGVRTALLEERMVLETINHFKFHFNL LKSTAKLVKPIQYDEVIEVERIFADPAFIEQHRQRILASFKDAKESALYHELTHIVIKDNLFSCAMNAIVGYFEFNIDEAELKNVMEGLDNTVQAIAEKIIKKALVFNHLQKEWKVEITDEVVKNVISLYYEQSVREYLDDKQKFEGVRTALLEERMVLETINHFKFHFNL 1zxo-a1-m2-cF_1zxo-a1-m3-cF X-ray Crystal Structure of Protein Q8A1P1 from Bacteroides thetaiotaomicron. Northeast Structural Genomics Consortium Target BtR25. Q8A1P1 Q8A1P1 3.2 X-RAY DIFFRACTION 10 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 269 269 1zxo-a1-m1-cF_1zxo-a1-m2-cF 1zxo-a1-m1-cF_1zxo-a1-m3-cF ILIADSGSTKTDWCVLNGIKRLGTKGINPFFQSEEEIQQKLTASLLPQLPEGKFNAVYFYGAGCTPEKAPVLRRAIADSLPVIGNIKANSDLAAAHGLCGQKAGIACILGTGSNSCFYNGKEIVSNISPLGFILGDEGSGAVLGKLLVGDILKNQLPATLKEEFLKQFDLTPPEIIDRVYRQPFPNRFLASLSPFIAQHLEEPAIRQLVNSFIAFFRRNVQYDYKQYPVHFIGSIAYCYKEILQDAARQTGIQIGKILQSPEGLIQYHS ILIADSGSTKTDWCVLNGIKRLGTKGINPFFQSEEEIQQKLTASLLPQLPEGKFNAVYFYGAGCTPEKAPVLRRAIADSLPVIGNIKANSDLAAAHGLCGQKAGIACILGTGSNSCFYNGKEIVSNISPLGFILGDEGSGAVLGKLLVGDILKNQLPATLKEEFLKQFDLTPPEIIDRVYRQPFPNRFLASLSPFIAQHLEEPAIRQLVNSFIAFFRRNVQYDYKQYPVHFIGSIAYCYKEILQDAARQTGIQIGKILQSPEGLIQYHS 1zxo-a3-m5-cC_1zxo-a3-m5-cE X-ray Crystal Structure of Protein Q8A1P1 from Bacteroides thetaiotaomicron. Northeast Structural Genomics Consortium Target BtR25. Q8A1P1 Q8A1P1 3.2 X-RAY DIFFRACTION 56 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 275 275 1zxo-a2-m1-cB_1zxo-a2-m1-cD 1zxo-a2-m4-cB_1zxo-a2-m4-cD 1zxo-a2-m5-cB_1zxo-a2-m5-cD 1zxo-a3-m1-cC_1zxo-a3-m1-cE 1zxo-a3-m4-cC_1zxo-a3-m4-cE ILIADSGSTKTDWCVVLNGAVIKRLGTKGINPFFQSEEEIQQKLTASLLPQLPEGKFNAVYFYGAGCTPEKAPVLRRAIADSLPVIGNIKANSDLAAAHGLCGQKAGIACILGTGSNSCFYNGKEIVSNISPLGFILGDEGSGAVLGKLLVGDILKNQLPATLKEEFLKQFDLTPPEIIDRVYRQPFPNRFLASLSPFIAQHLEEPAIRQLVNSFIAFFRRNVQYDYKQYPVHFIGSIAYCYKEILQDAARQTGIQIGKILQSPEGLIQYHSQLS ILIADSGSTKTDWCVVLNGAVIKRLGTKGINPFFQSEEEIQQKLTASLLPQLPEGKFNAVYFYGAGCTPEKAPVLRRAIADSLPVIGNIKANSDLAAAHGLCGQKAGIACILGTGSNSCFYNGKEIVSNISPLGFILGDEGSGAVLGKLLVGDILKNQLPATLKEEFLKQFDLTPPEIIDRVYRQPFPNRFLASLSPFIAQHLEEPAIRQLVNSFIAFFRRNVQYDYKQYPVHFIGSIAYCYKEILQDAARQTGIQIGKILQSPEGLIQYHSQLS 1zxx-a1-m1-cA_1zxx-a1-m4-cA The crystal structure of phosphofructokinase from Lactobacillus delbrueckii P80019 P80019 1.85 X-RAY DIFFRACTION 108 1.0 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 319 319 1zxx-a1-m2-cA_1zxx-a1-m3-cA MKRIGILTSGGDAPGMNAAVRAVTRVAIANGLEVFGIRYGFAGLVAGDIFPLESEDVAHLINVSGTFLYSARYPEFAEEEGQLAGIEQLKKHGIDAVVVIGGDGSYHGALQLTRHGFNSIGLPGTIDNDIPYTDATIGYDTACMTAMDAIDKIRDTASSHHRVFIVNVMGRNCGDIAMRVGVACGADAIVIPERPYDVEEIANRLKQAQESGKDHGLVVVAEGVMTADQFMAELKKYGDFDVRANVLGHMQRGGTPTVSDRVLASKLGSEAVHLLLEGKGGLAVGIENGKVTSHDILDLFDESHRGDYDLLKLNADLSR MKRIGILTSGGDAPGMNAAVRAVTRVAIANGLEVFGIRYGFAGLVAGDIFPLESEDVAHLINVSGTFLYSARYPEFAEEEGQLAGIEQLKKHGIDAVVVIGGDGSYHGALQLTRHGFNSIGLPGTIDNDIPYTDATIGYDTACMTAMDAIDKIRDTASSHHRVFIVNVMGRNCGDIAMRVGVACGADAIVIPERPYDVEEIANRLKQAQESGKDHGLVVVAEGVMTADQFMAELKKYGDFDVRANVLGHMQRGGTPTVSDRVLASKLGSEAVHLLLEGKGGLAVGIENGKVTSHDILDLFDESHRGDYDLLKLNADLSR 1zxx-a1-m3-cA_1zxx-a1-m4-cA The crystal structure of phosphofructokinase from Lactobacillus delbrueckii P80019 P80019 1.85 X-RAY DIFFRACTION 112 1.0 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 319 319 1zxx-a1-m1-cA_1zxx-a1-m2-cA MKRIGILTSGGDAPGMNAAVRAVTRVAIANGLEVFGIRYGFAGLVAGDIFPLESEDVAHLINVSGTFLYSARYPEFAEEEGQLAGIEQLKKHGIDAVVVIGGDGSYHGALQLTRHGFNSIGLPGTIDNDIPYTDATIGYDTACMTAMDAIDKIRDTASSHHRVFIVNVMGRNCGDIAMRVGVACGADAIVIPERPYDVEEIANRLKQAQESGKDHGLVVVAEGVMTADQFMAELKKYGDFDVRANVLGHMQRGGTPTVSDRVLASKLGSEAVHLLLEGKGGLAVGIENGKVTSHDILDLFDESHRGDYDLLKLNADLSR MKRIGILTSGGDAPGMNAAVRAVTRVAIANGLEVFGIRYGFAGLVAGDIFPLESEDVAHLINVSGTFLYSARYPEFAEEEGQLAGIEQLKKHGIDAVVVIGGDGSYHGALQLTRHGFNSIGLPGTIDNDIPYTDATIGYDTACMTAMDAIDKIRDTASSHHRVFIVNVMGRNCGDIAMRVGVACGADAIVIPERPYDVEEIANRLKQAQESGKDHGLVVVAEGVMTADQFMAELKKYGDFDVRANVLGHMQRGGTPTVSDRVLASKLGSEAVHLLLEGKGGLAVGIENGKVTSHDILDLFDESHRGDYDLLKLNADLSR 1zxz-a1-m1-cB_1zxz-a1-m1-cA X-ray structure of peptide deformylase from Arabidopsis thaliana (AtPDF1A); crystals grown in PEG-5000 MME as precipitant Q9FV53 Q9FV53 2.8 X-RAY DIFFRACTION 86 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 191 192 1zy0-a1-m1-cA_1zy0-a1-m1-cB 1zy1-a1-m1-cA_1zy1-a1-m1-cB 4je6-a1-m1-cB_4je6-a1-m1-cA 4je7-a1-m1-cB_4je7-a1-m1-cA DLPEIVASGDPVLHEKAREVDPGEIGSERIQKIIDDMIKVMRLAPGVGLAAPQIGVPLRIIVLEDTKEYISYAPKEEILAQERRHFDLMVMVNPVLKERSNKKALFFEGCLSVDGFRAAVERYLEVVVTGYDRQGKRIEVNASGWQARILQHECDHLDGNLYVDKMVPRTFRTVDNLDLPLAEGCPKLGSH DLPEIVASGDPVLHEKAREVDPGEIGSERIQKIIDDMIKVMRLAPGVGLAAPQIGVPLRIIVLEDTKEYISYAPKEEILAQERRHFDLMVMVNPVLKERSNKKALFFEGCLSVDGFRAAVERYLEVVVTGYDRQGKRIEVNASGWQARILQHECDHLDGNLYVDKMVPRTFRTVDNLDLPLAEGCPKLGSHH 1zy4-a1-m1-cB_1zy4-a1-m1-cA Crystal Structure of eIF2alpha Protein Kinase GCN2: R794G Hyperactivating Mutant in Apo Form. P15442 P15442 1.95 X-RAY DIFFRACTION 85 0.988 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 249 271 1zxe-a1-m1-cB_1zxe-a1-m1-cA 1zxe-a2-m1-cD_1zxe-a2-m1-cC 1zxe-a3-m1-cF_1zxe-a3-m1-cE 1zy5-a1-m1-cB_1zy5-a1-m1-cA 1zyc-a1-m1-cB_1zyc-a1-m1-cA 1zyc-a2-m1-cD_1zyc-a2-m1-cC 1zyd-a1-m1-cB_1zyd-a1-m1-cA SLRYASDFEEIAVLGQGAFGQVVKARNALDSRYYAIKKIRHTEEKLSTILSEVMLLASLNHQYVVRYYAAWLERRNFVKKSTLFIQMEYCENGTLYDLIHSENLNQQRDEYWRLFRQILEALSYIHSQGIIHRDLKPMNIFIDESRNVKIGDFGLIGTAMYVATEVLYNEKIDMYSLGIIFFEMIYPFSTGMERVNILKKLRSVSIEFPPDFDDNKMKVEKKIIRLLIDHDPNKRPGARTLLNSGWLPV SLRYASDFEEIAVLGQGAFGQVVKARNALDSRYYAIKKIRHTEEKLSTILSEVMLLASLNHQYVVRYYAAWLERRNFVKKKSTLFIQMEYCENGTLYDLIHSENLNQQRDEYWRLFRQILEALSYIHSQGIIHRDLKPMNIFIDESRNVKIGDFGLAKNVHRAMYVATEVLDGTGHYNEKIDMYSLGIIFFEMIYPFSTGMERVNILKKLRSVSIEFPPDFDDNKMKVEKKIIRLLIDHDPNKRPGARTLLNSGWLPVKHQDEVIKEALKS 1zy6-a1-m1-cA_1zy6-a1-m1-cB Membrane-bound dimer structure of Protegrin-1 (PG-1), a beta-Hairpin Antimicrobial Peptide in Lipid Bilayers from Rotational-Echo Double-Resonance Solid-State NMR P32194 P32194 NOT SOLID-STATE NMR 18 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 18 18 RGGRLCYCRRRFCVCVGR RGGRLCYCRRRFCVCVGR 1zyb-a1-m1-cA_1zyb-a1-m2-cA Crystal structure of transcription regulator from Bacteroides thetaiotaomicron VPI-5482 at 2.15 A resolution Q89ZS6 Q89ZS6 2.15 X-RAY DIFFRACTION 107 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 225 225 SDKIHHHHHHETFDTLLQLPLFQGLCHEDFTSILDKVKLHFIKHKAGETIIKSGNPCTQLCFLLKGEISIVTNAKENIYTVIEQIEAPYLIEPQSLFGNTNYASSYVAHTEVHTVCISKAFVLSDLFRYDIFRLNYNIVSNRAQNLYSRLWDEPTLDLKSKIIRFFLSHCEKPQGEKTFKVKDDLARCLDDTRLNISKTLNELQDNGLIELHRKEILIPDAQKLL SDKIHHHHHHETFDTLLQLPLFQGLCHEDFTSILDKVKLHFIKHKAGETIIKSGNPCTQLCFLLKGEISIVTNAKENIYTVIEQIEAPYLIEPQSLFGNTNYASSYVAHTEVHTVCISKAFVLSDLFRYDIFRLNYNIVSNRAQNLYSRLWDEPTLDLKSKIIRFFLSHCEKPQGEKTFKVKDDLARCLDDTRLNISKTLNELQDNGLIELHRKEILIPDAQKLL 1zym-a1-m1-cA_1zym-a1-m1-cB AMINO TERMINAL DOMAIN OF ENZYME I FROM ESCHERICHIA COLI P08839 P08839 2.5 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 247 248 SGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMRAVQEQVASE ISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMRAVQEQVASE 1zyz-a3-m4-cB_1zyz-a3-m1-cA Structures of Yeast Ribonucloetide Reductase I P21524 P21524 2.9 X-RAY DIFFRACTION 68 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 769 776 1zyz-a3-m3-cB_1zyz-a3-m2-cA FDKITARISRLCYGLDPKHIDAVKVTQRIISTTIELDNLAAETCAYMTTVHPDYATLAARIAISNLHKQTTKQFSKVVEDLYRYVNAATGKPAPMISDDVYNIVMENKDKLNSAIVYDRDFQYSYFGFKTLERSYLLRINGQVAERPQHLIMRVALGIHGRDIEAALETYNLMSLKYFTHASPTLFNAGTPKPQMSSCFLVAMKEDSIEGIYDTLKECALISKTAGGIGLHIHNIRSTGSYIAGTNGTSNGLIPMIRVFNNTARYVDQGGNKRPGAFALYLEPWHADIFDFIDIRKNHGKEEIRARDLFPALWIPDLFMKRVEENGTWTLFSPTSAPGLSDCYGDEFEALYTRYEKEGRGKTIKAQKLWYSILEAQTETGTPFVVYKDACNRKSNQKNLGVIKSSNLCCEIVEYSAPDETAVCNLASVALPAFIETSEDGKTSTYNFKKLHEIAKVVTRNLNRVIDRNYYPVEEARKSNMRHRPIALGVQGLADTFMLLRLPFDSEEARLLNIQIFETIYHASMEASCELAQKDGPYETFQGSPASQGILQFDMWDQKPYGMWDWDTLRKDIMKHGVRNSLTMAPMPTASTSQILGYNECFEPVTSNMYSRRVLSGEFQVVNPYLLRDLVDLGIWDEGMKQYLITQNGSIQGLPNVPQELKDLYKTVWEISQKTIINMAADRSVYIDQSHSLNLFLRAPTMGKLTSMHFYGWKKGLKTGMYYLRTQAASAAIQFTIDQENVADISNLKRPSYMPSSASYAASDFVPAAV FDKITARISRLCYGLDPKHIDAVKVTQRIISTTIELDNLAAETCAYMTTVHPDYATLAARIAISNLHKQTTKQFSKVVEDLYRYVNAATGKPAPMISDDVYNIVMENKDKLNSAIVYDRDFQYSYFGFKTLERSYLLRINGQVAERPQHLIMRVALGIHGRDIEAALETYNLMSLKYFTHASPTLFNAGTPKPQMSSCFLVAMKEDSIEGIYDTLKECALISKTAGGIGLHIHNIRSTGSYIAGTNGTSNGLIPMIRVFNNTARYVDQGGNKRPGAFALYLEPWHADIFDFIDIRKNHGKEEIRARDLFPALWIPDLFMKRVEENGTWTLFSPTSAPGLSDCYGDEFEALYTRYEKEGRGKTIKAQKLWYSILEAQTETGTPFVVYKDACNRKSNQKNLGVIKSSNLCCEIVEYSAPDETAVCNLASVALPAFIETSEDGKTSTYNFKKLHEIAKVVTRNLNRVIDRNYYPVEEARKSNMRHRPIALGVQGLADTFMLLRLPFDSEEARLLNIQIFETIYHASMEASCELAQKDGPYETFQGSPASQGILQFDMWDQKPYGMWDWDTLRKDIMKHGVRNSLTMAPMPTASTSQILGYNECFEPVTSNMYSRRVLSGEFQVVNPYLLRDLVDLGIWDEGMKQYLITQNGSIQGLPNVPQELKDLYKTVWEISQKTIINMAADRSVYIDQSHSLNLFLRAPTMGKLTSMHFYGWKKGLKTGMYYLRTQAASAAIQFTIDQKIADQATENVADISNLKRPSYMPSSASYAASDFVPAAV 1zzg-a1-m1-cA_1zzg-a1-m1-cB Crystal structure of hypothetical protein TT0462 from Thermus thermophilus HB8 Q5SLL6 Q5SLL6 1.95 X-RAY DIFFRACTION 389 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 415 415 MLRLDTRFLPGFPEALSRHGPLLEEARRRLLAKRGEPGSMLGWMDLPEDTETLREVRRYREANPWVEDFVLIGIGGSALGPKALEAAFNESGVRFHYLDHVEPEPILRLLRTLDPRKTLVNAVSKSGSTAETLAGLAVFLKWLKAHLGEDWRRHLVVTTDPKEGPLRAFAEREGLKAFAIPKEVGGRFSALSPVGLLPLAFAGADLDALLMGARKANETALAPLEESLPLKTALLLHLHRHLPVHVFMVYSERLSHLPSWFVQLHDESLGKVDRQGQRVGTTAVPALGPKDQHAQVQLFREGPLDKLLALVIPEAPLEDVEIPEVEGLEAASYLFGKTLFQLLKAEAEATYEALAEAGQRVYALFLPEVSPYAVGWLMQHLMWQTAFLGELWEVNAFDQPGVELGKVLTRKRLAG MLRLDTRFLPGFPEALSRHGPLLEEARRRLLAKRGEPGSMLGWMDLPEDTETLREVRRYREANPWVEDFVLIGIGGSALGPKALEAAFNESGVRFHYLDHVEPEPILRLLRTLDPRKTLVNAVSKSGSTAETLAGLAVFLKWLKAHLGEDWRRHLVVTTDPKEGPLRAFAEREGLKAFAIPKEVGGRFSALSPVGLLPLAFAGADLDALLMGARKANETALAPLEESLPLKTALLLHLHRHLPVHVFMVYSERLSHLPSWFVQLHDESLGKVDRQGQRVGTTAVPALGPKDQHAQVQLFREGPLDKLLALVIPEAPLEDVEIPEVEGLEAASYLFGKTLFQLLKAEAEATYEALAEAGQRVYALFLPEVSPYAVGWLMQHLMWQTAFLGELWEVNAFDQPGVELGKVLTRKRLAG 1zzh-a3-m1-cA_1zzh-a3-m1-cD Structure of the fully oxidized di-heme cytochrome c peroxidase from R. capsulatus 2.7 X-RAY DIFFRACTION 74 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 297 298 1zzh-a1-m1-cA_1zzh-a1-m1-cD 1zzh-a2-m1-cC_1zzh-a2-m1-cB 1zzh-a3-m1-cC_1zzh-a3-m1-cB ALREEAKGLFEVIPMQAPVTRDKIDLGAMLFFDPRMSKSGVFSCQSCHNVGLGGVDGLETSIGHGWQKGPRNAPTALNAVFNVAQFWDGRAPDLAAQAMNNTPENLVATVQSMPGYVEAFAKAFPGQKDPISFDNFALAVEAFEATLITPNSKFDQWLMGADGAMSADEKAGLKLFIDTGCAACHNGINIGGNGYYPFGVVEKPGRFAVTATADDEYVFRAGPLRNIALTAPYFHSGKVWDLREAVSVMANSQLGATLDDTQVDQITAFLGTLTGEQPEVVHPILPVRSAQTPRPEH ALREEAKGLFEVIPMQAPQVTRDKIDLGAMLFFDPRMSKSGVFSCQSCHNVGLGGVDGLETSIGHGWQKGPRNAPTALNAVFNVAQFWDGRAPDLAAQAMNNTPENLVATVQSMPGYVEAFAKAFPGQKDPISFDNFALAVEAFEATLITPNSKFDQWLMGADGAMSADEKAGLKLFIDTGCAACHNGINIGGNGYYPFGVVEKPGRFAVTATADDEYVFRAGPLRNIALTAPYFHSGKVWDLREAVSVMANSQLGATLDDTQVDQITAFLGTLTGEQPEVVHPILPVRSAQTPRPEH 1zzh-a3-m1-cD_1zzh-a3-m1-cC Structure of the fully oxidized di-heme cytochrome c peroxidase from R. capsulatus 2.7 X-RAY DIFFRACTION 58 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 298 307 1zzh-a3-m1-cA_1zzh-a3-m1-cB ALREEAKGLFEVIPMQAPQVTRDKIDLGAMLFFDPRMSKSGVFSCQSCHNVGLGGVDGLETSIGHGWQKGPRNAPTALNAVFNVAQFWDGRAPDLAAQAMNNTPENLVATVQSMPGYVEAFAKAFPGQKDPISFDNFALAVEAFEATLITPNSKFDQWLMGADGAMSADEKAGLKLFIDTGCAACHNGINIGGNGYYPFGVVEKPGRFAVTATADDEYVFRAGPLRNIALTAPYFHSGKVWDLREAVSVMANSQLGATLDDTQVDQITAFLGTLTGEQPEVVHPILPVRSAQTPRPEH ALREEAKGLFEVIPMQAPQNTVTRDKIDLGAMLFFDPRMSKSGVFSCQSCHNVGLGGVDGLETSIGHGWQKGPRNAPTALNAVFNVAQFWDGRAPDLAAQAMNNTPENLVATVQSMPGYVEAFAKAFPGQKDPISFDNFALAVEAFEATLITPNSKFDQWLMGADGAMSADEKAGLKLFIDTGCAACHNGINIGGNGYYPFGVVEKPGAEVLPAGRFAVTATADDEYVFRAGPLRNIALTAPYFHSGKVWDLREAVSVMANSQLGATLDDTQVDQITAFLGTLTGEQPEVVHPILPVRSAQTPRPEH 1zzj-a1-m1-cC_1zzj-a1-m1-cA Structure of the third KH domain of hnRNP K in complex with 15-mer ssDNA P61978 P61978 2.3 X-RAY DIFFRACTION 37 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 74 75 GAMGPIITTQVTIPKDLAGSIIGKGGQRIKQIRHESGASIKIDEPLEGSEDRIITITGTQDQIQNAQYLLQNSV AMGPIITTQVTIPKDLAGSIIGKGGQRIKQIRHESGASIKIDEPLEGSEDRIITITGTQDQIQNAQYLLQNSVKQ 2a03-a2-m1-cA_2a03-a2-m2-cA Superoxide dismutase protein from plasmodium berghei 2.33 X-RAY DIFFRACTION 33 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 197 197 MAITLPKLKYALNALSPHISEETLSFHYNKHHAGYVNKLNGLIKDTPLANKSLTDILKESTGAIFNNAAQIWNHSFYWDSMGPNCGGEPHGEIKEKIQEDFGSFNNFKDQFSNVLCGHFGSGWGWLALNKNNKLVILQTHDAGNPIKENTGIPILTCDVWEHAYYIDYRNDRLSYVKAWWNLVNWNFANENLKNALN MAITLPKLKYALNALSPHISEETLSFHYNKHHAGYVNKLNGLIKDTPLANKSLTDILKESTGAIFNNAAQIWNHSFYWDSMGPNCGGEPHGEIKEKIQEDFGSFNNFKDQFSNVLCGHFGSGWGWLALNKNNKLVILQTHDAGNPIKENTGIPILTCDVWEHAYYIDYRNDRLSYVKAWWNLVNWNFANENLKNALN 2a07-a1-m1-cH_2a07-a1-m1-cI Crystal Structure of Foxp2 bound Specifically to DNA. O15409 O15409 1.9 X-RAY DIFFRACTION 133 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 79 81 2a07-a1-m1-cG_2a07-a1-m1-cF PFTYATLIRQAIMESSDRQLTLNEIYSWFTRTFAYFRRNAATWKNAVRHNLSLHKCFVRVENVKGAVWTVDEVEYQKRR VRPPFTYATLIRQAIMESSDRQLTLNEIYSWFTRTFAYFRRNAATWKNAVRHNLSLHKCFVRVENVKGAVWTVDEVEYQKR 2a0l-a1-m2-cA_2a0l-a1-m2-cB Crystal structure of KvAP-33H1 Fv complex Q9YDF8 Q9YDF8 3.9 X-RAY DIFFRACTION 62 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 214 214 2a0l-a1-m1-cA_2a0l-a1-m1-cB 2a0l-a1-m1-cA_2a0l-a1-m2-cB 2a0l-a1-m1-cB_2a0l-a1-m2-cA HPLVELGVSYAALLSVIVVVVEYTMQLSGEYLVRLYLVDLILVIILWADYAYRAYKSGDPAGYVKKTLYEIPALVPAGLLALIEGHLAGLGLFRLVRLLRFLRILLIISRGSKFLSAIADAADKIRFYHLFGAVMLTVLYGAFAIYIVEYPDPNSSIKSVFDALWWAVVTATTVGYGDVVPATPIGKVIGIAVMLTGISALTLLIGTVSNMFQK HPLVELGVSYAALLSVIVVVVEYTMQLSGEYLVRLYLVDLILVIILWADYAYRAYKSGDPAGYVKKTLYEIPALVPAGLLALIEGHLAGLGLFRLVRLLRFLRILLIISRGSKFLSAIADAADKIRFYHLFGAVMLTVLYGAFAIYIVEYPDPNSSIKSVFDALWWAVVTATTVGYGDVVPATPIGKVIGIAVMLTGISALTLLIGTVSNMFQK 2a0q-a3-m1-cD_2a0q-a3-m1-cB Structure of thrombin in 400 mM potassium chloride P00734 P00734 1.9 X-RAY DIFFRACTION 31 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 245 242 IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYEANIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCKYGFYTHVFRLKKWIQKVIDQF IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYEANIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQF 2a0u-a1-m1-cB_2a0u-a1-m1-cA Crystal structure of the eukaryotic initiation factor 2B from Leishmania major at 2.1 A resolution Q4Q0R9 Q4Q0R9 2.1 X-RAY DIFFRACTION 184 1.0 5664 (Leishmania major) 5664 (Leishmania major) 363 369 TLESIKYTPGSLRLLDQRKLPLETVFDDVLTVEDIWSAIKERVRGAPAIAVSAALGIAVATQRKAANGELKSGREVQTFLLTSCDFVTSRPTAVNLFNCLRDLKAQVDKLDPTKAAAEVAQAFVELAEAVYTNDVAFNEGIRHGAAHILAAAKAEGRDKVSILTICNTGALATSRYGTALGVVRQLFYDGKLERVYACETRPWNQGARLTVYECVQEDIPCTLICDGAASSLLNRKIDAVVVGADRICQNGDTANKIGTYNLAVSAKFHGVKLYVAAPTTTLDVKTASGNHVEIEEREPTEITTNLVTKQRVVADGPHLSIWNPVFDITPSELITGGIITEKGVQAPAASAPYYDIASIIAQA SKPHHATLESIKYTPGSLRLLDQRKLPLETVFDDVLTVEDIWSAIKERVRGAPAIAVSAALGIAVATQRKAANGELKSGREVQTFLLTSCDFVTSRPTAVNLFNCLRDLKAQVDKLDPTKAAAEVAQAFVELAEAVYTNDVAFNEGIRHGAAHILAAAKAEGRDKVSILTICNTGALATSRYGTALGVVRQLFYDGKLERVYACETRPWNQGARLTVYECVQEDIPCTLICDGAASSLLNRKIDAVVVGADRICQNGDTANKIGTYNLAVSAKFHGVKLYVAAPTTTLDVKTASGNHVEIEEREPTEITTNLVTKQRVVADGPHLSIWNPVFDITPSELITGGIITEKGVQAPAASAPYYDIASIIAQA 2a10-a1-m1-cD_2a10-a1-m1-cE carboxysome shell protein ccmK4 P73407 P73407 1.803 X-RAY DIFFRACTION 90 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 102 102 2a10-a1-m1-cA_2a10-a1-m1-cB 2a10-a1-m1-cA_2a10-a1-m1-cF 2a10-a1-m1-cB_2a10-a1-m1-cC 2a10-a1-m1-cD_2a10-a1-m1-cC 2a10-a1-m1-cE_2a10-a1-m1-cF 2a18-a1-m1-cA_2a18-a1-m1-cB 2a18-a1-m1-cA_2a18-a1-m1-cC 2a18-a1-m1-cB_2a18-a1-m2-cC 2a18-a1-m1-cC_2a18-a1-m2-cB 2a18-a1-m2-cA_2a18-a1-m2-cB 2a18-a1-m2-cA_2a18-a1-m2-cC 6scr-a1-m1-cB_6scr-a1-m1-cA 6scr-a1-m1-cB_6scr-a1-m2-cA 6scr-a1-m2-cB_6scr-a1-m2-cA 6scr-a1-m2-cB_6scr-a1-m3-cA 6scr-a1-m3-cB_6scr-a1-m1-cA 6scr-a1-m3-cB_6scr-a1-m3-cA QSAVGSIETIGFPGILAAADAMVKAGRITIVGYIRAGSARFTLNIRGDVQEVKTAMAAGIDAINRTEGADVKTWVIIPRPHENVVAVLPIDFSPEVEPFREA QSAVGSIETIGFPGILAAADAMVKAGRITIVGYIRAGSARFTLNIRGDVQEVKTAMAAGIDAINRTEGADVKTWVIIPRPHENVVAVLPIDFSPEVEPFREA 2a11-a1-m1-cA_2a11-a1-m2-cA Crystal Structure of Nuclease Domain of Ribonuclase III from Mycobacterium Tuberculosis P9WH03 P9WH03 2.1 X-RAY DIFFRACTION 53 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 154 154 IRSRQPLLDALGVDLPDELLSLALTHRSYAYENGGLPTNERLEFLGDAVLGLTITDALFHRHPDRSEGDLAKLRASVVNTQALADVARRLCAEGLGVHVLLGRGEANTGGADKSSILADGMESLLGAIYLQHGMEKAREVILRLFGPLLDAAPT IRSRQPLLDALGVDLPDELLSLALTHRSYAYENGGLPTNERLEFLGDAVLGLTITDALFHRHPDRSEGDLAKLRASVVNTQALADVARRLCAEGLGVHVLLGRGEANTGGADKSSILADGMESLLGAIYLQHGMEKAREVILRLFGPLLDAAPT 2a1f-a1-m1-cA_2a1f-a1-m1-cF Crystal Structure of Uridylate kinase P43890 P43890 2.1 X-RAY DIFFRACTION 36 0.996 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 232 234 2a1f-a1-m1-cB_2a1f-a1-m1-cC 2a1f-a1-m1-cE_2a1f-a1-m1-cD 2a1f-a5-m1-cB_2a1f-a5-m1-cC LSQPIYKRILLKLSGEALQGEDGLGIDPAILDRMAVEIKELVEMGVEVSVVLGGGNLFRGAKLAKAGMNRVVGDHMGMLATVMNGLAMRDSLFRADVNAKLMSAFQLNGICDTYNWSEAIKMLREKRVVIFSAGTGNPFFTTDSTACLRGIEIEADVVLKATKVDGVYDCAKLYKNLSYAEVIDKELKVMDLSAFTLARDHGMPIRVFNMGKPGALRQVVTGTEEGTTICEG SQPIYKRILLKLSGEALQGEDGLGIDPAILDRMAVEIKELVEMGVEVSVVLGGGNLFRGAKLAKAGMNRVVGDHMGMLATVMNGLAMRDSLFRADVNAKLMSAFQLNGICDTYNWSEAIKMLREKRVVIFSAGTGNPFFTTDSTACLRGIEIEADVVLKATKVDGVYDCAKLYKNLSYAEVIDKELKVMDLSAFTLARDHGMPIRVFNMGKPGALRQVVTGTEEGTTICEGHHH 2a1f-a3-m1-cD_2a1f-a3-m1-cC Crystal Structure of Uridylate kinase P43890 P43890 2.1 X-RAY DIFFRACTION 89 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 236 237 2a1f-a1-m1-cA_2a1f-a1-m1-cB 2a1f-a1-m1-cD_2a1f-a1-m1-cC 2a1f-a1-m1-cF_2a1f-a1-m1-cE 2a1f-a2-m1-cF_2a1f-a2-m1-cE 2a1f-a4-m1-cA_2a1f-a4-m1-cB SQPIYKRILLKLSGEALQGEDGLGIDPAILDRMAVEIKELVEMGVEVSVVLGGGNLFRGAKLAKAGMNRVVGDHMGMLATVMNGLAMRDSLFRADVNAKLMSAFQLNGICDTYNWSEAIKMLREKRVVIFSAGTGNPFFTTDSTACLRGIEIEADVVLKATKVDGVYDCAKLYKNLSYAEVIDKELKVMDLSAFTLARDHGMPIRVFNMGKPGALRQVVTGTEEGTTICEGHHHHH SQPIYKRILLKLSGEALQGEDGLGIDPAILDRMAVEIKELVEMGVEVSVVLGGGNLFRGAKLAKAGMNRVVGDHMGMLATVMNGLAMRDSLFRADVNAKLMSAFQLNGICDTYNWSEAIKMLREKRVVIFSAGTGNPFFTTDSTACLRGIEIEADVVLKATKVDGVYDCAKLYKNLSYAEVIDKELKVMDLSAFTLARDHGMPIRVFNMGKPGALRQVVTGTEEGTTICEGHHHHHH 2a1j-a2-m1-cB_2a1j-a2-m2-cB Crystal Structure of the Complex between the C-Terminal Domains of Human XPF and ERCC1 P07992 P07992 2.7 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 DPADLLMEKLEQDFVSRVTECLTTVKSVNKTDSQTLLTTFGSLEQLIAASREDLALCPGLGPQKARRLFDVLHEPFLKV DPADLLMEKLEQDFVSRVTECLTTVKSVNKTDSQTLLTTFGSLEQLIAASREDLALCPGLGPQKARRLFDVLHEPFLKV 2a1r-a1-m1-cB_2a1r-a1-m1-cA Crystal structure of PARN nuclease domain O95453 O95453 2.6 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 292 300 MEIIRSNFKSNLHKVYQAIEEADFFAIDGEFSGISDGPSVPEERYQKLKKHSMDFLLFQFGLCTFKYDYTDSKYITKSFNFYVFPKPFNRSSPDVKFVCQSSSIDFLASQGFDFNKVFRNGIPYLNQEEERQLRQEELNDAVGFSRVIHAIANSGKLVIGHNMLLDVMHTVHQFYCPLPADLSEFKEMTTCVFPRLLDTKLMASTQPFKDIINNTSLAELEKRLKETPFNPPKVESAEGFPSYQLHEAGYDAYITGLCFISMANYLGSFLSPPKIHVSARSKLIEPFFNKLF MEIIRSNFKSNLHKVYQAIEEADFFAIDGEFSGISDGPSVGFDTPEERYQKLKKHSMDFLLFQFGLCTFKYDYTDSKYITKSFNFYVFPKPFNRSSPDVKFVCQSSSIDFLASQGFDFNKVFRNGIPYLNQEEERQLRHAKEQEELNDAVGFSRVIHAIANSGKLVIGHNMLLDVMHTVHQFYCPLPADLSEFKEMTTCVFPRLLDTKLMASTQPFKDIINNTSLAELEKRLKETPFNPPKVESAEGFPSYQLHEAGYDAYITGLCFISMANYLGSFLSPPKIHVSARSKLIEPFFNKLF 2a1s-a2-m1-cB_2a1s-a2-m1-cC Crystal structure of native PARN nuclease domain O95453 O95453 2.6 X-RAY DIFFRACTION 80 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 390 393 2a1s-a1-m1-cA_2a1s-a1-m1-cD MEIIRSNFKSNLHKVYQAIEEADFFAIDGEFSGISDGPSFDTPEERYQKLKKHSMDFLLFQFGLCTFKYDYTDSKYITKSFNFYVFPKPFNRSSPDVKFVCQSSSIDFLASQGFDFNKVFRNGIPYLNQEEERQLREQYDIPEDQKKFIDQVVEKIEDLLQSEENKNLDLEPCTGFQRKLIYQTLSWKYPKGIHVETLETEKKERYIVISKVDEEERKRREQQKHAKEQEELNDAVGFSRVIHAIANSGKLVIGHNMLLDVMHTVHQFYCPLPADLSEFKEMTTCVFPRLLDTKLMASTQPFKDIINNTSLAELEKRLKETPFNPPKVESAEGFPSYQLHEAGYDAYITGLCFISMANYLGSFLSPPKIHVSARSKLIEPFFNKLFLMRV MEIIRSNFKSNLHKVYQAIEEADFFAIDGEFSGISDFDTPEERYQKLKKHSMDFLLFQFGLCTFKYDYTDSKYITKSFNFYVFPKPFNRSSPDVKFVCQSSSIDFLASQGFDFNKVFRNGIPYLNQEEERQLREQYDPVTIPEDQKKFIDQVVEKIEDLLQSEENKNLDLEPCTGFQRKLIYQTLSWKYPKGIHVETLETEKKERYIVISKVDEEERKRREQQKHAKEQEELNDAVGFSRVIHAIANSGKLVIGHNMLLDVMHTVHQFYCPLPADLSEFKEMTTCVFPRLLDTKLMASTQPFKDIINNTSLAELEKRLKETPFNPPKVESAEGFPSYQLHEAGYDAYITGLCFISMANYLGSFLSPPKIHVSARSKLIEPFFNKLFLMRVMDI 2a1w-a4-m1-cI_2a1w-a4-m2-cI Anti-cocaine antibody 7.5.21, crystal form I Q99LC4 Q99LC4 2.7 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 225 225 2a1w-a3-m1-cI_2a1w-a3-m2-cI DVKLVESGGGLVKPGGSLRLSCAASGFTFRNYGMSWVRQTPEKRLEWVAAISGNSLYTSYPDSVKGRFTISRDNAKNNLYLQMSSLRSEDTALYFCARHDDYYGKSPYFFDVWGAGTTVTASSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRDC DVKLVESGGGLVKPGGSLRLSCAASGFTFRNYGMSWVRQTPEKRLEWVAAISGNSLYTSYPDSVKGRFTISRDNAKNNLYLQMSSLRSEDTALYFCARHDDYYGKSPYFFDVWGAGTTVTASSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRDC 2a25-a1-m1-cA_2a25-a1-m2-cA Crystal structure of Siah1 SBD bound to the peptide EKPAAVVAPITTG from SIP Q8IUQ4 Q8IUQ4 2.2 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1k2f-a1-m1-cA_1k2f-a1-m1-cB 2an6-a1-m1-cA_2an6-a1-m1-cB 2an6-a2-m1-cC_2an6-a2-m1-cD 4c9z-a1-m1-cB_4c9z-a1-m1-cA 4ca1-a1-m1-cA_4ca1-a1-m1-cB PYSCPCPSCKWQGSLDAVMPHLMHQHKSITTLQGEDIVFLATDINVDWVMMQSCFGFHFMLVLEKQQQFFAIVQLIGTRKQAENFAYRLELNGHRRRLTWEATPRSIHEGIATAIMNSDCLVFDTSIAQLFAENGNLGINVTISMC PYSCPCPSCKWQGSLDAVMPHLMHQHKSITTLQGEDIVFLATDINVDWVMMQSCFGFHFMLVLEKQQQFFAIVQLIGTRKQAENFAYRLELNGHRRRLTWEATPRSIHEGIATAIMNSDCLVFDTSIAQLFAENGNLGINVTISMC 2a26-a3-m1-cB_2a26-a3-m2-cC Crystal structure of the N-terminal, dimerization domain of Siah Interacting Protein Q9HB71 Q9HB71 1.2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 46 2a26-a3-m1-cC_2a26-a3-m2-cB SHMASEELQKDLEEVKVLLEKATRKRVRDALTAEKSKIETEIKNKM SHMASEELQKDLEEVKVLLEKATRKRVRDALTAEKSKIETEIKNKM 2a26-a3-m1-cC_2a26-a3-m2-cC Crystal structure of the N-terminal, dimerization domain of Siah Interacting Protein Q9HB71 Q9HB71 1.2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 46 2a26-a2-m1-cC_2a26-a2-m2-cC SHMASEELQKDLEEVKVLLEKATRKRVRDALTAEKSKIETEIKNKM SHMASEELQKDLEEVKVLLEKATRKRVRDALTAEKSKIETEIKNKM 2a26-a3-m2-cB_2a26-a3-m2-cC Crystal structure of the N-terminal, dimerization domain of Siah Interacting Protein Q9HB71 Q9HB71 1.2 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 46 2a26-a3-m1-cB_2a26-a3-m1-cC SHMASEELQKDLEEVKVLLEKATRKRVRDALTAEKSKIETEIKNKM SHMASEELQKDLEEVKVLLEKATRKRVRDALTAEKSKIETEIKNKM 2a27-a2-m1-cB_2a27-a2-m1-cC Human DRP-1 kinase, W305S S308A D40 mutant, crystal form with 8 monomers in the asymmetric unit Q9UIK4 Q9UIK4 3 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 303 303 1zws-a1-m1-cA_1zws-a1-m1-cB 1zws-a2-m1-cC_1zws-a2-m1-cD 1zws-a3-m1-cE_1zws-a3-m1-cF 1zws-a4-m1-cG_1zws-a4-m1-cH 2a27-a1-m1-cE_2a27-a1-m1-cA 2a27-a3-m1-cG_2a27-a3-m1-cD 2a27-a4-m1-cF_2a27-a4-m1-cH 2a2a-a1-m1-cB_2a2a-a1-m1-cA 2a2a-a2-m1-cC_2a2a-a2-m1-cD 2ya9-a1-m1-cA_2ya9-a1-m1-cB 2yaa-a1-m1-cB_2yaa-a1-m1-cA 2yab-a1-m1-cA_2yab-a1-m1-cB EPFKQQKVEDFYDIGEELGSGQFAIVKKCREKSTGLEYAAKFIKKRQSRASRRGVSREEIEREVSILRQVLHHNVITLHDVYENRTDVVLILELVSGGELFDFLAQKESLSEEEATSFIKQILDGVNYLHTKKIAHFDLKPENIMLLDKNIPIPHIKLIDFGLAHEIEDGVEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANITAVSYDFDEEFFSQTSELAKDFIRKLLVKETRKRLTIQEALRHPWITPVDNQQAMVRRESVVNLENFRKQYVRRR EPFKQQKVEDFYDIGEELGSGQFAIVKKCREKSTGLEYAAKFIKKRQSRASRRGVSREEIEREVSILRQVLHHNVITLHDVYENRTDVVLILELVSGGELFDFLAQKESLSEEEATSFIKQILDGVNYLHTKKIAHFDLKPENIMLLDKNIPIPHIKLIDFGLAHEIEDGVEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANITAVSYDFDEEFFSQTSELAKDFIRKLLVKETRKRLTIQEALRHPWITPVDNQQAMVRRESVVNLENFRKQYVRRR 2a2f-a2-m1-cX_2a2f-a2-m2-cX Crystal Structure of Sec15 C-terminal domain Q9VDE6 Q9VDE6 2.5 X-RAY DIFFRACTION 67 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 296 296 NILWELLHNMRDHYNEVLLQRWVHVFREILDKEQFLPMVVQNTEEYECIIERFPFHSEQLEPKKFPFSRMVPEVYHQAKEFMYACMKFAEELTLSPNEVAAMVRKAANLLLTRSFSGCLSVVFRQPSITLTQLIQIIIDTQYLEKAGPFLDEFVCHMTNTERAMFHVARQDAEKQVGLRICSKIDEFFELSAYDWLPGIASAFITDMISYLKSTFDSFAFKLPHIAQAACRRTFEHIAEKIYSIMYDSTGALTQINLDLMQCEFFAASEPVPGLKEGELSKYFLRNRQLLDLLILE NILWELLHNMRDHYNEVLLQRWVHVFREILDKEQFLPMVVQNTEEYECIIERFPFHSEQLEPKKFPFSRMVPEVYHQAKEFMYACMKFAEELTLSPNEVAAMVRKAANLLLTRSFSGCLSVVFRQPSITLTQLIQIIIDTQYLEKAGPFLDEFVCHMTNTERAMFHVARQDAEKQVGLRICSKIDEFFELSAYDWLPGIASAFITDMISYLKSTFDSFAFKLPHIAQAACRRTFEHIAEKIYSIMYDSTGALTQINLDLMQCEFFAASEPVPGLKEGELSKYFLRNRQLLDLLILE 2a2j-a1-m1-cA_2a2j-a1-m1-cB Crystal structure of a putative pyridoxine 5'-phosphate oxidase (Rv2607) from Mycobacterium tuberculosis P9WIJ1 P9WIJ1 2.5 X-RAY DIFFRACTION 190 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 202 202 PEKDGGDLDFDWLDDGWLTLLRRWLNDAQRAGVSEPNAMVLATVADGKPVTRSVLCKILDESGVAFFTSYTSAKGEQLAVTPYASATFPWYQLGRQAHVQGPVSKVSTEEIFTYWSMRPRGAQLGAWASQQSRPVGSRAQLDNQLAEVTRRFADQDQIPVPPGWGGYRIAPEIVEFWQGRENRMHNRIRVANGRLERLQPGS PEKDGGDLDFDWLDDGWLTLLRRWLNDAQRAGVSEPNAMVLATVADGKPVTRSVLCKILDESGVAFFTSYTSAKGEQLAVTPYASATFPWYQLGRQAHVQGPVSKVSTEEIFTYWSMRPRGAQLGAWASQQSRPVGSRAQLDNQLAEVTRRFADQDQIPVPPGWGGYRIAPEIVEFWQGRENRMHNRIRVANGRLERLQPGS 2a2l-a1-m1-cA_2a2l-a1-m2-cB Crystal structure of Klebsiella pneumoniae protein ORFY, Pfam DUF336 Q48422 Q48422 2.2 X-RAY DIFFRACTION 45 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 145 145 2a2l-a1-m1-cA_2a2l-a1-m1-cB 2a2l-a1-m1-cB_2a2l-a1-m2-cA 2a2l-a1-m1-cC_2a2l-a1-m1-cD 2a2l-a1-m1-cC_2a2l-a1-m2-cD 2a2l-a1-m1-cD_2a2l-a1-m2-cC 2a2l-a1-m2-cA_2a2l-a1-m2-cB 2a2l-a1-m2-cC_2a2l-a1-m2-cD SLMNKSQQVQTITLAAAQQMAAAVEKKATEINVAVVFSVVDRGGNTLLIQRMDEAFVSSCDISLNKAWSACSLKQGTHEITSAVQPGQSLYGLQLTNQQRIIIFGGGLPVIFNEQVIGAVGVSGGTVEQDQLLAQCALDCFSALE SLMNKSQQVQTITLAAAQQMAAAVEKKATEINVAVVFSVVDRGGNTLLIQRMDEAFVSSCDISLNKAWSACSLKQGTHEITSAVQPGQSLYGLQLTNQQRIIIFGGGLPVIFNEQVIGAVGVSGGTVEQDQLLAQCALDCFSALE 2a2l-a1-m2-cD_2a2l-a1-m2-cA Crystal structure of Klebsiella pneumoniae protein ORFY, Pfam DUF336 Q48422 Q48422 2.2 X-RAY DIFFRACTION 75 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 143 145 2a2l-a1-m1-cC_2a2l-a1-m1-cB 2a2l-a1-m1-cD_2a2l-a1-m1-cA 2a2l-a1-m2-cC_2a2l-a1-m2-cB MNKSQQVQTITLAAAQQMAAAVEKKATEINVAVVFSVVDRGGNTLLIQRMDEAFVSSCDISLNKAWSACSLKQGTHEITSAVQPGQSLYGLQLTNQQRIIIFGGGLPVIFNEQVIGAVGVSGGTVEQDQLLAQCALDCFSALE SLMNKSQQVQTITLAAAQQMAAAVEKKATEINVAVVFSVVDRGGNTLLIQRMDEAFVSSCDISLNKAWSACSLKQGTHEITSAVQPGQSLYGLQLTNQQRIIIFGGGLPVIFNEQVIGAVGVSGGTVEQDQLLAQCALDCFSALE 2a2l-a1-m2-cD_2a2l-a1-m2-cB Crystal structure of Klebsiella pneumoniae protein ORFY, Pfam DUF336 Q48422 Q48422 2.2 X-RAY DIFFRACTION 37 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 143 145 2a2l-a1-m1-cC_2a2l-a1-m2-cA 2a2l-a1-m1-cD_2a2l-a1-m1-cB 2a2l-a1-m2-cC_2a2l-a1-m1-cA MNKSQQVQTITLAAAQQMAAAVEKKATEINVAVVFSVVDRGGNTLLIQRMDEAFVSSCDISLNKAWSACSLKQGTHEITSAVQPGQSLYGLQLTNQQRIIIFGGGLPVIFNEQVIGAVGVSGGTVEQDQLLAQCALDCFSALE SLMNKSQQVQTITLAAAQQMAAAVEKKATEINVAVVFSVVDRGGNTLLIQRMDEAFVSSCDISLNKAWSACSLKQGTHEITSAVQPGQSLYGLQLTNQQRIIIFGGGLPVIFNEQVIGAVGVSGGTVEQDQLLAQCALDCFSALE 2a2m-a1-m2-cA_2a2m-a1-m3-cB CRYSTAL STRUCTURE OF a putativeTenA family transcriptional regulator (BT_3146) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 1.88 A RESOLUTION Q8A309 Q8A309 1.88 X-RAY DIFFRACTION 25 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 225 225 2a2m-a1-m1-cA_2a2m-a1-m2-cB 2a2m-a1-m1-cB_2a2m-a1-m3-cA 2a2o-a1-m1-cB_2a2o-a1-m1-cC 2a2o-a1-m1-cD_2a2o-a1-m1-cE 2a2o-a1-m1-cF_2a2o-a1-m1-cA 2a2o-a2-m1-cG_2a2o-a2-m5-cG 2a2o-a2-m2-cG_2a2o-a2-m4-cG 2a2o-a2-m3-cG_2a2o-a2-m6-cG RKRTFAIPASRLTGRLTTLKSDVPAADSLFWKLWNGSLDTAVQVLQTDYFKGIAAGTLDPNAYGSLVQDGYYCFRGRDDYATAATCAQDETLREFFKAKAKSYDEYNETYHQTWHLREASGLIPGTDIKDYADYEAYVAGSLASPYCVVLPCEYLWPWIANFLDGYTPTNSLYRFWIEWNGGTPNGAYQGNLEQYRDKIDEDKAVEIFNTANYELKVFTSSTILT RKRTFAIPASRLTGRLTTLKSDVPAADSLFWKLWNGSLDTAVQVLQTDYFKGIAAGTLDPNAYGSLVQDGYYCFRGRDDYATAATCAQDETLREFFKAKAKSYDEYNETYHQTWHLREASGLIPGTDIKDYADYEAYVAGSLASPYCVVLPCEYLWPWIANFLDGYTPTNSLYRFWIEWNGGTPNGAYQGNLEQYRDKIDEDKAVEIFNTANYELKVFTSSTILT 2a2m-a1-m3-cA_2a2m-a1-m3-cB CRYSTAL STRUCTURE OF a putativeTenA family transcriptional regulator (BT_3146) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 1.88 A RESOLUTION Q8A309 Q8A309 1.88 X-RAY DIFFRACTION 79 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 225 225 2a2m-a1-m1-cA_2a2m-a1-m1-cB 2a2m-a1-m2-cA_2a2m-a1-m2-cB 2a2o-a1-m1-cA_2a2o-a1-m1-cB 2a2o-a1-m1-cD_2a2o-a1-m1-cC 2a2o-a1-m1-cF_2a2o-a1-m1-cE 2a2o-a2-m1-cG_2a2o-a2-m4-cG 2a2o-a2-m2-cG_2a2o-a2-m6-cG 2a2o-a2-m3-cG_2a2o-a2-m5-cG RKRTFAIPASRLTGRLTTLKSDVPAADSLFWKLWNGSLDTAVQVLQTDYFKGIAAGTLDPNAYGSLVQDGYYCFRGRDDYATAATCAQDETLREFFKAKAKSYDEYNETYHQTWHLREASGLIPGTDIKDYADYEAYVAGSLASPYCVVLPCEYLWPWIANFLDGYTPTNSLYRFWIEWNGGTPNGAYQGNLEQYRDKIDEDKAVEIFNTANYELKVFTSSTILT RKRTFAIPASRLTGRLTTLKSDVPAADSLFWKLWNGSLDTAVQVLQTDYFKGIAAGTLDPNAYGSLVQDGYYCFRGRDDYATAATCAQDETLREFFKAKAKSYDEYNETYHQTWHLREASGLIPGTDIKDYADYEAYVAGSLASPYCVVLPCEYLWPWIANFLDGYTPTNSLYRFWIEWNGGTPNGAYQGNLEQYRDKIDEDKAVEIFNTANYELKVFTSSTILT 2a2u-a1-m1-cA_2a2u-a1-m1-cD THE CRYSTAL STRUCTURES OF A2U-GLOBULIN AND ITS COMPLEX WITH A HYALINE DROPLET INDUCER. P02761 P02761 2.5 X-RAY DIFFRACTION 51 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 158 158 2a2g-a1-m1-cA_2a2g-a1-m1-cC 2a2g-a1-m1-cB_2a2g-a1-m1-cD 2a2u-a1-m1-cB_2a2u-a1-m1-cC EEASSTRGNLDVAKLNGDWFSIVVASNKREKIEENGSMRVFMQHIDVLENSLGFKFRIKENGECRELYLVAYKTPEDGEYFVEYDGGNTFTILKTDYDRYVMFHLINFKNGETFQLMVLYGRTKDLSSDIKEKFAKLCEAHGITRDNIIDLTKTDRCL EEASSTRGNLDVAKLNGDWFSIVVASNKREKIEENGSMRVFMQHIDVLENSLGFKFRIKENGECRELYLVAYKTPEDGEYFVEYDGGNTFTILKTDYDRYVMFHLINFKNGETFQLMVLYGRTKDLSSDIKEKFAKLCEAHGITRDNIIDLTKTDRCL 2a2u-a1-m1-cB_2a2u-a1-m1-cD THE CRYSTAL STRUCTURES OF A2U-GLOBULIN AND ITS COMPLEX WITH A HYALINE DROPLET INDUCER. P02761 P02761 2.5 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 158 158 2a2g-a1-m1-cA_2a2g-a1-m1-cD 2a2g-a1-m1-cB_2a2g-a1-m1-cC 2a2u-a1-m1-cA_2a2u-a1-m1-cC EEASSTRGNLDVAKLNGDWFSIVVASNKREKIEENGSMRVFMQHIDVLENSLGFKFRIKENGECRELYLVAYKTPEDGEYFVEYDGGNTFTILKTDYDRYVMFHLINFKNGETFQLMVLYGRTKDLSSDIKEKFAKLCEAHGITRDNIIDLTKTDRCL EEASSTRGNLDVAKLNGDWFSIVVASNKREKIEENGSMRVFMQHIDVLENSLGFKFRIKENGECRELYLVAYKTPEDGEYFVEYDGGNTFTILKTDYDRYVMFHLINFKNGETFQLMVLYGRTKDLSSDIKEKFAKLCEAHGITRDNIIDLTKTDRCL 2a35-a1-m1-cA_2a35-a1-m1-cB 1.5 A Crystal Structure of a Protein of Unknown Function PA4017 from Pseudomonas aeruginosa PAO1, Possible Epimerase Q9HX10 Q9HX10 1.5 X-RAY DIFFRACTION 42 0.995 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 208 208 TPKRVLLAGATGLTGEHLLDRILSEPTLAKVIAPARKALAEHPRLDNPVGPLAELLPQLDGSIDTAFCCLGTTIKEAGSEEAFRAVDFDLPLAVGKRALEMGARHYLVVSALGADAKSSIFYNRVKGELEQALQEQGWPQLTIARPSLLFGPREEFRLAEILAAPIAGKYHGIEACDLARALWRLALEEGKGVRFVESDELRKLGKGS TPKRVLLAGATGLTGEHLLDRILSEPTLAKVIAPARKALAEHPRLDNPVGPLAELLPQLDGSIDTAFCCLGTTIKEAGSEEAFRAVDFDLPLAVGKRALEMGARHYLVVSALGADAKSSIFYNRVKGELEQALQEQGWPQLTIARPSLLFGPREEFRLAEILAAPIPGKYHGIEACDLARALWRLALEEGKGVRFVESDELRKLGKGS 2a3l-a2-m1-cA_2a3l-a2-m4-cA X-Ray Structure of Adenosine 5'-Monophosphate Deaminase from Arabidopsis Thaliana in Complex with Coformycin 5'-Phosphate O80452 O80452 3.34 X-RAY DIFFRACTION 32 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 616 616 2a3l-a2-m2-cA_2a3l-a2-m3-cA QPDPIAADILRKEPEQETFVRLNVPLEVPTSDEVEAYKCLQECLELRKRYVFQETVAPWEKEEPFAHYPQGKSDHCFEMQDGVVHVFANKDAKEDLFPVADATAFFTDLHHVLKVIAAGNIRTLCHRRLVLLEQKFNLHLMLNADKEFLAQKSAPHRDFYNVRKVDTHVHHSACMNQKHLLRFIKSKLRKEPDEVVIFRDGTYLTLREVFESLDLTGYDLNVDLLDVHADKSTFHRFDKFNLKYNPCGQSRLREIFLKQDNLIQGRFLGEITKQVFSDLEASKYQMAEYRISIYGRKMSEWDQLASWIVNNDLYSENVVWLIQLPRLYNIYKDMGIVTSFQNILDNIFIPLFEATVDPDSHPQLHVFLKQVVGFDLVDDESKPERRPTKHMPTPAQWTNAFNPAFSYYVYYCYANLYVLNKLRESKGMTTITLRPHSGEAGDIDHLAATFLTCHSIAHGINLRKSPVLQYLYYLAQIGLAMSPLSNNSLFLDYHRNPFPVFFLRGLNVSLSTDDPLQIHLTKEPLVEEYSIAASVWKLSACDLCEIARNSVYQSGFSHALKSHWIGKDYYKRGPDGNDIHKTNVPHIRVEFRDTIWKEEMQQVYLGKAVISDEVVP QPDPIAADILRKEPEQETFVRLNVPLEVPTSDEVEAYKCLQECLELRKRYVFQETVAPWEKEEPFAHYPQGKSDHCFEMQDGVVHVFANKDAKEDLFPVADATAFFTDLHHVLKVIAAGNIRTLCHRRLVLLEQKFNLHLMLNADKEFLAQKSAPHRDFYNVRKVDTHVHHSACMNQKHLLRFIKSKLRKEPDEVVIFRDGTYLTLREVFESLDLTGYDLNVDLLDVHADKSTFHRFDKFNLKYNPCGQSRLREIFLKQDNLIQGRFLGEITKQVFSDLEASKYQMAEYRISIYGRKMSEWDQLASWIVNNDLYSENVVWLIQLPRLYNIYKDMGIVTSFQNILDNIFIPLFEATVDPDSHPQLHVFLKQVVGFDLVDDESKPERRPTKHMPTPAQWTNAFNPAFSYYVYYCYANLYVLNKLRESKGMTTITLRPHSGEAGDIDHLAATFLTCHSIAHGINLRKSPVLQYLYYLAQIGLAMSPLSNNSLFLDYHRNPFPVFFLRGLNVSLSTDDPLQIHLTKEPLVEEYSIAASVWKLSACDLCEIARNSVYQSGFSHALKSHWIGKDYYKRGPDGNDIHKTNVPHIRVEFRDTIWKEEMQQVYLGKAVISDEVVP 2a3l-a2-m3-cA_2a3l-a2-m4-cA X-Ray Structure of Adenosine 5'-Monophosphate Deaminase from Arabidopsis Thaliana in Complex with Coformycin 5'-Phosphate O80452 O80452 3.34 X-RAY DIFFRACTION 152 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 616 616 2a3l-a1-m1-cA_2a3l-a1-m2-cA 2a3l-a2-m1-cA_2a3l-a2-m2-cA QPDPIAADILRKEPEQETFVRLNVPLEVPTSDEVEAYKCLQECLELRKRYVFQETVAPWEKEEPFAHYPQGKSDHCFEMQDGVVHVFANKDAKEDLFPVADATAFFTDLHHVLKVIAAGNIRTLCHRRLVLLEQKFNLHLMLNADKEFLAQKSAPHRDFYNVRKVDTHVHHSACMNQKHLLRFIKSKLRKEPDEVVIFRDGTYLTLREVFESLDLTGYDLNVDLLDVHADKSTFHRFDKFNLKYNPCGQSRLREIFLKQDNLIQGRFLGEITKQVFSDLEASKYQMAEYRISIYGRKMSEWDQLASWIVNNDLYSENVVWLIQLPRLYNIYKDMGIVTSFQNILDNIFIPLFEATVDPDSHPQLHVFLKQVVGFDLVDDESKPERRPTKHMPTPAQWTNAFNPAFSYYVYYCYANLYVLNKLRESKGMTTITLRPHSGEAGDIDHLAATFLTCHSIAHGINLRKSPVLQYLYYLAQIGLAMSPLSNNSLFLDYHRNPFPVFFLRGLNVSLSTDDPLQIHLTKEPLVEEYSIAASVWKLSACDLCEIARNSVYQSGFSHALKSHWIGKDYYKRGPDGNDIHKTNVPHIRVEFRDTIWKEEMQQVYLGKAVISDEVVP QPDPIAADILRKEPEQETFVRLNVPLEVPTSDEVEAYKCLQECLELRKRYVFQETVAPWEKEEPFAHYPQGKSDHCFEMQDGVVHVFANKDAKEDLFPVADATAFFTDLHHVLKVIAAGNIRTLCHRRLVLLEQKFNLHLMLNADKEFLAQKSAPHRDFYNVRKVDTHVHHSACMNQKHLLRFIKSKLRKEPDEVVIFRDGTYLTLREVFESLDLTGYDLNVDLLDVHADKSTFHRFDKFNLKYNPCGQSRLREIFLKQDNLIQGRFLGEITKQVFSDLEASKYQMAEYRISIYGRKMSEWDQLASWIVNNDLYSENVVWLIQLPRLYNIYKDMGIVTSFQNILDNIFIPLFEATVDPDSHPQLHVFLKQVVGFDLVDDESKPERRPTKHMPTPAQWTNAFNPAFSYYVYYCYANLYVLNKLRESKGMTTITLRPHSGEAGDIDHLAATFLTCHSIAHGINLRKSPVLQYLYYLAQIGLAMSPLSNNSLFLDYHRNPFPVFFLRGLNVSLSTDDPLQIHLTKEPLVEEYSIAASVWKLSACDLCEIARNSVYQSGFSHALKSHWIGKDYYKRGPDGNDIHKTNVPHIRVEFRDTIWKEEMQQVYLGKAVISDEVVP 2a3n-a1-m1-cA_2a3n-a1-m2-cA Crystal structure of a putative glucosamine-fructose-6-phosphate aminotransferase (stm4540.s) from salmonella typhimurium lt2 at 1.35 A resolution Q8ZJX7 Q8ZJX7 1.23 X-RAY DIFFRACTION 153 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 325 325 LGFNQDEYLTSAREIIAARQKAEQVADEIYQAGFSSLFFASVGGSLAPAINEFAKELTTLPVYVEQAAELIHKGNKRLNKDSVVITLSKSGDTKESVAIAEWCKAQGIRVVAITKNADSPLAQAATWHIPRHKNGVEYEYLLYWLFFRVLSRNNEFASYDRFASQLEILPANLLKAKQKFDPQADAIASRYHNSDYWVGGAEWGEVYLFSCILEEQWKRTRPVSSAEFFHGALELLEKDVPLILVKGEGKCRALDERVERFASKITDNLVVIDPKAYALDGIDDEFRWIAPCVVSTLLVDRLAAHFEKYTGHSLDIRRYYRQFDY LGFNQDEYLTSAREIIAARQKAEQVADEIYQAGFSSLFFASVGGSLAPAINEFAKELTTLPVYVEQAAELIHKGNKRLNKDSVVITLSKSGDTKESVAIAEWCKAQGIRVVAITKNADSPLAQAATWHIPRHKNGVEYEYLLYWLFFRVLSRNNEFASYDRFASQLEILPANLLKAKQKFDPQADAIASRYHNSDYWVGGAEWGEVYLFSCILEEQWKRTRPVSSAEFFHGALELLEKDVPLILVKGEGKCRALDERVERFASKITDNLVVIDPKAYALDGIDDEFRWIAPCVVSTLLVDRLAAHFEKYTGHSLDIRRYYRQFDY 2a3v-a1-m1-cA_2a3v-a1-m1-cD Structural basis for broad DNA-specificity in integron recombination O68847 O68847 2.8 X-RAY DIFFRACTION 124 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 313 320 2a3v-a1-m1-cC_2a3v-a1-m1-cB GSQFLLSVREFMQTRYYAKKTIEAYLHWITRYIHFHNKKHPSLMGDKEVEEFLTYLAVQGKVATKTQSLALNSLSFLYKEILKTPLSLEIRFQRSQLERKLPVVLTRDEIRRLLEIVDPKHQLPIKLLYGSGLRLMECMRLRVQDIDFDYGAIRIWQGKGGKNRTVTLAKELYPHLKEQIALAKRYYDRDLHQKNYGGVWLPTALKEKYPNAPYEFRWHYLFPSFQLSLDPESDVMRRHHMNETVLQKAVRRSAQEAGIEKTVTCHTLRHSFATHLLEVGADIRTVQEQLGHTDVKTTQIYTHSGVLSPLSRL MGSQFLLSVREFMQTRYYAKKTIEAYLHWITRYIHFHNKKHPSLMGDKEVEEFLTYLAVQGKVATKTQSLALNSLSFLYKEILKTPLSLEIRFQRSQLERKLPVVLTRDEIRRLLEIVDPKHQLPIKLLYGSGLRLMECMRLRVQDIDFDYGAIRIWQGKGGKNRTVTLAKELYPHLKEQIALAKRYYDRDLHQKNYGGVWLPTALKEKYPNAPYEFRWHYLFPSFQLSLDPESDVMRRHHMNETVLQKAVRRSAQEAGIEKTVTCHTLRHSFATHLLEVGADIRTVQEQLGHTDVKTTQIYTHVLDRGASGVLSPLSRL 2a3v-a1-m1-cC_2a3v-a1-m1-cD Structural basis for broad DNA-specificity in integron recombination O68847 O68847 2.8 X-RAY DIFFRACTION 55 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 317 320 2a3v-a1-m1-cA_2a3v-a1-m1-cB MGSQFLLSVREFMQTRYYAKKTIEAYLHWITRYIHFHNKKHPSLMGDKEVEEFLTYLAVQGKVATKTQSLALNSLSFLYKEILKTPLSLEIRFQRSQLERKLPVVLTRDEIRRLLEIVDPKHQLPIKLLYGSGLRLMECMRLRVQDIDFDYGAIRIWQGKGGKNRTVTLAKELYPHLKEQIALAKRYYDRDLHQKNYGGVWLPTALKEKYPNAPYEFRWHYLFPSFQLSLDPESDVMRRHHMNETVLQKAVRRSAQEAGIEKTVTCHTLRHSFATHLLEVGADIRTVQEQLGHTDVKTTQIYTHRGASGVLSPLSRL MGSQFLLSVREFMQTRYYAKKTIEAYLHWITRYIHFHNKKHPSLMGDKEVEEFLTYLAVQGKVATKTQSLALNSLSFLYKEILKTPLSLEIRFQRSQLERKLPVVLTRDEIRRLLEIVDPKHQLPIKLLYGSGLRLMECMRLRVQDIDFDYGAIRIWQGKGGKNRTVTLAKELYPHLKEQIALAKRYYDRDLHQKNYGGVWLPTALKEKYPNAPYEFRWHYLFPSFQLSLDPESDVMRRHHMNETVLQKAVRRSAQEAGIEKTVTCHTLRHSFATHLLEVGADIRTVQEQLGHTDVKTTQIYTHVLDRGASGVLSPLSRL 2a40-a3-m1-cB_2a40-a3-m1-cE Ternary complex of the WH2 domain of WAVE with Actin-DNAse I P00639 P00639 1.8 X-RAY DIFFRACTION 19 1.0 9913 (Bos taurus) 9913 (Bos taurus) 260 260 LKIAAFNIRTFGETKMSNATLASYIVRIVRRYDIVLIQEVRDSHLVAVGKLLDYLNQDDPNTYHYVVSEPLGRNSYKERYLFLFRPNKVSVLDTYQYDDGCESCGNDSFSREPAVVKFSSHSTKVKEFAIVALHSAPSDAVAEINSLYDVYLDVQQKWHLNDVMLMGDFNADCSYVTSSQWSSIRLRTSSTFQWLIPDSADTTATSTNCAYDRIVVAGSLLQSSVVPGSAAPFDFQAAYGLSNEMALAISDHYPVEVTLT LKIAAFNIRTFGETKMSNATLASYIVRIVRRYDIVLIQEVRDSHLVAVGKLLDYLNQDDPNTYHYVVSEPLGRNSYKERYLFLFRPNKVSVLDTYQYDDGCESCGNDSFSREPAVVKFSSHSTKVKEFAIVALHSAPSDAVAEINSLYDVYLDVQQKWHLNDVMLMGDFNADCSYVTSSQWSSIRLRTSSTFQWLIPDSADTTATSTNCAYDRIVVAGSLLQSSVVPGSAAPFDFQAAYGLSNEMALAISDHYPVEVTLT 2a45-a1-m1-cI_2a45-a1-m1-cL Crystal structure of the complex between thrombin and the central ""E"" region of fibrin P02679 P02679 3.65 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 44 DNCCILDERFGSYCPTTCGIADFLSTYQTKVDKDLQSLED VATRDNCCILDERFGSYCPTTCGIADFLSTYQTKVDKDLQSLED 2a46-a1-m2-cA_2a46-a1-m4-cA Crystal structures of amFP486, a cyan fluorescent protein from Anemonia majano, and variants Q9U6Y6 Q9U6Y6 1.65 X-RAY DIFFRACTION 79 1.0 105399 (Anemonia manjano) 105399 (Anemonia manjano) 217 217 2a46-a1-m1-cA_2a46-a1-m3-cA 2a47-a1-m1-cA_2a47-a1-m3-cA 2a47-a1-m2-cA_2a47-a1-m4-cA 2a48-a1-m1-cA_2a48-a1-m3-cA 2a48-a1-m2-cA_2a48-a1-m4-cA NKFIGDDMKMTYHMDGCVNGHYFTVKGEGNGKPYEGTQTSTFKVTMANGGPLAFSFDILSTVFNRCFTAYPTSMPDYFKQAFPDGMSYERTFTYEDGGVATASWEISLKGNCFEHKSTFHGVNFPADGPVMAKKTTGWDPSFEKMTVCDGILKGDVTAFLMLQGGGNYRCQFHTSYKTKKPVTMPPNHVVEHRIARTDLDKGGNSVQLTEHAVAHIT NKFIGDDMKMTYHMDGCVNGHYFTVKGEGNGKPYEGTQTSTFKVTMANGGPLAFSFDILSTVFNRCFTAYPTSMPDYFKQAFPDGMSYERTFTYEDGGVATASWEISLKGNCFEHKSTFHGVNFPADGPVMAKKTTGWDPSFEKMTVCDGILKGDVTAFLMLQGGGNYRCQFHTSYKTKKPVTMPPNHVVEHRIARTDLDKGGNSVQLTEHAVAHIT 2a46-a1-m3-cA_2a46-a1-m4-cA Crystal structures of amFP486, a cyan fluorescent protein from Anemonia majano, and variants Q9U6Y6 Q9U6Y6 1.65 X-RAY DIFFRACTION 49 1.0 105399 (Anemonia manjano) 105399 (Anemonia manjano) 217 217 2a46-a1-m1-cA_2a46-a1-m2-cA 2a47-a1-m1-cA_2a47-a1-m2-cA 2a47-a1-m3-cA_2a47-a1-m4-cA 2a48-a1-m1-cA_2a48-a1-m2-cA 2a48-a1-m3-cA_2a48-a1-m4-cA NKFIGDDMKMTYHMDGCVNGHYFTVKGEGNGKPYEGTQTSTFKVTMANGGPLAFSFDILSTVFNRCFTAYPTSMPDYFKQAFPDGMSYERTFTYEDGGVATASWEISLKGNCFEHKSTFHGVNFPADGPVMAKKTTGWDPSFEKMTVCDGILKGDVTAFLMLQGGGNYRCQFHTSYKTKKPVTMPPNHVVEHRIARTDLDKGGNSVQLTEHAVAHIT NKFIGDDMKMTYHMDGCVNGHYFTVKGEGNGKPYEGTQTSTFKVTMANGGPLAFSFDILSTVFNRCFTAYPTSMPDYFKQAFPDGMSYERTFTYEDGGVATASWEISLKGNCFEHKSTFHGVNFPADGPVMAKKTTGWDPSFEKMTVCDGILKGDVTAFLMLQGGGNYRCQFHTSYKTKKPVTMPPNHVVEHRIARTDLDKGGNSVQLTEHAVAHIT 2a4a-a3-m2-cB_2a4a-a3-m1-cA Deoxyribose-phosphate aldolase from P. yoelii Q7RMC9 Q7RMC9 1.84 X-RAY DIFFRACTION 56 1.0 73239 (Plasmodium yoelii yoelii) 73239 (Plasmodium yoelii yoelii) 247 250 NYTEKFAAWSVICLTDHTFLDENGTEDDIRELCNESVKTCPFAAAVCVYPKFVKFINEKIKQEINPFKPKIACVINFPYGTDSMEKVLNDTEKALDDGADEIDLVINYKKIIENTDEGLKEATKLTQSVKKLLTNKILKVIIEVGELKTEDLIIKTTLAVLNGNADFIKTSTGKVQINATPSSVEYIIKAIKEYIKNNPEKNNKIGLKVSGGISDLNTASHYILLARRFLFRIGSSSLVIKLRKVIS NYTEKFAAWSVICLTDHTFLDENGTEDDIRELCNESVKTCPFAAAVCVYPKFVKFINEKIKQEINPFKPKIACVINFPYGTDSMEKVLNDTEKALDDGADEIDLVINYKKIIENTDEGLKEATKLTQSVKKLLTNKILKVIIEVGELKTEDLIIKTTLAVLNGNADFIKTSTGKVQINATPSSVEYIIKAIKEYIKNNPEKNNKIGLKVSGGISDLNTASHYILLARRFLSDNFRIGSSSLVIKLRKVIS 2a4a-a4-m1-cB_2a4a-a4-m1-cA Deoxyribose-phosphate aldolase from P. yoelii Q7RMC9 Q7RMC9 1.84 X-RAY DIFFRACTION 17 1.0 73239 (Plasmodium yoelii yoelii) 73239 (Plasmodium yoelii yoelii) 247 250 NYTEKFAAWSVICLTDHTFLDENGTEDDIRELCNESVKTCPFAAAVCVYPKFVKFINEKIKQEINPFKPKIACVINFPYGTDSMEKVLNDTEKALDDGADEIDLVINYKKIIENTDEGLKEATKLTQSVKKLLTNKILKVIIEVGELKTEDLIIKTTLAVLNGNADFIKTSTGKVQINATPSSVEYIIKAIKEYIKNNPEKNNKIGLKVSGGISDLNTASHYILLARRFLFRIGSSSLVIKLRKVIS NYTEKFAAWSVICLTDHTFLDENGTEDDIRELCNESVKTCPFAAAVCVYPKFVKFINEKIKQEINPFKPKIACVINFPYGTDSMEKVLNDTEKALDDGADEIDLVINYKKIIENTDEGLKEATKLTQSVKKLLTNKILKVIIEVGELKTEDLIIKTTLAVLNGNADFIKTSTGKVQINATPSSVEYIIKAIKEYIKNNPEKNNKIGLKVSGGISDLNTASHYILLARRFLSDNFRIGSSSLVIKLRKVIS 2a4e-a1-m1-cA_2a4e-a1-m2-cA Crystal structure of mouse cadherin-11 EC1-2 P55288 P55288 3.2 X-RAY DIFFRACTION 76 1.0 10090 (Mus musculus) 10090 (Mus musculus) 208 208 2a4c-a1-m1-cA_2a4c-a1-m1-cB SGWVWNQFFVIEEYTGPDPVLVGRLHSDIDSGDGNIKYILSGEGAGTIFVIDDKSGNIHATKTLDREERAQYTLMAQAVDRDTNRPLEPPSEFIVKVQDINDNPPEFLHEIYHANVPERSNVGTSVIQVTASDADDPTYGNSAKLVYSILEGQPYFSVEAQTGIIRTALPNMDREAKEEYHVVIQAKDMGGHMGGLSGTTKVTITLTD SGWVWNQFFVIEEYTGPDPVLVGRLHSDIDSGDGNIKYILSGEGAGTIFVIDDKSGNIHATKTLDREERAQYTLMAQAVDRDTNRPLEPPSEFIVKVQDINDNPPEFLHEIYHANVPERSNVGTSVIQVTASDADDPTYGNSAKLVYSILEGQPYFSVEAQTGIIRTALPNMDREAKEEYHVVIQAKDMGGHMGGLSGTTKVTITLTD 2a4k-a1-m1-cB_2a4k-a1-m1-cA 3-Oxoacyl-[acyl carrier protein] reductase from Thermus thermophilus TT0137 2.301 X-RAY DIFFRACTION 97 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 202 237 RLSGKTILVTGAASGIGRAALDLFAREGASLVAVDREERLLAEAVAALEAEAIAVVADVSDPKAVEAVFAEALEEFGRLHGVAHFAGVAWEKVLRVNLTGSFLVARKAGEVLEEGGSLVLTGKLGVVGLARTLALELARKGVRVNVLLPGLIQAWEQEVGASPLGRAGRPEEVAQAALFLLSEESAYITGQALYVDGGRSIV GRLSGKTILVTGAASGIGRAALDLFAREGASLVAVDREERLLAEAVAALEAEAIAVVADVSDPKAVEAVFAEALEEFGRLHGVAHFAGVAHSALPLEAWEKVLRVNLTGSFLVARKAGEVLEEGGSLVLTGSVAGLGAFGLAHYAAGKLGVVGLARTLALELARKGVRVNVLLPGLIQTPMTAGLPPWAWEQEVGASPLGRAGRPEEVAQAALFLLSEESAYITGQALYVDGGRSIV 2a4w-a1-m1-cA_2a4w-a1-m1-cB Crystal Structure Of Mitomycin C-Binding Protein Complexed with Copper(II)-Bleomycin A2 O05205 O05205 1.5 X-RAY DIFFRACTION 161 1.0 53502 (Streptomyces caespitosus) 53502 (Streptomyces caespitosus) 128 130 1kll-a1-m1-cA_1kll-a1-m2-cA 2a4x-a1-m1-cB_2a4x-a1-m1-cA SARISLFAVVVEDMAKSLEFYRKLGVEIPAEADSAPHTEAVLDGGIRLAWDTVETVRSYDPEWQAPTGGHRFAIAFEFPDTASVDKKYAELVDAGYEGHLKPWNAVWGQRYAIVKDPDGNVVDLFAPL SARISLFAVVVEDMAKSLEFYRKLGVEIPAEADSAPHTEAVLDGGIRLAWDTVETVRSYDPEWQAPTGGHRFAIAFEFPDTASVDKKYAELVDAGYEGHLKPWNAVWGQRYAIVKDPDGNVVDLFAPLPL 2a50-a1-m1-cD_2a50-a1-m2-cD fluorescent protein asFP595, wt, off-state Q9GZ28 Q9GZ28 1.3 X-RAY DIFFRACTION 95 1.0 6108 (Anemonia sulcata) 6108 (Anemonia sulcata) 167 167 1xmz-a1-m1-cA_1xmz-a1-m2-cA 1xmz-a1-m1-cB_1xmz-a1-m2-cB 1xmz-a2-m1-cA_1xmz-a2-m2-cA 1xmz-a3-m1-cB_1xmz-a3-m2-cB 1xqm-a1-m1-cA_1xqm-a1-m3-cA 1xqm-a1-m2-cA_1xqm-a1-m4-cA 2a50-a1-m1-cB_2a50-a1-m2-cB 2a52-a1-m1-cB_2a52-a1-m2-cB 2a52-a1-m1-cD_2a52-a1-m2-cD 2a53-a1-m1-cB_2a53-a1-m2-cB 2a53-a1-m1-cD_2a53-a1-m2-cD 2a54-a1-m1-cB_2a54-a1-m2-cB 2a54-a1-m1-cD_2a54-a1-m2-cD 2a56-a1-m1-cB_2a56-a1-m2-cB 2a56-a1-m1-cD_2a56-a1-m2-cD SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDCLVYKVKILGNNFPADGPVMQNKAGRWEPATEIVYEVDGVLRGQSLMALKCPGGRHLTCHLHTTYRSKKPASALKMPGFHFEDHRIEIMEEVEKGKCYKQYEAAVGRYCDAAPSKLGHN SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDCLVYKVKILGNNFPADGPVMQNKAGRWEPATEIVYEVDGVLRGQSLMALKCPGGRHLTCHLHTTYRSKKPASALKMPGFHFEDHRIEIMEEVEKGKCYKQYEAAVGRYCDAAPSKLGHN 2a50-a1-m2-cB_2a50-a1-m2-cD fluorescent protein asFP595, wt, off-state Q9GZ28 Q9GZ28 1.3 X-RAY DIFFRACTION 67 1.0 6108 (Anemonia sulcata) 6108 (Anemonia sulcata) 167 167 1xmz-a1-m1-cA_1xmz-a1-m1-cB 1xmz-a1-m2-cA_1xmz-a1-m2-cB 1xqm-a1-m1-cA_1xqm-a1-m2-cA 1xqm-a1-m3-cA_1xqm-a1-m4-cA 2a50-a1-m1-cB_2a50-a1-m1-cD 2a52-a1-m1-cB_2a52-a1-m1-cD 2a52-a1-m2-cB_2a52-a1-m2-cD 2a53-a1-m1-cB_2a53-a1-m1-cD 2a53-a1-m2-cB_2a53-a1-m2-cD 2a54-a1-m1-cB_2a54-a1-m1-cD 2a54-a1-m2-cB_2a54-a1-m2-cD 2a56-a1-m1-cB_2a56-a1-m1-cD 2a56-a1-m2-cB_2a56-a1-m2-cD SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDCLVYKVKILGNNFPADGPVMQNKAGRWEPATEIVYEVDGVLRGQSLMALKCPGGRHLTCHLHTTYRSKKPASALKMPGFHFEDHRIEIMEEVEKGKCYKQYEAAVGRYCDAAPSKLGHN SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDCLVYKVKILGNNFPADGPVMQNKAGRWEPATEIVYEVDGVLRGQSLMALKCPGGRHLTCHLHTTYRSKKPASALKMPGFHFEDHRIEIMEEVEKGKCYKQYEAAVGRYCDAAPSKLGHN 2a5h-a1-m1-cA_2a5h-a1-m1-cD 2.1 Angstrom X-ray crystal structure of lysine-2,3-aminomutase from Clostridium subterminale SB4, with Michaelis analog (L-alpha-lysine external aldimine form of pyridoxal-5'-phosphate). Q9XBQ8 Q9XBQ8 2.1 X-RAY DIFFRACTION 82 1.0 1550 (Clostridium subterminale) 1550 (Clostridium subterminale) 400 401 2a5h-a1-m1-cC_2a5h-a1-m1-cB NRRYELFKDVSDADWNDWRWQVRNRIETVEELKKYIPLTKEEEEGVAQCVKSLRAITPYYLSLIDPNDPNDPVRKQAIPTALELNKAAADLEDPLHEDTDSPVPGLTHRYPDRVLLLITDCSYCRHCTRRRFAGQSDDSPERIDKAIDYIRNTPQVRDVLLSGGDALLVSDETLEYIIAKLREIPHVEIVRIGSRTPVVLPQRITPELVNLKKYHPVWLNTHFNHPNEITEESTRACQLLADAGVPLGNQSVLLRGVNDCVHVKELVNKLVKIRVRPYYIYQCDLSLGLEHFRTPVSKGIEIIEGLRGHTSGYCVPTFVVDAPGGGGKTPVPNYVISQSHDKVILRNFEGVITTYSEPINYTPGCNCDVCTGKKKVHKVGVAGLLNGEGALEPVGLERNK NRRYELFKDVSDADWNDWRWQVRNRIETVEELKKYIPLTKEEEEGVAQCVKSLRAITPYYLSLIDPNDPNDPVRKQAIPTALELNKAAADLEDPLHEDTDSPVPGLTHRYPDRVLLLITDCSYCRHCTRRRFAGQSDDSPERIDKAIDYIRNTPQVRDVLLSGGDALLVSDETLEYIIAKLREIPHVEIVRIGSRTPVVLPQRITPELVNLKKYHPVWLNTHFNHPNEITEESTRACQLLADAGVPLGNQSVLLRGVNDCVHVKELVNKLVKIRVRPYYIYQCDLSLGLEHFRTPVSKGIEIIEGLRGHTSGYCVPTFVVDAPGGGGKTPVPNYVISQSHDKVILRNFEGVITTYSEPINYTPGCNCDVCTGKKKVHKVGVAGLLNGEGALEPVGLERNKR 2a5h-a1-m1-cB_2a5h-a1-m1-cD 2.1 Angstrom X-ray crystal structure of lysine-2,3-aminomutase from Clostridium subterminale SB4, with Michaelis analog (L-alpha-lysine external aldimine form of pyridoxal-5'-phosphate). Q9XBQ8 Q9XBQ8 2.1 X-RAY DIFFRACTION 75 1.0 1550 (Clostridium subterminale) 1550 (Clostridium subterminale) 401 401 2a5h-a1-m1-cA_2a5h-a1-m1-cC NRRYELFKDVSDADWNDWRWQVRNRIETVEELKKYIPLTKEEEEGVAQCVKSLRAITPYYLSLIDPNDPNDPVRKQAIPTALELNKAAADLEDPLHEDTDSPVPGLTHRYPDRVLLLITDCSYCRHCTRRRFAGQSDDSPERIDKAIDYIRNTPQVRDVLLSGGDALLVSDETLEYIIAKLREIPHVEIVRIGSRTPVVLPQRITPELVNLKKYHPVWLNTHFNHPNEITEESTRACQLLADAGVPLGNQSVLLRGVNDCVHVKELVNKLVKIRVRPYYIYQCDLSLGLEHFRTPVSKGIEIIEGLRGHTSGYCVPTFVVDAPGGGGKTPVPNYVISQSHDKVILRNFEGVITTYSEPINYTPGCNCDVCTGKKKVHKVGVAGLLNGEGALEPVGLERNKR NRRYELFKDVSDADWNDWRWQVRNRIETVEELKKYIPLTKEEEEGVAQCVKSLRAITPYYLSLIDPNDPNDPVRKQAIPTALELNKAAADLEDPLHEDTDSPVPGLTHRYPDRVLLLITDCSYCRHCTRRRFAGQSDDSPERIDKAIDYIRNTPQVRDVLLSGGDALLVSDETLEYIIAKLREIPHVEIVRIGSRTPVVLPQRITPELVNLKKYHPVWLNTHFNHPNEITEESTRACQLLADAGVPLGNQSVLLRGVNDCVHVKELVNKLVKIRVRPYYIYQCDLSLGLEHFRTPVSKGIEIIEGLRGHTSGYCVPTFVVDAPGGGGKTPVPNYVISQSHDKVILRNFEGVITTYSEPINYTPGCNCDVCTGKKKVHKVGVAGLLNGEGALEPVGLERNKR 2a5h-a1-m1-cC_2a5h-a1-m1-cD 2.1 Angstrom X-ray crystal structure of lysine-2,3-aminomutase from Clostridium subterminale SB4, with Michaelis analog (L-alpha-lysine external aldimine form of pyridoxal-5'-phosphate). Q9XBQ8 Q9XBQ8 2.1 X-RAY DIFFRACTION 317 1.0 1550 (Clostridium subterminale) 1550 (Clostridium subterminale) 400 401 2a5h-a1-m1-cA_2a5h-a1-m1-cB NRRYELFKDVSDADWNDWRWQVRNRIETVEELKKYIPLTKEEEEGVAQCVKSLRAITPYYLSLIDPNDPNDPVRKQAIPTALELNKAAADLEDPLHEDTDSPVPGLTHRYPDRVLLLITDCSYCRHCTRRRFAGQSDDSPERIDKAIDYIRNTPQVRDVLLSGGDALLVSDETLEYIIAKLREIPHVEIVRIGSRTPVVLPQRITPELVNLKKYHPVWLNTHFNHPNEITEESTRACQLLADAGVPLGNQSVLLRGVNDCVHVKELVNKLVKIRVRPYYIYQCDLSLGLEHFRTPVSKGIEIIEGLRGHTSGYCVPTFVVDAPGGGGKTPVPNYVISQSHDKVILRNFEGVITTYSEPINYTPGCNCDVCTGKKKVHKVGVAGLLNGEGALEPVGLERNK NRRYELFKDVSDADWNDWRWQVRNRIETVEELKKYIPLTKEEEEGVAQCVKSLRAITPYYLSLIDPNDPNDPVRKQAIPTALELNKAAADLEDPLHEDTDSPVPGLTHRYPDRVLLLITDCSYCRHCTRRRFAGQSDDSPERIDKAIDYIRNTPQVRDVLLSGGDALLVSDETLEYIIAKLREIPHVEIVRIGSRTPVVLPQRITPELVNLKKYHPVWLNTHFNHPNEITEESTRACQLLADAGVPLGNQSVLLRGVNDCVHVKELVNKLVKIRVRPYYIYQCDLSLGLEHFRTPVSKGIEIIEGLRGHTSGYCVPTFVVDAPGGGGKTPVPNYVISQSHDKVILRNFEGVITTYSEPINYTPGCNCDVCTGKKKVHKVGVAGLLNGEGALEPVGLERNKR 2a5v-a1-m1-cD_2a5v-a1-m1-cA Crystal structure of M. tuberculosis beta carbonic anhydrase, Rv3588c, tetrameric form P9WPJ9 P9WPJ9 2.2 X-RAY DIFFRACTION 41 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 209 210 2a5v-a1-m1-cC_2a5v-a1-m1-cB HHHHHGPNTNPVAAWKALKEGNERFVAGRPQHPSQSVDHRAGLAAGQKPTAVIFGCADSRVAAEIIFDQGLGDMFVVRTAGHVIDSAVLGSIEYAVTVLNVPLIVVLGHDSCGAVNAALAAINDGTLPGGYVRDVVERVAPSVLLGRRDGLSRVDEFEQRHVHETVAILMARSSAISERIAGGSLAIVGVTYQLDDGRAVLRDHIGNIG HHHHHHGPNTNPVAAWKALKEGNERFVAGRPQHPSQSVDHRAGLAAGQKPTAVIFGCADSRVAAEIIFDQGLGDMFVVRTAGHVIDSAVLGSIEYAVTVLNVPLIVVLGHDSCGAVNAALAAINDGTLPGGYVRDVVERVAPSVLLGRRDGLSRVDEFEQRHVHETVAILMARSSAISERIAGGSLAIVGVTYQLDDGRAVLRDHIGNIG 2a5v-a3-m1-cA_2a5v-a3-m1-cB Crystal structure of M. tuberculosis beta carbonic anhydrase, Rv3588c, tetrameric form P9WPJ9 P9WPJ9 2.2 X-RAY DIFFRACTION 199 0.99 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 210 210 1ym3-a1-m1-cA_1ym3-a1-m2-cA 2a5v-a1-m1-cA_2a5v-a1-m1-cB 2a5v-a1-m1-cC_2a5v-a1-m1-cD 2a5v-a2-m1-cC_2a5v-a2-m1-cD HHHHHHGPNTNPVAAWKALKEGNERFVAGRPQHPSQSVDHRAGLAAGQKPTAVIFGCADSRVAAEIIFDQGLGDMFVVRTAGHVIDSAVLGSIEYAVTVLNVPLIVVLGHDSCGAVNAALAAINDGTLPGGYVRDVVERVAPSVLLGRRDGLSRVDEFEQRHVHETVAILMARSSAISERIAGGSLAIVGVTYQLDDGRAVLRDHIGNIG HHHHGPNTNPVAAWKALKEGNERFVAGRPQHPSQSVDHRAGLAAGQKPTAVIFGCADSRVAAEIIFDQGLGDMFVVRTAGHVIDSAVLGSIEYAVTVLNVPLIVVLGHDSCGAVNAALAAINDGTLPGGYVRDVVERVAPSVLLGRRDGLSRVDEFEQRHVHETVAILMARSSAISERIAGGSLAIVGVTYQLDDGRAVLRDHIGNIGEE 2a5w-a4-m1-cB_2a5w-a4-m1-cC Crystal structure of the oxidized gamma-subunit of the dissimilatory sulfite reductase (DsrC) from Archaeoglobus fulgidus O28055 O28055 2.1 X-RAY DIFFRACTION 43 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 114 114 PELEVKGKKLRLDEDGFLQDWEEWDEEVAEALAKDTRFSPQPIELTEEHWKIIRYLRDYFIKYGVAPPVRMLVKHCKKEVRPDCNLQYIYKLFPQGPAKDACRIAGLPKPTGCV PELEVKGKKLRLDEDGFLQDWEEWDEEVAEALAKDTRFSPQPIELTEEHWKIIRYLRDYFIKYGVAPPVRMLVKHCKKEVRPDCNLQYIYKLFPQGPAKDACRIAGLPKPTGCV 2a5z-a1-m1-cA_2a5z-a1-m1-cB Crystal Structure of Protein of Unknown Function SO2946 from Shewanella oneidensis MR-1 Q8ED25 Q8ED25 2.015 X-RAY DIFFRACTION 84 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 232 232 2a5z-a1-m1-cA_2a5z-a1-m1-cC 2a5z-a1-m1-cB_2a5z-a1-m1-cC TTPGLSPSEKLKLSTLTTSIATSDFYASYDFHSIGLTSANNISLLSTGNISLQNILSEGNHFGVQPIVSSTTANASFLAGLAIFPKESELEVTVYFKTPSAFNPAQLTVIGSTSIGLGISDRSGLIIENGNAFGGIVKASAATETGSTYALSTSTWYICKFKLTDDRFKVTLYSDSGTQLYSYTSTAAFRADNATAHIGFKTQCKTATAGISLISIDLIEFKAKVSATRAKV TTPGLSPSEKLKLSTLTTSIATSDFYASYDFHSIGLTSANNISLLSTGNISLQNILSEGNHFGVQPIVSSTTANASFLAGLAIFPKESELEVTVYFKTPSAFNPAQLTVIGSTSIGLGISDRSGLIIENGNAFGGIVKASAATETGSTYALSTSTWYICKFKLTDDRFKVTLYSDSGTQLYSYTSTAAFRADNATAHIGFKTQCKTATAGISLISIDLIEFKAKVSATRAKV 2a61-a2-m1-cD_2a61-a2-m1-cC The crystal structure of transcriptional regulator Tm0710 from Thermotoga maritima Q9WZG9 Q9WZG9 1.8 X-RAY DIFFRACTION 159 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 137 142 2a61-a1-m1-cB_2a61-a1-m1-cA KQPFERILREICFMVKVEGRKVLRDFGITPAQFDILQKIYFEGPKRPGELSVLLGVAKSTVTGLVKRLEADGYLTRTPDRAYFLVITRKGEEVIEKVIERRENFIEKITSDLGKEKSSKILDYLKELKGVMERNFSK KQPFERILREICFMVKVEGRKVLRDFGITPAQFDILQKIYFEGPKRPGELSVLLGVAKSTVTGLVKRLEADGYLTRTPDPADRRAYFLVITRKGEEVIEKVIERRENFIEKITSDLGKEKSSKILDYLKELKGVMERNFSKQ 2a62-a1-m1-cA_2a62-a1-m2-cA Crystal structure of mouse cadherin-8 EC1-3 P97291 P97291 4.5 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 319 319 1zxk-a1-m1-cB_1zxk-a1-m1-cA SWVWNQMFVLEEFSGPEPILVGRLHTDLDPGSKKIKYILSGDGAGTIFQINDITGDIHAIKRLDREEKAEYTLTAQAVDFETNKPLEPPSEFIIKVQDINDNAPEFLNGPYHATVPEMSILGTSVTNVTATDADDPVYGNSAKLVYSILEGQPYFSIEPETAIIKTALPNMDREAKEEYLVVIQAKDMGGHSGGLSGTTTLTVTLTDVNDNPPKFAQSLYHFSVPEDVVLGTAIGRVKANDQDIGENAQSSYDIIGTALFEITSDAQAQDGVIRLRKPLDFETKKSYTLKVEAANIHIDPRFSSRGPFKDTATVKIVVE SWVWNQMFVLEEFSGPEPILVGRLHTDLDPGSKKIKYILSGDGAGTIFQINDITGDIHAIKRLDREEKAEYTLTAQAVDFETNKPLEPPSEFIIKVQDINDNAPEFLNGPYHATVPEMSILGTSVTNVTATDADDPVYGNSAKLVYSILEGQPYFSIEPETAIIKTALPNMDREAKEEYLVVIQAKDMGGHSGGLSGTTTLTVTLTDVNDNPPKFAQSLYHFSVPEDVVLGTAIGRVKANDQDIGENAQSSYDIIGTALFEITSDAQAQDGVIRLRKPLDFETKKSYTLKVEAANIHIDPRFSSRGPFKDTATVKIVVE 2a67-a2-m1-cB_2a67-a2-m1-cC Crystal structure of Isochorismatase family protein Q82ZG7 Q82ZG7 2 X-RAY DIFFRACTION 47 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 164 164 2a67-a1-m1-cA_2a67-a1-m1-cD AKNRALLLIDFQKGIESPTQQLYRLPAVLDKVNQRIAVYRQHHAPIIFVQHEETELPFGSDSWQLFEKLDTQPTDFFIRKTHANAFYQTNLNDLLTEQAVQTLEIAGVQTEFCVDTTIRAHGLGYTCLTPKTTSTLDNGHLTAAQIIQHHEAIWAGRFLTFLSL AKNRALLLIDFQKGIESPTQQLYRLPAVLDKVNQRIAVYRQHHAPIIFVQHEETELPFGSDSWQLFEKLDTQPTDFFIRKTHANAFYQTNLNDLLTEQAVQTLEIAGVQTEFCVDTTIRAHGLGYTCLTPKTTSTLDNGHLTAAQIIQHHEAIWAGRFLTFLSL 2a6a-a2-m1-cB_2a6a-a2-m2-cB Crystal structure of Glycoprotein endopeptidase (tm0874) from THERMOTOGA MARITIMA at 2.50 A resolution Q9WZX7 Q9WZX7 2.5 X-RAY DIFFRACTION 67 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 186 186 HNVLALDTSQRIRIGLRKGEDLFEISYTGEKKHAEILPVVVKKLLDELDLKVKDLDVVGVGIGPGGLTGLRVGIATVVGLVSPYDIPVAPLNSFETAKSCPADGVVLVARRARKGYHYCAVYLKDKGLNPLKEPSVVSDEELEEITKEFSPKIVLKDDLLISPAVLVEESERLFREKKTIHYYEIE HNVLALDTSQRIRIGLRKGEDLFEISYTGEKKHAEILPVVVKKLLDELDLKVKDLDVVGVGIGPGGLTGLRVGIATVVGLVSPYDIPVAPLNSFETAKSCPADGVVLVARRARKGYHYCAVYLKDKGLNPLKEPSVVSDEELEEITKEFSPKIVLKDDLLISPAVLVEESERLFREKKTIHYYEIE 2a6a-a3-m1-cA_2a6a-a3-m3-cA Crystal structure of Glycoprotein endopeptidase (tm0874) from THERMOTOGA MARITIMA at 2.50 A resolution Q9WZX7 Q9WZX7 2.5 X-RAY DIFFRACTION 39 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 191 191 NVLALDTSQRIRIGLRKGEDLFEISYTGEKKHAEILPVVVKKLLDELDLKVKDLDVVGVGIGPGGLTGLRVGIATVVGLVSPYDIPVAPLNSFETAKSCPADGVVLVARRARKGYHYCAVYLKDKGLNPLKEPSVVSDEELEEITKEFSPKIVLKDDLLISPAVLVEESERLFREKKTIHYYEIEPLYLQK NVLALDTSQRIRIGLRKGEDLFEISYTGEKKHAEILPVVVKKLLDELDLKVKDLDVVGVGIGPGGLTGLRVGIATVVGLVSPYDIPVAPLNSFETAKSCPADGVVLVARRARKGYHYCAVYLKDKGLNPLKEPSVVSDEELEEITKEFSPKIVLKDDLLISPAVLVEESERLFREKKTIHYYEIEPLYLQK 2a6a-a3-m3-cB_2a6a-a3-m3-cA Crystal structure of Glycoprotein endopeptidase (tm0874) from THERMOTOGA MARITIMA at 2.50 A resolution Q9WZX7 Q9WZX7 2.5 X-RAY DIFFRACTION 83 0.995 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 186 191 2a6a-a1-m1-cB_2a6a-a1-m1-cA 2a6a-a2-m1-cB_2a6a-a2-m1-cA 2a6a-a2-m2-cB_2a6a-a2-m2-cA 2a6a-a3-m1-cB_2a6a-a3-m1-cA 6n9a-a1-m1-cB_6n9a-a1-m2-cB 6nak-a1-m1-cA_6nak-a1-m1-cC 6s84-a1-m1-cF_6s84-a1-m1-cC HNVLALDTSQRIRIGLRKGEDLFEISYTGEKKHAEILPVVVKKLLDELDLKVKDLDVVGVGIGPGGLTGLRVGIATVVGLVSPYDIPVAPLNSFETAKSCPADGVVLVARRARKGYHYCAVYLKDKGLNPLKEPSVVSDEELEEITKEFSPKIVLKDDLLISPAVLVEESERLFREKKTIHYYEIE NVLALDTSQRIRIGLRKGEDLFEISYTGEKKHAEILPVVVKKLLDELDLKVKDLDVVGVGIGPGGLTGLRVGIATVVGLVSPYDIPVAPLNSFETAKSCPADGVVLVARRARKGYHYCAVYLKDKGLNPLKEPSVVSDEELEEITKEFSPKIVLKDDLLISPAVLVEESERLFREKKTIHYYEIEPLYLQK 2a6c-a3-m1-cB_2a6c-a3-m3-cB CRYSTAL STRUCTURE OF A PUTATIVE TRANSCRIPTIONAL REGULATOR (NE_1354) FROM NITROSOMONAS EUROPAEA AT 1.90 A RESOLUTION Q82UW4 Q82UW4 1.9 X-RAY DIFFRACTION 67 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 72 72 2a6c-a1-m1-cA_2a6c-a1-m2-cA IHHHHHHKRSQLLIVLQEHLRNSGLTQFKAAELLGVTQPRVSDLRGKIDLFSLESLIDITSIGLKVEINIKD IHHHHHHKRSQLLIVLQEHLRNSGLTQFKAAELLGVTQPRVSDLRGKIDLFSLESLIDITSIGLKVEINIKD 2a6m-a2-m1-cA_2a6m-a2-m2-cB Crystal Structure of the ISHp608 Transposase Q933Z0 Q933Z0 2.4 X-RAY DIFFRACTION 18 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 130 150 2a6m-a2-m2-cA_2a6m-a2-m1-cB AVLYKSNHNVVYSCKYHIVWCPKYRRKVLVGAVEMRLKEIIQEVAKELRVEIIEMQTDKDHIHILADIDPSFGVMKFIKTAKGRSSRILRQEFNHLKTKLPTLWTNSCFISTVGGAPLNVVKQYIENQQN NAVLYKSNHNVVYSCKYHIVWCPKYRRKVLVGAVEMRLKEIIQEVAKELRVEIIEMQTDKDHIHILADIDPSFGVMKFIKTAKGRSSRILRQEFNHLKTKLPTLWTNSCFISTVGGAPLNVVKQYIENQQNSNRPKQKEKWKSYVDNLQT 2a6m-a2-m1-cB_2a6m-a2-m2-cB Crystal Structure of the ISHp608 Transposase Q933Z0 Q933Z0 2.4 X-RAY DIFFRACTION 104 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 150 150 NAVLYKSNHNVVYSCKYHIVWCPKYRRKVLVGAVEMRLKEIIQEVAKELRVEIIEMQTDKDHIHILADIDPSFGVMKFIKTAKGRSSRILRQEFNHLKTKLPTLWTNSCFISTVGGAPLNVVKQYIENQQNSNRPKQKEKWKSYVDNLQT NAVLYKSNHNVVYSCKYHIVWCPKYRRKVLVGAVEMRLKEIIQEVAKELRVEIIEMQTDKDHIHILADIDPSFGVMKFIKTAKGRSSRILRQEFNHLKTKLPTLWTNSCFISTVGGAPLNVVKQYIENQQNSNRPKQKEKWKSYVDNLQT 2a6m-a2-m2-cA_2a6m-a2-m2-cB Crystal Structure of the ISHp608 Transposase Q933Z0 Q933Z0 2.4 X-RAY DIFFRACTION 143 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 130 150 2a6m-a1-m1-cA_2a6m-a1-m1-cB 2a6m-a2-m1-cA_2a6m-a2-m1-cB 2a6o-a1-m1-cA_2a6o-a1-m1-cB 2vhg-a1-m1-cA_2vhg-a1-m1-cB 2vic-a1-m1-cB_2vic-a1-m1-cA 2vih-a1-m1-cB_2vih-a1-m1-cA 2vju-a1-m1-cA_2vju-a1-m1-cB 2vjv-a1-m1-cA_2vjv-a1-m1-cB 6fi8-a1-m1-cA_6fi8-a1-m1-cB 6fi8-a2-m1-cH_6fi8-a2-m1-cG AVLYKSNHNVVYSCKYHIVWCPKYRRKVLVGAVEMRLKEIIQEVAKELRVEIIEMQTDKDHIHILADIDPSFGVMKFIKTAKGRSSRILRQEFNHLKTKLPTLWTNSCFISTVGGAPLNVVKQYIENQQN NAVLYKSNHNVVYSCKYHIVWCPKYRRKVLVGAVEMRLKEIIQEVAKELRVEIIEMQTDKDHIHILADIDPSFGVMKFIKTAKGRSSRILRQEFNHLKTKLPTLWTNSCFISTVGGAPLNVVKQYIENQQNSNRPKQKEKWKSYVDNLQT 2a6p-a1-m1-cA_2a6p-a1-m1-cB Structure Solution to 2.2 Angstrom and Functional Characterisation of the Open Reading Frame Rv3214 from Mycobacterium tuberculosis Q7D5X2 Q7D5X2 2.2 X-RAY DIFFRACTION 63 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 193 193 RNHRLLLLRHGETAWSTLGRHTGGTEVELTDTGRTQAELAGQLLGELELDDPIVICSPRRRTLDTAKLAGLTVNEVTGLLAEWDYGSYEGLTTPQIRESEPDWLVWTHGCPAGESVAQVNDRADSAVALALEHMSSRDVLFVSHGHFSRAVITRWVQLPLAEGSRFAMPTASIGICGFEHGVRQLAVLGLTGH RNHRLLLLRHGETAWSTLGRHTGGTEVELTDTGRTQAELAGQLLGELELDDPIVICSPRRRTLDTAKLAGLTVNEVTGLLAEWDYGSYEGLTTPQIRESEPDWLVWTHGCPAGESVAQVNDRADSAVALALEHMSSRDVLFVSHGHFSRAVITRWVQLPLAEGSRFAMPTASIGICGFEHGVRQLAVLGLTGH 2a6q-a3-m1-cB_2a6q-a3-m1-cD Crystal structure of YefM-YoeB complex P69346 P69346 2.05 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 58 58 GPHMRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLL GPHMRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLL 2a6q-a3-m1-cD_2a6q-a3-m1-cA Crystal structure of YefM-YoeB complex P69346 P69346 2.05 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 58 86 GPHMRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLL GPHMRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLLRSPANARRLMDSIDSLKSGKGTEKDIIE 2a6q-a3-m1-cD_2a6q-a3-m1-cC Crystal structure of YefM-YoeB complex P69346 P69346 2.05 X-RAY DIFFRACTION 88 1.0 562 (Escherichia coli) 562 (Escherichia coli) 58 86 2a6q-a1-m1-cB_2a6q-a1-m1-cA 2a6q-a2-m1-cD_2a6q-a2-m1-cC 2a6q-a3-m1-cB_2a6q-a3-m1-cA GPHMRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLL GPHMRTISYSEARQNLSATMMKAVEDHAPILITRQNGEACVLMSLEEYNSLEETAYLLRSPANARRLMDSIDSLKSGKGTEKDIIE 2a72-a1-m1-cA_2a72-a1-m1-cB Structure of the regulator of G-protein signaling domain of RGS7 P49802 P49802 2 X-RAY DIFFRACTION 191 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 SMKEPSQQRVKRWGFGMDEALKDPVGREQFLKFLESEFSSENLRFWLAVEDLKKRPIKEVPSRVQEIWQEFLAPGAPSAINLDSKSYDKTTHNVKEPGRYTFEDAQEHIYKLMKSDSYPRFIRSSAYQELLQA SMKEPSQQRVKRWGFGMDEALKDPVGREQFLKFLESEFSSENLRFWLAVEDLKKRPIKEVPSRVQEIWQEFLAPGAPSAINLDSKSYDKTTHNVKEPGRYTFEDAQEHIYKLMKSDSYPRFIRSSAYQELLQA 2a79-a1-m2-cB_2a79-a1-m4-cB Mammalian Shaker Kv1.2 potassium channel- beta subunit complex P63142 P63142 2.9 X-RAY DIFFRACTION 103 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 259 259 2a79-a1-m1-cB_2a79-a1-m3-cB 2a79-a1-m1-cB_2a79-a1-m4-cB 2a79-a1-m2-cB_2a79-a1-m3-cB CERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGTDPFFIVETLCIIWFSFEFLVRFFAMSLAILRVIRLVRVFRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET CERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGTDPFFIVETLCIIWFSFEFLVRFFAMSLAILRVIRLVRVFRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET 2a7k-a1-m1-cB_2a7k-a1-m1-cC carboxymethylproline synthase (CarB) from pectobacterium carotovora, apo enzyme Q9XB60 Q9XB60 2.24 X-RAY DIFFRACTION 59 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 230 238 2a7k-a1-m1-cA_2a7k-a1-m1-cB 2a7k-a1-m1-cA_2a7k-a1-m1-cC 2a7k-a2-m1-cD_2a7k-a2-m1-cE 2a7k-a2-m1-cF_2a7k-a2-m1-cD 2a7k-a2-m1-cF_2a7k-a2-m1-cE 2a7k-a3-m1-cG_2a7k-a3-m1-cH 2a7k-a3-m1-cG_2a7k-a3-m1-cI 2a7k-a3-m1-cI_2a7k-a3-m1-cH 2a81-a1-m1-cB_2a81-a1-m1-cA 2a81-a1-m1-cB_2a81-a1-m1-cC 2a81-a1-m1-cC_2a81-a1-m1-cA MVFEENSDEVRVITLDHPNKHNPFSRTLETSVKDALARANADDSVRAVVVYGGAERSFSAGGDFNEVKQLSRSEDIEEWIDRVIDLYQAVLNVNKPTIAAVDGYAIGMGFQFALMFDQRLMASTANFVMPELKHGIGCSVGAAILGFTHGFSTMQEIIYQCQSLDAPRCVDYRLVNQVVESSALLDAAITQAHVMASYPASAFINTKRAVNKPFIHLLEQTRDASKAVHK MVFEENSDEVRVITLDHPNKHNPFSRTLETSVKDALARANADDSVRAVVVYGGAERSFSAGGDFNEVKQLSRSEDIEEWIDRVIDLYQAVLNVNKPTIAAVDGYAIGMGFQFALMFDQRLMASTANFVMPELKHGIGCSVGAAILGFTHGFSTMQEIIYQCQSLDAPRCVDYRLVNQVVESSALLDAAITQAHVMASYPASAFINTKRAVNKPFIHLLEQTRDASKAVHKAAFQARDA 2a7w-a3-m1-cI_2a7w-a3-m1-cL Crystal Structure of Phosphoribosyl-ATP Pyrophosphatase from Chromobacterium violaceum (ATCC 12472). NESG TARGET CVR7 Q7P0E6 Q7P0E6 2.8 X-RAY DIFFRACTION 18 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 88 88 2a7w-a1-m1-cA_2a7w-a1-m1-cD 2a7w-a1-m1-cB_2a7w-a1-m1-cC 2a7w-a2-m1-cE_2a7w-a2-m1-cH 2a7w-a2-m1-cF_2a7w-a2-m1-cG 2a7w-a3-m1-cJ_2a7w-a3-m1-cK DVLKNIADTLEARREAAPQSSYVASLFHKGEDAILKKVAEEAAETLASKDKDKLHLVREVADLWFHTVLLTYHGLRPEDVVELHRREG DVLKNIADTLEARREAAPQSSYVASLFHKGEDAILKKVAEEAAETLASKDKDKLHLVREVADLWFHTVLLTYHGLRPEDVVELHRREG 2a7w-a3-m1-cK_2a7w-a3-m1-cL Crystal Structure of Phosphoribosyl-ATP Pyrophosphatase from Chromobacterium violaceum (ATCC 12472). NESG TARGET CVR7 Q7P0E6 Q7P0E6 2.8 X-RAY DIFFRACTION 117 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 88 88 2a7w-a1-m1-cA_2a7w-a1-m1-cB 2a7w-a1-m1-cC_2a7w-a1-m1-cD 2a7w-a2-m1-cE_2a7w-a2-m1-cF 2a7w-a2-m1-cG_2a7w-a2-m1-cH 2a7w-a3-m1-cI_2a7w-a3-m1-cJ DVLKNIADTLEARREAAPQSSYVASLFHKGEDAILKKVAEEAAETLASKDKDKLHLVREVADLWFHTVLLTYHGLRPEDVVELHRREG DVLKNIADTLEARREAAPQSSYVASLFHKGEDAILKKVAEEAAETLASKDKDKLHLVREVADLWFHTVLLTYHGLRPEDVVELHRREG 2a87-a1-m1-cB_2a87-a1-m1-cA Crystal Structure of M. tuberculosis Thioredoxin reductase P9WHH1 P9WHH1 3 X-RAY DIFFRACTION 125 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 304 313 RDVIVIGSGPAGYTAALYAARAQLAPLVFEGTSFGGALMTTTDVENYPGFRNGITGPELMDEMREQALRFGADLRMEDVESVSLHGPLKSVVTADGQTHRARAVILAMGAAARYLQVPGEQELLGRGVSSCATCDGFFFRDQDIAVIGGGDSAMEEATFLTRFARSVTLVHRRDEFRASKIMLDRARNNDKIRFLTNHTVVAVDGDTTVTGLRVRDTNTGAETTLPVTGVFVAIGHEPRSGLVREAIDVDPDGYVLVQGRTTSTSLPGVFAAGDLVDRTYRQAVTAAGSGCAAAIDAERWLAEH AHHPVRDVIVIGSGPAGYTAALYAARAQLAPLVFEGTSFGGALMTTTDVENYPGFRNGITGPELMDEMREQALRFGADLRMEDVESVSLHGPLKSVVTADGQTHRARAVILAMGAAARYLQVPGEQELLGRGVSSCATCDGFFFRDQDIAVIGGGDSAMEEATFLTRFARSVTLVHRRDEFRASKIMLDRARNNDKIRFLTNHTVVAVDGDTTVTGLRVRDTNTGAETTLPVTGVFVAIGHEPRSGLVREAIDVDPDGYVLVQGRTTSTSLPGVFAAGDLVDRTYRQAVTAAGSGCAAAIDAERWLAEHAATG 2a8c-a2-m2-cA_2a8c-a2-m2-cB Haemophilus influenzae beta-carbonic anhydrase P45148 P45148 2.3 X-RAY DIFFRACTION 51 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 221 221 2a8c-a1-m1-cD_2a8c-a1-m1-cC 2a8c-a1-m1-cF_2a8c-a1-m1-cE 2a8c-a2-m1-cA_2a8c-a2-m1-cB 2a8d-a1-m1-cD_2a8d-a1-m1-cC 2a8d-a1-m1-cF_2a8d-a1-m1-cE 2a8d-a2-m1-cA_2a8d-a2-m1-cB 2a8d-a2-m2-cA_2a8d-a2-m2-cB 3e1v-a1-m1-cA_3e1v-a1-m2-cB 3e1v-a1-m1-cB_3e1v-a1-m2-cA 3e1w-a1-m1-cA_3e1w-a1-m2-cB 3e1w-a1-m1-cB_3e1w-a1-m2-cA 3e24-a1-m1-cB_3e24-a1-m1-cA 3e24-a1-m2-cB_3e24-a1-m2-cA 3e28-a1-m1-cB_3e28-a1-m1-cA 3e28-a1-m2-cB_3e28-a1-m2-cA 3e28-a2-m1-cD_3e28-a2-m1-cC 3e28-a2-m1-cE_3e28-a2-m1-cF 3e28-a3-m1-cB_3e28-a3-m1-cA 3e28-a4-m1-cD_3e28-a4-m1-cC 3e28-a5-m1-cE_3e28-a5-m1-cF 3e2a-a1-m1-cB_3e2a-a1-m1-cA 3e2a-a1-m2-cB_3e2a-a1-m2-cA 3e2a-a2-m1-cD_3e2a-a2-m1-cC 3e2a-a2-m1-cF_3e2a-a2-m1-cE 3e2w-a1-m1-cB_3e2w-a1-m1-cA 3e2w-a1-m2-cB_3e2w-a1-m2-cA 3e2w-a2-m1-cC_3e2w-a2-m1-cD 3e2w-a2-m1-cF_3e2w-a2-m1-cE 3e2x-a1-m1-cA_3e2x-a1-m2-cB 3e2x-a1-m2-cA_3e2x-a1-m1-cB 3e31-a1-m1-cB_3e31-a1-m2-cA 3e31-a1-m2-cB_3e31-a1-m1-cA 3e3f-a1-m1-cA_3e3f-a1-m2-cB 3e3f-a1-m2-cA_3e3f-a1-m1-cB 3e3g-a1-m1-cA_3e3g-a1-m1-cB 3e3g-a1-m2-cA_3e3g-a1-m2-cB 3e3g-a2-m1-cD_3e3g-a2-m1-cC 3e3g-a2-m1-cF_3e3g-a2-m1-cE 3e3i-a1-m1-cA_3e3i-a1-m1-cB 3e3i-a1-m1-cC_3e3i-a1-m1-cD 3e3i-a2-m1-cF_3e3i-a2-m1-cE 3e3i-a2-m1-cH_3e3i-a2-m1-cG 3e3i-a3-m1-cJ_3e3i-a3-m1-cI 3e3i-a3-m1-cL_3e3i-a3-m1-cK 3mf3-a1-m1-cA_3mf3-a1-m1-cB 3mf3-a1-m2-cA_3mf3-a1-m2-cB 3mf3-a2-m1-cD_3mf3-a2-m1-cC 3mf3-a2-m1-cE_3mf3-a2-m1-cF 4waj-a1-m1-cA_4waj-a1-m1-cB 4waj-a1-m2-cA_4waj-a1-m2-cB 4wak-a1-m1-cB_4wak-a1-m1-cA 4wak-a1-m2-cB_4wak-a1-m2-cA MDKIKQLFANNYSWAQRMKEENSTYFKELADHQTPHYLWIGCSDSRVPAEKLTNLEPGELFVHRNVANQVIHTDFNCLSVVQYAVDVLKIEHIIICGHTNCGGIHAAMADKDLGLINNWLLHIRDIWFKHGHLLGKLSPEKRADMLTKINVAEQVYNLGRTSIVKSAWERGQKLSLHGWVYDVNDGFLVDQGVMATSRETLEISYRNAIARLSILDEENIL MDKIKQLFANNYSWAQRMKEENSTYFKELADHQTPHYLWIGCSDSRVPAEKLTNLEPGELFVHRNVANQVIHTDFNCLSVVQYAVDVLKIEHIIICGHTNCGGIHAAMADKDLGLINNWLLHIRDIWFKHGHLLGKLSPEKRADMLTKINVAEQVYNLGRTSIVKSAWERGQKLSLHGWVYDVNDGFLVDQGVMATSRETLEISYRNAIARLSILDEENIL 2a8d-a2-m1-cA_2a8d-a2-m2-cB Haemophilus influenzae beta-carbonic anhydrase complexed with bicarbonate P45148 P45148 2.2 X-RAY DIFFRACTION 10 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 221 221 2a8c-a1-m1-cC_2a8c-a1-m1-cF 2a8c-a1-m1-cD_2a8c-a1-m1-cE 2a8c-a2-m1-cA_2a8c-a2-m2-cB 2a8c-a2-m1-cB_2a8c-a2-m2-cA 2a8d-a1-m1-cC_2a8d-a1-m1-cF 2a8d-a1-m1-cD_2a8d-a1-m1-cE 2a8d-a2-m1-cB_2a8d-a2-m2-cA 3e24-a1-m1-cA_3e24-a1-m2-cA 3e24-a1-m1-cB_3e24-a1-m2-cB 3e28-a1-m1-cB_3e28-a1-m2-cA 3e28-a1-m2-cB_3e28-a1-m1-cA 3e28-a2-m1-cC_3e28-a2-m1-cF 3e2a-a1-m1-cB_3e2a-a1-m2-cA 3e2a-a1-m2-cB_3e2a-a1-m1-cA 3e2a-a2-m1-cD_3e2a-a2-m1-cE 3e2a-a2-m1-cF_3e2a-a2-m1-cC 3e2w-a1-m1-cB_3e2w-a1-m2-cA 3e2w-a1-m2-cB_3e2w-a1-m1-cA 3e2x-a1-m1-cA_3e2x-a1-m2-cA 3e2x-a1-m1-cB_3e2x-a1-m2-cB 3e3f-a1-m1-cA_3e3f-a1-m2-cA 3e3f-a1-m1-cB_3e3f-a1-m2-cB 3e3g-a1-m1-cA_3e3g-a1-m2-cB 3e3g-a1-m1-cB_3e3g-a1-m2-cA 3e3g-a2-m1-cC_3e3g-a2-m1-cF 3e3g-a2-m1-cD_3e3g-a2-m1-cE 3e3i-a1-m1-cA_3e3i-a1-m1-cD 3e3i-a1-m1-cC_3e3i-a1-m1-cB 3e3i-a2-m1-cF_3e3i-a2-m1-cG 3e3i-a2-m1-cH_3e3i-a2-m1-cE 3e3i-a3-m1-cJ_3e3i-a3-m1-cK 3e3i-a3-m1-cL_3e3i-a3-m1-cI 3mf3-a1-m1-cA_3mf3-a1-m2-cB 3mf3-a1-m2-cA_3mf3-a1-m1-cB 3mf3-a2-m1-cC_3mf3-a2-m1-cF 3mf3-a2-m1-cD_3mf3-a2-m1-cE 4wak-a1-m1-cA_4wak-a1-m2-cA 4wak-a1-m1-cB_4wak-a1-m2-cB 4wam-a1-m1-cA_4wam-a1-m2-cA 4wam-a1-m1-cB_4wam-a1-m2-cB MDKIKQLFANNYSWAQRMKEENSTYFKELADHQTPHYLWIGCSDSRVPAEKLTNLEPGELFVHRNVANQVIHTDFNCLSVVQYAVDVLKIEHIIICGHTNCGGIHAAMADKDLGLINNWLLHIRDIWFKHGHLLGKLSPEKRADMLTKINVAEQVYNLGRTSIVKSAWERGQKLSLHGWVYDVNDGFLVDQGVMATSRETLEISYRNAIARLSILDEENIL MDKIKQLFANNYSWAQRMKEENSTYFKELADHQTPHYLWIGCSDSRVPAEKLTNLEPGELFVHRNVANQVIHTDFNCLSVVQYAVDVLKIEHIIICGHTNCGGIHAAMADKDLGLINNWLLHIRDIWFKHGHLLGKLSPEKRADMLTKINVAEQVYNLGRTSIVKSAWERGQKLSLHGWVYDVNDGFLVDQGVMATSRETLEISYRNAIARLSILDEENIL 2a8d-a2-m1-cB_2a8d-a2-m2-cB Haemophilus influenzae beta-carbonic anhydrase complexed with bicarbonate P45148 P45148 2.2 X-RAY DIFFRACTION 210 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 221 221 2a8c-a1-m1-cC_2a8c-a1-m1-cE 2a8c-a1-m1-cD_2a8c-a1-m1-cF 2a8c-a2-m1-cA_2a8c-a2-m2-cA 2a8c-a2-m1-cB_2a8c-a2-m2-cB 2a8d-a1-m1-cC_2a8d-a1-m1-cE 2a8d-a1-m1-cD_2a8d-a1-m1-cF 2a8d-a2-m1-cA_2a8d-a2-m2-cA 3e1v-a1-m1-cA_3e1v-a1-m1-cB 3e1v-a1-m2-cA_3e1v-a1-m2-cB 3e1v-a2-m1-cA_3e1v-a2-m1-cB 3e1w-a1-m1-cA_3e1w-a1-m1-cB 3e1w-a1-m2-cA_3e1w-a1-m2-cB 3e1w-a2-m1-cA_3e1w-a2-m1-cB 3e24-a1-m1-cB_3e24-a1-m2-cA 3e24-a1-m2-cB_3e24-a1-m1-cA 3e28-a1-m1-cA_3e28-a1-m2-cA 3e28-a1-m1-cB_3e28-a1-m2-cB 3e28-a2-m1-cD_3e28-a2-m1-cF 3e28-a2-m1-cE_3e28-a2-m1-cC 3e2a-a1-m1-cA_3e2a-a1-m2-cA 3e2a-a1-m1-cB_3e2a-a1-m2-cB 3e2a-a2-m1-cC_3e2a-a2-m1-cE 3e2a-a2-m1-cD_3e2a-a2-m1-cF 3e2w-a1-m1-cA_3e2w-a1-m2-cA 3e2w-a1-m1-cB_3e2w-a1-m2-cB 3e2w-a2-m1-cE_3e2w-a2-m1-cC 3e2w-a2-m1-cF_3e2w-a2-m1-cD 3e2x-a1-m1-cA_3e2x-a1-m1-cB 3e2x-a1-m2-cA_3e2x-a1-m2-cB 3e31-a1-m1-cB_3e31-a1-m1-cA 3e31-a1-m2-cB_3e31-a1-m2-cA 3e3f-a1-m1-cA_3e3f-a1-m1-cB 3e3f-a1-m2-cA_3e3f-a1-m2-cB 3e3g-a1-m1-cA_3e3g-a1-m2-cA 3e3g-a1-m1-cB_3e3g-a1-m2-cB 3e3g-a2-m1-cC_3e3g-a2-m1-cE 3e3g-a2-m1-cD_3e3g-a2-m1-cF 3e3i-a1-m1-cA_3e3i-a1-m1-cC 3e3i-a1-m1-cB_3e3i-a1-m1-cD 3e3i-a2-m1-cE_3e3i-a2-m1-cG 3e3i-a2-m1-cF_3e3i-a2-m1-cH 3e3i-a3-m1-cJ_3e3i-a3-m1-cL 3e3i-a3-m1-cK_3e3i-a3-m1-cI 3mf3-a1-m1-cA_3mf3-a1-m2-cA 3mf3-a1-m1-cB_3mf3-a1-m2-cB 3mf3-a2-m1-cD_3mf3-a2-m1-cF 3mf3-a2-m1-cE_3mf3-a2-m1-cC 4waj-a1-m1-cA_4waj-a1-m2-cB 4waj-a1-m2-cA_4waj-a1-m1-cB 4wak-a1-m1-cB_4wak-a1-m2-cA 4wak-a1-m2-cB_4wak-a1-m1-cA MDKIKQLFANNYSWAQRMKEENSTYFKELADHQTPHYLWIGCSDSRVPAEKLTNLEPGELFVHRNVANQVIHTDFNCLSVVQYAVDVLKIEHIIICGHTNCGGIHAAMADKDLGLINNWLLHIRDIWFKHGHLLGKLSPEKRADMLTKINVAEQVYNLGRTSIVKSAWERGQKLSLHGWVYDVNDGFLVDQGVMATSRETLEISYRNAIARLSILDEENIL MDKIKQLFANNYSWAQRMKEENSTYFKELADHQTPHYLWIGCSDSRVPAEKLTNLEPGELFVHRNVANQVIHTDFNCLSVVQYAVDVLKIEHIIICGHTNCGGIHAAMADKDLGLINNWLLHIRDIWFKHGHLLGKLSPEKRADMLTKINVAEQVYNLGRTSIVKSAWERGQKLSLHGWVYDVNDGFLVDQGVMATSRETLEISYRNAIARLSILDEENIL 2a8f-a1-m1-cA_2a8f-a1-m1-cB beta-cinnamomin after sterol removal P15569 P15569 1.35 X-RAY DIFFRACTION 42 1.0 4785 (Phytophthora cinnamomi) 4785 (Phytophthora cinnamomi) 98 98 TACTATQQTAAYKTLVSILSESSFSQCSKDSGYSMLTATALPTNAQYKLMCASTACNTMIKKIVALNPPDCDLTVPTSGLVLDVYTYANGFSSKCASL TACTATQQTAAYKTLVSILSESSFSQCSKDSGYSMLTATALPTNAQYKLMCASTACNTMIKKIVALNPPDCDLTVPTSGLVLDVYTYANGFSSKCASL 2a8j-a1-m1-cA_2a8j-a1-m1-cB Crystal Structure of human Taspase1 (acivated form) Q9H6P5 Q9H6P5 1.9 X-RAY DIFFRACTION 115 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 310 313 2a8l-a1-m1-cA_2a8l-a1-m1-cB 2a8m-a1-m1-cA_2a8m-a1-m1-cB GGFVLVHAGAGYHSESKAKEYKHVCKRACQKAIEKLQAGALATDAVTAALVELEDSPFTNAGMGSNLNLLGEIECDASIMDGKSLNFGAVGALSGIKNPVSVANRLLCEGQKGKLGRIPPCFLVGEGAYRWAVDHGIPSCPTVGAVVVDHEGNVAAAVSSGGLALKHPGRVGQAALYGCGCWAENTGAHNPYSTAVSTSGCGEHLVRTILARECSHALQAEDAHQALLETMQNKFISSPFLASEDGVLGGVIVLRSCLLVEFLWSHTTESMCVGYMSAQDGKAKTHISRLPPGAVAGQSVAIEGGVCRLE GGFVLVHAGAGYHSESKAKEYKHVCKRACQKAIEKLQAGALATDAVTAALVELEDSPFTNAGMGSNLNLLGEIECDASIMDGKSLNFGAVGALSGIKNPVSVANRLLCEGQKGKLSRIPPCFLVGEGAYRWAVDHGIPSCTVGAVVVDHEGNVAAAVSSGGLALKHPGRVGQAALYGCGCWAENTGAHNPYSTAVSTSGCGEHLVRTILARECSHALQAEDAHQALLETMQNKFISSPFLASEDGVLGGVIVLRSCRCQTLLVEFLWSHTTESMCVGYMSAQDGKAKTHISRLPPGAVAGQSVAIEGGVCRLE 2a8n-a1-m1-cA_2a8n-a1-m1-cB Biochemical and Structural Studies of A-to-I Editing by tRNA:A34 Deaminases at the Wobble Position of Transfer RNA A9CK16 A9CK16 1.6 X-RAY DIFFRACTION 99 0.985 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 130 138 AERTHFMELALVEARSAGERDEVPIGAVLVLDGRVIARSGNRTRELNDVTAHAEIAVIRMACEALGQERLPGADLYVTLEPCTMCAAAISFARIRRLYYGAQDPKGGAVESGVRFFSQPTCHHAPDVYSG RTHFMELALVEARSAGERDEVPIGAVLVLDGRVIARSGNRTRELNDVTAHAEIAVIRMACEALGQERLPGADLYVTLEPCTMCAAAISFARIRRLYYGAQDPKGGAVESGVRFFSQPTCHHAPDVYSGLAESESAEIL 2a8t-a1-m1-cB_2a8t-a1-m1-cA 2.1 Angstrom Crystal Structure of the Complex Between the Nuclear U8 snoRNA Decapping Nudix Hydrolase X29, Manganese and m7G-PPP-A Q6TEC1 Q6TEC1 2.1 X-RAY DIFFRACTION 95 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 191 192 1u20-a1-m1-cB_1u20-a1-m1-cA 2a8p-a1-m1-cA_2a8p-a1-m1-cB 2a8q-a1-m1-cA_2a8q-a1-m1-cB 2a8r-a1-m1-cA_2a8r-a1-m1-cB 2a8s-a1-m1-cB_2a8s-a1-m1-cA PRNISREESLQLEGYKHACHALLHAPSQAKLFDRVPIRRVLLMMMRFDGRLGFPGGFVDTRDISLEEGLKRELEEELGPALATVEVTEDDYRSSQVREHPQKCVTHFYIKELKLEEIERIEAEAVNAKDHGLEVMGLIRVPLYTLRDRVGGLPAFLCNNFIGNSKSQLLYALRSLKLLREDQIQEVLKASH PRNISREESLQLEGYKHACHALLHAPSQAKLFDRVPIRRVLLMMMRFDGRLGFPGGFVDTRDISLEEGLKRELEEELGPALATVEVTEDDYRSSQVREHPQKCVTHFYIKELKLEEIERIEAEAVNAKDHGLEVMGLIRVPLYTLRDRVGGLPAFLCNNFIGNSKSQLLYALRSLKLLREDQIQEVLKASHR 2a8y-a2-m1-cE_2a8y-a2-m1-cI Crystal structure of 5'-deoxy-5'methylthioadenosine phosphorylase complexed with 5'-deoxy-5'methylthioadenosine and sulfate Q97W94 Q97W94 1.45 X-RAY DIFFRACTION 12 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 263 263 2a8y-a1-m1-cA_2a8y-a1-m1-cJ 2a8y-a1-m1-cB_2a8y-a1-m1-cL 2a8y-a1-m1-cC_2a8y-a1-m1-cK 2a8y-a2-m1-cD_2a8y-a2-m1-cG 2a8y-a2-m1-cF_2a8y-a2-m1-cH 3t94-a1-m1-cA_3t94-a1-m2-cC 3t94-a1-m1-cB_3t94-a1-m2-cB 3t94-a1-m1-cC_3t94-a1-m2-cA 3t94-a2-m1-cD_3t94-a2-m3-cF 3t94-a2-m1-cE_3t94-a2-m3-cE 3t94-a2-m1-cF_3t94-a2-m3-cD MIEQNEKASIGIIGGSGLYDPGIFSESKEIKVYTPYGQPSDFITIGKIGNKSVAFLPRHGRGHRIPPHKINYRANIWALKELGVRWVISVSAVGSLRMDYKLGDFVIPDQFIDMTKNREYSFFDGPVVAHVSMADPFCNSLRKLAIETAKELNIKTHESGTYICIEGPRFSTRAESRTWREVYKADIIGMTLVPEVNLACEAQMCYATIAMVTDYDVFAEIPVTAEEVTRVMAENTEKAKKLLYALIQKLPEKPCNSLKTALV MIEQNEKASIGIIGGSGLYDPGIFSESKEIKVYTPYGQPSDFITIGKIGNKSVAFLPRHGRGHRIPPHKINYRANIWALKELGVRWVISVSAVGSLRMDYKLGDFVIPDQFIDMTKNREYSFFDGPVVAHVSMADPFCNSLRKLAIETAKELNIKTHESGTYICIEGPRFSTRAESRTWREVYKADIIGMTLVPEVNLACEAQMCYATIAMVTDYDVFAEIPVTAEEVTRVMAENTEKAKKLLYALIQKLPEKPCNSLKTALV 2a8y-a2-m1-cF_2a8y-a2-m1-cI Crystal structure of 5'-deoxy-5'methylthioadenosine phosphorylase complexed with 5'-deoxy-5'methylthioadenosine and sulfate Q97W94 Q97W94 1.45 X-RAY DIFFRACTION 54 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 263 263 2a8y-a1-m1-cA_2a8y-a1-m1-cK 2a8y-a1-m1-cB_2a8y-a1-m1-cJ 2a8y-a1-m1-cC_2a8y-a1-m1-cL 2a8y-a2-m1-cD_2a8y-a2-m1-cH 2a8y-a2-m1-cE_2a8y-a2-m1-cG 3t94-a1-m1-cA_3t94-a1-m2-cA 3t94-a1-m1-cB_3t94-a1-m2-cC 3t94-a1-m1-cC_3t94-a1-m2-cB 3t94-a2-m1-cD_3t94-a2-m3-cD 3t94-a2-m1-cE_3t94-a2-m3-cF 3t94-a2-m1-cF_3t94-a2-m3-cE MIEQNEKASIGIIGGSGLYDPGIFSESKEIKVYTPYGQPSDFITIGKIGNKSVAFLPRHGRGHRIPPHKINYRANIWALKELGVRWVISVSAVGSLRMDYKLGDFVIPDQFIDMTKNREYSFFDGPVVAHVSMADPFCNSLRKLAIETAKELNIKTHESGTYICIEGPRFSTRAESRTWREVYKADIIGMTLVPEVNLACEAQMCYATIAMVTDYDVFAEIPVTAEEVTRVMAENTEKAKKLLYALIQKLPEKPCNSLKTALV MIEQNEKASIGIIGGSGLYDPGIFSESKEIKVYTPYGQPSDFITIGKIGNKSVAFLPRHGRGHRIPPHKINYRANIWALKELGVRWVISVSAVGSLRMDYKLGDFVIPDQFIDMTKNREYSFFDGPVVAHVSMADPFCNSLRKLAIETAKELNIKTHESGTYICIEGPRFSTRAESRTWREVYKADIIGMTLVPEVNLACEAQMCYATIAMVTDYDVFAEIPVTAEEVTRVMAENTEKAKKLLYALIQKLPEKPCNSLKTALV 2a8y-a2-m1-cH_2a8y-a2-m1-cI Crystal structure of 5'-deoxy-5'methylthioadenosine phosphorylase complexed with 5'-deoxy-5'methylthioadenosine and sulfate Q97W94 Q97W94 1.45 X-RAY DIFFRACTION 112 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 263 263 2a8y-a1-m1-cA_2a8y-a1-m1-cB 2a8y-a1-m1-cA_2a8y-a1-m1-cC 2a8y-a1-m1-cB_2a8y-a1-m1-cC 2a8y-a1-m1-cJ_2a8y-a1-m1-cK 2a8y-a1-m1-cJ_2a8y-a1-m1-cL 2a8y-a1-m1-cK_2a8y-a1-m1-cL 2a8y-a2-m1-cD_2a8y-a2-m1-cE 2a8y-a2-m1-cD_2a8y-a2-m1-cF 2a8y-a2-m1-cE_2a8y-a2-m1-cF 2a8y-a2-m1-cG_2a8y-a2-m1-cH 2a8y-a2-m1-cG_2a8y-a2-m1-cI 3t94-a1-m1-cA_3t94-a1-m1-cB 3t94-a1-m1-cA_3t94-a1-m1-cC 3t94-a1-m1-cB_3t94-a1-m1-cC 3t94-a1-m2-cA_3t94-a1-m2-cB 3t94-a1-m2-cA_3t94-a1-m2-cC 3t94-a1-m2-cB_3t94-a1-m2-cC 3t94-a2-m1-cD_3t94-a2-m1-cE 3t94-a2-m1-cD_3t94-a2-m1-cF 3t94-a2-m1-cE_3t94-a2-m1-cF 3t94-a2-m3-cD_3t94-a2-m3-cE 3t94-a2-m3-cD_3t94-a2-m3-cF 3t94-a2-m3-cE_3t94-a2-m3-cF MIEQNEKASIGIIGGSGLYDPGIFSESKEIKVYTPYGQPSDFITIGKIGNKSVAFLPRHGRGHRIPPHKINYRANIWALKELGVRWVISVSAVGSLRMDYKLGDFVIPDQFIDMTKNREYSFFDGPVVAHVSMADPFCNSLRKLAIETAKELNIKTHESGTYICIEGPRFSTRAESRTWREVYKADIIGMTLVPEVNLACEAQMCYATIAMVTDYDVFAEIPVTAEEVTRVMAENTEKAKKLLYALIQKLPEKPCNSLKTALV MIEQNEKASIGIIGGSGLYDPGIFSESKEIKVYTPYGQPSDFITIGKIGNKSVAFLPRHGRGHRIPPHKINYRANIWALKELGVRWVISVSAVGSLRMDYKLGDFVIPDQFIDMTKNREYSFFDGPVVAHVSMADPFCNSLRKLAIETAKELNIKTHESGTYICIEGPRFSTRAESRTWREVYKADIIGMTLVPEVNLACEAQMCYATIAMVTDYDVFAEIPVTAEEVTRVMAENTEKAKKLLYALIQKLPEKPCNSLKTALV 2a96-a2-m1-cC_2a96-a2-m1-cD Crystal structure of phosphate tethered PhoN of S. typhimurium Q8KRU6 Q8KRU6 2.5 X-RAY DIFFRACTION 104 1.0 217 219 2a96-a1-m1-cA_2a96-a1-m1-cB 2akc-a1-m1-cA_2akc-a1-m1-cB 2akc-a2-m1-cC_2akc-a2-m1-cD 2ipb-a1-m1-cA_2ipb-a1-m1-cB 2ipb-a2-m1-cC_2ipb-a2-m1-cD QPFHSPEESVNSQFYLPPPPGNDDPAFRYDKEAYFKGYAIKGSPRWKQAAEDADISVENIARIFSPVVGAKISPKDTPETWNMLQNLLKVGGYYATASAKKYYMRTRPFVLFNHSTCRPEDENTLRKDGSYPSGHTAYSTLLALVLSQARPERAQELARRGWEFGQSRVICGAHWQSDVDAGRYVGAVEFARLQTIPAFQKSLAKVREELNDKNNLL MQPFHSPEESVNSQFYLPPPPGNDDPAFRYDKEAYFKGYAIKGSPRWKQAAEDADISVENIARIFSPVVGAKISPKDTPETWNMLQNLLKVGGYYATASAKKYYMRTRPFVLFNHSTCRPEDENTLRKDGSYPSGHTAYSTLLALVLSQARPERAQELARRGWEFGQSRVICGAHWQSDVDAGRYVGAVEFARLQTIPAFQKSLAKVREELNDKNNLLS 2a9f-a1-m1-cB_2a9f-a1-m1-cA Crystal structure of a putative malic enzyme ((S)-malate:NAD+ oxidoreductase (decarboxylating)) Q99ZS1 Q99ZS1 2.5 X-RAY DIFFRACTION 316 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 380 383 LKNQLGQLALEQAKTFGGKLEVQPKVDIKTKHDLSIAYTPGVASVSSAIAKDKTLAYDLTTKKNTVAVISDGTAVLGLGDIGPEAAMPVMEGKAALFKAFAGVDAIPIVLDTKDTEEIISIVKALAPTFGGINLEDISAPRCFEIEQRLIKECHIPVFHDDQHGTAIVVLAAIFNSLKLLKKSLDEVSIVVNGGGSAGLSITRKLLAAGATKVTVVDKFGIINEQEAAQLAPDIAKVTNREFKSGTLEDALEGADIFIGVSAPGVLKAEWISKMAARPVIFAMANPIPEIYPDEALEAGAYIVGTGRSDFPNQINNVLAFPGIFRGALDARAKTITVEMQIAAAKGIASLVPDDALSTTNIIPDAFKEGVAEIVAKSVRS LKNQLGQLALEQAKTFGGKLEVQPKVDIKTKHDLSIAYTPGVASVSSAIAKDKTLAYDLTTKKNTVAVISDGTAVLGLGDIGPEAAMPVMEGKAALFKAFAGVDAIPIVLDTKDTEEIISIVKALAPTFGGINLEDISAPRCFEIEQRLIKECHIPVFHDDQHGTAIVVLAAIFNSLKLLKKSLDEVSIVVNGGGSAGLSITRKLLAAGATKVTVVDKFGIINEQEAAQLAPDIAKVTNREFKSGTLEDALEGADIFIGVSAPGVLKAEWISKMAARPVIFAMANPIPEIYPDEALEAGAYIVGTGRSDFPNQINNVLAFPGIFRGALDARAKTITVEMQIAAAKGIASLVPDDALSTTNIIPDAFKEGVAEIVAKSVRSVVL 2a9s-a1-m1-cB_2a9s-a1-m1-cA The crystal structure of competence/damage inducible protein CihA from Agrobacterium tumefaciens A9CJ26 A9CJ26 1.75 X-RAY DIFFRACTION 124 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 165 167 MSLFPGDIEELARRIITDFTPLGLMVSTAESCTGGLIAGALTEIAGSSAVVDRGFVTYTNDAKRDMLGVGTETLTTFGAVSRQTALQMAHGALYRSRANFAVAVTGIAGPGGGSAEKPVGLVHLATKARNGNVLHHEMRYGDIGRTEIRLATVRTALEMLIALNQ MSLFPGDIEELARRIITDFTPLGLMVSTAESCTGGLIAGALTEIAGSSAVVDRGFVTYTNDAKRDMLGVGTETLTTFGAVSRQTALQMAHGALYRSRANFAVAVTGIAGPGGGSAEKPVGLVHLATKARNGNVLHHEMRYGDIGRTEIRLATVRTALEMLIALNQAG 2a9u-a1-m1-cB_2a9u-a1-m1-cA Structure of the N-terminal domain of Human Ubiquitin carboxyl-terminal hydrolase 8 (USP8) P40818 P40818 2.1 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 133 SVPKELYLSSSLKDLNKKTEVKPEKISTKSYVHSALKIFKTAEECRLDRDEERAYVLYKYVTVYNLIKKRPDFKQQQDYFHSILGPGNIKKAVEEAERLSESLKLRYEEAEVRKKLEEKDRQEEAQ SVPKELYLSSSLKDLNKKTEVKPEKISTKSYVHSALKIFKTAEECRLDRDEERAYVLYKYVTVYNLIKKRPDFKQQQDYFHSILGPGNIKKAVEEAERLSESLKLRYEEAEVRKKLEEKDRQEEAQRLQQKRQ 2aa4-a1-m1-cA_2aa4-a1-m1-cB Crystal structure of Escherichia coli putative N-ACETYLMANNOSAMINE KINASE, New York Structural Genomics Consortium P45425 P45425 2.2 X-RAY DIFFRACTION 125 1.0 562 (Escherichia coli) 562 (Escherichia coli) 289 289 MTTLAIDIGGTKLAAALIGADGQIRDRRELPTPASQTPEALRDALSALVSPLQAHAQRVAIASTGIIRDGSLLALNPHNLGGLLHFPLVKTLEQLTNLPTIAINDAQAAAWAEFQALDGDITDMVFITVSTGVGGGVVSGCKLLTGPGGLAGHIGHTLADPHGPVCGCGRTGCVEAIASGRGIAAAAQGELAGADAKTIFTRAGQGDEQAQQLIHRSARTLARLIADIKATTDCQCVVVGGSVGLAEGYLALVETYLAQEPAAFHVDLLAAHYRHDAGLLGAALLAQGE MTTLAIDIGGTKLAAALIGADGQIRDRRELPTPASQTPEALRDALSALVSPLQAHAQRVAIASTGIIRDGSLLALNPHNLGGLLHFPLVKTLEQLTNLPTIAINDAQAAAWAEFQALDGDITDMVFITVSTGVGGGVVSGCKLLTGPGGLAGHIGHTLADPHGPVCGCGRTGCVEAIASGRGIAAAAQGELAGADAKTIFTRAGQGDEQAQQLIHRSARTLARLIADIKATTDCQCVVVGGSVGLAEGYLALVETYLAQEPAAFHVDLLAAHYRHDAGLLGAALLAQGE 2aal-a2-m1-cD_2aal-a2-m1-cE Crystal Structures of the Wild-type, Mutant-P1A and Inactivated Malonate Semialdehyde Decarboxylase: A Structural Basis for the Decarboxylase and Hydratase Activities Q9EV83 Q9EV83 1.65 X-RAY DIFFRACTION 105 1.0 47881 (Pseudomonas pavonaceae) 47881 (Pseudomonas pavonaceae) 129 129 2aag-a1-m1-cA_2aag-a1-m1-cB 2aag-a1-m1-cA_2aag-a1-m1-cC 2aag-a1-m1-cC_2aag-a1-m1-cB 2aag-a2-m1-cD_2aag-a2-m1-cE 2aag-a2-m1-cD_2aag-a2-m1-cF 2aag-a2-m1-cE_2aag-a2-m1-cF 2aaj-a1-m1-cA_2aaj-a1-m2-cA 2aaj-a1-m1-cA_2aaj-a1-m3-cA 2aaj-a1-m2-cA_2aaj-a1-m3-cA 2aaj-a2-m1-cB_2aaj-a2-m4-cB 2aaj-a2-m1-cB_2aaj-a2-m5-cB 2aaj-a2-m4-cB_2aaj-a2-m5-cB 2aal-a1-m1-cA_2aal-a1-m1-cB 2aal-a1-m1-cA_2aal-a1-m1-cC 2aal-a1-m1-cC_2aal-a1-m1-cB 2aal-a2-m1-cD_2aal-a2-m1-cF 2aal-a2-m1-cE_2aal-a2-m1-cF PLLKFDLFYGRTDAQIKSLLDAAHGAMVDAFGVPANDRYQTVSQHRPGEMVLEDTGLGYGRSSAVVLLTVISRPRSEEQKVCFYKLLTGALERDCGISPDDVIVALVENSDADWSFGRGRAEFLTGDLV PLLKFDLFYGRTDAQIKSLLDAAHGAMVDAFGVPANDRYQTVSQHRPGEMVLEDTGLGYGRSSAVVLLTVISRPRSEEQKVCFYKLLTGALERDCGISPDDVIVALVENSDADWSFGRGRAEFLTGDLV 2aan-a2-m1-cA_2aan-a2-m2-cA Auracyanin A: A ""blue"" copper protein from the green thermophilic photosynthetic bacterium,chloroflexus aurantiacus Q8RMH6 Q8RMH6 1.85 X-RAY DIFFRACTION 53 1.0 1108 (Chloroflexus aurantiacus) 1108 (Chloroflexus aurantiacus) 123 123 GPVTIEIGSKGEELAFDKTELTVSAGQTVTIRFKNNSAVQQHNWILVKGGEAEAANIANAGLSAGPAANYLPADKSNIIAESPLANGNETVEVTFTAPAAGTYLYICTVPGHYPLMQGKLVVN GPVTIEIGSKGEELAFDKTELTVSAGQTVTIRFKNNSAVQQHNWILVKGGEAEAANIANAGLSAGPAANYLPADKSNIIAESPLANGNETVEVTFTAPAAGTYLYICTVPGHYPLMQGKLVVN 2aao-a3-m1-cB_2aao-a3-m1-cA Regulatory apparatus of Calcium Dependent protein kinase from Arabidopsis thaliana Q06850 Q06850 2 X-RAY DIFFRACTION 73 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 132 139 NKFKKALRVIAESLSEEEIAGLKEFNIDADKSGQITFEELKAGLKRVGANLKESEILDLQAADVDNSGTIDYKEFIAATLHLNKIEREDHLFAAFTYFDKDGSGYITPDELQQRDVDQDNDGRIDYNEFVAQ NKFKKALRVIAESLSEEEIAGLKEFNIDADKSGQITFEELKAGLKRVGANLKESEILDLQAADVDNSGTIDYKEFIAATLHLNKIEREDHLFAAFTYFDKDGSGYITPDELQQACEEEELRDVDQDNDGRIDYNEFVAQ 2aax-a1-m1-cB_2aax-a1-m1-cA Mineralocorticoid Receptor Double Mutant with Bound Cortisone P08235 P08235 1.75 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 261 2ab2-a1-m1-cA_2ab2-a1-m1-cB LVPQLSTISRALTPSPVMVLENIEPEIVYAGYDSSKPDTAENLLSTLNRLAGKQMIQVVKWAKVLPGFKNLPLEDQITLIQYSWMSLLSFALSWRSYKHTNSQFLYFAPDLVFNEEKMHQSAMYELCQGMHQISLQFVRLQLTFEEYTIMKVLLLLSTIPKDGLKSQAAFEEMRTNYIKELRKMVTNNSGQSWQRFYQLTKLLDSMHDLVSDLLEFCFYTFRESHALKVEFPAMLVEIISDQLPKVESGNAKPLYFH ALVPQLSTISRALTPSPVMVLENIEPEIVYAGYDSSKPDTAENLLSTLNRLAGKQMIQVVKWAKVLPGFKNLPLEDQITLIQYSWMSLLSFALSWRSYKHTNSQFLYFAPDLVFNEEKMHQSAMYELCQGMHQISLQFVRLQLTFEEYTIMKVLLLLSTIPKDGLKSQAAFEEMRTNYIKELRKMVTKCNNSGQSWQRFYQLTKLLDSMHDLVSDLLEFCFYTFRESHALKVEFPAMLVEIISDQLPKVESGNAKPLYFHR 2aaz-a8-m1-cO_2aaz-a8-m1-cP Cryptococcus neoformans thymidylate synthase complexed with substrate and an antifolate P0CS12 P0CS12 2.08 X-RAY DIFFRACTION 112 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 299 299 2aaz-a1-m1-cA_2aaz-a1-m1-cB 2aaz-a2-m1-cC_2aaz-a2-m1-cD 2aaz-a3-m1-cE_2aaz-a3-m1-cF 2aaz-a4-m1-cG_2aaz-a4-m1-cH 2aaz-a5-m1-cI_2aaz-a5-m1-cJ 2aaz-a6-m1-cK_2aaz-a6-m1-cL 2aaz-a7-m1-cM_2aaz-a7-m1-cN PDHEEYQYLDLIRRIINVGEVRPDRTGTGTVALFAPPSFRFSLADNTLPLLTTKRVFLRGVIAELLWFVSGCTDAKMLSSQGVGIWDGNGSKEFLEKVGLGHRREGDLGPVYGFQWRHFGAEYTDADGDYKGKGVDQLQRVIDTIKNNPTDRRIILSAWNPKDLPLMALPPCHMFCQFFVSLPPPGSKPKLSCLMYQRSCDLGLGVPFNIASYALLTHMIALITDTEPHEFILQMGDAHVYRDHVEPLKTQLEREPRDFPKLKWARSKEEIGDIDGFKVEDFVVEGYKPWGKIDMKMSA PDHEEYQYLDLIRRIINVGEVRPDRTGTGTVALFAPPSFRFSLADNTLPLLTTKRVFLRGVIAELLWFVSGCTDAKMLSSQGVGIWDGNGSKEFLEKVGLGHRREGDLGPVYGFQWRHFGAEYTDADGDYKGKGVDQLQRVIDTIKNNPTDRRIILSAWNPKDLPLMALPPCHMFCQFFVSLPPPGSKPKLSCLMYQRSCDLGLGVPFNIASYALLTHMIALITDTEPHEFILQMGDAHVYRDHVEPLKTQLEREPRDFPKLKWARSKEEIGDIDGFKVEDFVVEGYKPWGKIDMKMSA 2ab5-a1-m1-cB_2ab5-a1-m1-cA bI3 LAGLIDADG Maturase Q9ZZW7 Q9ZZW7 2.2 X-RAY DIFFRACTION 53 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 246 249 HKLNTDNPIYAYIVGLFEGDGWITISKKGKYLLYELGIEHIRDIQLLYKIKNILGIGKVTIKKLKKDGTIKECKFNVRNKNHLKNIIIPIFNKYPLTNKHYDYLYFKDNLLKDIKYYNDLSYYLRPIKPFNTTEDILNKNYFSSWLIGFFEAKSCFSIYKKTASFEVSNNNEVLAIKSYLKINNNIYNEFNNSKTTKSINDIKNVVFINNNPIKLLGYKKLQYLLFLKDLRTITKYNNYFKIPSKY KLNTDNPIYAYIVGLFEGDGWITISKKGKYLLYELGIEHIRDIQLLYKIKNILGIGKVTIKKLKKDGTIKECKFNVRNKNHLKNIIIPIFNKYPLTNKHYDYLYFKDNLLKDIKYYNDLSYYLRPIKPFNTTEDILNKNYFSSWLIGFFEAKSCFSIYKPNKKKTASFEVSNNNEVLAIKSYLKINNNIYNEFNNSKTTKSINDIKNVVFINNNPIKLLGYKKLQYLLFLKDLRTITKYNNYFKIPSKY 2abm-a6-m1-cA_2abm-a6-m2-cB Crystal Structure of Aquaporin Z Tetramer Reveals both Open and Closed Water-conducting Channels P60844 P60844 3.2 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 227 227 2abm-a3-m1-cA_2abm-a3-m2-cB 2abm-a3-m1-cB_2abm-a3-m2-cA 2abm-a3-m1-cC_2abm-a3-m2-cD 2abm-a3-m1-cD_2abm-a3-m2-cC 2abm-a4-m3-cE_2abm-a4-m6-cF 2abm-a4-m3-cF_2abm-a4-m6-cE 2abm-a4-m3-cG_2abm-a4-m6-cH 2abm-a4-m3-cH_2abm-a4-m6-cG 2abm-a5-m1-cE_2abm-a5-m7-cF 2abm-a5-m1-cF_2abm-a5-m7-cE 2abm-a5-m1-cG_2abm-a5-m7-cH 2abm-a5-m1-cH_2abm-a5-m7-cG 2abm-a6-m1-cB_2abm-a6-m2-cA 2abm-a6-m1-cC_2abm-a6-m2-cD 2abm-a6-m1-cD_2abm-a6-m2-cC MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL 2abm-a7-m1-cC_2abm-a7-m3-cH Crystal Structure of Aquaporin Z Tetramer Reveals both Open and Closed Water-conducting Channels P60844 P60844 3.2 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 227 227 2abm-a3-m1-cC_2abm-a3-m3-cH 2abm-a3-m2-cC_2abm-a3-m4-cH 2abm-a4-m1-cC_2abm-a4-m3-cH 2abm-a4-m5-cC_2abm-a4-m6-cH MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL 2abm-a8-m1-cA_2abm-a8-m1-cE Crystal Structure of Aquaporin Z Tetramer Reveals both Open and Closed Water-conducting Channels P60844 P60844 3.2 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 227 227 2abm-a5-m1-cA_2abm-a5-m1-cE 2abm-a5-m7-cA_2abm-a5-m7-cE 2abm-a6-m1-cA_2abm-a6-m1-cE 2abm-a6-m2-cA_2abm-a6-m2-cE MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL 2abm-a8-m1-cB_2abm-a8-m1-cF Crystal Structure of Aquaporin Z Tetramer Reveals both Open and Closed Water-conducting Channels P60844 P60844 3.2 X-RAY DIFFRACTION 23 1.0 562 (Escherichia coli) 562 (Escherichia coli) 227 227 2abm-a5-m1-cB_2abm-a5-m1-cF 2abm-a5-m7-cB_2abm-a5-m7-cF 2abm-a6-m1-cB_2abm-a6-m1-cF 2abm-a6-m2-cB_2abm-a6-m2-cF MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL 2abm-a8-m1-cG_2abm-a8-m1-cH Crystal Structure of Aquaporin Z Tetramer Reveals both Open and Closed Water-conducting Channels P60844 P60844 3.2 X-RAY DIFFRACTION 140 1.0 562 (Escherichia coli) 562 (Escherichia coli) 227 227 1rc2-a1-m1-cB_1rc2-a1-m3-cB 1rc2-a1-m1-cB_1rc2-a1-m4-cB 1rc2-a1-m2-cB_1rc2-a1-m3-cB 1rc2-a1-m2-cB_1rc2-a1-m4-cB 1rc2-a3-m1-cA_1rc2-a3-m6-cA 1rc2-a3-m1-cA_1rc2-a3-m7-cA 1rc2-a3-m5-cA_1rc2-a3-m6-cA 1rc2-a3-m5-cA_1rc2-a3-m7-cA 2abm-a1-m1-cA_2abm-a1-m1-cB 2abm-a1-m1-cA_2abm-a1-m1-cC 2abm-a1-m1-cB_2abm-a1-m1-cD 2abm-a1-m1-cC_2abm-a1-m1-cD 2abm-a2-m1-cE_2abm-a2-m1-cF 2abm-a2-m1-cE_2abm-a2-m1-cG 2abm-a2-m1-cF_2abm-a2-m1-cH 2abm-a2-m1-cG_2abm-a2-m1-cH 2abm-a3-m1-cA_2abm-a3-m1-cB 2abm-a3-m1-cA_2abm-a3-m1-cC 2abm-a3-m1-cB_2abm-a3-m1-cD 2abm-a3-m1-cC_2abm-a3-m1-cD 2abm-a3-m2-cA_2abm-a3-m2-cB 2abm-a3-m2-cA_2abm-a3-m2-cC 2abm-a3-m2-cB_2abm-a3-m2-cD 2abm-a3-m2-cC_2abm-a3-m2-cD 2abm-a3-m3-cE_2abm-a3-m3-cF 2abm-a3-m3-cE_2abm-a3-m3-cG 2abm-a3-m3-cF_2abm-a3-m3-cH 2abm-a3-m3-cG_2abm-a3-m3-cH 2abm-a3-m4-cE_2abm-a3-m4-cF 2abm-a3-m4-cE_2abm-a3-m4-cG 2abm-a3-m4-cF_2abm-a3-m4-cH 2abm-a3-m4-cG_2abm-a3-m4-cH 2abm-a4-m1-cA_2abm-a4-m1-cB 2abm-a4-m1-cA_2abm-a4-m1-cC 2abm-a4-m1-cB_2abm-a4-m1-cD 2abm-a4-m1-cC_2abm-a4-m1-cD 2abm-a4-m3-cE_2abm-a4-m3-cF 2abm-a4-m3-cE_2abm-a4-m3-cG 2abm-a4-m3-cF_2abm-a4-m3-cH 2abm-a4-m3-cG_2abm-a4-m3-cH 2abm-a4-m5-cA_2abm-a4-m5-cB 2abm-a4-m5-cA_2abm-a4-m5-cC 2abm-a4-m5-cB_2abm-a4-m5-cD 2abm-a4-m5-cC_2abm-a4-m5-cD 2abm-a4-m6-cE_2abm-a4-m6-cF 2abm-a4-m6-cE_2abm-a4-m6-cG 2abm-a4-m6-cF_2abm-a4-m6-cH 2abm-a4-m6-cG_2abm-a4-m6-cH 2abm-a5-m1-cA_2abm-a5-m1-cB 2abm-a5-m1-cA_2abm-a5-m1-cC 2abm-a5-m1-cB_2abm-a5-m1-cD 2abm-a5-m1-cC_2abm-a5-m1-cD 2abm-a5-m1-cE_2abm-a5-m1-cF 2abm-a5-m1-cE_2abm-a5-m1-cG 2abm-a5-m1-cF_2abm-a5-m1-cH 2abm-a5-m1-cG_2abm-a5-m1-cH 2abm-a5-m7-cA_2abm-a5-m7-cB 2abm-a5-m7-cA_2abm-a5-m7-cC 2abm-a5-m7-cB_2abm-a5-m7-cD 2abm-a5-m7-cC_2abm-a5-m7-cD 2abm-a5-m7-cE_2abm-a5-m7-cF 2abm-a5-m7-cE_2abm-a5-m7-cG 2abm-a5-m7-cF_2abm-a5-m7-cH 2abm-a5-m7-cG_2abm-a5-m7-cH 2abm-a6-m1-cA_2abm-a6-m1-cB 2abm-a6-m1-cA_2abm-a6-m1-cC 2abm-a6-m1-cB_2abm-a6-m1-cD 2abm-a6-m1-cC_2abm-a6-m1-cD 2abm-a6-m1-cE_2abm-a6-m1-cF 2abm-a6-m1-cE_2abm-a6-m1-cG 2abm-a6-m1-cF_2abm-a6-m1-cH 2abm-a6-m1-cG_2abm-a6-m1-cH 2abm-a6-m2-cA_2abm-a6-m2-cB 2abm-a6-m2-cA_2abm-a6-m2-cC 2abm-a6-m2-cB_2abm-a6-m2-cD 2abm-a6-m2-cC_2abm-a6-m2-cD 2abm-a6-m2-cE_2abm-a6-m2-cF 2abm-a6-m2-cE_2abm-a6-m2-cG 2abm-a6-m2-cF_2abm-a6-m2-cH 2abm-a6-m2-cG_2abm-a6-m2-cH 2abm-a7-m1-cA_2abm-a7-m1-cB 2abm-a7-m1-cA_2abm-a7-m1-cC 2abm-a7-m1-cB_2abm-a7-m1-cD 2abm-a7-m1-cC_2abm-a7-m1-cD 2abm-a7-m3-cE_2abm-a7-m3-cF 2abm-a7-m3-cE_2abm-a7-m3-cG 2abm-a7-m3-cF_2abm-a7-m3-cH 2abm-a7-m3-cG_2abm-a7-m3-cH 2abm-a8-m1-cA_2abm-a8-m1-cB 2abm-a8-m1-cA_2abm-a8-m1-cC 2abm-a8-m1-cB_2abm-a8-m1-cD 2abm-a8-m1-cC_2abm-a8-m1-cD 2abm-a8-m1-cE_2abm-a8-m1-cF 2abm-a8-m1-cE_2abm-a8-m1-cG 2abm-a8-m1-cF_2abm-a8-m1-cH 2o9d-a1-m1-cA_2o9d-a1-m3-cA 2o9d-a1-m1-cA_2o9d-a1-m4-cA 2o9d-a1-m2-cA_2o9d-a1-m3-cA 2o9d-a1-m2-cA_2o9d-a1-m4-cA 2o9d-a3-m1-cB_2o9d-a3-m6-cB 2o9d-a3-m1-cB_2o9d-a3-m7-cB 2o9d-a3-m5-cB_2o9d-a3-m6-cB 2o9d-a3-m5-cB_2o9d-a3-m7-cB 2o9e-a1-m1-cA_2o9e-a1-m3-cA 2o9e-a1-m1-cA_2o9e-a1-m4-cA 2o9e-a1-m2-cA_2o9e-a1-m3-cA 2o9e-a1-m2-cA_2o9e-a1-m4-cA 2o9f-a1-m1-cA_2o9f-a1-m3-cA 2o9f-a1-m1-cA_2o9f-a1-m4-cA 2o9f-a1-m2-cA_2o9f-a1-m3-cA 2o9f-a1-m2-cA_2o9f-a1-m4-cA 2o9f-a3-m1-cB_2o9f-a3-m6-cB 2o9f-a3-m1-cB_2o9f-a3-m7-cB 2o9f-a3-m5-cB_2o9f-a3-m6-cB 2o9f-a3-m5-cB_2o9f-a3-m7-cB 2o9g-a1-m1-cA_2o9g-a1-m3-cA 2o9g-a1-m1-cA_2o9g-a1-m4-cA 2o9g-a1-m2-cA_2o9g-a1-m3-cA 2o9g-a1-m2-cA_2o9g-a1-m4-cA 3nk5-a1-m1-cA_3nk5-a1-m3-cA 3nk5-a1-m1-cA_3nk5-a1-m4-cA 3nk5-a1-m2-cA_3nk5-a1-m3-cA 3nk5-a1-m2-cA_3nk5-a1-m4-cA 3nk5-a2-m1-cB_3nk5-a2-m6-cB 3nk5-a2-m1-cB_3nk5-a2-m7-cB 3nk5-a2-m5-cB_3nk5-a2-m6-cB 3nk5-a2-m5-cB_3nk5-a2-m7-cB 3nka-a1-m1-cA_3nka-a1-m3-cA 3nka-a1-m1-cA_3nka-a1-m4-cA 3nka-a1-m2-cA_3nka-a1-m3-cA 3nka-a1-m2-cA_3nka-a1-m4-cA 3nka-a2-m1-cB_3nka-a2-m6-cB 3nka-a2-m1-cB_3nka-a2-m7-cB 3nka-a2-m5-cB_3nka-a2-m6-cB 3nka-a2-m5-cB_3nka-a2-m7-cB 3nkc-a1-m1-cA_3nkc-a1-m3-cA 3nkc-a1-m1-cA_3nkc-a1-m4-cA 3nkc-a1-m2-cA_3nkc-a1-m3-cA 3nkc-a1-m2-cA_3nkc-a1-m4-cA 3nkc-a2-m1-cB_3nkc-a2-m6-cB 3nkc-a2-m1-cB_3nkc-a2-m7-cB 3nkc-a2-m5-cB_3nkc-a2-m6-cB 3nkc-a2-m5-cB_3nkc-a2-m7-cB MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGGHFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNGYGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLL 2abq-a1-m1-cA_2abq-a1-m1-cB Crystal structure of fructose-1-phosphate kinase from Bacillus halodurans Q9KEM5 Q9KEM5 2.1 X-RAY DIFFRACTION 86 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 302 302 IYTVTLNPSIDYIVQVENFQQGVVNRSERDRKQPGGKGINVSRVLKRLGHETKALGFLGGFTGAYVRNALEKEEIGLSFIEVEGDTRINVKIKGKQETELNGTAPLIKKEHVQALLEQLTELEKGDVLVLAGSVPQAPQTIYRSTQIAKERGAFVAVDTSGEALHEVLAAKPSFIKPNHHELSELVSKPIASIEDAIPHVQRLIGEGIESILVSFAGDGALFASAEGFHVNVPSGEVRNSVGAGDSVVAGFLAALQEGKSLEDAVPFAVAAGSATAFSDGFCTREEVERLQQQLQRTIKKEG IYTVTLNPSIDYIVQVENFQQGVVNRSERDRKQPGGKGINVSRVLKRLGHETKALGFLGGFTGAYVRNALEKEEIGLSFIEVEGDTRINVKIKGKQETELNGTAPLIKKEHVQALLEQLTELEKGDVLVLAGSVPQAPQTIYRSTQIAKERGAFVAVDTSGEALHEVLAAKPSFIKPNHHELSELVSKPIASIEDAIPHVQRLIGEGIESILVSFAGDGALFASAEGFHVNVPSGEVRNSVGAGDSVVAGFLAALQEGKSLEDAVPFAVAAGSATAFSDGFCTREEVERLQQQLQRTIKKEG 2abx-a1-m1-cA_2abx-a1-m1-cB THE CRYSTAL STRUCTURE OF ALPHA-BUNGAROTOXIN AT 2.5 ANGSTROMS RESOLUTION. RELATION TO SOLUTION STRUCTURE AND BINDING TO ACETYLCHOLINE RECEPTOR P60615 P60615 2.5 X-RAY DIFFRACTION 30 1.0 8616 (Bungarus multicinctus) 8616 (Bungarus multicinctus) 74 74 IVCHTTATIPSSAVTCPPGENLCYRKMWCDAFCSSRGKVVELGCAATCPSKKPYEEVTCCSTDKCNHPPKRQPG IVCHTTATIPSSAVTCPPGENLCYRKMWCDAFCSSRGKVVELGCAATCPSKKPYEEVTCCSTDKCNHPPKRQPG 2abz-a1-m1-cA_2abz-a1-m1-cB Crystal structure of C19A/C43A mutant of leech carboxypeptidase inhibitor in complex with bovine carboxypeptidase A P00730 P00730 2.16 X-RAY DIFFRACTION 36 1.0 9913 (Bos taurus) 9913 (Bos taurus) 299 301 TNTFNYATYHTLDEIYDFMDLLVAEHPQLVSKLQIGRSYEGRPIYVLKFSTGGSNRPAIWIDLGIHSREWITQATGVWFAKKFTEDYGQDPSFTAILDSMDIFLEIVTNPDGFAFTHSQNRLWRKTRSVSLCVGVDANRNWDAGFGKAGASSSPCSETYHGKYANSEVEVKSIVDFVKDHGNFKAFLSIHSYSQLLLYPYGYTTQSIPDKTELNQVAKSAVAALKSLYGTSYKYGSIITTIYQASGGSIDWSYNQGIKYSFTFELRDTGRYGFLLPASQIIPTAQETWLGVLTIMEHTV STNTFNYATYHTLDEIYDFMDLLVAEHPQLVSKLQIGRSYEGRPIYVLKFSTGGSNRPAIWIDLGIHSREWITQATGVWFAKKFTEDYGQDPSFTAILDSMDIFLEIVTNPDGFAFTHSQNRLWRKTRSVTSLCVGVDANRNWDAGFGKAGASSSPCSETYHGKYANSEVEVKSIVDFVKDHGNFKAFLSIHSYSQLLLYPYGYTTQSIPDKTELNQVAKSAVAALKSLYGTSYKYGSIITTIYQASGGSIDWSYNQGIKYSFTFELRDTGRYGFLLPASQIIPTAQETWLGVLTIMEHTV 2abz-a1-m1-cF_2abz-a1-m1-cC Crystal structure of C19A/C43A mutant of leech carboxypeptidase inhibitor in complex with bovine carboxypeptidase A P81511 P81511 2.16 X-RAY DIFFRACTION 26 0.983 6421 (Hirudo medicinalis) 6421 (Hirudo medicinalis) 58 62 TPDESFLCYQPDQVCAFICRGAAPLPSEGECNPHPTAPWARVEWVPTGQCRTTCIPYV PDESFLCYQPDQVCAFICRGAAPLPSEGECNPHPTAPWAREGAVEWVPYSTGQCRTTCIPYV 2aca-a1-m1-cA_2aca-a1-m1-cB X-ray structure of a putative adenylate cyclase Q87NV8 from Vibrio parahaemolyticus at the 2.25 A resolution. Northeast Structural Genomics Target VpR19. Q87NV8 Q87NV8 2.25 X-RAY DIFFRACTION 42 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 169 169 QGQFEVELKYRVKNHDAFLNVKQIEHEVFENNQESDWFYDTPQRTLTQQGKSLVLREIQPAGIKLWIVKGPEADRCEATNITKLDSAQSLENGYEVIQCSKKIRSIFFVGEFHITLDFLDGFGHFAEFAITDDETALARYRERLVALAQQFHLSEADREHRSYKEILSA QGQFEVELKYRVKNHDAFLNVKQIEHEVFENNQESDWFYDTPQRTLTQQGKSLVLREIQPAGIKLWIVKGPEADRCEATNITKLDSAQSLENGYEVIQCSKKIRSIFFVGEFHITLDFLDGFGHFAEFAITDDETALARYRERLVALAQQFHLSEADREHRSYKEILSA 2ach-a2-m2-cA_2ach-a2-m1-cA CRYSTAL STRUCTURE OF CLEAVED HUMAN ALPHA1-ANTICHYMOTRYPSIN AT 2.7 ANGSTROMS RESOLUTION AND ITS COMPARISON WITH OTHER SERPINS P01011 P01011 2.7 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 337 337 LGLASANVDFAFSLYKQLVLKAPDKNVIFSPLSISTALAFLSLGAHNTTLTEILKGLKFNLTETSEAEIHQSFQHLLRTLNQSSDELQLSMGNAMFVKEQLSLLDRFTEDAKRLYGSEAFATDFQDSAAAKKLINDYVKNGTRGKITDLIKDLDSQTMMVLVNYIFFKAKWEMPFDPQDTHQSRFYLSKKKWVMVPMMSLHHLTIPYFRDEELSCTVVELKYTGNASALFILPDQDKMEEVEAMLLPETLKRWRDSLEFREIGELYLPKFSISRDYNLNDILLQLGIEEAFTSKADLSGITGARNLAVSQVVHKAVLDVFEEGTEASAATAVKITLL LGLASANVDFAFSLYKQLVLKAPDKNVIFSPLSISTALAFLSLGAHNTTLTEILKGLKFNLTETSEAEIHQSFQHLLRTLNQSSDELQLSMGNAMFVKEQLSLLDRFTEDAKRLYGSEAFATDFQDSAAAKKLINDYVKNGTRGKITDLIKDLDSQTMMVLVNYIFFKAKWEMPFDPQDTHQSRFYLSKKKWVMVPMMSLHHLTIPYFRDEELSCTVVELKYTGNASALFILPDQDKMEEVEAMLLPETLKRWRDSLEFREIGELYLPKFSISRDYNLNDILLQLGIEEAFTSKADLSGITGARNLAVSQVVHKAVLDVFEEGTEASAATAVKITLL 2aco-a1-m1-cB_2aco-a1-m1-cA Xray structure of Blc dimer in complex with vaccenic acid P0A901 P0A901 1.8 X-RAY DIFFRACTION 48 1.0 562 (Escherichia coli) 562 (Escherichia coli) 166 168 HLESTSLYKKAGSTPPRGVTVVNNFDAKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNVINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWILSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQP HLESTSLYKKAGSTPPRGVTVVNNFDAKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNVINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWILSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPGS 2acv-a1-m1-cB_2acv-a1-m1-cA Crystal Structure of Medicago truncatula UGT71G1 Q5IFH7 Q5IFH7 2 X-RAY DIFFRACTION 42 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 456 461 2acw-a1-m1-cB_2acw-a1-m1-cA KNSELIFIPAPGIGHLASALEFAKLLTNHDKNLYITVFCIKFPGMPFADSYIKSVLASQPQIQLIDLPEVEPPPQELLKSPEFYILTFLESLIPHVKATIKTILSNKVVGLVLDFFCVSMIDVGNEFGIPSYLFLTSNVGFLSLMLSLKNRQIEEVFDDSDRDHQLLNIPGISNQVPSNVLPDACFNKDGGYIAYYKLAERFRDTKGIIVNTFSDLEQSSIDALYDHDEKIPPIYAVGPLLDLKGQPNPKLDQAQHDLILKWLDEQPDKSVVFLCFGSMGVSFGPSQIREIALGLKHSGVRFLWSNSAEKKVFPEGFLEWMELEGKGMICGWAPQVEVLAHKAIGGFVSHCGWNSILESMWFGVPILTWPIYAEQQLNAFRLVKEWGVGLGLRVDYRKGSDVVAAEEIEKGLKDLMDKDSIVHKKVQEMKEMSRNAVVDGGSSLISVGKLIDDITG MSDINKNSELIFIPAPGIGHLASALEFAKLLTNHDKNLYITVFCIKFPGMPFADSYIKSVLASQPQIQLIDLPEVEPPPQELLKSPEFYILTFLESLIPHVKATIKTILSNKVVGLVLDFFCVSMIDVGNEFGIPSYLFLTSNVGFLSLMLSLKNRQIEEVFDDSDRDHQLLNIPGISNQVPSNVLPDACFNKDGGYIAYYKLAERFRDTKGIIVNTFSDLEQSSIDALYDHDEKIPPIYAVGPLLDLKGQPNPKLDQAQHDLILKWLDEQPDKSVVFLCFGSMGVSFGPSQIREIALGLKHSGVRFLWSNSAEKKVFPEGFLEWMELEGKGMICGWAPQVEVLAHKAIGGFVSHCGWNSILESMWFGVPILTWPIYAEQQLNAFRLVKEWGVGLGLRVDYRKGSDVVAAEEIEKGLKDLMDKDSIVHKKVQEMKEMSRNAVVDGGSSLISVGKLIDDITG 2ad7-a1-m1-cA_2ad7-a1-m1-cC crystal structure of methanol dehydrogenase from M. W3A1 (form C) in the presence of methanol P38539 P38539 1.5 X-RAY DIFFRACTION 91 1.0 2327 (Methylophilus methylotrophus W3A1) 2327 (Methylophilus methylotrophus W3A1) 571 571 1g72-a1-m1-cA_1g72-a1-m1-cC 2ad6-a1-m1-cA_2ad6-a1-m1-cC 2ad8-a1-m1-cA_2ad8-a1-m1-cC 4aah-a1-m1-cA_4aah-a1-m1-cC DADLDKQVNTAGAWPIATGGYYSQHNSPLAQINKSNVKNVKAAWSFSTGVLNGHEGAPLVIGDMMYVHSAFPNNTYALNLNDPGKIVWQHKPKQDASTKAVMCCDVVDRGLAYGAGQIVKKQANGHLLALDAKTGKINWEVEVCDPKVGSTLTQAPFVAKDTVLMGCSGAELGVRGAVNAFDLKTGELKWRAFATGSDDSVRLAKDFNSANPHYGQFGLGTKTWEGDAWKIGGGTNWGWYAYDPKLNLFYYGSGNPAPWNETMRPGDNKWTMTIWGRDLDTGMAKWGYQKTPHDEWDFAGVNQMVLTDQPVNGKMTPLLSHIDRNGILYTLNRENGNLIVAEKVDPAVNVFKKVDLKTGTPVRDPEFATRMDHKGTNICPSAMGFHNQGVDSYDPESRTLYAGLNHICMDWEPFMLPYRAGQFFVGATLAMYPGPNGPTKKEMGQIRAFDLTTGKAKWTKWEKFAAWGGTLYTKGGLVWYATLDGYLKALDNKDGKELWNFKMPSGGIGSPMTYSFKGKQYIGSMYGVGGWPGVGLVFDLTDPSAGLGAVGAFRELQNHTQMGGGLMVFSL DADLDKQVNTAGAWPIATGGYYSQHNSPLAQINKSNVKNVKAAWSFSTGVLNGHEGAPLVIGDMMYVHSAFPNNTYALNLNDPGKIVWQHKPKQDASTKAVMCCDVVDRGLAYGAGQIVKKQANGHLLALDAKTGKINWEVEVCDPKVGSTLTQAPFVAKDTVLMGCSGAELGVRGAVNAFDLKTGELKWRAFATGSDDSVRLAKDFNSANPHYGQFGLGTKTWEGDAWKIGGGTNWGWYAYDPKLNLFYYGSGNPAPWNETMRPGDNKWTMTIWGRDLDTGMAKWGYQKTPHDEWDFAGVNQMVLTDQPVNGKMTPLLSHIDRNGILYTLNRENGNLIVAEKVDPAVNVFKKVDLKTGTPVRDPEFATRMDHKGTNICPSAMGFHNQGVDSYDPESRTLYAGLNHICMDWEPFMLPYRAGQFFVGATLAMYPGPNGPTKKEMGQIRAFDLTTGKAKWTKWEKFAAWGGTLYTKGGLVWYATLDGYLKALDNKDGKELWNFKMPSGGIGSPMTYSFKGKQYIGSMYGVGGWPGVGLVFDLTDPSAGLGAVGAFRELQNHTQMGGGLMVFSL 2adl-a1-m1-cA_2adl-a1-m1-cB Solution structure of the bacterial antitoxin CcdA: Implications for DNA and toxin binding P62552 P62552 NOT SOLUTION NMR 125 1.0 562 (Escherichia coli) 562 (Escherichia coli) 72 72 MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW 2adn-a1-m1-cA_2adn-a1-m1-cB Solution structure of the bacterial antitoxin CcdA: Implications for DNA and toxin binding P62552 P62552 NOT SOLUTION NMR 134 1.0 562 (Escherichia coli) 562 (Escherichia coli) 72 72 MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW 2ae2-a2-m1-cB_2ae2-a2-m2-cB TROPINONE REDUCTASE-II COMPLEXED WITH NADP+ AND PSEUDOTROPINE P50163 P50163 1.9 X-RAY DIFFRACTION 52 1.0 4076 (Datura stramonium) 4076 (Datura stramonium) 259 259 1ipe-a2-m1-cA_1ipe-a2-m2-cA 1ipe-a2-m1-cB_1ipe-a2-m2-cB 1ipf-a2-m1-cA_1ipf-a2-m2-cA 1ipf-a2-m1-cB_1ipf-a2-m2-cB 2ae1-a2-m1-cA_2ae1-a2-m3-cA 2ae1-a2-m2-cA_2ae1-a2-m4-cA 2ae2-a2-m1-cA_2ae2-a2-m2-cA AGRWNLEGCTALVTGGSRGIGYGIVEELASLGASVYTCSRNQKELNDCLTQWRSKGFKVEASVCDLSSRSERQELMNTVANHFHGKLNILVNNAGIVIYKEAKDYTVEDYSLIMSINFEAAYHLSVLAHPFLKASERGNVVFISSVSGALAVPYEAVYGATKGAMDQLTRCLAFEWAKDNIRVNGVGPGVIATSLVEMTIQDPEQKENLNKLIDRCALRRMGEPKELAAMVAFLCFPAASYVTGQIIYVDGGLMANCGF AGRWNLEGCTALVTGGSRGIGYGIVEELASLGASVYTCSRNQKELNDCLTQWRSKGFKVEASVCDLSSRSERQELMNTVANHFHGKLNILVNNAGIVIYKEAKDYTVEDYSLIMSINFEAAYHLSVLAHPFLKASERGNVVFISSVSGALAVPYEAVYGATKGAMDQLTRCLAFEWAKDNIRVNGVGPGVIATSLVEMTIQDPEQKENLNKLIDRCALRRMGEPKELAAMVAFLCFPAASYVTGQIIYVDGGLMANCGF 2ae2-a2-m2-cA_2ae2-a2-m2-cB TROPINONE REDUCTASE-II COMPLEXED WITH NADP+ AND PSEUDOTROPINE P50163 P50163 1.9 X-RAY DIFFRACTION 98 1.0 4076 (Datura stramonium) 4076 (Datura stramonium) 259 259 1ipe-a1-m1-cA_1ipe-a1-m1-cB 1ipe-a2-m1-cA_1ipe-a2-m1-cB 1ipe-a2-m2-cA_1ipe-a2-m2-cB 1ipf-a1-m1-cA_1ipf-a1-m1-cB 1ipf-a2-m1-cA_1ipf-a2-m1-cB 1ipf-a2-m2-cA_1ipf-a2-m2-cB 2ae1-a2-m1-cA_2ae1-a2-m4-cA 2ae1-a2-m2-cA_2ae1-a2-m3-cA 2ae2-a1-m1-cA_2ae2-a1-m1-cB 2ae2-a2-m1-cA_2ae2-a2-m1-cB AGRWNLEGCTALVTGGSRGIGYGIVEELASLGASVYTCSRNQKELNDCLTQWRSKGFKVEASVCDLSSRSERQELMNTVANHFHGKLNILVNNAGIVIYKEAKDYTVEDYSLIMSINFEAAYHLSVLAHPFLKASERGNVVFISSVSGALAVPYEAVYGATKGAMDQLTRCLAFEWAKDNIRVNGVGPGVIATSLVEMTIQDPEQKENLNKLIDRCALRRMGEPKELAAMVAFLCFPAASYVTGQIIYVDGGLMANCGF AGRWNLEGCTALVTGGSRGIGYGIVEELASLGASVYTCSRNQKELNDCLTQWRSKGFKVEASVCDLSSRSERQELMNTVANHFHGKLNILVNNAGIVIYKEAKDYTVEDYSLIMSINFEAAYHLSVLAHPFLKASERGNVVFISSVSGALAVPYEAVYGATKGAMDQLTRCLAFEWAKDNIRVNGVGPGVIATSLVEMTIQDPEQKENLNKLIDRCALRRMGEPKELAAMVAFLCFPAASYVTGQIIYVDGGLMANCGF 2ae2-a3-m1-cA_2ae2-a3-m2-cB TROPINONE REDUCTASE-II COMPLEXED WITH NADP+ AND PSEUDOTROPINE P50163 P50163 1.9 X-RAY DIFFRACTION 95 1.0 4076 (Datura stramonium) 4076 (Datura stramonium) 259 259 1ipe-a2-m1-cA_1ipe-a2-m2-cB 1ipe-a2-m1-cB_1ipe-a2-m2-cA 1ipe-a3-m1-cA_1ipe-a3-m2-cB 1ipf-a2-m1-cA_1ipf-a2-m2-cB 1ipf-a2-m1-cB_1ipf-a2-m2-cA 1ipf-a3-m1-cA_1ipf-a3-m2-cB 2ae1-a2-m1-cA_2ae1-a2-m2-cA 2ae1-a2-m3-cA_2ae1-a2-m4-cA 2ae2-a2-m1-cA_2ae2-a2-m2-cB 2ae2-a2-m1-cB_2ae2-a2-m2-cA AGRWNLEGCTALVTGGSRGIGYGIVEELASLGASVYTCSRNQKELNDCLTQWRSKGFKVEASVCDLSSRSERQELMNTVANHFHGKLNILVNNAGIVIYKEAKDYTVEDYSLIMSINFEAAYHLSVLAHPFLKASERGNVVFISSVSGALAVPYEAVYGATKGAMDQLTRCLAFEWAKDNIRVNGVGPGVIATSLVEMTIQDPEQKENLNKLIDRCALRRMGEPKELAAMVAFLCFPAASYVTGQIIYVDGGLMANCGF AGRWNLEGCTALVTGGSRGIGYGIVEELASLGASVYTCSRNQKELNDCLTQWRSKGFKVEASVCDLSSRSERQELMNTVANHFHGKLNILVNNAGIVIYKEAKDYTVEDYSLIMSINFEAAYHLSVLAHPFLKASERGNVVFISSVSGALAVPYEAVYGATKGAMDQLTRCLAFEWAKDNIRVNGVGPGVIATSLVEMTIQDPEQKENLNKLIDRCALRRMGEPKELAAMVAFLCFPAASYVTGQIIYVDGGLMANCGF 2ae6-a1-m1-cC_2ae6-a1-m1-cA Crystal Structure of Acetyltransferase of GNAT family from Enterococcus faecalis V583 Q839D1 Q839D1 2.19 X-RAY DIFFRACTION 20 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 142 144 SLTIRLVAEADWPALHALDQIISLAAYQEKKDETIFVAISGQQLAGFIEVHPPTSLAAHQKQWLLSIGVSPDFQDQGIGGSLLSYIKDAEISGIHKLSLRVATNQEAIRFYEKHGFVQEAHFKEEFYINGHYCDDYQYAYFI STSLTIRLVAEADWPALHALDQIISLAAYQEKKDETIFVAISGQQLAGFIEVHPPTSLAAHQKQWLLSIGVSPDFQDQGIGGSLLSYIKDAEISGIHKLSLRVATNQEAIRFYEKHGFVQEAHFKEEFYINGHYCDDYQYAYFI 2ae6-a1-m1-cD_2ae6-a1-m1-cA Crystal Structure of Acetyltransferase of GNAT family from Enterococcus faecalis V583 Q839D1 Q839D1 2.19 X-RAY DIFFRACTION 60 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 141 144 2ae6-a1-m1-cC_2ae6-a1-m1-cB LTIRLVAEADWPALHALDQIISLAAYQEKKDETIFVAISGQQLAGFIEVHPPTSLAAHQKQWLLSIGVSPDFQDQGIGGSLLSYIKDAEISGIHKLSLRVATNQEAIRFYEKHGFVQEAHFKEEFYINGHYCDDYQYAYFI STSLTIRLVAEADWPALHALDQIISLAAYQEKKDETIFVAISGQQLAGFIEVHPPTSLAAHQKQWLLSIGVSPDFQDQGIGGSLLSYIKDAEISGIHKLSLRVATNQEAIRFYEKHGFVQEAHFKEEFYINGHYCDDYQYAYFI 2ae8-a1-m4-cC_2ae8-a1-m4-cD Crystal Structure of Imidazoleglycerol-phosphate Dehydratase from Staphylococcus aureus subsp. aureus N315 P64373 P64373 2.01 X-RAY DIFFRACTION 27 0.994 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 166 166 2ae8-a1-m1-cA_2ae8-a1-m3-cA 2ae8-a1-m1-cA_2ae8-a1-m4-cA 2ae8-a1-m1-cC_2ae8-a1-m1-cD 2ae8-a1-m1-cC_2ae8-a1-m3-cB 2ae8-a1-m1-cE_2ae8-a1-m3-cE 2ae8-a1-m1-cE_2ae8-a1-m4-cE 2ae8-a1-m1-cF_2ae8-a1-m1-cB 2ae8-a1-m1-cF_2ae8-a1-m4-cD 2ae8-a1-m2-cA_2ae8-a1-m3-cA 2ae8-a1-m2-cA_2ae8-a1-m4-cA 2ae8-a1-m2-cC_2ae8-a1-m2-cD 2ae8-a1-m2-cC_2ae8-a1-m4-cB 2ae8-a1-m2-cE_2ae8-a1-m3-cE 2ae8-a1-m2-cE_2ae8-a1-m4-cE 2ae8-a1-m2-cF_2ae8-a1-m2-cB 2ae8-a1-m2-cF_2ae8-a1-m3-cD 2ae8-a1-m3-cC_2ae8-a1-m2-cB 2ae8-a1-m3-cC_2ae8-a1-m3-cD 2ae8-a1-m3-cF_2ae8-a1-m1-cD 2ae8-a1-m3-cF_2ae8-a1-m3-cB 2ae8-a1-m4-cC_2ae8-a1-m1-cB 2ae8-a1-m4-cF_2ae8-a1-m2-cD 2ae8-a1-m4-cF_2ae8-a1-m4-cB IYQKQRTQLNISISDDQSPSHINTGVGFLNHLTLFTFHSGLSLNIEAQGDDHHVTEDIGIVIGQLLLEIKDKKHFVRYGTYIPDETLARVVVDISGRPYLSFNASLSKEKVGTFDTELVEEFFRAVVINARLTTHIDLIRGGNTHHEIEAIFKAFSRALGIALTAT IYQKQRNQLNISISDDQSPSHINTGVGFLNHLTLFTFHSGLSLNIEAQGDDHHVTEDIGIVIGQLLLEIKDKKHFVRYGTYIPDETLARVVVDISGRPYLSFNASLSKEKVGTFDTELVEEFFRAVVINARLTTHIDLIRGGNTHHEIEAIFKAFSRALGIALTAT 2ae8-a1-m4-cF_2ae8-a1-m4-cD Crystal Structure of Imidazoleglycerol-phosphate Dehydratase from Staphylococcus aureus subsp. aureus N315 P64373 P64373 2.01 X-RAY DIFFRACTION 28 0.994 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 165 166 2ae8-a1-m1-cA_2ae8-a1-m1-cB 2ae8-a1-m1-cA_2ae8-a1-m1-cC 2ae8-a1-m1-cC_2ae8-a1-m1-cB 2ae8-a1-m1-cD_2ae8-a1-m1-cE 2ae8-a1-m1-cF_2ae8-a1-m1-cD 2ae8-a1-m1-cF_2ae8-a1-m1-cE 2ae8-a1-m2-cA_2ae8-a1-m2-cB 2ae8-a1-m2-cA_2ae8-a1-m2-cC 2ae8-a1-m2-cC_2ae8-a1-m2-cB 2ae8-a1-m2-cD_2ae8-a1-m2-cE 2ae8-a1-m2-cF_2ae8-a1-m2-cD 2ae8-a1-m2-cF_2ae8-a1-m2-cE 2ae8-a1-m3-cA_2ae8-a1-m3-cB 2ae8-a1-m3-cA_2ae8-a1-m3-cC 2ae8-a1-m3-cC_2ae8-a1-m3-cB 2ae8-a1-m3-cD_2ae8-a1-m3-cE 2ae8-a1-m3-cF_2ae8-a1-m3-cD 2ae8-a1-m3-cF_2ae8-a1-m3-cE 2ae8-a1-m4-cA_2ae8-a1-m4-cB 2ae8-a1-m4-cA_2ae8-a1-m4-cC 2ae8-a1-m4-cC_2ae8-a1-m4-cB 2ae8-a1-m4-cD_2ae8-a1-m4-cE 2ae8-a1-m4-cF_2ae8-a1-m4-cE IYQKQRTQLNISISDDQSPSHINTGVGFLNHLTLFTFHSGLSLNIEAQGDHHVTEDIGIVIGQLLLEIKDKKHFVRYGTYIPDETLARVVVDISGRPYLSFNASLSKEKVGTFDTELVEEFFRAVVINARLTTHIDLIRGGNTHHEIEAIFKAFSRALGIALTAT IYQKQRNQLNISISDDQSPSHINTGVGFLNHLTLFTFHSGLSLNIEAQGDDHHVTEDIGIVIGQLLLEIKDKKHFVRYGTYIPDETLARVVVDISGRPYLSFNASLSKEKVGTFDTELVEEFFRAVVINARLTTHIDLIRGGNTHHEIEAIFKAFSRALGIALTAT 2aee-a2-m1-cA_2aee-a2-m2-cA Crystal structure of Orotate phosphoribosyltransferase from Streptococcus pyogenes Q9A076 Q9A076 1.95 X-RAY DIFFRACTION 52 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 206 206 AAMTLASQIATQLLDIKAVYLKPEDPFTWASGIKSPIYTDNRVTLSYPKTRDLIENGFVETIKAHFPEVEVIAGTATAGIPHGAIIADKMTLPFAYIRSKPKGNQIEGRVLKGQKMVIIEDLISTGGSVLDAAAAASREGADVLGVVAIFTYELPKASQNFKEAGIKLITLSNYTELIAVAKLQGYITNDGLHLLKKFKEDQVNWQ AAMTLASQIATQLLDIKAVYLKPEDPFTWASGIKSPIYTDNRVTLSYPKTRDLIENGFVETIKAHFPEVEVIAGTATAGIPHGAIIADKMTLPFAYIRSKPKGNQIEGRVLKGQKMVIIEDLISTGGSVLDAAAAASREGADVLGVVAIFTYELPKASQNFKEAGIKLITLSNYTELIAVAKLQGYITNDGLHLLKKFKEDQVNWQ 2aee-a2-m2-cB_2aee-a2-m1-cA Crystal structure of Orotate phosphoribosyltransferase from Streptococcus pyogenes Q9A076 Q9A076 1.95 X-RAY DIFFRACTION 13 0.995 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 203 206 2aee-a2-m1-cB_2aee-a2-m2-cA MTLASQIATQLLDIKAVYLKPEDPFTWASGIKSPIYTDNRVTLSYPKTRDLIENGFVETIKAHFPEVEVIAGTATAGIPHGAIIADKMTLPFAYIRSKPNQIEGRVLKGQKMVIIEDLISTGGSVLDAAAAASREGADVLGVVAIFTYELPKASQNFKEAGIKLITLSNYTELIAVAKLQGYITNDGLHLLKKFKEDQVNWQQ AAMTLASQIATQLLDIKAVYLKPEDPFTWASGIKSPIYTDNRVTLSYPKTRDLIENGFVETIKAHFPEVEVIAGTATAGIPHGAIIADKMTLPFAYIRSKPKGNQIEGRVLKGQKMVIIEDLISTGGSVLDAAAAASREGADVLGVVAIFTYELPKASQNFKEAGIKLITLSNYTELIAVAKLQGYITNDGLHLLKKFKEDQVNWQ 2aee-a2-m2-cB_2aee-a2-m2-cA Crystal structure of Orotate phosphoribosyltransferase from Streptococcus pyogenes Q9A076 Q9A076 1.95 X-RAY DIFFRACTION 105 0.995 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 203 206 2aee-a1-m1-cB_2aee-a1-m1-cA 2aee-a2-m1-cB_2aee-a2-m1-cA MTLASQIATQLLDIKAVYLKPEDPFTWASGIKSPIYTDNRVTLSYPKTRDLIENGFVETIKAHFPEVEVIAGTATAGIPHGAIIADKMTLPFAYIRSKPNQIEGRVLKGQKMVIIEDLISTGGSVLDAAAAASREGADVLGVVAIFTYELPKASQNFKEAGIKLITLSNYTELIAVAKLQGYITNDGLHLLKKFKEDQVNWQQ AAMTLASQIATQLLDIKAVYLKPEDPFTWASGIKSPIYTDNRVTLSYPKTRDLIENGFVETIKAHFPEVEVIAGTATAGIPHGAIIADKMTLPFAYIRSKPKGNQIEGRVLKGQKMVIIEDLISTGGSVLDAAAAASREGADVLGVVAIFTYELPKASQNFKEAGIKLITLSNYTELIAVAKLQGYITNDGLHLLKKFKEDQVNWQ 2ael-a3-m1-cA_2ael-a3-m1-cB R304K Trichodiene Synthase: Complex With Mg, Pyrophosphate, and (4R)-7-Azabisabolene P13513 P13513 2.5 X-RAY DIFFRACTION 148 1.0 5514 (Fusarium sporotrichioides) 5514 (Fusarium sporotrichioides) 352 353 1jfa-a1-m2-cB_1jfa-a1-m1-cA 1jfg-a1-m1-cA_1jfg-a1-m2-cB 1jfg-a2-m1-cB_1jfg-a2-m3-cA 1kiy-a1-m1-cA_1kiy-a1-m1-cB 1kiz-a1-m1-cA_1kiz-a1-m1-cB 1yj4-a1-m1-cB_1yj4-a1-m1-cA 1yyq-a1-m1-cB_1yyq-a1-m1-cA 1yyr-a1-m1-cB_1yyr-a1-m1-cA 1yys-a1-m1-cB_1yys-a1-m1-cA 1yyt-a1-m1-cA_1yyt-a1-m1-cB 1yyu-a1-m1-cA_1yyu-a1-m1-cB 2aek-a3-m1-cA_2aek-a3-m2-cB 2aet-a3-m1-cA_2aet-a3-m1-cB 2ps4-a1-m1-cB_2ps4-a1-m1-cA 2ps5-a1-m1-cA_2ps5-a1-m1-cB 2ps6-a1-m1-cB_2ps6-a1-m1-cA 2ps7-a1-m1-cB_2ps7-a1-m1-cA 2ps8-a1-m1-cA_2ps8-a1-m1-cB 2q9y-a1-m1-cA_2q9y-a1-m1-cB 2q9z-a1-m1-cB_2q9z-a1-m1-cA NFPTEYFLNTTVRLLEYIRYRDSNYTREERIENLHYAYNKAAHHFAQPRQQQLLKVDPKRLQASLQTIVGMVVYSWAKVSKECMADLSIHYTYTLVLDDSKDDPYPTMVNYFDDLQAGREQAHPWWALVNEHFPNVLRHFGPFCSLNLIRSTLDFFEGCWIEQYNFGGFPGSHDYPQFLRRMNGLGHCVGASLWPKEQFNERSLFLEITSAIAQMENWMVWVNDLMSFYKEFDDERDQISLVKNYVVSDEISLHEALEKLTQDTLHSSKQMVAVFSDKDPQVMDTIECFMHGYVTWHLCDRKYRLSEIYEKVKEEKTEDAQKFCKFYEQAANVGAVSPSEWAYPPVAQLANV ENFPTEYFLNTTVRLLEYIRYRDSNYTREERIENLHYAYNKAAHHFAQPRQQQLLKVDPKRLQASLQTIVGMVVYSWAKVSKECMADLSIHYTYTLVLDDSKDDPYPTMVNYFDDLQAGREQAHPWWALVNEHFPNVLRHFGPFCSLNLIRSTLDFFEGCWIEQYNFGGFPGSHDYPQFLRRMNGLGHCVGASLWPKEQFNERSLFLEITSAIAQMENWMVWVNDLMSFYKEFDDERDQISLVKNYVVSDEISLHEALEKLTQDTLHSSKQMVAVFSDKDPQVMDTIECFMHGYVTWHLCDRKYRLSEIYEKVKEEKTEDAQKFCKFYEQAANVGAVSPSEWAYPPVAQLANV 2aen-a1-m1-cB_2aen-a1-m1-cD Crystal structure of the rotavirus strain DS-1 VP8* core P11196 P11196 1.604 X-RAY DIFFRACTION 15 1.0 10941 (Human rotavirus A) 10941 (Human rotavirus A) 164 164 TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL 2aen-a1-m1-cD_2aen-a1-m1-cH Crystal structure of the rotavirus strain DS-1 VP8* core P11196 P11196 1.604 X-RAY DIFFRACTION 21 1.0 10941 (Human rotavirus A) 10941 (Human rotavirus A) 164 164 2aen-a1-m1-cD_2aen-a1-m1-cG TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL 2aen-a1-m1-cE_2aen-a1-m1-cF Crystal structure of the rotavirus strain DS-1 VP8* core P11196 P11196 1.604 X-RAY DIFFRACTION 29 1.0 10941 (Human rotavirus A) 10941 (Human rotavirus A) 164 164 2aen-a1-m1-cC_2aen-a1-m1-cD TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL 2aen-a1-m1-cE_2aen-a1-m1-cH Crystal structure of the rotavirus strain DS-1 VP8* core P11196 P11196 1.604 X-RAY DIFFRACTION 14 1.0 10941 (Human rotavirus A) 10941 (Human rotavirus A) 164 164 2aen-a1-m1-cA_2aen-a1-m1-cD TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL TVEPVLDGPYQPTTFKPPNDYWLLISSNTNGVVYESTNNNDFWTAVIAVEPHVSQTNRQYILFGENKQFNVENNSDKWKFFEMFKGSSQGDFSNRRTLTSSNRLVGMLKYGGRVWTFHGETPRATTDSSNTADLNNISIIIHSEFYIIPRSQESKCNEYINNGL 2aeo-a1-m1-cA_2aeo-a1-m2-cA Crystal structure of cisplatinated bovine Cu,Zn superoxide dismutase P00442 P00442 1.8 X-RAY DIFFRACTION 35 1.0 9913 (Bos taurus) 9913 (Bos taurus) 151 151 ATKAVCVLKGDGPVQGTIHFEAKGDTVVVTGSITGLTEGDHGFHVHQFGDNTQGCTSAGPHFNPLSKKHGGPKDEERHVGDLGNVTADKNGVAIVDIVDPLISLSGEYSIIGRTMVVHEKPDDLGRGGNEESTKTGNAGSRLACGVIGIAK ATKAVCVLKGDGPVQGTIHFEAKGDTVVVTGSITGLTEGDHGFHVHQFGDNTQGCTSAGPHFNPLSKKHGGPKDEERHVGDLGNVTADKNGVAIVDIVDPLISLSGEYSIIGRTMVVHEKPDDLGRGGNEESTKTGNAGSRLACGVIGIAK 2aeu-a1-m1-cA_2aeu-a1-m2-cA MJ0158, apo form Q57622 Q57622 1.7 X-RAY DIFFRACTION 165 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 366 366 2aev-a1-m1-cA_2aev-a1-m2-cA LRLEKARKIILEILNEKGRDALYDLSGLSGGFLIDEKDKALLNTYIGSSYFAEKVNEYGLKHLGGDENDKCVGFNRTSSAILATILALKPKKVIHYLPELPGHPSIERSCKIVNAKYFESDKVGEILNKIDKDTLVIITGSTMDLKVIELENFKKVINTAKNKEAIVFVDDASGARVRLLFNQPPALKLGADLVVTSTDKLMEGPRGGLLAGKKELVDKIYIEGTKFGLEAQPPLLAGIYRALKNFNLERIRKAFERAKNFDLSKIEKLNKELKAIDDNINIVYERTPTGFVIKRVYKDDTINIKKLIEIGFNLLKNYGIITITVAGMPGASKSLRIDLTSRDAERIDDNYIIKAIVESIKMAFKS LRLEKARKIILEILNEKGRDALYDLSGLSGGFLIDEKDKALLNTYIGSSYFAEKVNEYGLKHLGGDENDKCVGFNRTSSAILATILALKPKKVIHYLPELPGHPSIERSCKIVNAKYFESDKVGEILNKIDKDTLVIITGSTMDLKVIELENFKKVINTAKNKEAIVFVDDASGARVRLLFNQPPALKLGADLVVTSTDKLMEGPRGGLLAGKKELVDKIYIEGTKFGLEAQPPLLAGIYRALKNFNLERIRKAFERAKNFDLSKIEKLNKELKAIDDNINIVYERTPTGFVIKRVYKDDTINIKKLIEIGFNLLKNYGIITITVAGMPGASKSLRIDLTSRDAERIDDNYIIKAIVESIKMAFKS 2aex-a1-m1-cA_2aex-a1-m2-cA The 1.58A Crystal Structure of Human Coproporphyrinogen Oxidase Reveals the Structural Basis of Hereditary Coproporphyria P36551 P36551 1.58 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 336 336 EEDELAHRCSSFMAPPVTDLGELRRRPGDMKTKMELLILETQAQVCQALAQVDGGANFSVDRWERKEGGGGISCVLQDGCVFEKAGVSISVVHGNLSEEAAKQMRSRGKVLKTKDGKLPFCAMGVSSVIHPKNPHAPTIHFNYRYFEVEEADGNKQWWFGGGCDLTPTYLNQEDAVHFHRTLKEACDQHGPDLYPKFKKWCDDYFFIAHRGERRGIGGIFFDDLDSPSKEEVFRFVQSCARAVVPSYIPLVKKHCDDSFTPQEKLWQQLRRGRYVEFNLLYDRGTKFGLFTPGSRIESILMSLPLTARWEYMHSPSENSKEAEILEVLRHPRDWVR EEDELAHRCSSFMAPPVTDLGELRRRPGDMKTKMELLILETQAQVCQALAQVDGGANFSVDRWERKEGGGGISCVLQDGCVFEKAGVSISVVHGNLSEEAAKQMRSRGKVLKTKDGKLPFCAMGVSSVIHPKNPHAPTIHFNYRYFEVEEADGNKQWWFGGGCDLTPTYLNQEDAVHFHRTLKEACDQHGPDLYPKFKKWCDDYFFIAHRGERRGIGGIFFDDLDSPSKEEVFRFVQSCARAVVPSYIPLVKKHCDDSFTPQEKLWQQLRRGRYVEFNLLYDRGTKFGLFTPGSRIESILMSLPLTARWEYMHSPSENSKEAEILEVLRHPRDWVR 2af7-a2-m1-cB_2af7-a2-m2-cG Crystal structure of the gamma-carboxymuconolactone decarboxylase from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT747. O26336 O26336 2.81 X-RAY DIFFRACTION 11 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 114 114 2af7-a1-m1-cA_2af7-a1-m1-cF 2af7-a2-m1-cG_2af7-a2-m2-cB ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTE ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTE 2af7-a2-m2-cB_2af7-a2-m2-cG Crystal structure of the gamma-carboxymuconolactone decarboxylase from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT747. O26336 O26336 2.81 X-RAY DIFFRACTION 44 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 114 114 2af7-a1-m1-cA_2af7-a1-m1-cE 2af7-a1-m1-cA_2af7-a1-m1-cI 2af7-a1-m1-cC_2af7-a1-m1-cD 2af7-a1-m1-cC_2af7-a1-m1-cF 2af7-a1-m1-cE_2af7-a1-m1-cI 2af7-a1-m1-cF_2af7-a1-m1-cD 2af7-a2-m1-cB_2af7-a2-m1-cG 2af7-a2-m1-cB_2af7-a2-m2-cH 2af7-a2-m1-cG_2af7-a2-m2-cH 2af7-a2-m2-cB_2af7-a2-m1-cH 2af7-a2-m2-cG_2af7-a2-m1-cH ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTE ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTE 2af7-a2-m2-cB_2af7-a2-m2-cH Crystal structure of the gamma-carboxymuconolactone decarboxylase from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT747. O26336 O26336 2.81 X-RAY DIFFRACTION 16 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 114 115 2af7-a1-m1-cA_2af7-a1-m1-cD 2af7-a1-m1-cC_2af7-a1-m1-cE 2af7-a1-m1-cF_2af7-a1-m1-cI 2af7-a2-m1-cB_2af7-a2-m1-cH 2af7-a2-m1-cG_2af7-a2-m2-cG ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTE ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTEN 2af7-a2-m2-cG_2af7-a2-m2-cH Crystal structure of the gamma-carboxymuconolactone decarboxylase from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT747. O26336 O26336 2.81 X-RAY DIFFRACTION 67 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 114 115 2af7-a1-m1-cA_2af7-a1-m1-cC 2af7-a1-m1-cE_2af7-a1-m1-cF 2af7-a1-m1-cI_2af7-a1-m1-cD 2af7-a2-m1-cB_2af7-a2-m2-cB 2af7-a2-m1-cG_2af7-a2-m1-cH ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTE ERYRRGEILNRNRKSYTAIRDELEDVAPDLARFVAEFAYGDVYSRGVLDLKTRELLTLAALTVLRADDQLKSHVRGALNAGCSKDEIIEVIQAVYAGFPAAINAVLAAKEVFTEN 2afb-a1-m2-cB_2afb-a1-m3-cB Crystal structure of 2-dehydro-3- deoxygluconokinase (EC 2.7.1.45) (tm0067) from THERMOTOGA MARITIMA at 2.05 A resolution Q9WXS2 Q9WXS2 2.05 X-RAY DIFFRACTION 43 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 319 319 2afb-a1-m1-cA_2afb-a1-m2-cA 2afb-a1-m1-cA_2afb-a1-m3-cA 2afb-a1-m1-cB_2afb-a1-m2-cB 2afb-a1-m1-cB_2afb-a1-m3-cB 2afb-a1-m2-cA_2afb-a1-m3-cA HKVVTFGEILRLSPPDHKRIFQTDSFDVTYGGAEANVAAFLAQGLDAYFVTKLPNNPLGDAAAGHLRKFGVKTDYIARGGNRIGIYFLEIGASQRPSKVVYDRAHSAISEAKREDFDWEKILDGARWFHFSGITPPLGKELPLILEDALKVANEKGVTVSCDLNYRARLWTKEEAQKVIPFEYVDVLIANEEDIEKVLGISVEGLDNREAYAKIAEEVTRKYNFKTVGITLRESISATVNYWSVVFENGQPHFSNRYEIHIVDRVGAGDSFAGALIYGSLGFDSQKKAEFAAAASCLKHTIPGDFVVLSIEEIEKLASG HKVVTFGEILRLSPPDHKRIFQTDSFDVTYGGAEANVAAFLAQGLDAYFVTKLPNNPLGDAAAGHLRKFGVKTDYIARGGNRIGIYFLEIGASQRPSKVVYDRAHSAISEAKREDFDWEKILDGARWFHFSGITPPLGKELPLILEDALKVANEKGVTVSCDLNYRARLWTKEEAQKVIPFEYVDVLIANEEDIEKVLGISVEGLDNREAYAKIAEEVTRKYNFKTVGITLRESISATVNYWSVVFENGQPHFSNRYEIHIVDRVGAGDSFAGALIYGSLGFDSQKKAEFAAAASCLKHTIPGDFVVLSIEEIEKLASG 2afb-a1-m3-cB_2afb-a1-m1-cA Crystal structure of 2-dehydro-3- deoxygluconokinase (EC 2.7.1.45) (tm0067) from THERMOTOGA MARITIMA at 2.05 A resolution Q9WXS2 Q9WXS2 2.05 X-RAY DIFFRACTION 16 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 319 322 2afb-a1-m1-cB_2afb-a1-m2-cA 2afb-a1-m2-cB_2afb-a1-m3-cA HKVVTFGEILRLSPPDHKRIFQTDSFDVTYGGAEANVAAFLAQGLDAYFVTKLPNNPLGDAAAGHLRKFGVKTDYIARGGNRIGIYFLEIGASQRPSKVVYDRAHSAISEAKREDFDWEKILDGARWFHFSGITPPLGKELPLILEDALKVANEKGVTVSCDLNYRARLWTKEEAQKVIPFEYVDVLIANEEDIEKVLGISVEGLDNREAYAKIAEEVTRKYNFKTVGITLRESISATVNYWSVVFENGQPHFSNRYEIHIVDRVGAGDSFAGALIYGSLGFDSQKKAEFAAAASCLKHTIPGDFVVLSIEEIEKLASG HHHHHKVVTFGEILRLSPPDHKRIFQTDSFDVTYGGAEANVAAFLAQGLDAYFVTKLPNNPLGDAAAGHLRKFGVKTDYIARGGNRIGIYFLEIGASQRPSKVVYDRAHSAISEAKREDFDWEKILDGARWFHFSGITPPLGKELPLILEDALKVANEKGVTVSCDLNYRARLWTKEEAQKVIPFEYVDVLIANEEDIEKVLGISVEGLNREAYAKIAEEVTRKYNFKTVGITLRESISATVNYWSVVFENGQPHFSNRYEIHIVDRVGAGDSFAGALIYGSLGFDSQKKAEFAAAASCLKHTIPGDFVVLSIEEIEKLASG 2afb-a1-m3-cB_2afb-a1-m3-cA Crystal structure of 2-dehydro-3- deoxygluconokinase (EC 2.7.1.45) (tm0067) from THERMOTOGA MARITIMA at 2.05 A resolution Q9WXS2 Q9WXS2 2.05 X-RAY DIFFRACTION 65 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 319 322 2afb-a1-m1-cB_2afb-a1-m1-cA 2afb-a1-m2-cB_2afb-a1-m2-cA HKVVTFGEILRLSPPDHKRIFQTDSFDVTYGGAEANVAAFLAQGLDAYFVTKLPNNPLGDAAAGHLRKFGVKTDYIARGGNRIGIYFLEIGASQRPSKVVYDRAHSAISEAKREDFDWEKILDGARWFHFSGITPPLGKELPLILEDALKVANEKGVTVSCDLNYRARLWTKEEAQKVIPFEYVDVLIANEEDIEKVLGISVEGLDNREAYAKIAEEVTRKYNFKTVGITLRESISATVNYWSVVFENGQPHFSNRYEIHIVDRVGAGDSFAGALIYGSLGFDSQKKAEFAAAASCLKHTIPGDFVVLSIEEIEKLASG HHHHHKVVTFGEILRLSPPDHKRIFQTDSFDVTYGGAEANVAAFLAQGLDAYFVTKLPNNPLGDAAAGHLRKFGVKTDYIARGGNRIGIYFLEIGASQRPSKVVYDRAHSAISEAKREDFDWEKILDGARWFHFSGITPPLGKELPLILEDALKVANEKGVTVSCDLNYRARLWTKEEAQKVIPFEYVDVLIANEEDIEKVLGISVEGLNREAYAKIAEEVTRKYNFKTVGITLRESISATVNYWSVVFENGQPHFSNRYEIHIVDRVGAGDSFAGALIYGSLGFDSQKKAEFAAAASCLKHTIPGDFVVLSIEEIEKLASG 2afv-a2-m2-cA_2afv-a2-m2-cB The Crystal Structure of Putative Precorrin Isomerase CbiC in Cobalamin Biosynthesis Q8EXP7 Q8EXP7 3 X-RAY DIFFRACTION 115 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 217 217 2afr-a2-m1-cA_2afr-a2-m2-cA 2afv-a1-m1-cA_2afv-a1-m1-cB 2afv-a2-m1-cA_2afv-a2-m1-cB MRQITNLGRNIENKSFSIIDEEAGPHSFAQEEWEVVRRIIHATADFDYKNITKIHPQAIDSGIQALKKGCPIVCDVQMILSGLNPERLKVYGCKTYCFISDEDVIENAKRKNSTRAIESIQKANSFNLLNESIIVIGNAPTALLEIEKLIRQEGIKPALIVGVPVGFVSAKESKESILKLEYYNVTSIPYILTMGRKGGSTIAVAILHALLLLSSKR MRQITNLGRNIENKSFSIIDEEAGPHSFAQEEWEVVRRIIHATADFDYKNITKIHPQAIDSGIQALKKGCPIVCDVQMILSGLNPERLKVYGCKTYCFISDEDVIENAKRKNSTRAIESIQKANSFNLLNESIIVIGNAPTALLEIEKLIRQEGIKPALIVGVPVGFVSAKESKESILKLEYYNVTSIPYILTMGRKGGSTIAVAILHALLLLSSKR 2afw-a3-m1-cA_2afw-a3-m3-cB Crystal structure of human glutaminyl cyclase in complex with N-acetylhistamine Q16769 Q16769 1.56 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 323 2afm-a3-m1-cA_2afm-a3-m3-cB 2afm-a3-m1-cB_2afm-a3-m2-cA 2afm-a3-m2-cB_2afm-a3-m3-cA 2afo-a3-m1-cA_2afo-a3-m3-cB 2afo-a3-m1-cB_2afo-a3-m2-cA 2afo-a3-m2-cB_2afo-a3-m3-cA 2afs-a3-m1-cA_2afs-a3-m3-cB 2afs-a3-m1-cB_2afs-a3-m2-cA 2afs-a3-m2-cB_2afs-a3-m3-cA 2afu-a3-m1-cA_2afu-a3-m3-cB 2afu-a3-m1-cB_2afu-a3-m2-cA 2afu-a3-m2-cB_2afu-a3-m3-cA 2afw-a3-m1-cB_2afw-a3-m2-cA 2afw-a3-m2-cB_2afw-a3-m3-cA 2afx-a3-m1-cA_2afx-a3-m3-cB 2afx-a3-m1-cB_2afx-a3-m2-cA 2afx-a3-m2-cB_2afx-a3-m3-cA 2afz-a3-m1-cA_2afz-a3-m3-cB 2afz-a3-m1-cB_2afz-a3-m2-cA 2afz-a3-m2-cB_2afz-a3-m3-cA 2zed-a3-m1-cA_2zed-a3-m3-cB 2zed-a3-m1-cB_2zed-a3-m2-cA 2zed-a3-m2-cB_2zed-a3-m3-cA 2zee-a3-m1-cA_2zee-a3-m3-cB 2zee-a3-m1-cB_2zee-a3-m2-cA 2zee-a3-m2-cB_2zee-a3-m3-cA 2zef-a3-m1-cA_2zef-a3-m3-cB 2zef-a3-m1-cB_2zef-a3-m2-cA 2zef-a3-m2-cB_2zef-a3-m3-cA 2zeg-a3-m1-cA_2zeg-a3-m3-cB 2zeg-a3-m1-cB_2zeg-a3-m2-cA 2zeg-a3-m2-cB_2zeg-a3-m3-cA 2zeh-a3-m1-cA_2zeh-a3-m3-cB 2zeh-a3-m1-cB_2zeh-a3-m2-cA 2zeh-a3-m2-cB_2zeh-a3-m3-cA 2zel-a3-m1-cB_2zel-a3-m2-cA 2zel-a3-m2-cB_2zel-a3-m3-cA 2zel-a3-m3-cB_2zel-a3-m1-cA 2zem-a3-m1-cB_2zem-a3-m2-cA 2zem-a3-m2-cB_2zem-a3-m3-cA 2zem-a3-m3-cB_2zem-a3-m1-cA 2zen-a3-m1-cB_2zen-a3-m2-cA 2zen-a3-m2-cB_2zen-a3-m3-cA 2zen-a3-m3-cB_2zen-a3-m1-cA 2zeo-a3-m1-cB_2zeo-a3-m2-cA 2zeo-a3-m2-cB_2zeo-a3-m3-cA 2zeo-a3-m3-cB_2zeo-a3-m1-cA 2zep-a3-m1-cB_2zep-a3-m2-cA 2zep-a3-m2-cB_2zep-a3-m3-cA 2zep-a3-m3-cB_2zep-a3-m1-cA ASAWPEEKNYHQPAILNSSALRQIAEGTSISEMWQNDLQPLLIERYPGSPGSYAARQHIMQRIQRLQADWVLEIDTFLSQTPYGYRSFSNIISTLNPTAKRHLVLACHYDSKYFSHWNNRVFVGATDSAVPCAMMLELARALDKKLLSLKPDLSLQLIFFDGEEAFLHWSPQDSLYGSRHLAAKMASTPHPPGARGTSQLHGMDLLVLLDLIGAPNPTFPNFFPNSARWFERLQAIEHELHELGLLKDHSLEGRYFQNYSYGGVIQDDHIPFLRRGVPVLHLIPSPFPEVWHTMDDNEENLDESTIDNLNKILQVFVLEYLHL ASAWPEEKNYHQPAILNSSALRQIAEGTSISEMWQNDLQPLLIERYPGSPGSYAARQHIMQRIQRLQADWVLEIDTFLSQTPYGYRSFSNIISTLNPTAKRHLVLACHYDSKYFSHWNNRVFVGATDSAVPCAMMLELARALDKKLLSLKPDLSLQLIFFDGEEAFLHWSPQDSLYGSRHLAAKMASTPHPPGARGTSQLHGMDLLVLLDLIGAPNPTFPNFFPNSARWFERLQAIEHELHELGLLKDHSLEGRYFQNYSYGGVIQDDHIPFLRRGVPVLHLIPSPFPEVWHTMDDNEENLDESTIDNLNKILQVFVLEYLHL 2afw-a3-m2-cB_2afw-a3-m3-cB Crystal structure of human glutaminyl cyclase in complex with N-acetylhistamine Q16769 Q16769 1.56 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 323 2afm-a3-m1-cA_2afm-a3-m2-cA 2afm-a3-m1-cA_2afm-a3-m3-cA 2afm-a3-m1-cB_2afm-a3-m2-cB 2afm-a3-m1-cB_2afm-a3-m3-cB 2afm-a3-m2-cA_2afm-a3-m3-cA 2afm-a3-m2-cB_2afm-a3-m3-cB 2afo-a3-m1-cA_2afo-a3-m2-cA 2afo-a3-m1-cA_2afo-a3-m3-cA 2afo-a3-m1-cB_2afo-a3-m2-cB 2afo-a3-m1-cB_2afo-a3-m3-cB 2afo-a3-m2-cA_2afo-a3-m3-cA 2afo-a3-m2-cB_2afo-a3-m3-cB 2afs-a3-m1-cA_2afs-a3-m2-cA 2afs-a3-m1-cA_2afs-a3-m3-cA 2afs-a3-m1-cB_2afs-a3-m2-cB 2afs-a3-m1-cB_2afs-a3-m3-cB 2afs-a3-m2-cA_2afs-a3-m3-cA 2afs-a3-m2-cB_2afs-a3-m3-cB 2afu-a3-m1-cA_2afu-a3-m2-cA 2afu-a3-m1-cA_2afu-a3-m3-cA 2afu-a3-m1-cB_2afu-a3-m2-cB 2afu-a3-m1-cB_2afu-a3-m3-cB 2afu-a3-m2-cA_2afu-a3-m3-cA 2afu-a3-m2-cB_2afu-a3-m3-cB 2afw-a3-m1-cA_2afw-a3-m2-cA 2afw-a3-m1-cA_2afw-a3-m3-cA 2afw-a3-m1-cB_2afw-a3-m2-cB 2afw-a3-m1-cB_2afw-a3-m3-cB 2afw-a3-m2-cA_2afw-a3-m3-cA 2afx-a3-m1-cA_2afx-a3-m2-cA 2afx-a3-m1-cA_2afx-a3-m3-cA 2afx-a3-m1-cB_2afx-a3-m2-cB 2afx-a3-m1-cB_2afx-a3-m3-cB 2afx-a3-m2-cA_2afx-a3-m3-cA 2afx-a3-m2-cB_2afx-a3-m3-cB 2afz-a3-m1-cA_2afz-a3-m2-cA 2afz-a3-m1-cA_2afz-a3-m3-cA 2afz-a3-m1-cB_2afz-a3-m2-cB 2afz-a3-m1-cB_2afz-a3-m3-cB 2afz-a3-m2-cA_2afz-a3-m3-cA 2afz-a3-m2-cB_2afz-a3-m3-cB 2zed-a3-m1-cA_2zed-a3-m2-cA 2zed-a3-m1-cA_2zed-a3-m3-cA 2zed-a3-m1-cB_2zed-a3-m2-cB 2zed-a3-m1-cB_2zed-a3-m3-cB 2zed-a3-m2-cA_2zed-a3-m3-cA 2zed-a3-m2-cB_2zed-a3-m3-cB 2zee-a3-m1-cA_2zee-a3-m2-cA 2zee-a3-m1-cA_2zee-a3-m3-cA 2zee-a3-m1-cB_2zee-a3-m2-cB 2zee-a3-m1-cB_2zee-a3-m3-cB 2zee-a3-m2-cA_2zee-a3-m3-cA 2zee-a3-m2-cB_2zee-a3-m3-cB 2zef-a3-m1-cA_2zef-a3-m2-cA 2zef-a3-m1-cA_2zef-a3-m3-cA 2zef-a3-m1-cB_2zef-a3-m2-cB 2zef-a3-m1-cB_2zef-a3-m3-cB 2zef-a3-m2-cA_2zef-a3-m3-cA 2zef-a3-m2-cB_2zef-a3-m3-cB 2zeg-a3-m1-cA_2zeg-a3-m2-cA 2zeg-a3-m1-cA_2zeg-a3-m3-cA 2zeg-a3-m1-cB_2zeg-a3-m2-cB 2zeg-a3-m1-cB_2zeg-a3-m3-cB 2zeg-a3-m2-cA_2zeg-a3-m3-cA 2zeg-a3-m2-cB_2zeg-a3-m3-cB 2zeh-a3-m1-cA_2zeh-a3-m2-cA 2zeh-a3-m1-cA_2zeh-a3-m3-cA 2zeh-a3-m1-cB_2zeh-a3-m2-cB 2zeh-a3-m1-cB_2zeh-a3-m3-cB 2zeh-a3-m2-cA_2zeh-a3-m3-cA 2zeh-a3-m2-cB_2zeh-a3-m3-cB 2zel-a3-m1-cA_2zel-a3-m2-cA 2zel-a3-m1-cA_2zel-a3-m3-cA 2zel-a3-m1-cB_2zel-a3-m2-cB 2zel-a3-m1-cB_2zel-a3-m3-cB 2zel-a3-m2-cA_2zel-a3-m3-cA 2zel-a3-m2-cB_2zel-a3-m3-cB 2zem-a3-m1-cA_2zem-a3-m2-cA 2zem-a3-m1-cA_2zem-a3-m3-cA 2zem-a3-m1-cB_2zem-a3-m2-cB 2zem-a3-m1-cB_2zem-a3-m3-cB 2zem-a3-m2-cA_2zem-a3-m3-cA 2zem-a3-m2-cB_2zem-a3-m3-cB 2zen-a3-m1-cA_2zen-a3-m2-cA 2zen-a3-m1-cA_2zen-a3-m3-cA 2zen-a3-m1-cB_2zen-a3-m2-cB 2zen-a3-m1-cB_2zen-a3-m3-cB 2zen-a3-m2-cA_2zen-a3-m3-cA 2zen-a3-m2-cB_2zen-a3-m3-cB 2zeo-a3-m1-cA_2zeo-a3-m2-cA 2zeo-a3-m1-cA_2zeo-a3-m3-cA 2zeo-a3-m1-cB_2zeo-a3-m2-cB 2zeo-a3-m1-cB_2zeo-a3-m3-cB 2zeo-a3-m2-cA_2zeo-a3-m3-cA 2zeo-a3-m2-cB_2zeo-a3-m3-cB 2zep-a3-m1-cA_2zep-a3-m2-cA 2zep-a3-m1-cA_2zep-a3-m3-cA 2zep-a3-m1-cB_2zep-a3-m2-cB 2zep-a3-m1-cB_2zep-a3-m3-cB 2zep-a3-m2-cA_2zep-a3-m3-cA 2zep-a3-m2-cB_2zep-a3-m3-cB 3pbe-a3-m1-cA_3pbe-a3-m2-cA 3pbe-a3-m1-cA_3pbe-a3-m3-cA 3pbe-a3-m2-cA_3pbe-a3-m3-cA 3pbe-a4-m1-cB_3pbe-a4-m2-cB 3pbe-a4-m1-cB_3pbe-a4-m3-cB 3pbe-a4-m2-cB_3pbe-a4-m3-cB ASAWPEEKNYHQPAILNSSALRQIAEGTSISEMWQNDLQPLLIERYPGSPGSYAARQHIMQRIQRLQADWVLEIDTFLSQTPYGYRSFSNIISTLNPTAKRHLVLACHYDSKYFSHWNNRVFVGATDSAVPCAMMLELARALDKKLLSLKPDLSLQLIFFDGEEAFLHWSPQDSLYGSRHLAAKMASTPHPPGARGTSQLHGMDLLVLLDLIGAPNPTFPNFFPNSARWFERLQAIEHELHELGLLKDHSLEGRYFQNYSYGGVIQDDHIPFLRRGVPVLHLIPSPFPEVWHTMDDNEENLDESTIDNLNKILQVFVLEYLHL ASAWPEEKNYHQPAILNSSALRQIAEGTSISEMWQNDLQPLLIERYPGSPGSYAARQHIMQRIQRLQADWVLEIDTFLSQTPYGYRSFSNIISTLNPTAKRHLVLACHYDSKYFSHWNNRVFVGATDSAVPCAMMLELARALDKKLLSLKPDLSLQLIFFDGEEAFLHWSPQDSLYGSRHLAAKMASTPHPPGARGTSQLHGMDLLVLLDLIGAPNPTFPNFFPNSARWFERLQAIEHELHELGLLKDHSLEGRYFQNYSYGGVIQDDHIPFLRRGVPVLHLIPSPFPEVWHTMDDNEENLDESTIDNLNKILQVFVLEYLHL 2afw-a3-m3-cA_2afw-a3-m3-cB Crystal structure of human glutaminyl cyclase in complex with N-acetylhistamine Q16769 Q16769 1.56 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 323 2afm-a3-m1-cA_2afm-a3-m1-cB 2afm-a3-m2-cA_2afm-a3-m2-cB 2afm-a3-m3-cA_2afm-a3-m3-cB 2afo-a3-m1-cA_2afo-a3-m1-cB 2afo-a3-m2-cA_2afo-a3-m2-cB 2afo-a3-m3-cA_2afo-a3-m3-cB 2afs-a3-m1-cA_2afs-a3-m1-cB 2afs-a3-m2-cA_2afs-a3-m2-cB 2afs-a3-m3-cA_2afs-a3-m3-cB 2afu-a3-m1-cA_2afu-a3-m1-cB 2afu-a3-m2-cA_2afu-a3-m2-cB 2afu-a3-m3-cA_2afu-a3-m3-cB 2afw-a3-m1-cA_2afw-a3-m1-cB 2afw-a3-m2-cA_2afw-a3-m2-cB 2afx-a3-m1-cA_2afx-a3-m1-cB 2afx-a3-m2-cA_2afx-a3-m2-cB 2afx-a3-m3-cA_2afx-a3-m3-cB 2afz-a3-m1-cA_2afz-a3-m1-cB 2afz-a3-m2-cA_2afz-a3-m2-cB 2afz-a3-m3-cA_2afz-a3-m3-cB 2zed-a3-m1-cA_2zed-a3-m1-cB 2zed-a3-m2-cA_2zed-a3-m2-cB 2zed-a3-m3-cA_2zed-a3-m3-cB 2zee-a3-m1-cA_2zee-a3-m1-cB 2zee-a3-m2-cA_2zee-a3-m2-cB 2zee-a3-m3-cA_2zee-a3-m3-cB 2zef-a3-m1-cA_2zef-a3-m1-cB 2zef-a3-m2-cA_2zef-a3-m2-cB 2zef-a3-m3-cA_2zef-a3-m3-cB 2zeg-a3-m1-cA_2zeg-a3-m1-cB 2zeg-a3-m2-cA_2zeg-a3-m2-cB 2zeg-a3-m3-cA_2zeg-a3-m3-cB 2zeh-a3-m1-cA_2zeh-a3-m1-cB 2zeh-a3-m2-cA_2zeh-a3-m2-cB 2zeh-a3-m3-cA_2zeh-a3-m3-cB 2zel-a3-m1-cB_2zel-a3-m1-cA 2zel-a3-m2-cB_2zel-a3-m2-cA 2zel-a3-m3-cB_2zel-a3-m3-cA 2zem-a3-m1-cB_2zem-a3-m1-cA 2zem-a3-m2-cB_2zem-a3-m2-cA 2zem-a3-m3-cB_2zem-a3-m3-cA 2zen-a3-m1-cB_2zen-a3-m1-cA 2zen-a3-m2-cB_2zen-a3-m2-cA 2zen-a3-m3-cB_2zen-a3-m3-cA 2zeo-a3-m1-cB_2zeo-a3-m1-cA 2zeo-a3-m2-cB_2zeo-a3-m2-cA 2zeo-a3-m3-cB_2zeo-a3-m3-cA 2zep-a3-m1-cB_2zep-a3-m1-cA 2zep-a3-m2-cB_2zep-a3-m2-cA 2zep-a3-m3-cB_2zep-a3-m3-cA ASAWPEEKNYHQPAILNSSALRQIAEGTSISEMWQNDLQPLLIERYPGSPGSYAARQHIMQRIQRLQADWVLEIDTFLSQTPYGYRSFSNIISTLNPTAKRHLVLACHYDSKYFSHWNNRVFVGATDSAVPCAMMLELARALDKKLLSLKPDLSLQLIFFDGEEAFLHWSPQDSLYGSRHLAAKMASTPHPPGARGTSQLHGMDLLVLLDLIGAPNPTFPNFFPNSARWFERLQAIEHELHELGLLKDHSLEGRYFQNYSYGGVIQDDHIPFLRRGVPVLHLIPSPFPEVWHTMDDNEENLDESTIDNLNKILQVFVLEYLHL ASAWPEEKNYHQPAILNSSALRQIAEGTSISEMWQNDLQPLLIERYPGSPGSYAARQHIMQRIQRLQADWVLEIDTFLSQTPYGYRSFSNIISTLNPTAKRHLVLACHYDSKYFSHWNNRVFVGATDSAVPCAMMLELARALDKKLLSLKPDLSLQLIFFDGEEAFLHWSPQDSLYGSRHLAAKMASTPHPPGARGTSQLHGMDLLVLLDLIGAPNPTFPNFFPNSARWFERLQAIEHELHELGLLKDHSLEGRYFQNYSYGGVIQDDHIPFLRRGVPVLHLIPSPFPEVWHTMDDNEENLDESTIDNLNKILQVFVLEYLHL 2ag3-a1-m2-cA_2ag3-a1-m4-cA Heterocyclic Peptide Backbone Modification in Gcn4-pLI Based Coiled Coils: Substitution of the K(15)-L(16) amide with a triazole 2 X-RAY DIFFRACTION 29 1.0 24 24 1u9f-a1-m1-cC_1u9f-a1-m1-cD 1u9f-a1-m1-cC_1u9f-a1-m2-cD 1u9f-a1-m2-cC_1u9f-a1-m1-cD 1u9f-a1-m2-cC_1u9f-a1-m2-cD 1u9f-a2-m1-cA_1u9f-a2-m1-cB 1u9f-a2-m1-cA_1u9f-a2-m3-cB 1u9f-a2-m3-cA_1u9f-a2-m1-cB 1u9f-a2-m3-cA_1u9f-a2-m3-cB 1u9f-a3-m1-cC_1u9f-a3-m1-cD 1u9f-a3-m1-cC_1u9f-a3-m2-cD 1u9f-a3-m2-cC_1u9f-a3-m1-cD 1u9f-a3-m2-cC_1u9f-a3-m2-cD 2ag3-a1-m1-cA_2ag3-a1-m3-cA 2ag3-a1-m1-cA_2ag3-a1-m4-cA 2ag3-a1-m2-cA_2ag3-a1-m3-cA IEDKLEEILSYHIENELARIKKLL IEDKLEEILSYHIENELARIKKLL 2ag5-a1-m1-cC_2ag5-a1-m1-cD Crystal Structure of Human DHRS6 Q9BUT1 Q9BUT1 1.84 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 2ag5-a1-m1-cB_2ag5-a1-m1-cA GRLDGKVIILTAAAQGIGQAAALAFAREGAKVIATDINESKLQELEKYPGIQTRVLDVTKKKQIDQFANEVERLDVLFNVAGFVHHGTVLDCEEKDWDFSMNLNVRSMYLMIKAFLPKMLAQKSGNIINMSSVASSVKGVVNRCVYSTTKAAVIGLTKSVAADFIQQGIRCNCVCPGTVDTPSLQERIQARGNPEEARNDFLKRQKTGRFATAEEIAMLCVYLASDESAYVTGNPVIIDGGWSL GRLDGKVIILTAAAQGIGQAAALAFAREGAKVIATDINESKLQELEKYPGIQTRVLDVTKKKQIDQFANEVERLDVLFNVAGFVHHGTVLDCEEKDWDFSMNLNVRSMYLMIKAFLPKMLAQKSGNIINMSSVASSVKGVVNRCVYSTTKAAVIGLTKSVAADFIQQGIRCNCVCPGTVDTPSLQERIQARGNPEEARNDFLKRQKTGRFATAEEIAMLCVYLASDESAYVTGNPVIIDGGWSL 2ag5-a1-m1-cD_2ag5-a1-m1-cA Crystal Structure of Human DHRS6 Q9BUT1 Q9BUT1 1.84 X-RAY DIFFRACTION 142 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 246 2ag5-a1-m1-cC_2ag5-a1-m1-cB GRLDGKVIILTAAAQGIGQAAALAFAREGAKVIATDINESKLQELEKYPGIQTRVLDVTKKKQIDQFANEVERLDVLFNVAGFVHHGTVLDCEEKDWDFSMNLNVRSMYLMIKAFLPKMLAQKSGNIINMSSVASSVKGVVNRCVYSTTKAAVIGLTKSVAADFIQQGIRCNCVCPGTVDTPSLQERIQARGNPEEARNDFLKRQKTGRFATAEEIAMLCVYLASDESAYVTGNPVIIDGGWSL MGRLDGKVIILTAAAQGIGQAAALAFAREGAKVIATDINESKLQELEKYPGIQTRVLDVTKKKQIDQFANEVERLDVLFNVAGFVHHGTVLDCEEKDWDFSMNLNVRSMYLMIKAFLPKMLAQKSGNIINMSSVASSVKGVVNRCVYSTTKAAVIGLTKSVAADFIQQGIRCNCVCPGTVDTPSLQERIQARGNPEEARNDFLKRQKTGRFATAEEIAMLCVYLASDESAYVTGNPVIIDGGWSLG 2agv-a1-m1-cA_2agv-a1-m1-cB Crystal structure of the SR CA2+-ATPASE with BHQ and TG P04191 P04191 2.4 X-RAY DIFFRACTION 27 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 994 994 1iwo-a1-m1-cA_1iwo-a1-m1-cB MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG 2agy-a1-m1-cA_2agy-a1-m1-cB Crystal structure of the Schiff base intermediate in the reductive half-reaction of aromatic amine dehydrogenase (AADH) with tryptamine. Monoclinic form P84888 P84888 1.1 X-RAY DIFFRACTION 31 1.0 511 (Alcaligenes faecalis) 511 (Alcaligenes faecalis) 360 361 2agl-a1-m1-cA_2agl-a1-m1-cB 2agw-a1-m1-cA_2agw-a1-m1-cB 2agx-a1-m1-cA_2agx-a1-m1-cB 2agz-a1-m1-cA_2agz-a1-m1-cB 2agz-a2-m1-cA_2agz-a2-m1-cB 2agz-a2-m2-cA_2agz-a2-m2-cB 2agz-a2-m3-cA_2agz-a2-m3-cB 2agz-a2-m4-cA_2agz-a2-m4-cB 2ah0-a1-m1-cA_2ah0-a1-m1-cB 2ah1-a1-m1-cA_2ah1-a1-m1-cB 2h3x-a1-m1-cA_2h3x-a1-m1-cD 2h47-a5-m1-cA_2h47-a5-m1-cD 2h47-a6-m1-cF_2h47-a6-m1-cH 2hj4-a1-m1-cA_2hj4-a1-m1-cB 2hjb-a1-m1-cA_2hjb-a1-m1-cB 2hkm-a1-m1-cA_2hkm-a1-m1-cB 2hkr-a1-m1-cA_2hkr-a1-m1-cB 2hxc-a1-m1-cA_2hxc-a1-m1-cB 2i0r-a1-m1-cA_2i0r-a1-m1-cB 2i0s-a1-m1-cA_2i0s-a1-m1-cB 2i0t-a1-m1-cA_2i0t-a1-m1-cB 2iaa-a3-m1-cA_2iaa-a3-m1-cD 2iup-a1-m1-cA_2iup-a1-m1-cB 2iuq-a1-m1-cA_2iuq-a1-m1-cB 2iur-a1-m1-cA_2iur-a1-m1-cB 2iuv-a1-m1-cB_2iuv-a1-m1-cA 2oiz-a1-m1-cA_2oiz-a1-m1-cB 2ojy-a1-m1-cA_2ojy-a1-m1-cB 2ok4-a1-m1-cA_2ok4-a1-m1-cB 2ok6-a1-m1-cA_2ok6-a1-m1-cB 2q7q-a1-m1-cA_2q7q-a1-m1-cB REVLTGGHSVSAPQENRIYVMDSVFMHLTESRVHVYDYTNGKFLGMVPTAFNGHVQVSNDGKKIYTMTTYHERITRGKRSDVVEVWDADKLTFEKEISLPPKRVQGLNYDGLFRQTTDGKFIVLQNASPATSIGIVDVAKGDYVEDVTAAAGCWSVIPQPNRPRSFMTICGDGGLLTINLGEDGKVASQSRSKQMFSVKDDPIFIAPALDKDKAHFVSYYGNVYSADFSGDEVKVDGPWSLLNDEDKAKNWVPGGYNLVGLHRASGRMYVFMHPDGKEGTHKFPAAEIWVMDTKTKQRVARIPGRDALSMTIDQQRNLMLTLDGGNVNVYDISQPEPKLLRTIEGAAEASLQVQFHPVGG REVLTGGHSVSAPQENRIYVMDSVFMHLTESRVHVYDYTNGKFLGMVPTAFNGHVQVSNDGKKIYTMTTYHERITRGKRSDVVEVWDADKLTFEKEISLPPKRVQGLNYDGLFRQTTDGKFIVLQNASPATSIGIVDVAKGDYVEDVTAAAGCWSVIPQPNRPRSFMTICGDGGLLTINLGEDGKVASQSRSKQMFSVKDDPIFIAPALDKDKAHFVSYYGNVYSADFSGDEVKVDGPWSLLNDEDKAKNWVPGGYNLVGLHRASGRMYVFMHPDGKEGTHKFPAAEIWVMDTKTKQRVARIPGRDALSMTIDQQRNLMLTLDGGNVNVYDISQPEPKLLRTIEGAAEASLQVQFHPVGGT 2agz-a2-m1-cH_2agz-a2-m4-cH Crystal structure of the carbinolamine intermediate in the reductive half-reaction of aromatic amine dehydrogenase (AADH) with tryptamine. F222 form P84887 P84887 1.6 X-RAY DIFFRACTION 25 1.0 511 (Alcaligenes faecalis) 511 (Alcaligenes faecalis) 114 114 2agz-a2-m1-cD_2agz-a2-m2-cD 2agz-a2-m2-cH_2agz-a2-m3-cH 2agz-a2-m3-cD_2agz-a2-m4-cD NEDEVNSCDYWRHCAVDGFLCSCCGGTTTTCPPGSTPSPISIGTCHNPHDGKDYLISYHDCCGKTACGRCQCNTQTRERPGYEFFLHNDVNWCMANENSTFHCTTSVLVGLAKN NEDEVNSCDYWRHCAVDGFLCSCCGGTTTTCPPGSTPSPISIGTCHNPHDGKDYLISYHDCCGKTACGRCQCNTQTRERPGYEFFLHNDVNWCMANENSTFHCTTSVLVGLAKN 2ah6-a1-m1-cA_2ah6-a1-m1-cC Crystal structure of a putative cobalamin adenosyltransferase (bh1595) from bacillus halodurans c-125 at 1.60 A resolution Q9KCH6 Q9KCH6 1.6 X-RAY DIFFRACTION 61 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 150 161 2ah6-a1-m1-cA_2ah6-a1-m1-cB DTRVVAYGTTDELNSFVGSAITQLDENTFADIRGELFKIQHELFDCGGDLALPYKAKQEIVDFLEQRIDAYIKEAPELERFILPGGSEAAASLHVCRTIARRAERYVVRLQQEGEINPIVLKYLNRLSDYFFAVARVVNSRLQVPDVEYE DDTRVVAYGTTDELNSFVGSAITQLDENTFADIRGELFKIQHELFDCGGDLALKVKEDRPYKAKQEIVDFLEQRIDAYIKEAPELERFILPGGSEAAASLHVCRTIARRAERYVVRLQQEGEINPIVLKYLNRLSDYFFAVARVVNSRLQVPDVEYERSAI 2ahb-a2-m1-cB_2ahb-a2-m2-cB X-ray crystal structure of R46A,R161A mutant of Mycobacterium tuberculosis FabH P9WNG3 P9WNG3 2 X-RAY DIFFRACTION 58 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 334 334 MTEIATTSGARSVGLLSVGAYRPERVVTNDEICQHIDSSDEWIYTATGIKTRRFAADDESAASMATEACRRALSNAGLSAADIDGVIVTTNTHFLQTPPAAPMVAASLGAKGILGFDLSAGCAGFGYALGAAADMIRGGGAATMLVVGTEKLSPTIDMYDAGNCFIFADGAAAVVVGETPFQGIGPTVAGSDGEQADAIRQDIDWITFAQNPSGPRPFVRLEGPAVFRWAAFKMGDVGRRAMDAAGVRPDQIDVFVPHQANSRINELLVKNLQLRPDAVVANDIEHTGNTSAASIPLAMAELLTTGAAKPGDLALLIGYGAGLSYAAQVVRMPK MTEIATTSGARSVGLLSVGAYRPERVVTNDEICQHIDSSDEWIYTATGIKTRRFAADDESAASMATEACRRALSNAGLSAADIDGVIVTTNTHFLQTPPAAPMVAASLGAKGILGFDLSAGCAGFGYALGAAADMIRGGGAATMLVVGTEKLSPTIDMYDAGNCFIFADGAAAVVVGETPFQGIGPTVAGSDGEQADAIRQDIDWITFAQNPSGPRPFVRLEGPAVFRWAAFKMGDVGRRAMDAAGVRPDQIDVFVPHQANSRINELLVKNLQLRPDAVVANDIEHTGNTSAASIPLAMAELLTTGAAKPGDLALLIGYGAGLSYAAQVVRMPK 2ahd-a5-m2-cC_2ahd-a5-m2-cD The Apo structure of Methanococcus jannaschii phosphodiesterase MJ0936 Q58346 Q58346 3 X-RAY DIFFRACTION 31 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 165 165 1s3n-a3-m1-cA_1s3n-a3-m1-cB 1s3n-a3-m2-cA_1s3n-a3-m2-cB 2ahd-a5-m1-cA_2ahd-a5-m1-cB MKIGIMSDTHDHLPNIRKAIEIFNDENVETVIHCGDFVSLFVIKEFENLNANIIATYGNNDGERCKLKEWLKDINEENIIDDFISVEIDDLKFFITHGHHQSVLEMAIKSGLYDVVIYGHTHERVFEEVDDVLVINPGECCGYLTGIPTIGILDTEKKEYREIVL MKIGIMSDTHDHLPNIRKAIEIFNDENVETVIHCGDFVSLFVIKEFENLNANIIATYGNNDGERCKLKEWLKDINEENIIDDFISVEIDDLKFFITHGHHQSVLEMAIKSGLYDVVIYGHTHERVFEEVDDVLVINPGECCGYLTGIPTIGILDTEKKEYREIVL 2ahm-a1-m1-cF_2ahm-a1-m2-cF Crystal structure of SARS-CoV super complex of non-structural proteins: the hexadecamer P0C6X7 P0C6X7 2.4 X-RAY DIFFRACTION 53 1.0 143 143 2ahm-a1-m1-cE_2ahm-a1-m2-cE DRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN DRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN 2ahm-a1-m1-cF_2ahm-a1-m2-cH Crystal structure of SARS-CoV super complex of non-structural proteins: the hexadecamer P0C6X7 P0C6X7 2.4 X-RAY DIFFRACTION 25 1.0 143 191 2ahm-a1-m1-cE_2ahm-a1-m2-cG 2ahm-a1-m2-cE_2ahm-a1-m1-cG 2ahm-a1-m2-cF_2ahm-a1-m1-cH DRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN IASEFSSLPSYAAYATAQEAYEQAVANGDSEVVLKKLKKSLNVAKSEFDRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN 2ahm-a1-m2-cC_2ahm-a1-m2-cB Crystal structure of SARS-CoV super complex of non-structural proteins: the hexadecamer P0C6X7 P0C6X7 2.4 X-RAY DIFFRACTION 12 1.0 74 77 2ahm-a1-m1-cC_2ahm-a1-m1-cB 2ahm-a1-m1-cD_2ahm-a1-m1-cA 2ahm-a1-m2-cD_2ahm-a1-m2-cA 6wiq-a1-m1-cA_6wiq-a1-m2-cA 6wqd-a1-m1-cC_6wqd-a1-m1-cA 6wtc-a1-m1-cA_6wtc-a1-m2-cC 6xip-a1-m1-cA_6xip-a1-m2-cC 7jlt-a1-m1-cA_7jlt-a1-m1-cC SSKMSDVKCTSVVLLSVLQQLRVESSSKLWAQCVQLHNDILLAKDTTEAFEKMVSLLSVLLSMQGAVDINRLCE LGSSKMSDVKCTSVVLLSVLQQLRVESSSKLWAQCVQLHNDILLAKDTTEAFEKMVSLLSVLLSMQGAVDINRLCEE 2ahm-a1-m2-cE_2ahm-a1-m2-cH Crystal structure of SARS-CoV super complex of non-structural proteins: the hexadecamer P0C6X7 P0C6X7 2.4 X-RAY DIFFRACTION 19 1.0 155 191 2ahm-a1-m1-cE_2ahm-a1-m1-cH LKKSLNVAKSEFDRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN IASEFSSLPSYAAYATAQEAYEQAVANGDSEVVLKKLKKSLNVAKSEFDRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN 2ahm-a1-m2-cF_2ahm-a1-m2-cH Crystal structure of SARS-CoV super complex of non-structural proteins: the hexadecamer P0C6X7 P0C6X7 2.4 X-RAY DIFFRACTION 18 1.0 143 191 2ahm-a1-m1-cE_2ahm-a1-m1-cG 2ahm-a1-m1-cF_2ahm-a1-m1-cH 2ahm-a1-m2-cE_2ahm-a1-m2-cG DRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN IASEFSSLPSYAAYATAQEAYEQAVANGDSEVVLKKLKKSLNVAKSEFDRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN 2ahm-a1-m2-cG_2ahm-a1-m2-cH Crystal structure of SARS-CoV super complex of non-structural proteins: the hexadecamer P0C6X7 P0C6X7 2.4 X-RAY DIFFRACTION 27 0.995 191 191 2ahm-a1-m1-cG_2ahm-a1-m1-cH AIASEFSSLPSYAAYATAQEAYEQAVANGDSEVVLKKLKKSLNVAKSEFDRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRA IASEFSSLPSYAAYATAQEAYEQAVANGDSEVVLKKLKKSLNVAKSEFDRDAAMQRKLEKMADQAMTQMYKQARSEDKRAKVTSAMQTMLFTMLRKLDNDALNNIINNARDGCVPLNIIPLTTAAKLMVVVPDYGTYKNTCDGNTFTYASALWEIQQVVDADSKIVQLSEINMDNSPNLAWPLIVTALRAN 2ahr-a1-m2-cA_2ahr-a1-m2-cB Crystal Structures of 1-Pyrroline-5-Carboxylate Reductase from Human Pathogen Streptococcus pyogenes Q9A1S9 Q9A1S9 2.15 X-RAY DIFFRACTION 20 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 250 250 2ahr-a1-m1-cA_2ahr-a1-m1-cB 2ahr-a1-m1-cA_2ahr-a1-m2-cE 2ahr-a1-m1-cC_2ahr-a1-m1-cD 2ahr-a1-m1-cC_2ahr-a1-m2-cB 2ahr-a1-m1-cD_2ahr-a1-m1-cE 2ahr-a1-m2-cA_2ahr-a1-m1-cE 2ahr-a1-m2-cC_2ahr-a1-m1-cB 2ahr-a1-m2-cC_2ahr-a1-m2-cD 2ahr-a1-m2-cD_2ahr-a1-m2-cE 2amf-a1-m1-cA_2amf-a1-m1-cB 2amf-a1-m1-cA_2amf-a1-m2-cE 2amf-a1-m1-cC_2amf-a1-m1-cD 2amf-a1-m1-cC_2amf-a1-m2-cB 2amf-a1-m1-cD_2amf-a1-m1-cE 2amf-a1-m2-cA_2amf-a1-m1-cE 2amf-a1-m2-cA_2amf-a1-m2-cB 2amf-a1-m2-cC_2amf-a1-m1-cB 2amf-a1-m2-cC_2amf-a1-m2-cD 2amf-a1-m2-cD_2amf-a1-m2-cE AKIGIIGVGKASAIIKGLKQTPHELIISGSSLERSKEIAEQLALPYASHQDLIDQVDLVILGIKPQLFETVLKPLHFKQPIISAAGISLQRLATFVGQDLPLLRIPNNAQILQSSTALTGNALVSQELQARVRDLTDSFGSTFDISEKDFDTFTALAGSSPAYIYLFIEALAKAGVKNGIPKAKALEIVTQTVLASASNLKTSSQSPHDFIDAICSPGGTTIAGLELERLGLTATVSSAIDKTIDKAKSL AKIGIIGVGKASAIIKGLKQTPHELIISGSSLERSKEIAEQLALPYASHQDLIDQVDLVILGIKPQLFETVLKPLHFKQPIISAAGISLQRLATFVGQDLPLLRIPNNAQILQSSTALTGNALVSQELQARVRDLTDSFGSTFDISEKDFDTFTALAGSSPAYIYLFIEALAKAGVKNGIPKAKALEIVTQTVLASASNLKTSSQSPHDFIDAICSPGGTTIAGLELERLGLTATVSSAIDKTIDKAKSL 2ahr-a3-m1-cC_2ahr-a3-m1-cB Crystal Structures of 1-Pyrroline-5-Carboxylate Reductase from Human Pathogen Streptococcus pyogenes Q9A1S9 Q9A1S9 2.15 X-RAY DIFFRACTION 375 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 249 250 2ahr-a1-m1-cA_2ahr-a1-m1-cD 2ahr-a1-m1-cC_2ahr-a1-m1-cB 2ahr-a1-m1-cE_2ahr-a1-m2-cE 2ahr-a1-m2-cA_2ahr-a1-m2-cD 2ahr-a1-m2-cC_2ahr-a1-m2-cB 2ahr-a2-m1-cA_2ahr-a2-m1-cD 2ahr-a4-m1-cE_2ahr-a4-m2-cE 2amf-a1-m1-cA_2amf-a1-m1-cD 2amf-a1-m1-cC_2amf-a1-m1-cB 2amf-a1-m1-cE_2amf-a1-m2-cE 2amf-a1-m2-cA_2amf-a1-m2-cD 2amf-a1-m2-cC_2amf-a1-m2-cB KIGIIGVGKASAIIKGLKQTPHELIISGSSLERSKEIAEQLALPYASHQDLIDQVDLVILGIKPQLFETVLKPLHFKQPIISAAGISLQRLATFVGQDLPLLRIPNNAQILQSSTALTGNALVSQELQARVRDLTDSFGSTFDISEKDFDTFTALAGSSPAYIYLFIEALAKAGVKNGIPKAKALEIVTQTVLASASNLKTSSQSPHDFIDAICSPGGTTIAGLELERLGLTATVSSAIDKTIDKAKSL AKIGIIGVGKASAIIKGLKQTPHELIISGSSLERSKEIAEQLALPYASHQDLIDQVDLVILGIKPQLFETVLKPLHFKQPIISAAGISLQRLATFVGQDLPLLRIPNNAQILQSSTALTGNALVSQELQARVRDLTDSFGSTFDISEKDFDTFTALAGSSPAYIYLFIEALAKAGVKNGIPKAKALEIVTQTVLASASNLKTSSQSPHDFIDAICSPGGTTIAGLELERLGLTATVSSAIDKTIDKAKSL 2ahv-a1-m1-cA_2ahv-a1-m1-cD Crystal Structure of Acyl-CoA transferase from E. coli O157:H7 (YdiF)-thioester complex with CoA- 1 Q8X5X6 Q8X5X6 2 X-RAY DIFFRACTION 158 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 512 512 2ahu-a1-m1-cA_2ahu-a1-m1-cD 2ahu-a1-m1-cB_2ahu-a1-m1-cC 2ahv-a1-m1-cB_2ahv-a1-m1-cC 2ahw-a1-m1-cA_2ahw-a1-m1-cB 2ahw-a1-m1-cD_2ahw-a1-m1-cC VKPPRINGRVPVLSAQEAVNYIPDEATLCVLGAGGGILEATTLITALADKYKQTQTPRNLSIISPTGLGDRADRGISPLAQEGLVKWALCGHWGQSPRISDLAEQNKIIAYNYPQGVLTQTLRAAAAHQPGIISDIGIGTFVDPRQQGGKLNEVTKEDLIKLVEFDNKEYLYYKAIAPDIAFIRATTCDSEGYATFEDEVMYLDALVIAQAVHNNGGIVMMQVQKMVKKATLHPKSVRIPGYLVDIVVVDPDQSQLYGGAPVNRFISGDFTLDPLNQRKLVARRALFEMRKGAVGNVGVGIADGIGLVAREEGCADDFILTVETGPIGGITANVNTRAILDMTSQFDFYHGGGLDVCYLSFAEVDQHGNVGVHKFNGKIMGTGGFIDISATSKKIIFCGTLTAGSLKTEIADGKLNIVQEGRVKKFIRELPEITFSGKIALERGLDVRYITERAVFTLKEDGLHLIEIAPGVDLQKDILDKMDFTPVISPELKLMDERLFIDAAMGFVLPEA VKPPRINGRVPVLSAQEAVNYIPDEATLCVLGAGGGILEATTLITALADKYKQTQTPRNLSIISPTGLGDRADRGISPLAQEGLVKWALCGHWGQSPRISDLAEQNKIIAYNYPQGVLTQTLRAAAAHQPGIISDIGIGTFVDPRQQGGKLNEVTKEDLIKLVEFDNKEYLYYKAIAPDIAFIRATTCDSEGYATFEDEVMYLDALVIAQAVHNNGGIVMMQVQKMVKKATLHPKSVRIPGYLVDIVVVDPDQSQLYGGAPVNRFISGDFTLDPLNQRKLVARRALFEMRKGAVGNVGVGIADGIGLVAREEGCADDFILTVETGPIGGITANVNTRAILDMTSQFDFYHGGGLDVCYLSFAEVDQHGNVGVHKFNGKIMGTGGFIDISATSKKIIFCGTLTAGSLKTEIADGKLNIVQEGRVKKFIRELPEITFSGKIALERGLDVRYITERAVFTLKEDGLHLIEIAPGVDLQKDILDKMDFTPVISPELKLMDERLFIDAAMGFVLPEA 2ahv-a1-m1-cC_2ahv-a1-m1-cD Crystal Structure of Acyl-CoA transferase from E. coli O157:H7 (YdiF)-thioester complex with CoA- 1 Q8X5X6 Q8X5X6 2 X-RAY DIFFRACTION 38 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 512 512 2ahu-a1-m1-cA_2ahu-a1-m1-cC 2ahu-a1-m1-cB_2ahu-a1-m1-cD 2ahv-a1-m1-cA_2ahv-a1-m1-cB 2ahw-a1-m1-cB_2ahw-a1-m1-cC 2ahw-a1-m1-cD_2ahw-a1-m1-cA VKPPRINGRVPVLSAQEAVNYIPDEATLCVLGAGGGILEATTLITALADKYKQTQTPRNLSIISPTGLGDRADRGISPLAQEGLVKWALCGHWGQSPRISDLAEQNKIIAYNYPQGVLTQTLRAAAAHQPGIISDIGIGTFVDPRQQGGKLNEVTKEDLIKLVEFDNKEYLYYKAIAPDIAFIRATTCDSEGYATFEDEVMYLDALVIAQAVHNNGGIVMMQVQKMVKKATLHPKSVRIPGYLVDIVVVDPDQSQLYGGAPVNRFISGDFTLDPLNQRKLVARRALFEMRKGAVGNVGVGIADGIGLVAREEGCADDFILTVETGPIGGITANVNTRAILDMTSQFDFYHGGGLDVCYLSFAEVDQHGNVGVHKFNGKIMGTGGFIDISATSKKIIFCGTLTAGSLKTEIADGKLNIVQEGRVKKFIRELPEITFSGKIALERGLDVRYITERAVFTLKEDGLHLIEIAPGVDLQKDILDKMDFTPVISPELKLMDERLFIDAAMGFVLPEA VKPPRINGRVPVLSAQEAVNYIPDEATLCVLGAGGGILEATTLITALADKYKQTQTPRNLSIISPTGLGDRADRGISPLAQEGLVKWALCGHWGQSPRISDLAEQNKIIAYNYPQGVLTQTLRAAAAHQPGIISDIGIGTFVDPRQQGGKLNEVTKEDLIKLVEFDNKEYLYYKAIAPDIAFIRATTCDSEGYATFEDEVMYLDALVIAQAVHNNGGIVMMQVQKMVKKATLHPKSVRIPGYLVDIVVVDPDQSQLYGGAPVNRFISGDFTLDPLNQRKLVARRALFEMRKGAVGNVGVGIADGIGLVAREEGCADDFILTVETGPIGGITANVNTRAILDMTSQFDFYHGGGLDVCYLSFAEVDQHGNVGVHKFNGKIMGTGGFIDISATSKKIIFCGTLTAGSLKTEIADGKLNIVQEGRVKKFIRELPEITFSGKIALERGLDVRYITERAVFTLKEDGLHLIEIAPGVDLQKDILDKMDFTPVISPELKLMDERLFIDAAMGFVLPEA 2ahx-a3-m1-cB_2ahx-a3-m2-cB Crystal structure of ErbB4/HER4 extracellular domain Q15303 Q15303 2.396 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 615 615 RQSVCAGTENKLSSLSDLEQQYRALRKYYENCEVVMGNLEITSIEHNRDLSFLRSVREVTGYVLVALNQFRYLPLENLRIIRGTKLYEDRYALAIFLNYRKDGNFGLQELGLKNLTEILNGGVYVDQNKFLCYADTIHWQDIVRNPWPSNLTLVSTNGSSGCGRCHKSCTGRCWGPTENHCQTLTRTVCAEQCDGRCYGPYVSDCCHRECAGGCSGPKDTDCFACMNFNDSGACVTQCPQTFVYNPTTFQLEHNFNAKYTYGAFCVKKCPHNFVVDSSSCVRACPSSKMEVEENGIKMCKPCTDICPKACDGIGTGSLMSAQTVDSSNIDKFINCTKINGNLIFLVTGIHGDPYNAIEAIDPEKLNVFRTVREITGFLNIQSWPPNMTDFSVFSNLVTIGGRVLYSGLSLLILKQQGITSLQFQSLKEISAGNIYITDNSNLCYYHTINWTTLFSTINQRIVIRDNRKAENCTAEGMVCNHLCSSDGCWGPGPDQCLSCRRFSRGRICIESCNLYDGEFREFENDSICVECDPQCEKMEDGLLTCHGPGPDNCTKCSHFKDGPNCVEKCPDGLQGANSFIFKYADPDRECHPCHPNCTQGCNGPTSHDCIYYPWT RQSVCAGTENKLSSLSDLEQQYRALRKYYENCEVVMGNLEITSIEHNRDLSFLRSVREVTGYVLVALNQFRYLPLENLRIIRGTKLYEDRYALAIFLNYRKDGNFGLQELGLKNLTEILNGGVYVDQNKFLCYADTIHWQDIVRNPWPSNLTLVSTNGSSGCGRCHKSCTGRCWGPTENHCQTLTRTVCAEQCDGRCYGPYVSDCCHRECAGGCSGPKDTDCFACMNFNDSGACVTQCPQTFVYNPTTFQLEHNFNAKYTYGAFCVKKCPHNFVVDSSSCVRACPSSKMEVEENGIKMCKPCTDICPKACDGIGTGSLMSAQTVDSSNIDKFINCTKINGNLIFLVTGIHGDPYNAIEAIDPEKLNVFRTVREITGFLNIQSWPPNMTDFSVFSNLVTIGGRVLYSGLSLLILKQQGITSLQFQSLKEISAGNIYITDNSNLCYYHTINWTTLFSTINQRIVIRDNRKAENCTAEGMVCNHLCSSDGCWGPGPDQCLSCRRFSRGRICIESCNLYDGEFREFENDSICVECDPQCEKMEDGLLTCHGPGPDNCTKCSHFKDGPNCVEKCPDGLQGANSFIFKYADPDRECHPCHPNCTQGCNGPTSHDCIYYPWT 2ai0-a9-m1-cK_2ai0-a9-m1-cI Anti-Cocaine Antibody 7.5.21, Crystal Form III Q6PIP8 Q6PIP8 2.2 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 218 223 2ai0-a10-m1-cH_2ai0-a10-m8-cJ 2ai0-a5-m1-cK_2ai0-a5-m1-cI 2ai0-a5-m2-cH_2ai0-a5-m3-cJ 2ai0-a6-m1-cK_2ai0-a6-m1-cI 2ai0-a6-m4-cH_2ai0-a6-m5-cJ 2ai0-a7-m1-cK_2ai0-a7-m1-cI 2ai0-a7-m6-cH_2ai0-a7-m7-cJ DVKLVESGGGLVKPGGSLRLSCAASGFTFRNYGMSWVRQTPEKRLEWVAAISGNSLYTSYPDSVKGRFTISRDNAKNNLYLQMSSLRSEDTALYFCARHDSPYFFDVWGAGTTVTASSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR DVKLVESGGGLVKPGGSLRLSCAASGFTFRNYGMSWVRQTPEKRLEWVAAISGNSLYTSYPDSVKGRFTISRDNAKNNLYLQMSSLRSEDTALYFCARHDDYYGKSPYFFDVWGAGTTVTASSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR 2ai1-a2-m4-cA_2ai1-a2-m5-cA Purine nucleoside phosphorylase from calf spleen P55859 P55859 2 X-RAY DIFFRACTION 15 1.0 9913 (Bos taurus) 9913 (Bos taurus) 274 274 1fxu-a3-m1-cA_1fxu-a3-m4-cA 1fxu-a3-m1-cA_1fxu-a3-m5-cA 1fxu-a3-m4-cA_1fxu-a3-m5-cA 1v48-a2-m1-cA_1v48-a2-m4-cA 1v48-a2-m1-cA_1v48-a2-m5-cA 1v48-a2-m4-cA_1v48-a2-m5-cA 1vfn-a2-m1-cA_1vfn-a2-m4-cA 1vfn-a2-m1-cA_1vfn-a2-m5-cA 1vfn-a2-m4-cA_1vfn-a2-m5-cA 2ai1-a2-m1-cA_2ai1-a2-m4-cA 2ai1-a2-m1-cA_2ai1-a2-m5-cA 2ai2-a2-m1-cA_2ai2-a2-m4-cA 2ai2-a2-m1-cA_2ai2-a2-m5-cA 2ai2-a2-m4-cA_2ai2-a2-m5-cA NGYTYEDYQDTAKWLLSHTEQRPQVAVICGSGLGGLVNKLTQAQTFDYSEIPNFPESGRLVFGILNGRACVMMQGRFHMYEGYPFWKVTFPVRVFRLLGVETLVVTNAAGGLNPNFEVGDIMLIRDHINLPGFSGENPLRGPNEERFGVRFPAMSDAYDRDMRQKAHSTWKQMGEQRELQEGTYVMLGGPNFETVAECRLLRNLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDYESQGKANHEEVLEAGKQAAQKLEQFVSLLMASI NGYTYEDYQDTAKWLLSHTEQRPQVAVICGSGLGGLVNKLTQAQTFDYSEIPNFPESGRLVFGILNGRACVMMQGRFHMYEGYPFWKVTFPVRVFRLLGVETLVVTNAAGGLNPNFEVGDIMLIRDHINLPGFSGENPLRGPNEERFGVRFPAMSDAYDRDMRQKAHSTWKQMGEQRELQEGTYVMLGGPNFETVAECRLLRNLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDYESQGKANHEEVLEAGKQAAQKLEQFVSLLMASI 2aib-a1-m1-cA_2aib-a1-m1-cB beta-cinnamomin in complex with ergosterol P15569 P15569 1.1 X-RAY DIFFRACTION 28 1.0 4785 (Phytophthora cinnamomi) 4785 (Phytophthora cinnamomi) 98 98 TACTATQQTAAYKTLVSILSESSFSQCSKDSGYSMLTATALPTNAQYKLMCASTACNTMIKKIVALNPPDCDLTVPTSGLVLDVYTYANGFSSKCASL TACTATQQTAAYKTLVSILSESSFSQCSKDSGYSMLTATALPTNAQYKLMCASTACNTMIKKIVALNPPDCDLTVPTSGLVLDVYTYANGFSSKCASL 2aig-a2-m1-cP_2aig-a2-m3-cP ADAMALYSIN II WITH PEPTIDOMIMETIC INHIBITOR POL647 P34179 P34179 2.6 X-RAY DIFFRACTION 38 1.0 8729 (Crotalus adamanteus) 8729 (Crotalus adamanteus) 201 201 NLPQRYIELVVVADRRVFMKYNSDLNIIRTRVHEIVNIINEFYRSLNIRVSLTDLEIWSGQDFITIQSSSSNTLNSFGEWRERVLLTRKRHDNAQLLTAINFEGKIIGKAYTSSMCNPRSSVGIVKDHSPINLLVAVTMAHELGHNLGMEHDGKDCLRGASLCIMRPGLTPGRSYEFSDDSMGYYQKFLNQYKPQCILNKP NLPQRYIELVVVADRRVFMKYNSDLNIIRTRVHEIVNIINEFYRSLNIRVSLTDLEIWSGQDFITIQSSSSNTLNSFGEWRERVLLTRKRHDNAQLLTAINFEGKIIGKAYTSSMCNPRSSVGIVKDHSPINLLVAVTMAHELGHNLGMEHDGKDCLRGASLCIMRPGLTPGRSYEFSDDSMGYYQKFLNQYKPQCILNKP 2aiy-a1-m1-cH_2aiy-a1-m1-cL R6 HUMAN INSULIN HEXAMER (SYMMETRIC), NMR, 20 STRUCTURES P01308 P01308 NOT SOLUTION NMR 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 2aiy-a1-m1-cB_2aiy-a1-m1-cF 2aiy-a1-m1-cB_2aiy-a1-m1-cJ 2aiy-a1-m1-cD_2aiy-a1-m1-cH 2aiy-a1-m1-cD_2aiy-a1-m1-cL 2aiy-a1-m1-cF_2aiy-a1-m1-cJ FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 2aj7-a2-m3-cB_2aj7-a2-m1-cA Crystal structure of a putative contractile protein (bh3618) from bacillus halodurans at 1.67 A resolution Q9K6V7 Q9K6V7 1.67 X-RAY DIFFRACTION 31 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 146 155 2aj7-a2-m1-cB_2aj7-a2-m2-cA 2aj7-a2-m2-cB_2aj7-a2-m3-cA HHHKVIETKYSGKLEVAEDRLIAFDQGIPAFEDEKEFVLLPFAAGTPYYTLQSTKTVDLAFIIVNPFSFFPEYRVKLPEATIAQLNITNENDVAIFSLLTVKEPFSETTVNLQAPIVINANKQGKQLVLGDTAYNRKQPLFQKELV DKIHHHHHHKVIETKYSGKLEVAEDRLIAFDQGIPAFEDEKEFVLLPFAAGTPYYTLQSTKTVDLAFIIVNPFSFFPEYRVKLPEATIAQLNITNENDVAIFSLLTVKEPFSETTVNLQAPIVINANKQGKQLVLGDTAYNRKQPLFQKELVLAK 2aj7-a3-m4-cA_2aj7-a3-m5-cA Crystal structure of a putative contractile protein (bh3618) from bacillus halodurans at 1.67 A resolution Q9K6V7 Q9K6V7 1.67 X-RAY DIFFRACTION 32 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 155 155 2aj7-a3-m1-cA_2aj7-a3-m4-cA 2aj7-a3-m1-cA_2aj7-a3-m5-cA DKIHHHHHHKVIETKYSGKLEVAEDRLIAFDQGIPAFEDEKEFVLLPFAAGTPYYTLQSTKTVDLAFIIVNPFSFFPEYRVKLPEATIAQLNITNENDVAIFSLLTVKEPFSETTVNLQAPIVINANKQGKQLVLGDTAYNRKQPLFQKELVLAK DKIHHHHHHKVIETKYSGKLEVAEDRLIAFDQGIPAFEDEKEFVLLPFAAGTPYYTLQSTKTVDLAFIIVNPFSFFPEYRVKLPEATIAQLNITNENDVAIFSLLTVKEPFSETTVNLQAPIVINANKQGKQLVLGDTAYNRKQPLFQKELVLAK 2aj7-a3-m5-cB_2aj7-a3-m5-cA Crystal structure of a putative contractile protein (bh3618) from bacillus halodurans at 1.67 A resolution Q9K6V7 Q9K6V7 1.67 X-RAY DIFFRACTION 58 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 146 155 2aj7-a1-m1-cB_2aj7-a1-m1-cA 2aj7-a2-m1-cB_2aj7-a2-m1-cA 2aj7-a2-m2-cB_2aj7-a2-m2-cA 2aj7-a2-m3-cB_2aj7-a2-m3-cA 2aj7-a3-m1-cB_2aj7-a3-m1-cA 2aj7-a3-m4-cB_2aj7-a3-m4-cA HHHKVIETKYSGKLEVAEDRLIAFDQGIPAFEDEKEFVLLPFAAGTPYYTLQSTKTVDLAFIIVNPFSFFPEYRVKLPEATIAQLNITNENDVAIFSLLTVKEPFSETTVNLQAPIVINANKQGKQLVLGDTAYNRKQPLFQKELV DKIHHHHHHKVIETKYSGKLEVAEDRLIAFDQGIPAFEDEKEFVLLPFAAGTPYYTLQSTKTVDLAFIIVNPFSFFPEYRVKLPEATIAQLNITNENDVAIFSLLTVKEPFSETTVNLQAPIVINANKQGKQLVLGDTAYNRKQPLFQKELVLAK 2ajc-a4-m1-cC_2ajc-a4-m2-cB Porcine dipeptidyl peptidase IV (CD26) in complex with 4-(2-Aminoethyl)-benzene sulphonyl fluoride (AEBSF) P22411 P22411 1.95 X-RAY DIFFRACTION 40 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 728 728 2aj8-a4-m1-cC_2aj8-a4-m2-cB 2ajb-a3-m1-cC_2ajb-a3-m2-cB SRRTYTLTDYLKSTFRVKFYTLQWISDHEYLYKQENNILLFNAEYGNSSIFLENSTFDELGYSTNDYSVSPDRQFILFEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWITWSPVGHKLAYVWNNDIYVKNEPNLSSQRITWTGKENVIYNGVTDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRIPYPKAGAENPTVKFFVVDTRTLSPNASVTSYQIVPPASVLIGDHYLCGVTWVTEERISLQWIRRAQNYSIIDICDYDESTGRWISSVARQHIEISTTGWVGRFRPAEPHFTSDGNSFYKIISNEEGYKHICHFQTDKSNCTFITKGAWEVIGIEALTSDYLYYISNEHKGMPGGRNLYRIQLNDYTKVTCLSCELNPERCQYYSASFSNKAKYYQLRCFGPGLPLYTLHSSSSDKELRVLEDNSALDKMLQDVQMPSKKLDVINLHGTKFWYQMILPPHFDKSKKYPLLIEVYAGPCSQKVDTVFRLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEATRQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSGVFKCGIAVAPVSKWEYYDSVYTERYMGLPTPEDNLDYYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQLSKALVDAGVDFQTMWYTDEDHGIASNMAHQHIYTHMSHFLKQCFSLP SRRTYTLTDYLKSTFRVKFYTLQWISDHEYLYKQENNILLFNAEYGNSSIFLENSTFDELGYSTNDYSVSPDRQFILFEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWITWSPVGHKLAYVWNNDIYVKNEPNLSSQRITWTGKENVIYNGVTDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRIPYPKAGAENPTVKFFVVDTRTLSPNASVTSYQIVPPASVLIGDHYLCGVTWVTEERISLQWIRRAQNYSIIDICDYDESTGRWISSVARQHIEISTTGWVGRFRPAEPHFTSDGNSFYKIISNEEGYKHICHFQTDKSNCTFITKGAWEVIGIEALTSDYLYYISNEHKGMPGGRNLYRIQLNDYTKVTCLSCELNPERCQYYSASFSNKAKYYQLRCFGPGLPLYTLHSSSSDKELRVLEDNSALDKMLQDVQMPSKKLDVINLHGTKFWYQMILPPHFDKSKKYPLLIEVYAGPCSQKVDTVFRLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEATRQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSGVFKCGIAVAPVSKWEYYDSVYTERYMGLPTPEDNLDYYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQLSKALVDAGVDFQTMWYTDEDHGIASNMAHQHIYTHMSHFLKQCFSLP 2ajr-a1-m1-cA_2ajr-a1-m1-cB Crystal structure of Possible 1-phosphofructokinase (EC 2.7.1.56) (tm0828) from Thermotoga Maritima at 2.46 A resolution Q9WZT5 Q9WZT5 2.46 X-RAY DIFFRACTION 91 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 312 312 HVLTVTLNPALDREIFIEDFQVNRLYRINDLSKTQSPGGKGINVSIALSKLGVPSVATGFVGGYGKILVEELRKISKLITTNFVYVEGETRENIEIIDEKNKTITAINFPGPDVTDDVNHFLRRYKTLSKVDCVVISGSIPPGVNEGICNELVRLARERGVFVFVEQTPRLLERIYEGPEFPNVVKPDLRGNHASFLGVDLKTFDDYVKLAEKLAEKSQVSVVSYEVKNDIVATREGVWLIRSKEEIDTSHLLGAGDAYVAGVYYFIKHGANFLEAKFGFASALAATRRKEKYPDLEAIKKEYDHFTVERVK HVLTVTLNPALDREIFIEDFQVNRLYRINDLSKTQSPGGKGINVSIALSKLGVPSVATGFVGGYGKILVEELRKISKLITTNFVYVEGETRENIEIIDEKNKTITAINFPGPDVTDDVNHFLRRYKTLSKVDCVVISGSIPPGVNEGICNELVRLARERGVFVFVEQTPRLLERIYEGPEFPNVVKPDLRGNHASFLGVDLKTFDDYVKLAEKLAEKSQVSVVSYEVKNDIVATREGVWLIRSKEEIDTSHLLGAGDAYVAGVYYFIKHGANFLEAKFGFASALAATRRKEKYPDLEAIKKEYDHFTVERVK 2ak1-a2-m4-cH_2ak1-a2-m3-cH Crystal Structure of Cocaine catalytic Antibody 7A1 Fab' in Complex with benzoic acid Q5M842 Q5M842 1.85 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 2ajy-a2-m4-cH_2ajy-a2-m3-cH EVKLSESGPGLVKPSQSLSLTCTVTGYSITTNYAWTWIRQFPGNKLEWMGYIRSSVITRYNPSLKSRISITQDTSKNQFFLQLNSVTTEDTATYYCARYDYYGNTGDYWGQGTSVTVSSAKTTPPSVYPLAPGTAALKSSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLTSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVPR EVKLSESGPGLVKPSQSLSLTCTVTGYSITTNYAWTWIRQFPGNKLEWMGYIRSSVITRYNPSLKSRISITQDTSKNQFFLQLNSVTTEDTATYYCARYDYYGNTGDYWGQGTSVTVSSAKTTPPSVYPLAPGTAALKSSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLTSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVPR 2ak5-a1-m2-cA_2ak5-a1-m2-cB beta PIX-SH3 complexed with a Cbl-b peptide O55043 O55043 1.85 X-RAY DIFFRACTION 31 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 64 2ak5-a1-m1-cA_2ak5-a1-m1-cB NSQLVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTHNGRTGWFPSNYVREIKP GSANSQLVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTHNGRTGWFPSNYVREIKPS 2akf-a1-m1-cA_2akf-a1-m1-cC Crystal structure of the coiled-coil domain of coronin 1 O89053 O89053 1.2 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 32 32 2akf-a1-m1-cA_2akf-a1-m1-cB 2akf-a1-m1-cB_2akf-a1-m1-cC VSRLEEDVRNLNAIVQKLQERLDRLEETVQAK VSRLEEDVRNLNAIVQKLQERLDRLEETVQAK 2akh-a1-m1-cB_2akh-a1-m1-cY Normal mode-based flexible fitted coordinates of a non-translocating SecYEG protein-conducting channel into the cryo-EM map of a SecYEG-nascent chain-70S ribosome complex from E. coli P0AGA2 P0AGA2 14.9 ELECTRON MICROSCOPY 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 400 400 MAKQPGLDFQSAKGGLGELKRRLLFVIGALIVFRIGSFISIFALGIMPYISASIIIQLLTVVHPTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKA MAKQPGLDFQSAKGGLGELKRRLLFVIGALIVFRIGSFISIFALGIMPYISASIIIQLLTVVHPTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKA 2aki-a1-m1-cB_2aki-a1-m1-cY Normal mode-based flexible fitted coordinates of a translocating SecYEG protein-conducting channel into the cryo-EM map of a SecYEG-nascent chain-70S ribosome complex from E. coli P0AGA2 P0AGA2 14.9 ELECTRON MICROSCOPY 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 400 400 MAKQPGLDFQSAKGGLGELKRRLLFVIGALIVFRIGSFISIFALGIMPYISASIIIQLLTVVHPTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKA MAKQPGLDFQSAKGGLGELKRRLLFVIGALIVFRIGSFISIFALGIMPYISASIIIQLLTVVHPTLAEIKKEGESGRRKISQYTRYGTLVLAIFQSIGIATGLPNMPGMQGLVINPGFAFYFTAVVSLVTGTMFLMWLGEQITERGIGNGISIIIFAGIVAGLPPAIAHTIEQARQGDLHFLVLLLVAVLVFAVTFFVVFVERGQRRIVVNYAKRQQGRRVYAAQSTHLPLKVNMAGVIPAIFASSIILFPATIASWFGGGTGWNWLTTISLYLQPGQPLYVLLYASAIIFFCFFYTALVFNPRETADNLKKSGAFVPGIRPGEQTAKYIDKVMTRLTLVGALYITFICLIPEFMRDAMKVPFYFGGTSLLIVVVVIMDFMAQVQTLMMSSQYESALKKA 2ako-a2-m1-cC_2ako-a2-m1-cD Crystal structure of Glutamate 5-kinase from Campylobacter jejuni Q9PJ29 Q9PJ29 2.2 X-RAY DIFFRACTION 112 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 237 237 2ako-a1-m1-cA_2ako-a1-m1-cB KRIVVKVGSHVISEENTLSFERLKNLVAFLAKLEKYEVILVTSAAISAGHTKLDIDRKNLINKQVLAAIGQPFLISVYNELLAKFNKLGGQILLTGKDFDSRKATKHAKNAIDINLGILPIINENDATAIEEIVFGDNDSLSAYATHFFDADLLVILSDIDGFYDKNPSEFSDAKRLEKITHIKEEWLHGTGGIVTKLKAAKFLLEHNKKFLASGFDLSVAKTFLLEDKQIGGTLFE KRIVVKVGSHVISEENTLSFERLKNLVAFLAKLEKYEVILVTSAAISAGHTKLDIDRKNLINKQVLAAIGQPFLISVYNELLAKFNKLGGQILLTGKDFDSRKATKHAKNAIDINLGILPIINENDATAIEEIVFGDNDSLSAYATHFFDADLLVILSDIDGFYDKNPSEFSDAKRLEKITHIKEEWLHGTGGIVTKLKAAKFLLEHNKKFLASGFDLSVAKTFLLEDKQIGGTLFE 2akr-a3-m1-cC_2akr-a3-m2-cA Structural basis of sulfatide presentation by mouse CD1d P11609 P11609 1.9 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 269 269 1z5l-a3-m1-cA_1z5l-a3-m2-cC NYTFRCLQMSSFANRSWSRTDSVVWLGDLQTHRWSNDSATISFTKPWSQGKLSNQQWEKLQHMFQVYRVSFTRDIQELVKMMSPKEDYPIEIQLSAGCEMYPGNASESFLHVAFQGKYVVRFWGTSWQTVPGAPSWLDLPIKVLNADQGTSATVQMLLNDTCPLFVRGLLEAGKSDLEKQEKPVAWLSSVPGHRQLVCHVSGFYPKPVWVMWMRGDQEQQGTHRGDFLPNADETWYLQATLDVEAGEEAGLACRVKHSSLGGQDIILYW NYTFRCLQMSSFANRSWSRTDSVVWLGDLQTHRWSNDSATISFTKPWSQGKLSNQQWEKLQHMFQVYRVSFTRDIQELVKMMSPKEDYPIEIQLSAGCEMYPGNASESFLHVAFQGKYVVRFWGTSWQTVPGAPSWLDLPIKVLNADQGTSATVQMLLNDTCPLFVRGLLEAGKSDLEKQEKPVAWLSSVPGHRQLVCHVSGFYPKPVWVMWMRGDQEQQGTHRGDFLPNADETWYLQATLDVEAGEEAGLACRVKHSSLGGQDIILYW 2alg-a3-m2-cB_2alg-a3-m4-cA Crystal structure of peach Pru p3, the prototypic member of the family of plant non-specific lipid transfer protein pan-allergens P81402 P81402 2.3 X-RAY DIFFRACTION 31 1.0 3760 (Prunus persica) 3760 (Prunus persica) 92 92 2alg-a3-m1-cB_2alg-a3-m3-cA 2b5s-a3-m1-cA_2b5s-a3-m3-cB 2b5s-a3-m2-cA_2b5s-a3-m4-cB MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK 2alg-a4-m1-cB_2alg-a4-m6-cA Crystal structure of peach Pru p3, the prototypic member of the family of plant non-specific lipid transfer protein pan-allergens P81402 P81402 2.3 X-RAY DIFFRACTION 23 1.0 3760 (Prunus persica) 3760 (Prunus persica) 92 92 2alg-a4-m4-cA_2alg-a4-m5-cB MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK 2alg-a5-m1-cB_2alg-a5-m4-cA Crystal structure of peach Pru p3, the prototypic member of the family of plant non-specific lipid transfer protein pan-allergens P81402 P81402 2.3 X-RAY DIFFRACTION 48 1.0 3760 (Prunus persica) 3760 (Prunus persica) 92 92 2alg-a3-m1-cB_2alg-a3-m4-cA 2alg-a3-m2-cB_2alg-a3-m3-cA 2alg-a4-m1-cB_2alg-a4-m4-cA 2alg-a4-m5-cB_2alg-a4-m6-cA 2b5s-a3-m1-cA_2b5s-a3-m4-cB 2b5s-a3-m2-cA_2b5s-a3-m3-cB 2b5s-a4-m1-cA_2b5s-a4-m4-cB MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK 2alg-a6-m1-cB_2alg-a6-m2-cB Crystal structure of peach Pru p3, the prototypic member of the family of plant non-specific lipid transfer protein pan-allergens P81402 P81402 2.3 X-RAY DIFFRACTION 27 1.0 3760 (Prunus persica) 3760 (Prunus persica) 92 92 2alg-a3-m1-cB_2alg-a3-m2-cB 2b5s-a3-m3-cB_2b5s-a3-m4-cB 2b5s-a5-m1-cB_2b5s-a5-m5-cB MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK MITCGQVSSSLAPCIPYVRGGGAVPPACCNGIRNVNNLARTTPDRQAACNCLKQLSASVPGVNPNNAAALPGKCGVSIPYKISASTNCATVK 2amf-a1-m2-cA_2amf-a1-m2-cE Crystal structure of 1-Pyrroline-5-Carboxylate Reductase from Human Pathogen Streptococcus Pyogenes Q9A1S9 Q9A1S9 2.2 X-RAY DIFFRACTION 33 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 257 259 2ahr-a1-m1-cA_2ahr-a1-m1-cE 2ahr-a1-m1-cB_2ahr-a1-m1-cD 2ahr-a1-m1-cC_2ahr-a1-m2-cC 2ahr-a1-m2-cA_2ahr-a1-m2-cE 2ahr-a1-m2-cB_2ahr-a1-m2-cD 2amf-a1-m1-cA_2amf-a1-m1-cE 2amf-a1-m1-cB_2amf-a1-m1-cD 2amf-a1-m1-cC_2amf-a1-m2-cC 2amf-a1-m2-cB_2amf-a1-m2-cD AMKIGIIGVGKMASAIIKGLKQTPHELIISGSSLERSKEIAEQLALPYAMSHQDLIDQVDLVILGIKPQLFETVLKPLHFKQPIISMAAGISLQRLATFVGQDLPLLRIMPNMNAQILQSSTALTGNALVSQELQARVRDLTDSFGSTFDISEKDFDTFTALAGSSPAYIYLFIEALAKAGVKNGIPKAKALEIVTQTVLASASNLKTSSQSPHDFIDAICSPGGTTIAGLMELERLGLTATVSSAIDKTIDKAKSL SNAMKIGIIGVGKMASAIIKGLKQTPHELIISGSSLERSKEIAEQLALPYAMSHQDLIDQVDLVILGIKPQLFETVLKPLHFKQPIISMAAGISLQRLATFVGQDLPLLRIMPNMNAQILQSSTALTGNALVSQELQARVRDLTDSFGSTFDISEKDFDTFTALAGSSPAYIYLFIEALAKAGVKNGIPKAKALEIVTQTVLASASNLKTSSQSPHDFIDAICSPGGTTIAGLMELERLGLTATVSSAIDKTIDKAKSL 2amj-a1-m1-cA_2amj-a1-m1-cB Crystal Structure of Modulator of Drug Activity B from Escherichia coli O157:H7 P0AEY7 P0AEY7 1.8 X-RAY DIFFRACTION 93 0.994 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 174 178 2b3d-a1-m1-cB_2b3d-a1-m1-cA SSNILIINGAKGQLNDTLTEVADGTLRDLGHDVRIVRADSDYDVKAEVQNFLWADVVIWQPGWWGAPWTVKKYIDDVFTEGHGTLYASDGRKYGSGGLVQGKKYLSLTWNAPEAFTEKDQFFHGVGVDGVYLPFHKANQFLGEPLPTFIANDVIKPDVPRYTEEYRKHLVEIFG HHHSSNILIINGANGQLNDTLTEVADGTLRDLGHDVRIVRADSDYDVKAEVQNFLWADVVIWQPGWWGAPWTVKKYIDDVFTEGHGTLYASDGRTKYGSGGLVQGKKYLSLTWNAPEAFTEKDQFFHGVGVDGVYLPFHKANQFLGEPLPTFIANDVIKPDVPRYTEEYRKHLVEIFG 2aml-a1-m1-cB_2aml-a1-m1-cA Crystal structure of Lmo0035 protein (46906266) from LISTERIA MONOCYTOGENES 4b F2365 at 1.50 A resolution 1.5 X-RAY DIFFRACTION 138 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 353 358 KPTTYINEEEECRVILADFQTNAEKLESLVKNGAKEWLILATGSSLNAAQSAKYYIENLADVRITIEEPFNHLYYEKLSSHLDLVIGISQSGQSTSTISALERVKKEASVPVVALTSDVTSEIAEFADITLDIGSGKERVGYVTKGFTATVLTLLTGLHFAYKTVQIDETRFNNEISAFSRAIDAIPATIAETEAFYERWQEEFATAPKFTAIGYGPTVGTCKEFETKFSETVRVPSQGLDLEAFHGPYLEVNPQHRIFFLETASAVTERLVLLRDYESKYTPFTYTVKFGKGEDDRTLVIPTDLDEYQAPFLILPFQILAHHIAELKGNKLTERIYTDFGVAKSKTKPGDYA HHHHHKPTTYINEEEECRVILADFQTNAEKLESLVKNGAKEWLILATGSSLNAAQSAKYYIENLADVRITIEEPFNHLYYEKLSSHLDLVIGISQSGQSTSTISALERVKKEASVPVVALTSDVTSEIAEFADITLDIGSGKERVGYVTKGFTATVLTLLTGLHFAYKTVQIDETRFNNEISAFSRAIDAIPATIAETEAFYERWQEEFATAPKFTAIGYGPTVGTCKEFETKFSETVRVPSQGLDLEAFHGPYLEVNPQHRIFFLETASAVTERLVLLRDYESKYTPFTYTVKFGKGEDDRTLVIPTDLDEYQAPFLILPFQILAHHIAELKGNKLTERIYTDFGVAKSKTKPGDYA 2amx-a1-m1-cB_2amx-a1-m1-cA Crystal structure of Plasmodium Yoelii Adenosine deaminase (PY02076) Q7RMV2 Q7RMV2 2.02 X-RAY DIFFRACTION 22 1.0 5861 (Plasmodium yoelii) 5861 (Plasmodium yoelii) 356 364 GLVPRGSEIKFLKKEDVQNIDLNGMSKKERYEIWRRIPKVELHCHLDLTFSAEFFLKWARKYNLQPNMSDDEILDHYLFTKEGKSLAEFIRKAISVSDLYRDYDFIEDLAKWAVIEKYKEGVVLMEFRYSPTFVSSSYGLDVELIHKAFIKGIKNATELLNNKIHVALICISDKHSGDFAIKHKHDFVGFDHGGREIDLKDHKDVYHSVRDHGLHLTVHAGEDATLPNLNTLYTAINILNVERIGHGIRVSESDELIELVKKKDILLEVCPISNLLLNNVKSMDTHPIRKLYDAGVKVSVNSDDPGMFLSNINDNYEKLYIHLNFTLEEFMIMNNWAFEKSFVSDDVKSELKALYF GLVPRGSEIKFLKKEDVQNIDLNGMSKKERYEIWRRIPKVELHCHLDLTFSAEFFLKWARKYNLQPNMSDDEILDHYLFTKEGKSLAEFIRKAISVSDLYRDYDFIEDLAKWAVIEKYKEGVVLMEFRYSPTFVSSSYGLDVELIHKAFIKGIKNATELLNNKIHVALICISDTGHAAASIKHSGDFAIKHKHDFVGFDHGGREIDLKDHKDVYHSVRDHGLHLTVHAGEDATLPNLNTLYTAINILNVERIGHGIRVSESDELIELVKKKDILLEVCPISNLLLNNVKSMDTHPIRKLYDAGVKVSVNSDDPGMFLSNINDNYEKLYIHLNFTLEEFMIMNNWAFEKSFVSDDVKSELKALYF 2an1-a3-m1-cC_2an1-a3-m1-cB Structural Genomics, The crystal structure of a putative kinase from Salmonella typhimurim LT2 P65774 P65774 2 X-RAY DIFFRACTION 130 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 271 281 2an1-a2-m1-cC_2an1-a2-m1-cB FKCIGIVGHTTHEMLYRWLCDQGYEVIVEQQIAHELQVPTGTLAEIGQQADLAVVVGGDGNMLGAARTLARYDINVIGINRGNLGFLTDLDPDNALQQLSDVLEGRYISEKRFLLEAQVCQQDRQKRISTAINEVVLHPGKHMIEFEVYIDETFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINSSSTIRLRFSSDLEISCDSQIALPIQEGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKK HFKCIGIVGHTTHEMLYRWLCDQGYEVIVEQQIAHELQLNVPTGTLAEIGQQADLAVVVGGDGNMLGAARTLARYDINVIGINRGNLGFLTDLDPDNALQQLSDVLEGRYISEKRFLLEAQVCQQDRQKRISTAINEVVLHPGKVAHMIEFEVYIDETFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINSSSTIRLRFSHRRSDLEISCDSQIALPIQEGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKKLF 2an1-a3-m1-cD_2an1-a3-m1-cB Structural Genomics, The crystal structure of a putative kinase from Salmonella typhimurim LT2 P65774 P65774 2 X-RAY DIFFRACTION 44 0.996 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 268 281 2an1-a3-m1-cC_2an1-a3-m1-cA HFKCIGIVGTHEMLYRWLCDQGYEVIVEKVPTGTLAEIGQQADLAVVVGGDGNMLGAARTLARYDINVIGINRGNLGFLTDLDPDNALQQLSDVLEGRYISEKRFLLEAQVCQQDRQKRISTAINEVVLHPGKVAHMIEFEVYIDETFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINSSSTIRLRFSHRDLEISCDSQIALPIQEGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKKLF HFKCIGIVGHTTHEMLYRWLCDQGYEVIVEQQIAHELQLNVPTGTLAEIGQQADLAVVVGGDGNMLGAARTLARYDINVIGINRGNLGFLTDLDPDNALQQLSDVLEGRYISEKRFLLEAQVCQQDRQKRISTAINEVVLHPGKVAHMIEFEVYIDETFAFSQRSDGLIISTPTGSTAYSLSAGGPILTPSLDAITLVPMFPHTLSARPLVINSSSTIRLRFSHRRSDLEISCDSQIALPIQEGEDVLIRRCDYHLNLIHPKDYSYFNTLSTKLGWSKKLF 2an7-a1-m1-cA_2an7-a1-m1-cB Solution structure of the bacterial antidote ParD P22995 P22995 NOT SOLUTION NMR 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 83 83 MSRLTIDMTDQQHQSLKALAALQGKTIKQYALERLFPGDADADQAWQELKTMLGNRINDGLAGKVSTKSVGEILDEELSGDRA MSRLTIDMTDQQHQSLKALAALQGKTIKQYALERLFPGDADADQAWQELKTMLGNRINDGLAGKVSTKSVGEILDEELSGDRA 2an9-a1-m2-cA_2an9-a1-m3-cA Crystal Structure Of Oligomeric E.coli Guanylate Kinase In Complex With GDP P60546 P60546 2.35 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 205 205 1s96-a2-m1-cA_1s96-a2-m2-cA 1s96-a2-m1-cA_1s96-a2-m3-cA 1s96-a2-m1-cB_1s96-a2-m2-cB 1s96-a2-m1-cB_1s96-a2-m3-cB 1s96-a2-m2-cA_1s96-a2-m3-cA 1s96-a2-m2-cB_1s96-a2-m3-cB 2an9-a1-m1-cA_2an9-a1-m2-cA 2an9-a1-m1-cA_2an9-a1-m3-cA 2an9-a1-m1-cB_2an9-a1-m2-cB 2an9-a1-m1-cB_2an9-a1-m3-cB 2an9-a1-m2-cB_2an9-a1-m3-cB 2anb-a1-m1-cA_2anb-a1-m2-cA 2anb-a1-m1-cA_2anb-a1-m3-cA 2anb-a1-m2-cA_2anb-a1-m3-cA 2anb-a1-m4-cA_2anb-a1-m5-cA 2anb-a1-m4-cA_2anb-a1-m6-cA 2anb-a1-m5-cA_2anb-a1-m6-cA 2anc-a1-m1-cA_2anc-a1-m1-cC 2anc-a1-m1-cB_2anc-a1-m1-cD 2anc-a1-m1-cE_2anc-a1-m1-cA 2anc-a1-m1-cE_2anc-a1-m1-cC 2anc-a1-m1-cF_2anc-a1-m1-cB 2anc-a1-m1-cF_2anc-a1-m1-cD 2f3r-a1-m1-cA_2f3r-a1-m2-cA 2f3r-a1-m1-cA_2f3r-a1-m3-cA 2f3r-a1-m1-cB_2f3r-a1-m2-cB 2f3r-a1-m1-cB_2f3r-a1-m3-cB 2f3r-a1-m2-cA_2f3r-a1-m3-cA 2f3r-a1-m2-cB_2f3r-a1-m3-cB 2f3t-a1-m1-cB_2f3t-a1-m1-cD 2f3t-a1-m1-cB_2f3t-a1-m1-cF 2f3t-a1-m1-cC_2f3t-a1-m1-cA 2f3t-a1-m1-cC_2f3t-a1-m1-cE 2f3t-a1-m1-cD_2f3t-a1-m1-cF 2f3t-a1-m1-cE_2f3t-a1-m1-cA AQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRQPRPGEVHGEHYFFVNHDEFKEMISRDAFLEHAEVFGNYYGTSREAIEQVLATGVDVFLDIDWQGAQQIRQKMPHARSIFILPPSKIELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALTDLKTIIRAERLRMSRQKQRHDALISKLLA AQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRQPRPGEVHGEHYFFVNHDEFKEMISRDAFLEHAEVFGNYYGTSREAIEQVLATGVDVFLDIDWQGAQQIRQKMPHARSIFILPPSKIELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALTDLKTIIRAERLRMSRQKQRHDALISKLLA 2an9-a1-m3-cA_2an9-a1-m3-cB Crystal Structure Of Oligomeric E.coli Guanylate Kinase In Complex With GDP P60546 P60546 2.35 X-RAY DIFFRACTION 101 1.0 562 (Escherichia coli) 562 (Escherichia coli) 205 205 1s96-a1-m1-cB_1s96-a1-m1-cA 1s96-a2-m1-cB_1s96-a2-m1-cA 1s96-a2-m2-cB_1s96-a2-m2-cA 1s96-a2-m3-cB_1s96-a2-m3-cA 2an9-a1-m1-cA_2an9-a1-m1-cB 2an9-a1-m2-cA_2an9-a1-m2-cB 2anb-a1-m1-cA_2anb-a1-m5-cA 2anb-a1-m2-cA_2anb-a1-m4-cA 2anb-a1-m3-cA_2anb-a1-m6-cA 2anb-a2-m1-cA_2anb-a2-m5-cA 2anc-a1-m1-cB_2anc-a1-m1-cA 2anc-a1-m1-cD_2anc-a1-m1-cC 2anc-a1-m1-cF_2anc-a1-m1-cE 2f3r-a1-m1-cB_2f3r-a1-m1-cA 2f3r-a1-m2-cB_2f3r-a1-m2-cA 2f3r-a1-m3-cB_2f3r-a1-m3-cA 2f3t-a1-m1-cB_2f3t-a1-m1-cA 2f3t-a1-m1-cC_2f3t-a1-m1-cD 2f3t-a1-m1-cE_2f3t-a1-m1-cF AQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRQPRPGEVHGEHYFFVNHDEFKEMISRDAFLEHAEVFGNYYGTSREAIEQVLATGVDVFLDIDWQGAQQIRQKMPHARSIFILPPSKIELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALTDLKTIIRAERLRMSRQKQRHDALISKLLA AQGTLYIVSAPSGAGKSSLIQALLKTQPLYDTQVSVSHTTRQPRPGEVHGEHYFFVNHDEFKEMISRDAFLEHAEVFGNYYGTSREAIEQVLATGVDVFLDIDWQGAQQIRQKMPHARSIFILPPSKIELDRRLRGRGQDSEEVIAKRMAQAVAEMSHYAEYDYLIVNDDFDTALTDLKTIIRAERLRMSRQKQRHDALISKLLA 2ane-a1-m1-cB_2ane-a1-m1-cC Crystal structure of N-terminal domain of E.Coli Lon Protease P0A9M0 P0A9M0 2.03 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 108 108 2ane-a1-m1-cA_2ane-a1-m1-cD 2ane-a1-m1-cE_2ane-a1-m1-cG 2ane-a1-m1-cH_2ane-a1-m1-cF EIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL EIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL 2ane-a1-m1-cD_2ane-a1-m1-cG Crystal structure of N-terminal domain of E.Coli Lon Protease P0A9M0 P0A9M0 2.03 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 110 110 RIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL RIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL 2ane-a1-m1-cE_2ane-a1-m1-cF Crystal structure of N-terminal domain of E.Coli Lon Protease P0A9M0 P0A9M0 2.03 X-RAY DIFFRACTION 48 1.0 562 (Escherichia coli) 562 (Escherichia coli) 110 110 2ane-a1-m1-cB_2ane-a1-m1-cA 2ane-a1-m1-cC_2ane-a1-m1-cD 2ane-a1-m1-cH_2ane-a1-m1-cG RIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL RIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL 2ane-a1-m1-cF_2ane-a1-m1-cG Crystal structure of N-terminal domain of E.Coli Lon Protease P0A9M0 P0A9M0 2.03 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 110 110 2ane-a1-m1-cB_2ane-a1-m1-cD 2ane-a1-m1-cC_2ane-a1-m1-cA 2ane-a1-m1-cH_2ane-a1-m1-cE RIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL RIEIPVLPLRDVVVYPHMVIPLFVGREKSIRCLEAAMDHDKKIMLVAQKEASTDEPGVNDLFTVGTVASILQMLKLPDGTVKVLVEGLQRARISALSDNGEHFSAKAEYL 2ani-a1-m1-cA_2ani-a1-m2-cA Crystal structure of the F127Y mutant of Ribonucleotide Reductase R2 from Chlamydia trachomatis O84835 O84835 2 X-RAY DIFFRACTION 145 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 317 317 1syy-a1-m1-cA_1syy-a1-m2-cA 4d8f-a1-m1-cA_4d8f-a1-m1-cB 4d8f-a2-m1-cC_4d8f-a2-m1-cD 4d8g-a1-m1-cA_4d8g-a1-m1-cB 4d8g-a2-m1-cC_4d8g-a2-m1-cD 4m1h-a1-m1-cA_4m1h-a1-m1-cB 4m1h-a2-m1-cC_4m1h-a2-m1-cD 4m1i-a1-m1-cB_4m1i-a1-m1-cA 4m1i-a2-m1-cD_4m1i-a2-m1-cC QADILDGKQKRVNLNSKRLVNCNQVDVNQLVPIKYKWAWEHYLNGCANNWLPTEIPMGKDIELWKSDRLSEDERRVILLNLGFFSTAESLVGNNIVLAIFKHVTNPEARQYLLRQAFEEAVHTHTYLYICESLGLDEKEIFNAYNERAAIKAKDDFQMEITGKVLDPNFRTDSVEGLQEFVKNLVGYYIIMEGIFFYSGFVMILSFHRQNKMIGIGEQYQYILRDETIHLNFGIDLINGIKEENPEIWTPELQQEIVELIKRAVDLEIEYAQDCLPRGILGLRASMFIDYVQHIADRRLERIGLKPIYHTKNPFPWM QADILDGKQKRVNLNSKRLVNCNQVDVNQLVPIKYKWAWEHYLNGCANNWLPTEIPMGKDIELWKSDRLSEDERRVILLNLGFFSTAESLVGNNIVLAIFKHVTNPEARQYLLRQAFEEAVHTHTYLYICESLGLDEKEIFNAYNERAAIKAKDDFQMEITGKVLDPNFRTDSVEGLQEFVKNLVGYYIIMEGIFFYSGFVMILSFHRQNKMIGIGEQYQYILRDETIHLNFGIDLINGIKEENPEIWTPELQQEIVELIKRAVDLEIEYAQDCLPRGILGLRASMFIDYVQHIADRRLERIGLKPIYHTKNPFPWM 2anu-a1-m3-cB_2anu-a1-m2-cA Crystal structure of Predicted metal-dependent phosphoesterase (PHP family) (tm0559) from THERMOTOGA MARITIMA at 2.40 A resolution Q9WZ29 Q9WZ29 2.4 X-RAY DIFFRACTION 13 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 217 220 2anu-a1-m1-cB_2anu-a1-m3-cA 2anu-a1-m2-cB_2anu-a1-m1-cA TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKKLSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK 2anu-a1-m3-cC_2anu-a1-m3-cA Crystal structure of Predicted metal-dependent phosphoesterase (PHP family) (tm0559) from THERMOTOGA MARITIMA at 2.40 A resolution Q9WZ29 Q9WZ29 2.4 X-RAY DIFFRACTION 14 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 218 220 2anu-a1-m1-cC_2anu-a1-m1-cA 2anu-a1-m2-cC_2anu-a1-m2-cA TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKKSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLR TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKKLSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK 2anu-a1-m3-cD_2anu-a1-m3-cB Crystal structure of Predicted metal-dependent phosphoesterase (PHP family) (tm0559) from THERMOTOGA MARITIMA at 2.40 A resolution Q9WZ29 Q9WZ29 2.4 X-RAY DIFFRACTION 17 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 216 217 2anu-a1-m1-cD_2anu-a1-m1-cB 2anu-a1-m2-cD_2anu-a1-m2-cB TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLR TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK 2anu-a3-m1-cE_2anu-a3-m3-cF Crystal structure of Predicted metal-dependent phosphoesterase (PHP family) (tm0559) from THERMOTOGA MARITIMA at 2.40 A resolution Q9WZ29 Q9WZ29 2.4 X-RAY DIFFRACTION 63 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 219 220 2anu-a1-m1-cD_2anu-a1-m1-cC 2anu-a1-m2-cD_2anu-a1-m2-cC 2anu-a1-m3-cD_2anu-a1-m3-cC 2anu-a2-m1-cE_2anu-a2-m3-cF 2anu-a2-m2-cE_2anu-a2-m1-cF 2anu-a2-m3-cE_2anu-a2-m2-cF 2anu-a3-m1-cD_2anu-a3-m1-cC 2anu-a3-m2-cD_2anu-a3-m2-cC 2anu-a3-m2-cE_2anu-a3-m1-cF 2anu-a3-m3-cD_2anu-a3-m3-cC 2anu-a3-m3-cE_2anu-a3-m2-cF 2anu-a3-m4-cB_2anu-a3-m5-cA 2anu-a3-m5-cB_2anu-a3-m6-cA 2anu-a3-m6-cB_2anu-a3-m4-cA 2anu-a4-m1-cB_2anu-a4-m7-cA 2anu-a4-m7-cB_2anu-a4-m8-cA 2anu-a4-m8-cB_2anu-a4-m1-cA 2anu-a5-m1-cD_2anu-a5-m1-cC 2anu-a5-m2-cD_2anu-a5-m2-cC 2anu-a5-m3-cD_2anu-a5-m3-cC TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKHLSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLR TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKHLSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK 2anu-a3-m1-cF_2anu-a3-m6-cA Crystal structure of Predicted metal-dependent phosphoesterase (PHP family) (tm0559) from THERMOTOGA MARITIMA at 2.40 A resolution Q9WZ29 Q9WZ29 2.4 X-RAY DIFFRACTION 15 0.995 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 220 220 2anu-a3-m1-cD_2anu-a3-m1-cE 2anu-a3-m2-cD_2anu-a3-m2-cE 2anu-a3-m2-cF_2anu-a3-m4-cA 2anu-a3-m3-cD_2anu-a3-m3-cE 2anu-a3-m3-cF_2anu-a3-m5-cA TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKHLSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKKLSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLRK 2anu-a5-m3-cD_2anu-a5-m2-cC Crystal structure of Predicted metal-dependent phosphoesterase (PHP family) (tm0559) from THERMOTOGA MARITIMA at 2.40 A resolution Q9WZ29 Q9WZ29 2.4 X-RAY DIFFRACTION 45 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 216 218 2anu-a1-m1-cB_2anu-a1-m1-cA 2anu-a1-m1-cD_2anu-a1-m3-cC 2anu-a1-m2-cB_2anu-a1-m2-cA 2anu-a1-m2-cD_2anu-a1-m1-cC 2anu-a1-m3-cB_2anu-a1-m3-cA 2anu-a1-m3-cD_2anu-a1-m2-cC 2anu-a2-m1-cE_2anu-a2-m1-cF 2anu-a2-m2-cE_2anu-a2-m2-cF 2anu-a2-m3-cE_2anu-a2-m3-cF 2anu-a3-m1-cD_2anu-a3-m3-cC 2anu-a3-m1-cE_2anu-a3-m1-cF 2anu-a3-m2-cD_2anu-a3-m1-cC 2anu-a3-m2-cE_2anu-a3-m2-cF 2anu-a3-m3-cD_2anu-a3-m2-cC 2anu-a3-m3-cE_2anu-a3-m3-cF 2anu-a3-m4-cB_2anu-a3-m4-cA 2anu-a3-m5-cB_2anu-a3-m5-cA 2anu-a3-m6-cB_2anu-a3-m6-cA 2anu-a4-m1-cB_2anu-a4-m1-cA 2anu-a4-m7-cB_2anu-a4-m7-cA 2anu-a4-m8-cB_2anu-a4-m8-cA 2anu-a5-m1-cD_2anu-a5-m3-cC 2anu-a5-m2-cD_2anu-a5-m1-cC TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLR TEWLLCDFHVHTNSDGHLPLGEVVDLFGKHGVDVVSITDHIVDRRTLEQRKRNGEPLGAITEDKFQDYLKRLWREQKRAWEEYGILIPGVEITNNTDLYHIVAVDVKEYVDPSLPVEEIVEKLKEQNALVIAAHPDRKKSWYLWANERFKDTFDAWEIANRDDLFNSVGVKKYRYVANSDFHELWHVYSWKTLVKSEKNIEAIKEAIRKNTDVAIYLR 2anv-a2-m2-cA_2anv-a2-m2-cB crystal structure of P22 lysozyme mutant L86M P09963 P09963 1.04 X-RAY DIFFRACTION 77 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 145 146 2anv-a1-m1-cA_2anv-a1-m1-cB 2anv-a2-m1-cA_2anv-a2-m1-cB MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQLNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS 2anv-a3-m1-cA_2anv-a3-m3-cA crystal structure of P22 lysozyme mutant L86M P09963 P09963 1.04 X-RAY DIFFRACTION 18 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 145 145 MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS 2anv-a3-m3-cA_2anv-a3-m4-cB crystal structure of P22 lysozyme mutant L86M P09963 P09963 1.04 X-RAY DIFFRACTION 13 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 145 146 2anv-a2-m1-cA_2anv-a2-m2-cB 2anv-a2-m2-cA_2anv-a2-m1-cB 2anv-a3-m1-cA_2anv-a3-m2-cB MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQLNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS 2anx-a1-m1-cA_2anx-a1-m1-cB crystal structure of bacteriophage P22 lysozyme mutant L87M P09963 P09963 1.04 X-RAY DIFFRACTION 43 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 146 146 2anv-a3-m1-cA_2anv-a3-m4-cB 2anv-a3-m3-cA_2anv-a3-m2-cB MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQLNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS MMQISSNGITRLKREEGERLKAYSDSRGIPTIGVGHTGKVDGNSVASGMTITAEKSSELLKEDLQWVEDAISSLVRVPLNQNQYDAMCSLIFNIGKSAFAGSTVLRQLNLKNYQAAADAFLLWKKAGKDPDILLPRRRRERALFLS 2ao7-a2-m1-cA_2ao7-a2-m2-cA Adam10 Disintegrin and cysteine- rich domain Q10741 Q10741 2.9 X-RAY DIFFRACTION 54 1.0 9913 (Bos taurus) 9913 (Bos taurus) 146 146 CCYKLKPGKQCSPSQGPCCTAHCAFKSKTEKCRDDSDCAKEGICNGITALCPASDPKPNFTDCNRHTQVCINGQCAGSICEKHGLEECTCKELCHVCCMKKMEPSTCASTGSVQWNKYFLGRTITLQPGSPCNDFRGYCDVFMRCR CCYKLKPGKQCSPSQGPCCTAHCAFKSKTEKCRDDSDCAKEGICNGITALCPASDPKPNFTDCNRHTQVCINGQCAGSICEKHGLEECTCKELCHVCCMKKMEPSTCASTGSVQWNKYFLGRTITLQPGSPCNDFRGYCDVFMRCR 2ao9-a1-m1-cH_2ao9-a1-m2-cH Structural Genomics, The crystal structure of a Phage protein (phBC6A51) from Bacillus cereus ATCC 14579 Q81ES4 Q81ES4 1.9 X-RAY DIFFRACTION 16 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 114 114 AKLDELKQKLTAKQIQAAYLLVENELMESEEKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEG AKLDELKQKLTAKQIQAAYLLVENELMESEEKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEG 2ao9-a1-m2-cE_2ao9-a1-m1-cA Structural Genomics, The crystal structure of a Phage protein (phBC6A51) from Bacillus cereus ATCC 14579 Q81ES4 Q81ES4 1.9 X-RAY DIFFRACTION 12 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 115 117 2ao9-a1-m1-cE_2ao9-a1-m2-cA 2ao9-a1-m1-cG_2ao9-a1-m2-cB 2ao9-a1-m1-cI_2ao9-a1-m2-cC 2ao9-a1-m2-cG_2ao9-a1-m1-cB 2ao9-a1-m2-cI_2ao9-a1-m1-cC MAKLDELKQKLTAKQIQAAYLLVENELMEEKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEGDL MMAKLDELKQKLTAKQIQAAYLLVENELMEEEKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEGDL 2ao9-a2-m1-cG_2ao9-a2-m1-cA Structural Genomics, The crystal structure of a Phage protein (phBC6A51) from Bacillus cereus ATCC 14579 Q81ES4 Q81ES4 1.9 X-RAY DIFFRACTION 123 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 106 117 2ao9-a1-m1-cB_2ao9-a1-m1-cE 2ao9-a1-m1-cD_2ao9-a1-m1-cB 2ao9-a1-m1-cD_2ao9-a1-m1-cC 2ao9-a1-m1-cG_2ao9-a1-m1-cA 2ao9-a1-m1-cH_2ao9-a1-m1-cA 2ao9-a1-m1-cI_2ao9-a1-m1-cC 2ao9-a1-m2-cB_2ao9-a1-m2-cE 2ao9-a1-m2-cD_2ao9-a1-m2-cB 2ao9-a1-m2-cD_2ao9-a1-m2-cC 2ao9-a1-m2-cG_2ao9-a1-m2-cA 2ao9-a1-m2-cH_2ao9-a1-m2-cA 2ao9-a1-m2-cI_2ao9-a1-m2-cC 2ao9-a2-m1-cB_2ao9-a2-m1-cE 2ao9-a2-m1-cD_2ao9-a2-m1-cB 2ao9-a2-m1-cD_2ao9-a2-m1-cC 2ao9-a2-m1-cH_2ao9-a2-m1-cA 2ao9-a2-m1-cI_2ao9-a2-m1-cC LTAKQIQAAYLLVENELMEEEKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEGDL MMAKLDELKQKLTAKQIQAAYLLVENELMEEEKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEGDL 2ao9-a2-m1-cI_2ao9-a2-m1-cF Structural Genomics, The crystal structure of a Phage protein (phBC6A51) from Bacillus cereus ATCC 14579 Q81ES4 Q81ES4 1.9 X-RAY DIFFRACTION 94 0.98 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 99 110 2ao9-a1-m1-cH_2ao9-a1-m1-cE 2ao9-a1-m1-cI_2ao9-a1-m1-cF 2ao9-a1-m2-cH_2ao9-a1-m2-cE 2ao9-a1-m2-cI_2ao9-a1-m2-cF 2ao9-a2-m1-cH_2ao9-a2-m1-cE KLTAKQIQAAYLLVENELKRTQDEMANELGINRTTLWEWRFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEGDLG KLDELKQKLTAKQIQAAYLLVENELMKRTQDEMANELGINRTTLWEWRTKNQDFIAFKSEVADSFLAEKREQVYSKLMQLILGPQPSVKAMQLYMQRFGLLTDKKVIEGD 2ap1-a2-m1-cA_2ap1-a2-m2-cA Crystal structure of the putative regulatory protein Q8ZPZ9 Q8ZPZ9 1.9 X-RAY DIFFRACTION 140 1.0 305 305 NAMYYGFDIGGTKIALGVFDSTRRLQWEKRVPTPHTSYSAFLDAVCELVEEADQRFGVKGSVGIGIPGMPETEDGTLYAANVPAASGKPLRADLSARLDRDVRLDNDANCFALSEAWDDEFTQYPLVMGLILGTGVGGGLVLNGKPITGQSYITGEFGHMRLPVDALTLMGFDFPLRRCGCGQMGCIENYLSGRGFAWLYQHYYDQSLQAPEIIALWEQGDEQAHAHVERYLDLLAVCLGNILTIVDPDLLVIGGGLSNFTAITTQLAERLPRHLLPVARAPRIERARHGDAGGMRGAAFLHLTD NAMYYGFDIGGTKIALGVFDSTRRLQWEKRVPTPHTSYSAFLDAVCELVEEADQRFGVKGSVGIGIPGMPETEDGTLYAANVPAASGKPLRADLSARLDRDVRLDNDANCFALSEAWDDEFTQYPLVMGLILGTGVGGGLVLNGKPITGQSYITGEFGHMRLPVDALTLMGFDFPLRRCGCGQMGCIENYLSGRGFAWLYQHYYDQSLQAPEIIALWEQGDEQAHAHVERYLDLLAVCLGNILTIVDPDLLVIGGGLSNFTAITTQLAERLPRHLLPVARAPRIERARHGDAGGMRGAAFLHLTD 2aph-a3-m1-cA_2aph-a3-m2-cB Crystal structure of human PGRP-IalphaC in complex with muramyl pentapeptide Q96LB9 Q96LB9 2.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 1twq-a1-m1-cP_1twq-a1-m1-cA 2aph-a1-m1-cC_2aph-a1-m1-cA 2aph-a2-m1-cD_2aph-a2-m1-cB 2aph-a3-m1-cC_2aph-a3-m1-cA 2aph-a3-m2-cD_2aph-a3-m2-cB VCPNIIKRSAWEARETHCPKMNLPAKYVIIIHTAGTSCTVSTDCQTVVRNIQSFHMDTRNFCDIGYHFLVGQDGGVYEGVGWHIQGSHTYGFNDIALGIAFIGYFVEKPPNAAALEAAQDLIQCAVVEGYLTPNYLLMGHSDVVNILSPGQALYNIISTWPHFKH VCPNIIKRSAWEARETHCPKMNLPAKYVIIIHTAGTSCTVSTDCQTVVRNIQSFHMDTRNFCDIGYHFLVGQDGGVYEGVGWHIQGSHTYGFNDIALGIAFIGYFVEKPPNAAALEAAQDLIQCAVVEGYLTPNYLLMGHSDVVNILSPGQALYNIISTWPHFKH 2aps-a1-m1-cA_2aps-a1-m1-cB CU/ZN SUPEROXIDE DISMUTASE FROM ACTINOBACILLUS PLEUROPNEUMONIAE P24702 P24702 1.9 X-RAY DIFFRACTION 62 1.0 715 (Actinobacillus pleuropneumoniae) 715 (Actinobacillus pleuropneumoniae) 155 155 EKLVVQVQQLDPVKGNKDVGTVEITESAYGLVFTPHLHGLAQGLHGFHIHQNPSCEPKEKDGKLVAGLGAGGHWDPKETKQHGYPWSDNAHLGDLPALFVEHDGSATNPVLAPRLKKLDEVKGHSLMIHEGGDNHSDHPAPLGGGGPRMACGVIK EKLVVQVQQLDPVKGNKDVGTVEITESAYGLVFTPHLHGLAQGLHGFHIHQNPSCEPKEKDGKLVAGLGAGGHWDPKETKQHGYPWSDNAHLGDLPALFVEHDGSATNPVLAPRLKKLDEVKGHSLMIHEGGDNHSDHPAPLGGGGPRMACGVIK 2aq3-a1-m1-cA_2aq3-a1-m1-cC Crystal structure of T-cell receptor V beta domain variant complexed with superantigen SEC3 P04213 P04213 2.3 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 109 109 AAVTQSPRNKVAVTGEKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILESATPSQTSVYFCASGGGGTLYFGAGTRLSVL AAVTQSPRNKVAVTGEKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILESATPSQTSVYFCASGGGGTLYFGAGTRLSVL 2aq3-a1-m1-cE_2aq3-a1-m1-cG Crystal structure of T-cell receptor V beta domain variant complexed with superantigen SEC3 P04213 P04213 2.3 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 109 109 AAVTQSPRNKVAVTGEKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILESATPSQTSVYFCASGGGGTLYFGAGTRLSVL AAVTQSPRNKVAVTGEKVTLSCQQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQEQFSLILESATPSQTSVYFCASGGGGTLYFGAGTRLSVL 2aq6-a1-m1-cA_2aq6-a1-m1-cB X-ray crystal structure of mycobacterium tuberculosis pyridoxine 5'-phosphate oxidase complexed with pyridoxal 5'-phosphate at 1.7 a resolution O06553 O06553 1.7 X-RAY DIFFRACTION 54 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 143 143 1w9a-a1-m1-cA_1w9a-a1-m1-cB 1xxo-a1-m1-cA_1xxo-a1-m1-cB 1y30-a1-m1-cA_1y30-a1-m1-cB 4qvb-a1-m1-cA_4qvb-a1-m1-cB VFDDKLLAVISGNSIGVLATIKHDGRPQLSNVQYHFDPRKLLIQVSIAEPRAKTRNLRRDPRASILVDADDGWSYAVAEGTAQLTPPAAAPDDDTVEALIALYRNIAGEHSDWDDYRQAMVTDRRVLLTLPISHVYGLPPGMR VFDDKLLAVISGNSIGVLATIKHDGRPQLSNVQYHFDPRKLLIQVSIAEPRAKTRNLRRDPRASILVDADDGWSYAVAEGTAQLTPPAAAPDDDTVEALIALYRNIAGEHSDWDDYRQAMVTDRRVLLTLPISHVYGLPPGMR 2aqj-a1-m1-cA_2aqj-a1-m2-cA The structure of tryptophan 7-halogenase (PrnA) suggests a mechanism for regioselective chlorination P95480 P95480 1.8 X-RAY DIFFRACTION 47 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 517 517 2apg-a1-m1-cA_2apg-a1-m2-cA 2ar8-a1-m1-cA_2ar8-a1-m2-cA 2ard-a1-m1-cA_2ard-a1-m2-cA NKPIKNIVIVGGGTAGWMAASYLVRALQQQANITLIESAAIPRIGVGEATIPSLQKVFFDFLGIPEREWMPQVNGAFKAAIKFVNWRKSPDPSRDDHFYHLFGNVPNCDGVPLTHYWLRKREQGFQQPMEYACYPQPGALDGKLAPCLSDGTRQMSHAWHFDAHLVADFLKRWAVERGVNRVVDEVVDVRLNNRGYISNLLTKEGRTLEADLFIDCSGMRGLLINQALKEPFIDMSDYLLCDSAVASAVPNDDARDGVEPYTSSIAMNSGWTWKIPMLGRFGSGYVFSSHFTSRDQATADFLKLWGLSDNQPLNQIKFRVGRNKRAWVNNCVSIGLSSCFLEPLESTGIYFIYAALYQLVKHFPDTSFDPRLSDAFNAEIVHMFDDCRDFVQAHYFTTSRDDTPFWLANRHDLRLSDAIKEKVQRYKAGLPLTTTSFDDSTYYETFDYEFKNFWLNGNYYCIFAGLGMLPDRSLPLLQHRPESIEKAEAMFASIRREAERLRTSLPTNYDYLRSLRD NKPIKNIVIVGGGTAGWMAASYLVRALQQQANITLIESAAIPRIGVGEATIPSLQKVFFDFLGIPEREWMPQVNGAFKAAIKFVNWRKSPDPSRDDHFYHLFGNVPNCDGVPLTHYWLRKREQGFQQPMEYACYPQPGALDGKLAPCLSDGTRQMSHAWHFDAHLVADFLKRWAVERGVNRVVDEVVDVRLNNRGYISNLLTKEGRTLEADLFIDCSGMRGLLINQALKEPFIDMSDYLLCDSAVASAVPNDDARDGVEPYTSSIAMNSGWTWKIPMLGRFGSGYVFSSHFTSRDQATADFLKLWGLSDNQPLNQIKFRVGRNKRAWVNNCVSIGLSSCFLEPLESTGIYFIYAALYQLVKHFPDTSFDPRLSDAFNAEIVHMFDDCRDFVQAHYFTTSRDDTPFWLANRHDLRLSDAIKEKVQRYKAGLPLTTTSFDDSTYYETFDYEFKNFWLNGNYYCIFAGLGMLPDRSLPLLQHRPESIEKAEAMFASIRREAERLRTSLPTNYDYLRSLRD 2aqn-a3-m1-cB_2aqn-a3-m2-cB CU/ZN superoxide dismutase from neisseria meningitidis P57005 P57005 1.4 X-RAY DIFFRACTION 27 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 155 155 2aqq-a3-m1-cB_2aqq-a3-m2-cB 2aqr-a3-m1-cB_2aqr-a3-m2-cB 2aqt-a3-m1-cB_2aqt-a3-m2-cB ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEKEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEKEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK 2aqp-a2-m1-cA_2aqp-a2-m2-cB CU/ZN superoxide dismutase from neisseria meningitidis E73A mutant P57005 P57005 1.3 X-RAY DIFFRACTION 10 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 155 155 2aqp-a2-m1-cB_2aqp-a2-m2-cA ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSAGLHGFHIHENPSCEPKEKEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSAGLHGFHIHENPSCEPKEKEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK 2aqr-a3-m1-cB_2aqr-a3-m2-cC CU/ZN superoxide dismutase from neisseria meningitidis K91Q mutant Q59623 Q59623 1.75 X-RAY DIFFRACTION 27 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 155 155 2aqn-a3-m1-cA_2aqn-a3-m4-cC 2aqn-a3-m1-cB_2aqn-a3-m3-cC 2aqn-a3-m2-cA_2aqn-a3-m3-cC 2aqn-a3-m2-cB_2aqn-a3-m4-cC 2aqq-a3-m1-cA_2aqq-a3-m4-cC 2aqq-a3-m1-cB_2aqq-a3-m3-cC 2aqq-a3-m2-cA_2aqq-a3-m3-cC 2aqq-a3-m2-cB_2aqq-a3-m4-cC 2aqr-a3-m1-cA_2aqr-a3-m1-cC 2aqr-a3-m1-cC_2aqr-a3-m2-cB 2aqr-a3-m2-cA_2aqr-a3-m2-cC 2aqt-a3-m1-cA_2aqt-a3-m1-cC 2aqt-a3-m1-cB_2aqt-a3-m2-cC 2aqt-a3-m1-cC_2aqt-a3-m2-cB 2aqt-a3-m2-cA_2aqt-a3-m2-cC ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEQEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEQEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK 2aqr-a3-m1-cC_2aqr-a3-m2-cC CU/ZN superoxide dismutase from neisseria meningitidis K91Q mutant Q59623 Q59623 1.75 X-RAY DIFFRACTION 64 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 155 155 2aqn-a1-m1-cA_2aqn-a1-m1-cB 2aqn-a2-m1-cC_2aqn-a2-m2-cC 2aqn-a3-m1-cA_2aqn-a3-m1-cB 2aqn-a3-m2-cA_2aqn-a3-m2-cB 2aqn-a3-m3-cC_2aqn-a3-m4-cC 2aqp-a1-m1-cA_2aqp-a1-m1-cB 2aqp-a2-m1-cA_2aqp-a2-m1-cB 2aqp-a2-m2-cA_2aqp-a2-m2-cB 2aqq-a1-m1-cA_2aqq-a1-m1-cB 2aqq-a2-m1-cC_2aqq-a2-m2-cC 2aqq-a3-m1-cA_2aqq-a3-m1-cB 2aqq-a3-m2-cA_2aqq-a3-m2-cB 2aqq-a3-m3-cC_2aqq-a3-m4-cC 2aqr-a1-m1-cA_2aqr-a1-m1-cB 2aqr-a2-m1-cC_2aqr-a2-m2-cC 2aqr-a3-m1-cA_2aqr-a3-m1-cB 2aqr-a3-m2-cA_2aqr-a3-m2-cB 2aqs-a1-m1-cB_2aqs-a1-m1-cA 2aqt-a1-m1-cA_2aqt-a1-m1-cB 2aqt-a2-m1-cC_2aqt-a2-m2-cC 2aqt-a3-m1-cA_2aqt-a3-m1-cB 2aqt-a3-m1-cC_2aqt-a3-m2-cC 2aqt-a3-m2-cA_2aqt-a3-m2-cB ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEQEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEQEGKLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK 2aqt-a3-m2-cB_2aqt-a3-m2-cC CU/ZN superoxide dismutase from neisseria meningitidis K91Q, K94Q double mutant P57005 P57005 1.8 X-RAY DIFFRACTION 12 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 155 155 2aqt-a3-m1-cB_2aqt-a3-m1-cC ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEQEGQLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK ASIEVKVQQLDPVNGNKDVGTVTITESNYGLVFTPDLQGLSEGLHGFHIHENPSCEPKEQEGQLTAGLGAGGHWDPKGAKQHGYPWQDDAHLGDLPALTVLHDGTATNPVLAPRLKHLDDVRGHSIMIHTGGDNHSDHPAPLGGGGPRMACGVIK 2aqv-a1-m1-cA_2aqv-a1-m4-cB Crystal Structure of E. coli Isoaspartyl Dipeptidase mutant Y137F P39377 P39377 1.95 X-RAY DIFFRACTION 65 0.997 562 (Escherichia coli) 562 (Escherichia coli) 374 374 1onw-a1-m1-cA_1onw-a1-m3-cB 1onw-a1-m2-cA_1onw-a1-m4-cB 1onw-a1-m3-cA_1onw-a1-m2-cB 1onw-a1-m4-cA_1onw-a1-m1-cB 1onx-a1-m1-cA_1onx-a1-m4-cB 1onx-a1-m1-cB_1onx-a1-m3-cA 1onx-a1-m2-cA_1onx-a1-m3-cB 1onx-a1-m2-cB_1onx-a1-m4-cA 1po9-a3-m1-cA_1po9-a3-m1-cB 1po9-a3-m2-cA_1po9-a3-m2-cB 1po9-a3-m3-cA_1po9-a3-m3-cB 1po9-a3-m4-cA_1po9-a3-m4-cB 1poj-a3-m1-cA_1poj-a3-m7-cB 1poj-a3-m2-cA_1poj-a3-m8-cB 1poj-a3-m3-cA_1poj-a3-m5-cB 1poj-a3-m4-cA_1poj-a3-m6-cB 1pok-a3-m5-cB_1pok-a3-m1-cA 1pok-a3-m6-cB_1pok-a3-m2-cA 1pok-a3-m7-cB_1pok-a3-m4-cA 1pok-a3-m8-cB_1pok-a3-m3-cA 1ybq-a1-m1-cB_1ybq-a1-m3-cA 1ybq-a1-m2-cB_1ybq-a1-m4-cA 1ybq-a1-m3-cB_1ybq-a1-m2-cA 1ybq-a1-m4-cB_1ybq-a1-m1-cA 2aqo-a1-m1-cB_2aqo-a1-m3-cA 2aqo-a1-m2-cB_2aqo-a1-m4-cA 2aqo-a1-m3-cB_2aqo-a1-m2-cA 2aqo-a1-m4-cB_2aqo-a1-m1-cA 2aqv-a1-m1-cB_2aqv-a1-m3-cA 2aqv-a1-m2-cA_2aqv-a1-m3-cB 2aqv-a1-m2-cB_2aqv-a1-m4-cA 5lp3-a1-m1-cB_5lp3-a1-m1-cA 5lp3-a1-m1-cC_5lp3-a1-m1-cF 5lp3-a1-m1-cD_5lp3-a1-m1-cH 5lp3-a1-m1-cE_5lp3-a1-m1-cG MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAFHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGGVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFET MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAFHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFET 2aqv-a1-m2-cB_2aqv-a1-m4-cB Crystal Structure of E. coli Isoaspartyl Dipeptidase mutant Y137F P39377 P39377 1.95 X-RAY DIFFRACTION 61 1.0 562 (Escherichia coli) 562 (Escherichia coli) 374 374 1onw-a1-m1-cA_1onw-a1-m3-cA 1onw-a1-m1-cA_1onw-a1-m4-cA 1onw-a1-m1-cB_1onw-a1-m3-cB 1onw-a1-m1-cB_1onw-a1-m4-cB 1onw-a1-m2-cA_1onw-a1-m3-cA 1onw-a1-m2-cA_1onw-a1-m4-cA 1onw-a1-m2-cB_1onw-a1-m3-cB 1onw-a1-m2-cB_1onw-a1-m4-cB 1onx-a1-m1-cA_1onx-a1-m3-cA 1onx-a1-m1-cA_1onx-a1-m4-cA 1onx-a1-m1-cB_1onx-a1-m3-cB 1onx-a1-m1-cB_1onx-a1-m4-cB 1onx-a1-m2-cA_1onx-a1-m3-cA 1onx-a1-m2-cA_1onx-a1-m4-cA 1onx-a1-m2-cB_1onx-a1-m3-cB 1onx-a1-m2-cB_1onx-a1-m4-cB 1po9-a3-m1-cA_1po9-a3-m3-cA 1po9-a3-m1-cA_1po9-a3-m4-cA 1po9-a3-m1-cB_1po9-a3-m3-cB 1po9-a3-m1-cB_1po9-a3-m4-cB 1po9-a3-m2-cA_1po9-a3-m3-cA 1po9-a3-m2-cA_1po9-a3-m4-cA 1po9-a3-m2-cB_1po9-a3-m3-cB 1po9-a3-m2-cB_1po9-a3-m4-cB 1poj-a3-m1-cA_1poj-a3-m3-cA 1poj-a3-m1-cA_1poj-a3-m4-cA 1poj-a3-m2-cA_1poj-a3-m3-cA 1poj-a3-m2-cA_1poj-a3-m4-cA 1poj-a3-m5-cB_1poj-a3-m7-cB 1poj-a3-m5-cB_1poj-a3-m8-cB 1poj-a3-m6-cB_1poj-a3-m7-cB 1poj-a3-m6-cB_1poj-a3-m8-cB 1pok-a3-m1-cA_1pok-a3-m3-cA 1pok-a3-m1-cA_1pok-a3-m4-cA 1pok-a3-m2-cA_1pok-a3-m3-cA 1pok-a3-m2-cA_1pok-a3-m4-cA 1pok-a3-m5-cB_1pok-a3-m7-cB 1pok-a3-m5-cB_1pok-a3-m8-cB 1pok-a3-m6-cB_1pok-a3-m7-cB 1pok-a3-m6-cB_1pok-a3-m8-cB 1ybq-a1-m1-cA_1ybq-a1-m3-cA 1ybq-a1-m1-cA_1ybq-a1-m4-cA 1ybq-a1-m1-cB_1ybq-a1-m3-cB 1ybq-a1-m1-cB_1ybq-a1-m4-cB 1ybq-a1-m2-cA_1ybq-a1-m3-cA 1ybq-a1-m2-cA_1ybq-a1-m4-cA 1ybq-a1-m2-cB_1ybq-a1-m3-cB 1ybq-a1-m2-cB_1ybq-a1-m4-cB 2aqo-a1-m1-cA_2aqo-a1-m3-cA 2aqo-a1-m1-cA_2aqo-a1-m4-cA 2aqo-a1-m1-cB_2aqo-a1-m3-cB 2aqo-a1-m1-cB_2aqo-a1-m4-cB 2aqo-a1-m2-cA_2aqo-a1-m3-cA 2aqo-a1-m2-cA_2aqo-a1-m4-cA 2aqo-a1-m2-cB_2aqo-a1-m3-cB 2aqo-a1-m2-cB_2aqo-a1-m4-cB 2aqv-a1-m1-cA_2aqv-a1-m3-cA 2aqv-a1-m1-cA_2aqv-a1-m4-cA 2aqv-a1-m1-cB_2aqv-a1-m3-cB 2aqv-a1-m1-cB_2aqv-a1-m4-cB 2aqv-a1-m2-cA_2aqv-a1-m3-cA 2aqv-a1-m2-cA_2aqv-a1-m4-cA 2aqv-a1-m2-cB_2aqv-a1-m3-cB 5lp3-a1-m1-cA_5lp3-a1-m1-cG 5lp3-a1-m1-cA_5lp3-a1-m1-cH 5lp3-a1-m1-cB_5lp3-a1-m1-cD 5lp3-a1-m1-cB_5lp3-a1-m1-cE 5lp3-a1-m1-cC_5lp3-a1-m1-cD 5lp3-a1-m1-cC_5lp3-a1-m1-cE 5lp3-a1-m1-cF_5lp3-a1-m1-cG 5lp3-a1-m1-cF_5lp3-a1-m1-cH 5lp3-a1-m1-cI_5lp3-a1-m1-cK 5lp3-a1-m1-cI_5lp3-a1-m1-cL 5lp3-a1-m1-cJ_5lp3-a1-m1-cK 5lp3-a1-m1-cJ_5lp3-a1-m1-cL MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAFHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFET MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAFHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFET 2aqv-a1-m4-cA_2aqv-a1-m4-cB Crystal Structure of E. coli Isoaspartyl Dipeptidase mutant Y137F P39377 P39377 1.95 X-RAY DIFFRACTION 81 0.997 562 (Escherichia coli) 562 (Escherichia coli) 374 374 1onw-a1-m1-cA_1onw-a1-m1-cB 1onw-a1-m2-cA_1onw-a1-m2-cB 1onw-a1-m3-cA_1onw-a1-m3-cB 1onw-a1-m4-cA_1onw-a1-m4-cB 1onx-a1-m1-cA_1onx-a1-m1-cB 1onx-a1-m2-cA_1onx-a1-m2-cB 1onx-a1-m3-cA_1onx-a1-m3-cB 1onx-a1-m4-cA_1onx-a1-m4-cB 1po9-a3-m1-cA_1po9-a3-m4-cB 1po9-a3-m1-cB_1po9-a3-m3-cA 1po9-a3-m2-cA_1po9-a3-m3-cB 1po9-a3-m2-cB_1po9-a3-m4-cA 1poj-a3-m1-cA_1poj-a3-m6-cB 1poj-a3-m2-cA_1poj-a3-m5-cB 1poj-a3-m3-cA_1poj-a3-m7-cB 1poj-a3-m4-cA_1poj-a3-m8-cB 1pok-a3-m5-cB_1pok-a3-m3-cA 1pok-a3-m6-cB_1pok-a3-m4-cA 1pok-a3-m7-cB_1pok-a3-m1-cA 1pok-a3-m8-cB_1pok-a3-m2-cA 1pok-a4-m7-cB_1pok-a4-m1-cA 1ybq-a1-m1-cB_1ybq-a1-m1-cA 1ybq-a1-m2-cB_1ybq-a1-m2-cA 1ybq-a1-m3-cB_1ybq-a1-m3-cA 1ybq-a1-m4-cB_1ybq-a1-m4-cA 2aqo-a1-m1-cB_2aqo-a1-m1-cA 2aqo-a1-m2-cB_2aqo-a1-m2-cA 2aqo-a1-m3-cB_2aqo-a1-m3-cA 2aqo-a1-m4-cB_2aqo-a1-m4-cA 2aqv-a1-m1-cA_2aqv-a1-m1-cB 2aqv-a1-m2-cA_2aqv-a1-m2-cB 2aqv-a1-m3-cA_2aqv-a1-m3-cB 5lp3-a1-m1-cB_5lp3-a1-m1-cG 5lp3-a1-m1-cC_5lp3-a1-m1-cH 5lp3-a1-m1-cD_5lp3-a1-m1-cA 5lp3-a1-m1-cE_5lp3-a1-m1-cF MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAFHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGGVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFET MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAFHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFET 2aqx-a1-m1-cB_2aqx-a1-m1-cA Crystal Structure of the Catalytic and CaM-Binding domains of Inositol 1,4,5-Trisphosphate 3-Kinase B B2RXC2 B2RXC2 2.5 X-RAY DIFFRACTION 98 1.0 10090 (Mus musculus) 10090 (Mus musculus) 287 289 VQWSPFVMSFKKKYPWIQLAGHAGSFKAAANGRILKKHCESEQRCLDRLMADVLRPFVPAYHGDVVKDGERYNQMDDLLADFDSPCVMDCKMGVRTYLEEELTKARKKPSLRKDMYQKMVEVDPEAPTEEEKAQRAVTKPRYMQWRETISSTATLGFRIEGIKKEDGSVNRDFKKTKTREQVTEAFREFTKGNQNILIAYRDRLKAIRATLEISPFFKCHEVIGSSLLFIHDKKEQAKVWMIDFGKTTPLPEGQTLQHDVPWQEGNREDGYLSGLDNLIDILTEMSQ MVQWSPFVMSFKKKYPWIQLAGHAGSFKAAANGRILKKHCESEQRCLDRLMADVLRPFVPAYHGDVVKDGERYNQMDDLLADFDSPCVMDCKMGVRTYLEEELTKARKKPSLRKDMYQKMVEVDPEAPTEEEKAQRAVTKPRYMQWRETISSTATLGFRIEGIKKEDGSVNRDFKKTKTREQVTEAFREFTKGNQNILIAYRDRLKAIRATLEISPFFKCHEVIGSSLLFIHDKKEQAKVWMIDFGKTTPLPEGQTLQHDVPWQEGNREDGYLSGLDNLIDILTEMSQG 2ar7-a3-m1-cA_2ar7-a3-m2-cB Crystal structure of human adenylate kinase 4, AK4 P27144 P27144 2.15 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 2ar7-a3-m1-cB_2ar7-a3-m2-cA KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDKPEAVAARLRQYKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYL KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDKPEAVAARLRQYKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYL 2ar7-a5-m1-cA_2ar7-a5-m1-cB Crystal structure of human adenylate kinase 4, AK4 P27144 P27144 2.15 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 2ar7-a3-m1-cA_2ar7-a3-m1-cB 2ar7-a3-m2-cA_2ar7-a3-m2-cB 2ar7-a4-m1-cA_2ar7-a4-m1-cB 2ar7-a4-m3-cA_2ar7-a4-m3-cB KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDKPEAVAARLRQYKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYL KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDKPEAVAARLRQYKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYL 2ar7-a7-m1-cB_2ar7-a7-m2-cB Crystal structure of human adenylate kinase 4, AK4 P27144 P27144 2.15 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 2ar7-a3-m1-cB_2ar7-a3-m2-cB 2ar7-a4-m1-cA_2ar7-a4-m3-cA 2ar7-a6-m1-cA_2ar7-a6-m3-cA KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDKPEAVAARLRQYKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYL KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDKPEAVAARLRQYKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYL 2ara-a1-m1-cA_2ara-a1-m2-cA APO FORM OF ESCHERICHIA COLI REGULATORY PROTEIN ARAC P0A9E0 P0A9E0 2.8 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 149 149 1xja-a1-m1-cB_1xja-a1-m1-cA 1xja-a2-m1-cD_1xja-a2-m1-cC 1xja-a3-m1-cE_1xja-a3-m2-cE 2aac-a1-m1-cA_2aac-a1-m1-cB 2arc-a1-m1-cA_2arc-a1-m1-cB LVAGLTPIEANGYLDFFIDRPLGMKGYILNLTIRGQGVVKNQGREFVCRPGDILLFPPGEIHHYGRHPEAREWYHQWVYFRPRAYWHEWLNWPSIFANTGFFRPDEAHQPHFSDLFGQIINAGQGEGRYSELLAINLLEQLLLRRMEAI LVAGLTPIEANGYLDFFIDRPLGMKGYILNLTIRGQGVVKNQGREFVCRPGDILLFPPGEIHHYGRHPEAREWYHQWVYFRPRAYWHEWLNWPSIFANTGFFRPDEAHQPHFSDLFGQIINAGQGEGRYSELLAINLLEQLLLRRMEAI 2ark-a1-m1-cC_2ark-a1-m1-cD Structure of a flavodoxin from Aquifex aeolicus O67866 O67866 2.4 X-RAY DIFFRACTION 68 0.994 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 179 180 2ark-a1-m1-cB_2ark-a1-m1-cA 2ark-a2-m1-cE_2ark-a2-m2-cE 2ark-a2-m1-cF_2ark-a2-m2-cF AGKVLVIYDTRTGNTKKAELVAEGARSLEGTEVRLKHVDEATKEDVLWADGLAVGSPTNGLVSWKKRFFDDVLGDLWGEIDGKIACAFSSSGGWGGGNEVACSILTLNFGFLVFGVTDYVGKKFTLHYGAVVAGEPRSEEEKEACRRLGRRLAEWVAIFVDGRKELLEKIRKDPARFVD SNAGKVLVIYDTRTGNTKKAELVAEGARSLEGTEVRLKHVDEATKEDVLWADGLAVGSPTNGLVSWKKRFFDDVLGDLWGEIDGKIACAFSSSGGWGGGNEVACSILTLNFGFLVFGVTDYVGKKFTLHYGAVVAGEPRSEEEKEACRRLGRRLAEWVAIFVDGRKELLEKIRKDPARFV 2ark-a2-m1-cE_2ark-a2-m2-cF Structure of a flavodoxin from Aquifex aeolicus O67866 O67866 2.4 X-RAY DIFFRACTION 40 0.994 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 178 178 2ark-a1-m1-cB_2ark-a1-m1-cD 2ark-a1-m1-cC_2ark-a1-m1-cA 2ark-a2-m1-cF_2ark-a2-m2-cE GKVLVIYDTRTGNTKKAELVAEGARSLEGTEVRLKHVDEATKEDVLWADGLAVGSPTNGLVSWKKRFFDDVLGDLWGEIDGKIACAFSSSGGWGGGNEVACSILTLNFGFLVFGVTDYVGKKFTLHYGAVVAGEPRSEEEKEACRRLGRRLAEWVAIFVDGRKELLEKIRKDPARFVD AGKVLVIYDTRTGNTKKAELVAEGARSLEGTEVRLKHVDEATKEDVLWADGLAVGSPTNGLVSWKKRFFDDVLGDLWGEIDGKIACAFSSSGGWGGGNEVACSILTLNFGFLVFGVTDYVGKKFTLHYGAVVAGEPRSEEEKEACRRLGRRLAEWVAIFVDGRKELLEKIRKDPARFV 2ark-a2-m2-cE_2ark-a2-m2-cF Structure of a flavodoxin from Aquifex aeolicus O67866 O67866 2.4 X-RAY DIFFRACTION 72 0.994 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 178 178 2ark-a1-m1-cA_2ark-a1-m1-cD 2ark-a1-m1-cB_2ark-a1-m1-cC 2ark-a2-m1-cE_2ark-a2-m1-cF GKVLVIYDTRTGNTKKAELVAEGARSLEGTEVRLKHVDEATKEDVLWADGLAVGSPTNGLVSWKKRFFDDVLGDLWGEIDGKIACAFSSSGGWGGGNEVACSILTLNFGFLVFGVTDYVGKKFTLHYGAVVAGEPRSEEEKEACRRLGRRLAEWVAIFVDGRKELLEKIRKDPARFVD AGKVLVIYDTRTGNTKKAELVAEGARSLEGTEVRLKHVDEATKEDVLWADGLAVGSPTNGLVSWKKRFFDDVLGDLWGEIDGKIACAFSSSGGWGGGNEVACSILTLNFGFLVFGVTDYVGKKFTLHYGAVVAGEPRSEEEKEACRRLGRRLAEWVAIFVDGRKELLEKIRKDPARFV 2arz-a1-m1-cB_2arz-a1-m1-cA Crystal Structure of Protein of Unknown Function from Pseudomonas aeruginosa Q9HW16 Q9HW16 2 X-RAY DIFFRACTION 86 0.983 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 235 238 ANSMSVEAAKNARELLLKEYRAVLSTHSKKWPGFPFGSVVPYCLDAEGRPLILISRIAQHTHNLQADPRCSMLVGEAVGRLTLLAEARQLAEEEVAAAAERYYRYFPESADYHRVHDFDFWVLQPVQWRFIGGFGAIHWLAAERVPLANPFAGEAERGMVEHMNSDHAAAIAHYVELAGLPAHAAAQLAGIDTEGFHLRIGQGLHWLPFPAACGNPGAVRQALVQLARAERWPTV SVEAAKNARELLLKEYRAVLSTHSKKWPGFPFGSVVPYCLDAEGRPLILISRIAQHTHNLQADPRCSMLVGERGAEDIQAVGRLTLLAEARQLAEEEVAAAAERYYRYFPESADYHRVHDFDFWVLQPVQWRFIGGFGAIHWLAAERVPLANPFAGEAERGMVEHMNSDHAAAIAHYVELAGLPAHAAAQLAGIDTEGFHLRIGQGLHWLPFPAACGNPGAVRQALVQLARAERWPTV 2as0-a1-m1-cA_2as0-a1-m1-cB Crystal Structure of PH1915 (APC 5817): A Hypothetical RNA Methyltransferase O59578 O59578 1.8 X-RAY DIFFRACTION 68 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 382 382 ARVVVDAQAARAIGKGAIVFKKGVVRVEGDIKPGDIVEVYTRGGKFLGKGFANPNSNIVRIVTKDKDVEINKDLFKRRIKKANEYRKKVLKYTNVYRVYGEADYLPGLIVDRFNDIASLQISSAGERFKLDVAEAIEVEPGIETVFEKNTGRSRRREGLPEIERVLLGKEKYRTIIQEGRAKFIVDRGQKTGFFLDQRENRLALEKWVQPGDRVLDVFTYTGGFAIHAAIAGADEVIGIDKSPRAIETAKENAKLNGVEDRKFIVGSAFEEEKLQKKGEKFDIVVLDPPAFVQHEKDLKAGLRAYFNVNFAGLNLVKDGGILVTCSCSQHVDLQFKDIIAAGAKAGKFLKLEPYRTQAPDHPILASKDTEYLKCLFLYVEDR ARVVVDAQAARAIGKGAIVFKKGVVRVEGDIKPGDIVEVYTRGGKFLGKGFANPNSNIVRIVTKDKDVEINKDLFKRRIKKANEYRKKVLKYTNVYRVYGEADYLPGLIVDRFNDIASLQISSAGERFKLDVAEAIEVEPGIETVFEKNTGRSRRREGLPEIERVLLGKEKYRTIIQEGRAKFIVDRGQKTGFFLDQRENRLALEKWVQPGDRVLDVFTYTGGFAIHAAIAGADEVIGIDKSPRAIETAKENAKLNGVEDRKFIVGSAFEEEKLQKKGEKFDIVVLDPPAFVQHEKDLKAGLRAYFNVNFAGLNLVKDGGILVTCSCSQHVDLQFKDIIAAGAKAGKFLKLEPYRTQAPDHPILASKDTEYLKCLFLYVEDR 2as8-a1-m1-cA_2as8-a1-m1-cB Crystal structure of mature and fully active Der p 1 allergen P08176 P08176 1.95 X-RAY DIFFRACTION 50 1.0 6956 (Dermatophagoides pteronyssinus) 6956 (Dermatophagoides pteronyssinus) 222 222 TNACSINGNAPAEIDLRQMRTVTPIRMQGGCGSCWAFSGVAATESAYLAYRQQSLDLAEQELVDCASQHGCHGDTIPRGIEYIQHNGVVQESYYRYVAREQSCRRPNAQRFGISNYCQIYPPNANKIREALAQTHSAIAVIIGIKDLDAFRHYDGRTIIQRDNGYQPNYHAVNIVGYSNAQGVDYWIVRNSWDTNWGDNGYGYFAANIDLMMIEEYPYVVIL TNACSINGNAPAEIDLRQMRTVTPIRMQGGCGSCWAFSGVAATESAYLAYRQQSLDLAEQELVDCASQHGCHGDTIPRGIEYIQHNGVVQESYYRYVAREQSCRRPNAQRFGISNYCQIYPPNANKIREALAQTHSAIAVIIGIKDLDAFRHYDGRTIIQRDNGYQPNYHAVNIVGYSNAQGVDYWIVRNSWDTNWGDNGYGYFAANIDLMMIEEYPYVVIL 2ash-a2-m1-cC_2ash-a2-m1-cD Crystal structure of Queuine tRNA-ribosyltransferase (EC 2.4.2.29) (tRNA-guanine (tm1561) from THERMOTOGA MARITIMA at 1.90 A resolution Q9X1P7 Q9X1P7 1.9 X-RAY DIFFRACTION 102 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 361 361 2ash-a1-m1-cB_2ash-a1-m1-cA MEFEVKKTFGKARLGVMKLHHGAVETPVFMPVGTNASVKLLTPRDLEEAGAEIILSNTFHLMLKPGVEIIKLHRGLHNFMGWKRPILTDSGGFQVFSLPKIRIDDEGVVFRSPIDGSKVFLNPEISMEVQIALGSDICMVFDHCPVADYEEVKEATERTYRWALRSKKAFKTENQALFGIVQGGIYPDLRRESALQLTSIGFDGYAIGGLSIGEERSLTLEMTEVTVEFLPEDKPRYFMGGGSPELILELVDRGVDMFDSVFPTRIARHGTALTWNGKLNLKASYNKRSLEPVDERCGCYTCKNFTRSYIHHLFDRGEVLGQILLTIHNINFMISLMKEVRRSIESGTFKELKSKVVEVYS MEFEVKKTFGKARLGVMKLHHGAVETPVFMPVGTNASVKLLTPRDLEEAGAEIILSNTFHLMLKPGVEIIKLHRGLHNFMGWKRPILTDSGGFQVFSLPKIRIDDEGVVFRSPIDGSKVFLNPEISMEVQIALGSDICMVFDHCPVADYEEVKEATERTYRWALRSKKAFKTENQALFGIVQGGIYPDLRRESALQLTSIGFDGYAIGGLSIGEERSLTLEMTEVTVEFLPEDKPRYFMGGGSPELILELVDRGVDMFDSVFPTRIARHGTALTWNGKLNLKASYNKRSLEPVDERCGCYTCKNFTRSYIHHLFDRGEVLGQILLTIHNINFMISLMKEVRRSIESGTFKELKSKVVEVYS 2ask-a2-m1-cA_2ask-a2-m2-cB Structure of human Artemin Q5T4W7 Q5T4W7 1.55 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 2ask-a2-m1-cB_2ask-a2-m2-cA ARGCRLRSQLVPVRALGLGHRSDELVRFRFCSGSCRRARSPHDLSLASLLGAGALRPPPGSRPVSQPCCRPTRYEAVSFMDVNSTWRTVDRLSATACGCLG ARGCRLRSQLVPVRALGLGHRSDELVRFRFCSGSCRRARSPHDLSLASLLGAGALRPPPGSRPVSQPCCRPTRYEAVSFMDVNSTWRTVDRLSATACGCLG 2ask-a3-m3-cA_2ask-a3-m3-cB Structure of human Artemin Q5T4W7 Q5T4W7 1.55 X-RAY DIFFRACTION 144 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 2ask-a1-m1-cA_2ask-a1-m1-cB 2ask-a2-m1-cA_2ask-a2-m1-cB 2ask-a2-m2-cA_2ask-a2-m2-cB 2ask-a3-m1-cA_2ask-a3-m1-cB 2gh0-a1-m1-cD_2gh0-a1-m1-cC 2gyr-a1-m1-cA_2gyr-a1-m1-cB 2gyr-a2-m1-cC_2gyr-a2-m1-cD 2gyr-a3-m1-cE_2gyr-a3-m1-cF 2gyz-a1-m1-cA_2gyz-a1-m2-cA 6q2s-a1-m1-cA_6q2s-a1-m1-cB ARGCRLRSQLVPVRALGLGHRSDELVRFRFCSGSCRRARSPHDLSLASLLGAGALRPPPGSRPVSQPCCRPTRYEAVSFMDVNSTWRTVDRLSATACGCLG ARGCRLRSQLVPVRALGLGHRSDELVRFRFCSGSCRRARSPHDLSLASLLGAGALRPPPGSRPVSQPCCRPTRYEAVSFMDVNSTWRTVDRLSATACGCLG 2ast-a3-m1-cB_2ast-a3-m2-cB Crystal structure of Skp1-Skp2-Cks1 in complex with a p27 peptide Q13309 Q13309 2.3 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 325 325 2ass-a2-m1-cB_2ass-a2-m2-cB 2ass-a3-m1-cB_2ass-a3-m2-cB 2ast-a2-m1-cB_2ast-a2-m2-cB VSWDSLPDELLLGIFSCLCLPELLKVSGVCKRWYRLASDESLWQTLDLTGKNLHPDVTGRLLSQGVIAFRCPRSFMDQPLAEHFSPFRVQHMDLSNSVIEVSTLHGILSQCSKLQNLSLEGLRLSDPIVNTLAKNSNLVRLNLSGCSGFSEFALQTLLSSCSRLDELNLSWCFDFTEKHVQVAVAHVSETITQLNLSGYRKNLQKSDLSTLVRRCPNLVHLDLSDSVMLKNDCFQEFFQLNYLQHLSLSRCYDIIPETLLELGEIPTLKTLQVFGIVPDGTLQLLKEALPHLQINCSHFTTIARPTIGNKKNQEIWGIKCRLTLQ VSWDSLPDELLLGIFSCLCLPELLKVSGVCKRWYRLASDESLWQTLDLTGKNLHPDVTGRLLSQGVIAFRCPRSFMDQPLAEHFSPFRVQHMDLSNSVIEVSTLHGILSQCSKLQNLSLEGLRLSDPIVNTLAKNSNLVRLNLSGCSGFSEFALQTLLSSCSRLDELNLSWCFDFTEKHVQVAVAHVSETITQLNLSGYRKNLQKSDLSTLVRRCPNLVHLDLSDSVMLKNDCFQEFFQLNYLQHLSLSRCYDIIPETLLELGEIPTLKTLQVFGIVPDGTLQLLKEALPHLQINCSHFTTIARPTIGNKKNQEIWGIKCRLTLQ 2asy-a1-m1-cA_2asy-a1-m1-cB Solution Structure of ydhR protein from Escherichia coli P0ACX3 P0ACX3 NOT SOLUTION NMR 128 1.0 562 (Escherichia coli) 562 (Escherichia coli) 101 101 MATLLQLHFAFNGPFGDAMAEQLKPLAESINQEPGFLWKVWTESEKNHEAGGIYLFTDEKSALAYLEKHTARLKNLGVEEVVAKVFDVNEPLSQINQAKLA MATLLQLHFAFNGPFGDAMAEQLKPLAESINQEPGFLWKVWTESEKNHEAGGIYLFTDEKSALAYLEKHTARLKNLGVEEVVAKVFDVNEPLSQINQAKLA 2atc-a1-m1-cB_2atc-a1-m6-cB CRYSTAL AND MOLECULAR STRUCTURES OF NATIVE AND CTP-LIGANDED ASPARTATE CARBAMOYLTRANSFERASE FROM ESCHERICHIA COLI P0A7F3 P0A7F3 3 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 152 2atc-a1-m2-cB_2atc-a1-m5-cB 2atc-a1-m3-cB_2atc-a1-m4-cB MTHNDKLQVAEIKRGTVINHIPAEIGFKLLSLFKLTETQDRITIGLNLPSGEMGRKDLIKIENTFLSEDEVDELALYAPQATVNRINDYEVVGKSRPSLPERNIDVLVCPDSNCISHAEPVSSSFAVRRADDIALKCKYCEKEFSHNVVLAN MTHNDKLQVAEIKRGTVINHIPAEIGFKLLSLFKLTETQDRITIGLNLPSGEMGRKDLIKIENTFLSEDEVDELALYAPQATVNRINDYEVVGKSRPSLPERNIDVLVCPDSNCISHAEPVSSSFAVRRADDIALKCKYCEKEFSHNVVLAN 2atr-a2-m1-cA_2atr-a2-m2-cA Acetyltransferase, GNAT family protein SP0256 from Streptococcus pneumoniae TIGR4 A0A0H2UND0 A0A0H2UND0 2.01 X-RAY DIFFRACTION 157 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 127 127 ITIKKQEIVKLEDVLHLYQAVGWTNELEQALSHSLVIYLALDGDAVVGLIRLVGDGFSSVFVQDLIVLPSYQRQGIGSSLKEALGNFKEAYQVQLATEETEKNVGFYRSGFEILSTYDCTGIWINRE ITIKKQEIVKLEDVLHLYQAVGWTNELEQALSHSLVIYLALDGDAVVGLIRLVGDGFSSVFVQDLIVLPSYQRQGIGSSLKEALGNFKEAYQVQLATEETEKNVGFYRSGFEILSTYDCTGIWINRE 2atx-a3-m1-cA_2atx-a3-m1-cB Crystal Structure of the TC10 GppNHp complex P17081 P17081 2.65 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 SMAHGPGALMLKCVVVGDGAVGKTCLLMSYANDAFPEEYVPTVFDHYAVSVTVGGKQYLLGLYDTAGQEDYDRLRPLSYPMTDVFLICFSVVNPASFQNVKEEWVPELKEYAPNVPFLLIGTQIDLRDDPKTLARLNDMKEKPICVEQGQKLAKEIGACCYVECSALTQKGLKTVFDEAIIAILTP SMAHGPGALMLKCVVVGDGAVGKTCLLMSYANDAFPEEYVPTVFDHYAVSVTVGGKQYLLGLYDTAGQEDYDRLRPLSYPMTDVFLICFSVVNPASFQNVKEEWVPELKEYAPNVPFLLIGTQIDLRDDPKTLARLNDMKEKPICVEQGQKLAKEIGACCYVECSALTQKGLKTVFDEAIIAILTP 2aty-a1-m1-cA_2aty-a1-m1-cB Complement receptor chimaeric conjugate CR2-Ig P01868 P01868 NOT SOLUTION SCATTERING 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 376 376 DISCGSPPPILNGRISYYSTPIAVGTVIRYSCSGTFRLIGEKSLLCITKDKVDGTWDKPAPKCEYFNKYSSCPEPIVPGGYKIRGSTPYRHGDSVTFACKTNFSMNGNKSVWCQANNMWGPTRLPTCVSVFPLEGSIEGRGGSELADPEVPRDCGCKPCICTVPEVSSVFIFPPKPKDVLTITLTPKVTCVVVDISKDDPEVQFSWFVDDVEVHTAQTQPREEQFNSTFRSVSELPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGRPKAPQLYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQWNGQPAENYKNTQPIMNTNESYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLSHSPGK DISCGSPPPILNGRISYYSTPIAVGTVIRYSCSGTFRLIGEKSLLCITKDKVDGTWDKPAPKCEYFNKYSSCPEPIVPGGYKIRGSTPYRHGDSVTFACKTNFSMNGNKSVWCQANNMWGPTRLPTCVSVFPLEGSIEGRGGSELADPEVPRDCGCKPCICTVPEVSSVFIFPPKPKDVLTITLTPKVTCVVVDISKDDPEVQFSWFVDDVEVHTAQTQPREEQFNSTFRSVSELPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGRPKAPQLYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQWNGQPAENYKNTQPIMNTNESYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLSHSPGK 2aua-a1-m1-cA_2aua-a1-m1-cB Structure of BC2332: A Protein of Unknown Function from Bacillus cereus Q81DM5 Q81DM5 2.35 X-RAY DIFFRACTION 109 0.985 1396 (Bacillus cereus) 1396 (Bacillus cereus) 195 205 LGTENLYNETEFYAYHIVTRKKHIGQIPFNKNQHNTLYHFFFEREQLNANGEDGIQILNNHYKNDELHINNENAKVVISYDQTIRAARETIVEVRLQEFPEYPSRLSCLYAAKSYEDALKWKALFDSYNREVLQIVKLRVIGSSFEGDGNLLPKEDGIPFSQKIEQARKYWKGNNELPELLINGEIEVVEIIDDF HHHHSSGVDLGTENLYFQSANETEFYAYHIVTRKKHIGQIPFNQHNTLYHFFFEREQLNANGEDGIQILNNHYKNDELHINNENAKVVISYDQTIRAARETIVEVRLQEFPEYPSRLSCLYAAKSYEDALKWKALFDSYNREVLQIVKLRVIGSSFEGDGNLLPKEDGIPFSQKIEQARKYWKGNELPELLINGEIEVVEIIDDF 2auc-a1-m1-cA_2auc-a1-m1-cC Structure of the Plasmodium MTIP-MyoA complex, a key component of the parasite invasion motor D0VWV5 D0VWV5 2.6 X-RAY DIFFRACTION 38 1.0 5850 (Plasmodium knowlesi) 5850 (Plasmodium knowlesi) 112 121 NGKLRIEDASHNARKLGLAPSSTDEKKIRDLYGDSLTYEQYLEYLTCVHDRDNEELIKFSHFDNNSSGFLTKNQKNILTTWGDALTEQEANDALNAFSSEDRINYKLFCEDI KDFNTKSSNGKLRIEDASHNARKLGLAPSSTDEKKIRDLYGDSLTYEQYLEYLTCVHDRDNEELIKFSHFDNNSSGFLTKNQKNILTTWGDALTEQEANDALNAFSSEDRINYKLFCEDIL 2auc-a1-m1-cB_2auc-a1-m1-cA Structure of the Plasmodium MTIP-MyoA complex, a key component of the parasite invasion motor D0VWV5 D0VWV5 2.6 X-RAY DIFFRACTION 13 0.991 5850 (Plasmodium knowlesi) 5850 (Plasmodium knowlesi) 107 112 GKLRIEDASHNARKLGLAPSSTDEKKIRDLYGDSLTYEQYLEYLTCVHDRDNEELIKFSHFDNNSSGFLTKNQKNILTTWGDALTEQEANDALNAFSNYKLFCEDIL NGKLRIEDASHNARKLGLAPSSTDEKKIRDLYGDSLTYEQYLEYLTCVHDRDNEELIKFSHFDNNSSGFLTKNQKNILTTWGDALTEQEANDALNAFSSEDRINYKLFCEDI 2auc-a1-m1-cB_2auc-a1-m1-cC Structure of the Plasmodium MTIP-MyoA complex, a key component of the parasite invasion motor D0VWV5 D0VWV5 2.6 X-RAY DIFFRACTION 18 1.0 5850 (Plasmodium knowlesi) 5850 (Plasmodium knowlesi) 107 121 GKLRIEDASHNARKLGLAPSSTDEKKIRDLYGDSLTYEQYLEYLTCVHDRDNEELIKFSHFDNNSSGFLTKNQKNILTTWGDALTEQEANDALNAFSNYKLFCEDIL KDFNTKSSNGKLRIEDASHNARKLGLAPSSTDEKKIRDLYGDSLTYEQYLEYLTCVHDRDNEELIKFSHFDNNSSGFLTKNQKNILTTWGDALTEQEANDALNAFSSEDRINYKLFCEDIL 2aud-a1-m1-cA_2aud-a1-m2-cA Unliganded HincII P17743 P17743 2.1 X-RAY DIFFRACTION 83 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 242 242 SFIKPIYQDINSILIGQKVKRAAGEPFEKLVYKFLKENLSDLTFKQYEYLNDLFMKNPAIIGHEARYKLFNSPTLLFLLSRGKAATENWSIENLFEEKQNDTADILLVKNQFYELLDVKTRQSPNIISAYKLAQTCAKMIDNKEFDLFDINYLEVDWELNGEDLVCVSTSFAELFKSEPSELYINWAAAMQIQFHVRDLDQGFNGTREEWAKSYLKHFVTQAEQRAISMIDKFVKPFKKYIL SFIKPIYQDINSILIGQKVKRAAGEPFEKLVYKFLKENLSDLTFKQYEYLNDLFMKNPAIIGHEARYKLFNSPTLLFLLSRGKAATENWSIENLFEEKQNDTADILLVKNQFYELLDVKTRQSPNIISAYKLAQTCAKMIDNKEFDLFDINYLEVDWELNGEDLVCVSTSFAELFKSEPSELYINWAAAMQIQFHVRDLDQGFNGTREEWAKSYLKHFVTQAEQRAISMIDKFVKPFKKYIL 2aug-a2-m1-cB_2aug-a2-m3-cB Crystal structure of the Grb14 SH2 domain Q14449 Q14449 2.3 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 2aug-a1-m1-cA_2aug-a1-m2-cA SHMIHRSQPWFHHKISRDEAQRLIIQQGLVDGVFLVRDSQSNPKTFVLSMSHGQKIKHFQIIPVEDDGEMFHTLDDGHTRFTDLIQLVEFYQLNKGVLPCKLKHYCAR SHMIHRSQPWFHHKISRDEAQRLIIQQGLVDGVFLVRDSQSNPKTFVLSMSHGQKIKHFQIIPVEDDGEMFHTLDDGHTRFTDLIQLVEFYQLNKGVLPCKLKHYCAR 2auk-a7-m1-cD_2auk-a7-m1-cA Structure of E. coli RNA polymerase beta' G/G' insert P0A8T7 P0A8T7 2.3 X-RAY DIFFRACTION 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 183 189 2auk-a10-m1-cD_2auk-a10-m1-cA 2auk-a11-m1-cB_2auk-a11-m1-cA 2auk-a11-m1-cB_2auk-a11-m1-cC 2auk-a11-m1-cD_2auk-a11-m1-cA 2auk-a6-m1-cD_2auk-a6-m1-cA 2auk-a6-m1-cD_2auk-a6-m1-cE 2auk-a6-m2-cB_2auk-a6-m2-cC 2auk-a6-m2-cC_2auk-a6-m1-cE 2auk-a7-m1-cB_2auk-a7-m1-cA 2auk-a7-m1-cB_2auk-a7-m1-cC 2auk-a7-m1-cC_2auk-a7-m3-cE 2auk-a8-m1-cB_2auk-a8-m1-cA 2auk-a8-m1-cB_2auk-a8-m1-cC 2auk-a8-m1-cD_2auk-a8-m1-cA 2auk-a8-m1-cD_2auk-a8-m1-cE 2auk-a9-m1-cB_2auk-a9-m1-cC 2auk-a9-m1-cC_2auk-a9-m3-cE AESSIQVKNKGSIKLSNVKSVVNSSGKLVITSRNTELKLIDEFGRTKESYKVPYGAVLAKGDGEQVAGGETVANWDPHTMPVITEVSGFVRFTDMIDGQTITRQTDELTGLSSLVVLDSAERTAGGKDLRPALKIVDAQGNDVLIPGTDMPAQYFLPGKAIVQLEDGVQISSGDTLARIPQES GSHMAAAESSIQVKNKGSIKLSNVKSVVNSSGKLVITSRNTELKLIDEFGRTKESYKVPYGAVLAKGDGEQVAGGETVANWDPHTMPVITEVSGFVRFTDMIDGQTITRQTDELTGLSSLVVLDSAERTAGGKDLRPALKIVDAQGNDVLIPGTDMPAQYFLPGKAIVQLEDGVQISSGDTLARIPQES 2aus-a1-m1-cD_2aus-a1-m2-cD Crystal structure of the archaeal box H/ACA sRNP Nop10-Cbf5 complex Q9V0E3 Q9V0E3 2.1 X-RAY DIFFRACTION 12 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 53 53 RIRKCPKCGRYTLKETCPVCGEKTKVAHPPRFSPEDPYGEYRRRLKRELLGIG RIRKCPKCGRYTLKETCPVCGEKTKVAHPPRFSPEDPYGEYRRRLKRELLGIG 2aus-a5-m1-cB_2aus-a5-m3-cB Crystal structure of the archaeal box H/ACA sRNP Nop10-Cbf5 complex Q9V0E3 Q9V0E3 2.1 X-RAY DIFFRACTION 32 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 53 53 RIRKCPKCGRYTLKETCPVCGEKTKVAHPPRFSPEDPYGEYRRRLKRELLGIG RIRKCPKCGRYTLKETCPVCGEKTKVAHPPRFSPEDPYGEYRRRLKRELLGIG 2auw-a1-m1-cA_2auw-a1-m1-cB Crystal Structure of Putative DNA Binding Protein NE0471 from Nitrosomonas europaea ATCC 19718 Q82X29 Q82X29 1.85 X-RAY DIFFRACTION 20 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 148 151 YFFPKLTAVEALAPYRLRTTWSTGEVLEVDVGDILRKIPDLAPILDPEAFARVHIAEWEGSVEWFDTEFGRDNVYAWAKEQAGEVSHEFGDWHRNNLSLTTAAEALGISRRVSYYRTAHKIIPRTIWLACLGWEATRPETKTLPRTLP NEYFFPKLTAVEALAPYRLRTTWSTGEVLEVDVGDILRKIPDLAPILDPEAFARVHIAEWEGSVEWFDTEFGRDNVYAWAKEQAGEVSHEFGDWHRNNLSLTTAAEALGISRRVSYYRTAHKIIPRTIWLACLGWEATRPETKTLPRTLPA 2auw-a3-m1-cB_2auw-a3-m3-cB Crystal Structure of Putative DNA Binding Protein NE0471 from Nitrosomonas europaea ATCC 19718 Q82X29 Q82X29 1.85 X-RAY DIFFRACTION 75 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 151 151 2auw-a2-m1-cA_2auw-a2-m2-cA NEYFFPKLTAVEALAPYRLRTTWSTGEVLEVDVGDILRKIPDLAPILDPEAFARVHIAEWEGSVEWFDTEFGRDNVYAWAKEQAGEVSHEFGDWHRNNLSLTTAAEALGISRRVSYYRTAHKIIPRTIWLACLGWEATRPETKTLPRTLPA NEYFFPKLTAVEALAPYRLRTTWSTGEVLEVDVGDILRKIPDLAPILDPEAFARVHIAEWEGSVEWFDTEFGRDNVYAWAKEQAGEVSHEFGDWHRNNLSLTTAAEALGISRRVSYYRTAHKIIPRTIWLACLGWEATRPETKTLPRTLPA 2av4-a2-m2-cA_2av4-a2-m6-cA Crystal structure of Plasmodium yoelii thioredoxin-like protein 4A (DIM1) Q7R866 Q7R866 1.73 X-RAY DIFFRACTION 33 1.0 5861 (Plasmodium yoelii) 5861 (Plasmodium yoelii) 135 135 2av4-a2-m1-cA_2av4-a2-m4-cA 2av4-a2-m3-cA_2av4-a2-m5-cA HHMLQHLNSGWAVDQAIVNEDERLVCIRFGHDYDPDCMKMDELLYKVADDIKNFCVIYLVDITEVPDFNTMYELYDPVSVMFFYRNKHMMIDLGTGNNNKINWPMNNKQEFIDIVETIFRGARKGRGLVISPKDY HHMLQHLNSGWAVDQAIVNEDERLVCIRFGHDYDPDCMKMDELLYKVADDIKNFCVIYLVDITEVPDFNTMYELYDPVSVMFFYRNKHMMIDLGTGNNNKINWPMNNKQEFIDIVETIFRGARKGRGLVISPKDY 2av4-a2-m5-cA_2av4-a2-m6-cA Crystal structure of Plasmodium yoelii thioredoxin-like protein 4A (DIM1) Q7R866 Q7R866 1.73 X-RAY DIFFRACTION 18 1.0 5861 (Plasmodium yoelii) 5861 (Plasmodium yoelii) 135 135 2av4-a2-m1-cA_2av4-a2-m2-cA 2av4-a2-m1-cA_2av4-a2-m3-cA 2av4-a2-m2-cA_2av4-a2-m3-cA 2av4-a2-m4-cA_2av4-a2-m5-cA 2av4-a2-m4-cA_2av4-a2-m6-cA HHMLQHLNSGWAVDQAIVNEDERLVCIRFGHDYDPDCMKMDELLYKVADDIKNFCVIYLVDITEVPDFNTMYELYDPVSVMFFYRNKHMMIDLGTGNNNKINWPMNNKQEFIDIVETIFRGARKGRGLVISPKDY HHMLQHLNSGWAVDQAIVNEDERLVCIRFGHDYDPDCMKMDELLYKVADDIKNFCVIYLVDITEVPDFNTMYELYDPVSVMFFYRNKHMMIDLGTGNNNKINWPMNNKQEFIDIVETIFRGARKGRGLVISPKDY 2av9-a2-m1-cC_2av9-a2-m1-cI Crystal Structure of the PA5185 protein from Pseudomonas Aeruginosa Strain PAO1. Q9HU04 Q9HU04 2.4 X-RAY DIFFRACTION 46 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 138 138 2av9-a1-m1-cA_2av9-a1-m1-cD 2av9-a1-m1-cE_2av9-a1-m1-cB 2av9-a2-m1-cK_2av9-a2-m1-cH 2av9-a3-m1-cG_2av9-a3-m1-cL 2av9-a3-m1-cJ_2av9-a3-m1-cF 2o5u-a2-m1-cC_2o5u-a2-m4-cC 2o5u-a2-m3-cC_2o5u-a2-m5-cC 2o6b-a1-m1-cA_2o6b-a1-m2-cA 2o6b-a1-m1-cB_2o6b-a1-m2-cB 2o6t-a1-m1-cA_2o6t-a1-m2-cA 2o6t-a1-m1-cC_2o6t-a1-m2-cC 2o6t-a2-m1-cE_2o6t-a2-m1-cG 2o6t-a2-m3-cE_2o6t-a2-m3-cG 2o6u-a1-m1-cA_2o6u-a1-m2-cA 2o6u-a1-m1-cB_2o6u-a1-m2-cB RPLREQYLHFQPISTRWHDNDIYGHVNNVTYYAFFDTAVNTYLIERGGLDIQGGEVIGLVVSSSCDYFAPVAFPQRIEGLRVARLGNSSVQYELALFLEGQREACAAGRFVHVFVERRSSRPVAIPQELRDALAALQS RPLREQYLHFQPISTRWHDNDIYGHVNNVTYYAFFDTAVNTYLIERGGLDIQGGEVIGLVVSSSCDYFAPVAFPQRIEGLRVARLGNSSVQYELALFLEGQREACAAGRFVHVFVERRSSRPVAIPQELRDALAALQS 2av9-a2-m1-cK_2av9-a2-m1-cC Crystal Structure of the PA5185 protein from Pseudomonas Aeruginosa Strain PAO1. Q9HU04 Q9HU04 2.4 X-RAY DIFFRACTION 54 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 136 138 2av9-a1-m1-cB_2av9-a1-m1-cA 2av9-a1-m1-cE_2av9-a1-m1-cD 2av9-a2-m1-cH_2av9-a2-m1-cI 2av9-a3-m1-cG_2av9-a3-m1-cF 2av9-a3-m1-cL_2av9-a3-m1-cJ 2o5u-a2-m1-cC_2o5u-a2-m3-cC 2o5u-a2-m4-cC_2o5u-a2-m5-cC 2o6b-a1-m1-cA_2o6b-a1-m1-cB 2o6b-a1-m2-cA_2o6b-a1-m2-cB 2o6t-a1-m1-cC_2o6t-a1-m1-cA 2o6t-a1-m2-cC_2o6t-a1-m2-cA 2o6t-a2-m1-cE_2o6t-a2-m3-cE 2o6t-a2-m1-cG_2o6t-a2-m3-cG 2o6u-a1-m1-cA_2o6u-a1-m1-cB 2o6u-a1-m2-cA_2o6u-a1-m2-cB PLREQYLHFQPISTRWHDNDIYGHVNNVTYYAFFDTAVNTYLIERGGLDIQGGEVIGLVVSSSCDYFAPVAFPQRIEGLRVARLGNSSVQYELALFLEGQREACAAGRFVHVFVERRSSRPVAIPQELRDALAALQ RPLREQYLHFQPISTRWHDNDIYGHVNNVTYYAFFDTAVNTYLIERGGLDIQGGEVIGLVVSSSCDYFAPVAFPQRIEGLRVARLGNSSVQYELALFLEGQREACAAGRFVHVFVERRSSRPVAIPQELRDALAALQS 2avd-a1-m1-cA_2avd-a1-m1-cB Crystal Structure of Human Catechol-O-methyltransferase domain containing 1 Q86VU5 Q86VU5 1.7 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 QCLLPPEDSRLWQYLLSRSMREHPALRSLRLLTLEQPQGDSMMTCEQAQLLANLARLIQAKKALDLGTFTGYSALALALALPADGRVVTCEVDAQPPELGRPLWRQAEAEHKIDLRLKPALETLDELLAAGEAGTFDVAVVDADKENCSAYYERCLQLLRPGGILAVLRVLWRGKVLQPPKGDVAAECVRNLNERIRRDVRVYISLLPLGDGLTLAFKI QCLLPPEDSRLWQYLLSRSMREHPALRSLRLLTLEQPQGDSMMTCEQAQLLANLARLIQAKKALDLGTFTGYSALALALALPADGRVVTCEVDAQPPELGRPLWRQAEAEHKIDLRLKPALETLDELLAAGEAGTFDVAVVDADKENCSAYYERCLQLLRPGGILAVLRVLWRGKVLQPPKGDVAAECVRNLNERIRRDVRVYISLLPLGDGLTLAFKI 2avn-a2-m1-cB_2avn-a2-m2-cB CRYSTAL STRUCTURE OF A UBIQUINONE/MENAQUINONE BIOSYNTHESIS METHYLTRANSFERASE-RELATED PROTEIN (TM1389) FROM THERMOTOGA MARITIMA MSB8 AT 2.35 A RESOLUTION Q9X1A9 Q9X1A9 2.35 X-RAY DIFFRACTION 52 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 242 242 HKLRSWEFYDRIARAYDSYETPKWKLYHRLIGSFLEEYLKNPCRVLDLGGGTGKWSLFLQERGFEVVLVDPSKELEVAREKGVKNVVEAKAEDLPFPSGAFEAVLALGDVLSYVENKDKAFSEIRRVLVPDGLLIATVDNFYTFLQQIEKDAWDQITRFLKTQTTSVGTTLFSFNSYAFKPEDLDSLEGFETVDIRGIGVEYPDERISEREETIFRLEQELSRDRNIIWKADHIFFVLKKKR HKLRSWEFYDRIARAYDSYETPKWKLYHRLIGSFLEEYLKNPCRVLDLGGGTGKWSLFLQERGFEVVLVDPSKELEVAREKGVKNVVEAKAEDLPFPSGAFEAVLALGDVLSYVENKDKAFSEIRRVLVPDGLLIATVDNFYTFLQQIEKDAWDQITRFLKTQTTSVGTTLFSFNSYAFKPEDLDSLEGFETVDIRGIGVEYPDERISEREETIFRLEQELSRDRNIIWKADHIFFVLKKKR 2avn-a2-m2-cA_2avn-a2-m2-cB CRYSTAL STRUCTURE OF A UBIQUINONE/MENAQUINONE BIOSYNTHESIS METHYLTRANSFERASE-RELATED PROTEIN (TM1389) FROM THERMOTOGA MARITIMA MSB8 AT 2.35 A RESOLUTION Q9X1A9 Q9X1A9 2.35 X-RAY DIFFRACTION 40 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 242 242 2avn-a1-m1-cA_2avn-a1-m1-cB 2avn-a2-m1-cA_2avn-a2-m1-cB HKLRSWEFYDRIARAYDSYETPKWKLYHRLIGSFLEEYLKNPCRVLDLGGGTGKWSLFLQERGFEVVLVDPSKELEVAREKGVKNVVEAKAEDLPFPSGAFEAVLALGDVLSYVENKDKAFSEIRRVLVPDGLLIATVDNFYTFLQQIEKDAWDQITRFLKTQTTSVGTTLFSFNSYAFKPEDLDSLEGFETVDIRGIGVEYPDERISEREETIFRLEQELSRDRNIIWKADHIFFVLKKKR HKLRSWEFYDRIARAYDSYETPKWKLYHRLIGSFLEEYLKNPCRVLDLGGGTGKWSLFLQERGFEVVLVDPSKELEVAREKGVKNVVEAKAEDLPFPSGAFEAVLALGDVLSYVENKDKAFSEIRRVLVPDGLLIATVDNFYTFLQQIEKDAWDQITRFLKTQTTSVGTTLFSFNSYAFKPEDLDSLEGFETVDIRGIGVEYPDERISEREETIFRLEQELSRDRNIIWKADHIFFVLKKKR 2avp-a1-m2-cA_2avp-a1-m4-cA Crystal structure of an 8 repeat consensus TPR superhelix 2.04 X-RAY DIFFRACTION 33 1.0 68 68 2avp-a1-m1-cA_2avp-a1-m4-cA 2avp-a1-m2-cA_2avp-a1-m3-cA AEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRS AEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRS 2avt-a1-m1-cB_2avt-a1-m1-cA Crystal structure of the beta subunit from DNA polymerase of Streptococcus pyogenes Q9EVR1 Q9EVR1 2 X-RAY DIFFRACTION 81 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 371 372 IQFSINRTLFIHALNTTKRAISTKNAIPILSSIKIEVTSTGVTLTGSNGQISIENTIPVGLLITSPGAILLEASFFINIISSLPDISINVKEIEQHQVVLTSGKSEITLKGKDVDQYPRLQEVSTENPLILKTKLLKSIIAETAFAASLQESRPILTGVHIVLSNHKDFKAVATDSHRMSQRLITLDNTSADFMVVLPSKSLREFSAVFTDDIETVEVFFSPSQILFRSEHISFYTRLLEGNYPDTDRLLMTEFETEVVFNTQSLRHAMERAFLISNATQNGTVKLEITQNHISAHVNSPEVGKVNEDLDIVSQSGSDLTISFNPTYLIESLKAIKSETVKIHFLSPVRPFTLTPGDEEESFIQLITPVRT MIQFSINRTLFIHALNTTKRAISTKNAIPILSSIKIEVTSTGVTLTGSNGQISIENTIPVGLLITSPGAILLEASFFINIISSLPDISINVKEIEQHQVVLTSGKSEITLKGKDVDQYPRLQEVSTENPLILKTKLLKSIIAETAFAASLQESRPILTGVHIVLSNHKDFKAVATDSHRMSQRLITLDNTSADFMVVLPSKSLREFSAVFTDDIETVEVFFSPSQILFRSEHISFYTRLLEGNYPDTDRLLMTEFETEVVFNTQSLRHAMERAFLISNATQNGTVKLEITQNHISAHVNSPEVGKVNEDLDIVSQSGSDLTISFNPTYLIESLKAIKSETVKIHFLSPVRPFTLTPGDEEESFIQLITPVRT 2avu-a1-m1-cB_2avu-a1-m1-cD Structure of the Escherichia coli FlhDC complex, a prokaryotic heteromeric regulator of transcription P0A8S9 P0A8S9 3 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 104 104 TSELLKHIYDINLSYLLLAQRLIVQDKASAMFRLGINEEMATTLAALTLPQMVKLAETNQLVCHFRFDSHQTITQLTQDSRVDDLQQIHTGIMLSTRLLNDVNQ TSELLKHIYDINLSYLLLAQRLIVQDKASAMFRLGINEEMATTLAALTLPQMVKLAETNQLVCHFRFDSHQTITQLTQDSRVDDLQQIHTGIMLSTRLLNDVNQ 2avu-a1-m1-cE_2avu-a1-m1-cF Structure of the Escherichia coli FlhDC complex, a prokaryotic heteromeric regulator of transcription P0ABY7 P0ABY7 3 X-RAY DIFFRACTION 34 1.0 562 (Escherichia coli) 562 (Escherichia coli) 156 156 SIVQEARDIQLAMELITLGARLQMLESETQLSRGRLIKLYKELRGSPPPKGMLPFSTDWFMTWEQNVHASMFCNAWQFLLKTGLCNGVDAVIKAYRLYLEQCPQAEEGPLLALTRAWTLVRFVESGLLQLSSCNCCGGNFITHAHQPVGSFACSLC SIVQEARDIQLAMELITLGARLQMLESETQLSRGRLIKLYKELRGSPPPKGMLPFSTDWFMTWEQNVHASMFCNAWQFLLKTGLCNGVDAVIKAYRLYLEQCPQAEEGPLLALTRAWTLVRFVESGLLQLSSCNCCGGNFITHAHQPVGSFACSLC 2avw-a2-m1-cC_2avw-a2-m1-cD Crystal structure of monoclinic form of streptococcus Mac-1 Q7DAM2 Q7DAM2 2 X-RAY DIFFRACTION 38 1.0 293653 (Streptococcus pyogenes MGAS5005) 293653 (Streptococcus pyogenes MGAS5005) 289 296 2avw-a1-m1-cB_2avw-a1-m1-cA 2avw-a3-m1-cF_2avw-a3-m1-cE VTSVWTKGVTPPANFTQGEDVFHAPYVANQGWYDITKTFNGKDDLLAGAATAGNMLHWWFDQNKDQIKRYLEEHPEKQKINFNGEQMFDVKEAIDTKNHQLDSKLFEYFKEKAFPYLSTKHLGVFPDHVIDMFINGYRLSLTNHGPTPVKEGSKDPRGGIFDAVFTRGDQSKLLTSRHDFKEKNLKEISDLIKKELTEGKALGLSHTYANVRINHVINLWGADFDSNGNLKAIYVTDSDSNASIGMKKYFVGVNSAGKVAISAKEIKEDNIGAQVLGLFTLSTGQDSWN EVTPYVTSVWTKGVTPPANFTQGEDVFHAPYVANQGWYDITKTFNGKDDLLAGAATAGNMLHWWFDQNKDQIKRYLEEHPEKQKINFNGEQMFDVKEAIDTKNHQLDSKLFEYFKEKAFPYLSTKHLGVFPDHVIDMFINGYRLSLTNHGPTPVKEGSKDPRGGIFDAVFTRGDQSKLLTSRHDFKEKNLKEISDLIKKELTEGKALGLSHTYANVRINHVINLWGADFDSNGNLKAIYVTDSDSNASIGMKKYFVGVNSAGKVAISAKEIKEDNIGAQVLGLFTLSTGQDSWNQT 2aw2-a3-m1-cB_2aw2-a3-m2-cY Crystal structure of the human BTLA-HVEM complex Q92956 Q92956 2.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 PSCKEDEYPVGSECCPKCSPGYRVKEACGELTGTVCEPCPPGTYIAHLNGLSKCLQCQMCDPAMGLRASRNCSRTENAVCGCSPGHFCIVQDHCAACRAY PSCKEDEYPVGSECCPKCSPGYRVKEACGELTGTVCEPCPPGTYIAHLNGLSKCLQCQMCDPAMGLRASRNCSRTENAVCGCSPGHFCIVQDHCAACRAY 2awa-a2-m1-cC_2awa-a2-m1-cD Crystal structure of DNA polymerase III, beta chain (EC 2.7.7.7) (np_344555.1) from STREPTOCOCCUS PNEUMONIAE TIGR4 at 2.50 A resolution O06672 O06672 2.5 X-RAY DIFFRACTION 80 0.997 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 374 374 2awa-a1-m1-cA_2awa-a1-m1-cB IHFSINKNLFLQALNTTKRAISSKNAIPILSTVKIDVTNEGITLIGSNGQISIENFISQKNEDAGLLITSLGSILLEASFFINVVSSLPDVTLDFKEIEQNQIVLTSGKSEITLKGKDSEQYPRIQEISASTPLILETKLLKKIINETAFAASTQESRPILTGVHFVLSQHKELKTVATDSHRLSQKKLTLEKNSDDFDVVIPSRSLREFSAVFTDDIETVEIFFANNQILFRSENISFYTRLLEGNYPDTDRLIPTDFNTTITFNVVNLRQSERARLLSSATQNGTVKLEIKDGVVSAHVHSPEVGKVNEEIDTDQVTGEDLTISFNPTYLIDSLKALNSEKVTISFISAVRPFTLVPADTDEDFQLITPVRT HIHFSINKNLFLQALNTTKRAISSKNAIPILSTVKIDVTNEGITLIGSNGQISIENFISQKNEDAGLLITSLGSILLEASFFINVVSSLPDVTLDFKEIEQNQIVLTSGKSEITLKGKDSEQYPRIQEISASTPLILETKLLKKIINETAFAASTQESRPILTGVHFVLSQHKELKTVATDSHRLSQKKLTLEKNSDDFDVVIPSRSLREFSAVFTDDIETVEIFFANNQILFRSENISFYTRLLEGNYPDTDRLIPTDFNTTITFNVVNLRQSERARLLSSATQNGTVKLEIKDGVVSAHVHSPEVGKVNEEIDTDQVTGEDLTISFNPTYLIDSLKALNSEKVTISFISAVRPFTLVPADTDEDFQLITPVR 2awi-a3-m1-cG_2awi-a3-m1-cH Structure of PrgX Y153C mutant Q04114 Q04114 2.25 X-RAY DIFFRACTION 164 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 292 292 2aw6-a1-m1-cB_2aw6-a1-m1-cA 2awi-a1-m1-cA_2awi-a1-m1-cB 2awi-a1-m1-cE_2awi-a1-m1-cF 2awi-a2-m1-cC_2awi-a2-m1-cD 2awi-a2-m1-cK_2awi-a2-m1-cL 2awi-a3-m1-cJ_2awi-a3-m1-cI 2axu-a1-m1-cB_2axu-a1-m1-cA 2axu-a1-m1-cE_2axu-a1-m1-cF 2axu-a2-m1-cD_2axu-a2-m1-cC 2axu-a2-m1-cK_2axu-a2-m1-cL 2axu-a3-m1-cH_2axu-a3-m1-cG 2axu-a3-m1-cJ_2axu-a3-m1-cI 2axv-a1-m1-cA_2axv-a1-m1-cB 2axv-a1-m1-cC_2axv-a1-m1-cD 2axz-a1-m1-cB_2axz-a1-m1-cA 2axz-a2-m1-cC_2axz-a2-m1-cD 2axz-a3-m1-cB_2axz-a3-m1-cA 2axz-a3-m1-cC_2axz-a3-m1-cD 2grl-a1-m1-cB_2grl-a1-m1-cA 2grl-a1-m1-cD_2grl-a1-m1-cC 2grm-a1-m1-cA_2grm-a1-m2-cA 2grm-a1-m3-cA_2grm-a1-m4-cA 2grm-a2-m1-cB_2grm-a2-m5-cB 2grm-a2-m1-cC_2grm-a2-m5-cC IGSVLKQIRQELNYHQIDLYSGISKSVYIKVEADSRPISVEELSKFSERLGVNFFEILNRAGNSVNETGKEKLLISKIFTNPDLFDKNFQRIEPKRLTSLQYFSIYLGYISIAHHYNIEVPTFNKTITSDLKHLYDKRTTFFGIDCEIVSNLLNVLPYEEVSSIIKPYPIVDSFGKDYDLTIQTVLKNALTISINRNLKEAQYYINQFEHLKTIKNISINGYYDLEINYLKQIYQFLTDKNIDSYLNAVNIINIFKIIGKEDIHRSLVEELTKISAKEKFTPPKEVTMYYEN IGSVLKQIRQELNYHQIDLYSGISKSVYIKVEADSRPISVEELSKFSERLGVNFFEILNRAGNSVNETGKEKLLISKIFTNPDLFDKNFQRIEPKRLTSLQYFSIYLGYISIAHHYNIEVPTFNKTITSDLKHLYDKRTTFFGIDCEIVSNLLNVLPYEEVSSIIKPYPIVDSFGKDYDLTIQTVLKNALTISINRNLKEAQYYINQFEHLKTIKNISINGYYDLEINYLKQIYQFLTDKNIDSYLNAVNIINIFKIIGKEDIHRSLVEELTKISAKEKFTPPKEVTMYYEN 2awn-a1-m1-cA_2awn-a1-m1-cB Crystal structure of the ADP-Mg-bound E. Coli MALK (Crystallized with ATP-Mg) P68187 P68187 2.3 X-RAY DIFFRACTION 105 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 330 374 ASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALEVINQRVNQVAEVLAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGVAS ASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGVASAS 2ax4-a2-m1-cD_2ax4-a2-m1-cC Crystal structure of the kinase domain of human 3'-phosphoadenosine 5'-phosphosulphate synthetase 2 O95340 O95340 2.5 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 198 2ax4-a1-m1-cB_2ax4-a1-m1-cA HVSRNKRGQVVGTRGGFRGCTVWLTGLSGAGKTTISFALEEYLVSHAIPCYSLDGDNVRHGLNRNLGFSPGDREENIRRIAEVAKLFADAGLVCITSFISPFAKDRENARKIHESAGLPFFEIFVDAPLNICESRDVKGLYKRARAGEIKGFTGIDSDYEKPETPERVLKTNLSTVSDCVHQVVELLQEQNIVPY QAHHVSRNKRGQVVGTRGGFRGCTVWLTGLSGAGKTTISFALEEYLVSHAIPCYSLDGDNVRHGLNRNLGFSPGDREENIRRIAEVAKLFADAGLVCITSFISPFAKDRENARKIHESAGLPFFEIFVDAPLNICESRDVKGLYKRARAGEIKGFTGIDSDYEKPETPERVLKTNLSTVSDCVHQVVELLQEQNIVPY 2axh-a4-m2-cB_2axh-a4-m6-cA Crystal structures of T cell receptor beta chains related to rheumatoid arthritis P01850 P01850 2.7 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 240 240 2axh-a2-m1-cA_2axh-a2-m4-cB 2axh-a2-m1-cB_2axh-a2-m4-cA 2axh-a2-m2-cA_2axh-a2-m6-cB 2axh-a2-m2-cB_2axh-a2-m6-cA 2axh-a2-m3-cA_2axh-a2-m5-cB 2axh-a2-m3-cB_2axh-a2-m5-cA 2axh-a3-m1-cA_2axh-a3-m4-cB 2axh-a3-m1-cB_2axh-a3-m4-cA 2axh-a4-m1-cA_2axh-a4-m4-cB 2axj-a2-m1-cA_2axj-a2-m4-cB 2axj-a2-m1-cB_2axj-a2-m4-cA 2axj-a2-m2-cA_2axj-a2-m6-cB 2axj-a2-m2-cB_2axj-a2-m6-cA 2axj-a2-m3-cA_2axj-a2-m5-cB 2axj-a2-m3-cB_2axj-a2-m5-cA DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASSIGQNEQYFGPGTRLTVLEDLKNVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYSLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASSIGQNEQYFGPGTRLTVLEDLKNVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYSLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD 2axj-a2-m1-cA_2axj-a2-m6-cA Crystal structures of T cell receptor beta chains related to rheumatoid arthritis 2.65 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 2axh-a2-m1-cA_2axh-a2-m6-cA 2axh-a2-m2-cA_2axh-a2-m5-cA 2axh-a2-m3-cA_2axh-a2-m4-cA 2axh-a4-m1-cA_2axh-a4-m6-cA 2axj-a2-m2-cA_2axj-a2-m5-cA 2axj-a2-m3-cA_2axj-a2-m4-cA DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAMYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASRDRGTEKLFFGSGTQLSVLEDLNKVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAMYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASRDRGTEKLFFGSGTQLSVLEDLNKVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD 2axj-a2-m5-cA_2axj-a2-m6-cB Crystal structures of T cell receptor beta chains related to rheumatoid arthritis 2.65 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 2axh-a2-m1-cA_2axh-a2-m2-cB 2axh-a2-m1-cB_2axh-a2-m3-cA 2axh-a2-m2-cA_2axh-a2-m3-cB 2axh-a2-m4-cA_2axh-a2-m5-cB 2axh-a2-m4-cB_2axh-a2-m6-cA 2axh-a2-m5-cA_2axh-a2-m6-cB 2axh-a4-m1-cA_2axh-a4-m2-cB 2axh-a4-m4-cB_2axh-a4-m6-cA 2axj-a2-m1-cA_2axj-a2-m2-cB 2axj-a2-m1-cB_2axj-a2-m3-cA 2axj-a2-m2-cA_2axj-a2-m3-cB 2axj-a2-m4-cA_2axj-a2-m5-cB 2axj-a2-m4-cB_2axj-a2-m6-cA DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAMYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASRDRGTEKLFFGSGTQLSVLEDLNKVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAMYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASRDRGTEKLFFGSGTQLSVLEDLNKVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD 2axj-a2-m6-cA_2axj-a2-m6-cB Crystal structures of T cell receptor beta chains related to rheumatoid arthritis 2.65 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 2axh-a1-m1-cA_2axh-a1-m1-cB 2axh-a2-m1-cA_2axh-a2-m1-cB 2axh-a2-m2-cA_2axh-a2-m2-cB 2axh-a2-m3-cA_2axh-a2-m3-cB 2axh-a2-m4-cA_2axh-a2-m4-cB 2axh-a2-m5-cA_2axh-a2-m5-cB 2axh-a2-m6-cA_2axh-a2-m6-cB 2axh-a3-m1-cA_2axh-a3-m1-cB 2axh-a3-m4-cA_2axh-a3-m4-cB 2axj-a1-m1-cA_2axj-a1-m1-cB 2axj-a2-m1-cA_2axj-a2-m1-cB 2axj-a2-m2-cA_2axj-a2-m2-cB 2axj-a2-m3-cA_2axj-a2-m3-cB 2axj-a2-m4-cA_2axj-a2-m4-cB 2axj-a2-m5-cA_2axj-a2-m5-cB DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAMYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASRDRGTEKLFFGSGTQLSVLEDLNKVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD DGGITQSPKYLFRKEGQNVTLSCEQNLNHDAMYWYRQDPGQGLRLIYYSQIVNDFQKGDIAEGYSVSREKKESFPLTVTSAQKNPTAFYLCASRDRGTEKLFFGSGTQLSVLEDLNKVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD 2axo-a1-m1-cA_2axo-a1-m2-cA X-Ray Crystal Structure of Protein AGR_C_4864 from Agrobacterium tumefaciens. Northeast Structural Genomics Consortium Target AtR35. A9CHH7 A9CHH7 1.8 X-RAY DIFFRACTION 45 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 217 217 AQEAVKGVVELFTSQGCASCPPADEALRKIQKGDVVGLSYHVDYWNYLGWTDSLASKENTERQYGYRALGRNGVYTPQAILNGRDHVKGADVRGIYDRLDAFKREGQGLNVPVSSKFAGDEVEIDIGAGNGKADVVVAYFTREQTVDVKKSYWHSVYDVQTVGWDGSPTVKLPASVVAKVKKGGCAVLLQTANASGDPAAIVGASILLGNETQLEHH AQEAVKGVVELFTSQGCASCPPADEALRKIQKGDVVGLSYHVDYWNYLGWTDSLASKENTERQYGYRALGRNGVYTPQAILNGRDHVKGADVRGIYDRLDAFKREGQGLNVPVSSKFAGDEVEIDIGAGNGKADVVVAYFTREQTVDVKKSYWHSVYDVQTVGWDGSPTVKLPASVVAKVKKGGCAVLLQTANASGDPAAIVGASILLGNETQLEHH 2axq-a1-m1-cA_2axq-a1-m2-cA Apo histidine-tagged saccharopine dehydrogenase (L-Glu forming) from Saccharomyces cerevisiae P38999 P38999 1.7 X-RAY DIFFRACTION 85 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 445 445 GKNVLLLGSGFVAQPVIDTLAANDDINVTVACRTLANAQALAKPSGSKAISLDVTDDSALDKVLADNDVVISLIPYTFHPNVVKSAIRTKTDVVTSSYISPALRELEPEIVKAGITVMNEIGLDPGIDHLYAVKTIDEVHRAGGKLKSFLSYCGGLPAPEDSDNPLGYKFSWSSRGVLLALRNSAKYWKDGKIETVSSEDLMATAKPYFIYPGYAFVCYPNRDSTLFKDLYHIPEAETVIRGTLRYQGFPEFVKALVDMGMLKDDANEIFSKPIAWNEALKQYLGAKSTSKEDLIASIDSKATWKDDEDRERILSGFAWLGLFSDAKITPRGNALDTLCARLEELMQYEDNERDMVVLQHKFGIEWADGTTETRTSTLVDYGKVGGYSSMAATVGYPVAIATKFVLDGTIKGPGLLAPYSPEINDPIMKELKDKYGIYLKEKTVA GKNVLLLGSGFVAQPVIDTLAANDDINVTVACRTLANAQALAKPSGSKAISLDVTDDSALDKVLADNDVVISLIPYTFHPNVVKSAIRTKTDVVTSSYISPALRELEPEIVKAGITVMNEIGLDPGIDHLYAVKTIDEVHRAGGKLKSFLSYCGGLPAPEDSDNPLGYKFSWSSRGVLLALRNSAKYWKDGKIETVSSEDLMATAKPYFIYPGYAFVCYPNRDSTLFKDLYHIPEAETVIRGTLRYQGFPEFVKALVDMGMLKDDANEIFSKPIAWNEALKQYLGAKSTSKEDLIASIDSKATWKDDEDRERILSGFAWLGLFSDAKITPRGNALDTLCARLEELMQYEDNERDMVVLQHKFGIEWADGTTETRTSTLVDYGKVGGYSSMAATVGYPVAIATKFVLDGTIKGPGLLAPYSPEINDPIMKELKDKYGIYLKEKTVA 2axw-a1-m1-cA_2axw-a1-m1-cB Structure of DraD invasin from uropathogenic Escherichia coli Q47038 Q47038 1.05 X-RAY DIFFRACTION 172 1.0 562 (Escherichia coli) 562 (Escherichia coli) 134 134 AELHLESRGGSGTQLRDGAKVATGRIICREAHTGFHVWMNERQVDGRAERYVVQSKDGRHELRVRTGGDGWSPVKGEGGKGVSRPGQEEQVFFDVMADGNQDIAPGEYRFSVGGACVVPQEKLAAALEHHHHHH AELHLESRGGSGTQLRDGAKVATGRIICREAHTGFHVWMNERQVDGRAERYVVQSKDGRHELRVRTGGDGWSPVKGEGGKGVSRPGQEEQVFFDVMADGNQDIAPGEYRFSVGGACVVPQEKLAAALEHHHHHH 2axz-a3-m1-cD_2axz-a3-m1-cA Crystal structure of PrgX/cCF10 complex Q04114 Q04114 3 X-RAY DIFFRACTION 34 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 299 300 FKIGSVLKQIRQELNYHQIDLYSGISKSVYIKVEADSRPISVEELSKFSERLGVNFFEILNRAGNTKSVNETGKEKLLISKIFTNPDLFDKNFQRIEPKRLTSLQYFSIYLGYISIAHHYNIEVPTFNKTITSDLKHLYDKRTTFFGIDYEIVSNLLNVLPYEEVSSIIKPYPIVDSFGKDYDLTIQTVLKNALTISINRNLKEAQYYINQFEHLKTIKNISINGYYDLEINYLKQIYQFLTDKNIDSYLNAVNIINIFKIIGKEDIHRSLVEELTKISAKEKFTPPKEVTYYENYVAI FKIGSVLKQIRQELNYHQIDLYSGISKSVYIKVEADSRPISVEELSKFSERLGVNFFEILNRAGNTKSVNETGKEKLLISKIFTNPDLFDKNFQRIEPKRLTSLQYFSIYLGYISIAHHYNIEVPTFNKTITSDLKHLYDKRTTFFGIDYEIVSNLLNVLPYEEVSSIIKPYPIVDSFGKDYDLTIQTVLKNALTISINRNLKEAQYYINQFEHLKTIKNISINGYYDLEINYLKQIYQFLTDKNIDSYLNAVNIINIFKIIGKEDIHRSLVEELTKISAKEKFTPPKEVTYYENYVAIE 2ayi-a3-m1-cD_2ayi-a3-m1-cE Wild-type AmpT from Thermus thermophilus P42778 P42778 3.7 X-RAY DIFFRACTION 110 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 397 397 2ayi-a1-m1-cA_2ayi-a1-m1-cB 2ayi-a2-m1-cC_2ayi-a2-m2-cC AFKRNLEKLAELAIRVGLNLEKGQEVIATAPIEAVDFVRLLAEKAYREGASLFTVIYGDQELARKRLALAPEEGLDKAPAWLYEGMARAFREGAARLAVSGSDPKALEGLPPEKVGRAQKANARAYKPALEAITEFVTNWTIVPFAHPGWARAVFPGLPEEEAVRRLWEAIFQATPIAAWEAHNRALHEKVAYLNARRFHALHFKGPGTDLVVGLAEGHLWQGGATATKGGRLCNPNLPTEEVFTAPHRERVEGVVRASRPLALGGTLVEGIFARFERGFAVEVRAEKGEEVLRRLLDTDEGARRLGEVALVPADNPIAKTGLVFFDTLFDENAASHIAFGQAYQENLEGGEAFRKRGGNESLVHVDWMIGSEEMDVDGLYEDGTRTPLMRRGRWVV AFKRNLEKLAELAIRVGLNLEKGQEVIATAPIEAVDFVRLLAEKAYREGASLFTVIYGDQELARKRLALAPEEGLDKAPAWLYEGMARAFREGAARLAVSGSDPKALEGLPPEKVGRAQKANARAYKPALEAITEFVTNWTIVPFAHPGWARAVFPGLPEEEAVRRLWEAIFQATPIAAWEAHNRALHEKVAYLNARRFHALHFKGPGTDLVVGLAEGHLWQGGATATKGGRLCNPNLPTEEVFTAPHRERVEGVVRASRPLALGGTLVEGIFARFERGFAVEVRAEKGEEVLRRLLDTDEGARRLGEVALVPADNPIAKTGLVFFDTLFDENAASHIAFGQAYQENLEGGEAFRKRGGNESLVHVDWMIGSEEMDVDGLYEDGTRTPLMRRGRWVV 2ayn-a1-m1-cA_2ayn-a1-m1-cB Structure of USP14, a proteasome-associated deubiquitinating enzyme P54578 P54578 3.2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 337 337 MELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFYKEKESVNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLEDEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPR MELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFYKEKESVNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLEDEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPR 2ayn-a1-m1-cA_2ayn-a1-m1-cC Structure of USP14, a proteasome-associated deubiquitinating enzyme P54578 P54578 3.2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 337 337 MELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFYKEKESVNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLEDEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPR MELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFYKEKESVNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLEDEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPR 2ayn-a1-m1-cB_2ayn-a1-m1-cC Structure of USP14, a proteasome-associated deubiquitinating enzyme P54578 P54578 3.2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 337 337 MELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFYKEKESVNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLEDEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPR MELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFYKEKESVNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLEDEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPR 2ayt-a3-m2-cA_2ayt-a3-m6-cB The crystal structure of a protein disulfide oxidoreductase from aquifex aeolicus O66753 O66753 2.4 X-RAY DIFFRACTION 51 0.996 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 230 230 2ayt-a3-m1-cA_2ayt-a3-m4-cB 2ayt-a3-m1-cB_2ayt-a3-m4-cA 2ayt-a3-m2-cB_2ayt-a3-m6-cA 2ayt-a3-m3-cA_2ayt-a3-m5-cB 2ayt-a3-m3-cB_2ayt-a3-m5-cA 2ywm-a1-m1-cA_2ywm-a1-m1-cB 2ywm-a1-m1-cA_2ywm-a1-m1-cC 2ywm-a1-m1-cD_2ywm-a1-m1-cB 2ywm-a1-m1-cD_2ywm-a1-m1-cC MLLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQAL LLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQALE 2ayt-a3-m3-cA_2ayt-a3-m6-cA The crystal structure of a protein disulfide oxidoreductase from aquifex aeolicus O66753 O66753 2.4 X-RAY DIFFRACTION 13 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 230 230 2ayt-a3-m1-cA_2ayt-a3-m5-cA 2ayt-a3-m2-cA_2ayt-a3-m4-cA MLLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQAL MLLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQAL 2ayt-a3-m3-cA_2ayt-a3-m6-cB The crystal structure of a protein disulfide oxidoreductase from aquifex aeolicus O66753 O66753 2.4 X-RAY DIFFRACTION 26 0.996 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 230 230 2ayt-a3-m1-cA_2ayt-a3-m5-cB 2ayt-a3-m1-cB_2ayt-a3-m5-cA 2ayt-a3-m2-cA_2ayt-a3-m4-cB 2ayt-a3-m2-cB_2ayt-a3-m4-cA 2ayt-a3-m3-cB_2ayt-a3-m6-cA MLLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQAL LLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQALE 2ayt-a3-m5-cB_2ayt-a3-m6-cB The crystal structure of a protein disulfide oxidoreductase from aquifex aeolicus O66753 O66753 2.4 X-RAY DIFFRACTION 21 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 230 230 2ayt-a3-m1-cB_2ayt-a3-m2-cB 2ayt-a3-m1-cB_2ayt-a3-m3-cB 2ayt-a3-m2-cB_2ayt-a3-m3-cB 2ayt-a3-m4-cB_2ayt-a3-m5-cB 2ayt-a3-m4-cB_2ayt-a3-m6-cB LLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQALE LLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQALE 2ayt-a4-m1-cA_2ayt-a4-m1-cB The crystal structure of a protein disulfide oxidoreductase from aquifex aeolicus O66753 O66753 2.4 X-RAY DIFFRACTION 65 0.996 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 230 230 2ayt-a3-m1-cA_2ayt-a3-m1-cB 2ayt-a3-m2-cA_2ayt-a3-m2-cB 2ayt-a3-m3-cA_2ayt-a3-m3-cB 2ayt-a3-m4-cA_2ayt-a3-m4-cB 2ayt-a3-m5-cA_2ayt-a3-m5-cB 2ayt-a3-m6-cA_2ayt-a3-m6-cB MLLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQAL LLNLDVRMQLKELAQKEFKEPVSIKLFSQAIGCESCQTAEELLKETVEVIGEAVGQDKIKLDIYSPFTHKEETEKYGVDRVPTIVIEGDKDYGIRYIGLPAGLEFTTLINGIFHVSQRKPQLSEKTLELLQVVDIPIEIWVFVTTSCGYCPSAAVMAWDFALANDYITSKVIDASENQDLAEQFQVVGVPKIVINKGVAEFVGAQPENAFLGYIMAVYEKLKREKEQALE 2az2-a1-m1-cA_2az2-a1-m1-cB Flock House virus B2-dsRNA Complex (P4122) P68831 P68831 2.6 X-RAY DIFFRACTION 87 1.0 12287 (Flock House virus) 12287 (Flock House virus) 70 70 2az0-a1-m1-cA_2az0-a1-m1-cB 2b9z-a1-m1-cA_2b9z-a1-m1-cB PSKLALIQELPDRIQTAVEAAMGMSYQDAPNNVRRDLDNLHACLNKAKLTVSRMVTSLLEKPSVVAYLEG PSKLALIQELPDRIQTAVEAAMGMSYQDAPNNVRRDLDNLHACLNKAKLTVSRMVTSLLEKPSVVAYLEG 2az3-a1-m2-cB_2az3-a1-m2-cA Structure of a halophilic nucleoside diphosphate kinase from Halobacterium salinarum in complex with CDP P61136 P61136 2.2 X-RAY DIFFRACTION 57 1.0 2242 (Halobacterium salinarum) 2242 (Halobacterium salinarum) 151 152 2az1-a1-m1-cA_2az1-a1-m1-cC 2az1-a1-m1-cB_2az1-a1-m1-cA 2az1-a1-m1-cB_2az1-a1-m1-cC 2az1-a1-m1-cE_2az1-a1-m1-cD 2az1-a1-m1-cF_2az1-a1-m1-cD 2az1-a1-m1-cF_2az1-a1-m1-cE 2az3-a1-m1-cA_2az3-a1-m1-cC 2az3-a1-m1-cB_2az3-a1-m1-cA 2az3-a1-m1-cB_2az3-a1-m1-cC 2az3-a1-m2-cA_2az3-a1-m2-cC 2az3-a1-m2-cB_2az3-a1-m2-cC 2az3-a2-m1-cD_2az3-a2-m1-cE 2az3-a2-m1-cD_2az3-a2-m1-cF 2az3-a2-m1-cE_2az3-a2-m1-cF 2az3-a2-m1-cG_2az3-a2-m1-cH 2az3-a2-m1-cI_2az3-a2-m1-cG 2az3-a2-m1-cI_2az3-a2-m1-cH DERTFVMVKPDGVQRGLIGDIVTRLETKGLKMVGGKFMRIDEELAHEHYAEHEDKPFFDGLVSFITSGPVFAMVWEGADATRQVRQLMGATDAQDAAPGTIRGDYGNDLGHNLIHGSDHEDEGANEREIALFFDDDELVDWDRDASAWVYE HDERTFVMVKPDGVQRGLIGDIVTRLETKGLKMVGGKFMRIDEELAHEHYAEHEDKPFFDGLVSFITSGPVFAMVWEGADATRQVRQLMGATDAQDAAPGTIRGDYGNDLGHNLIHGSDHEDEGANEREIALFFDDDELVDWDRDASAWVYE 2az3-a2-m1-cE_2az3-a2-m1-cH Structure of a halophilic nucleoside diphosphate kinase from Halobacterium salinarum in complex with CDP P61136 P61136 2.2 X-RAY DIFFRACTION 80 1.0 2242 (Halobacterium salinarum) 2242 (Halobacterium salinarum) 152 152 2az1-a1-m1-cA_2az1-a1-m1-cD 2az1-a1-m1-cB_2az1-a1-m1-cE 2az1-a1-m1-cF_2az1-a1-m1-cC 2az3-a1-m1-cB_2az3-a1-m2-cA 2az3-a1-m1-cC_2az3-a1-m2-cC 2az3-a1-m2-cB_2az3-a1-m1-cA 2az3-a2-m1-cF_2az3-a2-m1-cG 2az3-a2-m1-cI_2az3-a2-m1-cD HDERTFVMVKPDGVQRGLIGDIVTRLETKGLKMVGGKFMRIDEELAHEHYAEHEDKPFFDGLVSFITSGPVFAMVWEGADATRQVRQLMGATDAQDAAPGTIRGDYGNDLGHNLIHGSDHEDEGANEREIALFFDDDELVDWDRDASAWVYE HDERTFVMVKPDGVQRGLIGDIVTRLETKGLKMVGGKFMRIDEELAHEHYAEHEDKPFFDGLVSFITSGPVFAMVWEGADATRQVRQLMGATDAQDAAPGTIRGDYGNDLGHNLIHGSDHEDEGANEREIALFFDDDELVDWDRDASAWVYE 2azc-a2-m1-cA_2azc-a2-m2-cA HIV-1 Protease NL4-3 6X mutant P03367 P03367 2.01 X-RAY DIFFRACTION 17 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 PQITLWKRPLVTIKIGGQLKEALIDTGADDTVLEEMNLPGRWKPKIIGGIGGLIKVRQYDQIPIEICGHKAIGTVLIGPTPANIIGRNLLTQIGCTLNF PQITLWKRPLVTIKIGGQLKEALIDTGADDTVLEEMNLPGRWKPKIIGGIGGLIKVRQYDQIPIEICGHKAIGTVLIGPTPANIIGRNLLTQIGCTLNF 2azc-a2-m1-cA_2azc-a2-m2-cB HIV-1 Protease NL4-3 6X mutant P03367 P03367 2.01 X-RAY DIFFRACTION 10 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 2azc-a2-m1-cB_2azc-a2-m2-cA PQITLWKRPLVTIKIGGQLKEALIDTGADDTVLEEMNLPGRWKPKIIGGIGGLIKVRQYDQIPIEICGHKAIGTVLIGPTPANIIGRNLLTQIGCTLNF PQITLWKRPLVTIKIGGQLKEALIDTGADDTVLEEMNLPGRWKPKIIGGIGGLIKVRQYDQIPIEICGHKAIGTVLIGPTPANIIGRNLLTQIGCTLNF 2aze-a2-m1-cC_2aze-a2-m2-cC Structure of the Rb C-terminal domain bound to an E2F1-DP1 heterodimer P06400 P06400 2.55 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 SRILVSIGESFGTSEKFQKINQMVCNSDRVLKRSAEGSNPPKPL SRILVSIGESFGTSEKFQKINQMVCNSDRVLKRSAEGSNPPKPL 2azj-a1-m1-cB_2azj-a1-m1-cA Crystal structure for the mutant D81C of Sulfolobus solfataricus hexaprenyl pyrophosphate synthase Q97W92 Q97W92 2.4 X-RAY DIFFRACTION 105 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 274 276 2azk-a1-m1-cA_2azk-a1-m1-cB IIEFWLEAKATIDRLIEQFLNSNRDWDLVDISSYILKDGKRFRGTLNMFFTVALGGDIKDSYGGALAIEILHSASLALCDIVDLDATRRGDKAAWVVYGNRKVIFITNYLIPTALRIIQTSYGDDALNTSIELWKDTSVGALRDMYDNSDYIRTIELKTGSLFKLSTVLSAYASKHYNTKQQMLDVGKYLGIIYQVIDDFVDYKTKKVEEIDGSAKQLFKYYREGKLEEYVRSVYLEYKQKYDELISNIPFQSKYLSEIRSLPEFLANGLLKEA MSIIEFWLEAKATIDRLIEQFLNSNRDWDLVDISSYILKDGKRFRGTLNMFFTVALGGDIKDSYGGALAIEILHSASLALCDIVDLDATRRGDKAAWVVYGNRKVIFITNYLIPTALRIIQTSYGDDALNTSIELWKDTSVGALRDMYDNSDYIRTIELKTGSLFKLSTVLSAYASKHYNTKQQMLDVGKYLGIIYQVIDDFVDYKTKKVEEIDGSAKQLFKYYREGKLEEYVRSVYLEYKQKYDELISNIPFQSKYLSEIRSLPEFLANGLLKEA 2azn-a9-m1-cA_2azn-a9-m4-cB X-RAY Structure of 2,5-diamino-6-ribosylamino-4(3h)-pyrimidinone 5-phosphate reductase Q58085 Q58085 2.7 X-RAY DIFFRACTION 168 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 214 214 2azn-a7-m1-cC_2azn-a7-m2-cF 2azn-a8-m1-cD_2azn-a8-m3-cE EKKPYIISNVGTLDGKLATINNDSRISCEEDLIRVHKIRANVDGIVGIGTVLKDDPRLTVHKIKSDRNPVRIVVDSKLRVPLNARVLNKDAKTIIATTEDTNEEKEKKIKILEDGVEVVKCGRGKVDLKKLDILYDKGIKSILLEGGGTLNWGFKEGLVDEVSVYIAPKIFGGKEAPTYVDGEGFKTVDECVKLELKNFYRLGEGIVLEFKVKK EKKPYIISNVGTLDGKLATINNDSRISCEEDLIRVHKIRANVDGIVGIGTVLKDDPRLTVHKIKSDRNPVRIVVDSKLRVPLNARVLNKDAKTIIATTEDTNEEKEKKIKILEDGVEVVKCGRGKVDLKKLDILYDKGIKSILLEGGGTLNWGFKEGLVDEVSVYIAPKIFGGKEAPTYVDGEGFKTVDECVKLELKNFYRLGEGIVLEFKVKK 2azq-a1-m1-cA_2azq-a1-m2-cA Crystal Structure of Catechol 1,2-Dioxygenase from Pseudomonas arvilla C-1 Q51433 Q51433 2.65 X-RAY DIFFRACTION 178 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 309 309 VKISHTADIQAFFNQVAGLDHAEGKPRFKQIILRVLQDTARLIEDLEITEDEFWHAVDYLNRLGGRNEAGLLAAGLGIEHFLDLLQDAKDAEAGLGGGTPRTIEGPLYVAGAPLAQGEVRMDDGTDPGVVMFLQGQVFDANGKPLAGATVDLWHANTQGTYSYFDSTQSEFNLRRRIITDAEGRYRARSIVPSGYGCDPQGPTQECLDLLGRHGQRPAHVHFFISAFGHRHLTTQINFAGDKYLWDDFAYATRDGLIGELRFVEDAAAARDRGVQGERFAELSFDFRLQGAQSPDAEARSHRPRALQEG VKISHTADIQAFFNQVAGLDHAEGKPRFKQIILRVLQDTARLIEDLEITEDEFWHAVDYLNRLGGRNEAGLLAAGLGIEHFLDLLQDAKDAEAGLGGGTPRTIEGPLYVAGAPLAQGEVRMDDGTDPGVVMFLQGQVFDANGKPLAGATVDLWHANTQGTYSYFDSTQSEFNLRRRIITDAEGRYRARSIVPSGYGCDPQGPTQECLDLLGRHGQRPAHVHFFISAFGHRHLTTQINFAGDKYLWDDFAYATRDGLIGELRFVEDAAAARDRGVQGERFAELSFDFRLQGAQSPDAEARSHRPRALQEG 2b06-a1-m1-cA_2b06-a1-m2-cA Crystal structure of the MutT/nudix family protein from Streptococcus pneumoniae A0A0H2UQ81 A0A0H2UQ81 1.4 X-RAY DIFFRACTION 70 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 150 150 MSRSQLTILTNICLIEDLETQRVVMQYRAWSGYAFPGGHVENDEAFAESVIREIYEETGLTIQNPQLVGIKNWPLDTGGRYIVICYKATEFSGTLQSSEEGEVSWVQKDQIPNLNLAYDMLPLMEMMEAPDKSEFFYPRRTEDDWEKKIF MSRSQLTILTNICLIEDLETQRVVMQYRAWSGYAFPGGHVENDEAFAESVIREIYEETGLTIQNPQLVGIKNWPLDTGGRYIVICYKATEFSGTLQSSEEGEVSWVQKDQIPNLNLAYDMLPLMEMMEAPDKSEFFYPRRTEDDWEKKIF 2b0a-a1-m1-cA_2b0a-a1-m2-cA Crystal structure of protein MJ0783 from Methanococcus jannaschii Q58193 Q58193 1.45 X-RAY DIFFRACTION 142 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 186 186 EILDLTQTLINFPRPGDPELRIIEKKIDGFIVSEIIMGSHLCTHIDYPKHVGLENRIPFKDGIIKGKGYCISLDDFPGNKLPACDILLIYTGFSKYWGRDEYFEKIPEIPFLDDIIKSNIKCVGIDACTIGGFEEHKRLLSNNILIIENLNENLKNLVGKSFYFLGLPLKIFDIDASPIRCIAILE EILDLTQTLINFPRPGDPELRIIEKKIDGFIVSEIIMGSHLCTHIDYPKHVGLENRIPFKDGIIKGKGYCISLDDFPGNKLPACDILLIYTGFSKYWGRDEYFEKIPEIPFLDDIIKSNIKCVGIDACTIGGFEEHKRLLSNNILIIENLNENLKNLVGKSFYFLGLPLKIFDIDASPIRCIAILE 2b0c-a1-m1-cA_2b0c-a1-m2-cA The crystal structure of the putative phosphatase from Escherichia coli P0A8Y3 P0A8Y3 2 X-RAY DIFFRACTION 49 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 199 199 AKMLYIFDLGNVIVDIDFNRVLGAWSDLTRIPLASLKKSFHMGEAFHQHERGEISDEAFAEALCHEMALPLSYEQFSHGWQAVFVALRPEVIAIMHKLREQGHRVVVLSNTNRLHTTFWPEEYPEIRDAADHIYLSQDLGMRKPEARIYQHVLQAEGFSPSDTVFFDDNADNIEGANQLGITSILVKDKTTIPDYFAKV AKMLYIFDLGNVIVDIDFNRVLGAWSDLTRIPLASLKKSFHMGEAFHQHERGEISDEAFAEALCHEMALPLSYEQFSHGWQAVFVALRPEVIAIMHKLREQGHRVVVLSNTNRLHTTFWPEEYPEIRDAADHIYLSQDLGMRKPEARIYQHVLQAEGFSPSDTVFFDDNADNIEGANQLGITSILVKDKTTIPDYFAKV 2b0o-a3-m1-cG_2b0o-a3-m1-cE Crystal structure of UPLC1 GAP domain Q8TDY4 Q8TDY4 2.06 X-RAY DIFFRACTION 23 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 253 264 PHDLTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRPEPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGT DLTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRCTEPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGPDAQAPEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGTFAFPLH 2b0o-a3-m1-cG_2b0o-a3-m1-cF Crystal structure of UPLC1 GAP domain Q8TDY4 Q8TDY4 2.06 X-RAY DIFFRACTION 14 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 253 266 PHDLTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRPEPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGT LTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRCTPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGTFAFPLHVDYSWVISTE 2b0o-a3-m1-cG_2b0o-a3-m1-cH Crystal structure of UPLC1 GAP domain Q8TDY4 Q8TDY4 2.06 X-RAY DIFFRACTION 113 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 253 262 2b0o-a2-m1-cG_2b0o-a2-m1-cH PHDLTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRPEPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGT LTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARREPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGTFAFPLHVDYSWVI 2b0o-a3-m1-cH_2b0o-a3-m1-cF Crystal structure of UPLC1 GAP domain Q8TDY4 Q8TDY4 2.06 X-RAY DIFFRACTION 22 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 262 266 LTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARREPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGTFAFPLHVDYSWVI LTKLLIAEVKSRPGNSQCCDCGAADPTWLSTNLGVLTCIQCSGVHRELGVRFSRMQSLTLDLLGPSELLLALNMGNTSFNEVMEAQLPSHGGPKPSAESDMGTRRDYIMAKYVEHRFARRCTPQRLWTAICNRDLLSVLEAFANGQDFGQPLPGEELVLHLAVKVANQASLPLVDFIIQNGGHLDAKAADGNTALHYAALYNQPDCLKLLLKGRALVGTVNEAGETALDIARKKHHKECEELLEQAQAGTFAFPLHVDYSWVISTE 2b0r-a1-m1-cB_2b0r-a1-m1-cA Crystal Structure of Cyclase-Associated Protein from Cryptosporidium parvum Q5CS32 Q5CS32 2.6 X-RAY DIFFRACTION 90 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 158 164 RQVVTNGSPKVELQKDTYLVENHVNCADPITLSEGSIKNKVSVRCSQNSRIIVEQKVNSIFIENCVGCIFLVNGVISSIEIVNCDDIKLQMTGIVPTISLDKSNKVNIYTSKEGKNVEVYSSKSSEMNLLFPWKELAIPEQFVTKYNESKGKLESMVS RQVVTNGSPKVELQKDTYLVENHVNCADPITLSEGSIKNKVSVRCSQNSRIIVEQKVNSIFIENCVGCIFLVNGVISSIEIVNCDDIKLQMTGIVPTISLDKSNKVNIYTSKEGKNVEVYSSKSSEMNLLFPGEEEGDWKELAIPEQFVTKYNESKGKLESMVS 2b0v-a2-m1-cA_2b0v-a2-m2-cA NUDIX hydrolase from Nitrosomonas europaea. Q82XR9 Q82XR9 1.55 X-RAY DIFFRACTION 73 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 146 146 KPNVTVAAVIEQDDKYLLVEEIPRGTAIKLNQPAGHLEPGESIIQACSREVLEETGHSFLPEVLTGIYHWTCASNGTTYLRFTFSGQVVSFDPDRKLDTGIVRAAWFSIDEIRAKQAHRTPLVQCIEDYHAGKRYPLDILQYYDGS KPNVTVAAVIEQDDKYLLVEEIPRGTAIKLNQPAGHLEPGESIIQACSREVLEETGHSFLPEVLTGIYHWTCASNGTTYLRFTFSGQVVSFDPDRKLDTGIVRAAWFSIDEIRAKQAHRTPLVQCIEDYHAGKRYPLDILQYYDGS 2b1g-a2-m1-cC_2b1g-a2-m1-cD Crystal structures of transition state analogue inhibitors of inosine monophosphate cyclohydrolase P31335 P31335 2.1 X-RAY DIFFRACTION 363 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 590 590 1g8m-a1-m1-cA_1g8m-a1-m1-cB 1m9n-a1-m1-cA_1m9n-a1-m1-cB 1oz0-a1-m1-cA_1oz0-a1-m1-cB 1thz-a1-m1-cA_1thz-a1-m1-cB 2b1g-a1-m1-cA_2b1g-a1-m1-cB 2b1i-a1-m1-cA_2b1i-a1-m1-cB 2iu0-a1-m1-cA_2iu0-a1-m1-cB 2iu3-a1-m1-cA_2iu3-a1-m1-cB RQQLALLSVSEKAGLVEFARSLNALGLGLIASGGTATALRDAGLPVRDVSDLTGFPEMLGGRVKTLHPAVHAGILARNIPEDNADMNKQDFSLVRVVVCNLYPFVKTVSSPGVTVPEAVEKIDIGGVALLRAAAKNHARVTVVCDPADYSSVAKEMAASKDKDTSVETRRHLALKAFTHTAQYDAAISDYFRKEYSKGVSQLPLRYGMNPHQSPAQLYTTRPKLPLTVVNGSPGFINLCDALNAWQLVKELKQALGIPAAASFKHVSPAGAAVGIPLSEEEAQVCMVHDLHKTLTPLASAYARSRGADRMSSFGDFIALSDICDVPTAKIISREVSDGVVAPGYEEEALKILSKKKNGGYCVLQMDPNYEPDDNEIRTLYGLQLMQKRNNAVIDRSLFKNIVTKNKTLPESAVRDLIVASIAVKYTQSNSVCYAKDGQVIGIGAGQQSRIHCTRLAGDKANSWWLRHHPRVLSMKFKAGVKRAEVSNAIDQYVTGTIGEDEDLVKWQAMFEEVPAQLTEAEKKQWIAKLTAVSLSSDAFFPFRDNVDRAKRIGVQFIVAPSGSAADEVVIEACNELGITLIHTNLRLFHH RQQLALLSVSEKAGLVEFARSLNALGLGLIASGGTATALRDAGLPVRDVSDLTGFPEMLGGRVKTLHPAVHAGILARNIPEDNADMNKQDFSLVRVVVCNLYPFVKTVSSPGVTVPEAVEKIDIGGVALLRAAAKNHARVTVVCDPADYSSVAKEMAASKDKDTSVETRRHLALKAFTHTAQYDAAISDYFRKEYSKGVSQLPLRYGMNPHQSPAQLYTTRPKLPLTVVNGSPGFINLCDALNAWQLVKELKQALGIPAAASFKHVSPAGAAVGIPLSEEEAQVCMVHDLHKTLTPLASAYARSRGADRMSSFGDFIALSDICDVPTAKIISREVSDGVVAPGYEEEALKILSKKKNGGYCVLQMDPNYEPDDNEIRTLYGLQLMQKRNNAVIDRSLFKNIVTKNKTLPESAVRDLIVASIAVKYTQSNSVCYAKDGQVIGIGAGQQSRIHCTRLAGDKANSWWLRHHPRVLSMKFKAGVKRAEVSNAIDQYVTGTIGEDEDLVKWQAMFEEVPAQLTEAEKKQWIAKLTAVSLSSDAFFPFRDNVDRAKRIGVQFIVAPSGSAADEVVIEACNELGITLIHTNLRLFHH 2b1x-a1-m1-cC_2b1x-a1-m1-cE Crystal structure of naphthalene 1,2-dioxygenase from Rhodococcus sp. Q9X3R9 Q9X3R9 2 X-RAY DIFFRACTION 110 1.0 441 441 2b1x-a1-m1-cA_2b1x-a1-m1-cC 2b1x-a1-m1-cA_2b1x-a1-m1-cE 2b24-a1-m1-cA_2b24-a1-m1-cC 2b24-a1-m1-cA_2b24-a1-m1-cE 2b24-a1-m1-cC_2b24-a1-m1-cE MLSNELRQTLQKGLHDVNSDWTVPAAIINDPEVHDVERERIFGHAWVFLAHESEIPERGDYVVRYISEDQFIVCRDEGGEIRGHLNACRHRGMQVCRAEMGNTSHFRCPYHGWTYSNTGSLVGVPAGKDAYGNQLKKSDWNLRPMPNLASYKGLIFGSLDPHADSLEDYLGDLKFYLDIVLDRSDAGLQVVGAPQRWVIDANWKLGADNFVGDAYHTMMTHRSMVELGLAPPDPQFALYGEHIHTGHGHGLGIIGPPPGMPLPEFMGLPENIVEELERRLTPEQVEIFRPTAFIHGTVFPNLSIGNFLMGKDHLSAPTAFLTLRLWHPLGPDKMEVMSFFLVEKDAPDWFKDESYKSYLRTFGISGGFEQDDAENWRSITRVMGGQFAKTGELNYQMGRGVLEPDPNWTGPGEAYPLDYAEANQRNFLEYWMQLMLAESPL MLSNELRQTLQKGLHDVNSDWTVPAAIINDPEVHDVERERIFGHAWVFLAHESEIPERGDYVVRYISEDQFIVCRDEGGEIRGHLNACRHRGMQVCRAEMGNTSHFRCPYHGWTYSNTGSLVGVPAGKDAYGNQLKKSDWNLRPMPNLASYKGLIFGSLDPHADSLEDYLGDLKFYLDIVLDRSDAGLQVVGAPQRWVIDANWKLGADNFVGDAYHTMMTHRSMVELGLAPPDPQFALYGEHIHTGHGHGLGIIGPPPGMPLPEFMGLPENIVEELERRLTPEQVEIFRPTAFIHGTVFPNLSIGNFLMGKDHLSAPTAFLTLRLWHPLGPDKMEVMSFFLVEKDAPDWFKDESYKSYLRTFGISGGFEQDDAENWRSITRVMGGQFAKTGELNYQMGRGVLEPDPNWTGPGEAYPLDYAEANQRNFLEYWMQLMLAESPL 2b1x-a1-m1-cD_2b1x-a1-m1-cF Crystal structure of naphthalene 1,2-dioxygenase from Rhodococcus sp. Q7BSK6 Q7BSK6 2 X-RAY DIFFRACTION 69 1.0 167 167 2b1x-a1-m1-cB_2b1x-a1-m1-cD 2b1x-a1-m1-cB_2b1x-a1-m1-cF 2b24-a1-m1-cB_2b24-a1-m1-cD 2b24-a1-m1-cB_2b24-a1-m1-cF 2b24-a1-m1-cD_2b24-a1-m1-cF RVSDTTVREITEWLYMEAELLDAGKYREWLALVTEDLSYVVPIRVTREREAVTDVVEGMTHMDDDADSMEMRVLRLETEYAWAEDPPSRSRHFVTNVRVATGDSEDEFKVTSNLLLYRTRGDVATYDVLSGERTDVLRRAGDSFLMAKRVVLLDQTTIMTHNLALIM RVSDTTVREITEWLYMEAELLDAGKYREWLALVTEDLSYVVPIRVTREREAVTDVVEGMTHMDDDADSMEMRVLRLETEYAWAEDPPSRSRHFVTNVRVATGDSEDEFKVTSNLLLYRTRGDVATYDVLSGERTDVLRRAGDSFLMAKRVVLLDQTTIMTHNLALIM 2b1y-a1-m1-cA_2b1y-a1-m2-cA Crystal Structure of Protein of Unknown Function ATU1913 from Agrobacterium tumefaciens str. C58 A9CIG4 A9CIG4 1.8 X-RAY DIFFRACTION 390 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 98 98 PNFRYTHYDLKELRAGTTLEISLSSVNNVRLTGANFQRFTELLDFKYLGGVAKKSPIRIAVPETHWHLIIDAEGHSGLAESSVKLPAQPQATLTRKAS PNFRYTHYDLKELRAGTTLEISLSSVNNVRLTGANFQRFTELLDFKYLGGVAKKSPIRIAVPETHWHLIIDAEGHSGLAESSVKLPAQPQATLTRKAS 2b22-a1-m3-cA_2b22-a1-m4-cA Antiparallel four-stranded coiled coil specified by a 3-3-1 hydrophobic heptad repeat P03069 P03069 2 X-RAY DIFFRACTION 37 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 29 29 2b22-a1-m1-cA_2b22-a1-m2-cA VKQLEDVVEELLSVNYHLENVVARLKKLV VKQLEDVVEELLSVNYHLENVVARLKKLV 2b25-a3-m1-cB_2b25-a3-m2-cB Human putative tRNA(1-methyladenosine)methyltransferase Q9BVS5 Q9BVS5 2.5 X-RAY DIFFRACTION 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 239 2b25-a3-m1-cA_2b25-a3-m2-cA RPFQAGELILAETKFKKLFRLNKIVGKFPGQILRSQYMLRRPALEDYVVLMKRGTAITFPKDINMILSMMDINPGDTVLEAGSGSGGMSLFLSKAVGSQGRVISFEVRKDHHDLAKKNYKHWRDSWKLSHVEEWPDNVDFIHKDISGATFDAVALDMLNPHVTLPVFYPHLKHGGVCAVYVVNITQVIELLDGIRTCELALSCEKISEVIVRDWLVCLVARPVHWQPGHTAFLVKLRKV RPFQAGELILAETKFKKLFRLNKIVGKFPGQILRSQYMLRRPALEDYVVLMKRGTAITFPKDINMILSMMDINPGDTVLEAGSGSGGMSLFLSKAVGSQGRVISFEVRKDHHDLAKKNYKHWRDSWKLSHVEEWPDNVDFIHKDISGATFDAVALDMLNPHVTLPVFYPHLKHGGVCAVYVVNITQVIELLDGIRTCELALSCEKISEVIVRDWLVCLVARPVHWQPGHTAFLVKLRKV 2b25-a3-m2-cB_2b25-a3-m1-cA Human putative tRNA(1-methyladenosine)methyltransferase Q9BVS5 Q9BVS5 2.5 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 254 2b25-a3-m1-cB_2b25-a3-m2-cA RPFQAGELILAETKFKKLFRLNKIVGKFPGQILRSQYMLRRPALEDYVVLMKRGTAITFPKDINMILSMMDINPGDTVLEAGSGSGGMSLFLSKAVGSQGRVISFEVRKDHHDLAKKNYKHWRDSWKLSHVEEWPDNVDFIHKDISGATFDAVALDMLNPHVTLPVFYPHLKHGGVCAVYVVNITQVIELLDGIRTCELALSCEKISEVIVRDWLVCLVARPVHWQPGHTAFLVKLRKV RPFQAGELILAETTKFKKLFRLNNFGLLNVPFGKIVGKFPGQILRSSFGKQYMLRRPALEDYVVLMKRGTAITFPKDINMILSMMDINPGDTVLEAGSGSGGMSLFLSKAVGSQGRVISFEVRKDHHDLAKKNYKHWRDSWKLSHVEEWPDNVDFIHKDISGATFDAVALDMLNPHVTLPVFYPHLKHGGVCAVYVVNITQVIELLDGIRTCELALSCEKISEVIVRDWLVCLVARPVHWQPGHTAFLVKLRKV 2b26-a1-m1-cB_2b26-a1-m1-cA The crystal structure of the protein complex of yeast Hsp40 Sis1 and Hsp70 Ssa1 P25294 P25294 3.2 X-RAY DIFFRACTION 54 0.98 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 147 157 ETVQVNLPVSLEDLFVGKKKSFKTQIDIQLKPGWKAGTKITYKNKTLQFVIQEKSHPNFKRDGDDLIYTLPLSFKESLLGFSKTIQTIDGRTLPLSRVQPVQPSQTSTYPGQGMPTPKNPSQRGNLIVKYKVDYPISLNDAQKRAID ETVQVNLPVSLEDLFVGKKKSFKIGRKGPHGASEKTQIDIQLKPGWKAGTKITRKTLQFVIQEKSHPNFKRDGDDLIYTLPLSFKESLLGFSKTIQTIDGRTLPLSRVQPVQPSQTSTYPGQGMPTPKNPSQRGNLIVKYKVDYPISLNDAQKRAID 2b26-a2-m1-cC_2b26-a2-m2-cC The crystal structure of the protein complex of yeast Hsp40 Sis1 and Hsp70 Ssa1 P25294 P25294 3.2 X-RAY DIFFRACTION 44 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 122 122 LEDLFVGKKKSFDIQLKPGWKAGTVIQEKSHPNFKRDGDDLIYTLPLSFKESLLGFSKTIQTIDGRTLPLSRVQPVQPSQTSTYPGQGMPTPKNPSQRGNLIVKYKVDYPISLNDAQKRAID LEDLFVGKKKSFDIQLKPGWKAGTVIQEKSHPNFKRDGDDLIYTLPLSFKESLLGFSKTIQTIDGRTLPLSRVQPVQPSQTSTYPGQGMPTPKNPSQRGNLIVKYKVDYPISLNDAQKRAID 2b2c-a1-m1-cA_2b2c-a1-m1-cB Cloning, expression, characterisation and three- dimensional structure determination of the Caenorhabditis elegans spermidine synthase G5EFG3 G5EFG3 2.5 X-RAY DIFFRACTION 108 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 276 276 KLHKGWFTEFSPDDLGAWPGQAFSLQVKKVLFHEKSKYQDVLVFESTTYGNVLVLDGIVQATERDEFSYQEMLAHLPMFAHPDPKRVLIIGGGDGGILREVLKHESVEKVTMCEIDEMVIDVAKKFLPGMSCGFSHPKLDLFCGDGFEFLKNHKNEFDVIITDSSYYELLRDALKEDGILSSQGESVWLHLPLIAHLVAFNRKIFPAVTYAQSIVSTYPSGSMGYLICAKNANRDVTTPARTLTAEQIKALNLRFYNSEVHKAAFVLPQFVKNALE KLHKGWFTEFSPDDLGAWPGQAFSLQVKKVLFHEKSKYQDVLVFESTTYGNVLVLDGIVQATERDEFSYQEMLAHLPMFAHPDPKRVLIIGGGDGGILREVLKHESVEKVTMCEIDEMVIDVAKKFLPGMSCGFSHPKLDLFCGDGFEFLKNHKNEFDVIITDSSYYELLRDALKEDGILSSQGESVWLHLPLIAHLVAFNRKIFPAVTYAQSIVSTYPSGSMGYLICAKNANRDVTTPARTLTAEQIKALNLRFYNSEVHKAAFVLPQFVKNALE 2b2h-a1-m2-cA_2b2h-a1-m3-cA Ammonium Transporter Amt-1 from A. fulgidus (AS) O29285 O29285 1.54 X-RAY DIFFRACTION 164 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 391 391 2b2f-a1-m1-cA_2b2f-a1-m2-cA 2b2f-a1-m1-cA_2b2f-a1-m3-cA 2b2f-a1-m2-cA_2b2f-a1-m3-cA 2b2h-a1-m1-cA_2b2h-a1-m2-cA 2b2h-a1-m1-cA_2b2h-a1-m3-cA 2b2i-a1-m1-cA_2b2i-a1-m2-cA 2b2i-a1-m1-cA_2b2i-a1-m3-cA 2b2i-a1-m2-cA_2b2i-a1-m3-cA 2b2j-a1-m1-cA_2b2j-a1-m2-cA 2b2j-a1-m1-cA_2b2j-a1-m3-cA 2b2j-a1-m2-cA_2b2j-a1-m3-cA MSDGNVAWILASTALVMLMVPGVGFFYAGMVRRKNAVNMIALSFISLIITVLLWIFYGYSVSFGNDISGIIGGLNYALLSGVKGEDLLFMMYQMMFAAVTIAILTSAIAERAKVSSFILLSALWLTFVYAPFAHWLWGGGWLAKLGALDFAGGMVVHISSGFAALAVAMTIGKRAGFEEYSIEPHSIPLTLIGAALLWFGWFGFNGGSALAANDVAINAVVVTNTSAAVAGFVWMVIGWIKGKPGSLGIVSGAIAGLAAITPAAGFVDVKGAIVIGLVAGIVCYLAMDFRIKKKIDESLDAWAIHGIGGLWGSVAVGILANPEVNGYAGLLFGNPQLLVSQLIAVASTTAYAFLVTLILAKAVDAAVGLRVSSQEEYVGLDLSQHEEVAYT MSDGNVAWILASTALVMLMVPGVGFFYAGMVRRKNAVNMIALSFISLIITVLLWIFYGYSVSFGNDISGIIGGLNYALLSGVKGEDLLFMMYQMMFAAVTIAILTSAIAERAKVSSFILLSALWLTFVYAPFAHWLWGGGWLAKLGALDFAGGMVVHISSGFAALAVAMTIGKRAGFEEYSIEPHSIPLTLIGAALLWFGWFGFNGGSALAANDVAINAVVVTNTSAAVAGFVWMVIGWIKGKPGSLGIVSGAIAGLAAITPAAGFVDVKGAIVIGLVAGIVCYLAMDFRIKKKIDESLDAWAIHGIGGLWGSVAVGILANPEVNGYAGLLFGNPQLLVSQLIAVASTTAYAFLVTLILAKAVDAAVGLRVSSQEEYVGLDLSQHEEVAYT 2b2w-a1-m1-cB_2b2w-a1-m1-cA Tandem chromodomains of human CHD1 complexed with Histone H3 Tail containing trimethyllysine 4 O14646 O14646 2.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 177 2b2t-a1-m1-cB_2b2t-a1-m1-cA 2b2u-a1-m1-cB_2b2u-a1-m1-cA 2b2v-a1-m1-cB_2b2v-a1-m1-cA 2b2y-a1-m1-cB_2b2y-a1-m1-cA EEFETIERFMDCRIGRKGATGATTTIYAVEADGDPNAGFEKKEPGEIQYLIKWKGWSHIHNTWETEETLKQQNVRGMKKLDNYKKKDQETKRWLKNASPEDVEYYNCQQELTDDLHKQYQIVGRIIAHSNQKSAAGYPDYYCKWQGLPYSECSWEDGALISKKFQACIDEYFSRK EEFETIERFMDCRIGRKGATGATTTIYAVEADGDPNAGFEKNKEPGEIQYLIKWKGWSHIHNTWETEETLKQQNVRGMKKLDNYKKKDQETKRWLKNASPEDVEYYNCQQELTDDLHKQYQIVGRIIAHSNQKSAAGYPDYYCKWQGLPYSECSWEDGALISKKFQACIDEYFSRKK 2b2w-a1-m1-cC_2b2w-a1-m1-cA Tandem chromodomains of human CHD1 complexed with Histone H3 Tail containing trimethyllysine 4 O14646 O14646 2.4 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 177 2b2t-a1-m1-cC_2b2t-a1-m1-cA 2b2v-a1-m1-cC_2b2v-a1-m1-cA EEFETIERFMDCRIGRKGATGATTTIYAVEADGDPNAGFEKNKEPGEIQYLIKWKGWSHIHNTWETEETLKQQNVRGMKKLDNYKK EEFETIERFMDCRIGRKGATGATTTIYAVEADGDPNAGFEKNKEPGEIQYLIKWKGWSHIHNTWETEETLKQQNVRGMKKLDNYKKKDQETKRWLKNASPEDVEYYNCQQELTDDLHKQYQIVGRIIAHSNQKSAAGYPDYYCKWQGLPYSECSWEDGALISKKFQACIDEYFSRKK 2b30-a2-m1-cC_2b30-a2-m1-cD Initial Crystallographic Structural Analysis of a putative HAD/COF-like hydrolase from Plasmodium vivax A5K063 A5K063 2.7 X-RAY DIFFRACTION 32 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 284 284 2b30-a1-m1-cA_2b30-a1-m1-cB KVEEALKGADIKLLLIDFDGTLFVDKDIKVPSENIDAIKEAIEKGYMVSICTGRSKVGILSAFGEENLKKMNFYGMPGVYINGTIVYDQIGYTLLDETIETDVYAELISYLVEKNLVNQTIFHRGESNYVTEDNKYADFLQKMYSENRSIIIRHNEMLKYRTMNKLMIVLDPSESKTVIGNLKQKFKNKLTIFTTYNGHAEVTKLGHDKYTGINYLLKHYNISNDQVLVVGDAENDIAMLSNFKYSFAVANATDSAKSHAKCVLPVSHREGAVAYLLKKVFDLK KVEEALKGADIKLLLIDFDGTLFVDKDIKVPSENIDAIKEAIEKGYMVSICTGRSKVGILSAFGEENLKKMNFYGMPGVYINGTIVYDQIGYTLLDETIETDVYAELISYLVEKNLVNQTIFHRGESNYVTEDNKYADFLQKMYSENRSIIIRHNEMLKYRTMNKLMIVLDPSESKTVIGNLKQKFKNKLTIFTTYNGHAEVTKLGHDKYTGINYLLKHYNISNDQVLVVGDAENDIAMLSNFKYSFAVANATDSAKSHAKCVLPVSHREGAVAYLLKKVFDLK 2b33-a3-m4-cB_2b33-a3-m5-cB CRYSTAL STRUCTURE OF A PUTATIVE ENDORIBONUCLEASE (TM0215) FROM THERMOTOGA MARITIMA MSB8 AT 2.30 A RESOLUTION Q9WY58 Q9WY58 2.3 X-RAY DIFFRACTION 73 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 126 126 2b33-a1-m1-cA_2b33-a1-m2-cA 2b33-a1-m1-cA_2b33-a1-m3-cA 2b33-a1-m2-cA_2b33-a1-m3-cA 2b33-a3-m1-cB_2b33-a3-m4-cB 2b33-a3-m1-cB_2b33-a3-m5-cB KRFVETDKAPKAIGPYSQAVVVGNMMFVSGQIPIDPETGELVQGTIEEKTERVLENLKAILEAGGFSLKDVVKVTVFTTSMDYFQRVNEVYSRYFGDHRPARSFVAVAQLPRNVEIEIEAIAVKEG KRFVETDKAPKAIGPYSQAVVVGNMMFVSGQIPIDPETGELVQGTIEEKTERVLENLKAILEAGGFSLKDVVKVTVFTTSMDYFQRVNEVYSRYFGDHRPARSFVAVAQLPRNVEIEIEAIAVKEG 2b34-a3-m1-cA_2b34-a3-m2-cF Structure of MAR1 Ribonuclease from Caenorhabditis elegans Q20062 Q20062 2.141 X-RAY DIFFRACTION 16 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 192 192 ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL 2b34-a3-m1-cC_2b34-a3-m1-cD Structure of MAR1 Ribonuclease from Caenorhabditis elegans Q20062 Q20062 2.141 X-RAY DIFFRACTION 82 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 192 192 2b34-a1-m1-cA_2b34-a1-m1-cB 2b34-a1-m1-cA_2b34-a1-m1-cD 2b34-a1-m1-cB_2b34-a1-m1-cC 2b34-a1-m1-cC_2b34-a1-m1-cD 2b34-a2-m1-cE_2b34-a2-m1-cF 2b34-a2-m1-cE_2b34-a2-m1-cH 2b34-a2-m1-cF_2b34-a2-m1-cG 2b34-a2-m1-cG_2b34-a2-m1-cH 2b34-a3-m1-cA_2b34-a3-m1-cB 2b34-a3-m1-cA_2b34-a3-m1-cD 2b34-a3-m1-cB_2b34-a3-m1-cC 2b34-a3-m2-cE_2b34-a3-m2-cF 2b34-a3-m2-cE_2b34-a3-m2-cH 2b34-a3-m2-cF_2b34-a3-m2-cG 2b34-a3-m2-cG_2b34-a3-m2-cH ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL 2b34-a3-m1-cC_2b34-a3-m2-cF Structure of MAR1 Ribonuclease from Caenorhabditis elegans Q20062 Q20062 2.141 X-RAY DIFFRACTION 10 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 192 192 ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL 2b34-a3-m1-cD_2b34-a3-m2-cF Structure of MAR1 Ribonuclease from Caenorhabditis elegans Q20062 Q20062 2.141 X-RAY DIFFRACTION 11 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 192 192 2b34-a3-m1-cA_2b34-a3-m2-cE ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL ARINPTNSALFVCDLQEKFASNIKYFPEIITTSRRLIDAARILSIPTIVTEQYPKGLGHTVPTLKEGLAENTPIFDKTKFSMCIPPTEDTLKKVQNVILVGIEAHVCVLQTTYDLLERGLNVHVVVDAVSSRSHTDRHFAFKQMEQAGAILTTSEATILGLVGGSDHPKFKEVQKLILTSAPDTGLVPLSKL 2b3g-a1-m2-cA_2b3g-a1-m3-cA p53N (fragment 33-60) bound to RPA70N P27694 P27694 1.6 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 MVGQLSEGAIAAIMQKGDTNIKPILQVINIRPITSPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYNE MVGQLSEGAIAAIMQKGDTNIKPILQVINIRPITSPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYNE 2b3j-a2-m1-cD_2b3j-a2-m1-cC Crystal Structure of Staphylococcus aureus tRNA Adenosine Deaminase, TadA, in Complex with RNA Q99W51 Q99W51 2 X-RAY DIFFRACTION 101 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 150 152 2b3j-a1-m1-cA_2b3j-a1-m1-cB NDIYFMTLAIEEAKKAAQLGEVPIGAIITKDDEVIARAHNLRETLQQPTAHAEHIAIERAAKVLGSWRLEGCTLYVTLEPCVMCAGTIVMSRIPRVVYGADDPKGGCSGSLMNLLQQSNFNHRAIVDKGVLKEACSTLLTTFFKNLRANK MTNDIYFMTLAIEEAKKAAQLGEVPIGAIITKDDEVIARAHNLRETLQQPTAHAEHIAIERAAKVLGSWRLEGCTLYVTLEPCVMCAGTIVMSRIPRVVYGADDPKGGCSGSLMNLLQQSNFNHRAIVDKGVLKEACSTLLTTFFKNLRANK 2b3r-a3-m1-cA_2b3r-a3-m2-cB Crystal structure of the C2 domain of class II phosphatidylinositide 3-kinase C2 Q61194 Q61194 2.3 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 124 124 2b3r-a3-m1-cB_2b3r-a3-m2-cA GSGAVKLSVSYRNGTLFIMVMHIKDLVTEDGADPNPYVKTYLLPDTHKTSKRKTKISRKTRNPTFNEMLVYSGYSKETLRQRELQLSVLSAESLRENFFLGGITLPLKDFNLSKETVKWYQLTA GSGAVKLSVSYRNGTLFIMVMHIKDLVTEDGADPNPYVKTYLLPDTHKTSKRKTKISRKTRNPTFNEMLVYSGYSKETLRQRELQLSVLSAESLRENFFLGGITLPLKDFNLSKETVKWYQLTA 2b3r-a3-m2-cA_2b3r-a3-m2-cB Crystal structure of the C2 domain of class II phosphatidylinositide 3-kinase C2 Q61194 Q61194 2.3 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 124 124 2b3r-a3-m1-cA_2b3r-a3-m1-cB GSGAVKLSVSYRNGTLFIMVMHIKDLVTEDGADPNPYVKTYLLPDTHKTSKRKTKISRKTRNPTFNEMLVYSGYSKETLRQRELQLSVLSAESLRENFFLGGITLPLKDFNLSKETVKWYQLTA GSGAVKLSVSYRNGTLFIMVMHIKDLVTEDGADPNPYVKTYLLPDTHKTSKRKTKISRKTRNPTFNEMLVYSGYSKETLRQRELQLSVLSAESLRENFFLGGITLPLKDFNLSKETVKWYQLTA 2b3z-a1-m1-cA_2b3z-a1-m1-cB Crystal structure of a bifunctional deaminase and reductase involved in riboflavin biosynthesis P17618 P17618 2.41 X-RAY DIFFRACTION 176 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 359 359 2b3z-a1-m1-cC_2b3z-a1-m1-cD 2d5n-a1-m1-cA_2d5n-a1-m1-cB 2d5n-a1-m1-cC_2d5n-a1-m1-cD 3ex8-a1-m1-cA_3ex8-a1-m1-cC 3ex8-a1-m1-cB_3ex8-a1-m1-cD 4g3m-a1-m1-cA_4g3m-a1-m1-cC 4g3m-a1-m1-cB_4g3m-a1-m1-cD MEEYYMKLALDLAKQGEGQTESNPLVGAVVVKDGQIVGMGAHLKYGEAHAEVHAIHMAGAHAEGADIYVTLEPCSHYGKTPPCAELIINSGIKRVFVAMRDPNPLVAGRGISMMKEAGIEVREGILADQAERLNEKFLHFMRTGLPYVTLKAAASLDGKIATSTGDSKWITSEAARQDAQQYRKTHQSILVGVGTVKADNPSLTCRLPNVTKQPVRVILDTVLSIPEDAKVICDQIAPTWIFTTARADEEKKKRLSAFGVNIFTLETERIQIPDVLKILAEEGIMSVYVEGGSAVHGSFVKEGCFQEIIFYFAPKLIGGTHAPSLISGEGFQSMKDVPLLQFTDITQIGRDIKLTAKPT MEEYYMKLALDLAKQGEGQTESNPLVGAVVVKDGQIVGMGAHLKYGEAHAEVHAIHMAGAHAEGADIYVTLEPCSHYGKTPPCAELIINSGIKRVFVAMRDPNPLVAGRGISMMKEAGIEVREGILADQAERLNEKFLHFMRTGLPYVTLKAAASLDGKIATSTGDSKWITSEAARQDAQQYRKTHQSILVGVGTVKADNPSLTCRLPNVTKQPVRVILDTVLSIPEDAKVICDQIAPTWIFTTARADEEKKKRLSAFGVNIFTLETERIQIPDVLKILAEEGIMSVYVEGGSAVHGSFVKEGCFQEIIFYFAPKLIGGTHAPSLISGEGFQSMKDVPLLQFTDITQIGRDIKLTAKPT 2b3z-a1-m1-cA_2b3z-a1-m1-cC Crystal structure of a bifunctional deaminase and reductase involved in riboflavin biosynthesis P17618 P17618 2.41 X-RAY DIFFRACTION 53 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 359 359 2b3z-a1-m1-cB_2b3z-a1-m1-cD 2d5n-a1-m1-cA_2d5n-a1-m1-cC 2d5n-a1-m1-cB_2d5n-a1-m1-cD 3ex8-a1-m1-cA_3ex8-a1-m1-cB 3ex8-a1-m1-cC_3ex8-a1-m1-cD 4g3m-a1-m1-cA_4g3m-a1-m1-cB 4g3m-a1-m1-cC_4g3m-a1-m1-cD MEEYYMKLALDLAKQGEGQTESNPLVGAVVVKDGQIVGMGAHLKYGEAHAEVHAIHMAGAHAEGADIYVTLEPCSHYGKTPPCAELIINSGIKRVFVAMRDPNPLVAGRGISMMKEAGIEVREGILADQAERLNEKFLHFMRTGLPYVTLKAAASLDGKIATSTGDSKWITSEAARQDAQQYRKTHQSILVGVGTVKADNPSLTCRLPNVTKQPVRVILDTVLSIPEDAKVICDQIAPTWIFTTARADEEKKKRLSAFGVNIFTLETERIQIPDVLKILAEEGIMSVYVEGGSAVHGSFVKEGCFQEIIFYFAPKLIGGTHAPSLISGEGFQSMKDVPLLQFTDITQIGRDIKLTAKPT MEEYYMKLALDLAKQGEGQTESNPLVGAVVVKDGQIVGMGAHLKYGEAHAEVHAIHMAGAHAEGADIYVTLEPCSHYGKTPPCAELIINSGIKRVFVAMRDPNPLVAGRGISMMKEAGIEVREGILADQAERLNEKFLHFMRTGLPYVTLKAAASLDGKIATSTGDSKWITSEAARQDAQQYRKTHQSILVGVGTVKADNPSLTCRLPNVTKQPVRVILDTVLSIPEDAKVICDQIAPTWIFTTARADEEKKKRLSAFGVNIFTLETERIQIPDVLKILAEEGIMSVYVEGGSAVHGSFVKEGCFQEIIFYFAPKLIGGTHAPSLISGEGFQSMKDVPLLQFTDITQIGRDIKLTAKPT 2b4c-a2-m4-cG_2b4c-a2-m2-cG Crystal structure of HIV-1 JR-FL gp120 core protein containing the third variable region (V3) complexed with CD4 and the X5 antibody Q75760 Q75760 3.3 X-RAY DIFFRACTION 86 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 339 339 2b4c-a2-m3-cG_2b4c-a2-m1-cG VVLENVTEHFNMWKNDMVEQMQEDIISLWDQSLKPCVKLTPLCVGAGSCDTSVITQACPKISFEPIPIHYCAPAGFAILKCNDKTFNGKGPCKNVSTVQCTHGIRPVVSTQLLLNGSLAEEEVVIRSDNFTNNAKTIIVQLKESVEINCTRPNQNTRKSIHIGPGRAFYTTGEIIGDIRQAHCNISRAKWNDTLKQIVIKLREQFENKTIVFNHSSGGDPEIVMHSFNCGGEFFYCNSAQLFNSTWNNNTEGSNNTEGNTITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGINENGTEIFRPGGGDMRDNWRSELYKYKVVKIE VVLENVTEHFNMWKNDMVEQMQEDIISLWDQSLKPCVKLTPLCVGAGSCDTSVITQACPKISFEPIPIHYCAPAGFAILKCNDKTFNGKGPCKNVSTVQCTHGIRPVVSTQLLLNGSLAEEEVVIRSDNFTNNAKTIIVQLKESVEINCTRPNQNTRKSIHIGPGRAFYTTGEIIGDIRQAHCNISRAKWNDTLKQIVIKLREQFENKTIVFNHSSGGDPEIVMHSFNCGGEFFYCNSAQLFNSTWNNNTEGSNNTEGNTITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGINENGTEIFRPGGGDMRDNWRSELYKYKVVKIE 2b4c-a2-m4-cH_2b4c-a2-m2-cH Crystal structure of HIV-1 JR-FL gp120 core protein containing the third variable region (V3) complexed with CD4 and the X5 antibody 3.3 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 2b4c-a2-m1-cH_2b4c-a2-m3-cH QLLEQSGAEVKKPGSSVQVSCKASGGTFSMYGFNWVRQAPGHGLEWMGGIIPIFGTSNYAQKFRGRVTFTADQATSTAYMELTNLRSDDTAVYYCARDFGPDWEDGDSYDGSGRGFFDFWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC QLLEQSGAEVKKPGSSVQVSCKASGGTFSMYGFNWVRQAPGHGLEWMGGIIPIFGTSNYAQKFRGRVTFTADQATSTAYMELTNLRSDDTAVYYCARDFGPDWEDGDSYDGSGRGFFDFWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 2b4c-a2-m4-cH_2b4c-a2-m3-cH Crystal structure of HIV-1 JR-FL gp120 core protein containing the third variable region (V3) complexed with CD4 and the X5 antibody 3.3 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 2b4c-a2-m1-cH_2b4c-a2-m2-cH QLLEQSGAEVKKPGSSVQVSCKASGGTFSMYGFNWVRQAPGHGLEWMGGIIPIFGTSNYAQKFRGRVTFTADQATSTAYMELTNLRSDDTAVYYCARDFGPDWEDGDSYDGSGRGFFDFWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC QLLEQSGAEVKKPGSSVQVSCKASGGTFSMYGFNWVRQAPGHGLEWMGGIIPIFGTSNYAQKFRGRVTFTADQATSTAYMELTNLRSDDTAVYYCARDFGPDWEDGDSYDGSGRGFFDFWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 2b4q-a2-m1-cB_2b4q-a2-m2-cB Pseudomonas aeruginosa RhlG/NADP active-site complex Q9RPT1 Q9RPT1 2.3 X-RAY DIFFRACTION 149 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 248 248 2b4q-a2-m1-cA_2b4q-a2-m2-cA MHPYFSLAGRIALVTGGSRGIGQMIAQGLLEAGARVFICARDAEACADTATRLSAYGDCQAIPADLSSEAGARRLAQALGELSARLDILVNNAGTSPVSGWEKVMQLNVTSVFSCIQQLLPLLRRSASAENPARVINIGSVAGISAMGEQAYAYGPSKAALHQLSRMLAKELVGEHINVNVIAPGRFPSRMTRHIANDPQALEADSASIPMGRWGRPEEMAALAISLAGTAGAYMTGNVIPIDGGFHL MHPYFSLAGRIALVTGGSRGIGQMIAQGLLEAGARVFICARDAEACADTATRLSAYGDCQAIPADLSSEAGARRLAQALGELSARLDILVNNAGTSPVSGWEKVMQLNVTSVFSCIQQLLPLLRRSASAENPARVINIGSVAGISAMGEQAYAYGPSKAALHQLSRMLAKELVGEHINVNVIAPGRFPSRMTRHIANDPQALEADSASIPMGRWGRPEEMAALAISLAGTAGAYMTGNVIPIDGGFHL 2b4q-a2-m2-cB_2b4q-a2-m2-cA Pseudomonas aeruginosa RhlG/NADP active-site complex Q9RPT1 Q9RPT1 2.3 X-RAY DIFFRACTION 109 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 248 256 2b4q-a1-m1-cB_2b4q-a1-m1-cA 2b4q-a2-m1-cB_2b4q-a2-m1-cA MHPYFSLAGRIALVTGGSRGIGQMIAQGLLEAGARVFICARDAEACADTATRLSAYGDCQAIPADLSSEAGARRLAQALGELSARLDILVNNAGTSPVSGWEKVMQLNVTSVFSCIQQLLPLLRRSASAENPARVINIGSVAGISAMGEQAYAYGPSKAALHQLSRMLAKELVGEHINVNVIAPGRFPSRMTRHIANDPQALEADSASIPMGRWGRPEEMAALAISLAGTAGAYMTGNVIPIDGGFHL MHPYFSLAGRIALVTGGSRGIGQMIAQGLLEAGARVFICARDAEACADTATRLSAYGDCQAIPADLSSEAGARRLAQALGELSARLDILVNNAGTSWGAALESYPVSGWEKVMQLNVTSVFSCIQQLLPLLRRSASAENPARVINIGSVAGISAMGEQAYAYGPSKAALHQLSRMLAKELVGEHINVNVIAPGRFPSRMTRHIANDPQALEADSASIPMGRWGRPEEMAALAISLAGTAGAYMTGNVIPIDGGFHL 2b4r-a1-m1-cO_2b4r-a1-m1-cR Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Plasmodium falciparum at 2.25 Angstrom Resolution reveals intriguing extra electron density in the active site Q8T6B1 Q8T6B1 2.25 X-RAY DIFFRACTION 100 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 334 334 1ywg-a1-m1-cO_1ywg-a1-m1-cR 1ywg-a1-m1-cP_1ywg-a1-m1-cQ 2b4r-a1-m1-cP_2b4r-a1-m1-cQ 2b4t-a1-m1-cO_2b4t-a1-m1-cR 2b4t-a1-m1-cP_2b4t-a1-m1-cQ ATKLGINGFGRIGRLVFRAAFGRKDIEVVAINDPFMDLNHLCYLLKYDSVHGQFPCEVTHADGFLLIGEKKVSVFAEKDPSQIPWGKCQVDVVCESTGVFLTKELASSHLKGGAKKVIMSAPPKDDTPIYVMGINHHQYDTKQLIVSNASCTTNCLAPLAKVINDRFGIVEGLMTTVHASTANQLVVDGPSKGGKDWRAGRCALSNIIPASTGAAKAVGKVLPELNGKLTGVAFRVPIGTVSVVDLVCRLQKPAKYEEVALEIKKAAEGPLKGILGYTEDEVVSQDFVHDNRSSIFDMKAGLALNDNFFKLVSWYDNEWGYSNRVLDLAVHITT ATKLGINGFGRIGRLVFRAAFGRKDIEVVAINDPFMDLNHLCYLLKYDSVHGQFPCEVTHADGFLLIGEKKVSVFAEKDPSQIPWGKCQVDVVCESTGVFLTKELASSHLKGGAKKVIMSAPPKDDTPIYVMGINHHQYDTKQLIVSNASCTTNCLAPLAKVINDRFGIVEGLMTTVHASTANQLVVDGPSKGGKDWRAGRCALSNIIPASTGAAKAVGKVLPELNGKLTGVAFRVPIGTVSVVDLVCRLQKPAKYEEVALEIKKAAEGPLKGILGYTEDEVVSQDFVHDNRSSIFDMKAGLALNDNFFKLVSWYDNEWGYSNRVLDLAVHITT 2b4r-a1-m1-cP_2b4r-a1-m1-cR Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Plasmodium falciparum at 2.25 Angstrom Resolution reveals intriguing extra electron density in the active site Q8T6B1 Q8T6B1 2.25 X-RAY DIFFRACTION 33 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 334 334 1ywg-a1-m1-cO_1ywg-a1-m1-cQ 1ywg-a1-m1-cP_1ywg-a1-m1-cR 2b4r-a1-m1-cO_2b4r-a1-m1-cQ 2b4t-a1-m1-cO_2b4t-a1-m1-cQ 2b4t-a1-m1-cP_2b4t-a1-m1-cR ATKLGINGFGRIGRLVFRAAFGRKDIEVVAINDPFMDLNHLCYLLKYDSVHGQFPCEVTHADGFLLIGEKKVSVFAEKDPSQIPWGKCQVDVVCESTGVFLTKELASSHLKGGAKKVIMSAPPKDDTPIYVMGINHHQYDTKQLIVSNASCTTNCLAPLAKVINDRFGIVEGLMTTVHASTANQLVVDGPSKGGKDWRAGRCALSNIIPASTGAAKAVGKVLPELNGKLTGVAFRVPIGTVSVVDLVCRLQKPAKYEEVALEIKKAAEGPLKGILGYTEDEVVSQDFVHDNRSSIFDMKAGLALNDNFFKLVSWYDNEWGYSNRVLDLAVHITT ATKLGINGFGRIGRLVFRAAFGRKDIEVVAINDPFMDLNHLCYLLKYDSVHGQFPCEVTHADGFLLIGEKKVSVFAEKDPSQIPWGKCQVDVVCESTGVFLTKELASSHLKGGAKKVIMSAPPKDDTPIYVMGINHHQYDTKQLIVSNASCTTNCLAPLAKVINDRFGIVEGLMTTVHASTANQLVVDGPSKGGKDWRAGRCALSNIIPASTGAAKAVGKVLPELNGKLTGVAFRVPIGTVSVVDLVCRLQKPAKYEEVALEIKKAAEGPLKGILGYTEDEVVSQDFVHDNRSSIFDMKAGLALNDNFFKLVSWYDNEWGYSNRVLDLAVHITT 2b4r-a1-m1-cQ_2b4r-a1-m1-cR Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Plasmodium falciparum at 2.25 Angstrom Resolution reveals intriguing extra electron density in the active site Q8T6B1 Q8T6B1 2.25 X-RAY DIFFRACTION 136 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 334 334 1ywg-a1-m1-cO_1ywg-a1-m1-cP 1ywg-a1-m1-cQ_1ywg-a1-m1-cR 2b4r-a1-m1-cO_2b4r-a1-m1-cP 2b4t-a1-m1-cO_2b4t-a1-m1-cP 2b4t-a1-m1-cQ_2b4t-a1-m1-cR ATKLGINGFGRIGRLVFRAAFGRKDIEVVAINDPFMDLNHLCYLLKYDSVHGQFPCEVTHADGFLLIGEKKVSVFAEKDPSQIPWGKCQVDVVCESTGVFLTKELASSHLKGGAKKVIMSAPPKDDTPIYVMGINHHQYDTKQLIVSNASCTTNCLAPLAKVINDRFGIVEGLMTTVHASTANQLVVDGPSKGGKDWRAGRCALSNIIPASTGAAKAVGKVLPELNGKLTGVAFRVPIGTVSVVDLVCRLQKPAKYEEVALEIKKAAEGPLKGILGYTEDEVVSQDFVHDNRSSIFDMKAGLALNDNFFKLVSWYDNEWGYSNRVLDLAVHITT ATKLGINGFGRIGRLVFRAAFGRKDIEVVAINDPFMDLNHLCYLLKYDSVHGQFPCEVTHADGFLLIGEKKVSVFAEKDPSQIPWGKCQVDVVCESTGVFLTKELASSHLKGGAKKVIMSAPPKDDTPIYVMGINHHQYDTKQLIVSNASCTTNCLAPLAKVINDRFGIVEGLMTTVHASTANQLVVDGPSKGGKDWRAGRCALSNIIPASTGAAKAVGKVLPELNGKLTGVAFRVPIGTVSVVDLVCRLQKPAKYEEVALEIKKAAEGPLKGILGYTEDEVVSQDFVHDNRSSIFDMKAGLALNDNFFKLVSWYDNEWGYSNRVLDLAVHITT 2b4s-a1-m1-cB_2b4s-a1-m1-cD Crystal structure of a complex between PTP1B and the insulin receptor tyrosine kinase P06213 P06213 2.3 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 3eta-a3-m1-cB_3eta-a3-m1-cA DEWEVSREKITLLRELGQGSFGMVYEGNARDIIKGEAETRVAVKTVNESASLRERIEFLNEASVMKGFTCHHVVRLLGVVSKGQPTLVVMELMAHGDLKSYLRSLRPEAENNPGRPPPTLQEMIQMAAEIADGMAYLNAKKFVHRDLAARNCMVAHDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMAPESLKDGVFTTSSDMWSFGVVLWEITSLAEQPYQGLSNEQVLKFVMDGGYLDQPDNCPERVTDLMRMCWQFNPNMRPTFLEIVNLLKDDLHPSFPEVSFFHSEENK DEWEVSREKITLLRELGQGSFGMVYEGNARDIIKGEAETRVAVKTVNESASLRERIEFLNEASVMKGFTCHHVVRLLGVVSKGQPTLVVMELMAHGDLKSYLRSLRPEAENNPGRPPPTLQEMIQMAAEIADGMAYLNAKKFVHRDLAARNCMVAHDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMAPESLKDGVFTTSSDMWSFGVVLWEITSLAEQPYQGLSNEQVLKFVMDGGYLDQPDNCPERVTDLMRMCWQFNPNMRPTFLEIVNLLKDDLHPSFPEVSFFHSEENK 2b5a-a2-m1-cC_2b5a-a2-m1-cD C.BclI, Control Element of the BclI Restriction-Modification System 1.543 X-RAY DIFFRACTION 60 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 76 76 2b5a-a1-m1-cB_2b5a-a1-m1-cA MINEIEIKRKFGRTLKKIRTQKGVSQEELADLAGLHRTYISEVERGDRNISLINIHKICAALDIPASTFFRKMEEE MINEIEIKRKFGRTLKKIRTQKGVSQEELADLAGLHRTYISEVERGDRNISLINIHKICAALDIPASTFFRKMEEE 2b5d-a1-m3-cX_2b5d-a1-m4-cX Crystal structure of the novel alpha-amylase AmyC from Thermotoga maritima 2.2 X-RAY DIFFRACTION 43 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 518 518 2b5d-a1-m1-cX_2b5d-a1-m2-cX MRGKILIFLHAHLPYVHHPEYDHFLEERWLFEAITETYIPLLMMFDEIEDFRLTMSITPPLMEMLSSRDLQEKYERHMEKLIELANKEVERTKKEHPLKHKMAKFYREHFEKILNVFRSYDGNILEGFKKYQETGKLEIVTCNATHAFLPLYQMYPEVVNAQITVGVKNYEKHMKKHPRGIWLAECGYYQGLDLYLAQNNVEYFFVDSHAFWFADEQPRYGVYRPIMTPSGVFAFARDPESSEQVWSAAVGYPGDPRYREFYRDIGFDREMEYIKDYIDPSGVRINTGIKYHRITSKSLDASQKEYYDIDLAMEAVEEHARDFLHKKESQARRLMDIMGVEPVIVAPFDAELFGHWWFEGVFFLKRFFELVNESKDLKLVTASEVIDTLEEVQIATPADSSWGATNDWIYRHLHEMIERMIDLSKKYYNSSDPLVERVLNQMLRELFLAQSSDWAFIMTTRTSVQYAENRTKLHIKRFLNLYDQLVSGRIDEEMLRYYEWTDAIFPEINFRVMARDVI MRGKILIFLHAHLPYVHHPEYDHFLEERWLFEAITETYIPLLMMFDEIEDFRLTMSITPPLMEMLSSRDLQEKYERHMEKLIELANKEVERTKKEHPLKHKMAKFYREHFEKILNVFRSYDGNILEGFKKYQETGKLEIVTCNATHAFLPLYQMYPEVVNAQITVGVKNYEKHMKKHPRGIWLAECGYYQGLDLYLAQNNVEYFFVDSHAFWFADEQPRYGVYRPIMTPSGVFAFARDPESSEQVWSAAVGYPGDPRYREFYRDIGFDREMEYIKDYIDPSGVRINTGIKYHRITSKSLDASQKEYYDIDLAMEAVEEHARDFLHKKESQARRLMDIMGVEPVIVAPFDAELFGHWWFEGVFFLKRFFELVNESKDLKLVTASEVIDTLEEVQIATPADSSWGATNDWIYRHLHEMIERMIDLSKKYYNSSDPLVERVLNQMLRELFLAQSSDWAFIMTTRTSVQYAENRTKLHIKRFLNLYDQLVSGRIDEEMLRYYEWTDAIFPEINFRVMARDVI 2b5d-a2-m1-cX_2b5d-a2-m3-cX Crystal structure of the novel alpha-amylase AmyC from Thermotoga maritima 2.2 X-RAY DIFFRACTION 104 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 518 518 2b5d-a1-m1-cX_2b5d-a1-m3-cX 2b5d-a1-m2-cX_2b5d-a1-m4-cX MRGKILIFLHAHLPYVHHPEYDHFLEERWLFEAITETYIPLLMMFDEIEDFRLTMSITPPLMEMLSSRDLQEKYERHMEKLIELANKEVERTKKEHPLKHKMAKFYREHFEKILNVFRSYDGNILEGFKKYQETGKLEIVTCNATHAFLPLYQMYPEVVNAQITVGVKNYEKHMKKHPRGIWLAECGYYQGLDLYLAQNNVEYFFVDSHAFWFADEQPRYGVYRPIMTPSGVFAFARDPESSEQVWSAAVGYPGDPRYREFYRDIGFDREMEYIKDYIDPSGVRINTGIKYHRITSKSLDASQKEYYDIDLAMEAVEEHARDFLHKKESQARRLMDIMGVEPVIVAPFDAELFGHWWFEGVFFLKRFFELVNESKDLKLVTASEVIDTLEEVQIATPADSSWGATNDWIYRHLHEMIERMIDLSKKYYNSSDPLVERVLNQMLRELFLAQSSDWAFIMTTRTSVQYAENRTKLHIKRFLNLYDQLVSGRIDEEMLRYYEWTDAIFPEINFRVMARDVI MRGKILIFLHAHLPYVHHPEYDHFLEERWLFEAITETYIPLLMMFDEIEDFRLTMSITPPLMEMLSSRDLQEKYERHMEKLIELANKEVERTKKEHPLKHKMAKFYREHFEKILNVFRSYDGNILEGFKKYQETGKLEIVTCNATHAFLPLYQMYPEVVNAQITVGVKNYEKHMKKHPRGIWLAECGYYQGLDLYLAQNNVEYFFVDSHAFWFADEQPRYGVYRPIMTPSGVFAFARDPESSEQVWSAAVGYPGDPRYREFYRDIGFDREMEYIKDYIDPSGVRINTGIKYHRITSKSLDASQKEYYDIDLAMEAVEEHARDFLHKKESQARRLMDIMGVEPVIVAPFDAELFGHWWFEGVFFLKRFFELVNESKDLKLVTASEVIDTLEEVQIATPADSSWGATNDWIYRHLHEMIERMIDLSKKYYNSSDPLVERVLNQMLRELFLAQSSDWAFIMTTRTSVQYAENRTKLHIKRFLNLYDQLVSGRIDEEMLRYYEWTDAIFPEINFRVMARDVI 2b5v-a1-m1-cA_2b5v-a1-m2-cA Crystal structure of glucose dehydrogenase from Haloferax mediterranei Q977U7 Q977U7 2 X-RAY DIFFRACTION 187 1.0 2252 (Haloferax mediterranei) 2252 (Haloferax mediterranei) 355 355 2b5w-a1-m1-cA_2b5w-a1-m2-cA 2vwg-a1-m1-cA_2vwg-a1-m2-cA 2vwh-a1-m1-cA_2vwh-a1-m2-cA 2vwp-a1-m1-cA_2vwp-a1-m2-cA 2vwq-a1-m1-cA_2vwq-a1-m2-cA MKAIAVKRGRPVVIEKPRPEPESGEALVRTLRVGVDGTDHEVIAGGHGGFPEGEDHLVLGHEAVGVVVDPNDTELEEGDIVVPTVRRPPASGTNEYFERDQPDMAPDGMYFERGIVGAHGYMSEFFTSPEKYLVRIPRSQAELGFLIEPISITEKALEHAYASRSAFDWDPSSAFVLGNGSLGLLTLAMLKVDDKGYENLYCLGRRDRPDPTIDIIEELDATYVDSRQTPVEDVPDVYEQMDFIYEATGFPKHAIQSVQALAPNGVGALLGVPSDWAFEVDAGAFHREMVLHNKALVGSVNSHVEHFEAATVTFTKLPKWFLEDLVTGVHPLSEFEAAFDDDDTTIKTAIEFSTV MKAIAVKRGRPVVIEKPRPEPESGEALVRTLRVGVDGTDHEVIAGGHGGFPEGEDHLVLGHEAVGVVVDPNDTELEEGDIVVPTVRRPPASGTNEYFERDQPDMAPDGMYFERGIVGAHGYMSEFFTSPEKYLVRIPRSQAELGFLIEPISITEKALEHAYASRSAFDWDPSSAFVLGNGSLGLLTLAMLKVDDKGYENLYCLGRRDRPDPTIDIIEELDATYVDSRQTPVEDVPDVYEQMDFIYEATGFPKHAIQSVQALAPNGVGALLGVPSDWAFEVDAGAFHREMVLHNKALVGSVNSHVEHFEAATVTFTKLPKWFLEDLVTGVHPLSEFEAAFDDDDTTIKTAIEFSTV 2b61-a1-m1-cA_2b61-a1-m2-cA Crystal Structure of Homoserine Transacetylase P45131 P45131 1.65 X-RAY DIFFRACTION 133 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 349 349 SVQNVVLFDTQPLTLLGGKLSYINVAYQTYGTLNDEKNNAVLICHALTGDAEPYFDDGRDGWWQNFGAGLALDTDRYFFISSNVLGGCKGTTGPSSINPQTGKPYGSQFPNIVVQDIVKVQKALLEHLGISHLKAIIGGSFGGQANQWAIDYPDFDNIVNLCSSIYFSAEAIGFNHVRQAVINDPNFNGGDYYEGTPPDQGLSIARLGLTYRTDLQLAKAFGRATKSDGSFWGDYFQVESYLSYQGKKFLERFDANSYLHLLRALDYDPSLGYENVKEALSRIKARYTLVSVTTDQLFKPIDLYKSKQLLEQSGVDLHFYEFPSDYGHDAFLVDYDQFEKRIRDGLAGN SVQNVVLFDTQPLTLLGGKLSYINVAYQTYGTLNDEKNNAVLICHALTGDAEPYFDDGRDGWWQNFGAGLALDTDRYFFISSNVLGGCKGTTGPSSINPQTGKPYGSQFPNIVVQDIVKVQKALLEHLGISHLKAIIGGSFGGQANQWAIDYPDFDNIVNLCSSIYFSAEAIGFNHVRQAVINDPNFNGGDYYEGTPPDQGLSIARLGLTYRTDLQLAKAFGRATKSDGSFWGDYFQVESYLSYQGKKFLERFDANSYLHLLRALDYDPSLGYENVKEALSRIKARYTLVSVTTDQLFKPIDLYKSKQLLEQSGVDLHFYEFPSDYGHDAFLVDYDQFEKRIRDGLAGN 2b67-a2-m1-cC_2b67-a2-m1-cD Crystal structure of the Nitroreductase Family Protein from Streptococcus pneumoniae TIGR4 A0A0H2UP38 A0A0H2UP38 2.05 X-RAY DIFFRACTION 199 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 198 198 2b67-a1-m1-cA_2b67-a1-m1-cB KFLELNKKRHATKHFTDKLVDPKDVRTAIEIATLAPSAHNSQPWKFVVVREKNAELAKLAYGSNFEQVSSAPVTIALFTDTDLAKRARKIARVGGANNFSEEQLQYFKNLPAEFARYSEQQVSDYLALNAGLVANLVLALTDQGIGSNIILGFDKSKVNEVLEIEDRFRPELLITVGYTDEKLEPSYRLPVDEIIEKR KFLELNKKRHATKHFTDKLVDPKDVRTAIEIATLAPSAHNSQPWKFVVVREKNAELAKLAYGSNFEQVSSAPVTIALFTDTDLAKRARKIARVGGANNFSEEQLQYFKNLPAEFARYSEQQVSDYLALNAGLVANLVLALTDQGIGSNIILGFDKSKVNEVLEIEDRFRPELLITVGYTDEKLEPSYRLPVDEIIEKR 2b69-a1-m1-cA_2b69-a1-m2-cA Crystal Structure of Human UDP-glucoronic acid decarboxylase Q8NBZ7 Q8NBZ7 1.21 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 302 4gll-a1-m1-cB_4gll-a1-m1-cA RKRILITGGAGFVGSHLTDKLDGHEVTVVDNFFTGRKRNVEHWIGHENFELINHDVVEPLYIEVDQIYHLASPASPPNYYNPIKTLKTNTIGTLNLGLAKRVGARLLLASTSEVYGDPEVHPQSEDYWGHVNPIGPRACYDEGKRVAETCYAYKQEGVEVRVARIFNTFGPRHNDGRVVSNFILQALQGEPLTVYGSGSQTRAFQYVSDLVNGLVALNSNVSSPVNLGNPEEHTILEFAQLIKNLVGSGSEIQFLSEAQDDPQKRKPDIKKAKLLGWEPVVPLEEGLNKAIHYFRKELEYQA RKRILITGGAGFVGSHLTDKLDGHEVTVVDNFFTGRKRNVEHWIGHENFELINHDVVEPLYIEVDQIYHLASPASPPNYYNPIKTLKTNTIGTLNLGLAKRVGARLLLASTSEVYGDPEVHPQSEDYWGHVNPIGPRACYDEGKRVAETCYAYKQEGVEVRVARIFNTFGPRHNDGRVVSNFILQALQGEPLTVYGSGSQTRAFQYVSDLVNGLVALNSNVSSPVNLGNPEEHTILEFAQLIKNLVGSGSEIQFLSEAQDDPQKRKPDIKKAKLLGWEPVVPLEEGLNKAIHYFRKELEYQA 2b6c-a1-m1-cA_2b6c-a1-m1-cB Predicted DNA alkylation repair enzyme from Enterococcus faecalis. Q82ZI8 Q82ZI8 2.1 X-RAY DIFFRACTION 22 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 209 211 TLQFQKNPETAAKSAYKHQFVFAGIPAPERQALSKQLLKESHTWPKEKLCQEIEAYYQKTEREYQYVAIDLALQNVQRFSLEEVVAFKAYVPQKAWWDSVDAWRKFFGSWVALHLTELPTIFALFYGAENFWNRRVALNLQLLKEKTNQDLLKKAIIYDRTTEEFFIQKAIGWSLRQYSKTNPQWVEELKELVLSPLAQREGSKYLAKA TLQFQKNPETAAKSAYKHQFVFAGIPAPERQALSKQLLKESHTWPKEKLCQEIEAYYQKTEREYQYVAIDLALQNVQRFSLEEVVAFKAYVPQKAWWDSVDAWRKFFGSWVALHLTELPTIFALFYGAENFWNRRVALNLQLLKEKTNQDLLKKAIIYDRTTEEFFIQKAIGWSLRQYSKTNPQWVEELKELVLSPLAQREGSKYLAKASE 2b6e-a2-m1-cE_2b6e-a2-m1-cF X-Ray Crystal Structure of Protein HI1161 from Haemophilus influenzae. Northeast Structural Genomics Consortium Target IR63. P45083 P45083 1.9 X-RAY DIFFRACTION 112 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 134 135 2b6e-a1-m1-cA_2b6e-a1-m1-cB 2b6e-a1-m1-cC_2b6e-a1-m1-cD 2b6e-a2-m1-cH_2b6e-a2-m1-cG 3lz7-a1-m1-cB_3lz7-a1-m1-cA 3lz7-a1-m1-cD_3lz7-a1-m1-cC LWKKTFTLENLNQLCSNSAVSHLGIEISAFGEDWIEATPVDHRTQPFGVLHGGVSVALAETIGSLAGSLCLEEGKTVVGLDINANHLRPVRSGKVTARATPINLGRNIQVWQIDIRTEENKLCCVSRLTLSVIN LWKKTFTLENLNQLCSNSAVSHLGIEISAFGEDWIEATPVDHRTQPFGVLHGGVSVALAETIGSLAGSLCLEEGKTVVGLDINANHLRPVRSGKVTARATPINLGRNIQVWQIDIRTEENKLCCVSRLTLSVINL 2b6e-a2-m1-cE_2b6e-a2-m1-cH X-Ray Crystal Structure of Protein HI1161 from Haemophilus influenzae. Northeast Structural Genomics Consortium Target IR63. P45083 P45083 1.9 X-RAY DIFFRACTION 15 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 134 134 2b6e-a1-m1-cA_2b6e-a1-m1-cC 2b6e-a1-m1-cB_2b6e-a1-m1-cD 2b6e-a2-m1-cF_2b6e-a2-m1-cG 3lz7-a1-m1-cA_3lz7-a1-m1-cC 3lz7-a1-m1-cB_3lz7-a1-m1-cD LWKKTFTLENLNQLCSNSAVSHLGIEISAFGEDWIEATPVDHRTQPFGVLHGGVSVALAETIGSLAGSLCLEEGKTVVGLDINANHLRPVRSGKVTARATPINLGRNIQVWQIDIRTEENKLCCVSRLTLSVIN LWKKTFTLENLNQLCSNSAVSHLGIEISAFGEDWIEATPVDHRTQPFGVLHGGVSVALAETIGSLAGSLCLEEGKTVVGLDINANHLRPVRSGKVTARATPINLGRNIQVWQIDIRTEENKLCCVSRLTLSVIN 2b6e-a2-m1-cH_2b6e-a2-m1-cF X-Ray Crystal Structure of Protein HI1161 from Haemophilus influenzae. Northeast Structural Genomics Consortium Target IR63. P45083 P45083 1.9 X-RAY DIFFRACTION 34 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 134 135 2b6e-a1-m1-cA_2b6e-a1-m1-cD 2b6e-a1-m1-cB_2b6e-a1-m1-cC 2b6e-a2-m1-cE_2b6e-a2-m1-cG 3lz7-a1-m1-cB_3lz7-a1-m1-cC 3lz7-a1-m1-cD_3lz7-a1-m1-cA LWKKTFTLENLNQLCSNSAVSHLGIEISAFGEDWIEATPVDHRTQPFGVLHGGVSVALAETIGSLAGSLCLEEGKTVVGLDINANHLRPVRSGKVTARATPINLGRNIQVWQIDIRTEENKLCCVSRLTLSVIN LWKKTFTLENLNQLCSNSAVSHLGIEISAFGEDWIEATPVDHRTQPFGVLHGGVSVALAETIGSLAGSLCLEEGKTVVGLDINANHLRPVRSGKVTARATPINLGRNIQVWQIDIRTEENKLCCVSRLTLSVINL 2b6h-a2-m1-cA_2b6h-a2-m2-cA Structure of human ADP-ribosylation factor 5 P84085 P84085 1.764 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 RGSLFSRIFGKKQMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNICFTVWDVGRPLWRHYFQNTQGLIFVVDSNDRERVQESADELQKMLQEDELRDAVLLVFANKQDMPNAMPVSELTDKLGLQHLRSRTWYVQATCATQGTGLYDGLDWLSHELSKR RGSLFSRIFGKKQMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNICFTVWDVGRPLWRHYFQNTQGLIFVVDSNDRERVQESADELQKMLQEDELRDAVLLVFANKQDMPNAMPVSELTDKLGLQHLRSRTWYVQATCATQGTGLYDGLDWLSHELSKR 2b6h-a3-m1-cA_2b6h-a3-m3-cA Structure of human ADP-ribosylation factor 5 P84085 P84085 1.764 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 RGSLFSRIFGKKQMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNICFTVWDVGRPLWRHYFQNTQGLIFVVDSNDRERVQESADELQKMLQEDELRDAVLLVFANKQDMPNAMPVSELTDKLGLQHLRSRTWYVQATCATQGTGLYDGLDWLSHELSKR RGSLFSRIFGKKQMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNICFTVWDVGRPLWRHYFQNTQGLIFVVDSNDRERVQESADELQKMLQEDELRDAVLLVFANKQDMPNAMPVSELTDKLGLQHLRSRTWYVQATCATQGTGLYDGLDWLSHELSKR 2b6o-a1-m1-cA_2b6o-a1-m8-cA Electron crystallographic structure of lens Aquaporin-0 (AQP0) (lens MIP) at 1.9A resolution, in a closed pore state Q6J8I9 Q6J8I9 1.9 ELECTRON CRYSTALLOGRAPHY 36 1.0 9940 (Ovis aries) 9940 (Ovis aries) 235 235 1sor-a1-m1-cA_1sor-a1-m8-cA 1sor-a1-m2-cA_1sor-a1-m7-cA 1sor-a1-m3-cA_1sor-a1-m6-cA 1sor-a1-m4-cA_1sor-a1-m5-cA 2b6o-a1-m2-cA_2b6o-a1-m7-cA 2b6o-a1-m3-cA_2b6o-a1-m6-cA 2b6o-a1-m4-cA_2b6o-a1-m5-cA 3m9i-a1-m1-cA_3m9i-a1-m8-cA 3m9i-a1-m2-cA_3m9i-a1-m7-cA 3m9i-a1-m3-cA_3m9i-a1-m6-cA 3m9i-a1-m4-cA_3m9i-a1-m5-cA RSASFWRAIFAEFFATLFYVFFGLGASLRWAPGPLHVLQVALAFGLALATLVQAVGHISGAHVNPAVTFAFLVGSQMSLLRAICYVVAQLLGAVAGAAVLYSVTPPAVRGNLALNTLHPGVSVGQATIVEIFLTLQFVLCIFATYDERRNGRLGSVALAVGFSLTLGHLFGMYYTGAGMNPARSFAPAILTRNFTNHWVYWVGPVIGAGLGSLLYDFLLFPRLKSVSERLSILKG RSASFWRAIFAEFFATLFYVFFGLGASLRWAPGPLHVLQVALAFGLALATLVQAVGHISGAHVNPAVTFAFLVGSQMSLLRAICYVVAQLLGAVAGAAVLYSVTPPAVRGNLALNTLHPGVSVGQATIVEIFLTLQFVLCIFATYDERRNGRLGSVALAVGFSLTLGHLFGMYYTGAGMNPARSFAPAILTRNFTNHWVYWVGPVIGAGLGSLLYDFLLFPRLKSVSERLSILKG 2b7h-a1-m1-cA_2b7h-a1-m1-cC Hemoglobin from Cerdocyon thous, a canidae from Brazil, at 2.2 Angstroms resolution P60523 P60523 2.2 X-RAY DIFFRACTION 10 1.0 9620 (Cerdocyon thous) 9620 (Cerdocyon thous) 141 141 1fhj-a1-m1-cA_1fhj-a1-m1-cC 3gou-a1-m1-cA_3gou-a1-m1-cC 3pel-a1-m1-cA_3pel-a1-m2-cA VLSPADKTNIKSTWDKIGGHAGDYGGEALDRTFQSFPTTKTYFPHFDLSPGSAQVKAHGKKVADALTTAVAHLDDLPGALSALSDLHAYKLRVDPVNFKLLSHCLLVTLACHHPTEFTPAVHASLDKFFTAVSTVLTSKYR VLSPADKTNIKSTWDKIGGHAGDYGGEALDRTFQSFPTTKTYFPHFDLSPGSAQVKAHGKKVADALTTAVAHLDDLPGALSALSDLHAYKLRVDPVNFKLLSHCLLVTLACHHPTEFTPAVHASLDKFFTAVSTVLTSKYR 2b7l-a2-m1-cC_2b7l-a2-m1-cD Crystal Structure of CTP:Glycerol-3-Phosphate Cytidylyltransferase from Staphylococcus aureus O05155 O05155 3 X-RAY DIFFRACTION 45 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 113 113 2b7l-a1-m1-cB_2b7l-a1-m1-cA MKRVITYGTYDLLHYGHIELLRRAREMGDYLIVALSTDEFNQIKHKKSYYDYEQRKMMLESIRYVDLVIPEKGWGQKEDDVEKFDVDVFVMGHDWEGEFDFLKDKCEVIYLKR MKRVITYGTYDLLHYGHIELLRRAREMGDYLIVALSTDEFNQIKHKKSYYDYEQRKMMLESIRYVDLVIPEKGWGQKEDDVEKFDVDVFVMGHDWEGEFDFLKDKCEVIYLKR 2b7n-a1-m1-cA_2b7n-a1-m2-cC Crystal structure of quinolinic acid phosphoribosyltransferase from Helicobacter pylori O25909 O25909 2.3 X-RAY DIFFRACTION 79 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 273 273 2b7n-a1-m1-cB_2b7n-a1-m2-cB 2b7n-a1-m1-cC_2b7n-a1-m2-cA 2b7p-a1-m1-cA_2b7p-a1-m2-cA 2b7p-a1-m1-cB_2b7p-a1-m2-cC 2b7p-a1-m1-cC_2b7p-a1-m2-cB 2b7q-a1-m1-cA_2b7q-a1-m2-cB 2b7q-a1-m1-cB_2b7q-a1-m2-cA 2b7q-a1-m1-cC_2b7q-a1-m2-cC MEIRTFLERALKEDLGHGDLFERVLEKDFKATAFVRAKQEGVFSGEKYALELLEMTGIECVQTIKDKERFKPKDALMEIRGDFSMLLKVERTLLNLLQHSSGIATLTSRFVEALNSHKVRLLDTRKTRPLLRIFEKYSVLNGGASNHRLGLDDALMLKDTHLRHVKDLKSFLTHARKNLPFTAKIEIECESFEEAKNAMNAGADIVMCDNLSVLETKEIAAYRDAHYPFVLLEASGNISLESINAYAKSGVDAISVGALIHQATFIDMHMKMA MEIRTFLERALKEDLGHGDLFERVLEKDFKATAFVRAKQEGVFSGEKYALELLEMTGIECVQTIKDKERFKPKDALMEIRGDFSMLLKVERTLLNLLQHSSGIATLTSRFVEALNSHKVRLLDTRKTRPLLRIFEKYSVLNGGASNHRLGLDDALMLKDTHLRHVKDLKSFLTHARKNLPFTAKIEIECESFEEAKNAMNAGADIVMCDNLSVLETKEIAAYRDAHYPFVLLEASGNISLESINAYAKSGVDAISVGALIHQATFIDMHMKMA 2b7n-a1-m1-cC_2b7n-a1-m2-cC Crystal structure of quinolinic acid phosphoribosyltransferase from Helicobacter pylori O25909 O25909 2.3 X-RAY DIFFRACTION 154 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 273 273 2b7n-a1-m1-cA_2b7n-a1-m2-cB 2b7n-a1-m1-cB_2b7n-a1-m2-cA 2b7p-a1-m1-cA_2b7p-a1-m2-cB 2b7p-a1-m1-cB_2b7p-a1-m2-cA 2b7p-a1-m1-cC_2b7p-a1-m2-cC 2b7q-a1-m1-cA_2b7q-a1-m2-cA 2b7q-a1-m1-cB_2b7q-a1-m2-cC 2b7q-a1-m1-cC_2b7q-a1-m2-cB MEIRTFLERALKEDLGHGDLFERVLEKDFKATAFVRAKQEGVFSGEKYALELLEMTGIECVQTIKDKERFKPKDALMEIRGDFSMLLKVERTLLNLLQHSSGIATLTSRFVEALNSHKVRLLDTRKTRPLLRIFEKYSVLNGGASNHRLGLDDALMLKDTHLRHVKDLKSFLTHARKNLPFTAKIEIECESFEEAKNAMNAGADIVMCDNLSVLETKEIAAYRDAHYPFVLLEASGNISLESINAYAKSGVDAISVGALIHQATFIDMHMKMA MEIRTFLERALKEDLGHGDLFERVLEKDFKATAFVRAKQEGVFSGEKYALELLEMTGIECVQTIKDKERFKPKDALMEIRGDFSMLLKVERTLLNLLQHSSGIATLTSRFVEALNSHKVRLLDTRKTRPLLRIFEKYSVLNGGASNHRLGLDDALMLKDTHLRHVKDLKSFLTHARKNLPFTAKIEIECESFEEAKNAMNAGADIVMCDNLSVLETKEIAAYRDAHYPFVLLEASGNISLESINAYAKSGVDAISVGALIHQATFIDMHMKMA 2b7n-a1-m2-cA_2b7n-a1-m2-cB Crystal structure of quinolinic acid phosphoribosyltransferase from Helicobacter pylori O25909 O25909 2.3 X-RAY DIFFRACTION 10 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 273 273 2b7n-a1-m1-cA_2b7n-a1-m1-cB 2b7q-a1-m1-cA_2b7q-a1-m1-cC 2b7q-a1-m2-cA_2b7q-a1-m2-cC MEIRTFLERALKEDLGHGDLFERVLEKDFKATAFVRAKQEGVFSGEKYALELLEMTGIECVQTIKDKERFKPKDALMEIRGDFSMLLKVERTLLNLLQHSSGIATLTSRFVEALNSHKVRLLDTRKTRPLLRIFEKYSVLNGGASNHRLGLDDALMLKDTHLRHVKDLKSFLTHARKNLPFTAKIEIECESFEEAKNAMNAGADIVMCDNLSVLETKEIAAYRDAHYPFVLLEASGNISLESINAYAKSGVDAISVGALIHQATFIDMHMKMA MEIRTFLERALKEDLGHGDLFERVLEKDFKATAFVRAKQEGVFSGEKYALELLEMTGIECVQTIKDKERFKPKDALMEIRGDFSMLLKVERTLLNLLQHSSGIATLTSRFVEALNSHKVRLLDTRKTRPLLRIFEKYSVLNGGASNHRLGLDDALMLKDTHLRHVKDLKSFLTHARKNLPFTAKIEIECESFEEAKNAMNAGADIVMCDNLSVLETKEIAAYRDAHYPFVLLEASGNISLESINAYAKSGVDAISVGALIHQATFIDMHMKMA 2b7y-a1-m1-cA_2b7y-a1-m1-cC Fava Bean Lectin-Glucose Complex P02871 P02871 3 X-RAY DIFFRACTION 50 1.0 3906 (Vicia faba) 3906 (Vicia faba) 181 181 DEITSFSIPKFRPDQPNLIFQGGGYTTKEKLTLTKAVKNTVGRALYSLPIHIWDSETGNVADFTTTFIFVIDAPNGYNVADGFTFFIAPVDTKPQTGGGYLGVFNGKDYDKTAQTVAVEFDTFYNAAWDPSNGKRHIGIDVNTIKSISTKSWNLQNGEEAHVAISFNATTNVLSVTLLYPN DEITSFSIPKFRPDQPNLIFQGGGYTTKEKLTLTKAVKNTVGRALYSLPIHIWDSETGNVADFTTTFIFVIDAPNGYNVADGFTFFIAPVDTKPQTGGGYLGVFNGKDYDKTAQTVAVEFDTFYNAAWDPSNGKRHIGIDVNTIKSISTKSWNLQNGEEAHVAISFNATTNVLSVTLLYPN 2b7z-a1-m1-cA_2b7z-a1-m1-cB Structure of HIV-1 protease mutant bound to indinavir P03367 P03367 2.2 X-RAY DIFFRACTION 152 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 2b60-a1-m1-cA_2b60-a1-m1-cB PQITLWQRPLVTIKIGGQLREALLDTGADDTIFEEISLPGRWKPKIIGGIGGFIKVRQYDQIPIEICGHKVIGTVLVGPTPANVIGRNLMTQIGCTLNF PQITLWQRPLVTIKIGGQLREALLDTGADDTIFEEISLPGRWKPKIIGGIGGFIKVRQYDQIPIEICGHKVIGTVLVGPTPANVIGRNLMTQIGCTLNF 2b81-a3-m1-cA_2b81-a3-m1-cC Crystal Structure of the Luciferase-like Monooxygenase from Bacillus cereus Q81B18 Q81B18 2.5 X-RAY DIFFRACTION 33 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 308 310 EKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL KHEKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL 2b81-a3-m1-cB_2b81-a3-m1-cD Crystal Structure of the Luciferase-like Monooxygenase from Bacillus cereus Q81B18 Q81B18 2.5 X-RAY DIFFRACTION 17 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 309 309 HEKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL HEKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL 2b81-a4-m1-cD_2b81-a4-m2-cB Crystal Structure of the Luciferase-like Monooxygenase from Bacillus cereus Q81B18 Q81B18 2.5 X-RAY DIFFRACTION 48 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 309 309 HEKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL HEKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL 2b81-a4-m2-cA_2b81-a4-m2-cB Crystal Structure of the Luciferase-like Monooxygenase from Bacillus cereus Q81B18 Q81B18 2.5 X-RAY DIFFRACTION 134 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 308 309 2b81-a1-m1-cA_2b81-a1-m1-cB 2b81-a2-m1-cD_2b81-a2-m1-cC 2b81-a3-m1-cA_2b81-a3-m1-cB 2b81-a3-m1-cD_2b81-a3-m1-cC 2b81-a4-m1-cD_2b81-a4-m1-cC EKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL HEKFANHFGYNRFAKDQLTLGVHIPIENYQFHAPTEKQVELVQKAEQYGFTGVWLRDVLLQDPDFGDPATGQIYDIYLTYLASKTEKIAFGTSATVLSLRHPLRVAKEIATLDQLFPERILGVSSGDRRADFKALGVSHETRGEKFREAFAYLEEILYKNFPSIQSTLGEVHGANLVPKPSKRVPTFITGFSQQNEWFAEHGDGWYYPRSPVHQAGAIGQWRELVEDYHPDVFKPFIQPHLDLSEDPNERPTPIRLGYRTGRKALIELLDIYKSIGVNHLFLALFDGQRPADEVLDELGEEVLPHFPAL 2b8j-a1-m1-cA_2b8j-a1-m2-cB Crystal structure of AphA class B acid phosphatase/phosphotransferase ternary complex with adenosine and phosphate at 2 A resolution P0AE22 P0AE22 2.033 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 211 1n8n-a1-m1-cA_1n8n-a1-m3-cA 1n8n-a1-m2-cA_1n8n-a1-m4-cA 1n9k-a1-m1-cA_1n9k-a1-m1-cB 1n9k-a1-m2-cA_1n9k-a1-m2-cB 1rmq-a1-m1-cB_1rmq-a1-m1-cA 1rmq-a1-m2-cB_1rmq-a1-m2-cA 1rmt-a2-m1-cD_1rmt-a2-m2-cB 1rmt-a2-m2-cC_1rmt-a2-m1-cA 1rmy-a1-m1-cA_1rmy-a1-m2-cB 1rmy-a1-m1-cB_1rmy-a1-m2-cA 1z5g-a1-m1-cA_1z5g-a1-m1-cC 1z5g-a1-m1-cB_1z5g-a1-m1-cD 1z5u-a1-m1-cA_1z5u-a1-m1-cC 1z5u-a1-m1-cB_1z5u-a1-m1-cD 1z88-a1-m1-cA_1z88-a1-m1-cC 1z88-a1-m1-cB_1z88-a1-m1-cD 2aut-a1-m1-cA_2aut-a1-m1-cC 2aut-a1-m1-cB_2aut-a1-m1-cD 2b82-a1-m1-cA_2b82-a1-m2-cB 2b82-a1-m1-cB_2b82-a1-m2-cA 2b8j-a1-m1-cB_2b8j-a1-m2-cA 2g1a-a1-m1-cA_2g1a-a1-m2-cB 2g1a-a1-m1-cB_2g1a-a1-m2-cA 2heg-a1-m1-cA_2heg-a1-m2-cB 2heg-a1-m1-cB_2heg-a1-m2-cA 2hf7-a1-m1-cA_2hf7-a1-m2-cB 2hf7-a1-m1-cB_2hf7-a1-m2-cA 3cz4-a1-m1-cA_3cz4-a1-m3-cA 3cz4-a1-m2-cA_3cz4-a1-m4-cA SPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY SPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY 2b8j-a1-m1-cB_2b8j-a1-m2-cB Crystal structure of AphA class B acid phosphatase/phosphotransferase ternary complex with adenosine and phosphate at 2 A resolution P0AE22 P0AE22 2.033 X-RAY DIFFRACTION 88 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 211 1n8n-a1-m1-cA_1n8n-a1-m4-cA 1n8n-a1-m2-cA_1n8n-a1-m3-cA 1n9k-a1-m1-cA_1n9k-a1-m2-cB 1n9k-a1-m1-cB_1n9k-a1-m2-cA 1rmq-a1-m1-cA_1rmq-a1-m2-cA 1rmq-a1-m1-cB_1rmq-a1-m2-cB 1rmt-a2-m1-cA_1rmt-a2-m2-cB 1rmt-a2-m1-cD_1rmt-a2-m2-cC 1rmy-a1-m1-cA_1rmy-a1-m2-cA 1rmy-a1-m1-cB_1rmy-a1-m2-cB 1z5g-a1-m1-cA_1z5g-a1-m1-cD 1z5g-a1-m1-cC_1z5g-a1-m1-cB 1z5u-a1-m1-cA_1z5u-a1-m1-cD 1z5u-a1-m1-cC_1z5u-a1-m1-cB 1z88-a1-m1-cA_1z88-a1-m1-cD 1z88-a1-m1-cB_1z88-a1-m1-cC 2aut-a1-m1-cA_2aut-a1-m1-cD 2aut-a1-m1-cB_2aut-a1-m1-cC 2b82-a1-m1-cA_2b82-a1-m2-cA 2b82-a1-m1-cB_2b82-a1-m2-cB 2b8j-a1-m1-cA_2b8j-a1-m2-cA 2g1a-a1-m1-cA_2g1a-a1-m2-cA 2g1a-a1-m1-cB_2g1a-a1-m2-cB 2heg-a1-m1-cA_2heg-a1-m2-cA 2heg-a1-m1-cB_2heg-a1-m2-cB 2hf7-a1-m1-cA_2hf7-a1-m2-cA 2hf7-a1-m1-cB_2hf7-a1-m2-cB 3cz4-a1-m1-cA_3cz4-a1-m4-cA 3cz4-a1-m2-cA_3cz4-a1-m3-cA SPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY SPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY 2b8m-a1-m1-cA_2b8m-a1-m2-cA Crystal structure of a rmlc-like cupin family protein with a double-stranded beta-helix fold (mj0764) from methanocaldococcus jannaschii at 1.70 A resolution Q58174 Q58174 1.7 X-RAY DIFFRACTION 111 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 105 105 GIEKVYEFKRDAKTKVVEKLVNTEHVQINHIVLPRGEQPKHYSNSYVHLIIIKGETLTLEDQEPHNYKEGNIVYVPFNVKLIQNINSDILEFFVVKAPHPKKLNA GIEKVYEFKRDAKTKVVEKLVNTEHVQINHIVLPRGEQPKHYSNSYVHLIIIKGETLTLEDQEPHNYKEGNIVYVPFNVKLIQNINSDILEFFVVKAPHPKKLNA 2b8w-a1-m1-cA_2b8w-a1-m1-cB Crystal-structure of the N-terminal Large GTPase Domain of human Guanylate Binding protein 1 (hGBP1) in complex with GMP/AlF4 P32455 P32455 2.22 X-RAY DIFFRACTION 121 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 290 2b92-a1-m1-cA_2b92-a1-m1-cB 2bc9-a1-m1-cA_2bc9-a1-m2-cA HMTGPMCLIENTNGRLMANPEALKILSAITQPMVVVAIVGLYRTGKSYLMNKLAGKKKGFSLGSTVQSHTKGIWMWCVPHPKKPGHILVLLDTEGLGDVEKGDNQNDSWIFALAVLLSSTFVYNSIGTINQQAMDQLYYVTELTHRIRSKSVSFFPDFVWTLRDFSLDLEADGQPLTPDEYLTYSLKLKKGTSQKDETFNLPRLCIRKFFPKKKCFVFDRPVHRRKLAQLEKLQDEELDPEFVQQVADFCSYIFSNSKTKTLSGGIQVNGPRLESLVLTYVNAISSGD HMTGPMCLIENTNGRLMANPEALKILSAITQPMVVVAIVGLYRTGKSYLMNKLAGKKKGFSLGSTVQSHTKGIWMWCVPHPKKPGHILVLLDTEGLGDVEKGDNQNDSWIFALAVLLSSTFVYNSIGTINQQAMDQLYYVTELTHRIRSKSSVSFFPDFVWTLRDFSLDLEADGQPLTPDEYLTYSLKLKKGTSQKDETFNLPRLCIRKFFPKKKCFVFDRPVHRRKLAQLEKLQDEELDPEFVQQVADFCSYIFSNSKTKTLSGGIQVNGPRLESLVLTYVNAISSGDL 2b94-a1-m1-cA_2b94-a1-m6-cA Structural analysis of P knowlesi homolog of P falciparum PNP D0VWV7 D0VWV7 1.85 X-RAY DIFFRACTION 31 1.0 5850 (Plasmodium knowlesi) 5850 (Plasmodium knowlesi) 242 242 2b94-a1-m2-cA_2b94-a1-m5-cA 2b94-a1-m3-cA_2b94-a1-m4-cA NLYFQGHMEEEMQRHIKLTPSQTTPVVLVVGDPGRVDKVKMLCDSYVDLAEYKSVECTYKGQKFLCVSHGVGSAGCAICFEELMNNGAKVIIRAGSCGSLQPTQMKRGDICICNAAVREDRVSHLMIYSDFPAVADFEVYDTLNKVAQELEVPVFNGISLSSDLYYPHKIIPTRLEDYSKANVAVVEMEVATLMVMGTLRKVKTGGIFIVDGCPLKWNLVPEKLENMIKISLETCARLAKKY NLYFQGHMEEEMQRHIKLTPSQTTPVVLVVGDPGRVDKVKMLCDSYVDLAEYKSVECTYKGQKFLCVSHGVGSAGCAICFEELMNNGAKVIIRAGSCGSLQPTQMKRGDICICNAAVREDRVSHLMIYSDFPAVADFEVYDTLNKVAQELEVPVFNGISLSSDLYYPHKIIPTRLEDYSKANVAVVEMEVATLMVMGTLRKVKTGGIFIVDGCPLKWNLVPEKLENMIKISLETCARLAKKY 2b9d-a2-m1-cB_2b9d-a2-m3-cB Crystal Structure of HPV E7 CR3 domain P06465 P06465 1.6 X-RAY DIFFRACTION 75 1.0 10583 (Human papillomavirus type 1a) 10583 (Human papillomavirus type 1a) 52 52 2b9d-a1-m1-cA_2b9d-a1-m2-cA MKQPYAVVASCAYCEKLVRLTVLADHSAIRQLEEMLLRSLNIVCPLCTLQRQ MKQPYAVVASCAYCEKLVRLTVLADHSAIRQLEEMLLRSLNIVCPLCTLQRQ 2ba2-a1-m1-cA_2ba2-a1-m1-cC Crystal structure of the DUF16 domain of MPN010 from Mycoplasma pneumoniae P75103 P75103 1.8 X-RAY DIFFRACTION 82 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 81 81 2ba2-a1-m1-cB_2ba2-a1-m1-cA 2ba2-a1-m1-cB_2ba2-a1-m1-cC GTRYVTHKQLDEKLKNFVTKTEFKEFQTVVMESFAVQNQNIDAQGEQIKELQVEQKAQGKTLQLILEALQGINKRLDNLES GTRYVTHKQLDEKLKNFVTKTEFKEFQTVVMESFAVQNQNIDAQGEQIKELQVEQKAQGKTLQLILEALQGINKRLDNLES 2ba3-a1-m1-cA_2ba3-a1-m1-cB NMR Structure of NikA N-terminal Fragment Q52335 Q52335 NOT SOLUTION NMR 64 1.0 2492 (Plasmid R64) 2492 (Plasmid R64) 51 51 SDSAVRKKSEVRQKTVVRTLRFSPVEDETIRKKAEDSGLTVSAYIRNAALN SDSAVRKKSEVRQKTVVRTLRFSPVEDETIRKKAEDSGLTVSAYIRNAALN 2bas-a1-m1-cB_2bas-a1-m1-cA Crystal Structure of the Bacillus subtilis YkuI Protein, with an EAL Domain. O35014 O35014 2.61 X-RAY DIFFRACTION 167 0.997 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 387 393 2w27-a1-m1-cB_2w27-a1-m1-cA ALDPLDILTNIDDVLPYYQAIFSAEEQKVVGYEVLGRILADSEIQSLGPFFLDAGIPEEYKLEVDNRIIRQALDRFLEADSDLLIFNQDANLLLDHGESFLELLKEYEAKGIELHRFVLEITEHNFEGDIEQLYHLAYYRTYGIKIAVDNIGKESSNLDRIALLSPDLLKIDLQALKSPSYEHVLYSISLLARKIGAALLYEDIEANFQLQYAWRNGGRYFQGYYLVSPSETFLERDVLKQRLKTEFHQFITHEKKKLETVYEHSEQFYKRVHQAVTSLRKNNLSSDDDFIKKLAEELTDCSFRIYCDEEGDQLTGNVFKQDGEWIYQPEYAEKNWSWRPYFLENIRRNLRKGFFSDLYSDLETGEIRTFSYPDDQYLFIDLPYSYL LDPLDILTNIDDVLPYYQAIFSAEEQKVVGYEVLGRILADSEIQSLGPFFLDAGIPEEYKLEVDNRIIRQALDRFLEADSDLLIFNQDANLLLDHGESFLELLKEYEAKGIELHRFVLEITEHNFEGDIEQLYHLAYYRTYGIKIAVDNIGKESSNLDRIALLSPDLLKIDLQALKSPSYEHVLYSISLLARKIGAALLYEDIEANFQLQYAWRNGGRYFQGYYLVSPSETFLERDVLKQRLKTEFHQFITHEKKKLETVYEHSEQFYKRVHQAVTSLRKNNLSSDDDFIKKLAEELTDCSFRIYCDEEGDQLTGNVFKQDGEWIYQPEYAEKNWSWRPYFLENIRRNLRKGFFSDLYSDLETGEIRTFSYPDDQYLFIDLPYSYLYEQDGLI 2bb3-a2-m1-cB_2bb3-a2-m3-cB Crystal Structure of Cobalamin Biosynthesis Precorrin-6Y Methylase (cbiE) from Archaeoglobus fulgidus O29536 O29536 2.27 X-RAY DIFFRACTION 109 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 188 188 2bb3-a1-m1-cA_2bb3-a1-m2-cA GHIWIVGSGTCRGQTTERAKEIIERAEVIYGSRRALELAGVVDDSRARILRSFKGDEIRRIEEGREREVAVISTGDPVAGLGRVLREIAEDVEIKIEPAISSVQVALARLKVDLSEVAVVDCHAELTELLKYRHLLILADSHFPLERLGKRRVVLLENLCEGERIREGNADSIELESDYTIIFVEREV GHIWIVGSGTCRGQTTERAKEIIERAEVIYGSRRALELAGVVDDSRARILRSFKGDEIRRIEEGREREVAVISTGDPVAGLGRVLREIAEDVEIKIEPAISSVQVALARLKVDLSEVAVVDCHAELTELLKYRHLLILADSHFPLERLGKRRVVLLENLCEGERIREGNADSIELESDYTIIFVEREV 2bbe-a1-m3-cA_2bbe-a1-m4-cA Crystal structure of protein SO0527 from Shewanella oneidensis Q8EJE0 Q8EJE0 1.97 X-RAY DIFFRACTION 36 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 103 103 2bbe-a1-m1-cA_2bbe-a1-m2-cA DYKINQQQIVCVASFLSKEGKTEALIAALASLIPDTRREAGCIRYELNVSRDEPRRVTFVEKFVDIAAFDEHCAKDAIQHYFHQVMPELVESFHVETYHQVIA DYKINQQQIVCVASFLSKEGKTEALIAALASLIPDTRREAGCIRYELNVSRDEPRRVTFVEKFVDIAAFDEHCAKDAIQHYFHQVMPELVESFHVETYHQVIA 2bbe-a2-m1-cA_2bbe-a2-m4-cA Crystal structure of protein SO0527 from Shewanella oneidensis Q8EJE0 Q8EJE0 1.97 X-RAY DIFFRACTION 96 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 103 103 2bbe-a1-m1-cA_2bbe-a1-m4-cA 2bbe-a1-m2-cA_2bbe-a1-m3-cA DYKINQQQIVCVASFLSKEGKTEALIAALASLIPDTRREAGCIRYELNVSRDEPRRVTFVEKFVDIAAFDEHCAKDAIQHYFHQVMPELVESFHVETYHQVIA DYKINQQQIVCVASFLSKEGKTEALIAALASLIPDTRREAGCIRYELNVSRDEPRRVTFVEKFVDIAAFDEHCAKDAIQHYFHQVMPELVESFHVETYHQVIA 2bbh-a2-m1-cA_2bbh-a2-m2-cA X-ray structure of T.maritima CorA soluble domain Q9WZ31 Q9WZ31 1.85 X-RAY DIFFRACTION 45 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 220 220 PPGTLVYTGKYREDFEIEVNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGTHPLVLEDILNVHQRPKVEFFENYVFIVLKFTYDKHELESEQVSLILTKNCVLFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVTVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIE PPGTLVYTGKYREDFEIEVNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGTHPLVLEDILNVHQRPKVEFFENYVFIVLKFTYDKHELESEQVSLILTKNCVLFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVTVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIE 2bbv-a1-m10-cA_2bbv-a1-m9-cB THE REFINED THREE-DIMENSIONAL STRUCTURE OF AN INSECT VIRUS AT 2.8 ANGSTROMS RESOLUTION P04329 P04329 2.8 X-RAY DIFFRACTION 46 1.0 12285 (Black beetle virus) 12285 (Black beetle virus) 308 308 2bbv-a1-m10-cB_2bbv-a1-m6-cA 2bbv-a1-m11-cA_2bbv-a1-m15-cB 2bbv-a1-m11-cB_2bbv-a1-m12-cA 2bbv-a1-m12-cB_2bbv-a1-m13-cA 2bbv-a1-m13-cB_2bbv-a1-m14-cA 2bbv-a1-m14-cB_2bbv-a1-m15-cA 2bbv-a1-m16-cA_2bbv-a1-m20-cB 2bbv-a1-m16-cB_2bbv-a1-m17-cA 2bbv-a1-m17-cB_2bbv-a1-m18-cA 2bbv-a1-m18-cB_2bbv-a1-m19-cA 2bbv-a1-m19-cB_2bbv-a1-m20-cA 2bbv-a1-m1-cA_2bbv-a1-m5-cB 2bbv-a1-m1-cB_2bbv-a1-m2-cA 2bbv-a1-m21-cA_2bbv-a1-m25-cB 2bbv-a1-m21-cB_2bbv-a1-m22-cA 2bbv-a1-m22-cB_2bbv-a1-m23-cA 2bbv-a1-m23-cB_2bbv-a1-m24-cA 2bbv-a1-m24-cB_2bbv-a1-m25-cA 2bbv-a1-m26-cA_2bbv-a1-m30-cB 2bbv-a1-m26-cB_2bbv-a1-m27-cA 2bbv-a1-m27-cB_2bbv-a1-m28-cA 2bbv-a1-m28-cB_2bbv-a1-m29-cA 2bbv-a1-m29-cB_2bbv-a1-m30-cA 2bbv-a1-m2-cB_2bbv-a1-m3-cA 2bbv-a1-m31-cA_2bbv-a1-m35-cB 2bbv-a1-m31-cB_2bbv-a1-m32-cA 2bbv-a1-m32-cB_2bbv-a1-m33-cA 2bbv-a1-m33-cB_2bbv-a1-m34-cA 2bbv-a1-m34-cB_2bbv-a1-m35-cA 2bbv-a1-m36-cA_2bbv-a1-m40-cB 2bbv-a1-m36-cB_2bbv-a1-m37-cA 2bbv-a1-m37-cB_2bbv-a1-m38-cA 2bbv-a1-m38-cB_2bbv-a1-m39-cA 2bbv-a1-m39-cB_2bbv-a1-m40-cA 2bbv-a1-m3-cB_2bbv-a1-m4-cA 2bbv-a1-m41-cA_2bbv-a1-m45-cB 2bbv-a1-m41-cB_2bbv-a1-m42-cA 2bbv-a1-m42-cB_2bbv-a1-m43-cA 2bbv-a1-m43-cB_2bbv-a1-m44-cA 2bbv-a1-m44-cB_2bbv-a1-m45-cA 2bbv-a1-m46-cA_2bbv-a1-m50-cB 2bbv-a1-m46-cB_2bbv-a1-m47-cA 2bbv-a1-m47-cB_2bbv-a1-m48-cA 2bbv-a1-m48-cB_2bbv-a1-m49-cA 2bbv-a1-m49-cB_2bbv-a1-m50-cA 2bbv-a1-m4-cB_2bbv-a1-m5-cA 2bbv-a1-m51-cA_2bbv-a1-m55-cB 2bbv-a1-m51-cB_2bbv-a1-m52-cA 2bbv-a1-m52-cB_2bbv-a1-m53-cA 2bbv-a1-m53-cB_2bbv-a1-m54-cA 2bbv-a1-m54-cB_2bbv-a1-m55-cA 2bbv-a1-m56-cA_2bbv-a1-m60-cB 2bbv-a1-m56-cB_2bbv-a1-m57-cA 2bbv-a1-m57-cB_2bbv-a1-m58-cA 2bbv-a1-m58-cB_2bbv-a1-m59-cA 2bbv-a1-m59-cB_2bbv-a1-m60-cA 2bbv-a1-m6-cB_2bbv-a1-m7-cA 2bbv-a1-m7-cB_2bbv-a1-m8-cA 2bbv-a1-m8-cB_2bbv-a1-m9-cA LTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN LTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN 2bbv-a1-m55-cB_2bbv-a1-m9-cC THE REFINED THREE-DIMENSIONAL STRUCTURE OF AN INSECT VIRUS AT 2.8 ANGSTROMS RESOLUTION P04329 P04329 2.8 X-RAY DIFFRACTION 94 1.0 12285 (Black beetle virus) 12285 (Black beetle virus) 308 321 2bbv-a1-m10-cB_2bbv-a1-m24-cC 2bbv-a1-m11-cB_2bbv-a1-m16-cC 2bbv-a1-m12-cB_2bbv-a1-m38-cC 2bbv-a1-m13-cB_2bbv-a1-m47-cC 2bbv-a1-m14-cB_2bbv-a1-m45-cC 2bbv-a1-m15-cB_2bbv-a1-m29-cC 2bbv-a1-m16-cB_2bbv-a1-m11-cC 2bbv-a1-m17-cB_2bbv-a1-m28-cC 2bbv-a1-m18-cB_2bbv-a1-m52-cC 2bbv-a1-m19-cB_2bbv-a1-m60-cC 2bbv-a1-m1-cB_2bbv-a1-m6-cC 2bbv-a1-m20-cB_2bbv-a1-m39-cC 2bbv-a1-m21-cB_2bbv-a1-m26-cC 2bbv-a1-m22-cB_2bbv-a1-m43-cC 2bbv-a1-m23-cB_2bbv-a1-m2-cC 2bbv-a1-m24-cB_2bbv-a1-m10-cC 2bbv-a1-m25-cB_2bbv-a1-m54-cC 2bbv-a1-m26-cB_2bbv-a1-m21-cC 2bbv-a1-m27-cB_2bbv-a1-m53-cC 2bbv-a1-m28-cB_2bbv-a1-m17-cC 2bbv-a1-m29-cB_2bbv-a1-m15-cC 2bbv-a1-m2-cB_2bbv-a1-m23-cC 2bbv-a1-m30-cB_2bbv-a1-m44-cC 2bbv-a1-m31-cB_2bbv-a1-m36-cC 2bbv-a1-m32-cB_2bbv-a1-m58-cC 2bbv-a1-m33-cB_2bbv-a1-m7-cC 2bbv-a1-m34-cB_2bbv-a1-m5-cC 2bbv-a1-m35-cB_2bbv-a1-m49-cC 2bbv-a1-m36-cB_2bbv-a1-m31-cC 2bbv-a1-m37-cB_2bbv-a1-m48-cC 2bbv-a1-m38-cB_2bbv-a1-m12-cC 2bbv-a1-m39-cB_2bbv-a1-m20-cC 2bbv-a1-m3-cB_2bbv-a1-m42-cC 2bbv-a1-m40-cB_2bbv-a1-m59-cC 2bbv-a1-m41-cB_2bbv-a1-m46-cC 2bbv-a1-m42-cB_2bbv-a1-m3-cC 2bbv-a1-m43-cB_2bbv-a1-m22-cC 2bbv-a1-m44-cB_2bbv-a1-m30-cC 2bbv-a1-m45-cB_2bbv-a1-m14-cC 2bbv-a1-m46-cB_2bbv-a1-m41-cC 2bbv-a1-m47-cB_2bbv-a1-m13-cC 2bbv-a1-m48-cB_2bbv-a1-m37-cC 2bbv-a1-m49-cB_2bbv-a1-m35-cC 2bbv-a1-m4-cB_2bbv-a1-m50-cC 2bbv-a1-m50-cB_2bbv-a1-m4-cC 2bbv-a1-m51-cB_2bbv-a1-m56-cC 2bbv-a1-m52-cB_2bbv-a1-m18-cC 2bbv-a1-m53-cB_2bbv-a1-m27-cC 2bbv-a1-m54-cB_2bbv-a1-m25-cC 2bbv-a1-m56-cB_2bbv-a1-m51-cC 2bbv-a1-m57-cB_2bbv-a1-m8-cC 2bbv-a1-m58-cB_2bbv-a1-m32-cC 2bbv-a1-m59-cB_2bbv-a1-m40-cC 2bbv-a1-m5-cB_2bbv-a1-m34-cC 2bbv-a1-m60-cB_2bbv-a1-m19-cC 2bbv-a1-m6-cB_2bbv-a1-m1-cC 2bbv-a1-m7-cB_2bbv-a1-m33-cC 2bbv-a1-m8-cB_2bbv-a1-m57-cC 2bbv-a1-m9-cB_2bbv-a1-m55-cC LTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN TQTAPVPQQNVPALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN 2bbv-a1-m55-cC_2bbv-a1-m9-cC THE REFINED THREE-DIMENSIONAL STRUCTURE OF AN INSECT VIRUS AT 2.8 ANGSTROMS RESOLUTION P04329 P04329 2.8 X-RAY DIFFRACTION 44 1.0 12285 (Black beetle virus) 12285 (Black beetle virus) 321 321 2bbv-a1-m10-cC_2bbv-a1-m24-cC 2bbv-a1-m11-cC_2bbv-a1-m16-cC 2bbv-a1-m12-cC_2bbv-a1-m38-cC 2bbv-a1-m13-cC_2bbv-a1-m47-cC 2bbv-a1-m14-cC_2bbv-a1-m45-cC 2bbv-a1-m15-cC_2bbv-a1-m29-cC 2bbv-a1-m17-cC_2bbv-a1-m28-cC 2bbv-a1-m18-cC_2bbv-a1-m52-cC 2bbv-a1-m19-cC_2bbv-a1-m60-cC 2bbv-a1-m1-cC_2bbv-a1-m6-cC 2bbv-a1-m20-cC_2bbv-a1-m39-cC 2bbv-a1-m21-cC_2bbv-a1-m26-cC 2bbv-a1-m22-cC_2bbv-a1-m43-cC 2bbv-a1-m25-cC_2bbv-a1-m54-cC 2bbv-a1-m27-cC_2bbv-a1-m53-cC 2bbv-a1-m2-cC_2bbv-a1-m23-cC 2bbv-a1-m30-cC_2bbv-a1-m44-cC 2bbv-a1-m31-cC_2bbv-a1-m36-cC 2bbv-a1-m32-cC_2bbv-a1-m58-cC 2bbv-a1-m33-cC_2bbv-a1-m7-cC 2bbv-a1-m34-cC_2bbv-a1-m5-cC 2bbv-a1-m35-cC_2bbv-a1-m49-cC 2bbv-a1-m37-cC_2bbv-a1-m48-cC 2bbv-a1-m3-cC_2bbv-a1-m42-cC 2bbv-a1-m40-cC_2bbv-a1-m59-cC 2bbv-a1-m41-cC_2bbv-a1-m46-cC 2bbv-a1-m4-cC_2bbv-a1-m50-cC 2bbv-a1-m51-cC_2bbv-a1-m56-cC 2bbv-a1-m57-cC_2bbv-a1-m8-cC TQTAPVPQQNVPALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN TQTAPVPQQNVPALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN 2bbv-a1-m8-cB_2bbv-a1-m9-cC THE REFINED THREE-DIMENSIONAL STRUCTURE OF AN INSECT VIRUS AT 2.8 ANGSTROMS RESOLUTION P04329 P04329 2.8 X-RAY DIFFRACTION 66 1.0 12285 (Black beetle virus) 12285 (Black beetle virus) 308 321 2bbv-a1-m10-cA_2bbv-a1-m6-cA 2bbv-a1-m10-cA_2bbv-a1-m9-cA 2bbv-a1-m10-cB_2bbv-a1-m6-cC 2bbv-a1-m11-cA_2bbv-a1-m12-cA 2bbv-a1-m11-cA_2bbv-a1-m15-cA 2bbv-a1-m11-cB_2bbv-a1-m12-cC 2bbv-a1-m12-cA_2bbv-a1-m13-cA 2bbv-a1-m12-cB_2bbv-a1-m13-cC 2bbv-a1-m13-cA_2bbv-a1-m14-cA 2bbv-a1-m13-cB_2bbv-a1-m14-cC 2bbv-a1-m14-cA_2bbv-a1-m15-cA 2bbv-a1-m14-cB_2bbv-a1-m15-cC 2bbv-a1-m15-cB_2bbv-a1-m11-cC 2bbv-a1-m16-cA_2bbv-a1-m17-cA 2bbv-a1-m16-cA_2bbv-a1-m20-cA 2bbv-a1-m16-cB_2bbv-a1-m17-cC 2bbv-a1-m17-cA_2bbv-a1-m18-cA 2bbv-a1-m17-cB_2bbv-a1-m18-cC 2bbv-a1-m18-cA_2bbv-a1-m19-cA 2bbv-a1-m18-cB_2bbv-a1-m19-cC 2bbv-a1-m19-cA_2bbv-a1-m20-cA 2bbv-a1-m19-cB_2bbv-a1-m20-cC 2bbv-a1-m1-cA_2bbv-a1-m2-cA 2bbv-a1-m1-cA_2bbv-a1-m5-cA 2bbv-a1-m1-cB_2bbv-a1-m2-cC 2bbv-a1-m20-cB_2bbv-a1-m16-cC 2bbv-a1-m21-cA_2bbv-a1-m22-cA 2bbv-a1-m21-cA_2bbv-a1-m25-cA 2bbv-a1-m21-cB_2bbv-a1-m22-cC 2bbv-a1-m22-cA_2bbv-a1-m23-cA 2bbv-a1-m22-cB_2bbv-a1-m23-cC 2bbv-a1-m23-cA_2bbv-a1-m24-cA 2bbv-a1-m23-cB_2bbv-a1-m24-cC 2bbv-a1-m24-cA_2bbv-a1-m25-cA 2bbv-a1-m24-cB_2bbv-a1-m25-cC 2bbv-a1-m25-cB_2bbv-a1-m21-cC 2bbv-a1-m26-cA_2bbv-a1-m27-cA 2bbv-a1-m26-cA_2bbv-a1-m30-cA 2bbv-a1-m26-cB_2bbv-a1-m27-cC 2bbv-a1-m27-cA_2bbv-a1-m28-cA 2bbv-a1-m27-cB_2bbv-a1-m28-cC 2bbv-a1-m28-cA_2bbv-a1-m29-cA 2bbv-a1-m28-cB_2bbv-a1-m29-cC 2bbv-a1-m29-cA_2bbv-a1-m30-cA 2bbv-a1-m29-cB_2bbv-a1-m30-cC 2bbv-a1-m2-cA_2bbv-a1-m3-cA 2bbv-a1-m2-cB_2bbv-a1-m3-cC 2bbv-a1-m30-cB_2bbv-a1-m26-cC 2bbv-a1-m31-cA_2bbv-a1-m32-cA 2bbv-a1-m31-cA_2bbv-a1-m35-cA 2bbv-a1-m31-cB_2bbv-a1-m32-cC 2bbv-a1-m32-cA_2bbv-a1-m33-cA 2bbv-a1-m32-cB_2bbv-a1-m33-cC 2bbv-a1-m33-cA_2bbv-a1-m34-cA 2bbv-a1-m33-cB_2bbv-a1-m34-cC 2bbv-a1-m34-cA_2bbv-a1-m35-cA 2bbv-a1-m34-cB_2bbv-a1-m35-cC 2bbv-a1-m35-cB_2bbv-a1-m31-cC 2bbv-a1-m36-cA_2bbv-a1-m37-cA 2bbv-a1-m36-cA_2bbv-a1-m40-cA 2bbv-a1-m36-cB_2bbv-a1-m37-cC 2bbv-a1-m37-cA_2bbv-a1-m38-cA 2bbv-a1-m37-cB_2bbv-a1-m38-cC 2bbv-a1-m38-cA_2bbv-a1-m39-cA 2bbv-a1-m38-cB_2bbv-a1-m39-cC 2bbv-a1-m39-cA_2bbv-a1-m40-cA 2bbv-a1-m39-cB_2bbv-a1-m40-cC 2bbv-a1-m3-cA_2bbv-a1-m4-cA 2bbv-a1-m3-cB_2bbv-a1-m4-cC 2bbv-a1-m40-cB_2bbv-a1-m36-cC 2bbv-a1-m41-cA_2bbv-a1-m42-cA 2bbv-a1-m41-cA_2bbv-a1-m45-cA 2bbv-a1-m41-cB_2bbv-a1-m42-cC 2bbv-a1-m42-cA_2bbv-a1-m43-cA 2bbv-a1-m42-cB_2bbv-a1-m43-cC 2bbv-a1-m43-cA_2bbv-a1-m44-cA 2bbv-a1-m43-cB_2bbv-a1-m44-cC 2bbv-a1-m44-cA_2bbv-a1-m45-cA 2bbv-a1-m44-cB_2bbv-a1-m45-cC 2bbv-a1-m45-cB_2bbv-a1-m41-cC 2bbv-a1-m46-cA_2bbv-a1-m47-cA 2bbv-a1-m46-cA_2bbv-a1-m50-cA 2bbv-a1-m46-cB_2bbv-a1-m47-cC 2bbv-a1-m47-cA_2bbv-a1-m48-cA 2bbv-a1-m47-cB_2bbv-a1-m48-cC 2bbv-a1-m48-cA_2bbv-a1-m49-cA 2bbv-a1-m48-cB_2bbv-a1-m49-cC 2bbv-a1-m49-cA_2bbv-a1-m50-cA 2bbv-a1-m49-cB_2bbv-a1-m50-cC 2bbv-a1-m4-cA_2bbv-a1-m5-cA 2bbv-a1-m4-cB_2bbv-a1-m5-cC 2bbv-a1-m50-cB_2bbv-a1-m46-cC 2bbv-a1-m51-cA_2bbv-a1-m52-cA 2bbv-a1-m51-cA_2bbv-a1-m55-cA 2bbv-a1-m51-cB_2bbv-a1-m52-cC 2bbv-a1-m52-cA_2bbv-a1-m53-cA 2bbv-a1-m52-cB_2bbv-a1-m53-cC 2bbv-a1-m53-cA_2bbv-a1-m54-cA 2bbv-a1-m53-cB_2bbv-a1-m54-cC 2bbv-a1-m54-cA_2bbv-a1-m55-cA 2bbv-a1-m54-cB_2bbv-a1-m55-cC 2bbv-a1-m55-cB_2bbv-a1-m51-cC 2bbv-a1-m56-cA_2bbv-a1-m57-cA 2bbv-a1-m56-cA_2bbv-a1-m60-cA 2bbv-a1-m56-cB_2bbv-a1-m57-cC 2bbv-a1-m57-cA_2bbv-a1-m58-cA 2bbv-a1-m57-cB_2bbv-a1-m58-cC 2bbv-a1-m58-cA_2bbv-a1-m59-cA 2bbv-a1-m58-cB_2bbv-a1-m59-cC 2bbv-a1-m59-cA_2bbv-a1-m60-cA 2bbv-a1-m59-cB_2bbv-a1-m60-cC 2bbv-a1-m5-cB_2bbv-a1-m1-cC 2bbv-a1-m60-cB_2bbv-a1-m56-cC 2bbv-a1-m6-cA_2bbv-a1-m7-cA 2bbv-a1-m6-cB_2bbv-a1-m7-cC 2bbv-a1-m7-cA_2bbv-a1-m8-cA 2bbv-a1-m7-cB_2bbv-a1-m8-cC 2bbv-a1-m8-cA_2bbv-a1-m9-cA 2bbv-a1-m9-cB_2bbv-a1-m10-cC LTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN TQTAPVPQQNVPALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN 2bbv-a1-m9-cA_2bbv-a1-m9-cB THE REFINED THREE-DIMENSIONAL STRUCTURE OF AN INSECT VIRUS AT 2.8 ANGSTROMS RESOLUTION P04329 P04329 2.8 X-RAY DIFFRACTION 136 1.0 12285 (Black beetle virus) 12285 (Black beetle virus) 308 308 2bbv-a1-m10-cA_2bbv-a1-m10-cB 2bbv-a1-m10-cA_2bbv-a1-m10-cC 2bbv-a1-m10-cB_2bbv-a1-m10-cC 2bbv-a1-m11-cA_2bbv-a1-m11-cB 2bbv-a1-m11-cA_2bbv-a1-m11-cC 2bbv-a1-m11-cB_2bbv-a1-m11-cC 2bbv-a1-m12-cA_2bbv-a1-m12-cB 2bbv-a1-m12-cA_2bbv-a1-m12-cC 2bbv-a1-m12-cB_2bbv-a1-m12-cC 2bbv-a1-m13-cA_2bbv-a1-m13-cB 2bbv-a1-m13-cA_2bbv-a1-m13-cC 2bbv-a1-m13-cB_2bbv-a1-m13-cC 2bbv-a1-m14-cA_2bbv-a1-m14-cB 2bbv-a1-m14-cA_2bbv-a1-m14-cC 2bbv-a1-m14-cB_2bbv-a1-m14-cC 2bbv-a1-m15-cA_2bbv-a1-m15-cB 2bbv-a1-m15-cA_2bbv-a1-m15-cC 2bbv-a1-m15-cB_2bbv-a1-m15-cC 2bbv-a1-m16-cA_2bbv-a1-m16-cB 2bbv-a1-m16-cA_2bbv-a1-m16-cC 2bbv-a1-m16-cB_2bbv-a1-m16-cC 2bbv-a1-m17-cA_2bbv-a1-m17-cB 2bbv-a1-m17-cA_2bbv-a1-m17-cC 2bbv-a1-m17-cB_2bbv-a1-m17-cC 2bbv-a1-m18-cA_2bbv-a1-m18-cB 2bbv-a1-m18-cA_2bbv-a1-m18-cC 2bbv-a1-m18-cB_2bbv-a1-m18-cC 2bbv-a1-m19-cA_2bbv-a1-m19-cB 2bbv-a1-m19-cA_2bbv-a1-m19-cC 2bbv-a1-m19-cB_2bbv-a1-m19-cC 2bbv-a1-m1-cA_2bbv-a1-m1-cB 2bbv-a1-m1-cA_2bbv-a1-m1-cC 2bbv-a1-m1-cB_2bbv-a1-m1-cC 2bbv-a1-m20-cA_2bbv-a1-m20-cB 2bbv-a1-m20-cA_2bbv-a1-m20-cC 2bbv-a1-m20-cB_2bbv-a1-m20-cC 2bbv-a1-m21-cA_2bbv-a1-m21-cB 2bbv-a1-m21-cA_2bbv-a1-m21-cC 2bbv-a1-m21-cB_2bbv-a1-m21-cC 2bbv-a1-m22-cA_2bbv-a1-m22-cB 2bbv-a1-m22-cA_2bbv-a1-m22-cC 2bbv-a1-m22-cB_2bbv-a1-m22-cC 2bbv-a1-m23-cA_2bbv-a1-m23-cB 2bbv-a1-m23-cA_2bbv-a1-m23-cC 2bbv-a1-m23-cB_2bbv-a1-m23-cC 2bbv-a1-m24-cA_2bbv-a1-m24-cB 2bbv-a1-m24-cA_2bbv-a1-m24-cC 2bbv-a1-m24-cB_2bbv-a1-m24-cC 2bbv-a1-m25-cA_2bbv-a1-m25-cB 2bbv-a1-m25-cA_2bbv-a1-m25-cC 2bbv-a1-m25-cB_2bbv-a1-m25-cC 2bbv-a1-m26-cA_2bbv-a1-m26-cB 2bbv-a1-m26-cA_2bbv-a1-m26-cC 2bbv-a1-m26-cB_2bbv-a1-m26-cC 2bbv-a1-m27-cA_2bbv-a1-m27-cB 2bbv-a1-m27-cA_2bbv-a1-m27-cC 2bbv-a1-m27-cB_2bbv-a1-m27-cC 2bbv-a1-m28-cA_2bbv-a1-m28-cB 2bbv-a1-m28-cA_2bbv-a1-m28-cC 2bbv-a1-m28-cB_2bbv-a1-m28-cC 2bbv-a1-m29-cA_2bbv-a1-m29-cB 2bbv-a1-m29-cA_2bbv-a1-m29-cC 2bbv-a1-m29-cB_2bbv-a1-m29-cC 2bbv-a1-m2-cA_2bbv-a1-m2-cB 2bbv-a1-m2-cA_2bbv-a1-m2-cC 2bbv-a1-m2-cB_2bbv-a1-m2-cC 2bbv-a1-m30-cA_2bbv-a1-m30-cB 2bbv-a1-m30-cA_2bbv-a1-m30-cC 2bbv-a1-m30-cB_2bbv-a1-m30-cC 2bbv-a1-m31-cA_2bbv-a1-m31-cB 2bbv-a1-m31-cA_2bbv-a1-m31-cC 2bbv-a1-m31-cB_2bbv-a1-m31-cC 2bbv-a1-m32-cA_2bbv-a1-m32-cB 2bbv-a1-m32-cA_2bbv-a1-m32-cC 2bbv-a1-m32-cB_2bbv-a1-m32-cC 2bbv-a1-m33-cA_2bbv-a1-m33-cB 2bbv-a1-m33-cA_2bbv-a1-m33-cC 2bbv-a1-m33-cB_2bbv-a1-m33-cC 2bbv-a1-m34-cA_2bbv-a1-m34-cB 2bbv-a1-m34-cA_2bbv-a1-m34-cC 2bbv-a1-m34-cB_2bbv-a1-m34-cC 2bbv-a1-m35-cA_2bbv-a1-m35-cB 2bbv-a1-m35-cA_2bbv-a1-m35-cC 2bbv-a1-m35-cB_2bbv-a1-m35-cC 2bbv-a1-m36-cA_2bbv-a1-m36-cB 2bbv-a1-m36-cA_2bbv-a1-m36-cC 2bbv-a1-m36-cB_2bbv-a1-m36-cC 2bbv-a1-m37-cA_2bbv-a1-m37-cB 2bbv-a1-m37-cA_2bbv-a1-m37-cC 2bbv-a1-m37-cB_2bbv-a1-m37-cC 2bbv-a1-m38-cA_2bbv-a1-m38-cB 2bbv-a1-m38-cA_2bbv-a1-m38-cC 2bbv-a1-m38-cB_2bbv-a1-m38-cC 2bbv-a1-m39-cA_2bbv-a1-m39-cB 2bbv-a1-m39-cA_2bbv-a1-m39-cC 2bbv-a1-m39-cB_2bbv-a1-m39-cC 2bbv-a1-m3-cA_2bbv-a1-m3-cB 2bbv-a1-m3-cA_2bbv-a1-m3-cC 2bbv-a1-m3-cB_2bbv-a1-m3-cC 2bbv-a1-m40-cA_2bbv-a1-m40-cB 2bbv-a1-m40-cA_2bbv-a1-m40-cC 2bbv-a1-m40-cB_2bbv-a1-m40-cC 2bbv-a1-m41-cA_2bbv-a1-m41-cB 2bbv-a1-m41-cA_2bbv-a1-m41-cC 2bbv-a1-m41-cB_2bbv-a1-m41-cC 2bbv-a1-m42-cA_2bbv-a1-m42-cB 2bbv-a1-m42-cA_2bbv-a1-m42-cC 2bbv-a1-m42-cB_2bbv-a1-m42-cC 2bbv-a1-m43-cA_2bbv-a1-m43-cB 2bbv-a1-m43-cA_2bbv-a1-m43-cC 2bbv-a1-m43-cB_2bbv-a1-m43-cC 2bbv-a1-m44-cA_2bbv-a1-m44-cB 2bbv-a1-m44-cA_2bbv-a1-m44-cC 2bbv-a1-m44-cB_2bbv-a1-m44-cC 2bbv-a1-m45-cA_2bbv-a1-m45-cB 2bbv-a1-m45-cA_2bbv-a1-m45-cC 2bbv-a1-m45-cB_2bbv-a1-m45-cC 2bbv-a1-m46-cA_2bbv-a1-m46-cB 2bbv-a1-m46-cA_2bbv-a1-m46-cC 2bbv-a1-m46-cB_2bbv-a1-m46-cC 2bbv-a1-m47-cA_2bbv-a1-m47-cB 2bbv-a1-m47-cA_2bbv-a1-m47-cC 2bbv-a1-m47-cB_2bbv-a1-m47-cC 2bbv-a1-m48-cA_2bbv-a1-m48-cB 2bbv-a1-m48-cA_2bbv-a1-m48-cC 2bbv-a1-m48-cB_2bbv-a1-m48-cC 2bbv-a1-m49-cA_2bbv-a1-m49-cB 2bbv-a1-m49-cA_2bbv-a1-m49-cC 2bbv-a1-m49-cB_2bbv-a1-m49-cC 2bbv-a1-m4-cA_2bbv-a1-m4-cB 2bbv-a1-m4-cA_2bbv-a1-m4-cC 2bbv-a1-m4-cB_2bbv-a1-m4-cC 2bbv-a1-m50-cA_2bbv-a1-m50-cB 2bbv-a1-m50-cA_2bbv-a1-m50-cC 2bbv-a1-m50-cB_2bbv-a1-m50-cC 2bbv-a1-m51-cA_2bbv-a1-m51-cB 2bbv-a1-m51-cA_2bbv-a1-m51-cC 2bbv-a1-m51-cB_2bbv-a1-m51-cC 2bbv-a1-m52-cA_2bbv-a1-m52-cB 2bbv-a1-m52-cA_2bbv-a1-m52-cC 2bbv-a1-m52-cB_2bbv-a1-m52-cC 2bbv-a1-m53-cA_2bbv-a1-m53-cB 2bbv-a1-m53-cA_2bbv-a1-m53-cC 2bbv-a1-m53-cB_2bbv-a1-m53-cC 2bbv-a1-m54-cA_2bbv-a1-m54-cB 2bbv-a1-m54-cA_2bbv-a1-m54-cC 2bbv-a1-m54-cB_2bbv-a1-m54-cC 2bbv-a1-m55-cA_2bbv-a1-m55-cB 2bbv-a1-m55-cA_2bbv-a1-m55-cC 2bbv-a1-m55-cB_2bbv-a1-m55-cC 2bbv-a1-m56-cA_2bbv-a1-m56-cB 2bbv-a1-m56-cA_2bbv-a1-m56-cC 2bbv-a1-m56-cB_2bbv-a1-m56-cC 2bbv-a1-m57-cA_2bbv-a1-m57-cB 2bbv-a1-m57-cA_2bbv-a1-m57-cC 2bbv-a1-m57-cB_2bbv-a1-m57-cC 2bbv-a1-m58-cA_2bbv-a1-m58-cB 2bbv-a1-m58-cA_2bbv-a1-m58-cC 2bbv-a1-m58-cB_2bbv-a1-m58-cC 2bbv-a1-m59-cA_2bbv-a1-m59-cB 2bbv-a1-m59-cA_2bbv-a1-m59-cC 2bbv-a1-m59-cB_2bbv-a1-m59-cC 2bbv-a1-m5-cA_2bbv-a1-m5-cB 2bbv-a1-m5-cA_2bbv-a1-m5-cC 2bbv-a1-m5-cB_2bbv-a1-m5-cC 2bbv-a1-m60-cA_2bbv-a1-m60-cB 2bbv-a1-m60-cA_2bbv-a1-m60-cC 2bbv-a1-m60-cB_2bbv-a1-m60-cC 2bbv-a1-m6-cA_2bbv-a1-m6-cB 2bbv-a1-m6-cA_2bbv-a1-m6-cC 2bbv-a1-m6-cB_2bbv-a1-m6-cC 2bbv-a1-m7-cA_2bbv-a1-m7-cB 2bbv-a1-m7-cA_2bbv-a1-m7-cC 2bbv-a1-m7-cB_2bbv-a1-m7-cC 2bbv-a1-m8-cA_2bbv-a1-m8-cB 2bbv-a1-m8-cA_2bbv-a1-m8-cC 2bbv-a1-m8-cB_2bbv-a1-m8-cC 2bbv-a1-m9-cA_2bbv-a1-m9-cC 2bbv-a1-m9-cB_2bbv-a1-m9-cC LTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN LTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVTRKDVLNQSINFTANRDTFILIAPTPGVAYWVADVPAGTFPISTTTFNAVNFPGFNSMFGNAAASRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSNVQFPVATTPATSALVHTLVGLDGVLAVGPDNFSESFIKGVFSQSVCNEPDFEFSDILEGIQTLPPANVTVATSGQPFNLAAGAEAVSGIVGWGNMDTIVIRVSAPTGAVNSAILKTWACLEYRPNPNAMLYQFGHDSPPCDEVALQEYRTVARSLPVAVIAAQN 2bc0-a1-m1-cA_2bc0-a1-m1-cB Structural Analysis of Streptococcus pyogenes NADH oxidase: Wild-type Nox Q5XC60 Q5XC60 2 X-RAY DIFFRACTION 244 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 472 472 2bc1-a1-m1-cA_2bc1-a1-m1-cB 2bcp-a1-m1-cA_2bcp-a1-m1-cB GQQMGRTLYDDDDKDRWGSKIVVVGANHAGTACIKTMLTNYGDANEIVVFDQNSNISFLGGMALWIGEQIAGPEGLFYSDKEELESLGAKVYMESPVQSIDYDAKTVTALVDGKNHVETYDKLIFATGSQPILPPIKGAEIKEGSLEFEATLENLQFVKLYQNSADVIAKLENKDIKRVAVVGAGYIGVELAEAFQRKGKEVVLIDVVDTCLAGYYDRDLTDLMAKNMEEHGIQLAFGETVKEVAGNGKVEKIITDKNEYDVDMVILAVGFRPNTTLGNGKIDLFRNGAFLVNKRQETSIPGVYAIGDCATIYDNATRDTNYIALASNAVRTGIVAAHNACGTDLEGIGVQGSNGISIYGLHMVSTGLTLEKAKRLGFDAAVTEYTDNQKPEFIEHGNFPVTIKIVYDKDSRRILGAQMAAREDVSMGIHMFSLAIQEGVTIEKLALTDIFFLPHFNKPYNYITMAALGAKD GQQMGRTLYDDDDKDRWGSKIVVVGANHAGTACIKTMLTNYGDANEIVVFDQNSNISFLGGMALWIGEQIAGPEGLFYSDKEELESLGAKVYMESPVQSIDYDAKTVTALVDGKNHVETYDKLIFATGSQPILPPIKGAEIKEGSLEFEATLENLQFVKLYQNSADVIAKLENKDIKRVAVVGAGYIGVELAEAFQRKGKEVVLIDVVDTCLAGYYDRDLTDLMAKNMEEHGIQLAFGETVKEVAGNGKVEKIITDKNEYDVDMVILAVGFRPNTTLGNGKIDLFRNGAFLVNKRQETSIPGVYAIGDCATIYDNATRDTNYIALASNAVRTGIVAAHNACGTDLEGIGVQGSNGISIYGLHMVSTGLTLEKAKRLGFDAAVTEYTDNQKPEFIEHGNFPVTIKIVYDKDSRRILGAQMAAREDVSMGIHMFSLAIQEGVTIEKLALTDIFFLPHFNKPYNYITMAALGAKD 2bc2-a3-m1-cB_2bc2-a3-m2-cB METALLO BETA-LACTAMASE II FROM BACILLUS CEREUS 569/H/9 AT PH 6.0, TRIGONAL CRYSTAL FORM P04190 P04190 1.7 X-RAY DIFFRACTION 42 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 215 215 2nze-a3-m1-cB_2nze-a3-m2-cB TVIKNETGTISISQLNKNVWVHTELGAVPSNGLVLNTSKGLVLVDSSWDDKLTKELIEMVEKKFQKRVTDVIITHAHADRIGGIKTLKERGIKAHSTALTAELAKKNGYEEPLGDLQTVTNLKFGNMKVETFYPGKGHTEDNIVVWLPQYNILVGGLVKSTSAKDLGNVADAYVNEWSTSIENVLKRYRNINAVVPGHGEVGDKGLLLHTLDLLK TVIKNETGTISISQLNKNVWVHTELGAVPSNGLVLNTSKGLVLVDSSWDDKLTKELIEMVEKKFQKRVTDVIITHAHADRIGGIKTLKERGIKAHSTALTAELAKKNGYEEPLGDLQTVTNLKFGNMKVETFYPGKGHTEDNIVVWLPQYNILVGGLVKSTSAKDLGNVADAYVNEWSTSIENVLKRYRNINAVVPGHGEVGDKGLLLHTLDLLK 2bc4-a3-m1-cA_2bc4-a3-m2-cC Crystal structure of HLA-DM P28067 P28067 2.27 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 195 1hdm-a2-m1-cA_1hdm-a2-m2-cA LQNHTFLHTVYCQDGSPSVGLSEAYDEDQLFFFDFSQNTRVPRLPEFADWAQEQGDAPAILFDKEFCEWMIQQIGPKLDGKIPVSRGFPIAEVFTLKPLEFGKPNTLVCFVSNLFPPMLTVNWQHHSVPVEGFGPTFVSAVDGLSFQAFSYLNFTPEPSDIFSCIVTHEIDRYTAIAYWVPRNALPSD DLQNHTFLHTVYCQDGSPSVGLSEAYDEDQLFFFDFSQNTRVPRLPEFADWAQEQGDAPAILFDKEFCEWMIQQIGPKLDGKIPVSRGFPIAEVFTLKPLEFGKPNTLVCFVSNLFPPMLTVNWQHHSVPVEGFGPTFVSAVDGLSFQAFSYLNFTPEPSDIFSCIVTHEIDRYTAIAYWVPRNALPSDLLEDYK 2bck-a3-m1-cA_2bck-a3-m1-cD Crystal Structure of HLA-A*2402 Complexed with a telomerase peptide P04439 P04439 2.8 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 286 286 GSHSMRYFSTSVSRPGRGEPRFIAVGYVDDTQFVRFDSDAASQRMEPRAPWIEQEGPEYWDEETGKVKAHSQTDRENLRIALRYYNQSEAGSHTLQMMFGCDVGSDGRFLRGYHQYAYDGKDYIALKEDLRSWTAADMAAQITKRKWEAAHVAEQQRAYLEGTCVDGLRRYLENGKETLQRTDPPKTHMTHHPISDHEATLRCWALGFYPAEITLTWQRDGEDQTQDTELVETRPAGDGTFQKWAAVVVPSGEEQRYTCHVQHEGLPKPLTLRWEPGSGGGLNDIF GSHSMRYFSTSVSRPGRGEPRFIAVGYVDDTQFVRFDSDAASQRMEPRAPWIEQEGPEYWDEETGKVKAHSQTDRENLRIALRYYNQSEAGSHTLQMMFGCDVGSDGRFLRGYHQYAYDGKDYIALKEDLRSWTAADMAAQITKRKWEAAHVAEQQRAYLEGTCVDGLRRYLENGKETLQRTDPPKTHMTHHPISDHEATLRCWALGFYPAEITLTWQRDGEDQTQDTELVETRPAGDGTFQKWAAVVVPSGEEQRYTCHVQHEGLPKPLTLRWEPGSGGGLNDIF 2bcm-a1-m1-cA_2bcm-a1-m1-cB DaaE adhesin P13719 P13719 1.48 X-RAY DIFFRACTION 73 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 138 2bcm-a1-m1-cC_2bcm-a1-m1-cA 2bcm-a1-m1-cC_2bcm-a1-m1-cB TFQASGTTGITTLTVTEECRVQVGNVTATLARSKLKDDTAIGVIGVTALGCNGLQAALQADPDNYDATNLYMTSRNHDKLNVKLKATDGSSWTYGNGVFYKTEGGNWGGHVGISVDGNQTDKPTGEYTLNLTGGYWTN TFQASGTTGITTLTVTEECRVQVGNVTATLARSKLKDDTAIGVIGVTALGCNGLQAALQADPDNYDATNLYMTSRNHDKLNVKLKATDGSSWTYGNGVFYKTEGGNWGGHVGISVDGNQTDKPTGEYTLNLTGGYWTN 2bd0-a1-m1-cB_2bd0-a1-m1-cD Chlorobium tepidum Sepiapterin Reductase complexed with NADP and Sepiapterin Q8KES3 Q8KES3 1.7 X-RAY DIFFRACTION 91 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 240 240 2bd0-a1-m1-cA_2bd0-a1-m1-cC KHILLITGAGKGIGRAIALEFARAARHHPDFEPVLVLSSRTAADLEKISLECRAEGALTDTITADISDMADVRRLTTHIVERYGHIDCLVNNAGVGRFGALSDLTEEDFDYTMNTNLKGTFFLTQALFALMERQHSGHIFFITSVAATKAFRHSSIYCMSKFGQRGLVETMRLYARKCNVRITDVQPGAVYTPMWGKVDDEMQALMMMPEDIAAPVVQAYLQPSRTVVEEIILRPTSGDI KHILLITGAGKGIGRAIALEFARAARHHPDFEPVLVLSSRTAADLEKISLECRAEGALTDTITADISDMADVRRLTTHIVERYGHIDCLVNNAGVGRFGALSDLTEEDFDYTMNTNLKGTFFLTQALFALMERQHSGHIFFITSVAATKAFRHSSIYCMSKFGQRGLVETMRLYARKCNVRITDVQPGAVYTPMWGKVDDEMQALMMMPEDIAAPVVQAYLQPSRTVVEEIILRPTSGDI 2bd0-a1-m1-cC_2bd0-a1-m1-cD Chlorobium tepidum Sepiapterin Reductase complexed with NADP and Sepiapterin Q8KES3 Q8KES3 1.7 X-RAY DIFFRACTION 104 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 240 240 2bd0-a1-m1-cA_2bd0-a1-m1-cB KHILLITGAGKGIGRAIALEFARAARHHPDFEPVLVLSSRTAADLEKISLECRAEGALTDTITADISDMADVRRLTTHIVERYGHIDCLVNNAGVGRFGALSDLTEEDFDYTMNTNLKGTFFLTQALFALMERQHSGHIFFITSVAATKAFRHSSIYCMSKFGQRGLVETMRLYARKCNVRITDVQPGAVYTPMWGKVDDEMQALMMMPEDIAAPVVQAYLQPSRTVVEEIILRPTSGDI KHILLITGAGKGIGRAIALEFARAARHHPDFEPVLVLSSRTAADLEKISLECRAEGALTDTITADISDMADVRRLTTHIVERYGHIDCLVNNAGVGRFGALSDLTEEDFDYTMNTNLKGTFFLTQALFALMERQHSGHIFFITSVAATKAFRHSSIYCMSKFGQRGLVETMRLYARKCNVRITDVQPGAVYTPMWGKVDDEMQALMMMPEDIAAPVVQAYLQPSRTVVEEIILRPTSGDI 2bd7-a1-m1-cP_2bd7-a1-m1-cA Porcine pancreatic elastase complexed with beta-casomorphin-7 and Arg-Phe at pH 5.0 (50 min soak) P00772 1.6 X-RAY DIFFRACTION 13 1.0 9823 (Sus scrofa) 1 240 2bd2-a1-m1-cP_2bd2-a1-m1-cA 2bd4-a1-m1-cP_2bd4-a1-m1-cA 2bd5-a1-m1-cP_2bd5-a1-m1-cA 2bd8-a1-m1-cP_2bd8-a1-m1-cA 2bda-a1-m1-cP_2bda-a1-m1-cA I VVGGTEAQRNSWPSQISLQYRSGSSWAHTCGGTLIRQNWVMTAAHCVDRELTFRVVVGEHNLNQNNGTEQYVGVQKIVVHPYWNTDDVAAGYDIALLRLAQSVTLNSYVQLGVLPRAGTILANNSPCYITGWGLTRTNGQLAQTLQQAYLPTVDYAICSSSSYWGSTVKNSMVCAGGDGVRSGCQGDSGGPLHCLVNGQYAVHGVTSFVSRLGCNVTRKPTVFTRVSAYISWINNVIASN 2bdh-a5-m2-cB_2bdh-a5-m1-cA Human Kallikrein 4 complex with zinc and p-aminobenzamidine Q9Y5K2 Q9Y5K2 3 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 IINGEDCSPHSQPWQAALVMENELFCSGVLVHPQWVLSAAHCFQNSYTIGLGLHSLEADQEPGSQMVEASLSVRHPEYNRPLLANDLMLIKLDESVSESDTIRSISIASQCPTAGNSCLVSGWGLLANGRMPTVLQCVNVSVVSEEVCSKLYDPLYHPSMFCAGGGQDQKDSCNGDSGGPLICNGYLQGLVSFGKAPCGQVGVPGVYTNLCKFTEWIEKTVQA IINGEDCSPHSQPWQAALVMENELFCSGVLVHPQWVLSAAHCFQNSYTIGLGLHSLEADQEPGSQMVEASLSVRHPEYNRPLLANDLMLIKLDESVSESDTIRSISIASQCPTAGNSCLVSGWGLLANGRMPTVLQCVNVSVVSEEVCSKLYDPLYHPSMFCAGGGQDQKDSCNGDSGGPLICNGYLQGLVSFGKAPCGQVGVPGVYTNLCKFTEWIEKTVQA 2bdm-a3-m1-cA_2bdm-a3-m3-cA Structure of Cytochrome P450 2B4 with Bound Bifonazole P00178 P00178 2.3 X-RAY DIFFRACTION 75 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 465 465 GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFGMGKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDKSDPSSEFHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFGMGKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDKSDPSSEFHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH 2bdq-a1-m1-cA_2bdq-a1-m1-cB Crystal Structure of the Putative Copper Homeostasis Protein CutC from Streptococcus agalactiae, Northeast Strucural Genomics Target SaR15. Q8DYB9 Q8DYB9 2.3 X-RAY DIFFRACTION 92 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 205 205 ILREFCAENLTDLTRLDKAIISRVELCDNLAVGGTTPSYGVIKEANQYLHEKGISVAVIRPRGGNFVYNDLELRIEEDILRAVELESDALVLGILTSNNHIDTEAIEQLLPATQGLPLVFHAFDVIPKSDQKKSIDQLVALGFTRILLHGSSNGEPIIENIKHIKALVEYANNRIEIVGGGVTAENYQYICQETGVKQAHGTRIT ILREFCAENLTDLTRLDKAIISRVELCDNLAVGGTTPSYGVIKEANQYLHEKGISVAVIRPRGGNFVYNDLELRIEEDILRAVELESDALVLGILTSNNHIDTEAIEQLLPATQGLPLVFHAFDVIPKSDQKKSIDQLVALGFTRILLHGSSNGEPIIENIKHIKALVEYANNRIEIVGGGVTAENYQYICQETGVKQAHGTRIT 2bdr-a1-m1-cA_2bdr-a1-m1-cB Crystal Structure of the Putative Ureidoglycolate hydrolase PP4288 from Pseudomonas putida, Northeast Structural Genomics Target PpR49 P59285 P59285 1.6 X-RAY DIFFRACTION 137 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 159 159 RTLIEPLTKEAFAQFGDVIETDGSDHFINNGSTRFHKLATVETAEPEDKAIISIFRADAQDPLTVRLERHPLGSQAFIPLLGNPFLIVVAPVGDAPVSGLVRAFRSNGRQGVNYHRGVWHHPVLTIEKRDDFLVVDRSGSGNNCDEHYFTEEQLILNPH RTLIEPLTKEAFAQFGDVIETDGSDHFINNGSTRFHKLATVETAEPEDKAIISIFRADAQDPLTVRLERHPLGSQAFIPLLGNPFLIVVAPVGDAPVSGLVRAFRSNGRQGVNYHRGVWHHPVLTIEKRDDFLVVDRSGSGNNCDEHYFTEEQLILNPH 2bdt-a1-m1-cA_2bdt-a1-m2-cA Crystal Structure of the Putative Gluconate Kinase from Bacillus halodurans, Northeast Structural Genomics Target BhR61 Q9K6P2 Q9K6P2 2.4 X-RAY DIFFRACTION 71 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 170 170 KKLYIITGPAGVGKSTTCKRLAAQLDNSAYIEGDIINHVVGGYRPPWESDELLALTWKNITDLTVNFLLAQNDVVLDYIAFPDEAEALAQTVQAKVDDVEIRFIILWTNREELLRRDALRKKGERCLELVEEFESKGIDERYFYNTSHLQPTNLNDIVKNLKTNPRFIFC KKLYIITGPAGVGKSTTCKRLAAQLDNSAYIEGDIINHVVGGYRPPWESDELLALTWKNITDLTVNFLLAQNDVVLDYIAFPDEAEALAQTVQAKVDDVEIRFIILWTNREELLRRDALRKKGERCLELVEEFESKGIDERYFYNTSHLQPTNLNDIVKNLKTNPRFIFC 2bdw-a1-m1-cA_2bdw-a1-m1-cB Crystal Structure of the Auto-Inhibited Kinase Domain of Calcium/Calmodulin Activated Kinase II O62305 O62305 1.8 X-RAY DIFFRACTION 70 0.99 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 309 309 STKFSDNYDVKEELGKGAFSVVRRCVHKTTGLEFAAKIINTKKLSARDFQKLEREARICRKLQHPNIVRLHDSIQEESFHYLVFDLVTGGELFEDIVAREFYSEADASHCIQQILESIAYCHSNGIVHRNLKPENLLLASKAKGAAVKLADFGLAIEVNDSEAWHGFAGTPGYLSPEVLKKDPYSKPVDIWACGVILYILLVGYPPFWDEDQHRLYAQIKAGAYDYPSPEWDTVTPEAKSLIDSMLTVNPKKRITADQALKVPWICNRERVASAIHRQDTVDCLKKFNARRKLKGAILTTMIATRNLSN FSDNYDVKEELGKGAFSVVRRCVHKTTGLEFAAKIINTKKLSARDFQKLEREARICRKLQHPNIVRLHDSIQEESFHYLVFDLVTGGELFEDIVAREFYSEADASHCIQQILESIAYCHSNGIVHRNLKPENLLLASKAKGAAVKLADFGLAIEVNDSEAWHGFAGTPGYLSPEVLKKDPYSKPVDIWACGVILYILLVGYPPFWDEDQHRLYAQIKAGAYDYPSPEWDTVTPEAKSLIDSMLTVNPKKRITADQALKVPWICNRERVASAIHRQDTVDCLKKFNARRKLKGAILTTMIATRNLSNLGR 2be1-a1-m1-cA_2be1-a1-m1-cB Structure of the compact lumenal domain of yeast Ire1 P32361 P32361 2.983 X-RAY DIFFRACTION 112 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 301 301 NRSLNELSLSDILIAADVEGGLHAVDRRNGHIIWSIEPENFQPLIEIQEPSRLETYETLIIEPFGDGNIYYFNAHQGLQKLPLSIRQLVSTSPLHLKTNEDEKVYTGSMRTIMYTINMLNGEIISAFGPGSKNGENMIVIGKTIFELGIHSYDGASYNVTYSTWQQNVLDVPLALQNTFSKDGMCIAPFRDKSLLASDLDFRIARWVSPTFPGIIVGLFDVFNDLRTNENILVPHPFNPNKVYLDQTSNLSWFALSSQNFPSLVESAPISRYASSDRWRVSSIFEDETLFKNAIMGVHQIY NRSLNELSLSDILIAADVEGGLHAVDRRNGHIIWSIEPENFQPLIEIQEPSRLETYETLIIEPFGDGNIYYFNAHQGLQKLPLSIRQLVSTSPLHLKTNEDEKVYTGSMRTIMYTINMLNGEIISAFGPGSKNGENMIVIGKTIFELGIHSYDGASYNVTYSTWQQNVLDVPLALQNTFSKDGMCIAPFRDKSLLASDLDFRIARWVSPTFPGIIVGLFDVFNDLRTNENILVPHPFNPNKVYLDQTSNLSWFALSSQNFPSLVESAPISRYASSDRWRVSSIFEDETLFKNAIMGVHQIY 2be3-a1-m1-cB_2be3-a1-m1-cA Structure of a GTP Pyrophosphokinase Family Protein from Streptococcus pneumoniae A0A0H2UPY1 A0A0H2UPY1 2.4 X-RAY DIFFRACTION 47 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 184 197 TLEWEEFLDPYIQAVGELKIKLRGIRKQYRKQNKHSPIEFVTGRVKPIESIKEKAHDLQDIAGLRVVQFVDDVKEVVDILHKRQDRIIQERDYITHRKASGYRSYHVVVEYTVDTINGAKTILAEIQIRTLANFWATIEHSLNYKYQDFPDEIKKRLEITARIAHQLDEEGEIRDDIQEAQALF TLEWEEFLDPYIQAVGELKIKLRGIRKQYRKQNKHSPIEFVTGRVKPIESIKEKARRGITYATLEHDLQDIAGLRVVQFVDDVKEVVDILHKRQDRIIQERDYITHRKASGYRSYHVVVEYTVDTINGAKTILAEIQIRTLANFWATIEHSLNYKYQGDFPDEIKKRLEITARIAHQLDEEGEIRDDIQEAQALFDP 2be7-a1-m1-cB_2be7-a1-m2-cC Crystal structure of the unliganded (T-state) aspartate transcarbamoylase of the psychrophilic bacterium Moritella profunda D0VWV8 D0VWV8 2.85 X-RAY DIFFRACTION 10 1.0 111291 (Moritella profunda) 111291 (Moritella profunda) 309 309 2be7-a1-m1-cA_2be7-a1-m2-cA 2be7-a1-m1-cC_2be7-a1-m2-cB ANPLFRKHIVSINDISRNELELIVKTAAKLKEQPQPELLKNKVIASCFFEASTRTRLSFETAIQRLGGSVIGFDNAGNTSLAKKGETLADSISVISSYADAFVMRHPQEGAARLASEFSNVPVINGGDGSNQHPTQTLLDLFSIYETQGRLDNLNIAFVGDLKYGRTVHSLAQALAKFDGCKFHFIAPDALAMPEYICDELDEQNISYATYASIEEVVPEIDVLYMTRVQKERFDETEYQHMKAGFILSASSLVHAKPNLKVLHPLPRVDEIATDVDKTPYAYYFQQAENGVYAREALLALVLNETIGE ANPLFRKHIVSINDISRNELELIVKTAAKLKEQPQPELLKNKVIASCFFEASTRTRLSFETAIQRLGGSVIGFDNAGNTSLAKKGETLADSISVISSYADAFVMRHPQEGAARLASEFSNVPVINGGDGSNQHPTQTLLDLFSIYETQGRLDNLNIAFVGDLKYGRTVHSLAQALAKFDGCKFHFIAPDALAMPEYICDELDEQNISYATYASIEEVVPEIDVLYMTRVQKERFDETEYQHMKAGFILSASSLVHAKPNLKVLHPLPRVDEIATDVDKTPYAYYFQQAENGVYAREALLALVLNETIGE 2be7-a1-m2-cB_2be7-a1-m2-cC Crystal structure of the unliganded (T-state) aspartate transcarbamoylase of the psychrophilic bacterium Moritella profunda D0VWV8 D0VWV8 2.85 X-RAY DIFFRACTION 64 1.0 111291 (Moritella profunda) 111291 (Moritella profunda) 309 309 2be7-a1-m1-cA_2be7-a1-m1-cB 2be7-a1-m1-cA_2be7-a1-m1-cC 2be7-a1-m1-cB_2be7-a1-m1-cC 2be7-a1-m2-cA_2be7-a1-m2-cB 2be7-a1-m2-cA_2be7-a1-m2-cC ANPLFRKHIVSINDISRNELELIVKTAAKLKEQPQPELLKNKVIASCFFEASTRTRLSFETAIQRLGGSVIGFDNAGNTSLAKKGETLADSISVISSYADAFVMRHPQEGAARLASEFSNVPVINGGDGSNQHPTQTLLDLFSIYETQGRLDNLNIAFVGDLKYGRTVHSLAQALAKFDGCKFHFIAPDALAMPEYICDELDEQNISYATYASIEEVVPEIDVLYMTRVQKERFDETEYQHMKAGFILSASSLVHAKPNLKVLHPLPRVDEIATDVDKTPYAYYFQQAENGVYAREALLALVLNETIGE ANPLFRKHIVSINDISRNELELIVKTAAKLKEQPQPELLKNKVIASCFFEASTRTRLSFETAIQRLGGSVIGFDNAGNTSLAKKGETLADSISVISSYADAFVMRHPQEGAARLASEFSNVPVINGGDGSNQHPTQTLLDLFSIYETQGRLDNLNIAFVGDLKYGRTVHSLAQALAKFDGCKFHFIAPDALAMPEYICDELDEQNISYATYASIEEVVPEIDVLYMTRVQKERFDETEYQHMKAGFILSASSLVHAKPNLKVLHPLPRVDEIATDVDKTPYAYYFQQAENGVYAREALLALVLNETIGE 2be7-a1-m2-cE_2be7-a1-m1-cD Crystal structure of the unliganded (T-state) aspartate transcarbamoylase of the psychrophilic bacterium Moritella profunda D0VWV9 D0VWV9 2.85 X-RAY DIFFRACTION 47 0.992 111291 (Moritella profunda) 111291 (Moritella profunda) 130 133 2be7-a1-m1-cE_2be7-a1-m2-cD 2be7-a1-m1-cF_2be7-a1-m2-cF CNGYVIDHIPSGQGVKILKLFSLTDTKQRVTVGFNLPKDLIKVENTEITKSQANQLALLAPNATINIIENFKVTDKHSLTLPNEVENVFPCPNSNCITHGEPVTSSFSIKNIGLKCKYCEKTFSKDIVTE CNGYVIDHIPSGQGVKILKLFSLTDTKQRVTVGFNLKDLIKVENTEITKSQANQLALLAPNATINIIENFKVTDKHSLTLPNEVENVFPCPNSNCITHGEPVTSSFSIKKTKGNIGLKCKYCEKTFSKDIVTE 2be9-a1-m1-cB_2be9-a1-m6-cB Crystal structure of the CTP-liganded (T-State) aspartate transcarbamoylase from the extremely thermophilic archaeon Sulfolobus acidocaldarius P74766 P74766 2.6 X-RAY DIFFRACTION 53 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 148 148 1pg5-a1-m1-cB_1pg5-a1-m6-cB 1pg5-a1-m2-cB_1pg5-a1-m5-cB 1pg5-a1-m3-cB_1pg5-a1-m4-cB 2be9-a1-m2-cB_2be9-a1-m5-cB 2be9-a1-m3-cB_2be9-a1-m4-cB MVSKIKNGTVIDHIPAGRAFAVLNVLGIKEGFRIALVINVDSKKMGKKDIVKIEDKEISDTEANLITLIAPTATINIVREYEVVKKTKLEVPKVVKGILKCPNPYCITSNDVEAIPTFKTLTEKPLKMRCEYCETIIDENEIMSQILG MVSKIKNGTVIDHIPAGRAFAVLNVLGIKEGFRIALVINVDSKKMGKKDIVKIEDKEISDTEANLITLIAPTATINIVREYEVVKKTKLEVPKVVKGILKCPNPYCITSNDVEAIPTFKTLTEKPLKMRCEYCETIIDENEIMSQILG 2be9-a1-m5-cA_2be9-a1-m6-cA Crystal structure of the CTP-liganded (T-State) aspartate transcarbamoylase from the extremely thermophilic archaeon Sulfolobus acidocaldarius Q55338 Q55338 2.6 X-RAY DIFFRACTION 45 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 293 293 1pg5-a1-m1-cA_1pg5-a1-m2-cA 1pg5-a1-m1-cA_1pg5-a1-m3-cA 1pg5-a1-m2-cA_1pg5-a1-m3-cA 1pg5-a1-m4-cA_1pg5-a1-m5-cA 1pg5-a1-m4-cA_1pg5-a1-m6-cA 1pg5-a1-m5-cA_1pg5-a1-m6-cA 2be9-a1-m1-cA_2be9-a1-m2-cA 2be9-a1-m1-cA_2be9-a1-m3-cA 2be9-a1-m2-cA_2be9-a1-m3-cA 2be9-a1-m4-cA_2be9-a1-m5-cA 2be9-a1-m4-cA_2be9-a1-m6-cA MLKHIISAYNFSRDELEDIFALTDKYSKNLNDTRKILSGKTISIAFFEPSTRTYLSFQKAIINLGGDVIGFSGEGENLADTIRMLNNYSDGIVMRHKYDGASRFASEISDIPVINAGDGKHEHPTQAVIDIYTINKHFNTIDGLVFALLGDLKYARTVNSLLRILTRFRPKLVYLISPQLLRARKEILDELNYPVKEVENPFEVINEVDVLYVTRIQKERFVDEMEYEKIKGSYIVSLDLANKMKKDSIILHPLPRVNEIDRKVDKTTKAKYFEQASYGVPVRMSILTKIYGE MLKHIISAYNFSRDELEDIFALTDKYSKNLNDTRKILSGKTISIAFFEPSTRTYLSFQKAIINLGGDVIGFSGEGENLADTIRMLNNYSDGIVMRHKYDGASRFASEISDIPVINAGDGKHEHPTQAVIDIYTINKHFNTIDGLVFALLGDLKYARTVNSLLRILTRFRPKLVYLISPQLLRARKEILDELNYPVKEVENPFEVINEVDVLYVTRIQKERFVDEMEYEKIKGSYIVSLDLANKMKKDSIILHPLPRVNEIDRKVDKTTKAKYFEQASYGVPVRMSILTKIYGE 2bek-a2-m1-cD_2bek-a2-m1-cC Structure of the bacterial chromosome segregation protein Soj Q72H90 Q72H90 1.8 X-RAY DIFFRACTION 86 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 243 244 2bek-a1-m1-cB_2bek-a1-m1-cA KVRRIALANQKGGVGKTTTAINLAAYLARLGKRVLLVDLAPQGNATSGLGVRAERGVYHLLQGEPLEGLVHPVDGFHLLPATPDLVGATVELAGAPTALREALRDEGYDLVLLDAPPSLSPLTLNALAAAEGVVVPVQAEYYALEGVAGLLATLEEVRAGLNPRLRLLGILVTMYDGRTLLAQQVEAQLRAHFGEKVFWTVIPRNVRLAEAPSFGKTIAQHAPTSPGAHAYRRLAEEVMARVQ KVRRIALANQKGGVGKTTTAINLAAYLARLGKRVLLVDLAPQGNATSGLGVRAERGVYHLLQGEPLEGLVHPVDGFHLLPATPDLVGATVELAGAPTALREALRDEGYDLVLLDAPPSLSPLTLNALAAAEGVVVPVQAEYYALEGVAGLLATLEEVRAGLNPRLRLLGILVTMYDGRTLLAQQVEAQLRAHFGEKVFWTVIPRNVRLAEAPSFGKTIAQHAPTSPGAHAYRRLAEEVMARVQE 2bf9-a1-m1-cA_2bf9-a1-m2-cA Anisotropic refinement of avian (turkey) pancreatic polypeptide at 0. 99 Angstroms resolution. P68249 P68249 0.99 X-RAY DIFFRACTION 27 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 35 35 1ppt-a1-m1-cA_1ppt-a1-m2-cA GPSQPTYPGDDAPVEDLIRFYNDLQQYLNVVTRHR GPSQPTYPGDDAPVEDLIRFYNDLQQYLNVVTRHR 2bfd-a1-m1-cB_2bfd-a1-m2-cB Reactivity modulation of human branched-chain alpha-ketoacid dehydrogenase by an internal molecular switch P21953 P21953 1.39 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 332 1dtw-a1-m1-cB_1dtw-a1-m2-cB 1ols-a1-m1-cB_1ols-a1-m2-cB 1olu-a1-m1-cB_1olu-a1-m2-cB 1olx-a1-m1-cB_1olx-a1-m2-cB 1u5b-a1-m1-cB_1u5b-a1-m2-cB 1v11-a1-m1-cB_1v11-a1-m2-cB 1v16-a1-m1-cB_1v16-a1-m2-cB 1v1m-a1-m1-cB_1v1m-a1-m2-cB 1v1r-a1-m1-cB_1v1r-a1-m2-cB 1wci-a1-m1-cB_1wci-a1-m2-cB 1x7w-a1-m1-cB_1x7w-a1-m2-cB 1x7x-a1-m1-cB_1x7x-a1-m2-cB 1x7y-a1-m1-cB_1x7y-a1-m2-cB 1x7z-a1-m1-cB_1x7z-a1-m2-cB 1x80-a1-m1-cB_1x80-a1-m2-cB 2beu-a1-m1-cB_2beu-a1-m2-cB 2bev-a1-m1-cB_2bev-a1-m2-cB 2bew-a1-m1-cB_2bew-a1-m2-cB 2bfb-a1-m1-cB_2bfb-a1-m2-cB 2bfc-a1-m1-cB_2bfc-a1-m2-cB 2bfe-a1-m1-cB_2bfe-a1-m2-cB 2bff-a1-m1-cB_2bff-a1-m2-cB 2j9f-a1-m1-cB_2j9f-a1-m1-cD AHFEYGQTQKMNLFQSVTSALDNSLAKDPTAVIFGEDVAFGGVFRCTVGLRDKYGKDRVFNTPLCEQGIVGFGIGIAVTGATAIAEIQFADYIFPAFDQIVNEAAKYRYRSGDLFNCGSLTIRSPWGCVGHGALYHSQSPEAFFAHCPGIKVVIPRSPFQAKGLLLSCIEDKNPCIFFEPKILYRAAAEEVPIEPYNIPLSQAEVIQEGSDVTLVAWGTQVHVIREVASMAKEKLGVSCEVIDLRTIIPWDVDTICKSVIKTGRLLISHEAPLTGGFASEISSTVQEECFLNLEAPISRVCGYDTPFPHIFEPFYIPDKWKCYDALRKMINY AHFEYGQTQKMNLFQSVTSALDNSLAKDPTAVIFGEDVAFGGVFRCTVGLRDKYGKDRVFNTPLCEQGIVGFGIGIAVTGATAIAEIQFADYIFPAFDQIVNEAAKYRYRSGDLFNCGSLTIRSPWGCVGHGALYHSQSPEAFFAHCPGIKVVIPRSPFQAKGLLLSCIEDKNPCIFFEPKILYRAAAEEVPIEPYNIPLSQAEVIQEGSDVTLVAWGTQVHVIREVASMAKEKLGVSCEVIDLRTIIPWDVDTICKSVIKTGRLLISHEAPLTGGFASEISSTVQEECFLNLEAPISRVCGYDTPFPHIFEPFYIPDKWKCYDALRKMINY 2bff-a1-m1-cA_2bff-a1-m2-cA Reactivity modulation of human branched-chain alpha-ketoacid dehydrogenase by an internal molecular switch P12694 P12694 1.46 X-RAY DIFFRACTION 264 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 392 392 1dtw-a1-m1-cA_1dtw-a1-m2-cA 1ols-a1-m1-cA_1ols-a1-m2-cA 1olu-a1-m1-cA_1olu-a1-m2-cA 1olx-a1-m1-cA_1olx-a1-m2-cA 1u5b-a1-m1-cA_1u5b-a1-m2-cA 1v11-a1-m1-cA_1v11-a1-m2-cA 1v16-a1-m1-cA_1v16-a1-m2-cA 1v1m-a1-m1-cA_1v1m-a1-m2-cA 1v1r-a1-m1-cA_1v1r-a1-m2-cA 1wci-a1-m1-cA_1wci-a1-m2-cA 1x7w-a1-m1-cA_1x7w-a1-m2-cA 1x7x-a1-m1-cA_1x7x-a1-m2-cA 1x7y-a1-m1-cA_1x7y-a1-m2-cA 1x7z-a1-m1-cA_1x7z-a1-m2-cA 1x80-a1-m1-cA_1x80-a1-m2-cA 2beu-a1-m1-cA_2beu-a1-m2-cA 2bev-a1-m1-cA_2bev-a1-m2-cA 2bew-a1-m1-cA_2bew-a1-m2-cA 2bfb-a1-m1-cA_2bfb-a1-m2-cA 2bfc-a1-m1-cA_2bfc-a1-m2-cA 2bfd-a1-m1-cA_2bfd-a1-m2-cA 2bfe-a1-m1-cA_2bfe-a1-m2-cA 2j9f-a1-m1-cA_2j9f-a1-m1-cC KPQFPGASAEFIDKLEFIQPNVISGIPIYRVMDRQGQIINPSEDPHLPKEKVLKLYKSMTLLNTMDRILYESQRQGRISFYMTNYGEEGTHVGSAAALDNTDLVFGQYREAGVLMYRDYPLELFMAQCYGNISDLGKGRQMPVHYGCKERHFVTISSPLATQIPQAVGAAYAAKRANANRVVICYFGEGAASEGDAHAGFNFAATLECPIIFFCRNNGYAISTPTSEQYRGDGIAARGPGYGIMSIRVDGNDVFAVYNATKEARRRAVAENQPFLIEAMTYRIGHHSTSDDSSAYREVGYWDKQDHPISRLRHYLLSQGWWDEEQEKAWRKQSRRKVMEAFEQAERKPKPNPNLLFSDVYQEMPAQLRKQQESLARHLQTYGEHYPLDHFDK KPQFPGASAEFIDKLEFIQPNVISGIPIYRVMDRQGQIINPSEDPHLPKEKVLKLYKSMTLLNTMDRILYESQRQGRISFYMTNYGEEGTHVGSAAALDNTDLVFGQYREAGVLMYRDYPLELFMAQCYGNISDLGKGRQMPVHYGCKERHFVTISSPLATQIPQAVGAAYAAKRANANRVVICYFGEGAASEGDAHAGFNFAATLECPIIFFCRNNGYAISTPTSEQYRGDGIAARGPGYGIMSIRVDGNDVFAVYNATKEARRRAVAENQPFLIEAMTYRIGHHSTSDDSSAYREVGYWDKQDHPISRLRHYLLSQGWWDEEQEKAWRKQSRRKVMEAFEQAERKPKPNPNLLFSDVYQEMPAQLRKQQESLARHLQTYGEHYPLDHFDK 2bfp-a1-m1-cC_2bfp-a1-m1-cA Leishmania major pteridine reductase 1 in complex with NADP and tetrahydrobiopterin Q01782 Q01782 2.55 X-RAY DIFFRACTION 103 0.996 5664 (Leishmania major) 5664 (Leishmania major) 256 267 1e7w-a1-m1-cA_1e7w-a1-m2-cA 1e7w-a1-m1-cB_1e7w-a1-m2-cB 1e92-a1-m1-cC_1e92-a1-m1-cA 1e92-a1-m1-cD_1e92-a1-m1-cB 1w0c-a1-m1-cC_1w0c-a1-m1-cA 1w0c-a1-m1-cD_1w0c-a1-m1-cB 1w0c-a2-m1-cG_1w0c-a2-m1-cE 1w0c-a2-m1-cH_1w0c-a2-m1-cF 2bf7-a1-m1-cC_2bf7-a1-m1-cA 2bf7-a1-m1-cD_2bf7-a1-m1-cB 2bfa-a1-m1-cC_2bfa-a1-m1-cA 2bfa-a1-m1-cD_2bfa-a1-m1-cB 2bfm-a1-m1-cC_2bfm-a1-m1-cA 2bfm-a1-m1-cD_2bfm-a1-m1-cB 2bfo-a1-m1-cC_2bfo-a1-m1-cA 2bfo-a1-m1-cD_2bfo-a1-m1-cB 2bfp-a1-m1-cD_2bfp-a1-m1-cB 2qhx-a1-m1-cC_2qhx-a1-m1-cA 2qhx-a1-m1-cD_2qhx-a1-m1-cB 3h4v-a1-m1-cC_3h4v-a1-m1-cA 3h4v-a1-m1-cD_3h4v-a1-m1-cB 3h4v-a2-m1-cG_3h4v-a2-m1-cE 3h4v-a2-m1-cH_3h4v-a2-m1-cF 5l42-a1-m1-cC_5l42-a1-m1-cA 5l42-a1-m1-cD_5l42-a1-m1-cB 5l4n-a1-m1-cA_5l4n-a1-m1-cC 5l4n-a1-m1-cB_5l4n-a1-m1-cD 6rxc-a1-m1-cC_6rxc-a1-m1-cA 6rxc-a1-m1-cD_6rxc-a1-m1-cB 7pxx-a1-m1-cC_7pxx-a1-m1-cA 7pxx-a1-m1-cD_7pxx-a1-m1-cB TVPVALVTGAAKRLGRSIAEGLHAEGYAVCLHYHRSAAEANALSATLNARRPNSAITVQADLSNVATAPAPVTLFTRCAELVAACYTHWGRCDVLVNNASSFYPTPLLRREAMETATADLFGSNAIAPYFLIKAFAHRVAGTPAKHRGTNYSIINMVDAMTNQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSVLVGHRSKVPLYQRDSSAAEVSDVVIFLCSSKAKYITGTCVKVDGGYSLTRA VPVALVTGAAKRLGRSIAEGLHAEGYAVCLHYHRSAAEANALSATLNARRPNSAITVQADLSNVATAPAPVTLFTRCAELVAACYTHWGRCDVLVNNASSFYPTPLLRNGDREAMETATADLFGSNAIAPYFLIKAFAHRVAGTPAKHRGTNYSIINMVDAMTNQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSVLVDDMPPAVWEGHRSKVPLYQRDSSAAEVSDVVIFLCSSKAKYITGTCVKVDGGYSLTRA 2bgm-a1-m1-cA_2bgm-a1-m4-cA X-Ray structure of ternary-Secoisolariciresinol Dehydrogenase Q94KL8 Q94KL8 2 X-RAY DIFFRACTION 126 1.0 35933 (Podophyllum peltatum) 35933 (Podophyllum peltatum) 267 267 2bgk-a1-m1-cA_2bgk-a1-m2-cA 2bgk-a1-m1-cB_2bgk-a1-m2-cB 2bgl-a1-m1-cA_2bgl-a1-m4-cA 2bgl-a1-m2-cA_2bgl-a1-m3-cA 2bgm-a1-m2-cA_2bgm-a1-m3-cA TNRLQDKVAIITGGAGGIGETTAKLFVRYGAKVVIADIADDHGQKVCNNIGSPDVISFVHCDVTKDEDVRNLVDTTIAKHGKLDIMFGNVGVLSTTPYSILEAGNEDFKRVMDINVYGAFLVAKHAARVMIPAKKGSIVFTASISSFTAGEGVSHVYTATKHAVLGLTTSLCTELGEYGIRVNCVSPYIVASPLLTDVFGVDSSRVEELAHQAANLKGTLLRAEDVADAVAYLAGDESKYVSGLNLVIDGGYTRTNPAFPTALKHGL TNRLQDKVAIITGGAGGIGETTAKLFVRYGAKVVIADIADDHGQKVCNNIGSPDVISFVHCDVTKDEDVRNLVDTTIAKHGKLDIMFGNVGVLSTTPYSILEAGNEDFKRVMDINVYGAFLVAKHAARVMIPAKKGSIVFTASISSFTAGEGVSHVYTATKHAVLGLTTSLCTELGEYGIRVNCVSPYIVASPLLTDVFGVDSSRVEELAHQAANLKGTLLRAEDVADAVAYLAGDESKYVSGLNLVIDGGYTRTNPAFPTALKHGL 2bgm-a1-m2-cA_2bgm-a1-m4-cA X-Ray structure of ternary-Secoisolariciresinol Dehydrogenase Q94KL8 Q94KL8 2 X-RAY DIFFRACTION 119 1.0 35933 (Podophyllum peltatum) 35933 (Podophyllum peltatum) 267 267 2bgk-a1-m1-cA_2bgk-a1-m1-cB 2bgk-a1-m2-cA_2bgk-a1-m2-cB 2bgl-a1-m1-cA_2bgl-a1-m3-cA 2bgl-a1-m2-cA_2bgl-a1-m4-cA 2bgm-a1-m1-cA_2bgm-a1-m3-cA TNRLQDKVAIITGGAGGIGETTAKLFVRYGAKVVIADIADDHGQKVCNNIGSPDVISFVHCDVTKDEDVRNLVDTTIAKHGKLDIMFGNVGVLSTTPYSILEAGNEDFKRVMDINVYGAFLVAKHAARVMIPAKKGSIVFTASISSFTAGEGVSHVYTATKHAVLGLTTSLCTELGEYGIRVNCVSPYIVASPLLTDVFGVDSSRVEELAHQAANLKGTLLRAEDVADAVAYLAGDESKYVSGLNLVIDGGYTRTNPAFPTALKHGL TNRLQDKVAIITGGAGGIGETTAKLFVRYGAKVVIADIADDHGQKVCNNIGSPDVISFVHCDVTKDEDVRNLVDTTIAKHGKLDIMFGNVGVLSTTPYSILEAGNEDFKRVMDINVYGAFLVAKHAARVMIPAKKGSIVFTASISSFTAGEGVSHVYTATKHAVLGLTTSLCTELGEYGIRVNCVSPYIVASPLLTDVFGVDSSRVEELAHQAANLKGTLLRAEDVADAVAYLAGDESKYVSGLNLVIDGGYTRTNPAFPTALKHGL 2bgm-a1-m3-cA_2bgm-a1-m4-cA X-Ray structure of ternary-Secoisolariciresinol Dehydrogenase Q94KL8 Q94KL8 2 X-RAY DIFFRACTION 76 1.0 35933 (Podophyllum peltatum) 35933 (Podophyllum peltatum) 267 267 2bgk-a1-m1-cA_2bgk-a1-m2-cB 2bgk-a1-m1-cB_2bgk-a1-m2-cA 2bgl-a1-m1-cA_2bgl-a1-m2-cA 2bgl-a1-m3-cA_2bgl-a1-m4-cA 2bgm-a1-m1-cA_2bgm-a1-m2-cA TNRLQDKVAIITGGAGGIGETTAKLFVRYGAKVVIADIADDHGQKVCNNIGSPDVISFVHCDVTKDEDVRNLVDTTIAKHGKLDIMFGNVGVLSTTPYSILEAGNEDFKRVMDINVYGAFLVAKHAARVMIPAKKGSIVFTASISSFTAGEGVSHVYTATKHAVLGLTTSLCTELGEYGIRVNCVSPYIVASPLLTDVFGVDSSRVEELAHQAANLKGTLLRAEDVADAVAYLAGDESKYVSGLNLVIDGGYTRTNPAFPTALKHGL TNRLQDKVAIITGGAGGIGETTAKLFVRYGAKVVIADIADDHGQKVCNNIGSPDVISFVHCDVTKDEDVRNLVDTTIAKHGKLDIMFGNVGVLSTTPYSILEAGNEDFKRVMDINVYGAFLVAKHAARVMIPAKKGSIVFTASISSFTAGEGVSHVYTATKHAVLGLTTSLCTELGEYGIRVNCVSPYIVASPLLTDVFGVDSSRVEELAHQAANLKGTLLRAEDVADAVAYLAGDESKYVSGLNLVIDGGYTRTNPAFPTALKHGL 2bgw-a1-m1-cB_2bgw-a1-m1-cA XPF from Aeropyrum pernix, complex with DNA Q9YC15 Q9YC15 2.8 X-RAY DIFFRACTION 165 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 200 219 RPRVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSTKPRLSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPY MLEDPGGRPRVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSTREGGQRIVIHKKPRLSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK 2bh8-a1-m1-cA_2bh8-a1-m2-cB Combinatorial Protein 1b11 P0A9X9 P0A9X9 1.9 X-RAY DIFFRACTION 37 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 86 2bh8-a1-m2-cA_2bh8-a1-m1-cB KMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAGSSGAAVRGNPQQGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWAQAE SGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAGSSGAAVRGNPQQGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWAQA 2bh8-a1-m1-cB_2bh8-a1-m2-cB Combinatorial Protein 1b11 P0A9X9 P0A9X9 1.9 X-RAY DIFFRACTION 21 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 86 86 2bh8-a1-m1-cA_2bh8-a1-m2-cA SGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAGSSGAAVRGNPQQGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWAQA SGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAGSSGAAVRGNPQQGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWAQA 2bh8-a1-m2-cA_2bh8-a1-m2-cB Combinatorial Protein 1b11 P0A9X9 P0A9X9 1.9 X-RAY DIFFRACTION 181 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 86 2bh8-a1-m1-cA_2bh8-a1-m1-cB KMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAGSSGAAVRGNPQQGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWAQAE SGKMTGIVKWFNADKGFGFITPDDGSKDVFVHFSAGSSGAAVRGNPQQGDRVEGKIKSITDFGIFIGLDGGIDGLVHLSDISWAQA 2bhm-a3-m1-cC_2bhm-a3-m1-cE Crystal structure of VirB8 from Brucella suis Q7CEG3 Q7CEG3 2.4 X-RAY DIFFRACTION 41 1.0 29461 (Brucella suis) 29461 (Brucella suis) 134 134 2bhm-a1-m1-cA_2bhm-a1-m2-cA 2bhm-a2-m1-cD_2bhm-a2-m1-cB SYDTVMDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFQGDKALDKQYGSNVRTSVTIVSIVPNGKGIGTVRFAKTTKRTDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPE SYDTVMDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFQGDKALDKQYGSNVRTSVTIVSIVPNGKGIGTVRFAKTTKRTDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPE 2bhn-a2-m1-cC_2bhn-a2-m3-cD XPF from Aeropyrum pernix Q9YC15 Q9YC15 3.2 X-RAY DIFFRACTION 33 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 194 211 2bhn-a1-m1-cB_2bhn-a1-m2-cA 2bhn-a1-m2-cB_2bhn-a1-m1-cA 2bhn-a2-m3-cC_2bhn-a2-m1-cD RVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK PRVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSTREGGQRIVIHKKPRLSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK 2bhn-a2-m1-cD_2bhn-a2-m3-cD XPF from Aeropyrum pernix Q9YC15 Q9YC15 3.2 X-RAY DIFFRACTION 36 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 211 211 2bhn-a1-m1-cA_2bhn-a1-m2-cA PRVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSTREGGQRIVIHKKPRLSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK PRVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSTREGGQRIVIHKKPRLSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK 2bhn-a2-m3-cC_2bhn-a2-m3-cD XPF from Aeropyrum pernix Q9YC15 Q9YC15 3.2 X-RAY DIFFRACTION 157 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 194 211 2bhn-a1-m1-cB_2bhn-a1-m1-cA 2bhn-a1-m2-cB_2bhn-a1-m2-cA 2bhn-a2-m1-cC_2bhn-a2-m1-cD RVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK PRVYVDVREERSPVPSILESLGVQVIPKQLPMGDYLVSDSIIVERKTSSDFAKSLFDGRLFEQASRLAEHYETVFIIVEGPPVPRRYRGRERSLYAAMAALQLDYGIRLMNTMDPKGTALVIESLARLSTREGGQRIVIHKKPRLSDVREWQLYILQSFPGIGRRTAERILERFGSLERFFTASKAEISKVEGIGEKRAEEIKKILMTPYK 2bho-a1-m1-cA_2bho-a1-m2-cA Crystal structure of the Yersinia enterocolitica type III secretion chaperone SycT P0C2V9 P0C2V9 2.6 X-RAY DIFFRACTION 62 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 110 110 2bsi-a1-m1-cA_2bsi-a1-m1-cB 2bsj-a1-m1-cB_2bsj-a1-m1-cA TTFTELMQQLFLKLGLNHQVNENDVYTFEVDGHIQVLIACYHQQWVQLFSELGADLPTNDNLFGEHWPAHVQGRLDGKPILWSQQSLVGLDIDEMQAWLERFIDDIEQRK TTFTELMQQLFLKLGLNHQVNENDVYTFEVDGHIQVLIACYHQQWVQLFSELGADLPTNDNLFGEHWPAHVQGRLDGKPILWSQQSLVGLDIDEMQAWLERFIDDIEQRK 2bhs-a3-m1-cD_2bhs-a3-m3-cD Crystal Structure of Cysteine Synthase B P16703 P16703 2.67 X-RAY DIFFRACTION 113 1.0 562 (Escherichia coli) 562 (Escherichia coli) 291 291 2bhs-a1-m1-cB_2bhs-a1-m1-cA 2bhs-a2-m1-cC_2bhs-a2-m2-cC 2bht-a1-m1-cB_2bht-a1-m1-cA 2bht-a2-m1-cD_2bht-a2-m1-cC 2jc3-a1-m1-cA_2jc3-a1-m1-cB 2jc3-a2-m1-cC_2jc3-a2-m1-cD 2jc3-a3-m1-cE_2jc3-a3-m1-cF 2jc3-a4-m1-cG_2jc3-a4-m1-cH 2v03-a1-m1-cA_2v03-a1-m2-cA STLEQTIGNTPLVKLQRMGPDNGSEVWLKLEGNNPAGSVKDRAALSMIVEAEKRGEIKPGDVLIEATSGNTGIALAMIAALKGYRMKLLMPDNMSQERRAAMRAYGAELILVTKEQGMEGARDLALEMANRGEGKLLDQFNNPDNPYAHYTTTGPEIWQQTGGRITHFVSSMGTTGTITGVSRFMREQSKPVTIVGLQPEEGSSIPGIRRWPTEYLPGIFNASLVDEVLDIHQRDAENTMRELAVREGIFCGVSSGGAVAGALRVAKANPDAVVVAIICDRGDRYLSTGVF STLEQTIGNTPLVKLQRMGPDNGSEVWLKLEGNNPAGSVKDRAALSMIVEAEKRGEIKPGDVLIEATSGNTGIALAMIAALKGYRMKLLMPDNMSQERRAAMRAYGAELILVTKEQGMEGARDLALEMANRGEGKLLDQFNNPDNPYAHYTTTGPEIWQQTGGRITHFVSSMGTTGTITGVSRFMREQSKPVTIVGLQPEEGSSIPGIRRWPTEYLPGIFNASLVDEVLDIHQRDAENTMRELAVREGIFCGVSSGGAVAGALRVAKANPDAVVVAIICDRGDRYLSTGVF 2bhv-a3-m1-cF_2bhv-a3-m1-cD Structure of ComB10 of the Com Type IV secretion system of Helicobacter pylori O24883 O24883 3 X-RAY DIFFRACTION 121 0.995 210 (Helicobacter pylori) 210 (Helicobacter pylori) 188 189 2bhv-a1-m1-cE_2bhv-a1-m1-cA 2bhv-a2-m1-cC_2bhv-a2-m1-cB NKLLRTITADKMIPAFLITPISSQIAGKVIAQVESDIFAHMGKAVLIPKGSKVIGYYSNNNKMGEYRLDIVWSRIITPHGINIMLTNAGYNGLVGELIERNFQRYGVPLLLSTLTNGLLIGITDYLLMQLMRQSGMGINQVVNQILRDKSKIAPIVVIREGSRVFISPNTDIFFPIPRENEVIAEFLK NKLLRTITADKMIPAFLITPISSQIAGKVIAQVESDIFAHMGKAVLIPKGSKVIGYYSNNNKMGEYRLDIVWSRIITPHGINIMLTNGYNGLVGELIERNFQRYGVPLLLSTLTNGLLIGITFGDYLLMQLMRQSGMGINQVVNQILRDKSKIAPIVVIREGSRVFISPNTDIFFPIPRENEVIAEFLK 2bhw-a1-m1-cB_2bhw-a1-m1-cC PEA LIGHT-HARVESTING COMPLEX II AT 2.5 ANGSTROM RESOLUTION P07371 P07371 2.5 X-RAY DIFFRACTION 59 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 223 223 1rwt-a1-m1-cA_1rwt-a1-m2-cA 1rwt-a1-m1-cA_1rwt-a1-m3-cA 1rwt-a1-m1-cB_1rwt-a1-m1-cF 1rwt-a1-m1-cB_1rwt-a1-m1-cG 1rwt-a1-m1-cC_1rwt-a1-m1-cE 1rwt-a1-m1-cC_1rwt-a1-m1-cH 1rwt-a1-m1-cD_1rwt-a1-m1-cI 1rwt-a1-m1-cD_1rwt-a1-m1-cJ 1rwt-a1-m1-cE_1rwt-a1-m1-cH 1rwt-a1-m1-cG_1rwt-a1-m1-cF 1rwt-a1-m1-cI_1rwt-a1-m1-cJ 1rwt-a1-m2-cA_1rwt-a1-m3-cA 1rwt-a1-m2-cB_1rwt-a1-m2-cF 1rwt-a1-m2-cB_1rwt-a1-m2-cG 1rwt-a1-m2-cC_1rwt-a1-m2-cE 1rwt-a1-m2-cC_1rwt-a1-m2-cH 1rwt-a1-m2-cD_1rwt-a1-m2-cI 1rwt-a1-m2-cD_1rwt-a1-m2-cJ 1rwt-a1-m2-cE_1rwt-a1-m2-cH 1rwt-a1-m2-cG_1rwt-a1-m2-cF 1rwt-a1-m2-cI_1rwt-a1-m2-cJ 1rwt-a1-m3-cB_1rwt-a1-m3-cF 1rwt-a1-m3-cB_1rwt-a1-m3-cG 1rwt-a1-m3-cC_1rwt-a1-m3-cE 1rwt-a1-m3-cC_1rwt-a1-m3-cH 1rwt-a1-m3-cD_1rwt-a1-m3-cI 1rwt-a1-m3-cD_1rwt-a1-m3-cJ 1rwt-a1-m3-cE_1rwt-a1-m3-cH 1rwt-a1-m3-cG_1rwt-a1-m3-cF 1rwt-a1-m3-cI_1rwt-a1-m3-cJ 1rwt-a1-m4-cA_1rwt-a1-m5-cA 1rwt-a1-m4-cA_1rwt-a1-m6-cA 1rwt-a1-m4-cB_1rwt-a1-m4-cF 1rwt-a1-m4-cB_1rwt-a1-m4-cG 1rwt-a1-m4-cC_1rwt-a1-m4-cE 1rwt-a1-m4-cC_1rwt-a1-m4-cH 1rwt-a1-m4-cD_1rwt-a1-m4-cI 1rwt-a1-m4-cD_1rwt-a1-m4-cJ 1rwt-a1-m4-cE_1rwt-a1-m4-cH 1rwt-a1-m4-cG_1rwt-a1-m4-cF 1rwt-a1-m4-cI_1rwt-a1-m4-cJ 1rwt-a1-m5-cA_1rwt-a1-m6-cA 1rwt-a1-m5-cB_1rwt-a1-m5-cF 1rwt-a1-m5-cB_1rwt-a1-m5-cG 1rwt-a1-m5-cC_1rwt-a1-m5-cE 1rwt-a1-m5-cC_1rwt-a1-m5-cH 1rwt-a1-m5-cD_1rwt-a1-m5-cI 1rwt-a1-m5-cD_1rwt-a1-m5-cJ 1rwt-a1-m5-cE_1rwt-a1-m5-cH 1rwt-a1-m5-cG_1rwt-a1-m5-cF 1rwt-a1-m5-cI_1rwt-a1-m5-cJ 1rwt-a1-m6-cB_1rwt-a1-m6-cF 1rwt-a1-m6-cB_1rwt-a1-m6-cG 1rwt-a1-m6-cC_1rwt-a1-m6-cE 1rwt-a1-m6-cC_1rwt-a1-m6-cH 1rwt-a1-m6-cD_1rwt-a1-m6-cI 1rwt-a1-m6-cD_1rwt-a1-m6-cJ 1rwt-a1-m6-cE_1rwt-a1-m6-cH 1rwt-a1-m6-cG_1rwt-a1-m6-cF 1rwt-a1-m6-cI_1rwt-a1-m6-cJ 2bhw-a1-m1-cA_2bhw-a1-m1-cB 2bhw-a1-m1-cA_2bhw-a1-m1-cC 3jcu-a1-m1-cg_3jcu-a1-m1-cn 3jcu-a1-m1-cG_3jcu-a1-m1-cN 3jcu-a1-m1-cg_3jcu-a1-m1-cy 3jcu-a1-m1-cG_3jcu-a1-m1-cY 3jcu-a1-m1-cn_3jcu-a1-m1-cy 3jcu-a1-m1-cN_3jcu-a1-m1-cY 4lcz-a1-m1-cA_4lcz-a1-m1-cB 4lcz-a1-m1-cA_4lcz-a1-m1-cC 4lcz-a1-m1-cB_4lcz-a1-m1-cC 5mdx-a1-m1-c1_5mdx-a1-m1-c2 5mdx-a1-m1-c1_5mdx-a1-m1-c3 5mdx-a1-m1-c2_5mdx-a1-m1-c3 5mdx-a1-m1-c5_5mdx-a1-m1-c6 5mdx-a1-m1-c5_5mdx-a1-m1-c7 5mdx-a1-m1-c6_5mdx-a1-m1-c7 5mdx-a1-m1-cg_5mdx-a1-m1-cn 5mdx-a1-m1-cG_5mdx-a1-m1-cN 5mdx-a1-m1-cg_5mdx-a1-m1-cy 5mdx-a1-m1-cG_5mdx-a1-m1-cY 5mdx-a1-m1-cn_5mdx-a1-m1-cy 5mdx-a1-m1-cN_5mdx-a1-m1-cY 5xnl-a1-m1-c2_5xnl-a1-m1-c1 5xnl-a1-m1-c6_5xnl-a1-m1-c5 5xnl-a1-m1-cg_5xnl-a1-m1-cn 5xnl-a1-m1-cG_5xnl-a1-m1-cN 5xnl-a1-m1-cg_5xnl-a1-m1-cy 5xnl-a1-m1-cG_5xnl-a1-m1-cY 5xnl-a1-m1-cn_5xnl-a1-m1-cy 5xnl-a1-m1-cN_5xnl-a1-m1-cY 5xnm-a1-m1-c2_5xnm-a1-m1-c1 5xnm-a1-m1-c6_5xnm-a1-m1-c5 5xnm-a1-m1-cg_5xnm-a1-m1-cn 5xnm-a1-m1-cG_5xnm-a1-m1-cN 5xnm-a1-m1-cg_5xnm-a1-m1-cy 5xnm-a1-m1-cG_5xnm-a1-m1-cY 5xnm-a1-m1-cn_5xnm-a1-m1-cy 5xnm-a1-m1-cN_5xnm-a1-m1-cY 5xnn-a1-m1-c2_5xnn-a1-m1-c1 5xno-a1-m1-c2_5xno-a1-m1-c1 5zji-a1-m1-cX_5zji-a1-m1-cZ 6yp7-a1-m1-cg_6yp7-a1-m1-cn 6yp7-a1-m1-cG_6yp7-a1-m1-cN 6yp7-a1-m1-cg_6yp7-a1-m1-cy 6yp7-a1-m1-cG_6yp7-a1-m1-cY 6yp7-a1-m1-cn_6yp7-a1-m1-cy 6yp7-a1-m1-cN_6yp7-a1-m1-cY 7oui-a1-m1-cg_7oui-a1-m1-cy 7oui-a1-m1-cG_7oui-a1-m1-cY 7oui-a1-m1-cn_7oui-a1-m1-cg 7oui-a1-m1-cN_7oui-a1-m1-cG 7oui-a1-m1-cn_7oui-a1-m1-cy 7oui-a1-m1-cN_7oui-a1-m1-cY ASSGSPWYGPDRVKYLGPFSGESPSYLTGEFPGDYGWDTAGLSADPETFSKNRELEVIHSRWAMLGALGSVFPELLSRNGVKFGEAVWFKAGSQIFSEGGLDYLGNPSLVHAQSILAIWATQVILMGAVEGYRIAGGPLGEVVDPLYPGGSFDPLGLADDPEAFAELKVKELKNGRLAMFSMFGFFVQAIVTGKGPLENLADHLADPVNNNAWSYATNFVPGK ASSGSPWYGPDRVKYLGPFSGESPSYLTGEFPGDYGWDTAGLSADPETFSKNRELEVIHSRWAMLGALGSVFPELLSRNGVKFGEAVWFKAGSQIFSEGGLDYLGNPSLVHAQSILAIWATQVILMGAVEGYRIAGGPLGEVVDPLYPGGSFDPLGLADDPEAFAELKVKELKNGRLAMFSMFGFFVQAIVTGKGPLENLADHLADPVNNNAWSYATNFVPGK 2bi0-a1-m2-cA_2bi0-a1-m3-cA RV0216, A conserved hypothetical protein from Mycobacterium tuberculosis that is essential for bacterial survival during infection, has a double hotdogfold P96398 P96398 1.9 X-RAY DIFFRACTION 95 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 327 327 2bi0-a1-m1-cA_2bi0-a1-m2-cA 2bi0-a1-m1-cA_2bi0-a1-m3-cA IRVGGPYFDDLSKGQVFDWAPGVTLSLGLAAAHQSIVGNRLRLALDSDLCAAVTGPGPLAHPGLVCDVAIGQSTLATQRVKANLFYRGLRFHRFPAVGDTLYTRTEVVGLRANSPKPGRAPTGLAGLRTTIDRTDRLVLDFYRCALPASPDWKPGAVPGDDLSRIGADAPAPAADPTAHWDGAVFRKRVPGPHFDAGIAGAVLHSTADLVSGAPELARLTLNIAATHHDWRVSGRRLVYGGHTIGLALAQATRLLPNLATVLDWESCDHTAPVHEGDTLYSELHIESAQAHADGGVLGLRSLVYAVSDSASEPDRQVLDWRFSALQF IRVGGPYFDDLSKGQVFDWAPGVTLSLGLAAAHQSIVGNRLRLALDSDLCAAVTGPGPLAHPGLVCDVAIGQSTLATQRVKANLFYRGLRFHRFPAVGDTLYTRTEVVGLRANSPKPGRAPTGLAGLRTTIDRTDRLVLDFYRCALPASPDWKPGAVPGDDLSRIGADAPAPAADPTAHWDGAVFRKRVPGPHFDAGIAGAVLHSTADLVSGAPELARLTLNIAATHHDWRVSGRRLVYGGHTIGLALAQATRLLPNLATVLDWESCDHTAPVHEGDTLYSELHIESAQAHADGGVLGLRSLVYAVSDSASEPDRQVLDWRFSALQF 2big-a1-m1-cB_2big-a1-m1-cA Radiation damage of the Schiff base in phosphoserine aminotransferase (structure I) Q9RME2 Q9RME2 1.3 X-RAY DIFFRACTION 193 1.0 1445 (Alkalihalobacillus alcalophilus) 1445 (Alkalihalobacillus alcalophilus) 355 358 1w23-a1-m1-cB_1w23-a1-m1-cA 2bhx-a1-m1-cB_2bhx-a1-m1-cA 2bi1-a1-m1-cB_2bi1-a1-m1-cA 2bi2-a1-m1-cB_2bi2-a1-m1-cA 2bi3-a1-m1-cB_2bi3-a1-m1-cA 2bi5-a1-m1-cB_2bi5-a1-m1-cA 2bi9-a1-m1-cB_2bi9-a1-m1-cA 2bia-a1-m1-cB_2bia-a1-m1-cA 2bie-a1-m1-cB_2bie-a1-m1-cA 4azj-a1-m1-cB_4azj-a1-m1-cA 4azk-a1-m1-cB_4azk-a1-m1-cA QVFNFNAGPSALPKPALERAQKELLNFNDTQMSVMELSHRSQSYEEVHEQAQNLLRELLQIPNDYQILFLQGGASLQFTMLPMNLLTKGTIGNYVLTGSWSEKALKEAKLLGETHIAASTKANSYQSIPDFSEFQLNENDAYLHITSNNTIYGTQYQNFPEINHAPLIADMSSDILSRPLKVNQFGMIYAGAQKNLGPSGVTVVIVKKDLLVEQVPTMLQYATHIKSDSLYNTPPTFSIYMLRNVLDWIKDLGGAEAIAKQNEEKAKIIYDTIDESNGFYVGHAEKGSRSLMNVTFNLRNEELNQQFLAKAKEQGFVGLNGHRSVGGCRASIYNAVPIDACIALRELMIQFKENA QVFNFNAGPSALPKPALERAQKELLNFNDTQMSVMELSHRSQSYEEVHEQAQNLLRELLQIPNDYQILFLQGGASLQFTMLPMNLLTKGTIGNYVLTGSWSEKALKEAKLLGETHIAASTKANSYQSIPDFSEFQLNENDAYLHITSNNTIYGTQYQNFPEINHAPLIADMSSDILSRPLKVNQFGMIYAGAQKNLGPSGVTVVIVKKDLLNTKVEQVPTMLQYATHIKSDSLYNTPPTFSIYMLRNVLDWIKDLGGAEAIAKQNEEKAKIIYDTIDESNGFYVGHAEKGSRSLMNVTFNLRNEELNQQFLAKAKEQGFVGLNGHRSVGGCRASIYNAVPIDACIALRELMIQFKENA 2bii-a2-m1-cB_2bii-a2-m3-cB crystal structure of nitrate-reducing fragment of assimilatory nitrate reductase from Pichia angusta P49050 P49050 1.7 X-RAY DIFFRACTION 99 1.0 415 415 2bih-a1-m1-cA_2bih-a1-m2-cA 2bii-a1-m1-cA_2bii-a1-m2-cA PFNSEPPLTKLYDSGFLTPVSLHFVRNHGPVPYVPDENILDWEVSIEGMVETPYKIKLSDIMEQFDIYSTPVTMVCAGNRRKEQNMVKKGAGFNWGAAGTSTSLWTGCMLGDVIGKARPSKRARFVWMEGADNPANGAYGTCIRLSWCMDPERCIMIAYQQNGEWLHPDHGKPLRVVIPGVIGGRSVKWLKKLVVSDRPSENWYHYFDNRVLPTMVTPEMAKSDDRWWKDERYAIYDLNLQTIICKPENQQVIKISEDEYEIAGFGYNGGGVRIGRIEVSLDKGKSWKLADIDYPEDRYREAGYFRLFGGLVNVCDRMSCLCWCFWKLKVPLSELARSKDILIRGMDERMMVQPRTMYWNVTSMLNNWWYRVAIIREGESLRFEHPVVANKPGGWMDRVKAEGGDILDNNWGEVD PFNSEPPLTKLYDSGFLTPVSLHFVRNHGPVPYVPDENILDWEVSIEGMVETPYKIKLSDIMEQFDIYSTPVTMVCAGNRRKEQNMVKKGAGFNWGAAGTSTSLWTGCMLGDVIGKARPSKRARFVWMEGADNPANGAYGTCIRLSWCMDPERCIMIAYQQNGEWLHPDHGKPLRVVIPGVIGGRSVKWLKKLVVSDRPSENWYHYFDNRVLPTMVTPEMAKSDDRWWKDERYAIYDLNLQTIICKPENQQVIKISEDEYEIAGFGYNGGGVRIGRIEVSLDKGKSWKLADIDYPEDRYREAGYFRLFGGLVNVCDRMSCLCWCFWKLKVPLSELARSKDILIRGMDERMMVQPRTMYWNVTSMLNNWWYRVAIIREGESLRFEHPVVANKPGGWMDRVKAEGGDILDNNWGEVD 2bj0-a1-m1-cA_2bj0-a1-m1-cE Crystal Structure of AChBP from Bulinus truncatus revals the conserved structural scaffold and sites of variation in nicotinic acetylcholine receptors 2 X-RAY DIFFRACTION 88 1.0 55810 (Bulinus truncatus) 55810 (Bulinus truncatus) 203 203 2bj0-a1-m1-cA_2bj0-a1-m1-cB 2bj0-a1-m1-cB_2bj0-a1-m1-cC 2bj0-a1-m1-cC_2bj0-a1-m1-cD 2bj0-a1-m1-cD_2bj0-a1-m1-cE QIRWTLLNQITGESDVIPLSNNTPLNVSLNFKLMNIVEADTEKDQVEVVLWTQASWKVPYYSSLLSSSSLDQVSLPVSKMWTPDLSFYNAIAAPELLSADRVVVSKDGSVIYVPSQRVRFTCDLINVDTEPGATCRIKVGSWTHDNKQFALITGEEGVVNIAEYFDSPKFDLLSATQSLNRKKYSCCENMYDDIEITFAFRKK QIRWTLLNQITGESDVIPLSNNTPLNVSLNFKLMNIVEADTEKDQVEVVLWTQASWKVPYYSSLLSSSSLDQVSLPVSKMWTPDLSFYNAIAAPELLSADRVVVSKDGSVIYVPSQRVRFTCDLINVDTEPGATCRIKVGSWTHDNKQFALITGEEGVVNIAEYFDSPKFDLLSATQSLNRKKYSCCENMYDDIEITFAFRKK 2bj1-a1-m1-cA_2bj1-a1-m2-cB NIKR IN OPEN CONFORMATION AND NICKEL BOUND TO HIGH-AFFINITY SITES O58316 O58316 3 X-RAY DIFFRACTION 52 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 132 132 2bj1-a1-m1-cB_2bj1-a1-m2-cA 2bj3-a1-m1-cA_2bj3-a1-m1-cC 2bj3-a1-m1-cD_2bj3-a1-m1-cB MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTS MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTS 2bj1-a1-m2-cA_2bj1-a1-m2-cB NIKR IN OPEN CONFORMATION AND NICKEL BOUND TO HIGH-AFFINITY SITES O58316 O58316 3 X-RAY DIFFRACTION 171 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 132 132 2bj1-a1-m1-cA_2bj1-a1-m1-cB 2bj3-a1-m1-cA_2bj3-a1-m1-cB 2bj3-a1-m1-cD_2bj3-a1-m1-cC MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTS MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTS 2bj7-a1-m2-cA_2bj7-a1-m2-cB NIKR IN CLOSED CONFORMATION AND NICKEL BOUND TO HIGH-AFFINITY SITES O58316 O58316 2.1 X-RAY DIFFRACTION 221 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 136 138 2bj7-a1-m1-cA_2bj7-a1-m1-cB 2bj8-a1-m1-cA_2bj8-a1-m1-cB 2bj8-a1-m2-cA_2bj8-a1-m2-cB 2bj9-a1-m1-cA_2bj9-a1-m1-cB 2bj9-a1-m2-cA_2bj9-a1-m2-cB MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTSTGKE MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTSTGKELV 2bj8-a1-m1-cA_2bj8-a1-m2-cB NIKR IN CLOSED CONFORMATION AND NICKEL BOUND TO HIGH and LOW-AFFINITY SITES O58316 O58316 2.1 X-RAY DIFFRACTION 49 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 136 138 2bj7-a1-m1-cA_2bj7-a1-m2-cB 2bj7-a1-m2-cA_2bj7-a1-m1-cB 2bj8-a1-m2-cA_2bj8-a1-m1-cB 2bj9-a1-m1-cA_2bj9-a1-m2-cB 2bj9-a1-m2-cA_2bj9-a1-m1-cB MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTSTGKE MELIRFSISIPSKLLEKFDQIIEEIGYENRSEAIRDLIRDFIIRHEWEVGNEEVAGTITIVYNHDEGDVVKALLDLQHEYLDEIISSLHVHMDEHNCLEVIVVKGEAKKIKMIADKLLSLKGVKHGKLVMTSTGKELV 2bjf-a1-m1-cA_2bjf-a1-m4-cA Crystal Structure of Conjugated Bile Acid Hydrolase from Clostridium perfringens in Complex with Reaction Products Taurine and Deoxycholate P54965 P54965 1.67 X-RAY DIFFRACTION 267 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 328 328 2bjf-a1-m2-cA_2bjf-a1-m3-cA 2bjg-a1-m1-cA_2bjg-a1-m1-cB 2bjg-a1-m2-cA_2bjg-a1-m2-cB 2rf8-a1-m1-cA_2rf8-a1-m1-cB 2rf8-a1-m2-cA_2rf8-a1-m2-cB 2rg2-a1-m1-cA_2rg2-a1-m2-cA 2rg2-a1-m3-cA_2rg2-a1-m4-cA 2rlc-a1-m1-cA_2rlc-a1-m2-cA 2rlc-a1-m3-cA_2rlc-a1-m4-cA CTGLALETKDGLHLFGRNMDIEYSFNQSIIFIPRNFKCVNKSNKKELTTKYAVLGMGTIFDDYPTFADGMNEKGLGCAGLNFPVYVSYSKEDIEGKTNIPVYNFLLWVLANFSSVEEVKEALKNANIVDIPISENIPNTTLHWMISDITGKSIVVEQTKEKLNVFDNNIGVLTNSPTFDWHVANLNQYVGLRYNQVPEFKLGDQSLTALGQGTGLVGLPGDFTPASRFIRVAFLRDAMIKNDKDSIDLIEFFHILNNVAMVRGSTRTVEEKSDLTQYTSCMCLEKGIYYYNTYENNQINAIDMNKENLDGNEIKTYKYNKTLSINHVN CTGLALETKDGLHLFGRNMDIEYSFNQSIIFIPRNFKCVNKSNKKELTTKYAVLGMGTIFDDYPTFADGMNEKGLGCAGLNFPVYVSYSKEDIEGKTNIPVYNFLLWVLANFSSVEEVKEALKNANIVDIPISENIPNTTLHWMISDITGKSIVVEQTKEKLNVFDNNIGVLTNSPTFDWHVANLNQYVGLRYNQVPEFKLGDQSLTALGQGTGLVGLPGDFTPASRFIRVAFLRDAMIKNDKDSIDLIEFFHILNNVAMVRGSTRTVEEKSDLTQYTSCMCLEKGIYYYNTYENNQINAIDMNKENLDGNEIKTYKYNKTLSINHVN 2bjf-a1-m3-cA_2bjf-a1-m4-cA Crystal Structure of Conjugated Bile Acid Hydrolase from Clostridium perfringens in Complex with Reaction Products Taurine and Deoxycholate P54965 P54965 1.67 X-RAY DIFFRACTION 85 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 328 328 2bjf-a1-m1-cA_2bjf-a1-m2-cA 2bjg-a1-m1-cA_2bjg-a1-m2-cB 2bjg-a1-m1-cB_2bjg-a1-m2-cA 2rf8-a1-m1-cA_2rf8-a1-m2-cB 2rf8-a1-m2-cA_2rf8-a1-m1-cB 2rf8-a2-m1-cA_2rf8-a2-m2-cB 2rf8-a2-m3-cA_2rf8-a2-m4-cB 2rg2-a1-m1-cA_2rg2-a1-m3-cA 2rg2-a1-m2-cA_2rg2-a1-m4-cA 2rlc-a1-m1-cA_2rlc-a1-m3-cA 2rlc-a1-m2-cA_2rlc-a1-m4-cA CTGLALETKDGLHLFGRNMDIEYSFNQSIIFIPRNFKCVNKSNKKELTTKYAVLGMGTIFDDYPTFADGMNEKGLGCAGLNFPVYVSYSKEDIEGKTNIPVYNFLLWVLANFSSVEEVKEALKNANIVDIPISENIPNTTLHWMISDITGKSIVVEQTKEKLNVFDNNIGVLTNSPTFDWHVANLNQYVGLRYNQVPEFKLGDQSLTALGQGTGLVGLPGDFTPASRFIRVAFLRDAMIKNDKDSIDLIEFFHILNNVAMVRGSTRTVEEKSDLTQYTSCMCLEKGIYYYNTYENNQINAIDMNKENLDGNEIKTYKYNKTLSINHVN CTGLALETKDGLHLFGRNMDIEYSFNQSIIFIPRNFKCVNKSNKKELTTKYAVLGMGTIFDDYPTFADGMNEKGLGCAGLNFPVYVSYSKEDIEGKTNIPVYNFLLWVLANFSSVEEVKEALKNANIVDIPISENIPNTTLHWMISDITGKSIVVEQTKEKLNVFDNNIGVLTNSPTFDWHVANLNQYVGLRYNQVPEFKLGDQSLTALGQGTGLVGLPGDFTPASRFIRVAFLRDAMIKNDKDSIDLIEFFHILNNVAMVRGSTRTVEEKSDLTQYTSCMCLEKGIYYYNTYENNQINAIDMNKENLDGNEIKTYKYNKTLSINHVN 2bji-a1-m1-cA_2bji-a1-m1-cB High Resolution Structure of myo-Inositol Monophosphatase, The Target of Lithium Therapy P20456 P20456 1.24 X-RAY DIFFRACTION 94 1.0 9913 (Bos taurus) 9913 (Bos taurus) 274 274 DPWQECMDYAVTLAGQAGEVVREALKNEMNIMVKSSPADLVTATDQKVEKMLITSIKEKYPSHSFIGEESVAAGEKSILTDNPTWIIDPIDGTTNFVHGFPFVAVSIGFVVNKKMEFGIVYSCLEDKMYTGRKGKGAFCNGQKLQVSHQEDITKSLLVTELGSSRTPETVRIILSNIERLLCLPIHGIRGVGTAALNMCLVAAGAADAYYEMGIHCWDVAGAGIIVTEAGGVLLDVTGGPFDLMSRRVIASSNKTLAERIAKEIQIIPLQRDDE DPWQECMDYAVTLAGQAGEVVREALKNEMNIMVKSSPADLVTATDQKVEKMLITSIKEKYPSHSFIGEESVAAGEKSILTDNPTWIIDPIDGTTNFVHGFPFVAVSIGFVVNKKMEFGIVYSCLEDKMYTGRKGKGAFCNGQKLQVSHQEDITKSLLVTELGSSRTPETVRIILSNIERLLCLPIHGIRGVGTAALNMCLVAAGAADAYYEMGIHCWDVAGAGIIVTEAGGVLLDVTGGPFDLMSRRVIASSNKTLAERIAKEIQIIPLQRDDE 2bjk-a1-m2-cA_2bjk-a1-m3-cB Crystal Analysis of 1-Pyrroline-5-Carboxylate Dehydrogenase from Thermus with bound NAD and citrate. Q5SI02 Q5SI02 1.4 X-RAY DIFFRACTION 61 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 516 516 1uzb-a1-m1-cA_1uzb-a1-m2-cB 1uzb-a1-m1-cB_1uzb-a1-m3-cA 1uzb-a1-m2-cA_1uzb-a1-m3-cB 2bhp-a1-m1-cA_2bhp-a1-m2-cB 2bhp-a1-m1-cB_2bhp-a1-m3-cA 2bhp-a1-m2-cA_2bhp-a1-m3-cB 2bhq-a1-m1-cA_2bhq-a1-m2-cB 2bhq-a1-m1-cB_2bhq-a1-m3-cA 2bhq-a1-m2-cA_2bhq-a1-m3-cB 2bja-a1-m1-cA_2bja-a1-m2-cB 2bja-a1-m1-cB_2bja-a1-m3-cA 2bja-a1-m2-cA_2bja-a1-m3-cB 2bjk-a1-m1-cA_2bjk-a1-m2-cB 2bjk-a1-m1-cB_2bjk-a1-m3-cA 2ehq-a2-m1-cA_2ehq-a2-m2-cB 2ehq-a2-m1-cB_2ehq-a2-m3-cA 2ehq-a2-m2-cA_2ehq-a2-m3-cB 2ehu-a2-m1-cA_2ehu-a2-m2-cB 2ehu-a2-m1-cB_2ehu-a2-m3-cA 2ehu-a2-m2-cA_2ehu-a2-m3-cB 2ehu-a3-m2-cA_2ehu-a3-m3-cB 2eii-a2-m1-cA_2eii-a2-m2-cB 2eii-a2-m1-cB_2eii-a2-m3-cA 2eii-a2-m2-cA_2eii-a2-m3-cB 2eit-a2-m1-cA_2eit-a2-m2-cB 2eit-a2-m1-cB_2eit-a2-m3-cA 2eit-a2-m2-cA_2eit-a2-m3-cB 2eiw-a2-m1-cA_2eiw-a2-m2-cB 2eiw-a2-m1-cB_2eiw-a2-m3-cA 2eiw-a2-m2-cA_2eiw-a2-m3-cB 2ej6-a2-m1-cA_2ej6-a2-m2-cB 2ej6-a2-m1-cB_2ej6-a2-m3-cA 2ej6-a2-m2-cA_2ej6-a2-m3-cB 2ejd-a2-m1-cA_2ejd-a2-m2-cB 2ejd-a2-m1-cB_2ejd-a2-m3-cA 2ejd-a2-m2-cA_2ejd-a2-m3-cB 2ejl-a2-m1-cA_2ejl-a2-m2-cB 2ejl-a2-m1-cB_2ejl-a2-m3-cA 2ejl-a2-m2-cA_2ejl-a2-m3-cB 2iy6-a1-m1-cA_2iy6-a1-m2-cB 2iy6-a1-m1-cB_2iy6-a1-m3-cA 2iy6-a1-m2-cA_2iy6-a1-m3-cB 2j40-a1-m1-cA_2j40-a1-m2-cB 2j40-a1-m1-cB_2j40-a1-m3-cA 2j40-a1-m2-cA_2j40-a1-m3-cB 2j5n-a1-m1-cA_2j5n-a1-m2-cB 2j5n-a1-m1-cB_2j5n-a1-m3-cA 2j5n-a1-m2-cA_2j5n-a1-m3-cB 4k57-a2-m1-cA_4k57-a2-m2-cB 4k57-a2-m1-cB_4k57-a2-m3-cA 4k57-a2-m2-cA_4k57-a2-m3-cB MTVEPFRNEPIETFQTEEARRAMREALRRVREEFGRHYPLYIGGEWVDTKERMVSLNPSAPSEVVGTTAKAGKAEAEAALEAAWKAFKTWKDWPQEDRSRLLLKAAALMRRRKRELEATLVYEVGKNWVEASADVAEAIDFIEYYARAALRYRYPAVEVVPYPGEDNESFYVPLGAGVVIAPWNFPVAIFTGMIVGPVAVGNTVIAKPAEDAVVVGAKVFEIFHEAGFPPGVVNFLPGVGEEVGAYLVEHPRIRFINFTGSLEVGLKIYEAAGRLAPGQTWFKRAYVETGGKDAIIVDETADFDLAAEGVVVSAYGFQGQKCSAASRLILTQGAYEPVLERVLKRAERLSVGPAEENPDLGPVVSAEQERKVLSYIEIGKNEGQLVLGGKRLEGEGYFIAPTVFTEVPPKARIAQEEIFGPVLSVIRVKDFAEALEVANDTPYGLTGGVYSRKREHLEWARREFHVGNLYFNRKITGALVGVQPFGGFKLSGTNAKTGALDYLRLFLEMKAVAERF MTVEPFRNEPIETFQTEEARRAMREALRRVREEFGRHYPLYIGGEWVDTKERMVSLNPSAPSEVVGTTAKAGKAEAEAALEAAWKAFKTWKDWPQEDRSRLLLKAAALMRRRKRELEATLVYEVGKNWVEASADVAEAIDFIEYYARAALRYRYPAVEVVPYPGEDNESFYVPLGAGVVIAPWNFPVAIFTGMIVGPVAVGNTVIAKPAEDAVVVGAKVFEIFHEAGFPPGVVNFLPGVGEEVGAYLVEHPRIRFINFTGSLEVGLKIYEAAGRLAPGQTWFKRAYVETGGKDAIIVDETADFDLAAEGVVVSAYGFQGQKCSAASRLILTQGAYEPVLERVLKRAERLSVGPAEENPDLGPVVSAEQERKVLSYIEIGKNEGQLVLGGKRLEGEGYFIAPTVFTEVPPKARIAQEEIFGPVLSVIRVKDFAEALEVANDTPYGLTGGVYSRKREHLEWARREFHVGNLYFNRKITGALVGVQPFGGFKLSGTNAKTGALDYLRLFLEMKAVAERF 2bjk-a1-m2-cB_2bjk-a1-m3-cB Crystal Analysis of 1-Pyrroline-5-Carboxylate Dehydrogenase from Thermus with bound NAD and citrate. Q5SI02 Q5SI02 1.4 X-RAY DIFFRACTION 14 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 516 516 1uzb-a1-m1-cA_1uzb-a1-m2-cA 1uzb-a1-m1-cA_1uzb-a1-m3-cA 1uzb-a1-m1-cB_1uzb-a1-m2-cB 1uzb-a1-m1-cB_1uzb-a1-m3-cB 1uzb-a1-m2-cA_1uzb-a1-m3-cA 1uzb-a1-m2-cB_1uzb-a1-m3-cB 2bhp-a1-m1-cA_2bhp-a1-m2-cA 2bhp-a1-m1-cA_2bhp-a1-m3-cA 2bhp-a1-m1-cB_2bhp-a1-m2-cB 2bhp-a1-m1-cB_2bhp-a1-m3-cB 2bhp-a1-m2-cA_2bhp-a1-m3-cA 2bhp-a1-m2-cB_2bhp-a1-m3-cB 2bhq-a1-m1-cA_2bhq-a1-m2-cA 2bhq-a1-m1-cA_2bhq-a1-m3-cA 2bhq-a1-m1-cB_2bhq-a1-m2-cB 2bhq-a1-m1-cB_2bhq-a1-m3-cB 2bhq-a1-m2-cA_2bhq-a1-m3-cA 2bhq-a1-m2-cB_2bhq-a1-m3-cB 2bja-a1-m1-cA_2bja-a1-m2-cA 2bja-a1-m1-cA_2bja-a1-m3-cA 2bja-a1-m1-cB_2bja-a1-m2-cB 2bja-a1-m1-cB_2bja-a1-m3-cB 2bja-a1-m2-cA_2bja-a1-m3-cA 2bja-a1-m2-cB_2bja-a1-m3-cB 2bjk-a1-m1-cA_2bjk-a1-m2-cA 2bjk-a1-m1-cA_2bjk-a1-m3-cA 2bjk-a1-m1-cB_2bjk-a1-m2-cB 2bjk-a1-m1-cB_2bjk-a1-m3-cB 2bjk-a1-m2-cA_2bjk-a1-m3-cA 2ehq-a2-m1-cA_2ehq-a2-m2-cA 2ehq-a2-m1-cA_2ehq-a2-m3-cA 2ehq-a2-m1-cB_2ehq-a2-m2-cB 2ehq-a2-m1-cB_2ehq-a2-m3-cB 2ehq-a2-m2-cA_2ehq-a2-m3-cA 2ehq-a2-m2-cB_2ehq-a2-m3-cB 2ehu-a2-m1-cA_2ehu-a2-m2-cA 2ehu-a2-m1-cA_2ehu-a2-m3-cA 2ehu-a2-m1-cB_2ehu-a2-m2-cB 2ehu-a2-m1-cB_2ehu-a2-m3-cB 2ehu-a2-m2-cA_2ehu-a2-m3-cA 2ehu-a2-m2-cB_2ehu-a2-m3-cB 2ehu-a3-m2-cA_2ehu-a3-m3-cA 2ehu-a3-m2-cB_2ehu-a3-m3-cB 2eii-a2-m1-cA_2eii-a2-m2-cA 2eii-a2-m1-cA_2eii-a2-m3-cA 2eii-a2-m1-cB_2eii-a2-m2-cB 2eii-a2-m1-cB_2eii-a2-m3-cB 2eii-a2-m2-cA_2eii-a2-m3-cA 2eii-a2-m2-cB_2eii-a2-m3-cB 2eit-a2-m1-cA_2eit-a2-m2-cA 2eit-a2-m1-cA_2eit-a2-m3-cA 2eit-a2-m1-cB_2eit-a2-m2-cB 2eit-a2-m1-cB_2eit-a2-m3-cB 2eit-a2-m2-cA_2eit-a2-m3-cA 2eit-a2-m2-cB_2eit-a2-m3-cB 2eiw-a2-m1-cA_2eiw-a2-m2-cA 2eiw-a2-m1-cA_2eiw-a2-m3-cA 2eiw-a2-m1-cB_2eiw-a2-m2-cB 2eiw-a2-m1-cB_2eiw-a2-m3-cB 2eiw-a2-m2-cA_2eiw-a2-m3-cA 2eiw-a2-m2-cB_2eiw-a2-m3-cB 2ej6-a2-m1-cA_2ej6-a2-m2-cA 2ej6-a2-m1-cA_2ej6-a2-m3-cA 2ej6-a2-m1-cB_2ej6-a2-m2-cB 2ej6-a2-m1-cB_2ej6-a2-m3-cB 2ej6-a2-m2-cA_2ej6-a2-m3-cA 2ej6-a2-m2-cB_2ej6-a2-m3-cB 2ejd-a2-m1-cA_2ejd-a2-m2-cA 2ejd-a2-m1-cA_2ejd-a2-m3-cA 2ejd-a2-m1-cB_2ejd-a2-m2-cB 2ejd-a2-m1-cB_2ejd-a2-m3-cB 2ejd-a2-m2-cA_2ejd-a2-m3-cA 2ejd-a2-m2-cB_2ejd-a2-m3-cB 2ejl-a2-m1-cA_2ejl-a2-m2-cA 2ejl-a2-m1-cA_2ejl-a2-m3-cA 2ejl-a2-m1-cB_2ejl-a2-m2-cB 2ejl-a2-m1-cB_2ejl-a2-m3-cB 2ejl-a2-m2-cA_2ejl-a2-m3-cA 2ejl-a2-m2-cB_2ejl-a2-m3-cB 2iy6-a1-m1-cA_2iy6-a1-m2-cA 2iy6-a1-m1-cA_2iy6-a1-m3-cA 2iy6-a1-m1-cB_2iy6-a1-m2-cB 2iy6-a1-m1-cB_2iy6-a1-m3-cB 2iy6-a1-m2-cA_2iy6-a1-m3-cA 2iy6-a1-m2-cB_2iy6-a1-m3-cB 2j40-a1-m1-cA_2j40-a1-m2-cA 2j40-a1-m1-cA_2j40-a1-m3-cA 2j40-a1-m1-cB_2j40-a1-m2-cB 2j40-a1-m1-cB_2j40-a1-m3-cB 2j40-a1-m2-cA_2j40-a1-m3-cA 2j40-a1-m2-cB_2j40-a1-m3-cB 2j5n-a1-m1-cA_2j5n-a1-m2-cA 2j5n-a1-m1-cA_2j5n-a1-m3-cA 2j5n-a1-m1-cB_2j5n-a1-m2-cB 2j5n-a1-m1-cB_2j5n-a1-m3-cB 2j5n-a1-m2-cA_2j5n-a1-m3-cA 2j5n-a1-m2-cB_2j5n-a1-m3-cB 4k57-a2-m1-cA_4k57-a2-m2-cA 4k57-a2-m1-cA_4k57-a2-m3-cA 4k57-a2-m1-cB_4k57-a2-m2-cB 4k57-a2-m1-cB_4k57-a2-m3-cB 4k57-a2-m2-cA_4k57-a2-m3-cA 4k57-a2-m2-cB_4k57-a2-m3-cB MTVEPFRNEPIETFQTEEARRAMREALRRVREEFGRHYPLYIGGEWVDTKERMVSLNPSAPSEVVGTTAKAGKAEAEAALEAAWKAFKTWKDWPQEDRSRLLLKAAALMRRRKRELEATLVYEVGKNWVEASADVAEAIDFIEYYARAALRYRYPAVEVVPYPGEDNESFYVPLGAGVVIAPWNFPVAIFTGMIVGPVAVGNTVIAKPAEDAVVVGAKVFEIFHEAGFPPGVVNFLPGVGEEVGAYLVEHPRIRFINFTGSLEVGLKIYEAAGRLAPGQTWFKRAYVETGGKDAIIVDETADFDLAAEGVVVSAYGFQGQKCSAASRLILTQGAYEPVLERVLKRAERLSVGPAEENPDLGPVVSAEQERKVLSYIEIGKNEGQLVLGGKRLEGEGYFIAPTVFTEVPPKARIAQEEIFGPVLSVIRVKDFAEALEVANDTPYGLTGGVYSRKREHLEWARREFHVGNLYFNRKITGALVGVQPFGGFKLSGTNAKTGALDYLRLFLEMKAVAERF MTVEPFRNEPIETFQTEEARRAMREALRRVREEFGRHYPLYIGGEWVDTKERMVSLNPSAPSEVVGTTAKAGKAEAEAALEAAWKAFKTWKDWPQEDRSRLLLKAAALMRRRKRELEATLVYEVGKNWVEASADVAEAIDFIEYYARAALRYRYPAVEVVPYPGEDNESFYVPLGAGVVIAPWNFPVAIFTGMIVGPVAVGNTVIAKPAEDAVVVGAKVFEIFHEAGFPPGVVNFLPGVGEEVGAYLVEHPRIRFINFTGSLEVGLKIYEAAGRLAPGQTWFKRAYVETGGKDAIIVDETADFDLAAEGVVVSAYGFQGQKCSAASRLILTQGAYEPVLERVLKRAERLSVGPAEENPDLGPVVSAEQERKVLSYIEIGKNEGQLVLGGKRLEGEGYFIAPTVFTEVPPKARIAQEEIFGPVLSVIRVKDFAEALEVANDTPYGLTGGVYSRKREHLEWARREFHVGNLYFNRKITGALVGVQPFGGFKLSGTNAKTGALDYLRLFLEMKAVAERF 2bjk-a1-m3-cA_2bjk-a1-m3-cB Crystal Analysis of 1-Pyrroline-5-Carboxylate Dehydrogenase from Thermus with bound NAD and citrate. Q5SI02 Q5SI02 1.4 X-RAY DIFFRACTION 188 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 516 516 1uzb-a1-m1-cA_1uzb-a1-m1-cB 1uzb-a1-m2-cA_1uzb-a1-m2-cB 1uzb-a1-m3-cA_1uzb-a1-m3-cB 2bhp-a1-m1-cA_2bhp-a1-m1-cB 2bhp-a1-m2-cA_2bhp-a1-m2-cB 2bhp-a1-m3-cA_2bhp-a1-m3-cB 2bhq-a1-m1-cA_2bhq-a1-m1-cB 2bhq-a1-m2-cA_2bhq-a1-m2-cB 2bhq-a1-m3-cA_2bhq-a1-m3-cB 2bja-a1-m1-cA_2bja-a1-m1-cB 2bja-a1-m2-cA_2bja-a1-m2-cB 2bja-a1-m3-cA_2bja-a1-m3-cB 2bjk-a1-m1-cA_2bjk-a1-m1-cB 2bjk-a1-m2-cA_2bjk-a1-m2-cB 2ehq-a1-m1-cA_2ehq-a1-m1-cB 2ehq-a2-m1-cA_2ehq-a2-m1-cB 2ehq-a2-m2-cA_2ehq-a2-m2-cB 2ehq-a2-m3-cA_2ehq-a2-m3-cB 2ehu-a1-m1-cA_2ehu-a1-m1-cB 2ehu-a2-m1-cA_2ehu-a2-m1-cB 2ehu-a2-m2-cA_2ehu-a2-m2-cB 2ehu-a2-m3-cA_2ehu-a2-m3-cB 2ehu-a3-m2-cA_2ehu-a3-m2-cB 2ehu-a3-m3-cA_2ehu-a3-m3-cB 2eii-a1-m1-cA_2eii-a1-m1-cB 2eii-a2-m1-cA_2eii-a2-m1-cB 2eii-a2-m2-cA_2eii-a2-m2-cB 2eii-a2-m3-cA_2eii-a2-m3-cB 2eit-a1-m1-cA_2eit-a1-m1-cB 2eit-a2-m1-cA_2eit-a2-m1-cB 2eit-a2-m2-cA_2eit-a2-m2-cB 2eit-a2-m3-cA_2eit-a2-m3-cB 2eiw-a1-m1-cA_2eiw-a1-m1-cB 2eiw-a2-m1-cA_2eiw-a2-m1-cB 2eiw-a2-m2-cA_2eiw-a2-m2-cB 2eiw-a2-m3-cA_2eiw-a2-m3-cB 2ej6-a1-m1-cA_2ej6-a1-m1-cB 2ej6-a2-m1-cA_2ej6-a2-m1-cB 2ej6-a2-m2-cA_2ej6-a2-m2-cB 2ej6-a2-m3-cA_2ej6-a2-m3-cB 2ejd-a1-m1-cA_2ejd-a1-m1-cB 2ejd-a2-m1-cA_2ejd-a2-m1-cB 2ejd-a2-m2-cA_2ejd-a2-m2-cB 2ejd-a2-m3-cA_2ejd-a2-m3-cB 2ejl-a1-m1-cA_2ejl-a1-m1-cB 2ejl-a2-m1-cA_2ejl-a2-m1-cB 2ejl-a2-m2-cA_2ejl-a2-m2-cB 2ejl-a2-m3-cA_2ejl-a2-m3-cB 2iy6-a1-m1-cA_2iy6-a1-m1-cB 2iy6-a1-m2-cA_2iy6-a1-m2-cB 2iy6-a1-m3-cA_2iy6-a1-m3-cB 2j40-a1-m1-cA_2j40-a1-m1-cB 2j40-a1-m2-cA_2j40-a1-m2-cB 2j40-a1-m3-cA_2j40-a1-m3-cB 2j5n-a1-m1-cA_2j5n-a1-m1-cB 2j5n-a1-m2-cA_2j5n-a1-m2-cB 2j5n-a1-m3-cA_2j5n-a1-m3-cB 4k57-a1-m1-cA_4k57-a1-m1-cB 4k57-a2-m1-cA_4k57-a2-m1-cB 4k57-a2-m2-cA_4k57-a2-m2-cB 4k57-a2-m3-cA_4k57-a2-m3-cB MTVEPFRNEPIETFQTEEARRAMREALRRVREEFGRHYPLYIGGEWVDTKERMVSLNPSAPSEVVGTTAKAGKAEAEAALEAAWKAFKTWKDWPQEDRSRLLLKAAALMRRRKRELEATLVYEVGKNWVEASADVAEAIDFIEYYARAALRYRYPAVEVVPYPGEDNESFYVPLGAGVVIAPWNFPVAIFTGMIVGPVAVGNTVIAKPAEDAVVVGAKVFEIFHEAGFPPGVVNFLPGVGEEVGAYLVEHPRIRFINFTGSLEVGLKIYEAAGRLAPGQTWFKRAYVETGGKDAIIVDETADFDLAAEGVVVSAYGFQGQKCSAASRLILTQGAYEPVLERVLKRAERLSVGPAEENPDLGPVVSAEQERKVLSYIEIGKNEGQLVLGGKRLEGEGYFIAPTVFTEVPPKARIAQEEIFGPVLSVIRVKDFAEALEVANDTPYGLTGGVYSRKREHLEWARREFHVGNLYFNRKITGALVGVQPFGGFKLSGTNAKTGALDYLRLFLEMKAVAERF MTVEPFRNEPIETFQTEEARRAMREALRRVREEFGRHYPLYIGGEWVDTKERMVSLNPSAPSEVVGTTAKAGKAEAEAALEAAWKAFKTWKDWPQEDRSRLLLKAAALMRRRKRELEATLVYEVGKNWVEASADVAEAIDFIEYYARAALRYRYPAVEVVPYPGEDNESFYVPLGAGVVIAPWNFPVAIFTGMIVGPVAVGNTVIAKPAEDAVVVGAKVFEIFHEAGFPPGVVNFLPGVGEEVGAYLVEHPRIRFINFTGSLEVGLKIYEAAGRLAPGQTWFKRAYVETGGKDAIIVDETADFDLAAEGVVVSAYGFQGQKCSAASRLILTQGAYEPVLERVLKRAERLSVGPAEENPDLGPVVSAEQERKVLSYIEIGKNEGQLVLGGKRLEGEGYFIAPTVFTEVPPKARIAQEEIFGPVLSVIRVKDFAEALEVANDTPYGLTGGVYSRKREHLEWARREFHVGNLYFNRKITGALVGVQPFGGFKLSGTNAKTGALDYLRLFLEMKAVAERF 2bjo-a1-m1-cA_2bjo-a1-m1-cB Crystal Structure of the Organic Hydroperoxide Resistance Protein OhrB of Bacillus subtilis P80242 P80242 2.1 X-RAY DIFFRACTION 259 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 135 135 ALFTAKVTARGGRAGHITSDDGVLDFDIVMPNAAAAGQTGTNPEQLFAAGYAACFGGALEHVAKEQNIEIDSEIEGQVSLMKDESDGGFKIGVTLVVNTKDLDREKAQELVNAAHEFCPYSKATRGNVDVKLELK ALFTAKVTARGGRAGHITSDDGVLDFDIVMPNAAAAGQTGTNPEQLFAAGYAACFGGALEHVAKEQNIEIDSEIEGQVSLMKDESDGGFKIGVTLVVNTKDLDREKAQELVNAAHEFCPYSKATRGNVDVKLELK 2bk1-a1-m8-cA_2bk1-a1-m9-cA The pore structure of pneumolysin, obtained by fitting the alpha carbon trace of perfringolysin O into a cryo-EM map P0C2E9 P0C2E9 29.0 ELECTRON MICROSCOPY 171 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 444 444 2bk1-a1-m10-cA_2bk1-a1-m11-cA 2bk1-a1-m10-cA_2bk1-a1-m9-cA 2bk1-a1-m11-cA_2bk1-a1-m12-cA 2bk1-a1-m12-cA_2bk1-a1-m13-cA 2bk1-a1-m13-cA_2bk1-a1-m14-cA 2bk1-a1-m14-cA_2bk1-a1-m15-cA 2bk1-a1-m15-cA_2bk1-a1-m16-cA 2bk1-a1-m16-cA_2bk1-a1-m17-cA 2bk1-a1-m17-cA_2bk1-a1-m18-cA 2bk1-a1-m18-cA_2bk1-a1-m19-cA 2bk1-a1-m19-cA_2bk1-a1-m20-cA 2bk1-a1-m1-cA_2bk1-a1-m2-cA 2bk1-a1-m1-cA_2bk1-a1-m38-cA 2bk1-a1-m20-cA_2bk1-a1-m21-cA 2bk1-a1-m21-cA_2bk1-a1-m22-cA 2bk1-a1-m22-cA_2bk1-a1-m23-cA 2bk1-a1-m23-cA_2bk1-a1-m24-cA 2bk1-a1-m24-cA_2bk1-a1-m25-cA 2bk1-a1-m25-cA_2bk1-a1-m26-cA 2bk1-a1-m26-cA_2bk1-a1-m27-cA 2bk1-a1-m27-cA_2bk1-a1-m28-cA 2bk1-a1-m28-cA_2bk1-a1-m29-cA 2bk1-a1-m29-cA_2bk1-a1-m30-cA 2bk1-a1-m2-cA_2bk1-a1-m3-cA 2bk1-a1-m30-cA_2bk1-a1-m31-cA 2bk1-a1-m31-cA_2bk1-a1-m32-cA 2bk1-a1-m32-cA_2bk1-a1-m33-cA 2bk1-a1-m33-cA_2bk1-a1-m34-cA 2bk1-a1-m34-cA_2bk1-a1-m35-cA 2bk1-a1-m35-cA_2bk1-a1-m36-cA 2bk1-a1-m36-cA_2bk1-a1-m37-cA 2bk1-a1-m37-cA_2bk1-a1-m38-cA 2bk1-a1-m3-cA_2bk1-a1-m4-cA 2bk1-a1-m4-cA_2bk1-a1-m5-cA 2bk1-a1-m5-cA_2bk1-a1-m6-cA 2bk1-a1-m6-cA_2bk1-a1-m7-cA 2bk1-a1-m7-cA_2bk1-a1-m8-cA LASNGDKIESFVPKEGKKTGNKFIVVERQKRSLTTSPVDISIIDSVNDRTYPGALQLADKAFVENRPTILMVKRKPININIDLPGLKGENSIKVDDPTYGKVSGAIDELVSKWNEKYSSTARTQYSESMVYSKSQISSALNVNAKVLENSLGVDFNAVANNEKKVMILAYKQIFYTVSADLPKNPSDLFDDSVTFNDLKQKGVSNEAPPLMVSNVAYGRTIYVKLETTSSSKDVQAAFKALIKNTDIKNSQQYKDIYENSSFTAVVLGGDAQEHNKVVTKDFDEIRKVIKDNATFSTKNPAYPISYTSVFLKDNSVAAVHNKTDYIETTSTEYSKGKINLDHSGAYVAQFEVAWDEVSYDKEGNEVLTHKTWDGNYQDKTAHYSTVIPLEANARNIRIKARECTGLAWEWWRDVISEYDVPLTNNINVSIWGTTLYPGSSITYN LASNGDKIESFVPKEGKKTGNKFIVVERQKRSLTTSPVDISIIDSVNDRTYPGALQLADKAFVENRPTILMVKRKPININIDLPGLKGENSIKVDDPTYGKVSGAIDELVSKWNEKYSSTARTQYSESMVYSKSQISSALNVNAKVLENSLGVDFNAVANNEKKVMILAYKQIFYTVSADLPKNPSDLFDDSVTFNDLKQKGVSNEAPPLMVSNVAYGRTIYVKLETTSSSKDVQAAFKALIKNTDIKNSQQYKDIYENSSFTAVVLGGDAQEHNKVVTKDFDEIRKVIKDNATFSTKNPAYPISYTSVFLKDNSVAAVHNKTDYIETTSTEYSKGKINLDHSGAYVAQFEVAWDEVSYDKEGNEVLTHKTWDGNYQDKTAHYSTVIPLEANARNIRIKARECTGLAWEWWRDVISEYDVPLTNNINVSIWGTTLYPGSSITYN 2bk2-a1-m8-cA_2bk2-a1-m9-cA The prepore structure of pneumolysin, obtained by fitting the alpha carbon trace of perfringolysin O into a cryo-EM map P0C2E9 P0C2E9 28.0 ELECTRON MICROSCOPY 136 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 456 456 2bk2-a1-m10-cA_2bk2-a1-m11-cA 2bk2-a1-m10-cA_2bk2-a1-m9-cA 2bk2-a1-m11-cA_2bk2-a1-m12-cA 2bk2-a1-m12-cA_2bk2-a1-m13-cA 2bk2-a1-m13-cA_2bk2-a1-m14-cA 2bk2-a1-m14-cA_2bk2-a1-m15-cA 2bk2-a1-m15-cA_2bk2-a1-m16-cA 2bk2-a1-m16-cA_2bk2-a1-m17-cA 2bk2-a1-m17-cA_2bk2-a1-m18-cA 2bk2-a1-m18-cA_2bk2-a1-m19-cA 2bk2-a1-m19-cA_2bk2-a1-m20-cA 2bk2-a1-m1-cA_2bk2-a1-m2-cA 2bk2-a1-m1-cA_2bk2-a1-m31-cA 2bk2-a1-m20-cA_2bk2-a1-m21-cA 2bk2-a1-m21-cA_2bk2-a1-m22-cA 2bk2-a1-m22-cA_2bk2-a1-m23-cA 2bk2-a1-m23-cA_2bk2-a1-m24-cA 2bk2-a1-m24-cA_2bk2-a1-m25-cA 2bk2-a1-m25-cA_2bk2-a1-m26-cA 2bk2-a1-m26-cA_2bk2-a1-m27-cA 2bk2-a1-m27-cA_2bk2-a1-m28-cA 2bk2-a1-m28-cA_2bk2-a1-m29-cA 2bk2-a1-m29-cA_2bk2-a1-m30-cA 2bk2-a1-m2-cA_2bk2-a1-m3-cA 2bk2-a1-m30-cA_2bk2-a1-m31-cA 2bk2-a1-m3-cA_2bk2-a1-m4-cA 2bk2-a1-m4-cA_2bk2-a1-m5-cA 2bk2-a1-m5-cA_2bk2-a1-m6-cA 2bk2-a1-m6-cA_2bk2-a1-m7-cA 2bk2-a1-m7-cA_2bk2-a1-m8-cA QSIDSGISSLSYNRNEVLASNGDKIESFVPKEGKKAGNKFIVVERQKRSLTTSPVDISIIDSVNDRTYPGALQLADKAFVENRPTILMVKRKPININISIKVDDPTYGKVSGAIDELVSKWNEKYSSTHTLPARTQYSESMVYSKSQISSALNVNAKVLENSLGVDFNAVANNEKKVMILAYKQIFYTVSADLPKNPSDLFDDSVTFNDLKQKGVSNEAPPLMVSNVAYGRTIYVKLETTSSSKDVQAAFKALIKNTDIKNSQQYKDIYENSSFTAVVLGGDAQEHNKVVTKDFDEIRKVIKDNATFSTKNPAYPISYTSVFLKDNSVAAVHNKTDYIETTSTEYSKGKINLDHSGAYVAQFEVAWDEVSYDKEGNEVLTHKTWDGNYQDKTAHYSTVIPLEANARNIRIKARECTGLAWEWWRDVISEYDVPLTNNINVSIWGTTLYPGSSITYN QSIDSGISSLSYNRNEVLASNGDKIESFVPKEGKKAGNKFIVVERQKRSLTTSPVDISIIDSVNDRTYPGALQLADKAFVENRPTILMVKRKPININISIKVDDPTYGKVSGAIDELVSKWNEKYSSTHTLPARTQYSESMVYSKSQISSALNVNAKVLENSLGVDFNAVANNEKKVMILAYKQIFYTVSADLPKNPSDLFDDSVTFNDLKQKGVSNEAPPLMVSNVAYGRTIYVKLETTSSSKDVQAAFKALIKNTDIKNSQQYKDIYENSSFTAVVLGGDAQEHNKVVTKDFDEIRKVIKDNATFSTKNPAYPISYTSVFLKDNSVAAVHNKTDYIETTSTEYSKGKINLDHSGAYVAQFEVAWDEVSYDKEGNEVLTHKTWDGNYQDKTAHYSTVIPLEANARNIRIKARECTGLAWEWWRDVISEYDVPLTNNINVSIWGTTLYPGSSITYN 2bka-a1-m1-cA_2bka-a1-m2-cA CC3(TIP30)Crystal Structure Q9BUP3 Q9BUP3 1.7 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 231 EALSKLREDFRMQNKSVFILGASGETGRVLLKEILEQGLFSKVTLIGRRKLTFDEEAYKNVNQEVVDFEKLDDYASAFQGHDVGFCCLGTTRGKAGAEGFVRVDRDYVLKSAELAKAGGCKHFNLLSSKGADKSSNFLYLQVKGEVEAKVEELKFDRYSVFRPGVLLCDRQESRPGEWLVRKFFGSLPDSWASGHSVPVVTVVRAMLNNVVRPRDKQMELLENKAIHDLGK EALSKLREDFRMQNKSVFILGASGETGRVLLKEILEQGLFSKVTLIGRRKLTFDEEAYKNVNQEVVDFEKLDDYASAFQGHDVGFCCLGTTRGKAGAEGFVRVDRDYVLKSAELAKAGGCKHFNLLSSKGADKSSNFLYLQVKGEVEAKVEELKFDRYSVFRPGVLLCDRQESRPGEWLVRKFFGSLPDSWASGHSVPVVTVVRAMLNNVVRPRDKQMELLENKAIHDLGK 2bkw-a1-m1-cA_2bkw-a1-m2-cA Yeast alanine:glyoxylate aminotransferase YFL030w P43567 P43567 2.57 X-RAY DIFFRACTION 210 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 375 375 KSVDTLLIPGPIILSGAVQKALDVPSLGHTSPEFVSIFQRVLKNTRAVFKSAAASKSQPFVLAGSGTLGWDIFASNFILSKAPNKNVLVVSTGTFSDRFADCLRSYGAQVDVVRPLKIGESVPLELITEKLSQNSYGAVTVTHVDTSTAVLSDLKAISQAIKQTSPETFFVVDAVCSIGCEEFEFDEWGVDFALTASQKAIGAPAGLSISLCSSRFDYALNDSKNGHVHGYFSSLRRWTPIENYEAGKGAYFATPPVQLINSLDVALKEILEEGLHKRWDLHRESDWFKDSLVNGLQLTSVSRYPSNSAHGLTAVYVADPPDVIAFLKSHGVVIAGGIHKDIGPKYIRIGHGVTACNKNLPYKNCFDLIKLALQR KSVDTLLIPGPIILSGAVQKALDVPSLGHTSPEFVSIFQRVLKNTRAVFKSAAASKSQPFVLAGSGTLGWDIFASNFILSKAPNKNVLVVSTGTFSDRFADCLRSYGAQVDVVRPLKIGESVPLELITEKLSQNSYGAVTVTHVDTSTAVLSDLKAISQAIKQTSPETFFVVDAVCSIGCEEFEFDEWGVDFALTASQKAIGAPAGLSISLCSSRFDYALNDSKNGHVHGYFSSLRRWTPIENYEAGKGAYFATPPVQLINSLDVALKEILEEGLHKRWDLHRESDWFKDSLVNGLQLTSVSRYPSNSAHGLTAVYVADPPDVIAFLKSHGVVIAGGIHKDIGPKYIRIGHGVTACNKNLPYKNCFDLIKLALQR 2bky-a1-m1-cA_2bky-a1-m1-cB Crystal structure of the Alba1:Alba2 heterodimer from sulfolobus solfataricus P60849 P60849 1.7 X-RAY DIFFRACTION 58 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 89 89 SNVVLIGKKPVMNYVLAALTLLNQGVSEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIKEIRVGSQVVTSQDGRQSRVSTIEIAIRKK SNVVLIGKKPVMNYVLAALTLLNQGVSEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIKEIRVGSQVVTSQDGRQSRVSTIEIAIRKK 2bky-a1-m1-cX_2bky-a1-m1-cY Crystal structure of the Alba1:Alba2 heterodimer from sulfolobus solfataricus Q97ZF4 Q97ZF4 1.7 X-RAY DIFFRACTION 15 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 86 86 KLNEIVVRKTKNVEDHVLDVIVLFNQGIDEVILKGTGREISKAVDVYNSLKDRLGDGVQLVNVQTGSEVRDRRRISYILLRLKRVY KLNEIVVRKTKNVEDHVLDVIVLFNQGIDEVILKGTGREISKAVDVYNSLKDRLGDGVQLVNVQTGSEVRDRRRISYILLRLKRVY 2bl2-a1-m1-cH_2bl2-a1-m1-cI The membrane rotor of the V-type ATPase from Enterococcus hirae P43457 P43457 2.1 X-RAY DIFFRACTION 149 1.0 1354 (Enterococcus hirae) 1354 (Enterococcus hirae) 156 156 2bl2-a1-m1-cA_2bl2-a1-m1-cB 2bl2-a1-m1-cA_2bl2-a1-m1-cJ 2bl2-a1-m1-cB_2bl2-a1-m1-cC 2bl2-a1-m1-cC_2bl2-a1-m1-cD 2bl2-a1-m1-cD_2bl2-a1-m1-cE 2bl2-a1-m1-cE_2bl2-a1-m1-cF 2bl2-a1-m1-cF_2bl2-a1-m1-cG 2bl2-a1-m1-cG_2bl2-a1-m1-cH 2bl2-a1-m1-cI_2bl2-a1-m1-cJ 2cyd-a1-m1-cA_2cyd-a1-m1-cB 2cyd-a1-m1-cA_2cyd-a1-m1-cJ 2cyd-a1-m1-cB_2cyd-a1-m1-cC 2cyd-a1-m1-cC_2cyd-a1-m1-cD 2cyd-a1-m1-cD_2cyd-a1-m1-cE 2cyd-a1-m1-cE_2cyd-a1-m1-cF 2cyd-a1-m1-cF_2cyd-a1-m1-cG 2cyd-a1-m1-cG_2cyd-a1-m1-cH 2cyd-a1-m1-cH_2cyd-a1-m1-cI 2cyd-a1-m1-cI_2cyd-a1-m1-cJ 2db4-a1-m1-cA_2db4-a1-m1-cB 2db4-a1-m1-cA_2db4-a1-m1-cJ 2db4-a1-m1-cB_2db4-a1-m1-cC 2db4-a1-m1-cC_2db4-a1-m1-cD 2db4-a1-m1-cD_2db4-a1-m1-cE 2db4-a1-m1-cE_2db4-a1-m1-cF 2db4-a1-m1-cF_2db4-a1-m1-cG 2db4-a1-m1-cG_2db4-a1-m1-cH 2db4-a1-m1-cH_2db4-a1-m1-cI 2db4-a1-m1-cI_2db4-a1-m1-cJ 3aou-a1-m1-cA_3aou-a1-m1-cB 3aou-a1-m1-cA_3aou-a1-m1-cJ 3aou-a1-m1-cB_3aou-a1-m1-cC 3aou-a1-m1-cC_3aou-a1-m1-cD 3aou-a1-m1-cD_3aou-a1-m1-cE 3aou-a1-m1-cE_3aou-a1-m1-cF 3aou-a1-m1-cF_3aou-a1-m1-cG 3aou-a1-m1-cG_3aou-a1-m1-cH 3aou-a1-m1-cH_3aou-a1-m1-cI 3aou-a1-m1-cI_3aou-a1-m1-cJ MMDYLITQNGGMVFAVLAMATATIFSGIGSAKGVGMTGEAAAALTTSQPEKFGQALILQLLPGTQGLYGFVIAFLIFINLGSDMSVVQGLNFLGASLPIAFTGLFSGIAQGKVAAAGIQILAKKPEHATKGIIFAAMVETYAILGFVISFLLVLNA MMDYLITQNGGMVFAVLAMATATIFSGIGSAKGVGMTGEAAAALTTSQPEKFGQALILQLLPGTQGLYGFVIAFLIFINLGSDMSVVQGLNFLGASLPIAFTGLFSGIAQGKVAAAGIQILAKKPEHATKGIIFAAMVETYAILGFVISFLLVLNA 2bm7-a1-m1-cA_2bm7-a1-m2-cB The Structure of MfpA (Rv3361c, P3221 Crystal form). The Pentapeptide Repeat Protein from Mycobacterium tuberculosis Folds as A Right- handed Quadrilateral Beta-helix. O50390 O50390 2.7 X-RAY DIFFRACTION 76 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 178 181 2bm4-a1-m1-cB_2bm4-a1-m1-cA 2bm5-a1-m1-cB_2bm5-a1-m1-cA 2bm6-a1-m1-cA_2bm6-a1-m2-cA 2bm7-a1-m1-cC_2bm7-a1-m2-cC 2bm7-a1-m2-cA_2bm7-a1-m1-cB QWVDCEFTGRDFRDEDLSRLHTERAMFSECDFSGVNLAESQHRGSAFRNCTFERTTLWHSTFAQCSMLGSVFVACRLRPLTLDDVDFTLAVLGGNDLRGLNLTGCRLRETSLVDTDLRKCVLRGADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCL QWVDCEFTGRDFRDEDLSRLHTERAMFSECDFSGVNLAESQHRGSAFRNCTFERTTLWHSTFAQCSMLGSVFVACRLRPLTLDDVDFTLAVLGGNDLRGLNLTGCRLRETSLVDTDLRKCVLRGADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLAGG 2bm7-a1-m2-cC_2bm7-a1-m1-cB The Structure of MfpA (Rv3361c, P3221 Crystal form). The Pentapeptide Repeat Protein from Mycobacterium tuberculosis Folds as A Right- handed Quadrilateral Beta-helix. O50390 O50390 2.7 X-RAY DIFFRACTION 30 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 180 181 2bm7-a1-m1-cC_2bm7-a1-m2-cB WVDCEFTGRDFRDEDLSRLHTERAMFSECDFSGVNLAESQHRGSAFRNCTFERTTLWHSTFAQCSMLGSVFVACRLRPLTLDDVDFTLAVLGGNDLRGLNLTGCRLRETSLVDTDLRKCVLRGADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLAGG QWVDCEFTGRDFRDEDLSRLHTERAMFSECDFSGVNLAESQHRGSAFRNCTFERTTLWHSTFAQCSMLGSVFVACRLRPLTLDDVDFTLAVLGGNDLRGLNLTGCRLRETSLVDTDLRKCVLRGADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLAGG 2bm7-a1-m2-cC_2bm7-a1-m2-cB The Structure of MfpA (Rv3361c, P3221 Crystal form). The Pentapeptide Repeat Protein from Mycobacterium tuberculosis Folds as A Right- handed Quadrilateral Beta-helix. O50390 O50390 2.7 X-RAY DIFFRACTION 44 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 180 181 2bm7-a1-m1-cA_2bm7-a1-m1-cB 2bm7-a1-m1-cC_2bm7-a1-m1-cB 2bm7-a1-m2-cA_2bm7-a1-m2-cB WVDCEFTGRDFRDEDLSRLHTERAMFSECDFSGVNLAESQHRGSAFRNCTFERTTLWHSTFAQCSMLGSVFVACRLRPLTLDDVDFTLAVLGGNDLRGLNLTGCRLRETSLVDTDLRKCVLRGADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLAGG QWVDCEFTGRDFRDEDLSRLHTERAMFSECDFSGVNLAESQHRGSAFRNCTFERTTLWHSTFAQCSMLGSVFVACRLRPLTLDDVDFTLAVLGGNDLRGLNLTGCRLRETSLVDTDLRKCVLRGADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLAGG 2bm8-a1-m1-cC_2bm8-a1-m1-cB CmcI-N160 apo-structure B5GLB3 B5GLB3 2.5 X-RAY DIFFRACTION 107 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 232 233 2bm8-a1-m1-cA_2bm8-a1-m1-cE 2bm8-a1-m1-cD_2bm8-a1-m1-cF 2bm8-a2-m1-cI_2bm8-a2-m1-cH 2bm8-a2-m1-cJ_2bm8-a2-m1-cL 2bm8-a2-m1-cK_2bm8-a2-m1-cG 2bm9-a1-m1-cB_2bm9-a1-m1-cC 2bm9-a1-m1-cD_2bm9-a1-m1-cF 2bm9-a1-m1-cE_2bm9-a1-m1-cA 2br3-a1-m1-cA_2br3-a1-m1-cE 2br3-a1-m1-cB_2br3-a1-m1-cC 2br3-a1-m1-cD_2br3-a1-m1-cF 2br4-a1-m1-cA_2br4-a1-m1-cE 2br4-a1-m1-cB_2br4-a1-m1-cC 2br4-a1-m1-cD_2br4-a1-m1-cF 2br5-a1-m1-cA_2br5-a1-m1-cE 2br5-a1-m1-cC_2br5-a1-m1-cB NDYSRQNFQDLNLFRGLGEDPAYHPPVLTDRPRDWPLDRWAEAPRDLGYSDFSPYQWRGLRMLKDPDTQAVYHDMLWELRPRTIVELGVYNGGSLAWFRDLTKIMGIDCQVIGIDRDLSRCQIPASDMENITLHQGDCSDLTTFEHLREMAHPLIFIDNAHANTFNIMKWAVDHLLEEGDYFIIEDMIPYWYRYAPQLFSEYLGAFRDVLSMDMLYANASSQLDRGVLRRVA NDYSRQNFQDLNLFRGLGEDPAYHPPVLTDRPRDWPLDRWAEAPRDLGYSDFSPYQWRGLRMLKDPDTQAVYHDMLWELRPRTIVELGVYNGGSLAWFRDLTKIMGIDCQVIGIDRDLSRCQIPASDMENITLHQGDCSDLTTFEHLREMAHPLIFIDNAHANTFNIMKWAVDHLLEEGDYFIIEDMIPYWYRYAPQLFSEYLGAFRDVLSMDMLYANASSQLDRGVLRRVAA 2bma-a1-m1-cF_2bma-a1-m1-cC The crystal structure of Plasmodium falciparum glutamate dehydrogenase, a putative target for novel antimalarial drugs O96940 O96940 2.7 X-RAY DIFFRACTION 67 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 467 467 2bma-a1-m1-cA_2bma-a1-m1-cC 2bma-a1-m1-cB_2bma-a1-m1-cD 2bma-a1-m1-cB_2bma-a1-m1-cE 2bma-a1-m1-cD_2bma-a1-m1-cE 2bma-a1-m1-cF_2bma-a1-m1-cA LKDKTGRFVVLDKNASNYESLVDQEMNNVYERVMKLDPNQVEFLQAFHEILYSLKPLFMEEPKYLPIIETLSEPERAIQFRVCWLDDNGVQRKNRCFRVQYNSALGPYKGGLRFHPSVNLSIVKFLGFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDNEILKFCQAFMNELYRHIGPCTDVPAGDIGVGGREIGYLYGQYKKIVNSFNGTLTGKNVKWGGSNLRVEATGYGLVYFVLEVLKSLNIPVEKQTAVVSGSGNVALYCVQKLLHLNVKVLTLSDSNGYVYEPNGFTHENLEFLIDLKEEKKGRIKEYLNHSSTAKYFPNEKPWGVPCTLAFPCATQNDVDLDQAKLLQKNGCILVGEGANMPSTVDAINLFKSNNIIYCPSKAANAGGVAISGLEMSQNFQFSHWTRETVDEKLKEIMRNIFIACSENALKYTKNKYDLQAGANIAGFLKVAESYIEQGCF LKDKTGRFVVLDKNASNYESLVDQEMNNVYERVMKLDPNQVEFLQAFHEILYSLKPLFMEEPKYLPIIETLSEPERAIQFRVCWLDDNGVQRKNRCFRVQYNSALGPYKGGLRFHPSVNLSIVKFLGFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDNEILKFCQAFMNELYRHIGPCTDVPAGDIGVGGREIGYLYGQYKKIVNSFNGTLTGKNVKWGGSNLRVEATGYGLVYFVLEVLKSLNIPVEKQTAVVSGSGNVALYCVQKLLHLNVKVLTLSDSNGYVYEPNGFTHENLEFLIDLKEEKKGRIKEYLNHSSTAKYFPNEKPWGVPCTLAFPCATQNDVDLDQAKLLQKNGCILVGEGANMPSTVDAINLFKSNNIIYCPSKAANAGGVAISGLEMSQNFQFSHWTRETVDEKLKEIMRNIFIACSENALKYTKNKYDLQAGANIAGFLKVAESYIEQGCF 2bma-a1-m1-cF_2bma-a1-m1-cD The crystal structure of Plasmodium falciparum glutamate dehydrogenase, a putative target for novel antimalarial drugs O96940 O96940 2.7 X-RAY DIFFRACTION 87 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 467 467 2bma-a1-m1-cA_2bma-a1-m1-cE 2bma-a1-m1-cB_2bma-a1-m1-cC LKDKTGRFVVLDKNASNYESLVDQEMNNVYERVMKLDPNQVEFLQAFHEILYSLKPLFMEEPKYLPIIETLSEPERAIQFRVCWLDDNGVQRKNRCFRVQYNSALGPYKGGLRFHPSVNLSIVKFLGFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDNEILKFCQAFMNELYRHIGPCTDVPAGDIGVGGREIGYLYGQYKKIVNSFNGTLTGKNVKWGGSNLRVEATGYGLVYFVLEVLKSLNIPVEKQTAVVSGSGNVALYCVQKLLHLNVKVLTLSDSNGYVYEPNGFTHENLEFLIDLKEEKKGRIKEYLNHSSTAKYFPNEKPWGVPCTLAFPCATQNDVDLDQAKLLQKNGCILVGEGANMPSTVDAINLFKSNNIIYCPSKAANAGGVAISGLEMSQNFQFSHWTRETVDEKLKEIMRNIFIACSENALKYTKNKYDLQAGANIAGFLKVAESYIEQGCF LKDKTGRFVVLDKNASNYESLVDQEMNNVYERVMKLDPNQVEFLQAFHEILYSLKPLFMEEPKYLPIIETLSEPERAIQFRVCWLDDNGVQRKNRCFRVQYNSALGPYKGGLRFHPSVNLSIVKFLGFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDNEILKFCQAFMNELYRHIGPCTDVPAGDIGVGGREIGYLYGQYKKIVNSFNGTLTGKNVKWGGSNLRVEATGYGLVYFVLEVLKSLNIPVEKQTAVVSGSGNVALYCVQKLLHLNVKVLTLSDSNGYVYEPNGFTHENLEFLIDLKEEKKGRIKEYLNHSSTAKYFPNEKPWGVPCTLAFPCATQNDVDLDQAKLLQKNGCILVGEGANMPSTVDAINLFKSNNIIYCPSKAANAGGVAISGLEMSQNFQFSHWTRETVDEKLKEIMRNIFIACSENALKYTKNKYDLQAGANIAGFLKVAESYIEQGCF 2bma-a1-m1-cF_2bma-a1-m1-cE The crystal structure of Plasmodium falciparum glutamate dehydrogenase, a putative target for novel antimalarial drugs O96940 O96940 2.7 X-RAY DIFFRACTION 19 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 467 467 2bma-a1-m1-cA_2bma-a1-m1-cB 2bma-a1-m1-cC_2bma-a1-m1-cD LKDKTGRFVVLDKNASNYESLVDQEMNNVYERVMKLDPNQVEFLQAFHEILYSLKPLFMEEPKYLPIIETLSEPERAIQFRVCWLDDNGVQRKNRCFRVQYNSALGPYKGGLRFHPSVNLSIVKFLGFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDNEILKFCQAFMNELYRHIGPCTDVPAGDIGVGGREIGYLYGQYKKIVNSFNGTLTGKNVKWGGSNLRVEATGYGLVYFVLEVLKSLNIPVEKQTAVVSGSGNVALYCVQKLLHLNVKVLTLSDSNGYVYEPNGFTHENLEFLIDLKEEKKGRIKEYLNHSSTAKYFPNEKPWGVPCTLAFPCATQNDVDLDQAKLLQKNGCILVGEGANMPSTVDAINLFKSNNIIYCPSKAANAGGVAISGLEMSQNFQFSHWTRETVDEKLKEIMRNIFIACSENALKYTKNKYDLQAGANIAGFLKVAESYIEQGCF LKDKTGRFVVLDKNASNYESLVDQEMNNVYERVMKLDPNQVEFLQAFHEILYSLKPLFMEEPKYLPIIETLSEPERAIQFRVCWLDDNGVQRKNRCFRVQYNSALGPYKGGLRFHPSVNLSIVKFLGFEQIFKNSLTGLSMGGGKGGSDFDPKGKSDNEILKFCQAFMNELYRHIGPCTDVPAGDIGVGGREIGYLYGQYKKIVNSFNGTLTGKNVKWGGSNLRVEATGYGLVYFVLEVLKSLNIPVEKQTAVVSGSGNVALYCVQKLLHLNVKVLTLSDSNGYVYEPNGFTHENLEFLIDLKEEKKGRIKEYLNHSSTAKYFPNEKPWGVPCTLAFPCATQNDVDLDQAKLLQKNGCILVGEGANMPSTVDAINLFKSNNIIYCPSKAANAGGVAISGLEMSQNFQFSHWTRETVDEKLKEIMRNIFIACSENALKYTKNKYDLQAGANIAGFLKVAESYIEQGCF 2bmi-a1-m1-cA_2bmi-a1-m1-cB METALLO-BETA-LACTAMASE P25910 P25910 2 X-RAY DIFFRACTION 44 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 228 230 SVKISDDISITQLSDKVYTYVSLAEIEGWGMVPSNGMIVINNHQAALLDTPINDAQTEMLVNWVTDSLHAKVTTFIPNHWHGDCIGGLGYLQRKGVQSYANQMTIDLAKEKGLPVPEHGFTDSLTVSLDGMPLQCYYLGGGHATDNIVVWLPTENILFGGCMLKDNQATSIGNISDADVTAWPKTLDKVKAKFPSARYVVPGHGDYGGTELIEHTKQIVNQYIESTSK KSVKISDDISITQLSDKVYTYVSLAEIEGWGMVPSNGMIVINNHQAALLDTPINDAQTEMLVNWVTDSLHAKVTTFIPNHWHGDCIGGLGYLQRKGVQSYANQMTIDLAKEKGLPVPEHGFTDSLTVSLDGMPLQCYYLGGGHATDNIVVWLPTENILFGGCMLKDNQATSIGNISDADVTAWPKTLDKVKAKFPSARYVVPGHGDYGGTELIEHTKQIVNQYIESTSKP 2bmo-a1-m2-cA_2bmo-a1-m3-cA The Crystal Structure of Nitrobenzene Dioxygenase Q8RTL4 Q8RTL4 1.2 X-RAY DIFFRACTION 95 1.0 58226 (Comamonas sp. JS765) 58226 (Comamonas sp. JS765) 437 437 2bmo-a1-m1-cA_2bmo-a1-m2-cA 2bmo-a1-m1-cA_2bmo-a1-m3-cA 2bmq-a1-m1-cA_2bmq-a1-m2-cA 2bmq-a1-m1-cA_2bmq-a1-m3-cA 2bmq-a1-m2-cA_2bmq-a1-m3-cA 2bmr-a1-m1-cA_2bmr-a1-m2-cA 2bmr-a1-m1-cA_2bmr-a1-m3-cA 2bmr-a1-m2-cA_2bmr-a1-m3-cA YQNLVSEAGLTQKLLIHGDKELFQHELKTIFARNWLFLTHDSLIPSPGDYVKAKMGVDEVIVSRQNDGSVRAFLNVCRHRGKTLVHAEAGNAKGFVCGYHGWGYGSNGELQSVPFEKELYGDAIKKKCLGLKEVPRIESFHGFIYGCFDAEAPPLIDYLGDAAWYLEPTFKYSGGLELVGPPGKVVVKANWKSFAENFVGDGYHVGWTHAAALRAGQSVFSSIAGNAKLPPEGAGLQMTSKYGSGMGVFWGYYSGNFSADMIPDLMAFGAAKQEKLAKEIGDVRARIYRSFLNGTIFPNNSFLTGSAAFRVWNPIDENTTEVWTYAFVEKDMPEDLKRRVADAVQRSIGPAGFWESDDNENMETMSQNGKKYQSSNIDQIASLGFGKDVYGDECYPGVVGKSAIGETSYRGFYRAYQAHISSSNWAEFENASRNWHI YQNLVSEAGLTQKLLIHGDKELFQHELKTIFARNWLFLTHDSLIPSPGDYVKAKMGVDEVIVSRQNDGSVRAFLNVCRHRGKTLVHAEAGNAKGFVCGYHGWGYGSNGELQSVPFEKELYGDAIKKKCLGLKEVPRIESFHGFIYGCFDAEAPPLIDYLGDAAWYLEPTFKYSGGLELVGPPGKVVVKANWKSFAENFVGDGYHVGWTHAAALRAGQSVFSSIAGNAKLPPEGAGLQMTSKYGSGMGVFWGYYSGNFSADMIPDLMAFGAAKQEKLAKEIGDVRARIYRSFLNGTIFPNNSFLTGSAAFRVWNPIDENTTEVWTYAFVEKDMPEDLKRRVADAVQRSIGPAGFWESDDNENMETMSQNGKKYQSSNIDQIASLGFGKDVYGDECYPGVVGKSAIGETSYRGFYRAYQAHISSSNWAEFENASRNWHI 2bmo-a1-m2-cB_2bmo-a1-m3-cB The Crystal Structure of Nitrobenzene Dioxygenase Q8RTL3 Q8RTL3 1.2 X-RAY DIFFRACTION 102 1.0 58226 (Comamonas sp. JS765) 58226 (Comamonas sp. JS765) 194 194 2bmo-a1-m1-cB_2bmo-a1-m2-cB 2bmo-a1-m1-cB_2bmo-a1-m3-cB 2bmq-a1-m1-cB_2bmq-a1-m2-cB 2bmq-a1-m1-cB_2bmq-a1-m3-cB 2bmq-a1-m2-cB_2bmq-a1-m3-cB 2bmr-a1-m1-cB_2bmr-a1-m2-cB 2bmr-a1-m1-cB_2bmr-a1-m3-cB 2bmr-a1-m2-cB_2bmr-a1-m3-cB 5xbp-a1-m1-cC_5xbp-a1-m1-cF 5xbp-a1-m1-cC_5xbp-a1-m1-cI 5xbp-a1-m1-cF_5xbp-a1-m1-cI MMINTQEDKLVSAHDAEEFHRFFVGHDSDLQQEVTTLLTREAHLLDIQAYKAWLEHFVAPEIKYQVISRELRSTSERRYQLNDAVNLYNENYQQLKVRVEHQMDPQNWANNPKIRFTRFVTNVTAAKDKSAPEILHVRSNLILHRARRENQVDVFYATREDKWKRIEGGGIKLVERFVDYPERIPQTHNLLVFL MMINTQEDKLVSAHDAEEFHRFFVGHDSDLQQEVTTLLTREAHLLDIQAYKAWLEHFVAPEIKYQVISRELRSTSERRYQLNDAVNLYNENYQQLKVRVEHQMDPQNWANNPKIRFTRFVTNVTAAKDKSAPEILHVRSNLILHRARRENQVDVFYATREDKWKRIEGGGIKLVERFVDYPERIPQTHNLLVFL 2bnd-a1-m2-cA_2bnd-a1-m3-cB The structure of E. coli UMP kinase in complex with UDP P0A7E9 P0A7E9 2.6 X-RAY DIFFRACTION 35 0.996 562 (Escherichia coli) 562 (Escherichia coli) 237 237 2bnd-a1-m1-cA_2bnd-a1-m2-cB 2bnd-a1-m1-cB_2bnd-a1-m3-cA 2bne-a1-m1-cA_2bne-a1-m3-cB 2bne-a1-m2-cA_2bne-a1-m1-cB 2bne-a1-m3-cA_2bne-a1-m2-cB 2bnf-a1-m1-cA_2bnf-a1-m3-cB 2bnf-a1-m1-cB_2bnf-a1-m2-cA 2bnf-a1-m2-cB_2bnf-a1-m3-cA 2v4y-a1-m1-cB_2v4y-a1-m1-cC 2v4y-a1-m1-cD_2v4y-a1-m1-cA 2v4y-a1-m1-cF_2v4y-a1-m1-cE AKPVYKRILLKLSGEALQGTEGFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNAVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEANVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE NAKPVYKRILLKLSGEALQGTEFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNAVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEANVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE 2bnd-a1-m3-cA_2bnd-a1-m3-cB The structure of E. coli UMP kinase in complex with UDP P0A7E9 P0A7E9 2.6 X-RAY DIFFRACTION 88 0.996 562 (Escherichia coli) 562 (Escherichia coli) 237 237 2bnd-a1-m1-cA_2bnd-a1-m1-cB 2bnd-a1-m2-cA_2bnd-a1-m2-cB 2bne-a1-m1-cA_2bne-a1-m1-cB 2bne-a1-m2-cA_2bne-a1-m2-cB 2bne-a1-m3-cA_2bne-a1-m3-cB 2bnf-a1-m1-cA_2bnf-a1-m1-cB 2bnf-a1-m2-cA_2bnf-a1-m2-cB 2bnf-a1-m3-cA_2bnf-a1-m3-cB 2v4y-a1-m1-cB_2v4y-a1-m1-cD 2v4y-a1-m1-cE_2v4y-a1-m1-cC 2v4y-a1-m1-cF_2v4y-a1-m1-cA AKPVYKRILLKLSGEALQGTEGFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNAVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEANVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE NAKPVYKRILLKLSGEALQGTEFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNAVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEANVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE 2bne-a1-m2-cB_2bne-a1-m3-cB The structure of E. coli UMP kinase in complex with UMP P0A7E9 P0A7E9 2.3 X-RAY DIFFRACTION 10 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 238 238 2bnd-a1-m1-cB_2bnd-a1-m2-cB 2bnd-a1-m1-cB_2bnd-a1-m3-cB 2bnd-a1-m2-cB_2bnd-a1-m3-cB 2bne-a1-m1-cA_2bne-a1-m2-cA 2bne-a1-m1-cA_2bne-a1-m3-cA 2bne-a1-m1-cB_2bne-a1-m2-cB 2bne-a1-m1-cB_2bne-a1-m3-cB 2bne-a1-m2-cA_2bne-a1-m3-cA 2v4y-a1-m1-cB_2v4y-a1-m1-cA TNAKPVYKRILLKLSGEALQGTEFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNGVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEANVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE TNAKPVYKRILLKLSGEALQGTEFGIDASILDRMAQEIKELVELGIQVGVVIGGGNLFRGAGLAKAGMNRVVGDHMGMLATVMNGLAMRDALHRAYVNARLMSAIPLNGVCDSYSWAEAISLLRNNRVVILSAGTGNPFFTTDSAACLRGIEIEANVVLKATKVDGVFTADPAKDPTATMYEQLTYSEVLEKELKVMDLAAFTLARDHKLPIRVFNMNKPGALRRVVMGEKEGTLITE 2bng-a1-m2-cA_2bng-a1-m2-cB Structure of an M.tuberculosis LEH-like epoxide hydrolase O33283 O33283 2.5 X-RAY DIFFRACTION 19 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 130 131 2bng-a1-m1-cA_2bng-a1-m1-cB ETTEAIRAVEAFLNALQNEDFDTVDAALGDDLVYENVGFSRIRGGRRTATLLRRQGRVGFEVKIHRIGADGAAVLTERTDALIIGPLRVQFWVCGVFEVDDGRITLWRDYFDVYDFKGLLRGLVALVVPS PETTEAIRAVEAFLNALQNEDFDTVDAALGDDLVYENVGFSRIRGGRRTATLLRRQGRVGFEVKIHRIGADGAAVLTERTDALIIGPLRVQFWVCGVFEVDDGRITLWRDYFDVYDFKGLLRGLVALVVPS 2bng-a1-m2-cB_2bng-a1-m2-cC Structure of an M.tuberculosis LEH-like epoxide hydrolase O33283 O33283 2.5 X-RAY DIFFRACTION 63 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 131 138 2bng-a1-m1-cA_2bng-a1-m2-cA 2bng-a1-m1-cB_2bng-a1-m1-cC PETTEAIRAVEAFLNALQNEDFDTVDAALGDDLVYENVGFSRIRGGRRTATLLRRQGRVGFEVKIHRIGADGAAVLTERTDALIIGPLRVQFWVCGVFEVDDGRITLWRDYFDVYDFKGLLRGLVALVVPS ETPETTEAIRAVEAFLNALQNEDFDTVDAALGDDLVYENVGFSRIRGGRRTATLLRRQGRVGFEVKIHRIGADGAAVLTERTDALIIGPLRVQFWVCGVFEVDDGRITLWRDYFDVYDFKGLLRGLVALVVPSLKATL 2bnl-a3-m1-cE_2bnl-a3-m1-cF The structure of the N-terminal domain of RsbR P42409 P42409 2 X-RAY DIFFRACTION 50 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 127 127 2bnl-a1-m1-cB_2bnl-a1-m1-cA 2bnl-a2-m1-cD_2bnl-a2-m1-cC SNQTVYQFIAENQNELLQLWTDTLKELSEQESYQLTDQVYENISKEYIDILLLSVKDENAAESQISELALRAVQIGLSKFLATALAEFWKRLYTKNDKESTELIWQIDRFFSPINTEIFNQYSISWE SNQTVYQFIAENQNELLQLWTDTLKELSEQESYQLTDQVYENISKEYIDILLLSVKDENAAESQISELALRAVQIGLSKFLATALAEFWKRLYTKNDKESTELIWQIDRFFSPINTEIFNQYSISWE 2bnw-a1-m1-cB_2bnw-a1-m1-cC Structural basis for cooperative binding of Ribbon-Helix-Helix Omega repressor to direct DNA heptad repeats Q57468 Q57468 2.45 X-RAY DIFFRACTION 12 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 53 53 2bnz-a1-m1-cA_2bnz-a1-m1-cC 2cax-a1-m1-cA_2cax-a1-m1-cC MAKKDIMGDKTVRVRADLHHIIKIETAKNGGNVKEVMDQALEEYIRKYLPDKL MAKKDIMGDKTVRVRADLHHIIKIETAKNGGNVKEVMDQALEEYIRKYLPDKL 2bnx-a1-m1-cA_2bnx-a1-m1-cB Crystal structure of the dimeric regulatory domain of mouse diaphaneous-related formin (DRF), mDia1 O08808 O08808 2.4 X-RAY DIFFRACTION 224 0.991 10090 (Mus musculus) 10090 (Mus musculus) 337 339 SRSAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEKEETSGNYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLHKNGTDPDFKCRHLQIDIERLVKTKVEKSEAKATE SRSAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEKEETSGNYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLHKNGTDPDFKCRHLQIDIERLVDQMIDKTKVEKSEAKATE 2bo8-a3-m1-cJ_2bo8-a3-m2-cJ DISSECTION OF MANNOSYLGLYCERATE SYNTHASE: AN ARCHETYPAL MANNOSYLTRANSFERASE Q9RFR0 Q9RFR0 2.8 X-RAY DIFFRACTION 32 1.0 29549 (Rhodothermus marinus) 29549 (Rhodothermus marinus) 380 380 2bo4-a1-m1-cA_2bo4-a1-m1-cF 2bo4-a1-m1-cB_2bo4-a1-m1-cE 2bo4-a2-m1-cC_2bo4-a2-m2-cD 2bo4-a2-m1-cD_2bo4-a2-m2-cC 2bo6-a1-m1-cA_2bo6-a1-m2-cB 2bo6-a1-m1-cB_2bo6-a1-m2-cA 2bo7-a1-m1-cA_2bo7-a1-m1-cD 2bo7-a1-m1-cB_2bo7-a1-m1-cC 2bo7-a2-m1-cE_2bo7-a2-m1-cG 2bo7-a2-m1-cF_2bo7-a2-m1-cH 2bo7-a3-m1-cI_2bo7-a3-m2-cI 2bo7-a3-m1-cJ_2bo7-a3-m2-cJ 2bo8-a1-m1-cA_2bo8-a1-m1-cD 2bo8-a1-m1-cB_2bo8-a1-m1-cC 2bo8-a2-m1-cE_2bo8-a2-m1-cG 2bo8-a2-m1-cF_2bo8-a2-m1-cH 2bo8-a3-m1-cI_2bo8-a3-m2-cI SLVVFPFKHEHPEVLLHNVRVAAAHPRVHEVLCIGYERDQTYEAVERAAPEISRATGTPVSVRLQERLGTLRPGKGDGMNTALRYFLEETQWERIHFYDADITSFGPDWITKAEEAADFGYGLVRHYFPRASTDAMITWMITRTGFALLWPHTELSWIEQPLGGELLMRREVAAMLYEDERVRRRSDWGIDTLYTFVTVQQGVSIYECYIPEGKAHRLYGGLDDLRTMLVECFAAIQSLQHEVVGQPAIHRQEHPHRVPVHIAERVGYDVEATLHRLMQHWTPRQVELLELFTTPVREGLRTCQRRPAFNFMDEMAWAATYHVLLEHFQPGDPDWEELLFKLWTTRVLNYTMTVALRGYDYAQQYLYRMLGRYRYQAALE SLVVFPFKHEHPEVLLHNVRVAAAHPRVHEVLCIGYERDQTYEAVERAAPEISRATGTPVSVRLQERLGTLRPGKGDGMNTALRYFLEETQWERIHFYDADITSFGPDWITKAEEAADFGYGLVRHYFPRASTDAMITWMITRTGFALLWPHTELSWIEQPLGGELLMRREVAAMLYEDERVRRRSDWGIDTLYTFVTVQQGVSIYECYIPEGKAHRLYGGLDDLRTMLVECFAAIQSLQHEVVGQPAIHRQEHPHRVPVHIAERVGYDVEATLHRLMQHWTPRQVELLELFTTPVREGLRTCQRRPAFNFMDEMAWAATYHVLLEHFQPGDPDWEELLFKLWTTRVLNYTMTVALRGYDYAQQYLYRMLGRYRYQAALE 2bo8-a3-m2-cI_2bo8-a3-m2-cJ DISSECTION OF MANNOSYLGLYCERATE SYNTHASE: AN ARCHETYPAL MANNOSYLTRANSFERASE Q9RFR0 Q9RFR0 2.8 X-RAY DIFFRACTION 61 1.0 29549 (Rhodothermus marinus) 29549 (Rhodothermus marinus) 380 380 2bo4-a1-m1-cA_2bo4-a1-m1-cB 2bo4-a1-m1-cE_2bo4-a1-m1-cF 2bo4-a2-m1-cC_2bo4-a2-m1-cD 2bo4-a2-m2-cC_2bo4-a2-m2-cD 2bo6-a1-m1-cA_2bo6-a1-m1-cB 2bo6-a1-m2-cA_2bo6-a1-m2-cB 2bo7-a1-m1-cA_2bo7-a1-m1-cB 2bo7-a1-m1-cC_2bo7-a1-m1-cD 2bo7-a2-m1-cE_2bo7-a2-m1-cF 2bo7-a2-m1-cG_2bo7-a2-m1-cH 2bo7-a3-m1-cI_2bo7-a3-m1-cJ 2bo7-a3-m2-cI_2bo7-a3-m2-cJ 2bo8-a1-m1-cA_2bo8-a1-m1-cB 2bo8-a1-m1-cC_2bo8-a1-m1-cD 2bo8-a2-m1-cE_2bo8-a2-m1-cF 2bo8-a2-m1-cG_2bo8-a2-m1-cH 2bo8-a3-m1-cI_2bo8-a3-m1-cJ 2y4j-a1-m1-cA_2y4j-a1-m1-cB SLVVFPFKHEHPEVLLHNVRVAAAHPRVHEVLCIGYERDQTYEAVERAAPEISRATGTPVSVRLQERLGTLRPGKGDGMNTALRYFLEETQWERIHFYDADITSFGPDWITKAEEAADFGYGLVRHYFPRASTDAMITWMITRTGFALLWPHTELSWIEQPLGGELLMRREVAAMLYEDERVRRRSDWGIDTLYTFVTVQQGVSIYECYIPEGKAHRLYGGLDDLRTMLVECFAAIQSLQHEVVGQPAIHRQEHPHRVPVHIAERVGYDVEATLHRLMQHWTPRQVELLELFTTPVREGLRTCQRRPAFNFMDEMAWAATYHVLLEHFQPGDPDWEELLFKLWTTRVLNYTMTVALRGYDYAQQYLYRMLGRYRYQAALE SLVVFPFKHEHPEVLLHNVRVAAAHPRVHEVLCIGYERDQTYEAVERAAPEISRATGTPVSVRLQERLGTLRPGKGDGMNTALRYFLEETQWERIHFYDADITSFGPDWITKAEEAADFGYGLVRHYFPRASTDAMITWMITRTGFALLWPHTELSWIEQPLGGELLMRREVAAMLYEDERVRRRSDWGIDTLYTFVTVQQGVSIYECYIPEGKAHRLYGGLDDLRTMLVECFAAIQSLQHEVVGQPAIHRQEHPHRVPVHIAERVGYDVEATLHRLMQHWTPRQVELLELFTTPVREGLRTCQRRPAFNFMDEMAWAATYHVLLEHFQPGDPDWEELLFKLWTTRVLNYTMTVALRGYDYAQQYLYRMLGRYRYQAALE 2boc-a1-m3-cB_2boc-a1-m4-cB Potassium channel KcsA-Fab complex in thallium with tetraethylarsonium (TEAs) 3.01 X-RAY DIFFRACTION 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 212 212 2boc-a1-m1-cB_2boc-a1-m2-cB 2boc-a1-m1-cB_2boc-a1-m3-cB 2boc-a1-m2-cB_2boc-a1-m4-cB DILLTQSPAILSVSPGERVSFSCRASQSIGTDIHWYQQRTNGSPRLLIKYASESISGIPSRFSGSGSGTDFTLSINSVESEDIANYYCQQSNRWPFTFGSGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN DILLTQSPAILSVSPGERVSFSCRASQSIGTDIHWYQQRTNGSPRLLIKYASESISGIPSRFSGSGSGTDFTLSINSVESEDIANYYCQQSNRWPFTFGSGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN 2bol-a1-m1-cB_2bol-a1-m1-cA CRYSTAL STRUCTURE AND ASSEMBLY OF TSP36, A METAZOAN SMALL HEAT SHOCK PROTEIN Q7YZT0 Q7YZT0 2.5 X-RAY DIFFRACTION 200 1.0 6206 (Taenia saginata) 6206 (Taenia saginata) 290 301 SIFPTRDSRDLSSRRRSLIDWEFPQMALVPLDQVFDWAERSRQSLHDDIVNMHRNLFSLEPFTAMDNAFESVMKEMSAIQPREFHPELEYTQPGELDFLKDAYEVGKDGRLHFKVYFNVKNFKAEEITIKADKNKLVVRAQKSESVGRSIPLPPSVDRNHIQATITTDDVLVIEAPVNEPNYKAIKLSPEKGLAIQPSEVQERQLAVKNKEGLEIVTAEDGSKKIHLELKVDPHFAPKDVKVWAKGNKVYVHGVTREFYKAFVTPEVVDASKTQAEIVDGLMVVEAPLFK SIFPTRDSRDLSSRRRSLIDWEFPQMALVPLDQVFDWAERSRQSLHDDIVNMHRNLFSLEPFTAMDNAFESVMKEMSAIQPREFHPELEYTQPGELDFLKDAYEVGKDGRLHFKVYFNVKNFKAEEITIKADKNKLVVRAQKSVACGDAAMSESVGRSIPLPPSVDRNHIQATITTDDVLVIEAPVNEPNYKAIKLSPEKGLAIQPSEVQERQLAVKNKEGLEIVTAEDGSKKIHLELKVDPHFAPKDVKVWAKGNKVYVHGVTGHREFYKAFVTPEVVDASKTQAEIVDGLMVVEAPLFK 2bow-a1-m1-cA_2bow-a1-m2-cA MULTIDRUG-BINDING DOMAIN OF TRANSCRIPTION ACTIVATOR BMRR IN COMPLEX WITH A LIGAND, TETRAPHENYLPHOSPHONIUM P39075 P39075 2.8 X-RAY DIFFRACTION 51 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 130 130 LGEVFVLDEEEIRIIQTEAEGIGPENVLNASYSYGATFSFQPYTSIDEMTYRHIFTPVLTISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYRVEMKIRIL LGEVFVLDEEEIRIIQTEAEGIGPENVLNASYSYGATFSFQPYTSIDEMTYRHIFTPVLTISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYRVEMKIRIL 2bow-a2-m1-cA_2bow-a2-m3-cA MULTIDRUG-BINDING DOMAIN OF TRANSCRIPTION ACTIVATOR BMRR IN COMPLEX WITH A LIGAND, TETRAPHENYLPHOSPHONIUM P39075 P39075 2.8 X-RAY DIFFRACTION 11 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 130 130 LGEVFVLDEEEIRIIQTEAEGIGPENVLNASYSYGATFSFQPYTSIDEMTYRHIFTPVLTISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYRVEMKIRIL LGEVFVLDEEEIRIIQTEAEGIGPENVLNASYSYGATFSFQPYTSIDEMTYRHIFTPVLTISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYRVEMKIRIL 2boy-a4-m1-cH_2boy-a4-m1-cD Crystal structure of 3-ChloroCatechol 1,2-Dioxygenase from Rhodococcus Opacus 1CP Q8G9L3 Q8G9L3 1.9 X-RAY DIFFRACTION 138 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 248 251 2boy-a1-m2-cE_2boy-a1-m1-cA 2boy-a2-m1-cF_2boy-a2-m3-cB 2boy-a3-m1-cG_2boy-a3-m4-cC STDRTGNIVGKMIAAINAVIKDEKVSYSEYKASTGWLISVGEKNEWPLFLDVFFEHAIESVAAESNRGSQSSIQGPYFIPGAPELSIPYTMPMRDDESGDTLIFRGEVVDQEGAPLADVLLDMWQADAAGEYSFINPTLPDYLFRGKIRTDENGRFTLRTIVPAPYEIPKNGPTGALLAAAGWHAWRPAHLHWIIAKEGYESLTTQLYFENGQWTGSDVANAVKPELLLSLDKIPHFETSYKFTLGKV STDRTGNIVGKMIAAINAVIKDEKVSYSEYKASTGWLISVGEKNEWPLFLDVFFEHAIESVAAESNRGSQSSIQGPYFIPGAPELSIPYTMPMRDDESGDTLIFRGEVVDQEGAPLADVLLDMWQADAAGEYSFINPTLPDYLFRGKIRTDENGRFTLRTIVPAPYEIPKNGPTGALLAAAGWHAWRPAHLHWIIAKEGYESLTTQLYFENGQWTGSDVANAVKPELLLSLDKIEAGPHFETSYKFTLGKV 2bp1-a2-m1-cC_2bp1-a2-m1-cD Structure of the aflatoxin aldehyde reductase in complex with NADPH O43488 O43488 2.4 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 320 323 2bp1-a1-m1-cB_2bp1-a1-m1-cA RVASVLGTMEMGRRMDAPASAAAVRAFLERGHTELDTAFMYSDGQSETILGGLGLGLGCRVKIATKANPWDGKSLKPDSVRSQLETSLKRLQCPQVDLFYLHAPDHGTPVEETLHACQRLHQEGKFVELGLSNYASWEVAEICTLCKSNGWILPTVYQGMYNATTRQVETELFPCLRHFGLRFYAYNPLAGGLLTGKYKYEDKDGKQPVGRFFGNSWAETYRNRFWKEHHFEAIALVEKALQAAYGASAPSVTSAALRWMYHHSQLQGAHGDAVILGMSSLEQLEQNLAATEEGPLEPAVVDAFNQAWHLVAHECPNYFR RVASVLGTMEMGRRMDAPASAAAVRAFLERGHTELDTAFMYSDGQSETILGGLGLGLGGGDCRVKIATKANPWDGKSLKPDSVRSQLETSLKRLQCPQVDLFYLHAPDHGTPVEETLHACQRLHQEGKFVELGLSNYASWEVAEICTLCKSNGWILPTVYQGMYNATTRQVETELFPCLRHFGLRFYAYNPLAGGLLTGKYKYEDKDGKQPVGRFFGNSWAETYRNRFWKEHHFEAIALVEKALQAAYGASAPSVTSAALRWMYHHSQLQGAHGDAVILGMSSLEQLEQNLAATEEGPLEPAVVDAFNQAWHLVAHECPNYFR 2bpe-a1-m1-cA_2bpe-a1-m1-cB STRUCTURE OF MURINE DECTIN-1 Q6QLQ4 Q6QLQ4 2.25 X-RAY DIFFRACTION 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 128 128 2cl8-a1-m1-cA_2cl8-a1-m1-cB QSCLPNWIMHGKSCYLFSFSGNSWYGSKRHCSQLGAHLLKIDNSKEFEFIESQTSSHRINAFWIGLSRNQSEGPWFWEDGSAFFPNSFQVRNAVPQESLLHNCVWIHGSEVYNQICNTSSYSICEKEL QSCLPNWIMHGKSCYLFSFSGNSWYGSKRHCSQLGAHLLKIDNSKEFEFIESQTSSHRINAFWIGLSRNQSEGPWFWEDGSAFFPNSFQVRNAVPQESLLHNCVWIHGSEVYNQICNTSSYSICEKEL 2bph-a1-m1-cA_2bph-a1-m1-cB STRUCTURE OF MURINE DECTIN-1 Q6QLQ4 Q6QLQ4 2.2 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 128 128 QSCLPNWIMHGKSCYLFSFSGNSWYGSKRHCSQLGAHLLKIDNSKEFEFIESQTSSHRINAFWIGLSRNQSEGPWFWEDGSAFFPNSFQVRNAVPQESLLHNCVWIHGSEVYNQICNTSSYSICEKEL QSCLPNWIMHGKSCYLFSFSGNSWYGSKRHCSQLGAHLLKIDNSKEFEFIESQTSSHRINAFWIGLSRNQSEGPWFWEDGSAFFPNSFQVRNAVPQESLLHNCVWIHGSEVYNQICNTSSYSICEKEL 2bqq-a1-m1-cA_2bqq-a1-m2-cA X-ray Structure of the N-terminal Domain of Human Doublecortin O43602 O43602 2.2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 AKKVRFYRNGDRYFKGIVYAVSSDRFRSFDALLADLTRSLSDNINLPQGVRYIYTIDGSRKIGSMDELEEGESYVCSSDNFFDDVEYTKNVNPNWS AKKVRFYRNGDRYFKGIVYAVSSDRFRSFDALLADLTRSLSDNINLPQGVRYIYTIDGSRKIGSMDELEEGESYVCSSDNFFDDVEYTKNVNPNWS 2br3-a1-m1-cD_2br3-a1-m1-cE cmcI-D160 Mg B5GLB3 B5GLB3 2.79 X-RAY DIFFRACTION 140 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 230 232 2bm8-a1-m1-cA_2bm8-a1-m1-cB 2bm8-a1-m1-cC_2bm8-a1-m1-cF 2bm8-a1-m1-cD_2bm8-a1-m1-cE 2bm8-a2-m1-cG_2bm8-a2-m1-cH 2bm8-a2-m1-cI_2bm8-a2-m1-cL 2bm8-a2-m1-cK_2bm8-a2-m1-cJ 2bm9-a1-m1-cB_2bm9-a1-m1-cA 2bm9-a1-m1-cC_2bm9-a1-m1-cF 2bm9-a1-m1-cE_2bm9-a1-m1-cD 2br3-a1-m1-cA_2br3-a1-m1-cB 2br3-a1-m1-cC_2br3-a1-m1-cF 2br4-a1-m1-cA_2br4-a1-m1-cB 2br4-a1-m1-cD_2br4-a1-m1-cE 2br4-a1-m1-cF_2br4-a1-m1-cC 2br5-a1-m1-cA_2br5-a1-m1-cB 2br5-a1-m1-cD_2br5-a1-m1-cE 2br5-a1-m1-cF_2br5-a1-m1-cC NDYSRQNFLDLNLFRGLGEDPAYHPPVLTDRPRDWPLDRWAEAPRDLGYSDFSPYQWRGLRMLKDPDTQAVYHDMLWELRPRTIVELGVYNGGSLAWFRDLTKIMGIDCQVIGIDRDLSRCQIPASDMENITLHQGDCSDLTTFEHLREMAHPLIFIDDAHANTFNIMKWAVDHLLEEGDYFIIEDMIPYWYRYAPQLFSEYLGAFRDVLSMDMLYANASSQLDRGVLRR NDYSRQNFLDLNLFRGLGEDPAYHPPVLTDRPRDWPLDRWAEAPRDLGYSDFSPYQWRGLRMLKDPDTQAVYHDMLWELRPRTIVELGVYNGGSLAWFRDLTKIMGIDCQVIGIDRDLSRCQIPASDMENITLHQGDCSDLTTFEHLREMAHPLIFIDDAHANTFNIMKWAVDHLLEEGDYFIIEDMIPYWYRYAPQLFSEYLGAFRDVLSMDMLYANASSQLDRGVLRRVA 2br9-a1-m1-cA_2br9-a1-m2-cA 14-3-3 Protein Epsilon (Human) Complexed to Peptide P62258 P62258 1.75 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 3ual-a1-m1-cA_3ual-a1-m2-cA 3ubw-a1-m1-cA_3ubw-a1-m2-cA 6eih-a1-m1-cA_6eih-a1-m2-cA 7c8e-a1-m1-cA_7c8e-a1-m1-cB 7v9b-a1-m1-cA_7v9b-a1-m2-cA DREDLVYQAKLAEQAERYDEMVESMKKVAGMDVELTVEERNLLSVAYKNVIGARRASWRIISSIEQKEENKGGEDKLKMIREYRQMVETELKLICCDILDVLDKHLIPAANTGESKVFYYKMKGDYHRYLAEFATGNDRKEAAENSLVAYKAASDIAMTELPPTHPIRLGLALNFSVFYYEILNSPDRACRLAKAAFDDAIAELDTLSEESYKDSTLIMQLLRDNLTLWT DREDLVYQAKLAEQAERYDEMVESMKKVAGMDVELTVEERNLLSVAYKNVIGARRASWRIISSIEQKEENKGGEDKLKMIREYRQMVETELKLICCDILDVLDKHLIPAANTGESKVFYYKMKGDYHRYLAEFATGNDRKEAAENSLVAYKAASDIAMTELPPTHPIRLGLALNFSVFYYEILNSPDRACRLAKAAFDDAIAELDTLSEESYKDSTLIMQLLRDNLTLWT 2bri-a1-m2-cA_2bri-a1-m3-cA UMP KINASE FROM PYROCOCCUS FURIOSUS COMPLEXED WITH ITS SUBSTRATE ANALOG AMPPNP Q8U122 Q8U122 3 X-RAY DIFFRACTION 10 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 221 221 2bri-a1-m1-cA_2bri-a1-m2-cA 2bri-a1-m1-cA_2bri-a1-m3-cA RIVFDIGGSVLVPENPDIDFIKEIAYQLTKVSEDHEVAVVVGGGKLARKYIEVAEKFNSSETFKDFIGIQITRANALLIAALREKAYPVVVEDFWEAWKAVQLKKIPVGGTHPGHTTDAVAALLAEFLKADLLVVITNVDGVYTADPKKDPTAKKIKKKPEELLEIVGKGIEKAGSSSVIDPLAAKIIARSGIKTIVIGKEDAKDLFRVIKGDHNGTTIEP RIVFDIGGSVLVPENPDIDFIKEIAYQLTKVSEDHEVAVVVGGGKLARKYIEVAEKFNSSETFKDFIGIQITRANALLIAALREKAYPVVVEDFWEAWKAVQLKKIPVGGTHPGHTTDAVAALLAEFLKADLLVVITNVDGVYTADPKKDPTAKKIKKKPEELLEIVGKGIEKAGSSSVIDPLAAKIIARSGIKTIVIGKEDAKDLFRVIKGDHNGTTIEP 2brq-a1-m1-cC_2brq-a1-m1-cD Crystal structure of the filamin A repeat 21 complexed with the integrin beta7 cytoplasmic tail peptide P26010 P26010 2.1 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 PLYKSAITTTINP PLYKSAITTTINP 2brx-a1-m3-cB_2brx-a1-m1-cA UMP KINASE FROM PYROCOCCUS FURIOSUS WITHOUT LIGANDS Q8U122 Q8U122 2.4 X-RAY DIFFRACTION 51 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 209 218 2bmu-a1-m1-cA_2bmu-a1-m2-cB 2bmu-a1-m2-cA_2bmu-a1-m3-cB 2bmu-a1-m3-cA_2bmu-a1-m1-cB 2bri-a1-m1-cA_2bri-a1-m2-cB 2bri-a1-m1-cB_2bri-a1-m3-cA 2bri-a1-m2-cA_2bri-a1-m3-cB 2brx-a1-m1-cB_2brx-a1-m2-cA 2brx-a1-m2-cB_2brx-a1-m3-cA 2ji5-a1-m1-cB_2ji5-a1-m2-cA 2ji5-a1-m2-cB_2ji5-a1-m3-cA 2ji5-a1-m3-cB_2ji5-a1-m1-cA HMRIVFDIGGSVLVPENPDIDFIKEIAYQLTKVSEDHEVAVVVGGGKLARKYIEVAEKFNSSETFKDFIGIQITRANAMLLIAALREKAYPVVVEDFWEAWKAVQLKKIPVMGGTHPGHTTDAVAALLAEFLKADLLVVITNVDGVYAKKIKKMKPEELLEIVGKSVIDPLAAKIIARSGIKTIVIGKEDAKDLFRVIKGDHNGTTIEP HMRIVFDIGGSVLVPENPDIDFIKEIAYQLTKVSEDHEVAVVVGGGKLARKYIEVAEKFNSSETFKDFIGIQITRANAMLLIAALREKAYPVVVEDFWEAWKAVQLKKIPVMGGTHPGHTTDAVAALLAEFLKADLLVVITNVDGVYTADPKKDPTAKKIKKMKPEELLEIVGKSVIDPLAAKIIARSGIKTIVIGKEDAKDLFRVIKGDHNGTTIEP 2brx-a1-m3-cB_2brx-a1-m3-cA UMP KINASE FROM PYROCOCCUS FURIOSUS WITHOUT LIGANDS Q8U122 Q8U122 2.4 X-RAY DIFFRACTION 74 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 209 218 2bmu-a1-m1-cA_2bmu-a1-m1-cB 2bmu-a1-m2-cA_2bmu-a1-m2-cB 2bmu-a1-m3-cA_2bmu-a1-m3-cB 2bri-a1-m1-cA_2bri-a1-m1-cB 2bri-a1-m2-cA_2bri-a1-m2-cB 2bri-a1-m3-cA_2bri-a1-m3-cB 2brx-a1-m1-cB_2brx-a1-m1-cA 2brx-a1-m2-cB_2brx-a1-m2-cA 2ji5-a1-m1-cB_2ji5-a1-m1-cA 2ji5-a1-m2-cB_2ji5-a1-m2-cA 2ji5-a1-m3-cB_2ji5-a1-m3-cA HMRIVFDIGGSVLVPENPDIDFIKEIAYQLTKVSEDHEVAVVVGGGKLARKYIEVAEKFNSSETFKDFIGIQITRANAMLLIAALREKAYPVVVEDFWEAWKAVQLKKIPVMGGTHPGHTTDAVAALLAEFLKADLLVVITNVDGVYAKKIKKMKPEELLEIVGKSVIDPLAAKIIARSGIKTIVIGKEDAKDLFRVIKGDHNGTTIEP HMRIVFDIGGSVLVPENPDIDFIKEIAYQLTKVSEDHEVAVVVGGGKLARKYIEVAEKFNSSETFKDFIGIQITRANAMLLIAALREKAYPVVVEDFWEAWKAVQLKKIPVMGGTHPGHTTDAVAALLAEFLKADLLVVITNVDGVYTADPKKDPTAKKIKKMKPEELLEIVGKSVIDPLAAKIIARSGIKTIVIGKEDAKDLFRVIKGDHNGTTIEP 2bs2-a1-m1-cA_2bs2-a1-m1-cD QUINOL:FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES P17412 P17412 1.78 X-RAY DIFFRACTION 37 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 655 655 1e7p-a1-m1-cA_1e7p-a1-m1-cD 1e7p-a2-m1-cG_1e7p-a2-m1-cJ 1qlb-a1-m1-cA_1qlb-a1-m1-cD 2bs3-a1-m1-cA_2bs3-a1-m1-cD 2bs4-a1-m1-cA_2bs4-a1-m1-cD MKVQYCDSLVIGGGLAGLRAAVATQQKGLSTIVLSLIPVKRSHSAAAQGGMQASLGNSKMSDGDNEDLHFMDTVKGSDWGCDQKVARMFVNTAPKAIRELAAWGVPWTRIHKGDRMAIINAQKTTITEEDFRHGLIHSRDFGGTKKWRTCYTADATGHTMLFAVANECLKLGVSIQDRKEAIALIHQDGKCYGAVVRDLVTGDIIAYVAKGTLIATGGYGRIYKNTTNAVVCEGTGTAIALETGIAQLGNMEAVQFHPTPLFPSGILLTEGCRGDGGILRDVDGHRFMPDYEPEKKELASRDVVSRRMIEHIRKGKGVQSPYGQHLWLDISILGRKHIETNLRDVQEICEYFAGIDPAEKWAPVLPMQHYSMGGIRTDYRGEAKLKGLFSAGEAACWDMHGFNRLGGNSVSEAVVAGMIVGEYFAEHCANTQVDLETKTLEKFVKGQEAYMKSLVESKGTEDVFKIKNRMKDVMDDNVGIFRDGPHLEKAVKELEELYKKSKNVGIKNKRLHANPELEEAYRVPMMLKVALCVAKGALDRTESRGAHNREDYPKRDDINWLNRTLASWPNPEQTLPTLEYEALDVNEMEIAPGYRGYGAKGNYIENPLSVKRQEEIDKIQSELEAAGKDRHAIQEALMPYELPAKYKARNERLGD MKVQYCDSLVIGGGLAGLRAAVATQQKGLSTIVLSLIPVKRSHSAAAQGGMQASLGNSKMSDGDNEDLHFMDTVKGSDWGCDQKVARMFVNTAPKAIRELAAWGVPWTRIHKGDRMAIINAQKTTITEEDFRHGLIHSRDFGGTKKWRTCYTADATGHTMLFAVANECLKLGVSIQDRKEAIALIHQDGKCYGAVVRDLVTGDIIAYVAKGTLIATGGYGRIYKNTTNAVVCEGTGTAIALETGIAQLGNMEAVQFHPTPLFPSGILLTEGCRGDGGILRDVDGHRFMPDYEPEKKELASRDVVSRRMIEHIRKGKGVQSPYGQHLWLDISILGRKHIETNLRDVQEICEYFAGIDPAEKWAPVLPMQHYSMGGIRTDYRGEAKLKGLFSAGEAACWDMHGFNRLGGNSVSEAVVAGMIVGEYFAEHCANTQVDLETKTLEKFVKGQEAYMKSLVESKGTEDVFKIKNRMKDVMDDNVGIFRDGPHLEKAVKELEELYKKSKNVGIKNKRLHANPELEEAYRVPMMLKVALCVAKGALDRTESRGAHNREDYPKRDDINWLNRTLASWPNPEQTLPTLEYEALDVNEMEIAPGYRGYGAKGNYIENPLSVKRQEEIDKIQSELEAAGKDRHAIQEALMPYELPAKYKARNERLGD 2bs2-a1-m1-cC_2bs2-a1-m1-cF QUINOL:FUMARATE REDUCTASE FROM WOLINELLA SUCCINOGENES P17413 P17413 1.78 X-RAY DIFFRACTION 98 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 254 254 1e7p-a1-m1-cC_1e7p-a1-m1-cF 1e7p-a2-m1-cI_1e7p-a2-m1-cL 1qlb-a1-m1-cC_1qlb-a1-m1-cF 2bs3-a1-m1-cC_2bs3-a1-m1-cF 2bs4-a1-m1-cC_2bs4-a1-m1-cF MTNESILESYSGVTPERKKSRMPAKLDWWQSATGLFLGLFMIGHMFFVSTILLGDNVMLWVTKKFELDFIFEGGKPIVVSFLAAFVFAVFIAHAFLAMRKFPINYRQYLTFKTHKDLMRHGDTTLWWIQAMTGFAMFFLGSVHLYIMMTQPQTIGPVSSSFRMVSEWMWPLYLVLLFAVELHGSVGLYRLAVKWGWFDGETPDKTRANLKKLKTLMSAFLIVLGLLTFGAYVKKGLEQTDPNIDYKYFDYKRTH MTNESILESYSGVTPERKKSRMPAKLDWWQSATGLFLGLFMIGHMFFVSTILLGDNVMLWVTKKFELDFIFEGGKPIVVSFLAAFVFAVFIAHAFLAMRKFPINYRQYLTFKTHKDLMRHGDTTLWWIQAMTGFAMFFLGSVHLYIMMTQPQTIGPVSSSFRMVSEWMWPLYLVLLFAVELHGSVGLYRLAVKWGWFDGETPDKTRANLKKLKTLMSAFLIVLGLLTFGAYVKKGLEQTDPNIDYKYFDYKRTH 2bs9-a2-m1-cE_2bs9-a2-m1-cH Native crystal structure of a GH39 beta-xylosidase XynB1 from Geobacillus stearothermophilus Q9ZFM2 Q9ZFM2 2.2 X-RAY DIFFRACTION 71 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 501 501 1w91-a1-m1-cA_1w91-a1-m1-cD 1w91-a1-m1-cB_1w91-a1-m1-cC 1w91-a2-m1-cE_1w91-a2-m1-cH 1w91-a2-m1-cF_1w91-a2-m1-cG 2bfg-a1-m1-cA_2bfg-a1-m1-cD 2bfg-a1-m1-cB_2bfg-a1-m1-cC 2bfg-a2-m1-cE_2bfg-a2-m1-cH 2bfg-a2-m1-cF_2bfg-a2-m1-cG 2bs9-a1-m1-cA_2bs9-a1-m1-cD 2bs9-a1-m1-cB_2bs9-a1-m1-cC 2bs9-a2-m1-cF_2bs9-a2-m1-cG GVVNVPSNGREKFKKNWKFCVGTGRLGLALQKEYLDHLKLVQEKIGFRYIRGHGLLSDDVGIYREVEIDGEMKPFYNFTYIDRIVDSYLALNIRPFIEFGFMPKALASGDQTVFYWKGNVTPPKDYNKWRDLIVAVVSHFIERYGIEEVRTWLFEVWNEPNLVNFWKDANKQEYFKLYEVTARAVKSVDPHLQVGGPAICGGSDEWITDFLHFCAERRVPVDFVSRHAYTSKAPHKKTFEYYYQELEPPEDMLEQFKTVRALIRQSPFPHLPLHITEYNTSYSPINPVHDTALNAAYIARILSEGGDYVDSFSYWTFSDVFEEMDVPKALFHGGFGLVALHSIPKPTFHAFTFFNALGDELLYRDGEMIVTRRKDGSIAAVLWNLVMEKGEGLTKEVQLVIPVSESAVFIKRQIVNEQYGNAWRVWKQMGRPRFPSRQAVETLRQVAQPHVMTEQRRATDGVIHLSIVLSKNEVTLIEIEQVRDETSTYVGLDDGEITSYS GVVNVPSNGREKFKKNWKFCVGTGRLGLALQKEYLDHLKLVQEKIGFRYIRGHGLLSDDVGIYREVEIDGEMKPFYNFTYIDRIVDSYLALNIRPFIEFGFMPKALASGDQTVFYWKGNVTPPKDYNKWRDLIVAVVSHFIERYGIEEVRTWLFEVWNEPNLVNFWKDANKQEYFKLYEVTARAVKSVDPHLQVGGPAICGGSDEWITDFLHFCAERRVPVDFVSRHAYTSKAPHKKTFEYYYQELEPPEDMLEQFKTVRALIRQSPFPHLPLHITEYNTSYSPINPVHDTALNAAYIARILSEGGDYVDSFSYWTFSDVFEEMDVPKALFHGGFGLVALHSIPKPTFHAFTFFNALGDELLYRDGEMIVTRRKDGSIAAVLWNLVMEKGEGLTKEVQLVIPVSESAVFIKRQIVNEQYGNAWRVWKQMGRPRFPSRQAVETLRQVAQPHVMTEQRRATDGVIHLSIVLSKNEVTLIEIEQVRDETSTYVGLDDGEITSYS 2bs9-a2-m1-cF_2bs9-a2-m1-cH Native crystal structure of a GH39 beta-xylosidase XynB1 from Geobacillus stearothermophilus Q9ZFM2 Q9ZFM2 2.2 X-RAY DIFFRACTION 152 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 501 501 1w91-a1-m1-cA_1w91-a1-m1-cC 1w91-a1-m1-cB_1w91-a1-m1-cD 1w91-a2-m1-cE_1w91-a2-m1-cG 1w91-a2-m1-cF_1w91-a2-m1-cH 2bfg-a1-m1-cA_2bfg-a1-m1-cC 2bfg-a1-m1-cB_2bfg-a1-m1-cD 2bfg-a2-m1-cE_2bfg-a2-m1-cG 2bfg-a2-m1-cF_2bfg-a2-m1-cH 2bs9-a1-m1-cA_2bs9-a1-m1-cC 2bs9-a1-m1-cB_2bs9-a1-m1-cD 2bs9-a2-m1-cE_2bs9-a2-m1-cG GVVNVPSNGREKFKKNWKFCVGTGRLGLALQKEYLDHLKLVQEKIGFRYIRGHGLLSDDVGIYREVEIDGEMKPFYNFTYIDRIVDSYLALNIRPFIEFGFMPKALASGDQTVFYWKGNVTPPKDYNKWRDLIVAVVSHFIERYGIEEVRTWLFEVWNEPNLVNFWKDANKQEYFKLYEVTARAVKSVDPHLQVGGPAICGGSDEWITDFLHFCAERRVPVDFVSRHAYTSKAPHKKTFEYYYQELEPPEDMLEQFKTVRALIRQSPFPHLPLHITEYNTSYSPINPVHDTALNAAYIARILSEGGDYVDSFSYWTFSDVFEEMDVPKALFHGGFGLVALHSIPKPTFHAFTFFNALGDELLYRDGEMIVTRRKDGSIAAVLWNLVMEKGEGLTKEVQLVIPVSESAVFIKRQIVNEQYGNAWRVWKQMGRPRFPSRQAVETLRQVAQPHVMTEQRRATDGVIHLSIVLSKNEVTLIEIEQVRDETSTYVGLDDGEITSYS GVVNVPSNGREKFKKNWKFCVGTGRLGLALQKEYLDHLKLVQEKIGFRYIRGHGLLSDDVGIYREVEIDGEMKPFYNFTYIDRIVDSYLALNIRPFIEFGFMPKALASGDQTVFYWKGNVTPPKDYNKWRDLIVAVVSHFIERYGIEEVRTWLFEVWNEPNLVNFWKDANKQEYFKLYEVTARAVKSVDPHLQVGGPAICGGSDEWITDFLHFCAERRVPVDFVSRHAYTSKAPHKKTFEYYYQELEPPEDMLEQFKTVRALIRQSPFPHLPLHITEYNTSYSPINPVHDTALNAAYIARILSEGGDYVDSFSYWTFSDVFEEMDVPKALFHGGFGLVALHSIPKPTFHAFTFFNALGDELLYRDGEMIVTRRKDGSIAAVLWNLVMEKGEGLTKEVQLVIPVSESAVFIKRQIVNEQYGNAWRVWKQMGRPRFPSRQAVETLRQVAQPHVMTEQRRATDGVIHLSIVLSKNEVTLIEIEQVRDETSTYVGLDDGEITSYS 2bsg-a1-m1-cA_2bsg-a1-m1-cB The modeled structure of fibritin (gpwac) of bacteriophage T4 based on cryo-EM reconstruction of the extended tail of bacteriophage T4 P10104 P10104 15.0 ELECTRON MICROSCOPY 255 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 363 363 1aa0-a1-m1-cA_1aa0-a1-m2-cA 1aa0-a1-m1-cA_1aa0-a1-m3-cA 1aa0-a1-m2-cA_1aa0-a1-m3-cA 4ncv-a1-m1-cA_4ncv-a1-m1-cC 4ncw-a1-m1-cB_4ncw-a1-m1-cA 4ncw-a1-m1-cB_4ncw-a1-m1-cC DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQIVSLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQIVSLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL 2bsg-a1-m1-cA_2bsg-a1-m1-cC The modeled structure of fibritin (gpwac) of bacteriophage T4 based on cryo-EM reconstruction of the extended tail of bacteriophage T4 P10104 P10104 15.0 ELECTRON MICROSCOPY 263 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 363 363 4ncv-a1-m1-cB_4ncv-a1-m1-cC DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQIVSLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQIVSLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL 2bsg-a1-m1-cB_2bsg-a1-m1-cC The modeled structure of fibritin (gpwac) of bacteriophage T4 based on cryo-EM reconstruction of the extended tail of bacteriophage T4 P10104 P10104 15.0 ELECTRON MICROSCOPY 254 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 363 363 1avy-a1-m1-cA_1avy-a1-m2-cA 1avy-a1-m1-cA_1avy-a1-m3-cA 1avy-a1-m2-cA_1avy-a1-m3-cA 1avy-a2-m1-cB_1avy-a2-m4-cB 1avy-a2-m1-cB_1avy-a2-m5-cB 1avy-a2-m4-cB_1avy-a2-m5-cB 1avy-a3-m1-cC_1avy-a3-m6-cC 1avy-a3-m1-cC_1avy-a3-m7-cC 1avy-a3-m6-cC_1avy-a3-m7-cC 4ncu-a1-m1-cA_4ncu-a1-m2-cA 4ncu-a1-m1-cA_4ncu-a1-m3-cA 4ncu-a1-m2-cA_4ncu-a1-m3-cA 4ncv-a1-m1-cA_4ncv-a1-m1-cB 4ncw-a1-m1-cC_4ncw-a1-m1-cA DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQIVSLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQIVSLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL 2bti-a1-m1-cB_2bti-a1-m1-cA Structure-function studies of the RmsA CsrA post-transcriptional global regulator protein family reveals a class of RNA-binding structure A1JK11 A1JK11 2 X-RAY DIFFRACTION 130 0.982 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 55 56 1vpz-a1-m1-cB_1vpz-a1-m1-cA 7yr6-a1-m1-cB_7yr6-a1-m1-cC 7yr7-a1-m1-cB_7yr7-a1-m1-cD 7yr7-a1-m1-cC_7yr7-a1-m1-cF 7yr7-a1-m1-cE_7yr7-a1-m1-cG GSLILTRRVGETLIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEK SLILTRRVGETLIGDEVTVTVLGVKGNQVRIGVNAPKEVSVHREEIYQRIQAEKSQ 2btm-a1-m1-cA_2btm-a1-m1-cB DOES THE HIS12-LYS13 PAIR PLAY A ROLE IN THE ADAPTATION OF THERMOPHILIC TIMS TO HIGH TEMPERATURES? P00943 P00943 2.4 X-RAY DIFFRACTION 138 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 250 250 1btm-a1-m1-cA_1btm-a1-m1-cB RKPIIAGNWKMNGTLAEAVQFVEDVKGHVPPADEVISVVCAPFLFLDRLVQAADGTDLKIGAQTMHFADQGAYTGEVSPVMLKDLGVTYVILGHSERRQMFAETDETVNKKVLAAFTRGLIPIICCGESLEEREAGQTNAVVASQVEKALAGLTPEQVKQAVIAYEPIWAIGTGKSSTPEDANSVCGHIRSVVSRLFGPEAAEAIRIQYGGSVKPDNIRDFLAQQQIDGALVGGASLEPASFLQLVEAGR RKPIIAGNWKMNGTLAEAVQFVEDVKGHVPPADEVISVVCAPFLFLDRLVQAADGTDLKIGAQTMHFADQGAYTGEVSPVMLKDLGVTYVILGHSERRQMFAETDETVNKKVLAAFTRGLIPIICCGESLEEREAGQTNAVVASQVEKALAGLTPEQVKQAVIAYEPIWAIGTGKSSTPEDANSVCGHIRSVVSRLFGPEAAEAIRIQYGGSVKPDNIRDFLAQQQIDGALVGGASLEPASFLQLVEAGR 2bto-a1-m2-cB_2bto-a1-m3-cB Structure of BtubA from Prosthecobacter dejongeii Q8GCC5 Q8GCC5 2.5 X-RAY DIFFRACTION 21 1.0 48465 (Prosthecobacter dejongeii) 48465 (Prosthecobacter dejongeii) 423 423 2bto-a1-m1-cB_2bto-a1-m2-cB 2bto-a1-m1-cB_2bto-a1-m3-cB VNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEISLRELLTNLVPQPSLHFLMCAFAPLTPPDRSKFEELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEE VNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEISLRELLTNLVPQPSLHFLMCAFAPLTPPDRSKFEELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEE 2bto-a1-m3-cA_2bto-a1-m3-cB Structure of BtubA from Prosthecobacter dejongeii Q8GCC5 Q8GCC5 2.5 X-RAY DIFFRACTION 56 0.983 48465 (Prosthecobacter dejongeii) 48465 (Prosthecobacter dejongeii) 413 423 2bto-a1-m1-cA_2bto-a1-m1-cB 2bto-a1-m2-cA_2bto-a1-m2-cB VNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPQVSSVVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFEISLRELLTNLVPQPSLHFLMCAFAPLTPPDELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIPLADAALAAMREKLPLTYWIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEE VNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEISLRELLTNLVPQPSLHFLMCAFAPLTPPDRSKFEELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEE 2btq-a1-m1-cA_2btq-a1-m2-cA Structure of BtubAB heterodimer from Prosthecobacter dejongeii Q8GCC5 Q8GCC5 3.2 X-RAY DIFFRACTION 54 1.0 48465 (Prosthecobacter dejongeii) 48465 (Prosthecobacter dejongeii) 436 436 KVNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPQVSSVVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEISLRELLTNLVPQPSLHFLMCAFAPLTPPDELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTYWIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEESGAKAKVQDS KVNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPQVSSVVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEISLRELLTNLVPQPSLHFLMCAFAPLTPPDELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTYWIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEESGAKAKVQDS 2btu-a1-m1-cB_2btu-a1-m1-cA Crystal structure of Phosphoribosylformylglycinamidine cyclo-ligase from Bacillus Anthracis at 2.3A resolution. Q81ZH0 Q81ZH0 2.31 X-RAY DIFFRACTION 145 0.987 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 307 322 IEAGYEAVSRMKKHVQTTMRKEVLGGLGGFGGMFDLEEPVLVSGTDGGTKLMLAFMADKHDTIGIDAVAMCVNDIVVQGAEPLFFLDYIACGKAEPSKIENIVKGISEGCRQAGCALIGGETAEMPGMYTEEYDLAGFTVGIVDKKKIVTGEKIEAGHVLIGLASSGIHSNGYSLVRKVLLEDGPLGEELLKPTKIYVKPILELLKNHEVYGMAHITGGGFIENIPRMLPEGIGAEIELGSWKIQPIFSLLQEVGKLEEKEMFNIFNMGIGMVVAVKEEDAKDIVRLLEEQGETARIIGRTVQGAGV EAGYEAVSRMKKHVQTTMRKEVLGGFGGMFDLSKFALEEPVLVSGTDGVGTKLMLAFMADKHDTIGIDAVAMCVNDIVVQGAEPLFFLDYIACGKAEPSKIENIVKGISEGCRQAGCALIGGETAEMPGMYSTEEYDLAGFTVGIVDKKKIVTGEKIEAGHVLIGLASSGIHSNGYSLVRKVLLEDGELIYGRLELPLGEELLKPTKIYVKPILELLKNHEVYGMAHITGGGFIENIPRMLPEGIGAEIELGSWKIQPIFSLLQEVGKLEEKEMFNIFNMGIGMVVAVKEEDAKDIVRLLEEQGETARIIGRTVQGAGVTFN 2btv-a1-m10-cA_2btv-a1-m9-cB ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P56582 P56582 3.5 X-RAY DIFFRACTION 145 0.988 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 845 885 2btv-a1-m11-cA_2btv-a1-m15-cB 2btv-a1-m12-cA_2btv-a1-m11-cB 2btv-a1-m13-cA_2btv-a1-m12-cB 2btv-a1-m14-cA_2btv-a1-m13-cB 2btv-a1-m15-cA_2btv-a1-m14-cB 2btv-a1-m16-cA_2btv-a1-m20-cB 2btv-a1-m17-cA_2btv-a1-m16-cB 2btv-a1-m18-cA_2btv-a1-m17-cB 2btv-a1-m19-cA_2btv-a1-m18-cB 2btv-a1-m1-cA_2btv-a1-m5-cB 2btv-a1-m20-cA_2btv-a1-m19-cB 2btv-a1-m21-cA_2btv-a1-m25-cB 2btv-a1-m22-cA_2btv-a1-m21-cB 2btv-a1-m23-cA_2btv-a1-m22-cB 2btv-a1-m24-cA_2btv-a1-m23-cB 2btv-a1-m25-cA_2btv-a1-m24-cB 2btv-a1-m26-cA_2btv-a1-m30-cB 2btv-a1-m27-cA_2btv-a1-m26-cB 2btv-a1-m28-cA_2btv-a1-m27-cB 2btv-a1-m29-cA_2btv-a1-m28-cB 2btv-a1-m2-cA_2btv-a1-m1-cB 2btv-a1-m30-cA_2btv-a1-m29-cB 2btv-a1-m31-cA_2btv-a1-m35-cB 2btv-a1-m32-cA_2btv-a1-m31-cB 2btv-a1-m33-cA_2btv-a1-m32-cB 2btv-a1-m34-cA_2btv-a1-m33-cB 2btv-a1-m35-cA_2btv-a1-m34-cB 2btv-a1-m36-cA_2btv-a1-m40-cB 2btv-a1-m37-cA_2btv-a1-m36-cB 2btv-a1-m38-cA_2btv-a1-m37-cB 2btv-a1-m39-cA_2btv-a1-m38-cB 2btv-a1-m3-cA_2btv-a1-m2-cB 2btv-a1-m40-cA_2btv-a1-m39-cB 2btv-a1-m41-cA_2btv-a1-m45-cB 2btv-a1-m42-cA_2btv-a1-m41-cB 2btv-a1-m43-cA_2btv-a1-m42-cB 2btv-a1-m44-cA_2btv-a1-m43-cB 2btv-a1-m45-cA_2btv-a1-m44-cB 2btv-a1-m46-cA_2btv-a1-m50-cB 2btv-a1-m47-cA_2btv-a1-m46-cB 2btv-a1-m48-cA_2btv-a1-m47-cB 2btv-a1-m49-cA_2btv-a1-m48-cB 2btv-a1-m4-cA_2btv-a1-m3-cB 2btv-a1-m50-cA_2btv-a1-m49-cB 2btv-a1-m51-cA_2btv-a1-m55-cB 2btv-a1-m52-cA_2btv-a1-m51-cB 2btv-a1-m53-cA_2btv-a1-m52-cB 2btv-a1-m54-cA_2btv-a1-m53-cB 2btv-a1-m55-cA_2btv-a1-m54-cB 2btv-a1-m56-cA_2btv-a1-m60-cB 2btv-a1-m57-cA_2btv-a1-m56-cB 2btv-a1-m58-cA_2btv-a1-m57-cB 2btv-a1-m59-cA_2btv-a1-m58-cB 2btv-a1-m5-cA_2btv-a1-m4-cB 2btv-a1-m60-cA_2btv-a1-m59-cB 2btv-a1-m6-cA_2btv-a1-m10-cB 2btv-a1-m7-cA_2btv-a1-m6-cB 2btv-a1-m8-cA_2btv-a1-m7-cB 2btv-a1-m9-cA_2btv-a1-m8-cB 6pns-a1-m1-cB_6pns-a1-m1-cK 6pns-a1-m1-cD_6pns-a1-m1-cC 6pns-a1-m1-cF_6pns-a1-m1-cE 6pns-a1-m1-cH_6pns-a1-m1-cG 6pns-a1-m1-cJ_6pns-a1-m1-cI 6po2-a1-m1-cB_6po2-a1-m1-cK 6po2-a1-m1-cD_6po2-a1-m1-cC 6po2-a1-m1-cF_6po2-a1-m1-cE 6po2-a1-m1-cH_6po2-a1-m1-cG 6po2-a1-m1-cJ_6po2-a1-m1-cI VDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTNEKGGLSYATIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV QRPERIKTTPYLEGDVLSSDSGPLLSVFALQEIMQKVRQVQADYMTATREVDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV 2btv-a1-m10-cF_2btv-a1-m9-cI ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P18259 P18259 3.5 X-RAY DIFFRACTION 26 1.0 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 349 349 2btv-a1-m10-cD_2btv-a1-m6-cP 2btv-a1-m10-cH_2btv-a1-m10-cJ 2btv-a1-m10-cI_2btv-a1-m6-cF 2btv-a1-m10-cP_2btv-a1-m9-cD 2btv-a1-m11-cD_2btv-a1-m12-cP 2btv-a1-m11-cF_2btv-a1-m15-cI 2btv-a1-m11-cH_2btv-a1-m11-cJ 2btv-a1-m11-cI_2btv-a1-m12-cF 2btv-a1-m11-cP_2btv-a1-m15-cD 2btv-a1-m12-cD_2btv-a1-m13-cP 2btv-a1-m12-cH_2btv-a1-m12-cJ 2btv-a1-m12-cI_2btv-a1-m13-cF 2btv-a1-m13-cD_2btv-a1-m14-cP 2btv-a1-m13-cH_2btv-a1-m13-cJ 2btv-a1-m13-cI_2btv-a1-m14-cF 2btv-a1-m14-cD_2btv-a1-m15-cP 2btv-a1-m14-cH_2btv-a1-m14-cJ 2btv-a1-m14-cI_2btv-a1-m15-cF 2btv-a1-m15-cH_2btv-a1-m15-cJ 2btv-a1-m16-cD_2btv-a1-m17-cP 2btv-a1-m16-cF_2btv-a1-m20-cI 2btv-a1-m16-cH_2btv-a1-m16-cJ 2btv-a1-m16-cI_2btv-a1-m17-cF 2btv-a1-m16-cP_2btv-a1-m20-cD 2btv-a1-m17-cD_2btv-a1-m18-cP 2btv-a1-m17-cH_2btv-a1-m17-cJ 2btv-a1-m17-cI_2btv-a1-m18-cF 2btv-a1-m18-cD_2btv-a1-m19-cP 2btv-a1-m18-cH_2btv-a1-m18-cJ 2btv-a1-m18-cI_2btv-a1-m19-cF 2btv-a1-m19-cD_2btv-a1-m20-cP 2btv-a1-m19-cH_2btv-a1-m19-cJ 2btv-a1-m19-cI_2btv-a1-m20-cF 2btv-a1-m1-cD_2btv-a1-m2-cP 2btv-a1-m1-cF_2btv-a1-m5-cI 2btv-a1-m1-cH_2btv-a1-m1-cJ 2btv-a1-m1-cI_2btv-a1-m2-cF 2btv-a1-m1-cP_2btv-a1-m5-cD 2btv-a1-m20-cH_2btv-a1-m20-cJ 2btv-a1-m21-cD_2btv-a1-m22-cP 2btv-a1-m21-cF_2btv-a1-m25-cI 2btv-a1-m21-cH_2btv-a1-m21-cJ 2btv-a1-m21-cI_2btv-a1-m22-cF 2btv-a1-m21-cP_2btv-a1-m25-cD 2btv-a1-m22-cD_2btv-a1-m23-cP 2btv-a1-m22-cH_2btv-a1-m22-cJ 2btv-a1-m22-cI_2btv-a1-m23-cF 2btv-a1-m23-cD_2btv-a1-m24-cP 2btv-a1-m23-cH_2btv-a1-m23-cJ 2btv-a1-m23-cI_2btv-a1-m24-cF 2btv-a1-m24-cD_2btv-a1-m25-cP 2btv-a1-m24-cH_2btv-a1-m24-cJ 2btv-a1-m24-cI_2btv-a1-m25-cF 2btv-a1-m25-cH_2btv-a1-m25-cJ 2btv-a1-m26-cD_2btv-a1-m27-cP 2btv-a1-m26-cF_2btv-a1-m30-cI 2btv-a1-m26-cH_2btv-a1-m26-cJ 2btv-a1-m26-cI_2btv-a1-m27-cF 2btv-a1-m26-cP_2btv-a1-m30-cD 2btv-a1-m27-cD_2btv-a1-m28-cP 2btv-a1-m27-cH_2btv-a1-m27-cJ 2btv-a1-m27-cI_2btv-a1-m28-cF 2btv-a1-m28-cD_2btv-a1-m29-cP 2btv-a1-m28-cH_2btv-a1-m28-cJ 2btv-a1-m28-cI_2btv-a1-m29-cF 2btv-a1-m29-cD_2btv-a1-m30-cP 2btv-a1-m29-cH_2btv-a1-m29-cJ 2btv-a1-m29-cI_2btv-a1-m30-cF 2btv-a1-m2-cD_2btv-a1-m3-cP 2btv-a1-m2-cH_2btv-a1-m2-cJ 2btv-a1-m2-cI_2btv-a1-m3-cF 2btv-a1-m30-cH_2btv-a1-m30-cJ 2btv-a1-m31-cD_2btv-a1-m32-cP 2btv-a1-m31-cF_2btv-a1-m35-cI 2btv-a1-m31-cH_2btv-a1-m31-cJ 2btv-a1-m31-cI_2btv-a1-m32-cF 2btv-a1-m31-cP_2btv-a1-m35-cD 2btv-a1-m32-cD_2btv-a1-m33-cP 2btv-a1-m32-cH_2btv-a1-m32-cJ 2btv-a1-m32-cI_2btv-a1-m33-cF 2btv-a1-m33-cD_2btv-a1-m34-cP 2btv-a1-m33-cH_2btv-a1-m33-cJ 2btv-a1-m33-cI_2btv-a1-m34-cF 2btv-a1-m34-cD_2btv-a1-m35-cP 2btv-a1-m34-cH_2btv-a1-m34-cJ 2btv-a1-m34-cI_2btv-a1-m35-cF 2btv-a1-m35-cH_2btv-a1-m35-cJ 2btv-a1-m36-cD_2btv-a1-m37-cP 2btv-a1-m36-cF_2btv-a1-m40-cI 2btv-a1-m36-cH_2btv-a1-m36-cJ 2btv-a1-m36-cI_2btv-a1-m37-cF 2btv-a1-m36-cP_2btv-a1-m40-cD 2btv-a1-m37-cD_2btv-a1-m38-cP 2btv-a1-m37-cH_2btv-a1-m37-cJ 2btv-a1-m37-cI_2btv-a1-m38-cF 2btv-a1-m38-cD_2btv-a1-m39-cP 2btv-a1-m38-cH_2btv-a1-m38-cJ 2btv-a1-m38-cI_2btv-a1-m39-cF 2btv-a1-m39-cD_2btv-a1-m40-cP 2btv-a1-m39-cH_2btv-a1-m39-cJ 2btv-a1-m39-cI_2btv-a1-m40-cF 2btv-a1-m3-cD_2btv-a1-m4-cP 2btv-a1-m3-cH_2btv-a1-m3-cJ 2btv-a1-m3-cI_2btv-a1-m4-cF 2btv-a1-m40-cH_2btv-a1-m40-cJ 2btv-a1-m41-cD_2btv-a1-m42-cP 2btv-a1-m41-cF_2btv-a1-m45-cI 2btv-a1-m41-cH_2btv-a1-m41-cJ 2btv-a1-m41-cI_2btv-a1-m42-cF 2btv-a1-m41-cP_2btv-a1-m45-cD 2btv-a1-m42-cD_2btv-a1-m43-cP 2btv-a1-m42-cH_2btv-a1-m42-cJ 2btv-a1-m42-cI_2btv-a1-m43-cF 2btv-a1-m43-cD_2btv-a1-m44-cP 2btv-a1-m43-cH_2btv-a1-m43-cJ 2btv-a1-m43-cI_2btv-a1-m44-cF 2btv-a1-m44-cD_2btv-a1-m45-cP 2btv-a1-m44-cH_2btv-a1-m44-cJ 2btv-a1-m44-cI_2btv-a1-m45-cF 2btv-a1-m45-cH_2btv-a1-m45-cJ 2btv-a1-m46-cD_2btv-a1-m47-cP 2btv-a1-m46-cF_2btv-a1-m50-cI 2btv-a1-m46-cH_2btv-a1-m46-cJ 2btv-a1-m46-cI_2btv-a1-m47-cF 2btv-a1-m46-cP_2btv-a1-m50-cD 2btv-a1-m47-cD_2btv-a1-m48-cP 2btv-a1-m47-cH_2btv-a1-m47-cJ 2btv-a1-m47-cI_2btv-a1-m48-cF 2btv-a1-m48-cD_2btv-a1-m49-cP 2btv-a1-m48-cH_2btv-a1-m48-cJ 2btv-a1-m48-cI_2btv-a1-m49-cF 2btv-a1-m49-cD_2btv-a1-m50-cP 2btv-a1-m49-cH_2btv-a1-m49-cJ 2btv-a1-m49-cI_2btv-a1-m50-cF 2btv-a1-m4-cD_2btv-a1-m5-cP 2btv-a1-m4-cH_2btv-a1-m4-cJ 2btv-a1-m4-cI_2btv-a1-m5-cF 2btv-a1-m50-cH_2btv-a1-m50-cJ 2btv-a1-m51-cD_2btv-a1-m52-cP 2btv-a1-m51-cF_2btv-a1-m55-cI 2btv-a1-m51-cH_2btv-a1-m51-cJ 2btv-a1-m51-cI_2btv-a1-m52-cF 2btv-a1-m51-cP_2btv-a1-m55-cD 2btv-a1-m52-cD_2btv-a1-m53-cP 2btv-a1-m52-cH_2btv-a1-m52-cJ 2btv-a1-m52-cI_2btv-a1-m53-cF 2btv-a1-m53-cD_2btv-a1-m54-cP 2btv-a1-m53-cH_2btv-a1-m53-cJ 2btv-a1-m53-cI_2btv-a1-m54-cF 2btv-a1-m54-cD_2btv-a1-m55-cP 2btv-a1-m54-cH_2btv-a1-m54-cJ 2btv-a1-m54-cI_2btv-a1-m55-cF 2btv-a1-m55-cH_2btv-a1-m55-cJ 2btv-a1-m56-cD_2btv-a1-m57-cP 2btv-a1-m56-cF_2btv-a1-m60-cI 2btv-a1-m56-cH_2btv-a1-m56-cJ 2btv-a1-m56-cI_2btv-a1-m57-cF 2btv-a1-m56-cP_2btv-a1-m60-cD 2btv-a1-m57-cD_2btv-a1-m58-cP 2btv-a1-m57-cH_2btv-a1-m57-cJ 2btv-a1-m57-cI_2btv-a1-m58-cF 2btv-a1-m58-cD_2btv-a1-m59-cP 2btv-a1-m58-cH_2btv-a1-m58-cJ 2btv-a1-m58-cI_2btv-a1-m59-cF 2btv-a1-m59-cD_2btv-a1-m60-cP 2btv-a1-m59-cH_2btv-a1-m59-cJ 2btv-a1-m59-cI_2btv-a1-m60-cF 2btv-a1-m5-cH_2btv-a1-m5-cJ 2btv-a1-m60-cH_2btv-a1-m60-cJ 2btv-a1-m6-cD_2btv-a1-m7-cP 2btv-a1-m6-cH_2btv-a1-m6-cJ 2btv-a1-m6-cI_2btv-a1-m7-cF 2btv-a1-m7-cD_2btv-a1-m8-cP 2btv-a1-m7-cH_2btv-a1-m7-cJ 2btv-a1-m7-cI_2btv-a1-m8-cF 2btv-a1-m8-cD_2btv-a1-m9-cP 2btv-a1-m8-cH_2btv-a1-m8-cJ 2btv-a1-m8-cI_2btv-a1-m9-cF 2btv-a1-m9-cH_2btv-a1-m9-cJ MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAATAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVRNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAIRNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAMHGVNPMPGPLTAAIARAAYV MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAATAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVRNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAIRNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAMHGVNPMPGPLTAAIARAAYV 2btv-a1-m24-cA_2btv-a1-m9-cB ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P56582 P56582 3.5 X-RAY DIFFRACTION 63 0.988 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 845 885 2btv-a1-m10-cA_2btv-a1-m23-cB 2btv-a1-m11-cA_2btv-a1-m20-cB 2btv-a1-m12-cA_2btv-a1-m37-cB 2btv-a1-m13-cA_2btv-a1-m46-cB 2btv-a1-m14-cA_2btv-a1-m44-cB 2btv-a1-m15-cA_2btv-a1-m28-cB 2btv-a1-m16-cA_2btv-a1-m15-cB 2btv-a1-m17-cA_2btv-a1-m27-cB 2btv-a1-m18-cA_2btv-a1-m51-cB 2btv-a1-m19-cA_2btv-a1-m59-cB 2btv-a1-m1-cA_2btv-a1-m10-cB 2btv-a1-m20-cA_2btv-a1-m38-cB 2btv-a1-m21-cA_2btv-a1-m30-cB 2btv-a1-m22-cA_2btv-a1-m42-cB 2btv-a1-m23-cA_2btv-a1-m1-cB 2btv-a1-m25-cA_2btv-a1-m53-cB 2btv-a1-m26-cA_2btv-a1-m25-cB 2btv-a1-m27-cA_2btv-a1-m52-cB 2btv-a1-m28-cA_2btv-a1-m16-cB 2btv-a1-m29-cA_2btv-a1-m14-cB 2btv-a1-m2-cA_2btv-a1-m22-cB 2btv-a1-m30-cA_2btv-a1-m43-cB 2btv-a1-m31-cA_2btv-a1-m40-cB 2btv-a1-m32-cA_2btv-a1-m57-cB 2btv-a1-m33-cA_2btv-a1-m6-cB 2btv-a1-m34-cA_2btv-a1-m4-cB 2btv-a1-m35-cA_2btv-a1-m48-cB 2btv-a1-m36-cA_2btv-a1-m35-cB 2btv-a1-m37-cA_2btv-a1-m47-cB 2btv-a1-m38-cA_2btv-a1-m11-cB 2btv-a1-m39-cA_2btv-a1-m19-cB 2btv-a1-m3-cA_2btv-a1-m41-cB 2btv-a1-m40-cA_2btv-a1-m58-cB 2btv-a1-m41-cA_2btv-a1-m50-cB 2btv-a1-m42-cA_2btv-a1-m2-cB 2btv-a1-m43-cA_2btv-a1-m21-cB 2btv-a1-m44-cA_2btv-a1-m29-cB 2btv-a1-m45-cA_2btv-a1-m13-cB 2btv-a1-m46-cA_2btv-a1-m45-cB 2btv-a1-m47-cA_2btv-a1-m12-cB 2btv-a1-m48-cA_2btv-a1-m36-cB 2btv-a1-m49-cA_2btv-a1-m34-cB 2btv-a1-m4-cA_2btv-a1-m49-cB 2btv-a1-m50-cA_2btv-a1-m3-cB 2btv-a1-m51-cA_2btv-a1-m60-cB 2btv-a1-m52-cA_2btv-a1-m17-cB 2btv-a1-m53-cA_2btv-a1-m26-cB 2btv-a1-m54-cA_2btv-a1-m24-cB 2btv-a1-m55-cA_2btv-a1-m8-cB 2btv-a1-m56-cA_2btv-a1-m55-cB 2btv-a1-m57-cA_2btv-a1-m7-cB 2btv-a1-m58-cA_2btv-a1-m31-cB 2btv-a1-m59-cA_2btv-a1-m39-cB 2btv-a1-m5-cA_2btv-a1-m33-cB 2btv-a1-m60-cA_2btv-a1-m18-cB 2btv-a1-m6-cA_2btv-a1-m5-cB 2btv-a1-m7-cA_2btv-a1-m32-cB 2btv-a1-m8-cA_2btv-a1-m56-cB 2btv-a1-m9-cA_2btv-a1-m54-cB VDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTNEKGGLSYATIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV QRPERIKTTPYLEGDVLSSDSGPLLSVFALQEIMQKVRQVQADYMTATREVDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV 2btv-a1-m54-cB_2btv-a1-m9-cB ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P56582 P56582 3.5 X-RAY DIFFRACTION 38 1.0 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 885 885 2btv-a1-m10-cB_2btv-a1-m23-cB 2btv-a1-m11-cB_2btv-a1-m20-cB 2btv-a1-m11-cB_2btv-a1-m38-cB 2btv-a1-m12-cB_2btv-a1-m37-cB 2btv-a1-m12-cB_2btv-a1-m47-cB 2btv-a1-m13-cB_2btv-a1-m45-cB 2btv-a1-m13-cB_2btv-a1-m46-cB 2btv-a1-m14-cB_2btv-a1-m29-cB 2btv-a1-m14-cB_2btv-a1-m44-cB 2btv-a1-m15-cB_2btv-a1-m16-cB 2btv-a1-m15-cB_2btv-a1-m28-cB 2btv-a1-m16-cB_2btv-a1-m28-cB 2btv-a1-m17-cB_2btv-a1-m27-cB 2btv-a1-m17-cB_2btv-a1-m52-cB 2btv-a1-m18-cB_2btv-a1-m51-cB 2btv-a1-m18-cB_2btv-a1-m60-cB 2btv-a1-m19-cB_2btv-a1-m39-cB 2btv-a1-m19-cB_2btv-a1-m59-cB 2btv-a1-m1-cB_2btv-a1-m10-cB 2btv-a1-m1-cB_2btv-a1-m23-cB 2btv-a1-m20-cB_2btv-a1-m38-cB 2btv-a1-m21-cB_2btv-a1-m30-cB 2btv-a1-m21-cB_2btv-a1-m43-cB 2btv-a1-m22-cB_2btv-a1-m42-cB 2btv-a1-m24-cB_2btv-a1-m54-cB 2btv-a1-m24-cB_2btv-a1-m9-cB 2btv-a1-m25-cB_2btv-a1-m26-cB 2btv-a1-m25-cB_2btv-a1-m53-cB 2btv-a1-m26-cB_2btv-a1-m53-cB 2btv-a1-m27-cB_2btv-a1-m52-cB 2btv-a1-m29-cB_2btv-a1-m44-cB 2btv-a1-m2-cB_2btv-a1-m22-cB 2btv-a1-m2-cB_2btv-a1-m42-cB 2btv-a1-m30-cB_2btv-a1-m43-cB 2btv-a1-m31-cB_2btv-a1-m40-cB 2btv-a1-m31-cB_2btv-a1-m58-cB 2btv-a1-m32-cB_2btv-a1-m57-cB 2btv-a1-m32-cB_2btv-a1-m7-cB 2btv-a1-m33-cB_2btv-a1-m5-cB 2btv-a1-m33-cB_2btv-a1-m6-cB 2btv-a1-m34-cB_2btv-a1-m49-cB 2btv-a1-m34-cB_2btv-a1-m4-cB 2btv-a1-m35-cB_2btv-a1-m36-cB 2btv-a1-m35-cB_2btv-a1-m48-cB 2btv-a1-m36-cB_2btv-a1-m48-cB 2btv-a1-m37-cB_2btv-a1-m47-cB 2btv-a1-m39-cB_2btv-a1-m59-cB 2btv-a1-m3-cB_2btv-a1-m41-cB 2btv-a1-m3-cB_2btv-a1-m50-cB 2btv-a1-m40-cB_2btv-a1-m58-cB 2btv-a1-m41-cB_2btv-a1-m50-cB 2btv-a1-m45-cB_2btv-a1-m46-cB 2btv-a1-m4-cB_2btv-a1-m49-cB 2btv-a1-m51-cB_2btv-a1-m60-cB 2btv-a1-m55-cB_2btv-a1-m56-cB 2btv-a1-m55-cB_2btv-a1-m8-cB 2btv-a1-m56-cB_2btv-a1-m8-cB 2btv-a1-m57-cB_2btv-a1-m7-cB 2btv-a1-m5-cB_2btv-a1-m6-cB QRPERIKTTPYLEGDVLSSDSGPLLSVFALQEIMQKVRQVQADYMTATREVDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV QRPERIKTTPYLEGDVLSSDSGPLLSVFALQEIMQKVRQVQADYMTATREVDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV 2btv-a1-m54-cG_2btv-a1-m9-cT ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P18259 P18259 3.5 X-RAY DIFFRACTION 28 1.0 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 349 349 2btv-a1-m10-cC_2btv-a1-m10-cE 2btv-a1-m10-cQ_2btv-a1-m10-cR 2btv-a1-m10-cS_2btv-a1-m5-cS 2btv-a1-m10-cT_2btv-a1-m23-cG 2btv-a1-m11-cC_2btv-a1-m11-cE 2btv-a1-m11-cG_2btv-a1-m38-cT 2btv-a1-m11-cQ_2btv-a1-m11-cR 2btv-a1-m11-cS_2btv-a1-m37-cS 2btv-a1-m11-cT_2btv-a1-m20-cG 2btv-a1-m12-cC_2btv-a1-m12-cE 2btv-a1-m12-cG_2btv-a1-m47-cT 2btv-a1-m12-cQ_2btv-a1-m12-cR 2btv-a1-m12-cS_2btv-a1-m46-cS 2btv-a1-m12-cT_2btv-a1-m37-cG 2btv-a1-m13-cC_2btv-a1-m13-cE 2btv-a1-m13-cG_2btv-a1-m45-cT 2btv-a1-m13-cQ_2btv-a1-m13-cR 2btv-a1-m13-cS_2btv-a1-m44-cS 2btv-a1-m13-cT_2btv-a1-m46-cG 2btv-a1-m14-cC_2btv-a1-m14-cE 2btv-a1-m14-cG_2btv-a1-m29-cT 2btv-a1-m14-cQ_2btv-a1-m14-cR 2btv-a1-m14-cS_2btv-a1-m28-cS 2btv-a1-m14-cT_2btv-a1-m44-cG 2btv-a1-m15-cC_2btv-a1-m15-cE 2btv-a1-m15-cG_2btv-a1-m16-cT 2btv-a1-m15-cQ_2btv-a1-m15-cR 2btv-a1-m15-cS_2btv-a1-m20-cS 2btv-a1-m15-cT_2btv-a1-m28-cG 2btv-a1-m16-cC_2btv-a1-m16-cE 2btv-a1-m16-cG_2btv-a1-m28-cT 2btv-a1-m16-cQ_2btv-a1-m16-cR 2btv-a1-m16-cS_2btv-a1-m27-cS 2btv-a1-m17-cC_2btv-a1-m17-cE 2btv-a1-m17-cG_2btv-a1-m52-cT 2btv-a1-m17-cQ_2btv-a1-m17-cR 2btv-a1-m17-cS_2btv-a1-m51-cS 2btv-a1-m17-cT_2btv-a1-m27-cG 2btv-a1-m18-cC_2btv-a1-m18-cE 2btv-a1-m18-cG_2btv-a1-m60-cT 2btv-a1-m18-cQ_2btv-a1-m18-cR 2btv-a1-m18-cS_2btv-a1-m59-cS 2btv-a1-m18-cT_2btv-a1-m51-cG 2btv-a1-m19-cC_2btv-a1-m19-cE 2btv-a1-m19-cG_2btv-a1-m39-cT 2btv-a1-m19-cQ_2btv-a1-m19-cR 2btv-a1-m19-cS_2btv-a1-m38-cS 2btv-a1-m19-cT_2btv-a1-m59-cG 2btv-a1-m1-cC_2btv-a1-m1-cE 2btv-a1-m1-cG_2btv-a1-m23-cT 2btv-a1-m1-cQ_2btv-a1-m1-cR 2btv-a1-m1-cS_2btv-a1-m22-cS 2btv-a1-m1-cT_2btv-a1-m10-cG 2btv-a1-m20-cC_2btv-a1-m20-cE 2btv-a1-m20-cQ_2btv-a1-m20-cR 2btv-a1-m20-cT_2btv-a1-m38-cG 2btv-a1-m21-cC_2btv-a1-m21-cE 2btv-a1-m21-cG_2btv-a1-m43-cT 2btv-a1-m21-cQ_2btv-a1-m21-cR 2btv-a1-m21-cS_2btv-a1-m42-cS 2btv-a1-m21-cT_2btv-a1-m30-cG 2btv-a1-m22-cC_2btv-a1-m22-cE 2btv-a1-m22-cQ_2btv-a1-m22-cR 2btv-a1-m22-cT_2btv-a1-m42-cG 2btv-a1-m23-cC_2btv-a1-m23-cE 2btv-a1-m23-cQ_2btv-a1-m23-cR 2btv-a1-m23-cS_2btv-a1-m9-cS 2btv-a1-m24-cC_2btv-a1-m24-cE 2btv-a1-m24-cG_2btv-a1-m54-cT 2btv-a1-m24-cQ_2btv-a1-m24-cR 2btv-a1-m24-cS_2btv-a1-m53-cS 2btv-a1-m24-cT_2btv-a1-m9-cG 2btv-a1-m25-cC_2btv-a1-m25-cE 2btv-a1-m25-cG_2btv-a1-m26-cT 2btv-a1-m25-cQ_2btv-a1-m25-cR 2btv-a1-m25-cS_2btv-a1-m30-cS 2btv-a1-m25-cT_2btv-a1-m53-cG 2btv-a1-m26-cC_2btv-a1-m26-cE 2btv-a1-m26-cG_2btv-a1-m53-cT 2btv-a1-m26-cQ_2btv-a1-m26-cR 2btv-a1-m26-cS_2btv-a1-m52-cS 2btv-a1-m27-cC_2btv-a1-m27-cE 2btv-a1-m27-cQ_2btv-a1-m27-cR 2btv-a1-m27-cT_2btv-a1-m52-cG 2btv-a1-m28-cC_2btv-a1-m28-cE 2btv-a1-m28-cQ_2btv-a1-m28-cR 2btv-a1-m29-cC_2btv-a1-m29-cE 2btv-a1-m29-cG_2btv-a1-m44-cT 2btv-a1-m29-cQ_2btv-a1-m29-cR 2btv-a1-m29-cS_2btv-a1-m43-cS 2btv-a1-m2-cC_2btv-a1-m2-cE 2btv-a1-m2-cG_2btv-a1-m42-cT 2btv-a1-m2-cQ_2btv-a1-m2-cR 2btv-a1-m2-cS_2btv-a1-m41-cS 2btv-a1-m2-cT_2btv-a1-m22-cG 2btv-a1-m30-cC_2btv-a1-m30-cE 2btv-a1-m30-cQ_2btv-a1-m30-cR 2btv-a1-m30-cT_2btv-a1-m43-cG 2btv-a1-m31-cC_2btv-a1-m31-cE 2btv-a1-m31-cG_2btv-a1-m58-cT 2btv-a1-m31-cQ_2btv-a1-m31-cR 2btv-a1-m31-cS_2btv-a1-m57-cS 2btv-a1-m31-cT_2btv-a1-m40-cG 2btv-a1-m32-cC_2btv-a1-m32-cE 2btv-a1-m32-cG_2btv-a1-m7-cT 2btv-a1-m32-cQ_2btv-a1-m32-cR 2btv-a1-m32-cS_2btv-a1-m6-cS 2btv-a1-m32-cT_2btv-a1-m57-cG 2btv-a1-m33-cC_2btv-a1-m33-cE 2btv-a1-m33-cG_2btv-a1-m5-cT 2btv-a1-m33-cQ_2btv-a1-m33-cR 2btv-a1-m33-cS_2btv-a1-m4-cS 2btv-a1-m33-cT_2btv-a1-m6-cG 2btv-a1-m34-cC_2btv-a1-m34-cE 2btv-a1-m34-cG_2btv-a1-m49-cT 2btv-a1-m34-cQ_2btv-a1-m34-cR 2btv-a1-m34-cS_2btv-a1-m48-cS 2btv-a1-m34-cT_2btv-a1-m4-cG 2btv-a1-m35-cC_2btv-a1-m35-cE 2btv-a1-m35-cG_2btv-a1-m36-cT 2btv-a1-m35-cQ_2btv-a1-m35-cR 2btv-a1-m35-cS_2btv-a1-m40-cS 2btv-a1-m35-cT_2btv-a1-m48-cG 2btv-a1-m36-cC_2btv-a1-m36-cE 2btv-a1-m36-cG_2btv-a1-m48-cT 2btv-a1-m36-cQ_2btv-a1-m36-cR 2btv-a1-m36-cS_2btv-a1-m47-cS 2btv-a1-m37-cC_2btv-a1-m37-cE 2btv-a1-m37-cQ_2btv-a1-m37-cR 2btv-a1-m37-cT_2btv-a1-m47-cG 2btv-a1-m38-cC_2btv-a1-m38-cE 2btv-a1-m38-cQ_2btv-a1-m38-cR 2btv-a1-m39-cC_2btv-a1-m39-cE 2btv-a1-m39-cG_2btv-a1-m59-cT 2btv-a1-m39-cQ_2btv-a1-m39-cR 2btv-a1-m39-cS_2btv-a1-m58-cS 2btv-a1-m3-cC_2btv-a1-m3-cE 2btv-a1-m3-cG_2btv-a1-m50-cT 2btv-a1-m3-cQ_2btv-a1-m3-cR 2btv-a1-m3-cS_2btv-a1-m49-cS 2btv-a1-m3-cT_2btv-a1-m41-cG 2btv-a1-m40-cC_2btv-a1-m40-cE 2btv-a1-m40-cQ_2btv-a1-m40-cR 2btv-a1-m40-cT_2btv-a1-m58-cG 2btv-a1-m41-cC_2btv-a1-m41-cE 2btv-a1-m41-cQ_2btv-a1-m41-cR 2btv-a1-m41-cT_2btv-a1-m50-cG 2btv-a1-m42-cC_2btv-a1-m42-cE 2btv-a1-m42-cQ_2btv-a1-m42-cR 2btv-a1-m43-cC_2btv-a1-m43-cE 2btv-a1-m43-cQ_2btv-a1-m43-cR 2btv-a1-m44-cC_2btv-a1-m44-cE 2btv-a1-m44-cQ_2btv-a1-m44-cR 2btv-a1-m45-cC_2btv-a1-m45-cE 2btv-a1-m45-cG_2btv-a1-m46-cT 2btv-a1-m45-cQ_2btv-a1-m45-cR 2btv-a1-m45-cS_2btv-a1-m50-cS 2btv-a1-m46-cC_2btv-a1-m46-cE 2btv-a1-m46-cQ_2btv-a1-m46-cR 2btv-a1-m47-cC_2btv-a1-m47-cE 2btv-a1-m47-cQ_2btv-a1-m47-cR 2btv-a1-m48-cC_2btv-a1-m48-cE 2btv-a1-m48-cQ_2btv-a1-m48-cR 2btv-a1-m49-cC_2btv-a1-m49-cE 2btv-a1-m49-cQ_2btv-a1-m49-cR 2btv-a1-m4-cC_2btv-a1-m4-cE 2btv-a1-m4-cQ_2btv-a1-m4-cR 2btv-a1-m4-cT_2btv-a1-m49-cG 2btv-a1-m50-cC_2btv-a1-m50-cE 2btv-a1-m50-cQ_2btv-a1-m50-cR 2btv-a1-m51-cC_2btv-a1-m51-cE 2btv-a1-m51-cQ_2btv-a1-m51-cR 2btv-a1-m51-cT_2btv-a1-m60-cG 2btv-a1-m52-cC_2btv-a1-m52-cE 2btv-a1-m52-cQ_2btv-a1-m52-cR 2btv-a1-m53-cC_2btv-a1-m53-cE 2btv-a1-m53-cQ_2btv-a1-m53-cR 2btv-a1-m54-cC_2btv-a1-m54-cE 2btv-a1-m54-cQ_2btv-a1-m54-cR 2btv-a1-m54-cS_2btv-a1-m8-cS 2btv-a1-m55-cC_2btv-a1-m55-cE 2btv-a1-m55-cG_2btv-a1-m56-cT 2btv-a1-m55-cQ_2btv-a1-m55-cR 2btv-a1-m55-cS_2btv-a1-m60-cS 2btv-a1-m55-cT_2btv-a1-m8-cG 2btv-a1-m56-cC_2btv-a1-m56-cE 2btv-a1-m56-cG_2btv-a1-m8-cT 2btv-a1-m56-cQ_2btv-a1-m56-cR 2btv-a1-m56-cS_2btv-a1-m7-cS 2btv-a1-m57-cC_2btv-a1-m57-cE 2btv-a1-m57-cQ_2btv-a1-m57-cR 2btv-a1-m57-cT_2btv-a1-m7-cG 2btv-a1-m58-cC_2btv-a1-m58-cE 2btv-a1-m58-cQ_2btv-a1-m58-cR 2btv-a1-m59-cC_2btv-a1-m59-cE 2btv-a1-m59-cQ_2btv-a1-m59-cR 2btv-a1-m5-cC_2btv-a1-m5-cE 2btv-a1-m5-cG_2btv-a1-m6-cT 2btv-a1-m5-cQ_2btv-a1-m5-cR 2btv-a1-m60-cC_2btv-a1-m60-cE 2btv-a1-m60-cQ_2btv-a1-m60-cR 2btv-a1-m6-cC_2btv-a1-m6-cE 2btv-a1-m6-cQ_2btv-a1-m6-cR 2btv-a1-m7-cC_2btv-a1-m7-cE 2btv-a1-m7-cQ_2btv-a1-m7-cR 2btv-a1-m8-cC_2btv-a1-m8-cE 2btv-a1-m8-cQ_2btv-a1-m8-cR 2btv-a1-m9-cC_2btv-a1-m9-cE 2btv-a1-m9-cQ_2btv-a1-m9-cR MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAATAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVRNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAIRNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAMHGVNPMPGPLTAAIARAAYV MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAATAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVRNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAIRNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAMHGVNPMPGPLTAAIARAAYV 2btv-a1-m8-cA_2btv-a1-m9-cA ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P56582 P56582 3.5 X-RAY DIFFRACTION 55 1.0 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 845 845 2btv-a1-m10-cA_2btv-a1-m6-cA 2btv-a1-m10-cA_2btv-a1-m9-cA 2btv-a1-m11-cA_2btv-a1-m12-cA 2btv-a1-m11-cA_2btv-a1-m15-cA 2btv-a1-m12-cA_2btv-a1-m13-cA 2btv-a1-m13-cA_2btv-a1-m14-cA 2btv-a1-m14-cA_2btv-a1-m15-cA 2btv-a1-m16-cA_2btv-a1-m17-cA 2btv-a1-m16-cA_2btv-a1-m20-cA 2btv-a1-m17-cA_2btv-a1-m18-cA 2btv-a1-m18-cA_2btv-a1-m19-cA 2btv-a1-m19-cA_2btv-a1-m20-cA 2btv-a1-m1-cA_2btv-a1-m2-cA 2btv-a1-m1-cA_2btv-a1-m5-cA 2btv-a1-m21-cA_2btv-a1-m22-cA 2btv-a1-m21-cA_2btv-a1-m25-cA 2btv-a1-m22-cA_2btv-a1-m23-cA 2btv-a1-m23-cA_2btv-a1-m24-cA 2btv-a1-m24-cA_2btv-a1-m25-cA 2btv-a1-m26-cA_2btv-a1-m27-cA 2btv-a1-m26-cA_2btv-a1-m30-cA 2btv-a1-m27-cA_2btv-a1-m28-cA 2btv-a1-m28-cA_2btv-a1-m29-cA 2btv-a1-m29-cA_2btv-a1-m30-cA 2btv-a1-m2-cA_2btv-a1-m3-cA 2btv-a1-m31-cA_2btv-a1-m32-cA 2btv-a1-m31-cA_2btv-a1-m35-cA 2btv-a1-m32-cA_2btv-a1-m33-cA 2btv-a1-m33-cA_2btv-a1-m34-cA 2btv-a1-m34-cA_2btv-a1-m35-cA 2btv-a1-m36-cA_2btv-a1-m37-cA 2btv-a1-m36-cA_2btv-a1-m40-cA 2btv-a1-m37-cA_2btv-a1-m38-cA 2btv-a1-m38-cA_2btv-a1-m39-cA 2btv-a1-m39-cA_2btv-a1-m40-cA 2btv-a1-m3-cA_2btv-a1-m4-cA 2btv-a1-m41-cA_2btv-a1-m42-cA 2btv-a1-m41-cA_2btv-a1-m45-cA 2btv-a1-m42-cA_2btv-a1-m43-cA 2btv-a1-m43-cA_2btv-a1-m44-cA 2btv-a1-m44-cA_2btv-a1-m45-cA 2btv-a1-m46-cA_2btv-a1-m47-cA 2btv-a1-m46-cA_2btv-a1-m50-cA 2btv-a1-m47-cA_2btv-a1-m48-cA 2btv-a1-m48-cA_2btv-a1-m49-cA 2btv-a1-m49-cA_2btv-a1-m50-cA 2btv-a1-m4-cA_2btv-a1-m5-cA 2btv-a1-m51-cA_2btv-a1-m52-cA 2btv-a1-m51-cA_2btv-a1-m55-cA 2btv-a1-m52-cA_2btv-a1-m53-cA 2btv-a1-m53-cA_2btv-a1-m54-cA 2btv-a1-m54-cA_2btv-a1-m55-cA 2btv-a1-m56-cA_2btv-a1-m57-cA 2btv-a1-m56-cA_2btv-a1-m60-cA 2btv-a1-m57-cA_2btv-a1-m58-cA 2btv-a1-m58-cA_2btv-a1-m59-cA 2btv-a1-m59-cA_2btv-a1-m60-cA 2btv-a1-m6-cA_2btv-a1-m7-cA 2btv-a1-m7-cA_2btv-a1-m8-cA 6pns-a1-m1-cD_6pns-a1-m1-cB 6pns-a1-m1-cD_6pns-a1-m1-cF 6pns-a1-m1-cF_6pns-a1-m1-cH 6pns-a1-m1-cJ_6pns-a1-m1-cB 6pns-a1-m1-cJ_6pns-a1-m1-cH 6po2-a1-m1-cD_6po2-a1-m1-cB 6po2-a1-m1-cD_6po2-a1-m1-cF 6po2-a1-m1-cF_6po2-a1-m1-cH 6po2-a1-m1-cH_6po2-a1-m1-cJ 6po2-a1-m1-cJ_6po2-a1-m1-cB VDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTNEKGGLSYATIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV VDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTNEKGGLSYATIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV 2btv-a1-m9-cA_2btv-a1-m9-cB ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P56582 P56582 3.5 X-RAY DIFFRACTION 158 0.988 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 845 885 2btv-a1-m10-cA_2btv-a1-m10-cB 2btv-a1-m11-cA_2btv-a1-m11-cB 2btv-a1-m12-cA_2btv-a1-m12-cB 2btv-a1-m13-cA_2btv-a1-m13-cB 2btv-a1-m14-cA_2btv-a1-m14-cB 2btv-a1-m15-cA_2btv-a1-m15-cB 2btv-a1-m16-cA_2btv-a1-m16-cB 2btv-a1-m17-cA_2btv-a1-m17-cB 2btv-a1-m18-cA_2btv-a1-m18-cB 2btv-a1-m19-cA_2btv-a1-m19-cB 2btv-a1-m1-cA_2btv-a1-m1-cB 2btv-a1-m20-cA_2btv-a1-m20-cB 2btv-a1-m21-cA_2btv-a1-m21-cB 2btv-a1-m22-cA_2btv-a1-m22-cB 2btv-a1-m23-cA_2btv-a1-m23-cB 2btv-a1-m24-cA_2btv-a1-m24-cB 2btv-a1-m25-cA_2btv-a1-m25-cB 2btv-a1-m26-cA_2btv-a1-m26-cB 2btv-a1-m27-cA_2btv-a1-m27-cB 2btv-a1-m28-cA_2btv-a1-m28-cB 2btv-a1-m29-cA_2btv-a1-m29-cB 2btv-a1-m2-cA_2btv-a1-m2-cB 2btv-a1-m30-cA_2btv-a1-m30-cB 2btv-a1-m31-cA_2btv-a1-m31-cB 2btv-a1-m32-cA_2btv-a1-m32-cB 2btv-a1-m33-cA_2btv-a1-m33-cB 2btv-a1-m34-cA_2btv-a1-m34-cB 2btv-a1-m35-cA_2btv-a1-m35-cB 2btv-a1-m36-cA_2btv-a1-m36-cB 2btv-a1-m37-cA_2btv-a1-m37-cB 2btv-a1-m38-cA_2btv-a1-m38-cB 2btv-a1-m39-cA_2btv-a1-m39-cB 2btv-a1-m3-cA_2btv-a1-m3-cB 2btv-a1-m40-cA_2btv-a1-m40-cB 2btv-a1-m41-cA_2btv-a1-m41-cB 2btv-a1-m42-cA_2btv-a1-m42-cB 2btv-a1-m43-cA_2btv-a1-m43-cB 2btv-a1-m44-cA_2btv-a1-m44-cB 2btv-a1-m45-cA_2btv-a1-m45-cB 2btv-a1-m46-cA_2btv-a1-m46-cB 2btv-a1-m47-cA_2btv-a1-m47-cB 2btv-a1-m48-cA_2btv-a1-m48-cB 2btv-a1-m49-cA_2btv-a1-m49-cB 2btv-a1-m4-cA_2btv-a1-m4-cB 2btv-a1-m50-cA_2btv-a1-m50-cB 2btv-a1-m51-cA_2btv-a1-m51-cB 2btv-a1-m52-cA_2btv-a1-m52-cB 2btv-a1-m53-cA_2btv-a1-m53-cB 2btv-a1-m54-cA_2btv-a1-m54-cB 2btv-a1-m55-cA_2btv-a1-m55-cB 2btv-a1-m56-cA_2btv-a1-m56-cB 2btv-a1-m57-cA_2btv-a1-m57-cB 2btv-a1-m58-cA_2btv-a1-m58-cB 2btv-a1-m59-cA_2btv-a1-m59-cB 2btv-a1-m5-cA_2btv-a1-m5-cB 2btv-a1-m60-cA_2btv-a1-m60-cB 2btv-a1-m6-cA_2btv-a1-m6-cB 2btv-a1-m7-cA_2btv-a1-m7-cB 2btv-a1-m8-cA_2btv-a1-m8-cB 6pns-a1-m1-cB_6pns-a1-m1-cC 6pns-a1-m1-cD_6pns-a1-m1-cE 6pns-a1-m1-cF_6pns-a1-m1-cG 6pns-a1-m1-cH_6pns-a1-m1-cI 6pns-a1-m1-cJ_6pns-a1-m1-cK 6po2-a1-m1-cB_6po2-a1-m1-cC 6po2-a1-m1-cD_6po2-a1-m1-cE 6po2-a1-m1-cF_6po2-a1-m1-cG 6po2-a1-m1-cH_6po2-a1-m1-cI 6po2-a1-m1-cJ_6po2-a1-m1-cK VDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTNEKGGLSYATIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV QRPERIKTTPYLEGDVLSSDSGPLLSVFALQEIMQKVRQVQADYMTATREVDFTVPDVQQILDDIKALAAEQVYKIVKVPSTSFRHIVTQSRDRVLRVDTYYEEMSQVGDVITEDEPEKFYSTIIKKVRFIRGKGSFILHDIPARDHRGMEVAEPEVLGVEFKNVLPVLTAEHRAMIQNALDGSIIENGNVATRDVDVFIGACSEPIYRIYNRLQGYIEAVQLQELRNSIGWLERLGQRKRITYSQEVLTDFRRQDMIWVLALQLPVNPQVVWDVPRSSIANLIMNIATCLPTGEYIAPNPRISSITLTQRITTTGPFAILTGSTPTAQQLNDVRKIYLALMFPGQIILDLKIDPGERMDPAVRMVAGVVGHLLFTAGGRFTNLTQNMARQLDIALNDYLLYMYNTRVQVNYGPTGEPLDFQIGRNQYDCNVFRADFATGTGYNGWATIDVEYRDPAPYVHAQRYIRYCGIDSRELINPTTYGIGMTYHCYNEMLRMLVAAGKDSEAAYFRSMLPFHMVRFARINQIINEDLHSVFSLPDDMFNALLPDLIAGAHQNADPVVLDVSWISLWFAFNRSFEPTHRNEMLEIAPLIESVYASELSVMKVDMRHLSLMQRRFPDVLIQARPSHFWKAVLNDSPEAVKAVMNLSHSHNFINIRDMMRWVLLPSLQPSLKLVLEEEAWAAANDFEDLMLTDQVYMHRDMLPEPRLDDIERFRQEGFYYTNMLEAPPEIDRVVQYTYEIARLQANMGQFRAALRRIMDDDDWVRFGGVLRTVRVKFFDARPPDDILQGLPFSYDTIKYATETTIFYLIYNVEFSNTPDSLVLINPTYTMTKVFINKRIVERVRVGQILAVLNRRFVAYKGKMRIMDITQSLKMGTKLAAPTV 2btv-a1-m9-cG_2btv-a1-m9-cT ATOMIC MODEL FOR BLUETONGUE VIRUS (BTV) CORE P18259 P18259 3.5 X-RAY DIFFRACTION 14 1.0 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 349 349 2btv-a1-m10-cC_2btv-a1-m10-cF 2btv-a1-m10-cD_2btv-a1-m10-cE 2btv-a1-m10-cE_2btv-a1-m10-cR 2btv-a1-m10-cG_2btv-a1-m10-cQ 2btv-a1-m10-cG_2btv-a1-m10-cT 2btv-a1-m10-cI_2btv-a1-m5-cS 2btv-a1-m10-cS_2btv-a1-m5-cI 2btv-a1-m10-cT_2btv-a1-m23-cH 2btv-a1-m11-cC_2btv-a1-m11-cF 2btv-a1-m11-cD_2btv-a1-m11-cE 2btv-a1-m11-cE_2btv-a1-m11-cR 2btv-a1-m11-cG_2btv-a1-m11-cQ 2btv-a1-m11-cG_2btv-a1-m11-cT 2btv-a1-m11-cH_2btv-a1-m38-cT 2btv-a1-m11-cI_2btv-a1-m37-cS 2btv-a1-m11-cS_2btv-a1-m37-cI 2btv-a1-m11-cT_2btv-a1-m20-cH 2btv-a1-m12-cC_2btv-a1-m12-cF 2btv-a1-m12-cD_2btv-a1-m12-cE 2btv-a1-m12-cE_2btv-a1-m12-cR 2btv-a1-m12-cG_2btv-a1-m12-cQ 2btv-a1-m12-cG_2btv-a1-m12-cT 2btv-a1-m12-cH_2btv-a1-m47-cT 2btv-a1-m12-cI_2btv-a1-m46-cS 2btv-a1-m12-cS_2btv-a1-m46-cI 2btv-a1-m12-cT_2btv-a1-m37-cH 2btv-a1-m13-cC_2btv-a1-m13-cF 2btv-a1-m13-cD_2btv-a1-m13-cE 2btv-a1-m13-cE_2btv-a1-m13-cR 2btv-a1-m13-cG_2btv-a1-m13-cQ 2btv-a1-m13-cG_2btv-a1-m13-cT 2btv-a1-m13-cH_2btv-a1-m45-cT 2btv-a1-m13-cI_2btv-a1-m44-cS 2btv-a1-m13-cS_2btv-a1-m44-cI 2btv-a1-m13-cT_2btv-a1-m46-cH 2btv-a1-m14-cC_2btv-a1-m14-cF 2btv-a1-m14-cD_2btv-a1-m14-cE 2btv-a1-m14-cE_2btv-a1-m14-cR 2btv-a1-m14-cG_2btv-a1-m14-cQ 2btv-a1-m14-cG_2btv-a1-m14-cT 2btv-a1-m14-cH_2btv-a1-m29-cT 2btv-a1-m14-cI_2btv-a1-m28-cS 2btv-a1-m14-cS_2btv-a1-m28-cI 2btv-a1-m14-cT_2btv-a1-m44-cH 2btv-a1-m15-cC_2btv-a1-m15-cF 2btv-a1-m15-cD_2btv-a1-m15-cE 2btv-a1-m15-cE_2btv-a1-m15-cR 2btv-a1-m15-cG_2btv-a1-m15-cQ 2btv-a1-m15-cG_2btv-a1-m15-cT 2btv-a1-m15-cH_2btv-a1-m16-cT 2btv-a1-m15-cI_2btv-a1-m20-cS 2btv-a1-m15-cS_2btv-a1-m20-cI 2btv-a1-m15-cT_2btv-a1-m28-cH 2btv-a1-m16-cC_2btv-a1-m16-cF 2btv-a1-m16-cD_2btv-a1-m16-cE 2btv-a1-m16-cE_2btv-a1-m16-cR 2btv-a1-m16-cG_2btv-a1-m16-cQ 2btv-a1-m16-cG_2btv-a1-m16-cT 2btv-a1-m16-cH_2btv-a1-m28-cT 2btv-a1-m16-cI_2btv-a1-m27-cS 2btv-a1-m16-cS_2btv-a1-m27-cI 2btv-a1-m17-cC_2btv-a1-m17-cF 2btv-a1-m17-cD_2btv-a1-m17-cE 2btv-a1-m17-cE_2btv-a1-m17-cR 2btv-a1-m17-cG_2btv-a1-m17-cQ 2btv-a1-m17-cG_2btv-a1-m17-cT 2btv-a1-m17-cH_2btv-a1-m52-cT 2btv-a1-m17-cI_2btv-a1-m51-cS 2btv-a1-m17-cS_2btv-a1-m51-cI 2btv-a1-m17-cT_2btv-a1-m27-cH 2btv-a1-m18-cC_2btv-a1-m18-cF 2btv-a1-m18-cD_2btv-a1-m18-cE 2btv-a1-m18-cE_2btv-a1-m18-cR 2btv-a1-m18-cG_2btv-a1-m18-cQ 2btv-a1-m18-cG_2btv-a1-m18-cT 2btv-a1-m18-cH_2btv-a1-m60-cT 2btv-a1-m18-cI_2btv-a1-m59-cS 2btv-a1-m18-cS_2btv-a1-m59-cI 2btv-a1-m18-cT_2btv-a1-m51-cH 2btv-a1-m19-cC_2btv-a1-m19-cF 2btv-a1-m19-cD_2btv-a1-m19-cE 2btv-a1-m19-cE_2btv-a1-m19-cR 2btv-a1-m19-cG_2btv-a1-m19-cQ 2btv-a1-m19-cG_2btv-a1-m19-cT 2btv-a1-m19-cH_2btv-a1-m39-cT 2btv-a1-m19-cI_2btv-a1-m38-cS 2btv-a1-m19-cS_2btv-a1-m38-cI 2btv-a1-m19-cT_2btv-a1-m59-cH 2btv-a1-m1-cC_2btv-a1-m1-cF 2btv-a1-m1-cD_2btv-a1-m1-cE 2btv-a1-m1-cE_2btv-a1-m1-cR 2btv-a1-m1-cG_2btv-a1-m1-cQ 2btv-a1-m1-cG_2btv-a1-m1-cT 2btv-a1-m1-cH_2btv-a1-m23-cT 2btv-a1-m1-cI_2btv-a1-m22-cS 2btv-a1-m1-cS_2btv-a1-m22-cI 2btv-a1-m1-cT_2btv-a1-m10-cH 2btv-a1-m20-cC_2btv-a1-m20-cF 2btv-a1-m20-cD_2btv-a1-m20-cE 2btv-a1-m20-cE_2btv-a1-m20-cR 2btv-a1-m20-cG_2btv-a1-m20-cQ 2btv-a1-m20-cG_2btv-a1-m20-cT 2btv-a1-m20-cT_2btv-a1-m38-cH 2btv-a1-m21-cC_2btv-a1-m21-cF 2btv-a1-m21-cD_2btv-a1-m21-cE 2btv-a1-m21-cE_2btv-a1-m21-cR 2btv-a1-m21-cG_2btv-a1-m21-cQ 2btv-a1-m21-cG_2btv-a1-m21-cT 2btv-a1-m21-cH_2btv-a1-m43-cT 2btv-a1-m21-cI_2btv-a1-m42-cS 2btv-a1-m21-cS_2btv-a1-m42-cI 2btv-a1-m21-cT_2btv-a1-m30-cH 2btv-a1-m22-cC_2btv-a1-m22-cF 2btv-a1-m22-cD_2btv-a1-m22-cE 2btv-a1-m22-cE_2btv-a1-m22-cR 2btv-a1-m22-cG_2btv-a1-m22-cQ 2btv-a1-m22-cG_2btv-a1-m22-cT 2btv-a1-m22-cT_2btv-a1-m42-cH 2btv-a1-m23-cC_2btv-a1-m23-cF 2btv-a1-m23-cD_2btv-a1-m23-cE 2btv-a1-m23-cE_2btv-a1-m23-cR 2btv-a1-m23-cG_2btv-a1-m23-cQ 2btv-a1-m23-cG_2btv-a1-m23-cT 2btv-a1-m23-cI_2btv-a1-m9-cS 2btv-a1-m23-cS_2btv-a1-m9-cI 2btv-a1-m24-cC_2btv-a1-m24-cF 2btv-a1-m24-cD_2btv-a1-m24-cE 2btv-a1-m24-cE_2btv-a1-m24-cR 2btv-a1-m24-cG_2btv-a1-m24-cQ 2btv-a1-m24-cG_2btv-a1-m24-cT 2btv-a1-m24-cH_2btv-a1-m54-cT 2btv-a1-m24-cI_2btv-a1-m53-cS 2btv-a1-m24-cS_2btv-a1-m53-cI 2btv-a1-m24-cT_2btv-a1-m9-cH 2btv-a1-m25-cC_2btv-a1-m25-cF 2btv-a1-m25-cD_2btv-a1-m25-cE 2btv-a1-m25-cE_2btv-a1-m25-cR 2btv-a1-m25-cG_2btv-a1-m25-cQ 2btv-a1-m25-cG_2btv-a1-m25-cT 2btv-a1-m25-cH_2btv-a1-m26-cT 2btv-a1-m25-cI_2btv-a1-m30-cS 2btv-a1-m25-cS_2btv-a1-m30-cI 2btv-a1-m25-cT_2btv-a1-m53-cH 2btv-a1-m26-cC_2btv-a1-m26-cF 2btv-a1-m26-cD_2btv-a1-m26-cE 2btv-a1-m26-cE_2btv-a1-m26-cR 2btv-a1-m26-cG_2btv-a1-m26-cQ 2btv-a1-m26-cG_2btv-a1-m26-cT 2btv-a1-m26-cH_2btv-a1-m53-cT 2btv-a1-m26-cI_2btv-a1-m52-cS 2btv-a1-m26-cS_2btv-a1-m52-cI 2btv-a1-m27-cC_2btv-a1-m27-cF 2btv-a1-m27-cD_2btv-a1-m27-cE 2btv-a1-m27-cE_2btv-a1-m27-cR 2btv-a1-m27-cG_2btv-a1-m27-cQ 2btv-a1-m27-cG_2btv-a1-m27-cT 2btv-a1-m27-cT_2btv-a1-m52-cH 2btv-a1-m28-cC_2btv-a1-m28-cF 2btv-a1-m28-cD_2btv-a1-m28-cE 2btv-a1-m28-cE_2btv-a1-m28-cR 2btv-a1-m28-cG_2btv-a1-m28-cQ 2btv-a1-m28-cG_2btv-a1-m28-cT 2btv-a1-m29-cC_2btv-a1-m29-cF 2btv-a1-m29-cD_2btv-a1-m29-cE 2btv-a1-m29-cE_2btv-a1-m29-cR 2btv-a1-m29-cG_2btv-a1-m29-cQ 2btv-a1-m29-cG_2btv-a1-m29-cT 2btv-a1-m29-cH_2btv-a1-m44-cT 2btv-a1-m29-cI_2btv-a1-m43-cS 2btv-a1-m29-cS_2btv-a1-m43-cI 2btv-a1-m2-cC_2btv-a1-m2-cF 2btv-a1-m2-cD_2btv-a1-m2-cE 2btv-a1-m2-cE_2btv-a1-m2-cR 2btv-a1-m2-cG_2btv-a1-m2-cQ 2btv-a1-m2-cG_2btv-a1-m2-cT 2btv-a1-m2-cH_2btv-a1-m42-cT 2btv-a1-m2-cI_2btv-a1-m41-cS 2btv-a1-m2-cS_2btv-a1-m41-cI 2btv-a1-m2-cT_2btv-a1-m22-cH 2btv-a1-m30-cC_2btv-a1-m30-cF 2btv-a1-m30-cD_2btv-a1-m30-cE 2btv-a1-m30-cE_2btv-a1-m30-cR 2btv-a1-m30-cG_2btv-a1-m30-cQ 2btv-a1-m30-cG_2btv-a1-m30-cT 2btv-a1-m30-cT_2btv-a1-m43-cH 2btv-a1-m31-cC_2btv-a1-m31-cF 2btv-a1-m31-cD_2btv-a1-m31-cE 2btv-a1-m31-cE_2btv-a1-m31-cR 2btv-a1-m31-cG_2btv-a1-m31-cQ 2btv-a1-m31-cG_2btv-a1-m31-cT 2btv-a1-m31-cH_2btv-a1-m58-cT 2btv-a1-m31-cI_2btv-a1-m57-cS 2btv-a1-m31-cS_2btv-a1-m57-cI 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2btv-a1-m55-cE_2btv-a1-m55-cR 2btv-a1-m55-cG_2btv-a1-m55-cQ 2btv-a1-m55-cG_2btv-a1-m55-cT 2btv-a1-m55-cH_2btv-a1-m56-cT 2btv-a1-m55-cI_2btv-a1-m60-cS 2btv-a1-m55-cS_2btv-a1-m60-cI 2btv-a1-m55-cT_2btv-a1-m8-cH 2btv-a1-m56-cC_2btv-a1-m56-cF 2btv-a1-m56-cD_2btv-a1-m56-cE 2btv-a1-m56-cE_2btv-a1-m56-cR 2btv-a1-m56-cG_2btv-a1-m56-cQ 2btv-a1-m56-cG_2btv-a1-m56-cT 2btv-a1-m56-cH_2btv-a1-m8-cT 2btv-a1-m56-cI_2btv-a1-m7-cS 2btv-a1-m56-cS_2btv-a1-m7-cI 2btv-a1-m57-cC_2btv-a1-m57-cF 2btv-a1-m57-cD_2btv-a1-m57-cE 2btv-a1-m57-cE_2btv-a1-m57-cR 2btv-a1-m57-cG_2btv-a1-m57-cQ 2btv-a1-m57-cG_2btv-a1-m57-cT 2btv-a1-m57-cT_2btv-a1-m7-cH 2btv-a1-m58-cC_2btv-a1-m58-cF 2btv-a1-m58-cD_2btv-a1-m58-cE 2btv-a1-m58-cE_2btv-a1-m58-cR 2btv-a1-m58-cG_2btv-a1-m58-cQ 2btv-a1-m58-cG_2btv-a1-m58-cT 2btv-a1-m59-cC_2btv-a1-m59-cF 2btv-a1-m59-cD_2btv-a1-m59-cE 2btv-a1-m59-cE_2btv-a1-m59-cR 2btv-a1-m59-cG_2btv-a1-m59-cQ 2btv-a1-m59-cG_2btv-a1-m59-cT 2btv-a1-m5-cC_2btv-a1-m5-cF 2btv-a1-m5-cD_2btv-a1-m5-cE 2btv-a1-m5-cE_2btv-a1-m5-cR 2btv-a1-m5-cG_2btv-a1-m5-cQ 2btv-a1-m5-cG_2btv-a1-m5-cT 2btv-a1-m5-cH_2btv-a1-m6-cT 2btv-a1-m60-cC_2btv-a1-m60-cF 2btv-a1-m60-cD_2btv-a1-m60-cE 2btv-a1-m60-cE_2btv-a1-m60-cR 2btv-a1-m60-cG_2btv-a1-m60-cQ 2btv-a1-m60-cG_2btv-a1-m60-cT 2btv-a1-m6-cC_2btv-a1-m6-cF 2btv-a1-m6-cD_2btv-a1-m6-cE 2btv-a1-m6-cE_2btv-a1-m6-cR 2btv-a1-m6-cG_2btv-a1-m6-cQ 2btv-a1-m6-cG_2btv-a1-m6-cT 2btv-a1-m7-cC_2btv-a1-m7-cF 2btv-a1-m7-cD_2btv-a1-m7-cE 2btv-a1-m7-cE_2btv-a1-m7-cR 2btv-a1-m7-cG_2btv-a1-m7-cQ 2btv-a1-m7-cG_2btv-a1-m7-cT 2btv-a1-m8-cC_2btv-a1-m8-cF 2btv-a1-m8-cD_2btv-a1-m8-cE 2btv-a1-m8-cE_2btv-a1-m8-cR 2btv-a1-m8-cG_2btv-a1-m8-cQ 2btv-a1-m8-cG_2btv-a1-m8-cT 2btv-a1-m9-cC_2btv-a1-m9-cF 2btv-a1-m9-cD_2btv-a1-m9-cE 2btv-a1-m9-cE_2btv-a1-m9-cR 2btv-a1-m9-cG_2btv-a1-m9-cQ MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAATAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVRNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAIRNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAMHGVNPMPGPLTAAIARAAYV MDTIAARALTVMRACATLQEARIVLEANVMEILGIAINRYNGLTLRGVTMRPTSLAQRNEMFFMCLDMMLSAAGINVGPISPDYTQHMATIGVLATPEIPFTTEAANEIARVTGETSTWGPARQPYGFFLETEETFQPGRWFMRAAQAATAVVCGPDMIQVSLNAGARGDVQQIFQGRNDPMMIYLVWRRIENFAMAQGNSQQTQAGVTVSVGGVDMRAGRIIAWDGQAALHVRNPTQQNAMVQIQVVFYISMDKTLNQYPALTAEIFNVYSFRDHTWHGLRTAIRNRTTLPNMLPPIFPPNDRDSILTLLLLSTLADVYTVLRPEFAMHGVNPMPGPLTAAIARAAYV 2bty-a1-m2-cA_2bty-a1-m2-cB Acetylglutamate kinase from Thermotoga maritima complexed with its inhibitor arginine Q9X2A4 Q9X2A4 2.75 X-RAY DIFFRACTION 86 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 282 282 2bty-a1-m1-cA_2bty-a1-m1-cB 2bty-a1-m1-cC_2bty-a1-m2-cC MRIDTVNVLLEALPYIKEFYGKTFVIKFGGSAMKQENAKKAFIQDIILLKYTGIKPIIVHGGGPAISQMMKDLGIEPVFKNGHRVTDEKTMEIVEMVLVGKINKEIVMNLNLHGGRAVGICGKDSKLIVAEKETKHGDIGYVGKVKKVNPEILHALIENDYIPVIAPVGIGEDGHSYNINADTAAAEIAKSLMAEKLILLTDVDGVLKDGKLISTLTPDEAEELIRDGTVTGGMIPKVECAVSAVRGGVGAVHIINGGLEHAILLEIFSRKGIGTMIKELEG MRIDTVNVLLEALPYIKEFYGKTFVIKFGGSAMKQENAKKAFIQDIILLKYTGIKPIIVHGGGPAISQMMKDLGIEPVFKNGHRVTDEKTMEIVEMVLVGKINKEIVMNLNLHGGRAVGICGKDSKLIVAEKETKHGDIGYVGKVKKVNPEILHALIENDYIPVIAPVGIGEDGHSYNINADTAAAEIAKSLMAEKLILLTDVDGVLKDGKLISTLTPDEAEELIRDGTVTGGMIPKVECAVSAVRGGVGAVHIINGGLEHAILLEIFSRKGIGTMIKELEG 2bty-a1-m2-cA_2bty-a1-m2-cC Acetylglutamate kinase from Thermotoga maritima complexed with its inhibitor arginine Q9X2A4 Q9X2A4 2.75 X-RAY DIFFRACTION 65 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 282 282 2bty-a1-m1-cA_2bty-a1-m1-cC 2bty-a1-m1-cB_2bty-a1-m2-cB MRIDTVNVLLEALPYIKEFYGKTFVIKFGGSAMKQENAKKAFIQDIILLKYTGIKPIIVHGGGPAISQMMKDLGIEPVFKNGHRVTDEKTMEIVEMVLVGKINKEIVMNLNLHGGRAVGICGKDSKLIVAEKETKHGDIGYVGKVKKVNPEILHALIENDYIPVIAPVGIGEDGHSYNINADTAAAEIAKSLMAEKLILLTDVDGVLKDGKLISTLTPDEAEELIRDGTVTGGMIPKVECAVSAVRGGVGAVHIINGGLEHAILLEIFSRKGIGTMIKELEG MRIDTVNVLLEALPYIKEFYGKTFVIKFGGSAMKQENAKKAFIQDIILLKYTGIKPIIVHGGGPAISQMMKDLGIEPVFKNGHRVTDEKTMEIVEMVLVGKINKEIVMNLNLHGGRAVGICGKDSKLIVAEKETKHGDIGYVGKVKKVNPEILHALIENDYIPVIAPVGIGEDGHSYNINADTAAAEIAKSLMAEKLILLTDVDGVLKDGKLISTLTPDEAEELIRDGTVTGGMIPKVECAVSAVRGGVGAVHIINGGLEHAILLEIFSRKGIGTMIKELEG 2bu7-a1-m1-cA_2bu7-a1-m2-cA crystal structures of human pyruvate dehydrogenase kinase 2 containing physiological and synthetic ligands Q15119 Q15119 2.4 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 358 358 1jm6-a1-m1-cB_1jm6-a1-m1-cA 2btz-a1-m1-cA_2btz-a1-m2-cA 2bu5-a1-m1-cA_2bu5-a1-m2-cA 2bu6-a1-m1-cA_2bu6-a1-m2-cA 3crk-a1-m1-cA_3crk-a1-m1-cB 5j71-a1-m1-cA_5j71-a1-m2-cA 7ea0-a1-m1-cA_7ea0-a1-m2-cA 7vbu-a1-m1-cA_7vbu-a1-m2-cA GSAPKYIEHFSKFSPSPLSMKQFLDFGSSNACEKTSFTFLRQELPVRLANIMKEINLLPDRVLSTPSVQLVQSWYVQSLLDIMEFLDKDPEDHRTLSQFTDALVTIRNRHNDVVPTMAQGVLEYKDTYGDDPVSNQNIQYFLDRFYLSRISIRMLINQHTLIFDPKHIGSIDPNCNVSEVVKDAYDMAKLLCDKYYMASPDLEIQEINAANSKQPIHMVYVPSHLYHMLFELFKNAMRATVESHESSLILPPIKVMVALGEEDLSIKMSDRGGGVPLRKIERLFSYMYSTAPGYGLPISRLYAKYFQGDLQLFSMEGFGTDAVIYLKALSTDSVERLPVYNKSAWRHYQTIQEAGDWC GSAPKYIEHFSKFSPSPLSMKQFLDFGSSNACEKTSFTFLRQELPVRLANIMKEINLLPDRVLSTPSVQLVQSWYVQSLLDIMEFLDKDPEDHRTLSQFTDALVTIRNRHNDVVPTMAQGVLEYKDTYGDDPVSNQNIQYFLDRFYLSRISIRMLINQHTLIFDPKHIGSIDPNCNVSEVVKDAYDMAKLLCDKYYMASPDLEIQEINAANSKQPIHMVYVPSHLYHMLFELFKNAMRATVESHESSLILPPIKVMVALGEEDLSIKMSDRGGGVPLRKIERLFSYMYSTAPGYGLPISRLYAKYFQGDLQLFSMEGFGTDAVIYLKALSTDSVERLPVYNKSAWRHYQTIQEAGDWC 2buf-a1-m1-cF_2buf-a1-m1-cD Arginine Feed-Back Inhibitable Acetylglutamate Kinase Q9HTN2 Q9HTN2 2.95 X-RAY DIFFRACTION 106 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 291 294 2buf-a1-m1-cB_2buf-a1-m1-cC 2buf-a1-m1-cE_2buf-a1-m1-cA 2buf-a2-m1-cI_2buf-a2-m1-cG 2buf-a2-m1-cK_2buf-a2-m1-cJ 2buf-a2-m1-cL_2buf-a2-m1-cH TLSRDDAAQVAKVLSEALPYIRRFVGKTLVIKYGGNAMESEELKAGFARDVVLMKAVGINPVVVHGGGPQIGDLLKRLSIESHFIDGMRVTDAATMDVVEMVLGGQVNKDIVNLINRHGGSAIGLTGKDAELIRAKKLTVTRQPEIIDIGHVGEVTGVNVGLLNMLVKGDFIPVIAPIGVGSNGESYNINADLVAGKVAEALKAEKLMLLTNIAGLMDKQGQVLTGLSTEQVNELIADGTIYGGMLPKIRCALEAVQGGVTSAHIIDGRVPNAVLLEIFTDSGVGTLISNR TLSRDDAAQVAKVLSEALPYIRRFVGKTLVIKYGGNAMESEELKAGFARDVVLMKAVGINPVVVHGGGPQIGDLLKRLSIESHFIDGMRVTDAATMDVVEMVLGGQVNKDIVNLINRHGGSAIGLTGKDAELIRAKKLTVTRQTKPEIIDIGHVGEVTGVNVGLLNMLVKGDFIPVIAPIGVGSNGESYNINADLVAGKVAEALKAEKLMLLTNIAGLMDKQGQVLTGLSTEQVNELIADGTIYGGMLPKIRCALEAVQGGVTSAHIIDGRVPNAVLLEIFTDSGVGTLISNRK 2buf-a2-m1-cJ_2buf-a2-m1-cI Arginine Feed-Back Inhibitable Acetylglutamate Kinase Q9HTN2 Q9HTN2 2.95 X-RAY DIFFRACTION 87 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 279 288 2buf-a1-m1-cA_2buf-a1-m1-cB 2buf-a1-m1-cD_2buf-a1-m1-cC 2buf-a1-m1-cE_2buf-a1-m1-cF 2buf-a2-m1-cH_2buf-a2-m1-cG 2buf-a2-m1-cK_2buf-a2-m1-cL TLSRDDAAQVAKVLSEALPYIRRFVGKTLVIKYGGNAMESEELKAGFARDVVLMKAVGINPVVVHGGGPQIGDLLKRLSIESHFIDGMRVTDAATMDVVEMVLGGQVNKDIVNLINRHGGSAIGLTGKDAELIRAKKLGHVGEVTGVNVGLLNMLVKGDFIPVIAPIGVGSNGESYNINADLVAGKVAEALKAEKLMLLTNIAGLMDKQGQVLTGLSTEQVNELIADGTIYGGMLPKIRCALEAVQGGVTSAHIIDGRVPNAVLLEIFTDSGVGTLISN TLSRDDAAQVAKVLSEALPYIRRFVGKTLVIKYGGNAMESEELKAGFARDVVLMKAVGINPVVVHGGGPQIGDLLKRLSIESHFIDGMRVTDAATMDVVEMVLGGQVNKDIVNLINRHGGSAIGLTGKDAELIRAKKLTVTREIIDIGHVGEVTGVNVGLLNMLVKGDFIPVIAPIGVGSNGESYNINADLVAGKVAEALKAEKLMLLTNIAGLMDKQGQVLTGLSTEQVNELIADGTIYGGMLPKIRCALEAVQGGVTSAHIIDGRVPNAVLLEIFTDSGVGTLISN 2bv0-a1-m12-cB_2bv0-a1-m9-cB Crystal Structure of Protocatechuate 3,4-Dioxygenase from Acinetobacter Sp. ADP1 Mutant R133H in Complex with Protocatechuate. P20372 P20372 1.8 X-RAY DIFFRACTION 23 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 238 238 1eo2-a1-m10-cB_1eo2-a1-m4-cB 1eo2-a1-m10-cB_1eo2-a1-m5-cB 1eo2-a1-m11-cB_1eo2-a1-m3-cB 1eo2-a1-m11-cB_1eo2-a1-m7-cB 1eo2-a1-m12-cB_1eo2-a1-m6-cB 1eo2-a1-m1-cB_1eo2-a1-m12-cB 1eo2-a1-m1-cB_1eo2-a1-m6-cB 1eo2-a1-m2-cB_1eo2-a1-m8-cB 1eo2-a1-m2-cB_1eo2-a1-m9-cB 1eo2-a1-m3-cB_1eo2-a1-m7-cB 1eo2-a1-m4-cB_1eo2-a1-m5-cB 1eo2-a1-m8-cB_1eo2-a1-m9-cB 1eo9-a1-m10-cB_1eo9-a1-m4-cB 1eo9-a1-m10-cB_1eo9-a1-m5-cB 1eo9-a1-m11-cB_1eo9-a1-m3-cB 1eo9-a1-m11-cB_1eo9-a1-m7-cB 1eo9-a1-m12-cB_1eo9-a1-m6-cB 1eo9-a1-m1-cB_1eo9-a1-m12-cB 1eo9-a1-m1-cB_1eo9-a1-m6-cB 1eo9-a1-m2-cB_1eo9-a1-m8-cB 1eo9-a1-m2-cB_1eo9-a1-m9-cB 1eo9-a1-m3-cB_1eo9-a1-m7-cB 1eo9-a1-m4-cB_1eo9-a1-m5-cB 1eo9-a1-m8-cB_1eo9-a1-m9-cB 1eoa-a1-m10-cB_1eoa-a1-m4-cB 1eoa-a1-m10-cB_1eoa-a1-m5-cB 1eoa-a1-m11-cB_1eoa-a1-m3-cB 1eoa-a1-m11-cB_1eoa-a1-m7-cB 1eoa-a1-m12-cB_1eoa-a1-m6-cB 1eoa-a1-m1-cB_1eoa-a1-m12-cB 1eoa-a1-m1-cB_1eoa-a1-m6-cB 1eoa-a1-m2-cB_1eoa-a1-m8-cB 1eoa-a1-m2-cB_1eoa-a1-m9-cB 1eoa-a1-m3-cB_1eoa-a1-m7-cB 1eoa-a1-m4-cB_1eoa-a1-m5-cB 1eoa-a1-m8-cB_1eoa-a1-m9-cB 1eob-a1-m10-cB_1eob-a1-m4-cB 1eob-a1-m10-cB_1eob-a1-m5-cB 1eob-a1-m11-cB_1eob-a1-m3-cB 1eob-a1-m11-cB_1eob-a1-m7-cB 1eob-a1-m12-cB_1eob-a1-m6-cB 1eob-a1-m1-cB_1eob-a1-m12-cB 1eob-a1-m1-cB_1eob-a1-m6-cB 1eob-a1-m2-cB_1eob-a1-m8-cB 1eob-a1-m2-cB_1eob-a1-m9-cB 1eob-a1-m3-cB_1eob-a1-m7-cB 1eob-a1-m4-cB_1eob-a1-m5-cB 1eob-a1-m8-cB_1eob-a1-m9-cB 1eoc-a1-m10-cB_1eoc-a1-m4-cB 1eoc-a1-m10-cB_1eoc-a1-m5-cB 1eoc-a1-m11-cB_1eoc-a1-m3-cB 1eoc-a1-m11-cB_1eoc-a1-m7-cB 1eoc-a1-m12-cB_1eoc-a1-m6-cB 1eoc-a1-m1-cB_1eoc-a1-m12-cB 1eoc-a1-m1-cB_1eoc-a1-m6-cB 1eoc-a1-m2-cB_1eoc-a1-m8-cB 1eoc-a1-m2-cB_1eoc-a1-m9-cB 1eoc-a1-m3-cB_1eoc-a1-m7-cB 1eoc-a1-m4-cB_1eoc-a1-m5-cB 1eoc-a1-m8-cB_1eoc-a1-m9-cB 2bum-a1-m10-cB_2bum-a1-m11-cB 2bum-a1-m10-cB_2bum-a1-m6-cB 2bum-a1-m11-cB_2bum-a1-m6-cB 2bum-a1-m12-cB_2bum-a1-m4-cB 2bum-a1-m12-cB_2bum-a1-m9-cB 2bum-a1-m1-cB_2bum-a1-m3-cB 2bum-a1-m1-cB_2bum-a1-m7-cB 2bum-a1-m2-cB_2bum-a1-m5-cB 2bum-a1-m2-cB_2bum-a1-m8-cB 2bum-a1-m3-cB_2bum-a1-m7-cB 2bum-a1-m4-cB_2bum-a1-m9-cB 2bum-a1-m5-cB_2bum-a1-m8-cB 2buq-a1-m10-cB_2buq-a1-m6-cB 2buq-a1-m10-cB_2buq-a1-m8-cB 2buq-a1-m11-cB_2buq-a1-m12-cB 2buq-a1-m11-cB_2buq-a1-m9-cB 2buq-a1-m12-cB_2buq-a1-m9-cB 2buq-a1-m1-cB_2buq-a1-m2-cB 2buq-a1-m1-cB_2buq-a1-m3-cB 2buq-a1-m2-cB_2buq-a1-m3-cB 2buq-a1-m4-cB_2buq-a1-m5-cB 2buq-a1-m4-cB_2buq-a1-m7-cB 2buq-a1-m5-cB_2buq-a1-m7-cB 2buq-a1-m6-cB_2buq-a1-m8-cB 2bur-a1-m10-cB_2bur-a1-m6-cB 2bur-a1-m10-cB_2bur-a1-m8-cB 2bur-a1-m11-cB_2bur-a1-m12-cB 2bur-a1-m11-cB_2bur-a1-m9-cB 2bur-a1-m12-cB_2bur-a1-m9-cB 2bur-a1-m1-cB_2bur-a1-m2-cB 2bur-a1-m1-cB_2bur-a1-m3-cB 2bur-a1-m2-cB_2bur-a1-m3-cB 2bur-a1-m4-cB_2bur-a1-m5-cB 2bur-a1-m4-cB_2bur-a1-m7-cB 2bur-a1-m5-cB_2bur-a1-m7-cB 2bur-a1-m6-cB_2bur-a1-m8-cB 2but-a1-m10-cB_2but-a1-m11-cB 2but-a1-m10-cB_2but-a1-m6-cB 2but-a1-m11-cB_2but-a1-m6-cB 2but-a1-m12-cB_2but-a1-m4-cB 2but-a1-m12-cB_2but-a1-m9-cB 2but-a1-m1-cB_2but-a1-m3-cB 2but-a1-m1-cB_2but-a1-m7-cB 2but-a1-m2-cB_2but-a1-m5-cB 2but-a1-m2-cB_2but-a1-m8-cB 2but-a1-m3-cB_2but-a1-m7-cB 2but-a1-m4-cB_2but-a1-m9-cB 2but-a1-m5-cB_2but-a1-m8-cB 2buu-a1-m10-cB_2buu-a1-m6-cB 2buu-a1-m10-cB_2buu-a1-m8-cB 2buu-a1-m11-cB_2buu-a1-m12-cB 2buu-a1-m11-cB_2buu-a1-m9-cB 2buu-a1-m12-cB_2buu-a1-m9-cB 2buu-a1-m1-cB_2buu-a1-m2-cB 2buu-a1-m1-cB_2buu-a1-m3-cB 2buu-a1-m2-cB_2buu-a1-m3-cB 2buu-a1-m4-cB_2buu-a1-m5-cB 2buu-a1-m4-cB_2buu-a1-m7-cB 2buu-a1-m5-cB_2buu-a1-m7-cB 2buu-a1-m6-cB_2buu-a1-m8-cB 2buv-a1-m10-cB_2buv-a1-m6-cB 2buv-a1-m10-cB_2buv-a1-m8-cB 2buv-a1-m11-cB_2buv-a1-m12-cB 2buv-a1-m11-cB_2buv-a1-m9-cB 2buv-a1-m12-cB_2buv-a1-m9-cB 2buv-a1-m1-cB_2buv-a1-m2-cB 2buv-a1-m1-cB_2buv-a1-m3-cB 2buv-a1-m2-cB_2buv-a1-m3-cB 2buv-a1-m4-cB_2buv-a1-m5-cB 2buv-a1-m4-cB_2buv-a1-m7-cB 2buv-a1-m5-cB_2buv-a1-m7-cB 2buv-a1-m6-cB_2buv-a1-m8-cB 2buw-a1-m10-cB_2buw-a1-m6-cB 2buw-a1-m10-cB_2buw-a1-m8-cB 2buw-a1-m11-cB_2buw-a1-m12-cB 2buw-a1-m11-cB_2buw-a1-m9-cB 2buw-a1-m12-cB_2buw-a1-m9-cB 2buw-a1-m1-cB_2buw-a1-m2-cB 2buw-a1-m1-cB_2buw-a1-m3-cB 2buw-a1-m2-cB_2buw-a1-m3-cB 2buw-a1-m4-cB_2buw-a1-m5-cB 2buw-a1-m4-cB_2buw-a1-m7-cB 2buw-a1-m5-cB_2buw-a1-m7-cB 2buw-a1-m6-cB_2buw-a1-m8-cB 2bux-a1-m10-cB_2bux-a1-m11-cB 2bux-a1-m10-cB_2bux-a1-m6-cB 2bux-a1-m11-cB_2bux-a1-m6-cB 2bux-a1-m12-cB_2bux-a1-m4-cB 2bux-a1-m12-cB_2bux-a1-m9-cB 2bux-a1-m1-cB_2bux-a1-m3-cB 2bux-a1-m1-cB_2bux-a1-m7-cB 2bux-a1-m2-cB_2bux-a1-m5-cB 2bux-a1-m2-cB_2bux-a1-m8-cB 2bux-a1-m3-cB_2bux-a1-m7-cB 2bux-a1-m4-cB_2bux-a1-m9-cB 2bux-a1-m5-cB_2bux-a1-m8-cB 2buy-a1-m10-cB_2buy-a1-m6-cB 2buy-a1-m10-cB_2buy-a1-m8-cB 2buy-a1-m11-cB_2buy-a1-m12-cB 2buy-a1-m11-cB_2buy-a1-m9-cB 2buy-a1-m12-cB_2buy-a1-m9-cB 2buy-a1-m1-cB_2buy-a1-m2-cB 2buy-a1-m1-cB_2buy-a1-m3-cB 2buy-a1-m2-cB_2buy-a1-m3-cB 2buy-a1-m4-cB_2buy-a1-m5-cB 2buy-a1-m4-cB_2buy-a1-m7-cB 2buy-a1-m5-cB_2buy-a1-m7-cB 2buy-a1-m6-cB_2buy-a1-m8-cB 2buz-a1-m10-cB_2buz-a1-m6-cB 2buz-a1-m10-cB_2buz-a1-m8-cB 2buz-a1-m11-cB_2buz-a1-m12-cB 2buz-a1-m11-cB_2buz-a1-m9-cB 2buz-a1-m12-cB_2buz-a1-m9-cB 2buz-a1-m1-cB_2buz-a1-m2-cB 2buz-a1-m1-cB_2buz-a1-m3-cB 2buz-a1-m2-cB_2buz-a1-m3-cB 2buz-a1-m4-cB_2buz-a1-m5-cB 2buz-a1-m4-cB_2buz-a1-m7-cB 2buz-a1-m5-cB_2buz-a1-m7-cB 2buz-a1-m6-cB_2buz-a1-m8-cB 2bv0-a1-m10-cB_2bv0-a1-m6-cB 2bv0-a1-m10-cB_2bv0-a1-m8-cB 2bv0-a1-m11-cB_2bv0-a1-m12-cB 2bv0-a1-m11-cB_2bv0-a1-m9-cB 2bv0-a1-m1-cB_2bv0-a1-m2-cB 2bv0-a1-m1-cB_2bv0-a1-m3-cB 2bv0-a1-m2-cB_2bv0-a1-m3-cB 2bv0-a1-m4-cB_2bv0-a1-m5-cB 2bv0-a1-m4-cB_2bv0-a1-m7-cB 2bv0-a1-m5-cB_2bv0-a1-m7-cB 2bv0-a1-m6-cB_2bv0-a1-m8-cB IIWGAYAQRNTEDHPPAYAPGYKTSVLRSPKNALISIAETLSEVTAPHFSADKFGPKDNDLILNYAKDGLPIGERVIVHGYVRDQFGRPVKNALVEVWQANASGRYRHPNDQYIGAMDPNFGGCGRMLTDDNGYYVFRTIKPGPYPWRNRINEWRPAHIHFSLIADGWAQRLISQFYFEGDTLIDSCPILKTIPSEQQRRALIALEDKSNFIEADSRCYRFDITLRGRRATYFENDLT IIWGAYAQRNTEDHPPAYAPGYKTSVLRSPKNALISIAETLSEVTAPHFSADKFGPKDNDLILNYAKDGLPIGERVIVHGYVRDQFGRPVKNALVEVWQANASGRYRHPNDQYIGAMDPNFGGCGRMLTDDNGYYVFRTIKPGPYPWRNRINEWRPAHIHFSLIADGWAQRLISQFYFEGDTLIDSCPILKTIPSEQQRRALIALEDKSNFIEADSRCYRFDITLRGRRATYFENDLT 2bv0-a1-m2-cB_2bv0-a1-m9-cB Crystal Structure of Protocatechuate 3,4-Dioxygenase from Acinetobacter Sp. ADP1 Mutant R133H in Complex with Protocatechuate. P20372 P20372 1.8 X-RAY DIFFRACTION 18 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 238 238 1eo2-a1-m10-cB_1eo2-a1-m2-cB 1eo2-a1-m10-cB_1eo2-a1-m6-cB 1eo2-a1-m11-cB_1eo2-a1-m8-cB 1eo2-a1-m12-cB_1eo2-a1-m3-cB 1eo2-a1-m12-cB_1eo2-a1-m5-cB 1eo2-a1-m1-cB_1eo2-a1-m11-cB 1eo2-a1-m1-cB_1eo2-a1-m8-cB 1eo2-a1-m2-cB_1eo2-a1-m6-cB 1eo2-a1-m3-cB_1eo2-a1-m5-cB 1eo2-a1-m4-cB_1eo2-a1-m7-cB 1eo2-a1-m4-cB_1eo2-a1-m9-cB 1eo2-a1-m7-cB_1eo2-a1-m9-cB 1eo9-a1-m10-cB_1eo9-a1-m2-cB 1eo9-a1-m10-cB_1eo9-a1-m6-cB 1eo9-a1-m11-cB_1eo9-a1-m8-cB 1eo9-a1-m12-cB_1eo9-a1-m3-cB 1eo9-a1-m12-cB_1eo9-a1-m5-cB 1eo9-a1-m1-cB_1eo9-a1-m11-cB 1eo9-a1-m1-cB_1eo9-a1-m8-cB 1eo9-a1-m2-cB_1eo9-a1-m6-cB 1eo9-a1-m3-cB_1eo9-a1-m5-cB 1eo9-a1-m4-cB_1eo9-a1-m7-cB 1eo9-a1-m4-cB_1eo9-a1-m9-cB 1eo9-a1-m7-cB_1eo9-a1-m9-cB 1eoa-a1-m10-cB_1eoa-a1-m2-cB 1eoa-a1-m10-cB_1eoa-a1-m6-cB 1eoa-a1-m11-cB_1eoa-a1-m8-cB 1eoa-a1-m12-cB_1eoa-a1-m3-cB 1eoa-a1-m12-cB_1eoa-a1-m5-cB 1eoa-a1-m1-cB_1eoa-a1-m11-cB 1eoa-a1-m1-cB_1eoa-a1-m8-cB 1eoa-a1-m2-cB_1eoa-a1-m6-cB 1eoa-a1-m3-cB_1eoa-a1-m5-cB 1eoa-a1-m4-cB_1eoa-a1-m7-cB 1eoa-a1-m4-cB_1eoa-a1-m9-cB 1eoa-a1-m7-cB_1eoa-a1-m9-cB 1eob-a1-m10-cB_1eob-a1-m2-cB 1eob-a1-m10-cB_1eob-a1-m6-cB 1eob-a1-m11-cB_1eob-a1-m8-cB 1eob-a1-m12-cB_1eob-a1-m3-cB 1eob-a1-m12-cB_1eob-a1-m5-cB 1eob-a1-m1-cB_1eob-a1-m11-cB 1eob-a1-m1-cB_1eob-a1-m8-cB 1eob-a1-m2-cB_1eob-a1-m6-cB 1eob-a1-m3-cB_1eob-a1-m5-cB 1eob-a1-m4-cB_1eob-a1-m7-cB 1eob-a1-m4-cB_1eob-a1-m9-cB 1eob-a1-m7-cB_1eob-a1-m9-cB 1eoc-a1-m10-cB_1eoc-a1-m2-cB 1eoc-a1-m10-cB_1eoc-a1-m6-cB 1eoc-a1-m11-cB_1eoc-a1-m8-cB 1eoc-a1-m12-cB_1eoc-a1-m3-cB 1eoc-a1-m12-cB_1eoc-a1-m5-cB 1eoc-a1-m1-cB_1eoc-a1-m11-cB 1eoc-a1-m1-cB_1eoc-a1-m8-cB 1eoc-a1-m2-cB_1eoc-a1-m6-cB 1eoc-a1-m3-cB_1eoc-a1-m5-cB 1eoc-a1-m4-cB_1eoc-a1-m7-cB 1eoc-a1-m4-cB_1eoc-a1-m9-cB 1eoc-a1-m7-cB_1eoc-a1-m9-cB 2bum-a1-m10-cB_2bum-a1-m8-cB 2bum-a1-m10-cB_2bum-a1-m9-cB 2bum-a1-m11-cB_2bum-a1-m12-cB 2bum-a1-m1-cB_2bum-a1-m11-cB 2bum-a1-m1-cB_2bum-a1-m12-cB 2bum-a1-m2-cB_2bum-a1-m3-cB 2bum-a1-m2-cB_2bum-a1-m4-cB 2bum-a1-m3-cB_2bum-a1-m4-cB 2bum-a1-m5-cB_2bum-a1-m6-cB 2bum-a1-m5-cB_2bum-a1-m7-cB 2bum-a1-m6-cB_2bum-a1-m7-cB 2bum-a1-m8-cB_2bum-a1-m9-cB 2buq-a1-m10-cB_2buq-a1-m2-cB 2buq-a1-m10-cB_2buq-a1-m9-cB 2buq-a1-m11-cB_2buq-a1-m3-cB 2buq-a1-m11-cB_2buq-a1-m4-cB 2buq-a1-m12-cB_2buq-a1-m7-cB 2buq-a1-m12-cB_2buq-a1-m8-cB 2buq-a1-m1-cB_2buq-a1-m5-cB 2buq-a1-m1-cB_2buq-a1-m6-cB 2buq-a1-m2-cB_2buq-a1-m9-cB 2buq-a1-m3-cB_2buq-a1-m4-cB 2buq-a1-m5-cB_2buq-a1-m6-cB 2buq-a1-m7-cB_2buq-a1-m8-cB 2bur-a1-m10-cB_2bur-a1-m2-cB 2bur-a1-m10-cB_2bur-a1-m9-cB 2bur-a1-m11-cB_2bur-a1-m3-cB 2bur-a1-m11-cB_2bur-a1-m4-cB 2bur-a1-m12-cB_2bur-a1-m7-cB 2bur-a1-m12-cB_2bur-a1-m8-cB 2bur-a1-m1-cB_2bur-a1-m5-cB 2bur-a1-m1-cB_2bur-a1-m6-cB 2bur-a1-m2-cB_2bur-a1-m9-cB 2bur-a1-m3-cB_2bur-a1-m4-cB 2bur-a1-m5-cB_2bur-a1-m6-cB 2bur-a1-m7-cB_2bur-a1-m8-cB 2but-a1-m10-cB_2but-a1-m8-cB 2but-a1-m10-cB_2but-a1-m9-cB 2but-a1-m11-cB_2but-a1-m12-cB 2but-a1-m1-cB_2but-a1-m11-cB 2but-a1-m1-cB_2but-a1-m12-cB 2but-a1-m2-cB_2but-a1-m3-cB 2but-a1-m2-cB_2but-a1-m4-cB 2but-a1-m3-cB_2but-a1-m4-cB 2but-a1-m5-cB_2but-a1-m6-cB 2but-a1-m5-cB_2but-a1-m7-cB 2but-a1-m6-cB_2but-a1-m7-cB 2but-a1-m8-cB_2but-a1-m9-cB 2buu-a1-m10-cB_2buu-a1-m2-cB 2buu-a1-m10-cB_2buu-a1-m9-cB 2buu-a1-m11-cB_2buu-a1-m3-cB 2buu-a1-m11-cB_2buu-a1-m4-cB 2buu-a1-m12-cB_2buu-a1-m7-cB 2buu-a1-m12-cB_2buu-a1-m8-cB 2buu-a1-m1-cB_2buu-a1-m5-cB 2buu-a1-m1-cB_2buu-a1-m6-cB 2buu-a1-m2-cB_2buu-a1-m9-cB 2buu-a1-m3-cB_2buu-a1-m4-cB 2buu-a1-m5-cB_2buu-a1-m6-cB 2buu-a1-m7-cB_2buu-a1-m8-cB 2buv-a1-m10-cB_2buv-a1-m2-cB 2buv-a1-m10-cB_2buv-a1-m9-cB 2buv-a1-m11-cB_2buv-a1-m3-cB 2buv-a1-m11-cB_2buv-a1-m4-cB 2buv-a1-m12-cB_2buv-a1-m7-cB 2buv-a1-m12-cB_2buv-a1-m8-cB 2buv-a1-m1-cB_2buv-a1-m5-cB 2buv-a1-m1-cB_2buv-a1-m6-cB 2buv-a1-m2-cB_2buv-a1-m9-cB 2buv-a1-m3-cB_2buv-a1-m4-cB 2buv-a1-m5-cB_2buv-a1-m6-cB 2buv-a1-m7-cB_2buv-a1-m8-cB 2buw-a1-m10-cB_2buw-a1-m2-cB 2buw-a1-m10-cB_2buw-a1-m9-cB 2buw-a1-m11-cB_2buw-a1-m3-cB 2buw-a1-m11-cB_2buw-a1-m4-cB 2buw-a1-m12-cB_2buw-a1-m7-cB 2buw-a1-m12-cB_2buw-a1-m8-cB 2buw-a1-m1-cB_2buw-a1-m5-cB 2buw-a1-m1-cB_2buw-a1-m6-cB 2buw-a1-m2-cB_2buw-a1-m9-cB 2buw-a1-m3-cB_2buw-a1-m4-cB 2buw-a1-m5-cB_2buw-a1-m6-cB 2buw-a1-m7-cB_2buw-a1-m8-cB 2bux-a1-m10-cB_2bux-a1-m8-cB 2bux-a1-m10-cB_2bux-a1-m9-cB 2bux-a1-m11-cB_2bux-a1-m12-cB 2bux-a1-m1-cB_2bux-a1-m11-cB 2bux-a1-m1-cB_2bux-a1-m12-cB 2bux-a1-m2-cB_2bux-a1-m3-cB 2bux-a1-m2-cB_2bux-a1-m4-cB 2bux-a1-m3-cB_2bux-a1-m4-cB 2bux-a1-m5-cB_2bux-a1-m6-cB 2bux-a1-m5-cB_2bux-a1-m7-cB 2bux-a1-m6-cB_2bux-a1-m7-cB 2bux-a1-m8-cB_2bux-a1-m9-cB 2buy-a1-m10-cB_2buy-a1-m2-cB 2buy-a1-m10-cB_2buy-a1-m9-cB 2buy-a1-m11-cB_2buy-a1-m3-cB 2buy-a1-m11-cB_2buy-a1-m4-cB 2buy-a1-m12-cB_2buy-a1-m7-cB 2buy-a1-m12-cB_2buy-a1-m8-cB 2buy-a1-m1-cB_2buy-a1-m5-cB 2buy-a1-m1-cB_2buy-a1-m6-cB 2buy-a1-m2-cB_2buy-a1-m9-cB 2buy-a1-m3-cB_2buy-a1-m4-cB 2buy-a1-m5-cB_2buy-a1-m6-cB 2buy-a1-m7-cB_2buy-a1-m8-cB 2buz-a1-m10-cB_2buz-a1-m2-cB 2buz-a1-m10-cB_2buz-a1-m9-cB 2buz-a1-m11-cB_2buz-a1-m3-cB 2buz-a1-m11-cB_2buz-a1-m4-cB 2buz-a1-m12-cB_2buz-a1-m7-cB 2buz-a1-m12-cB_2buz-a1-m8-cB 2buz-a1-m1-cB_2buz-a1-m5-cB 2buz-a1-m1-cB_2buz-a1-m6-cB 2buz-a1-m2-cB_2buz-a1-m9-cB 2buz-a1-m3-cB_2buz-a1-m4-cB 2buz-a1-m5-cB_2buz-a1-m6-cB 2buz-a1-m7-cB_2buz-a1-m8-cB 2bv0-a1-m10-cB_2bv0-a1-m2-cB 2bv0-a1-m10-cB_2bv0-a1-m9-cB 2bv0-a1-m11-cB_2bv0-a1-m3-cB 2bv0-a1-m11-cB_2bv0-a1-m4-cB 2bv0-a1-m12-cB_2bv0-a1-m7-cB 2bv0-a1-m12-cB_2bv0-a1-m8-cB 2bv0-a1-m1-cB_2bv0-a1-m5-cB 2bv0-a1-m1-cB_2bv0-a1-m6-cB 2bv0-a1-m3-cB_2bv0-a1-m4-cB 2bv0-a1-m5-cB_2bv0-a1-m6-cB 2bv0-a1-m7-cB_2bv0-a1-m8-cB IIWGAYAQRNTEDHPPAYAPGYKTSVLRSPKNALISIAETLSEVTAPHFSADKFGPKDNDLILNYAKDGLPIGERVIVHGYVRDQFGRPVKNALVEVWQANASGRYRHPNDQYIGAMDPNFGGCGRMLTDDNGYYVFRTIKPGPYPWRNRINEWRPAHIHFSLIADGWAQRLISQFYFEGDTLIDSCPILKTIPSEQQRRALIALEDKSNFIEADSRCYRFDITLRGRRATYFENDLT IIWGAYAQRNTEDHPPAYAPGYKTSVLRSPKNALISIAETLSEVTAPHFSADKFGPKDNDLILNYAKDGLPIGERVIVHGYVRDQFGRPVKNALVEVWQANASGRYRHPNDQYIGAMDPNFGGCGRMLTDDNGYYVFRTIKPGPYPWRNRINEWRPAHIHFSLIADGWAQRLISQFYFEGDTLIDSCPILKTIPSEQQRRALIALEDKSNFIEADSRCYRFDITLRGRRATYFENDLT 2bv0-a1-m3-cB_2bv0-a1-m9-cB Crystal Structure of Protocatechuate 3,4-Dioxygenase from Acinetobacter Sp. ADP1 Mutant R133H in Complex with Protocatechuate. P20372 P20372 1.8 X-RAY DIFFRACTION 104 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 238 238 1eo2-a1-m10-cB_1eo2-a1-m9-cB 1eo2-a1-m11-cB_1eo2-a1-m12-cB 1eo2-a1-m1-cB_1eo2-a1-m2-cB 1eo2-a1-m3-cB_1eo2-a1-m4-cB 1eo2-a1-m5-cB_1eo2-a1-m6-cB 1eo2-a1-m7-cB_1eo2-a1-m8-cB 1eo9-a1-m10-cB_1eo9-a1-m9-cB 1eo9-a1-m11-cB_1eo9-a1-m12-cB 1eo9-a1-m1-cB_1eo9-a1-m2-cB 1eo9-a1-m3-cB_1eo9-a1-m4-cB 1eo9-a1-m5-cB_1eo9-a1-m6-cB 1eo9-a1-m7-cB_1eo9-a1-m8-cB 1eoa-a1-m10-cB_1eoa-a1-m9-cB 1eoa-a1-m11-cB_1eoa-a1-m12-cB 1eoa-a1-m1-cB_1eoa-a1-m2-cB 1eoa-a1-m3-cB_1eoa-a1-m4-cB 1eoa-a1-m5-cB_1eoa-a1-m6-cB 1eoa-a1-m7-cB_1eoa-a1-m8-cB 1eob-a1-m10-cB_1eob-a1-m9-cB 1eob-a1-m11-cB_1eob-a1-m12-cB 1eob-a1-m1-cB_1eob-a1-m2-cB 1eob-a1-m3-cB_1eob-a1-m4-cB 1eob-a1-m5-cB_1eob-a1-m6-cB 1eob-a1-m7-cB_1eob-a1-m8-cB 1eoc-a1-m10-cB_1eoc-a1-m9-cB 1eoc-a1-m11-cB_1eoc-a1-m12-cB 1eoc-a1-m1-cB_1eoc-a1-m2-cB 1eoc-a1-m3-cB_1eoc-a1-m4-cB 1eoc-a1-m5-cB_1eoc-a1-m6-cB 1eoc-a1-m7-cB_1eoc-a1-m8-cB 2bum-a1-m10-cB_2bum-a1-m12-cB 2bum-a1-m11-cB_2bum-a1-m7-cB 2bum-a1-m1-cB_2bum-a1-m4-cB 2bum-a1-m2-cB_2bum-a1-m9-cB 2bum-a1-m3-cB_2bum-a1-m5-cB 2bum-a1-m6-cB_2bum-a1-m8-cB 2buq-a1-m10-cB_2buq-a1-m12-cB 2buq-a1-m11-cB_2buq-a1-m7-cB 2buq-a1-m1-cB_2buq-a1-m4-cB 2buq-a1-m2-cB_2buq-a1-m6-cB 2buq-a1-m3-cB_2buq-a1-m9-cB 2buq-a1-m5-cB_2buq-a1-m8-cB 2bur-a1-m10-cB_2bur-a1-m12-cB 2bur-a1-m11-cB_2bur-a1-m7-cB 2bur-a1-m1-cB_2bur-a1-m4-cB 2bur-a1-m2-cB_2bur-a1-m6-cB 2bur-a1-m3-cB_2bur-a1-m9-cB 2bur-a1-m5-cB_2bur-a1-m8-cB 2but-a1-m10-cB_2but-a1-m12-cB 2but-a1-m11-cB_2but-a1-m7-cB 2but-a1-m1-cB_2but-a1-m4-cB 2but-a1-m2-cB_2but-a1-m9-cB 2but-a1-m3-cB_2but-a1-m5-cB 2but-a1-m6-cB_2but-a1-m8-cB 2buu-a1-m10-cB_2buu-a1-m12-cB 2buu-a1-m11-cB_2buu-a1-m7-cB 2buu-a1-m1-cB_2buu-a1-m4-cB 2buu-a1-m2-cB_2buu-a1-m6-cB 2buu-a1-m3-cB_2buu-a1-m9-cB 2buu-a1-m5-cB_2buu-a1-m8-cB 2buv-a1-m10-cB_2buv-a1-m12-cB 2buv-a1-m11-cB_2buv-a1-m7-cB 2buv-a1-m1-cB_2buv-a1-m4-cB 2buv-a1-m2-cB_2buv-a1-m6-cB 2buv-a1-m3-cB_2buv-a1-m9-cB 2buv-a1-m5-cB_2buv-a1-m8-cB 2buw-a1-m10-cB_2buw-a1-m12-cB 2buw-a1-m11-cB_2buw-a1-m7-cB 2buw-a1-m1-cB_2buw-a1-m4-cB 2buw-a1-m2-cB_2buw-a1-m6-cB 2buw-a1-m3-cB_2buw-a1-m9-cB 2buw-a1-m5-cB_2buw-a1-m8-cB 2bux-a1-m10-cB_2bux-a1-m12-cB 2bux-a1-m11-cB_2bux-a1-m7-cB 2bux-a1-m1-cB_2bux-a1-m4-cB 2bux-a1-m2-cB_2bux-a1-m9-cB 2bux-a1-m3-cB_2bux-a1-m5-cB 2bux-a1-m6-cB_2bux-a1-m8-cB 2buy-a1-m10-cB_2buy-a1-m12-cB 2buy-a1-m11-cB_2buy-a1-m7-cB 2buy-a1-m1-cB_2buy-a1-m4-cB 2buy-a1-m2-cB_2buy-a1-m6-cB 2buy-a1-m3-cB_2buy-a1-m9-cB 2buy-a1-m5-cB_2buy-a1-m8-cB 2buz-a1-m10-cB_2buz-a1-m12-cB 2buz-a1-m11-cB_2buz-a1-m7-cB 2buz-a1-m1-cB_2buz-a1-m4-cB 2buz-a1-m2-cB_2buz-a1-m6-cB 2buz-a1-m3-cB_2buz-a1-m9-cB 2buz-a1-m5-cB_2buz-a1-m8-cB 2bv0-a1-m10-cB_2bv0-a1-m12-cB 2bv0-a1-m11-cB_2bv0-a1-m7-cB 2bv0-a1-m1-cB_2bv0-a1-m4-cB 2bv0-a1-m2-cB_2bv0-a1-m6-cB 2bv0-a1-m5-cB_2bv0-a1-m8-cB IIWGAYAQRNTEDHPPAYAPGYKTSVLRSPKNALISIAETLSEVTAPHFSADKFGPKDNDLILNYAKDGLPIGERVIVHGYVRDQFGRPVKNALVEVWQANASGRYRHPNDQYIGAMDPNFGGCGRMLTDDNGYYVFRTIKPGPYPWRNRINEWRPAHIHFSLIADGWAQRLISQFYFEGDTLIDSCPILKTIPSEQQRRALIALEDKSNFIEADSRCYRFDITLRGRRATYFENDLT IIWGAYAQRNTEDHPPAYAPGYKTSVLRSPKNALISIAETLSEVTAPHFSADKFGPKDNDLILNYAKDGLPIGERVIVHGYVRDQFGRPVKNALVEVWQANASGRYRHPNDQYIGAMDPNFGGCGRMLTDDNGYYVFRTIKPGPYPWRNRINEWRPAHIHFSLIADGWAQRLISQFYFEGDTLIDSCPILKTIPSEQQRRALIALEDKSNFIEADSRCYRFDITLRGRRATYFENDLT 2bv4-a1-m1-cA_2bv4-a1-m2-cB 1.0A Structure of Chromobacterium Violaceum Lectin in Complex with alpha-methyl-mannoside Q7NX84 Q7NX84 1 X-RAY DIFFRACTION 16 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 113 113 2boi-a1-m1-cA_2boi-a1-m2-cB 2boi-a1-m1-cB_2boi-a1-m2-cA 2bv4-a1-m1-cB_2bv4-a1-m2-cA AQQGVFTLPARINFGVTVLVNSAATQHVEIFVDNEPRAAFSGVGTGDNNLGTKVINSGSGNVRVQITANGRQSDLVSSQLVLANKLNLAVVGSEDGTDMDYNDSIVILNWPLG AQQGVFTLPARINFGVTVLVNSAATQHVEIFVDNEPRAAFSGVGTGDNNLGTKVINSGSGNVRVQITANGRQSDLVSSQLVLANKLNLAVVGSEDGTDMDYNDSIVILNWPLG 2bv4-a1-m1-cB_2bv4-a1-m2-cB 1.0A Structure of Chromobacterium Violaceum Lectin in Complex with alpha-methyl-mannoside Q7NX84 Q7NX84 1 X-RAY DIFFRACTION 30 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 113 113 2boi-a1-m1-cA_2boi-a1-m2-cA 2boi-a1-m1-cB_2boi-a1-m2-cB 2bv4-a1-m1-cA_2bv4-a1-m2-cA AQQGVFTLPARINFGVTVLVNSAATQHVEIFVDNEPRAAFSGVGTGDNNLGTKVINSGSGNVRVQITANGRQSDLVSSQLVLANKLNLAVVGSEDGTDMDYNDSIVILNWPLG AQQGVFTLPARINFGVTVLVNSAATQHVEIFVDNEPRAAFSGVGTGDNNLGTKVINSGSGNVRVQITANGRQSDLVSSQLVLANKLNLAVVGSEDGTDMDYNDSIVILNWPLG 2bv4-a1-m2-cA_2bv4-a1-m2-cB 1.0A Structure of Chromobacterium Violaceum Lectin in Complex with alpha-methyl-mannoside Q7NX84 Q7NX84 1 X-RAY DIFFRACTION 113 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 113 113 2boi-a1-m1-cA_2boi-a1-m1-cB 2boi-a1-m2-cA_2boi-a1-m2-cB 2bv4-a1-m1-cA_2bv4-a1-m1-cB AQQGVFTLPARINFGVTVLVNSAATQHVEIFVDNEPRAAFSGVGTGDNNLGTKVINSGSGNVRVQITANGRQSDLVSSQLVLANKLNLAVVGSEDGTDMDYNDSIVILNWPLG AQQGVFTLPARINFGVTVLVNSAATQHVEIFVDNEPRAAFSGVGTGDNNLGTKVINSGSGNVRVQITANGRQSDLVSSQLVLANKLNLAVVGSEDGTDMDYNDSIVILNWPLG 2bv6-a1-m1-cA_2bv6-a1-m2-cA Crystal structure of MgrA, a global regulator and major virulence determinant in Staphylococcus aureus P0C1S0 P0C1S0 2.8 X-RAY DIFFRACTION 175 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 135 135 NLKEQLCFSLYNAQRQVNRYYSNKVFKKYNLTYPQFLVLTILWDESPVNVKKVVTELALDTGTVSPLLKREQVDLIKRERSEVDQREVFIHLTDKSETIRPELSNASDKVASASSLSQDEVKELNRLLGKVIHAF NLKEQLCFSLYNAQRQVNRYYSNKVFKKYNLTYPQFLVLTILWDESPVNVKKVVTELALDTGTVSPLLKREQVDLIKRERSEVDQREVFIHLTDKSETIRPELSNASDKVASASSLSQDEVKELNRLLGKVIHAF 2bv8-a1-m1-cB_2bv8-a1-m1-cF The crystal structure of Phycocyanin from Gracilaria chilensis. Q6B8L7 Q6B8L7 2.01 X-RAY DIFFRACTION 11 1.0 171 171 2bv8-a1-m1-cD_2bv8-a1-m1-cF 2bv8-a1-m1-cL_2bv8-a1-m1-cN MLDAFAKVVAQADARGEFLSNTQLDALANMIAEGNKRLDIVNRINSNASAIVSNSARALFAEQPQLIQPGGAYTNRRMAACLRDMEIVLRYVSYAEIAGDSSVLDDRCLNGLRETYQALGTPGSSVAVAIEKMKEASVSDANDSSGTPSGDCSSLSAELGTYFDRAASAVS MLDAFAKVVAQADARGEFLSNTQLDALANMIAEGNKRLDIVNRINSNASAIVSNSARALFAEQPQLIQPGGAYTNRRMAACLRDMEIVLRYVSYAEIAGDSSVLDDRCLNGLRETYQALGTPGSSVAVAIEKMKEASVSDANDSSGTPSGDCSSLSAELGTYFDRAASAVS 2bv8-a1-m1-cC_2bv8-a1-m1-cO The crystal structure of Phycocyanin from Gracilaria chilensis. Q6B8L6 Q6B8L6 2.01 X-RAY DIFFRACTION 67 1.0 162 162 2bv8-a1-m1-cA_2bv8-a1-m1-cK 2bv8-a1-m1-cE_2bv8-a1-m1-cM MKTPITEAIASADSQGRFLSNGELQSINGRYQRATASLEAARSLTSNAERLISGAAQSVYSKFPYTTQMQGPNYAADATGKAKCARDIGYYLRMVTYCLVVGATGPMDEYLIAGLSEINRSFELSPSWYIEALEYIKDSHALSGQAANEANTYLDYAINALS MKTPITEAIASADSQGRFLSNGELQSINGRYQRATASLEAARSLTSNAERLISGAAQSVYSKFPYTTQMQGPNYAADATGKAKCARDIGYYLRMVTYCLVVGATGPMDEYLIAGLSEINRSFELSPSWYIEALEYIKDSHALSGQAANEANTYLDYAINALS 2bv8-a1-m1-cE_2bv8-a1-m1-cO The crystal structure of Phycocyanin from Gracilaria chilensis. Q6B8L6 Q6B8L6 2.01 X-RAY DIFFRACTION 25 1.0 162 162 2bv8-a1-m1-cA_2bv8-a1-m1-cM 2bv8-a1-m1-cC_2bv8-a1-m1-cK MKTPITEAIASADSQGRFLSNGELQSINGRYQRATASLEAARSLTSNAERLISGAAQSVYSKFPYTTQMQGPNYAADATGKAKCARDIGYYLRMVTYCLVVGATGPMDEYLIAGLSEINRSFELSPSWYIEALEYIKDSHALSGQAANEANTYLDYAINALS MKTPITEAIASADSQGRFLSNGELQSINGRYQRATASLEAARSLTSNAERLISGAAQSVYSKFPYTTQMQGPNYAADATGKAKCARDIGYYLRMVTYCLVVGATGPMDEYLIAGLSEINRSFELSPSWYIEALEYIKDSHALSGQAANEANTYLDYAINALS 2bw3-a1-m1-cA_2bw3-a1-m2-cA Three-dimensional structure of the Hermes DNA transposase Q25438 Q25438 2 X-RAY DIFFRACTION 88 1.0 7370 (Musca domestica) 7370 (Musca domestica) 509 509 SHQSRELKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDIKFFIKVKAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALIGREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTLRSILDNWESVIQILSEAGETQRIVHINKSIIQTVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHQQEKVAQIKEFCLSKEDLELINRSSFNELSATQLNQDISTTSFFFPQLTQNNSREPPVCPSDEFEFYRKEIVILSEDFKVEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK SHQSRELKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDIKFFIKVKAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALIGREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTLRSILDNWESVIQILSEAGETQRIVHINKSIIQTVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHQQEKVAQIKEFCLSKEDLELINRSSFNELSATQLNQDISTTSFFFPQLTQNNSREPPVCPSDEFEFYRKEIVILSEDFKVEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK 2bwe-a2-m1-cP_2bwe-a2-m1-cO The crystal structure of the complex between the UBA and UBL domains of Dsk2 P48510 P48510 3.1 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 44 46 2bwe-a1-m1-cA_2bwe-a1-m1-cB 2bwe-a1-m1-cE_2bwe-a1-m1-cD 2bwe-a1-m1-cF_2bwe-a1-m1-cE 2bwe-a1-m1-cF_2bwe-a1-m1-cG 2bwe-a1-m1-cH_2bwe-a1-m1-cG 2bwe-a1-m1-cH_2bwe-a1-m1-cI 2bwe-a2-m1-cN_2bwe-a2-m1-cO 2bwe-a2-m1-cP_2bwe-a2-m1-cQ 2bwe-a2-m1-cR_2bwe-a2-m1-cQ 2bwe-a3-m1-cJ_2bwe-a3-m1-cK 2bwe-a3-m1-cL_2bwe-a3-m1-cK 2bwe-a3-m1-cM_2bwe-a3-m1-cL DPEERYEHQLRQLNDMGFFDFDRNVAALRRSGGSVQGALDSLLN LDPEERYEHQLRQLNDMGFFDFDRNVAALRRSGGSVQGALDSLLNG 2bwg-a1-m1-cD_2bwg-a1-m1-cC Structure of human guanosine monophosphate reductase GMPR1 in complex with GMP P36959 P36959 2.4 X-RAY DIFFRACTION 138 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 328 329 2ble-a1-m1-cA_2ble-a1-m2-cA 2ble-a1-m1-cA_2ble-a1-m3-cA 2ble-a1-m2-cA_2ble-a1-m4-cA 2ble-a1-m3-cA_2ble-a1-m4-cA 2bwg-a1-m1-cB_2bwg-a1-m1-cA 2bwg-a1-m1-cC_2bwg-a1-m1-cA 2bwg-a1-m1-cD_2bwg-a1-m1-cB PRIDADLKLDFKDVLLRPKRSSLKSRAEVDLERTFTFRNSKQTYSGIPIIVANMDTVGTFEMAAVMSQHSMFTAIHKHYSLDDWKLFATNHPECLQNVAVSSGSGQNDLEKMTSILEAVPQVKFICLDVANGYSEHFVEFVKLVRAKFPEHTIMAGNVVTGEMVEELILSGADIIKVGVGPGSVCTTRTKTGVGYPQLSAVIECADSAHGLKGHIISDGGCTCPGDVAKAFGAGADFVMLGGMFSGHTECAGEVIRKLKLFYGMSSDTAMNKHAEYRASEGKTVEVPYKGDVENTILDILGGLRSTCTYVGAAKLKELSRRATFIRVT PRIDADLKLDFKDVLLRPKRSSLKSRAEVDLERTFTFRNSKQTYSGIPIIVANMDTVGTFEMAAVMSQHSMFTAIHKHYSLDDWKLFATNHPECLQNVAVSSGSGQNDLEKMTSILEAVPQVKFICLDVANGYSEHFVEFVKLVRAKFPEHTIMAGNVVTGEMVEELILSGADIIKVGVGPGSVCTTRTKTGVGYPQLSAVIECADSAHGLKGHIISDGGCTCPGDVAKAFGAGADFVMLGGMFSGHTECAGEVIRKLKLFYGMSSDTAMNKHVAEYRASEGKTVEVPYKGDVENTILDILGGLRSTCTYVGAAKLKELSRRATFIRVT 2bwj-a3-m1-cE_2bwj-a3-m1-cD Structure of adenylate kinase 5 Q9Y6K8 Q9Y6K8 2.3 X-RAY DIFFRACTION 89 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 190 192 2bwj-a1-m1-cB_2bwj-a1-m1-cA 2bwj-a2-m1-cC_2bwj-a2-m1-cF LRKCKIIFIIGGPGSGKGTQCEKLVEKYGFTHLSTGELLREELASESERSKLIRDIMERGDLVPSGIVLELLKEAMVASLGDTRGFLIDGYPREVKQGEEFGRRIGDPQLVICMDCSADTMTNRLLQMSRSSLPVDDTTKTIAKRLEAYYRASIPVIAYYETKTQLHKINAEGTPEDVFLQLCTAIDSIF MEDLRKCKIIFIIGGPGSGKGTQCEKLVEKYGFTHLSTGELLREELASESERSKLIRDIMERGDLVPSGIVLELLKEAMVASLGDTRGFLIDGYPREVKQGEEFGRRIGDPQLVICMDCSADTMTNRLLQMSRSSLPVDDTTKTIAKRLEAYYRASIPVIAYYETKTQLHKINAEGTPEDVFLQLCTAIDSI 2bwn-a2-m1-cD_2bwn-a2-m1-cE 5-Aminolevulinate Synthase from Rhodobacter capsulatus P18079 P18079 2.1 X-RAY DIFFRACTION 315 0.997 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 397 398 2bwn-a1-m1-cB_2bwn-a1-m1-cA 2bwo-a1-m1-cA_2bwo-a1-m1-cB 2bwo-a2-m1-cD_2bwo-a2-m1-cE 2bwp-a1-m1-cB_2bwp-a1-m1-cA 2bwp-a2-m1-cD_2bwp-a2-m1-cE MDYNLALDKAIQKLHDEGRYRTFIDIEREKGAFPKAQWNRPDGGKQDITVWCGNDYLGMGQHPVVLAAMHEALEAVGAGSGGTRNISGTTAYHRRLEAEIAGLHQKEAALVFSSAYNANDATLSTLRVLFPGLIIYSDSLNHASMIEGIKRNAGPKRIFRHNDVAHLRELIAADDPAAPKLIAFESVYSMDGDFGPIKEICDIAEEFGALTYIDEVHAVGMYGPRGAGVAERDGLMHRIDIFNGTLAKAYGVFGGYIAASARMVDAVRSYAPGFIFSTSLPPAIAAGAQASIAFLKTAEGQKLRDAQQMHAKVLKMRLKALGMPIIDHGSHIVPVVIGDPVHTKAVSDMLLSDYGVYVQPINFPTVPRGTERLRFTPSPVHDLKQIDGLVHAMDLLW DYNLALDKAIQKLHDEGRYRTFIDIEREKGAFPKAQWNRPDGGKQDITVWCGNDYLGMGQHPVVLAAMHEALEAVGAGSGGTRNISGTTAYHRRLEAEIAGLHQKEAALVFSSAYNANDATLSTLRVLFPGLIIYSDSLNHASMIEGIKRNAGPKRIFRHNDVAHLRELIAADDPAAPKLIAFESVYSMDGDFGPIKEICDIAEEFGALTYIDEVHAVGMYGPRGAGVAERDGLMHRIDIFNGTLAKAYGVFGGYIAASARMVDAVRSYAPGFIFSTSLPPAIAAGAQASIAFLKTAEGQKLRDAQQMHAKVLKMRLKALGMPIIDHGSHIVPVVIGDPVHTKAVSDMLLSDYGVYVQPINFPTVPRGTERLRFTPSPVHDLKQIDGLVHAMDLLWAR 2bx9-a1-m1-cF_2bx9-a1-m1-cK Crystal structure of B.subtilis Anti-TRAP protein, an antagonist of TRAP-RNA interactions O31466 O31466 2.8 X-RAY DIFFRACTION 43 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 53 53 2bx9-a1-m1-cA_2bx9-a1-m1-cI 2bx9-a1-m1-cB_2bx9-a1-m1-cD 2bx9-a1-m1-cC_2bx9-a1-m1-cJ 2bx9-a1-m1-cE_2bx9-a1-m1-cH 2bx9-a1-m1-cG_2bx9-a1-m1-cL MVIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK MVIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK 2bz1-a1-m1-cA_2bz1-a1-m2-cA CRYSTAL STRUCTURE OF APO E. COLI GTP CYCLOHYDROLASE II P0A7I7 P0A7I7 1.54 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 170 170 2bz0-a1-m1-cA_2bz0-a1-m1-cB QLKRVAEAKLPTPWGDFLVGFEELATGHDHVALVYGDISGHTPVLARVHSECLTGDALFSLRCDCGFQLEAALTQIAEEGRGILLYHRQEGRNIGLLNKIRAYALQDQGYDTVEANHQLGFAADERDFTLCADFKLLGVNEVRLLTNNPKKVEILTEAGINIVERVPLIV QLKRVAEAKLPTPWGDFLVGFEELATGHDHVALVYGDISGHTPVLARVHSECLTGDALFSLRCDCGFQLEAALTQIAEEGRGILLYHRQEGRNIGLLNKIRAYALQDQGYDTVEANHQLGFAADERDFTLCADFKLLGVNEVRLLTNNPKKVEILTEAGINIVERVPLIV 2bzb-a1-m1-cA_2bzb-a1-m1-cB NMR Solution Structure of a protein aspartic acid phosphate phosphatase from Bacillus Anthracis A0A4Y1VZT9 A0A4Y1VZT9 NOT SOLUTION NMR 60 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 62 62 MEMGQLKNKIENKKKELIQLVARHGLDHDKVLLFSRDLDKLINKFMNVKDKVHKLEHHHHHH MEMGQLKNKIENKKKELIQLVARHGLDHDKVLLFSRDLDKLINKFMNVKDKVHKLEHHHHHH 2bzn-a1-m1-cD_2bzn-a1-m1-cC Crystal structure of human guanosine monophosphate reductase 2 GMPR2 in complex with IMP Q9P2T1 Q9P2T1 2.15 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 316 317 2a7r-a1-m1-cC_2a7r-a1-m1-cA 2a7r-a1-m1-cC_2a7r-a1-m1-cB 2a7r-a1-m1-cD_2a7r-a1-m1-cA 2a7r-a1-m1-cD_2a7r-a1-m1-cB 2bzn-a1-m1-cB_2bzn-a1-m1-cA 2bzn-a1-m1-cC_2bzn-a1-m1-cA 2bzn-a1-m1-cD_2bzn-a1-m1-cB 2bzn-a2-m1-cE_2bzn-a2-m1-cF 2bzn-a2-m1-cG_2bzn-a2-m1-cE 2bzn-a2-m1-cG_2bzn-a2-m1-cH 2bzn-a2-m1-cH_2bzn-a2-m1-cF 2c6q-a1-m1-cA_2c6q-a1-m1-cB 2c6q-a1-m1-cA_2c6q-a1-m1-cC 2c6q-a1-m1-cC_2c6q-a1-m1-cD 2c6q-a1-m1-cD_2c6q-a1-m1-cB 2c6q-a2-m1-cE_2c6q-a2-m1-cF 2c6q-a2-m1-cF_2c6q-a2-m1-cH 2c6q-a2-m1-cG_2c6q-a2-m1-cE 2c6q-a2-m1-cG_2c6q-a2-m1-cH SLDFKDVLLRPKRSTLEVDLTRSFSFRNSKQTYSGVPIIAANMDTVGTFEMAKVLCKFSLFTAVHKHYSLVQWQEFAGQNPDCLEHLAASSGTGSSDFEQLEQILEAIPQVKYICLDVANGYSEHFVEFVKDVRKRFPQHTIMAGNVVTGEMVEELILSGADIIKVGIGPGSVCTTRKKTGVGYPQLSAVMECADAAHGLKGHIISDGGCSCPGDVAKAFGAGADFVMLGGMLAGHSESGGELIERDGKKYKLFYGMSSEMAMKKYASEGKTVEVPFKGDVEHTIRDILGGIRSTCTYVGAAKLKELSRRTTFIRV SLDFKDVLLRPKRSTLKEVDLTRSFSFRNSKQTYSGVPIIAANMDTVGTFEMAKVLCKFSLFTAVHKHYSLVQWQEFAGQNPDCLEHLAASSGTGSSDFEQLEQILEAIPQVKYICLDVANGYSEHFVEFVKDVRKRFPQHTIMAGNVVTGEMVEELILSGADIIKVGIGPGSVCTTRKKTGVGYPQLSAVMECADAAHGLKGHIISDGGCSCPGDVAKAFGAGADFVMLGGMLAGHSESGGELIERDGKKYKLFYGMSSEMAMKKYASEGKTVEVPFKGDVEHTIRDILGGIRSTCTYVGAAKLKELSRRTTFIRV 2bzr-a1-m1-cF_2bzr-a1-m1-cC Crystal structure of accD5 (Rv3280), an acyl-CoA carboxylase beta- subunit from Mycobacterium tuberculosis P9WQH7 P9WQH7 2.2 X-RAY DIFFRACTION 326 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 505 506 2a7s-a1-m1-cA_2a7s-a1-m1-cD 2a7s-a1-m1-cB_2a7s-a1-m1-cE 2a7s-a1-m1-cC_2a7s-a1-m1-cF 2bzr-a1-m1-cB_2bzr-a1-m1-cE 2bzr-a1-m1-cD_2bzr-a1-m1-cA DIHTTAGKLAELHKRREESLHPVGEDAVEKVHAKGKLTARERIYALLDEDSFVELDALAKHRSTNFNLGEKRPLGDGVVTGYGTIDGRDVCIFSQDATVFGGSLGEVYGEKIVKVQELAIKTGRPLIGINDGAGARIQEGVVSLGLYSRIFRNNILASGVIPQISLIMGAAAGGHVYSPALTDFVIMVDQTSQMFITGPDVIKTVTGEEVTMEELGGAHTHMAKSGTAHYAASGEQDAFDYVRELLSYLPPNNSTDAPRYQAAAPTGPIEENLTDEDLELDTLIPDSPNQPYDMHEVITRLLDDEFLEIQAGYAQNIVVGFGRIDGRPVGIVANQPTHFAGCLDINASEKAARFVRTCDCFNIPIVMLVDVPGFLPGTDQEYNGIIRRGAKLLYAYGEATVPKITVITRKAYGGAYCVMGSKDMGCDVNLAWPTAQIAVMGASGAVGFVYRLRLQQEYEDTLVNPYVAAERGYVGAVIPPSHTRGYIGTALRLLERKKKHGNVPL DIHTTAGKLAELHKRREESLHPVGEDAVEKVHAKGKLTARERIYALLDEDSFVELDALAKHRSTNFNLGEKRPLGDGVVTGYGTIDGRDVCIFSQDATVFGGSLGEVYGEKIVKVQELAIKTGRPLIGINDGAGARIQEGVVSLGLYSRIFRNNILASGVIPQISLIMGAAAGGHVYSPALTDFVIMVDQTSQMFITGPDVIKTVTGEEVTMEELGGAHTHMAKSGTAHYAASGEQDAFDYVRELLSYLPPNNSTDAPRYQAAAPTGPIEENLTDEDLELDTLIPDSPNQPYDMHEVITRLLDDEFLEIQAGYAQNIVVGFGRIDGRPVGIVANQPTHFAGCLDINASEKAARFVRTCDCFNIPIVMLVDVPGFLPGTDQEYNGIIRRGAKLLYAYGEATVPKITVITRKAYGGAYCVMGSKDMGCDVNLAWPTAQIAVMGASGAVGFVYRRLRLQQEYEDTLVNPYVAAERGYVGAVIPPSHTRGYIGTALRLLERKKKHGNVPL 2bzr-a1-m1-cF_2bzr-a1-m1-cE Crystal structure of accD5 (Rv3280), an acyl-CoA carboxylase beta- subunit from Mycobacterium tuberculosis P9WQH7 P9WQH7 2.2 X-RAY DIFFRACTION 71 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 505 506 2a7s-a1-m1-cA_2a7s-a1-m1-cB 2a7s-a1-m1-cA_2a7s-a1-m1-cC 2a7s-a1-m1-cB_2a7s-a1-m1-cC 2a7s-a1-m1-cD_2a7s-a1-m1-cE 2a7s-a1-m1-cD_2a7s-a1-m1-cF 2a7s-a1-m1-cE_2a7s-a1-m1-cF 2bzr-a1-m1-cB_2bzr-a1-m1-cA 2bzr-a1-m1-cB_2bzr-a1-m1-cC 2bzr-a1-m1-cC_2bzr-a1-m1-cA 2bzr-a1-m1-cE_2bzr-a1-m1-cD 2bzr-a1-m1-cF_2bzr-a1-m1-cD DIHTTAGKLAELHKRREESLHPVGEDAVEKVHAKGKLTARERIYALLDEDSFVELDALAKHRSTNFNLGEKRPLGDGVVTGYGTIDGRDVCIFSQDATVFGGSLGEVYGEKIVKVQELAIKTGRPLIGINDGAGARIQEGVVSLGLYSRIFRNNILASGVIPQISLIMGAAAGGHVYSPALTDFVIMVDQTSQMFITGPDVIKTVTGEEVTMEELGGAHTHMAKSGTAHYAASGEQDAFDYVRELLSYLPPNNSTDAPRYQAAAPTGPIEENLTDEDLELDTLIPDSPNQPYDMHEVITRLLDDEFLEIQAGYAQNIVVGFGRIDGRPVGIVANQPTHFAGCLDINASEKAARFVRTCDCFNIPIVMLVDVPGFLPGTDQEYNGIIRRGAKLLYAYGEATVPKITVITRKAYGGAYCVMGSKDMGCDVNLAWPTAQIAVMGASGAVGFVYRLRLQQEYEDTLVNPYVAAERGYVGAVIPPSHTRGYIGTALRLLERKKKHGNVPL DIHTTAGKLAELHKRREESLHPVGEDAVEKVHAKGKLTARERIYALLDEDSFVELDALAKHRSTNFNLGEKRPLGDGVVTGYGTIDGRDVCIFSQDATVFGGSLGEVYGEKIVKVQELAIKTGRPLIGINDGAGARIQEGVVSLGLYSRIFRNNILASGVIPQISLIMGAAAGGHVYSPALTDFVIMVDQTSQMFITGPDVIKTVTGEEVTMEELGGAHTHMAKSGTAHYAASGEQDAFDYVRELLSYLPPNNSTDAPRYQAAAPTGPIEENLTDEDLELDTLIPDSPNQPYDMHEVITRLLDDEFLEIQAGYAQNIVVGFGRIDGRPVGIVANQPTHFAGCLDINASEKAARFVRTCDCFNIPIVMLVDVPGFLPGTDQEYNGIIRRGAKLLYAYGEATVPKITVITRKAYGGAYCVMGSKDMGCDVNLAWPTAQIAVMGASGAVGFVYRRLRLQQEYEDTLVNPYVAAERGYVGAVIPPSHTRGYIGTALRLLERKKKHGNVPL 2bzv-a1-m2-cA_2bzv-a1-m3-cA Human Enteric Adenovirus Serotype 41 Short Fiber Head (pH8) P16883 P16883 1.15 X-RAY DIFFRACTION 34 1.0 10524 (Human adenovirus 41) 10524 (Human adenovirus 41) 146 146 2bzu-a1-m1-cA_2bzu-a1-m2-cA 2bzu-a1-m1-cA_2bzu-a1-m3-cA 2bzu-a1-m2-cA_2bzu-a1-m3-cA 2bzv-a1-m1-cA_2bzv-a1-m2-cA 2bzv-a1-m1-cA_2bzv-a1-m3-cA LTTIWSISPTPNCSIYETQDANLFLCLTKNGAHVLGTITIKGLKGALREMHDNALSLKLPFDNQGNLLNCALESSTWRYQETNAVASNALTFMPNSTVYPRNKTAITFSVVYNEINSGYAFTFKWSAEPGKPFHPPTAVFCYITEQ LTTIWSISPTPNCSIYETQDANLFLCLTKNGAHVLGTITIKGLKGALREMHDNALSLKLPFDNQGNLLNCALESSTWRYQETNAVASNALTFMPNSTVYPRNKTAITFSVVYNEINSGYAFTFKWSAEPGKPFHPPTAVFCYITEQ 2bzy-a1-m1-cA_2bzy-a1-m1-cB Homodimer of CrkL-SH3C domain P46109 P46109 2.5 X-RAY DIFFRACTION 141 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 62 PVFAKAIQKRVPCAYDKTALALEVGDIVKVTRMNINGQWEGEVNGRKGLFPFTHVKIFDPQN PVFAKAIQKRVPCAYDKTALALEVGDIVKVTRMNINGQWEGEVNGRKGLFPFTHVKIFDPQN 2c07-a1-m1-cA_2c07-a1-m4-cA Oxoacyl-ACP reductase of Plasmodium falciparum Q8I2S7 Q8I2S7 1.5 X-RAY DIFFRACTION 134 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 246 246 2c07-a1-m2-cA_2c07-a1-m3-cA KENYYYCGENKVALVTGAGRGIGREIAKMLAKSVSHVICISRTQKSCDSVVDEIKSFGYESSGYAGDVSKKEEISEVINKILTEHKNVDILVNNAGITRDNLFLRMKNDEWEDVLRTNLNSLFYITQPISKRMINNRYGRIINISSIVGLTGNVGQANYSSSKAGVIGFTKSLAKELASRNITVNAIAPGFISSISEQIKKNIISNIPAGRMGTPEEVANLACFLSSDKSGYINGRVFVIDGGLSP KENYYYCGENKVALVTGAGRGIGREIAKMLAKSVSHVICISRTQKSCDSVVDEIKSFGYESSGYAGDVSKKEEISEVINKILTEHKNVDILVNNAGITRDNLFLRMKNDEWEDVLRTNLNSLFYITQPISKRMINNRYGRIINISSIVGLTGNVGQANYSSSKAGVIGFTKSLAKELASRNITVNAIAPGFISSISEQIKKNIISNIPAGRMGTPEEVANLACFLSSDKSGYINGRVFVIDGGLSP 2c07-a1-m3-cA_2c07-a1-m4-cA Oxoacyl-ACP reductase of Plasmodium falciparum Q8I2S7 Q8I2S7 1.5 X-RAY DIFFRACTION 124 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 246 246 2c07-a1-m1-cA_2c07-a1-m2-cA KENYYYCGENKVALVTGAGRGIGREIAKMLAKSVSHVICISRTQKSCDSVVDEIKSFGYESSGYAGDVSKKEEISEVINKILTEHKNVDILVNNAGITRDNLFLRMKNDEWEDVLRTNLNSLFYITQPISKRMINNRYGRIINISSIVGLTGNVGQANYSSSKAGVIGFTKSLAKELASRNITVNAIAPGFISSISEQIKKNIISNIPAGRMGTPEEVANLACFLSSDKSGYINGRVFVIDGGLSP KENYYYCGENKVALVTGAGRGIGREIAKMLAKSVSHVICISRTQKSCDSVVDEIKSFGYESSGYAGDVSKKEEISEVINKILTEHKNVDILVNNAGITRDNLFLRMKNDEWEDVLRTNLNSLFYITQPISKRMINNRYGRIINISSIVGLTGNVGQANYSSSKAGVIGFTKSLAKELASRNITVNAIAPGFISSISEQIKKNIISNIPAGRMGTPEEVANLACFLSSDKSGYINGRVFVIDGGLSP 2c0d-a1-m1-cA_2c0d-a1-m1-cB Structure of the mitochondrial 2-cys peroxiredoxin from Plasmodium falciparum Q8I5Q6 Q8I5Q6 1.78 X-RAY DIFFRACTION 87 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 168 175 LVTKKAYNFTAQGLNKNNEIINVDLSSFIGQKYCCLLFYPLNYTFVCPTEIIEFNKHIKDFENKNVELLGISVDSVYSHLAWKNMPIEKGGIGNVEFTLVSDINKDISKNYNVLYDNSFALRGLFIIDKNGCVRHQTVNDLPIGRNVQEVLRTIDSIIHVDTSGEVCP LVTKKAYNFTAQGLNKNNEIINVDLSSFIGQKYCCLLFYPLNYTFVCPTEIIEFNKHIKDFENKNVELLGISVDSVYSHLAWKNMPIEKGGIGNVEFTLVSDINKDISKNYNVLYDNSFALRGLFIIDKNGCVRHQTVNDLPIGRNVQEVLRTIDSIIHVDTSGEVCPINWKKGQ 2c0n-a1-m1-cA_2c0n-a1-m2-cA Crystal Structure of A197 from STIV Q6Q0L5 Q6Q0L5 1.86 X-RAY DIFFRACTION 101 1.0 269145 (Sulfolobus turreted icosahedral virus 1) 269145 (Sulfolobus turreted icosahedral virus 1) 187 187 RTLFFIPSGSVRLPLIDFLVKNDIEYVILSRRNHVAVQREIALDFLEKDYDTLAFLDEDVVPIEIDFQKVEAKFNEGYDVVCGYYYLKTLRGYSVYRKDWEKEIFDGEVNGCGLGFTFIKREFLEKIKRPAFLAIGEDVYFFSTHKPRTYALSSLKAYHFIDERLALSPDRKLILQNDHVARIKHHH RTLFFIPSGSVRLPLIDFLVKNDIEYVILSRRNHVAVQREIALDFLEKDYDTLAFLDEDVVPIEIDFQKVEAKFNEGYDVVCGYYYLKTLRGYSVYRKDWEKEIFDGEVNGCGLGFTFIKREFLEKIKRPAFLAIGEDVYFFSTHKPRTYALSSLKAYHFIDERLALSPDRKLILQNDHVARIKHHH 2c0r-a1-m1-cA_2c0r-a1-m1-cB CRYSTAL STRUCTURE OF PHOSPHOSERINE AMINOTRANSFERASE FROM BACILLUS CIRCULANS VAR. ALKALOPHILUS AT pH 8.5 Q59196 Q59196 1.2 X-RAY DIFFRACTION 198 1.0 1397 (Niallia circulans) 1397 (Niallia circulans) 361 361 1bt4-a1-m1-cA_1bt4-a1-m2-cA 1w3u-a1-m1-cA_1w3u-a1-m2-cA SERAYNFNAGPAALPLEVLERAQAEFVDYQHTGMSIMEMSHRGAVYEAVHNEAQARLLALLGNPTGYKVLFIQGGASTQFAMIPMNFLKEGQTANYVMTGSWASKALKEAKLIGDTHVAASSEASNYMTLPKLQEIQLQDNAAYLHLTSNETIEGAQFKAFPDTGSVPLIGDMSSDILSRPFDLNQFGLVYAGAQKNLGPSGVTVVIVREDLVAESPKHLPTMLRYDTYVKNNSLYNTPPSFGIYMVNEVLKWIEERGGLEGVQQANRKKASLIYDAIDQSGGFYRGCVDVDSRSDMNITFRLASEELEKEFVKASEQEGFVGLKGHRSVGGLRASIYNAVPYESCEALVQFMEHFKRSRG SERAYNFNAGPAALPLEVLERAQAEFVDYQHTGMSIMEMSHRGAVYEAVHNEAQARLLALLGNPTGYKVLFIQGGASTQFAMIPMNFLKEGQTANYVMTGSWASKALKEAKLIGDTHVAASSEASNYMTLPKLQEIQLQDNAAYLHLTSNETIEGAQFKAFPDTGSVPLIGDMSSDILSRPFDLNQFGLVYAGAQKNLGPSGVTVVIVREDLVAESPKHLPTMLRYDTYVKNNSLYNTPPSFGIYMVNEVLKWIEERGGLEGVQQANRKKASLIYDAIDQSGGFYRGCVDVDSRSDMNITFRLASEELEKEFVKASEQEGFVGLKGHRSVGGLRASIYNAVPYESCEALVQFMEHFKRSRG 2c0z-a1-m1-cA_2c0z-a1-m2-cA The 1.6 A resolution crystal structure of NovW: a 4-keto-6-deoxy sugar epimerase from the novobiocin biosynthetic gene cluster of Streptomyces spheroides Q9L9E5 Q9L9E5 1.6 X-RAY DIFFRACTION 112 1.0 1352941 (Streptomyces niveus NCIMB 11891) 1352941 (Streptomyces niveus NCIMB 11891) 199 199 SGLVPRGSHMRLRPLGIEGVWEITPEQRADPRGVFLDWYHVDRFAEAIGRPLRLAQANLSVSVRGVVRGIHFVDVPPGQAKYVTCVRGAVFDVVVDLRVGSPTYGCWEGTRLDDVSRRAVYLSEGIGHGFCAISDEATLCYLSSGTYDPATEHGVHPLDPELAIDWPTGTPLLSPRDQDALLLAEARDAGLLPTYATCQ SGLVPRGSHMRLRPLGIEGVWEITPEQRADPRGVFLDWYHVDRFAEAIGRPLRLAQANLSVSVRGVVRGIHFVDVPPGQAKYVTCVRGAVFDVVVDLRVGSPTYGCWEGTRLDDVSRRAVYLSEGIGHGFCAISDEATLCYLSSGTYDPATEHGVHPLDPELAIDWPTGTPLLSPRDQDALLLAEARDAGLLPTYATCQ 2c12-a2-m1-cE_2c12-a2-m2-cF Crystal Structure of Nitroalkane Oxidase in Complex with Spermine, a Competitive Inhibitor Q8X1D8 Q8X1D8 2.07 X-RAY DIFFRACTION 11 1.0 5507 (Fusarium oxysporum) 5507 (Fusarium oxysporum) 430 430 2c0u-a1-m1-cA_2c0u-a1-m1-cD 2c0u-a1-m1-cB_2c0u-a1-m1-cC 2c12-a1-m1-cA_2c12-a1-m1-cD 2c12-a1-m1-cB_2c12-a1-m1-cC 2c12-a2-m1-cF_2c12-a2-m2-cE 2reh-a1-m1-cA_2reh-a1-m1-cD 2reh-a1-m1-cB_2reh-a1-m1-cC 2zaf-a1-m1-cA_2zaf-a1-m1-cD 2zaf-a1-m1-cB_2zaf-a1-m1-cC 3d9d-a1-m1-cC_3d9d-a1-m1-cB 3d9d-a1-m1-cD_3d9d-a1-m1-cA 3d9e-a1-m1-cA_3d9e-a1-m1-cD 3d9e-a1-m1-cC_3d9e-a1-m1-cB 3d9f-a1-m1-cC_3d9f-a1-m1-cB 3d9f-a1-m1-cD_3d9f-a1-m1-cA 3d9g-a1-m1-cA_3d9g-a1-m1-cD 3d9g-a1-m1-cC_3d9g-a1-m1-cB 3fcj-a1-m1-cA_3fcj-a1-m1-cD 3fcj-a1-m1-cC_3fcj-a1-m1-cB VDFKLSPSQLEARRHAQAFANTVLTKASAEYSTQKDQLSRFQATRPFYREAVRHGLIKAQVPIPLGGTMESLVHESIILEELFAVEPATSITIVATALGLMPVILCDSPSLQEKFLKPFISGEGEPLASLMHSEPNGTANWLQKGGPGLQTTARKVGNEWVISGEKLWPSNSGGWDYKGADLACVVCRVSDDPSKPQDPNVDPATQIAVLLVTRETIANNKKDAYQILGEPELAGHITTSGPHTRFTEFHVPHENLLCTPGLKAQGLVETAFAMSAALVGAMAIGTARAAFEEALVFAKSDTRGGSKHIIEHQSVADKLIDCKIRLETSRLLVWKAVTTLEDEALEWKVKLEMAMQTKIYTTDVAVECVIDAMKAVGMKSYAKDMSFPRLLNEVMCYPLFDGGNIGLRRRQMQRVMALEDYEPWAATYGS VDFKLSPSQLEARRHAQAFANTVLTKASAEYSTQKDQLSRFQATRPFYREAVRHGLIKAQVPIPLGGTMESLVHESIILEELFAVEPATSITIVATALGLMPVILCDSPSLQEKFLKPFISGEGEPLASLMHSEPNGTANWLQKGGPGLQTTARKVGNEWVISGEKLWPSNSGGWDYKGADLACVVCRVSDDPSKPQDPNVDPATQIAVLLVTRETIANNKKDAYQILGEPELAGHITTSGPHTRFTEFHVPHENLLCTPGLKAQGLVETAFAMSAALVGAMAIGTARAAFEEALVFAKSDTRGGSKHIIEHQSVADKLIDCKIRLETSRLLVWKAVTTLEDEALEWKVKLEMAMQTKIYTTDVAVECVIDAMKAVGMKSYAKDMSFPRLLNEVMCYPLFDGGNIGLRRRQMQRVMALEDYEPWAATYGS 2c12-a2-m1-cF_2c12-a2-m2-cF Crystal Structure of Nitroalkane Oxidase in Complex with Spermine, a Competitive Inhibitor Q8X1D8 Q8X1D8 2.07 X-RAY DIFFRACTION 129 1.0 5507 (Fusarium oxysporum) 5507 (Fusarium oxysporum) 430 430 2c0u-a1-m1-cA_2c0u-a1-m1-cC 2c0u-a1-m1-cB_2c0u-a1-m1-cD 2c12-a1-m1-cA_2c12-a1-m1-cC 2c12-a1-m1-cB_2c12-a1-m1-cD 2c12-a2-m1-cE_2c12-a2-m2-cE 2reh-a1-m1-cA_2reh-a1-m1-cC 2reh-a1-m1-cB_2reh-a1-m1-cD 2zaf-a1-m1-cA_2zaf-a1-m1-cC 2zaf-a1-m1-cB_2zaf-a1-m1-cD 3d9d-a1-m1-cB_3d9d-a1-m1-cD 3d9d-a1-m1-cC_3d9d-a1-m1-cA 3d9e-a1-m1-cB_3d9e-a1-m1-cD 3d9e-a1-m1-cC_3d9e-a1-m1-cA 3d9f-a1-m1-cC_3d9f-a1-m1-cA 3d9f-a1-m1-cD_3d9f-a1-m1-cB 3d9g-a1-m1-cA_3d9g-a1-m1-cC 3d9g-a1-m1-cD_3d9g-a1-m1-cB 3fcj-a1-m1-cB_3fcj-a1-m1-cD 3fcj-a1-m1-cC_3fcj-a1-m1-cA VDFKLSPSQLEARRHAQAFANTVLTKASAEYSTQKDQLSRFQATRPFYREAVRHGLIKAQVPIPLGGTMESLVHESIILEELFAVEPATSITIVATALGLMPVILCDSPSLQEKFLKPFISGEGEPLASLMHSEPNGTANWLQKGGPGLQTTARKVGNEWVISGEKLWPSNSGGWDYKGADLACVVCRVSDDPSKPQDPNVDPATQIAVLLVTRETIANNKKDAYQILGEPELAGHITTSGPHTRFTEFHVPHENLLCTPGLKAQGLVETAFAMSAALVGAMAIGTARAAFEEALVFAKSDTRGGSKHIIEHQSVADKLIDCKIRLETSRLLVWKAVTTLEDEALEWKVKLEMAMQTKIYTTDVAVECVIDAMKAVGMKSYAKDMSFPRLLNEVMCYPLFDGGNIGLRRRQMQRVMALEDYEPWAATYGS VDFKLSPSQLEARRHAQAFANTVLTKASAEYSTQKDQLSRFQATRPFYREAVRHGLIKAQVPIPLGGTMESLVHESIILEELFAVEPATSITIVATALGLMPVILCDSPSLQEKFLKPFISGEGEPLASLMHSEPNGTANWLQKGGPGLQTTARKVGNEWVISGEKLWPSNSGGWDYKGADLACVVCRVSDDPSKPQDPNVDPATQIAVLLVTRETIANNKKDAYQILGEPELAGHITTSGPHTRFTEFHVPHENLLCTPGLKAQGLVETAFAMSAALVGAMAIGTARAAFEEALVFAKSDTRGGSKHIIEHQSVADKLIDCKIRLETSRLLVWKAVTTLEDEALEWKVKLEMAMQTKIYTTDVAVECVIDAMKAVGMKSYAKDMSFPRLLNEVMCYPLFDGGNIGLRRRQMQRVMALEDYEPWAATYGS 2c12-a2-m2-cE_2c12-a2-m2-cF Crystal Structure of Nitroalkane Oxidase in Complex with Spermine, a Competitive Inhibitor Q8X1D8 Q8X1D8 2.07 X-RAY DIFFRACTION 168 1.0 5507 (Fusarium oxysporum) 5507 (Fusarium oxysporum) 430 430 2c0u-a1-m1-cA_2c0u-a1-m1-cB 2c0u-a1-m1-cC_2c0u-a1-m1-cD 2c12-a1-m1-cA_2c12-a1-m1-cB 2c12-a1-m1-cC_2c12-a1-m1-cD 2c12-a2-m1-cE_2c12-a2-m1-cF 2reh-a1-m1-cA_2reh-a1-m1-cB 2reh-a1-m1-cC_2reh-a1-m1-cD 2zaf-a1-m1-cA_2zaf-a1-m1-cB 2zaf-a1-m1-cC_2zaf-a1-m1-cD 3d9d-a1-m1-cB_3d9d-a1-m1-cA 3d9d-a1-m1-cC_3d9d-a1-m1-cD 3d9e-a1-m1-cA_3d9e-a1-m1-cB 3d9e-a1-m1-cC_3d9e-a1-m1-cD 3d9f-a1-m1-cA_3d9f-a1-m1-cB 3d9f-a1-m1-cC_3d9f-a1-m1-cD 3d9g-a1-m1-cA_3d9g-a1-m1-cB 3d9g-a1-m1-cC_3d9g-a1-m1-cD 3fcj-a1-m1-cA_3fcj-a1-m1-cB 3fcj-a1-m1-cC_3fcj-a1-m1-cD VDFKLSPSQLEARRHAQAFANTVLTKASAEYSTQKDQLSRFQATRPFYREAVRHGLIKAQVPIPLGGTMESLVHESIILEELFAVEPATSITIVATALGLMPVILCDSPSLQEKFLKPFISGEGEPLASLMHSEPNGTANWLQKGGPGLQTTARKVGNEWVISGEKLWPSNSGGWDYKGADLACVVCRVSDDPSKPQDPNVDPATQIAVLLVTRETIANNKKDAYQILGEPELAGHITTSGPHTRFTEFHVPHENLLCTPGLKAQGLVETAFAMSAALVGAMAIGTARAAFEEALVFAKSDTRGGSKHIIEHQSVADKLIDCKIRLETSRLLVWKAVTTLEDEALEWKVKLEMAMQTKIYTTDVAVECVIDAMKAVGMKSYAKDMSFPRLLNEVMCYPLFDGGNIGLRRRQMQRVMALEDYEPWAATYGS VDFKLSPSQLEARRHAQAFANTVLTKASAEYSTQKDQLSRFQATRPFYREAVRHGLIKAQVPIPLGGTMESLVHESIILEELFAVEPATSITIVATALGLMPVILCDSPSLQEKFLKPFISGEGEPLASLMHSEPNGTANWLQKGGPGLQTTARKVGNEWVISGEKLWPSNSGGWDYKGADLACVVCRVSDDPSKPQDPNVDPATQIAVLLVTRETIANNKKDAYQILGEPELAGHITTSGPHTRFTEFHVPHENLLCTPGLKAQGLVETAFAMSAALVGAMAIGTARAAFEEALVFAKSDTRGGSKHIIEHQSVADKLIDCKIRLETSRLLVWKAVTTLEDEALEWKVKLEMAMQTKIYTTDVAVECVIDAMKAVGMKSYAKDMSFPRLLNEVMCYPLFDGGNIGLRRRQMQRVMALEDYEPWAATYGS 2c15-a1-m4-cB_2c15-a1-m2-cA 5-(4-Carboxy-2-oxo-butoxy)-4-oxo-pentanoic acid acid bound to Porphobilinogen synthase from Pseudomonas aeruginosa Q59643 Q59643 1.48 X-RAY DIFFRACTION 168 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 326 332 1b4k-a1-m1-cB_1b4k-a1-m4-cA 1b4k-a1-m2-cB_1b4k-a1-m3-cA 1b4k-a1-m3-cB_1b4k-a1-m1-cA 1b4k-a1-m4-cB_1b4k-a1-m2-cA 1gzg-a1-m1-cB_1gzg-a1-m3-cA 1gzg-a1-m2-cB_1gzg-a1-m1-cA 1gzg-a1-m3-cB_1gzg-a1-m4-cA 1gzg-a1-m4-cB_1gzg-a1-m2-cA 1w54-a1-m1-cA_1w54-a1-m2-cB 1w54-a1-m2-cA_1w54-a1-m4-cB 1w54-a1-m3-cA_1w54-a1-m1-cB 1w54-a1-m4-cA_1w54-a1-m3-cB 1w56-a1-m1-cB_1w56-a1-m3-cA 1w56-a1-m2-cB_1w56-a1-m1-cA 1w56-a1-m3-cB_1w56-a1-m4-cA 1w56-a1-m4-cB_1w56-a1-m2-cA 1w5m-a1-m1-cB_1w5m-a1-m3-cA 1w5m-a1-m2-cB_1w5m-a1-m1-cA 1w5m-a1-m3-cB_1w5m-a1-m4-cA 1w5m-a1-m4-cB_1w5m-a1-m2-cA 1w5n-a1-m1-cA_1w5n-a1-m2-cB 1w5n-a1-m2-cA_1w5n-a1-m4-cB 1w5n-a1-m3-cA_1w5n-a1-m1-cB 1w5n-a1-m4-cA_1w5n-a1-m3-cB 1w5o-a1-m1-cB_1w5o-a1-m3-cA 1w5o-a1-m2-cB_1w5o-a1-m1-cA 1w5o-a1-m3-cB_1w5o-a1-m4-cA 1w5o-a1-m4-cB_1w5o-a1-m2-cA 1w5p-a1-m1-cA_1w5p-a1-m2-cB 1w5p-a1-m1-cB_1w5p-a1-m3-cA 1w5p-a1-m2-cA_1w5p-a1-m4-cB 1w5p-a1-m3-cB_1w5p-a1-m4-cA 1w5q-a1-m1-cB_1w5q-a1-m3-cA 1w5q-a1-m2-cB_1w5q-a1-m1-cA 1w5q-a1-m3-cB_1w5q-a1-m4-cA 1w5q-a1-m4-cB_1w5q-a1-m2-cA 2c13-a1-m1-cB_2c13-a1-m3-cA 2c13-a1-m2-cB_2c13-a1-m1-cA 2c13-a1-m3-cB_2c13-a1-m4-cA 2c13-a1-m4-cB_2c13-a1-m2-cA 2c14-a1-m1-cB_2c14-a1-m3-cA 2c14-a1-m2-cB_2c14-a1-m1-cA 2c14-a1-m3-cB_2c14-a1-m4-cA 2c14-a1-m4-cB_2c14-a1-m2-cA 2c15-a1-m1-cB_2c15-a1-m3-cA 2c15-a1-m2-cB_2c15-a1-m1-cA 2c15-a1-m3-cB_2c15-a1-m4-cA 2c16-a1-m1-cA_2c16-a1-m2-cB 2c16-a1-m1-cB_2c16-a1-m3-cA 2c16-a1-m2-cA_2c16-a1-m4-cB 2c16-a1-m3-cB_2c16-a1-m4-cA 2c18-a1-m1-cB_2c18-a1-m3-cA 2c18-a1-m2-cB_2c18-a1-m1-cA 2c18-a1-m3-cB_2c18-a1-m4-cA 2c18-a1-m4-cB_2c18-a1-m2-cA 2c19-a1-m1-cB_2c19-a1-m3-cA 2c19-a1-m2-cB_2c19-a1-m1-cA 2c19-a1-m3-cB_2c19-a1-m4-cA 2c19-a1-m4-cB_2c19-a1-m2-cA 2woq-a1-m1-cA_2woq-a1-m2-cA 2woq-a1-m3-cA_2woq-a1-m4-cA 2woq-a1-m5-cA_2woq-a1-m7-cA 2woq-a1-m6-cA_2woq-a1-m8-cA SFTPANRAYPYTRLRRNRRDDFSRRLVRENVLTVDDLILPVFVLDGVNQRESIPSMPGVERLSIDQLLIEAEEWVALGIPALALFPVTPVEKKSLDAAEAYNPEGIAQRATRALRERFPELGIITDVALDPFTTHGQDGILDDDGYVLNDVSIDVLVRQALSHAEAGAQVVAPSDMMDGRIGAIREALESAGHTNVRVMAYSAKYASAYYGPFRDAVGSNKATYQMDPANSDEALHEVAADLAEGADMVMVPGMPYLDIVRRVKDEFRAPTFVYQVSGEYAMHMGAIQNGWLAESVILESLTAFKRAGADGILTYFAKQAAEQLRR FTPANRAYPYTRLRRNRRDDFSRRLVRENVLTVDDLILPVFVLDGVNQRESIPSMPGVERLSIDQLLIEAEEWVALGIPALALFPVTPVEKKSLDAAEAYNPEGIAQRATRALRERFPELGIITDVALDPFTTHGQDGILDDDGYVLNDVSIDVLVRQALSHAEAGAQVVAPSDMMDGRIGAIREALESAGHTNVRVMAYSAKYASAYYGPFRDAVGSASNLGKGNKATYQMDPANSDEALHEVAADLAEGADMVMVPGMPYLDIVRRVKDEFRAPTFVYQVSGEYAMHMGAIQNGWLAESVILESLTAFKRAGADGILTYFAKQAAEQLRR 2c15-a1-m4-cB_2c15-a1-m4-cA 5-(4-Carboxy-2-oxo-butoxy)-4-oxo-pentanoic acid acid bound to Porphobilinogen synthase from Pseudomonas aeruginosa Q59643 Q59643 1.48 X-RAY DIFFRACTION 242 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 326 332 1b4k-a1-m1-cB_1b4k-a1-m1-cA 1b4k-a1-m2-cB_1b4k-a1-m2-cA 1b4k-a1-m3-cB_1b4k-a1-m3-cA 1b4k-a1-m4-cB_1b4k-a1-m4-cA 1gzg-a1-m1-cB_1gzg-a1-m1-cA 1gzg-a1-m2-cB_1gzg-a1-m2-cA 1gzg-a1-m3-cB_1gzg-a1-m3-cA 1gzg-a1-m4-cB_1gzg-a1-m4-cA 1w54-a1-m1-cA_1w54-a1-m1-cB 1w54-a1-m2-cA_1w54-a1-m2-cB 1w54-a1-m3-cA_1w54-a1-m3-cB 1w54-a1-m4-cA_1w54-a1-m4-cB 1w56-a1-m1-cB_1w56-a1-m1-cA 1w56-a1-m2-cB_1w56-a1-m2-cA 1w56-a1-m3-cB_1w56-a1-m3-cA 1w56-a1-m4-cB_1w56-a1-m4-cA 1w5m-a1-m1-cB_1w5m-a1-m1-cA 1w5m-a1-m2-cB_1w5m-a1-m2-cA 1w5m-a1-m3-cB_1w5m-a1-m3-cA 1w5m-a1-m4-cB_1w5m-a1-m4-cA 1w5n-a1-m1-cA_1w5n-a1-m1-cB 1w5n-a1-m2-cA_1w5n-a1-m2-cB 1w5n-a1-m3-cA_1w5n-a1-m3-cB 1w5n-a1-m4-cA_1w5n-a1-m4-cB 1w5o-a1-m1-cB_1w5o-a1-m1-cA 1w5o-a1-m2-cB_1w5o-a1-m2-cA 1w5o-a1-m3-cB_1w5o-a1-m3-cA 1w5o-a1-m4-cB_1w5o-a1-m4-cA 1w5p-a1-m1-cA_1w5p-a1-m1-cB 1w5p-a1-m2-cA_1w5p-a1-m2-cB 1w5p-a1-m3-cA_1w5p-a1-m3-cB 1w5p-a1-m4-cA_1w5p-a1-m4-cB 1w5q-a1-m1-cB_1w5q-a1-m1-cA 1w5q-a1-m2-cB_1w5q-a1-m2-cA 1w5q-a1-m3-cB_1w5q-a1-m3-cA 1w5q-a1-m4-cB_1w5q-a1-m4-cA 2c13-a1-m1-cB_2c13-a1-m1-cA 2c13-a1-m2-cB_2c13-a1-m2-cA 2c13-a1-m3-cB_2c13-a1-m3-cA 2c13-a1-m4-cB_2c13-a1-m4-cA 2c14-a1-m1-cB_2c14-a1-m1-cA 2c14-a1-m2-cB_2c14-a1-m2-cA 2c14-a1-m3-cB_2c14-a1-m3-cA 2c14-a1-m4-cB_2c14-a1-m4-cA 2c15-a1-m1-cB_2c15-a1-m1-cA 2c15-a1-m2-cB_2c15-a1-m2-cA 2c15-a1-m3-cB_2c15-a1-m3-cA 2c16-a1-m1-cA_2c16-a1-m1-cB 2c16-a1-m2-cA_2c16-a1-m2-cB 2c16-a1-m3-cA_2c16-a1-m3-cB 2c16-a1-m4-cA_2c16-a1-m4-cB 2c18-a1-m1-cB_2c18-a1-m1-cA 2c18-a1-m2-cB_2c18-a1-m2-cA 2c18-a1-m3-cB_2c18-a1-m3-cA 2c18-a1-m4-cB_2c18-a1-m4-cA 2c19-a1-m1-cB_2c19-a1-m1-cA 2c19-a1-m2-cB_2c19-a1-m2-cA 2c19-a1-m3-cB_2c19-a1-m3-cA 2c19-a1-m4-cB_2c19-a1-m4-cA 2woq-a1-m1-cA_2woq-a1-m8-cA 2woq-a1-m2-cA_2woq-a1-m5-cA 2woq-a1-m3-cA_2woq-a1-m7-cA 2woq-a1-m4-cA_2woq-a1-m6-cA SFTPANRAYPYTRLRRNRRDDFSRRLVRENVLTVDDLILPVFVLDGVNQRESIPSMPGVERLSIDQLLIEAEEWVALGIPALALFPVTPVEKKSLDAAEAYNPEGIAQRATRALRERFPELGIITDVALDPFTTHGQDGILDDDGYVLNDVSIDVLVRQALSHAEAGAQVVAPSDMMDGRIGAIREALESAGHTNVRVMAYSAKYASAYYGPFRDAVGSNKATYQMDPANSDEALHEVAADLAEGADMVMVPGMPYLDIVRRVKDEFRAPTFVYQVSGEYAMHMGAIQNGWLAESVILESLTAFKRAGADGILTYFAKQAAEQLRR FTPANRAYPYTRLRRNRRDDFSRRLVRENVLTVDDLILPVFVLDGVNQRESIPSMPGVERLSIDQLLIEAEEWVALGIPALALFPVTPVEKKSLDAAEAYNPEGIAQRATRALRERFPELGIITDVALDPFTTHGQDGILDDDGYVLNDVSIDVLVRQALSHAEAGAQVVAPSDMMDGRIGAIREALESAGHTNVRVMAYSAKYASAYYGPFRDAVGSASNLGKGNKATYQMDPANSDEALHEVAADLAEGADMVMVPGMPYLDIVRRVKDEFRAPTFVYQVSGEYAMHMGAIQNGWLAESVILESLTAFKRAGADGILTYFAKQAAEQLRR 2c16-a1-m3-cA_2c16-a1-m4-cA 5-(4-Carboxy-2-oxo-butane-1-sulfinyl)-4-oxo-pentanoic acid acid bound to Porphobilinogen synthase from Pseudomonas aeruginosa Q59643 Q59643 2.02 X-RAY DIFFRACTION 14 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 325 325 1gzg-a1-m1-cB_1gzg-a1-m2-cB 1gzg-a1-m1-cB_1gzg-a1-m3-cB 1gzg-a1-m2-cB_1gzg-a1-m4-cB 1gzg-a1-m3-cB_1gzg-a1-m4-cB 2c13-a1-m1-cA_2c13-a1-m2-cA 2c13-a1-m1-cA_2c13-a1-m3-cA 2c13-a1-m1-cB_2c13-a1-m2-cB 2c13-a1-m1-cB_2c13-a1-m3-cB 2c13-a1-m2-cA_2c13-a1-m4-cA 2c13-a1-m2-cB_2c13-a1-m4-cB 2c13-a1-m3-cA_2c13-a1-m4-cA 2c13-a1-m3-cB_2c13-a1-m4-cB 2c14-a1-m1-cA_2c14-a1-m2-cA 2c14-a1-m1-cA_2c14-a1-m3-cA 2c14-a1-m1-cB_2c14-a1-m2-cB 2c14-a1-m1-cB_2c14-a1-m3-cB 2c14-a1-m2-cA_2c14-a1-m4-cA 2c14-a1-m2-cB_2c14-a1-m4-cB 2c14-a1-m3-cA_2c14-a1-m4-cA 2c14-a1-m3-cB_2c14-a1-m4-cB 2c15-a1-m1-cA_2c15-a1-m2-cA 2c15-a1-m1-cA_2c15-a1-m3-cA 2c15-a1-m1-cB_2c15-a1-m2-cB 2c15-a1-m1-cB_2c15-a1-m3-cB 2c15-a1-m2-cA_2c15-a1-m4-cA 2c15-a1-m2-cB_2c15-a1-m4-cB 2c15-a1-m3-cA_2c15-a1-m4-cA 2c15-a1-m3-cB_2c15-a1-m4-cB 2c16-a1-m1-cA_2c16-a1-m2-cA 2c16-a1-m1-cA_2c16-a1-m3-cA 2c16-a1-m1-cB_2c16-a1-m2-cB 2c16-a1-m1-cB_2c16-a1-m3-cB 2c16-a1-m2-cA_2c16-a1-m4-cA 2c16-a1-m2-cB_2c16-a1-m4-cB 2c16-a1-m3-cB_2c16-a1-m4-cB 2c18-a1-m1-cA_2c18-a1-m2-cA 2c18-a1-m1-cA_2c18-a1-m3-cA 2c18-a1-m1-cB_2c18-a1-m2-cB 2c18-a1-m1-cB_2c18-a1-m3-cB 2c18-a1-m2-cA_2c18-a1-m4-cA 2c18-a1-m2-cB_2c18-a1-m4-cB 2c18-a1-m3-cA_2c18-a1-m4-cA 2c18-a1-m3-cB_2c18-a1-m4-cB 2c19-a1-m1-cA_2c19-a1-m2-cA 2c19-a1-m1-cA_2c19-a1-m3-cA 2c19-a1-m1-cB_2c19-a1-m2-cB 2c19-a1-m1-cB_2c19-a1-m3-cB 2c19-a1-m2-cA_2c19-a1-m4-cA 2c19-a1-m2-cB_2c19-a1-m4-cB 2c19-a1-m3-cA_2c19-a1-m4-cA 2c19-a1-m3-cB_2c19-a1-m4-cB FTPANRAYPYTRLRRNRRDDFSRRLVRENVLTVDDLILPVFVLDGVNQRESIPSMPGVERLSIDQLLIEAEEWVALGIPALALFPVTPVEKKSLDAAEAYNPEGIAQRATRALRERFPELGIITDVALDPFTTHGQDGILDDDGYVLNDVSIDVLVRQALSHAEAGAQVVAPSDMMDGRIGAIREALESAGHTNVRVMAYSAYASAYYGPFRDAVGSNKATYQMDPANSDEALHEVAADLAEGADMVMVKPGMPYLDIVRRVKDEFRAPTFVYQVSGEYAMHMGAIQNGWLAESVILESLTAFKRAGADGILTYFAKQAAEQLRR FTPANRAYPYTRLRRNRRDDFSRRLVRENVLTVDDLILPVFVLDGVNQRESIPSMPGVERLSIDQLLIEAEEWVALGIPALALFPVTPVEKKSLDAAEAYNPEGIAQRATRALRERFPELGIITDVALDPFTTHGQDGILDDDGYVLNDVSIDVLVRQALSHAEAGAQVVAPSDMMDGRIGAIREALESAGHTNVRVMAYSAYASAYYGPFRDAVGSNKATYQMDPANSDEALHEVAADLAEGADMVMVKPGMPYLDIVRRVKDEFRAPTFVYQVSGEYAMHMGAIQNGWLAESVILESLTAFKRAGADGILTYFAKQAAEQLRR 2c1h-a1-m3-cA_2c1h-a1-m4-cB The X-ray Structure of Chlorobium vibrioforme 5-Aminolaevulinic Acid Dehydratase Complexed with a Diacid Inhibitor Q59334 Q59334 2.6 X-RAY DIFFRACTION 104 1.0 1098 (Prosthecochloris vibrioformis) 1098 (Prosthecochloris vibrioformis) 319 319 1w1z-a1-m1-cA_1w1z-a1-m2-cB 1w1z-a1-m1-cB_1w1z-a1-m3-cA 1w1z-a1-m2-cA_1w1z-a1-m4-cB 1w1z-a1-m3-cB_1w1z-a1-m4-cA 2c1h-a1-m1-cA_2c1h-a1-m3-cB 2c1h-a1-m1-cB_2c1h-a1-m2-cA 2c1h-a1-m2-cB_2c1h-a1-m4-cA VHRPRRLRRTAALRNLVQENTLTVNDLVFPLFVMPGTNAVEEVSSMPGSFRFTIDRAVEECKELYDLGIQGIDLFGIPEQKTEDGSEAYNDNGILQQAIRAIKKAVPELCIMTDVALDPFTPFGHDGLVKDGIILNDETVEVLQKMAVSHAEAGADFVSPSDMMDGRIGAIREALDETDHSDVGILSYAAKYASSFYGPFRDALHSAPQFGDKSTYQMNPANTEEAMKEVELDIVEGADIVMVKPGLAYLDIVWRTKERFDVPVAIYHVSGEYAMVKAAAAKGWIDEDRVMMESLLCMKRAGADIIFTYYAKEAAKKLR VHRPRRLRRTAALRNLVQENTLTVNDLVFPLFVMPGTNAVEEVSSMPGSFRFTIDRAVEECKELYDLGIQGIDLFGIPEQKTEDGSEAYNDNGILQQAIRAIKKAVPELCIMTDVALDPFTPFGHDGLVKDGIILNDETVEVLQKMAVSHAEAGADFVSPSDMMDGRIGAIREALDETDHSDVGILSYAAKYASSFYGPFRDALHSAPQFGDKSTYQMNPANTEEAMKEVELDIVEGADIVMVKPGLAYLDIVWRTKERFDVPVAIYHVSGEYAMVKAAAAKGWIDEDRVMMESLLCMKRAGADIIFTYYAKEAAKKLR 2c1h-a1-m4-cA_2c1h-a1-m4-cB The X-ray Structure of Chlorobium vibrioforme 5-Aminolaevulinic Acid Dehydratase Complexed with a Diacid Inhibitor Q59334 Q59334 2.6 X-RAY DIFFRACTION 210 1.0 1098 (Prosthecochloris vibrioformis) 1098 (Prosthecochloris vibrioformis) 319 319 1w1z-a1-m1-cA_1w1z-a1-m1-cB 1w1z-a1-m2-cA_1w1z-a1-m2-cB 1w1z-a1-m3-cA_1w1z-a1-m3-cB 1w1z-a1-m4-cA_1w1z-a1-m4-cB 2c1h-a1-m1-cA_2c1h-a1-m1-cB 2c1h-a1-m2-cA_2c1h-a1-m2-cB 2c1h-a1-m3-cA_2c1h-a1-m3-cB VHRPRRLRRTAALRNLVQENTLTVNDLVFPLFVMPGTNAVEEVSSMPGSFRFTIDRAVEECKELYDLGIQGIDLFGIPEQKTEDGSEAYNDNGILQQAIRAIKKAVPELCIMTDVALDPFTPFGHDGLVKDGIILNDETVEVLQKMAVSHAEAGADFVSPSDMMDGRIGAIREALDETDHSDVGILSYAAKYASSFYGPFRDALHSAPQFGDKSTYQMNPANTEEAMKEVELDIVEGADIVMVKPGLAYLDIVWRTKERFDVPVAIYHVSGEYAMVKAAAAKGWIDEDRVMMESLLCMKRAGADIIFTYYAKEAAKKLR VHRPRRLRRTAALRNLVQENTLTVNDLVFPLFVMPGTNAVEEVSSMPGSFRFTIDRAVEECKELYDLGIQGIDLFGIPEQKTEDGSEAYNDNGILQQAIRAIKKAVPELCIMTDVALDPFTPFGHDGLVKDGIILNDETVEVLQKMAVSHAEAGADFVSPSDMMDGRIGAIREALDETDHSDVGILSYAAKYASSFYGPFRDALHSAPQFGDKSTYQMNPANTEEAMKEVELDIVEGADIVMVKPGLAYLDIVWRTKERFDVPVAIYHVSGEYAMVKAAAAKGWIDEDRVMMESLLCMKRAGADIIFTYYAKEAAKKLR 2c1l-a1-m1-cA_2c1l-a1-m1-cB Structure of the BfiI restriction endonuclease Q9F4C9 Q9F4C9 1.9 X-RAY DIFFRACTION 142 1.0 1399 (Cytobacillus firmus) 1399 (Cytobacillus firmus) 358 358 MNFFSLHPNVYATGRPKGLIGMLENVWVSNHTPGEGTLYLISGFSNYNGGVRFYETFTEHINQGGRVIAILGGSTSQRLSSRQVVEELLNRGVEVHIINRKRILHAKLYGTSNNLGESLVVSSGNFTGPGMSQNIEASLLLDNNTTQSMGFSWNDMISEMLNQNWHIHNMTNATDASPGWNLLYDERTTNLTLDETERVTLIVTLGHADTARIQAAPGTTAGQGTQYFWLSKDSYDFFPPLTIRNRRGTKATYSSLINMNYIDINYTDTQCRVTFEAENNFDFRLGTGKLRYTGVAKSNDIAAITRVGDSDYELRIIKQGTPEHSQLDPYAVSFIGNRGKRFGYISNEEFGRIIGVTF MNFFSLHPNVYATGRPKGLIGMLENVWVSNHTPGEGTLYLISGFSNYNGGVRFYETFTEHINQGGRVIAILGGSTSQRLSSRQVVEELLNRGVEVHIINRKRILHAKLYGTSNNLGESLVVSSGNFTGPGMSQNIEASLLLDNNTTQSMGFSWNDMISEMLNQNWHIHNMTNATDASPGWNLLYDERTTNLTLDETERVTLIVTLGHADTARIQAAPGTTAGQGTQYFWLSKDSYDFFPPLTIRNRRGTKATYSSLINMNYIDINYTDTQCRVTFEAENNFDFRLGTGKLRYTGVAKSNDIAAITRVGDSDYELRIIKQGTPEHSQLDPYAVSFIGNRGKRFGYISNEEFGRIIGVTF 2c1s-a1-m1-cA_2c1s-a1-m2-cB X-ray structure of biotin binding protein from chicken 1.75 X-RAY DIFFRACTION 28 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 123 123 2c1q-a1-m1-cA_2c1q-a1-m4-cA 2c1q-a1-m2-cA_2c1q-a1-m3-cA 2c1s-a1-m1-cB_2c1s-a1-m2-cA RKCELQGLWRNELGSNMTISALDVAGTFSGSYQTAVTATNKQILVSPLKGAQQPPGTKGQQPTFGFTVQWQFADSTTVFVGQCFVDRRGKEMLEMAWLLREEVPSRKDTWKATRVGTNVFTRV RKCELQGLWRNELGSNMTISALDVAGTFSGSYQTAVTATNKQILVSPLKGAQQPPGTKGQQPTFGFTVQWQFADSTTVFVGQCFVDRRGKEMLEMAWLLREEVPSRKDTWKATRVGTNVFTRV 2c1s-a1-m1-cB_2c1s-a1-m2-cB X-ray structure of biotin binding protein from chicken 1.75 X-RAY DIFFRACTION 154 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 123 123 2c1q-a1-m1-cA_2c1q-a1-m3-cA 2c1q-a1-m2-cA_2c1q-a1-m4-cA 2c1s-a1-m1-cA_2c1s-a1-m2-cA RKCELQGLWRNELGSNMTISALDVAGTFSGSYQTAVTATNKQILVSPLKGAQQPPGTKGQQPTFGFTVQWQFADSTTVFVGQCFVDRRGKEMLEMAWLLREEVPSRKDTWKATRVGTNVFTRV RKCELQGLWRNELGSNMTISALDVAGTFSGSYQTAVTATNKQILVSPLKGAQQPPGTKGQQPTFGFTVQWQFADSTTVFVGQCFVDRRGKEMLEMAWLLREEVPSRKDTWKATRVGTNVFTRV 2c1s-a1-m2-cA_2c1s-a1-m2-cB X-ray structure of biotin binding protein from chicken 1.75 X-RAY DIFFRACTION 10 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 123 123 2c1q-a1-m1-cA_2c1q-a1-m2-cA 2c1q-a1-m3-cA_2c1q-a1-m4-cA 2c1s-a1-m1-cA_2c1s-a1-m1-cB RKCELQGLWRNELGSNMTISALDVAGTFSGSYQTAVTATNKQILVSPLKGAQQPPGTKGQQPTFGFTVQWQFADSTTVFVGQCFVDRRGKEMLEMAWLLREEVPSRKDTWKATRVGTNVFTRV RKCELQGLWRNELGSNMTISALDVAGTFSGSYQTAVTATNKQILVSPLKGAQQPPGTKGQQPTFGFTVQWQFADSTTVFVGQCFVDRRGKEMLEMAWLLREEVPSRKDTWKATRVGTNVFTRV 2c1u-a2-m1-cD_2c1u-a2-m1-cC CRYSTAL STRUCTURE OF THE DI-HAEM CYTOCHROME C PEROXIDASE FROM PARACOCCUS PANTOTROPHUS - OXIDISED FORM 1.95 X-RAY DIFFRACTION 72 0.997 82367 (Paracoccus pantotrophus) 82367 (Paracoccus pantotrophus) 322 329 2c1u-a1-m1-cB_2c1u-a1-m1-cA 2c1v-a1-m1-cA_2c1v-a1-m1-cB AIDNGALREEAKGVFEAIPEKMTAIKQTPEGVPLTAEKIELGKVLFFDPRMSSSGLISCQTCHNVGLGGVDGLPTSIGHGWQKGPRNAPTMLNAIFNAAQFWDGRAADLAEQAKGPVQAGVSNTPDQVVKTINSMPEYVEAFKAAFPEEADPVTFDNFAAAIEQFEATLITPNSAFDRFLAGDDAAMTDQEKRGLQAFMETGCTACHYGVNFGGQDYHPFGLIAKPGAGRFEVTRTTDDEYVFRAAPLRNVALTAPYFHSGVVWELAEAVKIMSSAQIGTELTDQQAEDITAFLGTLTGEQPVIDHPILPVRTGTTPLPTPM AIDNGALREEAKGVFEAIPEKMTAIKQPEGVPLTAEKIELGKVLFFDPRMSSSGLISCQTCHNVGLGGVDGLPTSIGHGWQKGPRNAPTMLNAIFNAAQFWDGRAADLAEQAKGPVQAGVSNTPDQVVKTINSMPEYVEAFKAAFPEEADPVTFDNFAAAIEQFEATLITPNSAFDRFLAGDDAAMTDQEKRGLQAFMETGCTACHYGVNFGGQDYHPFGLIAKPGAEVLPAGDTGRFEVTRTTDDEYVFRAAPLRNVALTAPYFHSGVVWELAEAVKIMSSAQIGTELTDQQAEDITAFLGTLTGEQPVIDHPILPVRTGTTPLPTPM 2c20-a3-m1-cE_2c20-a3-m1-cF CRYSTAL STRUCTURE OF UDP-GLUCOSE 4-EPIMERASE A0A6L8PTV5 A0A6L8PTV5 2.7 X-RAY DIFFRACTION 68 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 329 329 2c20-a1-m1-cA_2c20-a1-m1-cB 2c20-a2-m1-cC_2c20-a2-m1-cD NSILICGGAGYIGSHAVKKLVDEGLSVVVVDNLQTGHEDAITEGAKFYNGDLRDKAFLRDVFTQENIEAVMHFAADSLVGVSMEKPLQYYNNNVYGALCLLEVMDEFKVDKFIFSSTAATYGEVDVDLITEETMTNPTNTYGETKLAIEKMLHWYSQASNLRYKIFRYFNVAGATPNGIIGEDHRPETHLIPLVLQVALGQREKIMMFGDDYNTPDGTCIRDYIHVEDLVAAHFLGLKDLQNGGESDFYNLGNGNGFSVKEIVDAVREVTNHEIPAEVAPRRAGDPARLVASSQKAKEKLGWDPRYVNVKTIIEHAWNWHQKQPNGYEK NSILICGGAGYIGSHAVKKLVDEGLSVVVVDNLQTGHEDAITEGAKFYNGDLRDKAFLRDVFTQENIEAVMHFAADSLVGVSMEKPLQYYNNNVYGALCLLEVMDEFKVDKFIFSSTAATYGEVDVDLITEETMTNPTNTYGETKLAIEKMLHWYSQASNLRYKIFRYFNVAGATPNGIIGEDHRPETHLIPLVLQVALGQREKIMMFGDDYNTPDGTCIRDYIHVEDLVAAHFLGLKDLQNGGESDFYNLGNGNGFSVKEIVDAVREVTNHEIPAEVAPRRAGDPARLVASSQKAKEKLGWDPRYVNVKTIIEHAWNWHQKQPNGYEK 2c21-a3-m1-cE_2c21-a3-m1-cF Specificity of the Trypanothione-dependednt Leishmania major Glyoxalase I: Structure and biochemical comparison with the human enzyme Q68RJ8 Q68RJ8 2 X-RAY DIFFRACTION 186 1.0 5664 (Leishmania major) 5664 (Leishmania major) 139 139 2c21-a1-m1-cA_2c21-a1-m1-cB 2c21-a2-m1-cC_2c21-a2-m1-cD SRRMLHTMIRVGDLDRSIKFYTERLGMKVLRKWDVPEDKYTLVFLGYGPEMSSTVLELTYNYGVTSYKHDEAYGHIAIGVEDVKELVADMRKHDVPIDYEDESGFMAFVVDPDGYYIELLNEKTMMEKAEADMKEQGTA SRRMLHTMIRVGDLDRSIKFYTERLGMKVLRKWDVPEDKYTLVFLGYGPEMSSTVLELTYNYGVTSYKHDEAYGHIAIGVEDVKELVADMRKHDVPIDYEDESGFMAFVVDPDGYYIELLNEKTMMEKAEADMKEQGTA 2c26-a1-m1-cA_2c26-a1-m2-cA Structural basis for the promiscuous specificity of the carbohydrate- binding modules from the beta-sandwich super family A3DD30 A3DD30 2.1 X-RAY DIFFRACTION 50 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 250 250 PENQAPKAIFTFSPEDPVTDENVVFNASNSIDEDGTIAYYVWDFGDGYEGTSTTPTITYKYKNPGTYKVKLIVTDNQGASSSFTATIKVTSATGDNSKFNFEDGTLGGFTTSGTNATGVVVNTTEKAFKGERGLKWTVTSEGEGTAELKLDGGTIVVPGTTMTFRIWIPSGAPIAAIQPYIMPHTPDWSEVLWNSTWKGYTMVKTDDWNEITLTLPEDVDPTWPQQMGIQVQTIDEGEFTIYVDAIDWLE PENQAPKAIFTFSPEDPVTDENVVFNASNSIDEDGTIAYYVWDFGDGYEGTSTTPTITYKYKNPGTYKVKLIVTDNQGASSSFTATIKVTSATGDNSKFNFEDGTLGGFTTSGTNATGVVVNTTEKAFKGERGLKWTVTSEGEGTAELKLDGGTIVVPGTTMTFRIWIPSGAPIAAIQPYIMPHTPDWSEVLWNSTWKGYTMVKTDDWNEITLTLPEDVDPTWPQQMGIQVQTIDEGEFTIYVDAIDWLE 2c2b-a3-m1-cE_2c2b-a3-m1-cF Crystallographic structure of Arabidopsis thaliana Threonine synthase complexed with pyridoxal phosphate and S-adenosylmethionine Q9S7B5 Q9S7B5 2.6 X-RAY DIFFRACTION 244 0.988 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 430 444 1e5x-a1-m1-cB_1e5x-a1-m1-cA 2c2b-a1-m1-cB_2c2b-a1-m1-cA 2c2b-a2-m1-cD_2c2b-a2-m1-cC 2c2g-a1-m1-cB_2c2g-a1-m1-cA AVNPFSAKYVPFNAAPGSTESYSLDEIVYRSRSGGLLDVEHDMEALKRFDGAYWRDLFDSRVGKSTWPYGSGVWSKKEWVLPEIDDDDIVSAFEGNSNLFWAERFGKQFLGMNDLWVKHCGISHTGSFKDLGMTVLVSQVNRLRKMKRPVVGVGCASTGDTSAALSAYCASAGIPSIVFLPANKISMAQLVQPIANGAFVLSIDTDFDGCMKLIREITAELPIYLANSLNSLRLEGQKTAAIEILQQFDWQVPDWVIVPGGNLGNIYAFYKGFKMCQELGLVDRIPRMVCAQAANANPLYLHYKSGWKDVSIDRAVYALKKCNGIVEEATEEELMDAMAQADSTGMFICPHTGVALTALFKLRNQGVIAPTDRTVVVSTAHGLKFTQSKIDYHSNAIPDMACRFSNPPVDVKADFGAVMDVLKSYLGSNT VNPFSAKYVPFNAAPGSTESYSLDEIVYRSRSGGLLDVEHDMEALKRFDGAYWRDLFDSRVGKSTWPYGSGVWSKKEWVLPEIDDDDIVSAFEGNSNLFWAERFGKQFLGMNDLWVKHCGISHTGSFKDLGMTVLVSQVNRLRKMKRPVVGVGCASTGDTSAALSAYCASAGIPSIVFLPANKISMAQLVQPIANGAFVLSIDTDFDGCMKLIREITAELPIYLANSLNSLRLEGQKTAAIEILQQFDWQVPDWVIVPGGNLGNIYAFYKGFKMCQELGLVDRIPRMVCAQAANANPLYLHYKSGWKDFKPMTASTTFASAIQIGDPVSIDRAVYALKKCNGIVEEATEEELMDAMAQADSTGMFICPHTGVALTALFKLRNQGVIAPTDRTVVVSTAHGLKFTQSKIDYHSNAIPDMACRFSNPPVDVKADFGAVMDVLKSYL 2c2i-a1-m1-cA_2c2i-a1-m1-cB Structure and function of Rv0130, a conserved hypothetical protein from M.tuberculosis P9WNP3 P9WNP3 1.8 X-RAY DIFFRACTION 116 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 147 147 RTFESVADLAAAAGEKVGQSDWVTITQEEVNLFADATGDHQWIHVDPERAAAGPFGTTIAHGFTLALLPRLQHQYTVKGVKLAINYGLNKVRFPAPVPVGSRVRATSSLVGVEDLGNGTVQATVSTTVEVEGSAKPACVAESIVRYV RTFESVADLAAAAGEKVGQSDWVTITQEEVNLFADATGDHQWIHVDPERAAAGPFGTTIAHGFTLALLPRLQHQYTVKGVKLAINYGLNKVRFPAPVPVGSRVRATSSLVGVEDLGNGTVQATVSTTVEVEGSAKPACVAESIVRYV 2c2u-a1-m12-cA_2c2u-a1-m9-cA Dps from Deinococcus radiodurans Q9RS64 Q9RS64 1.1 X-RAY DIFFRACTION 109 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 178 178 2c2f-a1-m10-cA_2c2f-a1-m3-cA 2c2f-a1-m11-cA_2c2f-a1-m7-cA 2c2f-a1-m12-cA_2c2f-a1-m9-cA 2c2f-a1-m1-cA_2c2f-a1-m4-cA 2c2f-a1-m2-cA_2c2f-a1-m5-cA 2c2f-a1-m6-cA_2c2f-a1-m8-cA 2c2u-a1-m10-cA_2c2u-a1-m3-cA 2c2u-a1-m11-cA_2c2u-a1-m7-cA 2c2u-a1-m1-cA_2c2u-a1-m4-cA 2c2u-a1-m2-cA_2c2u-a1-m5-cA 2c2u-a1-m6-cA_2c2u-a1-m8-cA 2f7n-a1-m1-cA_2f7n-a1-m2-cA 2f7n-a1-m3-cA_2f7n-a1-m4-cA 2f7n-a1-m5-cA_2f7n-a1-m6-cA 2f7n-a2-m10-cA_2f7n-a2-m9-cA 2f7n-a2-m11-cA_2f7n-a2-m12-cA 2f7n-a2-m1-cA_2f7n-a2-m2-cA 2f7n-a2-m3-cA_2f7n-a2-m4-cA 2f7n-a2-m5-cA_2f7n-a2-m6-cA 2f7n-a2-m7-cA_2f7n-a2-m8-cA GGADHADAAHLGTVNNALVNHHYLEEKEFQTVAETLQRNLATTISLYLKFKKYHWDIRGRFFRDLHLAYDEFIAEIFPSIDEQAERLVALGGSPLAAPADLARYSTVQVPQETVRDARTQVADLVQDLSRVGKGYRDDSQACDEANDPVTADMYNGYAATIDKIRWMLQAIMDDERLD GGADHADAAHLGTVNNALVNHHYLEEKEFQTVAETLQRNLATTISLYLKFKKYHWDIRGRFFRDLHLAYDEFIAEIFPSIDEQAERLVALGGSPLAAPADLARYSTVQVPQETVRDARTQVADLVQDLSRVGKGYRDDSQACDEANDPVTADMYNGYAATIDKIRWMLQAIMDDERLD 2c2u-a1-m2-cA_2c2u-a1-m9-cA Dps from Deinococcus radiodurans Q9RS64 Q9RS64 1.1 X-RAY DIFFRACTION 30 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 178 178 2c2f-a1-m10-cA_2c2f-a1-m2-cA 2c2f-a1-m10-cA_2c2f-a1-m9-cA 2c2f-a1-m11-cA_2c2f-a1-m3-cA 2c2f-a1-m11-cA_2c2f-a1-m4-cA 2c2f-a1-m12-cA_2c2f-a1-m7-cA 2c2f-a1-m12-cA_2c2f-a1-m8-cA 2c2f-a1-m1-cA_2c2f-a1-m5-cA 2c2f-a1-m1-cA_2c2f-a1-m6-cA 2c2f-a1-m2-cA_2c2f-a1-m9-cA 2c2f-a1-m3-cA_2c2f-a1-m4-cA 2c2f-a1-m5-cA_2c2f-a1-m6-cA 2c2f-a1-m7-cA_2c2f-a1-m8-cA 2c2u-a1-m10-cA_2c2u-a1-m2-cA 2c2u-a1-m10-cA_2c2u-a1-m9-cA 2c2u-a1-m11-cA_2c2u-a1-m3-cA 2c2u-a1-m11-cA_2c2u-a1-m4-cA 2c2u-a1-m12-cA_2c2u-a1-m7-cA 2c2u-a1-m12-cA_2c2u-a1-m8-cA 2c2u-a1-m1-cA_2c2u-a1-m5-cA 2c2u-a1-m1-cA_2c2u-a1-m6-cA 2c2u-a1-m3-cA_2c2u-a1-m4-cA 2c2u-a1-m5-cA_2c2u-a1-m6-cA 2c2u-a1-m7-cA_2c2u-a1-m8-cA 2f7n-a1-m1-cA_2f7n-a1-m6-cA 2f7n-a1-m2-cA_2f7n-a1-m3-cA 2f7n-a1-m4-cA_2f7n-a1-m5-cA 2f7n-a2-m10-cA_2f7n-a2-m6-cA 2f7n-a2-m11-cA_2f7n-a2-m7-cA 2f7n-a2-m11-cA_2f7n-a2-m9-cA 2f7n-a2-m12-cA_2f7n-a2-m2-cA 2f7n-a2-m12-cA_2f7n-a2-m3-cA 2f7n-a2-m1-cA_2f7n-a2-m10-cA 2f7n-a2-m1-cA_2f7n-a2-m6-cA 2f7n-a2-m2-cA_2f7n-a2-m3-cA 2f7n-a2-m4-cA_2f7n-a2-m5-cA 2f7n-a2-m4-cA_2f7n-a2-m8-cA 2f7n-a2-m5-cA_2f7n-a2-m8-cA 2f7n-a2-m7-cA_2f7n-a2-m9-cA GGADHADAAHLGTVNNALVNHHYLEEKEFQTVAETLQRNLATTISLYLKFKKYHWDIRGRFFRDLHLAYDEFIAEIFPSIDEQAERLVALGGSPLAAPADLARYSTVQVPQETVRDARTQVADLVQDLSRVGKGYRDDSQACDEANDPVTADMYNGYAATIDKIRWMLQAIMDDERLD GGADHADAAHLGTVNNALVNHHYLEEKEFQTVAETLQRNLATTISLYLKFKKYHWDIRGRFFRDLHLAYDEFIAEIFPSIDEQAERLVALGGSPLAAPADLARYSTVQVPQETVRDARTQVADLVQDLSRVGKGYRDDSQACDEANDPVTADMYNGYAATIDKIRWMLQAIMDDERLD 2c2u-a1-m8-cA_2c2u-a1-m9-cA Dps from Deinococcus radiodurans Q9RS64 Q9RS64 1.1 X-RAY DIFFRACTION 58 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 178 178 2c2f-a1-m10-cA_2c2f-a1-m11-cA 2c2f-a1-m10-cA_2c2f-a1-m12-cA 2c2f-a1-m11-cA_2c2f-a1-m12-cA 2c2f-a1-m1-cA_2c2f-a1-m2-cA 2c2f-a1-m1-cA_2c2f-a1-m3-cA 2c2f-a1-m2-cA_2c2f-a1-m3-cA 2c2f-a1-m4-cA_2c2f-a1-m6-cA 2c2f-a1-m4-cA_2c2f-a1-m7-cA 2c2f-a1-m5-cA_2c2f-a1-m8-cA 2c2f-a1-m5-cA_2c2f-a1-m9-cA 2c2f-a1-m6-cA_2c2f-a1-m7-cA 2c2f-a1-m8-cA_2c2f-a1-m9-cA 2c2u-a1-m10-cA_2c2u-a1-m11-cA 2c2u-a1-m10-cA_2c2u-a1-m12-cA 2c2u-a1-m11-cA_2c2u-a1-m12-cA 2c2u-a1-m1-cA_2c2u-a1-m2-cA 2c2u-a1-m1-cA_2c2u-a1-m3-cA 2c2u-a1-m2-cA_2c2u-a1-m3-cA 2c2u-a1-m4-cA_2c2u-a1-m6-cA 2c2u-a1-m4-cA_2c2u-a1-m7-cA 2c2u-a1-m5-cA_2c2u-a1-m8-cA 2c2u-a1-m5-cA_2c2u-a1-m9-cA 2c2u-a1-m6-cA_2c2u-a1-m7-cA 2f7n-a1-m2-cA_2f7n-a1-m4-cA 2f7n-a1-m2-cA_2f7n-a1-m6-cA 2f7n-a1-m4-cA_2f7n-a1-m6-cA 2f7n-a2-m10-cA_2f7n-a2-m5-cA 2f7n-a2-m10-cA_2f7n-a2-m7-cA 2f7n-a2-m11-cA_2f7n-a2-m3-cA 2f7n-a2-m11-cA_2f7n-a2-m8-cA 2f7n-a2-m12-cA_2f7n-a2-m9-cA 2f7n-a2-m1-cA_2f7n-a2-m12-cA 2f7n-a2-m1-cA_2f7n-a2-m9-cA 2f7n-a2-m2-cA_2f7n-a2-m4-cA 2f7n-a2-m2-cA_2f7n-a2-m6-cA 2f7n-a2-m3-cA_2f7n-a2-m8-cA 2f7n-a2-m4-cA_2f7n-a2-m6-cA 2f7n-a2-m5-cA_2f7n-a2-m7-cA GGADHADAAHLGTVNNALVNHHYLEEKEFQTVAETLQRNLATTISLYLKFKKYHWDIRGRFFRDLHLAYDEFIAEIFPSIDEQAERLVALGGSPLAAPADLARYSTVQVPQETVRDARTQVADLVQDLSRVGKGYRDDSQACDEANDPVTADMYNGYAATIDKIRWMLQAIMDDERLD GGADHADAAHLGTVNNALVNHHYLEEKEFQTVAETLQRNLATTISLYLKFKKYHWDIRGRFFRDLHLAYDEFIAEIFPSIDEQAERLVALGGSPLAAPADLARYSTVQVPQETVRDARTQVADLVQDLSRVGKGYRDDSQACDEANDPVTADMYNGYAATIDKIRWMLQAIMDDERLD 2c2x-a1-m1-cA_2c2x-a1-m1-cB Three dimensional structure of bifunctional methylenetetrahydrofolate dehydrogenase-cyclohydrolase from Mycobacterium tuberculosis P9WG81 P9WG81 2 X-RAY DIFFRACTION 105 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 280 280 2c2y-a1-m1-cA_2c2y-a1-m2-cA GAIMLDGKATRDEIFGDLKQRVAALDAAGRTPGLGTILVGDDPGSQAYVRGKHADCAKVGITSIRRDLPADISTATLNETIDELNANPDCTGYIVQLPLPKHLDENAALERVDPAKDADGLHPTNLGRLVLGTPAPLPCTPRGIVHLLRRYDISIAGAHVVVIGRGVTVGRPLGLLLTRRSENATVTLCHTGTRDLPALTRQADIVVAAVGVAHLLTADMVRPGAAVIDVGVSRTDDGLVGDVHPDVWELAGHVSPNPGGVGPLTRAFLLTNVVELAERR GAIMLDGKATRDEIFGDLKQRVAALDAAGRTPGLGTILVGDDPGSQAYVRGKHADCAKVGITSIRRDLPADISTATLNETIDELNANPDCTGYIVQLPLPKHLDENAALERVDPAKDADGLHPTNLGRLVLGTPAPLPCTPRGIVHLLRRYDISIAGAHVVVIGRGVTVGRPLGLLLTRRSENATVTLCHTGTRDLPALTRQADIVVAAVGVAHLLTADMVRPGAAVIDVGVSRTDDGLVGDVHPDVWELAGHVSPNPGGVGPLTRAFLLTNVVELAERR 2c31-a1-m1-cA_2c31-a1-m2-cB CRYSTAL STRUCTURE OF OXALYL-COA DECARBOXYLASE IN COMPLEX WITH THE COFACTOR DERIVATIVE THIAMIN-2-THIAZOLONE DIPHOSPHATE AND ADENOSINE DIPHOSPHATE P40149 P40149 1.73 X-RAY DIFFRACTION 105 1.0 847 (Oxalobacter formigenes) 847 (Oxalobacter formigenes) 546 546 2c31-a1-m1-cB_2c31-a1-m2-cA 2ji6-a1-m1-cA_2ji6-a1-m2-cB 2ji6-a1-m1-cB_2ji6-a1-m2-cA 2ji7-a1-m1-cA_2ji7-a1-m2-cB 2ji7-a1-m1-cB_2ji7-a1-m2-cA 2ji8-a1-m1-cB_2ji8-a1-m2-cA 2ji8-a1-m2-cB_2ji8-a1-m1-cA 2ji9-a1-m1-cA_2ji9-a1-m2-cB 2ji9-a1-m1-cB_2ji9-a1-m2-cA 2jib-a1-m1-cA_2jib-a1-m2-cB 2jib-a1-m1-cB_2jib-a1-m2-cA VELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFYSFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSSEREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVYVDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGAAYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGARLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKALKGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLANPDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVIAVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGRYDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVE VELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFYSFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSSEREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVYVDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGAAYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGARLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKALKGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLANPDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVIAVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGRYDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVE 2c31-a1-m1-cB_2c31-a1-m2-cB CRYSTAL STRUCTURE OF OXALYL-COA DECARBOXYLASE IN COMPLEX WITH THE COFACTOR DERIVATIVE THIAMIN-2-THIAZOLONE DIPHOSPHATE AND ADENOSINE DIPHOSPHATE P40149 P40149 1.73 X-RAY DIFFRACTION 48 1.0 847 (Oxalobacter formigenes) 847 (Oxalobacter formigenes) 546 546 2c31-a1-m1-cA_2c31-a1-m2-cA 2ji6-a1-m1-cA_2ji6-a1-m2-cA 2ji6-a1-m1-cB_2ji6-a1-m2-cB 2ji7-a1-m1-cA_2ji7-a1-m2-cA 2ji7-a1-m1-cB_2ji7-a1-m2-cB 2ji8-a1-m1-cA_2ji8-a1-m2-cA 2ji8-a1-m1-cB_2ji8-a1-m2-cB 2ji9-a1-m1-cA_2ji9-a1-m2-cA 2ji9-a1-m1-cB_2ji9-a1-m2-cB 2jib-a1-m1-cA_2jib-a1-m2-cA 2jib-a1-m1-cB_2jib-a1-m2-cB VELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFYSFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSSEREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVYVDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGAAYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGARLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKALKGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLANPDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVIAVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGRYDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVE VELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFYSFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSSEREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVYVDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGAAYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGARLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKALKGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLANPDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVIAVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGRYDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVE 2c31-a1-m2-cA_2c31-a1-m2-cB CRYSTAL STRUCTURE OF OXALYL-COA DECARBOXYLASE IN COMPLEX WITH THE COFACTOR DERIVATIVE THIAMIN-2-THIAZOLONE DIPHOSPHATE AND ADENOSINE DIPHOSPHATE P40149 P40149 1.73 X-RAY DIFFRACTION 197 1.0 847 (Oxalobacter formigenes) 847 (Oxalobacter formigenes) 546 546 2c31-a1-m1-cA_2c31-a1-m1-cB 2ji6-a1-m1-cA_2ji6-a1-m1-cB 2ji6-a1-m2-cA_2ji6-a1-m2-cB 2ji7-a1-m1-cA_2ji7-a1-m1-cB 2ji7-a1-m2-cA_2ji7-a1-m2-cB 2ji8-a1-m1-cB_2ji8-a1-m1-cA 2ji8-a1-m2-cB_2ji8-a1-m2-cA 2ji9-a1-m1-cA_2ji9-a1-m1-cB 2ji9-a1-m2-cA_2ji9-a1-m2-cB 2jib-a1-m1-cA_2jib-a1-m1-cB 2jib-a1-m2-cA_2jib-a1-m2-cB VELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFYSFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSSEREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVYVDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGAAYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGARLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKALKGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLANPDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVIAVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGRYDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVE VELTDGFHVLIDALKMNDIDTMYGVVGIPITNLARMWQDDGQRFYSFRHEQHAGYAASIAGYIEGKPGVCLTVSAPGFLNGVTSLAHATTNCFPMILLSGSSEREIVDLQQGDYEEMDQMNVARPHCKASFRINSIKDIPIGIARAVRTAVSGRPGGVYVDLPAKLFGQTISVEEANKLLFKPIDPAPAQIPAEDAIARAADLIKNAKRPVIMLGKGAAYAQCDDEIRALVEETGIPFLPMGMAKGLLPDNHPQSAAATRAFALAQCDVCVLIGARLNWLMQHGKGKTWGDELKKYVQIDIQANEMDSNQPIAAPVVGDIKSAVSLLRKALKGAPKADAEWTGALKAKVDGNKAKLAGKMTAETPSGMMNYSNSLGVVRDFMLANPDISLVNEGANALDNTRMIVDMLKPRKRLDSGTWGVMGIGMGYCVAAAAVTGKPVIAVEGDSAFGFSGMELETICRYNLPVTVIIMNNGGIYKGNEADPQPGVISCTRLTRGRYDMMMEAFGGKGYVANTPAELKAALEEAVASGKPCLINAMIDPDAGVE 2c3b-a1-m1-cB_2c3b-a1-m1-cA The Crystal Structure of Aspergillus fumigatus Cyclophilin reveals 3D Domain Swapping of a Central Element Q4WHY9 Q4WHY9 1.85 X-RAY DIFFRACTION 176 0.993 136 141 MSQVFFDVEYAPVGTAETKVGRIVFNLFDKDVPKTAKNFRELCKRPAGEGYRESTFHRIIPNFMIQGGDKKGILSMASQFFITTAVTSWLDGKHVVFGEVADEKSYSVVKEIEALGSSSGSVRSNTRPKIVNCGEL SMSQVFFDVEYAPVGTAETKVGRIVFNLFDKDVPKTAKNFRELCKRPAGEGYRESTFHRIIPNFMIQGGDSRKHDKKGILSMAQFFITTAVTSWLDGKHVVFGEVADEKSYSVVKEIEALGSSSGSVRSNTRPKIVNCGEL 2c3n-a1-m1-cA_2c3n-a1-m1-cB Human glutathione-S-transferase T1-1, apo form P30711 P30711 1.5 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 239 2c3n-a2-m1-cC_2c3n-a2-m1-cD 2c3q-a1-m1-cA_2c3q-a1-m1-cB 2c3q-a2-m1-cC_2c3q-a2-m1-cD 2c3t-a1-m1-cA_2c3t-a1-m1-cB 2c3t-a2-m1-cC_2c3t-a2-m1-cD GLELYLDLLSQPCRAVYIFAKKNDIPFELRIVDLIKGQHLSDAFAQVNPLKKVPALKDGDFTLTESVAILLYLTRKYKVPDYWYPQDLQARARVDEYLAWQHTTLRRSCLRALWHKVMFPVFLGEPVSPQTLAATLAELDVTLQLLEDKFLQNKAFLTGPHISLADLVAITELMHPVGAGCQVFEGRPKLATWRQRVEAAVGEDLFQEAHEVILKAKDFPPADPTIKQKLMPWVLAMIR GLELYLDLLSQPCRAVYIFAKKNDIPFELRIVDLIKGQHLSDAFAQVNPLKKVPALKDGDFTLTESVAILLYLTRKYKVPDYWYPQDLQARARVDEYLAWQHTTLRRSCLRALWHKVMFPVFLGEPVSPQTLAATLAELDVTLQLLEDKFLQNKAFLTGPHISLADLVAITELMHPVGAGCQVFEGRPKLATWRQRVEAAVGEDLFQEAHEVILKAKDFPPADPTIKQKLMPWVLAMIR 2c40-a1-m1-cB_2c40-a1-m1-cA CRYSTAL STRUCTURE OF INOSINE-URIDINE PREFERRING NUCLEOSIDE HYDROLASE FROM BACILLUS ANTHRACIS AT 2.2A RESOLUTION Q81QM4 Q81QM4 2.2 X-RAY DIFFRACTION 79 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 300 302 MKKVYFNHDGGVDDLVSLFLLLQMDNVELTGVSVIPADCYLEPAMSASRKIIDRFGKNTIEVAASNSRGKNPFPKDWRMHAFYVDALPILNESGKVVTHVAAKPAHHHLIETLLQTEEKTTLLFTGPLTDLARALYEAPIIENKIKRLVWMGGTFRTAGNVHEPEHDGTAEWNSFWDPEAVARVWEANIEIDLITLESTNQVPLTIDIREQWAKERKYIGIDFLGQCYAIVPPYLWDVLTAAFVGKADLAKVQTINSIVHTYGPSQGRTVETDDGRPVHVVYDVNHDRFFDYITRLAKKV MKKVYFNHDGGVDDLVSLFLLLQMDNVELTGVSVIPADCYLEPAMSASRKIIDRFGKNTIEVAASNSRGKNPFPKDWRMHAFYVDALPILNESGKVVTHVAAKPAHHHLIETLLQTEEKTTLLFTGPLTDLARALYEAPIIENKIKRLVWMGGTFRTAGNVHEPEHDGTAEWNSFWDPEAVARVWEANIEIDLITLESTNQVPLTIDIREQWAKERKYIGIDFLGQCYAIVPPLYYLWDVLTAAFVGKADLAKVQTINSIVHTYGPSQGRTVETDDGRPVHVVYDVNHDRFFDYITRLAKKV 2c41-a1-m1-cJ_2c41-a1-m1-cI X-ray structure of Dps from Thermosynechococcus elongatus Q8DG54 Q8DG54 1.81 X-RAY DIFFRACTION 66 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 153 154 2c41-a1-m1-cB_2c41-a1-m1-cA 2c41-a1-m1-cD_2c41-a1-m1-cC 2c41-a1-m1-cE_2c41-a1-m1-cF 2c41-a1-m1-cG_2c41-a1-m1-cH 2c41-a1-m1-cK_2c41-a1-m1-cL TLKEQVLTTLKREQANAVVMYLNYKKYHWLTYGPLFRDLHLLFEEQGSEVFAMIDELAERSLMLDGQPVADPADYLKVATVTPSSGQLTVKQMIEEAIANHELIITEMHQDAEIATEAGDIGTADLYTRLVQTHQKHRWFLKEFLAKGDGLVS TTLKEQVLTTLKREQANAVVMYLNYKKYHWLTYGPLFRDLHLLFEEQGSEVFAMIDELAERSLMLDGQPVADPADYLKVATVTPSSGQLTVKQMIEEAIANHELIITEMHQDAEIATEAGDIGTADLYTRLVQTHQKHRWFLKEFLAKGDGLVS 2c41-a1-m1-cK_2c41-a1-m1-cD X-ray structure of Dps from Thermosynechococcus elongatus Q8DG54 Q8DG54 1.81 X-RAY DIFFRACTION 27 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 153 154 2c41-a1-m1-cB_2c41-a1-m1-cD 2c41-a1-m1-cE_2c41-a1-m1-cA 2c41-a1-m1-cE_2c41-a1-m1-cI 2c41-a1-m1-cF_2c41-a1-m1-cC 2c41-a1-m1-cG_2c41-a1-m1-cL 2c41-a1-m1-cH_2c41-a1-m1-cC 2c41-a1-m1-cH_2c41-a1-m1-cF 2c41-a1-m1-cI_2c41-a1-m1-cA 2c41-a1-m1-cJ_2c41-a1-m1-cG 2c41-a1-m1-cJ_2c41-a1-m1-cL 2c41-a1-m1-cK_2c41-a1-m1-cB TLKEQVLTTLKREQANAVVMYLNYKKYHWLTYGPLFRDLHLLFEEQGSEVFAMIDELAERSLMLDGQPVADPADYLKVATVTPSSGQLTVKQMIEEAIANHELIITEMHQDAEIATEAGDIGTADLYTRLVQTHQKHRWFLKEFLAKGDGLVS TTLKEQVLTTLKREQANAVVMYLNYKKYHWLTYGPLFRDLHLLFEEQGSEVFAMIDELAERSLMLDGQPVADPADYLKVATVTPSSGQLTVKQMIEEAIANHELIITEMHQDAEIATEAGDIGTADLYTRLVQTHQKHRWFLKEFLAKGDGLVS 2c41-a1-m1-cK_2c41-a1-m1-cG X-ray structure of Dps from Thermosynechococcus elongatus Q8DG54 Q8DG54 1.81 X-RAY DIFFRACTION 54 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 153 154 2c41-a1-m1-cA_2c41-a1-m1-cF 2c41-a1-m1-cB_2c41-a1-m1-cI 2c41-a1-m1-cB_2c41-a1-m1-cL 2c41-a1-m1-cD_2c41-a1-m1-cA 2c41-a1-m1-cD_2c41-a1-m1-cF 2c41-a1-m1-cE_2c41-a1-m1-cH 2c41-a1-m1-cG_2c41-a1-m1-cC 2c41-a1-m1-cI_2c41-a1-m1-cL 2c41-a1-m1-cJ_2c41-a1-m1-cE 2c41-a1-m1-cJ_2c41-a1-m1-cH 2c41-a1-m1-cK_2c41-a1-m1-cC TLKEQVLTTLKREQANAVVMYLNYKKYHWLTYGPLFRDLHLLFEEQGSEVFAMIDELAERSLMLDGQPVADPADYLKVATVTPSSGQLTVKQMIEEAIANHELIITEMHQDAEIATEAGDIGTADLYTRLVQTHQKHRWFLKEFLAKGDGLVS TTLKEQVLTTLKREQANAVVMYLNYKKYHWLTYGPLFRDLHLLFEEQGSEVFAMIDELAERSLMLDGQPVADPADYLKVATVTPSSGQLTVKQMIEEAIANHELIITEMHQDAEIATEAGDIGTADLYTRLVQTHQKHRWFLKEFLAKGDGLVS 2c42-a1-m1-cA_2c42-a1-m1-cB Crystal Structure Of Pyruvate-Ferredoxin Oxidoreductase From Desulfovibrio africanus P94692 P94692 1.78 X-RAY DIFFRACTION 1183 1.0 873 (Desulfocurvibacter africanus) 873 (Desulfocurvibacter africanus) 1231 1231 1b0p-a1-m1-cA_1b0p-a1-m1-cB 1kek-a1-m1-cA_1kek-a1-m1-cB 2c3m-a1-m1-cA_2c3m-a1-m1-cB 2c3o-a1-m1-cA_2c3o-a1-m1-cB 2c3p-a1-m1-cA_2c3p-a1-m1-cB 2c3u-a1-m1-cA_2c3u-a1-m1-cB 2c3y-a1-m1-cB_2c3y-a1-m1-cA 2pda-a1-m1-cA_2pda-a1-m1-cB 2uza-a1-m1-cA_2uza-a1-m1-cB 7plm-a1-m1-cA_7plm-a1-m1-cB GKKMMTTDGNTATAHVAYAMSEVAAIYPITPSSTMGEEADDWAAQGRKNIFGQTLTIREMQSEAGAAGAVHGALAAGALTTTFTASQGLLLMIPNMYKISGELLPGVFHVTARAIAAHALSIFGDHQDIYAARQTGFAMLASSSVQEAHDMALVAHLAAIESNVPFMHFFDGFRTSHEIQKIEVLDYADMASLVNQKALAEFRAKSMNPEHPHVRGTAQNPDIYFQGREAANPYYLKVPGIVAEYMQKVASLTGRSYKLFDYVGAPDAERVIVSMGSSCETIEEVINHLAAKGEKIGLIKVRLYRPFVSEAFFAALPASAKVITVLDRTKEPGAPGDPLYLDVCSAFVERGEAMPKILAGRYGLGSKEFSPAMVKSVYDNMSGAKKNHFTVGIEDDVTGTSLPVDNAFADTTPKGTIQCQFWGLGADGTVGANKQAIKIIGDNTDLFAQGYFSYDSKKSGGITISHLRFGEKPIQSTYLVNRADYVACHNPAYVGIYDILEGIKDGGTFVLNSPWSSLEDMDKHLPSGIKRTIANKKLKFYNIDAVKIATDVGLGGRINMIMQTAFFKLAGVLPFEKAVDLLKKSIHKAYGKKGEKIVKMNTDAVDQAVTSLQEFKYPDSWKDAPAETKAEPMTNEFFKNVVKPILTQQGDKLPVSAFEADGRFPLGTSQFEKRGVAINVPQWVPENCIQCNQCAFVCPHSAILPVLAKEEELVGAPANFTALEAKGKELKGYKFRIQINTLDCMGCGNCADICPPKEKALVMQPLDTQRDAQVPNLEYAARIPVKSEVLPRDSLKGSQFQEPLMEFSGACSGCGETPYVRVITQLFGERMFIANATGCSSIWGASAPSMPYKTNRLGQGPAWGNSLFEDAAEYGFGMNMSMFARRTHLADLAAKALESDASGDVKEALQGWLAGKNDPIKSKEYGDKLKKLLAGQKDGLLGQIAAMSDLYTKKSVWIFGGDGWAYDIGYGGLDHVLASGEDVNVFVMDTEVYSNTGGQSSKATPTGAVAKFAAAGKRTGKKDLARMVMTYGYVYVATVSMGYSKQQFLKVLKEAESFPGPSLVIAYATCINQGLRKGMGKSQDVMNTAVKSGYWPLFRYDPRLAAQGKNPFQLDSKAPDGSVEEFLMAQNRFAVLDRSFPEDAKRLRAQVAHELDVRFKELEHMAATNIFESFAPAGGKADGSVDFGEGAEFCTRDDTPMMARPDSGEACDQNRAGTSEQQGDLSKRTKK GKKMMTTDGNTATAHVAYAMSEVAAIYPITPSSTMGEEADDWAAQGRKNIFGQTLTIREMQSEAGAAGAVHGALAAGALTTTFTASQGLLLMIPNMYKISGELLPGVFHVTARAIAAHALSIFGDHQDIYAARQTGFAMLASSSVQEAHDMALVAHLAAIESNVPFMHFFDGFRTSHEIQKIEVLDYADMASLVNQKALAEFRAKSMNPEHPHVRGTAQNPDIYFQGREAANPYYLKVPGIVAEYMQKVASLTGRSYKLFDYVGAPDAERVIVSMGSSCETIEEVINHLAAKGEKIGLIKVRLYRPFVSEAFFAALPASAKVITVLDRTKEPGAPGDPLYLDVCSAFVERGEAMPKILAGRYGLGSKEFSPAMVKSVYDNMSGAKKNHFTVGIEDDVTGTSLPVDNAFADTTPKGTIQCQFWGLGADGTVGANKQAIKIIGDNTDLFAQGYFSYDSKKSGGITISHLRFGEKPIQSTYLVNRADYVACHNPAYVGIYDILEGIKDGGTFVLNSPWSSLEDMDKHLPSGIKRTIANKKLKFYNIDAVKIATDVGLGGRINMIMQTAFFKLAGVLPFEKAVDLLKKSIHKAYGKKGEKIVKMNTDAVDQAVTSLQEFKYPDSWKDAPAETKAEPMTNEFFKNVVKPILTQQGDKLPVSAFEADGRFPLGTSQFEKRGVAINVPQWVPENCIQCNQCAFVCPHSAILPVLAKEEELVGAPANFTALEAKGKELKGYKFRIQINTLDCMGCGNCADICPPKEKALVMQPLDTQRDAQVPNLEYAARIPVKSEVLPRDSLKGSQFQEPLMEFSGACSGCGETPYVRVITQLFGERMFIANATGCSSIWGASAPSMPYKTNRLGQGPAWGNSLFEDAAEYGFGMNMSMFARRTHLADLAAKALESDASGDVKEALQGWLAGKNDPIKSKEYGDKLKKLLAGQKDGLLGQIAAMSDLYTKKSVWIFGGDGWAYDIGYGGLDHVLASGEDVNVFVMDTEVYSNTGGQSSKATPTGAVAKFAAAGKRTGKKDLARMVMTYGYVYVATVSMGYSKQQFLKVLKEAESFPGPSLVIAYATCINQGLRKGMGKSQDVMNTAVKSGYWPLFRYDPRLAAQGKNPFQLDSKAPDGSVEEFLMAQNRFAVLDRSFPEDAKRLRAQVAHELDVRFKELEHMAATNIFESFAPAGGKADGSVDFGEGAEFCTRDDTPMMARPDSGEACDQNRAGTSEQQGDLSKRTKK 2c46-a1-m1-cC_2c46-a1-m1-cB CRYSTAL STRUCTURE OF THE HUMAN RNA guanylyltransferase and 5'- phosphatase O60942 O60942 1.6 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 201 1i9s-a3-m1-cA_1i9s-a3-m3-cA ENLYFQSNKIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMGLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPLLPDWCFEDDED ENLYFQSNKIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMGLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFNERNELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPLLPDWCFEDDED 2c46-a1-m1-cD_2c46-a1-m1-cA CRYSTAL STRUCTURE OF THE HUMAN RNA guanylyltransferase and 5'- phosphatase O60942 O60942 1.6 X-RAY DIFFRACTION 61 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 189 200 NKIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSVKMGLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPLLPDWCFEDDEDE NLYFQSMAHNKIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMGLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFPELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPLLPDWCFEDDED 2c46-a1-m1-cD_2c46-a1-m1-cC CRYSTAL STRUCTURE OF THE HUMAN RNA guanylyltransferase and 5'- phosphatase O60942 O60942 1.6 X-RAY DIFFRACTION 43 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 189 197 NKIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSVKMGLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPLLPDWCFEDDEDE ENLYFQSNKIPPRWLNCPRRGQPVAGRFLPLKTMLGPRYDSQVAEENRFHPSMLSNYLKSLKVKMGLLVDLTNTSRFYDRNDIEKEGIKYIKLQCKGHGECPTTENTETFIRLCERFELIGVHCTHGFNRTGFLICAFLVEKMDWSIEAAVATFAQARPPGIYKGDYLKELFRRYGDIEEAPPPPLLPDWCFEDDED 2c4e-a1-m1-cA_2c4e-a1-m2-cA Crystal Structure of Methanocaldococcus jannaschii Nucleoside Kinase - An Archaeal Member of the Ribokinase Family Q57849 Q57849 1.7 X-RAY DIFFRACTION 75 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 299 299 2c49-a1-m1-cB_2c49-a1-m1-cA GGKMEKITCVGHTALDYIFNVEKFPEPNTSIQIPSARKYYGGAAANTAVGIKKLGVNSELLSCVGYDFKNSGYERYLKNLDINISKLYYSEEEETPKAWIFTDKDNNQITFFLWGAAKHYKELNPPNFNTEIVHIATGDPEFNLKCAKKAYGNNLVSFDPGQDLPQYSKEMLLEIIEHTNFLFMNKHEFERASNLLNFEIDDYLERVDALIVTKGSKGSVIYTKDKKIEIPCIKAGKVIDPTGAGDSYRAGFLSAYVKGYDLEKCGLIGAATASFVVEAKGCQTNLPTWDKVVERLEKH GGKMEKITCVGHTALDYIFNVEKFPEPNTSIQIPSARKYYGGAAANTAVGIKKLGVNSELLSCVGYDFKNSGYERYLKNLDINISKLYYSEEEETPKAWIFTDKDNNQITFFLWGAAKHYKELNPPNFNTEIVHIATGDPEFNLKCAKKAYGNNLVSFDPGQDLPQYSKEMLLEIIEHTNFLFMNKHEFERASNLLNFEIDDYLERVDALIVTKGSKGSVIYTKDKKIEIPCIKAGKVIDPTGAGDSYRAGFLSAYVKGYDLEKCGLIGAATASFVVEAKGCQTNLPTWDKVVERLEKH 2c4i-a1-m1-cA_2c4i-a1-m2-cA Crystal structure of engineered avidin P02701 P02701 1.95 X-RAY DIFFRACTION 74 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 242 242 2jgs-a1-m1-cA_2jgs-a1-m1-cB 2jgs-a1-m1-cC_2jgs-a1-m1-cD TQPTFGFTVNWKFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGINIFTRLKCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVTATSNEIKESPLHGTQNTIGSTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGINIFTRLSARKCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVTATSNEIKESPLHGTQNTINKRTQPTFGFTVNWKFS TQPTFGFTVNWKFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGINIFTRLKCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVTATSNEIKESPLHGTQNTIGSTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGINIFTRLSARKCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVTATSNEIKESPLHGTQNTINKRTQPTFGFTVNWKFS 2c4m-a2-m1-cD_2c4m-a2-m1-cC Starch phosphorylase: structural studies explain oxyanion-dependent kinetic stability and regulatory control. Q8KQ56 Q8KQ56 1.9 X-RAY DIFFRACTION 171 1.0 1721 (Corynebacterium callunae) 1721 (Corynebacterium callunae) 788 790 2c4m-a1-m1-cA_2c4m-a1-m1-cB QPLPAALVGSHVRAAAGTPADLATDRKFWTGLSRAVQERIADDWERTREAYGAARQQHYFSAEFLMGRALLNNLTNLGLVDEAAAATRELGHELTDILEIENDAALGNGGLGRLAACFLDSAVTQDYPVTGYGLLYRFGLFRQSFNEGFQVEKPDPWREEEYPFTIRRASDQLVVCFDDMKTRAIPYDMPITGYGTHNVGTLRLWKAEPWEEFDYDAFNAQRFTDAIIERERVSDICRVLYPNDTTYEGKKLRVRQQYFFTSASLQAMIQDHLAHHKDLSNFAEFHSVQLNDTHPVLAIPELMRLLMDEHDMGWEESWAIVSKTFAYTNHTVLTEALEQWDEQIFQQLFWRVWEIIAEIDRRFRLERAADGLDEETINRMAPIQHGTVHMAWIACYAAYSINGVAALHTEIIKAETLADWYALWPEKFNNKTNGVTPRRWLRMINPGLSDLLTRLSGSDDWVTDLDELKKLRSYADDKSVLEELRAIKAANKQDFAEWILERQGIEIDPESIFDVQIKRLHEYKRQLMNALYVLDLYFRIKEDGLTDIPARTVIFGAKAAPGYVRAKAIIKLINSIADLVNNDPEVSPLLKVVFVENYNVSPAEHILPASDVSEQISTAGKEASGTSNMKFMMNGALTLGTMDGANVEIVDSVGEENAYIFGARVEELPALRESYKPYELYETVPGLKRALDALDNGTLNDNNSGLFYDLKHSLIHGYGKDASDTYYVLGDFADYRETRDRMAADYASDPLGWARMAWINICESGRFSSDRTIRDYATEIWKLEPTPA QPLPAALVGSHVRAAAGTPADLATDRKFWTGLSRAVQERIADDWERTREAYGAARQQHYFSAEFLMGRALLNNLTNLGLVDEAAAATRELGHELTDILEIENDAALGNGGLGRLAACFLDSAVTQDYPVTGYGLLYRFGLFRQSFNEGFQVEKPDPWREEEYPFTIRRASDQLVVCFDDMKTRAIPYDMPITGYGTHNVGTLRLWKAEPWEEFDYDAFNAQRFTDAIIERERVSDICRVLYPNDTTYEGKKLRVRQQYFFTSASLQAMIQDHLAHHKDLSNFAEFHSVQLNDTHPVLAIPELMRLLMDEHDMGWEESWAIVSKTFAYTNHTVLTEALEQWDEQIFQQLFWRVWEIIAEIDRRFRLERAADGLDEETINRMAPIQHGTVHMAWIACYAAYSINGVAALHTEIIKAETLADWYALWPEKFNNKTNGVTPRRWLRMINPGLSDLLTRLSGSDDWVTDLDELKKLRSYADDKSVLEELRAIKAANKQDFAEWILERQGIEIDPESIFDVQIKRLHEYKRQLMNALYVLDLYFRIKEDGLTDIPARTVIFGAKAAPGYVRAKAIIKLINSIADLVNNDPEVSPLLKVVFVENYNVSPAEHILPASDVSEQISTAGKEASGTSNMKFMMNGALTLGTMDGANVEIVDSVGEENAYIFGARVEELPALRESYKPYELYETVPGLKRALDALDNGTLNDNNSGLFYDLKHSLIHGYGKDASDTYYVLGDFADYRETRDRMAADYASDPLGWARMAWINICESGRFSSDRTIRDYATEIWKLEPTPAVK 2c4n-a1-m2-cA_2c4n-a1-m4-cA NagD from E.coli K-12 strain P0AF24 P0AF24 1.8 X-RAY DIFFRACTION 79 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 250 2c4n-a1-m1-cA_2c4n-a1-m3-cA MTIKNVICDIDGVLMHDNVAVPGAAEFLHGIMDKGLPLVLLTNYPSQTGQDLANRFATAGVDVPDSVFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSYNWDMMHKAAYFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRAALNKMQAHSEETVIVGDNLRTDILAGFQAGLETILVLSGVSSLDDIDSMPFRPSWIYPSVAEIDVI MTIKNVICDIDGVLMHDNVAVPGAAEFLHGIMDKGLPLVLLTNYPSQTGQDLANRFATAGVDVPDSVFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSYNWDMMHKAAYFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRAALNKMQAHSEETVIVGDNLRTDILAGFQAGLETILVLSGVSSLDDIDSMPFRPSWIYPSVAEIDVI 2c4n-a1-m3-cA_2c4n-a1-m4-cA NagD from E.coli K-12 strain P0AF24 P0AF24 1.8 X-RAY DIFFRACTION 57 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 250 2c4n-a1-m1-cA_2c4n-a1-m2-cA MTIKNVICDIDGVLMHDNVAVPGAAEFLHGIMDKGLPLVLLTNYPSQTGQDLANRFATAGVDVPDSVFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSYNWDMMHKAAYFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRAALNKMQAHSEETVIVGDNLRTDILAGFQAGLETILVLSGVSSLDDIDSMPFRPSWIYPSVAEIDVI MTIKNVICDIDGVLMHDNVAVPGAAEFLHGIMDKGLPLVLLTNYPSQTGQDLANRFATAGVDVPDSVFYTSAMATADFLRRQEGKKAYVVGEGALIHELYKAGFTITDVNPDFVIVGETRSYNWDMMHKAAYFVANGARFIATNPDTHGRGFYPACGALCAGIEKISGRKPFYVGKPSPWIIRAALNKMQAHSEETVIVGDNLRTDILAGFQAGLETILVLSGVSSLDDIDSMPFRPSWIYPSVAEIDVI 2c5a-a1-m1-cB_2c5a-a1-m1-cA GDP-mannose-3', 5' -epimerase (Arabidopsis thaliana),Y174F, with GDP-beta-L-galactose bound in the active site Q93VR3 Q93VR3 1.4 X-RAY DIFFRACTION 85 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 360 363 2c54-a1-m1-cB_2c54-a1-m1-cA 2c59-a1-m1-cB_2c59-a1-m1-cA 2c5e-a1-m1-cB_2c5e-a1-m1-cA YTYKELEREQYWPSENLKISITGAGGFIASHIARRLKHEGHYVIASDWKKNEHMTEDMFCDEFHLVDLRVMENCLKVTEGVDHVFNLAADMGGMGFIQSNHSVIMYNNTMISFNMIEAARINGIKRFFYASSACIYPEFKQLETTNVSLKESDAWPAEPQDAFGLEKLATEELCKHYNKDFGIECRIGRFHNIYGPFGTWKGGREKAPAAFCRKAQTSTDRFEMWGDGLQTRSFTFIDECVEGVLRLTKSDFREPVNIGSDEMVSMNEMAEMVLSFEEKKLPIHHIPGPEGVRGRNSDNNLIKEKLGWAPNMRLKEGLRITYFWIKEQIEKEKAKGSDVSLYGSSKVVGTQAPVQLGSLR TYKELEREQYWPSENLKISITGAGGFIASHIARRLKHEGHYVIASDWKKNEHMTEDMFCDEFHLVDLRVMENCLKVTEGVDHVFNLAADMGGMGFIQSNHSVIMYNNTMISFNMIEAARINGIKRFFYASSACIYPEFKQLETTNVSLKESDAWPAEPQDAFGLEKLATEELCKHYNKDFGIECRIGRFHNIYGPFGTWKGGREKAPAAFCRKAQTSTDRFEMWGDGLQTRSFTFIDECVEGVLRLTKSDFREPVNIGSDEMVSMNEMAEMVLSFEEKKLPIHHIPGPEGVRGRNSDNNLIKEKLGWAPNMRLKEGLRITYFWIKEQIEKEKAKGSDVSLYGSSKVVGTQAPVQLGSLRAADG 2c5j-a1-m1-cA_2c5j-a1-m1-cB N-terminal domain of tlg1, domain-swapped dimer Q03322 Q03322 2.1 X-RAY DIFFRACTION 87 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 82 89 DPFQQVVKDTKEQLNRINNYITRHNTAEEEIQDILKDVEETIVDLDRSIIVMKRDENEDVSGREAQVKNIKQQLDALKLRFD DPFQQVVKDTKEQLNRINNYITRHNTAGDDDQEEEIQDILKDVEETIVDLDRSIIVMKRDENEDVSGREAQVKNIKQQLDALKLRFDRR 2c5q-a2-m1-cD_2c5q-a2-m1-cE Crystal structure of yeast YER010Cp P40011 P40011 1.7 X-RAY DIFFRACTION 95 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 231 232 2c5q-a1-m1-cA_2c5q-a1-m1-cC 2c5q-a1-m1-cB_2c5q-a1-m1-cA 2c5q-a1-m1-cB_2c5q-a1-m1-cC 2c5q-a2-m1-cF_2c5q-a2-m1-cD 2c5q-a2-m1-cF_2c5q-a2-m1-cE SDLQKLQRFSTCDISDGLLNVYNIPTGGYFPNLTAISPPQNSSIVGTAYTVLFAPIDDPRPAVNYIDSVPPNSILVLALEPHLQSQFHPFIKITQAMYGGLMSTRAQYLKSNGTVVFGRIRDVDEHRTLNHPVFAYGVGSCAPKAVVKAVGTNVQLKILTSDGVTQTIPGDYIAGDNNGIVRIPVQETDISKLVTYIEKSIEVDLLVSEDIKNGIPAKQAQNDRRSVLKKY SDLQKLQRFSTCDISDGLLNVYNIPTGGYFPNLTAISPPQNSSIVGTAYTVLFAPIDDPRPAVNYIDSVPPNSILVLALEPHLQSQFHPFIKITQAMYGGLMSTRAQYLKSNGTVVFGRIRDVDEHRTLNHPVFAYGVGSCAPKAVVKAVGTNVQLKILTSDGVTQTIPGDYIAGDNNGIVRIPVQETDISKLVTYIEKSIEVDLLVSEDIKNGIPAKQAQNDRRSVLKKYI 2c5r-a1-m1-cA_2c5r-a1-m1-cE The structure of phage phi29 replication organizer protein p16.7 in complex with double stranded DNA P16517 P16517 2.9 X-RAY DIFFRACTION 26 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 63 63 2c5r-a1-m1-cB_2c5r-a1-m1-cC NLSACEVAVLDLYEQSNIRIPSDIIEDLVNQRLQSEQEVLNYIETQRTYWKLENQKKLYRGSL NLSACEVAVLDLYEQSNIRIPSDIIEDLVNQRLQSEQEVLNYIETQRTYWKLENQKKLYRGSL 2c5r-a1-m1-cE_2c5r-a1-m1-cF The structure of phage phi29 replication organizer protein p16.7 in complex with double stranded DNA P16517 P16517 2.9 X-RAY DIFFRACTION 67 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 63 63 1zae-a1-m1-cA_1zae-a1-m1-cB 2bnk-a1-m1-cA_2bnk-a1-m1-cB 2c5r-a1-m1-cA_2c5r-a1-m1-cB 2c5r-a1-m1-cC_2c5r-a1-m1-cD NLSACEVAVLDLYEQSNIRIPSDIIEDLVNQRLQSEQEVLNYIETQRTYWKLENQKKLYRGSL NLSACEVAVLDLYEQSNIRIPSDIIEDLVNQRLQSEQEVLNYIETQRTYWKLENQKKLYRGSL 2c5s-a1-m1-cA_2c5s-a1-m2-cA Crystal structure of Bacillus anthracis ThiI, a tRNA-modifying enzyme containing the predicted RNA-binding THUMP domain Q81KU0 Q81KU0 2.5 X-RAY DIFFRACTION 102 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 372 372 YEYILVRYGEMGKNRSKFVSTLKDNVKFKLKKFPNIKIDATHDRMYIQLNGEDHEAVSERLKDVFGIHKFNLAMKVPSELEDIKKGALAAFLQVKGDVKTFKITVHRSYKHFPMRTMELLPEIGGHILENTEDITVDVHNPDVNVRVEIRSGYSYIMCDERMGAGGLPVGVGGKVMVLLSGGIDSPVAAYLTMKRGVSVEAVHFHSPPFTSERAKQKVIDLAQELTKYCKRVTLHLVPFTEVQKTINKEIPSSYSMTVMRRMMMRITERIAEERNALAITTGESLGQVASQTLDSMHTINEVTNYPVIRPLITMDKLEIIKIAEEIGTYDISIRPYKPKREKANRFEAKYDFTPLIDEAVANKETMVLQTVE YEYILVRYGEMGKNRSKFVSTLKDNVKFKLKKFPNIKIDATHDRMYIQLNGEDHEAVSERLKDVFGIHKFNLAMKVPSELEDIKKGALAAFLQVKGDVKTFKITVHRSYKHFPMRTMELLPEIGGHILENTEDITVDVHNPDVNVRVEIRSGYSYIMCDERMGAGGLPVGVGGKVMVLLSGGIDSPVAAYLTMKRGVSVEAVHFHSPPFTSERAKQKVIDLAQELTKYCKRVTLHLVPFTEVQKTINKEIPSSYSMTVMRRMMMRITERIAEERNALAITTGESLGQVASQTLDSMHTINEVTNYPVIRPLITMDKLEIIKIAEEIGTYDISIRPYKPKREKANRFEAKYDFTPLIDEAVANKETMVLQTVE 2c6x-a2-m1-cC_2c6x-a2-m1-cD Structure of Bacillus subtilis citrate synthase P39119 P39119 3.4 X-RAY DIFFRACTION 298 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 363 363 2c6x-a1-m1-cA_2c6x-a1-m1-cB VHYGLKGITCVETSISHIDGEKGRLIYRGHHAKDIALNHSFEEAAYLILFGKLPSTEELQVFKDKLAAERNLPEHIERLIQSLPNNMDDMSVLRTVVSALGENTYTFHPKTEEAIRLIAITPSIIAYRKRWTRGEQAIAPSSQYGHVENYYYMLTGEQPSEAKKKALETYMILATEHGMNASTFSARVTLSTESDLVSAVTAALGTMKGPLHGGAPSAVTKMLEDIGEKEHAEAYLKEKLEKGERLMGFGHRVYKTKDPRAEALRQKAEEVAGNDRDLDLALHVEAEAIRLLEIYKPGRKLYTNVEFYAAAVMRAIDFDDELFTPTFSASRMVGWCAHVLEQAENNMIFRPSAQYTGAIPEEV VHYGLKGITCVETSISHIDGEKGRLIYRGHHAKDIALNHSFEEAAYLILFGKLPSTEELQVFKDKLAAERNLPEHIERLIQSLPNNMDDMSVLRTVVSALGENTYTFHPKTEEAIRLIAITPSIIAYRKRWTRGEQAIAPSSQYGHVENYYYMLTGEQPSEAKKKALETYMILATEHGMNASTFSARVTLSTESDLVSAVTAALGTMKGPLHGGAPSAVTKMLEDIGEKEHAEAYLKEKLEKGERLMGFGHRVYKTKDPRAEALRQKAEEVAGNDRDLDLALHVEAEAIRLLEIYKPGRKLYTNVEFYAAAVMRAIDFDDELFTPTFSASRMVGWCAHVLEQAENNMIFRPSAQYTGAIPEEV 2c7a-a1-m1-cB_2c7a-a1-m1-cA STRUCTURE OF THE PROGESTERONE RECEPTOR-DNA COMPLEX P06401 P06401 2.5 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 78 PQKICLICGDEASGCHYGVLTCGSCKVFFKRAMEGQHNYLCAGRNDCIVDKIRRKNCPACRLRKCCQAGMVLGGRK PQKICLICGDEASGCHYGVLTCGSCKVFFKRAMEGQHNYLCAGRNDCIVDKIRRKNCPACRLRKCCQAGMVLGGRKFK 2c7b-a1-m1-cB_2c7b-a1-m2-cB The Crystal Structure of EstE1, a New Thermophilic and Thermostable Carboxylesterase Cloned from a Metagenomic Library Q5G935 Q5G935 2.3 X-RAY DIFFRACTION 72 1.0 115547 (uncultured archaeon) 115547 (uncultured archaeon) 286 286 2c7b-a1-m1-cA_2c7b-a1-m2-cA ASPQELRRQVEEQSRLLTAAVQEPIAETRDVHIPVSGGSIRARVYFPKKAAGLPAVLYYHGGGFVFGSIETHDHICRRLSRLSDSVVVSVDYRLAPEYKFPTAVEDAYAALKWVADRADELGVDPDRIAVAGDSAGGNLAAVVSILDRNSGEKLVKKQVLIYPVVNTGVPTASLVEFGVAETTSLPIELVWFGRQYLKRPEEAYDFKASPLLADLGGLPPALVVTAEYDPLRDEGELYAYKKASGSRAVAVRFAGVHGFVSFYPFVDAGREALDLAAASIRSGLQP ASPQELRRQVEEQSRLLTAAVQEPIAETRDVHIPVSGGSIRARVYFPKKAAGLPAVLYYHGGGFVFGSIETHDHICRRLSRLSDSVVVSVDYRLAPEYKFPTAVEDAYAALKWVADRADELGVDPDRIAVAGDSAGGNLAAVVSILDRNSGEKLVKKQVLIYPVVNTGVPTASLVEFGVAETTSLPIELVWFGRQYLKRPEEAYDFKASPLLADLGGLPPALVVTAEYDPLRDEGELYAYKKASGSRAVAVRFAGVHGFVSFYPFVDAGREALDLAAASIRSGLQP 2c7b-a1-m2-cB_2c7b-a1-m2-cA The Crystal Structure of EstE1, a New Thermophilic and Thermostable Carboxylesterase Cloned from a Metagenomic Library Q5G935 Q5G935 2.3 X-RAY DIFFRACTION 40 1.0 115547 (uncultured archaeon) 115547 (uncultured archaeon) 286 290 2c7b-a1-m1-cB_2c7b-a1-m1-cA ASPQELRRQVEEQSRLLTAAVQEPIAETRDVHIPVSGGSIRARVYFPKKAAGLPAVLYYHGGGFVFGSIETHDHICRRLSRLSDSVVVSVDYRLAPEYKFPTAVEDAYAALKWVADRADELGVDPDRIAVAGDSAGGNLAAVVSILDRNSGEKLVKKQVLIYPVVNTGVPTASLVEFGVAETTSLPIELVWFGRQYLKRPEEAYDFKASPLLADLGGLPPALVVTAEYDPLRDEGELYAYKKASGSRAVAVRFAGVHGFVSFYPFVDAGREALDLAAASIRSGLQP LSIAASPQELRRQVEEQSRLLTAAVQEPIAETRDVHIPVSGGSIRARVYFPKKAAGLPAVLYYHGGGFVFGSIETHDHICRRLSRLSDSVVVSVDYRLAPEYKFPTAVEDAYAALKWVADRADELGVDPDRIAVAGDSAGGNLAAVVSILDRNSGEKLVKKQVLIYPVVNTGVPTASLVEFGVAETTSLPIELVWFGRQYLKRPEEAYDFKASPLLADLGGLPPALVVTAEYDPLRDEGELYAYKKASGSRAVAVRFAGVHGFVSFYPFVDAGREALDLAAASIRSGLQP 2c7g-a1-m1-cA_2c7g-a1-m2-cA FprA from Mycobacterium tuberculosis: His57Gln mutant P9WIQ3 P9WIQ3 1.8 X-RAY DIFFRACTION 94 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 453 453 RPYYIAIVGSGPSAFFAAASLLKAADTTEDLDMAVDMLEMLPTPWGLVRSGVAPDQPKIKSISKQFEKTAEDPRFRFFGNVVVGEHVQPGELSERYDAVIYAVGAQSDRMLNIPGEDLPGSIAAVDFVGWYNAHPHFEQVSPDLSGARAVVIGNGNVALDVARILLTDPDVLARTDIADHALESLRPRGIQEVVIVGRRGPLQAAFTTLELRELADLDGVDVVIDPAELDGITDEDAAAVGKVCKQNIKVLRGYADREPRPGHRRMVFRFLTSPIEIKGKRKVERIVLGRNELVSDGSGRVAAKDTGEREELPAQLVVRSVGYRGVPTPGLPFDDQSGTIPNVGGRINGSPNEYVVGWIKRGPTGVIGTNKKDAQDTVDTLIKNLGNAKEGAECKSFDHADQVADWLAARQPKLVTSAHWQVIDAFERAAGEPHGRPRVKLASLAELLRIGLG RPYYIAIVGSGPSAFFAAASLLKAADTTEDLDMAVDMLEMLPTPWGLVRSGVAPDQPKIKSISKQFEKTAEDPRFRFFGNVVVGEHVQPGELSERYDAVIYAVGAQSDRMLNIPGEDLPGSIAAVDFVGWYNAHPHFEQVSPDLSGARAVVIGNGNVALDVARILLTDPDVLARTDIADHALESLRPRGIQEVVIVGRRGPLQAAFTTLELRELADLDGVDVVIDPAELDGITDEDAAAVGKVCKQNIKVLRGYADREPRPGHRRMVFRFLTSPIEIKGKRKVERIVLGRNELVSDGSGRVAAKDTGEREELPAQLVVRSVGYRGVPTPGLPFDDQSGTIPNVGGRINGSPNEYVVGWIKRGPTGVIGTNKKDAQDTVDTLIKNLGNAKEGAECKSFDHADQVADWLAARQPKLVTSAHWQVIDAFERAAGEPHGRPRVKLASLAELLRIGLG 2c7w-a1-m1-cA_2c7w-a1-m1-cB Crystal Structure of human vascular endothelial growth factor-B: Identification of amino acids important for angiogeninc activity P49765 P49765 2.48 X-RAY DIFFRACTION 103 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 2vwe-a1-m1-cA_2vwe-a1-m1-cB 2xac-a1-m1-cB_2xac-a1-m1-cA KVVSWIDVYTRATCQPREVVVPLTVELMGTVAKQLVPSCVTVQRCGGCCPDDGLECVPTGQHQVRMQILMIRYPSSQLGEMSLEEHSQCECRPKK KVVSWIDVYTRATCQPREVVVPLTVELMGTVAKQLVPSCVTVQRCGGCCPDDGLECVPTGQHQVRMQILMIRYPSSQLGEMSLEEHSQCECRPKK 2c7y-a1-m1-cA_2c7y-a1-m1-cB plant enzyme Q56WD9 Q56WD9 2.1 X-RAY DIFFRACTION 105 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 391 396 2c7z-a1-m1-cA_2c7z-a1-m2-cA DSAAYQRTSLYGDDVVIVAAHRTPLCKSKRGNFKDTYPDDLLAPVLRALIEKTNLNPSEVGDIVVGTVLAPGSQRASECRMAAFYAGFPETVAVRTVNRQCSSGLQAVADVAAAIKAGFYDIGIGAGLESMTTNPKFAQAQNCLLPMGVTSENVAQRFGVSRQEQDQAAVDSHRKAAAATAAGKFKDEIIPVKTKLVDPKTGDEKPITVSVDDGIRPTTTLASLGKLKPVFKKDGTTTAGNSSQVSDGAGAVLLMKRSVAMQKGLPVLGVFRTFAAVGVDPAIMGIGPAVAIPAAVKAAGLELDDIDLFEINEAFASQFVYCRNKLGLDPEKINVNGGAMAIGHPLGATGARCVATLLHEMKRRGKDCRFGVVSMCIGTGMGAAAVFERGD SAAYQRTSLYGDDVVIVAAHRTPLCKSKRGNFKDTYPDDLLAPVLRALIEKTNLNPSEVGDIVVGTVLAPGSQRASECRMAAFYAGFPETVAVRTVNRQCSSGLQAVADVAAAIKAGFYDIGIGAGLESMTTNPMAWEKKFAQAQNCLLPMGVTSENVAQRFGVSRQEQDQAAVDSHRKAAAATAAGKFKDEIIPVKTKLVDPKTGDEKPITVSVDDGIRPTTTLASLGKLKPVFKKDGTTTAGNSSQVSDGAGAVLLMKRSVAMQKGLPVLGVFRTFAAVGVDPAIMGIGPAVAIPAAVKAAGLELDDIDLFEINEAFASQFVYCRNKLGLDPEKINVNGGAMAIGHPLGATGARCVATLLHEMKRRGKDCRFGVVSMCIGTGMGAAAVFERGDG 2c81-a1-m1-cA_2c81-a1-m2-cA Crystal structures of the PLP- and PMP-bound forms of BtrR, a dual functional aminotransferase involved in butirosin biosynthesis. Q8G8Y2 Q8G8Y2 1.7 X-RAY DIFFRACTION 223 1.0 1397 (Niallia circulans) 1397 (Niallia circulans) 408 408 2c7t-a1-m1-cA_2c7t-a1-m2-cA 5w71-a1-m1-cB_5w71-a1-m1-cA WPEWPQHSDRTRRKIEEVFQSNRWAISGYWTGEESMERKFAKAFADFNGVPYCVPTTSGSTALMLALEALGIGEGDEVIVPSLTWIATATAVLNVNALPVFVDVEADTYCIDPQLIKSAITDKTKAIIPVHLFGSMANMDEINEIAQEHNLFVIEDCAQSHGSVWNNQRAGTIGDIGAFSCQQGKVLTAGEGGIIVTKNPRLFELIQQLRADSRVYCDDSSELMHGDMQLVKKGDIQGSNYCLSEFQSAILLDQLQELDDKNAIREKNAMFLNDALSKIDGIKVMKRPPQVSRQTYYGYVFRFDPVKFGGLNADQFCEILREKLNMGTFYLHPPYLPVHKNPLFCPWTKNRYLKSVRKTEAYWRGLHYPVSERASGQSIVIHHAILLAEPSHLSLLVDAVAELARKFC WPEWPQHSDRTRRKIEEVFQSNRWAISGYWTGEESMERKFAKAFADFNGVPYCVPTTSGSTALMLALEALGIGEGDEVIVPSLTWIATATAVLNVNALPVFVDVEADTYCIDPQLIKSAITDKTKAIIPVHLFGSMANMDEINEIAQEHNLFVIEDCAQSHGSVWNNQRAGTIGDIGAFSCQQGKVLTAGEGGIIVTKNPRLFELIQQLRADSRVYCDDSSELMHGDMQLVKKGDIQGSNYCLSEFQSAILLDQLQELDDKNAIREKNAMFLNDALSKIDGIKVMKRPPQVSRQTYYGYVFRFDPVKFGGLNADQFCEILREKLNMGTFYLHPPYLPVHKNPLFCPWTKNRYLKSVRKTEAYWRGLHYPVSERASGQSIVIHHAILLAEPSHLSLLVDAVAELARKFC 2c8t-a1-m1-cE_2c8t-a1-m1-cL The 3.0 A Resolution Structure of Caseinolytic Clp Protease 1 from Mycobacterium tuberculosis P9WPC5 P9WPC5 3 X-RAY DIFFRACTION 17 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 171 171 2c8t-a1-m1-cA_2c8t-a1-m1-cH 2c8t-a1-m1-cB_2c8t-a1-m1-cI 2c8t-a1-m1-cC_2c8t-a1-m1-cJ 2c8t-a1-m1-cD_2c8t-a1-m1-cK 2c8t-a1-m1-cF_2c8t-a1-m1-cM 2ce3-a1-m1-cA_2ce3-a1-m1-cI 2ce3-a1-m1-cB_2ce3-a1-m1-cH 2ce3-a1-m1-cC_2ce3-a1-m1-cN 2ce3-a1-m1-cD_2ce3-a1-m1-cM 2ce3-a1-m1-cE_2ce3-a1-m1-cL 2ce3-a1-m1-cF_2ce3-a1-m1-cK 2ce3-a1-m1-cG_2ce3-a1-m1-cJ SLTDSVYERLLSERIIFLGSEVNDEIANRLCAQILLLAAEDASKDISLYINSPGGSISAGMAIYDTMVLAPCDIATYAMGMAASMGEFLLAAGTKGKRYALPHARILMHQPLIAIQAEQFAVIKKEMFRLNAEFTGQPIERIEADSDRDRWFTAAEALEYGFVDHIITRAH SLTDSVYERLLSERIIFLGSEVNDEIANRLCAQILLLAAEDASKDISLYINSPGGSISAGMAIYDTMVLAPCDIATYAMGMAASMGEFLLAAGTKGKRYALPHARILMHQPLIAIQAEQFAVIKKEMFRLNAEFTGQPIERIEADSDRDRWFTAAEALEYGFVDHIITRAH 2c8u-a1-m1-cA_2c8u-a1-m1-cB Structure of R21Q mutant of Sh28GST P30113 P30113 2 X-RAY DIFFRACTION 57 1.0 6185 (Schistosoma haematobium) 6185 (Schistosoma haematobium) 202 202 1oe7-a1-m1-cB_1oe7-a1-m1-cA 1oe8-a1-m1-cA_1oe8-a1-m1-cB 2c80-a1-m1-cA_2c80-a1-m1-cB 2ca8-a1-m1-cA_2ca8-a1-m2-cA 2cai-a1-m1-cA_2cai-a1-m1-cB 2caq-a1-m1-cA_2caq-a1-m2-cA 2f8f-a1-m1-cA_2f8f-a1-m1-cB 8als-a1-m1-cA_8als-a1-m1-cB DHIKVIYFNGRGRAESIQMTLVAAGVNYEDERISFQDWPKIKPTIPGGRLPAVKITDNHGHVKWMVESLAIARYMAKKHHMMGGTEEEYYNVEKLIGQAEDLEHEYYKTLMKPEEEKQKIIKEILNGKVPVLLDIICESLKASTGKLAVGDKVTLADLVLIAVIDHVTDLDKEFLTGKYPEIHKHRENLLASSPRLAKYLSD DHIKVIYFNGRGRAESIQMTLVAAGVNYEDERISFQDWPKIKPTIPGGRLPAVKITDNHGHVKWMVESLAIARYMAKKHHMMGGTEEEYYNVEKLIGQAEDLEHEYYKTLMKPEEEKQKIIKEILNGKVPVLLDIICESLKASTGKLAVGDKVTLADLVLIAVIDHVTDLDKEFLTGKYPEIHKHRENLLASSPRLAKYLSD 2c9i-a2-m1-cA_2c9i-a2-m1-cD Structure of the fluorescent protein asFP499 from Anemonia sulcata Q9GPI6 Q9GPI6 1.82 X-RAY DIFFRACTION 64 1.0 6108 (Anemonia sulcata) 6108 (Anemonia sulcata) 225 225 2c9i-a1-m1-cF_2c9i-a1-m1-cG 2c9i-a1-m1-cH_2c9i-a1-m1-cE 2c9i-a2-m1-cB_2c9i-a2-m1-cC MYPSIKETMRVQLSMEGSVNYHAFKCTGKGEGKPYEGTQSLNITITEGGPLPFAFDILSHAFIKVFAKYPKEIPDFFKQSLPGGFSWERVSTYEDGGVLSATQETSLQGDCIICKVKVLGTNFPANGPVMQKKTCGWEPSTETVIPRDGGLLLRDTPALMLADGGHLSCFMETTYKSKKEVKLPELHFHHLRMEKLNISDDWKTVEQHESVVASYSQVPSKLGHN MYPSIKETMRVQLSMEGSVNYHAFKCTGKGEGKPYEGTQSLNITITEGGPLPFAFDILSHAFIKVFAKYPKEIPDFFKQSLPGGFSWERVSTYEDGGVLSATQETSLQGDCIICKVKVLGTNFPANGPVMQKKTCGWEPSTETVIPRDGGLLLRDTPALMLADGGHLSCFMETTYKSKKEVKLPELHFHHLRMEKLNISDDWKTVEQHESVVASYSQVPSKLGHN 2c9i-a2-m1-cC_2c9i-a2-m1-cD Structure of the fluorescent protein asFP499 from Anemonia sulcata Q9GPI6 Q9GPI6 1.82 X-RAY DIFFRACTION 100 1.0 6108 (Anemonia sulcata) 6108 (Anemonia sulcata) 225 225 2c9i-a1-m1-cF_2c9i-a1-m1-cE 2c9i-a1-m1-cH_2c9i-a1-m1-cG 2c9i-a2-m1-cB_2c9i-a2-m1-cA MYPSIKETMRVQLSMEGSVNYHAFKCTGKGEGKPYEGTQSLNITITEGGPLPFAFDILSHAFIKVFAKYPKEIPDFFKQSLPGGFSWERVSTYEDGGVLSATQETSLQGDCIICKVKVLGTNFPANGPVMQKKTCGWEPSTETVIPRDGGLLLRDTPALMLADGGHLSCFMETTYKSKKEVKLPELHFHHLRMEKLNISDDWKTVEQHESVVASYSQVPSKLGHN MYPSIKETMRVQLSMEGSVNYHAFKCTGKGEGKPYEGTQSLNITITEGGPLPFAFDILSHAFIKVFAKYPKEIPDFFKQSLPGGFSWERVSTYEDGGVLSATQETSLQGDCIICKVKVLGTNFPANGPVMQKKTCGWEPSTETVIPRDGGLLLRDTPALMLADGGHLSCFMETTYKSKKEVKLPELHFHHLRMEKLNISDDWKTVEQHESVVASYSQVPSKLGHN 2c9j-a2-m1-cB_2c9j-a2-m1-cD Structure of the fluorescent protein cmFP512 at 1.35A from Cerianthus membranaceus Q5ZQQ5 Q5ZQQ5 1.35 X-RAY DIFFRACTION 100 1.0 208460 (Cerianthus membranaceus) 208460 (Cerianthus membranaceus) 217 218 2c9j-a1-m1-cE_2c9j-a1-m1-cG 2c9j-a1-m1-cF_2c9j-a1-m1-cH 2c9j-a2-m1-cA_2c9j-a2-m1-cC LDNNLSVSVYMKGNVNNHEFEYDGIGGGDPNSGQFSLKTKLRGGKPLPFSYDIITMGFFRAFTKYPEGIADYFKGSFPEAFQWNRRIEFEDGGVINMSSDITYKDKVLHGDVWALGVNFPPNGPVMKNEIVMEEPAEETLTAKNGVLVGFCPKAYLLKDGSYYYGHMTTFYRSKKSGQPLPGFHFIKHRLVKTKVEPGFKMVEQAEYATAHVCDLPK LDNNLSVSVYMKGNVNNHEFEYDGIGGGDPNSGQFSLKTKLRGGKPLPFSYDIITMGFFRAFTKYPEGIADYFKGSFPEAFQWNRRIEFEDGGVINMSSDITYKDKVLHGDVWALGVNFPPNGPVMKNEIVMEEPAEETLTAKNGVLVGFCPKAYLLKDGSYYYGHMTTFYRSKKSGQPLPGFHFIKHRLVKTKVEPGFKMVEQAEYATAHVCDLPKP 2c9j-a2-m1-cC_2c9j-a2-m1-cD Structure of the fluorescent protein cmFP512 at 1.35A from Cerianthus membranaceus Q5ZQQ5 Q5ZQQ5 1.35 X-RAY DIFFRACTION 92 1.0 208460 (Cerianthus membranaceus) 208460 (Cerianthus membranaceus) 217 218 2c9j-a1-m1-cF_2c9j-a1-m1-cE 2c9j-a1-m1-cG_2c9j-a1-m1-cH 2c9j-a2-m1-cA_2c9j-a2-m1-cB LDNNLSVSVYMKGNVNNHEFEYDGIGGGDPNSGQFSLKTKLRGGKPLPFSYDIITMGFFRAFTKYPEGIADYFKGSFPEAFQWNRRIEFEDGGVINMSSDITYKDKVLHGDVWALGVNFPPNGPVMKNEIVMEEPAEETLTAKNGVLVGFCPKAYLLKDGSYYYGHMTTFYRSKKSGQPLPGFHFIKHRLVKTKVEPGFKMVEQAEYATAHVCDLPK LDNNLSVSVYMKGNVNNHEFEYDGIGGGDPNSGQFSLKTKLRGGKPLPFSYDIITMGFFRAFTKYPEGIADYFKGSFPEAFQWNRRIEFEDGGVINMSSDITYKDKVLHGDVWALGVNFPPNGPVMKNEIVMEEPAEETLTAKNGVLVGFCPKAYLLKDGSYYYGHMTTFYRSKKSGQPLPGFHFIKHRLVKTKVEPGFKMVEQAEYATAHVCDLPKP 2c9o-a1-m5-cA_2c9o-a1-m6-cA 3D Structure of the human RuvB-like helicase RuvBL1 Q9Y265 Q9Y265 2.2 X-RAY DIFFRACTION 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 398 398 2c9o-a1-m1-cA_2c9o-a1-m2-cA 2c9o-a1-m1-cA_2c9o-a1-m3-cA 2c9o-a1-m2-cA_2c9o-a1-m4-cA 2c9o-a1-m3-cA_2c9o-a1-m5-cA 2c9o-a1-m4-cA_2c9o-a1-m6-cA TTKTQRIASHSHVKGLGLDESGLAKQAASGLVGQENAREACGVIVELIKSKKMAGRAVLLAGPPGTGKTALALAIAQELGSKVPFCPMVGSEVYSTEIKKTEVLMENFRRAIGLRIKETKEVYEGEVTELTPCHVIIGLKTAKGTKQLKLDPSIFESLQKERVEAGDVIYIEANSGAVKRQGRCDTYATEFDLEAEEYVPLPKGDVHKKKEIIQDVTLHDLDVANGEINKVVNKYIDQGIAELVPGVLFVDEVHMLDIECFTYLHRALESSIAPIVIFASNRGNCVIRGTEDITSPHGIPLDLLDRVMIIRTMLYTPQEMKQIIKIRAQTEGINISEEALNHLGEIGTKTTLRYSVQLLTPANLLAKINGKDSIEKEHVEEISELFYDAKSSAKILAD TTKTQRIASHSHVKGLGLDESGLAKQAASGLVGQENAREACGVIVELIKSKKMAGRAVLLAGPPGTGKTALALAIAQELGSKVPFCPMVGSEVYSTEIKKTEVLMENFRRAIGLRIKETKEVYEGEVTELTPCHVIIGLKTAKGTKQLKLDPSIFESLQKERVEAGDVIYIEANSGAVKRQGRCDTYATEFDLEAEEYVPLPKGDVHKKKEIIQDVTLHDLDVANGEINKVVNKYIDQGIAELVPGVLFVDEVHMLDIECFTYLHRALESSIAPIVIFASNRGNCVIRGTEDITSPHGIPLDLLDRVMIIRTMLYTPQEMKQIIKIRAQTEGINISEEALNHLGEIGTKTTLRYSVQLLTPANLLAKINGKDSIEKEHVEEISELFYDAKSSAKILAD 2c9q-a1-m1-cA_2c9q-a1-m2-cA Cu(I)Cu(II)-CopC at pH 7.5 P12376 P12376 1.6 X-RAY DIFFRACTION 55 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 102 102 HPKLVSSTPAEGSEGAAPAKIELHFSENLVTQFSGAKLVMTAMPGMEHSPMAVKAAVSGGGDPKTMVITPASPLTAGTYKVDWRAVSSDTHPITGSVTFKVK HPKLVSSTPAEGSEGAAPAKIELHFSENLVTQFSGAKLVMTAMPGMEHSPMAVKAAVSGGGDPKTMVITPASPLTAGTYKVDWRAVSSDTHPITGSVTFKVK 2cax-a1-m1-cB_2cax-a1-m1-cA STRUCTURAL BASIS FOR COOPERATIVE BINDING OF RIBBON-HELIX-HELIX REPRESSOR OMEGA TO MUTATED DIRECT DNA HEPTAD REPEATS Q57468 Q57468 2.9 X-RAY DIFFRACTION 118 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 50 53 1irq-a1-m1-cA_1irq-a1-m1-cB 2bnw-a1-m1-cA_2bnw-a1-m1-cB 2bnw-a1-m1-cD_2bnw-a1-m1-cC 2bnz-a1-m1-cA_2bnz-a1-m1-cB 2bnz-a1-m1-cD_2bnz-a1-m1-cC 2cax-a1-m1-cD_2cax-a1-m1-cC KDIMGDKTVRVRADLHHIIKIETAKNGGNVKEVMDQALEEYIRKYLPDKL MAKKDIMGDKTVRVRADLHHIIKIETAKNGGNVKEVMDQALEEYIRKYLPDKL 2cay-a1-m1-cB_2cay-a1-m2-cB Vps36 N-terminal PH domain Q06696 Q06696 1.9 X-RAY DIFFRACTION 14 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 131 131 2cay-a1-m1-cA_2cay-a1-m2-cA HHMEYWHYVETTSSGQPLLREGEKDIFIDQSVGLYHGKSKILQRQRGRIFLTSQRIIYIDDAKPTQNSLGLELDDLAYVNYSSGFLTRSPRLILFFKDPSSSTEFVQLSFRKSDGVLFSQATERALENILT HHMEYWHYVETTSSGQPLLREGEKDIFIDQSVGLYHGKSKILQRQRGRIFLTSQRIIYIDDAKPTQNSLGLELDDLAYVNYSSGFLTRSPRLILFFKDPSSSTEFVQLSFRKSDGVLFSQATERALENILT 2cay-a1-m2-cB_2cay-a1-m1-cA Vps36 N-terminal PH domain Q06696 Q06696 1.9 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 131 132 2cay-a1-m1-cB_2cay-a1-m2-cA HHMEYWHYVETTSSGQPLLREGEKDIFIDQSVGLYHGKSKILQRQRGRIFLTSQRIIYIDDAKPTQNSLGLELDDLAYVNYSSGFLTRSPRLILFFKDPSSSTEFVQLSFRKSDGVLFSQATERALENILT HHMEYWHYVETTSSGQPLLREGEKDIFIDQSVGLYHGKSKILQRQRGRIFLTSQRIIYIDDAKPTQNSLGLELDDLAYVNYSSGFLTRSPRLILFFKDPSSSTEFVQLSFRKSDGVLFSQATERALENILTE 2cay-a1-m2-cB_2cay-a1-m2-cA Vps36 N-terminal PH domain Q06696 Q06696 1.9 X-RAY DIFFRACTION 47 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 131 132 2cay-a1-m1-cB_2cay-a1-m1-cA HHMEYWHYVETTSSGQPLLREGEKDIFIDQSVGLYHGKSKILQRQRGRIFLTSQRIIYIDDAKPTQNSLGLELDDLAYVNYSSGFLTRSPRLILFFKDPSSSTEFVQLSFRKSDGVLFSQATERALENILT HHMEYWHYVETTSSGQPLLREGEKDIFIDQSVGLYHGKSKILQRQRGRIFLTSQRIIYIDDAKPTQNSLGLELDDLAYVNYSSGFLTRSPRLILFFKDPSSSTEFVQLSFRKSDGVLFSQATERALENILTE 2cb0-a1-m1-cA_2cb0-a1-m1-cB Crystal structure of glucosamine 6-phosphate deaminase from Pyrococcus furiosus Q8U3U3 Q8U3U3 1.8 X-RAY DIFFRACTION 145 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 313 326 KTLTEIKQTPKGIIKADESFNQVKDKIRLPRRILYLGCGSSHFLAKLLAVTNHGGTGVALPCSEFLYSKEAYPIGKPELVVGISRSGETTEVLLALEKINTPKLGISAYESSLTRACDYSLVVPTIEESVVTHSFTAFYFAYLQLLRHSYGLPLLEATEVAKATEKALEYENYIKEIVEDFDFQNVIFLGSGLLYPVALEASLKKEAIFWSEAYPTFEVRHGFKAIADENTLVVLAQELFEWHKKLVNEFKGQRARVLLISNSQQEFGQDYSIEVPRLSKDATPIPYLPVVQLLSYYKAVARGLNPDNPRFLD KTLTEIKQTPKGIIKADESFNQVKDKIRLPRRILYLGCGSSHFLAKLLAVTNHGGTGVALPCSEFLYSKEAYPIGKPELVVGISRSGETTEVLLALEKINTPKLGISAYESSLTRACDYSLVVPTIEESVVTHSFTAFYFAYLQLLRHSYGLPLLEATEVAKATEKALEYENYIKEIVEDFDFQNVIFLGSGLLYPVALEASLKKEAIFWSEAYPTFEVRHGFKAIADENTLVVLAQELFEWHKKLVNEFKGQRARVLLISNSQQEFGQDYSIEVPRLSKDATPIPYLPVVQLLSYYKAVARGLNPDNPRFLDKVVRWLEHHHHHH 2cb1-a1-m1-cA_2cb1-a1-m4-cA Crystal Structure of O-actetyl Homoserine Sulfhydrylase From Thermus Thermophilus HB8,OAH2. Q5SJ58 Q5SJ58 2 X-RAY DIFFRACTION 240 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 404 404 2cb1-a1-m2-cA_2cb1-a1-m3-cA MEYTTLAVLAGLPEDPHGAVGLPIYAVAAYGFKTLEEGQERFATGEGYVYARQKDPTAKALEERLKALEGALEAVVLASGQAATFAALLALLRPGDEVVAAKGLFGQTIGLFGQVLSLMGVTVRYVDPEPEAVREALSAKTRAVFVETVANPALLVPDLEALATLAEEAGVALVVDNTFGAAGALCRPLAWGAHVVVESLTKWASGHGSVLGGAVLSRETELWRNYPQFLQPWEALRARCFPERVRTLGLSLCGMALSPFNAYLLFQGLETVALRVARMSETARFLAERLQGHPKVKALRYPGLPEDPAHRNARKYLASGGPILTLDLGDLERASRFLGAIRLLKAANLGDARTLLVHPWTTTHSRLKEEARLQAGVTPGLVRVSVGLEDPLDLLALFEEALEA MEYTTLAVLAGLPEDPHGAVGLPIYAVAAYGFKTLEEGQERFATGEGYVYARQKDPTAKALEERLKALEGALEAVVLASGQAATFAALLALLRPGDEVVAAKGLFGQTIGLFGQVLSLMGVTVRYVDPEPEAVREALSAKTRAVFVETVANPALLVPDLEALATLAEEAGVALVVDNTFGAAGALCRPLAWGAHVVVESLTKWASGHGSVLGGAVLSRETELWRNYPQFLQPWEALRARCFPERVRTLGLSLCGMALSPFNAYLLFQGLETVALRVARMSETARFLAERLQGHPKVKALRYPGLPEDPAHRNARKYLASGGPILTLDLGDLERASRFLGAIRLLKAANLGDARTLLVHPWTTTHSRLKEEARLQAGVTPGLVRVSVGLEDPLDLLALFEEALEA 2cb1-a1-m2-cA_2cb1-a1-m4-cA Crystal Structure of O-actetyl Homoserine Sulfhydrylase From Thermus Thermophilus HB8,OAH2. Q5SJ58 Q5SJ58 2 X-RAY DIFFRACTION 90 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 404 404 2cb1-a1-m1-cA_2cb1-a1-m3-cA MEYTTLAVLAGLPEDPHGAVGLPIYAVAAYGFKTLEEGQERFATGEGYVYARQKDPTAKALEERLKALEGALEAVVLASGQAATFAALLALLRPGDEVVAAKGLFGQTIGLFGQVLSLMGVTVRYVDPEPEAVREALSAKTRAVFVETVANPALLVPDLEALATLAEEAGVALVVDNTFGAAGALCRPLAWGAHVVVESLTKWASGHGSVLGGAVLSRETELWRNYPQFLQPWEALRARCFPERVRTLGLSLCGMALSPFNAYLLFQGLETVALRVARMSETARFLAERLQGHPKVKALRYPGLPEDPAHRNARKYLASGGPILTLDLGDLERASRFLGAIRLLKAANLGDARTLLVHPWTTTHSRLKEEARLQAGVTPGLVRVSVGLEDPLDLLALFEEALEA MEYTTLAVLAGLPEDPHGAVGLPIYAVAAYGFKTLEEGQERFATGEGYVYARQKDPTAKALEERLKALEGALEAVVLASGQAATFAALLALLRPGDEVVAAKGLFGQTIGLFGQVLSLMGVTVRYVDPEPEAVREALSAKTRAVFVETVANPALLVPDLEALATLAEEAGVALVVDNTFGAAGALCRPLAWGAHVVVESLTKWASGHGSVLGGAVLSRETELWRNYPQFLQPWEALRARCFPERVRTLGLSLCGMALSPFNAYLLFQGLETVALRVARMSETARFLAERLQGHPKVKALRYPGLPEDPAHRNARKYLASGGPILTLDLGDLERASRFLGAIRLLKAANLGDARTLLVHPWTTTHSRLKEEARLQAGVTPGLVRVSVGLEDPLDLLALFEEALEA 2cb1-a1-m3-cA_2cb1-a1-m4-cA Crystal Structure of O-actetyl Homoserine Sulfhydrylase From Thermus Thermophilus HB8,OAH2. Q5SJ58 Q5SJ58 2 X-RAY DIFFRACTION 63 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 404 404 2cb1-a1-m1-cA_2cb1-a1-m2-cA MEYTTLAVLAGLPEDPHGAVGLPIYAVAAYGFKTLEEGQERFATGEGYVYARQKDPTAKALEERLKALEGALEAVVLASGQAATFAALLALLRPGDEVVAAKGLFGQTIGLFGQVLSLMGVTVRYVDPEPEAVREALSAKTRAVFVETVANPALLVPDLEALATLAEEAGVALVVDNTFGAAGALCRPLAWGAHVVVESLTKWASGHGSVLGGAVLSRETELWRNYPQFLQPWEALRARCFPERVRTLGLSLCGMALSPFNAYLLFQGLETVALRVARMSETARFLAERLQGHPKVKALRYPGLPEDPAHRNARKYLASGGPILTLDLGDLERASRFLGAIRLLKAANLGDARTLLVHPWTTTHSRLKEEARLQAGVTPGLVRVSVGLEDPLDLLALFEEALEA MEYTTLAVLAGLPEDPHGAVGLPIYAVAAYGFKTLEEGQERFATGEGYVYARQKDPTAKALEERLKALEGALEAVVLASGQAATFAALLALLRPGDEVVAAKGLFGQTIGLFGQVLSLMGVTVRYVDPEPEAVREALSAKTRAVFVETVANPALLVPDLEALATLAEEAGVALVVDNTFGAAGALCRPLAWGAHVVVESLTKWASGHGSVLGGAVLSRETELWRNYPQFLQPWEALRARCFPERVRTLGLSLCGMALSPFNAYLLFQGLETVALRVARMSETARFLAERLQGHPKVKALRYPGLPEDPAHRNARKYLASGGPILTLDLGDLERASRFLGAIRLLKAANLGDARTLLVHPWTTTHSRLKEEARLQAGVTPGLVRVSVGLEDPLDLLALFEEALEA 2cb4-a2-m1-cM_2cb4-a2-m1-cN Crystal structure of the catalytic domain of the mosquitocidal toxin from Bacillus sphaericus, mutant E197Q Q03988 Q03988 2.5 X-RAY DIFFRACTION 35 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 253 253 2cb4-a1-m1-cA_2cb4-a1-m1-cB 2cb4-a1-m1-cA_2cb4-a1-m1-cG 2cb4-a1-m1-cB_2cb4-a1-m1-cC 2cb4-a1-m1-cC_2cb4-a1-m1-cD 2cb4-a1-m1-cD_2cb4-a1-m1-cE 2cb4-a1-m1-cE_2cb4-a1-m1-cF 2cb4-a1-m1-cF_2cb4-a1-m1-cG 2cb4-a2-m1-cH_2cb4-a2-m1-cI 2cb4-a2-m1-cH_2cb4-a2-m1-cN 2cb4-a2-m1-cI_2cb4-a2-m1-cJ 2cb4-a2-m1-cJ_2cb4-a2-m1-cK 2cb4-a2-m1-cK_2cb4-a2-m1-cL 2cb4-a2-m1-cL_2cb4-a2-m1-cM NSPKDNTWIQAASLTWLDSSLLYQLISTRIPSFASPNGLHREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNEDQITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNDSYNQDFDFAPNGEIPNNNLLNNNSLNVIQ NSPKDNTWIQAASLTWLDSSLLYQLISTRIPSFASPNGLHREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNEDQITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNDSYNQDFDFAPNGEIPNNNLLNNNSLNVIQ 2cb6-a3-m1-cI_2cb6-a3-m1-cK Crystal structure of the catalytic domain of the mosquitocidal toxin from Bacillus sphaericus, mutant E195Q Q03988 Q03988 3 X-RAY DIFFRACTION 36 0.983 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 238 244 2cb6-a1-m1-cA_2cb6-a1-m1-cD 2cb6-a1-m1-cB_2cb6-a1-m1-cC 2cb6-a2-m1-cE_2cb6-a2-m1-cH 2cb6-a4-m1-cN_2cb6-a4-m1-cP DNTWIQAASLTWLLLYQLISTRIPSFASPNGLHMREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNQDEITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNMDSQDFDMFAPNGEIPNNNLL DNTWIQAASLLYQLISTRIPSFASPNGLHMREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNQDEITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNMDSKGFILDLDYNQDFDMFAPNGEIPNNNLL 2cb6-a3-m1-cJ_2cb6-a3-m1-cK Crystal structure of the catalytic domain of the mosquitocidal toxin from Bacillus sphaericus, mutant E195Q Q03988 Q03988 3 X-RAY DIFFRACTION 33 0.983 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 238 244 2cb6-a1-m1-cA_2cb6-a1-m1-cC 2cb6-a1-m1-cB_2cb6-a1-m1-cD 2cb6-a2-m1-cF_2cb6-a2-m1-cH 2cb6-a4-m1-cM_2cb6-a4-m1-cP DNTWIQAASLTWLLLYQLISTRIPSFASPNGLHMREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNQDEITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNMDSQDFDMFAPNGEIPNNNLL DNTWIQAASLLYQLISTRIPSFASPNGLHMREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNQDEITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNMDSKGFILDLDYNQDFDMFAPNGEIPNNNLL 2cb6-a4-m1-cM_2cb6-a4-m1-cN Crystal structure of the catalytic domain of the mosquitocidal toxin from Bacillus sphaericus, mutant E195Q Q03988 Q03988 3 X-RAY DIFFRACTION 22 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 238 238 2cb6-a1-m1-cA_2cb6-a1-m1-cB 2cb6-a2-m1-cE_2cb6-a2-m1-cF 2cb6-a3-m1-cI_2cb6-a3-m1-cJ DNTWIQAASLTWLLLYQLISTRIPSFASPNGLHMREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNQDEITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNMDSQDFDMFAPNGEIPNNNLL DNTWIQAASLTWLLLYQLISTRIPSFASPNGLHMREQTIDSNTGQIQIDNEHRLLRWDRRPPNDIFLNGFIPRVTNQNLSPVEDTHLLNYLRTNSPSIFVSTTRARYNNLGLEITPWTPHSANNNIIYRYEIFAPGGIDINASFSRNHNPFPNQDEITFPGGIRPEFIRSTYEYHNGEIVRIWINPNFINPSTLNDVSGPSNISKVFWHENHSEGNNMDSQDFDMFAPNGEIPNNNLL 2cbl-a1-m2-cA_2cbl-a1-m3-cA N-TERMINAL DOMAIN OF CBL IN COMPLEX WITH ITS BINDING SITE ON ZAP-70 P22681 P22681 2.1 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 305 305 2cbl-a1-m1-cA_2cbl-a1-m2-cA 2cbl-a1-m1-cA_2cbl-a1-m3-cA 4gpl-a2-m1-cB_4gpl-a2-m2-cB 4gpl-a2-m1-cB_4gpl-a2-m3-cB 4gpl-a2-m2-cB_4gpl-a2-m3-cB PPGTVDKKMVEKCWKLMDKVVRLCQNPKLALKNSPPYILDLLPDTYQHLRTILSRYEGKMETLGENEYFRVFMENLMKKTKQTISLFKEGKERMYEENSQPRRNLTKLSLIFSHMLAELKGIFPSGLFQGDTFRITKADAAEFWRKAFGEKTIVPWKSFRQALHEVHPISSGLEAMALKSTIDLTCNDYISVFEFDIFTRLFQPWSSLLRNWNSLAVTHPGYMAFLTYDEVKARLQKFIHKPGSYIFRLSCTRLGQWAIGYVTADGNILQTIPHNKPLFQALIDGFREGFYLFPDGRNQNPDLTG PPGTVDKKMVEKCWKLMDKVVRLCQNPKLALKNSPPYILDLLPDTYQHLRTILSRYEGKMETLGENEYFRVFMENLMKKTKQTISLFKEGKERMYEENSQPRRNLTKLSLIFSHMLAELKGIFPSGLFQGDTFRITKADAAEFWRKAFGEKTIVPWKSFRQALHEVHPISSGLEAMALKSTIDLTCNDYISVFEFDIFTRLFQPWSSLLRNWNSLAVTHPGYMAFLTYDEVKARLQKFIHKPGSYIFRLSCTRLGQWAIGYVTADGNILQTIPHNKPLFQALIDGFREGFYLFPDGRNQNPDLTG 2cbn-a1-m1-cA_2cbn-a1-m2-cA Crystal structure of ZipD from Escherichia coli P0A8V0 P0A8V0 2.9 X-RAY DIFFRACTION 105 1.0 562 (Escherichia coli) 562 (Escherichia coli) 306 306 AMNLIFLGTSAGVPTRTRNVTAILLNLQHPTQSGLWLFDCGEGTQHQLLHTAFNPGKLDKIFISHLHGDHLFGLPGLLCSRSMSGIIQPLTIYGPQGIREFVETALRISGSWTDYPLEIVEIGAGEILDDGLRKVTAYPLEHPLECYGYRIEEHDAPGALNAQALKAAGVPPGPLFQELKAGKTITLEDGRQINGADYLAAPVPGKALAIFGDTGPCDAALDLAKGVDVMVHEATLDITMEAKANSRGHSSTRQAATLAREAGVGKLIITHVSSRYDDKGCQHLLRECRSIFPATELANDFTVFNV AMNLIFLGTSAGVPTRTRNVTAILLNLQHPTQSGLWLFDCGEGTQHQLLHTAFNPGKLDKIFISHLHGDHLFGLPGLLCSRSMSGIIQPLTIYGPQGIREFVETALRISGSWTDYPLEIVEIGAGEILDDGLRKVTAYPLEHPLECYGYRIEEHDAPGALNAQALKAAGVPPGPLFQELKAGKTITLEDGRQINGADYLAAPVPGKALAIFGDTGPCDAALDLAKGVDVMVHEATLDITMEAKANSRGHSSTRQAATLAREAGVGKLIITHVSSRYDDKGCQHLLRECRSIFPATELANDFTVFNV 2cbq-a3-m1-cD_2cbq-a3-m1-cE Crystal structure of the neocarzinostatin 1Tes15 mutant bound to testosterone hemisuccinate. P0A3R9 P0A3R9 2.6 X-RAY DIFFRACTION 51 1.0 1897 (Streptomyces carzinostaticus) 1897 (Streptomyces carzinostaticus) 112 112 2cbq-a1-m1-cA_2cbq-a1-m1-cC 2cbq-a2-m1-cF_2cbq-a2-m1-cB APTATVTPSSGLSDGTVVKVAGAGLQAGTAYWVYQRAAVDTGVHASNPADLSSVTADANGSASTSLTVRRSFEGFLFDGTRWGTVDCTTAACQVGLSDAAGNGPEGVAISFN APTATVTPSSGLSDGTVVKVAGAGLQAGTAYWVYQRAAVDTGVHASNPADLSSVTADANGSASTSLTVRRSFEGFLFDGTRWGTVDCTTAACQVGLSDAAGNGPEGVAISFN 2cbt-a1-m1-cA_2cbt-a1-m1-cB Crystal structure of the neocarzinostatin 4Tes1 mutant bound testosterone hemisuccinate. P0A3R9 P0A3R9 2.2 X-RAY DIFFRACTION 44 1.0 1897 (Streptomyces carzinostaticus) 1897 (Streptomyces carzinostaticus) 111 111 APTATVTPSSGLSDGTVVKVAGAGLQAGTAYWVAQSAWVDTGVYASNPADISSVTADANGSASTSLTVRRSFEGFLWDGTRWGTVDCTTAACHVTLRDALSNGPEGVAISF APTATVTPSSGLSDGTVVKVAGAGLQAGTAYWVAQSAWVDTGVYASNPADISSVTADANGSASTSLTVRRSFEGFLWDGTRWGTVDCTTAACHVTLRDALSNGPEGVAISF 2cc0-a1-m1-cA_2cc0-a1-m1-cB Family 4 carbohydrate esterase from Streptomyces lividans in complex with acetate Q54413 Q54413 1.6 X-RAY DIFFRACTION 48 0.995 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 192 192 AACNGYVGLTFDDGPSGSTQSLLNALRQNGLRATMFNQGQYAAQNPSLVRAQVDAGMWVANHSYTHPHMTQLGQAQMDSEISRTQQAIAGAGGGTPKLFRPPYGETNATLRSVEAKYGLTEVIWDVDSQDWNNASTDAIVQAVSRLGNGQVILMHDWPANTLAAIPRIAQTLAGKGLCSGMISPQTGRAVAP ACNGYVGLTFDDGPSGSTQSLLNALRQNGLRATMFNQGQYAAQNPSLVRAQVDAGMWVANHSYTHPHMTQLGQAQMDSEISRTQQAIAGAGGGTPKLFRPPYGETNATLRSVEAKYGLTEVIWDVDSQDWNNASTDAIVQAVSRLGNGQVILMHDWPANTLAAIPRIAQTLAGKGLCSGMISPQTGRAVAPD 2cc3-a1-m1-cA_2cc3-a1-m1-cB Structure of Agrobacterium tumefaciens VirB8 protein P17798 P17798 2.2 X-RAY DIFFRACTION 61 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 144 144 GPHMTQEEAVVNASLWEYVRLRESYDADTAQYAYDLVSNFSAPMVRQNYQQFFNYPNPTSPQVILGKHGRLEVEHIASNDVTPGVQQIRYKRTLIVDGKMPMASTWTATVRYEKVTSLPGRLRLTNPGGLVVTSYQTSEDTVSN GPHMTQEEAVVNASLWEYVRLRESYDADTAQYAYDLVSNFSAPMVRQNYQQFFNYPNPTSPQVILGKHGRLEVEHIASNDVTPGVQQIRYKRTLIVDGKMPMASTWTATVRYEKVTSLPGRLRLTNPGGLVVTSYQTSEDTVSN 2cca-a1-m1-cA_2cca-a1-m1-cB Crystal structure of the catalase-peroxidase (KatG) and S315T mutant from Mycobacterium tuberculosis P9WIE5 P9WIE5 2 X-RAY DIFFRACTION 296 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 715 715 1sj2-a1-m1-cA_1sj2-a1-m1-cB 2ccd-a1-m1-cA_2ccd-a1-m1-cB 4c50-a1-m1-cA_4c50-a1-m1-cB 4c51-a1-m1-cA_4c51-a1-m1-cB 6zji-a1-m1-cAP1_6zji-a1-m1-cBP1 7a7a-a1-m1-cA_7a7a-a1-m1-cB 7ag8-a1-m1-cA_7ag8-a1-m1-cB MKYPVEGGGNQDWWPNRLNLKVLHQNPAVADPMGAAFDYAAEVATIDVDALTRDIEEVMTTSQPWWPADYGHYGPLFIRMAWHAAGTYRIHDGRGGAGGGMQRFAPLNSWPDNASLDKARRLLWPVKKKYGKKLSWADLIVFAGNCALESMGFKTFGFGFGRVDQWEPDEVYWGKEATWLGDERYSGKRDLENPLAAVQMGLIYVNPEGPNGNPDPMAAAVDIRETFRRMAMNDVETAALIVGGHTFGKTHGAGPADLVGPEPEAAPLEQMGLGWKSSYGTGTGKDAITSGIEVVWTNTPTKWDNSFLEILYGYEWELTKSPAGAWQYTAKDGAGAGTIPDPFGGPGRSPTMLATDLSLRVDPIYERITRRWLEHPEELADEFAKAWYKLIHRDMGPVARYLGPLVPKQTLLWQDPVPAVSHDLVGEAEIASLKSQIRASGLTVSQLVSTAWAAASSFRGSDKRGGANGGRIRLQPQVGWEVNDPDGDLRKVIRTLEEIQESFNSAAPGNIKVSFADLVVLGGCAAIEKAAKAAGHNITVPFTPGRTDASQEQTDVESFAVLEPKADGFRNYLGKGNPLPAEYMLLDKANLLTLSAPEMTVLVGGLRVLGANYKRLPLGVFTEASESLTNDFFVNLLDMGITWEPSPADDGTYQGKDGSGKVKWTGSRVDLVFGSNSELRALVEVYGADDAQPKFVQDFVAAWDKVMNLDRFDVR MKYPVEGGGNQDWWPNRLNLKVLHQNPAVADPMGAAFDYAAEVATIDVDALTRDIEEVMTTSQPWWPADYGHYGPLFIRMAWHAAGTYRIHDGRGGAGGGMQRFAPLNSWPDNASLDKARRLLWPVKKKYGKKLSWADLIVFAGNCALESMGFKTFGFGFGRVDQWEPDEVYWGKEATWLGDERYSGKRDLENPLAAVQMGLIYVNPEGPNGNPDPMAAAVDIRETFRRMAMNDVETAALIVGGHTFGKTHGAGPADLVGPEPEAAPLEQMGLGWKSSYGTGTGKDAITSGIEVVWTNTPTKWDNSFLEILYGYEWELTKSPAGAWQYTAKDGAGAGTIPDPFGGPGRSPTMLATDLSLRVDPIYERITRRWLEHPEELADEFAKAWYKLIHRDMGPVARYLGPLVPKQTLLWQDPVPAVSHDLVGEAEIASLKSQIRASGLTVSQLVSTAWAAASSFRGSDKRGGANGGRIRLQPQVGWEVNDPDGDLRKVIRTLEEIQESFNSAAPGNIKVSFADLVVLGGCAAIEKAAKAAGHNITVPFTPGRTDASQEQTDVESFAVLEPKADGFRNYLGKGNPLPAEYMLLDKANLLTLSAPEMTVLVGGLRVLGANYKRLPLGVFTEASESLTNDFFVNLLDMGITWEPSPADDGTYQGKDGSGKVKWTGSRVDLVFGSNSELRALVEVYGADDAQPKFVQDFVAAWDKVMNLDRFDVR 2ccy-a1-m1-cA_2ccy-a1-m1-cB STRUCTURE OF FERRICYTOCHROME C(PRIME) FROM RHODOSPIRILLUM MOLISCHIANUM AT 1.67 ANGSTROMS RESOLUTION P00152 P00152 1.67 X-RAY DIFFRACTION 62 1.0 1083 (Magnetospirillum molischianum) 1083 (Magnetospirillum molischianum) 127 127 QSKPEDLLKLRQGLMQTLKSQWVPIAGFAAGKADLPADAAQRAENMAMVAKLAPIGWAKGTEALPNGETKPEAFGSKSAEFLEGWKALATESTKLAAAAKAGPDALKAQAAATGKVCKACHEEFKQD QSKPEDLLKLRQGLMQTLKSQWVPIAGFAAGKADLPADAAQRAENMAMVAKLAPIGWAKGTEALPNGETKPEAFGSKSAEFLEGWKALATESTKLAAAAKAGPDALKAQAAATGKVCKACHEEFKQD 2cd0-a1-m1-cB_2cd0-a1-m1-cA STRUCTURE OF HUMAN LAMBDA-6 LIGHT CHAIN DIMER WIL P01721 P01721 1.8 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 NFLLTQPHSVSESPGKTVTISCTRSSGSIANNYVHWYQQRPGSSPTTVIFEDDHRPSGVPDRFSGSVDTSSNSASLTISGLKTEDEADYYCQSYDHNNQVFGGGTKLTVLG NFLLTQPHSVSESPGKTVTISCTRSSGSIANNYVHWYQQRPGSSPTTVIFEDDHRPSGVPDRFSGSVDTSSNSASLTISGLKTEDEADYYCQSYDHNNQVFGGGTKLTVLG 2cd9-a1-m2-cB_2cd9-a1-m1-cA Sulfolobus solfataricus Glucose Dehydrogenase 1 - apo form O93715 O93715 1.8 X-RAY DIFFRACTION 11 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 361 363 2cd9-a1-m1-cB_2cd9-a1-m2-cA MKAIIVKPPNAGVQVKDVDEKKLDSYGKIKIRTIYNGICGTDREIVNGKLTLGKDFLVLGHEAIGVVEESYHGFSQGDLVMPVNRRGCGICRNCLVGRPDFCETGEFGEAGIHKMDGFMREWWYDDPKYLVKIPKSIEDIGILAQPLADIEKSIEEILEVQKRVPVWTCDDGTLNCRKVLVVGTGPIGVLFTLLFRTYGLEVWMANRREPTEVEQTVIEETKTNYYNSSNGYDKLKDSVGKFDVIIDATGADVNILGNVIPLLGRNGVLGLFGFSTSGSVPLDYKTLQEIVHTNKTIIGLVNGQKPHFQQAVVHLASWKTLYPKAAKMLITKTVSINDEKELLKVLREKEHGEIKIRILWE MKAIIVKPPNAGVQVKDVDEKKLDSYGKIKIRTIYNGICGTDREIVNGKLTLSKGKDFLVLGHEAIGVVEESYHGFSQGDLVMPVNRRGCGICRNCLVGRPDFCETGEFGEAGIHKMDGFMREWWYDDPKYLVKIPKSIEDIGILAQPLADIEKSIEEILEVQKRVPVWTCDDGTLNCRKVLVVGTGPIGVLFTLLFRTYGLEVWMANRREPTEVEQTVIEETKTNYYNSSNGYDKLKDSVGKFDVIIDATGADVNILGNVIPLLGRNGVLGLFGFSTSGSVPLDYKTLQEIVHTNKTIIGLVNGQKPHFQQAVVHLASWKTLYPKAAKMLITKTVSINDEKELLKVLREKEHGEIKIRILWE 2cdc-a1-m1-cB_2cdc-a1-m1-cD Sulfolobus solfataricus Glucose Dehydrogenase 1 in complex with NADP and Xylose O93715 O93715 1.5 X-RAY DIFFRACTION 165 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 359 359 2cd9-a1-m1-cA_2cd9-a1-m2-cA 2cd9-a1-m1-cB_2cd9-a1-m2-cB 2cda-a1-m1-cA_2cda-a1-m2-cA 2cda-a1-m1-cB_2cda-a1-m2-cB 2cdb-a1-m1-cB_2cdb-a1-m1-cD 2cdb-a1-m1-cC_2cdb-a1-m1-cA 2cdc-a1-m1-cA_2cdc-a1-m1-cC MKAIIVKPPNAGVQVKDVDEKKLDSYGKIKIRTIYNGICGADREIVNGKLGKDFLVLGHEAIGVVEESYHGFSQGDLVMPVNRRGCGICRNCLVGRPDFCETGEFGEAGIHKMDGFMREWWYDDPKYLVKIPKSIEDIGILAQPLADIEKSIEEILEVQKRVPVWTCDDGTLNCRKVLVVGTGPIGVLFTLLFRTYGLEVWMANRREPTEVEQTVIEETKTNYYNSSNGYDKLKDSVGKFDVIIDATGADVNILGNVIPLLGRNGVLGLFGFSTSGSVPLDYKTLQEIVHTNKTIIGLVNGQKPHFQQAVVHLASWKTLYPKAAKMLITKTVSINDEKELLKVLREKEHGEIKIRILWE MKAIIVKPPNAGVQVKDVDEKKLDSYGKIKIRTIYNGICGADREIVNGKLGKDFLVLGHEAIGVVEESYHGFSQGDLVMPVNRRGCGICRNCLVGRPDFCETGEFGEAGIHKMDGFMREWWYDDPKYLVKIPKSIEDIGILAQPLADIEKSIEEILEVQKRVPVWTCDDGTLNCRKVLVVGTGPIGVLFTLLFRTYGLEVWMANRREPTEVEQTVIEETKTNYYNSSNGYDKLKDSVGKFDVIIDATGADVNILGNVIPLLGRNGVLGLFGFSTSGSVPLDYKTLQEIVHTNKTIIGLVNGQKPHFQQAVVHLASWKTLYPKAAKMLITKTVSINDEKELLKVLREKEHGEIKIRILWE 2cdc-a1-m1-cC_2cdc-a1-m1-cD Sulfolobus solfataricus Glucose Dehydrogenase 1 in complex with NADP and Xylose O93715 O93715 1.5 X-RAY DIFFRACTION 78 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 359 359 2cd9-a1-m1-cB_2cd9-a1-m1-cA 2cd9-a1-m2-cB_2cd9-a1-m2-cA 2cda-a1-m1-cB_2cda-a1-m1-cA 2cda-a1-m2-cB_2cda-a1-m2-cA 2cdb-a1-m1-cB_2cdb-a1-m1-cA 2cdb-a1-m1-cC_2cdb-a1-m1-cD 2cdc-a1-m1-cA_2cdc-a1-m1-cB MKAIIVKPPNAGVQVKDVDEKKLDSYGKIKIRTIYNGICGADREIVNGKLGKDFLVLGHEAIGVVEESYHGFSQGDLVMPVNRRGCGICRNCLVGRPDFCETGEFGEAGIHKMDGFMREWWYDDPKYLVKIPKSIEDIGILAQPLADIEKSIEEILEVQKRVPVWTCDDGTLNCRKVLVVGTGPIGVLFTLLFRTYGLEVWMANRREPTEVEQTVIEETKTNYYNSSNGYDKLKDSVGKFDVIIDATGADVNILGNVIPLLGRNGVLGLFGFSTSGSVPLDYKTLQEIVHTNKTIIGLVNGQKPHFQQAVVHLASWKTLYPKAAKMLITKTVSINDEKELLKVLREKEHGEIKIRILWE MKAIIVKPPNAGVQVKDVDEKKLDSYGKIKIRTIYNGICGADREIVNGKLGKDFLVLGHEAIGVVEESYHGFSQGDLVMPVNRRGCGICRNCLVGRPDFCETGEFGEAGIHKMDGFMREWWYDDPKYLVKIPKSIEDIGILAQPLADIEKSIEEILEVQKRVPVWTCDDGTLNCRKVLVVGTGPIGVLFTLLFRTYGLEVWMANRREPTEVEQTVIEETKTNYYNSSNGYDKLKDSVGKFDVIIDATGADVNILGNVIPLLGRNGVLGLFGFSTSGSVPLDYKTLQEIVHTNKTIIGLVNGQKPHFQQAVVHLASWKTLYPKAAKMLITKTVSINDEKELLKVLREKEHGEIKIRILWE 2cdh-a1-m1-cI_2cdh-a1-m1-cJ ARCHITECTURE OF THE THERMOMYCES LANUGINOSUS FUNGAL FATTY ACID SYNTHASE AT 5 ANGSTROM RESOLUTION. Q93X62 Q93X62 4.2 X-RAY DIFFRACTION 34 1.0 5541 (Thermomyces lanuginosus) 5541 (Thermomyces lanuginosus) 244 244 1edo-a1-m1-cA_1edo-a1-m4-cA 1edo-a1-m2-cA_1edo-a1-m3-cA 2cdh-a1-m1-cG_2cdh-a1-m1-cH 2cdh-a1-m1-cK_2cdh-a1-m1-cL SPVVVVTGASRGIGKAIALSLGKAGCKVLVNYARSAKAAEEVSKQIEAYGGQAITFGGDVSKEADVEAMMKTAIDAWGTIDVVVNNAGITRDTLLIRMKKSQWDEVIDLNLTGVFLCTQAATKIMMKKRKGRIINIASVVGLIGNIGQANYAAAKAGVIGFSKTAAREGASRNINVNVVCPGFIASDMTAKLGEDMEKKILGTIPLGRTGQPENVAGLVEFLALSPAASYITGQAFTIDGGIAI SPVVVVTGASRGIGKAIALSLGKAGCKVLVNYARSAKAAEEVSKQIEAYGGQAITFGGDVSKEADVEAMMKTAIDAWGTIDVVVNNAGITRDTLLIRMKKSQWDEVIDLNLTGVFLCTQAATKIMMKKRKGRIINIASVVGLIGNIGQANYAAAKAGVIGFSKTAAREGASRNINVNVVCPGFIASDMTAKLGEDMEKKILGTIPLGRTGQPENVAGLVEFLALSPAASYITGQAFTIDGGIAI 2cdq-a1-m1-cA_2cdq-a1-m1-cB Crystal structure of Arabidopsis thaliana aspartate kinase complexed with lysine and S- adenosylmethionine Q9LYU8 Q9LYU8 2.85 X-RAY DIFFRACTION 240 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 470 470 KGITCVMKFGGSSVASAERMKEVADLILTFPEESPVIVLSAMGKTTNNLLLAGEKAVSCGVSNASEIEELSIIKELHIRTVKELNIDPSVILTYLEELEQLLKGIAMMKELTLRTRDYLVSFGECLSTRIFAAYLNTIGVKARQYDAFEIGFITTDDFTNGDILEATYPAVAKRLYDDWMHDPAVPIVTGFLGKGWKTGAVTTLGRGGSDLTATTIGKALGLKEIQVWKDVDGVLTCDPTIYKRATPVPYLTFDEAAELAYFGAQVLHPQSMRPAREGEIPVRVKNSYNPKAPGTIITKTRDMTKSILTSIVLKRNVTMLDIASTRMLGQVGFLAKVFSIFEELGISVDVVATSEVSISLTLDPSKLWSRELIQQELDHVVEELEKIAVVNLLKGRAIISLIGNVQHSSLILERAFHVLYTKGVNVQMISQGASKVNISFIVNEAEAEGCVQALHKSFFESGDLSELLIQ KGITCVMKFGGSSVASAERMKEVADLILTFPEESPVIVLSAMGKTTNNLLLAGEKAVSCGVSNASEIEELSIIKELHIRTVKELNIDPSVILTYLEELEQLLKGIAMMKELTLRTRDYLVSFGECLSTRIFAAYLNTIGVKARQYDAFEIGFITTDDFTNGDILEATYPAVAKRLYDDWMHDPAVPIVTGFLGKGWKTGAVTTLGRGGSDLTATTIGKALGLKEIQVWKDVDGVLTCDPTIYKRATPVPYLTFDEAAELAYFGAQVLHPQSMRPAREGEIPVRVKNSYNPKAPGTIITKTRDMTKSILTSIVLKRNVTMLDIASTRMLGQVGFLAKVFSIFEELGISVDVVATSEVSISLTLDPSKLWSRELIQQELDHVVEELEKIAVVNLLKGRAIISLIGNVQHSSLILERAFHVLYTKGVNVQMISQGASKVNISFIVNEAEAEGCVQALHKSFFESGDLSELLIQ 2cdu-a1-m1-cB_2cdu-a1-m1-cA The Crystal Structure of Water-forming NAD(P)H Oxidase from Lactobacillus sanfranciscensis Q9F1X5 Q9F1X5 1.8 X-RAY DIFFRACTION 198 1.0 1625 (Fructilactobacillus sanfranciscensis) 1625 (Fructilactobacillus sanfranciscensis) 448 450 MKVIVVGCTHAGTFAVKQTIADHPDADVTAYEMNDNISFLSGIALYLGKEIKNNDPRGLFYSSPEELSNLGANVQMRHQVTNVDPETKTIKVKDLITNEEKTEAYDKLIMTTGSKPTVPPIPGIDSSRVYLCKNYNDAKKLFEEAPKAKTITIIGSGYIGAELAEAYSNQNYNVNLIDGHERVLYKYFDKEFTDILAKDYEAHGVNLVLGSKVAAFEEVDDEIITKTLDGKEIKSDIAILCIGFRPNTELLKGKVAMLDNGAIITDEYMHSSNRDIFAAGDSAAVHYNPTNSNAYIPLATNAVRQGRLVGLNLTEDKVKDMGTQSSSGLKLYGRTYVSTGINTALAKANNLKVSEVIIADNYRPEFMLSTDEVLMSLVYDPKTRVILGGALSSMHDVSQSANVLSVCIQNKNTIDDLAMVDMLFQPQFDRPFNYLNILGQAAQAQADK MKVIVVGCTHAGTFAVKQTIADHPDADVTAYEMNDNISFLSGIALYLGKEIKNNDPRGLFYSSPEELSNLGANVQMRHQVTNVDPETKTIKVKDLITNEEKTEAYDKLIMTTGSKPTVPPIPGIDSSRVYLCKNYNDAKKLFEEAPKAKTITIIGSGYIGAELAEAYSNQNYNVNLIDGHERVLYKYFDKEFTDILAKDYEAHGVNLVLGSKVAAFEEVDDEIITKTLDGKEIKSDIAILCIGFRPNTELLKGKVAMLDNGAIITDEYMHSSNRDIFAAGDSAAVHYNPTNSNAYIPLATNAVRQGRLVGLNLTEDKVKDMGTQSSSGLKLYGRTYVSTGINTALAKANNLKVSEVIIADNYRPEFMLSTDEVLMSLVYDPKTRVILGGALSSMHDVSQSANVLSVCIQNKNTIDDLAMVDMLFQPQFDRPFNYLNILGQAAQAQADKAH 2ce3-a1-m1-cJ_2ce3-a1-m1-cK CRYSTAL STRUCTURE OF THE ATP-DEPENDENT CLP PROTEASE PROTEOLYTIC SUBUNIT 1 (CLPP1) FROM MYCOBACTERIUM TUBERCULOSIS P9WPC5 P9WPC5 2.6 X-RAY DIFFRACTION 71 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 167 167 2c8t-a1-m1-cA_2c8t-a1-m1-cB 2c8t-a1-m1-cA_2c8t-a1-m1-cG 2c8t-a1-m1-cB_2c8t-a1-m1-cC 2c8t-a1-m1-cC_2c8t-a1-m1-cD 2c8t-a1-m1-cD_2c8t-a1-m1-cE 2c8t-a1-m1-cE_2c8t-a1-m1-cF 2c8t-a1-m1-cF_2c8t-a1-m1-cG 2c8t-a1-m1-cH_2c8t-a1-m1-cI 2c8t-a1-m1-cH_2c8t-a1-m1-cN 2c8t-a1-m1-cI_2c8t-a1-m1-cJ 2c8t-a1-m1-cJ_2c8t-a1-m1-cK 2c8t-a1-m1-cK_2c8t-a1-m1-cL 2c8t-a1-m1-cL_2c8t-a1-m1-cM 2c8t-a1-m1-cM_2c8t-a1-m1-cN 2c8t-a2-m1-cA_2c8t-a2-m1-cB 2c8t-a2-m1-cA_2c8t-a2-m1-cG 2c8t-a2-m1-cB_2c8t-a2-m1-cC 2c8t-a2-m1-cC_2c8t-a2-m1-cD 2c8t-a2-m1-cD_2c8t-a2-m1-cE 2c8t-a2-m1-cE_2c8t-a2-m1-cF 2c8t-a2-m1-cF_2c8t-a2-m1-cG 2c8t-a3-m1-cH_2c8t-a3-m1-cI 2c8t-a3-m1-cH_2c8t-a3-m1-cN 2c8t-a3-m1-cI_2c8t-a3-m1-cJ 2c8t-a3-m1-cJ_2c8t-a3-m1-cK 2c8t-a3-m1-cK_2c8t-a3-m1-cL 2c8t-a3-m1-cL_2c8t-a3-m1-cM 2c8t-a3-m1-cM_2c8t-a3-m1-cN 2cby-a1-m1-cA_2cby-a1-m1-cB 2cby-a1-m1-cC_2cby-a1-m1-cB 2cby-a1-m1-cC_2cby-a1-m1-cD 2cby-a1-m1-cE_2cby-a1-m1-cD 2cby-a1-m1-cE_2cby-a1-m1-cF 2cby-a1-m1-cG_2cby-a1-m1-cA 2cby-a1-m1-cG_2cby-a1-m1-cF 2ce3-a1-m1-cA_2ce3-a1-m1-cB 2ce3-a1-m1-cA_2ce3-a1-m1-cG 2ce3-a1-m1-cB_2ce3-a1-m1-cC 2ce3-a1-m1-cC_2ce3-a1-m1-cD 2ce3-a1-m1-cD_2ce3-a1-m1-cE 2ce3-a1-m1-cF_2ce3-a1-m1-cE 2ce3-a1-m1-cF_2ce3-a1-m1-cG 2ce3-a1-m1-cH_2ce3-a1-m1-cI 2ce3-a1-m1-cH_2ce3-a1-m1-cN 2ce3-a1-m1-cI_2ce3-a1-m1-cJ 2ce3-a1-m1-cK_2ce3-a1-m1-cL 2ce3-a1-m1-cM_2ce3-a1-m1-cL 2ce3-a1-m1-cM_2ce3-a1-m1-cN SLTDSVYERLLSERIIFLGSEVNDEIANRLCAQILLLAAEDASKDISLYINSPGGSISAGMAIYDTMVLAPCDIATYAMGMAASMGEFLLAAGTKGKRYALPHARILMHQPIAIQAEQFAVIKKEMFRLNAEFTGQPIERIEADSDRDRWFTAAEALEYGFVDHIIT SLTDSVYERLLSERIIFLGSEVNDEIANRLCAQILLLAAEDASKDISLYINSPGGSISAGMAIYDTMVLAPCDIATYAMGMAASMGEFLLAAGTKGKRYALPHARILMHQPIAIQAEQFAVIKKEMFRLNAEFTGQPIERIEADSDRDRWFTAAEALEYGFVDHIIT 2ce7-a2-m2-cE_2ce7-a2-m2-cD EDTA treated Q9WZ49 Q9WZ49 2.44 X-RAY DIFFRACTION 119 0.99 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 405 413 2ce7-a1-m1-cA_2ce7-a1-m1-cB 2ce7-a1-m2-cA_2ce7-a1-m2-cB 2ce7-a2-m1-cE_2ce7-a2-m1-cD 2cea-a1-m1-cA_2cea-a1-m1-cB 2cea-a1-m2-cA_2cea-a1-m2-cB 2cea-a2-m1-cE_2cea-a2-m1-cD 2cea-a2-m2-cE_2cea-a2-m2-cD PSGNKRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGKTLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGRHEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIALLISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIKYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGKLRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILS YKPSGNKRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGKTLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIAKSLLISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIPRGYYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGLRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILSEEFE 2ce7-a2-m2-cE_2ce7-a2-m2-cF EDTA treated Q9WZ49 Q9WZ49 2.44 X-RAY DIFFRACTION 83 0.983 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 405 412 2ce7-a1-m1-cA_2ce7-a1-m2-cC 2ce7-a1-m2-cA_2ce7-a1-m1-cC 2ce7-a2-m1-cE_2ce7-a2-m1-cF 2cea-a1-m1-cA_2cea-a1-m2-cC 2cea-a1-m2-cA_2cea-a1-m1-cC 2cea-a2-m1-cE_2cea-a2-m1-cF 2cea-a2-m2-cE_2cea-a2-m2-cF PSGNKRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGKTLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGRHEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIALLISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIKYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGKLRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILS YKPSGNKRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGKTLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGRDEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIPRGYKALGYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILSEEF 2ce7-a2-m2-cF_2ce7-a2-m1-cD EDTA treated Q9WZ49 Q9WZ49 2.44 X-RAY DIFFRACTION 105 0.985 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 412 413 2ce7-a2-m1-cF_2ce7-a2-m2-cD 2cea-a2-m1-cF_2cea-a2-m2-cD 2cea-a2-m2-cF_2cea-a2-m1-cD YKPSGNKRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGKTLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGRDEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIPRGYKALGYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILSEEF YKPSGNKRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGKTLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIAKSLLISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIPRGYYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGLRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILSEEFE 2cf2-a1-m1-cC_2cf2-a1-m1-cL Architecture of mammalian fatty acid synthase 4.3 X-RAY DIFFRACTION 274 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 342 342 VDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAFVDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAF VDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAFVDKRESYTKEDLLASGRGELFGAKGPQLPAPNMLMMDRVVKMTETGGNFDKGYVEAELDINPDLWFFGCHFIGDPVMPGCLGLDAMWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPTAKKVTYRIHFKRIVNRRLIMGLADGEVLVDGRLIYTASDLKVGLFQDTSAF 2cf2-a1-m1-cD_2cf2-a1-m1-cM Architecture of mammalian fatty acid synthase 4.3 X-RAY DIFFRACTION 58 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 295 295 MKAWVLKRLGGPLELVDLPEPEAEEGEVVLRVEAVGLNFADHLMRLGAYLTRLHPPFIPGMEVVGVVEGRRYAALVPQGGLAERVAVPKGALLPLPEGLSPEEAAAFPVSFLTAYLALKRAQARPGEKVLVQAAAGALGTAAVQVARAMGLRVLAAASRPEKLALPLALGAEEAATYAEVPERAKAWGGLDLVLEVRGKEVEESLGLLAHGGRLVYIAPIPPLRLMRRNLAVLGFWLTPLLREGALVEEALGFLLPRLGRELRPVVGPVFPFAEAEAAFRALLDRGHTGKVVVRL MKAWVLKRLGGPLELVDLPEPEAEEGEVVLRVEAVGLNFADHLMRLGAYLTRLHPPFIPGMEVVGVVEGRRYAALVPQGGLAERVAVPKGALLPLPEGLSPEEAAAFPVSFLTAYLALKRAQARPGEKVLVQAAAGALGTAAVQVARAMGLRVLAAASRPEKLALPLALGAEEAATYAEVPERAKAWGGLDLVLEVRGKEVEESLGLLAHGGRLVYIAPIPPLRLMRRNLAVLGFWLTPLLREGALVEEALGFLLPRLGRELRPVVGPVFPFAEAEAAFRALLDRGHTGKVVVRL 2cf5-a1-m1-cA_2cf5-a1-m2-cA Crystal Structures of the Arabidopsis Cinnamyl Alcohol Dehydrogenases, AtCAD5 O49482 O49482 2 X-RAY DIFFRACTION 106 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 352 352 AERKTTGWAARDPSGILSPYTYTLRETGPEDVNIRIICCGICHTDLHQTKNDLGMSNYPMVPGHEVVGEVVEVGSDVSKFTVGDIVGVGCLVGCCGGCSPCERDLEQYCPKKIWSYNDVYINGQPTQGGFAKATVVHQKFVVKIPEGMAVEQAAPLLCAGVTVYSPLSHFGLKQPGLRGGILGLGGVGHMGVKIAKAMGHHVTVISSSNKKREEALQDLGADDYVIGSDQAKMSELADSLDYVIDTVPVHHALEPYLSLLKLDGKLILMGVINNPLQFLTPLLMLGRKVITGSFIGSMKETEEMLEFCKEKGLSSIIEVVKMDYVNTAFERLEKNDVRYRFVVDVEGSNLDA AERKTTGWAARDPSGILSPYTYTLRETGPEDVNIRIICCGICHTDLHQTKNDLGMSNYPMVPGHEVVGEVVEVGSDVSKFTVGDIVGVGCLVGCCGGCSPCERDLEQYCPKKIWSYNDVYINGQPTQGGFAKATVVHQKFVVKIPEGMAVEQAAPLLCAGVTVYSPLSHFGLKQPGLRGGILGLGGVGHMGVKIAKAMGHHVTVISSSNKKREEALQDLGADDYVIGSDQAKMSELADSLDYVIDTVPVHHALEPYLSLLKLDGKLILMGVINNPLQFLTPLLMLGRKVITGSFIGSMKETEEMLEFCKEKGLSSIIEVVKMDYVNTAFERLEKNDVRYRFVVDVEGSNLDA 2cfa-a1-m1-cB_2cfa-a1-m2-cB Structure of viral flavin-dependant thymidylate synthase ThyX O41156 O41156 2.3 X-RAY DIFFRACTION 74 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 178 178 2cfa-a1-m1-cA_2cfa-a1-m2-cA MSAKLISVTKPVVEGVNTAEELIAYAARVSNPENQINNKTASGLLKYIRHKHWSIFETAFMTLELKTSRGIAAQVIRHRSFHFQEFSPWWATEQEKLYAQSMELYNKALEKGIAKECARFILPLSTPTTIYMSGTIRDWIHYIELRTSNGTQREHIDLANACKEIFIKEFSIAKALDW MSAKLISVTKPVVEGVNTAEELIAYAARVSNPENQINNKTASGLLKYIRHKHWSIFETAFMTLELKTSRGIAAQVIRHRSFHFQEFSPWWATEQEKLYAQSMELYNKALEKGIAKECARFILPLSTPTTIYMSGTIRDWIHYIELRTSNGTQREHIDLANACKEIFIKEFSIAKALDW 2cfb-a1-m1-cA_2cfb-a1-m2-cA Glutamate-1-semialdehyde 2,1-Aminomutase from Thermosynechococcus elongatus Q8DLK8 Q8DLK8 2.85 X-RAY DIFFRACTION 119 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 360 360 PIVFDHVKGAHIWDVDGNQYIDYVGSWGPAIVGHAHPEVIDALHAALEKGTSFGAPCLLENILAEMVIAAVPSVEMVRFVNSGTEACMAVLRLMRAYTQREKVIKFEGCYHGHAATLTAPYNDLEAVSRLFEQYPNDIAGVILEPVVGNAGFIPPDAGFLEGLRELTKQYGALLVFDEVMTGFRIAYGGAQEKFGVTPDLTTLGKVIGGGLPVGAYGGRAEIMKMVAPAGPTLSGNPLAMTAGIKTLEILSRPGSYEHLDRITGKLVQGLLDAAREFGHEVCGGHISGMFGLFFTAGPVTNYEQAKQSDLKKFAAFHRGMLEQGIYLAPSQFEAGFTSLAHTEADIERTIAAARTVLSQL PIVFDHVKGAHIWDVDGNQYIDYVGSWGPAIVGHAHPEVIDALHAALEKGTSFGAPCLLENILAEMVIAAVPSVEMVRFVNSGTEACMAVLRLMRAYTQREKVIKFEGCYHGHAATLTAPYNDLEAVSRLFEQYPNDIAGVILEPVVGNAGFIPPDAGFLEGLRELTKQYGALLVFDEVMTGFRIAYGGAQEKFGVTPDLTTLGKVIGGGLPVGAYGGRAEIMKMVAPAGPTLSGNPLAMTAGIKTLEILSRPGSYEHLDRITGKLVQGLLDAAREFGHEVCGGHISGMFGLFFTAGPVTNYEQAKQSDLKKFAAFHRGMLEQGIYLAPSQFEAGFTSLAHTEADIERTIAAARTVLSQL 2cfc-a1-m1-cA_2cfc-a1-m1-cD structural basis for stereo selectivity in the (R)- and (S)- hydroxypropylethane thiosulfonate dehydrogenases Q56840 Q56840 1.8 X-RAY DIFFRACTION 14 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 250 250 2cfc-a1-m1-cB_2cfc-a1-m1-cC MSRVAIVTGASSGNGLAIATRFLARGDRVAALDLSAETLEETARTHWHAYADKVLRVRADVADEGDVNAAIAATMEQFGAIDVLVNNAGITGNSEAGVLHTTPVEQFDKVMAVNVRGIFLGCRAVLPHMLLQGAGVIVNIASVASLVAFPGRSAYTTSKGAVLQLTKSVAVDYAGSGIRCNAVCPGMIETPMTQWRLDQPELRDQVLARIPQKEIGTAAQVADAVMFLAGEDATYVNGAALVMDGAYTAI MSRVAIVTGASSGNGLAIATRFLARGDRVAALDLSAETLEETARTHWHAYADKVLRVRADVADEGDVNAAIAATMEQFGAIDVLVNNAGITGNSEAGVLHTTPVEQFDKVMAVNVRGIFLGCRAVLPHMLLQGAGVIVNIASVASLVAFPGRSAYTTSKGAVLQLTKSVAVDYAGSGIRCNAVCPGMIETPMTQWRLDQPELRDQVLARIPQKEIGTAAQVADAVMFLAGEDATYVNGAALVMDGAYTAI 2cfc-a1-m1-cB_2cfc-a1-m1-cD structural basis for stereo selectivity in the (R)- and (S)- hydroxypropylethane thiosulfonate dehydrogenases Q56840 Q56840 1.8 X-RAY DIFFRACTION 126 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 250 250 2cfc-a1-m1-cA_2cfc-a1-m1-cC MSRVAIVTGASSGNGLAIATRFLARGDRVAALDLSAETLEETARTHWHAYADKVLRVRADVADEGDVNAAIAATMEQFGAIDVLVNNAGITGNSEAGVLHTTPVEQFDKVMAVNVRGIFLGCRAVLPHMLLQGAGVIVNIASVASLVAFPGRSAYTTSKGAVLQLTKSVAVDYAGSGIRCNAVCPGMIETPMTQWRLDQPELRDQVLARIPQKEIGTAAQVADAVMFLAGEDATYVNGAALVMDGAYTAI MSRVAIVTGASSGNGLAIATRFLARGDRVAALDLSAETLEETARTHWHAYADKVLRVRADVADEGDVNAAIAATMEQFGAIDVLVNNAGITGNSEAGVLHTTPVEQFDKVMAVNVRGIFLGCRAVLPHMLLQGAGVIVNIASVASLVAFPGRSAYTTSKGAVLQLTKSVAVDYAGSGIRCNAVCPGMIETPMTQWRLDQPELRDQVLARIPQKEIGTAAQVADAVMFLAGEDATYVNGAALVMDGAYTAI 2cfc-a1-m1-cC_2cfc-a1-m1-cD structural basis for stereo selectivity in the (R)- and (S)- hydroxypropylethane thiosulfonate dehydrogenases Q56840 Q56840 1.8 X-RAY DIFFRACTION 129 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 250 250 2cfc-a1-m1-cA_2cfc-a1-m1-cB MSRVAIVTGASSGNGLAIATRFLARGDRVAALDLSAETLEETARTHWHAYADKVLRVRADVADEGDVNAAIAATMEQFGAIDVLVNNAGITGNSEAGVLHTTPVEQFDKVMAVNVRGIFLGCRAVLPHMLLQGAGVIVNIASVASLVAFPGRSAYTTSKGAVLQLTKSVAVDYAGSGIRCNAVCPGMIETPMTQWRLDQPELRDQVLARIPQKEIGTAAQVADAVMFLAGEDATYVNGAALVMDGAYTAI MSRVAIVTGASSGNGLAIATRFLARGDRVAALDLSAETLEETARTHWHAYADKVLRVRADVADEGDVNAAIAATMEQFGAIDVLVNNAGITGNSEAGVLHTTPVEQFDKVMAVNVRGIFLGCRAVLPHMLLQGAGVIVNIASVASLVAFPGRSAYTTSKGAVLQLTKSVAVDYAGSGIRCNAVCPGMIETPMTQWRLDQPELRDQVLARIPQKEIGTAAQVADAVMFLAGEDATYVNGAALVMDGAYTAI 2cfu-a1-m1-cA_2cfu-a1-m2-cA Crystal structure of SdsA1, an alkylsulfatase from Pseudomonas aeruginosa, in complex with 1-decane-sulfonic-acid. Q9I5I9 Q9I5I9 1.9 X-RAY DIFFRACTION 347 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 627 627 2cfz-a1-m1-cA_2cfz-a1-m2-cA 2cg2-a1-m1-cA_2cg2-a1-m2-cA 2cg3-a1-m1-cA_2cg3-a1-m2-cA 5a23-a1-m1-cB_5a23-a1-m1-cC 5a23-a2-m1-cA_5a23-a2-m1-cD 5aij-a1-m1-cA_5aij-a1-m2-cA 5ajl-a1-m1-cA_5ajl-a1-m1-cB TTAPKPPSAFTVEAQRRVEAELPFADRADFERADRGLIRRPERLLIRNPDGSVAWQLGGYDFLLDGKPRDSINPSLQRQALLNLKYGLFEVAEGIYQVRGFDLANITFIRGDSGWIVVDTLTTPATARAAYELVSRELGERPIRTVIYSHAHADHFGGVRGLVEPQQVASGAVQIIAPAGFMEAAIVLAGNAMMRRATYQYGTQLPKGPQGQVDMAIGKGLARGPLSLLAPTRLIEGEGEDLVLDGVPFTFQNTPGTESPAEMNIWLPRQKALLMAENVVGTLHNLYTLRGAEVRDALGWSKYINQALHRFGRQAEVMFAVHNWPRWGNAEIVEVLEKQRDLYGYLHDQTLHLANQGVTIGQVHNRLRLPPSLDQEWYDRGYHGSVSHNARAVLNRYLGYYDGNPATLDPLSPEDSAGRYVEYMGGAERLLEQARASYARGEYRWVVEVVNRLVFAEPDNRAARELQADALEQLGYQAENAGWRNSYLSAAYELRHGVPRDQGSADALAAMDTGLLFDYLGVRLDAGAAEGKALSINLRLPDIGENYLLELKNSHLNNLRGVQSEDAGQTVSIDRADLNRLLLKEVSAVRLVFEGKLKSSGNPLLLGQLFGMLGDFDFWFDIVTPAA TTAPKPPSAFTVEAQRRVEAELPFADRADFERADRGLIRRPERLLIRNPDGSVAWQLGGYDFLLDGKPRDSINPSLQRQALLNLKYGLFEVAEGIYQVRGFDLANITFIRGDSGWIVVDTLTTPATARAAYELVSRELGERPIRTVIYSHAHADHFGGVRGLVEPQQVASGAVQIIAPAGFMEAAIVLAGNAMMRRATYQYGTQLPKGPQGQVDMAIGKGLARGPLSLLAPTRLIEGEGEDLVLDGVPFTFQNTPGTESPAEMNIWLPRQKALLMAENVVGTLHNLYTLRGAEVRDALGWSKYINQALHRFGRQAEVMFAVHNWPRWGNAEIVEVLEKQRDLYGYLHDQTLHLANQGVTIGQVHNRLRLPPSLDQEWYDRGYHGSVSHNARAVLNRYLGYYDGNPATLDPLSPEDSAGRYVEYMGGAERLLEQARASYARGEYRWVVEVVNRLVFAEPDNRAARELQADALEQLGYQAENAGWRNSYLSAAYELRHGVPRDQGSADALAAMDTGLLFDYLGVRLDAGAAEGKALSINLRLPDIGENYLLELKNSHLNNLRGVQSEDAGQTVSIDRADLNRLLLKEVSAVRLVFEGKLKSSGNPLLLGQLFGMLGDFDFWFDIVTPAA 2cfx-a1-m1-cA_2cfx-a1-m1-cH Structure of B.subtilis LrpC P96582 P96582 2.4 X-RAY DIFFRACTION 18 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 140 140 2cfx-a1-m1-cB_2cfx-a1-m1-cG 2cfx-a1-m1-cC_2cfx-a1-m1-cF 2cfx-a1-m1-cD_2cfx-a1-m1-cE MKLDQIDLNIIEELKKDSRLSMRELGRKIKLSPPSVTERVRQLESFGIIKQYTLEVDQKKLGLPVSCIVEATVKNADYERFKSYIQTLPNIEFCYRIAGAACYMLKINAESLEAVEDFINKTSPYAQTVTHVIFSEIDTK MKLDQIDLNIIEELKKDSRLSMRELGRKIKLSPPSVTERVRQLESFGIIKQYTLEVDQKKLGLPVSCIVEATVKNADYERFKSYIQTLPNIEFCYRIAGAACYMLKINAESLEAVEDFINKTSPYAQTVTHVIFSEIDTK 2cfx-a1-m1-cC_2cfx-a1-m1-cH Structure of B.subtilis LrpC P96582 P96582 2.4 X-RAY DIFFRACTION 164 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 140 140 2cfx-a1-m1-cA_2cfx-a1-m1-cB 2cfx-a1-m1-cD_2cfx-a1-m1-cG 2cfx-a1-m1-cE_2cfx-a1-m1-cF MKLDQIDLNIIEELKKDSRLSMRELGRKIKLSPPSVTERVRQLESFGIIKQYTLEVDQKKLGLPVSCIVEATVKNADYERFKSYIQTLPNIEFCYRIAGAACYMLKINAESLEAVEDFINKTSPYAQTVTHVIFSEIDTK MKLDQIDLNIIEELKKDSRLSMRELGRKIKLSPPSVTERVRQLESFGIIKQYTLEVDQKKLGLPVSCIVEATVKNADYERFKSYIQTLPNIEFCYRIAGAACYMLKINAESLEAVEDFINKTSPYAQTVTHVIFSEIDTK 2cfx-a1-m1-cF_2cfx-a1-m1-cH Structure of B.subtilis LrpC P96582 P96582 2.4 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 140 140 2cfx-a1-m1-cA_2cfx-a1-m1-cC 2cfx-a1-m1-cA_2cfx-a1-m1-cG 2cfx-a1-m1-cB_2cfx-a1-m1-cD 2cfx-a1-m1-cB_2cfx-a1-m1-cH 2cfx-a1-m1-cC_2cfx-a1-m1-cE 2cfx-a1-m1-cD_2cfx-a1-m1-cF 2cfx-a1-m1-cE_2cfx-a1-m1-cG MKLDQIDLNIIEELKKDSRLSMRELGRKIKLSPPSVTERVRQLESFGIIKQYTLEVDQKKLGLPVSCIVEATVKNADYERFKSYIQTLPNIEFCYRIAGAACYMLKINAESLEAVEDFINKTSPYAQTVTHVIFSEIDTK MKLDQIDLNIIEELKKDSRLSMRELGRKIKLSPPSVTERVRQLESFGIIKQYTLEVDQKKLGLPVSCIVEATVKNADYERFKSYIQTLPNIEFCYRIAGAACYMLKINAESLEAVEDFINKTSPYAQTVTHVIFSEIDTK 2cg4-a1-m3-cA_2cg4-a1-m4-cB Structure of E.coli AsnC P0ACI6 P0ACI6 2.4 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 149 149 2cg4-a1-m1-cA_2cg4-a1-m3-cB 2cg4-a1-m1-cB_2cg4-a1-m2-cA 2cg4-a1-m2-cB_2cg4-a1-m4-cA YLIDNLDRGILEALMGNARTAYAELAKQFGVSPETIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP YLIDNLDRGILEALMGNARTAYAELAKQFGVSPETIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP 2cg4-a1-m3-cB_2cg4-a1-m4-cB Structure of E.coli AsnC P0ACI6 P0ACI6 2.4 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 149 149 2cg4-a1-m1-cA_2cg4-a1-m2-cA 2cg4-a1-m1-cA_2cg4-a1-m3-cA 2cg4-a1-m1-cB_2cg4-a1-m2-cB 2cg4-a1-m1-cB_2cg4-a1-m3-cB 2cg4-a1-m2-cA_2cg4-a1-m4-cA 2cg4-a1-m2-cB_2cg4-a1-m4-cB 2cg4-a1-m3-cA_2cg4-a1-m4-cA YLIDNLDRGILEALMGNARTAYAELAKQFGVSPETIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP YLIDNLDRGILEALMGNARTAYAELAKQFGVSPETIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP 2cg4-a1-m4-cA_2cg4-a1-m4-cB Structure of E.coli AsnC P0ACI6 P0ACI6 2.4 X-RAY DIFFRACTION 190 1.0 562 (Escherichia coli) 562 (Escherichia coli) 149 149 2cg4-a1-m1-cA_2cg4-a1-m1-cB 2cg4-a1-m2-cA_2cg4-a1-m2-cB 2cg4-a1-m3-cA_2cg4-a1-m3-cB YLIDNLDRGILEALMGNARTAYAELAKQFGVSPETIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP YLIDNLDRGILEALMGNARTAYAELAKQFGVSPETIHVRVEKMKQAGIITGARIDVSPKQLGYDVGCFIGIILKSAKDYPSALAKLESLDEVTEAYYTTGHYSIFIKVMCRSIDALQHVLINKIQTIDEIQSTETLIVLQNPIMRTIKP 2cg6-a1-m1-cA_2cg6-a1-m2-cA Second and third fibronectin type I module pair (crystal form I). P02751 P02751 1.55 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 AEETCFDKYTGNTYRVGDTYERPKDSMIWDCTCIGAGRGRISCTIANRCHEGGQSYKIGDTWRRPHETGGYMLECVCLGNGKGEWTCKPI AEETCFDKYTGNTYRVGDTYERPKDSMIWDCTCIGAGRGRISCTIANRCHEGGQSYKIGDTWRRPHETGGYMLECVCLGNGKGEWTCKPI 2cg8-a1-m2-cA_2cg8-a1-m2-cD The bifunctional dihydroneopterin aldolase 6-hydroxymethyl-7,8- dihydropterin synthase from Streptococcus pneumoniae P59657 P59657 2.9 X-RAY DIFFRACTION 31 0.996 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 240 246 2cg8-a1-m1-cA_2cg8-a1-m1-cD 2cg8-a1-m1-cB_2cg8-a1-m1-cC 2cg8-a1-m2-cB_2cg8-a1-m2-cC MDQLQIKDLEMFAYHGLFPSEKELGQKFIVSAILSYDMTKAATVHYGELCQQWTTWFQETSEDLIETVAYKLVERTFESYPLVQEMKLELKKPWAPVHLSLDTCSVTIHRRKQRAFIALGSNMGDKQANLKQAIDKLRARGIHILKESSVLASFANQVVEVETWLPAQDLLETLLAIESELGRIDLDLLFVEDQILYTDDLILPHPYIAERLFVLESLQEIAPHFIHPILKQPIRNLYDA MDQLQIKDLEMFAYHGLFPSEKELGQKFIVSAILSYDMTKAATDASVHYGELCQQWTTWFQETSEDLIETVAYKLVERTFESYPLVQEMKLELKKPWAPVHLSLDTCSVTIHRRKQRAFIALGSNMGDKQANLKQAIDKLRARGIHILKESSVLSFANQVVEVETWLPAQDLLETLLAIESELGRGPRLIDLDLLFVEDQILYTDDLILPHPYIAERLFVLESLQEIAPHFIHPILKQPIRNLYDA 2cg8-a1-m2-cD_2cg8-a1-m2-cC The bifunctional dihydroneopterin aldolase 6-hydroxymethyl-7,8- dihydropterin synthase from Streptococcus pneumoniae P59657 P59657 2.9 X-RAY DIFFRACTION 91 0.988 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 246 248 2cg8-a1-m1-cA_2cg8-a1-m1-cB 2cg8-a1-m1-cA_2cg8-a1-m2-cB 2cg8-a1-m1-cD_2cg8-a1-m1-cC 2cg8-a1-m1-cD_2cg8-a1-m2-cC 2cg8-a1-m2-cA_2cg8-a1-m1-cB 2cg8-a1-m2-cA_2cg8-a1-m2-cB 2cg8-a1-m2-cD_2cg8-a1-m1-cC MDQLQIKDLEMFAYHGLFPSEKELGQKFIVSAILSYDMTKAATDASVHYGELCQQWTTWFQETSEDLIETVAYKLVERTFESYPLVQEMKLELKKPWAPVHLSLDTCSVTIHRRKQRAFIALGSNMGDKQANLKQAIDKLRARGIHILKESSVLSFANQVVEVETWLPAQDLLETLLAIESELGRGPRLIDLDLLFVEDQILYTDDLILPHPYIAERLFVLESLQEIAPHFIHPILKQPIRNLYDA MDQLQIKDLEMFAYHGLFPSEKELGQKFIVSAILSYDMTKAATDLDLTASVHYGELCQQWTTWFQETSEDLIETVAYKLVERTFESYPLVQEMKLELKKPWAPVHLSLDTCSVTIHRRKQRAFIALGSNMGDKQANLKQAIDKLRARGIHILKESSVLASFANQVVEVETWLPAQDLLETLLAIESELGRLIDLDLLFVEDQILYTDDLILPHPYIAERLFVLESLQEIAPHFIHPILKQPIRNLYDA 2cga-a1-m1-cA_2cga-a1-m1-cB BOVINE CHYMOTRYPSINOGEN A. X-RAY CRYSTAL STRUCTURE ANALYSIS AND REFINEMENT OF A NEW CRYSTAL FORM AT 1.8 ANGSTROMS RESOLUTION P00766 P00766 1.8 X-RAY DIFFRACTION 44 1.0 9913 (Bos taurus) 9913 (Bos taurus) 245 245 CGVPAIQPVLSGLSRIVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRYTNANTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN CGVPAIQPVLSGLSRIVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRYTNANTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN 2cgt-a1-m1-cT_2cgt-a1-m1-cU GROEL-ADP-gp31 COMPLEX P17313 P17313 8.2 ELECTRON MICROSCOPY 43 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 83 83 2cgt-a1-m1-cO_2cgt-a1-m1-cP 2cgt-a1-m1-cO_2cgt-a1-m1-cU 2cgt-a1-m1-cP_2cgt-a1-m1-cQ 2cgt-a1-m1-cQ_2cgt-a1-m1-cR 2cgt-a1-m1-cR_2cgt-a1-m1-cS 2cgt-a1-m1-cS_2cgt-a1-m1-cT QQLPIRAVGEYVILVSEPELCVVHSVGPDVPEGFCEVGDLTSLPVGQIRNVPHPFVALGLKQPKEIKQKFVTCHYKAIPCLYK QQLPIRAVGEYVILVSEPELCVVHSVGPDVPEGFCEVGDLTSLPVGQIRNVPHPFVALGLKQPKEIKQKFVTCHYKAIPCLYK 2cgz-a1-m5-cA_2cgz-a1-m6-cA Structure of Helix Pomatia agglutinin with Tn antigen Q2F1K8 Q2F1K8 2.8 X-RAY DIFFRACTION 55 1.0 6536 (Helix pomatia) 6536 (Helix pomatia) 100 100 2ccv-a1-m1-cA_2ccv-a1-m2-cA 2ccv-a1-m1-cA_2ccv-a1-m3-cA 2ccv-a1-m2-cA_2ccv-a1-m3-cA 2ccv-a1-m4-cA_2ccv-a1-m5-cA 2ccv-a1-m4-cA_2ccv-a1-m6-cA 2ccv-a1-m5-cA_2ccv-a1-m6-cA 2ce6-a1-m1-cA_2ce6-a1-m2-cA 2ce6-a1-m1-cA_2ce6-a1-m3-cA 2ce6-a1-m2-cA_2ce6-a1-m3-cA 2ce6-a1-m4-cA_2ce6-a1-m5-cA 2ce6-a1-m4-cA_2ce6-a1-m6-cA 2ce6-a1-m5-cA_2ce6-a1-m6-cA 2cgy-a1-m1-cA_2cgy-a1-m3-cA 2cgy-a1-m1-cA_2cgy-a1-m6-cA 2cgy-a1-m2-cA_2cgy-a1-m4-cA 2cgy-a1-m2-cA_2cgy-a1-m5-cA 2cgy-a1-m3-cA_2cgy-a1-m6-cA 2cgy-a1-m4-cA_2cgy-a1-m5-cA 2cgz-a1-m1-cA_2cgz-a1-m2-cA 2cgz-a1-m1-cA_2cgz-a1-m3-cA 2cgz-a1-m2-cA_2cgz-a1-m3-cA 2cgz-a1-m4-cA_2cgz-a1-m5-cA 2cgz-a1-m4-cA_2cgz-a1-m6-cA RVQSGKINCGDDAGWAKVPSDDPGRDNTRELAKNITFASPYCRPPVVLLSITQLDVEQSQNLRVIARLYSVSPTGFKASCYTWHNTKVYSMSISWISIEN RVQSGKINCGDDAGWAKVPSDDPGRDNTRELAKNITFASPYCRPPVVLLSITQLDVEQSQNLRVIARLYSVSPTGFKASCYTWHNTKVYSMSISWISIEN 2ch1-a2-m1-cB_2ch1-a2-m1-cC Structure of Anopheles gambiae 3-hydroxykynurenine transaminase Q7PRG3 Q7PRG3 2.4 X-RAY DIFFRACTION 275 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 388 388 2ch1-a1-m1-cA_2ch1-a1-m1-cD 2ch2-a1-m1-cA_2ch2-a1-m1-cD 2ch2-a2-m1-cB_2ch2-a2-m1-cC KFTPPPASLRNPLIIPEKIMMGPGPSNCSKRVLTAMTNTVLSNFHAELFRTMDEVKDGLRYIFQTENRATMCVSGSAHAGMEAMLSNLLEEGDRVLIAVNGIWAERAVEMSERYGADVRTIEGPPDRPFSLETLARAIELHQPKCLFLTHGDSSSGLLQPLEGVGQICHQHDCLLIVDAVASLCGVPFYMDKWEIDAVYTGAQKVLGAPPGITPISISPKALDVIRNRRTKSKVFYWDLLLLGNYWGCYDEPKRYHHTVASNLIFALREALAQIAEEGLENQIKRRIECAQILYEGLGKMGLDIFVKDPRHRLPTVTGIMIPKGVDWWKVSQYAMNNFSLEVQGGLGPTFGKAWRVGIMGECSTVQKIQFYLYGFKESLKATHPDYIF KFTPPPASLRNPLIIPEKIMMGPGPSNCSKRVLTAMTNTVLSNFHAELFRTMDEVKDGLRYIFQTENRATMCVSGSAHAGMEAMLSNLLEEGDRVLIAVNGIWAERAVEMSERYGADVRTIEGPPDRPFSLETLARAIELHQPKCLFLTHGDSSSGLLQPLEGVGQICHQHDCLLIVDAVASLCGVPFYMDKWEIDAVYTGAQKVLGAPPGITPISISPKALDVIRNRRTKSKVFYWDLLLLGNYWGCYDEPKRYHHTVASNLIFALREALAQIAEEGLENQIKRRIECAQILYEGLGKMGLDIFVKDPRHRLPTVTGIMIPKGVDWWKVSQYAMNNFSLEVQGGLGPTFGKAWRVGIMGECSTVQKIQFYLYGFKESLKATHPDYIF 2ch5-a2-m1-cC_2ch5-a2-m1-cD Crystal structure of human N-acetylglucosamine kinase in complex with N-acetylglucosamine Q9UJ70 Q9UJ70 1.9 X-RAY DIFFRACTION 83 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 342 342 2ch5-a1-m1-cB_2ch5-a1-m1-cA 2ch6-a1-m1-cA_2ch6-a1-m1-cD 2ch6-a2-m1-cB_2ch6-a2-m1-cC PQFMAAIYGGVEGGGTRSEVLLVSEDGKILAEADGLSTNHWLIGTDKCVERINEMVNRAKRKAGVDPLVPLRSLGLSLSGGDQEDAGRILIEELRDRFPYLSESYLITTDAAGSIATATPDGGVVLISGTGSNCRLINPDGSESGCGGWGHMMGDEGSAYWIAHQAVKIVFDSIDNLEAAPHDIGYVKQAMFHYFQVPDRLGILTHLYRDFDKCRFAGFCRKIAEGAQQGDPLSRYIFRKAGEMLGRHIVAVLPEIDPVLFQGKIGLPILCVGSVWKSWELLKEGFLLALTQGREFFSSFTLMKLRHSSALGGASLGARHIGHLLPMDYSANAIAFYSYTFS PQFMAAIYGGVEGGGTRSEVLLVSEDGKILAEADGLSTNHWLIGTDKCVERINEMVNRAKRKAGVDPLVPLRSLGLSLSGGDQEDAGRILIEELRDRFPYLSESYLITTDAAGSIATATPDGGVVLISGTGSNCRLINPDGSESGCGGWGHMMGDEGSAYWIAHQAVKIVFDSIDNLEAAPHDIGYVKQAMFHYFQVPDRLGILTHLYRDFDKCRFAGFCRKIAEGAQQGDPLSRYIFRKAGEMLGRHIVAVLPEIDPVLFQGKIGLPILCVGSVWKSWELLKEGFLLALTQGREIFSSFTLMKLRHSSALGGASLGARHIGHLLPMDYSANAIAFYSYTFS 2ch7-a1-m1-cB_2ch7-a1-m1-cA Crystal structure of the cytoplasmic domain of a bacterial chemoreceptor from Thermotoga maritima Q9X0M7 Q9X0M7 2.5 X-RAY DIFFRACTION 523 0.997 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 307 309 3ja6-a1-m1-cH_3ja6-a1-m1-cG 3ja6-a1-m1-cJ_3ja6-a1-m1-cI 3ja6-a1-m1-cL_3ja6-a1-m1-cK 3ja6-a1-m1-cN_3ja6-a1-m1-cM 3ja6-a1-m1-cP_3ja6-a1-m1-cO 3ja6-a1-m1-cR_3ja6-a1-m1-cQ SHMKDVQTETFSVAESIEEISKANEEITNQLLGISKEMDNISTRIESISASVQETTAGSEEISSATKNIADSAQQAASFADQSTQLAKEAGDALKKVIEVTRMISNSAKDVERVVESFQKGAEEITSFVETINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEESQQASENVRRVVNEIRSIAEDAGKVSSEITARVEEGTKLADEADEKLNSIVGAVERINEMLQNIAAAIEEQNAAVDEITTAMTENAKNAEEITNSVKEVNARLQEISASTEEVTSRVQTIRENVQMLKEIVARY GSHMKDVQTETFSVAESIEEISKANEEITNQLLGISKEMDNISTRIESISASVQETTAGSEEISSATKNIADSAQQAASFADQSTQLAKEAGDALKKVIEVTRMISNSAKDVERVVESFQKGAEEITSFVETINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEESQQASENVRRVVNEIRSIAEDAGKVSSEITARVEEGTKLADEADEKLNSIVGAVERINEMLQNIAAAIEEQTAAVDEITTAMTENAKNAEEITNSVKEVNARLQEISASTEEVTSRVQTIRENVQMLKEIVARYK 2ch9-a1-m1-cA_2ch9-a1-m2-cA Crystal structure of dimeric human cystatin F O76096 O76096 2.1 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 TCSQDLNSRVKPGFPKTIKTNDPGVLQAARYSVEKFNNCTNDMFLFKESRITRALVQIVKGLKYMLEVEIGRTTCKKNQHLRLDDCDFQTNHTLKQTLSCYSEVWVVPWLQHFEVPVLRCHHHHHH TCSQDLNSRVKPGFPKTIKTNDPGVLQAARYSVEKFNNCTNDMFLFKESRITRALVQIVKGLKYMLEVEIGRTTCKKNQHLRLDDCDFQTNHTLKQTLSCYSEVWVVPWLQHFEVPVLRCHHHHHH 2chc-a1-m1-cC_2chc-a1-m1-cB Structure of Rv3472(D26N), a function unknown protein from Mycobacterium tuberculosis O06337 O06337 1.69 X-RAY DIFFRACTION 93 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 159 161 2chc-a1-m1-cB_2chc-a1-m1-cA 2chc-a1-m1-cC_2chc-a1-m1-cA QWIEILRIQALCARYCLTINTQDGEGWAGCFTEDGAFEFDGWVIRGRPALREYADAHARVVRGRHLTTDLLYEVDGDVATGRSASVVTLATAAGYKILGSGEYQDRLIKQDGQWRIAYRRLRNDRLVSDPSVAVNVADADVAAVVGHLLAAARRLGTQM EQWIEILRIQALCARYCLTINTQDGEGWAGCFTEDGAFEFDGWVIRGRPALREYADAHARVVRGRHLTTDLLYEVDGDVATGRSASVVTLATAAGYKILGSGEYQDRLIKQDGQWRIAYRRLRNDRLVSDPSVAVNVADADVAAVVGHLLAAARRLGTQMS 2chh-a1-m1-cA_2chh-a1-m4-cA RALSTONIA SOLANACEARUM HIGH-AFFINITY MANNOSE-BINDING LECTIN Q8XUA5 Q8XUA5 1 X-RAY DIFFRACTION 18 1.0 305 (Ralstonia solanacearum) 305 (Ralstonia solanacearum) 113 113 1uqx-a1-m1-cA_1uqx-a1-m4-cA 1uqx-a1-m2-cA_1uqx-a1-m3-cA 2chh-a1-m2-cA_2chh-a1-m3-cA AQQGVFTLPANTSFGVTAFANAANTQTIQVLVDNVVKATFTGSGTSDKLLGSQVLNSGSGAIKIQVSVNGKPSDLVSNQTILANKLNFAMVGSEDGTDNDYNDGIAVLNWPLG AQQGVFTLPANTSFGVTAFANAANTQTIQVLVDNVVKATFTGSGTSDKLLGSQVLNSGSGAIKIQVSVNGKPSDLVSNQTILANKLNFAMVGSEDGTDNDYNDGIAVLNWPLG 2chh-a1-m2-cA_2chh-a1-m4-cA RALSTONIA SOLANACEARUM HIGH-AFFINITY MANNOSE-BINDING LECTIN Q8XUA5 Q8XUA5 1 X-RAY DIFFRACTION 108 1.0 305 (Ralstonia solanacearum) 305 (Ralstonia solanacearum) 113 113 1uqx-a1-m1-cA_1uqx-a1-m3-cA 1uqx-a1-m2-cA_1uqx-a1-m4-cA 2chh-a1-m1-cA_2chh-a1-m3-cA AQQGVFTLPANTSFGVTAFANAANTQTIQVLVDNVVKATFTGSGTSDKLLGSQVLNSGSGAIKIQVSVNGKPSDLVSNQTILANKLNFAMVGSEDGTDNDYNDGIAVLNWPLG AQQGVFTLPANTSFGVTAFANAANTQTIQVLVDNVVKATFTGSGTSDKLLGSQVLNSGSGAIKIQVSVNGKPSDLVSNQTILANKLNFAMVGSEDGTDNDYNDGIAVLNWPLG 2chh-a1-m3-cA_2chh-a1-m4-cA RALSTONIA SOLANACEARUM HIGH-AFFINITY MANNOSE-BINDING LECTIN Q8XUA5 Q8XUA5 1 X-RAY DIFFRACTION 34 1.0 305 (Ralstonia solanacearum) 305 (Ralstonia solanacearum) 113 113 1uqx-a1-m1-cA_1uqx-a1-m2-cA 1uqx-a1-m3-cA_1uqx-a1-m4-cA 2chh-a1-m1-cA_2chh-a1-m2-cA AQQGVFTLPANTSFGVTAFANAANTQTIQVLVDNVVKATFTGSGTSDKLLGSQVLNSGSGAIKIQVSVNGKPSDLVSNQTILANKLNFAMVGSEDGTDNDYNDGIAVLNWPLG AQQGVFTLPANTSFGVTAFANAANTQTIQVLVDNVVKATFTGSGTSDKLLGSQVLNSGSGAIKIQVSVNGKPSDLVSNQTILANKLNFAMVGSEDGTDNDYNDGIAVLNWPLG 2chp-a1-m2-cC_2chp-a1-m3-cD Crystal structure of the dodecameric ferritin MrgA from B. subtilis 168 P37960 P37960 2 X-RAY DIFFRACTION 21 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 145 145 2chp-a1-m1-cB_2chp-a1-m2-cB 2chp-a1-m1-cB_2chp-a1-m3-cB 2chp-a1-m1-cC_2chp-a1-m2-cA 2chp-a1-m1-cC_2chp-a1-m2-cD 2chp-a1-m1-cD_2chp-a1-m1-cA 2chp-a1-m1-cD_2chp-a1-m3-cC 2chp-a1-m2-cB_2chp-a1-m3-cB 2chp-a1-m2-cC_2chp-a1-m3-cA 2chp-a1-m2-cD_2chp-a1-m2-cA 2chp-a1-m3-cC_2chp-a1-m1-cA 2chp-a1-m3-cD_2chp-a1-m3-cA NQTLVENSLNTQLSNWFLLYSKLHRFHWYVKGPHFFTLHEKFEELYDHAAETVDTIAERLLAIGGQPVATVKEYTEHASITDGGNETSASEMVQALVNDYKQISSESKFVIGLAEENQDNATADLFVGLIEEVEKQVWMLSSYLG NQTLVENSLNTQLSNWFLLYSKLHRFHWYVKGPHFFTLHEKFEELYDHAAETVDTIAERLLAIGGQPVATVKEYTEHASITDGGNETSASEMVQALVNDYKQISSESKFVIGLAEENQDNATADLFVGLIEEVEKQVWMLSSYLG 2chp-a1-m2-cD_2chp-a1-m3-cD Crystal structure of the dodecameric ferritin MrgA from B. subtilis 168 P37960 P37960 2 X-RAY DIFFRACTION 27 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 145 145 2chp-a1-m1-cB_2chp-a1-m3-cA 2chp-a1-m1-cC_2chp-a1-m1-cA 2chp-a1-m1-cC_2chp-a1-m2-cB 2chp-a1-m1-cD_2chp-a1-m2-cD 2chp-a1-m1-cD_2chp-a1-m3-cD 2chp-a1-m2-cB_2chp-a1-m1-cA 2chp-a1-m2-cC_2chp-a1-m2-cA 2chp-a1-m2-cC_2chp-a1-m3-cB 2chp-a1-m3-cB_2chp-a1-m2-cA 2chp-a1-m3-cC_2chp-a1-m1-cB 2chp-a1-m3-cC_2chp-a1-m3-cA NQTLVENSLNTQLSNWFLLYSKLHRFHWYVKGPHFFTLHEKFEELYDHAAETVDTIAERLLAIGGQPVATVKEYTEHASITDGGNETSASEMVQALVNDYKQISSESKFVIGLAEENQDNATADLFVGLIEEVEKQVWMLSSYLG NQTLVENSLNTQLSNWFLLYSKLHRFHWYVKGPHFFTLHEKFEELYDHAAETVDTIAERLLAIGGQPVATVKEYTEHASITDGGNETSASEMVQALVNDYKQISSESKFVIGLAEENQDNATADLFVGLIEEVEKQVWMLSSYLG 2chp-a1-m3-cC_2chp-a1-m3-cD Crystal structure of the dodecameric ferritin MrgA from B. subtilis 168 P37960 P37960 2 X-RAY DIFFRACTION 52 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 145 145 2chp-a1-m1-cB_2chp-a1-m1-cA 2chp-a1-m1-cC_2chp-a1-m1-cD 2chp-a1-m2-cB_2chp-a1-m2-cA 2chp-a1-m2-cC_2chp-a1-m2-cD 2chp-a1-m3-cB_2chp-a1-m3-cA NQTLVENSLNTQLSNWFLLYSKLHRFHWYVKGPHFFTLHEKFEELYDHAAETVDTIAERLLAIGGQPVATVKEYTEHASITDGGNETSASEMVQALVNDYKQISSESKFVIGLAEENQDNATADLFVGLIEEVEKQVWMLSSYLG NQTLVENSLNTQLSNWFLLYSKLHRFHWYVKGPHFFTLHEKFEELYDHAAETVDTIAERLLAIGGQPVATVKEYTEHASITDGGNETSASEMVQALVNDYKQISSESKFVIGLAEENQDNATADLFVGLIEEVEKQVWMLSSYLG 2chq-a1-m1-cA_2chq-a1-m2-cC Replication Factor C ADPNP complex O28219 O28219 3.5 X-RAY DIFFRACTION 49 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 313 313 2chq-a1-m1-cC_2chq-a1-m2-cA IWVEKYRPRTLDEVVGQDEVIQRLKGYVERKNIPHLLFSGPPGTGKTATAIALARDLFGENWRDNFIEMNASDERGIDVVRHKIKEFARTAPIGGAPFKIIFLDEADALTADAQAALRRTMEMYSKSCRFILSCNYVSRIIEPIQSRCAVFRFKPVPKEAMKKRLLEICEKEGVKITEDGLEALIYISGGDFRKAINALQGAAAIGEVVDADTIYQITATARPEEMTELIQTALKGNFMEARELLDRLMVEYGMSGEDIVAQLFREIISMPIKDSLKVQLIDKLGEVDFRLTEGANERIQLDAYLAYLSTLAK IWVEKYRPRTLDEVVGQDEVIQRLKGYVERKNIPHLLFSGPPGTGKTATAIALARDLFGENWRDNFIEMNASDERGIDVVRHKIKEFARTAPIGGAPFKIIFLDEADALTADAQAALRRTMEMYSKSCRFILSCNYVSRIIEPIQSRCAVFRFKPVPKEAMKKRLLEICEKEGVKITEDGLEALIYISGGDFRKAINALQGAAAIGEVVDADTIYQITATARPEEMTELIQTALKGNFMEARELLDRLMVEYGMSGEDIVAQLFREIISMPIKDSLKVQLIDKLGEVDFRLTEGANERIQLDAYLAYLSTLAK 2chq-a1-m2-cA_2chq-a1-m2-cB Replication Factor C ADPNP complex O28219 O28219 3.5 X-RAY DIFFRACTION 98 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 313 313 2chq-a1-m1-cA_2chq-a1-m1-cB 2chq-a1-m1-cB_2chq-a1-m1-cC 2chq-a1-m2-cB_2chq-a1-m2-cC 2chv-a1-m1-cA_2chv-a1-m1-cB 2chv-a1-m1-cA_2chv-a1-m1-cF 2chv-a1-m1-cB_2chv-a1-m1-cC 2chv-a1-m1-cC_2chv-a1-m1-cD 2chv-a1-m1-cD_2chv-a1-m1-cE 2chv-a1-m1-cE_2chv-a1-m1-cF IWVEKYRPRTLDEVVGQDEVIQRLKGYVERKNIPHLLFSGPPGTGKTATAIALARDLFGENWRDNFIEMNASDERGIDVVRHKIKEFARTAPIGGAPFKIIFLDEADALTADAQAALRRTMEMYSKSCRFILSCNYVSRIIEPIQSRCAVFRFKPVPKEAMKKRLLEICEKEGVKITEDGLEALIYISGGDFRKAINALQGAAAIGEVVDADTIYQITATARPEEMTELIQTALKGNFMEARELLDRLMVEYGMSGEDIVAQLFREIISMPIKDSLKVQLIDKLGEVDFRLTEGANERIQLDAYLAYLSTLAK IWVEKYRPRTLDEVVGQDEVIQRLKGYVERKNIPHLLFSGPPGTGKTATAIALARDLFGENWRDNFIEMNASDERGIDVVRHKIKEFARTAPIGGAPFKIIFLDEADALTADAQAALRRTMEMYSKSCRFILSCNYVSRIIEPIQSRCAVFRFKPVPKEAMKKRLLEICEKEGVKITEDGLEALIYISGGDFRKAINALQGAAAIGEVVDADTIYQITATARPEEMTELIQTALKGNFMEARELLDRLMVEYGMSGEDIVAQLFREIISMPIKDSLKVQLIDKLGEVDFRLTEGANERIQLDAYLAYLSTLAK 2chr-a1-m2-cA_2chr-a1-m8-cA A RE-EVALUATION OF THE CRYSTAL STRUCTURE OF CHLOROMUCONATE CYCLOISOMERASE P05404 P05404 3 X-RAY DIFFRACTION 75 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 370 370 2chr-a1-m1-cA_2chr-a1-m7-cA 2chr-a1-m3-cA_2chr-a1-m5-cA 2chr-a1-m4-cA_2chr-a1-m6-cA MKIDAIEAVIVDVPTKRPIQMSITTVHQQSYVIVRVYSEGLVGVGEGGSVGGPVWSAECAETIKIIVERYLAPHLLGTDAFNVSGALQTMARAVTGNASAKAAVEMALLDLKARALGVSIAELLGGPLRSAIPIAWTLASGDTKRDLDSAVEMIERRRHNRFKVKLGFRSPQDDLIHMEALSNSLGSKAYLRVDVNQAWDEQVASVYIPELEALGVELIEQPVGRENTQALRRLSDNNRVAIMADESLSTLASAFDLARDRSVDVFSLKLCNMGGVSATQKIAAVAEASGIASYGGTMLDSTIGTSVALQLYSTVPSLPFGCELIGPFVLADTLSHEPLEIRDYELQVPTGVGHGMTLDEDKVRQYARVS MKIDAIEAVIVDVPTKRPIQMSITTVHQQSYVIVRVYSEGLVGVGEGGSVGGPVWSAECAETIKIIVERYLAPHLLGTDAFNVSGALQTMARAVTGNASAKAAVEMALLDLKARALGVSIAELLGGPLRSAIPIAWTLASGDTKRDLDSAVEMIERRRHNRFKVKLGFRSPQDDLIHMEALSNSLGSKAYLRVDVNQAWDEQVASVYIPELEALGVELIEQPVGRENTQALRRLSDNNRVAIMADESLSTLASAFDLARDRSVDVFSLKLCNMGGVSATQKIAAVAEASGIASYGGTMLDSTIGTSVALQLYSTVPSLPFGCELIGPFVLADTLSHEPLEIRDYELQVPTGVGHGMTLDEDKVRQYARVS 2chr-a1-m4-cA_2chr-a1-m8-cA A RE-EVALUATION OF THE CRYSTAL STRUCTURE OF CHLOROMUCONATE CYCLOISOMERASE P05404 P05404 3 X-RAY DIFFRACTION 56 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 370 370 2chr-a1-m1-cA_2chr-a1-m6-cA 2chr-a1-m2-cA_2chr-a1-m5-cA 2chr-a1-m3-cA_2chr-a1-m7-cA MKIDAIEAVIVDVPTKRPIQMSITTVHQQSYVIVRVYSEGLVGVGEGGSVGGPVWSAECAETIKIIVERYLAPHLLGTDAFNVSGALQTMARAVTGNASAKAAVEMALLDLKARALGVSIAELLGGPLRSAIPIAWTLASGDTKRDLDSAVEMIERRRHNRFKVKLGFRSPQDDLIHMEALSNSLGSKAYLRVDVNQAWDEQVASVYIPELEALGVELIEQPVGRENTQALRRLSDNNRVAIMADESLSTLASAFDLARDRSVDVFSLKLCNMGGVSATQKIAAVAEASGIASYGGTMLDSTIGTSVALQLYSTVPSLPFGCELIGPFVLADTLSHEPLEIRDYELQVPTGVGHGMTLDEDKVRQYARVS MKIDAIEAVIVDVPTKRPIQMSITTVHQQSYVIVRVYSEGLVGVGEGGSVGGPVWSAECAETIKIIVERYLAPHLLGTDAFNVSGALQTMARAVTGNASAKAAVEMALLDLKARALGVSIAELLGGPLRSAIPIAWTLASGDTKRDLDSAVEMIERRRHNRFKVKLGFRSPQDDLIHMEALSNSLGSKAYLRVDVNQAWDEQVASVYIPELEALGVELIEQPVGRENTQALRRLSDNNRVAIMADESLSTLASAFDLARDRSVDVFSLKLCNMGGVSATQKIAAVAEASGIASYGGTMLDSTIGTSVALQLYSTVPSLPFGCELIGPFVLADTLSHEPLEIRDYELQVPTGVGHGMTLDEDKVRQYARVS 2chr-a1-m6-cA_2chr-a1-m8-cA A RE-EVALUATION OF THE CRYSTAL STRUCTURE OF CHLOROMUCONATE CYCLOISOMERASE P05404 P05404 3 X-RAY DIFFRACTION 18 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 370 370 2chr-a1-m1-cA_2chr-a1-m3-cA 2chr-a1-m1-cA_2chr-a1-m4-cA 2chr-a1-m2-cA_2chr-a1-m3-cA 2chr-a1-m2-cA_2chr-a1-m4-cA 2chr-a1-m5-cA_2chr-a1-m7-cA 2chr-a1-m5-cA_2chr-a1-m8-cA 2chr-a1-m6-cA_2chr-a1-m7-cA MKIDAIEAVIVDVPTKRPIQMSITTVHQQSYVIVRVYSEGLVGVGEGGSVGGPVWSAECAETIKIIVERYLAPHLLGTDAFNVSGALQTMARAVTGNASAKAAVEMALLDLKARALGVSIAELLGGPLRSAIPIAWTLASGDTKRDLDSAVEMIERRRHNRFKVKLGFRSPQDDLIHMEALSNSLGSKAYLRVDVNQAWDEQVASVYIPELEALGVELIEQPVGRENTQALRRLSDNNRVAIMADESLSTLASAFDLARDRSVDVFSLKLCNMGGVSATQKIAAVAEASGIASYGGTMLDSTIGTSVALQLYSTVPSLPFGCELIGPFVLADTLSHEPLEIRDYELQVPTGVGHGMTLDEDKVRQYARVS MKIDAIEAVIVDVPTKRPIQMSITTVHQQSYVIVRVYSEGLVGVGEGGSVGGPVWSAECAETIKIIVERYLAPHLLGTDAFNVSGALQTMARAVTGNASAKAAVEMALLDLKARALGVSIAELLGGPLRSAIPIAWTLASGDTKRDLDSAVEMIERRRHNRFKVKLGFRSPQDDLIHMEALSNSLGSKAYLRVDVNQAWDEQVASVYIPELEALGVELIEQPVGRENTQALRRLSDNNRVAIMADESLSTLASAFDLARDRSVDVFSLKLCNMGGVSATQKIAAVAEASGIASYGGTMLDSTIGTSVALQLYSTVPSLPFGCELIGPFVLADTLSHEPLEIRDYELQVPTGVGHGMTLDEDKVRQYARVS 2ci8-a1-m1-cA_2ci8-a1-m2-cA sh2 domain of human nck1 adaptor protein - uncomplexed P16333 P16333 1.8 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 SPWYYGKVTRHQAEMALNERGHEGDFLIRDSESSPNDFSVSLKAQGKNKHFKVQLKETVYCIGQRKFSTMEELVEHYKKAPIFTSEQGEKLYLVKHLS SPWYYGKVTRHQAEMALNERGHEGDFLIRDSESSPNDFSVSLKAQGKNKHFKVQLKETVYCIGQRKFSTMEELVEHYKKAPIFTSEQGEKLYLVKHLS 2cj9-a1-m1-cA_2cj9-a1-m1-cB Crystal structure of Methanosarcina barkeri seryl-tRNA synthetase complexed with an analog of seryladenylate Q46AN5 Q46AN5 2.3 X-RAY DIFFRACTION 343 0.998 269797 (Methanosarcina barkeri str. Fusaro) 269797 (Methanosarcina barkeri str. Fusaro) 477 493 2cim-a1-m1-cB_2cim-a1-m1-cA 2cja-a1-m1-cA_2cja-a1-m1-cB 2cjb-a1-m1-cA_2cjb-a1-m1-cB SHMKLQFNLKAYFAKDAIAALFEEANSTLLTRGAPEGQGAKVTEWDRIELTLQSGRYVRVHDAIFRLRKQLAEGIEVESFIIKVPADHELRMLKVPYIKSMENIEGGIQLELEVGEAEMKNRVPDRILTLLEEKIEAAKAEHWNLLWQREPMEHPFKEDPTQAMMKEGWLKRGSSRGQWIHGPQSARIFRTFEKIVLEELLEPLGYREMIFPKLVTWEVWMKSGHAKGVYPEIYYVCPPQTRDPDYWEEVADYYKVTHEVPTKLIKEKIAEPIGGMCYAQCPPFWMYVAGETLPNEEIPVKVFDRSGTSHRYESGGIHGIERVDEFHRIEIVWIGTKEEVLKCAEELHDRYMHIFNDILDIEWRKARVTPWFMAQEGLLGLAEENTVGTTDYEACLPYRGPDGEWLEFQNVSINGDKYPKGFNVKLQSGDELWSGCSGVGLERWAAVFLAQKGLDPANWPEEFRNRVGEMPKGIRFL GSHMKLQFNLKAYFKTSADPTPAKDAIAALFEEANSTLLTRGAPEGQGAKVTEWKLGEDRIELTLQSGRYVRVHDAIFRLRKQLAEALGIEVESFIIKVPADHELRMLKVPYIKSMENIEGGIQLELEVGEAEMKNRVPDRILTLLEEKIEAAQYAEHWNLLWQREPMEHPFKEDPTQAMMKEGWLKRGSSRGQWIHGPQSARIFRTFEKIVLEELLEPLGYREMIFPKLVTWEVWMKSGHAKGVYPEIYYVCPPQTRDPDYWEEVADYYKVTHEVPTKLIKEKIAEPIGGMCYAQCPPFWMYVAGETLPNEEIPVKVFDRSGTSHRYESGGIHGIERVDEFHRIEIVWIGTKEEVLKCAEELHDRYMHIFNDILDIEWRKARVTPWFMAQEGLLGLAEENTVGTTDYEACLPYRGPDGEWLEFQNVSINGDKYPKGFNVKLQSGDELWSGCSGVGLERWAAVFLAQKGLDPANWPEEFRNRVGEMPKGIRFL 2cjs-a1-m1-cB_2cjs-a1-m1-cA Structural Basis for a Munc13-1 Homodimer - Munc13-1 - RIM Heterodimer Switch: C2-domains as Versatile Protein-Protein Interaction Modules Q62768 Q62768 1.78 X-RAY DIFFRACTION 29 0.994 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 156 163 ILSLLCVGVKKAKFDGAQEKFNTYVTLKVQNVESTTIAVRGSQPSWEQDFMFEINRLDLGLTVEVWNKGLIWDTMVGTVWIPLRTIRQSNEEGPGEWLTLDSQAIMADSEICGTKDPTFHRILLDAHFELPLDIPEEEARYWAKKLEQLNAKLNSS GISGGGGGILSLLCVGVKKAKFDGAQEKFNTYVTLKVQNVESTTIAVRGSQPSWEQDFMFEINRLDLGLTVEVWNKGLIWDTMVGTVWIPLRTIRQSNEEGPGEWLTLDSQAIMADSEICGTKDPTFHRILLDAHFELPLDIPEEEARYWAKKLEQLNAKLNS 2ck2-a1-m1-cA_2ck2-a1-m1-cB Structure of core-swapped mutant of fibronectin P02751 P02751 2 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 96 VSDVPRDIEVVAVTPTSALISWDAPAVTIRYIRLTYGETGGNSPVQEITLPGSKSTYTISGLKPGTDYTVTLYSVTGRGPASSKPASINFRTEI VSDVPRDIEVVAVTPTSALISWDAPAVTIRYIRLTYGETGGNSPVQEITLPGSKSTYTISGLKPGTDYTVTLYSVTGRGDSPASSKPASINFRTEI 2clb-a2-m4-cP_2clb-a2-m5-cP The structure of the DPS-like protein from Sulfolobus solfataricus reveals a bacterioferritin-like di-metal binding site within a Dps- like dodecameric assembly P95855 P95855 2.4 X-RAY DIFFRACTION 46 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 164 164 2clb-a1-m1-cA_2clb-a1-m1-cC 2clb-a1-m1-cB_2clb-a1-m3-cA 2clb-a1-m1-cB_2clb-a1-m3-cC 2clb-a1-m1-cD_2clb-a1-m2-cD 2clb-a1-m1-cD_2clb-a1-m3-cD 2clb-a1-m2-cA_2clb-a1-m2-cC 2clb-a1-m2-cB_2clb-a1-m1-cA 2clb-a1-m2-cB_2clb-a1-m1-cC 2clb-a1-m2-cD_2clb-a1-m3-cD 2clb-a1-m3-cA_2clb-a1-m3-cC 2clb-a1-m3-cB_2clb-a1-m2-cA 2clb-a1-m3-cB_2clb-a1-m2-cC 2clb-a2-m1-cM_2clb-a2-m1-cO 2clb-a2-m1-cN_2clb-a2-m5-cM 2clb-a2-m1-cN_2clb-a2-m5-cO 2clb-a2-m1-cP_2clb-a2-m4-cP 2clb-a2-m1-cP_2clb-a2-m5-cP 2clb-a2-m4-cM_2clb-a2-m4-cO 2clb-a2-m4-cN_2clb-a2-m1-cM 2clb-a2-m4-cN_2clb-a2-m1-cO 2clb-a2-m5-cM_2clb-a2-m5-cO 2clb-a2-m5-cN_2clb-a2-m4-cM 2clb-a2-m5-cN_2clb-a2-m4-cO EPKVVGVEILEKSGLDIKKLVDKLVKATAAEFTTYYYYTILRHLTGEGEGLKEIAEDARLEDRLHFELTQRIYELGGGLPRDIRQLADISACSDAYLPENWKDPKEILKVLLEAEQCAIRTWKEVCDTYGKDPRTYDLAQRILQEEIEHEAWFLELLYGRPSGH EPKVVGVEILEKSGLDIKKLVDKLVKATAAEFTTYYYYTILRHLTGEGEGLKEIAEDARLEDRLHFELTQRIYELGGGLPRDIRQLADISACSDAYLPENWKDPKEILKVLLEAEQCAIRTWKEVCDTYGKDPRTYDLAQRILQEEIEHEAWFLELLYGRPSGH 2clb-a2-m5-cP_2clb-a2-m4-cO The structure of the DPS-like protein from Sulfolobus solfataricus reveals a bacterioferritin-like di-metal binding site within a Dps- like dodecameric assembly P95855 P95855 2.4 X-RAY DIFFRACTION 39 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 164 165 2clb-a1-m1-cB_2clb-a1-m1-cA 2clb-a1-m1-cD_2clb-a1-m3-cC 2clb-a1-m2-cB_2clb-a1-m2-cA 2clb-a1-m2-cD_2clb-a1-m1-cC 2clb-a1-m3-cB_2clb-a1-m3-cA 2clb-a1-m3-cD_2clb-a1-m2-cC 2clb-a2-m1-cN_2clb-a2-m1-cM 2clb-a2-m1-cP_2clb-a2-m5-cO 2clb-a2-m4-cN_2clb-a2-m4-cM 2clb-a2-m4-cP_2clb-a2-m1-cO 2clb-a2-m5-cN_2clb-a2-m5-cM EPKVVGVEILEKSGLDIKKLVDKLVKATAAEFTTYYYYTILRHLTGEGEGLKEIAEDARLEDRLHFELTQRIYELGGGLPRDIRQLADISACSDAYLPENWKDPKEILKVLLEAEQCAIRTWKEVCDTYGKDPRTYDLAQRILQEEIEHEAWFLELLYGRPSGH QEPKVVGVEILEKSGLDIKKLVDKLVKATAAEFTTYYYYTILRHLTGEGEGLKEIAEDARLEDRLHFELTQRIYELGGGLPRDIRQLADISACSDAYLPENWKDPKEILKVLLEAEQCAIRTWKEVCDTYGKDPRTYDLAQRILQEEIEHEAWFLELLYGRPSGH 2clb-a2-m5-cP_2clb-a2-m5-cO The structure of the DPS-like protein from Sulfolobus solfataricus reveals a bacterioferritin-like di-metal binding site within a Dps- like dodecameric assembly P95855 P95855 2.4 X-RAY DIFFRACTION 24 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 164 165 2clb-a1-m1-cA_2clb-a1-m2-cA 2clb-a1-m1-cA_2clb-a1-m3-cA 2clb-a1-m1-cB_2clb-a1-m1-cC 2clb-a1-m1-cB_2clb-a1-m1-cD 2clb-a1-m1-cD_2clb-a1-m1-cC 2clb-a1-m2-cA_2clb-a1-m3-cA 2clb-a1-m2-cB_2clb-a1-m2-cC 2clb-a1-m2-cB_2clb-a1-m2-cD 2clb-a1-m2-cD_2clb-a1-m2-cC 2clb-a1-m3-cB_2clb-a1-m3-cC 2clb-a1-m3-cB_2clb-a1-m3-cD 2clb-a1-m3-cD_2clb-a1-m3-cC 2clb-a2-m1-cM_2clb-a2-m4-cM 2clb-a2-m1-cM_2clb-a2-m5-cM 2clb-a2-m1-cN_2clb-a2-m1-cO 2clb-a2-m1-cN_2clb-a2-m1-cP 2clb-a2-m1-cP_2clb-a2-m1-cO 2clb-a2-m4-cM_2clb-a2-m5-cM 2clb-a2-m4-cN_2clb-a2-m4-cO 2clb-a2-m4-cN_2clb-a2-m4-cP 2clb-a2-m4-cP_2clb-a2-m4-cO 2clb-a2-m5-cN_2clb-a2-m5-cO 2clb-a2-m5-cN_2clb-a2-m5-cP EPKVVGVEILEKSGLDIKKLVDKLVKATAAEFTTYYYYTILRHLTGEGEGLKEIAEDARLEDRLHFELTQRIYELGGGLPRDIRQLADISACSDAYLPENWKDPKEILKVLLEAEQCAIRTWKEVCDTYGKDPRTYDLAQRILQEEIEHEAWFLELLYGRPSGH QEPKVVGVEILEKSGLDIKKLVDKLVKATAAEFTTYYYYTILRHLTGEGEGLKEIAEDARLEDRLHFELTQRIYELGGGLPRDIRQLADISACSDAYLPENWKDPKEILKVLLEAEQCAIRTWKEVCDTYGKDPRTYDLAQRILQEEIEHEAWFLELLYGRPSGH 2clp-a3-m1-cE_2clp-a3-m1-cF Crystal structure of human aflatoxin B1 aldehyde reductase member 3 O95154 O95154 3 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 323 2clp-a1-m1-cA_2clp-a1-m1-cB 2clp-a2-m1-cC_2clp-a2-m1-cD 2clp-a4-m1-cG_2clp-a4-m1-cH 2clp-a5-m1-cI_2clp-a5-m1-cJ 2clp-a6-m1-cK_2clp-a6-m2-cK RPATVLGAMEMGRRMDAPTSAAVTRAFLERGHTEIDTAFVYSEGQSETILGGLGLRLGGSDCRVKIDTKAIPLFGNSLKPDSLRFQLETSLKRLQCPRVDLFYLHMPDHSTPVEETLRACHQLHQEGKFVELGLSNYAAWEVAEICTLCKSNGWILPTVYQGMYNAITRQVETELFPCLRHFGLRFYAFNPLAGGLLTGKYKYEDKDGKQPVGRFFGNTWAEMYRNRYWKEHHFEGIALVEKALQAAYGASAPSMTSATLRWMYHHSQLQGAHGDAVILGMSSLEQLEQNLAAAEEGPLEPAVVDAFNQAWHLVAHECPNYFR RPATVLGAMEMGRRMDAPTSAAVTRAFLERGHTEIDTAFVYSEGQSETILGGLGLRLGGSDCRVKIDTKAIPLFGNSLKPDSLRFQLETSLKRLQCPRVDLFYLHMPDHSTPVEETLRACHQLHQEGKFVELGLSNYAAWEVAEICTLCKSNGWILPTVYQGMYNAITRQVETELFPCLRHFGLRFYAFNPLAGGLLTGKYKYEDKDGKQPVGRFFGNTWAEMYRNRYWKEHHFEGIALVEKALQAAYGASAPSMTSATLRWMYHHSQLQGAHGDAVILGMSSLEQLEQNLAAAEEGPLEPAVVDAFNQAWHLVAHECPNYFR 2cm3-a1-m1-cA_2cm3-a1-m2-cA Structure of Protein Tyrosine Phosphatase 1B (C2) P18031 P18031 2.1 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF 2cm3-a1-m1-cA_2cm3-a1-m2-cB Structure of Protein Tyrosine Phosphatase 1B (C2) P18031 P18031 2.1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 2cm3-a1-m1-cB_2cm3-a1-m2-cA FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF 2cm3-a1-m1-cB_2cm3-a1-m2-cB Structure of Protein Tyrosine Phosphatase 1B (C2) P18031 P18031 2.1 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF 2cm3-a1-m2-cA_2cm3-a1-m2-cB Structure of Protein Tyrosine Phosphatase 1B (C2) P18031 P18031 2.1 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 2cm3-a1-m1-cA_2cm3-a1-m1-cB FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF FEQIDKSGSWAAIYQDIRHEASDFPCRVAKLPKNKNRNRYRDVSPFDHSRIKLHQEDNDYINASLIKMEEAQRSYILTQGPLPNTCGHFWEMVWEQKSRGVVMLNRVMEKGSLKCAQYWPQKEEKEMIFEDTNLKLTLISEDIKSYYTVRQLELENLTTQETREILHFHYTTWPDFGVPESPASFLNFLFKVRESGSLSPEHGPVVVHCSAGIGRSGTFCLADTCLLLMDKRKDPSSVDIKKVLLEMRKFRMGLIQTADQLRFSYLAVIEGAKF 2cme-a2-m1-cC_2cme-a2-m1-cD The crystal structure of SARS coronavirus ORF-9b protein P59636 P59636 2.8 X-RAY DIFFRACTION 105 1.0 76 76 2cme-a1-m1-cA_2cme-a1-m1-cB 2cme-a3-m1-cF_2cme-a3-m1-cE 2cme-a4-m1-cH_2cme-a4-m1-cG PPALHLVDPQIQLTITDPKVYPIILRLGSNLSLSMARRNLDSLEARAFQSTPIVVQMTKLATTEELPDEFVVVTAK PPALHLVDPQIQLTITDPKVYPIILRLGSNLSLSMARRNLDSLEARAFQSTPIVVQMTKLATTEELPDEFVVVTAK 2cmh-a1-m1-cB_2cmh-a1-m2-cC Crystal Structure of Spermidine Synthase from Helicobacter Pylori O25503 O25503 2.3 X-RAY DIFFRACTION 21 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 262 262 2cmh-a1-m1-cC_2cmh-a1-m2-cB MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS 2cmh-a2-m1-cA_2cmh-a2-m1-cC Crystal Structure of Spermidine Synthase from Helicobacter Pylori O25503 O25503 2.3 X-RAY DIFFRACTION 25 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 262 262 MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS 2cmh-a2-m1-cB_2cmh-a2-m1-cC Crystal Structure of Spermidine Synthase from Helicobacter Pylori O25503 O25503 2.3 X-RAY DIFFRACTION 124 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 262 262 2cmg-a1-m1-cA_2cmg-a1-m1-cB 2cmh-a1-m1-cB_2cmh-a1-m1-cC 2cmh-a1-m2-cB_2cmh-a1-m2-cC 2cmh-a2-m1-cA_2cmh-a2-m3-cA 5x0z-a1-m1-cA_5x0z-a1-m1-cB 5x0z-a2-m1-cC_5x0z-a2-m1-cD MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS 2cmh-a2-m1-cB_2cmh-a2-m3-cA Crystal Structure of Spermidine Synthase from Helicobacter Pylori O25503 O25503 2.3 X-RAY DIFFRACTION 58 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 262 262 MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS MWITQEITPYLRKEYTIEAKLLDVRSEHNILEIFKSKDFGEIAMLNRQLLFKNFLHIESELLAHMGGCTKKELKEVLIVDGFDLELAHQLFKYDTHIDFVQADEKILDSFISFFPHFHEVKNNKNFTHAKQLLDLDIKKYDLIFCLQEPDIHRIDGLKRMLKEDGVFISVAKHPLLEHVSMQNALKNMGGVFSVAMPFVAPLRILSNKGYIYASFKTHPLKDLMTPKIEALTSVRYYNEDIHRAAFALPKNLQEVFKDNIKS 2cmn-a1-m1-cA_2cmn-a1-m6-cA A Proximal Arginine Residue in the Switching Mechanism of the FixL Oxygen Sensor P23222 P23222 2.3 X-RAY DIFFRACTION 40 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 117 117 2cmn-a1-m2-cA_2cmn-a1-m5-cA 2cmn-a1-m3-cA_2cmn-a1-m4-cA DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISAYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEHQQTQARLQELQ DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISAYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEHQQTQARLQELQ 2cmn-a1-m3-cA_2cmn-a1-m6-cA A Proximal Arginine Residue in the Switching Mechanism of the FixL Oxygen Sensor P23222 P23222 2.3 X-RAY DIFFRACTION 21 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 117 117 2cmn-a1-m1-cA_2cmn-a1-m4-cA 2cmn-a1-m1-cA_2cmn-a1-m5-cA 2cmn-a1-m2-cA_2cmn-a1-m3-cA 2cmn-a1-m2-cA_2cmn-a1-m6-cA 2cmn-a1-m4-cA_2cmn-a1-m5-cA DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISAYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEHQQTQARLQELQ DAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISAYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLTEHQQTQARLQELQ 2cmu-a1-m1-cA_2cmu-a1-m2-cA Crystal structure of a putative peptidyl-arginine deiminase O24890 O24890 2.5 X-RAY DIFFRACTION 54 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 326 326 SLKRLAEFEKIQAILAFPHEFSDWAYCIKEARESFLNIIQTIAKHAKVLVCVHTNDTIGYELKNLPGVEIAKVDTNDTWARDFGAISIENHGVLECLDFGFNGWGLKYPSNLDNQVNFKLKSLGFLKHPLKTPYVLEGGSIESDGAGSILTNTQCLLEKNRNPHLNQNGIETLKKELGAKQVLWYSYGYLKGDDTDSHTDTLARFLDKDTIVYSACEDKNDEHYTALKKQEELKTFKKLDKTPYKLIPLEIPKAIFDENQQRLPATYVNFLLCNDALIVPTYNDPKDALILETLKQHTPLEVIGVDCNTLIKQHGSLHCVTQLYEG SLKRLAEFEKIQAILAFPHEFSDWAYCIKEARESFLNIIQTIAKHAKVLVCVHTNDTIGYELKNLPGVEIAKVDTNDTWARDFGAISIENHGVLECLDFGFNGWGLKYPSNLDNQVNFKLKSLGFLKHPLKTPYVLEGGSIESDGAGSILTNTQCLLEKNRNPHLNQNGIETLKKELGAKQVLWYSYGYLKGDDTDSHTDTLARFLDKDTIVYSACEDKNDEHYTALKKQEELKTFKKLDKTPYKLIPLEIPKAIFDENQQRLPATYVNFLLCNDALIVPTYNDPKDALILETLKQHTPLEVIGVDCNTLIKQHGSLHCVTQLYEG 2cn1-a1-m1-cA_2cn1-a1-m2-cA Crystal structure of Human Cytosolic 5'-Nucleotidase III (NT5C3)(CASP TARGET) Q9H0P0 Q9H0P0 2.67 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 NPTRVEEIICGLIKGGAAKLQIITDFDMTLSRFSYKGKRCPTCHNIIDNCKLVTDECRKKLLQLKEKYYAIEVDPVLTVEEKYPYMVEWYTKSHGLLVQQALPKAKLKEIVAESDVMLKEGYENFFDKLQQHSIPVFIFSAGIGDVLEEVIRQAGVYHPNVKVVSNFMDFDETGVLKGFKGELIHVFNKHDGALRNTEYFNQLKDNSNIILLGDSQGDLRMADGVANVEHILKIGYLNDRVDELLEKYMDSYDIVLVQDESLEVANSILQKIL NPTRVEEIICGLIKGGAAKLQIITDFDMTLSRFSYKGKRCPTCHNIIDNCKLVTDECRKKLLQLKEKYYAIEVDPVLTVEEKYPYMVEWYTKSHGLLVQQALPKAKLKEIVAESDVMLKEGYENFFDKLQQHSIPVFIFSAGIGDVLEEVIRQAGVYHPNVKVVSNFMDFDETGVLKGFKGELIHVFNKHDGALRNTEYFNQLKDNSNIILLGDSQGDLRMADGVANVEHILKIGYLNDRVDELLEKYMDSYDIVLVQDESLEVANSILQKIL 2cn4-a1-m1-cA_2cn4-a1-m1-cB The crystal structure of the secreted dimeric form of the hemophore HasA reveals a domain swapping with an exchanged heme ligand Q54450 Q54450 2.3 X-RAY DIFFRACTION 302 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 173 173 AFSVNYDSSFGGYSIHDYLGQWASTFGDVNHTNGNVTDANSGGFYGGSLSGSQYAISSTANQVTAFVAGGNLTYTLFNEPAHTLYGQLDSLSFGDGLSGGDTSPYSIQVPDVSFGGLNLSSLQAQGHDGVVHQVVYGLMSGDTGALETALNGILDDYGLSVNSTFDQVAAATA AFSVNYDSSFGGYSIHDYLGQWASTFGDVNHTNGNVTDANSGGFYGGSLSGSQYAISSTANQVTAFVAGGNLTYTLFNEPAHTLYGQLDSLSFGDGLSGGDTSPYSIQVPDVSFGGLNLSSLQAQGHDGVVHQVVYGLMSGDTGALETALNGILDDYGLSVNSTFDQVAAATA 2cnp-a1-m1-cA_2cnp-a1-m1-cB HIGH RESOLUTION SOLUTION STRUCTURE OF APO RABBIT CALCYCLIN, NMR, 22 STRUCTURES P30801 P30801 NOT SOLUTION NMR 108 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 90 90 MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG MASPLDQAIGLLIGIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIVKLMDDLDRNKDQEVNFQEYITFLGALAMIYNEALKG 2co2-a1-m1-cA_2co2-a1-m2-cA Salmonella enterica SafA pilin in complex with a 19-residue SafA Nte peptide (F3A mutant) Q8ZRK4 Q8ZRK4 2.3 X-RAY DIFFRACTION 35 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 121 121 LTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGYQ LTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGYQ 2co3-a1-m1-cA_2co3-a1-m1-cB Salmonella enterica SafA pilin, head-to-tail swapped dimer of Ntd1 mutant Q8ZRK4 Q8ZRK4 1.78 X-RAY DIFFRACTION 167 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 134 135 GSQKSVDIVFSSPQDLTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVG GSQKSVDIVFSSPQDLTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGY 2cov-a1-m1-cF_2cov-a1-m1-cH Crystal structure of CBM31 from beta-1,3-xylanase Q8RS40 Q8RS40 1.25 X-RAY DIFFRACTION 15 1.0 118970 (Alcaligenes sp. XY-234) 118970 (Alcaligenes sp. XY-234) 87 87 2cov-a1-m1-cF_2cov-a1-m1-cD 2cov-a1-m1-cG_2cov-a1-m1-cE 2cov-a1-m1-cG_2cov-a1-m1-cI 2cov-a1-m1-cH_2cov-a1-m1-cD 2cov-a1-m1-cI_2cov-a1-m1-cE CQDDFNFNYVSDQEIEVYHVDKGWSAGWNYVCLNDYCLPGNKSNGAFRKTFNAVLGQDYKLTFKVEDRYGQGQQILDRNITFTTQVC CQDDFNFNYVSDQEIEVYHVDKGWSAGWNYVCLNDYCLPGNKSNGAFRKTFNAVLGQDYKLTFKVEDRYGQGQQILDRNITFTTQVC 2cov-a1-m1-cH_2cov-a1-m1-cE Crystal structure of CBM31 from beta-1,3-xylanase Q8RS40 Q8RS40 1.25 X-RAY DIFFRACTION 13 1.0 118970 (Alcaligenes sp. XY-234) 118970 (Alcaligenes sp. XY-234) 87 92 2cov-a1-m1-cF_2cov-a1-m1-cI 2cov-a1-m1-cG_2cov-a1-m1-cD CQDDFNFNYVSDQEIEVYHVDKGWSAGWNYVCLNDYCLPGNKSNGAFRKTFNAVLGQDYKLTFKVEDRYGQGQQILDRNITFTTQVC PPENCQDDFNFNYVSDQEIEVYHVDKGWSAGWNYVCLNDYCLPGNKSNGAFRKTFNAVLGQDYKLTFKVEDRYGQGQQILDRNITFTTQVCN 2cov-a1-m1-cH_2cov-a1-m1-cI Crystal structure of CBM31 from beta-1,3-xylanase Q8RS40 Q8RS40 1.25 X-RAY DIFFRACTION 31 1.0 118970 (Alcaligenes sp. XY-234) 118970 (Alcaligenes sp. XY-234) 87 88 2cov-a1-m1-cD_2cov-a1-m1-cE 2cov-a1-m1-cF_2cov-a1-m1-cG CQDDFNFNYVSDQEIEVYHVDKGWSAGWNYVCLNDYCLPGNKSNGAFRKTFNAVLGQDYKLTFKVEDRYGQGQQILDRNITFTTQVC CQDDFNFNYVSDQEIEVYHVDKGWSAGWNYVCLNDYCLPGNKSNGAFRKTFNAVLGQDYKLTFKVEDRYGQGQQILDRNITFTTQVCN 2cqz-a1-m1-cA_2cqz-a1-m1-cF Crystal Structure of PH0347 protein from Pyrococcus horikoshii OT3 O58085 O58085 2.6 X-RAY DIFFRACTION 109 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 173 173 2cqz-a1-m1-cB_2cqz-a1-m1-cE 2cqz-a1-m1-cC_2cqz-a1-m1-cD MIEKILLVQTLKRLPRMGWLIKGVQEPESIADHSFGVAFITLVLADVLEKRGKRIDVEKALKMAIVHDLAEAIITDIPLSAQEFVDKDKAEALVFKKVFPEFYELYREYQECSSPEAQLVRIADKLDMILQAYQYELSGNKNLDEFWEAIEEIKRLELSKYLEDILNSVGRLK MIEKILLVQTLKRLPRMGWLIKGVQEPESIADHSFGVAFITLVLADVLEKRGKRIDVEKALKMAIVHDLAEAIITDIPLSAQEFVDKDKAEALVFKKVFPEFYELYREYQECSSPEAQLVRIADKLDMILQAYQYELSGNKNLDEFWEAIEEIKRLELSKYLEDILNSVGRLK 2cqz-a1-m1-cB_2cqz-a1-m1-cF Crystal Structure of PH0347 protein from Pyrococcus horikoshii OT3 O58085 O58085 2.6 X-RAY DIFFRACTION 57 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 173 173 2cqz-a1-m1-cA_2cqz-a1-m1-cD 2cqz-a1-m1-cC_2cqz-a1-m1-cE MIEKILLVQTLKRLPRMGWLIKGVQEPESIADHSFGVAFITLVLADVLEKRGKRIDVEKALKMAIVHDLAEAIITDIPLSAQEFVDKDKAEALVFKKVFPEFYELYREYQECSSPEAQLVRIADKLDMILQAYQYELSGNKNLDEFWEAIEEIKRLELSKYLEDILNSVGRLK MIEKILLVQTLKRLPRMGWLIKGVQEPESIADHSFGVAFITLVLADVLEKRGKRIDVEKALKMAIVHDLAEAIITDIPLSAQEFVDKDKAEALVFKKVFPEFYELYREYQECSSPEAQLVRIADKLDMILQAYQYELSGNKNLDEFWEAIEEIKRLELSKYLEDILNSVGRLK 2cqz-a1-m1-cE_2cqz-a1-m1-cF Crystal Structure of PH0347 protein from Pyrococcus horikoshii OT3 O58085 O58085 2.6 X-RAY DIFFRACTION 18 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 173 173 2cqz-a1-m1-cA_2cqz-a1-m1-cB 2cqz-a1-m1-cA_2cqz-a1-m1-cC 2cqz-a1-m1-cB_2cqz-a1-m1-cC 2cqz-a1-m1-cD_2cqz-a1-m1-cE 2cqz-a1-m1-cD_2cqz-a1-m1-cF MIEKILLVQTLKRLPRMGWLIKGVQEPESIADHSFGVAFITLVLADVLEKRGKRIDVEKALKMAIVHDLAEAIITDIPLSAQEFVDKDKAEALVFKKVFPEFYELYREYQECSSPEAQLVRIADKLDMILQAYQYELSGNKNLDEFWEAIEEIKRLELSKYLEDILNSVGRLK MIEKILLVQTLKRLPRMGWLIKGVQEPESIADHSFGVAFITLVLADVLEKRGKRIDVEKALKMAIVHDLAEAIITDIPLSAQEFVDKDKAEALVFKKVFPEFYELYREYQECSSPEAQLVRIADKLDMILQAYQYELSGNKNLDEFWEAIEEIKRLELSKYLEDILNSVGRLK 2cro-a1-m2-cA_2cro-a1-m3-cA STRUCTURE OF PHAGE 434 CRO PROTEIN AT 2.35 ANGSTROMS RESOLUTION P03036 P03036 2.35 X-RAY DIFFRACTION 16 1.0 10712 (Phage 434) 10712 (Phage 434) 65 65 2cro-a1-m1-cA_2cro-a1-m2-cA 2cro-a1-m1-cA_2cro-a1-m3-cA MQTLSERLKKRRIALKMTQTELATKAGVKQQSIQLIEAGVTKRPRFLFEIAMALNCDPVWLQYGT MQTLSERLKKRRIALKMTQTELATKAGVKQQSIQLIEAGVTKRPRFLFEIAMALNCDPVWLQYGT 2cse-a1-m51-cQ_2cse-a1-m9-cT Features of Reovirus Outer-Capsid Protein mu1 Revealed by Electron and Image Reconstruction of the virion at 7.0-A Resolution P11077 P11077 7.0 ELECTRON MICROSCOPY 24 1.0 10884 (Mammalian orthoreovirus 1 Lang) 10884 (Mammalian orthoreovirus 1 Lang) 641 641 2cse-a1-m10-cA_2cse-a1-m10-cR 2cse-a1-m10-cB_2cse-a1-m24-cB 2cse-a1-m10-cC_2cse-a1-m10-cJ 2cse-a1-m10-cK_2cse-a1-m6-cP 2cse-a1-m10-cP_2cse-a1-m9-cK 2cse-a1-m10-cQ_2cse-a1-m55-cT 2cse-a1-m10-cT_2cse-a1-m25-cQ 2cse-a1-m11-cA_2cse-a1-m11-cR 2cse-a1-m11-cB_2cse-a1-m16-cB 2cse-a1-m11-cC_2cse-a1-m11-cJ 2cse-a1-m11-cK_2cse-a1-m12-cP 2cse-a1-m11-cP_2cse-a1-m15-cK 2cse-a1-m11-cQ_2cse-a1-m29-cT 2cse-a1-m11-cT_2cse-a1-m17-cQ 2cse-a1-m12-cA_2cse-a1-m12-cR 2cse-a1-m12-cB_2cse-a1-m38-cB 2cse-a1-m12-cC_2cse-a1-m12-cJ 2cse-a1-m12-cK_2cse-a1-m13-cP 2cse-a1-m12-cQ_2cse-a1-m16-cT 2cse-a1-m12-cT_2cse-a1-m39-cQ 2cse-a1-m13-cA_2cse-a1-m13-cR 2cse-a1-m13-cB_2cse-a1-m47-cB 2cse-a1-m13-cC_2cse-a1-m13-cJ 2cse-a1-m13-cK_2cse-a1-m14-cP 2cse-a1-m13-cQ_2cse-a1-m38-cT 2cse-a1-m13-cT_2cse-a1-m48-cQ 2cse-a1-m14-cA_2cse-a1-m14-cR 2cse-a1-m14-cB_2cse-a1-m45-cB 2cse-a1-m14-cC_2cse-a1-m14-cJ 2cse-a1-m14-cK_2cse-a1-m15-cP 2cse-a1-m14-cQ_2cse-a1-m47-cT 2cse-a1-m14-cT_2cse-a1-m41-cQ 2cse-a1-m15-cA_2cse-a1-m15-cR 2cse-a1-m15-cB_2cse-a1-m29-cB 2cse-a1-m15-cC_2cse-a1-m15-cJ 2cse-a1-m15-cQ_2cse-a1-m45-cT 2cse-a1-m15-cT_2cse-a1-m30-cQ 2cse-a1-m16-cA_2cse-a1-m16-cR 2cse-a1-m16-cC_2cse-a1-m16-cJ 2cse-a1-m16-cK_2cse-a1-m17-cP 2cse-a1-m16-cP_2cse-a1-m20-cK 2cse-a1-m16-cQ_2cse-a1-m39-cT 2cse-a1-m17-cA_2cse-a1-m17-cR 2cse-a1-m17-cB_2cse-a1-m28-cB 2cse-a1-m17-cC_2cse-a1-m17-cJ 2cse-a1-m17-cK_2cse-a1-m18-cP 2cse-a1-m17-cT_2cse-a1-m29-cQ 2cse-a1-m18-cA_2cse-a1-m18-cR 2cse-a1-m18-cB_2cse-a1-m52-cB 2cse-a1-m18-cC_2cse-a1-m18-cJ 2cse-a1-m18-cK_2cse-a1-m19-cP 2cse-a1-m18-cQ_2cse-a1-m28-cT 2cse-a1-m18-cT_2cse-a1-m53-cQ 2cse-a1-m19-cA_2cse-a1-m19-cR 2cse-a1-m19-cB_2cse-a1-m60-cB 2cse-a1-m19-cC_2cse-a1-m19-cJ 2cse-a1-m19-cK_2cse-a1-m20-cP 2cse-a1-m19-cQ_2cse-a1-m52-cT 2cse-a1-m19-cT_2cse-a1-m56-cQ 2cse-a1-m1-cA_2cse-a1-m1-cR 2cse-a1-m1-cB_2cse-a1-m6-cB 2cse-a1-m1-cC_2cse-a1-m1-cJ 2cse-a1-m1-cK_2cse-a1-m2-cP 2cse-a1-m1-cP_2cse-a1-m5-cK 2cse-a1-m1-cQ_2cse-a1-m34-cT 2cse-a1-m1-cT_2cse-a1-m7-cQ 2cse-a1-m20-cA_2cse-a1-m20-cR 2cse-a1-m20-cB_2cse-a1-m39-cB 2cse-a1-m20-cC_2cse-a1-m20-cJ 2cse-a1-m20-cQ_2cse-a1-m60-cT 2cse-a1-m20-cT_2cse-a1-m40-cQ 2cse-a1-m21-cA_2cse-a1-m21-cR 2cse-a1-m21-cB_2cse-a1-m26-cB 2cse-a1-m21-cC_2cse-a1-m21-cJ 2cse-a1-m21-cK_2cse-a1-m22-cP 2cse-a1-m21-cP_2cse-a1-m25-cK 2cse-a1-m21-cQ_2cse-a1-m54-cT 2cse-a1-m21-cT_2cse-a1-m27-cQ 2cse-a1-m22-cA_2cse-a1-m22-cR 2cse-a1-m22-cB_2cse-a1-m43-cB 2cse-a1-m22-cC_2cse-a1-m22-cJ 2cse-a1-m22-cK_2cse-a1-m23-cP 2cse-a1-m22-cQ_2cse-a1-m26-cT 2cse-a1-m22-cT_2cse-a1-m44-cQ 2cse-a1-m23-cA_2cse-a1-m23-cR 2cse-a1-m23-cC_2cse-a1-m23-cJ 2cse-a1-m23-cK_2cse-a1-m24-cP 2cse-a1-m23-cQ_2cse-a1-m43-cT 2cse-a1-m23-cT_2cse-a1-m3-cQ 2cse-a1-m24-cA_2cse-a1-m24-cR 2cse-a1-m24-cC_2cse-a1-m24-cJ 2cse-a1-m24-cK_2cse-a1-m25-cP 2cse-a1-m24-cT_2cse-a1-m6-cQ 2cse-a1-m25-cA_2cse-a1-m25-cR 2cse-a1-m25-cB_2cse-a1-m54-cB 2cse-a1-m25-cC_2cse-a1-m25-cJ 2cse-a1-m25-cT_2cse-a1-m55-cQ 2cse-a1-m26-cA_2cse-a1-m26-cR 2cse-a1-m26-cC_2cse-a1-m26-cJ 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2cse-a1-m8-cC_2cse-a1-m8-cJ 2cse-a1-m8-cK_2cse-a1-m9-cP 2cse-a1-m9-cA_2cse-a1-m9-cR 2cse-a1-m9-cC_2cse-a1-m9-cJ 7ell-a1-m1-cb_7ell-a1-m1-cd 7ell-a1-m1-ch_7ell-a1-m1-ce TINVTGDGNVFKPSAETSSTAVPSLSLSPGMLNPGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP 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2cse-a1-m6-cL_2cse-a1-m7-cQ 2cse-a1-m7-cA_2cse-a1-m7-cK 2cse-a1-m7-cB_2cse-a1-m7-cP 2cse-a1-m7-cL_2cse-a1-m8-cQ 2cse-a1-m8-cA_2cse-a1-m8-cK 2cse-a1-m8-cB_2cse-a1-m8-cP 2cse-a1-m8-cL_2cse-a1-m9-cQ 2cse-a1-m9-cA_2cse-a1-m9-cK 2cse-a1-m9-cB_2cse-a1-m9-cP 7ell-a1-m1-cc_7ell-a1-m1-ce 7ell-a1-m1-cf_7ell-a1-m1-ci 7ell-a1-m1-ch_7ell-a1-m1-cj TINVTGDGNVFKPSAETSSTAVPSLSLSPGMLNPGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP TINVTGDGNVFKPSAETSSTAVPSLSLSPGMLNPGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP 2cse-a1-m7-c1_2cse-a1-m9-c1 Features of Reovirus Outer-Capsid Protein mu1 Revealed by Electron and Image Reconstruction of the virion at 7.0-A Resolution P0CK32 P0CK32 7.0 ELECTRON MICROSCOPY 1549 1.0 10884 (Mammalian orthoreovirus 1 Lang) 10884 (Mammalian orthoreovirus 1 Lang) 1264 1264 2cse-a1-m10-c1_2cse-a1-m7-c1 2cse-a1-m10-c1_2cse-a1-m8-c1 2cse-a1-m11-c1_2cse-a1-m13-c1 2cse-a1-m11-c1_2cse-a1-m14-c1 2cse-a1-m12-c1_2cse-a1-m14-c1 2cse-a1-m12-c1_2cse-a1-m15-c1 2cse-a1-m13-c1_2cse-a1-m15-c1 2cse-a1-m16-c1_2cse-a1-m18-c1 2cse-a1-m16-c1_2cse-a1-m19-c1 2cse-a1-m17-c1_2cse-a1-m19-c1 2cse-a1-m17-c1_2cse-a1-m20-c1 2cse-a1-m18-c1_2cse-a1-m20-c1 2cse-a1-m1-c1_2cse-a1-m3-c1 2cse-a1-m1-c1_2cse-a1-m4-c1 2cse-a1-m21-c1_2cse-a1-m23-c1 2cse-a1-m21-c1_2cse-a1-m24-c1 2cse-a1-m22-c1_2cse-a1-m24-c1 2cse-a1-m22-c1_2cse-a1-m25-c1 2cse-a1-m23-c1_2cse-a1-m25-c1 2cse-a1-m26-c1_2cse-a1-m28-c1 2cse-a1-m26-c1_2cse-a1-m29-c1 2cse-a1-m27-c1_2cse-a1-m29-c1 2cse-a1-m27-c1_2cse-a1-m30-c1 2cse-a1-m28-c1_2cse-a1-m30-c1 2cse-a1-m2-c1_2cse-a1-m4-c1 2cse-a1-m2-c1_2cse-a1-m5-c1 2cse-a1-m31-c1_2cse-a1-m33-c1 2cse-a1-m31-c1_2cse-a1-m34-c1 2cse-a1-m32-c1_2cse-a1-m34-c1 2cse-a1-m32-c1_2cse-a1-m35-c1 2cse-a1-m33-c1_2cse-a1-m35-c1 2cse-a1-m36-c1_2cse-a1-m38-c1 2cse-a1-m36-c1_2cse-a1-m39-c1 2cse-a1-m37-c1_2cse-a1-m39-c1 2cse-a1-m37-c1_2cse-a1-m40-c1 2cse-a1-m38-c1_2cse-a1-m40-c1 2cse-a1-m3-c1_2cse-a1-m5-c1 2cse-a1-m41-c1_2cse-a1-m43-c1 2cse-a1-m41-c1_2cse-a1-m44-c1 2cse-a1-m42-c1_2cse-a1-m44-c1 2cse-a1-m42-c1_2cse-a1-m45-c1 2cse-a1-m43-c1_2cse-a1-m45-c1 2cse-a1-m46-c1_2cse-a1-m48-c1 2cse-a1-m46-c1_2cse-a1-m49-c1 2cse-a1-m47-c1_2cse-a1-m49-c1 2cse-a1-m47-c1_2cse-a1-m50-c1 2cse-a1-m48-c1_2cse-a1-m50-c1 2cse-a1-m51-c1_2cse-a1-m53-c1 2cse-a1-m51-c1_2cse-a1-m54-c1 2cse-a1-m52-c1_2cse-a1-m54-c1 2cse-a1-m52-c1_2cse-a1-m55-c1 2cse-a1-m53-c1_2cse-a1-m55-c1 2cse-a1-m56-c1_2cse-a1-m58-c1 2cse-a1-m56-c1_2cse-a1-m59-c1 2cse-a1-m57-c1_2cse-a1-m59-c1 2cse-a1-m57-c1_2cse-a1-m60-c1 2cse-a1-m58-c1_2cse-a1-m60-c1 2cse-a1-m6-c1_2cse-a1-m8-c1 2cse-a1-m6-c1_2cse-a1-m9-c1 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2cse-a1-m8-c1_2cse-a1-m9-c1 Features of Reovirus Outer-Capsid Protein mu1 Revealed by Electron and Image Reconstruction of the virion at 7.0-A Resolution P0CK32 P0CK32 7.0 ELECTRON MICROSCOPY 5027 1.0 10884 (Mammalian orthoreovirus 1 Lang) 10884 (Mammalian orthoreovirus 1 Lang) 1264 1264 2cse-a1-m10-c1_2cse-a1-m6-c1 2cse-a1-m10-c1_2cse-a1-m9-c1 2cse-a1-m11-c1_2cse-a1-m12-c1 2cse-a1-m11-c1_2cse-a1-m15-c1 2cse-a1-m12-c1_2cse-a1-m13-c1 2cse-a1-m13-c1_2cse-a1-m14-c1 2cse-a1-m14-c1_2cse-a1-m15-c1 2cse-a1-m16-c1_2cse-a1-m17-c1 2cse-a1-m16-c1_2cse-a1-m20-c1 2cse-a1-m17-c1_2cse-a1-m18-c1 2cse-a1-m18-c1_2cse-a1-m19-c1 2cse-a1-m19-c1_2cse-a1-m20-c1 2cse-a1-m1-c1_2cse-a1-m2-c1 2cse-a1-m1-c1_2cse-a1-m5-c1 2cse-a1-m21-c1_2cse-a1-m22-c1 2cse-a1-m21-c1_2cse-a1-m25-c1 2cse-a1-m22-c1_2cse-a1-m23-c1 2cse-a1-m23-c1_2cse-a1-m24-c1 2cse-a1-m24-c1_2cse-a1-m25-c1 2cse-a1-m26-c1_2cse-a1-m27-c1 2cse-a1-m26-c1_2cse-a1-m30-c1 2cse-a1-m27-c1_2cse-a1-m28-c1 2cse-a1-m28-c1_2cse-a1-m29-c1 2cse-a1-m29-c1_2cse-a1-m30-c1 2cse-a1-m2-c1_2cse-a1-m3-c1 2cse-a1-m31-c1_2cse-a1-m32-c1 2cse-a1-m31-c1_2cse-a1-m35-c1 2cse-a1-m32-c1_2cse-a1-m33-c1 2cse-a1-m33-c1_2cse-a1-m34-c1 2cse-a1-m34-c1_2cse-a1-m35-c1 2cse-a1-m36-c1_2cse-a1-m37-c1 2cse-a1-m36-c1_2cse-a1-m40-c1 2cse-a1-m37-c1_2cse-a1-m38-c1 2cse-a1-m38-c1_2cse-a1-m39-c1 2cse-a1-m39-c1_2cse-a1-m40-c1 2cse-a1-m3-c1_2cse-a1-m4-c1 2cse-a1-m41-c1_2cse-a1-m42-c1 2cse-a1-m41-c1_2cse-a1-m45-c1 2cse-a1-m42-c1_2cse-a1-m43-c1 2cse-a1-m43-c1_2cse-a1-m44-c1 2cse-a1-m44-c1_2cse-a1-m45-c1 2cse-a1-m46-c1_2cse-a1-m47-c1 2cse-a1-m46-c1_2cse-a1-m50-c1 2cse-a1-m47-c1_2cse-a1-m48-c1 2cse-a1-m48-c1_2cse-a1-m49-c1 2cse-a1-m49-c1_2cse-a1-m50-c1 2cse-a1-m4-c1_2cse-a1-m5-c1 2cse-a1-m51-c1_2cse-a1-m52-c1 2cse-a1-m51-c1_2cse-a1-m55-c1 2cse-a1-m52-c1_2cse-a1-m53-c1 2cse-a1-m53-c1_2cse-a1-m54-c1 2cse-a1-m54-c1_2cse-a1-m55-c1 2cse-a1-m56-c1_2cse-a1-m57-c1 2cse-a1-m56-c1_2cse-a1-m60-c1 2cse-a1-m57-c1_2cse-a1-m58-c1 2cse-a1-m58-c1_2cse-a1-m59-c1 2cse-a1-m59-c1_2cse-a1-m60-c1 2cse-a1-m6-c1_2cse-a1-m7-c1 2cse-a1-m7-c1_2cse-a1-m8-c1 SSMILTQFRPFIESISGITDQSNDVFEDAAKAFSMFTRSDVYKALDEIPFSDDAMLPIPPTIYTKPSHDSYYYIDALNRVRRKTYQGPDDVYVPNCSIVELLEPHETLTSYGRLSEAIENRAKDGDSQARIATTYGRIAESQARQIKAPLEKFVLALLVSEAGGSLYDPVLQKYDEIPDLSHNCPLWCFREICRHISGPLPDRAPYLYLSAGVFWLMSPRMTSAIPPLLSDLVNLAILQQTAGLDPSLVKLGVQICLHAAASSSYAWFILKTKSIFPQNTLHSMYESLEGGYCPNLEWLEPRSDYKFMYMGVMPLSTKYARSAPSNDKKARELGEKYGLSSVVSELRKRTKTYVKHDFASVRYIRDAMACTSGIFLVRTPTETVLQEYTQSPEIKVPIPQKDWTGPVGEIRILKDTTSSIARYLYRTWYLAAARMAAQPRTWDPLFQAIMRSQYVTARGGSGAALRESLYAINVSLPDFKGLPVKAATKIFQAAQLANLPFSHTSVAILADTSMGLRNQVQRRPRSIMPLNVPQQQVSAPHTLTADYINYHMNLSTTSGSAVIEKVIPLGVYASSPPNQSINIDISACDASITWDFFLSVIMAAIHEGVASGSIGKPFMGVPASIVNDESVVGVRAARPISGMQNMIQHLSKLYKRGFSYRVNDSFSPGNDFTHMTTTFPSGSTATSTEHTANNSTMMETFLTVWGPEHTDDPDVLRLMKSLTIQRNYVCQGDDGLMIIDGNTAGKVNSETIQKMLELISKYGEEFGWKYDIAYDGTAEYLKLYFIFGCRIPNLSRHPIVGKERANSSAEEPWPAILDQIMGIFFNGVHDGLQWQRWIRYSWALCCAFSRQRTMIGESVGYLQYPMWSFVYWGLPLVKVFGSDPWIFSWYMPTGDLGMYSWISLIRPLMTRWMVANGYATDRCSPVFGNADYRRCFNEIKLYQGYYMAQLPRNPTKSGRAAPREVREQFTQALSDYLMQNPELKSRVLRGRSEWEKYGAGIIHNPPSLFDVPHKWYLGAQEAATATREELAEMDETLMRARRHSYSSFSKLLEAYLLVKWRMCEAREPSVDLRLPLCAGIDPLNSDPFLKMVSVGPMLQSTRKYFAQTLFMAKTVSGLDVNAIDSALLRLRTLGADKKALTAQLLMVGLQESEADALAGKIMLQDVSTVQLARVVNLAVPDTWMSLDFDSMFKHHVKLLPKDGRHLNTDIPPRMGWLRAILRFLGAGMVMTATGVAVDIYLEDIHGGGRALGQRFMTWMRQEGR SSMILTQFRPFIESISGITDQSNDVFEDAAKAFSMFTRSDVYKALDEIPFSDDAMLPIPPTIYTKPSHDSYYYIDALNRVRRKTYQGPDDVYVPNCSIVELLEPHETLTSYGRLSEAIENRAKDGDSQARIATTYGRIAESQARQIKAPLEKFVLALLVSEAGGSLYDPVLQKYDEIPDLSHNCPLWCFREICRHISGPLPDRAPYLYLSAGVFWLMSPRMTSAIPPLLSDLVNLAILQQTAGLDPSLVKLGVQICLHAAASSSYAWFILKTKSIFPQNTLHSMYESLEGGYCPNLEWLEPRSDYKFMYMGVMPLSTKYARSAPSNDKKARELGEKYGLSSVVSELRKRTKTYVKHDFASVRYIRDAMACTSGIFLVRTPTETVLQEYTQSPEIKVPIPQKDWTGPVGEIRILKDTTSSIARYLYRTWYLAAARMAAQPRTWDPLFQAIMRSQYVTARGGSGAALRESLYAINVSLPDFKGLPVKAATKIFQAAQLANLPFSHTSVAILADTSMGLRNQVQRRPRSIMPLNVPQQQVSAPHTLTADYINYHMNLSTTSGSAVIEKVIPLGVYASSPPNQSINIDISACDASITWDFFLSVIMAAIHEGVASGSIGKPFMGVPASIVNDESVVGVRAARPISGMQNMIQHLSKLYKRGFSYRVNDSFSPGNDFTHMTTTFPSGSTATSTEHTANNSTMMETFLTVWGPEHTDDPDVLRLMKSLTIQRNYVCQGDDGLMIIDGNTAGKVNSETIQKMLELISKYGEEFGWKYDIAYDGTAEYLKLYFIFGCRIPNLSRHPIVGKERANSSAEEPWPAILDQIMGIFFNGVHDGLQWQRWIRYSWALCCAFSRQRTMIGESVGYLQYPMWSFVYWGLPLVKVFGSDPWIFSWYMPTGDLGMYSWISLIRPLMTRWMVANGYATDRCSPVFGNADYRRCFNEIKLYQGYYMAQLPRNPTKSGRAAPREVREQFTQALSDYLMQNPELKSRVLRGRSEWEKYGAGIIHNPPSLFDVPHKWYLGAQEAATATREELAEMDETLMRARRHSYSSFSKLLEAYLLVKWRMCEAREPSVDLRLPLCAGIDPLNSDPFLKMVSVGPMLQSTRKYFAQTLFMAKTVSGLDVNAIDSALLRLRTLGADKKALTAQLLMVGLQESEADALAGKIMLQDVSTVQLARVVNLAVPDTWMSLDFDSMFKHHVKLLPKDGRHLNTDIPPRMGWLRAILRFLGAGMVMTATGVAVDIYLEDIHGGGRALGQRFMTWMRQEGR 2cse-a1-m9-cQ_2cse-a1-m9-cR Features of Reovirus Outer-Capsid Protein mu1 Revealed by Electron and Image Reconstruction of the virion at 7.0-A Resolution P11077 P11077 7.0 ELECTRON MICROSCOPY 283 1.0 10884 (Mammalian orthoreovirus 1 Lang) 10884 (Mammalian orthoreovirus 1 Lang) 641 641 1jmu-a1-m1-cA_1jmu-a1-m1-cC 1jmu-a1-m1-cA_1jmu-a1-m1-cE 1jmu-a1-m1-cC_1jmu-a1-m1-cE 2cse-a1-m10-cA_2cse-a1-m10-cC 2cse-a1-m10-cJ_2cse-a1-m10-cK 2cse-a1-m10-cQ_2cse-a1-m10-cR 2cse-a1-m11-cA_2cse-a1-m11-cC 2cse-a1-m11-cJ_2cse-a1-m11-cK 2cse-a1-m11-cQ_2cse-a1-m11-cR 2cse-a1-m12-cA_2cse-a1-m12-cC 2cse-a1-m12-cJ_2cse-a1-m12-cK 2cse-a1-m12-cQ_2cse-a1-m12-cR 2cse-a1-m13-cA_2cse-a1-m13-cC 2cse-a1-m13-cJ_2cse-a1-m13-cK 2cse-a1-m13-cQ_2cse-a1-m13-cR 2cse-a1-m14-cA_2cse-a1-m14-cC 2cse-a1-m14-cJ_2cse-a1-m14-cK 2cse-a1-m14-cQ_2cse-a1-m14-cR 2cse-a1-m15-cA_2cse-a1-m15-cC 2cse-a1-m15-cJ_2cse-a1-m15-cK 2cse-a1-m15-cQ_2cse-a1-m15-cR 2cse-a1-m16-cA_2cse-a1-m16-cC 2cse-a1-m16-cJ_2cse-a1-m16-cK 2cse-a1-m16-cQ_2cse-a1-m16-cR 2cse-a1-m17-cA_2cse-a1-m17-cC 2cse-a1-m17-cJ_2cse-a1-m17-cK 2cse-a1-m17-cQ_2cse-a1-m17-cR 2cse-a1-m18-cA_2cse-a1-m18-cC 2cse-a1-m18-cJ_2cse-a1-m18-cK 2cse-a1-m18-cQ_2cse-a1-m18-cR 2cse-a1-m19-cA_2cse-a1-m19-cC 2cse-a1-m19-cJ_2cse-a1-m19-cK 2cse-a1-m19-cQ_2cse-a1-m19-cR 2cse-a1-m1-cA_2cse-a1-m1-cC 2cse-a1-m1-cJ_2cse-a1-m1-cK 2cse-a1-m1-cQ_2cse-a1-m1-cR 2cse-a1-m20-cA_2cse-a1-m20-cC 2cse-a1-m20-cJ_2cse-a1-m20-cK 2cse-a1-m20-cQ_2cse-a1-m20-cR 2cse-a1-m21-cA_2cse-a1-m21-cC 2cse-a1-m21-cJ_2cse-a1-m21-cK 2cse-a1-m21-cQ_2cse-a1-m21-cR 2cse-a1-m22-cA_2cse-a1-m22-cC 2cse-a1-m22-cJ_2cse-a1-m22-cK 2cse-a1-m22-cQ_2cse-a1-m22-cR 2cse-a1-m23-cA_2cse-a1-m23-cC 2cse-a1-m23-cJ_2cse-a1-m23-cK 2cse-a1-m23-cQ_2cse-a1-m23-cR 2cse-a1-m24-cA_2cse-a1-m24-cC 2cse-a1-m24-cJ_2cse-a1-m24-cK 2cse-a1-m24-cQ_2cse-a1-m24-cR 2cse-a1-m25-cA_2cse-a1-m25-cC 2cse-a1-m25-cJ_2cse-a1-m25-cK 2cse-a1-m25-cQ_2cse-a1-m25-cR 2cse-a1-m26-cA_2cse-a1-m26-cC 2cse-a1-m26-cJ_2cse-a1-m26-cK 2cse-a1-m26-cQ_2cse-a1-m26-cR 2cse-a1-m27-cA_2cse-a1-m27-cC 2cse-a1-m27-cJ_2cse-a1-m27-cK 2cse-a1-m27-cQ_2cse-a1-m27-cR 2cse-a1-m28-cA_2cse-a1-m28-cC 2cse-a1-m28-cJ_2cse-a1-m28-cK 2cse-a1-m28-cQ_2cse-a1-m28-cR 2cse-a1-m29-cA_2cse-a1-m29-cC 2cse-a1-m29-cJ_2cse-a1-m29-cK 2cse-a1-m29-cQ_2cse-a1-m29-cR 2cse-a1-m2-cA_2cse-a1-m2-cC 2cse-a1-m2-cJ_2cse-a1-m2-cK 2cse-a1-m2-cQ_2cse-a1-m2-cR 2cse-a1-m30-cA_2cse-a1-m30-cC 2cse-a1-m30-cJ_2cse-a1-m30-cK 2cse-a1-m30-cQ_2cse-a1-m30-cR 2cse-a1-m31-cA_2cse-a1-m31-cC 2cse-a1-m31-cJ_2cse-a1-m31-cK 2cse-a1-m31-cQ_2cse-a1-m31-cR 2cse-a1-m32-cA_2cse-a1-m32-cC 2cse-a1-m32-cJ_2cse-a1-m32-cK 2cse-a1-m32-cQ_2cse-a1-m32-cR 2cse-a1-m33-cA_2cse-a1-m33-cC 2cse-a1-m33-cJ_2cse-a1-m33-cK 2cse-a1-m33-cQ_2cse-a1-m33-cR 2cse-a1-m34-cA_2cse-a1-m34-cC 2cse-a1-m34-cJ_2cse-a1-m34-cK 2cse-a1-m34-cQ_2cse-a1-m34-cR 2cse-a1-m35-cA_2cse-a1-m35-cC 2cse-a1-m35-cJ_2cse-a1-m35-cK 2cse-a1-m35-cQ_2cse-a1-m35-cR 2cse-a1-m36-cA_2cse-a1-m36-cC 2cse-a1-m36-cJ_2cse-a1-m36-cK 2cse-a1-m36-cQ_2cse-a1-m36-cR 2cse-a1-m37-cA_2cse-a1-m37-cC 2cse-a1-m37-cJ_2cse-a1-m37-cK 2cse-a1-m37-cQ_2cse-a1-m37-cR 2cse-a1-m38-cA_2cse-a1-m38-cC 2cse-a1-m38-cJ_2cse-a1-m38-cK 2cse-a1-m38-cQ_2cse-a1-m38-cR 2cse-a1-m39-cA_2cse-a1-m39-cC 2cse-a1-m39-cJ_2cse-a1-m39-cK 2cse-a1-m39-cQ_2cse-a1-m39-cR 2cse-a1-m3-cA_2cse-a1-m3-cC 2cse-a1-m3-cJ_2cse-a1-m3-cK 2cse-a1-m3-cQ_2cse-a1-m3-cR 2cse-a1-m40-cA_2cse-a1-m40-cC 2cse-a1-m40-cJ_2cse-a1-m40-cK 2cse-a1-m40-cQ_2cse-a1-m40-cR 2cse-a1-m41-cA_2cse-a1-m41-cC 2cse-a1-m41-cJ_2cse-a1-m41-cK 2cse-a1-m41-cQ_2cse-a1-m41-cR 2cse-a1-m42-cA_2cse-a1-m42-cC 2cse-a1-m42-cJ_2cse-a1-m42-cK 2cse-a1-m42-cQ_2cse-a1-m42-cR 2cse-a1-m43-cA_2cse-a1-m43-cC 2cse-a1-m43-cJ_2cse-a1-m43-cK 2cse-a1-m43-cQ_2cse-a1-m43-cR 2cse-a1-m44-cA_2cse-a1-m44-cC 2cse-a1-m44-cJ_2cse-a1-m44-cK 2cse-a1-m44-cQ_2cse-a1-m44-cR 2cse-a1-m45-cA_2cse-a1-m45-cC 2cse-a1-m45-cJ_2cse-a1-m45-cK 2cse-a1-m45-cQ_2cse-a1-m45-cR 2cse-a1-m46-cA_2cse-a1-m46-cC 2cse-a1-m46-cJ_2cse-a1-m46-cK 2cse-a1-m46-cQ_2cse-a1-m46-cR 2cse-a1-m47-cA_2cse-a1-m47-cC 2cse-a1-m47-cJ_2cse-a1-m47-cK 2cse-a1-m47-cQ_2cse-a1-m47-cR 2cse-a1-m48-cA_2cse-a1-m48-cC 2cse-a1-m48-cJ_2cse-a1-m48-cK 2cse-a1-m48-cQ_2cse-a1-m48-cR 2cse-a1-m49-cA_2cse-a1-m49-cC 2cse-a1-m49-cJ_2cse-a1-m49-cK 2cse-a1-m49-cQ_2cse-a1-m49-cR 2cse-a1-m4-cA_2cse-a1-m4-cC 2cse-a1-m4-cJ_2cse-a1-m4-cK 2cse-a1-m4-cQ_2cse-a1-m4-cR 2cse-a1-m50-cA_2cse-a1-m50-cC 2cse-a1-m50-cJ_2cse-a1-m50-cK 2cse-a1-m50-cQ_2cse-a1-m50-cR 2cse-a1-m51-cA_2cse-a1-m51-cC 2cse-a1-m51-cJ_2cse-a1-m51-cK 2cse-a1-m51-cQ_2cse-a1-m51-cR 2cse-a1-m52-cA_2cse-a1-m52-cC 2cse-a1-m52-cJ_2cse-a1-m52-cK 2cse-a1-m52-cQ_2cse-a1-m52-cR 2cse-a1-m53-cA_2cse-a1-m53-cC 2cse-a1-m53-cJ_2cse-a1-m53-cK 2cse-a1-m53-cQ_2cse-a1-m53-cR 2cse-a1-m54-cA_2cse-a1-m54-cC 2cse-a1-m54-cJ_2cse-a1-m54-cK 2cse-a1-m54-cQ_2cse-a1-m54-cR 2cse-a1-m55-cA_2cse-a1-m55-cC 2cse-a1-m55-cJ_2cse-a1-m55-cK 2cse-a1-m55-cQ_2cse-a1-m55-cR 2cse-a1-m56-cA_2cse-a1-m56-cC 2cse-a1-m56-cJ_2cse-a1-m56-cK 2cse-a1-m56-cQ_2cse-a1-m56-cR 2cse-a1-m57-cA_2cse-a1-m57-cC 2cse-a1-m57-cJ_2cse-a1-m57-cK 2cse-a1-m57-cQ_2cse-a1-m57-cR 2cse-a1-m58-cA_2cse-a1-m58-cC 2cse-a1-m58-cJ_2cse-a1-m58-cK 2cse-a1-m58-cQ_2cse-a1-m58-cR 2cse-a1-m59-cA_2cse-a1-m59-cC 2cse-a1-m59-cJ_2cse-a1-m59-cK 2cse-a1-m59-cQ_2cse-a1-m59-cR 2cse-a1-m5-cA_2cse-a1-m5-cC 2cse-a1-m5-cJ_2cse-a1-m5-cK 2cse-a1-m5-cQ_2cse-a1-m5-cR 2cse-a1-m60-cA_2cse-a1-m60-cC 2cse-a1-m60-cJ_2cse-a1-m60-cK 2cse-a1-m60-cQ_2cse-a1-m60-cR 2cse-a1-m6-cA_2cse-a1-m6-cC 2cse-a1-m6-cJ_2cse-a1-m6-cK 2cse-a1-m6-cQ_2cse-a1-m6-cR 2cse-a1-m7-cA_2cse-a1-m7-cC 2cse-a1-m7-cJ_2cse-a1-m7-cK 2cse-a1-m7-cQ_2cse-a1-m7-cR 2cse-a1-m8-cA_2cse-a1-m8-cC 2cse-a1-m8-cJ_2cse-a1-m8-cK 2cse-a1-m8-cQ_2cse-a1-m8-cR 2cse-a1-m9-cA_2cse-a1-m9-cC 2cse-a1-m9-cJ_2cse-a1-m9-cK 7ell-a1-m1-cB_7ell-a1-m1-cA 7ell-a1-m1-cB_7ell-a1-m1-cC 7ell-a1-m1-cC_7ell-a1-m1-cA 7ell-a1-m1-cD_7ell-a1-m1-cE 7ell-a1-m1-cD_7ell-a1-m1-cF 7ell-a1-m1-cE_7ell-a1-m1-cF 7ell-a1-m1-cG_7ell-a1-m1-cH 7ell-a1-m1-cI_7ell-a1-m1-cG 7ell-a1-m1-cI_7ell-a1-m1-cH TINVTGDGNVFKPSAETSSTAVPSLSLSPGMLNPGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP TINVTGDGNVFKPSAETSSTAVPSLSLSPGMLNPGGVPWIAIGDETSVTSPGALRRMTSKDIDEPLVVVTEHAIANFTKAEMALEFNREFLDKLRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLKIDEATWLRMIPKTMGTLFQIQVTDNTGTNWHFNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPAELIGSYTPESLNASLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSTHFPAP 2csl-a2-m1-cE_2csl-a2-m1-cF Crystal structure of TTHA0137 from Thermus Thermophilus HB8 Q5SM06 Q5SM06 2.5 X-RAY DIFFRACTION 75 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 121 121 2csl-a1-m1-cA_2csl-a1-m1-cB 2csl-a1-m1-cA_2csl-a1-m1-cC 2csl-a1-m1-cB_2csl-a1-m1-cC 2csl-a2-m1-cD_2csl-a2-m1-cE 2csl-a2-m1-cD_2csl-a2-m1-cF 2cvl-a1-m1-cA_2cvl-a1-m1-cB 2cvl-a1-m1-cA_2cvl-a1-m1-cC 2cvl-a1-m1-cB_2cvl-a1-m1-cC 2cvl-a2-m1-cD_2cvl-a2-m1-cE 2cvl-a2-m1-cD_2cvl-a2-m1-cF 2cvl-a2-m1-cE_2cvl-a2-m1-cF 2cw4-a2-m1-cA_2cw4-a2-m2-cA 2cw4-a2-m1-cA_2cw4-a2-m3-cA 2cw4-a2-m2-cA_2cw4-a2-m3-cA EAVKTDRAPAAIGPYAQAVKAGGFVFVSGQIPLAPDGSLVEGDIRVQTERVENLKAVLEAAGSGLSRVVQTTCFLADEDFPGFNEVYARYFTPPYPARATVAVKALPRGVRVEVACVALAE EAVKTDRAPAAIGPYAQAVKAGGFVFVSGQIPLAPDGSLVEGDIRVQTERVENLKAVLEAAGSGLSRVVQTTCFLADEDFPGFNEVYARYFTPPYPARATVAVKALPRGVRVEVACVALAE 2cst-a1-m1-cA_2cst-a1-m1-cB CRYSTAL STRUCTURE OF THE CLOSED FORM OF CHICKEN CYTOSOLIC ASPARTATE AMINOTRANSFERASE AT 1.9 ANGSTROMS RESOLUTION P00504 P00504 1.9 X-RAY DIFFRACTION 239 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 411 411 1aat-a1-m1-cA_1aat-a1-m1-cB AASIFAAVPRAPPVAVFKLTADFREDGDSRKVNLGVGAYRTDEGQPWVLPVVRKVEQLIAGDGSLNHEYLPILGLPEFRANASRIALGDDSPAIAQKRVGSVQGLGGTGALRIGAEFLRRWYNGNNNTATPVYVSSPTWENHNSVFMDAGFKDIRTYRYWDAAKRGLDLQGLLDDMEKAPEFSIFILHACAHNPTGTDPTPDEWKQIAAVMKRRCLFPFFDSAYQGFASGSLDKDAWAVRYFVSEGFELFCAQSFSKNFGLYNERVGNLSVVGKDEDNVQRVLSQMEKIVRTTWSNPPSQGARIVATTLTSPQLFAEWKDNVKTMADRVLLMRSELRSRLESLGTPGTWNHITDQIGMFSFTGLNPKQVEYMIKEKHIYLMASGRINMCGLTTKNLDYVAKSIHEAVTKIQ AASIFAAVPRAPPVAVFKLTADFREDGDSRKVNLGVGAYRTDEGQPWVLPVVRKVEQLIAGDGSLNHEYLPILGLPEFRANASRIALGDDSPAIAQKRVGSVQGLGGTGALRIGAEFLRRWYNGNNNTATPVYVSSPTWENHNSVFMDAGFKDIRTYRYWDAAKRGLDLQGLLDDMEKAPEFSIFILHACAHNPTGTDPTPDEWKQIAAVMKRRCLFPFFDSAYQGFASGSLDKDAWAVRYFVSEGFELFCAQSFSKNFGLYNERVGNLSVVGKDEDNVQRVLSQMEKIVRTTWSNPPSQGARIVATTLTSPQLFAEWKDNVKTMADRVLLMRSELRSRLESLGTPGTWNHITDQIGMFSFTGLNPKQVEYMIKEKHIYLMASGRINMCGLTTKNLDYVAKSIHEAVTKIQ 2csu-a1-m1-cB_2csu-a1-m1-cA Crystal structure of PH0766 from Pyrococcus horikoshii OT3 O58493 O58493 2.2 X-RAY DIFFRACTION 143 0.998 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 419 420 LDYFFNPKGIAVIGASNDPKKLGYEVFKNLKEYKKGKVYPVNIKEEEVQGVKAYKSVKDIPDEIDLAIIVVPKRFVKDTLIQCGEKGVKGVVIITAGFGETGEEGKREEKELVEIAHKYGRIIGPNCVGINTHVDLNATFITVAKKGNVAFISQSGALGAGIVYKTIKEDIGFSKFISVGNADVDFAELEYLADTEEDKAIALYIEGVRNGKKFEVAKRVTKKKPIIALKAGKKIYEAAFKQSGVLVANTIDELSARAFSQPLPRGNKVAITNAGGPGVLTADELDKRGLKLATLEEKTIEELRSFLPPAAVKNPVDIASARGEDYYRTAKLLLQDPNVDLIAICVVPTFAGTLTEHAEGIIRAVKEVNNEKPVLAFAGYVSEKAKELLEKNGIPTYERPEDVASAAYALVEQAKNVGI LDYFFNPKGIAVIGASNDPKKLGYEVFKNLKEYKKGKVYPVNIKEEEVQGVKAYKSVKDIPDEIDLAIIVVPKRFVKDTLIQCGEKGVKGVVIITAGFGETGEEGKREEKELVEIAHKYGRIIGPNCVGINTHVDLNATFITVAKKGNVAFISQSGALGAGIVYKTIKEDIGFSKFISVGNADVDFAELEYLADTEEDKAIALYIEGVRNGKKFEVAKRVTKKKPIIALKAGSWKIYEAAFKQSGVLVANTIDELSARAFSQPLPRGNKVAITNAGGPGVLTADELDKRGLKLATLEEKTIEELRSFLPPAAVKNPVDIASARGEDYYRTAKLLLQDPNVDLIAICVVPTFAGTLTEHAEGIIRAVKEVNNEKPVLAFAGYVSEKAKELLEKNGIPTYERPEDVASAAYALVEQAKNVGI 2ct9-a3-m1-cA_2ct9-a3-m1-cB The crystal structure of calcineurin B homologous proein 1 (CHP1) P61023 P61023 2.2 X-RAY DIFFRACTION 94 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 185 198 LLRDEELEEIKKETGFSHSQITRLYSRFTSLDKGENGTLSREDFQRIPELAINPLGDRIINAFFSEGEDQVNFRGFMRTLAHFRPIEEPLNSRSNKLHFAFRLYDLDKDDKISRDELLQVLRMMVGVNISDEQLGSIADRTIQEADQDGDSAISFTEFVKVLEKVDVEQKMSIRFLHKLAAALEH SRASTLLRDEELEEIKKETGFSHSQITRLYSRFTSLDKGENGTLSREDFQRIPELAINPLGDRIINAFFSEGEDQVNFRGFMRTLAHFRPIEDNEDVNGPEPLNSRSNKLHFAFRLYDLDKDDKISRDELLQVLRMMVGVNISDEQLGSIADRTIQEADQDGDSAISFTEFVKVLEKVDVEQKMSIRFLHKLAAALEH 2ctx-a1-m1-cA_2ctx-a1-m2-cA THE REFINED CRYSTAL STRUCTURE OF ALPHA-COBRATOXIN FROM NAJA NAJA SIAMENSIS AT 2.4-ANGSTROMS RESOLUTION P25671 P25671 2.4 X-RAY DIFFRACTION 58 1.0 35670 (Naja naja) 35670 (Naja naja) 71 71 1ctx-a1-m1-cA_1ctx-a1-m2-cA IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPTRKRP IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPTRKRP 2ctz-a2-m1-cB_2ctz-a2-m2-cB Crystal structure of o-acetyl homoserine sulfhydrylase from Thermus thermophilus HB8 Q5SK88 Q5SK88 2.6 X-RAY DIFFRACTION 99 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 421 421 2ctz-a2-m1-cA_2ctz-a2-m2-cA MRFETLQLHAGYEPEPTTLSRQVPIYPTTSYVFKSPEHAANLFALKEFGNIYSRIMNPTVDVLEKRLAALEGGKAALATASGHAAQFLALTTLAQAGDNIVSTPNLYGGTFNQFKVTLKRLGIEVRFTSREERPEEFLALTDEKTRAWWVESIGNPALNIPDLEALAQAAREKGVALIVDNTFGMGGYLLRPLAWGAALVTHSLTKWVGGHGAVIAGAIVDGGNFPWEGGRYPLLTEPQPGYHGLRLTEAFGELAFIVKARVDGLRDQGQALGPFEAWVVLLGMETLSLRAERHVENTLHLAHWLLEQPQVAWVNYPGLPHHPHHDRAQKYFKGKPGAVLTFGLKGGYEAAKRFISRLKLISHLANVGDTRTLAIHPASTTHSQLSPEEQAQAGVSPEMVRLSVGLEHVEDLKAELKEALA MRFETLQLHAGYEPEPTTLSRQVPIYPTTSYVFKSPEHAANLFALKEFGNIYSRIMNPTVDVLEKRLAALEGGKAALATASGHAAQFLALTTLAQAGDNIVSTPNLYGGTFNQFKVTLKRLGIEVRFTSREERPEEFLALTDEKTRAWWVESIGNPALNIPDLEALAQAAREKGVALIVDNTFGMGGYLLRPLAWGAALVTHSLTKWVGGHGAVIAGAIVDGGNFPWEGGRYPLLTEPQPGYHGLRLTEAFGELAFIVKARVDGLRDQGQALGPFEAWVVLLGMETLSLRAERHVENTLHLAHWLLEQPQVAWVNYPGLPHHPHHDRAQKYFKGKPGAVLTFGLKGGYEAAKRFISRLKLISHLANVGDTRTLAIHPASTTHSQLSPEEQAQAGVSPEMVRLSVGLEHVEDLKAELKEALA 2ctz-a2-m2-cA_2ctz-a2-m2-cB Crystal structure of o-acetyl homoserine sulfhydrylase from Thermus thermophilus HB8 Q5SK88 Q5SK88 2.6 X-RAY DIFFRACTION 81 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 421 421 2ctz-a1-m1-cA_2ctz-a1-m1-cB 2ctz-a2-m1-cA_2ctz-a2-m1-cB MRFETLQLHAGYEPEPTTLSRQVPIYPTTSYVFKSPEHAANLFALKEFGNIYSRIMNPTVDVLEKRLAALEGGKAALATASGHAAQFLALTTLAQAGDNIVSTPNLYGGTFNQFKVTLKRLGIEVRFTSREERPEEFLALTDEKTRAWWVESIGNPALNIPDLEALAQAAREKGVALIVDNTFGMGGYLLRPLAWGAALVTHSLTKWVGGHGAVIAGAIVDGGNFPWEGGRYPLLTEPQPGYHGLRLTEAFGELAFIVKARVDGLRDQGQALGPFEAWVVLLGMETLSLRAERHVENTLHLAHWLLEQPQVAWVNYPGLPHHPHHDRAQKYFKGKPGAVLTFGLKGGYEAAKRFISRLKLISHLANVGDTRTLAIHPASTTHSQLSPEEQAQAGVSPEMVRLSVGLEHVEDLKAELKEALA MRFETLQLHAGYEPEPTTLSRQVPIYPTTSYVFKSPEHAANLFALKEFGNIYSRIMNPTVDVLEKRLAALEGGKAALATASGHAAQFLALTTLAQAGDNIVSTPNLYGGTFNQFKVTLKRLGIEVRFTSREERPEEFLALTDEKTRAWWVESIGNPALNIPDLEALAQAAREKGVALIVDNTFGMGGYLLRPLAWGAALVTHSLTKWVGGHGAVIAGAIVDGGNFPWEGGRYPLLTEPQPGYHGLRLTEAFGELAFIVKARVDGLRDQGQALGPFEAWVVLLGMETLSLRAERHVENTLHLAHWLLEQPQVAWVNYPGLPHHPHHDRAQKYFKGKPGAVLTFGLKGGYEAAKRFISRLKLISHLANVGDTRTLAIHPASTTHSQLSPEEQAQAGVSPEMVRLSVGLEHVEDLKAELKEALA 2ctz-a3-m1-cA_2ctz-a3-m2-cB Crystal structure of o-acetyl homoserine sulfhydrylase from Thermus thermophilus HB8 Q5SK88 Q5SK88 2.6 X-RAY DIFFRACTION 235 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 421 421 2ctz-a2-m1-cA_2ctz-a2-m2-cB 2ctz-a2-m1-cB_2ctz-a2-m2-cA MRFETLQLHAGYEPEPTTLSRQVPIYPTTSYVFKSPEHAANLFALKEFGNIYSRIMNPTVDVLEKRLAALEGGKAALATASGHAAQFLALTTLAQAGDNIVSTPNLYGGTFNQFKVTLKRLGIEVRFTSREERPEEFLALTDEKTRAWWVESIGNPALNIPDLEALAQAAREKGVALIVDNTFGMGGYLLRPLAWGAALVTHSLTKWVGGHGAVIAGAIVDGGNFPWEGGRYPLLTEPQPGYHGLRLTEAFGELAFIVKARVDGLRDQGQALGPFEAWVVLLGMETLSLRAERHVENTLHLAHWLLEQPQVAWVNYPGLPHHPHHDRAQKYFKGKPGAVLTFGLKGGYEAAKRFISRLKLISHLANVGDTRTLAIHPASTTHSQLSPEEQAQAGVSPEMVRLSVGLEHVEDLKAELKEALA MRFETLQLHAGYEPEPTTLSRQVPIYPTTSYVFKSPEHAANLFALKEFGNIYSRIMNPTVDVLEKRLAALEGGKAALATASGHAAQFLALTTLAQAGDNIVSTPNLYGGTFNQFKVTLKRLGIEVRFTSREERPEEFLALTDEKTRAWWVESIGNPALNIPDLEALAQAAREKGVALIVDNTFGMGGYLLRPLAWGAALVTHSLTKWVGGHGAVIAGAIVDGGNFPWEGGRYPLLTEPQPGYHGLRLTEAFGELAFIVKARVDGLRDQGQALGPFEAWVVLLGMETLSLRAERHVENTLHLAHWLLEQPQVAWVNYPGLPHHPHHDRAQKYFKGKPGAVLTFGLKGGYEAAKRFISRLKLISHLANVGDTRTLAIHPASTTHSQLSPEEQAQAGVSPEMVRLSVGLEHVEDLKAELKEALA 2cu0-a3-m2-cB_2cu0-a3-m4-cB Crystal structure of inosine-5'-monophosphate dehydrogenase from Pyrococcus horikoshii OT3 O58045 O58045 2.1 X-RAY DIFFRACTION 224 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 355 355 2cu0-a1-m1-cA_2cu0-a1-m3-cA 2cu0-a1-m1-cA_2cu0-a1-m4-cA 2cu0-a1-m2-cA_2cu0-a1-m3-cA 2cu0-a1-m2-cA_2cu0-a1-m4-cA 2cu0-a2-m1-cB_2cu0-a2-m3-cB 2cu0-a2-m1-cB_2cu0-a2-m4-cB 2cu0-a2-m2-cB_2cu0-a2-m3-cB 2cu0-a2-m2-cB_2cu0-a2-m4-cB 2cu0-a3-m1-cA_2cu0-a3-m3-cA 2cu0-a3-m1-cA_2cu0-a3-m4-cA 2cu0-a3-m1-cB_2cu0-a3-m3-cB 2cu0-a3-m1-cB_2cu0-a3-m4-cB 2cu0-a3-m2-cA_2cu0-a3-m3-cA 2cu0-a3-m2-cA_2cu0-a3-m4-cA 2cu0-a3-m2-cB_2cu0-a3-m3-cB KFVEKLEKAIKGYTFDDVLLIPQATEVEPKDVDVSTRITPNVKLNIPILSAAMDTVTEWEMAVAMAREGGLGVIHRNMGIEEQVEQVKRVKRAKYKNAVRDENGELLVAAAVSPFDIKRAIELDKAGVDVIVVDTAHAHNLKAIKSMKEMRQKVDADFIVGNIANPKAVDDLTFADAVKVGIGPGSICTTRIVAGVGVPQITAVAMVADRAQEYGLYVIADGGIRYSGDIVKAIAAGADAVMLGNLLAGTKEAPGKEVIINGRKYKQYRGMGSLGAMMKYMKTRKFVPEGVEGVVPYRGTVSEVLYQLVGGLKAGMGYVGARNIRELKEKGEFVIITHAGIKESHPHDIIITNEA KFVEKLEKAIKGYTFDDVLLIPQATEVEPKDVDVSTRITPNVKLNIPILSAAMDTVTEWEMAVAMAREGGLGVIHRNMGIEEQVEQVKRVKRAKYKNAVRDENGELLVAAAVSPFDIKRAIELDKAGVDVIVVDTAHAHNLKAIKSMKEMRQKVDADFIVGNIANPKAVDDLTFADAVKVGIGPGSICTTRIVAGVGVPQITAVAMVADRAQEYGLYVIADGGIRYSGDIVKAIAAGADAVMLGNLLAGTKEAPGKEVIINGRKYKQYRGMGSLGAMMKYMKTRKFVPEGVEGVVPYRGTVSEVLYQLVGGLKAGMGYVGARNIRELKEKGEFVIITHAGIKESHPHDIIITNEA 2cu0-a3-m4-cB_2cu0-a3-m4-cA Crystal structure of inosine-5'-monophosphate dehydrogenase from Pyrococcus horikoshii OT3 O58045 O58045 2.1 X-RAY DIFFRACTION 45 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 355 358 2cu0-a3-m1-cB_2cu0-a3-m1-cA 2cu0-a3-m2-cB_2cu0-a3-m2-cA 2cu0-a3-m3-cB_2cu0-a3-m3-cA KFVEKLEKAIKGYTFDDVLLIPQATEVEPKDVDVSTRITPNVKLNIPILSAAMDTVTEWEMAVAMAREGGLGVIHRNMGIEEQVEQVKRVKRAKYKNAVRDENGELLVAAAVSPFDIKRAIELDKAGVDVIVVDTAHAHNLKAIKSMKEMRQKVDADFIVGNIANPKAVDDLTFADAVKVGIGPGSICTTRIVAGVGVPQITAVAMVADRAQEYGLYVIADGGIRYSGDIVKAIAAGADAVMLGNLLAGTKEAPGKEVIINGRKYKQYRGMGSLGAMMKYMKTRKFVPEGVEGVVPYRGTVSEVLYQLVGGLKAGMGYVGARNIRELKEKGEFVIITHAGIKESHPHDIIITNEA KFVEKLEKAIKGYTFDDVLLIPQATEVEPKDVDVSTRITPNVKLNIPILSAAMDTVTEWEMAVAMAREGGLGVIHRNMGIEEQVEQVKRVKRAEKYKNAVRDENGELLVAAAVSPFDIKRAIELDKAGVDVIVVDTAHAHNLKAIKSMKEMRQKVDADFIVGNIANPKAVDDLTFADAVKVGIGPGSICTTRIVAGVGVPQITAVAMVADRAQEYGLYVIADGGIRYSGDIVKAIAAGADAVMLGNLLAGTKEAPGKEVIINGRKYKQYRGMGSLGAMMKYMKTRKFVPEGVEGVVPYRGTVSEVLYQLVGGLKAGMGYVGARNIRELKEKGEFVIITHAGIKESHPHDIIITNEAPN 2cu2-a1-m1-cA_2cu2-a1-m2-cA Crystal structure of mannose-1-phosphate geranyltransferase from Thermus thermophilus HB8 Q5SHI0 Q5SHI0 2.2 X-RAY DIFFRACTION 113 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 335 335 MKTYALVMAGGRGERLWPLSREDRPKPFLPLFEGKTLLEATLERLAPLVPPERTLLAVRRDQEAVARPYADGIRLLLEPLGRDTAGAVLLGVAEALKEGAERLLVLPADHYVGDDEAYREALATMLEAAEEGFVVALGLRPTRPETEYGYIRLGPREGAWYRGEGFVEKPSYAEALEYIRKGYVWNGGVFAFAPATMAELFRRHLPSHHEALERLLAGASLEEVYAGLPKISIDYGVMEKAERVRVVLGRFPWDDVGNWRALERVFSQDPHENVVLGEGRHVALDTFGCVVYADRGVVATLGVSGLVVAKVGDEVLVVPKDWAREVREVVKRLEA MKTYALVMAGGRGERLWPLSREDRPKPFLPLFEGKTLLEATLERLAPLVPPERTLLAVRRDQEAVARPYADGIRLLLEPLGRDTAGAVLLGVAEALKEGAERLLVLPADHYVGDDEAYREALATMLEAAEEGFVVALGLRPTRPETEYGYIRLGPREGAWYRGEGFVEKPSYAEALEYIRKGYVWNGGVFAFAPATMAELFRRHLPSHHEALERLLAGASLEEVYAGLPKISIDYGVMEKAERVRVVLGRFPWDDVGNWRALERVFSQDPHENVVLGEGRHVALDTFGCVVYADRGVVATLGVSGLVVAKVGDEVLVVPKDWAREVREVVKRLEA 2cu3-a1-m1-cA_2cu3-a1-m1-cB Crystal structure of TT1568 from Thermus thermophilus HB8 Q5SKG8 Q5SKG8 1.7 X-RAY DIFFRACTION 21 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 60 61 VWLNGEPRPLEGKTLKEVLEEGVELKGVAVLLNEEAFLGLEVPDRPLRDGDVVEVVALQG VWLNGEPRPLEGKTLKEVLEEGVELKGVAVLLNEEAFLGLEVPDRPLRDGDVVEVVALQGG 2cu5-a1-m1-cC_2cu5-a1-m1-cB Crystal Structure Of The Conserved Hypothetical Protein TT1486 From Thermus Thermophilus HB8 Q5SHL7 Q5SHL7 1.84 X-RAY DIFFRACTION 73 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 126 127 2cu5-a1-m1-cB_2cu5-a1-m1-cA 2cu5-a1-m1-cC_2cu5-a1-m1-cA VVRLEVPTPEEGFVNITRKVEAALSGHTGLVYLFVPHTTCGLTVQEGADPTVAQDLLGRLAELAPRHRPQDRHLEGNSHAHLKSLLTGVHLLLLAEKGRLRLGRWQQVFLAEFDGPRVREVWVRLL GVVRLEVPTPEEGFVNITRKVEAALSGHTGLVYLFVPHTTCGLTVQEGADPTVAQDLLGRLAELAPRHRPQDRHLEGNSHAHLKSLLTGVHLLLLAEKGRLRLGRWQQVFLAEFDGPRVREVWVRLL 2cu6-a2-m2-cA_2cu6-a2-m4-cB Crystal Structure Of The dTDP-4-keto-L-rhamnose reductase-related Protein From Thermus Thermophilus HB8 Q53W28 Q53W28 2 X-RAY DIFFRACTION 34 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 90 90 2cu6-a2-m1-cA_2cu6-a2-m3-cB 2cu6-a2-m1-cB_2cu6-a2-m3-cA 2cu6-a2-m2-cB_2cu6-a2-m4-cA 3cq1-a1-m1-cA_3cq1-a1-m2-cA 3cq3-a1-m1-cA_3cq3-a1-m2-cA 3cq3-a2-m1-cB_3cq3-a2-m1-cC 3cq3-a3-m1-cD_3cq3-a3-m1-cE PLEAQAWALLEAVYDPELGLDVVNLGLIYDLVVEPPRAYVRTLTTPGCPLHDSLGEAVRQALSRLPGVEEVEVEVTFEPPWTLARLSEKA PLEAQAWALLEAVYDPELGLDVVNLGLIYDLVVEPPRAYVRTLTTPGCPLHDSLGEAVRQALSRLPGVEEVEVEVTFEPPWTLARLSEKA 2cu6-a2-m4-cA_2cu6-a2-m4-cB Crystal Structure Of The dTDP-4-keto-L-rhamnose reductase-related Protein From Thermus Thermophilus HB8 Q53W28 Q53W28 2 X-RAY DIFFRACTION 28 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 90 90 2cu6-a1-m1-cA_2cu6-a1-m1-cB 2cu6-a2-m1-cA_2cu6-a2-m1-cB 2cu6-a2-m1-cA_2cu6-a2-m4-cB 2cu6-a2-m1-cB_2cu6-a2-m4-cA 2cu6-a2-m2-cA_2cu6-a2-m2-cB 2cu6-a2-m2-cA_2cu6-a2-m3-cB 2cu6-a2-m2-cB_2cu6-a2-m3-cA 2cu6-a2-m3-cA_2cu6-a2-m3-cB 3cq2-a1-m1-cA_3cq2-a1-m1-cB 3cq2-a1-m1-cA_3cq2-a1-m1-cD 3cq2-a1-m1-cC_3cq2-a1-m1-cB 3cq2-a1-m1-cC_3cq2-a1-m1-cD PLEAQAWALLEAVYDPELGLDVVNLGLIYDLVVEPPRAYVRTLTTPGCPLHDSLGEAVRQALSRLPGVEEVEVEVTFEPPWTLARLSEKA PLEAQAWALLEAVYDPELGLDVVNLGLIYDLVVEPPRAYVRTLTTPGCPLHDSLGEAVRQALSRLPGVEEVEVEVTFEPPWTLARLSEKA 2cuk-a2-m1-cB_2cuk-a2-m1-cD Crystal structure of TT0316 protein from Thermus thermophilus HB8 Q5SMG6 Q5SMG6 2 X-RAY DIFFRACTION 236 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 311 311 2cuk-a1-m1-cA_2cuk-a1-m1-cC MRVLVTRTLPGKALDRLRERGLEVEVHRGLFLPKAELLKRVEGAVGLIPTVEDRIDAEVMDRAKGLKVIACYSVGVDHVDLEAARERGIRVTHTPGVLTEATADLTLALLLAVARRVVEGAAYARDGLWKAWHPELLLGLDLQGLTLGLVGMGRIGQAVAKRALAFGMRVVYHARTPKPLPYPFLSLEELLKEADVVSLHTPLTPETHRLLNRERLFAMKRGAILLNTARGALVDTEALVEALRGHLFGAGLDVTDPEPLPPGHPLYALPNAVITPHIGSAGRTTRERMAEVAVENLLAVLEGREPPNPVV MRVLVTRTLPGKALDRLRERGLEVEVHRGLFLPKAELLKRVEGAVGLIPTVEDRIDAEVMDRAKGLKVIACYSVGVDHVDLEAARERGIRVTHTPGVLTEATADLTLALLLAVARRVVEGAAYARDGLWKAWHPELLLGLDLQGLTLGLVGMGRIGQAVAKRALAFGMRVVYHARTPKPLPYPFLSLEELLKEADVVSLHTPLTPETHRLLNRERLFAMKRGAILLNTARGALVDTEALVEALRGHLFGAGLDVTDPEPLPPGHPLYALPNAVITPHIGSAGRTTRERMAEVAVENLLAVLEGREPPNPVV 2cun-a1-m1-cA_2cun-a1-m1-cB Crystal structure of Phosphoglycerate Kinase from Pyrococcus horikoshii OT3 O58965 O58965 2.1 X-RAY DIFFRACTION 56 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 405 405 MFRLEDFNFHNKTVFLRVDLNSPMKDGKIISDARFKAVLPTIRYLIESGAKVVIGTHQGKPYSEDYTTTEEHARVLSELLDQHVEYIEDIFGRYAREKIKELKSGEVAILENLRFSAEEVKNKPIEECEKTFLVKKLSKVIDYVVNDAFATAHRSQPSLVGFARIKPMIMGFLMEKEIEALMRAYYSKDSPKIYVLGGAKVEDSLKVVENVLRRERADLVLTGGLVANVFTLAKGFDLGRKNVEFMKKKGLLDYVKHAEEILDEFYPYIRTPVDFAVDYKGERVEIDLLSENRGLLHQYQIMDIGKRTAEKYREILMKARIIVANGPMGVFEREEFAIGTVEVFKAIADSPAFSVLGGGHSIASIQKYGITGITHISTGGGAMLSFFAGEELPVLRALQISYEKF MFRLEDFNFHNKTVFLRVDLNSPMKDGKIISDARFKAVLPTIRYLIESGAKVVIGTHQGKPYSEDYTTTEEHARVLSELLDQHVEYIEDIFGRYAREKIKELKSGEVAILENLRFSAEEVKNKPIEECEKTFLVKKLSKVIDYVVNDAFATAHRSQPSLVGFARIKPMIMGFLMEKEIEALMRAYYSKDSPKIYVLGGAKVEDSLKVVENVLRRERADLVLTGGLVANVFTLAKGFDLGRKNVEFMKKKGLLDYVKHAEEILDEFYPYIRTPVDFAVDYKGERVEIDLLSENRGLLHQYQIMDIGKRTAEKYREILMKARIIVANGPMGVFEREEFAIGTVEVFKAIADSPAFSVLGGGHSIASIQKYGITGITHISTGGGAMLSFFAGEELPVLRALQISYEKF 2cuy-a1-m1-cA_2cuy-a1-m1-cB Crystal structure of malonyl CoA-acyl carrier protein transacylase from Thermus thermophilus HB8 Q5SL77 Q5SL77 2.1 X-RAY DIFFRACTION 110 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 305 305 MYAALFPGQGSHRVGMGRALYEASPAAKEVLDRAEAALPGLLKLMWEGPEEALTLTENQQPALLAAGYAAYRAFLEAGGKPPALAAGHSLGEWTAHVAAGTLELEDALRLVRLRGRYMQEAVPVGEGAMAAVLKLPLEEIQKALEGLEGVEIANLNAPEQTVISGRRQAVEEAAERLKERRARVVFLPVSAPFHSSLMAPARKRLAEDLAQVPLRRPRFPVYSNVTARPEEDPERIRALLLEQITAPVRWVEILRDMEARGVKRFLEFGSGEVLKGLVLRTLKEAEALSVQDPDSLRKALEVERA MYAALFPGQGSHRVGMGRALYEASPAAKEVLDRAEAALPGLLKLMWEGPEEALTLTENQQPALLAAGYAAYRAFLEAGGKPPALAAGHSLGEWTAHVAAGTLELEDALRLVRLRGRYMQEAVPVGEGAMAAVLKLPLEEIQKALEGLEGVEIANLNAPEQTVISGRRQAVEEAAERLKERRARVVFLPVSAPFHSSLMAPARKRLAEDLAQVPLRRPRFPVYSNVTARPEEDPERIRALLLEQITAPVRWVEILRDMEARGVKRFLEFGSGEVLKGLVLRTLKEAEALSVQDPDSLRKALEVERA 2cv6-a1-m2-cA_2cv6-a1-m3-cA Crystal Structure of 8Salpha Globulin, the Major Seed Storage Protein of Mungbean Q198W5 Q198W5 2.65 X-RAY DIFFRACTION 187 1.0 157791 (Vigna radiata) 157791 (Vigna radiata) 366 366 2cv6-a1-m1-cA_2cv6-a1-m2-cA 2cv6-a1-m1-cA_2cv6-a1-m3-cA SVSRGKNNPFYFNSDRWFHTLFRNQFGHLRVLQRFDQRSKQMQNLENYRVVEFNSKPNTLLLPHHADADFLLVVLNGRAVLTLVNPDGRDSNILEQGHAQKIPAGTTFFLVNPDDEENLRIIKLAVPVNNPHRFQDFFLSSTEAQQSYLQGFSKNILEASFDSDIKEISRVLFGSQQEGVIVELKREQIRELTKHADQPFNLRNQKPIYSNKLGRWFEITPEKNPQLRDLDMFIRSVDMKEGSLLLPHYNSKAIVILVINEGKANIELVGQREESWEVQRYRAELSEDDVFIIPATYPVAINATSNLNFFAFGINAENNQRNFLAGEKDNVISEIPTEVLDVTFPASGEKVQKLIKKQSESQFVDA SVSRGKNNPFYFNSDRWFHTLFRNQFGHLRVLQRFDQRSKQMQNLENYRVVEFNSKPNTLLLPHHADADFLLVVLNGRAVLTLVNPDGRDSNILEQGHAQKIPAGTTFFLVNPDDEENLRIIKLAVPVNNPHRFQDFFLSSTEAQQSYLQGFSKNILEASFDSDIKEISRVLFGSQQEGVIVELKREQIRELTKHADQPFNLRNQKPIYSNKLGRWFEITPEKNPQLRDLDMFIRSVDMKEGSLLLPHYNSKAIVILVINEGKANIELVGQREESWEVQRYRAELSEDDVFIIPATYPVAINATSNLNFFAFGINAENNQRNFLAGEKDNVISEIPTEVLDVTFPASGEKVQKLIKKQSESQFVDA 2cv8-a2-m1-cA_2cv8-a2-m2-cA Crystal structure of tRNA-intron endonuclease from Sulfolobus tokodaii Q975R3 Q975R3 2.8 X-RAY DIFFRACTION 10 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 156 156 IGELVKDKILIKNIEDARLIYKGYYGKPIGSELILSLIEGVYLVKKGKLEIVSNGERLDFERLYQIGVTQIPRFRILYSVYEDLREKGYVVRSGIKYGADFAVYTIGPPYLVIALDENSQISSNEILGFGRVSKELILGIVNLTNGKIRYIFKWLK IGELVKDKILIKNIEDARLIYKGYYGKPIGSELILSLIEGVYLVKKGKLEIVSNGERLDFERLYQIGVTQIPRFRILYSVYEDLREKGYVVRSGIKYGADFAVYTIGPPYLVIALDENSQISSNEILGFGRVSKELILGIVNLTNGKIRYIFKWLK 2cv8-a2-m2-cA_2cv8-a2-m2-cB Crystal structure of tRNA-intron endonuclease from Sulfolobus tokodaii Q975R3 Q975R3 2.8 X-RAY DIFFRACTION 72 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 156 176 2cv8-a1-m1-cA_2cv8-a1-m1-cB 2cv8-a2-m1-cA_2cv8-a2-m1-cB IGELVKDKILIKNIEDARLIYKGYYGKPIGSELILSLIEGVYLVKKGKLEIVSNGERLDFERLYQIGVTQIPRFRILYSVYEDLREKGYVVRSGIKYGADFAVYTIGPPYLVIALDENSQISSNEILGFGRVSKELILGIVNLTNGKIRYIFKWLK IGELVKDKILIKNIEDARLIYKGYYGKPIGISKPKSAEEINSELILSLIEGVYLVKKGKLEIVSNGERLDFERLYQIGVTQIPRFRILYSVYEDLREKGYVVRSGIKYGADFAVYTIGPGIEHAPYLVIALDENSQISSNEILGFGRVSHSTRKELILGIVNLTNGKIRYIFKWLK 2cvo-a1-m1-cD_2cvo-a1-m1-cA Crystal structure of putative N-acetyl-gamma-glutamyl-phosphate reductase (AK071544) from rice (Oryza sativa) Q6AV34 Q6AV34 2.2 X-RAY DIFFRACTION 87 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 344 347 2cvo-a1-m1-cB_2cvo-a1-m1-cC EEVRIAVLGASGYTGAEIVRLLANHPQFRIKVMTADRKAGEQFGSVFPHLITQDLPNLVAVKDADFSNVDAVFCLPHGTTQEIIKGLPQELKIVDLSADFRLRDINEYAEWYGHSHRAPELQQEAVYGLTEVLRNEIRNARLVANPGCYPTSIQLPLVPLIKAKLIKVSNIIIDAKSGVSGAGRGAKEANLYTEIAEGIHAYGIKGHRHVPEIEQGLSEAAESKVTISFTPNLICMKRGMQSTMFVEMAPGVTANDLYQHLKSTYEGEEFVKLLNGSSVPHTRHVVGSNYCFMNVFEDRIPGRAIIISVIDNLVKGASGQAVQNLNLMMGLPENTGLQYQPLFP KSGEEVRIAVLGASGYTGAEIVRLLANHPQFRIKVMTADRKAGEQFGSVFPHLITQDLPNLVAVKDADFSNVDAVFCLPHGTTQEIIKGLPQELKIVDLSADFRLRDINEYAEWYGHSHRAPELQQEAVYGLTEVLRNEIRNARLVANPGCYPTSIQLPLVPLIKAKLIKVSNIIIDAKSGVSGAGRGAKEANLYTEIAEGIHAYGIKGHRHVPEIEQGLSEAAESKVTISFTPNLICMKRGMQSTMFVEMAPGVTANDLYQHLKSTYEGEEFVKLLNGSSVPHTRHVVGSNYCFMNVFEDRIPGRAIIISVIDNLVKGASGQAVQNLNLMMGLPENTGLQYQPLFP 2cvo-a1-m1-cD_2cvo-a1-m1-cB Crystal structure of putative N-acetyl-gamma-glutamyl-phosphate reductase (AK071544) from rice (Oryza sativa) Q6AV34 Q6AV34 2.2 X-RAY DIFFRACTION 61 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 344 347 2cvo-a1-m1-cA_2cvo-a1-m1-cC EEVRIAVLGASGYTGAEIVRLLANHPQFRIKVMTADRKAGEQFGSVFPHLITQDLPNLVAVKDADFSNVDAVFCLPHGTTQEIIKGLPQELKIVDLSADFRLRDINEYAEWYGHSHRAPELQQEAVYGLTEVLRNEIRNARLVANPGCYPTSIQLPLVPLIKAKLIKVSNIIIDAKSGVSGAGRGAKEANLYTEIAEGIHAYGIKGHRHVPEIEQGLSEAAESKVTISFTPNLICMKRGMQSTMFVEMAPGVTANDLYQHLKSTYEGEEFVKLLNGSSVPHTRHVVGSNYCFMNVFEDRIPGRAIIISVIDNLVKGASGQAVQNLNLMMGLPENTGLQYQPLFP KSGEEVRIAVLGASGYTGAEIVRLLANHPQFRIKVMTADRKAGEQFGSVFPHLITQDLPNLVAVKDADFSNVDAVFCLPHGTTQEIIKGLPQELKIVDLSADFRLRDINEYAEWYGHSHRAPELQQEAVYGLTEVLRNEIRNARLVANPGCYPTSIQLPLVPLIKAKLIKVSNIIIDAKSGVSGAGRGAKEANLYTEIAEGIHAYGIKGHRHVPEIEQGLSEAAESKVTISFTPNLICMKRGMQSTMFVEMAPGVTANDLYQHLKSTYEGEEFVKLLNGSSVPHTRHVVGSNYCFMNVFEDRIPGRAIIISVIDNLVKGASGQAVQNLNLMMGLPENTGLQYQPLFP 2cvo-a1-m1-cD_2cvo-a1-m1-cC Crystal structure of putative N-acetyl-gamma-glutamyl-phosphate reductase (AK071544) from rice (Oryza sativa) Q6AV34 Q6AV34 2.2 X-RAY DIFFRACTION 142 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 344 347 2cvo-a1-m1-cA_2cvo-a1-m1-cB EEVRIAVLGASGYTGAEIVRLLANHPQFRIKVMTADRKAGEQFGSVFPHLITQDLPNLVAVKDADFSNVDAVFCLPHGTTQEIIKGLPQELKIVDLSADFRLRDINEYAEWYGHSHRAPELQQEAVYGLTEVLRNEIRNARLVANPGCYPTSIQLPLVPLIKAKLIKVSNIIIDAKSGVSGAGRGAKEANLYTEIAEGIHAYGIKGHRHVPEIEQGLSEAAESKVTISFTPNLICMKRGMQSTMFVEMAPGVTANDLYQHLKSTYEGEEFVKLLNGSSVPHTRHVVGSNYCFMNVFEDRIPGRAIIISVIDNLVKGASGQAVQNLNLMMGLPENTGLQYQPLFP KSGEEVRIAVLGASGYTGAEIVRLLANHPQFRIKVMTADRKAGEQFGSVFPHLITQDLPNLVAVKDADFSNVDAVFCLPHGTTQEIIKGLPQELKIVDLSADFRLRDINEYAEWYGHSHRAPELQQEAVYGLTEVLRNEIRNARLVANPGCYPTSIQLPLVPLIKAKLIKVSNIIIDAKSGVSGAGRGAKEANLYTEIAEGIHAYGIKGHRHVPEIEQGLSEAAESKVTISFTPNLICMKRGMQSTMFVEMAPGVTANDLYQHLKSTYEGEEFVKLLNGSSVPHTRHVVGSNYCFMNVFEDRIPGRAIIISVIDNLVKGASGQAVQNLNLMMGLPENTGLQYQPLFP 2cvz-a1-m1-cA_2cvz-a1-m1-cD Structure of hydroxyisobutyrate dehydrogenase from thermus thermophilus HB8 Q5SLQ6 Q5SLQ6 1.8 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 283 283 1wp4-a1-m1-cA_1wp4-a1-m1-cC 1wp4-a1-m1-cB_1wp4-a1-m1-cD 2cvz-a1-m1-cB_2cvz-a1-m1-cC EKVAFIGLGAGYPAGHLARRFPTLVWNRTFEKALRHQEEFGSEAVPLERVAEARVIFTCLPTTREVYEVAEALYPYLREGTYWVDATSGEPEASRRLAERLREKGVTYLDAPVSGGTSGAEAGTLTVLGGPEEAVERVRPFLAYAKKVVHVGPVGAGHAVKAINNALLAVNLWAAGEGLLALVKQGVSAEKALEVINASSGRSNATENLIPQRVLTRAFPKTFALGLLVKDLGIAGVLDGEKAPSPLLRLAREVYEAKRELGPDADHVEALRLLERWGGVEIR EKVAFIGLGAGYPAGHLARRFPTLVWNRTFEKALRHQEEFGSEAVPLERVAEARVIFTCLPTTREVYEVAEALYPYLREGTYWVDATSGEPEASRRLAERLREKGVTYLDAPVSGGTSGAEAGTLTVLGGPEEAVERVRPFLAYAKKVVHVGPVGAGHAVKAINNALLAVNLWAAGEGLLALVKQGVSAEKALEVINASSGRSNATENLIPQRVLTRAFPKTFALGLLVKDLGIAGVLDGEKAPSPLLRLAREVYEAKRELGPDADHVEALRLLERWGGVEIR 2cw2-a1-m1-cB_2cw2-a1-m1-cA Crystal structure of Superoxide dismutase from P. Marinus Q8ISJ0 Q8ISJ0 1.86 X-RAY DIFFRACTION 48 1.0 31276 (Perkinsus marinus) 31276 (Perkinsus marinus) 196 199 GPFQCPPLPYVKNALEPHMSAETLTYHHDKHHQTYVDTLNSIAAENSTIASKTLEQIIKTETGKPFNQAAQVYNHTFFFNNLAPNGGGEPTGKIAELITRDFGSFEKFKEDFSAAAVGHFGSGWVWLIADDGKLKIVQGHDAGNPIRESKTPLMNIDVWEHAYYIDYRNARAQYVKNYWNLVNWDFVNDNVAKAGI SVTGPFQCPPLPYVKNALEPHMSAETLTYHHDKHHQTYVDTLNSIAAENSTIASKTLEQIIKTETGKPFNQAAQVYNHTFFFNNLAPNGGGEPTGKIAELITRDFGSFEKFKEDFSAAAVGHFGSGWVWLIADDGKLKIVQGHDAGNPIRESKTPLMNIDVWEHAYYIDYRNARAQYVKNYWNLVNWDFVNDNVAKAGI 2cw3-a1-m1-cB_2cw3-a1-m1-cA X-ray structure of PmSOD2, superoxide dismutase from Perkinsus marinus Q8ISI9 Q8ISI9 2.5 X-RAY DIFFRACTION 48 1.0 31276 (Perkinsus marinus) 31276 (Perkinsus marinus) 196 200 LRMTLPYGLEALEPVISAATVDFHYNKHHQGYIQKLLDATGLPESRINLKSLVTLGPDRAGENVFNAAGQIYNHNMYWLSMVPTSGSGRHVPPRLLKLIRARWGNVDEMKENFMRKATALFGSGWIWLVWDTRERRLDLVGTKDAHSPLSEDAGKIPLFTCDVWEHAYYLDYQHDRAAYLTRWWSLINWEFADSNL PSSGLRMTLPYGLEALEPVISAATVDFHYNKHHQGYIQKLLDATGLPESRINLKSLVTLGPDRAGENVFNAAGQIYNHNMYWLSMVPTSGSGRHVPPRLLKLIRARWGNVDEMKENFMRKATALFGSGWIWLVWDTRERRLDLVGTKDAHSPLSEDAGKIPLFTCDVWEHAYYLDYQHDRAAYLTRWWSLINWEFADSNL 2cw5-a1-m1-cB_2cw5-a1-m1-cA Crystal structure of a conserved hypothetical protein from Thermus thermophilus HB8 Q5SLF5 Q5SLF5 1.94 X-RAY DIFFRACTION 72 0.995 274 (Thermus thermophilus) 274 (Thermus thermophilus) 222 233 RPVYFLSDFGLEDPYVAVVKAVLAERAPGPAVVDLAHALPPQDLRRAAYALFEALPYLPEGAVVLAVVARRAVAALGRWTYVGPDNGLFTLAWLLDPPRRAFLLEGRDVFAPAAAHLALGLPPEGLGPEVPVETLARLPLALTEGPEGEVLTFDRFGNAITTLLRAPVGGFVEVGGRRVPVRRTFEGAPVAYLGSAGLLEVAVNRGSAREALGLKEGPVRLL RPVYFLSDFGLEDPYVAVVKAVLAEAPGPAVVDLAHALPPQDLRRAAYALFEALPYLPEGAVVLAVVDPGVGTARRAVAALGRWTYVGPDNGLFTLAWLLDPPRRAFLLEPPGRDVFAPAAAHLALGLPPEGLGPEVPVETLARLPLALTEGPEGEVLTFDRFGNAITTLLRAPVGGFVEVGGRRVPVRRTFGEVPEGAPVAYLGSAGLLEVAVNRGSAREALGLKEGPVRLL 2cw6-a4-m4-cF_2cw6-a4-m2-cB Crystal Structure of Human HMG-CoA Lyase: Insights into Catalysis and the Molecular Basis for Hydroxymethylglutaric Aciduria P35914 P35914 2.1 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 296 2cw6-a4-m1-cC_2cw6-a4-m4-cC 2cw6-a4-m1-cD_2cw6-a4-m4-cD 2cw6-a4-m1-cE_2cw6-a4-m3-cA 2cw6-a4-m1-cF_2cw6-a4-m3-cB 2cw6-a4-m2-cA_2cw6-a4-m4-cE TLPKRVKIVEVGPRDGLQNEKNIVSTPVKIKLIDMLSEAGLSVIETTSFVSPKWVPQMGDHTEVLKGIQKFPGINYPVLTPNLKGFEAAVAAGAKEVVIFGAASELFTKKNCSIEESFQRFDAILKAAQSANISVRGYVSCALGCPYEGKISPAKVAEVTKKFYSMGCYEISLGDTIGVGTPGIMKDMLSAVMQEVPLAALAVHCHDTYGQALANTLMALQMGVSVVDSSVAGLGGASGNLATEDLVYMLEGLGIHTGVNLQKLLEAGNFICQALNRKTSSKVAQATC TLPKRVKIVEVGPRDGLQNEKNIVSTPVKIKLIDMLSEAGLSVIETTSFVSPKWVPQMGDHTEVLKGIQKFPGINYPVLTPNLKGFEAAVAAGAKEVVIFGAASELFTKKNINCSIEESFQRFDAILKAAQSANISVRGYVSCALGCPYEGKISPAKVAEVTKKFYSMGCYEISLGDTIGVGTPGIMKDMLSAVMQEVPLAALAVHCHDTYGQALANTLMALQMGVSVVDSSVAGLGGCPYAQGASGNLATEDLVYMLEGLGIHTGVNLQKLLEAGNFICQALNRKTSSKVAQATC 2cw6-a5-m1-cC_2cw6-a5-m2-cA Crystal Structure of Human HMG-CoA Lyase: Insights into Catalysis and the Molecular Basis for Hydroxymethylglutaric Aciduria P35914 P35914 2.1 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 296 2cw6-a4-m1-cC_2cw6-a4-m1-cE 2cw6-a4-m1-cC_2cw6-a4-m2-cA 2cw6-a4-m4-cC_2cw6-a4-m3-cA 2cw6-a4-m4-cC_2cw6-a4-m4-cE 2cw6-a5-m1-cC_2cw6-a5-m1-cE LPKRVKIVEVGPRDGLQNEKNIVSTPVKIKLIDMLSEAGLSVIETTSFVSPKWVPQMGDHTEVLKGIQKFPGINYPVLTPNLKGFEAAVAAGAKEVVIFGAASELFTKKNINCSIEESFQRFDAILKAAQSANISVRGYVSCALGCPYEGKISPAKVAEVTKKFYSMGCYEISLGDTIGVGTPGIMKDMLSAVMQEVPLAALAVHCHDTYGQALANTLMALQMGVSVVDSSVAGLGGCPYAQGASGNLATEDLVYMLEGLGIHTGVNLQKLLEAGNFICQALNRKTSSKVAQAT TLPKRVKIVEVGPRDGLQNEKNIVSTPVKIKLIDMLSEAGLSVIETTSFVSPKWVPQMGDHTEVLKGIQKFPGINYPVLTPNLKGFEAAVAAGAKEVVIFGAASELFTKKNINCSIEESFQRFDAILKAAQSANISVRGYVSCALGCPYEGKISPAKVAEVTKKFYSMGCYEISLGDTIGVGTPGIMKDMLSAVMQEVPLAALAVHCHDTYGQALANTLMALQMGVSVVDSSVAGLGGCPYAQGASGNLATEDLVYMLEGLGIHTGVNLQKLLEAGNFICQALNRKTSSKVAQATC 2cw6-a5-m2-cA_2cw6-a5-m2-cB Crystal Structure of Human HMG-CoA Lyase: Insights into Catalysis and the Molecular Basis for Hydroxymethylglutaric Aciduria P35914 P35914 2.1 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 296 2cw6-a1-m1-cA_2cw6-a1-m1-cB 2cw6-a2-m1-cD_2cw6-a2-m1-cC 2cw6-a3-m1-cF_2cw6-a3-m1-cE 2cw6-a4-m1-cD_2cw6-a4-m1-cC 2cw6-a4-m1-cF_2cw6-a4-m1-cE 2cw6-a4-m2-cA_2cw6-a4-m2-cB 2cw6-a4-m3-cA_2cw6-a4-m3-cB 2cw6-a4-m4-cD_2cw6-a4-m4-cC 2cw6-a4-m4-cF_2cw6-a4-m4-cE 2cw6-a5-m1-cD_2cw6-a5-m1-cC 2cw6-a5-m1-cF_2cw6-a5-m1-cE 3mp3-a1-m1-cA_3mp3-a1-m1-cB 3mp3-a2-m1-cD_3mp3-a2-m1-cC 3mp3-a3-m1-cE_3mp3-a3-m1-cF 3mp4-a1-m1-cA_3mp4-a1-m1-cB 3mp4-a2-m1-cC_3mp4-a2-m1-cD 3mp4-a3-m1-cF_3mp4-a3-m1-cE 3mp5-a1-m1-cA_3mp5-a1-m1-cB 3mp5-a2-m1-cC_3mp5-a2-m1-cD 3mp5-a3-m1-cF_3mp5-a3-m1-cE TLPKRVKIVEVGPRDGLQNEKNIVSTPVKIKLIDMLSEAGLSVIETTSFVSPKWVPQMGDHTEVLKGIQKFPGINYPVLTPNLKGFEAAVAAGAKEVVIFGAASELFTKKNINCSIEESFQRFDAILKAAQSANISVRGYVSCALGCPYEGKISPAKVAEVTKKFYSMGCYEISLGDTIGVGTPGIMKDMLSAVMQEVPLAALAVHCHDTYGQALANTLMALQMGVSVVDSSVAGLGGCPYAQGASGNLATEDLVYMLEGLGIHTGVNLQKLLEAGNFICQALNRKTSSKVAQATC TLPKRVKIVEVGPRDGLQNEKNIVSTPVKIKLIDMLSEAGLSVIETTSFVSPKWVPQMGDHTEVLKGIQKFPGINYPVLTPNLKGFEAAVAAGAKEVVIFGAASELFTKKNINCSIEESFQRFDAILKAAQSANISVRGYVSCALGCPYEGKISPAKVAEVTKKFYSMGCYEISLGDTIGVGTPGIMKDMLSAVMQEVPLAALAVHCHDTYGQALANTLMALQMGVSVVDSSVAGLGGCPYAQGASGNLATEDLVYMLEGLGIHTGVNLQKLLEAGNFICQALNRKTSSKVAQATC 2cwj-a2-m2-cA_2cwj-a2-m3-cA crystal structure of APE1501, a putative endonuclease from Aeropyrum pernix Q9YBU8 Q9YBU8 3.6 X-RAY DIFFRACTION 70 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 116 116 2cwj-a2-m1-cA_2cwj-a2-m2-cA 2cwj-a2-m1-cA_2cwj-a2-m3-cA APKPVGPYSQAVESGCFMFVSGQIPINPETGALEEGGFKESAKRALDNLKAIVEGAGYSMDDIVKVTVYITDISRFSEFNEVYREYFNRPYPARAVVGVAALPLGAPLEVEAVLYT APKPVGPYSQAVESGCFMFVSGQIPINPETGALEEGGFKESAKRALDNLKAIVEGAGYSMDDIVKVTVYITDISRFSEFNEVYREYFNRPYPARAVVGVAALPLGAPLEVEAVLYT 2cwo-a1-m2-cB_2cwo-a1-m2-cC Crystal structure of RNA silencing suppressor p21 from Beet Yellows Virus Q08545 Q08545 3.3 X-RAY DIFFRACTION 45 1.0 12161 (Beet yellows virus) 12161 (Beet yellows virus) 165 165 2cwo-a1-m1-cA_2cwo-a1-m2-cA 2cwo-a1-m1-cB_2cwo-a1-m1-cC 2cwo-a1-m1-cD_2cwo-a1-m2-cD MKFFLKDGETSRALSRSESLLRRVKELGTNSQQSEISECVDEFNELASFNHLLVTVEHREWMEQRIGEMLKEIRAFLKVRVVTPMHKETASDTLNAFLEEYCRITGLAREDALREKMRKVKSVVLFHHSELLKFEVTENMFSYTELLKLNLSLRVISSQILGMAI MKFFLKDGETSRALSRSESLLRRVKELGTNSQQSEISECVDEFNELASFNHLLVTVEHREWMEQRIGEMLKEIRAFLKVRVVTPMHKETASDTLNAFLEEYCRITGLAREDALREKMRKVKSVVLFHHSELLKFEVTENMFSYTELLKLNLSLRVISSQILGMAI 2cwo-a1-m2-cC_2cwo-a1-m2-cD Crystal structure of RNA silencing suppressor p21 from Beet Yellows Virus Q08545 Q08545 3.3 X-RAY DIFFRACTION 49 1.0 12161 (Beet yellows virus) 12161 (Beet yellows virus) 165 165 2cwo-a1-m1-cA_2cwo-a1-m1-cB 2cwo-a1-m1-cC_2cwo-a1-m1-cD 2cwo-a1-m2-cA_2cwo-a1-m2-cB MKFFLKDGETSRALSRSESLLRRVKELGTNSQQSEISECVDEFNELASFNHLLVTVEHREWMEQRIGEMLKEIRAFLKVRVVTPMHKETASDTLNAFLEEYCRITGLAREDALREKMRKVKSVVLFHHSELLKFEVTENMFSYTELLKLNLSLRVISSQILGMAI MKFFLKDGETSRALSRSESLLRRVKELGTNSQQSEISECVDEFNELASFNHLLVTVEHREWMEQRIGEMLKEIRAFLKVRVVTPMHKETASDTLNAFLEEYCRITGLAREDALREKMRKVKSVVLFHHSELLKFEVTENMFSYTELLKLNLSLRVISSQILGMAI 2cwp-a2-m1-cA_2cwp-a2-m2-cA Crystal structure of MetRS related protein from Pyrococcus horikoshii O58023 O58023 2.1 X-RAY DIFFRACTION 110 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 109 109 MELYDVDEFWKFQMKVGLVKKAEKIKRTKKLIKLIVDFGNEERTIVTGIADQIPPEELEGKKFIFVVNLKPKKFSGVESQGMLILAETEDGKVYLIPVPEEVPVGARVW MELYDVDEFWKFQMKVGLVKKAEKIKRTKKLIKLIVDFGNEERTIVTGIADQIPPEELEGKKFIFVVNLKPKKFSGVESQGMLILAETEDGKVYLIPVPEEVPVGARVW 2cwq-a1-m2-cC_2cwq-a1-m1-cA Crystal structure of conserved protein TTHA0727 from Thermus thermophilus HB8 Q5SMF5 Q5SMF5 1.9 X-RAY DIFFRACTION 83 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 109 122 2cwq-a1-m1-cB_2cwq-a1-m2-cB 2cwq-a1-m1-cC_2cwq-a1-m2-cA ERVLQAAENLGEGLPRAIPLLAEKAPGLLLEHGRSWTYAPEKGALDEKTRTLILLGIALATGSEACVKAAHRAKRLGLSKEALLETLKIARQAQANAVLGHAAPLLEVL SGLVPRGSHDRTHERVLQAAENLGEGLPRAIPLLAEKAPGLLLEHGRSWTYAPEKGALDEKTRTLILLGIALATGSEACVKAAHRAKRLGLSKEALLETLKIARQAQANAVLGHAAPLLEVL 2cwq-a1-m2-cC_2cwq-a1-m2-cB Crystal structure of conserved protein TTHA0727 from Thermus thermophilus HB8 Q5SMF5 Q5SMF5 1.9 X-RAY DIFFRACTION 174 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 109 122 2cwq-a1-m1-cA_2cwq-a1-m2-cA 2cwq-a1-m1-cC_2cwq-a1-m1-cB ERVLQAAENLGEGLPRAIPLLAEKAPGLLLEHGRSWTYAPEKGALDEKTRTLILLGIALATGSEACVKAAHRAKRLGLSKEALLETLKIARQAQANAVLGHAAPLLEVL SGLVPRGSHDRTHERVLQAAENLGEGLPRAIPLLAEKAPGLLLEHGRSWTYAPEKGALDEKTRTLILLGIALATGSEACVKAAHRAKRLGLSKEALLETLKIARQAQANAVLGHAAPLLEVL 2cww-a2-m1-cB_2cww-a2-m3-cB Crystal structure of Thermus thermophilus TTHA1280, a putative SAM-dependent RNA methyltransferase, in complex with S-adenosyl-L-homocysteine Q5SIT4 Q5SIT4 2.6 X-RAY DIFFRACTION 78 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 382 382 1wxw-a1-m1-cA_1wxw-a1-m1-cB 1wxw-a2-m1-cC_1wxw-a2-m2-cC 1wxw-a3-m1-cD_1wxw-a3-m3-cD 1wxx-a1-m1-cA_1wxx-a1-m1-cB 1wxx-a2-m1-cC_1wxx-a2-m1-cD 2cww-a1-m1-cA_2cww-a1-m2-cA MRIQVNAKGAARLLSRHLWVFRRDVVSGPETPGLYPVYWGRRFLALALYNPHTDLAVRAYRFAPAEDPVAALLENLAQALARREAVLRQDPEGGYRLVHAEGDLLPGLVVDYYAGHAVVQATAHAWEGLLPQVAEALRPHVQSVLAKNDARTRELEGLPLYVRPLLGEVPERVQVQEGRVRYLVDLRAGQKTGAYLDQRENRLYMERFRGERALDVFSYAGGFALHLALGFREVVAVDSSAEALRRAEENARLNGLGNVRVLEANAFDLLRRLEKEGERFDLVVLDPPAFAKGKKDVERAYRAYKEVNLRAIKLLKEGGILATASCSHHMTEPLFYAMVAEAAQDAHRLLRVVEKRGQPFDHPVLLNHPETHYLKFAVFQVL MRIQVNAKGAARLLSRHLWVFRRDVVSGPETPGLYPVYWGRRFLALALYNPHTDLAVRAYRFAPAEDPVAALLENLAQALARREAVLRQDPEGGYRLVHAEGDLLPGLVVDYYAGHAVVQATAHAWEGLLPQVAEALRPHVQSVLAKNDARTRELEGLPLYVRPLLGEVPERVQVQEGRVRYLVDLRAGQKTGAYLDQRENRLYMERFRGERALDVFSYAGGFALHLALGFREVVAVDSSAEALRRAEENARLNGLGNVRVLEANAFDLLRRLEKEGERFDLVVLDPPAFAKGKKDVERAYRAYKEVNLRAIKLLKEGGILATASCSHHMTEPLFYAMVAEAAQDAHRLLRVVEKRGQPFDHPVLLNHPETHYLKFAVFQVL 2cwx-a1-m2-cE_2cwx-a1-m4-cE Crystal structure of octameric ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) from Pyrococcus horikoshii OT3 (form-1 crystal) O58677 O58677 2 X-RAY DIFFRACTION 11 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 408 408 2cwx-a1-m1-cA_2cwx-a1-m3-cA 2cwx-a1-m1-cA_2cwx-a1-m4-cA 2cwx-a1-m1-cE_2cwx-a1-m3-cE 2cwx-a1-m1-cE_2cwx-a1-m4-cE 2cwx-a1-m2-cA_2cwx-a1-m3-cA 2cwx-a1-m2-cA_2cwx-a1-m4-cA 2cwx-a1-m2-cE_2cwx-a1-m3-cE 2cxe-a1-m1-cA_2cxe-a1-m1-cB 2cxe-a1-m1-cA_2cxe-a1-m2-cC 2cxe-a1-m1-cB_2cxe-a1-m1-cD 2cxe-a1-m1-cC_2cxe-a1-m2-cA 2cxe-a1-m1-cC_2cxe-a1-m2-cD 2cxe-a1-m1-cD_2cxe-a1-m2-cC 2cxe-a1-m2-cA_2cxe-a1-m2-cB 2cxe-a1-m2-cB_2cxe-a1-m2-cD 2d69-a1-m1-cE_2d69-a1-m2-cB 2d69-a1-m2-cE_2d69-a1-m1-cB WYLDFVDLNYEPGRDELIVEYYFEPNGVSPEEAAGRIASESSIGTWTTLWKLPEMAKRSMAKVFYLEKHGEGYIAKIAYPLTLFEEGSLVQLFSAVAGNVFGMKALKNLRLLDFHPPYEYLRHFKGPQFGVQGIREFMGVKDRPLTATVPKPKMGWSVEEYAEIAYELWSGGIDLLKDDENFTSFPFNRFEERVRKLYRVRDRVEAETGETKEYLINITGPVNIMEKRAEMVANEGGQYVMIDIVVAGWSALQYMREVTEDLGLAIHAHRAMHAAFTRNPRHGITMLALAKAARMIGVDQIHTGTAVGKMAGNYEEIKRINDFLLSKWEHIRPVFPVASGGLHPGLMPELIRLFGKDLVIQAGGGVMGHPDGPRAGAKALRDAIDAAIEGVDLDEKAKSSPELKKSLR WYLDFVDLNYEPGRDELIVEYYFEPNGVSPEEAAGRIASESSIGTWTTLWKLPEMAKRSMAKVFYLEKHGEGYIAKIAYPLTLFEEGSLVQLFSAVAGNVFGMKALKNLRLLDFHPPYEYLRHFKGPQFGVQGIREFMGVKDRPLTATVPKPKMGWSVEEYAEIAYELWSGGIDLLKDDENFTSFPFNRFEERVRKLYRVRDRVEAETGETKEYLINITGPVNIMEKRAEMVANEGGQYVMIDIVVAGWSALQYMREVTEDLGLAIHAHRAMHAAFTRNPRHGITMLALAKAARMIGVDQIHTGTAVGKMAGNYEEIKRINDFLLSKWEHIRPVFPVASGGLHPGLMPELIRLFGKDLVIQAGGGVMGHPDGPRAGAKALRDAIDAAIEGVDLDEKAKSSPELKKSLR 2cwx-a2-m1-cE_2cwx-a2-m1-cA Crystal structure of octameric ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) from Pyrococcus horikoshii OT3 (form-1 crystal) O58677 O58677 2 X-RAY DIFFRACTION 271 0.993 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 408 414 2cwx-a1-m1-cE_2cwx-a1-m1-cA 2cwx-a1-m2-cE_2cwx-a1-m2-cA 2cwx-a1-m3-cE_2cwx-a1-m3-cA 2cwx-a1-m4-cE_2cwx-a1-m4-cA 2cxe-a1-m1-cA_2cxe-a1-m2-cA 2cxe-a1-m1-cB_2cxe-a1-m1-cC 2cxe-a1-m1-cD_2cxe-a1-m2-cD 2cxe-a1-m2-cB_2cxe-a1-m2-cC 2cxe-a2-m1-cA_2cxe-a2-m2-cA 2cxe-a3-m1-cB_2cxe-a3-m1-cC 2cxe-a4-m1-cD_2cxe-a4-m2-cD 2d69-a1-m1-cB_2d69-a1-m2-cB 2d69-a1-m1-cD_2d69-a1-m2-cD 2d69-a1-m1-cE_2d69-a1-m1-cA 2d69-a1-m2-cE_2d69-a1-m2-cA 2d69-a2-m1-cE_2d69-a2-m1-cA 2d69-a3-m1-cB_2d69-a3-m2-cB 2d69-a4-m1-cD_2d69-a4-m2-cD WYLDFVDLNYEPGRDELIVEYYFEPNGVSPEEAAGRIASESSIGTWTTLWKLPEMAKRSMAKVFYLEKHGEGYIAKIAYPLTLFEEGSLVQLFSAVAGNVFGMKALKNLRLLDFHPPYEYLRHFKGPQFGVQGIREFMGVKDRPLTATVPKPKMGWSVEEYAEIAYELWSGGIDLLKDDENFTSFPFNRFEERVRKLYRVRDRVEAETGETKEYLINITGPVNIMEKRAEMVANEGGQYVMIDIVVAGWSALQYMREVTEDLGLAIHAHRAMHAAFTRNPRHGITMLALAKAARMIGVDQIHTGTAVGKMAGNYEEIKRINDFLLSKWEHIRPVFPVASGGLHPGLMPELIRLFGKDLVIQAGGGVMGHPDGPRAGAKALRDAIDAAIEGVDLDEKAKSSPELKKSLR VEWYLDFVDLNYEPGRDELIVEYYFEPNGVSPEEAAGRIASESSIGTLWKLPEMAKRSMAKVFYLEKHGEGYIAKIAYPLTLFEEGSLVQLFSAVAGNVFGMKALKNLRLLDFHPPYEYLRHFKGPQFGVQGIREFMGVKDRPLTATVPKPKMGWSVEEYAEIAYELWSGGIDLLKDDENFTSFPFNRFEERVRKLYRVRDRVEAETGETKEYLINITGPVNIMEKRAEMVANEGGQYVMIDIVVAGWSALQYMREVTEDLGLAIHAHRAMHAAFTRNPRHGITMLALAKAARMIGVDQIHTGTAVGKMAGNYEEIKRINDFLLSKWEHIRPVFPVASGGLHPGLMPELIRLFGKDLVIQAGGGVMGHPDGPRAGAKALRDAIDAAIEGVDLDEKAKSSPELKKSLREVGLSKA 2cwz-a2-m1-cC_2cwz-a2-m1-cD Crystal structure of the Thermus thermophilus hypothetical protein TTHA0967, a thioesterase superfamily member Q5SJP1 Q5SJP1 1.85 X-RAY DIFFRACTION 110 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 132 132 2cwz-a1-m1-cB_2cwz-a1-m1-cA RPIPEGYEAVFETVVTPETVRFEELGPVHPVYATYWVKHELAGRKIILPFLEEGEEGIGSYVEARHLASALPGRVRVVARHEKTEGNRVYARVEAYNELGDLIGVGRTEQVILPKAKVEALFRRLKERWEAE RPIPEGYEAVFETVVTPETVRFEELGPVHPVYATYWVKHELAGRKIILPFLEEGEEGIGSYVEARHLASALPGRVRVVARHEKTEGNRVYARVEAYNELGDLIGVGRTEQVILPKAKVEALFRRLKERWEAE 2cxi-a1-m1-cA_2cxi-a1-m1-cC Crystal Structure Of An N-terminal Fragment Of The Phenylalanyl-tRNA Synthetase Beta-Subunit From Pyrococcus Horikoshii O73984 O73984 1.94 X-RAY DIFFRACTION 24 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 339 339 PKFDVSKSDLERLIGRSFSIEEWEDLVLYAKCELDDVWEENGKVYFKLDSKDTNRPDLWSAEGVARQIKWALGIEKGLPKYEVKKSNVTVYVDEKLKDIRPYGVYAIVEGLRLDEDSLSQIQLQEKIALTFGRRRREVAIGIFDFDKIKPPIYYKAAEKTEKFAPLGYKEETLEEILEKHEKGREYGHLIKDKQFYPLLIDSEGNVLSPPIINSEFTGRVTTDTKNVFIDVTGWKLEKVLALNVVTALAERGGKIRSVRVVYKDFEIETPDLTPKEFEVELDYIRKLSGLELNDGEIKELLEKYEVEISRGRAKLKYPAFRDDIHARDILEDVLIAYGY PKFDVSKSDLERLIGRSFSIEEWEDLVLYAKCELDDVWEENGKVYFKLDSKDTNRPDLWSAEGVARQIKWALGIEKGLPKYEVKKSNVTVYVDEKLKDIRPYGVYAIVEGLRLDEDSLSQIQLQEKIALTFGRRRREVAIGIFDFDKIKPPIYYKAAEKTEKFAPLGYKEETLEEILEKHEKGREYGHLIKDKQFYPLLIDSEGNVLSPPIINSEFTGRVTTDTKNVFIDVTGWKLEKVLALNVVTALAERGGKIRSVRVVYKDFEIETPDLTPKEFEVELDYIRKLSGLELNDGEIKELLEKYEVEISRGRAKLKYPAFRDDIHARDILEDVLIAYGY 2cxi-a1-m1-cB_2cxi-a1-m1-cC Crystal Structure Of An N-terminal Fragment Of The Phenylalanyl-tRNA Synthetase Beta-Subunit From Pyrococcus Horikoshii O73984 O73984 1.94 X-RAY DIFFRACTION 36 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 339 339 PKFDVSKSDLERLIGRSFSIEEWEDLVLYAKCELDDVWEENGKVYFKLDSKDTNRPDLWSAEGVARQIKWALGIEKGLPKYEVKKSNVTVYVDEKLKDIRPYGVYAIVEGLRLDEDSLSQIQLQEKIALTFGRRRREVAIGIFDFDKIKPPIYYKAAEKTEKFAPLGYKEETLEEILEKHEKGREYGHLIKDKQFYPLLIDSEGNVLSPPIINSEFTGRVTTDTKNVFIDVTGWKLEKVLALNVVTALAERGGKIRSVRVVYKDFEIETPDLTPKEFEVELDYIRKLSGLELNDGEIKELLEKYEVEISRGRAKLKYPAFRDDIHARDILEDVLIAYGY PKFDVSKSDLERLIGRSFSIEEWEDLVLYAKCELDDVWEENGKVYFKLDSKDTNRPDLWSAEGVARQIKWALGIEKGLPKYEVKKSNVTVYVDEKLKDIRPYGVYAIVEGLRLDEDSLSQIQLQEKIALTFGRRRREVAIGIFDFDKIKPPIYYKAAEKTEKFAPLGYKEETLEEILEKHEKGREYGHLIKDKQFYPLLIDSEGNVLSPPIINSEFTGRVTTDTKNVFIDVTGWKLEKVLALNVVTALAERGGKIRSVRVVYKDFEIETPDLTPKEFEVELDYIRKLSGLELNDGEIKELLEKYEVEISRGRAKLKYPAFRDDIHARDILEDVLIAYGY 2cxj-a1-m1-cA_2cxj-a1-m1-cB 3D Solution Structure of S100A13 P97352 P97352 NOT SOLUTION NMR 292 1.0 10090 (Mus musculus) 10090 (Mus musculus) 98 98 MAAETLTELEAAIETVVSTFFTFAGREGRKGSLNINEFKELATQQLPHLLKDVGSLDEKMKTLDVNQDSELRFSEYWRLIGELAKEVRKEKALGIRKK MAAETLTELEAAIETVVSTFFTFAGREGRKGSLNINEFKELATQQLPHLLKDVGSLDEKMKTLDVNQDSELRFSEYWRLIGELAKEVRKEKALGIRKK 2cxk-a2-m1-cD_2cxk-a2-m1-cC Crystal structure of the TIG domain of human calmodulin-binding transcription activator 1 (CAMTA1) Q9Y6Y1 Q9Y6Y1 1.85 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 84 2cxk-a1-m1-cB_2cxk-a1-m1-cA 2cxk-a3-m1-cE_2cxk-a3-m2-cE GVTDYSPEWSYPEGGVKVLITGPWQEASNNYSCLFDQISVPASLIQPGVLRCYCPAHDTGLVTLQVAFNNQIISNSVVFEYKS GVTDYSPEWSYPEGGVKVLITGPWQEASNNYSCLFDQISVPASLIQPGVLRCYCPAHDTGLVTLQVAFNNQIISNSVVFEYKSG 2cxn-a1-m1-cA_2cxn-a1-m1-cB Crystal structure of mouse AMF / phosphate complex P06745 P06745 1.4 X-RAY DIFFRACTION 494 1.0 10090 (Mus musculus) 10090 (Mus musculus) 557 557 1u0e-a1-m1-cA_1u0e-a1-m1-cB 1u0f-a1-m1-cA_1u0f-a1-m1-cB 1u0g-a1-m1-cA_1u0g-a1-m1-cB 2cvp-a1-m1-cA_2cvp-a1-m1-cB 2cxo-a1-m1-cA_2cxo-a1-m1-cB 2cxp-a1-m1-cA_2cxp-a1-m1-cB 2cxq-a1-m1-cA_2cxq-a1-m1-cB 2cxr-a1-m1-cA_2cxr-a1-m1-cB 2cxs-a1-m1-cA_2cxs-a1-m1-cB 2cxt-a1-m1-cA_2cxt-a1-m1-cB 2cxu-a1-m1-cA_2cxu-a1-m1-cB MAALTRNPQFQKLLEWHRANSANLKLRELFEADPERFNNFSLNLNTNHGHILVDYSKNLVSKEVMQMLVELAKSRGVEAARDNMFSGSKINYTEDRAVLHVALRNRSNTPIKVDGKDVMPEVNRVLDKMKSFCQRVRSGDWKGYTGKSITDIINIGIGGSDLGPLMVTEALKPYSKGGPRVWFVSNIDGTHIAKTLASLSPETSLFIIASKTFTTQETITNAETAKEWFLEAAKDPSAVAKHFVALSTNTAKVKEFGIDPQNMFEFWDWVGGRYSLWSAIGLSIALHVGFDHFEQLLSGAHWMDQHFLKTPLEKNAPVLLALLGIWYINCYGCETHALLPYDQYMHRFAAYFQQGDMESNGKYITKSGARVDHQTGPIVWGEPGTNGQHAFYQLIHQGTKMIPCDFLIPVQTQHPIRKGLHHKILLANFLAQTEALMKGKLPEEARKELQAAGKSPEDLEKLLPHKVFEGNRPTNSIVFTKLTPFILGALIAMYEHKIFVQGIMWDINSFDQWGVELGKQLAKKIEPELEGSSAVTSHDSSTNGLISFIKQQRDTKL MAALTRNPQFQKLLEWHRANSANLKLRELFEADPERFNNFSLNLNTNHGHILVDYSKNLVSKEVMQMLVELAKSRGVEAARDNMFSGSKINYTEDRAVLHVALRNRSNTPIKVDGKDVMPEVNRVLDKMKSFCQRVRSGDWKGYTGKSITDIINIGIGGSDLGPLMVTEALKPYSKGGPRVWFVSNIDGTHIAKTLASLSPETSLFIIASKTFTTQETITNAETAKEWFLEAAKDPSAVAKHFVALSTNTAKVKEFGIDPQNMFEFWDWVGGRYSLWSAIGLSIALHVGFDHFEQLLSGAHWMDQHFLKTPLEKNAPVLLALLGIWYINCYGCETHALLPYDQYMHRFAAYFQQGDMESNGKYITKSGARVDHQTGPIVWGEPGTNGQHAFYQLIHQGTKMIPCDFLIPVQTQHPIRKGLHHKILLANFLAQTEALMKGKLPEEARKELQAAGKSPEDLEKLLPHKVFEGNRPTNSIVFTKLTPFILGALIAMYEHKIFVQGIMWDINSFDQWGVELGKQLAKKIEPELEGSSAVTSHDSSTNGLISFIKQQRDTKL 2cy5-a1-m1-cA_2cy5-a1-m2-cA Crystal structure of phosphotyrosine binding (PTB) domain of epidermal growth factor receptor pathway substrate-8 (EPS8) related protein 1 from Mus musculus (form-2 crystal) Q8R5F8 Q8R5F8 1.9 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 126 126 2cy4-a1-m1-cA_2cy4-a1-m2-cA ADVSQYHVNHLVTFCLGEEDGVHTVEDASRKLAVDSQGRVWAQELLRVSPSQVTLLDPVSKEELESYPLDAIVRCDAVPRGRSRSLLLLVCQEPERAQPDVHFFQGLLLGAELIREDIQGALQNYR ADVSQYHVNHLVTFCLGEEDGVHTVEDASRKLAVDSQGRVWAQELLRVSPSQVTLLDPVSKEELESYPLDAIVRCDAVPRGRSRSLLLLVCQEPERAQPDVHFFQGLLLGAELIREDIQGALQNYR 2cya-a1-m1-cA_2cya-a1-m2-cA Crystal structure of tyrosyl-tRNA synthetase from Aeropyrum pernix Q9YA64 Q9YA64 2.2 X-RAY DIFFRACTION 99 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 328 328 VDVEERFNRIARNTVEIVTEEELKGLLASGARIKGYIGYEPSGVAHIGWLVWMYKVKDLVEAGVDFSVLEATWHAYINDKLGGDMDLIRAAARIVRRVMEAAGVPVERVRFVDAEELASDKDYWGLVIRVAKRASLARVRRALAEEAEVDASKLIYPLMQVSDIFYMDLDIALGGMDQRKAHMLARDVAEKLGRKKPVAIHTPIISSLQGPVKMSKSKPETAVFVVDSDDDIRRKIRKAYCPAKQVQGNPVLEIARYILFARDGFTLRVDVEYTSYEELERDYTDGRLHPLDLKNAVAESLIEVVRPIRGAVLGDPAMKRALEAIEGK VDVEERFNRIARNTVEIVTEEELKGLLASGARIKGYIGYEPSGVAHIGWLVWMYKVKDLVEAGVDFSVLEATWHAYINDKLGGDMDLIRAAARIVRRVMEAAGVPVERVRFVDAEELASDKDYWGLVIRVAKRASLARVRRALAEEAEVDASKLIYPLMQVSDIFYMDLDIALGGMDQRKAHMLARDVAEKLGRKKPVAIHTPIISSLQGPVKMSKSKPETAVFVVDSDDDIRRKIRKAYCPAKQVQGNPVLEIARYILFARDGFTLRVDVEYTSYEELERDYTDGRLHPLDLKNAVAESLIEVVRPIRGAVLGDPAMKRALEAIEGK 2cyb-a1-m1-cB_2cyb-a1-m1-cA Crystal structure of Tyrosyl-tRNA Synthetase complexed with L-tyrosine from Archaeoglobus fulgidus O29482 O29482 1.8 X-RAY DIFFRACTION 86 0.997 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 317 319 MDITEKLRLITRNAEEVVTEEELRQLIETKEKPRAYVGYEPSGEIHLGHMMTVQKLMDLQEAGFEIIVLLADIHAYLNEKGTFEEIAEVADYNKKVFIALGLDESRAKFVLGSEYQLSRDYVLDVLKMARITTLNRARRSMDEVSRRKEDPMVSQMIYPLMQALDIAHLGVDLAVGGIDQRKIHMLARENLPRLGYSSPVCLHTPILVGLDGQKMSSSKGNYISVRDPPEEVERKIRKAYCPAGVVEENPILDIAKYHILPRFGKIVVERDAGDVEYASFEELAEDFKSGQLHPLDLKIAVAKYLNMLLEDARKRLG DITEKLRLITRNAEEVVTEEELRQLIETKEKPRAYVGYEPSGEIHLGHMMTVQKLMDLQEAGFEIIVLLADIHAYLNEKGTFEEIAEVADYNKKVFIALGLDESRAKFVLGSEYQLSRDYVLDVLKMARITTLNRARRSMDEVSRRKEDPMVSQMIYPLMQALDIAHLGVDLAVGGIDQRKIHMLARENLPRLGYSSPVCLHTPILVGLDGQKMSSSKGNYISVRDPPEEVERKIRKAYCPAGVVEENPILDIAKYHILPRFGKIVVERDAKFGGDVEYASFEELAEDFKSGQLHPLDLKIAVAKYLNMLLEDARKRLG 2cyc-a1-m1-cA_2cyc-a1-m1-cB Crystal structure of Tyrosyl-tRNA Synthetase complexed with L-tyrosine from Pyrococcus horikoshii O58739 O58739 2.2 X-RAY DIFFRACTION 91 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 371 371 MDIEERINLVLKKPTEEVLTVENLRHLFEIGAPLQHYIGFEISGYIHLGTGLMAGAKIADFQKAGIKTRVFLADWHSWINDKLGGDLEVIQEVALKYFKVGMEKSIEVMGGDPKKVEFVLASEILEKGDYWQTVIDISKNVTLSRVMRSITIMGRQMGEAIDFAKLIYPMMQVADIFYQGVTIAHAGMDQRKAHVIAIEVAQKLRYHPIVHEGEKLKPVAVHHHLLLGLQEPPKWPIESEEEFKEIKAQMKMSKSKPYSAVFIHDSPEEIRQKLRKAFCPAREVRYNPVLDWVEYIIFREEPTEFTVHRPAKFGGDVTYTTFEELKRDFAEGKLHPLDLKNAVAEYLINLLEPIRRYFEKHPEPLELMRSV MDIEERINLVLKKPTEEVLTVENLRHLFEIGAPLQHYIGFEISGYIHLGTGLMAGAKIADFQKAGIKTRVFLADWHSWINDKLGGDLEVIQEVALKYFKVGMEKSIEVMGGDPKKVEFVLASEILEKGDYWQTVIDISKNVTLSRVMRSITIMGRQMGEAIDFAKLIYPMMQVADIFYQGVTIAHAGMDQRKAHVIAIEVAQKLRYHPIVHEGEKLKPVAVHHHLLLGLQEPPKWPIESEEEFKEIKAQMKMSKSKPYSAVFIHDSPEEIRQKLRKAFCPAREVRYNPVLDWVEYIIFREEPTEFTVHRPAKFGGDVTYTTFEELKRDFAEGKLHPLDLKNAVAEYLINLLEPIRRYFEKHPEPLELMRSV 2cye-a3-m1-cD_2cye-a3-m1-cA Crystal structure of Thioesterase complexed with coenzyme A and Zn from Thermus thermophilus HB8 Q5SH84 Q5SH84 1.9 X-RAY DIFFRACTION 13 0.984 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 122 126 2cye-a3-m1-cB_2cye-a3-m1-cC GFPVRVRVDVRFRDLDPLGHVNNAVFLSYELARIRYFQRISPDWLEEGHFVVAREVDYLRPILLGDEVFVGVRTVGLGRSSLREHLVTANGESAAKGLGVLVWLEGGRPAPLPEAIRERIRA EGFPVRVRVDVRFRDLDPLGHVNNAVFLSYELARIRYFQRIDWLEEGHFVVAREVDYLRPILLGDEVFVGVRTVGLGRSSLREHLVTANGESAAKGLGVLVWLEGGRPAPLPEAIRERIRALEGRP 2cye-a3-m1-cD_2cye-a3-m1-cB Crystal structure of Thioesterase complexed with coenzyme A and Zn from Thermus thermophilus HB8 Q5SH84 Q5SH84 1.9 X-RAY DIFFRACTION 56 0.984 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 122 126 2cye-a1-m1-cA_2cye-a1-m1-cC 2cye-a2-m1-cD_2cye-a2-m1-cB 2cye-a3-m1-cA_2cye-a3-m1-cC GFPVRVRVDVRFRDLDPLGHVNNAVFLSYELARIRYFQRISPDWLEEGHFVVAREVDYLRPILLGDEVFVGVRTVGLGRSSLREHLVTANGESAAKGLGVLVWLEGGRPAPLPEAIRERIRA EGFPVRVRVDVRFRDLDPLGHVNNAVFLSYELARIRYFQRIDWLEEGHFVVAREVDYLRPILLGDEVFVGVRTVGLGRSSLREHLVTANGESAAKGLGVLVWLEGGRPAPLPEAIRERIRALEGRP 2cye-a3-m1-cD_2cye-a3-m1-cC Crystal structure of Thioesterase complexed with coenzyme A and Zn from Thermus thermophilus HB8 Q5SH84 Q5SH84 1.9 X-RAY DIFFRACTION 42 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 122 129 2cye-a3-m1-cA_2cye-a3-m1-cB GFPVRVRVDVRFRDLDPLGHVNNAVFLSYELARIRYFQRISPDWLEEGHFVVAREVDYLRPILLGDEVFVGVRTVGLGRSSLREHLVTANGESAAKGLGVLVWLEGGRPAPLPEAIRERIRA EGFPVRVRVDVRFRDLDPLGHVNNAVFLSYELARIRYFQRISPDWLEEGHFVVAREVDYLRPILLGDEVFVGVRTVGLGRSSLREHLVTANGESAAKGLGVLVWLEGGRPAPLPEAIRERIRALEGRPL 2cz2-a1-m1-cA_2cz2-a1-m2-cA Crystal structure of glutathione transferase zeta 1-1 (maleylacetoacetate isomerase) from Mus musculus (form-1 crystal) Q9WVL0 Q9WVL0 1.4 X-RAY DIFFRACTION 93 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 207 GKPILYSYFRSSCSWRVRIALALKGIDYEIVPINLIKDGGQQFTEEFQTLNPKQVPALKIDGITIVQSLAIEYLEETRPIPRLLPQDPQKRAIVRISDLIASGIQPLQNLSVLKQVGQENQQWAQKVITSGFNALEKILQSTAGKYCVGDEVSADVCLVPQVANAERFKVDLSPYPTISHINKELLALEVFQVSHPRRQPDTPAELR GKPILYSYFRSSCSWRVRIALALKGIDYEIVPINLIKDGGQQFTEEFQTLNPKQVPALKIDGITIVQSLAIEYLEETRPIPRLLPQDPQKRAIVRISDLIASGIQPLQNLSVLKQVGQENQQWAQKVITSGFNALEKILQSTAGKYCVGDEVSADVCLVPQVANAERFKVDLSPYPTISHINKELLALEVFQVSHPRRQPDTPAELR 2cz4-a2-m2-cC_2cz4-a2-m1-cB Crystal structure of a putative PII-like signaling protein (TTHA0516) from Thermus thermophilus HB8 Q5SKX7 Q5SKX7 1.93 X-RAY DIFFRACTION 27 0.989 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 91 92 2cz4-a2-m1-cA_2cz4-a2-m2-cA 2cz4-a2-m1-cC_2cz4-a2-m2-cB DLVPLKLVTIVAESLLEKRLVEEVKRLGAKGYTITPARGEGSEGQNIRLETIVSEEVALRILQRLQEEYFPHYAVIAYVENVWVVRGEKYV DLVPLKLVTIVAESLLEKRLVEEVKRLGAKGYTITPARGEGDWEGQNIRLETIVSEEVALRILQRLQEEYFPHYAVIAYVENVWVVRGEKYV 2cz4-a2-m2-cC_2cz4-a2-m2-cB Crystal structure of a putative PII-like signaling protein (TTHA0516) from Thermus thermophilus HB8 Q5SKX7 Q5SKX7 1.93 X-RAY DIFFRACTION 50 0.989 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 91 92 2cz4-a1-m1-cB_2cz4-a1-m1-cA 2cz4-a1-m1-cC_2cz4-a1-m1-cA 2cz4-a1-m1-cC_2cz4-a1-m1-cB 2cz4-a2-m1-cB_2cz4-a2-m1-cA 2cz4-a2-m1-cC_2cz4-a2-m1-cA 2cz4-a2-m1-cC_2cz4-a2-m1-cB 2cz4-a2-m2-cB_2cz4-a2-m2-cA 2cz4-a2-m2-cC_2cz4-a2-m2-cA DLVPLKLVTIVAESLLEKRLVEEVKRLGAKGYTITPARGEGSEGQNIRLETIVSEEVALRILQRLQEEYFPHYAVIAYVENVWVVRGEKYV DLVPLKLVTIVAESLLEKRLVEEVKRLGAKGYTITPARGEGDWEGQNIRLETIVSEEVALRILQRLQEEYFPHYAVIAYVENVWVVRGEKYV 2czc-a1-m1-cD_2czc-a1-m1-cA Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Pyrococcus horikoshii OT3 O59494 O59494 2 X-RAY DIFFRACTION 128 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 332 334 2czc-a1-m1-cB_2czc-a1-m1-cC KVKVGVNGYGTIGKRVAYAVTKQDDMELIGITKTKPDFEAYRAKELGIPVYAASEEFIPRFEKEGFEVAGTLNDLLEKVDIIVDATPGGIGAKNKPLYEKAGVKAIFQGGEKADVAEVSFVAQANYEAALGKNYVRVVSCNTTGLVRTLSAIREYADYVYAVMIRRAADPNDTKRGPINAIKPTVEVPSHHGPDVQTVIPINIETMAFVVPTTLMHVHSVMVELKKPLTKDDVIDIFENTTRVLLFEKEKGFDSTAQIIEFARDLHREWNNLYEIAVWKESINIKGNRLFYIQAVHQESDVIPENIDAIRAMFELADKWDSIKKTNKSLGIL MKVKVGVNGYGTIGKRVAYAVTKQDDMELIGITKTKPDFEAYRAKELGIPVYAASEEFIPRFEKEGFEVAGTLNDLLEKVDIIVDATPGGIGAKNKPLYEKAGVKAIFQGGEKADVAEVSFVAQANYEAALGKNYVRVVSCNTTGLVRTLSAIREYADYVYAVMIRRAADPNDTKRGPINAIKPTVEVPSHHGPDVQTVIPINIETMAFVVPTTLMHVHSVMVELKKPLTKDDVIDIFENTTRVLLFEKEKGFDSTAQIIEFARDLHREWNNLYEIAVWKESINIKGNRLFYIQAVHQESDVIPENIDAIRAMFELADKWDSIKKTNKSLGILK 2czc-a1-m1-cD_2czc-a1-m1-cB Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Pyrococcus horikoshii OT3 O59494 O59494 2 X-RAY DIFFRACTION 46 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 332 333 2czc-a1-m1-cC_2czc-a1-m1-cA KVKVGVNGYGTIGKRVAYAVTKQDDMELIGITKTKPDFEAYRAKELGIPVYAASEEFIPRFEKEGFEVAGTLNDLLEKVDIIVDATPGGIGAKNKPLYEKAGVKAIFQGGEKADVAEVSFVAQANYEAALGKNYVRVVSCNTTGLVRTLSAIREYADYVYAVMIRRAADPNDTKRGPINAIKPTVEVPSHHGPDVQTVIPINIETMAFVVPTTLMHVHSVMVELKKPLTKDDVIDIFENTTRVLLFEKEKGFDSTAQIIEFARDLHREWNNLYEIAVWKESINIKGNRLFYIQAVHQESDVIPENIDAIRAMFELADKWDSIKKTNKSLGIL KVKVGVNGYGTIGKRVAYAVTKQDDMELIGITKTKPDFEAYRAKELGIPVYAASEEFIPRFEKEGFEVAGTLNDLLEKVDIIVDATPGGIGAKNKPLYEKAGVKAIFQGGEKADVAEVSFVAQANYEAALGKNYVRVVSCNTTGLVRTLSAIREYADYVYAVMIRRAADPNDTKRGPINAIKPTVEVPSHHGPDVQTVIPINIETMAFVVPTTLMHVHSVMVELKKPLTKDDVIDIFENTTRVLLFEKEKGFDSTAQIIEFARDLHREWNNLYEIAVWKESINIKGNRLFYIQAVHQESDVIPENIDAIRAMFELADKWDSIKKTNKSLGILK 2czc-a1-m1-cD_2czc-a1-m1-cC Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Pyrococcus horikoshii OT3 O59494 O59494 2 X-RAY DIFFRACTION 67 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 332 333 2czc-a1-m1-cB_2czc-a1-m1-cA KVKVGVNGYGTIGKRVAYAVTKQDDMELIGITKTKPDFEAYRAKELGIPVYAASEEFIPRFEKEGFEVAGTLNDLLEKVDIIVDATPGGIGAKNKPLYEKAGVKAIFQGGEKADVAEVSFVAQANYEAALGKNYVRVVSCNTTGLVRTLSAIREYADYVYAVMIRRAADPNDTKRGPINAIKPTVEVPSHHGPDVQTVIPINIETMAFVVPTTLMHVHSVMVELKKPLTKDDVIDIFENTTRVLLFEKEKGFDSTAQIIEFARDLHREWNNLYEIAVWKESINIKGNRLFYIQAVHQESDVIPENIDAIRAMFELADKWDSIKKTNKSLGIL KVKVGVNGYGTIGKRVAYAVTKQDDMELIGITKTKPDFEAYRAKELGIPVYAASEEFIPRFEKEGFEVAGTLNDLLEKVDIIVDATPGGIGAKNKPLYEKAGVKAIFQGGEKADVAEVSFVAQANYEAALGKNYVRVVSCNTTGLVRTLSAIREYADYVYAVMIRRAADPNDTKRGPINAIKPTVEVPSHHGPDVQTVIPINIETMAFVVPTTLMHVHSVMVELKKPLTKDDVIDIFENTTRVLLFEKEKGFDSTAQIIEFARDLHREWNNLYEIAVWKESINIKGNRLFYIQAVHQESDVIPENIDAIRAMFELADKWDSIKKTNKSLGILK 2czf-a1-m1-cA_2czf-a1-m1-cB Crystal structure of orotidine 5'-phosphate decarboxylase from Pyrococcus horikoshii OT3 complexed with XMP O58462 O58462 1.85 X-RAY DIFFRACTION 107 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 208 208 2cz5-a1-m1-cA_2cz5-a1-m1-cB 2czd-a1-m1-cA_2czd-a1-m1-cB 2cze-a1-m1-cA_2cze-a1-m1-cB MIVLALDVYEGERAIKIAKSVKDYISMIKVNWPLILGSGVDIIRRLKEETGVEIIADLKLADIPNTNRLIARKVFGAGADYVIVHTFVGRDSVMAVKELGEIIMVVEMSHPGALEFINPLTDRFIEVANEIEPFGVIAPGTRPERIGYIRDRLKEGIKILAPGIGAQGGKAKDAVKAGADYIIVGRAIYNAPNPREAAKAIYDEIRGV MIVLALDVYEGERAIKIAKSVKDYISMIKVNWPLILGSGVDIIRRLKEETGVEIIADLKLADIPNTNRLIARKVFGAGADYVIVHTFVGRDSVMAVKELGEIIMVVEMSHPGALEFINPLTDRFIEVANEIEPFGVIAPGTRPERIGYIRDRLKEGIKILAPGIGAQGGKAKDAVKAGADYIIVGRAIYNAPNPREAAKAIYDEIRGV 2czr-a2-m1-cA_2czr-a2-m2-cA Crystal structure of TBP-interacting protein (Tk-TIP26) and implications for its inhibition mechanism of the interaction between TBP and TATA-DNA Q9V2W6 Q9V2W6 2.3 X-RAY DIFFRACTION 120 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 226 226 GLVPRGSHMYAELSPGTKKVYTQVRYLDDYHWEIEGSTITGIHKKSNVKVVIDVAKNREEADSLAGKDVNGIHIVAIPDNGVFYIKNGSFVLTYRYLKATLADINDHIVWSGFKVVEDNGKLVQEDVYEYLGAALVNHIKNNALAGQDYIFWQFYKCEECGKYVDIENLEAHLREHGIKLHEKSEEHYEVFELNFREGKVFDKFGGEVPMDKFSSEAREFIKEVLS GLVPRGSHMYAELSPGTKKVYTQVRYLDDYHWEIEGSTITGIHKKSNVKVVIDVAKNREEADSLAGKDVNGIHIVAIPDNGVFYIKNGSFVLTYRYLKATLADINDHIVWSGFKVVEDNGKLVQEDVYEYLGAALVNHIKNNALAGQDYIFWQFYKCEECGKYVDIENLEAHLREHGIKLHEKSEEHYEVFELNFREGKVFDKFGGEVPMDKFSSEAREFIKEVLS 2czs-a3-m2-cB_2czs-a3-m1-cA Crystal Structure Analysis of the Diheme c-type Cytochrome DHC2 Q748S4 Q748S4 1.5 X-RAY DIFFRACTION 25 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 69 70 VRTKKVPLDTNHKRFYDAFAQGAGKLDLDRQCVECHHEKPGGIPFPKNHPVKPADGPMRCLFCHKFKLE VRTKKVPLDTNHKRFYDAFAQGAGKLDLDRQCVECHHEKPGGIPFPKNHPVKPADGPMRCLFCHKFKLEH 2czv-a1-m1-cC_2czv-a1-m1-cD Crystal structure of archeal RNase P protein ph1481p in complex with ph1877p O59150 O59150 2 X-RAY DIFFRACTION 32 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 118 119 RKLKTLPPTLRDKNRYIAFEIISDGDFTKDEVKELIWKSSLEVLGETGTAIVKPWLIKFDPNTKTGIVRSDREYVEYLRFALMLVSEFNGKRLIIRTLGVSGTIKRLKRKFLAKYGWK MRKLKTLPPTLRDKNRYIAFEIISDGDFTKDEVKELIWKSSLEVLGETGTAIVKPWLIKFDPNTKTGIVRSDREYVEYLRFALMLVSEFNGKRLIIRTLGVSGTIKRLKRKFLAKYGWK 2d00-a2-m2-cA_2d00-a2-m2-cD Subunit F of V-type ATPase/synthase P74903 P74903 2.2 X-RAY DIFFRACTION 56 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 109 109 2d00-a1-m1-cA_2d00-a1-m1-cD 2d00-a1-m1-cB_2d00-a1-m1-cE 2d00-a2-m1-cA_2d00-a2-m1-cD 2d00-a2-m1-cB_2d00-a2-m1-cE 2d00-a2-m1-cC_2d00-a2-m2-cF 2d00-a2-m1-cF_2d00-a2-m2-cC 2d00-a2-m2-cB_2d00-a2-m2-cE MVPVRMAVIADPETAQGFRLAGLEGYGASSAEEAQSLLETLVERGGYALVAVDEALLPDPERAVERLMRGRDLPVLLPIAGLKEAFQGHDVEGYMRELVRKTIGFDIKL MVPVRMAVIADPETAQGFRLAGLEGYGASSAEEAQSLLETLVERGGYALVAVDEALLPDPERAVERLMRGRDLPVLLPIAGLKEAFQGHDVEGYMRELVRKTIGFDIKL 2d00-a2-m2-cA_2d00-a2-m2-cF Subunit F of V-type ATPase/synthase P74903 P74903 2.2 X-RAY DIFFRACTION 161 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 109 109 2d00-a1-m1-cA_2d00-a1-m1-cF 2d00-a1-m1-cB_2d00-a1-m1-cD 2d00-a1-m1-cC_2d00-a1-m1-cE 2d00-a2-m1-cA_2d00-a2-m1-cF 2d00-a2-m1-cB_2d00-a2-m1-cD 2d00-a2-m1-cC_2d00-a2-m1-cE 2d00-a2-m2-cB_2d00-a2-m2-cD 2d00-a2-m2-cC_2d00-a2-m2-cE MVPVRMAVIADPETAQGFRLAGLEGYGASSAEEAQSLLETLVERGGYALVAVDEALLPDPERAVERLMRGRDLPVLLPIAGLKEAFQGHDVEGYMRELVRKTIGFDIKL MVPVRMAVIADPETAQGFRLAGLEGYGASSAEEAQSLLETLVERGGYALVAVDEALLPDPERAVERLMRGRDLPVLLPIAGLKEAFQGHDVEGYMRELVRKTIGFDIKL 2d00-a2-m2-cD_2d00-a2-m2-cE Subunit F of V-type ATPase/synthase P74903 P74903 2.2 X-RAY DIFFRACTION 19 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 109 109 2d00-a1-m1-cA_2d00-a1-m1-cB 2d00-a1-m1-cB_2d00-a1-m1-cC 2d00-a1-m1-cD_2d00-a1-m1-cE 2d00-a1-m1-cD_2d00-a1-m1-cF 2d00-a2-m1-cA_2d00-a2-m1-cB 2d00-a2-m1-cA_2d00-a2-m2-cC 2d00-a2-m1-cB_2d00-a2-m1-cC 2d00-a2-m1-cC_2d00-a2-m2-cA 2d00-a2-m1-cD_2d00-a2-m1-cE 2d00-a2-m1-cD_2d00-a2-m1-cF 2d00-a2-m1-cE_2d00-a2-m2-cF 2d00-a2-m1-cF_2d00-a2-m2-cE 2d00-a2-m2-cA_2d00-a2-m2-cB 2d00-a2-m2-cB_2d00-a2-m2-cC 2d00-a2-m2-cD_2d00-a2-m2-cF MVPVRMAVIADPETAQGFRLAGLEGYGASSAEEAQSLLETLVERGGYALVAVDEALLPDPERAVERLMRGRDLPVLLPIAGLKEAFQGHDVEGYMRELVRKTIGFDIKL MVPVRMAVIADPETAQGFRLAGLEGYGASSAEEAQSLLETLVERGGYALVAVDEALLPDPERAVERLMRGRDLPVLLPIAGLKEAFQGHDVEGYMRELVRKTIGFDIKL 2d0i-a2-m1-cC_2d0i-a2-m1-cD Crystal Structure PH0520 protein from Pyrococcus horikoshii OT3 O58256 O58256 1.95 X-RAY DIFFRACTION 191 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 333 333 2d0i-a1-m1-cA_2d0i-a1-m1-cB MRPKVGVLLKMKREALEELKKYADVEIILYPSGEELKGVIGRFDGIIVSPTTKITREVLENAERLKVISCHSAGYDNIDLEEATKRGIYVTKVSGLLSEAVAEFTVGLIINLMRKIHYADKFIRRGEWESHAKIWTGFKRIESLYGKKVGILGMGAIGKAIARRLIPFGVKLYYWSRHRKVNVEKELKARYMDIDELLEKSDIVILALPLTRDTYHIINEERVKKLEGKYLVNIGRGALVDEKAVTEAIKQGKLKGYATDVFEKEPVREHELFKYEWETVLTPHYAGLALEAQEDVGFRAVENLLKVLRGEVPEDLVNKEVLEVRPIENVKML MRPKVGVLLKMKREALEELKKYADVEIILYPSGEELKGVIGRFDGIIVSPTTKITREVLENAERLKVISCHSAGYDNIDLEEATKRGIYVTKVSGLLSEAVAEFTVGLIINLMRKIHYADKFIRRGEWESHAKIWTGFKRIESLYGKKVGILGMGAIGKAIARRLIPFGVKLYYWSRHRKVNVEKELKARYMDIDELLEKSDIVILALPLTRDTYHIINEERVKKLEGKYLVNIGRGALVDEKAVTEAIKQGKLKGYATDVFEKEPVREHELFKYEWETVLTPHYAGLALEAQEDVGFRAVENLLKVLRGEVPEDLVNKEVLEVRPIENVKML 2d0j-a2-m1-cD_2d0j-a2-m1-cC Crystal Structure of Human GlcAT-S Apo Form Q9NPZ5 Q9NPZ5 2 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 241 242 2d0j-a1-m1-cA_2d0j-a1-m1-cB LPTIYAITPTYSRPVQKAELTRLANTFRQVAQLHWILVEDAAARSELVSRFLARAGLPSTHLHVPTPRRGLPRATEQRNAGLAWLRQRHQHQRAQPGVLFFADDDNTYSLELFQEMRTTRKVSVWPVGLVGGRRYERPLVENGKVVGWYTGWRADRPFAIDMAGFAVSLQVILSNPKAVFKRRGSQPGMQESDFLKQITTVEELEPKANNCTKVLVWHTRTEKVNLANEPKYHLDTVKIEV QLPTIYAITPTYSRPVQKAELTRLANTFRQVAQLHWILVEDAAARSELVSRFLARAGLPSTHLHVPTPRRGLPRATEQRNAGLAWLRQRHQHQRAQPGVLFFADDDNTYSLELFQEMRTTRKVSVWPVGLVGGRRYERPLVENGKVVGWYTGWRADRPFAIDMAGFAVSLQVILSNPKAVFKRRGSQPGMQESDFLKQITTVEELEPKANNCTKVLVWHTRTEKVNLANEPKYHLDTVKIEV 2d0n-a1-m1-cC_2d0n-a1-m1-cA Crystal structure of the C-terminal SH3 domain of the adaptor protein GADS in complex with SLP-76 motif peptide reveals a unique SH3-SH3 interaction O89100 O89100 1.57 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 56 59 PWARALYDFEALEEDELGFRSGEVVEVLDSSNPSWWTGRLHNKLGLFPANYVAPMM GSPWARALYDFEALEEDELGFRSGEVVEVLDSSNPSWWTGRLHNKLGLFPANYVAPMMR 2d0o-a1-m1-cC_2d0o-a1-m1-cA Structure of diol dehydratase-reactivating factor complexed with ADP and Mg2+ O68195 O68195 2 X-RAY DIFFRACTION 150 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 604 606 2d0p-a1-m1-cC_2d0p-a1-m1-cA MRYIAGIDIGNSSTEVALATLDEAGALTITHSALAETTGIKGTLRNVFGIQEALALVARGAGIAVSDISLIRINEATPVIGDVAMETITETIITESTMIGHNPKTPGGAGLGTGITITPQELLTRPADAPYILVVSSAFDFADIASVINASLRAGYQITGVILQRDDGVLVSNRLEKPLPIVDEVLYIDRIPLGMLAAIEVAVPGKVIETLSNPYGIATVFNLSPEETKNIVPMARALIGNRSAVVVKTPSGDVKARAIPAGNLELLAQGRSVRVDVAAGAEAIMKAVDGCGRLDNVTGESGTNIGGMLEHVRQTMAELTNKPSSEIFIQDLLAVDTSVPVSVTGGLAGEFSLEQAVGIASMVKSDRLQMAMIAREIEQKLNIDVQIGGAEAEAAILGALTTPGTTRPLAILDLGAGSTDASIINPKGDIIATHLAGAGDMVTMIIARELGLEDRYLAEEIKKYPLAKVESLFHLRHEDGSVQFFSTPLPPAVFARVCVVKADELVPLPGDLALEKVRAIRRSAKERVFVTNALRALRQVSPTGNIRDIPFVVLVGGSSLDFEVPQLVTDALAHYRLVAGRGNIRGSEGPRNAVATGLILSWHK MRYIAGIDIGNSSTEVALATLDEAGALTITHSALAETTGIKGTLRNVFGIQEALALVARGAGIAVSDISLIRINEATPVIGDVAMETITETIITESTMIGHNPKTPGGAGLGTGITITPQELLTRPADAPYILVVSSAFDFADIASVINASLRAGYQITGVILQRDDGVLVSNRLEKPLPIVDEVLYIDRIPLGMLAAIEVAVPGKVIETLSNPYGIATVFNLSPEETKNIVPMARALIGNRSAVVVKTPSGDVKARAIPAGNLELLAQGRSVRVDVAAGAEAIMKAVDGCGRLDNVTGESGTNIGGMLEHVRQTMAELTNKPSSEIFIQDLLAVDTSVPVSVTGGLAGEFSLEQAVGIASMVKSDRLQMAMIAREIEQKLNIDVQIGGAEAEAAILGALTTPGTTRPLAILDLGAGSTDASIINPKGDIIATHLAGAGDMVTMIIARELGLEDRYLAEEIKKYPLAKVESLFHLRHEDGSVQFFSTPLPPAVFARVCVVKADELVPLPGDLALEKVRAIRRSAKERVFVTNALRALRQVSPTGNIRDIPFVVLVGGSSLDFEVPQLVTDALAHYRLVAGRGNIRGSEGPRNAVATGLILSWHKEF 2d0v-a2-m1-cI_2d0v-a2-m1-cD Crystal structure of methanol dehydrogenase from Hyphomicrobium denitrificans Q4AE26 Q4AE26 2.49 X-RAY DIFFRACTION 144 1.0 53399 (Hyphomicrobium denitrificans) 53399 (Hyphomicrobium denitrificans) 595 597 2d0v-a1-m1-cA_2d0v-a1-m2-cA NDKLIELSNSNENWVMPGKNYDSNNYSTSTQINVDNVKQLKHAWSFSTGELHGHEGAPLVIGDVMYVHSSFPNKTFALDLNDPGHILWQHSPKQDPAARSVACCDLVNRGLAYWPGDDKTPSLIIKTQLDGHLVALNAKTGEEFWKVENGDIKVGQTLTQAPYVVHDLAIVGSSGAELGVRGHVTAYNVRTGEQAWRYYATGPDAEIGLADDFNSANPHYGQKGLGTATWEGDAWKIGGGTNWGWYAYDPAANLIYYGSGNPAPWNETMRPGDNKWTMTITARDADTGKMKFGYQKTPHDEWDFAGVNVIMLSEQTDKTGKKRKLLTHPDRNGIVYTLDRENGDLISADKLDDTVNVFKTVDLKTGLPVRDPEYGTRMDHKGTDICPSAMGYHNQGHDSYDPQKQLFFMGINHICMDWEPFMLPYRAGQFFVGATLWMYPGPKGDRQNYLGLGQIKAYNAITNEYKWQHMERFSVWGGTLATAGNLVFYGTLDGFLKARNSDTGELVWKHKLPSGVIGYPMTYEHKGVQYIAVMSGVGGWPGVGLVFDLQDPTAGLGAVGAFKNLQNYTQMGGSLEVFSLDGKNPYDDVNVGEYE NDKLIELSNSNENWVMPGKNYDSNNYSTSTQINVDNVKQLKHAWSFSTGELHGHEGAPLVIGDVMYVHSSFPNKTFALDLNDPGHILWQHSPKQDPAARSVACCDLVNRGLAYWPGDDKTPSLIIKTQLDGHLVALNAKTGEEFWKVENGDIKVGQTLTQAPYVVHDLAIVGSSGAELGVRGHVTAYNVRTGEQAWRYYATGPDAEIGLADDFNSANPHYGQKGLGTATWEGDAWKIGGGTNWGWYAYDPAANLIYYGSGNPAPWNETMRPGDNKWTMTITARDADTGKMKFGYQKTPHDEWDFAGVNVIMLSEQTDKTGKKRKLLTHPDRNGIVYTLDRENGDLISADKLDDTVNVFKTVDLKTGLPVRDPEYGTRMDHKGTDICPSAMGYHNQGHDSYDPQKQLFFMGINHICMDWEPFMLPYRAGQFFVGATLWMYPGPKGDRQNYLGLGQIKAYNAITNEYKWQHMERFSVWGGTLATAGNLVFYGTLDGFLKARNSDTGELVWKHKLPSGVIGYPMTYEHKGVQYIAVMSGVGGWPGVGLVFDLQDPTAGLGAVGAFKNLQNYTQMGGSLEVFSLDGKNPYDDVNVGEYEKG 2d13-a2-m1-cD_2d13-a2-m1-cB Crystal Structure of PH1257 from Pyrococcus horikoshii OT3 O58996 O58996 2.4 X-RAY DIFFRACTION 57 0.98 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 203 206 2d13-a1-m1-cC_2d13-a1-m1-cA LADVAVLYSGGKDSNYALYWALKSGLRVRYLVSMVSLTSLQARALGIPIIKGFTVEDLKNVLEGLKVDGIVAGALASRYQKERIENVARELGLKVYTPAWEKDPYQYMLEIIKLGFKVVFVAVSAYGLNESWLGRELNYKNLEELKKLSEKYGIHIAGEGGEFETFVLDMPFFKAKIVIDDAEKFWDGLSGKFIIKRAHLEWK VGLADVAVLYSGGKDSNYALYWALKSGLRVRYLVSMVSENVELTSLQARALGIPIIKGFTEVEDLKNVLEGLKVDGIVAGALQKERIENVARELGLKVYTPAWEKDPYQYMLEIIKLGFKVVFVAVSAYGLNESWLGRELNYKNLEELKKLSEKYGIHIAGEGGEFETFVLDMPFFKAKIVIDDAEKFWDGLSGKFIIKRAHLEWK 2d16-a1-m1-cB_2d16-a1-m1-cC Crystal Structure of PH1918 protein from Pyrococcus horikoshii OT3 O59581 O59581 1.65 X-RAY DIFFRACTION 10 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 161 162 VRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID MVRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID 2d16-a3-m4-cB_2d16-a3-m5-cB Crystal Structure of PH1918 protein from Pyrococcus horikoshii OT3 O59581 O59581 1.65 X-RAY DIFFRACTION 146 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 161 161 2d16-a2-m1-cC_2d16-a2-m2-cC 2d16-a2-m1-cC_2d16-a2-m3-cC 2d16-a2-m1-cD_2d16-a2-m2-cD 2d16-a2-m1-cD_2d16-a2-m3-cD 2d16-a2-m2-cC_2d16-a2-m3-cC 2d16-a2-m2-cD_2d16-a2-m3-cD 2d16-a3-m1-cA_2d16-a3-m4-cA 2d16-a3-m1-cA_2d16-a3-m5-cA 2d16-a3-m1-cB_2d16-a3-m4-cB 2d16-a3-m1-cB_2d16-a3-m5-cB 2d16-a3-m4-cA_2d16-a3-m5-cA VRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID VRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID 2d16-a3-m5-cB_2d16-a3-m1-cA Crystal Structure of PH1918 protein from Pyrococcus horikoshii OT3 O59581 O59581 1.65 X-RAY DIFFRACTION 15 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 161 162 2d16-a2-m1-cD_2d16-a2-m2-cC 2d16-a2-m2-cD_2d16-a2-m3-cC 2d16-a2-m3-cD_2d16-a2-m1-cC 2d16-a3-m1-cB_2d16-a3-m4-cA 2d16-a3-m4-cB_2d16-a3-m5-cA VRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID MVRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID 2d16-a3-m5-cB_2d16-a3-m5-cA Crystal Structure of PH1918 protein from Pyrococcus horikoshii OT3 O59581 O59581 1.65 X-RAY DIFFRACTION 58 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 161 162 2d16-a1-m1-cB_2d16-a1-m1-cA 2d16-a1-m1-cD_2d16-a1-m1-cC 2d16-a2-m1-cD_2d16-a2-m1-cC 2d16-a2-m2-cD_2d16-a2-m2-cC 2d16-a2-m3-cD_2d16-a2-m3-cC 2d16-a3-m1-cB_2d16-a3-m1-cA 2d16-a3-m4-cB_2d16-a3-m4-cA VRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID MVRIEVIDIEKPEGVEVIIGQGNFSIFTVDDLARALLTAVPGIKFGIAMNEAKPQLTRYTGNDPELEALAAKNAVKIGAGHVFVILMKNAYPINVLNTIKNHPAVAMIYGASENPFQVIVAETELGRAVIGVVDGKAANKIETDEQKKERRELVEKIGYKID 2d1c-a1-m1-cA_2d1c-a1-m1-cB Crystal Structure Of TT0538 protein from Thermus thermophilus HB8 P33197 P33197 1.8 X-RAY DIFFRACTION 422 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 495 495 PLITTETGKKMHVLEDGRKLITVIPGDGIGPECVEATLKVLEAAKAPLAYEVREAGASVFRRGIASGVPQETIESIRKTRVVLKGPLETPVGYGEKSANVTLRKLFETYANVRPVREFPNVPTPYAGRGIDLVVVRENVEDLYAGIEHMQTPSVAQTLKLISWKGSEKIVRFAFELARAEGRKKVHCATKSNIMKLAEGTLKRAFEQVAQEYPDIEAVHIIVDNAAHQLVKRPEQFEVIVTTNMNGDILSDLTSGLIGGLGFAPSANIGNEVAIFEAVHGSAPKYAGKNVINPTAVLLSAVMMLRYLEEFATADLIENALLYTLEEGRVLTGDVVGYDRGAKTTEYTEAIIQNLGKTPRKTQVRGYKPFRLPQVDGAIAPIVPRSRRVVGVDVFVETNLLPEALGKALEDLAAGTPFRLKMISNRGTQVYPPTGGLTDLVDHYRCRFLYTGEGEAKDPEILDLVSRVASRFRWMHLEKLQEFDGEPGFTKAQGED PLITTETGKKMHVLEDGRKLITVIPGDGIGPECVEATLKVLEAAKAPLAYEVREAGASVFRRGIASGVPQETIESIRKTRVVLKGPLETPVGYGEKSANVTLRKLFETYANVRPVREFPNVPTPYAGRGIDLVVVRENVEDLYAGIEHMQTPSVAQTLKLISWKGSEKIVRFAFELARAEGRKKVHCATKSNIMKLAEGTLKRAFEQVAQEYPDIEAVHIIVDNAAHQLVKRPEQFEVIVTTNMNGDILSDLTSGLIGGLGFAPSANIGNEVAIFEAVHGSAPKYAGKNVINPTAVLLSAVMMLRYLEEFATADLIENALLYTLEEGRVLTGDVVGYDRGAKTTEYTEAIIQNLGKTPRKTQVRGYKPFRLPQVDGAIAPIVPRSRRVVGVDVFVETNLLPEALGKALEDLAAGTPFRLKMISNRGTQVYPPTGGLTDLVDHYRCRFLYTGEGEAKDPEILDLVSRVASRFRWMHLEKLQEFDGEPGFTKAQGED 2d1f-a1-m1-cA_2d1f-a1-m1-cB Structure of Mycobacterium tuberculosis threonine synthase P9WG59 P9WG59 2.5 X-RAY DIFFRACTION 218 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 349 349 QPWPGVIAAYRDRLPVGDDWTPVTLLEGGTPLIAATNLSKQTGCTIHLKVEGLNPTGSFKDRGMTMAVTDALAHGQRAVLCASTGNTSASAAAYAARAGITCAVLIPQGKIAMGKLAQAVMHGAKIIQIDGNFDDCLELARKMAADFPTISLVNSVNPVRIEGQKTAAFEIVDVLGTAPDVHALPVGNAGNITAYWKGYTEYHQLGLIDKLPRMLGTQAAGAAPLVLGEPVSHPETIATAIRIGSPASWTSAVEAQQQSKGRFLAASDEEILAAYHLVARVEGVFVEPASAASIAGLLKAIDDGWVARGSTVVCTVTGNGLKDPDTALKDMPSVSPVPVDPVAVVEKLG QPWPGVIAAYRDRLPVGDDWTPVTLLEGGTPLIAATNLSKQTGCTIHLKVEGLNPTGSFKDRGMTMAVTDALAHGQRAVLCASTGNTSASAAAYAARAGITCAVLIPQGKIAMGKLAQAVMHGAKIIQIDGNFDDCLELARKMAADFPTISLVNSVNPVRIEGQKTAAFEIVDVLGTAPDVHALPVGNAGNITAYWKGYTEYHQLGLIDKLPRMLGTQAAGAAPLVLGEPVSHPETIATAIRIGSPASWTSAVEAQQQSKGRFLAASDEEILAAYHLVARVEGVFVEPASAASIAGLLKAIDDGWVARGSTVVCTVTGNGLKDPDTALKDMPSVSPVPVDPVAVVEKLG 2d1g-a1-m1-cB_2d1g-a1-m1-cA Structure of Francisella tularensis Acid Phosphatase A (AcpA) bound to orthovanadate A0Q436 A0Q436 1.75 X-RAY DIFFRACTION 83 0.992 264 (Francisella tularensis subsp. novicida) 264 (Francisella tularensis subsp. novicida) 472 481 SKPNDYQKLFNNANTLKTTTPIKHVVIIFQENNSFDRYFGMYPNAKNPEGEPKFVAKENTPNVNGLTKQLLENNPNTKNPYRLDRNFQPCSQNHEYHQEISSFNGGLMNKFVEHGGCDGQVMGYYDGNTVTALWNYAQNFALNDNTFGTTFGPSTPGALNLVAGANGPAMSPSGNLENIENNYIIDDPNPYYDDCSYGTSKSGDTNTAVAKITDGYNIGHYLTQKGITWGWFQGGFKPTSYSGKTAICDAMSTNKFGVKSRDYIPHHEPFNYWKETSNPHHLAPSDDKYIGSNDQANHQYDISEFWKALDQNNMPAVSYLKAPGYQDGHGGYSNPLDEQEWLVNTINRIQQSKDWDSTAIIIIYDDSDGDYDHVYSPKSQFSDIKGRQGYGPRLPMLVISPYAKANYVDHSLLNQASVLKFIEYNWGIGSVSKYSNDKYSNNILNMFDFNKEQKTLKLILDPKTGLVMHHHH NSKPNDYGTLQKLFNNANTLKTTTPIKHVVIIFQENNSFDRYFGMYPNAKNPEGEPKFVAKENTPNVNGLTKQLLENNPNTKNPYRLDRNFQPCSQNHEYHQEISSFNGGLMNKFVEHGGHDNDTYKQNCDGQVMGYYDGNTVTALWNYAQNFALNDNTFGTTFGPSTPGALNLVAGANGPAMSPSGNLENIENNYIIDDPNPYYDDCSYGTSKSGDTNTAVAKITDGYNIGHYLTQKGITWGWFQGGFKPTSYSGKTAICDAMSTNKFGVKSRDYIPHHEPFNYWKETSNPHHLAPSDDKYIGSNDQANHQYDISEFWKALDQNNMPAVSYLKAPGYQDGHGGYSNPLDEQEWLVNTINRIQQSKDWDSTAIIIIYDDSDGDYDHVYSPKSQFSDIKGRQGYGPRLPMLVISPYAKANYVDHSLLNQASVLKFIEYNWGIGSVSKYSNDKYSNNILNMFDFNKEQKTLKLILDPKTGLVM 2d1h-a1-m1-cB_2d1h-a1-m1-cA Crystal structure of ST1889 protein from thermoacidophilic archaeon Sulfolobus tokodaii F9VNN8 F9VNN8 2.05 X-RAY DIFFRACTION 40 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 96 98 KLESKKDEIRCCYKITDTDVAVLLKVEIEKPITSEELADIFKLSKTTVENSLKKLIELGLVVRTKTPKYYYSISSNILEKIRNDLLNCAKRELAAT KEKLESKKDEIRCCYKITDTDVAVLLKVEIEKPITSEELADIFKLSKTTVENSLKKLIELGLVVRTKTPKYYYSISSNILEKIRNDLLNCAKRELAAT 2d1l-a1-m1-cB_2d1l-a1-m1-cA Structure of F-actin binding domain IMD of MIM (Missing In Metastasis) Q8R1S4 Q8R1S4 1.85 X-RAY DIFFRACTION 183 1.0 10090 (Mus musculus) 10090 (Mus musculus) 222 240 AGHEAVIEKECSALGGLFQTIISDKGSYPVWEDFINKAGKLQSQLRTTVVAAAAFLDAFQKVADATNTRGGTREIGSALTRCRHRSIEAKLRQFSSALIDCLINPLQEQEEWKKVANQLDKDHAKEYKKARQEIKKKSSDTLKLQKKAKKVALQDVNDKYLLLEETEKQAVRKALIEERGRFCTFISLRPVIEEEISLGEITHLQTISEDLKSLTDPHKLPS AGHEAVIEKECSALGGLFQTIISDKGSYPVWEDFINKAGKLQSQLRTTVVAAAAFLDAFQKVADATNTRGGTREIGSALTRCRHRSIEAKLRQFSSALIDCLINPLQEQEEWKKVANQLDKDHAKEYKKARQEIKKKSSDTLKLQKKAKKVDAQGRGDIQPQLDSALQDVNDKYLLLEETEKQAVRKALIEERGRFCTFISLRPVIEEEISLGEITHLQTISEDLKSLTDPHKLPSSSEQ 2d1p-a2-m1-cD_2d1p-a2-m1-cG crystal structure of heterohexameric TusBCD proteins, which are crucial for the tRNA modification P45532 P45532 2.15 X-RAY DIFFRACTION 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 130 130 2d1p-a1-m1-cA_2d1p-a1-m2-cA GSMRFAIVVTGPAYGTQQASSAFQFAQALIADGHELSSVFFYREGVYNANQLTSPASDEFDLVRAWQQLNAQHGVALNICVAAALRRGVVDETEAGRLGLASSNLQQGFTLSGLGALAEASLTCDRVVQF GSMRFAIVVTGPAYGTQQASSAFQFAQALIADGHELSSVFFYREGVYNANQLTSPASDEFDLVRAWQQLNAQHGVALNICVAAALRRGVVDETEAGRLGLASSNLQQGFTLSGLGALAEASLTCDRVVQF 2d1p-a2-m1-cF_2d1p-a2-m1-cI crystal structure of heterohexameric TusBCD proteins, which are crucial for the tRNA modification P45530 P45530 2.15 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 95 95 2d1p-a1-m1-cC_2d1p-a1-m2-cC MLHTLHRSPWLTDFAALLRLLSEGDELLLLQDGVTAAVDGNRYLESLRNAPIKVYALNEDLIARGLTGQISNDIILIDYTDFVRLTVKHPSQMAW MLHTLHRSPWLTDFAALLRLLSEGDELLLLQDGVTAAVDGNRYLESLRNAPIKVYALNEDLIARGLTGQISNDIILIDYTDFVRLTVKHPSQMAW 2d1x-a2-m1-cD_2d1x-a2-m1-cC The crystal structure of the cortactin-SH3 domain and AMAP1-peptide complex Q14247 Q14247 1.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 66 2d1x-a1-m1-cB_2d1x-a1-m1-cA DLGITAVALYDYQAAGDDEISFDPDDIITNIEMIDDGWWRGVCKGRYGLFPANYVELRQ GPLGSENDLGITAVALYDYQAAGDDEISFDPDDIITNIEMIDDGWWRGVCKGRYGLFPANYVELRQ 2d27-a2-m1-cA_2d27-a2-m4-cA Structure of the N-terminal domain of XpsE (crystal form I4122) P31742 P31742 2.21 X-RAY DIFFRACTION 97 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 145 145 2d27-a2-m2-cA_2d27-a2-m3-cA EQRSAETRIVEALLERRRLKDTDLLRARQLQAESGGLLALLGRLGLVSERDHAETCAEVLGLPLVDARQLGDTPPELPEVQGLSLRFLKQFHLCPVGERDGRLDLWIADPYDDYAIDAVRLATGLPLLLHVGLRSEIDDLIERWY EQRSAETRIVEALLERRRLKDTDLLRARQLQAESGGLLALLGRLGLVSERDHAETCAEVLGLPLVDARQLGDTPPELPEVQGLSLRFLKQFHLCPVGERDGRLDLWIADPYDDYAIDAVRLATGLPLLLHVGLRSEIDDLIERWY 2d27-a2-m2-cA_2d27-a2-m4-cA Structure of the N-terminal domain of XpsE (crystal form I4122) P31742 P31742 2.21 X-RAY DIFFRACTION 36 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 145 145 2d27-a2-m1-cA_2d27-a2-m3-cA EQRSAETRIVEALLERRRLKDTDLLRARQLQAESGGLLALLGRLGLVSERDHAETCAEVLGLPLVDARQLGDTPPELPEVQGLSLRFLKQFHLCPVGERDGRLDLWIADPYDDYAIDAVRLATGLPLLLHVGLRSEIDDLIERWY EQRSAETRIVEALLERRRLKDTDLLRARQLQAESGGLLALLGRLGLVSERDHAETCAEVLGLPLVDARQLGDTPPELPEVQGLSLRFLKQFHLCPVGERDGRLDLWIADPYDDYAIDAVRLATGLPLLLHVGLRSEIDDLIERWY 2d27-a2-m3-cA_2d27-a2-m4-cA Structure of the N-terminal domain of XpsE (crystal form I4122) P31742 P31742 2.21 X-RAY DIFFRACTION 26 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 145 145 2d27-a2-m1-cA_2d27-a2-m2-cA EQRSAETRIVEALLERRRLKDTDLLRARQLQAESGGLLALLGRLGLVSERDHAETCAEVLGLPLVDARQLGDTPPELPEVQGLSLRFLKQFHLCPVGERDGRLDLWIADPYDDYAIDAVRLATGLPLLLHVGLRSEIDDLIERWY EQRSAETRIVEALLERRRLKDTDLLRARQLQAESGGLLALLGRLGLVSERDHAETCAEVLGLPLVDARQLGDTPPELPEVQGLSLRFLKQFHLCPVGERDGRLDLWIADPYDDYAIDAVRLATGLPLLLHVGLRSEIDDLIERWY 2d29-a1-m1-cA_2d29-a1-m2-cB Structural study on project ID TT0172 from Thermus thermophilus HB8 Q5SGZ2 Q5SGZ2 1.65 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 386 386 1ws9-a1-m1-cA_1ws9-a1-m2-cB 1ws9-a1-m1-cB_1ws9-a1-m2-cA 2cx9-a1-m1-cA_2cx9-a1-m1-cD 2cx9-a1-m1-cB_2cx9-a1-m1-cC 2d29-a1-m1-cB_2d29-a1-m2-cA GLWFEEGAEERQVLGPFREFLKAEVAPGAAERDRTGAFPWDLVRKLAEFGVFGALVPEAYGGAGLSTRLFARMVEAIAYYDGALALTVASHNSLATGHILLAGSEAQKEAFLPKLASGEALGAWGLTEPGSGSDAAALKTKAEKVEGGWRLNGTKQFITQGSVAGVYVVMARTDPPPSPERKHQGISAFAFFRPERGLKVGRKEEKLGLTASDTAQLILEDLFVPEEALLGERGKGFYDVLRVLDGGRIGIAAMAVGLGQAALDYALAYAKGREAFGRPIAEFEGVSFKLAEAATELEAARLLYLKAAELKDAGRPFTLEAAQAKLFASEAAVKACDEAIQILGGYGYVKDYPVERYWRDARLTRIGEGTSEILKLVIARRLLEAV GLWFEEGAEERQVLGPFREFLKAEVAPGAAERDRTGAFPWDLVRKLAEFGVFGALVPEAYGGAGLSTRLFARMVEAIAYYDGALALTVASHNSLATGHILLAGSEAQKEAFLPKLASGEALGAWGLTEPGSGSDAAALKTKAEKVEGGWRLNGTKQFITQGSVAGVYVVMARTDPPPSPERKHQGISAFAFFRPERGLKVGRKEEKLGLTASDTAQLILEDLFVPEEALLGERGKGFYDVLRVLDGGRIGIAAMAVGLGQAALDYALAYAKGREAFGRPIAEFEGVSFKLAEAATELEAARLLYLKAAELKDAGRPFTLEAAQAKLFASEAAVKACDEAIQILGGYGYVKDYPVERYWRDARLTRIGEGTSEILKLVIARRLLEAV 2d29-a1-m1-cB_2d29-a1-m2-cB Structural study on project ID TT0172 from Thermus thermophilus HB8 Q5SGZ2 Q5SGZ2 1.65 X-RAY DIFFRACTION 88 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 386 386 1ws9-a1-m1-cA_1ws9-a1-m2-cA 1ws9-a1-m1-cB_1ws9-a1-m2-cB 2cx9-a1-m1-cA_2cx9-a1-m1-cB 2cx9-a1-m1-cC_2cx9-a1-m1-cD 2d29-a1-m1-cA_2d29-a1-m2-cA GLWFEEGAEERQVLGPFREFLKAEVAPGAAERDRTGAFPWDLVRKLAEFGVFGALVPEAYGGAGLSTRLFARMVEAIAYYDGALALTVASHNSLATGHILLAGSEAQKEAFLPKLASGEALGAWGLTEPGSGSDAAALKTKAEKVEGGWRLNGTKQFITQGSVAGVYVVMARTDPPPSPERKHQGISAFAFFRPERGLKVGRKEEKLGLTASDTAQLILEDLFVPEEALLGERGKGFYDVLRVLDGGRIGIAAMAVGLGQAALDYALAYAKGREAFGRPIAEFEGVSFKLAEAATELEAARLLYLKAAELKDAGRPFTLEAAQAKLFASEAAVKACDEAIQILGGYGYVKDYPVERYWRDARLTRIGEGTSEILKLVIARRLLEAV GLWFEEGAEERQVLGPFREFLKAEVAPGAAERDRTGAFPWDLVRKLAEFGVFGALVPEAYGGAGLSTRLFARMVEAIAYYDGALALTVASHNSLATGHILLAGSEAQKEAFLPKLASGEALGAWGLTEPGSGSDAAALKTKAEKVEGGWRLNGTKQFITQGSVAGVYVVMARTDPPPSPERKHQGISAFAFFRPERGLKVGRKEEKLGLTASDTAQLILEDLFVPEEALLGERGKGFYDVLRVLDGGRIGIAAMAVGLGQAALDYALAYAKGREAFGRPIAEFEGVSFKLAEAATELEAARLLYLKAAELKDAGRPFTLEAAQAKLFASEAAVKACDEAIQILGGYGYVKDYPVERYWRDARLTRIGEGTSEILKLVIARRLLEAV 2d29-a1-m2-cA_2d29-a1-m2-cB Structural study on project ID TT0172 from Thermus thermophilus HB8 Q5SGZ2 Q5SGZ2 1.65 X-RAY DIFFRACTION 118 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 386 386 1ws9-a1-m1-cA_1ws9-a1-m1-cB 1ws9-a1-m2-cA_1ws9-a1-m2-cB 2cx9-a1-m1-cA_2cx9-a1-m1-cC 2cx9-a1-m1-cB_2cx9-a1-m1-cD 2d29-a1-m1-cA_2d29-a1-m1-cB GLWFEEGAEERQVLGPFREFLKAEVAPGAAERDRTGAFPWDLVRKLAEFGVFGALVPEAYGGAGLSTRLFARMVEAIAYYDGALALTVASHNSLATGHILLAGSEAQKEAFLPKLASGEALGAWGLTEPGSGSDAAALKTKAEKVEGGWRLNGTKQFITQGSVAGVYVVMARTDPPPSPERKHQGISAFAFFRPERGLKVGRKEEKLGLTASDTAQLILEDLFVPEEALLGERGKGFYDVLRVLDGGRIGIAAMAVGLGQAALDYALAYAKGREAFGRPIAEFEGVSFKLAEAATELEAARLLYLKAAELKDAGRPFTLEAAQAKLFASEAAVKACDEAIQILGGYGYVKDYPVERYWRDARLTRIGEGTSEILKLVIARRLLEAV GLWFEEGAEERQVLGPFREFLKAEVAPGAAERDRTGAFPWDLVRKLAEFGVFGALVPEAYGGAGLSTRLFARMVEAIAYYDGALALTVASHNSLATGHILLAGSEAQKEAFLPKLASGEALGAWGLTEPGSGSDAAALKTKAEKVEGGWRLNGTKQFITQGSVAGVYVVMARTDPPPSPERKHQGISAFAFFRPERGLKVGRKEEKLGLTASDTAQLILEDLFVPEEALLGERGKGFYDVLRVLDGGRIGIAAMAVGLGQAALDYALAYAKGREAFGRPIAEFEGVSFKLAEAATELEAARLLYLKAAELKDAGRPFTLEAAQAKLFASEAAVKACDEAIQILGGYGYVKDYPVERYWRDARLTRIGEGTSEILKLVIARRLLEAV 2d2i-a2-m1-cO_2d2i-a2-m1-cQ Crystal Structure of NADP-Dependent Glyceraldehyde-3-Phosphate Dehydrogenase from Synechococcus Sp. complexed with Nadp+ Q55245 Q55245 2.5 X-RAY DIFFRACTION 22 1.0 1131 (Synechococcus sp.) 1131 (Synechococcus sp.) 338 338 2d2i-a1-m1-cA_2d2i-a1-m2-cA 2d2i-a1-m1-cB_2d2i-a1-m2-cB 2d2i-a2-m1-cP_2d2i-a2-m1-cR 2duu-a1-m1-cA_2duu-a1-m2-cA 2duu-a1-m1-cB_2duu-a1-m2-cB 2duu-a2-m1-cO_2duu-a2-m1-cQ 2duu-a2-m1-cP_2duu-a2-m1-cR 3b1j-a1-m1-cA_3b1j-a1-m1-cB 3b1j-a1-m2-cA_3b1j-a1-m2-cB 3b1k-a1-m1-cA_3b1k-a1-m1-cB 3b1k-a1-m1-cG_3b1k-a1-m1-cH 3b20-a1-m1-cA_3b20-a1-m2-cA 3b20-a1-m1-cB_3b20-a1-m2-cB 3b20-a2-m1-cO_3b20-a2-m1-cQ 3b20-a2-m1-cP_3b20-a2-m1-cR MTIRVAINGFGRIGRNFLRCWFGRQNTDLEVVAINNTSDARTAAHLLEYDSVLGRFNADISYDENSITVNGKTMKIVCDRNPLNLPWKEWDIDLVIESTGVFVTAEGASKHIQAGAKKVLITAPGKAEGVGTYVIGVNDSEYRHEDFAVISNASCTTNCLAPVAKVLHDNFGIIKGTMTTTHSYTLDQRILDASHRDLRRARAAAVNIVPTTTGAAKAVALVIPELKGKLNGIALRVPTPNVSVVDLVVQVEKPTITEQVNEVLQKASQTTMKGIIKYSDLPLVSSDFRGTDESSIVDSSLTLVMDGDLVKVIAWYDNEWGYSQRVVDLAELAARKSG MTIRVAINGFGRIGRNFLRCWFGRQNTDLEVVAINNTSDARTAAHLLEYDSVLGRFNADISYDENSITVNGKTMKIVCDRNPLNLPWKEWDIDLVIESTGVFVTAEGASKHIQAGAKKVLITAPGKAEGVGTYVIGVNDSEYRHEDFAVISNASCTTNCLAPVAKVLHDNFGIIKGTMTTTHSYTLDQRILDASHRDLRRARAAAVNIVPTTTGAAKAVALVIPELKGKLNGIALRVPTPNVSVVDLVVQVEKPTITEQVNEVLQKASQTTMKGIIKYSDLPLVSSDFRGTDESSIVDSSLTLVMDGDLVKVIAWYDNEWGYSQRVVDLAELAARKSG 2d2r-a1-m1-cB_2d2r-a1-m1-cA Crystal structure of Helicobacter pylori Undecaprenyl Pyrophosphate Synthase P55984 P55984 1.88 X-RAY DIFFRACTION 92 0.98 210 (Helicobacter pylori) 210 (Helicobacter pylori) 203 215 TLKHLAIIMDGNGRWAKLKNKARAYGHKKGVKTLKDITIWCANHKLECLTLYLMKMLKKYLKDERSTYLDNNIRFRAIGDLEGFSKELRDTILQLENDTRHFKDFTQVLALNYGSKNELSRAFKSLLESPLENEISNRLDTRNLPEVDLLLRTGGEMRLSNFLLWQSSYAELFFTPILWPDFTPKDLENIISDFYKRVRKFGE STLKHLAIIMDGNGRWAKLKNKARAYGHKKGVKTLKDITIWCANHKLECLTLYAFEVDFLMKMLKKYLKDERSTYLDNNIRFRAIGDLEGFSKELRDTILQLENDTRHFKDFTQVLALNYGSKNELSRAFKSLLESPPSNISLLESLENEISNRLDTRNLPEVDLLLRTGGEMRLSNFLLWQSSYAELFFTPILWPDFTPKDLENIISDFYKRVR 2d30-a1-m1-cA_2d30-a1-m2-cB Crystal Structure of Cytidine Deaminase Cdd-2 (BA4525) from Bacillus Anthracis at 2.40A Resolution A0A6L7GZQ8 A0A6L7GZQ8 2.4 X-RAY DIFFRACTION 74 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 124 124 2d30-a1-m1-cB_2d30-a1-m2-cA MNSKQLIQEAIEARKQAYVPYSKFQVGAALLTQDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAIVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGA MNSKQLIQEAIEARKQAYVPYSKFQVGAALLTQDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAIVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGA 2d30-a1-m1-cB_2d30-a1-m2-cB Crystal Structure of Cytidine Deaminase Cdd-2 (BA4525) from Bacillus Anthracis at 2.40A Resolution A0A6L7GZQ8 A0A6L7GZQ8 2.4 X-RAY DIFFRACTION 32 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 124 124 2d30-a1-m1-cA_2d30-a1-m2-cA MNSKQLIQEAIEARKQAYVPYSKFQVGAALLTQDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAIVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGA MNSKQLIQEAIEARKQAYVPYSKFQVGAALLTQDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAIVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGA 2d30-a1-m2-cA_2d30-a1-m2-cB Crystal Structure of Cytidine Deaminase Cdd-2 (BA4525) from Bacillus Anthracis at 2.40A Resolution A0A6L7GZQ8 A0A6L7GZQ8 2.4 X-RAY DIFFRACTION 32 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 124 124 2d30-a1-m1-cA_2d30-a1-m1-cB MNSKQLIQEAIEARKQAYVPYSKFQVGAALLTQDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAIVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGA MNSKQLIQEAIEARKQAYVPYSKFQVGAALLTQDGKVYRGCNVENASYGLCNCAERTALFKAVSEGDKEFVAIAIVADTKRPVPPCGACRQVMVELCKQDTKVYLSNLHGDVQETTVGELLPGA 2d32-a2-m2-cA_2d32-a2-m3-cA Crystal Structure of Michaelis Complex of gamma-Glutamylcysteine Synthetase P0A6W9 P0A6W9 2.4 X-RAY DIFFRACTION 60 1.0 562 (Escherichia coli) 562 (Escherichia coli) 510 510 2d32-a2-m1-cA_2d32-a2-m2-cA 2d32-a2-m1-cA_2d32-a2-m3-cA MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKSGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLTSLPFEKTESGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKSGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLTSLPFEKTESGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA 2d32-a2-m3-cC_2d32-a2-m3-cA Crystal Structure of Michaelis Complex of gamma-Glutamylcysteine Synthetase P0A6W9 P0A6W9 2.4 X-RAY DIFFRACTION 37 0.998 562 (Escherichia coli) 562 (Escherichia coli) 499 510 1v4g-a1-m1-cA_1v4g-a1-m1-cC 2d32-a1-m1-cC_2d32-a1-m1-cA 2d32-a2-m1-cC_2d32-a2-m1-cA 2d32-a2-m2-cC_2d32-a2-m2-cA 2d33-a1-m1-cC_2d33-a1-m1-cA MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIADIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKISGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFSLPFEKTMYYLPYATSLRLSDLGYTNQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEK MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKSGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLTSLPFEKTESGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA 2d32-a2-m3-cD_2d32-a2-m3-cA Crystal Structure of Michaelis Complex of gamma-Glutamylcysteine Synthetase P0A6W9 P0A6W9 2.4 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 504 510 1v4g-a1-m1-cB_1v4g-a1-m1-cC 1v4g-a1-m1-cD_1v4g-a1-m1-cA 2d32-a1-m1-cB_2d32-a1-m1-cC 2d32-a1-m1-cD_2d32-a1-m1-cA 2d32-a2-m1-cB_2d32-a2-m1-cC 2d32-a2-m1-cD_2d32-a2-m1-cA 2d32-a2-m2-cB_2d32-a2-m2-cC 2d32-a2-m2-cD_2d32-a2-m2-cA 2d32-a2-m3-cB_2d32-a2-m3-cC 2d33-a1-m1-cB_2d33-a1-m1-cC 2d33-a1-m1-cD_2d33-a1-m1-cA MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLTSLPFEKTESGMYYLPYATSLRLSDLGYTNQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKSGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLTSLPFEKTESGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA 2d33-a1-m1-cB_2d33-a1-m1-cA Crystal Structure of gamma-Glutamylcysteine Synthetase Complexed with Aluminum Fluoride P0A6W9 P0A6W9 2.6 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 503 510 1v4g-a1-m1-cB_1v4g-a1-m1-cA 1v4g-a1-m1-cD_1v4g-a1-m1-cC 2d32-a1-m1-cB_2d32-a1-m1-cA 2d32-a1-m1-cC_2d32-a1-m1-cD 2d32-a2-m1-cB_2d32-a2-m1-cA 2d32-a2-m1-cC_2d32-a2-m1-cD 2d32-a2-m2-cB_2d32-a2-m2-cA 2d32-a2-m2-cC_2d32-a2-m2-cD 2d32-a2-m3-cB_2d32-a2-m3-cA 2d32-a2-m3-cC_2d32-a2-m3-cD 2d33-a1-m1-cD_2d33-a1-m1-cC MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKSAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLSLPFEKTESGMYYLPYATSLRLSDLGYTNSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA MIPDVSQALAWLEKHPQALKGIQRGLERETLRVNADGTLATTGHPEALGSALTHKWITTDFAEALLEFITPVDGDIEHMLTFMRDLHRYTARNMGDERMWPLSMPSYIAEGQDIELAQYGTSNTGRFKTLYREGLKNRYGALMQTISGVHYNFSLPMAFWQAKSGADAKEKISAGYFRVIRNYYRFGWVIPYLFGASPAISSSFLTSLPFEKTESGMYYLPYATSLRLSDLGYTNKSQSNLGITFNDLYEYVAGLKQAIKTPSEEYAKIGIEKDGKRLQINSNVLQIENELYAPIRPKRVTRSGESPSDALLRGGIEYIEVRSLDINPFSPIGVDEQQVRFLDLFMVWCALADAPEMSSSELACTRVNWNRVILEGRKPGLTLGIGCETAQFPLPQVGKDLFRDLKRVAQTLDSINGGEAYQKVCDELVACFDNPDLTFSARILRSMIDTGIGGTGKAFAEAYRNLLREEPLEILREEDFVAEREASERRQQEMEAADTEPFAVWLEKHA 2d37-a1-m1-cA_2d37-a1-m2-cA The Crystal Structure of Flavin Reductase HpaC complexed with NAD+ Q974C9 Q974C9 1.7 X-RAY DIFFRACTION 167 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 155 155 2d36-a1-m1-cA_2d36-a1-m2-cA 2d38-a1-m1-cA_2d38-a1-m2-cA MAEVIKSIMRKFPLGVAIVTTNWKGELVGMTVNTFNSLSLNPPLVSFFADRMKGNDIPYKESKYFVVNFTDNEELFNIFALKPVKERFREIKYKEGIGGCPILYDSYAYIEAKLYDTIDVGDHSIIVGEVIDGYQIRDNFTPLVYMNRKYYKLSS MAEVIKSIMRKFPLGVAIVTTNWKGELVGMTVNTFNSLSLNPPLVSFFADRMKGNDIPYKESKYFVVNFTDNEELFNIFALKPVKERFREIKYKEGIGGCPILYDSYAYIEAKLYDTIDVGDHSIIVGEVIDGYQIRDNFTPLVYMNRKYYKLSS 2d39-a1-m1-cA_2d39-a1-m1-cC Trivalent Recognition Unit of Innate Immunity System; Crystal Structure of human M-ficolin Fibrinogen-like Domain O00602 O00602 1.9 X-RAY DIFFRACTION 39 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 209 212 2d39-a1-m1-cB_2d39-a1-m1-cA 2d39-a1-m1-cB_2d39-a1-m1-cC EFPRNCKDLLDRGYFLSGWHTIYLPDCRPLTVLCDMDTDGGGWTVFQRRMDGSVDFYRDWAAYKQGFGSQLGEFWLGNDNIHALTAQGSSELRVDLVDFEGNHQFAKYKSFKVADEAEKYKLVLGAFVGGSAGNSLTGHNNNFFSTKDQDNDVSSSNCAEKFQGAWWYADCHASNLNGLYLMGANGINWSAAKGYKYSYKVSEMKVRPA PRNCKDLLDRGYFLSGWHTIYLPDCRPLTVLCDMDTDGGGWTVFQRRMDGSVDFYRDWAAYKQGFGSQLGEFWLGNDNIHALTAQGSSELRVDLVDFEGNHQFAKYKSFKVADEAEKYKLVLGAFVGGSAGNSLTGHNNNFFSTKDQDNDVSSSNCAEKFQGAWWYADCHASNLNGLYLMGPHESYANGINWSAAKGYKYSYKVSEMKVRPA 2d3a-a1-m1-cB_2d3a-a1-m1-cJ Crystal Structure of the Maize Glutamine Synthetase complexed with ADP and Methionine sulfoximine Phosphate P38561 P38561 2.63 X-RAY DIFFRACTION 19 1.0 4577 (Zea mays) 4577 (Zea mays) 353 353 2d3a-a1-m1-cA_2d3a-a1-m1-cI 2d3a-a1-m1-cC_2d3a-a1-m1-cH 2d3a-a1-m1-cD_2d3a-a1-m1-cF 2d3a-a1-m1-cE_2d3a-a1-m1-cG 2d3b-a1-m1-cA_2d3b-a1-m1-cI 2d3b-a1-m1-cB_2d3b-a1-m1-cJ 2d3b-a1-m1-cC_2d3b-a1-m1-cH 2d3b-a1-m1-cD_2d3b-a1-m1-cF 2d3b-a1-m1-cE_2d3b-a1-m1-cG 2d3c-a1-m1-cA_2d3c-a1-m1-cI 2d3c-a1-m1-cB_2d3c-a1-m1-cJ 2d3c-a1-m1-cC_2d3c-a1-m1-cH 2d3c-a1-m1-cD_2d3c-a1-m1-cF 2d3c-a1-m1-cE_2d3c-a1-m1-cG CLTDLVNLNLSDTTEKIIAEYIWIGGSGMDLRSKARTLPGPVTDPSKLPKWNYDGSSTGQAPGEDSEVILYPQAIFKDPFRRGNNILVMCDCYTPAGEPIPTNKRYSAAKIFSSPEVAAEEPWYGIEQEYTLLQKDTNWPLGWPIGGFPGPQGPYYCGIGAEKSFGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISSGDQVWVARYILERITEIAGVVVTFDPKPIPGDWNGAGAHTNYSTESMRKEGGYEVIKAAIEKLKLRHKEHIAAYGEGNERRLTGRHETADINTFSWGVANRGASVRVGRETEQNGKGYFEDRRPASNMDPYVVTSMIAETTIVWK CLTDLVNLNLSDTTEKIIAEYIWIGGSGMDLRSKARTLPGPVTDPSKLPKWNYDGSSTGQAPGEDSEVILYPQAIFKDPFRRGNNILVMCDCYTPAGEPIPTNKRYSAAKIFSSPEVAAEEPWYGIEQEYTLLQKDTNWPLGWPIGGFPGPQGPYYCGIGAEKSFGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISSGDQVWVARYILERITEIAGVVVTFDPKPIPGDWNGAGAHTNYSTESMRKEGGYEVIKAAIEKLKLRHKEHIAAYGEGNERRLTGRHETADINTFSWGVANRGASVRVGRETEQNGKGYFEDRRPASNMDPYVVTSMIAETTIVWK 2d3a-a1-m1-cC_2d3a-a1-m1-cJ Crystal Structure of the Maize Glutamine Synthetase complexed with ADP and Methionine sulfoximine Phosphate P38561 P38561 2.63 X-RAY DIFFRACTION 12 1.0 4577 (Zea mays) 4577 (Zea mays) 353 353 2d3a-a1-m1-cA_2d3a-a1-m1-cF 2d3a-a1-m1-cB_2d3a-a1-m1-cI 2d3a-a1-m1-cD_2d3a-a1-m1-cG 2d3a-a1-m1-cE_2d3a-a1-m1-cH 2d3b-a1-m1-cA_2d3b-a1-m1-cF 2d3b-a1-m1-cB_2d3b-a1-m1-cI 2d3b-a1-m1-cC_2d3b-a1-m1-cJ 2d3b-a1-m1-cD_2d3b-a1-m1-cG 2d3b-a1-m1-cE_2d3b-a1-m1-cH 2d3c-a1-m1-cA_2d3c-a1-m1-cF 2d3c-a1-m1-cB_2d3c-a1-m1-cI 2d3c-a1-m1-cC_2d3c-a1-m1-cJ 2d3c-a1-m1-cD_2d3c-a1-m1-cG 2d3c-a1-m1-cE_2d3c-a1-m1-cH CLTDLVNLNLSDTTEKIIAEYIWIGGSGMDLRSKARTLPGPVTDPSKLPKWNYDGSSTGQAPGEDSEVILYPQAIFKDPFRRGNNILVMCDCYTPAGEPIPTNKRYSAAKIFSSPEVAAEEPWYGIEQEYTLLQKDTNWPLGWPIGGFPGPQGPYYCGIGAEKSFGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISSGDQVWVARYILERITEIAGVVVTFDPKPIPGDWNGAGAHTNYSTESMRKEGGYEVIKAAIEKLKLRHKEHIAAYGEGNERRLTGRHETADINTFSWGVANRGASVRVGRETEQNGKGYFEDRRPASNMDPYVVTSMIAETTIVWK CLTDLVNLNLSDTTEKIIAEYIWIGGSGMDLRSKARTLPGPVTDPSKLPKWNYDGSSTGQAPGEDSEVILYPQAIFKDPFRRGNNILVMCDCYTPAGEPIPTNKRYSAAKIFSSPEVAAEEPWYGIEQEYTLLQKDTNWPLGWPIGGFPGPQGPYYCGIGAEKSFGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISSGDQVWVARYILERITEIAGVVVTFDPKPIPGDWNGAGAHTNYSTESMRKEGGYEVIKAAIEKLKLRHKEHIAAYGEGNERRLTGRHETADINTFSWGVANRGASVRVGRETEQNGKGYFEDRRPASNMDPYVVTSMIAETTIVWK 2d3a-a1-m1-cI_2d3a-a1-m1-cJ Crystal Structure of the Maize Glutamine Synthetase complexed with ADP and Methionine sulfoximine Phosphate P38561 P38561 2.63 X-RAY DIFFRACTION 131 1.0 4577 (Zea mays) 4577 (Zea mays) 353 353 2d3a-a1-m1-cA_2d3a-a1-m1-cB 2d3a-a1-m1-cA_2d3a-a1-m1-cD 2d3a-a1-m1-cB_2d3a-a1-m1-cC 2d3a-a1-m1-cC_2d3a-a1-m1-cE 2d3a-a1-m1-cD_2d3a-a1-m1-cE 2d3a-a1-m1-cF_2d3a-a1-m1-cG 2d3a-a1-m1-cF_2d3a-a1-m1-cI 2d3a-a1-m1-cG_2d3a-a1-m1-cH 2d3a-a1-m1-cH_2d3a-a1-m1-cJ 2d3b-a1-m1-cA_2d3b-a1-m1-cB 2d3b-a1-m1-cA_2d3b-a1-m1-cD 2d3b-a1-m1-cB_2d3b-a1-m1-cC 2d3b-a1-m1-cC_2d3b-a1-m1-cE 2d3b-a1-m1-cD_2d3b-a1-m1-cE 2d3b-a1-m1-cF_2d3b-a1-m1-cG 2d3b-a1-m1-cF_2d3b-a1-m1-cI 2d3b-a1-m1-cG_2d3b-a1-m1-cH 2d3b-a1-m1-cH_2d3b-a1-m1-cJ 2d3b-a1-m1-cI_2d3b-a1-m1-cJ 2d3c-a1-m1-cA_2d3c-a1-m1-cB 2d3c-a1-m1-cA_2d3c-a1-m1-cD 2d3c-a1-m1-cB_2d3c-a1-m1-cC 2d3c-a1-m1-cC_2d3c-a1-m1-cE 2d3c-a1-m1-cD_2d3c-a1-m1-cE 2d3c-a1-m1-cF_2d3c-a1-m1-cG 2d3c-a1-m1-cF_2d3c-a1-m1-cI 2d3c-a1-m1-cG_2d3c-a1-m1-cH 2d3c-a1-m1-cH_2d3c-a1-m1-cJ 2d3c-a1-m1-cI_2d3c-a1-m1-cJ CLTDLVNLNLSDTTEKIIAEYIWIGGSGMDLRSKARTLPGPVTDPSKLPKWNYDGSSTGQAPGEDSEVILYPQAIFKDPFRRGNNILVMCDCYTPAGEPIPTNKRYSAAKIFSSPEVAAEEPWYGIEQEYTLLQKDTNWPLGWPIGGFPGPQGPYYCGIGAEKSFGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISSGDQVWVARYILERITEIAGVVVTFDPKPIPGDWNGAGAHTNYSTESMRKEGGYEVIKAAIEKLKLRHKEHIAAYGEGNERRLTGRHETADINTFSWGVANRGASVRVGRETEQNGKGYFEDRRPASNMDPYVVTSMIAETTIVWK CLTDLVNLNLSDTTEKIIAEYIWIGGSGMDLRSKARTLPGPVTDPSKLPKWNYDGSSTGQAPGEDSEVILYPQAIFKDPFRRGNNILVMCDCYTPAGEPIPTNKRYSAAKIFSSPEVAAEEPWYGIEQEYTLLQKDTNWPLGWPIGGFPGPQGPYYCGIGAEKSFGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISSGDQVWVARYILERITEIAGVVVTFDPKPIPGDWNGAGAHTNYSTESMRKEGGYEVIKAAIEKLKLRHKEHIAAYGEGNERRLTGRHETADINTFSWGVANRGASVRVGRETEQNGKGYFEDRRPASNMDPYVVTSMIAETTIVWK 2d3e-a1-m1-cA_2d3e-a1-m1-cB Crystal structure of the C-Terminal fragment of rabbit skeletal alpha-tropomyosin P58772 P58772 2.6 X-RAY DIFFRACTION 183 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 130 130 2d3e-a1-m1-cC_2d3e-a1-m1-cD 2efr-a1-m1-cB_2efr-a1-m1-cA 2efr-a2-m1-cC_2efr-a2-m1-cD 2efs-a1-m1-cA_2efs-a1-m1-cB 2efs-a2-m1-cC_2efs-a2-m1-cD 2w49-a1-m1-cC_2w49-a1-m1-cT 2w49-a1-m1-cW_2w49-a1-m1-cX 2w4u-a1-m1-cC_2w4u-a1-m1-cT 2w4u-a1-m1-cW_2w4u-a1-m1-cX 7a4t-a1-m1-cB_7a4t-a1-m1-cC 8dd0-a1-m1-cG_8dd0-a1-m1-cH 8dd0-a1-m1-cL_8dd0-a1-m1-cM DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT 2d3e-a1-m1-cA_2d3e-a1-m1-cC Crystal structure of the C-Terminal fragment of rabbit skeletal alpha-tropomyosin P58772 P58772 2.6 X-RAY DIFFRACTION 19 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 130 130 DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT 2d3e-a1-m1-cA_2d3e-a1-m1-cD Crystal structure of the C-Terminal fragment of rabbit skeletal alpha-tropomyosin P58772 P58772 2.6 X-RAY DIFFRACTION 13 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 130 130 2d3e-a1-m1-cB_2d3e-a1-m1-cC DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT 2d3e-a1-m1-cB_2d3e-a1-m1-cD Crystal structure of the C-Terminal fragment of rabbit skeletal alpha-tropomyosin P58772 P58772 2.6 X-RAY DIFFRACTION 23 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 130 130 DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT DKVEELLSKNYHLENEVARLKKLLERAEERAELSEGKCAELEEELKTVTNNLKSLEAQAEKYSQKEDKYEEEIKVLSDKLKEAETRAEFAERSVTKLEKSIDDLEDELYAQKLKYKAISEELDHALNDMT 2d3f-a3-m1-cA_2d3f-a3-m1-cC Crystal structures of collagen model peptides (Pro-Pro-Gly)4-Pro-Hyp-Gly-(Pro-Pro-Gly)4 Q80BK4 Q80BK4 1.26 X-RAY DIFFRACTION 74 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 25 25 1x1k-a1-m1-cA_1x1k-a1-m1-cB 1x1k-a1-m1-cA_1x1k-a1-m1-cC 1x1k-a1-m1-cE_1x1k-a1-m1-cD 2d3f-a1-m1-cA_2d3f-a1-m1-cB 2d3f-a1-m1-cA_2d3f-a1-m1-cC 2d3f-a2-m1-cD_2d3f-a2-m1-cE 2d3f-a2-m1-cD_2d3f-a2-m1-cF 2d3f-a3-m1-cA_2d3f-a3-m1-cB 2d3f-a3-m1-cD_2d3f-a3-m1-cE 2d3f-a3-m1-cD_2d3f-a3-m1-cF 3a1h-a2-m1-cD_3a1h-a2-m1-cE PPGPPGPPGPPGPGPPGPPGPPGPP PPGPPGPPGPPGPGPPGPPGPPGPP 2d3f-a3-m1-cE_2d3f-a3-m1-cF Crystal structures of collagen model peptides (Pro-Pro-Gly)4-Pro-Hyp-Gly-(Pro-Pro-Gly)4 Q80BK4 Q80BK4 1.26 X-RAY DIFFRACTION 74 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 26 26 1x1k-a1-m1-cB_1x1k-a1-m1-cC 1x1k-a1-m1-cE_1x1k-a1-m1-cF 2d3f-a1-m1-cB_2d3f-a1-m1-cC 2d3f-a2-m1-cE_2d3f-a2-m1-cF 2d3f-a3-m1-cB_2d3f-a3-m1-cC PPGPPGPPGPPGPGPPGPPGPPGPPG PPGPPGPPGPPGPGPPGPPGPPGPPG 2d3h-a2-m1-cF_2d3h-a2-m1-cD Crystal structures of collagen model peptides (Pro-Pro-Gly)4-Hyp-Hyp-Gly-(Pro-Pro-Gly)4 Q80BK4 Q80BK4 1.22 X-RAY DIFFRACTION 71 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 22 23 3a08-a2-m1-cE_3a08-a2-m1-cD 3a08-a2-m1-cF_3a08-a2-m1-cD 3a08-a3-m1-cE_3a08-a3-m1-cD 3a08-a3-m1-cF_3a08-a3-m1-cD 3a19-a2-m1-cF_3a19-a2-m1-cD 3a19-a3-m1-cF_3a19-a3-m1-cD PPGPPGPPGGPPGPPGPPGPPG GPPGPPGPPGGPPGPPGPPGPPG 2d3s-a2-m1-cC_2d3s-a2-m1-cD Crystal Structure of basic winged bean lectin with Tn-antigen O24313 O24313 2.35 X-RAY DIFFRACTION 51 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 237 237 1wbl-a1-m1-cA_1wbl-a1-m1-cB 1wbl-a2-m1-cC_1wbl-a2-m1-cD 2d3s-a1-m1-cA_2d3s-a1-m1-cB 2dtw-a1-m1-cA_2dtw-a1-m1-cB 2dtw-a2-m1-cC_2dtw-a2-m1-cD 2dty-a1-m1-cA_2dty-a1-m1-cB 2dty-a2-m1-cC_2dty-a2-m1-cD 2du0-a1-m1-cA_2du0-a1-m1-cB 2du0-a2-m1-cC_2du0-a2-m1-cD 2du1-a1-m1-cA_2du1-a1-m1-cB 2du1-a2-m1-cC_2du1-a2-m1-cD 2e51-a1-m1-cA_2e51-a1-m1-cB 2e51-a2-m1-cC_2e51-a2-m1-cD 2e53-a1-m1-cA_2e53-a1-m1-cB 2e53-a2-m1-cC_2e53-a2-m1-cD 2e7q-a1-m1-cA_2e7q-a1-m1-cB 2e7q-a2-m1-cC_2e7q-a2-m1-cD 2e7t-a1-m1-cA_2e7t-a1-m1-cB 2e7t-a2-m1-cC_2e7t-a2-m1-cD 2zmk-a1-m1-cA_2zmk-a1-m1-cB 2zmk-a2-m1-cC_2zmk-a2-m1-cD 2zml-a1-m1-cA_2zml-a1-m1-cB 2zml-a2-m1-cC_2zml-a2-m1-cD 2zmn-a1-m1-cA_2zmn-a1-m1-cB 2zmn-a2-m1-cC_2zmn-a2-m1-cD KTISFNFNQFHQNEEQLKLQRDARISSNSVLELTKVVNGVPTWNSTGRALYAKPVQVWDSTTGNVASFETRFSFSIRQPFPRPHPADGLVFFIAPPNTQTGEGGGYFGIYNPLSPYPFVAVEFDTFRNTWDPQIPHIGIDVNSVISTKTVPFTLDNGGIANVVIKYDASTKILHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFSASLPG KTISFNFNQFHQNEEQLKLQRDARISSNSVLELTKVVNGVPTWNSTGRALYAKPVQVWDSTTGNVASFETRFSFSIRQPFPRPHPADGLVFFIAPPNTQTGEGGGYFGIYNPLSPYPFVAVEFDTFRNTWDPQIPHIGIDVNSVISTKTVPFTLDNGGIANVVIKYDASTKILHVVLVFPSLGTIYTIADIVDLKQVLPESVNVGFSAATGDPSGKQRNATETHDILSWSFSASLPG 2d3w-a1-m1-cC_2d3w-a1-m1-cD Crystal Structure of Escherichia coli SufC, an ATPase compenent of the SUF iron-sulfur cluster assembly machinery P77499 P77499 2.5 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 241 243 2d3w-a1-m1-cA_2d3w-a1-m1-cB MLSIKDLHVSVEDKAILRGLSLDVHPGEVHAIMGPNGSGKSTLSATLAGREDYEVTGGTVEFKGKDLLALSPEDRAGEGIFMAFQYPVEIPGVSNQFFLQTALNAVRSYRGQETLDRFDFQDLMEEKIALLKMPEDLLTRSVNVGFSGGEKKRNDILQMAVLEPELCILDESDDIDALKVVADGVNSLRDGKRSFIIVTHYQRILDYIKPDYVHVLYQGRIVKSGDFTLVKQLEEQGYGWL MLSIKDLHVSVEDKAILRGLSLDVHPGEVHAIMGPNGSGKSTLSATLAGREDYEVTGGTVEFKGKDLLALSPEDRAGEGIFMAFQYPVEIPGVSNQFFLQTALNAVRSYRGQETLDRFDFQDLMEEKIALLKMPEDLLTRSVNVGFSGGEKKRNDILQMAVLEPELCILDESDGLDIDALKVVADGVNSLRDGKRSFIIVTHYQRILDYIKPDYVHVLYQGRIVKSGDFTLVKQLEEQGYGWL 2d40-a1-m1-cD_2d40-a1-m1-cA Crystal Structure of Z3393 from Escherichia coli O157:H7 Q8X655 Q8X655 2.41 X-RAY DIFFRACTION 119 0.993 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 281 283 2d40-a1-m1-cB_2d40-a1-m1-cC PKTPNANCAPAYWNYQEIRLVLENPALRGQSSITATLYAGLQLIPGEVAPSHRHNQSALRFIVEGKGAFTAVDGERTPNEGDFILTPQWRWHDHGNPGDEPVIWLDGLDLPLVNILGCGFAEDYPPVTRKEGDYLPRYAANLPLRHQTGNSSPIFNYRYDRSREVLHDLTRLGDADEWDGYKRYVNPVTGGYPPSGAFLQLLPKGFASRVARTTDSTIYHVVEGSGQVIIGNETFSFSAKDIFVVPTWHGVSFQTTQDSVLFSFSDRPVQEALGLFREARY TPNANCAPAYWNYQEIRPLLVLENPALRGQSSITATLYAGLQLIPGEVAPSHRHNQSALRFIVEGKGAFTAVDGERTPNEGDFILTPQWRWHDHGNPGDEPVIWLDGLDLPLVNILGCGFAEDYPQQPVTRKEGDYLPRYAANLPLRHQTGNSSPIFNYRYDRSREVLHDLTRLGDADEWDGYKRYVNPVTGGYPPSGAFLQLLPKGFASRVARTTDSTIYHVVEGSGQVIIGNETFSFSAKDIFVVPTWHGVSFQTTQDSVLFSFSDRPVQEALGLFREARY 2d40-a1-m1-cD_2d40-a1-m1-cC Crystal Structure of Z3393 from Escherichia coli O157:H7 Q8X655 Q8X655 2.41 X-RAY DIFFRACTION 79 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 281 283 2d40-a1-m1-cB_2d40-a1-m1-cA PKTPNANCAPAYWNYQEIRLVLENPALRGQSSITATLYAGLQLIPGEVAPSHRHNQSALRFIVEGKGAFTAVDGERTPNEGDFILTPQWRWHDHGNPGDEPVIWLDGLDLPLVNILGCGFAEDYPPVTRKEGDYLPRYAANLPLRHQTGNSSPIFNYRYDRSREVLHDLTRLGDADEWDGYKRYVNPVTGGYPPSGAFLQLLPKGFASRVARTTDSTIYHVVEGSGQVIIGNETFSFSAKDIFVVPTWHGVSFQTTQDSVLFSFSDRPVQEALGLFREARY PKTPNANCAPAYWNYQEIRLVLENPALRGQSSITATLYAGLQLIPGEVAPSHRHNQSALRFIVEGKGAFTAVDGERTPNEGDFILTPQWRWHDHGNPGDEPVIWLDGLDLPLVNILGCGFAEDYPEQPVTRKEGDYLPRYAANLPLRHQTGNSSPIFNYRYDRSREVLHDLTRLGDADEWDGYKRYVNPVTGGYPPSGAFLQLLPKGFASRVARTTDSTIYHVVEGSGQVIIGNETFSFSAKDIFVVPTWHGVSFQTTQDSVLFSFSDRPVQEALGLFREARY 2d45-a1-m1-cD_2d45-a1-m1-cA Crystal structure of the MecI-mecA repressor-operator complex P68261 P68261 3.8 X-RAY DIFFRACTION 23 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 112 114 2d45-a1-m1-cC_2d45-a1-m1-cB EISSAEWEVNIIWKKYASANNIIEEIQQKDWSPKTIRTLITRLYKKGFIDRKKDNKIFQYYSLVEESDIKYKTSKNFINKVYKGGFNSLVLNFVEKEDLSQDEIEELRNILN TYEISSAEWEVNIIWKKYASANNIIEEIQQKDWSPKTIRTLITRLYKKGFIDRKKDNKIFQYYSLVEESDIKYKTSKNFINKVYKGGFNSLVLNFVEKEDLSQDEIEELRNILN 2d45-a1-m1-cD_2d45-a1-m1-cC Crystal structure of the MecI-mecA repressor-operator complex P68261 P68261 3.8 X-RAY DIFFRACTION 83 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 112 114 1okr-a1-m1-cA_1okr-a1-m1-cB 1sax-a1-m1-cA_1sax-a1-m1-cB 1sd6-a1-m1-cB_1sd6-a1-m1-cA 1sd7-a1-m1-cB_1sd7-a1-m1-cA 2d45-a1-m1-cA_2d45-a1-m1-cB EISSAEWEVNIIWKKYASANNIIEEIQQKDWSPKTIRTLITRLYKKGFIDRKKDNKIFQYYSLVEESDIKYKTSKNFINKVYKGGFNSLVLNFVEKEDLSQDEIEELRNILN TYEISSAEWEVNIIWKKYASANNIIEEIQQKDWSPKTIRTLITRLYKKGFIDRKKDNKIFQYYSLVEESDIKYKTSKNFINKVYKGGFNSLVLNFVEKEDLSQDEIEELRNILN 2d4a-a1-m1-cA_2d4a-a1-m1-cD Structure of the malate dehydrogenase from Aeropyrum pernix Q9YEA1 Q9YEA1 2.87 X-RAY DIFFRACTION 73 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 298 308 2d4a-a1-m1-cC_2d4a-a1-m1-cB MITILGAGKVGMATAVMLMMRGYDDLLLIARTPGKPQGEALDLAHAAAELGVDIRISGSNSYEDMRGSDIVLVTAGIGLLEANANTMADLAEKIKAYAKDAIVVITTNPVDAMTYVMYKKTGFPRERVIGFSGILDSARMAYYISQKLGVSFKSVNAIVLGMHGQKMFPVPRLSSVGGVPLEHLMSKEEIEEVVSETVNAGAKITELRGYSSNYGPAAGLVLTVEAIKRDSKRIYPYSLYLQGEYGYNDIVAEVPAVIGKSGIERIIELPLTEDEKRKFDEAVQAVKKLVETLPPQLR MITILGAGKVGMATAVMLMMRGYDDLLLIARTPGKPQGEALDLAHAAAELGVDIRISGSNSYEDMRGSDIVLVTAGIGRKPGMTREQLLEANANTMADLAEKIKAYAKDAIVVITTNPVDAMTYVMYKKTGFPRERVIGFSGILDSARMAYYISQKLGVSFKSVNAIVLGMHGQKMFPVPRLSSVGGVPLEHLMSKEEIEEVVSETVNAGAKITELRGYSSNYGPAAGLVLTVEAIKRDSKRIYPYSLYLQGEYGYNDIVAEVPAVIGKSGIERIIELPLTEDEKRKFDEAVQAVKKLVETLPPQLRE 2d4a-a1-m1-cB_2d4a-a1-m1-cD Structure of the malate dehydrogenase from Aeropyrum pernix Q9YEA1 Q9YEA1 2.87 X-RAY DIFFRACTION 13 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 301 308 2d4a-a1-m1-cA_2d4a-a1-m1-cC MITILGAGKVGMATAVMLMMRGYDDLLLIARTPGKPQGEALDLAHAAAELGVDIRISGSNSYEDMRGSDIVLVTAGIGEQLLEANANTMADLAEKIKAYAKDAIVVITTNPVDAMTYVMYKKTGFPRERVIGFSGILDSARMAYYISQKLGVSFKSVNAIVLGMHGQKMFPVPRLSSVGGVPLEHLMSKEEIEEVVSETVNAGAKITELRGYSSNYGPAAGLVLTVEAIKRDSKRIYPYSLYLQGEYGYNDIVAEVPAVIGKSGIERIIELPLTEDEKRKFDEAVQAVKKLVETLPPQLRE MITILGAGKVGMATAVMLMMRGYDDLLLIARTPGKPQGEALDLAHAAAELGVDIRISGSNSYEDMRGSDIVLVTAGIGRKPGMTREQLLEANANTMADLAEKIKAYAKDAIVVITTNPVDAMTYVMYKKTGFPRERVIGFSGILDSARMAYYISQKLGVSFKSVNAIVLGMHGQKMFPVPRLSSVGGVPLEHLMSKEEIEEVVSETVNAGAKITELRGYSSNYGPAAGLVLTVEAIKRDSKRIYPYSLYLQGEYGYNDIVAEVPAVIGKSGIERIIELPLTEDEKRKFDEAVQAVKKLVETLPPQLRE 2d4a-a1-m1-cC_2d4a-a1-m1-cD Structure of the malate dehydrogenase from Aeropyrum pernix Q9YEA1 Q9YEA1 2.87 X-RAY DIFFRACTION 137 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 299 308 2d4a-a1-m1-cA_2d4a-a1-m1-cB MITILGAGKVGMATAVMLMMRGYDDLLLIARTPGKPQGEALDLAHAAAELGVDIRISGSNSYEDMRGSDIVLVTAGIGRKLEANANTMADLAEKIKAYAKDAIVVITTNPVDAMTYVMYKKTGFPRERVIGFSGILDSARMAYYISQKLGVSFKSVNAIVLGMHGQKMFPVPRLSSVGGVPLEHLMSKEEIEEVVSETVNAGAKITELRGYSSNYGPAAGLVLTVEAIKRDSKRIYPYSLYLQGEYGYNDIVAEVPAVIGKSGIERIIELPLTEDEKRKFDEAVQAVKKLVETLPPQLR MITILGAGKVGMATAVMLMMRGYDDLLLIARTPGKPQGEALDLAHAAAELGVDIRISGSNSYEDMRGSDIVLVTAGIGRKPGMTREQLLEANANTMADLAEKIKAYAKDAIVVITTNPVDAMTYVMYKKTGFPRERVIGFSGILDSARMAYYISQKLGVSFKSVNAIVLGMHGQKMFPVPRLSSVGGVPLEHLMSKEEIEEVVSETVNAGAKITELRGYSSNYGPAAGLVLTVEAIKRDSKRIYPYSLYLQGEYGYNDIVAEVPAVIGKSGIERIIELPLTEDEKRKFDEAVQAVKKLVETLPPQLRE 2d4e-a1-m1-cA_2d4e-a1-m1-cD Crystal Structure of the HpcC from Thermus Thermophilus HB8 Q5SJP9 Q5SJP9 2.1 X-RAY DIFFRACTION 40 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 513 515 2d4e-a1-m1-cB_2d4e-a1-m1-cC YADRVAGISWETIEEVRRRLKERPALHFIAGEFVPSESGETFPSLDPATNEVLGVAARGGEREVDRAAKAAHEAFQRWSRTKAKERKRYLLRIAELIEKHADELAVMECLDAGQVLRIVRAQVARAAENFAFYAEYAEHAMEDRTFPVDRDWLYYTVRVPAGPVGIITPWNAPLMLSTWRIAPALAFGNTVVLKPAEWSPFTATKLAEILKEADLPPGVFNLVQGFGEEAGAALVAHPLVPLLTLTGETETGKIVMRNAADHLKRLSPELGGKSPALVFADADLERALDAVVFQIFSFNGERCTASSRLLVEEKIFEDFVGKVVERARAIRVGHPLDPETEVGPLIHPEHLQRVLGYVEAGKREGARLLVGGERAKTSFRGEDLSRGNYLLPTVFVGENHMKIAQEEIFGPVLVAIPFKDEEEALRKANDTKYGLAAYVFTRDLERAHRLALELEAGMVYLNSHNVRHLPTPFGGVKGSGDRREGGTYALDFYTDLKTIALPLRPPHVPKFGK MRYADRVAGISWETIEEVRRRLKERPALHFIAGEFVPSESGETFPSLDPATNEVLGVAARGGEREVDRAAKAAHEAFQRWSRTKAKERKRYLLRIAELIEKHADELAVMECLDAGQVLRIVRAQVARAAENFAFYAEYAEHAMEDRTFPVDRDWLYYTVRVPAGPVGIITPWNAPLMLSTWRIAPALAFGNTVVLKPAEWSPFTATKLAEILKEADLPPGVFNLVQGFGEEAGAALVAHPLVPLLTLTGETETGKIVMRNAADHLKRLSPELGGKSPALVFADADLERALDAVVFQIFSFNGERCTASSRLLVEEKIFEDFVGKVVERARAIRVGHPLDPETEVGPLIHPEHLQRVLGYVEAGKREGARLLVGGERAKTSFRGEDLSRGNYLLPTVFVGENHMKIAQEEIFGPVLVAIPFKDEEEALRKANDTKYGLAAYVFTRDLERAHRLALELEAGMVYLNSHNVRHLPTPFGGVKGSGDRREGGTYALDFYTDLKTIALPLRPPHVPKFGK 2d4e-a1-m1-cB_2d4e-a1-m1-cD Crystal Structure of the HpcC from Thermus Thermophilus HB8 Q5SJP9 Q5SJP9 2.1 X-RAY DIFFRACTION 65 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 513 515 2d4e-a1-m1-cA_2d4e-a1-m1-cC YADRVAGISWETIEEVRRRLKERPALHFIAGEFVPSESGETFPSLDPATNEVLGVAARGGEREVDRAAKAAHEAFQRWSRTKAKERKRYLLRIAELIEKHADELAVMECLDAGQVLRIVRAQVARAAENFAFYAEYAEHAMEDRTFPVDRDWLYYTVRVPAGPVGIITPWNAPLMLSTWRIAPALAFGNTVVLKPAEWSPFTATKLAEILKEADLPPGVFNLVQGFGEEAGAALVAHPLVPLLTLTGETETGKIVMRNAADHLKRLSPELGGKSPALVFADADLERALDAVVFQIFSFNGERCTASSRLLVEEKIFEDFVGKVVERARAIRVGHPLDPETEVGPLIHPEHLQRVLGYVEAGKREGARLLVGGERAKTSFRGEDLSRGNYLLPTVFVGENHMKIAQEEIFGPVLVAIPFKDEEEALRKANDTKYGLAAYVFTRDLERAHRLALELEAGMVYLNSHNVRHLPTPFGGVKGSGDRREGGTYALDFYTDLKTIALPLRPPHVPKFGK MRYADRVAGISWETIEEVRRRLKERPALHFIAGEFVPSESGETFPSLDPATNEVLGVAARGGEREVDRAAKAAHEAFQRWSRTKAKERKRYLLRIAELIEKHADELAVMECLDAGQVLRIVRAQVARAAENFAFYAEYAEHAMEDRTFPVDRDWLYYTVRVPAGPVGIITPWNAPLMLSTWRIAPALAFGNTVVLKPAEWSPFTATKLAEILKEADLPPGVFNLVQGFGEEAGAALVAHPLVPLLTLTGETETGKIVMRNAADHLKRLSPELGGKSPALVFADADLERALDAVVFQIFSFNGERCTASSRLLVEEKIFEDFVGKVVERARAIRVGHPLDPETEVGPLIHPEHLQRVLGYVEAGKREGARLLVGGERAKTSFRGEDLSRGNYLLPTVFVGENHMKIAQEEIFGPVLVAIPFKDEEEALRKANDTKYGLAAYVFTRDLERAHRLALELEAGMVYLNSHNVRHLPTPFGGVKGSGDRREGGTYALDFYTDLKTIALPLRPPHVPKFGK 2d4e-a1-m1-cC_2d4e-a1-m1-cD Crystal Structure of the HpcC from Thermus Thermophilus HB8 Q5SJP9 Q5SJP9 2.1 X-RAY DIFFRACTION 221 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 515 515 2d4e-a1-m1-cA_2d4e-a1-m1-cB MRYADRVAGISWETIEEVRRRLKERPALHFIAGEFVPSESGETFPSLDPATNEVLGVAARGGEREVDRAAKAAHEAFQRWSRTKAKERKRYLLRIAELIEKHADELAVMECLDAGQVLRIVRAQVARAAENFAFYAEYAEHAMEDRTFPVDRDWLYYTVRVPAGPVGIITPWNAPLMLSTWRIAPALAFGNTVVLKPAEWSPFTATKLAEILKEADLPPGVFNLVQGFGEEAGAALVAHPLVPLLTLTGETETGKIVMRNAADHLKRLSPELGGKSPALVFADADLERALDAVVFQIFSFNGERCTASSRLLVEEKIFEDFVGKVVERARAIRVGHPLDPETEVGPLIHPEHLQRVLGYVEAGKREGARLLVGGERAKTSFRGEDLSRGNYLLPTVFVGENHMKIAQEEIFGPVLVAIPFKDEEEALRKANDTKYGLAAYVFTRDLERAHRLALELEAGMVYLNSHNVRHLPTPFGGVKGSGDRREGGTYALDFYTDLKTIALPLRPPHVPKFGK MRYADRVAGISWETIEEVRRRLKERPALHFIAGEFVPSESGETFPSLDPATNEVLGVAARGGEREVDRAAKAAHEAFQRWSRTKAKERKRYLLRIAELIEKHADELAVMECLDAGQVLRIVRAQVARAAENFAFYAEYAEHAMEDRTFPVDRDWLYYTVRVPAGPVGIITPWNAPLMLSTWRIAPALAFGNTVVLKPAEWSPFTATKLAEILKEADLPPGVFNLVQGFGEEAGAALVAHPLVPLLTLTGETETGKIVMRNAADHLKRLSPELGGKSPALVFADADLERALDAVVFQIFSFNGERCTASSRLLVEEKIFEDFVGKVVERARAIRVGHPLDPETEVGPLIHPEHLQRVLGYVEAGKREGARLLVGGERAKTSFRGEDLSRGNYLLPTVFVGENHMKIAQEEIFGPVLVAIPFKDEEEALRKANDTKYGLAAYVFTRDLERAHRLALELEAGMVYLNSHNVRHLPTPFGGVKGSGDRREGGTYALDFYTDLKTIALPLRPPHVPKFGK 2d4g-a1-m1-cA_2d4g-a1-m1-cB Structure of YjcG protein, a putative 2'-5' RNA ligase from Bacillus subtilis O31629 O31629 2.3 X-RAY DIFFRACTION 55 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 165 165 KYGIVLFPSKKLQDLANSYRKRYDPSYSLIPPHLTLRASFECAEEKADQLVSHLRNIAKESHPLVLKTKYSSFAPVNNVIYIKAEPTEELKTLNEKLYTGVLAGEQEYNFVPHVTVGQNLSDDEHSDVLGQLKQEVSHEEIVDRFHLLYQLENGSWTVYETFLLG KYGIVLFPSKKLQDLANSYRKRYDPSYSLIPPHLTLRASFECAEEKADQLVSHLRNIAKESHPLVLKTKYSSFAPVNNVIYIKAEPTEELKTLNEKLYTGVLAGEQEYNFVPHVTVGQNLSDDEHSDVLGQLKQEVSHEEIVDRFHLLYQLENGSWTVYETFLLG 2d4p-a2-m1-cA_2d4p-a2-m2-cA Crystal structure of TTHA1254 (wild type) from Thermus thermophilus HB8 Q5SIW0 Q5SIW0 1.7 X-RAY DIFFRACTION 157 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 130 130 2d4o-a2-m1-cA_2d4o-a2-m2-cA MRFRPFTEEDLDRLNRLAGKRPVSLGALRFFARTGHSFLAEEGEEPMGFALAQAVWQGEATTVLVTRIEGRSVEALRGLLRAVVKSAYDAGVYEVALHLDPERKELEEALKAEGFALGPLVLAVRVLGSR MRFRPFTEEDLDRLNRLAGKRPVSLGALRFFARTGHSFLAEEGEEPMGFALAQAVWQGEATTVLVTRIEGRSVEALRGLLRAVVKSAYDAGVYEVALHLDPERKELEEALKAEGFALGPLVLAVRVLGSR 2d4r-a5-m1-cB_2d4r-a5-m2-cA Crystal structure of TTHA0849 from Thermus thermophilus HB8 Q5SK03 Q5SK03 2.4 X-RAY DIFFRACTION 18 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 144 144 PEVRAERYIPAPPERVYRLAKDLEGLKPYLKEVESLEVVAREGARTRSRWVAVAGKKVRWLEEEEWDDENLRNRFFSPEGDFDRYEGTWVFLPEGEGTRVVLTLTYELTIPIFGGLLRKLVQKLQENVESLLKGLEERVLAASS PEVRAERYIPAPPERVYRLAKDLEGLKPYLKEVESLEVVAREGARTRSRWVAVAGKKVRWLEEEEWDDENLRNRFFSPEGDFDRYEGTWVFLPEGEGTRVVLTLTYELTIPIFGGLLRKLVQKLQENVESLLKGLEERVLAASS 2d4r-a5-m1-cB_2d4r-a5-m2-cD Crystal structure of TTHA0849 from Thermus thermophilus HB8 Q5SK03 Q5SK03 2.4 X-RAY DIFFRACTION 41 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 144 144 2d4r-a5-m1-cC_2d4r-a5-m2-cA PEVRAERYIPAPPERVYRLAKDLEGLKPYLKEVESLEVVAREGARTRSRWVAVAGKKVRWLEEEEWDDENLRNRFFSPEGDFDRYEGTWVFLPEGEGTRVVLTLTYELTIPIFGGLLRKLVQKLQENVESLLKGLEERVLAASS PEVRAERYIPAPPERVYRLAKDLEGLKPYLKEVESLEVVAREGARTRSRWVAVAGKKVRWLEEEEWDDENLRNRFFSPEGDFDRYEGTWVFLPEGEGTRVVLTLTYELTIPIFGGLLRKLVQKLQENVESLLKGLEERVLAASS 2d4u-a1-m1-cB_2d4u-a1-m1-cA Crystal Structure of the ligand binding domain of the bacterial serine chemoreceptor Tsr P02942 P02942 1.95 X-RAY DIFFRACTION 86 1.0 562 (Escherichia coli) 562 (Escherichia coli) 155 167 3atp-a1-m1-cA_3atp-a1-m1-cB NALKNCKENFTVLQTIRQQQSTLNGSWVALLQTRNTLNRAGIRYMMDQNNIGSGSTVAELMESASISLKQAEKNWADYEALPRDPRQSTAAAAEIKRNYDIYHNALAELIQLLGAGKINEFFDQPTQGYQDGFEKQYVAYMEQNDRLHDIAVSDN GPLGSGGLFFNALKNCKENFTVLQTIRQQQSTLNGSWVALLQTRNTLNRAGIRYMMDQNNIGSGSTVAELMESASISLKQAEKNWADYEALPRDPRQSTAAAAEIKRNYDIYHNALAELIQLLGAGKINEFFDQPTQGYQDGFEKQYVAYMEQNDRLHDIAVSDNNA 2d4v-a2-m1-cC_2d4v-a2-m1-cD Crystal structure of NAD dependent isocitrate dehydrogenase from Acidithiobacillus thiooxidans Q8GAX0 Q8GAX0 1.9 X-RAY DIFFRACTION 292 1.0 930 (Acidithiobacillus thiooxidans) 930 (Acidithiobacillus thiooxidans) 427 427 2d4v-a1-m1-cA_2d4v-a1-m1-cB THIQKPATGSPLTLLNGVLQVPDQPIIPFIEGDGIGCDVTPAMRSVVDAAVAKVYGGQRQIAWMELFAGQKAVQLYGEGQYLPDETMAAIREYKVAIKGPLETPVGGGIRSLNVAMRQDLDLYVCLRPVRYFEGTPSPMRHPEKVDMVIFRENSEDIYAGIEWPAGSPEAEKIIRFLREEMGVTKIRFPDSSAIGIKPVSTEGSERLIRRTIQYALEHGKPSVSLVHKGNIMKFTEGGFRDWGYALAEREFAGRVFTWRQKAAISKAEGKAAGQKAEQQAIADGKLIIKDVIADNFLQQILLRPEDYSVVATLNLNGDYVSDALAAEVGGIGMAPGANLSDTHAIFEATHGTAPDIAGQGKANPSSLILSAVMMLEHLGWGEAAQAIVAAMNATIAAGEVTGDLAALRGDVPALSTTEFTAALIRRF THIQKPATGSPLTLLNGVLQVPDQPIIPFIEGDGIGCDVTPAMRSVVDAAVAKVYGGQRQIAWMELFAGQKAVQLYGEGQYLPDETMAAIREYKVAIKGPLETPVGGGIRSLNVAMRQDLDLYVCLRPVRYFEGTPSPMRHPEKVDMVIFRENSEDIYAGIEWPAGSPEAEKIIRFLREEMGVTKIRFPDSSAIGIKPVSTEGSERLIRRTIQYALEHGKPSVSLVHKGNIMKFTEGGFRDWGYALAEREFAGRVFTWRQKAAISKAEGKAAGQKAEQQAIADGKLIIKDVIADNFLQQILLRPEDYSVVATLNLNGDYVSDALAAEVGGIGMAPGANLSDTHAIFEATHGTAPDIAGQGKANPSSLILSAVMMLEHLGWGEAAQAIVAAMNATIAAGEVTGDLAALRGDVPALSTTEFTAALIRRF 2d4w-a1-m1-cA_2d4w-a1-m1-cB Crystal structure of glycerol kinase from Cellulomonas sp. NT3060 2.3 X-RAY DIFFRACTION 106 1.0 40001 (Cellulomonas sp.) 40001 (Cellulomonas sp.) 503 503 ADYVLAIDQGTTSSRAIVFDHSGEIYSTGQLEHDQIFPRAGWVEHNPEQIWNNVREVVGLALTRGNLTHEDIAAVGITNQRETAVVWDKTTGKPVYNAIVWQDTRTQKIVDELGGDEGAEKYKSIVGLPLATYFSGPKIKWILDNVEGAREKAEKGDLLFGNTDTWVLWNMTGGTEGGVHVTDVTNASRTMLMDLDTLSWREDIAADMGIPLSMLPDIRSSSEVYGHGRPRGLVPGVPIAGILGDQQAATFGQACFEVGQAKNTYGTGNFLLLNTGTEKVMSKNGLLTTVCYKIGDAPAVYALEGSIAVTGSLVQWLRDNLGMFEDAPDVEWLAGKVQDNGGAYFVPAFSGLFAPYWRPDARGALVGLTRYVNRNHIARAALEATAFQSREVVDAMNADSGVDLTELRVDGGMVANELLMQFQADQLGVDVVRPKVAETTALGAAYAAGIAVGFWKGEQDVIDNWAEDKRWSPSMESGERERLYRNWKKAVTKTMEWVDEDVE ADYVLAIDQGTTSSRAIVFDHSGEIYSTGQLEHDQIFPRAGWVEHNPEQIWNNVREVVGLALTRGNLTHEDIAAVGITNQRETAVVWDKTTGKPVYNAIVWQDTRTQKIVDELGGDEGAEKYKSIVGLPLATYFSGPKIKWILDNVEGAREKAEKGDLLFGNTDTWVLWNMTGGTEGGVHVTDVTNASRTMLMDLDTLSWREDIAADMGIPLSMLPDIRSSSEVYGHGRPRGLVPGVPIAGILGDQQAATFGQACFEVGQAKNTYGTGNFLLLNTGTEKVMSKNGLLTTVCYKIGDAPAVYALEGSIAVTGSLVQWLRDNLGMFEDAPDVEWLAGKVQDNGGAYFVPAFSGLFAPYWRPDARGALVGLTRYVNRNHIARAALEATAFQSREVVDAMNADSGVDLTELRVDGGMVANELLMQFQADQLGVDVVRPKVAETTALGAAYAAGIAVGFWKGEQDVIDNWAEDKRWSPSMESGERERLYRNWKKAVTKTMEWVDEDVE 2d4z-a3-m4-cA_2d4z-a3-m5-cA Crystal structure of the cytoplasmic domain of the chloride channel ClC-0 P21564 P21564 3.1 X-RAY DIFFRACTION 55 1.0 7788 (Torpedo marmorata) 7788 (Torpedo marmorata) 169 169 2d4z-a2-m1-cB_2d4z-a2-m2-cB 2d4z-a2-m1-cB_2d4z-a2-m3-cB 2d4z-a2-m2-cB_2d4z-a2-m3-cB 2d4z-a3-m1-cA_2d4z-a3-m4-cA 2d4z-a3-m1-cA_2d4z-a3-m5-cA LSWSSANKYNIQVGDIMVRDVTSIASTSTYGDLLHVLRQTKLKFFPFVDTPDTNTLLGSIDRTEVEGLLQRRISAYRRQPAAAAEADEEFEEMLTLEEIYRWEQREKNVVVNFETCRIDQSPFQLVEGTSLQKTHTLFSLLGLDRAYVTSMGKLVGVVALAEIQAAIEG LSWSSANKYNIQVGDIMVRDVTSIASTSTYGDLLHVLRQTKLKFFPFVDTPDTNTLLGSIDRTEVEGLLQRRISAYRRQPAAAAEADEEFEEMLTLEEIYRWEQREKNVVVNFETCRIDQSPFQLVEGTSLQKTHTLFSLLGLDRAYVTSMGKLVGVVALAEIQAAIEG 2d52-a1-m1-cB_2d52-a1-m1-cA Pentaketide chromone synthase (M207G mutant complexed with Coa) Q58VP7 Q58VP7 1.6 X-RAY DIFFRACTION 204 1.0 45385 (Aloe arborescens) 45385 (Aloe arborescens) 394 404 2d3m-a1-m1-cB_2d3m-a1-m1-cA 2d51-a1-m1-cB_2d51-a1-m1-cA 7dtq-a1-m1-cA_7dtq-a1-m1-cB 7dtq-a2-m1-cC_7dtq-a2-m2-cD LPLMEDVQGIRKAQKADGTATVMAIGTAHPPHIFPQDTYADVYFRATNSEHKVELKKKFDHICKKTMIGKRYFNYDEEFLKKYPNITSYDEPSLNDRQDICVPGVPALGTEAAVKAIEEWGRPKSEITHLVFCTSCGVDMPSADFQCAKLLGLHANVNKYCIYMQGYAGGTVMRYAKDLAENNRGARVLVVCAELTIMGLRAPNETHLDNAIGISLFGDGAAALIIGSDPIIGVEKPMFEIVCTKQTVIPNTEDVIHLHLRETGMMFYLSKGSPMTISNNVEACLIDVFKSVGITPPEDWNSLFWIPHPGGRAILDQVEAKLKLRPEKFRAARTVLWDYGNMVSASVGYILDEMRRKSAAKGLETYGEGLEWGVLLGFGPGITVETILLHSLPL GPGMSSLSNSLPLMEDVQGIRKAQKADGTATVMAIGTAHPPHIFPQDTYADVYFRATNSEHKVELKKKFDHICKKTMIGKRYFNYDEEFLKKYPNITSYDEPSLNDRQDICVPGVPALGTEAAVKAIEEWGRPKSEITHLVFCTSCGVDMPSADFQCAKLLGLHANVNKYCIYMQGYAGGTVMRYAKDLAENNRGARVLVVCAELTIMGLRAPNETHLDNAIGISLFGDGAAALIIGSDPIIGVEKPMFEIVCTKQTVIPNTEDVIHLHLRETGMMFYLSKGSPMTISNNVEACLIDVFKSVGITPPEDWNSLFWIPHPGGRAILDQVEAKLKLRPEKFRAARTVLWDYGNMVSASVGYILDEMRRKSAAKGLETYGEGLEWGVLLGFGPGITVETILLHSLPL 2d5f-a1-m1-cA_2d5f-a1-m3-cB Crystal Structure of Recombinant Soybean Proglycinin A3B4 subunit, its Comparison with Mature Glycinin A3B4 subunit, Responsible for Hexamer Assembly P04347 P04347 1.9 X-RAY DIFFRACTION 30 1.0 3847 (Glycine max) 3847 (Glycine max) 383 384 1od5-a1-m1-cA_1od5-a1-m3-cB 1od5-a1-m1-cB_1od5-a1-m2-cA 1od5-a1-m2-cB_1od5-a1-m3-cA 2d5f-a1-m2-cA_2d5f-a1-m1-cB 2d5f-a1-m3-cA_2d5f-a1-m2-cB NECQLNNLNALEPDHRVESEGGLIETWNSQHPELQCAGVTVSKRTLNRNGLHLPSYSPYPQMIIVVQGKGAIGFAFPGCPETFEKPQLQDSHQKIRHFNEGDVLVIPPGVPYWTYNTGDEPVVAISLLDTSNFNNQLDQNPRVFYLAGNPDIEHPETMQEGGSVLSGFSKHFLAQSFNTNEDTAEKLRSPDDERKQIVTVEGGLSVISPKWGVEENICTMKLHENIARPSRADFYNPKAGRISTLNSLTLPALRQFGLSAQYVVLYRNGIYSPHWNLNANSVIYVTRGKGRVRVVNQGNAVFDGELRRGQLLVVPQNFVVAEQGGEQGLEYVVFKTHHNAVSSYIKDVFRAIPSEVLSNSYNLGQSQVRQLKYQGNSGPLVNP NECQLNNLNALEPDHRVESEGGLIETWNSQHPELQCAGVTVSKRTLNRNGLHLPSYSPYPQMIIVVQGKGAIGFAFPGCPETFEKPQQLQDSHQKIRHFNEGDVLVIPPGVPYWTYNTGDEPVVAISLLDTSNFNNQLDQNPRVFYLAGNPDIEHPETMQEGGSVLSGFSKHFLAQSFNTNEDTAEKLRSPDDERKQIVTVEGGLSVISPKWGVEENICTMKLHENIARPSRADFYNPKAGRISTLNSLTLPALRQFGLSAQYVVLYRNGIYSPHWNLNANSVIYVTRGKGRVRVVNQGNAVFDGELRRGQLLVVPQNFVVAEQGGEQGLEYVVFKTHHNAVSSYIKDVFRAIPSEVLSNSYNLGQSQVRQLKYQGNSGPLVNP 2d5f-a1-m2-cB_2d5f-a1-m3-cB Crystal Structure of Recombinant Soybean Proglycinin A3B4 subunit, its Comparison with Mature Glycinin A3B4 subunit, Responsible for Hexamer Assembly P04347 P04347 1.9 X-RAY DIFFRACTION 181 1.0 3847 (Glycine max) 3847 (Glycine max) 384 384 1od5-a1-m1-cA_1od5-a1-m2-cA 1od5-a1-m1-cA_1od5-a1-m3-cA 1od5-a1-m1-cB_1od5-a1-m2-cB 1od5-a1-m1-cB_1od5-a1-m3-cB 1od5-a1-m2-cA_1od5-a1-m3-cA 1od5-a1-m2-cB_1od5-a1-m3-cB 2d5f-a1-m1-cA_2d5f-a1-m2-cA 2d5f-a1-m1-cA_2d5f-a1-m3-cA 2d5f-a1-m1-cB_2d5f-a1-m2-cB 2d5f-a1-m1-cB_2d5f-a1-m3-cB 2d5f-a1-m2-cA_2d5f-a1-m3-cA 2d5h-a1-m1-cB_2d5h-a1-m1-cA 2d5h-a1-m1-cC_2d5h-a1-m1-cA 2d5h-a1-m1-cC_2d5h-a1-m1-cB 2d5h-a2-m1-cD_2d5h-a2-m1-cE 2d5h-a2-m1-cD_2d5h-a2-m1-cF 2d5h-a2-m1-cF_2d5h-a2-m1-cE NECQLNNLNALEPDHRVESEGGLIETWNSQHPELQCAGVTVSKRTLNRNGLHLPSYSPYPQMIIVVQGKGAIGFAFPGCPETFEKPQQLQDSHQKIRHFNEGDVLVIPPGVPYWTYNTGDEPVVAISLLDTSNFNNQLDQNPRVFYLAGNPDIEHPETMQEGGSVLSGFSKHFLAQSFNTNEDTAEKLRSPDDERKQIVTVEGGLSVISPKWGVEENICTMKLHENIARPSRADFYNPKAGRISTLNSLTLPALRQFGLSAQYVVLYRNGIYSPHWNLNANSVIYVTRGKGRVRVVNQGNAVFDGELRRGQLLVVPQNFVVAEQGGEQGLEYVVFKTHHNAVSSYIKDVFRAIPSEVLSNSYNLGQSQVRQLKYQGNSGPLVNP NECQLNNLNALEPDHRVESEGGLIETWNSQHPELQCAGVTVSKRTLNRNGLHLPSYSPYPQMIIVVQGKGAIGFAFPGCPETFEKPQQLQDSHQKIRHFNEGDVLVIPPGVPYWTYNTGDEPVVAISLLDTSNFNNQLDQNPRVFYLAGNPDIEHPETMQEGGSVLSGFSKHFLAQSFNTNEDTAEKLRSPDDERKQIVTVEGGLSVISPKWGVEENICTMKLHENIARPSRADFYNPKAGRISTLNSLTLPALRQFGLSAQYVVLYRNGIYSPHWNLNANSVIYVTRGKGRVRVVNQGNAVFDGELRRGQLLVVPQNFVVAEQGGEQGLEYVVFKTHHNAVSSYIKDVFRAIPSEVLSNSYNLGQSQVRQLKYQGNSGPLVNP 2d5f-a1-m3-cA_2d5f-a1-m3-cB Crystal Structure of Recombinant Soybean Proglycinin A3B4 subunit, its Comparison with Mature Glycinin A3B4 subunit, Responsible for Hexamer Assembly P04347 P04347 1.9 X-RAY DIFFRACTION 151 1.0 3847 (Glycine max) 3847 (Glycine max) 383 384 1od5-a1-m1-cA_1od5-a1-m1-cB 1od5-a1-m2-cA_1od5-a1-m2-cB 1od5-a1-m3-cA_1od5-a1-m3-cB 2d5f-a1-m1-cA_2d5f-a1-m1-cB 2d5f-a1-m2-cA_2d5f-a1-m2-cB NECQLNNLNALEPDHRVESEGGLIETWNSQHPELQCAGVTVSKRTLNRNGLHLPSYSPYPQMIIVVQGKGAIGFAFPGCPETFEKPQLQDSHQKIRHFNEGDVLVIPPGVPYWTYNTGDEPVVAISLLDTSNFNNQLDQNPRVFYLAGNPDIEHPETMQEGGSVLSGFSKHFLAQSFNTNEDTAEKLRSPDDERKQIVTVEGGLSVISPKWGVEENICTMKLHENIARPSRADFYNPKAGRISTLNSLTLPALRQFGLSAQYVVLYRNGIYSPHWNLNANSVIYVTRGKGRVRVVNQGNAVFDGELRRGQLLVVPQNFVVAEQGGEQGLEYVVFKTHHNAVSSYIKDVFRAIPSEVLSNSYNLGQSQVRQLKYQGNSGPLVNP NECQLNNLNALEPDHRVESEGGLIETWNSQHPELQCAGVTVSKRTLNRNGLHLPSYSPYPQMIIVVQGKGAIGFAFPGCPETFEKPQQLQDSHQKIRHFNEGDVLVIPPGVPYWTYNTGDEPVVAISLLDTSNFNNQLDQNPRVFYLAGNPDIEHPETMQEGGSVLSGFSKHFLAQSFNTNEDTAEKLRSPDDERKQIVTVEGGLSVISPKWGVEENICTMKLHENIARPSRADFYNPKAGRISTLNSLTLPALRQFGLSAQYVVLYRNGIYSPHWNLNANSVIYVTRGKGRVRVVNQGNAVFDGELRRGQLLVVPQNFVVAEQGGEQGLEYVVFKTHHNAVSSYIKDVFRAIPSEVLSNSYNLGQSQVRQLKYQGNSGPLVNP 2d5k-a1-m1-cA_2d5k-a1-m3-cB Crystal structure of Dps from Staphylococcus aureus A0A0H2X069 A0A0H2X069 1.85 X-RAY DIFFRACTION 27 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 148 149 2d5k-a1-m1-cC_2d5k-a1-m1-cA 2d5k-a1-m1-cC_2d5k-a1-m3-cB 2d5k-a1-m1-cD_2d5k-a1-m2-cD 2d5k-a1-m1-cD_2d5k-a1-m3-cD 2d5k-a1-m2-cA_2d5k-a1-m1-cB 2d5k-a1-m2-cC_2d5k-a1-m1-cB 2d5k-a1-m2-cC_2d5k-a1-m2-cA 2d5k-a1-m2-cD_2d5k-a1-m3-cD 2d5k-a1-m3-cA_2d5k-a1-m2-cB 2d5k-a1-m3-cC_2d5k-a1-m2-cB 2d5k-a1-m3-cC_2d5k-a1-m3-cA SNQQDVVKELNQQVANWTVAYTKLHNFHWYVKGPNFFSLHVKFEELYNEASQYVDELAERILAVGGNPVGTLTECLEQSIVKEAAKGYSAEQMVEELSQDFTNISKQLENAIEIAGNAGDDVSEDMFIGMQTSVDKHNWMFKSYLSLE ASNQQDVVKELNQQVANWTVAYTKLHNFHWYVKGPNFFSLHVKFEELYNEASQYVDELAERILAVGGNPVGTLTECLEQSIVKEAAKGYSAEQMVEELSQDFTNISKQLENAIEIAGNAGDDVSEDMFIGMQTSVDKHNWMFKSYLSLE 2d5k-a1-m2-cB_2d5k-a1-m3-cB Crystal structure of Dps from Staphylococcus aureus A0A0H2X069 A0A0H2X069 1.85 X-RAY DIFFRACTION 27 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 149 149 2d5k-a1-m1-cB_2d5k-a1-m2-cB 2d5k-a1-m1-cB_2d5k-a1-m3-cB 2d5k-a1-m1-cC_2d5k-a1-m3-cA 2d5k-a1-m1-cC_2d5k-a1-m3-cD 2d5k-a1-m1-cD_2d5k-a1-m1-cA 2d5k-a1-m1-cD_2d5k-a1-m2-cC 2d5k-a1-m2-cC_2d5k-a1-m1-cA 2d5k-a1-m2-cD_2d5k-a1-m2-cA 2d5k-a1-m2-cD_2d5k-a1-m3-cC 2d5k-a1-m3-cC_2d5k-a1-m2-cA 2d5k-a1-m3-cD_2d5k-a1-m3-cA ASNQQDVVKELNQQVANWTVAYTKLHNFHWYVKGPNFFSLHVKFEELYNEASQYVDELAERILAVGGNPVGTLTECLEQSIVKEAAKGYSAEQMVEELSQDFTNISKQLENAIEIAGNAGDDVSEDMFIGMQTSVDKHNWMFKSYLSLE ASNQQDVVKELNQQVANWTVAYTKLHNFHWYVKGPNFFSLHVKFEELYNEASQYVDELAERILAVGGNPVGTLTECLEQSIVKEAAKGYSAEQMVEELSQDFTNISKQLENAIEIAGNAGDDVSEDMFIGMQTSVDKHNWMFKSYLSLE 2d5k-a1-m3-cC_2d5k-a1-m3-cD Crystal structure of Dps from Staphylococcus aureus A0A0H2X069 A0A0H2X069 1.85 X-RAY DIFFRACTION 57 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 147 147 2d5k-a1-m1-cA_2d5k-a1-m1-cB 2d5k-a1-m1-cC_2d5k-a1-m1-cD 2d5k-a1-m2-cA_2d5k-a1-m2-cB 2d5k-a1-m2-cC_2d5k-a1-m2-cD 2d5k-a1-m3-cA_2d5k-a1-m3-cB ASNQQDVVKELNQQVANWTVAYTKLHNFHWYVKGPNFFSLHVKFEELYNEASQYVDELAERILAVGGNPVGTLTECLEQSIVKEAAKGYSAEQMVEELSQDFTNISKQLENAIEIAGNAGDDVSEDMFIGMQTSVDKHNWMFKSYLS ASNQQDVVKELNQQVANWTVAYTKLHNFHWYVKGPNFFSLHVKFEELYNEASQYVDELAERILAVGGNPVGTLTECLEQSIVKEAAKGYSAEQMVEELSQDFTNISKQLENAIEIAGNAGDDVSEDMFIGMQTSVDKHNWMFKSYLS 2d5m-a1-m1-cA_2d5m-a1-m2-cA Flavoredoxin of Desulfovibrio vulgaris (Miyazaki F) Q4W5X6 Q4W5X6 1.05 X-RAY DIFFRACTION 309 1.0 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 183 183 MKKSLGARTLAYPTPLFLVGTYDRDSRPNIMAAAWAGICCSQPPSIAVSLRKATYTYRSITERGAFTISIPSRAYVRHADYAGIYSGENEDKFASLGLTPVPGEHVDAPYVGEFPMAIELKLIHQIEHTQFIGEIMDVKVDESCLRDDGLPDINKVDPVIFAPVSREYYAVGEFLAKAFSAGK MKKSLGARTLAYPTPLFLVGTYDRDSRPNIMAAAWAGICCSQPPSIAVSLRKATYTYRSITERGAFTISIPSRAYVRHADYAGIYSGENEDKFASLGLTPVPGEHVDAPYVGEFPMAIELKLIHQIEHTQFIGEIMDVKVDESCLRDDGLPDINKVDPVIFAPVSREYYAVGEFLAKAFSAGK 2d62-a1-m1-cA_2d62-a1-m2-cA Crystal structure of multiple sugar binding transport ATP-binding protein O57933 O57933 2.1 X-RAY DIFFRACTION 54 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 361 361 IGAEVKLINIWKRFGDVTAVKDLSLEIKDGEFLVLLGPSGCGKTTTLRIAGLEEPTRGQIYIEDNLVADPEKGVFVPPKERDVAVFQSYALYPHTVYDNIAFPLKLRKVPKQEIDKRVREVAELGLTELLNRKPRELSGGQRQRVALGRAIIRRPKVFLDEPLSNLDAKLRVKRAELKKLQRQLGVTTIYVTHDQVEATGDRIAVNKGELQQVGTPDEVYYKPVNTFVAGFIGSPPNFLDATITDDGFLDFGEFKLKLLQDQFEVLEEENVGKEVIFGIRPEDVHDASFTHIDVPEENTVKATVDIIENLGGEKIVHLRRGNISFTAKFPKESKVREGDEVSVVFDKKIHIFRKDTEKAIF IGAEVKLINIWKRFGDVTAVKDLSLEIKDGEFLVLLGPSGCGKTTTLRIAGLEEPTRGQIYIEDNLVADPEKGVFVPPKERDVAVFQSYALYPHTVYDNIAFPLKLRKVPKQEIDKRVREVAELGLTELLNRKPRELSGGQRQRVALGRAIIRRPKVFLDEPLSNLDAKLRVKRAELKKLQRQLGVTTIYVTHDQVEATGDRIAVNKGELQQVGTPDEVYYKPVNTFVAGFIGSPPNFLDATITDDGFLDFGEFKLKLLQDQFEVLEEENVGKEVIFGIRPEDVHDASFTHIDVPEENTVKATVDIIENLGGEKIVHLRRGNISFTAKFPKESKVREGDEVSVVFDKKIHIFRKDTEKAIF 2d68-a2-m1-cA_2d68-a2-m2-cB Structure of the N-terminal domain of FOP (FGFR1OP) protein O95684 O95684 1.6 X-RAY DIFFRACTION 14 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 75 77 2d68-a2-m2-cA_2d68-a2-m1-cB VNESLKKFLNTKDGRLVASLVAEFLQFFNLDFTLAVFQPETSTLEGRENLARDLGIIEAEGTVGGPLLLEVIRRW NESLKKFLNTKDGRLVASLVAEFLQFFNLDFTLAVFQPETSTLQGLEGRENLARDLGIIEAEGTVGGPLLLEVIRRW 2d68-a2-m2-cA_2d68-a2-m2-cB Structure of the N-terminal domain of FOP (FGFR1OP) protein O95684 O95684 1.6 X-RAY DIFFRACTION 85 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 75 77 2d68-a1-m1-cA_2d68-a1-m1-cB 2d68-a2-m1-cA_2d68-a2-m1-cB VNESLKKFLNTKDGRLVASLVAEFLQFFNLDFTLAVFQPETSTLEGRENLARDLGIIEAEGTVGGPLLLEVIRRW NESLKKFLNTKDGRLVASLVAEFLQFFNLDFTLAVFQPETSTLQGLEGRENLARDLGIIEAEGTVGGPLLLEVIRRW 2d69-a1-m2-cB_2d69-a1-m1-cA Crystal structure of the complex of sulfate ion and octameric ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) from Pyrococcus horikoshii OT3 (form-2 crystal) O58677 O58677 1.9 X-RAY DIFFRACTION 14 0.998 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 418 424 2cwx-a1-m1-cE_2cwx-a1-m4-cA 2cwx-a1-m2-cE_2cwx-a1-m3-cA 2cwx-a1-m3-cE_2cwx-a1-m1-cA 2cwx-a1-m4-cE_2cwx-a1-m2-cA 2cxe-a1-m1-cA_2cxe-a1-m2-cB 2cxe-a1-m1-cB_2cxe-a1-m2-cA 2cxe-a1-m1-cC_2cxe-a1-m1-cD 2cxe-a1-m2-cC_2cxe-a1-m2-cD 2d69-a1-m1-cB_2d69-a1-m2-cA 2d69-a1-m1-cE_2d69-a1-m1-cD 2d69-a1-m2-cE_2d69-a1-m2-cD VEWYLDFVDLNYEPGRDELIVEYYFEPNGVSPEEAAGRIASESSIGTWTTLWKLPEMAKRSMAKVFYLEKHGEGYIAKIAYPLTLFEEGSLVQLFSAVAGNVFGMKALKNLRLLDFHPPYEYLRHFKGPQFGVQGIREFMGVKDRPLTATVPKPKMGWSVEEYAEIAYELWSGGIDLLKDDENFTSFPFNRFEERVRKLYRVRDRVEAETGETKEYLINITGPVNIMEKRAEMVANEGGQYVMIDIVVAGWSALQYMREVTEDLGLAIHAHRAMHAAFTRNPRHGITMLALAKAARMIGVDQIHTGTAVGKMAGNYEEIKRINDFLLSKWEHIRPVFPVASGGLHPGLMPELIRLFGKDLVIQAGGGVMGHPDGPRAGAKALRDAIDAAIEGVDLDEKAKSSPELKKSLREVGLSKAK MMVLRMKVEWYLDFVDLNYEPGRDELIVEYYFEPNGVSPEEAAGRIASESSIGTWTTLWKLPEMAKRSMAKVFYLEKHGEGYIAKIAYPLTLFEEGSLVQLFSAVAGNVFGMKALKNLRLLDFHPPYEYLRHFKGPQFGVQGIREFMGVKDRPLTATVPKPKMGWSVEEYAEIAYELWSGGIDLLKDDENFTSFPFNRFEERVRKLYRVRDRVEAETGETKEYLINITGPVNIMEKRAEMVANEGGQYVMIDIVVAGWSALQYMREVTEDLGLAIHAHRAMHAAFTRNPRHGITMLALAKAARMIGVDQIHTGTAVGKMAGNYEEIKRINDFLLSKWEHIRPVFPVASGGLHPGLMPELIRLFGKDLVIQAGGGVMGHPDGPRAGAKALRDAIDAAIEGVDLDEKAKSSPELKKSLREVGLSKA 2d6f-a1-m1-cA_2d6f-a1-m1-cB Crystal structure of Glu-tRNA(Gln) amidotransferase in the complex with tRNA(Gln) O26802 O26802 3.15 X-RAY DIFFRACTION 180 0.995 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 424 424 SYQGRARKFLESASIDVGDMVLVEKPDVTYEGMVLDRADDADDRHIVLKLENGYNIGVEISDARIELLEKGSAAEDPELPDVSIISTGGTVASIIDYRTGAVHPAFTADDLLRANPELLDIANIRGRAVFNILSENMKPEYWVETARAVYGEIKDGADGVVVAHGTDTMHYTSAALSFMLRTPVPVVFTGAQRSSDRPSSDASLNIQCSVRAATSEIAEVTVCMHATMDDLSCHLHRGVKVRKMHTSRRDTFRSMNALPLAEVTPDGIKILEENYRKRGSDELELSDRVEERVAFIKSYPGISPDIIKWHLDEGYRGIVIEGTGLGHCPDTLIPVIGEAHDMGVPVAMTSQCLNGRVNMNVYSTGRRLLQAGVIPCDDMLPEVAYVKMCWVLGQTDDPEMAREMMRENIAGEINERTSIAYFRG SYQGRARKFLESASIDVGDMVLVEKPDVTYEGMVLDRADDADDRHIVLKLENGYNIGVEISDARIELLEKGSEPEDPELPDVSIISTGGTVASIIDYRTGAVHPAFTADDLLRANPELLDIANIRGRAVFNILSENMKPEYWVETARAVYGEIKDGADGVVVAHGTDTMHYTSAALSFMLRTPVPVVFTGAQRSSDRPSSDASLNIQCSVRAATSEIAEVTVCMHATMDDLSCHLHRGVKVRKMHTSRRDTFRSMNALPLAEVTPDGIKILEENYRKRGSDELELSDRVEERVAFIKSYPGISPDIIKWHLDEGYRGIVIEGTGLGHCPDTLIPVIGEAHDMGVPVAMTSQCLNGRVNMNVYSTGRRLLQAGVIPCDDMLPEVAYVKMCWVLGQTDDPEMAREMMRENIAGEINERTSIAYFRG 2d6l-a1-m1-cX_2d6l-a1-m2-cX Crystal structure of mouse galectin-9 N-terminal CRD (crystal form 2) O08573 O08573 2.5 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 152 152 GSMALFSAQSPYINPIIPFTGPIQGGLQEGLQVTLQGTTKSFAQRFVVNFQNSFNGNDIAFHFNPRFEEGGYVVCNTKQNGQWGPEERKMQMPFQKGMPFELCFLVQRSEFKVMVNKKFFVQYQHRVPYHLVDTIAVSGCLKLSFITFQTQN GSMALFSAQSPYINPIIPFTGPIQGGLQEGLQVTLQGTTKSFAQRFVVNFQNSFNGNDIAFHFNPRFEEGGYVVCNTKQNGQWGPEERKMQMPFQKGMPFELCFLVQRSEFKVMVNKKFFVQYQHRVPYHLVDTIAVSGCLKLSFITFQTQN 2d6n-a1-m1-cA_2d6n-a1-m1-cB Crystal structure of mouse galectin-9 N-terminal CRD in complex with N-acetyllactosamine O08573 O08573 2 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 152 153 2d6k-a1-m1-cB_2d6k-a1-m1-cA 2d6o-a1-m1-cX_2d6o-a1-m2-cX 2d6p-a1-m1-cA_2d6p-a1-m1-cB GSMALFSAQSPYINPIIPFTGPIQGGLQEGLQVTLQGTTKSFAQRFVVNFQNSFNGNDIAFHFNPRFEEGGYVVCNTKQNGQWGPEERKMQMPFQKGMPFELCFLVQRSEFKVMVNKKFFVQYQHRVPYHLVDTIAVSGCLKLSFITFQTQN GSMALFSAQSPYINPIIPFTGPIQGGLQEGLQVTLQGTTKSFAQRFVVNFQNSFNGNDIAFHFNPRFEEGGYVVCNTKQNGQWGPEERKMQMPFQKGMPFELCFLVQRSEFKVMVNKKFFVQYQHRVPYHLVDTIAVSGCLKLSFITFQTQNF 2d6y-a1-m1-cA_2d6y-a1-m1-cB Crystal Structure of transcriptional factor SCO4008 from Streptomyces coelicolor A3(2) Q9ADP7 Q9ADP7 2.3 X-RAY DIFFRACTION 132 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 182 184 EATKARIFEAAVAEFARHGIAGARIDRIAAEARANKQLIYAYYGNKGELFASVLEKKLDLAISVPVDPDDIEGWIDRLLDYHAAHPELLRLLFWEGEYGTAELPHEAERQEHYARKVAAVRDGQERGVITDAIPAPDLLFLLVAANWAVVVPQKRILVGGGDAGTDGLRDSIKKAARRIVDR DPEATKARIFEAAVAEFARHGIAGARIDRIAAEARANKQLIYAYYGNKGELFASVLEKKLDLAISVPVDPDDIEGWIDRLLDYHAAHPELLRLLFWEGEYGTAELPHEAERQEHYARKVAAVRDGQERGVITDAIPAPDLLFLLVAANWAVVVPQKRILVGGGDAGTDGLRDSIKKAARRIVDR 2d7h-a1-m1-cA_2d7h-a1-m1-cC Crystal structure of the ccc complex of the N-terminal domain of PriA P17888 P17888 3 X-RAY DIFFRACTION 45 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 102 105 AHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLR MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLR 2d7h-a1-m1-cB_2d7h-a1-m1-cC Crystal structure of the ccc complex of the N-terminal domain of PriA P17888 P17888 3 X-RAY DIFFRACTION 10 0.99 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 97 105 MPVAHVALPVPPRTFDYLLEGMTVKAGCRVRVPFGKQERIGIVVSVDSELPLNEKAVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILL MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLR 2d7v-a1-m1-cB_2d7v-a1-m1-cA Structure of OsmC-like Protein of Unknown Function VCA0330 from Vibrio cholerae O1 biovar eltor str. N16961 Q9KMK9 Q9KMK9 1.97 X-RAY DIFFRACTION 289 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 151 152 SEHSAIVTWKRKDSEAFTDNQYSRAHTWEFDGGSKILASASPHVVPVPLSVEANVDPEEAFVAALSSCHLVFLSIAAKQRYLVESYTDNAVGILGKNSKGKTSVTKVVLRPQVVFSGTSKPTLQQLEKHHLAHENCFIANSVETEVVTEII SSEHSAIVTWKRKDSEAFTDNQYSRAHTWEFDGGSKILASASPHVVPVPLSVEANVDPEEAFVAALSSCHLVFLSIAAKQRYLVESYTDNAVGILGKNSKGKTSVTKVVLRPQVVFSGTSKPTLQQLEKHHLAHENCFIANSVETEVVTEII 2d8a-a1-m1-cA_2d8a-a1-m4-cA Crystal Structure of PH0655 from Pyrococcus horikoshii OT3 O58389 O58389 2.05 X-RAY DIFFRACTION 86 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 327 327 2d8a-a1-m2-cA_2d8a-a1-m3-cA EKVAIKTKPGYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIGHEVAGEVVEIGPGVEGIEVGDYVSVETHIVCGKCYTKIFGVDTDGVFAEYAVVPAQNIWKNPKSIPPEYATLQEPLGNAVDTVLAGPISGKSVLITGAGPLGLLGIAVAKASGAYPVIVSEPSDFRRELAKKVGADYVINPFEEDVVKEVDITDGNGVDVFLEFSGAPKALEQGLQAVTPAGRVSLLGLYPGKVTIDFNNLIIFKALTIYGITGRHLWETWYTVSRLLQSGKLNLDPIITHKYKGFDKYEEAFELRAGKTGKVVFL EKVAIKTKPGYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIGHEVAGEVVEIGPGVEGIEVGDYVSVETHIVCGKCYTKIFGVDTDGVFAEYAVVPAQNIWKNPKSIPPEYATLQEPLGNAVDTVLAGPISGKSVLITGAGPLGLLGIAVAKASGAYPVIVSEPSDFRRELAKKVGADYVINPFEEDVVKEVDITDGNGVDVFLEFSGAPKALEQGLQAVTPAGRVSLLGLYPGKVTIDFNNLIIFKALTIYGITGRHLWETWYTVSRLLQSGKLNLDPIITHKYKGFDKYEEAFELRAGKTGKVVFL 2d8a-a1-m3-cA_2d8a-a1-m4-cA Crystal Structure of PH0655 from Pyrococcus horikoshii OT3 O58389 O58389 2.05 X-RAY DIFFRACTION 68 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 327 327 2d8a-a1-m1-cA_2d8a-a1-m2-cA EKVAIKTKPGYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIGHEVAGEVVEIGPGVEGIEVGDYVSVETHIVCGKCYTKIFGVDTDGVFAEYAVVPAQNIWKNPKSIPPEYATLQEPLGNAVDTVLAGPISGKSVLITGAGPLGLLGIAVAKASGAYPVIVSEPSDFRRELAKKVGADYVINPFEEDVVKEVDITDGNGVDVFLEFSGAPKALEQGLQAVTPAGRVSLLGLYPGKVTIDFNNLIIFKALTIYGITGRHLWETWYTVSRLLQSGKLNLDPIITHKYKGFDKYEEAFELRAGKTGKVVFL EKVAIKTKPGYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIGHEVAGEVVEIGPGVEGIEVGDYVSVETHIVCGKCYTKIFGVDTDGVFAEYAVVPAQNIWKNPKSIPPEYATLQEPLGNAVDTVLAGPISGKSVLITGAGPLGLLGIAVAKASGAYPVIVSEPSDFRRELAKKVGADYVINPFEEDVVKEVDITDGNGVDVFLEFSGAPKALEQGLQAVTPAGRVSLLGLYPGKVTIDFNNLIIFKALTIYGITGRHLWETWYTVSRLLQSGKLNLDPIITHKYKGFDKYEEAFELRAGKTGKVVFL 2d8d-a1-m1-cA_2d8d-a1-m1-cB Structure of Chorismate Mutase (Form I) from Thermus Thermophilus HB8 Q5SLA5 Q5SLA5 1.15 X-RAY DIFFRACTION 131 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 80 83 2d8e-a1-m1-cA_2d8e-a1-m2-cA ERIQALRKEVDRVNREILRLLSERGRLVQEIGRLQTELGLPHYDPKREEEMLAYLTAENPGPFPDETIRKLFKEIFKASL ERIQALRKEVDRVNREILRLLSERGRLVQEIGRLQTELGLPHYDPKREEEMLAYLTAENPGPFPDETIRKLFKEIFKASLDLE 2d8n-a2-m2-cA_2d8n-a2-m4-cA Crystal structure of human recoverin at 2.2 A resolution P35243 P35243 2.2 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 2d8n-a2-m1-cA_2d8n-a2-m3-cA 2d8n-a2-m1-cA_2d8n-a2-m4-cA 2d8n-a2-m2-cA_2d8n-a2-m3-cA GNSKSGALSKEILEELQLNTKFSEEELCSWYQSFLKDCPTGRITQQQFQSIYAKFFPDTDPKAYAQHVFRSFDSNLDGTLDFKEYVIALHTTAGKTNQKLEWAFSLYDVDGNGTISKNEVLEIVAIFKITPEDVKLLPDDENTPEKRAEKIWKYFGKNDDDKLTEKEFIEGTLANKEILRLIQFEPQKVKEK GNSKSGALSKEILEELQLNTKFSEEELCSWYQSFLKDCPTGRITQQQFQSIYAKFFPDTDPKAYAQHVFRSFDSNLDGTLDFKEYVIALHTTAGKTNQKLEWAFSLYDVDGNGTISKNEVLEIVAIFKITPEDVKLLPDDENTPEKRAEKIWKYFGKNDDDKLTEKEFIEGTLANKEILRLIQFEPQKVKEK 2d9s-a1-m1-cA_2d9s-a1-m1-cB Solution structure of RSGI RUH-049, a UBA domain from mouse cDNA P22682 P22682 NOT SOLUTION NMR 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 53 53 GSSGSSGQLSSEIERLMSQGYSYQDIQKALVIAHNNIEMAKNILREFSGPSSG GSSGSSGQLSSEIERLMSQGYSYQDIQKALVIAHNNIEMAKNILREFSGPSSG 2db7-a1-m1-cA_2db7-a1-m1-cB Crystal structure of hypothetical protein MS0332 Q9Y5J3 Q9Y5J3 1.9 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 56 SGGYFDAHALADYRSLGFRECLAEVARYLSIIEGLDASDPLRVRLVSHLNNYASQR SGGYFDAHALADYRSLGFRECLAEVARYLSIIEGLDASDPLRVRLVSHLNNYASQR 2dbb-a2-m1-cA_2dbb-a2-m2-cA Crystal structure of PH0061 O57802 O57802 2 X-RAY DIFFRACTION 24 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 146 146 KLDRVDMQLVKILSENSRLTYRELADILNTTRQRIARRIDKLKKLGIIRKFTIIPDIDKLGYMYAIVLIKSKVPSDADKVISEISDIEYVKSVEKGVGRYNIIVRLLLPKDIKDAENLISEFLQRIKNAENVEVILISEVRKFEII KLDRVDMQLVKILSENSRLTYRELADILNTTRQRIARRIDKLKKLGIIRKFTIIPDIDKLGYMYAIVLIKSKVPSDADKVISEISDIEYVKSVEKGVGRYNIIVRLLLPKDIKDAENLISEFLQRIKNAENVEVILISEVRKFEII 2dbb-a2-m1-cA_2dbb-a2-m2-cB Crystal structure of PH0061 O57802 O57802 2 X-RAY DIFFRACTION 17 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 146 148 2dbb-a2-m2-cA_2dbb-a2-m1-cB KLDRVDMQLVKILSENSRLTYRELADILNTTRQRIARRIDKLKKLGIIRKFTIIPDIDKLGYMYAIVLIKSKVPSDADKVISEISDIEYVKSVEKGVGRYNIIVRLLLPKDIKDAENLISEFLQRIKNAENVEVILISEVRKFEII MRKLDRVDMQLVKILSENSRLTYRELADILNTTRQRIARRIDKLKKLGIIRKFTIIPDIDKLGYMYAIVLIKSKVPSDADKVISEISDIEYVKSVEKGVGRYNIIVRLLLPKDIKDAENLISEFLQRIKNAENVEVILISEVRKFEII 2dbb-a2-m2-cA_2dbb-a2-m2-cB Crystal structure of PH0061 O57802 O57802 2 X-RAY DIFFRACTION 221 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 146 148 2dbb-a1-m1-cA_2dbb-a1-m1-cB 2dbb-a2-m1-cA_2dbb-a2-m1-cB KLDRVDMQLVKILSENSRLTYRELADILNTTRQRIARRIDKLKKLGIIRKFTIIPDIDKLGYMYAIVLIKSKVPSDADKVISEISDIEYVKSVEKGVGRYNIIVRLLLPKDIKDAENLISEFLQRIKNAENVEVILISEVRKFEII MRKLDRVDMQLVKILSENSRLTYRELADILNTTRQRIARRIDKLKKLGIIRKFTIIPDIDKLGYMYAIVLIKSKVPSDADKVISEISDIEYVKSVEKGVGRYNIIVRLLLPKDIKDAENLISEFLQRIKNAENVEVILISEVRKFEII 2dbl-a2-m4-cH_2dbl-a2-m1-cH MOLECULAR BASIS OF CROSS-REACTIVITY AND THE LIMITS OF ANTIBODY-ANTIGEN COMPLEMENTARITY P01868 P01868 2.9 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 2dbl-a2-m2-cH_2dbl-a2-m3-cH QIQLVQSGPELKKPGETVKISCKASGYAFTNYGVNWVKEAPGKELKWMGWINIYTGEPTYVDDFKGRFAFSLETSASTAYLEINNLKNEDTATYFCTRGDYVNWYFDVWGAGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR QIQLVQSGPELKKPGETVKISCKASGYAFTNYGVNWVKEAPGKELKWMGWINIYTGEPTYVDDFKGRFAFSLETSASTAYLEINNLKNEDTATYFCTRGDYVNWYFDVWGAGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR 2dbl-a2-m4-cH_2dbl-a2-m2-cH MOLECULAR BASIS OF CROSS-REACTIVITY AND THE LIMITS OF ANTIBODY-ANTIGEN COMPLEMENTARITY P01868 P01868 2.9 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 2dbl-a2-m1-cH_2dbl-a2-m3-cH QIQLVQSGPELKKPGETVKISCKASGYAFTNYGVNWVKEAPGKELKWMGWINIYTGEPTYVDDFKGRFAFSLETSASTAYLEINNLKNEDTATYFCTRGDYVNWYFDVWGAGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR QIQLVQSGPELKKPGETVKISCKASGYAFTNYGVNWVKEAPGKELKWMGWINIYTGEPTYVDDFKGRFAFSLETSASTAYLEINNLKNEDTATYFCTRGDYVNWYFDVWGAGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR 2dbl-a2-m4-cH_2dbl-a2-m3-cH MOLECULAR BASIS OF CROSS-REACTIVITY AND THE LIMITS OF ANTIBODY-ANTIGEN COMPLEMENTARITY P01868 P01868 2.9 X-RAY DIFFRACTION 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 2dbl-a2-m1-cH_2dbl-a2-m2-cH QIQLVQSGPELKKPGETVKISCKASGYAFTNYGVNWVKEAPGKELKWMGWINIYTGEPTYVDDFKGRFAFSLETSASTAYLEINNLKNEDTATYFCTRGDYVNWYFDVWGAGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR QIQLVQSGPELKKPGETVKISCKASGYAFTNYGVNWVKEAPGKELKWMGWINIYTGEPTYVDDFKGRFAFSLETSASTAYLEINNLKNEDTATYFCTRGDYVNWYFDVWGAGTTVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPR 2dbo-a1-m1-cA_2dbo-a1-m2-cA Crystal structure of D-Tyr-tRNA(Tyr) deacylase from Aquifex aeolicus O66742 O66742 2.76 X-RAY DIFFRACTION 113 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 148 148 MRAVIQRVKKSWVEVDGKVVGSINEGLNVFLGVRKGDTEEDIEKLVNKILNLRIFEDERGKFQYSVLDIKGEILVVSQFTLYANVKKGRRPSFEEAEEPKRAKELYEKFVDKIKESGLKVETGIFGAMMDVFIENWGPVTIIIDSREI MRAVIQRVKKSWVEVDGKVVGSINEGLNVFLGVRKGDTEEDIEKLVNKILNLRIFEDERGKFQYSVLDIKGEILVVSQFTLYANVKKGRRPSFEEAEEPKRAKELYEKFVDKIKESGLKVETGIFGAMMDVFIENWGPVTIIIDSREI 2dbs-a1-m1-cA_2dbs-a1-m1-cB Crystal structure of a hypothetical protein TTHC002 from Thermus thermophilus HB8 Q5SGN2 Q5SGN2 2.1 X-RAY DIFFRACTION 94 0.987 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 78 80 RLAELDGVLQYLLEADLLRELPPTYRLVLLPLDEPEVAAQALAWAEAPNPEGWPSVYALFLQGRPIRLLLLGKEVEVA PAERLAELDGVLQYLLEADLLRELPPTYRLVLLPLDEPEVAAQALAWAEAPNPEGWPSVYALFLQGRPIRLLLLGKEVEV 2dbz-a1-m1-cA_2dbz-a1-m1-cB Crystal Structure of Glyoxylate Reductase (PH0597) from Pyrococcus horikoshii OT3, Complexed with NADP (P61) O58320 O58320 2.45 X-RAY DIFFRACTION 247 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 333 333 2dbq-a1-m1-cA_2dbq-a1-m2-cA 2dbr-a1-m1-cA_2dbr-a1-m1-cB 2dbr-a2-m1-cC_2dbr-a2-m1-cD 2dbr-a3-m1-cE_2dbr-a3-m1-cF MKPKVFITREIPEVGIKMLEDEFEVEVWGDEKEIPREILLKKVKEVDALVTMLSERIDKEVFENAPKLRIVANYAVGYDNIDIEEATKRGIYVTNTPDVLTDATADLAFALLLATARHVVKGDRFVRSGEWKKRGVAWHPKWFLGYDVYGKTIGIIGLGRIGQAIAKRAKGFNMRILYYSRTRKEEVERELNAEFKPLEDLLRESDFVVLAVPLTRETYHLINEERLKLMKKTAILINIARGKVVDTNALVKALKEGWIAGAGLDVFEEEPYYNEELFKLDNVVLTPHIGSASFGAREGMAELVAKNLIAFKRGEIPPTLVNREVIKIRKPGF MKPKVFITREIPEVGIKMLEDEFEVEVWGDEKEIPREILLKKVKEVDALVTMLSERIDKEVFENAPKLRIVANYAVGYDNIDIEEATKRGIYVTNTPDVLTDATADLAFALLLATARHVVKGDRFVRSGEWKKRGVAWHPKWFLGYDVYGKTIGIIGLGRIGQAIAKRAKGFNMRILYYSRTRKEEVERELNAEFKPLEDLLRESDFVVLAVPLTRETYHLINEERLKLMKKTAILINIARGKVVDTNALVKALKEGWIAGAGLDVFEEEPYYNEELFKLDNVVLTPHIGSASFGAREGMAELVAKNLIAFKRGEIPPTLVNREVIKIRKPGF 2dc0-a1-m1-cA_2dc0-a1-m1-cB Crystal structure of amidase Q5SHD3 Q5SHD3 2 X-RAY DIFFRACTION 70 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 432 432 MDLLEAKRLLETGRTTPLALLEEALERAKAFQDRNALAYLDEEAARKEALALTEELRRGQVRGPLHGLPLTVKDLFPVKGMPTRAGTKAPLPPLPEEARAVRRLREAGALLFAKTNHEIALGITGENPWTGPVRNAVDPSRQAGGSSGGSAVAVALGIGLASLGTDTGGSIRIPAGFNGVVGFKPSYGRVSLEGALPLSRSTDHAGPLTRSVRDAHFLTEILAGESIPLEGVQNPVFGVPLDFLEGRLGVEVRKAFTRLLEDLPALRAEVREVSLPLEGVYEVYTRLVRYEAARIHEKALKEHPEGFSPQVREALLAGLALTEKDYRDAVAEREALRLELVKALRGVDALLLPVQPLPAPPLGTEEVELESGRKGHREAFITLTLPFSLLGVPTLALPFAKVEGPVGLQVVGAYGEDGKVLALGGWLEARLG MDLLEAKRLLETGRTTPLALLEEALERAKAFQDRNALAYLDEEAARKEALALTEELRRGQVRGPLHGLPLTVKDLFPVKGMPTRAGTKAPLPPLPEEARAVRRLREAGALLFAKTNHEIALGITGENPWTGPVRNAVDPSRQAGGSSGGSAVAVALGIGLASLGTDTGGSIRIPAGFNGVVGFKPSYGRVSLEGALPLSRSTDHAGPLTRSVRDAHFLTEILAGESIPLEGVQNPVFGVPLDFLEGRLGVEVRKAFTRLLEDLPALRAEVREVSLPLEGVYEVYTRLVRYEAARIHEKALKEHPEGFSPQVREALLAGLALTEKDYRDAVAEREALRLELVKALRGVDALLLPVQPLPAPPLGTEEVELESGRKGHREAFITLTLPFSLLGVPTLALPFAKVEGPVGLQVVGAYGEDGKVLALGGWLEARLG 2dc1-a1-m1-cA_2dc1-a1-m1-cB Crystal Structure Of L-Aspartate Dehydrogenase From Hyperthermophilic Archaeon Archaeoglobus fulgidus O28440 O28440 1.9 X-RAY DIFFRACTION 171 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 236 236 MLVGLIGYGAIGKFLAEWLERNGFEIAAILDVRGEHEKMVRGIDEFLQREMDVAVEAASQQAVKDYAEKILKAGIDLIVLSTGAFADRDFLSRVREVCRKTGRRVYIASGAIGGLDAIFSASELIEEIVLTTRKNWRQFGRKGVIFEGSASEAAQKFPKNLNVAATLSIASGKDVKVRLVADEVEENIHEILVRGEFGEMEIRVRNRPMRENPKTSYLAALSVTRILRNLKEGLVV MLVGLIGYGAIGKFLAEWLERNGFEIAAILDVRGEHEKMVRGIDEFLQREMDVAVEAASQQAVKDYAEKILKAGIDLIVLSTGAFADRDFLSRVREVCRKTGRRVYIASGAIGGLDAIFSASELIEEIVLTTRKNWRQFGRKGVIFEGSASEAAQKFPKNLNVAATLSIASGKDVKVRLVADEVEENIHEILVRGEFGEMEIRVRNRPMRENPKTSYLAALSVTRILRNLKEGLVV 2dc4-a1-m1-cA_2dc4-a1-m1-cB Structure of PH1012 protein from Pyrococcus Horikoshii OT3 O58740 O58740 1.65 X-RAY DIFFRACTION 49 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 164 164 MEIEVKFRVNFEDIKRKIEGLGAKFFGIEEQEDVYFELPSPKLLRVRKINNTGKSYITYKEILDKRNEEFYELEFEVQDPEGAIELFKRLGFKVQGVVKKRRWIYKLNNVTFELNRVEKAGDFLDIEVITSNPEEGKKIIWDVARRLGLKEEDVEPKLYIELIN MEIEVKFRVNFEDIKRKIEGLGAKFFGIEEQEDVYFELPSPKLLRVRKINNTGKSYITYKEILDKRNEEFYELEFEVQDPEGAIELFKRLGFKVQGVVKKRRWIYKLNNVTFELNRVEKAGDFLDIEVITSNPEEGKKIIWDVARRLGLKEEDVEPKLYIELIN 2dc5-a1-m1-cA_2dc5-a1-m1-cB Crystal structure of mouse glutathione S-transferase, mu7 (GSTM7) at 1.6 A resolution Q80W21 Q80W21 1.6 X-RAY DIFFRACTION 74 1.0 10090 (Mus musculus) 10090 (Mus musculus) 208 208 PTLGYWDIRGLAHAIRLFLEYTDSSYEEKRYTGDAPDYDQSQWLNEKFKLGLDFPNLPYLIDGSHKITQSNAILRYLGRKHNLCGETEEERIRVDILENQLDNRVLARLCYNADFEKLKPGYLEQLPGRLYSEFLGKRPWFAGDKITFVDFIAYDVLERNQVFEAKCLDAFPNLKDFIARFEGLKKISDYKTSRFLPRPFTKATWGSN PTLGYWDIRGLAHAIRLFLEYTDSSYEEKRYTGDAPDYDQSQWLNEKFKLGLDFPNLPYLIDGSHKITQSNAILRYLGRKHNLCGETEEERIRVDILENQLDNRVLARLCYNADFEKLKPGYLEQLPGRLYSEFLGKRPWFAGDKITFVDFIAYDVLERNQVFEAKCLDAFPNLKDFIARFEGLKKISDYKTSRFLPRPFTKATWGSN 2dch-a2-m2-cX_2dch-a2-m3-cX Crystal structure of archaeal intron-encoded homing endonuclease I-Tsp061I Q8J309 Q8J309 2.06 X-RAY DIFFRACTION 56 1.0 2270 (Thermoproteus) 2270 (Thermoproteus) 204 204 2dch-a2-m1-cX_2dch-a2-m2-cX 2dch-a2-m1-cX_2dch-a2-m3-cX HSSGLVPRGSHMKVWDYLCGLIAADGHLDEEGYITILQKDRRFIDKIVALLKSAEIKISSLFYDKGAGVWKIKVKDERLYRYLVNNGVIPGKVLRPPSSAVDPLWYIIGFIDGDGWVEQVVKRAGDKSYYYIRIGIKTKSKELRDWIAQTLNDLGIRASRADKSDGYEVHIDGVEAWRLVPHLQNPTHLERAQSVKDNRLSLLF HSSGLVPRGSHMKVWDYLCGLIAADGHLDEEGYITILQKDRRFIDKIVALLKSAEIKISSLFYDKGAGVWKIKVKDERLYRYLVNNGVIPGKVLRPPSSAVDPLWYIIGFIDGDGWVEQVVKRAGDKSYYYIRIGIKTKSKELRDWIAQTLNDLGIRASRADKSDGYEVHIDGVEAWRLVPHLQNPTHLERAQSVKDNRLSLLF 2dcj-a1-m1-cB_2dcj-a1-m1-cA A two-domain structure of alkaliphilic XynJ from Bacillus sp. 41M-1 Q9RC94 Q9RC94 2.24 X-RAY DIFFRACTION 106 1.0 98930 (Bacillus sp. 41M-1) 98930 (Bacillus sp. 41M-1) 324 327 6kjl-a1-m1-cB_6kjl-a1-m1-cA AITSNEIGTHDGYDYEFWKDSGGSGSMTLNSGGTFSAQWSNVNNILFRKGKKFDETQTHQQIGNMSINYGATYNPNGNSYLTVYGWTVDPLVEFYIVDSWGTWRPPGGTPKGTINVDGGTYQIYETTRYNQPSIKGTATFQQYWSVRTSKRTSGTISVSEHFRAWESLGMNMGNMYEVALTVEGYQSSGSANVYSNTLTIGGQSQATRVEAESMTKGGPYTSNITSPFNGVALYANGDNVSFNHSFTKANSSFSLRGASNNSNMARVDLRIGGQNRGTFYFGDQYPAVYTINNINHGIGNQLVELIVTADDGTWDAYLDYLEIR AITSNEIGTHDGYDYEFWKDSGGSGSMTLNSGGTFSAQWSNVNNILFRKGKKFDETQTHQQIGNMSINYGATYNPNGNSYLTVYGWTVDPLVEFYIVDSWGTWRPPGGTPKGTINVDGGTYQIYETTRYNQPSIKGTATFQQYWSVRTSKRTSGTISVSEHFRAWESLGMNMGNMYEVALTVEGYQSSGSANVYSNTLTIGGQSGGEQATRVEAESMTKGGPYTSNITSPFNGVALYANGDNVSFNHSFTKANSSFSLRGASNNSNMARVDLRIGGQNRGTFYFGDQYPAVYTINNINHGIGNQLVELIVTADDGTWDAYLDYLEIR 2dcl-a1-m1-cA_2dcl-a1-m2-cA Structure of PH1503 protein from Pyrococcus Horikoshii OT3 O59172 O59172 2.28 X-RAY DIFFRACTION 22 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 99 99 VEVEHWNTLRLRIYIGENDKWEGRPLYKVIVEKLREMGIAGATVYRGIYGFGTDLPIIVEVVDRGHNIEKVVNVIKPMIKDGMITVEPTIVLWVGTQEE VEVEHWNTLRLRIYIGENDKWEGRPLYKVIVEKLREMGIAGATVYRGIYGFGTDLPIIVEVVDRGHNIEKVVNVIKPMIKDGMITVEPTIVLWVGTQEE 2dcl-a1-m1-cB_2dcl-a1-m2-cB Structure of PH1503 protein from Pyrococcus Horikoshii OT3 O59172 O59172 2.28 X-RAY DIFFRACTION 16 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 98 98 VEVEHWNTLRLRIYIGENDKWEGRPLYKVIVEKLREMGIAGATVYRGIYGFGKKSTDLPIIVEVVDRGHNIEKVVNVIKPMIKDGMITVEPTIVLWVG VEVEHWNTLRLRIYIGENDKWEGRPLYKVIVEKLREMGIAGATVYRGIYGFGKKSTDLPIIVEVVDRGHNIEKVVNVIKPMIKDGMITVEPTIVLWVG 2dcn-a2-m1-cI_2dcn-a2-m1-cL Crystal structure of 2-keto-3-deoxygluconate kinase from Sulfolobus tokodaii complexed with 2-keto-6-phosphogluconate (alpha-furanose form) Q96XN9 Q96XN9 2.25 X-RAY DIFFRACTION 14 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 308 308 1wye-a1-m1-cA_1wye-a1-m1-cF 1wye-a1-m1-cB_1wye-a1-m1-cC 1wye-a1-m1-cD_1wye-a1-m1-cE 2dcn-a1-m1-cA_2dcn-a1-m1-cD 2dcn-a1-m1-cB_2dcn-a1-m1-cE 2dcn-a1-m1-cC_2dcn-a1-m1-cF 2dcn-a2-m1-cG_2dcn-a2-m1-cJ 2dcn-a2-m1-cH_2dcn-a2-m1-cK AKLITLGEILIEFNALSPGPLRHVSYFEKHVAGSEANYCVAFIKQGNECGIIAKVGDDEFGYNAIEWLRGQGVDVSHMKIDPSAPTGIFFIQRHYPVPLKSESIYYRKGSAGSKLSPEDVDEEYVKSADLVHSSGITLAISSTAKEAVYKAFEIASNRSFDTNIRLKLWSAEEAKREILKLLSKFHLKFLITDTDDSKIILGESDPDKAAKAFSDYAEIIVMKLGPKGAIVYYDGKKYYSSGYQVPVEDVTGAGDALGGTFLSLYYKGFEMEKALDYAIVASTLNVMIRGDQENLPTTKDIETFLREM AKLITLGEILIEFNALSPGPLRHVSYFEKHVAGSEANYCVAFIKQGNECGIIAKVGDDEFGYNAIEWLRGQGVDVSHMKIDPSAPTGIFFIQRHYPVPLKSESIYYRKGSAGSKLSPEDVDEEYVKSADLVHSSGITLAISSTAKEAVYKAFEIASNRSFDTNIRLKLWSAEEAKREILKLLSKFHLKFLITDTDDSKIILGESDPDKAAKAFSDYAEIIVMKLGPKGAIVYYDGKKYYSSGYQVPVEDVTGAGDALGGTFLSLYYKGFEMEKALDYAIVASTLNVMIRGDQENLPTTKDIETFLREM 2dcn-a2-m1-cJ_2dcn-a2-m1-cL Crystal structure of 2-keto-3-deoxygluconate kinase from Sulfolobus tokodaii complexed with 2-keto-6-phosphogluconate (alpha-furanose form) Q96XN9 Q96XN9 2.25 X-RAY DIFFRACTION 41 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 308 308 1wye-a1-m1-cA_1wye-a1-m1-cC 1wye-a1-m1-cA_1wye-a1-m1-cE 1wye-a1-m1-cB_1wye-a1-m1-cD 1wye-a1-m1-cB_1wye-a1-m1-cF 1wye-a1-m1-cC_1wye-a1-m1-cE 1wye-a1-m1-cD_1wye-a1-m1-cF 2dcn-a1-m1-cA_2dcn-a1-m1-cC 2dcn-a1-m1-cA_2dcn-a1-m1-cE 2dcn-a1-m1-cB_2dcn-a1-m1-cD 2dcn-a1-m1-cB_2dcn-a1-m1-cF 2dcn-a1-m1-cC_2dcn-a1-m1-cE 2dcn-a1-m1-cD_2dcn-a1-m1-cF 2dcn-a2-m1-cG_2dcn-a2-m1-cI 2dcn-a2-m1-cG_2dcn-a2-m1-cK 2dcn-a2-m1-cH_2dcn-a2-m1-cJ 2dcn-a2-m1-cH_2dcn-a2-m1-cL 2dcn-a2-m1-cI_2dcn-a2-m1-cK AKLITLGEILIEFNALSPGPLRHVSYFEKHVAGSEANYCVAFIKQGNECGIIAKVGDDEFGYNAIEWLRGQGVDVSHMKIDPSAPTGIFFIQRHYPVPLKSESIYYRKGSAGSKLSPEDVDEEYVKSADLVHSSGITLAISSTAKEAVYKAFEIASNRSFDTNIRLKLWSAEEAKREILKLLSKFHLKFLITDTDDSKIILGESDPDKAAKAFSDYAEIIVMKLGPKGAIVYYDGKKYYSSGYQVPVEDVTGAGDALGGTFLSLYYKGFEMEKALDYAIVASTLNVMIRGDQENLPTTKDIETFLREM AKLITLGEILIEFNALSPGPLRHVSYFEKHVAGSEANYCVAFIKQGNECGIIAKVGDDEFGYNAIEWLRGQGVDVSHMKIDPSAPTGIFFIQRHYPVPLKSESIYYRKGSAGSKLSPEDVDEEYVKSADLVHSSGITLAISSTAKEAVYKAFEIASNRSFDTNIRLKLWSAEEAKREILKLLSKFHLKFLITDTDDSKIILGESDPDKAAKAFSDYAEIIVMKLGPKGAIVYYDGKKYYSSGYQVPVEDVTGAGDALGGTFLSLYYKGFEMEKALDYAIVASTLNVMIRGDQENLPTTKDIETFLREM 2dcn-a2-m1-cK_2dcn-a2-m1-cL Crystal structure of 2-keto-3-deoxygluconate kinase from Sulfolobus tokodaii complexed with 2-keto-6-phosphogluconate (alpha-furanose form) Q96XN9 Q96XN9 2.25 X-RAY DIFFRACTION 58 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 308 308 1wye-a1-m1-cA_1wye-a1-m1-cB 1wye-a1-m1-cC_1wye-a1-m1-cD 1wye-a1-m1-cE_1wye-a1-m1-cF 2dcn-a1-m1-cA_2dcn-a1-m1-cB 2dcn-a1-m1-cC_2dcn-a1-m1-cD 2dcn-a1-m1-cE_2dcn-a1-m1-cF 2dcn-a2-m1-cG_2dcn-a2-m1-cH 2dcn-a2-m1-cI_2dcn-a2-m1-cJ AKLITLGEILIEFNALSPGPLRHVSYFEKHVAGSEANYCVAFIKQGNECGIIAKVGDDEFGYNAIEWLRGQGVDVSHMKIDPSAPTGIFFIQRHYPVPLKSESIYYRKGSAGSKLSPEDVDEEYVKSADLVHSSGITLAISSTAKEAVYKAFEIASNRSFDTNIRLKLWSAEEAKREILKLLSKFHLKFLITDTDDSKIILGESDPDKAAKAFSDYAEIIVMKLGPKGAIVYYDGKKYYSSGYQVPVEDVTGAGDALGGTFLSLYYKGFEMEKALDYAIVASTLNVMIRGDQENLPTTKDIETFLREM AKLITLGEILIEFNALSPGPLRHVSYFEKHVAGSEANYCVAFIKQGNECGIIAKVGDDEFGYNAIEWLRGQGVDVSHMKIDPSAPTGIFFIQRHYPVPLKSESIYYRKGSAGSKLSPEDVDEEYVKSADLVHSSGITLAISSTAKEAVYKAFEIASNRSFDTNIRLKLWSAEEAKREILKLLSKFHLKFLITDTDDSKIILGESDPDKAAKAFSDYAEIIVMKLGPKGAIVYYDGKKYYSSGYQVPVEDVTGAGDALGGTFLSLYYKGFEMEKALDYAIVASTLNVMIRGDQENLPTTKDIETFLREM 2dct-a2-m1-cB_2dct-a2-m2-cB Crystal structure of the TT1209 from Thermus thermophilus HB8 Q5SM39 Q5SM39 1.45 X-RAY DIFFRACTION 54 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 105 105 MEIKDLKRLARYNPEKMAKIPVFQSERMLYDLYALLPGQAQKVHVHEGSDKVYYALEGEVVVRVGEEEALLAPGMAAFAPAGAPHGVRNESASPALLLVVTAPRP MEIKDLKRLARYNPEKMAKIPVFQSERMLYDLYALLPGQAQKVHVHEGSDKVYYALEGEVVVRVGEEEALLAPGMAAFAPAGAPHGVRNESASPALLLVVTAPRP 2dct-a2-m2-cA_2dct-a2-m2-cB Crystal structure of the TT1209 from Thermus thermophilus HB8 Q5SM39 Q5SM39 1.45 X-RAY DIFFRACTION 126 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 105 105 1v70-a1-m1-cA_1v70-a1-m2-cA 2dct-a1-m1-cA_2dct-a1-m1-cB 2dct-a2-m1-cA_2dct-a2-m1-cB MEIKDLKRLARYNPEKMAKIPVFQSERMLYDLYALLPGQAQKVHVHEGSDKVYYALEGEVVVRVGEEEALLAPGMAAFAPAGAPHGVRNESASPALLLVVTAPRP MEIKDLKRLARYNPEKMAKIPVFQSERMLYDLYALLPGQAQKVHVHEGSDKVYYALEGEVVVRVGEEEALLAPGMAAFAPAGAPHGVRNESASPALLLVVTAPRP 2dcz-a3-m2-cA_2dcz-a3-m3-cA Thermal Stabilization of Bacillus subtilis Family-11 Xylanase By Directed Evolution P18429 P18429 1.9 X-RAY DIFFRACTION 22 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 185 185 2dcz-a3-m1-cA_2dcz-a3-m2-cA 2dcz-a3-m1-cA_2dcz-a3-m3-cA ASTDYWHFWTDGGGIVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTRYNAPSIDGDRTTFTQYWSVRQSKRPTGSNATITFSNHVNAWKSHGMNLGSNWAYQVMATEGYQSSGCSNVTVW ASTDYWHFWTDGGGIVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTRYNAPSIDGDRTTFTQYWSVRQSKRPTGSNATITFSNHVNAWKSHGMNLGSNWAYQVMATEGYQSSGCSNVTVW 2dd7-a2-m1-cB_2dd7-a2-m3-cB A GFP-like protein from marine copepod, Chiridius poppei Q2MHN7 Q2MHN7 1.9 X-RAY DIFFRACTION 80 1.0 286301 (Chiridius poppei) 286301 (Chiridius poppei) 213 213 2dd7-a1-m1-cA_2dd7-a1-m2-cA 2dd9-a1-m1-cA_2dd9-a1-m1-cB 2dd9-a2-m1-cC_2dd9-a2-m1-cD TTFKIESRIHGNLNGEKFELVGGGVGEEGRLEIEMKTKDKPLAFSPFLLSHCMFYHFASFPKGTKNIYLHAATNGGYTNTRKEIYEDGGILEVNFRYTYEFNKIIGDVECIGHGFPSQSPIFKDTIVKSCPTVDLMLPMSGNIIASSYARAFQLKDGSFYTAEVKNNIDFKNPIHESFSKSGPMFTHRRVEETHTKENLAMVEYQQVFNSAPR TTFKIESRIHGNLNGEKFELVGGGVGEEGRLEIEMKTKDKPLAFSPFLLSHCMFYHFASFPKGTKNIYLHAATNGGYTNTRKEIYEDGGILEVNFRYTYEFNKIIGDVECIGHGFPSQSPIFKDTIVKSCPTVDLMLPMSGNIIASSYARAFQLKDGSFYTAEVKNNIDFKNPIHESFSKSGPMFTHRRVEETHTKENLAMVEYQQVFNSAPR 2ddd-a1-m1-cA_2ddd-a1-m1-cB Unique behavior of a histidine responsible for an engineered green-to-red photoconversion process Q53UG8 Q53UG8 1.55 X-RAY DIFFRACTION 69 1.0 223 224 1xss-a1-m1-cA_1xss-a1-m1-cB 2ddc-a1-m1-cA_2ddc-a1-m1-cB 4p76-a1-m1-cB_4p76-a1-m1-cA 4p76-a1-m2-cB_4p76-a1-m2-cA VSVITSEMKIEVRMEGAVNGHKFVITGKGSGQPFEGIQNVDLTVIEGGPLPFAFDILTTAFNRVFVKYPEEIVDYFKQSFPEGYSWERSMSYEDGGICLATNNITMKKDGSNCFVNEIRFDGVNFPANGPVMQRKTVKWESSTEKMYVRDGVLKGDVNMALLLQGGGHYRCDFRTTYKAKKVVQLPDYHFVDHLMEITSHDKDYNKVKLYEHAKAHSGLPRLA VSVITSEMKIEVRMEGAVNGHKFVITGKGSGQPFEGIQNVDLTVIEGGPLPFAFDILTTAFNRVFVKYPEEIVDYFKQSFPEGYSWERSMSYEDGGICLATNNITMKKDGSNCFVNEIRFDGVNFPANGPVMQRKTVKWESSTEKMYVRDGVLKGDVNMALLLQGGGHYRCDFRTTYKAKKVVQLPDYHFVDHLMEITSHDKDYNKVKLYEHAKAHSGLPRLAK 2ddh-a1-m1-cA_2ddh-a1-m2-cA Crystal Structure of Acyl-CoA oxidase complexed with 3-OH-dodecanoate P07872 P07872 2.07 X-RAY DIFFRACTION 336 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 622 622 1is2-a1-m1-cB_1is2-a1-m1-cA MNPDLRKERASATFNPELITHILDGSPENTRRRREIENLILNDPDFQHEDYNFLTRSQRYEVAVKKSATMVKKMREYGISDPEEIMWFKNSVHRGHPEPLDLHLGMFLPTLLQATAEQQERFFMPAWNLEITGTYAQTEMGHGTHLRGLETTATYDPKTQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITQGECYGLHAFVVPIREIGTHKPLPGITVGDIGPKFGYEEMDNGYLKMDNYRIPRENMLMKYAQVKPDGTYVKPLMVFVRSFLVGNAAQSLSKACTIAIRYSAVRRQSEIKQSEPEPQILDFQTQQYKLFPLLATAYAFHFVGRYMKETYLRSELPELHALTAGLKAFTTWTANAGIEECRMACGGHGYSHSSGIPNIYVTFTPACTFEGENTVMMLQTARFLMKIYDQVRSGKLVGGMVSYLNDLPSVDINSLEGLTEAYKLRAARLVEIAAKNLQTHVSHRKSKEVAWNLTSVDLVRASEAHCHYVVVKVFSDKLPKIQDKAVQAVLRNLCLLYSLYGISQKGGDFLEGSIITGAQLSQVNARILELLTLIRPNAVALVDAFDFKDMTLGSVLGRYDGNVYENLFEWAKKSPLNKTEVHESYHKHLK MNPDLRKERASATFNPELITHILDGSPENTRRRREIENLILNDPDFQHEDYNFLTRSQRYEVAVKKSATMVKKMREYGISDPEEIMWFKNSVHRGHPEPLDLHLGMFLPTLLQATAEQQERFFMPAWNLEITGTYAQTEMGHGTHLRGLETTATYDPKTQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITQGECYGLHAFVVPIREIGTHKPLPGITVGDIGPKFGYEEMDNGYLKMDNYRIPRENMLMKYAQVKPDGTYVKPLMVFVRSFLVGNAAQSLSKACTIAIRYSAVRRQSEIKQSEPEPQILDFQTQQYKLFPLLATAYAFHFVGRYMKETYLRSELPELHALTAGLKAFTTWTANAGIEECRMACGGHGYSHSSGIPNIYVTFTPACTFEGENTVMMLQTARFLMKIYDQVRSGKLVGGMVSYLNDLPSVDINSLEGLTEAYKLRAARLVEIAAKNLQTHVSHRKSKEVAWNLTSVDLVRASEAHCHYVVVKVFSDKLPKIQDKAVQAVLRNLCLLYSLYGISQKGGDFLEGSIITGAQLSQVNARILELLTLIRPNAVALVDAFDFKDMTLGSVLGRYDGNVYENLFEWAKKSPLNKTEVHESYHKHLK 2ddo-a1-m1-cA_2ddo-a1-m1-cB Crystal Structure of Pyridoxal Kinase from the Escherichia coli pdxK gene at 2.6 A resolution P40191 P40191 2.6 X-RAY DIFFRACTION 113 0.981 562 (Escherichia coli) 562 (Escherichia coli) 263 268 KSRALQADIVAVQSQVVYGSVGNSIAVPAIKQNGLNVFAVPTVLLSNTPHYDTFYGGAIPDEWFSGYLRALQERDALRQLRAVTTGYMGTASQIKILAEWLTALRKDHPDLLIMVDPVIGDIDSGIYVKPDLPEAYRQYLLPLAQGITPNIFELEILTGKNCRDLDSAIAAAKSLLSDTLKWVVVTSEMQVVVVTADSVNVISHSRVKTDLKGTGDLFCAQLISGLLKGKALTDAVHRAGLRVLEVMRYTQQHESDELILPPL LLFNDKSRALQADIVAVQSQVVYGSVGNSIAVPAIKQNGLNVFAVPTVLLSNTPHYDTFYGGAIPDEWFSGYLRALQERDALRQLRAVTTGYMGTASQIKILAEWLTALRKDHPDLLIMVDPVIGDYVKPDLPEAYRQYLLPLAQGITPNIFELEILTGKNCRDLDSAIAAAKSLLSDTLKWVVVTSASENQEMQVVVVTADSVNVISHSRVKTDLKGTGDLFCAQLISGLLKGKALTDAVHRAGLRVLEVMRYTQQHESDELILPPL 2ddu-a2-m1-cA_2ddu-a2-m2-cA Crystal structure of the third repeat domain of reelin Q60841 Q60841 2.05 X-RAY DIFFRACTION 58 1.0 10090 (Mus musculus) 10090 (Mus musculus) 301 301 LTLKPGYVLQFKLNIGCTSQFSSTAPVLLQYSHDAGMSWFLVKEGCFPASAGKGCEGNSRELSEPTVYYTGDFEEWTRITIAIPRSLASSKTRFRWIQEVPPFGLDGVYISEPCPSYCSGHGDCISGVCFCDLGYTAAQGTCVSNTPNHSEMFDRFEGKLSPLWYKITGGQVGTGCGTLNDGRSLYFNGLGKREARTVPLDTRNIRLVQFYIQIGSKTSGITCIKPRARNEGLVVQYSNDNGILWHLLRELDFMSFLEPQIISIDLPREAKTPATAFRWWQPQHGKHSAQWALDDVLISRL LTLKPGYVLQFKLNIGCTSQFSSTAPVLLQYSHDAGMSWFLVKEGCFPASAGKGCEGNSRELSEPTVYYTGDFEEWTRITIAIPRSLASSKTRFRWIQEVPPFGLDGVYISEPCPSYCSGHGDCISGVCFCDLGYTAAQGTCVSNTPNHSEMFDRFEGKLSPLWYKITGGQVGTGCGTLNDGRSLYFNGLGKREARTVPLDTRNIRLVQFYIQIGSKTSGITCIKPRARNEGLVVQYSNDNGILWHLLRELDFMSFLEPQIISIDLPREAKTPATAFRWWQPQHGKHSAQWALDDVLISRL 2ddz-a1-m1-cC_2ddz-a1-m1-cF Protein of Unknown Function from Pyrococcus horikoshi O57962 O57962 2.24 X-RAY DIFFRACTION 32 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 188 188 2ddz-a1-m1-cA_2ddz-a1-m1-cD 2ddz-a1-m1-cB_2ddz-a1-m1-cE SMELLIIKERRIDYDGSAIRSHWAYRNFGILGDSLVVFRGKCNVKVEEMVDIEDLRLRKEIKGDDMVHYILELFWHPDILLASSLQKLLIARLVELLWNYGIEASRRGDDIYVNGRKLSISIATVSPVSIKIHIGLNVKTVGVPPGVDAIGLEELGIDPTEFMERSAKALVEEIEKVRKDSLKVRWVT SMELLIIKERRIDYDGSAIRSHWAYRNFGILGDSLVVFRGKCNVKVEEMVDIEDLRLRKEIKGDDMVHYILELFWHPDILLASSLQKLLIARLVELLWNYGIEASRRGDDIYVNGRKLSISIATVSPVSIKIHIGLNVKTVGVPPGVDAIGLEELGIDPTEFMERSAKALVEEIEKVRKDSLKVRWVT 2ddz-a1-m1-cD_2ddz-a1-m1-cF Protein of Unknown Function from Pyrococcus horikoshi O57962 O57962 2.24 X-RAY DIFFRACTION 13 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 188 188 2ddz-a1-m1-cA_2ddz-a1-m1-cC 2ddz-a1-m1-cA_2ddz-a1-m1-cE 2ddz-a1-m1-cB_2ddz-a1-m1-cD 2ddz-a1-m1-cB_2ddz-a1-m1-cF 2ddz-a1-m1-cC_2ddz-a1-m1-cE SMELLIIKERRIDYDGSAIRSHWAYRNFGILGDSLVVFRGKCNVKVEEMVDIEDLRLRKEIKGDDMVHYILELFWHPDILLASSLQKLLIARLVELLWNYGIEASRRGDDIYVNGRKLSISIATVSPVSIKIHIGLNVKTVGVPPGVDAIGLEELGIDPTEFMERSAKALVEEIEKVRKDSLKVRWVT SMELLIIKERRIDYDGSAIRSHWAYRNFGILGDSLVVFRGKCNVKVEEMVDIEDLRLRKEIKGDDMVHYILELFWHPDILLASSLQKLLIARLVELLWNYGIEASRRGDDIYVNGRKLSISIATVSPVSIKIHIGLNVKTVGVPPGVDAIGLEELGIDPTEFMERSAKALVEEIEKVRKDSLKVRWVT 2ddz-a1-m1-cF_2ddz-a1-m1-cE Protein of Unknown Function from Pyrococcus horikoshi O57962 O57962 2.24 X-RAY DIFFRACTION 142 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 188 190 2ddz-a1-m1-cA_2ddz-a1-m1-cB 2ddz-a1-m1-cC_2ddz-a1-m1-cD SMELLIIKERRIDYDGSAIRSHWAYRNFGILGDSLVVFRGKCNVKVEEMVDIEDLRLRKEIKGDDMVHYILELFWHPDILLASSLQKLLIARLVELLWNYGIEASRRGDDIYVNGRKLSISIATVSPVSIKIHIGLNVKTVGVPPGVDAIGLEELGIDPTEFMERSAKALVEEIEKVRKDSLKVRWVT MNSMELLIIKERRIDYDGSAIRSHWAYRNFGILGDSLVVFRGKCNVKVEEMVDIEDLRLRKEIKGDDMVHYILELFWHPDILLASSLQKLLIARLVELLWNYGIEASRRGDDIYVNGRKLSISIATVSPVSIKIHIGLNVKTVGVPPGVDAIGLEELGIDPTEFMERSAKALVEEIEKVRKDSLKVRWVT 2dek-a2-m1-cA_2dek-a2-m2-cB Crystal structure of project ID PH0725 from Pyrococcus horikoshii OT3 at 1.65 A resolution O58456 O58456 1.65 X-RAY DIFFRACTION 24 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 265 265 1wng-a2-m1-cA_1wng-a2-m2-cB 1wng-a2-m1-cB_1wng-a2-m2-cA 2dek-a2-m1-cB_2dek-a2-m2-cA 2dsg-a2-m1-cA_2dsg-a2-m2-cB 2dsg-a2-m1-cB_2dsg-a2-m2-cA 2dsh-a2-m1-cA_2dsh-a2-m2-cB 2dsh-a2-m1-cB_2dsh-a2-m2-cA 2dsi-a2-m1-cA_2dsi-a2-m2-cB 2dsi-a2-m1-cB_2dsi-a2-m2-cA 2dv4-a2-m1-cA_2dv4-a2-m2-cB 2dv4-a2-m1-cB_2dv4-a2-m2-cA 2dv5-a2-m1-cA_2dv5-a2-m2-cB 2dv5-a2-m1-cB_2dv5-a2-m2-cA 2dxv-a2-m1-cA_2dxv-a2-m2-cB 2dxv-a2-m1-cB_2dxv-a2-m2-cA 2dxw-a2-m1-cA_2dxw-a2-m2-cB 2dxw-a2-m1-cB_2dxw-a2-m2-cA 2dxx-a2-m1-cA_2dxx-a2-m2-cB 2dxx-a2-m1-cB_2dxx-a2-m2-cA 2e07-a2-m1-cA_2e07-a2-m2-cB 2e07-a2-m1-cB_2e07-a2-m2-cA 2e08-a2-m1-cA_2e08-a2-m2-cB 2e08-a2-m1-cB_2e08-a2-m2-cA 2e15-a2-m1-cA_2e15-a2-m2-cB 2e15-a2-m1-cB_2e15-a2-m2-cA 2e16-a2-m1-cA_2e16-a2-m2-cB 2e16-a2-m1-cB_2e16-a2-m2-cA 2e17-a2-m1-cA_2e17-a2-m2-cB 2e17-a2-m1-cB_2e17-a2-m2-cA 2e7r-a2-m1-cA_2e7r-a2-m2-cB 2e7r-a2-m1-cB_2e7r-a2-m2-cA 2e8h-a2-m1-cA_2e8h-a2-m2-cB 2e8h-a2-m1-cB_2e8h-a2-m2-cA 2e8q-a2-m1-cA_2e8q-a2-m2-cB 2e8q-a2-m1-cB_2e8q-a2-m2-cA 2e8r-a2-m1-cA_2e8r-a2-m2-cB 2e8r-a2-m1-cB_2e8r-a2-m2-cA 2e8s-a2-m1-cA_2e8s-a2-m2-cB 2e8s-a2-m1-cB_2e8s-a2-m2-cA 2ed3-a2-m1-cA_2ed3-a2-m2-cB 2ed3-a2-m1-cB_2ed3-a2-m2-cA 2ed5-a2-m1-cA_2ed5-a2-m2-cB 2ed5-a2-m1-cB_2ed5-a2-m2-cA 2eeq-a2-m1-cA_2eeq-a2-m2-cB 2eeq-a2-m1-cB_2eeq-a2-m2-cA 2egl-a2-m1-cA_2egl-a2-m2-cB 2egl-a2-m1-cB_2egl-a2-m2-cA 2eh2-a2-m1-cA_2eh2-a2-m2-cB 2eh2-a2-m1-cB_2eh2-a2-m2-cA 2eh5-a2-m1-cA_2eh5-a2-m2-cB 2eh5-a2-m1-cB_2eh5-a2-m2-cA 2ehc-a2-m1-cA_2ehc-a2-m2-cB 2ehc-a2-m1-cB_2ehc-a2-m2-cA 2ehl-a3-m1-cA_2ehl-a3-m2-cB 2ehl-a3-m1-cB_2ehl-a3-m2-cA 2ejz-a2-m1-cA_2ejz-a2-m2-cB 2ejz-a2-m1-cB_2ejz-a2-m2-cA 2eka-a2-m1-cA_2eka-a2-m2-cB 2eka-a2-m1-cB_2eka-a2-m2-cA 2el2-a2-m1-cA_2el2-a2-m2-cB 2el2-a2-m1-cB_2el2-a2-m2-cA 2eld-a2-m1-cA_2eld-a2-m2-cB 2eld-a2-m1-cB_2eld-a2-m2-cA 2ele-a2-m1-cA_2ele-a2-m2-cB 2ele-a2-m1-cB_2ele-a2-m2-cA 2emu-a2-m1-cA_2emu-a2-m2-cB 2emu-a2-m1-cB_2emu-a2-m2-cA 2en5-a2-m1-cA_2en5-a2-m2-cB 2en5-a2-m1-cB_2en5-a2-m2-cA 2hr8-a2-m1-cA_2hr8-a2-m2-cB 2hr8-a2-m1-cB_2hr8-a2-m2-cA 2huq-a2-m1-cA_2huq-a2-m2-cB 2huq-a2-m1-cB_2huq-a2-m2-cA 2hux-a2-m1-cA_2hux-a2-m2-cB 2hux-a2-m1-cB_2hux-a2-m2-cA 2owk-a2-m1-cA_2owk-a2-m2-cB 2owk-a2-m1-cB_2owk-a2-m2-cA 2owu-a2-m1-cA_2owu-a2-m2-cB 2owu-a2-m1-cB_2owu-a2-m2-cA 2owv-a2-m1-cA_2owv-a2-m2-cB 2owv-a2-m1-cB_2owv-a2-m2-cA 2p2x-a2-m1-cA_2p2x-a2-m2-cB 2p2x-a2-m1-cB_2p2x-a2-m2-cA 2p5f-a2-m1-cA_2p5f-a2-m2-cB 2p5f-a2-m1-cB_2p5f-a2-m2-cA 2p6l-a2-m1-cA_2p6l-a2-m2-cB 2p6l-a2-m1-cB_2p6l-a2-m2-cA 2p9d-a2-m1-cA_2p9d-a2-m2-cB 2p9d-a2-m1-cB_2p9d-a2-m2-cA 2pb4-a2-m1-cA_2pb4-a2-m2-cB 2pb4-a2-m1-cB_2pb4-a2-m2-cA 2pb5-a2-m1-cA_2pb5-a2-m2-cB 2pb5-a2-m1-cB_2pb5-a2-m2-cA 2pb6-a2-m1-cA_2pb6-a2-m2-cB 2pb6-a2-m1-cB_2pb6-a2-m2-cA 2pck-a2-m1-cA_2pck-a2-m2-cB 2pck-a2-m2-cA_2pck-a2-m1-cB 2pcm-a2-m1-cA_2pcm-a2-m2-cB 2pcm-a2-m1-cB_2pcm-a2-m2-cA MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPTSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPTSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV 2deo-a1-m1-cA_2deo-a1-m1-cB 1510-N membrane protease specific for a stomatin homolog from Pyrococcus horikoshii O59179 O59179 3 X-RAY DIFFRACTION 34 0.995 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 195 196 AKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADANIVQRIQQSKIPVIIYVYPPGASAASAGTYIALGSHLIAAPGTSIGACRTNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGKTKIPVNGRYVTLNFTNVEVRYLAPSFKDKLISYITD ILAKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADANIVQRIQQSKIPVIIYVYPPGASAASAGTYIALGSHLIAAPGTSIGACRTNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGKTKIPVNGRYVTLNFTNVEVRYLAPSFKDKLISYIT 2dfa-a1-m1-cA_2dfa-a1-m4-cA Crystal Structure of Lactam Utilization Protein from Thermus thermophilus HB8 Q53WG6 Q53WG6 1.9 X-RAY DIFFRACTION 33 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 247 247 2dfa-a1-m2-cA_2dfa-a1-m3-cA MKVDLNADAGESYGAFAYGHDREIFPLVSSANLACGFHGGSPGRILEAVRLAKAHGVAVGAHPGFPDLVGFGRREMALSPEEVYADVLYQIGALSAFLKAEGLPLHHVKPHGALYLKACRDRETARAIALAVKAFDPGLPLVVLPGTVYEEEARKAGLRVVLEAFPERAYLRSGQLAPRSMPGSWITDPEEAARRALRMVLEGKVEALDGGEVAVRADTLCIHPNAPEVARAVREALEQAGVEVRAF MKVDLNADAGESYGAFAYGHDREIFPLVSSANLACGFHGGSPGRILEAVRLAKAHGVAVGAHPGFPDLVGFGRREMALSPEEVYADVLYQIGALSAFLKAEGLPLHHVKPHGALYLKACRDRETARAIALAVKAFDPGLPLVVLPGTVYEEEARKAGLRVVLEAFPERAYLRSGQLAPRSMPGSWITDPEEAARRALRMVLEGKVEALDGGEVAVRADTLCIHPNAPEVARAVREALEQAGVEVRAF 2dfa-a1-m2-cA_2dfa-a1-m4-cA Crystal Structure of Lactam Utilization Protein from Thermus thermophilus HB8 Q53WG6 Q53WG6 1.9 X-RAY DIFFRACTION 71 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 247 247 2dfa-a1-m1-cA_2dfa-a1-m3-cA MKVDLNADAGESYGAFAYGHDREIFPLVSSANLACGFHGGSPGRILEAVRLAKAHGVAVGAHPGFPDLVGFGRREMALSPEEVYADVLYQIGALSAFLKAEGLPLHHVKPHGALYLKACRDRETARAIALAVKAFDPGLPLVVLPGTVYEEEARKAGLRVVLEAFPERAYLRSGQLAPRSMPGSWITDPEEAARRALRMVLEGKVEALDGGEVAVRADTLCIHPNAPEVARAVREALEQAGVEVRAF MKVDLNADAGESYGAFAYGHDREIFPLVSSANLACGFHGGSPGRILEAVRLAKAHGVAVGAHPGFPDLVGFGRREMALSPEEVYADVLYQIGALSAFLKAEGLPLHHVKPHGALYLKACRDRETARAIALAVKAFDPGLPLVVLPGTVYEEEARKAGLRVVLEAFPERAYLRSGQLAPRSMPGSWITDPEEAARRALRMVLEGKVEALDGGEVAVRADTLCIHPNAPEVARAVREALEQAGVEVRAF 2dfa-a1-m3-cA_2dfa-a1-m4-cA Crystal Structure of Lactam Utilization Protein from Thermus thermophilus HB8 Q53WG6 Q53WG6 1.9 X-RAY DIFFRACTION 23 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 247 247 2dfa-a1-m1-cA_2dfa-a1-m2-cA MKVDLNADAGESYGAFAYGHDREIFPLVSSANLACGFHGGSPGRILEAVRLAKAHGVAVGAHPGFPDLVGFGRREMALSPEEVYADVLYQIGALSAFLKAEGLPLHHVKPHGALYLKACRDRETARAIALAVKAFDPGLPLVVLPGTVYEEEARKAGLRVVLEAFPERAYLRSGQLAPRSMPGSWITDPEEAARRALRMVLEGKVEALDGGEVAVRADTLCIHPNAPEVARAVREALEQAGVEVRAF MKVDLNADAGESYGAFAYGHDREIFPLVSSANLACGFHGGSPGRILEAVRLAKAHGVAVGAHPGFPDLVGFGRREMALSPEEVYADVLYQIGALSAFLKAEGLPLHHVKPHGALYLKACRDRETARAIALAVKAFDPGLPLVVLPGTVYEEEARKAGLRVVLEAFPERAYLRSGQLAPRSMPGSWITDPEEAARRALRMVLEGKVEALDGGEVAVRADTLCIHPNAPEVARAVREALEQAGVEVRAF 2dfj-a1-m1-cA_2dfj-a1-m1-cB Crystal Structure of the Diadenosine Tetraphosphate Hydrolase from Shigella flexneri 2a Q83SQ2 Q83SQ2 2.72 X-RAY DIFFRACTION 26 1.0 42897 (Shigella flexneri 2a) 42897 (Shigella flexneri 2a) 267 267 ATYLIGDVHGCYDELIALLHKVEFTPGKDTLWLTGDLVARGPGSLDVLRYVKSLGDSVRLVLGNHDLHLLAVFAGISRNKPKDRLTPLLEAPDADELLNWLRRQPLLQIDEEKKLVMAHAGITPQWDLQTAKECARDVEAVLSSDSYPFFLDAMYGDMPNNWSPELRGLGRLRFITNAFTRMRFCFPNGQLDMYSKESPEEAPAPLKPWFAIPGPVAEEYSIAFGHWASLEGKGTPEGIYALDTGCCWGGSLTCLRWEDKQYFVQPS ATYLIGDVHGCYDELIALLHKVEFTPGKDTLWLTGDLVARGPGSLDVLRYVKSLGDSVRLVLGNHDLHLLAVFAGISRNKPKDRLTPLLEAPDADELLNWLRRQPLLQIDEEKKLVMAHAGITPQWDLQTAKECARDVEAVLSSDSYPFFLDAMYGDMPNNWSPELRGLGRLRFITNAFTRMRFCFPNGQLDMYSKESPEEAPAPLKPWFAIPGPVAEEYSIAFGHWASLEGKGTPEGIYALDTGCCWGGSLTCLRWEDKQYFVQPS 2dfk-a3-m1-cC_2dfk-a3-m1-cA Crystal structure of the CDC42-Collybistin II complex Q9QX73 Q9QX73 2.15 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 353 365 QNRDQMRANVINEIMSTERHYIKHLKDICEGYLKQCRKRRDMFSDEQLKVIFGNIEDIYRFQMGFVRDLEKQYNNDDPHLSEIGPCFLEHQDGFWIYSEYCNNHLDACMELSKLMKDSRYQHFFEACRLLQQMIDIAIDGFLLTPVQKICKYPLQLAELLKYTAQDHSDYRYVAAALAVMRNVTQQINERKRRLENIDKIAQWQASVLDWEGDDILDRSSELIYTGEMAWIYQPYGRNQQRVFFLFDHQMVLCKKDLIRRDILYYKGRIDMDKYEVIDIEDGRDDDFNVSMKNAFKLHNKETEEVHLFFAKKLEEKIRWLRAFREERKMVQEDEKIGFEISENQKRQAAMTVR CLCLGRPLQNRDQMRANVINEIMSTERHYIKHLKDICEGYLKQCRKRRDMFSDEQLKVIFGNIEDIYRFQMGFVRDLEKQYNNDDPHLSEIGPCFLEHQDGFWIYSEYCNNHLDACMELSKLMKDSRYQHFFEACRLLQQMIDIAIDGFLLTPVQKICKYPLQLAELLKYTAQDHSDYRYVAAALAVMRNVTQQINERKRRLENIDKIAQWQASVLDWEGDDILDRSSELIYTGEMAWIYQPYGRNQQRVFFLFDHQMVLCKKDLIRRDILYYKGRIDMDKYEVIDIEDGRDDDFNVSMKNAFKLHNKETEEVHLFFAKKLEEKIRWLRAFREERKMVQEDEKIGFEISENQKRQAAMTVRKASK 2dfs-a1-m1-cA_2dfs-a1-m1-cM 3-D structure of Myosin-V inhibited state Q02440 Q02440 24.0 ELECTRON CRYSTALLOGRAPHY 142 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 994 994 ELYTKYARVWIPDPEEVWKSAELLKDYKPGDKVLQLRLEEGKDLEYCLDPKTKELPPLRNPDILVGENDLTALSYLHEPAVLHNLKVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAALPEFKTLRLGNANYFHYTKQGGSPVIDGIDDAKEMVNTRQACTLLGISDSYQMGIFRILAGILHLGNVEFASRDSDSCAIPPKHDPLTIFCDLMGVDYEEMAHWLCHRKLATYIKPISKLHAINARDALAKHIYANLFNWIVDHVNKALHSTVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIEAKMGVLDLLDEECKMPKGSDDTWAQKLYNTHLNKCALFEKPRLSNKAFIIKHFADKVEYQCEGFLEKNKDTVYEEQIKVLKSSKKFKLLPELFQHKKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLSDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKIRADKLRAACIRIQKTIRGWLMRKKYMRMRRAAITIQRYVRGHQARCYATFLRRTRAAIIIQKFQRMYVVRKRYQCMRDATIALQALLRGYLVRNKYQMMLREHKSIIIQKHVRGWLARVHYHRTLKAIVYLQCCYRRMMAKRELKKLMNNLEITYSTETEKLRSDVERLRMSEEEAKNATNRVLSLQEEIAKLRKELHQTQTEKKTIEEWADKYKHETEQLVSELKEQNTLLKTEKEELNRRIHDQAKEITETMEKKLVEETKQLELDLNDERLRYQ ELYTKYARVWIPDPEEVWKSAELLKDYKPGDKVLQLRLEEGKDLEYCLDPKTKELPPLRNPDILVGENDLTALSYLHEPAVLHNLKVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAALPEFKTLRLGNANYFHYTKQGGSPVIDGIDDAKEMVNTRQACTLLGISDSYQMGIFRILAGILHLGNVEFASRDSDSCAIPPKHDPLTIFCDLMGVDYEEMAHWLCHRKLATYIKPISKLHAINARDALAKHIYANLFNWIVDHVNKALHSTVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIEAKMGVLDLLDEECKMPKGSDDTWAQKLYNTHLNKCALFEKPRLSNKAFIIKHFADKVEYQCEGFLEKNKDTVYEEQIKVLKSSKKFKLLPELFQHKKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLSDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKIRADKLRAACIRIQKTIRGWLMRKKYMRMRRAAITIQRYVRGHQARCYATFLRRTRAAIIIQKFQRMYVVRKRYQCMRDATIALQALLRGYLVRNKYQMMLREHKSIIIQKHVRGWLARVHYHRTLKAIVYLQCCYRRMMAKRELKKLMNNLEITYSTETEKLRSDVERLRMSEEEAKNATNRVLSLQEEIAKLRKELHQTQTEKKTIEEWADKYKHETEQLVSELKEQNTLLKTEKEELNRRIHDQAKEITETMEKKLVEETKQLELDLNDERLRYQ 2dfs-a1-m1-cG_2dfs-a1-m1-cS 3-D structure of Myosin-V inhibited state P0DP26 P0DP26 24.0 ELECTRON CRYSTALLOGRAPHY 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 141 141 QIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK QIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 2dfs-a1-m1-cN_2dfs-a1-m1-cO 3-D structure of Myosin-V inhibited state P0DP26 P0DP26 24.0 ELECTRON CRYSTALLOGRAPHY 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 139 141 2dfs-a1-m1-cB_2dfs-a1-m1-cC AEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK QIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 2dft-a1-m1-cA_2dft-a1-m1-cD Structure of shikimate kinase from Mycobacterium tuberculosis complexed with ADP and Mg at 2.8 angstrons of resolution P9WPY3 P9WPY3 2.8 X-RAY DIFFRACTION 12 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 156 165 2dft-a1-m1-cC_2dft-a1-m1-cB APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGNDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGNTVRPLLAGPDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL 2dft-a1-m1-cB_2dft-a1-m1-cD Structure of shikimate kinase from Mycobacterium tuberculosis complexed with ADP and Mg at 2.8 angstrons of resolution P9WPY3 P9WPY3 2.8 X-RAY DIFFRACTION 42 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 165 165 APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGNTVRPLLAGPDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGNTVRPLLAGPDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL 2dft-a1-m1-cC_2dft-a1-m1-cA Structure of shikimate kinase from Mycobacterium tuberculosis complexed with ADP and Mg at 2.8 angstrons of resolution P9WPY3 P9WPY3 2.8 X-RAY DIFFRACTION 69 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 155 156 APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGNDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL 2dft-a1-m1-cC_2dft-a1-m1-cD Structure of shikimate kinase from Mycobacterium tuberculosis complexed with ADP and Mg at 2.8 angstrons of resolution P9WPY3 P9WPY3 2.8 X-RAY DIFFRACTION 20 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 155 165 2dft-a1-m1-cA_2dft-a1-m1-cB APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL APKAVLVGLPGSGKSTIGRRLAKALGVGLLDTDVAIEQRTGRSIADIFATDGEQEFRRIEEDVVRAALADHDGVLSLGGGAVTSPGVRAALAGHTVVYLEISAAEGVRRTGGNTVRPLLAGPDRAEKYRALMAKRAPLYRRVATMRVDTNRRNPGAVVRHILSRL 2dfu-a2-m1-cD_2dfu-a2-m1-cC Crystal structure of the 2-hydroxyhepta-2,4-diene-1,7-dioate isomerase from Thermus Thermophilus HB8 Q5SK43 Q5SK43 2.2 X-RAY DIFFRACTION 99 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 247 249 2dfu-a1-m1-cB_2dfu-a1-m1-cA MKILRFNEGRWGVLEGELVLETDGPGGNPTGRRYDLASVTLLPPATPTKIVCVGRNYEPGLFLKGPNALARPGNPRDPWGTAEPVPYPFFTEELHYEGELAVVVGDRMRHVPPEKALDHVLGYTVAVDITARDVQKKDLQWVRAKSADKFLPLGPWLETDLNPQDTWVRTYVNGTLRQEGHTSQMIFSVAEILSYISTFMTLEPLDVVLTGTPEGVGALRPGDRLEVAVEGVGTLFTLIGPKEERPW MKILRFNEGRWGVLEGELVLETDGPGGNPTGRRYDLASVTLLPPATPTKIVCVGRNYPKEPGLFLKGPNALARPGNPRDPWGTAEPVPYPFFTEELHYEGELAVVVGDRMRHVPPEKALDHVLGYTVAVDITARDVQKKDLQWVRAKSADKFLPLGPWLETDLNPQDTWVRTYVNGTLRQEGHTSQMIFSVAEILSYISTFMTLEPLDVVLTGTPEGVGALRPGDRLEVAVEGVGTLFTLIGPKEERPW 2dg1-a7-m2-cA_2dg1-a7-m1-cB Crystal structure of Drp35, a 35kDa drug responsive protein from Staphylococcus aureus, complexed with Ca2+ Q99QV3 Q99QV3 1.72 X-RAY DIFFRACTION 83 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 321 322 2dg0-a13-m1-cE_2dg0-a13-m1-cH 2dg0-a13-m1-cG_2dg0-a13-m1-cE 2dg0-a13-m1-cG_2dg0-a13-m1-cH 2dg0-a14-m1-cK_2dg0-a14-m1-cA 2dg0-a14-m2-cB_2dg0-a14-m1-cA 2dg0-a14-m2-cB_2dg0-a14-m1-cK 2dg0-a15-m1-cI_2dg0-a15-m1-cJ 2dg0-a15-m1-cI_2dg0-a15-m1-cL 2dg0-a15-m1-cJ_2dg0-a15-m1-cL 2dg0-a16-m1-cD_2dg0-a16-m1-cF 2dg0-a16-m1-cD_2dg0-a16-m3-cC 2dg0-a16-m3-cC_2dg0-a16-m1-cF 2dg1-a7-m1-cC_2dg1-a7-m1-cB 2dg1-a7-m1-cC_2dg1-a7-m2-cA 2dso-a7-m1-cB_2dso-a7-m1-cC 2dso-a7-m1-cB_2dso-a7-m2-cA 2dso-a7-m2-cA_2dso-a7-m1-cC QDLPTLFYSGKSNSAVPIISESELQTITAEPWLEISKKGLQLEGLNFDRQGQLFLLDVFEGNIFKINPETKEIKRPFVSHKANPAAIKIHKDGRLFVCYLGDFKSTGGIFAATENGDNLQDIIEDLSTAYCIDDMVFDSKGGFYFTDFRGYSTNPLGGVYYVSPDFRTVTPIIQNISVANGIALSTDEKVLWVTETTANRLHRIALEDDGVTIQPFGATIPYYFTGHEGPDSCCIDSDDNLYVAMYGQGRVLVFNKRGYPIGQILIPGRDEGHMLRSTHPQFIPGTNQLIICSNDIEMGGGSMLYTVNGFAKGHQSFQFQL QDLPTLFYSGKSNSAVPIISESELQTITAEPWLEISKKGLQLEGLNFDRQGQLFLLDVFEGNIFKINPETKEIKRPFVSHKANPAAIKIHKDGRLFVCYLGDFKSTGGIFAATENGDNLQDIIEDLSTAYCIDDMVFDSKGGFYFTDFRGYSTNPLGGVYYVSPDFRTVTPIIQNISVANGIALSTDEKVLWVTETTANRLHRIALEDDGVTIQPFGATIPYYFTGHEGPDSCCIDSDDNLYVAMYGQGRVLVFNKRGYPIGQILIPGRDEGHMLRSTHPQFIPGTNQLIICSNDIEMGGGSMLYTVNGFAKGHQSFQFQLE 2dg6-a1-m1-cA_2dg6-a1-m2-cA Crystal structure of the putative transcriptional regulator SCO5550 from Streptomyces coelicolor A3(2) O86531 O86531 2.2 X-RAY DIFFRACTION 230 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 201 201 RLADLSKRSGVSTATIKYYLREGLLPPGYDEDHLRRLRLVRALIQVGKVPVATAREVLGHVDDDSLGRTVRLGAALWALPQDAEPDEADPAVAAARVEVDRLLELLGWETSRELAPLSPVHRSLVVAVAALRRLDYPWDAELAPYGELEVARRDLDFETHASEAEKVEAVAAAVLFQPVLRALHRLAQEEESARRYGIELE RLADLSKRSGVSTATIKYYLREGLLPPGYDEDHLRRLRLVRALIQVGKVPVATAREVLGHVDDDSLGRTVRLGAALWALPQDAEPDEADPAVAAARVEVDRLLELLGWETSRELAPLSPVHRSLVVAVAALRRLDYPWDAELAPYGELEVARRDLDFETHASEAEKVEAVAAAVLFQPVLRALHRLAQEEESARRYGIELE 2dg7-a1-m1-cA_2dg7-a1-m2-cA Crystal structure of the putative transcriptional regulator SCO0337 from Streptomyces coelicolor A3(2) Q9RK42 Q9RK42 2.3 X-RAY DIFFRACTION 75 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 185 185 ARWDPGAEQRLKRAALELYSEHGYDNVTVTDIAERAGLTRRSYFRYFPDKREVLFGGSELLPPAVARAVLAADPGAAPLTAVLDASQVGAQLVAQVEGAAQRRAVIDASPELQERERTKSAAISRAVQDALVRRQVDADTAELVAQLATVAFGSAFRRWIDAEGHADFGSCLDTVTDRLRAVLTG ARWDPGAEQRLKRAALELYSEHGYDNVTVTDIAERAGLTRRSYFRYFPDKREVLFGGSELLPPAVARAVLAADPGAAPLTAVLDASQVGAQLVAQVEGAAQRRAVIDASPELQERERTKSAAISRAVQDALVRRQVDADTAELVAQLATVAFGSAFRRWIDAEGHADFGSCLDTVTDRLRAVLTG 2dg8-a2-m1-cC_2dg8-a2-m1-cB Crystal structure of the putative trasncriptional regulator SCO7518 from Streptomyces coelicolor A3(2) Q93J02 Q93J02 2.21 X-RAY DIFFRACTION 120 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 174 176 2dg8-a1-m1-cD_2dg8-a1-m1-cA QRRERILAATLDLIAEEGIARVSHRRIAQRAGVPLGSMTYHFTGIEQLLREAFGRFTDHIVAVFDEHLGAAADRDEAREAVADLVHELSEDSQRDLVLTQELYTLAARQPAYRELTHEWMRRSRVHLEKHFDPGTARQLDALIEGLTLHRALAREPHGRALTLEAIARITTTDR PQRRERILAATLDLIAEEGIARVSHRRIAQRAGVPLGSMTYHFTGIEQLLREAFGRFTDHIVAVFDEHLGAAADRDEAREAVADLVHELSEDSQRDLVLTQELYTLAARQPAYRELTHEWMRRSRVHLEKHFDPGTARQLDALIEGLTLHRALAREPHGRALTLEAIARITTTDRP 2dga-a1-m1-cA_2dga-a1-m6-cA Crystal structure of hexameric beta-glucosidase in wheat Q1XH05 Q1XH05 1.8 X-RAY DIFFRACTION 47 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 491 491 2dga-a1-m2-cA_2dga-a1-m5-cA 2dga-a1-m3-cA_2dga-a1-m4-cA 3aiq-a1-m1-cA_3aiq-a1-m5-cA 3aiq-a1-m2-cA_3aiq-a1-m4-cA 3aiq-a1-m3-cA_3aiq-a1-m6-cA 3air-a1-m1-cA_3air-a1-m6-cA 3air-a1-m2-cA_3air-a1-m5-cA 3air-a1-m3-cA_3air-a1-m4-cA 3ais-a1-m1-cA_3ais-a1-m5-cA 3ais-a1-m2-cA_3ais-a1-m4-cA 3ais-a1-m3-cA_3ais-a1-m6-cA 3aiu-a1-m1-cA_3aiu-a1-m6-cA 3aiu-a1-m2-cA_3aiu-a1-m5-cA 3aiu-a1-m3-cA_3aiu-a1-m4-cA 3aiv-a1-m1-cA_3aiv-a1-m6-cA 3aiv-a1-m2-cA_3aiv-a1-m5-cA 3aiv-a1-m3-cA_3aiv-a1-m4-cA 3aiw-a1-m1-cA_3aiw-a1-m6-cA 3aiw-a1-m2-cA_3aiw-a1-m5-cA 3aiw-a1-m3-cA_3aiw-a1-m4-cA GPVFTKLKPWQIPKRDWFDKDFLFGASTSAYQIEGAWNEDGKGPSTWDHFCHTYPERISDMTNGDVAANSYHLYEEDVKALKDMGMKVYRFSISWSRILPDGTGKVNQAGIDYYNKLINSLIDNDIVPYVTIWHWDTPQALEDKYGGFLNRQIVDDYKQFAEVCFKNFGDRVKNWFTFNEPHTYCCFSYGEGIHAPGRCSPGMDCAVPEGDSLREPYTAGHHILLAHAEAVQLFKARYNMHGDSKIGMAFDVMGYEPYQDSFLDDQARERSIDYNMGWFLEPVVRGDYPFSMRSLIGDRLPMFTKEEQEKLASSCDIMGLNYYTSRFSKHVDMSPDFTPTLNTDDAYASSETTGSDGNDIGPITGTYWIYMYPKGLTDLLLIMKEKYGNPPVFITENGIADVEGDESMPDPLDDWKRLDYLQRHISAVKDAIDQGADVRGHFTWGLIDNFEWSLGYSSRFGLVYIDKNDGNKRKLKKSAKWFSKFNSVPKP GPVFTKLKPWQIPKRDWFDKDFLFGASTSAYQIEGAWNEDGKGPSTWDHFCHTYPERISDMTNGDVAANSYHLYEEDVKALKDMGMKVYRFSISWSRILPDGTGKVNQAGIDYYNKLINSLIDNDIVPYVTIWHWDTPQALEDKYGGFLNRQIVDDYKQFAEVCFKNFGDRVKNWFTFNEPHTYCCFSYGEGIHAPGRCSPGMDCAVPEGDSLREPYTAGHHILLAHAEAVQLFKARYNMHGDSKIGMAFDVMGYEPYQDSFLDDQARERSIDYNMGWFLEPVVRGDYPFSMRSLIGDRLPMFTKEEQEKLASSCDIMGLNYYTSRFSKHVDMSPDFTPTLNTDDAYASSETTGSDGNDIGPITGTYWIYMYPKGLTDLLLIMKEKYGNPPVFITENGIADVEGDESMPDPLDDWKRLDYLQRHISAVKDAIDQGADVRGHFTWGLIDNFEWSLGYSSRFGLVYIDKNDGNKRKLKKSAKWFSKFNSVPKP 2dga-a1-m2-cA_2dga-a1-m6-cA Crystal structure of hexameric beta-glucosidase in wheat Q1XH05 Q1XH05 1.8 X-RAY DIFFRACTION 37 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 491 491 2dga-a1-m1-cA_2dga-a1-m4-cA 2dga-a1-m3-cA_2dga-a1-m5-cA 3aiq-a1-m1-cA_3aiq-a1-m6-cA 3aiq-a1-m2-cA_3aiq-a1-m5-cA 3aiq-a1-m3-cA_3aiq-a1-m4-cA 3air-a1-m1-cA_3air-a1-m4-cA 3air-a1-m2-cA_3air-a1-m6-cA 3air-a1-m3-cA_3air-a1-m5-cA 3ais-a1-m1-cA_3ais-a1-m6-cA 3ais-a1-m2-cA_3ais-a1-m5-cA 3ais-a1-m3-cA_3ais-a1-m4-cA 3aiu-a1-m1-cA_3aiu-a1-m4-cA 3aiu-a1-m2-cA_3aiu-a1-m6-cA 3aiu-a1-m3-cA_3aiu-a1-m5-cA 3aiu-a2-m1-cA_3aiu-a2-m4-cA 3aiv-a1-m1-cA_3aiv-a1-m4-cA 3aiv-a1-m2-cA_3aiv-a1-m6-cA 3aiv-a1-m3-cA_3aiv-a1-m5-cA 3aiv-a2-m1-cA_3aiv-a2-m4-cA 3aiw-a1-m1-cA_3aiw-a1-m4-cA 3aiw-a1-m2-cA_3aiw-a1-m6-cA 3aiw-a1-m3-cA_3aiw-a1-m5-cA 3aiw-a2-m1-cA_3aiw-a2-m4-cA GPVFTKLKPWQIPKRDWFDKDFLFGASTSAYQIEGAWNEDGKGPSTWDHFCHTYPERISDMTNGDVAANSYHLYEEDVKALKDMGMKVYRFSISWSRILPDGTGKVNQAGIDYYNKLINSLIDNDIVPYVTIWHWDTPQALEDKYGGFLNRQIVDDYKQFAEVCFKNFGDRVKNWFTFNEPHTYCCFSYGEGIHAPGRCSPGMDCAVPEGDSLREPYTAGHHILLAHAEAVQLFKARYNMHGDSKIGMAFDVMGYEPYQDSFLDDQARERSIDYNMGWFLEPVVRGDYPFSMRSLIGDRLPMFTKEEQEKLASSCDIMGLNYYTSRFSKHVDMSPDFTPTLNTDDAYASSETTGSDGNDIGPITGTYWIYMYPKGLTDLLLIMKEKYGNPPVFITENGIADVEGDESMPDPLDDWKRLDYLQRHISAVKDAIDQGADVRGHFTWGLIDNFEWSLGYSSRFGLVYIDKNDGNKRKLKKSAKWFSKFNSVPKP GPVFTKLKPWQIPKRDWFDKDFLFGASTSAYQIEGAWNEDGKGPSTWDHFCHTYPERISDMTNGDVAANSYHLYEEDVKALKDMGMKVYRFSISWSRILPDGTGKVNQAGIDYYNKLINSLIDNDIVPYVTIWHWDTPQALEDKYGGFLNRQIVDDYKQFAEVCFKNFGDRVKNWFTFNEPHTYCCFSYGEGIHAPGRCSPGMDCAVPEGDSLREPYTAGHHILLAHAEAVQLFKARYNMHGDSKIGMAFDVMGYEPYQDSFLDDQARERSIDYNMGWFLEPVVRGDYPFSMRSLIGDRLPMFTKEEQEKLASSCDIMGLNYYTSRFSKHVDMSPDFTPTLNTDDAYASSETTGSDGNDIGPITGTYWIYMYPKGLTDLLLIMKEKYGNPPVFITENGIADVEGDESMPDPLDDWKRLDYLQRHISAVKDAIDQGADVRGHFTWGLIDNFEWSLGYSSRFGLVYIDKNDGNKRKLKKSAKWFSKFNSVPKP 2dga-a1-m5-cA_2dga-a1-m6-cA Crystal structure of hexameric beta-glucosidase in wheat Q1XH05 Q1XH05 1.8 X-RAY DIFFRACTION 25 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 491 491 2dga-a1-m1-cA_2dga-a1-m2-cA 2dga-a1-m1-cA_2dga-a1-m3-cA 2dga-a1-m2-cA_2dga-a1-m3-cA 2dga-a1-m4-cA_2dga-a1-m5-cA 2dga-a1-m4-cA_2dga-a1-m6-cA 3aiq-a1-m1-cA_3aiq-a1-m2-cA 3aiq-a1-m1-cA_3aiq-a1-m3-cA 3aiq-a1-m2-cA_3aiq-a1-m3-cA 3aiq-a1-m4-cA_3aiq-a1-m5-cA 3aiq-a1-m4-cA_3aiq-a1-m6-cA 3aiq-a1-m5-cA_3aiq-a1-m6-cA 3air-a1-m1-cA_3air-a1-m2-cA 3air-a1-m1-cA_3air-a1-m3-cA 3air-a1-m2-cA_3air-a1-m3-cA 3air-a1-m4-cA_3air-a1-m5-cA 3air-a1-m4-cA_3air-a1-m6-cA 3air-a1-m5-cA_3air-a1-m6-cA 3ais-a1-m1-cA_3ais-a1-m2-cA 3ais-a1-m1-cA_3ais-a1-m3-cA 3ais-a1-m2-cA_3ais-a1-m3-cA 3ais-a1-m4-cA_3ais-a1-m5-cA 3ais-a1-m4-cA_3ais-a1-m6-cA 3ais-a1-m5-cA_3ais-a1-m6-cA 3aiu-a1-m1-cA_3aiu-a1-m2-cA 3aiu-a1-m1-cA_3aiu-a1-m3-cA 3aiu-a1-m2-cA_3aiu-a1-m3-cA 3aiu-a1-m4-cA_3aiu-a1-m5-cA 3aiu-a1-m4-cA_3aiu-a1-m6-cA 3aiu-a1-m5-cA_3aiu-a1-m6-cA 3aiv-a1-m1-cA_3aiv-a1-m2-cA 3aiv-a1-m1-cA_3aiv-a1-m3-cA 3aiv-a1-m2-cA_3aiv-a1-m3-cA 3aiv-a1-m4-cA_3aiv-a1-m5-cA 3aiv-a1-m4-cA_3aiv-a1-m6-cA 3aiv-a1-m5-cA_3aiv-a1-m6-cA 3aiw-a1-m1-cA_3aiw-a1-m2-cA 3aiw-a1-m1-cA_3aiw-a1-m3-cA 3aiw-a1-m2-cA_3aiw-a1-m3-cA 3aiw-a1-m4-cA_3aiw-a1-m5-cA 3aiw-a1-m4-cA_3aiw-a1-m6-cA 3aiw-a1-m5-cA_3aiw-a1-m6-cA GPVFTKLKPWQIPKRDWFDKDFLFGASTSAYQIEGAWNEDGKGPSTWDHFCHTYPERISDMTNGDVAANSYHLYEEDVKALKDMGMKVYRFSISWSRILPDGTGKVNQAGIDYYNKLINSLIDNDIVPYVTIWHWDTPQALEDKYGGFLNRQIVDDYKQFAEVCFKNFGDRVKNWFTFNEPHTYCCFSYGEGIHAPGRCSPGMDCAVPEGDSLREPYTAGHHILLAHAEAVQLFKARYNMHGDSKIGMAFDVMGYEPYQDSFLDDQARERSIDYNMGWFLEPVVRGDYPFSMRSLIGDRLPMFTKEEQEKLASSCDIMGLNYYTSRFSKHVDMSPDFTPTLNTDDAYASSETTGSDGNDIGPITGTYWIYMYPKGLTDLLLIMKEKYGNPPVFITENGIADVEGDESMPDPLDDWKRLDYLQRHISAVKDAIDQGADVRGHFTWGLIDNFEWSLGYSSRFGLVYIDKNDGNKRKLKKSAKWFSKFNSVPKP GPVFTKLKPWQIPKRDWFDKDFLFGASTSAYQIEGAWNEDGKGPSTWDHFCHTYPERISDMTNGDVAANSYHLYEEDVKALKDMGMKVYRFSISWSRILPDGTGKVNQAGIDYYNKLINSLIDNDIVPYVTIWHWDTPQALEDKYGGFLNRQIVDDYKQFAEVCFKNFGDRVKNWFTFNEPHTYCCFSYGEGIHAPGRCSPGMDCAVPEGDSLREPYTAGHHILLAHAEAVQLFKARYNMHGDSKIGMAFDVMGYEPYQDSFLDDQARERSIDYNMGWFLEPVVRGDYPFSMRSLIGDRLPMFTKEEQEKLASSCDIMGLNYYTSRFSKHVDMSPDFTPTLNTDDAYASSETTGSDGNDIGPITGTYWIYMYPKGLTDLLLIMKEKYGNPPVFITENGIADVEGDESMPDPLDDWKRLDYLQRHISAVKDAIDQGADVRGHFTWGLIDNFEWSLGYSSRFGLVYIDKNDGNKRKLKKSAKWFSKFNSVPKP 2dgb-a1-m1-cA_2dgb-a1-m1-cD Structure of Thermus thermophilus PurS in the P21 Form Q72II0 Q72II0 2.1 X-RAY DIFFRACTION 86 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 81 81 2cuw-a2-m1-cA_2cuw-a2-m2-cA 2dgb-a2-m1-cB_2dgb-a2-m1-cC PRYQATLLIELKKGILDPQGRAVEGVLKDLGHPVEEVRVGKVLEIVFPAENLLEAEEKAKAGALLANPVEVYALEALKELP PRYQATLLIELKKGILDPQGRAVEGVLKDLGHPVEEVRVGKVLEIVFPAENLLEAEEKAKAGALLANPVEVYALEALKELP 2dgc-a1-m1-cA_2dgc-a1-m2-cA GCN4 BASIC DOMAIN, LEUCINE ZIPPER COMPLEXED WITH ATF/CREB SITE DNA P03069 P03069 2.2 X-RAY DIFFRACTION 38 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 49 49 1dgc-a1-m1-cA_1dgc-a1-m2-cA 1ysa-a1-m1-cC_1ysa-a1-m1-cD 2o7h-a1-m1-cB_2o7h-a1-m1-cC 2wpy-a1-m2-cA_2wpy-a1-m3-cA ALKRARNTEAARRSRARKLQRMKQLEDKVEELLSKNYHLENEVARLKKL ALKRARNTEAARRSRARKLQRMKQLEDKVEELLSKNYHLENEVARLKKL 2dgd-a1-m2-cB_2dgd-a1-m2-cD Crystal structure of ST0656, a function unknown protein from Sulfolobus tokodaii Q974K3 Q974K3 2.9 X-RAY DIFFRACTION 19 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 217 217 2dgd-a1-m1-cA_2dgd-a1-m1-cC 2dgd-a1-m1-cA_2dgd-a1-m2-cC 2dgd-a1-m1-cB_2dgd-a1-m1-cD 2dgd-a1-m1-cB_2dgd-a1-m2-cD 2dgd-a1-m1-cC_2dgd-a1-m2-cA 2dgd-a1-m1-cD_2dgd-a1-m2-cB 2dgd-a1-m2-cA_2dgd-a1-m2-cC PGGRGRIGVILPANNAGEYDLWKAPEGVSIHSTRKPTKGCEPENVEEFEKELKYSYSLLAEVSDIIIYGRTYGTHKHAHVIKRVIKDVVIPEESVYELLKKLNVRKLWIGTPYIKERTLEEVEWWRNKGFEIVGYDGLGKIRGIDISNTPIFTIYRLVKRHLNEVLKADAVYIACTALSTYEAVQYLHEDLDPVVSENAAAWEALNKLKIKAKLPGF PGGRGRIGVILPANNAGEYDLWKAPEGVSIHSTRKPTKGCEPENVEEFEKELKYSYSLLAEVSDIIIYGRTYGTHKHAHVIKRVIKDVVIPEESVYELLKKLNVRKLWIGTPYIKERTLEEVEWWRNKGFEIVGYDGLGKIRGIDISNTPIFTIYRLVKRHLNEVLKADAVYIACTALSTYEAVQYLHEDLDPVVSENAAAWEALNKLKIKAKLPGF 2dgd-a1-m2-cC_2dgd-a1-m2-cD Crystal structure of ST0656, a function unknown protein from Sulfolobus tokodaii Q974K3 Q974K3 2.9 X-RAY DIFFRACTION 81 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 217 217 2dgd-a1-m1-cA_2dgd-a1-m1-cB 2dgd-a1-m1-cC_2dgd-a1-m1-cD 2dgd-a1-m2-cA_2dgd-a1-m2-cB PGGRGRIGVILPANNAGEYDLWKAPEGVSIHSTRKPTKGCEPENVEEFEKELKYSYSLLAEVSDIIIYGRTYGTHKHAHVIKRVIKDVVIPEESVYELLKKLNVRKLWIGTPYIKERTLEEVEWWRNKGFEIVGYDGLGKIRGIDISNTPIFTIYRLVKRHLNEVLKADAVYIACTALSTYEAVQYLHEDLDPVVSENAAAWEALNKLKIKAKLPGF PGGRGRIGVILPANNAGEYDLWKAPEGVSIHSTRKPTKGCEPENVEEFEKELKYSYSLLAEVSDIIIYGRTYGTHKHAHVIKRVIKDVVIPEESVYELLKKLNVRKLWIGTPYIKERTLEEVEWWRNKGFEIVGYDGLGKIRGIDISNTPIFTIYRLVKRHLNEVLKADAVYIACTALSTYEAVQYLHEDLDPVVSENAAAWEALNKLKIKAKLPGF 2dge-a1-m1-cD_2dge-a1-m1-cA Crystal structure of oxidized cytochrome C6A from Arabidopsis thaliana Q93VA3 Q93VA3 1.5 X-RAY DIFFRACTION 13 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 100 102 2dge-a1-m1-cB_2dge-a1-m1-cC QTLDIQRGATLFNRACIGCHDTGGNIIQPGATLFTKDLERNGVDTEEEIYRVTYFGKGRMPGFGEKCTPRGQCTFGPRLQDEEIKLLAEFVKFQADQGWP QTLDIQRGATLFNRACIGCHDTGGNIIQPGATLFTKDLERNGVDTEEEIYRVTYFGKGRMPGFGEKCTPRGQCTFGPRLQDEEIKLLAEFVKFQADQGWPTV 2dge-a2-m1-cA_2dge-a2-m2-cB Crystal structure of oxidized cytochrome C6A from Arabidopsis thaliana Q93VA3 Q93VA3 1.5 X-RAY DIFFRACTION 32 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 102 102 QTLDIQRGATLFNRACIGCHDTGGNIIQPGATLFTKDLERNGVDTEEEIYRVTYFGKGRMPGFGEKCTPRGQCTFGPRLQDEEIKLLAEFVKFQADQGWPTV QTLDIQRGATLFNRACIGCHDTGGNIIQPGATLFTKDLERNGVDTEEEIYRVTYFGKGRMPGFGEKCTPRGQCTFGPRLQDEEIKLLAEFVKFQADQGWPTV 2dge-a2-m2-cD_2dge-a2-m2-cB Crystal structure of oxidized cytochrome C6A from Arabidopsis thaliana Q93VA3 Q93VA3 1.5 X-RAY DIFFRACTION 22 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 100 102 2dge-a1-m1-cA_2dge-a1-m1-cC 2dge-a1-m1-cD_2dge-a1-m1-cB 2dge-a2-m1-cA_2dge-a2-m1-cC QTLDIQRGATLFNRACIGCHDTGGNIIQPGATLFTKDLERNGVDTEEEIYRVTYFGKGRMPGFGEKCTPRGQCTFGPRLQDEEIKLLAEFVKFQADQGWP QTLDIQRGATLFNRACIGCHDTGGNIIQPGATLFTKDLERNGVDTEEEIYRVTYFGKGRMPGFGEKCTPRGQCTFGPRLQDEEIKLLAEFVKFQADQGWPTV 2dgj-a1-m1-cB_2dgj-a1-m1-cA Crystal structure of EbhA (756-1003 domain) from Staphylococcus aureus Q931R6 Q931R6 2.35 X-RAY DIFFRACTION 95 0.996 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 241 244 GQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQTDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGN AGQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGNLEH 2dgj-a3-m1-cB_2dgj-a3-m3-cB Crystal structure of EbhA (756-1003 domain) from Staphylococcus aureus Q931R6 Q931R6 2.35 X-RAY DIFFRACTION 13 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 241 241 GQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQTDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGN GQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQTDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGN 2dgj-a3-m1-cB_2dgj-a3-m4-cA Crystal structure of EbhA (756-1003 domain) from Staphylococcus aureus Q931R6 Q931R6 2.35 X-RAY DIFFRACTION 63 0.996 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 241 244 2dgj-a3-m3-cB_2dgj-a3-m2-cA GQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQTDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGN AGQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGNLEH 2dgj-a3-m2-cA_2dgj-a3-m4-cA Crystal structure of EbhA (756-1003 domain) from Staphylococcus aureus Q931R6 Q931R6 2.35 X-RAY DIFFRACTION 14 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 244 244 AGQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGNLEH AGQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGNLEH 2dgj-a3-m3-cB_2dgj-a3-m4-cA Crystal structure of EbhA (756-1003 domain) from Staphylococcus aureus Q931R6 Q931R6 2.35 X-RAY DIFFRACTION 33 0.996 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 241 244 2dgj-a2-m1-cB_2dgj-a2-m2-cA 2dgj-a3-m1-cB_2dgj-a3-m2-cA GQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQTDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGN AGQLQHGIDDENATKQTQKYRDAEQSKKTAYDQAVAAAKAILNKQDKAAVDRALQQVTSTKDALNGDAKLAEAKAAARQNLGTLNHITNAQRTALEGQINQATTVDGVNTVKTNANTLDGANSLQGAINDKDATLRNQNYLDADESKRNAYTQAVTAAEGILNKQTGGNTSKADVDNALNAVTRAKAALNGAENLRNAKTSATNTINGLPNLTQLQKDNLKHQVEQAQNVVGVNGVKDKGNLEH 2dgm-a1-m1-cD_2dgm-a1-m1-cF Crystal structure of Escherichia coli GadB in complex with iodide P69910 P69910 1.95 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 454 454 1pmm-a1-m1-cB_1pmm-a1-m1-cD 1pmm-a1-m1-cB_1pmm-a1-m1-cF 1pmm-a1-m1-cC_1pmm-a1-m1-cA 1pmm-a1-m1-cC_1pmm-a1-m1-cE 1pmm-a1-m1-cD_1pmm-a1-m1-cF 1pmm-a1-m1-cE_1pmm-a1-m1-cA 1xey-a1-m1-cA_1xey-a1-m2-cA 1xey-a1-m1-cA_1xey-a1-m3-cA 1xey-a1-m1-cB_1xey-a1-m2-cB 1xey-a1-m1-cB_1xey-a1-m3-cB 1xey-a1-m2-cA_1xey-a1-m3-cA 1xey-a1-m2-cB_1xey-a1-m3-cB 2dgl-a1-m1-cA_2dgl-a1-m1-cC 2dgl-a1-m1-cA_2dgl-a1-m1-cE 2dgl-a1-m1-cB_2dgl-a1-m1-cD 2dgl-a1-m1-cB_2dgl-a1-m1-cF 2dgl-a1-m1-cC_2dgl-a1-m1-cE 2dgl-a1-m1-cD_2dgl-a1-m1-cF 2dgm-a1-m1-cA_2dgm-a1-m1-cC 2dgm-a1-m1-cB_2dgm-a1-m1-cD 2dgm-a1-m1-cB_2dgm-a1-m1-cF 2dgm-a1-m1-cE_2dgm-a1-m1-cA 2dgm-a1-m1-cE_2dgm-a1-m1-cC 7jzh-a1-m1-cA_7jzh-a1-m1-cC 7jzh-a1-m1-cA_7jzh-a1-m1-cF 7jzh-a1-m1-cB_7jzh-a1-m1-cD 7jzh-a1-m1-cB_7jzh-a1-m1-cE 7jzh-a1-m1-cC_7jzh-a1-m1-cF 7jzh-a1-m1-cD_7jzh-a1-m1-cE KKQVTDLRSELLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQG KKQVTDLRSELLDSRFGAKSISTIAESKRFPLHEMRDDVAFQIINDELYLDGNARQNLATFCQTWDDENVHKLMDLSINKNWIDKEEYPQSAAIDLRCVNMVADLWHAPAPKNGQAVGTNTIGSSEACMLGGMAMKWRWRKRMEAAGKPTDKPNLVCGPVQICWHKFARYWDVELREIPMRPGQLFMDPKRMIEACDENTIGVVPTFGVTYTGNYEFPQPLHDALDKFQADTGIDIDMHIDAASGGFLAPFVAPDIVWDFRLPRVKSISASGHKFGLAPLGCGWVIWRDEEALPQELVFNVDYLGGQIGTFAINFSRPAGQVIAQYYEFLRLGREGYTKVQNASYQVAAYLADEIAKLGPYEFICTGRPDEGIPAVCFKLKDGEDPGYTLYDLSERLRLRGWQVPAFTLGGEATDIVVMRIMCRRGFEMDFAELLLEDYKASLKYLSDHPKLQG 2dh4-a1-m1-cA_2dh4-a1-m1-cB Geranylgeranyl pyrophosphate synthase Q12051 Q12051 1.98 X-RAY DIFFRACTION 192 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 326 326 2e8t-a1-m1-cB_2e8t-a1-m1-cA 2e8v-a1-m1-cB_2e8v-a1-m1-cA 2e8w-a1-m1-cB_2e8w-a1-m1-cA 2e8x-a1-m1-cA_2e8x-a1-m1-cB 2e90-a1-m1-cA_2e90-a1-m1-cB 2e91-a1-m1-cB_2e91-a1-m1-cA 2e92-a1-m1-cB_2e92-a1-m1-cA 2e93-a1-m1-cA_2e93-a1-m1-cB 2e94-a1-m1-cA_2e94-a1-m1-cB 2e95-a1-m1-cB_2e95-a1-m1-cA 2z4v-a1-m1-cB_2z4v-a1-m1-cA 2z4w-a1-m1-cA_2z4w-a1-m1-cB 2z4y-a1-m1-cB_2z4y-a1-m1-cA 2z4z-a1-m1-cB_2z4z-a1-m1-cA 2z50-a1-m1-cB_2z50-a1-m1-cA 2z52-a1-m1-cA_2z52-a1-m1-cB 2z78-a1-m1-cB_2z78-a1-m1-cA 2z7h-a1-m1-cB_2z7h-a1-m1-cA 2z7i-a1-m1-cA_2z7i-a1-m1-cB 2zeu-a1-m1-cA_2zeu-a1-m1-cB 2zev-a1-m1-cA_2zev-a1-m1-cB TKNKMEAKIDELINNDPVWSSQNESLISKPYNHILLKPGKNFRLNLIVQINRVMNLPKDQLAIVSQIVELLHNSSLLIDDIEDNAPLRRGQTTSHLIFGVPSTINTANYMYFRAMQLVSQLTTKEPLYHNLITIFNEELINLHRGQGLDIYWRDFLPEIIPTQEMYLNMVMNKTGGLFRLTLRLMEALSPSSHHGHSLVPFINLLGIIYQIRDDYLNLKDFQMSSEKGFAEDITEGKLSFPIVHALNFTKTKGQTEQHNEILRILLLRTSDKDIKLKLIQILEFDTNSLAYTKNFINQLVNMIKNDNENKYLPDELLYIIDHLSEL TKNKMEAKIDELINNDPVWSSQNESLISKPYNHILLKPGKNFRLNLIVQINRVMNLPKDQLAIVSQIVELLHNSSLLIDDIEDNAPLRRGQTTSHLIFGVPSTINTANYMYFRAMQLVSQLTTKEPLYHNLITIFNEELINLHRGQGLDIYWRDFLPEIIPTQEMYLNMVMNKTGGLFRLTLRLMEALSPSSHHGHSLVPFINLLGIIYQIRDDYLNLKDFQMSSEKGFAEDITEGKLSFPIVHALNFTKTKGQTEQHNEILRILLLRTSDKDIKLKLIQILEFDTNSLAYTKNFINQLVNMIKNDNENKYLPDELLYIIDHLSEL 2dh6-a1-m1-cA_2dh6-a1-m2-cA Crystal structure of E. coli Apo-TrpB P0A879 P0A879 3 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 331 331 VPQILMPALRQLEEAFVSAQKDPEFQAQFNDLLKNYAGRPTALTKCQNITAGTNTTLYLKREDLLHGGAHKTNQVLGQALLAKRMGKTEIIAETGAGQHGVASALASALLGLKCRIYMGAKDVERQSPNVFRMRLMGAEVIPVHSGSATLKDACNEALRDWSGSYETAHYMLGTAAGPHPYPTIVREFQRMIGEETKAQILEREGRLPDAVIACVGGGSNAIGMFADFINETNVGLIGVEPGVGPQHAYLNSTGRADYVSITDDEALEAFKTLCLHEGIIPALESSHALAHALKMMRENPDKEQLLVVNLSGRGDKDIFTVHDILKARGEI VPQILMPALRQLEEAFVSAQKDPEFQAQFNDLLKNYAGRPTALTKCQNITAGTNTTLYLKREDLLHGGAHKTNQVLGQALLAKRMGKTEIIAETGAGQHGVASALASALLGLKCRIYMGAKDVERQSPNVFRMRLMGAEVIPVHSGSATLKDACNEALRDWSGSYETAHYMLGTAAGPHPYPTIVREFQRMIGEETKAQILEREGRLPDAVIACVGGGSNAIGMFADFINETNVGLIGVEPGVGPQHAYLNSTGRADYVSITDDEALEAFKTLCLHEGIIPALESSHALAHALKMMRENPDKEQLLVVNLSGRGDKDIFTVHDILKARGEI 2dhf-a1-m1-cA_2dhf-a1-m1-cB CRYSTAL STRUCTURES OF RECOMBINANT HUMAN DIHYDROFOLATE REDUCTASE COMPLEXED WITH FOLATE AND 5-DEAZOFOLATE P00374 P00374 2.3 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 182 1dhf-a1-m1-cA_1dhf-a1-m1-cB LNCIVAVSQNMGIGKNGDLPWPPLRNEFRYFQRMTTTSSVEGKQNLVIMGKKTWFSIPEKNRPLKGRINLVLSRELKEPPQGAHFLSRSLDDALKLTEQPELANKVDMVWIVGGSSVYKEAMNHPGHLKLFVTRIMQDFESDTFFPEIDLEKYKLLPEYPGVLSDVQEEKGIKYKFEVYEKN LNCIVAVSQNMGIGKNGDLPWPPLRNEFRYFQRMTTTSSVEGKQNLVIMGKKTWFSIPEKNRPLKGRINLVLSRELKEPPQGAHFLSRSLDDALKLTEQPELANKVDMVWIVGGSSVYKEAMNHPGHLKLFVTRIMQDFESDTFFPEIDLEKYKLLPEYPGVLSDVQEEKGIKYKFEVYEKN 2di3-a1-m1-cB_2di3-a1-m1-cA Crystal structure of the transcriptional factor CGL2915 from Corynebacterium glutamicum Q8NLM6 Q8NLM6 2.05 X-RAY DIFFRACTION 149 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 230 231 SVKAHESVMDWVTEELRSGRLKIGDHLPSERALSETLGVSRSSLREALRVLEALGTISTATGSGPRSGTIITAAPGQALSLSVTLQLVTNQVGHHDIYETRQLLEGWAALHSSAERGDWDVAEALLEKMDDPSLPLEDFLRFDAEFHVVISKGAENPLISTLMEALRLSVADHTVARARALPDWRATSARLQKEHRAILAALRAGESTVAATLIKEHIEGYYEETAAAEA SVKAHESVMDWVTEELRSGRLKIGDHLPSERALSETLGVSRSSLREALRVLEALGTISTATGSGPRSGTIITAAPGQALSLSVTLQLVTNQVGHHDIYETRQLLEGWAALHSSAERGDWDVAEALLEKMDDPSLPLEDFLRFDAEFHVVISKGAENPLISTLMEALRLSVADHTVARARALPDWRATSARLQKEHRAILAALRAGESTVAATLIKEHIEGYYEETAAAEAL 2dj5-a2-m1-cB_2dj5-a2-m2-cB Crystal Structure of the vitamin B12 biosynthetic cobaltochelatase, CbiXS, from Archaeoglobus fulgidus O29537 O29537 2.55 X-RAY DIFFRACTION 10 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 125 125 1tjn-a2-m1-cA_1tjn-a2-m3-cA 1tjn-a2-m2-cA_1tjn-a2-m4-cA 2dj5-a2-m1-cA_2dj5-a2-m2-cA MRRGLVIVGHGSQLNHYREVMELHRKRIEESGAFDEVKIAFAARKRRPMPDEAIREMNCDIIYVVPLFISYGLHVTEDLPDLLGFPRGRGIKEGEFEGKKVVICEPIGEDYFVTYAILNSVFRIG MRRGLVIVGHGSQLNHYREVMELHRKRIEESGAFDEVKIAFAARKRRPMPDEAIREMNCDIIYVVPLFISYGLHVTEDLPDLLGFPRGRGIKEGEFEGKKVVICEPIGEDYFVTYAILNSVFRIG 2dj5-a2-m2-cB_2dj5-a2-m2-cA Crystal Structure of the vitamin B12 biosynthetic cobaltochelatase, CbiXS, from Archaeoglobus fulgidus O29537 O29537 2.55 X-RAY DIFFRACTION 108 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 125 126 1tjn-a2-m1-cA_1tjn-a2-m4-cA 1tjn-a2-m2-cA_1tjn-a2-m3-cA 2dj5-a1-m1-cB_2dj5-a1-m1-cA 2dj5-a2-m1-cB_2dj5-a2-m1-cA 2xwq-a1-m1-cB_2xwq-a1-m1-cA 2xwq-a2-m1-cD_2xwq-a2-m1-cC 2xws-a1-m1-cA_2xws-a1-m2-cA MRRGLVIVGHGSQLNHYREVMELHRKRIEESGAFDEVKIAFAARKRRPMPDEAIREMNCDIIYVVPLFISYGLHVTEDLPDLLGFPRGRGIKEGEFEGKKVVICEPIGEDYFVTYAILNSVFRIG GMRRGLVIVGHGSQLNHYREVMELHRKRIEESGAFDEVKIAFAARKRRPMPDEAIREMNCDIIYVVPLFISYGLHVTEDLPDLLGFPRGRGIKEGEFEGKKVVICEPIGEDYFVTYAILNSVFRIG 2dj6-a1-m1-cA_2dj6-a1-m1-cC Crystal structure of 6-pyruvoyl tetrahydrobiopterin synthase from Pyrococcus horikoshii OT3 O58368 O58368 2.1 X-RAY DIFFRACTION 52 0.99 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 105 105 2dj6-a1-m1-cA_2dj6-a1-m1-cB 2dj6-a1-m1-cC_2dj6-a1-m1-cB 2dtt-a1-m1-cA_2dtt-a1-m1-cB 2dtt-a1-m1-cA_2dtt-a1-m1-cC 2dtt-a1-m1-cC_2dtt-a1-m1-cB 2dtt-a2-m1-cD_2dtt-a2-m1-cE 2dtt-a2-m1-cD_2dtt-a2-m1-cF 2dtt-a2-m1-cF_2dtt-a2-m1-cE MKSRIIVRTSFDAAHAHGHTFFLEVAIEGEIKNGYVMDFLELRKIVEEITKELDHRNLNNIFENPTTENIALWIGERIRDKLPPYVKLKRVVLWEGKDNGVELEW MKSRIIVRTSFDAAHVHGHTFFLEVAIEGEIKNGYVMDFLELRKIVEEITKELDHRNLNNIFENPTTENIALWIGERIRDKLPPYVKLKRVVLWEGKDNGVELEW 2dji-a1-m1-cA_2dji-a1-m4-cA Crystal Structure of Pyruvate Oxidase from Aerococcus viridans containing FAD A9X9K8 A9X9K8 1.6 X-RAY DIFFRACTION 42 1.0 1377 (Aerococcus viridans) 1377 (Aerococcus viridans) 590 590 1v5e-a1-m1-cA_1v5e-a1-m4-cA 1v5e-a1-m2-cA_1v5e-a1-m3-cA 1v5f-a1-m1-cA_1v5f-a1-m4-cA 1v5f-a1-m2-cA_1v5f-a1-m3-cA 1v5g-a1-m1-cA_1v5g-a1-m4-cA 1v5g-a1-m2-cA_1v5g-a1-m3-cA 2dji-a1-m2-cA_2dji-a1-m3-cA DNKINIGLAVMKILESWGADTIYGIPSGTLSSLMDAMGEEENNVKFLQVKHEEVGAMAAVMQSKFGGNLGVTVGSGGPGASHLINGLYDAAMDNIPVVAILGSRPQRELNMDAFQELNQNPMYDHIAVYNRRVAYAEQLPKLVDEAARMAIAKRGVAVLEVPGDFAKVEIDNDQWYSSANSLRKYAPIAPAAQDIDAAVELLNNSKRPVIYAGIGTMGHGPAVQELARKIKAPVITTGKNFETFEWDFEALTGSTYRVGWKPANETILEADTVLFAGSNFPFSEVEGTFRNVDNFIQIDIDPAMLGKRHHADVAILGDAALAIDEILNKVDAVEESAWWTANLKNIANWREYINMLETKEEGDLQFYQVYNAINNHADEDAIYSIDVGNSTQTSIRHLHMTPKNMWRTSPLFATMGIAIPGGLGAKNTYPDRQVWNIIGDGAFSMTYPDVVTNVRYNMPVINVVFSNTEYAFIKNKYEDTNKNLFGVDFTDVDYAKIAEAQGAKGFTVSRIEDMDRVMAEAVAANKAGHTVVIDCKITQDRPIPVETLKLDSKLYSEDEIKAYKERYEAANLVPFREYLEAEGLESKYIK DNKINIGLAVMKILESWGADTIYGIPSGTLSSLMDAMGEEENNVKFLQVKHEEVGAMAAVMQSKFGGNLGVTVGSGGPGASHLINGLYDAAMDNIPVVAILGSRPQRELNMDAFQELNQNPMYDHIAVYNRRVAYAEQLPKLVDEAARMAIAKRGVAVLEVPGDFAKVEIDNDQWYSSANSLRKYAPIAPAAQDIDAAVELLNNSKRPVIYAGIGTMGHGPAVQELARKIKAPVITTGKNFETFEWDFEALTGSTYRVGWKPANETILEADTVLFAGSNFPFSEVEGTFRNVDNFIQIDIDPAMLGKRHHADVAILGDAALAIDEILNKVDAVEESAWWTANLKNIANWREYINMLETKEEGDLQFYQVYNAINNHADEDAIYSIDVGNSTQTSIRHLHMTPKNMWRTSPLFATMGIAIPGGLGAKNTYPDRQVWNIIGDGAFSMTYPDVVTNVRYNMPVINVVFSNTEYAFIKNKYEDTNKNLFGVDFTDVDYAKIAEAQGAKGFTVSRIEDMDRVMAEAVAANKAGHTVVIDCKITQDRPIPVETLKLDSKLYSEDEIKAYKERYEAANLVPFREYLEAEGLESKYIK 2dji-a1-m2-cA_2dji-a1-m4-cA Crystal Structure of Pyruvate Oxidase from Aerococcus viridans containing FAD A9X9K8 A9X9K8 1.6 X-RAY DIFFRACTION 86 1.0 1377 (Aerococcus viridans) 1377 (Aerococcus viridans) 590 590 1v5e-a1-m1-cA_1v5e-a1-m3-cA 1v5e-a1-m2-cA_1v5e-a1-m4-cA 1v5f-a1-m1-cA_1v5f-a1-m3-cA 1v5f-a1-m2-cA_1v5f-a1-m4-cA 1v5g-a1-m1-cA_1v5g-a1-m3-cA 1v5g-a1-m2-cA_1v5g-a1-m4-cA 2dji-a1-m1-cA_2dji-a1-m3-cA DNKINIGLAVMKILESWGADTIYGIPSGTLSSLMDAMGEEENNVKFLQVKHEEVGAMAAVMQSKFGGNLGVTVGSGGPGASHLINGLYDAAMDNIPVVAILGSRPQRELNMDAFQELNQNPMYDHIAVYNRRVAYAEQLPKLVDEAARMAIAKRGVAVLEVPGDFAKVEIDNDQWYSSANSLRKYAPIAPAAQDIDAAVELLNNSKRPVIYAGIGTMGHGPAVQELARKIKAPVITTGKNFETFEWDFEALTGSTYRVGWKPANETILEADTVLFAGSNFPFSEVEGTFRNVDNFIQIDIDPAMLGKRHHADVAILGDAALAIDEILNKVDAVEESAWWTANLKNIANWREYINMLETKEEGDLQFYQVYNAINNHADEDAIYSIDVGNSTQTSIRHLHMTPKNMWRTSPLFATMGIAIPGGLGAKNTYPDRQVWNIIGDGAFSMTYPDVVTNVRYNMPVINVVFSNTEYAFIKNKYEDTNKNLFGVDFTDVDYAKIAEAQGAKGFTVSRIEDMDRVMAEAVAANKAGHTVVIDCKITQDRPIPVETLKLDSKLYSEDEIKAYKERYEAANLVPFREYLEAEGLESKYIK DNKINIGLAVMKILESWGADTIYGIPSGTLSSLMDAMGEEENNVKFLQVKHEEVGAMAAVMQSKFGGNLGVTVGSGGPGASHLINGLYDAAMDNIPVVAILGSRPQRELNMDAFQELNQNPMYDHIAVYNRRVAYAEQLPKLVDEAARMAIAKRGVAVLEVPGDFAKVEIDNDQWYSSANSLRKYAPIAPAAQDIDAAVELLNNSKRPVIYAGIGTMGHGPAVQELARKIKAPVITTGKNFETFEWDFEALTGSTYRVGWKPANETILEADTVLFAGSNFPFSEVEGTFRNVDNFIQIDIDPAMLGKRHHADVAILGDAALAIDEILNKVDAVEESAWWTANLKNIANWREYINMLETKEEGDLQFYQVYNAINNHADEDAIYSIDVGNSTQTSIRHLHMTPKNMWRTSPLFATMGIAIPGGLGAKNTYPDRQVWNIIGDGAFSMTYPDVVTNVRYNMPVINVVFSNTEYAFIKNKYEDTNKNLFGVDFTDVDYAKIAEAQGAKGFTVSRIEDMDRVMAEAVAANKAGHTVVIDCKITQDRPIPVETLKLDSKLYSEDEIKAYKERYEAANLVPFREYLEAEGLESKYIK 2dji-a1-m3-cA_2dji-a1-m4-cA Crystal Structure of Pyruvate Oxidase from Aerococcus viridans containing FAD A9X9K8 A9X9K8 1.6 X-RAY DIFFRACTION 215 1.0 1377 (Aerococcus viridans) 1377 (Aerococcus viridans) 590 590 1v5e-a1-m1-cA_1v5e-a1-m2-cA 1v5e-a1-m3-cA_1v5e-a1-m4-cA 1v5f-a1-m1-cA_1v5f-a1-m2-cA 1v5f-a1-m3-cA_1v5f-a1-m4-cA 1v5g-a1-m1-cA_1v5g-a1-m2-cA 1v5g-a1-m3-cA_1v5g-a1-m4-cA 2dji-a1-m1-cA_2dji-a1-m2-cA DNKINIGLAVMKILESWGADTIYGIPSGTLSSLMDAMGEEENNVKFLQVKHEEVGAMAAVMQSKFGGNLGVTVGSGGPGASHLINGLYDAAMDNIPVVAILGSRPQRELNMDAFQELNQNPMYDHIAVYNRRVAYAEQLPKLVDEAARMAIAKRGVAVLEVPGDFAKVEIDNDQWYSSANSLRKYAPIAPAAQDIDAAVELLNNSKRPVIYAGIGTMGHGPAVQELARKIKAPVITTGKNFETFEWDFEALTGSTYRVGWKPANETILEADTVLFAGSNFPFSEVEGTFRNVDNFIQIDIDPAMLGKRHHADVAILGDAALAIDEILNKVDAVEESAWWTANLKNIANWREYINMLETKEEGDLQFYQVYNAINNHADEDAIYSIDVGNSTQTSIRHLHMTPKNMWRTSPLFATMGIAIPGGLGAKNTYPDRQVWNIIGDGAFSMTYPDVVTNVRYNMPVINVVFSNTEYAFIKNKYEDTNKNLFGVDFTDVDYAKIAEAQGAKGFTVSRIEDMDRVMAEAVAANKAGHTVVIDCKITQDRPIPVETLKLDSKLYSEDEIKAYKERYEAANLVPFREYLEAEGLESKYIK DNKINIGLAVMKILESWGADTIYGIPSGTLSSLMDAMGEEENNVKFLQVKHEEVGAMAAVMQSKFGGNLGVTVGSGGPGASHLINGLYDAAMDNIPVVAILGSRPQRELNMDAFQELNQNPMYDHIAVYNRRVAYAEQLPKLVDEAARMAIAKRGVAVLEVPGDFAKVEIDNDQWYSSANSLRKYAPIAPAAQDIDAAVELLNNSKRPVIYAGIGTMGHGPAVQELARKIKAPVITTGKNFETFEWDFEALTGSTYRVGWKPANETILEADTVLFAGSNFPFSEVEGTFRNVDNFIQIDIDPAMLGKRHHADVAILGDAALAIDEILNKVDAVEESAWWTANLKNIANWREYINMLETKEEGDLQFYQVYNAINNHADEDAIYSIDVGNSTQTSIRHLHMTPKNMWRTSPLFATMGIAIPGGLGAKNTYPDRQVWNIIGDGAFSMTYPDVVTNVRYNMPVINVVFSNTEYAFIKNKYEDTNKNLFGVDFTDVDYAKIAEAQGAKGFTVSRIEDMDRVMAEAVAANKAGHTVVIDCKITQDRPIPVETLKLDSKLYSEDEIKAYKERYEAANLVPFREYLEAEGLESKYIK 2djw-a1-m1-cD_2djw-a1-m1-cJ Crystal structure of TTHA0845 from Thermus thermophilus HB8 Q5SK07 Q5SK07 2.4 X-RAY DIFFRACTION 26 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 80 80 2djw-a1-m1-cA_2djw-a1-m1-cG 2djw-a1-m1-cC_2djw-a1-m1-cI 2djw-a1-m1-cE_2djw-a1-m1-cF 2djw-a1-m1-cH_2djw-a1-m1-cB MITAFVLIRPRGNRVQALGEAIAELPQVAEVYSVTGPYDLVALVRLKDVEELDDVVTQGILSLEGVERTETLLAFRAYPR MITAFVLIRPRGNRVQALGEAIAELPQVAEVYSVTGPYDLVALVRLKDVEELDDVVTQGILSLEGVERTETLLAFRAYPR 2djw-a1-m1-cF_2djw-a1-m1-cG Crystal structure of TTHA0845 from Thermus thermophilus HB8 Q5SK07 Q5SK07 2.4 X-RAY DIFFRACTION 22 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 80 80 2djw-a1-m1-cA_2djw-a1-m1-cB 2djw-a1-m1-cA_2djw-a1-m1-cE 2djw-a1-m1-cB_2djw-a1-m1-cC 2djw-a1-m1-cC_2djw-a1-m1-cD 2djw-a1-m1-cD_2djw-a1-m1-cE 2djw-a1-m1-cF_2djw-a1-m1-cJ 2djw-a1-m1-cH_2djw-a1-m1-cG 2djw-a1-m1-cH_2djw-a1-m1-cI 2djw-a1-m1-cI_2djw-a1-m1-cJ MITAFVLIRPRGNRVQALGEAIAELPQVAEVYSVTGPYDLVALVRLKDVEELDDVVTQGILSLEGVERTETLLAFRAYPR MITAFVLIRPRGNRVQALGEAIAELPQVAEVYSVTGPYDLVALVRLKDVEELDDVVTQGILSLEGVERTETLLAFRAYPR 2djw-a1-m1-cH_2djw-a1-m1-cC Crystal structure of TTHA0845 from Thermus thermophilus HB8 Q5SK07 Q5SK07 2.4 X-RAY DIFFRACTION 74 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 79 80 2djw-a1-m1-cA_2djw-a1-m1-cF 2djw-a1-m1-cB_2djw-a1-m1-cG 2djw-a1-m1-cD_2djw-a1-m1-cI 2djw-a1-m1-cE_2djw-a1-m1-cJ MITAFVLIRPRGNRVQALGEAIAELPQVAEVYSVTGPYDLVALVRLKDVEELDDVVTQGILSLEGVERTETLLAFRAYP MITAFVLIRPRGNRVQALGEAIAELPQVAEVYSVTGPYDLVALVRLKDVEELDDVVTQGILSLEGVERTETLLAFRAYPR 2dkf-a5-m1-cA_2dkf-a5-m1-cC Crystal Structure of TTHA0252 from Thermus thermophilus HB8, a RNA Degradation Protein of the Metallo-beta-lactamase Superfamily Q5SLP1 Q5SLP1 2.8 X-RAY DIFFRACTION 79 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 424 424 RIVPFGAAREVTGSAHLLLAGGRRVLLDCGFQGKEEARNHAPFGFDPKEVDAVLLTHAHLDHVGRLPKLFREGYRGPVYATRATVLLEIVLEDALKVDEPFFGPEDVEEALGHLRPLEYGEWLRLGALSLAFGQAGHLPGSAFVVAQGEGRTLVYSGDLGNREKDVLPDPSLPPLADLVLAEGTYGDRPHRPYRETVREFLEILEKTLSQGGKVLIPTFAVERAQEILYVLYTHGHRLPRAPIYLDSPAGRVLSLYPRLVRYFSEEVQAHFLQGKNPFRPAGLEVVEHTEASKALNRAPGPVVLAGSGLAGGRILHHLKHGLSDPRNALVFVGYQPQGGLGAEIIARPPAVRILGEEVPLRASVHTLGGFSGHAGQDELLDWLQGEPRVVLVHGEEEKLLALGKLLALRGQEVSLARFGEGVPV RIVPFGAAREVTGSAHLLLAGGRRVLLDCGFQGKEEARNHAPFGFDPKEVDAVLLTHAHLDHVGRLPKLFREGYRGPVYATRATVLLEIVLEDALKVDEPFFGPEDVEEALGHLRPLEYGEWLRLGALSLAFGQAGHLPGSAFVVAQGEGRTLVYSGDLGNREKDVLPDPSLPPLADLVLAEGTYGDRPHRPYRETVREFLEILEKTLSQGGKVLIPTFAVERAQEILYVLYTHGHRLPRAPIYLDSPAGRVLSLYPRLVRYFSEEVQAHFLQGKNPFRPAGLEVVEHTEASKALNRAPGPVVLAGSGLAGGRILHHLKHGLSDPRNALVFVGYQPQGGLGAEIIARPPAVRILGEEVPLRASVHTLGGFSGHAGQDELLDWLQGEPRVVLVHGEEEKLLALGKLLALRGQEVSLARFGEGVPV 2dkg-a1-m1-cA_2dkg-a1-m1-cB Crystal Structure Of Biotin Protein Ligase From Pyrococcus Horikoshii OT3 in Complex with Biotinyl-5'-AMP, Pyrophosphate and Mg(2+) O57883 O57883 2 X-RAY DIFFRACTION 69 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 235 235 1wnl-a1-m1-cA_1wnl-a1-m1-cB 1wpy-a1-m1-cA_1wpy-a1-m1-cB 1wq7-a1-m1-cB_1wq7-a1-m1-cA 1wqw-a1-m1-cA_1wqw-a1-m1-cB 1x01-a1-m1-cA_1x01-a1-m1-cB 2deq-a1-m1-cB_2deq-a1-m1-cA 2djz-a1-m1-cB_2djz-a1-m1-cA 2dth-a1-m1-cA_2dth-a1-m1-cB 2dti-a1-m1-cA_2dti-a1-m1-cB 2dto-a1-m1-cA_2dto-a1-m1-cB 2dve-a1-m1-cA_2dve-a1-m1-cB 2dxt-a1-m1-cA_2dxt-a1-m1-cB 2dxu-a1-m1-cB_2dxu-a1-m1-cA 2dz9-a1-m1-cA_2dz9-a1-m1-cB 2dzc-a1-m1-cA_2dzc-a1-m1-cB 2e1h-a1-m1-cA_2e1h-a1-m1-cB 2e41-a1-m1-cB_2e41-a1-m1-cA 2e64-a1-m1-cA_2e64-a1-m1-cB 2e65-a1-m1-cB_2e65-a1-m1-cA 2fyk-a1-m1-cA_2fyk-a1-m1-cB 2hni-a1-m1-cA_2hni-a1-m1-cB 2zgw-a1-m1-cB_2zgw-a1-m1-cA MLGLKTSIIGRRVIYFQEITSTNEFAKTSYLEEGTVIVADKQTMGHGRLNRKWESPEGGLWLSIVLSPKVPQKDLPKIVFLGAVGVVETLKEFSIDGRIKWPNDVLVNYKKIAGVLVEGKGDKIVLGIGLNVNNKVPNGATSMKLELGSEVPLLSVFRSLITNLDRLYLNFLKNPMDILNLVRDNMILGVRVKILGDGSFEGIAEDIDDFGRLIIRLDSGEVKKVIYGDVSLRFL MLGLKTSIIGRRVIYFQEITSTNEFAKTSYLEEGTVIVADKQTMGHGRLNRKWESPEGGLWLSIVLSPKVPQKDLPKIVFLGAVGVVETLKEFSIDGRIKWPNDVLVNYKKIAGVLVEGKGDKIVLGIGLNVNNKVPNGATSMKLELGSEVPLLSVFRSLITNLDRLYLNFLKNPMDILNLVRDNMILGVRVKILGDGSFEGIAEDIDDFGRLIIRLDSGEVKKVIYGDVSLRFL 2dkh-a1-m1-cA_2dkh-a1-m2-cA Crystal structure of 3-hydroxybenzoate hydroxylase from Comamonas testosteroni, in complex with the substrate Q6SSJ6 Q6SSJ6 1.8 X-RAY DIFFRACTION 161 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 614 614 2dki-a1-m1-cA_2dki-a1-m2-cA MQFHLNGFRPGNPLIAPASPLAPAHTEAVPSQVDVLIVGCGPAGLTLAAQLAAFPDIRTCIVEQKEGPMELGQADGIACRTMEMFEAFEFADSILKEACWINDVTFWKPDPGQPGRIARHGRVQDTEDGLSEFPHVILNQARVHDHYLERMRNSPSRLEPHYARRVLDVKVDHGAADYPVTVTLERCDAAHAGQIETVQARYVVGCDGARSNVRRAIGRQLVGDSANQAWGVMDVLAVTDFPDVRYKVAIQSEQGNVLIIPREGGHLVRFYVEMDNITVEQLIATAQRVLHPYKLEVKNVPWWSVYEIGQRICAKYDDVVDAVATPDSPLPRVFIAGDACHTHSPKAGQGMNFSMQDSFNLGWKLAAVLRKQCAPELLHTYSSERQVVAQQLIDFDREWAKDPKEFQKYFEQHGRFTAGVGTHYAPSLLTGQAKHQALASGFTVGMRFHSAPVVRVCDAKPVQLGHCGKADGRWRLYAFAAQNDLAQPESGLLALCRFLEGDAASPLRRFTPAGQDIDSIFDLRAVFPQAYTEVALETLPALLLPPKGQLGMIDYEKVFSPDLKNAGQDIFELRGIDRQQGALVVVRPDQYVAQVLPLGDHAALSAYFESFMRA MQFHLNGFRPGNPLIAPASPLAPAHTEAVPSQVDVLIVGCGPAGLTLAAQLAAFPDIRTCIVEQKEGPMELGQADGIACRTMEMFEAFEFADSILKEACWINDVTFWKPDPGQPGRIARHGRVQDTEDGLSEFPHVILNQARVHDHYLERMRNSPSRLEPHYARRVLDVKVDHGAADYPVTVTLERCDAAHAGQIETVQARYVVGCDGARSNVRRAIGRQLVGDSANQAWGVMDVLAVTDFPDVRYKVAIQSEQGNVLIIPREGGHLVRFYVEMDNITVEQLIATAQRVLHPYKLEVKNVPWWSVYEIGQRICAKYDDVVDAVATPDSPLPRVFIAGDACHTHSPKAGQGMNFSMQDSFNLGWKLAAVLRKQCAPELLHTYSSERQVVAQQLIDFDREWAKDPKEFQKYFEQHGRFTAGVGTHYAPSLLTGQAKHQALASGFTVGMRFHSAPVVRVCDAKPVQLGHCGKADGRWRLYAFAAQNDLAQPESGLLALCRFLEGDAASPLRRFTPAGQDIDSIFDLRAVFPQAYTEVALETLPALLLPPKGQLGMIDYEKVFSPDLKNAGQDIFELRGIDRQQGALVVVRPDQYVAQVLPLGDHAALSAYFESFMRA 2dkj-a1-m1-cA_2dkj-a1-m1-cB Crystal Structure of T.th.HB8 Serine Hydroxymethyltransferase Q5SI56 Q5SI56 1.15 X-RAY DIFFRACTION 242 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 402 402 KRDEALFELIALEEKRQREGLELIASENFVSKQVREAVGSVLTNKYAEGYPGARYYGGCEVIDRVESLAIERAKALFGAAWANVQPHSGSQANMAVYMALMEPGDTLMGMDLAAGGHLTHGSRVNFSGKLYKVVSYGVRPDTELIDLEEVRRLALEHRPKVIVAGASAYPRFWDFKAFREIADEVGAYLVVDMAHFAGLVAAGLHPNPLPYAHVVTSTTHKTLRGPRGGLILSNDPELGKRIDKLIFPGIQGGPLEHVIAGKAVAFFEALQPEFKEYSRLVVENAKRLAEELARRGYRIVTGGTDNHLFLVDLRPKGLTGKEAEERLDAVGITVNKNAIPFDPKPPRVTSGIRIGTPAITTRGFTPEEMPLVAELIDRALLEGPSEALREEVRRLALAHPMP KRDEALFELIALEEKRQREGLELIASENFVSKQVREAVGSVLTNKYAEGYPGARYYGGCEVIDRVESLAIERAKALFGAAWANVQPHSGSQANMAVYMALMEPGDTLMGMDLAAGGHLTHGSRVNFSGKLYKVVSYGVRPDTELIDLEEVRRLALEHRPKVIVAGASAYPRFWDFKAFREIADEVGAYLVVDMAHFAGLVAAGLHPNPLPYAHVVTSTTHKTLRGPRGGLILSNDPELGKRIDKLIFPGIQGGPLEHVIAGKAVAFFEALQPEFKEYSRLVVENAKRLAEELARRGYRIVTGGTDNHLFLVDLRPKGLTGKEAEERLDAVGITVNKNAIPFDPKPPRVTSGIRIGTPAITTRGFTPEEMPLVAELIDRALLEGPSEALREEVRRLALAHPMP 2dkn-a1-m1-cB_2dkn-a1-m1-cA Crystal structure of the 3-alpha-hydroxysteroid dehydrogenase from Pseudomonas sp. B-0831 complexed with NADH Q59718 Q59718 1.8 X-RAY DIFFRACTION 150 1.0 402890 (Pseudomonas sp. B-0831) 402890 (Pseudomonas sp. B-0831) 226 254 SVIAITGSASGIGAALKELLARAGHTVIGIDRGQADIEADLSTPGGRETAVAAVLDRCGGVLDGLVCCAGVNSGLVVAVNYFGVSALLDGLAEALSRGQQPAAVIVGSIAATQPGAAELPMVEAMLAGDEARAIELAEQQGQTHLAYAGSKYAVTCLARRNVVDWAGRGVRLNVVAPGVAPLGRGSEPREVAEAIAFLLGPQASFIHGSVLFVDGGMDALMRAKTF SVIAITGSASGIGAALKELLARAGHTVIGIDRGQADIEADLSTPGGRETAVAAVLDRCGGVLDGLVCCAGVGVTAANSGLVVAVNYFGVSALLDGLAEALSRGQQPAAVIVGSIAATQPGAAELPMVEAMLAGDEARAIELAEQQGQTHLAYAGSKYAVTCLARRNVVDWAGRGVRLNVVAPGAVETPLLQASKADPRYGESTRRFVAPLGRGSEPREVAEAIAFLLGPQASFIHGSVLFVDGGMDALMRAKTF 2dla-a4-m1-cB_2dla-a4-m1-cA Primase large subunit amino terminal domain from Pyrococcus horikoshii O57935 O57935 2.9 X-RAY DIFFRACTION 59 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 214 222 MMIMLDPFSEKAKELLKGFGSINDFMDAIPKIVSVDDVIERIRVVKNEKLIDKFLDQDNVMDLAQFYALLGALSYSPYGIELELVKKANLIIYSERLKRKKEIKPEEISIDVSTAIEFPTEDVRKIERVYGKIPEYTMKISDFLDLVPDEKLANYYIYEGRVYLKREDLIRIWSKAFERNVERGVNMLYEIRDELPEFYRKVLGEIQAFAEEEF MMIMLDPFSEKAKELLKGFGSINDFMDAIPKIVSVDDVIERIRVVKNEKLIDKFLDQDNVMDLAQFYALLGALSYSPYGIELELVKKANLIIYSERLKRKKEIKPEEISIDVSTAIEFPTEDVRKIERVYGKIPEYTMKISDFLDLVPDEKLANYYIYEGRVYLKREDLIRIWSKAFERNVERGVNMLYEIRDELPEFYRKVLGEIQAFAEEEFGRKFGEIQ 2dla-a5-m1-cC_2dla-a5-m2-cC Primase large subunit amino terminal domain from Pyrococcus horikoshii O57935 O57935 2.9 X-RAY DIFFRACTION 52 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 200 200 MMIMLDPFSEKAKELLKGFGSINDFMDAIPKIVSVDDVIERIRVVKNEKLIDKFLDQDNVMDLAQFYALLGALSYSPYGIELELVKKANLIIYSERLKRKKEIKPEEISIDVSTAIPEYTMKISDFLDLVPDEKLANYYIYEGRVYLKREDLIRIWSKAFERNVERGVNMLYEIRDELPEFYRKVLGEIQAFAEEEFGRK MMIMLDPFSEKAKELLKGFGSINDFMDAIPKIVSVDDVIERIRVVKNEKLIDKFLDQDNVMDLAQFYALLGALSYSPYGIELELVKKANLIIYSERLKRKKEIKPEEISIDVSTAIPEYTMKISDFLDLVPDEKLANYYIYEGRVYLKREDLIRIWSKAFERNVERGVNMLYEIRDELPEFYRKVLGEIQAFAEEEFGRK 2dlb-a1-m1-cA_2dlb-a1-m1-cB X-ray Crystal Structure of Protein yopT from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR412 O34498 O34498 1.2 X-RAY DIFFRACTION 230 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 69 69 AGYLNNIALNLEIVLKNKADSPEVSETLVTRICENLLLSKEVSFLKADGSVENFKLSDEYEITNTEELP AGYLNNIALNLEIVLKNKADSPEVSETLVTRICENLLLSKEVSFLKADGSVENFKLSDEYEITNTEELP 2dlc-a1-m1-cX_2dlc-a1-m2-cX Crystal structure of the ternary complex of yeast tyrosyl-tRNA synthetase P36421 P36421 2.4 X-RAY DIFFRACTION 94 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 339 339 DPNEAFGLITKNLQEVLNPQIIKDVLEVQKRHLKLYWGTAPTGRPHCGYFVPMTKLADFLKAGCEVTVLLADLHAFLDNMKAPLEVVNYRAKYYELTIKAILRSINVPIEKLKFVVGSSYQLTPDYTMDIFRLSNIVSQNDAKRAGADVVKQVANPLLSGLIYPLMQALDEQFLDVDCQFGGVDQRKIFVLAEENLPSLGYKKRAHLMNPMVPGLANSKIDLLEEPKQVKKKINSAFCSPGNVEENGLLSFVQYVIAPIQELKFGTNHFEFFIDRPEKFGGPITYKSFEEMKLAFKEEKLSPPDLKIGVADAINELLEPIRQEFANNKEFQEASEKGYP DPNEAFGLITKNLQEVLNPQIIKDVLEVQKRHLKLYWGTAPTGRPHCGYFVPMTKLADFLKAGCEVTVLLADLHAFLDNMKAPLEVVNYRAKYYELTIKAILRSINVPIEKLKFVVGSSYQLTPDYTMDIFRLSNIVSQNDAKRAGADVVKQVANPLLSGLIYPLMQALDEQFLDVDCQFGGVDQRKIFVLAEENLPSLGYKKRAHLMNPMVPGLANSKIDLLEEPKQVKKKINSAFCSPGNVEENGLLSFVQYVIAPIQELKFGTNHFEFFIDRPEKFGGPITYKSFEEMKLAFKEEKLSPPDLKIGVADAINELLEPIRQEFANNKEFQEASEKGYP 2dld-a1-m1-cA_2dld-a1-m1-cB D-LACTATE DEHYDROGENASE COMPLEXED WITH NADH AND OXAMATE P30901 P30901 2.7 X-RAY DIFFRACTION 168 1.0 1587 (Lactobacillus helveticus) 1587 (Lactobacillus helveticus) 337 337 MTKVFAYAIRKDEEPFLNEWKEAHKDIDVDYTDKLLTPETAKLAKGADGVVVYQQLDYTADTLQALADAGVTKMSLRNVGVDNIDMDKAKELGFQITNVPVYSPNAIAEHAAIQAARVLRQDKRMDEKMAKRDLRWAPTIGREVRDQVVGVVGTGHIGQVFMRIMEGFGAKVIAYDIFKNPELEKKGYYVDSLDDLYKQADVISLHVPDVPANVHMINDKSIAEMKDGVVIVNCSRGRLVDTDAVIRGLDSGKIFGFVMDTYEDEVGVFNKDWEGKEFPDKRLADLIDRPNVLVTPHTAFYTTHAVRNMVVKAFNNNLKLINGEKPDSPVALNKNKF MTKVFAYAIRKDEEPFLNEWKEAHKDIDVDYTDKLLTPETAKLAKGADGVVVYQQLDYTADTLQALADAGVTKMSLRNVGVDNIDMDKAKELGFQITNVPVYSPNAIAEHAAIQAARVLRQDKRMDEKMAKRDLRWAPTIGREVRDQVVGVVGTGHIGQVFMRIMEGFGAKVIAYDIFKNPELEKKGYYVDSLDDLYKQADVISLHVPDVPANVHMINDKSIAEMKDGVVIVNCSRGRLVDTDAVIRGLDSGKIFGFVMDTYEDEVGVFNKDWEGKEFPDKRLADLIDRPNVLVTPHTAFYTTHAVRNMVVKAFNNNLKLINGEKPDSPVALNKNKF 2dm9-a1-m1-cA_2dm9-a1-m1-cB Crystal Structure of PH1978 from Pyrococcus horikoshii OT3 O57724 O57724 1.85 X-RAY DIFFRACTION 71 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 118 118 2dma-a1-m1-cA_2dma-a1-m2-cA EIISSVLEEVKRRLETMSEDEYFESVKALLKEAIKELNEKKVRVMSNEKTLGLIASRIEEIKSELGDVSIELGETVDTMGGVIVETEDGRIRIDNTFEARMERFEGEIRSTIAKVLFG EIISSVLEEVKRRLETMSEDEYFESVKALLKEAIKELNEKKVRVMSNEKTLGLIASRIEEIKSELGDVSIELGETVDTMGGVIVETEDGRIRIDNTFEARMERFEGEIRSTIAKVLFG 2do6-a1-m1-cA_2do6-a1-m1-cB Solution structure of RSGI RUH-065, a UBA domain from human cDNA Q13191 Q13191 NOT SOLUTION NMR 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 GSSGSSGNVDAKIAKLMGEGYAFEEVKRALEIAQNNVEVARSILREFSGPSSG GSSGSSGNVDAKIAKLMGEGYAFEEVKRALEIAQNNVEVARSILREFSGPSSG 2dob-a2-m1-cA_2dob-a2-m2-cA Crystal Structure of Human Saposin A P07602 P07602 2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 GSLPCDICKDVVTAAGDLKDNATEEEILVYLEKTCDWLPKPNSASCKEIVDSYLPVILDIIKGESRPGEVCSALNLCES GSLPCDICKDVVTAAGDLKDNATEEEILVYLEKTCDWLPKPNSASCKEIVDSYLPVILDIIKGESRPGEVCSALNLCES 2dok-a3-m2-cB_2dok-a3-m1-cA Crystal structure of the PIN domain of human EST1A Q86US8 Q86US8 1.8 X-RAY DIFFRACTION 76 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 168 170 GSPEFMELEIRPLFLVPDTNGFIDHLASLARLLESRKYILVVPLIVINELDGLAKGAGGYARVVQEKARKSIEFLEQRFESRDSCLRALTSRGNELESIAFRSEDNNDDLILSCCLHYCKDKAKDFMPPIRLLREVVLLTDDRNLRVKALTRNVPVRDIPAFLTWAQV GSPEFMELEIRPLFLVPDTNGFIDHLASLARLLESRKYILVVPLIVINELDGLAKAGGYARVVQEKARKSIEFLEQRFESRDSCLRALTSRGNELESIAFRSEDIGNNDDLILSCCLHYCKDKAKDFMPAEPIRLLREVVLLTDDRNLRVKALTRNVPVRDIPAFLTWAQ 2doo-a1-m1-cA_2doo-a1-m1-cB The structure of IMP-1 complexed with the detecting reagent (DansylC4SH) by a fluorescent probe P52699 P52699 2.43 X-RAY DIFFRACTION 16 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 216 216 LPDLKIEKLDEGVYVHTSFEEVNGWGVVPKHGLVVLVNAEAYLIDTPFTAKDTEKLVTWFVERGYKIKGSISSHFHSDSTGGIEWLNSRSIPTYASELTNELLKKDGKVQATNSFSGVNYWLVKNKIEVFYPGPGHTPDNVVVWLPERKILFGGCFIKPYGLGNLGDANIEAWPKSAKLLKSKYGKAKLVVPSHSEVGDASLLKLTLEQAVKGLNE LPDLKIEKLDEGVYVHTSFEEVNGWGVVPKHGLVVLVNAEAYLIDTPFTAKDTEKLVTWFVERGYKIKGSISSHFHSDSTGGIEWLNSRSIPTYASELTNELLKKDGKVQATNSFSGVNYWLVKNKIEVFYPGPGHTPDNVVVWLPERKILFGGCFIKPYGLGNLGDANIEAWPKSAKLLKSKYGKAKLVVPSHSEVGDASLLKLTLEQAVKGLNE 2dou-a1-m1-cB_2dou-a1-m1-cA probable N-succinyldiaminopimelate aminotransferase (TTHA0342) from Thermus thermophilus HB8 Q5SLF1 Q5SLF1 2.3 X-RAY DIFFRACTION 117 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 368 372 SVFLVVDEAKRKARERGVGLIDLSIGSTDLPPPEAPLKALAEALNDPTTYGYCLKSCTLPFLEEAARWYEGRYGVGLDPRREALALIGSQEGLAHLLLALTEPEDLLLLPEVAYPSYFGAARVASLRTFLIPLREDGLADLKAVPEGVWREAKVLLLNYPNNPTGAVADWGYFEEALGLARKHGLWLIHDNPYVDQVYEGEAPSPLALPGAKERVVELFSLSKSYNLAGFRLGFALGSEEALARLERVKGVIDFNQYAGVLRMGVEALKTPKEVVRGYARVYRERALGMAEALKGVLSLLPPRATMYLWGRLPEGVDDLEFGLRLVERGVALAPGRGFGPGGKGFVRIALVRPLEELLEAAKRIREAL VPEPSVFLVVDEAKRKARERGVGLIDLSIGSTDLPPPEAPLKALAEALNDPTTYGYCLKSCTLPFLEEAARWYEGRYGVGLDPRREALALIGSQEGLAHLLLALTEPEDLLLLPEVAYPSYFGAARVASLRTFLIPLREDGLADLKAVPEGVWREAKVLLLNYPNNPTGAVADWGYFEEALGLARKHGLWLIHDNPYVDQVYEGEAPSPLALPGAKERVVELFSLSKSYNLAGFRLGFALGSEEALARLERVKGVIDFNQYAGVLRMGVEALKTPKEVVRGYARVYRERALGMAEALKGVLSLLPPRATMYLWGRLPEGVDDLEFGLRLVERGVALAPGRGFGPGGKGFVRIALVRPLEELLEAAKRIREAL 2dp9-a1-m1-cA_2dp9-a1-m2-cA Crystal Structure of Conserved Hypothetical Protein TTHA0113 from Thermus thermophilus HB8 Q5SM30 Q5SM30 1.9 X-RAY DIFFRACTION 111 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 124 124 MDYMERPKLGLIVREPYASLIVDGRKVWEIRRRKTRHRGPLGIVSGGRLIGQADLVGVEGPFSVEELLAHQEKHLAEEAFLRAYAKDEPLYAWVLENAFRYEKPLHVPRRPGRVMFVDLSEVRW MDYMERPKLGLIVREPYASLIVDGRKVWEIRRRKTRHRGPLGIVSGGRLIGQADLVGVEGPFSVEELLAHQEKHLAEEAFLRAYAKDEPLYAWVLENAFRYEKPLHVPRRPGRVMFVDLSEVRW 2dpf-a2-m1-cC_2dpf-a2-m1-cD Crystal Structure of curculin1 homodimer P19667 P19667 1.5 X-RAY DIFFRACTION 97 1.0 4676 (Molineria latifolia) 4676 (Molineria latifolia) 111 111 2dpf-a1-m1-cA_2dpf-a1-m1-cB DNVLLSGQTLHADHSLQAGAYTLTIQNKCNLVKYQNGRQIWASNTDRRGSGCRLTLLSDGNLVIYDHNNNDVWGSACWGDNGKYALVLQKDGRFVIYGPVLWSLGPNGCRR DNVLLSGQTLHADHSLQAGAYTLTIQNKCNLVKYQNGRQIWASNTDRRGSGCRLTLLSDGNLVIYDHNNNDVWGSACWGDNGKYALVLQKDGRFVIYGPVLWSLGPNGCRR 2dph-a1-m1-cA_2dph-a1-m2-cB Crystal Structure of Formaldehyde dismutase Q52078 Q52078 2.27 X-RAY DIFFRACTION 64 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 398 398 2dph-a1-m1-cB_2dph-a1-m2-cA AGNKSVVYHGTRDLRVETVPYPKLEHNNRKLEHAVILKVVSTNICGSDQHIYRGRFIVPKGHVLGHEITGEVVEKGSDVELMDIGDLVSVPFNVACGRCRNCKEARSDVCENNLVNPDADLGAFGFDLKGWSGGQAEYVLVPYADYMLLKFGDKEQAMEKIKDLTLISDILPTGFHGCVSAGVKPGSHVYIAGAGPVGRCAAAGARLLGAACVIVGDQNPERLKLLSDAGFETIDLRNSAPLRDQIDQILGKPEVDCGVDAVGFEAHGLGDEANTETPNGALNSLFDVVRAGGAIGIPGIYVGSDPDPVNKDAGSGRLHLDFGKMWTKSIRIMTGMAPVTNYNRHLTEAILWDQMPYLSKVMNIEVITLDQAPDGYAKFDKGSPAKFVIDPHGMLKNK AGNKSVVYHGTRDLRVETVPYPKLEHNNRKLEHAVILKVVSTNICGSDQHIYRGRFIVPKGHVLGHEITGEVVEKGSDVELMDIGDLVSVPFNVACGRCRNCKEARSDVCENNLVNPDADLGAFGFDLKGWSGGQAEYVLVPYADYMLLKFGDKEQAMEKIKDLTLISDILPTGFHGCVSAGVKPGSHVYIAGAGPVGRCAAAGARLLGAACVIVGDQNPERLKLLSDAGFETIDLRNSAPLRDQIDQILGKPEVDCGVDAVGFEAHGLGDEANTETPNGALNSLFDVVRAGGAIGIPGIYVGSDPDPVNKDAGSGRLHLDFGKMWTKSIRIMTGMAPVTNYNRHLTEAILWDQMPYLSKVMNIEVITLDQAPDGYAKFDKGSPAKFVIDPHGMLKNK 2dph-a1-m1-cB_2dph-a1-m2-cB Crystal Structure of Formaldehyde dismutase Q52078 Q52078 2.27 X-RAY DIFFRACTION 45 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 398 398 2dph-a1-m1-cA_2dph-a1-m2-cA AGNKSVVYHGTRDLRVETVPYPKLEHNNRKLEHAVILKVVSTNICGSDQHIYRGRFIVPKGHVLGHEITGEVVEKGSDVELMDIGDLVSVPFNVACGRCRNCKEARSDVCENNLVNPDADLGAFGFDLKGWSGGQAEYVLVPYADYMLLKFGDKEQAMEKIKDLTLISDILPTGFHGCVSAGVKPGSHVYIAGAGPVGRCAAAGARLLGAACVIVGDQNPERLKLLSDAGFETIDLRNSAPLRDQIDQILGKPEVDCGVDAVGFEAHGLGDEANTETPNGALNSLFDVVRAGGAIGIPGIYVGSDPDPVNKDAGSGRLHLDFGKMWTKSIRIMTGMAPVTNYNRHLTEAILWDQMPYLSKVMNIEVITLDQAPDGYAKFDKGSPAKFVIDPHGMLKNK AGNKSVVYHGTRDLRVETVPYPKLEHNNRKLEHAVILKVVSTNICGSDQHIYRGRFIVPKGHVLGHEITGEVVEKGSDVELMDIGDLVSVPFNVACGRCRNCKEARSDVCENNLVNPDADLGAFGFDLKGWSGGQAEYVLVPYADYMLLKFGDKEQAMEKIKDLTLISDILPTGFHGCVSAGVKPGSHVYIAGAGPVGRCAAAGARLLGAACVIVGDQNPERLKLLSDAGFETIDLRNSAPLRDQIDQILGKPEVDCGVDAVGFEAHGLGDEANTETPNGALNSLFDVVRAGGAIGIPGIYVGSDPDPVNKDAGSGRLHLDFGKMWTKSIRIMTGMAPVTNYNRHLTEAILWDQMPYLSKVMNIEVITLDQAPDGYAKFDKGSPAKFVIDPHGMLKNK 2dph-a1-m2-cA_2dph-a1-m2-cB Crystal Structure of Formaldehyde dismutase Q52078 Q52078 2.27 X-RAY DIFFRACTION 143 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 398 398 2dph-a1-m1-cA_2dph-a1-m1-cB AGNKSVVYHGTRDLRVETVPYPKLEHNNRKLEHAVILKVVSTNICGSDQHIYRGRFIVPKGHVLGHEITGEVVEKGSDVELMDIGDLVSVPFNVACGRCRNCKEARSDVCENNLVNPDADLGAFGFDLKGWSGGQAEYVLVPYADYMLLKFGDKEQAMEKIKDLTLISDILPTGFHGCVSAGVKPGSHVYIAGAGPVGRCAAAGARLLGAACVIVGDQNPERLKLLSDAGFETIDLRNSAPLRDQIDQILGKPEVDCGVDAVGFEAHGLGDEANTETPNGALNSLFDVVRAGGAIGIPGIYVGSDPDPVNKDAGSGRLHLDFGKMWTKSIRIMTGMAPVTNYNRHLTEAILWDQMPYLSKVMNIEVITLDQAPDGYAKFDKGSPAKFVIDPHGMLKNK AGNKSVVYHGTRDLRVETVPYPKLEHNNRKLEHAVILKVVSTNICGSDQHIYRGRFIVPKGHVLGHEITGEVVEKGSDVELMDIGDLVSVPFNVACGRCRNCKEARSDVCENNLVNPDADLGAFGFDLKGWSGGQAEYVLVPYADYMLLKFGDKEQAMEKIKDLTLISDILPTGFHGCVSAGVKPGSHVYIAGAGPVGRCAAAGARLLGAACVIVGDQNPERLKLLSDAGFETIDLRNSAPLRDQIDQILGKPEVDCGVDAVGFEAHGLGDEANTETPNGALNSLFDVVRAGGAIGIPGIYVGSDPDPVNKDAGSGRLHLDFGKMWTKSIRIMTGMAPVTNYNRHLTEAILWDQMPYLSKVMNIEVITLDQAPDGYAKFDKGSPAKFVIDPHGMLKNK 2dpl-a1-m1-cB_2dpl-a1-m1-cA Crystal Structure of the GMP synthase from Pyrococcus horikoshii OT3 O59072 O59072 1.43 X-RAY DIFFRACTION 100 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 278 287 3a4i-a1-m1-cA_3a4i-a1-m1-cB FVEEKVREIRETVGDSKAIIALSGGVDSSTAAVLAHKAIGDRLHAVFVNTGFLRKGEPEFVVKTFRDEFGMNLHYVDAQDRFFSALKGVTDPEEKRKIIGRVFIEVFEEVAKKIGAEYLIQGTILKLIEPLRDLYKDEVRELAKFLGLPEKIYNRMPFPGPGLAVRVIGEVTPEKIRIVREANAIVEEEVERAGLRPWQAFAVLLGVKTVGVQGDIRAYKETIAVRIVESIDGMTANAMNVPWEVLQRIAFRITSEIPEVGRVLYDITNKPPATIEFE MDWGRFVEEKVREIRETVGDSKAIIALSGGVDSSTAAVLAHKAIGDRLHAVFVNTGFLRKGEPEFVVKTFRDEFGMNLHYVDAQDRFFSALKGVTDPEEKRKIIGRVFIEVFEEVAKKIGAEYLIQGTIAPLNLKLIEPLRDLYKDEVRELAKFLGLPEKIYNRMPFPGPGLAVRVIGEVTPEKIRIVREANAIVEEEVERAGLRPWQAFAVLLGVKTVGVQGDIRAYKETIAVRIVESIDGMTANAMNVPWEVLQRIAFRITSEIPEVGRVLYDITNKPPATIEFE 2dpn-a1-m1-cA_2dpn-a1-m1-cB Crystal Structure of the glycerol kinase from Thermus thermophilus HB8 Q53W24 Q53W24 2.8 X-RAY DIFFRACTION 102 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 492 492 FLLALDQGTTSSRAILFTLEGRPVAVAKREFRQLYPKPGWVEHDPLEIWETTLWAAREVLRRAGAEAGEVLALGITNQRETTLLWDRKTGKPLHNAIVWQDRRTTPLCEALRAKGLEPLFRERTGLLFDPYFSGTKLVWLLENVPGLKARAEGGGVAFGTVDTWLIWNLTGGKVHATDPTNASRTLLFNLHTLAWDPELLEALGIPAALLPEVRPSDGDFGETLPELLGAPVPIRGVLGDQQAALFGQAALGGGEGKCTYGTGAFLLLNTGKRPVLSEKGLLATVAWSLGGRATYALEGSLFVAGAAVGWLKEVGLIRESAEVEALAASVEDTGDVYFVPAFTGLGAPYWDPYARGTLLGLTRGTSRAHLARAALEGVAFQVRDVVLAMEEEAGVRLKVLKADGGMAQNRLFLKIQADLLGVPVAVPEVTETTALGAALMAGVGAGALSPEDVAGRFREAERFLPTMPEGRREALYRRWREAVERAKGWARE FLLALDQGTTSSRAILFTLEGRPVAVAKREFRQLYPKPGWVEHDPLEIWETTLWAAREVLRRAGAEAGEVLALGITNQRETTLLWDRKTGKPLHNAIVWQDRRTTPLCEALRAKGLEPLFRERTGLLFDPYFSGTKLVWLLENVPGLKARAEGGGVAFGTVDTWLIWNLTGGKVHATDPTNASRTLLFNLHTLAWDPELLEALGIPAALLPEVRPSDGDFGETLPELLGAPVPIRGVLGDQQAALFGQAALGGGEGKCTYGTGAFLLLNTGKRPVLSEKGLLATVAWSLGGRATYALEGSLFVAGAAVGWLKEVGLIRESAEVEALAASVEDTGDVYFVPAFTGLGAPYWDPYARGTLLGLTRGTSRAHLARAALEGVAFQVRDVVLAMEEEAGVRLKVLKADGGMAQNRLFLKIQADLLGVPVAVPEVTETTALGAALMAGVGAGALSPEDVAGRFREAERFLPTMPEGRREALYRRWREAVERAKGWARE 2dpr-a3-m1-cA_2dpr-a3-m3-cB The crystal structures of the calcium-bound con-G and con-T(K7Glu) dimeric peptides demonstrate a novel metal-dependent helix-forming motif P17684 P17684 1.7 X-RAY DIFFRACTION 12 1.0 6495 (Conus tulipa) 6495 (Conus tulipa) 16 16 2dpr-a3-m1-cB_2dpr-a3-m3-cA GEYQMLNLRAEVKKNA GEYQMLNLRAEVKKNA 2dpr-a3-m3-cA_2dpr-a3-m3-cB The crystal structures of the calcium-bound con-G and con-T(K7Glu) dimeric peptides demonstrate a novel metal-dependent helix-forming motif P17684 P17684 1.7 X-RAY DIFFRACTION 12 1.0 6495 (Conus tulipa) 6495 (Conus tulipa) 16 16 2dpr-a1-m1-cA_2dpr-a1-m1-cB 2dpr-a3-m1-cA_2dpr-a3-m1-cB GEYQMLNLRAEVKKNA GEYQMLNLRAEVKKNA 2dq0-a1-m1-cA_2dq0-a1-m1-cB Crystal structure of seryl-tRNA synthetase from Pyrococcus horikoshii complexed with a seryl-adenylate analog O58441 O58441 2.6 X-RAY DIFFRACTION 138 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 447 447 2zr2-a1-m1-cA_2zr2-a1-m1-cB 2zr3-a1-m1-cA_2zr3-a1-m1-cB MLDIKLIRENPELVKNDLIKRGELEKVKWVDEILKLDTEWRTKLKEINRLRHERNKIAVEIGKRRKKGEPVDELLAKSREIVKRIGELENEVEELKKKIDYYLWRLPNITHPSVPVGKDENDNVPIRFWGKARVWKGHLERFLEQSQGKMEYEILEWKPKLHVDLLEILGGADFARAAKVSGSRFYYLLNEIVILDLALIRFALDRLIEKGFTPVIPPYMVRRFVEEGSTSFEDFEDVIYKVEDEDLYLIPTAEHPLAGMHANEILDGKDLPLLYVGVSPCFRKEAGTAGKDTKGIFRVHQFHKVEQFVYSRPEESWEWHEKIIRNAEELFQELEIPYRVVNICTGDLGYVAAKKYDIEAWMPGQGKFREVVSASNCTDWQARRLNIRFRDRTDEKPRYVHTLNSTAIATSRAIVAILENHQEEDGTVRIPKVLWKYTGFKEIVPVE MLDIKLIRENPELVKNDLIKRGELEKVKWVDEILKLDTEWRTKLKEINRLRHERNKIAVEIGKRRKKGEPVDELLAKSREIVKRIGELENEVEELKKKIDYYLWRLPNITHPSVPVGKDENDNVPIRFWGKARVWKGHLERFLEQSQGKMEYEILEWKPKLHVDLLEILGGADFARAAKVSGSRFYYLLNEIVILDLALIRFALDRLIEKGFTPVIPPYMVRRFVEEGSTSFEDFEDVIYKVEDEDLYLIPTAEHPLAGMHANEILDGKDLPLLYVGVSPCFRKEAGTAGKDTKGIFRVHQFHKVEQFVYSRPEESWEWHEKIIRNAEELFQELEIPYRVVNICTGDLGYVAAKKYDIEAWMPGQGKFREVVSASNCTDWQARRLNIRFRDRTDEKPRYVHTLNSTAIATSRAIVAILENHQEEDGTVRIPKVLWKYTGFKEIVPVE 2dq3-a1-m1-cA_2dq3-a1-m1-cB Crystal structure of aq_298 O66647 O66647 3 X-RAY DIFFRACTION 148 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 422 422 IDINLIREKPDYVKERLATRDKELVSLVDKVLELDKRRREIIKRLEALRSERNKLSKEIGKLKREGKDTTEIQNRVKELKEEIDRLEEELRKVEEELKNTLLWIPNLPHPSVPVGEDEKDNVEVRRWGEPRKFDFEPKPHWEIGERLGILDFKRGAKLSGSRFTVIAGWGARLERALINFLDLHTKKGYKEICPPHLVKPEILIGTGQLPKFEEDLYKCERDNLYLIPTAEVPLTNLYREEILKEENLPIYLTAYTPCYRREAGAYGKDIRGIIRQHQFDKVELVKIVHPDTSYDELEKLVKDAEEVLQLLGLPYRVVELCTGDLGFSAAKTYDIEVWFPSQNKYREISSCSNCEDFQARRNTRFKDSKTGKNRFVHTLNGSGLAVGRTLAAILENYQQEDGSVVVPEVLRDYVGTDVIRPE IDINLIREKPDYVKERLATRDKELVSLVDKVLELDKRRREIIKRLEALRSERNKLSKEIGKLKREGKDTTEIQNRVKELKEEIDRLEEELRKVEEELKNTLLWIPNLPHPSVPVGEDEKDNVEVRRWGEPRKFDFEPKPHWEIGERLGILDFKRGAKLSGSRFTVIAGWGARLERALINFLDLHTKKGYKEICPPHLVKPEILIGTGQLPKFEEDLYKCERDNLYLIPTAEVPLTNLYREEILKEENLPIYLTAYTPCYRREAGAYGKDIRGIIRQHQFDKVELVKIVHPDTSYDELEKLVKDAEEVLQLLGLPYRVVELCTGDLGFSAAKTYDIEVWFPSQNKYREISSCSNCEDFQARRNTRFKDSKTGKNRFVHTLNGSGLAVGRTLAAILENYQQEDGSVVVPEVLRDYVGTDVIRPE 2dq4-a1-m1-cA_2dq4-a1-m2-cB Crystal structure of threonine 3-dehydrogenase Q5SKS4 Q5SKS4 2.5 X-RAY DIFFRACTION 65 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 343 343 2dq4-a1-m1-cB_2dq4-a1-m2-cA 2ejv-a1-m1-cA_2ejv-a1-m2-cB 2ejv-a1-m1-cB_2ejv-a1-m2-cA MRALAKLAPEEGLTLVDRPVPEPGPGEILVRVEAASICGTDLHIWKWDAWARGRIRPPLVTGHEFSGVVEAVGPGVRRPQVGDHVSLESHIVCHACPACRTGNYHVCLNTQILGVDRDGGFAEYVVVPAENAWVNPKDLPFEVAAILEPFGNAVHTVYAGSGVSGKSVLITGAGPIGLMAAMVVRASGAGPILVSDPNPYRLAFARPYADRLVNPLEEDLLEVVRRVTGSGVEVLLEFSGNEAAIHQGLMALIPGGEARILGIPSDPIRFDLAGELVMRGITAFGIAGRRLWQTWMQGTALVYSGRVDLSPLLTHRLPLSRYREAFGLLASGQAVKVILDPKA MRALAKLAPEEGLTLVDRPVPEPGPGEILVRVEAASICGTDLHIWKWDAWARGRIRPPLVTGHEFSGVVEAVGPGVRRPQVGDHVSLESHIVCHACPACRTGNYHVCLNTQILGVDRDGGFAEYVVVPAENAWVNPKDLPFEVAAILEPFGNAVHTVYAGSGVSGKSVLITGAGPIGLMAAMVVRASGAGPILVSDPNPYRLAFARPYADRLVNPLEEDLLEVVRRVTGSGVEVLLEFSGNEAAIHQGLMALIPGGEARILGIPSDPIRFDLAGELVMRGITAFGIAGRRLWQTWMQGTALVYSGRVDLSPLLTHRLPLSRYREAFGLLASGQAVKVILDPKA 2dq4-a1-m2-cA_2dq4-a1-m2-cB Crystal structure of threonine 3-dehydrogenase Q5SKS4 Q5SKS4 2.5 X-RAY DIFFRACTION 132 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 343 343 2dq4-a1-m1-cA_2dq4-a1-m1-cB 2ejv-a1-m1-cA_2ejv-a1-m1-cB 2ejv-a1-m2-cA_2ejv-a1-m2-cB MRALAKLAPEEGLTLVDRPVPEPGPGEILVRVEAASICGTDLHIWKWDAWARGRIRPPLVTGHEFSGVVEAVGPGVRRPQVGDHVSLESHIVCHACPACRTGNYHVCLNTQILGVDRDGGFAEYVVVPAENAWVNPKDLPFEVAAILEPFGNAVHTVYAGSGVSGKSVLITGAGPIGLMAAMVVRASGAGPILVSDPNPYRLAFARPYADRLVNPLEEDLLEVVRRVTGSGVEVLLEFSGNEAAIHQGLMALIPGGEARILGIPSDPIRFDLAGELVMRGITAFGIAGRRLWQTWMQGTALVYSGRVDLSPLLTHRLPLSRYREAFGLLASGQAVKVILDPKA MRALAKLAPEEGLTLVDRPVPEPGPGEILVRVEAASICGTDLHIWKWDAWARGRIRPPLVTGHEFSGVVEAVGPGVRRPQVGDHVSLESHIVCHACPACRTGNYHVCLNTQILGVDRDGGFAEYVVVPAENAWVNPKDLPFEVAAILEPFGNAVHTVYAGSGVSGKSVLITGAGPIGLMAAMVVRASGAGPILVSDPNPYRLAFARPYADRLVNPLEEDLLEVVRRVTGSGVEVLLEFSGNEAAIHQGLMALIPGGEARILGIPSDPIRFDLAGELVMRGITAFGIAGRRLWQTWMQGTALVYSGRVDLSPLLTHRLPLSRYREAFGLLASGQAVKVILDPKA 2dqa-a1-m1-cA_2dqa-a1-m1-cB Crystal Structure of Tapes japonica Lysozyme Q8IU26 Q8IU26 1.6 X-RAY DIFFRACTION 43 1.0 123 123 FAPGMVSQKCLLCMCKLESGGCKPIGCRMDVGSLSCGYFQIKQPYWIDCGKPGKDWKSCSNDINCSSKCVQQYMKRYATHYRCPLNCEGFAREHNGGPNGCHSSRTLKYWELLQKIPGCKGVK FAPGMVSQKCLLCMCKLESGGCKPIGCRMDVGSLSCGYFQIKQPYWIDCGKPGKDWKSCSNDINCSSKCVQQYMKRYATHYRCPLNCEGFAREHNGGPNGCHSSRTLKYWELLQKIPGCKGVK 2dqb-a1-m1-cD_2dqb-a1-m1-cF Crystal structure of dNTP triphosphohydrolase from Thermus thermophilus HB8, which is homologous to dGTP triphosphohydrolase Q5SL81 Q5SL81 2.2 X-RAY DIFFRACTION 26 0.994 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 357 358 2dqb-a1-m1-cA_2dqb-a1-m1-cC 2dqb-a1-m1-cB_2dqb-a1-m1-cA 2dqb-a1-m1-cB_2dqb-a1-m1-cC 2dqb-a1-m1-cE_2dqb-a1-m1-cF RFSREALLELEASRLAPYAQKARDTRGRAHPEPESLYRTPYQKDRDRILHTTAFRRLEYKTQVLPDYYRTRLTHTLEVAQVSRSIARALGLNEDLTEAIALSHDLGHPPFGHTGEHVLNALQDHGGFEHNAQALRILTHLEVRYPGFRGLNLTYEVLEGIATHYEGQGTLEAQVVDLSDAIAYAAHDLDDGFRAGLLHPEELKEVELLQALALEEGLDLLRLPELDRRVLVRQLLGYFITAAIEATHRRVEEAGVQSAEAVRRHPSRLAALGEEAEKALKALKAFLERFYRHPEVLRERRKAEAVLEGLFAAYTRYPELLPREVQAKIPEEGLERAVCDYIAGTDRFALEAYRRLSP RFSREALLELEASRLAPYAQKARDTRGRAHPEPSLYRTPYQKDRDRILHTTAFRRLEYKTQVLPDYYRTRLTHTLEVAQVSRSIARALGLNEDLTEAIALSHDLGHPPFHTGEHVLNALQDHGGFEHNAQALRILTHLEVRYPGFRGLNLTYEVLEGIATHEALYEGQGTLEAQVVDLSDAIAYAAHDLDDGFRAGLLHPEELKEVELLQALALEEGLDLLRLPELDRRVLVRQLLGYFITAAIEATHRRVEEAGVQSAEAVRRHPSRLAALGEEAEKALKALKAFLERFYRHPEVLRERRKAEAVLEGLFAAYTRYPELLPREVQAKIPEEGLERAVCDYIAGTDRFALEAYRRLSP 2dqb-a1-m1-cF_2dqb-a1-m1-cC Crystal structure of dNTP triphosphohydrolase from Thermus thermophilus HB8, which is homologous to dGTP triphosphohydrolase Q5SL81 Q5SL81 2.2 X-RAY DIFFRACTION 84 0.992 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 358 360 2dqb-a1-m1-cB_2dqb-a1-m1-cE 2dqb-a1-m1-cD_2dqb-a1-m1-cA RFSREALLELEASRLAPYAQKARDTRGRAHPEPSLYRTPYQKDRDRILHTTAFRRLEYKTQVLPDYYRTRLTHTLEVAQVSRSIARALGLNEDLTEAIALSHDLGHPPFHTGEHVLNALQDHGGFEHNAQALRILTHLEVRYPGFRGLNLTYEVLEGIATHEALYEGQGTLEAQVVDLSDAIAYAAHDLDDGFRAGLLHPEELKEVELLQALALEEGLDLLRLPELDRRVLVRQLLGYFITAAIEATHRRVEEAGVQSAEAVRRHPSRLAALGEEAEKALKALKAFLERFYRHPEVLRERRKAEAVLEGLFAAYTRYPELLPREVQAKIPEEGLERAVCDYIAGTDRFALEAYRRLSP RFSREALLELEASRLAPYAQKARDTRGRAHPEPESLYRTPYQKDRDRILHTTAFRRLEYKTQVLPGWAYRTRLTHTLEVAQVSRSIARALGLNEDLTEAIALSHDLGHPPFGHTGEHVLNALQDHGGFEHNAQALRILTHLEVRYPGFRGLNLTYEVLEGIATHEALYEGQGTLEAQVVDLSDAIAYAAHDLDDGFRAGLLHPEELKEVELLQALALEEGLDLRLPELDRRVLVRQLLGYFITAAIEATHRRVEEAGVQSAEAVRRHPSRLAALGEEAEKALKALKAFLERFYRHPEVLRERRKAEAVLEGLFAAYTRYPELLPREVQAKIPEEGLERAVCDYIAGTDRFALEAYRRLSP 2dql-a1-m1-cA_2dql-a1-m1-cB Crystal structure of the circadian clock associated protein Pex from anabaena Q8YQ56 Q8YQ56 1.7 X-RAY DIFFRACTION 39 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 115 115 MKIEDIYQFFENPPPTYLCQEVAICYILYVLLQGESYGTELIQQLETEHPTYRLSDTVLYSAIKFLEDNRAITGYWKKLEGRGRPRRMYQVSPEWQHQAEDLARLWQNYIYVRTN MKIEDIYQFFENPPPTYLCQEVAICYILYVLLQGESYGTELIQQLETEHPTYRLSDTVLYSAIKFLEDNRAITGYWKKLEGRGRPRRMYQVSPEWQHQAEDLARLWQNYIYVRTN 2dqr-a2-m1-cC_2dqr-a2-m1-cD Crystal structure of the replication terminator protein mutant RTP.E39K.R42Q P0CI76 P0CI76 3.01 X-RAY DIFFRACTION 74 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 106 109 2dqr-a1-m1-cA_2dqr-a1-m1-cB FLVKQRAFLKLYMITMTEQERLYGLKLLKVLQSEFKEIGFKPNHTEVYRSLHELLDDGILKQIKVKQEVVLYQFKDYEAAKLYKKQLKVELDRCKKLIEKALSDNF STGFLVKQRAFLKLYMITMTEQERLYGLKLLKVLQSEFKEIGFKPNHTEVYRSLHELLDDGILKQIKVKQEVVLYQFKDYEAAKLYKKQLKVELDRCKKLIEKALSDNF 2dqw-a1-m1-cB_2dqw-a1-m1-cA Crystal Structure of Dihydropteroate Synthase (FolP) from Thermus thermophilus HB8 Q5SLV2 Q5SLV2 1.65 X-RAY DIFFRACTION 92 0.98 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 247 250 2dza-a1-m1-cA_2dza-a1-m1-cB RTLWLRDRALDLDRVRLLGVLNLTPPERALERAREMVAEGADILDLGAESPVEEEKRRLLPVLEAVLSLGVPVSVDTRKPEVAEEALKLGAHLLNDVTGLRDERMVALAARHGVAAVVMHMPVPAHARYRDVVAEVKAFLEAQARRALSAGVPQVVLDPGFGFGKLLEHNLALLRRLDEIVALGHPVLVGLSRKRTIGELSGVEDPAQRVHGSVAAHLFAVMKGVRLLRVHDVRAHREALGVWEALY VRTLWLRDRALDLDRVRLLGVLNLTPRALERAREMVAEGADILDLGAEEEEKRRLLPVLEAVLSLGVPVSVDTRKPEVAEEALKLGAHLLNDVTGLRDERMVALAARHGVAAVVMHMPVPDPATMMAHARYRDVVAEVKAFLEAQARRALSAGVPQVVLDPGFGFGKLLEHNLALLRRLDEIVALGHPVLVGLSRKRTIGELSGVEDPAQRVHGSVAAHLFAVMKGVRLLRVHDVRAHREALGVWEALYG 2dr1-a1-m1-cB_2dr1-a1-m1-cA Crystal structure of the PH1308 protein from Pyrococcus horikoshii OT3 O59033 O59033 1.9 X-RAY DIFFRACTION 261 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 374 381 EVYEMVKPKYKLFTAGPVACFPEVLEIMKVQMFSHRSKEYRKVHMDTVERLREFLEVEKGEVLLVPSSGTGIMEASIRNGVSKGGKVLVTIIGAFGKRYKEVVESNGRKAVVLEYEPGKAVKPEDLDDALRKNPDVEAVTITYNETSTGVLNPLPELAKVAKEHDKLVFVDAVSAMGGADIKFDKWGLDVVFSSSQKAFGVPPGLAIGAFSERFLEIAEKMPERGWYFDIPLYVKYLKEKESTPSTPPMPQVFGINVALRIIEKMGGKEKWLEMYEKRAKMVREGVREIGLDILAEPGHESPTITAVLTPPGIKGDEVYEAMRKRGFELAKGYGSVKEKTFRIGHMGYMKFEDIQEMLDNLREVINELKKQKGI EFEEAFKEVYEMVKPKYKLFTAGPVACFPEVLEIMKVQMFSHRSKEYRKVHMDTVERLREFLEVEKGEVLLVPSSGTGIMEASIRNGVSKGGKVLVTIIGAFGKRYKEVVESNGRKAVVLEYEPGKAVKPEDLDDALRKNPDVEAVTITYNETSTGVLNPLPELAKVAKEHDKLVFVDAVSAMGGADIKFDKWGLDVVFSSSQKAFGVPPGLAIGAFSERFLEIAEKMPERGWYFDIPLYVKYLKEKESTPSTPPMPQVFGINVALRIIEKMGGKEKWLEMYEKRAKMVREGVREIGLDILAEPGHESPTITAVLTPPGIKGDEVYEAMRKRGFELAKGYGSVKEKTFRIGHMGYMKFEDIQEMLDNLREVINELKKQKGI 2dr3-a1-m1-cA_2dr3-a1-m1-cF Crystal Structure of RecA superfamily ATPase PH0284 from Pyrococcus horikoshii OT3 O58022 O58022 2 X-RAY DIFFRACTION 62 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 232 236 2dr3-a1-m1-cA_2dr3-a1-m1-cB 2dr3-a1-m1-cC_2dr3-a1-m1-cB 2dr3-a1-m1-cC_2dr3-a1-m1-cD 2dr3-a1-m1-cE_2dr3-a1-m1-cD 2dr3-a1-m1-cE_2dr3-a1-m1-cF RRVKTGIPGVDEILHGGIPERNVVLLSGGPGTGKTIFSQQFLWNGLKMGEPGIYVALEEHPVQVRQNMAQFGWDVKPYEEKGMFAMVDAFTAGIGKEYEKYIVHDLTDIREFIEVLRQAIRDINAKRVVVDSVTTLYINKPAMARSIILQLKRVLAGTGCTSIFVSQVSGFGPGVEHGVDGIIRLDLDEIDGELKRSLIVWKMRGTSHSMRRHPFDITDKGIIVYPDKVLKR RRVKTGIPGVDEILHGGIPERNVVLLSGGPGTGKTIFSQQFLWNGLKMGEPGIYVALEEHPVQVRQNMAQFGWDVKPYEEKGMFAMVDAFTAGIGKSKEYEKYIVHDLTDIREFIEVLRQAIRDINAKRVVVDSVTTLYINKPAMARSIILQLKRVLAGTGCTSIFVSQVSGFGPGVEHGVDGIIRLDLDEIDGELKRSLIVWKMRGTSHSMRRHPFDITDKGIIVYPDKVLKRGK 2dre-a1-m1-cC_2dre-a1-m1-cD Crystal structure of Water-soluble chlorophyll protein from lepidium virginicum at 2.00 angstrom resolution O04797 O04797 2 X-RAY DIFFRACTION 30 1.0 59292 (Lepidium virginicum) 59292 (Lepidium virginicum) 177 177 6giw-a1-m1-cB_6giw-a1-m1-cA 6giw-a1-m1-cC_6giw-a1-m1-cD 6gix-a1-m1-cA_6gix-a1-m1-cB 6gix-a1-m1-cC_6gix-a1-m1-cD 6s2y-a1-m1-cA_6s2y-a1-m1-cB 6s2y-a1-m1-cC_6s2y-a1-m1-cD DEEPVKDTNGNPLKIETRYFIQPASDNNGGGLVPANVDLSHLCPLGIVRTSLPYQPGLPVTISTPSSSEGNDVLTNTNIAITFDAPIWLCPSSKTWTVDSSSEEKYIITGGDPKSGESFFRIEKYGNGKNTYKLVRYDNGEGKSVGSTKSLWGPALVLNDDDDSDENAFPIKFREVD DEEPVKDTNGNPLKIETRYFIQPASDNNGGGLVPANVDLSHLCPLGIVRTSLPYQPGLPVTISTPSSSEGNDVLTNTNIAITFDAPIWLCPSSKTWTVDSSSEEKYIITGGDPKSGESFFRIEKYGNGKNTYKLVRYDNGEGKSVGSTKSLWGPALVLNDDDDSDENAFPIKFREVD 2drh-a1-m1-cB_2drh-a1-m1-cD Crystal structure of the PH0078 protein from Pyrococcus horikoshii OT3 O57784 O57784 2.1 X-RAY DIFFRACTION 91 0.997 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 353 353 2drh-a1-m1-cC_2drh-a1-m1-cA MKAQELGIKIGVFKPGKRNKITDVKGVKVGHVTLIKGKGKLIPGKGPVRTGVTAILPHEGNIYKEKVLAGAFVMNGYSKPVGLIQLWELGTIETPIILTNTLSIGTAVEGLLDYILEENEDIGVTTGSVNPLVLECNDSYLNDIRGRHVKREHVVEAIKRADEDFEEGAVGAGTGMSAFEFKGGIGSASRIVEIEGKKYTVGALVLSNFGRREDLTIAGVPVGLELKNWPGRSIIMIIATDAPLTGRQLNRVAKRAIVGLARTGGYAYNGSGDIAVAFSTANRIKHYEKEVIEIKALPDSVISPLFKATAEAVEEAIINSLLEARTMDGRDNHVRYALPKEELLRIMRRYGRL MKAQELGIKIGVFKPGKRNKITDVKGVKVGHVTLIKGKGKLIPGKGPVRTGVTAILPHEGNIYKEKVLAGAFVMNGYSKPVGLIQLWELGTIETPIILTNTLSIGTAVEGLLDYILEENEDIGVTTGSVNPLVLECNDSYLNDIRGRHVKREHVVEAIKRADEDFEEGAVGAGTGMSAFEFKGGIGSASRIVEIEGKKYTVGALVLSNFGRREDLTIAGVPVGLELKNWPGRGSIIMIIATDAPLTGRQLNRVAKRAIVGLARTGGYAYNGSGDIAVAFSTANRIKHYEKEVIEIKALPDSVISPLFKATAEAVEEAIINSLLEARTMDGRDNHVRYALPKEELLRIMRRYGR 2drh-a1-m1-cC_2drh-a1-m1-cD Crystal structure of the PH0078 protein from Pyrococcus horikoshii OT3 O57784 O57784 2.1 X-RAY DIFFRACTION 69 0.997 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 353 353 2drh-a1-m1-cB_2drh-a1-m1-cA MKAQELGIKIGVFKPGKRNKITDVKGVKVGHVTLIKGKGKLIPGKGPVRTGVTAILPHEGNIYKEKVLAGAFVMNGYSKPVGLIQLWELGTIETPIILTNTLSIGTAVEGLLDYILEENEDIGVTTGSVNPLVLECNDSYLNDIRGRHVKREHVVEAIKRADEDFEEGAVGAGTGMSAFEFKGGIGSASRIVEIEGKKYTVGALVLSNFGRREDLTIAGVPVGLELKNWPGRSIIMIIATDAPLTGRQLNRVAKRAIVGLARTGGYAYNGSGDIAVAFSTANRIKHYEKEVIEIKALPDSVISPLFKATAEAVEEAIINSLLEARTMDGRDNHVRYALPKEELLRIMRRYGRL MKAQELGIKIGVFKPGKRNKITDVKGVKVGHVTLIKGKGKLIPGKGPVRTGVTAILPHEGNIYKEKVLAGAFVMNGYSKPVGLIQLWELGTIETPIILTNTLSIGTAVEGLLDYILEENEDIGVTTGSVNPLVLECNDSYLNDIRGRHVKREHVVEAIKRADEDFEEGAVGAGTGMSAFEFKGGIGSASRIVEIEGKKYTVGALVLSNFGRREDLTIAGVPVGLELKNWPGRGSIIMIIATDAPLTGRQLNRVAKRAIVGLARTGGYAYNGSGDIAVAFSTANRIKHYEKEVIEIKALPDSVISPLFKATAEAVEEAIINSLLEARTMDGRDNHVRYALPKEELLRIMRRYGR 2drh-a1-m1-cD_2drh-a1-m1-cA Crystal structure of the PH0078 protein from Pyrococcus horikoshii OT3 O57784 O57784 2.1 X-RAY DIFFRACTION 117 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 353 354 2drh-a1-m1-cB_2drh-a1-m1-cC MKAQELGIKIGVFKPGKRNKITDVKGVKVGHVTLIKGKGKLIPGKGPVRTGVTAILPHEGNIYKEKVLAGAFVMNGYSKPVGLIQLWELGTIETPIILTNTLSIGTAVEGLLDYILEENEDIGVTTGSVNPLVLECNDSYLNDIRGRHVKREHVVEAIKRADEDFEEGAVGAGTGMSAFEFKGGIGSASRIVEIEGKKYTVGALVLSNFGRREDLTIAGVPVGLELKNWPGRGSIIMIIATDAPLTGRQLNRVAKRAIVGLARTGGYAYNGSGDIAVAFSTANRIKHYEKEVIEIKALPDSVISPLFKATAEAVEEAIINSLLEARTMDGRDNHVRYALPKEELLRIMRRYGR MKAQELGIKIGVFKPGKRNKITDVKGVKVGHVTLIKGKGKLIPGKGPVRTGVTAILPHEGNIYKEKVLAGAFVMNGYSKPVGLIQLWELGTIETPIILTNTLSIGTAVEGLLDYILEENEDIGVTTGSVNPLVLECNDSYLNDIRGRHVKREHVVEAIKRADEDFEEGAVGAGTGMSAFEFKGGIGSASRIVEIEGKKYTVGALVLSNFGRREDLTIAGVPVGLELKNWPGRGSIIMIIATDAPLTGRQLNRVAKRAIVGLARTGGYAYNGSGDIAVAFSTANRIKHYEKEVIEIKALPDSVISPLFKATAEAVEEAIINSLLEARTMDGRDNHVRYALPKEELLRIMRRYGRL 2drt-a1-m1-cA_2drt-a1-m1-cB Structure Analysis of (POG)4-LOG-(POG)5 1.6 X-RAY DIFFRACTION 40 1.0 19 19 GPGPGPGLGPGPGPGPGPG GPGPGPGLGPGPGPGPGPG 2drx-a1-m1-cA_2drx-a1-m1-cC Structure Analysis of (POG)4-(LOG)2-(POG)4 1.4 X-RAY DIFFRACTION 45 1.0 19 20 PGPGPGPGLGLGPGPGPGP PGPGPGPGLGLGPGPGPGPG 2drx-a1-m1-cB_2drx-a1-m1-cC Structure Analysis of (POG)4-(LOG)2-(POG)4 1.4 X-RAY DIFFRACTION 38 1.0 19 20 GPGPGPGLGLGPGPGPGPG PGPGPGPGLGLGPGPGPGPG 2ds5-a1-m1-cA_2ds5-a1-m1-cB Structure of the ZBD in the orthorhomibic crystal from P0A6H1 P0A6H1 1.5 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 43 44 2ds6-a1-m1-cB_2ds6-a1-m1-cA 2ds7-a1-m1-cA_2ds7-a1-m2-cA 2ds8-a1-m1-cB_2ds8-a1-m1-cA GKLLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIREEI SGKLLYCSFCGKSQHEVRKLIAGPSVYICDECVDLCNDIIREEI 2dsj-a1-m1-cA_2dsj-a1-m1-cB Crystal structure of project ID TT0128 from Thermus thermophilus HB8 Q5SHF9 Q5SHF9 1.8 X-RAY DIFFRACTION 80 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 423 423 MNPVAFIREKREGKKHRREDLEAFLLGYLRDEVPDYQVSAWLMAAFLRGLDPEETLWLTETMARSGKVLDLSGLPHPVDKHSSGGVGDKVSLVVGPILAASGCTFAKMSGRGLAHTGGTIDKLESVPGWRGEMTEAEFLERARRVGLVIAAQSPDLAPLDGKLYALRDVTATVESVPLIASSIMSKKLAAGARSIVLDVKVGRGAFMKTLEEARLLAKTMVAIGQGAGRRVRALLTSMEAPLGRAVGNAIEVREAIEALKGEGPGDLLEVALALAEEALRLEGLDPALARKALEGGAALEKFRAFLEAQGGDPRAVEDFSLLPLAEEHPLRAEREGVVREVDAYKVGLAVLALGGGRKRKGEPIDHGVGVYLLKKPGDRVERGEALALVYHRRRGLEEALGHLREAYALGEEAHPAPLVLEAI MNPVAFIREKREGKKHRREDLEAFLLGYLRDEVPDYQVSAWLMAAFLRGLDPEETLWLTETMARSGKVLDLSGLPHPVDKHSSGGVGDKVSLVVGPILAASGCTFAKMSGRGLAHTGGTIDKLESVPGWRGEMTEAEFLERARRVGLVIAAQSPDLAPLDGKLYALRDVTATVESVPLIASSIMSKKLAAGARSIVLDVKVGRGAFMKTLEEARLLAKTMVAIGQGAGRRVRALLTSMEAPLGRAVGNAIEVREAIEALKGEGPGDLLEVALALAEEALRLEGLDPALARKALEGGAALEKFRAFLEAQGGDPRAVEDFSLLPLAEEHPLRAEREGVVREVDAYKVGLAVLALGGGRKRKGEPIDHGVGVYLLKKPGDRVERGEALALVYHRRRGLEEALGHLREAYALGEEAHPAPLVLEAI 2dsk-a1-m1-cA_2dsk-a1-m1-cB Crystal structure of catalytic domain of hyperthermophilic chitinase from Pyrococcus furiosus Q8U1H5 Q8U1H5 1.5 X-RAY DIFFRACTION 32 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 300 300 GPNANPIPEHFFAPYIDMSLSVHKPLVEYAKLTGTKYFTLAFILYSSVYNGPAWAGSIPLEKFVDEVRELREIGGEVIIAFGGAVGPYLCQQASTPEQLAEWYIKVIDTYNATYLDFDIEAGIDADKLADALLIVQRERPWVKFSFTLPSDPGIGLAGGYGIIETMAKKGVRVDRVNPMTMDYYWTPSNAENAIKVAENVFRQLKQIYPEKSDEEIWKMIGLTPMIGVNDDKSVFTLEDAQQLVDWAIQHKIGSLAFWSVDRDHPGPTGEVSPLHRGTNDPDWAFSHVFVKFMEAFGYTF GPNANPIPEHFFAPYIDMSLSVHKPLVEYAKLTGTKYFTLAFILYSSVYNGPAWAGSIPLEKFVDEVRELREIGGEVIIAFGGAVGPYLCQQASTPEQLAEWYIKVIDTYNATYLDFDIEAGIDADKLADALLIVQRERPWVKFSFTLPSDPGIGLAGGYGIIETMAKKGVRVDRVNPMTMDYYWTPSNAENAIKVAENVFRQLKQIYPEKSDEEIWKMIGLTPMIGVNDDKSVFTLEDAQQLVDWAIQHKIGSLAFWSVDRDHPGPTGEVSPLHRGTNDPDWAFSHVFVKFMEAFGYTF 2dsm-a1-m1-cA_2dsm-a1-m1-cB NMR Structure of Bacillus Subtilis Protein YqaI, Northeast Structural Genomics Target SR450 P45906 P45906 NOT SOLUTION NMR 65 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 72 72 MVENPMVINNWHDKLTETDVQIDFYGDEVTPVDDYVIDGGEIILRENLERYLREQLGFEFKNAQLEHHHHHH MVENPMVINNWHDKLTETDVQIDFYGDEVTPVDDYVIDGGEIILRENLERYLREQLGFEFKNAQLEHHHHHH 2dst-a1-m1-cA_2dst-a1-m1-cB Crystal Structure Analysis of TT1977 Q5SI36 Q5SI36 2 X-RAY DIFFRACTION 19 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 122 122 RRAGYLHLYGLNLVFDRVGKGPPVLLVAEEASRWPEALPEGYAFYLLDLPGYGRTEGPRMAPEELAHFVAGFAVMMNLGAPWVLLRGLGLALGPHLEALGLRALPAEGVEVAEVLSSKLSYG RRAGYLHLYGLNLVFDRVGKGPPVLLVAEEASRWPEALPEGYAFYLLDLPGYGRTEGPRMAPEELAHFVAGFAVMMNLGAPWVLLRGLGLALGPHLEALGLRALPAEGVEVAEVLSSKLSYG 2dsy-a1-m1-cA_2dsy-a1-m1-cD Crystal structure of TTHA0281 from thermus thermophilus HB8 Q5SLL2 Q5SLL2 1.9 X-RAY DIFFRACTION 24 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 78 79 2dsy-a1-m1-cC_2dsy-a1-m1-cB GGTLTRYLEEAARARYELIADEEPYYGEIPDLPGVWATGKSLKECEANLQAALEDWLLFLLSRGETPPPLGEVRIELP GGTLTRYLEEAARARYELIADEEPYYGEIPDLPGVWATGKSLKECEANLQAALEDWLLFLLSRGETPPPLGEVRIELPH 2dsy-a1-m1-cC_2dsy-a1-m1-cD Crystal structure of TTHA0281 from thermus thermophilus HB8 Q5SLL2 Q5SLL2 1.9 X-RAY DIFFRACTION 53 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 74 79 2dsy-a1-m1-cB_2dsy-a1-m1-cA GTLTRYLEEAARARYELIADEEPYYGEIPDLPGVWATGKSLKECEANLQAALEDWLLFLLSRGETPPPLGEVRI GGTLTRYLEEAARARYELIADEEPYYGEIPDLPGVWATGKSLKECEANLQAALEDWLLFLLSRGETPPPLGEVRIELPH 2dt4-a2-m2-cA_2dt4-a2-m6-cA Crystal structure of Pyrococcus horikoshii a plant- and prokaryote-conserved (PPC) protein at 1.60 resolution O58532 O58532 1.6 X-RAY DIFFRACTION 12 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 143 143 2dt4-a2-m1-cA_2dt4-a2-m4-cA 2dt4-a2-m3-cA_2dt4-a2-m5-cA MVTGMFSLGRTYLFRVPEGEELLTYIKNFCKKEGIETAIINGIGTLKNPKIGYFLEEKKEYKVIPLKGSYELISLIGNVSLKDGEPFVHAHVSLGNEEGIVFGGHLVEGEVFVAEIFLQELKGEKIERKPTKYGLALWEELKL MVTGMFSLGRTYLFRVPEGEELLTYIKNFCKKEGIETAIINGIGTLKNPKIGYFLEEKKEYKVIPLKGSYELISLIGNVSLKDGEPFVHAHVSLGNEEGIVFGGHLVEGEVFVAEIFLQELKGEKIERKPTKYGLALWEELKL 2dt4-a2-m5-cA_2dt4-a2-m6-cA Crystal structure of Pyrococcus horikoshii a plant- and prokaryote-conserved (PPC) protein at 1.60 resolution O58532 O58532 1.6 X-RAY DIFFRACTION 112 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 143 143 2dt4-a1-m1-cA_2dt4-a1-m2-cA 2dt4-a1-m1-cA_2dt4-a1-m3-cA 2dt4-a1-m2-cA_2dt4-a1-m3-cA 2dt4-a2-m1-cA_2dt4-a2-m2-cA 2dt4-a2-m1-cA_2dt4-a2-m3-cA 2dt4-a2-m2-cA_2dt4-a2-m3-cA 2dt4-a2-m4-cA_2dt4-a2-m5-cA 2dt4-a2-m4-cA_2dt4-a2-m6-cA MVTGMFSLGRTYLFRVPEGEELLTYIKNFCKKEGIETAIINGIGTLKNPKIGYFLEEKKEYKVIPLKGSYELISLIGNVSLKDGEPFVHAHVSLGNEEGIVFGGHLVEGEVFVAEIFLQELKGEKIERKPTKYGLALWEELKL MVTGMFSLGRTYLFRVPEGEELLTYIKNFCKKEGIETAIINGIGTLKNPKIGYFLEEKKEYKVIPLKGSYELISLIGNVSLKDGEPFVHAHVSLGNEEGIVFGGHLVEGEVFVAEIFLQELKGEKIERKPTKYGLALWEELKL 2dt5-a2-m1-cA_2dt5-a2-m2-cA Crystal Structure of TTHA1657 (AT-rich DNA-binding protein) from Thermus thermophilus HB8 Q5SHS3 Q5SHS3 2.16 X-RAY DIFFRACTION 21 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 210 210 KVPEAAISRLITYLRILEELEAQGVHRTSSEQLGGLAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGMGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWREEMMG KVPEAAISRLITYLRILEELEAQGVHRTSSEQLGGLAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGMGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWREEMMG 2dt5-a2-m1-cB_2dt5-a2-m2-cB Crystal Structure of TTHA1657 (AT-rich DNA-binding protein) from Thermus thermophilus HB8 Q5SHS3 Q5SHS3 2.16 X-RAY DIFFRACTION 23 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 211 211 MKVPEAAISRLITYLRILEELEAQGVHRTSSEQLGGLAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGMGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWREEMMG MKVPEAAISRLITYLRILEELEAQGVHRTSSEQLGGLAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGMGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWREEMMG 2dtc-a1-m1-cB_2dtc-a1-m1-cA Crystal structure of MS0666 A2AR50 A2AR50 1.7 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 113 114 PTEGPLRRKTLLKEGRKPALSSWTRYWVVLSGATLLYYGAKSLRGTDRKHYKSTPGKKVSIVGWVQLPDDPEHPDIFQLNNPDKGNVYKFQTGSRFHAILWHKHLDDACKSSR PTEGPLRRKTLLKEGRKPALSSWTRYWVVLSGATLLYYGAKSLRGTDRKHYKSTPGKKVSIVGWVQLPDDPEHPDIFQLNNPDKGNVYKFQTGSRFHAILWHKHLDDACKSSRP 2dtj-a2-m1-cB_2dtj-a2-m2-cB Crystal structure of regulatory subunit of aspartate kinase from Corynebacterium glutamicum P26512 P26512 1.58 X-RAY DIFFRACTION 30 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 163 163 EEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLEAVVYA EEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLEAVVYA 2dtj-a2-m2-cB_2dtj-a2-m1-cA Crystal structure of regulatory subunit of aspartate kinase from Corynebacterium glutamicum P26512 P26512 1.58 X-RAY DIFFRACTION 37 0.982 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 163 164 2dtj-a2-m1-cB_2dtj-a2-m2-cA EEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLEAVVYA AVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLGGEDEAVVY 2dtx-a1-m1-cA_2dtx-a1-m2-cB Structure of Thermoplasma acidophilum aldohexose dehydrogenase (AldT) in complex with D-mannose Q9HK51 Q9HK51 1.6 X-RAY DIFFRACTION 114 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 255 255 2dtd-a1-m1-cA_2dtd-a1-m2-cB 2dtd-a1-m1-cB_2dtd-a1-m2-cA 2dte-a1-m1-cA_2dte-a1-m2-cB 2dte-a1-m1-cB_2dte-a1-m2-cA 2dtx-a1-m1-cB_2dtx-a1-m2-cA 2zk7-a1-m1-cA_2zk7-a1-m2-cA 2zk7-a1-m1-cB_2zk7-a1-m2-cB GFSDLRDKVVIVTGASMGIGRAIAERFVDEGSKVIDLSIHDPGEAKYDHIECDVTNPDQVKASIDHIFKEYGSISVLVNNAGIESYGKIESMSMGEWRRIIDVNLFGYYYASKFAIPYMIRSRDPSIVNISSVQASIITKNASAYVTSKHAVIGLTKSIALDYAPLLRCNAVCPATIDTPLVRKAAELEVGSDPMRIEKKISEWGHEHPMQRIGKPQEVASAVAFLASREASFITGTCLYVDGGLSIRAPISTPE GFSDLRDKVVIVTGASMGIGRAIAERFVDEGSKVIDLSIHDPGEAKYDHIECDVTNPDQVKASIDHIFKEYGSISVLVNNAGIESYGKIESMSMGEWRRIIDVNLFGYYYASKFAIPYMIRSRDPSIVNISSVQASIITKNASAYVTSKHAVIGLTKSIALDYAPLLRCNAVCPATIDTPLVRKAAELEVGSDPMRIEKKISEWGHEHPMQRIGKPQEVASAVAFLASREASFITGTCLYVDGGLSIRAPISTPE 2dtx-a1-m1-cB_2dtx-a1-m2-cB Structure of Thermoplasma acidophilum aldohexose dehydrogenase (AldT) in complex with D-mannose Q9HK51 Q9HK51 1.6 X-RAY DIFFRACTION 88 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 255 255 2dtd-a1-m1-cA_2dtd-a1-m2-cA 2dtd-a1-m1-cB_2dtd-a1-m2-cB 2dte-a1-m1-cA_2dte-a1-m2-cA 2dte-a1-m1-cB_2dte-a1-m2-cB 2dtx-a1-m1-cA_2dtx-a1-m2-cA GFSDLRDKVVIVTGASMGIGRAIAERFVDEGSKVIDLSIHDPGEAKYDHIECDVTNPDQVKASIDHIFKEYGSISVLVNNAGIESYGKIESMSMGEWRRIIDVNLFGYYYASKFAIPYMIRSRDPSIVNISSVQASIITKNASAYVTSKHAVIGLTKSIALDYAPLLRCNAVCPATIDTPLVRKAAELEVGSDPMRIEKKISEWGHEHPMQRIGKPQEVASAVAFLASREASFITGTCLYVDGGLSIRAPISTPE GFSDLRDKVVIVTGASMGIGRAIAERFVDEGSKVIDLSIHDPGEAKYDHIECDVTNPDQVKASIDHIFKEYGSISVLVNNAGIESYGKIESMSMGEWRRIIDVNLFGYYYASKFAIPYMIRSRDPSIVNISSVQASIITKNASAYVTSKHAVIGLTKSIALDYAPLLRCNAVCPATIDTPLVRKAAELEVGSDPMRIEKKISEWGHEHPMQRIGKPQEVASAVAFLASREASFITGTCLYVDGGLSIRAPISTPE 2dtx-a1-m2-cA_2dtx-a1-m2-cB Structure of Thermoplasma acidophilum aldohexose dehydrogenase (AldT) in complex with D-mannose Q9HK51 Q9HK51 1.6 X-RAY DIFFRACTION 101 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 255 255 2dtd-a1-m1-cA_2dtd-a1-m1-cB 2dtd-a1-m2-cA_2dtd-a1-m2-cB 2dte-a1-m1-cA_2dte-a1-m1-cB 2dte-a1-m2-cA_2dte-a1-m2-cB 2dtx-a1-m1-cA_2dtx-a1-m1-cB 2zk7-a1-m1-cA_2zk7-a1-m1-cB 2zk7-a1-m2-cA_2zk7-a1-m2-cB GFSDLRDKVVIVTGASMGIGRAIAERFVDEGSKVIDLSIHDPGEAKYDHIECDVTNPDQVKASIDHIFKEYGSISVLVNNAGIESYGKIESMSMGEWRRIIDVNLFGYYYASKFAIPYMIRSRDPSIVNISSVQASIITKNASAYVTSKHAVIGLTKSIALDYAPLLRCNAVCPATIDTPLVRKAAELEVGSDPMRIEKKISEWGHEHPMQRIGKPQEVASAVAFLASREASFITGTCLYVDGGLSIRAPISTPE GFSDLRDKVVIVTGASMGIGRAIAERFVDEGSKVIDLSIHDPGEAKYDHIECDVTNPDQVKASIDHIFKEYGSISVLVNNAGIESYGKIESMSMGEWRRIIDVNLFGYYYASKFAIPYMIRSRDPSIVNISSVQASIITKNASAYVTSKHAVIGLTKSIALDYAPLLRCNAVCPATIDTPLVRKAAELEVGSDPMRIEKKISEWGHEHPMQRIGKPQEVASAVAFLASREASFITGTCLYVDGGLSIRAPISTPE 2du3-a1-m1-cA_2du3-a1-m2-cA Crystal structure of Archaeoglobus fulgidus O-phosphoseryl-tRNA synthetase complexed with tRNACys and O-phosphoserine O30126 O30126 2.6 X-RAY DIFFRACTION 13 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 534 534 2du6-a1-m1-cA_2du6-a1-m2-cA MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNVGISAEKIRQIEAITKREVDSKPLQEIFHRYKKGEIDGDDLSYLIAEVLDVDDITAVKILDEVFPEFKELKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNVGISAEKIRQIEAITKREVDSKPLQEIFHRYKKGEIDGDDLSYLIAEVLDVDDITAVKILDEVFPEFKELKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE 2du3-a1-m1-cB_2du3-a1-m2-cA Crystal structure of Archaeoglobus fulgidus O-phosphoseryl-tRNA synthetase complexed with tRNACys and O-phosphoserine O30126 O30126 2.6 X-RAY DIFFRACTION 197 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 465 534 2du4-a1-m1-cB_2du4-a1-m2-cA 2du4-a1-m2-cB_2du4-a1-m1-cA 2du5-a1-m1-cB_2du5-a1-m2-cA 2du6-a1-m1-cB_2du6-a1-m2-cA MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNLKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNVGISAEKIRQIEAITKREVDSKPLQEIFHRYKKGEIDGDDLSYLIAEVLDVDDITAVKILDEVFPEFKELKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE 2du3-a1-m2-cB_2du3-a1-m1-cA Crystal structure of Archaeoglobus fulgidus O-phosphoseryl-tRNA synthetase complexed with tRNACys and O-phosphoserine O30126 O30126 2.6 X-RAY DIFFRACTION 197 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 465 534 2du5-a1-m2-cB_2du5-a1-m1-cA 2du6-a1-m2-cB_2du6-a1-m1-cA MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNLKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNVGISAEKIRQIEAITKREVDSKPLQEIFHRYKKGEIDGDDLSYLIAEVLDVDDITAVKILDEVFPEFKELKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE 2du3-a1-m2-cB_2du3-a1-m2-cA Crystal structure of Archaeoglobus fulgidus O-phosphoseryl-tRNA synthetase complexed with tRNACys and O-phosphoserine O30126 O30126 2.6 X-RAY DIFFRACTION 208 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 465 534 2du3-a1-m1-cB_2du3-a1-m1-cA 2du5-a1-m1-cB_2du5-a1-m1-cA 2du5-a1-m2-cB_2du5-a1-m2-cA 2du6-a1-m1-cB_2du6-a1-m1-cA 2du6-a1-m2-cB_2du6-a1-m2-cA MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNLKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNVGISAEKIRQIEAITKREVDSKPLQEIFHRYKKGEIDGDDLSYLIAEVLDVDDITAVKILDEVFPEFKELKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE 2du4-a1-m2-cB_2du4-a1-m2-cA Crystal structure of Archaeoglobus fulgidus O-phosphoseryl-tRNA synthetase complexed with tRNACys O30126 O30126 2.8 X-RAY DIFFRACTION 185 0.996 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 465 466 2du4-a1-m1-cB_2du4-a1-m1-cA MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKPNLKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE MKFDPQKYRELAEKDFEAAWKAGKEILAERSPNELYPRVGFSFGKEHPLFATIQRLREAYLSIGFSEVVNPLIVEDVHVKKQFGREALAVLDRCFYLATLPKFKELKPISSTLTLRSHMTTGWFITLSHIADKLPLPIKLFSIDRCFRREQGEDATRLYTYFSASCVLVDEELSVDDGKAVAEALLRQFGFENFRFRKDEKRSKYYIPDTQTEVFAFHPKLVGSSTKYSDGWIEIATFGIYSPTALAEYDIPYPVMNLGLGVERLAMILYGYDDVRKMVYPQIHGEIKLSDLDIAREIKVKEVPQTAVGLKIAQSIVETAEKHASEPSPCSFLAFEGEMMGRNVRVYVVEEEENTKLCGPAYANEVVVYKGDIYGIPKTKKWRSFFEEGVPTGIRYIDGFAYYAARKVEEAAMREQEEVKVKARIVENLSDINLYIHENVRRYILWKKGKIDVRGPLFVTVKAEIE 2du7-a2-m1-cA_2du7-a2-m2-cA Crystal structure of Methanococcus jannacshii O-phosphoseryl-tRNA synthetase Q59054 Q59054 3.6 X-RAY DIFFRACTION 228 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 539 539 MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK 2du7-a2-m1-cA_2du7-a2-m2-cB Crystal structure of Methanococcus jannacshii O-phosphoseryl-tRNA synthetase Q59054 Q59054 3.6 X-RAY DIFFRACTION 17 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 539 539 2du7-a2-m1-cB_2du7-a2-m2-cA MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK 2du7-a2-m1-cA_2du7-a2-m2-cC Crystal structure of Methanococcus jannacshii O-phosphoseryl-tRNA synthetase Q59054 Q59054 3.6 X-RAY DIFFRACTION 24 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 539 539 2du7-a2-m1-cC_2du7-a2-m2-cA MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK 2du7-a2-m2-cA_2du7-a2-m2-cD Crystal structure of Methanococcus jannacshii O-phosphoseryl-tRNA synthetase Q59054 Q59054 3.6 X-RAY DIFFRACTION 161 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 539 539 2du7-a1-m1-cA_2du7-a1-m1-cD 2du7-a1-m1-cB_2du7-a1-m1-cC 2du7-a2-m1-cA_2du7-a2-m1-cD 2du7-a2-m1-cB_2du7-a2-m1-cC 2du7-a2-m2-cB_2du7-a2-m2-cC 5x6c-a1-m1-cA_5x6c-a1-m2-cB 5x6c-a1-m1-cB_5x6c-a1-m2-cA MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK 2du7-a2-m2-cC_2du7-a2-m2-cD Crystal structure of Methanococcus jannacshii O-phosphoseryl-tRNA synthetase Q59054 Q59054 3.6 X-RAY DIFFRACTION 189 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 539 539 2du7-a1-m1-cA_2du7-a1-m1-cB 2du7-a1-m1-cC_2du7-a1-m1-cD 2du7-a2-m1-cA_2du7-a2-m1-cB 2du7-a2-m1-cC_2du7-a2-m1-cD 2du7-a2-m2-cA_2du7-a2-m2-cB 5x6c-a1-m1-cA_5x6c-a1-m2-cA 5x6c-a1-m1-cB_5x6c-a1-m2-cB MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK 2dud-a2-m2-cB_2dud-a2-m1-cA Crystal structure of human mitochondrial single-stranded DNA-binding protein(hmtSSB) Q04837 Q04837 2.7 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 95 2dud-a2-m1-cB_2dud-a2-m2-cA 3ull-a1-m1-cB_3ull-a1-m2-cB 6rup-a1-m1-cB_6rup-a1-m2-cB RSLNRVHLLGRVGQDPVLRNPVTIFSLATNEMQKTTWHRISVFRPGLRDVAYQYVKKGSRIYLEGKIDYGEYMDKNNVRRQATTIIADNIIF RSLNRVHLLGRVGQDPVLRNPVTIFSLATNEMWVSQKTTWHRISVFRPGLRDVAYQYVKKGSRIYLEGKIDYGEYMDKNNVRRQATTIIADNIIF 2dud-a2-m2-cB_2dud-a2-m2-cA Crystal structure of human mitochondrial single-stranded DNA-binding protein(hmtSSB) Q04837 Q04837 2.7 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 95 1s3o-a1-m1-cB_1s3o-a1-m1-cA 2dud-a1-m1-cB_2dud-a1-m1-cA 2dud-a2-m1-cB_2dud-a2-m1-cA 3ull-a1-m1-cB_3ull-a1-m1-cA 3ull-a1-m2-cB_3ull-a1-m2-cA RSLNRVHLLGRVGQDPVLRNPVTIFSLATNEMQKTTWHRISVFRPGLRDVAYQYVKKGSRIYLEGKIDYGEYMDKNNVRRQATTIIADNIIF RSLNRVHLLGRVGQDPVLRNPVTIFSLATNEMWVSQKTTWHRISVFRPGLRDVAYQYVKKGSRIYLEGKIDYGEYMDKNNVRRQATTIIADNIIF 2dum-a2-m1-cB_2dum-a2-m1-cC Crystal structure of hypothetical protein, PH0823 O58553 O58553 2.75 X-RAY DIFFRACTION 57 0.986 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 139 146 2dum-a1-m1-cD_2dum-a1-m1-cA MFRKVLFPTDFSEGAYRAVEVFEKRNKMEVGEVILLHVIDEGTLEELMDGYKDIKEKLKEEASRKLQEKAEEVKRAFRAKNVRTIIRFGIPWDEIVKVAEEENVSLIILPSRHEFLGSTVMRVLRKTKKPVLIIKEVDE MFRKVLFPTDFSEGAYRAVEVFEKRNKMEVGEVILLHVIDEGTLEELMDLKDIKEKLKEEASRKLQEKAEEVKRAFRAKNVRTIIRFGIPWDEIVKVAEEENVSLIILPSRGKLSLSHEFLGSTVMRVLRKTKKPVLIIKEVDENE 2duy-a2-m1-cA_2duy-a2-m2-cA Crystal structure of competence protein ComEA-related protein from Thermus thermophilus HB8 Q5SGW3 Q5SGW3 1.75 X-RAY DIFFRACTION 25 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 64 64 PLPQAQTPVSLNEASLEELALPGIGPVLARRIVEGRPYARVEDLLKVKGIGPATLERLRPYLRP PLPQAQTPVSLNEASLEELALPGIGPVLARRIVEGRPYARVEDLLKVKGIGPATLERLRPYLRP 2dv6-a1-m1-cB_2dv6-a1-m1-cF Crystal structure of nitrite reductase from Hyphomicrobium denitrificans Q8KKH4 Q8KKH4 2.2 X-RAY DIFFRACTION 47 1.0 53399 (Hyphomicrobium denitrificans) 53399 (Hyphomicrobium denitrificans) 422 422 2dv6-a1-m1-cA_2dv6-a1-m1-cD 2dv6-a1-m1-cC_2dv6-a1-m1-cE HAPVVFTLRTGIAEGRMVYIGVGGDIDHKINPTLVVHEGETVQVNLVNGEGAQHDVVVDQYAARSAIVNGKNASSTFSFVASKVGEFNYYCSIAGHRQAGMEGNIQVLPGNRAEMKSSGADITRDPADLPGPIGPRQAKTVRIDLETVEVKGQLDDNTTYTYWTFNGKVPGPFLRVRVGDTVELHLKNHKDSLMVHSVDFHGATGPGGAAAFTQTDPGEETVVTFKALIPGIYVYHCATPSVPTHITNGMYGLLLVEPEGGLPQVDREFYVMQGEIYTVKSFGTSGEQEMDYEKLINEKPEYFLFNGSVGSLTRSHPLYASVGETVRIFFGVGGPNFTSSFHVIGEIFDHVYSLGSVVSPPLIGVQTVSVPPGGATIVDFKIDRAGRYILVDHALSRLEHGLVGFLNVDGPKNDSIMHEGPA HAPVVFTLRTGIAEGRMVYIGVGGDIDHKINPTLVVHEGETVQVNLVNGEGAQHDVVVDQYAARSAIVNGKNASSTFSFVASKVGEFNYYCSIAGHRQAGMEGNIQVLPGNRAEMKSSGADITRDPADLPGPIGPRQAKTVRIDLETVEVKGQLDDNTTYTYWTFNGKVPGPFLRVRVGDTVELHLKNHKDSLMVHSVDFHGATGPGGAAAFTQTDPGEETVVTFKALIPGIYVYHCATPSVPTHITNGMYGLLLVEPEGGLPQVDREFYVMQGEIYTVKSFGTSGEQEMDYEKLINEKPEYFLFNGSVGSLTRSHPLYASVGETVRIFFGVGGPNFTSSFHVIGEIFDHVYSLGSVVSPPLIGVQTVSVPPGGATIVDFKIDRAGRYILVDHALSRLEHGLVGFLNVDGPKNDSIMHEGPA 2dv6-a1-m1-cE_2dv6-a1-m1-cF Crystal structure of nitrite reductase from Hyphomicrobium denitrificans Q8KKH4 Q8KKH4 2.2 X-RAY DIFFRACTION 206 1.0 53399 (Hyphomicrobium denitrificans) 53399 (Hyphomicrobium denitrificans) 422 422 2dv6-a1-m1-cA_2dv6-a1-m1-cB 2dv6-a1-m1-cA_2dv6-a1-m1-cC 2dv6-a1-m1-cB_2dv6-a1-m1-cC 2dv6-a1-m1-cD_2dv6-a1-m1-cE 2dv6-a1-m1-cD_2dv6-a1-m1-cF HAPVVFTLRTGIAEGRMVYIGVGGDIDHKINPTLVVHEGETVQVNLVNGEGAQHDVVVDQYAARSAIVNGKNASSTFSFVASKVGEFNYYCSIAGHRQAGMEGNIQVLPGNRAEMKSSGADITRDPADLPGPIGPRQAKTVRIDLETVEVKGQLDDNTTYTYWTFNGKVPGPFLRVRVGDTVELHLKNHKDSLMVHSVDFHGATGPGGAAAFTQTDPGEETVVTFKALIPGIYVYHCATPSVPTHITNGMYGLLLVEPEGGLPQVDREFYVMQGEIYTVKSFGTSGEQEMDYEKLINEKPEYFLFNGSVGSLTRSHPLYASVGETVRIFFGVGGPNFTSSFHVIGEIFDHVYSLGSVVSPPLIGVQTVSVPPGGATIVDFKIDRAGRYILVDHALSRLEHGLVGFLNVDGPKNDSIMHEGPA HAPVVFTLRTGIAEGRMVYIGVGGDIDHKINPTLVVHEGETVQVNLVNGEGAQHDVVVDQYAARSAIVNGKNASSTFSFVASKVGEFNYYCSIAGHRQAGMEGNIQVLPGNRAEMKSSGADITRDPADLPGPIGPRQAKTVRIDLETVEVKGQLDDNTTYTYWTFNGKVPGPFLRVRVGDTVELHLKNHKDSLMVHSVDFHGATGPGGAAAFTQTDPGEETVVTFKALIPGIYVYHCATPSVPTHITNGMYGLLLVEPEGGLPQVDREFYVMQGEIYTVKSFGTSGEQEMDYEKLINEKPEYFLFNGSVGSLTRSHPLYASVGETVRIFFGVGGPNFTSSFHVIGEIFDHVYSLGSVVSPPLIGVQTVSVPPGGATIVDFKIDRAGRYILVDHALSRLEHGLVGFLNVDGPKNDSIMHEGPA 2dvk-a1-m1-cA_2dvk-a1-m2-cA Crystal Structure of Hypothetical protein from Aeropyrum pernix Q9YDV3 Q9YDV3 1.8 X-RAY DIFFRACTION 86 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 166 166 DPGAEKVLARINRPSKIVSTSSCTGRITLIEGEAHWLRVAYKTHHPISRSEVERVLRRGFTNLWLKVTGPILHLRVEGWQCAKSLLEAARRNGFKHSGVISIAEDSRLVIEIMSSQSMSVPLVMEGARIVGDDALDMLIEKANTILVESRIGLDTFSREVEELVEC DPGAEKVLARINRPSKIVSTSSCTGRITLIEGEAHWLRVAYKTHHPISRSEVERVLRRGFTNLWLKVTGPILHLRVEGWQCAKSLLEAARRNGFKHSGVISIAEDSRLVIEIMSSQSMSVPLVMEGARIVGDDALDMLIEKANTILVESRIGLDTFSREVEELVEC 2dvl-a2-m1-cB_2dvl-a2-m2-cB Crystal structure of project TT0160 from Thermus thermophilus HB8 Q5SH14 Q5SH14 2.5 X-RAY DIFFRACTION 99 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 370 370 2dvl-a2-m1-cA_2dvl-a2-m2-cA LTQEQRLVLDAVRRVAREVLYPLAPEYDRKAEYPWPQLKALAELGLLGMTTPEEWGGVGLDSVTWALALEELAAADPSVAVIVSVTSGLPQYMLLRFGSEAQKRRYLVPLARGEWIGAFCLTEPQAGSDAKSLRAEARRVKGGFVLNGVKSWITSAGHAHLYVVMARTEKGISAFLVEKGTPGLSFGRPEEKMGLHAAHTAEVRLEEVFVPEENLLGEEGRGLAYALAGLDSGRVGVAAQAVGIARGAFEIAKAYAEEREQFGKKLKEHQAIAFKIADMHVKIAAARALVLEAARKKDRGERFTLEASAAKLFASAAAVEVTREAVQVLGGYGYHRDYRVERYYRDAKVTEIYEGTSEIQRLVIARELYR LTQEQRLVLDAVRRVAREVLYPLAPEYDRKAEYPWPQLKALAELGLLGMTTPEEWGGVGLDSVTWALALEELAAADPSVAVIVSVTSGLPQYMLLRFGSEAQKRRYLVPLARGEWIGAFCLTEPQAGSDAKSLRAEARRVKGGFVLNGVKSWITSAGHAHLYVVMARTEKGISAFLVEKGTPGLSFGRPEEKMGLHAAHTAEVRLEEVFVPEENLLGEEGRGLAYALAGLDSGRVGVAAQAVGIARGAFEIAKAYAEEREQFGKKLKEHQAIAFKIADMHVKIAAARALVLEAARKKDRGERFTLEASAAKLFASAAAVEVTREAVQVLGGYGYHRDYRVERYYRDAKVTEIYEGTSEIQRLVIARELYR 2dvl-a2-m2-cA_2dvl-a2-m2-cB Crystal structure of project TT0160 from Thermus thermophilus HB8 Q5SH14 Q5SH14 2.5 X-RAY DIFFRACTION 80 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 370 370 2dvl-a1-m1-cA_2dvl-a1-m1-cB 2dvl-a2-m1-cA_2dvl-a2-m1-cB LTQEQRLVLDAVRRVAREVLYPLAPEYDRKAEYPWPQLKALAELGLLGMTTPEEWGGVGLDSVTWALALEELAAADPSVAVIVSVTSGLPQYMLLRFGSEAQKRRYLVPLARGEWIGAFCLTEPQAGSDAKSLRAEARRVKGGFVLNGVKSWITSAGHAHLYVVMARTEKGISAFLVEKGTPGLSFGRPEEKMGLHAAHTAEVRLEEVFVPEENLLGEEGRGLAYALAGLDSGRVGVAAQAVGIARGAFEIAKAYAEEREQFGKKLKEHQAIAFKIADMHVKIAAARALVLEAARKKDRGERFTLEASAAKLFASAAAVEVTREAVQVLGGYGYHRDYRVERYYRDAKVTEIYEGTSEIQRLVIARELYR LTQEQRLVLDAVRRVAREVLYPLAPEYDRKAEYPWPQLKALAELGLLGMTTPEEWGGVGLDSVTWALALEELAAADPSVAVIVSVTSGLPQYMLLRFGSEAQKRRYLVPLARGEWIGAFCLTEPQAGSDAKSLRAEARRVKGGFVLNGVKSWITSAGHAHLYVVMARTEKGISAFLVEKGTPGLSFGRPEEKMGLHAAHTAEVRLEEVFVPEENLLGEEGRGLAYALAGLDSGRVGVAAQAVGIARGAFEIAKAYAEEREQFGKKLKEHQAIAFKIADMHVKIAAARALVLEAARKKDRGERFTLEASAAKLFASAAAVEVTREAVQVLGGYGYHRDYRVERYYRDAKVTEIYEGTSEIQRLVIARELYR 2dvm-a2-m1-cD_2dvm-a2-m1-cC NAD complex structure of PH1275 protein from Pyrococcus horikoshii O59029 O59029 1.6 X-RAY DIFFRACTION 367 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 436 438 1ww8-a1-m1-cA_1ww8-a1-m1-cB 2dvm-a1-m1-cB_2dvm-a1-m1-cA IREKALEFHKNNFPGNGKIEVIPKVSLESREELTLAYTPGVAEPCKEIARDPGKVYEYTSKGNLVAVVSDGSRILGLGNIGPLAGLPVMEGKALLFKRFGGVDAFPIMIKEQEPNKFIDIVKAIAPTFGGINLEDIASPKCFYILERLREELDIPVFHDDQQGTAAVVLAGLLNALKVVGKKISEITLALFGAGAAGFATLRILTEAGVKPENVRVVELVNGKPRILTSDLDLEKLFPYRGWLLKKTNGENIEGGPQEALKDADVLISFTRPGPGVIKPQWIEKMNEDAIVFPLANPVPEILPEEAKKAGARIVATGRSDYPNQINNLLGFPGIFRGALDVRARTITDSMIIAAAKAIASIVEEPSEENIIPSPLNPIVYAREARAVAEEAMKEGVARTKVKGEWVEEHTIRLIEFYENVIAPINKKRREYSKAIT IREKALEFHKNNFPGNGKIEVIPKVSLESREELTLAYTPGVAEPCKEIARDPGKVYEYTSKGNLVAVVSDGSRILGLGNIGPLAGLPVMEGKALLFKRFGGVDAFPIMIKEQEPNKFIDIVKAIAPTFGGINLEDIASPKCFYILERLREELDIPVFHDDQQGTAAVVLAGLLNALKVVGKKISEITLALFGAGAAGFATLRILTEAGVKPENVRVVELVNGKPRILTSDLDLEKLFPYRGWLLKKTNGENIEGGPQEALKDADVLISFTRPGPGVIKPQWIEKMNEDAIVFPLANPVPEILPEEAKKAGARIVATGRSDYPNQINNLLGFPGIFRGALDVRARTITDSMIIAAAKAIASIVEEPSEENIIPSPLNPIVYAREARAVAEEAMKEGVARTKVKGEWVEEHTIRLIEFYENVIAPINKKRREYSKAITRA 2dvn-a1-m1-cA_2dvn-a1-m1-cB Structure of PH1917 protein with the complex of IMP from Pyrococcus horikoshii O59580 O59580 1.6 X-RAY DIFFRACTION 25 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 186 186 MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNLKY MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNLKY 2dvp-a1-m1-cA_2dvp-a1-m2-cA Structure of NTPase from Pyroccous horikoshii O59580 O59580 1.9 X-RAY DIFFRACTION 24 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 184 184 MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNL MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNL 2dvx-a1-m1-cD_2dvx-a1-m1-cB Crystal Structure of 2,6-Dihydroxybenzoate Decarboxylase Complexed with inhibitor 2,3-dihydroxybenzaldehyde Q60GU1 Q60GU1 1.7 X-RAY DIFFRACTION 44 1.0 267998 (Rhizobium sp. MTP-10005) 267998 (Rhizobium sp. MTP-10005) 321 324 2dvt-a1-m1-cC_2dvt-a1-m1-cA 2dvt-a1-m1-cD_2dvt-a1-m1-cB 2dvu-a1-m1-cC_2dvu-a1-m1-cA 2dvu-a1-m1-cD_2dvu-a1-m1-cB 2dvx-a1-m1-cC_2dvx-a1-m1-cA MQGKVALEEHFAIPETLQDSVPGDYWKELQHRLLDIQDTRLKLMDAHGIETMILSLNAPAVQAIPDRRKAIEIARRANDVLAEECAKRPDRFLAFAALPLQDPDAATEELQRCVNDLGFVGALVNGFSQEGDGQTPLYYDLPQYRPFWGEVEKLDVPFYLHPRNPLPQDSRIYDGHPWLLGPTWAFAQETAVHALRLMASGLFDEHPRLNIILGHMGEGLPYMMWRIDHRNAWVKLPPRYPAKRRFMDYFNENFHITTSGNFRTQTLIDAILEIGADRILFSTDWPFENIDHASDWFNATSIAEADRVKIGRTNARRLFKL MQGKVALEEHFAIPETLQDSAGFVPGDYWKELQHRLLDIQDTRLKLMDAHGIETMILSLNAPAVQAIPDRRKAIEIARRANDVLAEECAKRPDRFLAFAALPLQDPDAATEELQRCVNDLGFVGALVNGFSQEGDGQTPLYYDLPQYRPFWGEVEKLDVPFYLHPRNPLPQDSRIYDGHPWLLGPTWAFAQETAVHALRLMASGLFDEHPRLNIILGHMGEGLPYMMWRIDHRNAWVKLPPRYPAKRRFMDYFNENFHITTSGNFRTQTLIDAILEIGADRILFSTDWPFENIDHASDWFNATSIAEADRVKIGRTNARRLFKL 2dvx-a1-m1-cD_2dvx-a1-m1-cC Crystal Structure of 2,6-Dihydroxybenzoate Decarboxylase Complexed with inhibitor 2,3-dihydroxybenzaldehyde Q60GU1 Q60GU1 1.7 X-RAY DIFFRACTION 163 1.0 267998 (Rhizobium sp. MTP-10005) 267998 (Rhizobium sp. MTP-10005) 321 323 2dvt-a1-m1-cB_2dvt-a1-m1-cA 2dvt-a1-m1-cD_2dvt-a1-m1-cC 2dvu-a1-m1-cB_2dvu-a1-m1-cA 2dvu-a1-m1-cD_2dvu-a1-m1-cC 2dvx-a1-m1-cB_2dvx-a1-m1-cA MQGKVALEEHFAIPETLQDSVPGDYWKELQHRLLDIQDTRLKLMDAHGIETMILSLNAPAVQAIPDRRKAIEIARRANDVLAEECAKRPDRFLAFAALPLQDPDAATEELQRCVNDLGFVGALVNGFSQEGDGQTPLYYDLPQYRPFWGEVEKLDVPFYLHPRNPLPQDSRIYDGHPWLLGPTWAFAQETAVHALRLMASGLFDEHPRLNIILGHMGEGLPYMMWRIDHRNAWVKLPPRYPAKRRFMDYFNENFHITTSGNFRTQTLIDAILEIGADRILFSTDWPFENIDHASDWFNATSIAEADRVKIGRTNARRLFKL MQGKVALEEHFAIPETLQDSVPGDYWKELQHRLLDIQDTRLKLMDAHGIETMILSLNAPAVQAIPDRRKAIEIARRANDVLAEECAKRPDRFLAFAALPLQDPDAATEELQRCVNDLGFVGALVNGFSQEGDGQTPLYYDLPQYRPFWGEVEKLDVPFYLHPRNPLPQDSRIYDGHPWLLGPTWAFAQETAVHALRLMASGLFDEHPRLNIILGHMGEGLPYMMWRIDHRNAWVKLPPRYPAKRRFMDYFNENFHITTSGNFRTQTLIDAILEIGADRILFSTDWPFENIDHASDWFNATSIAEADRVKIGRTNARRLFKLDG 2dvy-a4-m1-cC_2dvy-a4-m1-cA Crystal structure of restriction endonucleases PabI Q9V2B6 Q9V2B6 3 X-RAY DIFFRACTION 47 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 218 223 MIHLTSVEASVSFENGKIVVRLPITRPTSKIRVKKIENGVGIPVSTRKKSFPSDENLRDYYIEWQISYARDGKYDYELSRMVRLAHEHGILTYNDIYELLKFADDVKSYLEDKGIRRESTNEELYGFNIYEDVYPVAKKELPSGEFIGIVLKHGYQSMVYVCIPLTNVEPSLAGRVARRNEVVKYEVPVDLMKELLKAFIIASETHKNDIVKFLRSII MIHLTSVEASVSFENGKIVVRLPITRPTSKIRVKKIENGVGIPVSTRKKSFPSDENLRDYYIEWQISYARDGKYDYELSRMVRLAHEHGILTYNDIYELLKFADDVKSYLEDKGIRRESTNEELYGFNIYEDVYPVAKKELPSGEFIGIVLKHKQRAVGYQSMVYVCIPLTNVEPSLAGRVARRNEVVKYEVPVDLMKELLKAFIIASETHKNDIVKFLRSII 2dvy-a4-m1-cD_2dvy-a4-m1-cA Crystal structure of restriction endonucleases PabI Q9V2B6 Q9V2B6 3 X-RAY DIFFRACTION 17 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 214 223 EASVSFENGKIVVRLPITRPTSKIRVKKIENGVGIPVSTRKKSFPSDENLRDYYIEWQISYARDGKYDYELSRMVRLAHEHGILTYNDIYELLKFADDVKSYLEDKGIRRESTNEELYGFNIYEDVYPVAKKELPSGEFIGIVLKHKQRAVGYQSMVYVCIPLTNVEPSLAGRVARRNEVVKYEVPVDLMKELLKAFIIASETHKNDIVKFLRS MIHLTSVEASVSFENGKIVVRLPITRPTSKIRVKKIENGVGIPVSTRKKSFPSDENLRDYYIEWQISYARDGKYDYELSRMVRLAHEHGILTYNDIYELLKFADDVKSYLEDKGIRRESTNEELYGFNIYEDVYPVAKKELPSGEFIGIVLKHKQRAVGYQSMVYVCIPLTNVEPSLAGRVARRNEVVKYEVPVDLMKELLKAFIIASETHKNDIVKFLRSII 2dvz-a2-m1-cA_2dvz-a2-m2-cA Structure of a periplasmic transporter Q7W0A0 Q7W0A0 2.3 X-RAY DIFFRACTION 12 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 292 292 AYPSKAIRVIVPFAPGGSTDIIARLVTQRSQELGQPVVENKGGAGGAIGASEAARAEPDGYTLSIATVSTAVNPACRPKDLPYDPIKDFQPVTNFANTANVVAVNPKFPAKDFKGFLEELKKNPGKYSYGSSGTCGVLHLGESFKATGTDIVHVPYKGSGPAVADAVGGQIELIFDNLPSSPQIQAGKLRAAIAWPTRIDAIKDVPTFADAGFPVLNQPVWYGLLAPKGTPDVVNKLRDAAVVALKDPKVIKALDDQGSAPSGNTPEEFAKEIKEQYDWAQDVVKKQNIKLD AYPSKAIRVIVPFAPGGSTDIIARLVTQRSQELGQPVVENKGGAGGAIGASEAARAEPDGYTLSIATVSTAVNPACRPKDLPYDPIKDFQPVTNFANTANVVAVNPKFPAKDFKGFLEELKKNPGKYSYGSSGTCGVLHLGESFKATGTDIVHVPYKGSGPAVADAVGGQIELIFDNLPSSPQIQAGKLRAAIAWPTRIDAIKDVPTFADAGFPVLNQPVWYGLLAPKGTPDVVNKLRDAAVVALKDPKVIKALDDQGSAPSGNTPEEFAKEIKEQYDWAQDVVKKQNIKLD 2dw6-a2-m1-cC_2dw6-a2-m1-cD Crystal structure of the mutant K184A of D-Tartrate Dehydratase from Bradyrhizobium japonicum complexed with Mg++ and D-tartrate Q89FH0 Q89FH0 2.3 X-RAY DIFFRACTION 112 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 388 388 2dw6-a1-m1-cA_2dw6-a1-m1-cB 2dw7-a1-m1-cA_2dw7-a1-m1-cB 2dw7-a2-m1-cC_2dw7-a2-m1-cD 2dw7-a3-m1-cE_2dw7-a3-m1-cF 2dw7-a4-m1-cG_2dw7-a4-m1-cH 2dw7-a5-m1-cI_2dw7-a5-m1-cJ 2dw7-a6-m1-cK_2dw7-a6-m1-cL 2dw7-a7-m1-cM_2dw7-a7-m1-cN 2dw7-a8-m1-cO_2dw7-a8-m1-cP SVRIVDVREITKPISSPIRNAYIDFTKMTTSLVAVVTDVVREGKRVVGYGFNSNGRYGQGGLIRERFASRILEADPKKLLNEAGDNLDPDKVWAAMMINEKPGGHGERSVAVGTIDMAVWDAVAKIAGKPLFRLLAERHGVKANPRVFVYAAGGYYYPGKGLSMLRGEMRGYLDRGYNVVKMAIGGAPIEEDRMRIEAVLEEIGKDAQLAVDANGRFNLETGIAYAKMLRDYPLFWYEEVGDPLDYALQAALAEFYPGPMATGENLFSHQDARNLLRYGGMRPDRDWLQFDCALSYGLCEYQRTLEVLKTHGWSPSRCIPHGGHQMSLNIAAGLGLGGNESYPDLFQPYGGFPDGVRVENGHITMPDLPGIGFEGKSDLYKEMKALAE SVRIVDVREITKPISSPIRNAYIDFTKMTTSLVAVVTDVVREGKRVVGYGFNSNGRYGQGGLIRERFASRILEADPKKLLNEAGDNLDPDKVWAAMMINEKPGGHGERSVAVGTIDMAVWDAVAKIAGKPLFRLLAERHGVKANPRVFVYAAGGYYYPGKGLSMLRGEMRGYLDRGYNVVKMAIGGAPIEEDRMRIEAVLEEIGKDAQLAVDANGRFNLETGIAYAKMLRDYPLFWYEEVGDPLDYALQAALAEFYPGPMATGENLFSHQDARNLLRYGGMRPDRDWLQFDCALSYGLCEYQRTLEVLKTHGWSPSRCIPHGGHQMSLNIAAGLGLGGNESYPDLFQPYGGFPDGVRVENGHITMPDLPGIGFEGKSDLYKEMKALAE 2dwc-a2-m1-cA_2dwc-a2-m2-cB Crystal structure of Probable phosphoribosylglycinamide formyl transferase from Pyrococcus horikoshii OT3 complexed with ADP O58056 O58056 1.7 X-RAY DIFFRACTION 18 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 406 409 2dwc-a2-m2-cA_2dwc-a2-m1-cB VVMIKLRDELGTATTDSAQKILLLGSGELGKEIAIEAQRLGVEVVAVDRYANAPAMQVAHRSYVGNMMDKDFLWSVVEREKPDAIIPEIEAINLDALFEFEKDGYFVVPNARATWIAMHRERLRETLVKEAKVPTSRYMYATTLDELYEACEKIGYPCHTKAIMSYFVKGPEDIPKAWEEEKIIVEEHIDFDVEVTELAVRHFDENGEIVTTFPKPVGHYQIDGDYHASWQPAEISEKAEREVYRIAKRITDVLGGLGIFGVEMFVKGDKVWANEVSPRPHDTGMVTLASHPPGFSEFALHLRAVLGLPIPGEWVDGYRLFPMLIPAATHVIKAKVSGYSPRFRGLVKALSVPNATVRLFGKPEAYVGRRLGIALAWDKDVEVAKRKAEMVAHMIELRTRSSDWHD VVMIKLRDELGTATTDSAQKILLLGSGELGKEIAIEAQRLGVEVVAVDRYANAPAMQVAHRSYVGNMMDKDFLWSVVEREKPDAIIPEIEAINLDALFEFEKDGYFVVPNARATWIAMHRERLRETLVKEAKVPTSRYMYATTLDELYEACEKIGYPCHTKAIMSGSYFVKGPEDIPKAWEEEKIIVEEHIDFDVEVTELAVRHFDENGEIVTTFPKPVGHYQIDGDYHASWQPAEISEKAEREVYRIAKRITDVLGGLGIFGVEMFVKGDKVWANEVSPRPHDTGMVTLASHPPGFSEFALHLRAVLGLPIPGEWVDGYRLFPMLIPAATHVIKAKVSGYSPRFRGLVKALSVPNATVRLFGKPEAYVGRRLGIALAWDKDVEVAKRKAEMVAHMIELRTRSSDWHDQ 2dwc-a2-m1-cB_2dwc-a2-m2-cB Crystal structure of Probable phosphoribosylglycinamide formyl transferase from Pyrococcus horikoshii OT3 complexed with ADP O58056 O58056 1.7 X-RAY DIFFRACTION 46 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 409 409 2dwc-a2-m1-cA_2dwc-a2-m2-cA VVMIKLRDELGTATTDSAQKILLLGSGELGKEIAIEAQRLGVEVVAVDRYANAPAMQVAHRSYVGNMMDKDFLWSVVEREKPDAIIPEIEAINLDALFEFEKDGYFVVPNARATWIAMHRERLRETLVKEAKVPTSRYMYATTLDELYEACEKIGYPCHTKAIMSGSYFVKGPEDIPKAWEEEKIIVEEHIDFDVEVTELAVRHFDENGEIVTTFPKPVGHYQIDGDYHASWQPAEISEKAEREVYRIAKRITDVLGGLGIFGVEMFVKGDKVWANEVSPRPHDTGMVTLASHPPGFSEFALHLRAVLGLPIPGEWVDGYRLFPMLIPAATHVIKAKVSGYSPRFRGLVKALSVPNATVRLFGKPEAYVGRRLGIALAWDKDVEVAKRKAEMVAHMIELRTRSSDWHDQ VVMIKLRDELGTATTDSAQKILLLGSGELGKEIAIEAQRLGVEVVAVDRYANAPAMQVAHRSYVGNMMDKDFLWSVVEREKPDAIIPEIEAINLDALFEFEKDGYFVVPNARATWIAMHRERLRETLVKEAKVPTSRYMYATTLDELYEACEKIGYPCHTKAIMSGSYFVKGPEDIPKAWEEEKIIVEEHIDFDVEVTELAVRHFDENGEIVTTFPKPVGHYQIDGDYHASWQPAEISEKAEREVYRIAKRITDVLGGLGIFGVEMFVKGDKVWANEVSPRPHDTGMVTLASHPPGFSEFALHLRAVLGLPIPGEWVDGYRLFPMLIPAATHVIKAKVSGYSPRFRGLVKALSVPNATVRLFGKPEAYVGRRLGIALAWDKDVEVAKRKAEMVAHMIELRTRSSDWHDQ 2dwc-a2-m2-cA_2dwc-a2-m2-cB Crystal structure of Probable phosphoribosylglycinamide formyl transferase from Pyrococcus horikoshii OT3 complexed with ADP O58056 O58056 1.7 X-RAY DIFFRACTION 188 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 406 409 2czg-a1-m1-cB_2czg-a1-m1-cA 2dwc-a1-m1-cA_2dwc-a1-m1-cB 2dwc-a2-m1-cA_2dwc-a2-m1-cB VVMIKLRDELGTATTDSAQKILLLGSGELGKEIAIEAQRLGVEVVAVDRYANAPAMQVAHRSYVGNMMDKDFLWSVVEREKPDAIIPEIEAINLDALFEFEKDGYFVVPNARATWIAMHRERLRETLVKEAKVPTSRYMYATTLDELYEACEKIGYPCHTKAIMSYFVKGPEDIPKAWEEEKIIVEEHIDFDVEVTELAVRHFDENGEIVTTFPKPVGHYQIDGDYHASWQPAEISEKAEREVYRIAKRITDVLGGLGIFGVEMFVKGDKVWANEVSPRPHDTGMVTLASHPPGFSEFALHLRAVLGLPIPGEWVDGYRLFPMLIPAATHVIKAKVSGYSPRFRGLVKALSVPNATVRLFGKPEAYVGRRLGIALAWDKDVEVAKRKAEMVAHMIELRTRSSDWHD VVMIKLRDELGTATTDSAQKILLLGSGELGKEIAIEAQRLGVEVVAVDRYANAPAMQVAHRSYVGNMMDKDFLWSVVEREKPDAIIPEIEAINLDALFEFEKDGYFVVPNARATWIAMHRERLRETLVKEAKVPTSRYMYATTLDELYEACEKIGYPCHTKAIMSGSYFVKGPEDIPKAWEEEKIIVEEHIDFDVEVTELAVRHFDENGEIVTTFPKPVGHYQIDGDYHASWQPAEISEKAEREVYRIAKRITDVLGGLGIFGVEMFVKGDKVWANEVSPRPHDTGMVTLASHPPGFSEFALHLRAVLGLPIPGEWVDGYRLFPMLIPAATHVIKAKVSGYSPRFRGLVKALSVPNATVRLFGKPEAYVGRRLGIALAWDKDVEVAKRKAEMVAHMIELRTRSSDWHDQ 2dwn-a3-m2-cB_2dwn-a3-m1-cA Crystal structure of the PriA protein complexed with oligonucleotides P17888 P17888 3.35 X-RAY DIFFRACTION 37 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 104 105 2d7e-a3-m1-cB_2d7e-a3-m2-cA 2d7e-a3-m2-cB_2d7e-a3-m1-cA 2d7e-a4-m1-cC_2d7e-a4-m3-cC 2d7e-a4-m1-cD_2d7e-a4-m3-cD 2dwn-a3-m1-cB_2dwn-a3-m2-cA 2dwn-a4-m1-cC_2dwn-a4-m3-cC 2dwn-a4-m1-cD_2dwn-a4-m3-cD MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILL MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLR 2dwn-a4-m3-cD_2dwn-a4-m3-cC Crystal structure of the PriA protein complexed with oligonucleotides P17888 P17888 3.35 X-RAY DIFFRACTION 163 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 103 105 2d7e-a1-m1-cB_2d7e-a1-m1-cA 2d7e-a2-m1-cD_2d7e-a2-m1-cC 2d7e-a3-m1-cB_2d7e-a3-m1-cA 2d7e-a3-m2-cB_2d7e-a3-m2-cA 2d7e-a4-m1-cD_2d7e-a4-m1-cC 2d7e-a4-m3-cD_2d7e-a4-m3-cC 2d7g-a1-m1-cA_2d7g-a1-m1-cB 2d7g-a2-m1-cD_2d7g-a2-m1-cC 2d7h-a1-m1-cD_2d7h-a1-m1-cC 2dwl-a1-m1-cB_2dwl-a1-m1-cA 2dwl-a2-m1-cD_2dwl-a2-m1-cC 2dwm-a1-m1-cB_2dwm-a1-m1-cA 2dwm-a2-m1-cD_2dwm-a2-m1-cC 2dwn-a1-m1-cB_2dwn-a1-m1-cA 2dwn-a2-m1-cD_2dwn-a2-m1-cC 2dwn-a3-m1-cB_2dwn-a3-m1-cA 2dwn-a3-m2-cB_2dwn-a3-m2-cA 2dwn-a4-m1-cD_2dwn-a4-m1-cC PVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILL MPVAHVALPVPLPRTFDYLLPEGMTVKAGCRVRVPFGKQQERIGIVVSVSDASELPLNELKAVVEVLDSEPVFTHSVWRLLLWAADYYHHPIGDVLFHALPILLR 2dwo-a1-m1-cA_2dwo-a1-m2-cA PFKFB3 in complex with ADP and PEP Q16875 Q16875 2.25 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 449 449 2dwp-a1-m1-cA_2dwp-a1-m2-cA 2i1v-a1-m1-cB_2i1v-a1-m2-cB 3qpu-a1-m1-cA_3qpu-a1-m2-cA 3qpv-a1-m1-cA_3qpv-a1-m2-cA 3qpw-a1-m1-cA_3qpw-a1-m2-cA 4d4j-a1-m1-cA_4d4j-a1-m2-cA 4d4k-a1-m1-cA_4d4k-a1-m2-cA 4d4l-a1-m1-cA_4d4l-a1-m2-cA 4d4m-a1-m1-cA_4d4m-a1-m2-cA 4ma4-a1-m1-cA_4ma4-a1-m2-cA 5ajv-a1-m1-cB_5ajv-a1-m2-cB 5ajw-a1-m1-cA_5ajw-a1-m2-cA 5ajx-a1-m1-cA_5ajx-a1-m2-cA 5ajy-a1-m1-cA_5ajy-a1-m2-cA 5ajz-a1-m1-cA_5ajz-a1-m2-cA 5ak0-a1-m1-cA_5ak0-a1-m2-cA 6etj-a1-m1-cA_6etj-a1-m2-cA LELTQSRVQKIWVPVDHRPSLPRSCGPNSPTVIVMVGLPARGKTYISKKLTRYLNWIGVPTKVFNVGEYRREAVKQYSSYNFFRPDNEEAMKVRKQCALAALRDVKSYLAKEGGQIAVFDATNTTRERRHMILHFAKENDFKAFFIESVCDDPTVVASNIMEVKISSPDYKDCNSAEAMDDFMKRISCYEASYQPLDPDKCDRDLSLIKVIDVGRRFLVNRVQDHIQSRIVYYLMNIHVQPRTIYLCRHGENEHNLQGRIGGDSGLSSRGKKFASALSKFVEEQNLKDLRVWTSQLKSTIQTAEALRLPYEQWKALNEIDAGVCEELTYEEIRDTYPEEYALREQDKYYYRYPTGESYQDLVQRLEPVIMELERQENVLVICHQAVLRCLLAYFLDKSAEEMPYLKCPLHTVLKLTPVAYGCRVESIYLNVESVCTHRERSNPLMRRNS LELTQSRVQKIWVPVDHRPSLPRSCGPNSPTVIVMVGLPARGKTYISKKLTRYLNWIGVPTKVFNVGEYRREAVKQYSSYNFFRPDNEEAMKVRKQCALAALRDVKSYLAKEGGQIAVFDATNTTRERRHMILHFAKENDFKAFFIESVCDDPTVVASNIMEVKISSPDYKDCNSAEAMDDFMKRISCYEASYQPLDPDKCDRDLSLIKVIDVGRRFLVNRVQDHIQSRIVYYLMNIHVQPRTIYLCRHGENEHNLQGRIGGDSGLSSRGKKFASALSKFVEEQNLKDLRVWTSQLKSTIQTAEALRLPYEQWKALNEIDAGVCEELTYEEIRDTYPEEYALREQDKYYYRYPTGESYQDLVQRLEPVIMELERQENVLVICHQAVLRCLLAYFLDKSAEEMPYLKCPLHTVLKLTPVAYGCRVESIYLNVESVCTHRERSNPLMRRNS 2dwu-a2-m1-cC_2dwu-a2-m2-cC Crystal Structure of Glutamate Racemase Isoform RacE1 from Bacillus anthracis A0A6L8PVU3 A0A6L8PVU3 1.6 X-RAY DIFFRACTION 69 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 266 266 2dwu-a1-m1-cA_2dwu-a1-m1-cB HKHSVIGVLDSGVGGLTVASEIIRQLPKESICYIGDNERCPYGPRSVEEVQSFVFEMVEFLKQFPLKALVVACNTAAAATLAALQEALSIPVIGVIHPGARAAIKVTKKGKIGVIGTVGTIQSNMYEKALHELDTYLKVHSHACPTLATVVENRLEDTAYVTQQVKQALLPLTKEDIDTLILGCTHYPLLESYIKKELGEDVTIISSAEETAIELSTILQHKGILADNLNPKHRFFTTGSVSSFEHIAERWLGYQISVDCVDLPVK HKHSVIGVLDSGVGGLTVASEIIRQLPKESICYIGDNERCPYGPRSVEEVQSFVFEMVEFLKQFPLKALVVACNTAAAATLAALQEALSIPVIGVIHPGARAAIKVTKKGKIGVIGTVGTIQSNMYEKALHELDTYLKVHSHACPTLATVVENRLEDTAYVTQQVKQALLPLTKEDIDTLILGCTHYPLLESYIKKELGEDVTIISSAEETAIELSTILQHKGILADNLNPKHRFFTTGSVSSFEHIAERWLGYQISVDCVDLPVK 2dwv-a1-m1-cA_2dwv-a1-m1-cB Solution structure of the second WW domain from mouse salvador homolog 1 protein (mWW45) Q8VEB2 Q8VEB2 NOT SOLUTION NMR 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 49 49 GSSGSSGPLEREGLPPGWERVESSEFGTYYVDHTNKRAQYRHPSGPSSG GSSGSSGPLEREGLPPGWERVESSEFGTYYVDHTNKRAQYRHPSGPSSG 2dww-a1-m1-cA_2dww-a1-m2-cA Crystal structure of Bromodomain-containing protein 4 Q9ESU6 Q9ESU6 1.8 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 107 107 KSSKISEQLKCCSGILKEFAKKHAAYAWPFYKPVDVEALGLHDYCDIIKHPDSTIKSKLESREYRDAQEFGADVRLFSNCYKYNPPDHEVVAARKLQDVFERFAKPD KSSKISEQLKCCSGILKEFAKKHAAYAWPFYKPVDVEALGLHDYCDIIKHPDSTIKSKLESREYRDAQEFGADVRLFSNCYKYNPPDHEVVAARKLQDVFERFAKPD 2dwy-a6-m1-cB_2dwy-a6-m1-cA Crystal Structure Analysis of GGA1-GAE Q9UJY5 Q9UJY5 2.3 X-RAY DIFFRACTION 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 129 2dwy-a5-m1-cD_2dwy-a5-m1-cC NILPVTVYDQHGFRILFHFARDPLPGRSDVLVVVVSMLSTAPQPIRNIVFQSAVPKVMKVKLQPPSGTELPAFNPIVHPSAITQVLLLANPQKEKVRLRYKLTFTMGDQTYNEMGDVDQFPPPETW NILPVTVYDQHGFRILFHFARDPLPGRSDVLVVVVSMLSTAPQPIRNIVFQSAVPKVMKVKLQPPSGTELPAFNPIVHPSAITQVLLLANPQKEKVRLRYKLTFTMGDQTYNEMGDVDQFPPPETWGSL 2dxc-a1-m1-cB_2dxc-a1-m1-cK Recombinant thiocyanate hydrolase, fully-matured form O66186 O66186 1.9 X-RAY DIFFRACTION 91 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 152 152 2dd4-a1-m1-cB_2dd4-a1-m1-cK 2dd4-a1-m1-cE_2dd4-a1-m1-cH 2dd5-a1-m1-cB_2dd5-a1-m1-cK 2dd5-a1-m1-cE_2dd5-a1-m1-cH 2dxb-a1-m1-cB_2dxb-a1-m1-cK 2dxb-a1-m1-cE_2dxb-a1-m1-cH 2dxb-a2-m1-cN_2dxb-a2-m1-cW 2dxb-a2-m1-cQ_2dxb-a2-m1-cT 2dxc-a1-m1-cE_2dxc-a1-m1-cH 2zzd-a1-m1-cE_2zzd-a1-m1-cH 2zzd-a1-m1-cK_2zzd-a1-m1-cB 3vyg-a1-m1-cE_3vyg-a1-m1-cH 3vyg-a1-m1-cK_3vyg-a1-m1-cB SSIREEVHRHLGTVALMQPALHQQTHAPAPTEITHTLFRAYTRVPHDVGGEADVPIEYHEKEEEIWELNTFATCECLAWRGVWTAEERRRKQNCDVGQTVYLGMPYYGRWLLTAARILVDKQFVTLTELHNKIVEMRERVASGQGLGEYLPP SSIREEVHRHLGTVALMQPALHQQTHAPAPTEITHTLFRAYTRVPHDVGGEADVPIEYHEKEEEIWELNTFATCECLAWRGVWTAEERRRKQNCDVGQTVYLGMPYYGRWLLTAARILVDKQFVTLTELHNKIVEMRERVASGQGLGEYLPP 2dxd-a2-m1-cA_2dxd-a2-m6-cA Crystal structure of nucleoside diphosphate kinase in complex with ATP analog O58429 O58429 1.77 X-RAY DIFFRACTION 15 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 154 154 2dxd-a2-m2-cA_2dxd-a2-m5-cA 2dxd-a2-m3-cA_2dxd-a2-m4-cA SETERTLVIIKPDAVVRGLIGEIISRFEKKGLKIVGMKMIWIDRELAEKHYEEHREKPFFKALIDYITKTPVVVMVLEGRYAVEVVRKMAGATDPKDAAPGTIRGDFGLEVSDAICNVIHASDSKESAEREISLFFKPEELFEYPRAADWFYKK SETERTLVIIKPDAVVRGLIGEIISRFEKKGLKIVGMKMIWIDRELAEKHYEEHREKPFFKALIDYITKTPVVVMVLEGRYAVEVVRKMAGATDPKDAAPGTIRGDFGLEVSDAICNVIHASDSKESAEREISLFFKPEELFEYPRAADWFYKK 2dxf-a1-m2-cA_2dxf-a1-m3-cA Crystal structure of nucleoside diphosphate kinase in complex with GTP analog O58429 O58429 1.7 X-RAY DIFFRACTION 56 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 153 153 2cwk-a2-m1-cA_2cwk-a2-m2-cA 2cwk-a2-m1-cA_2cwk-a2-m3-cA 2cwk-a2-m1-cB_2cwk-a2-m2-cB 2cwk-a2-m1-cB_2cwk-a2-m3-cB 2cwk-a2-m2-cA_2cwk-a2-m3-cA 2cwk-a2-m2-cB_2cwk-a2-m3-cB 2dxd-a1-m1-cA_2dxd-a1-m2-cA 2dxd-a1-m1-cA_2dxd-a1-m3-cA 2dxd-a1-m1-cB_2dxd-a1-m2-cB 2dxd-a1-m1-cB_2dxd-a1-m3-cB 2dxd-a1-m2-cA_2dxd-a1-m3-cA 2dxd-a1-m2-cB_2dxd-a1-m3-cB 2dxd-a2-m1-cA_2dxd-a2-m2-cA 2dxd-a2-m1-cA_2dxd-a2-m3-cA 2dxd-a2-m1-cB_2dxd-a2-m2-cB 2dxd-a2-m1-cB_2dxd-a2-m3-cB 2dxd-a2-m2-cA_2dxd-a2-m3-cA 2dxd-a2-m2-cB_2dxd-a2-m3-cB 2dxd-a2-m4-cA_2dxd-a2-m5-cA 2dxd-a2-m4-cA_2dxd-a2-m6-cA 2dxd-a2-m4-cB_2dxd-a2-m5-cB 2dxd-a2-m4-cB_2dxd-a2-m6-cB 2dxd-a2-m5-cA_2dxd-a2-m6-cA 2dxd-a2-m5-cB_2dxd-a2-m6-cB 2dxe-a1-m1-cA_2dxe-a1-m2-cA 2dxe-a1-m1-cA_2dxe-a1-m3-cA 2dxe-a1-m1-cB_2dxe-a1-m2-cB 2dxe-a1-m1-cB_2dxe-a1-m3-cB 2dxe-a1-m2-cA_2dxe-a1-m3-cA 2dxe-a1-m2-cB_2dxe-a1-m3-cB 2dxf-a1-m1-cA_2dxf-a1-m2-cA 2dxf-a1-m1-cA_2dxf-a1-m3-cA 2dxf-a1-m1-cB_2dxf-a1-m2-cB 2dxf-a1-m1-cB_2dxf-a1-m3-cB 2dxf-a1-m2-cB_2dxf-a1-m3-cB 2dy9-a1-m1-cA_2dy9-a1-m2-cA 2dy9-a1-m1-cA_2dy9-a1-m3-cA 2dy9-a1-m1-cB_2dy9-a1-m2-cB 2dy9-a1-m1-cB_2dy9-a1-m3-cB 2dy9-a1-m2-cA_2dy9-a1-m3-cA 2dy9-a1-m2-cB_2dy9-a1-m3-cB 2dya-a1-m1-cA_2dya-a1-m2-cA 2dya-a1-m1-cA_2dya-a1-m3-cA 2dya-a1-m1-cB_2dya-a1-m2-cB 2dya-a1-m1-cB_2dya-a1-m3-cB 2dya-a1-m2-cA_2dya-a1-m3-cA 2dya-a1-m2-cB_2dya-a1-m3-cB ETERTLVIIKPDAVVRGLIGEIISRFEKKGLKIVGMKMIWIDRELAEKHYEEHREKPFFKALIDYITKTPVVVMVLEGRYAVEVVRKMAGATDPKDAAPGTIRGDFGLEVSDAICNVIHASDSKESAEREISLFFKPEELFEYPRAADWFYKK ETERTLVIIKPDAVVRGLIGEIISRFEKKGLKIVGMKMIWIDRELAEKHYEEHREKPFFKALIDYITKTPVVVMVLEGRYAVEVVRKMAGATDPKDAAPGTIRGDFGLEVSDAICNVIHASDSKESAEREISLFFKPEELFEYPRAADWFYKK 2dxf-a1-m3-cA_2dxf-a1-m3-cB Crystal structure of nucleoside diphosphate kinase in complex with GTP analog O58429 O58429 1.7 X-RAY DIFFRACTION 86 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 153 154 2cwk-a1-m1-cB_2cwk-a1-m1-cA 2cwk-a2-m1-cB_2cwk-a2-m1-cA 2cwk-a2-m2-cB_2cwk-a2-m2-cA 2cwk-a2-m3-cB_2cwk-a2-m3-cA 2dxd-a1-m1-cA_2dxd-a1-m1-cB 2dxd-a1-m2-cA_2dxd-a1-m2-cB 2dxd-a1-m3-cA_2dxd-a1-m3-cB 2dxd-a2-m1-cA_2dxd-a2-m1-cB 2dxd-a2-m2-cA_2dxd-a2-m2-cB 2dxd-a2-m3-cA_2dxd-a2-m3-cB 2dxd-a2-m4-cA_2dxd-a2-m4-cB 2dxd-a2-m5-cA_2dxd-a2-m5-cB 2dxd-a2-m6-cA_2dxd-a2-m6-cB 2dxe-a1-m1-cA_2dxe-a1-m1-cB 2dxe-a1-m2-cA_2dxe-a1-m2-cB 2dxe-a1-m3-cA_2dxe-a1-m3-cB 2dxf-a1-m1-cA_2dxf-a1-m1-cB 2dxf-a1-m2-cA_2dxf-a1-m2-cB 2dy9-a1-m1-cA_2dy9-a1-m1-cB 2dy9-a1-m2-cA_2dy9-a1-m2-cB 2dy9-a1-m3-cA_2dy9-a1-m3-cB 2dya-a1-m1-cA_2dya-a1-m1-cB 2dya-a1-m2-cA_2dya-a1-m2-cB 2dya-a1-m3-cA_2dya-a1-m3-cB ETERTLVIIKPDAVVRGLIGEIISRFEKKGLKIVGMKMIWIDRELAEKHYEEHREKPFFKALIDYITKTPVVVMVLEGRYAVEVVRKMAGATDPKDAAPGTIRGDFGLEVSDAICNVIHASDSKESAEREISLFFKPEELFEYPRAADWFYKK SETERTLVIIKPDAVVRGLIGEIISRFEKKGLKIVGMKMIWIDRELAEKHYEEHREKPFFKALIDYITKTPVVVMVLEGRYAVEVVRKMAGATDPKDAAPGTIRGDFGLEVSDAICNVIHASDSKESAEREISLFFKPEELFEYPRAADWFYKK 2dxq-a1-m1-cB_2dxq-a1-m1-cA Putative acetyltransferase from Agrobacterium tumefaciens str. C58 A9CI53 A9CI53 1.8 X-RAY DIFFRACTION 170 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 142 145 ISLRAAGPGDLPGLLELYQVLNPSDPELTTQEAGAVFAALAQPGLTIFVATENGKPVATATLLIVPNLTRAARPYAFIENVVTLEARRGRGYGRTVVRHAIETAFGANCYKVLLTGRHDPAVHAFYESCGFVQNKTGFQIRQ DAISLRAAGPGDLPGLLELYQVLNPSDPELTTQEAGAVFAALAQPGLTIFVATENGKPVATATLLIVPNLTRAARPYAFIENVVTLEARRGRGYGRTVVRHAIETAFGANCYKVLLTGRHDPAVHAFYESCGFVQNKTGFQIRQD 2dxx-a2-m1-cB_2dxx-a2-m2-cB Crystal structure of Asn142 to Glu mutant of Diphthine synthase O58456 O58456 1.75 X-RAY DIFFRACTION 20 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 265 265 1wng-a2-m1-cB_1wng-a2-m2-cB 2dek-a2-m1-cB_2dek-a2-m2-cB 2dsg-a2-m1-cB_2dsg-a2-m2-cB 2dsh-a2-m1-cB_2dsh-a2-m2-cB 2dsi-a2-m1-cB_2dsi-a2-m2-cB 2dv4-a2-m1-cB_2dv4-a2-m2-cB 2dv5-a2-m1-cB_2dv5-a2-m2-cB 2dxv-a2-m1-cB_2dxv-a2-m2-cB 2dxw-a2-m1-cB_2dxw-a2-m2-cB 2e07-a2-m1-cB_2e07-a2-m2-cB 2e08-a2-m1-cB_2e08-a2-m2-cB 2e15-a2-m1-cB_2e15-a2-m2-cB 2e16-a2-m1-cB_2e16-a2-m2-cB 2e17-a2-m1-cB_2e17-a2-m2-cB 2e7r-a2-m1-cB_2e7r-a2-m2-cB 2e7r-a3-m4-cB_2e7r-a3-m5-cB 2e8h-a2-m1-cB_2e8h-a2-m2-cB 2e8q-a2-m1-cB_2e8q-a2-m2-cB 2e8r-a2-m1-cB_2e8r-a2-m2-cB 2e8s-a2-m1-cB_2e8s-a2-m2-cB 2ed3-a2-m1-cB_2ed3-a2-m2-cB 2ed5-a2-m1-cB_2ed5-a2-m2-cB 2eeq-a2-m1-cB_2eeq-a2-m2-cB 2eeq-a3-m1-cB_2eeq-a3-m2-cB 2egl-a2-m1-cB_2egl-a2-m2-cB 2egl-a3-m1-cB_2egl-a3-m2-cB 2eh2-a2-m1-cB_2eh2-a2-m2-cB 2eh2-a3-m1-cB_2eh2-a3-m2-cB 2eh5-a2-m1-cB_2eh5-a2-m2-cB 2ehc-a2-m1-cB_2ehc-a2-m2-cB 2ehl-a2-m1-cB_2ehl-a2-m2-cB 2ehl-a3-m1-cB_2ehl-a3-m2-cB 2ejz-a2-m1-cB_2ejz-a2-m2-cB 2eka-a2-m1-cB_2eka-a2-m2-cB 2el2-a2-m1-cB_2el2-a2-m2-cB 2eld-a2-m1-cB_2eld-a2-m2-cB 2ele-a2-m1-cB_2ele-a2-m2-cB 2emu-a2-m1-cB_2emu-a2-m2-cB 2en5-a2-m1-cB_2en5-a2-m2-cB 2hr8-a2-m1-cB_2hr8-a2-m2-cB 2huq-a2-m1-cB_2huq-a2-m2-cB 2hux-a2-m1-cB_2hux-a2-m2-cB 2owk-a2-m1-cB_2owk-a2-m2-cB 2owu-a2-m1-cB_2owu-a2-m2-cB 2owv-a2-m1-cB_2owv-a2-m2-cB 2p2x-a2-m1-cB_2p2x-a2-m2-cB 2p5f-a2-m1-cB_2p5f-a2-m2-cB 2p6l-a2-m1-cB_2p6l-a2-m2-cB 2p9d-a2-m1-cB_2p9d-a2-m2-cB 2pb4-a2-m1-cB_2pb4-a2-m2-cB 2pb5-a2-m1-cB_2pb5-a2-m2-cB 2pb6-a2-m1-cB_2pb6-a2-m2-cB 2pck-a2-m1-cB_2pck-a2-m2-cB 2pcm-a2-m1-cB_2pcm-a2-m2-cB MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGEWFPTSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGEWFPTSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV 2dy0-a1-m1-cB_2dy0-a1-m1-cA Crystal structure of project JW0458 from Escherichia coli P69503 P69503 1.25 X-RAY DIFFRACTION 99 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 181 182 7xi2-a1-m1-cB_7xi2-a1-m1-cA ATAQQLEYLKNSIKSIQDYPKPGILFRDVTSLLEDPKAYALSIDLLVERYKNAGITKVVGTEARGFLFGAPVALGLGVGFVPVRKPGKLPRETISETYDLEYGTDQLEIHVDAIKPGDKVLVVDDLLATGGTIEATVKLIRRLGGEVADAAFIINLFDLGGEQRLEKQGITSYSLVPFPGH TATAQQLEYLKNSIKSIQDYPKPGILFRDVTSLLEDPKAYALSIDLLVERYKNAGITKVVGTEARGFLFGAPVALGLGVGFVPVRKPGKLPRETISETYDLEYGTDQLEIHVDAIKPGDKVLVVDDLLATGGTIEATVKLIRRLGGEVADAAFIINLFDLGGEQRLEKQGITSYSLVPFPGH 2dy3-a2-m1-cC_2dy3-a2-m1-cD Crystal Structure of alanine racemase from Corynebacterium glutamicum Q8RSU9 Q8RSU9 2.1 X-RAY DIFFRACTION 158 0.991 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 343 344 2dy3-a1-m1-cA_2dy3-a1-m1-cB MNLLTTKIDLDAIAHNTRVLKQMAGPAKLMAVVKANAYNHGVEKVAPVIAAHGADAFGVATLAEAMQLRDIGISQEVLCWIWTPEQDFRAAIDRNIDLAVISPAHAKALIETDAEHIRVSIKIDSGLHRSGVDEQEWEGVFSALAAAPHIEVTGMFTHLACADEPPETDRQIIAFRRALALARKHGLECPVNHVCNSPAFLTRSDLHMEMVRPGLAFYGLEPVAGLEHGLKPAMTWEAKVSVVKQIRGFVAVVPAGYADGMPRHAQGKFSVTIDGLDYPQVGRVCMDQFVISLGDNPHGVEAGAKAVIFGENGHDATDFAERLDTINYEVVCRPTGRTVRAYV MNLLTTKIDLDAIAHNTRVLKQMAGPAKLMAVVKANAYNHGVEKVAPVIAAHGADAFGVATLAEAMQLRDIGISQEVLCWIWTPEQDFRAAIDRNIDLAVISPAHAKALIETDAEHIRVSIKIDSGLHRSGVDEQEWEGVFSALAAAPHIEVTGMFTHLACADEPTDRQIIAFRRALALARKHGLECPVNHVCNSPAFLTRSDLHMEMVRPGLAFYGLEPVAGLEHGLKPAMTWEAKVSVVKQIEAGQGFVAVVPAGYADGMPRHAQGKFSVTIDGLDYPQVGRVCMDQFVISLGDNPHGVEAGAKAVIFGENGHDATDFAERLDTINYEVVCRPTGRTVRAYV 2dyc-a2-m2-cA_2dyc-a2-m8-cA Crystal structure of the N-terminal domain of mouse galectin-4 Q8K419 Q8K419 2.4 X-RAY DIFFRACTION 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 139 139 2dyc-a2-m1-cA_2dyc-a2-m7-cA 2dyc-a2-m3-cA_2dyc-a2-m5-cA 2dyc-a2-m4-cA_2dyc-a2-m6-cA YNPTLPYKRPIPGGLSVGSVYIQGAKENRRFHVNFAVGQDDGADVAFHFNPRFDGWDKVVFNTQSGQWGKEEKKKSPFQKGKHFELVFVPEHYKVVVNGNSFYEYGHRLPVQVTHLQVDGDLELQSINFLGGQPAAAPY YNPTLPYKRPIPGGLSVGSVYIQGAKENRRFHVNFAVGQDDGADVAFHFNPRFDGWDKVVFNTQSGQWGKEEKKKSPFQKGKHFELVFVPEHYKVVVNGNSFYEYGHRLPVQVTHLQVDGDLELQSINFLGGQPAAAPY 2dyc-a2-m3-cA_2dyc-a2-m8-cA Crystal structure of the N-terminal domain of mouse galectin-4 Q8K419 Q8K419 2.4 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 139 139 2dyc-a2-m1-cA_2dyc-a2-m5-cA 2dyc-a2-m2-cA_2dyc-a2-m6-cA 2dyc-a2-m4-cA_2dyc-a2-m7-cA YNPTLPYKRPIPGGLSVGSVYIQGAKENRRFHVNFAVGQDDGADVAFHFNPRFDGWDKVVFNTQSGQWGKEEKKKSPFQKGKHFELVFVPEHYKVVVNGNSFYEYGHRLPVQVTHLQVDGDLELQSINFLGGQPAAAPY YNPTLPYKRPIPGGLSVGSVYIQGAKENRRFHVNFAVGQDDGADVAFHFNPRFDGWDKVVFNTQSGQWGKEEKKKSPFQKGKHFELVFVPEHYKVVVNGNSFYEYGHRLPVQVTHLQVDGDLELQSINFLGGQPAAAPY 2dyc-a2-m6-cA_2dyc-a2-m8-cA Crystal structure of the N-terminal domain of mouse galectin-4 Q8K419 Q8K419 2.4 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 139 139 2dyc-a2-m1-cA_2dyc-a2-m3-cA 2dyc-a2-m1-cA_2dyc-a2-m4-cA 2dyc-a2-m2-cA_2dyc-a2-m3-cA 2dyc-a2-m2-cA_2dyc-a2-m4-cA 2dyc-a2-m5-cA_2dyc-a2-m7-cA 2dyc-a2-m5-cA_2dyc-a2-m8-cA 2dyc-a2-m6-cA_2dyc-a2-m7-cA 3i8t-a1-m1-cA_3i8t-a1-m3-cA 3i8t-a1-m1-cA_3i8t-a1-m4-cA 3i8t-a1-m2-cA_3i8t-a1-m3-cA 3i8t-a1-m2-cA_3i8t-a1-m4-cA YNPTLPYKRPIPGGLSVGSVYIQGAKENRRFHVNFAVGQDDGADVAFHFNPRFDGWDKVVFNTQSGQWGKEEKKKSPFQKGKHFELVFVPEHYKVVVNGNSFYEYGHRLPVQVTHLQVDGDLELQSINFLGGQPAAAPY YNPTLPYKRPIPGGLSVGSVYIQGAKENRRFHVNFAVGQDDGADVAFHFNPRFDGWDKVVFNTQSGQWGKEEKKKSPFQKGKHFELVFVPEHYKVVVNGNSFYEYGHRLPVQVTHLQVDGDLELQSINFLGGQPAAAPY 2dyo-a2-m1-cA_2dyo-a2-m2-cA The crystal structure of Saccharomyces cerevisiae Atg5- Atg16(1-57) complex Q12380 Q12380 1.97 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 269 269 HMNDIKQLLWNGELNVLVSIDPSFLMKGSPREIAVLRIRVPRETYLVNYMPLIWNKIKSFLSFDPEKYFWFEHNKTPIPWNYPVGVLFDCLAGKSAVKDVLTFLRIHLVMGDSLPPTIIPIASSKTQAEKFWFHQWKQVCFILNGSSKAIMSLSVNEARKFWGSVITRNFQDFIEISNKISSSRPRHIPLIIQTSRTSGTFRISQPTISMTGVNPTLKDIEGDILDVKEGDVMVICQGIEIPWHMLLYDLYSKLRSFDGFLYITLVPIK HMNDIKQLLWNGELNVLVSIDPSFLMKGSPREIAVLRIRVPRETYLVNYMPLIWNKIKSFLSFDPEKYFWFEHNKTPIPWNYPVGVLFDCLAGKSAVKDVLTFLRIHLVMGDSLPPTIIPIASSKTQAEKFWFHQWKQVCFILNGSSKAIMSLSVNEARKFWGSVITRNFQDFIEISNKISSSRPRHIPLIIQTSRTSGTFRISQPTISMTGVNPTLKDIEGDILDVKEGDVMVICQGIEIPWHMLLYDLYSKLRSFDGFLYITLVPIK 2dyu-a1-m2-cB_2dyu-a1-m3-cB Helicobacter pylori formamidase AmiF contains a fine-tuned cysteine-glutamate-lysine catalytic triad O25836 O25836 1.75 X-RAY DIFFRACTION 22 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 322 322 2dyu-a1-m1-cA_2dyu-a1-m2-cA 2dyu-a1-m1-cA_2dyu-a1-m3-cA 2dyu-a1-m1-cB_2dyu-a1-m2-cB 2dyu-a1-m1-cB_2dyu-a1-m3-cB 2dyu-a1-m2-cA_2dyu-a1-m3-cA 2dyv-a1-m1-cA_2dyv-a1-m2-cA 2dyv-a1-m1-cA_2dyv-a1-m3-cA 2dyv-a1-m1-cB_2dyv-a1-m2-cB 2dyv-a1-m1-cB_2dyv-a1-m3-cB 2dyv-a1-m2-cA_2dyv-a1-m3-cA 2dyv-a1-m2-cB_2dyv-a1-m3-cB GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCICHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYDNVFYYFGEGQICNFDGTTLVQGHRNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGYVAKPGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCICHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYDNVFYYFGEGQICNFDGTTLVQGHRNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGYVAKPGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK 2dyv-a1-m3-cA_2dyv-a1-m3-cB Helicobacter pylori formamidase AmiF contains a fine-tuned cysteine-glutamate-lysine catalytic triad O25836 O25836 2 X-RAY DIFFRACTION 305 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 322 322 2dyu-a1-m1-cA_2dyu-a1-m1-cB 2dyu-a1-m2-cA_2dyu-a1-m2-cB 2dyu-a1-m3-cA_2dyu-a1-m3-cB 2dyv-a1-m1-cA_2dyv-a1-m1-cB 2dyv-a1-m2-cA_2dyv-a1-m2-cB 2e2k-a1-m1-cA_2e2k-a1-m1-cB 2e2k-a1-m1-cD_2e2k-a1-m1-cC 2e2k-a1-m1-cF_2e2k-a1-m1-cE 2e2l-a1-m1-cA_2e2l-a1-m1-cB 2e2l-a1-m1-cC_2e2l-a1-m1-cD 2e2l-a1-m1-cE_2e2l-a1-m1-cF GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCICHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYDNVFYYFGEGQICNFDGTTLVQGHRNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGYVAKPGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCICHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYDNVFYYFGEGQICNFDGTTLVQGHRNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGYVAKPGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK 2dyy-a4-m1-cK_2dyy-a4-m1-cJ Crystal structure of putative translation initiation inhibitor PH0854 from Pyrococcus horikoshii O58584 O58584 2.6 X-RAY DIFFRACTION 70 0.992 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 123 124 2dyy-a1-m1-cB_2dyy-a1-m1-cA 2dyy-a1-m1-cB_2dyy-a1-m1-cC 2dyy-a1-m1-cC_2dyy-a1-m1-cA 2dyy-a2-m1-cE_2dyy-a2-m1-cD 2dyy-a2-m1-cF_2dyy-a2-m1-cD 2dyy-a2-m1-cF_2dyy-a2-m1-cE 2dyy-a3-m1-cH_2dyy-a3-m1-cG 2dyy-a3-m1-cI_2dyy-a3-m1-cG 2dyy-a3-m1-cI_2dyy-a3-m1-cH 2dyy-a4-m1-cL_2dyy-a4-m1-cJ 2dyy-a4-m1-cL_2dyy-a4-m1-cK KEVIFTENAPKPIGPYSQAIKAGNFLFIAGQIPIDPKTGEIVKGDIKDQTRQVLENIKAILEAAGYSLNDVIKVTVYLKDDFAKMNEVYAEYFGESKPARVAVEVSRLPKDVLIEIEAIAYKE MKEVIFTENAPKPIGPYSQAIKAGNFLFIAGQIPIDPKTGEIVKGDIKDQTRQVLENIKAILEAAGYSLNDVIKVTVYLKNDFAKMNEVYAEYFGESKPARVAVEVSRLPKDVLIEIEAIAYKE 2dzd-a1-m1-cB_2dzd-a1-m1-cA Crystal structure of the biotin carboxylase domain of pyruvate carboxylase Q05FZ3 Q05FZ3 2.4 X-RAY DIFFRACTION 72 1.0 33940 (Geobacillus thermodenitrificans) 33940 (Geobacillus thermodenitrificans) 453 459 TRRIRKVLVANRGEIAIRVFRACTELGIRTVAIYSKEDVGSYHRYKADEAYLVGEGKKPIEAYLDIEGIIEIAKAHDVDAIHPGYGFLSENIQFAKRCREEGIIFIGPNENHLDMFGDKVKARHAAVNAGIPVIPGSDGPVDGLEDVVAFAEAHGYPIIIKAALGGGGRGMRIVRSKSEVKEAFERAKSEAKEVYVEKLIENPKHIEVQILGDYEGNIVHLYERDCSVQRRHQKVVEVAPSVSLSDELRQRICEAAVQLMRSVGYVNAGTVEFLVSGDEFYFIEVNPRIQVEHTITEMITGIDIVQSQILIADGCSLHSHEVGIPKQEDIRINGYAIQSRVTTEDPLNNFMPDTGKIMAYRSGGGFGVRLDAGNGFQGAVITPYYDSLLVKLSTWALTFEQAARKMLRNLREFRIRGIKTNIPFLENVVQHPKFLSGEYDTSFIDTTPELFVF TRRIRKVLVANRGEIAIRVFRACTELGIRTVAIYSKEDVGSYHRYKADEAYLVGEGKKPIEAYLDIEGIIEIAKAHDVDAIHPGYGFLSENIQFAKRCREEGIIFIGPNENHLDMFGDKVKARHAAVNAGIPVIPGSDGPVDGLEDVVAFAEAHGYPIIIKAALGGGGRGMRIVRSKSEVKEAFERAKSEAKAAFGSDEVYVEKLIENPKHIEVQILGDYEGNIVHLYERDCSVQRRHQKVVEVAPSVSLSDELRQRICEAAVQLMRSVGYVNAGTVEFLVSGDEFYFIEVNPRIQVEHTITEMITGIDIVQSQILIADGCSLHSHEVGIPKQEDIRINGYAIQSRVTTEDPLNNFMPDTGKIMAYRSGGGFGVRLDAGNGFQGAVITPYYDSLLVKLSTWALTFEQAARKMLRNLREFRIRGIKTNIPFLENVVQHPKFLSGEYDTSFIDTTPELFVF 2e0c-a1-m1-cA_2e0c-a1-m1-cB crystal structure of isocitrate dehydrogenase from Sulfolobus tokodaii strain7 at 2.0 A resolution Q96YK6 Q96YK6 2 X-RAY DIFFRACTION 195 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 401 401 2dht-a1-m1-cA_2dht-a1-m1-cB 2e5m-a1-m1-cA_2e5m-a1-m1-cB MLYKEPEDGEKIKFDKGKWIVPNKPVILYIEGDGIGPEITNAAIKVINKAVERAYGSSREIKWLEVYAGEKAEKLVNDRFPKETQEMLLKYRVVLKGPLESVNVAIRLMLDLYANIRPVKYIEGLESPLKHPEKVDMIIFRENTDDLYRGIEYPFNSEEAKKIRDFLRKELKVEIEDDTGIGIKVMSKYKTQRITRLAIQYAIEHKRKKVTIMHKGNVMKYTEGAFREWAYEVALKEYRDFIVTEEEINQGKPDQGKIILNDRIADNMFQQIIIRPEEYDIILAPNVNGDYISDAAGALIGNIGMLGGANIGDEGGMFEAIHGTAPKYAGKNVANPTGIIKAGELMLRWMGWNEAADLIEKAINMAIRDKKVTQDIARFMGVKALGTKEYADELIKIMDTI MLYKEPEDGEKIKFDKGKWIVPNKPVILYIEGDGIGPEITNAAIKVINKAVERAYGSSREIKWLEVYAGEKAEKLVNDRFPKETQEMLLKYRVVLKGPLESVNVAIRLMLDLYANIRPVKYIEGLESPLKHPEKVDMIIFRENTDDLYRGIEYPFNSEEAKKIRDFLRKELKVEIEDDTGIGIKVMSKYKTQRITRLAIQYAIEHKRKKVTIMHKGNVMKYTEGAFREWAYEVALKEYRDFIVTEEEINQGKPDQGKIILNDRIADNMFQQIIIRPEEYDIILAPNVNGDYISDAAGALIGNIGMLGGANIGDEGGMFEAIHGTAPKYAGKNVANPTGIIKAGELMLRWMGWNEAADLIEKAINMAIRDKKVTQDIARFMGVKALGTKEYADELIKIMDTI 2e0l-a3-m2-cA_2e0l-a3-m4-cB Mutant Human Ribonuclease 1 (Q28L, R31L, R32L) P07998 P07998 1.6 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 2e0l-a3-m1-cA_2e0l-a3-m3-cB 2e0m-a3-m1-cA_2e0m-a3-m3-cB 2e0m-a3-m2-cA_2e0m-a3-m4-cB KESRAKKFQRQHMDSDSSPSSSSTYCNLMMLLRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVEDST KESRAKKFQRQHMDSDSSPSSSSTYCNLMMLLRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVEDST 2e0l-a3-m3-cB_2e0l-a3-m4-cB Mutant Human Ribonuclease 1 (Q28L, R31L, R32L) P07998 P07998 1.6 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 2e0l-a3-m1-cA_2e0l-a3-m2-cA 2e0m-a3-m1-cA_2e0m-a3-m2-cA 2e0m-a3-m3-cB_2e0m-a3-m4-cB KESRAKKFQRQHMDSDSSPSSSSTYCNLMMLLRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVEDST KESRAKKFQRQHMDSDSSPSSSSTYCNLMMLLRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVEDST 2e0n-a1-m1-cA_2e0n-a1-m1-cB Crystal structure of CbiL in complex with S-adenosylhomocysteine, a methyltransferase involved in anaerobic vitamin B12 biosynthesis Q8KFD9 Q8KFD9 2 X-RAY DIFFRACTION 165 0.996 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 229 238 2e0k-a1-m1-cA_2e0k-a1-m1-cB GSIISVSLGPGDPGLITVKALSQLREADVIYYPGTVSASGAVTSVALDILKEFDLDPSKLRGMLVPMSYAANYASMAEEVQAGRRVAVVSVGDGGFYSTASAIIERARRDGLDCSMTPGIPAFIAAGSAAGMPLALQSDSVLVLAQIDEIGELERALVTHSTVVVMKLSTVRDELVSFLERYAKPFLYAEKVGMAGEFITMEVDALRSRAIPYFSLLVCSPHCRQSTLS SIISVSLGPGDPGLITVKALSQLREADVIYYPGTVSASGAVTSVALDILKEFDLDPSKLRGMLVPMSRGAAEASYAANYASMAEEVQAGRRVAVVSVGDGGFYSTASAIIERARRDGLDCSMTPGIPAFIAAGSAAGMPLALQSDSVLVLAQIDEIGELERALVTHSTVVVMKLSTVRDELVSFLERYAKPFLYAEKVGMAGEFITMEVDALRSRAIPYFSLLVCSPHCRQSTLSPFA 2e0o-a3-m1-cA_2e0o-a3-m2-cA Mutant Human Ribonuclease 1 (V52L, D53L, N56L, F59L) P07998 P07998 2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED 2e0o-a3-m2-cB_2e0o-a3-m1-cA Mutant Human Ribonuclease 1 (V52L, D53L, N56L, F59L) P07998 P07998 2 X-RAY DIFFRACTION 21 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 2e0o-a3-m1-cB_2e0o-a3-m2-cA MKESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASV KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED 2e0o-a3-m2-cB_2e0o-a3-m2-cA Mutant Human Ribonuclease 1 (V52L, D53L, N56L, F59L) P07998 P07998 2 X-RAY DIFFRACTION 30 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 2e0o-a3-m1-cB_2e0o-a3-m1-cA MKESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASV KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED 2e0o-a4-m1-cA_2e0o-a4-m3-cA Mutant Human Ribonuclease 1 (V52L, D53L, N56L, F59L) P07998 P07998 2 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED 2e0o-a4-m4-cB_2e0o-a4-m5-cB Mutant Human Ribonuclease 1 (V52L, D53L, N56L, F59L) P07998 P07998 2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 2e0o-a3-m1-cB_2e0o-a3-m2-cB MKESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASV MKESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASV 2e0o-a4-m5-cB_2e0o-a4-m3-cA Mutant Human Ribonuclease 1 (V52L, D53L, N56L, F59L) P07998 P07998 2 X-RAY DIFFRACTION 25 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 2e0o-a4-m4-cB_2e0o-a4-m1-cA MKESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASV KESRAKKFQRQHMDSDSSPSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLLLVQLVCLQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVED 2e0z-a1-m8-cA_2e0z-a1-m9-cB Crystal structure of virus-like particle from Pyrococcus furiosus Q8U1L4 Q8U1L4 3.6 X-RAY DIFFRACTION 15 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 236 236 2e0z-a1-m10-cA_2e0z-a1-m6-cB 2e0z-a1-m10-cB_2e0z-a1-m9-cA 2e0z-a1-m10-cC_2e0z-a1-m10-cB 2e0z-a1-m10-cC_2e0z-a1-m9-cA 2e0z-a1-m11-cA_2e0z-a1-m12-cB 2e0z-a1-m11-cB_2e0z-a1-m15-cA 2e0z-a1-m11-cC_2e0z-a1-m11-cB 2e0z-a1-m11-cC_2e0z-a1-m15-cA 2e0z-a1-m12-cA_2e0z-a1-m13-cB 2e0z-a1-m12-cC_2e0z-a1-m11-cA 2e0z-a1-m12-cC_2e0z-a1-m12-cB 2e0z-a1-m13-cA_2e0z-a1-m14-cB 2e0z-a1-m13-cC_2e0z-a1-m12-cA 2e0z-a1-m13-cC_2e0z-a1-m13-cB 2e0z-a1-m14-cA_2e0z-a1-m15-cB 2e0z-a1-m14-cC_2e0z-a1-m13-cA 2e0z-a1-m14-cC_2e0z-a1-m14-cB 2e0z-a1-m15-cC_2e0z-a1-m14-cA 2e0z-a1-m15-cC_2e0z-a1-m15-cB 2e0z-a1-m16-cA_2e0z-a1-m17-cB 2e0z-a1-m16-cB_2e0z-a1-m20-cA 2e0z-a1-m16-cC_2e0z-a1-m16-cB 2e0z-a1-m16-cC_2e0z-a1-m20-cA 2e0z-a1-m17-cA_2e0z-a1-m18-cB 2e0z-a1-m17-cC_2e0z-a1-m16-cA 2e0z-a1-m17-cC_2e0z-a1-m17-cB 2e0z-a1-m18-cA_2e0z-a1-m19-cB 2e0z-a1-m18-cC_2e0z-a1-m17-cA 2e0z-a1-m18-cC_2e0z-a1-m18-cB 2e0z-a1-m19-cA_2e0z-a1-m20-cB 2e0z-a1-m19-cC_2e0z-a1-m18-cA 2e0z-a1-m19-cC_2e0z-a1-m19-cB 2e0z-a1-m1-cA_2e0z-a1-m2-cB 2e0z-a1-m1-cB_2e0z-a1-m5-cA 2e0z-a1-m1-cC_2e0z-a1-m1-cB 2e0z-a1-m1-cC_2e0z-a1-m5-cA 2e0z-a1-m20-cC_2e0z-a1-m19-cA 2e0z-a1-m20-cC_2e0z-a1-m20-cB 2e0z-a1-m21-cA_2e0z-a1-m22-cB 2e0z-a1-m21-cB_2e0z-a1-m25-cA 2e0z-a1-m21-cC_2e0z-a1-m21-cB 2e0z-a1-m21-cC_2e0z-a1-m25-cA 2e0z-a1-m22-cA_2e0z-a1-m23-cB 2e0z-a1-m22-cC_2e0z-a1-m21-cA 2e0z-a1-m22-cC_2e0z-a1-m22-cB 2e0z-a1-m23-cA_2e0z-a1-m24-cB 2e0z-a1-m23-cC_2e0z-a1-m22-cA 2e0z-a1-m23-cC_2e0z-a1-m23-cB 2e0z-a1-m24-cA_2e0z-a1-m25-cB 2e0z-a1-m24-cC_2e0z-a1-m23-cA 2e0z-a1-m24-cC_2e0z-a1-m24-cB 2e0z-a1-m25-cC_2e0z-a1-m24-cA 2e0z-a1-m25-cC_2e0z-a1-m25-cB 2e0z-a1-m26-cA_2e0z-a1-m27-cB 2e0z-a1-m26-cB_2e0z-a1-m30-cA 2e0z-a1-m26-cC_2e0z-a1-m26-cB 2e0z-a1-m26-cC_2e0z-a1-m30-cA 2e0z-a1-m27-cA_2e0z-a1-m28-cB 2e0z-a1-m27-cC_2e0z-a1-m26-cA 2e0z-a1-m27-cC_2e0z-a1-m27-cB 2e0z-a1-m28-cA_2e0z-a1-m29-cB 2e0z-a1-m28-cC_2e0z-a1-m27-cA 2e0z-a1-m28-cC_2e0z-a1-m28-cB 2e0z-a1-m29-cA_2e0z-a1-m30-cB 2e0z-a1-m29-cC_2e0z-a1-m28-cA 2e0z-a1-m29-cC_2e0z-a1-m29-cB 2e0z-a1-m2-cA_2e0z-a1-m3-cB 2e0z-a1-m2-cC_2e0z-a1-m1-cA 2e0z-a1-m2-cC_2e0z-a1-m2-cB 2e0z-a1-m30-cC_2e0z-a1-m29-cA 2e0z-a1-m30-cC_2e0z-a1-m30-cB 2e0z-a1-m31-cA_2e0z-a1-m32-cB 2e0z-a1-m31-cB_2e0z-a1-m35-cA 2e0z-a1-m31-cC_2e0z-a1-m31-cB 2e0z-a1-m31-cC_2e0z-a1-m35-cA 2e0z-a1-m32-cA_2e0z-a1-m33-cB 2e0z-a1-m32-cC_2e0z-a1-m31-cA 2e0z-a1-m32-cC_2e0z-a1-m32-cB 2e0z-a1-m33-cA_2e0z-a1-m34-cB 2e0z-a1-m33-cC_2e0z-a1-m32-cA 2e0z-a1-m33-cC_2e0z-a1-m33-cB 2e0z-a1-m34-cA_2e0z-a1-m35-cB 2e0z-a1-m34-cC_2e0z-a1-m33-cA 2e0z-a1-m34-cC_2e0z-a1-m34-cB 2e0z-a1-m35-cC_2e0z-a1-m34-cA 2e0z-a1-m35-cC_2e0z-a1-m35-cB 2e0z-a1-m36-cA_2e0z-a1-m37-cB 2e0z-a1-m36-cB_2e0z-a1-m40-cA 2e0z-a1-m36-cC_2e0z-a1-m36-cB 2e0z-a1-m36-cC_2e0z-a1-m40-cA 2e0z-a1-m37-cA_2e0z-a1-m38-cB 2e0z-a1-m37-cC_2e0z-a1-m36-cA 2e0z-a1-m37-cC_2e0z-a1-m37-cB 2e0z-a1-m38-cA_2e0z-a1-m39-cB 2e0z-a1-m38-cC_2e0z-a1-m37-cA 2e0z-a1-m38-cC_2e0z-a1-m38-cB 2e0z-a1-m39-cA_2e0z-a1-m40-cB 2e0z-a1-m39-cC_2e0z-a1-m38-cA 2e0z-a1-m39-cC_2e0z-a1-m39-cB 2e0z-a1-m3-cA_2e0z-a1-m4-cB 2e0z-a1-m3-cC_2e0z-a1-m2-cA 2e0z-a1-m3-cC_2e0z-a1-m3-cB 2e0z-a1-m40-cC_2e0z-a1-m39-cA 2e0z-a1-m40-cC_2e0z-a1-m40-cB 2e0z-a1-m41-cA_2e0z-a1-m42-cB 2e0z-a1-m41-cB_2e0z-a1-m45-cA 2e0z-a1-m41-cC_2e0z-a1-m41-cB 2e0z-a1-m41-cC_2e0z-a1-m45-cA 2e0z-a1-m42-cA_2e0z-a1-m43-cB 2e0z-a1-m42-cC_2e0z-a1-m41-cA 2e0z-a1-m42-cC_2e0z-a1-m42-cB 2e0z-a1-m43-cA_2e0z-a1-m44-cB 2e0z-a1-m43-cC_2e0z-a1-m42-cA 2e0z-a1-m43-cC_2e0z-a1-m43-cB 2e0z-a1-m44-cA_2e0z-a1-m45-cB 2e0z-a1-m44-cC_2e0z-a1-m43-cA 2e0z-a1-m44-cC_2e0z-a1-m44-cB 2e0z-a1-m45-cC_2e0z-a1-m44-cA 2e0z-a1-m45-cC_2e0z-a1-m45-cB 2e0z-a1-m46-cA_2e0z-a1-m47-cB 2e0z-a1-m46-cB_2e0z-a1-m50-cA 2e0z-a1-m46-cC_2e0z-a1-m46-cB 2e0z-a1-m46-cC_2e0z-a1-m50-cA 2e0z-a1-m47-cA_2e0z-a1-m48-cB 2e0z-a1-m47-cC_2e0z-a1-m46-cA 2e0z-a1-m47-cC_2e0z-a1-m47-cB 2e0z-a1-m48-cA_2e0z-a1-m49-cB 2e0z-a1-m48-cC_2e0z-a1-m47-cA 2e0z-a1-m48-cC_2e0z-a1-m48-cB 2e0z-a1-m49-cA_2e0z-a1-m50-cB 2e0z-a1-m49-cC_2e0z-a1-m48-cA 2e0z-a1-m49-cC_2e0z-a1-m49-cB 2e0z-a1-m4-cA_2e0z-a1-m5-cB 2e0z-a1-m4-cC_2e0z-a1-m3-cA 2e0z-a1-m4-cC_2e0z-a1-m4-cB 2e0z-a1-m50-cC_2e0z-a1-m49-cA 2e0z-a1-m50-cC_2e0z-a1-m50-cB 2e0z-a1-m51-cA_2e0z-a1-m52-cB 2e0z-a1-m51-cB_2e0z-a1-m55-cA 2e0z-a1-m51-cC_2e0z-a1-m51-cB 2e0z-a1-m51-cC_2e0z-a1-m55-cA 2e0z-a1-m52-cA_2e0z-a1-m53-cB 2e0z-a1-m52-cC_2e0z-a1-m51-cA 2e0z-a1-m52-cC_2e0z-a1-m52-cB 2e0z-a1-m53-cA_2e0z-a1-m54-cB 2e0z-a1-m53-cC_2e0z-a1-m52-cA 2e0z-a1-m53-cC_2e0z-a1-m53-cB 2e0z-a1-m54-cA_2e0z-a1-m55-cB 2e0z-a1-m54-cC_2e0z-a1-m53-cA 2e0z-a1-m54-cC_2e0z-a1-m54-cB 2e0z-a1-m55-cC_2e0z-a1-m54-cA 2e0z-a1-m55-cC_2e0z-a1-m55-cB 2e0z-a1-m56-cA_2e0z-a1-m57-cB 2e0z-a1-m56-cB_2e0z-a1-m60-cA 2e0z-a1-m56-cC_2e0z-a1-m56-cB 2e0z-a1-m56-cC_2e0z-a1-m60-cA 2e0z-a1-m57-cA_2e0z-a1-m58-cB 2e0z-a1-m57-cC_2e0z-a1-m56-cA 2e0z-a1-m57-cC_2e0z-a1-m57-cB 2e0z-a1-m58-cA_2e0z-a1-m59-cB 2e0z-a1-m58-cC_2e0z-a1-m57-cA 2e0z-a1-m58-cC_2e0z-a1-m58-cB 2e0z-a1-m59-cA_2e0z-a1-m60-cB 2e0z-a1-m59-cC_2e0z-a1-m58-cA 2e0z-a1-m59-cC_2e0z-a1-m59-cB 2e0z-a1-m5-cC_2e0z-a1-m4-cA 2e0z-a1-m5-cC_2e0z-a1-m5-cB 2e0z-a1-m60-cC_2e0z-a1-m59-cA 2e0z-a1-m60-cC_2e0z-a1-m60-cB 2e0z-a1-m6-cA_2e0z-a1-m7-cB 2e0z-a1-m6-cC_2e0z-a1-m10-cA 2e0z-a1-m6-cC_2e0z-a1-m6-cB 2e0z-a1-m7-cA_2e0z-a1-m8-cB 2e0z-a1-m7-cC_2e0z-a1-m6-cA 2e0z-a1-m7-cC_2e0z-a1-m7-cB 2e0z-a1-m8-cC_2e0z-a1-m7-cA 2e0z-a1-m8-cC_2e0z-a1-m8-cB 2e0z-a1-m9-cC_2e0z-a1-m8-cA 2e0z-a1-m9-cC_2e0z-a1-m9-cB VEYFEKLRSALLDGVNKGRSLLKHLPVTRIEGQSFRVDIIKFEDGVRVVKQEYKPIPLLKKKFYVGIRELNDGTYDVSIATKAGELLVKDEESLVIREILSTEGIKKMKLSSWDNPEEALNDLMNALQEASNASAGPFGLIINPKRYAKLLKIYEKSGKMLVEVLKEIFRGGIIVTLNIDENKVIIFANTPAVLDVVVGQDVTLQELGPEGDDVAFLVSEAIGIRIKNPEAIVVLE VEYFEKLRSALLDGVNKGRSLLKHLPVTRIEGQSFRVDIIKFEDGVRVVKQEYKPIPLLKKKFYVGIRELNDGTYDVSIATKAGELLVKDEESLVIREILSTEGIKKMKLSSWDNPEEALNDLMNALQEASNASAGPFGLIINPKRYAKLLKIYEKSGKMLVEVLKEIFRGGIIVTLNIDENKVIIFANTPAVLDVVVGQDVTLQELGPEGDDVAFLVSEAIGIRIKNPEAIVVLE 2e0z-a1-m9-cA_2e0z-a1-m9-cB Crystal structure of virus-like particle from Pyrococcus furiosus Q8U1L4 Q8U1L4 3.6 X-RAY DIFFRACTION 83 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 236 236 2e0z-a1-m10-cA_2e0z-a1-m10-cB 2e0z-a1-m10-cB_2e0z-a1-m23-cA 2e0z-a1-m10-cC_2e0z-a1-m6-cC 2e0z-a1-m10-cC_2e0z-a1-m9-cC 2e0z-a1-m11-cA_2e0z-a1-m11-cB 2e0z-a1-m11-cA_2e0z-a1-m38-cB 2e0z-a1-m11-cB_2e0z-a1-m20-cA 2e0z-a1-m11-cC_2e0z-a1-m12-cC 2e0z-a1-m11-cC_2e0z-a1-m15-cC 2e0z-a1-m12-cA_2e0z-a1-m12-cB 2e0z-a1-m12-cA_2e0z-a1-m47-cB 2e0z-a1-m12-cB_2e0z-a1-m37-cA 2e0z-a1-m12-cC_2e0z-a1-m13-cC 2e0z-a1-m13-cA_2e0z-a1-m13-cB 2e0z-a1-m13-cA_2e0z-a1-m45-cB 2e0z-a1-m13-cB_2e0z-a1-m46-cA 2e0z-a1-m13-cC_2e0z-a1-m14-cC 2e0z-a1-m14-cA_2e0z-a1-m14-cB 2e0z-a1-m14-cA_2e0z-a1-m29-cB 2e0z-a1-m14-cB_2e0z-a1-m44-cA 2e0z-a1-m14-cC_2e0z-a1-m15-cC 2e0z-a1-m15-cA_2e0z-a1-m15-cB 2e0z-a1-m15-cA_2e0z-a1-m16-cB 2e0z-a1-m15-cB_2e0z-a1-m28-cA 2e0z-a1-m16-cA_2e0z-a1-m16-cB 2e0z-a1-m16-cA_2e0z-a1-m28-cB 2e0z-a1-m16-cC_2e0z-a1-m17-cC 2e0z-a1-m16-cC_2e0z-a1-m20-cC 2e0z-a1-m17-cA_2e0z-a1-m17-cB 2e0z-a1-m17-cA_2e0z-a1-m52-cB 2e0z-a1-m17-cB_2e0z-a1-m27-cA 2e0z-a1-m17-cC_2e0z-a1-m18-cC 2e0z-a1-m18-cA_2e0z-a1-m18-cB 2e0z-a1-m18-cA_2e0z-a1-m60-cB 2e0z-a1-m18-cB_2e0z-a1-m51-cA 2e0z-a1-m18-cC_2e0z-a1-m19-cC 2e0z-a1-m19-cA_2e0z-a1-m19-cB 2e0z-a1-m19-cA_2e0z-a1-m39-cB 2e0z-a1-m19-cB_2e0z-a1-m59-cA 2e0z-a1-m19-cC_2e0z-a1-m20-cC 2e0z-a1-m1-cA_2e0z-a1-m1-cB 2e0z-a1-m1-cA_2e0z-a1-m23-cB 2e0z-a1-m1-cB_2e0z-a1-m10-cA 2e0z-a1-m1-cC_2e0z-a1-m2-cC 2e0z-a1-m1-cC_2e0z-a1-m5-cC 2e0z-a1-m20-cA_2e0z-a1-m20-cB 2e0z-a1-m20-cB_2e0z-a1-m38-cA 2e0z-a1-m21-cA_2e0z-a1-m21-cB 2e0z-a1-m21-cA_2e0z-a1-m43-cB 2e0z-a1-m21-cB_2e0z-a1-m30-cA 2e0z-a1-m21-cC_2e0z-a1-m22-cC 2e0z-a1-m21-cC_2e0z-a1-m25-cC 2e0z-a1-m22-cA_2e0z-a1-m22-cB 2e0z-a1-m22-cB_2e0z-a1-m42-cA 2e0z-a1-m22-cC_2e0z-a1-m23-cC 2e0z-a1-m23-cA_2e0z-a1-m23-cB 2e0z-a1-m23-cC_2e0z-a1-m24-cC 2e0z-a1-m24-cA_2e0z-a1-m24-cB 2e0z-a1-m24-cA_2e0z-a1-m54-cB 2e0z-a1-m24-cB_2e0z-a1-m9-cA 2e0z-a1-m24-cC_2e0z-a1-m25-cC 2e0z-a1-m25-cA_2e0z-a1-m25-cB 2e0z-a1-m25-cA_2e0z-a1-m26-cB 2e0z-a1-m25-cB_2e0z-a1-m53-cA 2e0z-a1-m26-cA_2e0z-a1-m26-cB 2e0z-a1-m26-cA_2e0z-a1-m53-cB 2e0z-a1-m26-cC_2e0z-a1-m27-cC 2e0z-a1-m26-cC_2e0z-a1-m30-cC 2e0z-a1-m27-cA_2e0z-a1-m27-cB 2e0z-a1-m27-cB_2e0z-a1-m52-cA 2e0z-a1-m27-cC_2e0z-a1-m28-cC 2e0z-a1-m28-cA_2e0z-a1-m28-cB 2e0z-a1-m28-cC_2e0z-a1-m29-cC 2e0z-a1-m29-cA_2e0z-a1-m29-cB 2e0z-a1-m29-cA_2e0z-a1-m44-cB 2e0z-a1-m29-cC_2e0z-a1-m30-cC 2e0z-a1-m2-cA_2e0z-a1-m2-cB 2e0z-a1-m2-cA_2e0z-a1-m42-cB 2e0z-a1-m2-cB_2e0z-a1-m22-cA 2e0z-a1-m2-cC_2e0z-a1-m3-cC 2e0z-a1-m30-cA_2e0z-a1-m30-cB 2e0z-a1-m30-cB_2e0z-a1-m43-cA 2e0z-a1-m31-cA_2e0z-a1-m31-cB 2e0z-a1-m31-cA_2e0z-a1-m58-cB 2e0z-a1-m31-cB_2e0z-a1-m40-cA 2e0z-a1-m31-cC_2e0z-a1-m32-cC 2e0z-a1-m31-cC_2e0z-a1-m35-cC 2e0z-a1-m32-cA_2e0z-a1-m32-cB 2e0z-a1-m32-cA_2e0z-a1-m7-cB 2e0z-a1-m32-cB_2e0z-a1-m57-cA 2e0z-a1-m32-cC_2e0z-a1-m33-cC 2e0z-a1-m33-cA_2e0z-a1-m33-cB 2e0z-a1-m33-cA_2e0z-a1-m5-cB 2e0z-a1-m33-cB_2e0z-a1-m6-cA 2e0z-a1-m33-cC_2e0z-a1-m34-cC 2e0z-a1-m34-cA_2e0z-a1-m34-cB 2e0z-a1-m34-cA_2e0z-a1-m49-cB 2e0z-a1-m34-cB_2e0z-a1-m4-cA 2e0z-a1-m34-cC_2e0z-a1-m35-cC 2e0z-a1-m35-cA_2e0z-a1-m35-cB 2e0z-a1-m35-cA_2e0z-a1-m36-cB 2e0z-a1-m35-cB_2e0z-a1-m48-cA 2e0z-a1-m36-cA_2e0z-a1-m36-cB 2e0z-a1-m36-cA_2e0z-a1-m48-cB 2e0z-a1-m36-cC_2e0z-a1-m37-cC 2e0z-a1-m36-cC_2e0z-a1-m40-cC 2e0z-a1-m37-cA_2e0z-a1-m37-cB 2e0z-a1-m37-cB_2e0z-a1-m47-cA 2e0z-a1-m37-cC_2e0z-a1-m38-cC 2e0z-a1-m38-cA_2e0z-a1-m38-cB 2e0z-a1-m38-cC_2e0z-a1-m39-cC 2e0z-a1-m39-cA_2e0z-a1-m39-cB 2e0z-a1-m39-cA_2e0z-a1-m59-cB 2e0z-a1-m39-cC_2e0z-a1-m40-cC 2e0z-a1-m3-cA_2e0z-a1-m3-cB 2e0z-a1-m3-cA_2e0z-a1-m50-cB 2e0z-a1-m3-cB_2e0z-a1-m41-cA 2e0z-a1-m3-cC_2e0z-a1-m4-cC 2e0z-a1-m40-cA_2e0z-a1-m40-cB 2e0z-a1-m40-cB_2e0z-a1-m58-cA 2e0z-a1-m41-cA_2e0z-a1-m41-cB 2e0z-a1-m41-cB_2e0z-a1-m50-cA 2e0z-a1-m41-cC_2e0z-a1-m42-cC 2e0z-a1-m41-cC_2e0z-a1-m45-cC 2e0z-a1-m42-cA_2e0z-a1-m42-cB 2e0z-a1-m42-cC_2e0z-a1-m43-cC 2e0z-a1-m43-cA_2e0z-a1-m43-cB 2e0z-a1-m43-cC_2e0z-a1-m44-cC 2e0z-a1-m44-cA_2e0z-a1-m44-cB 2e0z-a1-m44-cC_2e0z-a1-m45-cC 2e0z-a1-m45-cA_2e0z-a1-m45-cB 2e0z-a1-m45-cA_2e0z-a1-m46-cB 2e0z-a1-m46-cA_2e0z-a1-m46-cB 2e0z-a1-m46-cC_2e0z-a1-m47-cC 2e0z-a1-m46-cC_2e0z-a1-m50-cC 2e0z-a1-m47-cA_2e0z-a1-m47-cB 2e0z-a1-m47-cC_2e0z-a1-m48-cC 2e0z-a1-m48-cA_2e0z-a1-m48-cB 2e0z-a1-m48-cC_2e0z-a1-m49-cC 2e0z-a1-m49-cA_2e0z-a1-m49-cB 2e0z-a1-m49-cC_2e0z-a1-m50-cC 2e0z-a1-m4-cA_2e0z-a1-m4-cB 2e0z-a1-m4-cB_2e0z-a1-m49-cA 2e0z-a1-m4-cC_2e0z-a1-m5-cC 2e0z-a1-m50-cA_2e0z-a1-m50-cB 2e0z-a1-m51-cA_2e0z-a1-m51-cB 2e0z-a1-m51-cB_2e0z-a1-m60-cA 2e0z-a1-m51-cC_2e0z-a1-m52-cC 2e0z-a1-m51-cC_2e0z-a1-m55-cC 2e0z-a1-m52-cA_2e0z-a1-m52-cB 2e0z-a1-m52-cC_2e0z-a1-m53-cC 2e0z-a1-m53-cA_2e0z-a1-m53-cB 2e0z-a1-m53-cC_2e0z-a1-m54-cC 2e0z-a1-m54-cA_2e0z-a1-m54-cB 2e0z-a1-m54-cA_2e0z-a1-m9-cB 2e0z-a1-m54-cC_2e0z-a1-m55-cC 2e0z-a1-m55-cA_2e0z-a1-m55-cB 2e0z-a1-m55-cA_2e0z-a1-m56-cB 2e0z-a1-m55-cB_2e0z-a1-m8-cA 2e0z-a1-m56-cA_2e0z-a1-m56-cB 2e0z-a1-m56-cA_2e0z-a1-m8-cB 2e0z-a1-m56-cC_2e0z-a1-m57-cC 2e0z-a1-m56-cC_2e0z-a1-m60-cC 2e0z-a1-m57-cA_2e0z-a1-m57-cB 2e0z-a1-m57-cB_2e0z-a1-m7-cA 2e0z-a1-m57-cC_2e0z-a1-m58-cC 2e0z-a1-m58-cA_2e0z-a1-m58-cB 2e0z-a1-m58-cC_2e0z-a1-m59-cC 2e0z-a1-m59-cA_2e0z-a1-m59-cB 2e0z-a1-m59-cC_2e0z-a1-m60-cC 2e0z-a1-m5-cA_2e0z-a1-m5-cB 2e0z-a1-m5-cA_2e0z-a1-m6-cB 2e0z-a1-m60-cA_2e0z-a1-m60-cB 2e0z-a1-m6-cA_2e0z-a1-m6-cB 2e0z-a1-m6-cC_2e0z-a1-m7-cC 2e0z-a1-m7-cA_2e0z-a1-m7-cB 2e0z-a1-m7-cC_2e0z-a1-m8-cC 2e0z-a1-m8-cA_2e0z-a1-m8-cB 2e0z-a1-m8-cC_2e0z-a1-m9-cC VEYFEKLRSALLDGVNKGRSLLKHLPVTRIEGQSFRVDIIKFEDGVRVVKQEYKPIPLLKKKFYVGIRELNDGTYDVSIATKAGELLVKDEESLVIREILSTEGIKKMKLSSWDNPEEALNDLMNALQEASNASAGPFGLIINPKRYAKLLKIYEKSGKMLVEVLKEIFRGGIIVTLNIDENKVIIFANTPAVLDVVVGQDVTLQELGPEGDDVAFLVSEAIGIRIKNPEAIVVLE VEYFEKLRSALLDGVNKGRSLLKHLPVTRIEGQSFRVDIIKFEDGVRVVKQEYKPIPLLKKKFYVGIRELNDGTYDVSIATKAGELLVKDEESLVIREILSTEGIKKMKLSSWDNPEEALNDLMNALQEASNASAGPFGLIINPKRYAKLLKIYEKSGKMLVEVLKEIFRGGIIVTLNIDENKVIIFANTPAVLDVVVGQDVTLQELGPEGDDVAFLVSEAIGIRIKNPEAIVVLE 2e0z-a1-m9-cC_2e0z-a1-m9-cA Crystal structure of virus-like particle from Pyrococcus furiosus Q8U1L4 Q8U1L4 3.6 X-RAY DIFFRACTION 12 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 228 236 2e0z-a1-m10-cB_2e0z-a1-m24-cB 2e0z-a1-m10-cC_2e0z-a1-m10-cA 2e0z-a1-m11-cB_2e0z-a1-m16-cB 2e0z-a1-m11-cC_2e0z-a1-m11-cA 2e0z-a1-m12-cB_2e0z-a1-m38-cB 2e0z-a1-m12-cC_2e0z-a1-m12-cA 2e0z-a1-m13-cB_2e0z-a1-m47-cB 2e0z-a1-m13-cC_2e0z-a1-m13-cA 2e0z-a1-m14-cB_2e0z-a1-m45-cB 2e0z-a1-m14-cC_2e0z-a1-m14-cA 2e0z-a1-m15-cB_2e0z-a1-m29-cB 2e0z-a1-m15-cC_2e0z-a1-m15-cA 2e0z-a1-m16-cC_2e0z-a1-m16-cA 2e0z-a1-m17-cB_2e0z-a1-m28-cB 2e0z-a1-m17-cC_2e0z-a1-m17-cA 2e0z-a1-m18-cB_2e0z-a1-m52-cB 2e0z-a1-m18-cC_2e0z-a1-m18-cA 2e0z-a1-m19-cB_2e0z-a1-m60-cB 2e0z-a1-m19-cC_2e0z-a1-m19-cA 2e0z-a1-m1-cB_2e0z-a1-m6-cB 2e0z-a1-m1-cC_2e0z-a1-m1-cA 2e0z-a1-m20-cB_2e0z-a1-m39-cB 2e0z-a1-m20-cC_2e0z-a1-m20-cA 2e0z-a1-m21-cB_2e0z-a1-m26-cB 2e0z-a1-m21-cC_2e0z-a1-m21-cA 2e0z-a1-m22-cB_2e0z-a1-m43-cB 2e0z-a1-m22-cC_2e0z-a1-m22-cA 2e0z-a1-m23-cC_2e0z-a1-m23-cA 2e0z-a1-m24-cC_2e0z-a1-m24-cA 2e0z-a1-m25-cB_2e0z-a1-m54-cB 2e0z-a1-m25-cC_2e0z-a1-m25-cA 2e0z-a1-m26-cC_2e0z-a1-m26-cA 2e0z-a1-m27-cB_2e0z-a1-m53-cB 2e0z-a1-m27-cC_2e0z-a1-m27-cA 2e0z-a1-m28-cC_2e0z-a1-m28-cA 2e0z-a1-m29-cC_2e0z-a1-m29-cA 2e0z-a1-m2-cB_2e0z-a1-m23-cB 2e0z-a1-m2-cC_2e0z-a1-m2-cA 2e0z-a1-m30-cB_2e0z-a1-m44-cB 2e0z-a1-m30-cC_2e0z-a1-m30-cA 2e0z-a1-m31-cB_2e0z-a1-m36-cB 2e0z-a1-m31-cC_2e0z-a1-m31-cA 2e0z-a1-m32-cB_2e0z-a1-m58-cB 2e0z-a1-m32-cC_2e0z-a1-m32-cA 2e0z-a1-m33-cB_2e0z-a1-m7-cB 2e0z-a1-m33-cC_2e0z-a1-m33-cA 2e0z-a1-m34-cB_2e0z-a1-m5-cB 2e0z-a1-m34-cC_2e0z-a1-m34-cA 2e0z-a1-m35-cB_2e0z-a1-m49-cB 2e0z-a1-m35-cC_2e0z-a1-m35-cA 2e0z-a1-m36-cC_2e0z-a1-m36-cA 2e0z-a1-m37-cB_2e0z-a1-m48-cB 2e0z-a1-m37-cC_2e0z-a1-m37-cA 2e0z-a1-m38-cC_2e0z-a1-m38-cA 2e0z-a1-m39-cC_2e0z-a1-m39-cA 2e0z-a1-m3-cB_2e0z-a1-m42-cB 2e0z-a1-m3-cC_2e0z-a1-m3-cA 2e0z-a1-m40-cB_2e0z-a1-m59-cB 2e0z-a1-m40-cC_2e0z-a1-m40-cA 2e0z-a1-m41-cB_2e0z-a1-m46-cB 2e0z-a1-m41-cC_2e0z-a1-m41-cA 2e0z-a1-m42-cC_2e0z-a1-m42-cA 2e0z-a1-m43-cC_2e0z-a1-m43-cA 2e0z-a1-m44-cC_2e0z-a1-m44-cA 2e0z-a1-m45-cC_2e0z-a1-m45-cA 2e0z-a1-m46-cC_2e0z-a1-m46-cA 2e0z-a1-m47-cC_2e0z-a1-m47-cA 2e0z-a1-m48-cC_2e0z-a1-m48-cA 2e0z-a1-m49-cC_2e0z-a1-m49-cA 2e0z-a1-m4-cB_2e0z-a1-m50-cB 2e0z-a1-m4-cC_2e0z-a1-m4-cA 2e0z-a1-m50-cC_2e0z-a1-m50-cA 2e0z-a1-m51-cB_2e0z-a1-m56-cB 2e0z-a1-m51-cC_2e0z-a1-m51-cA 2e0z-a1-m52-cC_2e0z-a1-m52-cA 2e0z-a1-m53-cC_2e0z-a1-m53-cA 2e0z-a1-m54-cC_2e0z-a1-m54-cA 2e0z-a1-m55-cB_2e0z-a1-m9-cB 2e0z-a1-m55-cC_2e0z-a1-m55-cA 2e0z-a1-m56-cC_2e0z-a1-m56-cA 2e0z-a1-m57-cB_2e0z-a1-m8-cB 2e0z-a1-m57-cC_2e0z-a1-m57-cA 2e0z-a1-m58-cC_2e0z-a1-m58-cA 2e0z-a1-m59-cC_2e0z-a1-m59-cA 2e0z-a1-m5-cC_2e0z-a1-m5-cA 2e0z-a1-m60-cC_2e0z-a1-m60-cA 2e0z-a1-m6-cC_2e0z-a1-m6-cA 2e0z-a1-m7-cC_2e0z-a1-m7-cA 2e0z-a1-m8-cC_2e0z-a1-m8-cA VEYFEKLRSALLDGVNKGRSLLKHLPVTRIEGQSFRVDIIKFEDGVRVVKQEYKPIPLLKKKFYVGIRELNDGTYDVSIATKAGELLVKDEESLVIREILSTEGIKKMKLSSWDNPEEALNDLMNALQEASNASAGPFGLIINPKRYAKLLKIVEVLKEIFRGGIIVTLNIDENKVIIFANTPAVLDVVVGQDVTLQELGPEGDDVAFLVSEAIGIRIKNPEAIVVLE VEYFEKLRSALLDGVNKGRSLLKHLPVTRIEGQSFRVDIIKFEDGVRVVKQEYKPIPLLKKKFYVGIRELNDGTYDVSIATKAGELLVKDEESLVIREILSTEGIKKMKLSSWDNPEEALNDLMNALQEASNASAGPFGLIINPKRYAKLLKIYEKSGKMLVEVLKEIFRGGIIVTLNIDENKVIIFANTPAVLDVVVGQDVTLQELGPEGDDVAFLVSEAIGIRIKNPEAIVVLE 2e11-a2-m1-cB_2e11-a2-m1-cD The Crystal Structure of XC1258 from Xanthomonas campestris: A CN-hydrolase Superfamily Protein with an Arsenic Adduct in the Active Site Q8P8M3 Q8P8M3 1.73 X-RAY DIFFRACTION 113 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 265 265 2e11-a1-m1-cA_2e11-a1-m1-cC MHDLRISLVQGSTRWHDPAGNRDYYGALLEPLAGQSDLVILPETFTSGFSNEAIDKAEDMDGPTVAWIRTQAARLGAAITGSVQLRTEHGVFNRLLWATPDGALQYYDKRHLFRFGNEHLRYAAGRERLCVEWKGWRINPQVCYDLRFPVFCRNRFDVERPGQLDFDLQLFVANWPSARAYAWKTLLRARAIENLCFVAAVNRVGVDGNQLHYAGDSAVIDFLGQPQVEIREQEQVVTTTISAAALAEHRARFPAMLDGDSFVLG MHDLRISLVQGSTRWHDPAGNRDYYGALLEPLAGQSDLVILPETFTSGFSNEAIDKAEDMDGPTVAWIRTQAARLGAAITGSVQLRTEHGVFNRLLWATPDGALQYYDKRHLFRFGNEHLRYAAGRERLCVEWKGWRINPQVCYDLRFPVFCRNRFDVERPGQLDFDLQLFVANWPSARAYAWKTLLRARAIENLCFVAAVNRVGVDGNQLHYAGDSAVIDFLGQPQVEIREQEQVVTTTISAAALAEHRARFPAMLDGDSFVLG 2e12-a1-m1-cA_2e12-a1-m1-cB The crystal structure of XC5848 from Xanthomonas campestris adopting a novel variant of Sm-like motif Q8P4R5 Q8P4R5 1.7 X-RAY DIFFRACTION 23 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 93 93 MPKYAPHVYTEQAQIATLEHWVKLLDGQERVRIELDDGSMIAGTVAVRPTIQTYRDEQEREGSNGQLRIDHLDASQEPQWIWMDRIVAVHPMP MPKYAPHVYTEQAQIATLEHWVKLLDGQERVRIELDDGSMIAGTVAVRPTIQTYRDEQEREGSNGQLRIDHLDASQEPQWIWMDRIVAVHPMP 2e18-a1-m1-cA_2e18-a1-m1-cB Crystal structure of project PH0182 from Pyrococcus horikoshii OT3 O57921 O57921 2.1 X-RAY DIFFRACTION 184 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 256 256 MRILDYDKVIERILEFIREKGNNGVVIGISGGVDSATVAYLATKALGKEKVLGLIMPYFENKDVEDAKLVAEKLGIGYKVINIKPIVDSFVENLELNLDRKGLGNIMSRTRMIMLYAHANSLGRIVLGTSNRSEFLTGYFTKWGDGASDYAPIINLYKTEVWEIAKRIGVPERIVKKKPSAGLWEGQTDEDELGISYNLLDEILWRMIDLKIGKEEIAKDLGIPLSLVERVEELIKKSEHKRRLPIGPSFEDLIVG MRILDYDKVIERILEFIREKGNNGVVIGISGGVDSATVAYLATKALGKEKVLGLIMPYFENKDVEDAKLVAEKLGIGYKVINIKPIVDSFVENLELNLDRKGLGNIMSRTRMIMLYAHANSLGRIVLGTSNRSEFLTGYFTKWGDGASDYAPIINLYKTEVWEIAKRIGVPERIVKKKPSAGLWEGQTDEDELGISYNLLDEILWRMIDLKIGKEEIAKDLGIPLSLVERVEELIKKSEHKRRLPIGPSFEDLIVG 2e1d-a1-m1-cA_2e1d-a1-m1-cB Crystal structure of mouse transaldolase Q93092 Q93092 2 X-RAY DIFFRACTION 46 0.997 10090 (Mus musculus) 10090 (Mus musculus) 321 321 1f05-a1-m1-cA_1f05-a1-m1-cB ESALDQLKQFTTVVADTGDFNAIDEYKPQDATTNPSLILAAAQMPAYQELVEEAIAYGKKLGGPQEEQIKNAIDKLFVLFGAEILKKIPGRVSTEVDARLSFDKDAMVARARRLIELYKEAGVGKDRILIKLSSTWEGIQAGKELEEQHGIHCNMTLLFSFAQAVACAEAGVTLISPFVGRILDWHVANTDKKSYEPQGDPGVKSVTKIYNYYKKFGYKTIVMGASFRNTGEIKALAGCDFLTISPKLLGELLKDNSKLAPALSVKAAQTSDSEKIHLDEKAFRWLHNEDQMAVEKLSDGIRKFAADAIKLERMLTERMFS MESALDQLKQFTTVVADTGDFNAIDEYKPQDATTNPSLILAAAQMPAYQELVEEAIAYGKKLGGPQEEQIKNAIDKLFVLFGAEILKKIPGRVSTEVDARLSFDKDAMVARARRLIELYKEAGVGKDRILIKLSSTWEGIQAGKELEEQHGIHCNMTLLFSFAQAVACAEAGVTLISPFVGRILDWHVANTDKKSYEPQGDPGVKSVTKIYNYYKKFGYKTIVMGASFRNTGEIKALAGCDFLTISPKLLGELLKDNSKLAPALSVKAAQTSDSEKIHLDEKAFRWLHNEDQMAVEKLSDGIRKFAADAIKLERMLTERMF 2e1f-a2-m1-cA_2e1f-a2-m2-cA Crystal structure of the HRDC Domain of Human Werner Syndrome Protein, WRN Q14191 Q14191 2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 2e1e-a2-m1-cA_2e1e-a2-m2-cA QPVISAQEQETQIVLYGKLVEARQKHANKMDVPPAILATNKILVDMAKMRPTTVENVKRIDGVSEGKAAMLAPLLEVIKHFCQTNSVQTDLFSS QPVISAQEQETQIVLYGKLVEARQKHANKMDVPPAILATNKILVDMAKMRPTTVENVKRIDGVSEGKAAMLAPLLEVIKHFCQTNSVQTDLFSS 2e1m-a1-m1-cC_2e1m-a1-m2-cC Crystal Structure of L-Glutamate Oxidase from Streptomyces sp. X-119-6 Q8L3C7 Q8L3C7 2.8 X-RAY DIFFRACTION 35 1.0 196112 (Streptomyces sp. X-119-6) 196112 (Streptomyces sp. X-119-6) 151 151 VRPATNAYGGGSTTDNPNRFMYYPSHPVPGTQGGVVLAAYSWSDDAARWDSFDDAERYGYALENLQSVHGRRIEVFYTGAGQTQSWLRDPYACGEAAVYTPHQMTAFHLDVVRPEGPVYFAGEHVSLKHAWIEGAVETAVRAAIAVNEAPV VRPATNAYGGGSTTDNPNRFMYYPSHPVPGTQGGVVLAAYSWSDDAARWDSFDDAERYGYALENLQSVHGRRIEVFYTGAGQTQSWLRDPYACGEAAVYTPHQMTAFHLDVVRPEGPVYFAGEHVSLKHAWIEGAVETAVRAAIAVNEAPV 2e28-a1-m1-cA_2e28-a1-m4-cA Crystal structure analysis of pyruvate kinase from Bacillus stearothermophilus Q02499 Q02499 2.4 X-RAY DIFFRACTION 124 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 587 587 2e28-a1-m2-cA_2e28-a1-m3-cA MKRKTKIVSTIGPASESVDKLVQLMEAGMNVARLNFSHGDHEEHGRRIANIREAAKRTGRTVAILLDTKGPEIRTHNMENGAIELKEGSKLVISMSEVLGTPEKISVTYPSLIDDVSVGAKILLDDGLISLEVNAVDKQAGEIVTTVLNGGVLKNKKGVNVPGVKVNLPGITEKDRADILFGIRQGIDFIAASFVRRASDVLEIRELLEAHDALHIQIIAKIENEEGVANIDEILEAADGLMVARGDLGVEIPAEEVPLIQKLLIKKSNMLGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAVMLSGETAAGQYPVEAVKTMHQIALRTEQALEHRDILSQRTKESQTTITDAIGQSVAHTALNLDVAAIVTPTVSGKTPQMVAKYRPKAPIIAVTSNEAVSRRLALVWGVYTKEAPHVNTTDEMLDVAVDAAVRSGLVKHGDLVVITAGVPVGETGSTNLMKVHVISDLLAKGQGIGRKSAFGKAVVAKTAEEARQKMVDGGILVTVSTDADMMPAIEKAAAIITEEGGLTSHAAVVGLSLGIPVIVGVENATTLFKDGQEITVDGGFGAVYRGHASVL MKRKTKIVSTIGPASESVDKLVQLMEAGMNVARLNFSHGDHEEHGRRIANIREAAKRTGRTVAILLDTKGPEIRTHNMENGAIELKEGSKLVISMSEVLGTPEKISVTYPSLIDDVSVGAKILLDDGLISLEVNAVDKQAGEIVTTVLNGGVLKNKKGVNVPGVKVNLPGITEKDRADILFGIRQGIDFIAASFVRRASDVLEIRELLEAHDALHIQIIAKIENEEGVANIDEILEAADGLMVARGDLGVEIPAEEVPLIQKLLIKKSNMLGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAVMLSGETAAGQYPVEAVKTMHQIALRTEQALEHRDILSQRTKESQTTITDAIGQSVAHTALNLDVAAIVTPTVSGKTPQMVAKYRPKAPIIAVTSNEAVSRRLALVWGVYTKEAPHVNTTDEMLDVAVDAAVRSGLVKHGDLVVITAGVPVGETGSTNLMKVHVISDLLAKGQGIGRKSAFGKAVVAKTAEEARQKMVDGGILVTVSTDADMMPAIEKAAAIITEEGGLTSHAAVVGLSLGIPVIVGVENATTLFKDGQEITVDGGFGAVYRGHASVL 2e28-a1-m2-cA_2e28-a1-m4-cA Crystal structure analysis of pyruvate kinase from Bacillus stearothermophilus Q02499 Q02499 2.4 X-RAY DIFFRACTION 83 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 587 587 2e28-a1-m1-cA_2e28-a1-m3-cA MKRKTKIVSTIGPASESVDKLVQLMEAGMNVARLNFSHGDHEEHGRRIANIREAAKRTGRTVAILLDTKGPEIRTHNMENGAIELKEGSKLVISMSEVLGTPEKISVTYPSLIDDVSVGAKILLDDGLISLEVNAVDKQAGEIVTTVLNGGVLKNKKGVNVPGVKVNLPGITEKDRADILFGIRQGIDFIAASFVRRASDVLEIRELLEAHDALHIQIIAKIENEEGVANIDEILEAADGLMVARGDLGVEIPAEEVPLIQKLLIKKSNMLGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAVMLSGETAAGQYPVEAVKTMHQIALRTEQALEHRDILSQRTKESQTTITDAIGQSVAHTALNLDVAAIVTPTVSGKTPQMVAKYRPKAPIIAVTSNEAVSRRLALVWGVYTKEAPHVNTTDEMLDVAVDAAVRSGLVKHGDLVVITAGVPVGETGSTNLMKVHVISDLLAKGQGIGRKSAFGKAVVAKTAEEARQKMVDGGILVTVSTDADMMPAIEKAAAIITEEGGLTSHAAVVGLSLGIPVIVGVENATTLFKDGQEITVDGGFGAVYRGHASVL MKRKTKIVSTIGPASESVDKLVQLMEAGMNVARLNFSHGDHEEHGRRIANIREAAKRTGRTVAILLDTKGPEIRTHNMENGAIELKEGSKLVISMSEVLGTPEKISVTYPSLIDDVSVGAKILLDDGLISLEVNAVDKQAGEIVTTVLNGGVLKNKKGVNVPGVKVNLPGITEKDRADILFGIRQGIDFIAASFVRRASDVLEIRELLEAHDALHIQIIAKIENEEGVANIDEILEAADGLMVARGDLGVEIPAEEVPLIQKLLIKKSNMLGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAVMLSGETAAGQYPVEAVKTMHQIALRTEQALEHRDILSQRTKESQTTITDAIGQSVAHTALNLDVAAIVTPTVSGKTPQMVAKYRPKAPIIAVTSNEAVSRRLALVWGVYTKEAPHVNTTDEMLDVAVDAAVRSGLVKHGDLVVITAGVPVGETGSTNLMKVHVISDLLAKGQGIGRKSAFGKAVVAKTAEEARQKMVDGGILVTVSTDADMMPAIEKAAAIITEEGGLTSHAAVVGLSLGIPVIVGVENATTLFKDGQEITVDGGFGAVYRGHASVL 2e2c-a1-m1-cA_2e2c-a1-m2-cA E2-C, AN UBIQUITIN CONJUGATING ENZYME REQUIRED FOR THE DESTRUCTION OF MITOTIC CYCLINS Q95044 Q95044 2 X-RAY DIFFRACTION 28 1.0 6584 (Spisula solidissima) 6584 (Spisula solidissima) 156 156 MTTSKERHSVSKRLQQELRTLLMSGDPGITAFPDGDNLFKWVATLDGPKDTVYESLKYKLTLEFPSDYPYKPPVVKFTTPCWHPNVDQSGNICLDILKENWTASYDVRTILLSLQSLLGEPNNASPLNAQAADMWSNQTEYKKVLHEKYKTAQSDK MTTSKERHSVSKRLQQELRTLLMSGDPGITAFPDGDNLFKWVATLDGPKDTVYESLKYKLTLEFPSDYPYKPPVVKFTTPCWHPNVDQSGNICLDILKENWTASYDVRTILLSLQSLLGEPNNASPLNAQAADMWSNQTEYKKVLHEKYKTAQSDK 2e2e-a1-m1-cA_2e2e-a1-m1-cB TPR domain of NrfG mediates the complex formation between heme lyase and formate-dependent nitrite reductase in Escherichia Coli O157:H7 Q8X5S3 Q8X5S3 2.05 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 171 171 KWQAVRAEYQRQRDPLHQFAEAQLQALQDKIRANPQNSEQWALLGEYYLWQNDYSNSLLAYRQALQLRGENAELYAALATVLYYQASQHMTAQTRAMIDKALALDSNEITALMLLASDAFMQANYAQAIELWQKVMDLNSPRINRTQLVESINMAKLLQRRSDLEHHHHHH KWQAVRAEYQRQRDPLHQFAEAQLQALQDKIRANPQNSEQWALLGEYYLWQNDYSNSLLAYRQALQLRGENAELYAALATVLYYQASQHMTAQTRAMIDKALALDSNEITALMLLASDAFMQANYAQAIELWQKVMDLNSPRINRTQLVESINMAKLLQRRSDLEHHHHHH 2e2k-a1-m1-cB_2e2k-a1-m1-cF Helicobacter pylori formamidase AmiF contains a fine-tuned cysteine-glutamate-lysine catalytic triad O25836 O25836 2.5 X-RAY DIFFRACTION 10 0.994 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 314 314 GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCISHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYDNVFYYFGEGQICNFDGTTLVQGHRPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGGEHDAGLTIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCISHDGMIPELAREAAYKGCNVYIRISGYSQVNDQWILTNRSNAWHNLMYTVSVNLAGYDNVFYYFGEGQICNFDGTTLVQGHNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK 2e2l-a1-m1-cA_2e2l-a1-m1-cD Helicobacter pylori formamidase AmiF contains a fine-tuned cysteine-glutamate-lysine catalytic triad O25836 O25836 2.29 X-RAY DIFFRACTION 23 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 317 317 2e2k-a1-m1-cA_2e2k-a1-m1-cF 2e2k-a1-m1-cB_2e2k-a1-m1-cC 2e2k-a1-m1-cB_2e2k-a1-m1-cE 2e2k-a1-m1-cC_2e2k-a1-m1-cE 2e2k-a1-m1-cD_2e2k-a1-m1-cA 2e2k-a1-m1-cD_2e2k-a1-m1-cF 2e2l-a1-m1-cB_2e2l-a1-m1-cC 2e2l-a1-m1-cB_2e2l-a1-m1-cF 2e2l-a1-m1-cC_2e2l-a1-m1-cF 2e2l-a1-m1-cE_2e2l-a1-m1-cA 2e2l-a1-m1-cE_2e2l-a1-m1-cD GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCISHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYYFGEGQICNFDGTTLVQGHRNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGYVAKPGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK GFLVAAIQFPVPIVNSRKDIDHNIESIIRTLHATKAGYPGVELIIFPEYSTQGLNTAKWLSEEFLLDVPGKETELYAKACKEAKVYGVFSIMERNPDSNKNPYNTAIIIDPQGEIILKYRKLFPWNPIEPWYPGDLGMPVCEGPGGSKLAVCISHDGMIPELAREAAYKGCNVYIRISGYSTQVNDQWILTNRSNAWHNLMYTVSVNLAGYYFGEGQICNFDGTTLVQGHRNPWEIVTGEIYPKMADNARLSWGLENNIYNLGHRGYVAKPGGEHDAGLTYIKDLAAGKYKLPWEDHMKIKDGSIYGYPTTGGRFGK 2e2n-a1-m1-cB_2e2n-a1-m1-cA Crystal structure of Sulfolobus tokodaii hexokinase in the apo form Q96Y14 Q96Y14 1.9 X-RAY DIFFRACTION 86 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 297 298 2e2o-a1-m1-cA_2e2o-a1-m2-cA 2e2p-a1-m1-cB_2e2p-a1-m1-cA 2e2q-a1-m1-cB_2e2q-a1-m1-cA MMIIVGVDAGGTKTKAVAYDCEGNFIGEGSSGPGNYHNVGLTRAIENIKEAVKIAAKGEADVVGMGVAGLDSKFDWENFTPLASLIAPKVIIQHDGVIALFAETLGEPGVVVIAGTGSVVEGYNGKEFLRVGGRGWLLSDDGSAYWVGRKALRKVLKMMDGLENKTILYNKVLKTINVKDLDELVMWSYTSSCQIDLVASIAKAVDEAANEGDTVAMDILKQGAELLASQAVYLARKIGTNKVYLKGGMFRSNIYHKFFTLYLEKEGIISDLGKRSPEIGAVILAYKEVGCDIKKLI MMIIVGVDAGGTKTKAVAYDCEGNFIGEGSSGPGNYHNVGLTRAIENIKEAVKIAAKGEADVVGMGVAGLDSKFDWENFTPLASLIAPKVIIQHDGVIALFAETLGEPGVVVIAGTGSVVEGYNGKEFLRVGGRGWLLSDDGSAYWVGRKALRKVLKMMDGLENKTILYNKVLKTINVKDLDELVMWSYTSSCQIDLVASIAKAVDEAANEGDTVAMDILKQGAELLASQAVYLARKIGTNKVYLKGGMFRSNIYHKFFTLYLEKEGIISDLGKRSPEIGAVILAYKEVGCDIKKLIS 2e37-a5-m1-cE_2e37-a5-m1-cG Structure of TT0471 protein from Thermus thermophilus Q5SJA1 Q5SJA1 2.3 X-RAY DIFFRACTION 15 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 301 307 2e37-a4-m1-cA_2e37-a4-m1-cC KVGIVGSGVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVRAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVTQVAYRLSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAESPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVEGVLEVSLSLPRILGAGGVEGTVYPSLSPEEREALRRSAEILKEAAFALGF KVGIVGSGVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVRAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVTQVAYRLSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVEGVLEVSLSLPRILGAGGVEGTVYPSLSPEEREALRRSAEILKEAAFALGF 2e37-a5-m1-cF_2e37-a5-m1-cG Structure of TT0471 protein from Thermus thermophilus Q5SJA1 Q5SJA1 2.3 X-RAY DIFFRACTION 32 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 305 307 2e37-a4-m1-cB_2e37-a4-m1-cC 2e37-a4-m1-cD_2e37-a4-m1-cA 2e37-a5-m1-cE_2e37-a5-m1-cH KVGIVGSGVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVRAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVTQVAYRLSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVEGVLEVSLSLPRILGAGGVEGTVYPSLSPEEREALRRSAEILKEAAFALGF KVGIVGSGVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVRAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVTQVAYRLSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVEGVLEVSLSLPRILGAGGVEGTVYPSLSPEEREALRRSAEILKEAAFALGF 2e3d-a1-m1-cA_2e3d-a1-m1-cC Crystal structure of E. coli glucose-1-phosphate uridylyltransferase P0AEP3 P0AEP3 1.95 X-RAY DIFFRACTION 125 0.99 562 (Escherichia coli) 562 (Escherichia coli) 286 288 4d48-a1-m1-cA_4d48-a1-m1-cB NTKVKKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLERQLLDEVQSICPPHVTIMQVRQGLAKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSQDNLAEMIRRFDETGHSQIMVEPVADVTAYGVVDCKGVELAPGESVPMVGVVEKPKADVAPSNLAIVGRYVLSADIWPLLAKTPPEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHNTLGTEFKAWLEEEM INTKVKKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLERQLLDEVQSICPPHVTIMQVRQGLAKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSQDNLAEMIRRFDETGHSQIMVEPVADVTAYGVVDCKGVELAPGESVPMVGVVPKADVAPSNLAIVGRYVLSADIWPLLAKTPPGAGDEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHNTLGTEFKAWLEEE 2e3d-a1-m1-cD_2e3d-a1-m1-cC Crystal structure of E. coli glucose-1-phosphate uridylyltransferase P0AEP3 P0AEP3 1.95 X-RAY DIFFRACTION 52 0.989 562 (Escherichia coli) 562 (Escherichia coli) 278 288 2e3d-a1-m1-cB_2e3d-a1-m1-cA TKVKKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLKRQLLDEVQSICPPHVTIMQVRQGKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSQDNLAEMIRRFDETGHSQIMVEPVADVTAYGVVDCKGVELAPGESVPMVGVVEPSNLAIVGRYVLSADIWPLLAKTGAGDEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHNTLGTEFKAWLEEEM INTKVKKAVIPVAGLGTRMLPATKAIPKEMLPLVDKPLIQYVVNECIAAGITEIVLVTHSSKNSIENHFDTSFELEAMLERQLLDEVQSICPPHVTIMQVRQGLAKGLGHAVLCAHPVVGDEPVAVILPDVILDEYESDLSQDNLAEMIRRFDETGHSQIMVEPVADVTAYGVVDCKGVELAPGESVPMVGVVPKADVAPSNLAIVGRYVLSADIWPLLAKTPPGAGDEIQLTDAIDMLIEKETVEAYHMKGKSHDCGNKLGYMQAFVEYGIRHNTLGTEFKAWLEEE 2e3j-a1-m1-cA_2e3j-a1-m2-cA The crystal structure of epoxide hydrolase B (Rv1938) from mycobacterium tuberculosis at 2.1 angstrom P95276 P95276 2.1 X-RAY DIFFRACTION 77 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 346 346 2zjf-a1-m1-cA_2zjf-a1-m2-cA VHRILNCRGTRIHAVADSPPDQQGPLVVLLHGFPESWYSWRHQIPALAGAGYRVVAIDQRGYGRSSKYRVQKAYRIKELVGDVVGVLDSYGAEQAFVVGHDWGAPVAWTFAWLHPDRCAGVVGISVPFAGRGVIGLPGSPFGERRPSDYHLELAGPGRVWYQDYFAVQDGIITEIEEDLRGWLLGLTYTVSGEGMMAATKAAVSMDPIDVIRAGPLCMAEGARLKDAFVYPETMPAWFTEADLDFYTGEFERSGFGGPLSFYHNIDNDWHDLADQQGKPLTPPALFIGGQYDVGTIWGAQAIERAHEVMPNYRGTHMIADVGHWIQQEAPEETNRLLLDFLGGLRP VHRILNCRGTRIHAVADSPPDQQGPLVVLLHGFPESWYSWRHQIPALAGAGYRVVAIDQRGYGRSSKYRVQKAYRIKELVGDVVGVLDSYGAEQAFVVGHDWGAPVAWTFAWLHPDRCAGVVGISVPFAGRGVIGLPGSPFGERRPSDYHLELAGPGRVWYQDYFAVQDGIITEIEEDLRGWLLGLTYTVSGEGMMAATKAAVSMDPIDVIRAGPLCMAEGARLKDAFVYPETMPAWFTEADLDFYTGEFERSGFGGPLSFYHNIDNDWHDLADQQGKPLTPPALFIGGQYDVGTIWGAQAIERAHEVMPNYRGTHMIADVGHWIQQEAPEETNRLLLDFLGGLRP 2e47-a1-m1-cB_2e47-a1-m1-cA Crystal Structure Analysis of the clock protein EA4 (glycosylation form) Q08J22 Q08J22 2.11 X-RAY DIFFRACTION 69 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 152 155 2e46-a1-m1-cA_2e46-a1-m2-cA TTPSRAIAVLSTETIRGNITFTQVQDGKVHVQGGITGLPPGEYGFHVHEKGDLSGGCLSTGSHFNPEHKDHGHPNDVNRHVGDLGNVVFDENHYSRIDLVDDQISLSGPHGIIGRAVVLHEKADDYGKSDHPDSRKTGNAGGRVACGVIGIL HGFTTPSRAIAVLSTETIRGNITFTQVQDGKVHVQGGITGLPPGEYGFHVHEKGDLSGGCLSTGSHFNPEHKDHGHPNDVNRHVGDLGNVVFDENHYSRIDLVDDQISLSGPHGIIGRAVVLHEKADDYGKSDHPDSRKTGNAGGRVACGVIGIL 2e4z-a1-m1-cA_2e4z-a1-m2-cA Crystal structure of the ligand-binding region of the group III metabotropic glutamate receptor P35400 P35400 3.3 X-RAY DIFFRACTION 30 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 434 434 7epc-a1-m1-cA_7epc-a1-m1-cB PHSIRIEGDVTLGGLFPVHAKGPSGVPCGDIKRENGIHRLEAMLYALDQINSDPNLLPNVTLGARILDTCSRDTYALEQSLTFVQALIQKPEKVVGVIGASGSSVSIMVANILRLFQIPQISYASTAPELSDDRRYDFFSRVVPPDSFQAQAMVDIVKALGWNYVSTLASEGSYGEKGVESFTQISKEAGGLCIAQSVRIPTIDFDRIIKQLLDTPNSRAVVIFANDEDIKQILAAAKRADQVGHFLWVGSDSWGSKINPLHQHEDIAEGAITIQPKRATVEGFDAYFTSRTLENNRRNVWFAEYWEENFNCKKCTGQERIGKDSNYEQEGKVQFVIDAVYAMAHALHHMNKDLCYRGVCPEMEQAGGKKLLKYIRHVNFNGSAGTPVMFNKNGDAPGRYDIFQYQTTNTTNPGYRLIGQWTDELQLNIEDMQW PHSIRIEGDVTLGGLFPVHAKGPSGVPCGDIKRENGIHRLEAMLYALDQINSDPNLLPNVTLGARILDTCSRDTYALEQSLTFVQALIQKPEKVVGVIGASGSSVSIMVANILRLFQIPQISYASTAPELSDDRRYDFFSRVVPPDSFQAQAMVDIVKALGWNYVSTLASEGSYGEKGVESFTQISKEAGGLCIAQSVRIPTIDFDRIIKQLLDTPNSRAVVIFANDEDIKQILAAAKRADQVGHFLWVGSDSWGSKINPLHQHEDIAEGAITIQPKRATVEGFDAYFTSRTLENNRRNVWFAEYWEENFNCKKCTGQERIGKDSNYEQEGKVQFVIDAVYAMAHALHHMNKDLCYRGVCPEMEQAGGKKLLKYIRHVNFNGSAGTPVMFNKNGDAPGRYDIFQYQTTNTTNPGYRLIGQWTDELQLNIEDMQW 2e50-a2-m1-cQ_2e50-a2-m1-cP Crystal structure of SET/TAF-1beta/INHAT Q01105 Q01105 2.3 X-RAY DIFFRACTION 99 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 159 186 2e50-a1-m1-cB_2e50-a1-m1-cA SEKEQQEAIEHIDEVQNEIDRLNEQASEEILKVEQKYNKLRQPFFQKRSELIAKIPNFWVTTFVNHPQVSALLGEEDEEAMHYLTRVEVTEFEDIKSGYRIDFYFDENPYFENKVLSKEFHSSKSTEIKWFFTWFTADELGEVIKDDIWPNPLQYYLVP MSAQAAKVSKKELNSNADETSEKEQQEAIEHIDEVQNEIDRLNEQASEEILKVEQKYNKLRQPFFQKRSELIAKIPNFWVTTFVNHPQVSALLGEEDEEAMHYLTRVEVTEFEDIKSGYRIDFYFDENPYFENKVLSKEFHSSKSTEIKWKSGKDMTFFTWFTGADELGEVIKDDIWPNPLQYYLV 2e55-a1-m1-cA_2e55-a1-m1-cD Structure of AQ2163 protein from Aquifex aeolicus O67914 O67914 2.15 X-RAY DIFFRACTION 124 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 208 208 2e55-a1-m1-cB_2e55-a1-m1-cC MIVELSHPLIKHKVNTARIQDTSAEKLRKTLKELGFMLVYEALKDILLEEKEVRTWIGNKRFNYLNEEEIVFVPILRAGLSFLEGALQVVPNAKVGFLGIKRNEETLESHIYYSRLPELKGKIVVILDPMLATGGTLEVALREILKHSPLKVKSVHAIAAPEGLKRIEEKFKEVEIFVGNVDERLNDKGYIIPGLGDIGDRLYAVSVY MIVELSHPLIKHKVNTARIQDTSAEKLRKTLKELGFMLVYEALKDILLEEKEVRTWIGNKRFNYLNEEEIVFVPILRAGLSFLEGALQVVPNAKVGFLGIKRNEETLESHIYYSRLPELKGKIVVILDPMLATGGTLEVALREILKHSPLKVKSVHAIAAPEGLKRIEEKFKEVEIFVGNVDERLNDKGYIIPGLGDIGDRLYAVSVY 2e55-a1-m1-cC_2e55-a1-m1-cD Structure of AQ2163 protein from Aquifex aeolicus O67914 O67914 2.15 X-RAY DIFFRACTION 74 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 208 208 2e55-a1-m1-cA_2e55-a1-m1-cB MIVELSHPLIKHKVNTARIQDTSAEKLRKTLKELGFMLVYEALKDILLEEKEVRTWIGNKRFNYLNEEEIVFVPILRAGLSFLEGALQVVPNAKVGFLGIKRNEETLESHIYYSRLPELKGKIVVILDPMLATGGTLEVALREILKHSPLKVKSVHAIAAPEGLKRIEEKFKEVEIFVGNVDERLNDKGYIIPGLGDIGDRLYAVSVY MIVELSHPLIKHKVNTARIQDTSAEKLRKTLKELGFMLVYEALKDILLEEKEVRTWIGNKRFNYLNEEEIVFVPILRAGLSFLEGALQVVPNAKVGFLGIKRNEETLESHIYYSRLPELKGKIVVILDPMLATGGTLEVALREILKHSPLKVKSVHAIAAPEGLKRIEEKFKEVEIFVGNVDERLNDKGYIIPGLGDIGDRLYAVSVY 2e5f-a1-m1-cB_2e5f-a1-m1-cA Crystal Structure of the PH0510 protein from Pyrococcus horikoshii OT3 in complex with phosphate ion O58246 O58246 1.35 X-RAY DIFFRACTION 148 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 324 325 2dec-a1-m1-cA_2dec-a1-m1-cB 2df8-a1-m1-cB_2df8-a1-m1-cA KTLIEIKQTPDGIIKADKVFNKVKDKISLPNRILYLGCGSSHFLSKLLAMVTNMHGGLGIALPCSEFLYSKETYPIGEVELAVGISRSGETTEILLALEKINVKKLGITTRESSLTRMCDYSLVVPAIEESVVMTHSFTSFYFAYLQLLRYSYGLPPLNAGEISKATEKSLEYERYIREIVESFDFQNIIFLGSGLLYPVALEASLKMKEMSIFWSEAYPTFEVRHGFKAIADEKTLVVLMVEEPFEWHEKLVKEFKNQGAKVLVISNSPQDLGQDYSIELPRLSKDANPIPYLPIVQLLSYYKAVSRGLNPDNPRFLDKVVRW MKTLIEIKQTPDGIIKADKVFNKVKDKISLPNRILYLGCGSSHFLSKLLAMVTNMHGGLGIALPCSEFLYSKETYPIGEVELAVGISRSGETTEILLALEKINVKKLGITTRESSLTRMCDYSLVVPAIEESVVMTHSFTSFYFAYLQLLRYSYGLPPLNAGEISKATEKSLEYERYIREIVESFDFQNIIFLGSGLLYPVALEASLKMKEMSIFWSEAYPTFEVRHGFKAIADEKTLVVLMVEEPFEWHEKLVKEFKNQGAKVLVISNSPQDLGQDYSIELPRLSKDANPIPYLPIVQLLSYYKAVSRGLNPDNPRFLDKVVRW 2e5w-a2-m1-cD_2e5w-a2-m1-cC Crystal structure of spermidine synthase from Pyrococcus horikoshii OT3 O57950 O57950 2 X-RAY DIFFRACTION 118 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 269 280 2e5w-a1-m1-cB_2e5w-a1-m1-cA 2zsu-a1-m1-cB_2zsu-a1-m1-cA 2zsu-a2-m1-cD_2zsu-a2-m1-cC 2zsu-a3-m1-cF_2zsu-a3-m1-cE MEFIEWYPRGYGVAFKVKRKILEEQSEYQKIEVYETEGFGKLLAIDGTVQLVTEGEKSYHEPLVHPAMLAHPNPRRVLIIGGGDGGAIREVLKHEEVEEVIMVEIDKKVIEISAKYIGIDGGILEKMLSDKHEKGKLIIGDGVKFIEENSGFDVIIVDSMLFSEEFYKNAYRALNDPGIYVTQAGSVYLFTDEFLTAYRKMRKVFDKVYYYSFPVIGYASPWAFLVGVKGSIDFMKVDAEKGKKLGLEYYDPDKHETLFQMPRYIVQML MRDMEFIEWYPRGYGVAFKVKRKILEEQSEYQKIEVYETEGFGKLLAIDGTVQLVTEGEKSYHEPLVHPAMLAHPNPRRVLIIGGGDGGAIREVLKHEEVEEVIMVEIDKKVIEISAKYIGIDGGILEKMLSDKHEKGKLIIGDGVKFIEENSGFDVIIVDSTDPVGPAEMLFSEEFYKNAYRALNDPGIYVTQAGSVYLFTDEFLTAYRKMRKVFDKVYYYSFPVIGYASPWAFLVGVKGSIDFMKVDAEKGKKLGLEYYDPDKHETLFQMPRYIVQML 2e5y-a1-m1-cA_2e5y-a1-m1-cB Epsilon subunit and ATP complex of F1F0-ATP synthase from the Thermophilic Bacillus PS3 P07678 P07678 1.92 X-RAY DIFFRACTION 53 1.0 2334 (Bacillus sp. PS3) 2334 (Bacillus sp. PS3) 133 133 MKTIHVSVVTPDGPVYEDDVEMVSVKAKSGELGILPGHIPLVAPLEISAARLKKGGKTQYIAVSGGFLEVRPDKVTILAQAAERAEDIDVLRAKAAKERAERRLQSQQDDIDFKRAELALKRAMNRLSVAEMK MKTIHVSVVTPDGPVYEDDVEMVSVKAKSGELGILPGHIPLVAPLEISAARLKKGGKTQYIAVSGGFLEVRPDKVTILAQAAERAEDIDVLRAKAAKERAERRLQSQQDDIDFKRAELALKRAMNRLSVAEMK 2e66-a1-m1-cA_2e66-a1-m1-cC Crystal Structure Of CutA1 From Pyrococcus Horikoshii OT3, Mutation D60A O58720 O58720 2 X-RAY DIFFRACTION 70 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 102 102 1j2v-a1-m1-cA_1j2v-a1-m2-cA 1j2v-a1-m1-cA_1j2v-a1-m3-cA 1j2v-a1-m2-cA_1j2v-a1-m3-cA 1uku-a1-m1-cA_1uku-a1-m2-cA 1uku-a1-m1-cA_1uku-a1-m3-cA 1uku-a1-m2-cA_1uku-a1-m3-cA 1umj-a1-m1-cA_1umj-a1-m2-cA 1umj-a1-m1-cA_1umj-a1-m3-cA 1umj-a1-m2-cA_1umj-a1-m3-cA 1umj-a3-m1-cB_1umj-a3-m4-cB 1umj-a3-m1-cB_1umj-a3-m5-cB 1umj-a3-m4-cB_1umj-a3-m5-cB 2e66-a1-m1-cA_2e66-a1-m1-cB 2e66-a1-m1-cB_2e66-a1-m1-cC 4nyo-a1-m1-cA_4nyo-a1-m1-cB 4nyo-a1-m1-cA_4nyo-a1-m1-cC 4nyo-a1-m1-cB_4nyo-a1-m1-cC 4nyo-a2-m1-cD_4nyo-a2-m1-cE 4nyo-a2-m1-cD_4nyo-a2-m1-cF 4nyo-a2-m1-cE_4nyo-a2-m1-cF 4nyp-a1-m1-cA_4nyp-a1-m1-cB 4nyp-a1-m1-cA_4nyp-a1-m1-cC 4nyp-a1-m1-cB_4nyp-a1-m1-cC 4nyp-a2-m1-cD_4nyp-a2-m1-cE 4nyp-a2-m1-cD_4nyp-a2-m1-cF 4nyp-a2-m1-cE_4nyp-a2-m1-cF MIIVYTTFPDWESAEKVVKTLLKERLIACANLREHRAFYWWEGKIEEDKEVGAILKTREALWEELKERIKELHPYDVPAIIRIDVDDVNEDYLKWLIEETKK MIIVYTTFPDWESAEKVVKTLLKERLIACANLREHRAFYWWEGKIEEDKEVGAILKTREALWEELKERIKELHPYDVPAIIRIDVDDVNEDYLKWLIEETKK 2e67-a3-m1-cD_2e67-a3-m1-cF Crystal structure of the hypothetical protein TTHB029 from Thermus thermophilus HB8 Q53WD3 Q53WD3 2.9 X-RAY DIFFRACTION 81 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 263 263 2e67-a1-m1-cA_2e67-a1-m1-cB 2e67-a2-m1-cC_2e67-a2-m1-cE DLLERLGLGGRRVLILHHDDLGLTHAQNGAYQALGLPTGSVMVPGAWASGVKGEDLGVHLVLTSEWPAPRMRPLTEGESLRDEAGYFPESLEALWRKARAEEVERELKAQIQAAAKLFSPTHLDAHQGAVLRPDLAEVYLRLAEAYRLVPLVPESLEGLGVPPPFLPELERLLYETPFPQVRFLDPYGLPPEERLGFYLDLAHLPPGLYYLVHHSALPTPEGRALPDWPTREADYFALSHPEVRRVLAEFHPLTWRAVREALF DLLERLGLGGRRVLILHHDDLGLTHAQNGAYQALGLPTGSVMVPGAWASGVKGEDLGVHLVLTSEWPAPRMRPLTEGESLRDEAGYFPESLEALWRKARAEEVERELKAQIQAAAKLFSPTHLDAHQGAVLRPDLAEVYLRLAEAYRLVPLVPESLEGLGVPPPFLPELERLLYETPFPQVRFLDPYGLPPEERLGFYLDLAHLPPGLYYLVHHSALPTPEGRALPDWPTREADYFALSHPEVRRVLAEFHPLTWRAVREALF 2e69-a2-m1-cB_2e69-a2-m2-cB Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with sulfate Q53W92 Q53W92 2.2 X-RAY DIFFRACTION 28 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 232 232 2e6b-a2-m1-cB_2e6b-a2-m2-cB MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDHAITIAHPVRAYPHPSPPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLA MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDHAITIAHPVRAYPHPSPPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLA 2e69-a2-m2-cB_2e69-a2-m1-cA Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with sulfate Q53W92 Q53W92 2.2 X-RAY DIFFRACTION 12 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 232 237 2e69-a2-m1-cB_2e69-a2-m2-cA 2e6b-a2-m1-cB_2e6b-a2-m2-cA 2e6b-a2-m2-cB_2e6b-a2-m1-cA MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDHAITIAHPVRAYPHPSPPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLA MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDGHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLAH 2e69-a3-m3-cC_2e69-a3-m3-cA Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with sulfate Q53W92 Q53W92 2.2 X-RAY DIFFRACTION 32 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 231 237 2e69-a1-m1-cC_2e69-a1-m1-cA 2e69-a2-m1-cC_2e69-a2-m1-cA 2e69-a2-m2-cC_2e69-a2-m2-cA 2e69-a3-m1-cC_2e69-a3-m1-cA 2e6b-a1-m1-cC_2e6b-a1-m1-cA 2e6b-a2-m1-cC_2e6b-a2-m1-cA 2e6b-a2-m2-cC_2e6b-a2-m2-cA 2e6b-a3-m1-cC_2e6b-a3-m1-cA 2e6b-a3-m3-cC_2e6b-a3-m3-cA 2e6c-a1-m1-cC_2e6c-a1-m1-cA 2e6e-a1-m1-cC_2e6e-a1-m1-cA 2e6e-a1-m1-cD_2e6e-a1-m1-cB 2e6g-a1-m1-cA_2e6g-a1-m1-cC 2e6g-a1-m1-cB_2e6g-a1-m1-cD 2e6g-a1-m1-cF_2e6g-a1-m1-cH 2e6g-a1-m1-cG_2e6g-a1-m1-cE 2e6g-a1-m1-cJ_2e6g-a1-m1-cL 2e6g-a1-m1-cK_2e6g-a1-m1-cI 2e6g-a2-m1-cF_2e6g-a2-m1-cH 2e6g-a2-m1-cG_2e6g-a2-m1-cE 2e6g-a3-m1-cA_2e6g-a3-m1-cC 2e6g-a3-m1-cB_2e6g-a3-m1-cD 2e6g-a4-m1-cJ_2e6g-a4-m1-cL 2e6g-a4-m1-cK_2e6g-a4-m1-cI 2e6h-a1-m1-cC_2e6h-a1-m1-cA 2e6h-a2-m1-cC_2e6h-a2-m1-cA 2e6h-a2-m2-cC_2e6h-a2-m2-cA MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQ MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDGHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLAH 2e6b-a2-m1-cA_2e6b-a2-m2-cA Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with magnesium and tungstate Q53W92 Q53W92 2.5 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 237 237 MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTGHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLA MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTGHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLA 2e6b-a3-m3-cC_2e6b-a3-m3-cB Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with magnesium and tungstate Q53W92 Q53W92 2.5 X-RAY DIFFRACTION 18 0.991 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 232 233 2e69-a1-m1-cC_2e69-a1-m1-cB 2e69-a1-m1-cD_2e69-a1-m1-cA 2e69-a2-m1-cC_2e69-a2-m1-cB 2e69-a2-m1-cD_2e69-a2-m1-cA 2e69-a2-m2-cC_2e69-a2-m2-cB 2e69-a2-m2-cD_2e69-a2-m2-cA 2e69-a3-m1-cC_2e69-a3-m1-cB 2e69-a3-m1-cD_2e69-a3-m1-cA 2e69-a3-m3-cC_2e69-a3-m3-cB 2e69-a3-m3-cD_2e69-a3-m3-cA 2e6b-a1-m1-cC_2e6b-a1-m1-cB 2e6b-a1-m1-cD_2e6b-a1-m1-cA 2e6b-a2-m1-cC_2e6b-a2-m1-cB 2e6b-a2-m1-cD_2e6b-a2-m1-cA 2e6b-a2-m2-cC_2e6b-a2-m2-cB 2e6b-a2-m2-cD_2e6b-a2-m2-cA 2e6b-a3-m1-cC_2e6b-a3-m1-cB 2e6b-a3-m1-cD_2e6b-a3-m1-cA 2e6b-a3-m3-cD_2e6b-a3-m3-cA 2e6c-a1-m1-cD_2e6c-a1-m1-cA 2e6e-a1-m1-cD_2e6e-a1-m1-cA 2e6g-a1-m1-cA_2e6g-a1-m1-cD 2e6g-a1-m1-cB_2e6g-a1-m1-cC 2e6g-a1-m1-cF_2e6g-a1-m1-cG 2e6g-a1-m1-cH_2e6g-a1-m1-cE 2e6g-a1-m1-cI_2e6g-a1-m1-cL 2e6g-a1-m1-cJ_2e6g-a1-m1-cK 2e6g-a2-m1-cF_2e6g-a2-m1-cG 2e6g-a2-m1-cH_2e6g-a2-m1-cE 2e6g-a3-m1-cA_2e6g-a3-m1-cD 2e6g-a3-m1-cB_2e6g-a3-m1-cC 2e6g-a4-m1-cI_2e6g-a4-m1-cL 2e6g-a4-m1-cJ_2e6g-a4-m1-cK 2e6h-a1-m1-cB_2e6h-a1-m1-cC 2e6h-a1-m1-cD_2e6h-a1-m1-cA 2e6h-a2-m1-cB_2e6h-a2-m1-cC 2e6h-a2-m1-cD_2e6h-a2-m1-cA 2e6h-a2-m2-cB_2e6h-a2-m2-cC 2e6h-a2-m2-cD_2e6h-a2-m2-cA MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQ MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTHAITIAHPVRAYPHPSPLPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTL 2e6c-a1-m1-cB_2e6c-a1-m1-cA Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 cocrystallized with manganese and AMP Q53W92 Q53W92 2.05 X-RAY DIFFRACTION 186 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 237 243 2e69-a1-m1-cB_2e69-a1-m1-cA 2e69-a1-m1-cC_2e69-a1-m1-cD 2e69-a2-m1-cB_2e69-a2-m1-cA 2e69-a2-m1-cC_2e69-a2-m1-cD 2e69-a2-m2-cB_2e69-a2-m2-cA 2e69-a2-m2-cC_2e69-a2-m2-cD 2e69-a3-m1-cB_2e69-a3-m1-cA 2e69-a3-m1-cC_2e69-a3-m1-cD 2e69-a3-m3-cB_2e69-a3-m3-cA 2e69-a3-m3-cC_2e69-a3-m3-cD 2e6b-a1-m1-cB_2e6b-a1-m1-cA 2e6b-a1-m1-cD_2e6b-a1-m1-cC 2e6b-a2-m1-cB_2e6b-a2-m1-cA 2e6b-a2-m1-cD_2e6b-a2-m1-cC 2e6b-a2-m2-cB_2e6b-a2-m2-cA 2e6b-a2-m2-cD_2e6b-a2-m2-cC 2e6b-a3-m1-cB_2e6b-a3-m1-cA 2e6b-a3-m1-cD_2e6b-a3-m1-cC 2e6b-a3-m3-cB_2e6b-a3-m3-cA 2e6b-a3-m3-cD_2e6b-a3-m3-cC 2e6c-a1-m1-cD_2e6c-a1-m1-cC 2e6e-a1-m1-cD_2e6e-a1-m1-cC 2e6g-a1-m1-cA_2e6g-a1-m1-cB 2e6g-a1-m1-cC_2e6g-a1-m1-cD 2e6g-a1-m1-cF_2e6g-a1-m1-cE 2e6g-a1-m1-cG_2e6g-a1-m1-cH 2e6g-a1-m1-cJ_2e6g-a1-m1-cI 2e6g-a1-m1-cK_2e6g-a1-m1-cL 2e6g-a2-m1-cF_2e6g-a2-m1-cE 2e6g-a2-m1-cG_2e6g-a2-m1-cH 2e6g-a3-m1-cA_2e6g-a3-m1-cB 2e6g-a3-m1-cC_2e6g-a3-m1-cD 2e6g-a4-m1-cJ_2e6g-a4-m1-cI 2e6g-a4-m1-cK_2e6g-a4-m1-cL 2e6h-a1-m1-cB_2e6h-a1-m1-cA 2e6h-a1-m1-cC_2e6h-a1-m1-cD 2e6h-a2-m1-cB_2e6h-a2-m1-cA 2e6h-a2-m1-cC_2e6h-a2-m1-cD 2e6h-a2-m2-cB_2e6h-a2-m2-cA 2e6h-a2-m2-cC_2e6h-a2-m2-cD MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLAH MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTEQSAAGHAITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLAH 2e6g-a1-m1-cA_2e6g-a1-m1-cI Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with phosphate Q53W92 Q53W92 2.6 X-RAY DIFFRACTION 16 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 221 227 MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDAHPVRAYPHPSPAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRL MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTIAHPVRAYPHPSPLAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQ 2e6g-a1-m1-cD_2e6g-a1-m1-cE Crystal structure of the stationary phase survival protein SurE from Thermus thermophilus HB8 in complex with phosphate Q53W92 Q53W92 2.6 X-RAY DIFFRACTION 22 0.987 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 228 233 MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDITIAHPVRAYPHPSPLHAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRL MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDTTIAHPVRAYPHPSPAPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTLAHD 2e6h-a2-m1-cB_2e6h-a2-m2-cB Crystal structure of E37A mutant of the stationary phase survival protein SurE from Thermus thermophilus HB8 cocrystallized with manganese and AMP Q53W92 Q53W92 2.1 X-RAY DIFFRACTION 14 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 231 231 2e69-a3-m1-cB_2e69-a3-m3-cB 2e6b-a3-m1-cB_2e6b-a3-m3-cB MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDHAITIAHPVRAYPHPSPPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTL MRILVTNDDGIYSPGLWALAEAASQFGEVFVAAPDHAITIAHPVRAYPHPSPPHFPAYRVRGTPADCVALGLHLFGPVDLVLSGVNLGSNLGHEIWHSGTVAAAKQGYLFGLSAAAFSVPLNGEVPDFAGLRPWLLRTLETLLRLERPFLVNVNLPLRPKGFLWTRQSVRAYEGVVIPGEDPMGRPFYWFAPRPLKEAEEGTDRWAVAQGFVSATPLRLDLTDETRLQPTL 2e6u-a2-m1-cX_2e6u-a2-m2-cX Crystal structure of hypothetical protein PH1109 from Pyrococcus horikoshii O58836 O58836 1.8 X-RAY DIFFRACTION 32 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 142 142 MEETRPIDGLTDEDIREILTRYKKIALVGASPKPERDANIVMKYLLEHGYDVYPVNPKYEEVLGRKCYPSVLDIPDKIEVVDLFVKPKLTMEYVEQAIKKGAKVVWFQYNTYNREASKKADEAGLIIVANRCMMREHERLLG MEETRPIDGLTDEDIREILTRYKKIALVGASPKPERDANIVMKYLLEHGYDVYPVNPKYEEVLGRKCYPSVLDIPDKIEVVDLFVKPKLTMEYVEQAIKKGAKVVWFQYNTYNREASKKADEAGLIIVANRCMMREHERLLG 2e6u-a3-m1-cX_2e6u-a3-m3-cX Crystal structure of hypothetical protein PH1109 from Pyrococcus horikoshii O58836 O58836 1.8 X-RAY DIFFRACTION 45 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 142 142 MEETRPIDGLTDEDIREILTRYKKIALVGASPKPERDANIVMKYLLEHGYDVYPVNPKYEEVLGRKCYPSVLDIPDKIEVVDLFVKPKLTMEYVEQAIKKGAKVVWFQYNTYNREASKKADEAGLIIVANRCMMREHERLLG MEETRPIDGLTDEDIREILTRYKKIALVGASPKPERDANIVMKYLLEHGYDVYPVNPKYEEVLGRKCYPSVLDIPDKIEVVDLFVKPKLTMEYVEQAIKKGAKVVWFQYNTYNREASKKADEAGLIIVANRCMMREHERLLG 2e6x-a1-m1-cA_2e6x-a1-m2-cA X-ray structure of TT1592 from Thermus thermophilus HB8 Q5SIT3 Q5SIT3 2 X-RAY DIFFRACTION 47 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 66 66 2e6x-a2-m1-cB_2e6x-a2-m1-cD 2e6x-a3-m1-cC_2e6x-a3-m2-cC EKDLLDKLGQHLVWRGRAEDEDVLVVRVGLASATPRFRELPRLLNLPEAERRLVQEGRVRVEWVEE EKDLLDKLGQHLVWRGRAEDEDVLVVRVGLASATPRFRELPRLLNLPEAERRLVQEGRVRVEWVEE 2e77-a1-m1-cB_2e77-a1-m1-cD Crystal structure of L-lactate oxidase with pyruvate complex Q44467 Q44467 1.9 X-RAY DIFFRACTION 110 1.0 1377 (Aerococcus viridans) 1377 (Aerococcus viridans) 368 368 2du2-a1-m1-cA_2du2-a1-m1-cC 2du2-a1-m1-cA_2du2-a1-m1-cD 2du2-a1-m1-cB_2du2-a1-m1-cC 2du2-a1-m1-cB_2du2-a1-m1-cD 2e77-a1-m1-cA_2e77-a1-m1-cD 2e77-a1-m1-cC_2e77-a1-m1-cA 2e77-a1-m1-cC_2e77-a1-m1-cB 2j6x-a1-m1-cB_2j6x-a1-m1-cA 2j6x-a1-m1-cC_2j6x-a1-m1-cA 2j6x-a1-m1-cD_2j6x-a1-m1-cB 2j6x-a1-m1-cD_2j6x-a1-m1-cC 2j6x-a2-m1-cE_2j6x-a2-m1-cG 2j6x-a2-m1-cF_2j6x-a2-m1-cE 2j6x-a2-m1-cH_2j6x-a2-m1-cG 2nli-a1-m1-cA_2nli-a1-m3-cA 2nli-a1-m1-cA_2nli-a1-m4-cA 2nli-a1-m2-cA_2nli-a1-m3-cA 2nli-a1-m2-cA_2nli-a1-m4-cA 2nli-a2-m1-cA_2nli-a2-m3-cA 2nli-a2-m1-cA_2nli-a2-m4-cA 2nli-a2-m2-cA_2nli-a2-m3-cA 2nli-a2-m2-cA_2nli-a2-m4-cA 2zfa-a1-m1-cA_2zfa-a1-m3-cA 2zfa-a1-m1-cA_2zfa-a1-m4-cA 2zfa-a1-m1-cB_2zfa-a1-m3-cB 2zfa-a1-m1-cB_2zfa-a1-m4-cB 2zfa-a1-m2-cA_2zfa-a1-m3-cA 2zfa-a1-m2-cA_2zfa-a1-m4-cA 2zfa-a1-m2-cB_2zfa-a1-m3-cB 2zfa-a1-m2-cB_2zfa-a1-m4-cB 2zfa-a2-m1-cA_2zfa-a2-m3-cA 2zfa-a2-m1-cA_2zfa-a2-m4-cA 2zfa-a2-m2-cA_2zfa-a2-m3-cA 2zfa-a2-m2-cA_2zfa-a2-m4-cA 2zfa-a3-m1-cB_2zfa-a3-m3-cB 2zfa-a3-m1-cB_2zfa-a3-m4-cB 2zfa-a3-m2-cB_2zfa-a3-m3-cB 2zfa-a3-m2-cB_2zfa-a3-m4-cB 4rje-a1-m1-cB_4rje-a1-m1-cD 4rje-a1-m1-cC_4rje-a1-m1-cA 4rje-a1-m1-cC_4rje-a1-m1-cB 4rje-a1-m1-cD_4rje-a1-m1-cA 4yl2-a1-m1-cA_4yl2-a1-m1-cB 4yl2-a1-m1-cA_4yl2-a1-m1-cC 4yl2-a1-m1-cD_4yl2-a1-m1-cB 4yl2-a1-m1-cD_4yl2-a1-m1-cC 5ebu-a1-m1-cA_5ebu-a1-m1-cB 5ebu-a1-m1-cA_5ebu-a1-m1-cC 5ebu-a1-m1-cD_5ebu-a1-m1-cB 5ebu-a1-m1-cD_5ebu-a1-m1-cC 5ebu-a2-m1-cE_5ebu-a2-m1-cF 5ebu-a2-m1-cE_5ebu-a2-m1-cG 5ebu-a2-m1-cH_5ebu-a2-m1-cF 5ebu-a2-m1-cH_5ebu-a2-m1-cG EYNAPSEIKYIDVVNTYDLEEEASKVVPHGGFNYIAGASGDEWTKRANDRAWKHKLLYPRLAQDVEAPDTSTEILGHKIKAPFIMAPIAAHGLAHTTKEAGTARAVSEFGTIMSISAYSGATFEEISEGLNGGPRWFQIYMAKDDQQNRDILDEAKSDGATAIILTADSTVSGNRDRDVKNKFVYPFGMPIVQRYLRGTAEGMSLNNIYGASKQKISPRDIEEIAGHSGLPVFVKGIQHPEDADMAIKRGASGIWVSNHGARQLYEAPGSFDTLPAIAERVNKRVPIVFDSGVRRGEHVAKALASGADVVALGRPVLFGLALGGWQGAYSVLDYFQKDLTRVMQLTGSQNVEDLKGLDLFDNPYGYEY EYNAPSEIKYIDVVNTYDLEEEASKVVPHGGFNYIAGASGDEWTKRANDRAWKHKLLYPRLAQDVEAPDTSTEILGHKIKAPFIMAPIAAHGLAHTTKEAGTARAVSEFGTIMSISAYSGATFEEISEGLNGGPRWFQIYMAKDDQQNRDILDEAKSDGATAIILTADSTVSGNRDRDVKNKFVYPFGMPIVQRYLRGTAEGMSLNNIYGASKQKISPRDIEEIAGHSGLPVFVKGIQHPEDADMAIKRGASGIWVSNHGARQLYEAPGSFDTLPAIAERVNKRVPIVFDSGVRRGEHVAKALASGADVVALGRPVLFGLALGGWQGAYSVLDYFQKDLTRVMQLTGSQNVEDLKGLDLFDNPYGYEY 2e7f-a1-m1-cA_2e7f-a1-m1-cB 5-methyltetrahydrofolate corrinoid/iron sulfur protein methyltransferase complexed with methyltetrahydrofolate to 2.2 Angsrom resolution Q46389 Q46389 2.2 X-RAY DIFFRACTION 103 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 262 262 1f6y-a1-m1-cA_1f6y-a1-m1-cB 2ogy-a1-m1-cA_2ogy-a1-m1-cB 4djd-a1-m1-cA_4djd-a1-m1-cB 4dje-a1-m1-cA_4dje-a1-m1-cB 4djf-a1-m1-cA_4djf-a1-m1-cB MLIIGERINGMFGDIKRAIQERDPAPVQEWARRQEEGGARALDLNVGPAVQDKVSAMEWLVEVTQEVSNLTLCLDSTNIKAIEAGLKKCKNRAMINSTNAEREKVEKLFPLAVEHGAALIGLTMNKTGIPKDSDTRLAFAMELVAAADEFGLPMEDLYIDPLILPANVAQDHAPEVLKTLQQIKMLADPAPKTVLGLSNVSQNCQNRPLINRTFLAMAMACGLDAAIADACDEALIETAATAEILLNQTVYCDSFVKMFKTR MLIIGERINGMFGDIKRAIQERDPAPVQEWARRQEEGGARALDLNVGPAVQDKVSAMEWLVEVTQEVSNLTLCLDSTNIKAIEAGLKKCKNRAMINSTNAEREKVEKLFPLAVEHGAALIGLTMNKTGIPKDSDTRLAFAMELVAAADEFGLPMEDLYIDPLILPANVAQDHAPEVLKTLQQIKMLADPAPKTVLGLSNVSQNCQNRPLINRTFLAMAMACGLDAAIADACDEALIETAATAEILLNQTVYCDSFVKMFKTR 2e7j-a1-m1-cA_2e7j-a1-m1-cB Crystal Structure of Sep-tRNA:Cys-tRNA Synthase from Archaeoglobus fulgidus O30207 O30207 2.4 X-RAY DIFFRACTION 103 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 344 344 2e7i-a1-m1-cA_2e7i-a1-m2-cA 2e7i-a2-m1-cB_2e7i-a2-m3-cB DFINIDPLQTGGKLTEEARQALLEWPPIHDFIHNQLPKFLGCDVARVTNGAREAKFAVMHSLAKKDAWVVMDENCHYSSYVAAERAGLNIALVPKTDYPDYAITPENFAQTIEETKKRGEVVLALITYPDGNYGNLPDVKKIAKVCSEYDVPLLVNGAYAIGRMPVSLKEIGADFIVGSGHKSMAASGPIGVMGMKEEWAEIVLRRSEKYKNKEVELLGCTARGATIITLMASFPHVRERIKRWDEEVEKARRFAAEMEKLGIKQLGDNPHNHDLMFFHAEVLYEISKKAKGGRFFLYRELKSRKIHGIKPGLTRYFKLSTYGLSDEEVDYVLNAFKEIIEKYS DFINIDPLQTGGKLTEEARQALLEWPPIHDFIHNQLPKFLGCDVARVTNGAREAKFAVMHSLAKKDAWVVMDENCHYSSYVAAERAGLNIALVPKTDYPDYAITPENFAQTIEETKKRGEVVLALITYPDGNYGNLPDVKKIAKVCSEYDVPLLVNGAYAIGRMPVSLKEIGADFIVGSGHKSMAASGPIGVMGMKEEWAEIVLRRSEKYKNKEVELLGCTARGATIITLMASFPHVRERIKRWDEEVEKARRFAAEMEKLGIKQLGDNPHNHDLMFFHAEVLYEISKKAKGGRFFLYRELKSRKIHGIKPGLTRYFKLSTYGLSDEEVDYVLNAFKEIIEKYS 2e7p-a1-m1-cD_2e7p-a1-m1-cA Crystal structure of the holo form of glutaredoxin C1 from populus tremula x tremuloides Q5PSJ1 Q5PSJ1 2.1 X-RAY DIFFRACTION 13 1.0 47664 (Populus tremula x Populus tremuloides) 47664 (Populus tremula x Populus tremuloides) 101 107 2e7p-a1-m1-cB_2e7p-a1-m1-cC DAALKKAKELASSAPVVVFSKTYCGYCNRVKQLLTQVGASYKVVELDELSDGSQLQSALAHWTGRGTVPNVFIGGKQIGGCDTVVEKHQRNELLPLLQDAA SKQELDAALKKAKELASSAPVVVFSKTYCGYCNRVKQLLTQVGASYKVVELDELSDGSQLQSALAHWTGRGTVPNVFIGGKQIGGCDTVVEKHQRNELLPLLQDAAA 2e7p-a1-m1-cD_2e7p-a1-m1-cC Crystal structure of the holo form of glutaredoxin C1 from populus tremula x tremuloides Q5PSJ1 Q5PSJ1 2.1 X-RAY DIFFRACTION 27 1.0 47664 (Populus tremula x Populus tremuloides) 47664 (Populus tremula x Populus tremuloides) 101 115 2e7p-a1-m1-cA_2e7p-a1-m1-cB DAALKKAKELASSAPVVVFSKTYCGYCNRVKQLLTQVGASYKVVELDELSDGSQLQSALAHWTGRGTVPNVFIGGKQIGGCDTVVEKHQRNELLPLLQDAA SKQELDAALKKAKELASSAPVVVFSKTYCGYCNRVKQLLTQVGASYKVVELDELSDGSQLQSALAHWTGRGTVPNVFIGGKQIGGCDTVVEKHQRNELLPLLQDAAATAKTSAQL 2e7s-a1-m1-cA_2e7s-a1-m1-cB Crystal structure of the yeast Sec2p GEF domain P17065 P17065 3 X-RAY DIFFRACTION 97 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 112 119 2e7s-a2-m1-cC_2e7s-a2-m1-cD 2e7s-a4-m1-cH_2e7s-a4-m1-cG 2e7s-a6-m1-cL_2e7s-a6-m1-cK 2e7s-a7-m1-cN_2e7s-a7-m1-cM 2e7s-a9-m1-cQ_2e7s-a9-m1-cR LEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNLVADAREKYAIEILNKRLTEQLREKDLL LEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNLVADAREKYAIEILNKRLTEQLREKDLLDTLTLQL 2e7s-a3-m1-cE_2e7s-a3-m1-cF Crystal structure of the yeast Sec2p GEF domain P17065 P17065 3 X-RAY DIFFRACTION 119 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 122 122 2e7s-a10-m1-cT_2e7s-a10-m1-cS 2e7s-a5-m1-cJ_2e7s-a5-m1-cI 2e7s-a8-m1-cP_2e7s-a8-m1-cO 2eqb-a1-m1-cB_2eqb-a1-m1-cC 4zdw-a1-m1-cB_4zdw-a1-m1-cC LEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNLVADAREKYAIEILNKRLTEQLREKDLLDTLTLQLKNL LEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNLVADAREKYAIEILNKRLTEQLREKDLLDTLTLQLKNL 2e7u-a1-m1-cA_2e7u-a1-m2-cA Crystal structure of glutamate-1-semialdehyde 2,1-aminomutase from Thermus thermophilus HB8 Q5SJS4 Q5SJS4 1.9 X-RAY DIFFRACTION 375 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 424 424 MERPISEAYFQEAKRHIPGGVSSPVRAFKAVGGTPPFLVRGEGAYVWDADGNRYLDYVMSWGPLILGHAHPKVLARVRETLERGLTFGAPSPLEVALAKKVKRAYPFVDLVRFVNSGTEATMSALRLARGYTGRPYIVKFRGNYHGHADGLLVEAGSGALTLGVPSSAGVPEEYAKLTLVLEYNDPEGLREVLKRRGEEIAAIIFEPVVGNAGVLVPTEDFLKALHEAKAYGVLLIADEVMTGFRLAFGGATELLGLKPDLVTLGKILGGGLPAAAYAGRREIMEKVAPLGPVYQAGTLSGNPLAMAAGLATLELLEENPGYYAYLEDLGARLEAGLKEVLKEKGLPHTVNRVGSMITVFFTEGPVVTFQDARRTDTELFKRFFHGLLDRGIYWPPSNFEAAFLSVAHREEDVEKTLEALRKAL MERPISEAYFQEAKRHIPGGVSSPVRAFKAVGGTPPFLVRGEGAYVWDADGNRYLDYVMSWGPLILGHAHPKVLARVRETLERGLTFGAPSPLEVALAKKVKRAYPFVDLVRFVNSGTEATMSALRLARGYTGRPYIVKFRGNYHGHADGLLVEAGSGALTLGVPSSAGVPEEYAKLTLVLEYNDPEGLREVLKRRGEEIAAIIFEPVVGNAGVLVPTEDFLKALHEAKAYGVLLIADEVMTGFRLAFGGATELLGLKPDLVTLGKILGGGLPAAAYAGRREIMEKVAPLGPVYQAGTLSGNPLAMAAGLATLELLEENPGYYAYLEDLGARLEAGLKEVLKEKGLPHTVNRVGSMITVFFTEGPVVTFQDARRTDTELFKRFFHGLLDRGIYWPPSNFEAAFLSVAHREEDVEKTLEALRKAL 2e85-a1-m1-cA_2e85-a1-m1-cB Crystal Structure of the Hydrogenase 3 Maturation protease P0AEV9 P0AEV9 1.7 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 156 157 ASAVTDVLLCVGNSMMGDDGAGPLLAEKCAAAPKGNWVVIDGGSAPENDIVAIRELRPTRLLIVDATDMGLNPGEIRIIDPDDIAEMFMMTTHNMPLNYLIDQLKEDIGEVIFLGIQPDIVGFYYPMTQPIKDAVETVYQRLEGWEGNGGFAQLAV ASAVTDVLLCVGNSMMGDDGAGPLLAEKCAAAPKGNWVVIDGGSAPENDIVAIRELRPTRLLIVDATDMGLNPGEIRIIDPDDIAEMFMMTTHNMPLNYLIDQLKEDIGEVIFLGIQPDIVGFYYPMTQPIKDAVETVYQRLEGWEGNGGFAQLAVE 2e8c-a1-m1-cA_2e8c-a1-m2-cA Crystal structure of a hypothetical protein (Aq_1549) from Aquifex aeolicus VF5 O67503 O67503 2.1 X-RAY DIFFRACTION 272 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 132 132 2e8e-a1-m1-cA_2e8e-a1-m2-cA 2e8f-a1-m1-cA_2e8f-a1-m2-cA 2egt-a1-m1-cA_2egt-a1-m2-cA MEVKEVELELSSEATFLSKTSIGEITAGEKGLNPMELLLVSIGSCSGVDVYHILKKKRQEVKDIKIFLKGKRREKHPKIYEEIEIKYVAVGKVEEKALEQAVKLSTEKYCSVLAMVKPSTNLKISWEVKWEE MEVKEVELELSSEATFLSKTSIGEITAGEKGLNPMELLLVSIGSCSGVDVYHILKKKRQEVKDIKIFLKGKRREKHPKIYEEIEIKYVAVGKVEEKALEQAVKLSTEKYCSVLAMVKPSTNLKISWEVKWEE 2e8j-a1-m1-cA_2e8j-a1-m1-cB Solution structure of dynein light chain 2A Q9NP97 Q9NP97 NOT SOLUTION NMR 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 1y4o-a1-m1-cA_1y4o-a1-m1-cB MAEVEETLKRLQSQKGVQGIIVVNTEGIPIKSTMDNPTTTQYASLMHSFILKARSTVRDIDPQNDLTFLRIRSKKNEIMVAPDKDYFLIVIQNPTE MAEVEETLKRLQSQKGVQGIIVVNTEGIPIKSTMDNPTTTQYASLMHSFILKARSTVRDIDPQNDLTFLRIRSKKNEIMVAPDKDYFLIVIQNPTE 2e9f-a1-m1-cA_2e9f-a1-m1-cD Crystal Structure of T.th.HB8 Argininosuccinate lyase complexed with L-Arginine Q5SLL0 Q5SLL0 2.8 X-RAY DIFFRACTION 124 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 449 449 2e9f-a1-m1-cC_2e9f-a1-m1-cB PDALAARFNASLAFDRALWREDLWQNRVHARMLHAVGLLSAEELEAILKGLDRIEEEIEAGTFPWREELEDVHMNLEARLTELVGPPGGKLHTARSRNDQVATDLRLYLRGAIDELLALLLALRRVLVREAEKHLDPLYVLPGYTHLQRAQPVLLAHWFLAYYEMLKRDAGRLEDAKERLNESPLGAAALAGTGFPIDRHFTARELGFKAPMRNSLDAVASRDFALEVLSALNIGMLHLSRMAEELILYSTEEFGFVEVPDAFATGSSIMPQKKNPDILELIRAKAGRVLGAFVGLSAVVKGLPLAYNKDLQEDKEPLLDALATYRDSLRLLAALLPGLKWRRERMWRAAEGGYTLATELADYLAEKGLPFREAHHVVGRLVRRLVEEGRALKDLTLEELQAHHPLFAEDALPLLRLETAIHRRRSYGGTAPEAVRERLEEAKKEVGLD GPDALAARFNASLAFDRALWREDLWQNRVHARMLHAVGLLSAEELEAILKGLDRIEEEIEAGTFPWREELEDVHMNLEARLTELVGPPGGKLHTARSRNDQVATDLRLYLRGAIDELLALLLALRRVLVREAEKHLDPLYVLPGYTHLQRAQPVLLAHWFLAYYEMLKRDAGRLEDAKERLNESPLGAAALAGTGFPIDRHFTARELGFKAPMRNSLDAVASRDFALEVLSALNIGMLHLSRMAEELILYSTEEFGFVEVPDAFATGSSIMPQKKNPDILELIRAKAGRVLGAFVGLSAVVKGLPLAYNKDLQEDKEPLLDALATYRDSLRLLAALLPGLKWRRERMWRAAEGGYTLATELADYLAEKGLPFREAHHVVGRLVRRLVEEGRALKDLTLEELQAHHPLFAEDALPLLRLETAIHRRRSYGGTAPEAVRERLEEAKKEVGL 2e9f-a1-m1-cC_2e9f-a1-m1-cD Crystal Structure of T.th.HB8 Argininosuccinate lyase complexed with L-Arginine Q5SLL0 Q5SLL0 2.8 X-RAY DIFFRACTION 339 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 448 449 2e9f-a1-m1-cA_2e9f-a1-m1-cB PDALAARFNASLAFDRALWREDLWQNRVHARMLHAVGLLSAEELEAILKGLDRIEEEIEAGTFPWREELEDVHMNLEARLTELVGPPGGKLHTARSRNDQVATDLRLYLRGAIDELLALLLALRRVLVREAEKHLDPLYVLPGYTHLQRAQPVLLAHWFLAYYEMLKRDAGRLEDAKERLNESPLGAAALAGTGFPIDRHFTARELGFKAPMRNSLDAVASRDFALEVLSALNIGMLHLSRMAEELILYSTEEFGFVEVPDAFATGSSIMPQKKNPDILELIRAKAGRVLGAFVGLSAVVKGLPLAYNKDLQEDKEPLLDALATYRDSLRLLAALLPGLKWRRERMWRAAEGGYTLATELADYLAEKGLPFREAHHVVGRLVRRLVEEGRALKDLTLEELQAHHPLFAEDALPLLRLETAIHRRRSYGGTAPEAVRERLEEAKKEVGL GPDALAARFNASLAFDRALWREDLWQNRVHARMLHAVGLLSAEELEAILKGLDRIEEEIEAGTFPWREELEDVHMNLEARLTELVGPPGGKLHTARSRNDQVATDLRLYLRGAIDELLALLLALRRVLVREAEKHLDPLYVLPGYTHLQRAQPVLLAHWFLAYYEMLKRDAGRLEDAKERLNESPLGAAALAGTGFPIDRHFTARELGFKAPMRNSLDAVASRDFALEVLSALNIGMLHLSRMAEELILYSTEEFGFVEVPDAFATGSSIMPQKKNPDILELIRAKAGRVLGAFVGLSAVVKGLPLAYNKDLQEDKEPLLDALATYRDSLRLLAALLPGLKWRRERMWRAAEGGYTLATELADYLAEKGLPFREAHHVVGRLVRRLVEEGRALKDLTLEELQAHHPLFAEDALPLLRLETAIHRRRSYGGTAPEAVRERLEEAKKEVGL 2e9f-a1-m1-cD_2e9f-a1-m1-cB Crystal Structure of T.th.HB8 Argininosuccinate lyase complexed with L-Arginine Q5SLL0 Q5SLL0 2.8 X-RAY DIFFRACTION 100 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 449 450 2e9f-a1-m1-cC_2e9f-a1-m1-cA GPDALAARFNASLAFDRALWREDLWQNRVHARMLHAVGLLSAEELEAILKGLDRIEEEIEAGTFPWREELEDVHMNLEARLTELVGPPGGKLHTARSRNDQVATDLRLYLRGAIDELLALLLALRRVLVREAEKHLDPLYVLPGYTHLQRAQPVLLAHWFLAYYEMLKRDAGRLEDAKERLNESPLGAAALAGTGFPIDRHFTARELGFKAPMRNSLDAVASRDFALEVLSALNIGMLHLSRMAEELILYSTEEFGFVEVPDAFATGSSIMPQKKNPDILELIRAKAGRVLGAFVGLSAVVKGLPLAYNKDLQEDKEPLLDALATYRDSLRLLAALLPGLKWRRERMWRAAEGGYTLATELADYLAEKGLPFREAHHVVGRLVRRLVEEGRALKDLTLEELQAHHPLFAEDALPLLRLETAIHRRRSYGGTAPEAVRERLEEAKKEVGL GPDALAARFNASLAFDRALWREDLWQNRVHARMLHAVGLLSAEELEAILKGLDRIEEEIEAGTFPWREELEDVHMNLEARLTELVGPPGGKLHTARSRNDQVATDLRLYLRGAIDELLALLLALRRVLVREAEKHLDPLYVLPGYTHLQRAQPVLLAHWFLAYYEMLKRDAGRLEDAKERLNESPLGAAALAGTGFPIDRHFTARELGFKAPMRNSLDAVASRDFALEVLSALNIGMLHLSRMAEELILYSTEEFGFVEVPDAFATGSSIMPQKKNPDILELIRAKAGRVLGAFVGLSAVVKGLPLAYNKDLQEDKEPLLDALATYRDSLRLLAALLPGLKWRRERMWRAAEGGYTLATELADYLAEKGLPFREAHHVVGRLVRRLVEEGRALKDLTLEELQAHHPLFAEDALPLLRLETAIHRRRSYGGTAPEAVRERLEEAKKEVGLD 2e9q-a2-m5-cA_2e9q-a2-m9-cA Recombinant pro-11S globulin of pumpkin P13744 P13744 2.2 X-RAY DIFFRACTION 188 1.0 3661 (Cucurbita maxima) 3661 (Cucurbita maxima) 385 385 2e9q-a1-m1-cA_2e9q-a1-m2-cA 2e9q-a1-m1-cA_2e9q-a1-m3-cA 2e9q-a1-m2-cA_2e9q-a1-m3-cA 2e9q-a2-m10-cA_2e9q-a2-m5-cA 2e9q-a2-m10-cA_2e9q-a2-m9-cA 2e9q-a2-m11-cA_2e9q-a2-m6-cA 2e9q-a2-m11-cA_2e9q-a2-m7-cA 2e9q-a2-m12-cA_2e9q-a2-m4-cA 2e9q-a2-m12-cA_2e9q-a2-m8-cA 2e9q-a2-m1-cA_2e9q-a2-m2-cA 2e9q-a2-m1-cA_2e9q-a2-m3-cA 2e9q-a2-m2-cA_2e9q-a2-m3-cA 2e9q-a2-m4-cA_2e9q-a2-m8-cA 2e9q-a2-m6-cA_2e9q-a2-m7-cA 2evx-a1-m1-cA_2evx-a1-m2-cA 2evx-a1-m1-cA_2evx-a1-m3-cA 2evx-a1-m2-cA_2evx-a1-m3-cA ACRLENLRAQDPVRRAEAEAGFTEVWDQDNDEFQCAGVNMIRHTIRPKGLLLPGFSNAPKLIFVAQGFGIRGIAIPGCAETYQTDLRAFKDQHQKIRPFREGDLLVVPAGVSHWMYNRGQSDLVLIVFADTRNVANQIDPYLRKFYLAGRPEQVERGVEEKSGNIFSGFADEFLEEAFQIDGGLVRKLKGEDDERDRIVQVDEDFEVLLPETICTLRLKQNIGRSERADVFNPRGGRISTANYHTLPILRQVRLSAERGVLYSNAMVAPHYTVNSHSVMYATRGNARVQVVDNFGQSVFDGEVREGQVLMIPQNFVVIKRASDRGFEWIAFKTNDNAITNLLAGRVSQMRMLPLGVLSNMYRISREEAQRLKYGQQEMRVLSPGR ACRLENLRAQDPVRRAEAEAGFTEVWDQDNDEFQCAGVNMIRHTIRPKGLLLPGFSNAPKLIFVAQGFGIRGIAIPGCAETYQTDLRAFKDQHQKIRPFREGDLLVVPAGVSHWMYNRGQSDLVLIVFADTRNVANQIDPYLRKFYLAGRPEQVERGVEEKSGNIFSGFADEFLEEAFQIDGGLVRKLKGEDDERDRIVQVDEDFEVLLPETICTLRLKQNIGRSERADVFNPRGGRISTANYHTLPILRQVRLSAERGVLYSNAMVAPHYTVNSHSVMYATRGNARVQVVDNFGQSVFDGEVREGQVLMIPQNFVVIKRASDRGFEWIAFKTNDNAITNLLAGRVSQMRMLPLGVLSNMYRISREEAQRLKYGQQEMRVLSPGR 2e9q-a2-m6-cA_2e9q-a2-m9-cA Recombinant pro-11S globulin of pumpkin P13744 P13744 2.2 X-RAY DIFFRACTION 22 1.0 3661 (Cucurbita maxima) 3661 (Cucurbita maxima) 385 385 2e9q-a2-m10-cA_2e9q-a2-m8-cA 2e9q-a2-m11-cA_2e9q-a2-m2-cA 2e9q-a2-m11-cA_2e9q-a2-m4-cA 2e9q-a2-m12-cA_2e9q-a2-m6-cA 2e9q-a2-m12-cA_2e9q-a2-m9-cA 2e9q-a2-m1-cA_2e9q-a2-m10-cA 2e9q-a2-m1-cA_2e9q-a2-m8-cA 2e9q-a2-m2-cA_2e9q-a2-m4-cA 2e9q-a2-m3-cA_2e9q-a2-m5-cA 2e9q-a2-m3-cA_2e9q-a2-m7-cA 2e9q-a2-m5-cA_2e9q-a2-m7-cA ACRLENLRAQDPVRRAEAEAGFTEVWDQDNDEFQCAGVNMIRHTIRPKGLLLPGFSNAPKLIFVAQGFGIRGIAIPGCAETYQTDLRAFKDQHQKIRPFREGDLLVVPAGVSHWMYNRGQSDLVLIVFADTRNVANQIDPYLRKFYLAGRPEQVERGVEEKSGNIFSGFADEFLEEAFQIDGGLVRKLKGEDDERDRIVQVDEDFEVLLPETICTLRLKQNIGRSERADVFNPRGGRISTANYHTLPILRQVRLSAERGVLYSNAMVAPHYTVNSHSVMYATRGNARVQVVDNFGQSVFDGEVREGQVLMIPQNFVVIKRASDRGFEWIAFKTNDNAITNLLAGRVSQMRMLPLGVLSNMYRISREEAQRLKYGQQEMRVLSPGR ACRLENLRAQDPVRRAEAEAGFTEVWDQDNDEFQCAGVNMIRHTIRPKGLLLPGFSNAPKLIFVAQGFGIRGIAIPGCAETYQTDLRAFKDQHQKIRPFREGDLLVVPAGVSHWMYNRGQSDLVLIVFADTRNVANQIDPYLRKFYLAGRPEQVERGVEEKSGNIFSGFADEFLEEAFQIDGGLVRKLKGEDDERDRIVQVDEDFEVLLPETICTLRLKQNIGRSERADVFNPRGGRISTANYHTLPILRQVRLSAERGVLYSNAMVAPHYTVNSHSVMYATRGNARVQVVDNFGQSVFDGEVREGQVLMIPQNFVVIKRASDRGFEWIAFKTNDNAITNLLAGRVSQMRMLPLGVLSNMYRISREEAQRLKYGQQEMRVLSPGR 2e9q-a2-m8-cA_2e9q-a2-m9-cA Recombinant pro-11S globulin of pumpkin P13744 P13744 2.2 X-RAY DIFFRACTION 15 1.0 3661 (Cucurbita maxima) 3661 (Cucurbita maxima) 385 385 2e9q-a2-m10-cA_2e9q-a2-m3-cA 2e9q-a2-m11-cA_2e9q-a2-m12-cA 2e9q-a2-m1-cA_2e9q-a2-m4-cA 2e9q-a2-m2-cA_2e9q-a2-m7-cA 2e9q-a2-m5-cA_2e9q-a2-m6-cA ACRLENLRAQDPVRRAEAEAGFTEVWDQDNDEFQCAGVNMIRHTIRPKGLLLPGFSNAPKLIFVAQGFGIRGIAIPGCAETYQTDLRAFKDQHQKIRPFREGDLLVVPAGVSHWMYNRGQSDLVLIVFADTRNVANQIDPYLRKFYLAGRPEQVERGVEEKSGNIFSGFADEFLEEAFQIDGGLVRKLKGEDDERDRIVQVDEDFEVLLPETICTLRLKQNIGRSERADVFNPRGGRISTANYHTLPILRQVRLSAERGVLYSNAMVAPHYTVNSHSVMYATRGNARVQVVDNFGQSVFDGEVREGQVLMIPQNFVVIKRASDRGFEWIAFKTNDNAITNLLAGRVSQMRMLPLGVLSNMYRISREEAQRLKYGQQEMRVLSPGR ACRLENLRAQDPVRRAEAEAGFTEVWDQDNDEFQCAGVNMIRHTIRPKGLLLPGFSNAPKLIFVAQGFGIRGIAIPGCAETYQTDLRAFKDQHQKIRPFREGDLLVVPAGVSHWMYNRGQSDLVLIVFADTRNVANQIDPYLRKFYLAGRPEQVERGVEEKSGNIFSGFADEFLEEAFQIDGGLVRKLKGEDDERDRIVQVDEDFEVLLPETICTLRLKQNIGRSERADVFNPRGGRISTANYHTLPILRQVRLSAERGVLYSNAMVAPHYTVNSHSVMYATRGNARVQVVDNFGQSVFDGEVREGQVLMIPQNFVVIKRASDRGFEWIAFKTNDNAITNLLAGRVSQMRMLPLGVLSNMYRISREEAQRLKYGQQEMRVLSPGR 2e9x-a4-m2-cG_2e9x-a4-m1-cC The crystal structure of human GINS core complex Q9BRX5 Q9BRX5 2.3 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 186 MSEAYFRVESGALGPEENFLSLDDILMSHEKLPVRTETAMPRLGAFFDNAVPQGSKLELPLWLAKGLFDNKRRILSVELPKIYQEGWRTVFSADPNVVDLHKMGPHFYGFGSQLLHFDSPENADISQSLLQTFIGRFRRIMDSSQNAYNEDTSALVARLDEMERGLFQTGQKGLNDFQCWEKG GPHMSEAYFRVESGALGPEENFLSLDDILMSHEKLPVRTETAMPRLGAFFDNAVPQGSKLELPLWLAKGLFDNKRRILSVELPKIYQEGWRTVFSADPNVVDLHKMGPHFYGFGSQLLHFDSPENADISQSLLQTFIGRFRRIMDSSQNAYNEDTSALVARLDEMERGLFQTGQKGLNDFQCWEKG 2e9y-a1-m1-cB_2e9y-a1-m1-cA Crystal structure of project APE1968 from Aeropyrum pernix K1 Q9YAH1 Q9YAH1 1.8 X-RAY DIFFRACTION 99 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 312 313 RLAVIALGGNAIAGPGMDVSVESQTAAVKRASSIIADVLADGWRSVITHGNGPQVGYLSEAFEALPPERPRQPLYIATAMTQAWIGLLLKHSLEEELRRRGLNVLVPVVISRVLVDVSDPSFNNPSKPVGPIYGREEAEELSRRYGWVFKRDPRGGFRRVVPSPRPVSIVDRDLIAEASAESPAVVALGGGGVPVVERPGGVLEPVEAVVDKDLASSLLATQLNADLLVILTDVPGVAVNYGREGERWLRRAAASELKKYLREGHFPPGSMGPKVEAAISFVERTGKPAVIGSLEEARQVLSLQAGTVVMLG GRLAVIALGGNAIAGPGMDVSVESQTAAVKRASSIIADVLADGWRSVITHGNGPQVGYLSEAFEALPPERPRQPLYIATAMTQAWIGLLLKHSLEEELRRRGLNVLVPVVISRVLVDVSDPSFNNPSKPVGPIYGREEAEELSRRYGWVFKRDPRGGFRRVVPSPRPVSIVDRDLIAEASAESPAVVALGGGGVPVVERPGGVLEPVEAVVDKDLASSLLATQLNADLLVILTDVPGVAVNYGREGERWLRRAAASELKKYLREGHFPPGSMGPKVEAAISFVERTGKPAVIGSLEEARQVLSLQAGTVVMLG 2eaa-a1-m1-cA_2eaa-a1-m1-cC Crystal Structure of Adzuki Bean 7S Globulin-3 A4PIA0 A4PIA0 2.25 X-RAY DIFFRACTION 217 0.997 3914 (Vigna angularis) 3914 (Vigna angularis) 375 377 2ea7-a1-m1-cB_2ea7-a1-m1-cA 2ea7-a1-m1-cC_2ea7-a1-m1-cA 2ea7-a1-m1-cC_2ea7-a1-m1-cB 2eaa-a1-m1-cA_2eaa-a1-m1-cB 2eaa-a1-m1-cC_2eaa-a1-m1-cB DSRGENNPFYFSSDRRFHTLFTNQYGHLRILHRFDQRSKQIQNLENYRVVEFKSKPNTLLLPHHADADFLLVVLNGRAILTLVNPDSRDSYILEQGHAQKIPAGTTFFLVNPDDNENLRIIKLAIPVNNPHRFQDFFLSSTEAQQSYLRGFSKNILEASFDSDFKEINRVLFGEESREEGVIVELKREQIQELMKHAKSSSSQDEPFNLRNSKPIYSNKFGRWYEMTPEKNPQLKDLDVFISSVDMKEGALLLPHYNSKAIVIMVINEGEAKIELVGLSDESLEVQRYRAELSEDDVFVIPAAYPVAINATSNLNFFAFGINAENNQRNFLAGGKDNVMSEIPTEVLEVSFPASGKKVEKLIKKQSESHFVDAQP SDSRGENNPFYFSSDRRFHTLFTNQYGHLRILHRFDQRSKQIQNLENYRVVEFKSKPNTLLLPHHADADFLLVVLNGRAILTLVNPDSRDSYILEQGHAQKIPAGTTFFLVNPDDNENLRIIKLAIPVNNPHRFQDFFLSSTEAQQSYLRGFSKNILEASFDSDFKEINRVLFGEEESREEGVIVELKREQIQELMKHAKSSSSSQDEPFNLRNSKPIYSNKFGRWYEMTPEKNPQLKDLDVFISSVDMKEGALLLPHYNSKAIVIMVINEGEAKIELVGLSDELEVQRYRAELSEDDVFVIPAAYPVAINATSNLNFFAFGINAENNQRNFLAGGKDNVMSEIPTEVLEVSFPASGKKVEKLIKKQSESHFVDAQP 2eav-a1-m1-cA_2eav-a1-m1-cB Crystal structure of the C-terminal peptidoglycan-binding domain of human peptidoglycan recognition protein Ibeta Q96LB8 Q96LB8 2.2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 CPGIVPRSVWGARETHCPRMTLPAKYGIIIHTAGRTCNISDECRLLVRDIQSFYIDRLKSCDIGYNFLVGQDGAIYEGVGWNVQGSSTPGYDDIALGITFMGTFTGIPPNAAALEAAQDLIQCAMVKGYLTPNYLLVGHSDVARTLSPGQALYNIISTWPHFKH CPGIVPRSVWGARETHCPRMTLPAKYGIIIHTAGRTCNISDECRLLVRDIQSFYIDRLKSCDIGYNFLVGQDGAIYEGVGWNVQGSSTPGYDDIALGITFMGTFTGIPPNAAALEAAQDLIQCAMVKGYLTPNYLLVGHSDVARTLSPGQALYNIISTWPHFKH 2eax-a1-m1-cA_2eax-a1-m1-cC Crystal structure of human PGRP-IBETAC in complex with glycosamyl muramyl pentapeptide Q96LB8 Q96LB8 2.1 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 2eax-a1-m1-cL_2eax-a1-m1-cC CPGIVPRSVWGARETHCPRMTLPAKYGIIIHTAGRTCNISDECRLLVRDIQSFYIDRLKSCDIGYNFLVGQDGAIYEGVGWNVQGSSTPGYDDIALGITFMGTFTGIPPNAAALEAAQDLIQCAMVKGYLTPNYLLVGHSDVARTLSPGQALYNIISTWPHFKH CPGIVPRSVWGARETHCPRMTLPAKYGIIIHTAGRTCNISDECRLLVRDIQSFYIDRLKSCDIGYNFLVGQDGAIYEGVGWNVQGSSTPGYDDIALGITFMGTFTGIPPNAAALEAAQDLIQCAMVKGYLTPNYLLVGHSDVARTLSPGQALYNIISTWPHFKH 2eax-a1-m1-cB_2eax-a1-m1-cC Crystal structure of human PGRP-IBETAC in complex with glycosamyl muramyl pentapeptide Q96LB8 Q96LB8 2.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 CPGIVPRSVWGARETHCPRMTLPAKYGIIIHTAGRTCNISDECRLLVRDIQSFYIDRLKSCDIGYNFLVGQDGAIYEGVGWNVQGSSTPGYDDIALGITFMGTFTGIPPNAAALEAAQDLIQCAMVKGYLTPNYLLVGHSDVARTLSPGQALYNIISTWPHFKH CPGIVPRSVWGARETHCPRMTLPAKYGIIIHTAGRTCNISDECRLLVRDIQSFYIDRLKSCDIGYNFLVGQDGAIYEGVGWNVQGSSTPGYDDIALGITFMGTFTGIPPNAAALEAAQDLIQCAMVKGYLTPNYLLVGHSDVARTLSPGQALYNIISTWPHFKH 2eay-a1-m1-cA_2eay-a1-m1-cB Crystal Structure Of Biotin Protein Ligase From Aquifex Aeolicus O66837 O66837 1.95 X-RAY DIFFRACTION 29 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 217 220 FKNLIWLKEVDSTQERLKEWNVSYGTALVADRQTKEGGLYFSFLLNPKEFENLLQLPLVLGLSVSEALEEITEIPFSLKWPNDVYFQEKKVSGVLCELSKDKLIVGIGINVNQREIPEEIKDRATTLYEITGKDWDRKEVLLKVLKRISENLKKFKEKSFKEFKGKIESKLYLGEEVKLLGEGKITGKLVGLSEKGGALILTEEGIKEILSGEFSLR FKNLIWLKEVDSTQERLKEWNVSYGTALVADRQTKQEGGLYFSFLLNPKEFENLLQLPLVLGLSVSEALEEITEIPFSLKWPNDVYFQEKKVSGVLCELSKDKLIVGIGINVNQREIPEEIKDRATTLYEITGKDWDRKEVLLKVLKRISENLKKFKEKSFKEFKGKIESKLYLGEEVKLLGEGKITGKLVGLSEKGGALILTEEGIKEILSGEFSLRRS 2eb0-a1-m1-cA_2eb0-a1-m1-cB Crystal structure of Methanococcus jannaschii putative family II inorganic pyrophosphatase Q58025 Q58025 2.2 X-RAY DIFFRACTION 96 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 304 307 MRYVVGHKNPDTDSIASAIVLAYFLDCYPARLGDINPETEFVLRKFGVMEPELIESAKGKEIILVDHSEKSQSFDDLEEGKLIAIIDHHKVGLTTTEPILYYAKPVGSTATVIAELYFKDAIDLIGGKKKELKPDLAGLLLSAIISDTVLFKSPTTTDLDKEMAKKLAEIAGISNIEEFGMEILKAKSVVGKLKPEEIINMDFKNFDFNGKKVGIGQVEVIDVSEVESKKEDIYKLLEEKLKNEGYDLIVFLITDIMKEGSEALVVGNKEMFEKAFVEGNSVFLEGVMSRKKQVVPPLERAYNG MRYVVGHKNPDTDSIASAIVLAYFLDCYPARLGDINPETEFVLRKFGVMEPELIESAKGKEIILVDHSEKSQSFDDLEEGKLIAIIDHHKVGLTTTEPILYYAKPVGSTATVIAELYFKDAIDLIGGKKKELKPDLAGLLLSAIISDTVLFKSPTTTDLDKEMAKKLAEIAGISNIEEFGMEILKAKSVVGKLKPEEIINMDFKNFDFNGKKVGIGQVEVIDVSEVESKKEDIYKLLEEKLKNEGYDLIVFLITDIMKEGSEALVVGNKEMFEKAFNVKVEGNSVFLEGVMSRKKQVVPPLERAYNG 2eb1-a2-m1-cB_2eb1-a2-m2-cB Crystal Structure of the C-Terminal RNase III Domain of Human Dicer Q9UPY3 Q9UPY3 2 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 170 170 2eb1-a1-m1-cC_2eb1-a1-m1-cA 3c4b-a1-m1-cA_3c4b-a1-m2-cA 3c4t-a1-m1-cA_3c4t-a1-m2-cA NHLISGFENFEKKINYRFKNKAYLLQAFTHASYHYNTITDCYQRLEFLGDAILDYLITKHLYEDPRQHSPGVLTDLRSALVNNTIFASLAVKYDYHKYFKAVSPELFHVIDDFVQFQLEKEDIEVPKAMGDIFESLAGAIYMDSGMSLETVWQVYYPMMRPLIEKFSANV NHLISGFENFEKKINYRFKNKAYLLQAFTHASYHYNTITDCYQRLEFLGDAILDYLITKHLYEDPRQHSPGVLTDLRSALVNNTIFASLAVKYDYHKYFKAVSPELFHVIDDFVQFQLEKEDIEVPKAMGDIFESLAGAIYMDSGMSLETVWQVYYPMMRPLIEKFSANV 2eb4-a1-m1-cD_2eb4-a1-m2-cD Crystal structure of apo-HpcG Q46982 Q46982 1.6 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 260 260 2eb4-a1-m1-cA_2eb4-a1-m2-cB 2eb4-a1-m1-cE_2eb4-a1-m2-cC 2eb4-a1-m2-cA_2eb4-a1-m1-cB 2eb4-a1-m2-cE_2eb4-a1-m1-cC 2eb5-a1-m1-cA_2eb5-a1-m2-cB 2eb5-a1-m1-cD_2eb5-a1-m2-cD 2eb5-a1-m1-cE_2eb5-a1-m2-cC 2eb5-a1-m2-cA_2eb5-a1-m1-cB 2eb5-a1-m2-cE_2eb5-a1-m1-cC 2eb6-a1-m1-cA_2eb6-a1-m2-cB 2eb6-a1-m1-cB_2eb6-a1-m2-cA 2eb6-a1-m1-cC_2eb6-a1-m2-cE 2eb6-a1-m1-cD_2eb6-a1-m2-cD 2eb6-a1-m1-cE_2eb6-a1-m2-cC MFDKHTHTLIAQRLDQAEKQREQIRAISLDYPEITIEDAYAVQREWVRLKIAEGRTLKGHKIGLTSKAMQASSQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIRKVFDTISDNAANAGVILGGRPIKPDELDLRWISALMYRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGSISCRFV MFDKHTHTLIAQRLDQAEKQREQIRAISLDYPEITIEDAYAVQREWVRLKIAEGRTLKGHKIGLTSKAMQASSQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIRKVFDTISDNAANAGVILGGRPIKPDELDLRWISALMYRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGSISCRFV 2eb5-a1-m2-cE_2eb5-a1-m1-cD Crystal structure of HpcG complexed with oxalate Q46982 Q46982 1.7 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 259 2eb4-a1-m1-cA_2eb4-a1-m2-cC 2eb4-a1-m1-cB_2eb4-a1-m2-cB 2eb4-a1-m1-cD_2eb4-a1-m2-cE 2eb4-a1-m2-cA_2eb4-a1-m1-cC 2eb4-a1-m2-cD_2eb4-a1-m1-cE 2eb5-a1-m1-cA_2eb5-a1-m2-cC 2eb5-a1-m1-cB_2eb5-a1-m2-cB 2eb5-a1-m1-cE_2eb5-a1-m2-cD 2eb5-a1-m2-cA_2eb5-a1-m1-cC 2eb6-a1-m1-cA_2eb6-a1-m2-cC 2eb6-a1-m1-cB_2eb6-a1-m2-cB 2eb6-a1-m1-cC_2eb6-a1-m2-cA 2eb6-a1-m1-cD_2eb6-a1-m2-cE 2eb6-a1-m2-cD_2eb6-a1-m1-cE MFDKHTHTLIAQRLDQAEKQREQIRAISLDYPEITIEDAYAVQREWVRLKIAEGRTLKGHKIGLTSKAMQASQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIKVFDTISDNAANAGVILGGRPIKPDELDLRWISALMYRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGSISCRFV MFDKHTHTLIAQRLDQAEKQREQIRAISLDYPEITIEDAYAVQREWVRLKIAEGRTLKGHKIGLTSKAMQASSQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIKVFDTISDNAANAGVILGGRPIKPDELDLRWISALMYRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGSISCRFV 2eb5-a1-m2-cE_2eb5-a1-m2-cD Crystal structure of HpcG complexed with oxalate Q46982 Q46982 1.7 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 259 2eb4-a1-m1-cA_2eb4-a1-m1-cB 2eb4-a1-m1-cA_2eb4-a1-m1-cE 2eb4-a1-m1-cC_2eb4-a1-m1-cB 2eb4-a1-m1-cD_2eb4-a1-m1-cC 2eb4-a1-m1-cD_2eb4-a1-m1-cE 2eb4-a1-m2-cA_2eb4-a1-m2-cB 2eb4-a1-m2-cA_2eb4-a1-m2-cE 2eb4-a1-m2-cC_2eb4-a1-m2-cB 2eb4-a1-m2-cD_2eb4-a1-m2-cC 2eb4-a1-m2-cD_2eb4-a1-m2-cE 2eb5-a1-m1-cA_2eb5-a1-m1-cB 2eb5-a1-m1-cC_2eb5-a1-m1-cB 2eb5-a1-m1-cD_2eb5-a1-m1-cC 2eb5-a1-m1-cE_2eb5-a1-m1-cA 2eb5-a1-m1-cE_2eb5-a1-m1-cD 2eb5-a1-m2-cA_2eb5-a1-m2-cB 2eb5-a1-m2-cC_2eb5-a1-m2-cB 2eb5-a1-m2-cD_2eb5-a1-m2-cC 2eb5-a1-m2-cE_2eb5-a1-m2-cA 2eb6-a1-m1-cA_2eb6-a1-m1-cB 2eb6-a1-m1-cA_2eb6-a1-m1-cE 2eb6-a1-m1-cB_2eb6-a1-m1-cC 2eb6-a1-m1-cD_2eb6-a1-m1-cC 2eb6-a1-m1-cD_2eb6-a1-m1-cE 2eb6-a1-m2-cA_2eb6-a1-m2-cB 2eb6-a1-m2-cA_2eb6-a1-m2-cE 2eb6-a1-m2-cB_2eb6-a1-m2-cC 2eb6-a1-m2-cD_2eb6-a1-m2-cC 2eb6-a1-m2-cD_2eb6-a1-m2-cE MFDKHTHTLIAQRLDQAEKQREQIRAISLDYPEITIEDAYAVQREWVRLKIAEGRTLKGHKIGLTSKAMQASQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIKVFDTISDNAANAGVILGGRPIKPDELDLRWISALMYRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGSISCRFV MFDKHTHTLIAQRLDQAEKQREQIRAISLDYPEITIEDAYAVQREWVRLKIAEGRTLKGHKIGLTSKAMQASSQISEPDYGALLDDMFFHDGSDIPTDRFIVPRIEVELAFVLAKPLRGPNCTLFDVYNATDYVIPALELIDARCHNIKVFDTISDNAANAGVILGGRPIKPDELDLRWISALMYRNGVIEETGVAAGVLNHPANGVAWLANKLAPYDVQLEAGQIILGGSFTRPVPARKGDTFHVDYGNMGSISCRFV 2eba-a2-m1-cF_2eba-a2-m1-cI Crystal structure of the putative glutaryl-CoA dehydrogenase from thermus thermophilus Q5SK63 Q5SK63 2.21 X-RAY DIFFRACTION 129 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 380 380 2eba-a1-m1-cA_2eba-a1-m1-cC 2eba-a1-m1-cD_2eba-a1-m1-cE 2eba-a2-m1-cG_2eba-a2-m1-cH MLDFYALEDLLTPEEKEVQKAARRFLEKEALPHIRDWWEEGVFPTHLIPRFAELGFLGPTLPPEYGGAGVSSAAYGLICYELERVDSGLRSFVSVQSSLVMYPIYAYGSEEQKREFLPKLARGEMVGCFGLTEPDGGSDPYGNMKTRARRDTWVLNGTKMWITNGNLAHLAVIWAKDEVLGFLVPTDTPGFQAREVKRKMSLRASVTSELVLEEVRVPESLRLPKALGLKAPLSCLTQARFGIAWGAMGALEAVYEEAVAFAKSRSTFGEPLAKKQLVQAKLAEMLAWHTEGLLLAWRLARLKDEGKLTPAQVSLAKRQNVWKALQAARMARDILGGSGITLEYHAIRHMLNLETVYTYEGTHDVHTLVLGREITGLNAF MLDFYALEDLLTPEEKEVQKAARRFLEKEALPHIRDWWEEGVFPTHLIPRFAELGFLGPTLPPEYGGAGVSSAAYGLICYELERVDSGLRSFVSVQSSLVMYPIYAYGSEEQKREFLPKLARGEMVGCFGLTEPDGGSDPYGNMKTRARRDTWVLNGTKMWITNGNLAHLAVIWAKDEVLGFLVPTDTPGFQAREVKRKMSLRASVTSELVLEEVRVPESLRLPKALGLKAPLSCLTQARFGIAWGAMGALEAVYEEAVAFAKSRSTFGEPLAKKQLVQAKLAEMLAWHTEGLLLAWRLARLKDEGKLTPAQVSLAKRQNVWKALQAARMARDILGGSGITLEYHAIRHMLNLETVYTYEGTHDVHTLVLGREITGLNAF 2eba-a2-m1-cH_2eba-a2-m1-cI Crystal structure of the putative glutaryl-CoA dehydrogenase from thermus thermophilus Q5SK63 Q5SK63 2.21 X-RAY DIFFRACTION 103 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 380 380 2eba-a1-m1-cA_2eba-a1-m1-cD 2eba-a1-m1-cC_2eba-a1-m1-cE 2eba-a2-m1-cF_2eba-a2-m1-cG MLDFYALEDLLTPEEKEVQKAARRFLEKEALPHIRDWWEEGVFPTHLIPRFAELGFLGPTLPPEYGGAGVSSAAYGLICYELERVDSGLRSFVSVQSSLVMYPIYAYGSEEQKREFLPKLARGEMVGCFGLTEPDGGSDPYGNMKTRARRDTWVLNGTKMWITNGNLAHLAVIWAKDEVLGFLVPTDTPGFQAREVKRKMSLRASVTSELVLEEVRVPESLRLPKALGLKAPLSCLTQARFGIAWGAMGALEAVYEEAVAFAKSRSTFGEPLAKKQLVQAKLAEMLAWHTEGLLLAWRLARLKDEGKLTPAQVSLAKRQNVWKALQAARMARDILGGSGITLEYHAIRHMLNLETVYTYEGTHDVHTLVLGREITGLNAF MLDFYALEDLLTPEEKEVQKAARRFLEKEALPHIRDWWEEGVFPTHLIPRFAELGFLGPTLPPEYGGAGVSSAAYGLICYELERVDSGLRSFVSVQSSLVMYPIYAYGSEEQKREFLPKLARGEMVGCFGLTEPDGGSDPYGNMKTRARRDTWVLNGTKMWITNGNLAHLAVIWAKDEVLGFLVPTDTPGFQAREVKRKMSLRASVTSELVLEEVRVPESLRLPKALGLKAPLSCLTQARFGIAWGAMGALEAVYEEAVAFAKSRSTFGEPLAKKQLVQAKLAEMLAWHTEGLLLAWRLARLKDEGKLTPAQVSLAKRQNVWKALQAARMARDILGGSGITLEYHAIRHMLNLETVYTYEGTHDVHTLVLGREITGLNAF 2ebb-a1-m1-cA_2ebb-a1-m2-cA Crystal structure of pterin-4-alpha-carbinolamine dehydratase (pterin carbinolamine dehydratase) from Geobacillus kaustophilus HTA426 Q5KYG7 Q5KYG7 1.6 X-RAY DIFFRACTION 44 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 96 96 MRLTEEEVQALLEKADGWKLADERWIVKKYRFQDYLQGIEFVRRIAAISENANHHPFISIDYKLITVKLSSWRAKGLTKLDFDLAKQYDEVYNQMK MRLTEEEVQALLEKADGWKLADERWIVKKYRFQDYLQGIEFVRRIAAISENANHHPFISIDYKLITVKLSSWRAKGLTKLDFDLAKQYDEVYNQMK 2ebd-a1-m1-cB_2ebd-a1-m1-cA Crystal structure of 3-oxoacyl-[acyl-carrier-protein] synthase III from Aquifex aeolicus VF5 O67185 O67185 2.1 X-RAY DIFFRACTION 184 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 308 309 GTKIIGTGVYLPKNVLTNFDLEKIVDTSDEWITTRTGIKERRIAKEETITYMATQAAKEALREANLSPEELDLIILATLTPQKRFPSTACLVQAQLKAKGVYAFDISAACSGFIYALDIADSFIKSGKAKNVLVIGAEKLSEAVDWEDRSTCVLFGDGAGAVVVTRSEDKSDILATRMYAEGSLEELLHADNCGYIRMKGRELFKVAVRSMEEVCREVLEKAGVKPEEVSLVIPHQANVRIINALAEKLNIPKEKVFVNIQKYGNTSAASIPIALHEAIKEGKVKRGDLILMTAMGGGLTWGAVLLRY MGTKIIGTGVYLPKNVLTNFDLEKIVDTSDEWITTRTGIKERRIAKEETITYMATQAAKEALREANLSPEELDLIILATLTPQKRFPSTACLVQAQLKAKGVYAFDISAACSGFIYALDIADSFIKSGKAKNVLVIGAEKLSEAVDWEDRSTCVLFGDGAGAVVVTRSEDKSDILATRMYAEGSLEELLHADNCGYIRMKGRELFKVAVRSMEEVCREVLEKAGVKPEEVSLVIPHQANVRIINALAEKLNIPKEKVFVNIQKYGNTSAASIPIALHEAIKEGKVKRGDLILMTAMGGGLTWGAVLLRY 2ebg-a1-m1-cA_2ebg-a1-m1-cB Crystal structure of a hypothetical protein from thermus thermophilus Q5SM82 Q5SM82 1.8 X-RAY DIFFRACTION 90 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 106 106 2ebe-a1-m1-cA_2ebe-a1-m1-cB 2ei5-a1-m1-cA_2ei5-a1-m1-cB MQAVRLFQGYLWHPRALALDLKALLPGEVAGARLLWDEVPPPTPFFEDGTPTHTQRFYQLTLLVLTEEPPEALKPLAEEAAEALGEVLEGLPPEVGWLLLEDLRPL MQAVRLFQGYLWHPRALALDLKALLPGEVAGARLLWDEVPPPTPFFEDGTPTHTQRFYQLTLLVLTEEPPEALKPLAEEAAEALGEVLEGLPPEVGWLLLEDLRPL 2ebj-a1-m1-cB_2ebj-a1-m2-cB Crystal structure of pyrrolidone carboxyl peptidase from Thermus thermophilus Q5SJW4 Q5SJW4 1.9 X-RAY DIFFRACTION 53 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 192 192 2ebj-a1-m1-cA_2ebj-a1-m2-cA MILVTGFEPFGSLEHNPSQALLDLLPSEVDGKPLRKAVLPVDAEALGEALEDLHREGPKAVLHLGLAEDRPVLTLERLAVNLLDFPRPDNRGRVLEDLPIVPGGPLALPARFPVKPVLARWREAGIPGRPSLSAGSYLCNQAFYLSLYRLPEEVPVGFLHLPPDETLALKRPRPYVPLEVQARAVRLALEHL MILVTGFEPFGSLEHNPSQALLDLLPSEVDGKPLRKAVLPVDAEALGEALEDLHREGPKAVLHLGLAEDRPVLTLERLAVNLLDFPRPDNRGRVLEDLPIVPGGPLALPARFPVKPVLARWREAGIPGRPSLSAGSYLCNQAFYLSLYRLPEEVPVGFLHLPPDETLALKRPRPYVPLEVQARAVRLALEHL 2ebj-a1-m2-cA_2ebj-a1-m2-cB Crystal structure of pyrrolidone carboxyl peptidase from Thermus thermophilus Q5SJW4 Q5SJW4 1.9 X-RAY DIFFRACTION 39 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 192 192 2ebj-a1-m1-cA_2ebj-a1-m1-cB MILVTGFEPFGSLEHNPSQALLDLLPSEVDGKPLRKAVLPVDAEALGEALEDLHREGPKAVLHLGLAEDRPVLTLERLAVNLLDFPRPDNRGRVLEDLPIVPGGPLALPARFPVKPVLARWREAGIPGRPSLSAGSYLCNQAFYLSLYRLPEEVPVGFLHLPPDETLALKRPRPYVPLEVQARAVRLALEHL MILVTGFEPFGSLEHNPSQALLDLLPSEVDGKPLRKAVLPVDAEALGEALEDLHREGPKAVLHLGLAEDRPVLTLERLAVNLLDFPRPDNRGRVLEDLPIVPGGPLALPARFPVKPVLARWREAGIPGRPSLSAGSYLCNQAFYLSLYRLPEEVPVGFLHLPPDETLALKRPRPYVPLEVQARAVRLALEHL 2eby-a1-m1-cB_2eby-a1-m1-cA Crystal structure of a hypothetical protein from E. Coli P0A9T6 P0A9T6 2.25 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 98 102 KPTTPGDILLYEYLEPLDLKINELAELLHVHRNSVSALINNNRKLTTEMAFRLAKVFDTTVDFWLNLQAAVDLWEVENNMRTQEELGRIETVAEYLAR KPTTPGDILLYEYLEPLDLKINELAELLHVHRNSVSALINNNRKLTTEMAFRLAKVFDTTVDFWLNLQAAVDLWEVENNMRTQEELGRIETVAEYLARREER 2ec2-a3-m1-cE_2ec2-a3-m1-cF Crystal structure of transposase from Sulfolobus tokodaii Q974H8 Q974H8 2.8 X-RAY DIFFRACTION 138 0.992 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 129 129 2ec2-a1-m1-cA_2ec2-a1-m1-cC 2ec2-a2-m1-cD_2ec2-a2-m1-cB EYKSTRHAKYLCNYHFVWIPKYRRKVLTGEVAEYTKEVLRTIAEELGCEVLALEVMPDHIHLFVNCPPRYAPSYLANYFKGKSARLILKKFQELKKSTNGKLWTRSYFVSTSGNVSSETIKKYIEEQWA MEYKSTRHAKYLCNYHFVWIPKYRRKVLTGEVAEYTKEVLRTIAEELGCEVLALEVMPDHIHLFVNCPPRYAPSYLANYFKGKSARLILKKFQELKKSTNGKLWTRSYFVSTSGNVSSETIKKYIEEQW 2ecf-a1-m1-cA_2ecf-a1-m2-cA Crystal Structure of Dipeptidyl Aminopeptidase IV from Stenotrophomonas maltophilia P95782 P95782 2.8 X-RAY DIFFRACTION 96 1.0 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 700 700 KLTLEAITGPLPLSGPTLMKPKVAPDGSRVTFLRGKDSDRNQLDLWSYDIGSGQTRLLVDSKVVLAMTGIVDYQWSPDAQRLLFPLGGELYLYDLKQEGKAAVRQLTHGEGFATDAKLSPKGGFVSFIRGRNLWVIDLASGRQMQLTADGSTTIGNGIAEFVADEEMDRHTGYWWAPDDSAIAYARIDESPVPVQKRYEVYADRTDVIEQRYPAAGDANVQVKLGVISPAEQAQTQWIDLGKEQDIYLARVNWRDPQHLSFQRQSRDQKKLDLVEVTLASNQQRVLAHETSPTWVPLHNSLRFLDDGSILWSSERTGFQHLYRIDSKGKAAALTHGNWSVDELLAVDEKAGLAYFRAGIESARESQIYAVPLQGGQPQRLSKAPGMHSASFARNASVYVDSWSNNSTPPQIELFRANGEKIATLVENDLADPKHPYARYREAQRPVEFGTLTAADGKTPLNYSVIKPAGFDPAKRYPVAVYVYGGPASQTVTDSWPGRGDHLFNQYLAQQGYVVFSLDNRGTPRRGRDFGGALYGKQGTVEVADQLRGVAWLKQQPWVDPARIGVQGWSNGGYMTLMLLAKASDSYACGVAGAPVTDWGLYDSHYTERYMDLPARNDAGYREARVLTHIEGLRSPLLLIHGMADDNVLFTNSTSLMSALQKRGQPFELMTYPGAKHGLSGADALHRYRVAEAFLGRCLKP KLTLEAITGPLPLSGPTLMKPKVAPDGSRVTFLRGKDSDRNQLDLWSYDIGSGQTRLLVDSKVVLAMTGIVDYQWSPDAQRLLFPLGGELYLYDLKQEGKAAVRQLTHGEGFATDAKLSPKGGFVSFIRGRNLWVIDLASGRQMQLTADGSTTIGNGIAEFVADEEMDRHTGYWWAPDDSAIAYARIDESPVPVQKRYEVYADRTDVIEQRYPAAGDANVQVKLGVISPAEQAQTQWIDLGKEQDIYLARVNWRDPQHLSFQRQSRDQKKLDLVEVTLASNQQRVLAHETSPTWVPLHNSLRFLDDGSILWSSERTGFQHLYRIDSKGKAAALTHGNWSVDELLAVDEKAGLAYFRAGIESARESQIYAVPLQGGQPQRLSKAPGMHSASFARNASVYVDSWSNNSTPPQIELFRANGEKIATLVENDLADPKHPYARYREAQRPVEFGTLTAADGKTPLNYSVIKPAGFDPAKRYPVAVYVYGGPASQTVTDSWPGRGDHLFNQYLAQQGYVVFSLDNRGTPRRGRDFGGALYGKQGTVEVADQLRGVAWLKQQPWVDPARIGVQGWSNGGYMTLMLLAKASDSYACGVAGAPVTDWGLYDSHYTERYMDLPARNDAGYREARVLTHIEGLRSPLLLIHGMADDNVLFTNSTSLMSALQKRGQPFELMTYPGAKHGLSGADALHRYRVAEAFLGRCLKP 2ecu-a1-m1-cA_2ecu-a1-m1-cB Crystal structure of flavin reductase component (HpaC) of 4-hydroxyphenylacetate 3-monooxygenase Q5SJP7 Q5SJP7 1.3 X-RAY DIFFRACTION 193 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 149 149 2ecr-a1-m1-cA_2ecr-a1-m1-cB 2ed4-a1-m1-cA_2ed4-a1-m1-cB MKEAFKEALARFASGVTVVAARLGEEERGMTATAFMSLSLEPPLVALAVSERAKLLPVLEGAGAFTVSLLREGQEAVSEHFAGRPKEGIALEEGRVKGALAVLRCRLHALYPGGDHRIVVGLVEEVELGEGGPPLVYFQRGYRRLVWPS MKEAFKEALARFASGVTVVAARLGEEERGMTATAFMSLSLEPPLVALAVSERAKLLPVLEGAGAFTVSLLREGQEAVSEHFAGRPKEGIALEEGRVKGALAVLRCRLHALYPGGDHRIVVGLVEEVELGEGGPPLVYFQRGYRRLVWPS 2ed6-a4-m1-cK_2ed6-a4-m1-cL Crystal Structure of Envelope Protein VP28 from White Spot Syndrome Virus (WSSV) Q9ICB7 Q9ICB7 2 X-RAY DIFFRACTION 77 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 170 170 2ed6-a1-m1-cA_2ed6-a1-m1-cB 2ed6-a1-m1-cA_2ed6-a1-m1-cC 2ed6-a1-m1-cB_2ed6-a1-m1-cC 2ed6-a2-m1-cD_2ed6-a2-m1-cE 2ed6-a2-m1-cD_2ed6-a2-m1-cF 2ed6-a2-m1-cE_2ed6-a2-m1-cF 2ed6-a3-m1-cG_2ed6-a3-m1-cH 2ed6-a3-m1-cG_2ed6-a3-m1-cI 2ed6-a3-m1-cH_2ed6-a3-m1-cI 2ed6-a4-m1-cJ_2ed6-a4-m1-cK 2ed6-a4-m1-cJ_2ed6-a4-m1-cL TVTKTIETHTDNIETNMDENLRIPVTAEVGSGYFKMTDVSFDSDTLGKIKIRNGKSDAQMKEEDADLVITPVEGRALEVTVGQNLTFEGTFKVWNNTSRKINITGMQMVPKINPSKAFVGSSNTSSFTPVSIDEDEVGTFVCGTTFGAPIAATAGGNLFDMYVHVTYSGT TVTKTIETHTDNIETNMDENLRIPVTAEVGSGYFKMTDVSFDSDTLGKIKIRNGKSDAQMKEEDADLVITPVEGRALEVTVGQNLTFEGTFKVWNNTSRKINITGMQMVPKINPSKAFVGSSNTSSFTPVSIDEDEVGTFVCGTTFGAPIAATAGGNLFDMYVHVTYSGT 2edm-a1-m2-cA_2edm-a1-m3-cA Crystal Structure of Envelope Protein VP26 from White Spot Syndrome Virus (WSSV) Q0PW17 Q0PW17 2.2 X-RAY DIFFRACTION 75 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 161 161 2edm-a1-m1-cA_2edm-a1-m2-cA 2edm-a1-m1-cA_2edm-a1-m3-cA SVVANYDQMMRVPIQRRAKVMSIRGERSYNTPLGKVAMKNGLSDKDMKDVSADLVISTVTAPRTDPAGTGAENSNMTLKILNNTGVDLLINDITVRPTVIAGNIKGNTMSNTYFSSKDIKSSSSKITLIDVCSKFEDGAAFEATMNIGFTSKNVIDIKDEI SVVANYDQMMRVPIQRRAKVMSIRGERSYNTPLGKVAMKNGLSDKDMKDVSADLVISTVTAPRTDPAGTGAENSNMTLKILNNTGVDLLINDITVRPTVIAGNIKGNTMSNTYFSSKDIKSSSSKITLIDVCSKFEDGAAFEATMNIGFTSKNVIDIKDEI 2eer-a1-m1-cA_2eer-a1-m2-cB Structural study of Project ID ST2577 from Sulfolobus tokodaii strain7 Q96XE0 Q96XE0 2.1 X-RAY DIFFRACTION 43 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 346 347 2eer-a1-m2-cA_2eer-a1-m1-cB MRAMRLVEIGKPLKLEDIPIPKPKGSQVLIKIEAAGVCHSDVHMRQGRFGNLRIVEDLGVKLPVTLGHEIAGRIEEVGDEVVGYSKGDLVAVNPWEGEGNCYYCRIGEEHLCDSPRWLGINYDGAYAEYVLVPHYKYLYKLRRLSAVEAAPLTCSGVTTYRAVRKASLDPSKTLVVIGAGGGLGTMAIQIAKAVSGATIIGVDVREEALEAAKRAGADYVINASSQDPVSEIRRITQGKGADAVIDLNNSEKTLSIYPYVLAKQGKYVMVGLFGADLKYHAPLITLNEVQFIGSLVGNQSDFLGIMSLAEAGKVKPMVTKTMKLEEANEAIDNLENFKAVGRQVLV MRAMRLVEIGKPLKLEDIPIPKPKGSQVLIKIEAAGVCHSDVHMRQGRFGNLRIVEDLGVKLPVTLGHEIAGRIEEVGDEVVGYSKGDLVAVNPWEGEGNCYYCRIGEEHLCDSPRWLGINYDGAYAEYVLVPHYKYLYKLRRLSAVEAAPLTCSGVTTYRAVRKASLDPSKTLVVIGAGGGLGTMAIQIAKAVSGATIIGVDVREEALEAAKRAGADYVINASSQDPVSEIRRITQGKGADAVIDLNNSEKTLSIYPYVLAKQGKYVMVGLFGADLKYHAPLITLNEVQFIGSLVGNQSDFLGIMSLAEAGKVKPMVTKTMKLEEANEAIDNLENFKAVGRQVLVP 2eer-a1-m1-cB_2eer-a1-m2-cB Structural study of Project ID ST2577 from Sulfolobus tokodaii strain7 Q96XE0 Q96XE0 2.1 X-RAY DIFFRACTION 37 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 347 347 2eer-a1-m1-cA_2eer-a1-m2-cA MRAMRLVEIGKPLKLEDIPIPKPKGSQVLIKIEAAGVCHSDVHMRQGRFGNLRIVEDLGVKLPVTLGHEIAGRIEEVGDEVVGYSKGDLVAVNPWEGEGNCYYCRIGEEHLCDSPRWLGINYDGAYAEYVLVPHYKYLYKLRRLSAVEAAPLTCSGVTTYRAVRKASLDPSKTLVVIGAGGGLGTMAIQIAKAVSGATIIGVDVREEALEAAKRAGADYVINASSQDPVSEIRRITQGKGADAVIDLNNSEKTLSIYPYVLAKQGKYVMVGLFGADLKYHAPLITLNEVQFIGSLVGNQSDFLGIMSLAEAGKVKPMVTKTMKLEEANEAIDNLENFKAVGRQVLVP MRAMRLVEIGKPLKLEDIPIPKPKGSQVLIKIEAAGVCHSDVHMRQGRFGNLRIVEDLGVKLPVTLGHEIAGRIEEVGDEVVGYSKGDLVAVNPWEGEGNCYYCRIGEEHLCDSPRWLGINYDGAYAEYVLVPHYKYLYKLRRLSAVEAAPLTCSGVTTYRAVRKASLDPSKTLVVIGAGGGLGTMAIQIAKAVSGATIIGVDVREEALEAAKRAGADYVINASSQDPVSEIRRITQGKGADAVIDLNNSEKTLSIYPYVLAKQGKYVMVGLFGADLKYHAPLITLNEVQFIGSLVGNQSDFLGIMSLAEAGKVKPMVTKTMKLEEANEAIDNLENFKAVGRQVLVP 2eer-a1-m2-cA_2eer-a1-m2-cB Structural study of Project ID ST2577 from Sulfolobus tokodaii strain7 Q96XE0 Q96XE0 2.1 X-RAY DIFFRACTION 135 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 346 347 2eer-a1-m1-cA_2eer-a1-m1-cB MRAMRLVEIGKPLKLEDIPIPKPKGSQVLIKIEAAGVCHSDVHMRQGRFGNLRIVEDLGVKLPVTLGHEIAGRIEEVGDEVVGYSKGDLVAVNPWEGEGNCYYCRIGEEHLCDSPRWLGINYDGAYAEYVLVPHYKYLYKLRRLSAVEAAPLTCSGVTTYRAVRKASLDPSKTLVVIGAGGGLGTMAIQIAKAVSGATIIGVDVREEALEAAKRAGADYVINASSQDPVSEIRRITQGKGADAVIDLNNSEKTLSIYPYVLAKQGKYVMVGLFGADLKYHAPLITLNEVQFIGSLVGNQSDFLGIMSLAEAGKVKPMVTKTMKLEEANEAIDNLENFKAVGRQVLV MRAMRLVEIGKPLKLEDIPIPKPKGSQVLIKIEAAGVCHSDVHMRQGRFGNLRIVEDLGVKLPVTLGHEIAGRIEEVGDEVVGYSKGDLVAVNPWEGEGNCYYCRIGEEHLCDSPRWLGINYDGAYAEYVLVPHYKYLYKLRRLSAVEAAPLTCSGVTTYRAVRKASLDPSKTLVVIGAGGGLGTMAIQIAKAVSGATIIGVDVREEALEAAKRAGADYVINASSQDPVSEIRRITQGKGADAVIDLNNSEKTLSIYPYVLAKQGKYVMVGLFGADLKYHAPLITLNEVQFIGSLVGNQSDFLGIMSLAEAGKVKPMVTKTMKLEEANEAIDNLENFKAVGRQVLVP 2eey-a1-m2-cA_2eey-a1-m6-cA Structure of GK0241 protein from Geobacillus kaustophilus Q5L3F4 Q5L3F4 1.94 X-RAY DIFFRACTION 174 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 160 160 2eey-a1-m1-cA_2eey-a1-m4-cA 2eey-a1-m3-cA_2eey-a1-m5-cA SSFTHFNEQGRAKMVDITHKEDTVRVAVAQTSVTVSREIYEKMTSNAIEKGDVLAVAQVAGVMAAKKTADLIPMCHPLMLKGVDIAFAWENDGEAHKLVITATVKTKGSTGVEMEALTAASVCALTVYDMCKALDKGMVIGPTYLVEKTGGKSGHYRRKT SSFTHFNEQGRAKMVDITHKEDTVRVAVAQTSVTVSREIYEKMTSNAIEKGDVLAVAQVAGVMAAKKTADLIPMCHPLMLKGVDIAFAWENDGEAHKLVITATVKTKGSTGVEMEALTAASVCALTVYDMCKALDKGMVIGPTYLVEKTGGKSGHYRRKT 2eey-a1-m3-cA_2eey-a1-m6-cA Structure of GK0241 protein from Geobacillus kaustophilus Q5L3F4 Q5L3F4 1.94 X-RAY DIFFRACTION 14 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 160 160 2eey-a1-m1-cA_2eey-a1-m5-cA 2eey-a1-m2-cA_2eey-a1-m4-cA SSFTHFNEQGRAKMVDITHKEDTVRVAVAQTSVTVSREIYEKMTSNAIEKGDVLAVAQVAGVMAAKKTADLIPMCHPLMLKGVDIAFAWENDGEAHKLVITATVKTKGSTGVEMEALTAASVCALTVYDMCKALDKGMVIGPTYLVEKTGGKSGHYRRKT SSFTHFNEQGRAKMVDITHKEDTVRVAVAQTSVTVSREIYEKMTSNAIEKGDVLAVAQVAGVMAAKKTADLIPMCHPLMLKGVDIAFAWENDGEAHKLVITATVKTKGSTGVEMEALTAASVCALTVYDMCKALDKGMVIGPTYLVEKTGGKSGHYRRKT 2eey-a1-m5-cA_2eey-a1-m6-cA Structure of GK0241 protein from Geobacillus kaustophilus Q5L3F4 Q5L3F4 1.94 X-RAY DIFFRACTION 60 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 160 160 2eey-a1-m1-cA_2eey-a1-m2-cA 2eey-a1-m1-cA_2eey-a1-m3-cA 2eey-a1-m2-cA_2eey-a1-m3-cA 2eey-a1-m4-cA_2eey-a1-m5-cA 2eey-a1-m4-cA_2eey-a1-m6-cA SSFTHFNEQGRAKMVDITHKEDTVRVAVAQTSVTVSREIYEKMTSNAIEKGDVLAVAQVAGVMAAKKTADLIPMCHPLMLKGVDIAFAWENDGEAHKLVITATVKTKGSTGVEMEALTAASVCALTVYDMCKALDKGMVIGPTYLVEKTGGKSGHYRRKT SSFTHFNEQGRAKMVDITHKEDTVRVAVAQTSVTVSREIYEKMTSNAIEKGDVLAVAQVAGVMAAKKTADLIPMCHPLMLKGVDIAFAWENDGEAHKLVITATVKTKGSTGVEMEALTAASVCALTVYDMCKALDKGMVIGPTYLVEKTGGKSGHYRRKT 2eez-a1-m1-cA_2eez-a1-m1-cG Crystal structure of alanine dehydrogenase from themus thermophilus Q5SLS7 Q5SLS7 2.71 X-RAY DIFFRACTION 30 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2eez-a1-m1-cA_2eez-a1-m1-cE 2eez-a1-m1-cC_2eez-a1-m1-cD 2eez-a1-m1-cC_2eez-a1-m1-cF 2eez-a1-m1-cD_2eez-a1-m1-cF 2eez-a1-m1-cE_2eez-a1-m1-cG MVIGVPKEIKTLENRVALTPGGVESLVRRGHTVLVERGAGEGSGLSDAEYARAGAELVGREEAWGAEMVVKVKEPLPEEYGFLREGLILFTYLHLAADRGLTEAMLRSGVTGIAYETVQLPDGTLPLLVPMSEVAGRMAPQVGAQFLEKPKGGRGVLLGGVPGVAPASVVILGGGTVGTNAAKIALGMGAQVTILDVNHKRLQYLDDVFGGRVITLTATEANIKKSVQHADLLIGAVLKLVTRDMLSLMKEGAVIVDVAYVVDGVVHYGVANMPGAVPRTSTFALTNQTLPYVLKLAEKGLDALLEDAALLKGLNTHKGRLTHPGVAEAFGLPYTPPEEALRG MVIGVPKEIKTLENRVALTPGGVESLVRRGHTVLVERGAGEGSGLSDAEYARAGAELVGREEAWGAEMVVKVKEPLPEEYGFLREGLILFTYLHLAADRGLTEAMLRSGVTGIAYETVQLPDGTLPLLVPMSEVAGRMAPQVGAQFLEKPKGGRGVLLGGVPGVAPASVVILGGGTVGTNAAKIALGMGAQVTILDVNHKRLQYLDDVFGGRVITLTATEANIKKSVQHADLLIGAVLKLVTRDMLSLMKEGAVIVDVAYVVDGVVHYGVANMPGAVPRTSTFALTNQTLPYVLKLAEKGLDALLEDAALLKGLNTHKGRLTHPGVAEAFGLPYTPPEEALRG 2eez-a1-m1-cD_2eez-a1-m1-cG Crystal structure of alanine dehydrogenase from themus thermophilus Q5SLS7 Q5SLS7 2.71 X-RAY DIFFRACTION 41 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2eez-a1-m1-cA_2eez-a1-m1-cC 2eez-a1-m1-cE_2eez-a1-m1-cF MVIGVPKEIKTLENRVALTPGGVESLVRRGHTVLVERGAGEGSGLSDAEYARAGAELVGREEAWGAEMVVKVKEPLPEEYGFLREGLILFTYLHLAADRGLTEAMLRSGVTGIAYETVQLPDGTLPLLVPMSEVAGRMAPQVGAQFLEKPKGGRGVLLGGVPGVAPASVVILGGGTVGTNAAKIALGMGAQVTILDVNHKRLQYLDDVFGGRVITLTATEANIKKSVQHADLLIGAVLKLVTRDMLSLMKEGAVIVDVAYVVDGVVHYGVANMPGAVPRTSTFALTNQTLPYVLKLAEKGLDALLEDAALLKGLNTHKGRLTHPGVAEAFGLPYTPPEEALRG MVIGVPKEIKTLENRVALTPGGVESLVRRGHTVLVERGAGEGSGLSDAEYARAGAELVGREEAWGAEMVVKVKEPLPEEYGFLREGLILFTYLHLAADRGLTEAMLRSGVTGIAYETVQLPDGTLPLLVPMSEVAGRMAPQVGAQFLEKPKGGRGVLLGGVPGVAPASVVILGGGTVGTNAAKIALGMGAQVTILDVNHKRLQYLDDVFGGRVITLTATEANIKKSVQHADLLIGAVLKLVTRDMLSLMKEGAVIVDVAYVVDGVVHYGVANMPGAVPRTSTFALTNQTLPYVLKLAEKGLDALLEDAALLKGLNTHKGRLTHPGVAEAFGLPYTPPEEALRG 2eez-a1-m1-cF_2eez-a1-m1-cG Crystal structure of alanine dehydrogenase from themus thermophilus Q5SLS7 Q5SLS7 2.71 X-RAY DIFFRACTION 118 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2eez-a1-m1-cA_2eez-a1-m1-cD 2eez-a1-m1-cC_2eez-a1-m1-cE MVIGVPKEIKTLENRVALTPGGVESLVRRGHTVLVERGAGEGSGLSDAEYARAGAELVGREEAWGAEMVVKVKEPLPEEYGFLREGLILFTYLHLAADRGLTEAMLRSGVTGIAYETVQLPDGTLPLLVPMSEVAGRMAPQVGAQFLEKPKGGRGVLLGGVPGVAPASVVILGGGTVGTNAAKIALGMGAQVTILDVNHKRLQYLDDVFGGRVITLTATEANIKKSVQHADLLIGAVLKLVTRDMLSLMKEGAVIVDVAYVVDGVVHYGVANMPGAVPRTSTFALTNQTLPYVLKLAEKGLDALLEDAALLKGLNTHKGRLTHPGVAEAFGLPYTPPEEALRG MVIGVPKEIKTLENRVALTPGGVESLVRRGHTVLVERGAGEGSGLSDAEYARAGAELVGREEAWGAEMVVKVKEPLPEEYGFLREGLILFTYLHLAADRGLTEAMLRSGVTGIAYETVQLPDGTLPLLVPMSEVAGRMAPQVGAQFLEKPKGGRGVLLGGVPGVAPASVVILGGGTVGTNAAKIALGMGAQVTILDVNHKRLQYLDDVFGGRVITLTATEANIKKSVQHADLLIGAVLKLVTRDMLSLMKEGAVIVDVAYVVDGVVHYGVANMPGAVPRTSTFALTNQTLPYVLKLAEKGLDALLEDAALLKGLNTHKGRLTHPGVAEAFGLPYTPPEEALRG 2ef0-a2-m2-cA_2ef0-a2-m3-cA Crystal structure of ornithine carbamoyltransferase from thermus thermophilus Q5SJ15 Q5SJ15 2 X-RAY DIFFRACTION 53 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 287 287 2ef0-a2-m1-cA_2ef0-a2-m2-cA 2ef0-a2-m1-cA_2ef0-a2-m3-cA TLPKDLLDFSGYGPKELQALLDLAEQLKRERYRGEDLKGKVLALLFEKPSLRTRTTLEVAMVHLGGHAVYLDQKQVGIGEREPVRDVAKNLERFVEGIAARVFRHETVEALARHAKVPVVNALSDRAHPLQALADLLTLKEVFGGLAGLEVAWVGDGNNVLNSLLEVAPLAGLKVRVATPKGYEPDPGLLKRANAFFTHDPKEAALGAHALYTDVWTEKRLRDFQGFQVNGELLKLLRPEGVFLHCLPAHYGEETTEEAVHGPRSRVFDQAENRLHTAKAVLLTLLK TLPKDLLDFSGYGPKELQALLDLAEQLKRERYRGEDLKGKVLALLFEKPSLRTRTTLEVAMVHLGGHAVYLDQKQVGIGEREPVRDVAKNLERFVEGIAARVFRHETVEALARHAKVPVVNALSDRAHPLQALADLLTLKEVFGGLAGLEVAWVGDGNNVLNSLLEVAPLAGLKVRVATPKGYEPDPGLLKRANAFFTHDPKEAALGAHALYTDVWTEKRLRDFQGFQVNGELLKLLRPEGVFLHCLPAHYGEETTEEAVHGPRSRVFDQAENRLHTAKAVLLTLLK 2ef4-a1-m5-cA_2ef4-a1-m6-cA Crystal structure of the arginase from thermus thermophilus Q5SI78 Q5SI78 2.3 X-RAY DIFFRACTION 32 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 282 282 2ef4-a1-m1-cA_2ef4-a1-m2-cA 2ef4-a1-m1-cA_2ef4-a1-m3-cA 2ef4-a1-m2-cA_2ef4-a1-m3-cA 2ef4-a1-m4-cA_2ef4-a1-m5-cA 2ef4-a1-m4-cA_2ef4-a1-m6-cA 2ef5-a1-m1-cA_2ef5-a1-m1-cF 2ef5-a1-m1-cB_2ef5-a1-m1-cE ERVAVVGVPMDLGANRRGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLARLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSPSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF ERVAVVGVPMDLGANRRGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLARLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSPSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF 2ef5-a1-m1-cD_2ef5-a1-m1-cE Crystal structure of the arginase from thermus thermophilus Q5SI78 Q5SI78 2 X-RAY DIFFRACTION 13 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 273 273 ERVAVVGVPMDLGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF ERVAVVGVPMDLGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF 2ef5-a1-m1-cE_2ef5-a1-m1-cG Crystal structure of the arginase from thermus thermophilus Q5SI78 Q5SI78 2 X-RAY DIFFRACTION 31 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 273 273 ERVAVVGVPMDLGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF ERVAVVGVPMDLGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF 2ef7-a1-m2-cB_2ef7-a1-m1-cA Crystal structure of ST2348, a hypothetical protein with CBS domains from Sulfolobus tokodaii strain7 Q96Y20 Q96Y20 2.1 X-RAY DIFFRACTION 27 0.983 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 120 121 2ef7-a1-m1-cB_2ef7-a1-m2-cA EIVKEYKTQVISVTKDAKLNDIAKVTEKNIGSVIVVDGNKPVGIITERDIVKAIGKGKSLETKAEEFTASLITIREDSPITGALALRQFNIRHLPVVDDKGNLKGIISIRDITRAIDDGE EEEIVKEYKTQVISVTKDAKLNDIAKVTEKNIGSVIVVDGNKPVGIITERDIVKAIGKGKSLETKAEEFTASLITIREDSPITGALALRQFNIRHLPVVDDKGNLKGIISIRDITRAIDDF 2ef7-a1-m2-cB_2ef7-a1-m2-cA Crystal structure of ST2348, a hypothetical protein with CBS domains from Sulfolobus tokodaii strain7 Q96Y20 Q96Y20 2.1 X-RAY DIFFRACTION 57 0.983 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 120 121 2ef7-a1-m1-cB_2ef7-a1-m1-cA EIVKEYKTQVISVTKDAKLNDIAKVTEKNIGSVIVVDGNKPVGIITERDIVKAIGKGKSLETKAEEFTASLITIREDSPITGALALRQFNIRHLPVVDDKGNLKGIISIRDITRAIDDGE EEEIVKEYKTQVISVTKDAKLNDIAKVTEKNIGSVIVVDGNKPVGIITERDIVKAIGKGKSLETKAEEFTASLITIREDSPITGALALRQFNIRHLPVVDDKGNLKGIISIRDITRAIDDF 2ef8-a1-m1-cB_2ef8-a1-m1-cA Crystal structure of C.EcoT38IS Q83VS9 Q83VS9 1.95 X-RAY DIFFRACTION 61 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 82 83 PTIHDHRYRLVQLLTKLRKEASLSQSELAIFLGLSQSDISKIESFERRLDALELFELLEVVASRLGLPMDILLKDTYESISK PTIHDHRYRLVQLLTKLRKEASLSQSELAIFLGLSQSDISKIESFERRLDALELFELLEVVASRLGLPMDILLKDTYESISKS 2efj-a1-m1-cA_2efj-a1-m2-cA The structure of 1,7 dimethylxanthine methyltransferase A4GE70 A4GE70 2 X-RAY DIFFRACTION 90 1.0 49390 (Coffea canephora) 49390 (Coffea canephora) 348 348 LQEVLHMNGTSYAKNSSYNLFLIRVKPVLEQCIQELLRANLPNINKCFKVGDLGCASGPNTFSTVRDIVQSIDKVPTIQIFLNDLFQNDFNSVFKLLPSFYRNLEKENGRKIGSCLIGAMPGSFYSRLFPEESMHFLHSCYCLHWLSQVPSGISVNKGCIYSSKASRPPIQKAYLDQFTKDFTTFLRIHSEELISRGRMLLTFICKEDEFDHPNSMDLLEMSINDLVIEGHLEEEKLDSFNVPIYAPSTEEVKRIVEEEGSFEILYLETFNAPYDAGFSISPVSCDEHARAAHVASVVRSIYEPILASHFGEAILPDLSHRIAKNAAKVLRSGKGFYDSVIISLAKKP LQEVLHMNGTSYAKNSSYNLFLIRVKPVLEQCIQELLRANLPNINKCFKVGDLGCASGPNTFSTVRDIVQSIDKVPTIQIFLNDLFQNDFNSVFKLLPSFYRNLEKENGRKIGSCLIGAMPGSFYSRLFPEESMHFLHSCYCLHWLSQVPSGISVNKGCIYSSKASRPPIQKAYLDQFTKDFTTFLRIHSEELISRGRMLLTFICKEDEFDHPNSMDLLEMSINDLVIEGHLEEEKLDSFNVPIYAPSTEEVKRIVEEEGSFEILYLETFNAPYDAGFSISPVSCDEHARAAHVASVVRSIYEPILASHFGEAILPDLSHRIAKNAAKVLRSGKGFYDSVIISLAKKP 2efk-a1-m1-cA_2efk-a1-m2-cA Crystal structure of the EFC domain of Cdc42-interacting protein 4 Q15642 Q15642 2.3 X-RAY DIFFRACTION 212 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 267 267 GQFEVLERHTQWGLDLLDRYVKFVKERTEVEQAYAKQLRSLVKKYLPKESKFSQQQSFVQILQEVNDFAGQRELVAENLSVRVCLELTKYSQEKQERKHFQEGRRAQQQLENGFKQLENSKRKFERDCREAEKAAQTAERLDQDINATKADVEKAKQQAHLRSHAEESKNEYAAQLQRFNRDQAHFYFSQPQIFDKLQDDERRATRLGAGYGLLSEAELEVVPIIAKCLEGKVAANAVDPKNDSHVLIELHKSGFARPGDVEFEDFS GQFEVLERHTQWGLDLLDRYVKFVKERTEVEQAYAKQLRSLVKKYLPKESKFSQQQSFVQILQEVNDFAGQRELVAENLSVRVCLELTKYSQEKQERKHFQEGRRAQQQLENGFKQLENSKRKFERDCREAEKAAQTAERLDQDINATKADVEKAKQQAHLRSHAEESKNEYAAQLQRFNRDQAHFYFSQPQIFDKLQDDERRATRLGAGYGLLSEAELEVVPIIAKCLEGKVAANAVDPKNDSHVLIELHKSGFARPGDVEFEDFS 2efl-a1-m1-cA_2efl-a1-m2-cA Crystal structure of the EFC domain of formin-binding protein 17 Q96RU3 Q96RU3 2.61 X-RAY DIFFRACTION 225 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 SWGTELWDQFDNLEKHTQWGIDILEKYIKFVKERTEIELSYAKQLRNLSKKYQPKEYKYTSCKAFISNLNENDYAGQHEVISENASQIIVDLARYVQELKQERKSNFHDGRKAQQHIETCWKQLESSKRRFERDCKEADRAQQYFEKDADINVTKADVEKARQQAQIRHQAEDSKADYSSILQKFNHEQHEYYHTHIPNIFQKIQEEERRIVRGESKTYAEVDRQVIPIIGKCLDGIVKAAESIDQKNDSQLVIEAYKSGFEPPGDIEFEDYT SWGTELWDQFDNLEKHTQWGIDILEKYIKFVKERTEIELSYAKQLRNLSKKYQPKEYKYTSCKAFISNLNENDYAGQHEVISENASQIIVDLARYVQELKQERKSNFHDGRKAQQHIETCWKQLESSKRRFERDCKEADRAQQYFEKDADINVTKADVEKARQQAQIRHQAEDSKADYSSILQKFNHEQHEYYHTHIPNIFQKIQEEERRIVRGESKTYAEVDRQVIPIIGKCLDGIVKAAESIDQKNDSQLVIEAYKSGFEPPGDIEFEDYT 2efv-a1-m1-cA_2efv-a1-m2-cA Crystal Structure of a Hypothetical Protein(MJ0366) from Methanocaldococcus jannaschii Q57812 Q57812 1.9 X-RAY DIFFRACTION 50 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 82 82 FMKEKKRATFYLYKNIDGRKLRYLLHKLENVENVDIDTLRRAIEAEKKYKRSITLTEEEEVIIQRLGKSANLLLNCELVKLD FMKEKKRATFYLYKNIDGRKLRYLLHKLENVENVDIDTLRRAIEAEKKYKRSITLTEEEEVIIQRLGKSANLLLNCELVKLD 2eg2-a2-m5-cA_2eg2-a2-m9-cA The crystal structure of PII protein O66513 O66513 1.72 X-RAY DIFFRACTION 70 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 95 95 2eg1-a1-m1-cA_2eg1-a1-m2-cA 2eg1-a1-m1-cA_2eg1-a1-m3-cA 2eg1-a1-m2-cA_2eg1-a1-m3-cA 2eg1-a2-m10-cA_2eg1-a2-m5-cA 2eg1-a2-m10-cA_2eg1-a2-m9-cA 2eg1-a2-m11-cA_2eg1-a2-m6-cA 2eg1-a2-m11-cA_2eg1-a2-m7-cA 2eg1-a2-m12-cA_2eg1-a2-m4-cA 2eg1-a2-m12-cA_2eg1-a2-m8-cA 2eg1-a2-m1-cA_2eg1-a2-m2-cA 2eg1-a2-m1-cA_2eg1-a2-m3-cA 2eg1-a2-m2-cA_2eg1-a2-m3-cA 2eg1-a2-m4-cA_2eg1-a2-m8-cA 2eg1-a2-m5-cA_2eg1-a2-m9-cA 2eg1-a2-m6-cA_2eg1-a2-m7-cA 2eg2-a1-m1-cA_2eg2-a1-m2-cA 2eg2-a1-m1-cA_2eg2-a1-m3-cA 2eg2-a1-m2-cA_2eg2-a1-m3-cA 2eg2-a2-m10-cA_2eg2-a2-m5-cA 2eg2-a2-m10-cA_2eg2-a2-m9-cA 2eg2-a2-m11-cA_2eg2-a2-m6-cA 2eg2-a2-m11-cA_2eg2-a2-m7-cA 2eg2-a2-m12-cA_2eg2-a2-m4-cA 2eg2-a2-m12-cA_2eg2-a2-m8-cA 2eg2-a2-m1-cA_2eg2-a2-m2-cA 2eg2-a2-m1-cA_2eg2-a2-m3-cA 2eg2-a2-m2-cA_2eg2-a2-m3-cA 2eg2-a2-m4-cA_2eg2-a2-m8-cA 2eg2-a2-m6-cA_2eg2-a2-m7-cA 2z0g-a1-m1-cA_2z0g-a1-m1-cB 2z0g-a1-m1-cA_2z0g-a1-m1-cC 2z0g-a1-m1-cB_2z0g-a1-m1-cC 2z0g-a2-m1-cD_2z0g-a2-m2-cD 2z0g-a2-m1-cD_2z0g-a2-m3-cD 2z0g-a2-m2-cD_2z0g-a2-m3-cD MKKIEAIIKPFKLDEVKDALVEIGIGGMTVTEVKGFDFLPKVKIEVVVRDEDVEKVVETIVKTAQTGRVGDGKIFIIPVEDVIRIRTGERGEQAI MKKIEAIIKPFKLDEVKDALVEIGIGGMTVTEVKGFDFLPKVKIEVVVRDEDVEKVVETIVKTAQTGRVGDGKIFIIPVEDVIRIRTGERGEQAI 2eg2-a2-m6-cA_2eg2-a2-m9-cA The crystal structure of PII protein O66513 O66513 1.72 X-RAY DIFFRACTION 14 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 95 95 2eg1-a2-m10-cA_2eg1-a2-m8-cA 2eg1-a2-m11-cA_2eg1-a2-m2-cA 2eg1-a2-m11-cA_2eg1-a2-m4-cA 2eg1-a2-m12-cA_2eg1-a2-m6-cA 2eg1-a2-m12-cA_2eg1-a2-m9-cA 2eg1-a2-m1-cA_2eg1-a2-m10-cA 2eg1-a2-m1-cA_2eg1-a2-m8-cA 2eg1-a2-m2-cA_2eg1-a2-m4-cA 2eg1-a2-m3-cA_2eg1-a2-m5-cA 2eg1-a2-m3-cA_2eg1-a2-m7-cA 2eg1-a2-m5-cA_2eg1-a2-m7-cA 2eg1-a2-m6-cA_2eg1-a2-m9-cA 2eg2-a2-m10-cA_2eg2-a2-m8-cA 2eg2-a2-m11-cA_2eg2-a2-m2-cA 2eg2-a2-m11-cA_2eg2-a2-m4-cA 2eg2-a2-m12-cA_2eg2-a2-m6-cA 2eg2-a2-m12-cA_2eg2-a2-m9-cA 2eg2-a2-m1-cA_2eg2-a2-m10-cA 2eg2-a2-m1-cA_2eg2-a2-m8-cA 2eg2-a2-m2-cA_2eg2-a2-m4-cA 2eg2-a2-m3-cA_2eg2-a2-m5-cA 2eg2-a2-m3-cA_2eg2-a2-m7-cA 2eg2-a2-m5-cA_2eg2-a2-m7-cA MKKIEAIIKPFKLDEVKDALVEIGIGGMTVTEVKGFDFLPKVKIEVVVRDEDVEKVVETIVKTAQTGRVGDGKIFIIPVEDVIRIRTGERGEQAI MKKIEAIIKPFKLDEVKDALVEIGIGGMTVTEVKGFDFLPKVKIEVVVRDEDVEKVVETIVKTAQTGRVGDGKIFIIPVEDVIRIRTGERGEQAI 2eg4-a3-m1-cB_2eg4-a3-m1-cA Crystal Structure of Probable Thiosulfate Sulfurtransferase Q5SHV8 Q5SHV8 1.7 X-RAY DIFFRACTION 27 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 228 230 2eg3-a3-m1-cB_2eg3-a3-m1-cA NLPEDAVLVDTRPRPAYEAGHLPGARHLDLSAPKLRLREEAELKALEGGLTELFQTLGLRSPVVLYDEGLTSRLCRTAFFLGLGGLEVQLWTEGWEPYATEKEEPKPERTEVVAKLRRDWLLTADEAARHPLLLDVRSPEEFQGKVHPPCCPRGGRIPGSKNAPLELFLSPEGLLERLGLQPGQEVGVYHSGARSAVAFFVLRSLGVRARNYLGSMHEWLQEGLPTEP MNLPEDAVLVDTRPRPAYEAGHLPGARHLDLSAPKLRLREEAELKALEGGLTELFQTLGLRSPVVLYDEGLTSRLCRTAFFLGLGGLEVQLWTEGWEPYATEKEEPKPERTEVVAKLRRDWLLTADEAARHPLLLDVRSPEEFQGKVHPPCCPRGGRIPGSKNAPLELFLSPEGLLERLGLQPGQEVGVYCHSGARSAVAFFVLRSLGVRARNYLGSMHEWLQEGLPTEP 2eg5-a2-m1-cG_2eg5-a2-m1-cE The structure of xanthosine methyltransferase A4GE69 A4GE69 2.2 X-RAY DIFFRACTION 82 1.0 49390 (Coffea canephora) 49390 (Coffea canephora) 343 346 2eg5-a1-m1-cA_2eg5-a1-m1-cC GDTSYAKNSAYNQLVLAKVKPVLEQCVRELLRANLPNINKCIKVADLGCASGPNTLLTVRDIVQSIDKVGQLERPTIQIFLNDLFPNDFNSVFKLLPSFYRKLEKENGRKIGSCLIGAMPGSFYSRLFPEESMHFLHSCYCLQWLSQVPSGLVTEIGTNKGSIYSSKASRLPVQKAYLDQFTKDFTTFLRIHSEELFSHGRMLLTCICKGVELDARNAIDLLEMAINDLVVEGHLEEEKLDSFNLPVYIPSAEEVKCIVEEEGSFEILYLETFKVLYDAGFSHIKAEYVASSVRAVYEPILASHFGEAIIPDIFHRFAKHAAKVLPLGKGFYNNLIISLAKKP GDTSYAKNSAYNQLVLAKVKPVLEQCVRELLRANLPNINKCIKVADLGCASGPNTLLTVRDIVQSIDKVGQLERPTIQIFLNDLFPNDFNSVFKLLPSFYRKLEKENGRKIGSCLIGAMPGSFYSRLFPEESMHFLHSCYCLQWLSQVPSGLVTELIGTNKGSIYSSKASRLPVQKAYLDQFTKDFTTFLRIHSEELFSHGRMLLTCICKGVELDARNAIDLLEMAINDLVVEGHLEEEKLDSFNLPVYIPSAEEVKCIVEEEGSFEILYLETFKVLYDAGFSIDHIKAEYVASSVRAVYEPILASHFGEAIIPDIFHRFAKHAAKVLPLGKGFYNNLIISLAKKP 2egd-a1-m1-cA_2egd-a1-m1-cB Crystal structure of human S100A13 in the Ca2+-bound state Q99584 Q99584 1.8 X-RAY DIFFRACTION 91 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 86 91 PLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKK LTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLKIR 2egg-a2-m2-cA_2egg-a2-m3-cA Crystal Structure of Shikimate 5-Dehydrogenase (AroE) from Geobacillus kaustophilus Q5KWX7 Q5KWX7 2.25 X-RAY DIFFRACTION 38 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 278 278 2egg-a2-m1-cA_2egg-a2-m2-cA 2egg-a2-m1-cA_2egg-a2-m3-cA GHMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRILVIGAGGGARGIYFSLLSTAAERIDMANRTVEKAERLVREGDERRSAYFSLAEAETRLAEYDIIINTTSVGMHPRVEVQPLSLERLRPGVIVSDIIYNPLETKWLKEAKARGARVQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALRR GHMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRILVIGAGGGARGIYFSLLSTAAERIDMANRTVEKAERLVREGDERRSAYFSLAEAETRLAEYDIIINTTSVGMHPRVEVQPLSLERLRPGVIVSDIIYNPLETKWLKEAKARGARVQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALRR 2egg-a2-m2-cB_2egg-a2-m3-cA Crystal Structure of Shikimate 5-Dehydrogenase (AroE) from Geobacillus kaustophilus Q5KWX7 Q5KWX7 2.25 X-RAY DIFFRACTION 31 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 166 278 2egg-a2-m1-cB_2egg-a2-m2-cA HMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRSDIIYNQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALR GHMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRILVIGAGGGARGIYFSLLSTAAERIDMANRTVEKAERLVREGDERRSAYFSLAEAETRLAEYDIIINTTSVGMHPRVEVQPLSLERLRPGVIVSDIIYNPLETKWLKEAKARGARVQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALRR 2egg-a2-m3-cB_2egg-a2-m1-cA Crystal Structure of Shikimate 5-Dehydrogenase (AroE) from Geobacillus kaustophilus Q5KWX7 Q5KWX7 2.25 X-RAY DIFFRACTION 31 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 166 278 HMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRSDIIYNQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALR GHMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRILVIGAGGGARGIYFSLLSTAAERIDMANRTVEKAERLVREGDERRSAYFSLAEAETRLAEYDIIINTTSVGMHPRVEVQPLSLERLRPGVIVSDIIYNPLETKWLKEAKARGARVQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALRR 2egg-a2-m3-cB_2egg-a2-m3-cA Crystal Structure of Shikimate 5-Dehydrogenase (AroE) from Geobacillus kaustophilus Q5KWX7 Q5KWX7 2.25 X-RAY DIFFRACTION 71 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 166 278 2egg-a1-m1-cB_2egg-a1-m1-cA 2egg-a2-m1-cB_2egg-a2-m1-cA 2egg-a2-m2-cB_2egg-a2-m2-cA HMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRSDIIYNQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALR GHMEKVYGLIGFPVEHSLSPLMHNDAFARLGIPARYHLFSVEPGQVGAAIAGVRALGIAGVNVTIPHKLAVIPFLDEVDEHARRIGAVNTIINNDGRLVGYNTDGLGYVQALEEEMNITLDGKRILVIGAGGGARGIYFSLLSTAAERIDMANRTVEKAERLVREGDERRSAYFSLAEAETRLAEYDIIINTTSVGMHPRVEVQPLSLERLRPGVIVSDIIYNPLETKWLKEAKARGARVQNGVGMLVYQGALAFEKWTGQWPDVNRMKQLVIEALRR 2egl-a3-m1-cB_2egl-a3-m4-cA Crystal structure of Glu171 to Lys mutant of Diphthine synthase O58456 O58456 1.8 X-RAY DIFFRACTION 25 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 265 265 2e7r-a3-m1-cA_2e7r-a3-m5-cB 2e7r-a3-m3-cA_2e7r-a3-m4-cB 2eeq-a3-m1-cB_2eeq-a3-m4-cA 2eeq-a3-m2-cB_2eeq-a3-m3-cA 2egl-a3-m2-cB_2egl-a3-m3-cA 2eh2-a3-m1-cB_2eh2-a3-m4-cA 2eh2-a3-m2-cB_2eh2-a3-m3-cA 2ehl-a2-m1-cB_2ehl-a2-m4-cA 2ehl-a2-m2-cB_2ehl-a2-m3-cA MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPTSYYDVIKENAERGLHTLLFLDIKAKKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPTSYYDVIKENAERGLHTLLFLDIKAKKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV 2ego-a1-m1-cA_2ego-a1-m1-cB Crystal Structure of Tamalin PDZ Domain Q8R4T5 Q8R4T5 1.8 X-RAY DIFFRACTION 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 88 90 2egn-a1-m1-cA_2egn-a1-m2-cA SQQRKVLTLEKGDNQTFGFEIQTYGLVEMVTFVARVHESSPAQLAGLTPGDTIASVNGLNVEGIRHREIVDIIKASGNVLRLETLYGT SQQRKVLTLEKGDNQTFGFEIQTYGLHHVEMVTFVARVHESSPAQLAGLTPGDTIASVNGLNVEGIRHREIVDIIKASGNVLRLETLYGT 2egr-a1-m1-cA_2egr-a1-m2-cB Crystal Structure of Hypothetical Protein(AQ1494) from Aquifex aeolicus O67466 O67466 1.8 X-RAY DIFFRACTION 30 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 126 126 2egi-a1-m1-cG_2egi-a1-m1-cA 2egi-a1-m1-cH_2egi-a1-m1-cC 2egi-a2-m1-cD_2egi-a2-m1-cE 2egi-a2-m1-cI_2egi-a2-m1-cF 2egj-a1-m1-cA_2egj-a1-m2-cA 2egj-a1-m1-cB_2egj-a1-m2-cB 2egr-a1-m1-cB_2egr-a1-m2-cA PFIYRRRVQFYETDAQGIVHHSNYFRYFEEARGEFLRSKGFPYSKMRDMGLEVVLLNAYCEYKKPLFYDDVFEVHLNLEELSRFTFTFSYIVFKEDIAVAKANTKHCMVKNGKIVSIPKEVLEVLK PFIYRRRVQFYETDAQGIVHHSNYFRYFEEARGEFLRSKGFPYSKMRDMGLEVVLLNAYCEYKKPLFYDDVFEVHLNLEELSRFTFTFSYIVFKEDIAVAKANTKHCMVKNGKIVSIPKEVLEVLK 2egr-a1-m1-cB_2egr-a1-m2-cB Crystal Structure of Hypothetical Protein(AQ1494) from Aquifex aeolicus O67466 O67466 1.8 X-RAY DIFFRACTION 39 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 126 126 2egi-a1-m1-cA_2egi-a1-m1-cC 2egi-a2-m1-cF_2egi-a2-m1-cD 2egi-a2-m1-cI_2egi-a2-m1-cE 2egj-a1-m1-cA_2egj-a1-m1-cB 2egj-a1-m2-cA_2egj-a1-m2-cB 2egr-a1-m1-cA_2egr-a1-m2-cA PFIYRRRVQFYETDAQGIVHHSNYFRYFEEARGEFLRSKGFPYSKMRDMGLEVVLLNAYCEYKKPLFYDDVFEVHLNLEELSRFTFTFSYIVFKEDIAVAKANTKHCMVKNGKIVSIPKEVLEVLK PFIYRRRVQFYETDAQGIVHHSNYFRYFEEARGEFLRSKGFPYSKMRDMGLEVVLLNAYCEYKKPLFYDDVFEVHLNLEELSRFTFTFSYIVFKEDIAVAKANTKHCMVKNGKIVSIPKEVLEVLK 2egr-a1-m2-cA_2egr-a1-m2-cB Crystal Structure of Hypothetical Protein(AQ1494) from Aquifex aeolicus O67466 O67466 1.8 X-RAY DIFFRACTION 24 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 126 126 2egi-a1-m1-cG_2egi-a1-m1-cC 2egi-a1-m1-cH_2egi-a1-m1-cA 2egi-a2-m1-cF_2egi-a2-m1-cE 2egi-a2-m1-cI_2egi-a2-m1-cD 2egj-a1-m1-cA_2egj-a1-m2-cB 2egj-a1-m1-cB_2egj-a1-m2-cA 2egr-a1-m1-cA_2egr-a1-m1-cB PFIYRRRVQFYETDAQGIVHHSNYFRYFEEARGEFLRSKGFPYSKMRDMGLEVVLLNAYCEYKKPLFYDDVFEVHLNLEELSRFTFTFSYIVFKEDIAVAKANTKHCMVKNGKIVSIPKEVLEVLK PFIYRRRVQFYETDAQGIVHHSNYFRYFEEARGEFLRSKGFPYSKMRDMGLEVVLLNAYCEYKKPLFYDDVFEVHLNLEELSRFTFTFSYIVFKEDIAVAKANTKHCMVKNGKIVSIPKEVLEVLK 2egu-a2-m1-cA_2egu-a2-m2-cA Crystal structure of O-acetylserine sulfhydrase from Geobacillus kaustophilus HTA426 Q5L3S8 Q5L3S8 1.9 X-RAY DIFFRACTION 175 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 271 271 MARTVNSITELIGDTPAVKLNRIVDEDSADVYLKLEFMNPGSSVKDRIALAMIEAAEKAGKLKPGDTIVEPTSGNTGIGLAMVAAAKGYKAVLVMPDTMSLERRNLLRAYGAELVLTPGAQGMRGAIAKAEELVREHGYFMPTTGKEIVEQMGDQLDAFVAGVGTGGTITGAGKVLREAYPNIKIYAVEPADDILDTSIYDGVITVTTEEAFAAARRAAREEGILGGISSGAAIHAALKVAKELGKGKKVLAIIPSNGERYLSTPLYQFED MARTVNSITELIGDTPAVKLNRIVDEDSADVYLKLEFMNPGSSVKDRIALAMIEAAEKAGKLKPGDTIVEPTSGNTGIGLAMVAAAKGYKAVLVMPDTMSLERRNLLRAYGAELVLTPGAQGMRGAIAKAEELVREHGYFMPTTGKEIVEQMGDQLDAFVAGVGTGGTITGAGKVLREAYPNIKIYAVEPADDILDTSIYDGVITVTTEEAFAAARRAAREEGILGGISSGAAIHAALKVAKELGKGKKVLAIIPSNGERYLSTPLYQFED 2egu-a3-m1-cA_2egu-a3-m3-cA Crystal structure of O-acetylserine sulfhydrase from Geobacillus kaustophilus HTA426 Q5L3S8 Q5L3S8 1.9 X-RAY DIFFRACTION 55 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 271 271 MARTVNSITELIGDTPAVKLNRIVDEDSADVYLKLEFMNPGSSVKDRIALAMIEAAEKAGKLKPGDTIVEPTSGNTGIGLAMVAAAKGYKAVLVMPDTMSLERRNLLRAYGAELVLTPGAQGMRGAIAKAEELVREHGYFMPTTGKEIVEQMGDQLDAFVAGVGTGGTITGAGKVLREAYPNIKIYAVEPADDILDTSIYDGVITVTTEEAFAAARRAAREEGILGGISSGAAIHAALKVAKELGKGKKVLAIIPSNGERYLSTPLYQFED MARTVNSITELIGDTPAVKLNRIVDEDSADVYLKLEFMNPGSSVKDRIALAMIEAAEKAGKLKPGDTIVEPTSGNTGIGLAMVAAAKGYKAVLVMPDTMSLERRNLLRAYGAELVLTPGAQGMRGAIAKAEELVREHGYFMPTTGKEIVEQMGDQLDAFVAGVGTGGTITGAGKVLREAYPNIKIYAVEPADDILDTSIYDGVITVTTEEAFAAARRAAREEGILGGISSGAAIHAALKVAKELGKGKKVLAIIPSNGERYLSTPLYQFED 2egv-a1-m1-cA_2egv-a1-m1-cB Crystal structure of rRNA methyltransferase with SAM ligand O66552 O66552 1.45 X-RAY DIFFRACTION 99 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 229 229 2egw-a1-m1-cA_2egw-a1-m1-cB MHVFYSEERRGNLLILREGEVKHFRVRRIEKDEEFGVIHEGKIYVCKVRREDKREISCEIVEELETKLPPKDITLYQSVTVDLKTMDTIVRQATELGVLTFVPIISERSFQKEEAILKKTEKWKRIVIEAMKQSRRPIPMEIKKPVRLSDLIPESEENIILDNFYEGVKPKDVNLEAKTYSVVVGPEGGFSKRESQILREKGFKSVLLEPYTLRTETAVVSIVSILMNF MHVFYSEERRGNLLILREGEVKHFRVRRIEKDEEFGVIHEGKIYVCKVRREDKREISCEIVEELETKLPPKDITLYQSVTVDLKTMDTIVRQATELGVLTFVPIISERSFQKEEAILKKTEKWKRIVIEAMKQSRRPIPMEIKKPVRLSDLIPESEENIILDNFYEGVKPKDVNLEAKTYSVVVGPEGGFSKRESQILREKGFKSVLLEPYTLRTETAVVSIVSILMNF 2egz-a1-m1-cA_2egz-a1-m1-cC Crystal structure of the 3-dehydroquinate dehydratase from Aquifex aeolicus VF5 O66440 O66440 1.75 X-RAY DIFFRACTION 16 0.995 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 216 218 MLIAVPLDDTNFSENLKKAKEKGADIVELRVDQFSDTSLNYVKEKLEEVHSQGLKTILTIRSPEEGGREVKNREELFEELSPLSDYTDIELSSRGLLVKLYNITKEAGKKLIISYHNFELTPPNWIIREVLREGYRYGGIPKIAVKANSYEDVARLLCISRQVEGEKILISMGDYGKISRLAGYVFGSVITYCSLEAPGQIPLEEMVELRKKFYRL MLIAVPLDDTNFSENLKKAKEKGADIVELRVDQFSDTSLNYVKEKLEEVHSQGLKTILTIRSPEEGGREVKNREELFEELSPLSDYTDIELSSRGLLVKLYNITKEAGKKLIISYHNFELTPPNWIIREVLREGYRYGGIPKIAVKANSYEDVARLLCISRQVEGEKILISMGDYGKISRLAGYVFGSVITYCSLKAFAPGQIPLEEMVELRKKFYRL 2eh3-a1-m1-cA_2eh3-a1-m2-cA Crystal structure of aq_1058, a transcriptional regulator (TerR/AcrR family) from Aquifex aeolicus VF5 O67157 O67157 1.55 X-RAY DIFFRACTION 60 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 170 170 GTKERILEVSKELFFEKGYQGTSVEEIVKRANLSKGAFYFHFKSKEELITEIIERTHKKIISLFEENKEKTPEELLEFLEVLYREKKVVYIFLFDLLCSEKFRNIYFEKIEDAKRRFEKFLEKHFPSKAEILSEIILGFLRQLILHYVIKEERELPFLKEKLREGLKLIF GTKERILEVSKELFFEKGYQGTSVEEIVKRANLSKGAFYFHFKSKEELITEIIERTHKKIISLFEENKEKTPEELLEFLEVLYREKKVVYIFLFDLLCSEKFRNIYFEKIEDAKRRFEKFLEKHFPSKAEILSEIILGFLRQLILHYVIKEERELPFLKEKLREGLKLIF 2eh6-a1-m1-cA_2eh6-a1-m1-cB Crystal structure of acetylornithine aminotransferase from Aquifex aeolicus VF5 O66442 O66442 1.9 X-RAY DIFFRACTION 322 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 375 375 TYLMNNYARLPVKFVRGKGVYLYDEEGKEYLDFVSGIGVNSLGHAYPKLTEALKEQVEKLLHVSNLYENPWQEELAHKLVKHFWTEGKVFFANSGTESVEAAIKLARKYWRDKGKNKWKFISFENSFHGRTYGSLSATGQPKFHKGFEPLVPGFSYAKLNDIDSVYKLLDEETAGIIIEVIQGEGGVNEASEDFLSKLQEICKEKDVLLIIDEVQTGIGRTGEFYAYQHFNLKPDVIALAKGLGGGVPIGAILAREEVAQSFTPGSHGSTFGGNPLACRAGTVVVDEVEKLLPHVREVGNYFKEKLKELGKGKVKGRGLMLGLELERECKDYVLKALEKGLLINCTAGKVLRFLPPLIIQKEHIDRAISVLREIL TYLMNNYARLPVKFVRGKGVYLYDEEGKEYLDFVSGIGVNSLGHAYPKLTEALKEQVEKLLHVSNLYENPWQEELAHKLVKHFWTEGKVFFANSGTESVEAAIKLARKYWRDKGKNKWKFISFENSFHGRTYGSLSATGQPKFHKGFEPLVPGFSYAKLNDIDSVYKLLDEETAGIIIEVIQGEGGVNEASEDFLSKLQEICKEKDVLLIIDEVQTGIGRTGEFYAYQHFNLKPDVIALAKGLGGGVPIGAILAREEVAQSFTPGSHGSTFGGNPLACRAGTVVVDEVEKLLPHVREVGNYFKEKLKELGKGKVKGRGLMLGLELERECKDYVLKALEKGLLINCTAGKVLRFLPPLIIQKEHIDRAISVLREIL 2eh9-a2-m1-cA_2eh9-a2-m2-cA Crystal structure of the HBAF250B at-rich interaction domain (ARID) Q8NFD5 Q8NFD5 2 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 EKITKVYELGNEPERKLWVDRYLTFEERGSPVSSLPAVGKKPLDLFRLYVCVKEIGGLAQVNKNKKWRELATNLNVGTSSSAASSLKKQYIQYLFAFECKIERGEEPPP EKITKVYELGNEPERKLWVDRYLTFEERGSPVSSLPAVGKKPLDLFRLYVCVKEIGGLAQVNKNKKWRELATNLNVGTSSSAASSLKKQYIQYLFAFECKIERGEEPPP 2ehd-a2-m1-cB_2ehd-a2-m2-cB Crystal Structure Analysis of Oxidoreductase Q5SK86 Q5SK86 2.4 X-RAY DIFFRACTION 76 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 213 213 2ehd-a2-m1-cA_2ehd-a2-m2-cA EGMKGAVLITGASRGIGEATARLLHAKGYRVGLMARDEKRLQALAAELEGALPLPGDVREEGDWARAVAAMEEAFGELSALVNNAGVGVMKPVHELTLEEWRLVLDTNLTGAFLGIRHAVPALLRRGGGTIVNVGSLAGKNPFKGGAAYNASKFGLLGLAGAAMLDLREANVRVVNVLPGSVKLKPEDVAQAVLFALEMPGHAMVSEIELRPT EGMKGAVLITGASRGIGEATARLLHAKGYRVGLMARDEKRLQALAAELEGALPLPGDVREEGDWARAVAAMEEAFGELSALVNNAGVGVMKPVHELTLEEWRLVLDTNLTGAFLGIRHAVPALLRRGGGTIVNVGSLAGKNPFKGGAAYNASKFGLLGLAGAAMLDLREANVRVVNVLPGSVKLKPEDVAQAVLFALEMPGHAMVSEIELRPT 2ehd-a2-m2-cA_2ehd-a2-m2-cB Crystal Structure Analysis of Oxidoreductase Q5SK86 Q5SK86 2.4 X-RAY DIFFRACTION 151 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 207 213 2ehd-a1-m1-cA_2ehd-a1-m1-cB 2ehd-a2-m1-cA_2ehd-a2-m1-cB MKGAVLITGASRGIGEATARLLHAKGYRVGLMARDEKRLQALAAELEGALPLPGDVREEGDWARAVAAMEEAFGELSALVNNAGVGVMKPVHELTLEEWRLVLDTNLTGAFLGIRHAVPALLRRGGGTIVNVGSLAGKNPFKGGAAYNASKFGLLGLAGAAMLDLREANVRVVNVLPGLKPEDVAQAVLFALEMPGHAMVSEIELRP EGMKGAVLITGASRGIGEATARLLHAKGYRVGLMARDEKRLQALAAELEGALPLPGDVREEGDWARAVAAMEEAFGELSALVNNAGVGVMKPVHELTLEEWRLVLDTNLTGAFLGIRHAVPALLRRGGGTIVNVGSLAGKNPFKGGAAYNASKFGLLGLAGAAMLDLREANVRVVNVLPGSVKLKPEDVAQAVLFALEMPGHAMVSEIELRPT 2ehh-a1-m1-cA_2ehh-a1-m1-cE Crystal structure of dihydrodipicolinate synthase from aquifex aeolicus O67216 O67216 1.9 X-RAY DIFFRACTION 61 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 294 294 2ehh-a1-m1-cC_2ehh-a1-m1-cD MFQGSIVALITPFKEGEVDYEALGNLIEFHVDNGTDAILVCGTTGESPTLTFEEHEKVIEFAVKRAAGRIKVIAGTGGNATHEAVHLTAHAKEVGADGALVVVPYYNKPTQRGLYEHFKTVAQEVDIPIIIYNIPSRTCVEISVDTMFKLASECENIVASKESTPNMDRISEIVKRLGESFSVLSGDDSLTLPMMALGAKGVISVANNVMPREVKELIRAALEGDFRRAREIHYYLHDLFKVLFIETNPIPVKTACWMLGMCEKEFRLPLTEMSPENENKLREVLKKYNLPLKN MFQGSIVALITPFKEGEVDYEALGNLIEFHVDNGTDAILVCGTTGESPTLTFEEHEKVIEFAVKRAAGRIKVIAGTGGNATHEAVHLTAHAKEVGADGALVVVPYYNKPTQRGLYEHFKTVAQEVDIPIIIYNIPSRTCVEISVDTMFKLASECENIVASKESTPNMDRISEIVKRLGESFSVLSGDDSLTLPMMALGAKGVISVANNVMPREVKELIRAALEGDFRRAREIHYYLHDLFKVLFIETNPIPVKTACWMLGMCEKEFRLPLTEMSPENENKLREVLKKYNLPLKN 2ehh-a1-m1-cD_2ehh-a1-m1-cE Crystal structure of dihydrodipicolinate synthase from aquifex aeolicus O67216 O67216 1.9 X-RAY DIFFRACTION 116 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 293 294 2ehh-a1-m1-cC_2ehh-a1-m1-cA FQGSIVALITPFKEGEVDYEALGNLIEFHVDNGTDAILVCGTTGESPTLTFEEHEKVIEFAVKRAAGRIKVIAGTGGNATHEAVHLTAHAKEVGADGALVVVPYYNKPTQRGLYEHFKTVAQEVDIPIIIYNIPSRTCVEISVDTMFKLASECENIVASKESTPNMDRISEIVKRLGESFSVLSGDDSLTLPMMALGAKGVISVANNVMPREVKELIRAALEGDFRRAREIHYYLHDLFKVLFIETNPIPVKTACWMLGMCEKEFRLPLTEMSPENENKLREVLKKYNLPLKN MFQGSIVALITPFKEGEVDYEALGNLIEFHVDNGTDAILVCGTTGESPTLTFEEHEKVIEFAVKRAAGRIKVIAGTGGNATHEAVHLTAHAKEVGADGALVVVPYYNKPTQRGLYEHFKTVAQEVDIPIIIYNIPSRTCVEISVDTMFKLASECENIVASKESTPNMDRISEIVKRLGESFSVLSGDDSLTLPMMALGAKGVISVANNVMPREVKELIRAALEGDFRRAREIHYYLHDLFKVLFIETNPIPVKTACWMLGMCEKEFRLPLTEMSPENENKLREVLKKYNLPLKN 2ehl-a2-m2-cB_2ehl-a2-m4-cA Crystal structure of Thr146 to Arg mutant of Diphthine synthase O58456 O58456 1.6 X-RAY DIFFRACTION 11 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 265 265 2eh2-a3-m1-cB_2eh2-a3-m3-cA 2eh2-a3-m2-cB_2eh2-a3-m4-cA 2ehl-a2-m1-cB_2ehl-a2-m3-cA MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPRSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQKLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPRSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV 2ehw-a5-m1-cC_2ehw-a5-m2-cD Conserved hypothetical proteim (TTHB059) from Thermo thermophilus HB8 Q53WA3 Q53WA3 2.22 X-RAY DIFFRACTION 20 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 115 115 2ehw-a5-m1-cD_2ehw-a5-m2-cC 2ehw-a6-m1-cA_2ehw-a6-m3-cA 2ehw-a6-m1-cB_2ehw-a6-m3-cB ACHELSALRIAIGELLEKEAHDLLHEREELAPVLGQRPELKRLAEAKTLPALEEALREALLHLEERAAQEPEEPYWRGLLLAVEAEGRLKALRAEAEALYQDLDALHGRLHRLFP ACHELSALRIAIGELLEKEAHDLLHEREELAPVLGQRPELKRLAEAKTLPALEEALREALLHLEERAAQEPEEPYWRGLLLAVEAEGRLKALRAEAEALYQDLDALHGRLHRLFP 2ehw-a6-m1-cA_2ehw-a6-m3-cB Conserved hypothetical proteim (TTHB059) from Thermo thermophilus HB8 Q53WA3 Q53WA3 2.22 X-RAY DIFFRACTION 106 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 114 114 2ehw-a5-m1-cC_2ehw-a5-m2-cC 2ehw-a5-m1-cD_2ehw-a5-m2-cD 2ehw-a6-m1-cB_2ehw-a6-m3-cA CHELSALRIAIGELLEKEAHDLLHEREELAPVLGQRPELKRLAEAKTLPALEEALREALLHLEERAAQEPEEPYWRGLLLAVEAEGRLKALRAEAEALYQDLDALHGRLHRLFP CHELSALRIAIGELLEKEAHDLLHEREELAPVLGQRPELKRLAEAKTLPALEEALREALLHLEERAAQEPEEPYWRGLLLAVEAEGRLKALRAEAEALYQDLDALHGRLHRLFP 2ehw-a6-m3-cA_2ehw-a6-m3-cB Conserved hypothetical proteim (TTHB059) from Thermo thermophilus HB8 Q53WA3 Q53WA3 2.22 X-RAY DIFFRACTION 41 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 114 114 2ehw-a5-m1-cC_2ehw-a5-m1-cD 2ehw-a5-m2-cC_2ehw-a5-m2-cD 2ehw-a6-m1-cA_2ehw-a6-m1-cB CHELSALRIAIGELLEKEAHDLLHEREELAPVLGQRPELKRLAEAKTLPALEEALREALLHLEERAAQEPEEPYWRGLLLAVEAEGRLKALRAEAEALYQDLDALHGRLHRLFP CHELSALRIAIGELLEKEAHDLLHEREELAPVLGQRPELKRLAEAKTLPALEEALREALLHLEERAAQEPEEPYWRGLLLAVEAEGRLKALRAEAEALYQDLDALHGRLHRLFP 2ehz-a1-m2-cA_2ehz-a1-m8-cA Anaerobic Crystal Structure Analysis of 1,2-dihydroxynaphthalene dioxygenase from Pseudomonas sp. strain C18 complexed with 4-methylcatechol P0A108 P0A108 1.35 X-RAY DIFFRACTION 29 1.0 69011 (Pseudomonas sp. C18) 69011 (Pseudomonas sp. C18) 299 299 2ehz-a1-m1-cA_2ehz-a1-m7-cA 2ehz-a1-m3-cA_2ehz-a1-m5-cA 2ehz-a1-m4-cA_2ehz-a1-m6-cA 2ei0-a1-m1-cA_2ei0-a1-m7-cA 2ei0-a1-m2-cA_2ei0-a1-m8-cA 2ei0-a1-m3-cA_2ei0-a1-m5-cA 2ei0-a1-m4-cA_2ei0-a1-m6-cA 2ei1-a1-m1-cA_2ei1-a1-m7-cA 2ei1-a1-m2-cA_2ei1-a1-m8-cA 2ei1-a1-m3-cA_2ei1-a1-m5-cA 2ei1-a1-m4-cA_2ei1-a1-m6-cA 2ei2-a1-m1-cA_2ei2-a1-m7-cA 2ei2-a1-m2-cA_2ei2-a1-m8-cA 2ei2-a1-m3-cA_2ei2-a1-m5-cA 2ei2-a1-m4-cA_2ei2-a1-m6-cA 2ei3-a1-m1-cA_2ei3-a1-m7-cA 2ei3-a1-m2-cA_2ei3-a1-m8-cA 2ei3-a1-m3-cA_2ei3-a1-m5-cA 2ei3-a1-m4-cA_2ei3-a1-m6-cA QAAVIELGYMGISVKDPDAWKSFATDMLGLQVLDEGEKDRFYLRMDYWHHRIVVHHNGQDDLEYLGWRVAGKPEFEALGQKLIDAGYKIRICDKVEAQERMVLGLMKTEDPGGNPTEIFWGPRIDMSNPFHPGRPLHGKFVTGDQGLGHCIVRQTDVAEAHKFYSLLGFRGDVEYRIPLPNGMTAELSFMHCNARDHSIAFGAMPAAKRLNHLMLEYTHMEDLGYTHQQFVKNEIDIALQLGIHANDKALTFYGATPSGWLIEPGWRGATAIDEAEYYVGDIFGHGVEATGYGLDVKLS QAAVIELGYMGISVKDPDAWKSFATDMLGLQVLDEGEKDRFYLRMDYWHHRIVVHHNGQDDLEYLGWRVAGKPEFEALGQKLIDAGYKIRICDKVEAQERMVLGLMKTEDPGGNPTEIFWGPRIDMSNPFHPGRPLHGKFVTGDQGLGHCIVRQTDVAEAHKFYSLLGFRGDVEYRIPLPNGMTAELSFMHCNARDHSIAFGAMPAAKRLNHLMLEYTHMEDLGYTHQQFVKNEIDIALQLGIHANDKALTFYGATPSGWLIEPGWRGATAIDEAEYYVGDIFGHGVEATGYGLDVKLS 2ehz-a1-m3-cA_2ehz-a1-m8-cA Anaerobic Crystal Structure Analysis of 1,2-dihydroxynaphthalene dioxygenase from Pseudomonas sp. strain C18 complexed with 4-methylcatechol P0A108 P0A108 1.35 X-RAY DIFFRACTION 22 1.0 69011 (Pseudomonas sp. C18) 69011 (Pseudomonas sp. C18) 299 299 2ehz-a1-m1-cA_2ehz-a1-m5-cA 2ehz-a1-m2-cA_2ehz-a1-m6-cA 2ehz-a1-m4-cA_2ehz-a1-m7-cA 2ei0-a1-m1-cA_2ei0-a1-m5-cA 2ei0-a1-m2-cA_2ei0-a1-m6-cA 2ei0-a1-m3-cA_2ei0-a1-m8-cA 2ei0-a1-m4-cA_2ei0-a1-m7-cA 2ei1-a1-m1-cA_2ei1-a1-m5-cA 2ei1-a1-m2-cA_2ei1-a1-m6-cA 2ei1-a1-m3-cA_2ei1-a1-m8-cA 2ei1-a1-m4-cA_2ei1-a1-m7-cA 2ei2-a1-m1-cA_2ei2-a1-m5-cA 2ei2-a1-m2-cA_2ei2-a1-m6-cA 2ei2-a1-m3-cA_2ei2-a1-m8-cA 2ei2-a1-m4-cA_2ei2-a1-m7-cA 2ei3-a1-m1-cA_2ei3-a1-m5-cA 2ei3-a1-m2-cA_2ei3-a1-m6-cA 2ei3-a1-m3-cA_2ei3-a1-m8-cA 2ei3-a1-m4-cA_2ei3-a1-m7-cA QAAVIELGYMGISVKDPDAWKSFATDMLGLQVLDEGEKDRFYLRMDYWHHRIVVHHNGQDDLEYLGWRVAGKPEFEALGQKLIDAGYKIRICDKVEAQERMVLGLMKTEDPGGNPTEIFWGPRIDMSNPFHPGRPLHGKFVTGDQGLGHCIVRQTDVAEAHKFYSLLGFRGDVEYRIPLPNGMTAELSFMHCNARDHSIAFGAMPAAKRLNHLMLEYTHMEDLGYTHQQFVKNEIDIALQLGIHANDKALTFYGATPSGWLIEPGWRGATAIDEAEYYVGDIFGHGVEATGYGLDVKLS QAAVIELGYMGISVKDPDAWKSFATDMLGLQVLDEGEKDRFYLRMDYWHHRIVVHHNGQDDLEYLGWRVAGKPEFEALGQKLIDAGYKIRICDKVEAQERMVLGLMKTEDPGGNPTEIFWGPRIDMSNPFHPGRPLHGKFVTGDQGLGHCIVRQTDVAEAHKFYSLLGFRGDVEYRIPLPNGMTAELSFMHCNARDHSIAFGAMPAAKRLNHLMLEYTHMEDLGYTHQQFVKNEIDIALQLGIHANDKALTFYGATPSGWLIEPGWRGATAIDEAEYYVGDIFGHGVEATGYGLDVKLS 2ehz-a1-m6-cA_2ehz-a1-m8-cA Anaerobic Crystal Structure Analysis of 1,2-dihydroxynaphthalene dioxygenase from Pseudomonas sp. strain C18 complexed with 4-methylcatechol P0A108 P0A108 1.35 X-RAY DIFFRACTION 44 1.0 69011 (Pseudomonas sp. C18) 69011 (Pseudomonas sp. C18) 299 299 2ehz-a1-m1-cA_2ehz-a1-m3-cA 2ehz-a1-m1-cA_2ehz-a1-m4-cA 2ehz-a1-m2-cA_2ehz-a1-m3-cA 2ehz-a1-m2-cA_2ehz-a1-m4-cA 2ehz-a1-m5-cA_2ehz-a1-m7-cA 2ehz-a1-m5-cA_2ehz-a1-m8-cA 2ehz-a1-m6-cA_2ehz-a1-m7-cA 2ei0-a1-m1-cA_2ei0-a1-m3-cA 2ei0-a1-m1-cA_2ei0-a1-m4-cA 2ei0-a1-m2-cA_2ei0-a1-m3-cA 2ei0-a1-m2-cA_2ei0-a1-m4-cA 2ei0-a1-m5-cA_2ei0-a1-m7-cA 2ei0-a1-m5-cA_2ei0-a1-m8-cA 2ei0-a1-m6-cA_2ei0-a1-m7-cA 2ei0-a1-m6-cA_2ei0-a1-m8-cA 2ei1-a1-m1-cA_2ei1-a1-m3-cA 2ei1-a1-m1-cA_2ei1-a1-m4-cA 2ei1-a1-m2-cA_2ei1-a1-m3-cA 2ei1-a1-m2-cA_2ei1-a1-m4-cA 2ei1-a1-m5-cA_2ei1-a1-m7-cA 2ei1-a1-m5-cA_2ei1-a1-m8-cA 2ei1-a1-m6-cA_2ei1-a1-m7-cA 2ei1-a1-m6-cA_2ei1-a1-m8-cA 2ei2-a1-m1-cA_2ei2-a1-m3-cA 2ei2-a1-m1-cA_2ei2-a1-m4-cA 2ei2-a1-m2-cA_2ei2-a1-m3-cA 2ei2-a1-m2-cA_2ei2-a1-m4-cA 2ei2-a1-m5-cA_2ei2-a1-m7-cA 2ei2-a1-m5-cA_2ei2-a1-m8-cA 2ei2-a1-m6-cA_2ei2-a1-m7-cA 2ei2-a1-m6-cA_2ei2-a1-m8-cA 2ei3-a1-m1-cA_2ei3-a1-m3-cA 2ei3-a1-m1-cA_2ei3-a1-m4-cA 2ei3-a1-m2-cA_2ei3-a1-m3-cA 2ei3-a1-m2-cA_2ei3-a1-m4-cA 2ei3-a1-m5-cA_2ei3-a1-m7-cA 2ei3-a1-m5-cA_2ei3-a1-m8-cA 2ei3-a1-m6-cA_2ei3-a1-m7-cA 2ei3-a1-m6-cA_2ei3-a1-m8-cA QAAVIELGYMGISVKDPDAWKSFATDMLGLQVLDEGEKDRFYLRMDYWHHRIVVHHNGQDDLEYLGWRVAGKPEFEALGQKLIDAGYKIRICDKVEAQERMVLGLMKTEDPGGNPTEIFWGPRIDMSNPFHPGRPLHGKFVTGDQGLGHCIVRQTDVAEAHKFYSLLGFRGDVEYRIPLPNGMTAELSFMHCNARDHSIAFGAMPAAKRLNHLMLEYTHMEDLGYTHQQFVKNEIDIALQLGIHANDKALTFYGATPSGWLIEPGWRGATAIDEAEYYVGDIFGHGVEATGYGLDVKLS QAAVIELGYMGISVKDPDAWKSFATDMLGLQVLDEGEKDRFYLRMDYWHHRIVVHHNGQDDLEYLGWRVAGKPEFEALGQKLIDAGYKIRICDKVEAQERMVLGLMKTEDPGGNPTEIFWGPRIDMSNPFHPGRPLHGKFVTGDQGLGHCIVRQTDVAEAHKFYSLLGFRGDVEYRIPLPNGMTAELSFMHCNARDHSIAFGAMPAAKRLNHLMLEYTHMEDLGYTHQQFVKNEIDIALQLGIHANDKALTFYGATPSGWLIEPGWRGATAIDEAEYYVGDIFGHGVEATGYGLDVKLS 2eig-a1-m1-cA_2eig-a1-m1-cD Lotus tetragonolobus seed lectin (Isoform) D0VWW1 D0VWW1 2 X-RAY DIFFRACTION 103 1.0 3868 (Lotus tetragonolobus) 3868 (Lotus tetragonolobus) 230 230 2eig-a1-m1-cB_2eig-a1-m1-cC VSFNYTRFKDDGSLIFQGDAKIWTDGRLAMPTDPLVNRTTSHALYATPVPIWDSATGNVASFITSFSFIVSNVQRYPPTDGVVFFLAPWGTEIPPNSQGGYLGITDSSNSQNQFVAVEFDSHPNVWDPKSLRSSHIGIDVNSIMSLKAVNWNRVSGSLEKATIIYDSDTKILTVVMTHQNGQITTISQEIDLKTVLPEKVSVGFSATTWNPERERHDIYSWSFTSTLKEP VSFNYTRFKDDGSLIFQGDAKIWTDGRLAMPTDPLVNRTTSHALYATPVPIWDSATGNVASFITSFSFIVSNVQRYPPTDGVVFFLAPWGTEIPPNSQGGYLGITDSSNSQNQFVAVEFDSHPNVWDPKSLRSSHIGIDVNSIMSLKAVNWNRVSGSLEKATIIYDSDTKILTVVMTHQNGQITTISQEIDLKTVLPEKVSVGFSATTWNPERERHDIYSWSFTSTLKEP 2eig-a1-m1-cC_2eig-a1-m1-cD Lotus tetragonolobus seed lectin (Isoform) D0VWW1 D0VWW1 2 X-RAY DIFFRACTION 81 1.0 3868 (Lotus tetragonolobus) 3868 (Lotus tetragonolobus) 230 230 2eig-a1-m1-cA_2eig-a1-m1-cB VSFNYTRFKDDGSLIFQGDAKIWTDGRLAMPTDPLVNRTTSHALYATPVPIWDSATGNVASFITSFSFIVSNVQRYPPTDGVVFFLAPWGTEIPPNSQGGYLGITDSSNSQNQFVAVEFDSHPNVWDPKSLRSSHIGIDVNSIMSLKAVNWNRVSGSLEKATIIYDSDTKILTVVMTHQNGQITTISQEIDLKTVLPEKVSVGFSATTWNPERERHDIYSWSFTSTLKEP VSFNYTRFKDDGSLIFQGDAKIWTDGRLAMPTDPLVNRTTSHALYATPVPIWDSATGNVASFITSFSFIVSNVQRYPPTDGVVFFLAPWGTEIPPNSQGGYLGITDSSNSQNQFVAVEFDSHPNVWDPKSLRSSHIGIDVNSIMSLKAVNWNRVSGSLEKATIIYDSDTKILTVVMTHQNGQITTISQEIDLKTVLPEKVSVGFSATTWNPERERHDIYSWSFTSTLKEP 2eih-a1-m1-cA_2eih-a1-m2-cB Crystal Structure of NAD-dependent alcohol dehydrogenase Q5SL27 Q5SL27 2.3 X-RAY DIFFRACTION 50 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2eih-a1-m1-cB_2eih-a1-m2-cA MRAVVMRARGGPEVLEVADLPVPEPGPKEVRVRLKAAALNHLDVWVRKGVASPKLPLPHVLGADGSGVVDAVGPGVEGFAPGDEVVINPGLSCGRCERCLAGEDNLCPRYQILGEHRHGTYAEYVVLPEANLAPKPKNLSFEEAAAIPLTFLTAWQMVVDKLGVRPGDDVLVMAAGSGVSVAAIQIAKLFGARVIATAGSEDKLRRAKALGADETVNYTHPDWPKEVRRLTGGKGADKVVDHTGALYFEGVIKATANGGRIAIAGASSGYEGTLPFAHVFYRQLSILGSTMASKSRLFPILRFVEEGKLKPVVGQVLPLEAAAEGHRLLEERRVFGKVVLQVG MRAVVMRARGGPEVLEVADLPVPEPGPKEVRVRLKAAALNHLDVWVRKGVASPKLPLPHVLGADGSGVVDAVGPGVEGFAPGDEVVINPGLSCGRCERCLAGEDNLCPRYQILGEHRHGTYAEYVVLPEANLAPKPKNLSFEEAAAIPLTFLTAWQMVVDKLGVRPGDDVLVMAAGSGVSVAAIQIAKLFGARVIATAGSEDKLRRAKALGADETVNYTHPDWPKEVRRLTGGKGADKVVDHTGALYFEGVIKATANGGRIAIAGASSGYEGTLPFAHVFYRQLSILGSTMASKSRLFPILRFVEEGKLKPVVGQVLPLEAAAEGHRLLEERRVFGKVVLQVG 2eih-a1-m1-cB_2eih-a1-m2-cB Crystal Structure of NAD-dependent alcohol dehydrogenase Q5SL27 Q5SL27 2.3 X-RAY DIFFRACTION 108 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2eih-a1-m1-cA_2eih-a1-m2-cA MRAVVMRARGGPEVLEVADLPVPEPGPKEVRVRLKAAALNHLDVWVRKGVASPKLPLPHVLGADGSGVVDAVGPGVEGFAPGDEVVINPGLSCGRCERCLAGEDNLCPRYQILGEHRHGTYAEYVVLPEANLAPKPKNLSFEEAAAIPLTFLTAWQMVVDKLGVRPGDDVLVMAAGSGVSVAAIQIAKLFGARVIATAGSEDKLRRAKALGADETVNYTHPDWPKEVRRLTGGKGADKVVDHTGALYFEGVIKATANGGRIAIAGASSGYEGTLPFAHVFYRQLSILGSTMASKSRLFPILRFVEEGKLKPVVGQVLPLEAAAEGHRLLEERRVFGKVVLQVG MRAVVMRARGGPEVLEVADLPVPEPGPKEVRVRLKAAALNHLDVWVRKGVASPKLPLPHVLGADGSGVVDAVGPGVEGFAPGDEVVINPGLSCGRCERCLAGEDNLCPRYQILGEHRHGTYAEYVVLPEANLAPKPKNLSFEEAAAIPLTFLTAWQMVVDKLGVRPGDDVLVMAAGSGVSVAAIQIAKLFGARVIATAGSEDKLRRAKALGADETVNYTHPDWPKEVRRLTGGKGADKVVDHTGALYFEGVIKATANGGRIAIAGASSGYEGTLPFAHVFYRQLSILGSTMASKSRLFPILRFVEEGKLKPVVGQVLPLEAAAEGHRLLEERRVFGKVVLQVG 2eih-a1-m2-cA_2eih-a1-m2-cB Crystal Structure of NAD-dependent alcohol dehydrogenase Q5SL27 Q5SL27 2.3 X-RAY DIFFRACTION 21 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2eih-a1-m1-cA_2eih-a1-m1-cB MRAVVMRARGGPEVLEVADLPVPEPGPKEVRVRLKAAALNHLDVWVRKGVASPKLPLPHVLGADGSGVVDAVGPGVEGFAPGDEVVINPGLSCGRCERCLAGEDNLCPRYQILGEHRHGTYAEYVVLPEANLAPKPKNLSFEEAAAIPLTFLTAWQMVVDKLGVRPGDDVLVMAAGSGVSVAAIQIAKLFGARVIATAGSEDKLRRAKALGADETVNYTHPDWPKEVRRLTGGKGADKVVDHTGALYFEGVIKATANGGRIAIAGASSGYEGTLPFAHVFYRQLSILGSTMASKSRLFPILRFVEEGKLKPVVGQVLPLEAAAEGHRLLEERRVFGKVVLQVG MRAVVMRARGGPEVLEVADLPVPEPGPKEVRVRLKAAALNHLDVWVRKGVASPKLPLPHVLGADGSGVVDAVGPGVEGFAPGDEVVINPGLSCGRCERCLAGEDNLCPRYQILGEHRHGTYAEYVVLPEANLAPKPKNLSFEEAAAIPLTFLTAWQMVVDKLGVRPGDDVLVMAAGSGVSVAAIQIAKLFGARVIATAGSEDKLRRAKALGADETVNYTHPDWPKEVRRLTGGKGADKVVDHTGALYFEGVIKATANGGRIAIAGASSGYEGTLPFAHVFYRQLSILGSTMASKSRLFPILRFVEEGKLKPVVGQVLPLEAAAEGHRLLEERRVFGKVVLQVG 2eis-a1-m1-cA_2eis-a1-m3-cB X-ray structure of acyl-CoA hydrolase-like protein, TT1379, from Thermus thermophilus HB8 Q53VX2 Q53VX2 2.1 X-RAY DIFFRACTION 59 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 117 117 2eis-a1-m1-cB_2eis-a1-m2-cA 2eis-a1-m2-cB_2eis-a1-m3-cA ETRVYPVFPGETNHYGTLFGGTVLAWDQAAFVAATRHARKKVVTVHADAVDFKRPVPLGAIVELVARLKEVGRTSRVEVEWVEPVKEGEEAYLAARGGFVLVAVDERGRPSPVPPLE ETRVYPVFPGETNHYGTLFGGTVLAWDQAAFVAATRHARKKVVTVHADAVDFKRPVPLGAIVELVARLKEVGRTSRVEVEWVEPVKEGEEAYLAARGGFVLVAVDERGRPSPVPPLE 2eis-a1-m2-cB_2eis-a1-m3-cB X-ray structure of acyl-CoA hydrolase-like protein, TT1379, from Thermus thermophilus HB8 Q53VX2 Q53VX2 2.1 X-RAY DIFFRACTION 18 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 117 117 2eis-a1-m1-cA_2eis-a1-m2-cA 2eis-a1-m1-cA_2eis-a1-m3-cA 2eis-a1-m1-cB_2eis-a1-m2-cB 2eis-a1-m1-cB_2eis-a1-m3-cB 2eis-a1-m2-cA_2eis-a1-m3-cA ETRVYPVFPGETNHYGTLFGGTVLAWDQAAFVAATRHARKKVVTVHADAVDFKRPVPLGAIVELVARLKEVGRTSRVEVEWVEPVKEGEEAYLAARGGFVLVAVDERGRPSPVPPLE ETRVYPVFPGETNHYGTLFGGTVLAWDQAAFVAATRHARKKVVTVHADAVDFKRPVPLGAIVELVARLKEVGRTSRVEVEWVEPVKEGEEAYLAARGGFVLVAVDERGRPSPVPPLE 2eis-a1-m3-cA_2eis-a1-m3-cB X-ray structure of acyl-CoA hydrolase-like protein, TT1379, from Thermus thermophilus HB8 Q53VX2 Q53VX2 2.1 X-RAY DIFFRACTION 45 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 117 117 2eis-a1-m1-cA_2eis-a1-m1-cB 2eis-a1-m2-cA_2eis-a1-m2-cB ETRVYPVFPGETNHYGTLFGGTVLAWDQAAFVAATRHARKKVVTVHADAVDFKRPVPLGAIVELVARLKEVGRTSRVEVEWVEPVKEGEEAYLAARGGFVLVAVDERGRPSPVPPLE ETRVYPVFPGETNHYGTLFGGTVLAWDQAAFVAATRHARKKVVTVHADAVDFKRPVPLGAIVELVARLKEVGRTSRVEVEWVEPVKEGEEAYLAARGGFVLVAVDERGRPSPVPPLE 2eiu-a3-m1-cD_2eiu-a3-m1-cG Crystal Structure of a Putative protein (AQ1627) from Aquifex aeolicus O67549 O67549 2 X-RAY DIFFRACTION 82 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 124 124 2ehp-a1-m1-cA_2ehp-a1-m1-cB 2eiu-a1-m1-cA_2eiu-a1-m1-cF 2eiu-a2-m1-cC_2eiu-a2-m1-cE AIFTHEGKVEGVPGNYPLTAENLFRIGLALCTLWILDKEIEEPTLSIPETNFVTLALSVGFMNAGGSVNVGKGGDIKLFLQKGEIYVLEFQPLSETDIKKLESILFGRAPIPKKTGEDIGSFKC AIFTHEGKVEGVPGNYPLTAENLFRIGLALCTLWILDKEIEEPTLSIPETNFVTLALSVGFMNAGGSVNVGKGGDIKLFLQKGEIYVLEFQPLSETDIKKLESILFGRAPIPKKTGEDIGSFKC 2eiv-a5-m1-cG_2eiv-a5-m1-cL Crystal Structure of the arginase from Thermus thermophilus Q5SI78 Q5SI78 2.91 X-RAY DIFFRACTION 39 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 273 273 2ef4-a1-m1-cA_2ef4-a1-m6-cA 2ef4-a1-m2-cA_2ef4-a1-m5-cA 2ef4-a1-m3-cA_2ef4-a1-m4-cA 2eiv-a1-m1-cA_2eiv-a1-m1-cH 2eiv-a2-m1-cC_2eiv-a2-m1-cK 2eiv-a3-m1-cD_2eiv-a3-m1-cJ 2eiv-a4-m1-cE_2eiv-a4-m1-cF 2eiv-a6-m1-cI_2eiv-a6-m1-cM ERVAVVGVPMDLGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF ERVAVVGVPMDLGVDMGPSALRYARLLEQLEDLGYTVEDLGDVPVSLAYLEEIRAAALVLKERLAALPEGVFPIVLGGDHSLSMGSVAGAARGRRVGVVWVDAHADFNTPETSSGNVHGMPLAVLSGLGHPRLTEVFRAVDPKDVVLVGVRSLDPGEKRLLKEAGVRVYTMHEVDRLGVARIAEEVLKHLQGLPLHVSLDADVLDPTLAPGVGTPVPGGLTYREAHLLMEILAESGRVQSLDLVEVNPILDERNRTAEMLVGLALSLLGKRIF 2eix-a1-m1-cA_2eix-a1-m1-cB The Structure of Physarum polycephalum cytochrome b5 reductase Q1HA49 Q1HA49 1.56 X-RAY DIFFRACTION 32 1.0 5791 (Physarum polycephalum) 5791 (Physarum polycephalum) 243 243 KREPALNPNEYKKFMLREKQIINHNTRLFRFNLHHPEDVVGLPIGQHMSVKATVDGKEIYRPYTPVSSDDEKGYFDLIIKVYEKGQMSQYIDHLNPGDFLQVRGPKGQFDYKPNMVKEMGMIAGGTGITPMLQVARAIIKNPKEKTIINLIFANVNEDDILLRTELDDMAKKYSNFKVYYVLNNPPAGWTGGVGFVSADMIKQHFSPPSSDIKVMMCGPPMMNKAMQGHLETLGYTPEQWFIF KREPALNPNEYKKFMLREKQIINHNTRLFRFNLHHPEDVVGLPIGQHMSVKATVDGKEIYRPYTPVSSDDEKGYFDLIIKVYEKGQMSQYIDHLNPGDFLQVRGPKGQFDYKPNMVKEMGMIAGGTGITPMLQVARAIIKNPKEKTIINLIFANVNEDDILLRTELDDMAKKYSNFKVYYVLNNPPAGWTGGVGFVSADMIKQHFSPPSSDIKVMMCGPPMMNKAMQGHLETLGYTPEQWFIF 2eiy-a1-m1-cC_2eiy-a1-m2-cC Crystal Structure of T.th.HB8 Branched-Chain Amino Acid Aminotransferase Complexed with 4-Methylvaleric Acid Q5SM19 Q5SM19 1.35 X-RAY DIFFRACTION 33 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 294 294 1wrv-a2-m1-cA_1wrv-a2-m2-cB 1wrv-a2-m1-cC_1wrv-a2-m2-cC 1wrv-a2-m2-cA_1wrv-a2-m1-cB 2eiy-a1-m1-cA_2eiy-a1-m2-cB 2eiy-a1-m2-cA_2eiy-a1-m1-cB 2ej0-a1-m1-cA_2ej0-a1-m1-cD 2ej0-a1-m1-cE_2ej0-a1-m1-cC 2ej0-a1-m1-cF_2ej0-a1-m1-cB 2ej2-a1-m1-cA_2ej2-a1-m1-cD 2ej2-a1-m1-cC_2ej2-a1-m1-cE 2ej2-a1-m1-cF_2ej2-a1-m1-cB 2ej3-a1-m1-cA_2ej3-a1-m2-cB 2ej3-a1-m1-cC_2ej3-a1-m2-cC 2ej3-a1-m2-cA_2ej3-a1-m1-cB IKAGLIWMNGAFVPQEEAKTSVLSHALHYGTSVFEGIRAYETAKGPAIFRLKEHVKRFYNSAKVLRMEIPFAPEELEEAIKEVVRRNGYRSCYIRPLAWMGAKALGVNPLPNNPAEVMVAAWEWKGARLITSSWARFPANVMPGKAKVGGNYVNSALAKMEAVAAGADEALLLDEEGYVAEGSGENLFFVRDGVIYALEHSVNLEGITRDSVIRIAKDLGYEVQVVRATRDQLYMADEVFMTGTAAEVTPVSMIDWRPIGKGTAGPVALRLREVYLEAVTGRRPEYEGWLTYVN IKAGLIWMNGAFVPQEEAKTSVLSHALHYGTSVFEGIRAYETAKGPAIFRLKEHVKRFYNSAKVLRMEIPFAPEELEEAIKEVVRRNGYRSCYIRPLAWMGAKALGVNPLPNNPAEVMVAAWEWKGARLITSSWARFPANVMPGKAKVGGNYVNSALAKMEAVAAGADEALLLDEEGYVAEGSGENLFFVRDGVIYALEHSVNLEGITRDSVIRIAKDLGYEVQVVRATRDQLYMADEVFMTGTAAEVTPVSMIDWRPIGKGTAGPVALRLREVYLEAVTGRRPEYEGWLTYVN 2eiy-a1-m2-cC_2eiy-a1-m1-cA Crystal Structure of T.th.HB8 Branched-Chain Amino Acid Aminotransferase Complexed with 4-Methylvaleric Acid Q5SM19 Q5SM19 1.35 X-RAY DIFFRACTION 202 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 294 297 1wrv-a2-m1-cB_1wrv-a2-m2-cB 1wrv-a2-m1-cC_1wrv-a2-m2-cA 1wrv-a2-m2-cC_1wrv-a2-m1-cA 1wrv-a3-m2-cC_1wrv-a3-m1-cA 1wrv-a4-m1-cC_1wrv-a4-m2-cA 1wrv-a5-m1-cB_1wrv-a5-m2-cB 2eiy-a1-m1-cB_2eiy-a1-m2-cB 2eiy-a1-m1-cC_2eiy-a1-m2-cA 2ej0-a1-m1-cC_2ej0-a1-m1-cF 2ej0-a1-m1-cD_2ej0-a1-m1-cB 2ej0-a1-m1-cE_2ej0-a1-m1-cA 2ej2-a1-m1-cA_2ej2-a1-m1-cE 2ej2-a1-m1-cC_2ej2-a1-m1-cF 2ej2-a1-m1-cD_2ej2-a1-m1-cB 2ej3-a1-m1-cB_2ej3-a1-m2-cB 2ej3-a1-m1-cC_2ej3-a1-m2-cA 2ej3-a1-m2-cC_2ej3-a1-m1-cA IKAGLIWMNGAFVPQEEAKTSVLSHALHYGTSVFEGIRAYETAKGPAIFRLKEHVKRFYNSAKVLRMEIPFAPEELEEAIKEVVRRNGYRSCYIRPLAWMGAKALGVNPLPNNPAEVMVAAWEWKGARLITSSWARFPANVMPGKAKVGGNYVNSALAKMEAVAAGADEALLLDEEGYVAEGSGENLFFVRDGVIYALEHSVNLEGITRDSVIRIAKDLGYEVQVVRATRDQLYMADEVFMTGTAAEVTPVSMIDWRPIGKGTAGPVALRLREVYLEAVTGRRPEYEGWLTYVN QIKAGLIWMNGAFVPQEEAKTSVLSHALHYGTSVFEGIRAYETAKGPAIFRLKEHVKRFYNSAKVLRMEIPFAPEELEEAIKEVVRRNGYRSCYIRPLAWMGAKALGVNPLPNNPAEVMVAAWEWVRKGARLITSSWARFPANVMPGKAKVGGNYVNSALAKMEAVAAGADEALLLDEEGYVAEGSGENLFFVRDGVIYALEHSVNLEGITRDSVIRIAKDLGYEVQVVRATRDQLYMADEVFMTGTAAEVTPVSMIDWRPIGKGTAGPVALRLREVYLEAVTGRRPEYEGWLTYVN 2ej5-a2-m2-cB_2ej5-a2-m3-cB Crystal structure of GK2038 protein (enoyl-CoA hydratase subunit II) from Geobacillus kaustophilus Q5KYB3 Q5KYB3 2 X-RAY DIFFRACTION 116 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 251 251 2ej5-a1-m1-cA_2ej5-a1-m2-cA 2ej5-a1-m1-cA_2ej5-a1-m3-cA 2ej5-a1-m2-cA_2ej5-a1-m3-cA 2ej5-a2-m1-cB_2ej5-a2-m2-cB 2ej5-a2-m1-cB_2ej5-a2-m3-cB MYETIRYEVKGQVAWLTLNRPDQLNAFTEQMNAEVTKALKQAGADPNVRCVVITGAGRAFCAGEDLSDHGDVLRSRYAPMMKALHHLEKPVVAAVNGAAAGAGMSLALACDFRLLSEKASFAPAFIHVGLVPDAGHLYYLPRLVGRAKALELAVLGEKVTAEEAAALGLATKVIPLSDWEEEVKQFAERLSAMPTKAIGLIKRLLRESEETTFDRYLEREAECQRIAGLTSDHREGVKAFFEKRKPLFQGN MYETIRYEVKGQVAWLTLNRPDQLNAFTEQMNAEVTKALKQAGADPNVRCVVITGAGRAFCAGEDLSDHGDVLRSRYAPMMKALHHLEKPVVAAVNGAAAGAGMSLALACDFRLLSEKASFAPAFIHVGLVPDAGHLYYLPRLVGRAKALELAVLGEKVTAEEAAALGLATKVIPLSDWEEEVKQFAERLSAMPTKAIGLIKRLLRESEETTFDRYLEREAECQRIAGLTSDHREGVKAFFEKRKPLFQGN 2ej8-a1-m1-cB_2ej8-a1-m1-cA Crystal structure of APPL1 PTB domain at 1.8A Q9UKG1 Q9UKG1 1.84 X-RAY DIFFRACTION 51 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 131 133 DSILHQLFIVRFLGSMEVKSDDHPDVVYETMRQILAARAIHNIFRMTESHLLVTCDCLKLIDPQTQVTRLTFPLPCVVLYATHQENKRLFGFVLRTSLSSVCYIFESNNEGEKICDSVGLAKQIALHAELD ETEDSILHQLFIVRFLGSMEVKSDDHPDVVYETMRQILAARAIHNIFRMTESHLLVTCDCLKLIDPQTQVTRLTFPLPCVVLYATHQENKRLFGFVLRTSSLSSVCYIFESNNEGEKICDSVGLAKQIALHAE 2eja-a1-m1-cB_2eja-a1-m1-cA Crystal Structure Of Uroporphyrinogen Decarboxylase From Aquifex aeolicus O66667 O66667 1.9 X-RAY DIFFRACTION 68 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 336 337 PKNDLLLRSLRGEPIGRFPVWLMRQAGRYMPEYRKIRNRVKNFLELCKNVDLATEISLLPLKILGVDAIIIFSDILVPLEPLGVKVEFVEGEGPKLSWSGKVSDLKKYDPSQNAYVYEIIKRVKEAQDEVPVIGFAGAPFTLLSYLIEGGASKDFKSTKLFMWENPKEYKRLMDILTETVLAYLKEQIKAGADVVQIFDSWVNNLSLEDYGEYVYPYVNYLISELKDFSDTPVIYFFRGSSSFIDLAVDYRADALSVDWSVDIPELFKIYDKGFQGNLEPAVLYASEEVIEEKTLGLLRRIPVKTRYVFNLGHGLAPDMELEKVKYLVDLVKSFPL PKNDLLLRSLRGEPIGRFPVWLMRQAGRYMPEYRKIRNRVKNFLELCKNVDLATEISLLPLKILGVDAIIIFSDILVPLEPLGVKVEFVEGEGPKLSWSGKVSDLKKYDPSQNAYVYEIIKRVKEAQDEVPVIGFAGAPFTLLSYLIEGGASKDFKSTKLFMWENPKEYKRLMDILTETVLAYLKEQIKAGADVVQIFDSWVNNLSLEDYGEYVYPYVNYLISELKDFSDTPVIYFFRGSSSFIDLAVDYRADALSVDWSVDIPELFKIYDKGFQGNLEPAVLYASEEVIEEKTLGLLRRIPVKTRYVFNLGHGLAPDMELEKVKYLVDLVKSFPLT 2ejb-a2-m3-cA_2ejb-a2-m9-cA Crystal Structure Of Phenylacrylic Acid Decarboxylase from Aquifex aeolicus O66811 O66811 2.15 X-RAY DIFFRACTION 14 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 176 176 2ejb-a2-m10-cA_2ejb-a2-m4-cA 2ejb-a2-m10-cA_2ejb-a2-m8-cA 2ejb-a2-m11-cA_2ejb-a2-m6-cA 2ejb-a2-m11-cA_2ejb-a2-m7-cA 2ejb-a2-m12-cA_2ejb-a2-m5-cA 2ejb-a2-m1-cA_2ejb-a2-m12-cA 2ejb-a2-m1-cA_2ejb-a2-m5-cA 2ejb-a2-m2-cA_2ejb-a2-m3-cA 2ejb-a2-m2-cA_2ejb-a2-m9-cA 2ejb-a2-m4-cA_2ejb-a2-m8-cA 2ejb-a2-m6-cA_2ejb-a2-m7-cA MQKIALCITGASGVIYGIKLLQVLEELDFSVDLVISRNAKVVLKEEVLKGLKNVRIHEENDFTSPLASGSRLVHYRGVYVVPCSTNTLSCIANGINKNLIHRVGEVALKERVPLVLLVREAPYNEIHLENMLKITRMGGVVVPASPAFYHKPQSIDDMINFVVGKLLDVLRIEHNL MQKIALCITGASGVIYGIKLLQVLEELDFSVDLVISRNAKVVLKEEVLKGLKNVRIHEENDFTSPLASGSRLVHYRGVYVVPCSTNTLSCIANGINKNLIHRVGEVALKERVPLVLLVREAPYNEIHLENMLKITRMGGVVVPASPAFYHKPQSIDDMINFVVGKLLDVLRIEHNL 2ejb-a2-m6-cA_2ejb-a2-m9-cA Crystal Structure Of Phenylacrylic Acid Decarboxylase from Aquifex aeolicus O66811 O66811 2.15 X-RAY DIFFRACTION 104 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 176 176 2ejb-a1-m1-cA_2ejb-a1-m2-cA 2ejb-a2-m10-cA_2ejb-a2-m7-cA 2ejb-a2-m11-cA_2ejb-a2-m5-cA 2ejb-a2-m12-cA_2ejb-a2-m4-cA 2ejb-a2-m1-cA_2ejb-a2-m2-cA 2ejb-a2-m3-cA_2ejb-a2-m8-cA MQKIALCITGASGVIYGIKLLQVLEELDFSVDLVISRNAKVVLKEEVLKGLKNVRIHEENDFTSPLASGSRLVHYRGVYVVPCSTNTLSCIANGINKNLIHRVGEVALKERVPLVLLVREAPYNEIHLENMLKITRMGGVVVPASPAFYHKPQSIDDMINFVVGKLLDVLRIEHNL MQKIALCITGASGVIYGIKLLQVLEELDFSVDLVISRNAKVVLKEEVLKGLKNVRIHEENDFTSPLASGSRLVHYRGVYVVPCSTNTLSCIANGINKNLIHRVGEVALKERVPLVLLVREAPYNEIHLENMLKITRMGGVVVPASPAFYHKPQSIDDMINFVVGKLLDVLRIEHNL 2ejb-a2-m8-cA_2ejb-a2-m9-cA Crystal Structure Of Phenylacrylic Acid Decarboxylase from Aquifex aeolicus O66811 O66811 2.15 X-RAY DIFFRACTION 36 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 176 176 2ejb-a2-m10-cA_2ejb-a2-m11-cA 2ejb-a2-m10-cA_2ejb-a2-m12-cA 2ejb-a2-m11-cA_2ejb-a2-m12-cA 2ejb-a2-m1-cA_2ejb-a2-m3-cA 2ejb-a2-m1-cA_2ejb-a2-m4-cA 2ejb-a2-m2-cA_2ejb-a2-m5-cA 2ejb-a2-m2-cA_2ejb-a2-m6-cA 2ejb-a2-m3-cA_2ejb-a2-m4-cA 2ejb-a2-m5-cA_2ejb-a2-m6-cA 2ejb-a2-m7-cA_2ejb-a2-m8-cA 2ejb-a2-m7-cA_2ejb-a2-m9-cA MQKIALCITGASGVIYGIKLLQVLEELDFSVDLVISRNAKVVLKEEVLKGLKNVRIHEENDFTSPLASGSRLVHYRGVYVVPCSTNTLSCIANGINKNLIHRVGEVALKERVPLVLLVREAPYNEIHLENMLKITRMGGVVVPASPAFYHKPQSIDDMINFVVGKLLDVLRIEHNL MQKIALCITGASGVIYGIKLLQVLEELDFSVDLVISRNAKVVLKEEVLKGLKNVRIHEENDFTSPLASGSRLVHYRGVYVVPCSTNTLSCIANGINKNLIHRVGEVALKERVPLVLLVREAPYNEIHLENMLKITRMGGVVVPASPAFYHKPQSIDDMINFVVGKLLDVLRIEHNL 2ejc-a1-m1-cA_2ejc-a1-m2-cA Crystal Structure Of Pantoate--Beta-Alanine Ligase (panC) From Thermotoga maritima Q9X0G6 Q9X0G6 2.4 X-RAY DIFFRACTION 72 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 280 280 MRIIETIEEMKKFSEEMREKKKTIGFVPTMGYLHEGHLSLVRRARAENDVVVVSIFVNPTQFGPNEDYERYPRDFERDRKLLEKENVDCIFHPSVEEMYPPDFSTYVEETKLSKHLCGRSRPGHFRGVCTVVTKLFNIVKPHRAYFGQKDAQQFRVLRRMVRDLNMDVEMIECPIVREPDGLAMSSRNVYLSPEERQQALSLYQSLKIAENLYLNGERDAEKIKEEMIKHLSRFDKVKIDYVEIVDEETLEPVEKIDRKVIVAVAAWVGNARLIDNTILG MRIIETIEEMKKFSEEMREKKKTIGFVPTMGYLHEGHLSLVRRARAENDVVVVSIFVNPTQFGPNEDYERYPRDFERDRKLLEKENVDCIFHPSVEEMYPPDFSTYVEETKLSKHLCGRSRPGHFRGVCTVVTKLFNIVKPHRAYFGQKDAQQFRVLRRMVRDLNMDVEMIECPIVREPDGLAMSSRNVYLSPEERQQALSLYQSLKIAENLYLNGERDAEKIKEEMIKHLSRFDKVKIDYVEIVDEETLEPVEKIDRKVIVAVAAWVGNARLIDNTILG 2ejn-a1-m1-cB_2ejn-a1-m1-cA Structural characterization of the tetrameric form of the major cat allergen fel D 1 P30440 P30440 1.64 X-RAY DIFFRACTION 90 1.0 9685 (Felis catus) 9685 (Felis catus) 145 146 MEICPAVKRDVDLFLTGTPDEYVEQVAQYKALPVVLENARILKNCVDAKMTEEDKENALSLLDKIYTSPLCVKMAETCPIFYDVFFAVANGNELLLDLSLTKVNATEPERTAMKKIQDCYVENGLISRVLDGLVMTTISSSKDCM MEICPAVKRDVDLFLTGTPDEYVEQVAQYKALPVVLENARILKNCVDAKMTEEDKENALSLLDKIYTSPLCVKMAETCPIFYDVFFAVANGNELLLDLSLTKVNATEPERTAMKKIQDCYVENGLISRVLDGLVMTTISSSKDCMG 2eju-a2-m1-cA_2eju-a2-m2-cA Complex structure of Trm1 from Pyrococcus horikoshii with S-adenosyl-L-Homocystein O59493 O59493 1.95 X-RAY DIFFRACTION 103 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 371 371 2dul-a2-m1-cA_2dul-a2-m2-cA 2ejt-a2-m1-cA_2ejt-a2-m2-cA 2ytz-a3-m1-cB_2ytz-a3-m1-cA LIEVQEGKAKILIPKADSPVFYNPRMALNRDIVVVLLNILNPKIVLDALSATGIRGIRFALETPAEEVWLNDISEDAYELMKRNVMLNFDGELRESKGRAILKGEKTIVINHDDANRLMAERHRYFHFIDLDPFGSPMEFLDTALRSAKRRGILGVTATDGAPLCGAHPRACLRKYLAVPLRGELCHEVGTRILVGVIARYAAKYDLGIDVILAYYKDHYFRAFVKLKDGARKGDETLEKLGYIYFDDKTGKFELEQGFLPTRPNAYGPVWLGPLKDEKIVSKMVKEAESLSLARKKQALKLLKMIDQELDIPLFYDTHAIGRRLKIETKKVEEIISALREQGYEATRTHFSPTGIKTSAPYEVFIETIKR LIEVQEGKAKILIPKADSPVFYNPRMALNRDIVVVLLNILNPKIVLDALSATGIRGIRFALETPAEEVWLNDISEDAYELMKRNVMLNFDGELRESKGRAILKGEKTIVINHDDANRLMAERHRYFHFIDLDPFGSPMEFLDTALRSAKRRGILGVTATDGAPLCGAHPRACLRKYLAVPLRGELCHEVGTRILVGVIARYAAKYDLGIDVILAYYKDHYFRAFVKLKDGARKGDETLEKLGYIYFDDKTGKFELEQGFLPTRPNAYGPVWLGPLKDEKIVSKMVKEAESLSLARKKQALKLLKMIDQELDIPLFYDTHAIGRRLKIETKKVEEIISALREQGYEATRTHFSPTGIKTSAPYEVFIETIKR 2ejv-a1-m1-cA_2ejv-a1-m2-cA Crystal structure of threonine 3-dehydrogenase complexed with NAD+ Q5SKS4 Q5SKS4 2.55 X-RAY DIFFRACTION 18 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 343 343 2dq4-a1-m1-cA_2dq4-a1-m2-cA 2dq4-a1-m1-cB_2dq4-a1-m2-cB 2ejv-a1-m1-cB_2ejv-a1-m2-cB MRALAKLAPEEGLTLVDRPVPEPGPGEILVRVEAASICGTDLHIWKWDAWARGRIRPPLVTGHEFSGVVEAVGPGVRRPQVGDHVSLESHIVCHACPACRTGNYHVCLNTQILGVDRDGGFAEYVVVPAENAWVNPKDLPFEVAAILEPFGNAVHTVYAGSGVSGKSVLITGAGPIGLMAAMVVRASGAGPILVSDPNPYRLAFARPYADRLVNPLEEDLLEVVRRVTGSGVEVLLEFSGNEAAIHQGLMALIPGGEARILGIPSDPIRFDLAGELVMRGITAFGIAGRRLWQTWMQGTALVYSGRVDLSPLLTHRLPLSRYREAFGLLASGQAVKVILDPKA MRALAKLAPEEGLTLVDRPVPEPGPGEILVRVEAASICGTDLHIWKWDAWARGRIRPPLVTGHEFSGVVEAVGPGVRRPQVGDHVSLESHIVCHACPACRTGNYHVCLNTQILGVDRDGGFAEYVVVPAENAWVNPKDLPFEVAAILEPFGNAVHTVYAGSGVSGKSVLITGAGPIGLMAAMVVRASGAGPILVSDPNPYRLAFARPYADRLVNPLEEDLLEVVRRVTGSGVEVLLEFSGNEAAIHQGLMALIPGGEARILGIPSDPIRFDLAGELVMRGITAFGIAGRRLWQTWMQGTALVYSGRVDLSPLLTHRLPLSRYREAFGLLASGQAVKVILDPKA 2ejx-a2-m1-cA_2ejx-a2-m2-cA Crystal structure of the hypothetical protein STK_08120 from Sulfolobus tokodaii Q973T5 Q973T5 1.79 X-RAY DIFFRACTION 38 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 134 134 KVEKEIKTNQDIDVVMTIFSDPAFTIPQIFPGIASIKCIEPEIFEAEGKFLAFSYKVKGRVYKGVDEVRIIYDSDRGNGILYIRKKDNNTLQIILEHDNKLTAFLGKPYVSSNLDRLAENIDEIIRLERIKRKI KVEKEIKTNQDIDVVMTIFSDPAFTIPQIFPGIASIKCIEPEIFEAEGKFLAFSYKVKGRVYKGVDEVRIIYDSDRGNGILYIRKKDNNTLQIILEHDNKLTAFLGKPYVSSNLDRLAENIDEIIRLERIKRKI 2ek0-a1-m1-cA_2ek0-a1-m1-cB Stage V Sporolation Protein S (SPOVS) from Thermus thermophilus Zinc form Q5SK02 Q5SK02 1.9 X-RAY DIFFRACTION 51 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 90 90 2eh1-a3-m1-cA_2eh1-a3-m2-cB METLRVSSKSRPNSVAGAIAAMLRTKGEVEVQAIGPQAVNQAVKAIAIARGYIAPDNLDLVVKPAFVKLELENEERTALKFSIKAHPLET METLRVSSKSRPNSVAGAIAAMLRTKGEVEVQAIGPQAVNQAVKAIAIARGYIAPDNLDLVVKPAFVKLELENEERTALKFSIKAHPLET 2ek0-a2-m2-cB_2ek0-a2-m4-cA Stage V Sporolation Protein S (SPOVS) from Thermus thermophilus Zinc form Q5SK02 Q5SK02 1.9 X-RAY DIFFRACTION 18 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 90 90 2ek0-a2-m1-cB_2ek0-a2-m3-cA 2ek0-a2-m1-cB_2ek0-a2-m4-cA 2ek0-a2-m2-cB_2ek0-a2-m3-cA METLRVSSKSRPNSVAGAIAAMLRTKGEVEVQAIGPQAVNQAVKAIAIARGYIAPDNLDLVVKPAFVKLELENEERTALKFSIKAHPLET METLRVSSKSRPNSVAGAIAAMLRTKGEVEVQAIGPQAVNQAVKAIAIARGYIAPDNLDLVVKPAFVKLELENEERTALKFSIKAHPLET 2ek1-a1-m1-cB_2ek1-a1-m1-cA Crystal structure of RNA-binding motif of human rna-binding protein 12 Q9NTZ6 Q9NTZ6 2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 76 2ek1-a2-m1-cC_2ek1-a2-m1-cD 2ek1-a3-m1-cE_2ek1-a3-m1-cF 2ek1-a4-m1-cG_2ek1-a4-m1-cH 2ek6-a1-m1-cA_2ek6-a1-m1-cB 2ek6-a2-m1-cC_2ek6-a2-m1-cD PTVIKVQNPFTVSIDEILDFFYGYQVIPGSVCLKYNEKGPTGEAVAFESRDEATAAVIDLNDRPIGSRKVKLSGP PTVIKVQNPFTVSIDEILDFFYGYQVIPGSVCLKYNEKGPTGEAVAFESRDEATAAVIDLNDRPIGSRKVKLSGPS 2ek5-a3-m2-cB_2ek5-a3-m2-cA Crystal structure of the transcriptional factor from C.glutamicum at 2.2 angstrom resolution Q8NLJ5 Q8NLJ5 2.2 X-RAY DIFFRACTION 60 0.991 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 108 114 2du9-a1-m1-cA_2du9-a1-m2-cA 2ek5-a1-m1-cB_2ek5-a1-m1-cA 2ek5-a2-m1-cD_2ek5-a2-m1-cC 2ek5-a3-m1-cB_2ek5-a3-m1-cA 2ek5-a4-m1-cD_2ek5-a4-m1-cC 2ek5-a4-m3-cD_2ek5-a4-m3-cC ASLIEDSIVDGTLSIDQRVPSTNELAAFHRINPATARNGLTLLVEAGILYKKRGIGFVSAQAPALIRERRDAAFAATYVAPLIDESIHLGFTRARIHALLDQVAESRG VPLYKQIASLIEDSIVDGTLSIDQRVPSTNELAAFHRINPATARNGLTLLVEAGILYKKRGIGFVSAQAPALIRERRDAAFAATYVAPLIDESIHLGFTRARIHALLDQVAESR 2ek5-a4-m1-cD_2ek5-a4-m3-cD Crystal structure of the transcriptional factor from C.glutamicum at 2.2 angstrom resolution Q8NLJ5 Q8NLJ5 2.2 X-RAY DIFFRACTION 85 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 114 114 2ek5-a3-m1-cA_2ek5-a3-m2-cA VPLYKQIASLIEDSIVDGTLSIDQRVPSTNELAAFHRINPATARNGLTLLVEAGILYKKRGIGFVSAQAPALIRERRDAAFAATYVAPLIDESIHLGFTRARIHALLDQVAESR VPLYKQIASLIEDSIVDGTLSIDQRVPSTNELAAFHRINPATARNGLTLLVEAGILYKKRGIGFVSAQAPALIRERRDAAFAATYVAPLIDESIHLGFTRARIHALLDQVAESR 2ekd-a2-m1-cF_2ekd-a2-m2-cF Structural study of Project ID PH0250 from Pyrococcus horikoshii OT3 O57988 O57988 2.3 X-RAY DIFFRACTION 34 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 200 200 2ekd-a2-m1-cA_2ekd-a2-m2-cE 2ekd-a2-m1-cB_2ekd-a2-m2-cD 2ekd-a2-m1-cC_2ekd-a2-m2-cC 2ekd-a2-m1-cD_2ekd-a2-m2-cB 2ekd-a2-m1-cE_2ekd-a2-m2-cA NSEKFFKLFRVGETVLVEYSGTSRAELLLYYIVNNSKLPIVVDDILDTYYEFYTRLKVAGFDVAPLENVQVIKGGTKDIGRVIGRLNISKYVISEQEYEIVSQLKDYPVINPVLGLHKLILLGNTFENINVVKVSNYVGREERIAFYFVNRNVIEKHSSPILDLLEEVVTSILEITDSGIIIKKSIKDEIAGKIVSPLLN NSEKFFKLFRVGETVLVEYSGTSRAELLLYYIVNNSKLPIVVDDILDTYYEFYTRLKVAGFDVAPLENVQVIKGGTKDIGRVIGRLNISKYVISEQEYEIVSQLKDYPVINPVLGLHKLILLGNTFENINVVKVSNYVGREERIAFYFVNRNVIEKHSSPILDLLEEVVTSILEITDSGIIIKKSIKDEIAGKIVSPLLN 2ekd-a2-m2-cE_2ekd-a2-m2-cF Structural study of Project ID PH0250 from Pyrococcus horikoshii OT3 O57988 O57988 2.3 X-RAY DIFFRACTION 58 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 199 200 2ekd-a1-m1-cA_2ekd-a1-m1-cB 2ekd-a1-m1-cA_2ekd-a1-m1-cF 2ekd-a1-m1-cB_2ekd-a1-m1-cC 2ekd-a1-m1-cC_2ekd-a1-m1-cD 2ekd-a1-m1-cD_2ekd-a1-m1-cE 2ekd-a1-m1-cE_2ekd-a1-m1-cF 2ekd-a2-m1-cA_2ekd-a2-m1-cB 2ekd-a2-m1-cA_2ekd-a2-m1-cF 2ekd-a2-m1-cB_2ekd-a2-m1-cC 2ekd-a2-m1-cC_2ekd-a2-m1-cD 2ekd-a2-m1-cD_2ekd-a2-m1-cE 2ekd-a2-m1-cE_2ekd-a2-m1-cF 2ekd-a2-m2-cA_2ekd-a2-m2-cB 2ekd-a2-m2-cA_2ekd-a2-m2-cF 2ekd-a2-m2-cB_2ekd-a2-m2-cC 2ekd-a2-m2-cC_2ekd-a2-m2-cD 2ekd-a2-m2-cD_2ekd-a2-m2-cE NSEKFFKLFRVGETVLVEYSGTSRAELLLYYIVNNSKLPIVVDDILDTYYEFYTRLKVAGFDVAPLENVQVIKGGTKDIGRVIGRLNISKYVISEQEYEIVSQLKDYPVINPVLGLHKLILLGNTFENINVVKVSNYVGREERIAFYFVNRNVIEKHSSPILDLLEEVVTSILEITDSGIIIKKSIKDEIAGKIVSPLL NSEKFFKLFRVGETVLVEYSGTSRAELLLYYIVNNSKLPIVVDDILDTYYEFYTRLKVAGFDVAPLENVQVIKGGTKDIGRVIGRLNISKYVISEQEYEIVSQLKDYPVINPVLGLHKLILLGNTFENINVVKVSNYVGREERIAFYFVNRNVIEKHSSPILDLLEEVVTSILEITDSGIIIKKSIKDEIAGKIVSPLLN 2ekg-a1-m1-cA_2ekg-a1-m1-cB Structure of Thermus thermophilus Proline Dehydrogenase inactivated by N-propargylglycine Q72IB8 Q72IB8 1.9 X-RAY DIFFRACTION 43 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 288 298 2g37-a1-m1-cA_2g37-a1-m1-cB LAYRSFVLGVAGHPQVERLIKHRAKGLVRRYVAGETLEEALKAAEALEREGVHAILDLLGEMVRTEEEARAFQRGLLELVWALAGKPWPKYISLLTQLGLDLSEDLALALLREVLREAEPRGVFVRLDMEDSPRVEATLRLYRALREEGFSQVGIVLQSYLYRTEKDLLDLLPYRPNLRLVKGAYREPKEVAFPDKRLIDAEYLHLGKLALKEGLYVAFATHDPRIIAELKRYTEAMGIPRSRFEFQFLYGVRPEEQRRLAREGYTVRAYVPYGRDWYPYLTRRIAER LYFQGHMNLDLAYRSFVLGVAGHPQVERLIKHRAKGLVRRYVAGETLEEALKAAEALEREGVHAILDLLGEMVRTEEEARAFQRGLLELVWALAGKPWPKYISLLTQLGLDLSEDLALALLREVLREAEPRGVFVRLDMEDSPRVEATLRLYRALREEGFSQVGIVLQSYLYRTEKDLLDLLPYRPNLRLVKGAYREPKEVAFPDKRLIDAEYLHLGKLALKEGLYVAFATHDPRIIAELKRYTEAMGIPRSRFEFQFLYGVRPEEQRRLAREGYTVRAYVPYGRDWYPYLTRRIAER 2ekl-a1-m1-cA_2ekl-a1-m2-cA Structure of ST1218 protein from Sulfolobus tokodaii Q972A9 Q972A9 1.77 X-RAY DIFFRACTION 185 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 312 312 AIYTVKALITDPIDEILIKTLREKGIQVDYMPEISKEELLNIIGNYDIIVVRSRTKVTKDVIEKGKKLKIIARAGIGLDNIDTEEAEKRNIKVVYAPGASTDSAVELTIGLMIAAARKMYTSMALAKSGIFKKIEGLELAGKTIGIVGFGRIGTKVGIIANAMGMKVLAYDILDIREKAEKINAKAVSLEELLKNSDVISLHVTVSKDAKPIIDYPQFELMKDNVIIVNTSRAVAVNGKALLDYIKKGKVYAYATDVFWNEPPKEEWELELLKHERVIVTTHIGAQTKEAQKRVAEMTTQNLLNAMKELGMI AIYTVKALITDPIDEILIKTLREKGIQVDYMPEISKEELLNIIGNYDIIVVRSRTKVTKDVIEKGKKLKIIARAGIGLDNIDTEEAEKRNIKVVYAPGASTDSAVELTIGLMIAAARKMYTSMALAKSGIFKKIEGLELAGKTIGIVGFGRIGTKVGIIANAMGMKVLAYDILDIREKAEKINAKAVSLEELLKNSDVISLHVTVSKDAKPIIDYPQFELMKDNVIIVNTSRAVAVNGKALLDYIKKGKVYAYATDVFWNEPPKEEWELELLKHERVIVTTHIGAQTKEAQKRVAEMTTQNLLNAMKELGMI 2ekm-a1-m1-cB_2ekm-a1-m1-cC Structure of ST1219 protein from Sulfolobus tokodaii Q970U0 Q970U0 2.06 X-RAY DIFFRACTION 127 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 160 160 2ekm-a1-m1-cA_2ekm-a1-m1-cB 2ekm-a1-m1-cA_2ekm-a1-m1-cC VKIDVIRVEIPEGTNVIIGQSHFIKTVEDLYETLASSSPHLKFGIAFCEASGKRLIRWDGNDEELIKLAQQTALKIGAGHTFVIYIKNGFPINVLNRIKNVEEVVRIFAATANPLQVLVAETDQGRGVIGVVDGYTPLGIETEADIKERKELLRKFGYKR VKIDVIRVEIPEGTNVIIGQSHFIKTVEDLYETLASSSPHLKFGIAFCEASGKRLIRWDGNDEELIKLAQQTALKIGAGHTFVIYIKNGFPINVLNRIKNVEEVVRIFAATANPLQVLVAETDQGRGVIGVVDGYTPLGIETEADIKERKELLRKFGYKR 2ekn-a1-m2-cB_2ekn-a1-m2-cC Structure of PH1811 protein from Pyrococcus horikoshii O59475 O59475 2.05 X-RAY DIFFRACTION 15 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 145 145 2ekn-a1-m1-cA_2ekn-a1-m2-cA 2ekn-a1-m1-cB_2ekn-a1-m1-cC VKMVEIGYKDVVFRKAVAKGRIKLKPETVKLIKEGKIEKGNVLATAQIAGILAVKRTPELIPLCHPIPITGVDITFDFGEDYIEVTCEVRAYYKTGVEMEALTGVTVALLAIWDMVKAVEKDEKGQYPYTRIENVHVVEKVKTHN VKMVEIGYKDVVFRKAVAKGRIKLKPETVKLIKEGKIEKGNVLATAQIAGILAVKRTPELIPLCHPIPITGVDITFDFGEDYIEVTCEVRAYYKTGVEMEALTGVTVALLAIWDMVKAVEKDEKGQYPYTRIENVHVVEKVKTHN 2ekn-a2-m1-cB_2ekn-a2-m2-cC Structure of PH1811 protein from Pyrococcus horikoshii O59475 O59475 2.05 X-RAY DIFFRACTION 46 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 145 145 2ekn-a1-m1-cA_2ekn-a1-m1-cB 2ekn-a1-m1-cA_2ekn-a1-m2-cC 2ekn-a1-m1-cB_2ekn-a1-m2-cC 2ekn-a1-m1-cC_2ekn-a1-m2-cA 2ekn-a1-m1-cC_2ekn-a1-m2-cB 2ekn-a1-m2-cA_2ekn-a1-m2-cB 2ekn-a2-m1-cA_2ekn-a2-m1-cB 2ekn-a2-m1-cA_2ekn-a2-m2-cC VKMVEIGYKDVVFRKAVAKGRIKLKPETVKLIKEGKIEKGNVLATAQIAGILAVKRTPELIPLCHPIPITGVDITFDFGEDYIEVTCEVRAYYKTGVEMEALTGVTVALLAIWDMVKAVEKDEKGQYPYTRIENVHVVEKVKTHN VKMVEIGYKDVVFRKAVAKGRIKLKPETVKLIKEGKIEKGNVLATAQIAGILAVKRTPELIPLCHPIPITGVDITFDFGEDYIEVTCEVRAYYKTGVEMEALTGVTVALLAIWDMVKAVEKDEKGQYPYTRIENVHVVEKVKTHN 2ekn-a3-m1-cA_2ekn-a3-m1-cC Structure of PH1811 protein from Pyrococcus horikoshii O59475 O59475 2.05 X-RAY DIFFRACTION 131 0.993 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 145 145 2ekn-a1-m1-cA_2ekn-a1-m1-cC 2ekn-a1-m1-cB_2ekn-a1-m2-cB 2ekn-a1-m2-cA_2ekn-a1-m2-cC 2ekn-a4-m1-cB_2ekn-a4-m2-cB GVKMVEIGYKDVVFRKAVAKGRIKLKPETVKLIKEGKIEKGNVLATAQIAGILAVKRTPELIPLCHPIPITGVDITFDFGEDYIEVTCEVRAYYKTGVEMEALTGVTVALLAIWDMVKAVEKDEKGQYPYTRIENVHVVEKVKTH VKMVEIGYKDVVFRKAVAKGRIKLKPETVKLIKEGKIEKGNVLATAQIAGILAVKRTPELIPLCHPIPITGVDITFDFGEDYIEVTCEVRAYYKTGVEMEALTGVTVALLAIWDMVKAVEKDEKGQYPYTRIENVHVVEKVKTHN 2ekp-a1-m1-cA_2ekp-a1-m4-cA Structure of TT0495 protein from Thermus thermophilus Q53W82 Q53W82 1.15 X-RAY DIFFRACTION 19 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 238 1x1e-a1-m1-cA_1x1e-a1-m4-cA 1x1e-a1-m2-cA_1x1e-a1-m3-cA 2ekp-a1-m2-cA_2ekp-a1-m3-cA 2ekq-a1-m1-cB_2ekq-a1-m1-cC 2ekq-a1-m1-cD_2ekq-a1-m1-cA 4jp2-a3-m1-cA_4jp2-a3-m4-cA 4jp2-a3-m2-cA_4jp2-a3-m3-cA 4jp3-a3-m1-cA_4jp3-a3-m4-cA 4jp3-a3-m2-cA_4jp3-a3-m3-cA ERKALVTGGSRGIGRAIAEALVARGYRVAIASRNPEEAAQSLGAVPLPTDLEKDDPKGLVKRALEALGGLHVLVHAAAVNVRKPALELSYEEWRRVLYLHLDVAFLLAQAAAPHMAEAGWGRVLFIGSVTTFTAGGPVPIPAYTTAKTALLGLTRALAKEWARLGIRVNLLCPGYVETEFTLPLRQNPELYEPITARIPMGRWARPEEIARVAAVLCGDEAEYLTGQAVAVDGGFLAY ERKALVTGGSRGIGRAIAEALVARGYRVAIASRNPEEAAQSLGAVPLPTDLEKDDPKGLVKRALEALGGLHVLVHAAAVNVRKPALELSYEEWRRVLYLHLDVAFLLAQAAAPHMAEAGWGRVLFIGSVTTFTAGGPVPIPAYTTAKTALLGLTRALAKEWARLGIRVNLLCPGYVETEFTLPLRQNPELYEPITARIPMGRWARPEEIARVAAVLCGDEAEYLTGQAVAVDGGFLAY 2ekp-a2-m1-cA_2ekp-a2-m2-cA Structure of TT0495 protein from Thermus thermophilus Q53W82 Q53W82 1.15 X-RAY DIFFRACTION 114 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 238 1x1e-a1-m1-cA_1x1e-a1-m2-cA 1x1e-a1-m3-cA_1x1e-a1-m4-cA 2ekp-a1-m1-cA_2ekp-a1-m2-cA 2ekp-a1-m3-cA_2ekp-a1-m4-cA 2ekq-a1-m1-cA_2ekq-a1-m1-cC 2ekq-a1-m1-cD_2ekq-a1-m1-cB 2ekq-a4-m1-cA_2ekq-a4-m1-cC 2ekq-a5-m1-cD_2ekq-a5-m1-cB 4jp2-a1-m1-cA_4jp2-a1-m2-cA 4jp2-a3-m1-cA_4jp2-a3-m2-cA 4jp2-a3-m3-cA_4jp2-a3-m4-cA 4jp3-a1-m1-cA_4jp3-a1-m2-cA 4jp3-a3-m1-cA_4jp3-a3-m2-cA 4jp3-a3-m3-cA_4jp3-a3-m4-cA ERKALVTGGSRGIGRAIAEALVARGYRVAIASRNPEEAAQSLGAVPLPTDLEKDDPKGLVKRALEALGGLHVLVHAAAVNVRKPALELSYEEWRRVLYLHLDVAFLLAQAAAPHMAEAGWGRVLFIGSVTTFTAGGPVPIPAYTTAKTALLGLTRALAKEWARLGIRVNLLCPGYVETEFTLPLRQNPELYEPITARIPMGRWARPEEIARVAAVLCGDEAEYLTGQAVAVDGGFLAY ERKALVTGGSRGIGRAIAEALVARGYRVAIASRNPEEAAQSLGAVPLPTDLEKDDPKGLVKRALEALGGLHVLVHAAAVNVRKPALELSYEEWRRVLYLHLDVAFLLAQAAAPHMAEAGWGRVLFIGSVTTFTAGGPVPIPAYTTAKTALLGLTRALAKEWARLGIRVNLLCPGYVETEFTLPLRQNPELYEPITARIPMGRWARPEEIARVAAVLCGDEAEYLTGQAVAVDGGFLAY 2ekp-a3-m1-cA_2ekp-a3-m3-cA Structure of TT0495 protein from Thermus thermophilus Q53W82 Q53W82 1.15 X-RAY DIFFRACTION 111 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 238 238 1x1e-a1-m1-cA_1x1e-a1-m3-cA 1x1e-a1-m2-cA_1x1e-a1-m4-cA 2ekp-a1-m1-cA_2ekp-a1-m3-cA 2ekp-a1-m2-cA_2ekp-a1-m4-cA 2ekq-a1-m1-cA_2ekq-a1-m1-cB 2ekq-a1-m1-cD_2ekq-a1-m1-cC 2ekq-a2-m1-cA_2ekq-a2-m1-cB 2ekq-a3-m1-cD_2ekq-a3-m1-cC 4jp2-a2-m1-cA_4jp2-a2-m3-cA 4jp2-a3-m1-cA_4jp2-a3-m3-cA 4jp2-a3-m2-cA_4jp2-a3-m4-cA 4jp3-a2-m1-cA_4jp3-a2-m3-cA 4jp3-a3-m1-cA_4jp3-a3-m3-cA 4jp3-a3-m2-cA_4jp3-a3-m4-cA ERKALVTGGSRGIGRAIAEALVARGYRVAIASRNPEEAAQSLGAVPLPTDLEKDDPKGLVKRALEALGGLHVLVHAAAVNVRKPALELSYEEWRRVLYLHLDVAFLLAQAAAPHMAEAGWGRVLFIGSVTTFTAGGPVPIPAYTTAKTALLGLTRALAKEWARLGIRVNLLCPGYVETEFTLPLRQNPELYEPITARIPMGRWARPEEIARVAAVLCGDEAEYLTGQAVAVDGGFLAY ERKALVTGGSRGIGRAIAEALVARGYRVAIASRNPEEAAQSLGAVPLPTDLEKDDPKGLVKRALEALGGLHVLVHAAAVNVRKPALELSYEEWRRVLYLHLDVAFLLAQAAAPHMAEAGWGRVLFIGSVTTFTAGGPVPIPAYTTAKTALLGLTRALAKEWARLGIRVNLLCPGYVETEFTLPLRQNPELYEPITARIPMGRWARPEEIARVAAVLCGDEAEYLTGQAVAVDGGFLAY 2eky-a1-m1-cC_2eky-a1-m1-cB Crystal Structure of hypothetical protein MJ1052 from Methanocaldococcus jannaschii (Form 1) Q58452 Q58452 1.8 X-RAY DIFFRACTION 37 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 99 100 2eky-a1-m1-cA_2eky-a1-m1-cD 2eky-a2-m1-cG_2eky-a2-m1-cF 2eky-a2-m1-cH_2eky-a2-m1-cE 2epi-a1-m1-cB_2epi-a1-m1-cC 2epi-a1-m1-cD_2epi-a1-m1-cA IFMRKVVAEVSIIPLGKGASVSKYVKKAIEVFKKYDLKVETNAMGTVLEGDLDEILKAFKEAHSTVLNDVDRVVSSLKIDERKDKENTIERKLKAIGEL MIFMRKVVAEVSIIPLGKGASVSKYVKKAIEVFKKYDLKVETNAMGTVLEGDLDEILKAFKEAHSTVLNDVDRVVSSLKIDERKDKENTIERKLKAIGEL 2eky-a2-m1-cG_2eky-a2-m1-cE Crystal Structure of hypothetical protein MJ1052 from Methanocaldococcus jannaschii (Form 1) Q58452 Q58452 1.8 X-RAY DIFFRACTION 68 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 96 98 2eky-a1-m1-cA_2eky-a1-m1-cC 2eky-a1-m1-cD_2eky-a1-m1-cB 2eky-a2-m1-cH_2eky-a2-m1-cF 2epi-a1-m1-cB_2epi-a1-m1-cD 2epi-a1-m1-cC_2epi-a1-m1-cA MRKVVAEVSIIPLGKGASVSKYVKKAIEVFKKYDLKVETNAMGTVLEGDLDEILKAFKEAHSTVLNDVDRVVSSLKIDERKDKENTIERKLKAIGE FMRKVVAEVSIIPLGKGASVSKYVKKAIEVFKKYDLKVETNAMGTVLEGDLDEILKAFKEAHSTVLNDVDRVVSSLKIDERKDKENTIERKLKAIGEL 2eky-a2-m1-cG_2eky-a2-m1-cH Crystal Structure of hypothetical protein MJ1052 from Methanocaldococcus jannaschii (Form 1) Q58452 Q58452 1.8 X-RAY DIFFRACTION 73 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 96 96 2eky-a1-m1-cA_2eky-a1-m1-cB 2eky-a1-m1-cD_2eky-a1-m1-cC 2eky-a2-m1-cF_2eky-a2-m1-cE 2epi-a1-m1-cB_2epi-a1-m1-cA 2epi-a1-m1-cC_2epi-a1-m1-cD MRKVVAEVSIIPLGKGASVSKYVKKAIEVFKKYDLKVETNAMGTVLEGDLDEILKAFKEAHSTVLNDVDRVVSSLKIDERKDKENTIERKLKAIGE MRKVVAEVSIIPLGKGASVSKYVKKAIEVFKKYDLKVETNAMGTVLEGDLDEILKAFKEAHSTVLNDVDRVVSSLKIDERKDKENTIERKLKAIGE 2el7-a1-m1-cB_2el7-a1-m1-cA Crystal structure of Tryptophanyl-tRNA synthetase from Thermus thermophilus Q5SIY7 Q5SIY7 2.5 X-RAY DIFFRACTION 149 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 316 318 MKRVLSGIQPSGEIHIGNYLGAIKQWVAIGEKLGRDAFFCIVDYHALTNPLAYDPSTLAQRTFEAALVNIAAGLDPEKVTLFVQSHVPEHTELSWVFTTLTPLGDLTRMTQFKDKASKQETVWSGLLMYPVLQAADILIYKADTVPVGEDQVQHIELTREIARRFNHLFGETFPEPQALLNPEAPRVPGIDGKAKMSKSLGNTIGLLEPEESIWQKIQHLPDDTILFTYLSYFAPKDLVEALKEEYRKAGVGTYVVKRILFDHLMEALRPIRERAEALKKDPDYVMDALLEGAKRARAVAQATMEEVREKVGLLLP MKRVLSGIQPSGEIHIGNYLGAIKQWVAIGEKLGRDAFFCIVDYHALTNPLAYDPSTLAQRTFEAALVNIAAGLDPEKVTLFVQSHVPEHTELSWVFTTLTPLGDLTRMTQFKDKASKQETVWSGLLMYPVLQAADILIYKADTVPVGEDQVQHIELTREIARRFNHLFGETFPEPQALLNPEAPRVPGIDGKAKMSKSLGNTIGLLEPEESIWQKIQHLPDDPTILFTYLSYFAPKDLVEALKEEYRKAGVGTYVVKRILFDHLMEALRPIRERAEALKKDPDYVMDALLEGAKRARAVAQATMEEVREKVGLLLPR 2elc-a1-m1-cB_2elc-a1-m1-cD Crystal structure of TTHA1842 from Thermus thermophilus HB8 Q5SH88 Q5SH88 1.55 X-RAY DIFFRACTION 30 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 329 329 1v8g-a2-m1-cA_1v8g-a2-m2-cB 1v8g-a2-m1-cB_1v8g-a2-m2-cA 2elc-a1-m1-cA_2elc-a1-m1-cC MDAVKKAILGEVLEEEEAYEVMRALMAGEVSPVRAAGLLVALSLRGERPHEIAAMARAMREAARPLRVHRRPLLDIVGTGGDGKGLMNLSTLAALVAAAGGVAVAKHGNRAASSRAGSADLLEALGVDLEAPPERVGEAIEELGFGFLFARVFHPAMRHVAPVRAELGVRTVFNLLGPLTNPAGADAYVLGVFSPEWLAPMAEALERLGARGLVVHGEGADELVLGENRVVEVGKGAYALTPEEVGLKRAPLEALKGGGPEENAALARRLLKGEEKGPLADAVALAAGAGFYAAGKTPSLKEGVALAREVLASGEAYLLLERYVAFLRA MDAVKKAILGEVLEEEEAYEVMRALMAGEVSPVRAAGLLVALSLRGERPHEIAAMARAMREAARPLRVHRRPLLDIVGTGGDGKGLMNLSTLAALVAAAGGVAVAKHGNRAASSRAGSADLLEALGVDLEAPPERVGEAIEELGFGFLFARVFHPAMRHVAPVRAELGVRTVFNLLGPLTNPAGADAYVLGVFSPEWLAPMAEALERLGARGLVVHGEGADELVLGENRVVEVGKGAYALTPEEVGLKRAPLEALKGGGPEENAALARRLLKGEEKGPLADAVALAAGAGFYAAGKTPSLKEGVALAREVLASGEAYLLLERYVAFLRA 2elc-a1-m1-cC_2elc-a1-m1-cD Crystal structure of TTHA1842 from Thermus thermophilus HB8 Q5SH88 Q5SH88 1.55 X-RAY DIFFRACTION 39 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 329 329 1v8g-a2-m1-cB_1v8g-a2-m2-cB MDAVKKAILGEVLEEEEAYEVMRALMAGEVSPVRAAGLLVALSLRGERPHEIAAMARAMREAARPLRVHRRPLLDIVGTGGDGKGLMNLSTLAALVAAAGGVAVAKHGNRAASSRAGSADLLEALGVDLEAPPERVGEAIEELGFGFLFARVFHPAMRHVAPVRAELGVRTVFNLLGPLTNPAGADAYVLGVFSPEWLAPMAEALERLGARGLVVHGEGADELVLGENRVVEVGKGAYALTPEEVGLKRAPLEALKGGGPEENAALARRLLKGEEKGPLADAVALAAGAGFYAAGKTPSLKEGVALAREVLASGEAYLLLERYVAFLRA MDAVKKAILGEVLEEEEAYEVMRALMAGEVSPVRAAGLLVALSLRGERPHEIAAMARAMREAARPLRVHRRPLLDIVGTGGDGKGLMNLSTLAALVAAAGGVAVAKHGNRAASSRAGSADLLEALGVDLEAPPERVGEAIEELGFGFLFARVFHPAMRHVAPVRAELGVRTVFNLLGPLTNPAGADAYVLGVFSPEWLAPMAEALERLGARGLVVHGEGADELVLGENRVVEVGKGAYALTPEEVGLKRAPLEALKGGGPEENAALARRLLKGEEKGPLADAVALAAGAGFYAAGKTPSLKEGVALAREVLASGEAYLLLERYVAFLRA 2emq-a1-m1-cB_2emq-a1-m1-cA Hypothetical Conserved Protein (GK1048) from Geobacillus Kaustophilus Q5L147 Q5L147 2.5 X-RAY DIFFRACTION 81 0.992 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 133 135 MQMTVKPFLIPADKVAHVQPGNYLDHALLVLTKTGYSAIPVLDTSYKLHGLISMTMMMDAILGLERIEFERLETMKVEEVMNRNIPRLRLDDSLMKAVGLIVNHPFVCVENDDGYFAGIFTRREVLKQLNKQL QMTVKPFLIPADKVAHVQPGNYLDHALLVLTKTGYSAIPVLDTSYKLHGLISMTMMMDAILGLERIEFERLETMKVEEVMNRNIPRLRLDDSLMKAVGLIVNHPFVCVENDDGYFAGIFTRREVLKQLNKQLHRP 2enx-a2-m1-cB_2enx-a2-m3-cB Structure of the family II inorganic pyrophosphatase from Streptococcus agalactiae at 2.8 resolution Q3K0B5 Q3K0B5 2.8 X-RAY DIFFRACTION 73 1.0 205921 (Streptococcus agalactiae A909) 205921 (Streptococcus agalactiae A909) 310 310 2enx-a1-m1-cA_2enx-a1-m2-cA SKILVFGHQNPDSDAIGSSVAFAYLAKEAWGLDTEAVALGTPNEETAYVLDYFGVQAPRVVESAKAEGVETVILTDHNEFQQSISDIKDVTVYGVVDHHRVANFETANPLYMRLEPVGSASSIVYRMFKENGVSVPKELAGLLLSGLISDTLLLKSPTTHASDIPVAKELAELAGVNLEEYGLEMLKAGTNLSSKTAAELIDIDAKTFELNGEAVRVAQVNTVDINDILARQEEIEVAIQEAIVTEGYSDFVLMITDIVNSNSEILALGSNMAKVEAAFEFTLENNHAFLAGAVSRKKQVVPQLTESYNA SKILVFGHQNPDSDAIGSSVAFAYLAKEAWGLDTEAVALGTPNEETAYVLDYFGVQAPRVVESAKAEGVETVILTDHNEFQQSISDIKDVTVYGVVDHHRVANFETANPLYMRLEPVGSASSIVYRMFKENGVSVPKELAGLLLSGLISDTLLLKSPTTHASDIPVAKELAELAGVNLEEYGLEMLKAGTNLSSKTAAELIDIDAKTFELNGEAVRVAQVNTVDINDILARQEEIEVAIQEAIVTEGYSDFVLMITDIVNSNSEILALGSNMAKVEAAFEFTLENNHAFLAGAVSRKKQVVPQLTESYNA 2eo0-a1-m2-cB_2eo0-a1-m1-cA Crystal Structure of Holliday Junction Resolvase ST1444 F9VND5 F9VND5 2.4 X-RAY DIFFRACTION 56 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 124 130 SSVERYIVSRLRDKGFAVIRARKDHVPDIIALKSGVIILIEVKSRKIYIEKEQAEGIREFAKRSGGELFLGVKLPKMLRFIKFDMLRQTEGGNYAIDLETVEKGMELEDLVRYVESKISRTLDS SSVERYIVSRLRDKGFAVIRAKRKDHVPDIIALKSGVIILIEVKSRKNGKIYIEKEQAEGIREFAKRSGGELFLGVKLPKMLRFIKFDMLRQTEGGNYAIDLETVEKGMELEDLVRYVESKISRTLDSFL 2eo0-a2-m1-cB_2eo0-a2-m1-cA Crystal Structure of Holliday Junction Resolvase ST1444 F9VND5 F9VND5 2.4 X-RAY DIFFRACTION 19 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 124 130 SSVERYIVSRLRDKGFAVIRARKDHVPDIIALKSGVIILIEVKSRKIYIEKEQAEGIREFAKRSGGELFLGVKLPKMLRFIKFDMLRQTEGGNYAIDLETVEKGMELEDLVRYVESKISRTLDS SSVERYIVSRLRDKGFAVIRAKRKDHVPDIIALKSGVIILIEVKSRKNGKIYIEKEQAEGIREFAKRSGGELFLGVKLPKMLRFIKFDMLRQTEGGNYAIDLETVEKGMELEDLVRYVESKISRTLDSFL 2eo4-a1-m1-cA_2eo4-a1-m2-cA Crystal structure of hypothetical histidine triad nucleotide-binding protein ST2152 from Sulfolobus tokodaii strain7 Q96YM2 Q96YM2 1.8 X-RAY DIFFRACTION 119 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 149 149 CTFCSIINRELEGYFVYEDEKFAAILDKYPVSLGHTLVIPKKHFENYLEADEDTLAELAKVVKLVSLGIKDAVKADGLRLLTNIGRSAGQVIFHLHVHIIPTWEGDYPDIFKSFKPRKEQEKEYYELLQKIIRESIENLKRKIGDYKWG CTFCSIINRELEGYFVYEDEKFAAILDKYPVSLGHTLVIPKKHFENYLEADEDTLAELAKVVKLVSLGIKDAVKADGLRLLTNIGRSAGQVIFHLHVHIIPTWEGDYPDIFKSFKPRKEQEKEYYELLQKIIRESIENLKRKIGDYKWG 2eo5-a1-m2-cA_2eo5-a1-m4-cA Crystal structure of 4-aminobutyrate aminotransferase from Sulfolobus tokodaii strain7 F9VN77 F9VN77 1.9 X-RAY DIFFRACTION 89 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 412 412 2eo5-a1-m1-cA_2eo5-a1-m3-cA MLSRKIIEESDIYLATSTRDPELFPLVIDHGEGVWIYDVDGNKYLDFTSGIGVNNLGWPSHPEVIKIGIEQMQKLAHAAANDFYNIPQLELAKKLVTYSPGNFQKKVFFSNSGTEAIEASIKVVKNTGRKYIIAFLGGFHGRTFGSISLTASKAVQRSIVGPFMPGVIHVPYPNPYRNPWHINGYENPSELVNRVIEFIEDYIFVNLVPPEEVAGIFFEPIQGEGGYVIPPKNFFAELQKLAKKYGILLVDDEVQMGLGRTGKLFAIENFNTVPDVITLAKALGGGIMPIGATIFRKDLDFKTFGGNALACAIGSKVIDIVKDLLPHVNEIGKIFAEELQGLADDVRGIGLAWGLEYNEKKVRDRIIGESFKRGLLLLPAGRSAIRVIPPLVISEEEAKQGLDILKKVIKVV MLSRKIIEESDIYLATSTRDPELFPLVIDHGEGVWIYDVDGNKYLDFTSGIGVNNLGWPSHPEVIKIGIEQMQKLAHAAANDFYNIPQLELAKKLVTYSPGNFQKKVFFSNSGTEAIEASIKVVKNTGRKYIIAFLGGFHGRTFGSISLTASKAVQRSIVGPFMPGVIHVPYPNPYRNPWHINGYENPSELVNRVIEFIEDYIFVNLVPPEEVAGIFFEPIQGEGGYVIPPKNFFAELQKLAKKYGILLVDDEVQMGLGRTGKLFAIENFNTVPDVITLAKALGGGIMPIGATIFRKDLDFKTFGGNALACAIGSKVIDIVKDLLPHVNEIGKIFAEELQGLADDVRGIGLAWGLEYNEKKVRDRIIGESFKRGLLLLPAGRSAIRVIPPLVISEEEAKQGLDILKKVIKVV 2eo5-a1-m3-cA_2eo5-a1-m4-cA Crystal structure of 4-aminobutyrate aminotransferase from Sulfolobus tokodaii strain7 F9VN77 F9VN77 1.9 X-RAY DIFFRACTION 275 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 412 412 2eo5-a1-m1-cA_2eo5-a1-m2-cA MLSRKIIEESDIYLATSTRDPELFPLVIDHGEGVWIYDVDGNKYLDFTSGIGVNNLGWPSHPEVIKIGIEQMQKLAHAAANDFYNIPQLELAKKLVTYSPGNFQKKVFFSNSGTEAIEASIKVVKNTGRKYIIAFLGGFHGRTFGSISLTASKAVQRSIVGPFMPGVIHVPYPNPYRNPWHINGYENPSELVNRVIEFIEDYIFVNLVPPEEVAGIFFEPIQGEGGYVIPPKNFFAELQKLAKKYGILLVDDEVQMGLGRTGKLFAIENFNTVPDVITLAKALGGGIMPIGATIFRKDLDFKTFGGNALACAIGSKVIDIVKDLLPHVNEIGKIFAEELQGLADDVRGIGLAWGLEYNEKKVRDRIIGESFKRGLLLLPAGRSAIRVIPPLVISEEEAKQGLDILKKVIKVV MLSRKIIEESDIYLATSTRDPELFPLVIDHGEGVWIYDVDGNKYLDFTSGIGVNNLGWPSHPEVIKIGIEQMQKLAHAAANDFYNIPQLELAKKLVTYSPGNFQKKVFFSNSGTEAIEASIKVVKNTGRKYIIAFLGGFHGRTFGSISLTASKAVQRSIVGPFMPGVIHVPYPNPYRNPWHINGYENPSELVNRVIEFIEDYIFVNLVPPEEVAGIFFEPIQGEGGYVIPPKNFFAELQKLAKKYGILLVDDEVQMGLGRTGKLFAIENFNTVPDVITLAKALGGGIMPIGATIFRKDLDFKTFGGNALACAIGSKVIDIVKDLLPHVNEIGKIFAEELQGLADDVRGIGLAWGLEYNEKKVRDRIIGESFKRGLLLLPAGRSAIRVIPPLVISEEEAKQGLDILKKVIKVV 2eo8-a1-m1-cC_2eo8-a1-m1-cD Crystal structure of a mutant pyrrolidone carboxyl peptidase (A199P) from P. furiosus O73944 O73944 2.3 X-RAY DIFFRACTION 40 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 208 208 1iof-a1-m1-cA_1iof-a1-m1-cD 1iof-a1-m1-cB_1iof-a1-m1-cC 1ioi-a1-m1-cA_1ioi-a1-m1-cD 1ioi-a1-m1-cB_1ioi-a1-m1-cC 1x10-a1-m1-cA_1x10-a1-m1-cD 1x10-a1-m1-cB_1x10-a1-m1-cC 1x12-a1-m1-cA_1x12-a1-m1-cD 1x12-a1-m1-cB_1x12-a1-m1-cC 1z8t-a1-m1-cA_1z8t-a1-m1-cD 1z8t-a1-m1-cB_1z8t-a1-m1-cC 1z8w-a1-m1-cA_1z8w-a1-m1-cD 1z8w-a1-m1-cB_1z8w-a1-m1-cC 1z8x-a1-m1-cA_1z8x-a1-m1-cD 1z8x-a1-m1-cB_1z8x-a1-m1-cC 2df5-a1-m1-cA_2df5-a1-m1-cB 2df5-a1-m1-cC_2df5-a1-m1-cD 2eo8-a1-m1-cA_2eo8-a1-m1-cB MKVLVTGFEPFGGEKINPTERIAKDLDGIKIGDAQVFGRVLPVVFGKAKEVLEKTLEEIKPDIAIHVGLAPGRSAISIERIAVNAIDARIPDNEGKKIEDEPIVPGAPTAYFSTLPIKKIMKKLHERGIPAYISNSAGLYLSNYVMYLSLHHSATKGYPKMSGFIHVPYIPEQIIDKIGKGQVPPSMSYEMELEAVKVPIEVALEELL MKVLVTGFEPFGGEKINPTERIAKDLDGIKIGDAQVFGRVLPVVFGKAKEVLEKTLEEIKPDIAIHVGLAPGRSAISIERIAVNAIDARIPDNEGKKIEDEPIVPGAPTAYFSTLPIKKIMKKLHERGIPAYISNSAGLYLSNYVMYLSLHHSATKGYPKMSGFIHVPYIPEQIIDKIGKGQVPPSMSYEMELEAVKVPIEVALEELL 2ep5-a1-m1-cD_2ep5-a1-m1-cB Structural study of Project ID ST1242 from Sulfolobus tokodaii strain7 Q971Y6 Q971Y6 2.4 X-RAY DIFFRACTION 48 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 348 349 2ep5-a1-m1-cA_2ep5-a1-m1-cC DKIKVSLLGSTGMVGQKMVKMLAKHPYLELVKVSASPSKIGKKYKDAVKWIEQGDIPEEVQDLPIVSTNYEDHKDVDVVLSALPNELAESIELELVKNGKIVVSNASPFRMDPDVPLINPEINWEHLELLKFQKERKGWKGILVKNPNCTAAIMSMPIKPLIEIATKSKIIITTLQAVSGAGYNGISFMAIEGNIIPYIKGEEDKIAKELTKLNGKLENNQIIPANLDSTVTSIRVPTRVGHMGVINIVTNERINIEEIKKTLKNFKSLPQQKNLPTAPKQPIIVRDEEDRPQPIIDVNAESGMAVTVGRIRHENNVLRLVVLGDNLVRGAAGITILTVEVMKELGYI ADKIKVSLLGSTGMVGQKMVKMLAKHPYLELVKVSASPSKIGKKYKDAVKWIEQGDIPEEVQDLPIVSTNYEDHKDVDVVLSALPNELAESIELELVKNGKIVVSNASPFRMDPDVPLINPEINWEHLELLKFQKERKGWKGILVKNPNCTAAIMSMPIKPLIEIATKSKIIITTLQAVSGAGYNGISFMAIEGNIIPYIKGEEDKIAKELTKLNGKLENNQIIPANLDSTVTSIRVPTRVGHMGVINIVTNERINIEEIKKTLKNFKSLPQQKNLPTAPKQPIIVRDEEDRPQPIIDVNAESGMAVTVGRIRHENNVLRLVVLGDNLVRGAAGITILTVEVMKELGYI 2ep5-a1-m1-cD_2ep5-a1-m1-cC Structural study of Project ID ST1242 from Sulfolobus tokodaii strain7 Q971Y6 Q971Y6 2.4 X-RAY DIFFRACTION 118 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 348 349 2ep5-a1-m1-cA_2ep5-a1-m1-cB DKIKVSLLGSTGMVGQKMVKMLAKHPYLELVKVSASPSKIGKKYKDAVKWIEQGDIPEEVQDLPIVSTNYEDHKDVDVVLSALPNELAESIELELVKNGKIVVSNASPFRMDPDVPLINPEINWEHLELLKFQKERKGWKGILVKNPNCTAAIMSMPIKPLIEIATKSKIIITTLQAVSGAGYNGISFMAIEGNIIPYIKGEEDKIAKELTKLNGKLENNQIIPANLDSTVTSIRVPTRVGHMGVINIVTNERINIEEIKKTLKNFKSLPQQKNLPTAPKQPIIVRDEEDRPQPIIDVNAESGMAVTVGRIRHENNVLRLVVLGDNLVRGAAGITILTVEVMKELGYI ADKIKVSLLGSTGMVGQKMVKMLAKHPYLELVKVSASPSKIGKKYKDAVKWIEQGDIPEEVQDLPIVSTNYEDHKDVDVVLSALPNELAESIELELVKNGKIVVSNASPFRMDPDVPLINPEINWEHLELLKFQKERKGWKGILVKNPNCTAAIMSMPIKPLIEIATKSKIIITTLQAVSGAGYNGISFMAIEGNIIPYIKGEEDKIAKELTKLNGKLENNQIIPANLDSTVTSIRVPTRVGHMGVINIVTNERINIEEIKKTLKNFKSLPQQKNLPTAPKQPIIVRDEEDRPQPIIDVNAESGMAVTVGRIRHENNVLRLVVLGDNLVRGAAGITILTVEVMKELGYI 2ep7-a2-m1-cA_2ep7-a2-m2-cB Structural study of Project ID aq_1065 from Aquifex aeolicus VF5 O67161 O67161 2.3 X-RAY DIFFRACTION 32 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 338 339 2ep7-a2-m2-cA_2ep7-a2-m1-cB IKVGINGFGRIGRSFFRASWGREEIEIVAINDLTDAKHLAHLLKYDSVHGIFKGSVEAKDDSIVVDGKEIKVFAQKDPSQIPWGDLGVDVVIEATGVFRDRENASKHLQGGAKKVIITAPAKNPDITVVLGVNEEKYNPKEHNIISNASCTTNCLAPCVKVLNEAFGVEKGYMVTVHAYTNDQRLLDLPHKDFRRARAAAINIVPTTTGAAKAIGEVIPELKGKLDGTARRVPVPDGSLIDLTVVVNKAPSSVEEVNEKFREAAQKYRESGKVYLKEILQYCEDPIVSTDIVGNPHSAIFDAPLTQVIDNLVHIAAWYDNEWGYSCRLRDLVIYLAER AIKVGINGFGRIGRSFFRASWGREEIEIVAINDLTDAKHLAHLLKYDSVHGIFKGSVEAKDDSIVVDGKEIKVFAQKDPSQIPWGDLGVDVVIEATGVFRDRENASKHLQGGAKKVIITAPAKNPDITVVLGVNEEKYNPKEHNIISNASCTTNCLAPCVKVLNEAFGVEKGYMVTVHAYTNDQRLLDLPHKDFRRARAAAINIVPTTTGAAKAIGEVIPELKGKLDGTARRVPVPDGSLIDLTVVVNKAPSSVEEVNEKFREAAQKYRESGKVYLKEILQYCEDPIVSTDIVGNPHSAIFDAPLTQVIDNLVHIAAWYDNEWGYSCRLRDLVIYLAER 2ep7-a2-m1-cB_2ep7-a2-m2-cB Structural study of Project ID aq_1065 from Aquifex aeolicus VF5 O67161 O67161 2.3 X-RAY DIFFRACTION 102 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 339 339 2ep7-a2-m1-cA_2ep7-a2-m2-cA AIKVGINGFGRIGRSFFRASWGREEIEIVAINDLTDAKHLAHLLKYDSVHGIFKGSVEAKDDSIVVDGKEIKVFAQKDPSQIPWGDLGVDVVIEATGVFRDRENASKHLQGGAKKVIITAPAKNPDITVVLGVNEEKYNPKEHNIISNASCTTNCLAPCVKVLNEAFGVEKGYMVTVHAYTNDQRLLDLPHKDFRRARAAAINIVPTTTGAAKAIGEVIPELKGKLDGTARRVPVPDGSLIDLTVVVNKAPSSVEEVNEKFREAAQKYRESGKVYLKEILQYCEDPIVSTDIVGNPHSAIFDAPLTQVIDNLVHIAAWYDNEWGYSCRLRDLVIYLAER AIKVGINGFGRIGRSFFRASWGREEIEIVAINDLTDAKHLAHLLKYDSVHGIFKGSVEAKDDSIVVDGKEIKVFAQKDPSQIPWGDLGVDVVIEATGVFRDRENASKHLQGGAKKVIITAPAKNPDITVVLGVNEEKYNPKEHNIISNASCTTNCLAPCVKVLNEAFGVEKGYMVTVHAYTNDQRLLDLPHKDFRRARAAAINIVPTTTGAAKAIGEVIPELKGKLDGTARRVPVPDGSLIDLTVVVNKAPSSVEEVNEKFREAAQKYRESGKVYLKEILQYCEDPIVSTDIVGNPHSAIFDAPLTQVIDNLVHIAAWYDNEWGYSCRLRDLVIYLAER 2ep7-a2-m2-cA_2ep7-a2-m2-cB Structural study of Project ID aq_1065 from Aquifex aeolicus VF5 O67161 O67161 2.3 X-RAY DIFFRACTION 135 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 338 339 2ep7-a1-m1-cA_2ep7-a1-m1-cB 2ep7-a2-m1-cA_2ep7-a2-m1-cB IKVGINGFGRIGRSFFRASWGREEIEIVAINDLTDAKHLAHLLKYDSVHGIFKGSVEAKDDSIVVDGKEIKVFAQKDPSQIPWGDLGVDVVIEATGVFRDRENASKHLQGGAKKVIITAPAKNPDITVVLGVNEEKYNPKEHNIISNASCTTNCLAPCVKVLNEAFGVEKGYMVTVHAYTNDQRLLDLPHKDFRRARAAAINIVPTTTGAAKAIGEVIPELKGKLDGTARRVPVPDGSLIDLTVVVNKAPSSVEEVNEKFREAAQKYRESGKVYLKEILQYCEDPIVSTDIVGNPHSAIFDAPLTQVIDNLVHIAAWYDNEWGYSCRLRDLVIYLAER AIKVGINGFGRIGRSFFRASWGREEIEIVAINDLTDAKHLAHLLKYDSVHGIFKGSVEAKDDSIVVDGKEIKVFAQKDPSQIPWGDLGVDVVIEATGVFRDRENASKHLQGGAKKVIITAPAKNPDITVVLGVNEEKYNPKEHNIISNASCTTNCLAPCVKVLNEAFGVEKGYMVTVHAYTNDQRLLDLPHKDFRRARAAAINIVPTTTGAAKAIGEVIPELKGKLDGTARRVPVPDGSLIDLTVVVNKAPSSVEEVNEKFREAAQKYRESGKVYLKEILQYCEDPIVSTDIVGNPHSAIFDAPLTQVIDNLVHIAAWYDNEWGYSCRLRDLVIYLAER 2epf-a5-m1-cC_2epf-a5-m2-cA Crystal Structure of Zinc-Bound Pseudecin From Pseudechis Porphyriacus Q8AVA3 Q8AVA3 2.3 X-RAY DIFFRACTION 18 1.0 8671 (Pseudechis porphyriacus) 8671 (Pseudechis porphyriacus) 207 207 NYQKEIVDKHNALRRSVKPTARNMLQMKWNSHAAQNAKRWADRCTFAHSPPNTRTVGKLRCGENIFMSSQPFPWSGVVQAWYDEIKNFVYGIGAKPPGSVIGHYTQVVWYKSHLIGCASAKCSSSKYLYVCQYCPAGNIRGSIATPYKSGPPCADCPSACVNRLCTNPCNYNNDFSNCKSLAKKSKCQTEWIKKKCPASCFCHNKII NYQKEIVDKHNALRRSVKPTARNMLQMKWNSHAAQNAKRWADRCTFAHSPPNTRTVGKLRCGENIFMSSQPFPWSGVVQAWYDEIKNFVYGIGAKPPGSVIGHYTQVVWYKSHLIGCASAKCSSSKYLYVCQYCPAGNIRGSIATPYKSGPPCADCPSACVNRLCTNPCNYNNDFSNCKSLAKKSKCQTEWIKKKCPASCFCHNKII 2epf-a5-m2-cA_2epf-a5-m3-cD Crystal Structure of Zinc-Bound Pseudecin From Pseudechis Porphyriacus Q8AVA3 Q8AVA3 2.3 X-RAY DIFFRACTION 76 1.0 8671 (Pseudechis porphyriacus) 8671 (Pseudechis porphyriacus) 207 207 2epf-a5-m1-cB_2epf-a5-m1-cC NYQKEIVDKHNALRRSVKPTARNMLQMKWNSHAAQNAKRWADRCTFAHSPPNTRTVGKLRCGENIFMSSQPFPWSGVVQAWYDEIKNFVYGIGAKPPGSVIGHYTQVVWYKSHLIGCASAKCSSSKYLYVCQYCPAGNIRGSIATPYKSGPPCADCPSACVNRLCTNPCNYNNDFSNCKSLAKKSKCQTEWIKKKCPASCFCHNKII NYQKEIVDKHNALRRSVKPTARNMLQMKWNSHAAQNAKRWADRCTFAHSPPNTRTVGKLRCGENIFMSSQPFPWSGVVQAWYDEIKNFVYGIGAKPPGSVIGHYTQVVWYKSHLIGCASAKCSSSKYLYVCQYCPAGNIRGSIATPYKSGPPCADCPSACVNRLCTNPCNYNNDFSNCKSLAKKSKCQTEWIKKKCPASCFCHNKII 2epl-a1-m1-cX_2epl-a1-m2-cX N-acetyl-B-D-glucosaminidase (GCNA) from Streptococcus gordonii Q6ST21 Q6ST21 1.4 X-RAY DIFFRACTION 207 1.0 1302 (Streptococcus gordonii) 1302 (Streptococcus gordonii) 614 614 2epk-a1-m1-cX_2epk-a1-m2-cX 2epm-a1-m1-cX_2epm-a1-m2-cX 2epn-a1-m1-cA_2epn-a1-m1-cB 2epo-a1-m1-cB_2epo-a1-m1-cA ATFLGLSSKQEKALVRLDKYLNLGEIAVSLVTDSATSIKVEGRQGYYQVSYKQPHQLYRALALLSAALRSGQDEVQIEEEAAYEDLAYMADCSRNAVLNLSSAKKMIEVLALMGYSTFELYMEDTYEIENQPYFGYFRGRYTVAELQEIEDYAADFDMSFVPCIQTLAHLSAFVKWGIKEVQELRDVEDILLIGEEKVYDLIEGMFQTMAHLHTRKINIGMDEAHLVGLGRYLIKHGFQNRSLLMCQHLERVLDIADKYGFNCQMWSDMFFKLMPEETRVYLDRLKERVTLVYWDYYQDSEEKYNRNFQNHHKISQDIAFAGGAWKWIGFTPHNHFSRLVAIEANKACRKNQVKEVIVTGWGDNGGETSQFSVLPALQIWAELAYRNDLKKVSEHFLVSTGLDFDDFMKIDLANLLPDLPDNLSGINPNRYVLYQDVLCPLLEQHIRPEKDKQHFASSAQQLGEISKRAGEYAYIFETQAQLNALLALKISITSGIQKAYRNGDKEHLSALAEKDFPQLYQMVEDFSDQFSRQWQQENKIFGLDTIDIRFGGLLKRIKRAQERLEQFISGQIDCVEELEQEILPFNDFYKDQGLTATTANQWHLIATASTIYTT ATFLGLSSKQEKALVRLDKYLNLGEIAVSLVTDSATSIKVEGRQGYYQVSYKQPHQLYRALALLSAALRSGQDEVQIEEEAAYEDLAYMADCSRNAVLNLSSAKKMIEVLALMGYSTFELYMEDTYEIENQPYFGYFRGRYTVAELQEIEDYAADFDMSFVPCIQTLAHLSAFVKWGIKEVQELRDVEDILLIGEEKVYDLIEGMFQTMAHLHTRKINIGMDEAHLVGLGRYLIKHGFQNRSLLMCQHLERVLDIADKYGFNCQMWSDMFFKLMPEETRVYLDRLKERVTLVYWDYYQDSEEKYNRNFQNHHKISQDIAFAGGAWKWIGFTPHNHFSRLVAIEANKACRKNQVKEVIVTGWGDNGGETSQFSVLPALQIWAELAYRNDLKKVSEHFLVSTGLDFDDFMKIDLANLLPDLPDNLSGINPNRYVLYQDVLCPLLEQHIRPEKDKQHFASSAQQLGEISKRAGEYAYIFETQAQLNALLALKISITSGIQKAYRNGDKEHLSALAEKDFPQLYQMVEDFSDQFSRQWQQENKIFGLDTIDIRFGGLLKRIKRAQERLEQFISGQIDCVEELEQEILPFNDFYKDQGLTATTANQWHLIATASTIYTT 2eq5-a2-m1-cD_2eq5-a2-m1-cC Crystal structure of hydantoin racemase from Pyrococcus horikoshii OT3 O58781 O58781 2.2 X-RAY DIFFRACTION 86 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 200 215 2eq5-a1-m1-cB_2eq5-a1-m1-cA KYTIGLIRVITLEDKEILNLHGRIIESAFPELKVVSRCIEDQPKGIYNEETEREAEPKIIRLAKEFEREGVDAIIISCAADPAVEKVRKLLSIPVIGAGSSVSALALAYGRRVGVLNETPKVIRSILGNNLIAEDHPSGRREVINAAKRLKEKGVEVIALGCTGMSTIGIAPVLEEEVGIPVIDPVIASGAVALHALKRR KYTIGLIRVITLEDKEILNLHGRIIESAFPELKVVSRCIEDQPKGIYNEETEREAEPKIIRLAKEFEREGVDAIIISCAADPAVEKVRKLLSIPVIGAGSSVSALALAYGRRVGVLNLTEETPKVIRSILGNNLIAEDHPSGVSNTLDLLTDWGRREVINAAKRLKEKGVEVIALGCTGMSTIGIAPVLEEEVGIPVIDPVIASGAVALHALKRR 2eq6-a1-m1-cB_2eq6-a1-m1-cA Crystal structure of lipoamide dehydrogenase from thermus thermophilus HB8 Q5SLR0 Q5SLR0 1.6 X-RAY DIFFRACTION 274 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 460 460 2eq8-a1-m1-cB_2eq8-a1-m1-cA 2eq8-a2-m1-cE_2eq8-a2-m1-cD 2eq9-a1-m1-cB_2eq9-a1-m1-cA 2eq9-a2-m1-cE_2eq9-a2-m1-cD 2eq9-a3-m1-cH_2eq9-a3-m1-cG 2eq9-a4-m1-cK_2eq9-a4-m1-cJ MKTYDLIVIGTGPGGYHAAIRAAQLGLKVLAVEAGEVGGVCLNVGCIPTKALLHAAETLHHLKVAEGFGLKAKPELDLKKLGGWRDQVVKKLTGGVGTLLKGNGVELLRGFARLVGPKEVEVGGERYGAKSLILATGSEPLELKGFPFGEDVWDSTRALKVEEGLPKRLLVIGGGAVGLELGQVYRRLGAEVTLIEYMPEILPQGDPETAALLRRALEKEGIRVRTKTKAVGYEKKKDGLHVRLEPAEGGEGEEVVVDKVLVAVGRKPRTEGLGLEKAGVKVDERGFIRVNARMETSVPGVYAIGDAARPPLLAHKAMREGLIAAENAAGKDSAFDYQVPSVVYTSPEWAGVGLTEEEAKRAGYKVKVGKFPLAASGRALTLGGAEGMVKVVGDEETDLLLGVFIVGPQAGELIAEAALALEMGATLTDLALTVHPHPTLSESLMEAAEAFHKQAIHILN MKTYDLIVIGTGPGGYHAAIRAAQLGLKVLAVEAGEVGGVCLNVGCIPTKALLHAAETLHHLKVAEGFGLKAKPELDLKKLGGWRDQVVKKLTGGVGTLLKGNGVELLRGFARLVGPKEVEVGGERYGAKSLILATGSEPLELKGFPFGEDVWDSTRALKVEEGLPKRLLVIGGGAVGLELGQVYRRLGAEVTLIEYMPEILPQGDPETAALLRRALEKEGIRVRTKTKAVGYEKKKDGLHVRLEPAEGGEGEEVVVDKVLVAVGRKPRTEGLGLEKAGVKVDERGFIRVNARMETSVPGVYAIGDAARPPLLAHKAMREGLIAAENAAGKDSAFDYQVPSVVYTSPEWAGVGLTEEEAKRAGYKVKVGKFPLAASGRALTLGGAEGMVKVVGDEETDLLLGVFIVGPQAGELIAEAALALEMGATLTDLALTVHPHPTLSESLMEAAEAFHKQAIHILN 2erb-a3-m1-cA_2erb-a3-m1-cB AgamOBP1, and odorant binding protein from Anopheles gambiae complexed with PEG 1.5 X-RAY DIFFRACTION 19 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 123 123 3n7h-a1-m1-cA_3n7h-a1-m1-cB 5el2-a1-m1-cA_5el2-a1-m1-cB TPRRDAEYPPPELLEALKPLHDICLGKTGVTEEAIKKFSDEEIHEDEKLKCYMNCLFHEAKVVDDNGDVHLEKLHDSLPSSMHDIAMHMGKRCLYPEGETLCDKAFWLHKCWKQSDPKHYFLV TPRRDAEYPPPELLEALKPLHDICLGKTGVTEEAIKKFSDEEIHEDEKLKCYMNCLFHEAKVVDDNGDVHLEKLHDSLPSSMHDIAMHMGKRCLYPEGETLCDKAFWLHKCWKQSDPKHYFLV 2ere-a1-m1-cA_2ere-a1-m1-cB Crystal Structure of a Leu3 DNA-binding domain complexed with a 15mer DNA duplex P08638 P08638 3 X-RAY DIFFRACTION 14 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 60 60 2erg-a1-m1-cA_2erg-a1-m1-cB FACVECRQQKSKCDAHPCTKCAKKNVPCILKRDFRRTYKRARNEAIEKRFKELTRTLTNL FACVECRQQKSKCDAHPCTKCAKKNVPCILKRDFRRTYKRARNEAIEKRFKELTRTLTNL 2ero-a1-m1-cA_2ero-a1-m1-cB Crystal structure of vascular apoptosis-inducing protein-1(orthorhombic crystal form) Q9DGB9 Q9DGB9 2.5 X-RAY DIFFRACTION 58 1.0 8730 (Crotalus atrox) 8730 (Crotalus atrox) 426 426 2erp-a1-m1-cA_2erp-a1-m1-cB 2erq-a1-m1-cB_2erq-a1-m1-cA SNLTPEQQRYLNAKKYVKLFLVADYIMYLKYGRNLTAVRTRMYDIVNVITPIYHRMNIHVALVGLEIWSNTDKIIVQSSADVTLDLFAKWRATDLLSRKSHDNAQLLTGINFNGPTAGLGYLGGICNTMYSAGIVQDHSKIHHLVAIAMAHEMGHNLGMDHDKDTCTCGTRPCVMAGALSCEASFLFSDCSQKDHREFLIKNMPQCILKKPLKTDVVSPAVCGNYFVEVGEECDCGSPRTCRDPCCDATTCKLRQGAQCAEGLCCDQCRFKGAGTECRAAKDECDMADVCTGRSAECTDRFQRNGQPCKNNNGYCYNGKCPIMADQCIALFGPGATVSQDACFQFNREGNHYGYCRKEQNTKIACEPQDVKCGRLYCFPNSPENKNPCNIYYSPNDEDKGMVLPGTKCADRKACSNGQCVDVTTPY SNLTPEQQRYLNAKKYVKLFLVADYIMYLKYGRNLTAVRTRMYDIVNVITPIYHRMNIHVALVGLEIWSNTDKIIVQSSADVTLDLFAKWRATDLLSRKSHDNAQLLTGINFNGPTAGLGYLGGICNTMYSAGIVQDHSKIHHLVAIAMAHEMGHNLGMDHDKDTCTCGTRPCVMAGALSCEASFLFSDCSQKDHREFLIKNMPQCILKKPLKTDVVSPAVCGNYFVEVGEECDCGSPRTCRDPCCDATTCKLRQGAQCAEGLCCDQCRFKGAGTECRAAKDECDMADVCTGRSAECTDRFQRNGQPCKNNNGYCYNGKCPIMADQCIALFGPGATVSQDACFQFNREGNHYGYCRKEQNTKIACEPQDVKCGRLYCFPNSPENKNPCNIYYSPNDEDKGMVLPGTKCADRKACSNGQCVDVTTPY 2ero-a2-m1-cA_2ero-a2-m2-cB Crystal structure of vascular apoptosis-inducing protein-1(orthorhombic crystal form) Q9DGB9 Q9DGB9 2.5 X-RAY DIFFRACTION 103 1.0 8730 (Crotalus atrox) 8730 (Crotalus atrox) 426 426 2erp-a2-m1-cA_2erp-a2-m2-cB 2erq-a2-m2-cB_2erq-a2-m1-cA SNLTPEQQRYLNAKKYVKLFLVADYIMYLKYGRNLTAVRTRMYDIVNVITPIYHRMNIHVALVGLEIWSNTDKIIVQSSADVTLDLFAKWRATDLLSRKSHDNAQLLTGINFNGPTAGLGYLGGICNTMYSAGIVQDHSKIHHLVAIAMAHEMGHNLGMDHDKDTCTCGTRPCVMAGALSCEASFLFSDCSQKDHREFLIKNMPQCILKKPLKTDVVSPAVCGNYFVEVGEECDCGSPRTCRDPCCDATTCKLRQGAQCAEGLCCDQCRFKGAGTECRAAKDECDMADVCTGRSAECTDRFQRNGQPCKNNNGYCYNGKCPIMADQCIALFGPGATVSQDACFQFNREGNHYGYCRKEQNTKIACEPQDVKCGRLYCFPNSPENKNPCNIYYSPNDEDKGMVLPGTKCADRKACSNGQCVDVTTPY SNLTPEQQRYLNAKKYVKLFLVADYIMYLKYGRNLTAVRTRMYDIVNVITPIYHRMNIHVALVGLEIWSNTDKIIVQSSADVTLDLFAKWRATDLLSRKSHDNAQLLTGINFNGPTAGLGYLGGICNTMYSAGIVQDHSKIHHLVAIAMAHEMGHNLGMDHDKDTCTCGTRPCVMAGALSCEASFLFSDCSQKDHREFLIKNMPQCILKKPLKTDVVSPAVCGNYFVEVGEECDCGSPRTCRDPCCDATTCKLRQGAQCAEGLCCDQCRFKGAGTECRAAKDECDMADVCTGRSAECTDRFQRNGQPCKNNNGYCYNGKCPIMADQCIALFGPGATVSQDACFQFNREGNHYGYCRKEQNTKIACEPQDVKCGRLYCFPNSPENKNPCNIYYSPNDEDKGMVLPGTKCADRKACSNGQCVDVTTPY 2es0-a1-m1-cA_2es0-a1-m2-cA Structure of the regulator of G-protein signaling domain of RGS6 P49758 P49758 2.1 X-RAY DIFFRACTION 192 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 MPSQQRVKRWGFSFDEILKDQVGRDQFLRFLESEFSSENLRFWLAVQDLKKQPLQDVAKRVEEIWQEFLAPGAPSAINLDSHSYEITSQNVKDGGRYTFEDAQEHIYKLMKSDSYARFLRSNAYQDLLL MPSQQRVKRWGFSFDEILKDQVGRDQFLRFLESEFSSENLRFWLAVQDLKKQPLQDVAKRVEEIWQEFLAPGAPSAINLDSHSYEITSQNVKDGGRYTFEDAQEHIYKLMKSDSYARFLRSNAYQDLLL 2es4-a3-m1-cB_2es4-a3-m4-cA Crystal structure of the Burkholderia glumae lipase-specific foldase in complex with its cognate lipase P0DUB8 P0DUB8 1.85 X-RAY DIFFRACTION 19 1.0 337 (Burkholderia glumae) 337 (Burkholderia glumae) 314 316 2es4-a3-m2-cB_2es4-a3-m3-cA ADTYAATRYPVILVHGLAGTDKFANVVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTGLSSTVIAAFVNVFGTLVSSSHNTDQDALAALRTLTTAQTATYNRNFPSAGLGAPGSCQTGAATETVGGSQHLLYSWGGTAIQPTSTGATDTSTGTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV ADTYAATRYPVILVHGLAGTDKFANVVDYWYGIQSDLQSHGAKVYVANLSGFQSDDGPNGRGEQLLAYVKQVLAATGATKVNLIGHSQGGLTSRYVAAVAPQLVASVTTIGTPHRGSEFADFVQDVLKTDPTGLSSTVIAAFVNVFGTLVSSSHNTDQDALAALRTLTTAQTATYNRNFPSAGLGAPGSCQTGAATETVGGSQHLLYSWGGTAIQPTSTVTGATDTSTGTLDVANVTDPSTLALLATGAVMINRASGQNDGLVSRCSSLFGQVISTSYHWNHLDEINQLLGVRGANAEDPVAVIRTHVNRLKLQGV 2es4-a3-m1-cE_2es4-a3-m2-cE Crystal structure of the Burkholderia glumae lipase-specific foldase in complex with its cognate lipase Q05490 Q05490 1.85 X-RAY DIFFRACTION 18 1.0 337 (Burkholderia glumae) 337 (Burkholderia glumae) 277 277 MPLPAALPGALAGSHAPRLPLAAGGRLARTRAVREFFDYLTAQGELTPAALDALVRREIAAQLDGSPAQAEALGVWRRYRAYFDALAQLPGDGAVLGDKLDPAAMQLALDQRAALADRTLGEWAEPFFGDEQRRQRHDLERIRIANDTTLSPEQKAARLAALDAQLTPDERAQQAALHAQQDAVTKIADLQKAGATPDQMRAQIAQTLGPEAAARAAQMQQDDEAWQTRYQAYAAERDRIAAQGLAPQDRDARIAQLRQQTFTAPGEAIRAASLDRG MPLPAALPGALAGSHAPRLPLAAGGRLARTRAVREFFDYLTAQGELTPAALDALVRREIAAQLDGSPAQAEALGVWRRYRAYFDALAQLPGDGAVLGDKLDPAAMQLALDQRAALADRTLGEWAEPFFGDEQRRQRHDLERIRIANDTTLSPEQKAARLAALDAQLTPDERAQQAALHAQQDAVTKIADLQKAGATPDQMRAQIAQTLGPEAAARAAQMQQDDEAWQTRYQAYAAERDRIAAQGLAPQDRDARIAQLRQQTFTAPGEAIRAASLDRG 2es4-a3-m4-cD_2es4-a3-m2-cE Crystal structure of the Burkholderia glumae lipase-specific foldase in complex with its cognate lipase Q05490 Q05490 1.85 X-RAY DIFFRACTION 85 0.985 337 (Burkholderia glumae) 337 (Burkholderia glumae) 269 277 2es4-a3-m3-cD_2es4-a3-m1-cE MPLPAALPGALAGSHAPRLPLAAGGRLARTRAVREFFDYLTAQGELTPAALDALVRREIAAQLDGSPAQAEALGVWRRYRAYFDALAVLGDKLDPAAMQLALDQRAALADRTLGEWAEPFFGDEQRRQRHDLERIRIANDTLSQKAARLAALDAQLTPDERAQQAALHAQQDAVTKIADLQKAGATPDQMRAQIAQTLGPEAAARAAQMQQDDEAWQTRYQAYAAERDRIAAQGLAPQDRDARIAQLRQQTFTAPGEAIRAASLDRGAG MPLPAALPGALAGSHAPRLPLAAGGRLARTRAVREFFDYLTAQGELTPAALDALVRREIAAQLDGSPAQAEALGVWRRYRAYFDALAQLPGDGAVLGDKLDPAAMQLALDQRAALADRTLGEWAEPFFGDEQRRQRHDLERIRIANDTTLSPEQKAARLAALDAQLTPDERAQQAALHAQQDAVTKIADLQKAGATPDQMRAQIAQTLGPEAAARAAQMQQDDEAWQTRYQAYAAERDRIAAQGLAPQDRDARIAQLRQQTFTAPGEAIRAASLDRG 2esg-a1-m1-cA_2esg-a1-m1-cB Solution structure of the complex between immunoglobulin IgA1 and human serum albumin P01876 P01876 NOT SOLUTION SCATTERING 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 1iga-a1-m1-cA_1iga-a1-m1-cB QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 2esh-a2-m1-cA_2esh-a2-m2-cA Crystal Structure of Conserved Protein of Unknown Function TM0937- a Potential Transcriptional Factor Q9X035 Q9X035 2.3 X-RAY DIFFRACTION 105 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 114 114 RGGRGFRGWWLASTILLLVAEKPSHGYELAERLAEFGIEIPGIGHMGNIYRVLADLEESGFLSTEWDTTVSPPRKIYRITPQGKLYLREILRSLEDMKRRIETLEERIKRVLQE RGGRGFRGWWLASTILLLVAEKPSHGYELAERLAEFGIEIPGIGHMGNIYRVLADLEESGFLSTEWDTTVSPPRKIYRITPQGKLYLREILRSLEDMKRRIETLEERIKRVLQE 2esl-a7-m1-cA_2esl-a7-m1-cD Human Cyclophilin C in Complex with Cyclosporin A P45877 P45877 1.9 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 RGPSVTAKVFFDVRIGDKDVGRIVIGLFGKVVPKTVENFVALATGEKGYGYKGSKFHRVIKDFMIQGGDITTGDGTGGVSIYGETFPDENFKLKHYGIGWVSMANAGPDTNGSQFFITLTKPTWLDGKHVVFGKVIDGMTVVHSIELQATDGHDRPLTNCSIINSGKIDVKTPFVVEIADW RGPSVTAKVFFDVRIGDKDVGRIVIGLFGKVVPKTVENFVALATGEKGYGYKGSKFHRVIKDFMIQGGDITTGDGTGGVSIYGETFPDENFKLKHYGIGWVSMANAGPDTNGSQFFITLTKPTWLDGKHVVFGKVIDGMTVVHSIELQATDGHDRPLTNCSIINSGKIDVKTPFVVEIADW 2esl-a9-m1-cD_2esl-a9-m1-cF Human Cyclophilin C in Complex with Cyclosporin A P45877 P45877 1.9 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 2esl-a7-m1-cA_2esl-a7-m1-cB 2esl-a7-m1-cA_2esl-a7-m1-cC 2esl-a7-m1-cB_2esl-a7-m1-cC 2esl-a7-m1-cD_2esl-a7-m1-cE 2esl-a7-m1-cD_2esl-a7-m1-cF 2esl-a7-m1-cE_2esl-a7-m1-cF 2esl-a8-m1-cA_2esl-a8-m1-cB 2esl-a8-m1-cA_2esl-a8-m1-cC 2esl-a8-m1-cB_2esl-a8-m1-cC 2esl-a9-m1-cD_2esl-a9-m1-cE 2esl-a9-m1-cE_2esl-a9-m1-cF RGPSVTAKVFFDVRIGDKDVGRIVIGLFGKVVPKTVENFVALATGEKGYGYKGSKFHRVIKDFMIQGGDITTGDGTGGVSIYGETFPDENFKLKHYGIGWVSMANAGPDTNGSQFFITLTKPTWLDGKHVVFGKVIDGMTVVHSIELQATDGHDRPLTNCSIINSGKIDVKTPFVVEIADW RGPSVTAKVFFDVRIGDKDVGRIVIGLFGKVVPKTVENFVALATGEKGYGYKGSKFHRVIKDFMIQGGDITTGDGTGGVSIYGETFPDENFKLKHYGIGWVSMANAGPDTNGSQFFITLTKPTWLDGKHVVFGKVIDGMTVVHSIELQATDGHDRPLTNCSIINSGKIDVKTPFVVEIADW 2esn-a1-m1-cD_2esn-a1-m1-cA The crystal structure of probable transcriptional regulator PA0477 from Pseudomonas aeruginosa Q9I641 Q9I641 2.1 X-RAY DIFFRACTION 94 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 298 299 2esn-a1-m1-cC_2esn-a1-m1-cB PLLRRLDLNLLLVFDALYRHRNVGTAASELAISASAFSHALGRLRQGLDDELFLRQGNRMQPTQRAEHLAAAVAAALRALGEGLEEWRPFVPGQSQRTFVFAATDYTAFALLPPLMNRLQHSAPGVRLRLVNAERKLSVEALASGRIDFALGYDEEHERLPEGIQAHDWFADRYVVVARRDHPRLAGAPTLEGYLAERHAVVTPWNEDSGVIDRLLARSGLRREVAVQLPTVLAALFLAGSTDFLLTAPRHAARALAEAAGLALYPAPFDIPPYVLRLYSHVQRDAHAWMIGQLKGLD PLLRRLDLNLLLVFDALYRHRNVGTAASELAISASAFSHALGRLRQGLDDELFLRQGNRMQPTQRAEHLAAAVAAALRALGEGLEEWRPFVPGQSQRTFVFAATDYTAFALLPPLMNRLQHSAPGVRLRLVNAERKLSVEALASGRIDFALGYDEEHERLPEGIQAHDWFADRYVVVARRDHPRLAGAPTLEGYLAERHAVVTPWNEDSGVIDRLLARSGLRREVAVQLPTVLAALFLAGSTDFLLTAPRHAARALAEAAGLALYPAPFDIPPYVLRLYSHVQGRDAHAWMIGQLKGLD 2esn-a1-m1-cD_2esn-a1-m1-cB The crystal structure of probable transcriptional regulator PA0477 from Pseudomonas aeruginosa Q9I641 Q9I641 2.1 X-RAY DIFFRACTION 161 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 298 300 2esn-a1-m1-cC_2esn-a1-m1-cA PLLRRLDLNLLLVFDALYRHRNVGTAASELAISASAFSHALGRLRQGLDDELFLRQGNRMQPTQRAEHLAAAVAAALRALGEGLEEWRPFVPGQSQRTFVFAATDYTAFALLPPLMNRLQHSAPGVRLRLVNAERKLSVEALASGRIDFALGYDEEHERLPEGIQAHDWFADRYVVVARRDHPRLAGAPTLEGYLAERHAVVTPWNEDSGVIDRLLARSGLRREVAVQLPTVLAALFLAGSTDFLLTAPRHAARALAEAAGLALYPAPFDIPPYVLRLYSHVQRDAHAWMIGQLKGLD HPLLRRLDLNLLLVFDALYRHRNVGTAASELAISASAFSHALGRLRQGLDDELFLRQGNRMQPTQRAEHLAAAVAAALRALGEGLEEWRPFVPGQSQRTFVFAATDYTAFALLPPLMNRLQHSAPGVRLRLVNAERKLSVEALASGRIDFALGYDEEHERLPEGIQAHDWFADRYVVVARRDHPRLAGAPTLEGYLAERHAVVTPWNEDSGVIDRLLARSGLRREVAVQLPTVLAALFLAGSTDFLLTAPRHAARALAEAAGLALYPAPFDIPPYVLRLYSHVQDAHAWMIGQLKGLDIS 2esr-a1-m1-cA_2esr-a1-m1-cB conserved hypothetical protein- streptococcus pyogenes Q5XAY9 Q5XAY9 1.8 X-RAY DIFFRACTION 47 1.0 286636 (Streptococcus pyogenes MGAS10394) 286636 (Streptococcus pyogenes MGAS10394) 155 155 VRGAIFNIGPYFNGGRVLDLFAGSGGLAIEAVSRGSAAVLVEKNRKAQAIIQDNIITKAENRFTLLKEAERAIDCLTGRFDLVFLDPPYAKETIVATIEALAAKNLLSEQVVVCETDKTVLLPKEIATLGIWKEKIYGISKVTVYVNEGHHHHHH VRGAIFNIGPYFNGGRVLDLFAGSGGLAIEAVSRGSAAVLVEKNRKAQAIIQDNIITKAENRFTLLKEAERAIDCLTGRFDLVFLDPPYAKETIVATIEALAAKNLLSEQVVVCETDKTVLLPKEIATLGIWKEKIYGISKVTVYVNEGHHHHHH 2ess-a1-m1-cA_2ess-a1-m2-cA Crystal structure of an acyl-ACP thioesterase (NP_810988.1) from Bacteroides thetaiotaomicron VPI-5482 at 1.90 A resolution Q8A611 Q8A611 1.9 X-RAY DIFFRACTION 84 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 238 238 SEENKIGTYQFVAEPFHVDFNGRLTGVLGNHLLNCAGFHASDRGFGIATLNEDNYTWVLSRLAIELDEPYQYEKFSVQTWVENVYRLFTDRNFAVIDKDGKKIGYARSVWAINLNTRKPALHGGSIVDYICDEPCPIEKPSRIKVTSNQPVATLTAKYSDIDINGHVNSIRYIEHILDLFPIELYQTKRIRRFEAYVAESYFGDELSFFCDEVSENEFHVEVKKNGSEVVCRSKVIFE SEENKIGTYQFVAEPFHVDFNGRLTGVLGNHLLNCAGFHASDRGFGIATLNEDNYTWVLSRLAIELDEPYQYEKFSVQTWVENVYRLFTDRNFAVIDKDGKKIGYARSVWAINLNTRKPALHGGSIVDYICDEPCPIEKPSRIKVTSNQPVATLTAKYSDIDINGHVNSIRYIEHILDLFPIELYQTKRIRRFEAYVAESYFGDELSFFCDEVSENEFHVEVKKNGSEVVCRSKVIFE 2esw-a3-m1-cB_2esw-a3-m1-cA Atomic structure of the N-terminal SH3 domain of mouse beta PIX,p21-activated kinase (PAK)-interacting exchange factor Q9ES28 Q9ES28 2.01 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 57 60 SQLVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTHNGRTGWFPSNYVREI PLGSQLVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTHNGRTGWFPSNYVREI 2et1-a1-m2-cA_2et1-a1-m6-cA Oxalate oxidase in complex with substrate analogue glycolate P45850 P45850 1.6 X-RAY DIFFRACTION 174 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 201 201 1fi2-a1-m1-cA_1fi2-a1-m4-cA 1fi2-a1-m2-cA_1fi2-a1-m6-cA 1fi2-a1-m3-cA_1fi2-a1-m5-cA 2et1-a1-m1-cA_2et1-a1-m4-cA 2et1-a1-m3-cA_2et1-a1-m5-cA 2et7-a1-m1-cA_2et7-a1-m4-cA 2et7-a1-m2-cA_2et7-a1-m6-cA 2et7-a1-m3-cA_2et7-a1-m5-cA 2ete-a1-m1-cA_2ete-a1-m2-cB 2ete-a1-m1-cB_2ete-a1-m3-cA 2ete-a1-m2-cA_2ete-a1-m3-cB TDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTSTPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGELLVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIVFVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS TDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTSTPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGELLVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIVFVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS 2et1-a1-m3-cA_2et1-a1-m6-cA Oxalate oxidase in complex with substrate analogue glycolate P45850 P45850 1.6 X-RAY DIFFRACTION 157 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 201 201 1fi2-a1-m1-cA_1fi2-a1-m5-cA 1fi2-a1-m2-cA_1fi2-a1-m4-cA 1fi2-a1-m3-cA_1fi2-a1-m6-cA 2et1-a1-m1-cA_2et1-a1-m5-cA 2et1-a1-m2-cA_2et1-a1-m4-cA 2et7-a1-m1-cA_2et7-a1-m5-cA 2et7-a1-m2-cA_2et7-a1-m4-cA 2et7-a1-m3-cA_2et7-a1-m6-cA 2ete-a1-m1-cA_2ete-a1-m1-cB 2ete-a1-m2-cA_2ete-a1-m2-cB 2ete-a1-m3-cA_2ete-a1-m3-cB TDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTSTPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGELLVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIVFVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS TDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTSTPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGELLVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIVFVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS 2et1-a1-m5-cA_2et1-a1-m6-cA Oxalate oxidase in complex with substrate analogue glycolate P45850 P45850 1.6 X-RAY DIFFRACTION 37 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 201 201 1fi2-a1-m1-cA_1fi2-a1-m2-cA 1fi2-a1-m1-cA_1fi2-a1-m3-cA 1fi2-a1-m2-cA_1fi2-a1-m3-cA 1fi2-a1-m4-cA_1fi2-a1-m5-cA 1fi2-a1-m4-cA_1fi2-a1-m6-cA 1fi2-a1-m5-cA_1fi2-a1-m6-cA 2et1-a1-m1-cA_2et1-a1-m2-cA 2et1-a1-m1-cA_2et1-a1-m3-cA 2et1-a1-m2-cA_2et1-a1-m3-cA 2et1-a1-m4-cA_2et1-a1-m5-cA 2et1-a1-m4-cA_2et1-a1-m6-cA 2et7-a1-m1-cA_2et7-a1-m2-cA 2et7-a1-m1-cA_2et7-a1-m3-cA 2et7-a1-m2-cA_2et7-a1-m3-cA 2et7-a1-m4-cA_2et7-a1-m5-cA 2et7-a1-m4-cA_2et7-a1-m6-cA 2et7-a1-m5-cA_2et7-a1-m6-cA 2ete-a1-m1-cA_2ete-a1-m2-cA 2ete-a1-m1-cA_2ete-a1-m3-cA 2ete-a1-m1-cB_2ete-a1-m2-cB 2ete-a1-m1-cB_2ete-a1-m3-cB 2ete-a1-m2-cA_2ete-a1-m3-cA 2ete-a1-m2-cB_2ete-a1-m3-cB TDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTSTPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGELLVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIVFVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS TDPDPLQDFCVADLDGKAVSVNGHTCKPMSEAGDDFLFSSKLTKAGNTSTPNGSAVTELDVAEWPGTNTLGVSMNRVDFAPGGTNPPHIHPRATEIGMVMKGELLVGILGSLDSGNKLYSRVVRAGETFVIPRGLMHFQFNVGKTEAYMVVSFNSQNPGIVFVPLTLFGSDPPIPTPVLTKALRVEAGVVELLKSKFAGGS 2eth-a2-m1-cA_2eth-a2-m2-cA Crystal structure of a marr-like transcriptional regulator (tm0816) from thermotoga maritima at 2.50 A resolution Q9WZS3 Q9WZS3 2.3 X-RAY DIFFRACTION 15 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 135 135 HDALEIFKTLFSLVRFSSYLPSNEEISDKTTELYAFLYVALFGPKKKEIAEFLSTTKSNVTNVVDSLEKRGLVVREDPVDRRTYRVVLTEKGKEIFGEILSNFESLLKSVLEKFSEEDFKVVSEGFNRVEALSRE HDALEIFKTLFSLVRFSSYLPSNEEISDKTTELYAFLYVALFGPKKKEIAEFLSTTKSNVTNVVDSLEKRGLVVREDPVDRRTYRVVLTEKGKEIFGEILSNFESLLKSVLEKFSEEDFKVVSEGFNRVEALSRE 2eth-a2-m1-cA_2eth-a2-m2-cB Crystal structure of a marr-like transcriptional regulator (tm0816) from thermotoga maritima at 2.50 A resolution Q9WZS3 Q9WZS3 2.3 X-RAY DIFFRACTION 10 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 135 135 2eth-a2-m1-cB_2eth-a2-m2-cA HDALEIFKTLFSLVRFSSYLPSNEEISDKTTELYAFLYVALFGPKKKEIAEFLSTTKSNVTNVVDSLEKRGLVVREDPVDRRTYRVVLTEKGKEIFGEILSNFESLLKSVLEKFSEEDFKVVSEGFNRVEALSRE HDALEIFKTLFSLVRFSSYLPSNEEISDKTTELYAFLYVALFGPKKKEIAEFLSTTKSNVTNVVDSLEKRGLVVREDPVDRRTYRVVLTEKGKEIFGEILSNFESLLKSVLEKFSEEDFKVVSEGFNRVEALSRE 2eth-a2-m2-cA_2eth-a2-m2-cB Crystal structure of a marr-like transcriptional regulator (tm0816) from thermotoga maritima at 2.50 A resolution Q9WZS3 Q9WZS3 2.3 X-RAY DIFFRACTION 102 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 135 135 2eth-a1-m1-cA_2eth-a1-m1-cB 2eth-a2-m1-cA_2eth-a2-m1-cB HDALEIFKTLFSLVRFSSYLPSNEEISDKTTELYAFLYVALFGPKKKEIAEFLSTTKSNVTNVVDSLEKRGLVVREDPVDRRTYRVVLTEKGKEIFGEILSNFESLLKSVLEKFSEEDFKVVSEGFNRVEALSRE HDALEIFKTLFSLVRFSSYLPSNEEISDKTTELYAFLYVALFGPKKKEIAEFLSTTKSNVTNVVDSLEKRGLVVREDPVDRRTYRVVLTEKGKEIFGEILSNFESLLKSVLEKFSEEDFKVVSEGFNRVEALSRE 2ets-a2-m3-cA_2ets-a2-m6-cA CRYSTAL STRUCTURE OF A BACTERIAL DOMAIN OF UNKNOWN FUNCTION FROM DUF1798 FAMILY (MW1337) FROM STAPHYLOCOCCUS AUREUS SUBSP. AUREUS AT 2.25 A RESOLUTION A0A0H3JWF6 A0A0H3JWF6 2.25 X-RAY DIFFRACTION 35 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 112 112 2ets-a2-m1-cA_2ets-a2-m5-cA 2ets-a2-m2-cA_2ets-a2-m4-cA HHHHHNDLVESLIYEVNNQQNFENVKSQQQDHDFYQTVKPYTEHIDSILNEIKLHREFIIEVPYNSRKFELLIANIEQLSVECHFKRTSRKLFIEKLKSVQYDLQNILDGVT HHHHHNDLVESLIYEVNNQQNFENVKSQQQDHDFYQTVKPYTEHIDSILNEIKLHREFIIEVPYNSRKFELLIANIEQLSVECHFKRTSRKLFIEKLKSVQYDLQNILDGVT 2etx-a1-m1-cA_2etx-a1-m1-cB Crystal Structure of MDC1 Tandem BRCT Domains Q14676 Q14676 1.33 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 194 195 APKVLFTGVVDARGERAVLALGGSLAGSAAEASHLVTDRIRRTVKFLCALGRGIPILSLDWLHQSRKAGFFLPPDEYVVTDPEQEKNFGFSLQDALSRARERRLLEGYEIYVTPGVQPPPPQMGEIISCCGGTYLPSMPRSYKPQRVVITCPQDFPHCSIPLRVGLPLLSPEFLLTGVLKQEAKPEAFVLSPLE TAPKVLFTGVVDARGERAVLALGGSLAGSAAEASHLVTDRIRRTVKFLCALGRGIPILSLDWLHQSRKAGFFLPPDEYVVTDPEQEKNFGFSLQDALSRARERRLLEGYEIYVTPGVQPPPPQMGEIISCCGGTYLPSMPRSYKPQRVVITCPQDFPHCSIPLRVGLPLLSPEFLLTGVLKQEAKPEAFVLSPLE 2eu1-a1-m1-cD_2eu1-a1-m2-cG Crystal structure of the chaperonin GroEL-E461K P0A6F5 P0A6F5 3.29 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 524 524 2eu1-a1-m1-cE_2eu1-a1-m2-cF 2eu1-a1-m1-cF_2eu1-a1-m2-cE 2eu1-a1-m1-cG_2eu1-a1-m2-cD AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEKPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEKPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 2euc-a1-m1-cA_2euc-a1-m1-cB Crystal structure of YfmB from Bacillus subtilis. NESG TARGET SR324 O34626 O34626 2.5 X-RAY DIFFRACTION 41 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 105 105 QYFSPEQQYNAWIVSDLVKQIFHKRAGCSPGIHELAVFAEEHFHIDIDFVFSIINIGDIEFALTDEIEKKLSGYLSTLLPYVTADFETSKANAHAFLSAAYHLFV QYFSPEQQYNAWIVSDLVKQIFHKRAGCSPGIHELAVFAEEHFHIDIDFVFSIINIGDIEFALTDEIEKKLSGYLSTLLPYVTADFETSKANAHAFLSAAYHLFV 2eui-a2-m1-cE_2eui-a2-m1-cD Crystal structure of a probable acetyltransferase Q9HX01 Q9HX01 2.8 X-RAY DIFFRACTION 182 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 147 149 2eui-a1-m1-cB_2eui-a1-m1-cA RIVQATLEHLDLLAPLFVKYREFYGLSYPESSRKFLEKRLRRKESVIYLALADEEDRLLGFCQLYPSFSSLSLKRVWILNDIYVAEEARRQLVADHLLQHAKQARETHAVRRVSTSVDNEVAQKVYESIGFREDQEFKNYTLPISDE RIVQATLEHLDLLAPLFVKYREFYGLSYPESSRKFLEKRLRRKESVIYLALADEEDRLLGFCQLYPSFSSLSLKRVWILNDIYVAEEARRQLVADHLLQHAKQARETHAVRRVSTSVDNEVAQKVYESIGFREDQEFKNYTLPISDELS 2eul-a3-m1-cC_2eul-a3-m1-cD Structure of the transcription factor Gfh1. Q5SJG6 Q5SJG6 2.4 X-RAY DIFFRACTION 35 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 156 156 2eul-a1-m1-cA_2eul-a1-m1-cB 2eul-a2-m1-cC_2eul-a2-m1-cD 2eul-a3-m1-cA_2eul-a3-m1-cB MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG 2eul-a5-m4-cC_2eul-a5-m5-cD Structure of the transcription factor Gfh1. Q5SJG6 Q5SJG6 2.4 X-RAY DIFFRACTION 67 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 156 156 2etn-a4-m1-cB_2etn-a4-m1-cC 2eul-a4-m1-cA_2eul-a4-m2-cB 2eul-a4-m1-cC_2eul-a4-m3-cD 2eul-a5-m1-cA_2eul-a5-m2-cB MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG 2eul-a6-m1-cC_2eul-a6-m7-cB Structure of the transcription factor Gfh1. Q5SJG6 Q5SJG6 2.4 X-RAY DIFFRACTION 16 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 156 156 2eul-a6-m1-cA_2eul-a6-m6-cD MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG 2eul-a7-m1-cA_2eul-a7-m1-cC Structure of the transcription factor Gfh1. Q5SJG6 Q5SJG6 2.4 X-RAY DIFFRACTION 64 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 156 156 2eul-a3-m1-cA_2eul-a3-m1-cC 2eul-a4-m1-cA_2eul-a4-m1-cC 2eul-a6-m1-cA_2eul-a6-m1-cC MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG 2eul-a7-m1-cC_2eul-a7-m8-cB Structure of the transcription factor Gfh1. Q5SJG6 Q5SJG6 2.4 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 156 156 2eul-a5-m2-cB_2eul-a5-m4-cC MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG MAREVKLTKAGYERLMQQLERERERLQEATKILQELMESSDDYDDSGLEAAKQEKARIEARIDSLEDILSRAVILEEGSGEVIGLGSVVELEDPLSGERLSVQVVSPAEANVLDTPMKISDASPMGKALLGHRVGDVLSLDTPKGRREFRVVAIHG 2ev2-a1-m1-cB_2ev2-a1-m1-cA Structure of Rv1264N, the regulatory domain of the mycobacterial adenylyl cylcase Rv1264, at pH 8.5 P9WMU9 P9WMU9 2.35 X-RAY DIFFRACTION 202 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 183 186 1y11-a1-m1-cA_1y11-a1-m2-cA 2ev1-a1-m1-cB_2ev1-a1-m1-cA 2ev3-a1-m1-cA_2ev3-a1-m1-cB 2ev4-a1-m1-cB_2ev4-a1-m1-cA NIDDLLGDLGGTARAERAKLVEWLLEQGITPDEIRATNPPLLLATRHLVGDDGTYVSAREISENYGVDLELLQRVQRAVGLARVDDPDAVVHMRADGEAAARAQRFVELGLNPDQVVLVVRVLAEGLSHAAEAMRYTALEAIMRPGATELDIAKGSQALVSQIVPLLGPMIQDMLFMQLRHMM ANIDDLLGDLGGTARAERAKLVEWLLEQGITPDEIRATNPPLLLATRHLVGDDGTYVSAREISENYGVDLELLQRVQRAVGLARVDDPDAVVHMRADGEAAARAQRFVELGLNPDQVVLVVRVLAEGLSHAAEAMRYTALEAIMRPGATELDIAKGSQALVSQIVPLLGPMIQDMLFMQLRHMMET 2ev9-a1-m1-cA_2ev9-a1-m1-cB Crystal Structure of Shikimate 5-Dehydrogenase (AroE) from Thermus Thermophilus HB8 in complex with NADP(H) and shikimate Q5SJF8 Q5SJF8 1.9 X-RAY DIFFRACTION 42 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 261 263 1wxd-a1-m1-cA_1wxd-a1-m1-cB 2cy0-a1-m1-cA_2cy0-a1-m1-cB 2d5c-a1-m1-cB_2d5c-a1-m1-cA MLRFAVLGHPVAHSLSPAMHAFALESLGLEGSYEAWDTPLEALPGRLKEVRRAFRGVNLTLPLKEAALAHLDWVSPEAQRIGAVNTVLQVEGRLFGFNTDAPGFLEALKAGGIPLKGPALVLGAGGAGRAVAFALREAGLEVWVWNRTPQRALALAEEFGLRAVPLEKAREARLLVNATRVGLEDPSASPLPAELFPEEGAAVDLVYRPLWTRFLREAKAKGLKVQTGLPMLAWQGALAFRLWTGLLPDPSGMEEAARRAL MLRFAVLGHPVAHSLSPAMHAFALESLGLEGSYEAWDTPLEALPGRLKEVRRAFRGVNLTLPLKEAALAHLDWVSPEAQRIGAVNTVLQVEGRLFGFNTDAPGFLEALKAGGIPLKGPALVLGAGGAGRAVAFALREAGLEVWVWNRTPQRALALAEEFGLRAVPLEKAREARLLVNATRVGLEDPSASPLPAELFPEEGAAVDLVYRPLWTRFLREAKAKGLKVQTGLPMLAWQGALAFRLWTGLLPDPSGMEEAARRALGV 2evr-a1-m1-cA_2evr-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE GAMMA-D-GLUTAMYL-L-DIAMINO ACID ENDOPEPTIDASE (NPUN_R0659) FROM NOSTOC PUNCTIFORME PCC 73102 AT 1.60 A RESOLUTION B2J9B4 B2J9B4 1.6 X-RAY DIFFRACTION 74 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 220 220 2fg0-a1-m1-cA_2fg0-a1-m1-cB KLGEYQCLADLNLFDSPECTRLATQSASGRHLWVTSNHQNLAVEVYLCEDDYPGWLSLSDFDSLQPATVPYQAATFSESEIKKLLAEVIAFTQKAQQSNYYLWGGTVGPNYDCSGLQAAFASVGIWLPRDAYQQEGFTQPITIAELVAGDLVFFGTSQKATHVGLYLADGYYIHSSGKDQGRDGIGIDILSEQGDAVSLSYYQQLRGAGRVFKSYEPQRR KLGEYQCLADLNLFDSPECTRLATQSASGRHLWVTSNHQNLAVEVYLCEDDYPGWLSLSDFDSLQPATVPYQAATFSESEIKKLLAEVIAFTQKAQQSNYYLWGGTVGPNYDCSGLQAAFASVGIWLPRDAYQQEGFTQPITIAELVAGDLVFFGTSQKATHVGLYLADGYYIHSSGKDQGRDGIGIDILSEQGDAVSLSYYQQLRGAGRVFKSYEPQRR 2evv-a2-m1-cD_2evv-a2-m1-cC Crystal Structure of the PEBP-like Protein of Unknown Function HP0218 from Helicobacter pylori O25006 O25006 2.59 X-RAY DIFFRACTION 91 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 173 174 2evv-a1-m1-cA_2evv-a1-m1-cB KTFEVIQTDSKGYLDAKFGGNAPKAFLNSNGLPTYSPKISWQKVEGAQSYALELIDHDAQKVCGPFVHWVVGNIAHNVLEENASDKRIVQGVNSLTQGFIRSPLNESEKQRSNLNNSVYIGPPPNGDHHYLIQVYALDIPKLALKAPFFLGDLHDKRNHIIAIGRKEFLYKQF KTFEVIQTDSKGYLDAKFGGNAPKAFLNSNGLPTYSPKISWQKVEGAQSYALELIDHDAQKVCGPFVHWVVGNIAHNVLEENASDKRIVQGVNSLTQGFIRSPLNESEKQRSNLNNSVYIGPPPNGDHHYLIQVYALDIPKLALKAPFFLGDLHDKRNHIIAIGRKEFLYKQFV 2ew2-a1-m1-cA_2ew2-a1-m1-cB Crystal Structure of the Putative 2-Dehydropantoate 2-Reductase from Enterococcus faecalis Q831Q5 Q831Q5 2 X-RAY DIFFRACTION 57 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 305 306 KIAIAGAGAGSRLGILHQGGNDVTLIDQWPAHIEAIRKNGLIADFNGEEVVANLPIFSPEEIDHQNEQVDLIIALTKAQQLDAFKAIQPITEKTYVLCLLNGLGHEDVLEKYVPKENILVGITWTAGLEGPGRVKLLGDGEIELENIDPSGKKFALEVVDVFQKAGLNPSYSSNVRYSIWRKACVNGTLNGLCTILDCNIAEFGALPVSESLVKTLISEFAAVAEKEAIYLDQAEVYTHIVQTYDPNGIGLHYPSYQDLIKNHRLTEIDYINGAVWRKGQKYNVATPFCALTQLVHGKEELLGAK AKIAIAGAGAGSRLGILHQGGNDVTLIDQWPAHIEAIRKNGLIADFNGEEVVANLPIFSPEEIDHQNEQVDLIIALTKAQQLDAFKAIQPITEKTYVLCLLNGLGHEDVLEKYVPKENILVGITWTAGLEGPGRVKLLGDGEIELENIDPSGKKFALEVVDVFQKAGLNPSYSSNVRYSIWRKACVNGTLNGLCTILDCNIAEFGALPVSESLVKTLISEFAAVAEKEAIYLDQAEVYTHIVQTYDPNGIGLHYPSYQDLIKNHRLTEIDYINGAVWRKGQKYNVATPFCALTQLVHGKEELLGAK 2ew8-a1-m1-cA_2ew8-a1-m1-cD Crystal Structure of the (S)-Specific 1-Phenylethanol Dehydrogenase of the Denitrifying Bacterium Strain EbN1 Q5P5I4 Q5P5I4 2.1 X-RAY DIFFRACTION 115 1.0 76114 (Aromatoleum aromaticum EbN1) 76114 (Aromatoleum aromaticum EbN1) 229 229 2ew8-a1-m1-cB_2ew8-a1-m1-cC 2ewm-a1-m1-cA_2ewm-a1-m2-cA 2ewm-a1-m1-cB_2ewm-a1-m2-cB QRLKDKLAVITGGANGIGRAIAERFAVEGADIAIADLVPAPEAEAAIRNLGRRVLTVKCDVSQPGDVEAFGKQVISTFGRCDILVNNAGIYPLIPFDELTFEQWKKTFEINVDSGFLMAKAFVPGMKRNGWGRIINLTSTTYWLKIEAYTHYISTKAANIGFTRALASDLGKDGITVNAIAPSLVNMLQAIPRLQVPLDLTGAAAFLASDDASFITGQTLAVDGGMVRH QRLKDKLAVITGGANGIGRAIAERFAVEGADIAIADLVPAPEAEAAIRNLGRRVLTVKCDVSQPGDVEAFGKQVISTFGRCDILVNNAGIYPLIPFDELTFEQWKKTFEINVDSGFLMAKAFVPGMKRNGWGRIINLTSTTYWLKIEAYTHYISTKAANIGFTRALASDLGKDGITVNAIAPSLVNMLQAIPRLQVPLDLTGAAAFLASDDASFITGQTLAVDGGMVRH 2ew8-a1-m1-cB_2ew8-a1-m1-cD Crystal Structure of the (S)-Specific 1-Phenylethanol Dehydrogenase of the Denitrifying Bacterium Strain EbN1 Q5P5I4 Q5P5I4 2.1 X-RAY DIFFRACTION 24 1.0 76114 (Aromatoleum aromaticum EbN1) 76114 (Aromatoleum aromaticum EbN1) 228 229 2ew8-a1-m1-cC_2ew8-a1-m1-cA 2ewm-a1-m1-cA_2ewm-a1-m2-cB 2ewm-a1-m2-cA_2ewm-a1-m1-cB QRLKDKLAVITGGANGIGRAIAERFAVEGADIAIADLVPAPEAEAAIRNLGRRVLTVKCDVSQPGDVEAFGKQVISTFGRCDILVNNAGIYPLIPFDELTFEQWKKTFEINVDSGFLMAKAFVPGMKRNGWGRIINLTSTTYWLKIEAYTHYISTKAANIGFTRALASDLGKDGITVNAIAPSLVMLQAIPRLQVPLDLTGAAAFLASDDASFITGQTLAVDGGMVRH QRLKDKLAVITGGANGIGRAIAERFAVEGADIAIADLVPAPEAEAAIRNLGRRVLTVKCDVSQPGDVEAFGKQVISTFGRCDILVNNAGIYPLIPFDELTFEQWKKTFEINVDSGFLMAKAFVPGMKRNGWGRIINLTSTTYWLKIEAYTHYISTKAANIGFTRALASDLGKDGITVNAIAPSLVNMLQAIPRLQVPLDLTGAAAFLASDDASFITGQTLAVDGGMVRH 2ew8-a1-m1-cC_2ew8-a1-m1-cD Crystal Structure of the (S)-Specific 1-Phenylethanol Dehydrogenase of the Denitrifying Bacterium Strain EbN1 Q5P5I4 Q5P5I4 2.1 X-RAY DIFFRACTION 101 1.0 76114 (Aromatoleum aromaticum EbN1) 76114 (Aromatoleum aromaticum EbN1) 228 229 2ew8-a1-m1-cB_2ew8-a1-m1-cA 2ewm-a1-m1-cA_2ewm-a1-m1-cB 2ewm-a1-m2-cA_2ewm-a1-m2-cB QRLKDKLAVITGGANGIGRAIAERFAVEGADIAIADLVPAPEAEAAIRNLGRRVLTVKCDVSQPGDVEAFGKQVISTFGRCDILVNNAGIYPLIPFDELTFEQWKKTFEINVDSGFLMAKAFVPGMKRNGWGRIINLTSTTYWLKIEAYTHYISTKAANIGFTRALASDLGKDGITVNAIAPSLVMLQAIPRLQVPLDLTGAAAFLASDDASFITGQTLAVDGGMVRH QRLKDKLAVITGGANGIGRAIAERFAVEGADIAIADLVPAPEAEAAIRNLGRRVLTVKCDVSQPGDVEAFGKQVISTFGRCDILVNNAGIYPLIPFDELTFEQWKKTFEINVDSGFLMAKAFVPGMKRNGWGRIINLTSTTYWLKIEAYTHYISTKAANIGFTRALASDLGKDGITVNAIAPSLVNMLQAIPRLQVPLDLTGAAAFLASDDASFITGQTLAVDGGMVRH 2ewc-a3-m1-cJ_2ewc-a3-m1-cF Structure of hypothetical protein from Streptococcus pyogenes M1 GAS, member of highly conserved yjgF family of proteins Q99XS4 Q99XS4 2.15 X-RAY DIFFRACTION 33 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 116 117 2ewc-a1-m1-cA_2ewc-a1-m1-cK 2ewc-a1-m1-cC_2ewc-a1-m1-cL 2ewc-a1-m1-cD_2ewc-a1-m1-cI 2ewc-a1-m1-cE_2ewc-a1-m1-cH 2ewc-a1-m1-cG_2ewc-a1-m1-cB 2ewc-a1-m1-cJ_2ewc-a1-m1-cF 2ewc-a2-m1-cA_2ewc-a2-m1-cK 2ewc-a2-m1-cC_2ewc-a2-m1-cL 2ewc-a2-m1-cG_2ewc-a2-m1-cB 2ewc-a3-m1-cD_2ewc-a3-m1-cI 2ewc-a3-m1-cE_2ewc-a3-m1-cH TIRRYDVNEDRGHTGLVEAGDFYYLNYCVGNVGQDIESQINGAFDEERRLALVGLTLDAVVQDCLFRDVWNIPVEKIKERFNGRYPARKSIQTEFAHHGGPQGLLFQVDGVAYSKH KTIRRYDVNEDRGHTGLVEAGDFYYLNYCVGNVGQDIESQINGAFDEERRLALVGLTLDAVVQDCLFRDVWNIPVEKIKERFNGRYPARKSIQTEFAHHGGPQGLLFQVDGVAYSKH 2ewc-a4-m2-cD_2ewc-a4-m2-cE Structure of hypothetical protein from Streptococcus pyogenes M1 GAS, member of highly conserved yjgF family of proteins Q99XS4 Q99XS4 2.15 X-RAY DIFFRACTION 73 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 115 116 2ewc-a1-m1-cA_2ewc-a1-m1-cB 2ewc-a1-m1-cA_2ewc-a1-m1-cC 2ewc-a1-m1-cC_2ewc-a1-m1-cB 2ewc-a1-m1-cD_2ewc-a1-m1-cE 2ewc-a1-m1-cD_2ewc-a1-m1-cF 2ewc-a1-m1-cE_2ewc-a1-m1-cF 2ewc-a1-m1-cG_2ewc-a1-m1-cK 2ewc-a1-m1-cG_2ewc-a1-m1-cL 2ewc-a1-m1-cH_2ewc-a1-m1-cI 2ewc-a1-m1-cH_2ewc-a1-m1-cJ 2ewc-a1-m1-cI_2ewc-a1-m1-cJ 2ewc-a1-m1-cL_2ewc-a1-m1-cK 2ewc-a2-m1-cA_2ewc-a2-m1-cB 2ewc-a2-m1-cA_2ewc-a2-m1-cC 2ewc-a2-m1-cC_2ewc-a2-m1-cB 2ewc-a2-m1-cG_2ewc-a2-m1-cK 2ewc-a2-m1-cG_2ewc-a2-m1-cL 2ewc-a2-m1-cL_2ewc-a2-m1-cK 2ewc-a3-m1-cD_2ewc-a3-m1-cE 2ewc-a3-m1-cD_2ewc-a3-m1-cF 2ewc-a3-m1-cE_2ewc-a3-m1-cF 2ewc-a3-m1-cH_2ewc-a3-m1-cI 2ewc-a3-m1-cH_2ewc-a3-m1-cJ 2ewc-a3-m1-cI_2ewc-a3-m1-cJ 2ewc-a4-m1-cA_2ewc-a4-m1-cB 2ewc-a4-m1-cA_2ewc-a4-m1-cC 2ewc-a4-m1-cC_2ewc-a4-m1-cB 2ewc-a4-m2-cD_2ewc-a4-m2-cF 2ewc-a4-m2-cE_2ewc-a4-m2-cF TIRRYDVNEDRGHTGLVEAGDFYYLNYCVGNVGQDIESQINGAFDEERRLALVGLTLDAVVQDCLFRDVWNIPVEKIKERFNGRYPARKSIQTEFAHHGGPQGLLFQVDGVAYSK TIRRYDVNEDRGHTGLVEAGDFYYLNYCVGNVGQDIESQINGAFDEERRLALVGLTLDAVVQDCLFRDVWNIPVEKIKERFNGRYPARKSIQTEFAHHGGPQGLLFQVDGVAYSKH 2ewg-a1-m1-cA_2ewg-a1-m1-cB T. brucei Farnesyl Diphosphate Synthase Complexed with Minodronate Q86C09 Q86C09 2.48 X-RAY DIFFRACTION 30 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 367 367 MPMQMFMQVYDEIQMFLLEELELKFDMDPNRVRYLRKMMDTTCLGGKYNRGLTVIDVAESLLSLSPNNNGEEDDGARRKRVLHDACVCGWMIEFLQAHYLVEDDIMDNSVTRRGKPCWYRHPDVTVQCAINDGLLLKSWTHMMAMHFFADRPFLQDLLCRFNRVDYTTAVGQLYDVTSMFDSNKLDPDVSQPTTTDFAEFTLSNYKRIVKYKTAYYTYLLPLVMGLIVSEALPTVDMGVTEELAMLMGEYFQVQDDVMDCFTPPERLGKVGTDIQDAKCSWLAVTFLAKASSAQVAEFKANYGSGDSEKVATVRRLYEEADLQGDYVAYEAAVAEQVKELIEKLRLCSPGFAASVETLWGKTYKRQK MPMQMFMQVYDEIQMFLLEELELKFDMDPNRVRYLRKMMDTTCLGGKYNRGLTVIDVAESLLSLSPNNNGEEDDGARRKRVLHDACVCGWMIEFLQAHYLVEDDIMDNSVTRRGKPCWYRHPDVTVQCAINDGLLLKSWTHMMAMHFFADRPFLQDLLCRFNRVDYTTAVGQLYDVTSMFDSNKLDPDVSQPTTTDFAEFTLSNYKRIVKYKTAYYTYLLPLVMGLIVSEALPTVDMGVTEELAMLMGEYFQVQDDVMDCFTPPERLGKVGTDIQDAKCSWLAVTFLAKASSAQVAEFKANYGSGDSEKVATVRRLYEEADLQGDYVAYEAAVAEQVKELIEKLRLCSPGFAASVETLWGKTYKRQK 2ewg-a2-m3-cB_2ewg-a2-m4-cB T. brucei Farnesyl Diphosphate Synthase Complexed with Minodronate Q86C09 Q86C09 2.48 X-RAY DIFFRACTION 38 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 367 367 MPMQMFMQVYDEIQMFLLEELELKFDMDPNRVRYLRKMMDTTCLGGKYNRGLTVIDVAESLLSLSPNNNGEEDDGARRKRVLHDACVCGWMIEFLQAHYLVEDDIMDNSVTRRGKPCWYRHPDVTVQCAINDGLLLKSWTHMMAMHFFADRPFLQDLLCRFNRVDYTTAVGQLYDVTSMFDSNKLDPDVSQPTTTDFAEFTLSNYKRIVKYKTAYYTYLLPLVMGLIVSEALPTVDMGVTEELAMLMGEYFQVQDDVMDCFTPPERLGKVGTDIQDAKCSWLAVTFLAKASSAQVAEFKANYGSGDSEKVATVRRLYEEADLQGDYVAYEAAVAEQVKELIEKLRLCSPGFAASVETLWGKTYKRQK MPMQMFMQVYDEIQMFLLEELELKFDMDPNRVRYLRKMMDTTCLGGKYNRGLTVIDVAESLLSLSPNNNGEEDDGARRKRVLHDACVCGWMIEFLQAHYLVEDDIMDNSVTRRGKPCWYRHPDVTVQCAINDGLLLKSWTHMMAMHFFADRPFLQDLLCRFNRVDYTTAVGQLYDVTSMFDSNKLDPDVSQPTTTDFAEFTLSNYKRIVKYKTAYYTYLLPLVMGLIVSEALPTVDMGVTEELAMLMGEYFQVQDDVMDCFTPPERLGKVGTDIQDAKCSWLAVTFLAKASSAQVAEFKANYGSGDSEKVATVRRLYEEADLQGDYVAYEAAVAEQVKELIEKLRLCSPGFAASVETLWGKTYKRQK 2ewh-a1-m2-cA_2ewh-a1-m6-cA Carboxysome protein CsoS1A from Halothiobacillus neapolitanus P45689 P45689 1.4 X-RAY DIFFRACTION 76 1.0 927 (Halothiobacillus neapolitanus) 927 (Halothiobacillus neapolitanus) 92 92 2ewh-a1-m1-cA_2ewh-a1-m5-cA 2ewh-a1-m1-cA_2ewh-a1-m6-cA 2ewh-a1-m2-cA_2ewh-a1-m4-cA 2ewh-a1-m3-cA_2ewh-a1-m4-cA 2ewh-a1-m3-cA_2ewh-a1-m5-cA 2g13-a1-m1-cA_2g13-a1-m5-cA 2g13-a1-m1-cA_2g13-a1-m6-cA 2g13-a1-m2-cA_2g13-a1-m4-cA 2g13-a1-m2-cA_2g13-a1-m6-cA 2g13-a1-m3-cA_2g13-a1-m4-cA 2g13-a1-m3-cA_2g13-a1-m5-cA 3h8y-a1-m1-cA_3h8y-a1-m5-cA 3h8y-a1-m1-cA_3h8y-a1-m6-cA 3h8y-a1-m2-cA_3h8y-a1-m4-cA 3h8y-a1-m2-cA_3h8y-a1-m6-cA 3h8y-a1-m3-cA_3h8y-a1-m4-cA 3h8y-a1-m3-cA_3h8y-a1-m5-cA 4ox8-a1-m1-cB_4ox8-a1-m1-cA 4ox8-a1-m1-cB_4ox8-a1-m1-cF 4ox8-a1-m1-cC_4ox8-a1-m1-cA 4ox8-a1-m1-cC_4ox8-a1-m1-cD 4ox8-a1-m1-cD_4ox8-a1-m1-cE 4ox8-a1-m1-cE_4ox8-a1-m1-cF 7ckb-a1-m1-cB0_7ckb-a1-m1-cC0 7ckb-a1-m1-cB0_7ckb-a1-m1-cCf 7ckb-a1-m1-cB1_7ckb-a1-m1-cC1 7ckb-a1-m1-cB1_7ckb-a1-m1-cCg 7ckb-a1-m1-cB2_7ckb-a1-m1-cC2 7ckb-a1-m1-cB2_7ckb-a1-m1-cCh 7ckb-a1-m1-cB3_7ckb-a1-m1-cC3 7ckb-a1-m1-cB3_7ckb-a1-m1-cCi 7ckb-a1-m1-cB4_7ckb-a1-m1-cC4 7ckb-a1-m1-cB4_7ckb-a1-m1-cCj 7ckb-a1-m1-cB5_7ckb-a1-m1-cC5 7ckb-a1-m1-cB5_7ckb-a1-m1-cCk 7ckb-a1-m1-cB6_7ckb-a1-m1-cC6 7ckb-a1-m1-cB6_7ckb-a1-m1-cCl 7ckb-a1-m1-cB7_7ckb-a1-m1-cC7 7ckb-a1-m1-cB7_7ckb-a1-m1-cCm 7ckb-a1-m1-cB8_7ckb-a1-m1-cC8 7ckb-a1-m1-cB8_7ckb-a1-m1-cCn 7ckb-a1-m1-cB9_7ckb-a1-m1-cC9 7ckb-a1-m1-cB9_7ckb-a1-m1-cCo 7ckb-a1-m1-cBa_7ckb-a1-m1-cCa 7ckb-a1-m1-cBA_7ckb-a1-m1-cCA 7ckb-a1-m1-cBa_7ckb-a1-m1-cCF 7ckb-a1-m1-cBA_7ckb-a1-m1-cCp 7ckb-a1-m1-cBb_7ckb-a1-m1-cCb 7ckb-a1-m1-cBB_7ckb-a1-m1-cCB 7ckb-a1-m1-cBb_7ckb-a1-m1-cCG 7ckb-a1-m1-cBB_7ckb-a1-m1-cCq 7ckb-a1-m1-cBc_7ckb-a1-m1-cCc 7ckb-a1-m1-cBC_7ckb-a1-m1-cCC 7ckb-a1-m1-cBc_7ckb-a1-m1-cCH 7ckb-a1-m1-cBC_7ckb-a1-m1-cCr 7ckb-a1-m1-cBd_7ckb-a1-m1-cCd 7ckb-a1-m1-cBD_7ckb-a1-m1-cCD 7ckb-a1-m1-cBd_7ckb-a1-m1-cCI 7ckb-a1-m1-cBD_7ckb-a1-m1-cCs 7ckb-a1-m1-cBe_7ckb-a1-m1-cCe 7ckb-a1-m1-cBE_7ckb-a1-m1-cCE 7ckb-a1-m1-cBe_7ckb-a1-m1-cCJ 7ckb-a1-m1-cBE_7ckb-a1-m1-cCt 7ckb-a1-m1-cBf_7ckb-a1-m1-cCf 7ckb-a1-m1-cBF_7ckb-a1-m1-cCF 7ckb-a1-m1-cBf_7ckb-a1-m1-cCK 7ckb-a1-m1-cBF_7ckb-a1-m1-cCv 7ckb-a1-m1-cBg_7ckb-a1-m1-cCg 7ckb-a1-m1-cBG_7ckb-a1-m1-cCG 7ckb-a1-m1-cBg_7ckb-a1-m1-cCL 7ckb-a1-m1-cBG_7ckb-a1-m1-cCw 7ckb-a1-m1-cBh_7ckb-a1-m1-cCh 7ckb-a1-m1-cBH_7ckb-a1-m1-cCH 7ckb-a1-m1-cBh_7ckb-a1-m1-cCM 7ckb-a1-m1-cBH_7ckb-a1-m1-cCx 7ckb-a1-m1-cBi_7ckb-a1-m1-cCi 7ckb-a1-m1-cBI_7ckb-a1-m1-cCI 7ckb-a1-m1-cBi_7ckb-a1-m1-cCN 7ckb-a1-m1-cBI_7ckb-a1-m1-cCy 7ckb-a1-m1-cBj_7ckb-a1-m1-cCj 7ckb-a1-m1-cBJ_7ckb-a1-m1-cCJ 7ckb-a1-m1-cBj_7ckb-a1-m1-cCO 7ckb-a1-m1-cBJ_7ckb-a1-m1-cCz 7ckb-a1-m1-cBK_7ckb-a1-m1-cC0 7ckb-a1-m1-cBk_7ckb-a1-m1-cCk 7ckb-a1-m1-cBK_7ckb-a1-m1-cCK 7ckb-a1-m1-cBk_7ckb-a1-m1-cCP 7ckb-a1-m1-cBL_7ckb-a1-m1-cC1 7ckb-a1-m1-cBl_7ckb-a1-m1-cCl 7ckb-a1-m1-cBL_7ckb-a1-m1-cCL 7ckb-a1-m1-cBl_7ckb-a1-m1-cCQ 7ckb-a1-m1-cBM_7ckb-a1-m1-cC2 7ckb-a1-m1-cBm_7ckb-a1-m1-cCm 7ckb-a1-m1-cBM_7ckb-a1-m1-cCM 7ckb-a1-m1-cBm_7ckb-a1-m1-cCR 7ckb-a1-m1-cBN_7ckb-a1-m1-cC3 7ckb-a1-m1-cBn_7ckb-a1-m1-cCn 7ckb-a1-m1-cBN_7ckb-a1-m1-cCN 7ckb-a1-m1-cBn_7ckb-a1-m1-cCS 7ckb-a1-m1-cBO_7ckb-a1-m1-cC4 7ckb-a1-m1-cBo_7ckb-a1-m1-cCo 7ckb-a1-m1-cBO_7ckb-a1-m1-cCO 7ckb-a1-m1-cBo_7ckb-a1-m1-cCT 7ckb-a1-m1-cBP_7ckb-a1-m1-cC5 7ckb-a1-m1-cBp_7ckb-a1-m1-cCp 7ckb-a1-m1-cBP_7ckb-a1-m1-cCP 7ckb-a1-m1-cBp_7ckb-a1-m1-cCV 7ckb-a1-m1-cBQ_7ckb-a1-m1-cC6 7ckb-a1-m1-cBq_7ckb-a1-m1-cCq 7ckb-a1-m1-cBQ_7ckb-a1-m1-cCQ 7ckb-a1-m1-cBq_7ckb-a1-m1-cCW 7ckb-a1-m1-cBR_7ckb-a1-m1-cC7 7ckb-a1-m1-cBr_7ckb-a1-m1-cCr 7ckb-a1-m1-cBR_7ckb-a1-m1-cCR 7ckb-a1-m1-cBr_7ckb-a1-m1-cCX 7ckb-a1-m1-cBS_7ckb-a1-m1-cC8 7ckb-a1-m1-cBs_7ckb-a1-m1-cCs 7ckb-a1-m1-cBS_7ckb-a1-m1-cCS 7ckb-a1-m1-cBs_7ckb-a1-m1-cCY 7ckb-a1-m1-cBT_7ckb-a1-m1-cC9 7ckb-a1-m1-cBt_7ckb-a1-m1-cCt 7ckb-a1-m1-cBT_7ckb-a1-m1-cCT 7ckb-a1-m1-cBt_7ckb-a1-m1-cCZ 7ckb-a1-m1-cBv_7ckb-a1-m1-cCa 7ckb-a1-m1-cBV_7ckb-a1-m1-cCA 7ckb-a1-m1-cBv_7ckb-a1-m1-cCv 7ckb-a1-m1-cBV_7ckb-a1-m1-cCV 7ckb-a1-m1-cBw_7ckb-a1-m1-cCb 7ckb-a1-m1-cBW_7ckb-a1-m1-cCB 7ckb-a1-m1-cBw_7ckb-a1-m1-cCw 7ckb-a1-m1-cBW_7ckb-a1-m1-cCW 7ckb-a1-m1-cBx_7ckb-a1-m1-cCc 7ckb-a1-m1-cBX_7ckb-a1-m1-cCC 7ckb-a1-m1-cBx_7ckb-a1-m1-cCx 7ckb-a1-m1-cBX_7ckb-a1-m1-cCX 7ckb-a1-m1-cBy_7ckb-a1-m1-cCd 7ckb-a1-m1-cBY_7ckb-a1-m1-cCD 7ckb-a1-m1-cBy_7ckb-a1-m1-cCy 7ckb-a1-m1-cBY_7ckb-a1-m1-cCY 7ckb-a1-m1-cBz_7ckb-a1-m1-cCe 7ckb-a1-m1-cBZ_7ckb-a1-m1-cCE 7ckb-a1-m1-cBz_7ckb-a1-m1-cCz 7ckb-a1-m1-cBZ_7ckb-a1-m1-cCZ 7ckc-a1-m1-cB0_7ckc-a1-m1-cC0 7ckc-a1-m1-cB0_7ckc-a1-m1-cD0 7ckc-a1-m1-cB1_7ckc-a1-m1-cC1 7ckc-a1-m1-cB1_7ckc-a1-m1-cD1 7ckc-a1-m1-cB2_7ckc-a1-m1-cC2 7ckc-a1-m1-cB2_7ckc-a1-m1-cD2 7ckc-a1-m1-cB3_7ckc-a1-m1-cC3 7ckc-a1-m1-cB3_7ckc-a1-m1-cD3 7ckc-a1-m1-cB4_7ckc-a1-m1-cC4 7ckc-a1-m1-cB4_7ckc-a1-m1-cD4 7ckc-a1-m1-cB5_7ckc-a1-m1-cC5 7ckc-a1-m1-cB5_7ckc-a1-m1-cD5 7ckc-a1-m1-cB6_7ckc-a1-m1-cC6 7ckc-a1-m1-cB6_7ckc-a1-m1-cD6 7ckc-a1-m1-cB7_7ckc-a1-m1-cC7 7ckc-a1-m1-cB7_7ckc-a1-m1-cD7 7ckc-a1-m1-cB8_7ckc-a1-m1-cC8 7ckc-a1-m1-cB8_7ckc-a1-m1-cD8 7ckc-a1-m1-cB9_7ckc-a1-m1-cC9 7ckc-a1-m1-cB9_7ckc-a1-m1-cD9 7ckc-a1-m1-cBa_7ckc-a1-m1-cCa 7ckc-a1-m1-cBA_7ckc-a1-m1-cCA 7ckc-a1-m1-cBa_7ckc-a1-m1-cDa 7ckc-a1-m1-cBA_7ckc-a1-m1-cDA 7ckc-a1-m1-cBb_7ckc-a1-m1-cCb 7ckc-a1-m1-cBB_7ckc-a1-m1-cCB 7ckc-a1-m1-cBb_7ckc-a1-m1-cDb 7ckc-a1-m1-cBB_7ckc-a1-m1-cDB 7ckc-a1-m1-cBc_7ckc-a1-m1-cCc 7ckc-a1-m1-cBC_7ckc-a1-m1-cCC 7ckc-a1-m1-cBc_7ckc-a1-m1-cDc 7ckc-a1-m1-cBC_7ckc-a1-m1-cDC 7ckc-a1-m1-cBd_7ckc-a1-m1-cCd 7ckc-a1-m1-cBD_7ckc-a1-m1-cCD 7ckc-a1-m1-cBd_7ckc-a1-m1-cDd 7ckc-a1-m1-cBD_7ckc-a1-m1-cDD 7ckc-a1-m1-cBe_7ckc-a1-m1-cCe 7ckc-a1-m1-cBE_7ckc-a1-m1-cCE 7ckc-a1-m1-cBe_7ckc-a1-m1-cDe 7ckc-a1-m1-cBE_7ckc-a1-m1-cDE 7ckc-a1-m1-cBf_7ckc-a1-m1-cCf 7ckc-a1-m1-cBF_7ckc-a1-m1-cCF 7ckc-a1-m1-cBf_7ckc-a1-m1-cDf 7ckc-a1-m1-cBF_7ckc-a1-m1-cDF 7ckc-a1-m1-cBg_7ckc-a1-m1-cCg 7ckc-a1-m1-cBG_7ckc-a1-m1-cCG 7ckc-a1-m1-cBg_7ckc-a1-m1-cDg 7ckc-a1-m1-cBG_7ckc-a1-m1-cDG 7ckc-a1-m1-cBh_7ckc-a1-m1-cCh 7ckc-a1-m1-cBH_7ckc-a1-m1-cCH 7ckc-a1-m1-cBh_7ckc-a1-m1-cDh 7ckc-a1-m1-cBH_7ckc-a1-m1-cDH 7ckc-a1-m1-cBi_7ckc-a1-m1-cCi 7ckc-a1-m1-cBI_7ckc-a1-m1-cCI 7ckc-a1-m1-cBi_7ckc-a1-m1-cDi 7ckc-a1-m1-cBI_7ckc-a1-m1-cDI 7ckc-a1-m1-cBj_7ckc-a1-m1-cCj 7ckc-a1-m1-cBJ_7ckc-a1-m1-cCJ 7ckc-a1-m1-cBj_7ckc-a1-m1-cDj 7ckc-a1-m1-cBJ_7ckc-a1-m1-cDJ 7ckc-a1-m1-cBk_7ckc-a1-m1-cCk 7ckc-a1-m1-cBK_7ckc-a1-m1-cCK 7ckc-a1-m1-cBk_7ckc-a1-m1-cDk 7ckc-a1-m1-cBK_7ckc-a1-m1-cDK 7ckc-a1-m1-cBl_7ckc-a1-m1-cCl 7ckc-a1-m1-cBL_7ckc-a1-m1-cCL 7ckc-a1-m1-cBl_7ckc-a1-m1-cDl 7ckc-a1-m1-cBL_7ckc-a1-m1-cDL 7ckc-a1-m1-cBm_7ckc-a1-m1-cCm 7ckc-a1-m1-cBM_7ckc-a1-m1-cCM 7ckc-a1-m1-cBm_7ckc-a1-m1-cDm 7ckc-a1-m1-cBM_7ckc-a1-m1-cDM 7ckc-a1-m1-cBn_7ckc-a1-m1-cCn 7ckc-a1-m1-cBN_7ckc-a1-m1-cCN 7ckc-a1-m1-cBn_7ckc-a1-m1-cDn 7ckc-a1-m1-cBN_7ckc-a1-m1-cDN 7ckc-a1-m1-cBo_7ckc-a1-m1-cCo 7ckc-a1-m1-cBO_7ckc-a1-m1-cCO 7ckc-a1-m1-cBo_7ckc-a1-m1-cDo 7ckc-a1-m1-cBO_7ckc-a1-m1-cDO 7ckc-a1-m1-cBp_7ckc-a1-m1-cCp 7ckc-a1-m1-cBP_7ckc-a1-m1-cCP 7ckc-a1-m1-cBp_7ckc-a1-m1-cDp 7ckc-a1-m1-cBP_7ckc-a1-m1-cDP 7ckc-a1-m1-cBq_7ckc-a1-m1-cCq 7ckc-a1-m1-cBQ_7ckc-a1-m1-cCQ 7ckc-a1-m1-cBq_7ckc-a1-m1-cDq 7ckc-a1-m1-cBQ_7ckc-a1-m1-cDQ 7ckc-a1-m1-cBr_7ckc-a1-m1-cCr 7ckc-a1-m1-cBR_7ckc-a1-m1-cCR 7ckc-a1-m1-cBr_7ckc-a1-m1-cDr 7ckc-a1-m1-cBR_7ckc-a1-m1-cDR 7ckc-a1-m1-cBs_7ckc-a1-m1-cCs 7ckc-a1-m1-cBS_7ckc-a1-m1-cCS 7ckc-a1-m1-cBs_7ckc-a1-m1-cDs 7ckc-a1-m1-cBS_7ckc-a1-m1-cDS 7ckc-a1-m1-cBt_7ckc-a1-m1-cCt 7ckc-a1-m1-cBT_7ckc-a1-m1-cCT 7ckc-a1-m1-cBt_7ckc-a1-m1-cDt 7ckc-a1-m1-cBT_7ckc-a1-m1-cDT 7ckc-a1-m1-cBv_7ckc-a1-m1-cCv 7ckc-a1-m1-cBV_7ckc-a1-m1-cCV 7ckc-a1-m1-cBv_7ckc-a1-m1-cDv 7ckc-a1-m1-cBV_7ckc-a1-m1-cDV 7ckc-a1-m1-cBw_7ckc-a1-m1-cCw 7ckc-a1-m1-cBW_7ckc-a1-m1-cCW 7ckc-a1-m1-cBw_7ckc-a1-m1-cDw 7ckc-a1-m1-cBW_7ckc-a1-m1-cDW 7ckc-a1-m1-cBx_7ckc-a1-m1-cCx 7ckc-a1-m1-cBX_7ckc-a1-m1-cCX 7ckc-a1-m1-cBx_7ckc-a1-m1-cDx 7ckc-a1-m1-cBX_7ckc-a1-m1-cDX 7ckc-a1-m1-cBy_7ckc-a1-m1-cCy 7ckc-a1-m1-cBY_7ckc-a1-m1-cCY 7ckc-a1-m1-cBy_7ckc-a1-m1-cDy 7ckc-a1-m1-cBY_7ckc-a1-m1-cDY 7ckc-a1-m1-cBz_7ckc-a1-m1-cCz 7ckc-a1-m1-cBZ_7ckc-a1-m1-cCZ 7ckc-a1-m1-cBz_7ckc-a1-m1-cDz 7ckc-a1-m1-cBZ_7ckc-a1-m1-cDZ 7ckc-a1-m1-cC0_7ckc-a1-m1-cD5 7ckc-a1-m1-cC1_7ckc-a1-m1-cDR 7ckc-a1-m1-cC2_7ckc-a1-m1-cDb 7ckc-a1-m1-cC3_7ckc-a1-m1-cDZ 7ckc-a1-m1-cC4_7ckc-a1-m1-cDI 7ckc-a1-m1-cC5_7ckc-a1-m1-cD0 7ckc-a1-m1-cC6_7ckc-a1-m1-cDH 7ckc-a1-m1-cC7_7ckc-a1-m1-cDg 7ckc-a1-m1-cC8_7ckc-a1-m1-cDo 7ckc-a1-m1-cC9_7ckc-a1-m1-cDS 7ckc-a1-m1-cCA_7ckc-a1-m1-cDF 7ckc-a1-m1-cCa_7ckc-a1-m1-cDV 7ckc-a1-m1-cCb_7ckc-a1-m1-cD2 7ckc-a1-m1-cCB_7ckc-a1-m1-cDX 7ckc-a1-m1-cCc_7ckc-a1-m1-cDQ 7ckc-a1-m1-cCC_7ckc-a1-m1-cDq 7ckc-a1-m1-cCd_7ckc-a1-m1-cDO 7ckc-a1-m1-cCD_7ckc-a1-m1-cDz 7ckc-a1-m1-cCE_7ckc-a1-m1-cDi 7ckc-a1-m1-cCe_7ckc-a1-m1-cDs 7ckc-a1-m1-cCF_7ckc-a1-m1-cDA 7ckc-a1-m1-cCf_7ckc-a1-m1-cDk 7ckc-a1-m1-cCg_7ckc-a1-m1-cD7 7ckc-a1-m1-cCG_7ckc-a1-m1-cDh 7ckc-a1-m1-cCH_7ckc-a1-m1-cD6 7ckc-a1-m1-cCh_7ckc-a1-m1-cDG 7ckc-a1-m1-cCI_7ckc-a1-m1-cD4 7ckc-a1-m1-cCi_7ckc-a1-m1-cDE 7ckc-a1-m1-cCj_7ckc-a1-m1-cDy 7ckc-a1-m1-cCJ_7ckc-a1-m1-cDY 7ckc-a1-m1-cCk_7ckc-a1-m1-cDf 7ckc-a1-m1-cCK_7ckc-a1-m1-cDP 7ckc-a1-m1-cCL_7ckc-a1-m1-cDm 7ckc-a1-m1-cCl_7ckc-a1-m1-cDx 7ckc-a1-m1-cCm_7ckc-a1-m1-cDL 7ckc-a1-m1-cCM_7ckc-a1-m1-cDw 7ckc-a1-m1-cCn_7ckc-a1-m1-cDT 7ckc-a1-m1-cCN_7ckc-a1-m1-cDt 7ckc-a1-m1-cCo_7ckc-a1-m1-cD8 7ckc-a1-m1-cCO_7ckc-a1-m1-cDd 7ckc-a1-m1-cCP_7ckc-a1-m1-cDK 7ckc-a1-m1-cCp_7ckc-a1-m1-cDv 7ckc-a1-m1-cCq_7ckc-a1-m1-cDC 7ckc-a1-m1-cCQ_7ckc-a1-m1-cDc 7ckc-a1-m1-cCR_7ckc-a1-m1-cD1 7ckc-a1-m1-cCr_7ckc-a1-m1-cDW 7ckc-a1-m1-cCS_7ckc-a1-m1-cD9 7ckc-a1-m1-cCs_7ckc-a1-m1-cDe 7ckc-a1-m1-cCt_7ckc-a1-m1-cDN 7ckc-a1-m1-cCT_7ckc-a1-m1-cDn 7ckc-a1-m1-cCV_7ckc-a1-m1-cDa 7ckc-a1-m1-cCv_7ckc-a1-m1-cDp 7ckc-a1-m1-cCw_7ckc-a1-m1-cDM 7ckc-a1-m1-cCW_7ckc-a1-m1-cDr 7ckc-a1-m1-cCX_7ckc-a1-m1-cDB 7ckc-a1-m1-cCx_7ckc-a1-m1-cDl 7ckc-a1-m1-cCy_7ckc-a1-m1-cDj 7ckc-a1-m1-cCY_7ckc-a1-m1-cDJ 7ckc-a1-m1-cCZ_7ckc-a1-m1-cD3 7ckc-a1-m1-cCz_7ckc-a1-m1-cDD GIALGMIETRGLVPAIEAADAMTKAAEVRLVGRQFVGGGYVTVLVRGETGAVNAAVRAGADACERVGDGLVAAHIIARVHSEVENILPKAPQ GIALGMIETRGLVPAIEAADAMTKAAEVRLVGRQFVGGGYVTVLVRGETGAVNAAVRAGADACERVGDGLVAAHIIARVHSEVENILPKAPQ 2ewn-a1-m1-cB_2ewn-a1-m1-cA Ecoli Biotin Repressor with co-repressor analog P06709 P06709 2.8 X-RAY DIFFRACTION 109 0.997 562 (Escherichia coli) 562 (Escherichia coli) 317 318 KDNTVPLKLIALLANGEFHSGEQLGETLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIQLLNAKQILGQLDGGSVAVLPVIDSTNQYLLDRIGELKSGDACIAEYQQAGRGRRGRKWFSPFGANLYLSMFWRLEQGPAAAIGLSLVIGIVMAEVLRKLGADKVRVKWPNDLYLQDRKLAGILVELTGKTGDAAQIVIGAGINMAMRRVEESVVNQGWITLQEAGINLDRNTLAAMLIRELRAALELFEQEGLAPYLSRWEKLDNFINRPVKLIIGDKEIFGISRGIDKQGALLLEQDGIIKPWMGGEISLRS DNTVPLKLIALLANGEFHSGEQLGETLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIQLLNAKQILGQLDGGSVAVLPVIDSTNQYLLDRIGELKSGDACIAEYQQAGRGRRGRKWFSPFGANLYLSMFWRLEQGPAAAIGLSLVIGIVMAEVLRKLGADKVRVKWPNDLYLQDRKLAGILVELTGKTGDAAQIVIGAGINMAMRRVEESVVNQGWITLQEAGINLDRNTLAAMLIRELRAALELFEQEGLAPYLSRWEKLDNFINRPVKLIIGDKEIFGISRGIDKQGALLLEQDGIIKPWMGGEISLRSAE 2ewo-a3-m1-cK_2ewo-a3-m1-cL X-ray structure of putative agmatine deiminase Q8DW17, Northeast Structural Genomics target SmR6. Q8DW17 Q8DW17 2.9 X-RAY DIFFRACTION 44 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 355 355 2ewo-a1-m1-cA_2ewo-a1-m1-cG 2ewo-a1-m1-cB_2ewo-a1-m1-cF 2ewo-a2-m1-cC_2ewo-a2-m1-cD 2ewo-a2-m1-cI_2ewo-a2-m1-cJ 2ewo-a3-m1-cE_2ewo-a3-m1-cH AKRIKNTTPKQDGFRPGEFEKQKQIWLWPWRNDNWRLGAKPAQKAFLEVAEAISEFEPVSLCVPPLQYENALARVSELGSHNIRIIETNDDAWIRDCGPTFLVNDKGDLRAVDWEFNAWGGLVDGLYFPWDQDALVARKVCEIEGVDSYKTKDFVLEGGSIHVDGEGTVLVTECLLHPSRNPHLTKEDIEDKLKDYLNCVKVLWVKDGIDPYETNGHIDDVACFIRPGEVACIYTDDKEHPFYQEAKAAYDFLSQQTDAKGRPLKVHKCVTKEPCYLQEAATIDYVEGEAIASYLNFLIVNGGIILPQYGDENDQLAKQQVQEFPDRKVVGVRTEEIAYGGGNIHCITQQQPATL AKRIKNTTPKQDGFRPGEFEKQKQIWLWPWRNDNWRLGAKPAQKAFLEVAEAISEFEPVSLCVPPLQYENALARVSELGSHNIRIIETNDDAWIRDCGPTFLVNDKGDLRAVDWEFNAWGGLVDGLYFPWDQDALVARKVCEIEGVDSYKTKDFVLEGGSIHVDGEGTVLVTECLLHPSRNPHLTKEDIEDKLKDYLNCVKVLWVKDGIDPYETNGHIDDVACFIRPGEVACIYTDDKEHPFYQEAKAAYDFLSQQTDAKGRPLKVHKCVTKEPCYLQEAATIDYVEGEAIASYLNFLIVNGGIILPQYGDENDQLAKQQVQEFPDRKVVGVRTEEIAYGGGNIHCITQQQPATL 2ewo-a3-m1-cL_2ewo-a3-m1-cH X-ray structure of putative agmatine deiminase Q8DW17, Northeast Structural Genomics target SmR6. Q8DW17 Q8DW17 2.9 X-RAY DIFFRACTION 55 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 355 362 2ewo-a1-m1-cA_2ewo-a1-m1-cF 2ewo-a1-m1-cB_2ewo-a1-m1-cG 2ewo-a2-m1-cC_2ewo-a2-m1-cJ 2ewo-a2-m1-cD_2ewo-a2-m1-cI 2ewo-a3-m1-cE_2ewo-a3-m1-cK AKRIKNTTPKQDGFRPGEFEKQKQIWLWPWRNDNWRLGAKPAQKAFLEVAEAISEFEPVSLCVPPLQYENALARVSELGSHNIRIIETNDDAWIRDCGPTFLVNDKGDLRAVDWEFNAWGGLVDGLYFPWDQDALVARKVCEIEGVDSYKTKDFVLEGGSIHVDGEGTVLVTECLLHPSRNPHLTKEDIEDKLKDYLNCVKVLWVKDGIDPYETNGHIDDVACFIRPGEVACIYTDDKEHPFYQEAKAAYDFLSQQTDAKGRPLKVHKCVTKEPCYLQEAATIDYVEGEAIASYLNFLIVNGGIILPQYGDENDQLAKQQVQEFPDRKVVGVRTEEIAYGGGNIHCITQQQPATL AKRIKNTTPKQDGFRPGEFEKQKQIWLWPWRNDNWRLGAKPAQKAFLEVAEAISEFEPVSLCVPPLQYENALARVSELGSHNIRIIETNDDAWIRDCGPTFLVNDKGDLRAVDWEFNAWGGLVDGLYFPWDQDALVARKVCEIEGVDSYKTKDFVLEGGSIHVDGEGTVLVTECLLHPSRNPHLTKEDIEDKLKDYLNCVKVLWVKDGIDPYETNGHIDDVACFIRPGEVACIYTDDKEHPFYQEAKAAYDFLSQQTDAKGRPLKVHKCVTKEPCYLQEAATIDYVEGSIPREEGEAIASYLNFLIVNGGIILPQYGDENDQLAKQQVQEFPDRKVVGVRTEEIAYGGGNIHCITQQQPATL 2ewt-a1-m1-cA_2ewt-a1-m2-cA Crystal structure of the DNA-binding domain of BldD Q7AKQ8 Q7AKQ8 1.81 X-RAY DIFFRACTION 42 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 71 71 MSSEYAKQLGAKLRAIRTQQGLSLHGVEEKSQGRWKAVVVGSYERGDRAVTVQRLAELADFYGVPVQELLP MSSEYAKQLGAKLRAIRTQQGLSLHGVEEKSQGRWKAVVVGSYERGDRAVTVQRLAELADFYGVPVQELLP 2ewv-a1-m2-cA_2ewv-a1-m6-cA Crystal Structure of the Pilus Retraction Motor PilT and Bound ADP O66950 O66950 2.8 X-RAY DIFFRACTION 70 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 343 343 2ewv-a1-m1-cA_2ewv-a1-m5-cA 2ewv-a1-m1-cA_2ewv-a1-m6-cA 2ewv-a1-m2-cA_2ewv-a1-m4-cA 2ewv-a1-m3-cA_2ewv-a1-m4-cA 2ewv-a1-m3-cA_2ewv-a1-m5-cA 2eww-a1-m1-cA_2eww-a1-m5-cA 2eww-a1-m1-cA_2eww-a1-m6-cA 2eww-a1-m2-cA_2eww-a1-m4-cA 2eww-a1-m2-cA_2eww-a1-m6-cA 2eww-a1-m3-cA_2eww-a1-m4-cA 2eww-a1-m3-cA_2eww-a1-m5-cA 2gsz-a1-m1-cA_2gsz-a1-m1-cF 2gsz-a1-m1-cB_2gsz-a1-m1-cC 2gsz-a1-m1-cC_2gsz-a1-m1-cD 2gsz-a1-m1-cE_2gsz-a1-m1-cF ELKILEIIKEAIELGASDIHLTAGAPPAVRIDGYIKFLKDFPRLTPEDTQKLAYSVMSEKHRQKLEENGQVDFSFGVRGVGRFRANVFYQRGSVAAALRSLPAEIPEFKKLGLPDKVLELCHRKMGLILVTGPTGSGKSTTIASMIDYINQTKSYHIITIEDPIEYVFKHKKSIVNQREVGEDTKSFADALRAALREDPDVIFVGEMRDLETVETALRAAETGHLVFGTLHTNTAIDTIHRIVDIFPLNQQEQVRIVLSFILQGIISQRLLPKIGGGRVLAYELLIPNTAIRNLIRENKLQQVYSLMQMQTMNQTLYKLYKQGLITLEDAMEASPDPKELERM ELKILEIIKEAIELGASDIHLTAGAPPAVRIDGYIKFLKDFPRLTPEDTQKLAYSVMSEKHRQKLEENGQVDFSFGVRGVGRFRANVFYQRGSVAAALRSLPAEIPEFKKLGLPDKVLELCHRKMGLILVTGPTGSGKSTTIASMIDYINQTKSYHIITIEDPIEYVFKHKKSIVNQREVGEDTKSFADALRAALREDPDVIFVGEMRDLETVETALRAAETGHLVFGTLHTNTAIDTIHRIVDIFPLNQQEQVRIVLSFILQGIISQRLLPKIGGGRVLAYELLIPNTAIRNLIRENKLQQVYSLMQMQTMNQTLYKLYKQGLITLEDAMEASPDPKELERM 2ewy-a6-m1-cC_2ewy-a6-m1-cD Crystal structure of human BACE2 in complex with a hydroxyethylenamine transition-state inhibitor Q9Y5Z0 Q9Y5Z0 3.1 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 374 374 2ewy-a5-m1-cA_2ewy-a5-m1-cB 3zlq-a1-m1-cA_3zlq-a1-m1-cB LAMVDNLQGDSGRGYYLEMLIGTPPQKLQILVDTGSSNFAVAGTPHSYIDTYFDTERSSTYRSKGFDVTVKYTQGSWTGFVGEDLVTIPKGFNTSFLVNIATIFESENFFLPGIKWNGILGLAYATLAKPSSSLETFFDSLVTQANIPNVFSMQMCGANGGSLVLGGIEPSLYKGDIWYTPIKEEWYYQIEILKLEIGGQSLNLDCREYNADKAIVDSGTTLLRLPQKVFDAVVEAVARASLIPEFSDGFWTGSQLACWTNSETPWSYFPKISIYLRDENSSRSFRITILPQLYIQPMMGAGLNYECYRFGISPSTNALVIGATVMEGFYVIFDRAQKRVGFAASPCAEIAGAAVSEISGPFSTEDVASNCVPA LAMVDNLQGDSGRGYYLEMLIGTPPQKLQILVDTGSSNFAVAGTPHSYIDTYFDTERSSTYRSKGFDVTVKYTQGSWTGFVGEDLVTIPKGFNTSFLVNIATIFESENFFLPGIKWNGILGLAYATLAKPSSSLETFFDSLVTQANIPNVFSMQMCGANGGSLVLGGIEPSLYKGDIWYTPIKEEWYYQIEILKLEIGGQSLNLDCREYNADKAIVDSGTTLLRLPQKVFDAVVEAVARASLIPEFSDGFWTGSQLACWTNSETPWSYFPKISIYLRDENSSRSFRITILPQLYIQPMMGAGLNYECYRFGISPSTNALVIGATVMEGFYVIFDRAQKRVGFAASPCAEIAGAAVSEISGPFSTEDVASNCVPA 2ex2-a1-m1-cA_2ex2-a1-m2-cA Crystal structure of penicillin binding protein 4 (dacB) from Escherichia coli P24228 P24228 1.55 X-RAY DIFFRACTION 148 1.0 562 (Escherichia coli) 562 (Escherichia coli) 456 456 2ex6-a2-m1-cA_2ex6-a2-m2-cA 2ex8-a2-m1-cA_2ex8-a2-m2-cA NVDEYITQLPAGANLALMVQKVGASAPAIDYHSQQMALPASTQKVITALAALIQLGPDFRFTTTLETKGNVENGVLKGDLVARFGADPTLKRQDIRNMVATLKKSGVNQIDGNVLIDTSIFASHDKAPGWPWNDMTQCFSAPPAAAIVDRNCFSVSLYSAPKPGDMAFIRVASYYPVTMFSQVRTLPRGSAEAQYCELDVVPGDLNRFTLTGCLPQRSEPLPLAFAVQDGASYAGAILKYELKQAGITWSGTLLRQTQVNEPGTVVASKQSAPLHDLLKIMLKKSDNMIADTVFRMIGHARFNVPGTWRAGSDAVRQILRQQAGVDIGNTIIADGSGLSRHNLIAPATMMQVLQYIAQHDNELNFISMLPLAGYDGSLQYRAGLHQAGVDGKVSAKTGSLQGVYNLAGFITTASGQRMAFVQYLSGYAVEPADQRNRRIPLVRFESRLYKDIYQNN NVDEYITQLPAGANLALMVQKVGASAPAIDYHSQQMALPASTQKVITALAALIQLGPDFRFTTTLETKGNVENGVLKGDLVARFGADPTLKRQDIRNMVATLKKSGVNQIDGNVLIDTSIFASHDKAPGWPWNDMTQCFSAPPAAAIVDRNCFSVSLYSAPKPGDMAFIRVASYYPVTMFSQVRTLPRGSAEAQYCELDVVPGDLNRFTLTGCLPQRSEPLPLAFAVQDGASYAGAILKYELKQAGITWSGTLLRQTQVNEPGTVVASKQSAPLHDLLKIMLKKSDNMIADTVFRMIGHARFNVPGTWRAGSDAVRQILRQQAGVDIGNTIIADGSGLSRHNLIAPATMMQVLQYIAQHDNELNFISMLPLAGYDGSLQYRAGLHQAGVDGKVSAKTGSLQGVYNLAGFITTASGQRMAFVQYLSGYAVEPADQRNRRIPLVRFESRLYKDIYQNN 2ex5-a1-m1-cA_2ex5-a1-m1-cB Group I Intron-encoded Homing Endonuclease I-CeuI Complexed With DNA P32761 P32761 2.2 X-RAY DIFFRACTION 86 1.0 207 207 ILKPGEKLPQDKLEELKKINDAVKKTKNFSKYLIDLRKLFQIDEVQVTSESKLFLAGFLEGEASLNISTKKLATSKFGLVVDPEFNVTRHVNGVKVLYLALEVFKTGRIRHKSGSNATLVLTIDNRQSLEEKVIPFYEQYVVAFSSPEKVKRVANFKALLELFNNDAHQDLEQLVNKILPIWDQMRKQQGQSNEGFPNLEAAQDFAR ILKPGEKLPQDKLEELKKINDAVKKTKNFSKYLIDLRKLFQIDEVQVTSESKLFLAGFLEGEASLNISTKKLATSKFGLVVDPEFNVTRHVNGVKVLYLALEVFKTGRIRHKSGSNATLVLTIDNRQSLEEKVIPFYEQYVVAFSSPEKVKRVANFKALLELFNNDAHQDLEQLVNKILPIWDQMRKQQGQSNEGFPNLEAAQDFAR 2exh-a1-m1-cB_2exh-a1-m1-cD Structure of the family43 beta-Xylosidase from geobacillus stearothermophilus Q09LX0 Q09LX0 1.88 X-RAY DIFFRACTION 55 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 533 533 2exh-a1-m1-cA_2exh-a1-m1-cC 2exi-a1-m1-cA_2exi-a1-m1-cC 2exi-a1-m1-cB_2exi-a1-m1-cD 2exj-a1-m1-cA_2exj-a1-m1-cC 2exj-a1-m1-cB_2exj-a1-m1-cD 2exk-a1-m1-cA_2exk-a1-m1-cC 2exk-a1-m1-cB_2exk-a1-m1-cD KIKNPILTGFHPDPSICRVGDDYYIAVSTFEWFPGVRIYHSKDLKNWRLVARPLNRLSQLNMIGNPDSGGVWAPHLSYSDGKFWLIYTDVKVVEGQWKDGHNYLVTCDTIDGAWSDPIYLNSSGFDPSLFHDEDGRKYLVNMYWDHRVDHHPFYGIVLQEYSVEQKKLVGEPKIIFKGTDLRITEGPHLYKINGYYYLLTAEGGTRYNHAATIARSTSLYGPYEVHPDNPLLTSWPYPRNPLQKAGHASIVHTHTDEWFLVHLTGRPLPREGQPLLEHRGYCPLGRETAIQRLEWKDGWPYVVGGNGPSLEIDGPSVEEVSWEKDYDEKDDFDGDTLNHHFQTLRIPLGEDIATLKARPGHLRLYGRESLTSRFTQAFVARRWQHFHFVAETKVSFRPTTFQQSAGLVNYYNTQNWTTLQITWHEEKGRILELMTCDHLVVDQPLRGREIVVPDDIEYVYLRVTVQATTYKYSYSFDGMNWIDLPVTFESYKLSDDYIKSRAAFTGAFVGMHCRDGSGQNNYADFDYFLYKEL KIKNPILTGFHPDPSICRVGDDYYIAVSTFEWFPGVRIYHSKDLKNWRLVARPLNRLSQLNMIGNPDSGGVWAPHLSYSDGKFWLIYTDVKVVEGQWKDGHNYLVTCDTIDGAWSDPIYLNSSGFDPSLFHDEDGRKYLVNMYWDHRVDHHPFYGIVLQEYSVEQKKLVGEPKIIFKGTDLRITEGPHLYKINGYYYLLTAEGGTRYNHAATIARSTSLYGPYEVHPDNPLLTSWPYPRNPLQKAGHASIVHTHTDEWFLVHLTGRPLPREGQPLLEHRGYCPLGRETAIQRLEWKDGWPYVVGGNGPSLEIDGPSVEEVSWEKDYDEKDDFDGDTLNHHFQTLRIPLGEDIATLKARPGHLRLYGRESLTSRFTQAFVARRWQHFHFVAETKVSFRPTTFQQSAGLVNYYNTQNWTTLQITWHEEKGRILELMTCDHLVVDQPLRGREIVVPDDIEYVYLRVTVQATTYKYSYSFDGMNWIDLPVTFESYKLSDDYIKSRAAFTGAFVGMHCRDGSGQNNYADFDYFLYKEL 2exh-a2-m1-cA_2exh-a2-m2-cB Structure of the family43 beta-Xylosidase from geobacillus stearothermophilus Q09LX0 Q09LX0 1.88 X-RAY DIFFRACTION 19 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 533 533 2exi-a2-m1-cA_2exi-a2-m2-cB KIKNPILTGFHPDPSICRVGDDYYIAVSTFEWFPGVRIYHSKDLKNWRLVARPLNRLSQLNMIGNPDSGGVWAPHLSYSDGKFWLIYTDVKVVEGQWKDGHNYLVTCDTIDGAWSDPIYLNSSGFDPSLFHDEDGRKYLVNMYWDHRVDHHPFYGIVLQEYSVEQKKLVGEPKIIFKGTDLRITEGPHLYKINGYYYLLTAEGGTRYNHAATIARSTSLYGPYEVHPDNPLLTSWPYPRNPLQKAGHASIVHTHTDEWFLVHLTGRPLPREGQPLLEHRGYCPLGRETAIQRLEWKDGWPYVVGGNGPSLEIDGPSVEEVSWEKDYDEKDDFDGDTLNHHFQTLRIPLGEDIATLKARPGHLRLYGRESLTSRFTQAFVARRWQHFHFVAETKVSFRPTTFQQSAGLVNYYNTQNWTTLQITWHEEKGRILELMTCDHLVVDQPLRGREIVVPDDIEYVYLRVTVQATTYKYSYSFDGMNWIDLPVTFESYKLSDDYIKSRAAFTGAFVGMHCRDGSGQNNYADFDYFLYKEL KIKNPILTGFHPDPSICRVGDDYYIAVSTFEWFPGVRIYHSKDLKNWRLVARPLNRLSQLNMIGNPDSGGVWAPHLSYSDGKFWLIYTDVKVVEGQWKDGHNYLVTCDTIDGAWSDPIYLNSSGFDPSLFHDEDGRKYLVNMYWDHRVDHHPFYGIVLQEYSVEQKKLVGEPKIIFKGTDLRITEGPHLYKINGYYYLLTAEGGTRYNHAATIARSTSLYGPYEVHPDNPLLTSWPYPRNPLQKAGHASIVHTHTDEWFLVHLTGRPLPREGQPLLEHRGYCPLGRETAIQRLEWKDGWPYVVGGNGPSLEIDGPSVEEVSWEKDYDEKDDFDGDTLNHHFQTLRIPLGEDIATLKARPGHLRLYGRESLTSRFTQAFVARRWQHFHFVAETKVSFRPTTFQQSAGLVNYYNTQNWTTLQITWHEEKGRILELMTCDHLVVDQPLRGREIVVPDDIEYVYLRVTVQATTYKYSYSFDGMNWIDLPVTFESYKLSDDYIKSRAAFTGAFVGMHCRDGSGQNNYADFDYFLYKEL 2exh-a2-m2-cB_2exh-a2-m2-cC Structure of the family43 beta-Xylosidase from geobacillus stearothermophilus Q09LX0 Q09LX0 1.88 X-RAY DIFFRACTION 121 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 533 533 2exh-a1-m1-cA_2exh-a1-m1-cD 2exh-a1-m1-cB_2exh-a1-m1-cC 2exh-a2-m1-cA_2exh-a2-m1-cD 2exi-a1-m1-cA_2exi-a1-m1-cD 2exi-a1-m1-cB_2exi-a1-m1-cC 2exi-a2-m1-cA_2exi-a2-m1-cD 2exi-a2-m2-cB_2exi-a2-m2-cC 2exj-a1-m1-cA_2exj-a1-m1-cD 2exj-a1-m1-cB_2exj-a1-m1-cC 2exk-a1-m1-cA_2exk-a1-m1-cD 2exk-a1-m1-cB_2exk-a1-m1-cC KIKNPILTGFHPDPSICRVGDDYYIAVSTFEWFPGVRIYHSKDLKNWRLVARPLNRLSQLNMIGNPDSGGVWAPHLSYSDGKFWLIYTDVKVVEGQWKDGHNYLVTCDTIDGAWSDPIYLNSSGFDPSLFHDEDGRKYLVNMYWDHRVDHHPFYGIVLQEYSVEQKKLVGEPKIIFKGTDLRITEGPHLYKINGYYYLLTAEGGTRYNHAATIARSTSLYGPYEVHPDNPLLTSWPYPRNPLQKAGHASIVHTHTDEWFLVHLTGRPLPREGQPLLEHRGYCPLGRETAIQRLEWKDGWPYVVGGNGPSLEIDGPSVEEVSWEKDYDEKDDFDGDTLNHHFQTLRIPLGEDIATLKARPGHLRLYGRESLTSRFTQAFVARRWQHFHFVAETKVSFRPTTFQQSAGLVNYYNTQNWTTLQITWHEEKGRILELMTCDHLVVDQPLRGREIVVPDDIEYVYLRVTVQATTYKYSYSFDGMNWIDLPVTFESYKLSDDYIKSRAAFTGAFVGMHCRDGSGQNNYADFDYFLYKEL KIKNPILTGFHPDPSICRVGDDYYIAVSTFEWFPGVRIYHSKDLKNWRLVARPLNRLSQLNMIGNPDSGGVWAPHLSYSDGKFWLIYTDVKVVEGQWKDGHNYLVTCDTIDGAWSDPIYLNSSGFDPSLFHDEDGRKYLVNMYWDHRVDHHPFYGIVLQEYSVEQKKLVGEPKIIFKGTDLRITEGPHLYKINGYYYLLTAEGGTRYNHAATIARSTSLYGPYEVHPDNPLLTSWPYPRNPLQKAGHASIVHTHTDEWFLVHLTGRPLPREGQPLLEHRGYCPLGRETAIQRLEWKDGWPYVVGGNGPSLEIDGPSVEEVSWEKDYDEKDDFDGDTLNHHFQTLRIPLGEDIATLKARPGHLRLYGRESLTSRFTQAFVARRWQHFHFVAETKVSFRPTTFQQSAGLVNYYNTQNWTTLQITWHEEKGRILELMTCDHLVVDQPLRGREIVVPDDIEYVYLRVTVQATTYKYSYSFDGMNWIDLPVTFESYKLSDDYIKSRAAFTGAFVGMHCRDGSGQNNYADFDYFLYKEL 2exu-a1-m1-cA_2exu-a1-m2-cA Crystal Structure of Saccharomyces cerevisiae transcription elongation factors Spt4-Spt5NGN domain P32914 P32914 2.23 X-RAY DIFFRACTION 163 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 192 192 SERACMLCGIVQTTNEFNRDGCPNCQGIFEEAGVSTMECTSPSFEGLVGMCKPTKSWVAKWLSVDHSIAGMYAIKVDGRLPAEVVELLPHYKPRDGSGSATIWGVRCRPGKEKELIRKLLKKKFNLDRAMGKKKLKILSIFQRDNYTGRIYIEAPKQSVIEKFCNGVPDIYISQKLLIPVQELPLLLKPNLE SERACMLCGIVQTTNEFNRDGCPNCQGIFEEAGVSTMECTSPSFEGLVGMCKPTKSWVAKWLSVDHSIAGMYAIKVDGRLPAEVVELLPHYKPRDGSGSATIWGVRCRPGKEKELIRKLLKKKFNLDRAMGKKKLKILSIFQRDNYTGRIYIEAPKQSVIEKFCNGVPDIYISQKLLIPVQELPLLLKPNLE 2exx-a1-m1-cB_2exx-a1-m1-cA Crystal structure of HSCARG from Homo sapiens in complex with NADP Q9HBL8 Q9HBL8 2.4 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 305 KKLVVVFGGTGAQGGSVARTLLEDGTFKVRVVTRNPRKKAAKELRLQGAEVVQGDQDDQVIMELALNGAYATFIVTNYWESCSQEQEVKQGKLLADLARRLGLHYVVYSGLENIKKLTAGRLAAAHFDGKGEVEEYFRDIGVPMTSVRLPCYFENLLSHFLPQKAPDGKSYLVPMDGMSVSDLGPVVLSLLKMPEKYVGQNIGLSTCRHTAEEYAALLTKHTRKVVHDAKMTPEDYEKDLANMFRFYALRPDRDIELTLRLNPKALTLDQWLEQHKGDF LYKKAGLMVDKKLVVVFGGTGAQGGSVARTLLEDGTFKVRVVTRNPRKKAAKELRLQGAEVVQGDQDDQVIMELALNGAYATFIVTNYWESCSQEQEVKQGKLLADLARRLGLHYVVYSGLENIKKLTAGRLAAAHFDGKGEVEEYFRDIGVPMTSVRLPCYFENLLSHFLPQKAPDGKSYLLSLPTGDVPMDGMSVSDLGPVVLSLLKMPEKYVGQNIGLSTCRHTAEEYAALLTKHTRKVVHDAKMTPEDYEKLGFPGARDLANMFRFYALRPDRDIELTLRLNPKALTLDQWLEQHKGDFNL 2ey4-a3-m1-cE_2ey4-a3-m2-cF Crystal Structure of a Cbf5-Nop10-Gar1 Complex Q8U1R4 Q8U1R4 2.11 X-RAY DIFFRACTION 31 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 52 52 RIRKCPKCGRYTLKEVCPVCGEKTKVAHPPRFSPEDPYGEYRRRWKREVLGI RIRKCPKCGRYTLKEVCPVCGEKTKVAHPPRFSPEDPYGEYRRRWKREVLGI 2eys-a2-m1-cB_2eys-a2-m2-cB A structural basis for selection and cross-species reactivity of the semi-invariant NKT cell receptor in CD1d/glycolipid recognition A0A5B9 A0A5B9 2.21 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 243 2eyr-a2-m1-cB_2eyr-a2-m2-cB DIYQTPRYLVIGTGKKITLECSQTMGHDKMYWYQQDPGMELHLIHYSYGVNSTEKGDLSSESTVSRIRTEHFPLTLESARPSHTSQYLCASSGLRDRGLYEQYFGPGTRLTVTEDLKNVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVCTDPQPLKEQPALNDSRYALSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD DIYQTPRYLVIGTGKKITLECSQTMGHDKMYWYQQDPGMELHLIHYSYGVNSTEKGDLSSESTVSRIRTEHFPLTLESARPSHTSQYLCASSGLRDRGLYEQYFGPGTRLTVTEDLKNVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVCTDPQPLKEQPALNDSRYALSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD 2eyt-a3-m1-cA_2eyt-a3-m2-cC A structural basis for selection and cross-species reactivity of the semi-invariant NKT cell receptor in CD1d/glycolipid recognition P01848 P01848 2.6 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 202 NQVEQSPQSLIILEGKNCTLQCNYTVSPFSNLRWYKQDTGRGPVSLTIMTFSENTKSNGRYTATLDADTKQSSLHITASQLSDSASYICVVSDRGSTLGRLYFGRGTQLTVWPDIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFP NQVEQSPQSLIILEGKNCTLQCNYTVSPFSNLRWYKQDTGRGPVSLTIMTFSENTKSNGRYTATLDADTKQSSLHITASQLSDSASYICVVSDRGSTLGRLYFGRGTQLTVWPDIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFP 2ezv-a1-m1-cA_2ezv-a1-m2-cB Crystal structure of tetrameric restriction endonuclease SfiI bound to cognate DNA. O52512 O52512 2.4 X-RAY DIFFRACTION 121 1.0 68197 (Streptomyces fimbriatus) 68197 (Streptomyces fimbriatus) 267 269 2ezv-a1-m2-cA_2ezv-a1-m1-cB 2f03-a1-m1-cA_2f03-a1-m1-cC 2f03-a1-m2-cA_2f03-a1-m2-cC MHQDYRELSLDELESVEKQTLRTIVQALQQYSKEAKSIFETTAADSSGEVIVLAEDITQYALEVAETYPINRRFAGFIDYKRVRWLPSPHGLLPQVLLVDAKASTEKNRDTLQRSQLPMDAEFRNTSSGEVVTMEAGVIPHLMLQSANDGVLPAVTTSIFVHFYYRELKEGRYRELKSIYVLSLPHARLKQRYNPDPDTSFFGAGKHSPARGEVARIRVYFDRLKEACPWRLQELHYSADSEYTQPRWRDLNDAGHEVTKEFLFLER MHQDYRELSLDELESVEKQTLRTIVQALQQYSKEAKSIFETTAADSSGEVIVLAEDITQYALEVAETYPINRRFAGFIDYKRVRWLPSPHGLLPQVLLVDAKASTEKNRDTLQRSQLPMDAEFRNTSSGEVVTMEAGVIPHLMLQSANDGVLPAVTTSIFVHFYYRELKDVEGRYRELKSIYVLSLPHARLKQRYNPDPDTSFFGAGKHSPARGEVARIRVYFDRLKEACPWRLQELHYSADSEYTQPRWRDLNDAGHEVTKEFLFLER 2ezv-a1-m2-cA_2ezv-a1-m2-cB Crystal structure of tetrameric restriction endonuclease SfiI bound to cognate DNA. O52512 O52512 2.4 X-RAY DIFFRACTION 48 1.0 68197 (Streptomyces fimbriatus) 68197 (Streptomyces fimbriatus) 267 269 2ezv-a1-m1-cA_2ezv-a1-m1-cB 2f03-a1-m1-cA_2f03-a1-m2-cA 2f03-a1-m1-cC_2f03-a1-m2-cC MHQDYRELSLDELESVEKQTLRTIVQALQQYSKEAKSIFETTAADSSGEVIVLAEDITQYALEVAETYPINRRFAGFIDYKRVRWLPSPHGLLPQVLLVDAKASTEKNRDTLQRSQLPMDAEFRNTSSGEVVTMEAGVIPHLMLQSANDGVLPAVTTSIFVHFYYRELKEGRYRELKSIYVLSLPHARLKQRYNPDPDTSFFGAGKHSPARGEVARIRVYFDRLKEACPWRLQELHYSADSEYTQPRWRDLNDAGHEVTKEFLFLER MHQDYRELSLDELESVEKQTLRTIVQALQQYSKEAKSIFETTAADSSGEVIVLAEDITQYALEVAETYPINRRFAGFIDYKRVRWLPSPHGLLPQVLLVDAKASTEKNRDTLQRSQLPMDAEFRNTSSGEVVTMEAGVIPHLMLQSANDGVLPAVTTSIFVHFYYRELKDVEGRYRELKSIYVLSLPHARLKQRYNPDPDTSFFGAGKHSPARGEVARIRVYFDRLKEACPWRLQELHYSADSEYTQPRWRDLNDAGHEVTKEFLFLER 2ezw-a1-m1-cA_2ezw-a1-m1-cB Solution structure of the docking and dimerization domain of the type I alpha regulatory subunit of protein kinase A (RIalpha D/D) P00514 P00514 NOT SOLUTION NMR 68 1.0 9913 (Bos taurus) 9913 (Bos taurus) 50 50 SLRECELYVQKHNIQALLKDSIVQLCTARPERPMAFLREYFEKLEKEEAK SLRECELYVQKHNIQALLKDSIVQLCTARPERPMAFLREYFEKLEKEEAK 2f00-a1-m1-cA_2f00-a1-m1-cB Escherichia coli MurC P17952 P17952 2.5 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 461 468 NTQQLAKLRSIVPERRVRHIHFVGIGGAGGGIAEVLANEGYQISGSDLAPNPVTQQLNLGATIYFNHRPENVRDASVVVVSSAISADNPEIVAAHEARIPVIRRAELAELRFRHGIAIAGTHGKTTTTAVSSIYAEAGLDPTFVNGGLVKAAGVHARLGHGRYLIAEADESDASFLHLQPVAIVTNIEADHDTYQGDFENLKQTFINFLHNLPFYGRAVCVDDPVIRELLPRVGRQTTTYGFSEDADVRVEDYQQIGPQGHFTLLRQDKEPRVTLNAPGRHNALNAAAAVAVATEEGIDDEAILRALESFQGTGRRFDFLGEFPLEPVNGKSGTALVDDYGHHPTEVDATIKAARAGWPDKNLVLFQPHRFTRTRDLYDDFANVLTQVDTLLLEVYPAGEAPIPGADSRSLCRTDPILVPDPARVAELAPVLTGNDLILVQGAGNIGKIARSLAEIKLKPQ NTQQLAKLRSIVPERRVRHIHFVGIGGAGGGIAEVLANEGYQISGSDLAPNPVTQQLNLGATIYFNHRPENVRDASVVVVSSAISADNPEIVAAHEARIPVIRRAELAELRFRHGIAIAGTHGKTTTTAVSSIYAEAGLDPTFVNGGLVKAAGVHARLGHGRYLIAEADESDASFLHLQPVAIVTNIEADHDTYQGDFENLKQTFINFLHNLPFYGRAVCVDDPVIRELLPRVGRQTTTYGFSEDADVRVEDYQQIGPQGHFTLLRQDKEPRVTLNAPGRHNALNAAAAVAVATEEGIDDEAILRALESFQGTGRRFDFLGEFPLEPVNGKSGTALVDDYGHHPTEVDATIKAARAGWPDKNLVLFQPHRFTRTRDLYDDFANVLTQVDTLLLEVYPAGEAPIPGADSRSLCRTIRGRGKIDPILVPDPARVAELAPVLTGNDLILVQGAGNIGKIARSLAEIKLKPQ 2f02-a1-m1-cB_2f02-a1-m1-cA Crystal Structure of LacC from Enterococcus Faecalis in complex with ATP Q833W9 Q833W9 1.9 X-RAY DIFFRACTION 85 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 308 313 2awd-a1-m1-cB_2awd-a1-m1-cA SLIVTVTNPSIDISYLLDHLKLDTVNRTSQVTKTPGGKGLNVTRVIHDLGGDVIATGVLGGFHGAFIANELKKANIPQAFTSIKEETRDSIAILHEGNQTEILEAGPTVSPEEISNFLENFDQLIKQAEIVTISGSLAKGLPSDFYQELVQKAHAQEVKVLLDTSGDSLRQVLQGPWKPYLIKPNLEELEGLLGQDFSENPLAAVQTALTKPFAGIEWIVISLGKDGAIAKHHDQFYRVKIPTIQAKNPVGSGDATIAGLAYGLAKDAPAAELLKWGAAGANAQERTGHVDVENVKKHLNIQVVEIAK SLIVTVTNPSIDISYLLDHLKLDTVNRTSQVTKTPGGKGLNVTRVIHDLGGDVIATGVLGGFHGAFIANELKKANIPQAFTSIKEETRDSIAILHEGNQTEILEAGPTVSPEEISNFLENFDQLIKQAEIVTISGSLAKGLPSDFYQELVQKAHAQEVKVLLDTSGDSLRQVLQGPWKPYLIKPNLEELEGLLGQDFSENPLAAVQTALTKPFAGIEWIVISLGKDGAIAKHHDQFYRVKIPTIQAKNPVGSGDATIAGLAYGLAKDAPAAELLKWGAAGANAQERTGHVDVENVKKHLNIQVVEIAKEGHHH 2f06-a1-m1-cB_2f06-a1-m2-cB Crystal structure of protein BT0572 from Bacteroides thetaiotaomicron Q8AA93 Q8AA93 2.1 X-RAY DIFFRACTION 154 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 141 141 2f06-a1-m1-cA_2f06-a1-m2-cA SNAVAKQLSIFLENKSGRLTEVTEVLAKENINLSALCIAENADFGILRGIVSDPDKAYKALKDNHFAVNITDVVGISCPNVPGALAKVLGFLSAEGVFIEYYSFANNNVANVVIRPSNDKCIEVLKEKKVDLLAASDLYKL SNAVAKQLSIFLENKSGRLTEVTEVLAKENINLSALCIAENADFGILRGIVSDPDKAYKALKDNHFAVNITDVVGISCPNVPGALAKVLGFLSAEGVFIEYYSFANNNVANVVIRPSNDKCIEVLKEKKVDLLAASDLYKL 2f06-a1-m2-cA_2f06-a1-m2-cB Crystal structure of protein BT0572 from Bacteroides thetaiotaomicron Q8AA93 Q8AA93 2.1 X-RAY DIFFRACTION 38 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 141 141 2f06-a1-m1-cA_2f06-a1-m1-cB SNAVAKQLSIFLENKSGRLTEVTEVLAKENINLSALCIAENADFGILRGIVSDPDKAYKALKDNHFAVNITDVVGISCPNVPGALAKVLGFLSAEGVFIEYYSFANNNVANVVIRPSNDKCIEVLKEKKVDLLAASDLYKL SNAVAKQLSIFLENKSGRLTEVTEVLAKENINLSALCIAENADFGILRGIVSDPDKAYKALKDNHFAVNITDVVGISCPNVPGALAKVLGFLSAEGVFIEYYSFANNNVANVVIRPSNDKCIEVLKEKKVDLLAASDLYKL 2f07-a1-m1-cB_2f07-a1-m1-cA Crystal Structure of YvdT from Bacillus subtilis O07001 O07001 2.3 X-RAY DIFFRACTION 101 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 196 197 PFTMPKQTSGKYEKILQAAIEVISEKGLDKASISDIVKKAGTAQGTFYLYFSSKNALIPAIAENLLTHTLDQIKGRLHGDEDFWTVLDILIDETFLITERHKDIIVLCYSGLAIDHSMEKWETIYQPYYSWLEKIINKAIANHEVTEGINSKWTARTIINLVENTAERFYIGFEQDENVEVYKKEIFTFLKRSLGT PFTMPKQTSGKYEKILQAAIEVISEKGLDKASISDIVKKAGTAQGTFYLYFSSKNALIPAIAENLLTHTLDQIKGRLHGDEDFWTVLDILIDETFLITERHKDIIVLCYSGLAIDHSMEKWETIYQPYYSWLEKIINKAIANHEVTEGINSKWTARTIINLVENTAERFYIGFEQDENVEVYKKEIFTFLKRSLGTA 2f0a-a5-m1-cC_2f0a-a5-m1-cA Crystal Structure of Monomeric Uncomplexed form of Xenopus dishevelled PDZ domain P51142 P51142 1.8 X-RAY DIFFRACTION 12 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 80 87 IITVTLNEKYNFLGISIVGQSNGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAK IITVTLNEKYNFLGISIVGQSNERGDGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKLE 2f1c-a2-m1-cX_2f1c-a2-m2-cX Crystal structure of the monomeric porin OmpG P76045 P76045 2.3 X-RAY DIFFRACTION 42 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 252 252 4ctd-a1-m1-cB_4ctd-a1-m1-cA NDWHFNIGAMYEIENVGLAEPSVYFNAANGPWRIALAYYQEGPVDYSKRGTWFDRPELEVHYQFLENDDFSFGLTGGFRNYGYHYVDEPGKDTANMQRWKIAPDWDVKLTDDLRFNGWLSMYKFANDLNTTGYADTRVETETGLQYTFNETVALRVNYYLERGFNMDDSRNNGEFSTQEIRAYLPLTLGNHSVTPYTRIGLDRWSNDFNRVGLFYGYDFQNGLSVSLEYAFEWQDDKFHYAGVGVNYSFHHH NDWHFNIGAMYEIENVGLAEPSVYFNAANGPWRIALAYYQEGPVDYSKRGTWFDRPELEVHYQFLENDDFSFGLTGGFRNYGYHYVDEPGKDTANMQRWKIAPDWDVKLTDDLRFNGWLSMYKFANDLNTTGYADTRVETETGLQYTFNETVALRVNYYLERGFNMDDSRNNGEFSTQEIRAYLPLTLGNHSVTPYTRIGLDRWSNDFNRVGLFYGYDFQNGLSVSLEYAFEWQDDKFHYAGVGVNYSFHHH 2f1f-a2-m2-cB_2f1f-a2-m4-cB Crystal structure of the regulatory subunit of acetohydroxyacid synthase isozyme III from E. coli P00894 P00894 1.75 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 158 158 2f1f-a2-m1-cA_2f1f-a2-m3-cA 2f1f-a2-m1-cA_2f1f-a2-m4-cA 2f1f-a2-m1-cB_2f1f-a2-m3-cB 2f1f-a2-m1-cB_2f1f-a2-m4-cB 2f1f-a2-m2-cA_2f1f-a2-m3-cA 2f1f-a2-m2-cA_2f1f-a2-m4-cA 2f1f-a2-m2-cB_2f1f-a2-m3-cB ARRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKVLEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKIQASGYGRDEVKRNTEIFRGQIIDVTPSLYTVQLAGTSGKLDAFLASIRDVAKIVEVARSGVVGLSRG ARRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKVLEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKIQASGYGRDEVKRNTEIFRGQIIDVTPSLYTVQLAGTSGKLDAFLASIRDVAKIVEVARSGVVGLSRG 2f1f-a2-m4-cB_2f1f-a2-m4-cA Crystal structure of the regulatory subunit of acetohydroxyacid synthase isozyme III from E. coli P00894 P00894 1.75 X-RAY DIFFRACTION 174 1.0 562 (Escherichia coli) 562 (Escherichia coli) 158 163 2f1f-a1-m1-cB_2f1f-a1-m1-cA 2f1f-a2-m1-cB_2f1f-a2-m1-cA 2f1f-a2-m2-cB_2f1f-a2-m2-cA 2f1f-a2-m3-cB_2f1f-a2-m3-cA ARRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKVLEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKIQASGYGRDEVKRNTEIFRGQIIDVTPSLYTVQLAGTSGKLDAFLASIRDVAKIVEVARSGVVGLSRG ARRILSVLLENESGALSRVIGLFSQRGYNIESLTVAPTDDPTLSRMTIQTVGDEKVLEQIEKQLHKLVDVLRVSELGQGAHVEREIMLVKIQASGYGRDEVKRNTEIFRGQIIDVTPSLYTVQLAGTSGKLDAFLASIRDVAKIVEVARSGVVGLSRGDKIMR 2f1k-a2-m1-cC_2f1k-a2-m1-cD Crystal structure of Synechocystis arogenate dehydrogenase P73906 P73906 1.55 X-RAY DIFFRACTION 312 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 276 277 2f1k-a1-m1-cA_2f1k-a1-m1-cB MKIGVVGLGLIGASLAGDLRRRGHYLIGVSRQQSTCEKAVERQLVDEAGQDLSLLQTAKIIFLCTPIQLILPTLEKLIPHLSPTAIVTDVASVKTAIAEPASQLWSGFIGGHPAGTAAQGIDGAEENLFVNAPYVLTPTEYTDPEQLALRSVLEPLGVKIYLCTPADHDQAVAWISHLPVMVSAALIQACAGEKDGDILKLAQNLASSGFRDTSRVGGGNPELGTMMATYNQRALLKSLQDYRQHLDQLITLISNQQWPELHRLLQQTNGDRDKYV MKIGVVGLGLIGASLAGDLRRRGHYLIGVSRQQSTCEKAVERQLVDEAGQDLSLLQTAKIIFLCTPIQLILPTLEKLIPHLSPTAIVTDVASVKTAIAEPASQLWSGFIGGHPAGTAAQGIDGAEENLFVNAPYVLTPTEYTDPEQLALRSVLEPLGVKIYLCTPADHDQAVAWISHLPVMVSAALIQACAGEKDGDILKLAQNLASSGFRDTSRVGGGNPELGTMMATYNQRALLKSLQDYRQHLDQLITLISNQQWPELHRLLQQTNGDRDKYVE 2f1l-a1-m1-cA_2f1l-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE 16S RIBOSOMAL RNA PROCESSING PROTEIN RIMM (PA3744) FROM PSEUDOMONAS AERUGINOSA AT 2.46 A RESOLUTION Q9HXQ0 Q9HXQ0 2.46 X-RAY DIFFRACTION 79 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 162 162 DLVVIGKIVSVYGIRGEVKVYSFTDPLDNLLDYRRWTLRRDGEIRQAELVRGRLHGKVLAAKLKGLDDREEARTFTGYEICIPRSELPSYYWHQLEGLKVIDQGRQLLGVIDHLLETGANDVVVKPCAGSLDDRERLLPYTGQCVLSIDLAAGERVDWDADF DLVVIGKIVSVYGIRGEVKVYSFTDPLDNLLDYRRWTLRRDGEIRQAELVRGRLHGKVLAAKLKGLDDREEARTFTGYEICIPRSELPSYYWHQLEGLKVIDQGRQLLGVIDHLLETGANDVVVKPCAGSLDDRERLLPYTGQCVLSIDLAAGERVDWDADF 2f1r-a1-m1-cB_2f1r-a1-m1-cA Crystal Structure of molybdopterin-guanine biosynthesis protein B (mobB) O28031 O28031 2.1 X-RAY DIFFRACTION 163 0.986 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 146 148 LILSIVGTSSGKTTLITRMMPILRERGLRVAVVKRHADSWKIYNSGADVVIASPVKLAFIRRVSEEEGNDLDWIYERYLSDYDLVITEGFSKAGKDRIVVVKKPEEVEHFRQGRILAVVCDERVDGHKWFRRDEVERIAEFILSLL LILSIVGTSDSGKTTLITRMMPILRERGLRVAVVKRKDSWKIYNSGADVVIASPVKLAFIRRVSEEEGNDLDWIYERYLSDYDLVITEGFSKAGKDRIVVVKKPEEVEHFRQGRILAVVCDERVDGHKWFRRDEVERIAEFILSLLRE 2f1v-a7-m1-cB_2f1v-a7-m2-cD Outer membrane protein OmpW P0A915 P0A915 2.7 X-RAY DIFFRACTION 14 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 182 182 EAGEFFMRAGSATVRPTEGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRFH EAGEFFMRAGSATVRPTEGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRFH 2f1v-a7-m1-cF_2f1v-a7-m2-cE Outer membrane protein OmpW P0A915 P0A915 2.7 X-RAY DIFFRACTION 37 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 182 182 2f1v-a10-m1-cB_2f1v-a10-m1-cC 2f1v-a11-m1-cA_2f1v-a11-m3-cD 2f1v-a12-m1-cE_2f1v-a12-m4-cF EAGEFFMRAGSATVRPTEGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRFH EAGEFFMRAGSATVRPTEGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRFH 2f1v-a9-m1-cB_2f1v-a9-m1-cF Outer membrane protein OmpW P0A915 P0A915 2.7 X-RAY DIFFRACTION 27 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 182 182 2f1v-a7-m1-cA_2f1v-a7-m1-cB 2f1v-a7-m1-cA_2f1v-a7-m1-cF 2f1v-a7-m1-cB_2f1v-a7-m1-cF 2f1v-a7-m2-cC_2f1v-a7-m2-cD 2f1v-a7-m2-cC_2f1v-a7-m2-cE 2f1v-a7-m2-cD_2f1v-a7-m2-cE 2f1v-a8-m1-cC_2f1v-a8-m1-cD 2f1v-a8-m1-cC_2f1v-a8-m1-cE 2f1v-a8-m1-cD_2f1v-a8-m1-cE 2f1v-a9-m1-cA_2f1v-a9-m1-cB 2f1v-a9-m1-cA_2f1v-a9-m1-cF EAGEFFMRAGSATVRPTEGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRFH EAGEFFMRAGSATVRPTEGGFSVTNNTQLGLTFTYMATDNIGVELLAATPFRHKIGTRATGDIATVHHLPPTLMAQWYFGDASSKFRPYVGAGINYTTFFDNGFNDHGKEAGLSDLSLKDSWGAAGQVGVDYLINRDWLVNMSVWYMDIDTTANYKLGGAQQHDSVRLDPWVFMFSAGYRFH 2f22-a1-m1-cA_2f22-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE DNA DAMAGE-INDUCABLE (DINB) PROTEIN (BH3987) FROM BACILLUS HALODURANS AT 1.42 A RESOLUTION Q9RC77 Q9RC77 1.42 X-RAY DIFFRACTION 93 0.993 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 137 137 GDTNGVLYAANTNALAKEIPESKWDIQLIPELGTLRKLFIHIVRVRDVYRDGLKTGSIKFPGRLASDEHRLLDELERSEELVFEFKQTTFNSIKGENYLSIELLGTVIQHEGIHQGQYYVALKQSGINLPKQWVQDW DTNGVLYAANTNALAKEIPESKWDIQLIPELGTLRKLFIHIVRVRDVYRDGLKTGSIKFPGRLASDEHRLLDELERSEELVFEFKQTTFNSIKGENYLSIELLGTVIQHEGIHQGQYYVALKQSGINLPKQWVQDWH 2f2b-a1-m2-cA_2f2b-a1-m4-cA Crystal structure of integral membrane protein Aquaporin AqpM at 1.68A resolution Q9C4Z5 Q9C4Z5 1.68 X-RAY DIFFRACTION 158 1.0 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 245 245 2evu-a1-m1-cA_2evu-a1-m3-cA 2evu-a1-m1-cA_2evu-a1-m4-cA 2evu-a1-m2-cA_2evu-a1-m3-cA 2evu-a1-m2-cA_2evu-a1-m4-cA 2f2b-a1-m1-cA_2f2b-a1-m3-cA 2f2b-a1-m1-cA_2f2b-a1-m4-cA 2f2b-a1-m2-cA_2f2b-a1-m3-cA MVSLTKRCIAEFIGTFILVFFGAGSAAVTLMIASGGTSPNPFNIGIGLLGGLGDWVAIGLAFGFAIAASIYALGNISGCHINPAVTIGLWSVKKFPGREVVPYIIAQLLGAAFGSFIFLQCAGIGAATVGGLGATAPFPGISYWQAMLAEVVGTFLLMITIMGIAVDERAPKGFAGIIIGLTVAGIITTLGNISGSSLNPARTFGPYLNDMIFAGTDLWNYYSIYVIGPIVGAVLAALTYQYLTS MVSLTKRCIAEFIGTFILVFFGAGSAAVTLMIASGGTSPNPFNIGIGLLGGLGDWVAIGLAFGFAIAASIYALGNISGCHINPAVTIGLWSVKKFPGREVVPYIIAQLLGAAFGSFIFLQCAGIGAATVGGLGATAPFPGISYWQAMLAEVVGTFLLMITIMGIAVDERAPKGFAGIIIGLTVAGIITTLGNISGSSLNPARTFGPYLNDMIFAGTDLWNYYSIYVIGPIVGAVLAALTYQYLTS 2f2e-a2-m1-cB_2f2e-a2-m2-cB Crystal Structure of PA1607, a Putative Transcription Factor Q9I3B4 Q9I3B4 1.85 X-RAY DIFFRACTION 62 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 138 138 SHKQASCPVARPLDVIGDGWSLIVRDAFEGLTRFGEFQKSLGLAKNILAARLRNLVEHGVVAVPAESGSHQEYRLTDKGRALFPLLVAIRQWGEDYFFAPDESHVRLVERDSGQPVPRLQVRAGDGSPLAAEDTRVSR SHKQASCPVARPLDVIGDGWSLIVRDAFEGLTRFGEFQKSLGLAKNILAARLRNLVEHGVVAVPAESGSHQEYRLTDKGRALFPLLVAIRQWGEDYFFAPDESHVRLVERDSGQPVPRLQVRAGDGSPLAAEDTRVSR 2f2e-a3-m1-cB_2f2e-a3-m3-cB Crystal Structure of PA1607, a Putative Transcription Factor Q9I3B4 Q9I3B4 1.85 X-RAY DIFFRACTION 13 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 138 138 SHKQASCPVARPLDVIGDGWSLIVRDAFEGLTRFGEFQKSLGLAKNILAARLRNLVEHGVVAVPAESGSHQEYRLTDKGRALFPLLVAIRQWGEDYFFAPDESHVRLVERDSGQPVPRLQVRAGDGSPLAAEDTRVSR SHKQASCPVARPLDVIGDGWSLIVRDAFEGLTRFGEFQKSLGLAKNILAARLRNLVEHGVVAVPAESGSHQEYRLTDKGRALFPLLVAIRQWGEDYFFAPDESHVRLVERDSGQPVPRLQVRAGDGSPLAAEDTRVSR 2f2e-a3-m3-cB_2f2e-a3-m3-cA Crystal Structure of PA1607, a Putative Transcription Factor Q9I3B4 Q9I3B4 1.85 X-RAY DIFFRACTION 219 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 138 140 2f2e-a1-m1-cB_2f2e-a1-m1-cA 2f2e-a2-m1-cB_2f2e-a2-m1-cA 2f2e-a2-m2-cB_2f2e-a2-m2-cA 2f2e-a3-m1-cB_2f2e-a3-m1-cA SHKQASCPVARPLDVIGDGWSLIVRDAFEGLTRFGEFQKSLGLAKNILAARLRNLVEHGVVAVPAESGSHQEYRLTDKGRALFPLLVAIRQWGEDYFFAPDESHVRLVERDSGQPVPRLQVRAGDGSPLAAEDTRVSR TSHKQASCPVARPLDVIGDGWSLIVRDAFEGLTRFGEFQKSLGLAKNILAARLRNLVEHGVVAVPAESGSHQEYRLTDKGRALFPLLVAIRQWGEDYFFAPDESHVRLVERDSGQPVPRLQVRAGDGSPLAAEDTRVSRD 2f2h-a1-m1-cB_2f2h-a1-m1-cF Structure of the YicI thiosugar Michaelis complex P31434 P31434 1.95 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 773 773 1we5-a1-m1-cC_1we5-a1-m1-cA 1we5-a1-m1-cD_1we5-a1-m1-cB 1we5-a1-m1-cD_1we5-a1-m1-cF 1we5-a1-m1-cE_1we5-a1-m1-cA 1we5-a1-m1-cE_1we5-a1-m1-cC 1we5-a1-m1-cF_1we5-a1-m1-cB 1xsi-a1-m1-cA_1xsi-a1-m1-cB 1xsi-a1-m1-cA_1xsi-a1-m1-cF 1xsi-a1-m1-cB_1xsi-a1-m1-cF 1xsi-a1-m1-cC_1xsi-a1-m1-cD 1xsi-a1-m1-cC_1xsi-a1-m1-cE 1xsi-a1-m1-cD_1xsi-a1-m1-cE 1xsj-a1-m1-cA_1xsj-a1-m1-cB 1xsj-a1-m1-cA_1xsj-a1-m1-cF 1xsj-a1-m1-cB_1xsj-a1-m1-cF 1xsj-a1-m1-cC_1xsj-a1-m1-cD 1xsj-a1-m1-cC_1xsj-a1-m1-cE 1xsj-a1-m1-cD_1xsj-a1-m1-cE 1xsk-a1-m1-cA_1xsk-a1-m1-cB 1xsk-a1-m1-cA_1xsk-a1-m1-cF 1xsk-a1-m1-cB_1xsk-a1-m1-cF 1xsk-a1-m1-cC_1xsk-a1-m1-cD 1xsk-a1-m1-cC_1xsk-a1-m1-cE 1xsk-a1-m1-cD_1xsk-a1-m1-cE 2f2h-a1-m1-cA_2f2h-a1-m1-cB 2f2h-a1-m1-cA_2f2h-a1-m1-cF 2f2h-a1-m1-cC_2f2h-a1-m1-cD 2f2h-a1-m1-cC_2f2h-a1-m1-cE 2f2h-a1-m1-cD_2f2h-a1-m1-cE MKISDGNWLIQPGLNLIHPLQVFEVEQQDNEMVVYAAPRDVRERTWQLDTPLFTLRFFSPQEGIVGVRIEHFQGALNNGPHYPLNILQDVKVTIENTERYAEFKSGNLSARVSKGEFWSLDFLRNGERITGSQVKNNGYVQDTNNQRNYMFERLDLGVGETVYGLGERFTALVRNGQTVETWNRDGGTSTEQAYKNIPFYMTNRGYGVLVNHPQCVSFEVGSEKVSKVQFSVESEYLEYFVIDGPTPKAVLDRYTRFTGRPALPPAWSFGLWLTTSFTTNYDEATVNSFIDGMAERNLPLHVFHFDCFWMKAFQWCDFEWDPLTFPDPEGMIRRLKAKGLKICVWINPYIGQKSPVFKELQEKGYLLKRPDGSLWQWDKWQPGLAIYDFTNPDACKWYADKLKGLVAMGVDCFKTDFGERIPTDVQWFDGSDPQKMHNHYAYIYNELVWNVLKDTVGEEEAVLFARSASVGAQKFPVHWGGDCYANYESMAESLRGGLSIGLSGFGFWSHDIGGFENTAPAHVYKRWCAFGLLSSHSRLHGSKSYRVPWAYDDESCDVVRFFTQLKCRMMPYLYREAARANARGTPMMRAMMMEFPDDPACDYLDRQYMLGDNVMVAPVFTEAGDVQFYLPEGRWTHLWHNDELDGSRWHKQQHGFLSLPVYVRDNTLLALGNNDQRPDYVWHEGTAFHLFNLQDGHEAVCEVPAADGSVIFTLKAARTGNTITVTGAGEAKNWTLCLRNVVKVNGLQDGSQAESEQGLVVKPQGNALTITLH MKISDGNWLIQPGLNLIHPLQVFEVEQQDNEMVVYAAPRDVRERTWQLDTPLFTLRFFSPQEGIVGVRIEHFQGALNNGPHYPLNILQDVKVTIENTERYAEFKSGNLSARVSKGEFWSLDFLRNGERITGSQVKNNGYVQDTNNQRNYMFERLDLGVGETVYGLGERFTALVRNGQTVETWNRDGGTSTEQAYKNIPFYMTNRGYGVLVNHPQCVSFEVGSEKVSKVQFSVESEYLEYFVIDGPTPKAVLDRYTRFTGRPALPPAWSFGLWLTTSFTTNYDEATVNSFIDGMAERNLPLHVFHFDCFWMKAFQWCDFEWDPLTFPDPEGMIRRLKAKGLKICVWINPYIGQKSPVFKELQEKGYLLKRPDGSLWQWDKWQPGLAIYDFTNPDACKWYADKLKGLVAMGVDCFKTDFGERIPTDVQWFDGSDPQKMHNHYAYIYNELVWNVLKDTVGEEEAVLFARSASVGAQKFPVHWGGDCYANYESMAESLRGGLSIGLSGFGFWSHDIGGFENTAPAHVYKRWCAFGLLSSHSRLHGSKSYRVPWAYDDESCDVVRFFTQLKCRMMPYLYREAARANARGTPMMRAMMMEFPDDPACDYLDRQYMLGDNVMVAPVFTEAGDVQFYLPEGRWTHLWHNDELDGSRWHKQQHGFLSLPVYVRDNTLLALGNNDQRPDYVWHEGTAFHLFNLQDGHEAVCEVPAADGSVIFTLKAARTGNTITVTGAGEAKNWTLCLRNVVKVNGLQDGSQAESEQGLVVKPQGNALTITLH 2f2h-a1-m1-cE_2f2h-a1-m1-cF Structure of the YicI thiosugar Michaelis complex P31434 P31434 1.95 X-RAY DIFFRACTION 145 1.0 562 (Escherichia coli) 562 (Escherichia coli) 773 773 1we5-a1-m1-cC_1we5-a1-m1-cF 1we5-a1-m1-cD_1we5-a1-m1-cA 1we5-a1-m1-cE_1we5-a1-m1-cB 1xsi-a1-m1-cA_1xsi-a1-m1-cD 1xsi-a1-m1-cB_1xsi-a1-m1-cC 1xsi-a1-m1-cE_1xsi-a1-m1-cF 1xsj-a1-m1-cA_1xsj-a1-m1-cD 1xsj-a1-m1-cB_1xsj-a1-m1-cC 1xsj-a1-m1-cE_1xsj-a1-m1-cF 1xsk-a1-m1-cA_1xsk-a1-m1-cD 1xsk-a1-m1-cB_1xsk-a1-m1-cC 1xsk-a1-m1-cE_1xsk-a1-m1-cF 2f2h-a1-m1-cA_2f2h-a1-m1-cD 2f2h-a1-m1-cB_2f2h-a1-m1-cC MKISDGNWLIQPGLNLIHPLQVFEVEQQDNEMVVYAAPRDVRERTWQLDTPLFTLRFFSPQEGIVGVRIEHFQGALNNGPHYPLNILQDVKVTIENTERYAEFKSGNLSARVSKGEFWSLDFLRNGERITGSQVKNNGYVQDTNNQRNYMFERLDLGVGETVYGLGERFTALVRNGQTVETWNRDGGTSTEQAYKNIPFYMTNRGYGVLVNHPQCVSFEVGSEKVSKVQFSVESEYLEYFVIDGPTPKAVLDRYTRFTGRPALPPAWSFGLWLTTSFTTNYDEATVNSFIDGMAERNLPLHVFHFDCFWMKAFQWCDFEWDPLTFPDPEGMIRRLKAKGLKICVWINPYIGQKSPVFKELQEKGYLLKRPDGSLWQWDKWQPGLAIYDFTNPDACKWYADKLKGLVAMGVDCFKTDFGERIPTDVQWFDGSDPQKMHNHYAYIYNELVWNVLKDTVGEEEAVLFARSASVGAQKFPVHWGGDCYANYESMAESLRGGLSIGLSGFGFWSHDIGGFENTAPAHVYKRWCAFGLLSSHSRLHGSKSYRVPWAYDDESCDVVRFFTQLKCRMMPYLYREAARANARGTPMMRAMMMEFPDDPACDYLDRQYMLGDNVMVAPVFTEAGDVQFYLPEGRWTHLWHNDELDGSRWHKQQHGFLSLPVYVRDNTLLALGNNDQRPDYVWHEGTAFHLFNLQDGHEAVCEVPAADGSVIFTLKAARTGNTITVTGAGEAKNWTLCLRNVVKVNGLQDGSQAESEQGLVVKPQGNALTITLH MKISDGNWLIQPGLNLIHPLQVFEVEQQDNEMVVYAAPRDVRERTWQLDTPLFTLRFFSPQEGIVGVRIEHFQGALNNGPHYPLNILQDVKVTIENTERYAEFKSGNLSARVSKGEFWSLDFLRNGERITGSQVKNNGYVQDTNNQRNYMFERLDLGVGETVYGLGERFTALVRNGQTVETWNRDGGTSTEQAYKNIPFYMTNRGYGVLVNHPQCVSFEVGSEKVSKVQFSVESEYLEYFVIDGPTPKAVLDRYTRFTGRPALPPAWSFGLWLTTSFTTNYDEATVNSFIDGMAERNLPLHVFHFDCFWMKAFQWCDFEWDPLTFPDPEGMIRRLKAKGLKICVWINPYIGQKSPVFKELQEKGYLLKRPDGSLWQWDKWQPGLAIYDFTNPDACKWYADKLKGLVAMGVDCFKTDFGERIPTDVQWFDGSDPQKMHNHYAYIYNELVWNVLKDTVGEEEAVLFARSASVGAQKFPVHWGGDCYANYESMAESLRGGLSIGLSGFGFWSHDIGGFENTAPAHVYKRWCAFGLLSSHSRLHGSKSYRVPWAYDDESCDVVRFFTQLKCRMMPYLYREAARANARGTPMMRAMMMEFPDDPACDYLDRQYMLGDNVMVAPVFTEAGDVQFYLPEGRWTHLWHNDELDGSRWHKQQHGFLSLPVYVRDNTLLALGNNDQRPDYVWHEGTAFHLFNLQDGHEAVCEVPAADGSVIFTLKAARTGNTITVTGAGEAKNWTLCLRNVVKVNGLQDGSQAESEQGLVVKPQGNALTITLH 2f2p-a2-m1-cB_2f2p-a2-m2-cB Structure of calmodulin bound to a calcineurin peptide: a new way of making an old binding mode P48452 P48452 2.6 X-RAY DIFFRACTION 45 1.0 9913 (Bos taurus) 9913 (Bos taurus) 169 169 2f2p-a2-m1-cA_2f2p-a2-m2-cA 3b32-a3-m1-cA_3b32-a3-m3-cA DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAAAARKEVIRNKIRAIGKMARVFS DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAAAARKEVIRNKIRAIGKMARVFS 2f2p-a2-m2-cA_2f2p-a2-m2-cB Structure of calmodulin bound to a calcineurin peptide: a new way of making an old binding mode P48452 P48452 2.6 X-RAY DIFFRACTION 93 1.0 9913 (Bos taurus) 9913 (Bos taurus) 169 169 2f2p-a1-m1-cA_2f2p-a1-m1-cB 2f2p-a2-m1-cA_2f2p-a2-m1-cB 2r28-a1-m1-cA_2r28-a1-m1-cB 2w73-a1-m1-cA_2w73-a1-m1-cB 2w73-a2-m1-cE_2w73-a2-m1-cF DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAAAARKEVIRNKIRAIGKMARVFS DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAAAARKEVIRNKIRAIGKMARVFS 2f2s-a1-m1-cB_2f2s-a1-m1-cA Human mitochondrial acetoacetyl-CoA thiolase P24752 P24752 2 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 385 388 SGLVPRGSEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL SSGLVPRGSEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL 2f2s-a1-m1-cD_2f2s-a1-m1-cB Human mitochondrial acetoacetyl-CoA thiolase P24752 P24752 2 X-RAY DIFFRACTION 10 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 381 385 2f2s-a1-m1-cC_2f2s-a1-m1-cA SEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQK SGLVPRGSEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL 2f31-a2-m1-cA_2f31-a2-m2-cA Crystal structure of the autoinhibitory switch in Formin mDia1; the DID/DAD complex Q3US76 Q3US76 2.1 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 228 228 SAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEKNYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDL SAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEKNYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDL 2f3g-a1-m1-cA_2f3g-a1-m1-cB IIAGLC CRYSTAL FORM III P69783 P69783 2.13 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 150 TIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK TIEIIAPLSGEIVNIEDVPDVVFAEKIVGDGIAIKPTGNKMVAPVDGTIGKIFETNHAFSIESDSGVELFVHFGIDTVELKGEGFKRIAEEGQRVKVGDTVIEFDLPLLEEKAKSTLTPVVISNMDEIKELIKLSGSVTVGETPVIRIKK 2f3o-a2-m1-cB_2f3o-a2-m7-cB Crystal Structure of a glycyl radical enzyme from Archaeoglobus fulgidus O28823 O28823 2.9 X-RAY DIFFRACTION 108 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 773 773 2f3o-a1-m1-cA_2f3o-a1-m2-cA 2f3o-a1-m3-cA_2f3o-a1-m4-cA 2f3o-a2-m5-cB_2f3o-a2-m6-cB DRIEKLIKKVSKPARLSVERCRLYTESMKQTEGEPMIIRQAKALKHVLENIPIQILDSELIVGTMLPNPPGAIIFPEGVGLRIINELDSLPNRETNRLMVDEEDAKVLREEIAPYWQRKTIEAFAFPLMPDIMQILYTGSVFVLTEIAGISHVAVNYPYLLRRGFRWFLEESERRIRALEESGVYEGEKYSFYQAAKIVSEAVINYGLRYSKLAEELAESEDGERREELLKIAEICRKVPAEKPETFWEAVQFVWLVQSALHQENYEQAISMGRIDQYLYPFFKKDIGEGRINRELAFDILANLWIKTNEIVPAFDSLLEQYFSGQATNQAVTIGGCDIYGNDATNELTYLMLEVTDRLRLRQPNVHVRINKGSPESFLKRLAEAISSGCNNLALFFDDAAVKALKNAEVDDRDALNYTTDGCVEIAPFGNSFTSSDAALINVAKALEYALNEGVDLQFGYEFGAKTEKPKFLEDLLEKLREQVSHIVKLVVRGSNVLSYANAEVKPTPLLSLCVEDCFEKGVDVSRGGARYNFTGIQAVGIADVGDSLVAIEGALNAGYSMDDIVEACRKNFVGYEKLHKLLLQSPKYGNDDDAADKYTKMVLEWYCEEVNRHRNFRGGKFAAGCYPMTTNVGFGFFTSALPSGRKSGEPLNPGVSPSTGMDREGVTAVINSASKLSYENLPNGASLTINLSSDVLGEKGDAVIEALIKSSMELGVMHVQFNILKEDLLRKAQQEPEKYRWLLVRVAGWSAYFVELSRPVQEEVIRRISCRI DRIEKLIKKVSKPARLSVERCRLYTESMKQTEGEPMIIRQAKALKHVLENIPIQILDSELIVGTMLPNPPGAIIFPEGVGLRIINELDSLPNRETNRLMVDEEDAKVLREEIAPYWQRKTIEAFAFPLMPDIMQILYTGSVFVLTEIAGISHVAVNYPYLLRRGFRWFLEESERRIRALEESGVYEGEKYSFYQAAKIVSEAVINYGLRYSKLAEELAESEDGERREELLKIAEICRKVPAEKPETFWEAVQFVWLVQSALHQENYEQAISMGRIDQYLYPFFKKDIGEGRINRELAFDILANLWIKTNEIVPAFDSLLEQYFSGQATNQAVTIGGCDIYGNDATNELTYLMLEVTDRLRLRQPNVHVRINKGSPESFLKRLAEAISSGCNNLALFFDDAAVKALKNAEVDDRDALNYTTDGCVEIAPFGNSFTSSDAALINVAKALEYALNEGVDLQFGYEFGAKTEKPKFLEDLLEKLREQVSHIVKLVVRGSNVLSYANAEVKPTPLLSLCVEDCFEKGVDVSRGGARYNFTGIQAVGIADVGDSLVAIEGALNAGYSMDDIVEACRKNFVGYEKLHKLLLQSPKYGNDDDAADKYTKMVLEWYCEEVNRHRNFRGGKFAAGCYPMTTNVGFGFFTSALPSGRKSGEPLNPGVSPSTGMDREGVTAVINSASKLSYENLPNGASLTINLSSDVLGEKGDAVIEALIKSSMELGVMHVQFNILKEDLLRKAQQEPEKYRWLLVRVAGWSAYFVELSRPVQEEVIRRISCRI 2f3o-a2-m6-cB_2f3o-a2-m7-cB Crystal Structure of a glycyl radical enzyme from Archaeoglobus fulgidus O28823 O28823 2.9 X-RAY DIFFRACTION 47 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 773 773 2f3o-a1-m1-cA_2f3o-a1-m3-cA 2f3o-a1-m2-cA_2f3o-a1-m4-cA 2f3o-a2-m1-cB_2f3o-a2-m5-cB DRIEKLIKKVSKPARLSVERCRLYTESMKQTEGEPMIIRQAKALKHVLENIPIQILDSELIVGTMLPNPPGAIIFPEGVGLRIINELDSLPNRETNRLMVDEEDAKVLREEIAPYWQRKTIEAFAFPLMPDIMQILYTGSVFVLTEIAGISHVAVNYPYLLRRGFRWFLEESERRIRALEESGVYEGEKYSFYQAAKIVSEAVINYGLRYSKLAEELAESEDGERREELLKIAEICRKVPAEKPETFWEAVQFVWLVQSALHQENYEQAISMGRIDQYLYPFFKKDIGEGRINRELAFDILANLWIKTNEIVPAFDSLLEQYFSGQATNQAVTIGGCDIYGNDATNELTYLMLEVTDRLRLRQPNVHVRINKGSPESFLKRLAEAISSGCNNLALFFDDAAVKALKNAEVDDRDALNYTTDGCVEIAPFGNSFTSSDAALINVAKALEYALNEGVDLQFGYEFGAKTEKPKFLEDLLEKLREQVSHIVKLVVRGSNVLSYANAEVKPTPLLSLCVEDCFEKGVDVSRGGARYNFTGIQAVGIADVGDSLVAIEGALNAGYSMDDIVEACRKNFVGYEKLHKLLLQSPKYGNDDDAADKYTKMVLEWYCEEVNRHRNFRGGKFAAGCYPMTTNVGFGFFTSALPSGRKSGEPLNPGVSPSTGMDREGVTAVINSASKLSYENLPNGASLTINLSSDVLGEKGDAVIEALIKSSMELGVMHVQFNILKEDLLRKAQQEPEKYRWLLVRVAGWSAYFVELSRPVQEEVIRRISCRI DRIEKLIKKVSKPARLSVERCRLYTESMKQTEGEPMIIRQAKALKHVLENIPIQILDSELIVGTMLPNPPGAIIFPEGVGLRIINELDSLPNRETNRLMVDEEDAKVLREEIAPYWQRKTIEAFAFPLMPDIMQILYTGSVFVLTEIAGISHVAVNYPYLLRRGFRWFLEESERRIRALEESGVYEGEKYSFYQAAKIVSEAVINYGLRYSKLAEELAESEDGERREELLKIAEICRKVPAEKPETFWEAVQFVWLVQSALHQENYEQAISMGRIDQYLYPFFKKDIGEGRINRELAFDILANLWIKTNEIVPAFDSLLEQYFSGQATNQAVTIGGCDIYGNDATNELTYLMLEVTDRLRLRQPNVHVRINKGSPESFLKRLAEAISSGCNNLALFFDDAAVKALKNAEVDDRDALNYTTDGCVEIAPFGNSFTSSDAALINVAKALEYALNEGVDLQFGYEFGAKTEKPKFLEDLLEKLREQVSHIVKLVVRGSNVLSYANAEVKPTPLLSLCVEDCFEKGVDVSRGGARYNFTGIQAVGIADVGDSLVAIEGALNAGYSMDDIVEACRKNFVGYEKLHKLLLQSPKYGNDDDAADKYTKMVLEWYCEEVNRHRNFRGGKFAAGCYPMTTNVGFGFFTSALPSGRKSGEPLNPGVSPSTGMDREGVTAVINSASKLSYENLPNGASLTINLSSDVLGEKGDAVIEALIKSSMELGVMHVQFNILKEDLLRKAQQEPEKYRWLLVRVAGWSAYFVELSRPVQEEVIRRISCRI 2f41-a2-m1-cC_2f41-a2-m1-cD Crystal structure of FapR- a global regulator of fatty acid biosynthesis in B. subtilis O34835 O34835 2.5 X-RAY DIFFRACTION 50 0.99 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 103 108 2f3x-a1-m1-cA_2f3x-a1-m1-cB 2f41-a1-m1-cA_2f41-a1-m1-cB EVIGEIIDLELDDQAISILEIKQEHVARGHHLFAQANSLAVAVILALTASADIRFTRQVKQGERVVAKAKVTAVEKEKGRTVVEVNSYVGEEIVFSGRFDMYR EVIGEIIDLELDDQAISILEIKQEHVFSRNQIARGHHLFAQANSLAVAVILALTASADIRFTRQVKQGERVVAKAKVTAVEKEKGRTVVEVNSYVGEEIVFSGRFDMY 2f48-a1-m1-cA_2f48-a1-m1-cB Crystal Structure of A Novel Fructose 1,6-Bisphosphate and AlF3 containing Pyrophosphate-dependent Phosphofructo-1-kinase Complex from Borrelia burgdorferi P70826 P70826 2.11 X-RAY DIFFRACTION 177 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 551 552 1kzh-a1-m1-cB_1kzh-a1-m1-cA SLFKQERQKYIPKLPNILKKDFNNISLVYGENTEAIQDRQALKEFFKNTYGLPIISFTEGESSLSFSKALNIGIILSGGPAPGGHNVISGVFDAIKKFNPNSKLFGFKGGPLGLLENDKIELTESLINSYRNTGGFDIVSSGRTKIETEEHYNKALFVAKENNLNAIIIIGGDDSNTNAAILAEYFKKNGENIQVIGVPKTIDADLRNDHIEISFGFDSATKIYSELIGNLCRDAMSTKKYWHFVKLMGRSASHVALECALKTHPNICIVSEEVLAKKKTLSEIIDEMVSVILKRSLNGDNFGVVIVPEGLIEFIPEVKSLMLELCDIFDKNEGEFKGLNIEKMKEIFVAKLSDYMKGVYLSLPLFIQFELIKSILERDPHGNFNVSRVPTEKLFIEMIQSRLNDMKKRGEYKGSFTPVDHFFGYEGRSAFPSNFDSDYCYSLGYNAVVLILNGLTGYMSCIKNLNLKPTDWIAGGVPLTMLMNMEERYGEKKPVIKKALVDLEGRPFKEFVKNRDKWALNNLYLYPGPVQYFGSSEIVDEITETLKLELF TSLFKQERQKYIPKLPNILKKDFNNISLVYGENTEAIQDRQALKEFFKNTYGLPIISFTEGESSLSFSKALNIGIILSGGPAPGGHNVISGVFDAIKKFNPNSKLFGFKGGPLGLLENDKIELTESLINSYRNTGGFDIVSSGRTKIETEEHYNKALFVAKENNLNAIIIIGGDDSNTNAAILAEYFKKNGENIQVIGVPKTIDADLRNDHIEISFGFDSATKIYSELIGNLCRDAMSTKKYWHFVKLMGRSASHVALECALKTHPNICIVSEEVLAKKKTLSEIIDEMVSVILKRSLNGDNFGVVIVPEGLIEFIPEVKSLMLELCDIFDKNEGEFKGLNIEKMKEIFVAKLSDYMKGVYLSLPLFIQFELIKSILERDPHGNFNVSRVPTEKLFIEMIQSRLNDMKKRGEYKGSFTPVDHFFGYEGRSAFPSNFDSDYCYSLGYNAVVLILNGLTGYMSCIKNLNLKPTDWIAGGVPLTMLMNMEERYGEKKPVIKKALVDLEGRPFKEFVKNRDKWALNNLYLYPGPVQYFGSSEIVDEITETLKLELF 2f49-a4-m1-cA_2f49-a4-m1-cB Crystal structure of Fus3 in complex with a Ste5 peptide P16892 P16892 1.9 X-RAY DIFFRACTION 85 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 335 337 2f49-a3-m1-cA_2f49-a3-m1-cB 2fa2-a1-m1-cB_2fa2-a1-m1-cA KRIVYNISSDFQLKSLLGEGAYGVVCSATHKPTGEIVAIKKIEPFDKPLFALRTLREIKILKHFKHENIITIFNIQRPDSFENFNEVYIIQELMQTDLHRVISTQMLSDDHIQYFIYQTLRAVKVLHGSNVIHRDLKPSNLLINSNCDLKVCDFGLARIIDVEFVATRWYRAPEVMLTSAKYSRAMDVWSCGCILAELFLRRPIFPGRDYRHQLLLIFGIIGTPHSDNDLRCIESPRAREYIKSLPMYPAAPLEKMFPRVNPKGIDLLQRMLVFDPAKRITAKEALEHPYLQTYHDPNDEPEGEPIPPSFFEFDHYKEALTTKDLKKLIWNEIFS MPKRIVYNISSDFQLKSLLGEGAYGVVCSATHKPTGEIVAIKKIEPFDKPLFALRTLREIKILKHFKHENIITIFNIQRPDSFENFNEVYIIQELMQTDLHRVISTQMLSDDHIQYFIYQTLRAVKVLHGSNVIHRDLKPSNLLINSNCDLKVCDFGLARIIDVEFVATRWYRAPEVMLTSAKYSRAMDVWSCGCILAELFLRRPIFPGRDYRHQLLLIFGIIGTPHSDNDLRCIESPRAREYIKSLPMYPAAPLEKMFPRVNPKGIDLLQRMLVFDPAKRITAKEALEHPYLQTYHDPNDEPEGEPIPPSFFEFDHYKEALTTKDLKKLIWNEIFS 2f4i-a5-m1-cA_2f4i-a5-m2-cB Crystal structure of an ob-fold protein (tm0957) from thermotoga maritima msb8 at 1.90 A resolution Q9X052 Q9X052 2.25 X-RAY DIFFRACTION 34 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 159 160 FDPRYARELWFLQDNEGLGYDAVEVLNTLDENPELAHQFAVVGVSNYRYYIIQGVGEIVEIDDGILVVRENRVPDLFLSNHIFGNGIVNATGIAEDFDRIIDFNLTATELNIVEEVVNSFLQLSGAGSVGSLVRFIAVFTLLDEEIYPIEAIPLYLEIQ GFDPRYARELWFLQDNEGLGYDAVEVLNTLDENPELAHQFAVVGVSNYRYYIIQGVGEIVEIDDGILVVRENRVPDLFLSNHIFGNGIVNATGIAEDFDRIIDFNLTATELNIVEEVVNSFLQLSGAGSVGSLVRFIAVFTLLDEEIYPIEAIPLYLEIQ 2f4l-a2-m1-cD_2f4l-a2-m1-cC Crystal structure of a putative acetamidase (tm0119) from thermotoga maritima msb8 at 2.50 A resolution Q9WXX3 Q9WXX3 2.5 X-RAY DIFFRACTION 167 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 267 271 2f4l-a1-m1-cB_2f4l-a1-m1-cA HKVVPAQRCVYSFSANAPVEEVYPGEQVVFETLDALGVNPATGPVFVNGVKPGDTLKVRIKRIELPRRGIVTGKGFGVLGDEVEGFHTKELEIEKWAVLFDGVRIPIHPVGVIGVAPQEGEYPTGTAHRHGGNDTKEITENVTVHLPVFQEGALLALGDVHATGDGEVCVSACEVPAKVVVEIDVSKEEIKWPVVETNDAYYIIVSLPDIEEALKEVTRETVWFIQRRKTIPFTDAYLASLSVDVGISQLVNPAKTAKARIPKYIFT HKVVPAQRCVYSFSANAPVEEVYPGEQVVFETLDALGGSSKVNPATGPVFVNGVKPGDTLKVRIKRIELPRRGIVTGKGFGVLGDEVEGFHTKELEIEKWAVLFDGVRIPIHPVGVIGVAPQEGEYPTGTAHRHGGNDTKEITENVTVHLPVFQEGALLALGDVHATGDGEVCVSACEVPAKVVVEIDVSKEEIKWPVVETNDAYYIIVSLPDIEEALKEVTRETVWFIQRRKTIPFTDAYLASLSVDVGISQLVNPAKTAKARIPKYIFT 2f4m-a2-m1-cA_2f4m-a2-m2-cA The Mouse PNGase-HR23 Complex Reveals a Complete Remodulation of the Protein-Protein Interface Compared to its Yeast Orthologs Q9JI78 Q9JI78 1.85 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 295 295 2f4o-a2-m1-cA_2f4o-a2-m2-cA GDSTILKVLQSNIQHVQLYENPVLQEKALTCIPVSELKRKAQEKLFRARKLDKGTNVSDEDFLLLELLHWFKEEFFRWVNNIVCSKCGGETRSRDEALLPNDDELKWGAKNVENHYCDACQLSNRFPRYNNPEKLLETRCGRCGEWANCFTLCCRALGFEARYVWDYTDHVWTEVYSPSQQRWLHCDACEDVCDKPLLYEIGWGKKLSYIIAFSKDEVVDVTWRYSCKHDEVMSRRTKVKEELLRETINGLNKQRQLSLSESRRKELLQRIIVELVEFISPKTPRPGLEHHHHHH GDSTILKVLQSNIQHVQLYENPVLQEKALTCIPVSELKRKAQEKLFRARKLDKGTNVSDEDFLLLELLHWFKEEFFRWVNNIVCSKCGGETRSRDEALLPNDDELKWGAKNVENHYCDACQLSNRFPRYNNPEKLLETRCGRCGEWANCFTLCCRALGFEARYVWDYTDHVWTEVYSPSQQRWLHCDACEDVCDKPLLYEIGWGKKLSYIIAFSKDEVVDVTWRYSCKHDEVMSRRTKVKEELLRETINGLNKQRQLSLSESRRKELLQRIIVELVEFISPKTPRPGLEHHHHHH 2f4n-a2-m1-cB_2f4n-a2-m2-cC Crystal structure of protein MJ1651 from Methanococcus jannaschii DSM 2661, Pfam DUF62 Q59045 Q59045 2.5 X-RAY DIFFRACTION 22 0.987 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 235 235 2f4n-a2-m1-cA_2f4n-a2-m2-cA 2f4n-a2-m1-cC_2f4n-a2-m2-cB ILDIITLTTDFGTNEGYVGAKGRILNILKKYNKDAKIIDISHEIKPFNIYHGAYVLLTAIPYFPPSVHVAVIDPTRKSIVIETKSGYYLVGPDNGLFTYVAEKLGIKRIIKIDEERRDVYAVVGAEILINNGYDGEELDEVKIDETKKRVIHIDRFGNIITNIKKDEVTYYDTIIKIRHKNGIEKIIKCKFVKSYFEEKNNFICLINSEGFLEISKFDNASKLLNVDYLDEIEIE ILDIITLTTDFGTNEGYVGAKGRILNILKKYNKDAKIIDISHEIKPFNIYHGAYVLLTAIPYFPPSVHVAVIDPTRKSIVIETKSGYYLVGPDNGLFTYVAEKLGIKRIIKIDEERGRDVYAVVGAEILINNGYDGEELDEVKIDETKKRVIHIDRFGNIITNIKKDFKYYDTIIKIRHKNGIEKIIKCKFVKSYFEEKNNFICLINSEGFLEISKFDNASKLLNVDYLDEIEIE 2f4n-a2-m2-cB_2f4n-a2-m2-cC Crystal structure of protein MJ1651 from Methanococcus jannaschii DSM 2661, Pfam DUF62 Q59045 Q59045 2.5 X-RAY DIFFRACTION 66 0.987 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 235 235 2f4n-a1-m1-cB_2f4n-a1-m1-cC 2f4n-a2-m1-cB_2f4n-a2-m1-cC ILDIITLTTDFGTNEGYVGAKGRILNILKKYNKDAKIIDISHEIKPFNIYHGAYVLLTAIPYFPPSVHVAVIDPTRKSIVIETKSGYYLVGPDNGLFTYVAEKLGIKRIIKIDEERRDVYAVVGAEILINNGYDGEELDEVKIDETKKRVIHIDRFGNIITNIKKDEVTYYDTIIKIRHKNGIEKIIKCKFVKSYFEEKNNFICLINSEGFLEISKFDNASKLLNVDYLDEIEIE ILDIITLTTDFGTNEGYVGAKGRILNILKKYNKDAKIIDISHEIKPFNIYHGAYVLLTAIPYFPPSVHVAVIDPTRKSIVIETKSGYYLVGPDNGLFTYVAEKLGIKRIIKIDEERGRDVYAVVGAEILINNGYDGEELDEVKIDETKKRVIHIDRFGNIITNIKKDFKYYDTIIKIRHKNGIEKIIKCKFVKSYFEEKNNFICLINSEGFLEISKFDNASKLLNVDYLDEIEIE 2f4p-a2-m1-cC_2f4p-a2-m1-cD Crystal structure of a cupin-like protein (tm1010) from thermotoga maritima msb8 at 1.90 A resolution Q9X0A3 Q9X0A3 1.9 X-RAY DIFFRACTION 62 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 132 132 2f4p-a1-m1-cB_2f4p-a1-m1-cA DDIFERGSKGSSDFFTGNVWVKLVTDENGVFNTQVYDVVFEPGARTHWHSHPGGQILIVTRGKGFYQERGKPARILKKGDVVEIPPNVVHWHGAAPDEELVHIGISTQVHLGPAEWLGSVTEEEYRKATEGK DDIFERGSKGSSDFFTGNVWVKLVTDENGVFNTQVYDVVFEPGARTHWHSHPGGQILIVTRGKGFYQERGKPARILKKGDVVEIPPNVVHWHGAAPDEELVHIGISTQVHLGPAEWLGSVTEEEYRKATEGK 2f4z-a1-m1-cB_2f4z-a1-m1-cA Toxoplasma gondii ubiquitin conjugating enzyme TgTwinScan_2721- E2 domain 2.11 X-RAY DIFFRACTION 26 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 143 145 EQARLLKELADIQQGVSAQIVGGDIHRWRGFIAGPLGTPYEGGHFTLDIVIPPDYPYNPPKMKFVTKIWHPNISSQTGAICLDILKHEWSPALTIRTALLSIQAMLADPVPTDPQDAEVAKMMIENHPLFVQTAKLWTETFAK REQARLLKELADIQQLGVSAQIVGGDIHRWRGFIAGPLGTPYEGGHFTLDIVIPPDYPYNPPKMKFVTKIWHPNISSQTGAICLDILKHEWSPALTIRTALLSIQAMLADPVPTDPQDAEVAKMMIENHPLFVQTAKLWTETFAK 2f55-a1-m1-cA_2f55-a1-m1-cB Two hepatitis c virus ns3 helicase domains complexed with the same strand of dna O92972 O92972 3.3 X-RAY DIFFRACTION 37 1.0 11103 () 11103 () 432 432 PPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGGSITYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEIGLSNNGEIPFYGKAIPIEAIKGGRHLIFCHSKKKCDELAAKLTGLGLNAVAYYRGLDVSVIPPIGDVVVVATDALFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRSGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVILTHPITKYIMACMS PPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGGSITYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEIGLSNNGEIPFYGKAIPIEAIKGGRHLIFCHSKKKCDELAAKLTGLGLNAVAYYRGLDVSVIPPIGDVVVVATDALFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRSGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVILTHPITKYIMACMS 2f56-a4-m1-cA_2f56-a4-m2-cC Barnase cross-linked with glutaraldehyde soaked in 6M urea P00648 P00648 1.955 X-RAY DIFFRACTION 15 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 108 108 VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR 2f5g-a1-m1-cA_2f5g-a1-m1-cB Crystal structure of IS200 transposase Q97Y68 Q97Y68 1.7 X-RAY DIFFRACTION 153 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 130 130 2f4f-a1-m1-cA_2f4f-a1-m1-cB ELKSTRHTKYLCNYHFVWIPKHRRNTLVNEIAEYTKEVLKSIAEELGCEIIALEVMPDHIHLFVNCPPRYAPSYLANYFKGKSARLILKKFPQLNKGKLWTRSYFVATAGNVSSEVIKKYIEEQWRKEGE ELKSTRHTKYLCNYHFVWIPKHRRNTLVNEIAEYTKEVLKSIAEELGCEIIALEVMPDHIHLFVNCPPRYAPSYLANYFKGKSARLILKKFPQLNKGKLWTRSYFVATAGNVSSEVIKKYIEEQWRKEGE 2f5j-a1-m1-cA_2f5j-a1-m1-cB Crystal structure of MRG domain from human MRG15 Q9UBU8 Q9UBU8 2.2 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 159 2aql-a1-m1-cB_2aql-a1-m1-cA VKVKIPEELKPWLVDDWDLITRQKQLFYLPAKKNVDSILEDYANYKKSYAVNEVVAGIKEYFNVMLGTQLLYKFERPQYAEILADHPDAPMSQVYGAPHLLRLFVRIGAMLAYTPLDEKSLALLLNYLHDFLKYLAKNSATLFSASDYEVAPPEYHR VKVKIPEELKPWLVDDWDLITRQKQLFYLPAKKNVDSILEDYANYKKSRYAVNEVVAGIKEYFNVMLGTQLLYKFERPQYAEILADHPDAPMSQVYGAPHLLRLFVRIGAMLAYTPLDEKSLALLLNYLHDFLKYLAKNSATLFSASDYEVAPPEYHRK 2f5t-a1-m1-cX_2f5t-a1-m2-cX Crystal Structure of the sugar binding domain of the archaeal transcriptional regulator TrmB Q7LYW4 Q7LYW4 1.45 X-RAY DIFFRACTION 83 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 233 233 AIWRSRSFDEAIEMFRESLYSAKNEVIVVTPSEFFETIREDLIKTLERGVTVSLYIDKIPDLSEFKGKGNFFVRQFYKLNHLIGMTDGKEVVTIQNATFDSIGPPSFKSTYPEIIFSQYSLIIEIFKESTLEKEIIGNPKDIRFFAMFHAVDFVKNHLKNRNIYAEITGKNLESGRLETLTGRVVGYTLSLREAVNNIHLETENGVVKVGGMFAVIEDYESTEIKFIMGGSRS AIWRSRSFDEAIEMFRESLYSAKNEVIVVTPSEFFETIREDLIKTLERGVTVSLYIDKIPDLSEFKGKGNFFVRQFYKLNHLIGMTDGKEVVTIQNATFDSIGPPSFKSTYPEIIFSQYSLIIEIFKESTLEKEIIGNPKDIRFFAMFHAVDFVKNHLKNRNIYAEITGKNLESGRLETLTGRVVGYTLSLREAVNNIHLETENGVVKVGGMFAVIEDYESTEIKFIMGGSRS 2f62-a1-m1-cA_2f62-a1-m1-cB Crystal structure of Nucleoside 2-deoxyribosyltransferase from Trypanosoma brucei at 1.5 A resolution with (2-ETHYLPHENYL)METHANOL bound Q57VC7 Q57VC7 1.5 X-RAY DIFFRACTION 128 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 151 151 2a0k-a1-m1-cA_2a0k-a1-m1-cB 2f2t-a1-m1-cA_2f2t-a1-m1-cB 2f64-a1-m1-cA_2f64-a1-m1-cB 2f67-a1-m1-cA_2f67-a1-m1-cB HHHHHHRKIYIAGPAVFNPDGASYYNKVRELLKKENVPLIPTDNEATEALDIRQKNIQIKDCDAVIADLSPFRGHEPDCGTAFEVGCAAALNKVLTFTSDRRNREKYGSGVDKDNLRVEGFGLPFNLLYDGVEVFDSFESAFKYFLANFPS HHHHHHRKIYIAGPAVFNPDGASYYNKVRELLKKENVPLIPTDNEATEALDIRQKNIQIKDCDAVIADLSPFRGHEPDCGTAFEVGCAAALNKVLTFTSDRRNREKYGSGVDKDNLRVEGFGLPFNLLYDGVEVFDSFESAFKYFLANFPS 2f66-a3-m1-cB_2f66-a3-m1-cE Structure of the ESCRT-I endosomal trafficking complex Q02767 Q02767 2.8 X-RAY DIFFRACTION 37 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 111 111 SQLFHDEVPLFDNSITSKDKEVIETLSEIYSIVITLDHVEKAYLKDSIDDTQYTNTVDKLLKQFKVYLNSQNKEEINKHFQSIEAFADTYNITASNAITRLERGIPITAEH SQLFHDEVPLFDNSITSKDKEVIETLSEIYSIVITLDHVEKAYLKDSIDDTQYTNTVDKLLKQFKVYLNSQNKEEINKHFQSIEAFADTYNITASNAITRLERGIPITAEH 2f6a-a3-m1-cC_2f6a-a3-m2-cD Collagen Adhesin and Collagen Complex Structure Q53654 Q53654 3.29 X-RAY DIFFRACTION 21 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 299 299 2f6a-a3-m1-cB_2f6a-a3-m2-cA 2f6a-a3-m1-cD_2f6a-a3-m2-cC 2f6a-a3-m2-cB_2f6a-a3-m1-cA RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV 2f6a-a3-m1-cD_2f6a-a3-m2-cD Collagen Adhesin and Collagen Complex Structure Q53654 Q53654 3.29 X-RAY DIFFRACTION 14 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 299 299 RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV 2f6a-a3-m2-cC_2f6a-a3-m2-cD Collagen Adhesin and Collagen Complex Structure Q53654 Q53654 3.29 X-RAY DIFFRACTION 29 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 299 299 2f6a-a3-m1-cB_2f6a-a3-m1-cA 2f6a-a3-m1-cC_2f6a-a3-m1-cD 2f6a-a3-m2-cB_2f6a-a3-m2-cA RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV 2f6a-a3-m2-cD_2f6a-a3-m2-cA Collagen Adhesin and Collagen Complex Structure Q53654 Q53654 3.29 X-RAY DIFFRACTION 52 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 299 303 2f6a-a3-m1-cD_2f6a-a3-m1-cA RDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTV GSARDISSTNVTDLTVSPSKIEDGGKTTVKMTFDDKNGKIQNGDMIKVAWPTSGTVKIEGYSKTVPLTVKGEQVGQAVITPDGATITFNDKVEKLSDVSGFAEFEVQGRNLTQTNTSDDKVATITSGNKSTNVTVHKSEAGTSSVFYYKTGDMLPEDTTHVRWFLNINNEKSYVSKDITIKDQIQGGQQLDLSTLNINVTGTHSNYYSGQSAITDFEKAFPGSKITVDNTKNTIDVTIPQGYGSYNSFSINYKTKITNEQQKEFVNNSQAWYQEHGKEEVNGKSFNHTVHNINANAGIEGTVK 2f6a-a3-m2-cH_2f6a-a3-m2-cI Collagen Adhesin and Collagen Complex Structure Q805R9 Q805R9 3.29 X-RAY DIFFRACTION 54 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 22 22 2f6a-a1-m1-cE_2f6a-a1-m1-cF 2f6a-a2-m1-cH_2f6a-a2-m1-cI 2f6a-a3-m1-cE_2f6a-a3-m1-cF 2f6a-a3-m1-cH_2f6a-a3-m1-cI 2f6a-a3-m2-cE_2f6a-a3-m2-cF GPGPGPGPGPRGRTGPGPGPGP GPGPGPGPGPRGRTGPGPGPGP 2f6a-a3-m2-cJ_2f6a-a3-m2-cH Collagen Adhesin and Collagen Complex Structure Q805R9 Q805R9 3.29 X-RAY DIFFRACTION 51 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 21 22 2f6a-a1-m1-cE_2f6a-a1-m1-cG 2f6a-a2-m1-cJ_2f6a-a2-m1-cH 2f6a-a3-m1-cE_2f6a-a3-m1-cG 2f6a-a3-m1-cJ_2f6a-a3-m1-cH 2f6a-a3-m2-cE_2f6a-a3-m2-cG GPGPGPGPGPRGRTGPGPGPG GPGPGPGPGPRGRTGPGPGPGP 2f6a-a3-m2-cJ_2f6a-a3-m2-cI Collagen Adhesin and Collagen Complex Structure Q805R9 Q805R9 3.29 X-RAY DIFFRACTION 55 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 21 22 2f6a-a1-m1-cF_2f6a-a1-m1-cG 2f6a-a2-m1-cJ_2f6a-a2-m1-cI 2f6a-a3-m1-cF_2f6a-a3-m1-cG 2f6a-a3-m1-cJ_2f6a-a3-m1-cI 2f6a-a3-m2-cF_2f6a-a3-m2-cG GPGPGPGPGPRGRTGPGPGPG GPGPGPGPGPRGRTGPGPGPGP 2f6i-a1-m2-cE_2f6i-a1-m2-cF Crystal structure of the ClpP protease catalytic domain from Plasmodium falciparum O97252 O97252 2.45 X-RAY DIFFRACTION 79 0.994 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 175 181 2f6i-a1-m1-cB_2f6i-a1-m1-cA 2f6i-a1-m1-cB_2f6i-a1-m1-cC 2f6i-a1-m1-cD_2f6i-a1-m1-cC 2f6i-a1-m1-cE_2f6i-a1-m1-cD 2f6i-a1-m1-cE_2f6i-a1-m1-cF 2f6i-a1-m1-cG_2f6i-a1-m1-cA 2f6i-a1-m1-cG_2f6i-a1-m1-cF 2f6i-a1-m2-cB_2f6i-a1-m2-cA 2f6i-a1-m2-cB_2f6i-a1-m2-cC 2f6i-a1-m2-cD_2f6i-a1-m2-cC 2f6i-a1-m2-cE_2f6i-a1-m2-cD 2f6i-a1-m2-cG_2f6i-a1-m2-cA 2f6i-a1-m2-cG_2f6i-a1-m2-cF HMDIKDMKKDVKLFFFKKRIIYLTDEINKKTADELISQLLYLDNINHNDIKIYINSPGGSINEGLAILDIFNYIKSDIQTISFGLVASMASVILASGKKGKRKSLPNCRIMIHIQTKEILYLKKLLYHYLSSFTNQTVETIEKDSDRDYYMNALEAKQYGIIDEVIETKLPHPYF HMDIKDMKKDVKLFFFKKRIIYLTDEINKKTADELISQLLYLDNINHNDIKIYINSPGGSINEGLAILDIFNYIKSDIQTISFGLVASMASVILASGKKGKRKSLPNCRIMIHQPLGNAFQTKEILYLKKLLYHYLSSFTNQTVETIEKDSDRDYYMNALEAKQYGIIDEVIETKLPHPYF 2f6i-a1-m2-cF_2f6i-a1-m1-cA Crystal structure of the ClpP protease catalytic domain from Plasmodium falciparum O97252 O97252 2.45 X-RAY DIFFRACTION 13 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 181 182 2f6i-a1-m1-cB_2f6i-a1-m2-cE 2f6i-a1-m1-cD_2f6i-a1-m2-cC 2f6i-a1-m1-cF_2f6i-a1-m2-cA 2f6i-a1-m1-cG_2f6i-a1-m2-cG 2f6i-a1-m2-cB_2f6i-a1-m1-cE 2f6i-a1-m2-cD_2f6i-a1-m1-cC HMDIKDMKKDVKLFFFKKRIIYLTDEINKKTADELISQLLYLDNINHNDIKIYINSPGGSINEGLAILDIFNYIKSDIQTISFGLVASMASVILASGKKGKRKSLPNCRIMIHQPLGNAFQTKEILYLKKLLYHYLSSFTNQTVETIEKDSDRDYYMNALEAKQYGIIDEVIETKLPHPYF HMDIKDMKKDVKLFFFKKRIIYLTDEINKKTADELISQLLYLDNINHNDIKIYINSPGGSINEGLAILDIFNYIKSDIQTISFGLVASMASVILASGKKGKRKSLPNCRIMIHQPLGNAFQTKEILYLKKLLYHYLSSFTNQTVETIEKDSDRDYYMNALEAKQYGIIDEVIETKLPHPYFN 2f6k-a1-m1-cA_2f6k-a1-m2-cB Crystal Structure of Amidohydrorolase II; Northeast Structural Genomics Target LpR24 F9US96 F9US96 2.5 X-RAY DIFFRACTION 24 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 300 300 2f6k-a1-m1-cB_2f6k-a1-m2-cA SKIDFHTHYLPTSYVEALKRHVPGDPDGWPTPEWTPQLTLNFRDNDISYSILSLSSPHVNFGDKAETIRLVEAANDDGKSLAQQYPDQLGYLASLPIPYELDAVKTVQQALDQDGALGVTVPTNSRGLYFGSPVLERVYQELDARQAIVALHPNEPAILPKNVDIDLPVPLLGFFDTTTFINLKYHFFEKYPNIKVIIPHAGAFLGIVDDRIAQYAQKVYQVDVYDVHHVYFDVAGAVLPRQLPTLSLAQPEHLLYGSDIPYTPLDGSRQLGHALATTDLLTNEQKQAIFYDNAHRLLTE SKIDFHTHYLPTSYVEALKRHVPGDPDGWPTPEWTPQLTLNFRDNDISYSILSLSSPHVNFGDKAETIRLVEAANDDGKSLAQQYPDQLGYLASLPIPYELDAVKTVQQALDQDGALGVTVPTNSRGLYFGSPVLERVYQELDARQAIVALHPNEPAILPKNVDIDLPVPLLGFFDTTTFINLKYHFFEKYPNIKVIIPHAGAFLGIVDDRIAQYAQKVYQVDVYDVHHVYFDVAGAVLPRQLPTLSLAQPEHLLYGSDIPYTPLDGSRQLGHALATTDLLTNEQKQAIFYDNAHRLLTE 2f6k-a1-m1-cB_2f6k-a1-m2-cB Crystal Structure of Amidohydrorolase II; Northeast Structural Genomics Target LpR24 F9US96 F9US96 2.5 X-RAY DIFFRACTION 129 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 300 300 2f6k-a1-m1-cA_2f6k-a1-m2-cA SKIDFHTHYLPTSYVEALKRHVPGDPDGWPTPEWTPQLTLNFRDNDISYSILSLSSPHVNFGDKAETIRLVEAANDDGKSLAQQYPDQLGYLASLPIPYELDAVKTVQQALDQDGALGVTVPTNSRGLYFGSPVLERVYQELDARQAIVALHPNEPAILPKNVDIDLPVPLLGFFDTTTFINLKYHFFEKYPNIKVIIPHAGAFLGIVDDRIAQYAQKVYQVDVYDVHHVYFDVAGAVLPRQLPTLSLAQPEHLLYGSDIPYTPLDGSRQLGHALATTDLLTNEQKQAIFYDNAHRLLTE SKIDFHTHYLPTSYVEALKRHVPGDPDGWPTPEWTPQLTLNFRDNDISYSILSLSSPHVNFGDKAETIRLVEAANDDGKSLAQQYPDQLGYLASLPIPYELDAVKTVQQALDQDGALGVTVPTNSRGLYFGSPVLERVYQELDARQAIVALHPNEPAILPKNVDIDLPVPLLGFFDTTTFINLKYHFFEKYPNIKVIIPHAGAFLGIVDDRIAQYAQKVYQVDVYDVHHVYFDVAGAVLPRQLPTLSLAQPEHLLYGSDIPYTPLDGSRQLGHALATTDLLTNEQKQAIFYDNAHRLLTE 2f6k-a1-m2-cA_2f6k-a1-m2-cB Crystal Structure of Amidohydrorolase II; Northeast Structural Genomics Target LpR24 F9US96 F9US96 2.5 X-RAY DIFFRACTION 27 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 300 300 2f6k-a1-m1-cA_2f6k-a1-m1-cB SKIDFHTHYLPTSYVEALKRHVPGDPDGWPTPEWTPQLTLNFRDNDISYSILSLSSPHVNFGDKAETIRLVEAANDDGKSLAQQYPDQLGYLASLPIPYELDAVKTVQQALDQDGALGVTVPTNSRGLYFGSPVLERVYQELDARQAIVALHPNEPAILPKNVDIDLPVPLLGFFDTTTFINLKYHFFEKYPNIKVIIPHAGAFLGIVDDRIAQYAQKVYQVDVYDVHHVYFDVAGAVLPRQLPTLSLAQPEHLLYGSDIPYTPLDGSRQLGHALATTDLLTNEQKQAIFYDNAHRLLTE SKIDFHTHYLPTSYVEALKRHVPGDPDGWPTPEWTPQLTLNFRDNDISYSILSLSSPHVNFGDKAETIRLVEAANDDGKSLAQQYPDQLGYLASLPIPYELDAVKTVQQALDQDGALGVTVPTNSRGLYFGSPVLERVYQELDARQAIVALHPNEPAILPKNVDIDLPVPLLGFFDTTTFINLKYHFFEKYPNIKVIIPHAGAFLGIVDDRIAQYAQKVYQVDVYDVHHVYFDVAGAVLPRQLPTLSLAQPEHLLYGSDIPYTPLDGSRQLGHALATTDLLTNEQKQAIFYDNAHRLLTE 2f6n-a1-m1-cB_2f6n-a1-m1-cA Crystal structure of PHD finger-linker-bromodomain fragment of human BPTF in the free form Q12830 Q12830 2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 158 161 2f6j-a1-m1-cC_2f6j-a1-m1-cB KLYCICKTPYDESKFYIGCDRCQNWYHGRCVGILQSEAELIDEYVCPQCQSTEDATVLTPLTEKDYEGLKRVLRSLQAHKAWPFLEPVDPNDAPDYYGVIKEPDLATEERVQRRYYEKLTEFVADTKIFDNCRYYNPSDSPFYQCAEVLESFFVQKLK KLYCICKTPYDESKFYIGCDRCQNWYHGRCVGILQSEAELIDEYVCPQCQSTEDATVLTPLTEKDYEGLKRVLRSLQAHKAWPFLEPVDPNDAPDYYGVIKEPDLATEERVQRRYYEKLTEFVADTKIFDNCRYYNPSDSPFYQCAEVLESFFVQKLKGFK 2f6s-a1-m1-cA_2f6s-a1-m1-cB Structure of cell filamentation protein (fic) from Helicobacter pylori O25774 O25774 2.5 X-RAY DIFFRACTION 54 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 176 176 GHHLDRQSLEKAKHLIQSGLIDTIEVGTIKGLQEIHRFLFEGLYEFAGKIRDKNIAKGNFRFANCLYLDLILPRIESPQNNFNQIVEKYVENIAHPFLEGNGRATRIWLDLLLKKELKKIVLWDRIDKAAYLSAERSPVNDLEIKTLLKKHLSSNTNDPLTLIKGITQSYYYEGLG GHHLDRQSLEKAKHLIQSGLIDTIEVGTIKGLQEIHRFLFEGLYEFAGKIRDKNIAKGNFRFANCLYLDLILPRIESPQNNFNQIVEKYVENIAHPFLEGNGRATRIWLDLLLKKELKKIVLWDRIDKAAYLSAERSPVNDLEIKTLLKKHLSSNTNDPLTLIKGITQSYYYEGLG 2f6u-a1-m1-cA_2f6u-a1-m1-cB Crystal Structure of (S)-3-O-Geranylgeranylglyceryl Phosphate Synthase complexed with citrate O29844 O29844 1.55 X-RAY DIFFRACTION 102 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 231 231 2f6x-a1-m1-cA_2f6x-a1-m1-cB MRWRKWRHITKLDPDRTNTDEIIKAVADSGTDAVMISGTQNVTYEKARTLIEKVSQYGLPIVVEPSDPSNVVYDVDYLFVPTVLNSADGDWITGKHAQWVRMHYENLQKFTEIIESEFIQIEGYIVLNPDSAVARVTKALCNIDKELAASYALVGEKLFNLPIIYIEYSGTYGNPELVAEVKKVLDKARLFYGGGIDSREKAREMLRYADTIIVGNVIYEKGIDAFLETLP MRWRKWRHITKLDPDRTNTDEIIKAVADSGTDAVMISGTQNVTYEKARTLIEKVSQYGLPIVVEPSDPSNVVYDVDYLFVPTVLNSADGDWITGKHAQWVRMHYENLQKFTEIIESEFIQIEGYIVLNPDSAVARVTKALCNIDKELAASYALVGEKLFNLPIIYIEYSGTYGNPELVAEVKKVLDKARLFYGGGIDSREKAREMLRYADTIIVGNVIYEKGIDAFLETLP 2f7b-a2-m2-cA_2f7b-a2-m4-cA CatM effector binding domain P07774 P07774 1.9 X-RAY DIFFRACTION 34 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 214 214 2f7b-a2-m1-cA_2f7b-a2-m3-cA QTLRIGYVSSLLYGLLPEIIYLFRQQNPEIHIELIECGTKDQINALKQGKIDLGFGRLKITDPAIRRIVLHKEQLKLAIHKHHHPNQFAATGVHLSQIIDEPMLLYPVSQKPNFATFIQSLFTELGLVPSKLTEIREIQLALGLVAAGEGVCIVPASAMDIGVKNLLYIPILDDDAYSPISLAVRNMDHSNYIPKILACVQEVFATHHIRPLIE QTLRIGYVSSLLYGLLPEIIYLFRQQNPEIHIELIECGTKDQINALKQGKIDLGFGRLKITDPAIRRIVLHKEQLKLAIHKHHHPNQFAATGVHLSQIIDEPMLLYPVSQKPNFATFIQSLFTELGLVPSKLTEIREIQLALGLVAAGEGVCIVPASAMDIGVKNLLYIPILDDDAYSPISLAVRNMDHSNYIPKILACVQEVFATHHIRPLIE 2f7b-a2-m3-cA_2f7b-a2-m4-cA CatM effector binding domain P07774 P07774 1.9 X-RAY DIFFRACTION 92 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 214 214 2f7b-a1-m1-cA_2f7b-a1-m2-cA 2f7b-a2-m1-cA_2f7b-a2-m2-cA 2f7c-a1-m1-cA_2f7c-a1-m2-cA 2h98-a1-m1-cA_2h98-a1-m1-cB 3glb-a1-m1-cB_3glb-a1-m1-cA 3glb-a2-m1-cC_3glb-a2-m1-cD QTLRIGYVSSLLYGLLPEIIYLFRQQNPEIHIELIECGTKDQINALKQGKIDLGFGRLKITDPAIRRIVLHKEQLKLAIHKHHHPNQFAATGVHLSQIIDEPMLLYPVSQKPNFATFIQSLFTELGLVPSKLTEIREIQLALGLVAAGEGVCIVPASAMDIGVKNLLYIPILDDDAYSPISLAVRNMDHSNYIPKILACVQEVFATHHIRPLIE QTLRIGYVSSLLYGLLPEIIYLFRQQNPEIHIELIECGTKDQINALKQGKIDLGFGRLKITDPAIRRIVLHKEQLKLAIHKHHHPNQFAATGVHLSQIIDEPMLLYPVSQKPNFATFIQSLFTELGLVPSKLTEIREIQLALGLVAAGEGVCIVPASAMDIGVKNLLYIPILDDDAYSPISLAVRNMDHSNYIPKILACVQEVFATHHIRPLIE 2f7l-a3-m1-cA_2f7l-a3-m2-cB Crystal structure of Sulfolobus tokodaii phosphomannomutase/phosphoglucomutase Q976E4 Q976E4 2.8 X-RAY DIFFRACTION 10 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 455 455 2f7l-a3-m1-cB_2f7l-a3-m2-cA MGKLFGTDGVRGIVNKELTPELVLKLSKAIGTFFGKNSKILVGRDVRAGGDMLVKIVEGGLLSVGVEVYDGGMAPTPALQYAVKTLGYDGGVVITASHNPAPYNGIKVVDKDGIEIRREKENEIEDLFFTERFNTIEWSSLTTEVKREDRVISTYVNGILSHVDIEKIKKKNYKVLIDPANSVGALSTPLVARALGCKIYTINGNLDPLFSARQPEPTFDSLKETAEVVKTLKVDLGVAHDGDADRAIFIDSEGRVQWGDRSGTLLSYWASVKNPKAIKKIVTAVSSSSLVEEYLSKYNIQVDWTKVGSVDIAHKVADENALAGFEENGGFMYPPHQYVRDGAMSFALMLELLANENVSSAELFDRLPKYYLVKTKVDLKPGLMVEEIYKKILEVYSTSSVKAITIDGVKIIGKDFWFLVRKSGTEPIIRIMAEAKDENVANNLVNELKKIVEGK MGKLFGTDGVRGIVNKELTPELVLKLSKAIGTFFGKNSKILVGRDVRAGGDMLVKIVEGGLLSVGVEVYDGGMAPTPALQYAVKTLGYDGGVVITASHNPAPYNGIKVVDKDGIEIRREKENEIEDLFFTERFNTIEWSSLTTEVKREDRVISTYVNGILSHVDIEKIKKKNYKVLIDPANSVGALSTPLVARALGCKIYTINGNLDPLFSARQPEPTFDSLKETAEVVKTLKVDLGVAHDGDADRAIFIDSEGRVQWGDRSGTLLSYWASVKNPKAIKKIVTAVSSSSLVEEYLSKYNIQVDWTKVGSVDIAHKVADENALAGFEENGGFMYPPHQYVRDGAMSFALMLELLANENVSSAELFDRLPKYYLVKTKVDLKPGLMVEEIYKKILEVYSTSSVKAITIDGVKIIGKDFWFLVRKSGTEPIIRIMAEAKDENVANNLVNELKKIVEGK 2f7l-a3-m1-cB_2f7l-a3-m2-cB Crystal structure of Sulfolobus tokodaii phosphomannomutase/phosphoglucomutase Q976E4 Q976E4 2.8 X-RAY DIFFRACTION 112 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 455 455 2f7l-a3-m1-cA_2f7l-a3-m2-cA MGKLFGTDGVRGIVNKELTPELVLKLSKAIGTFFGKNSKILVGRDVRAGGDMLVKIVEGGLLSVGVEVYDGGMAPTPALQYAVKTLGYDGGVVITASHNPAPYNGIKVVDKDGIEIRREKENEIEDLFFTERFNTIEWSSLTTEVKREDRVISTYVNGILSHVDIEKIKKKNYKVLIDPANSVGALSTPLVARALGCKIYTINGNLDPLFSARQPEPTFDSLKETAEVVKTLKVDLGVAHDGDADRAIFIDSEGRVQWGDRSGTLLSYWASVKNPKAIKKIVTAVSSSSLVEEYLSKYNIQVDWTKVGSVDIAHKVADENALAGFEENGGFMYPPHQYVRDGAMSFALMLELLANENVSSAELFDRLPKYYLVKTKVDLKPGLMVEEIYKKILEVYSTSSVKAITIDGVKIIGKDFWFLVRKSGTEPIIRIMAEAKDENVANNLVNELKKIVEGK MGKLFGTDGVRGIVNKELTPELVLKLSKAIGTFFGKNSKILVGRDVRAGGDMLVKIVEGGLLSVGVEVYDGGMAPTPALQYAVKTLGYDGGVVITASHNPAPYNGIKVVDKDGIEIRREKENEIEDLFFTERFNTIEWSSLTTEVKREDRVISTYVNGILSHVDIEKIKKKNYKVLIDPANSVGALSTPLVARALGCKIYTINGNLDPLFSARQPEPTFDSLKETAEVVKTLKVDLGVAHDGDADRAIFIDSEGRVQWGDRSGTLLSYWASVKNPKAIKKIVTAVSSSSLVEEYLSKYNIQVDWTKVGSVDIAHKVADENALAGFEENGGFMYPPHQYVRDGAMSFALMLELLANENVSSAELFDRLPKYYLVKTKVDLKPGLMVEEIYKKILEVYSTSSVKAITIDGVKIIGKDFWFLVRKSGTEPIIRIMAEAKDENVANNLVNELKKIVEGK 2f7l-a3-m2-cA_2f7l-a3-m2-cB Crystal structure of Sulfolobus tokodaii phosphomannomutase/phosphoglucomutase Q976E4 Q976E4 2.8 X-RAY DIFFRACTION 72 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 455 455 2f7l-a3-m1-cA_2f7l-a3-m1-cB MGKLFGTDGVRGIVNKELTPELVLKLSKAIGTFFGKNSKILVGRDVRAGGDMLVKIVEGGLLSVGVEVYDGGMAPTPALQYAVKTLGYDGGVVITASHNPAPYNGIKVVDKDGIEIRREKENEIEDLFFTERFNTIEWSSLTTEVKREDRVISTYVNGILSHVDIEKIKKKNYKVLIDPANSVGALSTPLVARALGCKIYTINGNLDPLFSARQPEPTFDSLKETAEVVKTLKVDLGVAHDGDADRAIFIDSEGRVQWGDRSGTLLSYWASVKNPKAIKKIVTAVSSSSLVEEYLSKYNIQVDWTKVGSVDIAHKVADENALAGFEENGGFMYPPHQYVRDGAMSFALMLELLANENVSSAELFDRLPKYYLVKTKVDLKPGLMVEEIYKKILEVYSTSSVKAITIDGVKIIGKDFWFLVRKSGTEPIIRIMAEAKDENVANNLVNELKKIVEGK MGKLFGTDGVRGIVNKELTPELVLKLSKAIGTFFGKNSKILVGRDVRAGGDMLVKIVEGGLLSVGVEVYDGGMAPTPALQYAVKTLGYDGGVVITASHNPAPYNGIKVVDKDGIEIRREKENEIEDLFFTERFNTIEWSSLTTEVKREDRVISTYVNGILSHVDIEKIKKKNYKVLIDPANSVGALSTPLVARALGCKIYTINGNLDPLFSARQPEPTFDSLKETAEVVKTLKVDLGVAHDGDADRAIFIDSEGRVQWGDRSGTLLSYWASVKNPKAIKKIVTAVSSSSLVEEYLSKYNIQVDWTKVGSVDIAHKVADENALAGFEENGGFMYPPHQYVRDGAMSFALMLELLANENVSSAELFDRLPKYYLVKTKVDLKPGLMVEEIYKKILEVYSTSSVKAITIDGVKIIGKDFWFLVRKSGTEPIIRIMAEAKDENVANNLVNELKKIVEGK 2f7s-a1-m1-cB_2f7s-a1-m1-cA The crystal structure of human Rab27b bound to GDP O00194 O00194 2.7 X-RAY DIFFRACTION 203 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 179 2iez-a5-m1-cB_2iez-a5-m1-cA 2if0-a3-m1-cA_2if0-a3-m1-cB YDYLIKLLALGDSGVGKTTFLYRYTDNKFNPKFITTVGIDFREKRVVYNAKAFKVHLQLWDTAGQERFRSLTTAFFRDAMGFLLMFDLTSQQSFLNVRNWMSQLQANAYCENPDIVLIGNKADLPDQREVNERQARELADKYGIPYFETSAATGQNVEKAVETLLDLIMKRMEQCV DYDYLIKLLALGDSGVGKTTFLYRYTDNKFNPKFITTVGIDFREKRVVYNAGKAFKVHLQLWDTAGQERFRSLTTAFFRDAMGFLLMFDLTSQQSFLNVRNWMSQLQANAYCENPDIVLIGNKADLPDQREVNERQARELADKYGIPYFETSAATGQNVEKAVETLLDLIMKRMEQCVE 2f7t-a1-m1-cA_2f7t-a1-m2-cA Crystal structure of the catalytic domain of Mos1 mariner transposase Q7JQ07 Q7JQ07 2.25 X-RAY DIFFRACTION 38 1.0 7226 (Drosophila mauritiana) 7226 (Drosophila mauritiana) 204 204 WVPHELNERQMERRKNTCEILLSRYKRKSFLHRIVTGDEKWIFFVNPKKTMLCVWWDQSGVIYYELLKPGETVNAARYQQQLINLNRALQRKRPEYQKRQHRVIFLHDNAPSHTARAVRDTLETLNWEVLPHAAYSPDLAPSDYHLFASMGHALAEQRFDSYESVKKWLDEWFAAKDDEFYWRGIHKLPERWEKCVASDGKYFE WVPHELNERQMERRKNTCEILLSRYKRKSFLHRIVTGDEKWIFFVNPKKTMLCVWWDQSGVIYYELLKPGETVNAARYQQQLINLNRALQRKRPEYQKRQHRVIFLHDNAPSHTARAVRDTLETLNWEVLPHAAYSPDLAPSDYHLFASMGHALAEQRFDSYESVKKWLDEWFAAKDDEFYWRGIHKLPERWEKCVASDGKYFE 2f80-a2-m1-cA_2f80-a2-m4-cB HIV-1 Protease mutant D30N complexed with inhibitor TMC114 P04587 P04587 1.45 X-RAY DIFFRACTION 19 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 2f80-a2-m2-cA_2f80-a2-m3-cB 5kr2-a1-m1-cA_5kr2-a1-m1-cD PQITLWKRPLVTIKIGGQLKEALLDTGADNTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEIAGHKAIGTVLVGPTPVNIIGRNLLTQIGATLNF PQITLWKRPLVTIKIGGQLKEALLDTGADNTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEIAGHKAIGTVLVGPTPVNIIGRNLLTQIGATLNF 2f86-a1-m1-cB_2f86-a1-m2-cN The Association Domain of C. elegans CaMKII O62305 O62305 2.64 X-RAY DIFFRACTION 96 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 129 129 2f86-a1-m1-cD_2f86-a1-m2-cL 2f86-a1-m1-cF_2f86-a1-m2-cJ 2f86-a1-m1-cH_2f86-a1-m2-cH 2f86-a1-m1-cJ_2f86-a1-m2-cF 2f86-a1-m1-cL_2f86-a1-m2-cD 2f86-a1-m1-cN_2f86-a1-m2-cB NDSEKAQKQDIVRVTQTLLDAISCKDFETYTRLCDTSMTCFEPEALGNLIEGIEFHRFYFDGNRKNQVHTTMLNPNVHIIGEDAACVAYVKLTQFLDRNGEAHTRQSQESRVWSKKQGRWVCVHVHRST NDSEKAQKQDIVRVTQTLLDAISCKDFETYTRLCDTSMTCFEPEALGNLIEGIEFHRFYFDGNRKNQVHTTMLNPNVHIIGEDAACVAYVKLTQFLDRNGEAHTRQSQESRVWSKKQGRWVCVHVHRST 2f86-a1-m2-cL_2f86-a1-m2-cN The Association Domain of C. elegans CaMKII O62305 O62305 2.64 X-RAY DIFFRACTION 25 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 129 129 2f86-a1-m1-cB_2f86-a1-m1-cD 2f86-a1-m1-cB_2f86-a1-m1-cN 2f86-a1-m1-cD_2f86-a1-m1-cF 2f86-a1-m1-cF_2f86-a1-m1-cH 2f86-a1-m1-cH_2f86-a1-m1-cJ 2f86-a1-m1-cJ_2f86-a1-m1-cL 2f86-a1-m1-cL_2f86-a1-m1-cN 2f86-a1-m2-cB_2f86-a1-m2-cD 2f86-a1-m2-cB_2f86-a1-m2-cN 2f86-a1-m2-cD_2f86-a1-m2-cF 2f86-a1-m2-cF_2f86-a1-m2-cH 2f86-a1-m2-cH_2f86-a1-m2-cJ 2f86-a1-m2-cJ_2f86-a1-m2-cL NDSEKAQKQDIVRVTQTLLDAISCKDFETYTRLCDTSMTCFEPEALGNLIEGIEFHRFYFDGNRKNQVHTTMLNPNVHIIGEDAACVAYVKLTQFLDRNGEAHTRQSQESRVWSKKQGRWVCVHVHRST NDSEKAQKQDIVRVTQTLLDAISCKDFETYTRLCDTSMTCFEPEALGNLIEGIEFHRFYFDGNRKNQVHTTMLNPNVHIIGEDAACVAYVKLTQFLDRNGEAHTRQSQESRVWSKKQGRWVCVHVHRST 2f8a-a1-m2-cB_2f8a-a1-m1-cA Crystal structure of the selenocysteine to glycine mutant of human glutathione peroxidase 1 P07203 P07203 1.5 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 186 1gp1-a1-m1-cA_1gp1-a1-m2-cA 1gp1-a1-m1-cB_1gp1-a1-m2-cB 2f8a-a1-m1-cB_2f8a-a1-m2-cA QSVYAFSARPLAGGEPVSLGSLRGKVLLIENVASLGGTTVRDYTQMNELQRRLGPRGLVVLGFPCNQFGHQENAKNEEILNSLKYVRPGGGFEPNFMLFEKCEVNGAGAHPLFAFLREALPAPSDDATALMTDPKLITWSPVCRNDVAWNFEKFLVGPDGVPLRRYSRRFQTIDIEPDIEALLS SMQSVYAFSARPLAGGEPVSLGSLRGKVLLIENVASLGGTTVRDYTQMNELQRRLGPRGLVVLGFPCNQFGHQENAKNEEILNSLKYVRPGGGFEPNFMLFEKCEVNGAGAHPLFAFLREALPAPSDDATALMTDPKLITWSPVCRNDVAWNFEKFLVGPDGVPLRRYSRRFQTIDIEPDIEALLS 2f8a-a1-m2-cB_2f8a-a1-m2-cA Crystal structure of the selenocysteine to glycine mutant of human glutathione peroxidase 1 P07203 P07203 1.5 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 186 1gp1-a1-m1-cA_1gp1-a1-m1-cB 1gp1-a1-m2-cA_1gp1-a1-m2-cB 2f8a-a1-m1-cB_2f8a-a1-m1-cA QSVYAFSARPLAGGEPVSLGSLRGKVLLIENVASLGGTTVRDYTQMNELQRRLGPRGLVVLGFPCNQFGHQENAKNEEILNSLKYVRPGGGFEPNFMLFEKCEVNGAGAHPLFAFLREALPAPSDDATALMTDPKLITWSPVCRNDVAWNFEKFLVGPDGVPLRRYSRRFQTIDIEPDIEALLS SMQSVYAFSARPLAGGEPVSLGSLRGKVLLIENVASLGGTTVRDYTQMNELQRRLGPRGLVVLGFPCNQFGHQENAKNEEILNSLKYVRPGGGFEPNFMLFEKCEVNGAGAHPLFAFLREALPAPSDDATALMTDPKLITWSPVCRNDVAWNFEKFLVGPDGVPLRRYSRRFQTIDIEPDIEALLS 2f8b-a1-m1-cA_2f8b-a1-m1-cB NMR structure of the C-terminal domain (dimer) of HPV45 oncoprotein E7 P21736 P21736 NOT SOLUTION NMR 75 1.0 10593 (human papillomavirus 45) 10593 (human papillomavirus 45) 56 56 GSHMAEPQRHKILCVCCKCDGRIELTVESSAEDLRTLQQLFLSTLSFVCPWCATNQ GSHMAEPQRHKILCVCCKCDGRIELTVESSAEDLRTLQQLFLSTLSFVCPWCATNQ 2f8f-a2-m1-cA_2f8f-a2-m2-cB Crystal structure of the Y10F mutant of the gluathione s-transferase from schistosoma haematobium P30113 P30113 2.1 X-RAY DIFFRACTION 51 0.995 6185 (Schistosoma haematobium) 6185 (Schistosoma haematobium) 203 203 8bhz-a1-m1-cA_8bhz-a1-m2-cA DHIKVIFFNGRGRAESIRMTLVAAGVNYEDERISFQDWPKIKPTIPGGRLPAVKITDNHGHVKWMVESLAIARYMAKKHHMMGGTEEEYYNVEKLIGQAEDLEHEYYKTLMKPEEEKQKIIKEILNGKVPVLLDIICESLKASTGKLAVGDKVTLADLVLIAVIDHVTDLDKEFLTGKYPEIHKHRENLLASSPRLAKYLSDR GDHIKVIFFNGRGRAESIRMTLVAAGVNYEDERISFQDWPKIKPTIPGGRLPAVKITDNHGHVKWMVESLAIARYMAKKHHMMGGTEEEYYNVEKLIGQAEDLEHEYYKTLMKPEEEKQKIIKEILNGKVPVLLDIICESLKASTGKLAVGDKVTLADLVLIAVIDHVTDLDKEFLTGKYPEIHKHRENLLASSPRLAKYLSD 2f8h-a1-m1-cA_2f8h-a1-m2-cA Structure of acetylcitrulline deacetylase from Xanthomonas campestris in metal-free form A0A0H2X6W0 A0A0H2X6W0 1.75 X-RAY DIFFRACTION 110 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 360 360 2f7v-a1-m1-cA_2f7v-a1-m2-cA HMTDLLASTLEHLETLVSFDTRNPPRAIAAEGGIFDYLRAQLPGFQVEVIDHGDGAVSLYAVRGTPKYLFNVHLDTVPDSPHWSADPHVMRRTEDRVIGLGVCDIKGAAAALVAAANAGDGDAAFLFSSDEEANDPRCIAAFLARGLPYDAVLVAEPTMSEAVLAHRGISSVLMRFAGRAGDPAASALHQAMRWGGKALDHVESLAHARFGGLTGLRFNIGRVDGGIKANMIAPAAELRFGFRPLPSMDVDGLLATFAGFADPAAAHFEETFRGPSLPSGDIARAEERRLAARDVADALDLPIGNAVDFWTEASLFSAGGYTALVYGPGDIAQAHTADEFVTLAQLQRYVESVNRIINGS HMTDLLASTLEHLETLVSFDTRNPPRAIAAEGGIFDYLRAQLPGFQVEVIDHGDGAVSLYAVRGTPKYLFNVHLDTVPDSPHWSADPHVMRRTEDRVIGLGVCDIKGAAAALVAAANAGDGDAAFLFSSDEEANDPRCIAAFLARGLPYDAVLVAEPTMSEAVLAHRGISSVLMRFAGRAGDPAASALHQAMRWGGKALDHVESLAHARFGGLTGLRFNIGRVDGGIKANMIAPAAELRFGFRPLPSMDVDGLLATFAGFADPAAAHFEETFRGPSLPSGDIARAEERRLAARDVADALDLPIGNAVDFWTEASLFSAGGYTALVYGPGDIAQAHTADEFVTLAQLQRYVESVNRIINGS 2f8j-a1-m1-cB_2f8j-a1-m1-cA Crystal structure of Histidinol-phosphate aminotransferase (EC 2.6.1.9) (Imidazole acetol-phosphate transferase) (tm1040) from Thermotoga maritima at 2.40 A resolution Q9X0D0 Q9X0D0 2.4 X-RAY DIFFRACTION 210 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 333 335 1h1c-a1-m1-cB_1h1c-a1-m1-cA 1h1c-a2-m1-cC_1h1c-a2-m1-cD 1uu0-a1-m1-cB_1uu0-a1-m1-cA 1uu0-a2-m1-cC_1uu0-a2-m1-cD 1uu1-a1-m1-cA_1uu1-a1-m1-cB 1uu1-a2-m1-cD_1uu1-a2-m1-cC 1uu2-a1-m1-cB_1uu2-a1-m1-cA 2f8j-a2-m1-cD_2f8j-a2-m1-cC NPLDLIAKRAYPYETEKRDKTYLALNENPFPFPEDLVDEVFRRLNSDALRIYYDSPDEELIEKILSYLDTDFLSKNNVSVGNGADEIIYVMMLMFDRSVFFPPTYSCYRIFAKAVGAKFLEVPLTKDLRIPEVNVGEGDVVFIPNPNNPTGHVFEREEIERILKTGAFVALDEAYYEFHGESYVDFLKKYENLAVIRTFSKAFSLAAQRVGYVVASEKFIDAYNRVRLPFNVSYVSQMFAKVALDHREIFEERTKFIVEERERMKSALREMGYRITDSRGNFVFVFMEKEEKERLLEHLRTKNVAVRSFREGVRITIGKREENDMILRELEVF HMNPLDLIAKRAYPYETEKRDKTYLALNENPFPFPEDLVDEVFRRLNSDALRIYYDSPDEELIEKILSYLDTDFLSKNNVSVGNGADEIIYVMMLMFDRSVFFPPTYSCYRIFAKAVGAKFLEVPLTKDLRIPEVNVGEGDVVFIPNPNNPTGHVFEREEIERILKTGAFVALDEAYYEFHGESYVDFLKKYENLAVIRTFSKAFSLAAQRVGYVVASEKFIDAYNRVRLPFNVSYVSQMFAKVALDHREIFEERTKFIVEERERMKSALREMGYRITDSRGNFVFVFMEKEEKERLLEHLRTKNVAVRSFREGVRITIGKREENDMILRELEVF 2f8m-a1-m1-cB_2f8m-a1-m1-cA Ribose 5-phosphate isomerase from Plasmodium falciparum Q8I3W2 Q8I3W2 2.087 X-RAY DIFFRACTION 84 0.991 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 235 237 MDSLKKIVAYKAVDEYVQSNMTIGLGTGSTVFYVLERIDNLLKSGKLKDVVCIPTSIDTELKARKLGIPLTTLEKHSNIDITIDGTDEIDLNLNLIKGRGGALVREKLVASSSSLLIIIGDESKLCTNGLGMTGAVPIEILTFGYEKIIENLLKIYTLKGCTYKIRKRNGEIFITDNKNYIVDFFFTEPIQDLLETCTRIKMTTGVVDHGIFVNMTNVALISKHDGTVLTLNKKY HHHHMDSLKKIVAYKAVDEYVQSNMTIGLGTGSTVFYVLERIDNLLKSGKLKDVVCIPTSIDTELKARKLGIPLTTLEKHSNIDITIDGTDEIDLNLNLIKGRGGALVREKLVASSSSLLIIIGDESKLCTNGLGMTGAVPIEILTFGYEKIIENLLKIYTLKGCTYKIRKRNGEIFITDNKNYIVDFFFTEPIQDLLETCTRIKMTTGVVDHGIFVNMTNVALISKHDGTVLTLNK 2f93-a1-m1-cB_2f93-a1-m2-cB K Intermediate Structure of Sensory Rhodopsin II/Transducer Complex in Combination with the Ground State Structure P42259 P42259 2 X-RAY DIFFRACTION 81 1.0 2257 (Natronomonas pharaonis) 2257 (Natronomonas pharaonis) 51 51 1h2s-a1-m1-cB_1h2s-a1-m2-cB 2f95-a1-m1-cB_2f95-a1-m2-cB 4gyc-a1-m1-cB_4gyc-a1-m2-cB 5jje-a1-m1-cB_5jje-a1-m2-cB 5jjj-a1-m1-cB_5jjj-a1-m2-cB 5jjn-a1-m1-cB_5jjn-a1-m1-cD VGALTVLFGAIAYGEVTAAAATGDAAAVQEAAVSAILGLIILLGINLGLVA VGALTVLFGAIAYGEVTAAAATGDAAAVQEAAVSAILGLIILLGINLGLVA 2f96-a1-m1-cA_2f96-a1-m1-cB 2.1 A crystal structure of Pseudomonas aeruginosa rnase T (Ribonuclease T) Q9HY82 Q9HY82 2.09 X-RAY DIFFRACTION 68 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 196 196 RHPARRFRGYLPVVVDVETGGFNSATDALLEIAATTVGDEKGFLFPEHTYFFRIEPFEGANIEPAALEFTGIKLDHPLRAVQEEAALTEIFRGIRKALKANGCKRAILVGHNSSFDLGFLNAAVARTGIKRNPFHPFSSFDTATLAGLAYGQTVLAKACQAAGEFDNREAHSARYDTEKTAELFCGIVNRWKEGGW RHPARRFRGYLPVVVDVETGGFNSATDALLEIAATTVGDEKGFLFPEHTYFFRIEPFEGANIEPAALEFTGIKLDHPLRAVQEEAALTEIFRGIRKALKANGCKRAILVGHNSSFDLGFLNAAVARTGIKRNPFHPFSSFDTATLAGLAYGQTVLAKACQAAGEFDNREAHSARYDTEKTAELFCGIVNRWKEGGW 2f97-a1-m1-cA_2f97-a1-m2-cA Effector Binding Domain of BenM (crystals generated from high pH conditions) O68014 O68014 2.2 X-RAY DIFFRACTION 100 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 216 216 2f6g-a1-m1-cA_2f6g-a1-m1-cB 2f6p-a1-m1-cA_2f6p-a1-m1-cB 2f78-a1-m1-cB_2f78-a1-m1-cA 2f7a-a1-m1-cB_2f7a-a1-m1-cA 2f8d-a1-m1-cB_2f8d-a1-m1-cA 2h99-a1-m1-cA_2h99-a1-m1-cB 2h9b-a1-m1-cA_2h9b-a1-m1-cB 3k1m-a3-m3-cB_3k1m-a3-m6-cB 3k1n-a2-m3-cB_3k1n-a2-m4-cB EKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKRTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTEPPNW EKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKRTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTEPPNW 2f99-a1-m1-cB_2f99-a1-m1-cD Crystal structure of the polyketide cyclase AknH with bound substrate and product analogue: implications for catalytic mechanism and product stereoselectivity. O52646 O52646 1.9 X-RAY DIFFRACTION 33 1.0 33899 (Streptomyces galilaeus) 33899 (Streptomyces galilaeus) 141 143 2f98-a1-m1-cA_2f98-a1-m1-cC 2f98-a1-m1-cD_2f98-a1-m1-cB 2f99-a1-m1-cC_2f99-a1-m1-cA RSEQIAAVRRMVEAYNTGKTDDVADYIHPEYMNPGTLEFTSLRGPELFAINVAWVKKTFSEEARLEEVGIEERADWVRARLVLYGRHVGEMVGMAPTGRLFSGEQIHLLHFVDGKIHHHRDWPDYQGTYRQLGEPWPETEH RSEQIAAVRRMVEAYNTGKTDDVADYIHPEYMNPGTLEFTSLRGPELFAINVAWVKKTFSEEARLEEVGIEERADWVRARLVLYGRHVGEMVGMAPTGRLFSGEQIHLLHFVDGKIHHHRDWPDYQGTYRQLGEPWPETEHRR 2f99-a3-m1-cA_2f99-a3-m1-cB Crystal structure of the polyketide cyclase AknH with bound substrate and product analogue: implications for catalytic mechanism and product stereoselectivity. O52646 O52646 1.9 X-RAY DIFFRACTION 57 1.0 33899 (Streptomyces galilaeus) 33899 (Streptomyces galilaeus) 141 141 2f98-a1-m1-cA_2f98-a1-m1-cB 2f98-a1-m1-cD_2f98-a1-m1-cC 2f99-a1-m1-cA_2f99-a1-m1-cB 2f99-a1-m1-cC_2f99-a1-m1-cD 2f99-a2-m1-cC_2f99-a2-m1-cD RSEQIAAVRRMVEAYNTGKTDDVADYIHPEYMNPGTLEFTSLRGPELFAINVAWVKKTFSEEARLEEVGIEERADWVRARLVLYGRHVGEMVGMAPTGRLFSGEQIHLLHFVDGKIHHHRDWPDYQGTYRQLGEPWPETEH RSEQIAAVRRMVEAYNTGKTDDVADYIHPEYMNPGTLEFTSLRGPELFAINVAWVKKTFSEEARLEEVGIEERADWVRARLVLYGRHVGEMVGMAPTGRLFSGEQIHLLHFVDGKIHHHRDWPDYQGTYRQLGEPWPETEH 2f9a-a1-m1-cA_2f9a-a1-m2-cA HMG-CoA synthase from Brassica juncea in complex with F-244 Q9M6U3 Q9M6U3 2.51 X-RAY DIFFRACTION 247 1.0 3707 (Brassica juncea) 3707 (Brassica juncea) 404 404 AKNVGILAMDIYFPPTCVQQEALEAHDGASKGKYTIGLGQDCLAFCTELEDVISMSFNAVTSLLEKYKIDPKQIGRLEVGSETVIDKSKSIKTFLMQLFEKCGNTDVEGVDSTNACYGGTAALLNCVNWVESNSWDGRYGLVICTDSAVYAEGPARPTGGAAAIAMLIGPDAPIVFESKLRGSHMAHVYDFYKPNLASEYPVVDGKLSQTCYLMALDSCYKHLCNKFEKLEGKEFSINDADYFVFHSPYNKLVQKSFARLLYYDAKVQPTTLVPKQVGNMYTASLYAAFASLVHNKHSDLAGKRVVMFSYGSGSTATMFSLRLCENQSPFSLSNIASVMDVGGKLKARHEYAPEKFVETMKLMEHRYGAKEFVTSKEGILDLLAPGTYYLKEVDSLYRRFYGKK AKNVGILAMDIYFPPTCVQQEALEAHDGASKGKYTIGLGQDCLAFCTELEDVISMSFNAVTSLLEKYKIDPKQIGRLEVGSETVIDKSKSIKTFLMQLFEKCGNTDVEGVDSTNACYGGTAALLNCVNWVESNSWDGRYGLVICTDSAVYAEGPARPTGGAAAIAMLIGPDAPIVFESKLRGSHMAHVYDFYKPNLASEYPVVDGKLSQTCYLMALDSCYKHLCNKFEKLEGKEFSINDADYFVFHSPYNKLVQKSFARLLYYDAKVQPTTLVPKQVGNMYTASLYAAFASLVHNKHSDLAGKRVVMFSYGSGSTATMFSLRLCENQSPFSLSNIASVMDVGGKLKARHEYAPEKFVETMKLMEHRYGAKEFVTSKEGILDLLAPGTYYLKEVDSLYRRFYGKK 2f9h-a1-m1-cB_2f9h-a1-m1-cA The Crystal Structure of PTS System IIA Component from Enterococcus faecalis V583 Q831B0 Q831B0 1.57 X-RAY DIFFRACTION 48 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 117 119 QATVTEIGKHAIDDSEKIILFGETATDTLKQHAVIQSFPEKDQVTLAEGDHLKIGDTNYTITKVGSFANSNLQSIAHSTLIFADAPTDEDDVIRNGVYLTPHQLPKITIGTTIDYLV WKQATVTEIGKHAIDDSEKIILFGETATDTLKQHAVIQSFPEKDQVTLAEGDHLKIGDTNYTITKVGSFANSNLQSIAHSTLIFADAPTDEDDVIRNGVYLTPHQLPKITIGTTIDYLV 2f9i-a1-m1-cC_2f9i-a1-m1-cA Crystal Structure of the carboxyltransferase subunit of ACC from Staphylococcus aureus Q2FG38 Q2FG38 1.98 X-RAY DIFFRACTION 19 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 297 309 5kdr-a1-m1-cA_5kdr-a1-m2-cA MLDFEKPLFEIRNKIEDMLEASLERETKKIYTNLKPWDRVQIARLQERPTTLDYIPYIFDSFMELHGDRNFRDDPAMIGGIGFLNGRAVTVIGQQRGKDTKDNIYRNFGMAHPEGYRKALRLMKQAEKFNRPIFTFIDTKGAYPGKAAEERGQSESIATNLIEMASLKVPVIAIVIGEGGSGGALGIGIANKVLMLENSTYSVISPEGAAALLWKDSNLAKIAAETMKITAHDIKQLGIIDDVISEPLGGAHKDIEQQALAIKSAFVAQLDSLESLSRDEIANDRFEKFRNIGSYIE LVPRGSMLDFEKPLFEIRNKIESLQEEIDMLEASLERETKKIYTNLKPWDRVQIARLQERPTTLDYIPYIFDSFMELHGDRNFRDDPAMIGGIGFLNGRAVTVIGQQRGKDTKDNIYRNFGMAHPEGYRKALRLMKQAEKFNRPIFTFIDTKGAYPGKAAEERGQSESIATNLIEMASLKVPVIAIVIGEGGSGGALGIGIANKVLMLENSTYSVISPEGAAALLWKDSNLAKIAAETMKITAHDIKQLGIIDDVISEPLGGAHKDIEQQALAIKSAFVAQLDSLESLSRDEIANDRFEKFRNIGSYIE 2f9q-a1-m1-cB_2f9q-a1-m1-cD Crystal Structure of Human Cytochrome P450 2D6 P10635 P10635 3.002 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 451 451 2f9q-a1-m1-cA_2f9q-a1-m1-cC PPGPLPNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR PPGPLPNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR 2f9q-a1-m1-cD_2f9q-a1-m1-cC Crystal Structure of Human Cytochrome P450 2D6 P10635 P10635 3.002 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 451 454 2f9q-a1-m1-cB_2f9q-a1-m1-cA PPGPLPNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR PPGPLPLPQNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR 2f9q-a2-m1-cB_2f9q-a2-m2-cD Crystal Structure of Human Cytochrome P450 2D6 P10635 P10635 3.002 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 451 451 PPGPLPNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR PPGPLPNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR 2f9q-a2-m2-cD_2f9q-a2-m2-cA Crystal Structure of Human Cytochrome P450 2D6 P10635 P10635 3.002 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 451 454 2f9q-a1-m1-cB_2f9q-a1-m1-cC 2f9q-a1-m1-cD_2f9q-a1-m1-cA 2f9q-a2-m1-cB_2f9q-a2-m1-cC PPGPLPNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR PPGPLPLPQNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVDRHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGMTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR 2f9w-a1-m1-cA_2f9w-a1-m1-cB Structure of the type III CoaA from Pseudomonas aeruginosa Q9HWC1 Q9HWC1 1.9 X-RAY DIFFRACTION 145 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 243 243 2f9t-a1-m1-cA_2f9t-a1-m1-cB SILELDCGNSLIKWRVIEGAARSVAGGLAESDDALVEQLTSQQALPVRACRLVSVRSEQETSQLVARLEQLFPVSALVASSGKQLAGVRNGYLDYQRLGLDRWLALVAAHHLAKKACLVIDLGTAVTSDLVAADGVHLGGYICPGTLRSQLRTHTRRIRYDDAEARRALASLQPGQATAEAVERGCLLLRGFVREQYAACELLGPDCEIFLTGGDAELVRDELAGARIPDLVFVGLALACPIE SILELDCGNSLIKWRVIEGAARSVAGGLAESDDALVEQLTSQQALPVRACRLVSVRSEQETSQLVARLEQLFPVSALVASSGKQLAGVRNGYLDYQRLGLDRWLALVAAHHLAKKACLVIDLGTAVTSDLVAADGVHLGGYICPGTLRSQLRTHTRRIRYDDAEARRALASLQPGQATAEAVERGCLLLRGFVREQYAACELLGPDCEIFLTGGDAELVRDELAGARIPDLVFVGLALACPIE 2f9y-a1-m1-cA_2f9y-a1-m2-cA The Crystal Structure of The Carboxyltransferase Subunit of ACC from Escherichia coli P0ABD5 P0ABD5 3.2 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 301 301 NFLDFEQPIAELEAKIDSDEEVHRLREKSVELTRKIFADLGAWQIAQLARHPQRPYTLDYVRLAFDEFDELAGDRAYADDKAIVGGIARLDGRPVMIIGHQKGRETKEKIRRNFGMPAPEGYRKALRLMQMAERFKMPIITFIDTPGAYPGVGAEERGQSEAIARNLREMSRLGVPVVCTVIGEGGSGGALAIGVGDKVNMLQYSTYSVISPEGCASILWKSADKAPLAAEAMGIIRPRLKELKLIDSIIPEPLGGAHRNPEAMAASLKAQLLADLADLDVLSTEDLKNRRYQRLMSYGYA NFLDFEQPIAELEAKIDSDEEVHRLREKSVELTRKIFADLGAWQIAQLARHPQRPYTLDYVRLAFDEFDELAGDRAYADDKAIVGGIARLDGRPVMIIGHQKGRETKEKIRRNFGMPAPEGYRKALRLMQMAERFKMPIITFIDTPGAYPGVGAEERGQSEAIARNLREMSRLGVPVVCTVIGEGGSGGALAIGVGDKVNMLQYSTYSVISPEGCASILWKSADKAPLAAEAMGIIRPRLKELKLIDSIIPEPLGGAHRNPEAMAASLKAQLLADLADLDVLSTEDLKNRRYQRLMSYGYA 2fa0-a1-m1-cA_2fa0-a1-m2-cA HMG-CoA synthase from Brassica juncea in complex with HMG-CoA and covalently bound to HMG-CoA Q9M6U3 Q9M6U3 2.49 X-RAY DIFFRACTION 243 1.0 3707 (Brassica juncea) 3707 (Brassica juncea) 450 450 2f82-a2-m1-cA_2f82-a2-m2-cA 2fa3-a1-m1-cA_2fa3-a1-m2-cA 7cqt-a1-m1-cB_7cqt-a1-m1-cA 7cqt-a2-m1-cC_7cqt-a2-m1-cD AKNVGILAMDIYFPPTCVQQEALEAHDGASKGKYTIGLGQDCLAFCTELEDVISMSFNAVTSLLEKYKIDPKQIGRLEVGSETVIDKSKSIKTFLMQLFEKCGNTDVEGVDSTNACYGGTAALLNCVNWVESNSWDGRYGLVICTDSAVYAEGPARPTGGAAAIAMLIGPDAPIVFESKLRGSHMAHVYDFYKPNLASEYPVVDGKLSQTCYLMALDSCYKHLCNKFEKLEGKEFSINDADYFVFHSPYNKLVQKSFARLLYNDFLRNASSIDEAAKEKFTPYSSLSLDESYQSRDLEKVSQQLAKTYYDAKVQPTTLVPKQVGNMYTASLYAAFASLVHNKHSDLAGKRVVMFSYGSGSTATMFSLRLCENQSPFSLSNIASVMDVGGKLKARHEYAPEKFVETMKLMEHRYGAKEFVTSKEGILDLLAPGTYYLKEVDSLYRRFYGKK AKNVGILAMDIYFPPTCVQQEALEAHDGASKGKYTIGLGQDCLAFCTELEDVISMSFNAVTSLLEKYKIDPKQIGRLEVGSETVIDKSKSIKTFLMQLFEKCGNTDVEGVDSTNACYGGTAALLNCVNWVESNSWDGRYGLVICTDSAVYAEGPARPTGGAAAIAMLIGPDAPIVFESKLRGSHMAHVYDFYKPNLASEYPVVDGKLSQTCYLMALDSCYKHLCNKFEKLEGKEFSINDADYFVFHSPYNKLVQKSFARLLYNDFLRNASSIDEAAKEKFTPYSSLSLDESYQSRDLEKVSQQLAKTYYDAKVQPTTLVPKQVGNMYTASLYAAFASLVHNKHSDLAGKRVVMFSYGSGSTATMFSLRLCENQSPFSLSNIASVMDVGGKLKARHEYAPEKFVETMKLMEHRYGAKEFVTSKEGILDLLAPGTYYLKEVDSLYRRFYGKK 2fa1-a1-m1-cA_2fa1-a1-m1-cB Crystal structure of PhnF C-terminal domain P16684 P16684 1.7 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 159 159 HMNAQARFSQNLLDQGSHPTSEKLLSVLRPASGHVADALGITEGENVIHLRTLRRVNGVALCLIDHYFADLTLWPTLQRFDSGSLHDFLREQTGIALRRSQTRISARRAQAKECQRLEIPNMSPLLCVRTLNHRDGESSPAEYSVSLTRADMIEFTMEH HMNAQARFSQNLLDQGSHPTSEKLLSVLRPASGHVADALGITEGENVIHLRTLRRVNGVALCLIDHYFADLTLWPTLQRFDSGSLHDFLREQTGIALRRSQTRISARRAQAKECQRLEIPNMSPLLCVRTLNHRDGESSPAEYSVSLTRADMIEFTMEH 2fa5-a1-m1-cA_2fa5-a1-m1-cB The crystal structure of an unliganded multiple antibiotic-resistance repressor (MarR) from Xanthomonas campestris Q8PDA5 Q8PDA5 1.8 X-RAY DIFFRACTION 173 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 133 136 HPVLLNLEQFLPYRLSVLSNRISGNIAKVYGDRYGAIPEWRVITILALYPGSSASEVSDRTADKVAVSRAVARLLERGFIRRSLALSPAGRQVYETVAPLVNEEQRLSVFSAEEQQTLERLIDRLAKDGLPRA SPHPVLLNLEQFLPYRLSVLSNRISGNIAKVYGDRYGAIPEWRVITILALYPGSSASEVSDRTADKVAVSRAVARLLERGFIRRESLALSPAGRQVYETVAPLVNEEQRLSVFSAEEQQTLERLIDRLAKDGLPRA 2fa8-a1-m1-cC_2fa8-a1-m1-cB Crystal Structure of the Putative Selenoprotein W-related family Protein from Agrobacterium tumefaciens A9CKJ2 A9CKJ2 1.9 X-RAY DIFFRACTION 24 0.988 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 80 86 ETKPRIAIRYCTQCNWLLRAGWAQEILQTFASDIGEVSLIPSTGGLFEITVDGTIIWERKRDGGFPGPKELKQRIRDLID TKPRIAIRYCTQCNWLLRAGWAQEILQTFASDIGEVSLIPSTGGLFEITVDGTIIWERKRDGGFPGPKELKQRIRDLIDPERDLGH 2fa8-a1-m1-cC_2fa8-a1-m1-cD Crystal Structure of the Putative Selenoprotein W-related family Protein from Agrobacterium tumefaciens A9CKJ2 A9CKJ2 1.9 X-RAY DIFFRACTION 56 0.988 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 80 80 2fa8-a1-m1-cA_2fa8-a1-m1-cB ETKPRIAIRYCTQCNWLLRAGWAQEILQTFASDIGEVSLIPSTGGLFEITVDGTIIWERKRDGGFPGPKELKQRIRDLID TETKPRIAIRYCTQCNWLLRAGWAQEILQTFASDIGEVSLIPSTGGLFEITVDGTIIWERKRDGGFPGPKELKQRIRDLI 2fad-a3-m1-cA_2fad-a3-m2-cB Crystal structure of E. coli heptanoyl-ACP P0A6A8 P0A6A8 1.6 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 77 77 2fac-a3-m1-cA_2fac-a3-m2-cB 2fac-a3-m1-cB_2fac-a3-m2-cA 2fac-a5-m1-cA_2fac-a5-m2-cB 2fac-a5-m5-cA_2fac-a5-m6-cB 2fac-a8-m1-cA_2fac-a8-m2-cB 2fad-a3-m1-cB_2fad-a3-m2-cA 2fae-a10-m1-cA_2fae-a10-m2-cB 2fae-a5-m1-cA_2fae-a5-m2-cB 2fae-a5-m1-cB_2fae-a5-m2-cA 2fae-a7-m1-cA_2fae-a7-m2-cB 2fae-a7-m5-cB_2fae-a7-m9-cA STIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA STIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA 2fae-a3-m1-cA_2fae-a3-m4-cB Crystal structure of E. coli decanoyl-ACP P0A6A8 P0A6A8 1.55 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 77 77 2fac-a4-m1-cA_2fac-a4-m4-cB 2fac-a4-m2-cA_2fac-a4-m3-cB 2fae-a3-m2-cA_2fae-a3-m3-cB STIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA STIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA 2fae-a8-m1-cA_2fae-a8-m5-cB Crystal structure of E. coli decanoyl-ACP P0A6A8 P0A6A8 1.55 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 77 77 2fae-a4-m1-cA_2fae-a4-m5-cB 2fae-a4-m2-cA_2fae-a4-m6-cB 2fae-a7-m1-cA_2fae-a7-m5-cB 2fae-a7-m2-cB_2fae-a7-m9-cA STIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA STIEERVKKIIGEQLGVKQEEVTNNASFVEDLGADSLDTVELVMALEEEFDTEIPDEEAEKITTVQAAIDYINGHQA 2fb0-a1-m1-cA_2fb0-a1-m2-cA Crystal Structure of Conserved Protein of Unknown Function from Bacteroides thetaiotaomicron VPI-5482 at 2.10 A Resolution, Possible Oxidoreductase Q8A7U6 Q8A7U6 2.1 X-RAY DIFFRACTION 58 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 91 91 ANSIRLNVFVRVNETNREKAIEAAKELTACSLKEEGCIAYDTFESSTRRDVFICETWQNAEVLAAHEKTAHFAQYVGIIQELAEKLEKFEF ANSIRLNVFVRVNETNREKAIEAAKELTACSLKEEGCIAYDTFESSTRRDVFICETWQNAEVLAAHEKTAHFAQYVGIIQELAEKLEKFEF 2fb5-a3-m1-cA_2fb5-a3-m2-cA Structural Genomics; The crystal structure of the hypothetical membrane spanning protein from Bacillus cereus Q812L9 Q812L9 1.99 X-RAY DIFFRACTION 65 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 204 204 2fb5-a2-m1-cA_2fb5-a2-m2-cA 2fb5-a2-m3-cB_2fb5-a2-m5-cC SNAMHEWGLSEELKIQTKQMIEIAEKELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEALIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL SNAMHEWGLSEELKIQTKQMIEIAEKELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEALIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL 2fb5-a3-m1-cB_2fb5-a3-m2-cB Structural Genomics; The crystal structure of the hypothetical membrane spanning protein from Bacillus cereus Q812L9 Q812L9 1.99 X-RAY DIFFRACTION 81 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 204 204 2fb5-a2-m1-cA_2fb5-a2-m5-cC 2fb5-a2-m2-cA_2fb5-a2-m4-cC SNAMHEWGLSEELKIQTKQMIEIAEKELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEALIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL SNAMHEWGLSEELKIQTKQMIEIAEKELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEALIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL 2fb5-a3-m2-cB_2fb5-a3-m2-cC Structural Genomics; The crystal structure of the hypothetical membrane spanning protein from Bacillus cereus Q812L9 Q812L9 1.99 X-RAY DIFFRACTION 15 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 204 204 2fb5-a1-m1-cA_2fb5-a1-m1-cB 2fb5-a1-m1-cA_2fb5-a1-m1-cC 2fb5-a1-m1-cB_2fb5-a1-m1-cC 2fb5-a3-m1-cA_2fb5-a3-m1-cB 2fb5-a3-m1-cA_2fb5-a3-m1-cC 2fb5-a3-m1-cB_2fb5-a3-m1-cC 2fb5-a3-m2-cA_2fb5-a3-m2-cB 2fb5-a3-m2-cA_2fb5-a3-m2-cC SNAMHEWGLSEELKIQTKQMIEIAEKELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEALIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL SNAMHEWGLSEELKIQTKQMIEIAEKELSIMRNAIDKEDECILCKMEDIHHMLANVQTLAATYYIQAYLSPYTESSSFITTAIQHLSARKHGALIVVERNETLEALIQTGTTLNAHLTAPLLESIFYPGNPLHDGAVLVKNNHIVSAANILPLTKSTEVDPELGTRHRAAIGLSEKSDALILVVSEETGRTSFALNGILYTISL 2fb6-a2-m2-cA_2fb6-a2-m3-cA Structure of Conserved Protein of Unknown Function BT1422 from Bacteroides thetaiotaomicron Q8A7V2 Q8A7V2 1.46 X-RAY DIFFRACTION 44 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 111 111 2fb6-a2-m1-cA_2fb6-a2-m2-cA 2fb6-a2-m1-cA_2fb6-a2-m3-cA NASANDKLTILWTTDNKDTVFNLAYALNSKNRGWWKHINIILWGASVKLVANDTQVQTEILELQSGITIEACQDCCENFGVASIITNLGITVRYGIPLTEYLKNGEKILSI NASANDKLTILWTTDNKDTVFNLAYALNSKNRGWWKHINIILWGASVKLVANDTQVQTEILELQSGITIEACQDCCENFGVASIITNLGITVRYGIPLTEYLKNGEKILSI 2fbd-a3-m1-cA_2fbd-a3-m2-cB The crystallographic structure of the digestive lysozyme 1 from Musca domestica at 1.90 Ang. Q7YT16 Q7YT16 1.9 X-RAY DIFFRACTION 34 1.0 7370 (Musca domestica) 7370 (Musca domestica) 122 122 KTFTRCSLAREMYALGVPKSELPQWTCIAEHESSYRTNVVGPTNSNGSNDYGIFQINNYYWCQPSNGRFSYNECHLSCDALLTDNISNSVTCARKIKSQQGWTAWSTWKYCSGSLPSINDCF KTFTRCSLAREMYALGVPKSELPQWTCIAEHESSYRTNVVGPTNSNGSNDYGIFQINNYYWCQPSNGRFSYNECHLSCDALLTDNISNSVTCARKIKSQQGWTAWSTWKYCSGSLPSINDCF 2fbh-a1-m1-cA_2fbh-a1-m2-cA The crystal structure of transcriptional regulator PA3341 Q9HYQ4 Q9HYQ4 1.8 X-RAY DIFFRACTION 126 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 137 137 YFGTLLAQTSRAWRAELDRRLSHLGLSQARWLVLLHLARHRDSPTQRELAQSVGVEGPTLARLLDGLESQGLVRRLAVAEDRRAKHIVLTPKADVLIADIEAIAASVRNDVLTGIDESEQALCQQVLLRILANLENR YFGTLLAQTSRAWRAELDRRLSHLGLSQARWLVLLHLARHRDSPTQRELAQSVGVEGPTLARLLDGLESQGLVRRLAVAEDRRAKHIVLTPKADVLIADIEAIAASVRNDVLTGIDESEQALCQQVLLRILANLENR 2fbh-a2-m1-cA_2fbh-a2-m3-cA The crystal structure of transcriptional regulator PA3341 Q9HYQ4 Q9HYQ4 1.8 X-RAY DIFFRACTION 17 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 137 137 YFGTLLAQTSRAWRAELDRRLSHLGLSQARWLVLLHLARHRDSPTQRELAQSVGVEGPTLARLLDGLESQGLVRRLAVAEDRRAKHIVLTPKADVLIADIEAIAASVRNDVLTGIDESEQALCQQVLLRILANLENR YFGTLLAQTSRAWRAELDRRLSHLGLSQARWLVLLHLARHRDSPTQRELAQSVGVEGPTLARLLDGLESQGLVRRLAVAEDRRAKHIVLTPKADVLIADIEAIAASVRNDVLTGIDESEQALCQQVLLRILANLENR 2fbi-a1-m1-cA_2fbi-a1-m2-cA The crystal structure of transcriptional regulator PA4135 Q9HWP6 Q9HWP6 2.1 X-RAY DIFFRACTION 138 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 136 136 RPSLTLTLLQAREAAMSFFRPSLNQHGLTEQQWRVIRILRQQGEMESYQLANQACILRPSMTGVLARLERDGIVRRWKAPKDQRRVYVNLTEKGQQCFVSMSGDMEKNYQRIQERFGEEKLAQLLELLNELKKIKP RPSLTLTLLQAREAAMSFFRPSLNQHGLTEQQWRVIRILRQQGEMESYQLANQACILRPSMTGVLARLERDGIVRRWKAPKDQRRVYVNLTEKGQQCFVSMSGDMEKNYQRIQERFGEEKLAQLLELLNELKKIKP 2fbm-a1-m1-cB_2fbm-a1-m1-cC Acetyltransferase domain of CDY1 Q9Y6F8 Q9Y6F8 2.28 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 2fbm-a1-m1-cB_2fbm-a1-m1-cA 2fbm-a1-m1-cC_2fbm-a1-m1-cA 2fw2-a1-m1-cB_2fw2-a1-m1-cA 2fw2-a1-m1-cB_2fw2-a1-m1-cC 2fw2-a1-m1-cC_2fw2-a1-m1-cA 2fw2-a1-m1-cD_2fw2-a1-m1-cE 2fw2-a1-m1-cD_2fw2-a1-m1-cF 2fw2-a1-m1-cE_2fw2-a1-m1-cF 2fw2-a2-m1-cD_2fw2-a2-m1-cE 2fw2-a2-m1-cD_2fw2-a2-m1-cF 2fw2-a2-m1-cE_2fw2-a2-m1-cF 2fw2-a3-m1-cB_2fw2-a3-m1-cA 2fw2-a3-m1-cB_2fw2-a3-m1-cC 2fw2-a3-m1-cC_2fw2-a3-m1-cA YRDIVVKKEDGFTQIVLSTRSTEKNALNTEVIKEIVNALNSAAADDSKLVLFSAAGSVFCCGLDFGYFVKHLRNNRNTASLEMVDTIKNFVNTFIQFKKPIVVSVNGPAIGLGASILPLCDLVWANEKAWFQTPYTTFGQSPDGCSSITFPKMMGKASANEMLIAGRKLTAREACAKGLVSQVFLTGTFTQEVMIQIKELASYNPIVLEECKALVRCNIKLELEQANERECEVLRKIWSSAQGIESMLKI YRDIVVKKEDGFTQIVLSTRSTEKNALNTEVIKEIVNALNSAAADDSKLVLFSAAGSVFCCGLDFGYFVKHLRNNRNTASLEMVDTIKNFVNTFIQFKKPIVVSVNGPAIGLGASILPLCDLVWANEKAWFQTPYTTFGQSPDGCSSITFPKMMGKASANEMLIAGRKLTAREACAKGLVSQVFLTGTFTQEVMIQIKELASYNPIVLEECKALVRCNIKLELEQANERECEVLRKIWSSAQGIESMLKI 2fbn-a1-m1-cB_2fbn-a1-m1-cA Plasmodium falciparum putative FK506-binding protein PFL2275c, C-terminal TPR-containing domain Q8I4V8 Q8I4V8 1.63 X-RAY DIFFRACTION 36 0.993 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 151 153 SIYDYTDEEKVQSAFDIKEEGNEFFKKNEINEAIVKYKEALDFFIHTEEWDDQILLDKKKNIEISCNLNLATCYNKNKDYPKAIDHASKVLKIDKNNVKALYKLGVANMYFGFLEEAKENLYKAASLNPNNLDIRNSYELCVNKLKEARKK AKKSIYDYTDEEKVQSAFDIKEEGNEFFKKNEINEAIVKYKEALDFFIHTEEWDDQILLDKKKNIEISCNLNLATCYNKNKDYPKAIDHASKVLKIDKNNVKALYKLGVANMYFGFLEEAKENLYKAASLNPNNLDIRNSYELCVNKLKEARK 2fbq-a1-m1-cA_2fbq-a1-m2-cA The crystal structure of transcriptional regulator PA3006 Q9HZJ9 Q9HZJ9 1.8 X-RAY DIFFRACTION 151 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 213 213 AQSETVERILDAAEQLFAEKGFAETSLRLITSKAGVNLAAVNYHFGSKKALIQAVFSRFLGPFCASLEKELDRRQAKPEAQHATLEDLLHLLVSQAMAVKPRSGNDLSIFMRLLGLAFSQSQGHLRKYLEEVYGKVFRRYMLLVNEAAPKLPPIELFWRVHFMLGAAAFSMSGIKALRAMAETDFGVNTSTEQVMHLMVPFFAAGMRAESGID AQSETVERILDAAEQLFAEKGFAETSLRLITSKAGVNLAAVNYHFGSKKALIQAVFSRFLGPFCASLEKELDRRQAKPEAQHATLEDLLHLLVSQAMAVKPRSGNDLSIFMRLLGLAFSQSQGHLRKYLEEVYGKVFRRYMLLVNEAAPKLPPIELFWRVHFMLGAAAFSMSGIKALRAMAETDFGVNTSTEQVMHLMVPFFAAGMRAESGID 2fch-a8-m1-cB_2fch-a8-m1-cC Crystal Structure of Thioredoxin Mutant G74S P0AA25 P0AA25 2.6 X-RAY DIFFRACTION 39 0.991 562 (Escherichia coli) 562 (Escherichia coli) 106 106 2fch-a10-m1-cB_2fch-a10-m1-cC DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANL KIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA 2fch-a8-m1-cB_2fch-a8-m1-cD Crystal Structure of Thioredoxin Mutant G74S P0AA25 P0AA25 2.6 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 107 2eiq-a3-m1-cA_2eiq-a3-m2-cA 2fch-a10-m1-cB_2fch-a10-m1-cD 2fch-a12-m1-cB_2fch-a12-m1-cD 2fch-a8-m1-cC_2fch-a8-m1-cF 2fch-a9-m1-cA_2fch-a9-m1-cE 2trx-a3-m1-cA_2trx-a3-m2-cA 2trx-a4-m1-cB_2trx-a4-m3-cB 5e4w-a2-m1-cB_5e4w-a2-m1-cA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANL DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA 2fch-a8-m1-cC_2fch-a8-m1-cD Crystal Structure of Thioredoxin Mutant G74S P0AA25 P0AA25 2.6 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 107 2fch-a10-m1-cC_2fch-a10-m1-cD KIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA 2fch-a8-m1-cC_2fch-a8-m1-cG Crystal Structure of Thioredoxin Mutant G74S P0AA25 P0AA25 2.6 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 107 KIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA 2fch-a8-m1-cF_2fch-a8-m1-cG Crystal Structure of Thioredoxin Mutant G74S P0AA25 P0AA25 2.6 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 107 2fch-a11-m1-cF_2fch-a11-m1-cG DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANL DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRSIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLA 2fcj-a4-m2-cC_2fcj-a4-m1-cB Structure of small TOPRIM domain protein from Bacillus stearothermophilus. Q5KVJ9 Q5KVJ9 1.3 X-RAY DIFFRACTION 26 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 116 118 RVEKVIIVEGRSDKQKVAAVLNEPVVIVCTNGTISDARLEELADELEGYDVYLLADADEAGEKLRRQFRRMFPEAEHLYIDRAYREVAAAPIWHLAQVLLRARFDVRIESLMRGRG RRVEKVIIVEGRSDKQKVAAVLNEPVVIVCTNGTISDARLEELADELEGYDVYLLADADEAGEKLRRQFRRMFPEAEHLYIDRAYREVAAAPIWHLAQVLLRARFDVRIESLMRGRGE 2fck-a1-m1-cA_2fck-a1-m2-cA Structure of a putative ribosomal-protein-serine acetyltransferase from Vibrio cholerae. A0A0H3AIE8 A0A0H3AIE8 1.7 X-RAY DIFFRACTION 69 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 171 171 TPDFQIVTQRLQLRLITADEAEELVQCIRQSQTLHQWVDWFSQQEAEQFIQATRLNWVKAEAYGFGVFERQTQTLVGVAINEFYHTFNASLGYWIGDRYQRQGYGKEALTALILFCFERLELTRLEIVCDPENVPSQALALRCGANREQLAPNRFLYAGEPKAGIVFSLIP TPDFQIVTQRLQLRLITADEAEELVQCIRQSQTLHQWVDWFSQQEAEQFIQATRLNWVKAEAYGFGVFERQTQTLVGVAINEFYHTFNASLGYWIGDRYQRQGYGKEALTALILFCFERLELTRLEIVCDPENVPSQALALRCGANREQLAPNRFLYAGEPKAGIVFSLIP 2fco-a1-m1-cA_2fco-a1-m1-cB Crystal Structure of Bacillus stearothermophilus PrfA-Holliday Junction Resolvase Q5KXY4 Q5KXY4 1.4 X-RAY DIFFRACTION 82 0.987 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 154 154 GMTLEDDLNATNEYYRERGIAVIHKKPTPVAYFRQASTTDYNGVYRGKYIDFEAKETKNKTAFPLKNFHAHQIRHMEQVVAHGGICFAILRFSLLNETYLLDASHLIAWWNKQEAGGRKSIPKQEIERHGHSIPLGYQPRIDYISVVDNVYFTR RGMTLEDDLNATNEYYRERGIAVIHKKPTPVQFRQASTTDYNGVYRGKYIDFEAKETKNKTAFPLKNFHAHQIRHMEQVVAHGGICFAILRFSLLNETYLLDASHLIAWWNKQEAGGRKSIPKQEIERHGHSIPLGYQPRIDYISVVDNVYFTR 2fcw-a2-m1-cA_2fcw-a2-m2-cA Structure of a Complex Between the Pair of the LDL Receptor Ligand-Binding Modules 3-4 and the Receptor Associated Protein (RAP). P30533 P30533 1.26 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 GAEFEEPRVIDLWDLAQSANLTDKELEAFREELKHFEAKIEKHNHYQKQLEIAHEKLRHAESVGDGERVSRSREKHALLEGRTKELGYTVKKHLQDLSGRISRARH GAEFEEPRVIDLWDLAQSANLTDKELEAFREELKHFEAKIEKHNHYQKQLEIAHEKLRHAESVGDGERVSRSREKHALLEGRTKELGYTVKKHLQDLSGRISRARH 2fd5-a1-m1-cA_2fd5-a1-m2-cA The crystal structure of a transcriptional regulator from Pseudomonas aeruginosa PAO1 Q9HZ91 Q9HZ91 1.7 X-RAY DIFFRACTION 145 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 180 180 MSDKKTQTRARILGAATQALLERGAVEPSVGEVMGAAGLTVGGFYAHFQSKDALMLEAFEQLLGKRRELLGELDPGLSGKERRALAAAFYLSRKHRDAQVDAGCPLPATLAEVARLPEGFREVLSRHVEIMVTSLAESPEETDVALADLVLMIGGLALARALGPGELSDRVLRAAKQAVN MSDKKTQTRARILGAATQALLERGAVEPSVGEVMGAAGLTVGGFYAHFQSKDALMLEAFEQLLGKRRELLGELDPGLSGKERRALAAAFYLSRKHRDAQVDAGCPLPATLAEVARLPEGFREVLSRHVEIMVTSLAESPEETDVALADLVLMIGGLALARALGPGELSDRVLRAAKQAVN 2fdo-a1-m1-cA_2fdo-a1-m1-cB Crystal Structure of the Conserved Protein of Unknown Function AF2331 from Archaeoglobus fulgidus DSM 4304 Reveals a New Type of Alpha/Beta Fold O27953 O27953 2.4 X-RAY DIFFRACTION 268 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 89 89 HPAYVFSKESFLKFLEGHLEDDVVVVVSSDVTDFCKKLSESVGEKEYCFAEFAFPADIFDADEDEIDEKYAIVFVEKEKLSEAGRNAIR HPAYVFSKESFLKFLEGHLEDDVVVVVSSDVTDFCKKLSESVGEKEYCFAEFAFPADIFDADEDEIDEKYAIVFVEKEKLSEAGRNAIR 2fds-a1-m1-cA_2fds-a1-m1-cB Crystal Structure of Plasmodium Berghei Orotidine 5'-monophosphate Decarboxylase (ortholog of Plasmodium falciparum PF10_0225) 1.72 X-RAY DIFFRACTION 158 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 318 319 2aqw-a2-m1-cA_2aqw-a2-m2-cA HFKTKLKNRRNEVNTCLCIGLDPDEDDIKNFMRNEEKNGYKNVKNNMNNNNRIENVIKIGKEILLTDEENIENLSEEDKFFYFFNHFCFYIINNTKEYALIYKMNFAFYIPYGSVGINALKNVFDYLNSMNIPTMLDMKINDIGNTVKNYRKFIFEYLKSDSCTINVYMGTSMLKDICFDYEKNKYYSAYVLIKTTNKDSFIFQNELSINDKQAYIVMAEETQKMATDLKIDQNNEFIGFVVGSNAFEEMKIIRNKFPDSYILSPGIDLYKTLKNGYNKDYEKLLINVGRAITKSPNPKKSSESYYNQIIQIFKDIEN HFKTKLKNRRNEVNTCLCIGLDPDEDDIKNFMRNEEKNGYKNVKNNMNSNNNRIENVIKIGKEILLTDEENIENLSEEDKFFYFFNHFCFYIINNTKEYALIYKMNFAFYIPYGSVGINALKNVFDYLNSMNIPTMLDMKINDIGNTVKNYRKFIFEYLKSDSCTINVYMGTSMLKDICFDYEKNKYYSAYVLIKTTNKDSFIFQNELSINDKQAYIVMAEETQKMATDLKIDQNNEFIGFVVGSNAFEEMKIIRNKFPDSYILSPGIDLYKTLKNGYNKDYEKLLINVGRAITKSPNPKKSSESYYNQIIQIFKDIEN 2fdy-a5-m1-cB_2fdy-a5-m1-cA Microsomal P450 2A6 with the inhibitor Adrithiol bound P11509 P11509 1.95 X-RAY DIFFRACTION 60 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 464 465 KLPPGPTPLPFIGNYLQLNTEQMYNSLMKISERYGPVFTIHLGPRRVVVLCGHDAVREALVDQAEEFSGRGEQATFDWVFKGYGVVFSNGERAKQLRRFSIATLRDFGVGKRGIEERIQEEAGFLIDALRGTGGANIDPTFFLSRTVSNVISSIVFGDRFDYKDKEFLSLLRMMLGIFQFTSTSTGQLYEMFSSVMKHLPGPQQQAFQLLQGLEDFIAKKVEHNQRTLDPNSPRDFIDSFLIRMQEEEKNPNTEFYLKNLVMTTLNLFIGGTETVSTTLRYGFLLLMKHPEVEAKVHEEIDRVIGKNRQPKFEDRAKMPYMEAVIHEIQRFGDVIPMSLARRVKKDTKFRDFFLPKGTEVYPMLGSVLRDPSFFSNPQDFNPQHFLNEKGQFKKSDAFVPFSIGKRNCFGEGLARMELFLFFTTVMQNFRLKSSQSPKDIDVSPKHVGFATIPRNYTMSFLPRH KGKLPPGPTPLPFIGNYLQLNTEQMYNSLMKISERYGPVFTIHLGPRRVVVLCGHDAVREALVDQAEEFSGRGEQATFDWVFKGYGVVFSNGERAKQLRRFSIATLRDFGVGKRGIEERIQEEAGFLIDALRGTGGANIDPTFFLSRTVSNVISSIVFGDRFDYKDKEFLSLLRMMLGIFQFTSTSTGQLYEMFSSVMKHLPGPQQQAFQLLQGLEDFIAKKVEHNQRTLDPNSPRDFIDSFLIRMQEEEKNPNTEFYLKNLVMTTLNLFIGGTETVSTTLRYGFLLLMKHPEVEAKVHEEIDRVIGKNRQPKFEDRAKMPYMEAVIHEIQRFGDVIPMSLARRVKKDTKFRDFFLPKGTEVYPMLGSVLRDPSFFSNPQDFNPQHFLNEKGQFKKSDAFVPFSIGKRNCFGEGLARMELFLFFTTVMQNFRLKSSQSPKDIDVSPKHVGFATIPRNYTMSFLPR 2fe1-a1-m1-cA_2fe1-a1-m2-cA Crystal Structure of PAE0151 from Pyrobaculum aerophilum Q8ZZP3 Q8ZZP3 2.2 X-RAY DIFFRACTION 89 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 130 130 MELVVDASAIAALYVPEERSEQAERAVSQAQELHTLDLAAYEVANDLWKHARRGLLREDEASNMLEELWEFFKALKVHSYAEVLKDAFALALKHGVTVYDAAYVALAEKIGGKLLTLDRQLAEKFPALVT MELVVDASAIAALYVPEERSEQAERAVSQAQELHTLDLAAYEVANDLWKHARRGLLREDEASNMLEELWEFFKALKVHSYAEVLKDAFALALKHGVTVYDAAYVALAEKIGGKLLTLDRQLAEKFPALVT 2fe3-a1-m1-cA_2fe3-a1-m1-cB The crystal structure of bacillus subtilis PerR-Zn reveals a novel Zn(Cys)4 Structural redox switch P71086 P71086 1.75 X-RAY DIFFRACTION 124 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 141 143 2rgv-a1-m1-cA_2rgv-a1-m1-cB HELKEALETLKETGVRITPQRHAILEYLVNSMAHPTADDIYKALEGKFPNMSVATVYNNLRVFRESGLVKELTYGDASSRFDFVTSDHYHAICENCGKIVDFHYPGLDEVEQLAAHVTGFKVSHHRLEIYGVCQECSKKEN AHELKEALETLKETGVRITPQRHAILEYLVNSMAHPTADDIYKALEGKFPNMSVATVYNNLRVFRESGLVKELTYGDASSRFDFVTSDHYHAICENCGKIVDFHYPGLDEVEQLAAHVTGFKVSHHRLEIYGVCQECSKKENH 2fe7-a2-m1-cB_2fe7-a2-m2-cB The crystal structure of a probable N-acetyltransferase from Pseudomonas aeruginosa Q9I640 Q9I640 2 X-RAY DIFFRACTION 74 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 166 166 ENLYFQGHMTLEIRPAVPADAEQILAFIIELADYERARHEVVTDVEGIRRSLFAEGSPTRALMCLSEGRPIGYAVFFYSYSTWLGRNGIYLEDLYVTPEYRGVGAGRRLLRELAREAVANDCGRLEWSVLDWNQPAIDFYRSIGALPQDEWVRYRLDGEALRKMAE ENLYFQGHMTLEIRPAVPADAEQILAFIIELADYERARHEVVTDVEGIRRSLFAEGSPTRALMCLSEGRPIGYAVFFYSYSTWLGRNGIYLEDLYVTPEYRGVGAGRRLLRELAREAVANDCGRLEWSVLDWNQPAIDFYRSIGALPQDEWVRYRLDGEALRKMAE 2fe7-a2-m2-cA_2fe7-a2-m2-cB The crystal structure of a probable N-acetyltransferase from Pseudomonas aeruginosa Q9I640 Q9I640 2 X-RAY DIFFRACTION 237 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 154 166 2fe7-a1-m1-cA_2fe7-a1-m1-cB 2fe7-a2-m1-cA_2fe7-a2-m1-cB LEIRPAVPADAEQILAFIIELADYERARHEVVTDVEGIRRSLFAEGSPTRALMCLSEGRPIGYAVFFYSYSTWLGRNGIYLEDLYVTPEYRGAGRRLLRELAREAVANDCGRLEWSVLDWNQPAIDFYRSIGALPQDEWVRYRLDGEALRKMAE ENLYFQGHMTLEIRPAVPADAEQILAFIIELADYERARHEVVTDVEGIRRSLFAEGSPTRALMCLSEGRPIGYAVFFYSYSTWLGRNGIYLEDLYVTPEYRGVGAGRRLLRELAREAVANDCGRLEWSVLDWNQPAIDFYRSIGALPQDEWVRYRLDGEALRKMAE 2fe8-a6-m2-cB_2fe8-a6-m1-cA SARS coronavirus papain-like protease: structure of a viral deubiquitinating enzyme P0C6X7 P0C6X7 1.85 X-RAY DIFFRACTION 33 1.0 314 315 2fe8-a4-m1-cB_2fe8-a4-m2-cA 2fe8-a4-m1-cC_2fe8-a4-m2-cC 2fe8-a4-m2-cB_2fe8-a4-m1-cA 2fe8-a6-m1-cB_2fe8-a6-m2-cA 7lfv-a1-m1-cF_7lfv-a1-m1-cB 7lfv-a2-m1-cD_7lfv-a2-m1-cA MEVKTIKVFTTVDNTNLHTQLVDMSMTYGQQFGPTYLDGADVTKIKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTT MEVKTIKVFTTVDNTNLHTQLVDMSMTYGQQFGPTYLDGADVTKIKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI 2fe8-a6-m2-cB_2fe8-a6-m2-cA SARS coronavirus papain-like protease: structure of a viral deubiquitinating enzyme P0C6X7 P0C6X7 1.85 X-RAY DIFFRACTION 59 1.0 314 315 2fe8-a4-m1-cB_2fe8-a4-m1-cA 2fe8-a4-m1-cC_2fe8-a4-m1-cA 2fe8-a4-m1-cC_2fe8-a4-m1-cB 2fe8-a4-m2-cB_2fe8-a4-m2-cA 2fe8-a4-m2-cC_2fe8-a4-m2-cA 2fe8-a4-m2-cC_2fe8-a4-m2-cB 2fe8-a5-m1-cB_2fe8-a5-m1-cA 2fe8-a5-m1-cC_2fe8-a5-m1-cA 2fe8-a5-m1-cC_2fe8-a5-m1-cB 2fe8-a6-m1-cB_2fe8-a6-m1-cA 2fe8-a7-m1-cC_2fe8-a7-m1-cB MEVKTIKVFTTVDNTNLHTQLVDMSMTYGQQFGPTYLDGADVTKIKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTT MEVKTIKVFTTVDNTNLHTQLVDMSMTYGQQFGPTYLDGADVTKIKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI 2fef-a1-m1-cC_2fef-a1-m1-cB The Crystal Structure of Protein PA2201 from Pseudomonas aeruginosa Q9I1R6 Q9I1R6 1.9 X-RAY DIFFRACTION 20 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 279 282 2fef-a1-m1-cA_2fef-a1-m1-cB 2fef-a1-m1-cA_2fef-a1-m1-cC LTLDNRLAEALPLWRNLARTDRAPRRNIDLADWKADWRELIAALDRFSRSHGYRQPFAAQGHAALENAWAWGQAAENASTLLLKAIDRGLAGAELRSIYLETAALWLDYSRLLGAARDSLREQGTAPALAPRTGQYPFALQLLAGVLLDAQELIPALVEEVLQFDTDRLLDYLGAAALGLTSASEETFHPRPFGQLRAFFEEGSDAQALAPYLQSQYREFFQLSPKAQKKTRRLTGPYAWGWWAEVSALGVLYGWDDGVLRASPHYLGDLVDYARARGD LTLDNRLAEALPLWRNLARTDRAPRRNIDLADWKADWRELIAALDRFSRSHGYRQPFAAQGHAALENAWAWGQAAENASTLLLKAIDRGLAGAELRSIYLETAALWLDYSRLLGAARDSLREQGETAPALAPRTGQYPFALQLLAGVLLDAQELIPALVEEVLQFDTDRLLDYLGAAALGLTSASEETFHPRPFGQLRAFFEEADGSDAQALAPYLQSQYREFFQLSPKAQKKTRRLTGPYAWGWWAEVSALGVLYGWDDGVLRASPHYLGDLVDYARARGD 2fel-a3-m1-cI_2fel-a3-m1-cL 3-carboxy-cis,cis-muconate lactonizing enzyme from Agrobacterium radiobacter S2 Q2HNZ1 Q2HNZ1 2.2 X-RAY DIFFRACTION 164 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 337 338 2fel-a1-m1-cA_2fel-a1-m1-cD 2fel-a1-m1-cC_2fel-a1-m1-cB 2fel-a2-m1-cE_2fel-a2-m1-cF 2fel-a2-m1-cG_2fel-a2-m1-cH 2fel-a3-m1-cK_2fel-a3-m1-cJ 2fen-a1-m1-cA_2fen-a1-m1-cD 2fen-a1-m1-cC_2fen-a1-m1-cB 2fen-a2-m1-cE_2fen-a2-m1-cH 2fen-a2-m1-cG_2fen-a2-m1-cF 2fen-a3-m1-cI_2fen-a3-m1-cL 2fen-a3-m1-cK_2fen-a3-m1-cJ SLSPFEHPFLSGLFGDSEIIELFSAKADIDAMIRFETALAQAEAEASIFADDEAEAIVSGLSEFAADMSALRHGVAKDGVVVPELIRQMRAAVAGQAADKVHFGATSQDVIDTSLMLRLKMAAEIIATRLGHLIDTLGDLASRDGHKPLTGYTRMQAAIGITVADRAAGWIAPLERHLLRLETFAQNGFALQFGGAAGTLEKLGDNAGAVRADLAKRLGLADRPQWHNQRDGIAEFANLLSLVTGTLGKFGQDIALMAEIGSEIRLSNPVNAETLVTLARFNAVQISALHQSLVQEQERSGAGWMLEWLTLPQMVTATGTSLLVAERLAAQIDRLGA SLSPFEHPFLSGLFGDSEIIELFSAKADIDAMIRFETALAQAEAEASIFADDEAEAIVSGLSEFAADMSALRHGVAKDGVVVPELIRQMRAAVAGQAADKVHFGATSQDVIDTSLMLRLKMAAEIIATRLGHLIDTLGDLASRDGHKPLTGYTRMQAAIGITVADRAAGWIAPLERHLLRLETFAQNGFALQFGGAAGTLEKLGDNAGAVRADLAKRLGLADRPQWHNQRDGIAEFANLLSLVTGTLGKFGQDIALMAEIGSEIRLSGNPVNAETLVTLARFNAVQISALHQSLVQEQERSGAGWMLEWLTLPQMVTATGTSLLVAERLAAQIDRLGA 2fel-a3-m1-cJ_2fel-a3-m1-cL 3-carboxy-cis,cis-muconate lactonizing enzyme from Agrobacterium radiobacter S2 Q2HNZ1 Q2HNZ1 2.2 X-RAY DIFFRACTION 43 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 338 338 2fel-a1-m1-cA_2fel-a1-m1-cC 2fel-a1-m1-cD_2fel-a1-m1-cB 2fel-a2-m1-cE_2fel-a2-m1-cG 2fel-a2-m1-cH_2fel-a2-m1-cF 2fel-a3-m1-cI_2fel-a3-m1-cK 2fen-a1-m1-cB_2fen-a1-m1-cD 2fen-a1-m1-cC_2fen-a1-m1-cA 2fen-a2-m1-cE_2fen-a2-m1-cG 2fen-a2-m1-cH_2fen-a2-m1-cF 2fen-a3-m1-cK_2fen-a3-m1-cI 2fen-a3-m1-cL_2fen-a3-m1-cJ SLSPFEHPFLSGLFGDSEIIELFSAKADIDAMIRFETALAQAEAEASIFADDEAEAIVSGLSEFAADMSALRHGVAKDGVVVPELIRQMRAAVAGQAADKVHFGATSQDVIDTSLMLRLKMAAEIIATRLGHLIDTLGDLASRDGHKPLTGYTRMQAAIGITVADRAAGWIAPLERHLLRLETFAQNGFALQFGGAAGTLEKLGDNAGAVRADLAKRLGLADRPQWHNQRDGIAEFANLLSLVTGTLGKFGQDIALMAEIGSEIRLSGNPVNAETLVTLARFNAVQISALHQSLVQEQERSGAGWMLEWLTLPQMVTATGTSLLVAERLAAQIDRLGA SLSPFEHPFLSGLFGDSEIIELFSAKADIDAMIRFETALAQAEAEASIFADDEAEAIVSGLSEFAADMSALRHGVAKDGVVVPELIRQMRAAVAGQAADKVHFGATSQDVIDTSLMLRLKMAAEIIATRLGHLIDTLGDLASRDGHKPLTGYTRMQAAIGITVADRAAGWIAPLERHLLRLETFAQNGFALQFGGAAGTLEKLGDNAGAVRADLAKRLGLADRPQWHNQRDGIAEFANLLSLVTGTLGKFGQDIALMAEIGSEIRLSGNPVNAETLVTLARFNAVQISALHQSLVQEQERSGAGWMLEWLTLPQMVTATGTSLLVAERLAAQIDRLGA 2fel-a3-m1-cK_2fel-a3-m1-cL 3-carboxy-cis,cis-muconate lactonizing enzyme from Agrobacterium radiobacter S2 Q2HNZ1 Q2HNZ1 2.2 X-RAY DIFFRACTION 175 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 337 338 2fel-a1-m1-cA_2fel-a1-m1-cB 2fel-a1-m1-cC_2fel-a1-m1-cD 2fel-a2-m1-cE_2fel-a2-m1-cH 2fel-a2-m1-cG_2fel-a2-m1-cF 2fel-a3-m1-cI_2fel-a3-m1-cJ 2fen-a1-m1-cB_2fen-a1-m1-cA 2fen-a1-m1-cC_2fen-a1-m1-cD 2fen-a2-m1-cE_2fen-a2-m1-cF 2fen-a2-m1-cG_2fen-a2-m1-cH 2fen-a3-m1-cI_2fen-a3-m1-cJ 2fen-a3-m1-cK_2fen-a3-m1-cL SLSPFEHPFLSGLFGDSEIIELFSAKADIDAMIRFETALAQAEAEASIFADDEAEAIVSGLSEFAADMSALRHGVAKDGVVVPELIRQMRAAVAGQAADKVHFGATSQDVIDTSLMLRLKMAAEIIATRLGHLIDTLGDLASRDGHKPLTGYTRMQAAIGITVADRAAGWIAPLERHLLRLETFAQNGFALQFGGAAGTLEKLGDNAGAVRADLAKRLGLADRPQWHNQRDGIAEFANLLSLVTGTLGKFGQDIALMAEIGSEIRLSNPVNAETLVTLARFNAVQISALHQSLVQEQERSGAGWMLEWLTLPQMVTATGTSLLVAERLAAQIDRLGA SLSPFEHPFLSGLFGDSEIIELFSAKADIDAMIRFETALAQAEAEASIFADDEAEAIVSGLSEFAADMSALRHGVAKDGVVVPELIRQMRAAVAGQAADKVHFGATSQDVIDTSLMLRLKMAAEIIATRLGHLIDTLGDLASRDGHKPLTGYTRMQAAIGITVADRAAGWIAPLERHLLRLETFAQNGFALQFGGAAGTLEKLGDNAGAVRADLAKRLGLADRPQWHNQRDGIAEFANLLSLVTGTLGKFGQDIALMAEIGSEIRLSGNPVNAETLVTLARFNAVQISALHQSLVQEQERSGAGWMLEWLTLPQMVTATGTSLLVAERLAAQIDRLGA 2fex-a2-m1-cC_2fex-a2-m2-cC The Crystal Structure of DJ-1 Superfamily Protein Atu0886 from Agrobacterium tumefaciens A9CJS5 A9CJS5 1.7 X-RAY DIFFRACTION 111 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 185 185 2fex-a1-m1-cA_2fex-a1-m1-cB TRIAIALAQDFADWEPALLAAAARSYLGVEIVHATPDGPVTSGGLKVTPDTSYDALDPVDIDALVIPGGLSWEKGTAADLGGLVKRFRDRDRLVAGICAAASALGGTGVLNDVAHTGNALASHKAYPAYRGEAHYRDQPRAVSDGGVVTAAGSAPVSFAVEILKSLGLFGPEAEAELQIFAAEHR TRIAIALAQDFADWEPALLAAAARSYLGVEIVHATPDGPVTSGGLKVTPDTSYDALDPVDIDALVIPGGLSWEKGTAADLGGLVKRFRDRDRLVAGICAAASALGGTGVLNDVAHTGNALASHKAYPAYRGEAHYRDQPRAVSDGGVVTAAGSAPVSFAVEILKSLGLFGPEAEAELQIFAAEHR 2ff4-a3-m1-cB_2ff4-a3-m1-cA Mycobacterium tuberculosis EmbR in complex with low affinity phosphopeptide P9WGJ9 P9WGJ9 1.9 X-RAY DIFFRACTION 49 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 373 379 EKRLDFGLLGPLQMTIDGTPVPSGTPKQRAVLAMLVINRNRPVGVDALITALWEEWPPSGARASIHSYVSNLRKLLGGAGIDPRVVLAAAPPGYRLSIPDNTCDLGRFVAEKTAGVHAAAAGRFEQASRHLSAALREWRGPVLDDLRDFQFVEPFATALVEDKVLAHTAKAEAEIACGRASAVIAELEALTFEHPYREPLWTQLITAYYLSDRQSDALGAYRRVKTTLADDLGIDPGPTLRALNERILRQQPLDAKKSAKTTAAGTVTVLDQRTMASGQQAVAYLHDIASGRGYPLQAAATRIGRLHDNDIVLDSANVSRHHAVIVDTGTNYVINDLRSSNGVHVQHERIRSAVTLNDGDHIRICDHEFTFQI EKRLDFGLLGPLQMTIDGTPVPSGTPKQRAVLAMLVINRNRPVGVDALITALWEEWPPSGARASIHSYVSNLRKLLGGAGIDPRVVLAAAPPGYRLSIPDNTCDLGRFVAEKTAGVHAAAAGRFEQASRHLSAALREWRGPVLDDLRDFQFVEPFATALVEDKVLAHTAKAEAEIACGRASAVIAELEALTFEHPYREPLWTQLITAYYLSDRQSDALGAYRRVKTTLADDLGIDPGPTLRALNERILRQQPLDAKKSAKTTAAGTVTVLDQRTMASGQQAVAYLHDIASGRGYPLQAAATRIGRLHDNDIVLDSANVSRHHAVIVDTGTNYVINDLRSSNGVHVQHERIRSAVTLNDGDHIRICDHEFTFQISAGTHG 2ff4-a3-m1-cF_2ff4-a3-m1-cE Mycobacterium tuberculosis EmbR in complex with low affinity phosphopeptide P14737 P14737 1.9 X-RAY DIFFRACTION 11 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 5 7 EVEAD SLEVEAD 2ffc-a1-m1-cA_2ffc-a1-m2-cA Crystal Structure of Plasmodium Vivax Orotidine-Monophosphate-Decarboxyl UMP Bound 1.7 X-RAY DIFFRACTION 174 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 318 318 2guu-a1-m1-cA_2guu-a1-m2-cA NLKIKLQKRRDEVNTCLCIGLDPDEADIKSFMQSEKQNGYQSVKKNLSNSGELFAPQMGGQMLLATPPKEAQEKDEFFYFFNHFCFYIINETKEYALAYKMNFAFYLPYGSLGVDVLKNVFDYLHHLNVPTILDIKMNDIGNTVKHYRKFIFDYLRSDSCTANIYMGTQMLRDICLDEECKRYYSTFVLVKTTNADSHIFQNRLSLDGKEAYVVIAEEVQKMAKQLHLEENGEFVGFVVGANCYDEIKKIRELFPDCYILAPGVGAQKGDLRKMLCNGYSKNYEKVLINVGRAITKSGSPQQAAREYHQQIKEVLAEL NLKIKLQKRRDEVNTCLCIGLDPDEADIKSFMQSEKQNGYQSVKKNLSNSGELFAPQMGGQMLLATPPKEAQEKDEFFYFFNHFCFYIINETKEYALAYKMNFAFYLPYGSLGVDVLKNVFDYLHHLNVPTILDIKMNDIGNTVKHYRKFIFDYLRSDSCTANIYMGTQMLRDICLDEECKRYYSTFVLVKTTNADSHIFQNRLSLDGKEAYVVIAEEVQKMAKQLHLEENGEFVGFVVGANCYDEIKKIRELFPDCYILAPGVGAQKGDLRKMLCNGYSKNYEKVLINVGRAITKSGSPQQAAREYHQQIKEVLAEL 2ffg-a1-m1-cB_2ffg-a1-m1-cA Novel x-ray structure of the YkuJ protein from Bacillus subtilis. Northeast Structural Genomics target SR360. O34588 O34588 2.31 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 77 SQLGIITRLQSLQETAEAANEPQRYFEVNGEKICSVKYFEKNQTFELTVFQKGEKPNTYPFDNIDVSIEIFELLQL SQLGIITRLQSLQETAEAANEPQRYFEVNGEKICSVKYFEKNQTFELTVFQKGEKPNTYPFDNIDVSIEIFELLQLE 2ffh-a6-m4-cC_2ffh-a6-m5-cB THE SIGNAL SEQUENCE BINDING PROTEIN FFH FROM THERMUS AQUATICUS O07347 O07347 3.2 X-RAY DIFFRACTION 12 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 407 407 2ffh-a10-m1-cC_2ffh-a10-m2-cB 2ffh-a4-m1-cB_2ffh-a4-m3-cC 2ffh-a4-m1-cC_2ffh-a4-m2-cB 2ffh-a4-m2-cC_2ffh-a4-m3-cB 2ffh-a6-m1-cC_2ffh-a6-m2-cB MFQQLSARLQEAIGRLRGRGRITEEDLKATLREIRRALMDADVNLEVTRDFVERVREEALGKQVLESLTPAEVILATVYEALKEALGGEARLPVLKDRNLWFLVGLQGSGKTTTAAKLALYYKGKGRRPLLVAADTQRPAAREQLRLLGEKVGVPVLEVMDGESPESIRRRVEEKARLEARDLILVDTAGRLQIDEPLMGELARLKEVLGPDEVLLVLDAMTGQEALSVARAFDEKVGVTGLVLTKLDGDARGGAALSARHVTGKPIYFAGVSEKPEGLEPFYPERLAGRILGMGDVASLAEKVRAAELSLEDFLKQMQNLKRLGPFSEILGLLPGVPQGLKVDEKAIKRLEAIVLSMTPEERKDPRILNGSRRKRIAKGSGTSVQEVNRFIKAFEEMKALMKSLEK MFQQLSARLQEAIGRLRGRGRITEEDLKATLREIRRALMDADVNLEVTRDFVERVREEALGKQVLESLTPAEVILATVYEALKEALGGEARLPVLKDRNLWFLVGLQGSGKTTTAAKLALYYKGKGRRPLLVAADTQRPAAREQLRLLGEKVGVPVLEVMDGESPESIRRRVEEKARLEARDLILVDTAGRLQIDEPLMGELARLKEVLGPDEVLLVLDAMTGQEALSVARAFDEKVGVTGLVLTKLDGDARGGAALSARHVTGKPIYFAGVSEKPEGLEPFYPERLAGRILGMGDVASLAEKVRAAELSLEDFLKQMQNLKRLGPFSEILGLLPGVPQGLKVDEKAIKRLEAIVLSMTPEERKDPRILNGSRRKRIAKGSGTSVQEVNRFIKAFEEMKALMKSLEK 2ffh-a7-m1-cB_2ffh-a7-m1-cC THE SIGNAL SEQUENCE BINDING PROTEIN FFH FROM THERMUS AQUATICUS O07347 O07347 3.2 X-RAY DIFFRACTION 74 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 407 407 2ffh-a4-m1-cA_2ffh-a4-m1-cB 2ffh-a4-m1-cA_2ffh-a4-m1-cC 2ffh-a4-m1-cB_2ffh-a4-m1-cC 2ffh-a4-m2-cA_2ffh-a4-m2-cB 2ffh-a4-m2-cA_2ffh-a4-m2-cC 2ffh-a4-m2-cB_2ffh-a4-m2-cC 2ffh-a4-m3-cA_2ffh-a4-m3-cB 2ffh-a4-m3-cA_2ffh-a4-m3-cC 2ffh-a4-m3-cB_2ffh-a4-m3-cC 2ffh-a5-m1-cA_2ffh-a5-m1-cB 2ffh-a5-m1-cA_2ffh-a5-m1-cC 2ffh-a5-m1-cB_2ffh-a5-m1-cC 2ffh-a5-m4-cA_2ffh-a5-m4-cB 2ffh-a5-m4-cA_2ffh-a5-m4-cC 2ffh-a5-m4-cB_2ffh-a5-m4-cC 2ffh-a7-m1-cA_2ffh-a7-m1-cB 2ffh-a7-m1-cA_2ffh-a7-m1-cC MFQQLSARLQEAIGRLRGRGRITEEDLKATLREIRRALMDADVNLEVTRDFVERVREEALGKQVLESLTPAEVILATVYEALKEALGGEARLPVLKDRNLWFLVGLQGSGKTTTAAKLALYYKGKGRRPLLVAADTQRPAAREQLRLLGEKVGVPVLEVMDGESPESIRRRVEEKARLEARDLILVDTAGRLQIDEPLMGELARLKEVLGPDEVLLVLDAMTGQEALSVARAFDEKVGVTGLVLTKLDGDARGGAALSARHVTGKPIYFAGVSEKPEGLEPFYPERLAGRILGMGDVASLAEKVRAAELSLEDFLKQMQNLKRLGPFSEILGLLPGVPQGLKVDEKAIKRLEAIVLSMTPEERKDPRILNGSRRKRIAKGSGTSVQEVNRFIKAFEEMKALMKSLEK MFQQLSARLQEAIGRLRGRGRITEEDLKATLREIRRALMDADVNLEVTRDFVERVREEALGKQVLESLTPAEVILATVYEALKEALGGEARLPVLKDRNLWFLVGLQGSGKTTTAAKLALYYKGKGRRPLLVAADTQRPAAREQLRLLGEKVGVPVLEVMDGESPESIRRRVEEKARLEARDLILVDTAGRLQIDEPLMGELARLKEVLGPDEVLLVLDAMTGQEALSVARAFDEKVGVTGLVLTKLDGDARGGAALSARHVTGKPIYFAGVSEKPEGLEPFYPERLAGRILGMGDVASLAEKVRAAELSLEDFLKQMQNLKRLGPFSEILGLLPGVPQGLKVDEKAIKRLEAIVLSMTPEERKDPRILNGSRRKRIAKGSGTSVQEVNRFIKAFEEMKALMKSLEK 2ffh-a9-m1-cB_2ffh-a9-m4-cA THE SIGNAL SEQUENCE BINDING PROTEIN FFH FROM THERMUS AQUATICUS O07347 O07347 3.2 X-RAY DIFFRACTION 62 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 407 407 2ffh-a5-m1-cA_2ffh-a5-m4-cB 2ffh-a5-m1-cB_2ffh-a5-m4-cA 2ffh-a5-m1-cC_2ffh-a5-m4-cC 2ffh-a6-m1-cC_2ffh-a6-m4-cC 2ffh-a6-m2-cB_2ffh-a6-m7-cA 2ffh-a6-m5-cB_2ffh-a6-m6-cA 2ffh-a8-m1-cC_2ffh-a8-m4-cC MFQQLSARLQEAIGRLRGRGRITEEDLKATLREIRRALMDADVNLEVTRDFVERVREEALGKQVLESLTPAEVILATVYEALKEALGGEARLPVLKDRNLWFLVGLQGSGKTTTAAKLALYYKGKGRRPLLVAADTQRPAAREQLRLLGEKVGVPVLEVMDGESPESIRRRVEEKARLEARDLILVDTAGRLQIDEPLMGELARLKEVLGPDEVLLVLDAMTGQEALSVARAFDEKVGVTGLVLTKLDGDARGGAALSARHVTGKPIYFAGVSEKPEGLEPFYPERLAGRILGMGDVASLAEKVRAAELSLEDFLKQMQNLKRLGPFSEILGLLPGVPQGLKVDEKAIKRLEAIVLSMTPEERKDPRILNGSRRKRIAKGSGTSVQEVNRFIKAFEEMKALMKSLEK MFQQLSARLQEAIGRLRGRGRITEEDLKATLREIRRALMDADVNLEVTRDFVERVREEALGKQVLESLTPAEVILATVYEALKEALGGEARLPVLKDRNLWFLVGLQGSGKTTTAAKLALYYKGKGRRPLLVAADTQRPAAREQLRLLGEKVGVPVLEVMDGESPESIRRRVEEKARLEARDLILVDTAGRLQIDEPLMGELARLKEVLGPDEVLLVLDAMTGQEALSVARAFDEKVGVTGLVLTKLDGDARGGAALSARHVTGKPIYFAGVSEKPEGLEPFYPERLAGRILGMGDVASLAEKVRAAELSLEDFLKQMQNLKRLGPFSEILGLLPGVPQGLKVDEKAIKRLEAIVLSMTPEERKDPRILNGSRRKRIAKGSGTSVQEVNRFIKAFEEMKALMKSLEK 2ffj-a1-m1-cA_2ffj-a1-m1-cB CRYSTAL STRUCTURE OF a DUF89 family protein (AF1104) FROM ARCHAEOGLOBUS FULGIDUS DSM 4304 AT 2.45 A RESOLUTION O29161 O29161 2.45 X-RAY DIFFRACTION 80 0.992 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 263 267 PSCLLGRVYYEAKLVTDDEDLISQCVDESLKILAENINAHLATRIHRRVYEILGVEDPYAEVKARANEVARQVLPLAKEIVEGSDDPFKTAVIVSIVGNNFDYVVEEEFRDFLKRKVQEGLKINDTERIKELSSGKVVYLTDNAGEIFFDTLLKEIKRRCEKLTAVVRGRPIISDATIEDARLARVDKIADELLTNGKGAIGIIDELPDETRKALEEADLIVAKGANYECLSLKPIAFLLTAKCEPVARDIGVNVGDVAKVVE CPSCLLGRVYYEAKLVTDDEDLISQCVDESLKILAENINAHLATRIHRRVYEILGVEDPYAEVKARANEVARQVLPLAKEIVEGSDDPFKTAVIVSIVGNNFHKVVEEEFRDFLKRKVQEGLKINDTERIKELSSGKVVYLTDNAGEIFFDTLLKEIKRRCEKLTAVVRGRPIISDATIEDARLARVDKIADELLTNGKGAIGIIDELPDETRKALEEADLIVAKGANYECLSDGSLKPIAFLLTAKCEPVARDIGVNVGDVAKVVE 2ffj-a2-m2-cA_2ffj-a2-m1-cB CRYSTAL STRUCTURE OF a DUF89 family protein (AF1104) FROM ARCHAEOGLOBUS FULGIDUS DSM 4304 AT 2.45 A RESOLUTION O29161 O29161 2.45 X-RAY DIFFRACTION 26 0.992 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 263 267 PSCLLGRVYYEAKLVTDDEDLISQCVDESLKILAENINAHLATRIHRRVYEILGVEDPYAEVKARANEVARQVLPLAKEIVEGSDDPFKTAVIVSIVGNNFDYVVEEEFRDFLKRKVQEGLKINDTERIKELSSGKVVYLTDNAGEIFFDTLLKEIKRRCEKLTAVVRGRPIISDATIEDARLARVDKIADELLTNGKGAIGIIDELPDETRKALEEADLIVAKGANYECLSLKPIAFLLTAKCEPVARDIGVNVGDVAKVVE CPSCLLGRVYYEAKLVTDDEDLISQCVDESLKILAENINAHLATRIHRRVYEILGVEDPYAEVKARANEVARQVLPLAKEIVEGSDDPFKTAVIVSIVGNNFHKVVEEEFRDFLKRKVQEGLKINDTERIKELSSGKVVYLTDNAGEIFFDTLLKEIKRRCEKLTAVVRGRPIISDATIEDARLARVDKIADELLTNGKGAIGIIDELPDETRKALEEADLIVAKGANYECLSDGSLKPIAFLLTAKCEPVARDIGVNVGDVAKVVE 2ffl-a5-m2-cB_2ffl-a5-m1-cA Crystal Structure of Dicer from Giardia intestinalis A8BQJ3 A8BQJ3 3.33 X-RAY DIFFRACTION 58 0.997 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 726 732 AMHALGHCCTVVTTRGPSHWLLLLDTHLGTLPGFKVSAGRGLPAAEVYFEAGPRVSLSRTDATIVAVYQSILFQLLGPTFPASWTEIGATMPHNEYTFPRFISNPPQFATLAFLPLLSPTSPLDLRALMVTAQLMCDAKRLSDELSASLHGRMVATPEISWSLYVVLGIDSTQTSLSYFTRANESITYMRYYATAHNIHLRAADLPLVAAVRLDDLKDHQIPAPGSDDLAPKLRFLPPELCLLLPDEFDLIRVQALQFLPEIAKHICDIQNTICALDKSFPDCGRIGGERYFAITAGLRLDQGRGRGLAGWRTPFGPFGVSHTDVFQRLELLGDAVLGFIVTARLLCLFPDASVGTLVELKMELVRNEALNYLVQTLGLPQLAENNLVAKSKTWADMYEEIVGSIFTGPNGIYGCEEFLAKTLMSPEHSKTACPDAVTKASKRVCMGEAGAHEFRSLVDYACEQGISVFCSSRVSTMFLERLRDIPAEDMLDWYRLGIQFSHRSGLSGVSVIDIMTHLARGLWLGSPGFYVEPPTIPVLYIYHRSVQCPVLYGSLTTGPVASKVLALYEKILAYESSGGSKHIAAQTVSRSLAVPIPSGTIPFLIRLLQIALTPHVYQKLELLGDAFLKCSLALHLHALHPTLTEGALTRMRQSAETNSVLGRLTKRFPSVVSEVIIESHPKIQPDSKVYGDTFEAILAAILLACGEEAAGAFVREHVLPQVVADA GAMHALGHCCTVVTTRGPSHWLLLLDTHLGTLPGFKVSAGRGLPAAEVYFEAGPRVSLSRTDATIVAVYQSILFQLLGPTFPASWTEIGATMPHNEYTFPRFISNPPQFATLAFLPLLSPTSPLDLRALMVTAQLMCDAKRLSDELSASLHGRMVATPEISWSLYVVLGIDSTQTSLSYFTRANESITYMRYYATAHNIHLRAADLPLVAAVRLDDLKDHQIPAPGSDDLAPKLRFLPPELCLLLPDEFDLIRVQALQFLPEIAKHICDIQNTICALDKSFPDCGRIGGERYFAITAGLRLDQGRGRGLAGWRTPFGPFGVSHTDVFQRLELLGDAVLGFIVTARLLCLFPDASVGTLVELKMELVRNEALNYLVQTLGLPQLAEFSNNLKSKTWADMYEEIVGSIFTGPNGIYGCEEFLAKTLMSPEHSKTACPDAVTKASKRVCMGEAGAHEFRSLVDYACEQGISVFCSSRVSTMFLERLRDIPAEDMLDWYRLGIQFSHRSGLSGPGGVVSVIDIMTHLARGLWLGSPGFYVEQPPTIPVLYIYHRSVQCPVLYGSLTTGPVASKVLALYEKILAYESSGGSKHIAAQTVSRSLAVPIPSGTIPFLIRLLQIALTPHVYQKLELLGDAFLKCSLALHLHALHPTLTEGALTRMRQSAETNSVLGRLTKRFPSVVSEVIIESHPKIQPDSKVYGDTFEAILAAILLACGEEAAGAFVREHVLPQVVADA 2ffs-a1-m1-cB_2ffs-a1-m1-cA Structure of PR10-allergen-like protein PA1206 from Pseudomonas aeruginosa PAO1 Q9I4D2 Q9I4D2 2.5 X-RAY DIFFRACTION 107 0.993 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 142 143 QFEHLVQVNDRTDLPVLDRLQLWEGLVCRAREPQYFVVGLERFEILVDDGDRLHRRLYLPGLVVEDEVVLKAPDSAHYSIKPSAEVAGGSLDTIEEPEPGSLFVRFAYCTRYLQPDELPYDAFVKQAYIADVETIATIRDRF QFEHLVQVNDRTLPVLDRLQLWEGLVCRAREPQYFVVGLERFEILVDDGDRLHRRLYLPGLVVEDEVVLKAPDSAHYSIKPSAEVAGGSLDTIEEPEPGSLFVRFAYCTRYLQPDELPYDAFVKQAYIADVETIATIRDRFGA 2ffv-a3-m1-cB_2ffv-a3-m2-cB Human ppGalNAcT-2 complexed with manganese and UDP Q10471 Q10471 2.75 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 481 481 2ffv-a3-m1-cA_2ffv-a3-m2-cA LKVRWPDFNQEAYVGGFNQVESDKLRMDRAIPDTRHDQCQRKQWRVDLPATSVVITFHNEARSALLRTVVSVLKKSPPHLIKEIILVDDYSNDPEDGALLGKIEKVRVLRNDRREGLMRSRVRGADAAQAKVLTFLDSHCECNEHWLEPLLERVAEDRTRVVSPIIDVINMDNFQYVGASADLKGGFDWNLVFKWDYMTPEQRRSRQGNPVAPIKTPMIAGGLFVMDKFYFEELGKYDMMMDVWGGENLEISFRVWQCGGSLEIIPCSRVGHVFRKQHPYTFPGGSGTVFARNTRRAAEVWMDEYKNFYYAAVPSARNVPYGNIQSRLELRKKLSCKPFKWYLENVYPELRVPDHQDIAFGALQQGTNCLDTLGHFADGVVGVYECHNGNQEWALTKEKSVKHMDLCLTVVDRAPGSLIKLQGCRENDSRQKWEQIEGNSKLRHVGSNLCLDSRTAKSGGLSVEVCGPALSQQWKFTLNLQ LKVRWPDFNQEAYVGGFNQVESDKLRMDRAIPDTRHDQCQRKQWRVDLPATSVVITFHNEARSALLRTVVSVLKKSPPHLIKEIILVDDYSNDPEDGALLGKIEKVRVLRNDRREGLMRSRVRGADAAQAKVLTFLDSHCECNEHWLEPLLERVAEDRTRVVSPIIDVINMDNFQYVGASADLKGGFDWNLVFKWDYMTPEQRRSRQGNPVAPIKTPMIAGGLFVMDKFYFEELGKYDMMMDVWGGENLEISFRVWQCGGSLEIIPCSRVGHVFRKQHPYTFPGGSGTVFARNTRRAAEVWMDEYKNFYYAAVPSARNVPYGNIQSRLELRKKLSCKPFKWYLENVYPELRVPDHQDIAFGALQQGTNCLDTLGHFADGVVGVYECHNGNQEWALTKEKSVKHMDLCLTVVDRAPGSLIKLQGCRENDSRQKWEQIEGNSKLRHVGSNLCLDSRTAKSGGLSVEVCGPALSQQWKFTLNLQ 2ffv-a3-m2-cB_2ffv-a3-m1-cA Human ppGalNAcT-2 complexed with manganese and UDP Q10471 Q10471 2.75 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 481 489 2ffv-a3-m1-cB_2ffv-a3-m2-cA LKVRWPDFNQEAYVGGFNQVESDKLRMDRAIPDTRHDQCQRKQWRVDLPATSVVITFHNEARSALLRTVVSVLKKSPPHLIKEIILVDDYSNDPEDGALLGKIEKVRVLRNDRREGLMRSRVRGADAAQAKVLTFLDSHCECNEHWLEPLLERVAEDRTRVVSPIIDVINMDNFQYVGASADLKGGFDWNLVFKWDYMTPEQRRSRQGNPVAPIKTPMIAGGLFVMDKFYFEELGKYDMMMDVWGGENLEISFRVWQCGGSLEIIPCSRVGHVFRKQHPYTFPGGSGTVFARNTRRAAEVWMDEYKNFYYAAVPSARNVPYGNIQSRLELRKKLSCKPFKWYLENVYPELRVPDHQDIAFGALQQGTNCLDTLGHFADGVVGVYECHNGNQEWALTKEKSVKHMDLCLTVVDRAPGSLIKLQGCRENDSRQKWEQIEGNSKLRHVGSNLCLDSRTAKSGGLSVEVCGPALSQQWKFTLNLQ DALKVRWPDFNQEAYVGGPYARNKFNQVESDKLRMDRAIPDTRHDQCQRKQWRVDLPATSVVITFHNEARSALLRTVVSVLKKSPPHLIKEIILVDDYSNDPEDGALLGKIEKVRVLRNDRREGLMRSRVRGADAAQAKVLTFLDSHCECNEHWLEPLLERVAEDRTRVVSPIIDVINMDNFQYVGASADLKGGFDWNLVFKWDYMTPEQRRSRQGNPVAPIKTPMIAGGLFVMDKFYFEELGKYDMMMDVWGGENLEISFRVWQCGGSLEIIPCSRVGHVFRKQHPYTFPGGSGTVFARNTRRAAEVWMDEYKNFYYAAVPSARNVPYGNIQSRLELRKKLSCKPFKWYLENVYPELRVPDHQDIAFGALQQGTNCLDTLGHFADGVVGVYECHNGNQEWALTKEKSVKHMDLCLTVVDRAPGSLIKLQGCRENDSRQKWEQIEGNSKLRHVGSNLCLDSRTAKSGGLSVEVCGPALSQQWKFTLNLQ 2fg8-a1-m3-cE_2fg8-a1-m3-cH Structure of Human Ferritin L Chain P02792 P02792 2.5 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 2ffx-a1-m10-cJ_2ffx-a1-m3-cJ 2ffx-a1-m10-cJ_2ffx-a1-m8-cJ 2ffx-a1-m11-cJ_2ffx-a1-m4-cJ 2ffx-a1-m11-cJ_2ffx-a1-m6-cJ 2ffx-a1-m12-cJ_2ffx-a1-m2-cJ 2ffx-a1-m12-cJ_2ffx-a1-m7-cJ 2ffx-a1-m13-cJ_2ffx-a1-m17-cJ 2ffx-a1-m13-cJ_2ffx-a1-m21-cJ 2ffx-a1-m14-cJ_2ffx-a1-m19-cJ 2ffx-a1-m14-cJ_2ffx-a1-m24-cJ 2ffx-a1-m15-cJ_2ffx-a1-m20-cJ 2ffx-a1-m15-cJ_2ffx-a1-m22-cJ 2ffx-a1-m16-cJ_2ffx-a1-m18-cJ 2ffx-a1-m16-cJ_2ffx-a1-m23-cJ 2ffx-a1-m17-cJ_2ffx-a1-m21-cJ 2ffx-a1-m18-cJ_2ffx-a1-m23-cJ 2ffx-a1-m19-cJ_2ffx-a1-m24-cJ 2ffx-a1-m1-cJ_2ffx-a1-m5-cJ 2ffx-a1-m1-cJ_2ffx-a1-m9-cJ 2ffx-a1-m20-cJ_2ffx-a1-m22-cJ 2ffx-a1-m2-cJ_2ffx-a1-m7-cJ 2ffx-a1-m3-cJ_2ffx-a1-m8-cJ 2ffx-a1-m4-cJ_2ffx-a1-m6-cJ 2ffx-a1-m5-cJ_2ffx-a1-m9-cJ 2fg4-a1-m10-cA_2fg4-a1-m3-cA 2fg4-a1-m10-cA_2fg4-a1-m8-cA 2fg4-a1-m11-cA_2fg4-a1-m4-cA 2fg4-a1-m11-cA_2fg4-a1-m6-cA 2fg4-a1-m12-cA_2fg4-a1-m2-cA 2fg4-a1-m12-cA_2fg4-a1-m7-cA 2fg4-a1-m13-cA_2fg4-a1-m17-cA 2fg4-a1-m13-cA_2fg4-a1-m21-cA 2fg4-a1-m14-cA_2fg4-a1-m19-cA 2fg4-a1-m14-cA_2fg4-a1-m24-cA 2fg4-a1-m15-cA_2fg4-a1-m20-cA 2fg4-a1-m15-cA_2fg4-a1-m22-cA 2fg4-a1-m16-cA_2fg4-a1-m18-cA 2fg4-a1-m16-cA_2fg4-a1-m23-cA 2fg4-a1-m17-cA_2fg4-a1-m21-cA 2fg4-a1-m18-cA_2fg4-a1-m23-cA 2fg4-a1-m19-cA_2fg4-a1-m24-cA 2fg4-a1-m1-cA_2fg4-a1-m5-cA 2fg4-a1-m1-cA_2fg4-a1-m9-cA 2fg4-a1-m20-cA_2fg4-a1-m22-cA 2fg4-a1-m2-cA_2fg4-a1-m7-cA 2fg4-a1-m3-cA_2fg4-a1-m8-cA 2fg4-a1-m4-cA_2fg4-a1-m6-cA 2fg4-a1-m5-cA_2fg4-a1-m9-cA 2fg8-a1-m1-cA_2fg8-a1-m1-cC 2fg8-a1-m1-cA_2fg8-a1-m3-cB 2fg8-a1-m1-cB_2fg8-a1-m2-cA 2fg8-a1-m1-cB_2fg8-a1-m2-cC 2fg8-a1-m1-cC_2fg8-a1-m3-cB 2fg8-a1-m1-cD_2fg8-a1-m1-cE 2fg8-a1-m1-cD_2fg8-a1-m1-cH 2fg8-a1-m1-cE_2fg8-a1-m1-cH 2fg8-a1-m1-cF_2fg8-a1-m2-cF 2fg8-a1-m1-cF_2fg8-a1-m3-cF 2fg8-a1-m1-cG_2fg8-a1-m2-cG 2fg8-a1-m1-cG_2fg8-a1-m3-cG 2fg8-a1-m2-cA_2fg8-a1-m2-cC 2fg8-a1-m2-cB_2fg8-a1-m3-cA 2fg8-a1-m2-cB_2fg8-a1-m3-cC 2fg8-a1-m2-cD_2fg8-a1-m2-cE 2fg8-a1-m2-cD_2fg8-a1-m2-cH 2fg8-a1-m2-cE_2fg8-a1-m2-cH 2fg8-a1-m2-cF_2fg8-a1-m3-cF 2fg8-a1-m2-cG_2fg8-a1-m3-cG 2fg8-a1-m3-cA_2fg8-a1-m3-cC 2fg8-a1-m3-cD_2fg8-a1-m3-cE 2fg8-a1-m3-cD_2fg8-a1-m3-cH 3kxu-a1-m10-cA_3kxu-a1-m7-cA 3kxu-a1-m11-cA_3kxu-a1-m2-cA 3kxu-a1-m11-cA_3kxu-a1-m5-cA 3kxu-a1-m12-cA_3kxu-a1-m4-cA 3kxu-a1-m12-cA_3kxu-a1-m8-cA 3kxu-a1-m13-cA_3kxu-a1-m19-cA 3kxu-a1-m13-cA_3kxu-a1-m22-cA 3kxu-a1-m14-cA_3kxu-a1-m17-cA 3kxu-a1-m14-cA_3kxu-a1-m23-cA 3kxu-a1-m15-cA_3kxu-a1-m18-cA 3kxu-a1-m15-cA_3kxu-a1-m21-cA 3kxu-a1-m16-cA_3kxu-a1-m20-cA 3kxu-a1-m16-cA_3kxu-a1-m24-cA 3kxu-a1-m17-cA_3kxu-a1-m23-cA 3kxu-a1-m18-cA_3kxu-a1-m21-cA 3kxu-a1-m19-cA_3kxu-a1-m22-cA 3kxu-a1-m1-cA_3kxu-a1-m10-cA 3kxu-a1-m1-cA_3kxu-a1-m7-cA 3kxu-a1-m20-cA_3kxu-a1-m24-cA 3kxu-a1-m2-cA_3kxu-a1-m5-cA 3kxu-a1-m3-cA_3kxu-a1-m6-cA 3kxu-a1-m3-cA_3kxu-a1-m9-cA 3kxu-a1-m4-cA_3kxu-a1-m8-cA 3kxu-a1-m6-cA_3kxu-a1-m9-cA 4v6b-a1-m1-cAA_4v6b-a1-m1-cAI 4v6b-a1-m1-cAA_4v6b-a1-m1-cAQ 4v6b-a1-m1-cAF_4v6b-a1-m1-cAN 4v6b-a1-m1-cAF_4v6b-a1-m1-cAS 4v6b-a1-m1-cAG_4v6b-a1-m1-cAO 4v6b-a1-m1-cAH_4v6b-a1-m1-cAU 4v6b-a1-m1-cAI_4v6b-a1-m1-cAQ 4v6b-a1-m1-cAJ_4v6b-a1-m1-cAB 4v6b-a1-m1-cAJ_4v6b-a1-m1-cAX 4v6b-a1-m1-cAK_4v6b-a1-m1-cAC 4v6b-a1-m1-cAK_4v6b-a1-m1-cAV 4v6b-a1-m1-cAL_4v6b-a1-m1-cAD 4v6b-a1-m1-cAL_4v6b-a1-m1-cAW 4v6b-a1-m1-cAM_4v6b-a1-m1-cAE 4v6b-a1-m1-cAM_4v6b-a1-m1-cAR 4v6b-a1-m1-cAP_4v6b-a1-m1-cAH 4v6b-a1-m1-cAP_4v6b-a1-m1-cAU 4v6b-a1-m1-cAR_4v6b-a1-m1-cAE 4v6b-a1-m1-cAS_4v6b-a1-m1-cAN 4v6b-a1-m1-cAT_4v6b-a1-m1-cAG 4v6b-a1-m1-cAT_4v6b-a1-m1-cAO 4v6b-a1-m1-cAV_4v6b-a1-m1-cAC 4v6b-a1-m1-cAW_4v6b-a1-m1-cAD 4v6b-a1-m1-cAX_4v6b-a1-m1-cAB 4v6b-a2-m1-cAb_4v6b-a2-m1-cAj 4v6b-a2-m1-cAc_4v6b-a2-m1-cAk 4v6b-a2-m1-cAc_4v6b-a2-m1-cAv 4v6b-a2-m1-cAd_4v6b-a2-m1-cAl 4v6b-a2-m1-cAe_4v6b-a2-m1-cAm 4v6b-a2-m1-cAe_4v6b-a2-m1-cAr 4v6b-a2-m1-cAf_4v6b-a2-m1-cAn 4v6b-a2-m1-cAf_4v6b-a2-m1-cAs 4v6b-a2-m1-cAg_4v6b-a2-m1-cAo 4v6b-a2-m1-cAg_4v6b-a2-m1-cAt 4v6b-a2-m1-cAh_4v6b-a2-m1-cAp 4v6b-a2-m1-cAi_4v6b-a2-m1-cAa 4v6b-a2-m1-cAi_4v6b-a2-m1-cAq 4v6b-a2-m1-cAk_4v6b-a2-m1-cAv 4v6b-a2-m1-cAm_4v6b-a2-m1-cAr 4v6b-a2-m1-cAn_4v6b-a2-m1-cAs 4v6b-a2-m1-cAq_4v6b-a2-m1-cAa 4v6b-a2-m1-cAt_4v6b-a2-m1-cAo 4v6b-a2-m1-cAu_4v6b-a2-m1-cAh 4v6b-a2-m1-cAu_4v6b-a2-m1-cAp 4v6b-a2-m1-cAw_4v6b-a2-m1-cAd 4v6b-a2-m1-cAw_4v6b-a2-m1-cAl 4v6b-a2-m1-cAx_4v6b-a2-m1-cAb 4v6b-a2-m1-cAx_4v6b-a2-m1-cAj 4v6b-a3-m1-cBB_4v6b-a3-m1-cBJ 4v6b-a3-m1-cBB_4v6b-a3-m1-cBX 4v6b-a3-m1-cBC_4v6b-a3-m1-cBK 4v6b-a3-m1-cBC_4v6b-a3-m1-cBV 4v6b-a3-m1-cBD_4v6b-a3-m1-cBW 4v6b-a3-m1-cBE_4v6b-a3-m1-cBR 4v6b-a3-m1-cBF_4v6b-a3-m1-cBN 4v6b-a3-m1-cBF_4v6b-a3-m1-cBS 4v6b-a3-m1-cBG_4v6b-a3-m1-cBO 4v6b-a3-m1-cBG_4v6b-a3-m1-cBT 4v6b-a3-m1-cBH_4v6b-a3-m1-cBP 4v6b-a3-m1-cBH_4v6b-a3-m1-cBU 4v6b-a3-m1-cBI_4v6b-a3-m1-cBA 4v6b-a3-m1-cBI_4v6b-a3-m1-cBQ 4v6b-a3-m1-cBJ_4v6b-a3-m1-cBX 4v6b-a3-m1-cBK_4v6b-a3-m1-cBV 4v6b-a3-m1-cBL_4v6b-a3-m1-cBD 4v6b-a3-m1-cBL_4v6b-a3-m1-cBW 4v6b-a3-m1-cBM_4v6b-a3-m1-cBE 4v6b-a3-m1-cBM_4v6b-a3-m1-cBR 4v6b-a3-m1-cBN_4v6b-a3-m1-cBS 4v6b-a3-m1-cBP_4v6b-a3-m1-cBU 4v6b-a3-m1-cBQ_4v6b-a3-m1-cBA 4v6b-a3-m1-cBT_4v6b-a3-m1-cBO 4v6b-a4-m1-cBa_4v6b-a4-m1-cBq 4v6b-a4-m1-cBf_4v6b-a4-m1-cBn 4v6b-a4-m1-cBg_4v6b-a4-m1-cBo 4v6b-a4-m1-cBg_4v6b-a4-m1-cBt 4v6b-a4-m1-cBh_4v6b-a4-m1-cBp 4v6b-a4-m1-cBh_4v6b-a4-m1-cBu 4v6b-a4-m1-cBi_4v6b-a4-m1-cBa 4v6b-a4-m1-cBi_4v6b-a4-m1-cBq 4v6b-a4-m1-cBj_4v6b-a4-m1-cBb 4v6b-a4-m1-cBj_4v6b-a4-m1-cBx 4v6b-a4-m1-cBk_4v6b-a4-m1-cBc 4v6b-a4-m1-cBk_4v6b-a4-m1-cBv 4v6b-a4-m1-cBl_4v6b-a4-m1-cBd 4v6b-a4-m1-cBl_4v6b-a4-m1-cBw 4v6b-a4-m1-cBm_4v6b-a4-m1-cBe 4v6b-a4-m1-cBm_4v6b-a4-m1-cBr 4v6b-a4-m1-cBo_4v6b-a4-m1-cBt 4v6b-a4-m1-cBp_4v6b-a4-m1-cBu 4v6b-a4-m1-cBr_4v6b-a4-m1-cBe 4v6b-a4-m1-cBs_4v6b-a4-m1-cBf 4v6b-a4-m1-cBs_4v6b-a4-m1-cBn 4v6b-a4-m1-cBv_4v6b-a4-m1-cBc 4v6b-a4-m1-cBw_4v6b-a4-m1-cBd 4v6b-a4-m1-cBx_4v6b-a4-m1-cBb 4v6b-a5-m1-cCA_4v6b-a5-m1-cCI 4v6b-a5-m1-cCA_4v6b-a5-m1-cCQ 4v6b-a5-m1-cCB_4v6b-a5-m1-cCJ 4v6b-a5-m1-cCB_4v6b-a5-m1-cCX 4v6b-a5-m1-cCC_4v6b-a5-m1-cCK 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6wx6-a1-m1-cC_6wx6-a1-m1-cG 6wx6-a1-m1-cC_6wx6-a1-m1-cK 6wx6-a1-m1-cD_6wx6-a1-m1-cE 6wx6-a1-m1-cD_6wx6-a1-m1-cJ 6wx6-a1-m1-cE_6wx6-a1-m1-cJ 6wx6-a1-m1-cF_6wx6-a1-m1-cL 6wx6-a1-m1-cG_6wx6-a1-m1-cK 6wx6-a1-m1-cH_6wx6-a1-m1-cI 6wx6-a1-m1-cM_6wx6-a1-m1-cR 6wx6-a1-m1-cM_6wx6-a1-m1-cX 6wx6-a1-m1-cN_6wx6-a1-m1-cT 6wx6-a1-m1-cN_6wx6-a1-m1-cU 6wx6-a1-m1-cO_6wx6-a1-m1-cS 6wx6-a1-m1-cO_6wx6-a1-m1-cW 6wx6-a1-m1-cP_6wx6-a1-m1-cQ 6wx6-a1-m1-cP_6wx6-a1-m1-cV 6wx6-a1-m1-cQ_6wx6-a1-m1-cV 6wx6-a1-m1-cR_6wx6-a1-m1-cX 6wx6-a1-m1-cS_6wx6-a1-m1-cW 6wx6-a1-m1-cT_6wx6-a1-m1-cU SSQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLGGPEAGLGEYLFERLTLKHD SSQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLGGPEAGLGEYLFERLTLKHD 2fg8-a1-m3-cF_2fg8-a1-m3-cH Structure of Human Ferritin L Chain P02792 P02792 2.5 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 2ffx-a1-m10-cJ_2ffx-a1-m14-cJ 2ffx-a1-m10-cJ_2ffx-a1-m16-cJ 2ffx-a1-m11-cJ_2ffx-a1-m13-cJ 2ffx-a1-m11-cJ_2ffx-a1-m15-cJ 2ffx-a1-m12-cJ_2ffx-a1-m14-cJ 2ffx-a1-m12-cJ_2ffx-a1-m16-cJ 2ffx-a1-m13-cJ_2ffx-a1-m9-cJ 2ffx-a1-m15-cJ_2ffx-a1-m9-cJ 2ffx-a1-m17-cJ_2ffx-a1-m6-cJ 2ffx-a1-m17-cJ_2ffx-a1-m8-cJ 2ffx-a1-m18-cJ_2ffx-a1-m5-cJ 2ffx-a1-m18-cJ_2ffx-a1-m7-cJ 2ffx-a1-m19-cJ_2ffx-a1-m6-cJ 2ffx-a1-m19-cJ_2ffx-a1-m8-cJ 2ffx-a1-m1-cJ_2ffx-a1-m21-cJ 2ffx-a1-m1-cJ_2ffx-a1-m23-cJ 2ffx-a1-m20-cJ_2ffx-a1-m5-cJ 2ffx-a1-m20-cJ_2ffx-a1-m7-cJ 2ffx-a1-m21-cJ_2ffx-a1-m3-cJ 2ffx-a1-m22-cJ_2ffx-a1-m4-cJ 2ffx-a1-m23-cJ_2ffx-a1-m3-cJ 2ffx-a1-m24-cJ_2ffx-a1-m4-cJ 2ffx-a1-m2-cJ_2ffx-a1-m22-cJ 2ffx-a1-m2-cJ_2ffx-a1-m24-cJ 2fg4-a1-m10-cA_2fg4-a1-m14-cA 2fg4-a1-m10-cA_2fg4-a1-m16-cA 2fg4-a1-m11-cA_2fg4-a1-m13-cA 2fg4-a1-m11-cA_2fg4-a1-m15-cA 2fg4-a1-m12-cA_2fg4-a1-m14-cA 2fg4-a1-m12-cA_2fg4-a1-m16-cA 2fg4-a1-m13-cA_2fg4-a1-m9-cA 2fg4-a1-m15-cA_2fg4-a1-m9-cA 2fg4-a1-m17-cA_2fg4-a1-m6-cA 2fg4-a1-m17-cA_2fg4-a1-m8-cA 2fg4-a1-m18-cA_2fg4-a1-m5-cA 2fg4-a1-m18-cA_2fg4-a1-m7-cA 2fg4-a1-m19-cA_2fg4-a1-m6-cA 2fg4-a1-m19-cA_2fg4-a1-m8-cA 2fg4-a1-m1-cA_2fg4-a1-m21-cA 2fg4-a1-m1-cA_2fg4-a1-m23-cA 2fg4-a1-m20-cA_2fg4-a1-m5-cA 2fg4-a1-m20-cA_2fg4-a1-m7-cA 2fg4-a1-m21-cA_2fg4-a1-m3-cA 2fg4-a1-m22-cA_2fg4-a1-m4-cA 2fg4-a1-m23-cA_2fg4-a1-m3-cA 2fg4-a1-m24-cA_2fg4-a1-m4-cA 2fg4-a1-m2-cA_2fg4-a1-m22-cA 2fg4-a1-m2-cA_2fg4-a1-m24-cA 2fg8-a1-m1-cA_2fg8-a1-m1-cE 2fg8-a1-m1-cA_2fg8-a1-m3-cH 2fg8-a1-m1-cB_2fg8-a1-m1-cD 2fg8-a1-m1-cB_2fg8-a1-m1-cG 2fg8-a1-m1-cC_2fg8-a1-m1-cD 2fg8-a1-m1-cC_2fg8-a1-m1-cG 2fg8-a1-m1-cE_2fg8-a1-m3-cF 2fg8-a1-m1-cF_2fg8-a1-m1-cH 2fg8-a1-m1-cF_2fg8-a1-m2-cE 2fg8-a1-m1-cH_2fg8-a1-m2-cA 2fg8-a1-m2-cA_2fg8-a1-m2-cE 2fg8-a1-m2-cB_2fg8-a1-m2-cD 2fg8-a1-m2-cB_2fg8-a1-m2-cG 2fg8-a1-m2-cC_2fg8-a1-m2-cD 2fg8-a1-m2-cC_2fg8-a1-m2-cG 2fg8-a1-m2-cF_2fg8-a1-m2-cH 2fg8-a1-m2-cF_2fg8-a1-m3-cE 2fg8-a1-m2-cH_2fg8-a1-m3-cA 2fg8-a1-m3-cA_2fg8-a1-m3-cE 2fg8-a1-m3-cB_2fg8-a1-m3-cD 2fg8-a1-m3-cB_2fg8-a1-m3-cG 2fg8-a1-m3-cC_2fg8-a1-m3-cD 2fg8-a1-m3-cC_2fg8-a1-m3-cG 3kxu-a1-m10-cA_3kxu-a1-m17-cA 3kxu-a1-m10-cA_3kxu-a1-m18-cA 3kxu-a1-m11-cA_3kxu-a1-m19-cA 3kxu-a1-m11-cA_3kxu-a1-m20-cA 3kxu-a1-m12-cA_3kxu-a1-m19-cA 3kxu-a1-m12-cA_3kxu-a1-m20-cA 3kxu-a1-m13-cA_3kxu-a1-m3-cA 3kxu-a1-m13-cA_3kxu-a1-m4-cA 3kxu-a1-m14-cA_3kxu-a1-m3-cA 3kxu-a1-m14-cA_3kxu-a1-m4-cA 3kxu-a1-m15-cA_3kxu-a1-m2-cA 3kxu-a1-m16-cA_3kxu-a1-m2-cA 3kxu-a1-m17-cA_3kxu-a1-m9-cA 3kxu-a1-m18-cA_3kxu-a1-m9-cA 3kxu-a1-m1-cA_3kxu-a1-m15-cA 3kxu-a1-m1-cA_3kxu-a1-m16-cA 3kxu-a1-m21-cA_3kxu-a1-m5-cA 3kxu-a1-m21-cA_3kxu-a1-m6-cA 3kxu-a1-m22-cA_3kxu-a1-m5-cA 3kxu-a1-m22-cA_3kxu-a1-m6-cA 3kxu-a1-m23-cA_3kxu-a1-m7-cA 3kxu-a1-m23-cA_3kxu-a1-m8-cA 3kxu-a1-m24-cA_3kxu-a1-m7-cA 3kxu-a1-m24-cA_3kxu-a1-m8-cA 4v6b-a1-m1-cAA_4v6b-a1-m1-cAS 4v6b-a1-m1-cAA_4v6b-a1-m1-cAX 4v6b-a1-m1-cAD_4v6b-a1-m1-cAQ 4v6b-a1-m1-cAD_4v6b-a1-m1-cAR 4v6b-a1-m1-cAF_4v6b-a1-m1-cAQ 4v6b-a1-m1-cAF_4v6b-a1-m1-cAR 4v6b-a1-m1-cAG_4v6b-a1-m1-cAS 4v6b-a1-m1-cAG_4v6b-a1-m1-cAX 4v6b-a1-m1-cAH_4v6b-a1-m1-cAV 4v6b-a1-m1-cAJ_4v6b-a1-m1-cAI 4v6b-a1-m1-cAJ_4v6b-a1-m1-cAK 4v6b-a1-m1-cAK_4v6b-a1-m1-cAL 4v6b-a1-m1-cAL_4v6b-a1-m1-cAI 4v6b-a1-m1-cAM_4v6b-a1-m1-cAN 4v6b-a1-m1-cAN_4v6b-a1-m1-cAO 4v6b-a1-m1-cAP_4v6b-a1-m1-cAM 4v6b-a1-m1-cAP_4v6b-a1-m1-cAO 4v6b-a1-m1-cAT_4v6b-a1-m1-cAB 4v6b-a1-m1-cAT_4v6b-a1-m1-cAH 4v6b-a1-m1-cAU_4v6b-a1-m1-cAC 4v6b-a1-m1-cAU_4v6b-a1-m1-cAE 4v6b-a1-m1-cAV_4v6b-a1-m1-cAB 4v6b-a1-m1-cAW_4v6b-a1-m1-cAC 4v6b-a1-m1-cAW_4v6b-a1-m1-cAE 4v6b-a2-m1-cAa_4v6b-a2-m1-cAs 4v6b-a2-m1-cAb_4v6b-a2-m1-cAv 4v6b-a2-m1-cAc_4v6b-a2-m1-cAu 4v6b-a2-m1-cAc_4v6b-a2-m1-cAw 4v6b-a2-m1-cAd_4v6b-a2-m1-cAr 4v6b-a2-m1-cAf_4v6b-a2-m1-cAr 4v6b-a2-m1-cAg_4v6b-a2-m1-cAs 4v6b-a2-m1-cAg_4v6b-a2-m1-cAx 4v6b-a2-m1-cAh_4v6b-a2-m1-cAv 4v6b-a2-m1-cAi_4v6b-a2-m1-cAj 4v6b-a2-m1-cAi_4v6b-a2-m1-cAl 4v6b-a2-m1-cAj_4v6b-a2-m1-cAk 4v6b-a2-m1-cAk_4v6b-a2-m1-cAl 4v6b-a2-m1-cAm_4v6b-a2-m1-cAp 4v6b-a2-m1-cAn_4v6b-a2-m1-cAm 4v6b-a2-m1-cAn_4v6b-a2-m1-cAo 4v6b-a2-m1-cAo_4v6b-a2-m1-cAp 4v6b-a2-m1-cAq_4v6b-a2-m1-cAd 4v6b-a2-m1-cAq_4v6b-a2-m1-cAf 4v6b-a2-m1-cAt_4v6b-a2-m1-cAb 4v6b-a2-m1-cAt_4v6b-a2-m1-cAh 4v6b-a2-m1-cAu_4v6b-a2-m1-cAe 4v6b-a2-m1-cAw_4v6b-a2-m1-cAe 4v6b-a2-m1-cAx_4v6b-a2-m1-cAa 4v6b-a3-m1-cBB_4v6b-a3-m1-cBT 4v6b-a3-m1-cBC_4v6b-a3-m1-cBU 4v6b-a3-m1-cBC_4v6b-a3-m1-cBW 4v6b-a3-m1-cBD_4v6b-a3-m1-cBQ 4v6b-a3-m1-cBD_4v6b-a3-m1-cBR 4v6b-a3-m1-cBE_4v6b-a3-m1-cBU 4v6b-a3-m1-cBE_4v6b-a3-m1-cBW 4v6b-a3-m1-cBF_4v6b-a3-m1-cBQ 4v6b-a3-m1-cBF_4v6b-a3-m1-cBR 4v6b-a3-m1-cBG_4v6b-a3-m1-cBS 4v6b-a3-m1-cBG_4v6b-a3-m1-cBX 4v6b-a3-m1-cBH_4v6b-a3-m1-cBT 4v6b-a3-m1-cBH_4v6b-a3-m1-cBV 4v6b-a3-m1-cBI_4v6b-a3-m1-cBJ 4v6b-a3-m1-cBI_4v6b-a3-m1-cBL 4v6b-a3-m1-cBK_4v6b-a3-m1-cBJ 4v6b-a3-m1-cBL_4v6b-a3-m1-cBK 4v6b-a3-m1-cBM_4v6b-a3-m1-cBN 4v6b-a3-m1-cBM_4v6b-a3-m1-cBP 4v6b-a3-m1-cBN_4v6b-a3-m1-cBO 4v6b-a3-m1-cBP_4v6b-a3-m1-cBO 4v6b-a3-m1-cBS_4v6b-a3-m1-cBA 4v6b-a3-m1-cBV_4v6b-a3-m1-cBB 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6wx6-a1-m1-cE_6wx6-a1-m1-cP 6wx6-a1-m1-cF_6wx6-a1-m1-cN 6wx6-a1-m1-cF_6wx6-a1-m1-cO 6wx6-a1-m1-cG_6wx6-a1-m1-cN 6wx6-a1-m1-cG_6wx6-a1-m1-cO 6wx6-a1-m1-cH_6wx6-a1-m1-cM 6wx6-a1-m1-cH_6wx6-a1-m1-cP 6wx6-a1-m1-cI_6wx6-a1-m1-cV 6wx6-a1-m1-cI_6wx6-a1-m1-cW 6wx6-a1-m1-cJ_6wx6-a1-m1-cU 6wx6-a1-m1-cJ_6wx6-a1-m1-cX 6wx6-a1-m1-cK_6wx6-a1-m1-cU 6wx6-a1-m1-cK_6wx6-a1-m1-cX 6wx6-a1-m1-cL_6wx6-a1-m1-cV 6wx6-a1-m1-cL_6wx6-a1-m1-cW SSQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLGGPEAGLGEYLFERLTLKHD SSQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRLGGPEAGLGEYLFERLTLKHD 2fg9-a1-m3-cA_2fg9-a1-m6-cA CRYSTAL STRUCTURE OF A PUTATIVE 5-NITROIMIDAZOLE ANTIBIOTIC RESISTANCE PROTEIN (BT_3078) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 2.20 A RESOLUTION Q8A377 Q8A377 2.2 X-RAY DIFFRACTION 152 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 158 158 2fg9-a1-m1-cA_2fg9-a1-m5-cA 2fg9-a1-m2-cA_2fg9-a1-m4-cA HHHHHHENLYFQGKTIVIEDKQRIESIILQADACFVGITDLEGNPYVVPNFGYENDTLYLHSGPEGGKIELQRNNNVCITFSLGHKLVYQHCSYSRSESACRGKVEFIEDEEKRHALDIIRHYTKDQFSYSDPAVRNVKVWKVPVDQTGKVFGLRADE HHHHHHENLYFQGKTIVIEDKQRIESIILQADACFVGITDLEGNPYVVPNFGYENDTLYLHSGPEGGKIELQRNNNVCITFSLGHKLVYQHCSYSRSESACRGKVEFIEDEEKRHALDIIRHYTKDQFSYSDPAVRNVKVWKVPVDQTGKVFGLRADE 2fg9-a1-m5-cA_2fg9-a1-m6-cA CRYSTAL STRUCTURE OF A PUTATIVE 5-NITROIMIDAZOLE ANTIBIOTIC RESISTANCE PROTEIN (BT_3078) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 2.20 A RESOLUTION Q8A377 Q8A377 2.2 X-RAY DIFFRACTION 24 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 158 158 2fg9-a1-m1-cA_2fg9-a1-m2-cA 2fg9-a1-m1-cA_2fg9-a1-m3-cA 2fg9-a1-m2-cA_2fg9-a1-m3-cA 2fg9-a1-m4-cA_2fg9-a1-m5-cA 2fg9-a1-m4-cA_2fg9-a1-m6-cA HHHHHHENLYFQGKTIVIEDKQRIESIILQADACFVGITDLEGNPYVVPNFGYENDTLYLHSGPEGGKIELQRNNNVCITFSLGHKLVYQHCSYSRSESACRGKVEFIEDEEKRHALDIIRHYTKDQFSYSDPAVRNVKVWKVPVDQTGKVFGLRADE HHHHHHENLYFQGKTIVIEDKQRIESIILQADACFVGITDLEGNPYVVPNFGYENDTLYLHSGPEGGKIELQRNNNVCITFSLGHKLVYQHCSYSRSESACRGKVEFIEDEEKRHALDIIRHYTKDQFSYSDPAVRNVKVWKVPVDQTGKVFGLRADE 2fgc-a1-m1-cA_2fgc-a1-m2-cA Crystal structure of Acetolactate synthase- small subunit from Thermotoga maritima Q9WZ19 Q9WZ19 2.3 X-RAY DIFFRACTION 136 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 156 156 IREHLVSLVHNKPGVRKVANLFARRGFNISSITVGESETPGLSRLVIVKGDDKTIEQIEKQAYKLVEVVKVTPIDPLPENRVEREALIKVRFDEDKQEIFQLVEIFRGKIIDVSREGAIIEITGARSKVEAFINLLPQKQVEEIARTGIVANRWNV IREHLVSLVHNKPGVRKVANLFARRGFNISSITVGESETPGLSRLVIVKGDDKTIEQIEKQAYKLVEVVKVTPIDPLPENRVEREALIKVRFDEDKQEIFQLVEIFRGKIIDVSREGAIIEITGARSKVEAFINLLPQKQVEEIARTGIVANRWNV 2fgg-a2-m1-cA_2fgg-a2-m2-cA Crystal Structure of Rv2632c P9WL61 P9WL61 2.3 X-RAY DIFFRACTION 123 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 83 83 SEHVGKTCQIDVLIEEHDERTRAKARLSWAGRQVGVGLARLDPADEPVAQIGDELAIARALSDLANQLFALTSSDIEASTHQP SEHVGKTCQIDVLIEEHDERTRAKARLSWAGRQVGVGLARLDPADEPVAQIGDELAIARALSDLANQLFALTSSDIEASTHQP 2fgq-a1-m2-cX_2fgq-a1-m3-cX High resolution X-ray structure of Omp32 in complex with malate P24305 P24305 1.45 X-RAY DIFFRACTION 113 1.0 80866 (Delftia acidovorans) 80866 (Delftia acidovorans) 330 330 1e54-a1-m1-cA_1e54-a1-m2-cA 1e54-a1-m1-cA_1e54-a1-m3-cA 1e54-a1-m2-cA_1e54-a1-m3-cA 2fgq-a1-m1-cX_2fgq-a1-m2-cX 2fgq-a1-m1-cX_2fgq-a1-m3-cX 2fgr-a1-m1-cA_2fgr-a1-m2-cA 2fgr-a1-m1-cA_2fgr-a1-m3-cA 2fgr-a1-m2-cA_2fgr-a1-m3-c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fgr-a1-m2-cB_2fgr-a1-m3-cB High resolution Xray structure of Omp32 1.5 X-RAY DIFFRACTION 11 1.0 8 8 1e54-a1-m1-cB_1e54-a1-m2-cB 1e54-a1-m1-cB_1e54-a1-m3-cB 1e54-a1-m2-cB_1e54-a1-m3-cB 2fgr-a1-m1-cB_2fgr-a1-m2-cB 2fgr-a1-m1-cB_2fgr-a1-m3-cB DNWQNGTS DNWQNGTS 2fgy-a1-m1-cA_2fgy-a1-m1-cB Beta Carbonic Anhydrase from the Carboxysomal Shell of Halothiobacillus neapolitanus (CsoSCA) O85042 O85042 2.2 X-RAY DIFFRACTION 83 1.0 927 (Halothiobacillus neapolitanus) 927 (Halothiobacillus neapolitanus) 471 471 HPACITLPERTCRHPLTDLEANEQLGRCEDSVKNRFDRVIPFLQVVAGIPLGLDHVTRVQELAQSSLGHTLPEELLKDNWISGHNLKGIFGYATAKALTAATEQFSRDDSASAIGFFLDCGFHAVDISPCADGRLKGLLPYILRLPLTAFTYRKAYAGSMFDIEDDLAQWEKNELRRYREGVPNTADQPTRYLKIAVYHFSTSDPTHSGCAAHGSNDRAALEAALTQLMKFREAVENAHCCGASIDILLIGVDTDTDAIRVHIPDSKGFLNPYRYVDNTVTYAQTLHLAPDEARVIIHEAILNANRSDGWAKGNGVASEGMRRFIGQLLINNLSQIDYVVNRHGGRYPPNDIGHAERYISVGDGFDEVQIRNLAYYAHLDTVEENAIDVDVGITIFTKLNLSRGLPIPIAIHYRYDPNVPGSRERTVVKARRIYNAIKERFSSLDEQNLLQFRLSVQAQDIGSPIEEVASA HPACITLPERTCRHPLTDLEANEQLGRCEDSVKNRFDRVIPFLQVVAGIPLGLDHVTRVQELAQSSLGHTLPEELLKDNWISGHNLKGIFGYATAKALTAATEQFSRDDSASAIGFFLDCGFHAVDISPCADGRLKGLLPYILRLPLTAFTYRKAYAGSMFDIEDDLAQWEKNELRRYREGVPNTADQPTRYLKIAVYHFSTSDPTHSGCAAHGSNDRAALEAALTQLMKFREAVENAHCCGASIDILLIGVDTDTDAIRVHIPDSKGFLNPYRYVDNTVTYAQTLHLAPDEARVIIHEAILNANRSDGWAKGNGVASEGMRRFIGQLLINNLSQIDYVVNRHGGRYPPNDIGHAERYISVGDGFDEVQIRNLAYYAHLDTVEENAIDVDVGITIFTKLNLSRGLPIPIAIHYRYDPNVPGSRERTVVKARRIYNAIKERFSSLDEQNLLQFRLSVQAQDIGSPIEEVASA 2fh5-a2-m4-cA_2fh5-a2-m1-cA The Structure of the Mammalian SRP Receptor P08240 P08240 2.45 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 2fh5-a2-m2-cA_2fh5-a2-m3-cA HSMVDFFTIFSKGGLVLWCFQGVSDSCTGPVNALIRSVLLQETHEALTLKYKLDNQFELVFVVGFQKILTLTYVDKLIDDVHRLFRDKYRTEIQQQSALSLLNGTFDFQNDFLRLLREAEESSK HSMVDFFTIFSKGGLVLWCFQGVSDSCTGPVNALIRSVLLQETHEALTLKYKLDNQFELVFVVGFQKILTLTYVDKLIDDVHRLFRDKYRTEIQQQSALSLLNGTFDFQNDFLRLLREAEESSK 2fh5-a2-m4-cA_2fh5-a2-m2-cA The Structure of the Mammalian SRP Receptor P08240 P08240 2.45 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 2fh5-a2-m1-cA_2fh5-a2-m3-cA HSMVDFFTIFSKGGLVLWCFQGVSDSCTGPVNALIRSVLLQETHEALTLKYKLDNQFELVFVVGFQKILTLTYVDKLIDDVHRLFRDKYRTEIQQQSALSLLNGTFDFQNDFLRLLREAEESSK HSMVDFFTIFSKGGLVLWCFQGVSDSCTGPVNALIRSVLLQETHEALTLKYKLDNQFELVFVVGFQKILTLTYVDKLIDDVHRLFRDKYRTEIQQQSALSLLNGTFDFQNDFLRLLREAEESSK 2fh5-a3-m2-cA_2fh5-a3-m1-cA The Structure of the Mammalian SRP Receptor P08240 P08240 2.45 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 2fh5-a2-m1-cA_2fh5-a2-m2-cA 2fh5-a2-m4-cA_2fh5-a2-m3-cA HSMVDFFTIFSKGGLVLWCFQGVSDSCTGPVNALIRSVLLQETHEALTLKYKLDNQFELVFVVGFQKILTLTYVDKLIDDVHRLFRDKYRTEIQQQSALSLLNGTFDFQNDFLRLLREAEESSK HSMVDFFTIFSKGGLVLWCFQGVSDSCTGPVNALIRSVLLQETHEALTLKYKLDNQFELVFVVGFQKILTLTYVDKLIDDVHRLFRDKYRTEIQQQSALSLLNGTFDFQNDFLRLLREAEESSK 2fhd-a1-m2-cC_2fhd-a1-m4-cA Crystal structure of Crb2 tandem tudor domains P87074 P87074 2.4 X-RAY DIFFRACTION 21 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 138 145 2fhd-a1-m1-cC_2fhd-a1-m1-cA SFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFE HSRRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFEETS 2fhd-a2-m6-cC_2fhd-a2-m1-cA Crystal structure of Crb2 tandem tudor domains P87074 P87074 2.4 X-RAY DIFFRACTION 22 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 138 145 2fhd-a2-m5-cC_2fhd-a2-m4-cA SFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFE HSRRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFEETS 2fhd-a3-m1-cA_2fhd-a3-m4-cA Crystal structure of Crb2 tandem tudor domains P87074 P87074 2.4 X-RAY DIFFRACTION 32 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 145 145 2fhd-a1-m1-cA_2fhd-a1-m4-cA 2fhd-a2-m1-cA_2fhd-a2-m4-cA HSRRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFEETS HSRRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFEETS 2fhd-a4-m7-cB_2fhd-a4-m7-cA Crystal structure of Crb2 tandem tudor domains P87074 P87074 2.4 X-RAY DIFFRACTION 35 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 137 145 2fhd-a1-m1-cB_2fhd-a1-m1-cA 2fhd-a1-m4-cB_2fhd-a1-m4-cA 2fhd-a2-m1-cB_2fhd-a2-m1-cA 2fhd-a2-m4-cB_2fhd-a2-m4-cA 2fhd-a3-m1-cB_2fhd-a3-m1-cA 2fhd-a3-m4-cB_2fhd-a3-m4-cA 2fhd-a4-m1-cB_2fhd-a4-m1-cA RRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKD HSRRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFEETS 2fhd-a4-m7-cC_2fhd-a4-m7-cA Crystal structure of Crb2 tandem tudor domains P87074 P87074 2.4 X-RAY DIFFRACTION 42 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 138 145 2fhd-a3-m1-cC_2fhd-a3-m1-cA 2fhd-a3-m4-cC_2fhd-a3-m4-cA 2fhd-a4-m1-cC_2fhd-a4-m1-cA SFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFE HSRRSFKNRVLAFFKGYPSFYYPATLVAPVHSAVTSSIYKVQFDDATSTVNSNQIKRFFLKKGDVVQSTRLGKIKHTVVKTFRSTNEQLSLIAVDALNNDVILAHGEIEVTVPISTIYVAPVNIRRFQGRDLSFSTLKDKFEETS 2fhe-a1-m1-cA_2fhe-a1-m1-cB FASCIOLA HEPATICA GLUTATHIONE S-TRANSFERASE ISOFORM 1 IN COMPLEX WITH GLUTATHIONE P56598 P56598 2.3 X-RAY DIFFRACTION 90 1.0 6192 (Fasciola hepatica) 6192 (Fasciola hepatica) 216 216 PAKLGYWKIRGLQQPVRLLLEYLGEKYEEQIYERDDGEKWFSKKFELGLDLPNLPYYIDDKCKLTQSLAILRYIADKHGMIGTTSEERARVSMIEGAAVDLRQGISRISYQPKFEQLKEGYLKDLPTTMKMWSDFLGKNPYLRGTSVSHVDFMVYEALDAIRYLEPHCLDHFPNLQQFMSRIEALPSIKAYMESNRFIKWPLNGWHAQFGGGDAPP PAKLGYWKIRGLQQPVRLLLEYLGEKYEEQIYERDDGEKWFSKKFELGLDLPNLPYYIDDKCKLTQSLAILRYIADKHGMIGTTSEERARVSMIEGAAVDLRQGISRISYQPKFEQLKEGYLKDLPTTMKMWSDFLGKNPYLRGTSVSHVDFMVYEALDAIRYLEPHCLDHFPNLQQFMSRIEALPSIKAYMESNRFIKWPLNGWHAQFGGGDAPP 2fhh-a1-m1-cC_2fhh-a1-m1-cR Crystal Structure of Mycobacterium Tuberculosis Proteasome in complex with a peptidyl boronate inhibitor MLN-273 P9WHT9 P9WHT9 2.99 X-RAY DIFFRACTION 23 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 222 222 2fhg-a1-m1-c2_2fhg-a1-m1-cG 2fhg-a1-m1-cC_2fhg-a1-m1-cR 2fhg-a1-m1-cE_2fhg-a1-m1-cH 2fhg-a1-m1-cJ_2fhg-a1-m1-cZ 2fhg-a1-m1-cL_2fhg-a1-m1-cP 2fhg-a1-m1-cN_2fhg-a1-m1-cV 2fhg-a1-m1-cT_2fhg-a1-m1-cX 2fhh-a1-m1-c2_2fhh-a1-m1-cG 2fhh-a1-m1-cE_2fhh-a1-m1-cH 2fhh-a1-m1-cJ_2fhh-a1-m1-cZ 2fhh-a1-m1-cL_2fhh-a1-m1-cP 2fhh-a1-m1-cN_2fhh-a1-m1-cV 2fhh-a1-m1-cT_2fhh-a1-m1-cX 3h6f-a1-m1-c2_3h6f-a1-m1-cG 3h6f-a1-m1-cC_3h6f-a1-m1-cR 3h6f-a1-m1-cH_3h6f-a1-m1-cE 3h6f-a1-m1-cL_3h6f-a1-m1-cP 3h6f-a1-m1-cN_3h6f-a1-m1-cV 3h6f-a1-m1-cT_3h6f-a1-m1-cX 3h6f-a1-m1-cZ_3h6f-a1-m1-cJ 3h6i-a1-m1-c2_3h6i-a1-m1-cG 3h6i-a1-m1-cC_3h6i-a1-m1-cR 3h6i-a1-m1-cH_3h6i-a1-m1-cE 3h6i-a1-m1-cL_3h6i-a1-m1-cP 3h6i-a1-m1-cN_3h6i-a1-m1-cV 3h6i-a1-m1-cT_3h6i-a1-m1-cX 3h6i-a1-m1-cZ_3h6i-a1-m1-cJ 3hf9-a1-m1-c2_3hf9-a1-m1-cG 3hf9-a1-m1-cC_3hf9-a1-m1-cR 3hf9-a1-m1-cE_3hf9-a1-m1-cH 3hf9-a1-m1-cJ_3hf9-a1-m1-cZ 3hf9-a1-m1-cL_3hf9-a1-m1-cP 3hf9-a1-m1-cN_3hf9-a1-m1-cV 3hf9-a1-m1-cT_3hf9-a1-m1-cX 3hf9-a2-m1-c4_3hf9-a2-m1-cg 3hf9-a2-m1-cc_3hf9-a2-m1-cr 3hf9-a2-m1-ch_3hf9-a2-m1-ce 3hf9-a2-m1-cj_3hf9-a2-m1-cz 3hf9-a2-m1-cl_3hf9-a2-m1-cp 3hf9-a2-m1-cn_3hf9-a2-m1-cv 3hf9-a2-m1-ct_3hf9-a2-m1-cx 3hfa-a1-m1-c2_3hfa-a1-m1-cG 3hfa-a1-m1-cC_3hfa-a1-m1-cR 3hfa-a1-m1-cE_3hfa-a1-m1-cH 3hfa-a1-m1-cJ_3hfa-a1-m1-cZ 3hfa-a1-m1-cL_3hfa-a1-m1-cP 3hfa-a1-m1-cN_3hfa-a1-m1-cV 3hfa-a1-m1-cT_3hfa-a1-m1-cX 3krd-a1-m1-c2_3krd-a1-m1-cG 3krd-a1-m1-cC_3krd-a1-m1-cR 3krd-a1-m1-cE_3krd-a1-m1-cH 3krd-a1-m1-cJ_3krd-a1-m1-cZ 3krd-a1-m1-cL_3krd-a1-m1-cP 3krd-a1-m1-cN_3krd-a1-m1-cV 3krd-a1-m1-cT_3krd-a1-m1-cX 3mfe-a1-m1-c2_3mfe-a1-m1-cG 3mfe-a1-m1-cC_3mfe-a1-m1-cR 3mfe-a1-m1-cE_3mfe-a1-m1-cH 3mfe-a1-m1-cJ_3mfe-a1-m1-cZ 3mfe-a1-m1-cL_3mfe-a1-m1-cP 3mfe-a1-m1-cN_3mfe-a1-m1-cV 3mfe-a1-m1-cT_3mfe-a1-m1-cX 3mi0-a1-m1-cC_3mi0-a1-m1-cR 3mi0-a1-m1-cG_3mi0-a1-m1-c2 3mi0-a1-m1-cH_3mi0-a1-m1-cE 3mi0-a1-m1-cJ_3mi0-a1-m1-cZ 3mi0-a1-m1-cN_3mi0-a1-m1-cV 3mi0-a1-m1-cP_3mi0-a1-m1-cL 3mi0-a1-m1-cT_3mi0-a1-m1-cX 3mka-a1-m1-c2_3mka-a1-m1-cG 3mka-a1-m1-cE_3mka-a1-m1-cH 3mka-a1-m1-cP_3mka-a1-m1-cL 3mka-a1-m1-cR_3mka-a1-m1-cC 3mka-a1-m1-cV_3mka-a1-m1-cN 3mka-a1-m1-cX_3mka-a1-m1-cT 3mka-a1-m1-cZ_3mka-a1-m1-cJ 5lzp-a1-m1-cA_5lzp-a1-m1-cN 5lzp-a1-m1-cE_5lzp-a1-m1-cU 5lzp-a1-m1-cF_5lzp-a1-m1-cC 5lzp-a1-m1-cG_5lzp-a1-m1-cT 5lzp-a1-m1-cK_5lzp-a1-m1-cP 5lzp-a1-m1-cL_5lzp-a1-m1-cI 5lzp-a1-m1-cO_5lzp-a1-m1-cR 5tho-a1-m1-cH_5tho-a1-m1-cZ 5tho-a1-m1-cI_5tho-a1-m1-cY 5tho-a1-m1-cJ_5tho-a1-m1-cX 5tho-a1-m1-cK_5tho-a1-m1-cW 5tho-a1-m1-cL_5tho-a1-m1-cV 5tho-a1-m1-cM_5tho-a1-m1-cb 5tho-a1-m1-cN_5tho-a1-m1-ca 5trg-a1-m1-cH_5trg-a1-m1-cZ 5trg-a1-m1-cI_5trg-a1-m1-cY 5trg-a1-m1-cJ_5trg-a1-m1-cX 5trg-a1-m1-cK_5trg-a1-m1-cW 5trg-a1-m1-cL_5trg-a1-m1-cV 5trg-a1-m1-cM_5trg-a1-m1-cb 5trg-a1-m1-cN_5trg-a1-m1-ca 5trr-a1-m1-cH_5trr-a1-m1-cZ 5trr-a1-m1-cI_5trr-a1-m1-cY 5trr-a1-m1-cJ_5trr-a1-m1-cX 5trr-a1-m1-cK_5trr-a1-m1-cW 5trr-a1-m1-cL_5trr-a1-m1-cV 5trr-a1-m1-cM_5trr-a1-m1-cb 5trr-a1-m1-cN_5trr-a1-m1-ca 5trs-a1-m1-cH_5trs-a1-m1-cZ 5trs-a1-m1-cI_5trs-a1-m1-cY 5trs-a1-m1-cJ_5trs-a1-m1-cX 5trs-a1-m1-cK_5trs-a1-m1-cW 5trs-a1-m1-cL_5trs-a1-m1-cV 5trs-a1-m1-cM_5trs-a1-m1-cb 5trs-a1-m1-cN_5trs-a1-m1-ca 5try-a1-m1-cH_5try-a1-m1-cZ 5try-a1-m1-cI_5try-a1-m1-cY 5try-a1-m1-cJ_5try-a1-m1-cX 5try-a1-m1-cK_5try-a1-m1-cW 5try-a1-m1-cL_5try-a1-m1-cV 5try-a1-m1-cM_5try-a1-m1-cb 5try-a1-m1-cN_5try-a1-m1-ca 5ts0-a1-m1-cH_5ts0-a1-m1-cZ 5ts0-a1-m1-cI_5ts0-a1-m1-cY 5ts0-a1-m1-cJ_5ts0-a1-m1-cX 5ts0-a1-m1-cK_5ts0-a1-m1-cW 5ts0-a1-m1-cL_5ts0-a1-m1-cV 5ts0-a1-m1-cM_5ts0-a1-m1-cb 5ts0-a1-m1-cN_5ts0-a1-m1-ca 6ocw-a1-m1-cH_6ocw-a1-m1-cZ 6ocw-a1-m1-cI_6ocw-a1-m1-cY 6ocw-a1-m1-cJ_6ocw-a1-m1-cX 6ocw-a1-m1-cK_6ocw-a1-m1-cW 6ocw-a1-m1-cL_6ocw-a1-m1-cV 6ocw-a1-m1-cM_6ocw-a1-m1-cb 6ocw-a1-m1-cN_6ocw-a1-m1-ca 6ocz-a1-m1-cH_6ocz-a1-m1-cZ 6ocz-a1-m1-cI_6ocz-a1-m1-cY 6ocz-a1-m1-cJ_6ocz-a1-m1-cX 6ocz-a1-m1-cK_6ocz-a1-m1-cW 6ocz-a1-m1-cL_6ocz-a1-m1-cV 6ocz-a1-m1-cM_6ocz-a1-m1-cb 6ocz-a1-m1-cN_6ocz-a1-m1-ca 6ode-a1-m1-cH_6ode-a1-m1-cZ 6ode-a1-m1-cI_6ode-a1-m1-cY 6ode-a1-m1-cJ_6ode-a1-m1-cX 6ode-a1-m1-cK_6ode-a1-m1-cW 6ode-a1-m1-cL_6ode-a1-m1-cV 6ode-a1-m1-cM_6ode-a1-m1-cb 6ode-a1-m1-cN_6ode-a1-m1-ca 6wnk-a1-m1-cI_6wnk-a1-m1-cY 6wnk-a1-m1-cJ_6wnk-a1-m1-cX 6wnk-a1-m1-cK_6wnk-a1-m1-cW 6wnk-a1-m1-cL_6wnk-a1-m1-cV 6wnk-a1-m1-cM_6wnk-a1-m1-cb 6wnk-a1-m1-cN_6wnk-a1-m1-ca 6wnk-a1-m1-cZ_6wnk-a1-m1-cH 7pxa-a1-m1-cH_7pxa-a1-m1-cU 7pxa-a1-m1-cL_7pxa-a1-m1-cb 7pxa-a1-m1-cM_7pxa-a1-m1-cJ 7pxa-a1-m1-cN_7pxa-a1-m1-ca 7pxa-a1-m1-cR_7pxa-a1-m1-cW 7pxa-a1-m1-cS_7pxa-a1-m1-cP 7pxa-a1-m1-cV_7pxa-a1-m1-cY 7pxc-a1-m1-cH_7pxc-a1-m1-cU 7pxc-a1-m1-cL_7pxc-a1-m1-cb 7pxc-a1-m1-cM_7pxc-a1-m1-cJ 7pxc-a1-m1-cN_7pxc-a1-m1-ca 7pxc-a1-m1-cR_7pxc-a1-m1-cW 7pxc-a1-m1-cS_7pxc-a1-m1-cP 7pxc-a1-m1-cV_7pxc-a1-m1-cY 7pxd-a1-m1-cH_7pxd-a1-m1-cU 7pxd-a1-m1-cL_7pxd-a1-m1-cb 7pxd-a1-m1-cM_7pxd-a1-m1-cJ 7pxd-a1-m1-cN_7pxd-a1-m1-ca 7pxd-a1-m1-cR_7pxd-a1-m1-cW 7pxd-a1-m1-cS_7pxd-a1-m1-cP 7pxd-a1-m1-cV_7pxd-a1-m1-cY 8d6v-a1-m1-cP_8d6v-a1-m1-cW 8d6v-a1-m1-cQ_8d6v-a1-m1-cc 8d6v-a1-m1-cR_8d6v-a1-m1-cb 8d6v-a1-m1-cS_8d6v-a1-m1-ca 8d6v-a1-m1-cT_8d6v-a1-m1-cZ 8d6v-a1-m1-cU_8d6v-a1-m1-cY 8d6v-a1-m1-cV_8d6v-a1-m1-cX 8d6w-a1-m1-cP_8d6w-a1-m1-cW 8d6w-a1-m1-cQ_8d6w-a1-m1-cc 8d6w-a1-m1-cR_8d6w-a1-m1-cb 8d6w-a1-m1-cS_8d6w-a1-m1-ca 8d6w-a1-m1-cT_8d6w-a1-m1-cZ 8d6w-a1-m1-cU_8d6w-a1-m1-cY 8d6w-a1-m1-cV_8d6w-a1-m1-cX 8d6x-a1-m1-cP_8d6x-a1-m1-cW 8d6x-a1-m1-cQ_8d6x-a1-m1-cc 8d6x-a1-m1-cR_8d6x-a1-m1-cb 8d6x-a1-m1-cS_8d6x-a1-m1-ca 8d6x-a1-m1-cT_8d6x-a1-m1-cZ 8d6x-a1-m1-cU_8d6x-a1-m1-cY 8d6x-a1-m1-cV_8d6x-a1-m1-cX 8d6y-a1-m1-cP_8d6y-a1-m1-cW 8d6y-a1-m1-cQ_8d6y-a1-m1-cc 8d6y-a1-m1-cR_8d6y-a1-m1-cb 8d6y-a1-m1-cS_8d6y-a1-m1-ca 8d6y-a1-m1-cT_8d6y-a1-m1-cZ 8d6y-a1-m1-cU_8d6y-a1-m1-cY 8d6y-a1-m1-cV_8d6y-a1-m1-cX TTIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARLYAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHASDPQSAGRIVSFDAAGGWNIEEEGYQAVGSGSLFAKSSMKKLYSQVTDGDSGLRVAVEALYDAADDDSATGGPDLVRGIFPTAVIIDADGAVDVPESRIAELARAIIESRS TTIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARLYAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHASDPQSAGRIVSFDAAGGWNIEEEGYQAVGSGSLFAKSSMKKLYSQVTDGDSGLRVAVEALYDAADDDSATGGPDLVRGIFPTAVIIDADGAVDVPESRIAELARAIIESRS 2fhq-a1-m1-cB_2fhq-a1-m1-cA Crystal Structure of General Stress Protein from Bacteroides thetaiotaomicron Q8A7U5 Q8A7U5 1.87 X-RAY DIFFRACTION 81 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 130 131 KTKEKAVELLQKCEVVTLASVNKEGYPRPVPSKIAAEGISTIWSTGADSLKTIDFLSNPKAGLCFQEKGDSVALGEVEVVTDEKLKQELWQDWFIEHFPGGPTDPGYVLLKFTANHATYWIEGTFIHKKL TKTKEKAVELLQKCEVVTLASVNKEGYPRPVPSKIAAEGISTIWSTGADSLKTIDFLSNPKAGLCFQEKGDSVALGEVEVVTDEKLKQELWQDWFIEHFPGGPTDPGYVLLKFTANHATYWIEGTFIHKKL 2fhx-a3-m1-cB_2fhx-a3-m1-cA Pseudomonas aeruginosa SPM-1 metallo-beta-lactamase Q8G9Q0 Q8G9Q0 1.9 X-RAY DIFFRACTION 75 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 244 244 DHVDLPYNLTATKIDSDVFVVTDRDFYSSNVLVAKMLDGTVVIVSSPFENLGTQTLMDWVAKTMKPKKVVAINTHFHLDGTGGNEIYKKMGAETWSSDLTKQLRLEENKKDRIKAAEFYKNEDLKRRILSSHPVPADNVFDLKQGKVFSFSNELVEVSFPGPAHSPDNVVVYFPKKKLLFGGMIKPKELGYLGDANVKAWPDSARRLKKFDAKIVIPGHGEWGGPEMVNKTIKVAEKAVGEMRL DHVDLPYNLTATKIDSDVFVVTDRDFYSSNVLVAKMLDGTVVIVSSPFENLGTQTLMDWVAKTMKPKKVVAINTHFHLDGTGGNEIYKKMGAETWSSDLTKQLRLEENKKDRIKAAEFYKNEDLKRRILSSHPVPADNVFDLKQGKVFSFSNELVEVSFPGPAHSPDNVVVYFPKKKLLFGGMIKPKELGYLGDANVKAWPDSARRLKKFDAKIVIPGHGEWGGPEMVNKTIKVAEKAVGEMRL 2fi2-a1-m1-cA_2fi2-a1-m1-cB Solution structure of the SCAN homodimer from MZF-1/ZNF42 P28698 P28698 NOT SOLUTION NMR 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 GSDPGPEAARLRFRCFHYEEATGPQEALAQLRELCRQWLRPEVRSKEQMLELLVLEQFLGALPPEIQARVQGQRPGSPEEAAALVDGLRREPGG GSDPGPEAARLRFRCFHYEEATGPQEALAQLRELCRQWLRPEVRSKEQMLELLVLEQFLGALPPEIQARVQGQRPGSPEEAAALVDGLRREPGG 2fic-a1-m1-cA_2fic-a1-m2-cB The crystal structure of the BAR domain from human Bin1/Amphiphysin II and its implications for molecular recognition O00499 O00499 1.99 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 201 EQFEQCVQNFNKQLTEGTRLQKDLRTYLASVKAMHEASKKLNECLQEVYEPDWPGRDEANKIAENNDLLWMDYHQKLVDQALLTMDTYLGQFPDIKSRIAKRGRKLVDYDSARHHYESLQTKIAKAEEELIKAQKVFEEMNVDLQEELPSLWNSRVGFYVNTFQSIAGLEENFHKEMSKLNQNLNDVLVGL KDEQFEQCVQNFNKQLTEGTRLQKDLRTYLASVKAMHEASKKLNECLQEVYEPDWPGRDEANKIAENNDLLWMDYHQKLVDQALLTMDTYLGQFPDIKSRIAKRGRKLVDYDSARHHYESLQTAKKKDEAKIAKAEEELIKAQKVFEEMNVDLQEELPSLWNSRVGFYVNTFQSIAGLEENFHKEMSKLNQNLNDVLVGLE 2fim-a1-m1-cA_2fim-a1-m1-cB Structure of the C-terminal domain of Human Tubby-like protein 1 O00294 O00294 1.9 X-RAY DIFFRACTION 19 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 224 232 PREFVLRPAPQGRTVRCRLTRDKYPSYFLHLDTEKKVFLLAGRKRKRSKTANYLISIDPTNNFIGKLRSNLLGNRFTVFDNGQNPQRGYSTNVASLRQELAAVIYERRMTVIIPGMSAENERVPIRPRNASDGLLVRWQNKTLESLIELHNKPPVWNDDSGSYTLNFQGRVTQASVKNFQIVHADDPDYIVLQFGRVAEDAFTLDYRYPLCALQAFAIALSSFD PREFVLRPAPQGRTVRCRLTRDKKGYPSYFLHLDTEKKVFLLAGRKRKRSKTANYLISIDPFIGKLRSNLLGNRFTVFDNGQNPQRGYSTNVASLRQELAAVIYETNVLGFRGPRRMTVIIPGMSAENERVPIRPRNASDGLLVRWQNKTLESLIELHNKPPVWNDDSGSYTLNFQGRVTQASVKNFQIVHADDPDYIVLQFGRVAEDAFTLDYRYPLCALQAFAIALSSFD 2fip-a3-m1-cF_2fip-a3-m1-cE Phage phi29 transcription regulator p4 P03682 P03682 2 X-RAY DIFFRACTION 46 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 111 115 2fio-a1-m1-cB_2fio-a1-m1-cA 2fip-a1-m1-cA_2fip-a1-m1-cB 2fip-a2-m1-cD_2fip-a2-m1-cC PKTQRGIYHNLKESEYVASNTDVTFFFSSELYLNKFLDGYQEYRKKFNKKIERVAVTPWNMDMLADITFYSEVEKRGFHAWLKGDNATWREVHVYALRIMTKPNTLDWSRI PKTQRGIYHNLKESEYVASNTDVTFFFSSELYLNKFLDGYQEYRKKFNKKIERVAVTPWNMDMLADITFYSEVEKRGFHAWLKGDNATWREVHVYALRIMTKPNTLDWSRIQKPR 2fiq-a3-m1-cB_2fiq-a3-m1-cD Crystal structure of putative tagatose 6-phosphate kinase Q8X7H4 Q8X7H4 2.25 X-RAY DIFFRACTION 10 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 398 399 2fiq-a3-m1-cA_2fiq-a3-m1-cC KTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGTPADFREFVFAIADKVGFARERIILGGDHLGPNCWQQENVDAAEKSVELVKAYVRAGFSKIHLDASSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQALAQWIENTRVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETVNLQGVDIPLGISQYLPKQFERIQSGELSAIPHQLIDKIYDVLRAYRYGCA KTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGTPADFREFVFAIADKVGFARERIILGGDHLGPNCWQQENVDAAEKSVELVKAYVRAGFSKIHLDASSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQALAQWIENTRVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETVNLQGVDIPLGISQYLPKQFERIQSGELSAIPHQLIDKIYDVLRAYRYGCAE 2fiq-a3-m1-cD_2fiq-a3-m1-cA Crystal structure of putative tagatose 6-phosphate kinase Q8X7H4 Q8X7H4 2.25 X-RAY DIFFRACTION 32 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 399 400 2fiq-a3-m1-cB_2fiq-a3-m1-cC KTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGTPADFREFVFAIADKVGFARERIILGGDHLGPNCWQQENVDAAEKSVELVKAYVRAGFSKIHLDASSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQALAQWIENTRVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETVNLQGVDIPLGISQYLPKQFERIQSGELSAIPHQLIDKIYDVLRAYRYGCAE KTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGTPADFREFVFAIADKVGFARERIILGGDHLGPNCWQQENVDAAEKSVELVKAYVRAGFSKIHLDASSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQALAQWIENTRVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETVNLQGVDIPLGISQYLPKQFERIQSGELSAIPHQLIDKIYDVLRAYRYGCAE 2fiq-a3-m1-cD_2fiq-a3-m1-cC Crystal structure of putative tagatose 6-phosphate kinase Q8X7H4 Q8X7H4 2.25 X-RAY DIFFRACTION 72 0.997 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 399 400 2fiq-a1-m1-cB_2fiq-a1-m1-cA 2fiq-a2-m1-cD_2fiq-a2-m1-cC 2fiq-a3-m1-cB_2fiq-a3-m1-cA KTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGTPADFREFVFAIADKVGFARERIILGGDHLGPNCWQQENVDAAEKSVELVKAYVRAGFSKIHLDASSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQALAQWIENTRVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETVNLQGVDIPLGISQYLPKQFERIQSGELSAIPHQLIDKIYDVLRAYRYGCAE KTLIARHKAGEHIGICSVCSAHPLVIEAALAFDRNSTRKVLIEATSNQVNQFGGYTGTPADFREFVFAIADKVGFARERIILGGDHLGPNCWQQENVDAAEKSVELVKAYVRAGFSKIHLDASSCAGDPIPLAPETVAERAAVLCFAAESVATDCQREQLSYVIGTEVPVPVHITHVEDAANTLRTHQKAFIARGLTEALTRVIAIVVQPGVEFDHSNIIHYQPQEAQALAQWIENTRVYEAHSTDYQTRTAYWELVRDHFAILKVGPALTFALREAIFALAQIEQELIAPENRSGCLAVIEEVLDEPQYWKKYYRTGFNDSLLDIRYSLSDRIRYYWPHSRIKNSVETVNLQGVDIPLGISQYLPKQFERIQSGELSAIPHQLIDKIYDVLRAYRYGCA 2fiu-a1-m1-cA_2fiu-a1-m1-cB Crystal Structure of the Conserved Protein of Unknown Function ATU0297 from Agrobacterium tumefaciens A9CKF1 A9CKF1 2 X-RAY DIFFRACTION 90 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 93 93 AKGYWIAQVDVRDSERYKDYVSTAKPAFERFGANFLARGGSVTELEGTARARNVVIEFPSVQHAIDCYNSPEYQAAAKIRQEVADAEIVEGIG AKGYWIAQVDVRDSERYKDYVSTAKPAFERFGANFLARGGSVTELEGTARARNVVIEFPSVQHAIDCYNSPEYQAAAKIRQEVADAEIVEGIG 2fiw-a2-m1-cA_2fiw-a2-m2-cA Crystal Structure of the GCN5-Related N-acetyltransferase: Aminotransferase, Class-II from Rhodopseudomonas palustris Q6N8A5 Q6N8A5 2.35 X-RAY DIFFRACTION 31 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 156 156 GHVSTPALRPYLPEDAAVTAAIFVASIEQLTADDYSEEQQEAWASAADDEAKFAARLSGQLTLIATLQGVPVGFASLKGPDHIDLYVHPDYVGRDVGTTLIDALEKLAGARGALILTVDASDNAAEFFAKRGYVAKQRNTVSINGEWLANTTTKSL GHVSTPALRPYLPEDAAVTAAIFVASIEQLTADDYSEEQQEAWASAADDEAKFAARLSGQLTLIATLQGVPVGFASLKGPDHIDLYVHPDYVGRDVGTTLIDALEKLAGARGALILTVDASDNAAEFFAKRGYVAKQRNTVSINGEWLANTTTKSL 2fj2-a2-m1-cD_2fj2-a2-m1-cC Crystal Structure of Viral Macrophage Inflammatory Protein-II Q98157 Q98157 2.3 X-RAY DIFFRACTION 79 1.0 868565 (Human herpesvirus 8 strain GK18) 868565 (Human herpesvirus 8 strain GK18) 67 68 1cm9-a1-m1-cB_1cm9-a1-m1-cA 2fj2-a1-m1-cB_2fj2-a1-m1-cA WHRPDKCCLGYQKRPLPQVLLSSWYPTSQLCSKPGVIFLTKRGRQVCADKSKDWVKKLMQQLPVTAR SWHRPDKCCLGYQKRPLPQVLLSSWYPTSQLCSKPGVIFLTKRGRQVCADKSKDWVKKLMQQLPVTAR 2fjc-a3-m1-cH_2fjc-a3-m8-cJ Crystal structure of antigen TpF1 from Treponema pallidum P16665 P16665 2.5 X-RAY DIFFRACTION 37 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 151 151 2fjc-a3-m1-cC_2fjc-a3-m4-cN 2fjc-a3-m1-cJ_2fjc-a3-m7-cH 2fjc-a3-m5-cN_2fjc-a3-m8-cC 2fjc-a3-m6-cN_2fjc-a3-m7-cC 2fjc-a3-m7-cJ_2fjc-a3-m8-cH PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA 2fjc-a3-m8-cE_2fjc-a3-m8-cL Crystal structure of antigen TpF1 from Treponema pallidum P16665 P16665 2.5 X-RAY DIFFRACTION 25 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 150 151 2fjc-a1-m1-cA_2fjc-a1-m1-cH 2fjc-a1-m1-cA_2fjc-a1-m1-cK 2fjc-a1-m1-cC_2fjc-a1-m1-cE 2fjc-a1-m1-cC_2fjc-a1-m1-cL 2fjc-a1-m1-cD_2fjc-a1-m1-cI 2fjc-a1-m1-cE_2fjc-a1-m1-cL 2fjc-a1-m1-cF_2fjc-a1-m1-cB 2fjc-a1-m1-cF_2fjc-a1-m1-cJ 2fjc-a1-m1-cG_2fjc-a1-m1-cD 2fjc-a1-m1-cG_2fjc-a1-m1-cI 2fjc-a1-m1-cH_2fjc-a1-m1-cK 2fjc-a1-m1-cJ_2fjc-a1-m1-cB 2fjc-a2-m1-cN_2fjc-a2-m3-cM 2fjc-a2-m1-cN_2fjc-a2-m3-cO 2fjc-a2-m1-cO_2fjc-a2-m1-cM 2fjc-a2-m1-cO_2fjc-a2-m2-cN 2fjc-a2-m1-cP_2fjc-a2-m2-cP 2fjc-a2-m1-cP_2fjc-a2-m3-cP 2fjc-a2-m2-cN_2fjc-a2-m1-cM 2fjc-a2-m2-cO_2fjc-a2-m2-cM 2fjc-a2-m2-cO_2fjc-a2-m3-cN 2fjc-a2-m2-cP_2fjc-a2-m3-cP 2fjc-a2-m3-cN_2fjc-a2-m2-cM 2fjc-a2-m3-cO_2fjc-a2-m3-cM 2fjc-a3-m1-cA_2fjc-a3-m1-cH 2fjc-a3-m1-cA_2fjc-a3-m1-cK 2fjc-a3-m1-cC_2fjc-a3-m1-cE 2fjc-a3-m1-cC_2fjc-a3-m1-cL 2fjc-a3-m1-cD_2fjc-a3-m1-cI 2fjc-a3-m1-cE_2fjc-a3-m1-cL 2fjc-a3-m1-cF_2fjc-a3-m1-cB 2fjc-a3-m1-cF_2fjc-a3-m1-cJ 2fjc-a3-m1-cG_2fjc-a3-m1-cD 2fjc-a3-m1-cG_2fjc-a3-m1-cI 2fjc-a3-m1-cH_2fjc-a3-m1-cK 2fjc-a3-m1-cJ_2fjc-a3-m1-cB 2fjc-a3-m4-cN_2fjc-a3-m6-cM 2fjc-a3-m4-cN_2fjc-a3-m6-cO 2fjc-a3-m4-cO_2fjc-a3-m4-cM 2fjc-a3-m4-cO_2fjc-a3-m5-cN 2fjc-a3-m4-cP_2fjc-a3-m5-cP 2fjc-a3-m4-cP_2fjc-a3-m6-cP 2fjc-a3-m5-cN_2fjc-a3-m4-cM 2fjc-a3-m5-cO_2fjc-a3-m5-cM 2fjc-a3-m5-cO_2fjc-a3-m6-cN 2fjc-a3-m5-cP_2fjc-a3-m6-cP 2fjc-a3-m6-cN_2fjc-a3-m5-cM 2fjc-a3-m6-cO_2fjc-a3-m6-cM 2fjc-a3-m7-cA_2fjc-a3-m7-cH 2fjc-a3-m7-cA_2fjc-a3-m7-cK 2fjc-a3-m7-cC_2fjc-a3-m7-cE 2fjc-a3-m7-cC_2fjc-a3-m7-cL 2fjc-a3-m7-cD_2fjc-a3-m7-cI 2fjc-a3-m7-cE_2fjc-a3-m7-cL 2fjc-a3-m7-cF_2fjc-a3-m7-cB 2fjc-a3-m7-cF_2fjc-a3-m7-cJ 2fjc-a3-m7-cG_2fjc-a3-m7-cD 2fjc-a3-m7-cG_2fjc-a3-m7-cI 2fjc-a3-m7-cH_2fjc-a3-m7-cK 2fjc-a3-m7-cJ_2fjc-a3-m7-cB 2fjc-a3-m8-cA_2fjc-a3-m8-cH 2fjc-a3-m8-cA_2fjc-a3-m8-cK 2fjc-a3-m8-cC_2fjc-a3-m8-cE 2fjc-a3-m8-cC_2fjc-a3-m8-cL 2fjc-a3-m8-cD_2fjc-a3-m8-cI 2fjc-a3-m8-cF_2fjc-a3-m8-cB 2fjc-a3-m8-cF_2fjc-a3-m8-cJ 2fjc-a3-m8-cG_2fjc-a3-m8-cD 2fjc-a3-m8-cG_2fjc-a3-m8-cI 2fjc-a3-m8-cH_2fjc-a3-m8-cK 2fjc-a3-m8-cJ_2fjc-a3-m8-cB DARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA 2fjc-a3-m8-cH_2fjc-a3-m8-cL Crystal structure of antigen TpF1 from Treponema pallidum P16665 P16665 2.5 X-RAY DIFFRACTION 28 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 151 151 2fjc-a1-m1-cA_2fjc-a1-m1-cJ 2fjc-a1-m1-cC_2fjc-a1-m1-cF 2fjc-a1-m1-cC_2fjc-a1-m1-cI 2fjc-a1-m1-cD_2fjc-a1-m1-cH 2fjc-a1-m1-cD_2fjc-a1-m1-cL 2fjc-a1-m1-cE_2fjc-a1-m1-cB 2fjc-a1-m1-cE_2fjc-a1-m1-cK 2fjc-a1-m1-cF_2fjc-a1-m1-cI 2fjc-a1-m1-cG_2fjc-a1-m1-cA 2fjc-a1-m1-cG_2fjc-a1-m1-cJ 2fjc-a1-m1-cH_2fjc-a1-m1-cL 2fjc-a1-m1-cK_2fjc-a1-m1-cB 2fjc-a2-m1-cM_2fjc-a2-m2-cM 2fjc-a2-m1-cM_2fjc-a2-m3-cM 2fjc-a2-m1-cN_2fjc-a2-m1-cO 2fjc-a2-m1-cN_2fjc-a2-m1-cP 2fjc-a2-m1-cO_2fjc-a2-m1-cP 2fjc-a2-m2-cM_2fjc-a2-m3-cM 2fjc-a2-m2-cN_2fjc-a2-m2-cO 2fjc-a2-m2-cN_2fjc-a2-m2-cP 2fjc-a2-m2-cO_2fjc-a2-m2-cP 2fjc-a2-m3-cN_2fjc-a2-m3-cO 2fjc-a2-m3-cN_2fjc-a2-m3-cP 2fjc-a2-m3-cO_2fjc-a2-m3-cP 2fjc-a3-m1-cA_2fjc-a3-m1-cJ 2fjc-a3-m1-cC_2fjc-a3-m1-cF 2fjc-a3-m1-cC_2fjc-a3-m1-cI 2fjc-a3-m1-cD_2fjc-a3-m1-cH 2fjc-a3-m1-cD_2fjc-a3-m1-cL 2fjc-a3-m1-cE_2fjc-a3-m1-cB 2fjc-a3-m1-cE_2fjc-a3-m1-cK 2fjc-a3-m1-cF_2fjc-a3-m1-cI 2fjc-a3-m1-cG_2fjc-a3-m1-cA 2fjc-a3-m1-cG_2fjc-a3-m1-cJ 2fjc-a3-m1-cH_2fjc-a3-m1-cL 2fjc-a3-m1-cK_2fjc-a3-m1-cB 2fjc-a3-m4-cM_2fjc-a3-m5-cM 2fjc-a3-m4-cM_2fjc-a3-m6-cM 2fjc-a3-m4-cN_2fjc-a3-m4-cO 2fjc-a3-m4-cN_2fjc-a3-m4-cP 2fjc-a3-m4-cO_2fjc-a3-m4-cP 2fjc-a3-m5-cM_2fjc-a3-m6-cM 2fjc-a3-m5-cN_2fjc-a3-m5-cO 2fjc-a3-m5-cN_2fjc-a3-m5-cP 2fjc-a3-m5-cO_2fjc-a3-m5-cP 2fjc-a3-m6-cN_2fjc-a3-m6-cO 2fjc-a3-m6-cN_2fjc-a3-m6-cP 2fjc-a3-m6-cO_2fjc-a3-m6-cP 2fjc-a3-m7-cA_2fjc-a3-m7-cJ 2fjc-a3-m7-cC_2fjc-a3-m7-cF 2fjc-a3-m7-cC_2fjc-a3-m7-cI 2fjc-a3-m7-cD_2fjc-a3-m7-cH 2fjc-a3-m7-cD_2fjc-a3-m7-cL 2fjc-a3-m7-cE_2fjc-a3-m7-cB 2fjc-a3-m7-cE_2fjc-a3-m7-cK 2fjc-a3-m7-cF_2fjc-a3-m7-cI 2fjc-a3-m7-cG_2fjc-a3-m7-cA 2fjc-a3-m7-cG_2fjc-a3-m7-cJ 2fjc-a3-m7-cH_2fjc-a3-m7-cL 2fjc-a3-m7-cK_2fjc-a3-m7-cB 2fjc-a3-m8-cA_2fjc-a3-m8-cJ 2fjc-a3-m8-cC_2fjc-a3-m8-cF 2fjc-a3-m8-cC_2fjc-a3-m8-cI 2fjc-a3-m8-cD_2fjc-a3-m8-cH 2fjc-a3-m8-cD_2fjc-a3-m8-cL 2fjc-a3-m8-cE_2fjc-a3-m8-cB 2fjc-a3-m8-cE_2fjc-a3-m8-cK 2fjc-a3-m8-cF_2fjc-a3-m8-cI 2fjc-a3-m8-cG_2fjc-a3-m8-cA 2fjc-a3-m8-cG_2fjc-a3-m8-cJ 2fjc-a3-m8-cK_2fjc-a3-m8-cB PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA 2fjc-a3-m8-cJ_2fjc-a3-m8-cK Crystal structure of antigen TpF1 from Treponema pallidum P16665 P16665 2.5 X-RAY DIFFRACTION 76 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 151 151 2fjc-a1-m1-cA_2fjc-a1-m1-cD 2fjc-a1-m1-cC_2fjc-a1-m1-cB 2fjc-a1-m1-cE_2fjc-a1-m1-cH 2fjc-a1-m1-cG_2fjc-a1-m1-cF 2fjc-a1-m1-cI_2fjc-a1-m1-cL 2fjc-a1-m1-cJ_2fjc-a1-m1-cK 2fjc-a2-m1-cN_2fjc-a2-m1-cM 2fjc-a2-m1-cO_2fjc-a2-m2-cP 2fjc-a2-m2-cN_2fjc-a2-m2-cM 2fjc-a2-m2-cO_2fjc-a2-m3-cP 2fjc-a2-m3-cN_2fjc-a2-m3-cM 2fjc-a2-m3-cO_2fjc-a2-m1-cP 2fjc-a3-m1-cA_2fjc-a3-m1-cD 2fjc-a3-m1-cC_2fjc-a3-m1-cB 2fjc-a3-m1-cE_2fjc-a3-m1-cH 2fjc-a3-m1-cG_2fjc-a3-m1-cF 2fjc-a3-m1-cI_2fjc-a3-m1-cL 2fjc-a3-m1-cJ_2fjc-a3-m1-cK 2fjc-a3-m4-cN_2fjc-a3-m4-cM 2fjc-a3-m4-cO_2fjc-a3-m5-cP 2fjc-a3-m5-cN_2fjc-a3-m5-cM 2fjc-a3-m5-cO_2fjc-a3-m6-cP 2fjc-a3-m6-cN_2fjc-a3-m6-cM 2fjc-a3-m6-cO_2fjc-a3-m4-cP 2fjc-a3-m7-cA_2fjc-a3-m7-cD 2fjc-a3-m7-cC_2fjc-a3-m7-cB 2fjc-a3-m7-cE_2fjc-a3-m7-cH 2fjc-a3-m7-cG_2fjc-a3-m7-cF 2fjc-a3-m7-cI_2fjc-a3-m7-cL 2fjc-a3-m7-cJ_2fjc-a3-m7-cK 2fjc-a3-m8-cA_2fjc-a3-m8-cD 2fjc-a3-m8-cC_2fjc-a3-m8-cB 2fjc-a3-m8-cE_2fjc-a3-m8-cH 2fjc-a3-m8-cG_2fjc-a3-m8-cF 2fjc-a3-m8-cI_2fjc-a3-m8-cL PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA PDARAIAAICEQLRQHVADLGVLYIKLHNYHWHIYGIEFKQVHELLEEYYVSVTEAFDTIAERLLQLGAQAPASMAEYLALSGIAEETEKEITIVSALARVKRDFEYLSTRFSQTQVLAAESGDAVTDGIITDILRTLGKAIWMLGATLKA 2fjk-a1-m1-cD_2fjk-a1-m1-cA Crystal structure of Fructose-1,6-Bisphosphate Aldolase in Thermus caldophilus Q703I2 Q703I2 2.2 X-RAY DIFFRACTION 23 1.0 272 (Thermus caldophilus) 272 (Thermus caldophilus) 282 297 2fjk-a1-m1-cB_2fjk-a1-m1-cC LVTGLEILRKARAEGYGVGAFNTNNEFTQAILEAAEEKSPVILALSEGAKYGGRALTRVVALAQEARVPVAVHLDHGSSYESVLKALREGFTSVIDKSHEDFETNVRETKRVVEAAHAVGVTVEAELGRLLTNPEEARIFERTGADYLAVAIGTSHGAYKGKGRPFIDHPRLARIAKLVPAPLVLHGASAVPQELVERFRAAGGEIGEASGIHPEDIKKAISLGIAKINTDTDLRLAFTALVRETLGKNPKEFDPRKYLGPAREAVKEVVKSRELFGSVGRA LVTGLEILRKARAEGYGVGAFNTNNEFTQAILEAAEEKSPVILALSEGAKYGGRALTRVVALAQEARVPVAVHLDHGSSYESVLKALREGFTSVIDKSHEDFETNVRETKRVVEAAHAVGVTVEAELGRLAGIEEHVAVDEKDALLTNPEEARIFERTGADYLAVAIGTSHGAYKGKGRPFIDHPRLARIAKLVPAPLVLHGASAVPQELVERFRAAGGEIGEASGIHPEDIKKAISLGIAKINTDTDLRLAFTALVRETLGKNPKEFDPRKYLGPAREAVKEVVKSRELFGSVGRA 2fjk-a1-m1-cD_2fjk-a1-m1-cC Crystal structure of Fructose-1,6-Bisphosphate Aldolase in Thermus caldophilus Q703I2 Q703I2 2.2 X-RAY DIFFRACTION 94 1.0 272 (Thermus caldophilus) 272 (Thermus caldophilus) 282 291 2fjk-a1-m1-cB_2fjk-a1-m1-cA LVTGLEILRKARAEGYGVGAFNTNNEFTQAILEAAEEKSPVILALSEGAKYGGRALTRVVALAQEARVPVAVHLDHGSSYESVLKALREGFTSVIDKSHEDFETNVRETKRVVEAAHAVGVTVEAELGRLLTNPEEARIFERTGADYLAVAIGTSHGAYKGKGRPFIDHPRLARIAKLVPAPLVLHGASAVPQELVERFRAAGGEIGEASGIHPEDIKKAISLGIAKINTDTDLRLAFTALVRETLGKNPKEFDPRKYLGPAREAVKEVVKSRELFGSVGRA LVTGLEILRKARAEGYGVGAFNTNNEFTQAILEAAEEKSPVILALSEGAKYGGRALTRVVALAQEARVPVAVHLDHGSSYESVLKALREGFTSVIDKSHEDFETNVRETKRVVEAAHAVGVTVEAELGRLAGIEEKDALLTNPEEARIFERTGADYLAVAIGTSHGAYKGKGRPFIDHPRLARIAKLVPAPLVLHGASAVPQELVERFRAAGGEIGEASGIHPEDIKKAISLGIAKINTDTDLRLAFTALVRETLGKNPKEFDPRKYLGPAREAVKEVVKSRELFGSVGRA 2fjr-a2-m1-cA_2fjr-a2-m2-cA Crystal Structure of Bacteriophage 186 P08707 P08707 1.95 X-RAY DIFFRACTION 18 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 189 189 DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 2fjr-a2-m1-cA_2fjr-a2-m2-cB Crystal Structure of Bacteriophage 186 P08707 P08707 1.95 X-RAY DIFFRACTION 29 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 189 189 2fjr-a2-m1-cB_2fjr-a2-m2-cA DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 2fjr-a3-m1-cA_2fjr-a3-m3-cB Crystal Structure of Bacteriophage 186 P08707 P08707 1.95 X-RAY DIFFRACTION 28 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 189 189 2fjr-a3-m1-cB_2fjr-a3-m3-cA DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 2fjr-a3-m3-cA_2fjr-a3-m3-cB Crystal Structure of Bacteriophage 186 P08707 P08707 1.95 X-RAY DIFFRACTION 60 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 189 189 2fjr-a1-m1-cA_2fjr-a1-m1-cB 2fjr-a2-m1-cA_2fjr-a2-m1-cB 2fjr-a2-m2-cA_2fjr-a2-m2-cB 2fjr-a3-m1-cA_2fjr-a3-m1-cB DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN DSLGWSNVDVLDRICEAYGFSQKIQLANHFDIASSSLSNRYTRGAISYDFAAHCALETGANLQWLLTGEGEAFVNNRESSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIKGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 2fk5-a1-m4-cB_2fk5-a1-m4-cA Crystal structure of l-fuculose-1-phosphate aldolase from Thermus thermophilus HB8 Q5SHB9 Q5SHB9 1.9 X-RAY DIFFRACTION 40 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 194 195 2fk5-a1-m1-cB_2fk5-a1-m1-cA 2fk5-a1-m2-cB_2fk5-a1-m2-cA 2fk5-a1-m3-cB_2fk5-a1-m3-cA RARLYAAFRQVGEDLFAQGLISATAGNFSVRTKGGFLITKSGVQKARLTPEDLLEVPLEGPIPEGASVESVVHREVYRRTGARALVHAHPRVAVALSFHLSRLRPLDLEGQHYLKEVPVLAPKTVSATEEAALSVAEALREHRACLLRGHGAFAVGLKEAPEEALLEAYGLMTTLEESAQILLYHRLWQGAGPA RARLYAAFRQVGEDLFAQGLISATAGNFSVRTKGGFLITKSGVQKARLTPEDLLEVPLEGPIPEGASVESVVHREVYRRTGARALVHAHPRVAVALSFHLSRLRPLDLEGQHYLKEVPVLAPKTVSATEEAALSVAEALREHRACLLRGHGAFAVGLKEAPEEALLEAYGLMTTLEESAQILLYHRLWQGAGPAL 2fk5-a3-m5-cB_2fk5-a3-m7-cB Crystal structure of l-fuculose-1-phosphate aldolase from Thermus thermophilus HB8 Q5SHB9 Q5SHB9 1.9 X-RAY DIFFRACTION 70 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 194 194 2fk5-a1-m1-cA_2fk5-a1-m3-cA 2fk5-a1-m1-cA_2fk5-a1-m4-cA 2fk5-a1-m2-cA_2fk5-a1-m3-cA 2fk5-a1-m2-cA_2fk5-a1-m4-cA 2fk5-a2-m1-cA_2fk5-a2-m3-cA 2fk5-a2-m1-cA_2fk5-a2-m4-cA 2fk5-a2-m2-cA_2fk5-a2-m3-cA 2fk5-a2-m2-cA_2fk5-a2-m4-cA 2fk5-a3-m1-cB_2fk5-a3-m6-cB 2fk5-a3-m1-cB_2fk5-a3-m7-cB 2fk5-a3-m5-cB_2fk5-a3-m6-cB 2flf-a1-m1-cA_2flf-a1-m1-cB 2flf-a1-m1-cA_2flf-a1-m1-cD 2flf-a1-m1-cB_2flf-a1-m1-cC 2flf-a1-m1-cC_2flf-a1-m1-cD 2flf-a2-m1-cE_2flf-a2-m1-cF 2flf-a2-m1-cG_2flf-a2-m1-cF 2flf-a2-m1-cH_2flf-a2-m1-cE 2flf-a2-m1-cH_2flf-a2-m1-cG RARLYAAFRQVGEDLFAQGLISATAGNFSVRTKGGFLITKSGVQKARLTPEDLLEVPLEGPIPEGASVESVVHREVYRRTGARALVHAHPRVAVALSFHLSRLRPLDLEGQHYLKEVPVLAPKTVSATEEAALSVAEALREHRACLLRGHGAFAVGLKEAPEEALLEAYGLMTTLEESAQILLYHRLWQGAGPA RARLYAAFRQVGEDLFAQGLISATAGNFSVRTKGGFLITKSGVQKARLTPEDLLEVPLEGPIPEGASVESVVHREVYRRTGARALVHAHPRVAVALSFHLSRLRPLDLEGQHYLKEVPVLAPKTVSATEEAALSVAEALREHRACLLRGHGAFAVGLKEAPEEALLEAYGLMTTLEESAQILLYHRLWQGAGPA 2fk6-a1-m1-cA_2fk6-a1-m2-cA Crystal Structure of RNAse Z/tRNA(Thr) complex P54548 P54548 2.9 X-RAY DIFFRACTION 100 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 307 307 4gcw-a3-m1-cA_4gcw-a3-m2-cA MELLFLGTGAGIPAKARNVTSVALKLLEERRSVWLFDCGEATQHQMLHTTIKPRKIEKIFITHMAGDHVYGLPGLLGSRSFQGGEDELTVYGPKGIKAFIETSLAVTKTHLTYPLAIQEIEEGIVFEDDQFIVTAVSVIHGVEAFGYRVQEKDVPGSLKADVLKEMNIPPGPVYQKIKKGETVTLEDGRIINGNDFLEPPKKGRSVVFSGDTRVSDKLKELARDCDVMVHEATFAKEDRKLAYDYYHSTTEQAAVTAKEARAKQLILTHISARYQGDASLELQKEAVDVFPNSVAAYDFLEVNVPRG MELLFLGTGAGIPAKARNVTSVALKLLEERRSVWLFDCGEATQHQMLHTTIKPRKIEKIFITHMAGDHVYGLPGLLGSRSFQGGEDELTVYGPKGIKAFIETSLAVTKTHLTYPLAIQEIEEGIVFEDDQFIVTAVSVIHGVEAFGYRVQEKDVPGSLKADVLKEMNIPPGPVYQKIKKGETVTLEDGRIINGNDFLEPPKKGRSVVFSGDTRVSDKLKELARDCDVMVHEATFAKEDRKLAYDYYHSTTEQAAVTAKEARAKQLILTHISARYQGDASLELQKEAVDVFPNSVAAYDFLEVNVPRG 2fka-a2-m12-cA_2fka-a2-m9-cA Crystal structure of Mg(2+) and BeF(3)(-)-bound CheY in complex with CheZ(200-214) solved from a F432 crystal grown in CAPS (pH 10.5) P0A2D5 P0A2D5 2 X-RAY DIFFRACTION 19 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 128 128 2fka-a2-m10-cA_2fka-a2-m4-cA 2fka-a2-m11-cA_2fka-a2-m2-cA 2fka-a2-m1-cA_2fka-a2-m7-cA 2fka-a2-m3-cA_2fka-a2-m6-cA 2fka-a2-m5-cA_2fka-a2-m8-cA ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGFGFIISDWNMPNMDGLELLKTIRADSAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGFGFIISDWNMPNMDGLELLKTIRADSAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 2fkd-a1-m1-cB_2fkd-a1-m1-cN Crystal Structure of the C-terminal domain of Bacteriophage 186 repressor P08707 P08707 2.7 X-RAY DIFFRACTION 35 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 110 110 2fkd-a1-m1-cA_2fkd-a1-m1-cC 2fkd-a1-m1-cA_2fkd-a1-m1-cM 2fkd-a1-m1-cB_2fkd-a1-m1-cD 2fkd-a1-m1-cC_2fkd-a1-m1-cE 2fkd-a1-m1-cD_2fkd-a1-m1-cF 2fkd-a1-m1-cE_2fkd-a1-m1-cG 2fkd-a1-m1-cF_2fkd-a1-m1-cH 2fkd-a1-m1-cG_2fkd-a1-m1-cI 2fkd-a1-m1-cH_2fkd-a1-m1-cJ 2fkd-a1-m1-cI_2fkd-a1-m1-cK 2fkd-a1-m1-cJ_2fkd-a1-m1-cL 2fkd-a1-m1-cK_2fkd-a1-m1-cM 2fkd-a1-m1-cL_2fkd-a1-m1-cN 7jvt-a1-m1-cC_7jvt-a1-m2-cD 7jvt-a1-m2-cC_7jvt-a1-m1-cD SDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIEGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN SDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIEGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 2fkd-a1-m1-cC_2fkd-a1-m1-cN Crystal Structure of the C-terminal domain of Bacteriophage 186 repressor P08707 P08707 2.7 X-RAY DIFFRACTION 61 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 110 110 2fkd-a1-m1-cA_2fkd-a1-m1-cB 2fkd-a1-m1-cD_2fkd-a1-m1-cM 2fkd-a1-m1-cE_2fkd-a1-m1-cL 2fkd-a1-m1-cF_2fkd-a1-m1-cK 2fkd-a1-m1-cG_2fkd-a1-m1-cJ 2fkd-a1-m1-cH_2fkd-a1-m1-cI 7jvt-a1-m1-cC_7jvt-a1-m1-cD 7jvt-a1-m2-cC_7jvt-a1-m2-cD SDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIEGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN SDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIEGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 2fkj-a1-m1-cA_2fkj-a1-m1-cC The crystal structure of engineered OspA P0CL66 P0CL66 3.1 X-RAY DIFFRACTION 58 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 361 361 NSVSVDLPGEMKVLVSKEKNKDGKYDLIATVDKLELKGTSDKNNGSGVLEGVKADKSKVKLTISDDLGQTTLEVFKEDGKTLVSKKVTSKDKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTKENTITVQQYDSNGTKLEGSAVEITKLDEIKNALK NSVSVDLPGEMKVLVSKEKNKDGKYDLIATVDKLELKGTSDKNNGSGVLEGVKADKSKVKLTISDDLGQTTLEVFKEDGKTLVSKKVTSKDKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTKENTITVQQYDSNGTKLEGSAVEITKLDEIKNALK 2fkj-a1-m1-cB_2fkj-a1-m1-cC The crystal structure of engineered OspA P0CL66 P0CL66 3.1 X-RAY DIFFRACTION 75 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 361 361 2fkj-a1-m1-cA_2fkj-a1-m1-cB NSVSVDLPGEMKVLVSKEKNKDGKYDLIATVDKLELKGTSDKNNGSGVLEGVKADKSKVKLTISDDLGQTTLEVFKEDGKTLVSKKVTSKDKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTKENTITVQQYDSNGTKLEGSAVEITKLDEIKNALK NSVSVDLPGEMKVLVSKEKNKDGKYDLIATVDKLELKGTSDKNNGSGVLEGVKADKSKVKLTISDDLGQTTLEVFKEDGKTLVSKKVTSKDKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGELSEKKITRADKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTKENTITVQQYDSNGTKLEGSAVEITKLDEIKNALK 2fkk-a1-m2-cA_2fkk-a1-m3-cA Crystal structure of the C-terminal domain of the bacteriophage T4 gene product 10 P10928 P10928 1.2 X-RAY DIFFRACTION 315 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 184 184 2fkk-a1-m1-cA_2fkk-a1-m2-cA 2fkk-a1-m1-cA_2fkk-a1-m3-cA 2fl8-a1-m1-cA_2fl8-a1-m1-cB 2fl8-a1-m1-cD_2fl8-a1-m1-cE 2fl8-a1-m1-cG_2fl8-a1-m1-cH 2fl8-a1-m1-cJ_2fl8-a1-m1-cK 2fl8-a1-m1-cM_2fl8-a1-m1-cN 2fl8-a1-m1-cP_2fl8-a1-m1-cQ LYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA LYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 2fkn-a2-m1-cC_2fkn-a2-m1-cD crystal structure of urocanase from bacillus subtilis P25503 P25503 2.2 X-RAY DIFFRACTION 270 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 544 544 2fkn-a1-m1-cA_2fkn-a1-m1-cB SIRANRGTELECLGWEQEAVLRMLRNNLDPEVAEKPEDLIVYGGIGKAARDWDAFHAIEHSLKTLKNDETLLVQSGKPVGMFRTHPQAPRVLLANSVLVPKWADWEHFHELEKKGLMMYGQMTAGSWIYIGSQGILQGTYETFAELARQHFGGSLKGTLTLTAGLGGMGGAQPLSVTMNEGVVIAVEVDEKRIDKRIETKYCDRKTASIEEALAWAEEAKLAGKPLSIALLGNAAEVHHTLLNRGVKIDIVTDQTSAHDPLIGYVPEGYSLDEADRLRQDTPELYVRLAKQSMKKHVEAMLAFQQKGSIVFDYGNNIRQVAKDEGLENAFDFPGFVPAYIRPLFCEGKGPFRWAALSGDPADIYRTDALLKELFPTNKALHRWIDMAQEKVTFQGLPSRICWLGYGERKKMGLAINELVRTGELKAPVVIGRDHLDCGSVASPNRETEAMKDGSDAVGDWAVLNALVNTAAGASWVSFHHGGGVGMGYSLHAGMVAVADGSELADERLARVLTSDPGMGIIRHADAGYERAVEVAKEQDIIVPM SIRANRGTELECLGWEQEAVLRMLRNNLDPEVAEKPEDLIVYGGIGKAARDWDAFHAIEHSLKTLKNDETLLVQSGKPVGMFRTHPQAPRVLLANSVLVPKWADWEHFHELEKKGLMMYGQMTAGSWIYIGSQGILQGTYETFAELARQHFGGSLKGTLTLTAGLGGMGGAQPLSVTMNEGVVIAVEVDEKRIDKRIETKYCDRKTASIEEALAWAEEAKLAGKPLSIALLGNAAEVHHTLLNRGVKIDIVTDQTSAHDPLIGYVPEGYSLDEADRLRQDTPELYVRLAKQSMKKHVEAMLAFQQKGSIVFDYGNNIRQVAKDEGLENAFDFPGFVPAYIRPLFCEGKGPFRWAALSGDPADIYRTDALLKELFPTNKALHRWIDMAQEKVTFQGLPSRICWLGYGERKKMGLAINELVRTGELKAPVVIGRDHLDCGSVASPNRETEAMKDGSDAVGDWAVLNALVNTAAGASWVSFHHGGGVGMGYSLHAGMVAVADGSELADERLARVLTSDPGMGIIRHADAGYERAVEVAKEQDIIVPM 2fkp-a2-m5-cB_2fkp-a2-m7-cD The mutant G127C-T313C of Deinococcus Radiodurans N-acylamino acid racemase Q9RYA6 Q9RYA6 2 X-RAY DIFFRACTION 84 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 360 360 2fkp-a1-m1-cA_2fkp-a1-m4-cC 2fkp-a1-m1-cC_2fkp-a1-m3-cA 2fkp-a1-m2-cA_2fkp-a1-m3-cC 2fkp-a1-m2-cC_2fkp-a1-m4-cA 2fkp-a2-m1-cB_2fkp-a2-m6-cD 2fkp-a2-m1-cD_2fkp-a2-m7-cB 2fkp-a2-m5-cD_2fkp-a2-m6-cB 2ggg-a1-m1-cA_2ggg-a1-m4-cC 2ggg-a1-m2-cA_2ggg-a1-m3-cC 2ggg-a1-m3-cA_2ggg-a1-m1-cC 2ggg-a1-m4-cA_2ggg-a1-m2-cC 2ggg-a2-m1-cB_2ggg-a2-m6-cD 2ggg-a2-m5-cB_2ggg-a2-m7-cD 2ggg-a2-m6-cB_2ggg-a2-m5-cD 2ggg-a2-m7-cB_2ggg-a2-m1-cD 2ggh-a1-m1-cA_2ggh-a1-m4-cC 2ggh-a1-m2-cA_2ggh-a1-m3-cC 2ggh-a1-m3-cA_2ggh-a1-m1-cC 2ggh-a1-m4-cA_2ggh-a1-m2-cC 2ggh-a2-m1-cB_2ggh-a2-m6-cD 2ggh-a2-m5-cB_2ggh-a2-m7-cD 2ggh-a2-m6-cB_2ggh-a2-m5-cD 2ggh-a2-m7-cB_2ggh-a2-m1-cD 2ggi-a1-m1-cA_2ggi-a1-m4-cC 2ggi-a1-m1-cC_2ggi-a1-m3-cA 2ggi-a1-m2-cA_2ggi-a1-m3-cC 2ggi-a1-m2-cC_2ggi-a1-m4-cA 2ggi-a2-m1-cB_2ggi-a2-m6-cD 2ggi-a2-m1-cD_2ggi-a2-m7-cB 2ggi-a2-m5-cB_2ggi-a2-m7-cD 2ggi-a2-m5-cD_2ggi-a2-m6-cB 2ggj-a1-m1-cA_2ggj-a1-m4-cC 2ggj-a1-m1-cC_2ggj-a1-m3-cA 2ggj-a1-m2-cA_2ggj-a1-m3-cC 2ggj-a1-m2-cC_2ggj-a1-m4-cA 2ggj-a2-m1-cB_2ggj-a2-m6-cD 2ggj-a2-m1-cD_2ggj-a2-m7-cB 2ggj-a2-m5-cB_2ggj-a2-m7-cD 2ggj-a2-m5-cD_2ggj-a2-m6-cB RMFKIEAAEIVVARLPLKTHKVVPLLILHGEGVQGVAEGTMEARPMYREETIAGALDLLRGTFLPAILGQTFANPEAVSDALGSYRGNRMARAMVEMAAWDLWARTLGVPLCTLLGGHKEQVEVGVSLGIQADEQATVDLVRRHVEQGYRRIKLKIKPGWDVQPVRATREAFPDIRLTVDANSAYTLADAGRLRQLDEYDLTYIEQPLAWDDLVDHAELARRIRTPLCLDESVASASDARKALALGAGGVINLKVARVGGHAESRRVHDVAQSFGAPVWCGGMLESGIGRAHNIHLSCLSNFRLPGDTSSASRYWERDLIQEPLEAVDGLMPVPQGPGTGVTLDREFLATVTEAQEEHRA RMFKIEAAEIVVARLPLKTHKVVPLLILHGEGVQGVAEGTMEARPMYREETIAGALDLLRGTFLPAILGQTFANPEAVSDALGSYRGNRMARAMVEMAAWDLWARTLGVPLCTLLGGHKEQVEVGVSLGIQADEQATVDLVRRHVEQGYRRIKLKIKPGWDVQPVRATREAFPDIRLTVDANSAYTLADAGRLRQLDEYDLTYIEQPLAWDDLVDHAELARRIRTPLCLDESVASASDARKALALGAGGVINLKVARVGGHAESRRVHDVAQSFGAPVWCGGMLESGIGRAHNIHLSCLSNFRLPGDTSSASRYWERDLIQEPLEAVDGLMPVPQGPGTGVTLDREFLATVTEAQEEHRA 2fkp-a2-m5-cD_2fkp-a2-m7-cD The mutant G127C-T313C of Deinococcus Radiodurans N-acylamino acid racemase Q9RYA6 Q9RYA6 2 X-RAY DIFFRACTION 21 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 360 360 2fkp-a1-m1-cA_2fkp-a1-m3-cA 2fkp-a1-m1-cA_2fkp-a1-m4-cA 2fkp-a1-m1-cC_2fkp-a1-m3-cC 2fkp-a1-m1-cC_2fkp-a1-m4-cC 2fkp-a1-m2-cA_2fkp-a1-m3-cA 2fkp-a1-m2-cA_2fkp-a1-m4-cA 2fkp-a1-m2-cC_2fkp-a1-m3-cC 2fkp-a1-m2-cC_2fkp-a1-m4-cC 2fkp-a2-m1-cB_2fkp-a2-m6-cB 2fkp-a2-m1-cB_2fkp-a2-m7-cB 2fkp-a2-m1-cD_2fkp-a2-m6-cD 2fkp-a2-m1-cD_2fkp-a2-m7-cD 2fkp-a2-m5-cB_2fkp-a2-m6-cB 2fkp-a2-m5-cB_2fkp-a2-m7-cB 2fkp-a2-m5-cD_2fkp-a2-m6-cD 2ggg-a1-m1-cA_2ggg-a1-m3-cA 2ggg-a1-m1-cA_2ggg-a1-m4-cA 2ggg-a1-m1-cC_2ggg-a1-m3-cC 2ggg-a1-m1-cC_2ggg-a1-m4-cC 2ggg-a1-m2-cA_2ggg-a1-m3-cA 2ggg-a1-m2-cA_2ggg-a1-m4-cA 2ggg-a1-m2-cC_2ggg-a1-m3-cC 2ggg-a1-m2-cC_2ggg-a1-m4-cC 2ggg-a2-m1-cB_2ggg-a2-m6-cB 2ggg-a2-m1-cB_2ggg-a2-m7-cB 2ggg-a2-m1-cD_2ggg-a2-m6-cD 2ggg-a2-m1-cD_2ggg-a2-m7-cD 2ggg-a2-m5-cB_2ggg-a2-m6-cB 2ggg-a2-m5-cB_2ggg-a2-m7-cB 2ggg-a2-m5-cD_2ggg-a2-m6-cD 2ggg-a2-m5-cD_2ggg-a2-m7-cD 2ggh-a1-m1-cA_2ggh-a1-m3-cA 2ggh-a1-m1-cA_2ggh-a1-m4-cA 2ggh-a1-m1-cC_2ggh-a1-m3-cC 2ggh-a1-m1-cC_2ggh-a1-m4-cC 2ggh-a1-m2-cA_2ggh-a1-m3-cA 2ggh-a1-m2-cA_2ggh-a1-m4-cA 2ggh-a1-m2-cC_2ggh-a1-m3-cC 2ggh-a1-m2-cC_2ggh-a1-m4-cC 2ggh-a2-m1-cB_2ggh-a2-m6-cB 2ggh-a2-m1-cB_2ggh-a2-m7-cB 2ggh-a2-m1-cD_2ggh-a2-m6-cD 2ggh-a2-m1-cD_2ggh-a2-m7-cD 2ggh-a2-m5-cB_2ggh-a2-m6-cB 2ggh-a2-m5-cB_2ggh-a2-m7-cB 2ggh-a2-m5-cD_2ggh-a2-m6-cD 2ggh-a2-m5-cD_2ggh-a2-m7-cD 2ggi-a1-m1-cA_2ggi-a1-m3-cA 2ggi-a1-m1-cA_2ggi-a1-m4-cA 2ggi-a1-m1-cC_2ggi-a1-m3-cC 2ggi-a1-m1-cC_2ggi-a1-m4-cC 2ggi-a1-m2-cA_2ggi-a1-m3-cA 2ggi-a1-m2-cA_2ggi-a1-m4-cA 2ggi-a1-m2-cC_2ggi-a1-m3-cC 2ggi-a1-m2-cC_2ggi-a1-m4-cC 2ggi-a2-m1-cB_2ggi-a2-m6-cB 2ggi-a2-m1-cB_2ggi-a2-m7-cB 2ggi-a2-m1-cD_2ggi-a2-m6-cD 2ggi-a2-m1-cD_2ggi-a2-m7-cD 2ggi-a2-m5-cB_2ggi-a2-m6-cB 2ggi-a2-m5-cB_2ggi-a2-m7-cB 2ggi-a2-m5-cD_2ggi-a2-m6-cD 2ggi-a2-m5-cD_2ggi-a2-m7-cD 2ggj-a1-m1-cA_2ggj-a1-m3-cA 2ggj-a1-m1-cA_2ggj-a1-m4-cA 2ggj-a1-m1-cC_2ggj-a1-m3-cC 2ggj-a1-m1-cC_2ggj-a1-m4-cC 2ggj-a1-m2-cA_2ggj-a1-m3-cA 2ggj-a1-m2-cA_2ggj-a1-m4-cA 2ggj-a1-m2-cC_2ggj-a1-m3-cC 2ggj-a1-m2-cC_2ggj-a1-m4-cC 2ggj-a2-m1-cB_2ggj-a2-m6-cB 2ggj-a2-m1-cB_2ggj-a2-m7-cB 2ggj-a2-m1-cD_2ggj-a2-m6-cD 2ggj-a2-m1-cD_2ggj-a2-m7-cD 2ggj-a2-m5-cB_2ggj-a2-m6-cB 2ggj-a2-m5-cB_2ggj-a2-m7-cB 2ggj-a2-m5-cD_2ggj-a2-m6-cD 2ggj-a2-m5-cD_2ggj-a2-m7-cD RMFKIEAAEIVVARLPLKTHKVVPLLILHGEGVQGVAEGTMEARPMYREETIAGALDLLRGTFLPAILGQTFANPEAVSDALGSYRGNRMARAMVEMAAWDLWARTLGVPLCTLLGGHKEQVEVGVSLGIQADEQATVDLVRRHVEQGYRRIKLKIKPGWDVQPVRATREAFPDIRLTVDANSAYTLADAGRLRQLDEYDLTYIEQPLAWDDLVDHAELARRIRTPLCLDESVASASDARKALALGAGGVINLKVARVGGHAESRRVHDVAQSFGAPVWCGGMLESGIGRAHNIHLSCLSNFRLPGDTSSASRYWERDLIQEPLEAVDGLMPVPQGPGTGVTLDREFLATVTEAQEEHRA RMFKIEAAEIVVARLPLKTHKVVPLLILHGEGVQGVAEGTMEARPMYREETIAGALDLLRGTFLPAILGQTFANPEAVSDALGSYRGNRMARAMVEMAAWDLWARTLGVPLCTLLGGHKEQVEVGVSLGIQADEQATVDLVRRHVEQGYRRIKLKIKPGWDVQPVRATREAFPDIRLTVDANSAYTLADAGRLRQLDEYDLTYIEQPLAWDDLVDHAELARRIRTPLCLDESVASASDARKALALGAGGVINLKVARVGGHAESRRVHDVAQSFGAPVWCGGMLESGIGRAHNIHLSCLSNFRLPGDTSSASRYWERDLIQEPLEAVDGLMPVPQGPGTGVTLDREFLATVTEAQEEHRA 2fkz-a1-m2-cG_2fkz-a1-m3-cH Reduced (All Ferrous) form of the Azotobacter vinelandii bacterioferritin P22759 P22759 2 X-RAY DIFFRACTION 24 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 155 155 1sof-a1-m1-cA_1sof-a1-m1-cF 1sof-a1-m1-cA_1sof-a1-m2-cH 1sof-a1-m1-cB_1sof-a1-m1-cD 1sof-a1-m1-cB_1sof-a1-m2-cE 1sof-a1-m1-cC_1sof-a1-m1-cE 1sof-a1-m1-cC_1sof-a1-m3-cD 1sof-a1-m1-cD_1sof-a1-m2-cC 1sof-a1-m1-cE_1sof-a1-m3-cB 1sof-a1-m1-cF_1sof-a1-m1-cG 1sof-a1-m1-cG_1sof-a1-m2-cH 1sof-a1-m1-cH_1sof-a1-m3-cA 1sof-a1-m1-cH_1sof-a1-m3-cG 1sof-a1-m2-cA_1sof-a1-m2-cF 1sof-a1-m2-cA_1sof-a1-m3-cH 1sof-a1-m2-cB_1sof-a1-m2-cD 1sof-a1-m2-cB_1sof-a1-m3-cE 1sof-a1-m2-cC_1sof-a1-m2-cE 1sof-a1-m2-cD_1sof-a1-m3-cC 1sof-a1-m2-cF_1sof-a1-m2-cG 1sof-a1-m2-cG_1sof-a1-m3-cH 1sof-a1-m3-cA_1sof-a1-m3-cF 1sof-a1-m3-cB_1sof-a1-m3-cD 1sof-a1-m3-cC_1sof-a1-m3-cE 1sof-a1-m3-cF_1sof-a1-m3-cG 2fkz-a1-m1-cA_2fkz-a1-m1-cF 2fkz-a1-m1-cA_2fkz-a1-m2-cH 2fkz-a1-m1-cB_2fkz-a1-m1-cD 2fkz-a1-m1-cB_2fkz-a1-m2-cE 2fkz-a1-m1-cC_2fkz-a1-m1-cE 2fkz-a1-m1-cC_2fkz-a1-m3-cD 2fkz-a1-m1-cD_2fkz-a1-m2-cC 2fkz-a1-m1-cE_2fkz-a1-m3-cB 2fkz-a1-m1-cF_2fkz-a1-m1-cG 2fkz-a1-m1-cG_2fkz-a1-m2-cH 2fkz-a1-m1-cH_2fkz-a1-m3-cA 2fkz-a1-m1-cH_2fkz-a1-m3-cG 2fkz-a1-m2-cA_2fkz-a1-m2-cF 2fkz-a1-m2-cA_2fkz-a1-m3-cH 2fkz-a1-m2-cB_2fkz-a1-m2-cD 2fkz-a1-m2-cB_2fkz-a1-m3-cE 2fkz-a1-m2-cC_2fkz-a1-m2-cE 2fkz-a1-m2-cD_2fkz-a1-m3-cC 2fkz-a1-m2-cF_2fkz-a1-m2-cG 2fkz-a1-m3-cA_2fkz-a1-m3-cF 2fkz-a1-m3-cB_2fkz-a1-m3-cD 2fkz-a1-m3-cC_2fkz-a1-m3-cE 2fkz-a1-m3-cF_2fkz-a1-m3-cG 2fl0-a1-m1-cA_2fl0-a1-m1-cF 2fl0-a1-m1-cA_2fl0-a1-m2-cH 2fl0-a1-m1-cB_2fl0-a1-m1-cD 2fl0-a1-m1-cB_2fl0-a1-m2-cE 2fl0-a1-m1-cC_2fl0-a1-m1-cE 2fl0-a1-m1-cC_2fl0-a1-m3-cD 2fl0-a1-m1-cD_2fl0-a1-m2-cC 2fl0-a1-m1-cE_2fl0-a1-m3-cB 2fl0-a1-m1-cF_2fl0-a1-m1-cG 2fl0-a1-m1-cG_2fl0-a1-m2-cH 2fl0-a1-m1-cH_2fl0-a1-m3-cA 2fl0-a1-m1-cH_2fl0-a1-m3-cG 2fl0-a1-m2-cA_2fl0-a1-m2-cF 2fl0-a1-m2-cA_2fl0-a1-m3-cH 2fl0-a1-m2-cB_2fl0-a1-m2-cD 2fl0-a1-m2-cB_2fl0-a1-m3-cE 2fl0-a1-m2-cC_2fl0-a1-m2-cE 2fl0-a1-m2-cD_2fl0-a1-m3-cC 2fl0-a1-m2-cF_2fl0-a1-m2-cG 2fl0-a1-m2-cG_2fl0-a1-m3-cH 2fl0-a1-m3-cA_2fl0-a1-m3-cF 2fl0-a1-m3-cB_2fl0-a1-m3-cD 2fl0-a1-m3-cC_2fl0-a1-m3-cE 2fl0-a1-m3-cF_2fl0-a1-m3-cG MKGDKIVIQHLNKILGNELIAINQYFLHARMYEDWGLEKLGKHEYHESIDEMKHADKLIKRILFLEGLPNLQELGKLLIGEHTKEMLECDLKLEQAGLPDLKAAIAYCESVGDYASRELLEDILESEEDHIDWLETQLDLIDKIGLENYLQSQMD MKGDKIVIQHLNKILGNELIAINQYFLHARMYEDWGLEKLGKHEYHESIDEMKHADKLIKRILFLEGLPNLQELGKLLIGEHTKEMLECDLKLEQAGLPDLKAAIAYCESVGDYASRELLEDILESEEDHIDWLETQLDLIDKIGLENYLQSQMD 2fkz-a1-m2-cH_2fkz-a1-m3-cH Reduced (All Ferrous) form of the Azotobacter vinelandii bacterioferritin P22759 P22759 2 X-RAY DIFFRACTION 19 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 155 155 1sof-a1-m1-cA_1sof-a1-m2-cE 1sof-a1-m1-cA_1sof-a1-m2-cG 1sof-a1-m1-cB_1sof-a1-m1-cC 1sof-a1-m1-cB_1sof-a1-m1-cF 1sof-a1-m1-cC_1sof-a1-m1-cF 1sof-a1-m1-cD_1sof-a1-m2-cD 1sof-a1-m1-cD_1sof-a1-m3-cD 1sof-a1-m1-cE_1sof-a1-m1-cG 1sof-a1-m1-cE_1sof-a1-m3-cA 1sof-a1-m1-cG_1sof-a1-m3-cA 1sof-a1-m1-cH_1sof-a1-m2-cH 1sof-a1-m1-cH_1sof-a1-m3-cH 1sof-a1-m2-cA_1sof-a1-m3-cE 1sof-a1-m2-cA_1sof-a1-m3-cG 1sof-a1-m2-cB_1sof-a1-m2-cC 1sof-a1-m2-cB_1sof-a1-m2-cF 1sof-a1-m2-cC_1sof-a1-m2-cF 1sof-a1-m2-cD_1sof-a1-m3-cD 1sof-a1-m2-cE_1sof-a1-m2-cG 1sof-a1-m2-cH_1sof-a1-m3-cH 1sof-a1-m3-cB_1sof-a1-m3-cC 1sof-a1-m3-cB_1sof-a1-m3-cF 1sof-a1-m3-cC_1sof-a1-m3-cF 1sof-a1-m3-cE_1sof-a1-m3-cG 2fkz-a1-m1-cA_2fkz-a1-m2-cE 2fkz-a1-m1-cA_2fkz-a1-m2-cG 2fkz-a1-m1-cB_2fkz-a1-m1-cC 2fkz-a1-m1-cB_2fkz-a1-m1-cF 2fkz-a1-m1-cC_2fkz-a1-m1-cF 2fkz-a1-m1-cD_2fkz-a1-m2-cD 2fkz-a1-m1-cD_2fkz-a1-m3-cD 2fkz-a1-m1-cE_2fkz-a1-m1-cG 2fkz-a1-m1-cE_2fkz-a1-m3-cA 2fkz-a1-m1-cG_2fkz-a1-m3-cA 2fkz-a1-m1-cH_2fkz-a1-m2-cH 2fkz-a1-m1-cH_2fkz-a1-m3-cH 2fkz-a1-m2-cA_2fkz-a1-m3-cE 2fkz-a1-m2-cA_2fkz-a1-m3-cG 2fkz-a1-m2-cB_2fkz-a1-m2-cC 2fkz-a1-m2-cB_2fkz-a1-m2-cF 2fkz-a1-m2-cC_2fkz-a1-m2-cF 2fkz-a1-m2-cD_2fkz-a1-m3-cD 2fkz-a1-m2-cE_2fkz-a1-m2-cG 2fkz-a1-m3-cB_2fkz-a1-m3-cC 2fkz-a1-m3-cB_2fkz-a1-m3-cF 2fkz-a1-m3-cC_2fkz-a1-m3-cF 2fkz-a1-m3-cE_2fkz-a1-m3-cG 2fl0-a1-m1-cA_2fl0-a1-m2-cE 2fl0-a1-m1-cA_2fl0-a1-m2-cG 2fl0-a1-m1-cB_2fl0-a1-m1-cC 2fl0-a1-m1-cB_2fl0-a1-m1-cF 2fl0-a1-m1-cC_2fl0-a1-m1-cF 2fl0-a1-m1-cD_2fl0-a1-m2-cD 2fl0-a1-m1-cD_2fl0-a1-m3-cD 2fl0-a1-m1-cE_2fl0-a1-m1-cG 2fl0-a1-m1-cE_2fl0-a1-m3-cA 2fl0-a1-m1-cG_2fl0-a1-m3-cA 2fl0-a1-m1-cH_2fl0-a1-m2-cH 2fl0-a1-m1-cH_2fl0-a1-m3-cH 2fl0-a1-m2-cA_2fl0-a1-m3-cE 2fl0-a1-m2-cA_2fl0-a1-m3-cG 2fl0-a1-m2-cB_2fl0-a1-m2-cC 2fl0-a1-m2-cB_2fl0-a1-m2-cF 2fl0-a1-m2-cC_2fl0-a1-m2-cF 2fl0-a1-m2-cD_2fl0-a1-m3-cD 2fl0-a1-m2-cE_2fl0-a1-m2-cG 2fl0-a1-m2-cH_2fl0-a1-m3-cH 2fl0-a1-m3-cB_2fl0-a1-m3-cC 2fl0-a1-m3-cB_2fl0-a1-m3-cF 2fl0-a1-m3-cC_2fl0-a1-m3-cF 2fl0-a1-m3-cE_2fl0-a1-m3-cG MKGDKIVIQHLNKILGNELIAINQYFLHARMYEDWGLEKLGKHEYHESIDEMKHADKLIKRILFLEGLPNLQELGKLLIGEHTKEMLECDLKLEQAGLPDLKAAIAYCESVGDYASRELLEDILESEEDHIDWLETQLDLIDKIGLENYLQSQMD MKGDKIVIQHLNKILGNELIAINQYFLHARMYEDWGLEKLGKHEYHESIDEMKHADKLIKRILFLEGLPNLQELGKLLIGEHTKEMLECDLKLEQAGLPDLKAAIAYCESVGDYASRELLEDILESEEDHIDWLETQLDLIDKIGLENYLQSQMD 2fkz-a1-m3-cG_2fkz-a1-m3-cH Reduced (All Ferrous) form of the Azotobacter vinelandii bacterioferritin P22759 P22759 2 X-RAY DIFFRACTION 49 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 155 155 1sof-a1-m1-cA_1sof-a1-m1-cB 1sof-a1-m1-cC_1sof-a1-m1-cD 1sof-a1-m1-cE_1sof-a1-m1-cF 1sof-a1-m1-cG_1sof-a1-m1-cH 1sof-a1-m2-cA_1sof-a1-m2-cB 1sof-a1-m2-cC_1sof-a1-m2-cD 1sof-a1-m2-cE_1sof-a1-m2-cF 1sof-a1-m2-cG_1sof-a1-m2-cH 1sof-a1-m3-cA_1sof-a1-m3-cB 1sof-a1-m3-cC_1sof-a1-m3-cD 1sof-a1-m3-cE_1sof-a1-m3-cF 1sof-a1-m3-cG_1sof-a1-m3-cH 2fkz-a1-m1-cA_2fkz-a1-m1-cB 2fkz-a1-m1-cC_2fkz-a1-m1-cD 2fkz-a1-m1-cE_2fkz-a1-m1-cF 2fkz-a1-m1-cG_2fkz-a1-m1-cH 2fkz-a1-m2-cA_2fkz-a1-m2-cB 2fkz-a1-m2-cC_2fkz-a1-m2-cD 2fkz-a1-m2-cE_2fkz-a1-m2-cF 2fkz-a1-m2-cG_2fkz-a1-m2-cH 2fkz-a1-m3-cA_2fkz-a1-m3-cB 2fkz-a1-m3-cC_2fkz-a1-m3-cD 2fkz-a1-m3-cE_2fkz-a1-m3-cF 2fl0-a1-m1-cA_2fl0-a1-m1-cB 2fl0-a1-m1-cC_2fl0-a1-m1-cD 2fl0-a1-m1-cE_2fl0-a1-m1-cF 2fl0-a1-m1-cG_2fl0-a1-m1-cH 2fl0-a1-m2-cA_2fl0-a1-m2-cB 2fl0-a1-m2-cC_2fl0-a1-m2-cD 2fl0-a1-m2-cE_2fl0-a1-m2-cF 2fl0-a1-m2-cG_2fl0-a1-m2-cH 2fl0-a1-m3-cA_2fl0-a1-m3-cB 2fl0-a1-m3-cC_2fl0-a1-m3-cD 2fl0-a1-m3-cE_2fl0-a1-m3-cF 2fl0-a1-m3-cG_2fl0-a1-m3-cH MKGDKIVIQHLNKILGNELIAINQYFLHARMYEDWGLEKLGKHEYHESIDEMKHADKLIKRILFLEGLPNLQELGKLLIGEHTKEMLECDLKLEQAGLPDLKAAIAYCESVGDYASRELLEDILESEEDHIDWLETQLDLIDKIGLENYLQSQMD MKGDKIVIQHLNKILGNELIAINQYFLHARMYEDWGLEKLGKHEYHESIDEMKHADKLIKRILFLEGLPNLQELGKLLIGEHTKEMLECDLKLEQAGLPDLKAAIAYCESVGDYASRELLEDILESEEDHIDWLETQLDLIDKIGLENYLQSQMD 2fl4-a1-m1-cA_2fl4-a1-m2-cA The crystal structure of the spermine/spermidine acetyltransferase from Enterococcus faecalis Q836M4 Q836M4 1.6 X-RAY DIFFRACTION 232 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 147 147 GMEIHFEKVTSDNRKAVENLQVFAEQQAFIESMAENLKESDQFPEWESAGIYDGNQLIGYAMYGRWQDGRVWLDRFLIDQRFQGQGYGKAACRLLMLKLIEKYQTNKLYLSVYDTNSSAIRLYQQLGFVFNGELDTNGERVMEWTHQ GMEIHFEKVTSDNRKAVENLQVFAEQQAFIESMAENLKESDQFPEWESAGIYDGNQLIGYAMYGRWQDGRVWLDRFLIDQRFQGQGYGKAACRLLMLKLIEKYQTNKLYLSVYDTNSSAIRLYQQLGFVFNGELDTNGERVMEWTHQ 2fl8-a1-m1-cP_2fl8-a1-m1-cR Fitting of the gp10 trimer structure into the cryoEM map of the bacteriophage T4 baseplate in the hexagonal conformation. P10928 P10928 12.0 ELECTRON MICROSCOPY 385 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 344 344 2fl8-a1-m1-cA_2fl8-a1-m1-cC 2fl8-a1-m1-cD_2fl8-a1-m1-cF 2fl8-a1-m1-cG_2fl8-a1-m1-cI 2fl8-a1-m1-cJ_2fl8-a1-m1-cL 2fl8-a1-m1-cM_2fl8-a1-m1-cO MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 2fl8-a1-m1-cQ_2fl8-a1-m1-cR Fitting of the gp10 trimer structure into the cryoEM map of the bacteriophage T4 baseplate in the hexagonal conformation. P10928 P10928 12.0 ELECTRON MICROSCOPY 389 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 344 344 2fl8-a1-m1-cB_2fl8-a1-m1-cC 2fl8-a1-m1-cE_2fl8-a1-m1-cF 2fl8-a1-m1-cH_2fl8-a1-m1-cI 2fl8-a1-m1-cK_2fl8-a1-m1-cL 2fl8-a1-m1-cN_2fl8-a1-m1-cO MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 2fl9-a1-m1-cP_2fl9-a1-m1-cQ Evolution of bacteriophage tails: Structure of T4 gene product 10 P10928 P10928 17.0 ELECTRON MICROSCOPY 385 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 344 344 2fl9-a1-m1-cA_2fl9-a1-m1-cB 2fl9-a1-m1-cD_2fl9-a1-m1-cE 2fl9-a1-m1-cG_2fl9-a1-m1-cH 2fl9-a1-m1-cJ_2fl9-a1-m1-cK 2fl9-a1-m1-cM_2fl9-a1-m1-cN MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 2fl9-a1-m1-cP_2fl9-a1-m1-cR Evolution of bacteriophage tails: Structure of T4 gene product 10 P10928 P10928 17.0 ELECTRON MICROSCOPY 385 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 344 344 2fl9-a1-m1-cA_2fl9-a1-m1-cC 2fl9-a1-m1-cD_2fl9-a1-m1-cF 2fl9-a1-m1-cG_2fl9-a1-m1-cI 2fl9-a1-m1-cJ_2fl9-a1-m1-cL 2fl9-a1-m1-cM_2fl9-a1-m1-cO MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 2fl9-a1-m1-cQ_2fl9-a1-m1-cR Evolution of bacteriophage tails: Structure of T4 gene product 10 P10928 P10928 17.0 ELECTRON MICROSCOPY 389 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 344 344 2fl9-a1-m1-cB_2fl9-a1-m1-cC 2fl9-a1-m1-cE_2fl9-a1-m1-cF 2fl9-a1-m1-cH_2fl9-a1-m1-cI 2fl9-a1-m1-cK_2fl9-a1-m1-cL 2fl9-a1-m1-cN_2fl9-a1-m1-cO MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWEYVKNKQIDKITSSDISLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQREFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENTNLPATETDEEVLIVDENGSVIVYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 2fli-a2-m1-cH_2fli-a2-m1-cK The crystal structure of D-ribulose 5-phosphate 3-epimerase from Streptococus pyogenes complexed with D-xylitol 5-phosphate Q9A1H8 Q9A1H8 1.8 X-RAY DIFFRACTION 79 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 216 216 2fli-a1-m1-cD_2fli-a1-m1-cC 2fli-a1-m1-cE_2fli-a1-m1-cB 2fli-a1-m1-cF_2fli-a1-m1-cA 2fli-a2-m1-cG_2fli-a2-m1-cL 2fli-a2-m1-cI_2fli-a2-m1-cJ TLKIAPSILAADYANFASELARIEETDAEYVHIDIMDGQFVPNISFGADVVASMRKHSKLVFDCHLMVVDPERYVEAFAQAGADIMTIHTESTRHIHGALQKIKAAGMKAGVVINPGTPATALEPLLDLVDQVLIMTVNPGFGGQAFIPECLEKVATVAKWRDEKGLSFDIEVDGGVDNKTIRACYEAGANVFVAGSYLFKASDLVSQVQTLRTAL TLKIAPSILAADYANFASELARIEETDAEYVHIDIMDGQFVPNISFGADVVASMRKHSKLVFDCHLMVVDPERYVEAFAQAGADIMTIHTESTRHIHGALQKIKAAGMKAGVVINPGTPATALEPLLDLVDQVLIMTVNPGFGGQAFIPECLEKVATVAKWRDEKGLSFDIEVDGGVDNKTIRACYEAGANVFVAGSYLFKASDLVSQVQTLRTAL 2fli-a2-m1-cJ_2fli-a2-m1-cL The crystal structure of D-ribulose 5-phosphate 3-epimerase from Streptococus pyogenes complexed with D-xylitol 5-phosphate Q9A1H8 Q9A1H8 1.8 X-RAY DIFFRACTION 37 0.995 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 218 218 2fli-a1-m1-cA_2fli-a1-m1-cC 2fli-a1-m1-cB_2fli-a1-m1-cD 2fli-a1-m1-cE_2fli-a1-m1-cA 2fli-a1-m1-cE_2fli-a1-m1-cC 2fli-a1-m1-cF_2fli-a1-m1-cB 2fli-a1-m1-cF_2fli-a1-m1-cD 2fli-a2-m1-cH_2fli-a2-m1-cJ 2fli-a2-m1-cH_2fli-a2-m1-cL 2fli-a2-m1-cI_2fli-a2-m1-cG 2fli-a2-m1-cK_2fli-a2-m1-cG 2fli-a2-m1-cK_2fli-a2-m1-cI STLKIAPSILAADYANFASELARIEETDAEYVHIDIMDGQFVPNISFGADVVASMRKHSKLVFDCHLMVVDPERYVEAFAQAGADIMTIHTESTRHIHGALQKIKAAGMKAGVVINPGTPATALEPLLDLVDQVLIMTVNPGFGGQAFIPECLEKVATVAKWRDEKGLSFDIEVDGGVDNKTIRACYEAGANVFVAGSYLFKASDLVSQVQTLRTALN TLKIAPSILAADYANFASELARIEETDAEYVHIDIMDGQFVPNISFGADVVASMRKHSKLVFDCHLMVVDPERYVEAFAQAGADIMTIHTESTRHIHGALQKIKAAGMKAGVVINPGTPATALEPLLDLVDQVLIMTVNPGFGGQAFIPECLEKVATVAKWRDEKGLSFDIEVDGGVDNKTIRACYEAGANVFVAGSYLFKASDLVSQVQTLRTALNV 2flk-a2-m17-cA_2flk-a2-m9-cA Crystal structure of CheY in complex with CheZ(200-214) solved from a F432 crystal grown in CAPS (pH 10.5) P0A2D5 P0A2D5 2.1 X-RAY DIFFRACTION 20 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 128 128 2fka-a2-m10-cA_2fka-a2-m2-cA 2fka-a2-m10-cA_2fka-a2-m6-cA 2fka-a2-m11-cA_2fka-a2-m9-cA 2fka-a2-m12-cA_2fka-a2-m4-cA 2fka-a2-m12-cA_2fka-a2-m8-cA 2fka-a2-m1-cA_2fka-a2-m11-cA 2fka-a2-m1-cA_2fka-a2-m9-cA 2fka-a2-m2-cA_2fka-a2-m6-cA 2fka-a2-m3-cA_2fka-a2-m5-cA 2fka-a2-m3-cA_2fka-a2-m7-cA 2fka-a2-m4-cA_2fka-a2-m8-cA 2fka-a2-m5-cA_2fka-a2-m7-cA 2flk-a2-m10-cA_2flk-a2-m20-cA 2flk-a2-m10-cA_2flk-a2-m3-cA 2flk-a2-m11-cA_2flk-a2-m18-cA 2flk-a2-m11-cA_2flk-a2-m4-cA 2flk-a2-m12-cA_2flk-a2-m19-cA 2flk-a2-m12-cA_2flk-a2-m2-cA 2flk-a2-m13-cA_2flk-a2-m21-cA 2flk-a2-m13-cA_2flk-a2-m5-cA 2flk-a2-m14-cA_2flk-a2-m23-cA 2flk-a2-m14-cA_2flk-a2-m8-cA 2flk-a2-m15-cA_2flk-a2-m24-cA 2flk-a2-m15-cA_2flk-a2-m6-cA 2flk-a2-m16-cA_2flk-a2-m22-cA 2flk-a2-m16-cA_2flk-a2-m7-cA 2flk-a2-m18-cA_2flk-a2-m4-cA 2flk-a2-m19-cA_2flk-a2-m2-cA 2flk-a2-m1-cA_2flk-a2-m17-cA 2flk-a2-m1-cA_2flk-a2-m9-cA 2flk-a2-m20-cA_2flk-a2-m3-cA 2flk-a2-m21-cA_2flk-a2-m5-cA 2flk-a2-m22-cA_2flk-a2-m7-cA 2flk-a2-m23-cA_2flk-a2-m8-cA 2flk-a2-m24-cA_2flk-a2-m6-cA 2fmh-a2-m10-cA_2fmh-a2-m17-cA 2fmh-a2-m10-cA_2fmh-a2-m4-cA 2fmh-a2-m11-cA_2fmh-a2-m20-cA 2fmh-a2-m12-cA_2fmh-a2-m19-cA 2fmh-a2-m12-cA_2fmh-a2-m2-cA 2fmh-a2-m13-cA_2fmh-a2-m22-cA 2fmh-a2-m13-cA_2fmh-a2-m7-cA 2fmh-a2-m14-cA_2fmh-a2-m21-cA 2fmh-a2-m14-cA_2fmh-a2-m8-cA 2fmh-a2-m15-cA_2fmh-a2-m24-cA 2fmh-a2-m15-cA_2fmh-a2-m5-cA 2fmh-a2-m16-cA_2fmh-a2-m23-cA 2fmh-a2-m16-cA_2fmh-a2-m6-cA 2fmh-a2-m17-cA_2fmh-a2-m4-cA 2fmh-a2-m18-cA_2fmh-a2-m3-cA 2fmh-a2-m18-cA_2fmh-a2-m9-cA 2fmh-a2-m19-cA_2fmh-a2-m2-cA 2fmh-a2-m1-cA_2fmh-a2-m11-cA 2fmh-a2-m1-cA_2fmh-a2-m20-cA 2fmh-a2-m21-cA_2fmh-a2-m8-cA 2fmh-a2-m22-cA_2fmh-a2-m7-cA 2fmh-a2-m23-cA_2fmh-a2-m6-cA 2fmh-a2-m24-cA_2fmh-a2-m5-cA 2fmh-a2-m3-cA_2fmh-a2-m9-cA 2fmh-a3-m11-cA_2fmh-a3-m20-cA 2fmh-a3-m1-cA_2fmh-a3-m11-cA 2fmh-a3-m1-cA_2fmh-a3-m20-cA 2fmi-a2-m1-cA_2fmi-a2-m2-cA 2fmi-a2-m1-cA_2fmi-a2-m3-cA 2fmi-a2-m2-cA_2fmi-a2-m3-cA ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGFGFIISDWNMPNMDGLELLKTIRADSAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGFGFIISDWNMPNMDGLELLKTIRADSAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 2flo-a2-m1-cC_2flo-a2-m1-cD Crystal structure of exopolyphosphatase (PPX) from E. coli O157:H7 P0AFL8 P0AFL8 2.2 X-RAY DIFFRACTION 69 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 480 480 1u6z-a1-m1-cA_1u6z-a1-m1-cB 2flo-a1-m1-cB_2flo-a1-m1-cA QEFAAVDLGSNSFHVIARVVDGAQIIGRLKQRVHLADGLGPDNLSEEATRGLNCLSLFAERLQGFSPASVCIVGTHTLRQALNATDFLKRAEKVIPYPIEIISGNEEARLIFGVEHTQPEKGRKLVIDIGGGSTELVIGENFEPILVESRRGCVSFAQLYFPGGVINKENFQRARAAAQKLETLTWQFRIQGWNVAGASGTIKAAHEVLEGEKDGIITPERLEKLVKEVLRHRNFASLSLPGLSEERKTVFVPGLAILCGVFDALAIRELRLSDGALREGVLYEEGRFRHQDVRSRTASSLANQYHIDSEQARRVLDTTQYEQWREQQPKLAHPQLEALLRWAALHEVGLNINHSGLHRHSAYILQNSDLPGFNQEQQLATLVRYHRKAIKLDDLPRFTLFKKKQFLPLIQLLRLGVLLNNQRQATTTPPTLTLITDDSHWTLRFPHDWFSQNALVLLDLEKEQEYWEGVAGWRLKIEEE QEFAAVDLGSNSFHVIARVVDGAQIIGRLKQRVHLADGLGPDNLSEEATRGLNCLSLFAERLQGFSPASVCIVGTHTLRQALNATDFLKRAEKVIPYPIEIISGNEEARLIFGVEHTQPEKGRKLVIDIGGGSTELVIGENFEPILVESRRGCVSFAQLYFPGGVINKENFQRARAAAQKLETLTWQFRIQGWNVAGASGTIKAAHEVLEGEKDGIITPERLEKLVKEVLRHRNFASLSLPGLSEERKTVFVPGLAILCGVFDALAIRELRLSDGALREGVLYEEGRFRHQDVRSRTASSLANQYHIDSEQARRVLDTTQYEQWREQQPKLAHPQLEALLRWAALHEVGLNINHSGLHRHSAYILQNSDLPGFNQEQQLATLVRYHRKAIKLDDLPRFTLFKKKQFLPLIQLLRLGVLLNNQRQATTTPPTLTLITDDSHWTLRFPHDWFSQNALVLLDLEKEQEYWEGVAGWRLKIEEE 2flp-a1-m1-cA_2flp-a1-m2-cA Binary complex of the catalytic core of human DNA polymerase iota with DNA (template G) Q9UNA4 Q9UNA4 2.4 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 367 367 1t3n-a1-m1-cA_1t3n-a1-m1-cB 2alz-a1-m1-cA_2alz-a1-m2-cA 2dpi-a1-m1-cA_2dpi-a1-m2-cA 2dpj-a1-m1-cA_2dpj-a1-m2-cA 2fll-a1-m1-cA_2fll-a1-m2-cA 2fln-a1-m1-cA_2fln-a1-m2-cA 3epg-a1-m1-cA_3epg-a1-m2-cA 3epi-a1-m1-cA_3epi-a1-m2-cA SSRVIVHVDLDCFYAQVEMISNPELKDKPLGVQQKYLVVTCNYEARKLGVKKLMNVRDAKEKCPQLVLVNGEDLTRYREMSYKVTELLEEFSPVVERLGFDENFVDLTEMVEKRLQQLQSDELSAVTVSGHVYNNQSINLLDVLHIRLLVGSQIAAEMREAMYNQLGLTGCAGVASNKLLAKLVSGVFKPNQQTVLLPESCQHLIHSLNHIKEIPGIGYKTAKCLEALGINSVRDLQTFSPKILEKELGISVAQRIQKLSFGEDNSPVILSGPPQSFSEEDSFKKCSSEVEAKNKIEELLASLLNRVCQDGRKPHTVRLIIRRYYGRESRQCPIPSHVIQVMTPMVDILMKLFRNMTLLSVCFCNLK SSRVIVHVDLDCFYAQVEMISNPELKDKPLGVQQKYLVVTCNYEARKLGVKKLMNVRDAKEKCPQLVLVNGEDLTRYREMSYKVTELLEEFSPVVERLGFDENFVDLTEMVEKRLQQLQSDELSAVTVSGHVYNNQSINLLDVLHIRLLVGSQIAAEMREAMYNQLGLTGCAGVASNKLLAKLVSGVFKPNQQTVLLPESCQHLIHSLNHIKEIPGIGYKTAKCLEALGINSVRDLQTFSPKILEKELGISVAQRIQKLSFGEDNSPVILSGPPQSFSEEDSFKKCSSEVEAKNKIEELLASLLNRVCQDGRKPHTVRLIIRRYYGRESRQCPIPSHVIQVMTPMVDILMKLFRNMTLLSVCFCNLK 2flq-a1-m1-cB_2flq-a1-m1-cA Crystal Structure of Nitric Oxide Synthase from Geobacillus Stearothermophilus (ATCC 12980) complexed with L-arginine Q5KZC5 Q5KZC5 3.2 X-RAY DIFFRACTION 89 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 358 359 QHDEQLMTKAEQFIIASYRELGKSEQEIKRRVNEIRWEVEQTGTYRHTYEELSYGAKMAWRHSNRCIGRLFWQSLHVIDAREAVTEEEVFSYLFHHIEVATNGGKIRPTITIFRPNGEVRIWNHQLIRYAGYETEEGIIGDSSSLTFTRACEQLGWKGEKTPFDVLPLVIQVGGQKPVWTPIPKELVLEVPIEHPEFPWFRDLQLKWYAVPIISDMCLEIGGIRYMAAPFNGWYMGTEIGARNFADDYRYNMLPKVASCMGLDTNSNASLWKDKALVELNIAVLYSYKKAGVSIVDHHTAARQFQLFEQQEKAAGRHVTGDWTWLIPPLSPATTHIFHRSYDNTMMLPNFFYQDRPYE RQHDEQLMTKAEQFIIASYRELGKSEQEIKRRVNEIRWEVEQTGTYRHTYEELSYGAKMAWRHSNRCIGRLFWQSLHVIDAREAVTEEEVFSYLFHHIEVATNGGKIRPTITIFRPNGEVRIWNHQLIRYAGYETEEGIIGDSSSLTFTRACEQLGWKGEKTPFDVLPLVIQVGGQKPVWTPIPKELVLEVPIEHPEFPWFRDLQLKWYAVPIISDMCLEIGGIRYMAAPFNGWYMGTEIGARNFADDYRYNMLPKVASCMGLDTNSNASLWKDKALVELNIAVLYSYKKAGVSIVDHHTAARQFQLFEQQEKAAGRHVTGDWTWLIPPLSPATTHIFHRSYDNTMMLPNFFYQDRPYE 2flz-a1-m2-cA_2flz-a1-m3-cA The X-ray structure of cis-3-chloroacrylic acid dehalogenase (cis-CaaD) with a sulfate ion bound in the active site Q6VPE5 Q6VPE5 2.75 X-RAY DIFFRACTION 112 1.0 1728 (coryneform bacterium) 1728 (coryneform bacterium) 147 147 2flt-a1-m1-cA_2flt-a1-m2-cA 2flt-a1-m1-cA_2flt-a1-m3-cA 2flt-a1-m2-cA_2flt-a1-m3-cA 2flz-a1-m1-cA_2flz-a1-m2-cA 2flz-a1-m1-cA_2flz-a1-m3-cA 2flz-a2-m1-cB_2flz-a2-m4-cB 2flz-a2-m1-cB_2flz-a2-m5-cB 2flz-a2-m4-cB_2flz-a2-m5-cB 2flz-a3-m1-cC_2flz-a3-m4-cC 2flz-a3-m1-cC_2flz-a3-m5-cC 2flz-a3-m4-cC_2flz-a3-m5-cC 3mf7-a1-m1-cA_3mf7-a1-m2-cA 3mf7-a1-m1-cA_3mf7-a1-m3-cA 3mf7-a1-m2-cA_3mf7-a1-m3-cA 3mf8-a1-m1-cA_3mf8-a1-m2-cA 3mf8-a1-m1-cA_3mf8-a1-m3-cA 3mf8-a1-m2-cA_3mf8-a1-m3-cA PVYMVYVSQDRLTPSAKHAVAKAITDAHRGLTGTQHFLAQVNFNEQPAGNVFLGGVQQGGDTIFVHGLHREGRSADLKGQLAQRIVDDVSVAAEIDRKHIWVYFGEMPAQQMVEYGRFLPQPGHEGEWFDNLSSDERAFMETNVDVS PVYMVYVSQDRLTPSAKHAVAKAITDAHRGLTGTQHFLAQVNFNEQPAGNVFLGGVQQGGDTIFVHGLHREGRSADLKGQLAQRIVDDVSVAAEIDRKHIWVYFGEMPAQQMVEYGRFLPQPGHEGEWFDNLSSDERAFMETNVDVS 2fm8-a3-m3-cB_2fm8-a3-m1-cA Crystal Structure of the Salmonella Secretion Chaperone InvB in Complex with SipA P0A1N0 P0A1N0 2.2 X-RAY DIFFRACTION 18 0.992 125 134 2fm8-a3-m1-cB_2fm8-a3-m3-cA MQHLDIAELVRSALEVSGCDSTIVLDLFALPSICISVKDDDVWIWAQLGADSMVVLQQRAYEILMTIMEGCHFARGGQLLLGEQNGELTLKALVHPDFLSDGEKFSTALNGFYNYLEVFSRSLMR MQHLDIAELVRSALEVSGCDPSLIGGIDSHSTIVLDLFALPSICISVKDDDVWIWAQLGADSMVVLQQRAYEILMTIMEGCHFARGGQLLLGEQNGELTLKALVHPDFLSDGEKFSTALNGFYNYLEVFSRSLM 2fm8-a3-m3-cB_2fm8-a3-m3-cA Crystal Structure of the Salmonella Secretion Chaperone InvB in Complex with SipA P0A1N0 P0A1N0 2.2 X-RAY DIFFRACTION 45 0.992 125 134 2fm8-a1-m1-cB_2fm8-a1-m1-cA 2fm8-a2-m1-cB_2fm8-a2-m1-cA 2fm8-a2-m2-cB_2fm8-a2-m2-cA 2fm8-a3-m1-cB_2fm8-a3-m1-cA MQHLDIAELVRSALEVSGCDSTIVLDLFALPSICISVKDDDVWIWAQLGADSMVVLQQRAYEILMTIMEGCHFARGGQLLLGEQNGELTLKALVHPDFLSDGEKFSTALNGFYNYLEVFSRSLMR MQHLDIAELVRSALEVSGCDPSLIGGIDSHSTIVLDLFALPSICISVKDDDVWIWAQLGADSMVVLQQRAYEILMTIMEGCHFARGGQLLLGEQNGELTLKALVHPDFLSDGEKFSTALNGFYNYLEVFSRSLM 2fm8-a4-m1-cA_2fm8-a4-m3-cA Crystal Structure of the Salmonella Secretion Chaperone InvB in Complex with SipA P0A1N0 P0A1N0 2.2 X-RAY DIFFRACTION 13 1.0 134 134 2fm8-a3-m1-cA_2fm8-a3-m3-cA MQHLDIAELVRSALEVSGCDPSLIGGIDSHSTIVLDLFALPSICISVKDDDVWIWAQLGADSMVVLQQRAYEILMTIMEGCHFARGGQLLLGEQNGELTLKALVHPDFLSDGEKFSTALNGFYNYLEVFSRSLM MQHLDIAELVRSALEVSGCDPSLIGGIDSHSTIVLDLFALPSICISVKDDDVWIWAQLGADSMVVLQQRAYEILMTIMEGCHFARGGQLLLGEQNGELTLKALVHPDFLSDGEKFSTALNGFYNYLEVFSRSLM 2fmb-a1-m1-cA_2fmb-a1-m2-cA EIAV PROTEASE COMPLEXED WITH AN INHIBITOR LP-130 Q66729 Q66729 1.8 X-RAY DIFFRACTION 151 1.0 11665 (Equine infectious anemia virus) 11665 (Equine infectious anemia virus) 104 104 1fmb-a1-m1-cA_1fmb-a1-m2-cA VTYNLEKRPTTIVLINDTPLNVLLDTGADTSVLTTAHYNRLKYRGRKYQGTGIGGVGGNVETFSTPVTIKKKGRHIKTRMLVADIPVTILGRDILQDLGAKLVL VTYNLEKRPTTIVLINDTPLNVLLDTGADTSVLTTAHYNRLKYRGRKYQGTGIGGVGGNVETFSTPVTIKKKGRHIKTRMLVADIPVTILGRDILQDLGAKLVL 2fmd-a1-m1-cA_2fmd-a1-m4-cA Structural basis of carbohydrate recognition by Bowringia milbraedii seed agglutinin P42088 P42088 1.9 X-RAY DIFFRACTION 59 1.0 28956 (Leucomphalos mildbraedii) 28956 (Leucomphalos mildbraedii) 232 232 2fmd-a1-m2-cA_2fmd-a1-m3-cA ANSVCFTFTDFESGQQDLIFQGDASVGSNKALQLTKVDSKGNPQGGSVGRALYTAPIRLWQSSSLVASFETTFTFSISQGSSTPADALTFFIASPDTKIPSGSGGRLLGLFGSSNDNGVVSVEFDTYPNTDIGDPNYRHIGIDVNSIRSKAASKWDWQNGKTATAHISYNSASKRLSVVSSYPNSSPVVVSFDVELNNVBPBWVRVGFSATTGQYTQTNNILAWSFRSSLMG ANSVCFTFTDFESGQQDLIFQGDASVGSNKALQLTKVDSKGNPQGGSVGRALYTAPIRLWQSSSLVASFETTFTFSISQGSSTPADALTFFIASPDTKIPSGSGGRLLGLFGSSNDNGVVSVEFDTYPNTDIGDPNYRHIGIDVNSIRSKAASKWDWQNGKTATAHISYNSASKRLSVVSSYPNSSPVVVSFDVELNNVBPBWVRVGFSATTGQYTQTNNILAWSFRSSLMG 2fmd-a1-m2-cA_2fmd-a1-m4-cA Structural basis of carbohydrate recognition by Bowringia milbraedii seed agglutinin P42088 P42088 1.9 X-RAY DIFFRACTION 60 1.0 28956 (Leucomphalos mildbraedii) 28956 (Leucomphalos mildbraedii) 232 232 2fmd-a1-m1-cA_2fmd-a1-m3-cA ANSVCFTFTDFESGQQDLIFQGDASVGSNKALQLTKVDSKGNPQGGSVGRALYTAPIRLWQSSSLVASFETTFTFSISQGSSTPADALTFFIASPDTKIPSGSGGRLLGLFGSSNDNGVVSVEFDTYPNTDIGDPNYRHIGIDVNSIRSKAASKWDWQNGKTATAHISYNSASKRLSVVSSYPNSSPVVVSFDVELNNVBPBWVRVGFSATTGQYTQTNNILAWSFRSSLMG ANSVCFTFTDFESGQQDLIFQGDASVGSNKALQLTKVDSKGNPQGGSVGRALYTAPIRLWQSSSLVASFETTFTFSISQGSSTPADALTFFIASPDTKIPSGSGGRLLGLFGSSNDNGVVSVEFDTYPNTDIGDPNYRHIGIDVNSIRSKAASKWDWQNGKTATAHISYNSASKRLSVVSSYPNSSPVVVSFDVELNNVBPBWVRVGFSATTGQYTQTNNILAWSFRSSLMG 2fmh-a2-m21-cA_2fmh-a2-m9-cA Crystal structure of Mg2+ and BeF3- bound CheY in complex with CheZ 200-214 solved from a F432 crystal grown in Tris (pH 8.4) P0A2D5 P0A2D5 2.001 X-RAY DIFFRACTION 23 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 128 128 2flk-a2-m10-cA_2flk-a2-m21-cA 2flk-a2-m11-cA_2flk-a2-m22-cA 2flk-a2-m12-cA_2flk-a2-m23-cA 2flk-a2-m13-cA_2flk-a2-m4-cA 2flk-a2-m15-cA_2flk-a2-m2-cA 2flk-a2-m16-cA_2flk-a2-m3-cA 2flk-a2-m17-cA_2flk-a2-m5-cA 2flk-a2-m18-cA_2flk-a2-m8-cA 2flk-a2-m19-cA_2flk-a2-m7-cA 2flk-a2-m1-cA_2flk-a2-m14-cA 2flk-a2-m20-cA_2flk-a2-m6-cA 2flk-a2-m24-cA_2flk-a2-m9-cA 2fmh-a2-m10-cA_2fmh-a2-m22-cA 2fmh-a2-m11-cA_2fmh-a2-m23-cA 2fmh-a2-m12-cA_2fmh-a2-m24-cA 2fmh-a2-m14-cA_2fmh-a2-m2-cA 2fmh-a2-m15-cA_2fmh-a2-m3-cA 2fmh-a2-m16-cA_2fmh-a2-m4-cA 2fmh-a2-m17-cA_2fmh-a2-m5-cA 2fmh-a2-m18-cA_2fmh-a2-m6-cA 2fmh-a2-m19-cA_2fmh-a2-m7-cA 2fmh-a2-m1-cA_2fmh-a2-m13-cA 2fmh-a2-m20-cA_2fmh-a2-m8-cA ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGFGFIISDWNMPNMDGLELLKTIRADSAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGFGFIISDWNMPNMDGLELLKTIRADSAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 2fml-a1-m1-cB_2fml-a1-m1-cA Crystal structure of MutT/nudix family protein from Enterococcus faecalis Q830S2 Q830S2 2.26 X-RAY DIFFRACTION 108 0.992 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 253 256 FASKAEEKNYYERQASLAEFLTWYHQQYEKPSLTVDVLLCYNKEADQLKVLLIQRKGHPFRNSWALPGGFVNRNESTEDSVLRETKEETGVVISQENIEQLHSFSRPDRDPRGWVVTVSYLAFIGEEPLIAGDDAKEVHWFNLERHGQHITLSHEDVEITLDLKTAASLGKDTLAFDHSEIIIKAFNRVVDKEHEPQVLQVLGKDFTITEARKVFAKFLGVDYRSIDHSNFKKATQYFEELGERPSKIYQLKT QFASKAEEKNYYERQASLAEFLTWYHQQELPEYEKPSLTVDVLLCYNKEADQLKVLLIQRKGHPFRNSWALPGGFVNRNESTEDSVLRETKEETGVVISQENIEQLHSFSRPDRDPRGWVVTVSYLAFIGEEPLIAGDDAKEVHWFNLERHGQHITLSHEDVEITLDLKTAASLGKDTLAFDHSEIIIKAFNRVVDKEHEPQVLQVLGKDFTITEARKVFAKFLGVDYRSIDHSNFKKATQYFEELGEPSKIYQLK 2fmm-a1-m2-cC_2fmm-a1-m2-cA Crystal Structure of EMSY-HP1 complex P83916 P83916 1.8 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 68 2fmm-a1-m1-cC_2fmm-a1-m1-cA KPRGFARGLEPERIIGATDSSGELMFLMKWKNSDEADLVPAKEANVKCPQVVISFYEERLTWHSYPS EKPRGFARGLEPERIIGATDSSGELMFLMKWKNSDEADLVPAKEANVKCPQVVISFYEERLTWHSYPS 2fmm-a1-m2-cD_2fmm-a1-m2-cA Crystal Structure of EMSY-HP1 complex P83916 P83916 1.8 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 68 2fmm-a1-m1-cB_2fmm-a1-m1-cC 2fmm-a1-m1-cD_2fmm-a1-m1-cA 2fmm-a1-m2-cB_2fmm-a1-m2-cC PRGFARGLEPERIIGATDSSGELMFLMKWKNSDEADLVPAKEANVKCPQVVISFYEERLTWHSYPS EKPRGFARGLEPERIIGATDSSGELMFLMKWKNSDEADLVPAKEANVKCPQVVISFYEERLTWHSYPS 2fmm-a1-m2-cD_2fmm-a1-m2-cC Crystal Structure of EMSY-HP1 complex P83916 P83916 1.8 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 67 1dz1-a1-m1-cA_1dz1-a1-m1-cB 1s4z-a1-m1-cA_1s4z-a1-m1-cB 2fmm-a1-m1-cB_2fmm-a1-m1-cA 2fmm-a1-m1-cD_2fmm-a1-m1-cC 2fmm-a1-m2-cB_2fmm-a1-m2-cA 3q6s-a1-m1-cD_3q6s-a1-m1-cA 3q6s-a2-m1-cC_3q6s-a2-m1-cB PRGFARGLEPERIIGATDSSGELMFLMKWKNSDEADLVPAKEANVKCPQVVISFYEERLTWHSYPS KPRGFARGLEPERIIGATDSSGELMFLMKWKNSDEADLVPAKEANVKCPQVVISFYEERLTWHSYPS 2fmy-a2-m1-cC_2fmy-a2-m1-cD CO-dependent transcription factor CooA from Carboxydothermus hydrogenoformans (Imidazole-bound form) Q3AB29 Q3AB29 2.2 X-RAY DIFFRACTION 83 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 218 218 2fmy-a1-m1-cA_2fmy-a1-m1-cB 6cpb-a1-m1-cA_6cpb-a1-m1-cB ATQMRLTDTNLLEVLNSEEYSGVLKEFREQRYSKKAILYTPNTERNLVFLVKSGRVRVYLAYEDKEFTLAILEAGDIFCTHTRAFIQAMEDTTILYTDIRNFQNIVVEFPAFSLNMVKVLGDLLKNSLTIINGLVFKDARLRLAEFLVQAAMDTGLKVPQGIKLELGLNTEEIALMLGTTRQTVSVLLNDFKKMGILERVNQRTLLLKDLQKLKEFSS ATQMRLTDTNLLEVLNSEEYSGVLKEFREQRYSKKAILYTPNTERNLVFLVKSGRVRVYLAYEDKEFTLAILEAGDIFCTHTRAFIQAMEDTTILYTDIRNFQNIVVEFPAFSLNMVKVLGDLLKNSLTIINGLVFKDARLRLAEFLVQAAMDTGLKVPQGIKLELGLNTEEIALMLGTTRQTVSVLLNDFKKMGILERVNQRTLLLKDLQKLKEFSS 2fn0-a1-m1-cA_2fn0-a1-m1-cB Crystal structure of Yersinia enterocolitica salicylate synthase (Irp9) Q9X9I8 Q9X9I8 1.85 X-RAY DIFFRACTION 45 0.998 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 408 412 2fn1-a1-m1-cA_2fn1-a1-m1-cB KISEFLHEEQWLPTISGVLRQFAEEECYVYERPPCWYLGKGCQARLHINADGTQATFIDDAGEQKWAVDSIADCARRFMAHPQVKGRRVYGQVGFNFAAHARGIAFNAGEWPLLTLTVPREELIFEKGNVTVYADAPLAVDTALNGEAYKQQVARAVAEIRRGEYVKVIVSRAIPLPSRIDMPATLLYGRQANTPVRSFMFRQEGREALGFSPELVMSVTGNKVVTEPLAGTRDRMGNPEHNKAKEAELLHDSKEVLEHILSVKEAIAELEAVCLPGSVVVEDLMSVRQRGSVQHLGSGVSGQLAENKDAWDAFTVLFPSITASGIPKNAALNAIMQIEKTPRELYSGAILLLDDTRFDAALVLRSVFQDSQRCWIQAGAGIIAQSTPERELTETREKLASIAPYLMV MKISEFLHLALPEEQWLPTISGVLRQFAEEECYVYERPPCWYLGKGCQARLHINADGTQATFIDDAGEQKWAVDSIADCARRFMAHPQVKGRRVYGQVGFNFAAHARGIAFNAGEWPLLTLTVPREELIFEKGNVTVYADPLAVDTALNGEAYKQQVARAVAEIRRGEYVKVIVSRAIPLPSRIDMPATLLYGRQANTPVRSFMFRQEGREALGFSPELVMSVTGNKVVTEPLAGTRDRMGNPEHNKAKEAELLHDSKEVLEHILSVKEAIAELEAVCLPGSVVVEDLMSVRQRGSVQHLGSGVSGQLAENKDAWDAFTVLFPSITASGIPKNAALNAIMQIEKTPRELYSGAILLLDDTRFDAALVLRSVFQDSQRCWIQAGAGIIAQSTPERELTETREKLASIAPYLMV 2fne-a4-m1-cB_2fne-a4-m2-cC The crystal structure of the 13th PDZ domain of MPDZ O75970 O75970 1.83 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 104 LYFQSMPQCKSITLERGPDGLGFSIVGGYGSPHGDLPIYVKTVFAKGAASEDGRLKRGDQIIAVNGQSLEGVTHEEAVAILKRTKGTVTLMVLSSDETSV GTENLYFQSMPQCKSITLERGPDGLGFSIVGGYGSPHGDLPIYVKTVFAKGAASEDGRLKRGDQIIAVNGQSLEGVTHEEAVAILKRTKGTVTLMVLSSDETSV 2fno-a3-m1-cB_2fno-a3-m3-cB Crystal structure of a glutathione s-transferase (atu5508) from agrobacterium tumefaciens str. c58 at 2.00 A resolution Q7D2W7 Q7D2W7 2 X-RAY DIFFRACTION 97 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 228 228 2fno-a1-m1-cA_2fno-a1-m2-cA DGNTFDLYYWPVPFRGQLIRGILAHCGCSWDEHDVDAIEGLDCGAEKQPVAFGPPVLIDRERNFAISQPAIAIYLGERLDILPATVEGRTLSAKIVNDANDVLDELTLNGGREWTPEKWQEFVPRLQKWIRIFADTGARNGLSAASGFLGTEKIGVADIVTAILWTTVADRFPAIKGIIEDTSPIIWGLSRRVVATAPLAALNSKSFEEYGNAYCGGEIEKSLRKVAS DGNTFDLYYWPVPFRGQLIRGILAHCGCSWDEHDVDAIEGLDCGAEKQPVAFGPPVLIDRERNFAISQPAIAIYLGERLDILPATVEGRTLSAKIVNDANDVLDELTLNGGREWTPEKWQEFVPRLQKWIRIFADTGARNGLSAASGFLGTEKIGVADIVTAILWTTVADRFPAIKGIIEDTSPIIWGLSRRVVATAPLAALNSKSFEEYGNAYCGGEIEKSLRKVAS 2fnu-a1-m1-cA_2fnu-a1-m1-cB PseC aminotransferase with external aldimine O25130 O25130 1.5 X-RAY DIFFRACTION 178 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 373 374 2fn6-a1-m1-cB_2fn6-a1-m1-cA 2fni-a1-m1-cA_2fni-a1-m1-cB MKEFAYSEPCLDKEDKKAVLEVLNSKQLTQGKRSLLFEEALCEFLGVKHALVFNSATSALLTLYRNFSEFSADRNEIITTPISFVATANMLLESGYTPVFAGIKNDGNIDELALEKLINERTKAIVSVDYAGKSVEVESVQKLCKKHSLSFLSDSSHALGSEYQNKKVGGFALASVFSFHAIKPITTAEGGAVVTNDSELHEKMKLFRSHGMLKKDFFEGEVKSIGHNFRLNEIQSALGLSQLKKAPFLMQKREEAALTYDRIFKDNPYFTPLHPLLKDKSSNHLYPILMHQKFFTCKKLILESLHKRGILAQVHYKPIYQYQLYQQLFNTAPLKSAEDFYHAEISLPCHANLNLESVQNIAHSVLKTFESFK MKEFAYSEPCLDKEDKKAVLEVLNSKQLTQGKRSLLFEEALCEFLGVKHALVFNSATSALLTLYRNFSEFSADRNEIITTPISFVATANMLLESGYTPVFAGIKNDGNIDELALEKLINERTKAIVSVDYAGKSVEVESVQKLCKKHSLSFLSDSSHALGSEYQNKKVGGFALASVFSFHAIKPITTAEGGAVVTNDSELHEKMKLFRSHGMLKKDFFEGEVKSIGHNFRLNEIQSALGLSQLKKAPFLMQKREEAALTYDRIFKDNPYFTPLHPLLKDKSSNHLYPILMHQKFFTCKKLILESLHKRGILAQVHYKPIYQYQLYQQLFNTAPLKSAEDFYHAEISLPCHANLNLESVQNIAHSVLKTFESFKI 2fom-a2-m1-cB_2fom-a2-m2-cB Dengue Virus NS2B/NS3 Protease Q91H74 Q91H74 1.5 X-RAY DIFFRACTION 51 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 150 150 LEDGAYRIKQKGILGYSQIGAGVYKEGTFHTMWHVTRGAVLMHKGKRIEPSWADVKKDLISYGGGWKLEGEWKEGEEVQVLALEPGKNPRAVQTKPGLFKTNTGTIGAVSLDFSPGTSGSPIVDKKGKVVGLYGNGVVTRSGAYVSAIAN LEDGAYRIKQKGILGYSQIGAGVYKEGTFHTMWHVTRGAVLMHKGKRIEPSWADVKKDLISYGGGWKLEGEWKEGEEVQVLALEPGKNPRAVQTKPGLFKTNTGTIGAVSLDFSPGTSGSPIVDKKGKVVGLYGNGVVTRSGAYVSAIAN 2fon-a2-m1-cC_2fon-a2-m2-cC X-ray crystal structure of LeACX1, an acyl-CoA oxidase from Lycopersicon esculentum (tomato) Q5D8D3 Q5D8D3 2.74 X-RAY DIFFRACTION 323 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 653 653 2fon-a1-m1-cA_2fon-a1-m1-cB VDYLADERKKAGFDVDEMKIVWAGSRHDFELTDRISKLVASDPGFSKEGRTMLPRKELFKNTLRKAAYAWKRIIELRLSQEEATMLRRYVDEPAFTDLHWGMFIPAIKGQGTDKQQEKWLPLAYKMQIIGCYAQTELGHGSNVQGLETTATFDPQTDEFVIHSPTLTSSKWWPGGLGKVSTHAVVYARLITDGKDYGVNGFIVQLRSLEDHKPLPGVTVGDIGMKFGNGAYNSMDNGVLSFDHVRIPRDQMLMRVSQVTKEGKYVQSDIPRQLLYGTMVYVRQSIVADASLAMSRAVCIATRYSAVRRQFGSQNGGQETQVIDYKTQQNRLFPLLASAYAFRFVGEWLKWLYTDVTQRLAANDFSTLPEAHACTAGLKSLTTSATADGIEECRKLCGGHGYLCSSGLPELFAVYVPACTYEGDNVVLQLQVARFLMKTISQLGTGKKPVGTVSYMGRIEHLMQCRSDVKQAEDWLKPSAVLEAFEARSARMSVACAKNLSKFENQEEGFAELAADLVEAAVAHCQLIVVSKYIEKLQQNIPGKGVKQQLEVLCGIYSLFILHKHQGDFLGTGYITSKQGSLANDQLRALYSQLRPNAVSLVDAFNYTDHYLGSILGRYDGNVYPKLYEAAWKDPLNKSDIADGFHEYIRPLLK VDYLADERKKAGFDVDEMKIVWAGSRHDFELTDRISKLVASDPGFSKEGRTMLPRKELFKNTLRKAAYAWKRIIELRLSQEEATMLRRYVDEPAFTDLHWGMFIPAIKGQGTDKQQEKWLPLAYKMQIIGCYAQTELGHGSNVQGLETTATFDPQTDEFVIHSPTLTSSKWWPGGLGKVSTHAVVYARLITDGKDYGVNGFIVQLRSLEDHKPLPGVTVGDIGMKFGNGAYNSMDNGVLSFDHVRIPRDQMLMRVSQVTKEGKYVQSDIPRQLLYGTMVYVRQSIVADASLAMSRAVCIATRYSAVRRQFGSQNGGQETQVIDYKTQQNRLFPLLASAYAFRFVGEWLKWLYTDVTQRLAANDFSTLPEAHACTAGLKSLTTSATADGIEECRKLCGGHGYLCSSGLPELFAVYVPACTYEGDNVVLQLQVARFLMKTISQLGTGKKPVGTVSYMGRIEHLMQCRSDVKQAEDWLKPSAVLEAFEARSARMSVACAKNLSKFENQEEGFAELAADLVEAAVAHCQLIVVSKYIEKLQQNIPGKGVKQQLEVLCGIYSLFILHKHQGDFLGTGYITSKQGSLANDQLRALYSQLRPNAVSLVDAFNYTDHYLGSILGRYDGNVYPKLYEAAWKDPLNKSDIADGFHEYIRPLLK 2fp2-a1-m1-cA_2fp2-a1-m1-cB Secreted Chorismate Mutase from Mycobacterium tuberculosis P9WIB9 P9WIB9 1.64 X-RAY DIFFRACTION 52 0.994 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 162 163 2ao2-a1-m1-cA_2ao2-a1-m2-cA 2ao2-a2-m1-cB_2ao2-a2-m1-cC 2f6l-a1-m1-cB_2f6l-a1-m1-cA 2fp1-a1-m1-cB_2fp1-a1-m1-cA TSQLAELVDAAAERLEVADPVAAFKWRAQLPIEDSGRVEQQLAKLGEDARSQHIDPDYVTRVFDDQIRATEAIEYSRFSDWKLNPASAPPPDLSASRSAIDSLNNRMLSQIWSHWSLLSAPSCAAQLDRAKRDIVRSRHLDSLYQRALTTATQSYCQALPPA SQLAELVDAAAERLEVADPVAAFKWRAQLPIEDSGRVEQQLAKLGEDARSQHIDPDYVTRVFDDQIRATEAIEYSRFSDWKLNPASAPPEPPDLSASRSAIDSLNNRMLSQIWSHWSLLSAPSCAAQLDRAKRDIVRSRHLDSLYQRALTTATQSYCQALPPA 2fpn-a1-m1-cA_2fpn-a1-m2-cA The crystal structure of the ywmB protein from Bacillus subtilis O32277 O32277 2.49 X-RAY DIFFRACTION 106 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 198 198 LTPLAQAEGERQDVSIDKWTLHAKQNLSLTEKEFYQKVQRLKQEYRQYDWVIAREDKIKAIGTYTDKKNRTSFRLQLVTTLKKHNPTSYLLYEQSLETPDSWNDTYEQFERETLGIFQEKVVIFTCLNGHLDDNNIVLQKKANQLLNEFQVEHVVEPNFVSISAFTDEWEEYITSKHKNLQIALRSHTVTVGTPIVTT LTPLAQAEGERQDVSIDKWTLHAKQNLSLTEKEFYQKVQRLKQEYRQYDWVIAREDKIKAIGTYTDKKNRTSFRLQLVTTLKKHNPTSYLLYEQSLETPDSWNDTYEQFERETLGIFQEKVVIFTCLNGHLDDNNIVLQKKANQLLNEFQVEHVVEPNFVSISAFTDEWEEYITSKHKNLQIALRSHTVTVGTPIVTT 2fps-a1-m1-cA_2fps-a1-m1-cB Crystal structure of the N-terminal domain of E.coli HisB- Apo Ca model. Q9S5G5 Q9S5G5 2.2 X-RAY DIFFRACTION 58 0.994 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 158 163 2fpr-a1-m1-cA_2fpr-a1-m1-cB 2fpu-a1-m1-cA_2fpu-a1-m1-cB 2fpu-a2-m1-cA_2fpu-a2-m1-cB 2fpu-a2-m2-cA_2fpu-a2-m2-cB 2fpw-a1-m1-cA_2fpw-a1-m1-cB 2fpx-a1-m1-cA_2fpx-a1-m1-cB SQKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPQLLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLMDRANSYVIGDRATDIQLAENMGINGLRYDRETLNWPMIGEQLT QKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPQLLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLAEQAMDRANSYVIGDRATDIQLAENMGINGLRYDRETLNWPMIGEQLTRR 2fpu-a2-m1-cA_2fpu-a2-m2-cB Crystal Structure of the N-terminal domain of E.coli HisB- Complex with histidinol Q9S5G5 Q9S5G5 1.8 X-RAY DIFFRACTION 12 0.994 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 158 160 2fpu-a2-m2-cA_2fpu-a2-m1-cB SQKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPQLLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLMDRANSYVIGDRATDIQLAENMGINGLRYDRETLNWPMIGEQLT QKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPQLLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLAMDRANSYVIGDRATDIQLAENMGINGLRYDRETLNWPMIGEQLTRR 2fpu-a2-m1-cB_2fpu-a2-m2-cB Crystal Structure of the N-terminal domain of E.coli HisB- Complex with histidinol Q9S5G5 Q9S5G5 1.8 X-RAY DIFFRACTION 33 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 160 160 QKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPQLLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLAMDRANSYVIGDRATDIQLAENMGINGLRYDRETLNWPMIGEQLTRR QKYLFIDRDGTLISEPPSDFQVDRFDKLAFEPGVIPQLLKLQKAGYKLVMITNQDGLGTQSFPQADFDGPHNLMMQIFTSQGVQFDEVLICPHLPADECDCRKPKVKLVERYLAMDRANSYVIGDRATDIQLAENMGINGLRYDRETLNWPMIGEQLTRR 2fq1-a1-m1-cA_2fq1-a1-m1-cB Crystal structure of the two-domain non-ribosomal peptide synthetase EntB containing isochorismate lyase and aryl-carrier protein domains P0ADI4 P0ADI4 2.3 X-RAY DIFFRACTION 52 0.996 562 (Escherichia coli) 562 (Escherichia coli) 279 279 KLQAYALPESHDIPQNKVDWAFEPQRAALLIHDMQDYFVSFWGENCPMMEQVIANIAALRDYCKQHNIPVYYTAQPKEQSDEDRALLNDMWGPGLTRSPEQQKVVDRLTPDADDTVLVKWRYSAFHRSPLEQMLKESGRNQLIITGVYAHIGCMTTATDAFMRDIKPFMVADALADFSRDEHLMSLKYVAGRSGRVVMTEELLPAPIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSRE PKLQAYALPESHDIPQNKVDWAFEPQRAALLIHDMQDYFVSFWGENCPMMEQVIANIAALRDYCKQHNIPVYYTAQPKEQSDEDRALLNDMWGPGLTRSPEQQKVVDRLTPDADDTVLVKWRYSAFHRSPLEQMLKESGRNQLIITGVYAHIGCMTTATDAFMRDIKPFMVADALADFSRDEHLMSLKYVAGRSGRVVMTEELLPAPIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSR 2fq4-a1-m1-cA_2fq4-a1-m2-cA The crystal structure of the transcriptional regulator (TetR family) from Bacillus cereus Q81BJ4 Q81BJ4 1.79 X-RAY DIFFRACTION 151 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 183 183 RNIETQKAILSASYELLLESGFKAVTVDKIAERAKVSKATIYKWWPNKAAVVDGFLSAAAARLPVPDTGSALNDILIHATSLANFLISREGTIINELVGEGQFDSKLAEEYRVRYFQPRRLQAKQLLEKGIKRGELKENLDIELSIDLIYGPIFYRLLVTGEKLDDSYVHDLVINAFEGIRLR RNIETQKAILSASYELLLESGFKAVTVDKIAERAKVSKATIYKWWPNKAAVVDGFLSAAAARLPVPDTGSALNDILIHATSLANFLISREGTIINELVGEGQFDSKLAEEYRVRYFQPRRLQAKQLLEKGIKRGELKENLDIELSIDLIYGPIFYRLLVTGEKLDDSYVHDLVINAFEGIRLR 2fqm-a1-m1-cB_2fqm-a1-m1-cA Crystal structure of the oligomerization domain of the phosphoprotein of vesicular stomatitis virus P04880 P04880 2.3 X-RAY DIFFRACTION 143 1.0 11277 (Vesicular stomatitis Indiana virus) 11277 (Vesicular stomatitis Indiana virus) 63 65 2fqm-a2-m1-cC_2fqm-a2-m1-cD 2fqm-a3-m1-cF_2fqm-a3-m1-cE KQPELESDEHGKTLRLTLPEGLSGEQKSQWMLTIKAVVQSAKHWNLAECTFEASGEGVIIKKR DWKQPELESDEHGKTLRLTLPEGLSGEQKSQWMLTIKAVVQSAKHWNLAECTFEASGEGVIIKKR 2fqp-a3-m1-cD_2fqp-a3-m2-cA Crystal structure of a cupin domain (bp2299) from bordetella pertussis tohama i at 1.80 A resolution Q7VWF8 Q7VWF8 1.8 X-RAY DIFFRACTION 10 0.989 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 92 92 RPGAIPTVQIDNERVKVTEWRFPPGGETGWHRHSDYVVVPTTGPLLLETPEGSVTSQLTRGVSYTRPEGVEHNVINPSDTEFVFVEIEIKAA KRPGAIPTVQIDNERVKVTEWRFPPGGETGWHRHSDYVVVPTTGPLLLETPEGSVTSQLTRGVSYTRPEGVEHNVINPSDTEFVFVEIEIKA 2fqp-a3-m2-cB_2fqp-a3-m1-cC Crystal structure of a cupin domain (bp2299) from bordetella pertussis tohama i at 1.80 A resolution Q7VWF8 Q7VWF8 1.8 X-RAY DIFFRACTION 13 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 90 93 RPGAIPTVQIDNERVKVTEWRFPPGGETGWHRHSDYVVVPTTGPLLLETPEGSVTSQLTRGVSYTRPEGVEHNVINPSDTEFVFVEIEIK GKRPGAIPTVQIDNERVKVTEWRFPPGGETGWHRHSDYVVVPTTGPLLLETPEGSVTSQLTRGVSYTRPEGVEHNVINPSDTEFVFVEIEIKA 2fqp-a3-m2-cB_2fqp-a3-m2-cA Crystal structure of a cupin domain (bp2299) from bordetella pertussis tohama i at 1.80 A resolution Q7VWF8 Q7VWF8 1.8 X-RAY DIFFRACTION 56 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 90 92 2fqp-a1-m1-cB_2fqp-a1-m1-cA 2fqp-a2-m1-cD_2fqp-a2-m1-cC 2fqp-a3-m1-cD_2fqp-a3-m1-cC RPGAIPTVQIDNERVKVTEWRFPPGGETGWHRHSDYVVVPTTGPLLLETPEGSVTSQLTRGVSYTRPEGVEHNVINPSDTEFVFVEIEIK KRPGAIPTVQIDNERVKVTEWRFPPGGETGWHRHSDYVVVPTTGPLLLETPEGSVTSQLTRGVSYTRPEGVEHNVINPSDTEFVFVEIEIKA 2fr2-a2-m1-cA_2fr2-a2-m2-cA Crystal Structure of Rv2717c from M. tuberculosis P9WFG7 P9WFG7 1.5 X-RAY DIFFRACTION 117 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 161 161 DLAPALQALSPLLGSWAGRGAGKYPTIRPFEYLEEVVFAHVGKPFLTYTQQTRAVADGKPLHSETGYLRVCRPGCVELVLAHPSGITEIEVGTYSVTGDVIELELSTRADGSIGLAPTAKEVTALDRSYRIDGDELSYSLQMRAVGQPLQDHLAAVLHRQR DLAPALQALSPLLGSWAGRGAGKYPTIRPFEYLEEVVFAHVGKPFLTYTQQTRAVADGKPLHSETGYLRVCRPGCVELVLAHPSGITEIEVGTYSVTGDVIELELSTRADGSIGLAPTAKEVTALDRSYRIDGDELSYSLQMRAVGQPLQDHLAAVLHRQR 2fr5-a2-m1-cA_2fr5-a2-m2-cA Crystal Structure of Mouse Cytidine Deaminase Complexed with Tetrahydrouridine P56389 P56389 1.48 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 136 1zab-a2-m1-cA_1zab-a2-m2-cA 2fr6-a2-m1-cA_2fr6-a2-m2-cA 2fr6-a3-m1-cA_2fr6-a3-m2-cA EPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQKIQ EPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQKIQ 2fr5-a2-m2-cA_2fr5-a2-m2-cD Crystal Structure of Mouse Cytidine Deaminase Complexed with Tetrahydrouridine P56389 P56389 1.48 X-RAY DIFFRACTION 91 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 136 1zab-a1-m1-cA_1zab-a1-m1-cD 1zab-a1-m1-cB_1zab-a1-m1-cC 1zab-a2-m1-cA_1zab-a2-m1-cD 1zab-a2-m1-cB_1zab-a2-m1-cC 1zab-a2-m2-cA_1zab-a2-m2-cD 1zab-a2-m2-cB_1zab-a2-m2-cC 2fr5-a1-m1-cA_2fr5-a1-m1-cD 2fr5-a1-m1-cB_2fr5-a1-m1-cC 2fr5-a2-m1-cA_2fr5-a2-m1-cD 2fr5-a2-m1-cB_2fr5-a2-m1-cC 2fr5-a2-m2-cB_2fr5-a2-m2-cC 2fr6-a1-m1-cA_2fr6-a1-m1-cD 2fr6-a1-m1-cC_2fr6-a1-m1-cB 2fr6-a2-m1-cA_2fr6-a2-m1-cD 2fr6-a2-m1-cC_2fr6-a2-m1-cB 2fr6-a2-m2-cA_2fr6-a2-m2-cD 2fr6-a2-m2-cC_2fr6-a2-m2-cB EPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQKIQ EPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQKIQ 2fr5-a2-m2-cC_2fr5-a2-m2-cA Crystal Structure of Mouse Cytidine Deaminase Complexed with Tetrahydrouridine P56389 P56389 1.48 X-RAY DIFFRACTION 42 0.993 10090 (Mus musculus) 10090 (Mus musculus) 134 136 1zab-a1-m1-cB_1zab-a1-m1-cD 1zab-a1-m1-cC_1zab-a1-m1-cA 1zab-a2-m1-cB_1zab-a2-m1-cD 1zab-a2-m1-cC_1zab-a2-m1-cA 1zab-a2-m2-cB_1zab-a2-m2-cD 1zab-a2-m2-cC_1zab-a2-m2-cA 2fr5-a1-m1-cB_2fr5-a1-m1-cD 2fr5-a1-m1-cC_2fr5-a1-m1-cA 2fr5-a2-m1-cB_2fr5-a2-m1-cD 2fr5-a2-m1-cC_2fr5-a2-m1-cA 2fr5-a2-m2-cB_2fr5-a2-m2-cD 2fr6-a1-m1-cB_2fr6-a1-m1-cD 2fr6-a1-m1-cC_2fr6-a1-m1-cA 2fr6-a2-m1-cB_2fr6-a2-m1-cD 2fr6-a2-m1-cC_2fr6-a2-m1-cA 2fr6-a2-m2-cB_2fr6-a2-m2-cD 2fr6-a2-m2-cC_2fr6-a2-m2-cA VEPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQ EPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQKIQ 2fr5-a2-m2-cC_2fr5-a2-m2-cD Crystal Structure of Mouse Cytidine Deaminase Complexed with Tetrahydrouridine P56389 P56389 1.48 X-RAY DIFFRACTION 79 0.993 10090 (Mus musculus) 10090 (Mus musculus) 134 136 1zab-a1-m1-cB_1zab-a1-m1-cA 1zab-a1-m1-cC_1zab-a1-m1-cD 1zab-a2-m1-cB_1zab-a2-m1-cA 1zab-a2-m1-cC_1zab-a2-m1-cD 1zab-a2-m2-cB_1zab-a2-m2-cA 1zab-a2-m2-cC_1zab-a2-m2-cD 2fr5-a1-m1-cB_2fr5-a1-m1-cA 2fr5-a1-m1-cC_2fr5-a1-m1-cD 2fr5-a2-m1-cB_2fr5-a2-m1-cA 2fr5-a2-m1-cC_2fr5-a2-m1-cD 2fr5-a2-m2-cB_2fr5-a2-m2-cA 2fr6-a1-m1-cB_2fr6-a1-m1-cA 2fr6-a1-m1-cC_2fr6-a1-m1-cD 2fr6-a2-m1-cB_2fr6-a2-m1-cA 2fr6-a2-m1-cC_2fr6-a2-m1-cD 2fr6-a2-m2-cB_2fr6-a2-m2-cA 2fr6-a2-m2-cC_2fr6-a2-m2-cD 2fr6-a3-m1-cB_2fr6-a3-m1-cA 2fr6-a3-m2-cB_2fr6-a3-m2-cA 2fr6-a3-m3-cC_2fr6-a3-m3-cD 2fr6-a3-m4-cC_2fr6-a3-m4-cD VEPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQ EPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQKIQ 2fr6-a3-m4-cC_2fr6-a3-m1-cB Crystal Structure of Mouse Cytidine Deaminase Complexed with Cytidine P56389 P56389 2.07 X-RAY DIFFRACTION 35 0.993 10090 (Mus musculus) 10090 (Mus musculus) 134 135 2fr6-a3-m3-cC_2fr6-a3-m2-cB AVEPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDL VEPEHVQRLLLSSREAKKSAYCPYSRFPVGAALLTGDGRIFSGCNIENACYPLGVCAERTAIQKAISEGYKDFRAIAISSDLQEEFISPCGACRQVMREFGTDWAVYMTKPDGTFVVRTVQELLPASFGPEDLQK 2fre-a1-m1-cB_2fre-a1-m1-cA The crystal structure of the oxidoreductase containing FMN A9CKT4 A9CKT4 1.9 X-RAY DIFFRACTION 221 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 193 195 TNSNNRQSEYPVDPLFLDRWSPRAFDGSPPKEHLLTILDAAHWAPSASNHQPWRFVYAHKDSEDWPLFVELLEGNQKWAKNASVLLFVISRDHTISHEGEKKPSATHSFDAGAAWFSLAQAHLLGYHAHGGGIFKDRIVEKLDIPDGFKVEAGVAIGTLTDKSILPDDLAEREVPSKRVPLADVAFEGRFTGK TNSNNRQSEYPVDPLFLDRWSPRAFDGSPPKEHLLTILDAAHWAPSASNHQPWRFVYAHKDSEDWPLFVELLEGNQKWAKNASVLLFVISRDHTISHEGEKKPSATHSFDAGAAWFSLAQAHLLGYHAHGGGIFKDRIVEKLDIPDGFKVEAGVAIGTLTDKSILPDDLAEREVPSKRVPLADVAFEGRFTGKAD 2frh-a1-m1-cA_2frh-a1-m1-cB Crystal Structure of Sara, A Transcription Regulator From Staphylococcus Aureus Q7A1N5 Q7A1N5 2.5 X-RAY DIFFRACTION 110 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 127 127 2fnp-a1-m1-cA_2fnp-a1-m1-cB GSHMAITKINDCFELLSMVTYADKLKSLIKKEFSISFEEFAVLTYISENKEKEYYLKDIINHLNYKQPQVVKAVKILSQEDYFDKKRNEHDERTVLILVNAQQRKKIESLLSRVNKRITEANNEIEL GSHMAITKINDCFELLSMVTYADKLKSLIKKEFSISFEEFAVLTYISENKEKEYYLKDIINHLNYKQPQVVKAVKILSQEDYFDKKRNEHDERTVLILVNAQQRKKIESLLSRVNKRITEANNEIEL 2fs2-a1-m1-cA_2fs2-a1-m2-cB Structure of the E. coli PaaI protein from the phyenylacetic acid degradation operon P76084 P76084 2 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 128 134 2fs2-a1-m2-cA_2fs2-a1-m1-cB SLSHKAWQNAHAYENDACAKALGIDIISDEGFAVVTTVTAQLNGHQSCHGGQLFSLADTAFAYACNSQGLAAVASACTIDFLRPGFAGDTLTATAQVRHQGKQTGVYDIEIVNQQQKTVALFRGKSHR SLSHKAWQNAHAYENDACAKALGIDIISDEGFAVVTTVTAQLNGHQSCHGGQLFSLADTAFAYACNSQGLAAVASACTIDFLRPGFAGDTLTATAQVRHQGKQTGVYDIEIVNQQQKTVALFRGKSHRIGGTIT 2fs2-a1-m2-cA_2fs2-a1-m2-cB Structure of the E. coli PaaI protein from the phyenylacetic acid degradation operon P76084 P76084 2 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 128 134 1psu-a1-m1-cA_1psu-a1-m1-cB 2fs2-a1-m1-cA_2fs2-a1-m1-cB SLSHKAWQNAHAYENDACAKALGIDIISDEGFAVVTTVTAQLNGHQSCHGGQLFSLADTAFAYACNSQGLAAVASACTIDFLRPGFAGDTLTATAQVRHQGKQTGVYDIEIVNQQQKTVALFRGKSHR SLSHKAWQNAHAYENDACAKALGIDIISDEGFAVVTTVTAQLNGHQSCHGGQLFSLADTAFAYACNSQGLAAVASACTIDFLRPGFAGDTLTATAQVRHQGKQTGVYDIEIVNQQQKTVALFRGKSHRIGGTIT 2fsd-a1-m1-cA_2fsd-a1-m1-cB A Common Fold for the Receptor Binding Domains of Lactococcal Phages? The Crystal Structure of the Head Domain of Phage bIL170 O80120 O80120 2.3 X-RAY DIFFRACTION 65 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 110 110 DIPWTDLNRASGVGSTGILQARIINGVIYVRGNSIPVPNVAPNFIVPVGTFPPAFGTNLPQFDSSGTFYSHGNLSLSLINMSPSGIAVGNPNNTSMNGKTISFALSAPLL DIPWTDLNRASGVGSTGILQARIINGVIYVRGNSIPVPNVAPNFIVPVGTFPPAFGTNLPQFDSSGTFYSHGNLSLSLINMSPSGIAVGNPNNTSMNGKTISFALSAPLL 2fsi-a1-m1-cA_2fsi-a1-m1-cB Complex SecA:ADP from Escherichia coli P10408 P10408 2.11 X-RAY DIFFRACTION 92 0.999 562 (Escherichia coli) 562 (Escherichia coli) 691 748 2fsf-a1-m1-cA_2fsf-a1-m1-cB 2fsg-a1-m1-cA_2fsg-a1-m1-cB 2fsh-a1-m1-cA_2fsh-a1-m1-cB RNDRTLRRMRKVVNIINAMEPEMEKLSDEELKGKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNERCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGLTVGINLPGMPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIISGPAEDSQNENQTLASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDLPDLVYMTEAEKIQAIIEDIKERTAKGQPVLVGTISIEKSELVSNELTKAGIKHNVLNAKFHANEAAIVAQAGYPAAVTIATNMAGRGTDIVLGGSWQAEVAALENPTAEQIEKIKADWQVRHDAVLEAGGLHIIGTERHESRRIDNQLRGRSGRQGDAGSSRFYLSMEDALMRIFASDRVSGMMRKLGMKPGEAIEHPWVTKAIANAQRKVESRNFDIRKQLLEYDDVANDQRRAIYSQRNELLDVSDVSETINSIREDVFKATIDAYIPPQSLEEMWDIPGLQERLKNDFDLDLPIAEWLDKEPELHEETLRERILAQSIEVYQRKEEVVGAEMMRHFEKGVMLQTLDSLWKEHLAAMDYLRQGIHLRGYAQKDPKQEYKRESFSMFAAMLESLKYEVISTLSKVQVRMPEE GSRNDRTLRRMRKVVNIINAMEPEMEKLSDEELKGKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNERCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGLTVGINLPGMPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIISGPAEDSSEMYKRVNKIIPHLIRQVLIEELLVKEGIMDEGESLYSPANIMLMHHVTAALRAHANENQTLASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDLPDLVYMTEAEKIQAIIEDIKERTAKGQPVLVGTISIEKSELVSNELTKAGIKHNVLNAKFHANEAAIVAQAGYPAAVTIATNMAGRGTDIVLGGSWQAEVAALENPTAEQIEKIKADWQVRHDAVLEAGGLHIIGTERHESRRIDNQLRGRSGRQGDAGSSRFYLSMEDALMRIFASDRVSGMMRKLGMKPGEAIEHPWVTKAIANAQRKVESRNFDIRKQLLEYDDVANDQRRAIYSQRNELLDVSDVSETINSIREDVFKATIDAYIPPQSLEEMWDIPGLQERLKNDFDLDLPIAEWLDKEPELHEETLRERILAQSIEVYQRKEEVVGAEMMRHFEKGVMLQTLDSLWKEHLAAMDYLRQGIHLRGYAQKDPKQEYKRESFSMFAAMLESLKYEVISTLSKVQVRMPEE 2fsu-a2-m1-cA_2fsu-a2-m2-cA Crystal Structure of the PhnH Protein from Escherichia Coli P16686 P16686 1.7 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 167 167 QDAQHSFRRLLKASEPGVIVALHQLKRGWQPLNIATTSVLLTLADNDTPVWLSTPLNNDIVNQSLRFHTNAPLVSQPEQATFAVTDEAISSEQLNALSGATLILQVASLSGGRLRLTGEERIAPQLPECILHELTERPHPFPLGIDLILTCGERLLAIPRTTHVEVC QDAQHSFRRLLKASEPGVIVALHQLKRGWQPLNIATTSVLLTLADNDTPVWLSTPLNNDIVNQSLRFHTNAPLVSQPEQATFAVTDEAISSEQLNALSGATLILQVASLSGGRLRLTGEERIAPQLPECILHELTERPHPFPLGIDLILTCGERLLAIPRTTHVEVC 2fsw-a1-m1-cA_2fsw-a1-m1-cB Crystal Structure of the Putative Transcriptional Regualator, MarR family from Porphyromonas gingivalis W83 Q7M7B7 Q7M7B7 2.16 X-RAY DIFFRACTION 109 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 99 100 RKISDEECPVRKSQIFAGKWTLLIIFQINRRIIRYGELKRAIPGISEKLIDELKFLCGKGLIKKKQYPEVPPRVEYSLTPLGEKVLPIIDEIAKFGENL ERKISDEECPVRKSQIFAGKWTLLIIFQINRRIIRYGELKRAIPGISEKLIDELKFLCGKGLIKKKQYPEVPPRVEYSLTPLGEKVLPIIDEIAKFGENL 2fsz-a2-m1-cA_2fsz-a2-m4-cB A second binding site for hydroxytamoxifen within the coactivator-binding groove of estrogen receptor beta Q92731 Q92731 2.2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 227 2fsz-a2-m2-cA_2fsz-a2-m3-cB 2fsz-a2-m3-cA_2fsz-a2-m1-cB 2fsz-a2-m4-cA_2fsz-a2-m2-cB SPEQLVLTLLEAEPPHVLISRPSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESSWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKSVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMNVVPVYDLLLEMLNAHVLR LDALSPEQLVLTLLEAEPPHVLISRPSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESSWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKSVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMNVVPVYDLLLEMLNAHVLR 2ft0-a1-m1-cA_2ft0-a1-m1-cB Crystal structure of TDP-fucosamine acetyltransferase (WecD)- complex with acetyl-CoA Q8FBQ3 Q8FBQ3 1.66 X-RAY DIFFRACTION 74 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 222 222 2fs5-a1-m1-cA_2fs5-a1-m1-cB VRASIEPLTWENAFFGVNSAIVRITSEAPLLTPDALAPWSRVQAKIAASNTGELDALQQLGFSLVEGEVDLALPVNNVSDSGAVVAQETDIPALRQLASAAFAQSRFRAPWYAPDASGRFYAQWIENAVRGTFDHQCLILRAASGDIRGYVSLRELNATDARIGLLAGRGAGAELMQTALNWAYARGKTTLRVATQMGNTAALKRYIQSGANVESTAYWLYR VRASIEPLTWENAFFGVNSAIVRITSEAPLLTPDALAPWSRVQAKIAASNTGELDALQQLGFSLVEGEVDLALPVNNVSDSGAVVAQETDIPALRQLASAAFAQSRFRAPWYAPDASGRFYAQWIENAVRGTFDHQCLILRAASGDIRGYVSLRELNATDARIGLLAGRGAGAELMQTALNWAYARGKTTLRVATQMGNTAALKRYIQSGANVESTAYWLYR 2ft3-a3-m1-cE_2ft3-a3-m1-cF Crystal structure of the biglycan dimer core protein P21809 P21809 3.4 X-RAY DIFFRACTION 60 1.0 9913 (Bos taurus) 9913 (Bos taurus) 303 305 2ft3-a1-m1-cA_2ft3-a1-m1-cB 2ft3-a2-m1-cC_2ft3-a2-m1-cD AMCPFGCHCHLRVVQCSDLGLKAVPKEISPDTTLLDLQNNDISELRKDDFKGLQHLYALVLVNNKISKIHEKAFSPLRKLQKLYISKNHLVEIPPNLPSSLVELRIHDNRIRKVPKGVFSGLRNMNCIEMGGNPLENSGFEPGAFDGLKLNYLRISEAKLTGIPKDLPETLNELHLDHNKIQAIELEDLLRYSKLYRLGLGHNQIRMIENGSLSFLPTLRELHLDNNKLSRVPAGLPDLKLLQVVYLHTNNITKVGVNDFCPVGFGVKRAYYNGISLFNNPVPYWEVQPATFRCVTDRLAIQF AMCPFGCHCHLRVVQCSDLGLKAVPKEISPDTTLLDLQNNDISELRKDDFKGLQHLYALVLVNNKISKIHEKAFSPLRKLQKLYISKNHLVEIPPNLPSSLVELRIHDNRIRKVPKGVFSGLRNMNCIEMGGNPLENSGFEPGAFDGLKLNYLRISEAKLTGIPKDLPETLNELHLDHNKIQAIELEDLLRYSKLYRLGLGHNQIRMIENGSLSFLPTLRELHLDNNKLSRVPAGLPDLKLLQVVYLHTNNITKVGVNDFCPVGFGVKRAYYNGISLFNNPVPYWEVQPATFRCVTDRLAIQFGN 2ftc-a1-m1-cE_2ftc-a1-m1-cF Structural Model for the Large Subunit of the Mammalian Mitochondrial Ribosome Q7YR75 Q7YR75 12.1 ELECTRON MICROSCOPY 70 1.0 9913 (Bos taurus) 9913 (Bos taurus) 137 137 PKIQQLVQDIASLTLLEISDLNELLKKTLKIQDVGLMPMGGMVPGAAPAPTAPEAAEEDVPKQKERTHFTVRLTEAKPVDKVKLIKEIKNYVQGINLVQAKKLVESLPQEIKANVAKAEAEKIKAALEAVGGTVVLE PKIQQLVQDIASLTLLEISDLNELLKKTLKIQDVGLMPMGGMVPGAAPAPTAPEAAEEDVPKQKERTHFTVRLTEAKPVDKVKLIKEIKNYVQGINLVQAKKLVESLPQEIKANVAKAEAEKIKAALEAVGGTVVLE 2ftk-a2-m1-cC_2ftk-a2-m1-cD berylloflouride Spo0F complex with Spo0B P06535 P06535 3.05 X-RAY DIFFRACTION 97 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 181 182 1f51-a1-m1-cA_1f51-a1-m1-cB 1f51-a2-m1-cC_1f51-a2-m1-cD 1ixm-a1-m1-cA_1ixm-a1-m1-cB 2ftk-a1-m1-cA_2ftk-a1-m1-cB ISDTALTNELIHLLGHSRHDWMNKLQLIKGNLSLQKYDRVFEMIEEMVIDAKHESKLSNLKTPHLAFDFLTFNWKTHYMTLEYEVLGEIKDLSAYDQKLAKLMRKLFHLFDQAVSRESENHLTVSLQTDHPDRQLILYLDFHGAFADPSAFDDIRQNGYEDVDIMRFEITSHECLIEIGLD NISDTALTNELIHLLGHSRHDWMNKLQLIKGNLSLQKYDRVFEMIEEMVIDAKHESKLSNLKTPHLAFDFLTFNWKTHYMTLEYEVLGEIKDLSAYDQKLAKLMRKLFHLFDQAVSRESENHLTVSLQTDHPDRQLILYLDFHGAFADPSAFDDIRQNGYEDVDIMRFEITSHECLIEIGLD 2ftp-a2-m3-cA_2ftp-a2-m6-cA Crystal Structure of hydroxymethylglutaryl-CoA lyase from Pseudomonas aeruginosa Q9I2A0 Q9I2A0 2.4 X-RAY DIFFRACTION 101 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 300 300 2ftp-a1-m1-cA_2ftp-a1-m2-cA 2ftp-a2-m1-cA_2ftp-a2-m2-cA 2ftp-a2-m4-cA_2ftp-a2-m5-cA MNLPKKVRLVEVGPRDGLQNEKQPIEVADKIRLVDDLSAAGLDYIEVGSFVSPKWVPQMAGSAEVFAGIRQRPGVTYAALAPNLKGFEAALESGVKEVAVFAAASEAFSQRNINCSIKDSLERFVPVLEAARQHQVRVRGYISCVLGCPYDGDVDPRQVAWVARELQQMGCYEVSLGDTIGVGTAGATRRLIEAVASEVPRERLAGHFHDTYGQALANIYASLLEGIAVFDSSVAGLGGCPYAKGATGNVASEDVLYLLNGLEIHTGVDMHALVDAGQRICAVLGKSNGSRAAKALLAKA MNLPKKVRLVEVGPRDGLQNEKQPIEVADKIRLVDDLSAAGLDYIEVGSFVSPKWVPQMAGSAEVFAGIRQRPGVTYAALAPNLKGFEAALESGVKEVAVFAAASEAFSQRNINCSIKDSLERFVPVLEAARQHQVRVRGYISCVLGCPYDGDVDPRQVAWVARELQQMGCYEVSLGDTIGVGTAGATRRLIEAVASEVPRERLAGHFHDTYGQALANIYASLLEGIAVFDSSVAGLGGCPYAKGATGNVASEDVLYLLNGLEIHTGVDMHALVDAGQRICAVLGKSNGSRAAKALLAKA 2ftp-a2-m4-cA_2ftp-a2-m6-cA Crystal Structure of hydroxymethylglutaryl-CoA lyase from Pseudomonas aeruginosa Q9I2A0 Q9I2A0 2.4 X-RAY DIFFRACTION 57 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 300 300 2ftp-a2-m1-cA_2ftp-a2-m5-cA 2ftp-a2-m2-cA_2ftp-a2-m3-cA MNLPKKVRLVEVGPRDGLQNEKQPIEVADKIRLVDDLSAAGLDYIEVGSFVSPKWVPQMAGSAEVFAGIRQRPGVTYAALAPNLKGFEAALESGVKEVAVFAAASEAFSQRNINCSIKDSLERFVPVLEAARQHQVRVRGYISCVLGCPYDGDVDPRQVAWVARELQQMGCYEVSLGDTIGVGTAGATRRLIEAVASEVPRERLAGHFHDTYGQALANIYASLLEGIAVFDSSVAGLGGCPYAKGATGNVASEDVLYLLNGLEIHTGVDMHALVDAGQRICAVLGKSNGSRAAKALLAKA MNLPKKVRLVEVGPRDGLQNEKQPIEVADKIRLVDDLSAAGLDYIEVGSFVSPKWVPQMAGSAEVFAGIRQRPGVTYAALAPNLKGFEAALESGVKEVAVFAAASEAFSQRNINCSIKDSLERFVPVLEAARQHQVRVRGYISCVLGCPYDGDVDPRQVAWVARELQQMGCYEVSLGDTIGVGTAGATRRLIEAVASEVPRERLAGHFHDTYGQALANIYASLLEGIAVFDSSVAGLGGCPYAKGATGNVASEDVLYLLNGLEIHTGVDMHALVDAGQRICAVLGKSNGSRAAKALLAKA 2ftr-a1-m1-cB_2ftr-a1-m1-cA Crystal structure of an ethyl tert-butyl ether d (ethd) family protein (bh0200) from bacillus halodurans c-125 at 1.40 A resolution Q9KGB0 Q9KGB0 1.4 X-RAY DIFFRACTION 52 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 90 93 VKLIALYEQPEDKQAFDEHYFNTHAPLTRKIPGLRDKVTRIVGSPGESKFYLCEYYDDHESLQQARTDEGKASGKDAKFAGKLLTLIGEE ENVKLIALYEQPEDKQAFDEHYFNTHAPLTRKIPGLRDKVTRIVGSPGESKFYLCEYYDDHESLQQARTDEGKASGKDAKFAGKLLTLIGEED 2ftw-a1-m1-cA_2ftw-a1-m4-cA Crystal structure of dihydropyrimidinase from dictyostelium discoideum Q55DL0 Q55DL0 2.05 X-RAY DIFFRACTION 110 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 483 483 2ftw-a1-m2-cA_2ftw-a1-m3-cA TGTILIKNGTVVNDDRYFKSDVLVENGIIKEISKNIEPKEGIKVVDATDKLLLPGGIDTHTHFQLPFMGTVSVDDFDIGTQAAVAGGTTFIIDFVIPTRGQSLLEAYDQWKKWADEKVNCDYSLHVAITWWSEQVSREMEILVKERGVNSFCFMAYKNSFMVTDQEMYHIFKRCKELGAIAQVHAENGDMVFEGQKKMLEMGITGPEGHELSRPEALEAEATNRAIVIADSVCTPVYIVHVQSIGAADVICKHRKEGVRVYGEPIAAGLGVDGSHMWNHDWRHAAAFVMGPPIRPDPRTKGVLMDYLARGDLDCVGTDNCTFCADQKAMGKDDFTKIPNGVNGVEDRMSIVWENGVNTGKLTWCQFVRATSSERARIFNIYPRKGRIDVGCDGDIVIWDPNQSKTISKDTHHHAVDFNIFEGIKVTGIAVTTIVAGNIVWSDNKLSCVKGSGRFVPRPPFGPVFDGIEQRDKVRNELLRKVDR TGTILIKNGTVVNDDRYFKSDVLVENGIIKEISKNIEPKEGIKVVDATDKLLLPGGIDTHTHFQLPFMGTVSVDDFDIGTQAAVAGGTTFIIDFVIPTRGQSLLEAYDQWKKWADEKVNCDYSLHVAITWWSEQVSREMEILVKERGVNSFCFMAYKNSFMVTDQEMYHIFKRCKELGAIAQVHAENGDMVFEGQKKMLEMGITGPEGHELSRPEALEAEATNRAIVIADSVCTPVYIVHVQSIGAADVICKHRKEGVRVYGEPIAAGLGVDGSHMWNHDWRHAAAFVMGPPIRPDPRTKGVLMDYLARGDLDCVGTDNCTFCADQKAMGKDDFTKIPNGVNGVEDRMSIVWENGVNTGKLTWCQFVRATSSERARIFNIYPRKGRIDVGCDGDIVIWDPNQSKTISKDTHHHAVDFNIFEGIKVTGIAVTTIVAGNIVWSDNKLSCVKGSGRFVPRPPFGPVFDGIEQRDKVRNELLRKVDR 2ftw-a1-m3-cA_2ftw-a1-m4-cA Crystal structure of dihydropyrimidinase from dictyostelium discoideum Q55DL0 Q55DL0 2.05 X-RAY DIFFRACTION 67 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 483 483 2ftw-a1-m1-cA_2ftw-a1-m2-cA TGTILIKNGTVVNDDRYFKSDVLVENGIIKEISKNIEPKEGIKVVDATDKLLLPGGIDTHTHFQLPFMGTVSVDDFDIGTQAAVAGGTTFIIDFVIPTRGQSLLEAYDQWKKWADEKVNCDYSLHVAITWWSEQVSREMEILVKERGVNSFCFMAYKNSFMVTDQEMYHIFKRCKELGAIAQVHAENGDMVFEGQKKMLEMGITGPEGHELSRPEALEAEATNRAIVIADSVCTPVYIVHVQSIGAADVICKHRKEGVRVYGEPIAAGLGVDGSHMWNHDWRHAAAFVMGPPIRPDPRTKGVLMDYLARGDLDCVGTDNCTFCADQKAMGKDDFTKIPNGVNGVEDRMSIVWENGVNTGKLTWCQFVRATSSERARIFNIYPRKGRIDVGCDGDIVIWDPNQSKTISKDTHHHAVDFNIFEGIKVTGIAVTTIVAGNIVWSDNKLSCVKGSGRFVPRPPFGPVFDGIEQRDKVRNELLRKVDR TGTILIKNGTVVNDDRYFKSDVLVENGIIKEISKNIEPKEGIKVVDATDKLLLPGGIDTHTHFQLPFMGTVSVDDFDIGTQAAVAGGTTFIIDFVIPTRGQSLLEAYDQWKKWADEKVNCDYSLHVAITWWSEQVSREMEILVKERGVNSFCFMAYKNSFMVTDQEMYHIFKRCKELGAIAQVHAENGDMVFEGQKKMLEMGITGPEGHELSRPEALEAEATNRAIVIADSVCTPVYIVHVQSIGAADVICKHRKEGVRVYGEPIAAGLGVDGSHMWNHDWRHAAAFVMGPPIRPDPRTKGVLMDYLARGDLDCVGTDNCTFCADQKAMGKDDFTKIPNGVNGVEDRMSIVWENGVNTGKLTWCQFVRATSSERARIFNIYPRKGRIDVGCDGDIVIWDPNQSKTISKDTHHHAVDFNIFEGIKVTGIAVTTIVAGNIVWSDNKLSCVKGSGRFVPRPPFGPVFDGIEQRDKVRNELLRKVDR 2ftz-a1-m1-cA_2ftz-a1-m2-cA Crystal structure of Geranyltranstransferase (EC 2.5.1.10) (tm0161) from THERMOTOGA MARITIMA at 1.90 A resolution Q9WY08 Q9WY08 1.9 X-RAY DIFFRACTION 129 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 241 241 HHHHMKEVEERIREILRPGWDLLTEEAMLYSATVGGRIRPLLVLTLGEDLGVEEELLDVAVAVELFHTASLIHDDLPPIDNADFRRGPSCHRTYGEDIALLAGDGLFFLAFSQISIGNSIFEEFSETAYLLLGEAMDVEFERRMEVSQEMVERMYAFTGALFAFCFSAPFILGDHTMLLGEFGVAFQIYDDLDILGSFEVTLVVGIQAREMADYYEEVLGIESEGLFRTLFLLELQMVEER HHHHMKEVEERIREILRPGWDLLTEEAMLYSATVGGRIRPLLVLTLGEDLGVEEELLDVAVAVELFHTASLIHDDLPPIDNADFRRGPSCHRTYGEDIALLAGDGLFFLAFSQISIGNSIFEEFSETAYLLLGEAMDVEFERRMEVSQEMVERMYAFTGALFAFCFSAPFILGDHTMLLGEFGVAFQIYDDLDILGSFEVTLVVGIQAREMADYYEEVLGIESEGLFRTLFLLELQMVEER 2fuj-a1-m1-cA_2fuj-a1-m4-cA A putative acyl-CoA thioesterase from Xanthomonas campestris (XC229) Q8PBH4 Q8PBH4 1.7 X-RAY DIFFRACTION 50 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 118 118 2fuj-a1-m2-cA_2fuj-a1-m3-cA KILARVPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVAMTDRIAPVVAATNVNYKRPLVWPNDILVELFVERLGSSSVTIGHRILDQKDEGVLYSDGNVVVVWIDTQTGKS KILARVPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVAMTDRIAPVVAATNVNYKRPLVWPNDILVELFVERLGSSSVTIGHRILDQKDEGVLYSDGNVVVVWIDTQTGKS 2fuj-a1-m2-cA_2fuj-a1-m4-cA A putative acyl-CoA thioesterase from Xanthomonas campestris (XC229) Q8PBH4 Q8PBH4 1.7 X-RAY DIFFRACTION 23 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 118 118 2fuj-a1-m1-cA_2fuj-a1-m3-cA KILARVPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVAMTDRIAPVVAATNVNYKRPLVWPNDILVELFVERLGSSSVTIGHRILDQKDEGVLYSDGNVVVVWIDTQTGKS KILARVPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVAMTDRIAPVVAATNVNYKRPLVWPNDILVELFVERLGSSSVTIGHRILDQKDEGVLYSDGNVVVVWIDTQTGKS 2fuj-a1-m3-cA_2fuj-a1-m4-cA A putative acyl-CoA thioesterase from Xanthomonas campestris (XC229) Q8PBH4 Q8PBH4 1.7 X-RAY DIFFRACTION 22 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 118 118 2fuj-a1-m1-cA_2fuj-a1-m2-cA KILARVPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVAMTDRIAPVVAATNVNYKRPLVWPNDILVELFVERLGSSSVTIGHRILDQKDEGVLYSDGNVVVVWIDTQTGKS KILARVPISVRWRDMDSMGHVNNAKYISYLEEARVRWMLGVEGVAMTDRIAPVVAATNVNYKRPLVWPNDILVELFVERLGSSSVTIGHRILDQKDEGVLYSDGNVVVVWIDTQTGKS 2fuk-a1-m1-cA_2fuk-a1-m2-cA Crystal structure of XC6422 from Xanthomonas campestris: a member of a/b serine hydrolase without lid at 1.6 resolution B0RM26 B0RM26 1.6 X-RAY DIFFRACTION 22 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 218 218 NPLFPTESAALTLDGPVGPLDVAVDLPEPDVAVQPVTAIVCHPLSTEGGSMHNKVVTMAARALRELGITVVRFNFRSVGTSAGSFDHGDGEQDDLRAVAEWVRAQRPTDTLWLAGFSFGAYVSLRAAAALEPQVLISIAPPAGRWDFSDVQPPAQWLVIQGDADEIVDPQAVYDWLETLEQQPTLVRMPDTSHFFHRKLIDLRGALQHGVRRWLPATP NPLFPTESAALTLDGPVGPLDVAVDLPEPDVAVQPVTAIVCHPLSTEGGSMHNKVVTMAARALRELGITVVRFNFRSVGTSAGSFDHGDGEQDDLRAVAEWVRAQRPTDTLWLAGFSFGAYVSLRAAAALEPQVLISIAPPAGRWDFSDVQPPAQWLVIQGDADEIVDPQAVYDWLETLEQQPTLVRMPDTSHFFHRKLIDLRGALQHGVRRWLPATP 2fur-a1-m1-cB_2fur-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE FMN-BINDING PROTEIN (TA1372) FROM THERMOPLASMA ACIDOPHILUM AT 1.80 A RESOLUTION Q9HIG7 Q9HIG7 1.8 X-RAY DIFFRACTION 197 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 185 188 YSDEDLVALDRNFTCTVSFIDGGIPYAIPLASEGKTIYLHGSKSRIYGILKTGQLIAISLLEINGIVLAKEIKNNSINYVSALIFGRPYEIDDTEKKIEVFRLLTEKLVKGRWDNSIKPSYEDLNGVFVFAVKPETFSKARTGPPHDTSTDDIWSGVLPIQHTISEAGENAPEYVKSLYGKRIFI RASYSDEDLVALDRNFTCTVSFIDGGIPYAIPLASEGKTIYLHGSKSRIYGILKTGQLIAISLLEINGIVLAKEIKNNSINYVSALIFGRPYEIDDTEKKIEVFRLLTEKLVKGRWDNSIKPSYEDLNGVFVFAVKPETFSKARTGPPHDTSTDDIWSGVLPIQHTISEAGENAPEYVKSLYGKRIFI 2fv2-a2-m1-cC_2fv2-a2-m1-cD Crystal Structure Analysis of human Rcd-1 conserved region Q92600 Q92600 2.2 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 268 268 2fv2-a1-m1-cB_2fv2-a1-m1-cA DREKIYQWINELSSPETRENALLELSKKRESVPDLAPMLWHSFGTIAALLQEIVNIYPSINPPTLTAHQSNRVCNALALLQCVASHPETRSAFLAAHIPLFLYPFLHTVSKTRPFEYLRLTSLGVIGALVKTDEQEVINFLLTTEIIPLCLRIMESGSELSKTVATFILQKILLDDTGLAYICQTYERFSHVAMILGKMVLQLSKEPSARLLKHVVRCYLRLSDNPRAREALRQCLPDQLKDTTFAQVLKDDTTTKRWLAQLVKNLQE DREKIYQWINELSSPETRENALLELSKKRESVPDLAPMLWHSFGTIAALLQEIVNIYPSINPPTLTAHQSNRVCNALALLQCVASHPETRSAFLAAHIPLFLYPFLHTVSKTRPFEYLRLTSLGVIGALVKTDEQEVINFLLTTEIIPLCLRIMESGSELSKTVATFILQKILLDDTGLAYICQTYERFSHVAMILGKMVLQLSKEPSARLLKHVVRCYLRLSDNPRAREALRQCLPDQLKDTTFAQVLKDDTTTKRWLAQLVKNLQE 2fvh-a1-m1-cB_2fvh-a1-m1-cC Crystal Structure of Rv1848, a Urease Gamma Subunit UreA (Urea amidohydrolase), from Mycobacterium Tuberculosis P9WFE7 P9WFE7 1.8 X-RAY DIFFRACTION 17 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 99 99 2fvh-a1-m1-cA_2fvh-a1-m1-cB 2fvh-a1-m1-cA_2fvh-a1-m1-cC RLTPHEQERLLLSYAAELARRRRARGLRLNHPEAIAVIADHILEGARDGRTVAELMASGREVLGRDDVMEGVPEMLAEVQVEATFPDGTKLVTVHQPIA RLTPHEQERLLLSYAAELARRRRARGLRLNHPEAIAVIADHILEGARDGRTVAELMASGREVLGRDDVMEGVPEMLAEVQVEATFPDGTKLVTVHQPIA 2fvk-a1-m1-cB_2fvk-a1-m1-cD Crystal structure of dihydropyrimidinase from Saccharomyces kluyveri in complex with the substrate dihydrouracil Q9P903 Q9P903 2.4 X-RAY DIFFRACTION 89 0.998 4934 (Lachancea kluyveri) 4934 (Lachancea kluyveri) 531 531 2fty-a1-m1-cC_2fty-a1-m1-cA 2fty-a1-m1-cD_2fty-a1-m1-cB 2fvk-a1-m1-cC_2fvk-a1-m1-cA 2fvm-a1-m1-cB_2fvm-a1-m1-cD 2fvm-a1-m1-cC_2fvm-a1-m1-cA PIYDLIIKNGIICTASDIYAAEIAVNNGKVQLIAASIDPSLGSEVIDAEGAFITPGGIDAHVHVDEPLKLLGDVVDTMEHATRSAVAGGTTTVVAFSTQDVSKKGPSALAESVKLDVDEYSEQTLYCDYGLHLILFQIEKPSVEARELLDVQLQAAYNDYGVSSVMFMTYPGLQISDYDIMSAMYATRKNGFTTMLHAENGDMVKWMIEALEEQGLTDAYYHGVSRPSIVEGEATNRAITLATTMDTPILFVHVSSPQAAEVIKQAQTKGLKVYAETCPQYALLSDAITRCHGVGIDLSSISESPFTNPDDRFIGSKYICSPPIRPEGTQKSIWKGMNNGTFTIVGSDHCSYNYYEKTSTASKHRAFDPENNKNGEFRYIPNGLPGVCTRMPLLYDYGYLRGNLTSMMKLVEIQCTNPAKVYGMYPQKGSILPGVSDADLVIWYPDDSKKEYNSKPKLITNKLMEHNCDYTPFEGIEIKNWPRYTIVKGKIVYKEGEILKENADGKYLKRGKSFMCTPKNEWVTEWRPKYE PIYDLIIKNGIICTASDIYAAEIAVNNGKVQLIAASIDPSLGSEVIDAEGAFITPGGIDAHVHVDEPLKLLGDVVDTMEHATRSAVAGGTTTVVAFSTQDVSKKGPSALAESVKLDVDEYSEQTLYCDYGLHLILFQIEKPSVEARELLDVQLQAAYNDYGVSSVMFMTYPGLQISDYDIMSAMYATRKNGFTTMLHAENGDMVKWMIEALEEQGLTDAYYHGVSRPSIVEGEATNRAITLATTMDTPILFVHVSSPQAAEVIKQAQTKGLKVYAETCPQYALLSDAITRCHVGIDLSSISESPFTNPDDRFIGSKYICSPPIRPEGTQKSIWKGMNNGTFTIVGSDHCSYNYYEKTSTASKHRAFDPENNKNGEFRYIPNGLPGVCTRMPLLYDYGYLRGNLTSMMKLVEIQCTNPAKVYGMYPQKGSILPGVSDADLVIWYPDDSKKEYNSKPKLITNKLMEHNCDYTPFEGIEIKNWPRYTIVKGKIVYKEGEILKENADGKYLKRGKSFMCTPKNEWVTEWRPKYES 2fvk-a1-m1-cC_2fvk-a1-m1-cD Crystal structure of dihydropyrimidinase from Saccharomyces kluyveri in complex with the substrate dihydrouracil Q9P903 Q9P903 2.4 X-RAY DIFFRACTION 103 0.998 4934 (Lachancea kluyveri) 4934 (Lachancea kluyveri) 530 531 2fty-a1-m1-cA_2fty-a1-m1-cB 2fty-a1-m1-cD_2fty-a1-m1-cC 2fvk-a1-m1-cA_2fvk-a1-m1-cB 2fvm-a1-m1-cA_2fvm-a1-m1-cB 2fvm-a1-m1-cC_2fvm-a1-m1-cD PIYDLIIKNGIICTASDIYAAEIAVNNGKVQLIAASIDPSLGSEVIDAEGAFITPGGIDAHVHVDEPLKLLGDVVDTMEHATRSAVAGGTTTVVAFSTQDVSKKGPSALAESVKLDVDEYSEQTLYCDYGLHLILFQIEKPSVEARELLDVQLQAAYNDYGVSSVMFMTYPGLQISDYDIMSAMYATRKNGFTTMLHAENGDMVKWMIEALEEQGLTDAYYHGVSRPSIVEGEATNRAITLATTMDTPILFVHVSSPQAAEVIKQAQTKGLKVYAETCPQYALLSDAITRCGVGIDLSSISESPFTNPDDRFIGSKYICSPPIRPEGTQKSIWKGMNNGTFTIVGSDHCSYNYYEKTSTASKHRAFDPENNKNGEFRYIPNGLPGVCTRMPLLYDYGYLRGNLTSMMKLVEIQCTNPAKVYGMYPQKGSILPGVSDADLVIWYPDDSKKEYNSKPKLITNKLMEHNCDYTPFEGIEIKNWPRYTIVKGKIVYKEGEILKENADGKYLKRGKSFMCTPKNEWVTEWRPKYE PIYDLIIKNGIICTASDIYAAEIAVNNGKVQLIAASIDPSLGSEVIDAEGAFITPGGIDAHVHVDEPLKLLGDVVDTMEHATRSAVAGGTTTVVAFSTQDVSKKGPSALAESVKLDVDEYSEQTLYCDYGLHLILFQIEKPSVEARELLDVQLQAAYNDYGVSSVMFMTYPGLQISDYDIMSAMYATRKNGFTTMLHAENGDMVKWMIEALEEQGLTDAYYHGVSRPSIVEGEATNRAITLATTMDTPILFVHVSSPQAAEVIKQAQTKGLKVYAETCPQYALLSDAITRCHVGIDLSSISESPFTNPDDRFIGSKYICSPPIRPEGTQKSIWKGMNNGTFTIVGSDHCSYNYYEKTSTASKHRAFDPENNKNGEFRYIPNGLPGVCTRMPLLYDYGYLRGNLTSMMKLVEIQCTNPAKVYGMYPQKGSILPGVSDADLVIWYPDDSKKEYNSKPKLITNKLMEHNCDYTPFEGIEIKNWPRYTIVKGKIVYKEGEILKENADGKYLKRGKSFMCTPKNEWVTEWRPKYES 2fvu-a1-m1-cA_2fvu-a1-m1-cB Structure of the yeast Sir3 BAH domain P06701 P06701 2 X-RAY DIFFRACTION 71 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 190 191 HMTMAKTLKDLDGWQVIITDNVFLKRISDGLSFGKGESVIFNDNVTETYSVYLIHEIRLVEIWVFSYLRWFELKPKLYYEQFRPDLIKEDHPLEFYKDKFFNEVNKSELYLTAELSEIWLKDFIAVGQILPESQWNDSSIDKIEDRDFLVRYACEPTAEKFVPIDIFQIIRRVKEMEPKQSDEYLKRVSV HMTMAKTLKDLDGWQVIITDENVFLKRISDGLSFGKGESVIFNDNVTETYSVYLIHEIRLVEIWVFSYLRWFELKPKLYYEQFRPDLIKEDHPLEFYKDKFFNEVNKSELYLTAELSEIWLKDFIAVGQILPESQWNDSSIDKIEDRDFLVRYACEPTAEKFVPIDIFQIIRRVKEMEPKQSDEYLKRVSV 2fvz-a2-m1-cB_2fvz-a2-m1-cC Human Inositol Monophosphosphatase 2 O14732 O14732 2.4 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 2czh-a1-m1-cB_2czh-a1-m1-cA 2czi-a1-m1-cA_2czi-a1-m2-cA 2czk-a1-m1-cA_2czk-a1-m2-cA 2ddk-a1-m1-cB_2ddk-a1-m1-cA 2fvz-a1-m1-cA_2fvz-a1-m1-cD WEECFQAAVQLALRAGQIIRKALTEETETDHLVEDLIISELRERFPSHRFIAEEAKCVLTHSPTWIIDPIDGTCNFVHRFPTVAVSIGFAVRQELEFGVIYHCTEERLYTGRRGRGAFCNGQRLRVSGETDLSKALVLTEIGPKRDPATLKLFLSNMERLLHAKAHGVRVIGSSTLALCHLASGAADAYYQFGLHCWDLAAATVIIREAGGIVIDTSGGPLDLMACRVVAASTREMAMLIAQAL WEECFQAAVQLALRAGQIIRKALTEETETDHLVEDLIISELRERFPSHRFIAEEAKCVLTHSPTWIIDPIDGTCNFVHRFPTVAVSIGFAVRQELEFGVIYHCTEERLYTGRRGRGAFCNGQRLRVSGETDLSKALVLTEIGPKRDPATLKLFLSNMERLLHAKAHGVRVIGSSTLALCHLASGAADAYYQFGLHCWDLAAATVIIREAGGIVIDTSGGPLDLMACRVVAASTREMAMLIAQAL 2fw2-a1-m1-cB_2fw2-a1-m1-cE Catalytic domain of CDY Q9Y6F7 Q9Y6F7 2.2 X-RAY DIFFRACTION 11 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 255 259 2fw2-a1-m1-cA_2fw2-a1-m1-cF 2fw2-a1-m1-cC_2fw2-a1-m1-cD ITYRDIVVKKEDGFTQIVLSTRSTEKNALNTEVIKEMVNALNSAAADDSKLVLFSAAGSVFCCGLDFGYFVRHLRNDRNTASLEMVDTIKNFVNTFIQFKKPIVVSVNGPAIGLGASILPLCDLVWANEKAWFQTPYTTFGQSPDGCSSITFPKMMGKASANEMLIAGRKLTAREACAKGLVSQVFLTGTFTQEVMIQIKELASYNAIVLEECKALVRCNIKLELEQANERECEVLRKIWSSAQGIESMLKYVEN TYRDIVVKKEDGFTQIVLSTRSTEKNALNTEVIKEMVNALNSAAADDSKLVLFSAAGSVFCCGLDFGYFVRHLRNDRNTASLEMVDTIKNFVNTFIQFKKPIVVSVNGPAIGLGASILPLCDLVWANEKAWFQTPYTTFGQSPDGCSSITFPKMMGKASANEMLIAGRKLTAREACAKGLVSQVFLTGTFTQEVMIQIKELASYNAIVLEECKALVRCNIKLELEQANERECEVLRKIWSSAQGIESMLKYVENKIDEF 2fwm-a1-m1-cX_2fwm-a1-m4-cX Crystal Structure of E. coli EntA, a 2,3-dihydrodihydroxy benzoate dehydrogenase P15047 P15047 2 X-RAY DIFFRACTION 17 1.0 562 (Escherichia coli) 562 (Escherichia coli) 212 212 2fwm-a1-m2-cX_2fwm-a1-m3-cX MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTRPQEIANTILFLASDLASHITLQDIVVDGGSTLGA MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTRPQEIANTILFLASDLASHITLQDIVVDGGSTLGA 2fwm-a1-m2-cX_2fwm-a1-m4-cX Crystal Structure of E. coli EntA, a 2,3-dihydrodihydroxy benzoate dehydrogenase P15047 P15047 2 X-RAY DIFFRACTION 111 1.0 562 (Escherichia coli) 562 (Escherichia coli) 212 212 2fwm-a1-m1-cX_2fwm-a1-m3-cX MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTRPQEIANTILFLASDLASHITLQDIVVDGGSTLGA MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTRPQEIANTILFLASDLASHITLQDIVVDGGSTLGA 2fwm-a1-m3-cX_2fwm-a1-m4-cX Crystal Structure of E. coli EntA, a 2,3-dihydrodihydroxy benzoate dehydrogenase P15047 P15047 2 X-RAY DIFFRACTION 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 212 212 2fwm-a1-m1-cX_2fwm-a1-m2-cX MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTRPQEIANTILFLASDLASHITLQDIVVDGGSTLGA MDFSGKNVWVTGAGKGIGYATALAFVEAGAKVTGFDQAFTQEQYPFATEVMDVADAAQVAQVCQRLLAETERLDALVNAAGILRMGATDQLSKEDWQQTFAVNVGGAFNLFQQTMNQFRRQRGGAIVTVASDAAHTPRIGMSAYGASKAALKSLALSVGLELAGSGVRCNVVSPGSTRPQEIANTILFLASDLASHITLQDIVVDGGSTLGA 2fwv-a3-m2-cA_2fwv-a3-m4-cA Crystal Structure of Rv0813 P9WFG9 P9WFG9 1.7 X-RAY DIFFRACTION 87 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 190 190 2fwv-a3-m1-cA_2fwv-a3-m3-cA AAVERAKATAARNIPAFDDLPVPADTANLREGADLNNALLALLPLVGVWRGEGEGRGPDGDYRFGQQIVVSHDGGDYLNWESRSWRLTATGDYQEPGLREAGFWRFVAIELLLAHSAGYVELFYGRPRTQSSWELVTDALARSRSGVLVGGAKRLYGIVEGGDLAYVEERVDADGGLVPHLSARLSRFVG AAVERAKATAARNIPAFDDLPVPADTANLREGADLNNALLALLPLVGVWRGEGEGRGPDGDYRFGQQIVVSHDGGDYLNWESRSWRLTATGDYQEPGLREAGFWRFVAIELLLAHSAGYVELFYGRPRTQSSWELVTDALARSRSGVLVGGAKRLYGIVEGGDLAYVEERVDADGGLVPHLSARLSRFVG 2fwv-a3-m3-cA_2fwv-a3-m4-cA Crystal Structure of Rv0813 P9WFG9 P9WFG9 1.7 X-RAY DIFFRACTION 142 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 190 190 2fwv-a1-m1-cA_2fwv-a1-m2-cA 2fwv-a3-m1-cA_2fwv-a3-m2-cA AAVERAKATAARNIPAFDDLPVPADTANLREGADLNNALLALLPLVGVWRGEGEGRGPDGDYRFGQQIVVSHDGGDYLNWESRSWRLTATGDYQEPGLREAGFWRFVAIELLLAHSAGYVELFYGRPRTQSSWELVTDALARSRSGVLVGGAKRLYGIVEGGDLAYVEERVDADGGLVPHLSARLSRFVG AAVERAKATAARNIPAFDDLPVPADTANLREGADLNNALLALLPLVGVWRGEGEGRGPDGDYRFGQQIVVSHDGGDYLNWESRSWRLTATGDYQEPGLREAGFWRFVAIELLLAHSAGYVELFYGRPRTQSSWELVTDALARSRSGVLVGGAKRLYGIVEGGDLAYVEERVDADGGLVPHLSARLSRFVG 2fxa-a3-m1-cD_2fxa-a3-m1-cC Structure of the Protease Production Regulatory Protein hpr from Bacillus subtilis. P11065 P11065 2.4 X-RAY DIFFRACTION 139 0.98 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 150 154 2fxa-a1-m1-cA_2fxa-a1-m1-cB 2fxa-a2-m1-cD_2fxa-a2-m1-cC 2fxa-a3-m1-cA_2fxa-a3-m1-cB PYDVKEALVFTQKAQLSKALWKSIEKDWQQWLKPYDLNINEHHILWIAYQLNGASISEIAKFGVHVSTAFNFSKKLEERGYLRFSKTYVQLTEEGTEVFWSLLEEFDPTRNAVFKGSQPLYHLFGKFPEVAECIRHIYGDDFEIFETSLT YDVKEALVFTQKAQLSKALWKSIEKDWQQWLKPYDLNINEHHILWIAYQLNGASISEIAKFGVHVSTAFNFSKKLEERGYLRFSKRLNDKRNTYVQLTEEGTEVFWSLLEEFDPTRNAVFKGSQPLYHLFGKFPEVAECIRHIYGDDFEIFETS 2fxf-a2-m2-cA_2fxf-a2-m2-cB Human spermidine/spermine N1-acetyltransferase P21673 P21673 2 X-RAY DIFFRACTION 223 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 2b3v-a1-m1-cA_2b3v-a1-m2-cA 2b4b-a1-m1-cA_2b4b-a1-m1-cB 2b4d-a1-m1-cB_2b4d-a1-m1-cA 2b58-a1-m1-cA_2b58-a1-m2-cA 2f5i-a1-m1-cA_2f5i-a1-m1-cB 2fxf-a1-m1-cA_2fxf-a1-m1-cB 2fxf-a2-m1-cA_2fxf-a2-m1-cB 2g3t-a1-m1-cA_2g3t-a1-m2-cA 2g3t-a2-m1-cB_2g3t-a2-m3-cB 2jev-a1-m1-cA_2jev-a1-m1-cB 3bj8-a1-m1-cB_3bj8-a1-m1-cA 3bj8-a2-m1-cC_3bj8-a2-m1-cD KFVIRPATAADCSDILRLIKELAKYEYMEEQVILTEKDLLEDGFGEHPFYHCLVAEVPKEHWTPEGHSIVGFAMYYFTYDPWIGKLLYLEDFFVMSDYRGFGIGSEILKNLSQVAMRCRCSSMHFLVAEWNEPSINFYKRRGASDLWRLFKIDKEYLLKMATEE AKFVIRPATAADCSDILRLIKELAKYEYQVILTEKDLLEDGFGEHPFYHCLVAEVPKEHWTPEGHSIVGFAMYYFTYDPWIGKLLYLEDFFVMSDYRGFGIGSEILKNLSQVAMRCRCSSMHFLVAEWNEPSINFYKRRGASDLEGWRLFKIDKEYLLKMATEE 2fxo-a2-m1-cC_2fxo-a2-m1-cD Structure of the human beta-myosin S2 fragment P12883 P12883 2.5 X-RAY DIFFRACTION 168 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 2fxm-a1-m1-cB_2fxm-a1-m1-cA 2fxo-a1-m1-cB_2fxo-a1-m1-cA SSPLLKSAEREKEMASMKEEFTRLKEALEKSEARRKELEEKMVSLLQEKNDLQLQVQAEQDNLADAEERCDQLIKNKIQLEAKVKEMNKRLEDEEEMNAELTAKKRKLEDECSELKRDIDDLELTLA SPLLKSAEREKEMASMKEEFTRLKEALEKSEARRKELEEKMVSLLQEKNDLQLQVQAEQDNLADAEERCDQLIKNKIQLEAKVKEMNKRLEDEEEMNAELTAKKRKLEDECSELKRDIDDLELTLAK 2fxq-a1-m1-cA_2fxq-a1-m2-cA Single-stranded DNA-binding protein from Thermus aquaticus Q9KH06 Q9KH06 1.85 X-RAY DIFFRACTION 67 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 197 197 RGLNQVFLIGTLTARPDMRYTPGGLAILDLNLAGQDAFTDESGQEREVPWYHRVRLLGRQAEMWGDLLEKGQLIFVEGRLEYRSEVQVRAEFIDPLEGRRRALNQVILMGNLTRDPDLRYTPQGTAVVRLGLAVNERRTHFLEVQAWRELAEWASELRKGDGLLVIGRLVNDSWTSSSGERRFQTRVEALRLERPTR RGLNQVFLIGTLTARPDMRYTPGGLAILDLNLAGQDAFTDESGQEREVPWYHRVRLLGRQAEMWGDLLEKGQLIFVEGRLEYRSEVQVRAEFIDPLEGRRRALNQVILMGNLTRDPDLRYTPQGTAVVRLGLAVNERRTHFLEVQAWRELAEWASELRKGDGLLVIGRLVNDSWTSSSGERRFQTRVEALRLERPTR 2fxt-a1-m1-cA_2fxt-a1-m2-cA Crystal Structure of Yeast Tim44 Q01852 Q01852 3.2 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 192 192 SIQSLKNKLWDESENPLIVVMRKITNKVGGFFAETESSRVYSQFKLMDPTFSNESFTRHLREYIVPEILEAYVKGDVKVLKKWFSEAPFNVYAAQQKIFKEQDVYADGRILDIRGVEIVSAKLLAPQDIPVLVVGCRAQEINLYRKKKTGEIAAGDEANILMSSYAMVFTRDPEQIDDDETEGWKILEFVRG SIQSLKNKLWDESENPLIVVMRKITNKVGGFFAETESSRVYSQFKLMDPTFSNESFTRHLREYIVPEILEAYVKGDVKVLKKWFSEAPFNVYAAQQKIFKEQDVYADGRILDIRGVEIVSAKLLAPQDIPVLVVGCRAQEINLYRKKKTGEIAAGDEANILMSSYAMVFTRDPEQIDDDETEGWKILEFVRG 2fyf-a1-m1-cA_2fyf-a1-m1-cB Structure of a putative phosphoserine aminotransferase from Mycobacterium Tuberculosis P9WQ73 P9WQ73 1.5 X-RAY DIFFRACTION 201 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 368 368 3vom-a1-m1-cA_3vom-a1-m1-cB HLEIPTAIKPRDGRFGSGPSKVRLEQLQTLTTTAAALFGTSHRQAPVKNLVGRVRSGLAELFSLPDGYEVILGNGGATAFWDAAAFGLIDKRSLHLTYGEFSAKFASAVSKNPFVGEPIIITSDPGSAPEPQTDPSVDVIAWAHNETSTGVAVAVRRPEGSDALVVIDATSGAGGLPVDIAETDAYYFAPQKNFASDGGLWLAIMSPAALSRIEAIAATGRWVPDFLSLPIAVENSLKNQTYNTPAIATLALLAEQIDWLVGNGGLDWAVKRTADSSQRLYSWAQERPYTTPFVTDPGLRSQVVGTIDFVDDVDAGTVAKILRANGIVDTEPYRKLGRNQLRVAMFPAVEPDDVSALTECVDWVVERL HLEIPTAIKPRDGRFGSGPSKVRLEQLQTLTTTAAALFGTSHRQAPVKNLVGRVRSGLAELFSLPDGYEVILGNGGATAFWDAAAFGLIDKRSLHLTYGEFSAKFASAVSKNPFVGEPIIITSDPGSAPEPQTDPSVDVIAWAHNETSTGVAVAVRRPEGSDALVVIDATSGAGGLPVDIAETDAYYFAPQKNFASDGGLWLAIMSPAALSRIEAIAATGRWVPDFLSLPIAVENSLKNQTYNTPAIATLALLAEQIDWLVGNGGLDWAVKRTADSSQRLYSWAQERPYTTPFVTDPGLRSQVVGTIDFVDDVDAGTVAKILRANGIVDTEPYRKLGRNQLRVAMFPAVEPDDVSALTECVDWVVERL 2fyi-a3-m1-cD_2fyi-a3-m3-cD Crystal Structure of the Cofactor-Binding Domain of the Cbl Transcriptional Regulator Q47083 Q47083 2.8 X-RAY DIFFRACTION 85 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 223 223 2fyi-a1-m1-cA_2fyi-a1-m1-cB 2fyi-a2-m1-cC_2fyi-a2-m2-cC SHMTNDTSGVLTIATTHTQARYSLPEVIKAFRELFPEVRLELIQGTPQEIATLLQNGEADIGIASERLSNDPQLVAFPWFRWHHSLLVPHDHPLTQISPLTLESIAKWPLITYRQGITGRSRIDDAFARKGLLADIVLSAQDSDVIKTYVALGLGIGLVAEQSSGEQEEENLIRLDTRHLFDANTVWLGLKRGQLQRNYVWRFLELCNAGLSVEDIKRQVMES SHMTNDTSGVLTIATTHTQARYSLPEVIKAFRELFPEVRLELIQGTPQEIATLLQNGEADIGIASERLSNDPQLVAFPWFRWHHSLLVPHDHPLTQISPLTLESIAKWPLITYRQGITGRSRIDDAFARKGLLADIVLSAQDSDVIKTYVALGLGIGLVAEQSSGEQEEENLIRLDTRHLFDANTVWLGLKRGQLQRNYVWRFLELCNAGLSVEDIKRQVMES 2fyq-a1-m1-cA_2fyq-a1-m2-cA Crystal Structure of the Norwalk Virus Protease Q83883 Q83883 1.5 X-RAY DIFFRACTION 45 1.0 11983 (Norwalk virus) 11983 (Norwalk virus) 170 170 APPTLWSRVTKFGSGWGFWVSPTVFITTTHVVPTGVKEFFGEPLSSIAIHQAGEFTQFRFSKKMRPDLTGMVLEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTIPGDCGAPYVHKRGNDWVVCGVHAAATKSGNTVVCAVQAGEGETALE APPTLWSRVTKFGSGWGFWVSPTVFITTTHVVPTGVKEFFGEPLSSIAIHQAGEFTQFRFSKKMRPDLTGMVLEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTIPGDCGAPYVHKRGNDWVVCGVHAAATKSGNTVVCAVQAGEGETALE 2fyw-a1-m1-cC_2fyw-a1-m2-cC Crystal Structure of a Conserved Protein of Unknown Function from Streptococcus pneumoniae Q97PK0 Q97PK0 2.4 X-RAY DIFFRACTION 85 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 260 260 2fyw-a1-m1-cA_2fyw-a1-m1-cB 2fyw-a1-m2-cA_2fyw-a1-m2-cB ALASEVIQAYEAFCPQEFSEGDSRGLQIGTLDKGIQRVVALDIREETVAEAIEKGVDLIIVKHAPIFRPIKDLLASRPQNQIYIDLIKHDIAVYVSHTNIDIVENGLNDWFCQLGIEETTYLQETGPERGIGRIGNIQPQTFWELAQQVKQVFDLDSLRVHYQEDDLQKPISRVAICGGSGQSFYKDALAKGADVYITGDIYYHTAQDLSDGLLALDPGHYIEVIFVEKIAALLSQWKEDKGWSIDILPSQASTNPFHHI ALASEVIQAYEAFCPQEFSEGDSRGLQIGTLDKGIQRVVALDIREETVAEAIEKGVDLIIVKHAPIFRPIKDLLASRPQNQIYIDLIKHDIAVYVSHTNIDIVENGLNDWFCQLGIEETTYLQETGPERGIGRIGNIQPQTFWELAQQVKQVFDLDSLRVHYQEDDLQKPISRVAICGGSGQSFYKDALAKGADVYITGDIYYHTAQDLSDGLLALDPGHYIEVIFVEKIAALLSQWKEDKGWSIDILPSQASTNPFHHI 2fyw-a1-m2-cC_2fyw-a1-m1-cA Crystal Structure of a Conserved Protein of Unknown Function from Streptococcus pneumoniae Q97PK0 Q97PK0 2.4 X-RAY DIFFRACTION 56 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 260 261 2fyw-a1-m1-cB_2fyw-a1-m2-cB 2fyw-a1-m1-cC_2fyw-a1-m2-cA ALASEVIQAYEAFCPQEFSEGDSRGLQIGTLDKGIQRVVALDIREETVAEAIEKGVDLIIVKHAPIFRPIKDLLASRPQNQIYIDLIKHDIAVYVSHTNIDIVENGLNDWFCQLGIEETTYLQETGPERGIGRIGNIQPQTFWELAQQVKQVFDLDSLRVHYQEDDLQKPISRVAICGGSGQSFYKDALAKGADVYITGDIYYHTAQDLSDGLLALDPGHYIEVIFVEKIAALLSQWKEDKGWSIDILPSQASTNPFHHI NALASEVIQAYEAFCPQEFSEGDSRGLQIGTLDKGIQRVVALDIREETVAEAIEKGVDLIIVKHAPIFRPIKDLLASRPQNQIYIDLIKHDIAVYVSHTNIDIVENGLNDWFCQLGIEETTYLQETGPERGIGRIGNIQPQTFWELAQQVKQVFDLDSLRVHYQEDDLQKPISRVAICGGSGQSFYKDALAKGADVYITGDIYYHTAQDLSDGLLALDPGHYIEVIFVEKIAALLSQWKEDKGWSIDILPSQASTNPFHHI 2fyx-a1-m1-cA_2fyx-a1-m1-cB Crystal structure of a putative transposase (dr_0177) from deinococcus radiodurans r1 at 1.90 A resolution Q9RXX8 Q9RXX8 1.9 X-RAY DIFFRACTION 89 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 130 130 MKKGRGYVYKLEYHLIWATKYRHQVLVDEVADGLKDILRDIATQNGLELVALEVMPDYVHLLLGATPQHVIPDFVKALKGASARRMFSAFPHLKQPHWGGNLWNPSYCVLTVSEHTRAQIQQYIENQHAA MKKGRGYVYKLEYHLIWATKYRHQVLVDEVADGLKDILRDIATQNGLELVALEVMPDYVHLLLGATPQHVIPDFVKALKGASARRMFSAFPHLKQPHWGGNLWNPSYCVLTVSEHTRAQIQQYIENQHAA 2fyz-a1-m1-cA_2fyz-a1-m1-cC Structural of Mumps virus fusion protein core P11236 P11236 2.2 X-RAY DIFFRACTION 59 1.0 57 58 2fyz-a1-m1-cA_2fyz-a1-m1-cE 2fyz-a1-m1-cC_2fyz-a1-m1-cE SAVSLVQAQTNARAIAAMKNSIQATNRAVFEVKEGTQRLAIAVQAIQDHINTIMNTQ SAVSLVQAQTNARAIAAMKNSIQATNRAVFEVKEGTQRLAIAVQAIQDHINTIMNTQL 2fz1-a1-m10-cA_2fz1-a1-m9-cB Structure of Empty Head Turnip Yellow Mosaic Virus (ATC) at 100 K P20125 P20125 2.9 X-RAY DIFFRACTION 58 1.0 12155 (Turnip yellow mosaic virus (Australian isolate)) 12155 (Turnip yellow mosaic virus (Australian isolate)) 163 189 1auy-a1-m10-cA_1auy-a1-m9-cB 1auy-a1-m10-cC_1auy-a1-m24-cC 1auy-a1-m11-cA_1auy-a1-m15-cB 1auy-a1-m11-cC_1auy-a1-m16-cC 1auy-a1-m12-cA_1auy-a1-m11-cB 1auy-a1-m12-cC_1auy-a1-m38-cC 1auy-a1-m13-cA_1auy-a1-m12-cB 1auy-a1-m13-cC_1auy-a1-m47-cC 1auy-a1-m14-cA_1auy-a1-m13-cB 1auy-a1-m14-cC_1auy-a1-m45-cC 1auy-a1-m15-cA_1auy-a1-m14-cB 1auy-a1-m15-cC_1auy-a1-m29-cC 1auy-a1-m16-cA_1auy-a1-m20-cB 1auy-a1-m17-cA_1auy-a1-m16-cB 1auy-a1-m17-cC_1auy-a1-m28-cC 1auy-a1-m18-cA_1auy-a1-m17-cB 1auy-a1-m18-cC_1auy-a1-m52-cC 1auy-a1-m19-cA_1auy-a1-m18-cB 1auy-a1-m19-cC_1auy-a1-m60-cC 1auy-a1-m1-cA_1auy-a1-m5-cB 1auy-a1-m1-cC_1auy-a1-m6-cC 1auy-a1-m20-cA_1auy-a1-m19-cB 1auy-a1-m20-cC_1auy-a1-m39-cC 1auy-a1-m21-cA_1auy-a1-m25-cB 1auy-a1-m21-cC_1auy-a1-m26-cC 1auy-a1-m22-cA_1auy-a1-m21-cB 1auy-a1-m22-cC_1auy-a1-m43-cC 1auy-a1-m23-cA_1auy-a1-m22-cB 1auy-a1-m24-cA_1auy-a1-m23-cB 1auy-a1-m25-cA_1auy-a1-m24-cB 1auy-a1-m25-cC_1auy-a1-m54-cC 1auy-a1-m26-cA_1auy-a1-m30-cB 1auy-a1-m27-cA_1auy-a1-m26-cB 1auy-a1-m27-cC_1auy-a1-m53-cC 1auy-a1-m28-cA_1auy-a1-m27-cB 1auy-a1-m29-cA_1auy-a1-m28-cB 1auy-a1-m2-cA_1auy-a1-m1-cB 1auy-a1-m2-cC_1auy-a1-m23-cC 1auy-a1-m30-cA_1auy-a1-m29-cB 1auy-a1-m30-cC_1auy-a1-m44-cC 1auy-a1-m31-cA_1auy-a1-m35-cB 1auy-a1-m31-cC_1auy-a1-m36-cC 1auy-a1-m32-cA_1auy-a1-m31-cB 1auy-a1-m32-cC_1auy-a1-m58-cC 1auy-a1-m33-cA_1auy-a1-m32-cB 1auy-a1-m33-cC_1auy-a1-m7-cC 1auy-a1-m34-cA_1auy-a1-m33-cB 1auy-a1-m34-cC_1auy-a1-m5-cC 1auy-a1-m35-cA_1auy-a1-m34-cB 1auy-a1-m35-cC_1auy-a1-m49-cC 1auy-a1-m36-cA_1auy-a1-m40-cB 1auy-a1-m37-cA_1auy-a1-m36-cB 1auy-a1-m37-cC_1auy-a1-m48-cC 1auy-a1-m38-cA_1auy-a1-m37-cB 1auy-a1-m39-cA_1auy-a1-m38-cB 1auy-a1-m3-cA_1auy-a1-m2-cB 1auy-a1-m3-cC_1auy-a1-m42-cC 1auy-a1-m40-cA_1auy-a1-m39-cB 1auy-a1-m40-cC_1auy-a1-m59-cC 1auy-a1-m41-cA_1auy-a1-m45-cB 1auy-a1-m41-cC_1auy-a1-m46-cC 1auy-a1-m42-cA_1auy-a1-m41-cB 1auy-a1-m43-cA_1auy-a1-m42-cB 1auy-a1-m44-cA_1auy-a1-m43-cB 1auy-a1-m45-cA_1auy-a1-m44-cB 1auy-a1-m46-cA_1auy-a1-m50-cB 1auy-a1-m47-cA_1auy-a1-m46-cB 1auy-a1-m48-cA_1auy-a1-m47-cB 1auy-a1-m49-cA_1auy-a1-m48-cB 1auy-a1-m4-cA_1auy-a1-m3-cB 1auy-a1-m4-cC_1auy-a1-m50-cC 1auy-a1-m50-cA_1auy-a1-m49-cB 1auy-a1-m51-cA_1auy-a1-m55-cB 1auy-a1-m51-cC_1auy-a1-m56-cC 1auy-a1-m52-cA_1auy-a1-m51-cB 1auy-a1-m53-cA_1auy-a1-m52-cB 1auy-a1-m54-cA_1auy-a1-m53-cB 1auy-a1-m55-cA_1auy-a1-m54-cB 1auy-a1-m55-cC_1auy-a1-m9-cC 1auy-a1-m56-cA_1auy-a1-m60-cB 1auy-a1-m57-cA_1auy-a1-m56-cB 1auy-a1-m57-cC_1auy-a1-m8-cC 1auy-a1-m58-cA_1auy-a1-m57-cB 1auy-a1-m59-cA_1auy-a1-m58-cB 1auy-a1-m5-cA_1auy-a1-m4-cB 1auy-a1-m60-cA_1auy-a1-m59-cB 1auy-a1-m6-cA_1auy-a1-m10-cB 1auy-a1-m7-cA_1auy-a1-m6-cB 1auy-a1-m8-cA_1auy-a1-m7-cB 1auy-a1-m9-cA_1auy-a1-m8-cB 1w39-a1-m10-cA_1w39-a1-m9-cB 1w39-a1-m10-cC_1w39-a1-m5-cC 1w39-a1-m11-cA_1w39-a1-m15-cB 1w39-a1-m11-cC_1w39-a1-m37-cC 1w39-a1-m12-cA_1w39-a1-m11-cB 1w39-a1-m12-cC_1w39-a1-m46-cC 1w39-a1-m13-cA_1w39-a1-m12-cB 1w39-a1-m13-cC_1w39-a1-m44-cC 1w39-a1-m14-cA_1w39-a1-m13-cB 1w39-a1-m14-cC_1w39-a1-m28-cC 1w39-a1-m15-cA_1w39-a1-m14-cB 1w39-a1-m15-cC_1w39-a1-m20-cC 1w39-a1-m16-cA_1w39-a1-m20-cB 1w39-a1-m16-cC_1w39-a1-m27-cC 1w39-a1-m17-cA_1w39-a1-m16-cB 1w39-a1-m17-cC_1w39-a1-m51-cC 1w39-a1-m18-cA_1w39-a1-m17-cB 1w39-a1-m18-cC_1w39-a1-m59-cC 1w39-a1-m19-cA_1w39-a1-m18-cB 1w39-a1-m19-cC_1w39-a1-m38-cC 1w39-a1-m1-cA_1w39-a1-m5-cB 1w39-a1-m1-cC_1w39-a1-m22-cC 1w39-a1-m20-cA_1w39-a1-m19-cB 1w39-a1-m21-cA_1w39-a1-m25-cB 1w39-a1-m21-cC_1w39-a1-m42-cC 1w39-a1-m22-cA_1w39-a1-m21-cB 1w39-a1-m23-cA_1w39-a1-m22-cB 1w39-a1-m23-cC_1w39-a1-m9-cC 1w39-a1-m24-cA_1w39-a1-m23-cB 1w39-a1-m24-cC_1w39-a1-m53-cC 1w39-a1-m25-cA_1w39-a1-m24-cB 1w39-a1-m25-cC_1w39-a1-m30-cC 1w39-a1-m26-cA_1w39-a1-m30-cB 1w39-a1-m26-cC_1w39-a1-m52-cC 1w39-a1-m27-cA_1w39-a1-m26-cB 1w39-a1-m28-cA_1w39-a1-m27-cB 1w39-a1-m29-cA_1w39-a1-m28-cB 1w39-a1-m29-cC_1w39-a1-m43-cC 1w39-a1-m2-cA_1w39-a1-m1-cB 1w39-a1-m2-cC_1w39-a1-m41-cC 1w39-a1-m30-cA_1w39-a1-m29-cB 1w39-a1-m31-cA_1w39-a1-m35-cB 1w39-a1-m31-cC_1w39-a1-m57-cC 1w39-a1-m32-cA_1w39-a1-m31-cB 1w39-a1-m32-cC_1w39-a1-m6-cC 1w39-a1-m33-cA_1w39-a1-m32-cB 1w39-a1-m33-cC_1w39-a1-m4-cC 1w39-a1-m34-cA_1w39-a1-m33-cB 1w39-a1-m34-cC_1w39-a1-m48-cC 1w39-a1-m35-cA_1w39-a1-m34-cB 1w39-a1-m35-cC_1w39-a1-m40-cC 1w39-a1-m36-cA_1w39-a1-m40-cB 1w39-a1-m36-cC_1w39-a1-m47-cC 1w39-a1-m37-cA_1w39-a1-m36-cB 1w39-a1-m38-cA_1w39-a1-m37-cB 1w39-a1-m39-cA_1w39-a1-m38-cB 1w39-a1-m39-cC_1w39-a1-m58-cC 1w39-a1-m3-cA_1w39-a1-m2-cB 1w39-a1-m3-cC_1w39-a1-m49-cC 1w39-a1-m40-cA_1w39-a1-m39-cB 1w39-a1-m41-cA_1w39-a1-m45-cB 1w39-a1-m42-cA_1w39-a1-m41-cB 1w39-a1-m43-cA_1w39-a1-m42-cB 1w39-a1-m44-cA_1w39-a1-m43-cB 1w39-a1-m45-cA_1w39-a1-m44-cB 1w39-a1-m45-cC_1w39-a1-m50-cC 1w39-a1-m46-cA_1w39-a1-m50-cB 1w39-a1-m47-cA_1w39-a1-m46-cB 1w39-a1-m48-cA_1w39-a1-m47-cB 1w39-a1-m49-cA_1w39-a1-m48-cB 1w39-a1-m4-cA_1w39-a1-m3-cB 1w39-a1-m50-cA_1w39-a1-m49-cB 1w39-a1-m51-cA_1w39-a1-m55-cB 1w39-a1-m52-cA_1w39-a1-m51-cB 1w39-a1-m53-cA_1w39-a1-m52-cB 1w39-a1-m54-cA_1w39-a1-m53-cB 1w39-a1-m54-cC_1w39-a1-m8-cC 1w39-a1-m55-cA_1w39-a1-m54-cB 1w39-a1-m55-cC_1w39-a1-m60-cC 1w39-a1-m56-cA_1w39-a1-m60-cB 1w39-a1-m56-cC_1w39-a1-m7-cC 1w39-a1-m57-cA_1w39-a1-m56-cB 1w39-a1-m58-cA_1w39-a1-m57-cB 1w39-a1-m59-cA_1w39-a1-m58-cB 1w39-a1-m5-cA_1w39-a1-m4-cB 1w39-a1-m60-cA_1w39-a1-m59-cB 1w39-a1-m6-cA_1w39-a1-m10-cB 1w39-a1-m7-cA_1w39-a1-m6-cB 1w39-a1-m8-cA_1w39-a1-m7-cB 1w39-a1-m9-cA_1w39-a1-m8-cB 2fz1-a1-m10-cC_2fz1-a1-m24-cC 2fz1-a1-m11-cA_2fz1-a1-m15-cB 2fz1-a1-m11-cC_2fz1-a1-m16-cC 2fz1-a1-m12-cA_2fz1-a1-m11-cB 2fz1-a1-m12-cC_2fz1-a1-m38-cC 2fz1-a1-m13-cA_2fz1-a1-m12-cB 2fz1-a1-m13-cC_2fz1-a1-m47-cC 2fz1-a1-m14-cA_2fz1-a1-m13-cB 2fz1-a1-m14-cC_2fz1-a1-m45-cC 2fz1-a1-m15-cA_2fz1-a1-m14-cB 2fz1-a1-m15-cC_2fz1-a1-m29-cC 2fz1-a1-m16-cA_2fz1-a1-m20-cB 2fz1-a1-m17-cA_2fz1-a1-m16-cB 2fz1-a1-m17-cC_2fz1-a1-m28-cC 2fz1-a1-m18-cA_2fz1-a1-m17-cB 2fz1-a1-m18-cC_2fz1-a1-m52-cC 2fz1-a1-m19-cA_2fz1-a1-m18-cB 2fz1-a1-m19-cC_2fz1-a1-m60-cC 2fz1-a1-m1-cA_2fz1-a1-m5-cB 2fz1-a1-m1-cC_2fz1-a1-m6-cC 2fz1-a1-m20-cA_2fz1-a1-m19-cB 2fz1-a1-m20-cC_2fz1-a1-m39-cC 2fz1-a1-m21-cA_2fz1-a1-m25-cB 2fz1-a1-m21-cC_2fz1-a1-m26-cC 2fz1-a1-m22-cA_2fz1-a1-m21-cB 2fz1-a1-m22-cC_2fz1-a1-m43-cC 2fz1-a1-m23-cA_2fz1-a1-m22-cB 2fz1-a1-m24-cA_2fz1-a1-m23-cB 2fz1-a1-m25-cA_2fz1-a1-m24-cB 2fz1-a1-m25-cC_2fz1-a1-m54-cC 2fz1-a1-m26-cA_2fz1-a1-m30-cB 2fz1-a1-m27-cA_2fz1-a1-m26-cB 2fz1-a1-m27-cC_2fz1-a1-m53-cC 2fz1-a1-m28-cA_2fz1-a1-m27-cB 2fz1-a1-m29-cA_2fz1-a1-m28-cB 2fz1-a1-m2-cA_2fz1-a1-m1-cB 2fz1-a1-m2-cC_2fz1-a1-m23-cC 2fz1-a1-m30-cA_2fz1-a1-m29-cB 2fz1-a1-m30-cC_2fz1-a1-m44-cC 2fz1-a1-m31-cA_2fz1-a1-m35-cB 2fz1-a1-m31-cC_2fz1-a1-m36-cC 2fz1-a1-m32-cA_2fz1-a1-m31-cB 2fz1-a1-m32-cC_2fz1-a1-m58-cC 2fz1-a1-m33-cA_2fz1-a1-m32-cB 2fz1-a1-m33-cC_2fz1-a1-m7-cC 2fz1-a1-m34-cA_2fz1-a1-m33-cB 2fz1-a1-m34-cC_2fz1-a1-m5-cC 2fz1-a1-m35-cA_2fz1-a1-m34-cB 2fz1-a1-m35-cC_2fz1-a1-m49-cC 2fz1-a1-m36-cA_2fz1-a1-m40-cB 2fz1-a1-m37-cA_2fz1-a1-m36-cB 2fz1-a1-m37-cC_2fz1-a1-m48-cC 2fz1-a1-m38-cA_2fz1-a1-m37-cB 2fz1-a1-m39-cA_2fz1-a1-m38-cB 2fz1-a1-m3-cA_2fz1-a1-m2-cB 2fz1-a1-m3-cC_2fz1-a1-m42-cC 2fz1-a1-m40-cA_2fz1-a1-m39-cB 2fz1-a1-m40-cC_2fz1-a1-m59-cC 2fz1-a1-m41-cA_2fz1-a1-m45-cB 2fz1-a1-m41-cC_2fz1-a1-m46-cC 2fz1-a1-m42-cA_2fz1-a1-m41-cB 2fz1-a1-m43-cA_2fz1-a1-m42-cB 2fz1-a1-m44-cA_2fz1-a1-m43-cB 2fz1-a1-m45-cA_2fz1-a1-m44-cB 2fz1-a1-m46-cA_2fz1-a1-m50-cB 2fz1-a1-m47-cA_2fz1-a1-m46-cB 2fz1-a1-m48-cA_2fz1-a1-m47-cB 2fz1-a1-m49-cA_2fz1-a1-m48-cB 2fz1-a1-m4-cA_2fz1-a1-m3-cB 2fz1-a1-m4-cC_2fz1-a1-m50-cC 2fz1-a1-m50-cA_2fz1-a1-m49-cB 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2fz2-a1-m35-cA_2fz2-a1-m34-cB 2fz2-a1-m35-cC_2fz2-a1-m49-cC 2fz2-a1-m36-cA_2fz2-a1-m40-cB 2fz2-a1-m37-cA_2fz2-a1-m36-cB 2fz2-a1-m37-cC_2fz2-a1-m48-cC 2fz2-a1-m38-cA_2fz2-a1-m37-cB 2fz2-a1-m39-cA_2fz2-a1-m38-cB 2fz2-a1-m3-cA_2fz2-a1-m2-cB 2fz2-a1-m3-cC_2fz2-a1-m42-cC 2fz2-a1-m40-cA_2fz2-a1-m39-cB 2fz2-a1-m40-cC_2fz2-a1-m59-cC 2fz2-a1-m41-cA_2fz2-a1-m45-cB 2fz2-a1-m41-cC_2fz2-a1-m46-cC 2fz2-a1-m42-cA_2fz2-a1-m41-cB 2fz2-a1-m43-cA_2fz2-a1-m42-cB 2fz2-a1-m44-cA_2fz2-a1-m43-cB 2fz2-a1-m45-cA_2fz2-a1-m44-cB 2fz2-a1-m46-cA_2fz2-a1-m50-cB 2fz2-a1-m47-cA_2fz2-a1-m46-cB 2fz2-a1-m48-cA_2fz2-a1-m47-cB 2fz2-a1-m49-cA_2fz2-a1-m48-cB 2fz2-a1-m4-cA_2fz2-a1-m3-cB 2fz2-a1-m4-cC_2fz2-a1-m50-cC 2fz2-a1-m50-cA_2fz2-a1-m49-cB 2fz2-a1-m51-cA_2fz2-a1-m55-cB 2fz2-a1-m51-cC_2fz2-a1-m56-cC 2fz2-a1-m52-cA_2fz2-a1-m51-cB 2fz2-a1-m53-cA_2fz2-a1-m52-cB 2fz2-a1-m54-cA_2fz2-a1-m53-cB 2fz2-a1-m55-cA_2fz2-a1-m54-cB 2fz2-a1-m55-cC_2fz2-a1-m9-cC 2fz2-a1-m56-cA_2fz2-a1-m60-cB 2fz2-a1-m57-cA_2fz2-a1-m56-cB 2fz2-a1-m57-cC_2fz2-a1-m8-cC 2fz2-a1-m58-cA_2fz2-a1-m57-cB 2fz2-a1-m59-cA_2fz2-a1-m58-cB 2fz2-a1-m5-cA_2fz2-a1-m4-cB 2fz2-a1-m60-cA_2fz2-a1-m59-cB 2fz2-a1-m6-cA_2fz2-a1-m10-cB 2fz2-a1-m7-cA_2fz2-a1-m6-cB 2fz2-a1-m8-cA_2fz2-a1-m7-cB 2fz2-a1-m9-cA_2fz2-a1-m8-cB SPFTIKQPFQSEVLFAGTKDAEASLTIANIDSVSTLTTFYRHASLESLWVTIHPTLQAPAFPTTVGVCWVPAQSPVTPTQITKTYGGQIFCIGGAIQTLSPLIVKCPLEMMQPRVKDSIQYLDSPKLLISITAQPTAPPASTCIITVSGTLSMHSPLITDTST MEIDKELAPQDRTVTVATVLPTVPGPSPFTIKQPFQSEVLFAGTKDAEASLTIANIDSVSTLTTFYRHASLESLWVTIHPTLQAPAFPTTVGVCWVPAQSPVTPTQITKTYGGQIFCIGGAIQTLSPLIVKCPLEMMQPRVKDSIQYLDSPKLLISITAQPTAPPASTCIITVSGTLSMHSPLITDTST 2fz2-a1-m8-cB_2fz2-a1-m9-cC Structure of Turnip Yellow Mosaic Virus at 100 K P20125 P20125 2.9 X-RAY DIFFRACTION 97 1.0 12155 (Turnip yellow mosaic virus (Australian isolate)) 12155 (Turnip yellow mosaic virus (Australian isolate)) 189 189 1auy-a1-m10-cA_1auy-a1-m6-cA 1auy-a1-m10-cA_1auy-a1-m9-cA 1auy-a1-m10-cB_1auy-a1-m24-cC 1auy-a1-m10-cB_1auy-a1-m6-cC 1auy-a1-m10-cC_1auy-a1-m24-cB 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Structure of Turnip Yellow Mosaic Virus at 100 K P20125 P20125 2.9 X-RAY DIFFRACTION 80 1.0 12155 (Turnip yellow mosaic virus (Australian isolate)) 12155 (Turnip yellow mosaic virus (Australian isolate)) 189 189 1auy-a1-m10-cA_1auy-a1-m10-cB 1auy-a1-m10-cA_1auy-a1-m10-cC 1auy-a1-m10-cB_1auy-a1-m10-cC 1auy-a1-m11-cA_1auy-a1-m11-cB 1auy-a1-m11-cA_1auy-a1-m11-cC 1auy-a1-m11-cB_1auy-a1-m11-cC 1auy-a1-m12-cA_1auy-a1-m12-cB 1auy-a1-m12-cA_1auy-a1-m12-cC 1auy-a1-m12-cB_1auy-a1-m12-cC 1auy-a1-m13-cA_1auy-a1-m13-cB 1auy-a1-m13-cA_1auy-a1-m13-cC 1auy-a1-m13-cB_1auy-a1-m13-cC 1auy-a1-m14-cA_1auy-a1-m14-cB 1auy-a1-m14-cA_1auy-a1-m14-cC 1auy-a1-m14-cB_1auy-a1-m14-cC 1auy-a1-m15-cA_1auy-a1-m15-cB 1auy-a1-m15-cA_1auy-a1-m15-cC 1auy-a1-m15-cB_1auy-a1-m15-cC 1auy-a1-m16-cA_1auy-a1-m16-cB 1auy-a1-m16-cA_1auy-a1-m16-cC 1auy-a1-m16-cB_1auy-a1-m16-cC 1auy-a1-m17-cA_1auy-a1-m17-cB 1auy-a1-m17-cA_1auy-a1-m17-cC 1auy-a1-m17-cB_1auy-a1-m17-cC 1auy-a1-m18-cA_1auy-a1-m18-cB 1auy-a1-m18-cA_1auy-a1-m18-cC 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2fz2-a1-m25-cB_2fz2-a1-m25-cC 2fz2-a1-m26-cA_2fz2-a1-m26-cB 2fz2-a1-m26-cA_2fz2-a1-m26-cC 2fz2-a1-m26-cB_2fz2-a1-m26-cC 2fz2-a1-m27-cA_2fz2-a1-m27-cB 2fz2-a1-m27-cA_2fz2-a1-m27-cC 2fz2-a1-m27-cB_2fz2-a1-m27-cC 2fz2-a1-m28-cA_2fz2-a1-m28-cB 2fz2-a1-m28-cA_2fz2-a1-m28-cC 2fz2-a1-m28-cB_2fz2-a1-m28-cC 2fz2-a1-m29-cA_2fz2-a1-m29-cB 2fz2-a1-m29-cA_2fz2-a1-m29-cC 2fz2-a1-m29-cB_2fz2-a1-m29-cC 2fz2-a1-m2-cA_2fz2-a1-m2-cB 2fz2-a1-m2-cA_2fz2-a1-m2-cC 2fz2-a1-m2-cB_2fz2-a1-m2-cC 2fz2-a1-m30-cA_2fz2-a1-m30-cB 2fz2-a1-m30-cA_2fz2-a1-m30-cC 2fz2-a1-m30-cB_2fz2-a1-m30-cC 2fz2-a1-m31-cA_2fz2-a1-m31-cB 2fz2-a1-m31-cA_2fz2-a1-m31-cC 2fz2-a1-m31-cB_2fz2-a1-m31-cC 2fz2-a1-m32-cA_2fz2-a1-m32-cB 2fz2-a1-m32-cA_2fz2-a1-m32-cC 2fz2-a1-m32-cB_2fz2-a1-m32-cC 2fz2-a1-m33-cA_2fz2-a1-m33-cB 2fz2-a1-m33-cA_2fz2-a1-m33-cC 2fz2-a1-m33-cB_2fz2-a1-m33-cC 2fz2-a1-m34-cA_2fz2-a1-m34-cB 2fz2-a1-m34-cA_2fz2-a1-m34-cC 2fz2-a1-m34-cB_2fz2-a1-m34-cC 2fz2-a1-m35-cA_2fz2-a1-m35-cB 2fz2-a1-m35-cA_2fz2-a1-m35-cC 2fz2-a1-m35-cB_2fz2-a1-m35-cC 2fz2-a1-m36-cA_2fz2-a1-m36-cB 2fz2-a1-m36-cA_2fz2-a1-m36-cC 2fz2-a1-m36-cB_2fz2-a1-m36-cC 2fz2-a1-m37-cA_2fz2-a1-m37-cB 2fz2-a1-m37-cA_2fz2-a1-m37-cC 2fz2-a1-m37-cB_2fz2-a1-m37-cC 2fz2-a1-m38-cA_2fz2-a1-m38-cB 2fz2-a1-m38-cA_2fz2-a1-m38-cC 2fz2-a1-m38-cB_2fz2-a1-m38-cC 2fz2-a1-m39-cA_2fz2-a1-m39-cB 2fz2-a1-m39-cA_2fz2-a1-m39-cC 2fz2-a1-m39-cB_2fz2-a1-m39-cC 2fz2-a1-m3-cA_2fz2-a1-m3-cB 2fz2-a1-m3-cA_2fz2-a1-m3-cC 2fz2-a1-m3-cB_2fz2-a1-m3-cC 2fz2-a1-m40-cA_2fz2-a1-m40-cB 2fz2-a1-m40-cA_2fz2-a1-m40-cC 2fz2-a1-m40-cB_2fz2-a1-m40-cC 2fz2-a1-m41-cA_2fz2-a1-m41-cB 2fz2-a1-m41-cA_2fz2-a1-m41-cC 2fz2-a1-m41-cB_2fz2-a1-m41-cC 2fz2-a1-m42-cA_2fz2-a1-m42-cB 2fz2-a1-m42-cA_2fz2-a1-m42-cC 2fz2-a1-m42-cB_2fz2-a1-m42-cC 2fz2-a1-m43-cA_2fz2-a1-m43-cB 2fz2-a1-m43-cA_2fz2-a1-m43-cC 2fz2-a1-m43-cB_2fz2-a1-m43-cC 2fz2-a1-m44-cA_2fz2-a1-m44-cB 2fz2-a1-m44-cA_2fz2-a1-m44-cC 2fz2-a1-m44-cB_2fz2-a1-m44-cC 2fz2-a1-m45-cA_2fz2-a1-m45-cB 2fz2-a1-m45-cA_2fz2-a1-m45-cC 2fz2-a1-m45-cB_2fz2-a1-m45-cC 2fz2-a1-m46-cA_2fz2-a1-m46-cB 2fz2-a1-m46-cA_2fz2-a1-m46-cC 2fz2-a1-m46-cB_2fz2-a1-m46-cC 2fz2-a1-m47-cA_2fz2-a1-m47-cB 2fz2-a1-m47-cA_2fz2-a1-m47-cC 2fz2-a1-m47-cB_2fz2-a1-m47-cC 2fz2-a1-m48-cA_2fz2-a1-m48-cB 2fz2-a1-m48-cA_2fz2-a1-m48-cC 2fz2-a1-m48-cB_2fz2-a1-m48-cC 2fz2-a1-m49-cA_2fz2-a1-m49-cB 2fz2-a1-m49-cA_2fz2-a1-m49-cC 2fz2-a1-m49-cB_2fz2-a1-m49-cC 2fz2-a1-m4-cA_2fz2-a1-m4-cB 2fz2-a1-m4-cA_2fz2-a1-m4-cC 2fz2-a1-m4-cB_2fz2-a1-m4-cC 2fz2-a1-m50-cA_2fz2-a1-m50-cB 2fz2-a1-m50-cA_2fz2-a1-m50-cC 2fz2-a1-m50-cB_2fz2-a1-m50-cC 2fz2-a1-m51-cA_2fz2-a1-m51-cB 2fz2-a1-m51-cA_2fz2-a1-m51-cC 2fz2-a1-m51-cB_2fz2-a1-m51-cC 2fz2-a1-m52-cA_2fz2-a1-m52-cB 2fz2-a1-m52-cA_2fz2-a1-m52-cC 2fz2-a1-m52-cB_2fz2-a1-m52-cC 2fz2-a1-m53-cA_2fz2-a1-m53-cB 2fz2-a1-m53-cA_2fz2-a1-m53-cC 2fz2-a1-m53-cB_2fz2-a1-m53-cC 2fz2-a1-m54-cA_2fz2-a1-m54-cB 2fz2-a1-m54-cA_2fz2-a1-m54-cC 2fz2-a1-m54-cB_2fz2-a1-m54-cC 2fz2-a1-m55-cA_2fz2-a1-m55-cB 2fz2-a1-m55-cA_2fz2-a1-m55-cC 2fz2-a1-m55-cB_2fz2-a1-m55-cC 2fz2-a1-m56-cA_2fz2-a1-m56-cB 2fz2-a1-m56-cA_2fz2-a1-m56-cC 2fz2-a1-m56-cB_2fz2-a1-m56-cC 2fz2-a1-m57-cA_2fz2-a1-m57-cB 2fz2-a1-m57-cA_2fz2-a1-m57-cC 2fz2-a1-m57-cB_2fz2-a1-m57-cC 2fz2-a1-m58-cA_2fz2-a1-m58-cB 2fz2-a1-m58-cA_2fz2-a1-m58-cC 2fz2-a1-m58-cB_2fz2-a1-m58-cC 2fz2-a1-m59-cA_2fz2-a1-m59-cB 2fz2-a1-m59-cA_2fz2-a1-m59-cC 2fz2-a1-m59-cB_2fz2-a1-m59-cC 2fz2-a1-m5-cA_2fz2-a1-m5-cB 2fz2-a1-m5-cA_2fz2-a1-m5-cC 2fz2-a1-m5-cB_2fz2-a1-m5-cC 2fz2-a1-m60-cA_2fz2-a1-m60-cB 2fz2-a1-m60-cA_2fz2-a1-m60-cC 2fz2-a1-m60-cB_2fz2-a1-m60-cC 2fz2-a1-m6-cA_2fz2-a1-m6-cB 2fz2-a1-m6-cA_2fz2-a1-m6-cC 2fz2-a1-m6-cB_2fz2-a1-m6-cC 2fz2-a1-m7-cA_2fz2-a1-m7-cB 2fz2-a1-m7-cA_2fz2-a1-m7-cC 2fz2-a1-m7-cB_2fz2-a1-m7-cC 2fz2-a1-m8-cA_2fz2-a1-m8-cB 2fz2-a1-m8-cA_2fz2-a1-m8-cC 2fz2-a1-m8-cB_2fz2-a1-m8-cC 2fz2-a1-m9-cA_2fz2-a1-m9-cB 2fz2-a1-m9-cA_2fz2-a1-m9-cC MEIDKELAPQDRTVTVATVLPTVPGPSPFTIKQPFQSEVLFAGTKDAEASLTIANIDSVSTLTTFYRHASLESLWVTIHPTLQAPAFPTTVGVCWVPAQSPVTPTQITKTYGGQIFCIGGAIQTLSPLIVKCPLEMMQPRVKDSIQYLDSPKLLISITAQPTAPPASTCIITVSGTLSMHSPLITDTST MEIDKELAPQDRTVTVATVLPTVPGPSPFTIKQPFQSEVLFAGTKDAEASLTIANIDSVSTLTTFYRHASLESLWVTIHPTLQAPAFPTTVGVCWVPAQSPVTPTQITKTYGGQIFCIGGAIQTLSPLIVKCPLEMMQPRVKDSIQYLDSPKLLISITAQPTAPPASTCIITVSGTLSMHSPLITDTST 2fz6-a5-m2-cB_2fz6-a5-m4-cD Crystal structure of hydrophobin HFBI P52754 P52754 2.1 X-RAY DIFFRACTION 42 0.986 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 69 69 2fz6-a11-m1-cB_2fz6-a11-m3-cD 2fz6-a11-m2-cB_2fz6-a11-m4-cD 2fz6-a5-m1-cB_2fz6-a5-m3-cD VCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVG 2fz6-a5-m3-cD_2fz6-a5-m4-cD Crystal structure of hydrophobin HFBI P52754 P52754 2.1 X-RAY DIFFRACTION 15 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 69 69 2fz6-a11-m1-cB_2fz6-a11-m2-cB 2fz6-a11-m3-cD_2fz6-a11-m4-cD 2fz6-a5-m1-cB_2fz6-a5-m2-cB NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVG NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVG 2fz6-a7-m1-cB_2fz6-a7-m4-cD Crystal structure of hydrophobin HFBI P52754 P52754 2.1 X-RAY DIFFRACTION 20 0.986 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 69 69 2fz6-a11-m1-cB_2fz6-a11-m4-cD 2fz6-a11-m2-cB_2fz6-a11-m3-cD 2fz6-a14-m1-cB_2fz6-a14-m4-cD 2fz6-a5-m1-cB_2fz6-a5-m4-cD 2fz6-a5-m2-cB_2fz6-a5-m3-cD 2gvm-a2-m1-cA_2gvm-a2-m5-cD 2gvm-a2-m1-cC_2gvm-a2-m4-cB 2gvm-a2-m3-cA_2gvm-a2-m4-cD 2gvm-a2-m3-cC_2gvm-a2-m5-cB 2gvm-a3-m1-cA_2gvm-a3-m5-cD 2gvm-a3-m1-cC_2gvm-a3-m4-cB 2gvm-a3-m2-cA_2gvm-a3-m6-cD 2gvm-a3-m2-cC_2gvm-a3-m7-cB VCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVG 2fz6-a8-m1-cD_2fz6-a8-m1-cC Crystal structure of hydrophobin HFBI P52754 P52754 2.1 X-RAY DIFFRACTION 26 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 69 71 2fz6-a10-m1-cD_2fz6-a10-m1-cC 2fz6-a5-m3-cD_2fz6-a5-m3-cC 2fz6-a5-m4-cD_2fz6-a5-m4-cC 2fz6-a6-m5-cD_2fz6-a6-m5-cC 2fz6-a7-m4-cD_2fz6-a7-m4-cC NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVG GNVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA 2fzf-a1-m1-cA_2fzf-a1-m1-cB Hypothetical Protein Pfu-1136390-001 From Pyrococcus furiosus Q8U1L6 Q8U1L6 2.7 X-RAY DIFFRACTION 52 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 158 158 GLPIEKMADFSLEELLGMAIKAEIGAREFYKSLAEKIKIEALKEKINWLAEEEKKHEALLRKLYSQMFPGKEVVFPKEHIGPELQPVARELEKVQDIIDLIRWAMKAEEIAAEFYLKLEEMVKEEEKKRLMRYLADMERGHYYTLRAEYELLLNWEMY GLPIEKMADFSLEELLGMAIKAEIGAREFYKSLAEKIKIEALKEKINWLAEEEKKHEALLRKLYSQMFPGKEVVFPKEHIGPELQPVARELEKVQDIIDLIRWAMKAEEIAAEFYLKLEEMVKEEEKKRLMRYLADMERGHYYTLRAEYELLLNWEMY 2fzt-a1-m1-cA_2fzt-a1-m1-cB CRYSTAL STRUCTURE OF a putative nucleic acid binding protein (TM0693) FROM THERMOTOGA MARITIMA MSB8 AT 2.05 A RESOLUTION Q9WZF7 Q9WZF7 2.05 X-RAY DIFFRACTION 76 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 76 77 2g42-a1-m1-cB_2g42-a1-m1-cA NIDEIERKIDEAIEKEDYETLLSLLNKRKELEGLPKDKLSEILEKDRKRLEIIEKRKTALFQEINVIREARSSLQK GNIDEIERKIDEAIEKEDYETLLSLLNKRKELEGLPKDKLSEILEKDRKRLEIIEKRKTALFQEINVIREARSSLQK 2fzv-a2-m2-cA_2fzv-a2-m2-cB Crystal Structure of an apo form of a Flavin-binding Protein from Shigella flexneri Q7UC03 Q7UC03 1.7 X-RAY DIFFRACTION 84 0.996 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 235 247 2fzv-a1-m1-cA_2fzv-a1-m1-cB 2fzv-a2-m1-cA_2fzv-a2-m1-cB NAMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVI AMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVIDEATDLSSIAIAP 2fzv-a3-m1-cA_2fzv-a3-m2-cA Crystal Structure of an apo form of a Flavin-binding Protein from Shigella flexneri Q7UC03 Q7UC03 1.7 X-RAY DIFFRACTION 24 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 235 235 2fzv-a2-m1-cA_2fzv-a2-m2-cA NAMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVI NAMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVI 2fzv-a3-m1-cA_2fzv-a3-m4-cB Crystal Structure of an apo form of a Flavin-binding Protein from Shigella flexneri Q7UC03 Q7UC03 1.7 X-RAY DIFFRACTION 13 0.996 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 235 247 2fzv-a3-m2-cA_2fzv-a3-m3-cB NAMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVI AMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVIDEATDLSSIAIAP 2fzv-a3-m2-cA_2fzv-a3-m4-cB Crystal Structure of an apo form of a Flavin-binding Protein from Shigella flexneri Q7UC03 Q7UC03 1.7 X-RAY DIFFRACTION 13 0.996 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 235 247 2fzv-a3-m1-cA_2fzv-a3-m3-cB NAMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVI AMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVIDEATDLSSIAIAP 2fzv-a3-m4-cD_2fzv-a3-m4-cB Crystal Structure of an apo form of a Flavin-binding Protein from Shigella flexneri Q7UC03 Q7UC03 1.7 X-RAY DIFFRACTION 128 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 236 247 2fzv-a1-m1-cD_2fzv-a1-m1-cB 2fzv-a2-m1-cD_2fzv-a2-m1-cB 2fzv-a2-m2-cD_2fzv-a2-m2-cB 2fzv-a3-m3-cD_2fzv-a3-m3-cB MRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVIDEATDLSSI AMRLRHLSDPDSLPALDKSFAIERPALGLAPDAPPVRILLLYGSLRARSFSRLAVEEAARLLQFFGAETRIFDPSDLPLPDQVQSDDHPAVKELRALSEWSEGQVWCSPERHGQITSVMKAQIDHLPLEMAGIRPTQGRTLAVMQVSGGSQSFNAVNTLRLLGRWMRMFTIPNQSSIAKAFQEFDAAGRMKPSPYYDRIADVMEELVRFTALVRPHREALTDRYSERKAAGHVIDEATDLSSIAIAP 2g04-a3-m1-cE_2g04-a3-m1-cF Crystal structure of fatty acid-CoA racemase from Mycobacterium tuberculosis H37Rv O53867 O53867 2.7 X-RAY DIFFRACTION 510 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 353 353 2g04-a1-m1-cA_2g04-a1-m1-cB 2g04-a2-m1-cC_2g04-a2-m1-cD GGPLAGVKVIELGGIGPGPHAGMVLADLGADVVRVRRPGGLTMPSEDRDLLHRGKRIVDLDVPQAMLELAAKADVLLDCFRPGTCERLGIGPDDCASVNPRLIFARITGWGQDGPLASTAGHDINYLSQTGALAAFGYADRPPMPPLNLVADFGGGSMLVLLGIVVALYERERSGVGQVVDAAMVDGVSVLAQMMWTMKGIGSLRDQRESFLLDGGAPFYRCYETSDGKYMAVGAIEPQFFAALLSGLGLSAADVPTQLDVAGYPQMYDIFAERFASRTRDEWTRVFAGTDACVTPVLAWSEAANNDHLKARSTVITAHGVQQAAPAPRFSRTPAGPVRPPPAAATPIDEINW GGPLAGVKVIELGGIGPGPHAGMVLADLGADVVRVRRPGGLTMPSEDRDLLHRGKRIVDLDVPQAMLELAAKADVLLDCFRPGTCERLGIGPDDCASVNPRLIFARITGWGQDGPLASTAGHDINYLSQTGALAAFGYADRPPMPPLNLVADFGGGSMLVLLGIVVALYERERSGVGQVVDAAMVDGVSVLAQMMWTMKGIGSLRDQRESFLLDGGAPFYRCYETSDGKYMAVGAIEPQFFAALLSGLGLSAADVPTQLDVAGYPQMYDIFAERFASRTRDEWTRVFAGTDACVTPVLAWSEAANNDHLKARSTVITAHGVQQAAPAPRFSRTPAGPVRPPPAAATPIDEINW 2g0b-a9-m1-cA_2g0b-a9-m2-cA The structure of FeeM, an N-acyl amino acid synthase from uncultured soil microbes Q8KNZ7 Q8KNZ7 3 X-RAY DIFFRACTION 35 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 188 188 GSMTPRKVARILVAPNERDAARRIVRTTYEAQGYAIDESFATFLEGPSATTFGLFNGEVLYGTISIINDGAQGLPMDSIYAVELAAWRGEGKKLAEVVQFAMDHTLYEAVASPFEAASLFTMVLTYALETHIDYLCISINPKHDTFYSLLGFTQIGALKHYGTVNAPAIARALYVPEWRSQTLLAQFM GSMTPRKVARILVAPNERDAARRIVRTTYEAQGYAIDESFATFLEGPSATTFGLFNGEVLYGTISIINDGAQGLPMDSIYAVELAAWRGEGKKLAEVVQFAMDHTLYEAVASPFEAASLFTMVLTYALETHIDYLCISINPKHDTFYSLLGFTQIGALKHYGTVNAPAIARALYVPEWRSQTLLAQFM 2g0b-a9-m1-cA_2g0b-a9-m2-cB The structure of FeeM, an N-acyl amino acid synthase from uncultured soil microbes Q8KNZ7 Q8KNZ7 3 X-RAY DIFFRACTION 42 0.984 77133 (uncultured bacterium) 77133 (uncultured bacterium) 188 189 2g0b-a9-m2-cA_2g0b-a9-m1-cB GSMTPRKVARILVAPNERDAARRIVRTTYEAQGYAIDESFATFLEGPSATTFGLFNGEVLYGTISIINDGAQGLPMDSIYAVELAAWRGEGKKLAEVVQFAMDHTLYEAVASPFEAASLFTMVLTYALETHIDYLCISINPKHDTFYSLLGFTQIGALKHYGTVNAPAIARALYVPEWRSQTLLAQFM TPRKVARILVAPNERDAARRIVRTTYEAQGYAIDESFATFLEGPSATTFGLFNGEVLYGTISIINDGAQGLPMDSIYAVELAAWRGEGKKLAEVVQFAMDHTLYEAVAGAKPSPFEAASLFTMVLTYALETHIDYLCISINPKHDTFYSLLGFTQIGALKHYGTVNAPAIARALYVPEWRSQTLLAQFM 2g0b-a9-m2-cA_2g0b-a9-m2-cB The structure of FeeM, an N-acyl amino acid synthase from uncultured soil microbes Q8KNZ7 Q8KNZ7 3 X-RAY DIFFRACTION 88 0.984 77133 (uncultured bacterium) 77133 (uncultured bacterium) 188 189 2g0b-a10-m1-cA_2g0b-a10-m1-cB 2g0b-a9-m1-cA_2g0b-a9-m1-cB GSMTPRKVARILVAPNERDAARRIVRTTYEAQGYAIDESFATFLEGPSATTFGLFNGEVLYGTISIINDGAQGLPMDSIYAVELAAWRGEGKKLAEVVQFAMDHTLYEAVASPFEAASLFTMVLTYALETHIDYLCISINPKHDTFYSLLGFTQIGALKHYGTVNAPAIARALYVPEWRSQTLLAQFM TPRKVARILVAPNERDAARRIVRTTYEAQGYAIDESFATFLEGPSATTFGLFNGEVLYGTISIINDGAQGLPMDSIYAVELAAWRGEGKKLAEVVQFAMDHTLYEAVAGAKPSPFEAASLFTMVLTYALETHIDYLCISINPKHDTFYSLLGFTQIGALKHYGTVNAPAIARALYVPEWRSQTLLAQFM 2g0c-a2-m1-cA_2g0c-a2-m2-cA Structure of the RNA binding domain (residues 404-479) of the Bacillus subtilis YxiN protein P42305 P42305 1.7 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 68 68 MKLYFNGGKKAVDFVGTIAKIDGVSADDIGIITIMDNASYVEILNGKGPHVLKVMKNTTVQLKVNKAN MKLYFNGGKKAVDFVGTIAKIDGVSADDIGIITIMDNASYVEILNGKGPHVLKVMKNTTVQLKVNKAN 2g0j-a3-m1-cA_2g0j-a3-m4-cC Crystal structure of SMU.848 from Streptococcus mutans Q8DUQ5 Q8DUQ5 2.8 X-RAY DIFFRACTION 43 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 114 116 2g0j-a3-m2-cA_2g0j-a3-m3-cC RGSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ MGRGSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ 2g0j-a3-m2-cA_2g0j-a3-m4-cC Crystal structure of SMU.848 from Streptococcus mutans Q8DUQ5 Q8DUQ5 2.8 X-RAY DIFFRACTION 12 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 114 116 2g0j-a3-m1-cA_2g0j-a3-m3-cC RGSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ MGRGSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ 2g0j-a3-m3-cD_2g0j-a3-m4-cD Crystal structure of SMU.848 from Streptococcus mutans Q8DUQ5 Q8DUQ5 2.8 X-RAY DIFFRACTION 28 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 113 113 2g0j-a3-m1-cB_2g0j-a3-m2-cB GSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ GSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ 2g0j-a3-m4-cD_2g0j-a3-m4-cC Crystal structure of SMU.848 from Streptococcus mutans Q8DUQ5 Q8DUQ5 2.8 X-RAY DIFFRACTION 77 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 113 116 2g0i-a1-m1-cA_2g0i-a1-m1-cB 2g0j-a1-m1-cB_2g0j-a1-m1-cA 2g0j-a2-m1-cD_2g0j-a2-m1-cC 2g0j-a3-m1-cB_2g0j-a3-m1-cA 2g0j-a3-m2-cB_2g0j-a3-m2-cA 2g0j-a3-m3-cD_2g0j-a3-m3-cC GSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ MGRGSMIQATFIRRKGILESVELTGHAGSGEYGFDIVCAAVSTLSMNLVNALEVLADCTVSLQMDEFDGGYMKIDLSYITNKSDEKVQLLFEAFLLGITNLAENSPEFVTAKIMTQ 2g0t-a2-m1-cB_2g0t-a2-m2-cB Crystal structure of a putative nucleotide binding protein (tm0796) from Thermotoga maritima at 2.67 A resolution Q9WZQ3 Q9WZQ3 2.67 X-RAY DIFFRACTION 23 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 333 333 HDLWKLYQPGTPAAIVAWGQLGTAHAKTTYGLLRHSRLFKPVCVVAEHEGKASDFVKPVRYDVPVVSSVEKAKEGAEVLIIGVSNPGGYLEEQIATLVKKALSLGDVISGLHFKISQQTEFLKIAHENGTRIIDIRIPPLELDVLRGGIYRKKIKVVGVFGTDCVVGKRTTAVQLWERALEKGIKAGFLATGQTGILIGADAGYVIDAVPADFVSGVVEKAVLKLEKTGKEIVFVEGQGALRHPAYGQVTLGLLYGSNPDVVFLVHDPSRDHFESFPEIPKKPDFEEERRLIETLSNAKVIGGVSLNGGFETDLPVYDPFNTDDLDELERAVW HDLWKLYQPGTPAAIVAWGQLGTAHAKTTYGLLRHSRLFKPVCVVAEHEGKASDFVKPVRYDVPVVSSVEKAKEGAEVLIIGVSNPGGYLEEQIATLVKKALSLGDVISGLHFKISQQTEFLKIAHENGTRIIDIRIPPLELDVLRGGIYRKKIKVVGVFGTDCVVGKRTTAVQLWERALEKGIKAGFLATGQTGILIGADAGYVIDAVPADFVSGVVEKAVLKLEKTGKEIVFVEGQGALRHPAYGQVTLGLLYGSNPDVVFLVHDPSRDHFESFPEIPKKPDFEEERRLIETLSNAKVIGGVSLNGGFETDLPVYDPFNTDDLDELERAVW 2g0t-a2-m2-cA_2g0t-a2-m2-cB Crystal structure of a putative nucleotide binding protein (tm0796) from Thermotoga maritima at 2.67 A resolution Q9WZQ3 Q9WZQ3 2.67 X-RAY DIFFRACTION 115 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 331 333 2g0t-a1-m1-cA_2g0t-a1-m1-cB 2g0t-a2-m1-cA_2g0t-a2-m1-cB HDLWKLYQPGTPAAIVAWGQLGTAHAKTTYGLLRHSRLFKPVCVVAEHEGKASDFVKPVRYDVPVVSSVEKAKEGAEVLIIGVSNPGGYLEEQIATLVKKALSLGDVISGLHFSQQTEFLKIAHENGTRIIDIRIPPLELDVLRGGIYRKKIKVVGVFGTDCVVGKRTTAVQLWERALEKGIKAGFLATGQTGILIGADAGYVIDAVPADFVSGVVEKAVLKLEKTGKEIVFVEGQGALRHPAYGQVTLGLLYGSNPDVVFLVHDPSRDHFESFPEIPKKPDFEEERRLIETLSNAKVIGGVSLNGGFETDLPVYDPFNTDDLDELERAVW HDLWKLYQPGTPAAIVAWGQLGTAHAKTTYGLLRHSRLFKPVCVVAEHEGKASDFVKPVRYDVPVVSSVEKAKEGAEVLIIGVSNPGGYLEEQIATLVKKALSLGDVISGLHFKISQQTEFLKIAHENGTRIIDIRIPPLELDVLRGGIYRKKIKVVGVFGTDCVVGKRTTAVQLWERALEKGIKAGFLATGQTGILIGADAGYVIDAVPADFVSGVVEKAVLKLEKTGKEIVFVEGQGALRHPAYGQVTLGLLYGSNPDVVFLVHDPSRDHFESFPEIPKKPDFEEERRLIETLSNAKVIGGVSLNGGFETDLPVYDPFNTDDLDELERAVW 2g17-a1-m1-cA_2g17-a1-m4-cA The structure of N-acetyl-gamma-glutamyl-phosphate reductase from Salmonella typhimurium. Q8ZKL8 Q8ZKL8 2.3 X-RAY DIFFRACTION 24 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 334 334 2g17-a1-m2-cA_2g17-a1-m3-cA SNALNTLIVGASGYAGAELVSYVNRHPHTITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPSDVRDFSADVDVVFLATAHEVSHDLAPQFLQAGCVVFDLSGAFRVNDRAFYEKYYGFTHQYPELLEQAVYGLAEWNVDKLNTANLIAVPGCYPTAAQLSLKPLIDGGLLDLTQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIAVHLGAEVIFTPHLGNFPRGILETITCRLKAGVTHAQVADVLQKAYGDKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIVVATEDNLLKGAAAQAVQCANIRFGFAETQSLI SNALNTLIVGASGYAGAELVSYVNRHPHTITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPSDVRDFSADVDVVFLATAHEVSHDLAPQFLQAGCVVFDLSGAFRVNDRAFYEKYYGFTHQYPELLEQAVYGLAEWNVDKLNTANLIAVPGCYPTAAQLSLKPLIDGGLLDLTQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIAVHLGAEVIFTPHLGNFPRGILETITCRLKAGVTHAQVADVLQKAYGDKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIVVATEDNLLKGAAAQAVQCANIRFGFAETQSLI 2g17-a1-m2-cA_2g17-a1-m4-cA The structure of N-acetyl-gamma-glutamyl-phosphate reductase from Salmonella typhimurium. Q8ZKL8 Q8ZKL8 2.3 X-RAY DIFFRACTION 47 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 334 334 2g17-a1-m1-cA_2g17-a1-m3-cA SNALNTLIVGASGYAGAELVSYVNRHPHTITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPSDVRDFSADVDVVFLATAHEVSHDLAPQFLQAGCVVFDLSGAFRVNDRAFYEKYYGFTHQYPELLEQAVYGLAEWNVDKLNTANLIAVPGCYPTAAQLSLKPLIDGGLLDLTQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIAVHLGAEVIFTPHLGNFPRGILETITCRLKAGVTHAQVADVLQKAYGDKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIVVATEDNLLKGAAAQAVQCANIRFGFAETQSLI SNALNTLIVGASGYAGAELVSYVNRHPHTITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPSDVRDFSADVDVVFLATAHEVSHDLAPQFLQAGCVVFDLSGAFRVNDRAFYEKYYGFTHQYPELLEQAVYGLAEWNVDKLNTANLIAVPGCYPTAAQLSLKPLIDGGLLDLTQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIAVHLGAEVIFTPHLGNFPRGILETITCRLKAGVTHAQVADVLQKAYGDKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIVVATEDNLLKGAAAQAVQCANIRFGFAETQSLI 2g17-a1-m3-cA_2g17-a1-m4-cA The structure of N-acetyl-gamma-glutamyl-phosphate reductase from Salmonella typhimurium. Q8ZKL8 Q8ZKL8 2.3 X-RAY DIFFRACTION 97 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 334 334 2g17-a1-m1-cA_2g17-a1-m2-cA SNALNTLIVGASGYAGAELVSYVNRHPHTITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPSDVRDFSADVDVVFLATAHEVSHDLAPQFLQAGCVVFDLSGAFRVNDRAFYEKYYGFTHQYPELLEQAVYGLAEWNVDKLNTANLIAVPGCYPTAAQLSLKPLIDGGLLDLTQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIAVHLGAEVIFTPHLGNFPRGILETITCRLKAGVTHAQVADVLQKAYGDKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIVVATEDNLLKGAAAQAVQCANIRFGFAETQSLI SNALNTLIVGASGYAGAELVSYVNRHPHTITALTVSAQSNDAGKLISDLHPQLKGIVDLPLQPSDVRDFSADVDVVFLATAHEVSHDLAPQFLQAGCVVFDLSGAFRVNDRAFYEKYYGFTHQYPELLEQAVYGLAEWNVDKLNTANLIAVPGCYPTAAQLSLKPLIDGGLLDLTQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIAVHLGAEVIFTPHLGNFPRGILETITCRLKAGVTHAQVADVLQKAYGDKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIVVATEDNLLKGAAAQAVQCANIRFGFAETQSLI 2g1l-a2-m1-cA_2g1l-a2-m2-cA Crystal structure of the FHA domain of human kinesin family member C O43896 O43896 2.602 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 103 STPHLVNLNEDPLMSECLLYHIKDGVTRVGQVDMDIKLTGQFIREQHCLFRSIPQPDGEVVVTLEPCEGAETYVNGKLVTEPLVLKSGNRIVMGKNHVFRFNH STPHLVNLNEDPLMSECLLYHIKDGVTRVGQVDMDIKLTGQFIREQHCLFRSIPQPDGEVVVTLEPCEGAETYVNGKLVTEPLVLKSGNRIVMGKNHVFRFNH 2g1u-a1-m1-cA_2g1u-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE TRANSPORT PROTEIN (TM1088A) FROM THERMOTOGA MARITIMA AT 1.50 A RESOLUTION 1.5 X-RAY DIFFRACTION 44 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 137 137 KQKSKYIVIFGCGRLGSLIANLASSSGHSVVVVDKNEYAFHRLNSEFSGFTVVGDAAEFETLKECGMEKADMVFAFTNDDSTNFFISMNARYMFNVENVIARVYDPEKIKIFEENGIKTICPAVLMIEKVKEFIIGS KQKSKYIVIFGCGRLGSLIANLASSSGHSVVVVDKNEYAFHRLNSEFSGFTVVGDAAEFETLKECGMEKADMVFAFTNDDSTNFFISMNARYMFNVENVIARVYDPEKIKIFEENGIKTICPAVLMIEKVKEFIIGS 2g24-a3-m2-cA_2g24-a3-m3-cB Ketopiperazine-Based Renin Inhibitors: Optimization of the ""C"" Ring P00797 P00797 1.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 2fs4-a3-m1-cA_2fs4-a3-m3-cB 2fs4-a3-m1-cB_2fs4-a3-m2-cA 2fs4-a3-m2-cB_2fs4-a3-m3-cA 2g1o-a3-m1-cA_2g1o-a3-m3-cB 2g1o-a3-m1-cB_2g1o-a3-m2-cA 2g1o-a3-m2-cB_2g1o-a3-m3-cA 2g1r-a3-m1-cA_2g1r-a3-m3-cB 2g1r-a3-m1-cB_2g1r-a3-m2-cA 2g1r-a3-m2-cB_2g1r-a3-m3-cA 2g1y-a3-m1-cA_2g1y-a3-m2-cB 2g1y-a3-m1-cB_2g1y-a3-m3-cA 2g1y-a3-m2-cA_2g1y-a3-m3-cB 2g20-a3-m1-cA_2g20-a3-m2-cB 2g20-a3-m1-cB_2g20-a3-m3-cA 2g20-a3-m2-cA_2g20-a3-m3-cB 2g24-a3-m1-cA_2g24-a3-m2-cB 2g24-a3-m1-cB_2g24-a3-m3-cA 2g26-a3-m1-cA_2g26-a3-m3-cB 2g26-a3-m1-cB_2g26-a3-m2-cA 2g26-a3-m2-cB_2g26-a3-m3-cA 2iko-a1-m1-cB_2iko-a1-m2-cA 2iko-a1-m2-cB_2iko-a1-m3-cA 2iko-a1-m3-cB_2iko-a1-m1-cA 2iku-a1-m1-cA_2iku-a1-m3-cB 2iku-a1-m1-cB_2iku-a1-m2-cA 2iku-a1-m2-cB_2iku-a1-m3-cA 2il2-a1-m1-cA_2il2-a1-m2-cB 2il2-a1-m1-cB_2il2-a1-m3-cA 2il2-a1-m2-cA_2il2-a1-m3-cB 3own-a5-m1-cA_3own-a5-m3-cB 3own-a5-m1-cB_3own-a5-m2-cA 3own-a5-m2-cB_3own-a5-m3-cA 3vsw-a3-m1-cA_3vsw-a3-m3-cB 3vsw-a3-m1-cB_3vsw-a3-m2-cA 3vsw-a3-m2-cB_3vsw-a3-m3-cA 3vsx-a3-m1-cA_3vsx-a3-m2-cB 3vsx-a3-m1-cB_3vsx-a3-m3-cA 3vsx-a3-m2-cA_3vsx-a3-m3-cB 3vuc-a3-m1-cB_3vuc-a3-m2-cA 3vuc-a3-m2-cB_3vuc-a3-m3-cA 3vuc-a3-m3-cB_3vuc-a3-m1-cA 3vyd-a3-m1-cA_3vyd-a3-m3-cB 3vyd-a3-m1-cB_3vyd-a3-m2-cA 3vyd-a3-m2-cB_3vyd-a3-m3-cA 3vye-a3-m1-cA_3vye-a3-m3-cB 3vye-a3-m1-cB_3vye-a3-m2-cA 3vye-a3-m2-cB_3vye-a3-m3-cA 3vyf-a3-m1-cB_3vyf-a3-m2-cA 3vyf-a3-m2-cB_3vyf-a3-m3-cA 3vyf-a3-m3-cB_3vyf-a3-m1-cA 4s1g-a3-m1-cB_4s1g-a3-m2-cA 4s1g-a3-m2-cB_4s1g-a3-m3-cA 4s1g-a3-m3-cB_4s1g-a3-m1-cA 4xx3-a3-m1-cB_4xx3-a3-m2-cA 4xx3-a3-m2-cB_4xx3-a3-m3-cA 4xx3-a3-m3-cB_4xx3-a3-m1-cA 4xx4-a3-m1-cB_4xx4-a3-m2-cA 4xx4-a3-m2-cB_4xx4-a3-m3-cA 4xx4-a3-m3-cB_4xx4-a3-m1-cA 5koq-a3-m1-cB_5koq-a3-m3-cA 5koq-a3-m2-cB_5koq-a3-m1-cA 5koq-a3-m3-cB_5koq-a3-m2-cA 5kos-a3-m1-cA_5kos-a3-m2-cB 5kos-a3-m2-cA_5kos-a3-m3-cB 5kos-a3-m3-cA_5kos-a3-m1-cB 5kot-a3-m1-cA_5kot-a3-m3-cB 5kot-a3-m2-cA_5kot-a3-m1-cB 5kot-a3-m3-cA_5kot-a3-m2-cB 5sxn-a3-m1-cA_5sxn-a3-m2-cB 5sxn-a3-m1-cB_5sxn-a3-m3-cA 5sxn-a3-m2-cA_5sxn-a3-m3-cB 5sy2-a3-m1-cB_5sy2-a3-m2-cA 5sy2-a3-m2-cB_5sy2-a3-m3-cA 5sy2-a3-m3-cB_5sy2-a3-m1-cA 5sz9-a3-m1-cB_5sz9-a3-m2-cA 5sz9-a3-m2-cB_5sz9-a3-m3-cA 5sz9-a3-m3-cB_5sz9-a3-m1-cA 5t4s-a3-m1-cB_5t4s-a3-m2-cA 5t4s-a3-m2-cB_5t4s-a3-m3-cA 5t4s-a3-m3-cB_5t4s-a3-m1-cA 5tmg-a3-m1-cA_5tmg-a3-m2-cB 5tmg-a3-m1-cB_5tmg-a3-m3-cA 5tmg-a3-m2-cA_5tmg-a3-m3-cB 5tmk-a3-m1-cB_5tmk-a3-m3-cA 5tmk-a3-m2-cB_5tmk-a3-m1-cA 5tmk-a3-m3-cB_5tmk-a3-m2-cA SSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSELGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR SSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSELGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 2g2i-a3-m1-cA_2g2i-a3-m2-cA A Src-like Inactive Conformation in the Abl Tyrosine Kinase Domain P00519 P00519 3.12 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 271 271 SPNYDKWEMERTDITMKHKLGGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSI SPNYDKWEMERTDITMKHKLGGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSI 2g2i-a3-m1-cB_2g2i-a3-m2-cB A Src-like Inactive Conformation in the Abl Tyrosine Kinase Domain P00519 P00519 3.12 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 265 YDKWEMERTDITMKHKLGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQES YDKWEMERTDITMKHKLGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQES 2g2i-a3-m2-cB_2g2i-a3-m1-cA A Src-like Inactive Conformation in the Abl Tyrosine Kinase Domain P00519 P00519 3.12 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 271 2g2i-a3-m1-cB_2g2i-a3-m2-cA YDKWEMERTDITMKHKLGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQES SPNYDKWEMERTDITMKHKLGGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSI 2g2i-a4-m1-cB_2g2i-a4-m1-cA A Src-like Inactive Conformation in the Abl Tyrosine Kinase Domain P00519 P00519 3.12 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 271 2g2i-a3-m1-cB_2g2i-a3-m1-cA 2g2i-a3-m2-cB_2g2i-a3-m2-cA 3qri-a3-m2-cB_3qri-a3-m1-cA 3qrj-a3-m1-cA_3qrj-a3-m2-cB YDKWEMERTDITMKHKLGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQES SPNYDKWEMERTDITMKHKLGGGEVYEGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTREPPFYIITEFMTYGNLLDYLRECNRQEVNAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHLVKVADFGLSRLMTGDTYTAPAGAKFPIKWTAPESLAYNKFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYELLEKDYRMERPEGCPEKVYELMRACWQWNPSDRPSFAEIHQAFETMFQESSI 2g2n-a1-m1-cA_2g2n-a1-m1-cC Crystal Structure of E.coli transthyretin-related protein with bound Zn P76341 P76341 1.65 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 111 112 2g2n-a1-m1-cB_2g2n-a1-m1-cD 2g2p-a1-m1-cA_2g2p-a1-m1-cC 2g2p-a1-m1-cB_2g2p-a1-m1-cD 2igl-a1-m1-cA_2igl-a1-m1-cD 2igl-a1-m1-cB_2igl-a1-m1-cC NILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS QNILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS 2g2n-a1-m1-cA_2g2n-a1-m1-cD Crystal Structure of E.coli transthyretin-related protein with bound Zn P76341 P76341 1.65 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 111 112 2g2n-a1-m1-cB_2g2n-a1-m1-cC 2g2p-a1-m1-cA_2g2p-a1-m1-cD 2g2p-a1-m1-cB_2g2p-a1-m1-cC 2igl-a1-m1-cA_2igl-a1-m1-cC 2igl-a1-m1-cB_2igl-a1-m1-cD NILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS QNILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS 2g2n-a2-m1-cB_2g2n-a2-m2-cD Crystal Structure of E.coli transthyretin-related protein with bound Zn P76341 P76341 1.65 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 111 112 NILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS QNILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS 2g2p-a1-m1-cA_2g2p-a1-m1-cB Crystal Structure of E.coli transthyretin-related protein with bound Zn and Br P76341 P76341 2.1 X-RAY DIFFRACTION 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 111 111 2g2n-a1-m1-cA_2g2n-a1-m1-cB 2g2n-a1-m1-cC_2g2n-a1-m1-cD 2g2n-a2-m1-cA_2g2n-a2-m1-cB 2g2n-a2-m2-cC_2g2n-a2-m2-cD 2g2p-a1-m1-cC_2g2p-a1-m1-cD 2igl-a1-m1-cA_2igl-a1-m1-cB 2igl-a1-m1-cC_2igl-a1-m1-cD NILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS NILSVHILNQQTGKPAADVTVTLEKKADNGWLQLNTAKTDKDGRIKALWPEQTATTGDYRVVFKTGDYFKKQNLESFFPEIPVEFHINKVNEHYHVPLLLSQYGYSTYRGS 2g2q-a4-m2-cC_2g2q-a4-m1-cA The crystal structure of G4, the poxviral disulfide oxidoreductase essential for cytoplasmic disulfide bond formation P68460 P68460 2.5 X-RAY DIFFRACTION 33 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 107 112 2g2q-a4-m1-cB_2g2q-a4-m2-cB 2g2q-a4-m1-cC_2g2q-a4-m2-cA KNVLIIFGKPYCSICENVSDAVEELKSEYDILHVDILSFFLKDGTLIGNFAAHLSNYIVSIFKYNPQTKQAFVDINKSLDFTKTDKSLVNLEILKSEIEKATYGVWP KNVLIIFGKPYCSICENVSDAVEELKSEYDILHVDILSFFLKDGDSSRGTLIGNFAAHLSNYIVSIFKYNPQTKQAFVDINKSLDFTKTDKSLVNLEILKSEIEKATYGVWP 2g2q-a5-m1-cA_2g2q-a5-m2-cB The crystal structure of G4, the poxviral disulfide oxidoreductase essential for cytoplasmic disulfide bond formation P68460 P68460 2.5 X-RAY DIFFRACTION 125 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 112 118 2g2q-a4-m1-cA_2g2q-a4-m2-cB 2g2q-a4-m1-cC_2g2q-a4-m2-cC 2g2q-a4-m2-cA_2g2q-a4-m1-cB 2g2q-a6-m1-cC_2g2q-a6-m2-cC KNVLIIFGKPYCSICENVSDAVEELKSEYDILHVDILSFFLKDGDSSRGTLIGNFAAHLSNYIVSIFKYNPQTKQAFVDINKSLDFTKTDKSLVNLEILKSEIEKATYGVWP KNVLIIFGKPYCSICENVSDAVEELKSEYDILHVDILSFFLKDGDSSLGDVKRGTLIGNFAAHLSNYIVSIFKYNPQTKQAFVDINKSLDFTKTDKSLVNLEILKSEIEKATYGVWPP 2g2r-a3-m1-cL_2g2r-a3-m1-cA Green-fluorescent antibody 11G10 in complex with its hapten (nitro-stilbene derivative) 2.75 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 DVVMTQTPLTLSVTIGQPASISCRSSQSLLYINGKTHLNWLLQRPGQSPKRLIYLVSKLDSGVPDRFSGSGSGTDFTLKISRVEAEDLGIYFCLQSTHFPLTFGAGTKLELKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPRDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DVVMTQTPLTLSVTIGQPASISCRSSQSLLYINGKTHLNWLLQRPGQSPKRLIYLVSKLDSGVPDRFSGSGSGTDFTLKISRVEAEDLGIYFCLQSTHFPLTFGAGTKLELKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPRDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 2g36-a1-m1-cA_2g36-a1-m2-cA Crystal structure of Tryptophanyl-tRNA synthetase (EC 6.1.1.2) (Tryptophan-tRNA ligase)(TrpRS) (tm0492) from THERMOTOGA MARITIMA at 2.50 A resolution Q9WYW2 Q9WYW2 2.5 X-RAY DIFFRACTION 151 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 322 322 HMRILSGMRPTGKLHIGHLVGALENWVKLQEEGNECFYFVADWHALTTHYDDVSKLKEYTRDLVRGFLACGIDPEKSVIFVQSGVKEHAELALLFSMIVSVSRLERVPTYKEIDLSTAGFLIYPVLQAADILIYKAEGVPVGEDQVYHIELTREIARRFNYLYDEVFPEPEAILSRVPKLPGTDGRKMSKSYGNIINLEISEKELEQTILRMMTDPARVRRSDPGNPENCPVWKYHQAFDISEEESKWVWEGCTTASIGCVDCKKLLLKNMKRKLAPIWENFRKIDEDPHYVDDVIMEGTKKAREVAAKTMEEVRRAMNLMF HMRILSGMRPTGKLHIGHLVGALENWVKLQEEGNECFYFVADWHALTTHYDDVSKLKEYTRDLVRGFLACGIDPEKSVIFVQSGVKEHAELALLFSMIVSVSRLERVPTYKEIDLSTAGFLIYPVLQAADILIYKAEGVPVGEDQVYHIELTREIARRFNYLYDEVFPEPEAILSRVPKLPGTDGRKMSKSYGNIINLEISEKELEQTILRMMTDPARVRRSDPGNPENCPVWKYHQAFDISEEESKWVWEGCTTASIGCVDCKKLLLKNMKRKLAPIWENFRKIDEDPHYVDDVIMEGTKKAREVAAKTMEEVRRAMNLMF 2g39-a1-m1-cB_2g39-a1-m1-cA Crystal structure of coenzyme A transferase from Pseudomonas aeruginosa Q9HTC2 Q9HTC2 2.1 X-RAY DIFFRACTION 190 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 480 481 DRVRLPSLLDKVSAAEAADLIQDGTVGSGFTRAGEAKAVPQALARAKERPLRISLTGASLGNDLDKQLTEAGVLARRPFQVDSTLRKAINAGEVFIDQHLSETVEQLRNHQLKLPDIAVIEAAAITEQGHIVPTTSVGNSASFAIFAKQVIVEINLAHSTNLEGLHDIYIPTYRPTRTPIPLTRVDDRIGSTAIPIPPEKIVAIVINDQPDSPSTVLPPDGETQAIANHLIDFFKREVDAGRSNSLGPLQAGIGSIANAVCGLIESPFENLTYSEVLQDSTFDLIDAGKLRFASGSSITLSPRRNADVFGNLERYKDKLVLRPQEISNHPEVVRRLGIIGINTALEFDIYGNVNSTHVGGTKNGIGGSGDFARNAHLAIFVTKSIAKGGNISSVVPVSHVDHTEHDVDILVTEQGLADLRGLAPRERARVIIENCVHPSYQAPLLDYFEAACAKGGHTPHLLREALAWHLNLEERGHLAG RDRVRLPSLLDKVSAAEAADLIQDGTVGSGFTRAGEAKAVPQALARAKERPLRISLTGASLGNDLDKQLTEAGVLARRPFQVDSTLRKAINAGEVFIDQHLSETVEQLRNHQLKLPDIAVIEAAAITEQGHIVPTTSVGNSASFAIFAKQVIVEINLAHSTNLEGLHDIYIPTYRPTRTPIPLTRVDDRIGSTAIPIPPEKIVAIVINDQPDSPSTVLPPDGETQAIANHLIDFFKREVDAGRSNSLGPLQAGIGSIANAVCGLIESPFENLTYSEVLQDSTFDLIDAGKLRFASGSSITLSPRRNADVFGNLERYKDKLVLRPQEISNHPEVVRRLGIIGINTALEFDIYGNVNSTHVGGTKNGIGGSGDFARNAHLAIFVTKSIAKGGNISSVVPVSHVDHTEHDVDILVTEQGLADLRGLAPRERARVIIENCVHPSYQAPLLDYFEAACAKGGHTPHLLREALAWHLNLEERGHLAG 2g3a-a1-m1-cA_2g3a-a1-m2-cA Crystal structure of putative acetyltransferase from Agrobacterium tumefaciens Q7CXI0 Q7CXI0 1.9 X-RAY DIFFRACTION 174 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 132 132 NFVLSDVADAEAEKAIRDPLVAYNLARFGESDKRDLNITIRNDDNSVTGGLVGHTARGWLYVQLLFVPEARGQGIAPKLLAAEEEARKRGCGAYIDTNPDALRTYERYGFTKIGSLGPLSSGQSITWLEKRF NFVLSDVADAEAEKAIRDPLVAYNLARFGESDKRDLNITIRNDDNSVTGGLVGHTARGWLYVQLLFVPEARGQGIAPKLLAAEEEARKRGCGAYIDTNPDALRTYERYGFTKIGSLGPLSSGQSITWLEKRF 2g3b-a1-m1-cA_2g3b-a1-m1-cB Crystal structure of putative TetR-family transcriptional regulator from Rhodococcus sp. Q0S8G3 Q0S8G3 2 X-RAY DIFFRACTION 105 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 185 186 SERRDAILKASATAIAQRGIRGLRVNDVAEVAGVSPGLLYYHFKDRIGLLEAALNYINDRARAYRSEGEGGDSARDRLTRSLLGEIQDRPEVVENSLAWNELRASAVYEEALRDPLARTTAAWVSEIADAIVQAQATGEISRSLDPQPTAVTTALVEGLSGRWLCKEISTEDARSHLLGAIDVVS SERRDAILKASATAIAQRGIRGLRVNDVAEVAGVSPGLLYYHFKDRIGLLEAALNYINDRARAYRSEGEGSGDSARDRLTRSLLGEIQDRPEVVENSLAWNELRASAVYEEALRDPLARTTAAWVSEIADAIVQAQATGEISRSLDPQPTAVTTALVEGLSGRWLCKEISTEDARSHLLGAIDVVS 2g3f-a3-m1-cA_2g3f-a3-m2-cB Crystal Structure of imidazolonepropionase complexed with imidazole-4-acetic acid sodium salt, a substrate homologue P42084 P42084 2 X-RAY DIFFRACTION 84 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 414 414 2bb0-a3-m1-cA_2bb0-a3-m2-cB PKQIDTILINIGQLLTMESSGPRAGKSMQDLHVIEDAVVGIHEQKIVFAGQKGAEAGYEADEIIDCSGRLVTPGLVDPHTHLVFGGSREKEMNLKLQGISYLDILAQGGGILSTVKDTRAASEEELLQKAHFHLQRMLSYGTTTAEVKSGYGLEKETELKQLRVAKKLHESQPVDLVSTFMGAHAIPPEYQNDPDDFLDQMLSLLPEIKEQELASFADIFTETGVFTVSQSRRYLQKAAEAGFGLKIHADEIDPLGGAELAGKLKAVSADHLVGTSDEGIKKLAEAGTIAVLLPGTTFYLGKSTYARARAMIDEGVCVSLATDFNPGSSPTENIQLIMSIAALHLKMTAEEIWHAVTVNAAYAIGKGEEAGQLKAGRSADLVIWQAPNYMYIPYHYGVNHVHQVMKNGTIVVNR PKQIDTILINIGQLLTMESSGPRAGKSMQDLHVIEDAVVGIHEQKIVFAGQKGAEAGYEADEIIDCSGRLVTPGLVDPHTHLVFGGSREKEMNLKLQGISYLDILAQGGGILSTVKDTRAASEEELLQKAHFHLQRMLSYGTTTAEVKSGYGLEKETELKQLRVAKKLHESQPVDLVSTFMGAHAIPPEYQNDPDDFLDQMLSLLPEIKEQELASFADIFTETGVFTVSQSRRYLQKAAEAGFGLKIHADEIDPLGGAELAGKLKAVSADHLVGTSDEGIKKLAEAGTIAVLLPGTTFYLGKSTYARARAMIDEGVCVSLATDFNPGSSPTENIQLIMSIAALHLKMTAEEIWHAVTVNAAYAIGKGEEAGQLKAGRSADLVIWQAPNYMYIPYHYGVNHVHQVMKNGTIVVNR 2g3k-a9-m1-cA_2g3k-a9-m1-cB Crystal structure of the C-terminal domain of Vps28 Q02767 Q02767 3.05 X-RAY DIFFRACTION 48 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 93 93 2g3k-a8-m1-cA_2g3k-a8-m1-cB FNAKYVAEATGNFITVDALKLNYNAKDQLHPLLAELLISINRVTRDDFENRSKLIDWIVRINKLSIGDTLTETQIRELLFDLELAYKSFYALL FNAKYVAEATGNFITVDALKLNYNAKDQLHPLLAELLISINRVTRDDFENRSKLIDWIVRINKLSIGDTLTETQIRELLFDLELAYKSFYALL 2g3k-a9-m1-cA_2g3k-a9-m1-cF Crystal structure of the C-terminal domain of Vps28 Q02767 Q02767 3.05 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 93 93 2g3k-a10-m1-cC_2g3k-a10-m2-cG 2g3k-a11-m1-cA_2g3k-a11-m1-cF FNAKYVAEATGNFITVDALKLNYNAKDQLHPLLAELLISINRVTRDDFENRSKLIDWIVRINKLSIGDTLTETQIRELLFDLELAYKSFYALL FNAKYVAEATGNFITVDALKLNYNAKDQLHPLLAELLISINRVTRDDFENRSKLIDWIVRINKLSIGDTLTETQIRELLFDLELAYKSFYALL 2g3m-a1-m1-cA_2g3m-a1-m1-cF Crystal structure of the Sulfolobus solfataricus alpha-glucosidase MalA P0CD66 P0CD66 2.55 X-RAY DIFFRACTION 10 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 691 692 2g3m-a1-m1-cC_2g3m-a1-m1-cD ILKIYENKGVYKVVIGEPFPPIEFPLEQKISSNKSLSELGLTIVQQGNKVIVEKSLDLKEHIIGLGEKAFELDRKRKRYVMYNVDAGAYKKYQDPLYVSIPLFISVKDGVATGYFFNSASKVIFDVGLEEYDKVIVTIPEDSVEFYVIEGPRIEDVLEKYTELTGKPFLPPMWAFGYMISRYSYYPQDKVVELVDIMQKEGFRVAGVFLDIHYMDSYKLFTWHPYRFPEPKKLIDELHKRNVKLITIVDHGIRVDQNYSPFLSGMGKFCEIESGELFVGKMWPGTTVYPDFFREDTREWWAGLISEWLSQGVDGIWLDMNEPTDFSRAIEIRDVLSSLPVQFRDDRLVTTFPDNVVHYLRGKRVKHEKVRNAYPLYEAMATFKGFRTSHRNEIFILSRAGYAGIQRYAFIWTGDNTPSWDDLKLQLQLVLGLSISGVPFVGCDIGGFQGRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDGIDTEPVFLPDYYKEKVKEIVELRYKFLPYIYSLALEASEKGHPVIRPLFYEFQDDDDMYRIEDEYMVGKYLLYAPIVSKEESRLVTLPRGKWYNYWNGEIINGKSVVKSTHELPIYLREGSIIPLEGDELIVYGETSFKRYDNAEITSSSNEIKFSREIYVSKLTITSEKPVSKIIVDDSKEIQVEKTMQNTYVAKINQKIRGKINLE RILKIYENKGVYKVVIGEPFPPIEFPLEQKISSNKSLSELGLTIVQQGNKVIVEKSLDLKEHIIGLGEKAFELDRKRKRYVMYNVDAGAYKKYQDPLYVSIPLFISVKDGVATGYFFNSASKVIFDVGLEEYDKVIVTIPEDSVEFYVIEGPRIEDVLEKYTELTGKPFLPPMWAFGYMISRYSYYPQDKVVELVDIMQKEGFRVAGVFLDIHYMDSYKLFTWHPYRFPEPKKLIDELHKRNVKLITIVDHGIRVDQNYSPFLSGMGKFCEIESGELFVGKMWPGTTVYPDFFREDTREWWAGLISEWLSQGVDGIWLDMNEPTDFSRAIEIRDVLSSLPVQFRDDRLVTTFPDNVVHYLRGKRVKHEKVRNAYPLYEAMATFKGFRTSHRNEIFILSRAGYAGIQRYAFIWTGDNTPSWDDLKLQLQLVLGLSISGVPFVGCDIGGFQGRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDGIDTEPVFLPDYYKEKVKEIVELRYKFLPYIYSLALEASEKGHPVIRPLFYEFQDDDDMYRIEDEYMVGKYLLYAPIVSKEESRLVTLPRGKWYNYWNGEIINGKSVVKSTHELPIYLREGSIIPLEGDELIVYGETSFKRYDNAEITSSSNEIKFSREIYVSKLTITSEKPVSKIIVDDSKEIQVEKTMQNTYVAKINQKIRGKINLE 2g3n-a1-m1-cC_2g3n-a1-m1-cF Crystal structure of the Sulfolobus solfataricus alpha-glucosidase MalA in complex with beta-octyl-glucopyranoside P0CD66 P0CD66 2.55 X-RAY DIFFRACTION 59 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 691 691 2g3m-a1-m1-cA_2g3m-a1-m1-cE 2g3m-a1-m1-cB_2g3m-a1-m1-cD 2g3m-a1-m1-cC_2g3m-a1-m1-cF 2g3n-a1-m1-cA_2g3n-a1-m1-cE 2g3n-a1-m1-cB_2g3n-a1-m1-cD ILKIYENKGVYKVVIGEPFPPIEFPLEQKISSNKSLSELGLTIVQQGNKVIVEKSLDLKEHIIGLGEKAFELDRKRKRYVMYNVDAGAYKKYQDPLYVSIPLFISVKDGVATGYFFNSASKVIFDVGLEEYDKVIVTIPEDSVEFYVIEGPRIEDVLEKYTELTGKPFLPPMWAFGYMISRYSYYPQDKVVELVDIMQKEGFRVAGVFLDIHYMDSYKLFTWHPYRFPEPKKLIDELHKRNVKLITIVDHGIRVDQNYSPFLSGMGKFCEIESGELFVGKMWPGTTVYPDFFREDTREWWAGLISEWLSQGVDGIWLDMNEPTDFSRAIEIRDVLSSLPVQFRDDRLVTTFPDNVVHYLRGKRVKHEKVRNAYPLYEAMATFKGFRTSHRNEIFILSRAGYAGIQRYAFIWTGDNTPSWDDLKLQLQLVLGLSISGVPFVGCDIGGFQGRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDGIDTEPVFLPDYYKEKVKEIVELRYKFLPYIYSLALEASEKGHPVIRPLFYEFQDDDDMYRIEDEYMVGKYLLYAPIVSKEESRLVTLPRGKWYNYWNGEIINGKSVVKSTHELPIYLREGSIIPLEGDELIVYGETSFKRYDNAEITSSSNEIKFSREIYVSKLTITSEKPVSKIIVDDSKEIQVEKTMQNTYVAKINQKIRGKINLE ILKIYENKGVYKVVIGEPFPPIEFPLEQKISSNKSLSELGLTIVQQGNKVIVEKSLDLKEHIIGLGEKAFELDRKRKRYVMYNVDAGAYKKYQDPLYVSIPLFISVKDGVATGYFFNSASKVIFDVGLEEYDKVIVTIPEDSVEFYVIEGPRIEDVLEKYTELTGKPFLPPMWAFGYMISRYSYYPQDKVVELVDIMQKEGFRVAGVFLDIHYMDSYKLFTWHPYRFPEPKKLIDELHKRNVKLITIVDHGIRVDQNYSPFLSGMGKFCEIESGELFVGKMWPGTTVYPDFFREDTREWWAGLISEWLSQGVDGIWLDMNEPTDFSRAIEIRDVLSSLPVQFRDDRLVTTFPDNVVHYLRGKRVKHEKVRNAYPLYEAMATFKGFRTSHRNEIFILSRAGYAGIQRYAFIWTGDNTPSWDDLKLQLQLVLGLSISGVPFVGCDIGGFQGRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDGIDTEPVFLPDYYKEKVKEIVELRYKFLPYIYSLALEASEKGHPVIRPLFYEFQDDDDMYRIEDEYMVGKYLLYAPIVSKEESRLVTLPRGKWYNYWNGEIINGKSVVKSTHELPIYLREGSIIPLEGDELIVYGETSFKRYDNAEITSSSNEIKFSREIYVSKLTITSEKPVSKIIVDDSKEIQVEKTMQNTYVAKINQKIRGKINLE 2g3n-a1-m1-cE_2g3n-a1-m1-cF Crystal structure of the Sulfolobus solfataricus alpha-glucosidase MalA in complex with beta-octyl-glucopyranoside P0CD66 P0CD66 2.55 X-RAY DIFFRACTION 64 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 691 691 2g3m-a1-m1-cA_2g3m-a1-m1-cB 2g3m-a1-m1-cA_2g3m-a1-m1-cC 2g3m-a1-m1-cB_2g3m-a1-m1-cC 2g3m-a1-m1-cD_2g3m-a1-m1-cE 2g3m-a1-m1-cD_2g3m-a1-m1-cF 2g3m-a1-m1-cE_2g3m-a1-m1-cF 2g3n-a1-m1-cA_2g3n-a1-m1-cB 2g3n-a1-m1-cA_2g3n-a1-m1-cC 2g3n-a1-m1-cB_2g3n-a1-m1-cC 2g3n-a1-m1-cD_2g3n-a1-m1-cE 2g3n-a1-m1-cD_2g3n-a1-m1-cF ILKIYENKGVYKVVIGEPFPPIEFPLEQKISSNKSLSELGLTIVQQGNKVIVEKSLDLKEHIIGLGEKAFELDRKRKRYVMYNVDAGAYKKYQDPLYVSIPLFISVKDGVATGYFFNSASKVIFDVGLEEYDKVIVTIPEDSVEFYVIEGPRIEDVLEKYTELTGKPFLPPMWAFGYMISRYSYYPQDKVVELVDIMQKEGFRVAGVFLDIHYMDSYKLFTWHPYRFPEPKKLIDELHKRNVKLITIVDHGIRVDQNYSPFLSGMGKFCEIESGELFVGKMWPGTTVYPDFFREDTREWWAGLISEWLSQGVDGIWLDMNEPTDFSRAIEIRDVLSSLPVQFRDDRLVTTFPDNVVHYLRGKRVKHEKVRNAYPLYEAMATFKGFRTSHRNEIFILSRAGYAGIQRYAFIWTGDNTPSWDDLKLQLQLVLGLSISGVPFVGCDIGGFQGRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDGIDTEPVFLPDYYKEKVKEIVELRYKFLPYIYSLALEASEKGHPVIRPLFYEFQDDDDMYRIEDEYMVGKYLLYAPIVSKEESRLVTLPRGKWYNYWNGEIINGKSVVKSTHELPIYLREGSIIPLEGDELIVYGETSFKRYDNAEITSSSNEIKFSREIYVSKLTITSEKPVSKIIVDDSKEIQVEKTMQNTYVAKINQKIRGKINLE ILKIYENKGVYKVVIGEPFPPIEFPLEQKISSNKSLSELGLTIVQQGNKVIVEKSLDLKEHIIGLGEKAFELDRKRKRYVMYNVDAGAYKKYQDPLYVSIPLFISVKDGVATGYFFNSASKVIFDVGLEEYDKVIVTIPEDSVEFYVIEGPRIEDVLEKYTELTGKPFLPPMWAFGYMISRYSYYPQDKVVELVDIMQKEGFRVAGVFLDIHYMDSYKLFTWHPYRFPEPKKLIDELHKRNVKLITIVDHGIRVDQNYSPFLSGMGKFCEIESGELFVGKMWPGTTVYPDFFREDTREWWAGLISEWLSQGVDGIWLDMNEPTDFSRAIEIRDVLSSLPVQFRDDRLVTTFPDNVVHYLRGKRVKHEKVRNAYPLYEAMATFKGFRTSHRNEIFILSRAGYAGIQRYAFIWTGDNTPSWDDLKLQLQLVLGLSISGVPFVGCDIGGFQGRNFAEIDNSMDLLVKYYALALFFPFYRSHKATDGIDTEPVFLPDYYKEKVKEIVELRYKFLPYIYSLALEASEKGHPVIRPLFYEFQDDDDMYRIEDEYMVGKYLLYAPIVSKEESRLVTLPRGKWYNYWNGEIINGKSVVKSTHELPIYLREGSIIPLEGDELIVYGETSFKRYDNAEITSSSNEIKFSREIYVSKLTITSEKPVSKIIVDDSKEIQVEKTMQNTYVAKINQKIRGKINLE 2g3o-a2-m1-cC_2g3o-a2-m1-cE The 2.1A crystal structure of copGFP Q6WV12 Q6WV12 2.1 X-RAY DIFFRACTION 29 1.0 239963 (Pontellina plumata) 239963 (Pontellina plumata) 215 215 PAMKIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHVMFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVVGTGFPEDSVIFTDKIIRSNATVEHLHPMGDNVLVGSFARTFSLRDGGYYSFVVDSHMHFKSAIHPSILQNGGPMFAFRRVEELHSNTELGIVEYQHAFKTPI PAMKIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHVMFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVVGTGFPEDSVIFTDKIIRSNATVEHLHPMGDNVLVGSFARTFSLRDGGYYSFVVDSHMHFKSAIHPSILQNGGPMFAFRRVEELHSNTELGIVEYQHAFKTPI 2g3p-a1-m1-cA_2g3p-a1-m1-cB STRUCTURE OF THE N-TERMINAL TWO DOMAINS OF THE INFECTIVITY PROTEIN G3P OF FILAMENTOUS PHAGE FD P03661 P03661 1.9 X-RAY DIFFRACTION 112 1.0 10864 (Enterobacteria phage fd) 10864 (Enterobacteria phage fd) 201 201 ETVESCLAKPHTENSFTNVWKDDKTLDRYANYEGCLWNATGVVVCTGDETQCYGTWVPIGLAIPENPEYGDTPIPGYTYINPLDGTYPPGTEQNPANPNPSLEESQPLNTFMFQNNRFRNRQGALTVYTGTVTQGTDPVKTYYQYTPVSSKAMYDAYWNGKFRDCAFHSGFNEDPFVCEYQGQSSDLPQPPVNAAAHHHHH ETVESCLAKPHTENSFTNVWKDDKTLDRYANYEGCLWNATGVVVCTGDETQCYGTWVPIGLAIPENPEYGDTPIPGYTYINPLDGTYPPGTEQNPANPNPSLEESQPLNTFMFQNNRFRNRQGALTVYTGTVTQGTDPVKTYYQYTPVSSKAMYDAYWNGKFRDCAFHSGFNEDPFVCEYQGQSSDLPQPPVNAAAHHHHH 2g3w-a1-m1-cB_2g3w-a1-m1-cA The Crystal Structure of YaeQ Protein from Xanthomonas axonopodis pv. citri Q8PJY1 Q8PJY1 1.9 X-RAY DIFFRACTION 38 1.0 171 173 TATVRRAELQISDDRGYYANHSLTLAQHPSETDERLVRLLAFALFADDRLEFGRGLSNDDEPDLWRRDYTGDPDLWIDLGQPDESRVRKACNRSREAVVIGYGGQATETWWKKHANAGRYRNLRVIELDSQATEALGALIQRGRFDVIIQDGEVQLADHGSVTLTPVRQAP TATVRRAELQISDDRGYYANHSLTLAQHPSETDERLVRLLAFALFADDRLEFGRGLSNDDEPDLWRRDYTGDPDLWIDLGQPDESRVRKACNRSREAVVIGYGGQATETWWKKHANAGRYRNLRVIELDSQATEALGALIQRGRFDVIIQDGEVQLADHGSVTLTPVRQAPAE 2g40-a1-m1-cA_2g40-a1-m2-cA Crystal structure of a duf162 family protein (dr_1909) from deinococcus radiodurans at 1.70 A resolution Q9RT57 Q9RT57 1.7 X-RAY DIFFRACTION 93 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 164 164 PLSRAEILHQFEDRILDYGAAYTHVSAAELPGAIAKALGNARRVIVPAGIPAPWLTVGMDVLRDEPPLSHAELDRADAVLTGCAVAISETGTIILDHRADQGRRALSLIPDFHICVVREDQIVQTVREGVEAVAASVREGRPLTWLSGGSGVHGPRRLQVIVVG PLSRAEILHQFEDRILDYGAAYTHVSAAELPGAIAKALGNARRVIVPAGIPAPWLTVGMDVLRDEPPLSHAELDRADAVLTGCAVAISETGTIILDHRADQGRRALSLIPDFHICVVREDQIVQTVREGVEAVAASVREGRPLTWLSGGSGVHGPRRLQVIVVG 2g45-a3-m1-cA_2g45-a3-m1-cD Co-crystal structure of znf ubp domain from the deubiquitinating enzyme isopeptidase T (isot) in complex with ubiquitin P45974 P45974 1.99 X-RAY DIFFRACTION 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 VRQVSKHAFSLKQLDNPARIPPCGWKCSKCDMRENLWLNLTDGSILCGRRYFDGSGGNNHAVEHYRETGYPLAVKLGTITPDGADVYSYDEDDMVLDPSLAEHLSHFGIDMLKMQKT VRQVSKHAFSLKQLDNPARIPPCGWKCSKCDMRENLWLNLTDGSILCGRRYFDGSGGNNHAVEHYRETGYPLAVKLGTITPDGADVYSYDEDDMVLDPSLAEHLSHFGIDMLKMQKT 2g4b-a1-m1-cA_2g4b-a1-m2-cA Structure of U2AF65 variant with polyuridine tract P26368 P26368 2.5 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 172 172 LGSARRLYVGNIPFGITEEAMMDFFNAQMRLGGLTQAPGNPVLAVQINQDKNFAFLEFRSVDETTQAMAFDGIIFQGQSLKIRRPHDYQPLPGAHKLFIGGLPNYLNDDQVKELLTSFGPLKAFNLVKDSATGLSKGYAFCEYVDINVTDQAIAGLNGMQLGDKKLLVQRAS LGSARRLYVGNIPFGITEEAMMDFFNAQMRLGGLTQAPGNPVLAVQINQDKNFAFLEFRSVDETTQAMAFDGIIFQGQSLKIRRPHDYQPLPGAHKLFIGGLPNYLNDDQVKELLTSFGPLKAFNLVKDSATGLSKGYAFCEYVDINVTDQAIAGLNGMQLGDKKLLVQRAS 2g4c-a2-m1-cB_2g4c-a2-m1-cD Crystal Structure of human DNA polymerase gamma accessory subunit Q9UHN1 Q9UHN1 3.15 X-RAY DIFFRACTION 177 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 397 397 2g4c-a1-m1-cA_2g4c-a1-m1-cC 3ikl-a1-m1-cA_3ikl-a1-m1-cB 8d33-a1-m1-cC_8d33-a1-m1-cB 8d37-a1-m1-cC_8d37-a1-m1-cB 8d3r-a1-m1-cC_8d3r-a1-m1-cB 8d42-a1-m1-cC_8d42-a1-m1-cB SEALLEICQRRHFLSGSKQQLSRDSLLSGCHPGFGPLGVELRKNLAAEWWTSVVVFREQVFPVDALHHKPGPLLPGDSAFRLVSAETLREILQDKELSKEQLVTFLENVLKTSGKLRENLLHGALEHYVNCLDLVNKRLPYGLAQIGVCFHPVKSIGEKTEASLVWFTPPRTSNQWLDFWLRHRLQWWRKFAMSPSNFSSSDCQDEEGRKGNKLYYNFPWGKELIETLWNLGDHELLHMYPGNVSKLHGRDGRKNVVPCVLSVNGDLDRGMLAYLYDSFQRKVLKLHPCLAPIKVALDVGRGPTLELRQVCQGLFNELLENGISVWPGYLETMQSSLEQLYSKYDEMSILFTVLVTETTLENGLIHLRSRDTTMKEMMHISKLKDFLIKYISSAKNV EALLEICQRRHFLSGSKQQLSRDSLLSGCHPGFGPLGVELRKNLAAEWWTSVVVFREQVFPVDALHHKPGPLLPGDSAFRLVSAETLREILQDKELSKEQLVTFLENVLKTSGKLRENLLHGALEHYVNCLDLVNKRLPYGLAQIGVCFHPVKSIGEKTEASLVWFTPPRTSNQWLDFWLRHRLQWWRKFAMSPSNFSSSDCQDEEGRKGNKLYYNFPWGKELIETLWNLGDHELLHMYPGNVSKLHGRDGRKNVVPCVLSVNGDLDRGMLAYLYDSFQHRKVLKLHPCLAPIKVALDVGRGPTLELRQVCQGLFNELLENGISVWPGYLETMQSSLEQLYSKYDEMSILFTVLVTETTLENGLIHLRSRDTTMKEMMHISKLKDFLIKYISSAKNV 2g4o-a3-m2-cD_2g4o-a3-m1-cB anomalous substructure of 3-ISOPROPYLMALATE DEHYDROGENASE P9WKK9 P9WKK9 2 X-RAY DIFFRACTION 57 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 337 337 2g4o-a3-m1-cA_2g4o-a3-m2-cC MSKLAIIAGDGIGPEVTAEAVKVLDAVVPGVQKTSYDLGARRFHATGEVLPDSVVAELRNHDAILLGAIGDPSVPSGVLERGLLLRLRFELDHHINLRPARLYPGVASPLSGNPGIDFVVVREGTEGPYTGNGGAIRVGTPNEVATEVSVNTAFGVRRVVADAFERARRRRKHLTLVHKTNVLTFAGGLWLRTVDEVGECYPDVEVAYQHVDAATIHMITDPGRFDVIVTDNLFGDIITDLAAAVCGGIGLAASGNIDATRANPSMFEPVHGSAPDIAGQGIADPTAAIMSVALLLSHLGEHDAAARVDRAVEAHLATRGSERLATSDVGERIAAAL MSKLAIIAGDGIGPEVTAEAVKVLDAVVPGVQKTSYDLGARRFHATGEVLPDSVVAELRNHDAILLGAIGDPSVPSGVLERGLLLRLRFELDHHINLRPARLYPGVASPLSGNPGIDFVVVREGTEGPYTGNGGAIRVGTPNEVATEVSVNTAFGVRRVVADAFERARRRRKHLTLVHKTNVLTFAGGLWLRTVDEVGECYPDVEVAYQHVDAATIHMITDPGRFDVIVTDNLFGDIITDLAAAVCGGIGLAASGNIDATRANPSMFEPVHGSAPDIAGQGIADPTAAIMSVALLLSHLGEHDAAARVDRAVEAHLATRGSERLATSDVGERIAAAL 2g4r-a1-m1-cB_2g4r-a1-m1-cA anomalous substructure of MogA O53877 O53877 1.92 X-RAY DIFFRACTION 28 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 151 153 RSARIVVVSSRAAAGVYTDDCGPIIAGWLEQHGFSSVQPQVVADGNPVGEALHDAVNAGVDVIITSGGTGISPTDTTPEHTVAVLDYVIPGLADAIRRSGLPKVPTSVLSRGVCGVAGRTLIINLPGSPGGVRDGLGVLADVLDHALEQIA TRSARIVVVSSRAAAGVYTDDCGPIIAGWLEQHGFSSVQPQVVADGNPVGEALHDAVNAGVDVIITSGGTGISPTDTTPEHTVAVLDYVIPGLADAIRRSGLPKVPTSVLSRGVCGVAGRTLIINLPGSPGGVRDGLGVLADVLDHALEQIAG 2g4r-a1-m1-cC_2g4r-a1-m1-cA anomalous substructure of MogA O53877 O53877 1.92 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 143 153 RSARIVVVSSRATDDCGPIIAGWLEQHGFSSVQPQVVADGNPVGEALHDAVNAGVDVIITSGGTGISPTDTTPEHTVAVLDYVIPGLADAIRRSGLPTSVLSRGVCGVAGRTLIINLPGSPGGVRDGLGVLADVLDHALEQIA TRSARIVVVSSRAAAGVYTDDCGPIIAGWLEQHGFSSVQPQVVADGNPVGEALHDAVNAGVDVIITSGGTGISPTDTTPEHTVAVLDYVIPGLADAIRRSGLPKVPTSVLSRGVCGVAGRTLIINLPGSPGGVRDGLGVLADVLDHALEQIAG 2g4r-a1-m1-cC_2g4r-a1-m1-cB anomalous substructure of MogA O53877 O53877 1.92 X-RAY DIFFRACTION 17 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 143 151 RSARIVVVSSRATDDCGPIIAGWLEQHGFSSVQPQVVADGNPVGEALHDAVNAGVDVIITSGGTGISPTDTTPEHTVAVLDYVIPGLADAIRRSGLPTSVLSRGVCGVAGRTLIINLPGSPGGVRDGLGVLADVLDHALEQIA RSARIVVVSSRAAAGVYTDDCGPIIAGWLEQHGFSSVQPQVVADGNPVGEALHDAVNAGVDVIITSGGTGISPTDTTPEHTVAVLDYVIPGLADAIRRSGLPKVPTSVLSRGVCGVAGRTLIINLPGSPGGVRDGLGVLADVLDHALEQIA 2g5l-a1-m1-cB_2g5l-a1-m2-cA Streptavidin in complex with Nanotag P22629 P22629 1.15 X-RAY DIFFRACTION 20 1.0 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 105 121 GITGTWYNQLGSTFIVTAGADGALTGTYYVLTGRYDSAPATDGSGTALGWTVAWKNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVK AGITGTWYNQLGSTFIVTAGADGALTGTYESAVGNAESRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKP 2g5l-a1-m1-cB_2g5l-a1-m2-cB Streptavidin in complex with Nanotag P22629 P22629 1.15 X-RAY DIFFRACTION 10 1.0 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 105 105 GITGTWYNQLGSTFIVTAGADGALTGTYYVLTGRYDSAPATDGSGTALGWTVAWKNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVK GITGTWYNQLGSTFIVTAGADGALTGTYYVLTGRYDSAPATDGSGTALGWTVAWKNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVK 2g64-a1-m3-cA_2g64-a1-m6-cA Structure of Caenorhabditis elegans 6-pyruvoyl tetrahydropterin synthase O02058 O02058 1.8 X-RAY DIFFRACTION 76 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 140 140 2g64-a1-m1-cA_2g64-a1-m5-cA 2g64-a1-m2-cA_2g64-a1-m4-cA MFRMPIVTMERVDSFSAAHRLHSEKLSDAENKETFGKCNNSNGHGHNYVWKVKLRGEVDPTSGMVYDLAKLKKEMSLVLDTVDHRNLDKDVEFFKTTVSTSENVAIYMFEKLKSVMSNPSVLYKVTIEETPKNIFTYKGS MFRMPIVTMERVDSFSAAHRLHSEKLSDAENKETFGKCNNSNGHGHNYVWKVKLRGEVDPTSGMVYDLAKLKKEMSLVLDTVDHRNLDKDVEFFKTTVSTSENVAIYMFEKLKSVMSNPSVLYKVTIEETPKNIFTYKGS 2g64-a1-m5-cA_2g64-a1-m6-cA Structure of Caenorhabditis elegans 6-pyruvoyl tetrahydropterin synthase O02058 O02058 1.8 X-RAY DIFFRACTION 60 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 140 140 2g64-a1-m1-cA_2g64-a1-m2-cA 2g64-a1-m1-cA_2g64-a1-m3-cA 2g64-a1-m2-cA_2g64-a1-m3-cA 2g64-a1-m4-cA_2g64-a1-m5-cA 2g64-a1-m4-cA_2g64-a1-m6-cA MFRMPIVTMERVDSFSAAHRLHSEKLSDAENKETFGKCNNSNGHGHNYVWKVKLRGEVDPTSGMVYDLAKLKKEMSLVLDTVDHRNLDKDVEFFKTTVSTSENVAIYMFEKLKSVMSNPSVLYKVTIEETPKNIFTYKGS MFRMPIVTMERVDSFSAAHRLHSEKLSDAENKETFGKCNNSNGHGHNYVWKVKLRGEVDPTSGMVYDLAKLKKEMSLVLDTVDHRNLDKDVEFFKTTVSTSENVAIYMFEKLKSVMSNPSVLYKVTIEETPKNIFTYKGS 2g66-a1-m1-cA_2g66-a1-m1-cG Crystal structure of a collagen-like peptide with 3(S)Hyp in the Xaa position 1.8 X-RAY DIFFRACTION 33 1.0 16 17 GPGPGPGGGPGPGPGP GPGPGPGGGPGPGPGPG 2g66-a1-m1-cB_2g66-a1-m1-cG Crystal structure of a collagen-like peptide with 3(S)Hyp in the Xaa position 1.8 X-RAY DIFFRACTION 32 1.0 16 17 2g66-a1-m1-cA_2g66-a1-m1-cB GPGPGPGGGPGPGPGP GPGPGPGGGPGPGPGPG 2g6t-a2-m1-cA_2g6t-a2-m2-cB Crystal structure of an uncharacterized protein from Clostridium acetobutylicum Q97H28 Q97H28 3 X-RAY DIFFRACTION 88 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 298 298 2g6t-a2-m1-cB_2g6t-a2-m2-cA YKCLIWGVNDEYTLAYDKLLFEISKGNLSIEALISKDKYAKYIDGKEVIDKTEISNYEFDYIIIFNKERYSDIKNEALELGIPERKILNGKFFFISNFDFKRYCKLIENPITIISDDCWGGLVSSYLGFKFNSPFINFYIHNDDYIKFLENDYYLEQELKVEQEGNVYSCTPKGSLGTGDNKIILNFNHQASFAEAKNDWDERKTRINKKNLFVKLIKDDNEKLVKRFDNLPYKNKVCFHPKPKYKSVAFFPRYIWRCINYAARTSNSNLEQYTDSWLEKSCDILKLCGEEDFIREKX YKCLIWGVNDEYTLAYDKLLFEISKGNLSIEALISKDKYAKYIDGKEVIDKTEISNYEFDYIIIFNKERYSDIKNEALELGIPERKILNGKFFFISNFDFKRYCKLIENPITIISDDCWGGLVSSYLGFKFNSPFINFYIHNDDYIKFLENDYYLEQELKVEQEGNVYSCTPKGSLGTGDNKIILNFNHQASFAEAKNDWDERKTRINKKNLFVKLIKDDNEKLVKRFDNLPYKNKVCFHPKPKYKSVAFFPRYIWRCINYAARTSNSNLEQYTDSWLEKSCDILKLCGEEDFIREKX 2g6t-a2-m2-cA_2g6t-a2-m2-cB Crystal structure of an uncharacterized protein from Clostridium acetobutylicum Q97H28 Q97H28 3 X-RAY DIFFRACTION 74 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 298 298 2g6t-a1-m1-cA_2g6t-a1-m1-cB 2g6t-a2-m1-cA_2g6t-a2-m1-cB YKCLIWGVNDEYTLAYDKLLFEISKGNLSIEALISKDKYAKYIDGKEVIDKTEISNYEFDYIIIFNKERYSDIKNEALELGIPERKILNGKFFFISNFDFKRYCKLIENPITIISDDCWGGLVSSYLGFKFNSPFINFYIHNDDYIKFLENDYYLEQELKVEQEGNVYSCTPKGSLGTGDNKIILNFNHQASFAEAKNDWDERKTRINKKNLFVKLIKDDNEKLVKRFDNLPYKNKVCFHPKPKYKSVAFFPRYIWRCINYAARTSNSNLEQYTDSWLEKSCDILKLCGEEDFIREKX YKCLIWGVNDEYTLAYDKLLFEISKGNLSIEALISKDKYAKYIDGKEVIDKTEISNYEFDYIIIFNKERYSDIKNEALELGIPERKILNGKFFFISNFDFKRYCKLIENPITIISDDCWGGLVSSYLGFKFNSPFINFYIHNDDYIKFLENDYYLEQELKVEQEGNVYSCTPKGSLGTGDNKIILNFNHQASFAEAKNDWDERKTRINKKNLFVKLIKDDNEKLVKRFDNLPYKNKVCFHPKPKYKSVAFFPRYIWRCINYAARTSNSNLEQYTDSWLEKSCDILKLCGEEDFIREKX 2g6v-a1-m1-cA_2g6v-a1-m1-cB The crystal structure of ribD from Escherichia coli Q3ZUB0 Q3ZUB0 2.6 X-RAY DIFFRACTION 104 0.991 562 (Escherichia coli) 562 (Escherichia coli) 346 354 2o7p-a1-m1-cB_2o7p-a1-m1-cA 2obc-a1-m1-cA_2obc-a1-m1-cB TLYIQGQDEYYARALKLAQRGRFTTHPNPNVGCVIVKDGEIVGEGYHQRAGEPHAEVHALRAGEKAKGATAYVTLEPCPCCDALIAAGVARVVASQDPNPQVAGRGLYRLQQAGIDVSHGLSEAEQLNKGFLKRRTGFPYIQLKLGASLDGRTAESQWITSPQARRDVQLLRAQSHAILTSSATVLADDPALTVRWSELDEQTQALYPQQNLRQPIRIVIDSQNRVTPVHRIVQQPGETWFARTQEDSREWPETVRTLLIPEHKGHLDLVVLQLGKQQINSIWVEAGPTLAGALLQAGLVDELIVYIAPKLLGSDARGLCTLPGPQFKFKEIRHVGPDVCLHLVGA TLYIQGQDEYYARALKLAQRGRFTTHPNPNVGCVIVKDGEIVGEGYHQRAGEPHAEVHALRAGEKAKGATAYVTLEPCSDALIAAGVARVVASQDPNPQVAGRGLYRLQQAGIDVSHGLSEAEQLNKGFLKRRTGFPYIQLKLGASLDGRTAASGESQWITSPQARRDVQLLRAQSHAILTSSATVLADDPALTVRWSELDEQTQALYPQQNLRQPIRIVIDSQNRVTPVHRIVQQPGETWFARTQEDSREWPETVRTLLIPEHKGHLDLVVLQLGKQQINSIWVEAGPTLAGALLQAGLVDELIVYIAPKLLGSDARGLCTLPGLEKLADAPQFKFKEIRHVGPDVCLHLVGA 2g6x-a1-m1-cD_2g6x-a1-m1-cC Crystal structure of a novel green fluorescent protein from marine copepod Pontellina plumata Q6WV12 Q6WV12 2 X-RAY DIFFRACTION 77 1.0 239963 (Pontellina plumata) 239963 (Pontellina plumata) 214 215 2g3o-a1-m1-cA_2g3o-a1-m1-cB 2g3o-a3-m1-cD_2g3o-a3-m1-cF 2g6x-a1-m1-cA_2g6x-a1-m1-cB 2g6y-a1-m1-cA_2g6y-a1-m1-cB 2g6y-a1-m1-cD_2g6y-a1-m1-cC AMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHVMFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPEDSVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFAFRRVEEDHSNTELGIVEYQHAFKTPD PAMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHVMFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPEDSVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFAFRRVEEDHSNTELGIVEYQHAFKTPD 2g6y-a1-m1-cA_2g6y-a1-m1-cD Crystal structure of the novel green fluorescent protein from marine copepod Pontellina plumata Q6WV12 Q6WV12 1.6 X-RAY DIFFRACTION 46 1.0 239963 (Pontellina plumata) 239963 (Pontellina plumata) 213 214 2g6x-a1-m1-cA_2g6x-a1-m1-cD 2g6x-a1-m1-cB_2g6x-a1-m1-cC 2g6y-a1-m1-cB_2g6y-a1-m1-cC AMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHVMFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPEDSVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFAFRRVEEDHSNTELGIVEYQHAFKTP AMEIECRITGTLNGVEFELVGGGEGTPEQGRMTNKMKSTKGALTFSPYLLSHVMFYHFGTYPSGYENPFLHAINNGGYTNTRIEKYEDGGVLHVSFSYRYEAGRVIGDFKVMGTGFPEDSVIFTDKIIRSNATVEHLHPMGDNDLDGSFTRTFSLRDGGYYSSVVDSHMHFKSAIHPSILQNGGPMFAFRRVEEDHSNTELGIVEYQHAFKTPD 2g6z-a1-m1-cB_2g6z-a1-m1-cA Crystal structure of human DUSP5 Q16690 Q16690 2.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 147 GPVEILPFLYLGSAYHASKCEFLANLHITALLNVSRRTSEACMTHLHYKWIPVEDSHTADISSHFQEAIDFIDCVREKGGKVLVHSEAGISRSPTICMAYLMKTKQFRLKEAFDYIKQRRSMVSPNFGFMGQLLQYESEILPS GSHMGPVEILPFLYLGSAYHASKCEFLANLHITALLNVSRRTSEACMTHLHYKWIPVEDSHTADISSHFQEAIDFIDCVREKGGKVLVHSEAGISRSPTICMAYLMKTKQFRLKEAFDYIKQRRSMVSPNFGFMGQLLQYESEILPS 2g6z-a1-m1-cB_2g6z-a1-m1-cC Crystal structure of human DUSP5 Q16690 Q16690 2.7 X-RAY DIFFRACTION 41 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 143 146 GPVEILPFLYLGSAYHASKCEFLANLHITALLNVSRRTSEACMTHLHYKWIPVEDSHTADISSHFQEAIDFIDCVREKGGKVLVHSEAGISRSPTICMAYLMKTKQFRLKEAFDYIKQRRSMVSPNFGFMGQLLQYESEILPS GSHMGPVEILPFLYLGSAYHASKCEFLANLHITALLNVSRRTSEACMTHLHYKWIPVEDSHTADISSHFQEAIDFIDCVREKGGKVLVHSEAGISRSPTICMAYLMKTKQFRLKEAFDYIKQRRSMVSPNFGFMGQLLQYESEILP 2g75-a4-m2-cC_2g75-a4-m1-cA Crystal Structure of anti-SARS m396 Antibody 2.28 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 VQLQQSGAEVKKPGSSVKVSCKASGGTFSSYTISWVRQAPGQGLEWMGGITPILGIANYAQKFQGRVTITTDESTSTAYMELSSLRSEDTAVYYCARDTVMGGMDVWGQGTTVTVSSASTKGPSVFPLAPSSKSTSGGTSALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK VQLQQSGAEVKKPGSSVKVSCKASGGTFSSYTISWVRQAPGQGLEWMGGITPILGIANYAQKFQGRVTITTDESTSTAYMELSSLRSEDTAVYYCARDTVMGGMDVWGQGTTVTVSSASTKGPSVFPLAPSSKSTSGGTSALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK 2g75-a4-m2-cD_2g75-a4-m1-cB Crystal Structure of anti-SARS m396 Antibody 2.28 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 SYELTQPPSVSVAPGKTARITCGGNNIGSKSVHWYQQKPGQAPVLVVYDDSDRPSGIPERFSGSNSGNTATLTISRVEAGDEADYYCQVWDSSSDYVFGTGTKVTVLGQPKANPTVTLFPPSSEEFQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTE SYELTQPPSVSVAPGKTARITCGGNNIGSKSVHWYQQKPGQAPVLVVYDDSDRPSGIPERFSGSNSGNTATLTISRVEAGDEADYYCQVWDSSSDYVFGTGTKVTVLGQPKANPTVTLFPPSSEEFQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTE 2g7g-a1-m1-cA_2g7g-a1-m2-cA The Crystal Structure of the Putative Transcriptional Regulator Rha04620 from Rhodococcus sp. RHA1 Q0S9X7 Q0S9X7 2.01 X-RAY DIFFRACTION 229 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 194 194 LDRERIAEAALELVDRDGDFRPDLARHLNVQVSSIYHHAKGRAAVVELVRHRVVREIDGSAFERLPWDEAFSEWARSYRAAFSRHPTAIRLLATETVRDPGSLSVYHSAAAGLRGAGFPDDHIAVITAAENFLLGAALDAAAPEVIEADSTTTDDALTRALAAAPRGPERAEQAFELGLAALLAGFHHLLQECG LDRERIAEAALELVDRDGDFRPDLARHLNVQVSSIYHHAKGRAAVVELVRHRVVREIDGSAFERLPWDEAFSEWARSYRAAFSRHPTAIRLLATETVRDPGSLSVYHSAAAGLRGAGFPDDHIAVITAAENFLLGAALDAAAPEVIEADSTTTDDALTRALAAAPRGPERAEQAFELGLAALLAGFHHLLQECG 2g7l-a1-m1-cA_2g7l-a1-m2-cA Crystal structure of putative transcription regulator SCO7704 from Streptomyces coelicor Q93JG8 Q93JG8 2.1 X-RAY DIFFRACTION 196 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 198 198 KPALSRRWIVDTAVALRAEGLEKVTRRLAQELDTGPASLYVYVANTAELHAAVLDALLGEVDLTGAEDWREQLRAVLTSYTLVLFAHPQLARSALVARPSGENYLRLVERVLELLARSGAPGAQVAWGVDKLLQDATATAAEQATSATVRALRDADEATHPAIASHPLLVAGSAHDRLRWSFDVLVNGITRTPVPGPA KPALSRRWIVDTAVALRAEGLEKVTRRLAQELDTGPASLYVYVANTAELHAAVLDALLGEVDLTGAEDWREQLRAVLTSYTLVLFAHPQLARSALVARPSGENYLRLVERVLELLARSGAPGAQVAWGVDKLLQDATATAAEQATSATVRALRDADEATHPAIASHPLLVAGSAHDRLRWSFDVLVNGITRTPVPGPA 2g7s-a1-m1-cA_2g7s-a1-m2-cA The crystal structure of transcriptional regulator, TetR family, from Agrobacterium tumefaciens A9CKG4 A9CKG4 1.4 X-RAY DIFFRACTION 128 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 187 187 NPQSKADDILQCARTLIIRGGYNSFSYADISQVVGIRNASIHHHFPSKSDLVCKLVSQYRQEAEAGIAELEKNISDPLEQLRAYIGYWEGCIADATHPFCVCALLASEIPVLPETVVLEVRAHFRSLSDWLTAVLERGIAQGRLVLTGTARANAEIFATVHGALSARAHGDAATFGAITRPLERITA NPQSKADDILQCARTLIIRGGYNSFSYADISQVVGIRNASIHHHFPSKSDLVCKLVSQYRQEAEAGIAELEKNISDPLEQLRAYIGYWEGCIADATHPFCVCALLASEIPVLPETVVLEVRAHFRSLSDWLTAVLERGIAQGRLVLTGTARANAEIFATVHGALSARAHGDAATFGAITRPLERITA 2g7u-a3-m1-cC_2g7u-a3-m2-cD 2.3 A structure of putative catechol degradative operon regulator from Rhodococcus sp. RHA1 Q0SE57 Q0SE57 2.3 X-RAY DIFFRACTION 20 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 244 244 2g7u-a3-m1-cB_2g7u-a3-m2-cA 2g7u-a3-m1-cD_2g7u-a3-m2-cC 2g7u-a3-m2-cB_2g7u-a3-m1-cA IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG 2g7u-a3-m2-cC_2g7u-a3-m1-cA 2.3 A structure of putative catechol degradative operon regulator from Rhodococcus sp. RHA1 Q0SE57 Q0SE57 2.3 X-RAY DIFFRACTION 16 0.996 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 244 247 2g7u-a3-m1-cC_2g7u-a3-m2-cA IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG DRDYIQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFA 2g7u-a4-m1-cC_2g7u-a4-m1-cA 2.3 A structure of putative catechol degradative operon regulator from Rhodococcus sp. RHA1 Q0SE57 Q0SE57 2.3 X-RAY DIFFRACTION 12 0.996 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 244 247 2g7u-a3-m1-cC_2g7u-a3-m1-cA 2g7u-a3-m2-cC_2g7u-a3-m2-cA IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG DRDYIQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFA 2g7u-a4-m1-cC_2g7u-a4-m1-cB 2.3 A structure of putative catechol degradative operon regulator from Rhodococcus sp. RHA1 Q0SE57 Q0SE57 2.3 X-RAY DIFFRACTION 42 0.996 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 244 246 2g7u-a3-m1-cC_2g7u-a3-m1-cB 2g7u-a3-m2-cC_2g7u-a3-m2-cB IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG RDYIQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFA 2g7u-a4-m1-cC_2g7u-a4-m1-cD 2.3 A structure of putative catechol degradative operon regulator from Rhodococcus sp. RHA1 Q0SE57 Q0SE57 2.3 X-RAY DIFFRACTION 153 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 244 244 2g7u-a1-m1-cB_2g7u-a1-m1-cA 2g7u-a2-m1-cC_2g7u-a2-m1-cD 2g7u-a3-m1-cB_2g7u-a3-m1-cA 2g7u-a3-m1-cC_2g7u-a3-m1-cD 2g7u-a3-m2-cB_2g7u-a3-m2-cA 2g7u-a3-m2-cC_2g7u-a3-m2-cD 2g7u-a4-m1-cB_2g7u-a4-m1-cA IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG 2g7u-a4-m1-cD_2g7u-a4-m1-cA 2.3 A structure of putative catechol degradative operon regulator from Rhodococcus sp. RHA1 Q0SE57 Q0SE57 2.3 X-RAY DIFFRACTION 40 0.996 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 244 247 2g7u-a3-m1-cD_2g7u-a3-m1-cA 2g7u-a3-m2-cD_2g7u-a3-m2-cA IQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFAG DRDYIQSIERGFAVLLAFDAQRPNPTLAELATEAGLSRPAVRRILLTLQKLGYVAGSGGRWSLTPRVLSIGQHYSESHALIEAAPRLLEVAEKTQESASLGVLDGADVVYAARVPVRRISINVSVGTRVPAYATSGRALLAWAPADVVERVVAESTFQKLGPETIGTAAELERELAKVREQGFALTSEELEKGLISLAAPVHDAGGTVVGVVACSTSSARNTPAQFREQAVPCVLAAAAALSADGFA 2g7z-a3-m1-cA_2g7z-a3-m2-cB Conserved DegV-like Protein of Unknown Function from Streptococcus pyogenes M1 GAS Binds Long-chain Fatty Acids P67372 P67372 2.05 X-RAY DIFFRACTION 30 0.996 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 268 268 AGTIKIVTDSSITIEPELIKALDITVVPLSVIDSKLYSDNDLKEEGHFLSLKASKSLPKTSQPPVGLFAETYENLVKKGVTDIVAIHLSPALSGTIEASRQGAEIAEAPVTVLDSGFTDQAKFQVVEAAKAKAGASLNEILAAVQAIKSKTELYIGVSTLENLVKGGRIGRVTGLNVKVVALKNDELKTLVKGRGNKTFTKWLDSYLAKNSHRPIAEIAISYAGEASLALTLKERIAAYYNHSISVLETGSIIQTHTGEGAFAVVRYE AGTIKIVTDSSITIEPELIKALDITVVPLSVIDSKLYSDNDLKEEGHFLSLKASKSLPKTSQPPVGLFAETYENLVKKGVTDIVAIHLSPALSGTIEASRQGAEIAEAPVTVLDSGFTDQAKFQVVEAAKAKAGASLNEILAAVQAIKSKTELYIGVSTLENLVKGGRIGRVTGVNVKVVALKNDELKTLVKGRGNKTFTKWLDSYLAKNSHRPIAEIAISYAGEASLALTLKERIAAYYNHSISVLETGSIIQTHTGEGAFAVVRYE 2g8g-a1-m54-cA_2g8g-a1-m9-cA Structurally mapping the diverse phenotype of Adeno-Associated Virus serotype 4 O41855 O41855 3.2 X-RAY DIFFRACTION 387 1.0 57579 (Adeno-associated virus - 4) 57579 (Adeno-associated virus - 4) 524 524 2g8g-a1-m10-cA_2g8g-a1-m23-cA 2g8g-a1-m11-cA_2g8g-a1-m20-cA 2g8g-a1-m11-cA_2g8g-a1-m38-cA 2g8g-a1-m12-cA_2g8g-a1-m37-cA 2g8g-a1-m12-cA_2g8g-a1-m47-cA 2g8g-a1-m13-cA_2g8g-a1-m45-cA 2g8g-a1-m13-cA_2g8g-a1-m46-cA 2g8g-a1-m14-cA_2g8g-a1-m29-cA 2g8g-a1-m14-cA_2g8g-a1-m44-cA 2g8g-a1-m15-cA_2g8g-a1-m16-cA 2g8g-a1-m15-cA_2g8g-a1-m28-cA 2g8g-a1-m16-cA_2g8g-a1-m28-cA 2g8g-a1-m17-cA_2g8g-a1-m27-cA 2g8g-a1-m17-cA_2g8g-a1-m52-cA 2g8g-a1-m18-cA_2g8g-a1-m51-cA 2g8g-a1-m18-cA_2g8g-a1-m60-cA 2g8g-a1-m19-cA_2g8g-a1-m39-cA 2g8g-a1-m19-cA_2g8g-a1-m59-cA 2g8g-a1-m1-cA_2g8g-a1-m10-cA 2g8g-a1-m1-cA_2g8g-a1-m23-cA 2g8g-a1-m20-cA_2g8g-a1-m38-cA 2g8g-a1-m21-cA_2g8g-a1-m30-cA 2g8g-a1-m21-cA_2g8g-a1-m43-cA 2g8g-a1-m22-cA_2g8g-a1-m42-cA 2g8g-a1-m24-cA_2g8g-a1-m54-cA 2g8g-a1-m24-cA_2g8g-a1-m9-cA 2g8g-a1-m25-cA_2g8g-a1-m26-cA 2g8g-a1-m25-cA_2g8g-a1-m53-cA 2g8g-a1-m26-cA_2g8g-a1-m53-cA 2g8g-a1-m27-cA_2g8g-a1-m52-cA 2g8g-a1-m29-cA_2g8g-a1-m44-cA 2g8g-a1-m2-cA_2g8g-a1-m22-cA 2g8g-a1-m2-cA_2g8g-a1-m42-cA 2g8g-a1-m30-cA_2g8g-a1-m43-cA 2g8g-a1-m31-cA_2g8g-a1-m40-cA 2g8g-a1-m31-cA_2g8g-a1-m58-cA 2g8g-a1-m32-cA_2g8g-a1-m57-cA 2g8g-a1-m32-cA_2g8g-a1-m7-cA 2g8g-a1-m33-cA_2g8g-a1-m5-cA 2g8g-a1-m33-cA_2g8g-a1-m6-cA 2g8g-a1-m34-cA_2g8g-a1-m49-cA 2g8g-a1-m34-cA_2g8g-a1-m4-cA 2g8g-a1-m35-cA_2g8g-a1-m36-cA 2g8g-a1-m35-cA_2g8g-a1-m48-cA 2g8g-a1-m36-cA_2g8g-a1-m48-cA 2g8g-a1-m37-cA_2g8g-a1-m47-cA 2g8g-a1-m39-cA_2g8g-a1-m59-cA 2g8g-a1-m3-cA_2g8g-a1-m41-cA 2g8g-a1-m3-cA_2g8g-a1-m50-cA 2g8g-a1-m40-cA_2g8g-a1-m58-cA 2g8g-a1-m41-cA_2g8g-a1-m50-cA 2g8g-a1-m45-cA_2g8g-a1-m46-cA 2g8g-a1-m4-cA_2g8g-a1-m49-cA 2g8g-a1-m51-cA_2g8g-a1-m60-cA 2g8g-a1-m55-cA_2g8g-a1-m56-cA 2g8g-a1-m55-cA_2g8g-a1-m8-cA 2g8g-a1-m56-cA_2g8g-a1-m8-cA 2g8g-a1-m57-cA_2g8g-a1-m7-cA 2g8g-a1-m5-cA_2g8g-a1-m6-cA 7thr-a1-m10-cA_7thr-a1-m23-cA 7thr-a1-m11-cA_7thr-a1-m20-cA 7thr-a1-m11-cA_7thr-a1-m38-cA 7thr-a1-m12-cA_7thr-a1-m37-cA 7thr-a1-m12-cA_7thr-a1-m47-cA 7thr-a1-m13-cA_7thr-a1-m45-cA 7thr-a1-m13-cA_7thr-a1-m46-cA 7thr-a1-m14-cA_7thr-a1-m29-cA 7thr-a1-m14-cA_7thr-a1-m44-cA 7thr-a1-m15-cA_7thr-a1-m16-cA 7thr-a1-m15-cA_7thr-a1-m28-cA 7thr-a1-m16-cA_7thr-a1-m28-cA 7thr-a1-m17-cA_7thr-a1-m27-cA 7thr-a1-m17-cA_7thr-a1-m52-cA 7thr-a1-m18-cA_7thr-a1-m51-cA 7thr-a1-m18-cA_7thr-a1-m60-cA 7thr-a1-m19-cA_7thr-a1-m39-cA 7thr-a1-m19-cA_7thr-a1-m59-cA 7thr-a1-m1-cA_7thr-a1-m10-cA 7thr-a1-m1-cA_7thr-a1-m23-cA 7thr-a1-m20-cA_7thr-a1-m38-cA 7thr-a1-m21-cA_7thr-a1-m30-cA 7thr-a1-m21-cA_7thr-a1-m43-cA 7thr-a1-m22-cA_7thr-a1-m42-cA 7thr-a1-m24-cA_7thr-a1-m54-cA 7thr-a1-m24-cA_7thr-a1-m9-cA 7thr-a1-m25-cA_7thr-a1-m26-cA 7thr-a1-m25-cA_7thr-a1-m53-cA 7thr-a1-m26-cA_7thr-a1-m53-cA 7thr-a1-m27-cA_7thr-a1-m52-cA 7thr-a1-m29-cA_7thr-a1-m44-cA 7thr-a1-m2-cA_7thr-a1-m22-cA 7thr-a1-m2-cA_7thr-a1-m42-cA 7thr-a1-m30-cA_7thr-a1-m43-cA 7thr-a1-m31-cA_7thr-a1-m40-cA 7thr-a1-m31-cA_7thr-a1-m58-cA 7thr-a1-m32-cA_7thr-a1-m57-cA 7thr-a1-m32-cA_7thr-a1-m7-cA 7thr-a1-m33-cA_7thr-a1-m5-cA 7thr-a1-m33-cA_7thr-a1-m6-cA 7thr-a1-m34-cA_7thr-a1-m49-cA 7thr-a1-m34-cA_7thr-a1-m4-cA 7thr-a1-m35-cA_7thr-a1-m36-cA 7thr-a1-m35-cA_7thr-a1-m48-cA 7thr-a1-m36-cA_7thr-a1-m48-cA 7thr-a1-m37-cA_7thr-a1-m47-cA 7thr-a1-m39-cA_7thr-a1-m59-cA 7thr-a1-m3-cA_7thr-a1-m41-cA 7thr-a1-m3-cA_7thr-a1-m50-cA 7thr-a1-m40-cA_7thr-a1-m58-cA 7thr-a1-m41-cA_7thr-a1-m50-cA 7thr-a1-m45-cA_7thr-a1-m46-cA 7thr-a1-m4-cA_7thr-a1-m49-cA 7thr-a1-m51-cA_7thr-a1-m60-cA 7thr-a1-m54-cA_7thr-a1-m9-cA 7thr-a1-m55-cA_7thr-a1-m56-cA 7thr-a1-m55-cA_7thr-a1-m8-cA 7thr-a1-m56-cA_7thr-a1-m8-cA 7thr-a1-m57-cA_7thr-a1-m7-cA 7thr-a1-m5-cA_7thr-a1-m6-cA GADGVGNASGDWHCDSTWSEGHVTTTSTRTWVLPTYNNHLYKRLGESLQSNTYNGFSTPWGYFDFNRFHCHFSPRDWQRLINNNWGMRPKAMRVKIFNIQVKEVTTSNGETTVANNLTSTVQIFADSSYELPYVMDAGQEGSLPPFPNDVFMVPQYGYCGLVTGNTSQQQTDRNAFYCLEYFPSQMLRTGNNFEITYSFEKVPFHSMYAHSQSLDRLMNPLIDQYLWGLQSTTTGTTLNAGTATTNFTKLRPTNFSNFKKNWLPGPSIKQQGFSKTANQNYKIPATGSDSLIKYETHSTLDGRWSALTPGPPMATAGPADSKFSNSQLIFAGPKQNGNTATVPGTLIFTSEEELAATNATDTDMWGNLPGGDQSNSNLPTVDRLTALGAVPGMVWQNRDIYYQGPIWAKIPHTDGHFHPSPLIGGFGLKHPPPQIFIKNTPVPANPATTFSSTPVNSFITQYSTGQVSVQIDWEIQKERSKRWNPEVQFTSNYGQQNSLLWAPDAAGKYTEPRAIGTRYLTHHL GADGVGNASGDWHCDSTWSEGHVTTTSTRTWVLPTYNNHLYKRLGESLQSNTYNGFSTPWGYFDFNRFHCHFSPRDWQRLINNNWGMRPKAMRVKIFNIQVKEVTTSNGETTVANNLTSTVQIFADSSYELPYVMDAGQEGSLPPFPNDVFMVPQYGYCGLVTGNTSQQQTDRNAFYCLEYFPSQMLRTGNNFEITYSFEKVPFHSMYAHSQSLDRLMNPLIDQYLWGLQSTTTGTTLNAGTATTNFTKLRPTNFSNFKKNWLPGPSIKQQGFSKTANQNYKIPATGSDSLIKYETHSTLDGRWSALTPGPPMATAGPADSKFSNSQLIFAGPKQNGNTATVPGTLIFTSEEELAATNATDTDMWGNLPGGDQSNSNLPTVDRLTALGAVPGMVWQNRDIYYQGPIWAKIPHTDGHFHPSPLIGGFGLKHPPPQIFIKNTPVPANPATTFSSTPVNSFITQYSTGQVSVQIDWEIQKERSKRWNPEVQFTSNYGQQNSLLWAPDAAGKYTEPRAIGTRYLTHHL 2g8g-a1-m55-cA_2g8g-a1-m9-cA Structurally mapping the diverse phenotype of Adeno-Associated Virus serotype 4 O41855 O41855 3.2 X-RAY DIFFRACTION 82 1.0 57579 (Adeno-associated virus - 4) 57579 (Adeno-associated virus - 4) 524 524 2g8g-a1-m10-cA_2g8g-a1-m24-cA 2g8g-a1-m11-cA_2g8g-a1-m16-cA 2g8g-a1-m12-cA_2g8g-a1-m38-cA 2g8g-a1-m13-cA_2g8g-a1-m47-cA 2g8g-a1-m14-cA_2g8g-a1-m45-cA 2g8g-a1-m15-cA_2g8g-a1-m29-cA 2g8g-a1-m17-cA_2g8g-a1-m28-cA 2g8g-a1-m18-cA_2g8g-a1-m52-cA 2g8g-a1-m19-cA_2g8g-a1-m60-cA 2g8g-a1-m1-cA_2g8g-a1-m6-cA 2g8g-a1-m20-cA_2g8g-a1-m39-cA 2g8g-a1-m21-cA_2g8g-a1-m26-cA 2g8g-a1-m22-cA_2g8g-a1-m43-cA 2g8g-a1-m25-cA_2g8g-a1-m54-cA 2g8g-a1-m27-cA_2g8g-a1-m53-cA 2g8g-a1-m2-cA_2g8g-a1-m23-cA 2g8g-a1-m30-cA_2g8g-a1-m44-cA 2g8g-a1-m31-cA_2g8g-a1-m36-cA 2g8g-a1-m32-cA_2g8g-a1-m58-cA 2g8g-a1-m33-cA_2g8g-a1-m7-cA 2g8g-a1-m34-cA_2g8g-a1-m5-cA 2g8g-a1-m35-cA_2g8g-a1-m49-cA 2g8g-a1-m37-cA_2g8g-a1-m48-cA 2g8g-a1-m3-cA_2g8g-a1-m42-cA 2g8g-a1-m40-cA_2g8g-a1-m59-cA 2g8g-a1-m41-cA_2g8g-a1-m46-cA 2g8g-a1-m4-cA_2g8g-a1-m50-cA 2g8g-a1-m51-cA_2g8g-a1-m56-cA 2g8g-a1-m57-cA_2g8g-a1-m8-cA 7thr-a1-m10-cA_7thr-a1-m24-cA 7thr-a1-m11-cA_7thr-a1-m16-cA 7thr-a1-m12-cA_7thr-a1-m38-cA 7thr-a1-m13-cA_7thr-a1-m47-cA 7thr-a1-m14-cA_7thr-a1-m45-cA 7thr-a1-m15-cA_7thr-a1-m29-cA 7thr-a1-m17-cA_7thr-a1-m28-cA 7thr-a1-m18-cA_7thr-a1-m52-cA 7thr-a1-m19-cA_7thr-a1-m60-cA 7thr-a1-m1-cA_7thr-a1-m6-cA 7thr-a1-m20-cA_7thr-a1-m39-cA 7thr-a1-m21-cA_7thr-a1-m26-cA 7thr-a1-m22-cA_7thr-a1-m43-cA 7thr-a1-m25-cA_7thr-a1-m54-cA 7thr-a1-m27-cA_7thr-a1-m53-cA 7thr-a1-m2-cA_7thr-a1-m23-cA 7thr-a1-m30-cA_7thr-a1-m44-cA 7thr-a1-m31-cA_7thr-a1-m36-cA 7thr-a1-m32-cA_7thr-a1-m58-cA 7thr-a1-m33-cA_7thr-a1-m7-cA 7thr-a1-m34-cA_7thr-a1-m5-cA 7thr-a1-m35-cA_7thr-a1-m49-cA 7thr-a1-m37-cA_7thr-a1-m48-cA 7thr-a1-m3-cA_7thr-a1-m42-cA 7thr-a1-m40-cA_7thr-a1-m59-cA 7thr-a1-m41-cA_7thr-a1-m46-cA 7thr-a1-m4-cA_7thr-a1-m50-cA 7thr-a1-m51-cA_7thr-a1-m56-cA 7thr-a1-m55-cA_7thr-a1-m9-cA 7thr-a1-m57-cA_7thr-a1-m8-cA GADGVGNASGDWHCDSTWSEGHVTTTSTRTWVLPTYNNHLYKRLGESLQSNTYNGFSTPWGYFDFNRFHCHFSPRDWQRLINNNWGMRPKAMRVKIFNIQVKEVTTSNGETTVANNLTSTVQIFADSSYELPYVMDAGQEGSLPPFPNDVFMVPQYGYCGLVTGNTSQQQTDRNAFYCLEYFPSQMLRTGNNFEITYSFEKVPFHSMYAHSQSLDRLMNPLIDQYLWGLQSTTTGTTLNAGTATTNFTKLRPTNFSNFKKNWLPGPSIKQQGFSKTANQNYKIPATGSDSLIKYETHSTLDGRWSALTPGPPMATAGPADSKFSNSQLIFAGPKQNGNTATVPGTLIFTSEEELAATNATDTDMWGNLPGGDQSNSNLPTVDRLTALGAVPGMVWQNRDIYYQGPIWAKIPHTDGHFHPSPLIGGFGLKHPPPQIFIKNTPVPANPATTFSSTPVNSFITQYSTGQVSVQIDWEIQKERSKRWNPEVQFTSNYGQQNSLLWAPDAAGKYTEPRAIGTRYLTHHL GADGVGNASGDWHCDSTWSEGHVTTTSTRTWVLPTYNNHLYKRLGESLQSNTYNGFSTPWGYFDFNRFHCHFSPRDWQRLINNNWGMRPKAMRVKIFNIQVKEVTTSNGETTVANNLTSTVQIFADSSYELPYVMDAGQEGSLPPFPNDVFMVPQYGYCGLVTGNTSQQQTDRNAFYCLEYFPSQMLRTGNNFEITYSFEKVPFHSMYAHSQSLDRLMNPLIDQYLWGLQSTTTGTTLNAGTATTNFTKLRPTNFSNFKKNWLPGPSIKQQGFSKTANQNYKIPATGSDSLIKYETHSTLDGRWSALTPGPPMATAGPADSKFSNSQLIFAGPKQNGNTATVPGTLIFTSEEELAATNATDTDMWGNLPGGDQSNSNLPTVDRLTALGAVPGMVWQNRDIYYQGPIWAKIPHTDGHFHPSPLIGGFGLKHPPPQIFIKNTPVPANPATTFSSTPVNSFITQYSTGQVSVQIDWEIQKERSKRWNPEVQFTSNYGQQNSLLWAPDAAGKYTEPRAIGTRYLTHHL 2g8g-a1-m8-cA_2g8g-a1-m9-cA Structurally mapping the diverse phenotype of Adeno-Associated Virus serotype 4 O41855 O41855 3.2 X-RAY DIFFRACTION 176 1.0 57579 (Adeno-associated virus - 4) 57579 (Adeno-associated virus - 4) 524 524 2g8g-a1-m10-cA_2g8g-a1-m6-cA 2g8g-a1-m10-cA_2g8g-a1-m9-cA 2g8g-a1-m11-cA_2g8g-a1-m12-cA 2g8g-a1-m11-cA_2g8g-a1-m15-cA 2g8g-a1-m12-cA_2g8g-a1-m13-cA 2g8g-a1-m13-cA_2g8g-a1-m14-cA 2g8g-a1-m14-cA_2g8g-a1-m15-cA 2g8g-a1-m16-cA_2g8g-a1-m17-cA 2g8g-a1-m16-cA_2g8g-a1-m20-cA 2g8g-a1-m17-cA_2g8g-a1-m18-cA 2g8g-a1-m18-cA_2g8g-a1-m19-cA 2g8g-a1-m19-cA_2g8g-a1-m20-cA 2g8g-a1-m1-cA_2g8g-a1-m2-cA 2g8g-a1-m1-cA_2g8g-a1-m5-cA 2g8g-a1-m21-cA_2g8g-a1-m22-cA 2g8g-a1-m21-cA_2g8g-a1-m25-cA 2g8g-a1-m22-cA_2g8g-a1-m23-cA 2g8g-a1-m23-cA_2g8g-a1-m24-cA 2g8g-a1-m24-cA_2g8g-a1-m25-cA 2g8g-a1-m26-cA_2g8g-a1-m27-cA 2g8g-a1-m26-cA_2g8g-a1-m30-cA 2g8g-a1-m27-cA_2g8g-a1-m28-cA 2g8g-a1-m28-cA_2g8g-a1-m29-cA 2g8g-a1-m29-cA_2g8g-a1-m30-cA 2g8g-a1-m2-cA_2g8g-a1-m3-cA 2g8g-a1-m31-cA_2g8g-a1-m32-cA 2g8g-a1-m31-cA_2g8g-a1-m35-cA 2g8g-a1-m32-cA_2g8g-a1-m33-cA 2g8g-a1-m33-cA_2g8g-a1-m34-cA 2g8g-a1-m34-cA_2g8g-a1-m35-cA 2g8g-a1-m36-cA_2g8g-a1-m37-cA 2g8g-a1-m36-cA_2g8g-a1-m40-cA 2g8g-a1-m37-cA_2g8g-a1-m38-cA 2g8g-a1-m38-cA_2g8g-a1-m39-cA 2g8g-a1-m39-cA_2g8g-a1-m40-cA 2g8g-a1-m3-cA_2g8g-a1-m4-cA 2g8g-a1-m41-cA_2g8g-a1-m42-cA 2g8g-a1-m41-cA_2g8g-a1-m45-cA 2g8g-a1-m42-cA_2g8g-a1-m43-cA 2g8g-a1-m43-cA_2g8g-a1-m44-cA 2g8g-a1-m44-cA_2g8g-a1-m45-cA 2g8g-a1-m46-cA_2g8g-a1-m47-cA 2g8g-a1-m46-cA_2g8g-a1-m50-cA 2g8g-a1-m47-cA_2g8g-a1-m48-cA 2g8g-a1-m48-cA_2g8g-a1-m49-cA 2g8g-a1-m49-cA_2g8g-a1-m50-cA 2g8g-a1-m4-cA_2g8g-a1-m5-cA 2g8g-a1-m51-cA_2g8g-a1-m52-cA 2g8g-a1-m51-cA_2g8g-a1-m55-cA 2g8g-a1-m52-cA_2g8g-a1-m53-cA 2g8g-a1-m53-cA_2g8g-a1-m54-cA 2g8g-a1-m54-cA_2g8g-a1-m55-cA 2g8g-a1-m56-cA_2g8g-a1-m57-cA 2g8g-a1-m56-cA_2g8g-a1-m60-cA 2g8g-a1-m57-cA_2g8g-a1-m58-cA 2g8g-a1-m58-cA_2g8g-a1-m59-cA 2g8g-a1-m59-cA_2g8g-a1-m60-cA 2g8g-a1-m6-cA_2g8g-a1-m7-cA 2g8g-a1-m7-cA_2g8g-a1-m8-cA 7thr-a1-m10-cA_7thr-a1-m6-cA 7thr-a1-m10-cA_7thr-a1-m9-cA 7thr-a1-m11-cA_7thr-a1-m12-cA 7thr-a1-m11-cA_7thr-a1-m15-cA 7thr-a1-m12-cA_7thr-a1-m13-cA 7thr-a1-m13-cA_7thr-a1-m14-cA 7thr-a1-m14-cA_7thr-a1-m15-cA 7thr-a1-m16-cA_7thr-a1-m17-cA 7thr-a1-m16-cA_7thr-a1-m20-cA 7thr-a1-m17-cA_7thr-a1-m18-cA 7thr-a1-m18-cA_7thr-a1-m19-cA 7thr-a1-m19-cA_7thr-a1-m20-cA 7thr-a1-m1-cA_7thr-a1-m2-cA 7thr-a1-m1-cA_7thr-a1-m5-cA 7thr-a1-m21-cA_7thr-a1-m22-cA 7thr-a1-m21-cA_7thr-a1-m25-cA 7thr-a1-m22-cA_7thr-a1-m23-cA 7thr-a1-m23-cA_7thr-a1-m24-cA 7thr-a1-m24-cA_7thr-a1-m25-cA 7thr-a1-m26-cA_7thr-a1-m27-cA 7thr-a1-m26-cA_7thr-a1-m30-cA 7thr-a1-m27-cA_7thr-a1-m28-cA 7thr-a1-m28-cA_7thr-a1-m29-cA 7thr-a1-m29-cA_7thr-a1-m30-cA 7thr-a1-m2-cA_7thr-a1-m3-cA 7thr-a1-m31-cA_7thr-a1-m32-cA 7thr-a1-m31-cA_7thr-a1-m35-cA 7thr-a1-m32-cA_7thr-a1-m33-cA 7thr-a1-m33-cA_7thr-a1-m34-cA 7thr-a1-m34-cA_7thr-a1-m35-cA 7thr-a1-m36-cA_7thr-a1-m37-cA 7thr-a1-m36-cA_7thr-a1-m40-cA 7thr-a1-m37-cA_7thr-a1-m38-cA 7thr-a1-m38-cA_7thr-a1-m39-cA 7thr-a1-m39-cA_7thr-a1-m40-cA 7thr-a1-m3-cA_7thr-a1-m4-cA 7thr-a1-m41-cA_7thr-a1-m42-cA 7thr-a1-m41-cA_7thr-a1-m45-cA 7thr-a1-m42-cA_7thr-a1-m43-cA 7thr-a1-m43-cA_7thr-a1-m44-cA 7thr-a1-m44-cA_7thr-a1-m45-cA 7thr-a1-m46-cA_7thr-a1-m47-cA 7thr-a1-m46-cA_7thr-a1-m50-cA 7thr-a1-m47-cA_7thr-a1-m48-cA 7thr-a1-m48-cA_7thr-a1-m49-cA 7thr-a1-m49-cA_7thr-a1-m50-cA 7thr-a1-m4-cA_7thr-a1-m5-cA 7thr-a1-m51-cA_7thr-a1-m52-cA 7thr-a1-m51-cA_7thr-a1-m55-cA 7thr-a1-m52-cA_7thr-a1-m53-cA 7thr-a1-m53-cA_7thr-a1-m54-cA 7thr-a1-m54-cA_7thr-a1-m55-cA 7thr-a1-m56-cA_7thr-a1-m57-cA 7thr-a1-m56-cA_7thr-a1-m60-cA 7thr-a1-m57-cA_7thr-a1-m58-cA 7thr-a1-m58-cA_7thr-a1-m59-cA 7thr-a1-m59-cA_7thr-a1-m60-cA 7thr-a1-m6-cA_7thr-a1-m7-cA 7thr-a1-m7-cA_7thr-a1-m8-cA 7thr-a1-m8-cA_7thr-a1-m9-cA GADGVGNASGDWHCDSTWSEGHVTTTSTRTWVLPTYNNHLYKRLGESLQSNTYNGFSTPWGYFDFNRFHCHFSPRDWQRLINNNWGMRPKAMRVKIFNIQVKEVTTSNGETTVANNLTSTVQIFADSSYELPYVMDAGQEGSLPPFPNDVFMVPQYGYCGLVTGNTSQQQTDRNAFYCLEYFPSQMLRTGNNFEITYSFEKVPFHSMYAHSQSLDRLMNPLIDQYLWGLQSTTTGTTLNAGTATTNFTKLRPTNFSNFKKNWLPGPSIKQQGFSKTANQNYKIPATGSDSLIKYETHSTLDGRWSALTPGPPMATAGPADSKFSNSQLIFAGPKQNGNTATVPGTLIFTSEEELAATNATDTDMWGNLPGGDQSNSNLPTVDRLTALGAVPGMVWQNRDIYYQGPIWAKIPHTDGHFHPSPLIGGFGLKHPPPQIFIKNTPVPANPATTFSSTPVNSFITQYSTGQVSVQIDWEIQKERSKRWNPEVQFTSNYGQQNSLLWAPDAAGKYTEPRAIGTRYLTHHL GADGVGNASGDWHCDSTWSEGHVTTTSTRTWVLPTYNNHLYKRLGESLQSNTYNGFSTPWGYFDFNRFHCHFSPRDWQRLINNNWGMRPKAMRVKIFNIQVKEVTTSNGETTVANNLTSTVQIFADSSYELPYVMDAGQEGSLPPFPNDVFMVPQYGYCGLVTGNTSQQQTDRNAFYCLEYFPSQMLRTGNNFEITYSFEKVPFHSMYAHSQSLDRLMNPLIDQYLWGLQSTTTGTTLNAGTATTNFTKLRPTNFSNFKKNWLPGPSIKQQGFSKTANQNYKIPATGSDSLIKYETHSTLDGRWSALTPGPPMATAGPADSKFSNSQLIFAGPKQNGNTATVPGTLIFTSEEELAATNATDTDMWGNLPGGDQSNSNLPTVDRLTALGAVPGMVWQNRDIYYQGPIWAKIPHTDGHFHPSPLIGGFGLKHPPPQIFIKNTPVPANPATTFSSTPVNSFITQYSTGQVSVQIDWEIQKERSKRWNPEVQFTSNYGQQNSLLWAPDAAGKYTEPRAIGTRYLTHHL 2g8l-a1-m1-cA_2g8l-a1-m1-cB Crystal structure of a duf89 family protein (ph1575) from pyrococcus horikoshii at 2.04 A resolution O59272 O59272 2.04 X-RAY DIFFRACTION 62 0.996 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 276 278 HKVQYECLTCANQCQRIVEATQDDIRRRAILAAKLLAKEYNENAIPAIAGSLIFLELYKFLGNDDPFIEYKLKSEEARKVADIIKRKLKLDFELAVKLAIIGNVIDFSVGFSPEDLEEEVEKLKDKLYIDDSKELFEEVKRAENILYITDNVGEHYFDAILIEKIREISNAEVYIAGKEGPIINDATVEDLKRAGLEKLGKVISTGTRIVGVPLKLVSREFEAFNKADVIIAKGQGNFETLSEINDSRIFFLLKAKCPAVARELKVPKGALVCRNK KVQYECLTCANQCQRIVEATQDDIRRRAILAAKLLAKEYNENAIPAIAGSLIFLELYKFLGNDDPFIEYKLKSEEARKVADIIKRKLKLDFELAVKLAIIGNVIDFSVGFSPEDLEEEVEKLKDKLYIDDSKELFEEVKRAENILYITDNVGEHYFDAILIEKIREISNAEVYIAGKEGPIINDATVEDLKRAGLEKLGKVISTGTRIVGVPLKLVSREFEAFNKADVIIAKGQGNFETLSEINDSRIFFLLKAKCPAVARELKVPKGALVCRNKFKL 2g8y-a1-m1-cB_2g8y-a1-m1-cA The structure of a putative malate/lactate dehydrogenase from E. coli. P30178 P30178 2.15 X-RAY DIFFRACTION 265 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 350 351 GHRFDAQTLHSFIQAVFRQGSEEQEAKLVADHLIAANLAGHDSHGIGFPSYVRSWSQGHLQINHHAKTVKEAGAAVTLDGDRAFGQVAAHEAALGIEKAHQHGIAAVALHNSHHIGRIGYWAEQCAAAGFVSIHFVSVVGIPVAPFHGRDSRFGTNPFCVVFPRKDNFPLLLDYATSAIAFGKTRVAWHKGVPVPPGCLIDVNGVPTTNPAVQESPLGSLLTFAEHKGYALAACEILGGALSGGKTTHQETLQTSPDAILNCTTIIINPELFGAPDCNAQTEAFAEWVKASPHDDDKPILLPGEWEVNTRRERQKQGIPLDAGSWQAICDAARQIGPEETLQAFCQQLAS SGHRFDAQTLHSFIQAVFRQGSEEQEAKLVADHLIAANLAGHDSHGIGFPSYVRSWSQGHLQINHHAKTVKEAGAAVTLDGDRAFGQVAAHEAALGIEKAHQHGIAAVALHNSHHIGRIGYWAEQCAAAGFVSIHFVSVVGIPVAPFHGRDSRFGTNPFCVVFPRKDNFPLLLDYATSAIAFGKTRVAWHKGVPVPPGCLIDVNGVPTTNPAVQESPLGSLLTFAEHKGYALAACEILGGALSGGKTTHQETLQTSPDAILNCTTIIINPELFGAPDCNAQTEAFAEWVKASPHDDDKPILLPGEWEVNTRRERQKQGIPLDAGSWQAICDAARQIGPEETLQAFCQQLAS 2g9e-a1-m2-cA_2g9e-a1-m4-cA Protonation-mediated structural flexibility in the F conjugation regulatory protein, TRAM P10026 P10026 1.8 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 68 68 2g7o-a1-m1-cA_2g7o-a1-m3-cA 2g7o-a1-m1-cA_2g7o-a1-m4-cA 2g7o-a1-m2-cA_2g7o-a1-m3-cA 2g7o-a1-m2-cA_2g7o-a1-m4-cA 2g9e-a1-m1-cA_2g9e-a1-m3-cA 2g9e-a1-m1-cA_2g9e-a1-m4-cA 2g9e-a1-m2-cA_2g9e-a1-m3-cA 3d8a-a1-m1-cE_3d8a-a1-m1-cG 3d8a-a1-m1-cE_3d8a-a1-m1-cH 3d8a-a1-m1-cF_3d8a-a1-m1-cG 3d8a-a1-m1-cF_3d8a-a1-m1-cH 3d8a-a2-m1-cA_3d8a-a2-m1-cC 3d8a-a2-m1-cA_3d8a-a2-m1-cD 3d8a-a2-m1-cB_3d8a-a2-m1-cC 3d8a-a2-m1-cB_3d8a-a2-m1-cD AFNQTEFNKLLLECVVKTQSSVAKILGILSLSPHVSGNSKFEYANMVEDIREKVSSEMERFFPKNDDE AFNQTEFNKLLLECVVKTQSSVAKILGILSLSPHVSGNSKFEYANMVEDIREKVSSEMERFFPKNDDE 2g9e-a1-m3-cA_2g9e-a1-m4-cA Protonation-mediated structural flexibility in the F conjugation regulatory protein, TRAM P10026 P10026 1.8 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 68 68 2g7o-a1-m1-cA_2g7o-a1-m2-cA 2g7o-a1-m3-cA_2g7o-a1-m4-cA 2g9e-a1-m1-cA_2g9e-a1-m2-cA 3d8a-a1-m1-cE_3d8a-a1-m1-cF 3d8a-a1-m1-cG_3d8a-a1-m1-cH 3d8a-a2-m1-cA_3d8a-a2-m1-cB 3d8a-a2-m1-cC_3d8a-a2-m1-cD AFNQTEFNKLLLECVVKTQSSVAKILGILSLSPHVSGNSKFEYANMVEDIREKVSSEMERFFPKNDDE AFNQTEFNKLLLECVVKTQSSVAKILGILSLSPHVSGNSKFEYANMVEDIREKVSSEMERFFPKNDDE 2g9g-a2-m1-cA_2g9g-a2-m2-cA Crystal structure of His-tagged mouse PNGase C-terminal domain Q9JI78 Q9JI78 2 X-RAY DIFFRACTION 49 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 189 GRVSGSLAWRRKEILFIPSENEKISKQFHLRYDIVRDRYIRVSDNNTNISGWENGVWKMESIFRKVEKDWNMVYLARKEGSSFAYISWKFECGSAGLKVDTVSIRTSSQSFESGSVRWKLRSETAQVNLLGDKNLRSYNDFSGATEVTLEAELSRGDGDVAWQHTQLFRQSLNDSGENGLEIIITFNDL GRVSGSLAWRRKEILFIPSENEKISKQFHLRYDIVRDRYIRVSDNNTNISGWENGVWKMESIFRKVEKDWNMVYLARKEGSSFAYISWKFECGSAGLKVDTVSIRTSSQSFESGSVRWKLRSETAQVNLLGDKNLRSYNDFSGATEVTLEAELSRGDGDVAWQHTQLFRQSLNDSGENGLEIIITFNDL 2g9j-a1-m1-cA_2g9j-a1-m1-cB Complex of TM1a(1-14)Zip with TM9a(251-284): a model for the polymerization domain (""overlap region"") of tropomyosin, Northeast Structural Genomics Target OR9 P03069 P03069 NOT SOLUTION NMR 28 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 33 33 GMDAIKKKMQMLKLDNYHLENEVARLKKLVGER GMDAIKKKMQMLKLDNYHLENEVARLKKLVGER 2g9t-a1-m1-cF_2g9t-a1-m1-cC Crystal structure of the SARS coronavirus nsp10 at 2.1A P0C6U8 P0C6U8 2.1 X-RAY DIFFRACTION 24 1.0 694009 (Severe acute respiratory syndrome-related coronavirus) 694009 (Severe acute respiratory syndrome-related coronavirus) 117 118 2g9t-a1-m1-cA_2g9t-a1-m1-cC 2g9t-a1-m1-cD_2g9t-a1-m1-cG 2g9t-a1-m1-cD_2g9t-a1-m1-cJ 2g9t-a1-m1-cE_2g9t-a1-m1-cI 2g9t-a1-m1-cE_2g9t-a1-m1-cL 2g9t-a1-m1-cF_2g9t-a1-m1-cA 2g9t-a1-m1-cG_2g9t-a1-m1-cJ 2g9t-a1-m1-cH_2g9t-a1-m1-cB 2g9t-a1-m1-cH_2g9t-a1-m1-cK 2g9t-a1-m1-cI_2g9t-a1-m1-cL 2g9t-a1-m1-cK_2g9t-a1-m1-cB 2g9t-a2-m1-cM_2g9t-a2-m1-cR 2g9t-a2-m1-cM_2g9t-a2-m1-cT 2g9t-a2-m1-cN_2g9t-a2-m1-cP 2g9t-a2-m1-cO_2g9t-a2-m1-cS 2g9t-a2-m1-cO_2g9t-a2-m1-cW 2g9t-a2-m1-cQ_2g9t-a2-m1-cX 2g9t-a2-m1-cR_2g9t-a2-m1-cT 2g9t-a2-m1-cS_2g9t-a2-m1-cW 2g9t-a2-m1-cU_2g9t-a2-m1-cQ 2g9t-a2-m1-cU_2g9t-a2-m1-cX 2g9t-a2-m1-cV_2g9t-a2-m1-cN 2g9t-a2-m1-cV_2g9t-a2-m1-cP 2ga6-a1-m1-cA_2ga6-a1-m1-cC 2ga6-a1-m1-cA_2ga6-a1-m1-cF 2ga6-a1-m1-cC_2ga6-a1-m1-cF 2ga6-a1-m1-cD_2ga6-a1-m1-cG 2ga6-a1-m1-cD_2ga6-a1-m1-cJ 2ga6-a1-m1-cE_2ga6-a1-m1-cI 2ga6-a1-m1-cE_2ga6-a1-m1-cL 2ga6-a1-m1-cG_2ga6-a1-m1-cJ 2ga6-a1-m1-cH_2ga6-a1-m1-cB 2ga6-a1-m1-cH_2ga6-a1-m1-cK 2ga6-a1-m1-cI_2ga6-a1-m1-cL 2ga6-a1-m1-cK_2ga6-a1-m1-cB 2ga6-a2-m1-cM_2ga6-a2-m1-cO 2ga6-a2-m1-cP_2ga6-a2-m1-cS 2ga6-a2-m1-cP_2ga6-a2-m1-cV 2ga6-a2-m1-cQ_2ga6-a2-m1-cU 2ga6-a2-m1-cQ_2ga6-a2-m1-cX 2ga6-a2-m1-cR_2ga6-a2-m1-cM 2ga6-a2-m1-cR_2ga6-a2-m1-cO 2ga6-a2-m1-cS_2ga6-a2-m1-cV 2ga6-a2-m1-cT_2ga6-a2-m1-cN 2ga6-a2-m1-cT_2ga6-a2-m1-cW 2ga6-a2-m1-cU_2ga6-a2-m1-cX 2ga6-a2-m1-cW_2ga6-a2-m1-cN ANSTVLSFCAFAVDPAKAYKDYLASGGQPITNCVKMLCTTGTGQAITVTPEANMDQESFGGASCCLYCRCHIDHPNFCDLKGKYVQIPTTCANDPVGFTLRNTVCTVCGMWKGYGCS ANSTVLSFCAFAVDPAKAYKDYLASGGQPITNCVKMLCTHTGTGQAITVTPEANMDQESFGGASCCLYCRCHIDHPNFCDLKGKYVQIPTTCANDPVGFTLRNTVCTVCGMWKGYGCS 2g9t-a2-m1-cP_2g9t-a2-m1-cW Crystal structure of the SARS coronavirus nsp10 at 2.1A P0C6U8 P0C6U8 2.1 X-RAY DIFFRACTION 14 1.0 694009 (Severe acute respiratory syndrome-related coronavirus) 694009 (Severe acute respiratory syndrome-related coronavirus) 118 118 2g9t-a1-m1-cA_2g9t-a1-m1-cD 2g9t-a1-m1-cA_2g9t-a1-m1-cH 2g9t-a1-m1-cC_2g9t-a1-m1-cE 2g9t-a1-m1-cC_2g9t-a1-m1-cJ 2g9t-a1-m1-cD_2g9t-a1-m1-cH 2g9t-a1-m1-cE_2g9t-a1-m1-cJ 2g9t-a1-m1-cF_2g9t-a1-m1-cB 2g9t-a1-m1-cF_2g9t-a1-m1-cL 2g9t-a1-m1-cG_2g9t-a1-m1-cI 2g9t-a1-m1-cG_2g9t-a1-m1-cK 2g9t-a1-m1-cI_2g9t-a1-m1-cK 2g9t-a1-m1-cL_2g9t-a1-m1-cB 2g9t-a2-m1-cM_2g9t-a2-m1-cQ 2g9t-a2-m1-cN_2g9t-a2-m1-cO 2g9t-a2-m1-cN_2g9t-a2-m1-cT 2g9t-a2-m1-cO_2g9t-a2-m1-cT 2g9t-a2-m1-cR_2g9t-a2-m1-cS 2g9t-a2-m1-cR_2g9t-a2-m1-cX 2g9t-a2-m1-cS_2g9t-a2-m1-cX 2g9t-a2-m1-cU_2g9t-a2-m1-cP 2g9t-a2-m1-cU_2g9t-a2-m1-cW 2g9t-a2-m1-cV_2g9t-a2-m1-cM 2g9t-a2-m1-cV_2g9t-a2-m1-cQ 2ga6-a1-m1-cA_2ga6-a1-m1-cD 2ga6-a1-m1-cA_2ga6-a1-m1-cH 2ga6-a1-m1-cB_2ga6-a1-m1-cF 2ga6-a1-m1-cC_2ga6-a1-m1-cE 2ga6-a1-m1-cC_2ga6-a1-m1-cJ 2ga6-a1-m1-cD_2ga6-a1-m1-cH 2ga6-a1-m1-cE_2ga6-a1-m1-cJ 2ga6-a1-m1-cG_2ga6-a1-m1-cI 2ga6-a1-m1-cG_2ga6-a1-m1-cK 2ga6-a1-m1-cI_2ga6-a1-m1-cK 2ga6-a1-m1-cL_2ga6-a1-m1-cB 2ga6-a1-m1-cL_2ga6-a1-m1-cF 2ga6-a2-m1-cM_2ga6-a2-m1-cP 2ga6-a2-m1-cM_2ga6-a2-m1-cT 2ga6-a2-m1-cO_2ga6-a2-m1-cQ 2ga6-a2-m1-cO_2ga6-a2-m1-cV 2ga6-a2-m1-cP_2ga6-a2-m1-cT 2ga6-a2-m1-cQ_2ga6-a2-m1-cV 2ga6-a2-m1-cR_2ga6-a2-m1-cN 2ga6-a2-m1-cR_2ga6-a2-m1-cX 2ga6-a2-m1-cS_2ga6-a2-m1-cU 2ga6-a2-m1-cS_2ga6-a2-m1-cW 2ga6-a2-m1-cU_2ga6-a2-m1-cW 2ga6-a2-m1-cX_2ga6-a2-m1-cN ANSTVLSFCAFAVDPAKAYKDYLASGGQPITNCVKMLCTHTGTGQAITVTPEANMDQESFGGASCCLYCRCHIDHPNFCDLKGKYVQIPTTCANDPVGFTLRNTVCTVCGMWKGYGCS ANSTVLSFCAFAVDPAKAYKDYLASGGQPITNCVKMLCTHTGTGQAITVTPEANMDQESFGGASCCLYCRCHIDHPNFCDLKGKYVQIPTTCANDPVGFTLRNTVCTVCGMWKGYGCS 2g9t-a2-m1-cQ_2g9t-a2-m1-cR Crystal structure of the SARS coronavirus nsp10 at 2.1A P0C6U8 P0C6U8 2.1 X-RAY DIFFRACTION 21 1.0 694009 (Severe acute respiratory syndrome-related coronavirus) 694009 (Severe acute respiratory syndrome-related coronavirus) 118 118 2g9t-a1-m1-cA_2g9t-a1-m1-cB 2g9t-a1-m1-cC_2g9t-a1-m1-cD 2g9t-a1-m1-cF_2g9t-a1-m1-cE 2g9t-a1-m1-cG_2g9t-a1-m1-cH 2g9t-a1-m1-cI_2g9t-a1-m1-cJ 2g9t-a1-m1-cK_2g9t-a1-m1-cL 2g9t-a2-m1-cM_2g9t-a2-m1-cN 2g9t-a2-m1-cO_2g9t-a2-m1-cP 2g9t-a2-m1-cS_2g9t-a2-m1-cT 2g9t-a2-m1-cU_2g9t-a2-m1-cV 2g9t-a2-m1-cW_2g9t-a2-m1-cX 2ga6-a1-m1-cA_2ga6-a1-m1-cB 2ga6-a1-m1-cC_2ga6-a1-m1-cD 2ga6-a1-m1-cE_2ga6-a1-m1-cF 2ga6-a1-m1-cG_2ga6-a1-m1-cH 2ga6-a1-m1-cI_2ga6-a1-m1-cJ 2ga6-a1-m1-cK_2ga6-a1-m1-cL 2ga6-a2-m1-cM_2ga6-a2-m1-cN 2ga6-a2-m1-cO_2ga6-a2-m1-cP 2ga6-a2-m1-cR_2ga6-a2-m1-cQ 2ga6-a2-m1-cS_2ga6-a2-m1-cT 2ga6-a2-m1-cU_2ga6-a2-m1-cV 2ga6-a2-m1-cW_2ga6-a2-m1-cX ANSTVLSFCAFAVDPAKAYKDYLASGGQPITNCVKMLCTHTGTGQAITVTPEANMDQESFGGASCCLYCRCHIDHPNFCDLKGKYVQIPTTCANDPVGFTLRNTVCTVCGMWKGYGCS ANSTVLSFCAFAVDPAKAYKDYLASGGQPITNCVKMLCTHTGTGQAITVTPEANMDQESFGGASCCLYCRCHIDHPNFCDLKGKYVQIPTTCANDPVGFTLRNTVCTVCGMWKGYGCS 2g9w-a1-m1-cA_2g9w-a1-m1-cB Crystal Structure of Rv1846c, a Putative Transcriptional Regulatory Protein of Mycobacterium Tuberculosis P9WMJ5 P9WMJ5 1.8 X-RAY DIFFRACTION 137 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 116 116 KLTRLGDLERAVDHLWSRTEPQTVRQVHEALSARRDLAYTTVAVLQRLAKKNLVLQIRAHRYAPVHGRDELVAGLVDALAQAEDSGSRQAALVHFVERVGADEADALRRALAELEA KLTRLGDLERAVDHLWSRTEPQTVRQVHEALSARRDLAYTTVAVLQRLAKKNLVLQIRAHRYAPVHGRDELVAGLVDALAQAEDSGSRQAALVHFVERVGADEADALRRALAELEA 2g9z-a1-m1-cB_2g9z-a1-m1-cA Thiamin pyrophosphokinase from Candida albicans 1.96 X-RAY DIFFRACTION 139 1.0 5476 (Candida albicans) 5476 (Candida albicans) 295 297 2hh9-a1-m1-cA_2hh9-a1-m1-cB ELIEQVIEQPDSLIISPPSYNHIQPFVYLHNVLLILNQKITIDLISLWKKCEIIVCADGGANSLYEYFNLQRSDYIPDYIVGDFDSISPDVKTYYESHGSKIIRQSSQYYNDFTKSIHCIQLHYQLNHTKENWFESIDEVDGLAKLWNGLNNSSDVVVDIDITIYVLNAIGGRFDQTVQSINQLYIMNEDYPKVTVFFITTNDIIFLLKKGVNYISYKNRLMFHKDNGSSPTPTCGLLPLSNKTPIILNSYGLKYDMRNWKTEMLGQVSSSNRISGETGFIVECSDDIVMNIEID SELIEQVIEQPDSLIISPPSYNHIQPFVYLHNVLLILNQKITIDLISLWKKCEIIVCADGGANSLYEYFNLQRSDYIPDYIVGDFDSISPDVKTYYESHGSKIIRQSSQYYNDFTKSIHCIQLHYQLNHTKENWFESIDEVDGLAKLWNGLNNSSDVVVDIDITIYVLNAIGGRFDQTVQSINQLYIMNEDYPKVTVFFITTNDIIFLLKKGVNYISYKNRLMFHKDNGSSPTPTCGLLPLSNKTPIILNSYGLKYDMRNWKTEMLGQVSSSNRISGETGFIVECSDDIVMNIEIDV 2ga0-a3-m1-cE_2ga0-a3-m1-cF Variable Small Protein 1 of Borrelia turicatae (VspA or Vsp1) O34000 O34000 2.7 X-RAY DIFFRACTION 172 1.0 142 (Borrelia turicatae) 142 (Borrelia turicatae) 164 164 1yjg-a1-m1-cA_1yjg-a1-m1-cB 1yjg-a2-m1-cD_1yjg-a2-m1-cE 2ga0-a1-m1-cA_2ga0-a1-m1-cB 2ga0-a2-m1-cC_2ga0-a2-m1-cD 2ga0-a4-m1-cG_2ga0-a4-m1-cH VIDLATITKNITDAVAFAKSVKDVHTLVKSIDELAKAIGKKIGANGLETDADKNAKLISGAYSVISAVDTKLASLEKKVGISDDLKGKITTVKNASTSFLTKAKSKTADLGKDDVKDADAKTAIDIADTGAKDKGAEELIKLNTAIDALLTSAEAAVTAAINAL VIDLATITKNITDAVAFAKSVKDVHTLVKSIDELAKAIGKKIGANGLETDADKNAKLISGAYSVISAVDTKLASLEKKVGISDDLKGKITTVKNASTSFLTKAKSKTADLGKDDVKDADAKTAIDIADTGAKDKGAEELIKLNTAIDALLTSAEAAVTAAINAL 2ga1-a1-m1-cB_2ga1-a1-m1-cA Crystal structure of a duf433 member protein (ava_0674) from anabaena variabilis atcc 29413 at 2.00 A resolution Q3MFD8 Q3MFD8 2 X-RAY DIFFRACTION 68 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 99 100 NKKTQLLEVIAALPEELVDQALNYVQLQNPIQITPGVCGGQARIRNTRIPVWTLVAYRQQGAPDKELLANYPGLTAEDLSAAWHYYEQNPEQIDREIAQ NKKTQLLEVIAALPEELVDQALNYVQLQNPIQITPGVCGGQARIRNTRIPVWTLVAYRQQGAPDKELLANYPGLTAEDLSAAWHYYEQNPEQIDREIAQD 2gam-a1-m1-cB_2gam-a1-m1-cA X-ray crystal structure of murine leukocyte-type Core 2 b1,6-N-acetylglucosaminyltransferase (C2GnT-L) in complex with Galb1,3GalNAc Q09324 Q09324 2.7 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 359 365 2gak-a1-m1-cB_2gak-a1-m1-cA 2gam-a2-m1-cD_2gam-a2-m1-cC 3otk-a5-m1-cB_3otk-a5-m1-cA 3otk-a6-m1-cC_3otk-a6-m1-cD NVNCTKILQGDPEEIQKVKRPRWTPHDYINMTRDCASFIRTRKYIVEPLTKEEVGFPIAYSIVVHHKIEMLDRLLRAIYMPQNFYCIHVDRKAEESFLAAVQGIASCFDNVFVASQLESVVYASWTRVKADLNCMKDLYRMNANWKYLINLCGMDFPIKTNLEIVRKLKCSTGENNLETEKMPPNKEERWKKRYAVVDGKLTNTGIVKAPPPLKTPLFSGSAYFVVTREYVGYVLENENIQKLMEWAQDTYSPDEFLWATIQRIPEVPGSFPSSNKYDLSDMNAIARFVKWQYFEGDVSNGAPYPPCSGVHVRSVCVFGAGDLSWMLRQHHLFANKFDMDVDPFAIQCLDEHLRRKALE NVNCTKILQGDPEEIQKVKLEILTVRPRWTPHDYINMTRDCASFIRTRKYIVEPLTKEEVGFPIAYSIVVHHKIEMLDRLLRAIYMPQNFYCIHVDRKAEESFLAAVQGIASCFDNVFVASQLESVVYASWTRVKADLNCMKDLYRMNANWKYLINLCGMDFPIKTNLEIVRKLKCSTGENNLETEKMPPNKEERWKKRYAVVDGKLTNTGIVKAPPPLKTPLFSGSAYFVVTREYVGYVLENENIQKLMEWAQDTYSPDEFLWATIQRIPEVPGSFPSSNKYDLSDMNAIARFVKWQYFEGDVSNGAPYPPCSGVHVRSVCVFGAGDLSWMLRQHHLFANKFDMDVDPFAIQCLDEHLRRKALE 2gan-a1-m1-cB_2gan-a1-m1-cA Crystal Structure of a Putative Acetyltransferase from Pyrococcus horikoshii, Northeast Structural Genomics Target JR32. O58467 O58467 2.1 X-RAY DIFFRACTION 116 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 176 179 EGVKKIKNPSTVKDELLELFRIYRSTNGKYPALEWVKRKPNPNDFNGFREVYEPFLKFRLSQEFDELYTYQKDNRIIGTIALVYKRIKEKGIWWVPEELNEKVGLIEFFVVDPEFQGKGIGSTLLEFAVKRLRSLGKDPYVVTFPNLEAYSYYYKKGFREIRYKEFVILKFNHKKF EGVKKIKNPSTVKDELLELFRIYRSTNGKYPALEWVKRKPNPNDFNGFREVYEPFLKFRLSQEFDELYTYQKDNRIIGTIALVYKRIKEKGIWWVPEELNEKVGLIEFFVVDPEFQGKGIGSTLLEFAVKRLRSLGKDPYVVTFPNLEAYSYYYKKGFREIRYKEFVILKFNHKKFQLE 2gao-a1-m1-cA_2gao-a1-m1-cB Crystal Structure of Human SAR1a in Complex With GDP Q9NR31 Q9NR31 2 X-RAY DIFFRACTION 29 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 165 171 SSVLQFLGLYKKSGKLVFLGLDNAGKTTLLHMLTSEELTIAGMTFTTFDLRVWKNYLPAINGIVFLVDCADHSRLVESKVELNALMTDETISNVPILILGNKIDRTDAISEEKLREIFGLYGQTTGKGNVTLKELNARPMEVFMCSVLKRQGYGEGFRWLSQYID SVLQFLGLYKKSGKLVFLGLDNAGKTTLLHMLKVPTLHPTSEELTIAGMTFTTFDLRVWKNYLPAINGIVFLVDCADHSRLVESKVELNALMTDETISNVPILILGNKIDRTDAISEEKLREIFGLYGQTTGKGNVTLKELNARPMEVFMCSVLKRQGYGEGFRWLSQYID 2gau-a1-m1-cA_2gau-a1-m2-cA Crystal structure of transcriptional regulator, Crp/Fnr family from Porphyromonas gingivalis (APC80792), Structural genomics, MCSG Q7MAW7 Q7MAW7 1.9 X-RAY DIFFRACTION 117 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 218 218 LGHLLRDVWSLLNEEERELLDKEIQPFPCKKASTVFSEGDIPNNLFYLYEGKIKILRRFHISRIVKPGQFFGMRPYFAEETCSSTAIAVENSKVLAIPVEAIEALLKGNTSFCRYFLKALAKELGYAERRTVTLTQKHVRGRLAETLLILKENFGFENDGATLSIYLSREELATLSNMTVSNAIRTLSTFVSERMLALDGKRIKIIDCDRLQKTARSG LGHLLRDVWSLLNEEERELLDKEIQPFPCKKASTVFSEGDIPNNLFYLYEGKIKILRRFHISRIVKPGQFFGMRPYFAEETCSSTAIAVENSKVLAIPVEAIEALLKGNTSFCRYFLKALAKELGYAERRTVTLTQKHVRGRLAETLLILKENFGFENDGATLSIYLSREELATLSNMTVSNAIRTLSTFVSERMLALDGKRIKIIDCDRLQKTARSG 2gax-a4-m1-cA_2gax-a4-m3-cA Structure of Protein of Unknown Function Atu0240 from Agrobacteriium tumerfaciencs str. C58 A9CKI6 A9CKI6 1.801 X-RAY DIFFRACTION 179 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 130 130 2gax-a3-m1-cB_2gax-a3-m2-cB FDTKIAVILRDDLAVWQKLNVTAFLSGIVAQTGEIIGEPYRDGAGNVYNPLSIQPIVVATDQEALRKIHQRSLERDITTSLYIEEFATGHDAANRQVFSHFSPDTAKVVGALRADRKIVDKITKGAKLHA FDTKIAVILRDDLAVWQKLNVTAFLSGIVAQTGEIIGEPYRDGAGNVYNPLSIQPIVVATDQEALRKIHQRSLERDITTSLYIEEFATGHDAANRQVFSHFSPDTAKVVGALRADRKIVDKITKGAKLHA 2gb3-a3-m1-cF_2gb3-a3-m1-cE Crystal structure of Aspartate aminotransferase (tm1698) from Thermotoga maritima at 2.50 A resolution Q9X224 Q9X224 2.5 X-RAY DIFFRACTION 208 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 379 382 2gb3-a1-m1-cA_2gb3-a1-m1-cB 2gb3-a2-m1-cD_2gb3-a2-m1-cC VFSDRVLLTEESPIRKLVPFAEAKKRGVRIHHLNIGQPDLKTPEVFFERIYENKPEVVYYSHSAGIWELREAFASYYKRRQRVDVKPENVLVTNGGSEAILFSFAVIANPGDEILVLEPFYANYNAFAKIAGVKLIPVTRREEGFAIPQNLESFINERTKGIVLSNPCNPTGVVYGKDERYLVEIAERHGLFLIVDEVYSEIVFRGEFASALSIESDKVVVIDSVSKFSACGARVGCLITRNEELISHAKLAQGRLAPPLLEQIGSVGLLNLDDSFFDFVRETYRERVETVLKKLEEHGLKRFTKPSGAFYITAELPVEDAEEFARWLTDFNDGETTVAPLRGFYLTPGLGKKEIRIACVLEKDLLSRAIDVLEGLKFC HHDVFSDRVLLTEESPIRKLVPFAEAKKRGVRIHHLNIGQPDLKTPEVFFERIYENKPEVVYYSHSAGIWELREAFASYYKRRQRVDVKPENVLVTNGGSEAILFSFAVIANPGDEILVLEPFYANYNAFAKIAGVKLIPVTRREEGFAIPQNLESFINERTKGIVLSNPCNPTGVVYGKDERYLVEIAERHGLFLIVDEVYSEIVFRGEFASALSIESDKVVVIDSVSKFSACGARVGCLITRNEELISHAKLAQGRLAPPLLEQIGSVGLLNLDDSFFDFVRETYRERVETVLKKLEEHGLKRFTKPSGAFYITAELPVEDAEEFARWLTDFNDGETTVAPLRGFYLTPGLGKKEIRIACVLEKDLLSRAIDVLEGLKFC 2gb7-a2-m1-cD_2gb7-a2-m1-cC Metal-depleted Ecl18kI in complex with uncleaved, modified DNA O87963 O87963 1.7 X-RAY DIFFRACTION 113 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 292 293 2fqz-a1-m1-cA_2fqz-a1-m1-cB 2fqz-a2-m1-cC_2fqz-a2-m1-cD 2gb7-a1-m1-cA_2gb7-a1-m1-cB LSPGEFKTLISKERKSHFITPFALVYKTFCDLGYDQKNSDYFLNNPSEYIIAMRKNCWKEFEPFEKEFTTRMLSYLIDEERIKDMSPYDAIRDFTMEYPTHIYDLALSNTQSRRSRAGKEFESILELLMMGAGIPVDVQGAIIGKLVDLVMPGVVQYTSNKRNTMLISAKTTLRERWQEVPEEVNRTGIREMYLATLDDSFSEETINILYEANVVVVTTVENKNFKYKNNNRVLTFEDMLQSAMELSRKWNNVSYTDSEKEEIQQSILKQIEKYSDFPYVVNYYRNRLSALF LSPGEFKTLISKERKSHFITPFALVYKTFCDLGYDQKNSDYFLNNPSEYIIAMRKNCWKEFEPFEKEFTTRMLSYLIDEERIKDMSPYDAIRDFTMEYPTHIYDLALSNTQSRRSRAGKEFESILELLMMGAGIPVDVQGAIQIGKLVDLVMPGVVQYTSNKRNTMLISAKTTLRERWQEVPEEVNRTGIREMYLATLDDSFSEETINILYEANVVVVTTVENKNFKYKNNNRVLTFEDMLQSAMELSRKWNNVSYTDSEKEEIQQSILKQIEKYSDFPYVVNYYRNRLSALF 2gbb-a2-m1-cD_2gbb-a2-m1-cC Crystal structure of secreted chorismate mutase from Yersinia pestis Q7CHH5 Q7CHH5 2.1 X-RAY DIFFRACTION 63 1.0 229193 (Yersinia pestis biovar Microtus str. 91001) 229193 (Yersinia pestis biovar Microtus str. 91001) 151 152 2gbb-a1-m1-cB_2gbb-a1-m1-cA QCGQTAPLINERLSYKDVAGYKAENHLPIEDRIQEEKVINSAAQAESLGLNGESIKPLVAQINAAKAIQYRYRADWLSQPEPGWQPKPLDDVRANIGELSTKILEQIAEELKTCKPAEGDKAHFINTIRQHNLTSADVEAIFSTFNQVKLK QQCGQTAPLINERLSYKDVAGYKAENHLPIEDRIQEEKVINSAAQAESLGLNGESIKPLVAQINAAKAIQYRYRADWLSQPEPGWQPKPLDDVRANIGELSTKILEQIAEELKTCKPAEGDKAHFINTIRQHNLTSADVEAIFSTFNQVKLK 2gbc-a2-m2-cB_2gbc-a2-m3-cB Native DPP-IV (CD26) from Rat P14740 P14740 2.8 X-RAY DIFFRACTION 47 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 730 730 2gbc-a2-m1-cA_2gbc-a2-m2-cA 2gbc-a2-m1-cA_2gbc-a2-m3-cA 2gbc-a2-m1-cB_2gbc-a2-m2-cB 2gbc-a2-m1-cB_2gbc-a2-m3-cB 2gbc-a2-m2-cA_2gbc-a2-m3-cA 2gbf-a2-m1-cA_2gbf-a2-m2-cA 2gbf-a2-m1-cA_2gbf-a2-m3-cA 2gbf-a2-m1-cB_2gbf-a2-m2-cB 2gbf-a2-m1-cB_2gbf-a2-m3-cB 2gbf-a2-m2-cA_2gbf-a2-m3-cA 2gbf-a2-m2-cB_2gbf-a2-m3-cB 2gbg-a2-m1-cA_2gbg-a2-m2-cA 2gbg-a2-m1-cA_2gbg-a2-m3-cA 2gbg-a2-m1-cB_2gbg-a2-m2-cB 2gbg-a2-m1-cB_2gbg-a2-m3-cB 2gbg-a2-m2-cA_2gbg-a2-m3-cA 2gbg-a2-m2-cB_2gbg-a2-m3-cB 2gbi-a2-m1-cA_2gbi-a2-m2-cA 2gbi-a2-m1-cA_2gbi-a2-m3-cA 2gbi-a2-m1-cB_2gbi-a2-m2-cB 2gbi-a2-m1-cB_2gbi-a2-m3-cB 2gbi-a2-m2-cA_2gbi-a2-m3-cA 2gbi-a2-m2-cB_2gbi-a2-m3-cB 2i3z-a2-m1-cA_2i3z-a2-m2-cA 2i3z-a2-m1-cA_2i3z-a2-m3-cA 2i3z-a2-m1-cB_2i3z-a2-m2-cB 2i3z-a2-m1-cB_2i3z-a2-m3-cB 2i3z-a2-m2-cA_2i3z-a2-m3-cA 2i3z-a2-m2-cB_2i3z-a2-m3-cB 2oae-a2-m1-cA_2oae-a2-m2-cA 2oae-a2-m1-cA_2oae-a2-m3-cA 2oae-a2-m1-cB_2oae-a2-m2-cB 2oae-a2-m1-cB_2oae-a2-m3-cB 2oae-a2-m2-cA_2oae-a2-m3-cA 2oae-a2-m2-cB_2oae-a2-m3-cB RRTYTLADYLKNTFRVKSYSLRWVSDSEYLYKQENNILLFNAEHGNSSIFLENSTFEIFGDSISDYSVSPDRLFVLLEYNYVKQWRHSYTASYSIYDLNKRQLITEEKIPNNTQWITWSQEGHKLAYVWKNDIYVKIEPHLPSHRITSTGKENVIFNGINDWVYEEEIFGAYSALWWSPNGTFLAYAQFNDTGVPLIEYSFYSDESLQYPKTVWIPYPKAGAVNPTVKFFIVNTDSLSSTTTTIPMQITAPASVTTGDHYLCDVAWVSEDRISLQWLRRIQNYSVMAICDYDKTTLVWNCPTTQEHIETSATGWCGRFRPAEPHFTSDGSSFYKIVSDKDGYKHICQFQKDRKPEQVCTFITKGAWEVISIEALTSDYLYYISNEYKEMPGGRNLYKIQLTDHTNKKCLSCDLNPERCQYYSVSLSKEAKYYQLGCRGPGLPLYTLHRSTDQKELRVLEDNSALDKMLQDVQMPSKKLDFIVLNETRFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADAAFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINKRLGTLEVEDQIEAARQFLKMGFVDSKRVAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDAGVDFQAMWYTDEDHGIASSTAHQHIYSHMSHFLQQCFSLR RRTYTLADYLKNTFRVKSYSLRWVSDSEYLYKQENNILLFNAEHGNSSIFLENSTFEIFGDSISDYSVSPDRLFVLLEYNYVKQWRHSYTASYSIYDLNKRQLITEEKIPNNTQWITWSQEGHKLAYVWKNDIYVKIEPHLPSHRITSTGKENVIFNGINDWVYEEEIFGAYSALWWSPNGTFLAYAQFNDTGVPLIEYSFYSDESLQYPKTVWIPYPKAGAVNPTVKFFIVNTDSLSSTTTTIPMQITAPASVTTGDHYLCDVAWVSEDRISLQWLRRIQNYSVMAICDYDKTTLVWNCPTTQEHIETSATGWCGRFRPAEPHFTSDGSSFYKIVSDKDGYKHICQFQKDRKPEQVCTFITKGAWEVISIEALTSDYLYYISNEYKEMPGGRNLYKIQLTDHTNKKCLSCDLNPERCQYYSVSLSKEAKYYQLGCRGPGLPLYTLHRSTDQKELRVLEDNSALDKMLQDVQMPSKKLDFIVLNETRFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADAAFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINKRLGTLEVEDQIEAARQFLKMGFVDSKRVAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDAGVDFQAMWYTDEDHGIASSTAHQHIYSHMSHFLQQCFSLR 2gbo-a2-m1-cA_2gbo-a2-m2-cB Protein of Unknown Function EF2458 from Enterococcus faecalis Q831P3 Q831P3 2.2 X-RAY DIFFRACTION 47 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 79 79 2gbo-a2-m1-cB_2gbo-a2-m2-cA DEGISKKFAIQLLEDDAERIKLIRNQKNSLCISQCKAFEEVVDTQYGFSRQVTYATRLGILTNDEGHRLLSDLERELNQ DEGISKKFAIQLLEDDAERIKLIRNQKNSLCISQCKAFEEVVDTQYGFSRQVTYATRLGILTNDEGHRLLSDLERELNQ 2gbo-a2-m1-cB_2gbo-a2-m2-cB Protein of Unknown Function EF2458 from Enterococcus faecalis Q831P3 Q831P3 2.2 X-RAY DIFFRACTION 30 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 79 79 2gbo-a2-m1-cA_2gbo-a2-m2-cA DEGISKKFAIQLLEDDAERIKLIRNQKNSLCISQCKAFEEVVDTQYGFSRQVTYATRLGILTNDEGHRLLSDLERELNQ DEGISKKFAIQLLEDDAERIKLIRNQKNSLCISQCKAFEEVVDTQYGFSRQVTYATRLGILTNDEGHRLLSDLERELNQ 2gbo-a2-m2-cA_2gbo-a2-m2-cB Protein of Unknown Function EF2458 from Enterococcus faecalis Q831P3 Q831P3 2.2 X-RAY DIFFRACTION 98 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 79 79 2gbo-a1-m1-cA_2gbo-a1-m1-cB 2gbo-a2-m1-cA_2gbo-a2-m1-cB DEGISKKFAIQLLEDDAERIKLIRNQKNSLCISQCKAFEEVVDTQYGFSRQVTYATRLGILTNDEGHRLLSDLERELNQ DEGISKKFAIQLLEDDAERIKLIRNQKNSLCISQCKAFEEVVDTQYGFSRQVTYATRLGILTNDEGHRLLSDLERELNQ 2gbw-a1-m1-cA_2gbw-a1-m1-cE Crystal Structure of Biphenyl 2,3-Dioxygenase from Sphingomonas yanoikuyae B1 A2TC87 A2TC87 1.7 X-RAY DIFFRACTION 98 1.0 13690 (Sphingobium yanoikuyae) 13690 (Sphingobium yanoikuyae) 449 449 2ckf-a1-m1-cC_2ckf-a1-m1-cA 2ckf-a1-m1-cC_2ckf-a1-m1-cE 2ckf-a1-m1-cE_2ckf-a1-m1-cA 2gbw-a1-m1-cC_2gbw-a1-m1-cA 2gbw-a1-m1-cC_2gbw-a1-m1-cE 2gbx-a1-m1-cA_2gbx-a1-m1-cE 2gbx-a1-m1-cC_2gbx-a1-m1-cA 2gbx-a1-m1-cC_2gbx-a1-m1-cE TLVDTVNASQSRQVFWDEDVYALEIERIFSRAWLMLGHESLVPKPGDFITTYMAEDKVILSHQSDGTFRAFINSCSHRGNQICHADSGNAKAFVCNYHGWVFGQDGSLVDVPLESRCYHNSLDKQKLAAKSVRVETYKGFIFGCHDPEAPSLEDYLGEFRYYLDTIWEGAGGGMELLGPPMKSLLQCNWKVPAENFIGDGYHVGWTHAAALSQIGGELAGLAGNRADIPFDDLGLQFTTRHGHGFGVIDNAAAGLHIKREGWTKFLEDTRGEVRRKFGPERERLYLGHWNCSIFPNCSFLYGTNTFKIWHPRGPHEIEVWTYTIVPRDADPATKSMIQREAIRTFGTAGTLESDDGENMSSATYINRGVITRNGRMNSTMGVGYEGPHPVYPGIVGISFIGETSYRGFYRFWKEMIDAPDWASVKANDDTWDSVFPNRNFWNEKLNAAE TLVDTVNASQSRQVFWDEDVYALEIERIFSRAWLMLGHESLVPKPGDFITTYMAEDKVILSHQSDGTFRAFINSCSHRGNQICHADSGNAKAFVCNYHGWVFGQDGSLVDVPLESRCYHNSLDKQKLAAKSVRVETYKGFIFGCHDPEAPSLEDYLGEFRYYLDTIWEGAGGGMELLGPPMKSLLQCNWKVPAENFIGDGYHVGWTHAAALSQIGGELAGLAGNRADIPFDDLGLQFTTRHGHGFGVIDNAAAGLHIKREGWTKFLEDTRGEVRRKFGPERERLYLGHWNCSIFPNCSFLYGTNTFKIWHPRGPHEIEVWTYTIVPRDADPATKSMIQREAIRTFGTAGTLESDDGENMSSATYINRGVITRNGRMNSTMGVGYEGPHPVYPGIVGISFIGETSYRGFYRFWKEMIDAPDWASVKANDDTWDSVFPNRNFWNEKLNAAE 2gbw-a1-m1-cB_2gbw-a1-m1-cF Crystal Structure of Biphenyl 2,3-Dioxygenase from Sphingomonas yanoikuyae B1 A2TC88 A2TC88 1.7 X-RAY DIFFRACTION 56 1.0 13690 (Sphingobium yanoikuyae) 13690 (Sphingobium yanoikuyae) 170 170 2ckf-a1-m1-cB_2ckf-a1-m1-cD 2ckf-a1-m1-cB_2ckf-a1-m1-cF 2ckf-a1-m1-cD_2ckf-a1-m1-cF 2gbw-a1-m1-cB_2gbw-a1-m1-cD 2gbw-a1-m1-cD_2gbw-a1-m1-cF 2gbx-a1-m1-cB_2gbx-a1-m1-cD 2gbx-a1-m1-cB_2gbx-a1-m1-cF 2gbx-a1-m1-cD_2gbx-a1-m1-cF QIPVTPDVHYDIEAHYRAEVRMFQTGQYREWLQGMVAEDIHYWMPIYEQRLTRDRRPDPTPDDAAIYNDDFGELKQRVERLYSGQVWMEDPPSKIRYFVSNVEAFEAGNGELDVLSNILVYRNRRQTEVTVHTLGREDKLRRDGNGFKVFRRKLILDARVTQDKNLYFFC QIPVTPDVHYDIEAHYRAEVRMFQTGQYREWLQGMVAEDIHYWMPIYEQRLTRDRRPDPTPDDAAIYNDDFGELKQRVERLYSGQVWMEDPPSKIRYFVSNVEAFEAGNGELDVLSNILVYRNRRQTEVTVHTLGREDKLRRDGNGFKVFRRKLILDARVTQDKNLYFFC 2gbz-a2-m1-cA_2gbz-a2-m2-cA The Crystal Structure of XC847 from Xanthomonas campestris: a 3-5 Oligoribonuclease of DnaQ fold family with a Novel Opposingly-Shifted Helix Q8P8S1 Q8P8S1 2.3 X-RAY DIFFRACTION 105 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 179 179 NDRLIWIDLEMTGLDTDRDSIIEIATIVTDAQLNVLAEGPELAIAHSLETLEAMDEWNRNQHRRSGLWQRVLDSQVTHAQAEAQTVAFLGEWIRAGASPMCGNSICQDRRFLHRQMSRLERYFHYRNLDVSTIKELARRWAPAVASGFAKSSAHTALSDVRDSIDELRHYRQFMGTLGG NDRLIWIDLEMTGLDTDRDSIIEIATIVTDAQLNVLAEGPELAIAHSLETLEAMDEWNRNQHRRSGLWQRVLDSQVTHAQAEAQTVAFLGEWIRAGASPMCGNSICQDRRFLHRQMSRLERYFHYRNLDVSTIKELARRWAPAVASGFAKSSAHTALSDVRDSIDELRHYRQFMGTLGG 2gcg-a2-m1-cD_2gcg-a2-m1-cC Ternary Crystal Structure of Human Glyoxylate Reductase/Hydroxypyruvate Reductase Q9UBQ7 Q9UBQ7 2.2 X-RAY DIFFRACTION 216 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 324 2gcg-a1-m1-cB_2gcg-a1-m1-cA 2h1s-a1-m1-cA_2h1s-a1-m1-cB 2h1s-a2-m1-cC_2h1s-a2-m1-cD 2q50-a1-m1-cA_2q50-a1-m1-cB 2q50-a2-m1-cC_2q50-a2-m1-cD 2wwr-a1-m1-cD_2wwr-a1-m1-cC 2wwr-a2-m1-cA_2wwr-a2-m1-cB LMKVFVTRRIPAEGRVALARAADCEVEQWDSDEPIPAKELERGVAGAHGLLCLLSDHVDKRILDAAGANLKVISTMSVGIDHLALDEIKKRGIRVGYTPDVLTDTTAELAVSLLLTTCRRLPEAIEEVKNGGWTSWKPLWLCGYGLTQSTVGIIGLGRIGQAIARRLKPFGVQRFLYTGRQPRPEEAAEFQAEFVSTPELAAQSDFIVVACSLTPATEGLCNKDFFQKMKETAVFINISRGDVVNQDDLYQALASGKIAAAGLDVTSPEPLPTNHPLLTLKNCVILPHIGSATHRTRNTMSLLAANNLLAGLRGEPMPSELKL RLMKVFVTRRIPAEGRVALARAADCEVEQWDSDEPIPAKELERGVAGAHGLLCLLSDHVDKRILDAAGANLKVISTMSVGIDHLALDEIKKRGIRVGYTPDVLTDTTAELAVSLLLTTCRRLPEAIEEVKNGGWTSWKPLWLCGYGLTQSTVGIIGLGRIGQAIARRLKPFGVQRFLYTGRQPRPEEAAEFQAEFVSTPELAAQSDFIVVACSLTPATEGLCNKDFFQKMKETAVFINISRGDVVNQDDLYQALASGKIAAAGLDVTSPEPLPTNHPLLTLKNCVILPHIGSATHRTRNTMSLLAANNLLAGLRGEPMPSELKL 2gcu-a2-m1-cD_2gcu-a2-m1-cC X-Ray Structure of Gene Product from Arabidopsis Thaliana At1g53580 Q9C8L4 Q9C8L4 1.477 X-RAY DIFFRACTION 43 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 236 243 2gcu-a1-m1-cB_2gcu-a1-m1-cA MKLLFRQLFENESSTFTYLLADVSHPDKPALLIDPVDKTVDRDLKLIDELGLKLIYAMNTHVHADHVTGTGLLKTKLPGVKSVISKASGSKADLFLEPGDKVSIGDIYLEVRATPGHTAGCVTYVTGEGADQPQPRMAFTGDAVLIRGCGRTDFQEGSSDQLYESVHSQIFTLPKDTLIYPAHDYKGFEVSTVGEEMQHNPRLTKDKETFKTIMSNLNLSYPKMIDVAVPANMVGL MKLLFRQLFENESSTFTYLLADVSHPDKPALLIDPVDKTVDRDLKLIDELGLKLIYAMNTHVHADHVTGTGLLKTKLPGVKSVISKASGSKADLFLEPGDKVSIGDIYLEVRATPGHTAGCVTYVTGEGADQPQPRMAFTGDAVLIRGCGRTDFQEGSSDQLYESVHSQIFTLPKDTLIYPAHDYKGFEVSTVGEEMQHNPRLTKDKETFKTIMSNLNLSYPKMIDVAVPANMVGLQDVPSQA 2gd5-a2-m1-cC_2gd5-a2-m1-cD Structural basis for budding by the ESCRTIII factor CHMP3 Q9Y3E7 Q9Y3E7 2.8 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 149 2gd5-a1-m1-cA_2gd5-a1-m1-cB PKELVNEWSLKIRKERVVDRQIRDIQREEEKVKRSVKDAAKKGQKDVCIVLAKEIRSRKAVSKLYASKAHNSVLGKNQLAVLGSLQKSTEVKAQSLVKIPEIQATRELSKEKAGIIAEEIDRILFEITAGA GAAEKPPKELVNEWSLKIRKERVVDRQIRDIQREEEKVKRSVKDAAKKGQKDVCIVLAKEIRSRKAVSKLYASKAHNSVLGKNQLAVLRVAGSLQKSTEVKAQSLVKIPEIQATRELSKEKAGIIEEEEAEEIDRILFEITAGALGKAP 2gd7-a1-m1-cA_2gd7-a1-m1-cB The Structure of the Cyclin T-binding domain of Hexim1 reveals the molecular basis for regulation of transcription elongation O94992 O94992 NOT SOLUTION NMR 175 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 GAMAGDGSEFLQRDFSETYERYHTESLQNMSKQELIKEYLELEKCLSRMEDENNRLRLESKRLGGDDARVRELELELDRLRAENLQLLTENELHRQQERAPLSKFGD GAMAGDGSEFLQRDFSETYERYHTESLQNMSKQELIKEYLELEKCLSRMEDENNRLRLESKRLGGDDARVRELELELDRLRAENLQLLTENELHRQQERAPLSKFGD 2gd9-a1-m1-cB_2gd9-a1-m1-cA Crystal structure of a putative dihydrofolate reductase (bsu40760, yyap) from bacillus subtilis at 2.30 A resolution P37508 P37508 2.3 X-RAY DIFFRACTION 78 0.982 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 167 173 GTNNLKQRRIILDLAVTLDGFIEGKNGEVDWCIDPDGFTDFLNQIDTILYGRKSFDLWGQYIEKELWKLVHSKKKYVFSRIFINDNILEEVNKLKKNPGKDIWLYGGASLITTFINLGLVDEFRLSIHPVVLGEGKPLFIDVKQRINLKVNTRTFSSGVVQIVYHWN GTNNLKQRRIILDLAVTLDGFIEGKNGEVDWCIDPDGFTDFLNQIDTILYGRKSFDLWGQYKELWKLVHSKKKYVFSRTQNEIDNQAIFINDNILEEVNKLKKNPGKDIWLYGGASLITTFINLGLVDEFRLSIHPVVLGEGKPLFIDVKQRINLKVNTRTFSSGVVQIVYHW 2gdq-a1-m3-cA_2gdq-a1-m4-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme from Bacillus subtilis at 1.8 A resolution O06741 O06741 1.8 X-RAY DIFFRACTION 57 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 373 373 2gdq-a1-m1-cA_2gdq-a1-m2-cB 2gdq-a1-m1-cA_2gdq-a1-m3-cB 2gdq-a1-m1-cB_2gdq-a1-m2-cA 2gdq-a1-m1-cB_2gdq-a1-m3-cA 2gdq-a1-m2-cA_2gdq-a1-m4-cB 2gdq-a1-m2-cB_2gdq-a1-m4-cA 2gdq-a1-m3-cB_2gdq-a1-m4-cA 2gge-a1-m1-cA_2gge-a1-m1-cD 2gge-a1-m1-cA_2gge-a1-m1-cH 2gge-a1-m1-cB_2gge-a1-m1-cC 2gge-a1-m1-cB_2gge-a1-m1-cG 2gge-a1-m1-cE_2gge-a1-m1-cD 2gge-a1-m1-cE_2gge-a1-m1-cH 2gge-a1-m1-cF_2gge-a1-m1-cC 2gge-a1-m1-cF_2gge-a1-m1-cG LVKIVRIETFPLFHRLEKPYGDANGFKRYRTCYLIRIITESGIDGWGECVDWLPALHVGFTKRIIPFLLGKQAGSRLSLVRTIQKWHQRAASAVSMALTEIAAKAADCSVCELWGGRYREEIPVYASFQSYSDSPQWISRSVSNVEAQLKKGFEQIKVKIGGTSFKEDVRHINALQHTAGSSITMILDANQSYDAAAAFKWERYFSEWTNIGWLEEPLPFDQPQDYAMLRSRLSVPVAGGENMKGPAQYVPLLSQRCLDIIQPDVMHVNGIDEFRDCLQLARYFGVRASAHAYDGSLSRLYALFAQACLPPWSKMKNDHIEPIEWDVMENPFTDLVSLQPSKGMVHIPKGKGIGTEINMEIVNRYKWDGSAYE LVKIVRIETFPLFHRLEKPYGDANGFKRYRTCYLIRIITESGIDGWGECVDWLPALHVGFTKRIIPFLLGKQAGSRLSLVRTIQKWHQRAASAVSMALTEIAAKAADCSVCELWGGRYREEIPVYASFQSYSDSPQWISRSVSNVEAQLKKGFEQIKVKIGGTSFKEDVRHINALQHTAGSSITMILDANQSYDAAAAFKWERYFSEWTNIGWLEEPLPFDQPQDYAMLRSRLSVPVAGGENMKGPAQYVPLLSQRCLDIIQPDVMHVNGIDEFRDCLQLARYFGVRASAHAYDGSLSRLYALFAQACLPPWSKMKNDHIEPIEWDVMENPFTDLVSLQPSKGMVHIPKGKGIGTEINMEIVNRYKWDGSAYE 2gdq-a1-m3-cB_2gdq-a1-m4-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme from Bacillus subtilis at 1.8 A resolution O06741 O06741 1.8 X-RAY DIFFRACTION 40 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 373 373 2gdq-a1-m1-cA_2gdq-a1-m3-cA 2gdq-a1-m1-cB_2gdq-a1-m2-cB 2gdq-a1-m2-cA_2gdq-a1-m4-cA 2gge-a1-m1-cA_2gge-a1-m1-cG 2gge-a1-m1-cB_2gge-a1-m1-cD 2gge-a1-m1-cE_2gge-a1-m1-cC 2gge-a1-m1-cF_2gge-a1-m1-cH LVKIVRIETFPLFHRLEKPYGDANGFKRYRTCYLIRIITESGIDGWGECVDWLPALHVGFTKRIIPFLLGKQAGSRLSLVRTIQKWHQRAASAVSMALTEIAAKAADCSVCELWGGRYREEIPVYASFQSYSDSPQWISRSVSNVEAQLKKGFEQIKVKIGGTSFKEDVRHINALQHTAGSSITMILDANQSYDAAAAFKWERYFSEWTNIGWLEEPLPFDQPQDYAMLRSRLSVPVAGGENMKGPAQYVPLLSQRCLDIIQPDVMHVNGIDEFRDCLQLARYFGVRASAHAYDGSLSRLYALFAQACLPPWSKMKNDHIEPIEWDVMENPFTDLVSLQPSKGMVHIPKGKGIGTEINMEIVNRYKWDGSAYE LVKIVRIETFPLFHRLEKPYGDANGFKRYRTCYLIRIITESGIDGWGECVDWLPALHVGFTKRIIPFLLGKQAGSRLSLVRTIQKWHQRAASAVSMALTEIAAKAADCSVCELWGGRYREEIPVYASFQSYSDSPQWISRSVSNVEAQLKKGFEQIKVKIGGTSFKEDVRHINALQHTAGSSITMILDANQSYDAAAAFKWERYFSEWTNIGWLEEPLPFDQPQDYAMLRSRLSVPVAGGENMKGPAQYVPLLSQRCLDIIQPDVMHVNGIDEFRDCLQLARYFGVRASAHAYDGSLSRLYALFAQACLPPWSKMKNDHIEPIEWDVMENPFTDLVSLQPSKGMVHIPKGKGIGTEINMEIVNRYKWDGSAYE 2gdq-a1-m4-cA_2gdq-a1-m4-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme from Bacillus subtilis at 1.8 A resolution O06741 O06741 1.8 X-RAY DIFFRACTION 83 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 373 373 2gdq-a1-m1-cA_2gdq-a1-m1-cB 2gdq-a1-m2-cA_2gdq-a1-m2-cB 2gdq-a1-m3-cA_2gdq-a1-m3-cB 2gge-a1-m1-cA_2gge-a1-m1-cB 2gge-a1-m1-cC_2gge-a1-m1-cD 2gge-a1-m1-cE_2gge-a1-m1-cF 2gge-a1-m1-cG_2gge-a1-m1-cH LVKIVRIETFPLFHRLEKPYGDANGFKRYRTCYLIRIITESGIDGWGECVDWLPALHVGFTKRIIPFLLGKQAGSRLSLVRTIQKWHQRAASAVSMALTEIAAKAADCSVCELWGGRYREEIPVYASFQSYSDSPQWISRSVSNVEAQLKKGFEQIKVKIGGTSFKEDVRHINALQHTAGSSITMILDANQSYDAAAAFKWERYFSEWTNIGWLEEPLPFDQPQDYAMLRSRLSVPVAGGENMKGPAQYVPLLSQRCLDIIQPDVMHVNGIDEFRDCLQLARYFGVRASAHAYDGSLSRLYALFAQACLPPWSKMKNDHIEPIEWDVMENPFTDLVSLQPSKGMVHIPKGKGIGTEINMEIVNRYKWDGSAYE LVKIVRIETFPLFHRLEKPYGDANGFKRYRTCYLIRIITESGIDGWGECVDWLPALHVGFTKRIIPFLLGKQAGSRLSLVRTIQKWHQRAASAVSMALTEIAAKAADCSVCELWGGRYREEIPVYASFQSYSDSPQWISRSVSNVEAQLKKGFEQIKVKIGGTSFKEDVRHINALQHTAGSSITMILDANQSYDAAAAFKWERYFSEWTNIGWLEEPLPFDQPQDYAMLRSRLSVPVAGGENMKGPAQYVPLLSQRCLDIIQPDVMHVNGIDEFRDCLQLARYFGVRASAHAYDGSLSRLYALFAQACLPPWSKMKNDHIEPIEWDVMENPFTDLVSLQPSKGMVHIPKGKGIGTEINMEIVNRYKWDGSAYE 2gdr-a3-m1-cF_2gdr-a3-m1-cE Crystal structure of a bacterial glutathione transferase Q59721 Q59721 2.1 X-RAY DIFFRACTION 99 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 201 202 2dsa-a1-m1-cA_2dsa-a1-m1-cB 2dsa-a2-m1-cC_2dsa-a2-m1-cD 2gdr-a1-m1-cB_2gdr-a1-m1-cA 2gdr-a2-m1-cD_2gdr-a2-m1-cC MKLYYSPGACSLSPHIALREAGLNFELVQVDLASKKTASGQDYLEVNPAGYVPCLQLDDGRTLTEGPAIVQYVADQVPGKQLAPANGSFERYHLQQWLNFISSELHKSFSPLFNPASSDEWKNAVRQSLNTRLGQVARQLEHAPYLLGDQLSVADIYLFVVLGWSAYVNIDLSPWPSLQAFQGRVGGREAVQSALRAEGLI MKLYYSPGACSLSPHIALREAGLNFELVQVDLASKKTASGQDYLEVNPAGYVPCLQLDDGRTLTEGPAIVQYVADQVPGKQLAPANGSFERYHLQQWLNFISSELHKSFSPLFNPASSDEWKNAVRQSLNTRLGQVARQLEHAPYLLGDQLSVADIYLFVVLGWSAYVNIDLSPWPSLQAFQGRVGGREAVQSALRAEGLIK 2gdz-a1-m1-cA_2gdz-a1-m2-cA Crystal structure of 15-hydroxyprostaglandin dehydrogenase type1, complexed with NAD+ P15428 P15428 1.65 X-RAY DIFFRACTION 144 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 266 8cvn-a1-m1-cA_8cvn-a1-m1-cB 8cwl-a1-m1-cA_8cwl-a1-m1-cB AHMVNGKVALVTGAAQGIGRAFAEALLLKGAKVALVDWNLEAGVQCKAALHEQFEPQKTLFIQCDVADQQQLRDTFRKVVDHFGRLDILVNNAGVNNEKNWEKTLQINLVSVISGTYLGLDYMSKQNGGEGGIIINMSSLAGLMPVAQQPVYCASKHGIVGFTRSAALAANLMNSGVRLNAICPGFVNTAILESIEKEENMGQYIEYKDHIKDMIKYYGILDPPLIANGLITLIEDDALNGAIMKITTSKGIHFQDYGSKENLYFQ AHMVNGKVALVTGAAQGIGRAFAEALLLKGAKVALVDWNLEAGVQCKAALHEQFEPQKTLFIQCDVADQQQLRDTFRKVVDHFGRLDILVNNAGVNNEKNWEKTLQINLVSVISGTYLGLDYMSKQNGGEGGIIINMSSLAGLMPVAQQPVYCASKHGIVGFTRSAALAANLMNSGVRLNAICPGFVNTAILESIEKEENMGQYIEYKDHIKDMIKYYGILDPPLIANGLITLIEDDALNGAIMKITTSKGIHFQDYGSKENLYFQ 2ge3-a2-m1-cC_2ge3-a2-m1-cD Crystal structure of Probable acetyltransferase from Agrobacterium tumefaciens A9CI25 A9CI25 2.25 X-RAY DIFFRACTION 82 0.994 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 160 160 2ge3-a1-m1-cB_2ge3-a1-m1-cA DTVTIKPIRAEHVESFHRALDAVSRERKYLSFLEAPPLEAVRAFVLDIENDHPQFVAIADGDVIGWCDIRRQDRATRAHCGTLGGILPAYRNKGLGARLRRTLDAAHEFGLHRIELSVHADNARAIALYEKIGFAHEGRARDAVSIDGHYIDSLNAIIFG TVTIKPIRAEHVESFHRALDAVSRERKYLSFLEAPPLEAVRAFVLDIENDHPQFVAIADGDVIGWCDIRRQDRATRAHCGTLGGILPAYRNKGLGARLRRTLDAAHEFGLHRIELSVHADNARAIALYEKIGFAHEGRARDAVSIDGHYIDSLNAIIFGN 2ge7-a1-m1-cA_2ge7-a1-m1-cB Structure of the C-terminal dimerization domain of infectious bronchitis virus nucleocapsid protein P32923 P32923 2 X-RAY DIFFRACTION 225 1.0 11120 (Infectious bronchitis virus) 11120 (Infectious bronchitis virus) 107 108 2ca1-a1-m1-cB_2ca1-a1-m1-cA 2ge8-a1-m1-cB_2ge8-a1-m1-cA 2ge8-a2-m1-cF_2ge8-a2-m1-cG 2ge8-a3-m1-cC_2ge8-a3-m1-cD 2ge8-a4-m1-cI_2ge8-a4-m1-cJ RYCKRTIPPGYKVDQVFGPRTKGKEGNFGDDKMNEEGIKDGRVTAMLNLVPSSHACLFGSRVTPKLQPDGLHLKFEFTTVVPRDDPQFDNYVKICDQCVDGVGTRPK RYCKRTIPPGYKVDQVFGPRTKGKEGNFGDDKMNEEGIKDGRVTAMLNLVPSSHACLFGSRVTPKLQPDGLHLKFEFTTVVPRDDPQFDNYVKICDQCVDGVGTRPKD 2geb-a1-m1-cA_2geb-a1-m4-cA Crystal structure of the Thermoanaerobacter tengcongensis hypoxanthine-guanine phosphoribosyltransferase L160I mutant: insights into the inhibitor design Q8R7L0 Q8R7L0 1.7 X-RAY DIFFRACTION 40 1.0 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 184 184 1r3u-a1-m1-cB_1r3u-a1-m1-cA 1r3u-a1-m2-cB_1r3u-a1-m2-cA 1yfz-a1-m1-cB_1yfz-a1-m1-cA 1yfz-a1-m2-cB_1yfz-a1-m2-cA 2geb-a1-m2-cA_2geb-a1-m3-cA RGSHMPSPMEDIEEILITEEQLKAKVKELGEMITRDYEGKDLVLIGVLKGAIMFMSGLSRAIDLPLSIDFLAVSSYGSSTKSSGIVKIIKDHDIDIEGKDVLIVEDIIDSGLTLAYLRETLLGRKPRSLKICTILDKPERREADVKVDYCGFKIPDKFVVGYGIDYAEKYRNLPFIGVLKPELY RGSHMPSPMEDIEEILITEEQLKAKVKELGEMITRDYEGKDLVLIGVLKGAIMFMSGLSRAIDLPLSIDFLAVSSYGSSTKSSGIVKIIKDHDIDIEGKDVLIVEDIIDSGLTLAYLRETLLGRKPRSLKICTILDKPERREADVKVDYCGFKIPDKFVVGYGIDYAEKYRNLPFIGVLKPELY 2gec-a1-m1-cA_2gec-a1-m1-cB Structure of the N-terminal domain of avian infectious bronchitis virus nucleocapsid protein (strain Gray) in a novel dimeric arrangement P32923 P32923 1.3 X-RAY DIFFRACTION 64 1.0 11120 (Infectious bronchitis virus) 11120 (Infectious bronchitis virus) 138 139 RPPKVGSSGNASWFQAIKAKKLNSPQPKFEGSGVPDNENLKTSQQHGYWRRQARFKPGKGRRKPVPDAWYFYYTGTGPAADLNWGDSQDGIVWVAAKGADVKSRSNQGTRDPDKFDQYPLRFSDGGPDGNFRWDFIPL PRPPKVGSSGNASWFQAIKAKKLNSPQPKFEGSGVPDNENLKTSQQHGYWRRQARFKPGKGRRKPVPDAWYFYYTGTGPAADLNWGDSQDGIVWVAAKGADVKSRSNQGTRDPDKFDQYPLRFSDGGPDGNFRWDFIPL 2ged-a1-m1-cB_2ged-a1-m1-cA Signal Recognition Particle Receptor Beta-Subunit in nucleotide-free dimerized form P36057 P36057 2.2 X-RAY DIFFRACTION 109 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 163 170 FKFANLEASVVAFEGSINKRKISQWREWIDEKLYQPSIIIAGPQNSGKTSLLTLLTADYDGSGVTLVDFPGHVKLRYKLSDYLKTRAKFVKGLIFMVDSTVDPKKLTTTAEFLVDILSITESSCENGIDILIACNKSELFTARPPSKIKDALESEIQKVIERR DGFKFANLEASVVAFEGSINKRKISQWREWIDEKLSYQPSIIIAGPQNSGKTSLLTLLTTDSVRDYDGSGVTLVDFPGHVKLRYKLSDYLKTRAKFVKGLIFMVDSTVDPKKLTTTAEFLVDILSITESSCENGIDILIACNKSELFTARPPSKIKDALESEIQKVIERR 2gef-a3-m10-cA_2gef-a3-m9-cA Crystal structure of a Novel viral protease with a serine/lysine catalytic dyad mechanism Q8AZM0 Q8AZM0 2.2 X-RAY DIFFRACTION 40 1.0 311176 (Blotched snakehead virus) 311176 (Blotched snakehead virus) 194 194 2gef-a3-m11-cA_2gef-a3-m12-cA 2gef-a3-m1-cA_2gef-a3-m2-cA 2gef-a3-m3-cA_2gef-a3-m4-cA 2gef-a3-m5-cA_2gef-a3-m6-cA 2gef-a3-m7-cA_2gef-a3-m8-cA DLPISLLQTLAYKQPLGRNSRIVHFTDGALFPVVAFGDNHSTSELYIAVRGDHRDLSPDVRDSYALTGDDHKVWGATHKFNVKTRTDLTILPVADVFWRADGSADVDVVWNDPAVAGQSSSIALALASSLPFVPKAAYTGCLSGTNVQPVQFGNLKARAAHKIGLPLVGTQDGGEDTRICTLDDAADHAFDSES DLPISLLQTLAYKQPLGRNSRIVHFTDGALFPVVAFGDNHSTSELYIAVRGDHRDLSPDVRDSYALTGDDHKVWGATHKFNVKTRTDLTILPVADVFWRADGSADVDVVWNDPAVAGQSSSIALALASSLPFVPKAAYTGCLSGTNVQPVQFGNLKARAAHKIGLPLVGTQDGGEDTRICTLDDAADHAFDSES 2gef-a4-m1-cA_2gef-a4-m9-cB Crystal structure of a Novel viral protease with a serine/lysine catalytic dyad mechanism Q8AZM0 Q8AZM0 2.2 X-RAY DIFFRACTION 28 1.0 311176 (Blotched snakehead virus) 311176 (Blotched snakehead virus) 194 199 2gef-a3-m10-cA_2gef-a3-m8-cB 2gef-a3-m11-cA_2gef-a3-m6-cB 2gef-a3-m12-cA_2gef-a3-m7-cB 2gef-a3-m1-cA_2gef-a3-m9-cB 2gef-a3-m2-cA_2gef-a3-m12-cB 2gef-a3-m3-cA_2gef-a3-m10-cB 2gef-a3-m4-cA_2gef-a3-m11-cB 2gef-a3-m5-cA_2gef-a3-m1-cB 2gef-a3-m6-cA_2gef-a3-m4-cB 2gef-a3-m7-cA_2gef-a3-m2-cB 2gef-a3-m8-cA_2gef-a3-m3-cB 2gef-a3-m9-cA_2gef-a3-m5-cB 2gef-a4-m5-cA_2gef-a4-m1-cB 2gef-a4-m9-cA_2gef-a4-m5-cB DLPISLLQTLAYKQPLGRNSRIVHFTDGALFPVVAFGDNHSTSELYIAVRGDHRDLSPDVRDSYALTGDDHKVWGATHKFNVKTRTDLTILPVADVFWRADGSADVDVVWNDPAVAGQSSSIALALASSLPFVPKAAYTGCLSGTNVQPVQFGNLKARAAHKIGLPLVGTQDGGEDTRICTLDDAADHAFDSES DLPISLLQTLAYKQPLGRNSRIVHFTDGALFPVVAFGDNHSTSELYIAVRGDHRDLSPDVRDSYALTGDDHKVWGATHLKFNVKTRTDLTILPVADVFWRADGSADVDVVWNDPAVAGQSSSIALALASSLPFVPKAAYTGCLSGTNVQPVQFGNLKARAAHKIGLPLVGTQDGGEDTRICTLDDAADHAFDSESTVTR 2gef-a5-m1-cA_2gef-a5-m1-cB Crystal structure of a Novel viral protease with a serine/lysine catalytic dyad mechanism Q8AZM0 Q8AZM0 2.2 X-RAY DIFFRACTION 111 1.0 311176 (Blotched snakehead virus) 311176 (Blotched snakehead virus) 194 199 2gef-a3-m10-cA_2gef-a3-m10-cB 2gef-a3-m11-cA_2gef-a3-m11-cB 2gef-a3-m12-cA_2gef-a3-m12-cB 2gef-a3-m1-cA_2gef-a3-m1-cB 2gef-a3-m2-cA_2gef-a3-m2-cB 2gef-a3-m3-cA_2gef-a3-m3-cB 2gef-a3-m4-cA_2gef-a3-m4-cB 2gef-a3-m5-cA_2gef-a3-m5-cB 2gef-a3-m6-cA_2gef-a3-m6-cB 2gef-a3-m7-cA_2gef-a3-m7-cB 2gef-a3-m8-cA_2gef-a3-m8-cB 2gef-a3-m9-cA_2gef-a3-m9-cB 2gef-a4-m1-cA_2gef-a4-m1-cB 2gef-a4-m5-cA_2gef-a4-m5-cB 2gef-a4-m9-cA_2gef-a4-m9-cB DLPISLLQTLAYKQPLGRNSRIVHFTDGALFPVVAFGDNHSTSELYIAVRGDHRDLSPDVRDSYALTGDDHKVWGATHKFNVKTRTDLTILPVADVFWRADGSADVDVVWNDPAVAGQSSSIALALASSLPFVPKAAYTGCLSGTNVQPVQFGNLKARAAHKIGLPLVGTQDGGEDTRICTLDDAADHAFDSES DLPISLLQTLAYKQPLGRNSRIVHFTDGALFPVVAFGDNHSTSELYIAVRGDHRDLSPDVRDSYALTGDDHKVWGATHLKFNVKTRTDLTILPVADVFWRADGSADVDVVWNDPAVAGQSSSIALALASSLPFVPKAAYTGCLSGTNVQPVQFGNLKARAAHKIGLPLVGTQDGGEDTRICTLDDAADHAFDSESTVTR 2gel-a2-m1-cG_2gel-a2-m3-cG 2.05A crystal structure of Salmonella typhimurium YeaZ, form B Q7CQE0 Q7CQE0 2.05 X-RAY DIFFRACTION 80 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 218 218 2gel-a1-m1-cA_2gel-a1-m2-cA 2gem-a1-m1-cA_2gem-a1-m2-cA 2gem-a2-m1-cB_2gem-a2-m3-cB MRILAIDTATEACSVALWNNGTINAHFELCPREHTQRILPMVQEILAASGASLNEIDALAFGRGPGSFTGVRIGIGIAQGLALGANLPMIGVSTLATMAQGAWRKTGATRVLAAIDARMGEVYWAEYQRDAQGVWQGEETEAVLKPERVGERLKQLSGEWATVGTGWSAWPDLAKECGLTLHDGEVSLPAAEDMLPIASQKLAAGETVAVEHAEPVYL MRILAIDTATEACSVALWNNGTINAHFELCPREHTQRILPMVQEILAASGASLNEIDALAFGRGPGSFTGVRIGIGIAQGLALGANLPMIGVSTLATMAQGAWRKTGATRVLAAIDARMGEVYWAEYQRDAQGVWQGEETEAVLKPERVGERLKQLSGEWATVGTGWSAWPDLAKECGLTLHDGEVSLPAAEDMLPIASQKLAAGETVAVEHAEPVYL 2gen-a1-m1-cA_2gen-a1-m2-cA Structural Genomics, the crystal structure of a probable transcriptional regulator from Pseudomonas aeruginosa PAO1 Q9I2Q9 Q9I2Q9 1.7 X-RAY DIFFRACTION 82 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 186 186 RKDEILQAALACFSEHGVDATTIEIRDRSGASIGSLYHHFGNKERIHGELYLAGIGQYAALLEAGFARARSAEETVRLLVTSYIDWVVANPDWARFILHSRGRVEAGELGERLRADNQAHFARIHAALAGYRAEGLFREPDDCFASVVIGPAHDLARQWLAGRTRVALADCRELLAQVAWDSVRAA RKDEILQAALACFSEHGVDATTIEIRDRSGASIGSLYHHFGNKERIHGELYLAGIGQYAALLEAGFARARSAEETVRLLVTSYIDWVVANPDWARFILHSRGRVEAGELGERLRADNQAHFARIHAALAGYRAEGLFREPDDCFASVVIGPAHDLARQWLAGRTRVALADCRELLAQVAWDSVRAA 2gex-a1-m1-cB_2gex-a1-m1-cA Crystal structure of SnoaL2 a putative hydroxylase from Streptomyces nogalater Q9RN64 Q9RN64 2.5 X-RAY DIFFRACTION 62 1.0 38314 (Streptomyces nogalater) 38314 (Streptomyces nogalater) 129 142 STTANKERCLEVAAWNRWDVSGVVAHWAPDVVHYDDEDKPVSAEEVVRRNSAVEAFPDLRLDVRSIVGEGDRVLRITCSATHQGVFGIAPTGRKVRWTYLEELRFSEAGKVVEHWDVFNFSPLFRDLGV STTANKERCLEVAAWNRWDVSGVVAHWAPDVVHYDDEDKPVSAEEVVRRNSAVEAFPDLRLDVRSIVGEGDRVLRITCSATHQGVFGIAPTGRKVRWTYLEELRFSEAGKVVEHWDVFNFSPLFRDLGVVPDGLKLAAALEH 2gey-a3-m2-cD_2gey-a3-m1-cA Crystal Structure of AclR a putative hydroxylase from Streptomyces galilaeus Q1XDX7 Q1XDX7 1.8 X-RAY DIFFRACTION 13 1.0 33899 (Streptomyces galilaeus) 33899 (Streptomyces galilaeus) 132 157 SMAERKALCLEMVAAWNRWDLSGIIKHWSPDIVHYSEDNEVSSADMVKLMEGGLKAFPDLQLEVKSIMAEEDRVALRITVTATHQGEFMGVQPTGQRVSWHLVEELRFVDGKVVEHWDVINRPLLVRLGKLP SMAERKALCLEMVAAWNRWDLSGIIKHWSPDIVHYSEDNEVSSADMVKLMEGGLKAFPDLQLEVKSIMAEEDRVALRITVTATHQGEFMGVQPTGQRVSWHLVEELRFVDGKVVEHWDVINMRPLLVRLGKLPDVPKVVLEASAKLAAALEHHHHHH 2gey-a3-m2-cD_2gey-a3-m2-cC Crystal Structure of AclR a putative hydroxylase from Streptomyces galilaeus Q1XDX7 Q1XDX7 1.8 X-RAY DIFFRACTION 81 1.0 33899 (Streptomyces galilaeus) 33899 (Streptomyces galilaeus) 132 150 2gey-a1-m1-cB_2gey-a1-m1-cA 2gey-a2-m1-cD_2gey-a2-m1-cC 2gey-a3-m1-cB_2gey-a3-m1-cA SMAERKALCLEMVAAWNRWDLSGIIKHWSPDIVHYSEDNEVSSADMVKLMEGGLKAFPDLQLEVKSIMAEEDRVALRITVTATHQGEFMGVQPTGQRVSWHLVEELRFVDGKVVEHWDVINRPLLVRLGKLP SMAERKALCLEMVAAWNRWDLSGIIKHWSPDIVHYSEDNEVSSADMVKLMEGGLKAFPDLQLEVKSIMAEEDRVALRITVTATHQGEFMGVQPTGQRVSWHLVEELRFVDGKVVEHWDVINMRPLLVRLGKLPDVPKVVLEASAKLAAAL 2gez-a2-m1-cF_2gez-a2-m1-cH Crystal structure of potassium-independent plant asparaginase Q9ZSD6 Q9ZSD6 2.6 X-RAY DIFFRACTION 38 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 133 133 2gez-a1-m1-cB_2gez-a1-m1-cD TVGCVAVDSHGNLASATSTGGLVNKMVGRIGDTPLIGAGTYANELCAVSATGKGEEIIRATVARDVAALMEFKGLSLKEAADFVIHERTPKGTVGLIAVSAAGEIAMPFNTTGMFRACATEDGYSEIAIWPTT TVGCVAVDSHGNLASATSTGGLVNKMVGRIGDTPLIGAGTYANELCAVSATGKGEEIIRATVARDVAALMEFKGLSLKEAADFVIHERTPKGTVGLIAVSAAGEIAMPFNTTGMFRACATEDGYSEIAIWPTT 2gez-a2-m1-cG_2gez-a2-m1-cE Crystal structure of potassium-independent plant asparaginase Q9ZSD6 Q9ZSD6 2.6 X-RAY DIFFRACTION 12 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 158 165 2gez-a1-m1-cA_2gez-a1-m1-cC GGWSIALHGGAGDIPFSLPPERRKPREEGLRHCLQIGVEALKAQKPPLDVVELVVRELENIEHFNAGIGSVLTNSGTVEMEASIMDGNTMKCGAVSGLSTVLNPISLARLVMDKTPHIYLAFQGAQDFAKQQGVETVDSSHLITAENVERLKLAIEAN GGWSIALHGGAGDIPFSLPPERRKPREEGLRHCLQIGVEALKAQKPPLDVVELVVRELENIEHFNAGIGSVLTNSGTVEMEASIMDGNTMKCGAVSGLSTVLNPISLARLVMDKTPHIYLAFQGAQDFAKQQGVETVDSSHLITAENVERLKLAIEANRVQVDYS 2gf2-a3-m1-cB_2gf2-a3-m1-cA Crystal structure of human hydroxyisobutyrate dehydrogenase P31937 P31937 2.38 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 296 2i9p-a1-m1-cD_2i9p-a1-m1-cB MPVGFIGLGNMGNPMAKNLMKHGYPLIIYDVFPDACKEFQDAGEQVVSSPADVAEKADRIITMLPTSINAIEAYSGANGILKKVKKGSLLIDSSTIDPAVSKELAKEVEKMGAVFMDAPVSGGVGAARSGNLTFMVGGVEDEFAAAQELLGCMGSNVVYCGAVGTGQAAKICNNMLLAISMIGTAEAMNLGIRLGLDPKLLAKILNMSSGRCWSSDTYNPVPGVMDGVPSANNYQGGFGTTLMAKDLGLAQDSATSTKSPILLGSLAHQIYRMMCAKGYSKKDFSSVFQFLRE MPVGFIGLGNMGNPMAKNLMKHGYPLIIYDVFPDACKEFQDAGEQVVSSPADVAEKADRIITMLPTSINAIEAYSGANGILKKVKKGSLLIDSSTIDPAVSKELAKEVEKMGAVFMDAPVSGGVGAARSGNLTFMVGGVEDEFAAAQELLGCMGSNVVYCGAVGTGQAAKICNNMLLAISMIGTAEAMNLGIRLGLDPKLLAKILNMSSGRCWSSDTYNPVPGVMDGVPSANNYQGGFGTTLMAKDLGLAQDSATSTKSPILLGSLAHQIYRMMCAKGYSKKDFSSVFQFLREEET 2gf2-a3-m1-cD_2gf2-a3-m1-cA Crystal structure of human hydroxyisobutyrate dehydrogenase P31937 P31937 2.38 X-RAY DIFFRACTION 234 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 296 2gf2-a1-m1-cD_2gf2-a1-m1-cA 2gf2-a2-m1-cC_2gf2-a2-m1-cB 2gf2-a3-m1-cC_2gf2-a3-m1-cB 2i9p-a1-m1-cA_2i9p-a1-m1-cB 2i9p-a1-m1-cC_2i9p-a1-m1-cD MPVGFIGLGNMGNPMAKNLMKHGYPLIIYDVFPDACKEFQDAGEQVVSSPADVAEKADRIITMLPTSINAIEAYSGANGILKKVKKGSLLIDSSTIDPAVSKELAKEVEKMGAVFMDAPVSGGVGAARSGNLTFMVGGVEDEFAAAQELLGCMGSNVVYCGAVGTGQAAKICNNMLLAISMIGTAEAMNLGIRLGLDPKLLAKILNMSSGRCWSSDTYNPVPGVMDGVPSANNYQGGFGTTLMAKDLGLAQDSATSTKSPILLGSLAHQIYRMMCAKGYSKKDFSSVFQFLREE MPVGFIGLGNMGNPMAKNLMKHGYPLIIYDVFPDACKEFQDAGEQVVSSPADVAEKADRIITMLPTSINAIEAYSGANGILKKVKKGSLLIDSSTIDPAVSKELAKEVEKMGAVFMDAPVSGGVGAARSGNLTFMVGGVEDEFAAAQELLGCMGSNVVYCGAVGTGQAAKICNNMLLAISMIGTAEAMNLGIRLGLDPKLLAKILNMSSGRCWSSDTYNPVPGVMDGVPSANNYQGGFGTTLMAKDLGLAQDSATSTKSPILLGSLAHQIYRMMCAKGYSKKDFSSVFQFLREEET 2gf4-a1-m1-cB_2gf4-a1-m2-cB Crystal structure of Vng1086c from Halobacterium salinarium (Halobacterium halobium). Northeast Structural Genomics Target HsR14 Q9HQM9 Q9HQM9 2.07 X-RAY DIFFRACTION 64 1.0 64091 (Halobacterium salinarum NRC-1) 64091 (Halobacterium salinarum NRC-1) 72 72 2gf4-a1-m1-cA_2gf4-a1-m2-cA HKDELLELHEQVNIKDQFLGFDHVDETAFAAYEELDVEPSHVHKSKSEHKHAVFLLGNALAAASEDEFSSAG HKDELLELHEQVNIKDQFLGFDHVDETAFAAYEELDVEPSHVHKSKSEHKHAVFLLGNALAAASEDEFSSAG 2gf4-a1-m2-cB_2gf4-a1-m1-cA Crystal structure of Vng1086c from Halobacterium salinarium (Halobacterium halobium). Northeast Structural Genomics Target HsR14 Q9HQM9 Q9HQM9 2.07 X-RAY DIFFRACTION 16 1.0 64091 (Halobacterium salinarum NRC-1) 64091 (Halobacterium salinarum NRC-1) 72 85 2gf4-a1-m1-cB_2gf4-a1-m2-cA HKDELLELHEQVNIKDQFLGFDHVDETAFAAYEELDVEPSHVHKSKSEHKHAVFLLGNALAAASEDEFSSAG HKDELLELHEQVNIKDQFLGFDHVDETAFAAYEELDVEPSHVHKSKSEHKHAVFLLGNALAAASEDEFSSAGRISKREELADDAS 2gf4-a1-m2-cB_2gf4-a1-m2-cA Crystal structure of Vng1086c from Halobacterium salinarium (Halobacterium halobium). Northeast Structural Genomics Target HsR14 Q9HQM9 Q9HQM9 2.07 X-RAY DIFFRACTION 31 1.0 64091 (Halobacterium salinarum NRC-1) 64091 (Halobacterium salinarum NRC-1) 72 85 2gf4-a1-m1-cB_2gf4-a1-m1-cA HKDELLELHEQVNIKDQFLGFDHVDETAFAAYEELDVEPSHVHKSKSEHKHAVFLLGNALAAASEDEFSSAG HKDELLELHEQVNIKDQFLGFDHVDETAFAAYEELDVEPSHVHKSKSEHKHAVFLLGNALAAASEDEFSSAGRISKREELADDAS 2gf6-a1-m2-cA_2gf6-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (SSO2295) FROM SULFOLOBUS SOLFATARICUS AT 1.91 A RESOLUTION Q97WD2 Q97WD2 1.91 X-RAY DIFFRACTION 53 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 131 131 2gf6-a1-m1-cA_2gf6-a1-m1-cB 2gf6-a2-m1-cC_2gf6-a2-m3-cC 2gf6-a2-m1-cD_2gf6-a2-m3-cD ENIEYVFEDVVRIYDTDAQGIAHYAAYYRFFTNTIEKFIKEKVGIPYPIVNENLWFVIAESHAIYHRPVKLGDKLTVLLNPKILSNKTIKFEFKVLKDGELTTEGYVIQIAINPKIWKSTEPKEIDKLSIK ENIEYVFEDVVRIYDTDAQGIAHYAAYYRFFTNTIEKFIKEKVGIPYPIVNENLWFVIAESHAIYHRPVKLGDKLTVLLNPKILSNKTIKFEFKVLKDGELTTEGYVIQIAINPKIWKSTEPKEIDKLSIK 2gf6-a2-m3-cD_2gf6-a2-m1-cC CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (SSO2295) FROM SULFOLOBUS SOLFATARICUS AT 1.91 A RESOLUTION Q97WD2 Q97WD2 1.91 X-RAY DIFFRACTION 30 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 121 123 2gf6-a1-m1-cA_2gf6-a1-m2-cA 2gf6-a1-m1-cB_2gf6-a1-m2-cB 2gf6-a2-m1-cD_2gf6-a2-m3-cC YVFEDVVRIYDTDAQGIAHYAAYYRFFTNTIEKFIKEKVGIPYPIVNENLWFVIAESHAIYHRPVKLGDKLTVLLNPKILSNKTIKFEFKVLKDGELTTEGYVIQIAINPKIWKSTEPKEI YVFEDVVRIYDTDAQGIAHYAAYYRFFTNTIEKFIKEKVGIPYPIVNENLWFVIAESHAIYHRPVKLGDKLTVLLNPKILSNKTIKFEFKVLKDGELTTEGYVIQIAINPKIWKSTEPKEIDK 2gf6-a2-m3-cD_2gf6-a2-m3-cC CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (SSO2295) FROM SULFOLOBUS SOLFATARICUS AT 1.91 A RESOLUTION Q97WD2 Q97WD2 1.91 X-RAY DIFFRACTION 29 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 121 123 2gf6-a1-m1-cA_2gf6-a1-m2-cB 2gf6-a1-m1-cB_2gf6-a1-m2-cA 2gf6-a2-m1-cD_2gf6-a2-m1-cC YVFEDVVRIYDTDAQGIAHYAAYYRFFTNTIEKFIKEKVGIPYPIVNENLWFVIAESHAIYHRPVKLGDKLTVLLNPKILSNKTIKFEFKVLKDGELTTEGYVIQIAINPKIWKSTEPKEI YVFEDVVRIYDTDAQGIAHYAAYYRFFTNTIEKFIKEKVGIPYPIVNENLWFVIAESHAIYHRPVKLGDKLTVLLNPKILSNKTIKFEFKVLKDGELTTEGYVIQIAINPKIWKSTEPKEIDK 2gff-a1-m1-cA_2gff-a1-m1-cB Crystal Structure of Yersinia pestis LsrG Q7CG46 Q7CG46 1.75 X-RAY DIFFRACTION 60 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 94 97 HVTLVEINVKEDKVDQFIEVFRANHLGSIREAGNLRFDVLRDEHIPTRFYIYEAYTDEAAVAIHKTTPHYLQCVEQLAPLTGPRKKTVFIGLPG HVTLVEINVKEDKVDQFIEVFRANHLGSIREAGNLRFDVLRDEHIPTRFYIYEAYTDEAAVAIHKTTPHYLQCVEQLAPLTGPRKKTVFIGLPGSLE 2gfh-a2-m1-cA_2gfh-a2-m2-cA Crystal structure of a n-acetylneuraminic acid phosphatase (nanp) from mus musculus at 1.90 A resolution Q9CPT3 Q9CPT3 1.9 X-RAY DIFFRACTION 70 1.0 10090 (Mus musculus) 10090 (Mus musculus) 246 246 2w4m-a1-m1-cA_2w4m-a1-m2-cA HHHMGLSRVRAVFFDLDNTLIDTAGASRRGMLEVIKLLQSKYHYKEEAEIICDKVQVKLSKECFHCITDVRTSHWEEAIQETKGGADNRKLAEECYFLWKSTRLQHMILADDVKAMLTELRKEVRLLLLTNGDRQTQREKIEACACQSYFDAIVIGGEQKEEKPAPSIFYHCCDLLGVQPGDCVMVGDTLETDIQGGLNAGLKATVWINKSGRVPLTSSPMPHYMVSSVLELPALLQSIDCKVSMS HHHMGLSRVRAVFFDLDNTLIDTAGASRRGMLEVIKLLQSKYHYKEEAEIICDKVQVKLSKECFHCITDVRTSHWEEAIQETKGGADNRKLAEECYFLWKSTRLQHMILADDVKAMLTELRKEVRLLLLTNGDRQTQREKIEACACQSYFDAIVIGGEQKEEKPAPSIFYHCCDLLGVQPGDCVMVGDTLETDIQGGLNAGLKATVWINKSGRVPLTSSPMPHYMVSSVLELPALLQSIDCKVSMS 2gfi-a1-m1-cA_2gfi-a1-m2-cB Crystal structure of the phytase from D. castellii at 2.3 A A2TBB4 A2TBB4 2.29 X-RAY DIFFRACTION 102 1.0 27295 (Debaryomyces castellii) 27295 (Debaryomyces castellii) 458 458 2gfi-a1-m1-cB_2gfi-a1-m2-cA VSKLINNGLLLVGQGAYQDLASPQQASVEQYNIIRFLGGAAPYIQNKGFGISTDIPDQCTLEQVQLFSRHGERYPSTGSGKKYKAVYEKLMSYNGTFKGELAFLNDDYEYFVPDSVYLEKETSPKNSDSIYAGTTDAMKHGIAFRTKYGELFDTNDTLPVFTSNSGRVYQTSQYFARGFMGDDFSNDTVKTNIISEDADMGANSLTPRDGCFNYNENANTAIVDEYTTEYLTKALNRFKASNPGLNITEDDVSNLFGYCAYELNVKGASPMCDIFTNEEFIQYSYSVDLDDYYSNSAGNNMTRVIGSTLLNASLELLNHDKNENKIWLSFTHDTDIEIFHSAIGILIPDEDLPVDYTPFPSPYSHVGITPQGARTIIEKYACGNESYVRYVINDAVIPIKKCSSGPGFSCNLNDYNDYVAERVAGTNYVEQCGNNNASAVTFYWDYETTNYTASLINS VSKLINNGLLLVGQGAYQDLASPQQASVEQYNIIRFLGGAAPYIQNKGFGISTDIPDQCTLEQVQLFSRHGERYPSTGSGKKYKAVYEKLMSYNGTFKGELAFLNDDYEYFVPDSVYLEKETSPKNSDSIYAGTTDAMKHGIAFRTKYGELFDTNDTLPVFTSNSGRVYQTSQYFARGFMGDDFSNDTVKTNIISEDADMGANSLTPRDGCFNYNENANTAIVDEYTTEYLTKALNRFKASNPGLNITEDDVSNLFGYCAYELNVKGASPMCDIFTNEEFIQYSYSVDLDDYYSNSAGNNMTRVIGSTLLNASLELLNHDKNENKIWLSFTHDTDIEIFHSAIGILIPDEDLPVDYTPFPSPYSHVGITPQGARTIIEKYACGNESYVRYVINDAVIPIKKCSSGPGFSCNLNDYNDYVAERVAGTNYVEQCGNNNASAVTFYWDYETTNYTASLINS 2gfi-a1-m1-cB_2gfi-a1-m2-cB Crystal structure of the phytase from D. castellii at 2.3 A A2TBB4 A2TBB4 2.29 X-RAY DIFFRACTION 95 1.0 27295 (Debaryomyces castellii) 27295 (Debaryomyces castellii) 458 458 2gfi-a1-m1-cA_2gfi-a1-m2-cA VSKLINNGLLLVGQGAYQDLASPQQASVEQYNIIRFLGGAAPYIQNKGFGISTDIPDQCTLEQVQLFSRHGERYPSTGSGKKYKAVYEKLMSYNGTFKGELAFLNDDYEYFVPDSVYLEKETSPKNSDSIYAGTTDAMKHGIAFRTKYGELFDTNDTLPVFTSNSGRVYQTSQYFARGFMGDDFSNDTVKTNIISEDADMGANSLTPRDGCFNYNENANTAIVDEYTTEYLTKALNRFKASNPGLNITEDDVSNLFGYCAYELNVKGASPMCDIFTNEEFIQYSYSVDLDDYYSNSAGNNMTRVIGSTLLNASLELLNHDKNENKIWLSFTHDTDIEIFHSAIGILIPDEDLPVDYTPFPSPYSHVGITPQGARTIIEKYACGNESYVRYVINDAVIPIKKCSSGPGFSCNLNDYNDYVAERVAGTNYVEQCGNNNASAVTFYWDYETTNYTASLINS VSKLINNGLLLVGQGAYQDLASPQQASVEQYNIIRFLGGAAPYIQNKGFGISTDIPDQCTLEQVQLFSRHGERYPSTGSGKKYKAVYEKLMSYNGTFKGELAFLNDDYEYFVPDSVYLEKETSPKNSDSIYAGTTDAMKHGIAFRTKYGELFDTNDTLPVFTSNSGRVYQTSQYFARGFMGDDFSNDTVKTNIISEDADMGANSLTPRDGCFNYNENANTAIVDEYTTEYLTKALNRFKASNPGLNITEDDVSNLFGYCAYELNVKGASPMCDIFTNEEFIQYSYSVDLDDYYSNSAGNNMTRVIGSTLLNASLELLNHDKNENKIWLSFTHDTDIEIFHSAIGILIPDEDLPVDYTPFPSPYSHVGITPQGARTIIEKYACGNESYVRYVINDAVIPIKKCSSGPGFSCNLNDYNDYVAERVAGTNYVEQCGNNNASAVTFYWDYETTNYTASLINS 2gfi-a1-m2-cA_2gfi-a1-m2-cB Crystal structure of the phytase from D. castellii at 2.3 A A2TBB4 A2TBB4 2.29 X-RAY DIFFRACTION 192 1.0 27295 (Debaryomyces castellii) 27295 (Debaryomyces castellii) 458 458 2gfi-a1-m1-cA_2gfi-a1-m1-cB VSKLINNGLLLVGQGAYQDLASPQQASVEQYNIIRFLGGAAPYIQNKGFGISTDIPDQCTLEQVQLFSRHGERYPSTGSGKKYKAVYEKLMSYNGTFKGELAFLNDDYEYFVPDSVYLEKETSPKNSDSIYAGTTDAMKHGIAFRTKYGELFDTNDTLPVFTSNSGRVYQTSQYFARGFMGDDFSNDTVKTNIISEDADMGANSLTPRDGCFNYNENANTAIVDEYTTEYLTKALNRFKASNPGLNITEDDVSNLFGYCAYELNVKGASPMCDIFTNEEFIQYSYSVDLDDYYSNSAGNNMTRVIGSTLLNASLELLNHDKNENKIWLSFTHDTDIEIFHSAIGILIPDEDLPVDYTPFPSPYSHVGITPQGARTIIEKYACGNESYVRYVINDAVIPIKKCSSGPGFSCNLNDYNDYVAERVAGTNYVEQCGNNNASAVTFYWDYETTNYTASLINS VSKLINNGLLLVGQGAYQDLASPQQASVEQYNIIRFLGGAAPYIQNKGFGISTDIPDQCTLEQVQLFSRHGERYPSTGSGKKYKAVYEKLMSYNGTFKGELAFLNDDYEYFVPDSVYLEKETSPKNSDSIYAGTTDAMKHGIAFRTKYGELFDTNDTLPVFTSNSGRVYQTSQYFARGFMGDDFSNDTVKTNIISEDADMGANSLTPRDGCFNYNENANTAIVDEYTTEYLTKALNRFKASNPGLNITEDDVSNLFGYCAYELNVKGASPMCDIFTNEEFIQYSYSVDLDDYYSNSAGNNMTRVIGSTLLNASLELLNHDKNENKIWLSFTHDTDIEIFHSAIGILIPDEDLPVDYTPFPSPYSHVGITPQGARTIIEKYACGNESYVRYVINDAVIPIKKCSSGPGFSCNLNDYNDYVAERVAGTNYVEQCGNNNASAVTFYWDYETTNYTASLINS 2gfn-a1-m1-cA_2gfn-a1-m1-cB Crystal structure of HTH-type transcriptional regulator pksA related protein from Rhodococcus sp. RHA1 Q0S7R9 Q0S7R9 1.9 X-RAY DIFFRACTION 105 0.984 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 190 191 IVDHDERRRALADAVLALIAREGISAVTTRAVAEESGWSTGVLNHYFGSRHELLLAALRRAGDIQGDRYRTILDEEGAGPIEKLRNITASILPLDERRLATRVFLFFYAEGTARGEIAAFLARWRGVVRESVVAAQREGTVSTDLDADAVTVALVALTDGLALQAILDPVVKAISAEDAAARCVDAAVRR HDERRRALADAVLALIAREGISAVTTRAVAEESGWSTGVLNHYFGSRHELLLAALRRAGDIQGDRYRTILDEEGAGPIEKLRNITASILPLDERRLATRVFLFFYAEGAAEETARGEIAAFLARWRGVVRESVVAAQREGTVSTDLDADAVTVALVALTDGLALQAILDPVVKAISAEDAAARCVDAAVRR 2gfq-a1-m1-cB_2gfq-a1-m1-cA Structure of Protein of Unknown Function PH0006 from Pyrococcus horikoshii O57774 O57774 1.75 X-RAY DIFFRACTION 31 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 271 279 YFQGHKVITTKVDKASNINKLIENFGFKETEYVFEGNPVYKRGDVLILTTNDEIYYDYLDREIENQLGFKPEIIAFASRHSSKQKLPALTTHVTGNWGKAYGGKDESFAVAIPSAKLSLLKSELNDLGWTVCYEATHHGPTELEVPSFFIEIGSSEEEWINDRAGEIIAETIIYVLDNYEKGRSKFKVALGIGGGHYAPKQTKRALEGDLAFGHILPKYAQPVSRDVIKALNRFGEKVEAIYVDWKGSRGETRQLAKSLAQELGLEFIKDG HSSGRENLYFQGHKVITTKVDKASNINKLIENFGFKETEYVFEGNPVYKRGDVLILTTNDEIYYDYLDREIENQLGFKPEIIAFASRHSSKQKLPALTTHVTGNWGKAYGGKDESFAVAIPSAKLSLLKSELNDLGWTVCYEATHHGPTELEVPSFFIEIGSSEEEWINDRAGEIIAETIIYVLDNYEKGRSKFKVALGIGGGHYAPKQTKRALEGDLAFGHILPKYAQPVSRDVIKALNRFGEKVEAIYVDWKGSRGETRQLAKSLAQELGLEFIKDG 2gfq-a1-m1-cC_2gfq-a1-m1-cB Structure of Protein of Unknown Function PH0006 from Pyrococcus horikoshii O57774 O57774 1.75 X-RAY DIFFRACTION 44 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 269 271 FQGHKVITTKVDKASNINKLIENFGFKETEYVFEGNPVYKRGDVLILTTNDEIYYDYLDREIENQLGFKPEIIAFASRHSSKQKLPALTTHVTGNWGKAYGGKDESFAVAIPSAKLSLLKSELNDLGWTVCYEATHHGPTELEVPSFFIEIGSSEEEWINDRAGEIIAETIIYVLDNYEKGRSFKVALGIGGGHYAPKQTKRALEGDLAFGHILPKYAQPVSRDVIKALNRFGEKVEAIYVDWKGSRGETRQLAKSLAQELGLEFIKDG YFQGHKVITTKVDKASNINKLIENFGFKETEYVFEGNPVYKRGDVLILTTNDEIYYDYLDREIENQLGFKPEIIAFASRHSSKQKLPALTTHVTGNWGKAYGGKDESFAVAIPSAKLSLLKSELNDLGWTVCYEATHHGPTELEVPSFFIEIGSSEEEWINDRAGEIIAETIIYVLDNYEKGRSKFKVALGIGGGHYAPKQTKRALEGDLAFGHILPKYAQPVSRDVIKALNRFGEKVEAIYVDWKGSRGETRQLAKSLAQELGLEFIKDG 2ggo-a2-m2-cA_2ggo-a2-m3-cA Crystal Structure of glucose-1-phosphate thymidylyltransferase from Sulfolobus tokodaii Q975F9 Q975F9 1.8 X-RAY DIFFRACTION 67 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 401 401 2ggo-a2-m1-cA_2ggo-a2-m2-cA 2ggo-a2-m1-cA_2ggo-a2-m3-cA 2ggq-a2-m1-cA_2ggq-a2-m2-cA 2ggq-a2-m1-cA_2ggq-a2-m3-cA 2ggq-a2-m2-cA_2ggq-a2-m3-cA 5z09-a1-m1-cA_5z09-a1-m4-cB 5z09-a1-m3-cF_5z09-a1-m1-cA 5z09-a1-m3-cF_5z09-a1-m4-cB 5z09-a2-m1-cC_5z09-a2-m5-cD 5z09-a2-m2-cE_5z09-a2-m1-cC 5z09-a2-m2-cE_5z09-a2-m5-cD 5z0a-a1-m1-cA_5z0a-a1-m3-cD 5z0a-a1-m2-cE_5z0a-a1-m1-cA 5z0a-a1-m2-cE_5z0a-a1-m3-cD 5z0a-a2-m1-cF_5z0a-a2-m4-cB 5z0a-a2-m3-cC_5z0a-a2-m1-cF 5z0a-a2-m3-cC_5z0a-a2-m4-cB MKAFILAAGSGERLEPITHTRPKAFVPILSKPLIEYQIEYLRKCGIRDITVIVSSKNKEYFEKKLKEISIVTQKDDIKGTGAAILSAKFNDEALIIYGDLFFSNEKEICNIITLKENAIIGVKVSNPKDYGVLVLDNQNNLSKIIEKPEIPPSNLINAGIYKLNSDIFTYLDKISISERGELELTDAINLMAKDHRVKVIEYEGYWMDIGKPWNIIDVNKWALDNLVFSQNLGNVEDNVKIKGKVIIEEDAEIKSGTYIEGPVYIGKGSEIGPNSYLRPYTILVEKNKIGASVEVKESVIMEGSKIPHLSYVGDSVIAEDVNFGAGTLIANLRFDEKEVKVNVKGKRISSGRRKLGAFIGGHVRTGINVTILPGVKIGAYARIYPGAVVNRDVGYGEFFKV MKAFILAAGSGERLEPITHTRPKAFVPILSKPLIEYQIEYLRKCGIRDITVIVSSKNKEYFEKKLKEISIVTQKDDIKGTGAAILSAKFNDEALIIYGDLFFSNEKEICNIITLKENAIIGVKVSNPKDYGVLVLDNQNNLSKIIEKPEIPPSNLINAGIYKLNSDIFTYLDKISISERGELELTDAINLMAKDHRVKVIEYEGYWMDIGKPWNIIDVNKWALDNLVFSQNLGNVEDNVKIKGKVIIEEDAEIKSGTYIEGPVYIGKGSEIGPNSYLRPYTILVEKNKIGASVEVKESVIMEGSKIPHLSYVGDSVIAEDVNFGAGTLIANLRFDEKEVKVNVKGKRISSGRRKLGAFIGGHVRTGINVTILPGVKIGAYARIYPGAVVNRDVGYGEFFKV 2ggv-a3-m1-cB_2ggv-a3-m3-cB Crystal structure of the West Nile virus NS2B-NS3 protease, His51Ala mutant P06935 P06935 1.8 X-RAY DIFFRACTION 72 1.0 11082 (West Nile virus) 11082 (West Nile virus) 169 169 PKEYKKGDTTTGVYRIMTRGLLGSYQAGAGVMVEGVFHTLWATTKGAALMSGEGRLDPYWGSVKEDRLCYGGPWQLQHKWNGQDEVQMIVVEPGRNVKNVQTKPGVFKTPEGEIGAVTLDFPTGTSGSPIVDKNGDVIGLYGNGVIMPNGSYISAIVQGERMDEPIPAG PKEYKKGDTTTGVYRIMTRGLLGSYQAGAGVMVEGVFHTLWATTKGAALMSGEGRLDPYWGSVKEDRLCYGGPWQLQHKWNGQDEVQMIVVEPGRNVKNVQTKPGVFKTPEGEIGAVTLDFPTGTSGSPIVDKNGDVIGLYGNGVIMPNGSYISAIVQGERMDEPIPAG 2ggv-a4-m4-cB_2ggv-a4-m5-cB Crystal structure of the West Nile virus NS2B-NS3 protease, His51Ala mutant P06935 P06935 1.8 X-RAY DIFFRACTION 66 1.0 11082 (West Nile virus) 11082 (West Nile virus) 169 169 2ggv-a2-m1-cB_2ggv-a2-m2-cB PKEYKKGDTTTGVYRIMTRGLLGSYQAGAGVMVEGVFHTLWATTKGAALMSGEGRLDPYWGSVKEDRLCYGGPWQLQHKWNGQDEVQMIVVEPGRNVKNVQTKPGVFKTPEGEIGAVTLDFPTGTSGSPIVDKNGDVIGLYGNGVIMPNGSYISAIVQGERMDEPIPAG PKEYKKGDTTTGVYRIMTRGLLGSYQAGAGVMVEGVFHTLWATTKGAALMSGEGRLDPYWGSVKEDRLCYGGPWQLQHKWNGQDEVQMIVVEPGRNVKNVQTKPGVFKTPEGEIGAVTLDFPTGTSGSPIVDKNGDVIGLYGNGVIMPNGSYISAIVQGERMDEPIPAG 2gh8-a1-m54-cB_2gh8-a1-m9-cC X-ray structure of a native calicivirus P36285 P36285 3.2 X-RAY DIFFRACTION 15 1.0 36407 (San Miguel sea lion virus 4) 36407 (San Miguel sea lion virus 4) 541 544 2gh8-a1-m10-cA_2gh8-a1-m55-cC 2gh8-a1-m10-cB_2gh8-a1-m1-cC 2gh8-a1-m10-cB_2gh8-a1-m7-cA 2gh8-a1-m10-cC_2gh8-a1-m25-cA 2gh8-a1-m11-cA_2gh8-a1-m29-cC 2gh8-a1-m11-cB_2gh8-a1-m13-cA 2gh8-a1-m11-cB_2gh8-a1-m38-cC 2gh8-a1-m11-cC_2gh8-a1-m17-cA 2gh8-a1-m12-cA_2gh8-a1-m16-cC 2gh8-a1-m12-cB_2gh8-a1-m14-cA 2gh8-a1-m12-cB_2gh8-a1-m47-cC 2gh8-a1-m12-cC_2gh8-a1-m39-cA 2gh8-a1-m13-cA_2gh8-a1-m38-cC 2gh8-a1-m13-cB_2gh8-a1-m15-cA 2gh8-a1-m13-cB_2gh8-a1-m45-cC 2gh8-a1-m13-cC_2gh8-a1-m48-cA 2gh8-a1-m14-cA_2gh8-a1-m47-cC 2gh8-a1-m14-cB_2gh8-a1-m11-cA 2gh8-a1-m14-cB_2gh8-a1-m29-cC 2gh8-a1-m14-cC_2gh8-a1-m41-cA 2gh8-a1-m15-cA_2gh8-a1-m45-cC 2gh8-a1-m15-cB_2gh8-a1-m12-cA 2gh8-a1-m15-cB_2gh8-a1-m16-cC 2gh8-a1-m15-cC_2gh8-a1-m30-cA 2gh8-a1-m16-cA_2gh8-a1-m39-cC 2gh8-a1-m16-cB_2gh8-a1-m18-cA 2gh8-a1-m16-cB_2gh8-a1-m28-cC 2gh8-a1-m17-cB_2gh8-a1-m19-cA 2gh8-a1-m17-cB_2gh8-a1-m52-cC 2gh8-a1-m17-cC_2gh8-a1-m29-cA 2gh8-a1-m18-cA_2gh8-a1-m28-cC 2gh8-a1-m18-cB_2gh8-a1-m20-cA 2gh8-a1-m18-cB_2gh8-a1-m60-cC 2gh8-a1-m18-cC_2gh8-a1-m53-cA 2gh8-a1-m19-cA_2gh8-a1-m52-cC 2gh8-a1-m19-cB_2gh8-a1-m16-cA 2gh8-a1-m19-cB_2gh8-a1-m39-cC 2gh8-a1-m19-cC_2gh8-a1-m56-cA 2gh8-a1-m1-cA_2gh8-a1-m34-cC 2gh8-a1-m1-cB_2gh8-a1-m23-cC 2gh8-a1-m1-cB_2gh8-a1-m3-cA 2gh8-a1-m1-cC_2gh8-a1-m7-cA 2gh8-a1-m20-cA_2gh8-a1-m60-cC 2gh8-a1-m20-cB_2gh8-a1-m11-cC 2gh8-a1-m20-cB_2gh8-a1-m17-cA 2gh8-a1-m20-cC_2gh8-a1-m40-cA 2gh8-a1-m21-cA_2gh8-a1-m54-cC 2gh8-a1-m21-cB_2gh8-a1-m23-cA 2gh8-a1-m21-cB_2gh8-a1-m43-cC 2gh8-a1-m21-cC_2gh8-a1-m27-cA 2gh8-a1-m22-cA_2gh8-a1-m26-cC 2gh8-a1-m22-cB_2gh8-a1-m24-cA 2gh8-a1-m22-cB_2gh8-a1-m2-cC 2gh8-a1-m22-cC_2gh8-a1-m44-cA 2gh8-a1-m23-cA_2gh8-a1-m43-cC 2gh8-a1-m23-cB_2gh8-a1-m10-cC 2gh8-a1-m23-cB_2gh8-a1-m25-cA 2gh8-a1-m23-cC_2gh8-a1-m3-cA 2gh8-a1-m24-cB_2gh8-a1-m21-cA 2gh8-a1-m24-cB_2gh8-a1-m54-cC 2gh8-a1-m24-cC_2gh8-a1-m6-cA 2gh8-a1-m25-cB_2gh8-a1-m22-cA 2gh8-a1-m25-cB_2gh8-a1-m26-cC 2gh8-a1-m25-cC_2gh8-a1-m55-cA 2gh8-a1-m26-cA_2gh8-a1-m44-cC 2gh8-a1-m26-cB_2gh8-a1-m28-cA 2gh8-a1-m26-cB_2gh8-a1-m53-cC 2gh8-a1-m27-cB_2gh8-a1-m17-cC 2gh8-a1-m27-cB_2gh8-a1-m29-cA 2gh8-a1-m27-cC_2gh8-a1-m54-cA 2gh8-a1-m28-cA_2gh8-a1-m53-cC 2gh8-a1-m28-cB_2gh8-a1-m15-cC 2gh8-a1-m28-cB_2gh8-a1-m30-cA 2gh8-a1-m29-cB_2gh8-a1-m26-cA 2gh8-a1-m29-cB_2gh8-a1-m44-cC 2gh8-a1-m2-cA_2gh8-a1-m6-cC 2gh8-a1-m2-cB_2gh8-a1-m42-cC 2gh8-a1-m2-cB_2gh8-a1-m4-cA 2gh8-a1-m2-cC_2gh8-a1-m24-cA 2gh8-a1-m30-cB_2gh8-a1-m21-cC 2gh8-a1-m30-cB_2gh8-a1-m27-cA 2gh8-a1-m30-cC_2gh8-a1-m45-cA 2gh8-a1-m31-cA_2gh8-a1-m49-cC 2gh8-a1-m31-cB_2gh8-a1-m33-cA 2gh8-a1-m31-cB_2gh8-a1-m58-cC 2gh8-a1-m31-cC_2gh8-a1-m37-cA 2gh8-a1-m32-cA_2gh8-a1-m36-cC 2gh8-a1-m32-cB_2gh8-a1-m34-cA 2gh8-a1-m32-cB_2gh8-a1-m7-cC 2gh8-a1-m32-cC_2gh8-a1-m59-cA 2gh8-a1-m33-cA_2gh8-a1-m58-cC 2gh8-a1-m33-cB_2gh8-a1-m35-cA 2gh8-a1-m33-cB_2gh8-a1-m5-cC 2gh8-a1-m33-cC_2gh8-a1-m8-cA 2gh8-a1-m34-cA_2gh8-a1-m7-cC 2gh8-a1-m34-cB_2gh8-a1-m31-cA 2gh8-a1-m34-cB_2gh8-a1-m49-cC 2gh8-a1-m35-cA_2gh8-a1-m5-cC 2gh8-a1-m35-cB_2gh8-a1-m32-cA 2gh8-a1-m35-cB_2gh8-a1-m36-cC 2gh8-a1-m35-cC_2gh8-a1-m50-cA 2gh8-a1-m36-cA_2gh8-a1-m59-cC 2gh8-a1-m36-cB_2gh8-a1-m38-cA 2gh8-a1-m36-cB_2gh8-a1-m48-cC 2gh8-a1-m37-cB_2gh8-a1-m12-cC 2gh8-a1-m37-cB_2gh8-a1-m39-cA 2gh8-a1-m37-cC_2gh8-a1-m49-cA 2gh8-a1-m38-cA_2gh8-a1-m48-cC 2gh8-a1-m38-cB_2gh8-a1-m20-cC 2gh8-a1-m38-cB_2gh8-a1-m40-cA 2gh8-a1-m39-cB_2gh8-a1-m36-cA 2gh8-a1-m39-cB_2gh8-a1-m59-cC 2gh8-a1-m3-cB_2gh8-a1-m50-cC 2gh8-a1-m3-cB_2gh8-a1-m5-cA 2gh8-a1-m3-cC_2gh8-a1-m43-cA 2gh8-a1-m40-cB_2gh8-a1-m31-cC 2gh8-a1-m40-cB_2gh8-a1-m37-cA 2gh8-a1-m40-cC_2gh8-a1-m60-cA 2gh8-a1-m41-cB_2gh8-a1-m3-cC 2gh8-a1-m41-cB_2gh8-a1-m43-cA 2gh8-a1-m41-cC_2gh8-a1-m47-cA 2gh8-a1-m42-cA_2gh8-a1-m46-cC 2gh8-a1-m42-cB_2gh8-a1-m22-cC 2gh8-a1-m42-cB_2gh8-a1-m44-cA 2gh8-a1-m43-cB_2gh8-a1-m30-cC 2gh8-a1-m43-cB_2gh8-a1-m45-cA 2gh8-a1-m44-cB_2gh8-a1-m14-cC 2gh8-a1-m44-cB_2gh8-a1-m41-cA 2gh8-a1-m45-cB_2gh8-a1-m42-cA 2gh8-a1-m45-cB_2gh8-a1-m46-cC 2gh8-a1-m46-cB_2gh8-a1-m13-cC 2gh8-a1-m46-cB_2gh8-a1-m48-cA 2gh8-a1-m47-cB_2gh8-a1-m37-cC 2gh8-a1-m47-cB_2gh8-a1-m49-cA 2gh8-a1-m48-cB_2gh8-a1-m35-cC 2gh8-a1-m48-cB_2gh8-a1-m50-cA 2gh8-a1-m49-cB_2gh8-a1-m46-cA 2gh8-a1-m49-cB_2gh8-a1-m4-cC 2gh8-a1-m4-cA_2gh8-a1-m42-cC 2gh8-a1-m4-cB_2gh8-a1-m1-cA 2gh8-a1-m4-cB_2gh8-a1-m34-cC 2gh8-a1-m4-cC_2gh8-a1-m46-cA 2gh8-a1-m50-cB_2gh8-a1-m41-cC 2gh8-a1-m50-cB_2gh8-a1-m47-cA 2gh8-a1-m51-cA_2gh8-a1-m9-cC 2gh8-a1-m51-cB_2gh8-a1-m18-cC 2gh8-a1-m51-cB_2gh8-a1-m53-cA 2gh8-a1-m51-cC_2gh8-a1-m57-cA 2gh8-a1-m52-cA_2gh8-a1-m56-cC 2gh8-a1-m52-cB_2gh8-a1-m27-cC 2gh8-a1-m52-cB_2gh8-a1-m54-cA 2gh8-a1-m53-cB_2gh8-a1-m25-cC 2gh8-a1-m53-cB_2gh8-a1-m55-cA 2gh8-a1-m54-cB_2gh8-a1-m51-cA 2gh8-a1-m55-cB_2gh8-a1-m52-cA 2gh8-a1-m55-cB_2gh8-a1-m56-cC 2gh8-a1-m56-cB_2gh8-a1-m58-cA 2gh8-a1-m56-cB_2gh8-a1-m8-cC 2gh8-a1-m57-cB_2gh8-a1-m32-cC 2gh8-a1-m57-cB_2gh8-a1-m59-cA 2gh8-a1-m57-cC_2gh8-a1-m9-cA 2gh8-a1-m58-cA_2gh8-a1-m8-cC 2gh8-a1-m58-cB_2gh8-a1-m40-cC 2gh8-a1-m58-cB_2gh8-a1-m60-cA 2gh8-a1-m59-cB_2gh8-a1-m19-cC 2gh8-a1-m59-cB_2gh8-a1-m56-cA 2gh8-a1-m5-cA_2gh8-a1-m50-cC 2gh8-a1-m5-cB_2gh8-a1-m2-cA 2gh8-a1-m5-cB_2gh8-a1-m6-cC 2gh8-a1-m60-cB_2gh8-a1-m51-cC 2gh8-a1-m60-cB_2gh8-a1-m57-cA 2gh8-a1-m6-cB_2gh8-a1-m33-cC 2gh8-a1-m6-cB_2gh8-a1-m8-cA 2gh8-a1-m7-cB_2gh8-a1-m57-cC 2gh8-a1-m7-cB_2gh8-a1-m9-cA 2gh8-a1-m8-cB_2gh8-a1-m10-cA 2gh8-a1-m8-cB_2gh8-a1-m55-cC 2gh8-a1-m9-cB_2gh8-a1-m24-cC 2gh8-a1-m9-cB_2gh8-a1-m6-cA TEEQGTVVQQQPAPAPTALATLATASTGKSVEQEWMTFFSYHTSINWSTVESQGKILYSQALNPSINPYLDHIAKLYSTWSGGIDVRFTVSGSGVFGGKLAALLVPPGVEPIESVSMLQYPHVLFDARQTEPVIFTIPDIRKTLFHSMDETDTTKLVIMVYNELINPYENGVENKTTCSITVETRPSADFTFALLKPPGSLIKHGSIPSDLIPRNSAHWMGNRWWSTISGFSVQPRVFQSNRHFDFDSTTTGWSTPYYVPIEIKIQGKVGSNNKWFHVIDTDKALVPGIPDGWPDTTIPDETKATNGNFSYGESYRAGSTTIKPNENSTHFKGTYICGTLSTVEIPENDEQQIKTEAEKKSQTMYVVTADFKDTIVKPQHKISPQKLVVYFDGPEKDLTMSATLSPLGYTLVDEQPVGSVSSRVVRIATLPEAFTQGGNYPIFYVNKIKVGYFDRATTNCYNSQILMTSQRLAEGNYNLPPDSLAVYRITDSSSQWFDIGINHDGFSYVGLSDLPNDLSFPLTSTFMGVQLARVKLASKVK 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2gh8-a1-m16-cB_2gh8-a1-m20-cB 2gh8-a1-m17-cB_2gh8-a1-m18-cB 2gh8-a1-m18-cB_2gh8-a1-m19-cB 2gh8-a1-m19-cB_2gh8-a1-m20-cB 2gh8-a1-m1-cB_2gh8-a1-m2-cB 2gh8-a1-m1-cB_2gh8-a1-m5-cB 2gh8-a1-m21-cB_2gh8-a1-m22-cB 2gh8-a1-m21-cB_2gh8-a1-m25-cB 2gh8-a1-m22-cB_2gh8-a1-m23-cB 2gh8-a1-m23-cB_2gh8-a1-m24-cB 2gh8-a1-m24-cB_2gh8-a1-m25-cB 2gh8-a1-m26-cB_2gh8-a1-m27-cB 2gh8-a1-m26-cB_2gh8-a1-m30-cB 2gh8-a1-m27-cB_2gh8-a1-m28-cB 2gh8-a1-m28-cB_2gh8-a1-m29-cB 2gh8-a1-m29-cB_2gh8-a1-m30-cB 2gh8-a1-m2-cB_2gh8-a1-m3-cB 2gh8-a1-m31-cB_2gh8-a1-m32-cB 2gh8-a1-m31-cB_2gh8-a1-m35-cB 2gh8-a1-m32-cB_2gh8-a1-m33-cB 2gh8-a1-m33-cB_2gh8-a1-m34-cB 2gh8-a1-m34-cB_2gh8-a1-m35-cB 2gh8-a1-m36-cB_2gh8-a1-m37-cB 2gh8-a1-m36-cB_2gh8-a1-m40-cB 2gh8-a1-m37-cB_2gh8-a1-m38-cB 2gh8-a1-m38-cB_2gh8-a1-m39-cB 2gh8-a1-m39-cB_2gh8-a1-m40-cB 2gh8-a1-m3-cB_2gh8-a1-m4-cB 2gh8-a1-m41-cB_2gh8-a1-m42-cB 2gh8-a1-m41-cB_2gh8-a1-m45-cB 2gh8-a1-m42-cB_2gh8-a1-m43-cB 2gh8-a1-m43-cB_2gh8-a1-m44-cB 2gh8-a1-m44-cB_2gh8-a1-m45-cB 2gh8-a1-m46-cB_2gh8-a1-m47-cB 2gh8-a1-m46-cB_2gh8-a1-m50-cB 2gh8-a1-m47-cB_2gh8-a1-m48-cB 2gh8-a1-m48-cB_2gh8-a1-m49-cB 2gh8-a1-m49-cB_2gh8-a1-m50-cB 2gh8-a1-m4-cB_2gh8-a1-m5-cB 2gh8-a1-m51-cB_2gh8-a1-m52-cB 2gh8-a1-m51-cB_2gh8-a1-m55-cB 2gh8-a1-m52-cB_2gh8-a1-m53-cB 2gh8-a1-m53-cB_2gh8-a1-m54-cB 2gh8-a1-m54-cB_2gh8-a1-m55-cB 2gh8-a1-m56-cB_2gh8-a1-m57-cB 2gh8-a1-m56-cB_2gh8-a1-m60-cB 2gh8-a1-m57-cB_2gh8-a1-m58-cB 2gh8-a1-m58-cB_2gh8-a1-m59-cB 2gh8-a1-m59-cB_2gh8-a1-m60-cB 2gh8-a1-m6-cB_2gh8-a1-m7-cB 2gh8-a1-m7-cB_2gh8-a1-m8-cB 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2gh8-a1-m22-cA_2gh8-a1-m23-cA 2gh8-a1-m22-cB_2gh8-a1-m23-cC 2gh8-a1-m22-cB_2gh8-a1-m43-cC 2gh8-a1-m23-cA_2gh8-a1-m24-cA 2gh8-a1-m23-cB_2gh8-a1-m24-cC 2gh8-a1-m23-cB_2gh8-a1-m2-cC 2gh8-a1-m24-cA_2gh8-a1-m25-cA 2gh8-a1-m24-cB_2gh8-a1-m10-cC 2gh8-a1-m24-cB_2gh8-a1-m25-cC 2gh8-a1-m25-cB_2gh8-a1-m21-cC 2gh8-a1-m25-cB_2gh8-a1-m54-cC 2gh8-a1-m26-cA_2gh8-a1-m27-cA 2gh8-a1-m26-cA_2gh8-a1-m30-cA 2gh8-a1-m26-cB_2gh8-a1-m21-cC 2gh8-a1-m26-cB_2gh8-a1-m27-cC 2gh8-a1-m27-cA_2gh8-a1-m28-cA 2gh8-a1-m27-cB_2gh8-a1-m28-cC 2gh8-a1-m27-cB_2gh8-a1-m53-cC 2gh8-a1-m28-cA_2gh8-a1-m29-cA 2gh8-a1-m28-cB_2gh8-a1-m17-cC 2gh8-a1-m28-cB_2gh8-a1-m29-cC 2gh8-a1-m29-cA_2gh8-a1-m30-cA 2gh8-a1-m29-cB_2gh8-a1-m15-cC 2gh8-a1-m29-cB_2gh8-a1-m30-cC 2gh8-a1-m2-cA_2gh8-a1-m3-cA 2gh8-a1-m2-cB_2gh8-a1-m23-cC 2gh8-a1-m2-cB_2gh8-a1-m3-cC 2gh8-a1-m30-cB_2gh8-a1-m26-cC 2gh8-a1-m30-cB_2gh8-a1-m44-cC 2gh8-a1-m31-cA_2gh8-a1-m32-cA 2gh8-a1-m31-cA_2gh8-a1-m35-cA 2gh8-a1-m31-cB_2gh8-a1-m32-cC 2gh8-a1-m31-cB_2gh8-a1-m36-cC 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2gh8-a1-m7-cB_2gh8-a1-m8-cC 2gh8-a1-m8-cA_2gh8-a1-m9-cA 2gh8-a1-m8-cB_2gh8-a1-m57-cC 2gh8-a1-m9-cB_2gh8-a1-m10-cC 2gh8-a1-m9-cB_2gh8-a1-m55-cC TEEQGTVVQQQPAPAPTALATLATASTGKSVEQEWMTFFSYHTSINWSTVESQGKILYSQALNPSINPYLDHIAKLYSTWSGGIDVRFTVSGSGVFGGKLAALLVPPGVEPIESVSMLQYPHVLFDARQTEPVIFTIPDIRKTLFHSMDETDTTKLVIMVYNELINPYENGVENKTTCSITVETRPSADFTFALLKPPGSLIKHGSIPSDLIPRNSAHWMGNRWWSTISGFSVQPRVFQSNRHFDFDSTTTGWSTPYYVPIEIKIQGKVGSNNKWFHVIDTDKALVPGIPDGWPDTTIPDETKATNGNFSYGESYRAGSTTIKPNENSTHFKGTYICGTLSTVEIPENDEQQIKTEAEKKSQTMYVVTADFKDTIVKPQHKISPQKLVVYFDGPEKDLTMSATLSPLGYTLVDEQPVGSVSSRVVRIATLPEAFTQGGNYPIFYVNKIKVGYFDRATTNCYNSQILMTSQRLAEGNYNLPPDSLAVYRITDSSSQWFDIGINHDGFSYVGLSDLPNDLSFPLTSTFMGVQLARVKLASKVK 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2gh8-a1-m14-cB_2gh8-a1-m15-cA 2gh8-a1-m14-cC_2gh8-a1-m45-cC 2gh8-a1-m15-cB_2gh8-a1-m11-cA 2gh8-a1-m15-cC_2gh8-a1-m29-cC 2gh8-a1-m16-cB_2gh8-a1-m17-cA 2gh8-a1-m17-cB_2gh8-a1-m18-cA 2gh8-a1-m17-cC_2gh8-a1-m28-cC 2gh8-a1-m18-cB_2gh8-a1-m19-cA 2gh8-a1-m18-cC_2gh8-a1-m52-cC 2gh8-a1-m19-cB_2gh8-a1-m20-cA 2gh8-a1-m19-cC_2gh8-a1-m60-cC 2gh8-a1-m1-cB_2gh8-a1-m2-cA 2gh8-a1-m1-cC_2gh8-a1-m6-cC 2gh8-a1-m20-cB_2gh8-a1-m16-cA 2gh8-a1-m20-cC_2gh8-a1-m39-cC 2gh8-a1-m21-cB_2gh8-a1-m22-cA 2gh8-a1-m21-cC_2gh8-a1-m26-cC 2gh8-a1-m22-cB_2gh8-a1-m23-cA 2gh8-a1-m22-cC_2gh8-a1-m43-cC 2gh8-a1-m23-cB_2gh8-a1-m24-cA 2gh8-a1-m24-cB_2gh8-a1-m25-cA 2gh8-a1-m25-cB_2gh8-a1-m21-cA 2gh8-a1-m25-cC_2gh8-a1-m54-cC 2gh8-a1-m26-cB_2gh8-a1-m27-cA 2gh8-a1-m27-cB_2gh8-a1-m28-cA 2gh8-a1-m27-cC_2gh8-a1-m53-cC 2gh8-a1-m28-cB_2gh8-a1-m29-cA 2gh8-a1-m29-cB_2gh8-a1-m30-cA 2gh8-a1-m2-cB_2gh8-a1-m3-cA 2gh8-a1-m2-cC_2gh8-a1-m23-cC 2gh8-a1-m30-cB_2gh8-a1-m26-cA 2gh8-a1-m30-cC_2gh8-a1-m44-cC 2gh8-a1-m31-cB_2gh8-a1-m32-cA 2gh8-a1-m31-cC_2gh8-a1-m36-cC 2gh8-a1-m32-cB_2gh8-a1-m33-cA 2gh8-a1-m32-cC_2gh8-a1-m58-cC 2gh8-a1-m33-cB_2gh8-a1-m34-cA 2gh8-a1-m33-cC_2gh8-a1-m7-cC 2gh8-a1-m34-cB_2gh8-a1-m35-cA 2gh8-a1-m34-cC_2gh8-a1-m5-cC 2gh8-a1-m35-cB_2gh8-a1-m31-cA 2gh8-a1-m35-cC_2gh8-a1-m49-cC 2gh8-a1-m36-cB_2gh8-a1-m37-cA 2gh8-a1-m37-cB_2gh8-a1-m38-cA 2gh8-a1-m37-cC_2gh8-a1-m48-cC 2gh8-a1-m38-cB_2gh8-a1-m39-cA 2gh8-a1-m39-cB_2gh8-a1-m40-cA 2gh8-a1-m3-cB_2gh8-a1-m4-cA 2gh8-a1-m3-cC_2gh8-a1-m42-cC 2gh8-a1-m40-cB_2gh8-a1-m36-cA 2gh8-a1-m40-cC_2gh8-a1-m59-cC 2gh8-a1-m41-cB_2gh8-a1-m42-cA 2gh8-a1-m41-cC_2gh8-a1-m46-cC 2gh8-a1-m42-cB_2gh8-a1-m43-cA 2gh8-a1-m43-cB_2gh8-a1-m44-cA 2gh8-a1-m44-cB_2gh8-a1-m45-cA 2gh8-a1-m45-cB_2gh8-a1-m41-cA 2gh8-a1-m46-cB_2gh8-a1-m47-cA 2gh8-a1-m47-cB_2gh8-a1-m48-cA 2gh8-a1-m48-cB_2gh8-a1-m49-cA 2gh8-a1-m49-cB_2gh8-a1-m50-cA 2gh8-a1-m4-cB_2gh8-a1-m5-cA 2gh8-a1-m4-cC_2gh8-a1-m50-cC 2gh8-a1-m50-cB_2gh8-a1-m46-cA 2gh8-a1-m51-cB_2gh8-a1-m52-cA 2gh8-a1-m51-cC_2gh8-a1-m56-cC 2gh8-a1-m52-cB_2gh8-a1-m53-cA 2gh8-a1-m53-cB_2gh8-a1-m54-cA 2gh8-a1-m54-cB_2gh8-a1-m55-cA 2gh8-a1-m55-cB_2gh8-a1-m51-cA 2gh8-a1-m55-cC_2gh8-a1-m9-cC 2gh8-a1-m56-cB_2gh8-a1-m57-cA 2gh8-a1-m57-cB_2gh8-a1-m58-cA 2gh8-a1-m57-cC_2gh8-a1-m8-cC 2gh8-a1-m58-cB_2gh8-a1-m59-cA 2gh8-a1-m59-cB_2gh8-a1-m60-cA 2gh8-a1-m5-cB_2gh8-a1-m1-cA 2gh8-a1-m60-cB_2gh8-a1-m56-cA 2gh8-a1-m6-cB_2gh8-a1-m7-cA 2gh8-a1-m7-cB_2gh8-a1-m8-cA 2gh8-a1-m8-cB_2gh8-a1-m9-cA TEEQGTVVQQQPAPAPTALATLATASTGKSVEQEWMTFFSYHTSINWSTVESQGKILYSQALNPSINPYLDHIAKLYSTWSGGIDVRFTVSGSGVFGGKLAALLVPPGVEPIESVSMLQYPHVLFDARQTEPVIFTIPDIRKTLFHSMDETDTTKLVIMVYNELINPYENGVENKTTCSITVETRPSADFTFALLKPPGSLIKHGSIPSDLIPRNSAHWMGNRWWSTISGFSVQPRVFQSNRHFDFDSTTTGWSTPYYVPIEIKIQGKVGSNNKWFHVIDTDKALVPGIPDGWPDTTIPDETKATNGNFSYGESYRAGSTTIKPNENSTHFKGTYICGTLSTVEIPENDEQQIKTEAEKKSQTMYVVTADFKDTIVKPQHKISPQKLVVYFDGPEKDLTMSATLSPLGYTLVDEQPVGSVSSRVVRIATLPEAFTQGGNYPIFYVNKIKVGYFDRATTNCYNSQILMTSQRLAEGNYNLPPDSLAVYRITDSSSQWFDIGINHDGFSYVGLSDLPNDLSFPLTSTFMGVQLARVKLASKVK EIVTEEQGTVVQQQPAPAPTALATLATASTGKSVEQEWMTFFSYHTSINWSTVESQGKILYSQALNPSINPYLDHIAKLYSTWSGGIDVRFTVSGSGVFGGKLAALLVPPGVEPIESVSMLQYPHVLFDARQTEPVIFTIPDIRKTLFHSMDETDTTKLVIMVYNELINPYENGVENKTTCSITVETRPSADFTFALLKPPGSLIKHGSIPSDLIPRNSAHWMGNRWWSTISGFSVQPRVFQSNRHFDFDSTTTGWSTPYYVPIEIKIQGKVGSNNKWFHVIDTDKALVPGIPDGWPDTTIPDETKATNGNFSYGESYRAGSTTIKPNENSTHFKGTYICGTLSTVEIPENDEQQIKTEAEKKSQTMYVVTADFKDTIVKPQHKISPQKLVVYFDGPEKDLTMSATLSPLGYTLVDEQPVGSVSSRVVRIATLPEAFTQGGNYPIFYVNKIKVGYFDRATTNCYNSQILMTSQRLAEGNYNLPPDSLAVYRITDSSSQWFDIGINHDGFSYVGLSDLPNDLSFPLTSTFMGVQLARVKLASKVK 2gh8-a1-m9-cB_2gh8-a1-m9-cC X-ray structure of a native calicivirus P36285 P36285 3.2 X-RAY DIFFRACTION 83 1.0 36407 (San Miguel sea lion virus 4) 36407 (San Miguel sea lion virus 4) 541 544 2gh8-a1-m10-cA_2gh8-a1-m10-cC 2gh8-a1-m10-cB_2gh8-a1-m10-cA 2gh8-a1-m10-cB_2gh8-a1-m10-cC 2gh8-a1-m11-cA_2gh8-a1-m11-cC 2gh8-a1-m11-cB_2gh8-a1-m11-cA 2gh8-a1-m11-cB_2gh8-a1-m11-cC 2gh8-a1-m12-cA_2gh8-a1-m12-cC 2gh8-a1-m12-cB_2gh8-a1-m12-cA 2gh8-a1-m12-cB_2gh8-a1-m12-cC 2gh8-a1-m13-cA_2gh8-a1-m13-cC 2gh8-a1-m13-cB_2gh8-a1-m13-cA 2gh8-a1-m13-cB_2gh8-a1-m13-cC 2gh8-a1-m14-cA_2gh8-a1-m14-cC 2gh8-a1-m14-cB_2gh8-a1-m14-cA 2gh8-a1-m14-cB_2gh8-a1-m14-cC 2gh8-a1-m15-cA_2gh8-a1-m15-cC 2gh8-a1-m15-cB_2gh8-a1-m15-cA 2gh8-a1-m15-cB_2gh8-a1-m15-cC 2gh8-a1-m16-cA_2gh8-a1-m16-cC 2gh8-a1-m16-cB_2gh8-a1-m16-cA 2gh8-a1-m16-cB_2gh8-a1-m16-cC 2gh8-a1-m17-cA_2gh8-a1-m17-cC 2gh8-a1-m17-cB_2gh8-a1-m17-cA 2gh8-a1-m17-cB_2gh8-a1-m17-cC 2gh8-a1-m18-cA_2gh8-a1-m18-cC 2gh8-a1-m18-cB_2gh8-a1-m18-cA 2gh8-a1-m18-cB_2gh8-a1-m18-cC 2gh8-a1-m19-cA_2gh8-a1-m19-cC 2gh8-a1-m19-cB_2gh8-a1-m19-cA 2gh8-a1-m19-cB_2gh8-a1-m19-cC 2gh8-a1-m1-cA_2gh8-a1-m1-cC 2gh8-a1-m1-cB_2gh8-a1-m1-cA 2gh8-a1-m1-cB_2gh8-a1-m1-cC 2gh8-a1-m20-cA_2gh8-a1-m20-cC 2gh8-a1-m20-cB_2gh8-a1-m20-cA 2gh8-a1-m20-cB_2gh8-a1-m20-cC 2gh8-a1-m21-cA_2gh8-a1-m21-cC 2gh8-a1-m21-cB_2gh8-a1-m21-cA 2gh8-a1-m21-cB_2gh8-a1-m21-cC 2gh8-a1-m22-cA_2gh8-a1-m22-cC 2gh8-a1-m22-cB_2gh8-a1-m22-cA 2gh8-a1-m22-cB_2gh8-a1-m22-cC 2gh8-a1-m23-cA_2gh8-a1-m23-cC 2gh8-a1-m23-cB_2gh8-a1-m23-cA 2gh8-a1-m23-cB_2gh8-a1-m23-cC 2gh8-a1-m24-cA_2gh8-a1-m24-cC 2gh8-a1-m24-cB_2gh8-a1-m24-cA 2gh8-a1-m24-cB_2gh8-a1-m24-cC 2gh8-a1-m25-cA_2gh8-a1-m25-cC 2gh8-a1-m25-cB_2gh8-a1-m25-cA 2gh8-a1-m25-cB_2gh8-a1-m25-cC 2gh8-a1-m26-cA_2gh8-a1-m26-cC 2gh8-a1-m26-cB_2gh8-a1-m26-cA 2gh8-a1-m26-cB_2gh8-a1-m26-cC 2gh8-a1-m27-cA_2gh8-a1-m27-cC 2gh8-a1-m27-cB_2gh8-a1-m27-cA 2gh8-a1-m27-cB_2gh8-a1-m27-cC 2gh8-a1-m28-cA_2gh8-a1-m28-cC 2gh8-a1-m28-cB_2gh8-a1-m28-cA 2gh8-a1-m28-cB_2gh8-a1-m28-cC 2gh8-a1-m29-cA_2gh8-a1-m29-cC 2gh8-a1-m29-cB_2gh8-a1-m29-cA 2gh8-a1-m29-cB_2gh8-a1-m29-cC 2gh8-a1-m2-cA_2gh8-a1-m2-cC 2gh8-a1-m2-cB_2gh8-a1-m2-cA 2gh8-a1-m2-cB_2gh8-a1-m2-cC 2gh8-a1-m30-cA_2gh8-a1-m30-cC 2gh8-a1-m30-cB_2gh8-a1-m30-cA 2gh8-a1-m30-cB_2gh8-a1-m30-cC 2gh8-a1-m31-cA_2gh8-a1-m31-cC 2gh8-a1-m31-cB_2gh8-a1-m31-cA 2gh8-a1-m31-cB_2gh8-a1-m31-cC 2gh8-a1-m32-cA_2gh8-a1-m32-cC 2gh8-a1-m32-cB_2gh8-a1-m32-cA 2gh8-a1-m32-cB_2gh8-a1-m32-cC 2gh8-a1-m33-cA_2gh8-a1-m33-cC 2gh8-a1-m33-cB_2gh8-a1-m33-cA 2gh8-a1-m33-cB_2gh8-a1-m33-cC 2gh8-a1-m34-cA_2gh8-a1-m34-cC 2gh8-a1-m34-cB_2gh8-a1-m34-cA 2gh8-a1-m34-cB_2gh8-a1-m34-cC 2gh8-a1-m35-cA_2gh8-a1-m35-cC 2gh8-a1-m35-cB_2gh8-a1-m35-cA 2gh8-a1-m35-cB_2gh8-a1-m35-cC 2gh8-a1-m36-cA_2gh8-a1-m36-cC 2gh8-a1-m36-cB_2gh8-a1-m36-cA 2gh8-a1-m36-cB_2gh8-a1-m36-cC 2gh8-a1-m37-cA_2gh8-a1-m37-cC 2gh8-a1-m37-cB_2gh8-a1-m37-cA 2gh8-a1-m37-cB_2gh8-a1-m37-cC 2gh8-a1-m38-cA_2gh8-a1-m38-cC 2gh8-a1-m38-cB_2gh8-a1-m38-cA 2gh8-a1-m38-cB_2gh8-a1-m38-cC 2gh8-a1-m39-cA_2gh8-a1-m39-cC 2gh8-a1-m39-cB_2gh8-a1-m39-cA 2gh8-a1-m39-cB_2gh8-a1-m39-cC 2gh8-a1-m3-cA_2gh8-a1-m3-cC 2gh8-a1-m3-cB_2gh8-a1-m3-cA 2gh8-a1-m3-cB_2gh8-a1-m3-cC 2gh8-a1-m40-cA_2gh8-a1-m40-cC 2gh8-a1-m40-cB_2gh8-a1-m40-cA 2gh8-a1-m40-cB_2gh8-a1-m40-cC 2gh8-a1-m41-cA_2gh8-a1-m41-cC 2gh8-a1-m41-cB_2gh8-a1-m41-cA 2gh8-a1-m41-cB_2gh8-a1-m41-cC 2gh8-a1-m42-cA_2gh8-a1-m42-cC 2gh8-a1-m42-cB_2gh8-a1-m42-cA 2gh8-a1-m42-cB_2gh8-a1-m42-cC 2gh8-a1-m43-cA_2gh8-a1-m43-cC 2gh8-a1-m43-cB_2gh8-a1-m43-cA 2gh8-a1-m43-cB_2gh8-a1-m43-cC 2gh8-a1-m44-cA_2gh8-a1-m44-cC 2gh8-a1-m44-cB_2gh8-a1-m44-cA 2gh8-a1-m44-cB_2gh8-a1-m44-cC 2gh8-a1-m45-cA_2gh8-a1-m45-cC 2gh8-a1-m45-cB_2gh8-a1-m45-cA 2gh8-a1-m45-cB_2gh8-a1-m45-cC 2gh8-a1-m46-cA_2gh8-a1-m46-cC 2gh8-a1-m46-cB_2gh8-a1-m46-cA 2gh8-a1-m46-cB_2gh8-a1-m46-cC 2gh8-a1-m47-cA_2gh8-a1-m47-cC 2gh8-a1-m47-cB_2gh8-a1-m47-cA 2gh8-a1-m47-cB_2gh8-a1-m47-cC 2gh8-a1-m48-cA_2gh8-a1-m48-cC 2gh8-a1-m48-cB_2gh8-a1-m48-cA 2gh8-a1-m48-cB_2gh8-a1-m48-cC 2gh8-a1-m49-cA_2gh8-a1-m49-cC 2gh8-a1-m49-cB_2gh8-a1-m49-cA 2gh8-a1-m49-cB_2gh8-a1-m49-cC 2gh8-a1-m4-cA_2gh8-a1-m4-cC 2gh8-a1-m4-cB_2gh8-a1-m4-cA 2gh8-a1-m4-cB_2gh8-a1-m4-cC 2gh8-a1-m50-cA_2gh8-a1-m50-cC 2gh8-a1-m50-cB_2gh8-a1-m50-cA 2gh8-a1-m50-cB_2gh8-a1-m50-cC 2gh8-a1-m51-cA_2gh8-a1-m51-cC 2gh8-a1-m51-cB_2gh8-a1-m51-cA 2gh8-a1-m51-cB_2gh8-a1-m51-cC 2gh8-a1-m52-cA_2gh8-a1-m52-cC 2gh8-a1-m52-cB_2gh8-a1-m52-cA 2gh8-a1-m52-cB_2gh8-a1-m52-cC 2gh8-a1-m53-cA_2gh8-a1-m53-cC 2gh8-a1-m53-cB_2gh8-a1-m53-cA 2gh8-a1-m53-cB_2gh8-a1-m53-cC 2gh8-a1-m54-cA_2gh8-a1-m54-cC 2gh8-a1-m54-cB_2gh8-a1-m54-cA 2gh8-a1-m54-cB_2gh8-a1-m54-cC 2gh8-a1-m55-cA_2gh8-a1-m55-cC 2gh8-a1-m55-cB_2gh8-a1-m55-cA 2gh8-a1-m55-cB_2gh8-a1-m55-cC 2gh8-a1-m56-cA_2gh8-a1-m56-cC 2gh8-a1-m56-cB_2gh8-a1-m56-cA 2gh8-a1-m56-cB_2gh8-a1-m56-cC 2gh8-a1-m57-cA_2gh8-a1-m57-cC 2gh8-a1-m57-cB_2gh8-a1-m57-cA 2gh8-a1-m57-cB_2gh8-a1-m57-cC 2gh8-a1-m58-cA_2gh8-a1-m58-cC 2gh8-a1-m58-cB_2gh8-a1-m58-cA 2gh8-a1-m58-cB_2gh8-a1-m58-cC 2gh8-a1-m59-cA_2gh8-a1-m59-cC 2gh8-a1-m59-cB_2gh8-a1-m59-cA 2gh8-a1-m59-cB_2gh8-a1-m59-cC 2gh8-a1-m5-cA_2gh8-a1-m5-cC 2gh8-a1-m5-cB_2gh8-a1-m5-cA 2gh8-a1-m5-cB_2gh8-a1-m5-cC 2gh8-a1-m60-cA_2gh8-a1-m60-cC 2gh8-a1-m60-cB_2gh8-a1-m60-cA 2gh8-a1-m60-cB_2gh8-a1-m60-cC 2gh8-a1-m6-cA_2gh8-a1-m6-cC 2gh8-a1-m6-cB_2gh8-a1-m6-cA 2gh8-a1-m6-cB_2gh8-a1-m6-cC 2gh8-a1-m7-cA_2gh8-a1-m7-cC 2gh8-a1-m7-cB_2gh8-a1-m7-cA 2gh8-a1-m7-cB_2gh8-a1-m7-cC 2gh8-a1-m8-cA_2gh8-a1-m8-cC 2gh8-a1-m8-cB_2gh8-a1-m8-cA 2gh8-a1-m8-cB_2gh8-a1-m8-cC 2gh8-a1-m9-cA_2gh8-a1-m9-cC 2gh8-a1-m9-cB_2gh8-a1-m9-cA TEEQGTVVQQQPAPAPTALATLATASTGKSVEQEWMTFFSYHTSINWSTVESQGKILYSQALNPSINPYLDHIAKLYSTWSGGIDVRFTVSGSGVFGGKLAALLVPPGVEPIESVSMLQYPHVLFDARQTEPVIFTIPDIRKTLFHSMDETDTTKLVIMVYNELINPYENGVENKTTCSITVETRPSADFTFALLKPPGSLIKHGSIPSDLIPRNSAHWMGNRWWSTISGFSVQPRVFQSNRHFDFDSTTTGWSTPYYVPIEIKIQGKVGSNNKWFHVIDTDKALVPGIPDGWPDTTIPDETKATNGNFSYGESYRAGSTTIKPNENSTHFKGTYICGTLSTVEIPENDEQQIKTEAEKKSQTMYVVTADFKDTIVKPQHKISPQKLVVYFDGPEKDLTMSATLSPLGYTLVDEQPVGSVSSRVVRIATLPEAFTQGGNYPIFYVNKIKVGYFDRATTNCYNSQILMTSQRLAEGNYNLPPDSLAVYRITDSSSQWFDIGINHDGFSYVGLSDLPNDLSFPLTSTFMGVQLARVKLASKVK EIVTEEQGTVVQQQPAPAPTALATLATASTGKSVEQEWMTFFSYHTSINWSTVESQGKILYSQALNPSINPYLDHIAKLYSTWSGGIDVRFTVSGSGVFGGKLAALLVPPGVEPIESVSMLQYPHVLFDARQTEPVIFTIPDIRKTLFHSMDETDTTKLVIMVYNELINPYENGVENKTTCSITVETRPSADFTFALLKPPGSLIKHGSIPSDLIPRNSAHWMGNRWWSTISGFSVQPRVFQSNRHFDFDSTTTGWSTPYYVPIEIKIQGKVGSNNKWFHVIDTDKALVPGIPDGWPDTTIPDETKATNGNFSYGESYRAGSTTIKPNENSTHFKGTYICGTLSTVEIPENDEQQIKTEAEKKSQTMYVVTADFKDTIVKPQHKISPQKLVVYFDGPEKDLTMSATLSPLGYTLVDEQPVGSVSSRVVRIATLPEAFTQGGNYPIFYVNKIKVGYFDRATTNCYNSQILMTSQRLAEGNYNLPPDSLAVYRITDSSSQWFDIGINHDGFSYVGLSDLPNDLSFPLTSTFMGVQLARVKLASKVK 2ghj-a3-m1-cA_2ghj-a3-m1-cD Crystal structure of folded and partially unfolded forms of Aquifex aeolicus ribosomal protein L20 O67086 O67086 2.9 X-RAY DIFFRACTION 85 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 99 99 2ghj-a1-m1-cA_2ghj-a1-m1-cD LAKGYRGQRSRSYRRAKEAVRALYYQYRDRKLRKREFRRLWIARINAAVRAYGLNYSTFINGLKKAGIELDRKILADAVRDPQAFEQVVNKVKEALQVQ LAKGYRGQRSRSYRRAKEAVRALYYQYRDRKLRKREFRRLWIARINAAVRAYGLNYSTFINGLKKAGIELDRKILADAVRDPQAFEQVVNKVKEALQVQ 2ghj-a3-m1-cB_2ghj-a3-m1-cE Crystal structure of folded and partially unfolded forms of Aquifex aeolicus ribosomal protein L20 O67086 O67086 2.9 X-RAY DIFFRACTION 103 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 90 90 2ghj-a2-m1-cB_2ghj-a2-m1-cE SRSYRRAKEAVRALYYQYRDRKLRKREFRRLWIARINAAVRAYGLNYSTFINGLKKAGIELDRKILADAVRDPQAFEQVVNKVKEALQVQ SRSYRRAKEAVRALYYQYRDRKLRKREFRRLWIARINAAVRAYGLNYSTFINGLKKAGIELDRKILADAVRDPQAFEQVVNKVKEALQVQ 2ghj-a5-m1-cE_2ghj-a5-m1-cA Crystal structure of folded and partially unfolded forms of Aquifex aeolicus ribosomal protein L20 O67086 O67086 2.9 X-RAY DIFFRACTION 14 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 90 99 2ghj-a3-m1-cB_2ghj-a3-m1-cD 2ghj-a3-m1-cE_2ghj-a3-m1-cA 2ghj-a4-m1-cB_2ghj-a4-m1-cD SRSYRRAKEAVRALYYQYRDRKLRKREFRRLWIARINAAVRAYGLNYSTFINGLKKAGIELDRKILADAVRDPQAFEQVVNKVKEALQVQ LAKGYRGQRSRSYRRAKEAVRALYYQYRDRKLRKREFRRLWIARINAAVRAYGLNYSTFINGLKKAGIELDRKILADAVRDPQAFEQVVNKVKEALQVQ 2ghp-a2-m1-cE_2ghp-a2-m1-cH Crystal structure of the N-terminal 3 RNA binding domains of the yeast splicing factor Prp24 P49960 P49960 2.7 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 228 228 2ghp-a1-m1-cA_2ghp-a1-m1-cD 2ghp-a1-m1-cC_2ghp-a1-m1-cB 2ghp-a2-m1-cG_2ghp-a2-m1-cF TTVLVKNLPKSYNQNKVYKYFKHCGPIIHVDVADSLKKNFRFARIEFARYDGALAAITKTHKVVGQNEIIVSHLTECTLWTNFPPSYTQRNIRDLLQDINVVALSIRLPRRFAYIDVTSKEDARYCVEKLNGLKIEGYTLVTKVSNPLTLEGREIIRNLSTELLDENLLRESFEGFGSIEKINIPAGQKFNNCCAFVFENKDSAERALQNRSLLGNREISVSLADKKP TTVLVKNLPKSYNQNKVYKYFKHCGPIIHVDVADSLKKNFRFARIEFARYDGALAAITKTHKVVGQNEIIVSHLTECTLWTNFPPSYTQRNIRDLLQDINVVALSIRLPRRFAYIDVTSKEDARYCVEKLNGLKIEGYTLVTKVSNPLTLEGREIIRNLSTELLDENLLRESFEGFGSIEKINIPAGQKFNNCCAFVFENKDSAERALQNRSLLGNREISVSLADKKP 2ghp-a2-m1-cG_2ghp-a2-m1-cH Crystal structure of the N-terminal 3 RNA binding domains of the yeast splicing factor Prp24 P49960 P49960 2.7 X-RAY DIFFRACTION 47 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 228 228 2ghp-a1-m1-cA_2ghp-a1-m1-cB 2ghp-a1-m1-cC_2ghp-a1-m1-cD 2ghp-a2-m1-cE_2ghp-a2-m1-cF TTVLVKNLPKSYNQNKVYKYFKHCGPIIHVDVADSLKKNFRFARIEFARYDGALAAITKTHKVVGQNEIIVSHLTECTLWTNFPPSYTQRNIRDLLQDINVVALSIRLPRRFAYIDVTSKEDARYCVEKLNGLKIEGYTLVTKVSNPLTLEGREIIRNLSTELLDENLLRESFEGFGSIEKINIPAGQKFNNCCAFVFENKDSAERALQNRSLLGNREISVSLADKKP TTVLVKNLPKSYNQNKVYKYFKHCGPIIHVDVADSLKKNFRFARIEFARYDGALAAITKTHKVVGQNEIIVSHLTECTLWTNFPPSYTQRNIRDLLQDINVVALSIRLPRRFAYIDVTSKEDARYCVEKLNGLKIEGYTLVTKVSNPLTLEGREIIRNLSTELLDENLLRESFEGFGSIEKINIPAGQKFNNCCAFVFENKDSAERALQNRSLLGNREISVSLADKKP 2ghp-a2-m1-cH_2ghp-a2-m1-cF Crystal structure of the N-terminal 3 RNA binding domains of the yeast splicing factor Prp24 P49960 P49960 2.7 X-RAY DIFFRACTION 44 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 228 235 2ghp-a1-m1-cA_2ghp-a1-m1-cC 2ghp-a1-m1-cD_2ghp-a1-m1-cB 2ghp-a2-m1-cE_2ghp-a2-m1-cG TTVLVKNLPKSYNQNKVYKYFKHCGPIIHVDVADSLKKNFRFARIEFARYDGALAAITKTHKVVGQNEIIVSHLTECTLWTNFPPSYTQRNIRDLLQDINVVALSIRLPRRFAYIDVTSKEDARYCVEKLNGLKIEGYTLVTKVSNPLTLEGREIIRNLSTELLDENLLRESFEGFGSIEKINIPAGQKFNNCCAFVFENKDSAERALQNRSLLGNREISVSLADKKP TTVLVKNLPKSYNQNKVYKYFKHCGPIIHVDVADSLKKNFRFARIEFARYDGALAAITKTHKVVGQNEIIVSHLTECTLWTNFPPSYTQRNIRDLLQDINVVALSIRLPSLRFNTSRRFAYIDVTSKEDARYCVEKLNGLKIEGYTLVTKVSNPLTLEGREIIRNLSTELLDENLLRESFEGFGSIEKINIPAGQKFNNCCAFVFENKDSAERALQNRSLLGNREISVSLADKKP 2gi3-a1-m1-cA_2gi3-a1-m2-cA Crystal structure of Glutamyl-tRNA(Gln) amidotransferase subunit A (tm1272) from THERMOTOGA MARITIMA at 1.80 A resolution Q9X0Z9 Q9X0Z9 1.8 X-RAY DIFFRACTION 77 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 441 441 GIDLDFRKLTIEECLKLSEEEREKLPQLSLETIKRLDPHVKAFISVRENVSVEKKGKFWGIPVAIKDNILTLGRTTCASRILENYESVFDATVVKKKEAGFVVVGKANLDEFAGSSTERSAFFPTRNPWDLERVPGGSSGGSAAAVSAGVVAALGSDTGGSVRQPASLCGVVGYKPTYGLVSRYGLVAFASSLDQIGPITKTVRDAAILEIISGRDENDATTVNRKVDFLSEIEEGVSGKFAVPEEIYEHDIEEGVSERFEEALKLLERLGAKVERVKIPHIKYSVATYYVIAPAEASSNTRNVGFGEEVRRRIIGTFTLSAAYYEAYFNKAKVRRKISDELNEVLSQYDAILTPTSPVTAFKIGEIKDPLTYYLDIFTIPANLAGLPAISVPFGFSNNLPVGVQVIGRRFADGKVFRIARAIEKNSPYNENGFPLPEVKA GIDLDFRKLTIEECLKLSEEEREKLPQLSLETIKRLDPHVKAFISVRENVSVEKKGKFWGIPVAIKDNILTLGRTTCASRILENYESVFDATVVKKKEAGFVVVGKANLDEFAGSSTERSAFFPTRNPWDLERVPGGSSGGSAAAVSAGVVAALGSDTGGSVRQPASLCGVVGYKPTYGLVSRYGLVAFASSLDQIGPITKTVRDAAILEIISGRDENDATTVNRKVDFLSEIEEGVSGKFAVPEEIYEHDIEEGVSERFEEALKLLERLGAKVERVKIPHIKYSVATYYVIAPAEASSNTRNVGFGEEVRRRIIGTFTLSAAYYEAYFNKAKVRRKISDELNEVLSQYDAILTPTSPVTAFKIGEIKDPLTYYLDIFTIPANLAGLPAISVPFGFSNNLPVGVQVIGRRFADGKVFRIARAIEKNSPYNENGFPLPEVKA 2gi7-a1-m1-cB_2gi7-a1-m1-cA Crystal structure of human platelet Glycoprotein VI (GPVI) Q9HCN6 Q9HCN6 2.4 X-RAY DIFFRACTION 42 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 167 182 GQSGPLPKPSLQALPSSLVPLEKPVTLRCQGPPGVDLYRLEKLSSSRYQDQAVLFIPAMKRSLAGRYRCSYQNGSLWSLPSDQLELVATGVFAKPSLSAGDVTLQCQTRYGFDQFALYKEGERWYRASFPIITVTAAHSGTYRCYSFSSRDPYLWSAPSDPLELVVT SGPLPKPSLQALPSSLVPLEKPVTLRCQGPPGVDLYRLEKLSSSRYQDQAVLFIPAMKRSLAGRYRCSYQNGSLWSLPSDQLELVATGVFAKPSLSAQPGPAVSSGGDVTLQCQTRYGFDQFALYKEGDPAPYKNPERWYRASFPIITVTAAHSGTYRCYSFSSRDPYLWSAPSDPLELVVT 2gib-a2-m1-cA_2gib-a2-m2-cA Crystal structure of the SARS coronavirus nucleocapsid protein dimerization domain P59595 P59595 1.75 X-RAY DIFFRACTION 29 1.0 97 97 NVTQAFGRRGPEQTQGNFGDQDLIRQGTDYKHWPQIAQFAPSASAFFGMSRIGMEVTPSGTWLTYHGAIKLDDKDPQFKDNVILLNKHIDAYKTFPP NVTQAFGRRGPEQTQGNFGDQDLIRQGTDYKHWPQIAQFAPSASAFFGMSRIGMEVTPSGTWLTYHGAIKLDDKDPQFKDNVILLNKHIDAYKTFPP 2gib-a3-m1-cA_2gib-a3-m3-cA Crystal structure of the SARS coronavirus nucleocapsid protein dimerization domain P59595 P59595 1.75 X-RAY DIFFRACTION 24 1.0 97 97 NVTQAFGRRGPEQTQGNFGDQDLIRQGTDYKHWPQIAQFAPSASAFFGMSRIGMEVTPSGTWLTYHGAIKLDDKDPQFKDNVILLNKHIDAYKTFPP NVTQAFGRRGPEQTQGNFGDQDLIRQGTDYKHWPQIAQFAPSASAFFGMSRIGMEVTPSGTWLTYHGAIKLDDKDPQFKDNVILLNKHIDAYKTFPP 2giu-a1-m1-cA_2giu-a1-m2-cA Human estrogen receptor beta ligand-binding domain in complex with compound 45 Q92731 Q92731 2.2 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 225 LDALSPEQLVLTLLEAEPPHVLISRPASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMYPLVADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMVVPVYDLLLEMLNAHVL LDALSPEQLVLTLLEAEPPHVLISRPASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMYPLVADSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMVVPVYDLLLEMLNAHVL 2giy-a1-m1-cB_2giy-a1-m1-cA Crystal Structure of the C-terminal domain of the HSV-1 gE ectodomain P04488 Q703E9 1.78 X-RAY DIFFRACTION 86 1.0 10306 (Human alphaherpesvirus 1 strain KOS) 10306 (Human alphaherpesvirus 1 strain KOS) 178 179 VRGVTVRMETPEAILFSPGETFSTNVSIHAIAHDDQTYSMDVVWLRFDVPTSCAEMRIYESCLYHPQLPECLSPADAPCAASTWTSRLAVRSYAGCSRTNPPPRCSAEAHMEPVPGLAWQAASVNLEFRDASPQHSGLYLCVVYVNDHIHAWGHITISTAAQYRNAVVEQPLDIEGRG HVRGVTVRMETPEAILFSPGETFSTNVSIHAIAHDDQTYSMDVVWLRFDVPTSCAEMRIYESCLYHPQLPECLSPADAPCAASTWTSRLAVRSYAGCSRTNPPPRCSAEAHMEPVPGLAWQAASVNLEFRDASPQHSGLYLCVVYVNDHIHAWGHITISTAAQYRNAVVEQPLDIEGRG 2gj2-a2-m1-cB_2gj2-a2-m1-cC Crystal Structure of VP9 from White Spot Syndrome Virus Q91LD0 Q91LD0 2.35 X-RAY DIFFRACTION 24 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 79 79 2gj2-a1-m1-cA_2gj2-a1-m1-cD ATFQTDADFLLVGDDTSRYEEVMKTFDTVEAVRKSDLDDRVYMVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPMIVPT ATFQTDADFLLVGDDTSRYEEVMKTFDTVEAVRKSDLDDRVYMVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPMIVPT 2gj2-a3-m1-cA_2gj2-a3-m3-cD Crystal Structure of VP9 from White Spot Syndrome Virus Q91LD0 Q91LD0 2.35 X-RAY DIFFRACTION 17 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 79 79 2gj2-a3-m1-cB_2gj2-a3-m2-cC ATFQTDADFLLVGDDTSRYEEVMKTFDTVEAVRKSDLDDRVYMVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPMIVPT ATFQTDADFLLVGDDTSRYEEVMKTFDTVEAVRKSDLDDRVYMVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPMIVPT 2gj2-a5-m1-cD_2gj2-a5-m5-cB Crystal Structure of VP9 from White Spot Syndrome Virus Q91LD0 Q91LD0 2.35 X-RAY DIFFRACTION 52 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 79 79 2gj2-a3-m1-cA_2gj2-a3-m2-cC 2gj2-a3-m1-cB_2gj2-a3-m3-cD 2gj2-a4-m1-cC_2gj2-a4-m4-cA ATFQTDADFLLVGDDTSRYEEVMKTFDTVEAVRKSDLDDRVYMVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPMIVPT ATFQTDADFLLVGDDTSRYEEVMKTFDTVEAVRKSDLDDRVYMVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPMIVPT 2gj3-a3-m7-cB_2gj3-a3-m8-cB Crystal structure of the FAD-containing PAS domain of the protein NifL from Azotobacter vinelandii. P30663 P30663 1.04 X-RAY DIFFRACTION 43 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 119 119 2gj3-a3-m1-cA_2gj3-a3-m7-cA 2gj3-a3-m1-cA_2gj3-a3-m8-cA 2gj3-a3-m1-cB_2gj3-a3-m7-cB 2gj3-a3-m1-cB_2gj3-a3-m8-cB 2gj3-a3-m7-cA_2gj3-a3-m8-cA ELLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSEL ELLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSEL 2gj3-a4-m2-cB_2gj3-a4-m3-cB Crystal structure of the FAD-containing PAS domain of the protein NifL from Azotobacter vinelandii. P30663 P30663 1.04 X-RAY DIFFRACTION 10 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 119 119 2gj3-a2-m1-cB_2gj3-a2-m2-cB 2gj3-a2-m1-cB_2gj3-a2-m3-cB 2gj3-a2-m2-cB_2gj3-a2-m3-cB 2gj3-a2-m4-cB_2gj3-a2-m5-cB 2gj3-a2-m4-cB_2gj3-a2-m6-cB 2gj3-a2-m5-cB_2gj3-a2-m6-cB 2gj3-a4-m1-cB_2gj3-a4-m2-cB 2gj3-a4-m1-cB_2gj3-a4-m3-cB ELLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSEL ELLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSEL 2gj3-a5-m1-cA_2gj3-a5-m6-cA Crystal structure of the FAD-containing PAS domain of the protein NifL from Azotobacter vinelandii. P30663 P30663 1.04 X-RAY DIFFRACTION 29 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 119 119 2gj3-a2-m1-cA_2gj3-a2-m6-cA 2gj3-a2-m2-cA_2gj3-a2-m5-cA 2gj3-a2-m3-cA_2gj3-a2-m4-cA LLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSELH LLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSELH 2gj3-a6-m9-cA_2gj3-a6-m9-cB Crystal structure of the FAD-containing PAS domain of the protein NifL from Azotobacter vinelandii. P30663 P30663 1.04 X-RAY DIFFRACTION 69 0.992 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 119 119 2gj3-a1-m1-cA_2gj3-a1-m1-cB 2gj3-a2-m1-cA_2gj3-a2-m1-cB 2gj3-a2-m2-cA_2gj3-a2-m2-cB 2gj3-a2-m3-cA_2gj3-a2-m3-cB 2gj3-a2-m4-cA_2gj3-a2-m4-cB 2gj3-a2-m5-cA_2gj3-a2-m5-cB 2gj3-a2-m6-cA_2gj3-a2-m6-cB 2gj3-a3-m1-cA_2gj3-a3-m1-cB 2gj3-a3-m7-cA_2gj3-a3-m7-cB 2gj3-a3-m8-cA_2gj3-a3-m8-cB 2gj3-a4-m1-cA_2gj3-a4-m1-cB 2gj3-a4-m2-cA_2gj3-a4-m2-cB 2gj3-a4-m3-cA_2gj3-a4-m3-cB 2gj3-a5-m1-cA_2gj3-a5-m1-cB 2gj3-a5-m6-cA_2gj3-a5-m6-cB 2gj3-a6-m1-cA_2gj3-a6-m1-cB LLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSELH ELLPEIFRQTVEHAPIAISITDLKANILYANRAFRTITGYGSEEVLGKNESILSNGTTPRLVYQALWGRLAQKKPWSGVLVNRRKDKTLYLAELTVAPVLNEAGETIYYLGMHRDTSEL 2gj8-a1-m1-cB_2gj8-a1-m1-cA Structure of the MnmE G-domain in complex with GDP*AlF4-, Mg2+ and K+ P25522 P25522 1.7 X-RAY DIFFRACTION 38 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 155 156 2gj8-a2-m1-cC_2gj8-a2-m1-cD 2gj9-a1-m1-cB_2gj9-a1-m1-cA 2gj9-a2-m1-cD_2gj9-a2-m1-cC 2gja-a1-m1-cB_2gja-a1-m1-cA KVVIAGRPNAGKSSLLNALAGREAAIVTDIAGTTRDVLREHIHIDGPLHIIDTAGLREASDEVERIGIERAWQEIEQADRVLFVDGTTTDAVDPAEIWPEFIARLPAKLPITVVRNKADITGETLGSEVNGHALIRLSARTGEGVDVLRNHLKQS GKVVIAGRPNAGKSSLLNALAGREAAIVTDIAGTTRDVLREHIHIDGPLHIIDTAGLREASDEVERIGIERAWQEIEQADRVLFVDGTTTDAVDPAEIWPEFIARLPAKLPITVVRNKADITGETLGSEVNGHALIRLSARTGEGVDVLRNHLKQS 2gjd-a1-m1-cA_2gjd-a1-m1-cB Distinct functional domains of Ubc9 dictate cell survival and resistance to genotoxic stress P50623 P50623 1.75 X-RAY DIFFRACTION 14 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 155 156 SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK SSLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK 2gjd-a1-m1-cA_2gjd-a1-m1-cC Distinct functional domains of Ubc9 dictate cell survival and resistance to genotoxic stress P50623 P50623 1.75 X-RAY DIFFRACTION 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 155 155 SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK 2gjd-a1-m1-cA_2gjd-a1-m1-cD Distinct functional domains of Ubc9 dictate cell survival and resistance to genotoxic stress P50623 P50623 1.75 X-RAY DIFFRACTION 13 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 155 155 SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK 2gjd-a1-m1-cC_2gjd-a1-m1-cD Distinct functional domains of Ubc9 dictate cell survival and resistance to genotoxic stress P50623 P50623 1.75 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 155 155 SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK SLCLQRLQEERKKWRKDHPFGFYAKPVKKADGSMDLQKWEAGIPGKEGTNWAGGVYPITVEYPNEYPSKPPKVKFPAGFYHPNVYPSGTICLSILNEDQDWRPAITLKQIVLGVQDLLDSPNPNSPAQEPAWRSFSRNKAEYDKKVLLQAKQYSK 2gjg-a1-m1-cA_2gjg-a1-m2-cA CRYSTAL STRUCTURE OF A PILZ-CONTAINING PROTEIN (PP4397) FROM PSEUDOMONAS PUTIDA KT2440 AT 2.25 A RESOLUTION Q88EQ6 Q88EQ6 2.25 X-RAY DIFFRACTION 103 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 243 243 FNESDAPQPPKVLSTPLEIAANLRQLQESHDPLIITFHDRSHRFQSYVVHVDRESNTLALDEIPRDGEKFIENGEHFRVEGFHDGVRIAWECDHALKISEVDGHRCYSGPLPQEVTYHQRRNAFRAALKLSQLVDIILDGAHLKGNGARGKLLDISATGCKLRFEGNVEDRLQLGQVYERFKAGNPLGLVDTVELRHLHYEERINTTFAGVRFHNLSGQAQRKIESFVYQLQREARRFDKDDY FNESDAPQPPKVLSTPLEIAANLRQLQESHDPLIITFHDRSHRFQSYVVHVDRESNTLALDEIPRDGEKFIENGEHFRVEGFHDGVRIAWECDHALKISEVDGHRCYSGPLPQEVTYHQRRNAFRAALKLSQLVDIILDGAHLKGNGARGKLLDISATGCKLRFEGNVEDRLQLGQVYERFKAGNPLGLVDTVELRHLHYEERINTTFAGVRFHNLSGQAQRKIESFVYQLQREARRFDKDDY 2gjh-a1-m1-cA_2gjh-a1-m1-cB NMR Structure of CFr (C-terminal fragment of computationally designed novel-topology protein Top7) NOT SOLUTION NMR 38 1.0 57 57 ERVRISITARTKKEAEKFAAILIKVFAELGYNDINVTWDGDTVTVEGQLEGGSLEHH ERVRISITARTKKEAEKFAAILIKVFAELGYNDINVTWDGDTVTVEGQLEGGSLEHH 2gjl-a2-m1-cA_2gjl-a2-m2-cA Crystal Structure of 2-nitropropane dioxygenase Q9I4V0 Q9I4V0 2 X-RAY DIFFRACTION 141 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 324 324 2gjn-a2-m1-cA_2gjn-a2-m2-cA 6e2a-a1-m1-cA_6e2a-a1-m2-cA VFRTRFTETFGVEHPIMQGGMQWVGRAEMAAAVANAGGLATLSALTQPSPEALAAEIARCRELTDRPFGVNLTLLPTQKPVPYAEYRAAIIEAGIRVVETAGNDPGEHIAEFRRHGVKVIHKCTAVRHALKAERLGVDAVSIDGFECAGHPGEDDIPGLVLLPAAANRLRVPIIASGGFADGRGLVAALALGADAINMGTRFLATRECPIHPAVKAAIRAADERSTDLIMRSLRNTARVARNAISQEVLAIEARGGAGYADIAALVSGQRGRQVYQQGDTDLGIWSAGMVQGLIDDEPACAELLRDIVEQARQLVRQRLEGMLA VFRTRFTETFGVEHPIMQGGMQWVGRAEMAAAVANAGGLATLSALTQPSPEALAAEIARCRELTDRPFGVNLTLLPTQKPVPYAEYRAAIIEAGIRVVETAGNDPGEHIAEFRRHGVKVIHKCTAVRHALKAERLGVDAVSIDGFECAGHPGEDDIPGLVLLPAAANRLRVPIIASGGFADGRGLVAALALGADAINMGTRFLATRECPIHPAVKAAIRAADERSTDLIMRSLRNTARVARNAISQEVLAIEARGGAGYADIAALVSGQRGRQVYQQGDTDLGIWSAGMVQGLIDDEPACAELLRDIVEQARQLVRQRLEGMLA 2gjt-a3-m1-cB_2gjt-a3-m1-cA Crystal structure of the human receptor phosphatase PTPRO Q16827 Q16827 2.15 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 277 295 SMNPVQLDDFDAYIKDMAKDSDYKFSLQFEELKLIGLDIPHFAADLPLNRCKNRYTNILPYDFSRVRLVGADYINANYIPGYNSPQEYIATQGPLPETRNDFWKMVLQQKSQIIVMLTQCNEKRRVKCDHYWPFTEEPIAYGDITVEMISEEEQDDWACRHFRINYADEMQDVMHFNYTAWPDANAAESILQFVHMVRQQATKSKGPMIIHCSAGVGRTGTFIALDRLLQHIRDHEFVDILGLVSEMRSYRMSMVQTEEQYIFIHQCVQLMWMKKKQ SMNPVQLDDFDAYIKDMAKDSDYKFSLQFEELKLIGLDIPHFAADLPLNRCKNRYTNILPYDFSRVRLVSMNEEEGADYINANYIPGYNSPQEYIATQGPLPETRNDFWKMVLQQKSQIIVMLTQCNEKRRVKCDHYWPFTEEPIAYGDITVEMISEEEQDDWACRHFRINYADEMQDVMHFNYTAWPDHGVPTANAAESILQFVHMVRQQATKSKGPMIIHCSAGVGRTGTFIALDRLLQHIRDHEFVDILGLVSEMRSYRMSMVQTEEQYIFIHQCVQLMWMKKKQQFCISDV 2gju-a3-m1-cD_2gju-a3-m3-cD Crystal structure of hypothetical protein PH1004 from Pyrococcus horikoshii OT3 O58732 O58732 2 X-RAY DIFFRACTION 50 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 252 252 2gju-a1-m1-cA_2gju-a1-m1-cB 2gju-a2-m1-cC_2gju-a2-m2-cC MVYVAVLANIAGNFPALTAALEKIEELKEEGYEIEKYYILGNIVGLFPYPREVIEAIKNLAKTSNVKVIRGKYDQLIAMSDPHAGDPKYIDKLEIPDHLKATLKYTWEKLGHEGREYLRDLPIYLVDKIGKNEIFGVYGSPVNPFDGEILPDQPTSYYEAIMRPVKEYEMLLVASPRYPLDAMTMYGRVVCPGSIGFPPAREHKATFALVDAETLKVKFIEVEYDKKIIEDRIKLEKLPEEVIKILYHGGKA MVYVAVLANIAGNFPALTAALEKIEELKEEGYEIEKYYILGNIVGLFPYPREVIEAIKNLAKTSNVKVIRGKYDQLIAMSDPHAGDPKYIDKLEIPDHLKATLKYTWEKLGHEGREYLRDLPIYLVDKIGKNEIFGVYGSPVNPFDGEILPDQPTSYYEAIMRPVKEYEMLLVASPRYPLDAMTMYGRVVCPGSIGFPPAREHKATFALVDAETLKVKFIEVEYDKKIIEDRIKLEKLPEEVIKILYHGGKA 2gjv-a2-m1-cB_2gjv-a2-m2-cF Crystal Structure of a Protein of Unknown Function from Salmonella typhimurium Q8ZKJ0 Q8ZKJ0 2.39 X-RAY DIFFRACTION 21 1.0 136 136 2gjv-a2-m1-cA_2gjv-a2-m2-cA 2gjv-a2-m1-cC_2gjv-a2-m2-cE 2gjv-a2-m1-cD_2gjv-a2-m2-cD 2gjv-a2-m1-cE_2gjv-a2-m2-cC 2gjv-a2-m1-cF_2gjv-a2-m2-cB NAMETLSVIHTVANRLRELNPDMDIHISSTDAKVYIPTGQQVTVLIHYCGSVFAEPENTDATVQKQLIRISATVIVPQISDAINALDRLRRSLGGIELPDCDRPLWLESEKYIGDAANFCRYALDMTASTLFIAEQ NAMETLSVIHTVANRLRELNPDMDIHISSTDAKVYIPTGQQVTVLIHYCGSVFAEPENTDATVQKQLIRISATVIVPQISDAINALDRLRRSLGGIELPDCDRPLWLESEKYIGDAANFCRYALDMTASTLFIAEQ 2gjv-a2-m2-cA_2gjv-a2-m2-cF Crystal Structure of a Protein of Unknown Function from Salmonella typhimurium Q8ZKJ0 Q8ZKJ0 2.39 X-RAY DIFFRACTION 59 1.0 136 136 2gjv-a1-m1-cA_2gjv-a1-m1-cB 2gjv-a1-m1-cA_2gjv-a1-m1-cF 2gjv-a1-m1-cB_2gjv-a1-m1-cC 2gjv-a1-m1-cC_2gjv-a1-m1-cD 2gjv-a1-m1-cD_2gjv-a1-m1-cE 2gjv-a1-m1-cE_2gjv-a1-m1-cF 2gjv-a2-m1-cA_2gjv-a2-m1-cB 2gjv-a2-m1-cA_2gjv-a2-m1-cF 2gjv-a2-m1-cB_2gjv-a2-m1-cC 2gjv-a2-m1-cC_2gjv-a2-m1-cD 2gjv-a2-m1-cD_2gjv-a2-m1-cE 2gjv-a2-m1-cE_2gjv-a2-m1-cF 2gjv-a2-m2-cA_2gjv-a2-m2-cB 2gjv-a2-m2-cB_2gjv-a2-m2-cC 2gjv-a2-m2-cC_2gjv-a2-m2-cD 2gjv-a2-m2-cD_2gjv-a2-m2-cE 2gjv-a2-m2-cE_2gjv-a2-m2-cF NAMETLSVIHTVANRLRELNPDMDIHISSTDAKVYIPTGQQVTVLIHYCGSVFAEPENTDATVQKQLIRISATVIVPQISDAINALDRLRRSLGGIELPDCDRPLWLESEKYIGDAANFCRYALDMTASTLFIAEQ NAMETLSVIHTVANRLRELNPDMDIHISSTDAKVYIPTGQQVTVLIHYCGSVFAEPENTDATVQKQLIRISATVIVPQISDAINALDRLRRSLGGIELPDCDRPLWLESEKYIGDAANFCRYALDMTASTLFIAEQ 2gjx-a6-m1-cE_2gjx-a6-m1-cH Crystallographic structure of human beta-Hexosaminidase A P06865 P06865 2.8 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 492 492 2gjx-a5-m1-cA_2gjx-a5-m1-cD 2gk1-a4-m1-cI_2gk1-a4-m1-cJ 2gk1-a5-m1-cK_2gk1-a5-m1-cL LWPWPQNFQTSDQRYVLYPNNFQFQYDVSSAAQPGCSVLDEAFQRYRDLLFGTLEKNVLVVSVVTPGCNQLPTLESVENYTLTINDDQCLLLSETVWGALRGLETFSQLVWKSAEGTFFINKTEIEDFPRFPHRGLLLDTSRHYLPLSSILDTLDVMAYNKLNVFHWHLVDDPSFPYESFTFPELMRKGSYNPVTHIYTAQDVKEVIEYARLRGIRVLAEFDTPGHTLSWGPGIPGLLTPCYSGSEPSGTFGPVNPSLNNTYEFMSTFFLEVSSVFPDFYLHLGGDEVDFTCWKSNPEIQDFMRKKGFGEDFKQLESFYIQTLLDIVSSYGKGYVVWQEVFDNKVKIQPDTIIQVWREDIPVNYMKELELVTKAGFRALLSAPWYLNRISYGPDWKDFYVVEPLAFEGTPEQKALVIGGEACMWGEYVDNTNLVPRLWPRAGAVAERLWSNKLTSDLTFAYERLSHFRCELLRRGVQAQPLNVGFCEQEFEQ LWPWPQNFQTSDQRYVLYPNNFQFQYDVSSAAQPGCSVLDEAFQRYRDLLFGTLEKNVLVVSVVTPGCNQLPTLESVENYTLTINDDQCLLLSETVWGALRGLETFSQLVWKSAEGTFFINKTEIEDFPRFPHRGLLLDTSRHYLPLSSILDTLDVMAYNKLNVFHWHLVDDPSFPYESFTFPELMRKGSYNPVTHIYTAQDVKEVIEYARLRGIRVLAEFDTPGHTLSWGPGIPGLLTPCYSGSEPSGTFGPVNPSLNNTYEFMSTFFLEVSSVFPDFYLHLGGDEVDFTCWKSNPEIQDFMRKKGFGEDFKQLESFYIQTLLDIVSSYGKGYVVWQEVFDNKVKIQPDTIIQVWREDIPVNYMKELELVTKAGFRALLSAPWYLNRISYGPDWKDFYVVEPLAFEGTPEQKALVIGGEACMWGEYVDNTNLVPRLWPRAGAVAERLWSNKLTSDLTFAYERLSHFRCELLRRGVQAQPLNVGFCEQEFEQ 2gk2-a4-m2-cA_2gk2-a4-m3-cA Crystal structure of the N terminal domain of human CEACAM1 P13688 P13688 2.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 2gk2-a3-m1-cA_2gk2-a3-m2-cA 2gk2-a3-m1-cA_2gk2-a3-m3-cA 2gk2-a3-m2-cA_2gk2-a3-m3-cA 2gk2-a4-m1-cA_2gk2-a4-m2-cA 2gk2-a4-m1-cA_2gk2-a4-m3-cA GAQLTTESMPFNVAEGKEVLLLVHNLPQQLFGYSWYKGERVDGNRQIVGYAIGTQQATPGPANSGRETIYPNASLLIQNVTQNDTGFYTLQVIKSDLVNEEATGQFHVY GAQLTTESMPFNVAEGKEVLLLVHNLPQQLFGYSWYKGERVDGNRQIVGYAIGTQQATPGPANSGRETIYPNASLLIQNVTQNDTGFYTLQVIKSDLVNEEATGQFHVY 2gk2-a4-m3-cA_2gk2-a4-m3-cB Crystal structure of the N terminal domain of human CEACAM1 P13688 P13688 2.2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 111 2gk2-a4-m1-cA_2gk2-a4-m1-cB 2gk2-a4-m2-cA_2gk2-a4-m2-cB GAQLTTESMPFNVAEGKEVLLLVHNLPQQLFGYSWYKGERVDGNRQIVGYAIGTQQATPGPANSGRETIYPNASLLIQNVTQNDTGFYTLQVIKSDLVNEEATGQFHVY SGGAQLTTESMPFNVAEGKEVLLLVHNLPQQLFGYSWYKGERVDGNRQIVGYAIGTQQATPGPANSGRETIYPNASLLIQNVTQNDTGFYTLQVIKSDLVNEEATGQFHVY 2gk2-a5-m1-cA_2gk2-a5-m5-cB Crystal structure of the N terminal domain of human CEACAM1 P13688 P13688 2.2 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 111 2gk2-a3-m1-cA_2gk2-a3-m5-cB 2gk2-a3-m2-cA_2gk2-a3-m6-cB 2gk2-a3-m3-cA_2gk2-a3-m4-cB 4qxw-a1-m1-cA_4qxw-a1-m1-cB 4whd-a1-m1-cA_4whd-a1-m1-cB 5dzl-a1-m1-cA_5dzl-a1-m1-cB 5dzl-a2-m1-cC_5dzl-a2-m1-cD 6xno-a1-m1-cA_6xno-a1-m1-cB 6xnt-a1-m1-cA_6xnt-a1-m1-cB 6xnw-a1-m1-cA_6xnw-a1-m1-cB 6xnw-a2-m1-cC_6xnw-a2-m1-cD 7mu8-a1-m1-cA_7mu8-a1-m1-cB 7rpp-a1-m1-cA_7rpp-a1-m2-cA 7rpp-a2-m1-cB_7rpp-a2-m1-cC GAQLTTESMPFNVAEGKEVLLLVHNLPQQLFGYSWYKGERVDGNRQIVGYAIGTQQATPGPANSGRETIYPNASLLIQNVTQNDTGFYTLQVIKSDLVNEEATGQFHVY SGGAQLTTESMPFNVAEGKEVLLLVHNLPQQLFGYSWYKGERVDGNRQIVGYAIGTQQATPGPANSGRETIYPNASLLIQNVTQNDTGFYTLQVIKSDLVNEEATGQFHVY 2gk3-a1-m1-cA_2gk3-a1-m1-cF Cytoplasmic Protein STM3548 from Salmonella typhimurium Q8ZLF9 Q8ZLF9 2.25 X-RAY DIFFRACTION 31 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 239 239 2gk3-a1-m1-cB_2gk3-a1-m1-cE 2gk3-a1-m1-cC_2gk3-a1-m1-cD LKVLFIGESWHIHIHSKGYDSFTSSKYEEGATWLLECLRKGGVDIDYPAHTVQIAFPESIDELNRYDVIVISDIGSNTFLLQNETFYQLKIKPNALESIKEYVKNGGGLLIGGYLSFGIEAKANYKNTVLAEVLPVILDGDDRVEKPEGICAEAVSPEHPVVNGFSDYPVFLGYNQAVARDDADVVLTINNDPLLVFGEYQQGKTACFSDCSPHWGTQQFSWPFYTDLWVNTLQFIARK LKVLFIGESWHIHIHSKGYDSFTSSKYEEGATWLLECLRKGGVDIDYPAHTVQIAFPESIDELNRYDVIVISDIGSNTFLLQNETFYQLKIKPNALESIKEYVKNGGGLLIGGYLSFGIEAKANYKNTVLAEVLPVILDGDDRVEKPEGICAEAVSPEHPVVNGFSDYPVFLGYNQAVARDDADVVLTINNDPLLVFGEYQQGKTACFSDCSPHWGTQQFSWPFYTDLWVNTLQFIARK 2gk3-a1-m1-cB_2gk3-a1-m1-cF Cytoplasmic Protein STM3548 from Salmonella typhimurium Q8ZLF9 Q8ZLF9 2.25 X-RAY DIFFRACTION 91 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 239 239 2gk3-a1-m1-cA_2gk3-a1-m1-cD 2gk3-a1-m1-cC_2gk3-a1-m1-cE LKVLFIGESWHIHIHSKGYDSFTSSKYEEGATWLLECLRKGGVDIDYPAHTVQIAFPESIDELNRYDVIVISDIGSNTFLLQNETFYQLKIKPNALESIKEYVKNGGGLLIGGYLSFGIEAKANYKNTVLAEVLPVILDGDDRVEKPEGICAEAVSPEHPVVNGFSDYPVFLGYNQAVARDDADVVLTINNDPLLVFGEYQQGKTACFSDCSPHWGTQQFSWPFYTDLWVNTLQFIARK LKVLFIGESWHIHIHSKGYDSFTSSKYEEGATWLLECLRKGGVDIDYPAHTVQIAFPESIDELNRYDVIVISDIGSNTFLLQNETFYQLKIKPNALESIKEYVKNGGGLLIGGYLSFGIEAKANYKNTVLAEVLPVILDGDDRVEKPEGICAEAVSPEHPVVNGFSDYPVFLGYNQAVARDDADVVLTINNDPLLVFGEYQQGKTACFSDCSPHWGTQQFSWPFYTDLWVNTLQFIARK 2gk3-a1-m1-cF_2gk3-a1-m1-cE Cytoplasmic Protein STM3548 from Salmonella typhimurium Q8ZLF9 Q8ZLF9 2.25 X-RAY DIFFRACTION 58 0.996 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 239 240 2gk3-a1-m1-cA_2gk3-a1-m1-cB 2gk3-a1-m1-cA_2gk3-a1-m1-cC 2gk3-a1-m1-cB_2gk3-a1-m1-cC 2gk3-a1-m1-cD_2gk3-a1-m1-cE 2gk3-a1-m1-cD_2gk3-a1-m1-cF LKVLFIGESWHIHIHSKGYDSFTSSKYEEGATWLLECLRKGGVDIDYPAHTVQIAFPESIDELNRYDVIVISDIGSNTFLLQNETFYQLKIKPNALESIKEYVKNGGGLLIGGYLSFGIEAKANYKNTVLAEVLPVILDGDDRVEKPEGICAEAVSPEHPVVNGFSDYPVFLGYNQAVARDDADVVLTINNDPLLVFGEYQQGKTACFSDCSPHWGTQQFSWPFYTDLWVNTLQFIARK KKLKVLFIGESWHIHIHSKGYDSFTSSKYEEGATWLLCLRKGGVDIDYPAHTVQIAFPESIDELNRYDVIVISDIGSNTFLLQNETFYQLKIKPNALESIKEYVKNGGGLLIGGYLSFGIEAKANYKNTVLAEVLPVILDGDDRVEKPEGICAEAVSPEHPVVNGFSDYPVFLGYNQAVARDDADVVLTINNDPLLVFGEYQQGKTACFSDCSPHWGTQQFSWPFYTDLWVNTLQFIARK 2gk4-a1-m1-cB_2gk4-a1-m1-cA The Crystal Structure of the DNA/Pantothenate Metabolism Flavoprotein from Streptococcus pneumoniae A0A0H2UQ78 A0A0H2UQ78 1.83 X-RAY DIFFRACTION 91 0.991 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 215 225 NAKILVTSGGTSEAIDSVRSITNHSTGHLGKIITETLLSAGYEVCLITTKRALKPEPHPNLSIREITNTKDLLIEQERVQDYQVLIHSAVSDYTPVYTGLEEVQASSNLKEFLSDEVQVLFLKKTPIISLVKEWNPTIHLIGFKLLVDVTEDHLVDIARKSLIKNQADLIIANDLTQISADQHRAIFVEKNQLQTVQTKEEIAELLLEKIQAYHS AKILVTSGGTSEAIDSVRSITNHSTGHLGKIITETLLSAGYEVCLITTKRALKPEPHPNLSIREITNTKDLLIEQERVQDYQVLIHSAVSDYTPVYTGLEEVQASSNLKEFLSKQNHQAKISSTDEVQVLFLKKTPKIISLVKEWNPTIHLIGFKLLVDVTEDHLVDIARKSLIKNQADLIIANDLTQISADQHRAIFVEKNQLQTVQTKEEIAELLLEKIQAYH 2gk9-a2-m1-cC_2gk9-a2-m1-cB Human Phosphatidylinositol-4-phosphate 5-kinase, type II, gamma Q8TBX8 Q8TBX8 2.8 X-RAY DIFFRACTION 65 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 245 250 2gk9-a1-m1-cA_2gk9-a1-m1-cD DPLVGVFLWGVAHSINELSQVPPPVMLLPDDFKASSKIKVNNHLFHRENLPSHFKFKEYCPQVFRNLRDRFGIDDQDYLVSLTRNPPSESRFLISYDRTLVIKEVSSEDIADMHSNLSNYHQYIVKCHGNTLLPQFLGMYRVSVDNEDSYMLVMRNMFSHRLPVHRKYDTLRDMLNKNQKVYIGEEEKKIFLEKLKRDVEFLVQLKIMDYSLLLGIHDIEVYFMGLIDILTHPEQYAKRFLDFIT DPLVGVFLWGVAHSINELSQVPPPVMLLPDDFKASSKIKVNNHLFHRENLPSHFKFKEYCPQVFRNLRDRFGIDDQDYLVSLTRNPPSESERFLISYDRTLVIKEVSSEDIADMHSNLSNYHQYIVKCHGNTLLPQFLGMYRVSVDNEDSYMLVMRNMFSHRLPVHRKYDLKGTLRDMDFLNKNQKVYIGEEEKKIFLEKLKRDVEFLVQLKIMDYSLLLGIHDIEVYFMGLIDILHPEQYAKRFLDFIT 2gki-a3-m2-cA_2gki-a3-m2-cB Heavy and light chain variable single domains of an anti-DNA binding antibody hydrolyze both double- and single-stranded DNAs without sequence specificity A0N274 A0N274 2.88 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 235 238 2gki-a3-m1-cA_2gki-a3-m1-cB EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHH EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSGSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHHH 2gki-a4-m1-cA_2gki-a4-m3-cA Heavy and light chain variable single domains of an anti-DNA binding antibody hydrolyze both double- and single-stranded DNAs without sequence specificity A0N274 A0N274 2.88 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 235 235 EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHH EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHH 2gki-a4-m1-cA_2gki-a4-m4-cB Heavy and light chain variable single domains of an anti-DNA binding antibody hydrolyze both double- and single-stranded DNAs without sequence specificity A0N274 A0N274 2.88 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 235 238 2gki-a4-m3-cA_2gki-a4-m2-cB EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHH EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSGSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHHH 2gki-a4-m3-cA_2gki-a4-m4-cB Heavy and light chain variable single domains of an anti-DNA binding antibody hydrolyze both double- and single-stranded DNAs without sequence specificity A0N274 A0N274 2.88 X-RAY DIFFRACTION 88 1.0 10090 (Mus musculus) 10090 (Mus musculus) 235 238 2gki-a3-m1-cA_2gki-a3-m2-cB 2gki-a3-m2-cA_2gki-a3-m1-cB 2gki-a4-m1-cA_2gki-a4-m2-cB EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHH EVQLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDGTKYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCARGAYKRGYAMDYWGQGTSVTVSSGSDLVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIKHHH 2gkm-a1-m1-cB_2gkm-a1-m1-cA Crystal structure of Mycobacterium tuberculosis trHbN TyrB10Phe mutant P9WN25 P9WN25 1.731 X-RAY DIFFRACTION 15 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 126 127 1idr-a1-m1-cB_1idr-a1-m1-cA 2gkn-a1-m1-cB_2gkn-a1-m1-cA 2gl3-a1-m1-cB_2gl3-a1-m1-cA 2gln-a1-m1-cA_2gln-a1-m1-cB GLLSRLRKREPISIYDKIGGHEAIEVVVEDFFVRVLADDQLSAFFSGTNMSRLKGKQVEFFAAALGGPEPYTGAPMKQVHQGRGITMHHFSLVAGHLADALTAAGVPSETITEILGVIAPLAVDVT GLLSRLRKREPISIYDKIGGHEAIEVVVEDFFVRVLADDQLSAFFSGTNMSRLKGKQVEFFAAALGGPEPYTGAPMKQVHQGRGITMHHFSLVAGHLADALTAAGVPSETITEILGVIAPLAVDVTS 2gks-a1-m1-cA_2gks-a1-m1-cB Crystal Structure of the Bi-functional ATP Sulfurylase-APS Kinase from Aquifex aeolicus, a Chemolithotrophic Thermophile O67174 O67174 2.31 X-RAY DIFFRACTION 93 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 522 529 IKYLKSIQISQRSVLDLELLAVGAFTPLDRFMGEEDYRNVVESMRLKSGTLFPIPITLPMEKEIAKDLKEGEWIVLRDPKNVPLAIMRVEEVYKWNLEYEAKNVLGTTDPRHPLVAEMHTWGEYYISGELKVIQLPKYYDFPEYRKTPKQVREEIKSLGLDKIVAFQTRNPMHRVHEELTKRAMEKVGGGLLLHPVVGLTKPGDVDVYTRMRIYKVLYEKYYDKKKTILAFLPLAMRMAGPREALWHGIIRRNYGATHFIVGRDHASPGKDSKGKPFYDPYEAQELFKKYEDEIGIKMVPFEELVYVPELDQYVEINEIRENFLKQGRKLPEWFTRPEVAEILAETYVPKHKQGFCVWLTGLPCAGKSTIAEILATMLQARGRKVTLLDGDVVRTHLSRGLGFSKEDRITNILRVGFVASEIVKHNGVVICALVSPYRSARNQVRNMMEEGKFIEVFVDAPVEVCEERDVKGLYKKAGFTGVDDPYEPPVAPEVRVDTTKLTPEESALKILEFLKKEGFIKD KIKYLKSIQISQRSVLDLELLAVGAFTPLDRFMGEEDYRNVVESMRLKSGTLFPIPITLPMEKEIAKDLKEGEWIVLRDPKNVPLAIMRVEEVYKWNLEYEAKNVLGTTDPRHPLVAEMHTWGEYYISGELKVIQLPKYYDFPEYRKTPKQVREEIKSLGLDKIVAFQTRNPMHRVHEELTKRAMEKVGGGLLLHPVVGLTKPGDVDVYTRMRIYKVLYEKYYDKKKTILAFLPLAMRMAGPREALWHGIIRRNYGATHFIVGRDHASPGKDSKGKPFYDPYEAQELFKKYEDEIGIKMVPFEELVYVPELDQYVEINEIRENFLKQGRKLPEWFTRPEVAEILAETYVPKHKQGFCVWLTGLPCAGKSTIAEILATMLQARGRKVTLLDGDVVRTHLSRGLGFSKEDRITNILRVGFVASEIVKHNGVVICALVSPYRSARNQVRNMMEEGKFIEVFVDAPVEVCEERDVKGLYKKAKEGLIKGFTGVDDPYEPPVAPEVRVDTTKLTPEESALKILEFLKKEGFIKD 2gl5-a1-m2-cA_2gl5-a1-m4-cB Crystal Structure of Putative Dehydratase from Salmonella Thyphimurium Q8ZNH1 Q8ZNH1 1.6 X-RAY DIFFRACTION 80 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 401 401 2gl5-a1-m1-cA_2gl5-a1-m3-cB 2gl5-a1-m1-cB_2gl5-a1-m4-cA 2gl5-a1-m2-cB_2gl5-a1-m3-cA 4e6m-a1-m1-cA_4e6m-a1-m1-cF 4e6m-a1-m1-cB_4e6m-a1-m1-cG 4e6m-a1-m1-cC_4e6m-a1-m1-cH 4e6m-a1-m1-cD_4e6m-a1-m1-cE SLKITSIEVFDCELKKRDQTMSSYNPVLIRVNTDSGLSGIGEVGLAYGAGAKAGVGIIRDLAPLIVGEDPLNIEKIWEFFFRKTFWGMGGGNVFYAGMSAIDIALWDIKGKYLGVPVYQLLGGKTNEKLRTYASQLQFGWGDKNHILVTPEEYAEAARAALDDGYDAIKVDPLEIDRNGDDCVFQNRNRNYSGLLLADQLKMGEARIAAMREAMGDDADIIVEIHSLLGTNSAIQFAKAIEKYRIFLYEEPIHPLNSDNMQKVSRSTTIPIATGERSYTRWGYRELLEKQSIAVAQPDLCLCGGITEGKKICDYANIYDTTVQVHVCGGPVSTVAALHMETAIPNFIIHEHHTNAMKASIRELCTHDYQPENGYYVAPEQPGLGQELNDEVVKEYLAYVIK SLKITSIEVFDCELKKRDQTMSSYNPVLIRVNTDSGLSGIGEVGLAYGAGAKAGVGIIRDLAPLIVGEDPLNIEKIWEFFFRKTFWGMGGGNVFYAGMSAIDIALWDIKGKYLGVPVYQLLGGKTNEKLRTYASQLQFGWGDKNHILVTPEEYAEAARAALDDGYDAIKVDPLEIDRNGDDCVFQNRNRNYSGLLLADQLKMGEARIAAMREAMGDDADIIVEIHSLLGTNSAIQFAKAIEKYRIFLYEEPIHPLNSDNMQKVSRSTTIPIATGERSYTRWGYRELLEKQSIAVAQPDLCLCGGITEGKKICDYANIYDTTVQVHVCGGPVSTVAALHMETAIPNFIIHEHHTNAMKASIRELCTHDYQPENGYYVAPEQPGLGQELNDEVVKEYLAYVIK 2gl5-a1-m2-cB_2gl5-a1-m4-cB Crystal Structure of Putative Dehydratase from Salmonella Thyphimurium Q8ZNH1 Q8ZNH1 1.6 X-RAY DIFFRACTION 47 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 401 401 2gl5-a1-m1-cA_2gl5-a1-m3-cA 2gl5-a1-m1-cA_2gl5-a1-m4-cA 2gl5-a1-m1-cB_2gl5-a1-m3-cB 2gl5-a1-m1-cB_2gl5-a1-m4-cB 2gl5-a1-m2-cA_2gl5-a1-m3-cA 2gl5-a1-m2-cA_2gl5-a1-m4-cA 2gl5-a1-m2-cB_2gl5-a1-m3-cB 4e6m-a1-m1-cA_4e6m-a1-m1-cE 4e6m-a1-m1-cA_4e6m-a1-m1-cG 4e6m-a1-m1-cB_4e6m-a1-m1-cF 4e6m-a1-m1-cB_4e6m-a1-m1-cH 4e6m-a1-m1-cC_4e6m-a1-m1-cE 4e6m-a1-m1-cC_4e6m-a1-m1-cG 4e6m-a1-m1-cD_4e6m-a1-m1-cF 4e6m-a1-m1-cD_4e6m-a1-m1-cH SLKITSIEVFDCELKKRDQTMSSYNPVLIRVNTDSGLSGIGEVGLAYGAGAKAGVGIIRDLAPLIVGEDPLNIEKIWEFFFRKTFWGMGGGNVFYAGMSAIDIALWDIKGKYLGVPVYQLLGGKTNEKLRTYASQLQFGWGDKNHILVTPEEYAEAARAALDDGYDAIKVDPLEIDRNGDDCVFQNRNRNYSGLLLADQLKMGEARIAAMREAMGDDADIIVEIHSLLGTNSAIQFAKAIEKYRIFLYEEPIHPLNSDNMQKVSRSTTIPIATGERSYTRWGYRELLEKQSIAVAQPDLCLCGGITEGKKICDYANIYDTTVQVHVCGGPVSTVAALHMETAIPNFIIHEHHTNAMKASIRELCTHDYQPENGYYVAPEQPGLGQELNDEVVKEYLAYVIK SLKITSIEVFDCELKKRDQTMSSYNPVLIRVNTDSGLSGIGEVGLAYGAGAKAGVGIIRDLAPLIVGEDPLNIEKIWEFFFRKTFWGMGGGNVFYAGMSAIDIALWDIKGKYLGVPVYQLLGGKTNEKLRTYASQLQFGWGDKNHILVTPEEYAEAARAALDDGYDAIKVDPLEIDRNGDDCVFQNRNRNYSGLLLADQLKMGEARIAAMREAMGDDADIIVEIHSLLGTNSAIQFAKAIEKYRIFLYEEPIHPLNSDNMQKVSRSTTIPIATGERSYTRWGYRELLEKQSIAVAQPDLCLCGGITEGKKICDYANIYDTTVQVHVCGGPVSTVAALHMETAIPNFIIHEHHTNAMKASIRELCTHDYQPENGYYVAPEQPGLGQELNDEVVKEYLAYVIK 2gl5-a1-m4-cA_2gl5-a1-m4-cB Crystal Structure of Putative Dehydratase from Salmonella Thyphimurium Q8ZNH1 Q8ZNH1 1.6 X-RAY DIFFRACTION 162 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 401 401 2gl5-a1-m1-cA_2gl5-a1-m1-cB 2gl5-a1-m2-cA_2gl5-a1-m2-cB 2gl5-a1-m3-cA_2gl5-a1-m3-cB 4e6m-a1-m1-cA_4e6m-a1-m1-cB 4e6m-a1-m1-cC_4e6m-a1-m1-cD 4e6m-a1-m1-cE_4e6m-a1-m1-cF 4e6m-a1-m1-cG_4e6m-a1-m1-cH 4e6m-a2-m1-cA_4e6m-a2-m1-cB 4e6m-a3-m1-cC_4e6m-a3-m1-cD 4e6m-a4-m1-cE_4e6m-a4-m1-cF 4e6m-a5-m1-cG_4e6m-a5-m1-cH SLKITSIEVFDCELKKRDQTMSSYNPVLIRVNTDSGLSGIGEVGLAYGAGAKAGVGIIRDLAPLIVGEDPLNIEKIWEFFFRKTFWGMGGGNVFYAGMSAIDIALWDIKGKYLGVPVYQLLGGKTNEKLRTYASQLQFGWGDKNHILVTPEEYAEAARAALDDGYDAIKVDPLEIDRNGDDCVFQNRNRNYSGLLLADQLKMGEARIAAMREAMGDDADIIVEIHSLLGTNSAIQFAKAIEKYRIFLYEEPIHPLNSDNMQKVSRSTTIPIATGERSYTRWGYRELLEKQSIAVAQPDLCLCGGITEGKKICDYANIYDTTVQVHVCGGPVSTVAALHMETAIPNFIIHEHHTNAMKASIRELCTHDYQPENGYYVAPEQPGLGQELNDEVVKEYLAYVIK SLKITSIEVFDCELKKRDQTMSSYNPVLIRVNTDSGLSGIGEVGLAYGAGAKAGVGIIRDLAPLIVGEDPLNIEKIWEFFFRKTFWGMGGGNVFYAGMSAIDIALWDIKGKYLGVPVYQLLGGKTNEKLRTYASQLQFGWGDKNHILVTPEEYAEAARAALDDGYDAIKVDPLEIDRNGDDCVFQNRNRNYSGLLLADQLKMGEARIAAMREAMGDDADIIVEIHSLLGTNSAIQFAKAIEKYRIFLYEEPIHPLNSDNMQKVSRSTTIPIATGERSYTRWGYRELLEKQSIAVAQPDLCLCGGITEGKKICDYANIYDTTVQVHVCGGPVSTVAALHMETAIPNFIIHEHHTNAMKASIRELCTHDYQPENGYYVAPEQPGLGQELNDEVVKEYLAYVIK 2glf-a1-m3-cA_2glf-a1-m3-cD Crystal structure of Aminipeptidase (M18 family) from Thermotoga Maritima Q9WYJ9 Q9WYJ9 2.8 X-RAY DIFFRACTION 263 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 437 437 2glf-a1-m1-cA_2glf-a1-m1-cD 2glf-a1-m1-cB_2glf-a1-m2-cC 2glf-a1-m1-cC_2glf-a1-m3-cB 2glf-a1-m2-cA_2glf-a1-m2-cD 2glf-a1-m2-cB_2glf-a1-m3-cC KERKNVWHHRKKEEIEAFSKEYEFSKAKTERTVKEIKRILDESGFVPLEDFAGDPNTVYAVNRGKAIAAFRVVDDLKRGLNLVVAHIDSPRLDFKPNPLIEDEQIALFKTHYYGGIKKYHWLSIPLEIHGVLFKNDGTEIEIHIGDKPEDPVFTIPDLLPHLDKEDAKISEKFKGENLLIAGTIPLSGEEKEAVKTNVLKILNEYGITEEDFVSGEIEVVPAFSPREVGDRSLIGAYGQDDRICAYTALRALLSANPEKSIGVIFFDKEEIGSDGNTGAKARFYLKALRQILKQGAKDSEFVLDEVLENTSVISGDVCAAVNPPYKDVHDLHNAPKLGYGVALVKYTGARGKYSTNDAHAEFVARVRKVLNEQGVIWQVATLGKVDQGGGGTIAKFFAERGSDVIDGPALLGHSPFEISSKADLFETYVAYRSLEKL KERKNVWHHRKKEEIEAFSKEYEFSKAKTERTVKEIKRILDESGFVPLEDFAGDPNTVYAVNRGKAIAAFRVVDDLKRGLNLVVAHIDSPRLDFKPNPLIEDEQIALFKTHYYGGIKKYHWLSIPLEIHGVLFKNDGTEIEIHIGDKPEDPVFTIPDLLPHLDKEDAKISEKFKGENLLIAGTIPLSGEEKEAVKTNVLKILNEYGITEEDFVSGEIEVVPAFSPREVGDRSLIGAYGQDDRICAYTALRALLSANPEKSIGVIFFDKEEIGSDGNTGAKARFYLKALRQILKQGAKDSEFVLDEVLENTSVISGDVCAAVNPPYKDVHDLHNAPKLGYGVALVKYTGARGKYSTNDAHAEFVARVRKVLNEQGVIWQVATLGKVDQGGGGTIAKFFAERGSDVIDGPALLGHSPFEISSKADLFETYVAYRSLEKL 2glf-a1-m3-cC_2glf-a1-m3-cD Crystal structure of Aminipeptidase (M18 family) from Thermotoga Maritima Q9WYJ9 Q9WYJ9 2.8 X-RAY DIFFRACTION 130 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 437 437 2glf-a1-m1-cA_2glf-a1-m2-cA 2glf-a1-m1-cA_2glf-a1-m3-cA 2glf-a1-m1-cB_2glf-a1-m1-cC 2glf-a1-m1-cB_2glf-a1-m1-cD 2glf-a1-m1-cC_2glf-a1-m1-cD 2glf-a1-m2-cA_2glf-a1-m3-cA 2glf-a1-m2-cB_2glf-a1-m2-cC 2glf-a1-m2-cB_2glf-a1-m2-cD 2glf-a1-m2-cC_2glf-a1-m2-cD 2glf-a1-m3-cB_2glf-a1-m3-cC 2glf-a1-m3-cB_2glf-a1-m3-cD KERKNVWHHRKKEEIEAFSKEYEFSKAKTERTVKEIKRILDESGFVPLEDFAGDPNTVYAVNRGKAIAAFRVVDDLKRGLNLVVAHIDSPRLDFKPNPLIEDEQIALFKTHYYGGIKKYHWLSIPLEIHGVLFKNDGTEIEIHIGDKPEDPVFTIPDLLPHLDKEDAKISEKFKGENLLIAGTIPLSGEEKEAVKTNVLKILNEYGITEEDFVSGEIEVVPAFSPREVGDRSLIGAYGQDDRICAYTALRALLSANPEKSIGVIFFDKEEIGSDGNTGAKARFYLKALRQILKQGAKDSEFVLDEVLENTSVISGDVCAAVNPPYKDVHDLHNAPKLGYGVALVKYTGARGKYSTNDAHAEFVARVRKVLNEQGVIWQVATLGKVDQGGGGTIAKFFAERGSDVIDGPALLGHSPFEISSKADLFETYVAYRSLEKL KERKNVWHHRKKEEIEAFSKEYEFSKAKTERTVKEIKRILDESGFVPLEDFAGDPNTVYAVNRGKAIAAFRVVDDLKRGLNLVVAHIDSPRLDFKPNPLIEDEQIALFKTHYYGGIKKYHWLSIPLEIHGVLFKNDGTEIEIHIGDKPEDPVFTIPDLLPHLDKEDAKISEKFKGENLLIAGTIPLSGEEKEAVKTNVLKILNEYGITEEDFVSGEIEVVPAFSPREVGDRSLIGAYGQDDRICAYTALRALLSANPEKSIGVIFFDKEEIGSDGNTGAKARFYLKALRQILKQGAKDSEFVLDEVLENTSVISGDVCAAVNPPYKDVHDLHNAPKLGYGVALVKYTGARGKYSTNDAHAEFVARVRKVLNEQGVIWQVATLGKVDQGGGGTIAKFFAERGSDVIDGPALLGHSPFEISSKADLFETYVAYRSLEKL 2glj-a2-m1-cU_2glj-a2-m1-cX crystal structure of aminopeptidase I from Clostridium acetobutylicum Q97K30 Q97K30 3.2 X-RAY DIFFRACTION 286 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 455 455 2glj-a1-m1-cA_2glj-a1-m1-cD 2glj-a1-m1-cB_2glj-a1-m1-cK 2glj-a1-m1-cC_2glj-a1-m1-cF 2glj-a1-m1-cE_2glj-a1-m1-cH 2glj-a1-m1-cG_2glj-a1-m1-cJ 2glj-a1-m1-cI_2glj-a1-m1-cL 2glj-a2-m1-cM_2glj-a2-m1-cP 2glj-a2-m1-cN_2glj-a2-m1-cW 2glj-a2-m1-cO_2glj-a2-m1-cR 2glj-a2-m1-cQ_2glj-a2-m1-cT 2glj-a2-m1-cS_2glj-a2-m1-cV LLKEYKNAWDKYDDKQLKEVFALGDRFKNFISNCKTERECVTELIKTAEKSGYRNIEDILAKGETLKEGDKVYANNRGKGLIMFLIGKEPLYTGFKILGAHIDSPRLDLKQNPLYEDTDLAMLETHYYGGIKKYQWVTLPLAIHGVIVKKDGTIVNVCVGEDDNDPVFGVSDILVHLASEQLEKKASKVIEGEDLNILIGSIPLKDGEEKQKVKHNIMKILNEKYDISEEDFVSAELEIVPAGKARDYGFDRSMVMGYGQDDRICAYTSFEAMLEMKNAKKTCITILVDKEEVGSIGATGMQSKFFENTVADIMSDELKLRKALYNSEMLSSDVSAAFDPNYPNVMEKRNSAYLGKGIVFNKYTGSRGKSGCNDANPEYIAELRRILSKESVNWQTAELGKVDQGGGGTIAYILAEYGMQVIDCGVALLNHAPWEISSKADIYETKNGYSAFLNN LLKEYKNAWDKYDDKQLKEVFALGDRFKNFISNCKTERECVTELIKTAEKSGYRNIEDILAKGETLKEGDKVYANNRGKGLIMFLIGKEPLYTGFKILGAHIDSPRLDLKQNPLYEDTDLAMLETHYYGGIKKYQWVTLPLAIHGVIVKKDGTIVNVCVGEDDNDPVFGVSDILVHLASEQLEKKASKVIEGEDLNILIGSIPLKDGEEKQKVKHNIMKILNEKYDISEEDFVSAELEIVPAGKARDYGFDRSMVMGYGQDDRICAYTSFEAMLEMKNAKKTCITILVDKEEVGSIGATGMQSKFFENTVADIMSDELKLRKALYNSEMLSSDVSAAFDPNYPNVMEKRNSAYLGKGIVFNKYTGSRGKSGCNDANPEYIAELRRILSKESVNWQTAELGKVDQGGGGTIAYILAEYGMQVIDCGVALLNHAPWEISSKADIYETKNGYSAFLNN 2glj-a2-m1-cW_2glj-a2-m1-cX crystal structure of aminopeptidase I from Clostridium acetobutylicum Q97K30 Q97K30 3.2 X-RAY DIFFRACTION 136 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 455 455 2glj-a1-m1-cA_2glj-a1-m1-cE 2glj-a1-m1-cA_2glj-a1-m1-cI 2glj-a1-m1-cB_2glj-a1-m1-cC 2glj-a1-m1-cB_2glj-a1-m1-cD 2glj-a1-m1-cC_2glj-a1-m1-cD 2glj-a1-m1-cE_2glj-a1-m1-cI 2glj-a1-m1-cF_2glj-a1-m1-cG 2glj-a1-m1-cF_2glj-a1-m1-cH 2glj-a1-m1-cG_2glj-a1-m1-cH 2glj-a1-m1-cJ_2glj-a1-m1-cK 2glj-a1-m1-cJ_2glj-a1-m1-cL 2glj-a1-m1-cK_2glj-a1-m1-cL 2glj-a2-m1-cM_2glj-a2-m1-cQ 2glj-a2-m1-cM_2glj-a2-m1-cU 2glj-a2-m1-cN_2glj-a2-m1-cO 2glj-a2-m1-cN_2glj-a2-m1-cP 2glj-a2-m1-cO_2glj-a2-m1-cP 2glj-a2-m1-cQ_2glj-a2-m1-cU 2glj-a2-m1-cR_2glj-a2-m1-cS 2glj-a2-m1-cR_2glj-a2-m1-cT 2glj-a2-m1-cS_2glj-a2-m1-cT 2glj-a2-m1-cV_2glj-a2-m1-cW 2glj-a2-m1-cV_2glj-a2-m1-cX LLKEYKNAWDKYDDKQLKEVFALGDRFKNFISNCKTERECVTELIKTAEKSGYRNIEDILAKGETLKEGDKVYANNRGKGLIMFLIGKEPLYTGFKILGAHIDSPRLDLKQNPLYEDTDLAMLETHYYGGIKKYQWVTLPLAIHGVIVKKDGTIVNVCVGEDDNDPVFGVSDILVHLASEQLEKKASKVIEGEDLNILIGSIPLKDGEEKQKVKHNIMKILNEKYDISEEDFVSAELEIVPAGKARDYGFDRSMVMGYGQDDRICAYTSFEAMLEMKNAKKTCITILVDKEEVGSIGATGMQSKFFENTVADIMSDELKLRKALYNSEMLSSDVSAAFDPNYPNVMEKRNSAYLGKGIVFNKYTGSRGKSGCNDANPEYIAELRRILSKESVNWQTAELGKVDQGGGGTIAYILAEYGMQVIDCGVALLNHAPWEISSKADIYETKNGYSAFLNN LLKEYKNAWDKYDDKQLKEVFALGDRFKNFISNCKTERECVTELIKTAEKSGYRNIEDILAKGETLKEGDKVYANNRGKGLIMFLIGKEPLYTGFKILGAHIDSPRLDLKQNPLYEDTDLAMLETHYYGGIKKYQWVTLPLAIHGVIVKKDGTIVNVCVGEDDNDPVFGVSDILVHLASEQLEKKASKVIEGEDLNILIGSIPLKDGEEKQKVKHNIMKILNEKYDISEEDFVSAELEIVPAGKARDYGFDRSMVMGYGQDDRICAYTSFEAMLEMKNAKKTCITILVDKEEVGSIGATGMQSKFFENTVADIMSDELKLRKALYNSEMLSSDVSAAFDPNYPNVMEKRNSAYLGKGIVFNKYTGSRGKSGCNDANPEYIAELRRILSKESVNWQTAELGKVDQGGGGTIAYILAEYGMQVIDCGVALLNHAPWEISSKADIYETKNGYSAFLNN 2glz-a1-m1-cB_2glz-a1-m1-cA Crystal structure of a formylmethanofuran dehydrogenase subunit e-like protein (dhaf_2992) from desulfitobacterium hafniense dcb-2 at 1.45 A resolution B8FYU2 B8FYU2 1.45 X-RAY DIFFRACTION 56 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 146 147 EKTPWELVIDFHGHTCPDIALGYRIAQLAQREGIRPAPDSECLVKAYTQSCALDAIQVLNKATIGRHALIIEETHRYYQFHFTGTQDIHQFTVSPAVLDHLETLRHPDLSPRERQNKVLEGVQYVLTLEESAFCHYDKIPGQLSKI VEKTPWELVIDFHGHTCPDIALGYRIAQLAQREGIRPAPDSECLVKAYTQSCALDAIQVLNKATIGRHALIIEETHRYYQFHFTGTQDIHQFTVSPAVLDHLETLRHPDLSPRERQNKVLEGVQYVLTLEESAFCHYDKIPGQLSKI 2gm3-a2-m1-cC_2gm3-a2-m1-cD Crystal Structure of an Universal Stress Protein Family Protein from Arabidopsis Thaliana At3g01520 with AMP Bound Q8LGG8 Q8LGG8 2.461 X-RAY DIFFRACTION 46 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 150 150 2gm3-a1-m1-cB_2gm3-a1-m1-cA 2gm3-a3-m1-cF_2gm3-a3-m1-cE PTKVVAVNASTIKDYPNPSISCKRAFEWTLEKIVRSNTSDFKILLLHVQVSIYASPEDFRDRQSNKAKGLHLLEFFVNKCHEIGVGCEAWIKTGDPKDVICQEVKRVRPDFLVVGSRGLGTVSAFCVKHAECPVTIKRNADETPSDPADD PTKVVAVNASTIKDYPNPSISCKRAFEWTLEKIVRSNTSDFKILLLHVQVSIYASPEDFRDRQSNKAKGLHLLEFFVNKCHEIGVGCEAWIKTGDPKDVICQEVKRVRPDFLVVGSRGLGTVSAFCVKHAECPVTIKRNADETPSDPADD 2gm3-a4-m1-cC_2gm3-a4-m1-cE Crystal Structure of an Universal Stress Protein Family Protein from Arabidopsis Thaliana At3g01520 with AMP Bound Q8LGG8 Q8LGG8 2.461 X-RAY DIFFRACTION 55 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 150 150 2gm3-a5-m1-cA_2gm3-a5-m2-cD 2gm3-a6-m1-cB_2gm3-a6-m3-cF PTKVVAVNASTIKDYPNPSISCKRAFEWTLEKIVRSNTSDFKILLLHVQVSIYASPEDFRDRQSNKAKGLHLLEFFVNKCHEIGVGCEAWIKTGDPKDVICQEVKRVRPDFLVVGSRGLGTVSAFCVKHAECPVTIKRNADETPSDPADD PTKVVAVNASTIKDYPNPSISCKRAFEWTLEKIVRSNTSDFKILLLHVQVSIYASPEDFRDRQSNKAKGLHLLEFFVNKCHEIGVGCEAWIKTGDPKDVICQEVKRVRPDFLVVGSRGLGTVSAFCVKHAECPVTIKRNADETPSDPADD 2gm5-a1-m1-cB_2gm5-a1-m1-cA An activated, truncated gamma-delta resolvase tetramer P03012 P03012 2.1 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 111 119 ALFGYARVSTSLDIQVRALKDAGVKANRIFTDKADRKGLDLLRKVKEGDVILVKKLDHLGRDTADIQLIKEFDAQGVSIRFIDDGISTDSYIGKVVTILSAVAQAERQRIL ALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKADRKGLDLLRKVKEGDVILVKKLDHLGRDTADIQLIKEFDAQGVSIRFIDDGISTDSYIGKVVTILSAVAQAERQRILERTNE 2gm5-a1-m1-cC_2gm5-a1-m1-cA An activated, truncated gamma-delta resolvase tetramer P03012 P03012 2.1 X-RAY DIFFRACTION 11 0.982 562 (Escherichia coli) 562 (Escherichia coli) 113 119 ALFGYARVSLDIQVRALKDAGVKANRIFTDKASSDRKGLDLLRKVKEGDVILVKKLDHLGRDTADIQLIKEFDAQGVSIRFIDDGISTDSYIGKVVTILSAVAQAERQRILER ALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKADRKGLDLLRKVKEGDVILVKKLDHLGRDTADIQLIKEFDAQGVSIRFIDDGISTDSYIGKVVTILSAVAQAERQRILERTNE 2gm5-a1-m1-cD_2gm5-a1-m1-cA An activated, truncated gamma-delta resolvase tetramer P03012 P03012 2.1 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 114 119 2gm5-a1-m1-cB_2gm5-a1-m1-cC ALFGYARVQQSLDIQVRALKDAGVKANRIFTDKDRKGLDLLRKVKEGDVILVKKLDHLGRDTADIQLIKEFDAQGVSIRFIDDGISTDSYIGKVVTILSAVAQAERQRILERTN ALFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKADRKGLDLLRKVKEGDVILVKKLDHLGRDTADIQLIKEFDAQGVSIRFIDDGISTDSYIGKVVTILSAVAQAERQRILERTNE 2gm7-a1-m1-cB_2gm7-a1-m1-cD TenA Homolog/Thi-4 Thiaminase from Pyrobaculum Aerophilum Q8ZZM9 Q8ZZM9 2.8 X-RAY DIFFRACTION 43 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 212 216 2gm7-a1-m1-cA_2gm7-a1-m1-cC 2gm8-a1-m1-cB_2gm8-a1-m1-cD 2gm8-a1-m1-cC_2gm8-a1-m1-cA GVTGELRRRADGIWQRILAHPFVAELYAGTLPMEKFKYYLLQDYNYLVNFAKALSLAASRAPSVDLMKTALELAYGTVTGEMANYEALLKEVGLSLRDAAEAEPNRVNVSYMAYLKSTCALEGFYQCMAALLPCFWSYAEIAERHGGKLRENPVHVYKKWASVYLSPEYRGLVERLRAVLDSSGLSAEELWPYFKEASLYELEFWQAAYEGH HHHHGVTGELRRRADGIWQRILAHPFVAELYAGTLPMEKFKYYLLQDYNYLVNFAKALSLAASRAPSVDLMKTALELAYGTVTGEMANYEALLKEVGLSLRDAAEAEPNRVNVSYMAYLKSTCALEGFYQCMAALLPCFWSYAEIAERHGGKLRENPVHVYKKWASVYLSPEYRGLVERLRAVLDSSGLSAEELWPYFKEASLYELEFWQAAYEGH 2gm8-a1-m1-cC_2gm8-a1-m1-cD TenA Homolog/Thi-4 Thiaminase complexed with product 4-amino-5-hydroxymethyl-2-methylpyrimidine Q8ZZM9 Q8ZZM9 2.5 X-RAY DIFFRACTION 60 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 215 217 2gm7-a1-m1-cA_2gm7-a1-m1-cB 2gm7-a1-m1-cC_2gm7-a1-m1-cD 2gm8-a1-m1-cB_2gm8-a1-m1-cA HHHGVTGELRRRADGIWQRILAHPFVAELYAGTLPMEKFKYYLLQDYNYLVNFAKALSLAASRAPSVDLMKTALELAYGTVTGEMANYEALLKEVGLSLRDAAEAEPNRVNVSYMAYLKSTCALEGFYQCMAALLPCFWSYAEIAERHGGKLRENPVHVYKKWASVYLSPEYRGLVERLRAVLDSSGLSAEELWPYFKEASLYELEFWQAAYEGH HHHHHGVTGELRRRADGIWQRILAHPFVAELYAGTLPMEKFKYYLLQDYNYLVNFAKALSLAASRAPSVDLMKTALELAYGTVTGEMANYEALLKEVGLSLRDAAEAEPNRVNVSYMAYLKSTCALEGFYQCMAALLPCFWSYAEIAERHGGKLRENPVHVYKKWASVYLSPEYRGLVERLRAVLDSSGLSAEELWPYFKEASLYELEFWQAAYEGH 2gmq-a1-m1-cB_2gmq-a1-m2-cB Crystal structure of protein EF0006 from Enterococcus faecalis Q8KUD5 Q8KUD5 1.76 X-RAY DIFFRACTION 45 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 96 96 2gmq-a1-m1-cA_2gmq-a1-m2-cA KEIAIQEKDLTLQWRGNTGKLVKVRLKNTRAEWYNKQITEENIQEITTLNIIKNGKSLALEVYPEKSIYVKPGRINVPVFFIKTPINRGVFEEIFG KEIAIQEKDLTLQWRGNTGKLVKVRLKNTRAEWYNKQITEENIQEITTLNIIKNGKSLALEVYPEKSIYVKPGRINVPVFFIKTPINRGVFEEIFG 2gmq-a1-m2-cA_2gmq-a1-m2-cB Crystal structure of protein EF0006 from Enterococcus faecalis Q8KUD5 Q8KUD5 1.76 X-RAY DIFFRACTION 22 0.99 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 96 96 2gmq-a1-m1-cA_2gmq-a1-m1-cB GKEIAIQEKDLTLQWRGNTGKLVKVRLKNTRAEWYNKQITEENIQEITTLNIIKNGKSLALEVYPEKSIYVKPRINVPVFFIKTPINRGVFEEIFG KEIAIQEKDLTLQWRGNTGKLVKVRLKNTRAEWYNKQITEENIQEITTLNIIKNGKSLALEVYPEKSIYVKPGRINVPVFFIKTPINRGVFEEIFG 2gmy-a1-m1-cD_2gmy-a1-m1-cF Crystal Structure of a Protein of Unknown Function ATU0492 from Agrobacterium tumefaciens, Putative Antioxidant Defence Protein AhpD Q7D1C9 Q7D1C9 1.6 X-RAY DIFFRACTION 84 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 145 147 2gmy-a1-m1-cB_2gmy-a1-m1-cC 2gmy-a1-m1-cE_2gmy-a1-m1-cA KTRINYAKASPEAFKAVMALENYVQSSGLEHRFIHLIKLRASIINGCAFCVDMHVKESRHDGLSEQWINLMSVWRESPVYTEQERALLGWVDAVTKIAETGAPDDAFETLRAHFSDEEIVKITVAIGAINTWNRIAVGFRSQHPV KTRINYAKASPEAFKAVMALENYVQSSGLEHRFIHLIKLRASIINGCAFCVDMHVKESRHDGLSEQWINLMSVWRESPVYTEQERALLGWVDAVTKIAETGAPDDAFETLRAHFSDEEIVKITVAIGAINTWNRIAVGFRSQHPVEA 2gmy-a1-m1-cE_2gmy-a1-m1-cF Crystal Structure of a Protein of Unknown Function ATU0492 from Agrobacterium tumefaciens, Putative Antioxidant Defence Protein AhpD Q7D1C9 Q7D1C9 1.6 X-RAY DIFFRACTION 140 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 145 147 2gmy-a1-m1-cB_2gmy-a1-m1-cA 2gmy-a1-m1-cD_2gmy-a1-m1-cC KTRINYAKASPEAFKAVMALENYVQSSGLEHRFIHLIKLRASIINGCAFCVDMHVKESRHDGLSEQWINLMSVWRESPVYTEQERALLGWVDAVTKIAETGAPDDAFETLRAHFSDEEIVKITVAIGAINTWNRIAVGFRSQHPV KTRINYAKASPEAFKAVMALENYVQSSGLEHRFIHLIKLRASIINGCAFCVDMHVKESRHDGLSEQWINLMSVWRESPVYTEQERALLGWVDAVTKIAETGAPDDAFETLRAHFSDEEIVKITVAIGAINTWNRIAVGFRSQHPVEA 2gn0-a1-m1-cB_2gn0-a1-m1-cA Crystal structure of dimeric biodegradative threonine deaminase (TdcB) from Salmonella typhimurium at 1.7 A resolution (Triclinic form with one complete subunit built in alternate conformation) P11954 P11954 1.7 X-RAY DIFFRACTION 69 1.0 319 326 2gn0-a2-m1-cD_2gn0-a2-m1-cC 2gn1-a1-m1-cB_2gn1-a1-m1-cA DLPVAIEDILEAKKRLAGKIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFIRGAFNKLSSLTEAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTIAKVSEIVETEGRIFIPPYDDPKVIAGQGTIGLEIMEDLYDVDNVIVPIGGGGLIAGIAIAIKSINPTIKVIGVQAENVHGMAASYYTGEITTHRTTGTLADGCDVSRPGNLTYEIVRELVDDIVLVSEDEIRNSMIALIQRNKVITEGAGALACAALLSGKLDSHIQNRKTVSIISGGNIDLSRVSQITG MASHITYDLPVAIEDILEAKKRLAGKIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFIRGAFNKLSSLTEAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTIAKVSEIVETEGRIFIPPYDDPKVIAGQGTIGLEIMEDLYDVDNVIVPIGGGGLIAGIAIAIKSINPTIKVIGVQAENVHGMAASYYTGEITTHRTTGTLADGCDVSRPGNLTYEIVRELVDDIVLVSEDEIRNSMIALIQRNKVITEGAGALACAALLSGKLDSHIQNRKTVSIISGGNIDLSRVSQITG 2gn2-a1-m3-cA_2gn2-a1-m4-cA Crystal structure of tetrameric biodegradative threonine deaminase (TdcB) from Salmonella typhimurium in complex with CMP at 2.5A resolution (Hexagonal form) P11954 P11954 2.5 X-RAY DIFFRACTION 24 1.0 325 325 2gn2-a1-m1-cA_2gn2-a1-m2-cA ITYDLPVAIEDILEAKKRLAGKIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFIRGAFNKLSSLTEAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTIAKVSEIVETEGRIFIPPYDDPKVIAGQGTIGLEIMEDLYDVDNVIVPIGGGGLIAGIAIAIKSINPTIKVIGVQAENVHGMAASYYTGEITTHRTTGTLADGCDVSRPGNLTYEIVRELVDDIVLVSEDEIRNSMIALIQRNKVITEGAGALACAALLSGKLDSHIQNRKTVSIISGGNIDLSRVSQITGLVD ITYDLPVAIEDILEAKKRLAGKIYKTGMPRSNYFSERCKGEIFLKFENMQRTGSFIRGAFNKLSSLTEAEKRKGVVACSAGNHAQGVSLSCAMLGIDGKVVMPKGAPKSKVAATCDYSAEVVLHGDNFNDTIAKVSEIVETEGRIFIPPYDDPKVIAGQGTIGLEIMEDLYDVDNVIVPIGGGGLIAGIAIAIKSINPTIKVIGVQAENVHGMAASYYTGEITTHRTTGTLADGCDVSRPGNLTYEIVRELVDDIVLVSEDEIRNSMIALIQRNKVITEGAGALACAALLSGKLDSHIQNRKTVSIISGGNIDLSRVSQITGLVD 2gn8-a1-m2-cA_2gn8-a1-m3-cB Crystal structure of UDP-GlcNAc inverting 4,6-dehydratase in complex with NADP and UDP O25511 O25511 2.1 X-RAY DIFFRACTION 52 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 327 329 2gn4-a1-m1-cB_2gn4-a1-m1-cA 2gn4-a1-m2-cB_2gn4-a1-m2-cA 2gn4-a1-m3-cB_2gn4-a1-m3-cA 2gn6-a1-m1-cB_2gn6-a1-m1-cA 2gn6-a1-m2-cB_2gn6-a1-m2-cA 2gn6-a1-m3-cB_2gn6-a1-m3-cA 2gn8-a1-m1-cA_2gn8-a1-m2-cB 2gn8-a1-m3-cA_2gn8-a1-m1-cB 2gn9-a1-m1-cB_2gn9-a1-m1-cA 2gn9-a1-m2-cB_2gn9-a1-m2-cA 2gn9-a1-m3-cB_2gn9-a1-m3-cA 2gna-a1-m1-cB_2gna-a1-m1-cA 2gna-a1-m2-cB_2gna-a1-m2-cA 2gna-a1-m3-cB_2gna-a1-m3-cA MLDNQTILITGGTGSFGKCFVRKVLDTTNAKKIIVYSRDELKQSEMAMEFNDPRMRFFIGDVRDLERLNYALEGVDICIHAAALKHVPIAEYNPLECIKTNIMGASNVINACLKNAISQVIALSTDKAANPINLYGATKLCSDKLFVSANNFKGSSQTQFSVVRYGNVVGSRGSVVPFFKKLVQNKASEIPITDIRMTRFWITLDEGVSFVLKSLKRMHGGEIFVPKIPSMKMTDLAKALAPNTPTKIIGIRPGEKLHEVMIPKDESHLALEFEDFFIIQPTISFQTPKDYTLTKLHEKGQKVAPDFEYSSHNNNQWLEPDDLLKLL QNMLDNQTILITGGTGSFGKCFVRKVLDTTNAKKIIVYSRDELKQSEMAMEFNDPRMRFFIGDVRDLERLNYALEGVDICIHAAALKHVPIAEYNPLECIKTNIMGASNVINACLKNAISQVIALSTDKAANPINLYGATKLCSDKLFVSANNFKGSSQTQFSVVRYGNVVGSRGSVVPFFKKLVQNKASEIPITDIRMTRFWITLDEGVSFVLKSLKRMHGGEIFVPKIPSMKMTDLAKALAPNTPTKIIGIRPGEKLHEVMIPKDESHLALEFEDFFIIQPTISFQTPKDYTLTKLHEKGQKVAPDFEYSSHNNNQWLEPDDLLKLL 2gn8-a2-m1-cA_2gn8-a2-m1-cB Crystal structure of UDP-GlcNAc inverting 4,6-dehydratase in complex with NADP and UDP O25511 O25511 2.1 X-RAY DIFFRACTION 90 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 327 329 2gn4-a1-m1-cB_2gn4-a1-m2-cA 2gn4-a1-m2-cB_2gn4-a1-m3-cA 2gn4-a1-m3-cB_2gn4-a1-m1-cA 2gn6-a1-m1-cB_2gn6-a1-m2-cA 2gn6-a1-m2-cB_2gn6-a1-m3-cA 2gn6-a1-m3-cB_2gn6-a1-m1-cA 2gn6-a2-m1-cB_2gn6-a2-m2-cA 2gn8-a1-m1-cA_2gn8-a1-m1-cB 2gn8-a1-m2-cA_2gn8-a1-m2-cB 2gn8-a1-m3-cA_2gn8-a1-m3-cB 2gn9-a1-m1-cB_2gn9-a1-m2-cA 2gn9-a1-m2-cB_2gn9-a1-m3-cA 2gn9-a1-m3-cB_2gn9-a1-m1-cA 2gn9-a2-m1-cB_2gn9-a2-m2-cA 2gna-a1-m1-cB_2gna-a1-m2-cA 2gna-a1-m2-cB_2gna-a1-m3-cA 2gna-a1-m3-cB_2gna-a1-m1-cA 2gna-a2-m1-cB_2gna-a2-m2-cA MLDNQTILITGGTGSFGKCFVRKVLDTTNAKKIIVYSRDELKQSEMAMEFNDPRMRFFIGDVRDLERLNYALEGVDICIHAAALKHVPIAEYNPLECIKTNIMGASNVINACLKNAISQVIALSTDKAANPINLYGATKLCSDKLFVSANNFKGSSQTQFSVVRYGNVVGSRGSVVPFFKKLVQNKASEIPITDIRMTRFWITLDEGVSFVLKSLKRMHGGEIFVPKIPSMKMTDLAKALAPNTPTKIIGIRPGEKLHEVMIPKDESHLALEFEDFFIIQPTISFQTPKDYTLTKLHEKGQKVAPDFEYSSHNNNQWLEPDDLLKLL QNMLDNQTILITGGTGSFGKCFVRKVLDTTNAKKIIVYSRDELKQSEMAMEFNDPRMRFFIGDVRDLERLNYALEGVDICIHAAALKHVPIAEYNPLECIKTNIMGASNVINACLKNAISQVIALSTDKAANPINLYGATKLCSDKLFVSANNFKGSSQTQFSVVRYGNVVGSRGSVVPFFKKLVQNKASEIPITDIRMTRFWITLDEGVSFVLKSLKRMHGGEIFVPKIPSMKMTDLAKALAPNTPTKIIGIRPGEKLHEVMIPKDESHLALEFEDFFIIQPTISFQTPKDYTLTKLHEKGQKVAPDFEYSSHNNNQWLEPDDLLKLL 2gnk-a2-m2-cA_2gnk-a2-m3-cA GLNK, A SIGNAL PROTEIN FROM E. COLI P0AC55 P0AC55 2 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 95 95 1gnk-a1-m1-cA_1gnk-a1-m2-cA 1gnk-a1-m1-cA_1gnk-a1-m3-cA 1gnk-a1-m2-cA_1gnk-a1-m3-cA 2gnk-a1-m1-cA_2gnk-a1-m2-cA 2gnk-a2-m1-cA_2gnk-a2-m2-cA 2gnk-a2-m1-cA_2gnk-a2-m3-cA MKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL MKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL 2gnv-a1-m1-cB_2gnv-a1-m1-cA Crystal structure of non-symbiotic plant hemoglobin from rice, B10 mutant F40L O04986 O04986 2.3 X-RAY DIFFRACTION 38 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 155 158 1d8u-a1-m1-cA_1d8u-a1-m1-cB 2gnw-a1-m1-cA_2gnw-a1-m1-cB VSFSEEQEALVLKSWAILKKDSANIALRFLLKIFEVAPSASQMFSFLRNSDVPLEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRDTTLKRLGATHLKYGVGDAHFEVVKFALLDTIKEEVPADMWSPAMKSAWSEAYDHLVAAIKQEMKPAE AVAVSFSEEQEALVLKSWAILKKDSANIALRFLLKIFEVAPSASQMFSFLRNSDVPLEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRDTTLKRLGATHLKYGVGDAHFEVVKFALLDTIKEEVPADMWSPAMKSAWSEAYDHLVAAIKQEMKPAE 2go3-a3-m1-cA_2go3-a3-m2-cB Crystal structure of Aquifex aeolicus LpxC complexed with imidazole. O67648 O67648 2 X-RAY DIFFRACTION 18 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 266 266 1p42-a3-m1-cA_1p42-a3-m2-cB 1yhc-a2-m1-cA_1yhc-a2-m2-cB 2go4-a3-m1-cA_2go4-a3-m2-cB 2ier-a1-m1-cA_2ier-a1-m1-cB 2o3z-a2-m1-cA_2o3z-a2-m2-cB GLEKTVKEKLSFEGVGIHTGEYSKLIIHPEKEGTGIRFFKNGVYIPARHEFVVHTNHSTDLGFKGQRIKTVEHILSVLHLLEITNVTIEVIGNEIPILDGSGWEFYEAIRKNILNQNREIDYFVVEEPIIVEDEGRLIKAEPSDTLEVTYEGEFKNFLGRQKFTFVEGNEEEIVLARTFAFDWEIEHIKKVGLGKGGSLKNTLVLGKDKVYNPEGLRYENEPVRHKVFDLIGDLYLLGSPVKGKFYSFRGGHSLNVKLVKELAKKQ GLEKTVKEKLSFEGVGIHTGEYSKLIIHPEKEGTGIRFFKNGVYIPARHEFVVHTNHSTDLGFKGQRIKTVEHILSVLHLLEITNVTIEVIGNEIPILDGSGWEFYEAIRKNILNQNREIDYFVVEEPIIVEDEGRLIKAEPSDTLEVTYEGEFKNFLGRQKFTFVEGNEEEIVLARTFAFDWEIEHIKKVGLGKGGSLKNTLVLGKDKVYNPEGLRYENEPVRHKVFDLIGDLYLLGSPVKGKFYSFRGGHSLNVKLVKELAKKQ 2go7-a6-m1-cD_2go7-a6-m1-cC CRYSTAL STRUCTURE OF A HYDROLASE FROM HALOACID DEHALOGENASE-LIKE FAMILY (SP_2064) FROM STREPTOCOCCUS PNEUMONIAE TIGR4 AT 2.10 A RESOLUTION A0A0H2URV7 A0A0H2URV7 2.1 X-RAY DIFFRACTION 57 0.995 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 202 203 2go7-a5-m1-cB_2go7-a5-m1-cA KTAFIWDLDGTLLDSYEAILSGIEETFAQFSIPYDKEKVREFIFKYSVQDLLVRVAEDRNLDVEVLNQVRAQSLAEKNAQVVLPGAREVLAWADESGIQQFIYTHKGNNAFTILKDLGVESYFTEILTSQSGFVRKPSPEAATYLLDKYQLNSDNTYYIGDRTLDVEFAQNSGIQSINFLESTYEGNHRIQALADISRIFET GQKTAFIWDLDGTLLDSYEAILSGIEETFAQFSIPYDKEKVREFIFKYSVQDLLVRVAEDRNLDVEVLNQVRAQSLAEKNAQVVLPGAREVLAWADESGIQQFIYTHKGNNAFTILKDLGVESYFTEILTSQSGFVRKPSPEAATYLLDKYQLNSDNTYYIGDRTLDVEFAQNSGIQSINFLESTYEGNHRIQALADISRIFE 2go8-a1-m1-cA_2go8-a1-m2-cA Crystal structure of YQJZ_BACSU FROM Bacillus subtilis. Northeast structural genomics TARGET SR435 P54563 P54563 2.3 X-RAY DIFFRACTION 133 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 87 87 DFLSKTPEPPYYAVIFSSVKSGETAERVSLAADQPGFLGVESVREADGRGITVSYWDSDAINHWRHHTYESYAVRVAKVDRQRLFQE DFLSKTPEPPYYAVIFSSVKSGETAERVSLAADQPGFLGVESVREADGRGITVSYWDSDAINHWRHHTYESYAVRVAKVDRQRLFQE 2goj-a1-m1-cB_2goj-a1-m1-cA The crystal structure of the enzyme Fe-superoxide dismutase from Plasmodium falciparum Q27740 Q27740 2 X-RAY DIFFRACTION 46 1.0 137071 (Plasmodium falciparum HB3) 137071 (Plasmodium falciparum HB3) 195 196 2a03-a1-m1-cA_2a03-a1-m1-cB 2a03-a2-m1-cA_2a03-a2-m1-cB 2a03-a2-m2-cA_2a03-a2-m2-cB 2awp-a1-m1-cB_2awp-a1-m1-cA 2bpi-a1-m1-cA_2bpi-a1-m1-cB VITLPKLKYALNALSPHISEETLNFHYNKHHAGYVNKLNTLIKDTPFAEKSLLDIVKESSGAIFNNAAQIWNHTFYWDSMGPDCGGEPHGEIKEKIQEDFGSFNNFKEQFSNILCGHFGSGWGWLALNNNNKLVILQTHDAGNPIKDNTGIPILTCDIWEHAYYIDYRNDRASYVKAWWNLVNWNFANENLKKAM VITLPKLKYALNALSPHISEETLNFHYNKHHAGYVNKLNTLIKDTPFAEKSLLDIVKESSGAIFNNAAQIWNHTFYWDSMGPDCGGEPHGEIKEKIQEDFGSFNNFKEQFSNILCGHFGSGWGWLALNNNNKLVILQTHDAGNPIKDNTGIPILTCDIWEHAYYIDYRNDRASYVKAWWNLVNWNFANENLKKAMK 2gom-a1-m1-cB_2gom-a1-m1-cA Crystal structure of Efb-C from Staphylococcus aureus P68799 P68799 1.25 X-RAY DIFFRACTION 26 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 60 61 KKEQKLIQAQNLVREFEKTHTVSAHRKAQKAVNLVSFEYKVKKMVLQERIDNVLKQGLVR IKKEQKLIQAQNLVREFEKTHTVSAHRKAQKAVNLVSFEYKVKKMVLQERIDNVLKQGLVR 2goo-a1-m1-cB_2goo-a1-m1-cE Ternary Complex of BMP-2 bound to BMPR-Ia-ECD and ActRII-ECD P36894 P36894 2.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 88 PFLKCYCSGHCPDDAINNTCITNGHCFAIIEEDDQGETTLASGCMKYEGSDFQCKDSPKAQLRRTIECCRTNLCNQYLQPTLPPV LPFLKCYCSGHCPDDAINNTCITNGHCFAIIEEDDQGETTLASGCMKYEGSDFQCKDSPKAQLRRTIECCRTNLCNQYLQPTLPPVVI 2gop-a1-m1-cB_2gop-a1-m1-cA The beta-propeller domain of the Trilobed protease from Pyrococcus furiosus reveals an open velcro topology Q8U3Y3 Q8U3Y3 2 X-RAY DIFFRACTION 62 0.993 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 304 320 KFAYLSDPRTKGELVAYVLTKADNKYENTIVIENLKNNARRFIENATMPRISPDGKKIAFMRANEEKKVSEIWVADLETLSSKKILEAKNIRSLEWNEDSRKLLIVGFKDGEKTTFWIFDTESEEVIEEFEKPRFSSGIWHRDKIVVNVPHREIIPQYFKFWDIYIWEDGKEEKMFEKVSFYAVDSDGERILLYGKPEKKYMSEHNKLYIYDGKEVMGILDEVDRGVGQAKIKDGKVYFTLFEEGSVNLYIWDGEIKPIAKGRHWIMGFDVDEIVVYLKETATRLRELFTWDGEEKQLTDYNDP TFAKFAYLSDPRTKGELVAYVLTKANLKDNKYENTIVIENLKNNARRFIENATMPRISPDGKKIAFMRANEEKKVSEIWVADLETLSSKKILEAKNIRSLEWNEDSRKLLIVGFKRREVPAWEKTTFWIFDTESEEVIEEFEKPRFSSGIWHRDKIVVNVPHREIIPQYFKFWDIYIWEDGKEEKMFEKVSFYAVDSDGERILLYGKPEKKYMSEHNKLYIYDGKEVMGILDEVDRGVGQAKIKDGKVYFTLFEEGSVNLYIWDGEIKPIAKGRHWIMGFDVDEIVVYLKETATRLRELFTWDGEEKQLTDYNDPIFAKL 2goy-a2-m1-cF_2goy-a2-m1-cH Crystal structure of assimilatory adenosine 5'-phosphosulfate reductase with bound APS O05927 O05927 2.7 X-RAY DIFFRACTION 85 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 223 223 2goy-a1-m1-cA_2goy-a1-m1-cC 2goy-a1-m1-cB_2goy-a1-m1-cD 2goy-a2-m1-cE_2goy-a2-m1-cG PFDLPALASSLADKSPQDILKAAFEHFGDELWISFSGAEDVVLVDMAWKLNRNVKVFSLDTGRLHPETYRFIDQVREHYGIAIDVLSPDPRLLEPLVKEKGLFSFYRDGHGECCGIRKIEPLKRKLAGVRAWATGQRRDQSPGTRSQVAVLEIDGAFSTPEKPLYKFNPLSSMTSEEVWGYIRMLELPYNSLHERGYISIGCEPCTRPVLPNQHEREGRWWWE PFDLPALASSLADKSPQDILKAAFEHFGDELWISFSGAEDVVLVDMAWKLNRNVKVFSLDTGRLHPETYRFIDQVREHYGIAIDVLSPDPRLLEPLVKEKGLFSFYRDGHGECCGIRKIEPLKRKLAGVRAWATGQRRDQSPGTRSQVAVLEIDGAFSTPEKPLYKFNPLSSMTSEEVWGYIRMLELPYNSLHERGYISIGCEPCTRPVLPNQHEREGRWWWE 2goy-a2-m1-cG_2goy-a2-m1-cH Crystal structure of assimilatory adenosine 5'-phosphosulfate reductase with bound APS O05927 O05927 2.7 X-RAY DIFFRACTION 47 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 222 223 2goy-a1-m1-cA_2goy-a1-m1-cB 2goy-a1-m1-cC_2goy-a1-m1-cD 2goy-a2-m1-cE_2goy-a2-m1-cF FDLPALASSLADKSPQDILKAAFEHFGDELWISFSGAEDVVLVDMAWKLNRNVKVFSLDTGRLHPETYRFIDQVREHYGIAIDVLSPDPRLLEPLVKEKGLFSFYRDGHGECCGIRKIEPLKRKLAGVRAWATGQRRDQSPGTRSQVAVLEIDGAFSTPEKPLYKFNPLSSMTSEEVWGYIRMLELPYNSLHERGYISIGCEPCTRPVLPNQHEREGRWWWE PFDLPALASSLADKSPQDILKAAFEHFGDELWISFSGAEDVVLVDMAWKLNRNVKVFSLDTGRLHPETYRFIDQVREHYGIAIDVLSPDPRLLEPLVKEKGLFSFYRDGHGECCGIRKIEPLKRKLAGVRAWATGQRRDQSPGTRSQVAVLEIDGAFSTPEKPLYKFNPLSSMTSEEVWGYIRMLELPYNSLHERGYISIGCEPCTRPVLPNQHEREGRWWWE 2gp4-a3-m2-cB_2gp4-a3-m1-cA Structure of [FeS]cluster-free Apo Form of 6-Phosphogluconate Dehydratase from Shewanella oneidensis Q8EEA0 Q8EEA0 2.49 X-RAY DIFFRACTION 157 0.994 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 481 509 HHSVVQSVTDRIIARSKASREAYLAALNDARNHKACQEVGSVAQVAVPCDGVTQGQPGELSLLSREVIAATAVGLSHNFDGALLLGICKIVPGLLIGALSFGHLPLFVPAGPQLLEVGLQLPGSSFVNPDDPLREALNKAAKQVCRLTELGTQYSPIGEVVNEKSIVNGIVALLATGGSTNLTHIVAAARAAGIIVNWDDFSELSDAVPLLARVYPNGHADINHFHAAGGAFLIKELLDAGLLHEDVNTVAGYGLRRYTQEPKLLDGELRWVDGPTVSLDTEVLTSVATPFQNNGGLKLLKGNLGRAVIKVSAVQPQHRVVEAPAVVIDDQNKLDALFKSGALDRDCVVVVKGQGPKANGPELHKLTPLLGSLQDKGFKVALTDGRSGASGKVPAAIHLTPEAIDGGLIAKVQDGDLIRVDALTGELSLLVSDTELATRTATEIDLRHSRYGGRELFGVLRSNLSSPETGARSTSAIDELY HHSVVQSVTDRIIARSKASREAYLAALNDARNHLLKQEVGSVAQVAGVPCDGVTQGQPGELSLLSREVIAATAVGLSHNFDGALLLGICDKIVPGLLIGALSFGHLPLFVPAGPGKVDRAQLLEAEAQSYHSAGTCTFYGQLLEVGLQLPGSSFVNPDDPLREALNKAAKQVCRLTELGTQYSPIGEVVNEKSIVNGIVALLATGGSTNLTHIVAAARAAGIIVNWDDFSELSDAVPLLARVYPNGHADINHFHAAGGAFLIKELLDAGLLHEDVNTVAGYGLRRYTQEPKLLDGELRWVDGPTVSLDTEVLTSVATPFQNNGGLKLLKGNLGRAVIKVSAVQPQHRVVEAPAVVIDDQNKLDALFKSGALDRDCVVVVKGQGPKANGPELHKLTPLLGSLQDKGFKVALTDGRSGASGKVPAAIHLTPEAIDGGLIAKVQDGDLIRVDALTGELSLLVSDTELATRTATEIDLRHSRYGGRELFGVLRSNLSSPETGARSTSAIDELY 2gp6-a1-m1-cA_2gp6-a1-m1-cB X-ray crystal structure of Mycobacterium tuberculosis beta-ketoacyl acyl carrier protein synthase II (mtKasB) P9WQD7 P9WQD7 2.4 X-RAY DIFFRACTION 192 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 415 415 HMVTGKAFPYVVVTGIAMTTALATDAETTWKLLLDRQSGIRTLDDPFVEEFDLPVRIGGHLLEEFDHQLTRIELRRMGYLQRMSTVLSRRLWENAGSPEVDTNRLMVSIGTGLGSAEELVFSYDDMRARGMKAVSPLTVQKYMPNGAAAAVGLERHAKAGVMTPVSACASGAEAIARAWQQIVLGEADAAICGGVETRIEAVPIAGFAQMRIVMSTNNDDPAGACRPFDRDRDGFVFGEGGALLLIETEEHAKARGANILARIMGASITSDGFHMVAPDPNGERAGHAITRAIQLAGLAPGDIDHVNAHATGTQVGDLAEGRAINNALGGNRPAVYAPKSALGHSVGAVGAVESILTVLALRDQVIPPTLNLVNLDPEIDLDVVAGEPRPGNYRYAINNSFGFGGHNVAIAFGRY HMVTGKAFPYVVVTGIAMTTALATDAETTWKLLLDRQSGIRTLDDPFVEEFDLPVRIGGHLLEEFDHQLTRIELRRMGYLQRMSTVLSRRLWENAGSPEVDTNRLMVSIGTGLGSAEELVFSYDDMRARGMKAVSPLTVQKYMPNGAAAAVGLERHAKAGVMTPVSACASGAEAIARAWQQIVLGEADAAICGGVETRIEAVPIAGFAQMRIVMSTNNDDPAGACRPFDRDRDGFVFGEGGALLLIETEEHAKARGANILARIMGASITSDGFHMVAPDPNGERAGHAITRAIQLAGLAPGDIDHVNAHATGTQVGDLAEGRAINNALGGNRPAVYAPKSALGHSVGAVGAVESILTVLALRDQVIPPTLNLVNLDPEIDLDVVAGEPRPGNYRYAINNSFGFGGHNVAIAFGRY 2gpc-a1-m1-cA_2gpc-a1-m1-cB The crystal structure of the enzyme Fe-superoxide dismutase from Trypanosoma cruzi Q4DI29 Q4DI29 1.9 X-RAY DIFFRACTION 46 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 193 193 MFSIPPLPWGYDGLAAKGLSKQQVTLHYDKHHQGYVTKLNAAAQTNSALATKSIEEIIRTEKGPIFNLAAQIFNHTFYWESMPNGGGEPTGKVADEINASFGSFAKFKEEFTNVAVGHFGSGWAWLVKDTNSGKLKVYQTHDAGCPLTEPNLKPLLTCDVWEHAYYVDYKNDRAAYVQTFWNVVNWKNVERQL MFSIPPLPWGYDGLAAKGLSKQQVTLHYDKHHQGYVTKLNAAAQTNSALATKSIEEIIRTEKGPIFNLAAQIFNHTFYWESMPNGGGEPTGKVADEINASFGSFAKFKEEFTNVAVGHFGSGWAWLVKDTNSGKLKVYQTHDAGCPLTEPNLKPLLTCDVWEHAYYVDYKNDRAAYVQTFWNVVNWKNVERQL 2gpe-a2-m1-cC_2gpe-a2-m1-cD Structure of the DNA-binding domain of E. Coli Proline Utilization A (PUTA) P09546 P09546 1.9 X-RAY DIFFRACTION 110 1.0 562 (Escherichia coli) 562 (Escherichia coli) 46 48 2ay0-a1-m1-cB_2ay0-a1-m1-cA 2ay0-a3-m1-cF_2ay0-a3-m1-cE 2gpe-a1-m1-cB_2gpe-a1-m1-cA GTTTMGVKLDDATRERIKSAATRIDRTPHWLIKQAIFSYLEQLENS GTTTMGVKLDDATRERIKSAATRIDRTPHWLIKQAIFSYLEQLENSDT 2gpv-a2-m2-cF_2gpv-a2-m1-cC Estrogen Related Receptor-gamma ligand binding domain complexed with 4-hydroxy-tamoxifen and a SMRT peptide P62508 P62508 2.85 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 223 2gpv-a1-m1-cD_2gpv-a1-m1-cB 2gpv-a1-m1-cE_2gpv-a1-m1-cA 2gpv-a2-m1-cF_2gpv-a2-m2-cC PYNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKL PYNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMHKLFLEMLE 2gpy-a1-m1-cA_2gpy-a1-m1-cB Crystal structure of putative O-methyltransferase from Bacillus halodurans Q9KDE1 Q9KDE1 1.9 X-RAY DIFFRACTION 46 0.983 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 178 185 EERLKHYLEKQIPARDQYIEQEREAHEQQVPIDLLGESLLHLLKAAPARILEIGTAIGYSAIRAQALPEATIVSIERDERRYEEAHKHVKALGLESRIELLFGDALQLGEKLELYPLFDVLFIDAAKGQYRRFFDYSPVRPGGLILSDNVLFQWLLEHPQYDTRIFPVGDGIAISIKR LKHYLEKQIPARDQYIEQEREAHEQQVPIDLLGESLLHLLKAAPARILEIGTAIGYSAIRAQALPEATIVSIERDERRYEEAHKHVKALGLESRIELLFGDALQLGEKLELYPLFDVLFIDAAKGQYRRFFDYSPVRPGGLILSDNVLFNQWLLEHPQYDTRIFPVGDGIAISIKREEGHHHHHH 2gpz-a1-m1-cA_2gpz-a1-m2-cC Transthyretin-like protein from Salmonella dublin Q4VYA5 Q4VYA5 2.5 X-RAY DIFFRACTION 34 1.0 98360 (Salmonella enterica subsp. enterica serovar Dublin) 98360 (Salmonella enterica subsp. enterica serovar Dublin) 110 110 2gpz-a1-m1-cC_2gpz-a1-m2-cA MILSVHILDQQTGKPAPGVEVVLEQKKDGWTQLNTGHTDQDGRIKALWPEKAAAPGDYRVIFKTGQYFESKKLDTFFPEIPVEFHISKTNEHYHVPLLLSQYGYSTYRGS MILSVHILDQQTGKPAPGVEVVLEQKKDGWTQLNTGHTDQDGRIKALWPEKAAAPGDYRVIFKTGQYFESKKLDTFFPEIPVEFHISKTNEHYHVPLLLSQYGYSTYRGS 2gpz-a1-m1-cC_2gpz-a1-m2-cC Transthyretin-like protein from Salmonella dublin Q4VYA5 Q4VYA5 2.5 X-RAY DIFFRACTION 56 1.0 98360 (Salmonella enterica subsp. enterica serovar Dublin) 98360 (Salmonella enterica subsp. enterica serovar Dublin) 110 110 2gpz-a1-m1-cA_2gpz-a1-m2-cA MILSVHILDQQTGKPAPGVEVVLEQKKDGWTQLNTGHTDQDGRIKALWPEKAAAPGDYRVIFKTGQYFESKKLDTFFPEIPVEFHISKTNEHYHVPLLLSQYGYSTYRGS MILSVHILDQQTGKPAPGVEVVLEQKKDGWTQLNTGHTDQDGRIKALWPEKAAAPGDYRVIFKTGQYFESKKLDTFFPEIPVEFHISKTNEHYHVPLLLSQYGYSTYRGS 2gpz-a1-m2-cA_2gpz-a1-m2-cC Transthyretin-like protein from Salmonella dublin Q4VYA5 Q4VYA5 2.5 X-RAY DIFFRACTION 29 1.0 98360 (Salmonella enterica subsp. enterica serovar Dublin) 98360 (Salmonella enterica subsp. enterica serovar Dublin) 110 110 2gpz-a1-m1-cA_2gpz-a1-m1-cC MILSVHILDQQTGKPAPGVEVVLEQKKDGWTQLNTGHTDQDGRIKALWPEKAAAPGDYRVIFKTGQYFESKKLDTFFPEIPVEFHISKTNEHYHVPLLLSQYGYSTYRGS MILSVHILDQQTGKPAPGVEVVLEQKKDGWTQLNTGHTDQDGRIKALWPEKAAAPGDYRVIFKTGQYFESKKLDTFFPEIPVEFHISKTNEHYHVPLLLSQYGYSTYRGS 2gqd-a1-m1-cA_2gqd-a1-m1-cB The crystal structure of B-ketoacyl-ACP synthase II (FabF) from Staphylococcus aureus Q8NXE1 Q8NXE1 2.3 X-RAY DIFFRACTION 260 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 411 411 NKRVVITGMGALSPIGNDVKTTWENALKGVNGIDKITRIDTEPYSVHLAGELKNFNIEDHIDKKEARRMDRFTQYAIVAAREAVKDAQLDINENTADRIGVWIGSGIGGMETFEIAHKQLMDKGPRRVSPFFVPMLIPDMATGQVSIDLGAKGPNGATVTACATGTNSIGEAFKIVQRGDADAMITGGTEAPITHMAIAGFSASRALSTNDDIETACRPFQEGRDGFVMGEGAGILVIESLESAQARGANIYAEIVGYGTTGDAYHITAPAPEGEGGSRAMQAAMDDAGIEPKDVQYLNAHGTSTPVGDLNEVKAIKNTFGEAAKHLKVSSTKSMTGHLLGATGGIEAIFSALSIKDSKVAPTIHAVTPDPECDLDIVPNEAQDLDITYAMSNSLGFGGHNAVLVFKKFEA NKRVVITGMGALSPIGNDVKTTWENALKGVNGIDKITRIDTEPYSVHLAGELKNFNIEDHIDKKEARRMDRFTQYAIVAAREAVKDAQLDINENTADRIGVWIGSGIGGMETFEIAHKQLMDKGPRRVSPFFVPMLIPDMATGQVSIDLGAKGPNGATVTACATGTNSIGEAFKIVQRGDADAMITGGTEAPITHMAIAGFSASRALSTNDDIETACRPFQEGRDGFVMGEGAGILVIESLESAQARGANIYAEIVGYGTTGDAYHITAPAPEGEGGSRAMQAAMDDAGIEPKDVQYLNAHGTSTPVGDLNEVKAIKNTFGEAAKHLKVSSTKSMTGHLLGATGGIEAIFSALSIKDSKVAPTIHAVTPDPECDLDIVPNEAQDLDITYAMSNSLGFGGHNAVLVFKKFEA 2gqf-a2-m1-cA_2gqf-a2-m2-cA Crystal structure of flavoprotein HI0933 from Haemophilus influenzae Rd P44941 P44941 2.7 X-RAY DIFFRACTION 36 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 394 394 SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ 2gqf-a3-m1-cA_2gqf-a3-m5-cA Crystal structure of flavoprotein HI0933 from Haemophilus influenzae Rd P44941 P44941 2.7 X-RAY DIFFRACTION 27 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 394 394 2gqf-a3-m3-cA_2gqf-a3-m4-cA SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ 2gqf-a3-m3-cA_2gqf-a3-m5-cA Crystal structure of flavoprotein HI0933 from Haemophilus influenzae Rd P44941 P44941 2.7 X-RAY DIFFRACTION 29 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 394 394 2gqf-a3-m1-cA_2gqf-a3-m4-cA SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ 2gqf-a3-m4-cA_2gqf-a3-m5-cA Crystal structure of flavoprotein HI0933 from Haemophilus influenzae Rd P44941 P44941 2.7 X-RAY DIFFRACTION 35 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 394 394 2gqf-a3-m1-cA_2gqf-a3-m3-cA SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ SQYSENIIIGAGAAGLFCAAQLAKLGKSVTVFDNGKKIGRKILSGGGFCNFTNLEVTPAHYLSQNPHFVKSALARYTNWDFISLVAEQGITYHEKELGQLFCDEGAEQIVELKSECDKYGAKILLRSEVSQVERIQNDEKVRFVLQVNSTQWQCKNLIVATGGLSPGLGATPFGYQIAEQFGIPVIPPRASLVPFTYRETDKFLTALSGISLPVTITALCGKSFYNQLLFTHRGISGPAVLQISNYWQPTESVEIDLLPNHNVEEEINQAKQSSPKQLKTILVRLLPKKLVELWIEQGIVQDEVIANISKVRVKNLVDFIHHWEFTPNGTEGYRTAEVTGGVDTKVISSKTESNQVSGLYFIGEVLDVTGWLGGYNFQWAWSSAYACALSISRQ 2gqq-a1-m2-cA_2gqq-a1-m2-cC Crystal Structure of E. coli Leucine-responsive regulatory protein (Lrp) P0ACJ0 P0ACJ0 3.2 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 153 157 2gqq-a1-m1-cA_2gqq-a1-m1-cC 2gqq-a1-m1-cB_2gqq-a1-m1-cD 2gqq-a1-m1-cB_2gqq-a1-m2-cA 2gqq-a1-m2-cB_2gqq-a1-m1-cA 2gqq-a1-m2-cB_2gqq-a1-m2-cD LDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR PGKDLDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR 2gqq-a1-m2-cA_2gqq-a1-m2-cD Crystal Structure of E. coli Leucine-responsive regulatory protein (Lrp) P0ACJ0 P0ACJ0 3.2 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 153 153 2gqq-a1-m1-cA_2gqq-a1-m1-cD 2gqq-a1-m1-cB_2gqq-a1-m2-cB LDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR LDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR 2gqq-a1-m2-cD_2gqq-a1-m2-cC Crystal Structure of E. coli Leucine-responsive regulatory protein (Lrp) P0ACJ0 P0ACJ0 3.2 X-RAY DIFFRACTION 206 1.0 562 (Escherichia coli) 562 (Escherichia coli) 153 157 2gqq-a1-m1-cB_2gqq-a1-m1-cA 2gqq-a1-m1-cD_2gqq-a1-m1-cC 2gqq-a1-m2-cB_2gqq-a1-m2-cA LDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR PGKDLDRIDRNILNELQKDGRISNVELSKRVGLSPTPCLERVRRLERQGFIQGYTALLNPHYLDASLLVFVEITLNRGAPDVFEQFNTAVQKLEEIQECHLVSGDFDYLLKTRVPDMSAYRKLLGETLLRLPGVNDTRTYVVMEEVKQSNRLVIKTR 2gqr-a1-m1-cA_2gqr-a1-m1-cB SAICAR Synthetase Complexed with ADP-Mg2+ P0A7D7 P0A7D7 2 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 228 228 2gqs-a1-m1-cA_2gqs-a1-m1-cB QKQAELYRGKAKTVYSTENPDLLVLEFRNDTSAGDGARIEQFDRKGVNNKFNYFISKLAEAGIPTQERLLSDTECLVKKLDVPVECVVRNRAAGSLVKRLGIEEGIELNPPLFDLFLKNDAHDPVNESYCETFGWVSKENLARKELTYKANDVLKKLFDDAGLILVDFKLEFGLYKGEVVLGDEFSPDGSRLWDKETLEKDKDRFRQSLGGLIEAYEAVARRLGVQLD QKQAELYRGKAKTVYSTENPDLLVLEFRNDTSAGDGARIEQFDRKGVNNKFNYFISKLAEAGIPTQERLLSDTECLVKKLDVPVECVVRNRAAGSLVKRLGIEEGIELNPPLFDLFLKNDAHDPVNESYCETFGWVSKENLARKELTYKANDVLKKLFDDAGLILVDFKLEFGLYKGEVVLGDEFSPDGSRLWDKETLEKDKDRFRQSLGGLIEAYEAVARRLGVQLD 2gr8-a2-m1-cE_2gr8-a2-m1-cF Hia 1022-1098 Q48152 Q48152 2 X-RAY DIFFRACTION 107 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 78 78 2gr7-a1-m1-cA_2gr7-a1-m1-cB 2gr7-a1-m1-cA_2gr7-a1-m1-cC 2gr7-a1-m1-cB_2gr7-a1-m1-cC 2gr7-a2-m1-cD_2gr7-a2-m1-cE 2gr7-a2-m1-cD_2gr7-a2-m1-cF 2gr7-a2-m1-cE_2gr7-a2-m1-cF 2gr8-a1-m1-cA_2gr8-a1-m1-cC 2gr8-a1-m1-cA_2gr8-a1-m1-cD 2gr8-a1-m1-cC_2gr8-a1-m1-cD 2gr8-a2-m1-cB_2gr8-a2-m1-cE 2gr8-a2-m1-cB_2gr8-a2-m1-cF 3emo-a1-m1-cA_3emo-a1-m1-cB 3emo-a1-m1-cA_3emo-a1-m1-cC 3emo-a1-m1-cB_3emo-a1-m1-cC SKRADAGTASALAASQLPQATMPGKSMVAIAGSSYQGQNGLAIGVSRISDNGKVIIRLSGTTNSQGKTGVAAGVGYQW SKRADAGTASALAASQLPQATMPGKSMVAIAGSSYQGQNGLAIGVSRISDNGKVIIRLSGTTNSQGKTGVAAGVGYQW 2gre-a1-m1-cB_2gre-a1-m1-cA Crystal structure of Deblocking aminopeptidase from Bacillus cereus Q81HB5 Q81HB5 2.65 X-RAY DIFFRACTION 57 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 306 307 2gre-a1-m1-cC_2gre-a1-m1-cA 2gre-a1-m1-cC_2gre-a1-m1-cB 2gre-a1-m1-cD_2gre-a1-m1-cE 2gre-a1-m1-cD_2gre-a1-m1-cF 2gre-a1-m1-cE_2gre-a1-m1-cF 2gre-a1-m1-cH_2gre-a1-m1-cG 2gre-a1-m1-cI_2gre-a1-m1-cG 2gre-a1-m1-cI_2gre-a1-m1-cH 2gre-a1-m1-cJ_2gre-a1-m1-cL 2gre-a1-m1-cK_2gre-a1-m1-cJ 2gre-a1-m1-cK_2gre-a1-m1-cL 2gre-a2-m1-cN_2gre-a2-m2-cN 2gre-a2-m1-cN_2gre-a2-m3-cN 2gre-a2-m1-cO_2gre-a2-m2-cM 2gre-a2-m1-cP_2gre-a2-m1-cM 2gre-a2-m1-cP_2gre-a2-m3-cO 2gre-a2-m2-cN_2gre-a2-m3-cN 2gre-a2-m2-cO_2gre-a2-m3-cM 2gre-a2-m2-cP_2gre-a2-m1-cO 2gre-a2-m2-cP_2gre-a2-m2-cM 2gre-a2-m3-cO_2gre-a2-m1-cM 2gre-a2-m3-cP_2gre-a2-m2-cO 2gre-a2-m3-cP_2gre-a2-m3-cM HHTKETELIKELVSIPSPSGNTAKIINFIENYVSEWNVETKRNNKGALILTVKGKNDAQHRLLTAHVDTLGAVKEIKPDGRLSLSIGGFRWNSVEGEYCEIETSSGKTYTGTILIEVRIDERVFSADEVRELGIEVGDFVSFDPRVQITESGYIKSRHLDDKVSVAILLKLIKRLQDENVTLPYTTHFLISNNEGGNSNIPEETVEYLAVDGALGDGSDEYTVSICAKDSSGPYHYALRKHLVELAKTNHIEYKVDIYPYYRAGFDVKHALIGAGIDSSHAFERTHESSIAHTEALVYAYVSNLIE HHTKETELIKELVSIPSPSGNTAKIINFIENYVSEWNVETKRNNKGALILTVKGKNDAQHRLLTAHVDTLGAVKEIKPDGRLSLSIGGFRWNSVEGEYCEIETSSGKTYTGTILHIEVRIDERVFSADEVRELGIEVGDFVSFDPRVQITESGYIKSRHLDDKVSVAILLKLIKRLQDENVTLPYTTHFLISNNEGGNSNIPEETVEYLAVDGALGDGSDEYTVSICAKDSSGPYHYALRKHLVELAKTNHIEYKVDIYPYYRAGFDVKHALIGAGIDSSHAFERTHESSIAHTEALVYAYVSNLIE 2gre-a2-m3-cN_2gre-a2-m3-cM Crystal structure of Deblocking aminopeptidase from Bacillus cereus Q81HB5 Q81HB5 2.65 X-RAY DIFFRACTION 61 0.99 1396 (Bacillus cereus) 1396 (Bacillus cereus) 301 303 2gre-a1-m1-cE_2gre-a1-m1-cC 2gre-a1-m1-cF_2gre-a1-m1-cL 2gre-a1-m1-cG_2gre-a1-m1-cA 2gre-a1-m1-cH_2gre-a1-m1-cD 2gre-a1-m1-cI_2gre-a1-m1-cK 2gre-a1-m1-cJ_2gre-a1-m1-cB 2gre-a2-m1-cN_2gre-a2-m1-cM 2gre-a2-m1-cP_2gre-a2-m1-cO 2gre-a2-m2-cN_2gre-a2-m2-cM 2gre-a2-m2-cP_2gre-a2-m2-cO 2gre-a2-m3-cP_2gre-a2-m3-cO HHTKETELIKELVSIPSPSGNTAKIINFIENYVSEWNVETKRNNKGALILTVKGKNDAQHRLLTAHVDTLGAVKEIKPDGRLSLSIGGFRWNSVEGEYCEIETSSGKTYTGTILIEVRIDERVFSADEVRELGIEVGDFVSFDPRVQITESGYIKSRHLDDKVSVAILLKLIKRLQDENVTLPYTTHFLISNNESNIPEETVEYLAVDGALGSDEYTVSICAKDSSGPYHYALRKHLVELAKTNHIEYKVDIYPYYRAGFDVKHALIGAGIDSSHAFERTHESSIAHTEALVYAYVSNLIE AHHTKETELIKELVSIPSPSGNTAKIINFIENYVSEWNVETKRNNKGALILTVKGKNDAQHRLLTAHVDTLGAVKEIKPDGRLSLSIGGFRWNSVEGEYCEIETSSGKTYTGTILIEVRIDERVFSADEVRELGIEVGDFVSFDPRVQITESGYIKSRHLDDKVSVAILLKLIKRLQDENVTLPYTTHFLISNNEEINIPEETVEYLAVDGALGDGSDEYTVSICAKDSSGPYHYALRKHLVELAKTNHIEYKVDIYPYYRAGFDVKHALIGAGIDSSFERTHESSIAHTEALVYAYVSNLIE 2grm-a1-m1-cA_2grm-a1-m4-cA Crystal structure of PrgX/iCF10 complex Q04114 Q04114 3 X-RAY DIFFRACTION 31 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 315 315 2awi-a1-m1-cE_2awi-a1-m1-cB 2awi-a1-m1-cF_2awi-a1-m1-cA 2awi-a2-m1-cK_2awi-a2-m1-cC 2awi-a2-m1-cL_2awi-a2-m1-cD 2awi-a3-m1-cG_2awi-a3-m1-cJ 2awi-a3-m1-cH_2awi-a3-m1-cI 2axu-a1-m1-cB_2axu-a1-m1-cE 2axu-a1-m1-cF_2axu-a1-m1-cA 2axu-a2-m1-cC_2axu-a2-m1-cK 2axu-a2-m1-cD_2axu-a2-m1-cL 2axu-a3-m1-cH_2axu-a3-m1-cI 2axu-a3-m1-cJ_2axu-a3-m1-cG 2axv-a1-m1-cA_2axv-a1-m1-cC 2axv-a1-m1-cD_2axv-a1-m1-cB 2grm-a1-m2-cA_2grm-a1-m3-cA 2grm-a2-m1-cC_2grm-a2-m1-cB 2grm-a2-m5-cC_2grm-a2-m5-cB MFKIGSVLKQIRQELNYHQIDLYSGIMSKSVYIKVEADSRPISVEELSKFSERLGVNFFEILNRAGMNTKSVNETGKEKLLISKIFTNPDLFDKNFQRIEPKRLTSLQYFSIYLGYISIAHHYNIEVPTFNKTITSDLKHLYDKRTTFFGIDYEIVSNLLNVLPYEEVSSIIKPMYPIVDSFGKDYDLTIQTVLKNALTISIMNRNLKEAQYYINQFEHLKTIKNISINGCYDLEINYLKQIYQFLTDKNIDSYLNAVNIINIFKIIGKEDIHRSLVEELTKISAKEKFTPPKEVTMYYENYVAIENNPIPEIKE MFKIGSVLKQIRQELNYHQIDLYSGIMSKSVYIKVEADSRPISVEELSKFSERLGVNFFEILNRAGMNTKSVNETGKEKLLISKIFTNPDLFDKNFQRIEPKRLTSLQYFSIYLGYISIAHHYNIEVPTFNKTITSDLKHLYDKRTTFFGIDYEIVSNLLNVLPYEEVSSIIKPMYPIVDSFGKDYDLTIQTVLKNALTISIMNRNLKEAQYYINQFEHLKTIKNISINGCYDLEINYLKQIYQFLTDKNIDSYLNAVNIINIFKIIGKEDIHRSLVEELTKISAKEKFTPPKEVTMYYENYVAIENNPIPEIKE 2gru-a1-m1-cB_2gru-a1-m1-cA Crystal structure of 2-deoxy-scyllo-inosose synthase complexed with carbaglucose-6-phosphate, NAD+ and Co2+ Q9S5E2 Q9S5E2 2.15 X-RAY DIFFRACTION 80 1.0 1397 (Niallia circulans) 1397 (Niallia circulans) 360 367 2d2x-a1-m1-cB_2d2x-a1-m1-cA TTKQICFADRCFNFAFGEHVLESVESYIPRDEFDQYIMISDSGVPDSIVHYAAEYFGKLAPVHILRFQGGEEYKTLSTVTNLQERAIALGANRRTAIVAVGGGLTGNVAGVAAGMMFRGIALIHVPTTFLAASDSVLSIKQAVNLTSGKNLVGFYYPPRFVFADTRILSESPPRQVKAGMCELVKNMLILENDNKEFTEDDLNSANVYSPKQLETFINFCISAKMSVLSEDIYEKKKGLIFEYGHTIGHAIELAEQGGITHGEAIAVGMIYAAKIANRMNLMPEHDVSAHYWLLNKIGALQDIPLKSDPDSIFHYLIHDNDEDNLGMILLSGVGKPAMYNQTLLTPVRKTLIKEVIREGL TTKQICFADRCFNFAFGEHVLESVESYIPRDEFDQYIMISDSGVPDSIVHYAAEYFGKLAPVHILRFQGGEEYKTLSTVTNLQERAIALGANRRTAIVAVGGGLTGNVAGVAAGMMFRGIALIHVPTTFLAASDSVLSIKQAVNLTSGKNLVGFYYPPRFVFADTRILSESPPRQVKAGMCELVKNMLILENDNKEFTEDDLNSANVYSPKQLETFINFCISAKMSVLSEDIYEKKKGLIFEYGHTIGHAIELAEQGGITHGEAIAVGMIYAAKIANRMNLMPEHDVSAHYWLLNKIGALQDIPLKSDPDSIFHYLIHDNKRGYIKLDEDNLGMILLSGVGKPAMYNQTLLTPVRKTLIKEVIREGL 2gs4-a2-m3-cB_2gs4-a2-m2-cA The crystal structure of the E.coli stress protein YciF. P21362 P21362 2 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 156 2gs4-a2-m1-cB_2gs4-a2-m3-cA 2gs4-a2-m2-cB_2gs4-a2-m1-cA KTIEDVFIHLLSDTYSAEKQLTRALAKLARATSNEKLSQAFHAHLEETHGQIERIDQVVESESNLKIKRKCVAEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYRKAAKLLKETLEEEKATDIKLTDLAINN KTIEDVFIHLLSDTYSAEKQLTRALAKLARATSNEKLSQAFHAHLEETHGQIERIDQVVESESNLKIKRKCVAEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYRKAAKLLKETLEEEKATDIKLTDLAINNVNKK 2gs4-a2-m3-cB_2gs4-a2-m3-cA The crystal structure of the E.coli stress protein YciF. P21362 P21362 2 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 152 156 2gs4-a1-m1-cB_2gs4-a1-m1-cA 2gs4-a2-m1-cB_2gs4-a2-m1-cA 2gs4-a2-m2-cB_2gs4-a2-m2-cA KTIEDVFIHLLSDTYSAEKQLTRALAKLARATSNEKLSQAFHAHLEETHGQIERIDQVVESESNLKIKRKCVAEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYRKAAKLLKETLEEEKATDIKLTDLAINN KTIEDVFIHLLSDTYSAEKQLTRALAKLARATSNEKLSQAFHAHLEETHGQIERIDQVVESESNLKIKRKCVAEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYRKAAKLLKETLEEEKATDIKLTDLAINNVNKK 2gs9-a1-m1-cA_2gs9-a1-m1-cB Crystal structure of TT1324 from Thermus thermophilis HB8 Q5SL11 Q5SL11 2.6 X-RAY DIFFRACTION 109 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 210 210 DPFASLAEAYEAWYGTPLGAYVIAEEERALKGLLPPGESLLEVGAGTGYWLRRLPYPQKVGVEPSEALAVGRRRAPEATWVRAWGEALPFPGESFDVVLLFTTLEFVEDVERVLLEARRVLRPGGALVVGVLEALSPWAALYRRLGEKGVLPWAQARFLAREDLKALLGPPEAEGEAVFLAPEAHPPYEEADLAGRRAGNRPALYLGRWR DPFASLAEAYEAWYGTPLGAYVIAEEERALKGLLPPGESLLEVGAGTGYWLRRLPYPQKVGVEPSEALAVGRRRAPEATWVRAWGEALPFPGESFDVVLLFTTLEFVEDVERVLLEARRVLRPGGALVVGVLEALSPWAALYRRLGEKGVLPWAQARFLAREDLKALLGPPEAEGEAVFLAPEAHPPYEEADLAGRRAGNRPALYLGRWR 2gsc-a1-m1-cA_2gsc-a1-m1-cB Crystal Structure of the Conserved Hypothetical Cytosolic Protein Xcc0516 from Xanthomonas campestris Q8PD29 Q8PD29 2.45 X-RAY DIFFRACTION 67 0.982 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 113 117 2gsc-a1-m1-cC_2gsc-a1-m1-cB 2gsc-a1-m1-cC_2gsc-a1-m1-cD 2gsc-a1-m1-cE_2gsc-a1-m1-cD RPHERLDAWRDSMELVEMIYRLTEVFPDQERYGLTAQLRRAAVSIPSNIAEGAARDYSRFLSIARGSLSELDTQVQIAARLGYSRSEDDQSVRRQVDLVFAKLTALMNALRRR AQRPHERLDAWRDSMELVEMIYRLTEVFPDQERYGLTAQLRRAAVSIPSNIAEGAARRSTPDYSRFLSIARGSLSELDTQVQIAARLGYSRSEDDQSVRRQVDLVFAKLTALMNALR 2gsd-a1-m1-cA_2gsd-a1-m2-cA NAD-dependent formate dehydrogenase from bacterium Moraxella sp.C2 in complex with NAD and azide O08375 O08375 1.95 X-RAY DIFFRACTION 250 1.0 479 (Moraxella sp.) 479 (Moraxella sp.) 399 399 3fn4-a1-m1-cA_3fn4-a1-m2-cA AKVVCVLYDDPINGYPTSYARDDLPRIDKYPDGQTLPTPKAIDFTPGALLGSVSGELGLRKYLESQGHELVVTSSKDGPDSELEKHLHDAEVIISQPFWPAYLTAERIAKAPKLKLALTAGIGSDHVDLQAAIDNNITVAEVTYCNSNSVAEHVVMMVLGLVRNYIPSHDWARNGGWNIADCVARSYDVEGMHVGTVAAGRIGLRVLRLLAPFDMHLHYTDRHRLPEAVEKELNLTWHATREDMYGACDVVTLNCPLHPETEHMINDETLKLFKRGAYLVNTARGKLCDRDAIVRALESGRLAGYAGDVWFPQPAPNDHPWRTMPHNGMTPHISGTSLSAQTRYAAGTREILECYFEGRPIRDEYLIVQGGGLAGVGAHSYSKGNATGGSEEAAKYEKL AKVVCVLYDDPINGYPTSYARDDLPRIDKYPDGQTLPTPKAIDFTPGALLGSVSGELGLRKYLESQGHELVVTSSKDGPDSELEKHLHDAEVIISQPFWPAYLTAERIAKAPKLKLALTAGIGSDHVDLQAAIDNNITVAEVTYCNSNSVAEHVVMMVLGLVRNYIPSHDWARNGGWNIADCVARSYDVEGMHVGTVAAGRIGLRVLRLLAPFDMHLHYTDRHRLPEAVEKELNLTWHATREDMYGACDVVTLNCPLHPETEHMINDETLKLFKRGAYLVNTARGKLCDRDAIVRALESGRLAGYAGDVWFPQPAPNDHPWRTMPHNGMTPHISGTSLSAQTRYAAGTREILECYFEGRPIRDEYLIVQGGGLAGVGAHSYSKGNATGGSEEAAKYEKL 2gsg-a3-m1-cB_2gsg-a3-m2-cD Crystal structure of the Fv fragment of a monoclonal antibody specific for poly-glutamine 2.1 X-RAY DIFFRACTION 30 1.0 10090 (Mus musculus) 10090 (Mus musculus) 118 118 QVQLQESGGGLVQPGGSLKLSCAASGFTFRDYYMYWVRQTPEKRLEWVAFISNGGGSTYYPDTVKGRFTISRDNAKNTLYLQMSRLKSEDTAMYYCARGRGYVWFAYWGQGTTVTVSS QVQLQESGGGLVQPGGSLKLSCAASGFTFRDYYMYWVRQTPEKRLEWVAFISNGGGSTYYPDTVKGRFTISRDNAKNTLYLQMSRLKSEDTAMYYCARGRGYVWFAYWGQGTTVTVSS 2gsl-a3-m1-cE_2gsl-a3-m1-cF X-Ray Crystal Structure of Protein FN1578 from Fusobacterium nucleatum. Northeast Structural Genomics Consortium Target NR1. Q8RIL0 Q8RIL0 2.6 X-RAY DIFFRACTION 43 0.992 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 119 125 2gsl-a1-m1-cB_2gsl-a1-m1-cA SKDIRDYSGLELAFLGDAIWELEIRKYYLQFGYNIPTLNKYVKAKVNAKYQSLIYKKIINDLDEEFKVIGKRAKNSNKTFPRSCTVEYKEATALEAIIGAYLLKKEEEIKKIINIVIKG SKDIRDYSGLELAFLGDAIWELEIRKYYLQFGYNIPTLNKYVKAKVNAKYQSLIYKKIINDLDEEFKVIGKRAKNSNTFPRSCTVEYKEATALEAIIGAYLLKKEEEIKKIINIVIKGELEHHHH 2gsq-a1-m1-cA_2gsq-a1-m2-cA GLUTATHIONE S-TRANSFERASE FROM SQUID DIGESTIVE GLAND COMPLEXED WITH S-(3-IODOBENZYL)GLUTATHIONE P46088 P46088 2.2 X-RAY DIFFRACTION 75 1.0 202 202 1gsq-a1-m1-cA_1gsq-a1-m2-cA PKYTLHYFPLMGRAELCRFVLAAHGEEFTDRVVEMADWPNLKATMYSNAMPVLDIDGTKMSQSMCIARHLAREFGLDGKTSLEKYRVDEITETLQDIFNDVVKIKFAPEAAKEAVQQNYEKSCKRLAPFLEGLLVSNGGGDGFFVGNSMTLADLHCYVALEVPLKHTPELLKDCPKIVALRKRVAECPKIAAYLKKRPVRDF PKYTLHYFPLMGRAELCRFVLAAHGEEFTDRVVEMADWPNLKATMYSNAMPVLDIDGTKMSQSMCIARHLAREFGLDGKTSLEKYRVDEITETLQDIFNDVVKIKFAPEAAKEAVQQNYEKSCKRLAPFLEGLLVSNGGGDGFFVGNSMTLADLHCYVALEVPLKHTPELLKDCPKIVALRKRVAECPKIAAYLKKRPVRDF 2gsr-a1-m1-cA_2gsr-a1-m1-cB Structure of porcine class pi glutathione s-transferase P80031 P80031 2.11 X-RAY DIFFRACTION 74 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 207 207 PPYTITYFPVRGRCEAMRMLLADQDQSWKEEVVTMETWPPLKPSCLFRQLPKFQDGDLTLYQSNAILRHLGRSFGLYGKDQKEAALVDMVNDGVEDLRCKYATLIYTNYEAGKEKYVKELPEHLKPFETLLSQNQGGQAFVVGSQISFADYNLLDLLRIHQVLNPSCLDAFPLLSAYVARLSARPKIKAFLASPEHVNRPINGNGKQ PPYTITYFPVRGRCEAMRMLLADQDQSWKEEVVTMETWPPLKPSCLFRQLPKFQDGDLTLYQSNAILRHLGRSFGLYGKDQKEAALVDMVNDGVEDLRCKYATLIYTNYEAGKEKYVKELPEHLKPFETLLSQNQGGQAFVVGSQISFADYNLLDLLRIHQVLNPSCLDAFPLLSAYVARLSARPKIKAFLASPEHVNRPINGNGKQ 2gsv-a2-m2-cA_2gsv-a2-m2-cB X-Ray Crystal Structure of Protein YvfG from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR478. P71066 P71066 1.9 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 65 66 2gsv-a1-m1-cA_2gsv-a1-m1-cB 2gsv-a2-m1-cA_2gsv-a2-m1-cB ELFSVPYFIENLKQHIENQSEDKIHANSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRG SELFSVPYFIENLKQHIENQSEDKIHANSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRG 2gsv-a3-m1-cA_2gsv-a3-m2-cA X-Ray Crystal Structure of Protein YvfG from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR478. P71066 P71066 1.9 X-RAY DIFFRACTION 14 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 65 65 2gsv-a2-m1-cA_2gsv-a2-m2-cA ELFSVPYFIENLKQHIENQSEDKIHANSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRG ELFSVPYFIENLKQHIENQSEDKIHANSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRG 2gsv-a3-m2-cA_2gsv-a3-m4-cB X-Ray Crystal Structure of Protein YvfG from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR478. P71066 P71066 1.9 X-RAY DIFFRACTION 31 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 65 66 2gsv-a3-m1-cA_2gsv-a3-m3-cB ELFSVPYFIENLKQHIENQSEDKIHANSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRG SELFSVPYFIENLKQHIENQSEDKIHANSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRG 2gsz-a1-m1-cD_2gsz-a1-m1-cE Structure of A. aeolicus PilT with 6 monomers per asymmetric unit O66950 O66950 4.2 X-RAY DIFFRACTION 99 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 334 334 2gsz-a1-m1-cA_2gsz-a1-m1-cB ELKILEIIKEAIELGASDIHLTAGAPPAVRIDGYIKFLKDFPRLTPEDTQKLAYSVSEKHRQKLEENGQVDFSFGVRGVGRFRANVFYQRGSVAAALRSLPAEIPEFKKLGLPDKVLELCHRKGLILVTGPTGSGKSTTIASIDYINQTKSYHIITIEDPIEYVFKHKKSIVNQREVGEDTKSFADALRAALREDPDVIFVGERDLETVETALRAAETGHLVFGTLHTNTAIDTIHRIVDIFPLNQQEQVRIVLSFILQGIISQRLLPKIGGGRVLAYELLIPNTAIRNLIRENKLQQVYSLQQTNQTLYKLYKQGLITLEDAEASPDPKELER ELKILEIIKEAIELGASDIHLTAGAPPAVRIDGYIKFLKDFPRLTPEDTQKLAYSVSEKHRQKLEENGQVDFSFGVRGVGRFRANVFYQRGSVAAALRSLPAEIPEFKKLGLPDKVLELCHRKGLILVTGPTGSGKSTTIASIDYINQTKSYHIITIEDPIEYVFKHKKSIVNQREVGEDTKSFADALRAALREDPDVIFVGERDLETVETALRAAETGHLVFGTLHTNTAIDTIHRIVDIFPLNQQEQVRIVLSFILQGIISQRLLPKIGGGRVLAYELLIPNTAIRNLIRENKLQQVYSLQQTNQTLYKLYKQGLITLEDAEASPDPKELER 2gta-a1-m1-cC_2gta-a1-m1-cA Crystal Structure of the putative pyrophosphatase YPJD from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR428. P42979 P42979 2.9 X-RAY DIFFRACTION 43 0.988 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 81 92 SDKTKDIQAEVDRYIGQFKEGYFSPLAARLTEELGELAREVNHRYSEEEIGDVLFVLVCLANSLDISLEEAHDRVHKFNTR SDKTKDIQAEVDRYIGQFKEGYFSPLAARLTEELGELAREVNHRYGEKPKKATEDDKSEEEIGDVLFVLVCLANSLDISLEEAHDRVHKFNT 2gta-a1-m1-cC_2gta-a1-m1-cB Crystal Structure of the putative pyrophosphatase YPJD from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR428. P42979 P42979 2.9 X-RAY DIFFRACTION 106 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 81 90 SDKTKDIQAEVDRYIGQFKEGYFSPLAARLTEELGELAREVNHRYSEEEIGDVLFVLVCLANSLDISLEEAHDRVHKFNTR SDKTKDIQAEVDRYIGQFKEGYFSPLAARLTEELGELAREVNHRYGEKPKKAKSEEEIGDVLFVLVCLANSLDISLEEAHDRVHKFNTRD 2gtc-a1-m1-cD_2gtc-a1-m1-cE Crystal structure of the hypthetical protein from Bacillus cereus (ATCC 14579). Northeast structural genomics Target BcR11 Q63F05 Q63F05 2.3 X-RAY DIFFRACTION 97 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 97 97 1vr4-a1-m1-cB_1vr4-a1-m1-cA 1vr4-a1-m1-cC_1vr4-a1-m1-cD 1vr4-a1-m1-cE_1vr4-a1-m1-cA 1vr4-a1-m1-cE_1vr4-a1-m1-cD 2gtc-a1-m1-cA_2gtc-a1-m1-cC 2gtc-a1-m1-cA_2gtc-a1-m1-cD 2gtc-a1-m1-cB_2gtc-a1-m1-cC 2gtc-a1-m1-cB_2gtc-a1-m1-cE IVTTTSGIQGKEIIEYIDIVNGEAIGANIVRDLFASVRDVVGGRAGSYESKLKEARDIADEKELAKQKGANAIVGVDVDYEVVRDGLVAVSGTAVRI IVTTTSGIQGKEIIEYIDIVNGEAIGANIVRDLFASVRDVVGGRAGSYESKLKEARDIADEKELAKQKGANAIVGVDVDYEVVRDGLVAVSGTAVRI 2gtd-a4-m1-cD_2gtd-a4-m1-cF Crystal Structure of a Type III Pantothenate Kinase: Insight into the Catalysis of an Essential Coenzyme A Biosynthetic Enzyme Universally Distributed in Bacteria Q9WZY5 Q9WZY5 2 X-RAY DIFFRACTION 34 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 248 248 2gtd-a4-m1-cA_2gtd-a4-m1-cD 2gtd-a4-m1-cA_2gtd-a4-m1-cF 2gtd-a4-m1-cB_2gtd-a4-m1-cC 2gtd-a4-m1-cB_2gtd-a4-m1-cE 2gtd-a4-m1-cC_2gtd-a4-m1-cE MDPMYLLVDVGNTHSVFSITEDGKTFRRWRLSTGVFQTEDELFSHLHPLLGDAMREIKGIGVASVVPTQNTVIERFSQKYFHISPIWVKAKNGCVKWNVKNPSEVGADRVANVVAFVKEYGKNGIIIDMGTATTVDLVVNGSYEGGAILPGFFMMVHSLFRGTAKLPLVEVKPADFVVGKDTEENIRLGVVNGSVYALEGIIGRIKEVYGDLPVVLTGGQSKIVKDMIKHEIFDEDLTIKGVYHFCFG MDPMYLLVDVGNTHSVFSITEDGKTFRRWRLSTGVFQTEDELFSHLHPLLGDAMREIKGIGVASVVPTQNTVIERFSQKYFHISPIWVKAKNGCVKWNVKNPSEVGADRVANVVAFVKEYGKNGIIIDMGTATTVDLVVNGSYEGGAILPGFFMMVHSLFRGTAKLPLVEVKPADFVVGKDTEENIRLGVVNGSVYALEGIIGRIKEVYGDLPVVLTGGQSKIVKDMIKHEIFDEDLTIKGVYHFCFG 2gti-a1-m1-cA_2gti-a1-m6-cA mutation of MHV coronavirus non-structural protein nsp15 (F307L) Q9J3E8 Q9J3E8 2.15 X-RAY DIFFRACTION 21 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 343 343 2gth-a1-m1-cA_2gth-a1-m6-cA 2gth-a1-m2-cA_2gth-a1-m5-cA 2gth-a1-m3-cA_2gth-a1-m4-cA 2gti-a1-m2-cA_2gti-a1-m5-cA 2gti-a1-m3-cA_2gti-a1-m4-cA SSLENVVYNLVNAGHFDGRAGELPCAVIGEKVIAKIQNEDVVVFKNNTPFPTNVAVELFAKRSIRPHPELKLFRNLNIDVCWSHVLWDYAKDSVFCSSTYKVCKYTDLQCIESLNVLFDGRDNGALEAFKKCRNGVYINTTKIKSLSIKGPQRADLNGVVVEKVGDSDVEFWFAVRKDGDDVIFSRTGSLEPSHARGTIFTQSRLLSSFTPRSEEKDFDLDDDVFIAKYSLQDYAFEHVVYGSFNQKIIGGLHLLIGLARRQQKSNLVIQEFVTYDSSIHSYLITDENSGSSKSVCTVIDLLLDDFVDIVKSLNLKCVSKVVNVNVDFKDFQFLWCNEEKVTF SSLENVVYNLVNAGHFDGRAGELPCAVIGEKVIAKIQNEDVVVFKNNTPFPTNVAVELFAKRSIRPHPELKLFRNLNIDVCWSHVLWDYAKDSVFCSSTYKVCKYTDLQCIESLNVLFDGRDNGALEAFKKCRNGVYINTTKIKSLSIKGPQRADLNGVVVEKVGDSDVEFWFAVRKDGDDVIFSRTGSLEPSHARGTIFTQSRLLSSFTPRSEEKDFDLDDDVFIAKYSLQDYAFEHVVYGSFNQKIIGGLHLLIGLARRQQKSNLVIQEFVTYDSSIHSYLITDENSGSSKSVCTVIDLLLDDFVDIVKSLNLKCVSKVVNVNVDFKDFQFLWCNEEKVTF 2gti-a1-m2-cA_2gti-a1-m6-cA mutation of MHV coronavirus non-structural protein nsp15 (F307L) Q9J3E8 Q9J3E8 2.15 X-RAY DIFFRACTION 51 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 343 343 2gth-a1-m1-cA_2gth-a1-m4-cA 2gth-a1-m2-cA_2gth-a1-m6-cA 2gth-a1-m3-cA_2gth-a1-m5-cA 2gti-a1-m1-cA_2gti-a1-m4-cA 2gti-a1-m3-cA_2gti-a1-m5-cA SSLENVVYNLVNAGHFDGRAGELPCAVIGEKVIAKIQNEDVVVFKNNTPFPTNVAVELFAKRSIRPHPELKLFRNLNIDVCWSHVLWDYAKDSVFCSSTYKVCKYTDLQCIESLNVLFDGRDNGALEAFKKCRNGVYINTTKIKSLSIKGPQRADLNGVVVEKVGDSDVEFWFAVRKDGDDVIFSRTGSLEPSHARGTIFTQSRLLSSFTPRSEEKDFDLDDDVFIAKYSLQDYAFEHVVYGSFNQKIIGGLHLLIGLARRQQKSNLVIQEFVTYDSSIHSYLITDENSGSSKSVCTVIDLLLDDFVDIVKSLNLKCVSKVVNVNVDFKDFQFLWCNEEKVTF SSLENVVYNLVNAGHFDGRAGELPCAVIGEKVIAKIQNEDVVVFKNNTPFPTNVAVELFAKRSIRPHPELKLFRNLNIDVCWSHVLWDYAKDSVFCSSTYKVCKYTDLQCIESLNVLFDGRDNGALEAFKKCRNGVYINTTKIKSLSIKGPQRADLNGVVVEKVGDSDVEFWFAVRKDGDDVIFSRTGSLEPSHARGTIFTQSRLLSSFTPRSEEKDFDLDDDVFIAKYSLQDYAFEHVVYGSFNQKIIGGLHLLIGLARRQQKSNLVIQEFVTYDSSIHSYLITDENSGSSKSVCTVIDLLLDDFVDIVKSLNLKCVSKVVNVNVDFKDFQFLWCNEEKVTF 2gti-a1-m5-cA_2gti-a1-m6-cA mutation of MHV coronavirus non-structural protein nsp15 (F307L) Q9J3E8 Q9J3E8 2.15 X-RAY DIFFRACTION 96 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 343 343 2gth-a1-m1-cA_2gth-a1-m2-cA 2gth-a1-m1-cA_2gth-a1-m3-cA 2gth-a1-m2-cA_2gth-a1-m3-cA 2gth-a1-m4-cA_2gth-a1-m5-cA 2gth-a1-m4-cA_2gth-a1-m6-cA 2gth-a1-m5-cA_2gth-a1-m6-cA 2gti-a1-m1-cA_2gti-a1-m2-cA 2gti-a1-m1-cA_2gti-a1-m3-cA 2gti-a1-m2-cA_2gti-a1-m3-cA 2gti-a1-m4-cA_2gti-a1-m5-cA 2gti-a1-m4-cA_2gti-a1-m6-cA SSLENVVYNLVNAGHFDGRAGELPCAVIGEKVIAKIQNEDVVVFKNNTPFPTNVAVELFAKRSIRPHPELKLFRNLNIDVCWSHVLWDYAKDSVFCSSTYKVCKYTDLQCIESLNVLFDGRDNGALEAFKKCRNGVYINTTKIKSLSIKGPQRADLNGVVVEKVGDSDVEFWFAVRKDGDDVIFSRTGSLEPSHARGTIFTQSRLLSSFTPRSEEKDFDLDDDVFIAKYSLQDYAFEHVVYGSFNQKIIGGLHLLIGLARRQQKSNLVIQEFVTYDSSIHSYLITDENSGSSKSVCTVIDLLLDDFVDIVKSLNLKCVSKVVNVNVDFKDFQFLWCNEEKVTF SSLENVVYNLVNAGHFDGRAGELPCAVIGEKVIAKIQNEDVVVFKNNTPFPTNVAVELFAKRSIRPHPELKLFRNLNIDVCWSHVLWDYAKDSVFCSSTYKVCKYTDLQCIESLNVLFDGRDNGALEAFKKCRNGVYINTTKIKSLSIKGPQRADLNGVVVEKVGDSDVEFWFAVRKDGDDVIFSRTGSLEPSHARGTIFTQSRLLSSFTPRSEEKDFDLDDDVFIAKYSLQDYAFEHVVYGSFNQKIIGGLHLLIGLARRQQKSNLVIQEFVTYDSSIHSYLITDENSGSSKSVCTVIDLLLDDFVDIVKSLNLKCVSKVVNVNVDFKDFQFLWCNEEKVTF 2gtl-a1-m5-cO_2gtl-a1-m9-cO Lumbricus Erythrocruorin at 3.5A resolution Q2I742 Q2I742 3.5 X-RAY DIFFRACTION 14 1.0 6398 (Lumbricus terrestris) 6398 (Lumbricus terrestris) 215 215 2gtl-a1-m10-cO_2gtl-a1-m4-cO 2gtl-a1-m11-cO_2gtl-a1-m3-cO 2gtl-a1-m12-cO_2gtl-a1-m2-cO 2gtl-a1-m1-cO_2gtl-a1-m7-cO 2gtl-a1-m6-cO_2gtl-a1-m8-cO QSHDEIIDKLIERTNKITTSISHVESLLDDRLDPKRIRKAGSLRHRVEELEDPSCDEHEHQCGGDDPQCISKLFVCDGHNDCRNGEDEKDCTLPTKAGDKFIGDVCFDHCTKRRPEHMTLAFESSSIAAFFTPIADLHVHIEIESETDEDESEVSMPADGEYSFADHRLTIHPPEEDGLGLVGEFDGYNFDRFVGHIVHELSEEVCAEFIFHRKK QSHDEIIDKLIERTNKITTSISHVESLLDDRLDPKRIRKAGSLRHRVEELEDPSCDEHEHQCGGDDPQCISKLFVCDGHNDCRNGEDEKDCTLPTKAGDKFIGDVCFDHCTKRRPEHMTLAFESSSIAAFFTPIADLHVHIEIESETDEDESEVSMPADGEYSFADHRLTIHPPEEDGLGLVGEFDGYNFDRFVGHIVHELSEEVCAEFIFHRKK 2gtl-a1-m8-cE_2gtl-a1-m9-cI Lumbricus Erythrocruorin at 3.5A resolution P13579 P13579 3.5 X-RAY DIFFRACTION 14 1.0 6398 (Lumbricus terrestris) 6398 (Lumbricus terrestris) 147 147 2gtl-a1-m10-cE_2gtl-a1-m11-cI 2gtl-a1-m10-cI_2gtl-a1-m9-cE 2gtl-a1-m11-cE_2gtl-a1-m12-cI 2gtl-a1-m12-cE_2gtl-a1-m7-cI 2gtl-a1-m1-cE_2gtl-a1-m2-cI 2gtl-a1-m1-cI_2gtl-a1-m6-cE 2gtl-a1-m2-cE_2gtl-a1-m3-cI 2gtl-a1-m3-cE_2gtl-a1-m4-cI 2gtl-a1-m4-cE_2gtl-a1-m5-cI 2gtl-a1-m5-cE_2gtl-a1-m6-cI 2gtl-a1-m7-cE_2gtl-a1-m8-cI DCCSYEDRREIRHIWDDVWSSSFTDRRVAIVRAVFDDLFKHYPTSKALFERVKIDEPESGEFKSHLVRVANGLKLLINLLDDTLVLQSHLGHLADQHIQRKGVTKEYFRGIGEAFARVLPQVLSCFNVDAWNRCFHRLVARIAKDLP DCCSYEDRREIRHIWDDVWSSSFTDRRVAIVRAVFDDLFKHYPTSKALFERVKIDEPESGEFKSHLVRVANGLKLLINLLDDTLVLQSHLGHLADQHIQRKGVTKEYFRGIGEAFARVLPQVLSCFNVDAWNRCFHRLVARIAKDLP 2gtr-a1-m1-cC_2gtr-a1-m1-cA Human chromodomain Y-like protein Q9Y232 Q9Y232 1.9 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 258 2gtr-a1-m1-cA_2gtr-a1-m1-cB 2gtr-a1-m1-cC_2gtr-a1-m1-cB RYRDIVVRKQDGFTHILLSTKSSENNSLNPEVMREVQSALSTAAADDSKLVLLSAVGSVFCCGLDFIYFIRRLTDDRKRESTKMAEAIRNFVNTFIQFKKPIIVAVNGPAIGLGASILPLCDVVWANEKAWFQTPYTTFGQSPDGCSTVMFPKIMGGASANEMLLSGRKLTAQEACGKGLVSQVFWPGTFTQEVMVRIKELASCNPVVLEESKALVRCNMKMELEQANERECEVLKKIWGSAQGMDSMLK RYRDIVVRKQDGFTHILLSTKSSENNSLNPEVMREVQSALSTAAADDSKLVLLSAVGSVFCCGLDFIYFIRRLTDDRKRESTKMAEAIRNFVNTFIQFKKPIIVAVNGPAIGLGASILPLCDVVWANEKAWFQTPYTTFGQSPDGCSTVMFPKIMGGASANEMLLSGRKLTAQEACGKGLVSQVFWPGTFTQEVMVRIKELASCNPVVLEESKALVRCNMKMELEQANERECEVLKKIWGSAQGMDSMLKYLQRKIDE 2gu0-a1-m2-cA_2gu0-a1-m4-cB Crystal Structure of Human Rotavirus NSP2 (Group C / Bristol Strain) Q9PY93 Q9PY93 2.8 X-RAY DIFFRACTION 48 1.0 10943 (Human rotavirus C) 10943 (Human rotavirus C) 301 301 2gu0-a1-m1-cA_2gu0-a1-m3-cB 2gu0-a1-m1-cB_2gu0-a1-m4-cA 2gu0-a1-m2-cB_2gu0-a1-m3-cA AELACFVSFSLTEDKVVWYPINKKAVQTMLCAKVEKDQRSNYYDTILYGVAPPPEFRNRFKTNERYGLDYESDQYTELVNLLADTLNMVSMPTEKFQFDIVKTVVQVRHLENLLCRIKDVNDILNANVKLRVKAVMIACNLVNETETTPLTESNDIVYQDSYFTITKLDYSNHKLLPLMADEYKITINTKTDIPDRNQTAFAAYIRYNFNKFAAISHGKRHWRLVLHSQLMSHAERLDRKIKSDKYDDGDMAFVHPGWKTCIGQLCGGTTFEVAKTSLYSIKPSKTVRTATNKIESDLISM AELACFVSFSLTEDKVVWYPINKKAVQTMLCAKVEKDQRSNYYDTILYGVAPPPEFRNRFKTNERYGLDYESDQYTELVNLLADTLNMVSMPTEKFQFDIVKTVVQVRHLENLLCRIKDVNDILNANVKLRVKAVMIACNLVNETETTPLTESNDIVYQDSYFTITKLDYSNHKLLPLMADEYKITINTKTDIPDRNQTAFAAYIRYNFNKFAAISHGKRHWRLVLHSQLMSHAERLDRKIKSDKYDDGDMAFVHPGWKTCIGQLCGGTTFEVAKTSLYSIKPSKTVRTATNKIESDLISM 2gu0-a1-m2-cB_2gu0-a1-m4-cB Crystal Structure of Human Rotavirus NSP2 (Group C / Bristol Strain) Q9PY93 Q9PY93 2.8 X-RAY DIFFRACTION 48 1.0 10943 (Human rotavirus C) 10943 (Human rotavirus C) 301 301 2gu0-a1-m1-cA_2gu0-a1-m3-cA 2gu0-a1-m1-cA_2gu0-a1-m4-cA 2gu0-a1-m1-cB_2gu0-a1-m3-cB 2gu0-a1-m1-cB_2gu0-a1-m4-cB 2gu0-a1-m2-cA_2gu0-a1-m3-cA 2gu0-a1-m2-cA_2gu0-a1-m4-cA 2gu0-a1-m2-cB_2gu0-a1-m3-cB AELACFVSFSLTEDKVVWYPINKKAVQTMLCAKVEKDQRSNYYDTILYGVAPPPEFRNRFKTNERYGLDYESDQYTELVNLLADTLNMVSMPTEKFQFDIVKTVVQVRHLENLLCRIKDVNDILNANVKLRVKAVMIACNLVNETETTPLTESNDIVYQDSYFTITKLDYSNHKLLPLMADEYKITINTKTDIPDRNQTAFAAYIRYNFNKFAAISHGKRHWRLVLHSQLMSHAERLDRKIKSDKYDDGDMAFVHPGWKTCIGQLCGGTTFEVAKTSLYSIKPSKTVRTATNKIESDLISM AELACFVSFSLTEDKVVWYPINKKAVQTMLCAKVEKDQRSNYYDTILYGVAPPPEFRNRFKTNERYGLDYESDQYTELVNLLADTLNMVSMPTEKFQFDIVKTVVQVRHLENLLCRIKDVNDILNANVKLRVKAVMIACNLVNETETTPLTESNDIVYQDSYFTITKLDYSNHKLLPLMADEYKITINTKTDIPDRNQTAFAAYIRYNFNKFAAISHGKRHWRLVLHSQLMSHAERLDRKIKSDKYDDGDMAFVHPGWKTCIGQLCGGTTFEVAKTSLYSIKPSKTVRTATNKIESDLISM 2gu2-a2-m1-cA_2gu2-a2-m2-cA Crystal Structure of an Aspartoacylase from Rattus norvegicus Q9R1T5 Q9R1T5 1.805 X-RAY DIFFRACTION 10 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 300 300 CVAEEPIKKIAIFGGTHGNELTGVFLVTHWLKNGAEVHRAGLEVKPFITNPRAVEKCTRYIDCDLNRVFDLENLSKESEDLPYEVRRAQEINHLFGPKNSDDAYDVVFDLHNTTSNGCTLILGDSGNDFLIQFHYIKTCAPLPCSVYLIEHPSLKYATTRSIAKYPVGIEVGPQPHGVLRADILDQRRLKHALDFIQRFNEGKEFPPCAIDVYKIEKVDYPRNESGDVAAVIHPNLQDQDWKPLHPGDPVFVSLDGKVIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRST CVAEEPIKKIAIFGGTHGNELTGVFLVTHWLKNGAEVHRAGLEVKPFITNPRAVEKCTRYIDCDLNRVFDLENLSKESEDLPYEVRRAQEINHLFGPKNSDDAYDVVFDLHNTTSNGCTLILGDSGNDFLIQFHYIKTCAPLPCSVYLIEHPSLKYATTRSIAKYPVGIEVGPQPHGVLRADILDQRRLKHALDFIQRFNEGKEFPPCAIDVYKIEKVDYPRNESGDVAAVIHPNLQDQDWKPLHPGDPVFVSLDGKVIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRST 2gu2-a2-m1-cB_2gu2-a2-m2-cB Crystal Structure of an Aspartoacylase from Rattus norvegicus Q9R1T5 Q9R1T5 1.805 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 300 300 CVAEEPIKKIAIFGGTHGNELTGVFLVTHWLKNGAEVHRAGLEVKPFITNPRAVEKCTRYIDCDLNRVFDLENLSKESEDLPYEVRRAQEINHLFGPKNSDDAYDVVFDLHNTTSNGCTLILGDSGNDFLIQFHYIKTCAPLPCSVYLIEHPSLKYATTRSIAKYPVGIEVGPQPHGVLRADILDQRRLKHALDFIQRFNEGKEFPPCAIDVYKIEKVDYPRNESGDVAAVIHPNLQDQDWKPLHPGDPVFVSLDGKVIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRST CVAEEPIKKIAIFGGTHGNELTGVFLVTHWLKNGAEVHRAGLEVKPFITNPRAVEKCTRYIDCDLNRVFDLENLSKESEDLPYEVRRAQEINHLFGPKNSDDAYDVVFDLHNTTSNGCTLILGDSGNDFLIQFHYIKTCAPLPCSVYLIEHPSLKYATTRSIAKYPVGIEVGPQPHGVLRADILDQRRLKHALDFIQRFNEGKEFPPCAIDVYKIEKVDYPRNESGDVAAVIHPNLQDQDWKPLHPGDPVFVSLDGKVIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRST 2gu9-a1-m1-cB_2gu9-a1-m1-cA Crystal structure of XC5357 from Xanthomonas campestris: A putative tetracenomycin polyketide synthesis protein adopting a novel cupin subfamily structure Q8PBM3 Q8PBM3 1.4 X-RAY DIFFRACTION 90 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 110 111 3h50-a1-m1-cA_3h50-a1-m2-cA QYATLELNNAFKVLFSLRQVQAAEMVIAPGDREGGPDNRHRGADQWLFVVDGAGEAIVDGHTQALQAGSLIAIERGQAHEIRNTGDTPLKTVNFYHPPAYDAQGEPLPAG QYATLELNNAFKVLFSLRQVQAAEMVIAPGDREGGPDNRHRGADQWLFVVDGAGEAIVDGHTQALQAGSLIAIERGQAHEIRNTGDTPLKTVNFYHPPAYDAQGEPLPAGE 2gug-a2-m1-cD_2gug-a2-m1-cB NAD-dependent formate dehydrogenase from Pseudomonas sp.101 in complex with formate P33160 P33160 2.28 X-RAY DIFFRACTION 254 1.0 33067 (Pseudomonas sp. 101) 33067 (Pseudomonas sp. 101) 361 368 2go1-a1-m1-cA_2go1-a1-m2-cA 2gug-a1-m1-cA_2gug-a1-m1-cC 2nac-a1-m1-cA_2nac-a1-m1-cB 2nad-a1-m1-cB_2nad-a1-m1-cA 3wr5-a1-m1-cB_3wr5-a1-m1-cA 3wr5-a2-m1-cD_3wr5-a2-m1-cC 6juj-a1-m1-cB_6juj-a1-m1-cA 6juk-a1-m1-cA_6juk-a1-m1-cB 6jwg-a1-m1-cB_6jwg-a1-m1-cA 6jx1-a1-m1-cB_6jx1-a1-m1-cA 7qz1-a1-m1-cC_7qz1-a1-m1-cA 7qz1-a2-m1-cD_7qz1-a2-m2-cB AKVLCVLYDDPVDGYPKTYARDDLPKIDHYPGGQTLPTPKAIDFTPGQLLGSVSGELGLRKYLESNGHTLVVTSDKDGPDSVFERELVDADVVISQPFWPAYLTPERIAKAKNLKLALTAGIGSDHVDLQSAIDRNVTVAEVTYCNSISVAEHVVMMILSLVRNYLPSHEWARKGGWNIADCVSHAYDLEAMHVGTVAAGRIGLAVLRRLAPFDVHLHYTDRHRLPESVEKELNLTWHATREDMYPVCDVVTLNCPMINDETLKLFKRGAYIVNTARGKLCDRDAVARALESGRLAGYAGDVWFPQPAPKDHPWRTMPYNGMTPHISGTTLTAQARYAAGTREILEFFEGRPIRDEYLIVQ AKVLCVLYDDPVDGYPKTYARDDLPKIDHYPGGQTLPTPKAIDFTPGQLLGSVSGELGLRKYLESNGHTLVVTSDKDGPDSVFERELVDADVVISQPFWPAYLTPERIAKAKNLKLALTAGIGSDHVDLQSAIDRNVTVAEVTYCNSISVAEHVVMMILSLVRNYLPSHEWARKGGWNIADCVSHAYDLEAMHVGTVAAGRIGLAVLRRLAPFDVHLHYTDRHRLPESVEKELNLTWHATREDMYPVCDVVTLNCPLHPETEHMINDETLKLFKRGAYIVNTARGKLCDRDAVARALESGRLAGYAGDVWFPQPAPKDHPWRTMPYNGMTPHISGTTLTAQARYAAGTREILEFFEGRPIRDEYLIVQ 2guh-a1-m1-cB_2guh-a1-m1-cA Crystal Structure of the Putative TetR-family Transcriptional Regulator from Rhodococcus sp. RHA1 Q0S8Y3 Q0S8Y3 1.52 X-RAY DIFFRACTION 83 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 169 170 TAEQSRSLIVDAAGRAFATRPYREITLKDIAEDAGVSAPLIIKYFGSKEQLFDALVDFRAAAEIVFSGPLDGLGERVSFARPLEPYKPLSLNILFSGPSEESSRKLRANYSAQIDALAERLPGRDARLRAELVSLTGLAVRRKQEHATGTPEEVVAHYAPLVQELLDGG RTAEQSRSLIVDAAGRAFATRPYREITLKDIAEDAGVSAPLIIKYFGSKEQLFDALVDFRAAAEIVFSGPLDGLGERVSFARPLEPYKPLSLNILFSGPSEESSRKLRANYSAQIDALAERLPGRDARLRAELVSLTGLAVRRKQEHATGTPEEVVAHYAPLVQELLDGG 2guk-a1-m1-cA_2guk-a1-m2-cB Crystal Structure of the Conserved Protein of Unknown Function from Porphyromonas gingivalis Q7MTT4 Q7MTT4 1.91 X-RAY DIFFRACTION 41 0.981 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 107 108 2guk-a1-m2-cA_2guk-a1-m1-cB QTLNSDLRVFHHIYEFEKGVRSVLATLANDDIPYAEERLRSRQIPYFAQPTPNTERTNLFFGCKECEAIRLFVSGRSLNSLTPEEDFIIGALGYDICRQCERYCRRK LNSDLRVFHHIYEFEKGVRSVLATLANDDIPYAEERLRSRQIPYFAQPTPNTERTNLFFGCKECEAIRLFVSGRSLNSLTPEEDFIIGALGYDICRQCERYCRRKSNS 2guk-a1-m2-cA_2guk-a1-m2-cB Crystal Structure of the Conserved Protein of Unknown Function from Porphyromonas gingivalis Q7MTT4 Q7MTT4 1.91 X-RAY DIFFRACTION 72 0.981 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 107 108 2guk-a1-m1-cA_2guk-a1-m1-cB QTLNSDLRVFHHIYEFEKGVRSVLATLANDDIPYAEERLRSRQIPYFAQPTPNTERTNLFFGCKECEAIRLFVSGRSLNSLTPEEDFIIGALGYDICRQCERYCRRK LNSDLRVFHHIYEFEKGVRSVLATLANDDIPYAEERLRSRQIPYFAQPTPNTERTNLFFGCKECEAIRLFVSGRSLNSLTPEEDFIIGALGYDICRQCERYCRRKSNS 2gup-a1-m1-cA_2gup-a1-m2-cA Structural Genomics, the crystal structure of a ROK family protein from Streptococcus pneumoniae TIGR4 in complex with sucrose A0A0H2USG4 A0A0H2USG4 2.01 X-RAY DIFFRACTION 118 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 283 283 TIATIDIGGTGIKFASLTPDGKILDKTSISTPENLEDLLAWLDQRLSEQDYSGIASVPGAVNQETGVIDGFSAVPYIHGFSWYEALSSYQLPVHLENDANCVGLSELLAHPELENAACVVIGTGIGGAIINGRLHRGRHGLGGEFGYTTLAPAEKLNNWSQLASTGNVRYVIEKSGHTDWDGRKIYQEAAAGNILCQEAIERNRNLAQGLLNIQYLIDPGVISLGGSISQNPDFIQGVKKAVEDFVDAYEEYTVAPVIQACTYHADANLYGALVNWLQEEKQW TIATIDIGGTGIKFASLTPDGKILDKTSISTPENLEDLLAWLDQRLSEQDYSGIASVPGAVNQETGVIDGFSAVPYIHGFSWYEALSSYQLPVHLENDANCVGLSELLAHPELENAACVVIGTGIGGAIINGRLHRGRHGLGGEFGYTTLAPAEKLNNWSQLASTGNVRYVIEKSGHTDWDGRKIYQEAAAGNILCQEAIERNRNLAQGLLNIQYLIDPGVISLGGSISQNPDFIQGVKKAVEDFVDAYEEYTVAPVIQACTYHADANLYGALVNWLQEEKQW 2gus-a1-m1-cA_2gus-a1-m3-cA Conformational Transition between Four- and Five-stranded Phenylalanine Zippers Determined by a Local Packing Interaction P69776 P69776 1.75 X-RAY DIFFRACTION 34 1.0 562 (Escherichia coli) 562 (Escherichia coli) 42 42 2gus-a1-m1-cA_2gus-a1-m4-cA 2gus-a1-m2-cA_2gus-a1-m3-cA 2gus-a1-m2-cA_2gus-a1-m4-cA 2guv-a1-m1-cA_2guv-a1-m1-cB 2guv-a1-m1-cA_2guv-a1-m1-cE 2guv-a1-m1-cB_2guv-a1-m1-cC 2guv-a1-m1-cC_2guv-a1-m1-cD 2guv-a1-m1-cD_2guv-a1-m1-cE FQTFNAKFDQFSNDMNAFRSDFQAFKDDFARFNQRFDNFATK FQTFNAKFDQFSNDMNAFRSDFQAFKDDFARFNQRFDNFATK 2guw-a1-m2-cC_2guw-a1-m2-cB Crystal structure of AMP Nucleosidase from Salmonella typhimurium LT2 Q8ZNS0 Q8ZNS0 2.64 X-RAY DIFFRACTION 51 0.997 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 394 418 2guw-a1-m1-cA_2guw-a1-m2-cA 2guw-a1-m1-cC_2guw-a1-m1-cB LTPEQALDRLEELYEQSVNALREAIADYVDNGTLPDPHARLNGLFVYPSLSVTTTVTRPALFRAYLLEQLNLVYHDYGAHIAVEASHHEIPYPYVIDGSALTLDRSMSAGLTRHFPTTEFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGIWITAETEADLAWKKHQMPAWHLVTADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKAVSGMPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEAISEHLQIGIRAIDLLRAEG LTPEQALDRLEELYEQSVNALREAIADYVDNGTLPDPHARLNGLFVYPSLSVSCYTTTVTRPALFRAYLLEQLNLVYHDYGAHIAVEASHHEIPYPYVIDGSALTLDRSMSAGLTRHFPTTELASHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGIWITAETEAPEEALAWKKHQMPAWHLVTADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKAVSGMPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGD 2guw-a2-m1-cA_2guw-a2-m1-cB Crystal structure of AMP Nucleosidase from Salmonella typhimurium LT2 Q8ZNS0 Q8ZNS0 2.64 X-RAY DIFFRACTION 149 0.985 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 411 418 2guw-a1-m1-cA_2guw-a1-m1-cB 2guw-a1-m1-cC_2guw-a1-m2-cC 2guw-a1-m2-cA_2guw-a1-m2-cB 2guw-a3-m1-cC_2guw-a3-m2-cC LTPEQALDRLEELYEQSVNALREAIADYVDNGTLPDPHARLNGLFVYPSLSVTTTVTRPALFRAYLLEQLNLVYHDYGAHIAVEASHHEIPYPYVIDGSALTLDRSMSAGLTRHFPTTELAQHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGIWITAEEAISDLAWKKHQMPAWHLVTADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKAVSGMPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAE LTPEQALDRLEELYEQSVNALREAIADYVDNGTLPDPHARLNGLFVYPSLSVSCYTTTVTRPALFRAYLLEQLNLVYHDYGAHIAVEASHHEIPYPYVIDGSALTLDRSMSAGLTRHFPTTELASHFDARRVDFSLARLRHYTGTPVEHFQPFVLFTNYTRYVDEFVRWGCSQILDPDSPYIALSCAGGIWITAETEAPEEALAWKKHQMPAWHLVTADGQGITLVNIGVGPSNAKTICDHLAVLRPDVWLMIGHCGGLRESQAIGDYVLAHAYLRDDHVLDAVLPPDIPIPSIAEVQRALYDATKAVSGMPGEEVKQRLRTGTVVTTDDRNWELRYSASALRFNLSRAVAIDMESATIAAQGYRFRVPYGTLLCVSDKPLHGEIKLPGQANRFYEGAISEHLQIGIRAIDLLRAEGD 2gv8-a1-m1-cA_2gv8-a1-m1-cB Crystal structure of flavin-containing monooxygenase (FMO) from S.pombe and NADPH cofactor complex Q9HFE4 Q9HFE4 2.1 X-RAY DIFFRACTION 109 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 438 438 1vqw-a1-m1-cA_1vqw-a1-m1-cB 2gvc-a1-m1-cA_2gvc-a1-m1-cB 2gvc-a2-m1-cD_2gvc-a2-m1-cE LPTIRKIAIIGAGPSGLVTAKALLAEKAFDQVTLFERRGSPGGVWNYTSTLSNKLPVPSTNPILTTEPIVGPAALPVYPSPLYRDLQTNTPIELGYCDQSFKPQTLQFPHRHTIQEYQRIYAQPLLPFIKLATDVLDIEKKDGSWVVTYKGTKAGSPISKDIFDAVSICNGHYEVPYIPNIKGLDEYAKAVPGSVLHSSLFREPELFVGESVLVVGGASSANDLVRHLTPVAKHPIYQSLLGGGDIQNESLQQVPEITKFDPTTREIYLKGGKVLSNIDRVIYCTGYLYSVPFPSLAKLKSPETKLIDDGSHVHNVYQHIFYIPDPTLAFVGLALHVVPFPTSQAQAAFLARVWSGRLKLPSKEEQLKWQDELFSLSGANNYHSLDYPKDATYINKLHDWCKQATPVLEEEFPSPYWGEKERSIRENWSIRAKFFGIE LPTIRKIAIIGAGPSGLVTAKALLAEKAFDQVTLFERRGSPGGVWNYTSTLSNKLPVPSTNPILTTEPIVGPAALPVYPSPLYRDLQTNTPIELGYCDQSFKPQTLQFPHRHTIQEYQRIYAQPLLPFIKLATDVLDIEKKDGSWVVTYKGTKAGSPISKDIFDAVSICNGHYEVPYIPNIKGLDEYAKAVPGSVLHSSLFREPELFVGESVLVVGGASSANDLVRHLTPVAKHPIYQSLLGGGDIQNESLQQVPEITKFDPTTREIYLKGGKVLSNIDRVIYCTGYLYSVPFPSLAKLKSPETKLIDDGSHVHNVYQHIFYIPDPTLAFVGLALHVVPFPTSQAQAAFLARVWSGRLKLPSKEEQLKWQDELFSLSGANNYHSLDYPKDATYINKLHDWCKQATPVLEEEFPSPYWGEKERSIRENWSIRAKFFGIE 2gvb-a1-m1-cA_2gvb-a1-m1-cB REFINED SOLUTION STRUCTURE OF THE TYR 41--> HIS MUTANT OF THE M13 GENE V PROTEIN. A COMPARISON WITH THE CRYSTAL STRUCTURE P69544 P69544 NOT SOLUTION NMR 64 1.0 87 87 2gva-a1-m1-cA_2gva-a1-m1-cB MIKVEIKPSQAQFTTRSGVSRQGKPYSLNEQLCYVDLGNEHPVLVKITLDEGQPAYAPGLYTVHLSSFKVGQFGSLMIDRLRLVPAK MIKVEIKPSQAQFTTRSGVSRQGKPYSLNEQLCYVDLGNEHPVLVKITLDEGQPAYAPGLYTVHLSSFKVGQFGSLMIDRLRLVPAK 2gvh-a1-m1-cB_2gvh-a1-m1-cC Crystal structure of Acyl-CoA hydrolase (15159470) from AGROBACTERIUM TUMEFACIENS at 2.65 A resolution Q7CTE6 Q7CTE6 2.5 X-RAY DIFFRACTION 93 0.988 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 242 242 2gvh-a1-m1-cA_2gvh-a1-m1-cB 2gvh-a1-m1-cA_2gvh-a1-m1-cC PAQHGATTRLIDIVFPGDTNHHGTLFGGTGLALDRVAFIAATRFGRTPFVTASCERIDFRQPARIGHIVEFTARPVKAGRRSLTVEVEVAETIIGRQQHTCTRGIFHVAIPEGEDAASYVLPELLTEETPDPSDAVTVEIVFPDQANSAGRFGGEAIAYTKAAFVAASRYCGKLVVLASSERIDFARAIEIGEIVEAQAHVERVGRSSSIQTKLWSENLLTGERHITATGHFTVAVDRPATI IEKPAQHGATTRLIDIVFPGDTNHHGTLFGGTGLALDRVAFIAATRFGRTPFVTASCERIDFRQPARIGHIVEFTARPVKAGRRSLTVEVEVAETIIGRQQHTCTRGIFHVAIPEGEDAASYVLPELLTEETPDAVTVEIVFPDQANSAGRFGGEAIAYTKAAFVAASRYCGKLVVLASSERIDFARAIEIGEIVEAQAHVERVGRSSSIQTKLWSENLLTGERHITATGHFTVAVDRPATI 2gvi-a2-m1-cA_2gvi-a2-m4-cA Crystal structure of a putative formylmethanofuran dehydrogenase subunit e (ta1109) from thermoplasma acidophilum at 1.87 A resolution Q9HJ63 Q9HJ63 1.87 X-RAY DIFFRACTION 39 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 195 195 2gvi-a2-m2-cA_2gvi-a2-m3-cA EKLNFGIPEWAFEFHGHKCPYPGYRAGSYALKIAGLEKEKDHRTYLLSESPEDNGCFNDGAQAATGCTYGKGLFSLLGYGKLALILYRPGRKAIRVHVRNSFDELSTRASDFFRYRKQGYEPSEIPAGAIDPVLEWISSLEDEEIFEYREIDGFTFEPVKKNGAKVRCDVCGEYTYEADAKLLNGKPVCKPDYYG EKLNFGIPEWAFEFHGHKCPYPGYRAGSYALKIAGLEKEKDHRTYLLSESPEDNGCFNDGAQAATGCTYGKGLFSLLGYGKLALILYRPGRKAIRVHVRNSFDELSTRASDFFRYRKQGYEPSEIPAGAIDPVLEWISSLEDEEIFEYREIDGFTFEPVKKNGAKVRCDVCGEYTYEADAKLLNGKPVCKPDYYG 2gvi-a2-m3-cA_2gvi-a2-m4-cA Crystal structure of a putative formylmethanofuran dehydrogenase subunit e (ta1109) from thermoplasma acidophilum at 1.87 A resolution Q9HJ63 Q9HJ63 1.87 X-RAY DIFFRACTION 175 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 195 195 2gvi-a1-m1-cA_2gvi-a1-m2-cA 2gvi-a2-m1-cA_2gvi-a2-m2-cA EKLNFGIPEWAFEFHGHKCPYPGYRAGSYALKIAGLEKEKDHRTYLLSESPEDNGCFNDGAQAATGCTYGKGLFSLLGYGKLALILYRPGRKAIRVHVRNSFDELSTRASDFFRYRKQGYEPSEIPAGAIDPVLEWISSLEDEEIFEYREIDGFTFEPVKKNGAKVRCDVCGEYTYEADAKLLNGKPVCKPDYYG EKLNFGIPEWAFEFHGHKCPYPGYRAGSYALKIAGLEKEKDHRTYLLSESPEDNGCFNDGAQAATGCTYGKGLFSLLGYGKLALILYRPGRKAIRVHVRNSFDELSTRASDFFRYRKQGYEPSEIPAGAIDPVLEWISSLEDEEIFEYREIDGFTFEPVKKNGAKVRCDVCGEYTYEADAKLLNGKPVCKPDYYG 2gvk-a1-m2-cA_2gvk-a1-m6-cA Crystal structure of a dye-decolorizing peroxidase (DyP) from Bacteroides thetaiotaomicron VPI-5482 at 1.6 A resolution Q8A8E8 Q8A8E8 1.6 X-RAY DIFFRACTION 14 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 299 299 2gvk-a1-m1-cA_2gvk-a1-m4-cA 2gvk-a1-m3-cA_2gvk-a1-m5-cA FGGHIPQDVAGKQGENVIFIVYNLTDSPDTVDKVKDVCANFSAIRSRNRFPDQFSCTGFGADAWTRLFPDKGKPKELSTFSEIKGEKYTAVSTPGDLLFHIRAKQGLCFEFASILDEKLKGAVVSVDETHGFRYDGKAIIGFVDGTENPAVDENPYHFAVIGEEDADFAGGSYVFVQKYIHDVAWNALPVEQQEKVIGRHKFNDVELSDEEKPGNAHNAVTNIGDDLKIVRANPFANTSKGEYGTYFIGYASTFSTTRRLENFIGSPAGNTDRLLDFSTAITGTLFFVPSYDLLGELGE FGGHIPQDVAGKQGENVIFIVYNLTDSPDTVDKVKDVCANFSAIRSRNRFPDQFSCTGFGADAWTRLFPDKGKPKELSTFSEIKGEKYTAVSTPGDLLFHIRAKQGLCFEFASILDEKLKGAVVSVDETHGFRYDGKAIIGFVDGTENPAVDENPYHFAVIGEEDADFAGGSYVFVQKYIHDVAWNALPVEQQEKVIGRHKFNDVELSDEEKPGNAHNAVTNIGDDLKIVRANPFANTSKGEYGTYFIGYASTFSTTRRLENFIGSPAGNTDRLLDFSTAITGTLFFVPSYDLLGELGE 2gvk-a1-m3-cA_2gvk-a1-m6-cA Crystal structure of a dye-decolorizing peroxidase (DyP) from Bacteroides thetaiotaomicron VPI-5482 at 1.6 A resolution Q8A8E8 Q8A8E8 1.6 X-RAY DIFFRACTION 75 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 299 299 2gvk-a1-m1-cA_2gvk-a1-m5-cA 2gvk-a1-m2-cA_2gvk-a1-m4-cA FGGHIPQDVAGKQGENVIFIVYNLTDSPDTVDKVKDVCANFSAIRSRNRFPDQFSCTGFGADAWTRLFPDKGKPKELSTFSEIKGEKYTAVSTPGDLLFHIRAKQGLCFEFASILDEKLKGAVVSVDETHGFRYDGKAIIGFVDGTENPAVDENPYHFAVIGEEDADFAGGSYVFVQKYIHDVAWNALPVEQQEKVIGRHKFNDVELSDEEKPGNAHNAVTNIGDDLKIVRANPFANTSKGEYGTYFIGYASTFSTTRRLENFIGSPAGNTDRLLDFSTAITGTLFFVPSYDLLGELGE FGGHIPQDVAGKQGENVIFIVYNLTDSPDTVDKVKDVCANFSAIRSRNRFPDQFSCTGFGADAWTRLFPDKGKPKELSTFSEIKGEKYTAVSTPGDLLFHIRAKQGLCFEFASILDEKLKGAVVSVDETHGFRYDGKAIIGFVDGTENPAVDENPYHFAVIGEEDADFAGGSYVFVQKYIHDVAWNALPVEQQEKVIGRHKFNDVELSDEEKPGNAHNAVTNIGDDLKIVRANPFANTSKGEYGTYFIGYASTFSTTRRLENFIGSPAGNTDRLLDFSTAITGTLFFVPSYDLLGELGE 2gvk-a1-m5-cA_2gvk-a1-m6-cA Crystal structure of a dye-decolorizing peroxidase (DyP) from Bacteroides thetaiotaomicron VPI-5482 at 1.6 A resolution Q8A8E8 Q8A8E8 1.6 X-RAY DIFFRACTION 41 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 299 299 2gvk-a1-m1-cA_2gvk-a1-m2-cA 2gvk-a1-m1-cA_2gvk-a1-m3-cA 2gvk-a1-m2-cA_2gvk-a1-m3-cA 2gvk-a1-m4-cA_2gvk-a1-m5-cA 2gvk-a1-m4-cA_2gvk-a1-m6-cA FGGHIPQDVAGKQGENVIFIVYNLTDSPDTVDKVKDVCANFSAIRSRNRFPDQFSCTGFGADAWTRLFPDKGKPKELSTFSEIKGEKYTAVSTPGDLLFHIRAKQGLCFEFASILDEKLKGAVVSVDETHGFRYDGKAIIGFVDGTENPAVDENPYHFAVIGEEDADFAGGSYVFVQKYIHDVAWNALPVEQQEKVIGRHKFNDVELSDEEKPGNAHNAVTNIGDDLKIVRANPFANTSKGEYGTYFIGYASTFSTTRRLENFIGSPAGNTDRLLDFSTAITGTLFFVPSYDLLGELGE FGGHIPQDVAGKQGENVIFIVYNLTDSPDTVDKVKDVCANFSAIRSRNRFPDQFSCTGFGADAWTRLFPDKGKPKELSTFSEIKGEKYTAVSTPGDLLFHIRAKQGLCFEFASILDEKLKGAVVSVDETHGFRYDGKAIIGFVDGTENPAVDENPYHFAVIGEEDADFAGGSYVFVQKYIHDVAWNALPVEQQEKVIGRHKFNDVELSDEEKPGNAHNAVTNIGDDLKIVRANPFANTSKGEYGTYFIGYASTFSTTRRLENFIGSPAGNTDRLLDFSTAITGTLFFVPSYDLLGELGE 2gvm-a2-m5-cB_2gvm-a2-m5-cD Crystal structure of hydrophobin HFBI with detergent P52754 P52754 2.3 X-RAY DIFFRACTION 16 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 2gvm-a1-m1-cB_2gvm-a1-m1-cD 2gvm-a1-m2-cB_2gvm-a1-m2-cD 2gvm-a2-m4-cB_2gvm-a2-m4-cD NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA 2gvm-a3-m1-cA_2gvm-a3-m2-cA Crystal structure of hydrophobin HFBI with detergent P52754 P52754 2.3 X-RAY DIFFRACTION 21 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 2gvm-a1-m1-cA_2gvm-a1-m2-cA NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA 2gvm-a3-m2-cA_2gvm-a3-m2-cC Crystal structure of hydrophobin HFBI with detergent P52754 P52754 2.3 X-RAY DIFFRACTION 16 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 2fz6-a8-m1-cB_2fz6-a8-m1-cC 2fz6-a8-m1-cD_2fz6-a8-m1-cA 2gvm-a1-m1-cA_2gvm-a1-m1-cB 2gvm-a1-m1-cA_2gvm-a1-m1-cC 2gvm-a1-m1-cC_2gvm-a1-m1-cD 2gvm-a1-m2-cA_2gvm-a1-m2-cB 2gvm-a1-m2-cA_2gvm-a1-m2-cC 2gvm-a1-m2-cC_2gvm-a1-m2-cD 2gvm-a2-m1-cA_2gvm-a2-m1-cC 2gvm-a2-m3-cA_2gvm-a2-m3-cC 2gvm-a3-m1-cA_2gvm-a3-m1-cC NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA NVCPPGLFSNPQCCATQVLGLIGLDCKVPSQNVYDGTDFRNVCAKTGAQPLCCVAPVAGQALLCQTAVGA 2gw1-a1-m1-cA_2gw1-a1-m1-cB Crystal Structure of the Yeast Tom70 P07213 P07213 3 X-RAY DIFFRACTION 131 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 487 487 EKDKYALALKDKGNQFFRNKKYDDAIKYYNWALELKEDPVFYSNLSACYVSVGDLKKVVEMSTKALELKPDYSKVLLRRASANEGLGKFADAMFDLSVLSLNGDFNDASIEPMLERNLNKQAMSKLKEKNLPSVTSMASFFGIFKPELTFANYDESNEADKELMNGLSNLYKRSPESYDKADESFTKAARLFEEQLDKNNEDEKLKEKLAISLEHTGIFKFLKNDPLGAHEDIKKAIELFPRVNSYIYMALIMADRNDSTEYYNYFDKALKLDSNNSSVYYHRGQMNFILQNYDQAGKDFDKAKELDPENIFPYIQLACLAYRENKFDDCETLFSEAKRKFPEAPEVPNFFAEILTDKNDFDKALKQYDLAIELENKLDGIYVGIAPLVGKATLLTRNPTVENFIEATNLLEKASKLDPRSEQAKIGLAQMKLQQEDIDEAITLFEESADLARTMEEKLQAITFAEAAKVQQRIRSDPVLAKKIQET EKDKYALALKDKGNQFFRNKKYDDAIKYYNWALELKEDPVFYSNLSACYVSVGDLKKVVEMSTKALELKPDYSKVLLRRASANEGLGKFADAMFDLSVLSLNGDFNDASIEPMLERNLNKQAMSKLKEKNLPSVTSMASFFGIFKPELTFANYDESNEADKELMNGLSNLYKRSPESYDKADESFTKAARLFEEQLDKNNEDEKLKEKLAISLEHTGIFKFLKNDPLGAHEDIKKAIELFPRVNSYIYMALIMADRNDSTEYYNYFDKALKLDSNNSSVYYHRGQMNFILQNYDQAGKDFDKAKELDPENIFPYIQLACLAYRENKFDDCETLFSEAKRKFPEAPEVPNFFAEILTDKNDFDKALKQYDLAIELENKLDGIYVGIAPLVGKATLLTRNPTVENFIEATNLLEKASKLDPRSEQAKIGLAQMKLQQEDIDEAITLFEESADLARTMEEKLQAITFAEAAKVQQRIRSDPVLAKKIQET 2gw3-a1-m1-cB_2gw3-a1-m2-cB Crystal structure of stony coral fluorescent protein Kaede, green form Q8I6J8 Q8I6J8 1.4 X-RAY DIFFRACTION 82 1.0 196280 (Trachyphyllia geoffroyi) 196280 (Trachyphyllia geoffroyi) 218 218 2gw3-a1-m1-cA_2gw3-a1-m2-cA 2gw4-a1-m1-cB_2gw4-a1-m2-cB 2gw4-a1-m1-cD_2gw4-a1-m2-cD PMSLIKPEMKIKLLMEGNVNGHQFVIEGDGKGHPFEGKQSMDLVVKEGAPLPFAYDILTTAFNRVFAKYPDHIPDYFKQSFPKGFSWERSLMFEDGGVCIATNDITLKGDTFFNKVRFDGVNFPPNGPVMQKKTLKWEASTEKMYLRDGVLTGDITMALLLKGDVHYRCDFRTTYKSRQEGVKLPGYHFVDHCISILRHDKDYNEVKLYEHAVAHSGL PMSLIKPEMKIKLLMEGNVNGHQFVIEGDGKGHPFEGKQSMDLVVKEGAPLPFAYDILTTAFNRVFAKYPDHIPDYFKQSFPKGFSWERSLMFEDGGVCIATNDITLKGDTFFNKVRFDGVNFPPNGPVMQKKTLKWEASTEKMYLRDGVLTGDITMALLLKGDVHYRCDFRTTYKSRQEGVKLPGYHFVDHCISILRHDKDYNEVKLYEHAVAHSGL 2gw3-a1-m2-cA_2gw3-a1-m2-cB Crystal structure of stony coral fluorescent protein Kaede, green form Q8I6J8 Q8I6J8 1.4 X-RAY DIFFRACTION 62 1.0 196280 (Trachyphyllia geoffroyi) 196280 (Trachyphyllia geoffroyi) 218 218 2gw3-a1-m1-cA_2gw3-a1-m1-cB 2gw4-a1-m1-cB_2gw4-a1-m1-cD 2gw4-a1-m2-cB_2gw4-a1-m2-cD PMSLIKPEMKIKLLMEGNVNGHQFVIEGDGKGHPFEGKQSMDLVVKEGAPLPFAYDILTTAFNRVFAKYPDHIPDYFKQSFPKGFSWERSLMFEDGGVCIATNDITLKGDTFFNKVRFDGVNFPPNGPVMQKKTLKWEASTEKMYLRDGVLTGDITMALLLKGDVHYRCDFRTTYKSRQEGVKLPGYHFVDHCISILRHDKDYNEVKLYEHAVAHSGL PMSLIKPEMKIKLLMEGNVNGHQFVIEGDGKGHPFEGKQSMDLVVKEGAPLPFAYDILTTAFNRVFAKYPDHIPDYFKQSFPKGFSWERSLMFEDGGVCIATNDITLKGDTFFNKVRFDGVNFPPNGPVMQKKTLKWEASTEKMYLRDGVLTGDITMALLLKGDVHYRCDFRTTYKSRQEGVKLPGYHFVDHCISILRHDKDYNEVKLYEHAVAHSGL 2gw6-a1-m1-cA_2gw6-a1-m1-cB NMR structure of the human tRNA endonuclease SEN15 subunit Q8WW01 Q8WW01 NOT SOLUTION NMR 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 123 SEDAWMGTHPKYLEMMELDIGDATQVYVAFLVYLDLMESKSWHEVNCVGLPELQLICLVGTEIEGEGLQTVVPTPITASLSHNRIREILKASRKLQGDPDLPMSFTLAIVESDSTIVYYKLTD SEDAWMGTHPKYLEMMELDIGDATQVYVAFLVYLDLMESKSWHEVNCVGLPELQLICLVGTEIEGEGLQTVVPTPITASLSHNRIREILKASRKLQGDPDLPMSFTLAIVESDSTIVYYKLTD 2gw8-a1-m2-cA_2gw8-a1-m3-cA Structure of the PII signal transduction protein of Neisseria meningitidis at 1.85 resolution Q9JXK6 Q9JXK6 1.85 X-RAY DIFFRACTION 82 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 99 99 2gw8-a1-m1-cA_2gw8-a1-m2-cA 2gw8-a1-m1-cA_2gw8-a1-m3-cA PMKKIEAIVKPFKLDDVREALTEIGITGMTVSEVKGFGRVDFLPKIKIELVLADDAVERAIDVIVEVARSGKIGDGKIFVLPVEEAIRIRTGERSDAAV PMKKIEAIVKPFKLDDVREALTEIGITGMTVSEVKGFGRVDFLPKIKIELVLADDAVERAIDVIVEVARSGKIGDGKIFVLPVEEAIRIRTGERSDAAV 2gwc-a4-m1-cH_2gwc-a4-m1-cG Crystal structure of plant glutamate cysteine ligase in complex with a transition state analogue O23736 O23736 2.18 X-RAY DIFFRACTION 40 1.0 3707 (Brassica juncea) 3707 (Brassica juncea) 418 420 2gwc-a1-m1-cB_2gwc-a1-m1-cA 2gwc-a2-m1-cC_2gwc-a2-m1-cD 2gwc-a3-m1-cE_2gwc-a3-m1-cF 2gwd-a1-m1-cA_2gwd-a1-m2-cA EPLTREDLIAYLASGCKSKEKWRIGTEHEKFGFEVNTLRPKYDQIAELLNSIAERFEWEKVEGDKIIGLKQGKQSISLEPGGQFELSGAPLETLHQTCAEVNSHLYQVKAVAEEGIGFLGGFQPKWRREDIPTPKGRYDIRNYPKVGSLGLDLRTCTVQVNLDFSSEADIRKFRAGLALQPIATALFANSPFTEGKPNGFLSRSHIWTDTDKDRTGLPFVFDDSFGFEQYVDYALDVPYFAYRNGKYVDCTGTFRQFLAGKLPCLPGELPTYNDWENHLTTIFPEVRLKRYERGADGGPWRRLCALPAFWVGLLYDEDVLQSVLDLTADWTPAERELRNKVPVTGLKTPFRDGLLKHVAEDVLKLAKDGLERRGYKEVGFLNAVTEVVRTGVTPAENLLEYNGEWGQSVDPVFQELLY ATEPLTREDLIAYLASGCKSKEKWRIGTEHEKFGFEVNTLRPKYDQIAELLNSIAERFEWEKVEGDKIIGLKQGKQSISLEPGGQFELSGAPLETLHQTCAEVNSHLYQVKAVAEEGIGFLGGFQPKWRREDIPTPKGRYDIRNYPKVGSLGLDLRTCTVQVNLDFSSEADIRKFRAGLALQPIATALFANSPFTEGKPNGFLSRSHIWTDTDKDRTGLPFVFDDSFGFEQYVDYALDVPYFAYRNGKYVDCTGTFRQFLAGKLPCLPGELPTYNDWENHLTTIFPEVRLKRYERGADGGPWRRLCALPAFWVGLLYDEDVLQSVLDLTADWTPAERELRNKVPVTGLKTPFRDGLLKHVAEDVLKLAKDGLERRGYKEVGFLNAVTEVVRTGVTPAENLLEYNGEWGQSVDPVFQELLY 2gwg-a1-m1-cB_2gwg-a1-m1-cA Crystal Structure of 4-Oxalomesaconate Hydratase, LigJ, from Rhodopseudomonas palustris, Northeast Structural Genomics Target RpR66. Q6N0R4 Q6N0R4 1.8 X-RAY DIFFRACTION 135 0.994 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 317 320 IIDIHGHYTTAPKALEDWRNRQIAGIKDPSVPKVSELKISDDELQASIIENQLKKQERGSDLTVFSPRASIGDFNVSSTWAAICNELCYRVSQLFPDNFIGAALPQSPGVDPKTCIPELEKCVKEYGFVAINLNPDPSTSPPLTDRIWYPIYEKVELEIPAIHVSGAHYLNADTTAFQCVAGDLFKDFPELKFVIPHGGGAVPYHWGRFRGLAQEKKPLLEDHVLNNIFFDTCVYHQPGIDLLNTVIPVDNVLFASEIGAVRGIDPRTGFYYDDTKRYIEASTILTPEEKQQIYEGNARRVYPRLDAALKAKGKLEH IIDIHGHYTTAPKALEDWRNRQIAGIKDPSVPKVSELKISDDELQASIIENQLKKQERGSDLTVFSPRAGDFNVSSTWAAICNELCYRVSQLFPDNFIGAALPQSPGVDPKTCIPELEKCVKEYGFVAINLNPDPSGGHWTSPPLTDRIWYPIYEKVELEIPAIHVSTGAHYLNADTTAFQCVAGDLFKDFPELKFVIPHGGGAVPYHWGRFRGLAQEKKPLLEDHVLNNIFFDTCVYHQPGIDLLNTVIPVDNVLFASEIGAVRGIDPRTGFYYDDTKRYIEASTILTPEEKQQIYEGNARRVYPRLDAALKAKGKLEH 2gwh-a1-m1-cA_2gwh-a1-m1-cB Human Sulfotranferase SULT1C2 in complex with PAP and pentachlorophenol O75897 O75897 1.8 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 288 RLSVNYVKGILQPTDTCDIWDKIWNFQAKPDDLLISTYPKAGTTWTQEIVELIQNEGDVEKSKRAPTHQRFPFLEMKIPSLGSGLEQAHAMPSPRILKTHLPFHLLPPSLLEKNCKIIYVARNPKDNMVSYYHFQRMNKALPAPGTWEEYFETFLAGKVCWGSWHEHVKGWWEAKDKHRILYLFYEDMKKNPKHEIQKLAEFIGKKLDDKVLDKIVHYTSFDVMKQNPMANYSSIPAEIMDHSISPFMRKGAVGDWKKHFTVAQNERFDEDYKKKMTRLTFHFQF KRLSVNYVKGILQPTDTCDIWDKIWNFQAKPDDLLISTYPKAGTTWTQEIVELIQNEGDVEKSKRAPTHQRFPFLEMKIPSLGSGLEQAHAMPSPRILKTHLPFHLLPPSLLEKNCKIIYVARNPKDNMVSYYHFQRMNKALPAPGTWEEYFETFLAGKVCWGSWHEHVKGWWEAKDKHRILYLFYEDMKKNPKHEIQKLAEFIGKKLDDKVLDKIVHYTSFDVMKQNPMANYSSIPAEIMDHSISPFMRKGAVGDWKKHFTVAQNERFDEDYKKKMTDTRLTFHFQF 2gx8-a1-m1-cA_2gx8-a1-m2-cC The Crystal Structure of Bacillus cereus protein related to NIF3 Q818H0 Q818H0 2.2 X-RAY DIFFRACTION 66 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 359 364 2gx8-a1-m1-cB_2gx8-a1-m2-cB 2gx8-a1-m2-cA_2gx8-a1-m1-cC IPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKPVRHVLIALDVTEEVVDEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGKIIEKCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQQLERVEEVRIETIIPASLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLQEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFIFV SKIPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKPVRHVLIALDVTEEVVDEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGKIIEKCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQEGGQLERVEEVRIETIIPASLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLQEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFIFV 2gx8-a1-m1-cB_2gx8-a1-m2-cC The Crystal Structure of Bacillus cereus protein related to NIF3 Q818H0 Q818H0 2.2 X-RAY DIFFRACTION 103 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 361 364 2gx8-a1-m1-cA_2gx8-a1-m2-cA 2gx8-a1-m2-cB_2gx8-a1-m1-cC SKIPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKPVRHVLIALDVTEEVVDEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGKIIEKCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQQLERVEEVRIETIIPASLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLQEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFIFV SKIPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKPVRHVLIALDVTEEVVDEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGKIIEKCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQEGGQLERVEEVRIETIIPASLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLQEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFIFV 2gx8-a1-m2-cA_2gx8-a1-m2-cB The Crystal Structure of Bacillus cereus protein related to NIF3 Q818H0 Q818H0 2.2 X-RAY DIFFRACTION 61 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 359 361 2gx8-a1-m1-cA_2gx8-a1-m1-cB 2gx8-a1-m1-cA_2gx8-a1-m1-cC 2gx8-a1-m1-cB_2gx8-a1-m1-cC 2gx8-a1-m2-cA_2gx8-a1-m2-cC 2gx8-a1-m2-cB_2gx8-a1-m2-cC IPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKPVRHVLIALDVTEEVVDEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGKIIEKCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQQLERVEEVRIETIIPASLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLQEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFIFV SKIPNGHEIISLFESMYPKHLAMEGDKIGLQIGALNKPVRHVLIALDVTEEVVDEAIQLGANVIIAHHPLIFNPLKAIHTDKAYGKIIEKCIKNDIAIYAAHTNVDVAKGGVNDLLAEALGLQNTEVLAPTYAEEMKKVVVFVPVTHAEEVRKALGDAGAGHIGNYSHCTFSSEGTGTFVPQQLERVEEVRIETIIPASLQRKVIKAMVTAHPYEEVAYDVYPLDNKGETLGLGKIGYLQEEMTLGQFAEHVKQSLDVKGARVVGKLDDKVRKVAVLGGDGNKYINQAKFKGADVYVTGDMYYHVAHDAMMLGLNIVDPGHNVEKVMKQGVQKQLQEKVDAKKLNVHIHASQLHTDPFIFV 2gxf-a2-m1-cC_2gxf-a2-m1-cD X-Ray Crystal Structure of Protein YybH from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR506. P37496 P37496 3.1 X-RAY DIFFRACTION 100 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 114 114 2gxf-a1-m1-cA_2gxf-a1-m1-cB EQQLKDIISACDLAIQNEDFDTLNYYSEDAVLVVKPGIARGKEEIKKAFITIANYFNHHIVPTQGKILLEAGDTVLVLSQTLLDERRATYVFKKNAQGEWLCVIDNSYGTDLIG EQQLKDIISACDLAIQNEDFDTLNYYSEDAVLVVKPGIARGKEEIKKAFITIANYFNHHIVPTQGKILLEAGDTVLVLSQTLLDERRATYVFKKNAQGEWLCVIDNSYGTDLIG 2gxq-a1-m1-cA_2gxq-a1-m2-cA HERA N-terminal domain in complex with AMP, crystal form 1 O07897 O07897 1.2 X-RAY DIFFRACTION 62 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 206 206 2gxs-a1-m1-cA_2gxs-a1-m1-cB 2gxu-a1-m1-cA_2gxu-a1-m2-cA 3nbf-a1-m1-cB_3nbf-a1-m1-cA 4kbf-a3-m1-cA_4kbf-a3-m1-cB MEFKDFPLKPEILEALHGRGLTTPTPIQAAALPLALEGKDLIGQARTGTGKTLAFALPIAERLAPSQERGRKPRALVLTPTRELALQVASELTAVAPHLKVVAVYGGTGYGKQKEALLRGADAVVATPGRALDYLRQGVLDLSRVEVAVLDEADEMLSMGFEEEVEALLSATPPSRQTLLFSATLPSWAKRLAERYMKNPVLINVI MEFKDFPLKPEILEALHGRGLTTPTPIQAAALPLALEGKDLIGQARTGTGKTLAFALPIAERLAPSQERGRKPRALVLTPTRELALQVASELTAVAPHLKVVAVYGGTGYGKQKEALLRGADAVVATPGRALDYLRQGVLDLSRVEVAVLDEADEMLSMGFEEEVEALLSATPPSRQTLLFSATLPSWAKRLAERYMKNPVLINVI 2gyp-a3-m1-cA_2gyp-a3-m2-cB Diabetes mellitus due to a frustrated Schellman motif in HNF-1a P20823 P20823 1.4 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 2gyp-a3-m1-cB_2gyp-a3-m2-cA VSKLSQLQTELLAALLESLSKEALIQALGEW VSKLSQLQTELLAALLESLSKEALIQALGEW 2gyp-a3-m1-cB_2gyp-a3-m2-cB Diabetes mellitus due to a frustrated Schellman motif in HNF-1a P20823 P20823 1.4 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 2gyp-a1-m1-cA_2gyp-a1-m2-cA 2gyp-a2-m1-cB_2gyp-a2-m2-cB 2gyp-a3-m1-cA_2gyp-a3-m2-cA VSKLSQLQTELLAALLESLSKEALIQALGEW VSKLSQLQTELLAALLESLSKEALIQALGEW 2gyq-a1-m1-cB_2gyq-a1-m1-cA YcfI, a putative structural protein from Rhodopseudomonas palustris. Q6N4M9 Q6N4M9 1.4 X-RAY DIFFRACTION 125 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 157 162 FFSRDIQTMEDLLLHGLRDIYYAEQQITKALPKMIEQATNRDLSQGLTSHLEETQKQIERLDQVFKKLGQKPSGVNCPAIDGLIKEADETAGEIADKTVLDAAIVANAQAVEHYEIARYGTLIAWAEELGHDDIVRFLTTNLNEEKAANTKLNTVAL MGFFSRDIQTMEDLLLHGLRDIYYAEQQITKALPKMIEQATNRDLSQGLTSHLEETQKQIERLDQVFKKLGQKPSGVNCPAIDGLIKEADETAGEIADKTVLDAAIVANAQAVEHYEIARYGTLIAWAEELGHDDIVRFLTTNLNEEKAANTKLNTVALRAS 2gys-a1-m1-cA_2gys-a1-m1-cB 2.7 A structure of the extracellular domains of the human beta common receptor involved in IL-3, IL-5, and GM-CSF signalling P32927 P32927 2.7 X-RAY DIFFRACTION 378 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 397 406 1gh7-a1-m1-cA_1gh7-a1-m1-cB EETIPLQTLRCYNDYTSHITCRWADTQDAQRLVNVTLIRRVNEDLLEPVSCDLSDDMPWSACPHPRCVPRRCVIPCQSFVVTDVDYFSFQPDRPLGTRLTVTLTQHVQPPEPRDLQISTDQDHFLLTWSVALHWLSPGDLEFEVVYKRLQDSWEDAAILLSNTSQATLGPEHLMPSSTYVARVRTRLAPGSRLSGRPSKWSPEVCWDSQPGDEAQPQNLECFFDGAAVLSCSWEVRKEVASSVSFGLFYKPSAVLLREEECSPVLREGLGSLHTRHHCQIPVPDPATHGQYIVSVQPRRAEKHIKSSVNIQMAPPSLQVTDSYSLRWETDHTFEIQYRKDTATWKDSKTETLQNAHSMALPALEPSTRYWARVRVRTSRTGYNGIWSEWSEARSWDT EETIPLQTLRCYNDYTSHITCRWADTQDAQRLVNVTLIRRVNEDLLEPVSCDLSDDMPWSACPHPRCVPRRCVIPCQSFVVTDVDYFSFQPDRPLGTRLTVTLTQHVQPPEPRDLQISTDQDHFLLTWSVALHWLSPGDLEFEVVYKRLQDSWEDAAILLSNTSQATLGPEHLMPSSTYVARVRTRLAPGSRLSGRPSKWSPEVCWDSQPGDEAQPQNLECFFDGAAVLSCSWEVRKEVASSVSFGLFYKPSPDREEECSPVLREGLGSLHTRHHCQIPVPDPATHGQYIVSVQPRRAEKHIKSSVNIQMAPPSLQVTKDGDSYSLRWETMKMRYEHIDHTFEIQYRKDTATWKDSKTETLQNAHSMALPALEPSTRYWARVRVRTSRTGYNGIWSEWSEARSWDT 2gz3-a1-m1-cB_2gz3-a1-m1-cD Structure of Aspartate Semialdehyde Dehydrogenase (ASADH) from Streptococcus pneumoniae complexed with NADP and aspartate-semialdehyde A0A0H2UPS5 A0A0H2UPS5 2.1 X-RAY DIFFRACTION 26 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 347 357 GYTVAVVGATGAVGAQMIKMLEESTLPIDKIRYLASARSAGKSLKFKDQDITIEETTETAFEGVDIALFSAGSSTSAKYAPYAVKAGVVVVDNTSYFRQNPDVPLVVPEVNAHALDAHNGIIACPNCSTIQMMVALEPVRQKWGLDRIIVSTYQAVSGAGMGAILETQRELREVLNDGVKPCDLHAEILPSGGDKKHYPIAFNALPQIDVFTDNDYTYEEMKMTKETKKIMEDDSIAVSATCVRIPVLSAHSESVYIETKEVAPIEEVKAAIAAFPGAVLEDDVAHQIYPQAINAVGSRDTFVGRIRKDLDAEKGIHMWVVSDNLLKGAAWNSVQIAETLHERGLVR GYTVAVVGATGAVGAQMIKMLEESTLPIDKIRYLASARSAGKSLKFKDQDITIEETTETAFEGVDIALFSAGSSTSAKYAPYAVKAGVVVVDNTSYFRQNPDVPLVVPEVNAHALDAHNGIIACPNCSTIQMMVALEPVRQKWGLDRIIVSTYQAVSGAGMGAILETQRELREVLNDGVKPCDLHAEILPSGGDKKHYPIAFNALPQIDVFTDNDYTYEEMKMTKETKKIMEDDSIAVSATCVRIPVLSAHSESVYIETKEVAPIEEVKAAIAAFPGAVLEDDVAHQIYPQAINAVGSRDTFVGRIRKDLDAEKGIHMWVVSDNLLKGAAWNSVQIAETLHERGLVRPTAELKFELK 2gz4-a2-m1-cD_2gz4-a2-m1-cB 1.5 A Crystal Structure of a Protein of Unknown Function ATU1052 from Agrobacterium tumefaciens Q7D028 Q7D028 1.5 X-RAY DIFFRACTION 166 0.995 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 197 198 2gz4-a1-m1-cC_2gz4-a1-m1-cA RAWQRMLSGRRLDLLDPSPLDVEIADIAHGLARVARWNGQTRGDHAFTVAQHCLIVETIFCRMCPGATPDEMQMALLHDAPEYVIGDMISPFKSVVGGGYKTVEKRLEAAVHLRFGLPPHASRELKDRIKKADTVAAFFEATELAGFSTAEAQKFFGLPRGITRDMFDIIPLPSTEAQRLFIARFEAIETLRVTRTG SPRAWQRMLSGRRLDLLDPSPLDVEIADIAHGLARVARWNGQTRGDHAFTVAQHCLIVETIFCRMCPGATPDEMQMALLHDAPEYVIGDMISPFKSVVGGGYKTVEKRLEAAVHLRFGLPPHASRELKDRIKKADTVAAFFEATELAGFSTAEAQKFFGLPRGITRDMFDIIPLPSTEAQRLFIARFEAIETLRVTRT 2gza-a1-m2-cB_2gza-a1-m2-cA Crystal structure of the VirB11 ATPase from the Brucella Suis type IV secretion system in complex with sulphate Q8FXK7 Q8FXK7 2.6 X-RAY DIFFRACTION 116 0.997 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 322 324 2gza-a1-m1-cA_2gza-a1-m2-cC 2gza-a1-m1-cB_2gza-a1-m1-cA 2gza-a1-m1-cB_2gza-a1-m1-cC 2gza-a1-m2-cA_2gza-a1-m1-cC 2gza-a1-m2-cB_2gza-a1-m2-cC ASVNFHLEPLRPWLDDPQITEVCVNRPGEVFCERASAWEYYAVPNLDYEHLISLGTATARFVDQDISDSRPVLSAILPMGERIQIVRPPACEHGTISVTIRKPSFTRRTLEDYAQQGFFKHVRPMSKSLTPFEQELLALKEAGDYMSFLRRAVQLERVIVVAGETGSGKTTLMKALMQEIPFDQRLITIEDVPELFLPDHPNHVHLFYPPVTAATLLRSCLRMKPTRILLAELRGGEAYDFINVAASGHGGSITSCHAGSCELTFERLALMVLQNRQGRQLPYEIIRRLLYLVVDVVVHVHNGVHDGTGRHISEVWYDPNTK ASVNFHLEPLRPWLDDPQITEVCVNRPGEVFCERASAWEYYAVPNLDYEHLISLGTATARFVDQDISDSRPVLSAILPMGERIQIVRPPACEHGTISVTIRKPSFTRRTLEDYAQQGFFKHVRPMSKSLTPFEQELLALKEAGDYMSFLRRAVQLERVIVVAGETGSGKTTLMKALMQEIPFDQRLITIEDVPELFLPDHPNHVHLFYPVTAATLLRSCLRMKPTRILLAELRGGEAYDFINVAASGHGGSITSCHAGSCELTFERLALMVLQNRQGRQLPYEIIRRLLYLVVDVVVHVHNGVHDGTGRHISEVWYDPNTKRAL 2gzd-a1-m1-cC_2gzd-a1-m1-cD Crystal Structure of Rab11 in Complex with Rab11-FIP2 Q7L804 Q7L804 2.44 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 2gzh-a1-m1-cB_2gzh-a1-m2-cB 3tso-a1-m1-cC_3tso-a1-m1-cD RRKDTHIRELEDYIDNLLVRVEETPSILRVPYEP RRKDTHIRELEDYIDNLLVRVEETPSILRVPYEP 2gzm-a3-m1-cA_2gzm-a3-m1-cD Crystal Structure of the Glutamate Racemase from Bacillus anthracis A0A6L8PKK6 A0A6L8PKK6 1.99 X-RAY DIFFRACTION 17 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 266 266 KLNRAIGVIDSGVGGLTVAKELIRQLPKERIIYLGDTARCPYGPRSREEVRQFTWEMTEHLLDLNIKMLVIACNTATAVVLEEMQKQLPIPVVGVIHPGSRTALKVTNTYHVGIIGTIGTVKSGAYEEALKSINNRVMVESLACPPFVELVESGNFESEMAYEVVRETLQPLKNTDIDTLILGCTHYPILGPVIKQVMGDKVQLISSGDETAREVSTILYHSKMLNEGEEQSDHLFLTTGKIGLFKEIASKWFGQPIENVKHIHLE KLNRAIGVIDSGVGGLTVAKELIRQLPKERIIYLGDTARCPYGPRSREEVRQFTWEMTEHLLDLNIKMLVIACNTATAVVLEEMQKQLPIPVVGVIHPGSRTALKVTNTYHVGIIGTIGTVKSGAYEEALKSINNRVMVESLACPPFVELVESGNFESEMAYEVVRETLQPLKNTDIDTLILGCTHYPILGPVIKQVMGDKVQLISSGDETAREVSTILYHSKMLNEGEEQSDHLFLTTGKIGLFKEIASKWFGQPIENVKHIHLE 2gzm-a3-m1-cC_2gzm-a3-m1-cD Crystal Structure of the Glutamate Racemase from Bacillus anthracis A0A6L8PKK6 A0A6L8PKK6 1.99 X-RAY DIFFRACTION 72 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 266 266 2gzm-a1-m1-cB_2gzm-a1-m1-cA 2gzm-a2-m1-cC_2gzm-a2-m1-cD 2gzm-a3-m1-cB_2gzm-a3-m1-cA KLNRAIGVIDSGVGGLTVAKELIRQLPKERIIYLGDTARCPYGPRSREEVRQFTWEMTEHLLDLNIKMLVIACNTATAVVLEEMQKQLPIPVVGVIHPGSRTALKVTNTYHVGIIGTIGTVKSGAYEEALKSINNRVMVESLACPPFVELVESGNFESEMAYEVVRETLQPLKNTDIDTLILGCTHYPILGPVIKQVMGDKVQLISSGDETAREVSTILYHSKMLNEGEEQSDHLFLTTGKIGLFKEIASKWFGQPIENVKHIHLE KLNRAIGVIDSGVGGLTVAKELIRQLPKERIIYLGDTARCPYGPRSREEVRQFTWEMTEHLLDLNIKMLVIACNTATAVVLEEMQKQLPIPVVGVIHPGSRTALKVTNTYHVGIIGTIGTVKSGAYEEALKSINNRVMVESLACPPFVELVESGNFESEMAYEVVRETLQPLKNTDIDTLILGCTHYPILGPVIKQVMGDKVQLISSGDETAREVSTILYHSKMLNEGEEQSDHLFLTTGKIGLFKEIASKWFGQPIENVKHIHLE 2h03-a2-m1-cA_2h03-a2-m2-cA Structural studies of protein tyrosine phosphatase beta catalytic domain in complex with inhibitors P23467 P23467 1.65 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 KTSCPIKINQFEGHFMKLQADSNYLLSKEYEELKDVGRNQSCDIALLPENRGKNRYNNILPYDATRVKLSGGSDYINASYIPGNNFRREYIVTQGPLPGTKDDFWKMVWEQNVHNIVMVTQCVEKGRVKCDHYWPADQDSLYYGDLILQMLSESVLPEWTIREFKICGEEQLDAHRLIRHFHYTVWPDHGVPETTQSLIQFVRTVRDYINRSPGAGPTVVHCSAGVGRTGTFIALDRILQQLDSKDSVDIYGAVHDLRLHRVHMVQTECQYVYLHQCVRDVLRARKLR KTSCPIKINQFEGHFMKLQADSNYLLSKEYEELKDVGRNQSCDIALLPENRGKNRYNNILPYDATRVKLSGGSDYINASYIPGNNFRREYIVTQGPLPGTKDDFWKMVWEQNVHNIVMVTQCVEKGRVKCDHYWPADQDSLYYGDLILQMLSESVLPEWTIREFKICGEEQLDAHRLIRHFHYTVWPDHGVPETTQSLIQFVRTVRDYINRSPGAGPTVVHCSAGVGRTGTFIALDRILQQLDSKDSVDIYGAVHDLRLHRVHMVQTECQYVYLHQCVRDVLRARKLR 2h09-a1-m1-cA_2h09-a1-m2-cA Crystal structure of diphtheria toxin repressor like protein from E. coli P0A9F1 P0A9F1 2.1 X-RAY DIFFRACTION 62 1.0 562 (Escherichia coli) 562 (Escherichia coli) 127 127 EGFRQVREAHRRELIDDYVELISDLIREVGEARQVDMAARLGVSQPTVAKMLKRLATMGLIEMIPWRGVFLTAEGEKLAQESRERHQIVENFLLVLGVSPEIARRDAEGMEHHVSEETLDAFRLFTQ EGFRQVREAHRRELIDDYVELISDLIREVGEARQVDMAARLGVSQPTVAKMLKRLATMGLIEMIPWRGVFLTAEGEKLAQESRERHQIVENFLLVLGVSPEIARRDAEGMEHHVSEETLDAFRLFTQ 2h0a-a1-m1-cA_2h0a-a1-m2-cA Crystal structure of probable Transcription regulator from Thermus thermophilus Q5SK45 Q5SK45 2.8 X-RAY DIFFRACTION 33 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 258 258 TVSVLLPFVATEFYRRLVEGIEGVLLEQRYDLALFPILSLARLKYLTDGLILASYDLTRLPTERPVVLVDAQNPRYDSVYLDNRLGGRLAGAYLARFPGPIFAIAVEEEPDRRTVFAERMAGFQEALKEAGRPFSPDRLYITRHSQEGGRLALRHFLEKASPPLNVFAGADQVALGVLEEAVRLGLTPGRDVRVLGFDGHPFAEEAGLSTIAQPVEAMGARAAQLLLERMRGYQGPPREVRFEPVLVERASTGTPPAA TVSVLLPFVATEFYRRLVEGIEGVLLEQRYDLALFPILSLARLKYLTDGLILASYDLTRLPTERPVVLVDAQNPRYDSVYLDNRLGGRLAGAYLARFPGPIFAIAVEEEPDRRTVFAERMAGFQEALKEAGRPFSPDRLYITRHSQEGGRLALRHFLEKASPPLNVFAGADQVALGVLEEAVRLGLTPGRDVRVLGFDGHPFAEEAGLSTIAQPVEAMGARAAQLLLERMRGYQGPPREVRFEPVLVERASTGTPPAA 2h0e-a2-m5-cB_2h0e-a2-m7-cB Crystal Structure of PucM in the absence of substrate O32142 O32142 2.2 X-RAY DIFFRACTION 70 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 109 109 2h0e-a1-m1-cA_2h0e-a1-m2-cA 2h0e-a1-m3-cA_2h0e-a1-m4-cA 2h0e-a2-m1-cB_2h0e-a2-m6-cB 2h0f-a1-m1-cA_2h0f-a1-m2-cA 2h0f-a1-m3-cA_2h0f-a1-m4-cA 2h0f-a2-m1-cB_2h0f-a2-m6-cB 2h0f-a2-m5-cB_2h0f-a2-m7-cB 2h0j-a1-m1-cA_2h0j-a1-m2-cA 2h0j-a1-m3-cA_2h0j-a1-m4-cA 2h0j-a2-m1-cB_2h0j-a2-m6-cB 2h0j-a2-m5-cB_2h0j-a2-m7-cB GKLTTHILDLTCGKPAANVKIGLKRLGESIKEVYTNNDGRVDVPLLAGEELSGEYVEFHAGDYFASKNNAADQPFLTIVTVRFQLADPDAHYHIPLLLSPFGYQVYRGS GKLTTHILDLTCGKPAANVKIGLKRLGESIKEVYTNNDGRVDVPLLAGEELSGEYVEFHAGDYFASKNNAADQPFLTIVTVRFQLADPDAHYHIPLLLSPFGYQVYRGS 2h0h-a1-m1-cA_2h0h-a1-m2-cA Crystal Structure of DsbG K113E mutant P77202 P77202 1.8 X-RAY DIFFRACTION 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 229 229 1v57-a1-m1-cA_1v57-a1-m2-cA 1v57-a2-m1-cB_1v57-a2-m2-cB 1v58-a1-m1-cA_1v58-a1-m2-cA 1v58-a2-m1-cB_1v58-a2-m2-cB 2h0g-a1-m1-cA_2h0g-a1-m2-cA 2h0g-a2-m1-cB_2h0g-a2-m2-cB 2h0g-a3-m1-cA_2h0g-a3-m2-cA 2h0g-a3-m1-cB_2h0g-a3-m2-cB 2h0h-a2-m1-cB_2h0h-a2-m2-cB 2h0i-a1-m1-cA_2h0i-a1-m2-cA 2h0i-a2-m1-cB_2h0i-a2-m2-cB 2h0i-a3-m1-cA_2h0i-a3-m2-cA 2h0i-a3-m1-cB_2h0i-a3-m2-cB 2iy2-a1-m1-cB_2iy2-a1-m1-cA 5g1l-a1-m1-cA_5g1l-a1-m2-cA 5g1l-a1-m1-cB_5g1l-a1-m2-cB ELPAPVKAIEKQGITIIKTFDAPGGMKGYLGKYQDMGVTIYLTPDGKHAISGYMYNEKGENLSNTLIEKEIYAPAGREMWQRMEQSHWLLDGKKDAPVIVYVFADPFCPYCEQFWQQARPWVDSGKVQLRTLLVGVIKPESPATAAAILASKDPAKTWQQYEASGGKLKLNVPANVSTEQMKVLSDNEKLMDDLGANVTPAIYYMSKENTLQQAVGLPDQKTLNIIMGN ELPAPVKAIEKQGITIIKTFDAPGGMKGYLGKYQDMGVTIYLTPDGKHAISGYMYNEKGENLSNTLIEKEIYAPAGREMWQRMEQSHWLLDGKKDAPVIVYVFADPFCPYCEQFWQQARPWVDSGKVQLRTLLVGVIKPESPATAAAILASKDPAKTWQQYEASGGKLKLNVPANVSTEQMKVLSDNEKLMDDLGANVTPAIYYMSKENTLQQAVGLPDQKTLNIIMGN 2h0j-a2-m1-cB_2h0j-a2-m7-cB Crystal structure of PucM in the presence of 5,6-diaminouracil O32142 O32142 2.9 X-RAY DIFFRACTION 12 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 109 109 2h0e-a1-m1-cA_2h0e-a1-m3-cA 2h0e-a1-m2-cA_2h0e-a1-m4-cA 2h0e-a2-m1-cB_2h0e-a2-m7-cB 2h0e-a2-m5-cB_2h0e-a2-m6-cB 2h0f-a1-m1-cA_2h0f-a1-m3-cA 2h0f-a1-m2-cA_2h0f-a1-m4-cA 2h0f-a2-m1-cB_2h0f-a2-m7-cB 2h0f-a2-m5-cB_2h0f-a2-m6-cB 2h0j-a1-m1-cA_2h0j-a1-m3-cA 2h0j-a1-m2-cA_2h0j-a1-m4-cA 2h0j-a2-m5-cB_2h0j-a2-m6-cB GKLTTHILDLTCGKPAANVKIGLKRLGESIKEVYTNNDGRVDVPLLAGEELSGEYVEFHAGDYFASKNNAADQPFLTIVTVRFQLADPDAHYHIPLLLSPFGYQVYRGS GKLTTHILDLTCGKPAANVKIGLKRLGESIKEVYTNNDGRVDVPLLAGEELSGEYVEFHAGDYFASKNNAADQPFLTIVTVRFQLADPDAHYHIPLLLSPFGYQVYRGS 2h0j-a2-m6-cB_2h0j-a2-m7-cB Crystal structure of PucM in the presence of 5,6-diaminouracil O32142 O32142 2.9 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 109 109 2h0e-a1-m1-cA_2h0e-a1-m4-cA 2h0e-a1-m2-cA_2h0e-a1-m3-cA 2h0e-a2-m1-cB_2h0e-a2-m5-cB 2h0e-a2-m6-cB_2h0e-a2-m7-cB 2h0f-a1-m1-cA_2h0f-a1-m4-cA 2h0f-a1-m2-cA_2h0f-a1-m3-cA 2h0f-a2-m1-cB_2h0f-a2-m5-cB 2h0f-a2-m6-cB_2h0f-a2-m7-cB 2h0j-a1-m1-cA_2h0j-a1-m4-cA 2h0j-a1-m2-cA_2h0j-a1-m3-cA 2h0j-a2-m1-cB_2h0j-a2-m5-cB GKLTTHILDLTCGKPAANVKIGLKRLGESIKEVYTNNDGRVDVPLLAGEELSGEYVEFHAGDYFASKNNAADQPFLTIVTVRFQLADPDAHYHIPLLLSPFGYQVYRGS GKLTTHILDLTCGKPAANVKIGLKRLGESIKEVYTNNDGRVDVPLLAGEELSGEYVEFHAGDYFASKNNAADQPFLTIVTVRFQLADPDAHYHIPLLLSPFGYQVYRGS 2h0u-a1-m1-cA_2h0u-a1-m2-cA Crystal structure of NAD(P)H-flavin oxidoreductase from Helicobacter pylori Q7BGI8 Q7BGI8 1.9 X-RAY DIFFRACTION 195 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 187 187 DREQVVALQHQRFAAKKYDPNRRISQKDWEALVEVGRLAPSSIGLEPWKLLLKNASHFVIYLARKGVTYDSDYVKKVHEVKKRDYDTNSRFAQIIKNFQENDKLNSERSLFDWASKQTYIQANAAALGIDSCPIEGYDQEKVEAYLEEKGYLNTAEFGVSVACFGYRNQEITPKTRWKTEVIYEVIE DREQVVALQHQRFAAKKYDPNRRISQKDWEALVEVGRLAPSSIGLEPWKLLLKNASHFVIYLARKGVTYDSDYVKKVHEVKKRDYDTNSRFAQIIKNFQENDKLNSERSLFDWASKQTYIQANAAALGIDSCPIEGYDQEKVEAYLEEKGYLNTAEFGVSVACFGYRNQEITPKTRWKTEVIYEVIE 2h12-a1-m1-cD_2h12-a1-m1-cF Structure of Acetobacter aceti citrate synthase complexed with oxaloacetate and carboxymethyldethia coenzyme A (CMX) P20901 P20901 1.85 X-RAY DIFFRACTION 22 1.0 435 (Acetobacter aceti) 435 (Acetobacter aceti) 417 420 2h12-a1-m1-cA_2h12-a1-m1-cC 2h12-a1-m1-cA_2h12-a1-m1-cE 2h12-a1-m1-cC_2h12-a1-m1-cE 2h12-a1-m1-cD_2h12-a1-m1-cB 2h12-a1-m1-cF_2h12-a1-m1-cB STATISVDGKSAEMPVLSGTLGPDVIDIRKLPAQLGVFTFDPGYGETAACNSKITFIDGDKGVLLHRGYPIAQLAENASYEEVIYLLLNGELPNKAQYDTFTNTLTNHTLLHEQIRNFFNGFRRDAHPMAILCGTVGALSAFYPNRDLAAMRLIAKIPTIAAWAYKYTQGEAFIYPRNDLNYAENFLSMMFARMSEPYKVNPVLARAMNRILILHADHEQNASTSTVRLAGSTGANPFACIAAGIAALWGPAHGGANEAVLKMLARIGKKENIPAFIAQVKDKNSGVKLMGFGHRVYKNFDPRAKIMQQTCHEVLTELGIKDDPLLDLAVELEKIALSDDYFVQRKLYPNVDFYSGIILKAMGIPTSMFTVLFAVARTTGWVSQWKEMIEEPGQRISRPRQLYIGAPQRDYVPLAKR STATISVDGKSAEMPVLSGTLGPDVIDIRKLPAQLGVFTFDPGYGETAACNSKITFIDGDKGVLLHRGYPIAQLAENASYEEVIYLLLNGELPNKAQYDTFTNTLTNHTLLHEQIRNFFNGFRRDAHPMAILCGTVGALSAFYPDPANRDLAAMRLIAKIPTIAAWAYKYTQGEAFIYPRNDLNYAENFLSMMFARMSEPYKVNPVLARAMNRILILHADHEQNASTSTVRLAGSTGANPFACIAAGIAALWGPAHGGANEAVLKMLARIGKKENIPAFIAQVKDKNSGVKLMGFGHRVYKNFDPRAKIMQQTCHEVLTELGIKDDPLLDLAVELEKIALSDDYFVQRKLYPNVDFYSGIILKAMGIPTSMFTVLFAVARTTGWVSQWKEMIEEPGQRISRPRQLYIGAPQRDYVPLAKR 2h12-a1-m1-cF_2h12-a1-m1-cE Structure of Acetobacter aceti citrate synthase complexed with oxaloacetate and carboxymethyldethia coenzyme A (CMX) P20901 P20901 1.85 X-RAY DIFFRACTION 566 1.0 435 (Acetobacter aceti) 435 (Acetobacter aceti) 420 426 2h12-a1-m1-cA_2h12-a1-m1-cB 2h12-a1-m1-cD_2h12-a1-m1-cC STATISVDGKSAEMPVLSGTLGPDVIDIRKLPAQLGVFTFDPGYGETAACNSKITFIDGDKGVLLHRGYPIAQLAENASYEEVIYLLLNGELPNKAQYDTFTNTLTNHTLLHEQIRNFFNGFRRDAHPMAILCGTVGALSAFYPDPANRDLAAMRLIAKIPTIAAWAYKYTQGEAFIYPRNDLNYAENFLSMMFARMSEPYKVNPVLARAMNRILILHADHEQNASTSTVRLAGSTGANPFACIAAGIAALWGPAHGGANEAVLKMLARIGKKENIPAFIAQVKDKNSGVKLMGFGHRVYKNFDPRAKIMQQTCHEVLTELGIKDDPLLDLAVELEKIALSDDYFVQRKLYPNVDFYSGIILKAMGIPTSMFTVLFAVARTTGWVSQWKEMIEEPGQRISRPRQLYIGAPQRDYVPLAKR STATISVDGKSAEMPVLSGTLGPDVIDIRKLPAQLGVFTFDPGYGETAACNSKITFIDGDKGVLLHRGYPIAQLAENASYEEVIYLLLNGELPNKAQYDTFTNTLTNHTLLHEQIRNFFNGFRRDAHPMAILCGTVGALSAFYPDANDIAIPANRDLAAMRLIAKIPTIAAWAYKYTQGEAFIYPRNDLNYAENFLSMMFARMSEPYKVNPVLARAMNRILILHADHEQNASTSTVRLAGSTGANPFACIAAGIAALWGPAHGGANEAVLKMLARIGKKENIPAFIAQVKDKNSGVKLMGFGHRVYKNFDPRAKIMQQTCHEVLTELGIKDDPLLDLAVELEKIALSDDYFVQRKLYPNVDFYSGIILKAMGIPTSMFTVLFAVARTTGWVSQWKEMIEEPGQRISRPRQLYIGAPQRDYVPLAKR 2h16-a1-m1-cB_2h16-a1-m1-cD Structure of human ADP-ribosylation factor-like 5 (ARL5) Q9Y689 Q9Y689 2 X-RAY DIFFRACTION 32 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 149 153 2h16-a1-m1-cA_2h16-a1-m1-cC 2h16-a1-m1-cA_2h16-a1-m1-cD 2h16-a1-m1-cB_2h16-a1-m1-cC QEHKVIIVGLDNAGKTTILYQFSMNEVVHTVEEIVINNTRFLMWDIGSSWNTYYTNTEFVIVVVDSTDRERISVTREELYKMLAHEDLRKAGLLIFANKQDVKECMTVAEISQFLKLTSIKDHQWHIQACCALTGEGLCQGLEWMMSRL QEHKVIIVGLDNAGKTTILYQFSMNEVVHTSPNVEEIVINNTRFLMWDILRSSWNTYYTNTEFVIVVVDSTDRERISVTREELYKMLAHEDLRKAGLLIFANKQDVKECMTVAEISQFLKLTSIKDHQWHIQACCALTGEGLCQGLEWMMSRL 2h1e-a2-m1-cB_2h1e-a2-m2-cB Tandem chromodomains of budding yeast CHD1 P32657 P32657 2.2 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 163 163 2h1e-a2-m1-cA_2h1e-a2-m2-cA HGIDIVINHRLKTSLEEGKVLEKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQ HGIDIVINHRLKTSLEEGKVLEKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQ 2h1e-a2-m2-cB_2h1e-a2-m1-cA Tandem chromodomains of budding yeast CHD1 P32657 P32657 2.2 X-RAY DIFFRACTION 31 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 163 166 2h1e-a2-m1-cB_2h1e-a2-m2-cA HGIDIVINHRLKTSLEEGKVLEKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQ DFHGIDIVINHRLKTSLEEGKVLEKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQK 2h1e-a2-m2-cB_2h1e-a2-m2-cA Tandem chromodomains of budding yeast CHD1 P32657 P32657 2.2 X-RAY DIFFRACTION 80 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 163 166 2h1e-a1-m1-cB_2h1e-a1-m1-cA 2h1e-a2-m1-cB_2h1e-a2-m1-cA HGIDIVINHRLKTSLEEGKVLEKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQ DFHGIDIVINHRLKTSLEEGKVLEKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQK 2h1i-a4-m1-cB_2h1i-a4-m1-cA Crystal Structure of the Bacillus cereus Carboxylesterase Q81AD5 Q81AD5 2.8 X-RAY DIFFRACTION 27 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 197 205 NAKHVFQKGKDTSKPVLLLLHGTGGNELDLLPLAEIVDSEASVLSVRGNVLENGPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPVPRRGQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTHWENRGHQLTGEVEKAKEWYDKAF TENLYFQSNAKHVFQKGKDTSKPVLLLLHGTGGNELDLLPLAEIVDSEASVLSVRGNVLENGPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPVPRRGQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTHWENRGHQLTGEVEKAKEWYDKAF 2h1i-a4-m2-cC_2h1i-a4-m1-cA Crystal Structure of the Bacillus cereus Carboxylesterase Q81AD5 Q81AD5 2.8 X-RAY DIFFRACTION 29 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 196 205 AKHVFQKGKDTSKPVLLLLHGTGGNELDLLPLAEIVDSEASVLSVRGNVLENGPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPVPRRGQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTHWENRGHQLTGEVEKAKEWYDKAF TENLYFQSNAKHVFQKGKDTSKPVLLLLHGTGGNELDLLPLAEIVDSEASVLSVRGNVLENGPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPVPRRGQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTHWENRGHQLTGEVEKAKEWYDKAF 2h1i-a5-m2-cC_2h1i-a5-m1-cB Crystal Structure of the Bacillus cereus Carboxylesterase Q81AD5 Q81AD5 2.8 X-RAY DIFFRACTION 22 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 196 197 2h1i-a4-m2-cC_2h1i-a4-m1-cB AKHVFQKGKDTSKPVLLLLHGTGGNELDLLPLAEIVDSEASVLSVRGNVLENGPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPVPRRGQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTHWENRGHQLTGEVEKAKEWYDKAF NAKHVFQKGKDTSKPVLLLLHGTGGNELDLLPLAEIVDSEASVLSVRGNVLENGPRFFRRLAEGIFDEEDLIFRTKELNEFLDEAAKEYKFDRNNIVAIGYSNGANIAASLLFHYENALKGAVLHHPVPRRGQLANLAGKSVFIAAGTNDPICSSAESEELKVLLENANANVTHWENRGHQLTGEVEKAKEWYDKAF 2h1o-a1-m1-cD_2h1o-a1-m1-cC Structure of FitAB bound to IR36 DNA fragment Q5F882 Q5F882 3 X-RAY DIFFRACTION 86 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 140 143 2bsq-a1-m1-cB_2bsq-a1-m1-cA 2bsq-a1-m1-cD_2bsq-a1-m1-cC 2h1c-a1-m1-cA_2h1c-a1-m2-cA 2h1o-a1-m1-cB_2h1o-a1-m1-cA MILLDTNVISEPLRPQPNERVVAWLDSLILEDVYLSAITVAEMRLGVALLLNGKKKNVLHERMEQSILPLFAGRILPFDEPVAAIYAQIRSYAKTHGKEIAAADGYIAATAKQHSMTVATRDTGSFFAADVAVFNPWHLE MILLDTNVISEPLRPQPNERVVAWLDSLILEDVYLSAITVAEMRLGVALLLNGKKKNVLHERMEQSILPLFAGRILPFDEPVAAIYAQIRSYAKTHGKEIAAADGYIAATAKQHSMTVATRDTGSFFAADVAVFNPWHLEHHH 2h1o-a1-m1-cH_2h1o-a1-m1-cE Structure of FitAB bound to IR36 DNA fragment Q5F881 Q5F881 3 X-RAY DIFFRACTION 106 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 63 68 2bsq-a1-m1-cF_2bsq-a1-m1-cG 2bsq-a1-m1-cH_2bsq-a1-m1-cE 2h1o-a1-m1-cF_2h1o-a1-m1-cG ASVVIRNLSEATHNAIKFRARAAGRSTEAEIRLILDNIAKAQQTVRLGSMLASIGQEIGGVEL ASVVIRNLSEATHNAIKFRARAAGRSTEAEIRLILDNIAKAQQTVRLGSMLASIGQEIGGVELEDVRG 2h1t-a1-m1-cB_2h1t-a1-m1-cA Crystal structure of a duf1089 family protein (pa1994) from pseudomonas aeruginosa at 1.80 A resolution Q9I2B5 Q9I2B5 1.8 X-RAY DIFFRACTION 188 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 183 185 DRLYTWAGLWRSPSSSWEALRLEDDQAESQLRAPDERSGLPYQLDYRLRWDADWHLREAVFHVESETGVRKLHLLADGRGHWQDGDGEALPAFDGCLDIDIWPSPFTNTFPIRRLGLADGQRAEIRALYIEAPALEPRSRQAYTRLDASHYLYENLEGSAFKAVLLVDEQGLVIDYPGLFQRL SRDRLYTWAGLWRSPSSSWEALRLEDDQAESQLRAPDERSGLPYQLDYRLRWDADWHLREAVFHVESETGVRKLHLLADGRGHWQDGDGEALPAFDGCLDIDIWPSPFTNTFPIRRLGLADGQRAEIRALYIEAPALEPRSRQAYTRLDASHYLYENLEGSAFKAVLLVDEQGLVIDYPGLFQRL 2h21-a4-m1-cC_2h21-a4-m1-cB Structure of Rubisco LSMT bound to AdoMet Q43088 Q43088 2.45 X-RAY DIFFRACTION 85 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 438 440 1mlv-a4-m1-cA_1mlv-a4-m1-cB 1mlv-a4-m1-cA_1mlv-a4-m1-cC 1mlv-a4-m1-cC_1mlv-a4-m1-cB 1mlv-a5-m1-cA_1mlv-a5-m1-cB 1mlv-a5-m1-cA_1mlv-a5-m1-cC 1mlv-a5-m1-cC_1mlv-a5-m1-cB 1mlv-a5-m2-cA_1mlv-a5-m2-cB 1mlv-a5-m2-cA_1mlv-a5-m2-cC 1mlv-a5-m2-cC_1mlv-a5-m2-cB 1ozv-a4-m1-cA_1ozv-a4-m1-cB 1ozv-a4-m1-cA_1ozv-a4-m1-cC 1ozv-a4-m1-cC_1ozv-a4-m1-cB 2h21-a4-m1-cA_2h21-a4-m1-cB 2h21-a4-m1-cA_2h21-a4-m1-cC 2h23-a4-m1-cA_2h23-a4-m1-cB 2h23-a4-m1-cA_2h23-a4-m1-cC 2h23-a4-m1-cC_2h23-a4-m1-cB 2h2e-a4-m1-cA_2h2e-a4-m1-cB 2h2e-a4-m1-cA_2h2e-a4-m1-cC 2h2e-a4-m1-cC_2h2e-a4-m1-cB 2h2j-a4-m1-cA_2h2j-a4-m1-cB 2h2j-a4-m1-cA_2h2j-a4-m1-cC 2h2j-a4-m1-cC_2h2j-a4-m1-cB 2h2j-a5-m1-cA_2h2j-a5-m1-cB 2h2j-a6-m1-cA_2h2j-a6-m1-cC 2h2j-a7-m1-cC_2h2j-a7-m1-cB LSPAVQTFWKWLQEEGVITAKTPVKASVVTEGLGLVALKDISRNDVILQVPKRLWINPDAVAASEIGRVCSELKPWLSVILFLIRERSREDSVWKHYFGILPQETDSTIYWSEEELQELQGSQLLKTTVSVKEYVKNECLKLEQEIILPNKRLFPDPVTLDDFFWAFGILRSRAFSRLRNENLVVVPMADLINHSAGVTTEDHAYEVKGAAGLFSWDYLFSLKSPLSVKAGEQVYIQYDLNKSNAELALDYGFIEPNENRHAYTLTLEISESDPFFDDKLDVAESNGFAQTAYFDIFYNRTLPPGLLPYLRLVALGGTDAFLLESLFRDTIWGHLELSVSRDNEELLCKAVREACKSALAGYHTTIEQDRELKEGNLDSRLAIAVGIREGEKMVLQQIDGIFEQKELELDQLEYYQERRLKDLGLCGENGDILENLYF SLSPAVQTFWKWLQEEGVITAKTPVKASVVTEGLGLVALKDISRNDVILQVPKRLWINPDAVAASEIGRVCSELKPWLSVILFLIRERSREDSVWKHYFGILPQETDSTIYWSEEELQELQGSQLLKTTVSVKEYVKNECLKLEQEIILPNKRLFPDPVTLDDFFWAFGILRSRAFSRLRNENLVVVPMADLINHSAGVTTEDHAYEVKGAAGLFSWDYLFSLKSPLSVKAGEQVYIQYDLNKSNAELALDYGFIEPNENRHAYTLTLEISESDPFFDDKLDVAESNGFAQTAYFDIFYNRTLPPGLLPYLRLVALGGTDAFLLESLFRDTIWGHLELSVSRDNEELLCKAVREACKSALAGYHTTIEQDRELKEGNLDSRLAIAVGIREGEKMVLQQIDGIFEQKELELDQLEYYQERRLKDLGLCGENGDILENLYFQ 2h28-a3-m1-cB_2h28-a3-m1-cA Crystal structure of YeeU from E. coli. Northeast Structural Genomics target ER304 P76364 P76364 2.1 X-RAY DIFFRACTION 32 0.99 562 (Escherichia coli) 562 (Escherichia coli) 102 106 HDRPWWGLPCTVTPCFGARLVQEGNRLHYLADRAGIRGLFSDADAYHLDQAFPLLKQLELLTSGELNPRHQHTVTLYAKGLTCKADTLSSCDYVYLAVYPTP DRPWWGLPCTVTPCFGARLVQEGNRLHYLADRAGIRGLFSDADAYHLDQAFPLLKQLELLTSGELNPRHQHTVTLYAKGLTCKADTLSSCDYVYLAVYPTPEKNLE 2h29-a1-m1-cA_2h29-a1-m1-cB Crystal structure of Nicotinic acid mononucleotide Adenylyltransferase from Staphylococcus aureus: product bound form 1 Q5HFG7 Q5HFG7 2 X-RAY DIFFRACTION 51 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 188 188 2h2a-a1-m1-cA_2h2a-a1-m1-cB MKKIVLYGGQFNPIHTAHMIVASEVFHELQPDEFYFLPSFMSPLKKHHDFIDVQHRLTMIQMIIDELGFGDICDDEIKRGGQSYTYDTIKAFKEQHKDSELYFVIGTDQYNQLEKWYQIEYLKEMVTFVVVNRDKNSQNVENAMIAIQIPRVDISSTMIRQRVSEGKSIQVLVPKSVENYIKGEGLYE MKKIVLYGGQFNPIHTAHMIVASEVFHELQPDEFYFLPSFMSPLKKHHDFIDVQHRLTMIQMIIDELGFGDICDDEIKRGGQSYTYDTIKAFKEQHKDSELYFVIGTDQYNQLEKWYQIEYLKEMVTFVVVNRDKNSQNVENAMIAIQIPRVDISSTMIRQRVSEGKSIQVLVPKSVENYIKGEGLYE 2h2b-a1-m1-cA_2h2b-a1-m2-cA Crystal Structure of ZO-1 PDZ1 Bound to a Phage-Derived Ligand (WRRTTYL) Q07157 Q07157 1.6 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 GSHMIWEQHTVTLHRAPGFGFGIAISGGRDNPHFQSGETSIVISDVLKGGPAEGQLQENDRVAMVNGVSMDNVEHAFAVQQLRKSGKNAKITIRRKKGGGWRRTTYL GSHMIWEQHTVTLHRAPGFGFGIAISGGRDNPHFQSGETSIVISDVLKGGPAEGQLQENDRVAMVNGVSMDNVEHAFAVQQLRKSGKNAKITIRRKKGGGWRRTTYL 2h2c-a1-m1-cA_2h2c-a1-m2-cA Crystal Structure of ZO-1 PDZ1 Bound to a Phage-Derived Ligand (WRRTTWV) Q07157 Q07157 2 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 GSHMIWEQHTVTLHRAPGFGFGIAISGGRDNPHFQSGETSIVISDVLKGGPAEGQLQENDRVAMVNGVSMDNVEHAFAVQQLRKSGKNAKITIRRKKGGGWRRTTWV GSHMIWEQHTVTLHRAPGFGFGIAISGGRDNPHFQSGETSIVISDVLKGGPAEGQLQENDRVAMVNGVSMDNVEHAFAVQQLRKSGKNAKITIRRKKGGGWRRTTWV 2h2i-a1-m2-cA_2h2i-a1-m8-cA The Structural basis of Sirtuin Substrate Affinity Q9WYW0 Q9WYW0 1.8 X-RAY DIFFRACTION 48 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 244 244 2h2i-a1-m1-cA_2h2i-a1-m7-cA 2h2i-a1-m1-cA_2h2i-a1-m8-cA 2h2i-a1-m2-cA_2h2i-a1-m7-cA 2h2i-a1-m3-cA_2h2i-a1-m5-cA 2h2i-a1-m3-cA_2h2i-a1-m6-cA 2h2i-a1-m4-cA_2h2i-a1-m5-cA 2h2i-a1-m4-cA_2h2i-a1-m6-cA MKMKEFLDLLNESRLTVTLTGAGISTPSGIPDFRGPNGIYKKYSQNVFDIDFFYSHPEEFYRFAKEGIFPMLQAKPNLAHVLLAKLEEKGLIEAVITQNIDRLHQRAGSKKVIELHGNVEEYYCVRCEKKYTVEDVIKKLESSDVPLCDDCNSLIRPNIVFFGENLPQDALREAIGLSSRASLMIVLGSSLVVYPAAELPLITVRSGGKLVIVNLGETPFDDIATLKYNMDVVEFARRVMEEGG MKMKEFLDLLNESRLTVTLTGAGISTPSGIPDFRGPNGIYKKYSQNVFDIDFFYSHPEEFYRFAKEGIFPMLQAKPNLAHVLLAKLEEKGLIEAVITQNIDRLHQRAGSKKVIELHGNVEEYYCVRCEKKYTVEDVIKKLESSDVPLCDDCNSLIRPNIVFFGENLPQDALREAIGLSSRASLMIVLGSSLVVYPAAELPLITVRSGGKLVIVNLGETPFDDIATLKYNMDVVEFARRVMEEGG 2h2i-a1-m6-cA_2h2i-a1-m8-cA The Structural basis of Sirtuin Substrate Affinity Q9WYW0 Q9WYW0 1.8 X-RAY DIFFRACTION 29 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 244 244 2h2i-a1-m1-cA_2h2i-a1-m3-cA 2h2i-a1-m2-cA_2h2i-a1-m4-cA 2h2i-a1-m5-cA_2h2i-a1-m7-cA MKMKEFLDLLNESRLTVTLTGAGISTPSGIPDFRGPNGIYKKYSQNVFDIDFFYSHPEEFYRFAKEGIFPMLQAKPNLAHVLLAKLEEKGLIEAVITQNIDRLHQRAGSKKVIELHGNVEEYYCVRCEKKYTVEDVIKKLESSDVPLCDDCNSLIRPNIVFFGENLPQDALREAIGLSSRASLMIVLGSSLVVYPAAELPLITVRSGGKLVIVNLGETPFDDIATLKYNMDVVEFARRVMEEGG MKMKEFLDLLNESRLTVTLTGAGISTPSGIPDFRGPNGIYKKYSQNVFDIDFFYSHPEEFYRFAKEGIFPMLQAKPNLAHVLLAKLEEKGLIEAVITQNIDRLHQRAGSKKVIELHGNVEEYYCVRCEKKYTVEDVIKKLESSDVPLCDDCNSLIRPNIVFFGENLPQDALREAIGLSSRASLMIVLGSSLVVYPAAELPLITVRSGGKLVIVNLGETPFDDIATLKYNMDVVEFARRVMEEGG 2h2n-a1-m1-cB_2h2n-a1-m1-cA Crystal structure of human soluble calcium-activated nucleotidase (SCAN) with calcium ion Q8WVQ1 Q8WVQ1 2.3 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 317 2h2u-a1-m1-cA_2h2u-a1-m1-cB YNDTYPLSPPQRTPAGIRYRIAVIADLDTESRAQEENTWFSYLKKGYLTLSDSGDKVAVEWDKDHGVLESHLAEKGRGMELSDLIVFNGKLYSVDDRTGVVYQIEGSKAVPWVILSDGDGTVEKGFKAEWLAVKDERLYVGGLGKEWTTTTGDVVNENPEWVKVVGYKGSVDHENWVSNYNALRAAAGIQPPGYLIHESACWSDTLQRWFFLPRRASQERYSEKDDERKGANLLLSASPDFGDIAVSHVGAVVPTHGFSSFKFIPNTDDQIIVALKSEEDSGRVASYIMAFTLDGRFLLPETKIGSVKYEGIEFI NWYNDTYPLSPPQRTPAGIRYRIAVIADLDTESRAQEENTWFSYLKKGYLTLSDSGDKVAVEWDKDHGVLESHLAEKGRGMELSDLIVFNGKLYSVDDRTGVVYQIEGSKAVPWVILSDGDGTVEKGFKAEWLAVKDERLYVGGLGKEWTTTTGDVVNENPEWVKVVGYKGSVDHENWVSNYNALRAAAGIQPPGYLIHESACWSDTLQRWFFLPRRASQERYSEKDDERKGANLLLSASPDFGDIAVSHVGAVVPTHGFSSFKFIPNTDDQIIVALKSEEDSGRVASYIMAFTLDGRFLLPETKIGSVKYEGIEFI 2h2r-a1-m1-cB_2h2r-a1-m1-cA Crystal structure of the human CD23 Lectin domain, apo form P06734 P06734 1.5 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 135 FVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKRASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGEPTSRSQSEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCTPP FVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKRASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGEPTSRSQSEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCTPPA 2h2w-a1-m1-cA_2h2w-a1-m2-cA Crystal structure of Homoserine O-succinyltransferase (EC 2.3.1.46) (Homoserine O-transsuccinylase) (HTS) (tm0881) from THERMOTOGA MARITIMA at 2.52 A resolution Q9WZY3 Q9WZY3 2.52 X-RAY DIFFRACTION 65 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 288 288 PINVPSGLPAVKVLAKEGIFVMTEKIRPLEILILNLMPDKIKTEIQLLRLLGNTPLQVNVTLLYTETHKPKHTPIEHILKFYTTFSAVKDRKFDGFIITGAPVELLPFEEVDYWEELTEIMEWSRHNVYSTMFICWAAQAGLYYFYGIPKYELPQKLSGVYKHRVAKDSVLFRGHDDFFWAPHSRYTEVKKEDIDKVPLEILAESDEAGVYVVANKSERQIFVTGHPEYDRYTLRDEYYRDIGRNLKVPIPANYFPNDDPTKTPILTWWSHAHLFFSNWLNYCIYQKT PINVPSGLPAVKVLAKEGIFVMTEKIRPLEILILNLMPDKIKTEIQLLRLLGNTPLQVNVTLLYTETHKPKHTPIEHILKFYTTFSAVKDRKFDGFIITGAPVELLPFEEVDYWEELTEIMEWSRHNVYSTMFICWAAQAGLYYFYGIPKYELPQKLSGVYKHRVAKDSVLFRGHDDFFWAPHSRYTEVKKEDIDKVPLEILAESDEAGVYVVANKSERQIFVTGHPEYDRYTLRDEYYRDIGRNLKVPIPANYFPNDDPTKTPILTWWSHAHLFFSNWLNYCIYQKT 2h32-a2-m1-cH_2h32-a2-m2-cH Crystal structure of the pre-B cell receptor 2.7 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 EVQLVQSGAEVKKPGESLKISCKGSGYSFTSYWIGWVRQMPGKGLEWMGIIYPGDSDTRYSPSFQGQVTISADKSISTAYLQWSSLKASDTAMYYCARHYYYYYGMDVWGQGTTVTVSSWSASAPTLFPLVSCVAVGCLAQDFLPDSITFSWKYKNNSDISSTRGFPSVLRGGKYAATSQVLLPSKDVTDEHVVCKVQHPNGNKEKNVPLP EVQLVQSGAEVKKPGESLKISCKGSGYSFTSYWIGWVRQMPGKGLEWMGIIYPGDSDTRYSPSFQGQVTISADKSISTAYLQWSSLKASDTAMYYCARHYYYYYGMDVWGQGTTVTVSSWSASAPTLFPLVSCVAVGCLAQDFLPDSITFSWKYKNNSDISSTRGFPSVLRGGKYAATSQVLLPSKDVTDEHVVCKVQHPNGNKEKNVPLP 2h3a-a1-m1-cA_2h3a-a1-m1-cB Structural basis for nucleic acid and toxin recognition of the bacterial antitoxin CcdA P62552 P62552 NOT SOLUTION NMR 155 1.0 562 (Escherichia coli) 562 (Escherichia coli) 72 72 MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW 2h3c-a1-m1-cA_2h3c-a1-m1-cB Structural basis for nucleic acid and toxin recognition of the bacterial antitoxin CcdA P62552 P62552 NOT SOLUTION NMR 210 1.0 562 (Escherichia coli) 562 (Escherichia coli) 72 72 MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW MKQRITVTVDSDSYQLLKAYDVNISGLVSTTMQNEARRLRAERWKVENQEGMVEVARFIEMNGSFADENKDW 2h3g-a1-m1-cX_2h3g-a1-m2-cX Structure of the Type III Pantothenate Kinase (CoaX) from Bacillus Anthracis Q81VX4 Q81VX4 2 X-RAY DIFFRACTION 143 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 247 247 MIFVLDVGNTNAVLGVFEEGELRQHWRMETDRHKTEDEYGMLVKQLLEHEGLSFEDVKGIIVSSVVPPIMFALERMCEKYFKIKPLVVGPGIKTGLNIKYENPREVGADRIVNAVAGIHLYGSPLIIVDFGTATTYCYINEEKHYMGGVITPGIMISAEALYSIEITKPSSVVGKNTVSAMQSGILYGYVGQVEGIVKRMKEEAKQEPKVIATGGLAKLISEESNVIDVVDPFLTLKGLYMLYERNA MIFVLDVGNTNAVLGVFEEGELRQHWRMETDRHKTEDEYGMLVKQLLEHEGLSFEDVKGIIVSSVVPPIMFALERMCEKYFKIKPLVVGPGIKTGLNIKYENPREVGADRIVNAVAGIHLYGSPLIIVDFGTATTYCYINEEKHYMGGVITPGIMISAEALYSIEITKPSSVVGKNTVSAMQSGILYGYVGQVEGIVKRMKEEAKQEPKVIATGGLAKLISEESNVIDVVDPFLTLKGLYMLYERNA 2h3n-a1-m1-cD_2h3n-a1-m1-cB Crystal structure of a surrogate light chain (LAMBDA5 and VpreB) homodimer P15814 P15814 2.3 X-RAY DIFFRACTION 60 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 112 116 VTHVFGSGTQLTVLSQPKATPSVTLFPPSSEELQANKATLVCLMNDFYPGILTVTWKADGTPITTTPSKQSNNKYAASSYLSLTPEQWRSRRSYSCQVMHEGSTVEKTVAPA VTHVFGSGTQLTVLSQPKATPSVTLFPPSSEELQANKATLVCLMNDFYPGILTVTWKADGTPITQGVEMTTPSKQSNNKYAASSYLSLTPEQWRSRRSYSCQVMHEGSTVEKTVAP 2h3r-a4-m1-cA_2h3r-a4-m3-cA Crystal structure of ORF52 from Murid herpesvirus 4 (MuHV-4) (Murine gammaherpesvirus 68). Northeast Structural Genomics Consortium target MhR28B. P88989 P88989 2.7 X-RAY DIFFRACTION 59 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 87 87 2h3r-a3-m1-cC_2h3r-a3-m2-cC 2oa5-a1-m1-cA_2oa5-a1-m2-cA DKTYEEVKEVERLKLENKTLKQKVSDDSILTAAKRESIIVSSSRALGAVARKIEAKVRSRAAKAVTEQELTSLLQSLTLRVDVSEEL DKTYEEVKEVERLKLENKTLKQKVSDDSILTAAKRESIIVSSSRALGAVARKIEAKVRSRAAKAVTEQELTSLLQSLTLRVDVSEEL 2h40-a2-m1-cA_2h40-a2-m2-cA Crystal structure of the catalytic domain of unliganded PDE5 O76074 O76074 1.85 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 311 311 EETRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYIQRSEHPLAQLYCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFFDQGDREKKNKIPSMQVGFIDAICLQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQQ EETRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYIQRSEHPLAQLYCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFFDQGDREKKNKIPSMQVGFIDAICLQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQQ 2h42-a4-m1-cC_2h42-a4-m2-cC Crystal structure of PDE5 in complex with sildenafil O76074 O76074 2.3 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 317 317 EETRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYIQRCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFFDQGDRERKELNIEPTDLMNREKKNKIPSMQVGFIDAICLQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQQ EETRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYIQRCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFFDQGDRERKELNIEPTDLMNREKKNKIPSMQVGFIDAICLQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQQ 2h4b-a1-m1-cC_2h4b-a1-m1-cD cis-4-aminomethylphenylazobenzoic acid-avian pancreatic polypeptide P68249 P68249 NOT SOLUTION NMR 17 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 24 24 PVEDLIRFYNDLQQYLNVVTRHRY PVEDLIRFYNDLQQYLNVVTRHRY 2h4c-a5-m1-cE_2h4c-a5-m2-cG Structure of Daboiatoxin (heterodimeric PLA2 venom) Q7T2R1 Q7T2R1 2.6 X-RAY DIFFRACTION 17 1.0 343250 (Daboia siamensis) 343250 (Daboia siamensis) 122 122 NFFQFAEMIVKMTGKEAVHSYAIYGCYCGWGGQGKPQDATDRCCFVHDCCYGTVNDCNPKMATYSYSFENGDIVCGDNNLCLKTVCECDRAAAICLGQNVNTYDKNYENYAISHCTEESEQC NFFQFAEMIVKMTGKEAVHSYAIYGCYCGWGGQGKPQDATDRCCFVHDCCYGTVNDCNPKMATYSYSFENGDIVCGDNNLCLKTVCECDRAAAICLGQNVNTYDKNYENYAISHCTEESEQC 2h4c-a5-m1-cF_2h4c-a5-m2-cH Structure of Daboiatoxin (heterodimeric PLA2 venom) Q7T3T5 Q7T3T5 2.6 X-RAY DIFFRACTION 24 1.0 343250 (Daboia siamensis) 343250 (Daboia siamensis) 122 122 NLFQFARLIDAKQEAFSFFKYISYGCYCGWGGQGTPKDATDRCCFVHDCCYARVKGCNPKLVEYSYSYRTGKIVCGGDDPCLRAVCECDRVAAICFRENMNTYDKKYMLYSIFDCKEESDQC NLFQFARLIDAKQEAFSFFKYISYGCYCGWGGQGTPKDATDRCCFVHDCCYARVKGCNPKLVEYSYSYRTGKIVCGGDDPCLRAVCECDRVAAICFRENMNTYDKKYMLYSIFDCKEESDQC 2h4c-a6-m1-cA_2h4c-a6-m3-cC Structure of Daboiatoxin (heterodimeric PLA2 venom) Q7T2R1 Q7T2R1 2.6 X-RAY DIFFRACTION 15 1.0 343250 (Daboia siamensis) 343250 (Daboia siamensis) 122 122 NFFQFAEMIVKMTGKEAVHSYAIYGCYCGWGGQGKPQDATDRCCFVHDCCYGTVNDCNPKMATYSYSFENGDIVCGDNNLCLKTVCECDRAAAICLGQNVNTYDKNYENYAISHCTEESEQC NFFQFAEMIVKMTGKEAVHSYAIYGCYCGWGGQGKPQDATDRCCFVHDCCYGTVNDCNPKMATYSYSFENGDIVCGDNNLCLKTVCECDRAAAICLGQNVNTYDKNYENYAISHCTEESEQC 2h4c-a6-m1-cB_2h4c-a6-m3-cD Structure of Daboiatoxin (heterodimeric PLA2 venom) Q7T3T5 Q7T3T5 2.6 X-RAY DIFFRACTION 10 1.0 343250 (Daboia siamensis) 343250 (Daboia siamensis) 122 122 NLFQFARLIDAKQEAFSFFKYISYGCYCGWGGQGTPKDATDRCCFVHDCCYARVKGCNPKLVEYSYSYRTGKIVCGGDDPCLRAVCECDRVAAICFRENMNTYDKKYMLYSIFDCKEESDQC NLFQFARLIDAKQEAFSFFKYISYGCYCGWGGQGTPKDATDRCCFVHDCCYARVKGCNPKLVEYSYSYRTGKIVCGGDDPCLRAVCECDRVAAICFRENMNTYDKKYMLYSIFDCKEESDQC 2h4m-a1-m1-cB_2h4m-a1-m1-cA Karyopherin Beta2/Transportin-M9NLS Q92973 Q92973 3.05 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 810 827 KPDEQGLQQILQLLKESQSPDTTIQRTVQQKPDFNNYLIFVLTSEDEPTRSLSGLILKNNFQNFPNGVTDFIKSECLNNIGDSSPLIRATVGILITTIASKGELQNWPDLLPKLCSLLDSEDYNTCEGAFGALQKICEDPLNIMIPKFLQFFKHSSPKIRSHAVACVNQFIISRTQALMLHIDSFIENLFALAGDEEPEVRKNVCRALVMLLEVRMDRLLPHMHNIVEYMLQRTQDQDENVALEACEFWLTLAEQPICKDVLVRHLPKLIPVLVNGMKYSDIDIILLKTISDWNLRKCSAAALDVLANVYRDELLPHILPLLKELLFHHEWVVKESGILVLGAIAEGCMQGMIPYLPELIPHLIQCLSDKKALVRSITCWTLSRYAHWVVSQPPDTYLKPLMTELLKRILDSNKRVQEAACSAFATLEEEACTELVPYLAYILDTLVFAFSKYQHKNLLILYDAIGTLADSVGHHLNKPEYIQMLMPPLIQKWNMLKDEDKDLFPLLECLSSVATALQSGFLPYCEPVYQRCVNLVQKTLAQAMLNNAQPDQYEAPDKDFMIVALDLLSGLAEGLGGNIEQLVARSNILTLMYQCMQDKMPEVRQSSFALLGDLTKACFQHVKPCIADFMPILGTNLNPEFISVCNNATWAIGEISIQMGIEMQPYIPMVLHQLVEIINRPNTPKTLLENTAITIGRLGYVCPQEVAPMLQQFIRPWCTSLRNIRDNEEKDSAFRGICTMISVNPSGVIQDFIFFCDAVASWINPKDDLRDMFCKILHGFKNQVGDENWRRFSDQFPLPLKERLAAFYGV KPDEQGLQQILQLLKESQSPDTTIQRTVQQKPDFNNYLIFVLTKLKSEDEPTRSLSGLILKNNVKFQNFPNGVTDFIKSECLNNIGDSSPLIRATVGILITTIASKGELQNWPDLLPKLCSLLDSEDYNTCEGAFGALQKICEDSAEILDSDVLDRPLNIMIPKFLQFFKHSSPKIRSHAVACVNQFIISRTQALMLHIDSFIENLFALAGDEEPEVRKNVCRALVMLLEVRMDRLLPHMHNIVEYMLQRTQDQDENVALEACEFWLTLAEQPICKDVLVRHLPKLIPVLVNGMKYSDIDIILLKTISDWNLRKCSAAALDVLANVYRDELLPHILPLLKELLFHHEWVVKESGILVLGAIAEGCMQGMIPYLPELIPHLIQCLSDKKALVRSITCWTLSRYAHWVVSQPPDTYLKPLMTELLKRILDSNKRVQEAACSAFATLEEEACTELVPYLAYILDTLVFAFSKYQHKNLLILYDAIGTLADSVGHHLNKPEYIQMLMPPLIQKWNMLKDEDKDLFPLLECLSSVATALQSGFLPYCEPVYQRCVNLVQKTLAQAMLNNAQPDQYEAPDKDFMIVALDLLSGLAEGLGGNIEQLVARSNILTLMYQCMQDKMPEVRQSSFALLGDLTKACFQHVKPCIADFMPILGTNLNPEFISVCNNATWAIGEISIQMGIEMQPYIPMVLHQLVEIINRPNTPKTLLENTAITIGRLGYVCPQEVAPMLQQFIRPWCTSLRNIRDNEEKDSAFRGICTMISVNPSGVIQDFIFFCDAVASWINPKDDLRDMFCKILHGFKNQVGDENWRRFSDQFPLPLKERLAAFYGV 2h4o-a1-m1-cB_2h4o-a1-m2-cD X-ray Crystal Structure of Protein yonK from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR415 O31947 O31947 2.8 X-RAY DIFFRACTION 45 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 60 60 2h4o-a1-m1-cA_2h4o-a1-m1-cC 2h4o-a1-m1-cD_2h4o-a1-m2-cB 2h4o-a1-m2-cA_2h4o-a1-m2-cC ASKKVHQINVKGFFDDVEVTEQTKEAEYTYDFKEILSEFNGKNVSITVKEENELPVKGVE ASKKVHQINVKGFFDDVEVTEQTKEAEYTYDFKEILSEFNGKNVSITVKEENELPVKGVE 2h4o-a1-m1-cD_2h4o-a1-m2-cD X-ray Crystal Structure of Protein yonK from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR415 O31947 O31947 2.8 X-RAY DIFFRACTION 158 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 60 60 2h4o-a1-m1-cA_2h4o-a1-m2-cA 2h4o-a1-m1-cB_2h4o-a1-m1-cC 2h4o-a1-m2-cB_2h4o-a1-m2-cC ASKKVHQINVKGFFDDVEVTEQTKEAEYTYDFKEILSEFNGKNVSITVKEENELPVKGVE ASKKVHQINVKGFFDDVEVTEQTKEAEYTYDFKEILSEFNGKNVSITVKEENELPVKGVE 2h4o-a1-m2-cB_2h4o-a1-m2-cD X-ray Crystal Structure of Protein yonK from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR415 O31947 O31947 2.8 X-RAY DIFFRACTION 25 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 60 60 2h4o-a1-m1-cA_2h4o-a1-m1-cB 2h4o-a1-m1-cA_2h4o-a1-m2-cC 2h4o-a1-m1-cB_2h4o-a1-m1-cD 2h4o-a1-m1-cC_2h4o-a1-m2-cA 2h4o-a1-m1-cC_2h4o-a1-m2-cD 2h4o-a1-m1-cD_2h4o-a1-m2-cC 2h4o-a1-m2-cA_2h4o-a1-m2-cB ASKKVHQINVKGFFDDVEVTEQTKEAEYTYDFKEILSEFNGKNVSITVKEENELPVKGVE ASKKVHQINVKGFFDDVEVTEQTKEAEYTYDFKEILSEFNGKNVSITVKEENELPVKGVE 2h4q-a2-m1-cA_2h4q-a2-m6-cA Crystal structure of a M-loop deletion variant of MENT in the cleaved conformation O73790 O73790 2.1 X-RAY DIFFRACTION 56 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 352 352 2h4q-a2-m2-cA_2h4q-a2-m5-cA 2h4q-a2-m3-cA_2h4q-a2-m4-cA KDRWGSELEISMEQVSASIGNFTVDLFNKLNETNRDKNIFFSPWSISSALALTYLAAKGSTAREMAEVLHFEQAENIHSGFKELLTAFNKPRNNYSLRSANRIYVEKTYALLPTYLQLSKKYYKAEPQKVNFKTAPEQSRKEINTWVEKQTESKIKNLLSSDDVKATTRLILVNAIYFKAEWEVKFQAEKTSIQPFRLSKNKSKPVKMMYMRDTFPVLIMEKMNFKMIELPYVKRELSMFILLPDDIKDGTTGLEQLERELTYERLSEWADSKMMTETLVDLHLPKFSLEDRIDLRDTLRNMGMTTAFTTNADFRGMTDKKDLAISKVIHQSFVAVDEKGTEAVAATAVIIS KDRWGSELEISMEQVSASIGNFTVDLFNKLNETNRDKNIFFSPWSISSALALTYLAAKGSTAREMAEVLHFEQAENIHSGFKELLTAFNKPRNNYSLRSANRIYVEKTYALLPTYLQLSKKYYKAEPQKVNFKTAPEQSRKEINTWVEKQTESKIKNLLSSDDVKATTRLILVNAIYFKAEWEVKFQAEKTSIQPFRLSKNKSKPVKMMYMRDTFPVLIMEKMNFKMIELPYVKRELSMFILLPDDIKDGTTGLEQLERELTYERLSEWADSKMMTETLVDLHLPKFSLEDRIDLRDTLRNMGMTTAFTTNADFRGMTDKKDLAISKVIHQSFVAVDEKGTEAVAATAVIIS 2h4q-a2-m2-cA_2h4q-a2-m6-cA Crystal structure of a M-loop deletion variant of MENT in the cleaved conformation O73790 O73790 2.1 X-RAY DIFFRACTION 29 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 352 352 2h4q-a2-m1-cA_2h4q-a2-m4-cA 2h4q-a2-m3-cA_2h4q-a2-m5-cA KDRWGSELEISMEQVSASIGNFTVDLFNKLNETNRDKNIFFSPWSISSALALTYLAAKGSTAREMAEVLHFEQAENIHSGFKELLTAFNKPRNNYSLRSANRIYVEKTYALLPTYLQLSKKYYKAEPQKVNFKTAPEQSRKEINTWVEKQTESKIKNLLSSDDVKATTRLILVNAIYFKAEWEVKFQAEKTSIQPFRLSKNKSKPVKMMYMRDTFPVLIMEKMNFKMIELPYVKRELSMFILLPDDIKDGTTGLEQLERELTYERLSEWADSKMMTETLVDLHLPKFSLEDRIDLRDTLRNMGMTTAFTTNADFRGMTDKKDLAISKVIHQSFVAVDEKGTEAVAATAVIIS KDRWGSELEISMEQVSASIGNFTVDLFNKLNETNRDKNIFFSPWSISSALALTYLAAKGSTAREMAEVLHFEQAENIHSGFKELLTAFNKPRNNYSLRSANRIYVEKTYALLPTYLQLSKKYYKAEPQKVNFKTAPEQSRKEINTWVEKQTESKIKNLLSSDDVKATTRLILVNAIYFKAEWEVKFQAEKTSIQPFRLSKNKSKPVKMMYMRDTFPVLIMEKMNFKMIELPYVKRELSMFILLPDDIKDGTTGLEQLERELTYERLSEWADSKMMTETLVDLHLPKFSLEDRIDLRDTLRNMGMTTAFTTNADFRGMTDKKDLAISKVIHQSFVAVDEKGTEAVAATAVIIS 2h4q-a2-m5-cA_2h4q-a2-m6-cA Crystal structure of a M-loop deletion variant of MENT in the cleaved conformation O73790 O73790 2.1 X-RAY DIFFRACTION 29 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 352 352 2h4q-a2-m1-cA_2h4q-a2-m2-cA 2h4q-a2-m1-cA_2h4q-a2-m3-cA 2h4q-a2-m2-cA_2h4q-a2-m3-cA 2h4q-a2-m4-cA_2h4q-a2-m5-cA 2h4q-a2-m4-cA_2h4q-a2-m6-cA KDRWGSELEISMEQVSASIGNFTVDLFNKLNETNRDKNIFFSPWSISSALALTYLAAKGSTAREMAEVLHFEQAENIHSGFKELLTAFNKPRNNYSLRSANRIYVEKTYALLPTYLQLSKKYYKAEPQKVNFKTAPEQSRKEINTWVEKQTESKIKNLLSSDDVKATTRLILVNAIYFKAEWEVKFQAEKTSIQPFRLSKNKSKPVKMMYMRDTFPVLIMEKMNFKMIELPYVKRELSMFILLPDDIKDGTTGLEQLERELTYERLSEWADSKMMTETLVDLHLPKFSLEDRIDLRDTLRNMGMTTAFTTNADFRGMTDKKDLAISKVIHQSFVAVDEKGTEAVAATAVIIS KDRWGSELEISMEQVSASIGNFTVDLFNKLNETNRDKNIFFSPWSISSALALTYLAAKGSTAREMAEVLHFEQAENIHSGFKELLTAFNKPRNNYSLRSANRIYVEKTYALLPTYLQLSKKYYKAEPQKVNFKTAPEQSRKEINTWVEKQTESKIKNLLSSDDVKATTRLILVNAIYFKAEWEVKFQAEKTSIQPFRLSKNKSKPVKMMYMRDTFPVLIMEKMNFKMIELPYVKRELSMFILLPDDIKDGTTGLEQLERELTYERLSEWADSKMMTETLVDLHLPKFSLEDRIDLRDTLRNMGMTTAFTTNADFRGMTDKKDLAISKVIHQSFVAVDEKGTEAVAATAVIIS 2h59-a1-m1-cA_2h59-a1-m1-cB Sir2 H116A-deacetylated p53 peptide-3'-o-acetyl ADP ribose Q9WYW0 Q9WYW0 1.9 X-RAY DIFFRACTION 34 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 246 246 MKMKEFLDLLNESRLTVTLTGAGISTPSGIPDFRGPNGIYKKYSQNVFDIDFFYSHPEEFYRFAKEGIFPMLQAKPNLAHVLLAKLEEKGLIEAVITQNIDRLHQRAGSKKVIELAGNVEEYYCVRCEKKYTVEDVIKKLESSDVPLCDDCNSLIRPNIVFFGENLPQDALREAIGLSSRASLMIVLGSSLVVYPAAELPLITVRSGGKLVIVNLGETPFDDIATLKYNMDVVEFARRVMEEGGIS MKMKEFLDLLNESRLTVTLTGAGISTPSGIPDFRGPNGIYKKYSQNVFDIDFFYSHPEEFYRFAKEGIFPMLQAKPNLAHVLLAKLEEKGLIEAVITQNIDRLHQRAGSKKVIELAGNVEEYYCVRCEKKYTVEDVIKKLESSDVPLCDDCNSLIRPNIVFFGENLPQDALREAIGLSSRASLMIVLGSSLVVYPAAELPLITVRSGGKLVIVNLGETPFDDIATLKYNMDVVEFARRVMEEGGIS 2h5g-a3-m1-cB_2h5g-a3-m3-cB Crystal structure of human pyrroline-5-carboxylate synthetase P54886 P54886 2.25 X-RAY DIFFRACTION 221 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 419 419 2h5g-a1-m1-cA_2h5g-a1-m2-cA TVEQQGEARSGGRLATLEPEQRAEIIHHLADLLTDQRDEILLANKKDLEEAEGRLAAPLLKRLSLSTSKLNSLAIGLRQIAASSQDSVGRVLRRTRIAKNLELEQVTVPIGVLLVIFESRPDCLPQVAALAIASGNGLLLKGGKEAAHSNRILHLLTQEALSIHGVKEAVQLVNTREEVELDKIDLIIPRGSSQLVRDIQKAAKGIPVGHSEGICHYVDSEASVDKVTRLVRDSKCEYPAACNALETLLIHRDLLRTPLFDQIIDLRVEQVKIHAGPKFASYLTFVKSLRTEYGDLELCIEVVDNVQDAIDHIHKYGSSHTDVIVTEDENTAEFFLQHVDSACVFWNASTRFSDGYRFGLGAEVGISTSRIHARGPVGLEGLLTTKWLLRGKDHVVSDFSEHGSLKYLHENLPIPQRNT TVEQQGEARSGGRLATLEPEQRAEIIHHLADLLTDQRDEILLANKKDLEEAEGRLAAPLLKRLSLSTSKLNSLAIGLRQIAASSQDSVGRVLRRTRIAKNLELEQVTVPIGVLLVIFESRPDCLPQVAALAIASGNGLLLKGGKEAAHSNRILHLLTQEALSIHGVKEAVQLVNTREEVELDKIDLIIPRGSSQLVRDIQKAAKGIPVGHSEGICHYVDSEASVDKVTRLVRDSKCEYPAACNALETLLIHRDLLRTPLFDQIIDLRVEQVKIHAGPKFASYLTFVKSLRTEYGDLELCIEVVDNVQDAIDHIHKYGSSHTDVIVTEDENTAEFFLQHVDSACVFWNASTRFSDGYRFGLGAEVGISTSRIHARGPVGLEGLLTTKWLLRGKDHVVSDFSEHGSLKYLHENLPIPQRNT 2h5l-a1-m1-cB_2h5l-a1-m1-cD S-Adenosylhomocysteine hydrolase containing NAD and 3-deaza-D-eritadenine P10760 P10760 2.8 X-RAY DIFFRACTION 96 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 430 430 1a7a-a1-m1-cA_1a7a-a1-m2-cA 1a7a-a1-m1-cB_1a7a-a1-m2-cB 1b3r-a1-m1-cA_1b3r-a1-m1-cC 1b3r-a1-m1-cB_1b3r-a1-m1-cD 1d4f-a1-m1-cA_1d4f-a1-m1-cC 1d4f-a1-m1-cB_1d4f-a1-m1-cD 1k0u-a1-m1-cA_1k0u-a1-m1-cC 1k0u-a1-m1-cB_1k0u-a1-m1-cD 1k0u-a2-m1-cE_1k0u-a2-m1-cG 1k0u-a2-m1-cF_1k0u-a2-m1-cH 1ky4-a1-m1-cA_1ky4-a1-m1-cC 1ky4-a1-m1-cB_1ky4-a1-m1-cD 1ky5-a1-m1-cA_1ky5-a1-m1-cC 1ky5-a1-m1-cB_1ky5-a1-m1-cD 1li4-a1-m1-cA_1li4-a1-m3-cA 1li4-a1-m2-cA_1li4-a1-m4-cA 1xwf-a1-m1-cA_1xwf-a1-m1-cC 1xwf-a1-m1-cB_1xwf-a1-m1-cD 2h5l-a1-m1-cA_2h5l-a1-m1-cC 2h5l-a2-m1-cE_2h5l-a2-m1-cG 2h5l-a2-m1-cF_2h5l-a2-m1-cH 3nj4-a1-m1-cA_3nj4-a1-m1-cC 3nj4-a1-m1-cB_3nj4-a1-m1-cD 4pfj-a1-m1-cB_4pfj-a1-m1-cA 4pfj-a1-m2-cB_4pfj-a1-m2-cA 4pgf-a1-m1-cB_4pgf-a1-m1-cA 4pgf-a1-m2-cB_4pgf-a1-m2-cA 4yvf-a1-m1-cA_4yvf-a1-m2-cB 4yvf-a1-m1-cB_4yvf-a1-m2-cA 5axa-a1-m1-cA_5axa-a1-m1-cC 5axa-a1-m2-cA_5axa-a1-m2-cC 5axb-a1-m1-cA_5axb-a1-m1-cC 5axb-a1-m2-cA_5axb-a1-m2-cC 5axc-a1-m1-cA_5axc-a1-m1-cC 5axc-a1-m2-cA_5axc-a1-m2-cC 5axd-a1-m1-cA_5axd-a1-m1-cC 5axd-a1-m2-cA_5axd-a1-m2-cC 5w49-a1-m1-cA_5w49-a1-m2-cB 5w49-a1-m1-cB_5w49-a1-m2-cA 5w4b-a1-m1-cA_5w4b-a1-m1-cF 5w4b-a1-m1-cE_5w4b-a1-m1-cB 5w4b-a2-m1-cC_5w4b-a2-m1-cD 5w4b-a2-m2-cC_5w4b-a2-m2-cD DKLPYKVADIGLAAWGRKALDIAENEMPGLMRMREMYSASKPLKGARIAGCLHMTVETAVLIETLVALGAEVRWSSCNIFSTQDHAAAAIAKAGIPVFAWKGETDEEYLWCIEQTLHFKDGPLNMILDDGGDLTNLIHTKHPQLLSGIRGISEETTTGVHNLYKMMANGILKVPAINVNDSVTKSKFDNLYGCRESLIDGIKRATDVMIAGKVAVVAGYGDVGKGCAQALRGFGARVIITEIDPINALQAAMEGYEVTTMDEACKEGNIFVTTTGCVDIILGRHFEQMKDDAIVCNIGHFDVEIDVKWLNENAVEKVNIKPQVDRYLLKNGHRIILLAEGRLVNLGCAMGHPSFVMSNSFTNQVMAQIELWTHPDKYPVGVHFLPKKLDEAVAEAHLGKLNVKLTKLTEKQAQYLGMPINGPFKPDHYRY DKLPYKVADIGLAAWGRKALDIAENEMPGLMRMREMYSASKPLKGARIAGCLHMTVETAVLIETLVALGAEVRWSSCNIFSTQDHAAAAIAKAGIPVFAWKGETDEEYLWCIEQTLHFKDGPLNMILDDGGDLTNLIHTKHPQLLSGIRGISEETTTGVHNLYKMMANGILKVPAINVNDSVTKSKFDNLYGCRESLIDGIKRATDVMIAGKVAVVAGYGDVGKGCAQALRGFGARVIITEIDPINALQAAMEGYEVTTMDEACKEGNIFVTTTGCVDIILGRHFEQMKDDAIVCNIGHFDVEIDVKWLNENAVEKVNIKPQVDRYLLKNGHRIILLAEGRLVNLGCAMGHPSFVMSNSFTNQVMAQIELWTHPDKYPVGVHFLPKKLDEAVAEAHLGKLNVKLTKLTEKQAQYLGMPINGPFKPDHYRY 2h5n-a1-m1-cD_2h5n-a1-m1-cC Crystal Structure of Protein of Unknown Function PG1108 from Porphyromonas gingivalis W83 Q7MVF6 Q7MVF6 2.01 X-RAY DIFFRACTION 81 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 123 124 2h5n-a1-m1-cB_2h5n-a1-m1-cA MTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKNL IMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKNL 2h5n-a2-m1-cA_2h5n-a2-m6-cA Crystal Structure of Protein of Unknown Function PG1108 from Porphyromonas gingivalis W83 Q7MVF6 Q7MVF6 2.01 X-RAY DIFFRACTION 73 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 132 132 MGLGRQSLNIMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKN MGLGRQSLNIMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKN 2h5n-a2-m4-cB_2h5n-a2-m5-cB Crystal Structure of Protein of Unknown Function PG1108 from Porphyromonas gingivalis W83 Q7MVF6 Q7MVF6 2.01 X-RAY DIFFRACTION 16 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 122 122 IMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMK IMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMK 2h5n-a2-m4-cB_2h5n-a2-m6-cA Crystal Structure of Protein of Unknown Function PG1108 from Porphyromonas gingivalis W83 Q7MVF6 Q7MVF6 2.01 X-RAY DIFFRACTION 25 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 122 132 2h5n-a2-m5-cB_2h5n-a2-m1-cA IMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMK MGLGRQSLNIMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKN 2h5n-a2-m5-cB_2h5n-a2-m6-cA Crystal Structure of Protein of Unknown Function PG1108 from Porphyromonas gingivalis W83 Q7MVF6 Q7MVF6 2.01 X-RAY DIFFRACTION 19 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 122 132 2h5n-a2-m4-cB_2h5n-a2-m1-cA IMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMK MGLGRQSLNIMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKN 2h5n-a2-m6-cC_2h5n-a2-m6-cA Crystal Structure of Protein of Unknown Function PG1108 from Porphyromonas gingivalis W83 Q7MVF6 Q7MVF6 2.01 X-RAY DIFFRACTION 33 0.992 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 124 132 2h5n-a1-m1-cC_2h5n-a1-m1-cA 2h5n-a2-m1-cC_2h5n-a2-m1-cA 2h5n-a2-m4-cB_2h5n-a2-m2-cD 2h5n-a2-m5-cB_2h5n-a2-m3-cD IMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKNL MGLGRQSLNIMTFSGQELTAIIKMAKSMVMADGKIKPAEIAVMTREFMRFGILQDQVDLLLKASDSIEASQAVALIARMDEERKKYVASYLGVIMASDGDIDDNELALWTLISTLCGLPTMTVMEAINNMKN 2h5y-a4-m1-cA_2h5y-a4-m2-cB Crystallographic structure of the Molybdate-Binding Protein of Xanthomonas citri at 1.7 Ang resolution bound to molybdate Q8PHA1 Q8PHA1 1.7 X-RAY DIFFRACTION 49 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 232 233 2h5y-a4-m2-cA_2h5y-a4-m1-cB TAPVTVFAAASLKESMDEAATAYEKATGTPVRVSYAASSALARQIEQGAPADVFLSADLEWMDYLQQHGLVLPAQRHNLLGNTLVLVAPASSKLRVDPRAPGAIAKALGENGRLAVGQTASVPAGKYAAAALRKLGQWDSVSNRLAESESVRAALMLVSRGEAPLGIVYGSDARADAKVRVVATFPDDSHDAIVYPVAALKNSNNPATAAFVSWLGSKPAKAIFARRGFSLK QTAPVTVFAAASLKESMDEAATAYEKATGTPVRVSYAASSALARQIEQGAPADVFLSADLEWMDYLQQHGLVLPAQRHNLLGNTLVLVAPASSKLRVDPRAPGAIAKALGENGRLAVGQTASVPAGKYAAAALRKLGQWDSVSNRLAESESVRAALMLVSRGEAPLGIVYGSDARADAKVRVVATFPDDSHDAIVYPVAALKNSNNPATAAFVSWLGSKPAKAIFARRGFSLK 2h5y-a4-m2-cA_2h5y-a4-m2-cB Crystallographic structure of the Molybdate-Binding Protein of Xanthomonas citri at 1.7 Ang resolution bound to molybdate Q8PHA1 Q8PHA1 1.7 X-RAY DIFFRACTION 31 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 232 233 2h5y-a4-m1-cA_2h5y-a4-m1-cB 2h5y-a5-m1-cC_2h5y-a5-m3-cC TAPVTVFAAASLKESMDEAATAYEKATGTPVRVSYAASSALARQIEQGAPADVFLSADLEWMDYLQQHGLVLPAQRHNLLGNTLVLVAPASSKLRVDPRAPGAIAKALGENGRLAVGQTASVPAGKYAAAALRKLGQWDSVSNRLAESESVRAALMLVSRGEAPLGIVYGSDARADAKVRVVATFPDDSHDAIVYPVAALKNSNNPATAAFVSWLGSKPAKAIFARRGFSLK QTAPVTVFAAASLKESMDEAATAYEKATGTPVRVSYAASSALARQIEQGAPADVFLSADLEWMDYLQQHGLVLPAQRHNLLGNTLVLVAPASSKLRVDPRAPGAIAKALGENGRLAVGQTASVPAGKYAAAALRKLGQWDSVSNRLAESESVRAALMLVSRGEAPLGIVYGSDARADAKVRVVATFPDDSHDAIVYPVAALKNSNNPATAAFVSWLGSKPAKAIFARRGFSLK 2h63-a2-m1-cB_2h63-a2-m1-cD Crystal Structure of Human Biliverdin Reductase A P53004 P53004 2.7 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 285 2h63-a1-m1-cC_2h63-a1-m1-cA RKFGVVVVGVGRAGSVRMRDLRNPHPSSAFLNLIGFVSRRELGSIDGVQQISLEDALSSQEVEVAYICSESSSHEDYIRQFLNAGKHVLVEYPMTLSLAAAQELWELAEQKGKVLHEEHVELLMEEFAFLKKEVVGKDLLKGSLLFTAGPLEEERFGFPAFSGISRLTWLVSLFGELSLVSATLEEMKMTVCLETEKKSPLSWIEEKGPGLKRNRYLSFHFKSGSLENVPNVGVNKNIFLKDQNIFVQKLLGQFSEKELAAEKKRILHCLGLAEEIQKY MRKFGVVVVGVGRAGSVRMRDLRNPHPSSAFLNLIGFVSRRELGSIDGVQQISLEDALSSQEVEVAYICSESSSHEDYIRQFLNAGKHVLVEYPMTLSLAAAQELWELAEQKGKVLHEEHVELLMEEFAFLKKEVVGKDLLKGSLLFTAGPLEEERFGFPAFSGISRLTWLVSLFGELSLVSATLEERYMKMTVCLETEKKSPLSWIEEKGPGLKRNRYLSFHFKSGSLENVPNVGVNKNIFLKDQNIFVQKLLGQFSEKELAAEKKRILHCLGLAEEIQKYCCS 2h66-a1-m1-cA_2h66-a1-m1-cD The Crystal Structure of Plasmodium Vivax 2-Cys peroxiredoxin A5K421 A5K421 2.5 X-RAY DIFFRACTION 57 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 167 169 2h66-a1-m1-cE_2h66-a1-m1-cB 2h66-a1-m1-cF_2h66-a1-m1-cI 2h66-a1-m1-cH_2h66-a1-m1-cC 2h66-a1-m1-cJ_2h66-a1-m1-cG 2i81-a1-m1-cA_2i81-a1-m1-cB 2i81-a1-m1-cD_2i81-a1-m1-cC 2i81-a1-m1-cE_2i81-a1-m2-cE 2i81-a1-m2-cA_2i81-a1-m2-cB 2i81-a1-m2-cD_2i81-a1-m2-cC 4l0u-a1-m1-cA_4l0u-a1-m1-cD 4l0u-a1-m1-cE_4l0u-a1-m1-cB 4l0u-a1-m1-cF_4l0u-a1-m1-cI 4l0u-a1-m1-cG_4l0u-a1-m1-cJ 4l0u-a1-m1-cH_4l0u-a1-m1-cC PTYVGKEAPFFKAEAVFGDNSFGEVNLTQFIGKKYVLLYFYPLDFTFVCPSEIIALDKALDAFHERNVELLGCSVDSKYTHLAWKKTPLAKGGIGNIKHTLLSDITKSISKDYNVLFDDSVSLRAFVLIDMNGIVQHLLVNNLAIGRSVDEILRIIDAIQHHEKYGD PTYVGKEAPFFKAEAVFGDNSFGEVNLTQFIGKKYVLLYFYPLDFTFVCPSEIIALDKALDAFHERNVELLGCSVDSKYTHLAWKKTPLAKGGIGNIKHTLLSDITKSISKDYNVLFDDSVSLRAFVLIDMNGIVQHLLVNNLAIGRSVDEILRIIDAIQHHEKYGDVC 2h6b-a1-m2-cB_2h6b-a1-m4-cB Crystal structure of oxidized CprK in complex with o-chlorophenolacetic acid Q8RPJ2 Q8RPJ2 2.2 X-RAY DIFFRACTION 24 1.0 49338 (Desulfitobacterium hafniense) 49338 (Desulfitobacterium hafniense) 235 235 2h6b-a1-m1-cB_2h6b-a1-m3-cB DFCGAIIPDNFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAEMNTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLACLKRENILDKKKNKIIVYNLGELKHLSEQTSYYSDPNSSSVDKL DFCGAIIPDNFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAEMNTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLACLKRENILDKKKNKIIVYNLGELKHLSEQTSYYSDPNSSSVDKL 2h6b-a2-m1-cA_2h6b-a2-m2-cA Crystal structure of oxidized CprK in complex with o-chlorophenolacetic acid Q8RPJ2 Q8RPJ2 2.2 X-RAY DIFFRACTION 11 1.0 49338 (Desulfitobacterium hafniense) 49338 (Desulfitobacterium hafniense) 239 239 2h6b-a1-m1-cA_2h6b-a1-m2-cA 2h6b-a1-m3-cA_2h6b-a1-m4-cA VEGLGKDFCGAIIPDNFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAEMNTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLACLKRENILDKKKNKIIVYNLGELKHLSEQTSVDKLAAALDHH VEGLGKDFCGAIIPDNFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAEMNTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLACLKRENILDKKKNKIIVYNLGELKHLSEQTSVDKLAAALDHH 2h6c-a1-m1-cA_2h6c-a1-m1-cB Crystal structure of reduced CprK in absence of any ligand Q9LAS2 Q9LAS2 2.9 X-RAY DIFFRACTION 146 1.0 36854 (Desulfitobacterium dehalogenans) 36854 (Desulfitobacterium dehalogenans) 208 208 FFPIEKLRNYTDMGIIREFAKGSAIIMPGEDTTSMIFLMDGKIKLDIIFEDGSEKLLYYAGSNSLIGRLYPTGNNIYATAMEQTRTCWFSEECLRVIFRTDEDMIFEIFKNYLTKVAYYARQVAEINTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGAHHVTVSKVLACLKKENILDKKKNKFIVYNLEELKHLS FFPIEKLRNYTDMGIIREFAKGSAIIMPGEDTTSMIFLMDGKIKLDIIFEDGSEKLLYYAGSNSLIGRLYPTGNNIYATAMEQTRTCWFSEECLRVIFRTDEDMIFEIFKNYLTKVAYYARQVAEINTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGAHHVTVSKVLACLKKENILDKKKNKFIVYNLEELKHLS 2h6e-a1-m2-cA_2h6e-a1-m4-cA Crystal structure of the D-arabinose dehydrogenase from Sulfolobus solfataricus Q97YM2 Q97YM2 1.8 X-RAY DIFFRACTION 29 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 323 323 2h6e-a1-m1-cA_2h6e-a1-m3-cA MVKSKAALLKKFSEDVNIPEPQGEEVLIRIGGAGVCRTDLRVWKGVEAKQGFRLPIILGHENAGTIVEVGELAKVKKGDNVVVYATWGDLTCRYCREGKFNICKNQIIPGQTTNGGFSEYMLVKSSRWLVKLNSLSPVEAAPLADAGTTSMGAIRQALPFISKFAEPVVIVNGIGGLAVYTIQILKALMKNITIVGISRSKKHRDFALELGADYVSEMKDAESLINKLTDGLGASIAIDLVGTEETTYNLGKLLAQEGAIILVGMEGKRVSLEAFDTAVWNKKLLGSNYGSLNDLEDVVRLSESGKIKPYIIKVPLGRQVITP MVKSKAALLKKFSEDVNIPEPQGEEVLIRIGGAGVCRTDLRVWKGVEAKQGFRLPIILGHENAGTIVEVGELAKVKKGDNVVVYATWGDLTCRYCREGKFNICKNQIIPGQTTNGGFSEYMLVKSSRWLVKLNSLSPVEAAPLADAGTTSMGAIRQALPFISKFAEPVVIVNGIGGLAVYTIQILKALMKNITIVGISRSKKHRDFALELGADYVSEMKDAESLINKLTDGLGASIAIDLVGTEETTYNLGKLLAQEGAIILVGMEGKRVSLEAFDTAVWNKKLLGSNYGSLNDLEDVVRLSESGKIKPYIIKVPLGRQVITP 2h6e-a1-m3-cA_2h6e-a1-m4-cA Crystal structure of the D-arabinose dehydrogenase from Sulfolobus solfataricus Q97YM2 Q97YM2 1.8 X-RAY DIFFRACTION 47 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 323 323 2h6e-a1-m1-cA_2h6e-a1-m2-cA MVKSKAALLKKFSEDVNIPEPQGEEVLIRIGGAGVCRTDLRVWKGVEAKQGFRLPIILGHENAGTIVEVGELAKVKKGDNVVVYATWGDLTCRYCREGKFNICKNQIIPGQTTNGGFSEYMLVKSSRWLVKLNSLSPVEAAPLADAGTTSMGAIRQALPFISKFAEPVVIVNGIGGLAVYTIQILKALMKNITIVGISRSKKHRDFALELGADYVSEMKDAESLINKLTDGLGASIAIDLVGTEETTYNLGKLLAQEGAIILVGMEGKRVSLEAFDTAVWNKKLLGSNYGSLNDLEDVVRLSESGKIKPYIIKVPLGRQVITP MVKSKAALLKKFSEDVNIPEPQGEEVLIRIGGAGVCRTDLRVWKGVEAKQGFRLPIILGHENAGTIVEVGELAKVKKGDNVVVYATWGDLTCRYCREGKFNICKNQIIPGQTTNGGFSEYMLVKSSRWLVKLNSLSPVEAAPLADAGTTSMGAIRQALPFISKFAEPVVIVNGIGGLAVYTIQILKALMKNITIVGISRSKKHRDFALELGADYVSEMKDAESLINKLTDGLGASIAIDLVGTEETTYNLGKLLAQEGAIILVGMEGKRVSLEAFDTAVWNKKLLGSNYGSLNDLEDVVRLSESGKIKPYIIKVPLGRQVITP 2h6e-a2-m1-cA_2h6e-a2-m4-cA Crystal structure of the D-arabinose dehydrogenase from Sulfolobus solfataricus Q97YM2 Q97YM2 1.8 X-RAY DIFFRACTION 123 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 323 323 2h6e-a1-m1-cA_2h6e-a1-m4-cA 2h6e-a1-m2-cA_2h6e-a1-m3-cA MVKSKAALLKKFSEDVNIPEPQGEEVLIRIGGAGVCRTDLRVWKGVEAKQGFRLPIILGHENAGTIVEVGELAKVKKGDNVVVYATWGDLTCRYCREGKFNICKNQIIPGQTTNGGFSEYMLVKSSRWLVKLNSLSPVEAAPLADAGTTSMGAIRQALPFISKFAEPVVIVNGIGGLAVYTIQILKALMKNITIVGISRSKKHRDFALELGADYVSEMKDAESLINKLTDGLGASIAIDLVGTEETTYNLGKLLAQEGAIILVGMEGKRVSLEAFDTAVWNKKLLGSNYGSLNDLEDVVRLSESGKIKPYIIKVPLGRQVITP MVKSKAALLKKFSEDVNIPEPQGEEVLIRIGGAGVCRTDLRVWKGVEAKQGFRLPIILGHENAGTIVEVGELAKVKKGDNVVVYATWGDLTCRYCREGKFNICKNQIIPGQTTNGGFSEYMLVKSSRWLVKLNSLSPVEAAPLADAGTTSMGAIRQALPFISKFAEPVVIVNGIGGLAVYTIQILKALMKNITIVGISRSKKHRDFALELGADYVSEMKDAESLINKLTDGLGASIAIDLVGTEETTYNLGKLLAQEGAIILVGMEGKRVSLEAFDTAVWNKKLLGSNYGSLNDLEDVVRLSESGKIKPYIIKVPLGRQVITP 2h6j-a1-m1-cN_2h6j-a1-m2-cN Crystal Structure of the Beta F145A Rhodococcus Proteasome Q53079 Q53079 3.2 X-RAY DIFFRACTION 42 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 242 242 1q5q-a2-m1-cH_1q5q-a2-m2-cI 1q5q-a2-m1-cI_1q5q-a2-m2-cH 1q5q-a2-m1-cJ_1q5q-a2-m2-cN 1q5q-a2-m1-cK_1q5q-a2-m2-cM 1q5q-a2-m1-cL_1q5q-a2-m2-cL 1q5q-a2-m1-cM_1q5q-a2-m2-cK 1q5q-a2-m1-cN_1q5q-a2-m2-cJ 1q5r-a2-m1-cH_1q5r-a2-m2-cM 1q5r-a2-m1-cI_1q5r-a2-m2-cL 1q5r-a2-m1-cJ_1q5r-a2-m2-cK 1q5r-a2-m1-cK_1q5r-a2-m2-cJ 1q5r-a2-m1-cL_1q5r-a2-m2-cI 1q5r-a2-m1-cM_1q5r-a2-m2-cH 1q5r-a2-m1-cN_1q5r-a2-m2-cN 2h6j-a1-m1-cH_2h6j-a1-m2-cM 2h6j-a1-m1-cI_2h6j-a1-m2-cL 2h6j-a1-m1-cJ_2h6j-a1-m2-cK 2h6j-a1-m1-cK_2h6j-a1-m2-cJ 2h6j-a1-m1-cL_2h6j-a1-m2-cI 2h6j-a1-m1-cM_2h6j-a1-m2-cH NLSSFTDYLRGHAPELLDLAPHGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEKVYVTDEYSAAGIAGTAGIAIELVRLFAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIVSYDVVGGRYEERAGYHAVGSGSLAAKSALKKIYSPDSDEETALRAAIESLYDAADDDSATGGPDLTRGIYPTAVTITQAGAVHVSEETTSELARRIVA NLSSFTDYLRGHAPELLDLAPHGTTIVALTYKGGVLLAGDRRATQGNLIASRDVEKVYVTDEYSAAGIAGTAGIAIELVRLFAVELEHYEKIEGVPLTFDGKANRLASMVRGNLGAAMQGLAVVPLLVGYDLDADDESRAGRIVSYDVVGGRYEERAGYHAVGSGSLAAKSALKKIYSPDSDEETALRAAIESLYDAADDDSATGGPDLTRGIYPTAVTITQAGAVHVSEETTSELARRIVA 2h6l-a1-m1-cB_2h6l-a1-m1-cC X-Ray Crystal Structure of the Metal-containing Protein AF0104 from Archaeoglobus fulgidus. Northeast Structural Genomics Consortium Target GR103. O30132 O30132 2 X-RAY DIFFRACTION 114 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 137 137 2h6l-a1-m1-cA_2h6l-a1-m1-cB 2h6l-a1-m1-cA_2h6l-a1-m1-cC KVFEFEVGKGFLLRLDYGKDLVRQIEEFLEEKGIHAAHISAIGAVRSAVIGYYDQEKKEYVKKELEPLEILSLSGNVSKDSKPFCHIHVLLGKDGEVYGGHLFSAEVFACEVFVLPLSGEAPERAFDEQTGLFLWLE KVFEFEVGKGFLLRLDYGKDLVRQIEEFLEEKGIHAAHISAIGAVRSAVIGYYDQEKKEYVKKELEPLEILSLSGNVSKDSKPFCHIHVLLGKDGEVYGGHLFSAEVFACEVFVLPLSGEAPERAFDEQTGLFLWLE 2h6r-a2-m1-cF_2h6r-a2-m1-cH Crystal Structure of triosephosphate isomerase (TIM) from Methanocaldococcus jannaschii Q58923 Q58923 2.3 X-RAY DIFFRACTION 72 0.99 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 201 201 2h6r-a1-m1-cA_2h6r-a1-m1-cC 2h6r-a1-m1-cD_2h6r-a1-m1-cB 2h6r-a2-m1-cG_2h6r-a2-m1-cE MVIVINYKTYNESIGNRGLEIAKIAEKVSEESGITIGVAPQFVDLRMIVENVNIPVYAQHIDNINPGSHTGHILAEAIKDCGCKGTLINHSEKRMLLADIEAVINKCKNLGLETIVCTNNINTSKAVAALSPDCIAVEPPVEGTVRAVKEINKDVKVLCGAGISKGEDVKAALDLGAEGVLLASGVVKAKNVEEAIRELIK MVIVINYKTYNESIGNRGLEIAKIAEKVSEESGITIGVAPQFVDLRMIVENVNIPVYAQHIDNINPGSHTGHILAEAIKDCGCKGTLINHSEKRMLLADIEAVINKCKNLGLETIVCTNNINTSKAVAALSPDCIAVEVVEGTVRAVKEINKDVKVLCGAGISKGEDVKAALDLGAEGVLLASGVVKAKNVEEAIRELIKF 2h6r-a2-m1-cG_2h6r-a2-m1-cH Crystal Structure of triosephosphate isomerase (TIM) from Methanocaldococcus jannaschii Q58923 Q58923 2.3 X-RAY DIFFRACTION 138 0.99 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 200 201 2h6r-a1-m1-cA_2h6r-a1-m1-cB 2h6r-a1-m1-cD_2h6r-a1-m1-cC 2h6r-a2-m1-cF_2h6r-a2-m1-cE MVIVINYKTYNESIGNRGLEIAKIAEKVSEESGITIGVAPQFVDLRMIVENVNIPVYAQHIDNINPGSHTGHILAEAIKDCGCKGTLINHSEKRMLLADIEAVINKCKNLGLETIVCTNNINTSKAVAALSPDCIAVEPPEGTVRAVKEINKDVKVLCGAGISKGEDVKAALDLGAEGVLLASGVVKAKNVEEAIRELIK MVIVINYKTYNESIGNRGLEIAKIAEKVSEESGITIGVAPQFVDLRMIVENVNIPVYAQHIDNINPGSHTGHILAEAIKDCGCKGTLINHSEKRMLLADIEAVINKCKNLGLETIVCTNNINTSKAVAALSPDCIAVEVVEGTVRAVKEINKDVKVLCGAGISKGEDVKAALDLGAEGVLLASGVVKAKNVEEAIRELIKF 2h6t-a2-m1-cA_2h6t-a2-m2-cA Secreted aspartic proteinase (Sap) 3 from Candida albicans complexed with pepstatin A P0CY29 P0CY29 1.9 X-RAY DIFFRACTION 40 1.0 5476 (Candida albicans) 5476 (Candida albicans) 340 340 2h6s-a2-m1-cA_2h6s-a2-m2-cA QTVPVKLINEQVSYASDITVGSNKQKLTVVIDTGSSDLWVPDSQVSCQAGQGQDPNFCKNEGTYSPSSSSSSQNLNSPFSIEYGDGTTSQGTWYKDTIGFGGISITKQQFADVTSTSVDQGILGIGYKTHEAEGNYDNVPVTLKNQGIISKNAYSLYLNSRQATSGQIIFGGVDNAKYSGTLIALPVTSDNELRIHLNTVKVAGQSINADVDVLLDSGTTITYLQQGVADQVISAFNGQETYDANGNLFYLVDCNLSGSVDFAFDKNAKISVPASEFTAPLYTEDGQVYDQCQLLFGTSDYNILGDNFLRSAYIVYDLDDNEISLAQVKYTTASNIAALT QTVPVKLINEQVSYASDITVGSNKQKLTVVIDTGSSDLWVPDSQVSCQAGQGQDPNFCKNEGTYSPSSSSSSQNLNSPFSIEYGDGTTSQGTWYKDTIGFGGISITKQQFADVTSTSVDQGILGIGYKTHEAEGNYDNVPVTLKNQGIISKNAYSLYLNSRQATSGQIIFGGVDNAKYSGTLIALPVTSDNELRIHLNTVKVAGQSINADVDVLLDSGTTITYLQQGVADQVISAFNGQETYDANGNLFYLVDCNLSGSVDFAFDKNAKISVPASEFTAPLYTEDGQVYDQCQLLFGTSDYNILGDNFLRSAYIVYDLDDNEISLAQVKYTTASNIAALT 2h6u-a1-m1-cA_2h6u-a1-m1-cC Crystal structure of 5-hydroxyisourate hydrolase (formerly known as TRP, transthyretin related protein) Q06S87 Q06S87 1.7 X-RAY DIFFRACTION 31 1.0 7955 (Danio rerio) 7955 (Danio rerio) 114 114 2h1x-a1-m1-cA_2h1x-a1-m1-cD 2h1x-a1-m1-cB_2h1x-a1-m1-cC 2h6u-a1-m1-cB_2h6u-a1-m1-cD 2h6u-a2-m1-cE_2h6u-a2-m1-cG 2h6u-a2-m1-cF_2h6u-a2-m1-cH 3iwu-a1-m1-cA_3iwu-a1-m1-cC 3iwu-a1-m1-cB_3iwu-a1-m1-cD 3iwu-a2-m1-cE_3iwu-a2-m1-cG 3iwu-a2-m1-cF_3iwu-a2-m1-cH 3iwv-a1-m1-cA_3iwv-a1-m1-cD 3iwv-a1-m1-cB_3iwv-a1-m1-cC 3q1e-a1-m1-cA_3q1e-a1-m1-cD 3q1e-a1-m1-cB_3q1e-a1-m1-cC LSPLSTHVLNIAQGVPGANMTIVLHRLDPVSSAWNILTTGITNDDGRCPGLITKENFIAGVYKMRFETGKYWDALGETCFYPYVEIVFTITNTSQHYHVPLLLSRFSYSTYRGS LSPLSTHVLNIAQGVPGANMTIVLHRLDPVSSAWNILTTGITNDDGRCPGLITKENFIAGVYKMRFETGKYWDALGETCFYPYVEIVFTITNTSQHYHVPLLLSRFSYSTYRGS 2h6u-a1-m1-cA_2h6u-a1-m1-cD Crystal structure of 5-hydroxyisourate hydrolase (formerly known as TRP, transthyretin related protein) Q06S87 Q06S87 1.7 X-RAY DIFFRACTION 28 1.0 7955 (Danio rerio) 7955 (Danio rerio) 114 114 2h1x-a1-m1-cA_2h1x-a1-m1-cC 2h1x-a1-m1-cB_2h1x-a1-m1-cD 2h6u-a1-m1-cB_2h6u-a1-m1-cC 2h6u-a2-m1-cE_2h6u-a2-m1-cH 2h6u-a2-m1-cF_2h6u-a2-m1-cG 3iwu-a1-m1-cA_3iwu-a1-m1-cD 3iwu-a1-m1-cB_3iwu-a1-m1-cC 3iwu-a2-m1-cE_3iwu-a2-m1-cH 3iwu-a2-m1-cF_3iwu-a2-m1-cG 3iwv-a1-m1-cA_3iwv-a1-m1-cC 3iwv-a1-m1-cD_3iwv-a1-m1-cB 3q1e-a1-m1-cA_3q1e-a1-m1-cC 3q1e-a1-m1-cB_3q1e-a1-m1-cD LSPLSTHVLNIAQGVPGANMTIVLHRLDPVSSAWNILTTGITNDDGRCPGLITKENFIAGVYKMRFETGKYWDALGETCFYPYVEIVFTITNTSQHYHVPLLLSRFSYSTYRGS LSPLSTHVLNIAQGVPGANMTIVLHRLDPVSSAWNILTTGITNDDGRCPGLITKENFIAGVYKMRFETGKYWDALGETCFYPYVEIVFTITNTSQHYHVPLLLSRFSYSTYRGS 2h6u-a1-m1-cC_2h6u-a1-m1-cD Crystal structure of 5-hydroxyisourate hydrolase (formerly known as TRP, transthyretin related protein) Q06S87 Q06S87 1.7 X-RAY DIFFRACTION 55 1.0 7955 (Danio rerio) 7955 (Danio rerio) 114 114 2h1x-a1-m1-cA_2h1x-a1-m1-cB 2h1x-a1-m1-cC_2h1x-a1-m1-cD 2h6u-a1-m1-cA_2h6u-a1-m1-cB 2h6u-a2-m1-cE_2h6u-a2-m1-cF 2h6u-a2-m1-cG_2h6u-a2-m1-cH 3iwu-a1-m1-cA_3iwu-a1-m1-cB 3iwu-a1-m1-cC_3iwu-a1-m1-cD 3iwu-a2-m1-cE_3iwu-a2-m1-cF 3iwu-a2-m1-cG_3iwu-a2-m1-cH 3iwv-a1-m1-cA_3iwv-a1-m1-cB 3iwv-a1-m1-cD_3iwv-a1-m1-cC 3q1e-a1-m1-cA_3q1e-a1-m1-cB 3q1e-a1-m1-cC_3q1e-a1-m1-cD LSPLSTHVLNIAQGVPGANMTIVLHRLDPVSSAWNILTTGITNDDGRCPGLITKENFIAGVYKMRFETGKYWDALGETCFYPYVEIVFTITNTSQHYHVPLLLSRFSYSTYRGS LSPLSTHVLNIAQGVPGANMTIVLHRLDPVSSAWNILTTGITNDDGRCPGLITKENFIAGVYKMRFETGKYWDALGETCFYPYVEIVFTITNTSQHYHVPLLLSRFSYSTYRGS 2h84-a1-m1-cA_2h84-a1-m1-cB Crystal Structure of the C-terminal Type III Polyketide Synthase (PKS III) Domain of 'Steely1' (a Type I/III PKS Hybrid from Dictyostelium) Q55E72 Q55E72 2.9 X-RAY DIFFRACTION 165 1.0 352472 (Dictyostelium discoideum AX4) 352472 (Dictyostelium discoideum AX4) 363 363 NNSFVLGIGISVPGEPISQQSLKDSISNDFSDKAETNEKVKRIFEQSQIKTRHLVRDYTKPENSIKFRHLETITDVNNQFKKVVPDLAQQACLRALKDWGGDKGDITHIVSVTSTGIIIPDVNFKLIDLLGLNKDVERVSLNLMGCLAGLSSLRTAASLAKASPRNRILVVCTEVCSLHFSNTDGGDQMVASSIFADGSAAYIIGCNPRIEETPLYEVMCSINRSFPNTENAMVWDLEKEGWNLGLDASIPIVIGSGIEAFVDTLLDKAKLQTSTAISAKDCEFLIHTGGKSILMNIENSLGIDPKQTKNTWDVYHAYGNMSSASVIFVMDHARKSKSLPTYSISLAFGPGLAFEGCFLKNVV NNSFVLGIGISVPGEPISQQSLKDSISNDFSDKAETNEKVKRIFEQSQIKTRHLVRDYTKPENSIKFRHLETITDVNNQFKKVVPDLAQQACLRALKDWGGDKGDITHIVSVTSTGIIIPDVNFKLIDLLGLNKDVERVSLNLMGCLAGLSSLRTAASLAKASPRNRILVVCTEVCSLHFSNTDGGDQMVASSIFADGSAAYIIGCNPRIEETPLYEVMCSINRSFPNTENAMVWDLEKEGWNLGLDASIPIVIGSGIEAFVDTLLDKAKLQTSTAISAKDCEFLIHTGGKSILMNIENSLGIDPKQTKNTWDVYHAYGNMSSASVIFVMDHARKSKSLPTYSISLAFGPGLAFEGCFLKNVV 2h85-a1-m2-cA_2h85-a1-m6-cA Crystal Structure of Nsp 15 from SARS P0C6X7 P0C6X7 2.6 X-RAY DIFFRACTION 57 1.0 347 347 2h85-a1-m1-cA_2h85-a1-m4-cA 2h85-a1-m3-cA_2h85-a1-m5-cA 2rhb-a1-m1-cA_2rhb-a1-m1-cE 2rhb-a1-m1-cB_2rhb-a1-m1-cD 2rhb-a1-m1-cF_2rhb-a1-m1-cC HQSLENVAYNVVNKGHFDGHAGEAPVSIINNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCGCSVIDLLLGDFVEIIKSQDLSVISKVVKVTIDYAEISFMLWCKDGHVETFYPKL HQSLENVAYNVVNKGHFDGHAGEAPVSIINNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCGCSVIDLLLGDFVEIIKSQDLSVISKVVKVTIDYAEISFMLWCKDGHVETFYPKL 2h85-a1-m5-cA_2h85-a1-m6-cA Crystal Structure of Nsp 15 from SARS P0C6X7 P0C6X7 2.6 X-RAY DIFFRACTION 86 1.0 347 347 2h85-a1-m1-cA_2h85-a1-m2-cA 2h85-a1-m1-cA_2h85-a1-m3-cA 2h85-a1-m2-cA_2h85-a1-m3-cA 2h85-a1-m4-cA_2h85-a1-m5-cA 2h85-a1-m4-cA_2h85-a1-m6-cA 2rhb-a1-m1-cA_2rhb-a1-m1-cB 2rhb-a1-m1-cA_2rhb-a1-m1-cC 2rhb-a1-m1-cC_2rhb-a1-m1-cB 2rhb-a1-m1-cD_2rhb-a1-m1-cE 2rhb-a1-m1-cF_2rhb-a1-m1-cD 2rhb-a1-m1-cF_2rhb-a1-m1-cE HQSLENVAYNVVNKGHFDGHAGEAPVSIINNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCGCSVIDLLLGDFVEIIKSQDLSVISKVVKVTIDYAEISFMLWCKDGHVETFYPKL HQSLENVAYNVVNKGHFDGHAGEAPVSIINNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCGCSVIDLLLGDFVEIIKSQDLSVISKVVKVTIDYAEISFMLWCKDGHVETFYPKL 2h88-a3-m1-cC_2h88-a3-m1-cP Avian Mitochondrial Respiratory Complex II at 1.8 Angstrom Resolution D0VWW3 D0VWW3 1.74 X-RAY DIFFRACTION 18 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 139 139 ATTAKEEMARFWEKNTKSSRPLSPHISIYKWSLPMAMSITHRGTGVALSLGVSLFSLAALLLPEQFPHYVAVVKSLSLSPALIYSAKFALVFPLSYHTWNGIRHLVWDMGKGFKLSQVEQSGVVVLILTLLSSAAIASE ATTAKEEMARFWEKNTKSSRPLSPHISIYKWSLPMAMSITHRGTGVALSLGVSLFSLAALLLPEQFPHYVAVVKSLSLSPALIYSAKFALVFPLSYHTWNGIRHLVWDMGKGFKLSQVEQSGVVVLILTLLSSAAIASE 2h8c-a1-m1-cB_2h8c-a1-m1-cA Structure of RusA D70N in complex with DNA P0AG74 P0AG74 3.1 X-RAY DIFFRACTION 46 1.0 562 (Escherichia coli) 562 (Escherichia coli) 116 117 1q8r-a1-m1-cB_1q8r-a1-m1-cA 2h8c-a2-m1-cC_2h8c-a2-m1-cD 2h8e-a1-m1-cA_2h8e-a1-m2-cA NTYSITLPWPPSNNRYYRHNRGRTHVSAEGQAYRDNVARIIKNAMLDIGLAMPVKIRIECHMPDRRRRNLDNLQKAAFDALTKAGFWLDDAQVVDYRVVKMPVTKGGRLELTITEM NTYSITLPWPPSNNRYYRHNRGRTHVSAEGQAYRDNVARIIKNAMLDIGLAMPVKIRIECHMPDRRRRNLDNLQKAAFDALTKAGFWLDDAQVVDYRVVKMPVTKGGRLELTITEMG 2h8g-a1-m1-cB_2h8g-a1-m1-cA 5'-Methylthioadenosine Nucleosidase from Arabidopsis thaliana Q9T0I8 Q9T0I8 1.5 X-RAY DIFFRACTION 119 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 244 246 2qsu-a1-m1-cB_2qsu-a1-m1-cA 2qtg-a1-m1-cB_2qtg-a1-m1-cA 2qtt-a1-m1-cB_2qtt-a1-m1-cA 3lgs-a1-m1-cB_3lgs-a1-m1-cA 3lgs-a2-m1-cD_3lgs-a2-m1-cC RPISSVVFVIAMQAEALPLVNKFGLSETTDSPLGKGLPWVLYHGVHKDLRINVVCPGRDAALGIDSVGTVPASLITFASIQALKPDIIINAGTCGGFKVKGANIGDVFLVSDVVFHDRRIPIPMFDLYGVGLRQAFSTPNLLKELNLKIGRLSTGDSLDMSTQDETLIIANDATLKDMEGAAVAYVADLLKIPVVFLKAVTDLVDGDKPTAEEFLQNLTVVTAALEGTATKVINFINGRNLSDL ILRPISSVVFVIAMQAEALPLVNKFGLSETTDSPLGKGLPWVLYHGVHKDLRINVVCPGRDAALGIDSVGTVPASLITFASIQALKPDIIINAGTCGGFKVKGANIGDVFLVSDVVFHDRRIPIPMFDLYGVGLRQAFSTPNLLKELNLKIGRLSTGDSLDMSTQDETLIIANDATLKDMEGAAVAYVADLLKIPVVFLKAVTDLVDGDKPTAEEFLQNLTVVTAALEGTATKVINFINGRNLSDL 2h8k-a1-m1-cA_2h8k-a1-m1-cB Human Sulfotranferase SULT1C3 in complex with PAP Q6IMI6 Q6IMI6 3.2 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 FNIMEVDGVPTLILSKEWWEKVCNFQAKPDDLILATYPKSGTTWMHEILDMILNQLIKTHLPSHLIPPSIWKENCKIVYVARNPKDCLVSYYHFHRMASFMPDPQNLEEFYEKFMSGKVVGGSWFDHVKGWWAAKDMHRILYLFYEDIKKDPKREIEKILKFLEKDISEEILNKIIYHTSFDVMKQNPMTNYTTLPTSIMDHSISPFMRKGMPGDWKNYFTVAQNEEFDKDYQKKMAGSTLTFRT FNIMEVDGVPTLILSKEWWEKVCNFQAKPDDLILATYPKSGTTWMHEILDMILNQLIKTHLPSHLIPPSIWKENCKIVYVARNPKDCLVSYYHFHRMASFMPDPQNLEEFYEKFMSGKVVGGSWFDHVKGWWAAKDMHRILYLFYEDIKKDPKREIEKILKFLEKDISEEILNKIIYHTSFDVMKQNPMTNYTTLPTSIMDHSISPFMRKGMPGDWKNYFTVAQNEEFDKDYQKKMAGSTLTFRT 2h8n-a1-m1-cA_2h8n-a1-m1-cC Structure of a glutamine-rich domain from histone deacetylase 4 P56524 P56524 2.6 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 2h8n-a1-m1-cB_2h8n-a1-m1-cD 2o94-a1-m1-cA_2o94-a1-m1-cC 2o94-a1-m1-cB_2o94-a1-m1-cD AEPALREQQLQQELLALKQKQQIQRQILIAEFQRQHEQLSRQHEAQLHEHIKQQQEMLAMKHQQELLE AEPALREQQLQQELLALKQKQQIQRQILIAEFQRQHEQLSRQHEAQLHEHIKQQQEMLAMKHQQELLE 2h8n-a1-m1-cA_2h8n-a1-m1-cD Structure of a glutamine-rich domain from histone deacetylase 4 P56524 P56524 2.6 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 2h8n-a1-m1-cB_2h8n-a1-m1-cC 2o94-a1-m1-cA_2o94-a1-m1-cD 2o94-a1-m1-cB_2o94-a1-m1-cC AEPALREQQLQQELLALKQKQQIQRQILIAEFQRQHEQLSRQHEAQLHEHIKQQQEMLAMKHQQELLE AEPALREQQLQQELLALKQKQQIQRQILIAEFQRQHEQLSRQHEAQLHEHIKQQQEMLAMKHQQELLE 2h8n-a1-m1-cC_2h8n-a1-m1-cD Structure of a glutamine-rich domain from histone deacetylase 4 P56524 P56524 2.6 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 2h8n-a1-m1-cA_2h8n-a1-m1-cB 2o94-a1-m1-cA_2o94-a1-m1-cB 2o94-a1-m1-cC_2o94-a1-m1-cD AEPALREQQLQQELLALKQKQQIQRQILIAEFQRQHEQLSRQHEAQLHEHIKQQQEMLAMKHQQELLE AEPALREQQLQQELLALKQKQQIQRQILIAEFQRQHEQLSRQHEAQLHEHIKQQQEMLAMKHQQELLE 2h8o-a1-m1-cA_2h8o-a1-m2-cA The 1.6A crystal structure of the geranyltransferase from Agrobacterium tumefaciens Q7CWE5 Q7CWE5 1.6 X-RAY DIFFRACTION 198 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 283 283 DAQMTNFETRLRENAAKTEALLGHLLSGEARADEITRPQNLLEAMRHGVLNGGKRLRPFLVIESVALLGGDAEAGLHVGAALECLHCYSLVHDDLPAMDDDDLRRGQPTVHRKFDEATAILAGDSLLTLAFDIIASDDNPLAAERKAALVISLARAAGIGGMAGGQALDLAAEKKAPDEDGIITLQAMKTGALLRFACEAGAIIAGSNQAERQRLRLFGEKIGLSFQLADDLLDLTKGTLVALRGEAWAREKLQEQVAEASELLAPYGEKAAILIAAARFIAE DAQMTNFETRLRENAAKTEALLGHLLSGEARADEITRPQNLLEAMRHGVLNGGKRLRPFLVIESVALLGGDAEAGLHVGAALECLHCYSLVHDDLPAMDDDDLRRGQPTVHRKFDEATAILAGDSLLTLAFDIIASDDNPLAAERKAALVISLARAAGIGGMAGGQALDLAAEKKAPDEDGIITLQAMKTGALLRFACEAGAIIAGSNQAERQRLRLFGEKIGLSFQLADDLLDLTKGTLVALRGEAWAREKLQEQVAEASELLAPYGEKAAILIAAARFIAE 2h8r-a1-m1-cA_2h8r-a1-m1-cB Hepatocyte Nuclear Factor 1b bound to DNA: MODY5 Gene Product P35680 P35680 3.2 X-RAY DIFFRACTION 11 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 SILKELQALNTEEAAEQRAEVDRMLSEDPWRAAKMIKGYMQQHNIPQREVVDVTGLNQSHLSQHLNKGTPMKTQKRAALYTWYVRKQREILRQFNQTVMRRNRFKWGPASQQILYQAYDRQKNPSKEEREALVEECNRAECLQRGVSPSKAHGLGSNLVTEVRVYNWFANRRKEEA SILKELQALNTEEAAEQRAEVDRMLSEDPWRAAKMIKGYMQQHNIPQREVVDVTGLNQSHLSQHLNKGTPMKTQKRAALYTWYVRKQREILRQFNQMRRNRFKWGPASQQILYQAYDRQKNPSKEEREALVEECNRAECLQRGVSPSKAHGLGSNLVTEVRVYNWFANRRKEEAFR 2h95-a1-m1-cC_2h95-a1-m1-cD Structure of the Amantadine-Blocked Influenza A M2 Proton Channel Trans-membrane Domain by Solid-state NMR spectroscopy Q3LZC0 Q3LZC0 NOT SOLID-STATE NMR 10 1.0 342139 (Influenza A virus (A/quail/Hong Kong/CSW106/2001(H6N4))) 342139 (Influenza A virus (A/quail/Hong Kong/CSW106/2001(H6N4))) 18 18 2h95-a1-m1-cA_2h95-a1-m1-cB 2h95-a1-m1-cA_2h95-a1-m1-cD 2h95-a1-m1-cB_2h95-a1-m1-cC LVVAASIIGILHLILWIL LVVAASIIGILHLILWIL 2h9d-a3-m1-cA_2h9d-a3-m1-cC Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 24 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 84 98 2h9c-a2-m1-cA_2h9c-a2-m2-cA MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTR 2h9d-a3-m1-cA_2h9d-a3-m1-cD Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 23 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 84 100 2h9c-a2-m2-cB_2h9c-a2-m1-cA MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTRGA 2h9d-a3-m1-cB_2h9d-a3-m1-cC Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 23 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 87 98 2h9c-a2-m1-cB_2h9c-a2-m2-cA KTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTR 2h9d-a3-m1-cB_2h9d-a3-m1-cD Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 28 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 87 100 2h9c-a2-m1-cB_2h9c-a2-m2-cB KTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTRGA 2h9d-a4-m1-cC_2h9d-a4-m1-cD Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 126 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 98 100 2h9d-a2-m1-cC_2h9d-a2-m1-cD 2h9d-a3-m1-cC_2h9d-a3-m1-cD 3hgx-a1-m1-cA_3hgx-a1-m1-cB 3rem-a1-m1-cA_3rem-a1-m1-cB 3ret-a1-m1-cB_3ret-a1-m1-cA MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTR MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTRGA 2h9d-a4-m2-cA_2h9d-a4-m1-cD Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 21 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 84 100 MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFKASEAAIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYWRQTRGA 2h9d-a4-m2-cA_2h9d-a4-m2-cB Pyruvate-Bound Structure of the Isochorismate-Pyruvate Lyase from Pseudomonas aerugionsa Q51507 Q51507 1.95 X-RAY DIFFRACTION 126 0.988 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 84 87 2h9c-a1-m1-cB_2h9c-a1-m1-cA 2h9c-a2-m1-cB_2h9c-a2-m1-cA 2h9c-a2-m2-cB_2h9c-a2-m2-cA 2h9d-a1-m1-cA_2h9d-a1-m1-cB 2h9d-a3-m1-cA_2h9d-a3-m1-cB 3hgw-a1-m1-cC_3hgw-a1-m1-cD MKTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW KTPEDCTGLADIREAIDRIDLDIVQALGRRMDYVKAASRFIPAPERVAAMLPERARWAEENGLDAPFVEGLFAQIIHWYIAEQIKYW 2h9f-a1-m1-cA_2h9f-a1-m2-cA CRYSTAL STRUCTURE OF a PrpF family methylaconitate isomerase (PA0793) FROM PSEUDOMONAS AERUGINOSA AT 1.95 A RESOLUTION Q9I5E5 Q9I5E5 1.95 X-RAY DIFFRACTION 124 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 381 381 AHPPQIRIPATYLRGGTSKGVFFRLEDLPESCRVPGEARDRLFRVIGSPDPYAAHIDGGGATSSTSKCVILSKSSQPGHDVDYLYGQVSIDKPFVDWSGNCGNLSTGAGAFALHAGLVDPARIPEDGICEVRIWQANIGKTIIAHVPVSGGQVQETGDFELDGVTFPAAEIVLEFLDPSDGGAIFPTGNLVDDLEVPGVGTFKATINAGIPTVFVNAEEIGYRGTELREEINGDPQQLARFERIRVAGALRGLIKTPEEAATRQHTPKIAFVAPPRDYRTASGKLVAAGDIDLLVRALSGKLHHAGTAAVAIGTAAAIPGTLVNLAAGGGERSAVRFGHPSGTLRVGAEASQANGEWTVTKAISRSARILEGWVRVPGDAF AHPPQIRIPATYLRGGTSKGVFFRLEDLPESCRVPGEARDRLFRVIGSPDPYAAHIDGGGATSSTSKCVILSKSSQPGHDVDYLYGQVSIDKPFVDWSGNCGNLSTGAGAFALHAGLVDPARIPEDGICEVRIWQANIGKTIIAHVPVSGGQVQETGDFELDGVTFPAAEIVLEFLDPSDGGAIFPTGNLVDDLEVPGVGTFKATINAGIPTVFVNAEEIGYRGTELREEINGDPQQLARFERIRVAGALRGLIKTPEEAATRQHTPKIAFVAPPRDYRTASGKLVAAGDIDLLVRALSGKLHHAGTAAVAIGTAAAIPGTLVNLAAGGGERSAVRFGHPSGTLRVGAEASQANGEWTVTKAISRSARILEGWVRVPGDAF 2ha8-a1-m1-cB_2ha8-a1-m1-cA Methyltransferase Domain of Human TAR (HIV-1) RNA binding protein 1 Q13395 Q13395 1.6 X-RAY DIFFRACTION 94 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 154 159 RLIVVASLIDKPTNLGGLCRTCEVFGASVLVVGSLQCISDKQFQHLSVSAEQWLPLVEVKPPQLIDYLQQKKTEGYTIIGVEQTAKSLDLTQYCFPEKSLLLLGNEREGIPANLIQQLDVCVEIPQQGIIRSLNVHVSGALLIWEYTRQQLLSH LGKSISRLIVVASLIDKPTNLGGLCRTCEVFGASVLVVGSLQCISDKQFQHLSVSAEQWLPLVEVKPPQLIDYLQQKKTEGYTIIGVEQTAKSLDLTQYCFPEKSLLLLGNEREGIPANLIQQLDVCVEIPQQGIIRSLNVHVSGALLIWEYTRQQLLS 2ha9-a2-m1-cB_2ha9-a2-m2-cB Crystal structure of protein SP0239 from Streptococcus pneumoniae Q97ST4 Q97ST4 2.7 X-RAY DIFFRACTION 49 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 398 398 2ha9-a2-m1-cA_2ha9-a2-m2-cA ADIRQVTETIAIEEQNFDIRTITGISLLDCIDPDINRAAEKIYQKITTKAANLVAVGDEIAAELGIPIVNKRVSVTPISLIGAATDATDYVVLAKALDKAAKEIGVDFIGGFSALVQKGYQKGDEILINSIPRALAETDKVCSSVNIGSTKSGINTAVADGRIIKETANLSDGVAKLVVFANAVDNPAGAFHGVGEADVIINVGVSGPGVVKRALEKVRGQSFDVVAETVKKTAFKITRIGQLVGQASERLGVEFGIVDLSLAPVGDSVARVLEEGLETVGTHGTTAALALLNDQVKKGGVACNQEDEGIAAVQNGSLNLEKLEATAICSDIAIPEDTPAETIAAIADEAAIGVINKTTAVRIIPKGKEGDIEFAPVKVNGASSVDFISRGGQIPAPI ADIRQVTETIAIEEQNFDIRTITGISLLDCIDPDINRAAEKIYQKITTKAANLVAVGDEIAAELGIPIVNKRVSVTPISLIGAATDATDYVVLAKALDKAAKEIGVDFIGGFSALVQKGYQKGDEILINSIPRALAETDKVCSSVNIGSTKSGINTAVADGRIIKETANLSDGVAKLVVFANAVDNPAGAFHGVGEADVIINVGVSGPGVVKRALEKVRGQSFDVVAETVKKTAFKITRIGQLVGQASERLGVEFGIVDLSLAPVGDSVARVLEEGLETVGTHGTTAALALLNDQVKKGGVACNQEDEGIAAVQNGSLNLEKLEATAICSDIAIPEDTPAETIAAIADEAAIGVINKTTAVRIIPKGKEGDIEFAPVKVNGASSVDFISRGGQIPAPI 2ha9-a2-m2-cA_2ha9-a2-m2-cB Crystal structure of protein SP0239 from Streptococcus pneumoniae Q97ST4 Q97ST4 2.7 X-RAY DIFFRACTION 218 0.987 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 397 398 2ha9-a1-m1-cA_2ha9-a1-m1-cB 2ha9-a2-m1-cA_2ha9-a2-m1-cB ADIRQVTETIAIEEQNFDIRTITGISLLDCIDPDINRAAEKIYQKITTKAANLVAVGDEIAAELGIPIVNKRVSVTPISLIGAATDATDYVVLAKALDKAAKEIGVDFIGGFSALVQKGYQKGDEILINSIPRALAETDKVCSSVNIGSTKSGINTAVADGRIIKETANLSDGVAKLVVFANAVEDNPFAAFHGVGEADVIINVGVSGPGVVKRALEKVRGQSFDVVAETVKKTAFKITRIGQLVGQASERLGVEFGIVDLSLAPTDSVARVLEEGLETVGTHGTTAALALLNDQVKKGGVACNDEGIAAVQNGSLNLEKLEATAICSDIAIPEDTPAETIAAIADEAAIGVINKTTAVRIIPKGKEGDIEFTAPVKVNGASSVDFISRGGQIPAPI ADIRQVTETIAIEEQNFDIRTITGISLLDCIDPDINRAAEKIYQKITTKAANLVAVGDEIAAELGIPIVNKRVSVTPISLIGAATDATDYVVLAKALDKAAKEIGVDFIGGFSALVQKGYQKGDEILINSIPRALAETDKVCSSVNIGSTKSGINTAVADGRIIKETANLSDGVAKLVVFANAVDNPAGAFHGVGEADVIINVGVSGPGVVKRALEKVRGQSFDVVAETVKKTAFKITRIGQLVGQASERLGVEFGIVDLSLAPVGDSVARVLEEGLETVGTHGTTAALALLNDQVKKGGVACNQEDEGIAAVQNGSLNLEKLEATAICSDIAIPEDTPAETIAAIADEAAIGVINKTTAVRIIPKGKEGDIEFAPVKVNGASSVDFISRGGQIPAPI 2hac-a1-m1-cA_2hac-a1-m1-cB Structure of Zeta-Zeta Transmembrane Dimer P20963 P20963 NOT SOLUTION NMR 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 33 33 DSKLCYLLDGILFIYGVILTALFLRVKFSRSAD DSKLCYLLDGILFIYGVILTALFLRVKFSRSAD 2hae-a1-m1-cA_2hae-a1-m1-cD Crystal structure of a putative malic enzyme (malate oxidoreductase) Q9WZ12 Q9WZ12 3.13 X-RAY DIFFRACTION 20 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 373 373 1vl6-a1-m1-cA_1vl6-a1-m1-cC 1vl6-a1-m1-cB_1vl6-a1-m1-cD 2hae-a1-m1-cB_2hae-a1-m1-cC DALELHRFLKGKIRTALPVEKVDRETLSLLYTPGVADVARACAEDPEKTYVYTSRWNTVAVVSDGSAVLGLGNIGPYGALPVMEGKAFLFKAFADIDAFPICLSESEEEKIISIVKSLEPSFGGINLEDIGAPKCFRILQRLSEEMNIPVFHDDQQGTAVVVSAAFLNALKLTEKKIEEVKVVVNGIGAAGYNIVKFLLDLGVKNVVAVDRKGILNENDPETCLNEYEIARITNPERLSGDLETALEGADFFIGVSRGNILKPEWIKKMSRKPVIFALANPVPEIDPELAREAGAFIVATGRSDHPNQVNNLLAFPGIMKGAVEKRSKITKNMLLSAVEAIARSCEPEPERIIPEAFDMKVHLNVYTAVKGSA DALELHRFLKGKIRTALPVEKVDRETLSLLYTPGVADVARACAEDPEKTYVYTSRWNTVAVVSDGSAVLGLGNIGPYGALPVMEGKAFLFKAFADIDAFPICLSESEEEKIISIVKSLEPSFGGINLEDIGAPKCFRILQRLSEEMNIPVFHDDQQGTAVVVSAAFLNALKLTEKKIEEVKVVVNGIGAAGYNIVKFLLDLGVKNVVAVDRKGILNENDPETCLNEYEIARITNPERLSGDLETALEGADFFIGVSRGNILKPEWIKKMSRKPVIFALANPVPEIDPELAREAGAFIVATGRSDHPNQVNNLLAFPGIMKGAVEKRSKITKNMLLSAVEAIARSCEPEPERIIPEAFDMKVHLNVYTAVKGSA 2hae-a1-m1-cB_2hae-a1-m1-cD Crystal structure of a putative malic enzyme (malate oxidoreductase) Q9WZ12 Q9WZ12 3.13 X-RAY DIFFRACTION 298 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 373 373 1vl6-a1-m1-cB_1vl6-a1-m1-cA 1vl6-a1-m1-cC_1vl6-a1-m1-cD 2hae-a1-m1-cA_2hae-a1-m1-cC DALELHRFLKGKIRTALPVEKVDRETLSLLYTPGVADVARACAEDPEKTYVYTSRWNTVAVVSDGSAVLGLGNIGPYGALPVMEGKAFLFKAFADIDAFPICLSESEEEKIISIVKSLEPSFGGINLEDIGAPKCFRILQRLSEEMNIPVFHDDQQGTAVVVSAAFLNALKLTEKKIEEVKVVVNGIGAAGYNIVKFLLDLGVKNVVAVDRKGILNENDPETCLNEYEIARITNPERLSGDLETALEGADFFIGVSRGNILKPEWIKKMSRKPVIFALANPVPEIDPELAREAGAFIVATGRSDHPNQVNNLLAFPGIMKGAVEKRSKITKNMLLSAVEAIARSCEPEPERIIPEAFDMKVHLNVYTAVKGSA DALELHRFLKGKIRTALPVEKVDRETLSLLYTPGVADVARACAEDPEKTYVYTSRWNTVAVVSDGSAVLGLGNIGPYGALPVMEGKAFLFKAFADIDAFPICLSESEEEKIISIVKSLEPSFGGINLEDIGAPKCFRILQRLSEEMNIPVFHDDQQGTAVVVSAAFLNALKLTEKKIEEVKVVVNGIGAAGYNIVKFLLDLGVKNVVAVDRKGILNENDPETCLNEYEIARITNPERLSGDLETALEGADFFIGVSRGNILKPEWIKKMSRKPVIFALANPVPEIDPELAREAGAFIVATGRSDHPNQVNNLLAFPGIMKGAVEKRSKITKNMLLSAVEAIARSCEPEPERIIPEAFDMKVHLNVYTAVKGSA 2hah-a1-m1-cA_2hah-a1-m2-cA The structure of FIV 12S protease in complex with TL-3 Q66972 Q66972 1.7 X-RAY DIFFRACTION 139 1.0 11674 (Feline immunodeficiency virus (isolate Petaluma)) 11674 (Feline immunodeficiency virus (isolate Petaluma)) 112 112 GTTTTLEKRPEILIFVNGYPIKFLLDTGADITVLNRRDFQVKNSIENGRQMIGGIGGFIRGTNYINVHLEIRDENYKTQCIFGNVCVLEDNSTPVNILGRDNMIKFNIRLVM GTTTTLEKRPEILIFVNGYPIKFLLDTGADITVLNRRDFQVKNSIENGRQMIGGIGGFIRGTNYINVHLEIRDENYKTQCIFGNVCVLEDNSTPVNILGRDNMIKFNIRLVM 2hak-a9-m1-cE_2hak-a9-m1-cF Catalytic and ubiqutin-associated domains of MARK1/PAR-1 Q9P0L2 Q9P0L2 2.6 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 QPHIGNYRLQKTIGKGNFAKVKLARHVLTGREVAVKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKYIVHRDLKAENLLLDGDMNIKIADFGFSNEFTVGNKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKLLVLNPIKRGSLEQIMKDRWMNVGHEEEELKPYTEPDPDFNDTKRIDIMVTMGFARDEINDALINQKYDEVMATYILLGRK QPHIGNYRLQKTIGKGNFAKVKLARHVLTGREVAVKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKYIVHRDLKAENLLLDGDMNIKIADFGFSNEFTVGNKLDTFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKLLVLNPIKRGSLEQIMKDRWMNVGHEEEELKPYTEPDPDFNDTKRIDIMVTMGFARDEINDALINQKYDEVMATYILLGRK 2haw-a1-m1-cA_2haw-a1-m1-cB Crystal structure of family II Inorganic pyrophosphatase in complex with PNP P37487 P37487 1.75 X-RAY DIFFRACTION 79 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 307 308 1wpm-a1-m1-cA_1wpm-a1-m1-cB 1wpn-a1-m1-cA_1wpn-a1-m1-cB 2iw4-a1-m1-cA_2iw4-a1-m1-cB EKILIFGHQNPDTDTICSAIAYADLKNKLGFNAEPVRLGQVNGETQYALDYFKQESPRLVETAANEVNGVILVDHNERQQSIKDIEEVQVLEVIDHHRIANFETAEPLYYRAEPVGCTATILNKMYKENNVKIEKEIAGLMLSAIISDSLLFKSPTCTDQDVAAAKELAEIAGVDAEEYGLNMLKAGADLSKKTVEELISLDAKEFTLGSKKVEIAQVNTVDIEDVKKRQAELEAVISKVVAEKNLDLFLLVITDILENDSLALAIGNEAAKVEKAFNVTLENNTALLKGVVSRKKQVVPVLTDAMA MEKILIFGHQNPDTDTICSAIAYADLKNKLGFNAEPVRLGQVNGETQYALDYFKQESPRLVETAANEVNGVILVDHNERQQSIKDIEEVQVLEVIDHHRIANFETAEPLYYRAEPVGCTATILNKMYKENNVKIEKEIAGLMLSAIISDSLLFKSPTCTDQDVAAAKELAEIAGVDAEEYGLNMLKAGADLSKKTVEELISLDAKEFTLGSKKVEIAQVNTVDIEDVKKRQAELEAVISKVVAEKNLDLFLLVITDILENDSLALAIGNEAAKVEKAFNVTLENNTALLKGVVSRKKQVVPVLTDAMA 2hax-a1-m1-cA_2hax-a1-m1-cB Crystal structure of Bacillus caldolyticus cold shock protein in complex with hexathymidine P41016 P41016 1.29 X-RAY DIFFRACTION 171 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 66 66 MQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGEGFKTLEEGQEVSFEIVQGNRGPQAANVVKL MQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGEGFKTLEEGQEVSFEIVQGNRGPQAANVVKL 2hay-a2-m1-cC_2hay-a2-m1-cD The Crystal Structure of the Putative NAD(P)H-Flavin Oxidoreductase from Streptococcus pyogenes M1 GAS Q9A120 Q9A120 2.11 X-RAY DIFFRACTION 180 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 209 214 2hay-a1-m1-cA_2hay-a1-m1-cB TIHHQIQQALHFRTAVRVYKEEKISDEDLALILDAAWLSPSSIGLEGWRFVVLDNKPIKEEIKPFAWGAQYQLETASHFILLIAEKHARYDSPAIKNSLLRRGIKEGDGLNSRLKLYESFQKEDDADNPRALFDWTAKQTYIALGNTAALLGIDTCPIEGFHYDKVNHILAKHNVIDLEKEGIASLSLGYRLRDPAQVRKPKEEVSVVK ADQTIHHQIQQALHFRTAVRVYKEEKISDEDLALILDAAWLSPSSIGLEGWRFVVLDNKPIKEEIKPFAWGAQYQLETASHFILLIAEKHARYDSPAIKNSLLRRGIKEGDGLNSRLKLYESFQKEDDADNPRALFDWTAKQTYIALGNTAALLGIDTCPIEGFHYDKVNHILAKHNVIDLEKEGIASLSLGYRLRDPKHAQVRKPKEEVSVVK 2hba-a3-m1-cB_2hba-a3-m4-cA Crystal Structure of N-terminal Domain of Ribosomal Protein L9 (NTL9) K12M P02417 P02417 1.25 X-RAY DIFFRACTION 35 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 52 52 2hba-a3-m2-cB_2hba-a3-m3-cA MKVIFLKDVKGMGKKGEIKNVADGYANNFLFKQGLAIEATPANLKALEAQKQ MKVIFLKDVKGMGKKGEIKNVADGYANNFLFKQGLAIEATPANLKALEAQKQ 2hba-a3-m3-cA_2hba-a3-m4-cA Crystal Structure of N-terminal Domain of Ribosomal Protein L9 (NTL9) K12M P02417 P02417 1.25 X-RAY DIFFRACTION 17 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 52 52 2hba-a3-m1-cB_2hba-a3-m2-cB MKVIFLKDVKGMGKKGEIKNVADGYANNFLFKQGLAIEATPANLKALEAQKQ MKVIFLKDVKGMGKKGEIKNVADGYANNFLFKQGLAIEATPANLKALEAQKQ 2hbe-a1-m1-cB_2hbe-a1-m2-cB HIGH RESOLUTION X-RAY STRUCTURES OF MYOGLOBIN-AND HEMOGLOBIN-ALKYL ISOCYANIDE COMPLEXES P68871 P68871 2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1aj9-a1-m1-cB_1aj9-a1-m2-cB 1cbl-a1-m1-cA_1cbl-a1-m1-cB 1cbl-a1-m1-cC_1cbl-a1-m1-cD 1cbm-a1-m1-cA_1cbm-a1-m1-cB 1cbm-a1-m1-cC_1cbm-a1-m1-cD 1hco-a1-m1-cB_1hco-a1-m2-cB 1hho-a1-m1-cB_1hho-a1-m2-cB 1lfq-a1-m1-cB_1lfq-a1-m2-cB 1lfv-a1-m1-cB_1lfv-a1-m2-cB 1lfy-a1-m1-cB_1lfy-a1-m2-cB 1lfz-a1-m1-cB_1lfz-a1-m2-cB 1nej-a1-m1-cB_1nej-a1-m1-cD 1o1i-a1-m1-cB_1o1i-a1-m2-cB 1r1x-a1-m1-cB_1r1x-a1-m2-cB 1rvw-a1-m1-cB_1rvw-a1-m2-cB 1sdk-a1-m1-cB_1sdk-a1-m1-cD 1sdk-a2-m1-cB_1sdk-a2-m1-cD 1sdk-a2-m2-cB_1sdk-a2-m2-cD 1sdl-a1-m1-cB_1sdl-a1-m1-cD 1sdl-a2-m1-cB_1sdl-a2-m1-cD 1sdl-a2-m2-cB_1sdl-a2-m2-cD 1shr-a1-m1-cB_1shr-a1-m1-cD 1yvt-a1-m1-cB_1yvt-a1-m2-cB 1yzi-a1-m1-cB_1yzi-a1-m2-cB 2h35-a1-m1-cB_2h35-a1-m1-cD 2hbf-a1-m1-cB_2hbf-a1-m2-cB 2hco-a1-m1-cB_2hco-a1-m2-cB 3d17-a1-m1-cB_3d17-a1-m1-cD 3d7o-a1-m1-cB_3d7o-a1-m2-cB 3oo4-a1-m1-cB_3oo4-a1-m2-cB 3qjc-a1-m1-cB_3qjc-a1-m2-cB 4m4b-a1-m1-cB_4m4b-a1-m2-cB 4mqc-a1-m1-cB_4mqc-a1-m2-cB 4n8t-a1-m1-cB_4n8t-a1-m2-cB 4ni0-a1-m1-cB_4ni0-a1-m2-cB 5hy8-a1-m1-cF_5hy8-a1-m1-cH 6fqf-a1-m1-cA_6fqf-a1-m1-cB 6fqf-a1-m1-cC_6fqf-a1-m1-cD 6hk2-a1-m1-cB_6hk2-a1-m1-cD 6kaq-a1-m1-cB_6kaq-a1-m2-cB 6kar-a1-m1-cB_6kar-a1-m2-cB 7cue-a1-m1-cB_7cue-a1-m1-cD 7k4m-a1-m1-cB_7k4m-a1-m1-cD 7xgy-a1-m1-cB_7xgy-a1-m1-cD VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH VHLTPEEKSAVTALWGKVNVDEVGGEALGRLLVVYPWTQRFFESFGDLSTPDAVMGNPKVKAHGKKVLGAFSDGLAHLDNLKGTFATLSELHCDKLHVDPENFRLLGNVLVCVLAHHFGKEFTPPVQAAYQKVVAGVANALAHKYH 2hbo-a1-m1-cA_2hbo-a1-m2-cA Crystal structure of a thioesterase superfamily protein (cc_3309) from caulobacter vibrioides at 1.85 A resolution Q9A395 Q9A395 1.85 X-RAY DIFFRACTION 82 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 137 137 AIPEGFSQLNWSRGFGRQIGPLFEHREGPGQARLAFRVEEHHTNGLGNCHGGLSFADAWGRIISLQKSYSWVTVRLCDFLSGAKLGDWVEGEGELISEEDLFTVRGRIWAGERTLITGTGVFKALSARKPRPGELAY AIPEGFSQLNWSRGFGRQIGPLFEHREGPGQARLAFRVEEHHTNGLGNCHGGLSFADAWGRIISLQKSYSWVTVRLCDFLSGAKLGDWVEGEGELISEEDLFTVRGRIWAGERTLITGTGVFKALSARKPRPGELAY 2hbv-a2-m1-cA_2hbv-a2-m2-cA Crystal Structure of alpha-Amino-beta-Carboxymuconate-epsilon-Semialdehyde-Decarboxylase (ACMSD) Q83V25 Q83V25 1.65 X-RAY DIFFRACTION 25 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 331 331 KPRIDMHSHFFPRISEQEAAKFDANHAPWLQVSAKGDTGSIMMGKNNFRPVYQALWDPAFRIEEMDAQGVDVQVTCATPVMFGYTWEANKAAQWAERMNDFALEFAAHNPQRIKVLAQVPLQDLDLACKEASRAVAAGHLGIQIGNHLGDKDLDDATLEAFLTHCANEDIPILVHPWDMMGGQRMKKWMLPWLVAMPAETQLAILSLILSGAFERIPKSLKICFGHGGGSFAFLLGRVDNAWRHRDIVREDCPRPPSEYVDRFFVDSAVFNPGALELLVSVMGEDRVMLGSDYPFPLGEQKIGGLVLSSNLGESAKDKIISGNASKFFNIN KPRIDMHSHFFPRISEQEAAKFDANHAPWLQVSAKGDTGSIMMGKNNFRPVYQALWDPAFRIEEMDAQGVDVQVTCATPVMFGYTWEANKAAQWAERMNDFALEFAAHNPQRIKVLAQVPLQDLDLACKEASRAVAAGHLGIQIGNHLGDKDLDDATLEAFLTHCANEDIPILVHPWDMMGGQRMKKWMLPWLVAMPAETQLAILSLILSGAFERIPKSLKICFGHGGGSFAFLLGRVDNAWRHRDIVREDCPRPPSEYVDRFFVDSAVFNPGALELLVSVMGEDRVMLGSDYPFPLGEQKIGGLVLSSNLGESAKDKIISGNASKFFNIN 2hbx-a1-m1-cA_2hbx-a1-m1-cB Crystal Structure of alpha-Amino-beta-Carboxymuconate-epsilon-Semialdehyde-Decarboxylase (ACMSD) Q83V25 Q83V25 2.5 X-RAY DIFFRACTION 165 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 332 332 2hbv-a1-m1-cB_2hbv-a1-m1-cA 2hbv-a2-m1-cB_2hbv-a2-m1-cA 2hbv-a2-m2-cB_2hbv-a2-m2-cA 4epk-a1-m1-cB_4epk-a1-m1-cA 4era-a1-m1-cA_4era-a1-m1-cB 4erg-a1-m1-cA_4erg-a1-m1-cB 4eri-a1-m1-cB_4eri-a1-m1-cA 4ifk-a1-m1-cA_4ifk-a1-m1-cB 4ifo-a1-m1-cA_4ifo-a1-m1-cB 4ifr-a1-m1-cA_4ifr-a1-m1-cB 4ig2-a1-m1-cA_4ig2-a1-m1-cB 6mgs-a1-m1-cA_6mgs-a1-m2-cA 6mgs-a2-m1-cC_6mgs-a2-m1-cB 6mgt-a1-m1-cA_6mgt-a1-m1-cB 7k12-a1-m1-cA_7k12-a1-m1-cB 7k13-a1-m1-cA_7k13-a1-m2-cA 7k13-a2-m1-cB_7k13-a2-m1-cC KPRIDMHSHFFPRISEQEAAKFDANHAPWLQVSAKGDTGSIMMGKNNFRPVYQALWDPAFRIEEMDAQGVDVQVTCATPVMFGYTWEANKAAQWAERMNDFALEFAAHNPQRIKVLAQVPLQDLDLACKEASRAVAAGHLGIQIGNHLGDKDLDDATLEAFLTHCANEDIPILVHPWDMMGGQRMKKWMLPWLVAMPAETQLAILSLILSGAFERIPKSLKICFGHGGGSFAFLLGRVDNAWRHRDIVREDCPRPPSEYVDRFFVDSAVFNPGALELLVSVMGEDRVMLGSDYPFPLGEQKIGGLVLSSNLGESAKDKIISGNASKFFNINV KPRIDMHSHFFPRISEQEAAKFDANHAPWLQVSAKGDTGSIMMGKNNFRPVYQALWDPAFRIEEMDAQGVDVQVTCATPVMFGYTWEANKAAQWAERMNDFALEFAAHNPQRIKVLAQVPLQDLDLACKEASRAVAAGHLGIQIGNHLGDKDLDDATLEAFLTHCANEDIPILVHPWDMMGGQRMKKWMLPWLVAMPAETQLAILSLILSGAFERIPKSLKICFGHGGGSFAFLLGRVDNAWRHRDIVREDCPRPPSEYVDRFFVDSAVFNPGALELLVSVMGEDRVMLGSDYPFPLGEQKIGGLVLSSNLGESAKDKIISGNASKFFNINV 2hc9-a1-m1-cA_2hc9-a1-m6-cA Structure of Caenorhabditis elegans leucine aminopeptidase-zinc complex (LAP1) P34629 P34629 1.85 X-RAY DIFFRACTION 95 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 489 489 2hb6-a1-m1-cA_2hb6-a1-m1-cB 2hb6-a1-m2-cA_2hb6-a1-m2-cB 2hb6-a1-m3-cA_2hb6-a1-m3-cB 2hc9-a1-m2-cA_2hc9-a1-m5-cA 2hc9-a1-m3-cA_2hc9-a1-m4-cA TQVLVRNGIQAVGDGLTSLIIVGKKSVLKNVTFEGKFKEVAQKFVTDGDSWNSMISRIPASGRHPLHYELAHLITVPDASSRGNTPTNAHSIYKELKPINYPEDTKNVHFVLFAEYPDVLSHVAAIARTFCKFSMKTSGIRELNVNIDVVCDKLTNEDAVFLTDLSESVRETARLIDTPANILTTDALVDEAVKVGNATGSKITVIRGEELLKAGFGGIYHVGKAGPTPPAFVVLSHEVPGSTEHIALVGKGVVYDTGGLQIKTKTGMPNMKRDMGGAAGMLEAYSALVKHGFSQTLHACLCIVENNVSPIANKPDDIIKMLSGKTVEINNTDAEGRLILADGVFYAKETLKATTIFDMATLTGAQAWLSGRLHGAAMTNDEQLENEIIKAGKASGDLVAPMLFAPDLFFGDLKSSIADMKNSNLGKMDGPPSAVAGLLIGAHIGFGEGLRWLHLDIAAPAEVGDRGTGYGPALFSTLLGKYTSVPMLK TQVLVRNGIQAVGDGLTSLIIVGKKSVLKNVTFEGKFKEVAQKFVTDGDSWNSMISRIPASGRHPLHYELAHLITVPDASSRGNTPTNAHSIYKELKPINYPEDTKNVHFVLFAEYPDVLSHVAAIARTFCKFSMKTSGIRELNVNIDVVCDKLTNEDAVFLTDLSESVRETARLIDTPANILTTDALVDEAVKVGNATGSKITVIRGEELLKAGFGGIYHVGKAGPTPPAFVVLSHEVPGSTEHIALVGKGVVYDTGGLQIKTKTGMPNMKRDMGGAAGMLEAYSALVKHGFSQTLHACLCIVENNVSPIANKPDDIIKMLSGKTVEINNTDAEGRLILADGVFYAKETLKATTIFDMATLTGAQAWLSGRLHGAAMTNDEQLENEIIKAGKASGDLVAPMLFAPDLFFGDLKSSIADMKNSNLGKMDGPPSAVAGLLIGAHIGFGEGLRWLHLDIAAPAEVGDRGTGYGPALFSTLLGKYTSVPMLK 2hc9-a1-m3-cA_2hc9-a1-m6-cA Structure of Caenorhabditis elegans leucine aminopeptidase-zinc complex (LAP1) P34629 P34629 1.85 X-RAY DIFFRACTION 25 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 489 489 2hb6-a1-m1-cA_2hb6-a1-m2-cB 2hb6-a1-m1-cB_2hb6-a1-m3-cA 2hb6-a1-m2-cA_2hb6-a1-m3-cB 2hc9-a1-m1-cA_2hc9-a1-m5-cA 2hc9-a1-m2-cA_2hc9-a1-m4-cA TQVLVRNGIQAVGDGLTSLIIVGKKSVLKNVTFEGKFKEVAQKFVTDGDSWNSMISRIPASGRHPLHYELAHLITVPDASSRGNTPTNAHSIYKELKPINYPEDTKNVHFVLFAEYPDVLSHVAAIARTFCKFSMKTSGIRELNVNIDVVCDKLTNEDAVFLTDLSESVRETARLIDTPANILTTDALVDEAVKVGNATGSKITVIRGEELLKAGFGGIYHVGKAGPTPPAFVVLSHEVPGSTEHIALVGKGVVYDTGGLQIKTKTGMPNMKRDMGGAAGMLEAYSALVKHGFSQTLHACLCIVENNVSPIANKPDDIIKMLSGKTVEINNTDAEGRLILADGVFYAKETLKATTIFDMATLTGAQAWLSGRLHGAAMTNDEQLENEIIKAGKASGDLVAPMLFAPDLFFGDLKSSIADMKNSNLGKMDGPPSAVAGLLIGAHIGFGEGLRWLHLDIAAPAEVGDRGTGYGPALFSTLLGKYTSVPMLK TQVLVRNGIQAVGDGLTSLIIVGKKSVLKNVTFEGKFKEVAQKFVTDGDSWNSMISRIPASGRHPLHYELAHLITVPDASSRGNTPTNAHSIYKELKPINYPEDTKNVHFVLFAEYPDVLSHVAAIARTFCKFSMKTSGIRELNVNIDVVCDKLTNEDAVFLTDLSESVRETARLIDTPANILTTDALVDEAVKVGNATGSKITVIRGEELLKAGFGGIYHVGKAGPTPPAFVVLSHEVPGSTEHIALVGKGVVYDTGGLQIKTKTGMPNMKRDMGGAAGMLEAYSALVKHGFSQTLHACLCIVENNVSPIANKPDDIIKMLSGKTVEINNTDAEGRLILADGVFYAKETLKATTIFDMATLTGAQAWLSGRLHGAAMTNDEQLENEIIKAGKASGDLVAPMLFAPDLFFGDLKSSIADMKNSNLGKMDGPPSAVAGLLIGAHIGFGEGLRWLHLDIAAPAEVGDRGTGYGPALFSTLLGKYTSVPMLK 2hc9-a1-m5-cA_2hc9-a1-m6-cA Structure of Caenorhabditis elegans leucine aminopeptidase-zinc complex (LAP1) P34629 P34629 1.85 X-RAY DIFFRACTION 75 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 489 489 2hb6-a1-m1-cA_2hb6-a1-m2-cA 2hb6-a1-m1-cA_2hb6-a1-m3-cA 2hb6-a1-m1-cB_2hb6-a1-m2-cB 2hb6-a1-m1-cB_2hb6-a1-m3-cB 2hb6-a1-m2-cA_2hb6-a1-m3-cA 2hb6-a1-m2-cB_2hb6-a1-m3-cB 2hc9-a1-m1-cA_2hc9-a1-m2-cA 2hc9-a1-m1-cA_2hc9-a1-m3-cA 2hc9-a1-m2-cA_2hc9-a1-m3-cA 2hc9-a1-m4-cA_2hc9-a1-m5-cA 2hc9-a1-m4-cA_2hc9-a1-m6-cA TQVLVRNGIQAVGDGLTSLIIVGKKSVLKNVTFEGKFKEVAQKFVTDGDSWNSMISRIPASGRHPLHYELAHLITVPDASSRGNTPTNAHSIYKELKPINYPEDTKNVHFVLFAEYPDVLSHVAAIARTFCKFSMKTSGIRELNVNIDVVCDKLTNEDAVFLTDLSESVRETARLIDTPANILTTDALVDEAVKVGNATGSKITVIRGEELLKAGFGGIYHVGKAGPTPPAFVVLSHEVPGSTEHIALVGKGVVYDTGGLQIKTKTGMPNMKRDMGGAAGMLEAYSALVKHGFSQTLHACLCIVENNVSPIANKPDDIIKMLSGKTVEINNTDAEGRLILADGVFYAKETLKATTIFDMATLTGAQAWLSGRLHGAAMTNDEQLENEIIKAGKASGDLVAPMLFAPDLFFGDLKSSIADMKNSNLGKMDGPPSAVAGLLIGAHIGFGEGLRWLHLDIAAPAEVGDRGTGYGPALFSTLLGKYTSVPMLK TQVLVRNGIQAVGDGLTSLIIVGKKSVLKNVTFEGKFKEVAQKFVTDGDSWNSMISRIPASGRHPLHYELAHLITVPDASSRGNTPTNAHSIYKELKPINYPEDTKNVHFVLFAEYPDVLSHVAAIARTFCKFSMKTSGIRELNVNIDVVCDKLTNEDAVFLTDLSESVRETARLIDTPANILTTDALVDEAVKVGNATGSKITVIRGEELLKAGFGGIYHVGKAGPTPPAFVVLSHEVPGSTEHIALVGKGVVYDTGGLQIKTKTGMPNMKRDMGGAAGMLEAYSALVKHGFSQTLHACLCIVENNVSPIANKPDDIIKMLSGKTVEINNTDAEGRLILADGVFYAKETLKATTIFDMATLTGAQAWLSGRLHGAAMTNDEQLENEIIKAGKASGDLVAPMLFAPDLFFGDLKSSIADMKNSNLGKMDGPPSAVAGLLIGAHIGFGEGLRWLHLDIAAPAEVGDRGTGYGPALFSTLLGKYTSVPMLK 2hci-a1-m1-cB_2hci-a1-m1-cA Structure of Human Mip-3a Chemokine P78556 P78556 1.81 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 68 5ur7-a1-m1-cA_5ur7-a1-m1-cB 7t1e-a1-m1-cB_7t1e-a1-m1-cA 7t1e-a2-m1-cC_7t1e-a2-m1-cD DCCLGYTDRILHPKFIVGFTRQLANEGCDINAIIFHTKKKLSVCANPKQTWVKYIVRLLSKKVKN SNFDCCLGYTDRILHPKFIVGFTRQLANEGCDINAIIFHTKKKLSVCANPKQTWVKYIVRLLSKKVKN 2hck-a1-m1-cA_2hck-a1-m1-cB SRC FAMILY KINASE HCK-QUERCETIN COMPLEX P08631 P08631 3 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 437 437 EDIIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVDSLETEEWFFKGISRKDAERQLLAPGNMLGSFMIRDSETTKGSYSLSVRDYDPRQGDTVKHYKIRTLDNGGFYISPRSTFSTLQELVDHYKKGNDGLCQKLSVPCMSSKPQKPWEKDAWEIPRESLKLEKKLGAGQFGEVWMATYNKHTKVAVKTMKPGSMSVEAFLAEANVMKTLQHDKLVKLHAVVTKEPIYIITEFMAKGSLLDFLKSDEGSKQPLPKLIDFSAQIAEGMAFIEQRNYIHRDLRAANILVSASLVCKIADFGLARVGAKFPIKWTAPEAINFGSFTIKSDVWSFGILLMEIVTYGRIPYPGMSNPEVIRALERGYRMPRPENCPEELYNIMMRCWKNRPEERPTFEYIQSVLDDFYTATESQQQQP EDIIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVDSLETEEWFFKGISRKDAERQLLAPGNMLGSFMIRDSETTKGSYSLSVRDYDPRQGDTVKHYKIRTLDNGGFYISPRSTFSTLQELVDHYKKGNDGLCQKLSVPCMSSKPQKPWEKDAWEIPRESLKLEKKLGAGQFGEVWMATYNKHTKVAVKTMKPGSMSVEAFLAEANVMKTLQHDKLVKLHAVVTKEPIYIITEFMAKGSLLDFLKSDEGSKQPLPKLIDFSAQIAEGMAFIEQRNYIHRDLRAANILVSASLVCKIADFGLARVGAKFPIKWTAPEAINFGSFTIKSDVWSFGILLMEIVTYGRIPYPGMSNPEVIRALERGYRMPRPENCPEELYNIMMRCWKNRPEERPTFEYIQSVLDDFYTATESQQQQP 2hcm-a1-m1-cA_2hcm-a1-m2-cA Crystal structure of mouse putative dual specificity phosphatase complexed with zinc tungstate, New York Structural Genomics Consortium Q8BTR5 Q8BTR5 2 X-RAY DIFFRACTION 72 1.0 10090 (Mus musculus) 10090 (Mus musculus) 159 159 SLGTSEAAPPPFARVAPALFIGNARAAGATELLVRAGITLCVNVSRQQPGPRAPGVAELRVPVFDDPAEDLLTHLEPTCAAMEAAVRDGGSCLVYCKNGRSRSAAVCTAYLMRHRGHSLDRAFQMVKSARPVAEPNLGFWAQLQKYEQTLQAQAILPRE SLGTSEAAPPPFARVAPALFIGNARAAGATELLVRAGITLCVNVSRQQPGPRAPGVAELRVPVFDDPAEDLLTHLEPTCAAMEAAVRDGGSCLVYCKNGRSRSAAVCTAYLMRHRGHSLDRAFQMVKSARPVAEPNLGFWAQLQKYEQTLQAQAILPRE 2hd0-a6-m1-cK_2hd0-a6-m1-cL Structure of the catalytic domain of hepatitis C virus NS2 P27958 P27958 2.28 X-RAY DIFFRACTION 163 1.0 11103 () 11103 () 127 127 2hd0-a1-m1-cA_2hd0-a1-m1-cB 2hd0-a2-m1-cC_2hd0-a2-m1-cD 2hd0-a3-m1-cE_2hd0-a3-m1-cF 2hd0-a4-m1-cG_2hd0-a4-m1-cH 2hd0-a5-m1-cI_2hd0-a5-m1-cJ SHMQASLLKVPYFVRVQGLLRICALARKIAGGHYVQMAIIKLGALTGTYVYNHLTPLRDWAHNGLRDLAVAVEPVVFSRMETKLITWGADTAACGDIINGLPVSARRGQEILLGPADGMVSKGWRLL SHMQASLLKVPYFVRVQGLLRICALARKIAGGHYVQMAIIKLGALTGTYVYNHLTPLRDWAHNGLRDLAVAVEPVVFSRMETKLITWGADTAACGDIINGLPVSARRGQEILLGPADGMVSKGWRLL 2hd3-a1-m1-cC_2hd3-a1-m1-cD Crystal Structure of the Ethanolamine Utilization Protein EutN from Escherichia coli, NESG Target ER316 P0AEJ9 P0AEJ9 2.4 X-RAY DIFFRACTION 56 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 81 93 2z9h-a1-m1-cC_2z9h-a1-m1-cD KLAVVTGQIVCTVRHHGLAHDKLLVEIDPQGNPDGQCAVAIDNIGAGTGEWVLLVSGSVDLCVIGIVDEVVSGGQVIFHKL KLAVVTGQIVCTVRHHGLAHDKLLVEIDPQGNPDGQCAVAIDNIGAGTGEWVLLVSGSSARQAHKSETSPVDLCVIGIVDEVVSGGQVIFHKL 2hda-a2-m2-cA_2hda-a2-m6-cA Yes SH3 domain P07947 P07947 1.9 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 2hda-a2-m1-cA_2hda-a2-m4-cA 2hda-a2-m3-cA_2hda-a2-m5-cA GVTIFVALYDYEARTTEDLSFKKGERFQIINNTEGDWWEARSIATGKNGYIPSNYVAPA GVTIFVALYDYEARTTEDLSFKKGERFQIINNTEGDWWEARSIATGKNGYIPSNYVAPA 2hda-a3-m2-cA_2hda-a3-m3-cA Yes SH3 domain P07947 P07947 1.9 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 2hda-a2-m1-cA_2hda-a2-m2-cA 2hda-a2-m1-cA_2hda-a2-m3-cA 2hda-a2-m2-cA_2hda-a2-m3-cA 2hda-a2-m4-cA_2hda-a2-m5-cA 2hda-a2-m4-cA_2hda-a2-m6-cA 2hda-a2-m5-cA_2hda-a2-m6-cA 2hda-a3-m1-cA_2hda-a3-m2-cA 2hda-a3-m1-cA_2hda-a3-m3-cA GVTIFVALYDYEARTTEDLSFKKGERFQIINNTEGDWWEARSIATGKNGYIPSNYVAPA GVTIFVALYDYEARTTEDLSFKKGERFQIINNTEGDWWEARSIATGKNGYIPSNYVAPA 2hdj-a3-m2-cB_2hdj-a3-m3-cB Crystal structure of human type 3 3alpha-hydroxysteroid dehydrogenase in complex with NADP(H) P52895 P52895 2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 322 322 2hdj-a3-m1-cB_2hdj-a3-m2-cB 2hdj-a3-m1-cB_2hdj-a3-m3-cB DSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEAVKLAIEAGFHHIDSAHVYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKDENGKILFDTVDLCATWEAMEKCKDAGLAKSIGVSNFNHRLLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSHREEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDIFAGPPNYPFSDEY DSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEAVKLAIEAGFHHIDSAHVYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKDENGKILFDTVDLCATWEAMEKCKDAGLAKSIGVSNFNHRLLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSHREEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDIFAGPPNYPFSDEY 2hdj-a4-m1-cA_2hdj-a4-m4-cA Crystal structure of human type 3 3alpha-hydroxysteroid dehydrogenase in complex with NADP(H) P52895 P52895 2 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 322 322 DSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEAVKLAIEAGFHHIDSAHVYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKDENGKILFDTVDLCATWEAMEKCKDAGLAKSIGVSNFNHRLLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSHREEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDIFAGPPNYPFSDEY DSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEAVKLAIEAGFHHIDSAHVYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKDENGKILFDTVDLCATWEAMEKCKDAGLAKSIGVSNFNHRLLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSHREEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDIFAGPPNYPFSDEY 2hdn-a9-m1-cF_2hdn-a9-m1-cH Trypsin-modified Elongation Factor Tu in complex with tetracycline at 2.8 Angstrom resolution P0CE47 P0CE47 2.8 X-RAY DIFFRACTION 60 1.0 562 (Escherichia coli) 562 (Escherichia coli) 335 335 2hdn-a7-m1-cB_2hdn-a7-m1-cD 2hdn-a8-m1-cJ_2hdn-a8-m1-cL GITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLG GITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLG 2hdw-a3-m1-cB_2hdw-a3-m1-cA Crystal structure of hypothetical protein PA2218 from Pseudomonas Aeruginosa Q01609 Q01609 2 X-RAY DIFFRACTION 137 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 318 321 LQLTQEWDKTFPLSAKVEHRKVTFANRYGITLAADLYLPKNRGGDRLPAIVIGGPFGAVKEQSSGLYAQTMAERGFVTLAFDPSYTGESGGQPRNVASPDINTEDFSAAVDFISLLPEVNRERIGVIGICGWGGMALNAVAVDKRVKAVVTSTMYDMTRVMSKGYNDSVTLEQRTRTLEQLGQQRWKDAESGTPAYQPPYNELKGGEAQFLVDYHDYYMTPRGYHPRAVNSGNAWTMTTPLSFMNMPILTYIKEISPRPILLIHGERAHSRYFSETAYAAAAEPKELLIVPGASHVDLYDRLDRIPFDRIAGFFDEHL NMQLQLTQEWDKTFPLSAKVEHRKVTFANRYGITLAADLYLPKNRGGDRLPAIVIGGPFGAVKEQSSGLYAQTMAERGFVTLAFDPSYTGESGGQPRNVASPDINTEDFSAAVDFISLLPEVNRERIGVIGICGWGGMALNAVAVDKRVKAVVTSTMYDMTRVMSKGYNDSVTLEQRTRTLEQLGQQRWKDAESGTPAYQPPYNELKGGEAQFLVDYHDYYMTPRGYHPRAVNSGNAWTMTTPLSFMNMPILTYIKEISPRPILLIHGERAHSRYFSETAYAAAAEPKELLIVPGASHVDLYDRLDRIPFDRIAGFFDEHL 2he0-a1-m1-cB_2he0-a1-m1-cA Crystal structure of a human Notch1 ankyrin domain mutant P46531 P46531 1.9 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 195 3nbn-a1-m1-cB_3nbn-a1-m1-cE QTDRTGATALHLAAAYSRSDAAKRLLEASADANIQDNMGRTPLHAAVSADAQGVFQILIRNRATDLDARMHDGTTPLILAARLAVEGMLEDLINSHADVNAVDDLGKSALHWAAAVNNVDAAVVLLKNGANKDMQNNREETPLFLAAREGSYETAKVLLDHFANRDITDHMDRLPRDIAQERMHHDIVRLLDL HNQTDRTGATALHLAAAYSRSDAAKRLLEASADANIQDNMGRTPLHAAVSADAQGVFQILIRNRATDLDARMHDGTTPLILAARLAVEGMLEDLINSHADVNAVDDLGKSALHWAAAVNNVDAAVVLLKNGANKDMQNNREETPLFLAAREGSYETAKVLLDHFANRDITDHMDRLPRDIAQERMHHDIVRLLDL 2he3-a1-m2-cA_2he3-a1-m4-cA Crystal structure of the selenocysteine to cysteine mutant of human glutathionine peroxidase 2 (GPX2) P18283 P18283 2.1 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 2he3-a1-m1-cA_2he3-a1-m3-cA MIAKSFYDLSAINLDGEKVDFNTFRGRAVLIENVASLCGTTTRDFTQLNELQCRFPRRLVVLGFPCNQFGHQENCQNEEILNSLKYVRPGGGYQPTFTLVQKCEVNGQNEHPVFAYLKDKLPYPYDDPFSLMTDPKLIIWSPVRRSDVAWNFEKFLIGPEGEPFRRYSRTFPTINIEPDIKRLLK MIAKSFYDLSAINLDGEKVDFNTFRGRAVLIENVASLCGTTTRDFTQLNELQCRFPRRLVVLGFPCNQFGHQENCQNEEILNSLKYVRPGGGYQPTFTLVQKCEVNGQNEHPVFAYLKDKLPYPYDDPFSLMTDPKLIIWSPVRRSDVAWNFEKFLIGPEGEPFRRYSRTFPTINIEPDIKRLLK 2he3-a1-m3-cA_2he3-a1-m4-cA Crystal structure of the selenocysteine to cysteine mutant of human glutathionine peroxidase 2 (GPX2) P18283 P18283 2.1 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 2he3-a1-m1-cA_2he3-a1-m2-cA MIAKSFYDLSAINLDGEKVDFNTFRGRAVLIENVASLCGTTTRDFTQLNELQCRFPRRLVVLGFPCNQFGHQENCQNEEILNSLKYVRPGGGYQPTFTLVQKCEVNGQNEHPVFAYLKDKLPYPYDDPFSLMTDPKLIIWSPVRRSDVAWNFEKFLIGPEGEPFRRYSRTFPTINIEPDIKRLLK MIAKSFYDLSAINLDGEKVDFNTFRGRAVLIENVASLCGTTTRDFTQLNELQCRFPRRLVVLGFPCNQFGHQENCQNEEILNSLKYVRPGGGYQPTFTLVQKCEVNGQNEHPVFAYLKDKLPYPYDDPFSLMTDPKLIIWSPVRRSDVAWNFEKFLIGPEGEPFRRYSRTFPTINIEPDIKRLLK 2he5-a2-m1-cD_2he5-a2-m1-cB Crystal structure of 17alpha-hydroxysteroid dehydrogenase in binary complex with NADP(H) in an open conformation Q91WR5 Q91WR5 2.9 X-RAY DIFFRACTION 70 1.0 10090 (Mus musculus) 10090 (Mus musculus) 314 318 2he5-a1-m1-cC_2he5-a1-m1-cA 2he8-a1-m1-cA_2he8-a1-m1-cB HCVILNDGNFIPVLGFGTALPLECPKSKAKELTKIAIDAGFHHFDSASVYNTEDHVGEAIRSKIADGTVRREDIFYTSKVWCTSLHPELVRASLERSLQKLQFDYVDLYLIHYPMALKPGEENFPVDEHGKLIFDRVDLCATWEAMEKCKDAGLTKSIGVSNFNYRQLEMILNKPGLKYKPVCNQVECHPYLNQMKLLDFCKSKDIVLVAYGVLGTGWVDQNSPVLLDEPVLGSMAKKYNRTPALIALRYQLQRGIVVLNTSLKEERIKENMQVFEFQLSSEDMKVLDGLNRNMRYIPAAIFKGHPNWPFLDEY HCVILNDGNFIPVLGFGTALPLECPKSKAKELTKIAIDAGFHHFDSASVYNTEDHVGEAIRSKIADGTVRREDIFYTSKVWCTSLHPELVRASLERSLQKLQFDYVDLYLIHYPMALKPGEENFPVDEHGKLIFDRVDLCATWEAMEKCKDAGLTKSIGVSNFNYRQLEMILNKPGLKYKPVCNQVECHPYLNQMKLLDFCKSKDIVLVAYGVLGTQRYGGWVDQNSPVLLDEPVLGSMAKKYNRTPALIALRYQLQRGIVVLNTSLKEERIKENMQVFEFQLSSEDMKVLDGLNRNMRYIPAAIFKGHPNWPFLDEY 2hei-a1-m1-cA_2hei-a1-m1-cB Crystal structure of human RAB5B in complex with GDP P61020 P61020 1.55 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 165 ICQFKLVLLGESAVGKSSLVLRFVKGQFHEYQESTIGAAFLTQSVCLTVKFEIWDTAGQERYHSLAPMYYRGAQAAIVVYDITNQETFARAKTWVKELQRQASPSIVIALAGNKADLANKRMVEYEEAQAYADDNSLLFMETSAKTAMNVNDLFLAIAKKLPK KICQFKLVLLGESAVGKSSLVLRFVKGQFHEYQESTIGAAFLTQSVCLTTVKFEIWDTAGQERYHSLAPMYYRGAQAAIVVYDITNQETFARAKTWVKELQRQASPSIVIALAGNKADLANKRMVEYEEAQAYADDNSLLFMETSAKTAMNVNDLFLAIAKKLPK 2hek-a1-m1-cA_2hek-a1-m2-cB Crystal structure of O67745, a hypothetical protein from Aquifex aeolicus at 2.0 A resolution. O67745 O67745 1.997 X-RAY DIFFRACTION 56 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 369 369 2hek-a1-m1-cB_2hek-a1-m2-cA MIKEFSDPLYGFVRVGEAGLRLIDSFPFQRLRYVKQLGLAYLVFPSAQHTRFEHSLGVYHITERICESLKVKEKELVKLAGLLHDLGHPPFSHTTEVLLPRERSHEDFTERVIKETEIYEILKQDYSHEDIERLVRITLGKPEDEEEKLLSEIITGEFGSDRMDYLRRDAYFCGVSYGFFDYDRLISTLRVYENKVVVDESGLRALENFLISRYFMYVQVYFHKVVRILSIHLVEFLKKLISQEDFTDINNFLRLNDAFVISELFKRKAFREDFERIFQRKHFKTLLSTENYEKFSETKERLLEKFPQEKVRFDEVEKEVYGGNIYVLSSEGLKKAHELSPLIASLKPIKLYRIYVDRQLWEKARSELK MIKEFSDPLYGFVRVGEAGLRLIDSFPFQRLRYVKQLGLAYLVFPSAQHTRFEHSLGVYHITERICESLKVKEKELVKLAGLLHDLGHPPFSHTTEVLLPRERSHEDFTERVIKETEIYEILKQDYSHEDIERLVRITLGKPEDEEEKLLSEIITGEFGSDRMDYLRRDAYFCGVSYGFFDYDRLISTLRVYENKVVVDESGLRALENFLISRYFMYVQVYFHKVVRILSIHLVEFLKKLISQEDFTDINNFLRLNDAFVISELFKRKAFREDFERIFQRKHFKTLLSTENYEKFSETKERLLEKFPQEKVRFDEVEKEVYGGNIYVLSSEGLKKAHELSPLIASLKPIKLYRIYVDRQLWEKARSELK 2hek-a1-m2-cA_2hek-a1-m2-cB Crystal structure of O67745, a hypothetical protein from Aquifex aeolicus at 2.0 A resolution. O67745 O67745 1.997 X-RAY DIFFRACTION 68 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 369 369 2hek-a1-m1-cA_2hek-a1-m1-cB MIKEFSDPLYGFVRVGEAGLRLIDSFPFQRLRYVKQLGLAYLVFPSAQHTRFEHSLGVYHITERICESLKVKEKELVKLAGLLHDLGHPPFSHTTEVLLPRERSHEDFTERVIKETEIYEILKQDYSHEDIERLVRITLGKPEDEEEKLLSEIITGEFGSDRMDYLRRDAYFCGVSYGFFDYDRLISTLRVYENKVVVDESGLRALENFLISRYFMYVQVYFHKVVRILSIHLVEFLKKLISQEDFTDINNFLRLNDAFVISELFKRKAFREDFERIFQRKHFKTLLSTENYEKFSETKERLLEKFPQEKVRFDEVEKEVYGGNIYVLSSEGLKKAHELSPLIASLKPIKLYRIYVDRQLWEKARSELK MIKEFSDPLYGFVRVGEAGLRLIDSFPFQRLRYVKQLGLAYLVFPSAQHTRFEHSLGVYHITERICESLKVKEKELVKLAGLLHDLGHPPFSHTTEVLLPRERSHEDFTERVIKETEIYEILKQDYSHEDIERLVRITLGKPEDEEEKLLSEIITGEFGSDRMDYLRRDAYFCGVSYGFFDYDRLISTLRVYENKVVVDESGLRALENFLISRYFMYVQVYFHKVVRILSIHLVEFLKKLISQEDFTDINNFLRLNDAFVISELFKRKAFREDFERIFQRKHFKTLLSTENYEKFSETKERLLEKFPQEKVRFDEVEKEVYGGNIYVLSSEGLKKAHELSPLIASLKPIKLYRIYVDRQLWEKARSELK 2hev-a1-m2-cF_2hev-a1-m3-cF Crystal structure of the complex between OX40L and OX40 P23510 P23510 2.41 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 2hev-a1-m1-cF_2hev-a1-m2-cF 2hev-a1-m1-cF_2hev-a1-m3-cF RIQSIKVQFTEYKKEKGFILTSQKEDEIMKVQDNSVIINCDGFYLISLKGYFSQEVDISLHYQKDEEPLFQLKKVRSVNSLMVASLTYKDKVYLNVTTDNTSLDDFHVNGGELILIHQNPGEFCVL RIQSIKVQFTEYKKEKGFILTSQKEDEIMKVQDNSVIINCDGFYLISLKGYFSQEVDISLHYQKDEEPLFQLKKVRSVNSLMVASLTYKDKVYLNVTTDNTSLDDFHVNGGELILIHQNPGEFCVL 2hey-a1-m2-cF_2hey-a1-m3-cF Crystal structure of murine OX40L bound to human OX40 P43488 P43488 2 X-RAY DIFFRACTION 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 135 135 2hew-a1-m1-cF_2hew-a1-m2-cF 2hew-a1-m1-cF_2hew-a1-m3-cF 2hew-a1-m2-cF_2hew-a1-m3-cF 2hey-a1-m1-cF_2hey-a1-m2-cF 2hey-a1-m1-cF_2hey-a1-m3-cF 2hey-a2-m1-cG_2hey-a2-m4-cG 2hey-a2-m1-cG_2hey-a2-m5-cG 2hey-a2-m4-cG_2hey-a2-m5-cG DPPIQRLRGAVTRCEDGQLFISSYKNEYQTMEVQNNSVVIKCDGLYIIYLKGSFFQEVKIDLHFREDHNPISIPMLNDGRRIVFTVVASLAFKDKVYLTVNAPDTLCEHLQINDGELIVVQLTPGYCAPEGSYHS DPPIQRLRGAVTRCEDGQLFISSYKNEYQTMEVQNNSVVIKCDGLYIIYLKGSFFQEVKIDLHFREDHNPISIPMLNDGRRIVFTVVASLAFKDKVYLTVNAPDTLCEHLQINDGELIVVQLTPGYCAPEGSYHS 2hf0-a1-m1-cA_2hf0-a1-m2-cB Bifidobacterium longum bile salt hydrolase Q9KK62 Q9KK62 2.3 X-RAY DIFFRACTION 94 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 316 316 2hez-a1-m1-cA_2hez-a1-m2-cB 2hez-a1-m1-cB_2hez-a1-m2-cA 2hf0-a1-m1-cB_2hf0-a1-m2-cA CTGVRFSDDEGNTYFGRNLDWSFSYGETILVTPRGYHYDTVFGAGGKAKPNAVIGVGVVMADRPMYFDCANEHGLAIAGLNFPGYASFVHEPVEGTENVATFEFPLWVARNFDSVDEVEETLRNVTLVSQIVPGQQESLLHWFIGDGKRSIVVEQMADGMHVHHDDVDVLTNQPTFDFHMENLRNYMCVSNEMAEPTSWGKASLTAWGAGVGMHGIPGDVSSPSRFVRVAYTNAHYPQQNDEAANVSRLFHTLGSVQMVDGMAKMGDGQFERTLFTSGYSSKTNTYYMNTYDDPAIRSYAMADYDMDSSELISVAR CTGVRFSDDEGNTYFGRNLDWSFSYGETILVTPRGYHYDTVFGAGGKAKPNAVIGVGVVMADRPMYFDCANEHGLAIAGLNFPGYASFVHEPVEGTENVATFEFPLWVARNFDSVDEVEETLRNVTLVSQIVPGQQESLLHWFIGDGKRSIVVEQMADGMHVHHDDVDVLTNQPTFDFHMENLRNYMCVSNEMAEPTSWGKASLTAWGAGVGMHGIPGDVSSPSRFVRVAYTNAHYPQQNDEAANVSRLFHTLGSVQMVDGMAKMGDGQFERTLFTSGYSSKTNTYYMNTYDDPAIRSYAMADYDMDSSELISVAR 2hf0-a1-m1-cB_2hf0-a1-m2-cB Bifidobacterium longum bile salt hydrolase Q9KK62 Q9KK62 2.3 X-RAY DIFFRACTION 14 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 316 316 2hez-a1-m1-cA_2hez-a1-m1-cB 2hez-a1-m2-cA_2hez-a1-m2-cB 2hf0-a1-m1-cA_2hf0-a1-m2-cA CTGVRFSDDEGNTYFGRNLDWSFSYGETILVTPRGYHYDTVFGAGGKAKPNAVIGVGVVMADRPMYFDCANEHGLAIAGLNFPGYASFVHEPVEGTENVATFEFPLWVARNFDSVDEVEETLRNVTLVSQIVPGQQESLLHWFIGDGKRSIVVEQMADGMHVHHDDVDVLTNQPTFDFHMENLRNYMCVSNEMAEPTSWGKASLTAWGAGVGMHGIPGDVSSPSRFVRVAYTNAHYPQQNDEAANVSRLFHTLGSVQMVDGMAKMGDGQFERTLFTSGYSSKTNTYYMNTYDDPAIRSYAMADYDMDSSELISVAR CTGVRFSDDEGNTYFGRNLDWSFSYGETILVTPRGYHYDTVFGAGGKAKPNAVIGVGVVMADRPMYFDCANEHGLAIAGLNFPGYASFVHEPVEGTENVATFEFPLWVARNFDSVDEVEETLRNVTLVSQIVPGQQESLLHWFIGDGKRSIVVEQMADGMHVHHDDVDVLTNQPTFDFHMENLRNYMCVSNEMAEPTSWGKASLTAWGAGVGMHGIPGDVSSPSRFVRVAYTNAHYPQQNDEAANVSRLFHTLGSVQMVDGMAKMGDGQFERTLFTSGYSSKTNTYYMNTYDDPAIRSYAMADYDMDSSELISVAR 2hf0-a1-m2-cA_2hf0-a1-m2-cB Bifidobacterium longum bile salt hydrolase Q9KK62 Q9KK62 2.3 X-RAY DIFFRACTION 193 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 316 316 2hez-a1-m1-cA_2hez-a1-m2-cA 2hez-a1-m1-cB_2hez-a1-m2-cB 2hf0-a1-m1-cA_2hf0-a1-m1-cB CTGVRFSDDEGNTYFGRNLDWSFSYGETILVTPRGYHYDTVFGAGGKAKPNAVIGVGVVMADRPMYFDCANEHGLAIAGLNFPGYASFVHEPVEGTENVATFEFPLWVARNFDSVDEVEETLRNVTLVSQIVPGQQESLLHWFIGDGKRSIVVEQMADGMHVHHDDVDVLTNQPTFDFHMENLRNYMCVSNEMAEPTSWGKASLTAWGAGVGMHGIPGDVSSPSRFVRVAYTNAHYPQQNDEAANVSRLFHTLGSVQMVDGMAKMGDGQFERTLFTSGYSSKTNTYYMNTYDDPAIRSYAMADYDMDSSELISVAR CTGVRFSDDEGNTYFGRNLDWSFSYGETILVTPRGYHYDTVFGAGGKAKPNAVIGVGVVMADRPMYFDCANEHGLAIAGLNFPGYASFVHEPVEGTENVATFEFPLWVARNFDSVDEVEETLRNVTLVSQIVPGQQESLLHWFIGDGKRSIVVEQMADGMHVHHDDVDVLTNQPTFDFHMENLRNYMCVSNEMAEPTSWGKASLTAWGAGVGMHGIPGDVSSPSRFVRVAYTNAHYPQQNDEAANVSRLFHTLGSVQMVDGMAKMGDGQFERTLFTSGYSSKTNTYYMNTYDDPAIRSYAMADYDMDSSELISVAR 2hf1-a3-m1-cB_2hf1-a3-m1-cA Crystal structure of the putative Tetraacyldisaccharide-1-P 4-kinase from Chromobacterium violaceum. NESG target CvR39. Q7NSS5 Q7NSS5 1.9 X-RAY DIFFRACTION 64 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 57 59 KFLEILVCPLCKGPLVFDKSKDELICKGDRLAFPIKDGIPLESEARELAPEEEVKLE DAKFLEILVCPLCKGPLVFDKSKDELICKGDRLAFPIKDGIPLESEARELAPEEEVKLE 2hf7-a1-m2-cA_2hf7-a1-m2-cB Transition State Analogue of AphA class B Acid Phosphatase/Phosphotransferase (Aluminium Fluoride Complex) P0AE22 P0AE22 1.6 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 211 1n8n-a1-m1-cA_1n8n-a1-m2-cA 1n8n-a1-m3-cA_1n8n-a1-m4-cA 1n9k-a1-m1-cA_1n9k-a1-m2-cA 1n9k-a1-m1-cB_1n9k-a1-m2-cB 1rmq-a1-m1-cB_1rmq-a1-m2-cA 1rmq-a1-m2-cB_1rmq-a1-m1-cA 1rmt-a1-m1-cC_1rmt-a1-m1-cB 1rmt-a1-m1-cD_1rmt-a1-m1-cA 1rmt-a2-m1-cD_1rmt-a2-m1-cA 1rmt-a2-m2-cC_1rmt-a2-m2-cB 1rmt-a3-m1-cD_1rmt-a3-m1-cA 1rmt-a4-m1-cC_1rmt-a4-m1-cB 1rmy-a1-m1-cA_1rmy-a1-m1-cB 1rmy-a1-m2-cA_1rmy-a1-m2-cB 1z5g-a1-m1-cA_1z5g-a1-m1-cB 1z5g-a1-m1-cC_1z5g-a1-m1-cD 1z5u-a1-m1-cA_1z5u-a1-m1-cB 1z5u-a1-m1-cC_1z5u-a1-m1-cD 1z88-a1-m1-cA_1z88-a1-m1-cB 1z88-a1-m1-cC_1z88-a1-m1-cD 2aut-a1-m1-cA_2aut-a1-m1-cB 2aut-a1-m1-cC_2aut-a1-m1-cD 2b82-a1-m1-cA_2b82-a1-m1-cB 2b82-a1-m2-cA_2b82-a1-m2-cB 2b8j-a1-m1-cA_2b8j-a1-m1-cB 2b8j-a1-m2-cA_2b8j-a1-m2-cB 2g1a-a1-m1-cA_2g1a-a1-m1-cB 2g1a-a1-m2-cA_2g1a-a1-m2-cB 2heg-a1-m1-cA_2heg-a1-m1-cB 2heg-a1-m2-cA_2heg-a1-m2-cB 2hf7-a1-m1-cA_2hf7-a1-m1-cB 3cz4-a1-m1-cA_3cz4-a1-m2-cA 3cz4-a1-m3-cA_3cz4-a1-m4-cA SPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY SPSPLNPGTNVARLAEQAPIHWVSVAQIENSLAGRPPMAVGFDIDDTVLFSSPGFWRGKKTFSPESEDYLKNPVFWEKMNNGWDEFSIPKEVARQLIDMHVRRGDAIFFVTGRSPTKTETVSKTLADNFHIPATNMNPVIFAGDKPGQNTKSQWLQDKNIRIFYGDSDNDITAARDVGARGIRILRASNSTYKPLPQAGAFGEEVIVNSEY 2hf9-a1-m1-cB_2hf9-a1-m1-cA Crystal structure of HypB from Methanocaldococcus jannaschii in the triphosphate form Q57884 Q57884 1.9 X-RAY DIFFRACTION 89 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 209 211 2hf8-a1-m1-cB_2hf8-a1-m1-cA DILKANKRLADKNRKLLNKHGVVAFDFMGAIGSGKTLLIEKLIDNLKDKYKIACIAGDVIAKFDAERMEKHGAKVVPLNTGKECHLDAHLVGHALEDLNLDEIDLLFIENVGNLICPADFDLGTHKRIVVISTTEGDDTIEKHPGIMKTADLIVINKIDLADAVGADIKKMENDAKRINPDAEVVLLSLKTMEGFDKVLEFIEKSVKEV KDILKANKRLADKNRKLLNKHGVVAFDFMGAIGSGKTLLIEKLIDNLKDKYKIACIAGDVIAKFDAERMEKHGAKVVPLNTGKECHLDAHLVGHALEDLNLDEIDLLFIENVGNLICPADFDLGTHKRIVVISTTEGDDTIEKHPGIMKTADLIVINKIDLADAVGADIKKMENDAKRINPDAEVVLLSLKTMEGFDKVLEFIEKSVKEVK 2hfk-a2-m1-cA_2hfk-a2-m2-cA Pikromycin thioesterase in complex with product 10-deoxymethynolide Q9ZGI2 Q9ZGI2 1.79 X-RAY DIFFRACTION 19 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 280 280 2h7x-a2-m1-cA_2h7x-a2-m2-cA 2h7y-a2-m1-cA_2h7y-a2-m2-cA 2hfj-a2-m1-cA_2hfj-a2-m2-cA AGMFRALFRQAVEDDRYGEFLDVLAEASAFRPQFASPEACSERLDPVLLAGGPTDAEGRAVLVGCTGTAANGGPHEFLRLSTSFQEERDFLAVPLPGYGTGGTALLPADLDTALDAQARAILRAAGDAPVVLLGHAGGALLAHELAFRLERAHGAPPAGIVLVDPYPPGHQEPIEVWSRQLGEGLFAGELEPMSDARLLAMGRYARFLAGPRPGRSSAPVLLVRASEPLGDWQEERGDWRAHWDLPHTVADVPGDHFTMMRDHAPAVAEAVLSWLDAIEG AGMFRALFRQAVEDDRYGEFLDVLAEASAFRPQFASPEACSERLDPVLLAGGPTDAEGRAVLVGCTGTAANGGPHEFLRLSTSFQEERDFLAVPLPGYGTGGTALLPADLDTALDAQARAILRAAGDAPVVLLGHAGGALLAHELAFRLERAHGAPPAGIVLVDPYPPGHQEPIEVWSRQLGEGLFAGELEPMSDARLLAMGRYARFLAGPRPGRSSAPVLLVRASEPLGDWQEERGDWRAHWDLPHTVADVPGDHFTMMRDHAPAVAEAVLSWLDAIEG 2hfk-a2-m2-cB_2hfk-a2-m2-cA Pikromycin thioesterase in complex with product 10-deoxymethynolide Q9ZGI2 Q9ZGI2 1.79 X-RAY DIFFRACTION 51 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 277 280 1mn6-a1-m1-cA_1mn6-a1-m1-cB 1mna-a1-m1-cA_1mna-a1-m1-cB 1mnq-a1-m1-cA_1mnq-a1-m1-cB 2h7x-a1-m1-cB_2h7x-a1-m1-cA 2h7x-a2-m1-cB_2h7x-a2-m1-cA 2h7x-a2-m2-cB_2h7x-a2-m2-cA 2h7y-a1-m1-cB_2h7y-a1-m1-cA 2h7y-a2-m1-cB_2h7y-a2-m1-cA 2h7y-a2-m2-cB_2h7y-a2-m2-cA 2hfj-a1-m1-cB_2hfj-a1-m1-cA 2hfj-a2-m1-cB_2hfj-a2-m1-cA 2hfj-a2-m2-cB_2hfj-a2-m2-cA 2hfk-a1-m1-cB_2hfk-a1-m1-cA 2hfk-a2-m1-cB_2hfk-a2-m1-cA AGMFRALFRQAVEDDRYGEFLDVLAEASAFRPQFASPEACSERLDPVLLAGGPTDEGRAVLVGCTGTAANGGPHEFLRLSTSFQEERDFLAVPLPGYGTGTALLPADLDTALDAQARAILRAAGDAPVVLLGHAGGALLAHELAFRLERAHGAPPAGIVLVDPYPPGHQEPIEVWSRQLGEGLFAGELEPMSDARLLAMGRYARFLAGPRPGRSSAPVLLVRASEPLGDWQEERGDWRAHWDLPHTVADVPGDHFTMMRDHAPAVAEAVLSWLDAIE AGMFRALFRQAVEDDRYGEFLDVLAEASAFRPQFASPEACSERLDPVLLAGGPTDAEGRAVLVGCTGTAANGGPHEFLRLSTSFQEERDFLAVPLPGYGTGGTALLPADLDTALDAQARAILRAAGDAPVVLLGHAGGALLAHELAFRLERAHGAPPAGIVLVDPYPPGHQEPIEVWSRQLGEGLFAGELEPMSDARLLAMGRYARFLAGPRPGRSSAPVLLVRASEPLGDWQEERGDWRAHWDLPHTVADVPGDHFTMMRDHAPAVAEAVLSWLDAIEG 2hfn-a1-m1-cE_2hfn-a1-m1-cF Crystal Structures of the Synechocystis Photoreceptor Slr1694 Reveal Distinct Structural States Related to Signaling P74295 P74295 1.8 X-RAY DIFFRACTION 43 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 139 139 2hfn-a1-m1-cB_2hfn-a1-m1-cA 2hfn-a1-m1-cC_2hfn-a1-m1-cD 2hfn-a1-m1-cG_2hfn-a1-m1-cH 2hfn-a1-m1-cI_2hfn-a1-m1-cJ 2hfo-a1-m1-cB_2hfo-a1-m1-cA 2hfo-a1-m1-cC_2hfo-a1-m1-cD 2hfo-a1-m1-cF_2hfo-a1-m1-cE 2hfo-a1-m1-cG_2hfo-a1-m1-cH 2hfo-a1-m1-cJ_2hfo-a1-m1-cI 3mzi-a1-m1-cA_3mzi-a1-m1-cB 3mzi-a2-m1-cC_3mzi-a2-m1-cD 3mzi-a3-m1-cE_3mzi-a3-m1-cF SLYRLIYSSQGIPNLQPQDLKDILESSQRNNPANGITGLLCYSKPAFLQVLEGECEQVNETYHRIVQDERHHSPQIIECMPIRRRNFEVWSMQAITVNDLSTEQVKTLVLKYSGFTTLRPSAMDPEQCLNFLLDIAKIY SLYRLIYSSQGIPNLQPQDLKDILESSQRNNPANGITGLLCYSKPAFLQVLEGECEQVNETYHRIVQDERHHSPQIIECMPIRRRNFEVWSMQAITVNDLSTEQVKTLVLKYSGFTTLRPSAMDPEQCLNFLLDIAKIY 2hfn-a1-m1-cG_2hfn-a1-m1-cI Crystal Structures of the Synechocystis Photoreceptor Slr1694 Reveal Distinct Structural States Related to Signaling P74295 P74295 1.8 X-RAY DIFFRACTION 32 1.0 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 139 139 2hfn-a1-m1-cB_2hfn-a1-m1-cD 2hfn-a1-m1-cB_2hfn-a1-m1-cJ 2hfn-a1-m1-cC_2hfn-a1-m1-cA 2hfn-a1-m1-cE_2hfn-a1-m1-cC 2hfn-a1-m1-cE_2hfn-a1-m1-cG 2hfn-a1-m1-cF_2hfn-a1-m1-cD 2hfn-a1-m1-cF_2hfn-a1-m1-cH 2hfn-a1-m1-cH_2hfn-a1-m1-cJ 2hfn-a1-m1-cI_2hfn-a1-m1-cA 2hfo-a1-m1-cB_2hfo-a1-m1-cD 2hfo-a1-m1-cC_2hfo-a1-m1-cA 2hfo-a1-m1-cC_2hfo-a1-m1-cE 2hfo-a1-m1-cF_2hfo-a1-m1-cD 2hfo-a1-m1-cF_2hfo-a1-m1-cH 2hfo-a1-m1-cG_2hfo-a1-m1-cE 2hfo-a1-m1-cG_2hfo-a1-m1-cI 2hfo-a1-m1-cI_2hfo-a1-m1-cA 2hfo-a1-m1-cJ_2hfo-a1-m1-cB 2hfo-a1-m1-cJ_2hfo-a1-m1-cH SLYRLIYSSQGIPNLQPQDLKDILESSQRNNPANGITGLLCYSKPAFLQVLEGECEQVNETYHRIVQDERHHSPQIIECMPIRRRNFEVWSMQAITVNDLSTEQVKTLVLKYSGFTTLRPSAMDPEQCLNFLLDIAKIY SLYRLIYSSQGIPNLQPQDLKDILESSQRNNPANGITGLLCYSKPAFLQVLEGECEQVNETYHRIVQDERHHSPQIIECMPIRRRNFEVWSMQAITVNDLSTEQVKTLVLKYSGFTTLRPSAMDPEQCLNFLLDIAKIY 2hft-a1-m1-cA_2hft-a1-m2-cA THE CRYSTAL STRUCTURE OF THE EXTRACELLULAR DOMAIN OF HUMAN TISSUE FACTOR AT 1.7 ANGSTROMS RESOLUTION P13726 P13726 1.69 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 205 205 1boy-a1-m1-cA_1boy-a1-m2-cA SGTTNTVAAYNLTWKSTNFKTILEWEPKPVNQVYTVQISTKSGDWKSKCFYTTDTECDLTDEIVKDVKQTYLARVFSYPAGNVESTEPLYENSPEFTPYLETNLGQPTIQSFEQVGTKVNVTVEDERTLVRRNNTFLSLRDVFGKDLIYTLYYWKSSGKKTAKTNTNEFLIDVDKGENYCFSVQAVIPSRTVNRKSTDSPVECMG SGTTNTVAAYNLTWKSTNFKTILEWEPKPVNQVYTVQISTKSGDWKSKCFYTTDTECDLTDEIVKDVKQTYLARVFSYPAGNVESTEPLYENSPEFTPYLETNLGQPTIQSFEQVGTKVNVTVEDERTLVRRNNTFLSLRDVFGKDLIYTLYYWKSSGKKTAKTNTNEFLIDVDKGENYCFSVQAVIPSRTVNRKSTDSPVECMG 2hg2-a1-m3-cA_2hg2-a1-m4-cA Structure of Lactaldehyde Dehydrogenase P25553 P25553 2.2 X-RAY DIFFRACTION 75 1.0 562 (Escherichia coli) 562 (Escherichia coli) 477 477 2hg2-a1-m1-cA_2hg2-a1-m2-cA 2ilu-a1-m1-cA_2ilu-a1-m2-cA 2ilu-a1-m3-cA_2ilu-a1-m4-cA 2imp-a1-m1-cA_2imp-a1-m2-cA 2imp-a1-m3-cA_2imp-a1-m4-cA 2opx-a1-m1-cA_2opx-a1-m2-cA 2opx-a1-m3-cA_2opx-a1-m4-cA VPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVCLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS VPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVCLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS 2hg4-a1-m1-cA_2hg4-a1-m1-cB Structure of the ketosynthase-acyltransferase didomain of module 5 from DEBS. Q03133 Q03133 2.73 X-RAY DIFFRACTION 254 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 867 867 2hg4-a2-m1-cC_2hg4-a2-m1-cD 2hg4-a3-m1-cF_2hg4-a3-m1-cE EEKLRRYLKRTVTELDSVTARLREVEHRAGEPIAIVGACRFPGDVDSPESFWEFVSGGGDAIAEAPADRGWEPDPDARLGGLAAAGDFDAGFFGISPREALADPQQRILEISWEALERAGHDPVSLRGSATGVFTGVGTVDYGPRPDEAPDEVLGYVGTGTASSVASGRVAYCLGLEGPATVDTACSSGLTALHLAESLRRDECGLALAGGVTVSSPGAFTEFRSQGGLAADGRCKPFSKAADGFGLAEGAGVLVLQRLSAARREGRPVLAVLRGSAVNQDGASNGLTAPSGPAQQRVIRRALENAGVRAGDVDYVEAHGTGTRLGDPIEVHALLSTYGAERDPDDPLWIGSVKSNIGHTQAAAGVAGVKAVLALRHGEPRTLHFDEPSPQIEWAVSVVSQARSWPAGERPRRAGVSSFGISGTNAHVIVEEAPEADGPVPLVLSGRDEQARAQAGRLADHLAREPRNSLRDTGFTLATRRSAWEHRAVVVGDRDEALAGLRAVADGRIADRTATGQARTRRGVAVFPGQGAQWQGARDLLRESQVFADSIRDCERALAPHVDWSLTDLLSGARPLDRVDVVQPALFAVVSLAALWRSHGVEPAAVVGHSQGEIAAAHVAGALTLEDAAKLVAVRSRVLRRLGGQGGASFGLGTEQAAERIGRFAGALSIASVNGPRSVVVAGESGPLDELIAECEAEAHKARRIPVDYASHSPQVESLREELLTELAGISPVSADVALYSTTTGQPIDTATDTAYWYANLREQVRFQDATRQLAEAGFDAFVEVSPHPVLTVGIEATLDSALPADAGACVVGTLRRDRGGLADFHTALGEAYAQGVEVDWSPAFADARPVELPVYPFQRQRYWLPI EEKLRRYLKRTVTELDSVTARLREVEHRAGEPIAIVGACRFPGDVDSPESFWEFVSGGGDAIAEAPADRGWEPDPDARLGGLAAAGDFDAGFFGISPREALADPQQRILEISWEALERAGHDPVSLRGSATGVFTGVGTVDYGPRPDEAPDEVLGYVGTGTASSVASGRVAYCLGLEGPATVDTACSSGLTALHLAESLRRDECGLALAGGVTVSSPGAFTEFRSQGGLAADGRCKPFSKAADGFGLAEGAGVLVLQRLSAARREGRPVLAVLRGSAVNQDGASNGLTAPSGPAQQRVIRRALENAGVRAGDVDYVEAHGTGTRLGDPIEVHALLSTYGAERDPDDPLWIGSVKSNIGHTQAAAGVAGVKAVLALRHGEPRTLHFDEPSPQIEWAVSVVSQARSWPAGERPRRAGVSSFGISGTNAHVIVEEAPEADGPVPLVLSGRDEQARAQAGRLADHLAREPRNSLRDTGFTLATRRSAWEHRAVVVGDRDEALAGLRAVADGRIADRTATGQARTRRGVAVFPGQGAQWQGARDLLRESQVFADSIRDCERALAPHVDWSLTDLLSGARPLDRVDVVQPALFAVVSLAALWRSHGVEPAAVVGHSQGEIAAAHVAGALTLEDAAKLVAVRSRVLRRLGGQGGASFGLGTEQAAERIGRFAGALSIASVNGPRSVVVAGESGPLDELIAECEAEAHKARRIPVDYASHSPQVESLREELLTELAGISPVSADVALYSTTTGQPIDTATDTAYWYANLREQVRFQDATRQLAEAGFDAFVEVSPHPVLTVGIEATLDSALPADAGACVVGTLRRDRGGLADFHTALGEAYAQGVEVDWSPAFADARPVELPVYPFQRQRYWLPI 2hgs-a1-m1-cA_2hgs-a1-m2-cA HUMAN GLUTATHIONE SYNTHETASE P48637 P48637 2.1 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 472 472 TNWGSLLQDKQQLEELARQAVDRALAEGVLLRTSQEPTSSEVVSYAPFTLFPSLVPSALLEQAYAVQMDFNLLVDAVSQNAAFLEQTLSSTIKQDDFTARLFDIHKQVLKEGIAQTVFLGLNRSDYMFQRSADGSPALKQIEINTISASFGGLASRTPAVHRHVLSVLSKTKEAGKILSNNPSKGLALGIAKAWELYGSPNALVLLIAQEKERNIFDQRAIENELLARNIHVIRRTFEDISEKGSLDQDRRLFVDGQEIAVVYFRDGYMPRQYSLQNWEARLLLERSHAAKCPDIATQLAGTKKVQQELSRPGMLEMLLPGQPEAVARLRATFAGLYSLDVGEEGDQAIAEALAAPSRFVLKPQREGGGNNLYGEEMVQALKQLKDSEERASYILMEKIEPEPFENCLLRPGSPARVVQCISELGIFGVYVRQEKTLVMNKHVGHLLRTKAIEHADGGVAAGVAVLDNPYPV TNWGSLLQDKQQLEELARQAVDRALAEGVLLRTSQEPTSSEVVSYAPFTLFPSLVPSALLEQAYAVQMDFNLLVDAVSQNAAFLEQTLSSTIKQDDFTARLFDIHKQVLKEGIAQTVFLGLNRSDYMFQRSADGSPALKQIEINTISASFGGLASRTPAVHRHVLSVLSKTKEAGKILSNNPSKGLALGIAKAWELYGSPNALVLLIAQEKERNIFDQRAIENELLARNIHVIRRTFEDISEKGSLDQDRRLFVDGQEIAVVYFRDGYMPRQYSLQNWEARLLLERSHAAKCPDIATQLAGTKKVQQELSRPGMLEMLLPGQPEAVARLRATFAGLYSLDVGEEGDQAIAEALAAPSRFVLKPQREGGGNNLYGEEMVQALKQLKDSEERASYILMEKIEPEPFENCLLRPGSPARVVQCISELGIFGVYVRQEKTLVMNKHVGHLLRTKAIEHADGGVAAGVAVLDNPYPV 2hh6-a1-m1-cA_2hh6-a1-m2-cA Crystal structure of BH3980 (10176605) from BACILLUS HALODURANS at 2.04 A resolution Q9K5V7 Q9K5V7 2.04 X-RAY DIFFRACTION 91 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 106 106 SFIEKIGSLNDKREWKAEARAKALPKEYHHAYKAIQKYWTSGGPTDWQDTKRIFGGILDLFEEGAAEGKKVTDLTGEDVAAFCDELKDTKTWDKYRTKLNDSIGRD SFIEKIGSLNDKREWKAEARAKALPKEYHHAYKAIQKYWTSGGPTDWQDTKRIFGGILDLFEEGAAEGKKVTDLTGEDVAAFCDELKDTKTWDKYRTKLNDSIGRD 2hh7-a2-m1-cA_2hh7-a2-m4-cA Crystal Structure of Cu(I) bound CsoR from Mycobacterium tuberculosis. P9WP49 P9WP49 2.55 X-RAY DIFFRACTION 31 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 85 85 2hh7-a2-m2-cA_2hh7-a2-m3-cA ELTAKKRAALNRLKTVRGHLDGIVRMLESDAYCVDVMKQISAVQSSLERANRVMLHNHLETCFSTAVLDGHGQAAIEELIDAVKF ELTAKKRAALNRLKTVRGHLDGIVRMLESDAYCVDVMKQISAVQSSLERANRVMLHNHLETCFSTAVLDGHGQAAIEELIDAVKF 2hh7-a2-m3-cA_2hh7-a2-m4-cA Crystal Structure of Cu(I) bound CsoR from Mycobacterium tuberculosis. P9WP49 P9WP49 2.55 X-RAY DIFFRACTION 110 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 85 85 2hh7-a1-m1-cA_2hh7-a1-m2-cA 2hh7-a2-m1-cA_2hh7-a2-m2-cA ELTAKKRAALNRLKTVRGHLDGIVRMLESDAYCVDVMKQISAVQSSLERANRVMLHNHLETCFSTAVLDGHGQAAIEELIDAVKF ELTAKKRAALNRLKTVRGHLDGIVRMLESDAYCVDVMKQISAVQSSLERANRVMLHNHLETCFSTAVLDGHGQAAIEELIDAVKF 2hhg-a2-m1-cA_2hhg-a2-m2-cA Structure of Protein of Unknown Function RPA3614, Possible Tyrosine Phosphatase, from Rhodopseudomonas palustris CGA009 Q6N3S9 Q6N3S9 1.2 X-RAY DIFFRACTION 97 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 128 128 GPQTITRGIKALDEANSSIETLTTADAIALHKSGASDVVIVDIRDPREIERDGKIPGSFSCTRGLEFWIDPQSPYAKPIFQEDKKFVFYCAGGLRSALAAKTAQDGLKPVAHIEGGFGAWRDAGGPIE GPQTITRGIKALDEANSSIETLTTADAIALHKSGASDVVIVDIRDPREIERDGKIPGSFSCTRGLEFWIDPQSPYAKPIFQEDKKFVFYCAGGLRSALAAKTAQDGLKPVAHIEGGFGAWRDAGGPIE 2hhz-a1-m1-cA_2hhz-a1-m2-cA Crystal structure of a pyridoxamine 5'-phosphate oxidase-related protein (ssuidraft_2804) from streptococcus suis 89/1591 at 2.00 A resolution 2 X-RAY DIFFRACTION 61 1.0 286604 (Streptococcus suis 89/1591) 286604 (Streptococcus suis 89/1591) 132 132 ELKDIHILEDKVGVFATLDEYGNPHARHAHITAANEEGIFFTSPETHFYDQLGDQRVATAISEEGYLIQVVRVEGTARPVENDYLKTVFADNPYYQHIYKTQVFQIYAGHGFYHSLTQGHKYIFSIGEVRAL ELKDIHILEDKVGVFATLDEYGNPHARHAHITAANEEGIFFTSPETHFYDQLGDQRVATAISEEGYLIQVVRVEGTARPVENDYLKTVFADNPYYQHIYKTQVFQIYAGHGFYHSLTQGHKYIFSIGEVRAL 2hi1-a1-m1-cB_2hi1-a1-m1-cA The structure of a putative 4-hydroxythreonine-4-phosphate dehydrogenase from Salmonella typhimurium. P58718 P58718 2.3 X-RAY DIFFRACTION 97 0.997 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 314 318 TKTVAITGDPAGIGPEIIVKALSEDGLNGAPLVVIGCLATLKRLQAKGITPNVELRAIERVAEARFAPGIIHVIDEPLAQPEALEAGKVQAQAGDLAYRCVKRATELALRGDVQAIATAPLNKEALHLAGHNYPGHTELLATLTHSRDYAVLYTDKLKVIHVSTHIALRKFLDTLSTARVETVIGIADTFLKRVGYVKPRIAVAGVNPHAGLFGDEETRILTPAITDARAKGDVYGPCPPDTVFLQAYEGQYDVVAYHDQGHIPLKLLGFDGVNITAGLPFIRTSADHGTAFDIAWTGKAKSESAVSIKLAQLA ETKTVAITGDPAGIGPEIIVKALSEDGLNGAPLVVIGCLATLKRLQAKGITPNVELRAIERVAEARFAPGIIHVIDEPLAQPEALEAGKVQAQAGDLAYRCVKRATELALRGDVQAIATAPLNKEALHLAGHNYPGHTELLATLTHSRDYAVLYTDKLKVIHVSTHIALRKFLDTLSTARVETVIGIADTFLKRVGYVKPRIAVAGVNPHAGENGLFGDEETRILTPAITDARAKGDVYGPCPPDTVFLQAYEGQYDVVAYHDQGHIPLKLLGYDGVNITAGLPFIRTSADHGTAFDIAWTGKAKSESAVSIKLAQLA 2hi5-a1-m3-cA_2hi5-a1-m9-cA Model for bacteriophage fd from cryo-EM P69539 P69539 8.0 ELECTRON MICROSCOPY 75 1.0 10864 (Enterobacteria phage fd) 10864 (Enterobacteria phage fd) 42 42 2hi5-a1-m10-cA_2hi5-a1-m11-cA 2hi5-a1-m10-cA_2hi5-a1-m4-cA 2hi5-a1-m11-cA_2hi5-a1-m17-cA 2hi5-a1-m12-cA_2hi5-a1-m18-cA 2hi5-a1-m12-cA_2hi5-a1-m6-cA 2hi5-a1-m13-cA_2hi5-a1-m19-cA 2hi5-a1-m13-cA_2hi5-a1-m7-cA 2hi5-a1-m14-cA_2hi5-a1-m20-cA 2hi5-a1-m14-cA_2hi5-a1-m8-cA 2hi5-a1-m15-cA_2hi5-a1-m16-cA 2hi5-a1-m15-cA_2hi5-a1-m9-cA 2hi5-a1-m16-cA_2hi5-a1-m22-cA 2hi5-a1-m17-cA_2hi5-a1-m23-cA 2hi5-a1-m18-cA_2hi5-a1-m24-cA 2hi5-a1-m19-cA_2hi5-a1-m25-cA 2hi5-a1-m1-cA_2hi5-a1-m25-cA 2hi5-a1-m1-cA_2hi5-a1-m32-cA 2hi5-a1-m20-cA_2hi5-a1-m21-cA 2hi5-a1-m21-cA_2hi5-a1-m27-cA 2hi5-a1-m22-cA_2hi5-a1-m28-cA 2hi5-a1-m23-cA_2hi5-a1-m29-cA 2hi5-a1-m24-cA_2hi5-a1-m30-cA 2hi5-a1-m27-cA_2hi5-a1-m33-cA 2hi5-a1-m28-cA_2hi5-a1-m34-cA 2hi5-a1-m29-cA_2hi5-a1-m35-cA 2hi5-a1-m2-cA_2hi5-a1-m8-cA 2hi5-a1-m30-cA_2hi5-a1-m31-cA 2hi5-a1-m31-cA_2hi5-a1-m37-cA 2hi5-a1-m32-cA_2hi5-a1-m38-cA 2hi5-a1-m33-cA_2hi5-a1-m39-cA 2hi5-a1-m34-cA_2hi5-a1-m40-cA 2hi5-a1-m35-cA_2hi5-a1-m36-cA 2hi5-a1-m36-cA_2hi5-a1-m42-cA 2hi5-a1-m37-cA_2hi5-a1-m43-cA 2hi5-a1-m38-cA_2hi5-a1-m44-cA 2hi5-a1-m39-cA_2hi5-a1-m45-cA 2hi5-a1-m40-cA_2hi5-a1-m41-cA 2hi5-a1-m41-cA_2hi5-a1-m47-cA 2hi5-a1-m42-cA_2hi5-a1-m48-cA 2hi5-a1-m43-cA_2hi5-a1-m49-cA 2hi5-a1-m44-cA_2hi5-a1-m50-cA 2hi5-a1-m45-cA_2hi5-a1-m46-cA 2hi5-a1-m46-cA_2hi5-a1-m52-cA 2hi5-a1-m47-cA_2hi5-a1-m53-cA 2hi5-a1-m48-cA_2hi5-a1-m54-cA 2hi5-a1-m49-cA_2hi5-a1-m55-cA 2hi5-a1-m50-cA_2hi5-a1-m51-cA 2hi5-a1-m5-cA_2hi5-a1-m6-cA PAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTS PAKAAFDSLQASATEYIGYAWAMVVVIVGATIGIKLFKKFTS 2hi9-a1-m1-cB_2hi9-a1-m1-cA Crystal Structure of human native protein C inhibitor P05154 P05154 2.3 X-RAY DIFFRACTION 28 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 354 356 RDFTFDLYRALASAAPSQNIFFSPVSISMSLAMLSLGAGSSTKMQILEGLGLKSSEKELHRGFQQLLQELNQPRDGFQLSLGNALFTDLVVDLQDTFVSAMKTLYLADTFPTNFRDSAGAMKQINDYVAKQTKGKIVDLLKNLDSNAVVIMVNYIFFKAKWETSFNHKGTQEQDFYVTSETVVRVPMMSREDQYHYLLDRNLSCRVVGVPYQGNATALFILPSEGKMQQVENGLSEKTLRKWLKMFKKRQLELYLPKFSIEGSYQLEKVLPSLGISNVFTSHADLSGISNHSNIQVSEMVHKAVVEVDESGTRAAAATGTIFTFLNSQRLVFNRPFLMFIVDNNILFLGKVNRP SRRDFTFDLYRALASAAPSQNIFFSPVSISMSLAMLSLGAGSSTKMQILEGLGLNLQKSSEKELHRGFQQLLQELNQPRDGFQLSLGNALFTDLVVDLQDTFVSAMKTLYLADTFPTNFRDSAGAMKQINDYVAKQTKGKIVDLLKNLDSNAVVIMVNYIFFKAKWETSFNHKGTQEQDFYVTSETVVRVPMMSREDQYHYLLDRNLSCRVVGVPYQGNATALFILPSEGKMQQVENGLSEKTLRKWLKMFKKRQLELYLPKFSIEGSYQLEKVLPSLGISNVFTSHADLSGISNHSNIQVSEMVHKAVVEVDESGTRAAAATGTIFTSQRLVFNRPFLMFIVDNNILFLGKVNRP 2hi9-a1-m1-cC_2hi9-a1-m1-cA Crystal Structure of human native protein C inhibitor P05154 P05154 2.3 X-RAY DIFFRACTION 11 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 346 356 SRRDFTFDLYRALASAAPSQNIFFSPVSISMSLAMLSLGAGSSTKMQILEGLGLNLQKSSEKELHRGFQQLLQELNQPRDGFQLSLGNALFTDLVVDLQDTFVSAMKTLYLADTFPTNFRDSAGAMKQINDYVAKQTKGKIVDLLKNLDSNAVVIMVNYIFFKAKWETSFNHKGTQEQDFYVTSETVVRVPMMSREDQYHYLLDRNLSCRVVGVPYQGNATALFILPSEGKMQQVENGLSEKTLRKWLKMFKKRQLELYLPKFSIEGSYQLEKVLPSLGISNVFTSHADLSGISNHSNIQVSEMVHKAVVEVDESGLNSQRLVFNRPFLMFIVDNNILFLGKVNRP SRRDFTFDLYRALASAAPSQNIFFSPVSISMSLAMLSLGAGSSTKMQILEGLGLNLQKSSEKELHRGFQQLLQELNQPRDGFQLSLGNALFTDLVVDLQDTFVSAMKTLYLADTFPTNFRDSAGAMKQINDYVAKQTKGKIVDLLKNLDSNAVVIMVNYIFFKAKWETSFNHKGTQEQDFYVTSETVVRVPMMSREDQYHYLLDRNLSCRVVGVPYQGNATALFILPSEGKMQQVENGLSEKTLRKWLKMFKKRQLELYLPKFSIEGSYQLEKVLPSLGISNVFTSHADLSGISNHSNIQVSEMVHKAVVEVDESGTRAAAATGTIFTSQRLVFNRPFLMFIVDNNILFLGKVNRP 2hi9-a1-m1-cC_2hi9-a1-m1-cB Crystal Structure of human native protein C inhibitor P05154 P05154 2.3 X-RAY DIFFRACTION 19 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 346 354 SRRDFTFDLYRALASAAPSQNIFFSPVSISMSLAMLSLGAGSSTKMQILEGLGLNLQKSSEKELHRGFQQLLQELNQPRDGFQLSLGNALFTDLVVDLQDTFVSAMKTLYLADTFPTNFRDSAGAMKQINDYVAKQTKGKIVDLLKNLDSNAVVIMVNYIFFKAKWETSFNHKGTQEQDFYVTSETVVRVPMMSREDQYHYLLDRNLSCRVVGVPYQGNATALFILPSEGKMQQVENGLSEKTLRKWLKMFKKRQLELYLPKFSIEGSYQLEKVLPSLGISNVFTSHADLSGISNHSNIQVSEMVHKAVVEVDESGLNSQRLVFNRPFLMFIVDNNILFLGKVNRP RDFTFDLYRALASAAPSQNIFFSPVSISMSLAMLSLGAGSSTKMQILEGLGLKSSEKELHRGFQQLLQELNQPRDGFQLSLGNALFTDLVVDLQDTFVSAMKTLYLADTFPTNFRDSAGAMKQINDYVAKQTKGKIVDLLKNLDSNAVVIMVNYIFFKAKWETSFNHKGTQEQDFYVTSETVVRVPMMSREDQYHYLLDRNLSCRVVGVPYQGNATALFILPSEGKMQQVENGLSEKTLRKWLKMFKKRQLELYLPKFSIEGSYQLEKVLPSLGISNVFTSHADLSGISNHSNIQVSEMVHKAVVEVDESGTRAAAATGTIFTFLNSQRLVFNRPFLMFIVDNNILFLGKVNRP 2hih-a3-m1-cB_2hih-a3-m1-cA Crystal structure of Staphylococcus hyicus lipase P04635 P04635 2.86 X-RAY DIFFRACTION 66 1.0 1284 (Staphylococcus hyicus) 1284 (Staphylococcus hyicus) 386 387 AVQNPENPKNKDPFVFVHGFTGFVGEVAAKGENYWGGTKANLRNHLRKAGYETYEASVSALASNHERAVELYYYLKGGRVDYGAAHSEKYGHERYGKTYEGVLKDWKPGHPVHFIGHSMGGQTIRLLEHYLRFGDKAEIAYQQQHGGIISELFKGGQDNMVTSITTIATPHNGTHASDDIGNTPTIRNILYSFAQMSSHLGTIDFGMDHWGFKRKDGESLTDYNKRIAESKIWDSEDTGLYDLTREGAEKINQKTELNPNIYYKTYTGVATHETQLGKHIADLGMEFTKILTGNYIGSVDDILWRPNDGLVSEISSQHPSDEKNISVDENSELHKGTWQVMPTMKGWDHSDFIGNDALDTKHSAIELTNFYHSISDYLMRIEKAES AVQNPENPKNKDPFVFVHGFTGFVGEVAAKGENYWGGTKANLRNHLRKAGYETYEASVSALASNHERAVELYYYLKGGRVDYGAAHSEKYGHERYGKTYEGVLKDWKPGHPVHFIGHSMGGQTIRLLEHYLRFGDKAEIAYQQQHGGIISELFKGGQDNMVTSITTIATPHNGTHASDDIGNTPTIRNILYSFAQMSSHLGTIDFGMDHWGFKRKDGESLTDYNKRIAESKIWDSEDTGLYDLTREGAEKINQKTELNPNIYYKTYTGVATHETQLGKHIADLGMEFTKILTGNYIGSVDDILWRPNDGLVSEISSQHPSDEKNISVDENSELHKGTWQVMPTMKGWDHSDFIGNDALDTKHSAIELTNFYHSISDYLMRIEKAEST 2hin-a1-m1-cB_2hin-a1-m1-cA Structure of N15 Cro at 1.05 A: an ortholog of lambda Cro with a completely different but equally effective dimerization mechanism Q37964 Q37964 1.05 X-RAY DIFFRACTION 36 1.0 40631 (Ravinvirus N15) 40631 (Ravinvirus N15) 64 66 6on0-a1-m1-cA_6on0-a1-m1-cB MKPEELVRHFGDVEKAAVGVGVTPGAVYQWLQAGEIPPLRQSDIEVRTAYKLKSDFTSQRMGKE MKPEELVRHFGDVEKAAVGVGVTPGAVYQWLQAGEIPPLRQSDIEVRTAYKLKSDFTSQRMGKEGH 2hiq-a1-m1-cA_2hiq-a1-m1-cB Crystal structure of JW1657 from Escherichia coli P0ACX3 P0ACX3 2 X-RAY DIFFRACTION 124 1.0 562 (Escherichia coli) 562 (Escherichia coli) 96 96 1wd6-a1-m1-cB_1wd6-a1-m1-cA ATLLQLHFAFNGPFGDAMAEQLKPLAESINQEPGFLWKVWTESEKNHEAGGIYLFTDEKSALAYLEKHTARLKNLGVEEVVAKVFDVNEPLSQINQ ATLLQLHFAFNGPFGDAMAEQLKPLAESINQEPGFLWKVWTESEKNHEAGGIYLFTDEKSALAYLEKHTARLKNLGVEEVVAKVFDVNEPLSQINQ 2hiy-a1-m1-cB_2hiy-a1-m1-cD The structure of conserved bacterial protein SP0830 from Streptococcus pneumoniae. (CASP Target) A0A0H2UPL4 A0A0H2UPL4 1.4 X-RAY DIFFRACTION 23 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 177 180 2hiy-a1-m1-cA_2hiy-a1-m1-cC ATRYALLVRGINVGGKNKVVAELRQELTNLGLEKVESYINSGNIFFTSIDSKAQLVEKLETFFAVHYPFIQSFSLLSLEDFEAELENLPAWWSRDLARKDFLFYTEGLDVDQVIATVESLELKDEVLYFGKLGIFWGKFSEESYSKTAYHKYLLKVPFYRHITIRNAKTFDKIGQLK SNATRYALLVRGINVGGKNKVVAELRQELTNLGLEKVESYINSGNIFFTSIDSKAQLVEKLETFFAVHYPFIQSFSLLSLEDFEAELENLPAWWSRDLARKDFLFYTEGLDVDQVIATVESLELKDEVLYFGKLGIFWGKFSEESYSKTAYHKYLLKVPFYRHITIRNAKTFDKIGQLKK 2hj0-a1-m1-cA_2hj0-a1-m1-cB Crystal Structure of the Putative Alfa Subunit of Citrate Lyase in Complex with Citrate from Streptococcus mutans, Northeast Structural Genomics Target SmR12 . Q8DUC1 Q8DUC1 2.7 X-RAY DIFFRACTION 141 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 498 498 ENKLGRDIPRKYANQYGVFEELAHIKSYKESSRQVKPVKPSDDKLLSSIHEAIEKTRLKDGTISFHHHFREGDYVNVLDEIAKGIKDISIAPSSIANVHEPLIDHIKNGVVTNITSSGLRDKVGAAISEGIENPVIIRSHGGRARAIATDDIHIDVAFLGAPSSDAYGNANGTRGKTTCGSLGYAIDAKYADQVVIVTDTLVPYPNTPISIPQTDVDYIVVVDAIGDPEGIAKGATRYTKNPKELLIAEYAAKVITSSPYYKEGFSFQTGTGGASLAVTRFREQIKDDIKANFALGGITNAVELLEEGLVDKILDVQDFDHPSAVSLDRNAEKHYEIDANYASPLSKGSVINQLDICVLSALEVDTNFNVNVTGSDGVIRGASGGHCDTAFAAKSLVISPLVRGRIPTFVDKVNTVITPGTSVDVVVTEVGIAINPNRPDLIEYFKDLKVPQLTIEELKEKAYAIVGNPQPIQYGDKIVALIEYRDGSLIDVVRNVLE ENKLGRDIPRKYANQYGVFEELAHIKSYKESSRQVKPVKPSDDKLLSSIHEAIEKTRLKDGTISFHHHFREGDYVNVLDEIAKGIKDISIAPSSIANVHEPLIDHIKNGVVTNITSSGLRDKVGAAISEGIENPVIIRSHGGRARAIATDDIHIDVAFLGAPSSDAYGNANGTRGKTTCGSLGYAIDAKYADQVVIVTDTLVPYPNTPISIPQTDVDYIVVVDAIGDPEGIAKGATRYTKNPKELLIAEYAAKVITSSPYYKEGFSFQTGTGGASLAVTRFREQIKDDIKANFALGGITNAVELLEEGLVDKILDVQDFDHPSAVSLDRNAEKHYEIDANYASPLSKGSVINQLDICVLSALEVDTNFNVNVTGSDGVIRGASGGHCDTAFAAKSLVISPLVRGRIPTFVDKVNTVITPGTSVDVVVTEVGIAINPNRPDLIEYFKDLKVPQLTIEELKEKAYAIVGNPQPIQYGDKIVALIEYRDGSLIDVVRNVLE 2hj1-a2-m1-cA_2hj1-a2-m2-cB Crystal structure of a 3D domain-swapped dimer of protein HI0395 from Haemophilus influenzae Q4QNE7 Q4QNE7 2.1 X-RAY DIFFRACTION 25 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 77 80 2hj1-a2-m2-cA_2hj1-a2-m1-cB NQINIEIAYAFPERYYLKSFQVDEGITVQTAITQSGILSQFPEIDLSTNKIGIFSRPIKLTDVLKEGDRIEIYRPLL LNQINIEIAYAFPERYYLKSFQVDEGITVQTAITQSGILSQFPEIDLSTNKIGIFSRPIKLTDVLKEGDRIEIYRPLLAD 2hj1-a2-m1-cB_2hj1-a2-m2-cB Crystal structure of a 3D domain-swapped dimer of protein HI0395 from Haemophilus influenzae Q4QNE7 Q4QNE7 2.1 X-RAY DIFFRACTION 61 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 80 80 LNQINIEIAYAFPERYYLKSFQVDEGITVQTAITQSGILSQFPEIDLSTNKIGIFSRPIKLTDVLKEGDRIEIYRPLLAD LNQINIEIAYAFPERYYLKSFQVDEGITVQTAITQSGILSQFPEIDLSTNKIGIFSRPIKLTDVLKEGDRIEIYRPLLAD 2hj1-a2-m2-cA_2hj1-a2-m2-cB Crystal structure of a 3D domain-swapped dimer of protein HI0395 from Haemophilus influenzae Q4QNE7 Q4QNE7 2.1 X-RAY DIFFRACTION 211 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 77 80 2hj1-a1-m1-cA_2hj1-a1-m1-cB 2hj1-a2-m1-cA_2hj1-a2-m1-cB NQINIEIAYAFPERYYLKSFQVDEGITVQTAITQSGILSQFPEIDLSTNKIGIFSRPIKLTDVLKEGDRIEIYRPLL LNQINIEIAYAFPERYYLKSFQVDEGITVQTAITQSGILSQFPEIDLSTNKIGIFSRPIKLTDVLKEGDRIEIYRPLLAD 2hj3-a2-m3-cB_2hj3-a2-m4-cB Structure of the Arabidopsis Thaliana Erv1 Thiol Oxidase Q8GXX0 Q8GXX0 2.5 X-RAY DIFFRACTION 25 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 100 100 PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARW PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARW 2hj3-a2-m4-cB_2hj3-a2-m1-cA Structure of the Arabidopsis Thaliana Erv1 Thiol Oxidase Q8GXX0 Q8GXX0 2.5 X-RAY DIFFRACTION 15 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 100 101 2hj3-a2-m3-cB_2hj3-a2-m2-cA PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARW PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARWG 2hj3-a2-m4-cB_2hj3-a2-m2-cA Structure of the Arabidopsis Thaliana Erv1 Thiol Oxidase Q8GXX0 Q8GXX0 2.5 X-RAY DIFFRACTION 33 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 100 101 2hj3-a2-m3-cB_2hj3-a2-m1-cA PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARW PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARWG 2hj3-a3-m1-cA_2hj3-a3-m2-cA Structure of the Arabidopsis Thaliana Erv1 Thiol Oxidase Q8GXX0 Q8GXX0 2.5 X-RAY DIFFRACTION 26 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 101 101 2hj3-a2-m1-cA_2hj3-a2-m2-cA PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARWG PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARWG 2hj3-a3-m2-cB_2hj3-a3-m2-cA Structure of the Arabidopsis Thaliana Erv1 Thiol Oxidase Q8GXX0 Q8GXX0 2.5 X-RAY DIFFRACTION 68 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 100 101 2hj3-a1-m1-cB_2hj3-a1-m1-cA 2hj3-a3-m1-cB_2hj3-a3-m1-cA PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARW PVTKEDLGRATWTFLHTLAAQYPEKPTRQQKKDVKELMTILSRMYPCRECADHFKEILRSNPAQAGSQEEFSQWLCHVHNTVNRSLGKLVFPCERVDARWG 2hj9-a1-m1-cD_2hj9-a1-m1-cC Crystal structure of the Autoinducer-2-bound form of Vibrio harveyi LuxP complexed with the periplasmic domain of LuxQ P54302 P54302 2.34 X-RAY DIFFRACTION 56 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 203 210 ALIHNIFDSHFAAIQIHHDSNSKSEVIRDFYTDRDTDVLNFFFLSIDQSDPSHTPEFRFLTDHKGIIWDDGNAHFYGVNDLILDSLANRVSFSNNWYYINVMTSIGSRHMLVRRVPILDPSTGEVLGFSFNAVVLDNNFALMEKLKSESNVDNVVLVANSVPLANSLIGDEPYNVADVLQLLVIETPIVVNAVTTELCLLTVQ SKQQTSALIHNIFDSHFAAIQIHHDSNSKSEVIRDFYTDRDTDVLNFFFLSIDQSDPSHTPEFRFLTDHKGIIWDDGNAHFYGVNDLILDSLANRVSFSNNWYYINVMTSIGSRHMLVRRVPILDPSTGEVLGFSFNAVVLDNNFALMEKLKSESNVDNVVLVANSVPLANSLIGDEPYNVADVLQRLLVIETPIVVNAVTTELCLLTVQ 2hjd-a2-m1-cC_2hjd-a2-m1-cD Crystal structure of a second quorum sensing antiactivator TraM2 from A. tumefaciens strain A6 Q20HX4 Q20HX4 2.1 X-RAY DIFFRACTION 73 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 89 90 2hjd-a1-m1-cA_2hjd-a1-m1-cB FELRPVIGLTRGLSSADIETLTANAIRLHRQLLEKADQLFQVLPDDIKIGTAAGGEQHLEYIEAMIEMHAQMSAVNTLVGLLGFIPKVS FELRPVIGLTRGLSSADIETLTANAIRLHRQLLEKADQLFQVLPDDIKIGTAAGGEQHLEYIEAMIEMHAQMSAVNTLVGLLGFIPKVSV 2hjh-a1-m1-cA_2hjh-a1-m1-cB Crystal Structure of the Sir2 deacetylase P06700 P06700 1.85 X-RAY DIFFRACTION 43 0.991 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 319 319 DPLAKKQTVRLIKDLQVLCTRLRLSNFFTIDHFIQKLHTARKILVLTGAGVSTSLGIPDFRSSEGFYSKIKHLGLDDPQDVFNYNIFHDPSVFYNIANVLPPEKIYSPLHSFIKLQKGKLLRNYTQNIDNLESYAGISTDKLVQCHGSFATATCVTCHWNLPGERIFNKIRNLELPLCPYCYKKRREYFPERPPYILNSYGVLKPDITFFGEALPNKFHKSIREDILECDLLICIGTSLKVAPVSEIVNVPSHVPQVLINRDPVKHAEFDLSLLGYCDDIAAVAQKCGWTIPHKKWNDLKNKNFKCQEKDKGVYVVTSD PLAKKQTVRLIKDLQRVLCTRLRLSNFFTIDHFIQKLHTARKILVLTGAGVSTSLGIPDFRSSEGFYSKIKHLGLDDPQDVFNYNIFHDPSVFYNIANVLPPEKIYSPLHSFIKLQKGKLLRNYTQNIDNLESYAGISTDKLVQCHGSFATATCVTCHWNLPGERIFNKIRNLELPLCPYCYKKRREYFSSERPPYILNSYGVLKPDITFFGEALPNKFHKSIREDILECDLLICIGTSLKVAPVSEIVNVPSHVPQVLINRDPVKHAEFDLSLLGYCDDIAAVAQKCGWTIPHKKWNDLKNKNFKCQEKDKGVYVVTS 2hjm-a3-m1-cA_2hjm-a3-m1-cB Crystal structure of a singleton protein PF1176 from P. furiosus Q8U1N0 Q8U1N0 2.9 X-RAY DIFFRACTION 78 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 89 89 2hjm-a1-m1-cA_2hjm-a1-m1-cB 2hjm-a1-m1-cC_2hjm-a1-m1-cD 2hjm-a2-m1-cC_2hjm-a2-m1-cD HHHHHHDLVEKVKELCLELEEENLAKAIERFITLTHGIEKTRGEAFAKASIYGFLEGILTTLKKYSNEKIETLLNEVKTAREETEALLR HHHHHHDLVEKVKELCLELEEENLAKAIERFITLTHGIEKTRGEAFAKASIYGFLEGILTTLKKYSNEKIETLLNEVKTAREETEALLR 2hjm-a4-m1-cC_2hjm-a4-m1-cA Crystal structure of a singleton protein PF1176 from P. furiosus Q8U1N0 Q8U1N0 2.9 X-RAY DIFFRACTION 56 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 88 89 2hjm-a1-m1-cC_2hjm-a1-m1-cA 2hjm-a5-m2-cD_2hjm-a5-m1-cB HHHHHDLVEKVKELCLELEEENLAKAIERFITLTHGIEKTRGEAFAKASIYGFLEGILTTLKKYSNEKIETLLNEVKTAREETEALLR HHHHHHDLVEKVKELCLELEEENLAKAIERFITLTHGIEKTRGEAFAKASIYGFLEGILTTLKKYSNEKIETLLNEVKTAREETEALLR 2hjn-a1-m1-cA_2hjn-a1-m2-cA Structural and functional analysis of Saccharomyces cerevisiae Mob1 P40484 P40484 2 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 201 201 PVLTTNVTDFNYTPSHQKPFLDIKQIVETLGSEGVAVKLPRGEDENEWLAVHCVDFYNQINLYGSITEFCSPQTCPRIATNEYEYLWAFQKGQPPVSVSAPKYVECLRWCQDQFDDESLFPSKVTGTFPEGFIQRVIQPILRRLFRVYAHIYCHHFNEILELNLQTVLNTSFRHFCLFAQEFELLRPADFGPLLELVELRD PVLTTNVTDFNYTPSHQKPFLDIKQIVETLGSEGVAVKLPRGEDENEWLAVHCVDFYNQINLYGSITEFCSPQTCPRIATNEYEYLWAFQKGQPPVSVSAPKYVECLRWCQDQFDDESLFPSKVTGTFPEGFIQRVIQPILRRLFRVYAHIYCHHFNEILELNLQTVLNTSFRHFCLFAQEFELLRPADFGPLLELVELRD 2hjp-a1-m1-cA_2hjp-a1-m4-cA Crystal Structure of Phosphonopyruvate Hydrolase Complex with Phosphonopyruvate and Mg++ Q84G06 Q84G06 1.9 X-RAY DIFFRACTION 229 1.0 218557 (Variovorax sp. Pal2) 218557 (Variovorax sp. Pal2) 283 283 2dua-a1-m1-cA_2dua-a1-m4-cA 2dua-a1-m2-cA_2dua-a1-m3-cA 2hjp-a1-m2-cA_2hjp-a1-m3-cA 2hrw-a1-m1-cA_2hrw-a1-m4-cA 2hrw-a1-m2-cA_2hrw-a1-m3-cA MTKNQALRAALDSGRLFTAMAAHNPLVAKLAEQAGFGGIWGSGFELSASYAVPDANILSMSTHLEMMRAIASTVSIPLIADIDTGFGNAVNVHYVVPQYEAAGASAIVMEDKTFPKDTQELVRIEEFQGKIAAATAARADRDFVVIARVEALIAGLGQQEAVRRGQAYEEAGADAILIHSRQKTPDEILAFVKSWPGKVPLVLVPTAYPQLTEADIAALSKVGIVIYGNHAIRAAVGAVREVFARIRRDGGIREVDAALPSVKEIIELQGDERMRAVEARYLK MTKNQALRAALDSGRLFTAMAAHNPLVAKLAEQAGFGGIWGSGFELSASYAVPDANILSMSTHLEMMRAIASTVSIPLIADIDTGFGNAVNVHYVVPQYEAAGASAIVMEDKTFPKDTQELVRIEEFQGKIAAATAARADRDFVVIARVEALIAGLGQQEAVRRGQAYEEAGADAILIHSRQKTPDEILAFVKSWPGKVPLVLVPTAYPQLTEADIAALSKVGIVIYGNHAIRAAVGAVREVFARIRRDGGIREVDAALPSVKEIIELQGDERMRAVEARYLK 2hjp-a1-m2-cA_2hjp-a1-m4-cA Crystal Structure of Phosphonopyruvate Hydrolase Complex with Phosphonopyruvate and Mg++ Q84G06 Q84G06 1.9 X-RAY DIFFRACTION 47 1.0 218557 (Variovorax sp. Pal2) 218557 (Variovorax sp. Pal2) 283 283 2dua-a1-m1-cA_2dua-a1-m3-cA 2dua-a1-m2-cA_2dua-a1-m4-cA 2hjp-a1-m1-cA_2hjp-a1-m3-cA 2hrw-a1-m1-cA_2hrw-a1-m3-cA 2hrw-a1-m2-cA_2hrw-a1-m4-cA MTKNQALRAALDSGRLFTAMAAHNPLVAKLAEQAGFGGIWGSGFELSASYAVPDANILSMSTHLEMMRAIASTVSIPLIADIDTGFGNAVNVHYVVPQYEAAGASAIVMEDKTFPKDTQELVRIEEFQGKIAAATAARADRDFVVIARVEALIAGLGQQEAVRRGQAYEEAGADAILIHSRQKTPDEILAFVKSWPGKVPLVLVPTAYPQLTEADIAALSKVGIVIYGNHAIRAAVGAVREVFARIRRDGGIREVDAALPSVKEIIELQGDERMRAVEARYLK MTKNQALRAALDSGRLFTAMAAHNPLVAKLAEQAGFGGIWGSGFELSASYAVPDANILSMSTHLEMMRAIASTVSIPLIADIDTGFGNAVNVHYVVPQYEAAGASAIVMEDKTFPKDTQELVRIEEFQGKIAAATAARADRDFVVIARVEALIAGLGQQEAVRRGQAYEEAGADAILIHSRQKTPDEILAFVKSWPGKVPLVLVPTAYPQLTEADIAALSKVGIVIYGNHAIRAAVGAVREVFARIRRDGGIREVDAALPSVKEIIELQGDERMRAVEARYLK 2hjp-a1-m3-cA_2hjp-a1-m4-cA Crystal Structure of Phosphonopyruvate Hydrolase Complex with Phosphonopyruvate and Mg++ Q84G06 Q84G06 1.9 X-RAY DIFFRACTION 64 1.0 218557 (Variovorax sp. Pal2) 218557 (Variovorax sp. Pal2) 283 283 2dua-a1-m1-cA_2dua-a1-m2-cA 2dua-a1-m3-cA_2dua-a1-m4-cA 2hjp-a1-m1-cA_2hjp-a1-m2-cA 2hrw-a1-m1-cA_2hrw-a1-m2-cA 2hrw-a1-m3-cA_2hrw-a1-m4-cA MTKNQALRAALDSGRLFTAMAAHNPLVAKLAEQAGFGGIWGSGFELSASYAVPDANILSMSTHLEMMRAIASTVSIPLIADIDTGFGNAVNVHYVVPQYEAAGASAIVMEDKTFPKDTQELVRIEEFQGKIAAATAARADRDFVVIARVEALIAGLGQQEAVRRGQAYEEAGADAILIHSRQKTPDEILAFVKSWPGKVPLVLVPTAYPQLTEADIAALSKVGIVIYGNHAIRAAVGAVREVFARIRRDGGIREVDAALPSVKEIIELQGDERMRAVEARYLK MTKNQALRAALDSGRLFTAMAAHNPLVAKLAEQAGFGGIWGSGFELSASYAVPDANILSMSTHLEMMRAIASTVSIPLIADIDTGFGNAVNVHYVVPQYEAAGASAIVMEDKTFPKDTQELVRIEEFQGKIAAATAARADRDFVVIARVEALIAGLGQQEAVRRGQAYEEAGADAILIHSRQKTPDEILAFVKSWPGKVPLVLVPTAYPQLTEADIAALSKVGIVIYGNHAIRAAVGAVREVFARIRRDGGIREVDAALPSVKEIIELQGDERMRAVEARYLK 2hjr-a9-m1-cI_2hjr-a9-m1-cL Crystal Structure of Cryptosporidium parvum malate dehydrogenase Q5CYZ3 Q5CYZ3 2.2 X-RAY DIFFRACTION 136 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 313 314 2hjr-a10-m1-cI_2hjr-a10-m1-cL 2hjr-a11-m1-cF_2hjr-a11-m1-cH 2hjr-a12-m1-cB_2hjr-a12-m1-cC 2hjr-a13-m1-cE_2hjr-a13-m1-cG 2hjr-a14-m1-cK_2hjr-a14-m1-cJ 2hjr-a15-m1-cA_2hjr-a15-m1-cD 2hjr-a7-m1-cE_2hjr-a7-m1-cG 2hjr-a7-m1-cF_2hjr-a7-m1-cH 2hjr-a8-m1-cA_2hjr-a8-m1-cD 2hjr-a8-m1-cB_2hjr-a8-m1-cC 2hjr-a9-m1-cK_2hjr-a9-m1-cJ MRKKISIIGAGQIGSTIALLLGQKDLGDVYMFDIIEGVPQGKALDLNHCMALIGSPAKIFGENNYEYLQNSDVVIITAGVPRKPNMTRSDLLTVNAKIVGSVAENVGKYCPNAFVICITNPLDAMVYYFKEKSGIPANKVCGMSGVLDSARFRCNLSRALGVKPSDVSAIVVGGHGDEMIPLTSSVTIGGILLSDFVEQGKITHSQINEIIKKTAFGGGEIVELLKTGSAFYAPAASAVAMAQAYLKDSKSVLVCSTYLTGQYNVNNLFVGVPVVIGKNGIEDVVIVNLSDDEKSLFSKSVESIQNLVQDLKS MRKKISIIGAGQIGSTIALLLGQKDLGDVYMFDIIEGVPQGKALDLNHCMALIGSPAKIFGENNYEYLQNSDVVIITAGVPRKPNMTRSDLLTVNAKIVGSVAENVGKYCPNAFVICITNPLDAMVYYFKEKSGIPANKVCGMSGVLDSARFRCNLSRALGVKPSDVSAIVVGGHGDEMIPLTSSVTIGGILLSDFVEQGKITHSQINEIIKKTAFGGGEIVELLKTGSAFYAPAASAVAMAQAYLKDSKSVLVCSTYLTGQYNVNNLFVGVPVVIGKNGIEDVVIVNLSDDEKSLFSKSVESIQNLVQDLKSL 2hjr-a9-m1-cJ_2hjr-a9-m1-cL Crystal Structure of Cryptosporidium parvum malate dehydrogenase Q5CYZ3 Q5CYZ3 2.2 X-RAY DIFFRACTION 21 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 314 314 2hjr-a7-m1-cE_2hjr-a7-m1-cH 2hjr-a7-m1-cG_2hjr-a7-m1-cF 2hjr-a8-m1-cA_2hjr-a8-m1-cC 2hjr-a8-m1-cB_2hjr-a8-m1-cD 2hjr-a9-m1-cI_2hjr-a9-m1-cK MRKKISIIGAGQIGSTIALLLGQKDLGDVYMFDIIEGVPQGKALDLNHCMALIGSPAKIFGENNYEYLQNSDVVIITAGVPRKPNMTRSDLLTVNAKIVGSVAENVGKYCPNAFVICITNPLDAMVYYFKEKSGIPANKVCGMSGVLDSARFRCNLSRALGVKPSDVSAIVVGGHGDEMIPLTSSVTIGGILLSDFVEQGKITHSQINEIIKKTAFGGGEIVELLKTGSAFYAPAASAVAMAQAYLKDSKSVLVCSTYLTGQYNVNNLFVGVPVVIGKNGIEDVVIVNLSDDEKSLFSKSVESIQNLVQDLKSL MRKKISIIGAGQIGSTIALLLGQKDLGDVYMFDIIEGVPQGKALDLNHCMALIGSPAKIFGENNYEYLQNSDVVIITAGVPRKPNMTRSDLLTVNAKIVGSVAENVGKYCPNAFVICITNPLDAMVYYFKEKSGIPANKVCGMSGVLDSARFRCNLSRALGVKPSDVSAIVVGGHGDEMIPLTSSVTIGGILLSDFVEQGKITHSQINEIIKKTAFGGGEIVELLKTGSAFYAPAASAVAMAQAYLKDSKSVLVCSTYLTGQYNVNNLFVGVPVVIGKNGIEDVVIVNLSDDEKSLFSKSVESIQNLVQDLKSL 2hjr-a9-m1-cK_2hjr-a9-m1-cL Crystal Structure of Cryptosporidium parvum malate dehydrogenase Q5CYZ3 Q5CYZ3 2.2 X-RAY DIFFRACTION 100 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 313 314 2hjr-a1-m1-cA_2hjr-a1-m1-cB 2hjr-a2-m1-cC_2hjr-a2-m1-cD 2hjr-a3-m1-cE_2hjr-a3-m1-cF 2hjr-a4-m1-cG_2hjr-a4-m1-cH 2hjr-a5-m1-cI_2hjr-a5-m1-cJ 2hjr-a6-m1-cK_2hjr-a6-m1-cL 2hjr-a7-m1-cE_2hjr-a7-m1-cF 2hjr-a7-m1-cG_2hjr-a7-m1-cH 2hjr-a8-m1-cA_2hjr-a8-m1-cB 2hjr-a8-m1-cC_2hjr-a8-m1-cD 2hjr-a9-m1-cI_2hjr-a9-m1-cJ MRKKISIIGAGQIGSTIALLLGQKDLGDVYMFDIIEGVPQGKALDLNHCMALIGSPAKIFGENNYEYLQNSDVVIITAGVPRKPNMTRSDLLTVNAKIVGSVAENVGKYCPNAFVICITNPLDAMVYYFKEKSGIPANKVCGMSGVLDSARFRCNLSRALGVKPSDVSAIVVGGHGDEMIPLTSSVTIGGILLSDFVEQGKITHSQINEIIKKTAFGGGEIVELLKTGSAFYAPAASAVAMAQAYLKDSKSVLVCSTYLTGQYNVNNLFVGVPVVIGKNGIEDVVIVNLSDDEKSLFSKSVESIQNLVQDLKS MRKKISIIGAGQIGSTIALLLGQKDLGDVYMFDIIEGVPQGKALDLNHCMALIGSPAKIFGENNYEYLQNSDVVIITAGVPRKPNMTRSDLLTVNAKIVGSVAENVGKYCPNAFVICITNPLDAMVYYFKEKSGIPANKVCGMSGVLDSARFRCNLSRALGVKPSDVSAIVVGGHGDEMIPLTSSVTIGGILLSDFVEQGKITHSQINEIIKKTAFGGGEIVELLKTGSAFYAPAASAVAMAQAYLKDSKSVLVCSTYLTGQYNVNNLFVGVPVVIGKNGIEDVVIVNLSDDEKSLFSKSVESIQNLVQDLKSL 2hjs-a1-m1-cA_2hjs-a1-m2-cA The structure of a probable aspartate-semialdehyde dehydrogenase from Pseudomonas aeruginosa O87014 O87014 2.2 X-RAY DIFFRACTION 178 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 332 332 QPLNVAVVGATGSVGEALVGLLDERDFPLHRLHLLASAESAGQRGFAESSLRVGDVDSFDFSSVGLAFFAAAAEVSRAHAERARAAGCSVIDLSGALEPSVAPPVVSVNAERLASQAAPFLLSSPCAVAAELCEVLAPLLATLDCRQLNLTACLSVSSLGREGVKELARQTAELLNARPLEPRLFDRQIAFNLLAQVGAVDAEGHSAIERRIFAEVQALLGERIGPLNVTCIQAPVFFGDSLSVTLQCAEPVDLAAVTRVLDATKGIEWVGEGDYPTVVGDALGQDETYVGRVRAGQADPCQVNLWIVSDNVRKGAALNAVLLGELLIKHYL QPLNVAVVGATGSVGEALVGLLDERDFPLHRLHLLASAESAGQRGFAESSLRVGDVDSFDFSSVGLAFFAAAAEVSRAHAERARAAGCSVIDLSGALEPSVAPPVVSVNAERLASQAAPFLLSSPCAVAAELCEVLAPLLATLDCRQLNLTACLSVSSLGREGVKELARQTAELLNARPLEPRLFDRQIAFNLLAQVGAVDAEGHSAIERRIFAEVQALLGERIGPLNVTCIQAPVFFGDSLSVTLQCAEPVDLAAVTRVLDATKGIEWVGEGDYPTVVGDALGQDETYVGRVRAGQADPCQVNLWIVSDNVRKGAALNAVLLGELLIKHYL 2hk0-a1-m1-cA_2hk0-a1-m1-cC Crystal structure of D-psicose 3-epimerase (DPEase) in the absence of substrate A9CH28 A9CH28 2 X-RAY DIFFRACTION 12 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 283 283 2hk0-a1-m1-cB_2hk0-a1-m1-cD 2hk1-a1-m1-cA_2hk1-a1-m1-cC 2hk1-a1-m1-cB_2hk1-a1-m1-cD KHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELATIRKSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLSNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGINGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVLDTFHNIEEDSFGDAIRTAGPLLGHFHTGESNRRVPGKGRPWHEIGLALRDINYTGAVIEPFVKTGGTIGSDIKVWRDLSGGADIAKDEDARNALAFSRFVLGG KHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELATIRKSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLSNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGINGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVLDTFHNIEEDSFGDAIRTAGPLLGHFHTGESNRRVPGKGRPWHEIGLALRDINYTGAVIEPFVKTGGTIGSDIKVWRDLSGGADIAKDEDARNALAFSRFVLGG 2hk0-a1-m1-cA_2hk0-a1-m1-cD Crystal structure of D-psicose 3-epimerase (DPEase) in the absence of substrate A9CH28 A9CH28 2 X-RAY DIFFRACTION 65 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 283 283 2hk0-a1-m1-cB_2hk0-a1-m1-cC 2hk1-a1-m1-cA_2hk1-a1-m1-cD 2hk1-a1-m1-cB_2hk1-a1-m1-cC KHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELATIRKSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLSNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGINGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVLDTFHNIEEDSFGDAIRTAGPLLGHFHTGESNRRVPGKGRPWHEIGLALRDINYTGAVIEPFVKTGGTIGSDIKVWRDLSGGADIAKDEDARNALAFSRFVLGG KHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELATIRKSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLSNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGINGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVLDTFHNIEEDSFGDAIRTAGPLLGHFHTGESNRRVPGKGRPWHEIGLALRDINYTGAVIEPFVKTGGTIGSDIKVWRDLSGGADIAKDEDARNALAFSRFVLGG 2hk0-a1-m1-cC_2hk0-a1-m1-cD Crystal structure of D-psicose 3-epimerase (DPEase) in the absence of substrate A9CH28 A9CH28 2 X-RAY DIFFRACTION 26 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 283 283 2hk0-a1-m1-cA_2hk0-a1-m1-cB 2hk1-a1-m1-cA_2hk1-a1-m1-cB 2hk1-a1-m1-cC_2hk1-a1-m1-cD KHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELATIRKSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLSNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGINGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVLDTFHNIEEDSFGDAIRTAGPLLGHFHTGESNRRVPGKGRPWHEIGLALRDINYTGAVIEPFVKTGGTIGSDIKVWRDLSGGADIAKDEDARNALAFSRFVLGG KHGIYYSYWEHEWSAKFGPYIEKVAKLGFDIIEVAAHHINEYSDAELATIRKSAKDNGIILTAGIGPSKTKNLSSEDAAVRAAGKAFFERTLSNVAKLDIHTIGGALHSYWPIDYSQPVDKAGDYARGVEGINGIADFANDLGINLCIEVLNRFENHVLNTAAEGVAFVKDVGKNNVKVLDTFHNIEEDSFGDAIRTAGPLLGHFHTGESNRRVPGKGRPWHEIGLALRDINYTGAVIEPFVKTGGTIGSDIKVWRDLSGGADIAKDEDARNALAFSRFVLGG 2hk3-a1-m1-cA_2hk3-a1-m1-cB Crystal structure of mevalonate diphosphate decarboxylase from Staphylococcus aureus (orthorhombic form) Q9FD84 Q9FD84 2.3 X-RAY DIFFRACTION 59 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 331 331 2hk2-a1-m1-cA_2hk2-a1-m1-cB HMLEMIKSGKARAHTNIALIKYWGKKDEALIIPMNNSISVTLEKFYTETKVTFNDQLTQDQFWLNGEKVSGKELEKISKYMDIVRNRAGIDWYAEIESDNFVPTAAGLASSASAYAALAAACNQALDMQLSDKDLSRLARIGSGSASRSIYGGFAEWEKGYSDETSYAVPLESNHFEDDLAMIFVVINQHSKKVPSRYGMSLTRNTSRFYQYWLDHIDEDLAEAKAAIQDKDFKRLGEVIEENGLRMHATNLGSTPPFTYLVQESYDVMALVHECREAGYPCYFTMDAGPNVKILVEKKNKQQIIDKLLTQFDNNQIIDSDIIATGIEIIE HMLEMIKSGKARAHTNIALIKYWGKKDEALIIPMNNSISVTLEKFYTETKVTFNDQLTQDQFWLNGEKVSGKELEKISKYMDIVRNRAGIDWYAEIESDNFVPTAAGLASSASAYAALAAACNQALDMQLSDKDLSRLARIGSGSASRSIYGGFAEWEKGYSDETSYAVPLESNHFEDDLAMIFVVINQHSKKVPSRYGMSLTRNTSRFYQYWLDHIDEDLAEAKAAIQDKDFKRLGEVIEENGLRMHATNLGSTPPFTYLVQESYDVMALVHECREAGYPCYFTMDAGPNVKILVEKKNKQQIIDKLLTQFDNNQIIDSDIIATGIEIIE 2hkn-a1-m1-cB_2hkn-a1-m1-cA Crystal structure of the CAP-Gly domain of human Dynactin-1 (p150-Glued) Q14203 Q14203 1.87 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 76 2hl3-a1-m1-cB_2hl3-a1-m1-cA PLRVGSRVEVIGKGHRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQVF SHMSPLRVGSRVEVIGKGHRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQVF 2hku-a1-m1-cB_2hku-a1-m1-cA Structural Genomics, the crystal structure of a putative transcriptional regulator from Rhodococcus sp. RHA1 Q0SB15 Q0SB15 2 X-RAY DIFFRACTION 113 0.989 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 182 188 TRDALFTAATELFLEHGEGVPITQICAAAGAHPNQVTYYYGSKERLFVEVACAAVLRAGKRAEDDAATAETVGDYTEKLVGSLLGPGAPSVELFTSALTGRRSELRDLITDTLRTLHSSGEVALIRTLRTGWQLRAGIDVESKAFWSAIFGLVIQKTASLEEAVAVIFANLQIPETVRNTSI QTRDALFTAATELFLEHGEGVPITQICAAAGAHPNQVTYYYGSKERLFVEVACAAVLRAGKRAEDDAATAETVGDYTEKLVGSLLGPGAPSVELFTSALTGRRSELRDLITDTLRTLHSSGEVALIRTLRTGWQLRAGIDVESKAFWSAIFGLVIQKTATGESFGYSLEEAVAVIFANLQIPETVRNT 2hkv-a1-m1-cA_2hkv-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE MEMBER OF THE DINB FAMILY (EXIG_1237) FROM EXIGUOBACTERIUM SIBIRICUM 255-15 AT 1.70 A RESOLUTION B1YEV7 B1YEV7 1.7 X-RAY DIFFRACTION 96 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 145 145 GTDWQQALDRHVGVGVRTTRDLIRLIQPEDWDKRPISGKRSVYEVAVHLAVLLEADLRIATGATADEAQFYAVPVLPEQLVDRLDQSWQYYQDRLADFSTETTYWGVTDSTTGWLLEAAVHLYHHRSQLLDYLNLLGYDIKLDLF GTDWQQALDRHVGVGVRTTRDLIRLIQPEDWDKRPISGKRSVYEVAVHLAVLLEADLRIATGATADEAQFYAVPVLPEQLVDRLDQSWQYYQDRLADFSTETTYWGVTDSTTGWLLEAAVHLYHHRSQLLDYLNLLGYDIKLDLF 2hkx-a1-m1-cB_2hkx-a1-m1-cA Structure of CooA mutant (N127L/S128L) from Carboxydothermus hydrogenoformans Q3AB29 Q3AB29 2.3 X-RAY DIFFRACTION 106 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 148 218 ATQMRLTDTNLLEVLNSEEYSGVLKEFREQRYSKKAILYTPNTERNLVFLVKSGRVRVYLAYEDKEFTLAILEAGDIFCTHTRAFIQAMEDTTILYTDIRNFQNIVVEFPAFSLNMVKVLGDLLKLLLTIINGLVFKDARLRLAEFLV ATQMRLTDTNLLEVLNSEEYSGVLKEFREQRYSKKAILYTPNTERNLVFLVKSGRVRVYLAYEDKEFTLAILEAGDIFCTHTRAFIQAMEDTTILYTDIRNFQNIVVEFPAFSLNMVKVLGDLLKLLLTIINGLVFKDARLRLAEFLVQAAMDTGLKVPQGIKLELGLNTEEIALMLGTTRQTVSVLLNDFKKMGILERVNQRTLLLKDLQKLKEFSS 2hlc-a1-m1-cA_2hlc-a1-m2-cA HL COLLAGENASE STRUCTURE AT 1.7A RESOLUTION P08897 P08897 1.7 X-RAY DIFFRACTION 13 1.0 7389 (Hypoderma lineatum) 7389 (Hypoderma lineatum) 230 230 1hyl-a1-m1-cA_1hyl-a1-m2-cA IINGYEAYTGLFPYQAGLDITLQDQRRVWCGGSLIDNKWILTAAHCVHDAVSVVVYLGSAVQYEGEAVVNSERIISHSMFNPDTYLNDVALIKIPHVEYTDNIQPIRLPSGEELNNKFENIWATVSGWGQSNTDTVILQYTYNLVIDNDRCAQEYPPGIIVESTICGDTSDGKSPCFGDSGGPFVLSDKNLLIGVVSFVSGAGCESGKPVGFSRVTSYMDWIQQNTGIKF IINGYEAYTGLFPYQAGLDITLQDQRRVWCGGSLIDNKWILTAAHCVHDAVSVVVYLGSAVQYEGEAVVNSERIISHSMFNPDTYLNDVALIKIPHVEYTDNIQPIRLPSGEELNNKFENIWATVSGWGQSNTDTVILQYTYNLVIDNDRCAQEYPPGIIVESTICGDTSDGKSPCFGDSGGPFVLSDKNLLIGVVSFVSGAGCESGKPVGFSRVTSYMDWIQQNTGIKF 2hlc-a1-m2-cB_2hlc-a1-m2-cA HL COLLAGENASE STRUCTURE AT 1.7A RESOLUTION P08897 P08897 1.7 X-RAY DIFFRACTION 48 1.0 7389 (Hypoderma lineatum) 7389 (Hypoderma lineatum) 230 230 1hyl-a1-m1-cB_1hyl-a1-m1-cA 1hyl-a1-m2-cB_1hyl-a1-m2-cA 2hlc-a1-m1-cB_2hlc-a1-m1-cA IINGYEAYTGLFPYQAGLDITLQDQRRVWCGGSLIDNKWILTAAHCVHDAVSVVVYLGSAVQYEGEAVVNSERIISHSMFNPDTYLNDVALIKIPHVEYTDNIQPIRLPSGEELNNKFENIWATVSGWGQSNTDTVILQYTYNLVIDNDRCAQEYPPGIIVESTICGDTSDGKSPCFGDSGGPFVLSDKNLLIGVVSFVSGAGCESGKPVGFSRVTSYMDWIQQNTGIKF IINGYEAYTGLFPYQAGLDITLQDQRRVWCGGSLIDNKWILTAAHCVHDAVSVVVYLGSAVQYEGEAVVNSERIISHSMFNPDTYLNDVALIKIPHVEYTDNIQPIRLPSGEELNNKFENIWATVSGWGQSNTDTVILQYTYNLVIDNDRCAQEYPPGIIVESTICGDTSDGKSPCFGDSGGPFVLSDKNLLIGVVSFVSGAGCESGKPVGFSRVTSYMDWIQQNTGIKF 2hlj-a1-m1-cA_2hlj-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (KT2440) FROM PSEUDOMONAS PUTIDA KT2440 AT 2.00 A RESOLUTION Q88R33 Q88R33 2 X-RAY DIFFRACTION 105 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 150 150 GPALITYRTTVQEDWVDYNGHLRDAFYLLIFSYATDALDRIGLDADSRGQSGNSLFTLEAHINYLHEVKLGTEVWVQTQILGFDRKRLHVYHSLHRAGFDEVLAASEQLLHVDLQSAPFGHTTVCRLNHLVEQQEGAQAPQYGRTIKLPA GPALITYRTTVQEDWVDYNGHLRDAFYLLIFSYATDALDRIGLDADSRGQSGNSLFTLEAHINYLHEVKLGTEVWVQTQILGFDRKRLHVYHSLHRAGFDEVLAASEQLLHVDLQSAPFGHTTVCRLNHLVEQQEGAQAPQYGRTIKLPA 2hln-a3-m1-cI_2hln-a3-m1-cL L-asparaginase from Erwinia carotovora in complex with glutamic acid Q7WWK9 Q7WWK9 2.2 X-RAY DIFFRACTION 75 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 308 308 1zcf-a1-m1-cA_1zcf-a1-m1-cE 1zcf-a1-m1-cB_1zcf-a1-m1-cF 1zcf-a2-m1-cC_1zcf-a2-m1-cG 1zcf-a2-m1-cD_1zcf-a2-m1-cH 2gvn-a1-m1-cA_2gvn-a1-m1-cF 2gvn-a1-m1-cB_2gvn-a1-m1-cE 2gvn-a2-m1-cC_2gvn-a2-m1-cH 2gvn-a2-m1-cD_2gvn-a2-m1-cG 2hln-a1-m1-cA_2hln-a1-m1-cF 2hln-a1-m1-cB_2hln-a1-m1-cE 2hln-a2-m1-cC_2hln-a2-m1-cH 2hln-a2-m1-cD_2hln-a2-m1-cG 2hln-a3-m1-cJ_2hln-a3-m1-cK 2jk0-a1-m1-cB_2jk0-a1-m1-cC 2jk0-a1-m1-cD_2jk0-a1-m1-cA 2jk0-a2-m1-cE_2jk0-a2-m1-cH 2jk0-a2-m1-cG_2jk0-a2-m1-cF NLPNIVILATGGTIAGVETLIQAVPELKTLANIKGEQVASIGSENMTSDVLLTLSKRVNELLARSDVDGVVITHGTDTLDESPYFLNLTVKSDKPVVFVAAMRPATAISADGPMNLYGAVKVAADKNSRGRGVLVVLNDRIGSARFISKTNASTLDTFKAPEEGYLGVIIGDKIYYQTRLDKVHTTRSVFDVTNVDKLPAVDIIYGYQDDPEYMYDASIKHGVKGIVYAGMGAGSVSKRGDAGIRKAESKGIVVVRSSRTGSGIVPPDAGQPGLVADSLSPAKSRILLMLALTKTTNPAVIQDYFHAY NLPNIVILATGGTIAGVETLIQAVPELKTLANIKGEQVASIGSENMTSDVLLTLSKRVNELLARSDVDGVVITHGTDTLDESPYFLNLTVKSDKPVVFVAAMRPATAISADGPMNLYGAVKVAADKNSRGRGVLVVLNDRIGSARFISKTNASTLDTFKAPEEGYLGVIIGDKIYYQTRLDKVHTTRSVFDVTNVDKLPAVDIIYGYQDDPEYMYDASIKHGVKGIVYAGMGAGSVSKRGDAGIRKAESKGIVVVRSSRTGSGIVPPDAGQPGLVADSLSPAKSRILLMLALTKTTNPAVIQDYFHAY 2hln-a3-m1-cJ_2hln-a3-m1-cL L-asparaginase from Erwinia carotovora in complex with glutamic acid Q7WWK9 Q7WWK9 2.2 X-RAY DIFFRACTION 168 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 308 308 1zcf-a1-m1-cA_1zcf-a1-m1-cF 1zcf-a1-m1-cB_1zcf-a1-m1-cE 1zcf-a2-m1-cC_1zcf-a2-m1-cH 1zcf-a2-m1-cD_1zcf-a2-m1-cG 2gvn-a1-m1-cA_2gvn-a1-m1-cE 2gvn-a1-m1-cB_2gvn-a1-m1-cF 2gvn-a2-m1-cC_2gvn-a2-m1-cG 2gvn-a2-m1-cD_2gvn-a2-m1-cH 2hln-a1-m1-cA_2hln-a1-m1-cE 2hln-a1-m1-cB_2hln-a1-m1-cF 2hln-a2-m1-cC_2hln-a2-m1-cG 2hln-a2-m1-cD_2hln-a2-m1-cH 2hln-a3-m1-cI_2hln-a3-m1-cK 2jk0-a1-m1-cB_2jk0-a1-m1-cD 2jk0-a1-m1-cC_2jk0-a1-m1-cA 2jk0-a2-m1-cG_2jk0-a2-m1-cE 2jk0-a2-m1-cH_2jk0-a2-m1-cF NLPNIVILATGGTIAGVETLIQAVPELKTLANIKGEQVASIGSENMTSDVLLTLSKRVNELLARSDVDGVVITHGTDTLDESPYFLNLTVKSDKPVVFVAAMRPATAISADGPMNLYGAVKVAADKNSRGRGVLVVLNDRIGSARFISKTNASTLDTFKAPEEGYLGVIIGDKIYYQTRLDKVHTTRSVFDVTNVDKLPAVDIIYGYQDDPEYMYDASIKHGVKGIVYAGMGAGSVSKRGDAGIRKAESKGIVVVRSSRTGSGIVPPDAGQPGLVADSLSPAKSRILLMLALTKTTNPAVIQDYFHAY NLPNIVILATGGTIAGVETLIQAVPELKTLANIKGEQVASIGSENMTSDVLLTLSKRVNELLARSDVDGVVITHGTDTLDESPYFLNLTVKSDKPVVFVAAMRPATAISADGPMNLYGAVKVAADKNSRGRGVLVVLNDRIGSARFISKTNASTLDTFKAPEEGYLGVIIGDKIYYQTRLDKVHTTRSVFDVTNVDKLPAVDIIYGYQDDPEYMYDASIKHGVKGIVYAGMGAGSVSKRGDAGIRKAESKGIVVVRSSRTGSGIVPPDAGQPGLVADSLSPAKSRILLMLALTKTTNPAVIQDYFHAY 2hln-a3-m1-cK_2hln-a3-m1-cL L-asparaginase from Erwinia carotovora in complex with glutamic acid Q7WWK9 Q7WWK9 2.2 X-RAY DIFFRACTION 52 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 308 308 1zcf-a1-m1-cA_1zcf-a1-m1-cB 1zcf-a1-m1-cE_1zcf-a1-m1-cF 1zcf-a2-m1-cC_1zcf-a2-m1-cD 1zcf-a2-m1-cG_1zcf-a2-m1-cH 2gvn-a1-m1-cA_2gvn-a1-m1-cB 2gvn-a1-m1-cE_2gvn-a1-m1-cF 2gvn-a2-m1-cC_2gvn-a2-m1-cD 2gvn-a2-m1-cG_2gvn-a2-m1-cH 2hln-a1-m1-cA_2hln-a1-m1-cB 2hln-a1-m1-cE_2hln-a1-m1-cF 2hln-a2-m1-cC_2hln-a2-m1-cD 2hln-a2-m1-cG_2hln-a2-m1-cH 2hln-a3-m1-cI_2hln-a3-m1-cJ 2jk0-a1-m1-cB_2jk0-a1-m1-cA 2jk0-a1-m1-cC_2jk0-a1-m1-cD 2jk0-a2-m1-cE_2jk0-a2-m1-cF 2jk0-a2-m1-cG_2jk0-a2-m1-cH NLPNIVILATGGTIAGVETLIQAVPELKTLANIKGEQVASIGSENMTSDVLLTLSKRVNELLARSDVDGVVITHGTDTLDESPYFLNLTVKSDKPVVFVAAMRPATAISADGPMNLYGAVKVAADKNSRGRGVLVVLNDRIGSARFISKTNASTLDTFKAPEEGYLGVIIGDKIYYQTRLDKVHTTRSVFDVTNVDKLPAVDIIYGYQDDPEYMYDASIKHGVKGIVYAGMGAGSVSKRGDAGIRKAESKGIVVVRSSRTGSGIVPPDAGQPGLVADSLSPAKSRILLMLALTKTTNPAVIQDYFHAY NLPNIVILATGGTIAGVETLIQAVPELKTLANIKGEQVASIGSENMTSDVLLTLSKRVNELLARSDVDGVVITHGTDTLDESPYFLNLTVKSDKPVVFVAAMRPATAISADGPMNLYGAVKVAADKNSRGRGVLVVLNDRIGSARFISKTNASTLDTFKAPEEGYLGVIIGDKIYYQTRLDKVHTTRSVFDVTNVDKLPAVDIIYGYQDDPEYMYDASIKHGVKGIVYAGMGAGSVSKRGDAGIRKAESKGIVVVRSSRTGSGIVPPDAGQPGLVADSLSPAKSRILLMLALTKTTNPAVIQDYFHAY 2hls-a3-m4-cB_2hls-a3-m1-cA The crystal structure of a protein disulfide oxidoreductase from Aeropyrum pernix k1 Q9YDZ4 Q9YDZ4 1.93 X-RAY DIFFRACTION 33 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 229 232 2hls-a3-m1-cB_2hls-a3-m4-cA 2hls-a3-m2-cB_2hls-a3-m3-cA 2hls-a3-m3-cB_2hls-a3-m2-cA RYYVLDLSEDFRRELRETLAEMVNPVEVHVFLSKSGCETCEDTLRLMKLFEEESPTRNGGKLLKLNVYYRESDSDKFSEFKVERVPTVAFLGGEVRWTGIPAGEEIRALVEVIMRLSEDESGLEDATKEALKSLKGRVHIETIITPSCPYCPYAVLLAHMFAYEAWKQGNPVILSEAVEAYENPDIADKYGVMSVPSIAINGYLVFVGVPYEEDFLDYVKSAAEGRLTV ARYYVLDLSEDFRRELRETLAEMVNPVEVHVFLSKSGCETCEDTLRLMKLFEEESPTRNGGKLLKLNVYYRESDSDKFSEFKVERVPTVAFLGGEVRWTGIPAGEEIRALVEVIMRLSEDESGLEDATKEALKSLKGRVHIETIITPSCPYCPYAVLLAHMFAYEAWKQGNPVILSEAVEAYENPDIADKYGVMSVPSIAINGYLVFVGVPYEEDFLDYVKSAAEGRLTVKG 2hls-a3-m4-cB_2hls-a3-m4-cA The crystal structure of a protein disulfide oxidoreductase from Aeropyrum pernix k1 Q9YDZ4 Q9YDZ4 1.93 X-RAY DIFFRACTION 40 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 229 232 2hls-a3-m1-cB_2hls-a3-m1-cA 2hls-a3-m1-cB_2hls-a3-m2-cA 2hls-a3-m2-cB_2hls-a3-m1-cA 2hls-a3-m2-cB_2hls-a3-m2-cA 2hls-a3-m3-cB_2hls-a3-m3-cA 2hls-a3-m3-cB_2hls-a3-m4-cA 2hls-a3-m4-cB_2hls-a3-m3-cA RYYVLDLSEDFRRELRETLAEMVNPVEVHVFLSKSGCETCEDTLRLMKLFEEESPTRNGGKLLKLNVYYRESDSDKFSEFKVERVPTVAFLGGEVRWTGIPAGEEIRALVEVIMRLSEDESGLEDATKEALKSLKGRVHIETIITPSCPYCPYAVLLAHMFAYEAWKQGNPVILSEAVEAYENPDIADKYGVMSVPSIAINGYLVFVGVPYEEDFLDYVKSAAEGRLTV ARYYVLDLSEDFRRELRETLAEMVNPVEVHVFLSKSGCETCEDTLRLMKLFEEESPTRNGGKLLKLNVYYRESDSDKFSEFKVERVPTVAFLGGEVRWTGIPAGEEIRALVEVIMRLSEDESGLEDATKEALKSLKGRVHIETIITPSCPYCPYAVLLAHMFAYEAWKQGNPVILSEAVEAYENPDIADKYGVMSVPSIAINGYLVFVGVPYEEDFLDYVKSAAEGRLTVKG 2hlz-a1-m1-cA_2hlz-a1-m1-cD Crystal Structure of human ketohexokinase P50053 P50053 1.85 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 298 2hlz-a1-m1-cB_2hlz-a1-m1-cC GSQILCVGLVVLDVISLVDKYPKEDSEIRCLSQRWQRGGNASNSCTILSLLGAPCAFGSAPGHVADFVLDDLRRYSVDLRYTVFQTTGSVPIATVIINEASGSRTILYYDRSLPDVSATDFEKVDLTQFKWIHIEGRNASEQVKLQRIDAHNTRQPPEQKIRVSVEVEKPREELFQLFGYGDVVFVSKDVAKHLGFQSAEEALRGLYGRVRKGAVLVCAWAEEGADALGPDGKLLHSDAFPPPRVVDTLGAGDTFNASVIFSLSQGRSVQEALRFGCQVAGKKCGLQGFDGIV GLVPRGSQILCVGLVVLDVISLVDKYPKEDSEIRCLSQRWQRGGNASNSCTILSLLGAPCAFGSAPGHVADFVLDDLRRYSVDLRYTVFQTTGSVPIATVIINEASGSRTILYYDRSLPDVSATDFEKVDLTQFKWIHIEGRNASEQVKLQRIDAHNTRQPPEQKIRVSVEVEKPREELFQLFGYGDVVFVSKDVAKHLGFQSAEEALRGLYGRVRKGAVLVCAWAEEGADALGPDGKLLHSDAFPPPRVVDTLGAGDTFNASVIFSLSQGRSVQEALRFGCQVAGKKCGLQGFDGIV 2hlz-a1-m1-cB_2hlz-a1-m1-cD Crystal Structure of human ketohexokinase P50053 P50053 1.85 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 298 2hlz-a1-m1-cA_2hlz-a1-m1-cC GSQILCVGLVVLDVISLVDKYPKEDSEIRCLSQRWQRGGNASNSCTILSLLGAPCAFGSAPGHVADFVLDDLRRYSVDLRYTVFQTTGSVPIATVIINEASGSRTILYYDRSLPDVSATDFEKVDLTQFKWIHIEGRNASEQVKLQRIDAHNTRQPPEQKIRVSVEVEKPREELFQLFGYGDVVFVSKDVAKHLGFQSAEEALRGLYGRVRKGAVLVCAWAEEGADALGPDGKLLHSDAFPPPRVVDTLGAGDTFNASVIFSLSQGRSVQEALRFGCQVAGKKCGLQGFDGIV GLVPRGSQILCVGLVVLDVISLVDKYPKEDSEIRCLSQRWQRGGNASNSCTILSLLGAPCAFGSAPGHVADFVLDDLRRYSVDLRYTVFQTTGSVPIATVIINEASGSRTILYYDRSLPDVSATDFEKVDLTQFKWIHIEGRNASEQVKLQRIDAHNTRQPPEQKIRVSVEVEKPREELFQLFGYGDVVFVSKDVAKHLGFQSAEEALRGLYGRVRKGAVLVCAWAEEGADALGPDGKLLHSDAFPPPRVVDTLGAGDTFNASVIFSLSQGRSVQEALRFGCQVAGKKCGLQGFDGIV 2hm7-a2-m1-cA_2hm7-a2-m2-cA Crystal Structure Analysis of the G84S EST2 mutant Q7SIG1 Q7SIG1 2 X-RAY DIFFRACTION 158 1.0 405212 (Alicyclobacillus acidocaldarius) 405212 (Alicyclobacillus acidocaldarius) 308 308 1u4n-a2-m1-cA_1u4n-a2-m2-cA LDPVIQQVLDQLNRMPAPDYKHLSAQQFRSQQSLFPPVKKEPVAEVREFDMDLPGRTLKVRMYRPEGVEPPYPALVYYHGGSWVVGDLETHDPVCRVLAKDGRAVVFSVDYRLAPEHKFPAAVEDAYDALQWIAERAADFHLDPARIAVGGDSAGGNLAAVTSILAKERGGPALAFQLLIYPSTGYDPAHPPASIEENAEGYLLTGGMMLWFRDQYLNSLEELTHPWFSPVLYPDLSGLPPAYIATAQYDPLRDVGKLYAEALNKAGVKVEIENFEDLIHGFAQFYSLSPGATKALVRIAEKLRDALA LDPVIQQVLDQLNRMPAPDYKHLSAQQFRSQQSLFPPVKKEPVAEVREFDMDLPGRTLKVRMYRPEGVEPPYPALVYYHGGSWVVGDLETHDPVCRVLAKDGRAVVFSVDYRLAPEHKFPAAVEDAYDALQWIAERAADFHLDPARIAVGGDSAGGNLAAVTSILAKERGGPALAFQLLIYPSTGYDPAHPPASIEENAEGYLLTGGMMLWFRDQYLNSLEELTHPWFSPVLYPDLSGLPPAYIATAQYDPLRDVGKLYAEALNKAGVKVEIENFEDLIHGFAQFYSLSPGATKALVRIAEKLRDALA 2hma-a1-m1-cA_2hma-a1-m2-cA The Crystal Structure of tRNA (5-Methylaminomethyl-2-Thiouridylate)-Methyltransferase TrmU from Streptococcus pneumoniae Q97T38 Q97T38 2.41 X-RAY DIFFRACTION 96 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 353 353 SDNSKTRVVVGSGGVDSSVTALLLKEQGYDVIGIFKNWDDTDCTATEDYKDVVAVADQIGIPYYSVNFEKEYWDRVFEYFLAEYRAGRTPNPDVCNKEIKFKAFLDYAITLGADYVATGHYARVARDEDGTVHLRGVDNGKDQTYFLSQLSQEQLQKTFPLGHLEKPEVRRLAEEAGLSTAKKKDSTGICFIGEKNFKNFLSNYLPAQPGRTVDGRDGEHAGLYYTIGQRGGLGIGGDNAPWFVVGKDLSKNILYVGQGFYHDSLSTSLEASQVHFTREPEEFTLECTAKFRYRQPDSKVTVHVKGEKTEVIFAEPQRAITPGQAVVFYDGEECLGGGLIDNAYRDGQVCQYI SDNSKTRVVVGSGGVDSSVTALLLKEQGYDVIGIFKNWDDTDCTATEDYKDVVAVADQIGIPYYSVNFEKEYWDRVFEYFLAEYRAGRTPNPDVCNKEIKFKAFLDYAITLGADYVATGHYARVARDEDGTVHLRGVDNGKDQTYFLSQLSQEQLQKTFPLGHLEKPEVRRLAEEAGLSTAKKKDSTGICFIGEKNFKNFLSNYLPAQPGRTVDGRDGEHAGLYYTIGQRGGLGIGGDNAPWFVVGKDLSKNILYVGQGFYHDSLSTSLEASQVHFTREPEEFTLECTAKFRYRQPDSKVTVHVKGEKTEVIFAEPQRAITPGQAVVFYDGEECLGGGLIDNAYRDGQVCQYI 2hmc-a1-m3-cA_2hmc-a1-m6-cA The Crystal Structure of Dihydrodipicolinate Synthase DapA from Agrobacterium tumefaciens A9CGZ4 A9CGZ4 1.9 X-RAY DIFFRACTION 60 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 304 304 2hmc-a1-m1-cA_2hmc-a1-m5-cA 2hmc-a1-m2-cA_2hmc-a1-m4-cA YFQGTASIFSGVIPALTPCRQDRTPDFDALVRKGKELIADGSAVVYCGSGDWPLLTDEQREGVERLVKAGIPVIVGTGAVNTASAVAHAVHAQKVGAKGLVIPRVLSRGSVIAAQKAHFKAILSAAPEIPAVIYNSPYYGFATRADLFFALRAEHKNLVGFKEFGGPADRYAAENITSRDDEVTLIGVDTAVVHGFVNCGATGAITGIGNVLPKEVIHLCKLSQAAAKGDADARARALELEQALAVLSSFDEGPDLVLYFKYVLKGDKEYTLHFNETDALTDSQRGYVEAQFKLFNSWYADWSK YFQGTASIFSGVIPALTPCRQDRTPDFDALVRKGKELIADGSAVVYCGSGDWPLLTDEQREGVERLVKAGIPVIVGTGAVNTASAVAHAVHAQKVGAKGLVIPRVLSRGSVIAAQKAHFKAILSAAPEIPAVIYNSPYYGFATRADLFFALRAEHKNLVGFKEFGGPADRYAAENITSRDDEVTLIGVDTAVVHGFVNCGATGAITGIGNVLPKEVIHLCKLSQAAAKGDADARARALELEQALAVLSSFDEGPDLVLYFKYVLKGDKEYTLHFNETDALTDSQRGYVEAQFKLFNSWYADWSK 2hmc-a1-m5-cA_2hmc-a1-m6-cA The Crystal Structure of Dihydrodipicolinate Synthase DapA from Agrobacterium tumefaciens A9CGZ4 A9CGZ4 1.9 X-RAY DIFFRACTION 43 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 304 304 2hmc-a1-m1-cA_2hmc-a1-m2-cA 2hmc-a1-m1-cA_2hmc-a1-m3-cA 2hmc-a1-m2-cA_2hmc-a1-m3-cA 2hmc-a1-m4-cA_2hmc-a1-m5-cA 2hmc-a1-m4-cA_2hmc-a1-m6-cA YFQGTASIFSGVIPALTPCRQDRTPDFDALVRKGKELIADGSAVVYCGSGDWPLLTDEQREGVERLVKAGIPVIVGTGAVNTASAVAHAVHAQKVGAKGLVIPRVLSRGSVIAAQKAHFKAILSAAPEIPAVIYNSPYYGFATRADLFFALRAEHKNLVGFKEFGGPADRYAAENITSRDDEVTLIGVDTAVVHGFVNCGATGAITGIGNVLPKEVIHLCKLSQAAAKGDADARARALELEQALAVLSSFDEGPDLVLYFKYVLKGDKEYTLHFNETDALTDSQRGYVEAQFKLFNSWYADWSK YFQGTASIFSGVIPALTPCRQDRTPDFDALVRKGKELIADGSAVVYCGSGDWPLLTDEQREGVERLVKAGIPVIVGTGAVNTASAVAHAVHAQKVGAKGLVIPRVLSRGSVIAAQKAHFKAILSAAPEIPAVIYNSPYYGFATRADLFFALRAEHKNLVGFKEFGGPADRYAAENITSRDDEVTLIGVDTAVVHGFVNCGATGAITGIGNVLPKEVIHLCKLSQAAAKGDADARARALELEQALAVLSSFDEGPDLVLYFKYVLKGDKEYTLHFNETDALTDSQRGYVEAQFKLFNSWYADWSK 2hmf-a1-m1-cA_2hmf-a1-m1-cB Structure of a Threonine Sensitive Aspartokinase from Methanococcus jannaschii Complexed with Mg-ADP and Aspartate Q57991 Q57991 2.7 X-RAY DIFFRACTION 224 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 464 464 2hmf-a1-m1-cC_2hmf-a1-m1-cD 3c1m-a1-m1-cA_3c1m-a1-m1-cB 3c1m-a1-m1-cD_3c1m-a1-m1-cC 3c1m-a2-m1-cA_3c1m-a2-m1-cB 3c1m-a3-m1-cD_3c1m-a3-m1-cC 3c1n-a1-m1-cA_3c1n-a1-m1-cB 3c1n-a1-m1-cD_3c1n-a1-m1-cC 3c1n-a2-m1-cA_3c1n-a2-m1-cB 3c1n-a3-m1-cD_3c1n-a3-m1-cC TTVMKFGGTSVGSGERIRHVAKIVTKRKKEDDDVVVVVSAMSEVTNALVEISQQALDVRDIAKVGDFIKFIREKHYKAIEEAIKSEEIKEEVKKIIDSRIEELEKVLIGVAYLGELTPKSRDYILSFGERLSSPILSGAIRDLGEKSIALEGGEAGIITDNNFGSARVKRLEVKERLLPLLKEGIIPVVTGFIGTTEEGYITTLGRGGSDYSAALIGYGLDADIIEIWTDVSGVYTTDPRLVPTARRIPKLSYIEAMELAYFGAKVLHPRTIEPAMEKGIPILVKNTFEPESEGTLITNDMEMSDSIVKAISTIKNVALINIFGAGMVGVSGTAARIFKALGEEEVNVILISQGSSETNISLVVSEEDVDKALKALKREFGDFLNNNLIRDVSVDKDVCVISVVGAGMRGAKGIAGKIFTAVSESGANIKMIAQGSSEVNISFVIDEKDLLNCVRKLHEKFIEK TTVMKFGGTSVGSGERIRHVAKIVTKRKKEDDDVVVVVSAMSEVTNALVEISQQALDVRDIAKVGDFIKFIREKHYKAIEEAIKSEEIKEEVKKIIDSRIEELEKVLIGVAYLGELTPKSRDYILSFGERLSSPILSGAIRDLGEKSIALEGGEAGIITDNNFGSARVKRLEVKERLLPLLKEGIIPVVTGFIGTTEEGYITTLGRGGSDYSAALIGYGLDADIIEIWTDVSGVYTTDPRLVPTARRIPKLSYIEAMELAYFGAKVLHPRTIEPAMEKGIPILVKNTFEPESEGTLITNDMEMSDSIVKAISTIKNVALINIFGAGMVGVSGTAARIFKALGEEEVNVILISQGSSETNISLVVSEEDVDKALKALKREFGDFLNNNLIRDVSVDKDVCVISVVGAGMRGAKGIAGKIFTAVSESGANIKMIAQGSSEVNISFVIDEKDLLNCVRKLHEKFIEK 2hn1-a1-m1-cA_2hn1-a1-m2-cA Crystal structure of a CorA soluble domain from A. fulgidus in complex with Co2+ O29472 O29472 2.9 X-RAY DIFFRACTION 215 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 246 246 PVFTGEKKVEETKITAAIYDEKSVEFKELEVGELESVVRSALALNKKLWIDVVGVHDESLIAKICEFLGIHPLAAEDILNTAQRVKIEDYDDHLFLVLKILLYNETLEIDQLSLVLKKNLVATFEEREYWILDSIRSRLKSGGRMRKLAGDYLAYTILDAVVDSYFEALLKISDEIEVLEDEVVSGDSTLIGKIHSLKREILAFRNAVWPLRDVLSFFTRVEHELIGEEVKVYYRDVYDHAVRLME PVFTGEKKVEETKITAAIYDEKSVEFKELEVGELESVVRSALALNKKLWIDVVGVHDESLIAKICEFLGIHPLAAEDILNTAQRVKIEDYDDHLFLVLKILLYNETLEIDQLSLVLKKNLVATFEEREYWILDSIRSRLKSGGRMRKLAGDYLAYTILDAVVDSYFEALLKISDEIEVLEDEVVSGDSTLIGKIHSLKREILAFRNAVWPLRDVLSFFTRVEHELIGEEVKVYYRDVYDHAVRLME 2hng-a1-m1-cA_2hng-a1-m2-cA The Crystal Structure of Protein of Unknown Function SP1558 from Streptococcus pneumoniae A0A0H2UQV3 A0A0H2UQV3 1.63 X-RAY DIFFRACTION 49 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 122 122 ANLKREQEFVSQYHFDARNFEWENENGAPETKVDVNFQLLQHDQENQVTSLIVILSFIVFDKFVISGTISQVNHIDGRIVNEPSELNQEEVETLARPCLNLNRLTYEVTEIALDLPGINLEF ANLKREQEFVSQYHFDARNFEWENENGAPETKVDVNFQLLQHDQENQVTSLIVILSFIVFDKFVISGTISQVNHIDGRIVNEPSELNQEEVETLARPCLNLNRLTYEVTEIALDLPGINLEF 2hnk-a2-m1-cB_2hnk-a2-m2-cB Crystal structure of SAM-dependent O-methyltransferase from pathogenic bacterium Leptospira interrogans Q8F8Y3 Q8F8Y3 2.3 X-RAY DIFFRACTION 158 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 232 232 2hnk-a1-m1-cA_2hnk-a1-m1-cC SRKNISLTESLEEYIFRNSVREPDSFLKLRKETGTLAQNMQISPEEGQFLNILTKISGAKRIIEIGTFTGYSSLCFASALPEDGKILCCDVSEEWTNVARKYWKENGLENKIFLKLGSALETLQVLIDSKSAPSWASDFAFGPSSIDLFFLDADKENYPNYYPLILKLLKPGGLLIADNVLWDGSVADLSHQEPSTVGIRKFNELVYNDSLVDVSLVPIADGVSLVRKRLEH SRKNISLTESLEEYIFRNSVREPDSFLKLRKETGTLAQNMQISPEEGQFLNILTKISGAKRIIEIGTFTGYSSLCFASALPEDGKILCCDVSEEWTNVARKYWKENGLENKIFLKLGSALETLQVLIDSKSAPSWASDFAFGPSSIDLFFLDADKENYPNYYPLILKLLKPGGLLIADNVLWDGSVADLSHQEPSTVGIRKFNELVYNDSLVDVSLVPIADGVSLVRKRLEH 2hnl-a1-m1-cB_2hnl-a1-m1-cA Structure of the prostaglandin D synthase from the parasitic nematode Onchocerca volvulus P46434 P46434 2 X-RAY DIFFRACTION 71 1.0 6282 (Onchocerca volvulus) 6282 (Onchocerca volvulus) 200 202 EKYTLTYFNGRGRAEVIRLLFALANVSYEDNRITRDEWKYLKPRTPFGHVPMLNVSGNVLGESHAIELLLGGRFGLLGTNDWEEAKIMAVVLNIDELFQKLIPWTHEKNTTKKAELFRNLSESDVMPFLGRYEKFLKESTTGHIVGNKVSVADLTVFNMLMTLDDEVKLEEYPQLASFVNKIGQMPGIKEWIKKRPKTYF QMEKYTLTYFNGRGRAEVIRLLFALANVSYEDNRITRDEWKYLKPRTPFGHVPMLNVSGNVLGESHAIELLLGGRFGLLGTNDWEEAKIMAVVLNIDELFQKLIPWTHEKNTTKKAELFRNLSESDVMPFLGRYEKFLKESTTGHIVGNKVSVADLTVFNMLMTLDDEVKLEEYPQLASFVNKIGQMPGIKEWIKKRPKTYF 2hnu-a2-m1-cC_2hnu-a2-m1-cD Crystal Structure of a Dipeptide Complex of Bovine Neurophysin-I P01175 P01175 2 X-RAY DIFFRACTION 49 1.0 9913 (Bos taurus) 9913 (Bos taurus) 81 81 2hnu-a1-m1-cA_2hnu-a1-m1-cB 2hnu-a3-m1-cE_2hnu-a3-m2-cE 2hnv-a1-m1-cA_2hnv-a1-m1-cB 2hnv-a2-m1-cC_2hnv-a2-m1-cD 2hnv-a3-m1-cE_2hnv-a3-m2-cE 2hnw-a1-m1-cA_2hnw-a1-m1-cB 2hnw-a2-m1-cC_2hnw-a2-m1-cD 2hnw-a3-m1-cE_2hnw-a3-m2-cE 2lbh-a1-m1-cA_2lbh-a1-m1-cB VRTCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCSPDGCHEDPACDP VRTCLPCGPGGKGRCFGPSICCGDELGCFVGTAEALRCQEENYLPSPCQSGQKPCGSGGRCAAAGICCSPDGCHEDPACDP 2ho1-a1-m1-cB_2ho1-a1-m1-cA Functional Characterization of Pseudomonas Aeruginosa pilF Q9HXJ2 Q9HXJ2 2 X-RAY DIFFRACTION 20 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 218 219 2fi7-a1-m1-cA_2fi7-a1-m1-cB GRDEARDAYIQLGLGYLQRGNTEQAKVPLRKALEIDPSSADAHAALAVVFQTEEPKLADEEYRKALASDSRNARVLNNYGGFLYEQKRYEEAYQRLLEASQDTLYPERSRVFENLGLVSLQKKPAQAKEYFEKSLRLNRNQPSVALEADLLYKEREYVPARQYYDLFAQGGGQNARSLLLGIRLAKVFEDRDTAASYGLQLKRLYPGSLEYQEFQAEK KGRDEARDAYIQLGLGYLQRGNTEQAKVPLRKALEIDPSSADAHAALAVVFQTEEPKLADEEYRKALASDSRNARVLNNYGGFLYEQKRYEEAYQRLLEASQDTLYPERSRVFENLGLVSLQKKPAQAKEYFEKSLRLNRNQPSVALEADLLYKEREYVPARQYYDLFAQGGGQNARSLLLGIRLAKVFEDRDTAASYGLQLKRLYPGSLEYQEFQAEK 2hoe-a1-m1-cA_2hoe-a1-m2-cA Crystal structure of N-acetylglucosamine kinase (TM1224) from Thermotoga maritima at 2.46 A resolution Q9X0V1 Q9X0V1 2.46 X-RAY DIFFRACTION 94 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 346 346 ISRILKRIKSPVSRVELAEELGLTKTTVGEIAKIFLEKGIVVEEKDSPRPTKSLKISPNCAYVLGIEVTRDEIAACLIDASNILAHEAHPLPSQSDREETLNVYRIIDRAKDEKLGSKLSALTVAAPGPIDTERGIIIDPRNFPLSQIPLANLLKEKYGIEVWVENDADGAVGEKWYTKRDDSFAWILTGKGIGAGIIIDGELYRGENGYAGEIGYTRVFNGNEYVFLEDVCNENVVLKHVLSGFSLAEARDSGDVRVKEYFDDIARYFSIGLLNLIHLFGISKIVIGGFFKELGENFLKKIKIEVETHLLYKHSVDSFSKVQEPVIAFGAAVHALENYLERVTTS ISRILKRIKSPVSRVELAEELGLTKTTVGEIAKIFLEKGIVVEEKDSPRPTKSLKISPNCAYVLGIEVTRDEIAACLIDASNILAHEAHPLPSQSDREETLNVYRIIDRAKDEKLGSKLSALTVAAPGPIDTERGIIIDPRNFPLSQIPLANLLKEKYGIEVWVENDADGAVGEKWYTKRDDSFAWILTGKGIGAGIIIDGELYRGENGYAGEIGYTRVFNGNEYVFLEDVCNENVVLKHVLSGFSLAEARDSGDVRVKEYFDDIARYFSIGLLNLIHLFGISKIVIGGFFKELGENFLKKIKIEVETHLLYKHSVDSFSKVQEPVIAFGAAVHALENYLERVTTS 2hoq-a1-m1-cA_2hoq-a1-m2-cA Crystal structure of the probable haloacid dehalogenase (PH1655) from pyrococcus horikoshii OT3 O59346 O59346 1.7 X-RAY DIFFRACTION 32 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 237 237 MVKVIFFDLDDTLVDTSKLAEIARKNAIENMIRHGLPVDFETAYSELIELIKEYGSNFPYHFDYLLRRLDLPYNPKWISAGVIAYHNTKFAYLREVPGARKVLIRLKELGYELGIITDGNPVKQWEKILRLELDDFFEHVIISDFEGVKKPHPKIFKKALKAFNVKPEEALMVGDRLYSDIYGAKRVGMKTVWFRYGKHSERELEYRKYADYEIDNLESLLEVLARESSSNKKVHPP MVKVIFFDLDDTLVDTSKLAEIARKNAIENMIRHGLPVDFETAYSELIELIKEYGSNFPYHFDYLLRRLDLPYNPKWISAGVIAYHNTKFAYLREVPGARKVLIRLKELGYELGIITDGNPVKQWEKILRLELDDFFEHVIISDFEGVKKPHPKIFKKALKAFNVKPEEALMVGDRLYSDIYGAKRVGMKTVWFRYGKHSERELEYRKYADYEIDNLESLLEVLARESSSNKKVHPP 2hox-a3-m1-cA_2hox-a3-m1-cC alliinase from allium sativum (garlic) Q01594 Q01594 1.4 X-RAY DIFFRACTION 12 1.0 4682 (Allium sativum) 4682 (Allium sativum) 425 425 KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAK KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAK 2hox-a3-m1-cA_2hox-a3-m1-cD alliinase from allium sativum (garlic) Q01594 Q01594 1.4 X-RAY DIFFRACTION 15 1.0 4682 (Allium sativum) 4682 (Allium sativum) 425 427 KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAK KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAKRK 2hox-a3-m1-cC_2hox-a3-m1-cB alliinase from allium sativum (garlic) Q01594 Q01594 1.4 X-RAY DIFFRACTION 10 1.0 4682 (Allium sativum) 4682 (Allium sativum) 425 427 KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAK KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAKRK 2hox-a3-m1-cC_2hox-a3-m1-cD alliinase from allium sativum (garlic) Q01594 Q01594 1.4 X-RAY DIFFRACTION 304 1.0 4682 (Allium sativum) 4682 (Allium sativum) 425 427 1lk9-a1-m1-cA_1lk9-a1-m1-cB 2hor-a1-m1-cA_2hor-a1-m2-cA 2hox-a1-m1-cA_2hox-a1-m1-cB 2hox-a2-m1-cC_2hox-a2-m1-cD 2hox-a3-m1-cA_2hox-a3-m1-cB KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAK KMTWTMKAAEEAEAVANINCSEHGRAFLDGIISEGSPKCECNTCYTGPDCSEKIQGCSADVASGDGLFLEEYWKQHKEASAVLVSPWHRMSYFFNPVSNFISFELEKTIKELHEVVGNAAAKDRYIVFGVGVTQLIHGLVISLSPNMTATPDAPESKVVAHAPFYPVFREQTKYFDKKGYVWAGNAANYVNVSNPEQYIEMVTSPNNPEGLLRHAVIKGCKSIYDMVYYWPHYTPIKYKADEDILLFTMSKFTGHSGSRFGWALIKDESVYNNLLNYMTKNTEGTPRETQLRSLKVLKEVVAMVKTQKGTMRDLNTFGFKKLRERWVNITALLDQSDRFSYQELPQSEYCNYFRRMRPPSPSYAWVKCEWEEDKDCYQTFQNGRINTQNGVGFEASSRYVRLSLIKTQDDFDQLMYYLKDMVKAKRK 2hoy-a1-m1-cB_2hoy-a1-m1-cA Inter-subunit signaling in GSAM P24630 P24630 2.2 X-RAY DIFFRACTION 322 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 393 402 2gsa-a1-m1-cA_2gsa-a1-m1-cB 2hoz-a1-m1-cB_2hoz-a1-m1-cA 2hp1-a1-m1-cB_2hp1-a1-m1-cA 2hp2-a1-m1-cA_2hp2-a1-m1-cB 3fq7-a1-m1-cA_3fq7-a1-m1-cB 3fq8-a1-m1-cA_3fq8-a1-m1-cB 3fqa-a1-m1-cA_3fqa-a1-m1-cB 3gsb-a1-m1-cA_3gsb-a1-m1-cB 3usf-a1-m1-cB_3usf-a1-m1-cA 4gsa-a1-m1-cA_4gsa-a1-m1-cB FKTIKSDEIFAAAQKLMPGGVSSPVRAFKSVGGQPIVFDRVKDAYAWDVDGNRYIDYVGTWGPAICGHAHPEVIEALKVAMEKGTSFGAPCALENVLAEMVNDAVPSIEMVRFVNSGTEACMAVLRIMRAYTGRDKIIKFEGNTLTTPYNDLEAVKALFAENPGEIAGVILEPIVGNSGFIVPDAGFLEGLREITLEHDALLVFDEVMTGFRIAYGGVQEKFGVTPDLTTLGKIIGGGLPVGAYGGKREIMQLVAPAGPMYQAGTLSGNPLAMTAGIKTLELLRQPGTYEYLDQITKRLSDGLLAIAQETGHAACGGQVSGMFGFFFTEGPVHNYEDAKKSDLQKFSRFHRGMLEQGIYLAPSQFEAGFTSLAHTEEDIDATLAAARTVMSAL FKTIKSDEIFAAAQKLMPGGVSSPVRAFKSVGGQPIVFDRVKDAYAWDVDGNRYIDYVGTWGPAICGHAHPEVIEALKVAMEKGTSFGAPCALENVLAEMVNDAVPSIEMVRFVNSGTEACMAVLRIMRAYTGRDKIIKFEGCYHGHADMANTLTTPYNDLEAVKALFAENPGEIAGVILEPIVGNSGFIVPDAGFLEGLREITLEHDALLVFDEVMTGFRIAYGGVQEKFGVTPDLTTLGKIIGGGLPVGAYGGKREIMQLVAPAGPMYQAGTLSGNPLAMTAGIKTLELLRQPGTYEYLDQITKRLSDGLLAIAQETGHAACGGQVSGMFGFFFTEGPVHNYEDAKKSDLQKFSRFHRGMLEQGIYLAPSQFEAGFTSLAHTEEDIDATLAAARTVMSAL 2hp0-a1-m1-cB_2hp0-a1-m1-cA Crystal structure of iminodisuccinate epimerase Q1L4E3 Q1L4E3 1.5 X-RAY DIFFRACTION 154 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 429 431 2hp3-a1-m1-cB_2hp3-a1-m1-cA HFTTKLAEKVVSAWKAKISQPALKAAQDGVIDTVAAALGGVTEHSVQVALKYVAATGGSGDSKLWGVNQRSNFDAAFVNGAAHAIDFDDSFPVRGHPSSSLVPAIFAVGEHVGANGHNCLKSYVLGIEVVATLGRAVGKGHYLAGWHPTSTLGVFGATTAAALLLGADEEQLRNAWGIAASNSCGIIKNFGTTKPHTGSAARNGVLSAWLSQSFTGCQTVFDDAEGILAYGAQPGPELFNAQKFGTPWAIIAPGLYKKSWPSYANHKPLAGLFAIKEHGLTGQDISHVDVGFLPGVEKPLLYDPRTEEAKFSIEANIGAALLDGEVSLASFEIEHLDRPARAAKKVTRFDPSETTFSGTTGYTDIVVHTADGKIERRIEATPGSLEDPDDAHLERKFKDCTAWPFGESGLLFDRLRSLTADQGIKTVQP HFTTKLAEKVVSAWKAKISQPALKAAQDGVIDTVAAALGGVTEHSVQVALKYVAATGGSGDSKLWGVNQRSNFDAAFVNGAAHAIDFDDSFPVRGHPSSSLVPAIFAVGEHVGANGHNCLKSYVLGIEVVATLGRAVGKGHYLAGWHPTSTLGVFGATTAAALLLGADEEQLRNAWGIAASNSCGIIKNFGTTKPHTGSAARNGVLSAWLSQSFTGCQTVFDDAEGILAYGAQPGPELFNAQKFGTPWAIIAPGLYKKSWPSCYANHKPLAGLFAIKEHGLTGQDISHVDVGFLPGVEKPLLYDPRTTEEAKFSIEANIGAALLDGEVSLASFEIEHLDRPARAAKKVTRFDPSETTFSGTTGYTDIVVHTADGKIERRIEATPGSLEDPDDAHLERKFKDCTAWPFGESGLLFDRLRSLTADQGIKTVQP 2hpi-a2-m1-cA_2hpi-a2-m2-cA Eubacterial and Eukaryotic Replicative DNA Polymerases are not Homologous: X-ray Structure of DNA Polymerase III Q9XDH5 Q9XDH5 3 X-RAY DIFFRACTION 141 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 1143 1143 2hpm-a2-m1-cA_2hpm-a2-m2-cA LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRKRGGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELRKREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTFGSLASKAALKDVARVYGIPHKKAEELAKLIPVQFGKPKPLQEAELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVRFTLSDETGALEVVKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRVGEEALGLLEAEGYRAYLVPDREVF LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRKRGGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELRKREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTFGSLASKAALKDVARVYGIPHKKAEELAKLIPVQFGKPKPLQEAELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVRFTLSDETGALEVVKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRVGEEALGLLEAEGYRAYLVPDREVF 2hpr-a2-m1-cA_2hpr-a2-m2-cA HISTIDINE-CONTAINING PHOSPHOCARRIER PROTEIN HPR MUTANT WITH MET 51 REPLACED BY VAL AND SER 83 REPLACED BY CYS (M51V, S83C) P08877 P08877 2 X-RAY DIFFRACTION 22 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 86 86 AQKTFKVTADSGIHARPATVLVQTASKYDADVNLEYNGKTVNLKSIMGVVSLGIAKGAEITISASGADENDALNALEETMKEGLGE AQKTFKVTADSGIHARPATVLVQTASKYDADVNLEYNGKTVNLKSIMGVVSLGIAKGAEITISASGADENDALNALEETMKEGLGE 2hpv-a2-m1-cC_2hpv-a2-m1-cD Crystal structure of FMN-Dependent azoreductase from Enterococcus faecalis Q831B2 Q831B2 2 X-RAY DIFFRACTION 75 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 204 204 2hpv-a1-m1-cA_2hpv-a1-m1-cB SKLLVVKAHPLTKEESRSVRALETFLASYRETNPSDEIEILDVYAPETNPEIDEELLSAWGALRAGAAFETLSENQQQKVARFNELTDQFLSADKVVIANPWNLNVPTRLKAWVDTINVAGKTFQYTAEGPKPLTSGKKALHIQSNGGFYEGKDFASQYIKAILNFIGVDQVDGLFIEGIDHFPDRAEELLNTATKATEYGKTF SKLLVVKAHPLTKEESRSVRALETFLASYRETNPSDEIEILDVYAPETNPEIDEELLSAWGALRAGAAFETLSENQQQKVARFNELTDQFLSADKVVIANPWNLNVPTRLKAWVDTINVAGKTFQYTAEGPKPLTSGKKALHIQSNGGFYEGKDFASQYIKAILNFIGVDQVDGLFIEGIDHFPDRAEELLNTATKATEYGKTF 2hpw-a3-m1-cA_2hpw-a3-m4-cA Green fluorescent protein from Clytia gregaria D7PM05 D7PM05 1.55 X-RAY DIFFRACTION 19 1.0 27801 (Clytia gregaria) 27801 (Clytia gregaria) 228 228 2hpw-a3-m2-cA_2hpw-a3-m3-cA TEGAKLFEKEIPYITELEGDVEGMKFIIKGEGTGDATTGTIKAKYICTTGDLPVPWATILSSLVFCFAKYPRHIADFFKSTQPDGYSQDRIISFDNDGQYDVKAKVTYENGTLYNRVTVKGTGFKSNGNILGMRVLYHSPPHAVYILPDRKNGGMKIEYNKAFDVMGGGHQMARHAQFNKPLGAWEEDYPLYHHLTVWTSFGKDPDDDETDHLTIVEVIKAVDLETYR TEGAKLFEKEIPYITELEGDVEGMKFIIKGEGTGDATTGTIKAKYICTTGDLPVPWATILSSLVFCFAKYPRHIADFFKSTQPDGYSQDRIISFDNDGQYDVKAKVTYENGTLYNRVTVKGTGFKSNGNILGMRVLYHSPPHAVYILPDRKNGGMKIEYNKAFDVMGGGHQMARHAQFNKPLGAWEEDYPLYHHLTVWTSFGKDPDDDETDHLTIVEVIKAVDLETYR 2hpw-a3-m2-cA_2hpw-a3-m4-cA Green fluorescent protein from Clytia gregaria D7PM05 D7PM05 1.55 X-RAY DIFFRACTION 12 1.0 27801 (Clytia gregaria) 27801 (Clytia gregaria) 228 228 2hpw-a3-m1-cA_2hpw-a3-m3-cA TEGAKLFEKEIPYITELEGDVEGMKFIIKGEGTGDATTGTIKAKYICTTGDLPVPWATILSSLVFCFAKYPRHIADFFKSTQPDGYSQDRIISFDNDGQYDVKAKVTYENGTLYNRVTVKGTGFKSNGNILGMRVLYHSPPHAVYILPDRKNGGMKIEYNKAFDVMGGGHQMARHAQFNKPLGAWEEDYPLYHHLTVWTSFGKDPDDDETDHLTIVEVIKAVDLETYR TEGAKLFEKEIPYITELEGDVEGMKFIIKGEGTGDATTGTIKAKYICTTGDLPVPWATILSSLVFCFAKYPRHIADFFKSTQPDGYSQDRIISFDNDGQYDVKAKVTYENGTLYNRVTVKGTGFKSNGNILGMRVLYHSPPHAVYILPDRKNGGMKIEYNKAFDVMGGGHQMARHAQFNKPLGAWEEDYPLYHHLTVWTSFGKDPDDDETDHLTIVEVIKAVDLETYR 2hpw-a3-m3-cA_2hpw-a3-m4-cA Green fluorescent protein from Clytia gregaria D7PM05 D7PM05 1.55 X-RAY DIFFRACTION 65 1.0 27801 (Clytia gregaria) 27801 (Clytia gregaria) 228 228 2hpw-a2-m1-cA_2hpw-a2-m2-cA 2hpw-a3-m1-cA_2hpw-a3-m2-cA TEGAKLFEKEIPYITELEGDVEGMKFIIKGEGTGDATTGTIKAKYICTTGDLPVPWATILSSLVFCFAKYPRHIADFFKSTQPDGYSQDRIISFDNDGQYDVKAKVTYENGTLYNRVTVKGTGFKSNGNILGMRVLYHSPPHAVYILPDRKNGGMKIEYNKAFDVMGGGHQMARHAQFNKPLGAWEEDYPLYHHLTVWTSFGKDPDDDETDHLTIVEVIKAVDLETYR TEGAKLFEKEIPYITELEGDVEGMKFIIKGEGTGDATTGTIKAKYICTTGDLPVPWATILSSLVFCFAKYPRHIADFFKSTQPDGYSQDRIISFDNDGQYDVKAKVTYENGTLYNRVTVKGTGFKSNGNILGMRVLYHSPPHAVYILPDRKNGGMKIEYNKAFDVMGGGHQMARHAQFNKPLGAWEEDYPLYHHLTVWTSFGKDPDDDETDHLTIVEVIKAVDLETYR 2hq1-a1-m2-cA_2hq1-a1-m4-cA Crystal Structure of ORF 1438 a putative Glucose/ribitol dehydrogenase from Clostridium thermocellum A3DDY9 A3DDY9 1.9 X-RAY DIFFRACTION 59 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 221 221 2hq1-a1-m1-cA_2hq1-a1-m3-cA MQLKGKTAIVTGSSRGLGKAIAWKLGNMGANIVLNGSPASTSLDATAEEFKAAGINVVVAKGDVKNPEDVENMVKTAMDAFGRIDILVNNAWDDVLNTNLKSAYLCTKAVSKIMLKQKSGKIINITSQANYAASKAGLIGFTKSIAKEFAAKGIYCNAVAPGIIKTDMTDVLPDKVKEMYLNNIPLKRFGTPEEVANVVGFLASDDSNYITGQVINIDGGL MQLKGKTAIVTGSSRGLGKAIAWKLGNMGANIVLNGSPASTSLDATAEEFKAAGINVVVAKGDVKNPEDVENMVKTAMDAFGRIDILVNNAWDDVLNTNLKSAYLCTKAVSKIMLKQKSGKIINITSQANYAASKAGLIGFTKSIAKEFAAKGIYCNAVAPGIIKTDMTDVLPDKVKEMYLNNIPLKRFGTPEEVANVVGFLASDDSNYITGQVINIDGGL 2hq1-a1-m3-cA_2hq1-a1-m4-cA Crystal Structure of ORF 1438 a putative Glucose/ribitol dehydrogenase from Clostridium thermocellum A3DDY9 A3DDY9 1.9 X-RAY DIFFRACTION 90 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 221 221 2hq1-a1-m1-cA_2hq1-a1-m2-cA MQLKGKTAIVTGSSRGLGKAIAWKLGNMGANIVLNGSPASTSLDATAEEFKAAGINVVVAKGDVKNPEDVENMVKTAMDAFGRIDILVNNAWDDVLNTNLKSAYLCTKAVSKIMLKQKSGKIINITSQANYAASKAGLIGFTKSIAKEFAAKGIYCNAVAPGIIKTDMTDVLPDKVKEMYLNNIPLKRFGTPEEVANVVGFLASDDSNYITGQVINIDGGL MQLKGKTAIVTGSSRGLGKAIAWKLGNMGANIVLNGSPASTSLDATAEEFKAAGINVVVAKGDVKNPEDVENMVKTAMDAFGRIDILVNNAWDDVLNTNLKSAYLCTKAVSKIMLKQKSGKIINITSQANYAASKAGLIGFTKSIAKEFAAKGIYCNAVAPGIIKTDMTDVLPDKVKEMYLNNIPLKRFGTPEEVANVVGFLASDDSNYITGQVINIDGGL 2hq7-a2-m2-cA_2hq7-a2-m2-cB Crystal structure of Protein related to general stress protein 26(GS26) of B.subtilis (pyridoxinephosphate oxidase family) (NP_350077.1) from CLOSTRIDIUM ACETOBUTYLICUM at 2.00 A resolution Q97DI6 Q97DI6 2 X-RAY DIFFRACTION 70 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 135 136 2hq7-a1-m1-cA_2hq7-a1-m1-cB 2hq7-a2-m1-cA_2hq7-a2-m1-cB IDEKFLIESNELVESSKIVVGTNGENGYPNIKARLKHDGLKKFWLSTNTSTRVERLKKNNKICLYFVDDNKFAGLLVGTIEILHDRASKELWTDGCEIYYPLGIDDPDYTALCFTAEWGNYYRHLKNITFKIDEI IDEKFLIESNELVESSKIVVGTNGENGYPNIKARLKHDGLKKFWLSTNTSTRVERLKKNNKICLYFVDDNKFAGLLVGTIEILHDRASKELWTDGCEIYYPLGIDDPDYTALCFTAEWGNYYRHLKNITFKIDEIY 2hq9-a1-m1-cA_2hq9-a1-m1-cB Crystal structure of a fad-binding protein (mll6688) from mesorhizobium loti at 1.95 A resolution Q988L5 Q988L5 1.95 X-RAY DIFFRACTION 101 0.985 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 132 135 GLVRTLSALECTKVLTANRVGRLACAKDGQPYVVPLYYAYSDAHLYAFSPGKKIEWRANPRVSVQVDEHGQGRGWKSVVVDGRYEELPDLIGHKLQRDHAWSVLSKHTDWWEAPHVFFRILIEQVSGREASE LVRTLSALECTKVLTANRVGRLACAKDGQPYVVPLYYAYSDAHLYAFSPGKKIEWRANPRVSVQVDEHGQGRGWKSVVVDGRYEELPDLIGHKLQRDHAWSVLSKHTDWWEPGALSAPHVFFRILIEQVSGREAS 2hql-a2-m1-cC_2hql-a2-m1-cB Crystal structure of a small single-stranded DNA binding protein from Mycoplasma pneumoniae P75224 P75224 2 X-RAY DIFFRACTION 67 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 91 101 2hql-a1-m1-cE_2hql-a1-m1-cA 2hql-a3-m1-cF_2hql-a3-m1-cD MLNRVFLEGEIESSCWSVKKTGFLVTIKQMRFFGERLFTDYYVIYANGQLAYELEKHTKKYKTISIEGILRTYIWKTTIEIVKIFNPKNEI MLNRVFLEGEIESSCWSVKKTGFLVTIKQMRFFGERLFTDYYVIYANGQLAYELEKHTKKYKTISIEGILRTYLERKSEIWKTTIEIVKIFNPKNEIVIDY 2hqm-a1-m1-cA_2hqm-a1-m1-cB Crystal Structure of Glutathione Reductase Glr1 from the Yeast Saccharomyces cerevisiae P41921 P41921 2.4 X-RAY DIFFRACTION 255 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 461 461 KHYDYLVIGGGSGGVASARRAASYGAKTLLVEAKALGGTCVNVGCVPKKVMWYASDLATRVSHANEYGLYQNLPLDKEHLTFNWPEFKQKRDAYVHRLNGIYQKNLEKEKVDVVFGWARFNKDGNVEVQKRDNTTEVYSANHILVATGGKAIFPENIPGFELGTDSDGFFRLEEQPKKVVVVGAGYIGIELAGVFHGLGSETHLVIRGETVLRKFDECIQNTITDHYVKEGINVHKLSKIVKVEKNVTDKLKIHMNDSKSIDDVDELIWTIGRKSHLGMGSENVGIKLNSHDQIIADEYQNTNVPNIYSLGDVVGKVELTPVAIAAGRKLSNRLFGPEKFRNDKLDYENVPSVIFSHPEAGSIGISEKEAIEKYGKENIKVYNSKFTAMYYAMLSEKSPTRYKIVCAGPNEKVVGLHIVGDSSAEILQGFGVAIKMGATKADFDNCVAIHPTSAEELVTMR KHYDYLVIGGGSGGVASARRAASYGAKTLLVEAKALGGTCVNVGCVPKKVMWYASDLATRVSHANEYGLYQNLPLDKEHLTFNWPEFKQKRDAYVHRLNGIYQKNLEKEKVDVVFGWARFNKDGNVEVQKRDNTTEVYSANHILVATGGKAIFPENIPGFELGTDSDGFFRLEEQPKKVVVVGAGYIGIELAGVFHGLGSETHLVIRGETVLRKFDECIQNTITDHYVKEGINVHKLSKIVKVEKNVTDKLKIHMNDSKSIDDVDELIWTIGRKSHLGMGSENVGIKLNSHDQIIADEYQNTNVPNIYSLGDVVGKVELTPVAIAAGRKLSNRLFGPEKFRNDKLDYENVPSVIFSHPEAGSIGISEKEAIEKYGKENIKVYNSKFTAMYYAMLSEKSPTRYKIVCAGPNEKVVGLHIVGDSSAEILQGFGVAIKMGATKADFDNCVAIHPTSAEELVTMR 2hqv-a1-m1-cA_2hqv-a1-m2-cA X-ray Crystal Structure of Protein AGR_C_4470 from Agrobacterium tumefaciens. Northeast Structural Genomics Consortium Target AtR92. Q7CX01 Q7CX01 2 X-RAY DIFFRACTION 67 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 167 167 AYPSIAAQKNDDDRQARALAALAEKPEAIAAKAEVAPAEILAILPQGAAVSAPADRFDAIWNERGWGEILIVQTGDIVLEVPGHLPEGTESHGWFNIHGDSPIGGHIKKDNCAAITFVDRGFHGRRSCSVWFNAAGGAFKIFVRRDENKELLAGQLAKFEELRDGFR AYPSIAAQKNDDDRQARALAALAEKPEAIAAKAEVAPAEILAILPQGAAVSAPADRFDAIWNERGWGEILIVQTGDIVLEVPGHLPEGTESHGWFNIHGDSPIGGHIKKDNCAAITFVDRGFHGRRSCSVWFNAAGGAFKIFVRRDENKELLAGQLAKFEELRDGFR 2hqx-a1-m1-cA_2hqx-a1-m1-cB Crystal structure of human P100 tudor domain conserved region Q7KZF4 Q7KZF4 1.42 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 TQFQKLMENMRNDIASHPPVEGSYAPRRGEFCIAKFVDGEWYRARVEKVESPAKIHVFYIDYGNREVLPSTRLGTLSPAFSTRVLPAQAT TQFQKLMENMRNDIASHPPVEGSYAPRRGEFCIAKFVDGEWYRARVEKVESPAKIHVFYIDYGNREVLPSTRLGTLSPAFSTRVLPAQAT 2hqy-a1-m1-cB_2hqy-a1-m1-cA Crystal Structure of Conserved Protein of Unknown Function from Bacteroides thetaiotaomicron VPI-5482 Q8A1H2 Q8A1H2 1.8 X-RAY DIFFRACTION 41 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 296 298 MIPFKDITLADRDTITAFTMKSDRRNCDLSFSNLCSWRFLYDTQFAVIDDFLVFKFWAGEQLAYMMPVGNGDLKAVLRKLIEDADKEKHNFCMLGVCSNMRADLEAILPERFIFTEDRAYADYIYLRSDLATLKGKKFQAKRNHINRFRNTYPDYEYTPITPDRIQECLDLEAEWCKVNNCDQQEGTGNERRALIYALHNFEALGLTGGILHVNGKIVAFTFGMPINHETFGVHVEKADTSIDGAYAMINYEFANRIPEQYIYINREEDLGIEGLRKAKLSYQPVTILEKYMACLK MIPFKDITLADRDTITAFTMKSDRRNCDLSFSNLCSWRFLYDTQFAVIDDFLVFKFWAGEQLAYMMPVGNGDLKAVLRKLIEDADKEKHNFCMLGVCSNMRADLEAILPERFIFTEDRAYADYIYLRSDLATLKGKKFQAKRNHINRFRNTYPDYEYTPITPDRIQECLDLEAEWCKVNNCDQQEGTGNERRALIYALHNFEALGLTGGILHVNGKIVAFTFGMPINHETFGVHVEKADTSIDGAYAMINYEFANRIPEQYIYINREEDLGIEGLRKAKLSYQPVTILEKYMACLKDH 2hr2-a7-m1-cA_2hr2-a7-m1-cB Crystal structure of a tpr-like protein (ct2138) from chlorobium tepidum tls at 2.54 A resolution Q8KAL8 Q8KAL8 2.54 X-RAY DIFFRACTION 30 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 150 150 2hr2-a7-m1-cA_2hr2-a7-m1-cC 2hr2-a7-m1-cB_2hr2-a7-m1-cC 2hr2-a7-m1-cD_2hr2-a7-m1-cE 2hr2-a7-m1-cF_2hr2-a7-m1-cD 2hr2-a7-m1-cF_2hr2-a7-m1-cE KPLKEVVGAYLALSDAQRQLVAGEYDEAAANCRRAEISHTPPEEAFDHAGFDAFCHAGLAEALAGLRSFDEALHSADKALHYFNRRGELNQDEGKLWISAVYSRALALDGLGRGAEAPEFKKVVEIEERKGETPGKEREVAIDRIAQLGA KPLKEVVGAYLALSDAQRQLVAGEYDEAAANCRRAEISHTPPEEAFDHAGFDAFCHAGLAEALAGLRSFDEALHSADKALHYFNRRGELNQDEGKLWISAVYSRALALDGLGRGAEAPEFKKVVEIEERKGETPGKEREVAIDRIAQLGA 2hr2-a7-m1-cF_2hr2-a7-m1-cA Crystal structure of a tpr-like protein (ct2138) from chlorobium tepidum tls at 2.54 A resolution Q8KAL8 Q8KAL8 2.54 X-RAY DIFFRACTION 16 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 149 150 2hr2-a7-m1-cB_2hr2-a7-m1-cE 2hr2-a7-m1-cC_2hr2-a7-m1-cD KPLKEVVGAYLALSDAQRQLVAGEYDEAAANCRRAEISHTPPEEAFDHAGFDAFCHAGLAEALAGLRSFDEALHSADKALHYFNRRGELNQDEGKLWISAVYSRALALDGLGRGAEAPEFKKVVEIEERKGETPGKEREVAIDRIAQLG KPLKEVVGAYLALSDAQRQLVAGEYDEAAANCRRAEISHTPPEEAFDHAGFDAFCHAGLAEALAGLRSFDEALHSADKALHYFNRRGELNQDEGKLWISAVYSRALALDGLGRGAEAPEFKKVVEIEERKGETPGKEREVAIDRIAQLGA 2hr2-a7-m1-cF_2hr2-a7-m1-cB Crystal structure of a tpr-like protein (ct2138) from chlorobium tepidum tls at 2.54 A resolution Q8KAL8 Q8KAL8 2.54 X-RAY DIFFRACTION 28 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 149 150 2hr2-a7-m1-cA_2hr2-a7-m1-cD 2hr2-a7-m1-cC_2hr2-a7-m1-cE KPLKEVVGAYLALSDAQRQLVAGEYDEAAANCRRAEISHTPPEEAFDHAGFDAFCHAGLAEALAGLRSFDEALHSADKALHYFNRRGELNQDEGKLWISAVYSRALALDGLGRGAEAPEFKKVVEIEERKGETPGKEREVAIDRIAQLG KPLKEVVGAYLALSDAQRQLVAGEYDEAAANCRRAEISHTPPEEAFDHAGFDAFCHAGLAEALAGLRSFDEALHSADKALHYFNRRGELNQDEGKLWISAVYSRALALDGLGRGAEAPEFKKVVEIEERKGETPGKEREVAIDRIAQLGA 2hr3-a2-m1-cC_2hr3-a2-m1-cD Crystal structure of putative transcriptional regulator protein from Pseudomonas aeruginosa PA01 at 2.4 A resolution Q9HZE1 Q9HZE1 2.4 X-RAY DIFFRACTION 177 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 136 138 2hr3-a1-m1-cB_2hr3-a1-m1-cA TNQDLQLAAHLRSQVTTLTRRLRREAQADPVQFSQLVVLGAIDRLGGDVTPSELAAAERRSSNLAALLRELERGGLIVRHADRTRVSLSSEGRRNLYGNRAKREEWLVRAHACLDESERALLAAAGPLLTRLAQFE PTNQDLQLAAHLRSQVTTLTRRLRREAQADPVQFSQLVVLGAIDRLGGDVTPSELAAAERRSSNLAALLRELERGGLIVRHADPRTRVSLSSEGRRNLYGNRAKREEWLVRAHACLDESERALLAAAGPLLTRLAQFE 2hre-a3-m1-cB_2hre-a3-m2-cD Structure of human ferrochelatase variant E343K with protoporphyrin IX bound P22830 P22830 2.5 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 359 359 RKPKTGILMLNMGGPETLGDVHDFLLRLFLDRDLMTLPIQNKLAPFIAKRRTPKIQEQYRRIGGGSPIKIWTSKQGEGMVKLLDELSPNTAPHKYYIGFRYVHPLTEEAIEEMERDGLERAIAFTQYPQYSCSTTGSSLNAIYRYYNQVGRKPTMKWSTIDRWPTHHLLIQCFADHILKELDHFPLEKRSEVVILFSAHSLPMSVVNRGDPYPQEVSATVQKVMERLEYCNPYRLVWQSKVGPMPWLGPQTDESIKGLCERGRKNILLVPIAFTSDHIKTLYELDIEYSQVLAKECGVENIRRAESLNGNPLFSKALADLVHSHIQSNELCSKQLTLSCPLCVNPVCRETKSFFTSQQL RKPKTGILMLNMGGPETLGDVHDFLLRLFLDRDLMTLPIQNKLAPFIAKRRTPKIQEQYRRIGGGSPIKIWTSKQGEGMVKLLDELSPNTAPHKYYIGFRYVHPLTEEAIEEMERDGLERAIAFTQYPQYSCSTTGSSLNAIYRYYNQVGRKPTMKWSTIDRWPTHHLLIQCFADHILKELDHFPLEKRSEVVILFSAHSLPMSVVNRGDPYPQEVSATVQKVMERLEYCNPYRLVWQSKVGPMPWLGPQTDESIKGLCERGRKNILLVPIAFTSDHIKTLYELDIEYSQVLAKECGVENIRRAESLNGNPLFSKALADLVHSHIQSNELCSKQLTLSCPLCVNPVCRETKSFFTSQQL 2hro-a1-m1-cA_2hro-a1-m2-cA Structure of the full-lenght Enzyme I of the PTS system from Staphylococcus carnosus P23533 P23533 2.5 X-RAY DIFFRACTION 152 1.0 1281 (Staphylococcus carnosus) 1281 (Staphylococcus carnosus) 551 551 QIKGIAASDGVAIAKAYLLVEPDLSFDNESVTDTDAEVAKFNGALNKSKVELTKIRNNAEKQLGADKAAIFDAHLLVLEDPELIQPIEDKIKNESVNAAQALTDVSNQFITIFESMDNEYMAERAADIRDVSKRVLAHILGVELPNPVVIIGNDLTPSDTAQLNKEYVQGFVTNIGSHSAIMSRSLEIPAVGTKSITEEVEAGDIVVDDVLPSDEVIAEYQEKRENFFKDKQELQKLRDAESVTADGHHVELAANIGTPNDLPGVIENGAEGIGLYRTEFLYMGRDQMPTEEEQFEAYKAVLEAMKGKRVVVRTLDIGGDKELPYLDLPEEMNPFLGYRAIRLCLDQPEIFRPQLRALLRASVFGKLNIMFPMVATIQEFRDAKALLEEERANLKNEGYEVADDIELGIMVEIPSTAALADIFAKEVDFFSIGTNDLIQYTMAADRMSERVSYLYQPYNPAILRLVKQVIEASHAEGKWTGMCGEMAGDQTAIPLLLGLGLDEFSMSATSILKARRLIRSLNESEMKELSERAVQCATSEEVVDLVEEYTK QIKGIAASDGVAIAKAYLLVEPDLSFDNESVTDTDAEVAKFNGALNKSKVELTKIRNNAEKQLGADKAAIFDAHLLVLEDPELIQPIEDKIKNESVNAAQALTDVSNQFITIFESMDNEYMAERAADIRDVSKRVLAHILGVELPNPVVIIGNDLTPSDTAQLNKEYVQGFVTNIGSHSAIMSRSLEIPAVGTKSITEEVEAGDIVVDDVLPSDEVIAEYQEKRENFFKDKQELQKLRDAESVTADGHHVELAANIGTPNDLPGVIENGAEGIGLYRTEFLYMGRDQMPTEEEQFEAYKAVLEAMKGKRVVVRTLDIGGDKELPYLDLPEEMNPFLGYRAIRLCLDQPEIFRPQLRALLRASVFGKLNIMFPMVATIQEFRDAKALLEEERANLKNEGYEVADDIELGIMVEIPSTAALADIFAKEVDFFSIGTNDLIQYTMAADRMSERVSYLYQPYNPAILRLVKQVIEASHAEGKWTGMCGEMAGDQTAIPLLLGLGLDEFSMSATSILKARRLIRSLNESEMKELSERAVQCATSEEVVDLVEEYTK 2hrp-a3-m1-cM_2hrp-a3-m1-cL ANTIGEN-ANTIBODY COMPLEX 2.2 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 218 215 1mf2-a1-m1-cM_1mf2-a1-m1-cL DTVLTQSPASLAVSLGQRATISCRASESVDYYGKSFMNWFQQKPGQPPKLLIYAASNQGSGVPARFSGSGSGTDFSLHIHPMEEDDSAMYFCQQSKEVPWTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DTVLTQSPASLAVSLGQRATISCRASESVDYYGKSFMNWFQQKPGQPPKLLIYAASNQGSGVPARFSGSGSGTDFSLHIHPMEEDDSAMYFCQQSKEVPWTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR 2hrp-a3-m1-cN_2hrp-a3-m1-cH ANTIGEN-ANTIBODY COMPLEX 2.2 X-RAY DIFFRACTION 94 1.0 10090 (Mus musculus) 10090 (Mus musculus) 224 226 1mf2-a1-m1-cN_1mf2-a1-m1-cH DVQLVESGGGLVQPGGSRKLSCAASGFTFMRFGMHWVRQAPEKGLEWVAYISSGSSTIYYADTVKGRFTISRDNPKNTLFLQMTSLRSEDTALYYCARSGGIERYDGTYYVMDYWGQGTSVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVP DVQLVESGGGLVQPGGSRKLSCAASGFTFMRFGMHWVRQAPEKGLEWVAYISSGSSTIYYADTVKGRFTISRDNPKNTLFLQMTSLRSEDTALYYCARSGGIERYDGTYYVMDYWGQGTSVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPRD 2hrz-a1-m1-cA_2hrz-a1-m2-cA The crystal structure of the nucleoside-diphosphate-sugar epimerase from Agrobacterium tumefaciens A9CHF5 A9CHF5 1.85 X-RAY DIFFRACTION 53 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 335 335 HHHSSGRENLYFQGHIAIIGAAGVGRKLTQRLVKDGSLGGKPVEKFTLIDVFQPEAPAGFSGAVDARAADLSAPGEAEKLVEARPDVIFHLAAIVSGEAELDFDKGYRINLDGTRYLFDAIRIANGKDGYKPRVVFTSSIAVFGAPLPYPIPDEFHTTPLTSYGTQKAICELLLSDYSRRGFFDGIGIRLPTICIRPGKPNAAASGFFSNILREPLVGQEAVLPVPESIRHWHASPRSAVGFLIHGAIDVEKVGPRRNLSPGLSATVGEQIEALRKVAGEKAVALIRREPNEIRCEGWAPGFEAKRARELGFTAESSFEEIIQVHIEDELGGSLK HHHSSGRENLYFQGHIAIIGAAGVGRKLTQRLVKDGSLGGKPVEKFTLIDVFQPEAPAGFSGAVDARAADLSAPGEAEKLVEARPDVIFHLAAIVSGEAELDFDKGYRINLDGTRYLFDAIRIANGKDGYKPRVVFTSSIAVFGAPLPYPIPDEFHTTPLTSYGTQKAICELLLSDYSRRGFFDGIGIRLPTICIRPGKPNAAASGFFSNILREPLVGQEAVLPVPESIRHWHASPRSAVGFLIHGAIDVEKVGPRRNLSPGLSATVGEQIEALRKVAGEKAVALIRREPNEIRCEGWAPGFEAKRARELGFTAESSFEEIIQVHIEDELGGSLK 2hsa-a1-m1-cB_2hsa-a1-m1-cA Crystal structure of 12-oxophytodienoate reductase 3 (OPR3) from tomato Q9FEW9 Q9FEW9 1.5 X-RAY DIFFRACTION 94 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 374 376 PLFSPYKMGKFNLSHRVVLAPMTRCRALNNIPQAALGEYYEQRATAGGFLITEGTMISPTSAGFPHVPGIFTKEQVREWKKIVDVVHAKGAVIFCQLWHVGRASHEVYQPAGAAPISSTEKPISNRWRILMPDGTHGIYPKPRAIGTYEISQVVEDYRRSALNAIEAGFDGIEIHGAHGYLIDQFLKDGINDRTDEYGGSLANRCKFITQVVQAVVSAIGADRVGVRVSPAIDHLDAMDSNPLSLGLAVVERLNKIQLHSGSKLAYLHVTQPRYVAYGQTEAGRLGSEEEEARLMRTLRNAYQGTFICSGGYTRELGIEAVAQGDADLVSYGRLFISNPDLVMRIKLNAPLNKYNRKTFYTQDPVVGYTDYPFL NPLFSPYKMGKFNLSHRVVLAPMTRCRALNNIPQAALGEYYEQRATAGGFLITEGTMISPTSAGFPHVPGIFTKEQVREWKKIVDVVHAKGAVIFCQLWHVGRASHEVYQPAGAAPISSTEKPISNRWRILMPDGTHGIYPKPRAIGTYEISQVVEDYRRSALNAIEAGFDGIEIHGAHGYLIDQFLKDGINDRTDEYGGSLANRCKFITQVVQAVVSAIGADRVGVRVSPAIDHLDAMDSNPLSLGLAVVERLNKIQLHSGSKLAYLHVTQPRYVAYGQTEAGRLGSEEEEARLMRTLRNAYQGTFICSGGYTRELGIEAVAQGDADLVSYGRLFISNPDLVMRIKLNAPLNKYNRKTFYTQDPVVGYTDYPFLQ 2hsb-a1-m1-cA_2hsb-a1-m2-cA Crystal structure of a hepn domain containing protein (af_0298) from archaeoglobus fulgidus at 1.95 A resolution O29944 O29944 1.95 X-RAY DIFFRACTION 35 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 122 122 GDELELRIRKAEKLVQDAKKEFEGLYERCCSTAYYAFHAAKALLGYGRDSKTHRGTIYLIWECREELGLSDDDCSKLSRAFDLREESDYGIYKEVSKDLAIKILKDAEIFVQKAKNAVNKNR GDELELRIRKAEKLVQDAKKEFEGLYERCCSTAYYAFHAAKALLGYGRDSKTHRGTIYLIWECREELGLSDDDCSKLSRAFDLREESDYGIYKEVSKDLAIKILKDAEIFVQKAKNAVNKNR 2hsj-a1-m1-cB_2hsj-a1-m1-cD The structure of a putative platelet activating factor from Streptococcus pneumonia. A0A0H2UQU7 A0A0H2UQU7 1.5 X-RAY DIFFRACTION 34 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 212 AAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY SNAAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY 2hsj-a2-m1-cA_2hsj-a2-m2-cC The structure of a putative platelet activating factor from Streptococcus pneumonia. A0A0H2UQU7 A0A0H2UQU7 1.5 X-RAY DIFFRACTION 17 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 209 210 2hsj-a2-m2-cB_2hsj-a2-m1-cD AVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY AAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY 2hsj-a2-m2-cB_2hsj-a2-m2-cC The structure of a putative platelet activating factor from Streptococcus pneumonia. A0A0H2UQU7 A0A0H2UQU7 1.5 X-RAY DIFFRACTION 52 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 210 2hsj-a1-m1-cA_2hsj-a1-m1-cD 2hsj-a1-m1-cB_2hsj-a1-m1-cC 2hsj-a2-m1-cA_2hsj-a2-m1-cD AAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY AAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY 2hsj-a2-m2-cC_2hsj-a2-m1-cD The structure of a putative platelet activating factor from Streptococcus pneumonia. A0A0H2UQU7 A0A0H2UQU7 1.5 X-RAY DIFFRACTION 10 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 212 AAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY SNAAVQLLENWLLKEQEKIQTKYRHLNHISVVEPNILFIGDSIVEYYPLQELFGTSKTIVNRGIRGYQTGLLLENLDAHLYGGAVDKIFLLIGTNDIGKDVPVNEALNNLEAIIQSVARDYPLTEIKLLSILPVNEREEYQQAVYIRSNEKIQNWNQAYQELASAYQVEFVPVFDCLTDQAGQLKKEYTTDGLHLSIAGYQALSKSLKDYLY 2hsn-a1-m1-cA_2hsn-a1-m2-cA Structural basis of yeast aminoacyl-tRNA synthetase complex formation revealed by crystal structures of two binary sub-complexes P00958 P00958 2.2 X-RAY DIFFRACTION 215 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 160 160 MSFLISFDKSKKHPAHLQLANNLKIALALEYASKNLKPEVDNDNAAMELRNTKEPFLLFDANAILRYVMDDFEGQTSDKYQFALASLQNLLYHKELPQQHVEVLTNKAIENYLVELKEPLTTTDLILFANVYALNSSLVHSKFPELPSKVHNAVALAKKH MSFLISFDKSKKHPAHLQLANNLKIALALEYASKNLKPEVDNDNAAMELRNTKEPFLLFDANAILRYVMDDFEGQTSDKYQFALASLQNLLYHKELPQQHVEVLTNKAIENYLVELKEPLTTTDLILFANVYALNSSLVHSKFPELPSKVHNAVALAKKH 2hsq-a2-m16-cA_2hsq-a2-m9-cA Human vinculin (head domain, Vh1, residues 1-258) in complex with Shigella's IpaA vinculin binding site 2 (residues 565-587) P18206 P18206 3.97 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 261 2hsq-a2-m10-cA_2hsq-a2-m13-cA 2hsq-a2-m11-cA_2hsq-a2-m14-cA 2hsq-a2-m12-cA_2hsq-a2-m15-cA 2hsq-a2-m17-cA_2hsq-a2-m5-cA 2hsq-a2-m18-cA_2hsq-a2-m8-cA 2hsq-a2-m19-cA_2hsq-a2-m7-cA 2hsq-a2-m1-cA_2hsq-a2-m22-cA 2hsq-a2-m20-cA_2hsq-a2-m6-cA 2hsq-a2-m21-cA_2hsq-a2-m4-cA 2hsq-a2-m24-cA_2hsq-a2-m3-cA 2hsq-a2-m2-cA_2hsq-a2-m23-cA MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 2hsq-a2-m23-cA_2hsq-a2-m9-cA Human vinculin (head domain, Vh1, residues 1-258) in complex with Shigella's IpaA vinculin binding site 2 (residues 565-587) P18206 P18206 3.97 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 261 2hsq-a2-m10-cA_2hsq-a2-m21-cA 2hsq-a2-m10-cA_2hsq-a2-m24-cA 2hsq-a2-m11-cA_2hsq-a2-m21-cA 2hsq-a2-m11-cA_2hsq-a2-m24-cA 2hsq-a2-m12-cA_2hsq-a2-m22-cA 2hsq-a2-m12-cA_2hsq-a2-m23-cA 2hsq-a2-m13-cA_2hsq-a2-m5-cA 2hsq-a2-m13-cA_2hsq-a2-m8-cA 2hsq-a2-m14-cA_2hsq-a2-m6-cA 2hsq-a2-m14-cA_2hsq-a2-m7-cA 2hsq-a2-m15-cA_2hsq-a2-m6-cA 2hsq-a2-m15-cA_2hsq-a2-m7-cA 2hsq-a2-m16-cA_2hsq-a2-m5-cA 2hsq-a2-m16-cA_2hsq-a2-m8-cA 2hsq-a2-m17-cA_2hsq-a2-m4-cA 2hsq-a2-m18-cA_2hsq-a2-m2-cA 2hsq-a2-m18-cA_2hsq-a2-m3-cA 2hsq-a2-m19-cA_2hsq-a2-m2-cA 2hsq-a2-m19-cA_2hsq-a2-m3-cA 2hsq-a2-m1-cA_2hsq-a2-m17-cA 2hsq-a2-m1-cA_2hsq-a2-m20-cA 2hsq-a2-m20-cA_2hsq-a2-m4-cA 2hsq-a2-m22-cA_2hsq-a2-m9-cA MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 2hsq-a3-m12-cA_2hsq-a3-m6-cA Human vinculin (head domain, Vh1, residues 1-258) in complex with Shigella's IpaA vinculin binding site 2 (residues 565-587) P18206 P18206 3.97 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 261 1syq-a2-m1-cA_1syq-a2-m2-cA 1syq-a2-m1-cA_1syq-a2-m3-cA 1syq-a2-m2-cA_1syq-a2-m3-cA 1syq-a2-m4-cA_1syq-a2-m5-cA 1syq-a2-m4-cA_1syq-a2-m6-cA 1syq-a2-m5-cA_1syq-a2-m6-cA 1syq-a3-m1-cA_1syq-a3-m2-cA 1syq-a3-m1-cA_1syq-a3-m3-cA 1syq-a3-m2-cA_1syq-a3-m3-cA 1syq-a3-m7-cA_1syq-a3-m8-cA 1syq-a3-m7-cA_1syq-a3-m9-cA 1syq-a3-m8-cA_1syq-a3-m9-cA 2gww-a2-m1-cA_2gww-a2-m2-cA 2gww-a2-m1-cA_2gww-a2-m3-cA 2gww-a2-m2-cA_2gww-a2-m3-cA 2gww-a2-m4-cA_2gww-a2-m5-cA 2gww-a2-m4-cA_2gww-a2-m6-cA 2gww-a2-m5-cA_2gww-a2-m6-cA 2gww-a3-m1-cA_2gww-a3-m2-cA 2gww-a3-m1-cA_2gww-a3-m3-cA 2gww-a3-m2-cA_2gww-a3-m3-cA 2hsq-a2-m10-cA_2hsq-a2-m4-cA 2hsq-a2-m10-cA_2hsq-a2-m5-cA 2hsq-a2-m11-cA_2hsq-a2-m3-cA 2hsq-a2-m11-cA_2hsq-a2-m7-cA 2hsq-a2-m12-cA_2hsq-a2-m6-cA 2hsq-a2-m13-cA_2hsq-a2-m18-cA 2hsq-a2-m13-cA_2hsq-a2-m24-cA 2hsq-a2-m14-cA_2hsq-a2-m20-cA 2hsq-a2-m14-cA_2hsq-a2-m21-cA 2hsq-a2-m15-cA_2hsq-a2-m19-cA 2hsq-a2-m15-cA_2hsq-a2-m23-cA 2hsq-a2-m16-cA_2hsq-a2-m17-cA 2hsq-a2-m16-cA_2hsq-a2-m22-cA 2hsq-a2-m17-cA_2hsq-a2-m22-cA 2hsq-a2-m18-cA_2hsq-a2-m24-cA 2hsq-a2-m19-cA_2hsq-a2-m23-cA 2hsq-a2-m1-cA_2hsq-a2-m12-cA 2hsq-a2-m1-cA_2hsq-a2-m6-cA 2hsq-a2-m20-cA_2hsq-a2-m21-cA 2hsq-a2-m2-cA_2hsq-a2-m8-cA 2hsq-a2-m2-cA_2hsq-a2-m9-cA 2hsq-a2-m3-cA_2hsq-a2-m7-cA 2hsq-a2-m4-cA_2hsq-a2-m5-cA 2hsq-a2-m8-cA_2hsq-a2-m9-cA 2hsq-a3-m1-cA_2hsq-a3-m12-cA 2hsq-a3-m1-cA_2hsq-a3-m6-cA 2hsq-a3-m25-cA_2hsq-a3-m26-cA 2hsq-a3-m25-cA_2hsq-a3-m27-cA 2hsq-a3-m26-cA_2hsq-a3-m27-cA MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 2hsq-a3-m26-cA_2hsq-a3-m6-cA Human vinculin (head domain, Vh1, residues 1-258) in complex with Shigella's IpaA vinculin binding site 2 (residues 565-587) P18206 P18206 3.97 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 261 1syq-a3-m1-cA_1syq-a3-m7-cA 1syq-a3-m2-cA_1syq-a3-m9-cA 1syq-a3-m3-cA_1syq-a3-m8-cA 2gww-a2-m1-cA_2gww-a2-m4-cA 2gww-a2-m2-cA_2gww-a2-m6-cA 2gww-a2-m3-cA_2gww-a2-m5-cA 2hsq-a3-m12-cA_2hsq-a3-m25-cA 2hsq-a3-m1-cA_2hsq-a3-m27-cA MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW MEHHHHHHMPVFHTRTIESILEPVAQQISHLVIMHEEKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 2htd-a1-m1-cA_2htd-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE PYRIDOXAMINE 5'-PHOSPHATE OXIDASE (LDB0262) FROM LACTOBACILLUS DELBRUECKII SUBSP. AT 1.60 A RESOLUTION Q1GBW8 Q1GBW8 1.6 X-RAY DIFFRACTION 93 1.0 321956 (Lactobacillus delbrueckii subsp. bulgaricus ATCC BAA-365) 321956 (Lactobacillus delbrueckii subsp. bulgaricus ATCC BAA-365) 119 122 KKLNTNKLTEEQVNLFKNNLVYLATVDADGNPQVGPKGSTVLDPSHLQYLEKTKGEAYENIKRGSKVALVAADVPSHTAVRVLATAEVHEDDDYAKKVLAKTEFPNAFVVNLNIEEVFA FQGKKLNTNKLTEEQVNLFKNNLVYLATVDADGNPQVGPKGSTVLDPSHLQYLEKTKGEAYENIKRGSKVALVAADVPSHTAVRVLATAEVHEDDDYAKKVLAKTEFPNAFVVNLNIEEVFA 2hti-a1-m1-cA_2hti-a1-m2-cA CRYSTAL STRUCTURE OF A FLAVIN-NUCLEOTIDE-BINDING PROTEIN (BH_0577) FROM BACILLUS HALODURANS AT 2.50 A RESOLUTION Q9KFA8 Q9KFA8 2.5 X-RAY DIFFRACTION 77 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 122 122 ECKDEKKITEFLNKARTGFLGLSTNDQPYVIPLNFVWHNHAIYFHGASEGRKIKIEANPEVCFTICEDLAYSVIIFGTIEPVSAIEEGTEAQQLDKYVPSLGSRTAIYKISCRERTAKVNEP ECKDEKKITEFLNKARTGFLGLSTNDQPYVIPLNFVWHNHAIYFHGASEGRKIKIEANPEVCFTICEDLAYSVIIFGTIEPVSAIEEGTEAQQLDKYVPSLGSRTAIYKISCRERTAKVNEP 2htm-a3-m1-cA_2htm-a3-m1-cD Crystal structure of TTHA0676 from Thermus thermophilus HB8 Q5SKG7 Q5SKG7 2.3 X-RAY DIFFRACTION 63 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 234 234 2htm-a3-m1-cB_2htm-a3-m1-cC MDTWKVGPVELKSRLILGSGKYEDFGVMREAIAAAKAEVVTVSVRRVEGLLEALEGVRLLPNTAGARTAEEAVRLARLGRLLTGERWVKLEVIPDPTYLLPDPLETLKAAERLIEEDFLVLPYMGPDLVLAKRLAALGTATVMPLAAPIGSGWGVRTRALLELFAREKASLPPVVVDAGLGLPSHAAEVMELGLDAVLVNTAIAEAQDPPAMAEAFRLAVEAGRKAYLAGPMRP MDTWKVGPVELKSRLILGSGKYEDFGVMREAIAAAKAEVVTVSVRRVEGLLEALEGVRLLPNTAGARTAEEAVRLARLGRLLTGERWVKLEVIPDPTYLLPDPLETLKAAERLIEEDFLVLPYMGPDLVLAKRLAALGTATVMPLAAPIGSGWGVRTRALLELFAREKASLPPVVVDAGLGLPSHAAEVMELGLDAVLVNTAIAEAQDPPAMAEAFRLAVEAGRKAYLAGPMRP 2htm-a3-m1-cD_2htm-a3-m1-cC Crystal structure of TTHA0676 from Thermus thermophilus HB8 Q5SKG7 Q5SKG7 2.3 X-RAY DIFFRACTION 150 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 234 241 2htm-a1-m1-cB_2htm-a1-m1-cA 2htm-a2-m1-cD_2htm-a2-m1-cC 2htm-a3-m1-cB_2htm-a3-m1-cA MDTWKVGPVELKSRLILGSGKYEDFGVMREAIAAAKAEVVTVSVRRVEGLLEALEGVRLLPNTAGARTAEEAVRLARLGRLLTGERWVKLEVIPDPTYLLPDPLETLKAAERLIEEDFLVLPYMGPDLVLAKRLAALGTATVMPLAAPIGSGWGVRTRALLELFAREKASLPPVVVDAGLGLPSHAAEVMELGLDAVLVNTAIAEAQDPPAMAEAFRLAVEAGRKAYLAGPMRP MDTWKVGPVELKSRLILGSGKYEDFGVMREAIAAAKAEVVTVSVRRVELKAPGHVGLLEALEGVRLLPNTAGARTAEEAVRLARLGRLLTGERWVKLEVIPDPTYLLPDPLETLKAAERLIEEDFLVLPYMGPDLVLAKRLAALGTATVMPLAAPIGSGWGVRTRALLELFAREKASLPPVVVDAGLGLPSHAAEVMELGLDAVLVNTAIAEAQDPPAMAEAFRLAVEAGRKAYLAGPMRP 2htv-a2-m7-cB_2htv-a2-m5-cB N4 neuraminidase Q6XV46 Q6XV46 2.8 X-RAY DIFFRACTION 105 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 388 388 2htv-a1-m3-cA_2htv-a1-m1-cA 2htv-a1-m3-cA_2htv-a1-m2-cA 2htv-a1-m4-cA_2htv-a1-m1-cA 2htv-a1-m4-cA_2htv-a1-m2-cA 2htv-a2-m6-cB_2htv-a2-m1-cB 2htv-a2-m6-cB_2htv-a2-m5-cB 2htv-a2-m7-cB_2htv-a2-m1-cB 2htw-a1-m3-cA_2htw-a1-m1-cA 2htw-a1-m3-cA_2htw-a1-m2-cA 2htw-a1-m4-cA_2htw-a1-m1-cA 2htw-a1-m4-cA_2htw-a1-m2-cA VIHYSSGKDLCPVKGWAPLSKDNGIRIGSRGEVFVIREPFISCSINECRTFFLTQGALLNDKHSNGTVKDRSPFRTLMSCPIGVAPSPSNSRFESVAWSATACSDGPGWLTIGITGPDATAVAVLKYNGIITDTLKSWKGNIMRTQESECVCQDEFCYTLITDGPSDAQAFYKILKIKKGKIVSVKDVDAPGFHFEECSCYPSGENVECVCRDNWRGSNRPWIRFNSDLDYQIGYVCSGVFGDNPRPMDSTGSCNSPINNGKGRYGVKGFSFRYGDGVWIGRTKSLESRSGFEMVWDANGWVSTDKDSNGVQDIIDNDNWSGYSGSFSIRGETTGRNCTVPCFWVEMIRGQPKEKTIWTSGSSIAFCGVNSDTTGWSWPDGALLPFDI VIHYSSGKDLCPVKGWAPLSKDNGIRIGSRGEVFVIREPFISCSINECRTFFLTQGALLNDKHSNGTVKDRSPFRTLMSCPIGVAPSPSNSRFESVAWSATACSDGPGWLTIGITGPDATAVAVLKYNGIITDTLKSWKGNIMRTQESECVCQDEFCYTLITDGPSDAQAFYKILKIKKGKIVSVKDVDAPGFHFEECSCYPSGENVECVCRDNWRGSNRPWIRFNSDLDYQIGYVCSGVFGDNPRPMDSTGSCNSPINNGKGRYGVKGFSFRYGDGVWIGRTKSLESRSGFEMVWDANGWVSTDKDSNGVQDIIDNDNWSGYSGSFSIRGETTGRNCTVPCFWVEMIRGQPKEKTIWTSGSSIAFCGVNSDTTGWSWPDGALLPFDI 2huh-a1-m1-cA_2huh-a1-m2-cA Crystal structure of a duf2027 family protein (bt_2179) from bacteroides thetaiotaomicron at 1.54 A resolution Q8A5Q9 Q8A5Q9 1.54 X-RAY DIFFRACTION 91 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 144 144 RQPEVRGGDTLNVFLAYVPEDAKATTPFEAYLVNDSNYYLYYTYLSAEGKAWNNRSHGLVEPNTKLLLEEFTKDVLNEERVAVQLIAFKDGKPAAIKPAVSVELRIDTVKFYKLHTFSASDFFEEPALIYDIVKDDVPAKQVYV RQPEVRGGDTLNVFLAYVPEDAKATTPFEAYLVNDSNYYLYYTYLSAEGKAWNNRSHGLVEPNTKLLLEEFTKDVLNEERVAVQLIAFKDGKPAAIKPAVSVELRIDTVKFYKLHTFSASDFFEEPALIYDIVKDDVPAKQVYV 2hui-a1-m1-cA_2hui-a1-m1-cB Crystal structure of Aedes aegypti alanine glyoxylate aminotransferase in complex with glyoxylic acid Q3LSM4 Q3LSM4 1.75 X-RAY DIFFRACTION 289 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 384 384 2huf-a1-m1-cA_2huf-a1-m1-cB 2huu-a1-m1-cA_2huu-a1-m1-cB MEYKVTPPAVLREPLVTPNKLLMGPGPSNAPQRVLDAMSRPILGHLHPETLKIMDDIKEGVRYLFQTNNIATFCLSASGHGGMEATLCNLLEDGDVILIGHTGHWGDRSADMATRYGADVRVVKSKVGQSLSLDEIRDALLIHKPSVLFLTQGDSSTGVLQGLEGVGALCHQHNCLLIVDTVASLGGAPMFMDRWEIDAMYTGSQVLGAPPGITPVSFSHRAVERYKRRNTKVKVYYWDMSLVGDYWGCFGRPRIYHHTISSTLLYGLREAIAMACEEGLPALIARHEDCAKRLYRGLQDAGFELYADPKDRLSTVTTIKVPQGVDWLKAAQYAMKTYLVEISGGLGPTAGQVFRIGLMGQNATTERVDRVLQVFQEAVAAVKP MEYKVTPPAVLREPLVTPNKLLMGPGPSNAPQRVLDAMSRPILGHLHPETLKIMDDIKEGVRYLFQTNNIATFCLSASGHGGMEATLCNLLEDGDVILIGHTGHWGDRSADMATRYGADVRVVKSKVGQSLSLDEIRDALLIHKPSVLFLTQGDSSTGVLQGLEGVGALCHQHNCLLIVDTVASLGGAPMFMDRWEIDAMYTGSQVLGAPPGITPVSFSHRAVERYKRRNTKVKVYYWDMSLVGDYWGCFGRPRIYHHTISSTLLYGLREAIAMACEEGLPALIARHEDCAKRLYRGLQDAGFELYADPKDRLSTVTTIKVPQGVDWLKAAQYAMKTYLVEISGGLGPTAGQVFRIGLMGQNATTERVDRVLQVFQEAVAAVKP 2huk-a1-m1-cA_2huk-a1-m2-cA Crystal structure of T4 Lysozyme V131C synthetic dimer P00720 P00720 2 X-RAY DIFFRACTION 11 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 164 164 MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAACNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAACNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL 2hul-a1-m1-cA_2hul-a1-m2-cA Crystal structure of T4 Lysozyme S44C synthetic dimer P00720 P00720 1.8 X-RAY DIFFRACTION 28 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 164 164 MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKCELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKCELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL 2hum-a1-m1-cA_2hum-a1-m1-cB Crystal structure of T4 Lysozyme D72C synthetic dimer P00720 P00720 2.35 X-RAY DIFFRACTION 42 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 164 164 MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVCAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVCAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL 2hun-a1-m1-cB_2hun-a1-m1-cA Crystal structure of hypothetical protein PH0414 from Pyrococcus horikoshii OT3 O58151 O58151 2.07 X-RAY DIFFRACTION 94 0.985 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 325 329 MHSMKLLVTGGMGFIGSNFIRYILEKHPDWEVINIDKLGYGSNPANLKDLEDDPRYTFVKGDVADYELVKELVRKVDGVVHLAAESHVDRSISSPEIFLHSNVIGTYTLLESIRRENPEVRFVHVSTDEVYGDILKGSFTENDRLMPSSPYSATKAASDMLVLGWTRTYNLNASITRCTNNYGPYQFPEKLIPKTIIRASLGLKIPIYGTGKNVRDWLYVEDHVRAIELVLLKGESREIYNISAGEEKTNLEVVKIILRLMGKGEELIELVEDRPGHDLRYSLDSWKITRDLKWRPKYTFDEGIKKTIDWYLKNEWWWKPLVDER SMKLLVTGGMGFIGSNFIRYILEKHPDWEVINIDKLGYGSNPANLKDLEDDPRYTFVKGDVADYELVKELVRKVDGVVHLAAESHVDRSISSPEIFLHSNVIGTYTLLESIRRENPEVRFVHVSTDEVYGDILKGSFTENDRLMPSSPYSATKAASDMLVLGWTRTYNLNASITRCTNNYGPYQFPEKLIPKTIIRASLGLKIPIYGTVRDWLYVEDHVRAIELVLLKGESREIYNISAGEEKTNLEVVKIILRLMGKGEELIELVEDRPGHDLRYSLDSWKITRDLKWRPKYTFDEGIKKTIDWYLKNEWWWKPLVDERILHPTPWKL 2hur-a2-m1-cE_2hur-a2-m2-cE Escherichia coli nucleoside diphosphate kinase P0A763 P0A763 1.62 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 142 142 2hur-a1-m1-cA_2hur-a1-m1-cC 2hur-a1-m1-cB_2hur-a1-m1-cD 2hur-a2-m1-cF_2hur-a2-m2-cF AIERTFSIIKPNAVAKNVIGNIFARFEAAGFKIVGTKMLHLTVEQARGFYAEHDGKPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSLTENGTHGSDSVESAAREIAYFFGEGEVCPRTR AIERTFSIIKPNAVAKNVIGNIFARFEAAGFKIVGTKMLHLTVEQARGFYAEHDGKPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSLTENGTHGSDSVESAAREIAYFFGEGEVCPRTR 2hur-a5-m1-cC_2hur-a5-m1-cD Escherichia coli nucleoside diphosphate kinase P0A763 P0A763 1.62 X-RAY DIFFRACTION 100 1.0 562 (Escherichia coli) 562 (Escherichia coli) 142 142 2hur-a1-m1-cA_2hur-a1-m1-cB 2hur-a1-m1-cC_2hur-a1-m1-cD 2hur-a2-m1-cE_2hur-a2-m1-cF 2hur-a2-m2-cE_2hur-a2-m2-cF 2hur-a3-m1-cA_2hur-a3-m1-cB 2hur-a4-m1-cE_2hur-a4-m1-cF AIERTFSIIKPNAVAKNVIGNIFARFEAAGFKIVGTKMLHLTVEQARGFYAEHDGKPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSLTENGTHGSDSVESAAREIAYFFGEGEVCPRTR AIERTFSIIKPNAVAKNVIGNIFARFEAAGFKIVGTKMLHLTVEQARGFYAEHDGKPFFDGLVEFMTSGPIVVSVLEGENAVQRHRDLLGATNPANALAGTLRADYADSLTENGTHGSDSVESAAREIAYFFGEGEVCPRTR 2hv1-a1-m1-cA_2hv1-a1-m1-cB HADDOCK structure of ARNT PAS-B Homodimer P27540 P27540 NOT SOLUTION NMR 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 CQPTEFISRHNIEGIFTFVDHRCVATVGYQPQELLGKNIVEFCHPEDQQLLRDSFQQVVKLKGQVLSVMFRFRSKNQEWLWMRTSSFTFQNPYSDEIEYIICTNTNVK CQPTEFISRHNIEGIFTFVDHRCVATVGYQPQELLGKNIVEFCHPEDQQLLRDSFQQVVKLKGQVLSVMFRFRSKNQEWLWMRTSSFTFQNPYSDEIEYIICTNTNVK 2hv2-a1-m1-cC_2hv2-a1-m1-cE Crystal Structure of Conserved Protein of Unknown Function from Enterococcus faecalis V583 at 2.4 A Resolution, Probable N-Acyltransferase Q836T6 Q836T6 2.4 X-RAY DIFFRACTION 25 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 379 379 2hv2-a1-m1-cC_2hv2-a1-m1-cA 2hv2-a1-m1-cD_2hv2-a1-m1-cB 2hv2-a1-m1-cD_2hv2-a1-m1-cF 2hv2-a1-m1-cE_2hv2-a1-m1-cA 2hv2-a1-m1-cF_2hv2-a1-m1-cB TTKRVKKGKEEKEFDLVIYAFNQEPTAERQERFEKLLSHTQSYGFLIDEQLTSQVATPFQVNFHGVRYPAGIGYVASYPEYRGEGGISAIKELADLAKQKVALSYLAPFSYPFYRQYGYEQTFEQAEYTIKTEDWPRVKRVPGTIKRVSWADGKEVIKDVYLENQRAHSGGVIRETWWLDYTLNRASKPNNQAIYYSSEGKAEGYVIYRIAAGTFEIVEWNYLTNTAFKALAGFIGSHSGSVQSFHWINGFAGKDLNDLPTPAASVKILPYARIVELQTFLEKYPFQSGEKETYSLEIEDSYGPWNEGIWTITIDEQGKATVTKGAAALKADIQTWTQLFLGYRSAETLSFYERLQGDATIAQRLGQRLVKGPILEDYF TTKRVKKGKEEKEFDLVIYAFNQEPTAERQERFEKLLSHTQSYGFLIDEQLTSQVATPFQVNFHGVRYPAGIGYVASYPEYRGEGGISAIKELADLAKQKVALSYLAPFSYPFYRQYGYEQTFEQAEYTIKTEDWPRVKRVPGTIKRVSWADGKEVIKDVYLENQRAHSGGVIRETWWLDYTLNRASKPNNQAIYYSSEGKAEGYVIYRIAAGTFEIVEWNYLTNTAFKALAGFIGSHSGSVQSFHWINGFAGKDLNDLPTPAASVKILPYARIVELQTFLEKYPFQSGEKETYSLEIEDSYGPWNEGIWTITIDEQGKATVTKGAAALKADIQTWTQLFLGYRSAETLSFYERLQGDATIAQRLGQRLVKGPILEDYF 2hv2-a1-m1-cE_2hv2-a1-m1-cF Crystal Structure of Conserved Protein of Unknown Function from Enterococcus faecalis V583 at 2.4 A Resolution, Probable N-Acyltransferase Q836T6 Q836T6 2.4 X-RAY DIFFRACTION 59 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 379 380 2hv2-a1-m1-cA_2hv2-a1-m1-cB 2hv2-a1-m1-cC_2hv2-a1-m1-cD TTKRVKKGKEEKEFDLVIYAFNQEPTAERQERFEKLLSHTQSYGFLIDEQLTSQVATPFQVNFHGVRYPAGIGYVASYPEYRGEGGISAIKELADLAKQKVALSYLAPFSYPFYRQYGYEQTFEQAEYTIKTEDWPRVKRVPGTIKRVSWADGKEVIKDVYLENQRAHSGGVIRETWWLDYTLNRASKPNNQAIYYSSEGKAEGYVIYRIAAGTFEIVEWNYLTNTAFKALAGFIGSHSGSVQSFHWINGFAGKDLNDLPTPAASVKILPYARIVELQTFLEKYPFQSGEKETYSLEIEDSYGPWNEGIWTITIDEQGKATVTKGAAALKADIQTWTQLFLGYRSAETLSFYERLQGDATIAQRLGQRLVKGPILEDYF TTKRVKKGKEEKEFDLVIYAFNQEPTAERQERFEKLLSHTQSYGFLIDEQLTSQVATPFQVNFHGVRYPAGIGYVASYPEYRGEGGISAIKELADLAKQKVALSYLAPFSYPFYRQYGYEQTFEQAEYTIKTEDWPRVKRVPGTIKRVSWADGKEVIKDVYLENQRAHSGGVIRETWWLDYTLNRASKPNNQAIYYSSEGKAEGYVIYRIAAGTFEIVEWNYLTNTAFKALAGFIGSHSGSVQSFHWINGFAGKDLNDLPTPAASVKILPYARIVELQTFLEKYPFQSGEKETYSLEIEDSYGPWNEGIWTITIDEQGKATVTKGATAALKADIQTWTQLFLGYRSAETLSFYERLQGDATIAQRLGQRLVKGPILEDYF 2hv8-a2-m1-cF_2hv8-a2-m1-cE Crystal structure of GTP-bound Rab11 in complex with FIP3 O75154 O75154 1.86 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 55 2hv8-a1-m1-cD_2hv8-a1-m2-cD SRDELMEAIQKQEEINFRLQDYIDRIIVAIMETNPSILEVK TAFSESLAAEISSVSRDELMEAIQKQEEINFRLQDYIDRIIVAIMETNPSILEVK 2hvb-a1-m1-cB_2hvb-a1-m1-cD Crystal structure of hypothetical protein PH1083 from Pyrococcus horikoshii OT3 O58810 O58810 2.5 X-RAY DIFFRACTION 62 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 115 115 2hvb-a1-m1-cA_2hvb-a1-m1-cC MLKETIRSGDWKGEKHVPVIEYEREGDLVKVEVSVGKEIPHPNTPEHHIAWIELYFHPEGGQFPILVGRVEFTNHSDPLTEPRAVFFFKTSKKGKLYALSYCNIHGLWENEVQLE MLKETIRSGDWKGEKHVPVIEYEREGDLVKVEVSVGKEIPHPNTPEHHIAWIELYFHPEGGQFPILVGRVEFTNHSDPLTEPRAVFFFKTSKKGKLYALSYCNIHGLWENEVQLE 2hvb-a1-m1-cC_2hvb-a1-m1-cD Crystal structure of hypothetical protein PH1083 from Pyrococcus horikoshii OT3 O58810 O58810 2.5 X-RAY DIFFRACTION 97 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 113 115 2hvb-a1-m1-cA_2hvb-a1-m1-cB MLKETIRSGDWEKHVPVIEYEREGDLVKVEVSVGKEIPHPNTPEHHIAWIELYFHPEGGQFPILVGRVEFTNHSDPLTEPRAVFFFKTSKKGKLYALSYCNIHGLWENEVQLE MLKETIRSGDWKGEKHVPVIEYEREGDLVKVEVSVGKEIPHPNTPEHHIAWIELYFHPEGGQFPILVGRVEFTNHSDPLTEPRAVFFFKTSKKGKLYALSYCNIHGLWENEVQLE 2hvf-a2-m1-cA_2hvf-a2-m2-cA Crystal Structure of N-terminal Domain of Ribosomal Protein L9 (NTL9), G34dA P02417 P02417 1.57 X-RAY DIFFRACTION 40 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 51 51 2hbb-a2-m1-cA_2hbb-a2-m2-cA MKVIFLKDVKGKGKKGEIKNVADGYANNFLFKQLAIEATPANLKALEAQKQ MKVIFLKDVKGKGKKGEIKNVADGYANNFLFKQLAIEATPANLKALEAQKQ 2hw5-a1-m1-cC_2hw5-a1-m1-cF The crystal structure of human enoyl-coenzyme A (CoA) hydratase short chain 1, ECHS1 P30084 P30084 2.55 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 260 2hw5-a1-m1-cA_2hw5-a1-m1-cB 2hw5-a1-m1-cD_2hw5-a1-m1-cE ANFEYIIAEKRGKNNTVGLIQLNRPKALNALCDGLIDELNQALKIFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLSFQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILIGTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAEKIASNSKIVVAMAKESVNAAFEMTLTEGSKLEKKLFYSTFATDDRKEGMTAFVEKRKANFKDQ ANFEYIIAEKRGKNNTVGLIQLNRPKALNALCDGLIDELNQALKIFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLSFQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILIGTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAEKIASNSKIVVAMAKESVNAAFEMTLTEGSKLEKKLFYSTFATDDRKEGMTAFVEKRKANFKDQ 2hw5-a1-m1-cD_2hw5-a1-m1-cF The crystal structure of human enoyl-coenzyme A (CoA) hydratase short chain 1, ECHS1 P30084 P30084 2.55 X-RAY DIFFRACTION 151 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 260 2hw5-a1-m1-cA_2hw5-a1-m1-cD 2hw5-a1-m1-cA_2hw5-a1-m1-cF 2hw5-a1-m1-cB_2hw5-a1-m1-cC 2hw5-a1-m1-cB_2hw5-a1-m1-cE 2hw5-a1-m1-cC_2hw5-a1-m1-cE ANFEYIIAEKRGKNNTVGLIQLNRPKALNALCDGLIDELNQALKIFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLSFQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILIGTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAEKIASNSKIVVAMAKESVNAAFEMTLTEGSKLEKKLFYSTFATDDRKEGMTAFVEKRKANFKDQ ANFEYIIAEKRGKNNTVGLIQLNRPKALNALCDGLIDELNQALKIFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLSFQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILIGTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAEKIASNSKIVVAMAKESVNAAFEMTLTEGSKLEKKLFYSTFATDDRKEGMTAFVEKRKANFKDQ 2hw5-a1-m1-cE_2hw5-a1-m1-cF The crystal structure of human enoyl-coenzyme A (CoA) hydratase short chain 1, ECHS1 P30084 P30084 2.55 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 260 2hw5-a1-m1-cA_2hw5-a1-m1-cC 2hw5-a1-m1-cB_2hw5-a1-m1-cD ANFEYIIAEKRGKNNTVGLIQLNRPKALNALCDGLIDELNQALKIFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLSFQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILIGTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAEKIASNSKIVVAMAKESVNAAFEMTLTEGSKLEKKLFYSTFATDDRKEGMTAFVEKRKANFKDQ ANFEYIIAEKRGKNNTVGLIQLNRPKALNALCDGLIDELNQALKIFEEDPAVGAIVLTGGDKAFAAGADIKEMQNLSFQDCYSSKFLKHWDHLTQVKKPVIAAVNGYAFGGGCELAMMCDIIYAGEKAQFAQPEILIGTIPGAGGTQRLTRAVGKSLAMEMVLTGDRISAQDAKQAGLVSKICPVETLVEEAIQCAEKIASNSKIVVAMAKESVNAAFEMTLTEGSKLEKKLFYSTFATDDRKEGMTAFVEKRKANFKDQ 2hwg-a1-m1-cA_2hwg-a1-m1-cB Structure of phosphorylated Enzyme I of the phosphoenolpyruvate:sugar phosphotransferase system P08839 P08839 2.7 X-RAY DIFFRACTION 174 1.0 562 (Escherichia coli) 562 (Escherichia coli) 554 554 2n5t-a1-m1-cA_2n5t-a1-m1-cB ISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHILLEDEELEQEIIALIKDKHTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSTSIARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKRAVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFDRDALPTEEEQFAAYKAVAEACGSQAVIVRTDIGGDKELPYNFPKEENPFLGWRAIRIADRREILRDQLRAILRASAFGKLRIFPIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDISHLYQPSPSVLNLIKQVIDASHAEGKWTGCGELAGDERATLLLLGGLDEFSSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELTLVNKFIEEKT ISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHILLEDEELEQEIIALIKDKHTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSTSIARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKRAVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFDRDALPTEEEQFAAYKAVAEACGSQAVIVRTDIGGDKELPYNFPKEENPFLGWRAIRIADRREILRDQLRAILRASAFGKLRIFPIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDISHLYQPSPSVLNLIKQVIDASHAEGKWTGCGELAGDERATLLLLGGLDEFSSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELTLVNKFIEEKT 2hwj-a3-m1-cB_2hwj-a3-m1-cD Crystal structure of protein Atu1540 from Agrobacterium tumefaciens A9CIY5 A9CIY5 2.61 X-RAY DIFFRACTION 36 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 186 190 2hwj-a1-m1-cB_2hwj-a1-m1-cD 2hwj-a1-m1-cC_2hwj-a1-m1-cA 2hwj-a2-m1-cE_2hwj-a2-m2-cF 2hwj-a2-m2-cE_2hwj-a2-m1-cF 2hwj-a3-m1-cC_2hwj-a3-m1-cA 2hwj-a3-m3-cE_2hwj-a3-m4-cF 2hwj-a3-m4-cE_2hwj-a3-m3-cF 2hwj-a3-m5-cB_2hwj-a3-m5-cD 2hwj-a3-m5-cC_2hwj-a3-m5-cA PRLSRIAIDKLRPTQIAVGFREVELKRKEWRETGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE EPRLSRIAIDKLRPTQIAVGFREVELKRKEWRETRFLGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE 2hwj-a3-m1-cB_2hwj-a3-m5-cB Crystal structure of protein Atu1540 from Agrobacterium tumefaciens A9CIY5 A9CIY5 2.61 X-RAY DIFFRACTION 26 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 186 186 PRLSRIAIDKLRPTQIAVGFREVELKRKEWRETGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE PRLSRIAIDKLRPTQIAVGFREVELKRKEWRETGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE 2hwj-a3-m4-cE_2hwj-a3-m4-cF Crystal structure of protein Atu1540 from Agrobacterium tumefaciens A9CIY5 A9CIY5 2.61 X-RAY DIFFRACTION 44 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 185 187 2hwj-a1-m1-cB_2hwj-a1-m1-cA 2hwj-a1-m1-cD_2hwj-a1-m1-cC 2hwj-a2-m1-cE_2hwj-a2-m1-cF 2hwj-a2-m2-cE_2hwj-a2-m2-cF 2hwj-a3-m1-cB_2hwj-a3-m1-cA 2hwj-a3-m1-cD_2hwj-a3-m1-cC 2hwj-a3-m3-cE_2hwj-a3-m3-cF 2hwj-a3-m5-cB_2hwj-a3-m5-cA 2hwj-a3-m5-cD_2hwj-a3-m5-cC PRLSRIAIDKLRPTQIAVGFREVELKRKEWRETNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE EPRLSRIAIDKLRPTQIAVGFREVELKRKEWRETGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE 2hwj-a3-m5-cD_2hwj-a3-m5-cA Crystal structure of protein Atu1540 from Agrobacterium tumefaciens A9CIY5 A9CIY5 2.61 X-RAY DIFFRACTION 47 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 190 193 2hwj-a1-m1-cB_2hwj-a1-m1-cC 2hwj-a1-m1-cD_2hwj-a1-m1-cA 2hwj-a2-m1-cE_2hwj-a2-m2-cE 2hwj-a2-m1-cF_2hwj-a2-m2-cF 2hwj-a3-m1-cB_2hwj-a3-m1-cC 2hwj-a3-m1-cD_2hwj-a3-m1-cA 2hwj-a3-m3-cE_2hwj-a3-m4-cE 2hwj-a3-m3-cF_2hwj-a3-m4-cF 2hwj-a3-m5-cB_2hwj-a3-m5-cC EPRLSRIAIDKLRPTQIAVGFREVELKRKEWRETRFLGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE IYEPRLSRIAIDKLRPTQIAVGFREVELKRKEWRETRDFLGNHIVPVVAGPKDRAYLIDHHHLVLALSKEGVEHVLTSEVAKFSHLGKDEFWSVDHRNLIYPFDAQGLRRQSGDIPKNIHDLEDDPFRSLAGALRAGGYAKVIIPFSEFGWADFLRRRIDRDLLSDSFDDALAEAKLAKSREARHLPGWCGVE 2hwl-a1-m1-cD_2hwl-a1-m1-cB Crystal structure of thrombin in complex with fibrinogen gamma' peptide P00734 P00734 2.4 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 251 IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYEANIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQF IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYEANIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNLKETKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSWGEGCDRDGKYGFYTHVFRLKKWIQKVIDQF 2hwq-a1-m1-cB_2hwq-a1-m2-cA Structural basis for the structure-activity relationships of Peroxisome Proliferator-Activated Receptor agonists P37231 P37231 1.97 X-RAY DIFFRACTION 13 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 253 261 2hwr-a1-m2-cB_2hwr-a1-m1-cA ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIQEQSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHP ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIKFKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY 2hwq-a1-m2-cB_2hwq-a1-m1-cA Structural basis for the structure-activity relationships of Peroxisome Proliferator-Activated Receptor agonists P37231 P37231 1.97 X-RAY DIFFRACTION 29 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 253 261 2hwr-a1-m1-cB_2hwr-a1-m2-cA ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIQEQSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHP ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIKFKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY 2hx0-a1-m2-cA_2hx0-a1-m3-cA Three-dimensional structure of the hypothetical protein from Salmonella cholerae-suis (aka Salmonella enterica) at the resolution 1.55 A. Northeast Structural Genomics target ScR59. Q57K43 Q57K43 1.55 X-RAY DIFFRACTION 121 1.0 135 135 2hx0-a1-m1-cA_2hx0-a1-m2-cA 2hx0-a1-m1-cA_2hx0-a1-m3-cA 2nmu-a1-m1-cA_2nmu-a1-m2-cA 2nmu-a1-m1-cA_2nmu-a1-m3-cA 2nmu-a1-m2-cA_2nmu-a1-m3-cA HHNASTARFYALRLLPGQEVFSQLHAFVQQNQLRAAWIAGCTGSLTDVALRYAGQEATTSLTGTFEVISLNGTLELTGEHLHLAVSDPYGVLGGHPGCTVRTTLELVIGELPALTFSRQPCAISGYDELHISSRL HHNASTARFYALRLLPGQEVFSQLHAFVQQNQLRAAWIAGCTGSLTDVALRYAGQEATTSLTGTFEVISLNGTLELTGEHLHLAVSDPYGVLGGHPGCTVRTTLELVIGELPALTFSRQPCAISGYDELHISSRL 2hx1-a1-m1-cB_2hx1-a1-m1-cD Crystal structure of possible sugar phosphatase, HAD superfamily (ZP_00311070.1) from CYTOPHAGA HUTCHINSONII ATCC 33406 at 2.10 A resolution 2.1 X-RAY DIFFRACTION 69 1.0 985 (Cytophaga hutchinsonii) 985 (Cytophaga hutchinsonii) 275 275 2hx1-a1-m1-cA_2hx1-a1-m1-cC GQIESFKSLLPKYKCIFFDAFGVLKTYNGLLPGIENTFDYLKAQGQDYYIVTNDASRSPEQLADSYHKLGLFSITADKIISSGITKEYIDLKVDGGIVAYLGTANSANYLVSDGIKLPVSAIDDSNIGEVNALVLLDDEGFNWFHDLNKTVNLLRKRTIPAIVANTDNTYPLTKTDVAIAIGGVATIESILGRRFIRFGKPDSQFFAYDLRQKEISKREILVGDTLHTDILGGNKFGLDTALVLTGNTRIDDAETKIKSTGIVPTHICESAVIEL GQIESFKSLLPKYKCIFFDAFGVLKTYNGLLPGIENTFDYLKAQGQDYYIVTNDASRSPEQLADSYHKLGLFSITADKIISSGITKEYIDLKVDGGIVAYLGTANSANYLVSDGIKLPVSAIDDSNIGEVNALVLLDDEGFNWFHDLNKTVNLLRKRTIPAIVANTDNTYPLTKTDVAIAIGGVATIESILGRRFIRFGKPDSQFFAYDLRQKEISKREILVGDTLHTDILGGNKFGLDTALVLTGNTRIDDAETKIKSTGIVPTHICESAVIEL 2hx1-a1-m1-cC_2hx1-a1-m1-cD Crystal structure of possible sugar phosphatase, HAD superfamily (ZP_00311070.1) from CYTOPHAGA HUTCHINSONII ATCC 33406 at 2.10 A resolution 2.1 X-RAY DIFFRACTION 50 1.0 985 (Cytophaga hutchinsonii) 985 (Cytophaga hutchinsonii) 275 275 2hx1-a1-m1-cA_2hx1-a1-m1-cB GQIESFKSLLPKYKCIFFDAFGVLKTYNGLLPGIENTFDYLKAQGQDYYIVTNDASRSPEQLADSYHKLGLFSITADKIISSGITKEYIDLKVDGGIVAYLGTANSANYLVSDGIKLPVSAIDDSNIGEVNALVLLDDEGFNWFHDLNKTVNLLRKRTIPAIVANTDNTYPLTKTDVAIAIGGVATIESILGRRFIRFGKPDSQFFAYDLRQKEISKREILVGDTLHTDILGGNKFGLDTALVLTGNTRIDDAETKIKSTGIVPTHICESAVIEL GQIESFKSLLPKYKCIFFDAFGVLKTYNGLLPGIENTFDYLKAQGQDYYIVTNDASRSPEQLADSYHKLGLFSITADKIISSGITKEYIDLKVDGGIVAYLGTANSANYLVSDGIKLPVSAIDDSNIGEVNALVLLDDEGFNWFHDLNKTVNLLRKRTIPAIVANTDNTYPLTKTDVAIAIGGVATIESILGRRFIRFGKPDSQFFAYDLRQKEISKREILVGDTLHTDILGGNKFGLDTALVLTGNTRIDDAETKIKSTGIVPTHICESAVIEL 2hx5-a1-m1-cA_2hx5-a1-m4-cA Crystal structure of a putative thioesterase (pmt_2055) from prochlorococcus marinus str. mit 9313 at 1.50 A resolution Q7V4A7 Q7V4A7 1.5 X-RAY DIFFRACTION 65 1.0 74547 (Prochlorococcus marinus str. MIT 9313) 74547 (Prochlorococcus marinus str. MIT 9313) 141 141 2hx5-a1-m2-cA_2hx5-a1-m3-cA NPENWLLLRRVVRFGDTDAAGVHFHQLFRWCHESWEESLESYGLNPADIFPGSRKSEVTPEVALPIIHCQADFRRPIHTGDALAELRPERLNPNSFQVHFEFRCEEQIAAHALIRHLAINAQTRHRCALPEGIDRWLEASG NPENWLLLRRVVRFGDTDAAGVHFHQLFRWCHESWEESLESYGLNPADIFPGSRKSEVTPEVALPIIHCQADFRRPIHTGDALAELRPERLNPNSFQVHFEFRCEEQIAAHALIRHLAINAQTRHRCALPEGIDRWLEASG 2hx5-a1-m2-cA_2hx5-a1-m4-cA Crystal structure of a putative thioesterase (pmt_2055) from prochlorococcus marinus str. mit 9313 at 1.50 A resolution Q7V4A7 Q7V4A7 1.5 X-RAY DIFFRACTION 26 1.0 74547 (Prochlorococcus marinus str. MIT 9313) 74547 (Prochlorococcus marinus str. MIT 9313) 141 141 2hx5-a1-m1-cA_2hx5-a1-m3-cA NPENWLLLRRVVRFGDTDAAGVHFHQLFRWCHESWEESLESYGLNPADIFPGSRKSEVTPEVALPIIHCQADFRRPIHTGDALAELRPERLNPNSFQVHFEFRCEEQIAAHALIRHLAINAQTRHRCALPEGIDRWLEASG NPENWLLLRRVVRFGDTDAAGVHFHQLFRWCHESWEESLESYGLNPADIFPGSRKSEVTPEVALPIIHCQADFRRPIHTGDALAELRPERLNPNSFQVHFEFRCEEQIAAHALIRHLAINAQTRHRCALPEGIDRWLEASG 2hx5-a1-m3-cA_2hx5-a1-m4-cA Crystal structure of a putative thioesterase (pmt_2055) from prochlorococcus marinus str. mit 9313 at 1.50 A resolution Q7V4A7 Q7V4A7 1.5 X-RAY DIFFRACTION 62 1.0 74547 (Prochlorococcus marinus str. MIT 9313) 74547 (Prochlorococcus marinus str. MIT 9313) 141 141 2hx5-a1-m1-cA_2hx5-a1-m2-cA NPENWLLLRRVVRFGDTDAAGVHFHQLFRWCHESWEESLESYGLNPADIFPGSRKSEVTPEVALPIIHCQADFRRPIHTGDALAELRPERLNPNSFQVHFEFRCEEQIAAHALIRHLAINAQTRHRCALPEGIDRWLEASG NPENWLLLRRVVRFGDTDAAGVHFHQLFRWCHESWEESLESYGLNPADIFPGSRKSEVTPEVALPIIHCQADFRRPIHTGDALAELRPERLNPNSFQVHFEFRCEEQIAAHALIRHLAINAQTRHRCALPEGIDRWLEASG 2hxb-a2-m3-cA_2hxb-a2-m6-cA dCTP deaminase-dUTPase from Methanocaldococcus jannaschii Q57872 Q57872 2.55 X-RAY DIFFRACTION 18 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 175 175 1pkh-a1-m4-cB_1pkh-a1-m1-cA 1pkh-a1-m5-cB_1pkh-a1-m2-cA 1pkh-a1-m6-cB_1pkh-a1-m3-cA 1pkj-a1-m1-cB_1pkj-a1-m4-cA 1pkj-a1-m2-cB_1pkj-a1-m5-cA 1pkj-a1-m3-cB_1pkj-a1-m6-cA 1pkk-a1-m1-cB_1pkk-a1-m4-cA 1pkk-a1-m2-cB_1pkk-a1-m5-cA 1pkk-a1-m3-cB_1pkk-a1-m6-cA 2hxb-a2-m1-cA_2hxb-a2-m5-cA 2hxb-a2-m2-cA_2hxb-a2-m4-cA 2hxd-a2-m1-cA_2hxd-a2-m5-cA 2hxd-a2-m2-cA_2hxd-a2-m4-cA 2hxd-a2-m3-cA_2hxd-a2-m6-cA MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLEIVAFDKPVILYKNQRIGQLIFSKLLSPADV MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLEIVAFDKPVILYKNQRIGQLIFSKLLSPADV 2hxd-a3-m18-cA_2hxd-a3-m9-cA Bifunctional dCTP deaminase-dUTPase mutant enzyme variant E145A from Methanocaldococcus jannaschii in complex with alpha,beta-imido dUTP and magnesium Q57872 Q57872 2.3 X-RAY DIFFRACTION 30 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 199 199 2hxd-a3-m10-cA_2hxd-a3-m26-cA 2hxd-a3-m11-cA_2hxd-a3-m27-cA 2hxd-a3-m12-cA_2hxd-a3-m25-cA 2hxd-a3-m13-cA_2hxd-a3-m23-cA 2hxd-a3-m14-cA_2hxd-a3-m22-cA 2hxd-a3-m15-cA_2hxd-a3-m21-cA 2hxd-a3-m17-cA_2hxd-a3-m7-cA 2hxd-a3-m19-cA_2hxd-a3-m8-cA 2hxd-a3-m1-cA_2hxd-a3-m16-cA 2hxd-a3-m20-cA_2hxd-a3-m3-cA 2hxd-a3-m2-cA_2hxd-a3-m24-cA MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLAIVAFDKPVILYKNQRIGQLIFSKLLSPADVGYSERKTSKYAYQKSVMPSLIHLD MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLAIVAFDKPVILYKNQRIGQLIFSKLLSPADVGYSERKTSKYAYQKSVMPSLIHLD 2hxi-a1-m1-cA_2hxi-a1-m1-cB Structural Genomics, the crystal structure of a putative transcriptional regulator from Streptomyces coelicolor A3(2) O87854 O87854 1.7 X-RAY DIFFRACTION 177 0.995 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 194 195 RWSTEQILDAAAELLLAGDAETFSVRKLAASLGTDSSSLYRHFRNKTELLRAVADRILLSADGYRPEGDWKQRLTAVALRLRESFGQQPQLAAVWGRHGSGGTGSRLEEVLQALRASGLPDDEIPARYHRLVILISSLITAEGGFRVAVLGADPERFPALSHFAREIRPLGADRGAAFEEILAAHLAHLEAAAP RRWSTEQILDAAAELLLAGDATFSVRKLAASLGTDSSSLYRHFRNKTELLRAVADRILLSADGYRPEGDWKQRLTAVALRLRESFGQQPQLAAVWGRHGSGGTGSRLEEVLQALRASGLPDDEIPARYHRLVILISSLITAEGGQFRVAVLGADPERFPALSHFAREIRPLGADRGAAFEEILAAHLAHLEAAAP 2hxr-a1-m1-cA_2hxr-a1-m1-cB Structure of the ligand binding domain of E. coli CynR, a transcriptional regulator controlling cyanate metabolism P27111 P27111 2.05 X-RAY DIFFRACTION 93 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 196 198 3hfu-a1-m1-cA_3hfu-a1-m1-cC 3hfu-a2-m1-cD_3hfu-a2-m1-cB SLRIAVTPTFTSYFIGPLADFYARYPSITLQLQESQEKIEDLCRDELDVGIAFAPVHSPELEAIPLLTESLALVVAQHHPLAVHEQVALSRLHDEKLVLLSAEFATREQIDHYCEKAGLHPQVVIEANSISAVLELIRRTSLSTLLPAAIATQHDGLKAISLAPPLLERTAVLLRRKNSWQTAAAKAFLHALDKCA RGSLRIAVTPTFTSYFIGPLADFYARYPSITLQLQESQEKIEDLCRDELDVGIAFAPVHSPELEAIPLLTESLALVVAQHHPLAVHEQVALSRLHDEKLVLLSAEFATREQIDHYCEKAGLHPQVVIEANSISAVLELIRRTSLSTLLPAAIATQHDGLKAISLAPPLLERTAVLLRRKNSWQTAAAKAFLHALDKCA 2hxv-a1-m1-cA_2hxv-a1-m2-cA Crystal structure of a diaminohydroxyphosphoribosylaminopyrimidine deaminase/ 5-amino-6-(5-phosphoribosylamino)uracil reductase (tm1828) from thermotoga maritima at 1.80 A resolution Q9X2E8 Q9X2E8 1.8 X-RAY DIFFRACTION 156 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 344 344 HHHHYETFKRAIELAKKGLGRVNPNPPVGAVVVKDGRIIAEGFHPYFGGPHAERAIESARKKGEDLRGATLIVTLEPCDHHGKTPPCTDLIIESGIKTVVIGTRDPNPVSGNGVEKFRNHGIEVIEGVLEEEVKKLCEFFITYVTKKRPFVALKYASTLDGKIADHRGDSKWITDKLRFKVHERNIYSAVLVGAGTVLKDNPQLTCRLKEGRNPVRVILDRKGVLSGKVFRVFEENARVIVFTESEEAEYPPHVEKALSDCSVESILRNLYERDIDSVLVEGGSKVFSEFLDHADVVFGFYSTKIFGKGLDVFSGYLSDVSVPPKFKVVNVEFSDSEFLVERPC HHHHYETFKRAIELAKKGLGRVNPNPPVGAVVVKDGRIIAEGFHPYFGGPHAERAIESARKKGEDLRGATLIVTLEPCDHHGKTPPCTDLIIESGIKTVVIGTRDPNPVSGNGVEKFRNHGIEVIEGVLEEEVKKLCEFFITYVTKKRPFVALKYASTLDGKIADHRGDSKWITDKLRFKVHERNIYSAVLVGAGTVLKDNPQLTCRLKEGRNPVRVILDRKGVLSGKVFRVFEENARVIVFTESEEAEYPPHVEKALSDCSVESILRNLYERDIDSVLVEGGSKVFSEFLDHADVVFGFYSTKIFGKGLDVFSGYLSDVSVPPKFKVVNVEFSDSEFLVERPC 2hy1-a1-m1-cA_2hy1-a1-m2-cA Crystal structure of Rv0805 P9WP65 P9WP65 1.932 X-RAY DIFFRACTION 83 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 227 227 2hyo-a1-m1-cA_2hyo-a1-m2-cA 2hyp-a1-m1-cA_2hyp-a1-m2-cA PRPDYVLLHISDTHLIDADDRLGELLEQLNQSGLRPDAIVFTGDLADKGEPAAYRKLRGLVEPFAAQLGAELVWVMGNHDDRAELRKFLLDEAPSMAPLDRVCMIDGLRIIVLDTSVPGHHHGEIRASQLGWLAEELATPAPDGTILALHHPPIPSVLDMAVTVELRDQAALGRVLRGTDVRAILAGHLHYSTNATFVGIPVSVASATCGCNLVHVYPDTVVHSVIP PRPDYVLLHISDTHLIDADDRLGELLEQLNQSGLRPDAIVFTGDLADKGEPAAYRKLRGLVEPFAAQLGAELVWVMGNHDDRAELRKFLLDEAPSMAPLDRVCMIDGLRIIVLDTSVPGHHHGEIRASQLGWLAEELATPAPDGTILALHHPPIPSVLDMAVTVELRDQAALGRVLRGTDVRAILAGHLHYSTNATFVGIPVSVASATCGCNLVHVYPDTVVHSVIP 2hy5-a1-m1-cA_2hy5-a1-m2-cA Crystal structure of DsrEFH O87896 O87896 1.72 X-RAY DIFFRACTION 74 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 130 130 2hyb-a1-m1-cA_2hyb-a1-m1-cD 2hyb-a2-m1-cG_2hyb-a2-m1-cJ 2hyb-a3-m1-cM_2hyb-a3-m1-cP MKFALQINEGPYQHQASDSAYQFAKAALEKGHEIFRVFFYHDGVNNSTRLTTPPQDDRHIVNRWAELAEQYELDMVVCVAAAQRRGIVDEGEASRNGKDATNIHPKFRISGLGQLVEAAIQADRLVVFGD MKFALQINEGPYQHQASDSAYQFAKAALEKGHEIFRVFFYHDGVNNSTRLTTPPQDDRHIVNRWAELAEQYELDMVVCVAAAQRRGIVDEGEASRNGKDATNIHPKFRISGLGQLVEAAIQADRLVVFGD 2hy6-a1-m1-cB_2hy6-a1-m1-cC A seven-helix coiled coil P03069 P03069 1.25 X-RAY DIFFRACTION 62 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 31 31 2hy6-a1-m1-cA_2hy6-a1-m1-cB 2hy6-a1-m1-cC_2hy6-a1-m1-cD 2hy6-a1-m1-cE_2hy6-a1-m1-cD 2hy6-a1-m1-cG_2hy6-a1-m1-cA 2hy6-a1-m1-cG_2hy6-a1-m1-cF VKQLADAVEELASANYHLANAVARLAKAVGE VKQLADAVEELASANYHLANAVARLAKAVGE 2hyd-a1-m1-cA_2hyd-a1-m1-cB Multidrug ABC transporter SAV1866 Q99T13 Q99T13 3 X-RAY DIFFRACTION 460 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 578 578 2onj-a1-m1-cA_2onj-a1-m1-cB 4a82-a1-m1-cA_4a82-a1-m1-cB 4a82-a2-m1-cC_4a82-a2-m1-cD MIKRYLQFVKPYKYRIFATIIVGIIKFGIPMLIPLLIKYAIDGVINNHALTTDEKVHHLTIAIGIALFIFVIVRPPIEFIRQYLAQWTSNKILYDIRKKLYNHLQALSARFYANNQVGQVISRVINDVEQTKDFILTGLMNIWLDCITIIIALSIMFFLDVKLTLAALFIFPFYILTVYVFFGRLRKLTRERSQALAEVQGFLHERVQGISVVKSFAIEDNEAKNFDKKNTNFLTRALKHTRWNAYSFAAINTVTDIGPIIVIGVGAYLAISGSITVGTLAAFVGYLELLFGPLRRLVASFTTLTQSFASMDRVFQLIDEDYDIKNGVGAQPIEIKQGRIDIDHVSFQYNDNEAPILKDINLSIEKGETVAFVGMSGGGKSTLINLIPRFYDVTSGQILIDGHNIKDFLTGSLRNQIGLVQQDNILFSDTVKENILLGRPTATDEEVVEAAKMANAHDFIMNLPQGYDTEVGERGVKLSGGQKQRLSIARIFLNNPPILILDEATSALDLESESIIQEALDVLSKDRTTLIVAHRLSTITHADKIVVIENGHIVETGTHRELIAKQGAYEHLYSIQNL MIKRYLQFVKPYKYRIFATIIVGIIKFGIPMLIPLLIKYAIDGVINNHALTTDEKVHHLTIAIGIALFIFVIVRPPIEFIRQYLAQWTSNKILYDIRKKLYNHLQALSARFYANNQVGQVISRVINDVEQTKDFILTGLMNIWLDCITIIIALSIMFFLDVKLTLAALFIFPFYILTVYVFFGRLRKLTRERSQALAEVQGFLHERVQGISVVKSFAIEDNEAKNFDKKNTNFLTRALKHTRWNAYSFAAINTVTDIGPIIVIGVGAYLAISGSITVGTLAAFVGYLELLFGPLRRLVASFTTLTQSFASMDRVFQLIDEDYDIKNGVGAQPIEIKQGRIDIDHVSFQYNDNEAPILKDINLSIEKGETVAFVGMSGGGKSTLINLIPRFYDVTSGQILIDGHNIKDFLTGSLRNQIGLVQQDNILFSDTVKENILLGRPTATDEEVVEAAKMANAHDFIMNLPQGYDTEVGERGVKLSGGQKQRLSIARIFLNNPPILILDEATSALDLESESIIQEALDVLSKDRTTLIVAHRLSTITHADKIVVIENGHIVETGTHRELIAKQGAYEHLYSIQNL 2hyf-a3-m1-cC_2hyf-a3-m2-cD The Structure of apo-MntR from Bacillus subtilis, selenomethionine derivative P54512 P54512 2.8 X-RAY DIFFRACTION 32 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 134 134 2hyf-a3-m1-cB_2hyf-a3-m1-cC TTPSEDYIEQIYLIEEKGYARVSDIAEALAVHPSSVTKVQKLDKDEYLIYEKYRGLVLTSKGKKIGKRLVYRHELLEQFLRIIGVDEEKIYNDVEGIEHHLSWNSIDRIGDLVQYFEEDDARKKDLKSIQKKTE TTPSEDYIEQIYLIEEKGYARVSDIAEALAVHPSSVTKVQKLDKDEYLIYEKYRGLVLTSKGKKIGKRLVYRHELLEQFLRIIGVDEEKIYNDVEGIEHHLSWNSIDRIGDLVQYFEEDDARKKDLKSIQKKTE 2hyj-a1-m1-cA_2hyj-a1-m2-cA The crystal structure of a tetR-family transcriptional regulator from Streptomyces coelicolor Q8CJS4 Q8CJS4 2.19 X-RAY DIFFRACTION 104 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 193 193 AEAQATRGRILGRAAEIASEEGLDGITIGRLAEELEMSKSGVHKHFGTKETLQISTLDKAFVDFWHRVVEPALAEPPGLRRLRAVCANSVGYLEEPLLPGGCLLTAALSEYDGRPGRVRDAVAEVWSRWREQLRADLTAAVDKGELPAGFDVEQALFEIVAAGLALNAAMQLQHDRTAADRARRAIERALAQS AEAQATRGRILGRAAEIASEEGLDGITIGRLAEELEMSKSGVHKHFGTKETLQISTLDKAFVDFWHRVVEPALAEPPGLRRLRAVCANSVGYLEEPLLPGGCLLTAALSEYDGRPGRVRDAVAEVWSRWREQLRADLTAAVDKGELPAGFDVEQALFEIVAAGLALNAAMQLQHDRTAADRARRAIERALAQS 2hyn-a1-m1-cD_2hyn-a1-m1-cE Complete ensemble of NMR structures of unphosphorylated human phospholamban pentamer P26678 P26678 NOT SOLUTION NMR 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 1zll-a1-m1-cA_1zll-a1-m1-cB 1zll-a1-m1-cA_1zll-a1-m1-cE 1zll-a1-m1-cB_1zll-a1-m1-cC 1zll-a1-m1-cC_1zll-a1-m1-cD 1zll-a1-m1-cD_1zll-a1-m1-cE 2hyn-a1-m1-cA_2hyn-a1-m1-cB 2hyn-a1-m1-cA_2hyn-a1-m1-cE 2hyn-a1-m1-cB_2hyn-a1-m1-cC 2hyn-a1-m1-cC_2hyn-a1-m1-cD MEKVQYLTRSAIRRASTIEMPQQARQKLQNLFINFCLILICLLLICIIVMLL MEKVQYLTRSAIRRASTIEMPQQARQKLQNLFINFCLILICLLLICIIVMLL 2hyt-a1-m1-cA_2hyt-a1-m2-cA CRYSTAL STRUCTURE OF A TETR-FAMILY TRANSCRIPTIONAL REGULATOR (ECA1819) FROM PECTOBACTERIUM ATROSEPTICUM AT 1.64 A RESOLUTION Q6D668 Q6D668 1.64 X-RAY DIFFRACTION 130 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 188 188 RTRAEEETRATLLATARKVFSERGYADTSDDLTAQASLTRGALYHHFGDKKGLLAAVVEQIDAEDERLQAISDTAEDDWEGFRCRCRAYLEALEPEIQRIVLRDARAVLGGASPDSQRHCVESQRLIDNLIRQGVVAEADPQALASLIYGSLAEAAFWIAEGEDGNARLAQGVAALELLLRGLLVKPR RTRAEEETRATLLATARKVFSERGYADTSDDLTAQASLTRGALYHHFGDKKGLLAAVVEQIDAEDERLQAISDTAEDDWEGFRCRCRAYLEALEPEIQRIVLRDARAVLGGASPDSQRHCVESQRLIDNLIRQGVVAEADPQALASLIYGSLAEAAFWIAEGEDGNARLAQGVAALELLLRGLLVKPR 2hyx-a2-m1-cD_2hyx-a2-m1-cC Structure of the C-terminal domain of DipZ from Mycobacterium tuberculosis P9WG63 P9WG63 1.9 X-RAY DIFFRACTION 179 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 329 333 2hyx-a1-m1-cB_2hyx-a1-m1-cA 5cyy-a1-m1-cB_5cyy-a1-m1-cA 5cyy-a2-m1-cD_5cyy-a2-m1-cC GAMEIREQLNLGGIVNAQNAQLSNCSDGAAQLESCGTAPDLKGITGWLNTPGNKPIDLKSLRGKVVLIDFWAYSCINCQRAIPHVVGWYQAYKDSGLAVIGVHTPEYAFEKVPGNVAKGAANLGISYPIALDNNYATWTNYRNRYWPAEYLIDATGTVRHIKFGEGDYNVTETLVRQLLNDAKPGVKLPQPSSTTTPDLTPRAALTPETYFGVGKVVNYGGGGAYDEGSAVFDYPPSLAANSFALRGRWALDYQGATSDGNDAAIKLNYHAKDVYIVVGGTGTLTVVPATLPISGPPTTHQVVAGYRLASETLEVRPSKGLQVFSFTYG GAMEIREQLNLGGIVNAQNAQLSNCSDGAAQLESCGTAPDLKGITGWLNTPGNKPIDLKSLRGKVVLIDFWAYSCINCQRAIPHVVGWYQAYKDSGLAVIGVHTPEYAFEKVPGNVAKGAANLGISYPIALDNNYATWTNYRNRYWPAEYLIDATGTVRHIKFGEGDYNVTETLVRQLLNDAKPGVKLPQPSSTTTPDLTPRAALTPETYFGVGKVVNYGGGGAYDEGSAVFDYPPSLAANSFALRGRWALDYQGATSDGNDAAIKLNYHAKDVYIVVGGTGTLTVVRDGKPATLPISGPPTTHQVVAGYRLASETLEVRPSKGLQVFSFTYG 2hyz-a1-m1-cA_2hyz-a1-m2-cA Crystal structure of an 8 repeat consensus TPR superhelix (orthorombic crystal form) 2.3 X-RAY DIFFRACTION 34 1.0 136 136 2fo7-a1-m1-cA_2fo7-a1-m2-cA AEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRS AEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRSAEAWYNLGNAYYKQGDYDEAIEYYQKALELDPRS 2hz6-a1-m1-cA_2hz6-a1-m2-cA The crystal structure of human IRE1-alpha luminal domain O75460 O75460 3.1 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 253 6shc-a1-m1-cA_6shc-a1-m2-cA PETLLFVSTLDGSLHAVSKRTGSIKWTLKEDPVLQVPPAFLPDPNDGSLYTLEGLTKLPFTIPELVQASPCRLYMGKKQDIWYVIDLLLYLGRTEYTITMYDTKTRELRWNATYFDYAASLPEDDVDYKMSHFVSNGDGLVVTVDSESGDVLWIQNYASPVVAFYVWQREGLRKVMHINVAVETLRYLTFMSGEVGRITKWKYPFPKETEAKSKLTPTLYVGKYSTSLYASPSMVHEGVAVVYWLLIGHHETP PETLLFVSTLDGSLHAVSKRTGSIKWTLKEDPVLQVPPAFLPDPNDGSLYTLEGLTKLPFTIPELVQASPCRLYMGKKQDIWYVIDLLLYLGRTEYTITMYDTKTRELRWNATYFDYAASLPEDDVDYKMSHFVSNGDGLVVTVDSESGDVLWIQNYASPVVAFYVWQREGLRKVMHINVAVETLRYLTFMSGEVGRITKWKYPFPKETEAKSKLTPTLYVGKYSTSLYASPSMVHEGVAVVYWLLIGHHETP 2hzg-a1-m1-cB_2hzg-a1-m1-cA Crystal structure of predicted Mandelate racemase from Rhodobacter sphaeroides Q3HKK5 Q3HKK5 2.02 X-RAY DIFFRACTION 181 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 391 393 SLKIDAVDLFYLSMPEVTDAADGSQDALLVRVAAGGHIGWGECEAAPLPSIAAFVCPKSHGVCRPVSDSVLGQRLDGPDDIARIAALVGYNSMDLLQAPHMLSGIEMALWDLLGRRLSAPAWALLGYSASHGKRPYASLLFGDTPQETLERARAARRDGFAAVKFGWGPIGRGTVAADADQIMAAREGLGPDGDLMVDVGQIFGEDVEAAAARLPTLDAAGVLWLEEPFDAGALAAHAALAGRGARVRIAGGEAAHNFHMAQHLMDYGRIGFIQIDCGRIGGLGPAKRVADAAQARGITYVNHTFTSHLALSASLQPFAGLEADRICEYPAAPQQLALDITGDHIRPDAEGLIRAPEAPGLGLQVAASALRRYLVETEIRIGGQLIYRTPQ SLKIDAVDLFYLSMPEVTDAADGSQDALLVRVAAGGHIGWGECEAAPLPSIAAFVCPKSHGVCRPVSDSVLGQRLDGPDDIARIAALVGYNSMDLLQAPHMLSGIEMALWDLLGRRLSAPAWALLGYSASHGKRPYASLLFGDTPQETLERARAARRDGFAAVKFGWGPIGRGTVAADADQIMAAREGLGPDGDLMVDVGQIFGEDVEAAAARLPTLDAAGVLWLEEPFDAGALAAHAALAGRGARVRIAGGEAAHNFHMAQHLMDYGRIGFIQIDCGRIGGLGPAKRVADAAQARGITYVNHTFTSHLALSASLQPFAGLEADRICEYPAAPQQLALDITGDHIRPDAEGLIRAPEAPGLGLQVAASALRRYLVETEIRIGGQLIYRTPQLE 2hzk-a2-m1-cC_2hzk-a2-m1-cD Crystal structures of a sodium-alpha-keto acid binding subunit from a TRAP transporter in its open form Q3J1R2 Q3J1R2 1.7 X-RAY DIFFRACTION 218 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 325 328 2hzk-a1-m1-cA_2hzk-a1-m1-cB 2hzl-a1-m1-cA_2hzl-a1-m1-cB KVTWRLASSFPKSLDTIFGGAEVLSKLSEATDGNFQIQVFSAGELVPGLQAADAVTEGTVECCHTVGYYYWGKDPTFALAAAVPFSLSARGINAWHYHGGGIDLYNEFLSQHNIVAFPGGNTGVQGGWFRREINTVADQGLKRVGGFAGKVERLGVVPQQIAGGDIYPALEKGTIDATEWVGPYDDEKLGFFKVAPYYYYPGWWEGGPTVHFFNKSAYEGLTPTYQSLLRTACHAADANLQLYDWKNPTAIKSLVAQGTQLRPFSPEILQACFEAANEVYAEEASNPAFKKIWDSIKAFRSEHYTWAQIAEYNYDTFVQQNAGKL SAPKVTWRLASSFPKSLDTIFGGAEVLSKLSEATDGNFQIQVFSAGELVPGLQAADAVTEGTVECCHTVGYYYWGKDPTFALAAAVPFSLSARGINAWHYHGGGIDLYNEFLSQHNIVAFPGGNTGVQGGWFRREINTVADQGLKRVGGFAGKVERLGVVPQQIAGGDIYPALEKGTIDATEWVGPYDDEKLGFFKVAPYYYYPGWWEGGPTVHFFNKSAYEGLTPTYQSLLRTACHAADANLQLYDWKNPTAIKSLVAQGTQLRPFSPEILQACFEAANEVYAEEASNPAFKKIWDSIKAFRSEHYTWAQIAEYNYDTFVQQNAGKL 2hzs-a5-m1-cD_2hzs-a5-m2-cF Structure of the Mediator head submodule Med8C/18/20 P32585 P32585 2.7 X-RAY DIFFRACTION 30 0.995 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 214 235 VQQLSLFGSIGDDGYDLLISTLTTISGNPPLLYNSLCTVWKPNPSYDVENVNSRNQLVEPNRIKLSKEVPFSYLISCSPWSLQISDIPAAGNNRSVSMQTIAETIILSSAGKNSSVSSLMNGLGYVFEFQYLTIGVKFFMKHGLILELQKIWQIEEAGNSQITSGGFLLKAYINVSDIDRINYTETVLMNLKKELQGYIELSVPDRQSMDSRVA VQQLSLFGSIGDDGYDLLISTLTTISGNPPLLYNSLCTVWKPNPSYDVENVNSRNQLVEPNRIKLSKEVPFSYLIDEDDIIDVDMDASPAPSNESCSPWSLQISDIPAAGNNRSVSMQTIAETIILSSAGKNSSVSSLMNGLGYVFEFQYLTIGVKFFMKHGLILELQKIWQIEEAGNSQITSGGFLLKAYINVSRGTDIDRINYTETVLMNLKKELQGYIELSVPDRQSMDSRV 2hzs-a6-m1-cD_2hzs-a6-m1-cB Structure of the Mediator head submodule Med8C/18/20 P32585 P32585 2.7 X-RAY DIFFRACTION 27 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 214 235 2hzs-a5-m1-cD_2hzs-a5-m1-cB VQQLSLFGSIGDDGYDLLISTLTTISGNPPLLYNSLCTVWKPNPSYDVENVNSRNQLVEPNRIKLSKEVPFSYLISCSPWSLQISDIPAAGNNRSVSMQTIAETIILSSAGKNSSVSSLMNGLGYVFEFQYLTIGVKFFMKHGLILELQKIWQIEEAGNSQITSGGFLLKAYINVSDIDRINYTETVLMNLKKELQGYIELSVPDRQSMDSRVA VQQLSLFGSIGDDGYDLLISTLTTISGNPPLLYNSLCTVWKPNPSYDVENVNSRNQLVEPNRIKLSKEVPFSYLIDETMMDKPLNFRILESCSPWSLQISDIPAAGNNRSVSMQTIAETIILSSAGKNSSVSSLMNGLGYVFEFQYLTIGVKFFMKHGLILELQKIWQIEEAGNSQITSGGFLLKAYINVSDIDRINYTETVLMNLKKELQGYIELSVPDRQSMDSRVAHGNILI 2hzs-a6-m1-cE_2hzs-a6-m3-cG Structure of the Mediator head submodule Med8C/18/20 P34162 P34162 2.7 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 203 203 2hzs-a5-m1-cC_2hzs-a5-m1-cA 2hzs-a5-m1-cG_2hzs-a5-m2-cE 2hzs-a6-m1-cC_2hzs-a6-m1-cA GKSAVIFVERATPATLTELKDALSNSILSVRDPWSIDFRTYRCSIKNLPADVSKLMYSITFHHHGRQTVLIKDNSAMVTTAAAADIPPALVFNGSSTGVPESIDTILSSKLSNIWMQRQLIKGDAGETLILDGLTVRLVNLFSSTGFKGLLIELQADEAGEFETKIAGIEGHLAEIRAKEYKTSSDSLNEICDLAYQYVRALE GKSAVIFVERATPATLTELKDALSNSILSVRDPWSIDFRTYRCSIKNLPADVSKLMYSITFHHHGRQTVLIKDNSAMVTTAAAADIPPALVFNGSSTGVPESIDTILSSKLSNIWMQRQLIKGDAGETLILDGLTVRLVNLFSSTGFKGLLIELQADEAGEFETKIAGIEGHLAEIRAKEYKTSSDSLNEICDLAYQYVRALE 2hzs-a8-m1-cH_2hzs-a8-m1-cB Structure of the Mediator head submodule Med8C/18/20 P32585 P32585 2.7 X-RAY DIFFRACTION 80 0.987 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 230 235 2hzs-a5-m1-cH_2hzs-a5-m1-cB 2hzs-a7-m1-cH_2hzs-a7-m1-cB VQQLSLFGSIGDDGYDLLISTLTTISGNPPLLYNSLCTVWKPNPSYDVENVNSRNQLVEPNRIKLSKEVPFSYLIDETMMDKPLNFRISCSPWSLQISDIPAAGNNRSVSMQTIAETIILSSAGKNSSVSSLMNGLGYVFEFQYLTIGVKFFMKHGLILELQKIWQIEEAGNSQITSGGFLLKAYINVSRGTDIDRINYTETVLMNLKKELQGYIELSVPDRQSMDSRVA VQQLSLFGSIGDDGYDLLISTLTTISGNPPLLYNSLCTVWKPNPSYDVENVNSRNQLVEPNRIKLSKEVPFSYLIDETMMDKPLNFRILESCSPWSLQISDIPAAGNNRSVSMQTIAETIILSSAGKNSSVSSLMNGLGYVFEFQYLTIGVKFFMKHGLILELQKIWQIEEAGNSQITSGGFLLKAYINVSDIDRINYTETVLMNLKKELQGYIELSVPDRQSMDSRVAHGNILI 2hzt-a2-m1-cC_2hzt-a2-m1-cD Crystal Structure of a putative HTH-type transcriptional regulator ytcD O34533 O34533 2 X-RAY DIFFRACTION 66 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 88 88 2hzt-a1-m1-cA_2hzt-a1-m1-cB SLVEATLEVIGGKWKVILHLTHGKKRTSELKRLPNITQKLTQQLRELEADGVINRIVYNQKVEYELSEYGRSLEGILDLAWGANHINR SLVEATLEVIGGKWKVILHLTHGKKRTSELKRLPNITQKLTQQLRELEADGVINRIVYNQKVEYELSEYGRSLEGILDLAWGANHINR 2hzv-a1-m1-cA_2hzv-a1-m1-cB NikR-operator DNA complex P0A6Z6 P0A6Z6 3.1 X-RAY DIFFRACTION 145 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 129 2hzv-a1-m1-cC_2hzv-a1-m1-cD 2hzv-a2-m1-cE_2hzv-a2-m1-cF 2hzv-a2-m1-cG_2hzv-a2-m1-cH QRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDGDVQHFADDVIAQRGVRHGHLQCLPK QRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDGDVQHFADDVIAQRGVRHGHLQCLPK 2hzv-a2-m1-cF_2hzv-a2-m1-cH NikR-operator DNA complex P0A6Z6 P0A6Z6 3.1 X-RAY DIFFRACTION 66 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 129 2hzv-a1-m1-cB_2hzv-a1-m1-cD QRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDGDVQHFADDVIAQRGVRHGHLQCLPK QRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDGDVQHFADDVIAQRGVRHGHLQCLPK 2i00-a4-m1-cC_2i00-a4-m1-cF Crystal structure of acetyltransferase (GNAT family) from Enterococcus faecalis Q831Y9 Q831Y9 2.3 X-RAY DIFFRACTION 22 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 398 398 2i00-a4-m1-cA_2i00-a4-m1-cC 2i00-a4-m1-cA_2i00-a4-m1-cF 2i00-a4-m1-cB_2i00-a4-m1-cD 2i00-a4-m1-cB_2i00-a4-m1-cE 2i00-a4-m1-cD_2i00-a4-m1-cE QLTLKPVEEEHIDQFNELLSYVFQVTEADIEESGFENKRAFIKSKQPILELSKVFGWFHENQLISQIAIYPCEVNIHGALYKMGGVTGVGTYPEYANHGLMKDLIQTALEEMRQDKQWISYLFPYNIPYYRRKGWEIMSDKLSFKIRDTQLPKTVPVPGMIERLAVDHPDVFDVYARFARQNHGALIRSAFNWEEYWRFENEEERTAAVYYGANQEPLGVLFYWVADEVFHIKEMFYLNQEARNGLWNFITAHFSMVYWVKGDIYKNEPLAFLLEDSQIKESIEPYYMARIVDVKAFLENFPFESTAKPFHFVVKDPVAEWNNGIFGLIWDENDQVTITDEPLGTAVHLDIQTLTCLVMNYRRPSYLHRIERIDTDKETLNSLERIFPDQEAYFSDYF QLTLKPVEEEHIDQFNELLSYVFQVTEADIEESGFENKRAFIKSKQPILELSKVFGWFHENQLISQIAIYPCEVNIHGALYKMGGVTGVGTYPEYANHGLMKDLIQTALEEMRQDKQWISYLFPYNIPYYRRKGWEIMSDKLSFKIRDTQLPKTVPVPGMIERLAVDHPDVFDVYARFARQNHGALIRSAFNWEEYWRFENEEERTAAVYYGANQEPLGVLFYWVADEVFHIKEMFYLNQEARNGLWNFITAHFSMVYWVKGDIYKNEPLAFLLEDSQIKESIEPYYMARIVDVKAFLENFPFESTAKPFHFVVKDPVAEWNNGIFGLIWDENDQVTITDEPLGTAVHLDIQTLTCLVMNYRRPSYLHRIERIDTDKETLNSLERIFPDQEAYFSDYF 2i00-a4-m1-cE_2i00-a4-m1-cF Crystal structure of acetyltransferase (GNAT family) from Enterococcus faecalis Q831Y9 Q831Y9 2.3 X-RAY DIFFRACTION 81 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 396 398 2i00-a1-m1-cB_2i00-a1-m1-cA 2i00-a2-m1-cD_2i00-a2-m1-cC 2i00-a3-m1-cE_2i00-a3-m1-cF 2i00-a4-m1-cB_2i00-a4-m1-cA 2i00-a4-m1-cD_2i00-a4-m1-cC TLKPVEEEHIDQFNELLSYVFQVTEADIEESGFENKRAFIKSKQPILELSKVFGWFHENQLISQIAIYPCEVNIHGALYKMGGVTGVGTYPEYANHGLMKDLIQTALEEMRQDKQWISYLFPYNIPYYRRKGWEIMSDKLSFKIRDTQLPKTVPVPGMIERLAVDHPDVFDVYARFARQNHGALIRSAFNWEEYWRFENEEERTAAVYYGANQEPLGVLFYWVADEVFHIKEMFYLNQEARNGLWNFITAHFSMVYWVKGDIYKNEPLAFLLEDSQIKESIEPYYMARIVDVKAFLENFPFESTAKPFHFVVKDPVAEWNNGIFGLIWDENDQVTITDEPLGTAVHLDIQTLTCLVMNYRRPSYLHRIERIDTDKETLNSLERIFPDQEAYFSDYF QLTLKPVEEEHIDQFNELLSYVFQVTEADIEESGFENKRAFIKSKQPILELSKVFGWFHENQLISQIAIYPCEVNIHGALYKMGGVTGVGTYPEYANHGLMKDLIQTALEEMRQDKQWISYLFPYNIPYYRRKGWEIMSDKLSFKIRDTQLPKTVPVPGMIERLAVDHPDVFDVYARFARQNHGALIRSAFNWEEYWRFENEEERTAAVYYGANQEPLGVLFYWVADEVFHIKEMFYLNQEARNGLWNFITAHFSMVYWVKGDIYKNEPLAFLLEDSQIKESIEPYYMARIVDVKAFLENFPFESTAKPFHFVVKDPVAEWNNGIFGLIWDENDQVTITDEPLGTAVHLDIQTLTCLVMNYRRPSYLHRIERIDTDKETLNSLERIFPDQEAYFSDYF 2i04-a1-m1-cA_2i04-a1-m1-cB X-ray crystal structure of MAGI-1 PDZ1 bound to the C-terminal peptide of HPV18 E6 Q6RHR9 Q6RHR9 2.15 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 85 85 SIHTKLRKSSRGFGFTVVGGDEPDEFLQIKSLVLDGPAALDGKMETGDVIVSVNDTCVLGHTHAQVVKIFQSIPIGASVDLELCR SIHTKLRKSSRGFGFTVVGGDEPDEFLQIKSLVLDGPAALDGKMETGDVIVSVNDTCVLGHTHAQVVKIFQSIPIGASVDLELCR 2i0e-a3-m1-cA_2i0e-a3-m2-cA Structure of catalytic domain of human protein kinase C beta II complexed with a bisindolylmaleimide inhibitor P05771 P05771 2.6 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 LTDFNFLMVLGKGSFGKVMLSERKGTDELYAVKILKKDVVIQDDDVECTMVEKRVLALPGKPPFLTQLHSCFQTMDRLYFVMEYVNGGDLMYHIQQVGRFKEPHAVFYAAEIAIGLFFLQSKGIIYRDLKLDNVMLDSEGHIKIADFGMCKENIWDGVTTKFCGTPDYIAPEIIAYQPYGKSVDWWAFGVLLYEMLAGQAPFEGEDEDELFQSIMEHNVAYPKSMSKEAVAICKGLMTKHPGKRLGCGPEGERDIKEHAFFRYIDWEKLERKEIQPPYKPKACGRENFDRFFTRHPPVLPPDQEVIRNIDQSEFEGFFVNSEFLKP LTDFNFLMVLGKGSFGKVMLSERKGTDELYAVKILKKDVVIQDDDVECTMVEKRVLALPGKPPFLTQLHSCFQTMDRLYFVMEYVNGGDLMYHIQQVGRFKEPHAVFYAAEIAIGLFFLQSKGIIYRDLKLDNVMLDSEGHIKIADFGMCKENIWDGVTTKFCGTPDYIAPEIIAYQPYGKSVDWWAFGVLLYEMLAGQAPFEGEDEDELFQSIMEHNVAYPKSMSKEAVAICKGLMTKHPGKRLGCGPEGERDIKEHAFFRYIDWEKLERKEIQPPYKPKACGRENFDRFFTRHPPVLPPDQEVIRNIDQSEFEGFFVNSEFLKP 2i0m-a1-m1-cA_2i0m-a1-m2-cA Crystal structure of the phosphate transport system regulatory protein PhoU from Streptococcus pneumoniae P0A3Y7 P0A3Y7 2.4 X-RAY DIFFRACTION 71 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 207 207 QFDLELHELEQSFLGLGQLVLETASKALLALASKDKEMAELIINKDHAINQGQSAIELTCARLLALPQVSDLRFVISIMSSCSDLERMGDHMAGIAKAVLQLKENQLAEEQLHQMGKLSLSMLADLLVAFPLHQASKAISIAQKDEQIDQYYYALSKEIIGLMKDQESIPNGTQYLYIIGHLERFADYIANICERLVYLETGELVDL QFDLELHELEQSFLGLGQLVLETASKALLALASKDKEMAELIINKDHAINQGQSAIELTCARLLALPQVSDLRFVISIMSSCSDLERMGDHMAGIAKAVLQLKENQLAEEQLHQMGKLSLSMLADLLVAFPLHQASKAISIAQKDEQIDQYYYALSKEIIGLMKDQESIPNGTQYLYIIGHLERFADYIANICERLVYLETGELVDL 2i0o-a2-m1-cA_2i0o-a2-m2-cA Crystal structure of Anopheles gambiae Ser/Thr phosphatase complexed with Zn2+ Q7PP01 Q7PP01 1.7 X-RAY DIFFRACTION 34 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 287 287 SLGAYLSEPLTTKDSSDESNEFLASGSSSMQGWRISQEDAHNCILNFDDQCSFFAVYDGHGGAEVAQYCSLHLPTFLKTVEAYGRKEFEKALKEAFLGFDATLLQEKVIEELKVLSGDAEPGKDSGCTAVVALLHGKDLYVANAGDSRCVVCRNGKALEMSFDHKPEDTVEYQRIEKAGGRVTLDGRVNGGLNLSRAIGDHGYKMNKSLPAEEQMISALPDIEKITVGPEDEFMVLACDGIWNFMTSEQVVQFVQERINKPGMKLSKICEELFDHCLNMTAIIVQFK SLGAYLSEPLTTKDSSDESNEFLASGSSSMQGWRISQEDAHNCILNFDDQCSFFAVYDGHGGAEVAQYCSLHLPTFLKTVEAYGRKEFEKALKEAFLGFDATLLQEKVIEELKVLSGDAEPGKDSGCTAVVALLHGKDLYVANAGDSRCVVCRNGKALEMSFDHKPEDTVEYQRIEKAGGRVTLDGRVNGGLNLSRAIGDHGYKMNKSLPAEEQMISALPDIEKITVGPEDEFMVLACDGIWNFMTSEQVVQFVQERINKPGMKLSKICEELFDHCLNMTAIIVQFK 2i0u-a1-m2-cE_2i0u-a1-m3-cE Crystal structures of phospholipases A2 from Vipera nikolskii venom revealing Triton X-100 bound in hydrophobic channel Q1RP79 Q1RP79 2.2 X-RAY DIFFRACTION 30 1.0 122 122 2i0u-a1-m1-cA_2i0u-a1-m2-cA 2i0u-a1-m1-cA_2i0u-a1-m3-cA 2i0u-a1-m1-cE_2i0u-a1-m2-cE 2i0u-a1-m1-cE_2i0u-a1-m3-cE 2i0u-a1-m2-cA_2i0u-a1-m3-cA NLFQFAKMINGKLGAFSVWNYISYGCYCGWGGQGTPKDATDRCCFVHDCCYGRVRGCNPKLAIYAYSFKKGNIVCGKNNGCLRDICECDRVAANCFHQNQNTYNKNYKFLSSSRCRQTSEQC NLFQFAKMINGKLGAFSVWNYISYGCYCGWGGQGTPKDATDRCCFVHDCCYGRVRGCNPKLAIYAYSFKKGNIVCGKNNGCLRDICECDRVAANCFHQNQNTYNKNYKFLSSSRCRQTSEQC 2i0u-a1-m3-cA_2i0u-a1-m3-cE Crystal structures of phospholipases A2 from Vipera nikolskii venom revealing Triton X-100 bound in hydrophobic channel Q1RP79 Q1RP79 2.2 X-RAY DIFFRACTION 23 1.0 122 122 2i0u-a1-m1-cA_2i0u-a1-m1-cE 2i0u-a1-m2-cA_2i0u-a1-m2-cE NLFQFAKMINGKLGAFSVWNYISYGCYCGWGGQGTPKDATDRCCFVHDCCYGRVRGCNPKLAIYAYSFKKGNIVCGKNNGCLRDICECDRVAANCFHQNQNTYNKNYKFLSSSRCRQTSEQC NLFQFAKMINGKLGAFSVWNYISYGCYCGWGGQGTPKDATDRCCFVHDCCYGRVRGCNPKLAIYAYSFKKGNIVCGKNNGCLRDICECDRVAANCFHQNQNTYNKNYKFLSSSRCRQTSEQC 2i10-a1-m1-cA_2i10-a1-m1-cB Putative TetR transcriptional regulator from Rhodococcus sp. RHA1 Q0RX74 Q0RX74 2.05 X-RAY DIFFRACTION 133 0.983 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 173 176 DDQVALQTAELFWRQGYEGTSITDLTKALGINPPSLYAAFGSKRDLFEKTLDRYCERTLQLEEAVRPTAHEAVLDFLTGRVEVFTGCTVQAGLASGEPHHEIVDLLTAAREQRQTVLDRFEKALADGDLPAGTDCTALARYVAAVYGLSVEAASGAPREELTAAAILAAQVVP DQVALQTAELFWRQGYEGTSITDLTKALGINPPSLYAAFGSKRDLFEKTLDRYCERTLQLEEAVRPTAHEAVLDFLTGRVEVFTGQPFGCTVQAGLASPHHEIVDLLTAAREQRQTVLDRFEKALADGDLPAGTDCTALARYVAAVYGLSVEAASGAPREELTAAAILAAQVVPRA 2i14-a1-m1-cC_2i14-a1-m1-cF Crystal structure of nicotinate-nucleotide pyrophosphorylase from Pyrococcus furiosus Q8TZS9 Q8TZS9 2.9 X-RAY DIFFRACTION 19 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 389 389 2i14-a1-m1-cA_2i14-a1-m1-cD 2i14-a1-m1-cA_2i14-a1-m1-cE 2i14-a1-m1-cB_2i14-a1-m1-cC 2i14-a1-m1-cB_2i14-a1-m1-cF 2i14-a1-m1-cD_2i14-a1-m1-cE MKRFYIANEDEIKAGKTTDVYFLRTKKILEVKNIRKKVLADVTTTSLPNNWRWGVLVGVEEVAKLLEGIPVNVYAMPEGTIFHPYEPVLQIEGDYADFGIYETALLGMLSQASGIATAALRIKIAAKFKPVYSFGIRHMHPAIAPMIDRAAFIGGCDGVSGVLGAEMMGEKAVGTMPHALIITVGDQVKAWKYFDEVIEEEVPRIALVDTFYDEKVEAVMAAEALGKKLFAVRLDTPSSRRGNFRKIIEEVRWELKVRGYDWVKIFVSGGLDEEKIKEIVDVVDAFGVGGAIASAKPVDFALDIVEVEGKPIAKRGKLSGRKQVYRCENGHYHVVPANKKLERCPVCNAKVEPLLKPIIENGEIVVEFPKAREIREYVLEQAKKFNLEI MKRFYIANEDEIKAGKTTDVYFLRTKKILEVKNIRKKVLADVTTTSLPNNWRWGVLVGVEEVAKLLEGIPVNVYAMPEGTIFHPYEPVLQIEGDYADFGIYETALLGMLSQASGIATAALRIKIAAKFKPVYSFGIRHMHPAIAPMIDRAAFIGGCDGVSGVLGAEMMGEKAVGTMPHALIITVGDQVKAWKYFDEVIEEEVPRIALVDTFYDEKVEAVMAAEALGKKLFAVRLDTPSSRRGNFRKIIEEVRWELKVRGYDWVKIFVSGGLDEEKIKEIVDVVDAFGVGGAIASAKPVDFALDIVEVEGKPIAKRGKLSGRKQVYRCENGHYHVVPANKKLERCPVCNAKVEPLLKPIIENGEIVVEFPKAREIREYVLEQAKKFNLEI 2i14-a1-m1-cD_2i14-a1-m1-cF Crystal structure of nicotinate-nucleotide pyrophosphorylase from Pyrococcus furiosus Q8TZS9 Q8TZS9 2.9 X-RAY DIFFRACTION 36 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 389 389 2i14-a1-m1-cA_2i14-a1-m1-cC 2i14-a1-m1-cB_2i14-a1-m1-cE MKRFYIANEDEIKAGKTTDVYFLRTKKILEVKNIRKKVLADVTTTSLPNNWRWGVLVGVEEVAKLLEGIPVNVYAMPEGTIFHPYEPVLQIEGDYADFGIYETALLGMLSQASGIATAALRIKIAAKFKPVYSFGIRHMHPAIAPMIDRAAFIGGCDGVSGVLGAEMMGEKAVGTMPHALIITVGDQVKAWKYFDEVIEEEVPRIALVDTFYDEKVEAVMAAEALGKKLFAVRLDTPSSRRGNFRKIIEEVRWELKVRGYDWVKIFVSGGLDEEKIKEIVDVVDAFGVGGAIASAKPVDFALDIVEVEGKPIAKRGKLSGRKQVYRCENGHYHVVPANKKLERCPVCNAKVEPLLKPIIENGEIVVEFPKAREIREYVLEQAKKFNLEI MKRFYIANEDEIKAGKTTDVYFLRTKKILEVKNIRKKVLADVTTTSLPNNWRWGVLVGVEEVAKLLEGIPVNVYAMPEGTIFHPYEPVLQIEGDYADFGIYETALLGMLSQASGIATAALRIKIAAKFKPVYSFGIRHMHPAIAPMIDRAAFIGGCDGVSGVLGAEMMGEKAVGTMPHALIITVGDQVKAWKYFDEVIEEEVPRIALVDTFYDEKVEAVMAAEALGKKLFAVRLDTPSSRRGNFRKIIEEVRWELKVRGYDWVKIFVSGGLDEEKIKEIVDVVDAFGVGGAIASAKPVDFALDIVEVEGKPIAKRGKLSGRKQVYRCENGHYHVVPANKKLERCPVCNAKVEPLLKPIIENGEIVVEFPKAREIREYVLEQAKKFNLEI 2i14-a1-m1-cE_2i14-a1-m1-cF Crystal structure of nicotinate-nucleotide pyrophosphorylase from Pyrococcus furiosus Q8TZS9 Q8TZS9 2.9 X-RAY DIFFRACTION 340 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 389 389 2i14-a1-m1-cA_2i14-a1-m1-cB 2i14-a1-m1-cC_2i14-a1-m1-cD MKRFYIANEDEIKAGKTTDVYFLRTKKILEVKNIRKKVLADVTTTSLPNNWRWGVLVGVEEVAKLLEGIPVNVYAMPEGTIFHPYEPVLQIEGDYADFGIYETALLGMLSQASGIATAALRIKIAAKFKPVYSFGIRHMHPAIAPMIDRAAFIGGCDGVSGVLGAEMMGEKAVGTMPHALIITVGDQVKAWKYFDEVIEEEVPRIALVDTFYDEKVEAVMAAEALGKKLFAVRLDTPSSRRGNFRKIIEEVRWELKVRGYDWVKIFVSGGLDEEKIKEIVDVVDAFGVGGAIASAKPVDFALDIVEVEGKPIAKRGKLSGRKQVYRCENGHYHVVPANKKLERCPVCNAKVEPLLKPIIENGEIVVEFPKAREIREYVLEQAKKFNLEI MKRFYIANEDEIKAGKTTDVYFLRTKKILEVKNIRKKVLADVTTTSLPNNWRWGVLVGVEEVAKLLEGIPVNVYAMPEGTIFHPYEPVLQIEGDYADFGIYETALLGMLSQASGIATAALRIKIAAKFKPVYSFGIRHMHPAIAPMIDRAAFIGGCDGVSGVLGAEMMGEKAVGTMPHALIITVGDQVKAWKYFDEVIEEEVPRIALVDTFYDEKVEAVMAAEALGKKLFAVRLDTPSSRRGNFRKIIEEVRWELKVRGYDWVKIFVSGGLDEEKIKEIVDVVDAFGVGGAIASAKPVDFALDIVEVEGKPIAKRGKLSGRKQVYRCENGHYHVVPANKKLERCPVCNAKVEPLLKPIIENGEIVVEFPKAREIREYVLEQAKKFNLEI 2i15-a1-m1-cA_2i15-a1-m1-cB Crystal structure of MPN423 from Mycoplasma pneumoniae P75364 P75364 2.4 X-RAY DIFFRACTION 19 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 122 122 MKPQLLALKQFVQTEFEKVDFETFRQNFNRCLEREQSTLLIYEDDDYDDQSFFLKPMLSDAFFISSEVVKQLDLPKGDVKSCCQSFYEALTLFISALAITKGVDVGRYHQQLGKRFGVLTVY MKPQLLALKQFVQTEFEKVDFETFRQNFNRCLEREQSTLLIYEDDDYDDQSFFLKPMLSDAFFISSEVVKQLDLPKGDVKSCCQSFYEALTLFISALAITKGVDVGRYHQQLGKRFGVLTVY 2i15-a1-m1-cC_2i15-a1-m1-cA Crystal structure of MPN423 from Mycoplasma pneumoniae P75364 P75364 2.4 X-RAY DIFFRACTION 96 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 115 122 MKPQLLALKQFVQTEFEKVDFETFRQNFNRCLEREQSTLLIYEDDDYDDQSFFLKPMLSDAFFISSEVVKQVKSCCQSFYEALTLFISALAITKGVDVGRYHQQLGKRFGVLTVY MKPQLLALKQFVQTEFEKVDFETFRQNFNRCLEREQSTLLIYEDDDYDDQSFFLKPMLSDAFFISSEVVKQLDLPKGDVKSCCQSFYEALTLFISALAITKGVDVGRYHQQLGKRFGVLTVY 2i1j-a2-m1-cA_2i1j-a2-m2-cA Moesin from Spodoptera frugiperda at 2.1 angstroms resolution A0T1L9 A0T1L9 2.1 X-RAY DIFFRACTION 51 1.0 7108 (Spodoptera frugiperda) 7108 (Spodoptera frugiperda) 481 481 KSMNVRVTTMDAELEFAIQQTTTGKQLFDQVVKTIGLREVWFFGLQYTDSKGDLTWIKLYKKVMQQDVKKENPLQFKFRAKFYPEDVADELIQEITLKLFYLQVKNAILSDEIYCPPETSVLLASYAVQARHGDHNPAVHGPGFLANDRLLPQRVTDQHKMSREEWEQSITNWWQEHRGMLREDAMMEYLKIAQDLEMYGVNYFEIRNKKNTELWLGVDALGLNIYEKDDKLTPKIGFPWSEIRNISFNDRKFIIKPIDKKAPDFVFFAPRVRVNKRILALCMGNHELYMRRRKPDTIDVQQMKAQAREEKLAKQAQREKLQLEIAARERAEKKQQEYQDRLRQMQEEMERSQANLLEAQDMVEDARRKQDEAAAALLAATTPQHHHVAERESGGGDLARGPDDLVDPVADRRTLAERNERLHNQLKALKQDLARSCDETKETAMDKIHRENVRQGRDKYKTLREIRKGNTKRRVDQFENM KSMNVRVTTMDAELEFAIQQTTTGKQLFDQVVKTIGLREVWFFGLQYTDSKGDLTWIKLYKKVMQQDVKKENPLQFKFRAKFYPEDVADELIQEITLKLFYLQVKNAILSDEIYCPPETSVLLASYAVQARHGDHNPAVHGPGFLANDRLLPQRVTDQHKMSREEWEQSITNWWQEHRGMLREDAMMEYLKIAQDLEMYGVNYFEIRNKKNTELWLGVDALGLNIYEKDDKLTPKIGFPWSEIRNISFNDRKFIIKPIDKKAPDFVFFAPRVRVNKRILALCMGNHELYMRRRKPDTIDVQQMKAQAREEKLAKQAQREKLQLEIAARERAEKKQQEYQDRLRQMQEEMERSQANLLEAQDMVEDARRKQDEAAAALLAATTPQHHHVAERESGGGDLARGPDDLVDPVADRRTLAERNERLHNQLKALKQDLARSCDETKETAMDKIHRENVRQGRDKYKTLREIRKGNTKRRVDQFENM 2i1j-a3-m3-cA_2i1j-a3-m4-cA Moesin from Spodoptera frugiperda at 2.1 angstroms resolution A0T1L9 A0T1L9 2.1 X-RAY DIFFRACTION 48 1.0 7108 (Spodoptera frugiperda) 7108 (Spodoptera frugiperda) 481 481 2i1j-a3-m1-cA_2i1j-a3-m3-cA 2i1j-a3-m1-cA_2i1j-a3-m4-cA KSMNVRVTTMDAELEFAIQQTTTGKQLFDQVVKTIGLREVWFFGLQYTDSKGDLTWIKLYKKVMQQDVKKENPLQFKFRAKFYPEDVADELIQEITLKLFYLQVKNAILSDEIYCPPETSVLLASYAVQARHGDHNPAVHGPGFLANDRLLPQRVTDQHKMSREEWEQSITNWWQEHRGMLREDAMMEYLKIAQDLEMYGVNYFEIRNKKNTELWLGVDALGLNIYEKDDKLTPKIGFPWSEIRNISFNDRKFIIKPIDKKAPDFVFFAPRVRVNKRILALCMGNHELYMRRRKPDTIDVQQMKAQAREEKLAKQAQREKLQLEIAARERAEKKQQEYQDRLRQMQEEMERSQANLLEAQDMVEDARRKQDEAAAALLAATTPQHHHVAERESGGGDLARGPDDLVDPVADRRTLAERNERLHNQLKALKQDLARSCDETKETAMDKIHRENVRQGRDKYKTLREIRKGNTKRRVDQFENM KSMNVRVTTMDAELEFAIQQTTTGKQLFDQVVKTIGLREVWFFGLQYTDSKGDLTWIKLYKKVMQQDVKKENPLQFKFRAKFYPEDVADELIQEITLKLFYLQVKNAILSDEIYCPPETSVLLASYAVQARHGDHNPAVHGPGFLANDRLLPQRVTDQHKMSREEWEQSITNWWQEHRGMLREDAMMEYLKIAQDLEMYGVNYFEIRNKKNTELWLGVDALGLNIYEKDDKLTPKIGFPWSEIRNISFNDRKFIIKPIDKKAPDFVFFAPRVRVNKRILALCMGNHELYMRRRKPDTIDVQQMKAQAREEKLAKQAQREKLQLEIAARERAEKKQQEYQDRLRQMQEEMERSQANLLEAQDMVEDARRKQDEAAAALLAATTPQHHHVAERESGGGDLARGPDDLVDPVADRRTLAERNERLHNQLKALKQDLARSCDETKETAMDKIHRENVRQGRDKYKTLREIRKGNTKRRVDQFENM 2i1n-a3-m1-cA_2i1n-a3-m2-cB Crystal structure of the 1st PDZ domain of Human DLG3 Q92796 Q92796 1.85 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 102 2i1n-a3-m2-cA_2i1n-a3-m1-cB MFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV SMFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV 2i1n-a4-m1-cA_2i1n-a4-m3-cB Crystal structure of the 1st PDZ domain of Human DLG3 Q92796 Q92796 1.85 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 102 2i1n-a4-m3-cA_2i1n-a4-m1-cB MFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV SMFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV 2i1n-a4-m1-cB_2i1n-a4-m3-cB Crystal structure of the 1st PDZ domain of Human DLG3 Q92796 Q92796 1.85 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 SMFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV SMFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV 2i1n-a4-m3-cA_2i1n-a4-m3-cB Crystal structure of the 1st PDZ domain of Human DLG3 Q92796 Q92796 1.85 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 102 2i1n-a3-m1-cA_2i1n-a3-m1-cB 2i1n-a3-m2-cA_2i1n-a3-m2-cB 2i1n-a4-m1-cA_2i1n-a4-m1-cB MFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV SMFKYEEIVLERGNSGLGFSIAGGIDNPHVPDDPGIFITKIIPGGAAAMDGRLGVNDCVLRVNEVDVSEVVHSRAVEALKEAGPVVRLVVRRRQPPPEETSV 2i1o-a1-m1-cA_2i1o-a1-m6-cA Crystal Structure of a Nicotinate Phosphoribosyltransferase from Thermoplasma acidophilum Q9HJ28 Q9HJ28 2.4 X-RAY DIFFRACTION 322 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 389 389 1ytd-a1-m1-cA_1ytd-a1-m6-cA 1ytd-a1-m2-cA_1ytd-a1-m5-cA 1ytd-a1-m3-cA_1ytd-a1-m4-cA 1yte-a1-m1-cA_1yte-a1-m6-cA 1yte-a1-m2-cA_1yte-a1-m5-cA 1yte-a1-m3-cA_1yte-a1-m4-cA 1ytk-a1-m1-cA_1ytk-a1-m6-cA 1ytk-a1-m2-cA_1ytk-a1-m5-cA 1ytk-a1-m3-cA_1ytk-a1-m4-cA 2i1o-a1-m2-cA_2i1o-a1-m5-cA 2i1o-a1-m3-cA_2i1o-a1-m4-cA MNVFNTASDEDIKKGLASDVYFERTISAIGDKCNDLRVAMEATVSGPLDTWINFTGLDEVLKLLEGLDVDLYAIPEGTILFPRDANGLPVPFIRVEGRYCDFGMYETAILGFICQASGISTKASKVRLAAGDSPFFSFGIRRMHPAISPMIDRSAYIGGADGVSGILGAKLIDQDPVGTMPHALSIMLGDEEAWKLTLENTKNGQKSVLLIDTYMDEKFAAIKIAEMFDKVDYIRLDTPSSRRGNFEALIREVRWELALRGRSDIKIMVSGGLDENTVKKLREAGAEAFGVGTSISSAKPFDFAMDIVEVNGKPETKRGKMSGRKNVLRCTSCHRIEVVPANVQEKTCICGGSMQNLLVKYLSHGKRTSEYPRPKEIRSRSMKELEYFK MNVFNTASDEDIKKGLASDVYFERTISAIGDKCNDLRVAMEATVSGPLDTWINFTGLDEVLKLLEGLDVDLYAIPEGTILFPRDANGLPVPFIRVEGRYCDFGMYETAILGFICQASGISTKASKVRLAAGDSPFFSFGIRRMHPAISPMIDRSAYIGGADGVSGILGAKLIDQDPVGTMPHALSIMLGDEEAWKLTLENTKNGQKSVLLIDTYMDEKFAAIKIAEMFDKVDYIRLDTPSSRRGNFEALIREVRWELALRGRSDIKIMVSGGLDENTVKKLREAGAEAFGVGTSISSAKPFDFAMDIVEVNGKPETKRGKMSGRKNVLRCTSCHRIEVVPANVQEKTCICGGSMQNLLVKYLSHGKRTSEYPRPKEIRSRSMKELEYFK 2i1o-a1-m3-cA_2i1o-a1-m6-cA Crystal Structure of a Nicotinate Phosphoribosyltransferase from Thermoplasma acidophilum Q9HJ28 Q9HJ28 2.4 X-RAY DIFFRACTION 34 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 389 389 1ytd-a1-m1-cA_1ytd-a1-m5-cA 1ytd-a1-m2-cA_1ytd-a1-m4-cA 1ytd-a1-m3-cA_1ytd-a1-m6-cA 1yte-a1-m1-cA_1yte-a1-m5-cA 1yte-a1-m2-cA_1yte-a1-m4-cA 1yte-a1-m3-cA_1yte-a1-m6-cA 1ytk-a1-m1-cA_1ytk-a1-m5-cA 1ytk-a1-m2-cA_1ytk-a1-m4-cA 1ytk-a1-m3-cA_1ytk-a1-m6-cA 2i1o-a1-m1-cA_2i1o-a1-m5-cA 2i1o-a1-m2-cA_2i1o-a1-m4-cA MNVFNTASDEDIKKGLASDVYFERTISAIGDKCNDLRVAMEATVSGPLDTWINFTGLDEVLKLLEGLDVDLYAIPEGTILFPRDANGLPVPFIRVEGRYCDFGMYETAILGFICQASGISTKASKVRLAAGDSPFFSFGIRRMHPAISPMIDRSAYIGGADGVSGILGAKLIDQDPVGTMPHALSIMLGDEEAWKLTLENTKNGQKSVLLIDTYMDEKFAAIKIAEMFDKVDYIRLDTPSSRRGNFEALIREVRWELALRGRSDIKIMVSGGLDENTVKKLREAGAEAFGVGTSISSAKPFDFAMDIVEVNGKPETKRGKMSGRKNVLRCTSCHRIEVVPANVQEKTCICGGSMQNLLVKYLSHGKRTSEYPRPKEIRSRSMKELEYFK MNVFNTASDEDIKKGLASDVYFERTISAIGDKCNDLRVAMEATVSGPLDTWINFTGLDEVLKLLEGLDVDLYAIPEGTILFPRDANGLPVPFIRVEGRYCDFGMYETAILGFICQASGISTKASKVRLAAGDSPFFSFGIRRMHPAISPMIDRSAYIGGADGVSGILGAKLIDQDPVGTMPHALSIMLGDEEAWKLTLENTKNGQKSVLLIDTYMDEKFAAIKIAEMFDKVDYIRLDTPSSRRGNFEALIREVRWELALRGRSDIKIMVSGGLDENTVKKLREAGAEAFGVGTSISSAKPFDFAMDIVEVNGKPETKRGKMSGRKNVLRCTSCHRIEVVPANVQEKTCICGGSMQNLLVKYLSHGKRTSEYPRPKEIRSRSMKELEYFK 2i1o-a1-m5-cA_2i1o-a1-m6-cA Crystal Structure of a Nicotinate Phosphoribosyltransferase from Thermoplasma acidophilum Q9HJ28 Q9HJ28 2.4 X-RAY DIFFRACTION 21 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 389 389 1ytd-a1-m1-cA_1ytd-a1-m2-cA 1ytd-a1-m1-cA_1ytd-a1-m3-cA 1ytd-a1-m2-cA_1ytd-a1-m3-cA 1ytd-a1-m4-cA_1ytd-a1-m5-cA 1ytd-a1-m4-cA_1ytd-a1-m6-cA 1ytd-a1-m5-cA_1ytd-a1-m6-cA 1yte-a1-m1-cA_1yte-a1-m2-cA 1yte-a1-m1-cA_1yte-a1-m3-cA 1yte-a1-m2-cA_1yte-a1-m3-cA 1yte-a1-m4-cA_1yte-a1-m5-cA 1yte-a1-m4-cA_1yte-a1-m6-cA 1yte-a1-m5-cA_1yte-a1-m6-cA 1ytk-a1-m1-cA_1ytk-a1-m2-cA 1ytk-a1-m1-cA_1ytk-a1-m3-cA 1ytk-a1-m2-cA_1ytk-a1-m3-cA 1ytk-a1-m4-cA_1ytk-a1-m5-cA 1ytk-a1-m4-cA_1ytk-a1-m6-cA 1ytk-a1-m5-cA_1ytk-a1-m6-cA 2i1o-a1-m1-cA_2i1o-a1-m2-cA 2i1o-a1-m1-cA_2i1o-a1-m3-cA 2i1o-a1-m2-cA_2i1o-a1-m3-cA 2i1o-a1-m4-cA_2i1o-a1-m5-cA 2i1o-a1-m4-cA_2i1o-a1-m6-cA MNVFNTASDEDIKKGLASDVYFERTISAIGDKCNDLRVAMEATVSGPLDTWINFTGLDEVLKLLEGLDVDLYAIPEGTILFPRDANGLPVPFIRVEGRYCDFGMYETAILGFICQASGISTKASKVRLAAGDSPFFSFGIRRMHPAISPMIDRSAYIGGADGVSGILGAKLIDQDPVGTMPHALSIMLGDEEAWKLTLENTKNGQKSVLLIDTYMDEKFAAIKIAEMFDKVDYIRLDTPSSRRGNFEALIREVRWELALRGRSDIKIMVSGGLDENTVKKLREAGAEAFGVGTSISSAKPFDFAMDIVEVNGKPETKRGKMSGRKNVLRCTSCHRIEVVPANVQEKTCICGGSMQNLLVKYLSHGKRTSEYPRPKEIRSRSMKELEYFK MNVFNTASDEDIKKGLASDVYFERTISAIGDKCNDLRVAMEATVSGPLDTWINFTGLDEVLKLLEGLDVDLYAIPEGTILFPRDANGLPVPFIRVEGRYCDFGMYETAILGFICQASGISTKASKVRLAAGDSPFFSFGIRRMHPAISPMIDRSAYIGGADGVSGILGAKLIDQDPVGTMPHALSIMLGDEEAWKLTLENTKNGQKSVLLIDTYMDEKFAAIKIAEMFDKVDYIRLDTPSSRRGNFEALIREVRWELALRGRSDIKIMVSGGLDENTVKKLREAGAEAFGVGTSISSAKPFDFAMDIVEVNGKPETKRGKMSGRKNVLRCTSCHRIEVVPANVQEKTCICGGSMQNLLVKYLSHGKRTSEYPRPKEIRSRSMKELEYFK 2i22-a2-m1-cB_2i22-a2-m1-cC Crystal structure of Escherichia coli phosphoheptose isomerase in complex with reaction substrate sedoheptulose 7-phosphate P63224 P63224 2.8 X-RAY DIFFRACTION 100 1.0 562 (Escherichia coli) 562 (Escherichia coli) 178 178 2i22-a1-m1-cD_2i22-a1-m1-cA 2i2w-a1-m1-cD_2i2w-a1-m1-cA 2i2w-a2-m1-cB_2i2w-a2-m1-cC 2i2w-a3-m1-cB_2i2w-a3-m1-cC 2i2w-a3-m1-cD_2i2w-a3-m1-cA MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK 2i2l-a2-m1-cC_2i2l-a2-m2-cC X-ray Crystal Structure of Protein yopX from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR411. O34401 O34401 2.8 X-RAY DIFFRACTION 98 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 125 125 2i2l-a1-m1-cA_2i2l-a1-m1-cB NTAYRVWDGEQHYWDDEGLSLIIKSNGDWTLKRLYTDVLVPVVDSTNRNAALWGAKVRGKFIYDRSIVKITSDDKESSDVCEVKFSDGVFQVDVSKDYDVTAVGWVEYATIEVIGDVYQNPELLE NTAYRVWDGEQHYWDDEGLSLIIKSNGDWTLKRLYTDVLVPVVDSTNRNAALWGAKVRGKFIYDRSIVKITSDDKESSDVCEVKFSDGVFQVDVSKDYDVTAVGWVEYATIEVIGDVYQNPELLE 2i2o-a1-m1-cB_2i2o-a1-m1-cA Crystal Structure of an eIF4G-like Protein from Danio rerio Q5EAQ1 Q5EAQ1 1.92 X-RAY DIFFRACTION 43 1.0 7955 (Danio rerio) 7955 (Danio rerio) 205 206 4jhj-a1-m2-cB_4jhj-a1-m1-cA 4jhk-a1-m1-cA_4jhk-a1-m2-cA DYKIQSFDLETQKLLKTALKDPGSVDLEKVSSVIVDQSLKDQVFSREAGRICYTIVQAEAKQTNGSVFRRNLLNRLQQEFKAREETRKRSTQEWVCLVSFICNIFDYLKVNNPVALVHPVYDCLFRLAQSDALKNEEEVDCLVLQLHRIGDQLEKNVQLDELFNLLRDGFLLQEDLSSGRLLLLEILEFRAGGWKLSDTAQKYYY EDYKIQSFDLETQKLLKTALKDPGSVDLEKVSSVIVDQSLKDQVFSREAGRICYTIVQAEAKQTNGSVFRRNLLNRLQQEFKAREETRKRSTQEWVCLVSFICNIFDYLKVNNPVALVHPVYDCLFRLAQSDALKNEEEVDCLVLQLHRIGDQLEKNVQLDELFNLLRDGFLLQEDLSSGRLLLLEILEFRAGGWKLSDTAQKYYY 2i2r-a3-m1-cB_2i2r-a3-m1-cC Crystal structure of the KChIP1/Kv4.3 T1 complex Q62897 Q62897 3.35 X-RAY DIFFRACTION 46 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 124 126 2i2r-a1-m1-cB_2i2r-a1-m1-cC AGVAAWLPFARAAAIGWMNKRQDELIVLNVSGRRFQTWRTTLERYPDTLLGSTEKEFFFNEDTKEYFFDRDPEVFRCVLNFYRTGKLHYPRYECISAYDDELAFYGILPEIIGDCCYEEYKDRK AGVAAWLPFARAAAIGWMDKNKRQDELIVLNVSGRRFQTWRTTLERYPDTLLGSTEKEFFFNEDTKEYFFDRDPEVFRCVLNFYRTGKLHYPRYECISAYDDELAFYGILPEIIGDCCYEEYKDRK 2i2w-a3-m1-cA_2i2w-a3-m1-cC Crystal Structure of Escherichia Coli Phosphoheptose Isomerase P63224 P63224 1.95 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 192 192 MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISDVSHISCVGNDFGFNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISDVSHISCVGNDFGFNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK 2i2w-a3-m1-cD_2i2w-a3-m1-cC Crystal Structure of Escherichia Coli Phosphoheptose Isomerase P63224 P63224 1.95 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 178 192 2i2w-a3-m1-cB_2i2w-a3-m1-cA MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK MYQDLIRNELNEAAETLANFLKDDANIHAIQRAAVLLADSFKAGGKVLSCGNGGSHCDAMHFAEELTGRYRENRPGYPAIAISDVSHISCVGNDFGFNDIFSRYVEAVGREGDVLLGISTSGNSANVIKAIAAAREKGMKVITLTGKDGGKMAGTADIEIRVPHFGYADRIQEIHIKVIHILIQLIEKEMVK 2i2x-a4-m1-cM_2i2x-a4-m1-cO Crystal structure of methanol:cobalamin methyltransferase complex MtaBC from Methanosarcina barkeri Q46EH3 Q46EH3 2.5 X-RAY DIFFRACTION 137 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 459 459 2i2x-a1-m1-cA_2i2x-a1-m1-cC 2i2x-a2-m1-cE_2i2x-a2-m1-cG 2i2x-a3-m1-cI_2i2x-a3-m1-cK AKRYTSMAYANADEMTFGVSKYPVKAGLDLEIGAGYTIPEINYAPRPEAGASKEKLIKEYERITTDVMERMVQVGFPAIILETEHVQQMSNNPSWGAEVAHAQKTIMEKYHDEYGIKCALRHTIGDIRENREFLQLRGDKYSVFLEAFEQCAENGADLLSVESMGGKEVFDYAVLRNDIPGLLYSIGCLGSIDMELIWTDISKIAKKTGTISAGDTDCAQANTAMFIGGGLLNKNLAHTIAVIARAISAPRSLVAYEAGAVGPGKDCGYENIIVKAITGMPMTMEGKTSTCAHSDVMGNLVMQCCDCWSNESVEYHGEFGGTTVQCWSETLAYDCALMNTALETKNDKVLRDLMMLSDRYRDPQAYMLAYDNAYRVGQSIVKDGDNIYLRAKNAAIECCNIIEEGAAGKLELSRFETKALADAKAALEALPDDMDKFMDDCLTKYKSEVKVFKPENYGF AKRYTSMAYANADEMTFGVSKYPVKAGLDLEIGAGYTIPEINYAPRPEAGASKEKLIKEYERITTDVMERMVQVGFPAIILETEHVQQMSNNPSWGAEVAHAQKTIMEKYHDEYGIKCALRHTIGDIRENREFLQLRGDKYSVFLEAFEQCAENGADLLSVESMGGKEVFDYAVLRNDIPGLLYSIGCLGSIDMELIWTDISKIAKKTGTISAGDTDCAQANTAMFIGGGLLNKNLAHTIAVIARAISAPRSLVAYEAGAVGPGKDCGYENIIVKAITGMPMTMEGKTSTCAHSDVMGNLVMQCCDCWSNESVEYHGEFGGTTVQCWSETLAYDCALMNTALETKNDKVLRDLMMLSDRYRDPQAYMLAYDNAYRVGQSIVKDGDNIYLRAKNAAIECCNIIEEGAAGKLELSRFETKALADAKAALEALPDDMDKFMDDCLTKYKSEVKVFKPENYGF 2i33-a1-m1-cB_2i33-a1-m1-cA The structure of the Class C acid phosphatase from Bacillus anthracis A0A6L7HE29 A0A6L7HE29 1.57 X-RAY DIFFRACTION 228 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 236 238 2i34-a1-m1-cA_2i34-a1-m1-cB VKLTDQQLMADLWYQTAGEMKALYYQGYNTGQLKLDAALAKGTEKKPAIVLDLDETVLDNSPHQAMSVKTGKGYPYKWDDWINKAEAEALPGSIDFLKYTESKGVDIYYISNRKTNQLDATIKNLERVGAPQATKEHILLQDPKKGKEKRRELVSQTHDIVLFFGDNLSDFTGFDGKSVKDRNQAVTDSKAQFGEKFIIFPNPMYGDWEGALYDYNFKKSDAEKDKIRHDNLKSFD VKLTDQQLMADLWYQTAGEMKALYYQGYNTGQLKLDAALAKGTEKKPAIVLDLDETVLDNSPHQAMSVKTGKGYPYKWDDWINKAEAEALPGSIDFLKYTESKGVDIYYISNRKTNQLDATIKNLERVGAPQATKEHILLQDPKEKGKEKRRELVSQTHDIVLFFGDNLSDFTGFDGKSVKDRNQAVTDSKAQFGEKFIIFPNPMYGDWEGALYDYNFKKSDAEKDKIRHDNLKSFDA 2i3a-a4-m1-cA_2i3a-a4-m2-cB Crystal structure of N-Acetyl-gamma-Glutamyl-Phosphate Reductase (Rv1652) from Mycobacterium tuberculosis P9WPZ9 P9WPZ9 2.15 X-RAY DIFFRACTION 33 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 344 346 ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP ANATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP 2i3a-a4-m1-cA_2i3a-a4-m2-cD Crystal structure of N-Acetyl-gamma-Glutamyl-Phosphate Reductase (Rv1652) from Mycobacterium tuberculosis P9WPZ9 P9WPZ9 2.15 X-RAY DIFFRACTION 42 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 344 347 ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP VANATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP 2i3a-a4-m1-cC_2i3a-a4-m2-cB Crystal structure of N-Acetyl-gamma-Glutamyl-Phosphate Reductase (Rv1652) from Mycobacterium tuberculosis P9WPZ9 P9WPZ9 2.15 X-RAY DIFFRACTION 12 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 344 346 ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP ANATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP 2i3d-a1-m1-cA_2i3d-a1-m1-cB Crystal Structure of Protein of Unknown Function ATU1826, a Putative Alpha/Beta Hydrolase from Agrobacterium tumefaciens A9CIK7 A9CIK7 1.5 X-RAY DIFFRACTION 45 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 213 214 PEVIFNGPAGRLEGRYQPSKEKSAPIAIILHPHPQFGGTNNQIVYQLFYLFQKRGFTTLRFNFRSIGRSQGEFDHGAGELSDAASALDWVQSLHPDSKSCWVAGYSFGAWIGQLLRRPEIEGFSIAPQPNTYDFSFLAPCPSSGLIINGDADKVAPEKDVNGLVEKLKTQKGILITHRTLPGANHFFNGKVDELGECEDYLDRRLNGELVPEP PEVIFNGPAGRLEGRYQPSKEKSAPIAIILHPHPQFGGTNNQIVYQLFYLFQKRGFTTLRFNFRSIGRSQGEFDHGAGELSDAASALDWVQSLHPDSKSCWVAGYSFGAWIGQLLRRPEIEGFSIAPQPNTYDFSFLAPCPSSGLIINGDADKVAPEKDVNGLVEKLKTQKGILITHRTLPGANHFFNGKVDELGECEDYLDRRLNGELVPEPA 2i3g-a3-m2-cB_2i3g-a3-m2-cA Crystal structure of N-Acetyl-gamma-Glutamyl-Phosphate Reductase (Rv1652) from Mycobacterium tuberculosis in complex with NADP+. P9WPZ9 P9WPZ9 1.85 X-RAY DIFFRACTION 166 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 345 347 2i3a-a1-m1-cA_2i3a-a1-m1-cD 2i3a-a2-m1-cC_2i3a-a2-m1-cB 2i3a-a3-m1-cA_2i3a-a3-m1-cD 2i3a-a3-m1-cC_2i3a-a3-m1-cB 2i3g-a3-m1-cB_2i3g-a3-m1-cA 2nqt-a1-m1-cB_2nqt-a1-m1-cA 2nqt-a2-m1-cB_2nqt-a2-m1-cA 2nqt-a2-m2-cB_2nqt-a2-m2-cA 7nni-a1-m1-cA_7nni-a1-m2-cB 7nni-a1-m1-cB_7nni-a1-m2-cA 7nnq-a1-m1-cA_7nnq-a1-m1-cB 7nnq-a1-m1-cC_7nnq-a1-m1-cD 7nnr-a1-m1-cA_7nnr-a1-m2-cB 7nnr-a1-m1-cB_7nnr-a1-m2-cA 7not-a1-m1-cA_7not-a1-m1-cD 7not-a1-m1-cB_7not-a1-m1-cC 7not-a2-m1-cE_7not-a2-m1-cH 7not-a2-m1-cF_7not-a2-m1-cG 7nph-a1-m1-cA_7nph-a1-m1-cD 7nph-a1-m1-cB_7nph-a1-m1-cC 7nph-a2-m1-cE_7nph-a2-m1-cH 7nph-a2-m1-cF_7nph-a2-m1-cG 7npj-a1-m1-cA_7npj-a1-m1-cD 7npj-a1-m1-cB_7npj-a1-m1-cC 7npj-a2-m1-cE_7npj-a2-m1-cH 7npj-a2-m1-cF_7npj-a2-m1-cG NATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP VANATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP 2i3h-a6-m2-cA_2i3h-a6-m2-cB Structure of an ML-IAP/XIAP chimera bound to a 4-mer peptide (AVPW) Q96CA5 Q96CA5 1.62 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 95 1tw6-a3-m1-cA_1tw6-a3-m1-cB 1tw6-a3-m2-cA_1tw6-a3-m2-cB 2i3h-a3-m1-cA_2i3h-a3-m1-cB 2i3h-a3-m2-cA_2i3h-a3-m2-cB 2i3h-a5-m1-cA_2i3h-a5-m1-cB 2i3h-a5-m2-cA_2i3h-a5-m2-cB 2i3h-a6-m1-cA_2i3h-a6-m1-cB GPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPGCQFLLRSKGQEYINNIH GPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPGCQFLLRSKGQEYINNIHLTHSL 2i3h-a7-m2-cA_2i3h-a7-m1-cB Structure of an ML-IAP/XIAP chimera bound to a 4-mer peptide (AVPW) Q96CA5 Q96CA5 1.62 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 95 1tw6-a3-m2-cA_1tw6-a3-m1-cB 1tw6-a4-m2-cA_1tw6-a4-m1-cB 2i3h-a3-m2-cA_2i3h-a3-m1-cB 2i3h-a4-m2-cA_2i3h-a4-m1-cB 2i3h-a5-m2-cA_2i3h-a5-m1-cB 2i3h-a6-m2-cA_2i3h-a6-m1-cB GPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPGCQFLLRSKGQEYINNIH GPAFPGMGSEELRLASFYDWPLTAEVPPELLAAAGFFHTGHQDKVRCFFCYGGLQSWKRGDDPWTEHAKWFPGCQFLLRSKGQEYINNIHLTHSL 2i3o-a2-m1-cC_2i3o-a2-m1-cD Crystal structure of gamma-glutamyl transferase related protein from Thermoplasma acidophilum Q9HJH4 Q9HJH4 2.03 X-RAY DIFFRACTION 114 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 487 497 2i3o-a1-m1-cA_2i3o-a1-m1-cB FRSRPNALSQRSVIASSSELASLAGRDILKRGGNIFDAALAVSALCVTQNNLCGLGGDLFALIRDENGQIDLNGSGQASRAVSIDYYESGLTKIPERGPYAAITVPGIAGSWDEIFRKFATDIADILEPAIRTASAGFPITQNYSDSIARSAPVIGQYRGWSSIFPNGSVPVAGEILKQPDLAESFRLSEEGFRSFYDGSLADIIIAGLEGTGSPLSDRDLRVYRPLIGKPVFTDLDEFRIYETSPNSQGITVIEWIRGESHGYDSRTWEAKIEDIFETEEAYDKRRKITDPSYNGLPKRDHNDIGDTTYFSISDSEGRSVSIIQSNYGFGSGIVPKGTGFVLQNRGSYFTLQRDHPNALPGKRTFHTLAACVEKEHDLYASLGSGGDIQPQVQQILEILKDNTDPQAILDKPRWTEPYTIYEAPGAVYVESEELYRNVSKQISGRKVVLRDVSQEFGTAQITTLIRGDVVVGAADPRGDGIAIPYS FRSRPNALSQRSVIASSSELASLAGRDILKRGGNIFDAALAVSALCVTQNNLCGLGGDLFALIRDENGQIDLNGSGQASRAVSIDYYESGLTKIPERGPYAAITVPGIAGSWDEIFRKFATDIADILEPAIRTASAGFPITQNYSDSIARSAPVIGQYRGWSSIFPNGSVPVAGEILKQPDLAESFRLSEEGFRSFYDGSLADIIIAGLEGTGSPLSDRDLRVYRPLIGKPVFTDLDEFRIYETSPNSQGITVIEWIRGESHGYDSRTWEAKIEDIFETEEAYDKRRKITDPSYNIAQHDSANGKGLPKRDHNDIGDTTYFSISDSEGRSVSIIQSNYGFGSGIVPKGTGFVLQNRGSYFTLQRDHPNALPGKRTFHTLAACVEKEHDLYASLGSGGDIQPQVQQILEILKDNTDPQAILDKPRWTEPYTIYEAPGAVYVESEELYRNVSKQISGRKVVLRDVSQEFGTAQITTLIRGDVVVGAADPRGDGIAIPYS 2i3y-a1-m1-cA_2i3y-a1-m4-cA Crystal structure of human glutathione peroxidase 5 O75715 O75715 2 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 188 2i3y-a1-m2-cA_2i3y-a1-m3-cA DCHKDEKGTIYDYEAIALNKNEYVSFKQYVGKHILFVNVATYCGLTAQYPELNALQEELKPYGLVVLGFPCNQFGKQEPGDNKEILPGLKYVRPGGGFVPSFQLFEKGDVNGEKEQKVFSFLKHSCPHPSEILGTFKSISWDPVKVHDIRWNFEKFLVGPDGIPVMRWSHRATVSSVKTDILAYLKQF DCHKDEKGTIYDYEAIALNKNEYVSFKQYVGKHILFVNVATYCGLTAQYPELNALQEELKPYGLVVLGFPCNQFGKQEPGDNKEILPGLKYVRPGGGFVPSFQLFEKGDVNGEKEQKVFSFLKHSCPHPSEILGTFKSISWDPVKVHDIRWNFEKFLVGPDGIPVMRWSHRATVSSVKTDILAYLKQF 2i3y-a1-m2-cA_2i3y-a1-m4-cA Crystal structure of human glutathione peroxidase 5 O75715 O75715 2 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 188 2i3y-a1-m1-cA_2i3y-a1-m3-cA DCHKDEKGTIYDYEAIALNKNEYVSFKQYVGKHILFVNVATYCGLTAQYPELNALQEELKPYGLVVLGFPCNQFGKQEPGDNKEILPGLKYVRPGGGFVPSFQLFEKGDVNGEKEQKVFSFLKHSCPHPSEILGTFKSISWDPVKVHDIRWNFEKFLVGPDGIPVMRWSHRATVSSVKTDILAYLKQF DCHKDEKGTIYDYEAIALNKNEYVSFKQYVGKHILFVNVATYCGLTAQYPELNALQEELKPYGLVVLGFPCNQFGKQEPGDNKEILPGLKYVRPGGGFVPSFQLFEKGDVNGEKEQKVFSFLKHSCPHPSEILGTFKSISWDPVKVHDIRWNFEKFLVGPDGIPVMRWSHRATVSSVKTDILAYLKQF 2i45-a3-m1-cE_2i45-a3-m1-cF Crystal structure of protein NMB1881 from Neisseria meningitidis Q9JXU4 Q9JXU4 2.5 X-RAY DIFFRACTION 55 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 94 96 2i45-a1-m1-cA_2i45-a1-m1-cB 2i45-a2-m1-cC_2i45-a2-m1-cD 2i45-a4-m1-cG_2i45-a4-m1-cH 2i45-a5-m1-cJ_2i45-a5-m1-cI ETINLKQHLAAIKEYWQPEIINRHGFQFHLVKLLGDYGWHTHYSDKVLFAVEGDAVDFADGGSTIREGEAVVPKSVSHRPRSENGCSLVLIELS ETINLKQHLAAIKEYWQPEIINRHGFQFHLVKLLGDYGWHTHGYSDKVLFAVEGDAVDFADGGSTIREGEAVVPKSVSHRPRSENGCSLVLIELSD 2i46-a1-m1-cB_2i46-a1-m1-cA Crystal structure of human TPP1 Q96AP0 Q96AP0 2.7 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 152 5i2y-a3-m1-cB_5i2y-a3-m1-cA SGRLVLRPWIRELILGSETPSSPRAGQLLEVLQDAEVGATLLVSDGTHSVRCLVTREALDTSDWFGFRGTEGRLLLLQDCGVHVQVAEGGAPAEFYLQVDRFSLLPTEQPRLRVPGCNQDLDVQKKLYDCLEEH SGRLVLRPWIRELILGSETPSSPRAGQLLEVLQDAEAAVAGPSHAPDTSDVGATLLVSDGTHSVRCLVTREALDTSDWEEKEFGFRGTEGRLLLLQDCGVHVQVAEGGAPAEFYLQVDRFSLLPTEQPRLRVPGCNQDLDVQKKLYDCLEEH 2i4l-a1-m1-cA_2i4l-a1-m1-cB Rhodopseudomonas palustris prolyl-tRNA synthetase Q6N5P6 Q6N5P6 2 X-RAY DIFFRACTION 128 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 439 441 2i4l-a2-m1-cC_2i4l-a2-m2-cC 2i4m-a1-m1-cA_2i4m-a1-m1-cB 2i4m-a2-m1-cC_2i4m-a2-m2-cC 2i4n-a1-m1-cA_2i4n-a1-m1-cB 2i4n-a2-m1-cC_2i4n-a2-m2-cC 2i4o-a1-m1-cA_2i4o-a1-m1-cB 2i4o-a2-m1-cC_2i4o-a2-m2-cC GSHMRLSRFFLPILKENPKEAEIVSHRLMLRAGMLRQEAAGIYAWLPLGHRVLKKIEQIVREEQNRAGAIELLMPTLQLADLWRESGRYDAYGPEMLRIADRHKRELLYGPTNEEMITEIFRAYIKSYKSLPLNLYHIQWKFRDEQRPRFGVMRGREFLMKDAYSFDVDEAGARKSYNKMFVAYLRTFARMGLKAIPMRAETGPIGGDLSHEFIVLAETGESGVYIDRDVLNLPVPDENVDYDGDLTPIIKQWTSVYAATEDVHEPARYESEVPEANRLNTRGIEVGQIFYFGTKYSDSMKANVTGPDGTDAPIHGGSYGVGVSRLLGAIIEACHDDNGIIWPEAVAPFRVTILNLKQGDAATDAACDQLYRELSAKGVDVLYDDTDQRAGAKFATADLIGIPWQIHVGPRGLAEGKVELKRRSDGARENLALADVVAR GSHMRLSRFFLPILKENPKEAEIVSHRLMLRAGMLRQEAAGIYAWLPLGHRVLKKIEQIVREEQNRAGAIELLMPTLQLADLWRESGRYDAYGPEMLRIADRHKRELLYGPTNEEMITEIFRAYIKSYKSLPLNLYHIQWKFRDEQRPRFGVMRGREFLMKDAYSFDVDEAGARKSYNKMFVAYLRTFARMGLKAIPMRAETGPIGGDLSHEFIVLAETGESGVYIDRDVLNLPVPDENVDYDGDLTPIIKQWTSVYAATEDVHEPARYESEVPEANRLNTRGIEVGQIFYFGTKYSDSMKANVTGPDGTDAPIHGGSYGVGVSRLLGAIIEACHDDNGIIWPEAVAPFRVTILNLKQGDAATDAACDQLYRELSAKGVDVLYDDTDQRAGAKFATADLIGIPWQIHVGPRGLAEGKVELKRRSDGARENLALADVVARLT 2i4r-a2-m2-cB_2i4r-a2-m4-cB Crystal structure of the V-type ATP synthase subunit F from Archaeoglobus fulgidus. NESG target GR52A. O29102 O29102 2.8 X-RAY DIFFRACTION 28 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 77 77 2i4r-a2-m1-cA_2i4r-a2-m2-cA 2i4r-a2-m1-cB_2i4r-a2-m3-cB 2i4r-a2-m3-cA_2i4r-a2-m4-cA HSHLAVVGDPDFTIGFLAGISDIYEVTSDEEIVKAVEDVLKRDDVGVVIKQEYLKKLPPVLRREIDEKVEPTFVSVG HSHLAVVGDPDFTIGFLAGISDIYEVTSDEEIVKAVEDVLKRDDVGVVIKQEYLKKLPPVLRREIDEKVEPTFVSVG 2i4r-a2-m3-cA_2i4r-a2-m4-cB Crystal structure of the V-type ATP synthase subunit F from Archaeoglobus fulgidus. NESG target GR52A. O29102 O29102 2.8 X-RAY DIFFRACTION 19 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 76 77 2i4r-a2-m1-cA_2i4r-a2-m2-cB 2i4r-a2-m1-cA_2i4r-a2-m3-cB 2i4r-a2-m2-cA_2i4r-a2-m1-cB 2i4r-a2-m2-cA_2i4r-a2-m4-cB 2i4r-a2-m3-cA_2i4r-a2-m1-cB 2i4r-a2-m4-cA_2i4r-a2-m2-cB 2i4r-a2-m4-cA_2i4r-a2-m3-cB SHLAVVGDPDFTIGFLAGISDIYEVTSDEEIVKAVEDVLKRDDVGVVIKQEYLKKLPPVLRREIDEKVEPTFVSVG HSHLAVVGDPDFTIGFLAGISDIYEVTSDEEIVKAVEDVLKRDDVGVVIKQEYLKKLPPVLRREIDEKVEPTFVSVG 2i4r-a2-m4-cA_2i4r-a2-m4-cB Crystal structure of the V-type ATP synthase subunit F from Archaeoglobus fulgidus. NESG target GR52A. O29102 O29102 2.8 X-RAY DIFFRACTION 20 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 76 77 2i4r-a1-m1-cA_2i4r-a1-m1-cB 2i4r-a2-m1-cA_2i4r-a2-m1-cB 2i4r-a2-m2-cA_2i4r-a2-m2-cB 2i4r-a2-m3-cA_2i4r-a2-m3-cB SHLAVVGDPDFTIGFLAGISDIYEVTSDEEIVKAVEDVLKRDDVGVVIKQEYLKKLPPVLRREIDEKVEPTFVSVG HSHLAVVGDPDFTIGFLAGISDIYEVTSDEEIVKAVEDVLKRDDVGVVIKQEYLKKLPPVLRREIDEKVEPTFVSVG 2i4t-a3-m1-cC_2i4t-a3-m2-cC Crystal structure of Purine Nucleoside Phosphorylase from Trichomonas vaginalis with Imm-A A2E7Y6 A2E7Y6 2.74 X-RAY DIFFRACTION 106 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 224 224 1z33-a1-m1-cA_1z33-a1-m5-cA 1z33-a1-m2-cA_1z33-a1-m4-cA 1z33-a1-m3-cA_1z33-a1-m6-cA 1z34-a1-m1-cA_1z34-a1-m5-cA 1z34-a1-m2-cA_1z34-a1-m4-cA 1z34-a1-m3-cA_1z34-a1-m6-cA 1z35-a1-m1-cA_1z35-a1-m5-cA 1z35-a1-m2-cA_1z35-a1-m4-cA 1z35-a1-m3-cA_1z35-a1-m6-cA 1z36-a1-m1-cA_1z36-a1-m5-cA 1z36-a1-m2-cA_1z36-a1-m4-cA 1z36-a1-m3-cA_1z36-a1-m6-cA 1z37-a1-m1-cA_1z37-a1-m5-cA 1z37-a1-m2-cA_1z37-a1-m4-cA 1z37-a1-m3-cA_1z37-a1-m6-cA 1z38-a1-m1-cA_1z38-a1-m5-cA 1z38-a1-m2-cA_1z38-a1-m4-cA 1z38-a1-m3-cA_1z38-a1-m6-cA 1z39-a1-m1-cA_1z39-a1-m5-cA 1z39-a1-m2-cA_1z39-a1-m4-cA 1z39-a1-m3-cA_1z39-a1-m6-cA 2i4t-a1-m1-cA_2i4t-a1-m1-cB 2i4t-a1-m1-cC_2i4t-a1-m2-cC 2i4t-a1-m2-cA_2i4t-a1-m2-cB 2i4t-a2-m1-cA_2i4t-a2-m1-cB 2isc-a1-m1-cA_2isc-a1-m1-cB 2isc-a1-m1-cE_2isc-a1-m1-cC 2isc-a1-m1-cF_2isc-a1-m1-cD ATPHNSAQVGDFAETVLMCGDPLRAKLIAETYLENPKLVNNVRGIQGYTGTYKGKPISVMGHGMGLPSICIYAEELYSTYKVKTIIRVGTCGAIDMDIHTDIVIFTSAGTNSKINRIRFMDHDYPATASFDVVCALVDAAKELNIPAKVGKGFSTDLFYNPQTELAQLMNKFHFLAVEMESAGLFPIADLYGARAGCICTVSDHILHNSFQNMMKIALEAAIKL ATPHNSAQVGDFAETVLMCGDPLRAKLIAETYLENPKLVNNVRGIQGYTGTYKGKPISVMGHGMGLPSICIYAEELYSTYKVKTIIRVGTCGAIDMDIHTDIVIFTSAGTNSKINRIRFMDHDYPATASFDVVCALVDAAKELNIPAKVGKGFSTDLFYNPQTELAQLMNKFHFLAVEMESAGLFPIADLYGARAGCICTVSDHILHNSFQNMMKIALEAAIKL 2i51-a1-m1-cB_2i51-a1-m1-cA CRYSTAL STRUCTURE OF a pyridoxamine 5'-phosphate oxidase-related, FMN binding protein (NPUN_F5749) FROM NOSTOC PUNCTIFORME PCC 73102 AT 1.40 A RESOLUTION B2J933 B2J933 1.4 X-RAY DIFFRACTION 135 0.995 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 188 191 GSLAPWRGAIAHALHRNRSLVYARYLQLATVQPNGRPANRTLVFRGFLEDTNQLRFITDTRSAKADQIQQQPWAEICWYFPNTREQFRAGDLTLISSDDSHQDLQPARIAWQELSDAARLQFGWPYPGKPRGAFEPSPPDPIEPVPNFCLLLLDPVQVDHLELRGEPQNRWLYHRNDQQEWSSEAINP SLAPWRGAIAHALHRNRSLVYARYLQLATVQPNGRPANRTLVFRGFLEDTNQLRFITDTRSAKADQIQQQPWAEICWYFPNTREQFRAGDLTLISSDDSHQDLQPARIAWQELSDAARLQFGWPYPGKPRIKESGAFEPSPPDPIEPVPNFCLLLLDPVQVDHLELRGEPQNRWLYHRNDQQEWSSEAINP 2i52-a3-m1-cE_2i52-a3-m2-cE Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 20 1.0 263820 () 263820 () 115 115 2i52-a1-m1-cA_2i52-a1-m1-cD 2i52-a1-m1-cC_2i52-a1-m1-cB 2i52-a2-m1-cE_2i52-a2-m2-cE 2i52-a2-m1-cF_2i52-a2-m2-cF 2i52-a3-m1-cA_2i52-a3-m1-cD 2i52-a3-m1-cC_2i52-a3-m1-cB 2i52-a3-m1-cF_2i52-a3-m2-cF 2i52-a3-m2-cA_2i52-a3-m2-cD 2i52-a3-m2-cC_2i52-a3-m2-cB SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i52-a3-m1-cE_2i52-a3-m2-cF Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 87 1.0 263820 () 263820 () 115 119 2i52-a1-m1-cA_2i52-a1-m1-cB 2i52-a1-m1-cC_2i52-a1-m1-cD 2i52-a2-m1-cE_2i52-a2-m2-cF 2i52-a2-m2-cE_2i52-a2-m1-cF 2i52-a3-m1-cA_2i52-a3-m1-cB 2i52-a3-m1-cC_2i52-a3-m1-cD 2i52-a3-m2-cA_2i52-a3-m2-cB 2i52-a3-m2-cC_2i52-a3-m2-cD 2i52-a3-m2-cE_2i52-a3-m1-cF SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVKRSTYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i52-a4-m3-cA_2i52-a4-m5-cD Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 18 0.991 263820 () 263820 () 115 117 2i52-a4-m4-cA_2i52-a4-m1-cD SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNSGTYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i52-a4-m3-cA_2i52-a4-m5-cE Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 10 1.0 263820 () 263820 () 115 115 2i52-a4-m1-cE_2i52-a4-m4-cA 2i52-a4-m3-cC_2i52-a4-m4-cC SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i52-a4-m4-cC_2i52-a4-m5-cE Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 14 1.0 263820 () 263820 () 115 115 2i52-a4-m1-cE_2i52-a4-m3-cC SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i52-a4-m5-cB_2i52-a4-m5-cF Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 28 1.0 263820 () 263820 () 116 119 2i52-a3-m1-cB_2i52-a3-m1-cF 2i52-a3-m2-cB_2i52-a3-m2-cF 2i52-a4-m1-cB_2i52-a4-m1-cF SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVKYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVKRSTYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i52-a4-m5-cE_2i52-a4-m5-cF Crystal structure of protein PTO0218 from Picrophilus torridus, Pfam DUF372 Q6L2J9 Q6L2J9 2.08 X-RAY DIFFRACTION 58 1.0 263820 () 263820 () 115 119 2i52-a1-m1-cA_2i52-a1-m1-cC 2i52-a1-m1-cB_2i52-a1-m1-cD 2i52-a2-m1-cE_2i52-a2-m1-cF 2i52-a2-m2-cE_2i52-a2-m2-cF 2i52-a3-m1-cA_2i52-a3-m1-cC 2i52-a3-m1-cB_2i52-a3-m1-cD 2i52-a3-m1-cE_2i52-a3-m1-cF 2i52-a3-m2-cA_2i52-a3-m2-cC 2i52-a3-m2-cB_2i52-a3-m2-cD 2i52-a3-m2-cE_2i52-a3-m2-cF 2i52-a4-m1-cB_2i52-a4-m1-cD 2i52-a4-m1-cE_2i52-a4-m1-cF 2i52-a4-m3-cA_2i52-a4-m3-cC 2i52-a4-m4-cA_2i52-a4-m4-cC 2i52-a4-m5-cB_2i52-a4-m5-cD SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL SLYDPAEKYFNCTDIQRAFFEAGIKLGAIFHQYTGIPVNSENASMAEEFIERSTMIQPFVENVRISINNVKRSTYSYSSLNEKMLHAEVLINYNGKKVLGVLNYDEGLDYPVMYAKEVL 2i54-a2-m1-cB_2i54-a2-m1-cC Phosphomannomutase from Leishmania mexicana Q95ZD7 Q95ZD7 2.1 X-RAY DIFFRACTION 65 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 242 242 2i54-a1-m1-cA_2i54-a1-m2-cA 2i55-a1-m1-cA_2i55-a1-m2-cA 2i55-a2-m1-cB_2i55-a2-m1-cC KAILLFDVDGTLTPPRNPETHDMKEALLKARAAGFKLGVVGGSDFAKQKEQLGESILEDFDYVFSENGLLAYKDGKEFHRNSLLRALGNEKVVAFVKKCLHLIADLDIPVQRGTFVEFRNGMFNVSPIGRNCSQQERDEFENLDKERHIREKLIRELKEAFPDYQLAYSVGGQISFDVFPKGWDKTYCLQFVENDFETIHFFGDKTSEGGNDYEIFTDSRTIGHSVKTYKDTIAILEALLED KAILLFDVDGTLTPPRNPETHDMKEALLKARAAGFKLGVVGGSDFAKQKEQLGESILEDFDYVFSENGLLAYKDGKEFHRNSLLRALGNEKVVAFVKKCLHLIADLDIPVQRGTFVEFRNGMFNVSPIGRNCSQQERDEFENLDKERHIREKLIRELKEAFPDYQLAYSVGGQISFDVFPKGWDKTYCLQFVENDFETIHFFGDKTSEGGNDYEIFTDSRTIGHSVKTYKDTIAILEALLED 2i5b-a3-m1-cE_2i5b-a3-m2-cE The crystal structure of an ADP complex of Bacillus subtilis pyridoxal kinase provides evidence for the parralel emergence of enzyme activity during evolution P39610 P39610 2.8 X-RAY DIFFRACTION 140 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 267 267 2i5b-a1-m1-cB_2i5b-a1-m1-cA 2i5b-a2-m1-cC_2i5b-a2-m1-cD SMHKALTIAGSDSSGGAGIQADLKTFQEKNVYGMTALTVIVAMDPNNSWNHQVFPIDTDTIRAQLATITDGIGVDAMKTGMLPTVDIIELAAKTIKEKQLKNVVIDPVMVCKGANEVLYPEHAQALREQLAPLATVITPNLFEASQLSGMDELKTVDDMIEAAKKIHALGAQYVVITGGGKLKHEKAVDVLYDGETAEVLESEMIDTPYTHGAGCTFSAAVTAELAKGAEVKEAIYAAKEFITAAIKESFPLNQYVGPTKHSALRLN SMHKALTIAGSDSSGGAGIQADLKTFQEKNVYGMTALTVIVAMDPNNSWNHQVFPIDTDTIRAQLATITDGIGVDAMKTGMLPTVDIIELAAKTIKEKQLKNVVIDPVMVCKGANEVLYPEHAQALREQLAPLATVITPNLFEASQLSGMDELKTVDDMIEAAKKIHALGAQYVVITGGGKLKHEKAVDVLYDGETAEVLESEMIDTPYTHGAGCTFSAAVTAELAKGAEVKEAIYAAKEFITAAIKESFPLNQYVGPTKHSALRLN 2i5e-a1-m1-cA_2i5e-a1-m1-cB Crystal Structure of a Protein of Unknown Function MM2497 from Methanosarcina mazei Go1, Probable Nucleotidyltransferase Q8PU52 Q8PU52 2.1 X-RAY DIFFRACTION 71 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 205 205 NARAVIPYKKAGAKSRLSPVLSLQEREEFVELLNQVISSLKGAGIEQVDILSPSVYGLEETEARVLLDEKDLNEALNRYLKEAEEPVLIVADLPLLSPEHIKEISSTEKDVCIVPGKGGGTNALFIKNPSKYRVKYYGSSFLTHCSIATDSGQDFEIYDSFAGTDIDEPEDLVELLIHGKGAAKDYIESKFRLEVKKGRVGLVPL NARAVIPYKKAGAKSRLSPVLSLQEREEFVELLNQVISSLKGAGIEQVDILSPSVYGLEETEARVLLDEKDLNEALNRYLKEAEEPVLIVADLPLLSPEHIKEISSTEKDVCIVPGKGGGTNALFIKNPSKYRVKYYGSSFLTHCSIATDSGQDFEIYDSFAGTDIDEPEDLVELLIHGKGAAKDYIESKFRLEVKKGRVGLVPL 2i5g-a1-m1-cA_2i5g-a1-m1-cB Crystal strcuture of amidohydrolase from Pseudomonas aeruginosa Q9HTG8 Q9HTG8 2.6 X-RAY DIFFRACTION 60 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 317 317 LSPAELHADSIVIDGLIIAKWNRELFEDRKGGLTAANCTVSVWEGFQATVNNITASNKLIRDNSDLVIPVRSTADIRKAKEQGKTGILYGFQNAHAFEDQIGYVEVFKQLGVGIVQCYNTQNLVGTGCYERDGGLSGFGREIVAENRVGICDLSHVGSKTSEEVILESKKPVCYSHCLPSGLKEHPRNKSDEELKFIADHGGFVGVTFAPFLKKGIDSTIDDYAEAIEYVNIVGEDAIGIGTDFTQGHGHDFFEWLTHDKGYARRLTNFGKIVNPLGIRTVGEFPNLTETLLKRGPERVVRKVGENWVRVLRDVWGE LSPAELHADSIVIDGLIIAKWNRELFEDRKGGLTAANCTVSVWEGFQATVNNITASNKLIRDNSDLVIPVRSTADIRKAKEQGKTGILYGFQNAHAFEDQIGYVEVFKQLGVGIVQCYNTQNLVGTGCYERDGGLSGFGREIVAENRVGICDLSHVGSKTSEEVILESKKPVCYSHCLPSGLKEHPRNKSDEELKFIADHGGFVGVTFAPFLKKGIDSTIDDYAEAIEYVNIVGEDAIGIGTDFTQGHGHDFFEWLTHDKGYARRLTNFGKIVNPLGIRTVGEFPNLTETLLKRGPERVVRKVGENWVRVLRDVWGE 2i5i-a1-m2-cB_2i5i-a1-m3-cB CRYSTAL STRUCTURE OF A PUTATIVE CELLOBIOSE-PHOSPHATE CLEAVAGE PROTEIN (EF3048) FROM ENTEROCOCCUS FAECALIS V583 AT 1.70 A RESOLUTION P59745 P59745 1.7 X-RAY DIFFRACTION 33 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 254 254 2i5i-a1-m1-cA_2i5i-a1-m2-cA 2i5i-a1-m1-cA_2i5i-a1-m3-cA 2i5i-a1-m1-cB_2i5i-a1-m2-cB 2i5i-a1-m1-cB_2i5i-a1-m3-cB 2i5i-a1-m2-cA_2i5i-a1-m3-cA SNKKLIINADDFGYTPAVTQGIIEAHKRGVVTSTTALPTSPYFLEAESARISAPTLAIGVHLTLTLNQAKPILPREVPSLVDEAGYFWHQSIFEEKVNLEEVYNEWDAQIISFKSGRRPDHIDSHHNVHGKNKKLLGVALALARKYQLPLRNASRSIETKDYLELYQDVRTPDELYQFYDKAISTETILQLLDVVCSEGEVFEINCHPAFIDTILQNQSGYCPRIREVEILTSQEVKEAIEERGILLANYESLA SNKKLIINADDFGYTPAVTQGIIEAHKRGVVTSTTALPTSPYFLEAESARISAPTLAIGVHLTLTLNQAKPILPREVPSLVDEAGYFWHQSIFEEKVNLEEVYNEWDAQIISFKSGRRPDHIDSHHNVHGKNKKLLGVALALARKYQLPLRNASRSIETKDYLELYQDVRTPDELYQFYDKAISTETILQLLDVVCSEGEVFEINCHPAFIDTILQNQSGYCPRIREVEILTSQEVKEAIEERGILLANYESLA 2i5i-a1-m3-cA_2i5i-a1-m3-cB CRYSTAL STRUCTURE OF A PUTATIVE CELLOBIOSE-PHOSPHATE CLEAVAGE PROTEIN (EF3048) FROM ENTEROCOCCUS FAECALIS V583 AT 1.70 A RESOLUTION P59745 P59745 1.7 X-RAY DIFFRACTION 63 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 254 254 2i5i-a1-m1-cA_2i5i-a1-m1-cB 2i5i-a1-m2-cA_2i5i-a1-m2-cB SNKKLIINADDFGYTPAVTQGIIEAHKRGVVTSTTALPTSPYFLEAESARISAPTLAIGVHLTLTLNQAKPILPREVPSLVDEAGYFWHQSIFEEKVNLEEVYNEWDAQIISFKSGRRPDHIDSHHNVHGKNKKLLGVALALARKYQLPLRNASRSIETKDYLELYQDVRTPDELYQFYDKAISTETILQLLDVVCSEGEVFEINCHPAFIDTILQNQSGYCPRIREVEILTSQEVKEAIEERGILLANYESLA SNKKLIINADDFGYTPAVTQGIIEAHKRGVVTSTTALPTSPYFLEAESARISAPTLAIGVHLTLTLNQAKPILPREVPSLVDEAGYFWHQSIFEEKVNLEEVYNEWDAQIISFKSGRRPDHIDSHHNVHGKNKKLLGVALALARKYQLPLRNASRSIETKDYLELYQDVRTPDELYQFYDKAISTETILQLLDVVCSEGEVFEINCHPAFIDTILQNQSGYCPRIREVEILTSQEVKEAIEERGILLANYESLA 2i5k-a1-m2-cB_2i5k-a1-m4-cB Crystal structure of Ugp1p P32861 P32861 3.1 X-RAY DIFFRACTION 28 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 466 466 2i5k-a1-m1-cA_2i5k-a1-m2-cA 2i5k-a1-m1-cB_2i5k-a1-m3-cB 2i5k-a1-m3-cA_2i5k-a1-m4-cA NSVAASQMRNALNKLDAARAKFENELDSFFTLFRRYLVEKSSRTTLEWDKIKSPNPDEVVKYEIISQQPENVSNLSKLAVLKLNGGLGTSMGCVGPKSVIEVREGNTFLDLSVRQIEYLNRQYDSDVPLLLMNSFNTDKDTEHLIKKYSANRIRIRSFNQSRFPRVYKDSLLPVPTEYDSPLDAWYPPGHGDLFESLHVSGELDALIAQGREILFVSNGDNLGATVDLKILNHMIETGAEYIMELTDKTRADVKGGTLISYDGQVRLLEVAQVPKEHIDEFKNIRKFTNFNTNNLWINLKAVKRLIESSNLEMEIIPNQKTINVLQLETACGAAIRHFDGAHGVVVPRSRFLPVKTCSDLLLVKSDLFRLEHGSLKLDPSRFGPNPLIKLGSHFKKVSGFNARIPHIPKIVELDHLTITGNVFLGKDVTLRGTVIIVCSDGHKIDIPNGSILENVVVTGNLQILEH NSVAASQMRNALNKLDAARAKFENELDSFFTLFRRYLVEKSSRTTLEWDKIKSPNPDEVVKYEIISQQPENVSNLSKLAVLKLNGGLGTSMGCVGPKSVIEVREGNTFLDLSVRQIEYLNRQYDSDVPLLLMNSFNTDKDTEHLIKKYSANRIRIRSFNQSRFPRVYKDSLLPVPTEYDSPLDAWYPPGHGDLFESLHVSGELDALIAQGREILFVSNGDNLGATVDLKILNHMIETGAEYIMELTDKTRADVKGGTLISYDGQVRLLEVAQVPKEHIDEFKNIRKFTNFNTNNLWINLKAVKRLIESSNLEMEIIPNQKTINVLQLETACGAAIRHFDGAHGVVVPRSRFLPVKTCSDLLLVKSDLFRLEHGSLKLDPSRFGPNPLIKLGSHFKKVSGFNARIPHIPKIVELDHLTITGNVFLGKDVTLRGTVIIVCSDGHKIDIPNGSILENVVVTGNLQILEH 2i5k-a1-m3-cA_2i5k-a1-m4-cB Crystal structure of Ugp1p P32861 P32861 3.1 X-RAY DIFFRACTION 10 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 465 466 2i5k-a1-m1-cA_2i5k-a1-m2-cB 2i5k-a1-m2-cA_2i5k-a1-m1-cB 2i5k-a1-m4-cA_2i5k-a1-m3-cB VAASQMRNALNKLAARAKFENELDSFFTLFRRYLVEKSSRTTLEWDKIKSPNPDEVVKYEIISQQPENVSNLSKLAVLKLNGGLGTSMGCVGPKSVIEVREGNTFLDLSVRQIEYLNRQYDSDVPLLLMNSFNTDKDTEHLIKKYSANRIRIRSFNQSRFPRVYKDSLLPVPTEYDSPLDAWYPPGHGDLFESLHVSGELDALIAQGREILFVSNGDNLGATVDLKILNHMIETGAEYIMELTDKTRADVKGGTLISYDGQVRLLEVAQVPKEHIDEFKNIRKFTNFNTNNLWINLKAVKRLIESSNLEMEIIPNQKTITRNVLQLETACGAAIRHFDGAHGVVVPRSRFLPVKTCSDLLLVKSDLFRLEHGSLKLDPSRFGPNPLIKLGSHFKKVSGFNARIPHIPKIVELDHLTITGNVFLGKDVTLRGTVIIVCSDGHKIDIPNGSILENVVVTGNLQILEH NSVAASQMRNALNKLDAARAKFENELDSFFTLFRRYLVEKSSRTTLEWDKIKSPNPDEVVKYEIISQQPENVSNLSKLAVLKLNGGLGTSMGCVGPKSVIEVREGNTFLDLSVRQIEYLNRQYDSDVPLLLMNSFNTDKDTEHLIKKYSANRIRIRSFNQSRFPRVYKDSLLPVPTEYDSPLDAWYPPGHGDLFESLHVSGELDALIAQGREILFVSNGDNLGATVDLKILNHMIETGAEYIMELTDKTRADVKGGTLISYDGQVRLLEVAQVPKEHIDEFKNIRKFTNFNTNNLWINLKAVKRLIESSNLEMEIIPNQKTINVLQLETACGAAIRHFDGAHGVVVPRSRFLPVKTCSDLLLVKSDLFRLEHGSLKLDPSRFGPNPLIKLGSHFKKVSGFNARIPHIPKIVELDHLTITGNVFLGKDVTLRGTVIIVCSDGHKIDIPNGSILENVVVTGNLQILEH 2i5k-a1-m4-cA_2i5k-a1-m4-cB Crystal structure of Ugp1p P32861 P32861 3.1 X-RAY DIFFRACTION 80 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 465 466 2i5k-a1-m1-cA_2i5k-a1-m1-cB 2i5k-a1-m2-cA_2i5k-a1-m2-cB 2i5k-a1-m3-cA_2i5k-a1-m3-cB VAASQMRNALNKLAARAKFENELDSFFTLFRRYLVEKSSRTTLEWDKIKSPNPDEVVKYEIISQQPENVSNLSKLAVLKLNGGLGTSMGCVGPKSVIEVREGNTFLDLSVRQIEYLNRQYDSDVPLLLMNSFNTDKDTEHLIKKYSANRIRIRSFNQSRFPRVYKDSLLPVPTEYDSPLDAWYPPGHGDLFESLHVSGELDALIAQGREILFVSNGDNLGATVDLKILNHMIETGAEYIMELTDKTRADVKGGTLISYDGQVRLLEVAQVPKEHIDEFKNIRKFTNFNTNNLWINLKAVKRLIESSNLEMEIIPNQKTITRNVLQLETACGAAIRHFDGAHGVVVPRSRFLPVKTCSDLLLVKSDLFRLEHGSLKLDPSRFGPNPLIKLGSHFKKVSGFNARIPHIPKIVELDHLTITGNVFLGKDVTLRGTVIIVCSDGHKIDIPNGSILENVVVTGNLQILEH NSVAASQMRNALNKLDAARAKFENELDSFFTLFRRYLVEKSSRTTLEWDKIKSPNPDEVVKYEIISQQPENVSNLSKLAVLKLNGGLGTSMGCVGPKSVIEVREGNTFLDLSVRQIEYLNRQYDSDVPLLLMNSFNTDKDTEHLIKKYSANRIRIRSFNQSRFPRVYKDSLLPVPTEYDSPLDAWYPPGHGDLFESLHVSGELDALIAQGREILFVSNGDNLGATVDLKILNHMIETGAEYIMELTDKTRADVKGGTLISYDGQVRLLEVAQVPKEHIDEFKNIRKFTNFNTNNLWINLKAVKRLIESSNLEMEIIPNQKTINVLQLETACGAAIRHFDGAHGVVVPRSRFLPVKTCSDLLLVKSDLFRLEHGSLKLDPSRFGPNPLIKLGSHFKKVSGFNARIPHIPKIVELDHLTITGNVFLGKDVTLRGTVIIVCSDGHKIDIPNGSILENVVVTGNLQILEH 2i5m-a2-m1-cX_2i5m-a2-m2-cX Crystal structure of Bacillus subtilis cold shock protein CspB variant A46K S48R P32081 P32081 2.3 X-RAY DIFFRACTION 31 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 66 66 MLEGKVKWFNSEKGFGFIEVEGQDDVFVHFSAIQGEGFKTLEEGQKVRFEIVEGNRGPQAANVTKE MLEGKVKWFNSEKGFGFIEVEGQDDVFVHFSAIQGEGFKTLEEGQKVRFEIVEGNRGPQAANVTKE 2i5p-a1-m1-cP_2i5p-a1-m1-cO Crystal structure of glyceraldehyde-3-phosphate dehydrogenase isoform 1 from K. marxianus P84998 P84998 2.3 X-RAY DIFFRACTION 134 1.0 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 309 309 MVSIAINGFGRIGRLVLRIALERKNIDVVAINDPFISVDYAAYMFKYDSTHGKYKGEVSHDGSNLIINGKKVAVFQEKDPATLPWGKLGVDIAVDSTGVFKELDSAQKHIDAGAKKVVITAPSKTAPMFVVGVNEDKYNGEKIVSNASCTTNCLAPIAKIINDEFGIEEGLMTTVHSITSGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTTDVSVVDLTVKLVKAATYDEIKAAVKKVSEGKLKDVVGYTEDAVVSSDFLGDTHSTIFDAAAGIQLSPKFVKLVAWYDNEYGYSTRVVDLVEHVA MVSIAINGFGRIGRLVLRIALERKNIDVVAINDPFISVDYAAYMFKYDSTHGKYKGEVSHDGSNLIINGKKVAVFQEKDPATLPWGKLGVDIAVDSTGVFKELDSAQKHIDAGAKKVVITAPSKTAPMFVVGVNEDKYNGEKIVSNASCTTNCLAPIAKIINDEFGIEEGLMTTVHSITSGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTTDVSVVDLTVKLVKAATYDEIKAAVKKVSEGKLKDVVGYTEDAVVSSDFLGDTHSTIFDAAAGIQLSPKFVKLVAWYDNEYGYSTRVVDLVEHVA 2i68-a1-m1-cA_2i68-a1-m1-cB Cryo-EM based theoretical model structure of transmembrane domain of the multidrug-resistance antiporter from E. coli EmrE P23895 P23895 7.5 ELECTRON CRYSTALLOGRAPHY 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 78 78 YIYLGGAILAEVIGTTLMVGTIICYCASFWLLAQTLAIAYAIWSGVGIVLISLLSWGFFGAIIGMMLICAGVLIINLL YIYLGGAILAEVIGTTLMVGTIICYCASFWLLAQTLAIAYAIWSGVGIVLISLLSWGFFGAIIGMMLICAGVLIINLL 2i6d-a2-m1-cA_2i6d-a2-m2-cA The structure of a putative RNA methyltransferase of the TrmH family from Porphyromonas gingivalis. Q7MW92 Q7MW92 1.85 X-RAY DIFFRACTION 76 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 245 245 ALSANQIKFLRSLRERKYRLREQAFAVEGPKLVGELPFYRCRLVGTAALRAVSTPHDAEVVELPESFDFKRISTQTTPQPLAVFDLPAEPEPVVEGLTLLLDGVQDPGNVGTILRTADWFGIRHVWLGTGSADVFSPKVVQASGALARVQPTPLKNTVDTLAYFRRQGIPVYGAFLDGQSLYEAPLPNFTEPAILVLGSEGRGISPEVAAEITDRLTIPASGLSVESLNVAIATAILCSEWRRRS ALSANQIKFLRSLRERKYRLREQAFAVEGPKLVGELPFYRCRLVGTAALRAVSTPHDAEVVELPESFDFKRISTQTTPQPLAVFDLPAEPEPVVEGLTLLLDGVQDPGNVGTILRTADWFGIRHVWLGTGSADVFSPKVVQASGALARVQPTPLKNTVDTLAYFRRQGIPVYGAFLDGQSLYEAPLPNFTEPAILVLGSEGRGISPEVAAEITDRLTIPASGLSVESLNVAIATAILCSEWRRRS 2i6h-a1-m1-cB_2i6h-a1-m1-cA Structure of Protein of Unknown Function ATU0120 from Agrobacterium tumefaciens A9CKP1 A9CKP1 1.75 X-RAY DIFFRACTION 39 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 174 176 DTAALAADIVDFWKKAGPDKWFDKDAAFDNHFHDRFRDAHFAAARRELDGWLEGAESSLALLLLDQFPRNCFRGTAHYATDPLARFFADEAIRRGHDQAVSEDLRVFFYLPFSHAEDIAAQQRACDLNQPLGGLYLHHAEEHRDIVERFGRFPHRNGILLRETTPEERQYLEEG KNDTAALAADIVDFWKKAGPDKWFDKDAAFDNHFHDRFRDAHFAAARRELDGWLEGAESSLALLLLDQFPRNCFRGTAHYATDPLARFFADEAIRRGHDQAVSEDLRVFFYLPFSHAEDIAAQQRACDLNQPLGGLYLHHAEEHRDIVERFGRFPHRNGILLRETTPEERQYLEEG 2i6t-a1-m1-cB_2i6t-a1-m2-cB Orthorhombic Structure of the LDH domain of Human Ubiquitin-conjugating Enzyme E2-like Isoform A Q8IX04 Q8IX04 2.1 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 2i6t-a1-m1-cA_2i6t-a1-m2-cA VNKITVVGGGELGIACTLAISAKGIADRLVLLDLSEGGATMDLEIFNLPNVEISKDLSASAHSKVVIFTVNSQSYLDVVQSNVDMFRALVPALGHYSQHSVLLVASQPVEIMTYVTWKLSTFPANRVIGIGCNLDSQRLQYIITNVLKAQTSGKEVWVIGEQGEDKVLTWSGQEEVVSHTSQVQLSNRAMELLRVKGQRSWSVGLSVADMVDSIVNNKKKVHSVSALAKGYYDINSEVFLSLPCILGTNGVSEVIKTTLKTVTEKLQSSASSIHSLQQQLKL VNKITVVGGGELGIACTLAISAKGIADRLVLLDLSEGGATMDLEIFNLPNVEISKDLSASAHSKVVIFTVNSQSYLDVVQSNVDMFRALVPALGHYSQHSVLLVASQPVEIMTYVTWKLSTFPANRVIGIGCNLDSQRLQYIITNVLKAQTSGKEVWVIGEQGEDKVLTWSGQEEVVSHTSQVQLSNRAMELLRVKGQRSWSVGLSVADMVDSIVNNKKKVHSVSALAKGYYDINSEVFLSLPCILGTNGVSEVIKTTLKTVTEKLQSSASSIHSLQQQLKL 2i6t-a2-m1-cA_2i6t-a2-m1-cB Orthorhombic Structure of the LDH domain of Human Ubiquitin-conjugating Enzyme E2-like Isoform A Q8IX04 Q8IX04 2.1 X-RAY DIFFRACTION 86 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 280 282 2i6t-a1-m1-cA_2i6t-a1-m1-cB 2i6t-a1-m2-cA_2i6t-a1-m2-cB 3dl2-a1-m1-cB_3dl2-a1-m1-cA VNKITVVGGGELGIACTLAISAKGIADRLVLLDLSATMDLEIFNLPNVEISKDLSASAHSKVVIFTVNSQSYLDVVQSNVDMFRALVPALGHYSQHSVLLVASQPVEIMTYVTWKLSTFPANRVIGIGCNLDSQRLQYIITNVLKAQTSGKEVWVIGEQGEDKVLTWSGQEEVVSHTSQVQLSNRAMELLRVKGQRSWSVGLSVADMVDSIVNNKKKVHSVSALAKGYYDINSEVFLSLPCILGTNGVSEVIKTTLEDTVTEKLQSSASSIHSLQQQLKL VNKITVVGGGELGIACTLAISAKGIADRLVLLDLSEGGATMDLEIFNLPNVEISKDLSASAHSKVVIFTVNSQSYLDVVQSNVDMFRALVPALGHYSQHSVLLVASQPVEIMTYVTWKLSTFPANRVIGIGCNLDSQRLQYIITNVLKAQTSGKEVWVIGEQGEDKVLTWSGQEEVVSHTSQVQLSNRAMELLRVKGQRSWSVGLSVADMVDSIVNNKKKVHSVSALAKGYYDINSEVFLSLPCILGTNGVSEVIKTTLKTVTEKLQSSASSIHSLQQQLKL 2i71-a1-m1-cA_2i71-a1-m1-cB Crystal structure of a Conserved Protein of Unknown Function from Sulfolobus solfataricus P2 Q97YD5 Q97YD5 1.7 X-RAY DIFFRACTION 55 0.997 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 366 371 FQGASIVFSTIGNPKGYQKVTYEIDGEKFESNVSVLALRDLLKVDKTVVILGISVADVYNCKYADYRSCKECIIQNSKNDLGISESYVVAPNVYQKFKGKPDHYFTYIYYHSLRILEKEGINEVFIDTTHGINYGVLAKEAIQLAVSAYAAKSEKEVKVSLYNSDPVGKDVSDTVKLHEIEAIKISPLSGLKYVTYQILNKDKNFFNKIFSDSVNAIPRFATALDNGLFIYLSEKDSSLHLKRLEDDLSKDPLLTPSENEINVVYKDKYALSHALFYVISRFSGNVDLDTLRHYAETYADKVTRAIIENEVDKIEKYQGSERKLLGEYRILYAHGGLPYAGTYVYKEKDKVYVTYGDKIDEIERQI FQGASIVFSTIGNPKGYQKVTYEIDGEKFESNVSVLALRDLLKVDKTVVILGISVADVYNCKYADYRSCKECIIQNSKNDLGISESYVVAPNVYQKFKGKPDHYFTYIYYHSLRILEKEGINEVFIDTTHGINYGVLAKEAIQLAVSAYAAKSEKEVKVSLYNSDPVGKDVSDTVKLHEIEAIKISPLSGLKYVTYQILNKDKNFFNKIFSDSVNAIPRFATALDNGLFIYLSEKDSSLHLKRLEDDLSKDPLLTPSENEINVVYKDKYALSHALFYVISRFSGNVDLDTLRHYAETYADKVTRAIIENEVDKIEKYQGSERKLLGEYKVEGKGILYAHGGLPYAGTYVYKEKDKVYVTYGDKIDEIERQI 2i71-a2-m1-cA_2i71-a2-m2-cB Crystal structure of a Conserved Protein of Unknown Function from Sulfolobus solfataricus P2 Q97YD5 Q97YD5 1.7 X-RAY DIFFRACTION 155 0.997 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 366 371 FQGASIVFSTIGNPKGYQKVTYEIDGEKFESNVSVLALRDLLKVDKTVVILGISVADVYNCKYADYRSCKECIIQNSKNDLGISESYVVAPNVYQKFKGKPDHYFTYIYYHSLRILEKEGINEVFIDTTHGINYGVLAKEAIQLAVSAYAAKSEKEVKVSLYNSDPVGKDVSDTVKLHEIEAIKISPLSGLKYVTYQILNKDKNFFNKIFSDSVNAIPRFATALDNGLFIYLSEKDSSLHLKRLEDDLSKDPLLTPSENEINVVYKDKYALSHALFYVISRFSGNVDLDTLRHYAETYADKVTRAIIENEVDKIEKYQGSERKLLGEYRILYAHGGLPYAGTYVYKEKDKVYVTYGDKIDEIERQI FQGASIVFSTIGNPKGYQKVTYEIDGEKFESNVSVLALRDLLKVDKTVVILGISVADVYNCKYADYRSCKECIIQNSKNDLGISESYVVAPNVYQKFKGKPDHYFTYIYYHSLRILEKEGINEVFIDTTHGINYGVLAKEAIQLAVSAYAAKSEKEVKVSLYNSDPVGKDVSDTVKLHEIEAIKISPLSGLKYVTYQILNKDKNFFNKIFSDSVNAIPRFATALDNGLFIYLSEKDSSLHLKRLEDDLSKDPLLTPSENEINVVYKDKYALSHALFYVISRFSGNVDLDTLRHYAETYADKVTRAIIENEVDKIEKYQGSERKLLGEYKVEGKGILYAHGGLPYAGTYVYKEKDKVYVTYGDKIDEIERQI 2i76-a1-m1-cB_2i76-a1-m1-cA Crystal structure of protein TM1727 from Thermotoga maritima Q9X250 Q9X250 3 X-RAY DIFFRACTION 280 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 239 244 VLNFVGTGTLTRFFLECLKIGYILSRSIDRARNLAEVYGGKAATLEKHPEVVFVIVPDRYIKTVANHLNLGDAVLVHCSGFLSSEIFKKSGRASIHPNFSFLEKALEKDQIVFGLEGDERGLPIVKKIAEEISGKYFVIEKKKAYHLAAVIASNFPVALAYLSKRIYTLLGLDEPELLIHTLKGVADNIKKRVECSLTGPVKRGDWQVVEEERREYEKIFGNTVLYDEIVKLLREVAES VLNFVGTGTLTRFFLECLKIGYILSRSIDRARNLAEVYGGKAATLEKHPEVVFVIVPDRYIKTVANHLNLGDAVLVHCSGFLSSEIFKKSGRASIHPNFSFLEKALEKDQIVFGLEGDERGLPIVKKIAEEISGKYFVIPSEKKKAYHLAAVIASNFPVALAYLSKRIYTLLGLDEPELLIHTLKGVADNIKKRVECSLTGPVKRGDWQVVEEERREYEKIFGNTVLYDEIVKLLREVAESERR 2i79-a2-m1-cB_2i79-a2-m1-cC The crystal structure of the acetyltransferase of GNAT family from Streptococcus pneumoniae A0A0H2URR1 A0A0H2URR1 2.1 X-RAY DIFFRACTION 86 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 171 171 2i79-a1-m1-cE_2i79-a1-m1-cA 2i79-a3-m1-cD_2i79-a3-m1-cF MEYELLIREAEPKDAAELVAFLNRVSLETDFTSLDGDGILLTSEEMEIFLNKQASSDNQITLLAFLNGKIAGIVNITADQRKRVRHIGDLFIVIGKRYWNNGLGSLLLEEAIEWAQASGILRRLQLTVQTRNQAAVHLYQKHGFVIEGSQERGAYIEEGKFIDVYLMGKLI MEYELLIREAEPKDAAELVAFLNRVSLETDFTSLDGDGILLTSEEMEIFLNKQASSDNQITLLAFLNGKIAGIVNITADQRKRVRHIGDLFIVIGKRYWNNGLGSLLLEEAIEWAQASGILRRLQLTVQTRNQAAVHLYQKHGFVIEGSQERGAYIEEGKFIDVYLMGKLI 2i7a-a1-m1-cA_2i7a-a1-m2-cA Domain IV of Human Calpain 13 Q6MZZ7 Q6MZZ7 1.8 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 SGLVPGSDIDATQLQGLLNQELLDMFSLDECRSLVALMELKVNGRLDQEEFARLWKRLVHYQHVFQKVQTSPGVLLSSDLWKAIENTDFLRGIFISRELLHLVTLRYSDSVGRVSFPSLVCFLMRLEAMAKTFRNLSKDGKGLYLTEMEWMSLVMYN SGLVPGSDIDATQLQGLLNQELLDMFSLDECRSLVALMELKVNGRLDQEEFARLWKRLVHYQHVFQKVQTSPGVLLSSDLWKAIENTDFLRGIFISRELLHLVTLRYSDSVGRVSFPSLVCFLMRLEAMAKTFRNLSKDGKGLYLTEMEWMSLVMYN 2i7g-a1-m1-cA_2i7g-a1-m1-cB Crystal Structure of Monooxygenase from Agrobacterium tumefaciens A9CI16 A9CI16 1.73 X-RAY DIFFRACTION 164 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 337 338 GELGLYTFADVNPNPADGRGPEGARRLRELLEEIELADQVGLDVFGLGEHHRPDYVVSSPSTVLAAAAVKTKNIRLTSAVSVLSSDDPVRVFQQFSTVDLLSNGRAEIAGRGSFIESYPLFGYDLEDYDVLFAEKLDLLLALREQEVVTWSGTKHPAINGRGVYPRPLQERLPVWIAVGGTPQSVARAGAGLPVALAIIGGEYRRFAPLFDLYHEAARRAGQEKTKLRTSINVHGFIADTTDKAADQFYGPQAEVNRIGRERGWGPTNRAHFDAARGPEGNLFLGEPELVAEKIIKAHGVFKNDRFLLQAIGLPHDQIRGIELYGTKVAPLVRKELT GELGLYTFADVNPNPADGRGPEGARRLRELLEEIELADQVGLDVFGLGEHHRPDYVVSSPSTVLAAAAVKTKNIRLTSAVSVLSSDDPVRVFQQFSTVDLLSNGRAEIAGRGSFIESYPLFGYDLEDYDVLFAEKLDLLLALREQEVVTWSGTKHPAINGRGVYPRPLQERLPVWIAVGGTPQSVARAGAGLPVALAIIGGEYRRFAPLFDLYHEAARRAGQEKTKLRTSINVHGFIADTTDKAADQFYGPQAEVNRIGRERGWGPTNRAHFDAARGPEGNLFLGEPELVAEKIIKAHGVFKNDRFLLQAIGLPHDQIRGIELYGTKVAPLVRKELTG 2i7h-a4-m1-cC_2i7h-a4-m1-cD Crystal Structure of the Nitroreductase-like Family Protein from Bacillus cereus Q81HL8 Q81HL8 2.3 X-RAY DIFFRACTION 188 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 183 183 2i7h-a1-m1-cA_2i7h-a1-m1-cB 2i7h-a2-m1-cC_2i7h-a2-m1-cD 2i7h-a3-m1-cE_2i7h-a3-m1-cF 2i7h-a4-m1-cA_2i7h-a4-m1-cB 2i7h-a5-m1-cE_2i7h-a5-m1-cF 2i7h-a5-m2-cE_2i7h-a5-m2-cF ATTYTSIANVIKERRSVRTFTDKAVEKDLLIELLNDATWAPNHKHREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYNEDPRQIQRDEDYAATCAFQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKEIIEG ATTYTSIANVIKERRSVRTFTDKAVEKDLLIELLNDATWAPNHKHREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYNEDPRQIQRDEDYAATCAFQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKEIIEG 2i7h-a5-m1-cE_2i7h-a5-m2-cE Crystal Structure of the Nitroreductase-like Family Protein from Bacillus cereus Q81HL8 Q81HL8 2.3 X-RAY DIFFRACTION 10 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 181 181 2i7h-a4-m1-cB_2i7h-a4-m1-cC TTYTSIANVIKERRSVRTFTDKAVEKDLLIELLNDATWAPNHKHREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYNEDPRQIQRDEDYAATCAFQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKEIIE TTYTSIANVIKERRSVRTFTDKAVEKDLLIELLNDATWAPNHKHREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYNEDPRQIQRDEDYAATCAFQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKEIIE 2i7h-a5-m1-cE_2i7h-a5-m2-cF Crystal Structure of the Nitroreductase-like Family Protein from Bacillus cereus Q81HL8 Q81HL8 2.3 X-RAY DIFFRACTION 15 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 181 183 2i7h-a4-m1-cA_2i7h-a4-m1-cC 2i7h-a4-m1-cB_2i7h-a4-m1-cD 2i7h-a5-m2-cE_2i7h-a5-m1-cF TTYTSIANVIKERRSVRTFTDKAVEKDLLIELLNDATWAPNHKHREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYNEDPRQIQRDEDYAATCAFQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKEIIE ATTYTSIANVIKERRSVRTFTDKAVEKDLLIELLNDATWAPNHKHREPWNCKLYIGEGRKKLVDAVLNSFTEEERAKRGKILSDRFLSTPAQIVVYNEDPRQIQRDEDYAATCAFQNFQLLAWERGLGCVWKSGGLNYNPLFIEGIGLTRGQRIVGILHIGYFDKAPEGKARTPITEKEIIEG 2i7n-a1-m1-cA_2i7n-a1-m1-cB Crystal structure of human PANK1 alpha: the catalytic core domain in complex with AcCoA Q8TE04 Q8TE04 1.9 X-RAY DIFFRACTION 138 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 325 333 FPWFGMDIGGTLVKLVYFEPKDLKSIRKYLTSNTAYGKTGIRDVHLELKNLTMRKGNLHFIRFPSCAMHRFIQMGCATGGGAFKFEEDFLHKLDELDCLIQGLLYVDSVGFNGKPECYYFENPTNPELCQKKPYCLDNPYPMLLVNMGSGVSILAVYSKDNYKRVTGTSLGGGTFLGLCCLLTGCETFEEALEMAAKGDSTNVDKLVKDIYGGDYERFGLQGSAVASSFGNMMSKEKRDSISKEDLARATLVTITNNIGSIARMCALNENIDRVVFVGNFLRINMVSMKLLAYAMDFWSKGQLKALFLEHEGYFGAVGALLELFK PPFPWFGMDIGGTLVKLVYFEPKDIKSIRKYLTSNTAYGKTGIRDVHLELKNLTMRKGNLHFIRFPSCAMHRFIQMCATGGGAFKFEEDFRMIADLQLHKLDELDCLIQGLLYVDSVGFNGKPECYYFENPTNPELCQKKPYCLDNPYPMLLVNMGSGVSILAVYSKDNYKRVTGTSLGGGTFLGLCCLLTGCETFEEALEMAAKGDSTNVDKLVKDIYGGDYERFGLQGSAVASSFGNMMSKEKRDSISKEDLARATLVTITNNIGSIARMCALNENIDRVVFVGNFLRINMVSMKLLAYAMDFWSKGQLKALFLEHEGYFGAVGALLELFK 2i7r-a1-m1-cA_2i7r-a1-m1-cB conserved domain protein A0A0H2UP77 A0A0H2UP77 2.2 X-RAY DIFFRACTION 129 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 112 112 NLNQLDIIVSNVPQVCADLEHILDKKADYANDGFAQFTIGSHCLLSQNHLVPLENFQSGIIIHIEVEDVDQNYKRLNELGIKVLHGPTVTDWGTESLLVQGPAGLVLDFYRK NLNQLDIIVSNVPQVCADLEHILDKKADYANDGFAQFTIGSHCLLSQNHLVPLENFQSGIIIHIEVEDVDQNYKRLNELGIKVLHGPTVTDWGTESLLVQGPAGLVLDFYRK 2i7u-a1-m1-cA_2i7u-a1-m1-cB Structural and Dynamical Analysis of a Four-Alpha-Helix Bundle with Designed Anesthetic Binding Pockets NOT SOLUTION NMR 60 1.0 62 62 MKKLREEAAKLFEEWKKLAEEAAKLLEGGGGGGGGELMKLCEEAAKKAEELFKLAEERLKKL MKKLREEAAKLFEEWKKLAEEAAKLLEGGGGGGGGELMKLCEEAAKKAEELFKLAEERLKKL 2i87-a1-m1-cB_2i87-a1-m1-cA Allosteric inhibition of Staphylococcus aureus D-alanine:D-alanine ligase revealed by crystallographic studies Q5HEB7 Q5HEB7 2 X-RAY DIFFRACTION 144 0.994 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 344 345 2i80-a1-m1-cA_2i80-a1-m1-cB 2i8c-a1-m1-cA_2i8c-a1-m1-cB 3n8d-a1-m1-cA_3n8d-a1-m1-cB KENICIVFGGKSAEHEVSILTAQNVLNAIDKDKYHVDIIYITNDGDWRKQNNITAEIKSTDELHLENGELEISQLLKESSSGQPYDAVFPLLHGPEDGTIQGLFEVLDVPYVGNGVLSAASSMDKLVMKQLFEHRGLPQLPYISFLRSEYEKYEHNILKLVNDKLNYPVFVKPANLGSSVGISKCNNEAELKEGIKEAFQFDRKLVIEQGVNAREIEVAVLGNDYPEATWPGEVVKDVAFVQLQIPADLDEDVQLTLRNMALEAFKATDCSGLVRADFFVTEDNQIYINETNAMPGFTAFSMYPKLWENMGLSYPELITKLIELAKERHQDKQKNKYKIDRSHH KENICIVFGGKSAEHEVSILTAQNVLNAIDKDKYHVDIIYITNDGDWRKQNNITAEIKSTDELHLENGEALEISQLLKESSSGQPYDAVFPLLHGPNGEDGTIQGLFEVLDVPYVGNGVLSAASSMDKLVMKQLFEHRGLPQLPYISFLRSEYEKYEHNILKLVNDKLNYPVFVKPANLGSSVGISKCNNEAELKEGIKEAFQFDRKLVIEQGVNAREIEVAVLGNDYPEATWPGEVVKDVAFVQLQIPADLDEDVQLTLRNMALEAFKATDCSGLVRADFFVTEDNQIYINETNAMPGFTAFSMYPKLWENMGLSYPELITKLIELAKERHQDKQKNKYKIDRS 2i8b-a1-m1-cA_2i8b-a1-m1-cB Crystal structure of the C-terminal domain of Ebola virus VP30 Q77DJ5 Q77DJ5 2 X-RAY DIFFRACTION 127 1.0 186538 (Zaire ebolavirus) 186538 (Zaire ebolavirus) 125 130 GAITLLTLIKTAEHWARQDIRTIEDSKLRALLTLCAVTRKFSKSQLSLLCETHLRREGLGQDQAEPVLEVYQRLHSDKGGSFEAALWQQWDRQSLIFITAFLNIALQLPCESSAVVVSGLRTLVP NLYFQGAITLLTLIKTAEHWARQDIRTIEDSKLRALLTLCAVTRKFSKSQLSLLCETHLRREGLGQDQAEPVLEVYQRLHSDKGGSFEAALWQQWDRQSLIFITAFLNIALQLPCESSAVVVSGLRTLVP 2i8d-a1-m1-cA_2i8d-a1-m1-cB Crystal structure of an uncharacterized conserved protein of COG5646 (ZP_00384875.1) from Lactobacillus casei ATCC 334 at 1.69 A resolution Q035U5 Q035U5 1.69 X-RAY DIFFRACTION 224 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 117 117 GSLAEWYQRIPTPDDLTRVESLFANQAQFPQLKLEFKWNQPFTDHGTFIGFNPSKKHLAVAIEPQTTRFIPQIDKAGYDHSQIIRFPWHKPLDEQLIHDLIAYTIDQKKDATTFWQR GSLAEWYQRIPTPDDLTRVESLFANQAQFPQLKLEFKWNQPFTDHGTFIGFNPSKKHLAVAIEPQTTRFIPQIDKAGYDHSQIIRFPWHKPLDEQLIHDLIAYTIDQKKDATTFWQR 2i99-a1-m1-cB_2i99-a1-m1-cA Crystal structure of human Mu_crystallin at 2.6 Angstrom Q14894 Q14894 2.6 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 311 312 RVPAFLSAAEVEEHLRSSSLLIPPLETALANFSSGPEGGVMQPVRTVVPVTKHRGYLGVMPAYSAAEDALTTKLVTFYEDRGITSVVPSHQATVLLFEPSNGTLLAVMDGNVITAKRTAAVSAIATKFLKPPSSEVLCILGAGVQAYSHYEIFTEQFSFKEVRIWNRTKENAEKFADTVQGEVRVCSSVQEAVAGADVIITVTLATEPILFGEWVKPGAHINAVGASRPDWRELDDELMKEAVLYVDSQEAALKESGDVLLSGAEIFAELGEVIKGVKPAHCEKTTVFKSLGMAVEDTVAAKLIYDSWSSG SRVPAFLSAAEVEEHLRSSSLLIPPLETALANFSSGPEGGVMQPVRTVVPVTKHRGYLGVMPAYSAAEDALTTKLVTFYEDRGITSVVPSHQATVLLFEPSNGTLLAVMDGNVITAKRTAAVSAIATKFLKPPSSEVLCILGAGVQAYSHYEIFTEQFSFKEVRIWNRTKENAEKFADTVQGEVRVCSSVQEAVAGADVIITVTLATEPILFGEWVKPGAHINAVGASRPDWRELDDELMKEAVLYVDSQEAALKESGDVLLSGAEIFAELGEVIKGVKPAHCEKTTVFKSLGMAVEDTVAAKLIYDSWSSG 2i9d-a1-m1-cB_2i9d-a1-m1-cC chloramphenicol acetyltransferase Q8A336 Q8A336 2.3 X-RAY DIFFRACTION 64 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 189 189 SNAKQIIDIENWERKENFNFFRHFQNPQLSITSEVECGGARQRAKAAGQSFFLHYLYAVLRAANEIPEFRYRIDPDGRVVLYDTIDLSPIFFTTRFPYHNDFDTFYQEARLIIDAGDYGLILLSATPDLYFTSITGTQEKRSGNNYPLLNAGKAIIREGRLVPIATIHHGFIDGHHLSLFYKKVEDFLK SNAKQIIDIENWERKENFNFFRHFQNPQLSITSEVECGGARQRAKAAGQSFFLHYLYAVLRAANEIPEFRYRIDPDGRVVLYDTIDLSPIFFTTRFPYHNDFDTFYQEARLIIDAGDYGLILLSATPDLYFTSITGTQEKRSGNNYPLLNAGKAIIREGRLVPIATIHHGFIDGHHLSLFYKKVEDFLK 2i9d-a1-m1-cC_2i9d-a1-m1-cA chloramphenicol acetyltransferase Q8A336 Q8A336 2.3 X-RAY DIFFRACTION 64 0.984 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 189 210 2i9d-a1-m1-cB_2i9d-a1-m1-cA SNAKQIIDIENWERKENFNFFRHFQNPQLSITSEVECGGARQRAKAAGQSFFLHYLYAVLRAANEIPEFRYRIDPDGRVVLYDTIDLSPIFFTTRFPYHNDFDTFYQEARLIIDAGDYGLILLSATPDLYFTSITGTQEKRSGNNYPLLNAGKAIIREGRLVPIATIHHGFIDGHHLSLFYKKVEDFLK KQIIDIENWERKENFNFFRHFQNPQLSITSEVECGGARQRAKAAGQSFFLHYLYAVLRAANEIPEFRYRIDPDGRVVLYDTIDLSPIKIKENGKFFTTRFPYHNDFDTFYQEARLIIDAIPEDGDPYAAENEEVADGDYGLILLSATPDLYFTSITGTQEKRSGNNYPLLNAGKAIIREGRLVPIATIHHGFIDGHHLSLFYKKVEDFLK 2i9e-a2-m1-cC_2i9e-a2-m1-cD Structure of Triosephosphate Isomerase of Tenebrio molitor Q8MPF2 Q8MPF2 2 X-RAY DIFFRACTION 127 1.0 7067 (Tenebrio molitor) 7067 (Tenebrio molitor) 246 248 2i9e-a1-m1-cA_2i9e-a1-m1-cB ARKFVVGGNWKMNGDKKQINEIIGFLKSGPLNQDTEVVVGVPAIYLELVRTCVPASIGVAAQNCYKVPKGAFTGEISPAMIKDVGADWVILGHSERRQIFGESDELIAEKVCHALESGLKVIACIGETLEEREAGKTEEVVFRQTKAIAAKVNDWSNVVIAYEPVWAIGTGKTATPQQAQDVHKALRQWICENIDAKVGNSIRIQYGGSVTAANCKELASQPDIDGFLVGGASLKPEFVDIINARQ ARKFVVGGNWKMNGDKKQINEIIGFLKSGPLNQDTEVVVGVPAIYLELVRTCVPASIGVAAQNCYKVPKGAFTGEISPAMIKDVGADWVILGHSERRQIFGESDELIAEKVCHALESGLKVIACIGETLEEREAGKTEEVVFRQTKAIAAKVNDWSNVVIAYEPVWAIGTGKTATPQQAQDVHKALRQWICENIDAKVGNSIRIQYGGSVTAANCKELASQPDIDGFLVGGASLKPEFVDIINARQLV 2i9f-a2-m2-cC_2i9f-a2-m2-cA Structure of the equine arterivirus nucleocapsid protein P19810 P19810 2 X-RAY DIFFRACTION 24 1.0 11047 (Equine arteritis virus) 11047 (Equine arteritis virus) 54 58 2i9f-a1-m1-cC_2i9f-a1-m1-cA 2i9f-a2-m1-cB_2i9f-a2-m2-cB 2i9f-a2-m1-cC_2i9f-a2-m1-cA PGDLRHDLNQQERATLSSNVQRFFIGHGSLTADAGGLTYTVSWVPTKQIQRKVA HHHEPGDLRHDLNQQERATLSSNVQRFFIGHGSLTADAGGLTYTVSWVPTKQIQRKVA 2i9f-a2-m2-cC_2i9f-a2-m2-cB Structure of the equine arterivirus nucleocapsid protein P19810 P19810 2 X-RAY DIFFRACTION 24 1.0 11047 (Equine arteritis virus) 11047 (Equine arteritis virus) 54 57 2i9f-a1-m1-cA_2i9f-a1-m1-cD 2i9f-a1-m1-cC_2i9f-a1-m1-cB 2i9f-a2-m1-cA_2i9f-a2-m1-cD 2i9f-a2-m1-cB_2i9f-a2-m2-cA 2i9f-a2-m1-cC_2i9f-a2-m1-cB 2i9f-a2-m2-cA_2i9f-a2-m2-cD 2i9f-a2-m2-cB_2i9f-a2-m1-cA PGDLRHDLNQQERATLSSNVQRFFIGHGSLTADAGGLTYTVSWVPTKQIQRKVA HHEPGDLRHDLNQQERATLSSNVQRFFIGHGSLTADAGGLTYTVSWVPTKQIQRKVA 2i9f-a2-m2-cC_2i9f-a2-m2-cD Structure of the equine arterivirus nucleocapsid protein P19810 P19810 2 X-RAY DIFFRACTION 112 1.0 11047 (Equine arteritis virus) 11047 (Equine arteritis virus) 54 58 2i9f-a1-m1-cB_2i9f-a1-m1-cA 2i9f-a1-m1-cC_2i9f-a1-m1-cD 2i9f-a2-m1-cB_2i9f-a2-m1-cA 2i9f-a2-m1-cC_2i9f-a2-m1-cD 2i9f-a2-m2-cB_2i9f-a2-m2-cA PGDLRHDLNQQERATLSSNVQRFFIGHGSLTADAGGLTYTVSWVPTKQIQRKVA HHHEPGDLRHDLNQQERATLSSNVQRFFIGHGSLTADAGGLTYTVSWVPTKQIQRKVA 2i9i-a1-m1-cA_2i9i-a1-m2-cA Crystal Structure of Helicobacter pylori protein HP0492 O25234 O25234 1.8 X-RAY DIFFRACTION 108 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 221 221 ERMKTSSEHVTPLDFNYPIHIVQAPQNHHVVGILTPRIQVSDNLKPYIDKFQDALINQIQTIFEKRGYQVLRFQDEKALNAQDKRKIFSVLDLKGWVGILEDLKMNLKDPNNPNLDTLVDQSSGSVWFNFYEPESNRVVHDFAVEVGTFQAMTYTYKHNNSGGLNSSNSIIHEYLEKNKEDAIHKILNRMYAVVMKKAVTELTKENIDKYREAIDRMKGFK ERMKTSSEHVTPLDFNYPIHIVQAPQNHHVVGILTPRIQVSDNLKPYIDKFQDALINQIQTIFEKRGYQVLRFQDEKALNAQDKRKIFSVLDLKGWVGILEDLKMNLKDPNNPNLDTLVDQSSGSVWFNFYEPESNRVVHDFAVEVGTFQAMTYTYKHNNSGGLNSSNSIIHEYLEKNKEDAIHKILNRMYAVVMKKAVTELTKENIDKYREAIDRMKGFK 2i9p-a1-m1-cC_2i9p-a1-m1-cB Crystal structure of human hydroxyisobutyrate dehydrogenase complexed with NAD+ P31937 P31937 2.55 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 296 2gf2-a3-m1-cB_2gf2-a3-m1-cD 2gf2-a3-m1-cC_2gf2-a3-m1-cA 2i9p-a1-m1-cA_2i9p-a1-m1-cD MPVGFIGLGNMGNPMAKNLMKHGYPLIIYDVFPDACKEFQDAGEQVVSSPADVAEKADRIITMLPTSINAIEAYSGANGILKKVKKGSLLIDSSTIDPAVSKELAKEVEKMGAVFMDAPVSGGVGAARSGNLTFMVGGVEDEFAAAQELLGCMGSNVVYCGAVGTGQAAKICNNMLLAISMIGTAEAMNLGIRLGLDPKLLAKILNMSSGRCWSSDTYNPVPGVMDGVPSANNYQGGFGTTLMAKDLGLAQDSATSTKSPILLGSLAHQIYRMMCAKGYSKKDFSSVFQFLRE MPVGFIGLGNMGNPMAKNLMKHGYPLIIYDVFPDACKEFQDAGEQVVSSPADVAEKADRIITMLPTSINAIEAYSGANGILKKVKKGSLLIDSSTIDPAVSKELAKEVEKMGAVFMDAPVSGGVGAARSGNLTFMVGGVEDEFAAAQELLGCMGSNVVYCGAVGTGQAAKICNNMLLAISMIGTAEAMNLGIRLGLDPKLLAKILNMSSGRCWSSDTYNPVPGVMDGVPSANNYQGGFGTTLMAKDLGLAQDSATSTKSPILLGSLAHQIYRMMCAKGYSKKDFSSVFQFLREEET 2i9u-a1-m1-cA_2i9u-a1-m1-cB Crystal Structure of Guanine Deaminase from C. acetobutylicum with bound guanine in the active site Q97MB6 Q97MB6 2.05 X-RAY DIFFRACTION 83 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 419 419 NLKIFKGNLIFTKTSDKFTIMKDSYIVVIDGKIASVSSNLPDKYKGNPIIDFRNNIIIPGMNDLHAHASQYKNLGIGMDKELLPWLNNYTFPEEAKFLNVDYAKKTYGRLIKDLIKNGTTRVALFATLHKDSTIELFNMLIKSGIGAYVGKVNMDYNCPDYLTENYITSLNDTEEIILKYKDKSNIVKPIITPRFVPSCSNELMDGLGKLSYKYRLPVQSHLSENLDEIAVVKSLHKKSNFYGEVYDKFGLFGNTPTLMAHCIHSSKEEINLIKRNNVTIVHCPTSNFNLGSGMMPVRKYLNLGINVVLGSDISAGHTCSLFKVIAYAIQNSKIKWQESGKKDMFLSTSEAFYMATKKGGSFFGKVGSFEEGYDFDALVINDSNLYPEDYDLTERLERFIYLGDDRNIMKRYVCGNEIF NLKIFKGNLIFTKTSDKFTIMKDSYIVVIDGKIASVSSNLPDKYKGNPIIDFRNNIIIPGMNDLHAHASQYKNLGIGMDKELLPWLNNYTFPEEAKFLNVDYAKKTYGRLIKDLIKNGTTRVALFATLHKDSTIELFNMLIKSGIGAYVGKVNMDYNCPDYLTENYITSLNDTEEIILKYKDKSNIVKPIITPRFVPSCSNELMDGLGKLSYKYRLPVQSHLSENLDEIAVVKSLHKKSNFYGEVYDKFGLFGNTPTLMAHCIHSSKEEINLIKRNNVTIVHCPTSNFNLGSGMMPVRKYLNLGINVVLGSDISAGHTCSLFKVIAYAIQNSKIKWQESGKKDMFLSTSEAFYMATKKGGSFFGKVGSFEEGYDFDALVINDSNLYPEDYDLTERLERFIYLGDDRNIMKRYVCGNEIF 2i9x-a1-m1-cB_2i9x-a1-m1-cA Structural Genomics, the crystal structure of SpoVG conserved domain from Staphylococcus epidermidis ATCC 12228 Q8CML1 Q8CML1 1.8 X-RAY DIFFRACTION 64 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 80 81 2i9z-a1-m1-cB_2i9z-a1-m1-cA AKVTDVRLRKIQTDGRKALVSITLDEAFVIHDLRVIEGNSGLFVAPSKRTPDGEFRDIAHPINSDRQEIQDAVKVYDETD NAKVTDVRLRKIQTDGRKALVSITLDEAFVIHDLRVIEGNSGLFVAPSKRTPDGEFRDIAHPINSDRQEIQDAVKVYDETD 2ia0-a1-m1-cB_2ia0-a1-m1-cA Transcriptional Regulatory Protein PF0864 From Pyrococcus Furiosus a Member of the ASNC Family (PF0864) Q8U2H1 Q8U2H1 2.37 X-RAY DIFFRACTION 197 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 153 156 HLDDLDRNILRLLKKDARLTISELSEQLKKPESTIHFRIKKLQERGVIERYTIILGEQLKPKHLALIVLEVGDFLERYISYISSTLSALPGVLFVAKSGEDKIIALVGKNNKDELVKFIEENITSIPNLKHIQIFPITEIKKGEDLTGFLAEV HLDDLDRNILRLLKKDARLTISELSEQLKKPESTIHFRIKKLQERGVIERYTIILGEQLKPKHLALIVLEVGKPEDFLERYISYISSTLSALPGVLFVAKSGEDKIIALVGKNNKDELVKFIEENITSIPNLKHIQIFPITEIKKGEDLTGFLAEV 2ia1-a1-m1-cA_2ia1-a1-m1-cB Crystal structure of protein BH3703 from Bacillus halodurans, Pfam DUF600 Q9K6M5 Q9K6M5 1.59 X-RAY DIFFRACTION 53 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 169 170 3i0t-a1-m1-cA_3i0t-a1-m1-cB SLEKQIESYYQEIAQLIIDMIPEEWAEVRFYAQEDHDGWKIFFFHYLSASSDEWTKDIDIRDVIKVPQDEFMEKYNELSFCISDFRKDYAEAFGEPWMSFQMTFYASGKFNIDFYYDKNPFDTFLTRLAWQYEHFGTIPDSFYKETLNEYLEEKAQGKRYPFLEPLHHH SLEKQIESYYQEIAQLIIDMIPEEWAEVRFYAQEDHDGWKIFFFHYLSASSDEWTKDIDIRDVIKVPQDEFMEKYNELSFCISDFRKDYAEAFGEPWMSFQMTFYASGKFNIDFYYDKNPFDTFLTRLAWQYEHFGTIPDSFYKETLNEYLEEKAQGKRYPFLEPLHHHH 2ia2-a3-m1-cB_2ia2-a3-m1-cA The crystal structure of a putative transcriptional regulator RHA06195 from Rhodococcus sp. RHA1 Q0SH23 Q0SH23 2.1 X-RAY DIFFRACTION 14 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 243 247 VQSLARGLAVIRCFDHRNQRRTLSDVARLTRATARRFLLTLVELGYVATDGSAFWLTPRVLELGYSYLSSLSLPEVAQPHLEKLSHKVHESSSVSILDGADIVYVARVPVSRITVGITIGTRLPAYATSGRVLLAGLPDDELDAYLEKLDIQRLTERTITARDELKAAILAVRADGICVLDQELEAGLRSAAPIRGASGLTVAAVNISTPAARYSLEDLHSDLIPSLRVTATDIEQDLATVNR YVQSLARGLAVIRCFDHRNQRRTLSDVARATDLTRATARRFLLTLVELGYVATDGSAFWLTPRVLELGYSYLSSLSLPEVAQPHLEKLSHKVHESSSVSILDGADIVYVARVPVSRITVGITIGTRLPAYATSGRVLLAGLPDDELDAYLEKLDIQRLTERTITARDELKAAILAVRADGICVLDQELEAGLRSAAPIRGASGLTVAAVNISTPAARYSLEDLHSDLIPSLRVTATDIEQDLATVNR 2ia2-a3-m1-cD_2ia2-a3-m1-cA The crystal structure of a putative transcriptional regulator RHA06195 from Rhodococcus sp. RHA1 Q0SH23 Q0SH23 2.1 X-RAY DIFFRACTION 145 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 242 247 2ia2-a1-m1-cD_2ia2-a1-m1-cA 2ia2-a2-m1-cB_2ia2-a2-m1-cC 2ia2-a3-m1-cB_2ia2-a3-m1-cC YVQSLARGLAVIRCFDHRNQRRTLSDVARATDLTRATARRFLLTLVELGYVAAFWLTPRVLELGYSYLSSLSLPEVAQPHLEKLSHKVHESSSVSILDGADIVYVARVPVSRITVGITIGTRLPAYATSGRVLLAGLPDDELDAYLEKLDIQRLTERTITARDELKAAILAVRADGICVLDQELEAGLRSAAPIRGASGLTVAAVNISTPAARYSLEDLHSDLIPSLRVTATDIEQDLATVN YVQSLARGLAVIRCFDHRNQRRTLSDVARATDLTRATARRFLLTLVELGYVATDGSAFWLTPRVLELGYSYLSSLSLPEVAQPHLEKLSHKVHESSSVSILDGADIVYVARVPVSRITVGITIGTRLPAYATSGRVLLAGLPDDELDAYLEKLDIQRLTERTITARDELKAAILAVRADGICVLDQELEAGLRSAAPIRGASGLTVAAVNISTPAARYSLEDLHSDLIPSLRVTATDIEQDLATVNR 2ia2-a3-m1-cD_2ia2-a3-m1-cB The crystal structure of a putative transcriptional regulator RHA06195 from Rhodococcus sp. RHA1 Q0SH23 Q0SH23 2.1 X-RAY DIFFRACTION 44 0.983 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 242 243 2ia2-a3-m1-cC_2ia2-a3-m1-cA YVQSLARGLAVIRCFDHRNQRRTLSDVARATDLTRATARRFLLTLVELGYVAAFWLTPRVLELGYSYLSSLSLPEVAQPHLEKLSHKVHESSSVSILDGADIVYVARVPVSRITVGITIGTRLPAYATSGRVLLAGLPDDELDAYLEKLDIQRLTERTITARDELKAAILAVRADGICVLDQELEAGLRSAAPIRGASGLTVAAVNISTPAARYSLEDLHSDLIPSLRVTATDIEQDLATVN VQSLARGLAVIRCFDHRNQRRTLSDVARLTRATARRFLLTLVELGYVATDGSAFWLTPRVLELGYSYLSSLSLPEVAQPHLEKLSHKVHESSSVSILDGADIVYVARVPVSRITVGITIGTRLPAYATSGRVLLAGLPDDELDAYLEKLDIQRLTERTITARDELKAAILAVRADGICVLDQELEAGLRSAAPIRGASGLTVAAVNISTPAARYSLEDLHSDLIPSLRVTATDIEQDLATVNR 2ia9-a2-m1-cC_2ia9-a2-m1-cD Structural Genomics, the crystal structure of SpoVG from Bacillus subtilis subsp. subtilis str. 168 P28015 P28015 3 X-RAY DIFFRACTION 76 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 83 96 2ia9-a1-m1-cA_2ia9-a1-m1-cB NAEVTDVRLRRVNTDGRRAIASITLDHEFVVHDIRVIDGNNGLFVAPSKRDGEFRDITHPINSSTRGKIQDAVLNEYHRLGDT NAEVTDVRLRRVNTDGRRAIASITLDHEFVVHDIRVIDGNNGLFVAPSKRTPDGEFRDITHPINSSTRGKIQDAVLNEYHRLGDTEALEFEEAGAS 2iab-a2-m1-cA_2iab-a2-m2-cA Crystal structure of a protein with FMN-binding split barrel fold (NP_828636.1) from Streptomyces avermitilis at 2.00 A resolution Q825J7 Q825J7 2 X-RAY DIFFRACTION 17 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 152 152 TTPPARTAKQRIQDTLNRLELDVDAWVSTAGADGGAPYLVPLSYLWDGETFLVATPAASPTGRNLSETGRVRLGIGPTRDLVLVEGTALPLEPAGLPDGVGDTFAEKTGFDPRRLTTSYLYFRISPRRVQAWREANELSGRELRDGEWLVTD TTPPARTAKQRIQDTLNRLELDVDAWVSTAGADGGAPYLVPLSYLWDGETFLVATPAASPTGRNLSETGRVRLGIGPTRDLVLVEGTALPLEPAGLPDGVGDTFAEKTGFDPRRLTTSYLYFRISPRRVQAWREANELSGRELRDGEWLVTD 2iab-a2-m2-cB_2iab-a2-m1-cA Crystal structure of a protein with FMN-binding split barrel fold (NP_828636.1) from Streptomyces avermitilis at 2.00 A resolution Q825J7 Q825J7 2 X-RAY DIFFRACTION 42 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 149 152 2iab-a2-m1-cB_2iab-a2-m2-cA TTPPARTAKQRIQDTLNRLELDVDAWVSTAGADGGAPYLVPLSYLWDGETFLVATPAASPTGRNLSETGRVRLGIGPTRDLVLVEGTALPLEPAGLPDGVGDTFAEKTGFDPRRLTTSYLYFRISPRRVQAWREANELSGRELRDGEWL TTPPARTAKQRIQDTLNRLELDVDAWVSTAGADGGAPYLVPLSYLWDGETFLVATPAASPTGRNLSETGRVRLGIGPTRDLVLVEGTALPLEPAGLPDGVGDTFAEKTGFDPRRLTTSYLYFRISPRRVQAWREANELSGRELRDGEWLVTD 2iab-a2-m2-cB_2iab-a2-m2-cA Crystal structure of a protein with FMN-binding split barrel fold (NP_828636.1) from Streptomyces avermitilis at 2.00 A resolution Q825J7 Q825J7 2 X-RAY DIFFRACTION 95 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 149 152 2iab-a1-m1-cB_2iab-a1-m1-cA 2iab-a2-m1-cB_2iab-a2-m1-cA TTPPARTAKQRIQDTLNRLELDVDAWVSTAGADGGAPYLVPLSYLWDGETFLVATPAASPTGRNLSETGRVRLGIGPTRDLVLVEGTALPLEPAGLPDGVGDTFAEKTGFDPRRLTTSYLYFRISPRRVQAWREANELSGRELRDGEWL TTPPARTAKQRIQDTLNRLELDVDAWVSTAGADGGAPYLVPLSYLWDGETFLVATPAASPTGRNLSETGRVRLGIGPTRDLVLVEGTALPLEPAGLPDGVGDTFAEKTGFDPRRLTTSYLYFRISPRRVQAWREANELSGRELRDGEWLVTD 2iad-a1-m2-cB_2iad-a1-m1-cB CLASS II MHC I-AD IN COMPLEX WITH AN INFLUENZA HEMAGGLUTININ PEPTIDE 126-138 P01921 P01921 2.4 X-RAY DIFFRACTION 52 1.0 10090 (Mus musculus) 10090 (Mus musculus) 201 201 GHATQGVTAASSHERHFVVQFKGECYYTNGTQRIRLVTRYIYNREEYVRYDSDVGEYRAVTELGRPDAEYWNSQPEILERTRAEVDTACRHNYEGPETSTSLRRLEQPNVAISLSRTEALNHHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPHQGEVYTCHVEHPSLKSPITVEWSS GHATQGVTAASSHERHFVVQFKGECYYTNGTQRIRLVTRYIYNREEYVRYDSDVGEYRAVTELGRPDAEYWNSQPEILERTRAEVDTACRHNYEGPETSTSLRRLEQPNVAISLSRTEALNHHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPHQGEVYTCHVEHPSLKSPITVEWSS 2iai-a1-m1-cA_2iai-a1-m2-cA Crystal structure of SCO3833, a member of the TetR transcriptional regulator family from Streptomyces coelicolor A3 Q9XA31 Q9XA31 1.65 X-RAY DIFFRACTION 106 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 196 196 GRENLYFQGTTAKTPETLLSVAVQVFIERGYDGTSEHLSKAAGISKSSIYHHVTGKEELLRRAVSRALDELFGILDEEHARVGTAAERLEYVVRRVEVLAELPYVTLLLRVRGNTGTERWALERRREFDHRVAALLKDAAAEGDVRADVEVRLATRLVFGINSIVEWYRPESGVSGAGEREVVDAVARLVFGGLRK GRENLYFQGTTAKTPETLLSVAVQVFIERGYDGTSEHLSKAAGISKSSIYHHVTGKEELLRRAVSRALDELFGILDEEHARVGTAAERLEYVVRRVEVLAELPYVTLLLRVRGNTGTERWALERRREFDHRVAALLKDAAAEGDVRADVEVRLATRLVFGINSIVEWYRPESGVSGAGEREVVDAVARLVFGGLRK 2iak-a2-m2-cA_2iak-a2-m6-cA Crystal Structure of a protease resistant fragment of the plakin domain of Bullous Pemphigoid Antigen1 (BPAG1) Q91ZU6 Q91ZU6 3 X-RAY DIFFRACTION 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 198 198 2iak-a2-m1-cA_2iak-a2-m4-cA 2iak-a2-m3-cA_2iak-a2-m5-cA QIRKPLLKSSLLDQNLTEEEVNMKFVQDLLNWVDEMQVQLDRTEWGSDLPSVESHLENHKNVHRAIEEFESSLKEAKISEIQMTAPLKLSYTDKLHRLESQYAKLLNTSRNQERHLDTLHNFVTRATNELIWLNEKEESEVAYHAELMRELEQKEESIKAVQEIAEQLLLENHPARLTIEAYRAAMQTQWSWILQLCQ QIRKPLLKSSLLDQNLTEEEVNMKFVQDLLNWVDEMQVQLDRTEWGSDLPSVESHLENHKNVHRAIEEFESSLKEAKISEIQMTAPLKLSYTDKLHRLESQYAKLLNTSRNQERHLDTLHNFVTRATNELIWLNEKEESEVAYHAELMRELEQKEESIKAVQEIAEQLLLENHPARLTIEAYRAAMQTQWSWILQLCQ 2iak-a3-m2-cA_2iak-a3-m3-cA Crystal Structure of a protease resistant fragment of the plakin domain of Bullous Pemphigoid Antigen1 (BPAG1) Q91ZU6 Q91ZU6 3 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 198 198 2iak-a2-m1-cA_2iak-a2-m2-cA 2iak-a2-m1-cA_2iak-a2-m3-cA 2iak-a2-m2-cA_2iak-a2-m3-cA 2iak-a2-m4-cA_2iak-a2-m5-cA 2iak-a2-m4-cA_2iak-a2-m6-cA 2iak-a2-m5-cA_2iak-a2-m6-cA 2iak-a3-m1-cA_2iak-a3-m2-cA 2iak-a3-m1-cA_2iak-a3-m3-cA QIRKPLLKSSLLDQNLTEEEVNMKFVQDLLNWVDEMQVQLDRTEWGSDLPSVESHLENHKNVHRAIEEFESSLKEAKISEIQMTAPLKLSYTDKLHRLESQYAKLLNTSRNQERHLDTLHNFVTRATNELIWLNEKEESEVAYHAELMRELEQKEESIKAVQEIAEQLLLENHPARLTIEAYRAAMQTQWSWILQLCQ QIRKPLLKSSLLDQNLTEEEVNMKFVQDLLNWVDEMQVQLDRTEWGSDLPSVESHLENHKNVHRAIEEFESSLKEAKISEIQMTAPLKLSYTDKLHRLESQYAKLLNTSRNQERHLDTLHNFVTRATNELIWLNEKEESEVAYHAELMRELEQKEESIKAVQEIAEQLLLENHPARLTIEAYRAAMQTQWSWILQLCQ 2iaz-a1-m1-cA_2iaz-a1-m1-cD Crystal structure of a Conserved Protein of Unknown Function SP1372 from Streptococcus pneumoniae Q97Q59 Q97Q59 2.4 X-RAY DIFFRACTION 61 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 105 110 2iaz-a1-m1-cC_2iaz-a1-m1-cB GSNIYDSANELSRGLRGLPEYKAVKAAKDAIAADAEASKIFTDYLAFQEEIQKLAPDASFQAKEGFGKQIQGNSLLSEFFTKQQQLAIYLSDIEKIVFEPVSELL GSNIYDSANELSRGLRGLPEYKAVKAAKDAIAADAEASKIFTDYLAFQEEIQKLAQTGQPDASFQAKEGFGKQIQGNSLLSEFFTKQQQLAIYLSDIEKIVFEPVSELLK 2iaz-a1-m1-cB_2iaz-a1-m1-cD Crystal structure of a Conserved Protein of Unknown Function SP1372 from Streptococcus pneumoniae Q97Q59 Q97Q59 2.4 X-RAY DIFFRACTION 91 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 110 110 GSNIYDSANELSRGLRGLPEYKAVKAAKDAIAADAEASKIFTDYLAFQEEIQKLAQTGQPDASFQAKEGFGKQIQGNSLLSEFFTKQQQLAIYLSDIEKIVFEPVSELLK GSNIYDSANELSRGLRGLPEYKAVKAAKDAIAADAEASKIFTDYLAFQEEIQKLAQTGQPDASFQAKEGFGKQIQGNSLLSEFFTKQQQLAIYLSDIEKIVFEPVSELLK 2iaz-a1-m1-cC_2iaz-a1-m1-cD Crystal structure of a Conserved Protein of Unknown Function SP1372 from Streptococcus pneumoniae Q97Q59 Q97Q59 2.4 X-RAY DIFFRACTION 14 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 105 110 SNIYDSANELSRGLRGLPEYKAVKAAKDAIAADAEASKIFTDYLAFQEEIQKLAQTGQPDASFQAKEGFGKQIQGNSLLSEFFTKQQQLAIYLSDIEKIVFEPVS GSNIYDSANELSRGLRGLPEYKAVKAAKDAIAADAEASKIFTDYLAFQEEIQKLAQTGQPDASFQAKEGFGKQIQGNSLLSEFFTKQQQLAIYLSDIEKIVFEPVSELLK 2ib0-a1-m1-cB_2ib0-a1-m1-cA Crystal structure of a conserved hypothetical protein, rv2844, from Mycobacterium tuberculosis O05815 O05815 2 X-RAY DIFFRACTION 46 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 132 142 SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVL SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVLGAWPITAAFP 2ib0-a2-m1-cA_2ib0-a2-m2-cA Crystal structure of a conserved hypothetical protein, rv2844, from Mycobacterium tuberculosis O05815 O05815 2 X-RAY DIFFRACTION 24 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 142 142 SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVLGAWPITAAFP SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVLGAWPITAAFP 2ib0-a2-m4-cB_2ib0-a2-m1-cA Crystal structure of a conserved hypothetical protein, rv2844, from Mycobacterium tuberculosis O05815 O05815 2 X-RAY DIFFRACTION 46 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 132 142 2ib0-a2-m3-cB_2ib0-a2-m2-cA SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVL SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVLGAWPITAAFP 2ib0-a2-m4-cB_2ib0-a2-m2-cA Crystal structure of a conserved hypothetical protein, rv2844, from Mycobacterium tuberculosis O05815 O05815 2 X-RAY DIFFRACTION 30 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 132 142 2ib0-a2-m3-cB_2ib0-a2-m1-cA SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVL SEGSADNAALCDALAVEHATIYGYGIVSALSPPGVNFLVADALKQHRHRRDDVIVMLSARGVTAPIAAAGYQLPMQVSSAADAARLAVRMENDGATAWRAVVEHAETADDRVFASTALTESAVMATRWNRVLGAWPITAAFP 2ib5-a1-m1-cB_2ib5-a1-m1-cE Structural characterization of a blue chromoprotein and its yellow mutant from the sea anemone cnidopus japonicus A0AQQ7 A0AQQ7 1.8 X-RAY DIFFRACTION 26 1.0 218 218 2ib6-a1-m1-cB_2ib6-a1-m1-cE 2ib6-a2-m1-cB_2ib6-a2-m1-cE ISDNVRIKLYEGTVNNHHFCEAEGEGKPYEGTQENIKVTKGGPLPFSFDILTPNCSVAITKYTSGIPDYFKQSFPEGFTWERTTIYEDGAYLTTQQETKLDGNCLVYNIKILGCNFPPNGPVQKKTQGWEPCCERYTRDGVLCGQTLALKCADGNHLTCHLRTTYRSKKAAKALQPPFHFSDHRPEIVKVSENGTLFEQHESSVARYCQTCPSKLGHN ISDNVRIKLYEGTVNNHHFCEAEGEGKPYEGTQENIKVTKGGPLPFSFDILTPNCSVAITKYTSGIPDYFKQSFPEGFTWERTTIYEDGAYLTTQQETKLDGNCLVYNIKILGCNFPPNGPVQKKTQGWEPCCERYTRDGVLCGQTLALKCADGNHLTCHLRTTYRSKKAAKALQPPFHFSDHRPEIVKVSENGTLFEQHESSVARYCQTCPSKLGHN 2ib5-a3-m1-cE_2ib5-a3-m1-cH Structural characterization of a blue chromoprotein and its yellow mutant from the sea anemone cnidopus japonicus A0AQQ7 A0AQQ7 1.8 X-RAY DIFFRACTION 84 1.0 218 218 2ib5-a1-m1-cA_2ib5-a1-m1-cD 2ib5-a1-m1-cB_2ib5-a1-m1-cC 2ib5-a1-m1-cE_2ib5-a1-m1-cH 2ib5-a1-m1-cF_2ib5-a1-m1-cG 2ib5-a2-m1-cA_2ib5-a2-m1-cD 2ib5-a2-m1-cB_2ib5-a2-m1-cC 2ib5-a3-m1-cF_2ib5-a3-m1-cG 2ib6-a1-m1-cA_2ib6-a1-m1-cD 2ib6-a1-m1-cB_2ib6-a1-m1-cC 2ib6-a1-m1-cE_2ib6-a1-m1-cH 2ib6-a1-m1-cF_2ib6-a1-m1-cG 2ib6-a2-m1-cA_2ib6-a2-m1-cD 2ib6-a2-m1-cB_2ib6-a2-m1-cC 2ib6-a2-m1-cE_2ib6-a2-m1-cH 2ib6-a2-m1-cF_2ib6-a2-m1-cG 2ib6-a3-m1-cA_2ib6-a3-m1-cD 2ib6-a3-m1-cB_2ib6-a3-m1-cC 2ib6-a3-m1-cF_2ib6-a3-m1-cG ISDNVRIKLYEGTVNNHHFCEAEGEGKPYEGTQENIKVTKGGPLPFSFDILTPNCSVAITKYTSGIPDYFKQSFPEGFTWERTTIYEDGAYLTTQQETKLDGNCLVYNIKILGCNFPPNGPVQKKTQGWEPCCERYTRDGVLCGQTLALKCADGNHLTCHLRTTYRSKKAAKALQPPFHFSDHRPEIVKVSENGTLFEQHESSVARYCQTCPSKLGHN ISDNVRIKLYEGTVNNHHFCEAEGEGKPYEGTQENIKVTKGGPLPFSFDILTPNCSVAITKYTSGIPDYFKQSFPEGFTWERTTIYEDGAYLTTQQETKLDGNCLVYNIKILGCNFPPNGPVQKKTQGWEPCCERYTRDGVLCGQTLALKCADGNHLTCHLRTTYRSKKAAKALQPPFHFSDHRPEIVKVSENGTLFEQHESSVARYCQTCPSKLGHN 2ib5-a3-m1-cG_2ib5-a3-m1-cH Structural characterization of a blue chromoprotein and its yellow mutant from the sea anemone cnidopus japonicus A0AQQ7 A0AQQ7 1.8 X-RAY DIFFRACTION 81 1.0 218 218 2ib5-a1-m1-cA_2ib5-a1-m1-cB 2ib5-a1-m1-cC_2ib5-a1-m1-cD 2ib5-a1-m1-cE_2ib5-a1-m1-cF 2ib5-a1-m1-cG_2ib5-a1-m1-cH 2ib5-a2-m1-cA_2ib5-a2-m1-cB 2ib5-a2-m1-cC_2ib5-a2-m1-cD 2ib5-a3-m1-cE_2ib5-a3-m1-cF 2ib6-a1-m1-cA_2ib6-a1-m1-cB 2ib6-a1-m1-cC_2ib6-a1-m1-cD 2ib6-a1-m1-cE_2ib6-a1-m1-cF 2ib6-a1-m1-cG_2ib6-a1-m1-cH 2ib6-a2-m1-cA_2ib6-a2-m1-cB 2ib6-a2-m1-cC_2ib6-a2-m1-cD 2ib6-a2-m1-cE_2ib6-a2-m1-cF 2ib6-a2-m1-cG_2ib6-a2-m1-cH 2ib6-a3-m1-cA_2ib6-a3-m1-cB 2ib6-a3-m1-cC_2ib6-a3-m1-cD 2ib6-a3-m1-cG_2ib6-a3-m1-cH ISDNVRIKLYEGTVNNHHFCEAEGEGKPYEGTQENIKVTKGGPLPFSFDILTPNCSVAITKYTSGIPDYFKQSFPEGFTWERTTIYEDGAYLTTQQETKLDGNCLVYNIKILGCNFPPNGPVQKKTQGWEPCCERYTRDGVLCGQTLALKCADGNHLTCHLRTTYRSKKAAKALQPPFHFSDHRPEIVKVSENGTLFEQHESSVARYCQTCPSKLGHN ISDNVRIKLYEGTVNNHHFCEAEGEGKPYEGTQENIKVTKGGPLPFSFDILTPNCSVAITKYTSGIPDYFKQSFPEGFTWERTTIYEDGAYLTTQQETKLDGNCLVYNIKILGCNFPPNGPVQKKTQGWEPCCERYTRDGVLCGQTLALKCADGNHLTCHLRTTYRSKKAAKALQPPFHFSDHRPEIVKVSENGTLFEQHESSVARYCQTCPSKLGHN 2ibd-a1-m1-cB_2ibd-a1-m1-cA Crystal structure of Probable transcriptional regulatory protein RHA5900 Q0S7V2 Q0S7V2 1.5 X-RAY DIFFRACTION 104 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 186 190 RRTELLDIAATLFAERGLRATTVRDIADAAGILSGSLYHHFDSKESVDEILRGFLDDLFGKYREIVASGLDSRATLEALVTTSYEAIDASHSAVAIYQDEVKHLVANERFTYLSELNTEFRELWGVLEAGVKDGSFRSDIDVELAFRFLRDTAWVAVRWYRPGGSVTVDTVAKQYLSIVLDGLASP GKSGRRTELLDIAATLFAERGLRATTVRDIADAAGILSGSLYHHFDSKESVDEILRGFLDDLFGKYREIVASGLDSRATLEALVTTSYEAIDASHSAVAIYQDEVKHLVANERFTYLSELNTEFRELWGVLEAGVKDGSFRSDIDVELAFRFLRDTAWVAVRWYRPGGSVTVDTVAKQYLSIVLDGLASP 2ibl-a1-m2-cA_2ibl-a1-m3-cA Crystal structure of a helper molecule (HT-mf-thromb) based on mini-fibritin (mf) crystal structure (pdb:1OX3). Q38650 Q38650 1.32 X-RAY DIFFRACTION 116 1.0 10691 (Enterobacteria phage Ox2) 10691 (Enterobacteria phage Ox2) 108 108 1ox3-a1-m1-cA_1ox3-a1-m2-cA 1ox3-a1-m1-cA_1ox3-a1-m3-cA 1ox3-a1-m2-cA_1ox3-a1-m3-cA 2ibl-a1-m1-cA_2ibl-a1-m2-cA 2ibl-a1-m1-cA_2ibl-a1-m3-cA DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQEAGYIPEAPRDGQAYVRKDGEWVLLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQEAGYIPEAPRDGQAYVRKDGEWVLLSTFL 2ibo-a1-m1-cA_2ibo-a1-m1-cD X-ray Crystal Structure of Protein SP2199 from Streptococcus pneumoniae. Northeast Structural Genomics Consortium Target SpR31 A0A0H2USK2 A0A0H2USK2 2.8 X-RAY DIFFRACTION 54 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 87 87 2ibo-a1-m1-cB_2ibo-a1-m1-cC KASIALQVLPLVQGIDRIAVIDQVIAYLQTQEVTVVTPFETVLEGEFDELRILKEALEVAGQEADNVFANVKINVGEILSIDEKLEK KASIALQVLPLVQGIDRIAVIDQVIAYLQTQEVTVVTPFETVLEGEFDELRILKEALEVAGQEADNVFANVKINVGEILSIDEKLEK 2ibo-a1-m1-cB_2ibo-a1-m1-cD X-ray Crystal Structure of Protein SP2199 from Streptococcus pneumoniae. Northeast Structural Genomics Consortium Target SpR31 A0A0H2USK2 A0A0H2USK2 2.8 X-RAY DIFFRACTION 59 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 87 87 2ibo-a1-m1-cA_2ibo-a1-m1-cC KASIALQVLPLVQGIDRIAVIDQVIAYLQTQEVTVVTPFETVLEGEFDELRILKEALEVAGQEADNVFANVKINVGEILSIDEKLEK KASIALQVLPLVQGIDRIAVIDQVIAYLQTQEVTVVTPFETVLEGEFDELRILKEALEVAGQEADNVFANVKINVGEILSIDEKLEK 2ibo-a1-m1-cC_2ibo-a1-m1-cD X-ray Crystal Structure of Protein SP2199 from Streptococcus pneumoniae. Northeast Structural Genomics Consortium Target SpR31 A0A0H2USK2 A0A0H2USK2 2.8 X-RAY DIFFRACTION 18 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 87 87 KASIALQVLPLVQGIDRIAVIDQVIAYLQTQEVTVVTPFETVLEGEFDELRILKEALEVAGQEADNVFANVKINVGEILSIDEKLEK KASIALQVLPLVQGIDRIAVIDQVIAYLQTQEVTVVTPFETVLEGEFDELRILKEALEVAGQEADNVFANVKINVGEILSIDEKLEK 2ibp-a1-m1-cA_2ibp-a1-m1-cB Crystal Structure of Citrate Synthase from Pyrobaculum aerophilum Q8ZWP2 Q8ZWP2 1.6 X-RAY DIFFRACTION 441 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 407 407 EQTVQVKTTGKILQSPCGPIIHGLEDVLIKSTSISDIDGEKGILWYRGYRIEELARLSTYEEVSYLILYGRLPTKRELEDYINRMKKYRELHPATVEVIRNLAKAHPMFALEAAVAAEGAYDEDNQKLIEALSVGRYKAEEKELAYRIAEKLVAKMPTIVAYHYRFSRGLEVVRPRDDLGHAANFLYMMFGREPDPLASRGIDLYLILHADHEVPASTFAAHVVASTLSDLYSSVAAAIAALKGPLHGGANEMAVRNYLEIGTPAKAKEIVEAATKPGGPKLMGVGHRVYKAYDPRAKIFKEFSRDYVAKFGDPQNLFAIASAIEQEVLSHPYFQQRKLYPNVDFWSGIAFYYMGIPYEYFTPIFAMSRVVGWVAHVLEYWENNRIFRPRACYIGPHDLQYIPLEQR EQTVQVKTTGKILQSPCGPIIHGLEDVLIKSTSISDIDGEKGILWYRGYRIEELARLSTYEEVSYLILYGRLPTKRELEDYINRMKKYRELHPATVEVIRNLAKAHPMFALEAAVAAEGAYDEDNQKLIEALSVGRYKAEEKELAYRIAEKLVAKMPTIVAYHYRFSRGLEVVRPRDDLGHAANFLYMMFGREPDPLASRGIDLYLILHADHEVPASTFAAHVVASTLSDLYSSVAAAIAALKGPLHGGANEMAVRNYLEIGTPAKAKEIVEAATKPGGPKLMGVGHRVYKAYDPRAKIFKEFSRDYVAKFGDPQNLFAIASAIEQEVLSHPYFQQRKLYPNVDFWSGIAFYYMGIPYEYFTPIFAMSRVVGWVAHVLEYWENNRIFRPRACYIGPHDLQYIPLEQR 2iby-a1-m1-cA_2iby-a1-m1-cB Crystallographic and kinetic studies of human mitochondrial acetoacetyl-CoA thiolase (T2): the importance of potassium and chloride for its structure and function P24752 P24752 1.85 X-RAY DIFFRACTION 198 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 390 2f2s-a1-m1-cB_2f2s-a1-m1-cC 2f2s-a1-m1-cD_2f2s-a1-m1-cA 2f2s-a2-m1-cB_2f2s-a2-m1-cC 2f2s-a2-m2-cD_2f2s-a2-m2-cA 2ib7-a1-m1-cA_2ib7-a1-m1-cB 2ib7-a1-m1-cC_2ib7-a1-m1-cD 2ib8-a1-m1-cA_2ib8-a1-m1-cB 2ib8-a1-m1-cC_2ib8-a1-m1-cD 2ib9-a1-m1-cA_2ib9-a1-m1-cB 2ib9-a1-m1-cC_2ib9-a1-m1-cD 2ibu-a1-m1-cA_2ibu-a1-m1-cB 2ibu-a1-m1-cC_2ibu-a1-m1-cD 2ibw-a1-m1-cA_2ibw-a1-m1-cB 2ibw-a1-m1-cC_2ibw-a1-m1-cD 2iby-a1-m1-cC_2iby-a1-m1-cD PTLKEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVKGQPDVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL PTLKEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVKGQPDVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL 2iby-a1-m1-cB_2iby-a1-m1-cC Crystallographic and kinetic studies of human mitochondrial acetoacetyl-CoA thiolase (T2): the importance of potassium and chloride for its structure and function P24752 P24752 1.85 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 392 2f2s-a2-m1-cC_2f2s-a2-m2-cA 2f2s-a2-m2-cD_2f2s-a2-m1-cB 2ib7-a1-m1-cA_2ib7-a1-m1-cD 2ib7-a1-m1-cB_2ib7-a1-m1-cC 2ib8-a1-m1-cA_2ib8-a1-m1-cD 2ib8-a1-m1-cB_2ib8-a1-m1-cC 2ib9-a1-m1-cA_2ib9-a1-m1-cD 2ib9-a1-m1-cB_2ib9-a1-m1-cC 2ibu-a1-m1-cA_2ibu-a1-m1-cD 2ibu-a1-m1-cB_2ibu-a1-m1-cC 2ibw-a1-m1-cA_2ibw-a1-m1-cD 2ibw-a1-m1-cB_2ibw-a1-m1-cC 2iby-a1-m1-cA_2iby-a1-m1-cD PTLKEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVKGQPDVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL SKPTLKEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVKGQPDVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL 2iby-a1-m1-cB_2iby-a1-m1-cD Crystallographic and kinetic studies of human mitochondrial acetoacetyl-CoA thiolase (T2): the importance of potassium and chloride for its structure and function P24752 P24752 1.85 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 392 2f2s-a2-m1-cB_2f2s-a2-m2-cA 2f2s-a2-m2-cD_2f2s-a2-m1-cC 2ib7-a1-m1-cA_2ib7-a1-m1-cC 2ib7-a1-m1-cB_2ib7-a1-m1-cD 2ib8-a1-m1-cA_2ib8-a1-m1-cC 2ib8-a1-m1-cB_2ib8-a1-m1-cD 2ib9-a1-m1-cA_2ib9-a1-m1-cC 2ib9-a1-m1-cB_2ib9-a1-m1-cD 2ibu-a1-m1-cA_2ibu-a1-m1-cC 2ibu-a1-m1-cB_2ibu-a1-m1-cD 2ibw-a1-m1-cA_2ibw-a1-m1-cC 2ibw-a1-m1-cB_2ibw-a1-m1-cD 2iby-a1-m1-cA_2iby-a1-m1-cC PTLKEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVKGQPDVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL SKPTLKEVVIVSATRTPIGSFLGSLSLLPATKLGSIAIQGAIEKAGIPKEEVKEAYMGNVLQGGEGQAPTRQAVLGAGLPISTPCTTINKVASGMKAIMMASQSLMCGHQDVMVAGGMESMSNVPYVMNRGSTPYGGVKLEDLIVKDGLTDVYNKIHMGSCAENTAKKLNIARNEQDAYAINSYTRSKAAWEAGKFGNEVIPVTVTVKGQPDVVVKEDEEYKRVDFSKVPKLKTVFQKENGTVTAANASTLNDGAAALVLMTADAAKRLNVTPLARIVAFADAAVEPIDFPIAPVYAASMVLKDVGLKKEDIAMWEVNEAFSLVVLANIKMLEIDPQKVNINGGAVSLGHPIGMSGARIVGHLTHALKQGEYGLASICNGGGGASAMLIQKL 2icr-a2-m1-cC_2icr-a2-m3-cC Red fluorescent protein zRFP574 from Zoanthus sp. Q9U6Y5 Q9U6Y5 1.51 X-RAY DIFFRACTION 56 1.0 105402 (Zoanthus sp.) 105402 (Zoanthus sp.) 226 226 2fl1-a1-m1-cA_2fl1-a1-m2-cA 2fl1-a1-m1-cD_2fl1-a1-m2-cD 2fl1-a2-m1-cB_2fl1-a2-m3-cB 2fl1-a2-m1-cC_2fl1-a2-m3-cC 2icr-a1-m1-cA_2icr-a1-m2-cA 2icr-a1-m1-cD_2icr-a1-m2-cD 2icr-a2-m1-cB_2icr-a2-m3-cB GSAHGLTDDMTMHFRMEGCVDGHKFVIEGNGNGNPFKGKQFINLCVIEGGPLPFSEDILSAAFNRLFTEYPEGIVDYFKNSCPAGYTWHRSFRFEDGAVCICSADITVNVRENCIYHESTFYGVNFPADGPVMKKMTTNWEPSCEKIIPINSQKILKGDVSMYLLLKDGGRYRCQFDTIYKAKTEPKEMPDWHFIQHKLNREDRSDAKNQKWQLIEHAIASRSALP GSAHGLTDDMTMHFRMEGCVDGHKFVIEGNGNGNPFKGKQFINLCVIEGGPLPFSEDILSAAFNRLFTEYPEGIVDYFKNSCPAGYTWHRSFRFEDGAVCICSADITVNVRENCIYHESTFYGVNFPADGPVMKKMTTNWEPSCEKIIPINSQKILKGDVSMYLLLKDGGRYRCQFDTIYKAKTEPKEMPDWHFIQHKLNREDRSDAKNQKWQLIEHAIASRSALP 2icr-a2-m3-cB_2icr-a2-m3-cC Red fluorescent protein zRFP574 from Zoanthus sp. Q9U6Y5 Q9U6Y5 1.51 X-RAY DIFFRACTION 68 1.0 105402 (Zoanthus sp.) 105402 (Zoanthus sp.) 225 226 2fl1-a1-m1-cA_2fl1-a1-m1-cD 2fl1-a1-m2-cA_2fl1-a1-m2-cD 2fl1-a2-m1-cB_2fl1-a2-m1-cC 2fl1-a2-m3-cB_2fl1-a2-m3-cC 2icr-a1-m1-cA_2icr-a1-m1-cD 2icr-a1-m2-cA_2icr-a1-m2-cD 2icr-a2-m1-cB_2icr-a2-m1-cC SAHGLTDDMTMHFRMEGCVDGHKFVIEGNGNGNPFKGKQFINLCVIEGGPLPFSEDILSAAFNRLFTEYPEGIVDYFKNSCPAGYTWHRSFRFEDGAVCICSADITVNVRENCIYHESTFYGVNFPADGPVMKKMTTNWEPSCEKIIPINSQKILKGDVSMYLLLKDGGRYRCQFDTIYKAKTEPKEMPDWHFIQHKLNREDRSDAKNQKWQLIEHAIASRSALP GSAHGLTDDMTMHFRMEGCVDGHKFVIEGNGNGNPFKGKQFINLCVIEGGPLPFSEDILSAAFNRLFTEYPEGIVDYFKNSCPAGYTWHRSFRFEDGAVCICSADITVNVRENCIYHESTFYGVNFPADGPVMKKMTTNWEPSCEKIIPINSQKILKGDVSMYLLLKDGGRYRCQFDTIYKAKTEPKEMPDWHFIQHKLNREDRSDAKNQKWQLIEHAIASRSALP 2ict-a2-m1-cA_2ict-a2-m2-cA Crystal structure of the bacterial antitoxin HigA from Escherichia coli at pH 8.5. Northeast Structural Genomics TARGET ER390. P67700 P67700 1.63 X-RAY DIFFRACTION 113 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 89 89 2icp-a2-m1-cA_2icp-a2-m2-cA KANHPRPGDIIQESLDELNVSLREFARAEIAPSTASRLLTGKAALTPEAIKLSVVIGSSPQWLNLQNAWSLAEAEKTVDVSRLRRLVTQ KANHPRPGDIIQESLDELNVSLREFARAEIAPSTASRLLTGKAALTPEAIKLSVVIGSSPQWLNLQNAWSLAEAEKTVDVSRLRRLVTQ 2id3-a3-m2-cB_2id3-a3-m1-cA Crystal structure of transcriptional regulator SCO5951 from Streptomyces coelicolor A3(2) O54180 O54180 1.7 X-RAY DIFFRACTION 15 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 189 190 2id3-a3-m1-cB_2id3-a3-m2-cA GRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG GGRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG 2id3-a3-m2-cB_2id3-a3-m2-cA Crystal structure of transcriptional regulator SCO5951 from Streptomyces coelicolor A3(2) O54180 O54180 1.7 X-RAY DIFFRACTION 114 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 189 190 2id3-a1-m1-cB_2id3-a1-m1-cA 2id3-a3-m1-cB_2id3-a3-m1-cA GRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG GGRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG 2id3-a4-m4-cB_2id3-a4-m6-cB Crystal structure of transcriptional regulator SCO5951 from Streptomyces coelicolor A3(2) O54180 O54180 1.7 X-RAY DIFFRACTION 17 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 189 189 2id3-a3-m1-cB_2id3-a3-m2-cB GRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG GRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG 2id3-a4-m6-cB_2id3-a4-m5-cA Crystal structure of transcriptional regulator SCO5951 from Streptomyces coelicolor A3(2) O54180 O54180 1.7 X-RAY DIFFRACTION 45 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 189 190 2id3-a2-m3-cB_2id3-a2-m2-cA 2id3-a2-m4-cB_2id3-a2-m1-cA 2id3-a4-m4-cB_2id3-a4-m1-cA GRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG GGRTARIREAVLLAAGDALAADGFDALDLGEIARRAGVGKTTVYRRWGTPGGLAADLLADAEQSLPRADTGALEEDLRANARLVVRTLDDPRQGRLFRALIAASLCNEQAAEALHRFYAVRVDEWAGCVRDAVARGEVPDGTDPHGVVAAVSAPLYYALLNTGRSLTEADADRAARAASTAARAGVWVTG 2id5-a1-m1-cC_2id5-a1-m1-cB Crystal Structure of the Lingo-1 Ectodomain Q96FE5 Q96FE5 2.698 X-RAY DIFFRACTION 65 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 472 473 2id5-a1-m1-cA_2id5-a1-m1-cB 2id5-a1-m1-cA_2id5-a1-m1-cD 2id5-a1-m1-cD_2id5-a1-m1-cC GCPPRCECSAQDRAVLCHRKRFVAVPEGIPTETRLLDLGKNRIKTLNQDEFASFPHLEELELNENIVSAVEPGAFNNLFNLRTLGLRSNRLKLIPLGVFTGLSNLTKLDISENKIVILLDYMFQDLYNLKSLEVGDNDLVYISHRAFSGLNSLEQLTLEKCNLTSIPTEALSHLHGLIVLRLRHLNINAIRDYSFKRLYRLKVLEISHWPYLDTMTPNCLYGLNLTSLSITHCNLTAVPYLAVRHLVYLRFLNLSYNPISTIEGSMLHELLRLQEIQLVGGQLAVVEPYAFRGLNYLRVLNVSGNQLTTLEESVFHSVGNLETLILDSNPLACDCRLLWVFRRRWRLNFNRQQPTCATPEFVQGKEFKDFPDVLLPNYFTCRRARIRDRKAQQVFVDEGHTVQFVCRADGDPPPAILWLSPRKHLVNGRLTVFPDGTLEVRYAQVQDNGTYLCIAANAGGNDSMPAHLHVRS CPPRCECSAQDRAVLCHRKRFVAVPEGIPTETRLLDLGKNRIKTLNQDEFASFPHLEELELNENIVSAVEPGAFNNLFNLRTLGLRSNRLKLIPLGVFTGLSNLTKLDISENKIVILLDYMFQDLYNLKSLEVGDNDLVYISHRAFSGLNSLEQLTLEKCNLTSIPTEALSHLHGLIVLRLRHLNINAIRDYSFKRLYRLKVLEISHWPYLDTMTPNCLYGLNLTSLSITHCNLTAVPYLAVRHLVYLRFLNLSYNPISTIEGSMLHELLRLQEIQLVGGQLAVVEPYAFRGLNYLRVLNVSGNQLTTLEESVFHSVGNLETLILDSNPLACDCRLLWVFRRRWRLNFNRQQPTCATPEFVQGKEFKDFPDVLLPNYFTCRRARIRDRKAQQVFVDEGHTVQFVCRADGDPPPAILWLSPRKHLVSAKSNGRLTVFPDGTLEVRYAQVQDNGTYLCIAANAGGNDSMPAHLHV 2ide-a2-m1-cJ_2ide-a2-m1-cK Crystal Structure of the molybdenum cofactor biosynthesis protein C (TTHA1789) from Thermus Theromophilus HB8 Q5SHE1 Q5SHE1 1.9 X-RAY DIFFRACTION 53 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 148 148 2ide-a1-m1-cC_2ide-a1-m1-cB 2ide-a1-m1-cD_2ide-a1-m1-cA 2ide-a1-m1-cD_2ide-a1-m1-cE 2ide-a1-m1-cE_2ide-a1-m1-cA 2ide-a1-m1-cF_2ide-a1-m1-cB 2ide-a1-m1-cF_2ide-a1-m1-cC 2ide-a2-m1-cG_2ide-a2-m1-cJ 2ide-a2-m1-cG_2ide-a2-m1-cK 2ide-a2-m1-cH_2ide-a2-m1-cL 2ide-a2-m1-cI_2ide-a2-m1-cH 2ide-a2-m1-cI_2ide-a2-m1-cL 2iih-a1-m1-cA_2iih-a1-m2-cA 2iih-a1-m1-cA_2iih-a1-m3-cA 2iih-a1-m2-cA_2iih-a1-m3-cA 2iih-a1-m4-cA_2iih-a1-m5-cA 2iih-a1-m4-cA_2iih-a1-m6-cA 2iih-a1-m5-cA_2iih-a1-m6-cA 3jqj-a1-m1-cA_3jqj-a1-m1-cD 3jqj-a1-m1-cA_3jqj-a1-m1-cE 3jqj-a1-m1-cC_3jqj-a1-m1-cB 3jqj-a1-m1-cC_3jqj-a1-m1-cF 3jqj-a1-m1-cD_3jqj-a1-m1-cE 3jqj-a1-m1-cF_3jqj-a1-m1-cB 3jqj-a2-m1-cG_3jqj-a2-m1-cJ 3jqj-a2-m1-cG_3jqj-a2-m1-cK 3jqj-a2-m1-cI_3jqj-a2-m1-cH 3jqj-a2-m1-cI_3jqj-a2-m1-cL 3jqj-a2-m1-cJ_3jqj-a2-m1-cK 3jqj-a2-m1-cL_3jqj-a2-m1-cH 3jqk-a1-m1-cA_3jqk-a1-m2-cA 3jqk-a1-m1-cA_3jqk-a1-m3-cA 3jqk-a1-m2-cA_3jqk-a1-m3-cA 3jqk-a1-m4-cA_3jqk-a1-m5-cA 3jqk-a1-m4-cA_3jqk-a1-m6-cA 3jqk-a1-m5-cA_3jqk-a1-m6-cA 3jqm-a1-m1-cA_3jqm-a1-m1-cE 3jqm-a1-m1-cB_3jqm-a1-m2-cA 3jqm-a1-m1-cB_3jqm-a1-m2-cE 3jqm-a1-m2-cA_3jqm-a1-m2-cE 3jqm-a1-m2-cB_3jqm-a1-m1-cA 3jqm-a1-m2-cB_3jqm-a1-m1-cE 3jqm-a2-m1-cC_3jqm-a2-m1-cD 3jqm-a2-m1-cF_3jqm-a2-m1-cG 3jqm-a2-m1-cF_3jqm-a2-m1-cI 3jqm-a2-m1-cG_3jqm-a2-m1-cI 3jqm-a2-m1-cH_3jqm-a2-m1-cC 3jqm-a2-m1-cH_3jqm-a2-m1-cD GRPRMVDVTEKPETFRTATAEAFVELTEEALSALEKGGVGKGDPLVVAQLAGILAAKKTADLIPLCHPLPLTGVEVRVELLKAEKRVRIEATVKTKAETGVEMEAMTACAVAALTVYDMLKAASKGLVISQVRLLHKAGGKSGEWRRE GRPRMVDVTEKPETFRTATAEAFVELTEEALSALEKGGVGKGDPLVVAQLAGILAAKKTADLIPLCHPLPLTGVEVRVELLKAEKRVRIEATVKTKAETGVEMEAMTACAVAALTVYDMLKAASKGLVISQVRLLHKAGGKSGEWRRE 2idg-a4-m1-cB_2idg-a4-m1-cC Crystal Structure of hypothetical protein AF0160 from Archaeoglobus fulgidus O30077 O30077 2.69 X-RAY DIFFRACTION 35 0.994 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 158 159 STIGRAKVYATLSKIFYHLFYDEAIPKDCREIIEKFGEIDFNLRSVLVRELRGSVLIKDPQSLAEVYESVKDFYERYGFQASELHADHIAVELAFSKLVEREISLAQQKEEELYKIRAAQHRFIKAHLQPLVKNLPSAPLLNFVRDFVREDAKYLYSS STIGRAKVYATLSKIFYHLFYDEAIPKDCREIIEKFGEIDFNLRSVLVRELRGSVLIKDPQSLAEVYESVKDFYERYGFQASELHADHIAVELAFSKLVEREISLAQKEEELYKIRAAQHRFIKAHLQPLVKNLPSAPLLNFVRDFVREDAKYLYSSLV 2idl-a1-m1-cA_2idl-a1-m1-cB Crystal Structure of Conserved Protein of Unknown Function from Streptococcus pneumoniae A0A0H2UPY9 A0A0H2UPY9 1.7 X-RAY DIFFRACTION 69 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 113 116 AMIQAVFERAEDGELRSAEITGHAESGEYGLDVVCASVSTLAINFINSIEKFAGYEPILELNEDEGGYLMVEIPKDLPSHQREMTQLFFESFFLGMANLSENYSEFVQTRVIT SNAMIQAVFERAEDGELRSAEITGHAESGEYGLDVVCASVSTLAINFINSIEKFAGYEPILELNEDEGGYLMVEIPKDLPSHQREMTQLFFESFFLGMANLSENYSEFVQTRVITE 2ie7-a1-m2-cA_2ie7-a1-m3-cA Annexin V under 2.0 MPa pressure of nitrous oxide P14668 P14668 1.75 X-RAY DIFFRACTION 26 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 318 318 2ie6-a1-m1-cA_2ie6-a1-m2-cA 2ie6-a1-m1-cA_2ie6-a1-m3-cA 2ie6-a1-m2-cA_2ie6-a1-m3-cA 2ie7-a1-m1-cA_2ie7-a1-m2-cA 2ie7-a1-m1-cA_2ie7-a1-m3-cA ALRGTVTDFSGFDGRADAEVLRKAMKGLGTDEDSILNLLTARSNAQRQQIAEEFKTLFGRDLVNDMKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTDEKVLTEIIASRTPEELRAIKQAYEEEYGSNLEDDVVGDTSGYYQRMLVVLLQANRDPDTAIDDAQVELDAQALFQAGELKWGTDEEKFITILGTRSVSHLRRVFDKYMTISGFQIEETIDRETSGNLENLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVIVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGGEDD ALRGTVTDFSGFDGRADAEVLRKAMKGLGTDEDSILNLLTARSNAQRQQIAEEFKTLFGRDLVNDMKSELTGKFEKLIVALMKPSRLYDAYELKHALKGAGTDEKVLTEIIASRTPEELRAIKQAYEEEYGSNLEDDVVGDTSGYYQRMLVVLLQANRDPDTAIDDAQVELDAQALFQAGELKWGTDEEKFITILGTRSVSHLRRVFDKYMTISGFQIEETIDRETSGNLENLLLAVVKSIRSIPAYLAETLYYAMKGAGTDDHTLIRVIVSRSEIDLFNIRKEFRKNFATSLYSMIKGDTSGDYKKALLLLCGGEDD 2iec-a1-m1-cA_2iec-a1-m1-cD Crystal Structure of uncharacterized conserved archael protein from Methanopyrus kandleri Q8TX89 Q8TX89 2.33 X-RAY DIFFRACTION 28 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 113 117 2iec-a1-m1-cC_2iec-a1-m1-cB LSDRERAIFEAGITLGAIYHQFCGTPVSPGTAEEVAKCIERAALLQPCVIDARVEVDVSSEDTDNYGGYTEVSGRNLRVTIVTRCGEWEAVGKLEFIEELNYPLMWVEEIRRV YFKRLSDRERAIFEAGITLGAIYHQFCGTPVSPGTAEEVAKCIERAALLQPCVIDARVEVDVSSEDTDNYGGYTEVSGRNLRVTIVTRCGEWEAVGKLEFIEELNYPLMWVEEIRRV 2iec-a1-m1-cB_2iec-a1-m1-cD Crystal Structure of uncharacterized conserved archael protein from Methanopyrus kandleri Q8TX89 Q8TX89 2.33 X-RAY DIFFRACTION 60 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 114 117 YFKRLSDRERAIFEAGITLGAIYHQFCGTPVSPGTAEEVAKCIERAALLQPCVIDARVEVDVSSTDNYGGYTEVSGRNLRVTIVTRCGEWEAVGKLEFIEELNYPLMWVEEIRR YFKRLSDRERAIFEAGITLGAIYHQFCGTPVSPGTAEEVAKCIERAALLQPCVIDARVEVDVSSEDTDNYGGYTEVSGRNLRVTIVTRCGEWEAVGKLEFIEELNYPLMWVEEIRRV 2iec-a1-m1-cC_2iec-a1-m1-cD Crystal Structure of uncharacterized conserved archael protein from Methanopyrus kandleri Q8TX89 Q8TX89 2.33 X-RAY DIFFRACTION 71 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 111 117 YFKRLSDRERAIFEAGITLGAIYHQFCGTPVSPGTAEEVAKCIERAALLQPCVIDARVEVDVNYGGYTEVSGRNLRVTIVTRCGEWEAVGKLEFIEELNYPLMWVEEIRRV YFKRLSDRERAIFEAGITLGAIYHQFCGTPVSPGTAEEVAKCIERAALLQPCVIDARVEVDVSSEDTDNYGGYTEVSGRNLRVTIVTRCGEWEAVGKLEFIEELNYPLMWVEEIRRV 2ief-a1-m1-cC_2ief-a1-m1-cB Structure of the cooperative Excisionase (Xis)-DNA complex reveals a micronucleoprotein filament P03699 P03699 2.601 X-RAY DIFFRACTION 19 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 53 54 5j0n-a1-m1-cN_5j0n-a1-m1-cO MYLTLQEWNARQRRPRSLETVRRWVRESRIFPPPVKDGREYLFHESAVKVDLN MYLTLQEWNARQRRPRSLETVRRWVRESRIFPPPVKDGREYLFHESAVKVDLNR 2iel-a1-m3-cB_2iel-a1-m4-cB CRYSTAL STRUCTURE OF TT0030 from Thermus Thermophilus Q72LM7 Q72LM7 1.6 X-RAY DIFFRACTION 30 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 127 127 2iel-a1-m1-cA_2iel-a1-m2-cA 2iel-a1-m1-cA_2iel-a1-m3-cA 2iel-a1-m1-cB_2iel-a1-m2-cB 2iel-a1-m1-cB_2iel-a1-m3-cB 2iel-a1-m2-cA_2iel-a1-m4-cA 2iel-a1-m2-cB_2iel-a1-m4-cB 2iel-a1-m3-cA_2iel-a1-m4-cA RYLVVAHRTAKSPELAAKLKELARFVLLVPAVPPPGWVYENEVRRRAEEEAAAAKRALEAQGIPVEEAKAGDISPLLAIEEELLAHPGAYQGIVLSTLPPGLSRWLRLDVHTQAERFGLPVIHVIAQ RYLVVAHRTAKSPELAAKLKELARFVLLVPAVPPPGWVYENEVRRRAEEEAAAAKRALEAQGIPVEEAKAGDISPLLAIEEELLAHPGAYQGIVLSTLPPGLSRWLRLDVHTQAERFGLPVIHVIAQ 2iel-a1-m4-cB_2iel-a1-m4-cA CRYSTAL STRUCTURE OF TT0030 from Thermus Thermophilus Q72LM7 Q72LM7 1.6 X-RAY DIFFRACTION 64 0.984 274 (Thermus thermophilus) 274 (Thermus thermophilus) 127 132 2iel-a1-m1-cB_2iel-a1-m1-cA 2iel-a1-m2-cB_2iel-a1-m2-cA 2iel-a1-m3-cB_2iel-a1-m3-cA RYLVVAHRTAKSPELAAKLKELARFVLLVPAVPPPGWVYENEVRRRAEEEAAAAKRALEAQGIPVEEAKAGDISPLLAIEEELLAHPGAYQGIVLSTLPPGLSRWLRLDVHTQAERFGLPVIHVIAQ ARYLVVAHRTAKSPELAAKLKELLAQDPEARFVLLVPAVPPPGWVYNEVRRRAEEEAAAAKRALEAQGIPVEEAKAGDISPLLAIEEELLAHPGAYQGIVLSTLPPGLSRWLRLDVHTQAERFGLPVIHVIA 2iep-a2-m1-cB_2iep-a2-m3-cA Crystal structure of immunoglobulin-like domains 1 and 2 of the receptor tyrosine kinase MuSK Q62838 Q62838 2.205 X-RAY DIFFRACTION 44 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 187 187 PKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEVF LPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEV 2iep-a3-m1-cA_2iep-a3-m4-cA Crystal structure of immunoglobulin-like domains 1 and 2 of the receptor tyrosine kinase MuSK Q62838 Q62838 2.205 X-RAY DIFFRACTION 18 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 187 187 2iep-a2-m2-cA_2iep-a2-m3-cA LPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEV LPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEV 2iep-a3-m1-cA_2iep-a3-m4-cB Crystal structure of immunoglobulin-like domains 1 and 2 of the receptor tyrosine kinase MuSK Q62838 Q62838 2.205 X-RAY DIFFRACTION 10 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 187 187 2iep-a3-m1-cB_2iep-a3-m4-cA LPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEV PKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEVF 2iep-a3-m1-cB_2iep-a3-m4-cB Crystal structure of immunoglobulin-like domains 1 and 2 of the receptor tyrosine kinase MuSK Q62838 Q62838 2.205 X-RAY DIFFRACTION 40 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 187 187 PKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEVF PKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEVF 2iep-a3-m4-cA_2iep-a3-m4-cB Crystal structure of immunoglobulin-like domains 1 and 2 of the receptor tyrosine kinase MuSK Q62838 Q62838 2.205 X-RAY DIFFRACTION 41 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 187 187 2iep-a1-m1-cA_2iep-a1-m1-cB 2iep-a3-m1-cA_2iep-a3-m1-cB LPKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEV PKAPVITTPLETVDALVEEVATFMCAVESYPQPEISWTRNKILIKLFDTRYSIRENGQLLTILSVEDSDDGIYCCTANNGVGGAVESCGALQVKMKPKITRPPINVKIIEGLKAVLPCTTMGNPKPSVSWIKGDSALRENSRIAVLESGSLRIHNVQKEDAGQYRCVAKNSLGTAYSKLVKLEVEVF 2ieq-a1-m1-cC_2ieq-a1-m1-cB Core Structure of S2 from the Human Coronavirus NL63 Spike Glycoprotein Q6Q1S2 Q6Q1S2 1.747 X-RAY DIFFRACTION 88 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 88 89 2ieq-a1-m1-cA_2ieq-a1-m1-cB 2ieq-a1-m1-cA_2ieq-a1-m1-cC KAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINST KAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLLTYLNLSSELKQLEAKTASLFQTTVELQGLIDQINST 2iex-a2-m1-cA_2iex-a2-m2-cC Crystal structure of dihydroxynapthoic acid synthetase (GK2873) from Geobacillus kaustophilus HTA426 Q5KVX8 Q5KVX8 2.2 X-RAY DIFFRACTION 113 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 253 253 2iex-a2-m1-cB_2iex-a2-m2-cB 2iex-a2-m1-cC_2iex-a2-m2-cA WVKQYDYEDIIYETYNGIAKITINRPEVHNAFRPKTVNEMIDAFTKARDDSNIGVIILTGAGGKAFCSGGDPRLNVLDLQRLIRVIPKPVIAMVAGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDGGYGAGYLARIVGHKKAREIWYLCRQYTAQEALEMGLVNKVVPLEQLEEETVKWAQEILEKSPTAIRFLKAAFNADSDGLAGIQQLAGDATLLFYTTEEAKEGMRAFKEKRKPDFSQFPRFP WVKQYDYEDIIYETYNGIAKITINRPEVHNAFRPKTVNEMIDAFTKARDDSNIGVIILTGAGGKAFCSGGDPRLNVLDLQRLIRVIPKPVIAMVAGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDGGYGAGYLARIVGHKKAREIWYLCRQYTAQEALEMGLVNKVVPLEQLEEETVKWAQEILEKSPTAIRFLKAAFNADSDGLAGIQQLAGDATLLFYTTEEAKEGMRAFKEKRKPDFSQFPRFP 2iex-a2-m1-cB_2iex-a2-m2-cC Crystal structure of dihydroxynapthoic acid synthetase (GK2873) from Geobacillus kaustophilus HTA426 Q5KVX8 Q5KVX8 2.2 X-RAY DIFFRACTION 130 0.988 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 253 253 2iex-a2-m1-cA_2iex-a2-m2-cA 2iex-a2-m1-cC_2iex-a2-m2-cB PFEWVKQYDYEDIIYETYNGIAKITINRPEVHNAFRPKTVNEMIDAFTKARDDSNIGVIILTGAGGKAFCSGGLNVLDLQRLIRVIPKPVIAMVAGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDGGYGAGYLARIVGHKKAREIWYLCRQYTAQEALEMGLVNKVVPLEQLEEETVKWAQEILEKSPTAIRFLKAAFNADSDGLAGIQQLAGDATLLFYTTEEAKEGMRAFKEKRKPDFSQFPRFP WVKQYDYEDIIYETYNGIAKITINRPEVHNAFRPKTVNEMIDAFTKARDDSNIGVIILTGAGGKAFCSGGDPRLNVLDLQRLIRVIPKPVIAMVAGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDGGYGAGYLARIVGHKKAREIWYLCRQYTAQEALEMGLVNKVVPLEQLEEETVKWAQEILEKSPTAIRFLKAAFNADSDGLAGIQQLAGDATLLFYTTEEAKEGMRAFKEKRKPDFSQFPRFP 2iex-a2-m2-cB_2iex-a2-m2-cC Crystal structure of dihydroxynapthoic acid synthetase (GK2873) from Geobacillus kaustophilus HTA426 Q5KVX8 Q5KVX8 2.2 X-RAY DIFFRACTION 85 0.988 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 253 253 2iex-a1-m1-cA_2iex-a1-m1-cB 2iex-a1-m1-cA_2iex-a1-m1-cC 2iex-a1-m1-cB_2iex-a1-m1-cC 2iex-a2-m1-cA_2iex-a2-m1-cB 2iex-a2-m1-cA_2iex-a2-m1-cC 2iex-a2-m1-cB_2iex-a2-m1-cC 2iex-a2-m2-cA_2iex-a2-m2-cB 2iex-a2-m2-cA_2iex-a2-m2-cC PFEWVKQYDYEDIIYETYNGIAKITINRPEVHNAFRPKTVNEMIDAFTKARDDSNIGVIILTGAGGKAFCSGGLNVLDLQRLIRVIPKPVIAMVAGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDGGYGAGYLARIVGHKKAREIWYLCRQYTAQEALEMGLVNKVVPLEQLEEETVKWAQEILEKSPTAIRFLKAAFNADSDGLAGIQQLAGDATLLFYTTEEAKEGMRAFKEKRKPDFSQFPRFP WVKQYDYEDIIYETYNGIAKITINRPEVHNAFRPKTVNEMIDAFTKARDDSNIGVIILTGAGGKAFCSGGDPRLNVLDLQRLIRVIPKPVIAMVAGYAIGGGHVLHVVCDLTIAADNAIFGQTGPKVGSFDGGYGAGYLARIVGHKKAREIWYLCRQYTAQEALEMGLVNKVVPLEQLEEETVKWAQEILEKSPTAIRFLKAAFNADSDGLAGIQQLAGDATLLFYTTEEAKEGMRAFKEKRKPDFSQFPRFP 2iey-a3-m1-cA_2iey-a3-m2-cA Crystal Structure of mouse Rab27b bound to GDP in hexagonal space group Q99P58 Q99P58 3.18 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 159 159 GDYDYLIKLLALGDSGVGKTTFLYRYTDNKFNPKFITTVGIDFREKRVVYDFKVHLQLWDTSLTTAFFRDAGFLLFDLTSQQSFLNVRNWSQLQANAYCENPDIVLIGNKADLPDQREVNERQARELAEKYGIPYFETSAATGQNVEKSVETLLDLIKR GDYDYLIKLLALGDSGVGKTTFLYRYTDNKFNPKFITTVGIDFREKRVVYDFKVHLQLWDTSLTTAFFRDAGFLLFDLTSQQSFLNVRNWSQLQANAYCENPDIVLIGNKADLPDQREVNERQARELAEKYGIPYFETSAATGQNVEKSVETLLDLIKR 2if7-a3-m1-cD_2if7-a3-m2-cD Crystal Structure of NTB-A Q96DU3 Q96DU3 3 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 SLTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE SLTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE 2if7-a3-m4-cB_2if7-a3-m2-cD Crystal Structure of NTB-A Q96DU3 Q96DU3 3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 192 2if7-a3-m3-cB_2if7-a3-m1-cD LTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE SLTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE 2if7-a4-m4-cA_2if7-a4-m4-cB Crystal Structure of NTB-A Q96DU3 Q96DU3 3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 191 2if7-a1-m1-cA_2if7-a1-m1-cB 2if7-a2-m1-cC_2if7-a2-m1-cD 2if7-a3-m1-cC_2if7-a3-m1-cD 2if7-a3-m2-cC_2if7-a3-m2-cD 2if7-a3-m3-cA_2if7-a3-m3-cB 2if7-a3-m4-cA_2if7-a3-m4-cB 2if7-a4-m1-cC_2if7-a4-m1-cD LTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE LTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE 2if7-a4-m4-cB_2if7-a4-m1-cD Crystal Structure of NTB-A Q96DU3 Q96DU3 3 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 192 2if7-a3-m3-cB_2if7-a3-m2-cD 2if7-a3-m4-cB_2if7-a3-m1-cD LTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE SLTPLMVNGILGESVTLPLEFPAGEKVNFITWLFNETSLAFIVPHETKSPEIHVTNPKQGKRLNFTQSYSLQLSNLKMEDTGSYRAQISTKTSAKLSSYTLRILRQLRNIQVTNHSQLFQNMTCELHLTCSVEDADDNVSFRWEALGNTLSSQPNLTVSWDPRISSEQDYTCIAENAVSNLSFSVSAQKLCE 2ifa-a3-m1-cF_2ifa-a3-m1-cE Crystal Structure of the PUTATIVE NITROREDUCTASE (SMU.260) IN COMPLEX WITH FMN FROM STREPTOCOCCUS MUTANS, NORTHEAST STRUCTURAL GENOMICS TARGET SMR5. Q8DW21 Q8DW21 2.3 X-RAY DIFFRACTION 168 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 196 198 2ifa-a1-m1-cA_2ifa-a1-m1-cB 2ifa-a2-m1-cD_2ifa-a2-m1-cC SNFLDLQKQRRSIYALGKTVDLSKAELVALIQNAIKQAPSAFNSQTSRALVLFGQDSQDFWNKIAYSELEKVTPAEAFAGTKAKLESFAAGVGTILLFEDQAVVRNLEENFPLYAENFQPWSEQAHGIALYAIWLALAEQNIGSVQHYNPLVDAQVAEKYDLPTNWKRAQIPFGSIEAPAGEKEFADQERFKVFGD SNFLDLQKQRRSIYALGKTVDLSKAELVALIQNAIKQAPSAFNSQTSRALVLFGQDSQDFWNKIAYSELEKVTPAEAFAGTKAKLESFAAGVGTILLFEDQAVVRNLEENFPLYAENFQPWSEQAHGIALYAIWLALAEQNIGSVQHYNPLVDAQVAEKYDLPTNWKRAQIPFGSIEAPAGEKEFADQERFKVFGDLE 2ifn-a1-m3-cA_2ifn-a1-m9-cA PF1 FILAMENTOUS BACTERIOPHAGE: REFINEMENT OF A MOLECULAR MODEL BY SIMULATED ANNEALING USING 3.3 ANGSTROMS RESOLUTION X-RAY FIBRE DIFFRACTION DATA P03621 P03621 4 FIBER DIFFRACTION 51 1.0 46 46 1ifn-a1-m10-cA_1ifn-a1-m16-cA 1ifn-a1-m10-cA_1ifn-a1-m4-cA 1ifn-a1-m11-cA_1ifn-a1-m17-cA 1ifn-a1-m11-cA_1ifn-a1-m5-cA 1ifn-a1-m12-cA_1ifn-a1-m6-cA 1ifn-a1-m13-cA_1ifn-a1-m19-cA 1ifn-a1-m13-cA_1ifn-a1-m7-cA 1ifn-a1-m14-cA_1ifn-a1-m20-cA 1ifn-a1-m14-cA_1ifn-a1-m8-cA 1ifn-a1-m15-cA_1ifn-a1-m21-cA 1ifn-a1-m15-cA_1ifn-a1-m9-cA 1ifn-a1-m16-cA_1ifn-a1-m22-cA 1ifn-a1-m17-cA_1ifn-a1-m23-cA 1ifn-a1-m19-cA_1ifn-a1-m25-cA 1ifn-a1-m1-cA_1ifn-a1-m12-cA 1ifn-a1-m1-cA_1ifn-a1-m24-cA 1ifn-a1-m20-cA_1ifn-a1-m26-cA 1ifn-a1-m21-cA_1ifn-a1-m27-cA 1ifn-a1-m22-cA_1ifn-a1-m28-cA 1ifn-a1-m23-cA_1ifn-a1-m29-cA 1ifn-a1-m24-cA_1ifn-a1-m30-cA 1ifn-a1-m25-cA_1ifn-a1-m31-cA 1ifn-a1-m26-cA_1ifn-a1-m32-cA 1ifn-a1-m27-cA_1ifn-a1-m33-cA 1ifn-a1-m28-cA_1ifn-a1-m34-cA 1ifn-a1-m29-cA_1ifn-a1-m35-cA 1ifn-a1-m2-cA_1ifn-a1-m8-cA 1ifn-a1-m3-cA_1ifn-a1-m9-cA 2ifn-a1-m10-cA_2ifn-a1-m16-cA 2ifn-a1-m10-cA_2ifn-a1-m4-cA 2ifn-a1-m11-cA_2ifn-a1-m17-cA 2ifn-a1-m11-cA_2ifn-a1-m5-cA 2ifn-a1-m12-cA_2ifn-a1-m6-cA 2ifn-a1-m13-cA_2ifn-a1-m19-cA 2ifn-a1-m13-cA_2ifn-a1-m7-cA 2ifn-a1-m14-cA_2ifn-a1-m20-cA 2ifn-a1-m14-cA_2ifn-a1-m8-cA 2ifn-a1-m15-cA_2ifn-a1-m21-cA 2ifn-a1-m15-cA_2ifn-a1-m9-cA 2ifn-a1-m16-cA_2ifn-a1-m22-cA 2ifn-a1-m17-cA_2ifn-a1-m23-cA 2ifn-a1-m19-cA_2ifn-a1-m25-cA 2ifn-a1-m1-cA_2ifn-a1-m12-cA 2ifn-a1-m1-cA_2ifn-a1-m24-cA 2ifn-a1-m20-cA_2ifn-a1-m26-cA 2ifn-a1-m21-cA_2ifn-a1-m27-cA 2ifn-a1-m22-cA_2ifn-a1-m28-cA 2ifn-a1-m23-cA_2ifn-a1-m29-cA 2ifn-a1-m24-cA_2ifn-a1-m30-cA 2ifn-a1-m25-cA_2ifn-a1-m31-cA 2ifn-a1-m26-cA_2ifn-a1-m32-cA 2ifn-a1-m27-cA_2ifn-a1-m33-cA 2ifn-a1-m28-cA_2ifn-a1-m34-cA 2ifn-a1-m29-cA_2ifn-a1-m35-cA 2ifn-a1-m2-cA_2ifn-a1-m8-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 2ifo-a1-m20-cA_2ifo-a1-m9-cA MODEL-BUILDING STUDIES OF INOVIRUS: GENETIC VARIATIONS ON A GEOMETRIC THEME P03622 P03622 0 FIBER DIFFRACTION 12 1.0 12420 (Filamentous phage) 12420 (Filamentous phage) 46 46 2ifo-a1-m10-cA_2ifo-a1-m21-cA 2ifo-a1-m11-cA_2ifo-a1-m22-cA 2ifo-a1-m12-cA_2ifo-a1-m23-cA 2ifo-a1-m13-cA_2ifo-a1-m24-cA 2ifo-a1-m13-cA_2ifo-a1-m2-cA 2ifo-a1-m14-cA_2ifo-a1-m25-cA 2ifo-a1-m14-cA_2ifo-a1-m3-cA 2ifo-a1-m15-cA_2ifo-a1-m26-cA 2ifo-a1-m15-cA_2ifo-a1-m4-cA 2ifo-a1-m16-cA_2ifo-a1-m27-cA 2ifo-a1-m16-cA_2ifo-a1-m5-cA 2ifo-a1-m17-cA_2ifo-a1-m28-cA 2ifo-a1-m17-cA_2ifo-a1-m6-cA 2ifo-a1-m19-cA_2ifo-a1-m30-cA 2ifo-a1-m19-cA_2ifo-a1-m8-cA 2ifo-a1-m1-cA_2ifo-a1-m29-cA 2ifo-a1-m1-cA_2ifo-a1-m7-cA 2ifo-a1-m20-cA_2ifo-a1-m31-cA 2ifo-a1-m21-cA_2ifo-a1-m32-cA 2ifo-a1-m22-cA_2ifo-a1-m33-cA 2ifo-a1-m23-cA_2ifo-a1-m34-cA 2ifo-a1-m24-cA_2ifo-a1-m35-cA SGGGGVDVGDVVSAIQGAAGPIAAIGGAVLTVMVGIKVYKWVRRAM SGGGGVDVGDVVSAIQGAAGPIAAIGGAVLTVMVGIKVYKWVRRAM 2ifo-a1-m3-cA_2ifo-a1-m9-cA MODEL-BUILDING STUDIES OF INOVIRUS: GENETIC VARIATIONS ON A GEOMETRIC THEME P03622 P03622 0 FIBER DIFFRACTION 79 1.0 12420 (Filamentous phage) 12420 (Filamentous phage) 46 46 2ifo-a1-m10-cA_2ifo-a1-m16-cA 2ifo-a1-m10-cA_2ifo-a1-m4-cA 2ifo-a1-m11-cA_2ifo-a1-m17-cA 2ifo-a1-m11-cA_2ifo-a1-m5-cA 2ifo-a1-m12-cA_2ifo-a1-m6-cA 2ifo-a1-m13-cA_2ifo-a1-m19-cA 2ifo-a1-m13-cA_2ifo-a1-m7-cA 2ifo-a1-m14-cA_2ifo-a1-m20-cA 2ifo-a1-m14-cA_2ifo-a1-m8-cA 2ifo-a1-m15-cA_2ifo-a1-m21-cA 2ifo-a1-m15-cA_2ifo-a1-m9-cA 2ifo-a1-m16-cA_2ifo-a1-m22-cA 2ifo-a1-m17-cA_2ifo-a1-m23-cA 2ifo-a1-m19-cA_2ifo-a1-m25-cA 2ifo-a1-m1-cA_2ifo-a1-m12-cA 2ifo-a1-m1-cA_2ifo-a1-m24-cA 2ifo-a1-m20-cA_2ifo-a1-m26-cA 2ifo-a1-m21-cA_2ifo-a1-m27-cA 2ifo-a1-m22-cA_2ifo-a1-m28-cA 2ifo-a1-m23-cA_2ifo-a1-m29-cA 2ifo-a1-m24-cA_2ifo-a1-m30-cA 2ifo-a1-m25-cA_2ifo-a1-m31-cA 2ifo-a1-m26-cA_2ifo-a1-m32-cA 2ifo-a1-m27-cA_2ifo-a1-m33-cA 2ifo-a1-m28-cA_2ifo-a1-m34-cA 2ifo-a1-m29-cA_2ifo-a1-m35-cA 2ifo-a1-m2-cA_2ifo-a1-m8-cA SGGGGVDVGDVVSAIQGAAGPIAAIGGAVLTVMVGIKVYKWVRRAM SGGGGVDVGDVVSAIQGAAGPIAAIGGAVLTVMVGIKVYKWVRRAM 2ifx-a1-m1-cB_2ifx-a1-m1-cA Crystal structure of a putative 4-methylmuconolactone methylisomerase (YP_295714.1) from Ralstonia eutropha JMP134 at 2.00 A resolution Q471R3 Q471R3 2 X-RAY DIFFRACTION 93 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 93 102 GIRLLYLLVKPAGSDETFRAECLRHYESHDVPGLHKYEVRLVAEQPHVDAIGECWFKDDAAYATYASDIRKAWFEHGKTFIGQLKPFRTAPVA GIRLLYLLVKPAGSDETFRAECLRHYESHDVPGLHKYEVRLVAEQPHVPFFDIGHVDAIGECWFKDDAAYATYASDIRKAWFEHGKTFIGQLKPFRTAPVAG 2ig3-a3-m1-cB_2ig3-a3-m1-cA Crystal structure of group III truncated hemoglobin from Campylobacter jejuni Q0PB48 Q0PB48 2.15 X-RAY DIFFRACTION 44 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 124 127 MKFETINQESIAKLMEIFYEKVRKDKDLGPIFNNAIGTSDEEWKEHKAKIGNFWAGMLLGEGDYNGQPLKKHLDLPPFPQEFFEIWLKLFEESLNIVYNEEMKNVILQRAQMIASHFQNMLYKY MKFETINQESIAKLMEIFYEKVRKDKDLGPIFNNAIGTSDEEWKEHKAKIGNFWAGMLLGEGDYNGQPLKKHLDLPPFPQEFFEIWLKLFEESLNIVYNEEMKNVILQRAQMIASHFQNMLYKYGGH 2ig6-a1-m1-cB_2ig6-a1-m1-cA Crystal structure of a nimc/nima family protein (ca_c2569) from clostridium acetobutylicum at 1.80 A resolution Q97G05 Q97G05 1.8 X-RAY DIFFRACTION 76 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 135 139 HHHENLYFQGKRALEFLKECGVFYLATNEGDQPRVRPFGAVFEYEGKLYIVSNNTKKCFKQIQNPKVEISGNKKGQWIRLTGEVANDDRREVKELALEAVPSLKNYSVDDGIFAVLYFTKGEGTICSFKNETFSL HHHHHENLYFQGKRALEFLKECGVFYLATNEGDQPRVRPFGAVFEYEGKLYIVSNNTKKCFKQIQNPKVEISGNKKGQWIRLTGEVANDDRREVKELALEAVPSLKNYSVDDGIFAVLYFTKGEGTICSFKGENETFSL 2ig8-a1-m1-cC_2ig8-a1-m1-cB Crystal structure of a Protein of Unknown Function PA3499 from Pseudomonas aeruginosa Q9HYB0 Q9HYB0 1.9 X-RAY DIFFRACTION 81 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 142 143 2ig8-a1-m1-cA_2ig8-a1-m1-cB 2ig8-a1-m1-cA_2ig8-a1-m1-cC MTAVRRIRAAALPDLPDASWSNALLVGEELVMSGMTAHPATRQAAERGAALDAHAQALVVLGKVKALLEAAGGHVGNLYKLNVYVTRIADKDAIGRARQEFFAGQGTFPASTLVEVSGLVFPELLVEIDAWARLDIDLANCD MTAVRRIRAAALPDLPDASWSNALLVGEELVMSGMTAHPATRQAAERGAALDAHAQALVVLGKVKALLEAAGGHVGNLYKLNVYVTRIADKDAIGRARQEFFAGQGTFPASTLVEVSGLVFPELLVEIDAWARLDIDLANCDE 2igb-a1-m1-cB_2igb-a1-m2-cB Crystal Structure of PyrR, The Regulator Of The Pyrimidine Biosynthetic Operon In Bacillus caldolyticus, UMP-bound form P41007 P41007 1.68 X-RAY DIFFRACTION 45 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 173 173 1non-a1-m1-cA_1non-a1-m1-cB 1non-a1-m1-cC_1non-a1-m1-cD 1xz8-a1-m1-cB_1xz8-a1-m1-cA 1xzn-a1-m1-cB_1xzn-a1-m1-cA 2igb-a1-m1-cA_2igb-a1-m2-cA 4p83-a1-m1-cA_4p83-a1-m1-cB 4p83-a1-m1-cC_4p83-a1-m1-cD MQKAVVMDEQAIRRALTRIAHEIIERNKGIDGCVLVGIKTRGIYLARRLAERIEQIEGASVPVGELDITLYRDDDHEPLVKGTNVPFPVTERNVILVDDVLFTGRTVRAAMDAVMDLGRPARIQLAVLVDRGHRELPIRADFVGKNVPTSRSELIVVELSEVDGIDQVSIHEK MQKAVVMDEQAIRRALTRIAHEIIERNKGIDGCVLVGIKTRGIYLARRLAERIEQIEGASVPVGELDITLYRDDDHEPLVKGTNVPFPVTERNVILVDDVLFTGRTVRAAMDAVMDLGRPARIQLAVLVDRGHRELPIRADFVGKNVPTSRSELIVVELSEVDGIDQVSIHEK 2igb-a1-m2-cA_2igb-a1-m2-cB Crystal Structure of PyrR, The Regulator Of The Pyrimidine Biosynthetic Operon In Bacillus caldolyticus, UMP-bound form P41007 P41007 1.68 X-RAY DIFFRACTION 24 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 172 173 1non-a1-m1-cA_1non-a1-m1-cD 1non-a1-m1-cB_1non-a1-m1-cC 2igb-a1-m1-cA_2igb-a1-m1-cB 4p83-a1-m1-cA_4p83-a1-m1-cC 4p83-a1-m1-cB_4p83-a1-m1-cD MQKAVVMDEQAIRRALTRIAHEIIERNKGIDGCVLVGIKTRGIYLARRLAERIEQIEGASVPVGELDITLYRDDHEPLVKGTNVPFPVTERNVILVDDVLFTGRTVRAAMDAVMDLGRPARIQLAVLVDRGHRELPIRADFVGKNVPTSRSELIVVELSEVDGIDQVSIHEK MQKAVVMDEQAIRRALTRIAHEIIERNKGIDGCVLVGIKTRGIYLARRLAERIEQIEGASVPVGELDITLYRDDDHEPLVKGTNVPFPVTERNVILVDDVLFTGRTVRAAMDAVMDLGRPARIQLAVLVDRGHRELPIRADFVGKNVPTSRSELIVVELSEVDGIDQVSIHEK 2igf-a2-m2-cH_2igf-a2-m1-cH CRYSTAL STRUCTURES OF AN ANTIBODY TO A PEPTIDE AND ITS COMPLEX WITH PEPTIDE ANTIGEN AT 2.8 ANGSTROMS 2.8 X-RAY DIFFRACTION 76 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 EVQLVESGGDLVKPGGSLKLSCAASGFTFSRCAMSWVRQTPEKRLEWVAGISSGGSYTFYPDTVKGRFIISRNNARNTLSLQMSSLRSEDTAIYYCTRYSSDPFYFDYWGQGTTLTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPRDC EVQLVESGGDLVKPGGSLKLSCAASGFTFSRCAMSWVRQTPEKRLEWVAGISSGGSYTFYPDTVKGRFIISRNNARNTLSLQMSSLRSEDTAIYYCTRYSSDPFYFDYWGQGTTLTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPRDC 2igq-a1-m1-cA_2igq-a1-m1-cB Human euchromatic histone methyltransferase 1 Q9H9B1 Q9H9B1 2 X-RAY DIFFRACTION 56 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 251 254 2rfi-a3-m1-cB_2rfi-a3-m1-cA 3fpd-a1-m1-cB_3fpd-a1-m1-cA 3hna-a3-m1-cB_3hna-a3-m1-cA 3mo2-a5-m1-cA_3mo2-a5-m1-cB 3mo2-a6-m1-cD_3mo2-a6-m1-cC 3mo5-a5-m1-cA_3mo5-a5-m1-cB 3mo5-a6-m1-cD_3mo5-a6-m1-cC 3sw9-a3-m1-cA_3sw9-a3-m1-cB 3swc-a3-m1-cA_3swc-a3-m1-cB 4i51-a1-m1-cB_4i51-a1-m1-cA 5tuz-a1-m1-cB_5tuz-a1-m1-cA 5v9j-a1-m1-cA_5v9j-a1-m1-cB 5vsd-a1-m1-cA_5vsd-a1-m1-cB 5vsf-a1-m1-cB_5vsf-a1-m1-cA 6mbo-a1-m1-cB_6mbo-a1-m1-cA 6mbp-a1-m1-cB_6mbp-a1-m1-cA 7t7m-a1-m1-cA_7t7m-a1-m1-cD 7t7m-a2-m1-cB_7t7m-a2-m2-cC ERIVSRDIARGYERIPIPCVNAVDSEPCPSNYKYVSQNCVTSPMNIDRNITHLQYCVCIDDCSSSNCMCGQLSMRCWYDKDGRLLPEFNMAEPPLIFECNHACSCWRNCRNRVVQNGLRARLQLYRTRDMGWGVRSLQDIPPGTFVCEYVGELISDSEADVREEDSYLFDLVYCIDARFYGNVSRFINHHCEPNLVPVRVFMAHQDLRFPRIAFFSTRLIEAGEQLGFDYGERFWDIKGSCRCGSPKCRHS ERIVSRDIARGYERIPIPCVNAVDSEPCPSNYKYVSQNCVTSPMNIDRNITHLQYCVCIDDCSSSNCMCGQLSMRCWYDKDGRLLPEFNMAEPPLIFECNHACSCWRNCRNRVVQNGLRARLQLYRTRDMGWGVRSLQDIPPGTFVCEYVGELISDSEADVREEDSYLFDLDEVYCIDARFYGNVSRFINHHCEPNLVPVRVFMAHQDLRFPRIAFFSTRLIEAGEQLGFDYGERFWDIKLFSCRCGSPKCRHS 2igs-a1-m1-cB_2igs-a1-m1-cE Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 11 0.995 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 211 211 AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAI EINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG 2igs-a1-m1-cB_2igs-a1-m1-cF Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 48 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 211 212 AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAI AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG 2igs-a1-m1-cB_2igs-a1-m1-cH Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 13 0.991 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 211 211 AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAI INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIGS 2igs-a1-m1-cC_2igs-a1-m1-cB Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 35 0.995 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 211 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAI 2igs-a1-m1-cC_2igs-a1-m1-cD Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 17 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 210 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG 2igs-a1-m1-cC_2igs-a1-m1-cF Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 13 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 212 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG 2igs-a1-m1-cC_2igs-a1-m1-cG Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 43 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 211 2igs-a1-m1-cD_2igs-a1-m1-cB INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIGS 2igs-a1-m1-cC_2igs-a1-m1-cH Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 42 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 211 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIGS 2igs-a1-m1-cD_2igs-a1-m1-cA Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 17 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 211 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIGS 2igs-a1-m1-cD_2igs-a1-m1-cE Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 52 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 211 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG EINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG 2igs-a1-m1-cD_2igs-a1-m1-cF Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 25 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 210 212 INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG AEINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG 2igs-a1-m1-cE_2igs-a1-m1-cH Crystal Structure of the Protein of Unknown Function from Pseudomonas aeruginosa Q9I1P7 Q9I1P7 2.17 X-RAY DIFFRACTION 30 0.995 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 211 211 EINIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIG INIYQNPGQSLANIYKGFARQCNPGFVFPEAQTIEAWDIPLRLHPEFIPGGDISKADQQYSTLLAQEIANGVTIGFRVNEKERVCNVEILPLLTSAQNLDRIKARFGSGYLDRFKGSPNVYPTDVGFSTDASGGISQESGLLVSYGVNLRTLTPGTWQATLPEDIKALVGPGVGLRLDAPNFSDVFNTIKSGLRYTTAVTLLLAYFAAIGS 2igt-a2-m2-cB_2igt-a2-m1-cA Crystal Structure of the SAM Dependent Methyltransferase from Agrobacterium tumefaciens A9CKD6 A9CKD6 1.89 X-RAY DIFFRACTION 111 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 305 306 2igt-a2-m1-cB_2igt-a2-m2-cA 2igt-a2-m1-cC_2igt-a2-m2-cC ENLYFQGQRTGELPAEHVPVILESSGAGDFHLIDSGNGLKLEQYGDYRVVRPEAQALWRPLVPDRVWQNADAIFTGDGGRWRFPKEALGETWPLSLLGVEFLGRFTAFRHVGVFPEQIVHWEWLKNAVETADRPLKVLNLFGYTGVASLVAAAAGAEVTHVDASKKAIGWAKENQVLAGLEQAPIRWICEDAKFIQREERRGSTYDIILTDPPKFGRGTHGEVWQLFDHLPLLDICREILSPKALGLVLTAYSIRASFYSHELRETRGAGGVVASGELVIREAGLDGKTPGRVLSTSLFSRWEPK ENLYFQGQRTGELPAEHVPVILESSGAGDFHLIDSGNGLKLEQYGDYRVVRPEAQALWRPLVPDRVWQNADAIFTGDTGGRWRFPKEALGETWPLSLLGVEFLGRFTAFRHVGVFPEQIVHWEWLKNAVETADRPLKVLNLFGYTGVASLVAAAAGAEVTHVDASKKAIGWAKENQVLAGLEQAPIRWICEDAKFIQREERRGSTYDIILTDPPKFGRGTHGEVWQLFDHLPLLDICREILSPKALGLVLTAYSIRASFYSHELRETRGAGGVVASGELVIREAGLDGKTPGRVLSTSLFSRWEPK 2igt-a2-m2-cB_2igt-a2-m2-cC Crystal Structure of the SAM Dependent Methyltransferase from Agrobacterium tumefaciens A9CKD6 A9CKD6 1.89 X-RAY DIFFRACTION 37 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 305 306 2igt-a1-m1-cA_2igt-a1-m1-cC 2igt-a1-m1-cB_2igt-a1-m1-cA 2igt-a1-m1-cB_2igt-a1-m1-cC 2igt-a2-m1-cA_2igt-a2-m1-cC 2igt-a2-m1-cB_2igt-a2-m1-cA 2igt-a2-m1-cB_2igt-a2-m1-cC 2igt-a2-m2-cA_2igt-a2-m2-cC 2igt-a2-m2-cB_2igt-a2-m2-cA ENLYFQGQRTGELPAEHVPVILESSGAGDFHLIDSGNGLKLEQYGDYRVVRPEAQALWRPLVPDRVWQNADAIFTGDGGRWRFPKEALGETWPLSLLGVEFLGRFTAFRHVGVFPEQIVHWEWLKNAVETADRPLKVLNLFGYTGVASLVAAAAGAEVTHVDASKKAIGWAKENQVLAGLEQAPIRWICEDAKFIQREERRGSTYDIILTDPPKFGRGTHGEVWQLFDHLPLLDICREILSPKALGLVLTAYSIRASFYSHELRETRGAGGVVASGELVIREAGLDGKTPGRVLSTSLFSRWEPK ENLYFQGQRTGELPAEHVPVILESSGAGDFHLIDSGNGLKLEQYGDYRVVRPEAQALWRPLVPDRVWQNADAIFTGDDGGRWRFPKEALGETWPLSLLGVEFLGRFTAFRHVGVFPEQIVHWEWLKNAVETADRPLKVLNLFGYTGVASLVAAAAGAEVTHVDASKKAIGWAKENQVLAGLEQAPIRWICEDAKFIQREERRGSTYDIILTDPPKFGRGTHGEVWQLFDHLPLLDICREILSPKALGLVLTAYSIRASFYSHELRETRGAGGVVASGELVIREAGLDGKTPGRVLSTSLFSRWEPK 2ihc-a3-m1-cA_2ihc-a3-m1-cC Crystal structure of the bric-a-brac (BTB) domain of human BACH1 O14867 O14867 2.44 X-RAY DIFFRACTION 14 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 SVFAYESSVHSTNVLLSLNDQRKKDVLCDVTIFVEGQRFRAHRSVLAACSSYFHSRIVGQELNITLPEEVTVKGFEPLIQFAYTAKLILSKENVDEVCKCVEFLSVHNIEESCFQFL MSVFAYESSVHSTNVLLSLNDQRKKDVLCDVTIFVEGQRFRAHRSVLAACSSYFHSRIVELNITLPEEVTVKGFEPLIQFAYTAKLILSKENVDEVCKCVEFLSVHNIEESCFQFLK 2ihc-a3-m1-cB_2ihc-a3-m1-cA Crystal structure of the bric-a-brac (BTB) domain of human BACH1 O14867 O14867 2.44 X-RAY DIFFRACTION 141 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 113 117 2ihc-a1-m1-cB_2ihc-a1-m1-cA 2ihc-a2-m1-cD_2ihc-a2-m1-cC 2ihc-a3-m1-cD_2ihc-a3-m1-cC 2z8h-a1-m1-cA_2z8h-a1-m2-cA SMSVFAYESSVHSTNVLLSLNDQRKKDVLCDVTIFVEGQRFRAHRSVLAACSSYFHSRIVGQELNITLPEEVTVKGFEPLIQFAYTAKLILSKENVDEVCKCVEFLSVHNIEE SVFAYESSVHSTNVLLSLNDQRKKDVLCDVTIFVEGQRFRAHRSVLAACSSYFHSRIVGQELNITLPEEVTVKGFEPLIQFAYTAKLILSKENVDEVCKCVEFLSVHNIEESCFQFL 2ihf-a1-m1-cA_2ihf-a1-m2-cA Crystal structure of deletion mutant delta 228-252 R190A of the single-stranded DNA binding protein from Thermus aquaticus Q9KH06 Q9KH06 1.9 X-RAY DIFFRACTION 66 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 205 205 2ihe-a1-m1-cA_2ihe-a1-m2-cA MARGLNQVFLIGTLTARPDMRYTPGGLAILDLNLAGQDAFTDESGQEREVPWYHRVRLLGRQAEMWGDLLEKGQLIFVEGRLEYRQWEKDGEKKSEVQVRAEFIDPLEGRGRALNQVILMGNLTRDPDLRYTPQGTAVVRLGLAVNEERTHFLEVQAWRELAEWASELAKGDGLLVIGRLVNDRFQTRVEALRLERPLEDFPPEE MARGLNQVFLIGTLTARPDMRYTPGGLAILDLNLAGQDAFTDESGQEREVPWYHRVRLLGRQAEMWGDLLEKGQLIFVEGRLEYRQWEKDGEKKSEVQVRAEFIDPLEGRGRALNQVILMGNLTRDPDLRYTPQGTAVVRLGLAVNEERTHFLEVQAWRELAEWASELAKGDGLLVIGRLVNDRFQTRVEALRLERPLEDFPPEE 2ihv-a1-m1-cA_2ihv-a1-m1-cB Carboxyethylarginine synthase from Streptomyces clavuligerus: 5-guanidinovaleric acid complex Q9LCV9 Q9LCV9 2.3 X-RAY DIFFRACTION 292 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 563 563 1upa-a1-m1-cA_1upa-a1-m1-cB 1upa-a1-m1-cC_1upa-a1-m1-cD 1upb-a1-m1-cA_1upb-a1-m1-cB 1upb-a1-m1-cC_1upb-a1-m1-cD 1upc-a1-m1-cA_1upc-a1-m1-cB 1upc-a1-m1-cC_1upc-a1-m1-cD 1upc-a2-m1-cE_1upc-a2-m1-cF 1upc-a2-m2-cE_1upc-a2-m2-cF 2iht-a1-m1-cA_2iht-a1-m1-cB 2iht-a1-m1-cC_2iht-a1-m1-cD 2ihu-a1-m1-cB_2ihu-a1-m1-cA 2ihu-a1-m1-cC_2ihu-a1-m1-cD 2ihv-a1-m1-cC_2ihv-a1-m1-cD KPTAAHALLSRLRDHGVGKVFGVVGREAASILFDEVEGIDFVLTRHEFTAGVAADVLARITGRPQACWATLGPGMTNLSTGIATSVLDRSPVIALAAQSESHDIFPNDTHQCLDSVAIVAPMSKYAVELQRPHEITDLVDSAVNAAMTEPVGPSFISLPVDLLGSSEGIDTTVPNPPANTPAKPVGVVADGWQKAADQAAALLAEAKHPVLVVGAAAIRSGAVPAIRALAERLNIPVITTYIAKGVLPVGHELNYGAVTGYMDGILNFPALQTMFAPVDLVLTVGYDYAEDLRPSMWQKGIEKKTVRISPTVNPIPRVYRPDVDVVTDVLAFVEHFETATASFGAKQRHDIEPLRARIAEFLADPETYEDGMRVHQVIDSMNTVMEEAAEPGEGTIVSDIGFFRHYGVLFARADQPFGFLTSAGCSSFGYGIPAAIGAQMARPDQPTFLIAGDGGFHSNSSDLETIARLNLPIVTVVVNNDTNGLIELYQNIGHHRSHDPAVKFGGVDFVALAEANGVDATRATNREELLAALRKGAELGRPFLIEVPVNYDFQPGGFGALSI KPTAAHALLSRLRDHGVGKVFGVVGREAASILFDEVEGIDFVLTRHEFTAGVAADVLARITGRPQACWATLGPGMTNLSTGIATSVLDRSPVIALAAQSESHDIFPNDTHQCLDSVAIVAPMSKYAVELQRPHEITDLVDSAVNAAMTEPVGPSFISLPVDLLGSSEGIDTTVPNPPANTPAKPVGVVADGWQKAADQAAALLAEAKHPVLVVGAAAIRSGAVPAIRALAERLNIPVITTYIAKGVLPVGHELNYGAVTGYMDGILNFPALQTMFAPVDLVLTVGYDYAEDLRPSMWQKGIEKKTVRISPTVNPIPRVYRPDVDVVTDVLAFVEHFETATASFGAKQRHDIEPLRARIAEFLADPETYEDGMRVHQVIDSMNTVMEEAAEPGEGTIVSDIGFFRHYGVLFARADQPFGFLTSAGCSSFGYGIPAAIGAQMARPDQPTFLIAGDGGFHSNSSDLETIARLNLPIVTVVVNNDTNGLIELYQNIGHHRSHDPAVKFGGVDFVALAEANGVDATRATNREELLAALRKGAELGRPFLIEVPVNYDFQPGGFGALSI 2ihv-a1-m1-cB_2ihv-a1-m1-cD Carboxyethylarginine synthase from Streptomyces clavuligerus: 5-guanidinovaleric acid complex Q9LCV9 Q9LCV9 2.3 X-RAY DIFFRACTION 67 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 563 563 1upa-a1-m1-cC_1upa-a1-m1-cA 1upa-a1-m1-cD_1upa-a1-m1-cB 1upb-a1-m1-cC_1upb-a1-m1-cA 1upb-a1-m1-cD_1upb-a1-m1-cB 1upc-a1-m1-cB_1upc-a1-m1-cD 1upc-a1-m1-cC_1upc-a1-m1-cA 1upc-a2-m1-cE_1upc-a2-m2-cF 1upc-a2-m1-cF_1upc-a2-m2-cE 2iht-a1-m1-cC_2iht-a1-m1-cA 2iht-a1-m1-cD_2iht-a1-m1-cB 2ihu-a1-m1-cC_2ihu-a1-m1-cA 2ihu-a1-m1-cD_2ihu-a1-m1-cB 2ihv-a1-m1-cC_2ihv-a1-m1-cA KPTAAHALLSRLRDHGVGKVFGVVGREAASILFDEVEGIDFVLTRHEFTAGVAADVLARITGRPQACWATLGPGMTNLSTGIATSVLDRSPVIALAAQSESHDIFPNDTHQCLDSVAIVAPMSKYAVELQRPHEITDLVDSAVNAAMTEPVGPSFISLPVDLLGSSEGIDTTVPNPPANTPAKPVGVVADGWQKAADQAAALLAEAKHPVLVVGAAAIRSGAVPAIRALAERLNIPVITTYIAKGVLPVGHELNYGAVTGYMDGILNFPALQTMFAPVDLVLTVGYDYAEDLRPSMWQKGIEKKTVRISPTVNPIPRVYRPDVDVVTDVLAFVEHFETATASFGAKQRHDIEPLRARIAEFLADPETYEDGMRVHQVIDSMNTVMEEAAEPGEGTIVSDIGFFRHYGVLFARADQPFGFLTSAGCSSFGYGIPAAIGAQMARPDQPTFLIAGDGGFHSNSSDLETIARLNLPIVTVVVNNDTNGLIELYQNIGHHRSHDPAVKFGGVDFVALAEANGVDATRATNREELLAALRKGAELGRPFLIEVPVNYDFQPGGFGALSI KPTAAHALLSRLRDHGVGKVFGVVGREAASILFDEVEGIDFVLTRHEFTAGVAADVLARITGRPQACWATLGPGMTNLSTGIATSVLDRSPVIALAAQSESHDIFPNDTHQCLDSVAIVAPMSKYAVELQRPHEITDLVDSAVNAAMTEPVGPSFISLPVDLLGSSEGIDTTVPNPPANTPAKPVGVVADGWQKAADQAAALLAEAKHPVLVVGAAAIRSGAVPAIRALAERLNIPVITTYIAKGVLPVGHELNYGAVTGYMDGILNFPALQTMFAPVDLVLTVGYDYAEDLRPSMWQKGIEKKTVRISPTVNPIPRVYRPDVDVVTDVLAFVEHFETATASFGAKQRHDIEPLRARIAEFLADPETYEDGMRVHQVIDSMNTVMEEAAEPGEGTIVSDIGFFRHYGVLFARADQPFGFLTSAGCSSFGYGIPAAIGAQMARPDQPTFLIAGDGGFHSNSSDLETIARLNLPIVTVVVNNDTNGLIELYQNIGHHRSHDPAVKFGGVDFVALAEANGVDATRATNREELLAALRKGAELGRPFLIEVPVNYDFQPGGFGALSI 2ihy-a1-m1-cA_2ihy-a1-m1-cB Structure of the Staphylococcus aureus putative ATPase subunit of an ATP-binding cassette (ABC) transporter A0A0H2WZ98 A0A0H2WZ98 1.9 X-RAY DIFFRACTION 65 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 238 251 HLIQLDQIGRKQGKTILKKISWQIAKGDKWILYGLNGAGKTTLLNILNAYEPATSGTVNLFGKPGYSAETVRQHIGFVSHSLLEKFQEGERVIDVVISGAIDDEIRNEAHQLLKLVGSAKAQQYIGYLSTGEKQRVIARALGQPQVLILDEPAAGLDFIARESLLSILDSLSDSYPTLAIYVTHFIEEITANFSKILLLKDGQSIQQGAVEDILTSENSRFFQKNVAVQRWNNRFSAL SHLIQLDQIGRKQGKTILKKISWQIAKGDKWILYGLNGAGKTTLLNILNAYEPATSGTVNLFGKPGKVGYSAETVRQHIGFVSHSLLEKFQEGERVIDVVISGAFKSIGVYQDIDDEIRNEAHQLLKLVGSAKAQQYIGYLSTGEKQRVIARALGQPQVLILDEPAAGLDFIARESLLSILDSLSDSYPTLAIYVTHFIEEITANFSKILLLKDGQSIQQGAVEDILTSENSRFFQKNVAVQRWNNRFSAL 2ii1-a2-m1-cB_2ii1-a2-m1-cC Crystal structure of Acetamidase (10172637) from Bacillus Halodurans at 1.95 A resolution Q9KGN3 Q9KGN3 1.95 X-RAY DIFFRACTION 167 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 286 287 2ii1-a1-m1-cA_2ii1-a1-m1-cD IRLSNENTIFFDKENVPIASCQSGDTVIFETKDCFSDQITNEEQALTSIDFNRVNPATGPLYVEGARRGDLEIEILDIKVGKQGVTAAPGLGALGESLNSPTTKLFPIEGDDVVYSTGLRLPLQPIGVIGTAPPGEPINNGTPGPHGGNLDTKDIKPGTTVYLPVEVDGALLALGDLHAAGDGEILICGVEIAGTVTLKVNVKKERFPLPALKTDTHFTIASAETLDAAAVQATKNATFLANRTALSIEEAGLLSGAGDLYVSQIVNPLKTARFSLALHYFEKLGV IRLSNENTIFFDKENVPIASCQSGDTVIFETKDCFSDQITNEEQALTSIDFNRVNPATGPLYVEGARRGDLEIEILDIKVGKQGVTAAPGLGALGESLNSPTTKLFPIEGDDVVYSTGLRLPLQPIGVIGTAPPGEPINNGTPGPHGGNLDTKDIKPGTTVYLPVEVDGALLALGDLHAAGDGEILICGVEIAGTVTLKVNVKKERFPLPALKTDTHFTIASAETLDAAAVQATKNATFLANRTALSIEEAGLLSGAGDLYVSQIVNPLKTARFSLALHYFEKLGVD 2ii3-a1-m2-cE_2ii3-a1-m3-cH Crystal structure of a cubic core of the dihydrolipoamide acyltransferase (E2b) component in the branched-chain alpha-ketoacid dehydrogenase complex (BCKDC), Oxidized Coenzyme A-bound form P11181 P11181 2.17 X-RAY DIFFRACTION 62 1.0 9913 (Bos taurus) 9913 (Bos taurus) 234 234 2ihw-a1-m1-cA_2ihw-a1-m1-cF 2ihw-a1-m1-cB_2ihw-a1-m2-cD 2ihw-a1-m1-cC_2ihw-a1-m3-cG 2ihw-a1-m1-cD_2ihw-a1-m3-cB 2ihw-a1-m1-cE_2ihw-a1-m2-cH 2ihw-a1-m1-cG_2ihw-a1-m2-cC 2ihw-a1-m1-cH_2ihw-a1-m3-cE 2ihw-a1-m2-cA_2ihw-a1-m2-cF 2ihw-a1-m2-cB_2ihw-a1-m3-cD 2ihw-a1-m2-cE_2ihw-a1-m3-cH 2ihw-a1-m2-cG_2ihw-a1-m3-cC 2ihw-a1-m3-cA_2ihw-a1-m3-cF 2ii3-a1-m1-cA_2ii3-a1-m1-cF 2ii3-a1-m1-cB_2ii3-a1-m2-cD 2ii3-a1-m1-cC_2ii3-a1-m3-cG 2ii3-a1-m1-cD_2ii3-a1-m3-cB 2ii3-a1-m1-cE_2ii3-a1-m2-cH 2ii3-a1-m1-cG_2ii3-a1-m2-cC 2ii3-a1-m1-cH_2ii3-a1-m3-cE 2ii3-a1-m2-cA_2ii3-a1-m2-cF 2ii3-a1-m2-cB_2ii3-a1-m3-cD 2ii3-a1-m2-cG_2ii3-a1-m3-cC 2ii3-a1-m3-cA_2ii3-a1-m3-cF 2ii4-a1-m1-cA_2ii4-a1-m1-cF 2ii4-a1-m1-cB_2ii4-a1-m2-cD 2ii4-a1-m1-cC_2ii4-a1-m3-cG 2ii4-a1-m1-cD_2ii4-a1-m3-cB 2ii4-a1-m1-cE_2ii4-a1-m2-cH 2ii4-a1-m1-cG_2ii4-a1-m2-cC 2ii4-a1-m1-cH_2ii4-a1-m3-cE 2ii4-a1-m2-cA_2ii4-a1-m2-cF 2ii4-a1-m2-cB_2ii4-a1-m3-cD 2ii4-a1-m2-cE_2ii4-a1-m3-cH 2ii4-a1-m2-cG_2ii4-a1-m3-cC 2ii4-a1-m3-cA_2ii4-a1-m3-cF 2ii5-a1-m1-cA_2ii5-a1-m1-cF 2ii5-a1-m1-cB_2ii5-a1-m2-cD 2ii5-a1-m1-cC_2ii5-a1-m3-cG 2ii5-a1-m1-cD_2ii5-a1-m3-cB 2ii5-a1-m1-cE_2ii5-a1-m2-cH 2ii5-a1-m1-cG_2ii5-a1-m2-cC 2ii5-a1-m1-cH_2ii5-a1-m3-cE 2ii5-a1-m2-cA_2ii5-a1-m2-cF 2ii5-a1-m2-cB_2ii5-a1-m3-cD 2ii5-a1-m2-cE_2ii5-a1-m3-cH 2ii5-a1-m2-cG_2ii5-a1-m3-cC 2ii5-a1-m3-cA_2ii5-a1-m3-cF GKDRTEPVKGFHKAMVKTMSAALKIPHFGYCDEVDLTELVKLREELKPIAFARGIKLSFMPFFLKAASLGLLQFPILNASVDENCQNITYKASHNIGIAMDTEQGLIVPNVKNVQIRSIFEIATELNRLQKLGSAGQLSTNDLIGGTFTLSNIGSIGGTYAKPVILPPEVAIGALGTIKALPRFNEKGEVCKAQIMNVSWSADHRIIDGATVSRFSNLWKSYLENPAFMLLDLK GKDRTEPVKGFHKAMVKTMSAALKIPHFGYCDEVDLTELVKLREELKPIAFARGIKLSFMPFFLKAASLGLLQFPILNASVDENCQNITYKASHNIGIAMDTEQGLIVPNVKNVQIRSIFEIATELNRLQKLGSAGQLSTNDLIGGTFTLSNIGSIGGTYAKPVILPPEVAIGALGTIKALPRFNEKGEVCKAQIMNVSWSADHRIIDGATVSRFSNLWKSYLENPAFMLLDLK 2ii3-a1-m2-cH_2ii3-a1-m3-cH Crystal structure of a cubic core of the dihydrolipoamide acyltransferase (E2b) component in the branched-chain alpha-ketoacid dehydrogenase complex (BCKDC), Oxidized Coenzyme A-bound form P11181 P11181 2.17 X-RAY DIFFRACTION 102 1.0 9913 (Bos taurus) 9913 (Bos taurus) 234 234 2ihw-a1-m1-cA_2ihw-a1-m1-cB 2ihw-a1-m1-cA_2ihw-a1-m1-cC 2ihw-a1-m1-cB_2ihw-a1-m1-cC 2ihw-a1-m1-cD_2ihw-a1-m1-cE 2ihw-a1-m1-cD_2ihw-a1-m1-cF 2ihw-a1-m1-cE_2ihw-a1-m1-cF 2ihw-a1-m1-cG_2ihw-a1-m2-cG 2ihw-a1-m1-cG_2ihw-a1-m3-cG 2ihw-a1-m1-cH_2ihw-a1-m2-cH 2ihw-a1-m1-cH_2ihw-a1-m3-cH 2ihw-a1-m2-cA_2ihw-a1-m2-cB 2ihw-a1-m2-cA_2ihw-a1-m2-cC 2ihw-a1-m2-cB_2ihw-a1-m2-cC 2ihw-a1-m2-cD_2ihw-a1-m2-cE 2ihw-a1-m2-cD_2ihw-a1-m2-cF 2ihw-a1-m2-cE_2ihw-a1-m2-cF 2ihw-a1-m2-cG_2ihw-a1-m3-cG 2ihw-a1-m2-cH_2ihw-a1-m3-cH 2ihw-a1-m3-cA_2ihw-a1-m3-cB 2ihw-a1-m3-cA_2ihw-a1-m3-cC 2ihw-a1-m3-cB_2ihw-a1-m3-cC 2ihw-a1-m3-cD_2ihw-a1-m3-cE 2ihw-a1-m3-cD_2ihw-a1-m3-cF 2ihw-a1-m3-cE_2ihw-a1-m3-cF 2ii3-a1-m1-cA_2ii3-a1-m1-cB 2ii3-a1-m1-cA_2ii3-a1-m1-cC 2ii3-a1-m1-cB_2ii3-a1-m1-cC 2ii3-a1-m1-cD_2ii3-a1-m1-cE 2ii3-a1-m1-cD_2ii3-a1-m1-cF 2ii3-a1-m1-cE_2ii3-a1-m1-cF 2ii3-a1-m1-cG_2ii3-a1-m2-cG 2ii3-a1-m1-cG_2ii3-a1-m3-cG 2ii3-a1-m1-cH_2ii3-a1-m2-cH 2ii3-a1-m1-cH_2ii3-a1-m3-cH 2ii3-a1-m2-cA_2ii3-a1-m2-cB 2ii3-a1-m2-cA_2ii3-a1-m2-cC 2ii3-a1-m2-cB_2ii3-a1-m2-cC 2ii3-a1-m2-cD_2ii3-a1-m2-cE 2ii3-a1-m2-cD_2ii3-a1-m2-cF 2ii3-a1-m2-cE_2ii3-a1-m2-cF 2ii3-a1-m2-cG_2ii3-a1-m3-cG 2ii3-a1-m3-cA_2ii3-a1-m3-cB 2ii3-a1-m3-cA_2ii3-a1-m3-cC 2ii3-a1-m3-cB_2ii3-a1-m3-cC 2ii3-a1-m3-cD_2ii3-a1-m3-cE 2ii3-a1-m3-cD_2ii3-a1-m3-cF 2ii3-a1-m3-cE_2ii3-a1-m3-cF 2ii4-a1-m1-cA_2ii4-a1-m1-cB 2ii4-a1-m1-cA_2ii4-a1-m1-cC 2ii4-a1-m1-cB_2ii4-a1-m1-cC 2ii4-a1-m1-cD_2ii4-a1-m1-cE 2ii4-a1-m1-cD_2ii4-a1-m1-cF 2ii4-a1-m1-cE_2ii4-a1-m1-cF 2ii4-a1-m1-cG_2ii4-a1-m2-cG 2ii4-a1-m1-cG_2ii4-a1-m3-cG 2ii4-a1-m1-cH_2ii4-a1-m2-cH 2ii4-a1-m1-cH_2ii4-a1-m3-cH 2ii4-a1-m2-cA_2ii4-a1-m2-cB 2ii4-a1-m2-cA_2ii4-a1-m2-cC 2ii4-a1-m2-cB_2ii4-a1-m2-cC 2ii4-a1-m2-cD_2ii4-a1-m2-cE 2ii4-a1-m2-cD_2ii4-a1-m2-cF 2ii4-a1-m2-cE_2ii4-a1-m2-cF 2ii4-a1-m2-cG_2ii4-a1-m3-cG 2ii4-a1-m2-cH_2ii4-a1-m3-cH 2ii4-a1-m3-cA_2ii4-a1-m3-cB 2ii4-a1-m3-cA_2ii4-a1-m3-cC 2ii4-a1-m3-cB_2ii4-a1-m3-cC 2ii4-a1-m3-cD_2ii4-a1-m3-cE 2ii4-a1-m3-cD_2ii4-a1-m3-cF 2ii4-a1-m3-cE_2ii4-a1-m3-cF 2ii5-a1-m1-cA_2ii5-a1-m1-cB 2ii5-a1-m1-cA_2ii5-a1-m1-cC 2ii5-a1-m1-cB_2ii5-a1-m1-cC 2ii5-a1-m1-cD_2ii5-a1-m1-cE 2ii5-a1-m1-cD_2ii5-a1-m1-cF 2ii5-a1-m1-cE_2ii5-a1-m1-cF 2ii5-a1-m1-cG_2ii5-a1-m2-cG 2ii5-a1-m1-cG_2ii5-a1-m3-cG 2ii5-a1-m1-cH_2ii5-a1-m2-cH 2ii5-a1-m1-cH_2ii5-a1-m3-cH 2ii5-a1-m2-cA_2ii5-a1-m2-cB 2ii5-a1-m2-cA_2ii5-a1-m2-cC 2ii5-a1-m2-cB_2ii5-a1-m2-cC 2ii5-a1-m2-cD_2ii5-a1-m2-cE 2ii5-a1-m2-cD_2ii5-a1-m2-cF 2ii5-a1-m2-cE_2ii5-a1-m2-cF 2ii5-a1-m2-cG_2ii5-a1-m3-cG 2ii5-a1-m2-cH_2ii5-a1-m3-cH 2ii5-a1-m3-cA_2ii5-a1-m3-cB 2ii5-a1-m3-cA_2ii5-a1-m3-cC 2ii5-a1-m3-cB_2ii5-a1-m3-cC 2ii5-a1-m3-cD_2ii5-a1-m3-cE 2ii5-a1-m3-cD_2ii5-a1-m3-cF 2ii5-a1-m3-cE_2ii5-a1-m3-cF GKDRTEPVKGFHKAMVKTMSAALKIPHFGYCDEVDLTELVKLREELKPIAFARGIKLSFMPFFLKAASLGLLQFPILNASVDENCQNITYKASHNIGIAMDTEQGLIVPNVKNVQIRSIFEIATELNRLQKLGSAGQLSTNDLIGGTFTLSNIGSIGGTYAKPVILPPEVAIGALGTIKALPRFNEKGEVCKAQIMNVSWSADHRIIDGATVSRFSNLWKSYLENPAFMLLDLK GKDRTEPVKGFHKAMVKTMSAALKIPHFGYCDEVDLTELVKLREELKPIAFARGIKLSFMPFFLKAASLGLLQFPILNASVDENCQNITYKASHNIGIAMDTEQGLIVPNVKNVQIRSIFEIATELNRLQKLGSAGQLSTNDLIGGTFTLSNIGSIGGTYAKPVILPPEVAIGALGTIKALPRFNEKGEVCKAQIMNVSWSADHRIIDGATVSRFSNLWKSYLENPAFMLLDLK 2ii7-a1-m1-cH_2ii7-a1-m1-cA Anabaena sensory rhodopsin transducer Q8YSC3 Q8YSC3 2.8 X-RAY DIFFRACTION 25 1.0 1167 (Anabaena sp.) 1167 (Anabaena sp.) 106 112 SLSIGRTCWAIAEGYIPPETVCILNAGDEDAHVEITIYYSDKEPVGPYRLTVPARRTKHVRFNDLNDPAPIPHDTDFASVIQSNVPIVVQHTRLDSRQAENALLST SLSIGRTCWAIAEGYIPPQFISHETVCILNAGDEDAHVEITIYYSDKEPVGPYRLTVPARRTKHVRFNDLNDPAPIPHDTDFASVIQSNVPIVVQHTRLDSRQAENALLSTI 2iia-a1-m2-cA_2iia-a1-m4-cA Anabaena sensory rhodopsin transducer Q8YSC3 Q8YSC3 1.8 X-RAY DIFFRACTION 45 1.0 1167 (Anabaena sp.) 1167 (Anabaena sp.) 89 89 2ii7-a1-m1-cF_2ii7-a1-m1-cA 2ii7-a1-m1-cF_2ii7-a1-m1-cH 2ii7-a2-m1-cG_2ii7-a2-m1-cC 2ii7-a2-m1-cG_2ii7-a2-m1-cD 2ii8-a1-m1-cA_2ii8-a1-m1-cB 2ii8-a1-m1-cF_2ii8-a1-m1-cA 2ii8-a1-m1-cF_2ii8-a1-m1-cH 2ii8-a1-m1-cH_2ii8-a1-m1-cB 2ii8-a2-m1-cC_2ii8-a2-m1-cE 2ii8-a2-m1-cC_2ii8-a2-m1-cG 2ii8-a2-m1-cE_2ii8-a2-m1-cD 2ii8-a2-m1-cG_2ii8-a2-m1-cD 2ii9-a1-m1-cA_2ii9-a1-m1-cC 2ii9-a1-m1-cA_2ii9-a1-m1-cD 2ii9-a1-m1-cB_2ii9-a1-m1-cC 2ii9-a1-m1-cB_2ii9-a1-m1-cD 2iia-a1-m1-cA_2iia-a1-m3-cA 2iia-a1-m1-cA_2iia-a1-m4-cA 2iia-a1-m2-cA_2iia-a1-m3-cA IGRTCWAIAEGYIPPETVCILNAGDEDAHVEITIYYSDKEPVGPYRLTVPARRTKHVRFNDLNDPAPIPHDTDFASVIQSNVPIVVQHT IGRTCWAIAEGYIPPETVCILNAGDEDAHVEITIYYSDKEPVGPYRLTVPARRTKHVRFNDLNDPAPIPHDTDFASVIQSNVPIVVQHT 2iid-a2-m1-cB_2iid-a2-m1-cD Structure of L-amino acid oxidase from Calloselasma rhodostoma in complex with L-phenylalanine P81382 P81382 1.8 X-RAY DIFFRACTION 124 1.0 8717 (Calloselasma rhodostoma) 8717 (Calloselasma rhodostoma) 483 483 1f8r-a1-m1-cA_1f8r-a1-m1-cC 1f8r-a2-m1-cB_1f8r-a2-m1-cD 1f8s-a1-m1-cA_1f8s-a1-m1-cB 1f8s-a2-m1-cC_1f8s-a2-m1-cD 1f8s-a3-m1-cE_1f8s-a3-m1-cF 1f8s-a4-m1-cG_1f8s-a4-m1-cH 2iid-a1-m1-cA_2iid-a1-m1-cC RNPLAECFQENDYEEFLEIARNGLKATSNPKHVVIVGAGMAGLSAAYVLAGAGHQVTVLEASERPGGRVRTYRNEEAGWYANLGPMRLPEKHRIVREYIRKFDLRLNEFSQENDNAWYFIKNIRKKVGEVKKDPGLLKYPVKPSEAGKSAGQLYEESLGKVVEELKRTNCSYILNKYDTYSTKEYLIKEGDLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVDGMDKLPTAMYRDIQDKVHFNAQVIKIQQNDQKVTVVYETLSKETPSVTADYVIVCTTSRAVRLIKFNPPLLPKKAHALRSVHYRSGTKIFLTCTTKFWEDDGIHGGKSTTDLPSRFIYYPNHNFTNGVGVIIAYGIGDDANFFQALDFKDCADIVFNDLSLIHQLPKKDIQSFCYPSVIQKWSLDKYAMGGITTFTPYQFQHFSDPLTASQGRIYFAGEYTAQAHGWIDSTIKSGLRAARDVNLASEN RNPLAECFQENDYEEFLEIARNGLKATSNPKHVVIVGAGMAGLSAAYVLAGAGHQVTVLEASERPGGRVRTYRNEEAGWYANLGPMRLPEKHRIVREYIRKFDLRLNEFSQENDNAWYFIKNIRKKVGEVKKDPGLLKYPVKPSEAGKSAGQLYEESLGKVVEELKRTNCSYILNKYDTYSTKEYLIKEGDLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVDGMDKLPTAMYRDIQDKVHFNAQVIKIQQNDQKVTVVYETLSKETPSVTADYVIVCTTSRAVRLIKFNPPLLPKKAHALRSVHYRSGTKIFLTCTTKFWEDDGIHGGKSTTDLPSRFIYYPNHNFTNGVGVIIAYGIGDDANFFQALDFKDCADIVFNDLSLIHQLPKKDIQSFCYPSVIQKWSLDKYAMGGITTFTPYQFQHFSDPLTASQGRIYFAGEYTAQAHGWIDSTIKSGLRAARDVNLASEN 2iii-a1-m1-cA_2iii-a1-m2-cA Crystal structure of the adenosylmethionine decarboxylase (aq_254) from aquifex aeolicus vf5 O66615 O66615 2.3 X-RAY DIFFRACTION 86 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 119 119 AKTLGLHILADLYGVDADKIDRVEDIRELLEGAVKYANLTKISSHYYQFQPHGATGVVLLASHISIHTWPEHGLATVDVYTCGDPSKAYRADYIITQLNPKRIDKQVHERGIVEEESNQ AKTLGLHILADLYGVDADKIDRVEDIRELLEGAVKYANLTKISSHYYQFQPHGATGVVLLASHISIHTWPEHGLATVDVYTCGDPSKAYRADYIITQLNPKRIDKQVHERGIVEEESNQ 2iik-a1-m1-cA_2iik-a1-m1-cB Crystal Structure of human peroxisomal acetyl-CoA acyl transferase 1 (ACAA1) P09110 P09110 2.55 X-RAY DIFFRACTION 234 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 386 400 ASAADVVVVHGRRTAICRAGRGGFKDTTPDELLSAVMTAVLKDVNLRPEQLGDICVGNVLQPGAGAIMARIAQFLSDIPETVPLSTVNRQCSSGLQAVASIAGGIRNGSYDIGMACGVESMSLADGNITSRLMEKEKARDCLIPMGITSENVAERFGISREKQDTFALASQQKAARAQSKGCFQAEIVPVTTTVHDDKGTKRSITVTQDEGIRPSTTMEGLAKLKPAFKKDGSTTAGNSSQVSDGAAAILLARRSKAEELGLPILGVLRSYAVVGVPPDIMGIGPAYAIPVALQKAGLTVSDVDIFEINEAFASQAAYCVEKLRLPPEKVNPLGGAVALGHPLGCTGARQVITLLNELKRRGKRAYGVVSMCIGTGMGAAAVFEYP TENLYFQSMAPQASAADVVVVHGRRTAICRAGRGGFKDTTPDELLSAVMTAVLKDVNLRPEQLGDICVGNVLQPGAGAIMARIAQFLSDIPETVPLSTVNRQCSSGLQAVASIAGGIRNGSYDIGMACGVESMSLAPGNITSRLMEKEKARDCLIPMGITSENVAERFGISREKQDTFALASQQKAARAQSKGCFQAEIVPVTTTVHDDKGTKRSITVTQDEGIRPSTTMEGLAKLKPAFKKDGSTTAGNSSQVSDGAAAILLARRSKAEELGLPILGVLRSYAVVGVPPDIMGIGPAYAIPVALQKAGLTVSDVDIFEINEAFASQAAYCVEKLRLPPEKVNPLGGAVALGHPLGCTGARQVITLLNELKRRGKRAYGVVSMCIGTGMGAAAVFEYPGN 2iim-a1-m1-cA_2iim-a1-m2-cA SH3 Domain of Human Lck P06239 P06239 1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 62 GSPLQDNLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKA GSPLQDNLVIALHSYEPSHDGDLGFEKGEQLRILEQSGEWWKAQSLTTGQEGFIPFNFVAKA 2iir-a5-m1-cI_2iir-a5-m1-cJ Acetate kinase from a hypothermophile Thermotoga maritima Q9WYB1 Q9WYB1 3.3 X-RAY DIFFRACTION 234 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 400 400 2iir-a1-m1-cA_2iir-a1-m1-cB 2iir-a2-m1-cC_2iir-a2-m1-cD 2iir-a3-m1-cE_2iir-a3-m1-cF 2iir-a4-m1-cG_2iir-a4-m1-cH MRVLVINSGSSSIKYQLIEMEGEKVLCKGIAERIGIEGSRLVHRVGDEKHVIERELPDHEEALKLILNTLVDEKLGVIKDLKEIDAVGHRVVHGGERFKESVLVDEEVLKAIEEVSPLAPLHNPANLMGIKAAMKLLPGVPNVAVFDTAFHQTIPQKAYLYAIPYEYYEKYKIRRYGFHGTSHRYVSKRAAEILGKKLEELKIITCHIGNGASVAAVKYGKCVDTSMGFTPLEGLVMGTRSGDLDPAIPFFIMEKEGISPQEMYDILNKKSGVYGLSKGFSSDMRDIEEAALKGDEWCKLVLEIYDYRIAKYIGAYAAAMNGVDAIVFTAGVGENSPITREDVCSYLEFLGVKLDKQKNEETIRGKEGIISTPDSRVKVLVVPTNEELMIARDTKEIVEK MRVLVINSGSSSIKYQLIEMEGEKVLCKGIAERIGIEGSRLVHRVGDEKHVIERELPDHEEALKLILNTLVDEKLGVIKDLKEIDAVGHRVVHGGERFKESVLVDEEVLKAIEEVSPLAPLHNPANLMGIKAAMKLLPGVPNVAVFDTAFHQTIPQKAYLYAIPYEYYEKYKIRRYGFHGTSHRYVSKRAAEILGKKLEELKIITCHIGNGASVAAVKYGKCVDTSMGFTPLEGLVMGTRSGDLDPAIPFFIMEKEGISPQEMYDILNKKSGVYGLSKGFSSDMRDIEEAALKGDEWCKLVLEIYDYRIAKYIGAYAAAMNGVDAIVFTAGVGENSPITREDVCSYLEFLGVKLDKQKNEETIRGKEGIISTPDSRVKVLVVPTNEELMIARDTKEIVEK 2iiu-a3-m11-cB_2iiu-a3-m9-cB Crystal structure of a putative PhoU-like phosphate regulatory protein (NP_719307.1) from Shewanella oneidensis MR-1 at 2.28 A resolution. Q8EAX1 Q8EAX1 2.28 X-RAY DIFFRACTION 30 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 204 204 2iiu-a1-m1-cA_2iiu-a1-m2-cA 2iiu-a1-m1-cA_2iiu-a1-m3-cA 2iiu-a1-m2-cA_2iiu-a1-m3-cA 2iiu-a1-m4-cA_2iiu-a1-m5-cA 2iiu-a1-m4-cA_2iiu-a1-m6-cA 2iiu-a1-m5-cA_2iiu-a1-m6-cA 2iiu-a2-m1-cB_2iiu-a2-m7-cB 2iiu-a2-m1-cB_2iiu-a2-m8-cB 2iiu-a2-m1-cC_2iiu-a2-m7-cC 2iiu-a2-m1-cC_2iiu-a2-m8-cC 2iiu-a2-m7-cB_2iiu-a2-m8-cB 2iiu-a2-m7-cC_2iiu-a2-m8-cC 2iiu-a3-m10-cB_2iiu-a3-m11-cB 2iiu-a3-m10-cB_2iiu-a3-m9-cB 2iiu-a3-m10-cC_2iiu-a3-m11-cC 2iiu-a3-m10-cC_2iiu-a3-m9-cC 2iiu-a3-m11-cC_2iiu-a3-m9-cC 2iiu-a3-m12-cB_2iiu-a3-m13-cB 2iiu-a3-m12-cB_2iiu-a3-m14-cB 2iiu-a3-m12-cC_2iiu-a3-m13-cC 2iiu-a3-m12-cC_2iiu-a3-m14-cC 2iiu-a3-m13-cB_2iiu-a3-m14-cB 2iiu-a3-m13-cC_2iiu-a3-m14-cC 2iiu-a3-m1-cA_2iiu-a3-m2-cA 2iiu-a3-m1-cA_2iiu-a3-m3-cA 2iiu-a3-m2-cA_2iiu-a3-m3-cA 2iiu-a3-m4-cA_2iiu-a3-m5-cA 2iiu-a3-m4-cA_2iiu-a3-m6-cA 2iiu-a3-m5-cA_2iiu-a3-m6-cA 2olt-a1-m1-cB_2olt-a1-m2-cB 2olt-a1-m1-cB_2olt-a1-m3-cB 2olt-a1-m1-cC_2olt-a1-m2-cC 2olt-a1-m1-cC_2olt-a1-m3-cC 2olt-a1-m2-cB_2olt-a1-m3-cB 2olt-a1-m2-cC_2olt-a1-m3-cC 2olt-a2-m4-cA_2olt-a2-m5-cA 2olt-a2-m4-cA_2olt-a2-m6-cA 2olt-a2-m5-cA_2olt-a2-m6-cA 2olt-a3-m1-cA_2olt-a3-m7-cA 2olt-a3-m1-cA_2olt-a3-m8-cA 2olt-a3-m4-cA_2olt-a3-m5-cA 2olt-a3-m4-cA_2olt-a3-m6-cA 2olt-a3-m5-cA_2olt-a3-m6-cA 2olt-a3-m7-cA_2olt-a3-m8-cA SPIKPLQEHDKVYDCASLLVPFFEATITGNWDDAVQIRKQISLAEKQGDSLKREIRLTLSLFPVERTDLLELLTQQDKIANKAKDISGRVIGRQLLIPQALQVPFIAYLQRCIDAVGLAQQVINELDDLLERGREVDFVAKINELDIIEEDTDDLQIQLRRQLFALESELNPVDVFLYKTIEWVGGLADLAERVGSRLELLARV SPIKPLQEHDKVYDCASLLVPFFEATITGNWDDAVQIRKQISLAEKQGDSLKREIRLTLSLFPVERTDLLELLTQQDKIANKAKDISGRVIGRQLLIPQALQVPFIAYLQRCIDAVGLAQQVINELDDLLERGREVDFVAKINELDIIEEDTDDLQIQLRRQLFALESELNPVDVFLYKTIEWVGGLADLAERVGSRLELLARV 2iiu-a3-m2-cA_2iiu-a3-m6-cA Crystal structure of a putative PhoU-like phosphate regulatory protein (NP_719307.1) from Shewanella oneidensis MR-1 at 2.28 A resolution. Q8EAX1 Q8EAX1 2.28 X-RAY DIFFRACTION 19 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 203 203 2iiu-a1-m1-cA_2iiu-a1-m4-cA 2iiu-a1-m2-cA_2iiu-a1-m6-cA 2iiu-a1-m3-cA_2iiu-a1-m5-cA 2iiu-a2-m1-cB_2iiu-a2-m1-cC 2iiu-a2-m7-cB_2iiu-a2-m7-cC 2iiu-a2-m8-cB_2iiu-a2-m8-cC 2iiu-a3-m10-cB_2iiu-a3-m10-cC 2iiu-a3-m11-cB_2iiu-a3-m11-cC 2iiu-a3-m12-cB_2iiu-a3-m12-cC 2iiu-a3-m13-cB_2iiu-a3-m13-cC 2iiu-a3-m14-cB_2iiu-a3-m14-cC 2iiu-a3-m1-cA_2iiu-a3-m4-cA 2iiu-a3-m3-cA_2iiu-a3-m5-cA 2iiu-a3-m9-cB_2iiu-a3-m9-cC 2olt-a1-m1-cB_2olt-a1-m1-cC 2olt-a1-m2-cB_2olt-a1-m2-cC 2olt-a1-m3-cB_2olt-a1-m3-cC 2olt-a2-m1-cA_2olt-a2-m4-cA 2olt-a3-m1-cA_2olt-a3-m4-cA 2olt-a3-m5-cA_2olt-a3-m8-cA 2olt-a3-m6-cA_2olt-a3-m7-cA SPIKPLQEHDKVYDCASLLVPFFEATITGNWDDAVQIRKQISLAEKQGDSLKREIRLTGLFPVERTDLLELLTQQDKIANKAKDISGRVIGRQLLIPQALQVPFIAYLQRCIDAVGLAQQVINELDDLLERGREVDFVAKINELDIIEEDTDDLQIQLRRQLFALESELNPVDVFLYKTIEWVGGLADLAERVGSRLELLARV SPIKPLQEHDKVYDCASLLVPFFEATITGNWDDAVQIRKQISLAEKQGDSLKREIRLTGLFPVERTDLLELLTQQDKIANKAKDISGRVIGRQLLIPQALQVPFIAYLQRCIDAVGLAQQVINELDDLLERGREVDFVAKINELDIIEEDTDDLQIQLRRQLFALESELNPVDVFLYKTIEWVGGLADLAERVGSRLELLARV 2iiu-a3-m3-cA_2iiu-a3-m9-cC Crystal structure of a putative PhoU-like phosphate regulatory protein (NP_719307.1) from Shewanella oneidensis MR-1 at 2.28 A resolution. Q8EAX1 Q8EAX1 2.28 X-RAY DIFFRACTION 20 0.995 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 203 209 2iiu-a3-m1-cA_2iiu-a3-m11-cC 2iiu-a3-m2-cA_2iiu-a3-m10-cC 2iiu-a3-m4-cA_2iiu-a3-m14-cC 2iiu-a3-m5-cA_2iiu-a3-m13-cC 2iiu-a3-m6-cA_2iiu-a3-m12-cC SPIKPLQEHDKVYDCASLLVPFFEATITGNWDDAVQIRKQISLAEKQGDSLKREIRLTGLFPVERTDLLELLTQQDKIANKAKDISGRVIGRQLLIPQALQVPFIAYLQRCIDAVGLAQQVINELDDLLERGREVDFVAKINELDIIEEDTDDLQIQLRRQLFALESELNPVDVFLYKTIEWVGGLADLAERVGSRLELLARV LGVFAKSPIKPLQEHDKVYDCASLLVPFFEATITGNWDDAVQIRKQISLAEKQGDSLKREIRLTLFPVERTDLLELLTQQDKIANKAKDISGRVIGRQLLIPQALQVPFIAYLQRCIDAVGLAQQVINELDDLLEARGREVDFVAKINELDIIEEDTDDLQIQLRRQLFALESELNPVDVFLYKTIEWVGGLADLAERVGSRLELLARV 2iiz-a1-m1-cA_2iiz-a1-m2-cA Crystal structure of putative melanin biosynthesis protein TyrA with bound heme (NP_716371.1) from Shewanella Oneidensis at 2.30 A resolution Q8EIU4 Q8EIU4 2.3 X-RAY DIFFRACTION 57 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 294 294 2hag-a1-m1-cA_2hag-a1-m2-cA NPREQLGVCAEGNLHSVYLFNANDNVESQLRPCIANVAQYIYELTDQYSDSAFNGFVAIGANYWDSLYPESRPELKPFPAQEGNREAPAIEYDLFVHLRCDRYDILHLVANEISQFEDLVELVEEERGFRFDSRDLTGFVDGTENPKGRHRQEVALVGSEDPEFKGGSYIHVQKYAHNLSKWHRLPLKKQEDIIGRTKQDNIEYESEDKPLTSHIKRVNLKDENGKSIEILRQSPYGSLKEQGLFISTCRTPDHFEKLHSVFGDGAGNHDHLHFTSALTGSSFFAPSLDFLQFD NPREQLGVCAEGNLHSVYLFNANDNVESQLRPCIANVAQYIYELTDQYSDSAFNGFVAIGANYWDSLYPESRPELKPFPAQEGNREAPAIEYDLFVHLRCDRYDILHLVANEISQFEDLVELVEEERGFRFDSRDLTGFVDGTENPKGRHRQEVALVGSEDPEFKGGSYIHVQKYAHNLSKWHRLPLKKQEDIIGRTKQDNIEYESEDKPLTSHIKRVNLKDENGKSIEILRQSPYGSLKEQGLFISTCRTPDHFEKLHSVFGDGAGNHDHLHFTSALTGSSFFAPSLDFLQFD 2ij0-a1-m1-cA_2ij0-a1-m1-cB Structural basis of T cell specificity and activation by the bacterial superantigen toxic shock syndrome toxin-1 P06886 P06886 2.25 X-RAY DIFFRACTION 18 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 191 194 DNIKDLLDWYSSGSDTFTNSEVLDNSLGSMRIKNTDGSISLIIFPSPYYSPAFTKGEKVDLNTKRTKKSQHTSEGTYIHFQISGVTNTEKLPTPIELPLKVKVHGKDSPLKYWPKFDKKQLAISTLDFEIRHQLTQIHGLYRSSDKTGGYWKITMNDGSTYQSDLSKKFEYNTEKPPINIDEIKTIEAEIN STNDNIKDLLDWYSSGSDTFTNSEVLDNSLGSMRIKNTDGSISLIIFPSPYYSPAFTKGEKVDLNTKRTKKSQHTSEGTYIHFQISGVTNTEKLPTPIELPLKVKVHGKDSPLKYWPKFDKKQLAISTLDFEIRHQLTQIHGLYRSSDKTGGYWKITMNDGSTYQSDLSKKFEYNTEKPPINIDEIKTIEAEIN 2ij0-a1-m1-cE_2ij0-a1-m1-cC Structural basis of T cell specificity and activation by the bacterial superantigen toxic shock syndrome toxin-1 A0A5B4 A0A5B4 2.25 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 GAVVSQHPSMVIVKSGTSVKIECRSLDTNIHTMFWYRQFPKQSLMLMATSHQGFNAIYEQGVVKDKFLINHASPTLSTLTVTSAHPEDSGFYVCSALAGSGSSTDTQYFGPGTQLTVL GAVVSQHPSMVIVKSGTSVKIECRSLDTNIHTMFWYRQFPKQSLMLMATSHQGFNAIYEQGVVKDKFLINHASPTLSTLTVTSAHPEDSGFYVCSALAGSGSSTDTQYFGPGTQLTVL 2ij9-a1-m1-cA_2ij9-a1-m2-cB Crystal Structure of Uridylate Kinase from Archaeoglobus Fulgidus O28237 O28237 2.9 X-RAY DIFFRACTION 77 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 214 216 2ij9-a1-m2-cA_2ij9-a1-m1-cB MKVVLSLGGSVLSNESEKIREFAKTIESVAQQNQVFVVVGGGKLAREYIKSARELGASETFCDYIGIAATRLNAMLLISAIPSAAKKVPVDFMEAEELSKLYRVVVMGGTFPGHTTDATAALLAEFIKADVFINATNVDGVYSADPKSDTSAVKYDRLSPQQLVEIVSRGTNVVIDLLAAKIIERSKIKTYVILGTPENIMKAVKGEAVGTVIA MKVVLSLGGSVLSNESEKIREFAKTIESVAQQNQVFVVVGGGKLAREYIKSARELGASETFCDYIGIAATRLNAMLLISAIPSAAKKVPVDFMEAEELSKLYRVVVMGGTFPGHTTDATAALLAEFIKADVFINATNVDGVYSADPKSDTSAVKYDRLSPQQLVEIVSRSSGTNVVIDLLAAKIIERSKIKTYVILGTPENIMKAVKGEAVGTVIA 2ij9-a1-m2-cA_2ij9-a1-m2-cB Crystal Structure of Uridylate Kinase from Archaeoglobus Fulgidus O28237 O28237 2.9 X-RAY DIFFRACTION 57 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 214 216 2ij9-a1-m1-cA_2ij9-a1-m1-cB MKVVLSLGGSVLSNESEKIREFAKTIESVAQQNQVFVVVGGGKLAREYIKSARELGASETFCDYIGIAATRLNAMLLISAIPSAAKKVPVDFMEAEELSKLYRVVVMGGTFPGHTTDATAALLAEFIKADVFINATNVDGVYSADPKSDTSAVKYDRLSPQQLVEIVSRGTNVVIDLLAAKIIERSKIKTYVILGTPENIMKAVKGEAVGTVIA MKVVLSLGGSVLSNESEKIREFAKTIESVAQQNQVFVVVGGGKLAREYIKSARELGASETFCDYIGIAATRLNAMLLISAIPSAAKKVPVDFMEAEELSKLYRVVVMGGTFPGHTTDATAALLAEFIKADVFINATNVDGVYSADPKSDTSAVKYDRLSPQQLVEIVSRSSGTNVVIDLLAAKIIERSKIKTYVILGTPENIMKAVKGEAVGTVIA 2ijc-a1-m1-cA_2ijc-a1-m1-cF Structure of a Conserved Protein of Unknown Function PA0269 from Pseudomonas aeruginosa Q9I6M1 Q9I6M1 2.05 X-RAY DIFFRACTION 149 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 139 139 2ijc-a1-m1-cB_2ijc-a1-m1-cC 2ijc-a1-m1-cD_2ijc-a1-m1-cE 2ijc-a2-m1-cG_2ijc-a2-m1-cH 2ijc-a2-m1-cI_2ijc-a2-m2-cI 2ijc-a2-m2-cG_2ijc-a2-m2-cH 2o4d-a1-m1-cA_2o4d-a1-m5-cA 2o4d-a1-m2-cA_2o4d-a1-m4-cA 2o4d-a1-m3-cA_2o4d-a1-m6-cA TTRLEWAKASPDAYAALGLEKALAKAGLERPLIELVYLRTSQINGCAYCVNHANDARKAGETEQRLQALCVWQETPYFTPRERAALAWTEQLARLSQGALPHGLLDELREHFDDKEIAELTLAVSAINAWNRFGVGGQP TTRLEWAKASPDAYAALGLEKALAKAGLERPLIELVYLRTSQINGCAYCVNHANDARKAGETEQRLQALCVWQETPYFTPRERAALAWTEQLARLSQGALPHGLLDELREHFDDKEIAELTLAVSAINAWNRFGVGGQP 2ijc-a1-m1-cD_2ijc-a1-m1-cF Structure of a Conserved Protein of Unknown Function PA0269 from Pseudomonas aeruginosa Q9I6M1 Q9I6M1 2.05 X-RAY DIFFRACTION 74 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 138 139 2ijc-a1-m1-cB_2ijc-a1-m1-cA 2ijc-a1-m1-cC_2ijc-a1-m1-cE 2ijc-a2-m1-cG_2ijc-a2-m1-cI 2ijc-a2-m1-cH_2ijc-a2-m2-cH 2ijc-a2-m2-cG_2ijc-a2-m2-cI 2o4d-a1-m1-cA_2o4d-a1-m4-cA 2o4d-a1-m2-cA_2o4d-a1-m6-cA 2o4d-a1-m3-cA_2o4d-a1-m5-cA TRLEWAKASPDAYAALGLEKALAKAGLERPLIELVYLRTSQINGCAYCVNHANDARKAGETEQRLQALCVWQETPYFTPRERAALAWTEQLARLSQGALPHGLLDELREHFDDKEIAELTLAVSAINAWNRFGVGGQP TTRLEWAKASPDAYAALGLEKALAKAGLERPLIELVYLRTSQINGCAYCVNHANDARKAGETEQRLQALCVWQETPYFTPRERAALAWTEQLARLSQGALPHGLLDELREHFDDKEIAELTLAVSAINAWNRFGVGGQP 2ijd-a2-m1-c2_2ijd-a2-m3-c2 Crystal Structure of the Poliovirus Precursor Protein 3CD Q1PHW8 Q1PHW8 3.4 X-RAY DIFFRACTION 117 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 644 644 2ijd-a1-m1-c1_2ijd-a1-m2-c1 GPGFDYAVAMAKRNIVTATTSKGEFTMLGVHDNVAILPTHASPGESIVIDGKEVAILAAKALADQAGTNLEITIITLKRNEKFRDIRPHIPTQITETNDGVLIVNTSKYPNMYVPVGAVTEQGYLNLGGRQTARTLMYNFPTRAGQAGGVITCTGKVIGMHVGGNGSHGFAAALKRSYFTQSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVITGSAVGCDPDLFWSKIPVLMEEKLFAFDYTGYDASLSPAWFEALKMVLEKIGFGDRVDYIDYLNHSHHLYKNKTYCVKGGMPSGCSGTSIFNSMINNLIIRTLLLKTYKGIDLDHLKMIAYGDDVIASYPHEVDASLLAQSGKDYGLTMTPADKSATFETVTWENVTFLKRFFRADEKYPFLIHPVMPMKEIHESIRWTKDPRNTQDHVRSLCLLAWHNGEEEYNKFLAKIRSVPIGRALDLPEYSTLYDRWLDSF GPGFDYAVAMAKRNIVTATTSKGEFTMLGVHDNVAILPTHASPGESIVIDGKEVAILAAKALADQAGTNLEITIITLKRNEKFRDIRPHIPTQITETNDGVLIVNTSKYPNMYVPVGAVTEQGYLNLGGRQTARTLMYNFPTRAGQAGGVITCTGKVIGMHVGGNGSHGFAAALKRSYFTQSQGEIQWMRPSKEVGYPIINAPSKTKLEPSAFHYVFEGVKEPAVLTKNDPRLKTDFEEAIFSKYVGNKITEVDEYMKEAVDHYAGQLMSLDINTEQMCLEDAMYGTDGLEALDLSTSAGYPYVAMGKKKRDILNKQTRDTKEMQKLLDTYGINLPLVTYVKDELRSKTKVEQGKSRLIEASSLNDSVAMRMAFGNLYAAFHKNPGVITGSAVGCDPDLFWSKIPVLMEEKLFAFDYTGYDASLSPAWFEALKMVLEKIGFGDRVDYIDYLNHSHHLYKNKTYCVKGGMPSGCSGTSIFNSMINNLIIRTLLLKTYKGIDLDHLKMIAYGDDVIASYPHEVDASLLAQSGKDYGLTMTPADKSATFETVTWENVTFLKRFFRADEKYPFLIHPVMPMKEIHESIRWTKDPRNTQDHVRSLCLLAWHNGEEEYNKFLAKIRSVPIGRALDLPEYSTLYDRWLDSF 2ijl-a1-m1-cB_2ijl-a1-m1-cA The structure of a putative ModE from Agrobacterium tumefaciens. A9CHN1 A9CHN1 2.3 X-RAY DIFFRACTION 88 0.99 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 103 104 RLPLKPVLRIDFPPGERLGHGKVELQLIAETGSISAAGRADSYRRAWLLVDALNHFRQPVICSQGGAALTVFGAELLERYRGEERNEALREDIDWLEANRNPQ KRLPLKPVLRIDFPPGERLGHGKVELQLIAETGSISAAGRADSYRRAWLLVDALNHFRQPVICSQRGAALTVFGAELLERYRGEERNEALREDIDWLEANRNPQ 2ijz-a1-m1-cI_2ijz-a1-m1-cL Crystal structure of aminopeptidase Q9HYZ3 Q9HYZ3 3 X-RAY DIFFRACTION 196 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 379 379 2ijz-a1-m1-cA_2ijz-a1-m1-cD 2ijz-a1-m1-cB_2ijz-a1-m1-cK 2ijz-a1-m1-cC_2ijz-a1-m1-cF 2ijz-a1-m1-cE_2ijz-a1-m1-cH 2ijz-a1-m1-cG_2ijz-a1-m1-cJ LIDFLKASPTPFHATASLARRLEAAGYRRLDEGGRYYVTRNDSSLIAIRLGSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLNPINAQNELPPIIAQLAPGETADVVLDYELSFYDTQSAAVVGLNDEFIAGARLDNLLSCHAGLEALLNAEGDENCILVCTDHEEVGSCSHCGADGPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMGCGSTIGPITASQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASS LIDFLKASPTPFHATASLARRLEAAGYRRLDEGGRYYVTRNDSSLIAIRLGSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLNPINAQNELPPIIAQLAPGETADVVLDYELSFYDTQSAAVVGLNDEFIAGARLDNLLSCHAGLEALLNAEGDENCILVCTDHEEVGSCSHCGADGPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMGCGSTIGPITASQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASS 2ijz-a1-m1-cK_2ijz-a1-m1-cL Crystal structure of aminopeptidase Q9HYZ3 Q9HYZ3 3 X-RAY DIFFRACTION 107 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 379 379 2ijz-a1-m1-cA_2ijz-a1-m1-cE 2ijz-a1-m1-cA_2ijz-a1-m1-cI 2ijz-a1-m1-cB_2ijz-a1-m1-cC 2ijz-a1-m1-cB_2ijz-a1-m1-cD 2ijz-a1-m1-cC_2ijz-a1-m1-cD 2ijz-a1-m1-cE_2ijz-a1-m1-cI 2ijz-a1-m1-cF_2ijz-a1-m1-cG 2ijz-a1-m1-cF_2ijz-a1-m1-cH 2ijz-a1-m1-cG_2ijz-a1-m1-cH 2ijz-a1-m1-cJ_2ijz-a1-m1-cK 2ijz-a1-m1-cJ_2ijz-a1-m1-cL LIDFLKASPTPFHATASLARRLEAAGYRRLDEGGRYYVTRNDSSLIAIRLGSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLNPINAQNELPPIIAQLAPGETADVVLDYELSFYDTQSAAVVGLNDEFIAGARLDNLLSCHAGLEALLNAEGDENCILVCTDHEEVGSCSHCGADGPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMGCGSTIGPITASQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASS LIDFLKASPTPFHATASLARRLEAAGYRRLDEGGRYYVTRNDSSLIAIRLGSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLNPINAQNELPPIIAQLAPGETADVVLDYELSFYDTQSAAVVGLNDEFIAGARLDNLLSCHAGLEALLNAEGDENCILVCTDHEEVGSCSHCGADGPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMGCGSTIGPITASQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASS 2ikb-a1-m1-cC_2ikb-a1-m1-cA Crystal Structure of a Protein of Unknown Function NMB1012 from Neisseria meningitidis Q7DDI9 Q7DDI9 1.7 X-RAY DIFFRACTION 66 0.994 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 157 158 2ikb-a2-m1-cB_2ikb-a2-m1-cD 2is5-a1-m1-cB_2is5-a1-m1-cA SDKFNQFINRVLSHEGGYANHPPGGETNWGITKRTAQANGYNGSRATREQAISIYRKAFWERYRADQPEAVAFQFFDACVNHGYGNAARLQRAAGVPDDGVIGAVSLKAINSLPENDLLLRFNAERLVFYTKLGTFTSFGKGWVRRVAQNLIHASAD SDKFNQFINRVLSHEGGYANHPKDPGGETNWGITKRTAQANGYNGSRATREQAISIYRKAFWERYRADQPEAVAFQFFDACVNHGYGNAARLQRAAGVPDDGVIGAVSLKAINSLPENDLLLRFNAERLVFYTKLGTFTSFGKGWVRRVAQNLIHASA 2ikc-a1-m1-cA_2ikc-a1-m1-cB Crystal structure of sheep lactoperoxidase at 3.25 A resolution reveals the binding sites for formate 3.25 X-RAY DIFFRACTION 22 1.0 9940 (Ovis aries) 9940 (Ovis aries) 595 595 SWEVGCGAPVPLVKCDENSPYRTITGDCNNRRSPALGAANRALARWLPAEYEDGLAVPFGWTQRKTRNGFRVPLAREVSNKIVGYLDEEGVLDQNRSLLFMQWGQIVDHDLDFAPETELGSSEHSKVQCEEYCIQGDNCFPIMFPKNDPKLKTQGKCMPFFRAGFVCPTPPYQSLARDQINSVTSFLDASLVYGSEPSLASRLRNLSSPLGLMAVNQEAWDHGLAYPPFNNMKPSPCEFINTTARVPCFQAGDSRASEQILLATVHTLLLREHNRLARELKRLNPHWDGEKLYQEARKILGAFIQIITFRDYLPIVLGSEMQKWIPRYQGYNNSVDPRISNVFTFAFRFGHMEVPSTVSRLDENYQPRGPEAELPLHTLFFNTWRIIKDGGIDPLVRGLLAKKSKLMNQNKMVTSELRNKLFQPTHKIHGFDLAAINLQRCRDHGMPGYNSWRGFCGLSQPKTLKGLQAVLKNKILAKKLLDLYKTPDNIDIWIGGNAEPMVERGRVGPLLACLLGRQFQQIRDGDRFWWENPGVFTEKQRDSLQKVSFSRLICDNTHITKVPLHAFQANNYPHDFVDCSAIDKLDLSPWASREN SWEVGCGAPVPLVKCDENSPYRTITGDCNNRRSPALGAANRALARWLPAEYEDGLAVPFGWTQRKTRNGFRVPLAREVSNKIVGYLDEEGVLDQNRSLLFMQWGQIVDHDLDFAPETELGSSEHSKVQCEEYCIQGDNCFPIMFPKNDPKLKTQGKCMPFFRAGFVCPTPPYQSLARDQINSVTSFLDASLVYGSEPSLASRLRNLSSPLGLMAVNQEAWDHGLAYPPFNNMKPSPCEFINTTARVPCFQAGDSRASEQILLATVHTLLLREHNRLARELKRLNPHWDGEKLYQEARKILGAFIQIITFRDYLPIVLGSEMQKWIPRYQGYNNSVDPRISNVFTFAFRFGHMEVPSTVSRLDENYQPRGPEAELPLHTLFFNTWRIIKDGGIDPLVRGLLAKKSKLMNQNKMVTSELRNKLFQPTHKIHGFDLAAINLQRCRDHGMPGYNSWRGFCGLSQPKTLKGLQAVLKNKILAKKLLDLYKTPDNIDIWIGGNAEPMVERGRVGPLLACLLGRQFQQIRDGDRFWWENPGVFTEKQRDSLQKVSFSRLICDNTHITKVPLHAFQANNYPHDFVDCSAIDKLDLSPWASREN 2ikk-a1-m1-cB_2ikk-a1-m1-cA Structural Genomics, the crystal structure of the C-terminal domain of Yurk from Bacillus subtilis subsp. subtilis str. 168 O32152 O32152 1.8 X-RAY DIFFRACTION 61 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 144 TENLYFHHVLSHDIIPASKPIAEKLQIQPESPVVELKRILYNDDQPLTFEVTHYPLDLFPGIDTFIADGVSHDILKQQYKVVPTHNTKLLNVVYAQQEESKYLDCDIGDALFEIDKTAFTSNDQPIYCSLFLHTNRVTFTINS GTENLYFQHHVLSHDIIPASKPIAEKLQIQPESPVVELKRILYNDDQPLTFEVTHYPLDLFPGIDTFIADGVSHDILKQQYKVVPTHNTKLLNVVYAQQEESKYLDCDIGDALFEIDKTAFTSNDQPIYCSLFLHTNRVTFTIN 2il1-a2-m1-cA_2il1-a2-m2-cA Crystal structure of a predicted human GTPase in complex with GDP Q6IQ22 Q6IQ22 2.1 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 PADFKLQVIIIGSRGVGKTSLMERFTDSTVGVDFKIKTVELRGKKIRLQIWDTAGQERFNSITSAYYRSAKGIILVYDITKKETFDDLPKWMKMIDKYASEDAELLLVGNKLDCETDREITRQQGEKFAQQITGMRFCEASAKDNFNVDEIFLKLVDDILKKM PADFKLQVIIIGSRGVGKTSLMERFTDSTVGVDFKIKTVELRGKKIRLQIWDTAGQERFNSITSAYYRSAKGIILVYDITKKETFDDLPKWMKMIDKYASEDAELLLVGNKLDCETDREITRQQGEKFAQQITGMRFCEASAKDNFNVDEIFLKLVDDILKKM 2imf-a1-m1-cA_2imf-a1-m2-cA 2-Hydroxychromene-2-carboxylate Isomerase: a Kappa Class Glutathione-S-Transferase from Pseudomonas putida Q51948 Q51948 1.3 X-RAY DIFFRACTION 54 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 203 203 2imd-a1-m1-cA_2imd-a1-m2-cA 2ime-a1-m1-cA_2ime-a1-m2-cA MIVDFYFDFLSPFSYLANQRLSKLAQDYGLTIRYNAIDLARVKIAIGNVGPSNRDLKVKLDYLKVDLQRWAQLYGIPLVFPANYNSRRMNIGFYYSGAEAQAAAYVNVVFNAVWGEGIAPDLESLPALVSEKLGWDRSAFEHFLSSNAATERYDEQTHAAIERKVFGVPTMFLGDEMWWGNDRLFMLESAMGRLCRQNADLSS MIVDFYFDFLSPFSYLANQRLSKLAQDYGLTIRYNAIDLARVKIAIGNVGPSNRDLKVKLDYLKVDLQRWAQLYGIPLVFPANYNSRRMNIGFYYSGAEAQAAAYVNVVFNAVWGEGIAPDLESLPALVSEKLGWDRSAFEHFLSSNAATERYDEQTHAAIERKVFGVPTMFLGDEMWWGNDRLFMLESAMGRLCRQNADLSS 2imh-a3-m1-cB_2imh-a3-m1-cA Crystal structure of protein SPO2555 from Silicibacter pomeroyi, Pfam DUF1028 Q5LQD5 Q5LQD5 1.57 X-RAY DIFFRACTION 104 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 212 221 SLTFSILAHDPETGAIGGAAATGSLCVGGWVLRGDLNAGSASQGAAPSTFWGEEVLQHLRDGSHPEDAVNHVTSQDSGRAYRQLAADLLGNAAAFTGSENQDIKGSVTFASGIASGNLGDNSVLGATEAFVASDLTFERRLLAALIAAEGAGLLSAALVLHPDRPPVTLRIDYHPDNPIGALEQLYQKATTGDYADWARQVPVLSDKERILD SLTFSILAHDPETGAIGGAAATGSLCVGGWVLRGDLNAGSASQGAAPSTFWGEEVLQHLRDGSHPEDAVNHVTSQDSGRAYRQLAADLLGNAAAFTGSENQDIKGSVTFASGIASGNLGDNSVLGATEAFVASDLTFERRLLAALIAAEGAGGLLSAALVLHPDRPPVTLRIDYHPDNPIGALEQLYQKATTGDYADWARQVPVLSDKERILDEGHHHHHH 2imi-a1-m1-cA_2imi-a1-m1-cB Structures of an Insect Epsilon-class Glutathione S-transferase from the Malaria Vector Anopheles Gambiae: Evidence for High DDT-detoxifying Activity Q7PVS6 Q7PVS6 1.4 X-RAY DIFFRACTION 101 0.995 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 220 220 2il3-a1-m1-cB_2il3-a1-m1-cA 2imk-a1-m1-cB_2imk-a1-m1-cA 3zmk-a1-m1-cC_3zmk-a1-m1-cA 3zmk-a2-m1-cD_3zmk-a2-m1-cB 3zml-a1-m1-cA_3zml-a1-m1-cB 4gsn-a1-m1-cA_4gsn-a1-m1-cB 4gsn-a2-m1-cD_4gsn-a2-m1-cC SNLVLYTLHLSPPCRAVELTAKALGLELEQKTINLLTGDHLKPEFVKLNPQHTIPVLDDNGTIITESHAIMIYLVTKYGKDDSLYPKDPVKQARVNSALHFESGVLFARMRFIFERILFFGKSDIPEDRVEYVQKSYELLEDTLVDDFVAGPTMTIADFSCISTISSIMGVVPLEQSKHPRIYAWIDRLKQLPYYEEANGGGGTDLGKFVLAKKEENAKA MSNLVLYTLHLSPPCRAVELTAKALGLELEQKTINLLTGDHLKPEFVKLNPQHTIPVLDDNGTIITESHAIMIYLVTKYGKDDSLYPKDPVKQARVNSALHFESGVLFARMRFIFERILFFGKSDIPEDRVEYVQKSYELLEDTLVDDFVAGPTMTIADFSCISTISSIMGVVPLEQSKHPRIYAWIDRLKQLPYYEEANGGGGTDLGKFVLAKKEENAK 2imj-a2-m1-cD_2imj-a2-m1-cC X-ray Crystal Structure of Protein PFL_3262 from Pseudomonas fluorescens. Northeast Structural Genomics Consortium Target PlR14. Q4KBL6 Q4KBL6 1.5 X-RAY DIFFRACTION 74 0.993 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 151 153 2imj-a1-m1-cB_2imj-a1-m1-cA NAQVRPPLPPFTRESAIEKIRLAEDGWNSRDPERVSLAYTLDTQWRNRAEFAHNREEAKAFLTRKWAKELDYRLIKELWAFTDNRIAVRYAYEWHDDSGNWFRSYGNENWEFDEQGLARRFACINDPIKAQERKFHWPLGRRPDDHPGLSE AQVRPPLPPFTRESAIEKIRLAEDGWNSRDPERVSLAYTLDTQWRNRAEFAHNREEAKAFLTRKWAKELDYRLIKELWAFTDNRIAVRYAYEWHDDSGNWFRSYGNENWEFDEQGLARRFACINDPIKAQERKFHWPLGRRPDDHPGLSELGL 2iml-a2-m1-cB_2iml-a2-m1-cD Crystal structure of a hypothetical protein from Archaeoglobus fulgidus binding riboflavin 5'-phosphate O28442 O28442 1.65 X-RAY DIFFRACTION 110 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 187 194 2iml-a1-m1-cC_2iml-a1-m1-cA LRLADFGFTDGINEIIAITENEDGSWNAAPIGIIVEDSSSDTAKAKLYRNRTRANLERSGVLFANVTDDALVFAVSSFGNLNDDWYASPNPPIIKGAAWCRFEAERSGVAHLKLTDGEIIEKRVRAINRGLSAVIEALVHATRYVAIKSDERRKELLERIHYYREIVQKCGSEREKRAFEIIEKIGE LRLADFGFTDGINEIIAITENEDGSWNAAPIGIIVEDSSSDTAKAKLYRNRTRANLERSGVLFANVTDDALVFAVSSFGNLNDDWYASPNPPIIKGAAWCRFEAERSGVAHLKLTDGEIIEKRVRAINRGLSAVIEALVHATRYVAIKSDERRKELLERIHYYREIVQKCGSEREKRAFEIIEKIGEGHHHHHH 2imn-a1-m2-cA_2imn-a1-m1-cA Refined crystal structure of a recombinant immunoglobulin domain and a complementarity-determining region 1-grafted mutant 1.97 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 113 113 2imm-a1-m2-cA_2imm-a1-m1-cA DIVMTQSPSSLSVSAGERVTMSCKSSQSLLYKDGKNFLAWYQQKPGQPPKLLIYGASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCQNDHSYPLTFGAGTKLELKR DIVMTQSPSSLSVSAGERVTMSCKSSQSLLYKDGKNFLAWYQQKPGQPPKLLIYGASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCQNDHSYPLTFGAGTKLELKR 2imp-a1-m1-cA_2imp-a1-m4-cA Crystal structure of lactaldehyde dehydrogenase from E. coli: the ternary complex with lactate (occupancy 0.5) and NADH. Crystals soaked with (L)-Lactate. P25553 P25553 2.1 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 476 476 2hg2-a1-m1-cA_2hg2-a1-m4-cA 2hg2-a1-m2-cA_2hg2-a1-m3-cA 2ilu-a1-m1-cA_2ilu-a1-m4-cA 2ilu-a1-m2-cA_2ilu-a1-m3-cA 2imp-a1-m2-cA_2imp-a1-m3-cA 2opx-a1-m1-cA_2opx-a1-m4-cA 2opx-a1-m2-cA_2opx-a1-m3-cA VPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS VPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS 2imp-a1-m2-cA_2imp-a1-m4-cA Crystal structure of lactaldehyde dehydrogenase from E. coli: the ternary complex with lactate (occupancy 0.5) and NADH. Crystals soaked with (L)-Lactate. P25553 P25553 2.1 X-RAY DIFFRACTION 161 1.0 562 (Escherichia coli) 562 (Escherichia coli) 476 476 2hg2-a1-m1-cA_2hg2-a1-m3-cA 2hg2-a1-m2-cA_2hg2-a1-m4-cA 2ilu-a1-m1-cA_2ilu-a1-m3-cA 2ilu-a1-m2-cA_2ilu-a1-m4-cA 2imp-a1-m1-cA_2imp-a1-m3-cA 2opx-a1-m1-cA_2opx-a1-m3-cA 2opx-a1-m2-cA_2opx-a1-m4-cA VPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS VPVQHPMYIDGQFVTWRGDAWIDVVNPATEAVISRIPDGQAEDARKAIDAAERAQPEWEALPAIERASWLRKISAGIRERASEISALIVEEGGKIQQLAEVEVAFTADYIDYMAEWARRYEGEIIQSDRPGENILLFKRALGVTTGILPWNFPFFLIARKMAPALLTGNTIVIKPSEFTPNNAIAFAKIVDEIGLPRGVFNLVLGRGETVGQELAGNPKVAMVSMTGSVSAGEKIMATAAKNITKVLELGGKAPAIVMDDADLELAVKAIVDSRVINSGQVCNCAERVYVQKGIYDQFVNRLGEAMQAVQFGNPAERNDIAMGPLINAAALERVEQKVARAVEEGARVAFGGKAVEGKGYYYPPTLLLDVRQEMSIMHEETFGPVLPVVAFDTLEDAISMANDSDYGLTSSIYTQNLNVAMKAIKGLKFGETYINRENFEAMQGFHAGWRKSGIGGADGKHGLHEYLQTQVVYLQS 2in5-a1-m1-cB_2in5-a1-m1-cA Crystal Structure of the hypothetical lipoprotein YmcC from Escherichia coli (K12), Northeast Structural Genomics target ER552. P75884 P75884 2.3 X-RAY DIFFRACTION 70 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 183 190 HSQQSVDTFRASLFDNQIQALPYSTYLRLNEGQRIFVVLGYIEQEQSKWLSQDNALVTHNGRLLKTVKLNNNLLEVTNSGQDPLRNALAIKDGSRWTRDILWSEDNHFRSATLSSTFSFAGLETLNIAGRNVLCNVWQEEVTSTRPEKQWQNTFWVDSATGQVRQSRQLGAGVIPVETFLKPA HSQQSVDTFRASLFDNQVADQQIQALPYSTYLRLNEGQRIFVVLGYIEQEQSKWLSQDNALVTHNGRLLKTVKLNNNLLEVTNSGQDPLRNALAIKDGSRWTRDILWSEDNHFRSATLSSTFSFAGLETLNIAGRNVLCNVWQEEVTSTRPEKQWQNTFWVDSATGQVRQSRQLGAGVIPVETFLKPAPL 2inb-a1-m1-cA_2inb-a1-m2-cA Crystal structure of an XisH family protein (ZP_00107633.1) from Nostoc punctiforme PCC 73102 at 1.60 A resolution 1.6 X-RAY DIFFRACTION 63 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 125 125 DVFHQVVKIALEKDGWQITNDPLTISVGGVNKLIAAEREGEKIAVEVKSFLERSSAISEFHTALGQFINYRGALRRRQPERVLYLAVPLTTYKTFFQLDFPKEIAENQVKLIYDVEQEVIFQWIN DVFHQVVKIALEKDGWQITNDPLTISVGGVNKLIAAEREGEKIAVEVKSFLERSSAISEFHTALGQFINYRGALRRRQPERVLYLAVPLTTYKTFFQLDFPKEIAENQVKLIYDVEQEVIFQWIN 2inc-a1-m1-cA_2inc-a1-m2-cA Native Toluene/o-xylene Monooxygenase Hydroxylase X-ray Crystal Structure O87798 O87798 1.85 X-RAY DIFFRACTION 37 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 491 491 1t0q-a1-m1-cA_1t0q-a1-m2-cA 1t0r-a1-m1-cA_1t0r-a1-m2-cA 1t0s-a1-m1-cA_1t0s-a1-m2-cA 2ind-a1-m1-cA_2ind-a1-m2-cA 2rdb-a2-m1-cA_2rdb-a2-m2-cA 3n1x-a1-m1-cA_3n1x-a1-m2-cA 3n1y-a1-m1-cA_3n1y-a1-m2-cA 3n1z-a1-m1-cA_3n1z-a1-m2-cA 3n20-a1-m1-cA_3n20-a1-m2-cA 3rn9-a1-m1-cA_3rn9-a1-m2-cA 3rna-a1-m1-cA_3rna-a1-m2-cA 3rnb-a1-m1-cA_3rnb-a1-m2-cA 3rnc-a1-m1-cA_3rnc-a1-m2-cA 3rne-a1-m1-cA_3rne-a1-m2-cA 3rnf-a1-m1-cA_3rnf-a1-m2-cA 3rng-a1-m1-cA_3rng-a1-m2-cA SMLKREDWYDLTRTTNWTPKYVTENELFPEEMSGARGISMEAWEKYDEPYKITYPEYVSIQREKDSGAYSIKAALERDGFVDRADPGWVSTMQLHFGAIALEEYAASTAEARMARFAKAPGNRNMATFGMMDENRHGQIQLYFPYANVKRSRKWDWAHKAIHTNEWAAIAARSFFDDMMMTRDSVAVSIMLTFAFETGFTNMQFLGLAADAAEAGDHTFASLISSIQTDESRHAQQGGPSLKILVENGKKDEAQQMVDVAIWRSWKLFSVLTGPIMDYYTPLESRNQSFKEFMLEWIVAQFERQLLDLGLDKPWYWDQFMQDLDETHHGMHLGVWYWRPTVWWDPAAGVSPEEREWLEEKYPGWNDTWGQCWDVITDNLVNGKPELTVPETLPTICNMCNLPIAHTPGNKWNVKDYQLEYEGRLYHFGSEADRWCFQIDPERYKNHTNLVDRFLKGEIQPADLAGALMYMSLEPGVMGDDAHDYEWVKAYQ SMLKREDWYDLTRTTNWTPKYVTENELFPEEMSGARGISMEAWEKYDEPYKITYPEYVSIQREKDSGAYSIKAALERDGFVDRADPGWVSTMQLHFGAIALEEYAASTAEARMARFAKAPGNRNMATFGMMDENRHGQIQLYFPYANVKRSRKWDWAHKAIHTNEWAAIAARSFFDDMMMTRDSVAVSIMLTFAFETGFTNMQFLGLAADAAEAGDHTFASLISSIQTDESRHAQQGGPSLKILVENGKKDEAQQMVDVAIWRSWKLFSVLTGPIMDYYTPLESRNQSFKEFMLEWIVAQFERQLLDLGLDKPWYWDQFMQDLDETHHGMHLGVWYWRPTVWWDPAAGVSPEEREWLEEKYPGWNDTWGQCWDVITDNLVNGKPELTVPETLPTICNMCNLPIAHTPGNKWNVKDYQLEYEGRLYHFGSEADRWCFQIDPERYKNHTNLVDRFLKGEIQPADLAGALMYMSLEPGVMGDDAHDYEWVKAYQ 2inc-a1-m1-cB_2inc-a1-m2-cB Native Toluene/o-xylene Monooxygenase Hydroxylase X-ray Crystal Structure O87802 O87802 1.85 X-RAY DIFFRACTION 24 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 322 322 1t0q-a1-m1-cB_1t0q-a1-m2-cB 1t0r-a1-m1-cB_1t0r-a1-m2-cB 1t0s-a1-m1-cB_1t0s-a1-m2-cB 2ind-a1-m1-cB_2ind-a1-m2-cB 2rdb-a2-m1-cB_2rdb-a2-m2-cB 3n1x-a1-m1-cB_3n1x-a1-m2-cB 3n1y-a1-m1-cB_3n1y-a1-m2-cB 3n1z-a1-m1-cB_3n1z-a1-m2-cB 3n20-a1-m1-cB_3n20-a1-m2-cB 3rn9-a1-m1-cB_3rn9-a1-m2-cB 3rna-a1-m1-cB_3rna-a1-m2-cB 3rnb-a1-m1-cB_3rnb-a1-m2-cB 3rnc-a1-m1-cB_3rnc-a1-m2-cB 3rne-a1-m1-cB_3rne-a1-m2-cB 3rnf-a1-m1-cB_3rnf-a1-m2-cB 3rng-a1-m1-cB_3rng-a1-m2-cB ALKPLKTWSHLAGNRRRPSEYEVVSTNLHYFTDNPERPWELDSNLPMQTWYKKYCFDSPLKHDDWNAFRDPDQLVYRTYNLLQDGQESYVQGLFDQLNDRGHDQMLTREWVETLARFYTPARYLFHALQMGSVYIHQIAPASTITNCATYETADHLRWLTHTAYRTRELANCYPDVGFGKRERDVWENDPAWQGFRELIEKALIAWDWGEAFTAINLVTKPAVEEALLQQLGSLAQSEGDTLLGLLAQAQKRDAERHRRWSSALVKMALEKEGNREVLQKWVAKWEPLADKAIEAYCSALPDGENAIVEAKSASRYVRQMMG ALKPLKTWSHLAGNRRRPSEYEVVSTNLHYFTDNPERPWELDSNLPMQTWYKKYCFDSPLKHDDWNAFRDPDQLVYRTYNLLQDGQESYVQGLFDQLNDRGHDQMLTREWVETLARFYTPARYLFHALQMGSVYIHQIAPASTITNCATYETADHLRWLTHTAYRTRELANCYPDVGFGKRERDVWENDPAWQGFRELIEKALIAWDWGEAFTAINLVTKPAVEEALLQQLGSLAQSEGDTLLGLLAQAQKRDAERHRRWSSALVKMALEKEGNREVLQKWVAKWEPLADKAIEAYCSALPDGENAIVEAKSASRYVRQMMG 2inf-a2-m1-cC_2inf-a2-m1-cD Crystal Structure of Uroporphyrinogen Decarboxylase from Bacillus subtilis P32395 P32395 2.3 X-RAY DIFFRACTION 84 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 344 344 2inf-a1-m1-cA_2inf-a1-m1-cB TFNETFLKAARGEKADHTPVWYMRQAGRSQPEYRKLKEKYGLFEITHQPELCAYVTRLPVEQYGVDAAILYKDIMTPLPSIGVDVEIKNGIGPVIDQPIRSLADIEKLGQIDPEQDVPYVLETIKLLVNEQLNVPLIGFSGAPFTLASYMTEGGPSKNYNKTKAFMYSMPDAWNLLMSKLADMIIVYVKAQIKAGAKAIQIFDSWVGALNQADYRTYIKPVMNRIFSELAKENVPLIMFGVGASHLAGDWHDLPLDVVGLDWRLGIDEARSKGITKTVQGNLDPSILLAPWEVIEQKTKEILDQGMESDGFIFNLGHGVFPDVSPEVLKKLTAFVHEYSQNKKM TFNETFLKAARGEKADHTPVWYMRQAGRSQPEYRKLKEKYGLFEITHQPELCAYVTRLPVEQYGVDAAILYKDIMTPLPSIGVDVEIKNGIGPVIDQPIRSLADIEKLGQIDPEQDVPYVLETIKLLVNEQLNVPLIGFSGAPFTLASYMTEGGPSKNYNKTKAFMYSMPDAWNLLMSKLADMIIVYVKAQIKAGAKAIQIFDSWVGALNQADYRTYIKPVMNRIFSELAKENVPLIMFGVGASHLAGDWHDLPLDVVGLDWRLGIDEARSKGITKTVQGNLDPSILLAPWEVIEQKTKEILDQGMESDGFIFNLGHGVFPDVSPEVLKKLTAFVHEYSQNKKM 2inp-a1-m1-cB_2inp-a1-m1-cA Structure of the Phenol Hydroxylase-Regulatory Protein Complex Q84AQ2 Q84AQ2 2.3 X-RAY DIFFRACTION 42 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 493 494 2inn-a1-m1-cB_2inn-a1-m1-cA 3u52-a1-m1-cB_3u52-a1-m1-cA KKLNLKDKYQYLTRDMAWEPTYQDKKDIFPEEDFEGIKITDWSQWEDPFRLTMDAYWKYQAEKEKKLYAIFDAFAQNNGHQNISDARYVNALKLFISGISPLEHAAFQGYSKVGRQFSGAGARVACQMQAIDELRHSQTQQHAMSHYNKHFNGLHDGPHMHDRVWYLSVPKSFFDDARSAGPFEFLTAISFSFEYVLTNLLFVPFMSGAAYNGDMATVTFGFSAQSDEARHMTLGLEVIKFILEQHEDNVPIVQRWIDKWFWRGFRLLSLVSMMMDYMLPNKVMSWSEAWEVYYEQNGGALFKDLERYGIRPPKYQDVANDAKHHLSHQLWTTFYQYCQATNFHTWIPEKEEMDWMSEKYPDTFDKYYRPRYEYLAKEAAAGRRFYNNTLPQLCQVCQIPTIFTEKDAPTMLSHRQIEHEGERYHFCSDGCCDIFKHEPEKYIQAWLPVHQIYQGNCEGGDLETVVQKYYHINIGEDNFDYVGSPDQKHWLSI KKLNLKDKYQYLTRDMAWEPTYQDKKDIFPEEDFEGIKITDWSQWEDPFRLTMDAYWKYQAEKEKKLYAIFDAFAQNNGHQNISDARYVNALKLFISGISPLEHAAFQGYSKVGRQFSGAGARVACQMQAIDELRHSQTQQHAMSHYNKHFNGLHDGPHMHDRVWYLSVPKSFFDDARSAGPFEFLTAISFSFEYVLTNLLFVPFMSGAAYNGDMATVTFGFSAQSDEARHMTLGLEVIKFILEQHEDNVPIVQRWIDKWFWRGFRLLSLVSMMMDYMLPNKVMSWSEAWEVYYEQNGGALFKDLERYGIRPPKYQDVANDAKHHLSHQLWTTFYQYCQATNFHTWIPEKEEMDWMSEKYPDTFDKYYRPRYEYLAKEAAAGRRFYNNTLPQLCQVCQIPTIFTEKDAPTMLSHRQIEHEGERYHFCSDGCCDIFKHEPEKYIQAWLPVHQIYQGNCEGGDLETVVQKYYHINIGEDNFDYVGSPDQKHWLSIK 2inp-a1-m1-cC_2inp-a1-m1-cD Structure of the Phenol Hydroxylase-Regulatory Protein Complex Q84AQ4 Q84AQ4 2.3 X-RAY DIFFRACTION 21 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 318 328 2inn-a1-m1-cC_2inn-a1-m1-cD 3u52-a1-m1-cC_3u52-a1-m1-cD PIRHTYGHIARRFGDKPATRYQEASYDIEAKTNFHYRPQWDSEHTLNDPTRTAIRMEDWCAVSDPRQFYYGAYVGNRAKMQESAETSFGFCEKRNLLTRLSEETQKQLLRLLVPLRHVELGANMNNAKIAGDATATTVSQMHIYTGMDRLGIGQYLSRIALMIDGSTGAALDESKAYWMDDEMWQPMRKLVEDTLVVDDWFELTLVQNILIDGMMYPLVYDKMDQWFESQGAEDVSMLTEFMRDWYKESLRWTNAMMKAVAGESETNRELLQKWIDHWEPQAYEALKPLAEASVGIDGLNEARAELSARLKKFELQSR EIKTNSVEPIRHTYGHIARRFGDKPATRYQEASYDIEAKTNFHYRPQWDSEHTLNDPTRTAIRMEDWCAVSDPRQFYYGAYVGNRAKMQESAETSFGFCEKRNLLTRLSEETQKQLLRLLVPLRHVELGANMNNAKIAGDATATTVSQMHIYTGMDRLGIGQYLSRIALMIDGSTGAALDESKAYWMDDEMWQPMRKLVEDTLVVDDWFELTLVQNILIDGMMYPLVYDKMDQWFESQGAEDVSMLTEFMRDWYKESLRWTNAMMKAVAGESETNRELLQKWIDHWEPQAYEALKPLAEASVGIDGLNEARAELSARLKKFELQSRGV 2inr-a1-m1-cA_2inr-a1-m2-cA Crystal structure of a 59 kDa fragment of topoisomerase IV subunit A (GrlA) from Staphylococcus aureus Q6G9K4 Q6G9K4 2.8 X-RAY DIFFRACTION 98 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 442 442 ALPDVRDGLKPVQRRILYAMYSSGNTHDKNFRKSAKTVGDVIGQYHPSSVYEAMVRLSQDWKLRHVLIEMHGNNGSIDNDPPAAMRYTEAKLSLLAEELLRDINKETVSFIPNYDDTTLEPMVLPSRFPNLLVNGSTGIGYATDIPPHNLAEVIQATLKYIDNPDITVNQLMKYIKGPDFPTGGIIQGIDGIKKAYESGKGRIIVRSKVEEETRKQLIITEIPYEVNKSSLVKRIDELRADKKVDEVRDETDRTGLRIAIELESIKNYLYKNSDLQISYNFNMVAISDGRPKLMGIRQIIDSYLNHQIEVVANRTKFELDNAEKRMHIVEGLIKALSILDKVIELIRSSKNKRDAKENLIEVYEFTEEQAEAIVMLQLYRLTNTDIVALEGEHKELEALIKQLRHILDNHDALLNVIKEELNEIKKKFKSERLSLIEAEIEE ALPDVRDGLKPVQRRILYAMYSSGNTHDKNFRKSAKTVGDVIGQYHPSSVYEAMVRLSQDWKLRHVLIEMHGNNGSIDNDPPAAMRYTEAKLSLLAEELLRDINKETVSFIPNYDDTTLEPMVLPSRFPNLLVNGSTGIGYATDIPPHNLAEVIQATLKYIDNPDITVNQLMKYIKGPDFPTGGIIQGIDGIKKAYESGKGRIIVRSKVEEETRKQLIITEIPYEVNKSSLVKRIDELRADKKVDEVRDETDRTGLRIAIELESIKNYLYKNSDLQISYNFNMVAISDGRPKLMGIRQIIDSYLNHQIEVVANRTKFELDNAEKRMHIVEGLIKALSILDKVIELIRSSKNKRDAKENLIEVYEFTEEQAEAIVMLQLYRLTNTDIVALEGEHKELEALIKQLRHILDNHDALLNVIKEELNEIKKKFKSERLSLIEAEIEE 2inv-a1-m1-cB_2inv-a1-m1-cC Crystal structure of Inulin fructotransferase in the presence of di-fructose Q3SAG3 Q3SAG3 1.8 X-RAY DIFFRACTION 191 1.0 159251 (Bacillus sp. snu-7) 159251 (Bacillus sp. snu-7) 395 395 2inu-a1-m1-cA_2inu-a1-m1-cB 2inu-a1-m1-cA_2inu-a1-m1-cC 2inu-a1-m1-cB_2inu-a1-m1-cC 2inv-a1-m1-cA_2inv-a1-m1-cB 2inv-a1-m1-cA_2inv-a1-m1-cC PNTYDVTTWRIKAHPEVTAQSDIGAVINDIIADIKQRQTSPDARPGAAIIIPPGDYDLHTQVVVDVSYLTIAGFGHGFFSRSILDNSNPTGWQNLQPGASHIRVLTSPSAPQAFLVKRAGDPRLSGIVFRDFCLDGVGFTPGKNSYHNGKTGIEVASDNDSFHITGGFVYLEHALIVRGADALRVNDNIAECGNCVELTGAGQATIVSGNHGAGPDGVTLLAENHEGLLVTGNNLFPRGRSLIEFTGCNRCSVTSNRLQGFYPGLRLLNGCKENLITANHIRRTNEGYPPFIGRGNGLDDLYGVVHIAGDNNLISDNLFAYNVPPANIAPAGAQPTQILIAGGDANVVALNHVVSDVASQHVVLDASTTHSKVLDSGTASQITSYSSDTAIRPTP PNTYDVTTWRIKAHPEVTAQSDIGAVINDIIADIKQRQTSPDARPGAAIIIPPGDYDLHTQVVVDVSYLTIAGFGHGFFSRSILDNSNPTGWQNLQPGASHIRVLTSPSAPQAFLVKRAGDPRLSGIVFRDFCLDGVGFTPGKNSYHNGKTGIEVASDNDSFHITGGFVYLEHALIVRGADALRVNDNIAECGNCVELTGAGQATIVSGNHGAGPDGVTLLAENHEGLLVTGNNLFPRGRSLIEFTGCNRCSVTSNRLQGFYPGLRLLNGCKENLITANHIRRTNEGYPPFIGRGNGLDDLYGVVHIAGDNNLISDNLFAYNVPPANIAPAGAQPTQILIAGGDANVVALNHVVSDVASQHVVLDASTTHSKVLDSGTASQITSYSSDTAIRPTP 2iny-a1-m2-cA_2iny-a1-m3-cA Nanoporous Crystals of Chicken Embryo Lethal Orphan (CELO) Adenovirus Major Coat Protein, Hexon P42671 P42671 3.9 X-RAY DIFFRACTION 608 1.0 10553 (Fowl aviadenovirus 1) 10553 (Fowl aviadenovirus 1) 941 941 2iny-a1-m1-cA_2iny-a1-m2-cA 2iny-a1-m1-cA_2iny-a1-m3-cA TALTPDLTTATPRLQYFHIAGPGTREYLSEDLQQFISATGSYFDLKNKFRQTVVAPTRNVTTEKAQRLQIRFYPIQTDDTPNSYRVRYSVNVGDSWVLDMGATYFDIKGVLDRGPSFKPYGGTAYNPLAPREAIFNTWVESTGPQTNVVGQMTNVYTNQTRNDKTATLQQVNSISGVVPNVNLGPGLSQLASRADVDNIGVVGRFAKVDSAGVKQAYGAYVKPVKDDGSQSLNQTAYWLMDNGGTNYLGALAVEDYTQTLSYPDTVLVTPPTAYQQVNSGTMRACRPNYIGFRDNFINLLYHDSGVCSGTLNSERSGMNVVVELQDRNTELSYQYMLADMMSRHHYFALWNQAVDQYDHDVRVFNNDGYEEGVPTYAFLPDGHGAGEDNGPDLSNVKIYTNGQQDKGNVVAGTVSTQLNFGTIPSYEIDIAAATRRNFIMSNIADYLPDKYKFSIRGFDPVTDNIDPTTYFYMNRRVPLTNVVDLFTNIGARWSVDQMDNVNPFNHHRNWGLKYRSQLLGNSRYCRFHIQVPQKYFAIKNLLLLPGTYTYEWVLRKDPNMILQSSLGNDLRADGAQIVYTEVNLMANFMPMDHNTSNQLELMLRNATNDQTFADYLGAKNALYNVPAGSTLLTINIPARTWEGMRGWSFTRLKASETPQLGAQYDVGFKYSGSIPYSDGTFYLSHTFRSMSVLFDTSINWPGNDRLLTPNLFEIKRPVATDSEGFTMSQCDMTKDWFLVQMATNYNYVYNGYRFWPDRHYFHYDFLRNFDPMSRQGPNFLDTTLYDLVSSTPVVNDTGSQPSQDNVRNNSGFIAPRSWPVWTAQQGEAWPANWPYPLIGNDAISSNQTVNYKKFLCDNYLWTVPFSSDFMYMGELTDLGQNPMYTNNSHSMVINFELDPMDENTYVYMLYGVFDTVRVNQPERNVLAMAYFRTPFATGNAV TALTPDLTTATPRLQYFHIAGPGTREYLSEDLQQFISATGSYFDLKNKFRQTVVAPTRNVTTEKAQRLQIRFYPIQTDDTPNSYRVRYSVNVGDSWVLDMGATYFDIKGVLDRGPSFKPYGGTAYNPLAPREAIFNTWVESTGPQTNVVGQMTNVYTNQTRNDKTATLQQVNSISGVVPNVNLGPGLSQLASRADVDNIGVVGRFAKVDSAGVKQAYGAYVKPVKDDGSQSLNQTAYWLMDNGGTNYLGALAVEDYTQTLSYPDTVLVTPPTAYQQVNSGTMRACRPNYIGFRDNFINLLYHDSGVCSGTLNSERSGMNVVVELQDRNTELSYQYMLADMMSRHHYFALWNQAVDQYDHDVRVFNNDGYEEGVPTYAFLPDGHGAGEDNGPDLSNVKIYTNGQQDKGNVVAGTVSTQLNFGTIPSYEIDIAAATRRNFIMSNIADYLPDKYKFSIRGFDPVTDNIDPTTYFYMNRRVPLTNVVDLFTNIGARWSVDQMDNVNPFNHHRNWGLKYRSQLLGNSRYCRFHIQVPQKYFAIKNLLLLPGTYTYEWVLRKDPNMILQSSLGNDLRADGAQIVYTEVNLMANFMPMDHNTSNQLELMLRNATNDQTFADYLGAKNALYNVPAGSTLLTINIPARTWEGMRGWSFTRLKASETPQLGAQYDVGFKYSGSIPYSDGTFYLSHTFRSMSVLFDTSINWPGNDRLLTPNLFEIKRPVATDSEGFTMSQCDMTKDWFLVQMATNYNYVYNGYRFWPDRHYFHYDFLRNFDPMSRQGPNFLDTTLYDLVSSTPVVNDTGSQPSQDNVRNNSGFIAPRSWPVWTAQQGEAWPANWPYPLIGNDAISSNQTVNYKKFLCDNYLWTVPFSSDFMYMGELTDLGQNPMYTNNSHSMVINFELDPMDENTYVYMLYGVFDTVRVNQPERNVLAMAYFRTPFATGNAV 2io2-a1-m1-cC_2io2-a1-m4-cC Crystal structure of human Senp2 in complex with RanGAP1-SUMO-1 P46060 P46060 2.9 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 2io2-a1-m2-cC_2io2-a1-m3-cC 2io3-a1-m1-cC_2io3-a1-m4-cC 2io3-a1-m2-cC_2io3-a1-m3-cC ADVSTFLAFPSPEKLLRLGPKSSVLIAQQTDTSDPEKVVSAFLKVSSVFKDEATVRMAVQDAVDALMQKAFNSSSFNSNTFLTRLLVHMGLLKSEDKVKAIANLYGPLMALNHMVQQDYFPKALAPLLLAFVTKPNSALESSSFARHSLLQTLYKV ADVSTFLAFPSPEKLLRLGPKSSVLIAQQTDTSDPEKVVSAFLKVSSVFKDEATVRMAVQDAVDALMQKAFNSSSFNSNTFLTRLLVHMGLLKSEDKVKAIANLYGPLMALNHMVQQDYFPKALAPLLLAFVTKPNSALESSSFARHSLLQTLYKV 2io2-a1-m2-cC_2io2-a1-m4-cC Crystal structure of human Senp2 in complex with RanGAP1-SUMO-1 P46060 P46060 2.9 X-RAY DIFFRACTION 206 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 2io2-a1-m1-cC_2io2-a1-m3-cC 2io3-a1-m1-cC_2io3-a1-m2-cC 2io3-a1-m3-cC_2io3-a1-m4-cC ADVSTFLAFPSPEKLLRLGPKSSVLIAQQTDTSDPEKVVSAFLKVSSVFKDEATVRMAVQDAVDALMQKAFNSSSFNSNTFLTRLLVHMGLLKSEDKVKAIANLYGPLMALNHMVQQDYFPKALAPLLLAFVTKPNSALESSSFARHSLLQTLYKV ADVSTFLAFPSPEKLLRLGPKSSVLIAQQTDTSDPEKVVSAFLKVSSVFKDEATVRMAVQDAVDALMQKAFNSSSFNSNTFLTRLLVHMGLLKSEDKVKAIANLYGPLMALNHMVQQDYFPKALAPLLLAFVTKPNSALESSSFARHSLLQTLYKV 2io2-a1-m3-cC_2io2-a1-m4-cC Crystal structure of human Senp2 in complex with RanGAP1-SUMO-1 P46060 P46060 2.9 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 2io2-a1-m1-cC_2io2-a1-m2-cC 2io3-a1-m1-cC_2io3-a1-m3-cC 2io3-a1-m2-cC_2io3-a1-m4-cC ADVSTFLAFPSPEKLLRLGPKSSVLIAQQTDTSDPEKVVSAFLKVSSVFKDEATVRMAVQDAVDALMQKAFNSSSFNSNTFLTRLLVHMGLLKSEDKVKAIANLYGPLMALNHMVQQDYFPKALAPLLLAFVTKPNSALESSSFARHSLLQTLYKV ADVSTFLAFPSPEKLLRLGPKSSVLIAQQTDTSDPEKVVSAFLKVSSVFKDEATVRMAVQDAVDALMQKAFNSSSFNSNTFLTRLLVHMGLLKSEDKVKAIANLYGPLMALNHMVQQDYFPKALAPLLLAFVTKPNSALESSSFARHSLLQTLYKV 2io4-a3-m1-cD_2io4-a3-m2-cD Crystal structure of PCNA12 dimer from Sulfolobus solfataricus. Q97Z84 Q97Z84 2.6 X-RAY DIFFRACTION 21 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 243 243 2io4-a3-m1-cB_2io4-a3-m2-cB MMKAKVIDAVSFSYILRTVGDFLSEANFIVTKEGIRVSGIDPSRVVFLDIFLPSSYFEGFEVSQEKEIIGFKLEDVNDILKRVLKDDTLILSSNESKLTLTFDGEFTRSFELPLIQVESTQPPNLEFPFKAQLLTITFADIIDELSDLGEVLNIHSKENKLYFEVIGDLSTAKVELSTDNGTLLEASGADVSSSYGMEYVANTTKMRRASDSMELYFGSQIPLKLRFKLPQEGYGDFYIAPRA MMKAKVIDAVSFSYILRTVGDFLSEANFIVTKEGIRVSGIDPSRVVFLDIFLPSSYFEGFEVSQEKEIIGFKLEDVNDILKRVLKDDTLILSSNESKLTLTFDGEFTRSFELPLIQVESTQPPNLEFPFKAQLLTITFADIIDELSDLGEVLNIHSKENKLYFEVIGDLSTAKVELSTDNGTLLEASGADVSSSYGMEYVANTTKMRRASDSMELYFGSQIPLKLRFKLPQEGYGDFYIAPRA 2io4-a3-m2-cD_2io4-a3-m1-cB Crystal structure of PCNA12 dimer from Sulfolobus solfataricus. Q97Z84 Q97Z84 2.6 X-RAY DIFFRACTION 20 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 243 246 2io4-a3-m1-cD_2io4-a3-m2-cB MMKAKVIDAVSFSYILRTVGDFLSEANFIVTKEGIRVSGIDPSRVVFLDIFLPSSYFEGFEVSQEKEIIGFKLEDVNDILKRVLKDDTLILSSNESKLTLTFDGEFTRSFELPLIQVESTQPPNLEFPFKAQLLTITFADIIDELSDLGEVLNIHSKENKLYFEVIGDLSTAKVELSTDNGTLLEASGADVSSSYGMEYVANTTKMRRASDSMELYFGSQIPLKLRFKLPQEGYGDFYIAPRA MMKAKVIDAVSFSYILRTVGDFLSEANFIVTKEGIRVSGIDPSRVVFLDIFLPSSYFEGFEVSQEKEIIGFKLEDVNDILKRVLKDDTLILSSNESKLTLTFDGEFTRSFELPLIQVESTQPPSVNLEFPFKAQLLTITFADIIDELSDLGEVLNIHSKENKLYFEVIGDLSTAKVELSTDNGTLLEASGADVSSSYGMEYVANTTKMRRASDSMELYFGSQIPLKLRFKLPQEGYGDFYIAPRAD 2io4-a3-m2-cD_2io4-a3-m2-cB Crystal structure of PCNA12 dimer from Sulfolobus solfataricus. Q97Z84 Q97Z84 2.6 X-RAY DIFFRACTION 14 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 243 246 2io4-a3-m1-cD_2io4-a3-m1-cB MMKAKVIDAVSFSYILRTVGDFLSEANFIVTKEGIRVSGIDPSRVVFLDIFLPSSYFEGFEVSQEKEIIGFKLEDVNDILKRVLKDDTLILSSNESKLTLTFDGEFTRSFELPLIQVESTQPPNLEFPFKAQLLTITFADIIDELSDLGEVLNIHSKENKLYFEVIGDLSTAKVELSTDNGTLLEASGADVSSSYGMEYVANTTKMRRASDSMELYFGSQIPLKLRFKLPQEGYGDFYIAPRA MMKAKVIDAVSFSYILRTVGDFLSEANFIVTKEGIRVSGIDPSRVVFLDIFLPSSYFEGFEVSQEKEIIGFKLEDVNDILKRVLKDDTLILSSNESKLTLTFDGEFTRSFELPLIQVESTQPPSVNLEFPFKAQLLTITFADIIDELSDLGEVLNIHSKENKLYFEVIGDLSTAKVELSTDNGTLLEASGADVSSSYGMEYVANTTKMRRASDSMELYFGSQIPLKLRFKLPQEGYGDFYIAPRAD 2io8-a1-m1-cB_2io8-a1-m1-cA E. coli Bifunctional glutathionylspermidine synthetase/amidase Incomplex with Mg2+ and ADP P0AES0 P0AES0 2.1 X-RAY DIFFRACTION 142 1.0 562 (Escherichia coli) 562 (Escherichia coli) 593 598 2io7-a1-m1-cA_2io7-a1-m1-cB 2io9-a1-m1-cA_2io9-a1-m1-cB 2ioa-a1-m1-cA_2ioa-a1-m1-cB 2iob-a1-m1-cA_2iob-a1-m1-cB 3o98-a1-m1-cA_3o98-a1-m1-cB APFGTLLGYAPGGVAIYSSDAVFRSYIDDEYMGHKWQCVEFARRFLFLNYGVVFTDVGMAWEIFSLRFLREVVNDNILPLQAFPNGSPRAPVAGALLIWDKGGEFKDTGHVAIITQLHGNKVRIAEQNVIHSPLPQGQQWTRELEMVVENGCYTLKDTFDDTTILGWMIQTEDTEYSLPQPEIAGELLKISGARLENKGQFDGKWLDEKDPLQNAYVQANGQVINQDPYHYYTITESAEQELIKATNELHLMYLHATDKVLKDDNLLALFDIPKILWPRLRLSWQRRRHHMITGRMDFCMDERGLKVYEYNADSASCHTEAGLILERWAEQGYKGNGFNPAEGLINELAGAWKHSRARPFVHIMQDKDIEENYHAQFMEQALHQAGFETRILRGLDELGWDAAGQLIDGEGRLVNCVWKTWAWETAFDQIREVFAAVPIRTGHPQNEVRLIDVLLRPEVLVFEPLWTVIPGNKAILPILWSLFPHHRYLLDTDFTVNDELVKTGYAVKPIAGRCGSNIDLVSHHEEVLDKTSGKFAEQKNIYQQLWCLPKVDGKYIQVCTFTVGGNYGGTCLRGDESLVIKKESDIEPLIVVK APFGTLLGYAPGGVAIYSSDYSDDAVFRSYIDDEYMGHKWQCVEFARRFLFLNYGVVFTDVGMAWEIFSLRFLREVVNDNILPLQAFPNGSPRAPVAGALLIWDKGGEFKDTGHVAIITQLHGNKVRIAEQNVIHSPLPQGQQWTRELEMVVENGCYTLKDTFDDTTILGWMIQTEDTEYSLPQPEIAGELLKISGARLENKGQFDGKWLDEKDPLQNAYVQANGQVINQDPYHYYTITESAEQELIKATNELHLMYLHATDKVLKDDNLLALFDIPKILWPRLRLSWQRRRHHMITGRMDFCMDERGLKVYEYNADSASCHTEAGLILERWAEQGYKGNGFNPAEGLINELAGAWKHSRARPFVHIMQDKDIEENYHAQFMEQALHQAGFETRILRGLDELGWDAAGQLIDGEGRLVNCVWKTWAWETAFDQIREVEFAAVPIRTGHPQNEVRLIDVLLRPEVLVFEPLWTVIPGNKAILPILWSLFPHHRYLLDTDFTVNDELVKTGYAVKPIAGRCGSNIDLVSHHEEVLDKTSGKFAEQKNIYQQLWCLPKVDGKYIQVCTFTVGGNYGGTCLRGDESLVIKKESDIEPLIVVK 2iop-a3-m1-cD_2iop-a3-m1-cB Crystal Structure of Full-length HtpG, the Escherichia coli Hsp90, Bound to ADP P0A6Z3 P0A6Z3 3.55 X-RAY DIFFRACTION 80 0.995 562 (Escherichia coli) 562 (Escherichia coli) 604 615 2iop-a3-m1-cC_2iop-a3-m1-cA MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDTVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLSAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS 2iop-a3-m1-cD_2iop-a3-m1-cC Crystal Structure of Full-length HtpG, the Escherichia coli Hsp90, Bound to ADP P0A6Z3 P0A6Z3 3.55 X-RAY DIFFRACTION 70 0.983 562 (Escherichia coli) 562 (Escherichia coli) 604 606 1sf8-a1-m1-cA_1sf8-a1-m1-cG 1sf8-a2-m1-cE_1sf8-a2-m1-cC 1sf8-a3-m1-cD_1sf8-a3-m1-cF 1sf8-a4-m1-cB_1sf8-a4-m1-cH 1sf8-a5-m1-cD_1sf8-a5-m1-cF 1sf8-a5-m1-cE_1sf8-a5-m1-cC 1sf8-a5-m2-cA_1sf8-a5-m2-cG 1sf8-a5-m3-cB_1sf8-a5-m3-cH 1sf8-a6-m1-cD_1sf8-a6-m1-cF 1sf8-a6-m1-cE_1sf8-a6-m1-cC 1sf8-a7-m1-cA_1sf8-a7-m1-cG 1sf8-a7-m4-cB_1sf8-a7-m4-cH 2iop-a1-m1-cB_2iop-a1-m1-cA 2iop-a2-m1-cD_2iop-a2-m1-cC 2iop-a3-m1-cB_2iop-a3-m1-cA MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDTVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLSAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS 2iop-a5-m1-cC_2iop-a5-m1-cB Crystal Structure of Full-length HtpG, the Escherichia coli Hsp90, Bound to ADP P0A6Z3 P0A6Z3 3.55 X-RAY DIFFRACTION 150 0.995 562 (Escherichia coli) 562 (Escherichia coli) 606 615 2iop-a3-m1-cC_2iop-a3-m1-cB 2iop-a3-m1-cD_2iop-a3-m1-cA 2iop-a4-m1-cD_2iop-a4-m1-cA MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLSAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS MKGQETRGFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKREEKDGETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVDESLEKLSAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDADEMSTQMAKLFAAAGQKVPEVKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS 2ioq-a2-m1-cB_2ioq-a2-m3-cB Crystal Structure of full-length HTPG, the Escherichia coli HSP90 P0A6Z3 P0A6Z3 3.5 X-RAY DIFFRACTION 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 577 577 2ioq-a1-m1-cA_2ioq-a1-m2-cA GFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKRETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDAKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS GFQSEVKQLLHLMIHSLYSNKEIFLRELISNASDAADKLRFRALSNPDLYEGDGELRVRVSFDKDKRTLTISDNGVGMTRDEVIDHLGTIAKSGTKSFLESLGSDQAKDSQLIGQFGVGFYSAFIVADKVTVRTRAAGEKPENGVFWESAGEGEYTVADITKEDRGTEITLHLREGEDEFLDDWRVRSIISKYSDHIALPVEIEKRETVISWEKINKAQALWTRNKSEITDEEYKEFYKHIAHDFNDPLTWSHNRVEGKQEYTSLLYIPSQAPWDMWNRDHKHGLKLYVQRVFIMDDAEQFMPNYLRFVRGLIDSSDLPLNVSREILQDSTVTRNLRNALTKRVLQMLEKLAKDDAEKYQTFWQQFGLVLKEGPAEDFANQEAIAKLLRFASTHTDSSAQTVSLEDYVSRMKEGQEKIYYITADSYAAAKSSPHLELLRKKGIEVLLLSDRIDEWMMNYLTEFDGKPFQSVSKVAKEAEKALTPFIDRVKALLGERVKDVRLTHRLTDTPAIVSTDAKYIFELNPDHVLVKRAADTEDEAKFSEWVELLLDQALLAERGTLEDPNLFIRRMNQLLVS 2iou-a1-m1-cG_2iou-a1-m1-cH Major Tropism Determinant P1 (Mtd-P1) Variant Complexed with Bordetella brochiseptica Virulence Factor Pertactin extracellular domain (Prn-E). Q3YE50 Q3YE50 3.16 X-RAY DIFFRACTION 47 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 508 508 DWNNQSIIKAGERQHGIHIKQSDGAGVRTATGTTIKVSGRQAQGVLLENPAAELRFQNGSVTSSGQLFDEGVRRFLGTVTVKAGKLVADHATLANVSDTRDDDGIALYVAGEQAQASIADSTLQGAGGVRVERGANVTVQRSTIVDGGLHIGTLQPLQPEDLPPSRVVLGDTSVTAVPASGAPAAVSVFGANELTVDGGHITGGRAAGVAAMDGAIVHLQRATIRRGGWYGVDVSDSTVDLAQSIVEAPQLGAAIRAGRGARVTVSGGSLSAPHGNVIETGGGARRFPPPASPLSITLQAGARAQGRALLYRVLPEPVKLTLAGGAQGQGDIVATELPPIPGASSGPLDVALASQARWTGATRAVDSLSIDNATWVMTDNSNVGALRLASDGSVDFQQPAEAGRFKVLMVDTLAGSGLFRMNVFADLGLSDKLVVMRDASGQHRLWVRNSGSEPASANTMLLVQTPRGSAATFTLANKDGKVDIGTYRYRLAANGNGQWSLVGAKAPP DWNNQSIIKAGERQHGIHIKQSDGAGVRTATGTTIKVSGRQAQGVLLENPAAELRFQNGSVTSSGQLFDEGVRRFLGTVTVKAGKLVADHATLANVSDTRDDDGIALYVAGEQAQASIADSTLQGAGGVRVERGANVTVQRSTIVDGGLHIGTLQPLQPEDLPPSRVVLGDTSVTAVPASGAPAAVSVFGANELTVDGGHITGGRAAGVAAMDGAIVHLQRATIRRGGWYGVDVSDSTVDLAQSIVEAPQLGAAIRAGRGARVTVSGGSLSAPHGNVIETGGGARRFPPPASPLSITLQAGARAQGRALLYRVLPEPVKLTLAGGAQGQGDIVATELPPIPGASSGPLDVALASQARWTGATRAVDSLSIDNATWVMTDNSNVGALRLASDGSVDFQQPAEAGRFKVLMVDTLAGSGLFRMNVFADLGLSDKLVVMRDASGQHRLWVRNSGSEPASANTMLLVQTPRGSAATFTLANKDGKVDIGTYRYRLAANGNGQWSLVGAKAPP 2ip2-a1-m1-cA_2ip2-a1-m1-cB Structure of the Pyocyanin Biosynthetic Protein PhzM Q9HWH2 Q9HWH2 1.8 X-RAY DIFFRACTION 217 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 330 330 NLAAARNLIQVVTGEWKSRCVYVATRLGLADLIESGIDSDETLAAAVGSDAERIHRLMRLLVAFEIFQGDTRDGYANTPTSHLLRDVEGSFRDMVLFYGEEFHAAWTPACEALLSGTPGFELAFGEDFYSYLKRCPDAGRRFLLAMKASNLAFHEIPRLLDFRGRSFVDVGGGSGELTKAILQAEPSARGVMLDREGSLGVARDNLSSLLAGERVSLVGGDMLQEVPSNGDIYLLSRIIGDLDEAASLRLLGNCREAMAGDGRVVVIERTISASEPSPMSVLWDVHLFMACAGRHRTTEEVVDLLGRGGFAVERIVDLPMETRMIVAARA NLAAARNLIQVVTGEWKSRCVYVATRLGLADLIESGIDSDETLAAAVGSDAERIHRLMRLLVAFEIFQGDTRDGYANTPTSHLLRDVEGSFRDMVLFYGEEFHAAWTPACEALLSGTPGFELAFGEDFYSYLKRCPDAGRRFLLAMKASNLAFHEIPRLLDFRGRSFVDVGGGSGELTKAILQAEPSARGVMLDREGSLGVARDNLSSLLAGERVSLVGGDMLQEVPSNGDIYLLSRIIGDLDEAASLRLLGNCREAMAGDGRVVVIERTISASEPSPMSVLWDVHLFMACAGRHRTTEEVVDLLGRGGFAVERIVDLPMETRMIVAARA 2ipc-a2-m1-cD_2ipc-a2-m1-cC Crystal structure of the translocation ATPase SecA from Thermus thermophilus reveals a parallel, head-to-head dimer Q5SIW3 Q5SIW3 2.8 X-RAY DIFFRACTION 63 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 934 939 2ipc-a1-m1-cB_2ipc-a1-m1-cA RRLFDNNEREIARYYKQVVEPVNRLEAEVEKLPDLAAAYRELKEKHEKGASLDELLPMAFALTRESAKRYLGMRHFDVQLIGGAVLHEGKIAEMKTGEGKTLVATLAVALNALTGKGVHVVTVNDYLARRDAEWMGPVYRGLGLSVGVIQHASTPAERRKAYLADVTYVTNSELGFDYLRDNMAISPDQLVLRHDHPLHYAIIDEVDSILIDEARTPLIISGPAEKATDLYYKMAEIAKKLERGLPAEPGVRKEPTGDYTVEEKNRSVHLTLQGIAKAEKLLGIEGLFSPENMELAHMLIQAIRAKELYHRDRDYIVQDGQVIIVDEFTGRLMPGRRYGEGLHQAIEAKEGVRIERENQTLATITYQNFFRLYEKRAGMTGTAKTEEKEFQEIYGMDVVVVPTNRPVIRKDFPDVVYRTEKGKFYAVVEEIAEKYERGQPVLVGTISIEKSERLSQMLKEPRLYLPRLEMRLELFKKASQKQQGPEWERLRKLLERPAQLKDEDLAPFEGLIPPKGNLRTAWEGLKRAVHTLAVLRQGIPHQVLNAKHHAREAEIVAQAGRSKTVTIATNMAGRGTDIKLGGNPEYLAAALLEKEGFDRYEWKVELFIKKMVAGKEEEARALAQELGIREELLERIREIREECKQDEERVRALGGLFIIGTERHESRRIDNQLRGRAGRQGDPGGSRFYVSFDDDLMRLFASDRVIAMLDRMGFDDSEPIEHPMVTRSIERAQKRVEDRNFAIRKQLLQFDDVLSRQREVIYAQRRLILLGKDEEVKEAAIGMVEETVASLAENFLNPEVHPEDWDLEGLKATLLDTAPQLQDFPFAELRALKAEEAVERLVEAALKAYEAREAELSPPLMRAVERFVILNVVDNAWKEHLHNLDVLRQGIFLRGYGQKDPFQEYKIEATRLFNEMVAFIKSEVAKFLFRLKVE MLGLLRRLFDNNEREIARYYKQVVEPVNRLEAEVEKLPDLAAAYRELKEKHEKGASLDELLPMAFALTRESAKRYLGMRHFDVQLIGGAVLHEGKIAEMKTGEGKTLVATLAVALNALTGKGVHVVTVNDYLARRDAEWMGPVYRGLGLSVGVIQHASTPAERRKAYLADVTYVTNSELGFDYLRDNMAISPDQLVLRHDHPLHYAIIDEVDSILIDEARTPLIISGPAEKATDLYYKMAEIAKKLERGLPAEPGVRKEPTGDYTVEEKNRSVHLTLQGIAKAEKLLGIEGLFSPENMELAHMLIQAIRAKELYHRDRDYIVQDGQVIIVDEFTGRLMPGRRYGEGLHQAIEAKEGVRIERENQTLATITYQNFFRLYEKRAGMTGTAKTEEKEFQEIYGMDVVVVPTNRPVIRKDFPDVVYRTEKGKFYAVVEEIAEKYERGQPVLVGTISIEKSERLSQMLKEPRLYLPRLEMRLELFKKASQKQQGPEWERLRKLLERPAQLKDEDLAPFEGLIPPKGNLRTAWEGLKRAVHTLAVLRQGIPHQVLNAKHHAREAEIVAQAGRSKTVTIATNMAGRGTDIKLGGNPEYLAAALLEKEGFDRYEWKVELFIKKMVAGKEEEARALAQELGIREELLERIREIREECKQDEERVRALGGLFIIGTERHESRRIDNQLRGRAGRQGDPGGSRFYVSFDDDLMRLFASDRVIAMLDRMGFDDSEPIEHPMVTRSIERAQKRVEDRNFAIRKQLLQFDDVLSRQREVIYAQRRLILLGKDEEVKEAAIGMVEETVASLAENFLNPEVHPEDWDLEGLKATLLDTAPQLQDFPFAELRALKAEEAVERLVEAALKAYEAREAELSPPLMRAVERFVILNVVDNAWKEHLHNLDVLRQGIFLRGYGQKDPFQEYKIEATRLFNEMVAFIKSEVAKFLFRLKVE 2ipf-a1-m1-cA_2ipf-a1-m1-cB Crystal structure of 17alpha-hydroxysteroid dehydrogenase in complex with NADP+ and epi-testosterone Q91WR5 Q91WR5 1.85 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 318 318 2ipg-a1-m1-cA_2ipg-a1-m1-cB HCVILNDGNFIPVLGFGTALPLECPKSKAKELTKIAIDAGFHHFDSASVYNTEDHVGEAIRSKIADGTVRREDIFYTSKVWCTSLHPELVRASLERSLQKLQFDYVDLYLIHYPMALKPGEENFPVDEHGKLIFDRVDLCATWEAMEKCKDAGLTKSIGVSNFNYRQLEMILNKPGLKYKPVCNQVECHPYLNQMKLLDFCKSKDIVLVAYGVLGTQRYGGWVDQNSPVLLDEPVLGSMAKKYNRTPALIALRYQLQRGIVVLNTSLKEERIKENMQVFEFQLSSEDMKVLDGLNRNMRYIPAAIFKGHPNWPFLDEY HCVILNDGNFIPVLGFGTALPLECPKSKAKELTKIAIDAGFHHFDSASVYNTEDHVGEAIRSKIADGTVRREDIFYTSKVWCTSLHPELVRASLERSLQKLQFDYVDLYLIHYPMALKPGEENFPVDEHGKLIFDRVDLCATWEAMEKCKDAGLTKSIGVSNFNYRQLEMILNKPGLKYKPVCNQVECHPYLNQMKLLDFCKSKDIVLVAYGVLGTQRYGGWVDQNSPVLLDEPVLGSMAKKYNRTPALIALRYQLQRGIVVLNTSLKEERIKENMQVFEFQLSSEDMKVLDGLNRNMRYIPAAIFKGHPNWPFLDEY 2ipz-a1-m1-cA_2ipz-a1-m1-cD A Parallel Coiled-Coil Tetramer with Offset Helices P03069 P03069 1.35 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 34 34 2ipz-a1-m1-cA_2ipz-a1-m1-cB 2ipz-a1-m1-cC_2ipz-a1-m1-cD MKVKQLVDKVEELLSKNYHLVNEVARLVKLVGER MKVKQLVDKVEELLSKNYHLVNEVARLVKLVGER 2ipz-a1-m1-cB_2ipz-a1-m1-cC A Parallel Coiled-Coil Tetramer with Offset Helices P03069 P03069 1.35 X-RAY DIFFRACTION 28 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 34 34 2ipz-a1-m1-cA_2ipz-a1-m1-cC MKVKQLVDKVEELLSKNYHLVNEVARLVKLVGER MKVKQLVDKVEELLSKNYHLVNEVARLVKLVGER 2iqq-a1-m1-cA_2iqq-a1-m1-cB The Crystal Structure of Iron, Sulfur-Dependent L-serine dehydratase from Legionella pneumophila subsp. pneumophila Q5ZXE1 Q5ZXE1 2.66 X-RAY DIFFRACTION 28 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 141 141 SSHTVGPLAANAFLQLLEQKNLFDKTQRVKVELYGSLALTGKGHGTDKAILNGLENKAPETVDPASIPRHEILDSNLLNLAGKKEIPFHEATDFLFLQKELLPKHSNGRFSAFDGNANLLIEQVYYSIGGGFITTEEDFDK SSHTVGPLAANAFLQLLEQKNLFDKTQRVKVELYGSLALTGKGHGTDKAILNGLENKAPETVDPASIPRHEILDSNLLNLAGKKEIPFHEATDFLFLQKELLPKHSNGRFSAFDGNANLLIEQVYYSIGGGFITTEEDFDK 2iqt-a1-m1-cA_2iqt-a1-m2-cA Crystal Structure of Fructose-Bisphosphate Aldolase, Class I from Porphyromonas gingivalis P60053 P60053 2.46 X-RAY DIFFRACTION 86 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 281 281 NANKEQLQQRQAPGFVGALDQSGGSTPKALKAYGIQPDAYQSEEEFDLIHQRTRITSPAFATGKIIGVILFERTRGKIEGPTADFLWEKRHIVPFLKVDKGLQDEANGVQLKPFPELGKLCEEAVGYHVFGTKRSVIKQANEQGIRDIVEQQFQWGKEILSHGLVPILEPEVDIHCPEKAKAEEILKRELLAQLDKTEPVLKITIPTVDNFYKEIIEHPLRVVALSGGYSREQANELLSRNHGVIASFSRALVEGLSARQTDAEFNALEASIEDVYQASIK NANKEQLQQRQAPGFVGALDQSGGSTPKALKAYGIQPDAYQSEEEFDLIHQRTRITSPAFATGKIIGVILFERTRGKIEGPTADFLWEKRHIVPFLKVDKGLQDEANGVQLKPFPELGKLCEEAVGYHVFGTKRSVIKQANEQGIRDIVEQQFQWGKEILSHGLVPILEPEVDIHCPEKAKAEEILKRELLAQLDKTEPVLKITIPTVDNFYKEIIEHPLRVVALSGGYSREQANELLSRNHGVIASFSRALVEGLSARQTDAEFNALEASIEDVYQASIK 2irp-a3-m8-cB_2irp-a3-m3-cA Crystal structure of the l-fuculose-1-phosphate aldolase (aq_1979) from aquifex aeolicus VF5 O67788 O67788 2.4 X-RAY DIFFRACTION 48 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 204 205 2irp-a3-m5-cB_2irp-a3-m2-cA 2irp-a3-m6-cB_2irp-a3-m1-cA 2irp-a3-m7-cB_2irp-a3-m4-cA NVELFKKFSEKVEEIIEAGRILHSRGWVPATSGNISAKVSEEYIAITASGKHKGKLTPEDILLIDYEGRPVGGGKPSAETLLHTTVYKLFPEVNAVVHTHSPNATVISIVEKKDFVELEDYELLKAFPDIHTHEVKIKIPIFPNEQNIPLLAKEVENYFKTSEDKYGFLIRGHGLYTWGRSEEALIHTEALEFIFECELKLLSF NVELFKKFSEKVEEIIEAGRILHSRGWVPATSGNISAKVSEEYIAITASGKHKGKLTPEDILLIDYEGRPVGGGKPSAETLLHTTVYKLFPEVNAVVHTHSPNATVISIVEKKDFVELEDYELLKAFPDIHTHEVKIKIPIFPNEQNIPLLAKEVENYFKTSEDKYGFLIRGHGLYTWGRSEEALIHTEALEFIFECELKLLSFH 2irp-a4-m11-cB_2irp-a4-m9-cB Crystal structure of the l-fuculose-1-phosphate aldolase (aq_1979) from aquifex aeolicus VF5 O67788 O67788 2.4 X-RAY DIFFRACTION 50 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 204 204 2irp-a1-m1-cA_2irp-a1-m3-cA 2irp-a1-m1-cA_2irp-a1-m4-cA 2irp-a1-m2-cA_2irp-a1-m3-cA 2irp-a1-m2-cA_2irp-a1-m4-cA 2irp-a3-m1-cA_2irp-a3-m3-cA 2irp-a3-m1-cA_2irp-a3-m4-cA 2irp-a3-m2-cA_2irp-a3-m3-cA 2irp-a3-m2-cA_2irp-a3-m4-cA 2irp-a3-m5-cB_2irp-a3-m7-cB 2irp-a3-m5-cB_2irp-a3-m8-cB 2irp-a3-m6-cB_2irp-a3-m7-cB 2irp-a3-m6-cB_2irp-a3-m8-cB 2irp-a4-m10-cB_2irp-a4-m9-cB 2irp-a4-m1-cB_2irp-a4-m10-cB 2irp-a4-m1-cB_2irp-a4-m11-cB NVELFKKFSEKVEEIIEAGRILHSRGWVPATSGNISAKVSEEYIAITASGKHKGKLTPEDILLIDYEGRPVGGGKPSAETLLHTTVYKLFPEVNAVVHTHSPNATVISIVEKKDFVELEDYELLKAFPDIHTHEVKIKIPIFPNEQNIPLLAKEVENYFKTSEDKYGFLIRGHGLYTWGRSEEALIHTEALEFIFECELKLLSF NVELFKKFSEKVEEIIEAGRILHSRGWVPATSGNISAKVSEEYIAITASGKHKGKLTPEDILLIDYEGRPVGGGKPSAETLLHTTVYKLFPEVNAVVHTHSPNATVISIVEKKDFVELEDYELLKAFPDIHTHEVKIKIPIFPNEQNIPLLAKEVENYFKTSEDKYGFLIRGHGLYTWGRSEEALIHTEALEFIFECELKLLSF 2is3-a3-m3-cB_2is3-a3-m8-cD Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 17 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 166 197 2is3-a3-m1-cB_2is3-a3-m5-cD 2is3-a3-m2-cB_2is3-a3-m6-cD 2is3-a3-m4-cB_2is3-a3-m7-cD LTGLCDRFRGFYPVVIDVETLEIAAITLKDEQGWLPDTTLHFHVEPGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSA LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a3-m8-cB_2is3-a3-m3-cD Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 17 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 166 197 2is3-a3-m5-cB_2is3-a3-m1-cD 2is3-a3-m6-cB_2is3-a3-m2-cD 2is3-a3-m7-cB_2is3-a3-m4-cD LTGLCDRFRGFYPVVIDVETLEIAAITLKDEQGWLPDTTLHFHVEPGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSA LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a5-m1-cA_2is3-a5-m3-cC Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 23 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 197 197 2is3-a3-m1-cA_2is3-a3-m3-cC 2is3-a3-m1-cC_2is3-a3-m4-cA 2is3-a3-m2-cA_2is3-a3-m4-cC 2is3-a3-m2-cC_2is3-a3-m3-cA 2is3-a3-m3-cB_2is3-a3-m2-cD 2is3-a3-m4-cB_2is3-a3-m1-cD 2is3-a3-m5-cA_2is3-a3-m7-cC 2is3-a3-m5-cC_2is3-a3-m8-cA 2is3-a3-m6-cA_2is3-a3-m8-cC 2is3-a3-m6-cC_2is3-a3-m7-cA 2is3-a3-m7-cB_2is3-a3-m6-cD 2is3-a3-m8-cB_2is3-a3-m5-cD 2is3-a4-m1-cA_2is3-a4-m3-cC 2is3-a4-m1-cC_2is3-a4-m4-cA 2is3-a4-m2-cA_2is3-a4-m4-cC 2is3-a4-m2-cC_2is3-a4-m3-cA 2is3-a4-m3-cB_2is3-a4-m2-cD 2is3-a4-m4-cB_2is3-a4-m1-cD LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a5-m1-cA_2is3-a5-m3-cD Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 37 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 197 197 2is3-a3-m1-cA_2is3-a3-m3-cD 2is3-a3-m1-cD_2is3-a3-m4-cA 2is3-a3-m2-cA_2is3-a3-m4-cD 2is3-a3-m2-cD_2is3-a3-m3-cA 2is3-a3-m5-cA_2is3-a3-m7-cD 2is3-a3-m5-cD_2is3-a3-m8-cA 2is3-a3-m6-cA_2is3-a3-m8-cD 2is3-a3-m6-cD_2is3-a3-m7-cA 2is3-a4-m1-cA_2is3-a4-m3-cD 2is3-a4-m1-cD_2is3-a4-m4-cA 2is3-a4-m2-cA_2is3-a4-m4-cD 2is3-a4-m2-cD_2is3-a4-m3-cA LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a5-m1-cB_2is3-a5-m3-cD Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 27 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 166 197 2is3-a3-m1-cB_2is3-a3-m3-cD 2is3-a3-m2-cB_2is3-a3-m4-cD 2is3-a3-m5-cB_2is3-a3-m7-cD 2is3-a3-m6-cB_2is3-a3-m8-cD 2is3-a4-m1-cB_2is3-a4-m3-cD 2is3-a4-m2-cB_2is3-a4-m4-cD LTGLCDRFRGFYPVVIDVETLEIAAITLKDEQGWLPDTTLHFHVEPGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSA LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a6-m1-cA_2is3-a6-m1-cC Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 17 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 197 197 2is3-a3-m1-cA_2is3-a3-m1-cC 2is3-a3-m2-cA_2is3-a3-m2-cC 2is3-a3-m3-cA_2is3-a3-m3-cC 2is3-a3-m4-cA_2is3-a3-m4-cC 2is3-a3-m5-cA_2is3-a3-m5-cC 2is3-a3-m6-cA_2is3-a3-m6-cC 2is3-a3-m7-cA_2is3-a3-m7-cC 2is3-a3-m8-cA_2is3-a3-m8-cC 2is3-a4-m1-cA_2is3-a4-m1-cC 2is3-a4-m2-cA_2is3-a4-m2-cC 2is3-a4-m3-cA_2is3-a4-m3-cC 2is3-a4-m4-cA_2is3-a4-m4-cC LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a6-m1-cB_2is3-a6-m1-cC Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 37 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 166 197 2is3-a3-m1-cB_2is3-a3-m1-cC 2is3-a3-m2-cB_2is3-a3-m2-cC 2is3-a3-m3-cB_2is3-a3-m3-cC 2is3-a3-m4-cB_2is3-a3-m4-cC 2is3-a3-m5-cB_2is3-a3-m5-cC 2is3-a3-m6-cB_2is3-a3-m6-cC 2is3-a3-m7-cB_2is3-a3-m7-cC 2is3-a3-m8-cB_2is3-a3-m8-cC 2is3-a4-m1-cB_2is3-a4-m1-cC 2is3-a4-m2-cB_2is3-a4-m2-cC 2is3-a4-m3-cB_2is3-a4-m3-cC 2is3-a4-m4-cB_2is3-a4-m4-cC LTGLCDRFRGFYPVVIDVETLEIAAITLKDEQGWLPDTTLHFHVEPGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSA LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is3-a6-m1-cC_2is3-a6-m1-cD Crystal Structure of Escherichia coli RNase T P30014 P30014 3.1 X-RAY DIFFRACTION 78 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 197 197 2is3-a1-m1-cB_2is3-a1-m1-cA 2is3-a2-m1-cC_2is3-a2-m1-cD 2is3-a3-m1-cB_2is3-a3-m1-cA 2is3-a3-m1-cC_2is3-a3-m1-cD 2is3-a3-m2-cB_2is3-a3-m2-cA 2is3-a3-m2-cC_2is3-a3-m2-cD 2is3-a3-m3-cB_2is3-a3-m3-cA 2is3-a3-m3-cC_2is3-a3-m3-cD 2is3-a3-m4-cB_2is3-a3-m4-cA 2is3-a3-m4-cC_2is3-a3-m4-cD 2is3-a3-m5-cB_2is3-a3-m5-cA 2is3-a3-m5-cC_2is3-a3-m5-cD 2is3-a3-m6-cB_2is3-a3-m6-cA 2is3-a3-m6-cC_2is3-a3-m6-cD 2is3-a3-m7-cB_2is3-a3-m7-cA 2is3-a3-m7-cC_2is3-a3-m7-cD 2is3-a3-m8-cB_2is3-a3-m8-cA 2is3-a3-m8-cC_2is3-a3-m8-cD 2is3-a4-m1-cB_2is3-a4-m1-cA 2is3-a4-m1-cC_2is3-a4-m1-cD 2is3-a4-m2-cB_2is3-a4-m2-cA 2is3-a4-m2-cC_2is3-a4-m2-cD 2is3-a4-m3-cB_2is3-a4-m3-cA 2is3-a4-m3-cC_2is3-a4-m3-cD 2is3-a4-m4-cB_2is3-a4-m4-cA 2is3-a4-m4-cC_2is3-a4-m4-cD 2is3-a5-m1-cB_2is3-a5-m1-cA 2is3-a5-m3-cC_2is3-a5-m3-cD 2is3-a6-m1-cB_2is3-a6-m1-cA 3ngy-a1-m1-cB_3ngy-a1-m1-cA 3ngz-a1-m1-cB_3ngz-a1-m1-cA 3nh0-a1-m1-cA_3nh0-a1-m1-cB 3nh1-a1-m1-cA_3nh1-a1-m1-cB 3nh1-a2-m1-cC_3nh1-a2-m1-cD 3nh2-a1-m1-cA_3nh2-a1-m1-cB 3nh2-a2-m1-cA_3nh2-a2-m1-cB 3nh2-a2-m1-cF_3nh2-a2-m1-cE 3nh2-a3-m1-cF_3nh2-a3-m1-cE 3v9s-a1-m1-cA_3v9s-a1-m1-cB 3v9u-a1-m1-cA_3v9u-a1-m1-cB 3v9u-a2-m1-cC_3v9u-a2-m1-cD 3v9w-a1-m1-cB_3v9w-a1-m1-cA 3v9w-a2-m1-cC_3v9w-a2-m1-cD 3v9x-a1-m1-cA_3v9x-a1-m1-cB 3v9x-a2-m1-cC_3v9x-a2-m1-cD 3v9z-a1-m1-cA_3v9z-a1-m1-cB 3va0-a1-m1-cA_3va0-a1-m1-cB 3va3-a1-m1-cA_3va3-a1-m1-cB LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL LTGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKDEQGWLPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIVAHNANFDHSFAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 2is5-a1-m1-cD_2is5-a1-m1-cA Crystal structure of 3 residues truncated version of protein NMB1012 from Neisseria meningitides Q7DDI9 Q7DDI9 1.85 X-RAY DIFFRACTION 22 0.986 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 143 156 DKFNQFINRVLSHEGGYHGETNWGITKRTAQANGYNGSRATREQAISIYRKAFWERYRADQPEAVAFQFFDACVNHGYGNAARLQRAAGVPDDGVIGAVSLKAINSLPENDLLLRFNAERLVFYTKLGWVRRVAQNLIHASAD ASDKFNQFINRVLSHEGGYANHPGGETNWGITKRTAQANGYNGSRATREQAISIYRKAFWERYRADQPEAVAFQFFDACVNHGYGNAARLQRAAGVPDDGVIGAVSLKAINSLPENDLLLRFNAERLVFYTKLGTFTSFGKGWVRRVAQNLIHASA 2isa-a2-m1-cE_2isa-a2-m1-cH Crystal Structure of Vibrio salmonicida catalase Q3LSM1 Q3LSM1 1.97 X-RAY DIFFRACTION 127 1.0 316275 (Aliivibrio salmonicida LFI1238) 316275 (Aliivibrio salmonicida LFI1238) 481 481 2isa-a1-m1-cA_2isa-a1-m1-cD 2isa-a1-m1-cB_2isa-a1-m1-cC 2isa-a2-m1-cF_2isa-a2-m1-cG SKKLTTAAGCPVAHNQNVQTAGKRGPQLLQDVWFLEKLAHFDREVIPERRHAKGSGAYGTFTVTHDITKYTKAKIFSDIGKKTDMFARFSTVAGERGAADAERDIRGFSLKFYTEEGNWDLAGNNTPVFFLRDPLKFPDLNHAVKRDPRTNMRSAKNNWDFWTSLPEALHQVTIVMSDRGIPATYRHMHGFGSHTFSFINSDNERYWVKFHFVSQQGIKNLSDAEAGELVGNDRESHQRDLLDSIDNQDFPKWTLKVQIMPEADAATVPYNPFDLTKVWPHKDYPLIEVGEFELNRNPQNYFAEVEQAAFNPANVVPGISFSPDKMLQGRLFAYGDAQRYRLGVNHQHIPVNAPRCPVHSYHRDGAMRVDGNFGSTLGYEPNDQGQWAEQPDFSEPPLNLDGAAAHWDHREDEDYFSQPGDLFGLMTAEKQAILFDNTARNLNGVPKEIQLRHVTHCYKADPAYGEGIGKLLGFDISEYNS SKKLTTAAGCPVAHNQNVQTAGKRGPQLLQDVWFLEKLAHFDREVIPERRHAKGSGAYGTFTVTHDITKYTKAKIFSDIGKKTDMFARFSTVAGERGAADAERDIRGFSLKFYTEEGNWDLAGNNTPVFFLRDPLKFPDLNHAVKRDPRTNMRSAKNNWDFWTSLPEALHQVTIVMSDRGIPATYRHMHGFGSHTFSFINSDNERYWVKFHFVSQQGIKNLSDAEAGELVGNDRESHQRDLLDSIDNQDFPKWTLKVQIMPEADAATVPYNPFDLTKVWPHKDYPLIEVGEFELNRNPQNYFAEVEQAAFNPANVVPGISFSPDKMLQGRLFAYGDAQRYRLGVNHQHIPVNAPRCPVHSYHRDGAMRVDGNFGSTLGYEPNDQGQWAEQPDFSEPPLNLDGAAAHWDHREDEDYFSQPGDLFGLMTAEKQAILFDNTARNLNGVPKEIQLRHVTHCYKADPAYGEGIGKLLGFDISEYNS 2isa-a2-m1-cF_2isa-a2-m1-cH Crystal Structure of Vibrio salmonicida catalase Q3LSM1 Q3LSM1 1.97 X-RAY DIFFRACTION 325 1.0 316275 (Aliivibrio salmonicida LFI1238) 316275 (Aliivibrio salmonicida LFI1238) 481 481 2isa-a1-m1-cA_2isa-a1-m1-cC 2isa-a1-m1-cB_2isa-a1-m1-cD 2isa-a2-m1-cE_2isa-a2-m1-cG SKKLTTAAGCPVAHNQNVQTAGKRGPQLLQDVWFLEKLAHFDREVIPERRHAKGSGAYGTFTVTHDITKYTKAKIFSDIGKKTDMFARFSTVAGERGAADAERDIRGFSLKFYTEEGNWDLAGNNTPVFFLRDPLKFPDLNHAVKRDPRTNMRSAKNNWDFWTSLPEALHQVTIVMSDRGIPATYRHMHGFGSHTFSFINSDNERYWVKFHFVSQQGIKNLSDAEAGELVGNDRESHQRDLLDSIDNQDFPKWTLKVQIMPEADAATVPYNPFDLTKVWPHKDYPLIEVGEFELNRNPQNYFAEVEQAAFNPANVVPGISFSPDKMLQGRLFAYGDAQRYRLGVNHQHIPVNAPRCPVHSYHRDGAMRVDGNFGSTLGYEPNDQGQWAEQPDFSEPPLNLDGAAAHWDHREDEDYFSQPGDLFGLMTAEKQAILFDNTARNLNGVPKEIQLRHVTHCYKADPAYGEGIGKLLGFDISEYNS SKKLTTAAGCPVAHNQNVQTAGKRGPQLLQDVWFLEKLAHFDREVIPERRHAKGSGAYGTFTVTHDITKYTKAKIFSDIGKKTDMFARFSTVAGERGAADAERDIRGFSLKFYTEEGNWDLAGNNTPVFFLRDPLKFPDLNHAVKRDPRTNMRSAKNNWDFWTSLPEALHQVTIVMSDRGIPATYRHMHGFGSHTFSFINSDNERYWVKFHFVSQQGIKNLSDAEAGELVGNDRESHQRDLLDSIDNQDFPKWTLKVQIMPEADAATVPYNPFDLTKVWPHKDYPLIEVGEFELNRNPQNYFAEVEQAAFNPANVVPGISFSPDKMLQGRLFAYGDAQRYRLGVNHQHIPVNAPRCPVHSYHRDGAMRVDGNFGSTLGYEPNDQGQWAEQPDFSEPPLNLDGAAAHWDHREDEDYFSQPGDLFGLMTAEKQAILFDNTARNLNGVPKEIQLRHVTHCYKADPAYGEGIGKLLGFDISEYNS 2isa-a2-m1-cG_2isa-a2-m1-cH Crystal Structure of Vibrio salmonicida catalase Q3LSM1 Q3LSM1 1.97 X-RAY DIFFRACTION 298 1.0 316275 (Aliivibrio salmonicida LFI1238) 316275 (Aliivibrio salmonicida LFI1238) 481 481 2isa-a1-m1-cA_2isa-a1-m1-cB 2isa-a1-m1-cC_2isa-a1-m1-cD 2isa-a2-m1-cE_2isa-a2-m1-cF SKKLTTAAGCPVAHNQNVQTAGKRGPQLLQDVWFLEKLAHFDREVIPERRHAKGSGAYGTFTVTHDITKYTKAKIFSDIGKKTDMFARFSTVAGERGAADAERDIRGFSLKFYTEEGNWDLAGNNTPVFFLRDPLKFPDLNHAVKRDPRTNMRSAKNNWDFWTSLPEALHQVTIVMSDRGIPATYRHMHGFGSHTFSFINSDNERYWVKFHFVSQQGIKNLSDAEAGELVGNDRESHQRDLLDSIDNQDFPKWTLKVQIMPEADAATVPYNPFDLTKVWPHKDYPLIEVGEFELNRNPQNYFAEVEQAAFNPANVVPGISFSPDKMLQGRLFAYGDAQRYRLGVNHQHIPVNAPRCPVHSYHRDGAMRVDGNFGSTLGYEPNDQGQWAEQPDFSEPPLNLDGAAAHWDHREDEDYFSQPGDLFGLMTAEKQAILFDNTARNLNGVPKEIQLRHVTHCYKADPAYGEGIGKLLGFDISEYNS SKKLTTAAGCPVAHNQNVQTAGKRGPQLLQDVWFLEKLAHFDREVIPERRHAKGSGAYGTFTVTHDITKYTKAKIFSDIGKKTDMFARFSTVAGERGAADAERDIRGFSLKFYTEEGNWDLAGNNTPVFFLRDPLKFPDLNHAVKRDPRTNMRSAKNNWDFWTSLPEALHQVTIVMSDRGIPATYRHMHGFGSHTFSFINSDNERYWVKFHFVSQQGIKNLSDAEAGELVGNDRESHQRDLLDSIDNQDFPKWTLKVQIMPEADAATVPYNPFDLTKVWPHKDYPLIEVGEFELNRNPQNYFAEVEQAAFNPANVVPGISFSPDKMLQGRLFAYGDAQRYRLGVNHQHIPVNAPRCPVHSYHRDGAMRVDGNFGSTLGYEPNDQGQWAEQPDFSEPPLNLDGAAAHWDHREDEDYFSQPGDLFGLMTAEKQAILFDNTARNLNGVPKEIQLRHVTHCYKADPAYGEGIGKLLGFDISEYNS 2isk-a4-m1-cG_2isk-a4-m1-cH BluB bound to flavin anion (charge transfer complex) Q92PC8 Q92PC8 2.1 X-RAY DIFFRACTION 319 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 219 219 2isj-a1-m1-cA_2isj-a1-m1-cB 2isj-a2-m1-cC_2isj-a2-m1-cD 2isj-a3-m1-cE_2isj-a3-m1-cF 2isj-a4-m1-cG_2isj-a4-m1-cH 2isk-a1-m1-cA_2isk-a1-m1-cB 2isk-a2-m1-cC_2isk-a2-m1-cD 2isk-a3-m1-cE_2isk-a3-m1-cF 2isl-a1-m1-cA_2isl-a1-m1-cB 2isl-a2-m1-cC_2isl-a2-m1-cD 2isl-a3-m1-cE_2isl-a3-m1-cF 2isl-a4-m1-cG_2isl-a4-m1-cH LTAAGAFSSDERAAVYRAIETRRDVRDEFLPEPLSEELIARLLGAAHQAPSVGFMQPWNFVLVRQDETREKVWQAFQRANDEAAEMFSGERQAKYRSLKLEGIRKAPLSICVTCDRTRGGAVVLGRTHNPQMDLYSTVCAVQNLWLAARAEGVGVGWVSIFHESEIKAILGIPDHVEIVAWLCLGFVDRLYQEPELAAKGWRQRLPLEDLVFEEGWGVR LTAAGAFSSDERAAVYRAIETRRDVRDEFLPEPLSEELIARLLGAAHQAPSVGFMQPWNFVLVRQDETREKVWQAFQRANDEAAEMFSGERQAKYRSLKLEGIRKAPLSICVTCDRTRGGAVVLGRTHNPQMDLYSTVCAVQNLWLAARAEGVGVGWVSIFHESEIKAILGIPDHVEIVAWLCLGFVDRLYQEPELAAKGWRQRLPLEDLVFEEGWGVR 2ism-a1-m1-cA_2ism-a1-m1-cB Crystal structure of the putative oxidoreductase (glucose dehydrogenase) (TTHA0570) from thermus theromophilus HB8 Q5SKS3 Q5SKS3 1.9 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 327 333 GLRVEEVVGGLEVPWALAFLPDGGMLIAERPGRIRLFREGRLSTYAELSVYHRGESGLLGLALHPRFPQEPYVYAYRTVAEGGLRNQVVRLRHLGERGVLDRVVLDGIPARPHGLHSGGRIAFGPDGMLYVTTGEVYERELAQDLASLGGKILRLTPEGEPAPGNPFLGRRGARPEVYSLGHRNPQGLAWHPKTGELFSSEHGPGHDEVNLIVPGGNYGWPRVVGRGNDPRYRDPLYFWPQGFPPGNLAFFRGDLYVAGLRGQALLRLVLEGERGRWRVLRVETALSGFGRLREVQVGPDGALYVTTSNRDGRGQVRPGDDRVLRLL GLRVEEVVGGLEVPWALAFLPDGGMLIAERPGRIRLFREGRLSTYAELSVYHRGESGLLGLALHPRFPQEPYVYAYRTVAEGGLRNQVVRLRHLGERGVLDRVVLDGIPARPHGLHSGGRIAFGPDGMLYVTTGEVYERELAQDLASLGGKILRLTPEGEPAPGNPFLGRRGARPEVYSLGHRNPQGLAWHPKTGELFSSEHGPSGEQGYGHDEVNLIVPGGNYGWPRVVGRGNDPRYRDPLYFWPQGFPPGNLAFFRGDLYVAGLRGQALLRLVLEGERGRWRVLRVETALSGFGRLREVQVGPDGALYVTTSNRDGRGQVRPGDDRVLRLL 2isn-a1-m1-cB_2isn-a1-m1-cA Crystal structure of a phosphatase from a pathogenic strain Toxoplasma gondii 1.9 X-RAY DIFFRACTION 117 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 322 324 KKVITVNEWYTTTVAATLGRRPTDEDAILVSAPPNVRIKAVFDGHAGEATSQYCAKHAAKHLGKLSEFTFAEVKKACLSLDAEIIRKLGPKHVAGSTGIIVAIERLSAPVVENVVGREIVPRFVPLEKLIQEEEEAVGRYPRVPDVQQKTIPAGSFLVTAINIGDSRATLIHSDGGLTRLSKDHKPNHPTEASRIEKAGGSVETFDVPRVDGVLALSRAFGDSDFKNPPPEEQKVIAVPDVRQFYALSSDLLLLACDGVYEPSGDWAYVRDLTVAEQRSKGDLEEVAARVDYAYDNSQDNISVLVAFHNQEVEHPTAVYKVV KKVITVNEWYTTTVAATLGRRPTDEDAILVSAPPNVRIKAVFDGHAGEATSQYCAKHAAKHLGKLSEFTFAEVKKACLSLDAEIIRKLGPKHVAGSTGIIVAIERLSAPVVENVVGREIVPRFVPLEKLIQEEEEAVGRYPRVPDVQQKTIPAGSFLVTAINIGDSRATLIHSDGGLTRLSKDHKPNHPTEASRIEKAGGSVETFDVPRVDGVLALSRAFGDSDFKNPNLPPEEQKVIAVPDVRQFYALSSDLLLLACDGVYEPSGDWAYVRDLTVAEQRSKGDLEEVAARVDYAYDNSQDNISVLVAFHNQEVEHPTAVYKVV 2iss-a1-m4-cC_2iss-a1-m1-cA Structure of the PLP synthase Holoenzyme from Thermotoga maritima Q9WYU4 Q9WYU4 2.9 X-RAY DIFFRACTION 75 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 280 281 2iss-a1-m1-cA_2iss-a1-m1-cB 2iss-a1-m1-cC_2iss-a1-m1-cB 2iss-a1-m1-cC_2iss-a1-m4-cA 2iss-a1-m2-cA_2iss-a1-m2-cB 2iss-a1-m2-cC_2iss-a1-m2-cB 2iss-a1-m2-cC_2iss-a1-m3-cA 2iss-a1-m3-cA_2iss-a1-m3-cB 2iss-a1-m3-cC_2iss-a1-m2-cA 2iss-a1-m3-cC_2iss-a1-m3-cB 2iss-a1-m4-cA_2iss-a1-m4-cB 2iss-a1-m4-cC_2iss-a1-m4-cB MEIKKGTWIIKKGFAEMFKGGVIMDVTSAEQAKIAEEAGAVAVMALERVPADIRKEGGVARMASIAKIREIMEAVSIPVMAKVRIGHIAEAKILEELGVDFIDESEVLTPADDRFHINKHEFKVPFVCGARDLGEALRRIAEGAAMIRTKGEAGTGNVVEAVKHMRRVMEQIKQVTKMEDEELVAYGKEIGAPVELLREVKRLGRLPVVNFAAGGVATPADAALMMMLGADGVFVGSGIFKSKDPRKMAKAMVLAVTYWDNPRILLKISEDIGEPMRGLD HMEIKKGTWIIKKGFAEMFKGGVIMDVTSAEQAKIAEEAGAVAVMALERVPADIRKEGGVARMASIAKIREIMEAVSIPVMAKVRIGHIAEAKILEELGVDFIDESEVLTPADDRFHINKHEFKVPFVCGARDLGEALRRIAEGAAMIRTKGEAGTGNVVEAVKHMRRVMEQIKQVTKMEDEELVAYGKEIGAPVELLREVKRLGRLPVVNFAAGGVATPADAALMMMLGADGVFVGSGIFKSKDPRKMAKAMVLAVTYWDNPRILLKISEDIGEPMRGLD 2iss-a1-m4-cC_2iss-a1-m2-cB Structure of the PLP synthase Holoenzyme from Thermotoga maritima Q9WYU4 Q9WYU4 2.9 X-RAY DIFFRACTION 53 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 280 285 2iss-a1-m1-cA_2iss-a1-m2-cA 2iss-a1-m1-cC_2iss-a1-m3-cB 2iss-a1-m2-cC_2iss-a1-m4-cB 2iss-a1-m3-cA_2iss-a1-m4-cA 2iss-a1-m3-cC_2iss-a1-m1-cB MEIKKGTWIIKKGFAEMFKGGVIMDVTSAEQAKIAEEAGAVAVMALERVPADIRKEGGVARMASIAKIREIMEAVSIPVMAKVRIGHIAEAKILEELGVDFIDESEVLTPADDRFHINKHEFKVPFVCGARDLGEALRRIAEGAAMIRTKGEAGTGNVVEAVKHMRRVMEQIKQVTKMEDEELVAYGKEIGAPVELLREVKRLGRLPVVNFAAGGVATPADAALMMMLGADGVFVGSGIFKSKDPRKMAKAMVLAVTYWDNPRILLKISEDIGEPMRGLD PRGSHMEIKKGTWIIKKGFAEMFKGGVIMDVTSAEQAKIAEEAGAVAVMALERVPADIRKEGGVARMASIAKIREIMEAVSIPVMAKVRIGHIAEAKILEELGVDFIDESEVLTPADDRFHINKHEFKVPFVCGARDLGEALRRIAEGAAMIRTKGEAGTGNVVEAVKHMRRVMEQIKQVTKMEDEELVAYGKEIGAPVELLREVKRLGRLPVVNFAAGGVATPADAALMMMLGADGVFVGSGIFKSKDPRKMAKAMVLAVTYWDNPRILLKISEDIGEPMRGLD 2it2-a1-m1-cA_2it2-a1-m1-cB Structure of PH1069 protein from Pyrococcus horikoshii O58796 O58796 1.5 X-RAY DIFFRACTION 64 0.995 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 182 190 2drv-a1-m1-cA_2drv-a1-m1-cB 2it3-a1-m1-cB_2it3-a1-m1-cA LLYRFTENFERAKKEALSLEIALRKGEVDEDIIPLLKKINSIENYFTTSSCSGRISVEPAKWLGKWHREVSLYEVLEAIKKHRSGQLWFLVRSPILHVGAKTLEDAVKLVNLAVSCGFKYSNIKSILIVEIRSTERDVLLGENGEIFVGEEYLNKIVEIANDQRRFKEKLKRLESKINALNR LLYRFTENFERAKKEALSLEIALRKGEVDEDIIPLLKKINSIENYFTTSSCSGRISVEPHFGDKAKWLGKWHREVSLYEVLEAIKKHRSGQLWFLVRSPILHVGAKTLEDAVKLVNLAVSCGFKYSNIKSISNKKLIVEIRSTERDVLLGENGEIFVGEEYLNKIVEIANDQRRFKEKLKRLESKINALN 2it9-a2-m1-cC_2it9-a2-m1-cD Crystal structure of a protein with unknown function from DUF155 family (YP_292156.1) from Prochlorococcus sp. NATL2A at 1.80 A resolution Q46J75 Q46J75 1.8 X-RAY DIFFRACTION 69 1.0 59920 (Prochlorococcus marinus str. NATL2A) 59920 (Prochlorococcus marinus str. NATL2A) 115 117 IKKEGPGWRIIFDSSRDNFSTLIGGETWAIELDKSEWKILVEVVELCDQYKLVKEQLGDEDITLELERRPWLAILNGDQYGWNLRLILSASGLFNRGAEVYWPRHVTNNVVNARS IKKEGPGWRIIFDSSRDNFSTLIGGETWAIELDKSEWKILVEVVELCDQYKLVKEQLGDEDITLELERRPWLAILNGDQYGWNLRLILSASGLFNRGAEVYWPRHVTNNVVNARSWD 2itf-a5-m1-cC_2itf-a5-m1-cD Crystal structure IsdA NEAT domain from Staphylococcus aureus with heme bound Q2FZE9 Q2FZE9 1.9 X-RAY DIFFRACTION 13 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 119 121 ATSQPINFQVQKDGSSEKSHDDYQHPGKVIKQNNKYYFQTVLNNASFWKEYKFYNANNQELATTVVNDNKKADTRTINVAVEPGYKSLTTKVHIVVPQINYNHRYTTHLEFEKAIPTLA SQATSQPINFQVQKDGSSEKSHDDYQHPGKVIKQNNKYYFQTVLNNASFWKEYKFYNANNQELATTVVNDNKKADTRTINVAVEPGYKSLTTKVHIVVPQINYNHRYTTHLEFEKAIPTLA 2itm-a1-m1-cB_2itm-a1-m1-cA Crystal structure of the E. coli xylulose kinase complexed with xylulose P09099 P09099 2.1 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 475 476 2nlx-a1-m1-cB_2nlx-a1-m1-cA MYIGIDLGTSGVKVILLNEQGEVVAAQTEKLTVSRPHPLWSEQDPEQWWQATDRAMKALGDQHSLQDVKALGIAGQMHGATLLDAQQRVLRPAILWNDGRCAQECTLLEARVPQSRVITGNLMMPGFTAPKLLWVQRHEPEIFRQIDKVLLPKDYLRLRMTGEFASDMSDAAGTMWLDVAKRDWSDVMLQACDLSRDQMPALYEGSEITGALLPEVAKAWGMATVPVVAGGGDNAAGAVGVGMVDANQAMLSLGTSGVYFAVSEGFLSKPESAVHSFCHALPQRWHLMSVMLSAASCLDWAAKLTGLSNVPALIAAAQQADESAEPVWFLPYLSQAKGVFFGLTHQHGPNELARAVLEGVGYALADGMDVVHACGIKPQSVTLIGGGARSEYWRQMLADISGQQLDYRTGGDVGPALGAARLAQIAANPEKSLIELLPQLPLEQSHLPDAQRYAAYQPRRETFRRLYQQLLPLMA MYIGIDLGTSGVKVILLNEQGEVVAAQTEKLTVSRPHPLWSEQDPEQWWQATDRAMKALGDQHSLQDVKALGIAGQMHGATLLDAQQRVLRPAILWNDGRCAQECTLLEARVPQSRVITGNLMMPGFTAPKLLWVQRHEPEIFRQIDKVLLPKDYLRLRMTGEFASDMSDAAGTMWLDVAKRDWSDVMLQACDLSRDQMPALYEGSEITGALLPEVAKAWGMATVPVVAGGGDNAAGAVGVGMVDANQAMLSLGTSGVYFAVSEGFLSKPESAVHSFCHALPQRWHLMSVMLSAASCLDWAAKLTGLSNVPALIAAAQQADESAEPVWFLPYLSPQAKGVFFGLTHQHGPNELARAVLEGVGYALADGMDVVHACGIKPQSVTLIGGGARSEYWRQMLADISGQQLDYRTGGDVGPALGAARLAQIAANPEKSLIELLPQLPLEQSHLPDAQRYAAYQPRRETFRRLYQQLLPLMA 2iu4-a1-m1-cA_2iu4-a1-m1-cB Dihydroxyacetone kinase operon co-activator Dha-DhaQ Q9CIW0 Q9CIW0 1.96 X-RAY DIFFRACTION 115 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 324 330 2iu6-a1-m1-cA_2iu6-a1-m1-cB NEIPEEMLKGIDLTYPQLTYLPETGILYDNTYNEKTVPIISGGGSGHEPAHVGYVGSGMLAAAVTGPLFIPPKSKNILKAIRQVNSGKGVFVIIKNFEADLKEFNEAIKEARTEGIDVRYIVSHDDISVNAYNFHKRHRGVAGTILLHKILGAFAKEGGSIDEIEQLALSLSPEIYTLGVALAPVHFPHQKTSFVLAEDEVSFGIGIGEPGYRVEKFEGSERIAIELVNKLKAEINWQKKANKNYILLVNGLGSTTLMELYSFQYDVMRLLELEGLSVKFCKVGNLMTSCDMSGISLTLCSVKDPKWLDYLNVPTGAFAWLEHH EFYNSTNEIPEEMLKGIDLTYPQLTYLPETGILYDNTYNEKTVPIISGGGSGHEPAHVGYVGSGMLAAAVTGPLFIPPKSKNILKAIRQVNSGKGVFVIIKNFEADLKEFNEAIKEARTEGIDVRYIVSHDDISVNAYNFHKRHRGVAGTILLHKILGAFAKEGGSIDEIEQLALSLSPEIYTLGVALAPVHFPHQKTSFVLAEDEVSFGIGIGEPGYRVEKFEGSERIAIELVNKLKAEINWQKKANKNYILLVNGLGSTTLMELYSFQYDVMRLLELEGLSVKFCKVGNLMTSCDMSGISLTLCSVKDPKWLDYLNVPTGAFAWLEHH 2iu5-a1-m1-cB_2iu5-a1-m1-cA Dihydroxyacetone kinase operon activator DhaS Q9CIV9 Q9CIV9 1.6 X-RAY DIFFRACTION 56 0.994 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 177 179 SIITQKIIAKAFKDLMQSNAYHQISVSDIMQTAKIRRQTFYNYFQNQEELLSWIFENDFAELINDNSDYYGWQNELLLLLRYLDENQIFYQKIFVIDKNFEHFFLIQWENLLDKVIFDQEKKSDYHWSDLEKSFICRYNAAAICAITRESIIRGNSLEKLYSQIVNLLLAQIKIFES MEKSIITQKIIAKAFKDLMQSNAYHQISVSDIMQTAKIRRQTFYNYFQNQEELLSWIFENDFAELINDNSDYYGWQNELLLLLRYLDENQIFYQKIFVIDKNFEHFFLIQWENLLDKVIFDQEKKSDYHWSDLEKSFICRYNAAAICAITRESIIRGNSLEKLYSQIVNLLLAQIKIFE 2iu9-a1-m1-cB_2iu9-a1-m1-cC Chlamydia trachomatis LpxD with 100mM UDPGlcNAc (Complex II) P0CD76 P0CD76 3.1 X-RAY DIFFRACTION 175 0.994 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 345 346 2iu8-a1-m1-cA_2iu8-a1-m1-cC 2iu8-a1-m1-cB_2iu8-a1-m1-cA 2iu8-a1-m1-cB_2iu8-a1-m1-cC 2iu9-a1-m1-cA_2iu9-a1-m1-cC 2iu9-a1-m1-cB_2iu9-a1-m1-cA 2iua-a1-m1-cA_2iua-a1-m1-cC 2iua-a1-m1-cB_2iua-a1-m1-cA 2iua-a1-m1-cB_2iua-a1-m1-cC MSQSTYSLEQLADFLKVEFQGNGATLLSGVEEIEEAKTAHITFLDNEKYAKHLKSSEAGAIIISRTQFQKYRDLNKNFLITSESPSLVFQKCLELFITPVDSGFPGIHPTAVIHPTAIIEDHVCIEPYAVVCQHAHVGSACHIGSGSVIGAYSTVGEHSYIHPRVVIRERVSIGKRVIIQPGAVIGSCGFGYVTSAFGQHKHLKHLGKVIIEDDVEIGANTTIDRGRFKHSVVREGSKIDNLVQIAHQVEVGQHSMIVAQAGIAGSTKIGNHVIIGGQAGITGHICIADHVIMMAQTGVTKSITSPGIYGGAPARPYQEIHRQVAKVRNLPRLEERIAALEKLVQ QSTYSLEQLADFLKVEFQGNGATLLSGVEEIEEAKTAHITFLDNEKYAKHLKSSEAGAIIISRTQFQKYRDLNKNFLITSESPSLVFQKCLELFITPVDSGFPGIHPTAVIHPTAIIEDHVCIEPYAVVCQHAHVGSACHIGSGSVIGAYSTVGEHSYIHPRVVIRERVSIGKRVIIQPGAVIGSCGFGYVTSAFGQHKHLKHLGKVIIEDDVEIGANTTIDRGRFKHSVVREGSKIDNLVQIAHQVEVGQHSMIVAQAGIAGSTKIGNHVIIGGQAGITGHICIADHVIMMAQTGVTKSITSPGIYGGAPARPYQEIHRQVAKVRNLPRLEERIAALEKLVQKLE 2iuf-a1-m1-cA_2iuf-a1-m2-cE The structures of Penicillium vitale catalase: resting state, oxidised state (compound I) and complex with aminotriazole D9N167 D9N167 1.71 X-RAY DIFFRACTION 388 1.0 5079 (Penicillium janthinellum) 5079 (Penicillium janthinellum) 683 683 2iuf-a1-m1-cE_2iuf-a1-m2-cA 2xf2-a1-m1-cA_2xf2-a1-m2-cE 2xf2-a1-m1-cE_2xf2-a1-m2-cA QQFLSQFYLNDQDVYLTSNVGGPIQDENSLSAGQRGATLLQDFIFREKIQRFDHERVPERAVHARGTGAHGTFTSYGDWSNLTAASFLSAEGKETPMFTRFSTVAGSRGSADTARDVHGFATRFYTDEGNFDIVGNNIPVFFIQDAILFPDLIHAVKPRGDNQIPQAATAHDSAWDFFSQQPSVLHTLLWAAGHGIPRSFRHVNGFGVHTFRLVTDDGKTKLVKFHWKGLQGKASFVWEEAQQTAGKNADFRQDLFQSIQAGRFPEWELGVQIMQEQDQLKFGFDLLDPTKIVPEELVPVTILGKMQLNRNPNYFAETEQVMFQPGHIVRGVDFTEDPLLQGRLFSYLDTQLNRHGGPNFEQLPINRPRAPIHNNNRDGAGQMFIPLDPNAYSPNTENKGSPKQANETVGKGFFTAPERTASGKLQRTLSTTFENNWSQPRLFWNSLVNAQKEFIVDARFETSNVSSSVVRDDVIIQLNRISDNLATRVASAIGVEAPKPNSSFYHDNTTAHIGAFGEKLAKLDGLKVGLLASVNKPASIAQGAKLQVALSSVGVDVVVVAERANNVDETYSASDAVQFDAVVVADGAEGLFGADSFTVEPSAGSGASTLYPAGRPLNILLDAFRFGKTVGALGSGSDALESGQISSERQGVYTGKNAGDAFAKDIKSGLSTFKFLDRFAVDE QQFLSQFYLNDQDVYLTSNVGGPIQDENSLSAGQRGATLLQDFIFREKIQRFDHERVPERAVHARGTGAHGTFTSYGDWSNLTAASFLSAEGKETPMFTRFSTVAGSRGSADTARDVHGFATRFYTDEGNFDIVGNNIPVFFIQDAILFPDLIHAVKPRGDNQIPQAATAHDSAWDFFSQQPSVLHTLLWAAGHGIPRSFRHVNGFGVHTFRLVTDDGKTKLVKFHWKGLQGKASFVWEEAQQTAGKNADFRQDLFQSIQAGRFPEWELGVQIMQEQDQLKFGFDLLDPTKIVPEELVPVTILGKMQLNRNPNYFAETEQVMFQPGHIVRGVDFTEDPLLQGRLFSYLDTQLNRHGGPNFEQLPINRPRAPIHNNNRDGAGQMFIPLDPNAYSPNTENKGSPKQANETVGKGFFTAPERTASGKLQRTLSTTFENNWSQPRLFWNSLVNAQKEFIVDARFETSNVSSSVVRDDVIIQLNRISDNLATRVASAIGVEAPKPNSSFYHDNTTAHIGAFGEKLAKLDGLKVGLLASVNKPASIAQGAKLQVALSSVGVDVVVVAERANNVDETYSASDAVQFDAVVVADGAEGLFGADSFTVEPSAGSGASTLYPAGRPLNILLDAFRFGKTVGALGSGSDALESGQISSERQGVYTGKNAGDAFAKDIKSGLSTFKFLDRFAVDE 2iuf-a1-m1-cE_2iuf-a1-m2-cE The structures of Penicillium vitale catalase: resting state, oxidised state (compound I) and complex with aminotriazole D9N167 D9N167 1.71 X-RAY DIFFRACTION 162 1.0 5079 (Penicillium janthinellum) 5079 (Penicillium janthinellum) 683 683 2iuf-a1-m1-cA_2iuf-a1-m2-cA 2xf2-a1-m1-cA_2xf2-a1-m2-cA 2xf2-a1-m1-cE_2xf2-a1-m2-cE QQFLSQFYLNDQDVYLTSNVGGPIQDENSLSAGQRGATLLQDFIFREKIQRFDHERVPERAVHARGTGAHGTFTSYGDWSNLTAASFLSAEGKETPMFTRFSTVAGSRGSADTARDVHGFATRFYTDEGNFDIVGNNIPVFFIQDAILFPDLIHAVKPRGDNQIPQAATAHDSAWDFFSQQPSVLHTLLWAAGHGIPRSFRHVNGFGVHTFRLVTDDGKTKLVKFHWKGLQGKASFVWEEAQQTAGKNADFRQDLFQSIQAGRFPEWELGVQIMQEQDQLKFGFDLLDPTKIVPEELVPVTILGKMQLNRNPNYFAETEQVMFQPGHIVRGVDFTEDPLLQGRLFSYLDTQLNRHGGPNFEQLPINRPRAPIHNNNRDGAGQMFIPLDPNAYSPNTENKGSPKQANETVGKGFFTAPERTASGKLQRTLSTTFENNWSQPRLFWNSLVNAQKEFIVDARFETSNVSSSVVRDDVIIQLNRISDNLATRVASAIGVEAPKPNSSFYHDNTTAHIGAFGEKLAKLDGLKVGLLASVNKPASIAQGAKLQVALSSVGVDVVVVAERANNVDETYSASDAVQFDAVVVADGAEGLFGADSFTVEPSAGSGASTLYPAGRPLNILLDAFRFGKTVGALGSGSDALESGQISSERQGVYTGKNAGDAFAKDIKSGLSTFKFLDRFAVDE QQFLSQFYLNDQDVYLTSNVGGPIQDENSLSAGQRGATLLQDFIFREKIQRFDHERVPERAVHARGTGAHGTFTSYGDWSNLTAASFLSAEGKETPMFTRFSTVAGSRGSADTARDVHGFATRFYTDEGNFDIVGNNIPVFFIQDAILFPDLIHAVKPRGDNQIPQAATAHDSAWDFFSQQPSVLHTLLWAAGHGIPRSFRHVNGFGVHTFRLVTDDGKTKLVKFHWKGLQGKASFVWEEAQQTAGKNADFRQDLFQSIQAGRFPEWELGVQIMQEQDQLKFGFDLLDPTKIVPEELVPVTILGKMQLNRNPNYFAETEQVMFQPGHIVRGVDFTEDPLLQGRLFSYLDTQLNRHGGPNFEQLPINRPRAPIHNNNRDGAGQMFIPLDPNAYSPNTENKGSPKQANETVGKGFFTAPERTASGKLQRTLSTTFENNWSQPRLFWNSLVNAQKEFIVDARFETSNVSSSVVRDDVIIQLNRISDNLATRVASAIGVEAPKPNSSFYHDNTTAHIGAFGEKLAKLDGLKVGLLASVNKPASIAQGAKLQVALSSVGVDVVVVAERANNVDETYSASDAVQFDAVVVADGAEGLFGADSFTVEPSAGSGASTLYPAGRPLNILLDAFRFGKTVGALGSGSDALESGQISSERQGVYTGKNAGDAFAKDIKSGLSTFKFLDRFAVDE 2iuf-a1-m2-cA_2iuf-a1-m2-cE The structures of Penicillium vitale catalase: resting state, oxidised state (compound I) and complex with aminotriazole D9N167 D9N167 1.71 X-RAY DIFFRACTION 437 1.0 5079 (Penicillium janthinellum) 5079 (Penicillium janthinellum) 683 683 2iuf-a1-m1-cA_2iuf-a1-m1-cE 2xf2-a1-m1-cA_2xf2-a1-m1-cE 2xf2-a1-m2-cA_2xf2-a1-m2-cE QQFLSQFYLNDQDVYLTSNVGGPIQDENSLSAGQRGATLLQDFIFREKIQRFDHERVPERAVHARGTGAHGTFTSYGDWSNLTAASFLSAEGKETPMFTRFSTVAGSRGSADTARDVHGFATRFYTDEGNFDIVGNNIPVFFIQDAILFPDLIHAVKPRGDNQIPQAATAHDSAWDFFSQQPSVLHTLLWAAGHGIPRSFRHVNGFGVHTFRLVTDDGKTKLVKFHWKGLQGKASFVWEEAQQTAGKNADFRQDLFQSIQAGRFPEWELGVQIMQEQDQLKFGFDLLDPTKIVPEELVPVTILGKMQLNRNPNYFAETEQVMFQPGHIVRGVDFTEDPLLQGRLFSYLDTQLNRHGGPNFEQLPINRPRAPIHNNNRDGAGQMFIPLDPNAYSPNTENKGSPKQANETVGKGFFTAPERTASGKLQRTLSTTFENNWSQPRLFWNSLVNAQKEFIVDARFETSNVSSSVVRDDVIIQLNRISDNLATRVASAIGVEAPKPNSSFYHDNTTAHIGAFGEKLAKLDGLKVGLLASVNKPASIAQGAKLQVALSSVGVDVVVVAERANNVDETYSASDAVQFDAVVVADGAEGLFGADSFTVEPSAGSGASTLYPAGRPLNILLDAFRFGKTVGALGSGSDALESGQISSERQGVYTGKNAGDAFAKDIKSGLSTFKFLDRFAVDE QQFLSQFYLNDQDVYLTSNVGGPIQDENSLSAGQRGATLLQDFIFREKIQRFDHERVPERAVHARGTGAHGTFTSYGDWSNLTAASFLSAEGKETPMFTRFSTVAGSRGSADTARDVHGFATRFYTDEGNFDIVGNNIPVFFIQDAILFPDLIHAVKPRGDNQIPQAATAHDSAWDFFSQQPSVLHTLLWAAGHGIPRSFRHVNGFGVHTFRLVTDDGKTKLVKFHWKGLQGKASFVWEEAQQTAGKNADFRQDLFQSIQAGRFPEWELGVQIMQEQDQLKFGFDLLDPTKIVPEELVPVTILGKMQLNRNPNYFAETEQVMFQPGHIVRGVDFTEDPLLQGRLFSYLDTQLNRHGGPNFEQLPINRPRAPIHNNNRDGAGQMFIPLDPNAYSPNTENKGSPKQANETVGKGFFTAPERTASGKLQRTLSTTFENNWSQPRLFWNSLVNAQKEFIVDARFETSNVSSSVVRDDVIIQLNRISDNLATRVASAIGVEAPKPNSSFYHDNTTAHIGAFGEKLAKLDGLKVGLLASVNKPASIAQGAKLQVALSSVGVDVVVVAERANNVDETYSASDAVQFDAVVVADGAEGLFGADSFTVEPSAGSGASTLYPAGRPLNILLDAFRFGKTVGALGSGSDALESGQISSERQGVYTGKNAGDAFAKDIKSGLSTFKFLDRFAVDE 2ium-a1-m1-cB_2ium-a1-m1-cC Structure of the C-terminal head domain of the avian adenovirus CELO long fibre (C2 crystal form) Q64761 Q64761 1.6 X-RAY DIFFRACTION 82 1.0 10553 (Fowl aviadenovirus 1) 10553 (Fowl aviadenovirus 1) 211 211 2ium-a1-m1-cA_2ium-a1-m1-cB 2ium-a1-m1-cA_2ium-a1-m1-cC 2iun-a1-m1-cA_2iun-a1-m1-cB 2iun-a1-m1-cA_2iun-a1-m1-cC 2iun-a1-m1-cB_2iun-a1-m1-cC 2iun-a2-m1-cD_2iun-a2-m1-cE 2iun-a2-m1-cD_2iun-a2-m1-cF 2iun-a2-m1-cE_2iun-a2-m1-cF PEVATYHCGDNLLESYDIFASLPNTNAAKVAAYCRLAAAGGVVSGTIQVTSYAGRWPKVGNSVTDGIKFAIVVSPPMDKDPRSNLSQWLGATVFPAGATTALFSPNPYGSLNTITTLPSIASDWYVPESNLVTYTKIHFKPTGSQQLQLASGELVVAAAKSPVQTTKYELIYLGFTLKQNSSGTNFFDPNASSDLSFLTPPIPFTYLGYYQ PEVATYHCGDNLLESYDIFASLPNTNAAKVAAYCRLAAAGGVVSGTIQVTSYAGRWPKVGNSVTDGIKFAIVVSPPMDKDPRSNLSQWLGATVFPAGATTALFSPNPYGSLNTITTLPSIASDWYVPESNLVTYTKIHFKPTGSQQLQLASGELVVAAAKSPVQTTKYELIYLGFTLKQNSSGTNFFDPNASSDLSFLTPPIPFTYLGYYQ 2iut-a1-m1-cA_2iut-a1-m1-cB P. aeruginosa FtsK motor domain, dimeric Q9I0M3 Q9I0M3 2.25 X-RAY DIFFRACTION 58 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 408 408 LPPLSLLDPAEVKQKSYSPESLEAMSRLLEIKLKEFGVEVSVDSVHPGPVITRFEIQPAAGVKVSRISNLAKDLARSLAVISVRVVEVIPGKTTVGIEIPNEDRQMVRFSEVLSSPEYDEHKSTVPLALGHDIGGRPIITDLAKMPHLLVAGTTGSGKSVGVNAMLLSILFKSTPSEARLIMIDPKMLELSIYEGIPHLLCPVVTDMKEAANALRWSVAEMERRYRLMAAMGVRNLAGFNRKVKDAEEAGTPLTDPLFRRESPDDEPPQLSTLPTIVVVVDEFADMMMIVGKKVEELIARIAQKARAAGIHLILATQRPSVDVITGLIKANIPTRIAFQVSSKIDSRTILDQGGAEQLLGHGDMLYLPPGTGLPIRVHGAFVSDDEVHRVVEAWKLRGAPDYIEDILA LPPLSLLDPAEVKQKSYSPESLEAMSRLLEIKLKEFGVEVSVDSVHPGPVITRFEIQPAAGVKVSRISNLAKDLARSLAVISVRVVEVIPGKTTVGIEIPNEDRQMVRFSEVLSSPEYDEHKSTVPLALGHDIGGRPIITDLAKMPHLLVAGTTGSGKSVGVNAMLLSILFKSTPSEARLIMIDPKMLELSIYEGIPHLLCPVVTDMKEAANALRWSVAEMERRYRLMAAMGVRNLAGFNRKVKDAEEAGTPLTDPLFRRESPDDEPPQLSTLPTIVVVVDEFADMMMIVGKKVEELIARIAQKARAAGIHLILATQRPSVDVITGLIKANIPTRIAFQVSSKIDSRTILDQGGAEQLLGHGDMLYLPPGTGLPIRVHGAFVSDDEVHRVVEAWKLRGAPDYIEDILA 2iuu-a1-m1-cE_2iuu-a1-m1-cF P. aeruginosa FtsK motor domain, hexamer Q9I0M3 Q9I0M3 2.9 X-RAY DIFFRACTION 56 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 408 408 2iuu-a1-m1-cA_2iuu-a1-m1-cB 2iuu-a1-m1-cA_2iuu-a1-m1-cF 2iuu-a1-m1-cB_2iuu-a1-m1-cC 2iuu-a1-m1-cC_2iuu-a1-m1-cD 2iuu-a1-m1-cD_2iuu-a1-m1-cE 6t8b-a1-m1-cA_6t8b-a1-m1-cF 6t8b-a1-m1-cB_6t8b-a1-m1-cA 6t8b-a1-m1-cB_6t8b-a1-m1-cC 6t8b-a1-m1-cD_6t8b-a1-m1-cC 6t8b-a1-m1-cD_6t8b-a1-m1-cE 6t8b-a1-m1-cE_6t8b-a1-m1-cF 6t8g-a1-m1-cB_6t8g-a1-m1-cA 6t8g-a1-m1-cB_6t8g-a1-m1-cC 6t8g-a1-m1-cD_6t8g-a1-m1-cC 6t8g-a1-m1-cD_6t8g-a1-m1-cE 6t8g-a1-m1-cF_6t8g-a1-m1-cA 6t8g-a1-m1-cF_6t8g-a1-m1-cE 6t8o-a1-m1-cA_6t8o-a1-m1-cF 6t8o-a1-m1-cB_6t8o-a1-m1-cA 6t8o-a1-m1-cB_6t8o-a1-m1-cC 6t8o-a1-m1-cD_6t8o-a1-m1-cC 6t8o-a1-m1-cD_6t8o-a1-m1-cE 6t8o-a1-m1-cE_6t8o-a1-m1-cF LPPLSLLDPAEVKQKSYSPESLEAMSRLLEIKLKEFGVEVSVDSVHPGPVITRFEIQPAAGVKVSRISNLAKDLARSLAVISVRVVEVIPGKTTVGIEIPNEDRQMVRFSEVLSSPEYDEHKSTVPLALGHDIGGRPIITDLAKMPHLLVAGTTGSGKSVGVNAMLLSILFKSTPSEARLIMIDPKMLELSIYEGIPHLLCPVVTDMKEAANALRWSVAEMERRYRLMAAMGVRNLAGFNRKVKDAEEAGTPLTDPLFRRESPDDEPPQLSTLPTIVVVVDEFADMMMIVGKKVEELIARIAQKARAAGIHLILATQRPSVDVITGLIKANIPTRIAFQVSSKIDSRTILDQGGAEQLLGHGDMLYLPPGTGLPIRVHGAFVSDDEVHRVVEAWKLRGAPDYIEDILA LPPLSLLDPAEVKQKSYSPESLEAMSRLLEIKLKEFGVEVSVDSVHPGPVITRFEIQPAAGVKVSRISNLAKDLARSLAVISVRVVEVIPGKTTVGIEIPNEDRQMVRFSEVLSSPEYDEHKSTVPLALGHDIGGRPIITDLAKMPHLLVAGTTGSGKSVGVNAMLLSILFKSTPSEARLIMIDPKMLELSIYEGIPHLLCPVVTDMKEAANALRWSVAEMERRYRLMAAMGVRNLAGFNRKVKDAEEAGTPLTDPLFRRESPDDEPPQLSTLPTIVVVVDEFADMMMIVGKKVEELIARIAQKARAAGIHLILATQRPSVDVITGLIKANIPTRIAFQVSSKIDSRTILDQGGAEQLLGHGDMLYLPPGTGLPIRVHGAFVSDDEVHRVVEAWKLRGAPDYIEDILA 2iuw-a1-m1-cA_2iuw-a1-m2-cA Crystal structure of human ABH3 in complex with iron ion and 2- oxoglutarate Q96Q83 Q96Q83 1.5 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 SHMRVIDREGVYEISLSPTGVSRVCLYPGFVDVKEADWILEQLCQDVPWKQRTGIREDITYQQPRLTAWYGELPYTYSRITMEPNPHWHPVLRTLKNRIEENTGHTFNSLCNLYRNEKDSVDWHSDDEPSLGRCPIIASLSFGATRTFEMRKKPPYVERVKIPLDHGTLLIMEGATQADWQHRVPKEYHSREPRVNLTFRTVYP SHMRVIDREGVYEISLSPTGVSRVCLYPGFVDVKEADWILEQLCQDVPWKQRTGIREDITYQQPRLTAWYGELPYTYSRITMEPNPHWHPVLRTLKNRIEENTGHTFNSLCNLYRNEKDSVDWHSDDEPSLGRCPIIASLSFGATRTFEMRKKPPYVERVKIPLDHGTLLIMEGATQADWQHRVPKEYHSREPRVNLTFRTVYP 2iv0-a1-m1-cA_2iv0-a1-m1-cB Thermal stability of isocitrate dehydrogenase from Archaeoglobus fulgidus studied by crystal structure analysis and engineering of chimers O29610 O29610 2.5 X-RAY DIFFRACTION 195 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 412 412 MQYEKVKPPENGEKIRYENGKLIVPDNPIIPYFEGDGIGKDVVPAAIRVLDAAADKIGKEVVWFQVYAGEDAYKLYGNYLPDDTLNAIKEFRVALKGPLTTPVGGGYRSLNVTIRQVLDLYANVRPVYYLKGVPSPIKHPEKVNFVIFRENTEDVYAGIEWPRGSEEALKLIRFLKNEFGVTIREDSGIGIKPISEFATKRLVRMAIRYAIENNRKSVTLVHKGNIMKYTEGAFRDWGYEVAKQEFGEYCITEDELWDKYGGKQPEGKIVVKDRIADNMFQQILTRTDEYDVIALPNLNGDYLSDAAAALIGGLGIAPGSNIGDGIGVFEPVHGSAPKYAGQNKVNPTAEILTGALMFEYIGWKDASEMIKKAVEMTISSGIVTYDIHRHMGGTKVGTREFAEAVVENLQSL MQYEKVKPPENGEKIRYENGKLIVPDNPIIPYFEGDGIGKDVVPAAIRVLDAAADKIGKEVVWFQVYAGEDAYKLYGNYLPDDTLNAIKEFRVALKGPLTTPVGGGYRSLNVTIRQVLDLYANVRPVYYLKGVPSPIKHPEKVNFVIFRENTEDVYAGIEWPRGSEEALKLIRFLKNEFGVTIREDSGIGIKPISEFATKRLVRMAIRYAIENNRKSVTLVHKGNIMKYTEGAFRDWGYEVAKQEFGEYCITEDELWDKYGGKQPEGKIVVKDRIADNMFQQILTRTDEYDVIALPNLNGDYLSDAAAALIGGLGIAPGSNIGDGIGVFEPVHGSAPKYAGQNKVNPTAEILTGALMFEYIGWKDASEMIKKAVEMTISSGIVTYDIHRHMGGTKVGTREFAEAVVENLQSL 2iv3-a2-m1-cD_2iv3-a2-m1-cC Crystal structure of AviGT4, a glycosyltransferase involved in Avilamycin A biosynthesis Q93KV2 Q93KV2 2.3 X-RAY DIFFRACTION 87 1.0 1938 (Streptomyces viridochromogenes) 1938 (Streptomyces viridochromogenes) 338 340 2iv3-a1-m1-cB_2iv3-a1-m1-cA PLKVALVNIPLRVPGSDAWISVPPQGYGGIQWVVANLMDGLLELGHEVFLLGAPGSPGRPGLTVVPAGEPEEIERWLRTADVDVVHDHSGGVIGPAGLPPGTAFISSHHFTTRPVNPVGCTYSSRAQRAHCGGGDDAPVIPIPVDPARYRSAADQVAKEDFLLFMGRVSPHKGALEAAAFAHACGRRLVLAGPAWEPEYFDEITRRYGSTVEPIGEVGGERRLDLLASAHAVLAMSQAVTGPWGIWCEPGATVVSEAAVSGTPVVGTGNGCLAEIVPSVGEVVGYGTDFAPDEARRTLAGLPASDEVRRAAVRLWGHVTIAERYVEQYRRLLAGATWK PLKVALVNIPLRVPGSDAWISVPPQGYGGIQWVVANLMDGLLELGHEVFLLGAPGSPAGRPGLTVVPAGEPEEIERWLRTADVDVVHDHSGGVIGPAGLPPGTAFISSHHFTTRPVNPVGCTYSSRAQRAHCGGGDDAPVIPIPVDPARYRSAADQVAKEDFLLFMGRVSPHKGALEAAAFAHACGRRLVLAGPAWEPEYFDEITRRYGSTVEPIGEVGGERRLDLLASAHAVLAMSQAVTGPWGGIWCEPGATVVSEAAVSGTPVVGTGNGCLAEIVPSVGEVVGYGTDFAPDEARRTLAGLPASDEVRRAAVRLWGHVTIAERYVEQYRRLLAGATWK 2iv9-a1-m1-cB_2iv9-a1-m1-cA B2-appendage from AP2 in complex with Eps15 peptide P63010 P63010 1.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 236 GGYVAPKAVWLPAVKAKGLEISGTFTHRQGHIYMEMNFTNKALQHMTDFAIQFNKNSFGVIPSTPLAIHTPLMPNQSIDVSLPLNTLGPVMKMEPLNNLQVAVKNNIDVFYFSCLIPLNVLFVEDGKMERQVFLATWKDIPNENELQFQIKECHLNADTVSSKLQNNNVYTIAKRNVEGQDMLYQSLKLTNGIWILAELRIQPGNPNYTLSLKCRAPEVSQYIYQVYDSILKN MAPGGYVAPKAVWLPAVKAKGLEISGTFTHRQGHIYMEMNFTNKALQHMTDFAIQFNKNSFGVIPSTPLAIHTPLMPNQSIDVSLPLNTLGPVMKMEPLNNLQVAVKNNIDVFYFSCLIPLNVLFVEDGKMERQVFLATWKDIPNENELQFQIKECHLNADTVSSKLQNNNVYTIAKRNVEGQDMLYQSLKLTNGIWILAELRIQPGNPNYTLSLKCRAPEVSQYIYQVYDSILKN 2ivk-a1-m1-cD_2ivk-a1-m1-cC Crystal structure of the periplasmic endonuclease Vvn complexed with a 16-bp DNA Q7MHK3 Q7MHK3 2.9 X-RAY DIFFRACTION 11 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 210 213 2ivk-a1-m1-cA_2ivk-a1-m1-cB APPSSFSAAKQQAVKIYQDHPISFYCGCDIEWQGKKGIPNLETCGYQVRKQQTRASRIEWEAVVPAWQFGHHRQCWQKGGRKNCSKNDQQFRLMEADLHNLTPAIGEVNGDRSNFNFSQWNGVDGVSYGRCEMQVNFKQRKVMPPDRARGSIARTYLYMSQEYGFQLSKQQQQLMQAWNKSYPVDEWECTRDDRIAKIQGNHNPFVQQSC APPSSFSAAKQQAVKIYQDHPISFYCGCDIEWQGKKGIPNLETCGYQVRKQQTRASRIEWEAVVPAWQFGHHRQCWQKGGRKNCSKNDQQFRLMEADLHNLTPAIGEVNGDRSNFNFSQWNGVDGVSYGRCEMQVNFKQRKVMPPDRARGSIARTYLYMSQEYGFQLSKQQQQLMQAWNKSYPVDEWECTRDDRIAKIQGNHNPFVQQSCQTQ 2ivm-a1-m2-cA_2ivm-a1-m4-cB Crystal structure of a transcriptional regulator P96896 P96896 2.5 X-RAY DIFFRACTION 25 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 147 147 2ivm-a1-m1-cA_2ivm-a1-m2-cB 2ivm-a1-m1-cA_2ivm-a1-m3-cB 2ivm-a1-m1-cB_2ivm-a1-m2-cA 2ivm-a1-m1-cB_2ivm-a1-m3-cA 2ivm-a1-m2-cB_2ivm-a1-m4-cA 2ivm-a1-m3-cA_2ivm-a1-m4-cB 2ivm-a1-m3-cB_2ivm-a1-m4-cA 2qz8-a1-m1-cA_2qz8-a1-m1-cC 2qz8-a1-m1-cA_2qz8-a1-m2-cB 2qz8-a1-m1-cB_2qz8-a1-m1-cD 2qz8-a1-m1-cB_2qz8-a1-m2-cA 2qz8-a1-m1-cC_2qz8-a1-m2-cD 2qz8-a1-m1-cD_2qz8-a1-m2-cC 2qz8-a1-m2-cA_2qz8-a1-m2-cC 2qz8-a1-m2-cB_2qz8-a1-m2-cD 2w24-a1-m1-cA_2w24-a1-m2-cB 2w24-a1-m1-cA_2w24-a1-m3-cB 2w24-a1-m1-cB_2w24-a1-m2-cA 2w24-a1-m1-cB_2w24-a1-m3-cA 2w24-a1-m2-cA_2w24-a1-m4-cB 2w24-a1-m2-cB_2w24-a1-m4-cA 2w24-a1-m3-cA_2w24-a1-m4-cB 2w24-a1-m3-cB_2w24-a1-m4-cA 2w25-a1-m1-cA_2w25-a1-m2-cB 2w25-a1-m1-cA_2w25-a1-m3-cB 2w25-a1-m1-cB_2w25-a1-m2-cA 2w25-a1-m1-cB_2w25-a1-m3-cA 2w25-a1-m2-cA_2w25-a1-m4-cB 2w25-a1-m2-cB_2w25-a1-m4-cA 2w25-a1-m3-cA_2w25-a1-m4-cB 2w25-a1-m3-cB_2w25-a1-m4-cA 2w29-a1-m1-cA_2w29-a1-m1-cD 2w29-a1-m1-cB_2w29-a1-m1-cC 2w29-a1-m2-cA_2w29-a1-m2-cD 2w29-a1-m2-cB_2w29-a1-m2-cC ALDDIDRILVRELAADGRGTLSELATRAGLSVSAVQSRVRRLESRGVVQGYSARINPEAVGHLLSAFVAITPLDPSQPDDAPARLEHIEEVESCYSVAGEESYVLLVRVASARALEDLLQRIRTTANVRTRSTIILNTFYSDRQHIP ALDDIDRILVRELAADGRGTLSELATRAGLSVSAVQSRVRRLESRGVVQGYSARINPEAVGHLLSAFVAITPLDPSQPDDAPARLEHIEEVESCYSVAGEESYVLLVRVASARALEDLLQRIRTTANVRTRSTIILNTFYSDRQHIP 2ivo-a1-m1-cA_2ivo-a1-m2-cA Structure of UP1 protein Q9UXT7 Q9UXT7 2.9 X-RAY DIFFRACTION 56 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 325 325 MLALGIEGTAHTLGIGIVSEDKVLANVFDTLTTEKGGIHPKEAAEHHARLMKPLLRKALSEAGVSLDDIDVIAFSQGPGLGPALRVVATAARALAVKYRKPIVGVNHCIAHVEITKMFGVKDPVGLYVSGGNTQVLALEGGRYRVFGETLDIGIGNAIDVFARELGLGFPGGPKVEKLAEKGEKYIELPYAVKGMDLSFSGLLTEAIRKYRSGKYRVEDLAYSFQETAFAALVEVTERAVAHTEKDEVVLVGGVAANNRLREMLRIMTEDRGIKFFVPPYDLCRDNGAMIAYTGLRMYKAGISFRLEETIVKQKFRTDEVEIVWH MLALGIEGTAHTLGIGIVSEDKVLANVFDTLTTEKGGIHPKEAAEHHARLMKPLLRKALSEAGVSLDDIDVIAFSQGPGLGPALRVVATAARALAVKYRKPIVGVNHCIAHVEITKMFGVKDPVGLYVSGGNTQVLALEGGRYRVFGETLDIGIGNAIDVFARELGLGFPGGPKVEKLAEKGEKYIELPYAVKGMDLSFSGLLTEAIRKYRSGKYRVEDLAYSFQETAFAALVEVTERAVAHTEKDEVVLVGGVAANNRLREMLRIMTEDRGIKFFVPPYDLCRDNGAMIAYTGLRMYKAGISFRLEETIVKQKFRTDEVEIVWH 2ivo-a1-m2-cA_2ivo-a1-m2-cB Structure of UP1 protein Q9UXT7 Q9UXT7 2.9 X-RAY DIFFRACTION 46 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 325 325 2ivo-a1-m1-cA_2ivo-a1-m1-cB MLALGIEGTAHTLGIGIVSEDKVLANVFDTLTTEKGGIHPKEAAEHHARLMKPLLRKALSEAGVSLDDIDVIAFSQGPGLGPALRVVATAARALAVKYRKPIVGVNHCIAHVEITKMFGVKDPVGLYVSGGNTQVLALEGGRYRVFGETLDIGIGNAIDVFARELGLGFPGGPKVEKLAEKGEKYIELPYAVKGMDLSFSGLLTEAIRKYRSGKYRVEDLAYSFQETAFAALVEVTERAVAHTEKDEVVLVGGVAANNRLREMLRIMTEDRGIKFFVPPYDLCRDNGAMIAYTGLRMYKAGISFRLEETIVKQKFRTDEVEIVWH MLALGIEGTAHTLGIGIVSEDKVLANVFDTLTTEKGGIHPKEAAEHHARLMKPLLRKALSEAGVSLDDIDVIAFSQGPGLGPALRVVATAARALAVKYRKPIVGVNHCIAHVEITKMFGVKDPVGLYVSGGNTQVLALEGGRYRVFGETLDIGIGNAIDVFARELGLGFPGGPKVEKLAEKGEKYIELPYAVKGMDLSFSGLLTEAIRKYRSGKYRVEDLAYSFQETAFAALVEVTERAVAHTEKDEVVLVGGVAANNRLREMLRIMTEDRGIKFFVPPYDLCRDNGAMIAYTGLRMYKAGISFRLEETIVKQKFRTDEVEIVWH 2ivv-a1-m1-cA_2ivv-a1-m2-cA Crystal structure of phosphorylated RET tyrosine kinase domain complexed with the inhibitor PP1 P07949 P07949 2.25 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 2ivt-a1-m1-cA_2ivt-a1-m2-cA 2ivu-a1-m1-cA_2ivu-a1-m2-cA 2x2k-a1-m1-cA_2x2k-a1-m2-cA 2x2l-a1-m1-cA_2x2l-a1-m2-cA 2x2m-a1-m1-cB_2x2m-a1-m1-cA 4cki-a1-m1-cA_4cki-a1-m2-cA 4ckj-a1-m1-cA_4ckj-a1-m2-cA 5amn-a1-m1-cA_5amn-a1-m2-cA 5fm2-a1-m1-cA_5fm2-a1-m2-cA 5fm3-a1-m1-cA_5fm3-a1-m2-cA 6i83-a1-m1-cA_6i83-a1-m2-cA 7nzn-a1-m1-cA_7nzn-a1-m2-cA GPLSLSVDAFKIKWEFPRKNLVLGKTLGEGEFGKVVKATAFHLKGRAGYTTVAVKMLKENASPSELRDLLSEFNVLKQVNHPHVIKLYGACSQDGPLLLIVEYAKYGSLRGFLRESRLTMGDLISFAWQISQGMQYLAEMSLVHRDLAARNILVAEGRKMKISDFGLSRDVYEEDSVKRSQGRIPVKWMAIESLFDHIYTTQSDVWSFGVLLWEIVTLGGNPYPGIPPERLFNLLKTGHRMERPDNCSEEMYRLMLQCWKQEPDKRPVFADISKDLEKMMVK GPLSLSVDAFKIKWEFPRKNLVLGKTLGEGEFGKVVKATAFHLKGRAGYTTVAVKMLKENASPSELRDLLSEFNVLKQVNHPHVIKLYGACSQDGPLLLIVEYAKYGSLRGFLRESRLTMGDLISFAWQISQGMQYLAEMSLVHRDLAARNILVAEGRKMKISDFGLSRDVYEEDSVKRSQGRIPVKWMAIESLFDHIYTTQSDVWSFGVLLWEIVTLGGNPYPGIPPERLFNLLKTGHRMERPDNCSEEMYRLMLQCWKQEPDKRPVFADISKDLEKMMVK 2ivy-a1-m1-cA_2ivy-a1-m2-cA Crystal structure of hypothetical protein sso1404 from Sulfolobus solfataricus P2 Q97YC2 Q97YC2 1.4 X-RAY DIFFRACTION 111 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 88 88 2i8e-a1-m1-cA_2i8e-a1-m2-cA AMLYLIFYDITDDNLRNRVAEFLKKKGLDRIQYSVFMGDLNSSRLKDVEAGLKIIGNRKKLQEDERFFILIVPITENQFRERIVIGYS AMLYLIFYDITDDNLRNRVAEFLKKKGLDRIQYSVFMGDLNSSRLKDVEAGLKIIGNRKKLQEDERFFILIVPITENQFRERIVIGYS 2iwh-a1-m1-cA_2iwh-a1-m1-cB Structure of yeast Elongation Factor 3 in complex with ADPNP P16521 P16521 3 X-RAY DIFFRACTION 194 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 972 980 2iw3-a1-m1-cA_2iw3-a1-m1-cB 2ix3-a1-m1-cA_2ix3-a1-m1-cB SDSQQSIKVLEELFQKLSVATADNRHEIASEVASFLNGNIIEHDVPEHFFGELAKGIKDKKTAANAMQAVAHIANQSNLSPSVEPYIVQLVPAICTNAGNKDKEIQSVASETLISIVNAVNPVAIKALLPHLTNAIVETNKWQEKIAILAAFSAMVDAAKDQVALRMPELIPVLSETMWDTKKEVKAAATAAMTKATETVDNKDIERFIPSLIQCIADPTEVPETVHLLGATTFVAEVTPATLSIMVPLLSRGLNERETGIKRKSAVIIDNMCKLVEDPQVIAPFLGKLLPGLKSNFATIADPEAREVTLRALKTLRRVGNVGEDDAIPELSHAGDVSTTLQVVNELLKDETVAPRFKIVVEYIAAIGADLIDERIIDQQAWFTHITPYMTIFLHEKKAKDILDEFRKRAVDNIPVGPNFDDEEDEGEDLCNCEFSLAYGAKILLNKTQLRLKRARRYGICGPNGCGKSTLMRAIANGQVDGFPTQEECRTVYVEHDIDGTHSDTSVLDFVFESGVGTKEAIKDKLIEFGFTDEMIAMPISALSGGWKMKLALARAVLRNADILLLDEPTNHLDTVNVAWLVNYLNTCGITSITISHDSVFLDNVCEYIINYEGLKLRKYKGNFTEFVKKCPAAKAYEELSNTDLEFKFPEPGYLEGVKTKQKAIVKVTNMEFQYPGTSKPQITDINFQCSLSSRIAVIGPNGAGKSTLINVLTGELLPTSGEVYTHENCRIAYIKQHAFAHIESHLDKTPSEYIQWRFQTGEDRETMDRANRQINENDAEAMNKIFKIEGTPRRIAGIHSRRKFKNTYEYECSFLLGENIGMKSERWVPMMSVDNAWIPRGELVESHSKMVAEVDMKEALASGQFRPLTRKEIEEHCSMLGLDPEIVSHSRIRGLSGGQKVKLVLAAGTWQRPHLIVLDEPTNYLDRDSLGALSKALKEFEGGVIIITHSAEFTKNLTEEVWAVKDGRMTP HHHHSDSQQSIKVLEELFQKLSVATADNRHEIASEVASFLNGNIIEHDVPEHFFGELAKGIKDKKTAANAMQAVAHIANQSNLSPSVEPYIVQLVPAICTNAGNKDKEIQSVASETLISIVNAVNPVAIKALLPHLTNAIVETNKWQEKIAILAAFSAMVDAAKDQVALRMPELIPVLSETMWDTKKEVKAAATAAMTKATETVDNKDIERFIPSLIQCIADPTEVPETVHLLGATTFVAEVTPATLSIMVPLLSRGLNERETGIKRKSAVIIDNMCKLVEDPQVIAPFLGKLLPGLKSNFATIADPEAREVTLRALKTLRRVGNVGEDDAIPELSHAGDVSTTLQVVNELLKDETVAPRFKIVVEYIAAIGADLIDERIIDQQAWFTHITPYMTIFLHEKKAKDILDEFRKRAVDNIPVGPNFDDEEDEGEDLCNCEFSLAYGAKILLNKTQLRLKRARRYGICGPNGCGKSTLMRAIANGQVDGFPTQEECRTVYVEHDIDGTHSDTSVLDFVFESGVGTKEAIKDKLIEFGFTDEMIAMPISALSGGWKMKLALARAVLRNADILLLDEPTNHLDTVNVAWLVNYLNTCGITSITISHDSVFLDNVCEYIINYEGLKLRKYKGNFTEFVKKCPAAKAYEELSNTDLEFKFPEPGYLEGVKTKQKAIVKVTNMEFQYPGTSKPQITDINFQCSLSSRIAVIGPNGAGKSTLINVLTGELLPTSGEVYTHENCRIAYIKQHAFAHIESHLDKTPSEYIQWRFQTGEDRETMDRANRQINENDAEAMNKIFKIEGTPRRIAGIHSRRKFKNTYEYECSFLLGENIGMKSERWVPMMSVDNAWIPRGELVESHSKMVAEVDMKEALASGQFRPLTRKEIEEHCSMLGLDPEIVSHSRIRGLSGGQKVKLVLAAGTWQRPHLIVLDEPTNYLDRDSLGALSKALKEFEGGVIIITHSAEFTKNLTEEVWAVKDGRMTPSGHN 2iwl-a1-m3-cX_2iwl-a1-m4-cX Structure of the PX Domain of Phosphoinositide 3-Kinase-C2alpha O00443 O00443 2.6 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 2iwl-a1-m1-cX_2iwl-a1-m2-cX 2iwl-a1-m1-cX_2iwl-a1-m3-cX 2iwl-a1-m2-cX_2iwl-a1-m4-cX LSFSPKTYSFRQDGRIKEVSVFTYHKKYNPDKHYIYVVRILREGQIEPSFVFRTFDEFQELHNKLSIIFPLWKLPGFPNDVAAKRKIELNSYLQSLMNASTDVAECDLVCTFFHPLLRDEK LSFSPKTYSFRQDGRIKEVSVFTYHKKYNPDKHYIYVVRILREGQIEPSFVFRTFDEFQELHNKLSIIFPLWKLPGFPNDVAAKRKIELNSYLQSLMNASTDVAECDLVCTFFHPLLRDEK 2iwp-a1-m1-cA_2iwp-a1-m1-cB 12th PDZ domain of Multiple PDZ Domain Protein MPDZ (CASP Target) O75970 O75970 2.15 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 106 LRTVEMKKSLGISIAGGVGSPLGDVPIFIAMMHPTGVAAQTQKLRVGDRIVTICGTSTEGMTHTQAVNLLKNASGSIEMQVVAGGDVSETSV TENLYFQSMGLRTVEMKKGPTDSLGISIAGGVGSPLGDVPIFIAMMHPTGVAAQTQKLRVGDRIVTICGTSTEGMTHTQAVNLLKNASGSIEMQVVAGGDVSETSV 2iwq-a1-m1-cA_2iwq-a1-m2-cA 7th PDZ domain of Multiple PDZ Domain Protein MPDZ O75970 O75970 1.8 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 MQPRRVELWREPSKSLGISIVGGREVMRGIFIKHVLEDSPAGKNGTLKPGDRIVEVDGMDLRDASHEQAVEAIRKAGNPVVFMVQSIISTRL MQPRRVELWREPSKSLGISIVGGREVMRGIFIKHVLEDSPAGKNGTLKPGDRIVEVDGMDLRDASHEQAVEAIRKAGNPVVFMVQSIISTRL 2iwz-a1-m1-cA_2iwz-a1-m1-cB Human mitochondrial beta-ketoacyl ACP synthase complexed with hexanoic acid Q9NWU1 Q9NWU1 1.65 X-RAY DIFFRACTION 332 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 426 426 2c9h-a1-m1-cA_2c9h-a1-m2-cA 2iwy-a1-m1-cA_2iwy-a1-m1-cB IEGRSRLHRRVVITGIGLVTPLGVGTHLVWDRLIGGESGIVSLVGEEYKSIPCSVAAYVPRGSDEGQFNEQNFVSKSDIKSMSSPTIMAIGAAELAMKDSGWHPQSEADQVATGVAIGMGMIPLEVVSETALNFQTKGYNKVSPFFVPKILVNMAAGQVSIRYKLKGPNHAVSTACTTGAHAVGDSFRFIAHGDADVMVAGGTDSCISPLSLAGFSRARALSTNSDPKLACRPFHPKRDGFVMGEGAAVLVLEEYEHAVQRRARIYAEVLGYGLSGDAGHITAPDPEGEGALRCMAAALKDAGVQPEEISYINAHATSTPLGDAAENKAIKHLFKDHAYALAVSSTKGATGHLLGAAGAVEAAFTTLACYYQKLPPTLNLDCSEPEFDLNYVPLKAQEWKTEKRFIGLTNSFGFGGTNATLCIAGL IEGRSRLHRRVVITGIGLVTPLGVGTHLVWDRLIGGESGIVSLVGEEYKSIPCSVAAYVPRGSDEGQFNEQNFVSKSDIKSMSSPTIMAIGAAELAMKDSGWHPQSEADQVATGVAIGMGMIPLEVVSETALNFQTKGYNKVSPFFVPKILVNMAAGQVSIRYKLKGPNHAVSTACTTGAHAVGDSFRFIAHGDADVMVAGGTDSCISPLSLAGFSRARALSTNSDPKLACRPFHPKRDGFVMGEGAAVLVLEEYEHAVQRRARIYAEVLGYGLSGDAGHITAPDPEGEGALRCMAAALKDAGVQPEEISYINAHATSTPLGDAAENKAIKHLFKDHAYALAVSSTKGATGHLLGAAGAVEAAFTTLACYYQKLPPTLNLDCSEPEFDLNYVPLKAQEWKTEKRFIGLTNSFGFGGTNATLCIAGL 2ix4-a1-m1-cA_2ix4-a1-m1-cB Arabidopsis thaliana mitochondrial beta-ketoacyl ACP synthase hexanoic acid complex Q8L3X9 Q8L3X9 1.95 X-RAY DIFFRACTION 302 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 431 431 1w0i-a1-m1-cA_1w0i-a1-m1-cB RRVVVTGLGMVTPLGRGVETTWRRLIDGECGIRGLTLDDLKMKSFDEETKLYTFDQLSSKVAAFVPYGSNPGEFDEALWLNSKAVANFIGYAVCAADEALRDAEWLPTEEEEKERTGVSIGGGIGSICDIVEAAQLICEKRLRRLSPFFIPKILVNMASGHVSMKYGFQGPNHAAVTACATGAHSIGDATRMIQFGDADVMVAGGTESSIDALSVAGFSRSRALSTKFNSSPQEASRPFDCDRDGFVIGEGSGVIVLEEYEHAKRRGAKIYAELCGYGMSGDAHHITQPPEDGKGAVLAMTRALRQSGLCPNQIDYVNAHATSTPIGDAVEARAIKTVFSEHATSGTLAFSSTKGATGHLLGAAGAVEAIFSILAIHHGVAPMTLNVKNPDPIFDKRFMPLTTSKKMLVRTAMSNSFGFGGTNASLLFASI RRVVVTGLGMVTPLGRGVETTWRRLIDGECGIRGLTLDDLKMKSFDEETKLYTFDQLSSKVAAFVPYGSNPGEFDEALWLNSKAVANFIGYAVCAADEALRDAEWLPTEEEEKERTGVSIGGGIGSICDIVEAAQLICEKRLRRLSPFFIPKILVNMASGHVSMKYGFQGPNHAAVTACATGAHSIGDATRMIQFGDADVMVAGGTESSIDALSVAGFSRSRALSTKFNSSPQEASRPFDCDRDGFVIGEGSGVIVLEEYEHAKRRGAKIYAELCGYGMSGDAHHITQPPEDGKGAVLAMTRALRQSGLCPNQIDYVNAHATSTPIGDAVEARAIKTVFSEHATSGTLAFSSTKGATGHLLGAAGAVEAIFSILAIHHGVAPMTLNVKNPDPIFDKRFMPLTTSKKMLVRTAMSNSFGFGGTNASLLFASI 2ix5-a1-m1-cA_2ix5-a1-m1-cD Short chain specific acyl-CoA oxidase from Arabidopsis thaliana, ACX4 in complex with acetoacetyl-CoA Q96329 Q96329 2.7 X-RAY DIFFRACTION 142 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 415 415 2ix5-a1-m1-cB_2ix5-a1-m1-cC 2ix6-a1-m1-cA_2ix6-a1-m2-cA 2ix6-a1-m1-cC_2ix6-a1-m2-cC 2ix6-a2-m1-cB_2ix6-a2-m1-cD 2ix6-a2-m1-cE_2ix6-a2-m1-cF KSSYFDLPPMEMSVAFPQATPASTFPPCTSDYYHFNDLLTPEEQAIRKKVRECMEKEVAPIMTEYWEKAEFPFHITPKLGAMGVAGGSIKGYGCPGLSITANAIATAEIARVDASCSTFILVHSSLGMLTIALCGSEAQKEKYLPSLAQLNTVACWALTEPDNGSDASGLGTTATKVEGGWKINGQKRWIGNSTFADLLIIFARNTTTNQINGFIVKKDAPGLKATKIPNKIGLRMVQNGDILLQNVFVPDEDRLPGVNSFQDTSKVLAVSRVMVAWQPIGISMGIYDMCHRYLKERKQFGAPLAAFQLNQQKLVQMLGNVQAMFLMGWRLCKLYETGQMTPGQASLGKAWISSKARETASLGRELLGGNGILADFLVAKAFCDLEPIYTYEGTYDINTLVTGREVTGIASFKPA KSSYFDLPPMEMSVAFPQATPASTFPPCTSDYYHFNDLLTPEEQAIRKKVRECMEKEVAPIMTEYWEKAEFPFHITPKLGAMGVAGGSIKGYGCPGLSITANAIATAEIARVDASCSTFILVHSSLGMLTIALCGSEAQKEKYLPSLAQLNTVACWALTEPDNGSDASGLGTTATKVEGGWKINGQKRWIGNSTFADLLIIFARNTTTNQINGFIVKKDAPGLKATKIPNKIGLRMVQNGDILLQNVFVPDEDRLPGVNSFQDTSKVLAVSRVMVAWQPIGISMGIYDMCHRYLKERKQFGAPLAAFQLNQQKLVQMLGNVQAMFLMGWRLCKLYETGQMTPGQASLGKAWISSKARETASLGRELLGGNGILADFLVAKAFCDLEPIYTYEGTYDINTLVTGREVTGIASFKPA 2ix5-a1-m1-cB_2ix5-a1-m1-cD Short chain specific acyl-CoA oxidase from Arabidopsis thaliana, ACX4 in complex with acetoacetyl-CoA Q96329 Q96329 2.7 X-RAY DIFFRACTION 22 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 415 415 2ix5-a1-m1-cA_2ix5-a1-m1-cC 2ix6-a1-m1-cA_2ix6-a1-m2-cC 2ix6-a1-m1-cC_2ix6-a1-m2-cA 2ix6-a2-m1-cB_2ix6-a2-m1-cF 2ix6-a2-m1-cD_2ix6-a2-m1-cE KSSYFDLPPMEMSVAFPQATPASTFPPCTSDYYHFNDLLTPEEQAIRKKVRECMEKEVAPIMTEYWEKAEFPFHITPKLGAMGVAGGSIKGYGCPGLSITANAIATAEIARVDASCSTFILVHSSLGMLTIALCGSEAQKEKYLPSLAQLNTVACWALTEPDNGSDASGLGTTATKVEGGWKINGQKRWIGNSTFADLLIIFARNTTTNQINGFIVKKDAPGLKATKIPNKIGLRMVQNGDILLQNVFVPDEDRLPGVNSFQDTSKVLAVSRVMVAWQPIGISMGIYDMCHRYLKERKQFGAPLAAFQLNQQKLVQMLGNVQAMFLMGWRLCKLYETGQMTPGQASLGKAWISSKARETASLGRELLGGNGILADFLVAKAFCDLEPIYTYEGTYDINTLVTGREVTGIASFKPA KSSYFDLPPMEMSVAFPQATPASTFPPCTSDYYHFNDLLTPEEQAIRKKVRECMEKEVAPIMTEYWEKAEFPFHITPKLGAMGVAGGSIKGYGCPGLSITANAIATAEIARVDASCSTFILVHSSLGMLTIALCGSEAQKEKYLPSLAQLNTVACWALTEPDNGSDASGLGTTATKVEGGWKINGQKRWIGNSTFADLLIIFARNTTTNQINGFIVKKDAPGLKATKIPNKIGLRMVQNGDILLQNVFVPDEDRLPGVNSFQDTSKVLAVSRVMVAWQPIGISMGIYDMCHRYLKERKQFGAPLAAFQLNQQKLVQMLGNVQAMFLMGWRLCKLYETGQMTPGQASLGKAWISSKARETASLGRELLGGNGILADFLVAKAFCDLEPIYTYEGTYDINTLVTGREVTGIASFKPA 2ix5-a1-m1-cC_2ix5-a1-m1-cD Short chain specific acyl-CoA oxidase from Arabidopsis thaliana, ACX4 in complex with acetoacetyl-CoA Q96329 Q96329 2.7 X-RAY DIFFRACTION 203 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 415 415 2ix5-a1-m1-cA_2ix5-a1-m1-cB 2ix6-a1-m1-cA_2ix6-a1-m1-cC 2ix6-a1-m2-cA_2ix6-a1-m2-cC 2ix6-a2-m1-cB_2ix6-a2-m1-cE 2ix6-a2-m1-cD_2ix6-a2-m1-cF KSSYFDLPPMEMSVAFPQATPASTFPPCTSDYYHFNDLLTPEEQAIRKKVRECMEKEVAPIMTEYWEKAEFPFHITPKLGAMGVAGGSIKGYGCPGLSITANAIATAEIARVDASCSTFILVHSSLGMLTIALCGSEAQKEKYLPSLAQLNTVACWALTEPDNGSDASGLGTTATKVEGGWKINGQKRWIGNSTFADLLIIFARNTTTNQINGFIVKKDAPGLKATKIPNKIGLRMVQNGDILLQNVFVPDEDRLPGVNSFQDTSKVLAVSRVMVAWQPIGISMGIYDMCHRYLKERKQFGAPLAAFQLNQQKLVQMLGNVQAMFLMGWRLCKLYETGQMTPGQASLGKAWISSKARETASLGRELLGGNGILADFLVAKAFCDLEPIYTYEGTYDINTLVTGREVTGIASFKPA KSSYFDLPPMEMSVAFPQATPASTFPPCTSDYYHFNDLLTPEEQAIRKKVRECMEKEVAPIMTEYWEKAEFPFHITPKLGAMGVAGGSIKGYGCPGLSITANAIATAEIARVDASCSTFILVHSSLGMLTIALCGSEAQKEKYLPSLAQLNTVACWALTEPDNGSDASGLGTTATKVEGGWKINGQKRWIGNSTFADLLIIFARNTTTNQINGFIVKKDAPGLKATKIPNKIGLRMVQNGDILLQNVFVPDEDRLPGVNSFQDTSKVLAVSRVMVAWQPIGISMGIYDMCHRYLKERKQFGAPLAAFQLNQQKLVQMLGNVQAMFLMGWRLCKLYETGQMTPGQASLGKAWISSKARETASLGRELLGGNGILADFLVAKAFCDLEPIYTYEGTYDINTLVTGREVTGIASFKPA 2ix7-a1-m1-cA_2ix7-a1-m1-cB Structure of apo-calmodulin bound to unconventional myosin V P0DP26 P0DP26 2.5 X-RAY DIFFRACTION 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 145 145 7yv9-a1-m1-cB_7yv9-a1-m1-cC 7yv9-a1-m1-cE_7yv9-a1-m1-cD 7yv9-a1-m1-cF_7yv9-a1-m1-cG 7yv9-a1-m1-cI_7yv9-a1-m1-cJ 7yv9-a1-m1-cL_7yv9-a1-m1-cK 7yv9-a1-m1-cM_7yv9-a1-m1-cN DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT 2ixa-a1-m1-cA_2ixa-a1-m2-cA A-zyme, N-acetylgalactosaminidase A4Q8F7 A4Q8F7 2.3 X-RAY DIFFRACTION 149 1.0 238 (Elizabethkingia meningoseptica) 238 (Elizabethkingia meningoseptica) 426 426 2ixb-a1-m1-cA_2ixb-a1-m2-cA KKVRIAFIAVGLRGQTHVENMARRDDVEIVAFADPDPYMVGRAQEILKKNGKKPAKVFGNGNDDYKNMLKDKNIDAVFVSSPWEWHHEHGVAAMKAGKIVGMEVSGAITLEECWDYVKVSEQTGVPLMALENVCYRRDVMAILNMVRKGMFGELVHGTGGYQHDLRPVLFNSGINGKNGDGVEFGEKAFSEAKWRTNHYKNRNGELYPTHGVGPLHTMMDINRGNRLLRLSSFASKARGLHKYIVDKGGESHPNAKVEWKQGDIVTTQIQCHNGETIVLTHDTSLQRPYNLGFKVQGTEGLWEDFGWGEAAQGFIYFEKIMNHSHRWDSSEKWIKEYDHPMWKKHEQKAVGAGHGGMDYFLDNTFVECIKRNEAFPLDVYDLATWYSITPLSEKSIAENGAVQEIPDFTNGKWKNAKNTFAINDDY KKVRIAFIAVGLRGQTHVENMARRDDVEIVAFADPDPYMVGRAQEILKKNGKKPAKVFGNGNDDYKNMLKDKNIDAVFVSSPWEWHHEHGVAAMKAGKIVGMEVSGAITLEECWDYVKVSEQTGVPLMALENVCYRRDVMAILNMVRKGMFGELVHGTGGYQHDLRPVLFNSGINGKNGDGVEFGEKAFSEAKWRTNHYKNRNGELYPTHGVGPLHTMMDINRGNRLLRLSSFASKARGLHKYIVDKGGESHPNAKVEWKQGDIVTTQIQCHNGETIVLTHDTSLQRPYNLGFKVQGTEGLWEDFGWGEAAQGFIYFEKIMNHSHRWDSSEKWIKEYDHPMWKKHEQKAVGAGHGGMDYFLDNTFVECIKRNEAFPLDVYDLATWYSITPLSEKSIAENGAVQEIPDFTNGKWKNAKNTFAINDDY 2ixc-a2-m1-cC_2ixc-a2-m1-cD RmlC M. tuberculosis with dTDP-rhamnose P9WH11 P9WH11 1.79 X-RAY DIFFRACTION 105 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 198 198 1pm7-a1-m1-cA_1pm7-a1-m1-cB 1upi-a1-m1-cA_1upi-a1-m2-cA 2ixc-a1-m1-cA_2ixc-a1-m1-cB MKARELDVPGAWEITPTIHVDSRGLFFEWLTDHGFRAFAGHSLDVRQVNCSVSSAGVLRGLHFAQLPPSQAKYVTCVSGSVFDVVVDIREGSPTFGRWDSVLLDDQDRRTIYVSEGLAHGFLALQDNSTVMYLCSAEYNPQREHTICATDPTLAVDWPLVDGAAPSLSDRDAAAPSFEDVRASGLLPRWEQTQRFIGE MKARELDVPGAWEITPTIHVDSRGLFFEWLTDHGFRAFAGHSLDVRQVNCSVSSAGVLRGLHFAQLPPSQAKYVTCVSGSVFDVVVDIREGSPTFGRWDSVLLDDQDRRTIYVSEGLAHGFLALQDNSTVMYLCSAEYNPQREHTICATDPTLAVDWPLVDGAAPSLSDRDAAAPSFEDVRASGLLPRWEQTQRFIGE 2ixd-a1-m2-cB_2ixd-a1-m3-cB Crystal structure of the putative deacetylase BC1534 from Bacillus cereus Q81FP2 Q81FP2 1.8 X-RAY DIFFRACTION 25 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 230 230 2ixd-a1-m1-cA_2ixd-a1-m2-cA 2ixd-a1-m1-cA_2ixd-a1-m3-cA 2ixd-a1-m1-cB_2ixd-a1-m2-cB 2ixd-a1-m1-cB_2ixd-a1-m3-cB 2ixd-a1-m2-cA_2ixd-a1-m3-cA SGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELSPHRVESFYNYMINGFHKPNFCIDISEYLSIKVEALEAYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLG SGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELSPHRVESFYNYMINGFHKPNFCIDISEYLSIKVEALEAYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLG 2ixd-a1-m3-cB_2ixd-a1-m1-cA Crystal structure of the putative deacetylase BC1534 from Bacillus cereus Q81FP2 Q81FP2 1.8 X-RAY DIFFRACTION 44 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 230 232 2ixd-a1-m1-cB_2ixd-a1-m2-cA 2ixd-a1-m2-cB_2ixd-a1-m3-cA SGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELSPHRVESFYNYMINGFHKPNFCIDISEYLSIKVEALEAYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLG SGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELSPHRVESFYNYMINGFHKPNFCIDISEYLSIKVEALEAYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLGGC 2ixd-a1-m3-cB_2ixd-a1-m3-cA Crystal structure of the putative deacetylase BC1534 from Bacillus cereus Q81FP2 Q81FP2 1.8 X-RAY DIFFRACTION 100 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 230 232 2ixd-a1-m1-cB_2ixd-a1-m1-cA 2ixd-a1-m2-cB_2ixd-a1-m2-cA SGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELSPHRVESFYNYMINGFHKPNFCIDISEYLSIKVEALEAYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLG SGLHILAFGAHADDVEIGMAGTIAKYTKQGYEVGICDLTEADLSSNGTIELRKEEAKVAARIMGVKTRLNLAMPDRGLYMKEEYIREIVKVIRTYKPKLVFAPYYEDRHPDHANCAKLVEEAIFSAGIRKYMPELSPHRVESFYNYMINGFHKPNFCIDISEYLSIKVEALEAYESQFSTGSDGVKTPLTEGYVETVIAREKMFGKEVGVLYAEGFMSKKPVLLHADLLGGC 2ixf-a1-m1-cA_2ixf-a1-m1-cB Crystal structure of the ATPase domain of TAP1 with ATP (D645Q, Q678H mutant) P36370 P36370 2 X-RAY DIFFRACTION 91 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 255 255 2ixe-a1-m1-cD_2ixe-a1-m1-cA 2ixf-a2-m1-cD_2ixf-a2-m1-cC SPLSGSLAPLNMKGLVKFQDVSFAYPNHPNVQVLQGLTFTLYPGKVTALVGPNGSGKSTVAALLQNLYQPTGGKVLLDGEPLVQYDHHYLHTQVAAVGQEPLLFGRSFRENIAYGLTRTPTMEEITAVAMESGAHDFISGFPQGYDTEVGETGNQLSGGQRQAVALARALIRKPRLLILDQATSALDAGNQLRVQRLLYESPEWASRTVLLITHQLSLAERAHHILFLKEGSVCEQGTHLQLMERGGCYRSMVEA SPLSGSLAPLNMKGLVKFQDVSFAYPNHPNVQVLQGLTFTLYPGKVTALVGPNGSGKSTVAALLQNLYQPTGGKVLLDGEPLVQYDHHYLHTQVAAVGQEPLLFGRSFRENIAYGLTRTPTMEEITAVAMESGAHDFISGFPQGYDTEVGETGNQLSGGQRQAVALARALIRKPRLLILDQATSALDAGNQLRVQRLLYESPEWASRTVLLITHQLSLAERAHHILFLKEGSVCEQGTHLQLMERGGCYRSMVEA 2ixi-a1-m1-cA_2ixi-a1-m1-cB RmlC P aeruginosa with dTDP-xylose Q9HU21 Q9HU21 1.8 X-RAY DIFFRACTION 90 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 184 184 2ixh-a1-m1-cA_2ixh-a1-m2-cA 2ixh-a2-m1-cB_2ixh-a2-m3-cB 2ixj-a1-m1-cA_2ixj-a1-m2-cA 2ixk-a1-m1-cA_2ixk-a1-m1-cB 6din-a1-m1-cA_6din-a1-m2-cA SMSMKATRLAIPDVILFEPRVFGDDRGFFFESYNQRAFEEACGHPVSFVQDNHSRSARGVLRGLHYQIRQAQGKLVRATLGEVFDVAVDLRRGSPTFGQWVGERLSAENKRQMWIPAGFAHGFVVLSEYAEFLYKTTDFWAPEHERCIVWNDPELKIDWPLQDAPLLSEKDRQGKAFADADCFP SMSMKATRLAIPDVILFEPRVFGDDRGFFFESYNQRAFEEACGHPVSFVQDNHSRSARGVLRGLHYQIRQAQGKLVRATLGEVFDVAVDLRRGSPTFGQWVGERLSAENKRQMWIPAGFAHGFVVLSEYAEFLYKTTDFWAPEHERCIVWNDPELKIDWPLQDAPLLSEKDRQGKAFADADCFP 2ixp-a2-m1-cD_2ixp-a2-m1-cB Crystal structure of the Pp2A phosphatase activator Ypa1 PTPA1 in complex with model substrate P40454 P40454 2.8 X-RAY DIFFRACTION 74 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 310 316 2ixp-a1-m1-cA_2ixp-a1-m1-cC SLDRVDWPHATFSTPVKRIFDTQTTLDFQSSLAIHRIKYHLHKYTTLISHCSDPDPHATASSIAMVNGLMGVLDKLAHLIDETPPLGNLACREWHHKLDERLPQWLQEMLPSEYHEVVPELQYYLGNSFGSSTRLDYGTGHELSFMATVAALDMLGMFPHMRGADVFLLFNKYYTIMRRLILTYTLEPAGSHGVWGLDDHFHLVYILGSSQWQLLDAQAPLQPREILDKSLVREYKDTNFYCQGINFINEVKMGPFEEHSPILYDIAVTVPRWSKVCKGLLKMYSVEVLKKFPVVQHFWFGTGFFPWVNI SLDRVDWPHATFSTPVKRIFDTQTTLDFQSSLAIHRIKYHLHKYTTLISHCSDPDPHATASSIAMVNGLMGVLDKLAHLIDETPPLPGPRRYGNLACREWHHKLDERLPQWLQEMLPSEYHEVVPELQYYLGNSFGSSTRLDYGTGHELSFMATVAALDMLGMFPHMRGADVFLLFNKYYTIMRRLILTYTLEPAGSHGVWGLDDHFHLVYILGSSQWQLLDAQAPLQPREILDKSLVREYKDTNFYCQGINFINEVKMGPFEEHSPILYDIAVTVPRWSKVCKGLLKMYSVEVLKKFPVVQHFWFGTGFFPWVNI 2iyn-a5-m1-cC_2iyn-a5-m2-cC The co-factor-induced pre-active conformation in PhoB P0AFJ5 P0AFJ5 2.08 X-RAY DIFFRACTION 40 1.0 562 (Escherichia coli) 562 (Escherichia coli) 108 108 2iyn-a4-m1-cA_2iyn-a4-m1-cB RRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLDWMLPGGSGIQFIKHLKRESMTRDIPVVMLTATGADDYITKPFSPKELVARIKAVMRR RRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLDWMLPGGSGIQFIKHLKRESMTRDIPVVMLTATGADDYITKPFSPKELVARIKAVMRR 2iz1-a1-m1-cA_2iz1-a1-m1-cB 6PDH complexed with PEX inhibitor synchrotron data P96789 P96789 2.3 X-RAY DIFFRACTION 388 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 469 471 2iyo-a1-m1-cA_2iyo-a1-m2-cA 2iyp-a1-m1-cA_2iyp-a1-m1-cB 2iyp-a2-m1-cC_2iyp-a2-m2-cC 2iz0-a1-m1-cA_2iz0-a1-m1-cB 2iz0-a2-m1-cC_2iz0-a2-m2-cC 2iz1-a2-m1-cC_2iz1-a2-m2-cC MAQANFGVVGMAVMGKNLALNVESRGYTVAIYNRTTSKTEEVFKEHQDKNLVFTKTLEEFVGSLEKPRRIMLMVQAGAATDATIKSLLPLLDIGDILIDGGNTHFPDTMRRNAELADSGINFIGTGVSGGEKGALLGPSMMPGGQKEAYDLVAPIFEQIAAKAPQDGKPCVAYMGANGAGHYVKMVHNGIEYGDMQLIAESYDLLKRILGLSNAEIQAIFEEWNEGELDSYLIEITKEVLKRKDDEGEGYIVDKILDKAGNKGTGKWTSESALDLGVPLPLITESVFARYISTYKDERVKASKVLSGPALDFSGDKKEVIEKIRKALYFSKIMSYAQGFAQLRKASEEFDWDLPYGTIAQIWRAGCIIRAEFLQNITDAFDKDSELENLLLDDYFVDITKRYQEAVRDVVSLAVQAGTPIPTFTSAISYYDSYRSENLPANLIQAQRDYFGAHTYERTDKAGIFHYDWY HHMAQANFGVVGMAVMGKNLALNVESRGYTVAIYNRTTSKTEEVFKEHQDKNLVFTKTLEEFVGSLEKPRRIMLMVQAGAATDATIKSLLPLLDIGDILIDGGNTHFPDTMRRNAELADSGINFIGTGVSGGEKGALLGPSMMPGGQKEAYDLVAPIFEQIAAKAPQDGKPCVAYMGANGAGHYVKMVHNGIEYGDMQLIAESYDLLKRILGLSNAEIQAIFEEWNEGELDSYLIEITKEVLKRKDDEGEGYIVDKILDKAGNKGTGKWTSESALDLGVPLPLITESVFARYISTYKDERVKASKVLSGPALDFSGDKKEVIEKIRKALYFSKIMSYAQGFAQLRKASEEFDWDLPYGTIAQIWRAGCIIRAEFLQNITDAFDKDSELENLLLDDYFVDITKRYQEAVRDVVSLAVQAGTPIPTFTSAISYYDSYRSENLPANLIQAQRDYFGAHTYERTDKAGIFHYDWY 2iz6-a1-m1-cB_2iz6-a1-m2-cB Structure of the Chlamydomonas rheinhardtii Moco Carrier Protein Q8RV61 Q8RV61 1.6 X-RAY DIFFRACTION 38 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 156 156 2iz5-a1-m1-cA_2iz5-a1-m1-cB 2iz5-a1-m1-cC_2iz5-a1-m1-cD 2iz6-a1-m1-cA_2iz6-a1-m2-cA 2iz7-a1-m1-cA_2iz7-a1-m2-cA 2iz7-a1-m1-cB_2iz7-a1-m2-cB RKPIIGVMGPGKADTAENQLVMANELGKQIATHGWILLTGGRSLGVMHEAMKGAKEAGGTTIGVLPSDAVDIPIVTGLGSARDNINALSSNVLVAVGMGPGTAAEVALALKAKKPVVLLGTQPEAEKFFTSLDAGLVHVAADVAGAIAAVKQLLAK RKPIIGVMGPGKADTAENQLVMANELGKQIATHGWILLTGGRSLGVMHEAMKGAKEAGGTTIGVLPSDAVDIPIVTGLGSARDNINALSSNVLVAVGMGPGTAAEVALALKAKKPVVLLGTQPEAEKFFTSLDAGLVHVAADVAGAIAAVKQLLAK 2iz6-a1-m2-cB_2iz6-a1-m2-cA Structure of the Chlamydomonas rheinhardtii Moco Carrier Protein Q8RV61 Q8RV61 1.6 X-RAY DIFFRACTION 74 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 156 159 2iz5-a1-m1-cC_2iz5-a1-m1-cB 2iz6-a1-m1-cB_2iz6-a1-m1-cA 2iz7-a1-m1-cB_2iz7-a1-m1-cA 2iz7-a1-m2-cB_2iz7-a1-m2-cA RKPIIGVMGPGKADTAENQLVMANELGKQIATHGWILLTGGRSLGVMHEAMKGAKEAGGTTIGVLPSDAVDIPIVTGLGSARDNINALSSNVLVAVGMGPGTAAEVALALKAKKPVVLLGTQPEAEKFFTSLDAGLVHVAADVAGAIAAVKQLLAK GRKPIIGVMGPGKADTAENQLVMANELGKQIATHGWILLTGGRSLGVMHEAMKGAKEAGGTTIGVLPGISDAVDIPIVTGLGSARDNINALSSNVLVAVGMGPGTAAEVALALKAKKPVVLLGTQPEAEKFFTSLDAGLVHVAADVAGAIAAVKQLLAK 2iz7-a1-m2-cB_2iz7-a1-m1-cA structure of Moco Carrier Protein from Chlamydomonas reinhardtii Q8RV61 Q8RV61 2.32 X-RAY DIFFRACTION 18 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 161 162 2iz5-a1-m1-cC_2iz5-a1-m1-cA 2iz5-a1-m1-cD_2iz5-a1-m1-cB 2iz6-a1-m1-cB_2iz6-a1-m2-cA 2iz6-a1-m2-cB_2iz6-a1-m1-cA 2iz7-a1-m1-cB_2iz7-a1-m2-cA RKPIIGVMGPGKADTAENQLVMANELGKQIATHGWILLTGGRSLGVMHEAMKGAKEAGGTTIGVLPGPDTISDAVDIPIVTGLGSARDNINALSSNVLVAVGMGPGTAAEVALALKAKKPVVLLGTQPEAEKFFTSLDAGLVHVAADVAGAIAAVKQLLAK RKPIIGVMGPGKADTAENQLVMANELGKQIATHGWILLTGGRSLGVMHEAMKGAKEAGGTTIGVLPGPDTISDAVDIPIVTGLGSARDNINALSSNVLVAVGMGPGTAAEVALALKAKKPVVLLGTQPEAEKFFTSLDAGLVHVAADVAGAIAAVKQLLAKL 2izq-a2-m1-cC_2izq-a2-m1-cD Gramicidin D complex with KI 0.8 X-RAY DIFFRACTION 15 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 3l8l-a2-m1-cC_3l8l-a2-m1-cD GAAVWWWW GAAVWWWW 2izw-a1-m10-cA_2izw-a1-m9-cB Crystal structure of Ryegrass Mottle Virus Q9E962 Q9E962 2.9 X-RAY DIFFRACTION 49 1.0 119910 (Ryegrass mottle virus) 119910 (Ryegrass mottle virus) 178 179 2izw-a1-m10-cC_2izw-a1-m24-cC 2izw-a1-m11-cA_2izw-a1-m15-cB 2izw-a1-m11-cC_2izw-a1-m16-cC 2izw-a1-m12-cA_2izw-a1-m11-cB 2izw-a1-m12-cC_2izw-a1-m38-cC 2izw-a1-m13-cA_2izw-a1-m12-cB 2izw-a1-m13-cC_2izw-a1-m47-cC 2izw-a1-m14-cA_2izw-a1-m13-cB 2izw-a1-m14-cC_2izw-a1-m45-cC 2izw-a1-m15-cA_2izw-a1-m14-cB 2izw-a1-m15-cC_2izw-a1-m29-cC 2izw-a1-m16-cA_2izw-a1-m20-cB 2izw-a1-m17-cA_2izw-a1-m16-cB 2izw-a1-m17-cC_2izw-a1-m28-cC 2izw-a1-m18-cA_2izw-a1-m17-cB 2izw-a1-m18-cC_2izw-a1-m52-cC 2izw-a1-m19-cA_2izw-a1-m18-cB 2izw-a1-m19-cC_2izw-a1-m60-cC 2izw-a1-m1-cA_2izw-a1-m5-cB 2izw-a1-m1-cC_2izw-a1-m6-cC 2izw-a1-m20-cA_2izw-a1-m19-cB 2izw-a1-m20-cC_2izw-a1-m39-cC 2izw-a1-m21-cA_2izw-a1-m25-cB 2izw-a1-m21-cC_2izw-a1-m26-cC 2izw-a1-m22-cA_2izw-a1-m21-cB 2izw-a1-m22-cC_2izw-a1-m43-cC 2izw-a1-m23-cA_2izw-a1-m22-cB 2izw-a1-m24-cA_2izw-a1-m23-cB 2izw-a1-m25-cA_2izw-a1-m24-cB 2izw-a1-m25-cC_2izw-a1-m54-cC 2izw-a1-m26-cA_2izw-a1-m30-cB 2izw-a1-m27-cA_2izw-a1-m26-cB 2izw-a1-m27-cC_2izw-a1-m53-cC 2izw-a1-m28-cA_2izw-a1-m27-cB 2izw-a1-m29-cA_2izw-a1-m28-cB 2izw-a1-m2-cA_2izw-a1-m1-cB 2izw-a1-m2-cC_2izw-a1-m23-cC 2izw-a1-m30-cA_2izw-a1-m29-cB 2izw-a1-m30-cC_2izw-a1-m44-cC 2izw-a1-m31-cA_2izw-a1-m35-cB 2izw-a1-m31-cC_2izw-a1-m36-cC 2izw-a1-m32-cA_2izw-a1-m31-cB 2izw-a1-m32-cC_2izw-a1-m58-cC 2izw-a1-m33-cA_2izw-a1-m32-cB 2izw-a1-m33-cC_2izw-a1-m7-cC 2izw-a1-m34-cA_2izw-a1-m33-cB 2izw-a1-m34-cC_2izw-a1-m5-cC 2izw-a1-m35-cA_2izw-a1-m34-cB 2izw-a1-m35-cC_2izw-a1-m49-cC 2izw-a1-m36-cA_2izw-a1-m40-cB 2izw-a1-m37-cA_2izw-a1-m36-cB 2izw-a1-m37-cC_2izw-a1-m48-cC 2izw-a1-m38-cA_2izw-a1-m37-cB 2izw-a1-m39-cA_2izw-a1-m38-cB 2izw-a1-m3-cA_2izw-a1-m2-cB 2izw-a1-m3-cC_2izw-a1-m42-cC 2izw-a1-m40-cA_2izw-a1-m39-cB 2izw-a1-m40-cC_2izw-a1-m59-cC 2izw-a1-m41-cA_2izw-a1-m45-cB 2izw-a1-m41-cC_2izw-a1-m46-cC 2izw-a1-m42-cA_2izw-a1-m41-cB 2izw-a1-m43-cA_2izw-a1-m42-cB 2izw-a1-m44-cA_2izw-a1-m43-cB 2izw-a1-m45-cA_2izw-a1-m44-cB 2izw-a1-m46-cA_2izw-a1-m50-cB 2izw-a1-m47-cA_2izw-a1-m46-cB 2izw-a1-m48-cA_2izw-a1-m47-cB 2izw-a1-m49-cA_2izw-a1-m48-cB 2izw-a1-m4-cA_2izw-a1-m3-cB 2izw-a1-m4-cC_2izw-a1-m50-cC 2izw-a1-m50-cA_2izw-a1-m49-cB 2izw-a1-m51-cA_2izw-a1-m55-cB 2izw-a1-m51-cC_2izw-a1-m56-cC 2izw-a1-m52-cA_2izw-a1-m51-cB 2izw-a1-m53-cA_2izw-a1-m52-cB 2izw-a1-m54-cA_2izw-a1-m53-cB 2izw-a1-m55-cA_2izw-a1-m54-cB 2izw-a1-m55-cC_2izw-a1-m9-cC 2izw-a1-m56-cA_2izw-a1-m60-cB 2izw-a1-m57-cA_2izw-a1-m56-cB 2izw-a1-m57-cC_2izw-a1-m8-cC 2izw-a1-m58-cA_2izw-a1-m57-cB 2izw-a1-m59-cA_2izw-a1-m58-cB 2izw-a1-m5-cA_2izw-a1-m4-cB 2izw-a1-m60-cA_2izw-a1-m59-cB 2izw-a1-m6-cA_2izw-a1-m10-cB 2izw-a1-m7-cA_2izw-a1-m6-cB 2izw-a1-m8-cA_2izw-a1-m7-cB 2izw-a1-m9-cA_2izw-a1-m8-cB QYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ TQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ 2izw-a1-m55-cB_2izw-a1-m9-cC Crystal structure of Ryegrass Mottle Virus Q9E962 Q9E962 2.9 X-RAY DIFFRACTION 81 1.0 119910 (Ryegrass mottle virus) 119910 (Ryegrass mottle virus) 179 208 2izw-a1-m10-cB_2izw-a1-m24-cC 2izw-a1-m11-cB_2izw-a1-m16-cC 2izw-a1-m12-cB_2izw-a1-m38-cC 2izw-a1-m13-cB_2izw-a1-m47-cC 2izw-a1-m14-cB_2izw-a1-m45-cC 2izw-a1-m15-cB_2izw-a1-m29-cC 2izw-a1-m16-cB_2izw-a1-m11-cC 2izw-a1-m17-cB_2izw-a1-m28-cC 2izw-a1-m18-cB_2izw-a1-m52-cC 2izw-a1-m19-cB_2izw-a1-m60-cC 2izw-a1-m1-cB_2izw-a1-m6-cC 2izw-a1-m20-cB_2izw-a1-m39-cC 2izw-a1-m21-cB_2izw-a1-m26-cC 2izw-a1-m22-cB_2izw-a1-m43-cC 2izw-a1-m23-cB_2izw-a1-m2-cC 2izw-a1-m24-cB_2izw-a1-m10-cC 2izw-a1-m25-cB_2izw-a1-m54-cC 2izw-a1-m26-cB_2izw-a1-m21-cC 2izw-a1-m27-cB_2izw-a1-m53-cC 2izw-a1-m28-cB_2izw-a1-m17-cC 2izw-a1-m29-cB_2izw-a1-m15-cC 2izw-a1-m2-cB_2izw-a1-m23-cC 2izw-a1-m30-cB_2izw-a1-m44-cC 2izw-a1-m31-cB_2izw-a1-m36-cC 2izw-a1-m32-cB_2izw-a1-m58-cC 2izw-a1-m33-cB_2izw-a1-m7-cC 2izw-a1-m34-cB_2izw-a1-m5-cC 2izw-a1-m35-cB_2izw-a1-m49-cC 2izw-a1-m36-cB_2izw-a1-m31-cC 2izw-a1-m37-cB_2izw-a1-m48-cC 2izw-a1-m38-cB_2izw-a1-m12-cC 2izw-a1-m39-cB_2izw-a1-m20-cC 2izw-a1-m3-cB_2izw-a1-m42-cC 2izw-a1-m40-cB_2izw-a1-m59-cC 2izw-a1-m41-cB_2izw-a1-m46-cC 2izw-a1-m42-cB_2izw-a1-m3-cC 2izw-a1-m43-cB_2izw-a1-m22-cC 2izw-a1-m44-cB_2izw-a1-m30-cC 2izw-a1-m45-cB_2izw-a1-m14-cC 2izw-a1-m46-cB_2izw-a1-m41-cC 2izw-a1-m47-cB_2izw-a1-m13-cC 2izw-a1-m48-cB_2izw-a1-m37-cC 2izw-a1-m49-cB_2izw-a1-m35-cC 2izw-a1-m4-cB_2izw-a1-m50-cC 2izw-a1-m50-cB_2izw-a1-m4-cC 2izw-a1-m51-cB_2izw-a1-m56-cC 2izw-a1-m52-cB_2izw-a1-m18-cC 2izw-a1-m53-cB_2izw-a1-m27-cC 2izw-a1-m54-cB_2izw-a1-m25-cC 2izw-a1-m56-cB_2izw-a1-m51-cC 2izw-a1-m57-cB_2izw-a1-m8-cC 2izw-a1-m58-cB_2izw-a1-m32-cC 2izw-a1-m59-cB_2izw-a1-m40-cC 2izw-a1-m5-cB_2izw-a1-m34-cC 2izw-a1-m60-cB_2izw-a1-m19-cC 2izw-a1-m6-cB_2izw-a1-m1-cC 2izw-a1-m7-cB_2izw-a1-m33-cC 2izw-a1-m8-cB_2izw-a1-m57-cC 2izw-a1-m9-cB_2izw-a1-m55-cC TQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ GQQPTRQVTPVSAPAAMGTQITYRGPQVVTQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ 2izw-a1-m57-cC_2izw-a1-m9-cC Crystal structure of Ryegrass Mottle Virus Q9E962 Q9E962 2.9 X-RAY DIFFRACTION 56 1.0 119910 (Ryegrass mottle virus) 119910 (Ryegrass mottle virus) 208 208 2izw-a1-m10-cC_2izw-a1-m25-cC 2izw-a1-m10-cC_2izw-a1-m55-cC 2izw-a1-m11-cC_2izw-a1-m17-cC 2izw-a1-m11-cC_2izw-a1-m29-cC 2izw-a1-m12-cC_2izw-a1-m16-cC 2izw-a1-m12-cC_2izw-a1-m39-cC 2izw-a1-m13-cC_2izw-a1-m38-cC 2izw-a1-m13-cC_2izw-a1-m48-cC 2izw-a1-m14-cC_2izw-a1-m41-cC 2izw-a1-m14-cC_2izw-a1-m47-cC 2izw-a1-m15-cC_2izw-a1-m30-cC 2izw-a1-m15-cC_2izw-a1-m45-cC 2izw-a1-m16-cC_2izw-a1-m39-cC 2izw-a1-m17-cC_2izw-a1-m29-cC 2izw-a1-m18-cC_2izw-a1-m28-cC 2izw-a1-m18-cC_2izw-a1-m53-cC 2izw-a1-m19-cC_2izw-a1-m52-cC 2izw-a1-m19-cC_2izw-a1-m56-cC 2izw-a1-m1-cC_2izw-a1-m34-cC 2izw-a1-m1-cC_2izw-a1-m7-cC 2izw-a1-m20-cC_2izw-a1-m40-cC 2izw-a1-m20-cC_2izw-a1-m60-cC 2izw-a1-m21-cC_2izw-a1-m27-cC 2izw-a1-m21-cC_2izw-a1-m54-cC 2izw-a1-m22-cC_2izw-a1-m26-cC 2izw-a1-m22-cC_2izw-a1-m44-cC 2izw-a1-m23-cC_2izw-a1-m3-cC 2izw-a1-m23-cC_2izw-a1-m43-cC 2izw-a1-m24-cC_2izw-a1-m6-cC 2izw-a1-m25-cC_2izw-a1-m55-cC 2izw-a1-m26-cC_2izw-a1-m44-cC 2izw-a1-m27-cC_2izw-a1-m54-cC 2izw-a1-m28-cC_2izw-a1-m53-cC 2izw-a1-m2-cC_2izw-a1-m24-cC 2izw-a1-m2-cC_2izw-a1-m6-cC 2izw-a1-m30-cC_2izw-a1-m45-cC 2izw-a1-m31-cC_2izw-a1-m37-cC 2izw-a1-m31-cC_2izw-a1-m49-cC 2izw-a1-m32-cC_2izw-a1-m36-cC 2izw-a1-m32-cC_2izw-a1-m59-cC 2izw-a1-m33-cC_2izw-a1-m58-cC 2izw-a1-m33-cC_2izw-a1-m8-cC 2izw-a1-m34-cC_2izw-a1-m7-cC 2izw-a1-m35-cC_2izw-a1-m50-cC 2izw-a1-m35-cC_2izw-a1-m5-cC 2izw-a1-m36-cC_2izw-a1-m59-cC 2izw-a1-m37-cC_2izw-a1-m49-cC 2izw-a1-m38-cC_2izw-a1-m48-cC 2izw-a1-m3-cC_2izw-a1-m43-cC 2izw-a1-m40-cC_2izw-a1-m60-cC 2izw-a1-m41-cC_2izw-a1-m47-cC 2izw-a1-m42-cC_2izw-a1-m46-cC 2izw-a1-m4-cC_2izw-a1-m42-cC 2izw-a1-m4-cC_2izw-a1-m46-cC 2izw-a1-m51-cC_2izw-a1-m57-cC 2izw-a1-m51-cC_2izw-a1-m9-cC 2izw-a1-m52-cC_2izw-a1-m56-cC 2izw-a1-m58-cC_2izw-a1-m8-cC 2izw-a1-m5-cC_2izw-a1-m50-cC GQQPTRQVTPVSAPAAMGTQITYRGPQVVTQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ GQQPTRQVTPVSAPAAMGTQITYRGPQVVTQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ 2izw-a1-m8-cB_2izw-a1-m9-cC Crystal structure of Ryegrass Mottle Virus Q9E962 Q9E962 2.9 X-RAY DIFFRACTION 61 1.0 119910 (Ryegrass mottle virus) 119910 (Ryegrass mottle virus) 179 208 2izw-a1-m10-cA_2izw-a1-m6-cA 2izw-a1-m10-cA_2izw-a1-m9-cA 2izw-a1-m10-cB_2izw-a1-m6-cC 2izw-a1-m11-cA_2izw-a1-m12-cA 2izw-a1-m11-cA_2izw-a1-m15-cA 2izw-a1-m11-cB_2izw-a1-m12-cC 2izw-a1-m12-cA_2izw-a1-m13-cA 2izw-a1-m12-cB_2izw-a1-m13-cC 2izw-a1-m13-cA_2izw-a1-m14-cA 2izw-a1-m13-cB_2izw-a1-m14-cC 2izw-a1-m14-cA_2izw-a1-m15-cA 2izw-a1-m14-cB_2izw-a1-m15-cC 2izw-a1-m15-cB_2izw-a1-m11-cC 2izw-a1-m16-cA_2izw-a1-m17-cA 2izw-a1-m16-cA_2izw-a1-m20-cA 2izw-a1-m16-cB_2izw-a1-m17-cC 2izw-a1-m17-cA_2izw-a1-m18-cA 2izw-a1-m17-cB_2izw-a1-m18-cC 2izw-a1-m18-cA_2izw-a1-m19-cA 2izw-a1-m18-cB_2izw-a1-m19-cC 2izw-a1-m19-cA_2izw-a1-m20-cA 2izw-a1-m19-cB_2izw-a1-m20-cC 2izw-a1-m1-cA_2izw-a1-m2-cA 2izw-a1-m1-cA_2izw-a1-m5-cA 2izw-a1-m1-cB_2izw-a1-m2-cC 2izw-a1-m20-cB_2izw-a1-m16-cC 2izw-a1-m21-cA_2izw-a1-m22-cA 2izw-a1-m21-cA_2izw-a1-m25-cA 2izw-a1-m21-cB_2izw-a1-m22-cC 2izw-a1-m22-cA_2izw-a1-m23-cA 2izw-a1-m22-cB_2izw-a1-m23-cC 2izw-a1-m23-cA_2izw-a1-m24-cA 2izw-a1-m23-cB_2izw-a1-m24-cC 2izw-a1-m24-cA_2izw-a1-m25-cA 2izw-a1-m24-cB_2izw-a1-m25-cC 2izw-a1-m25-cB_2izw-a1-m21-cC 2izw-a1-m26-cA_2izw-a1-m27-cA 2izw-a1-m26-cA_2izw-a1-m30-cA 2izw-a1-m26-cB_2izw-a1-m27-cC 2izw-a1-m27-cA_2izw-a1-m28-cA 2izw-a1-m27-cB_2izw-a1-m28-cC 2izw-a1-m28-cA_2izw-a1-m29-cA 2izw-a1-m28-cB_2izw-a1-m29-cC 2izw-a1-m29-cA_2izw-a1-m30-cA 2izw-a1-m29-cB_2izw-a1-m30-cC 2izw-a1-m2-cA_2izw-a1-m3-cA 2izw-a1-m2-cB_2izw-a1-m3-cC 2izw-a1-m30-cB_2izw-a1-m26-cC 2izw-a1-m31-cA_2izw-a1-m32-cA 2izw-a1-m31-cA_2izw-a1-m35-cA 2izw-a1-m31-cB_2izw-a1-m32-cC 2izw-a1-m32-cA_2izw-a1-m33-cA 2izw-a1-m32-cB_2izw-a1-m33-cC 2izw-a1-m33-cA_2izw-a1-m34-cA 2izw-a1-m33-cB_2izw-a1-m34-cC 2izw-a1-m34-cA_2izw-a1-m35-cA 2izw-a1-m34-cB_2izw-a1-m35-cC 2izw-a1-m35-cB_2izw-a1-m31-cC 2izw-a1-m36-cA_2izw-a1-m37-cA 2izw-a1-m36-cA_2izw-a1-m40-cA 2izw-a1-m36-cB_2izw-a1-m37-cC 2izw-a1-m37-cA_2izw-a1-m38-cA 2izw-a1-m37-cB_2izw-a1-m38-cC 2izw-a1-m38-cA_2izw-a1-m39-cA 2izw-a1-m38-cB_2izw-a1-m39-cC 2izw-a1-m39-cA_2izw-a1-m40-cA 2izw-a1-m39-cB_2izw-a1-m40-cC 2izw-a1-m3-cA_2izw-a1-m4-cA 2izw-a1-m3-cB_2izw-a1-m4-cC 2izw-a1-m40-cB_2izw-a1-m36-cC 2izw-a1-m41-cA_2izw-a1-m42-cA 2izw-a1-m41-cA_2izw-a1-m45-cA 2izw-a1-m41-cB_2izw-a1-m42-cC 2izw-a1-m42-cA_2izw-a1-m43-cA 2izw-a1-m42-cB_2izw-a1-m43-cC 2izw-a1-m43-cA_2izw-a1-m44-cA 2izw-a1-m43-cB_2izw-a1-m44-cC 2izw-a1-m44-cA_2izw-a1-m45-cA 2izw-a1-m44-cB_2izw-a1-m45-cC 2izw-a1-m45-cB_2izw-a1-m41-cC 2izw-a1-m46-cA_2izw-a1-m47-cA 2izw-a1-m46-cA_2izw-a1-m50-cA 2izw-a1-m46-cB_2izw-a1-m47-cC 2izw-a1-m47-cA_2izw-a1-m48-cA 2izw-a1-m47-cB_2izw-a1-m48-cC 2izw-a1-m48-cA_2izw-a1-m49-cA 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TQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ GQQPTRQVTPVSAPAAMGTQITYRGPQVVTQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ 2izw-a1-m9-cA_2izw-a1-m9-cB Crystal structure of Ryegrass Mottle Virus Q9E962 Q9E962 2.9 X-RAY DIFFRACTION 85 1.0 119910 (Ryegrass mottle virus) 119910 (Ryegrass mottle virus) 178 179 2izw-a1-m10-cA_2izw-a1-m10-cB 2izw-a1-m10-cA_2izw-a1-m10-cC 2izw-a1-m10-cB_2izw-a1-m10-cC 2izw-a1-m11-cA_2izw-a1-m11-cB 2izw-a1-m11-cA_2izw-a1-m11-cC 2izw-a1-m11-cB_2izw-a1-m11-cC 2izw-a1-m12-cA_2izw-a1-m12-cB 2izw-a1-m12-cA_2izw-a1-m12-cC 2izw-a1-m12-cB_2izw-a1-m12-cC 2izw-a1-m13-cA_2izw-a1-m13-cB 2izw-a1-m13-cA_2izw-a1-m13-cC 2izw-a1-m13-cB_2izw-a1-m13-cC 2izw-a1-m14-cA_2izw-a1-m14-cB 2izw-a1-m14-cA_2izw-a1-m14-cC 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QYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ TQYGDITPAKNSGSLVRVTSSATAGTEVSGTVLFNVRNATELPWLSGQGSRYSKYRVRYAHFTWEPIVGSNTNGEVAMAMLYDVADVTSITIERLMQTRGGTWGPIWSPTRKRLSYDPEHASLPWYLSGVSSGAAAGNIQTPFQIAWAAQSSLVSTTLGRIMAEYLVELTDPVDVTINQ 2j05-a1-m1-cB_2j05-a1-m1-cA Crystal structure of the RasGAP SH3 domain at 1.5 Angstrom resolution P20936 P20936 1.5 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 61 2j06-a1-m1-cB_2j06-a1-m1-cA RRRVRAILPYTKVPDTDEISFLKGDFIVHNELEDGWWVTNLRTDEQGLIVEDLVEEV SHRRRVRAILPYTKVPDTDEISFLKGDFIVHNELEDGWWVTNLRTDEQGLIVEDLVEEVGR 2j07-a2-m1-cA_2j07-a2-m2-cA Thermus DNA photolyase with 8-HDF antenna chromophore P61497 P61497 1.95 X-RAY DIFFRACTION 66 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 419 419 2j08-a2-m1-cA_2j08-a2-m2-cA 2j09-a2-m1-cA_2j09-a2-m2-cA GPLLVWHRGDLRLHDHPALLEALARGPVVGLVVLDPNNLKTTPRRRAWFLENVRALREAYRARGGALWVLEGLPWEKVPEAARRLKAKAVYALTSHTPYGRYRDGRVREALPVPLHLLPAPHLLPPDLPRAYRVYTPFSRLYRGAAPPLPPPEALPKGPEEGEIPREDPGLPLPEPGEEAALAGLRAFLEAKLPRYAEERDRLDGEGGSRLSPYFALGVLSPRLAAWEAERRGGEGARKWVAELLWRDFSYHLLYHFPWMAERPLDPRFQAFPWQEDEALFQAWYEGKTGVPLVDAAMRELHATGFLSNRARMNAAQFAVKHLLLPWKRCEEAFRHLLLDGDRAVNLQGWQWAGGLGVDAAPYFRVFNPVLQGERHDPEGRWLKRWAPEYPSYAPKDPVVDLEEARRRYLRLARDLARG GPLLVWHRGDLRLHDHPALLEALARGPVVGLVVLDPNNLKTTPRRRAWFLENVRALREAYRARGGALWVLEGLPWEKVPEAARRLKAKAVYALTSHTPYGRYRDGRVREALPVPLHLLPAPHLLPPDLPRAYRVYTPFSRLYRGAAPPLPPPEALPKGPEEGEIPREDPGLPLPEPGEEAALAGLRAFLEAKLPRYAEERDRLDGEGGSRLSPYFALGVLSPRLAAWEAERRGGEGARKWVAELLWRDFSYHLLYHFPWMAERPLDPRFQAFPWQEDEALFQAWYEGKTGVPLVDAAMRELHATGFLSNRARMNAAQFAVKHLLLPWKRCEEAFRHLLLDGDRAVNLQGWQWAGGLGVDAAPYFRVFNPVLQGERHDPEGRWLKRWAPEYPSYAPKDPVVDLEEARRRYLRLARDLARG 2j0f-a2-m1-cB_2j0f-a2-m1-cD Structural basis for non-competitive product inhibition in human thymidine phosphorylase: implication for drug design P19971 P19971 2.31 X-RAY DIFFRACTION 115 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 446 446 1uou-a1-m1-cA_1uou-a1-m2-cA 2j0f-a1-m1-cA_2j0f-a1-m1-cC 2wk6-a1-m1-cA_2wk6-a1-m1-cB KQLPELIRMKRDGGRLSEADIRGFVAAVVNGSAQGAQIGAMLMAIRLRGMDLEETSVLTQALAQSGQQLEWPEAWRQQLVDKHSTGGVGDKVSLVLAPALAACGCKVPMISGRGLGHTGGTLDKLESIPGFNVIQSPEQMQVLLDQAGCCIVGQSEQLVPADGILYAARDVTATVDSLPLITASILSKKLVEGLSALVVDVKFGAGAVFPNQEQARELAKTLVGVGASLGLRVAAALTAMDKPLGRCVGHALEVEEALLCMDGAGPPDLRDLVTTLGGALLWLSGHAGTQAQGAARVAAALDDGSALGRFERMLAAQGVDPGLARALCSGSPAERRQLLPRAREQEELLAPADGTVELVRALPLALVLHELGAGRSRAGEPLRLGVGAELLVDVGQRLRRGTPWLRVHRDGPALSGPQSRALQEALVLSDRAPFAAPLPFAELVLP KQLPELIRMKRDGGRLSEADIRGFVAAVVNGSAQGAQIGAMLMAIRLRGMDLEETSVLTQALAQSGQQLEWPEAWRQQLVDKHSTGGVGDKVSLVLAPALAACGCKVPMISGRGLGHTGGTLDKLESIPGFNVIQSPEQMQVLLDQAGCCIVGQSEQLVPADGILYAARDVTATVDSLPLITASILSKKLVEGLSALVVDVKFGAGAVFPNQEQARELAKTLVGVGASLGLRVAAALTAMDKPLGRCVGHALEVEEALLCMDGAGPPDLRDLVTTLGGALLWLSGHAGTQAQGAARVAAALDDGSALGRFERMLAAQGVDPGLARALCSGSPAERRQLLPRAREQEELLAPADGTVELVRALPLALVLHELGAGRSRAGEPLRLGVGAELLVDVGQRLRRGTPWLRVHRDGPALSGPQSRALQEALVLSDRAPFAAPLPFAELVLP 2j0n-a1-m1-cA_2j0n-a1-m1-cB A proteolytically truncated form of Shigella Flexneri IpaD P18013 P18013 2.1 X-RAY DIFFRACTION 117 1.0 198214 (Shigella flexneri 2a str. 301) 198214 (Shigella flexneri 2a str. 301) 171 187 DINEQYLKVYEHAVSSYTQMYQDFSAVLSSLAGWISPGGNDGNSVKLQVNSLKKALEELKEKYKDKPLYPANNTVSQEQANKWLTELGGTIGKVSQKNGGYVVSINMTPIDNMLKSLDNLGGNGEVVLDNAKYQAWNAGFSAEDETMKNNLQTLVQKYSNANSIFDNLVKV ELWAKIANSINDINEQYLKVYEHAVSSYTQMYQDFSAVLSSLAGWISPGGNDGNSVKLQVNSLKKALEELKEKYKDKPLYPANNTVSQEQANKWLTELGGTIGKVSQKNGGYVVSINMTPIDNMLKSLDNLGGNGEVVLDNAKYQAWNAGFSAEDETMKNNLQTLVQKYSNANSIFDNLVKVLSSTI 2j0w-a1-m1-cA_2j0w-a1-m2-cA Crystal structure of E. coli aspartokinase III in complex with aspartate and ADP (R-state) P08660 P08660 2.5 X-RAY DIFFRACTION 199 1.0 562 (Escherichia coli) 562 (Escherichia coli) 447 447 EIVVSKFGGTSVADFDAMNRSADIVLSDANVRLVVLSASAGITNLLVALAEGLEPGERFEKLDAIRNIQFAILERLRYPNVIREEIERLLENITVLAEAAALATSPALTDELVSHGELMSTLLFVEILRERDVQAQWFDVRKVMRTNDRFGRAEPDIAALAELAALQLLPRLNEGLVITQGFIGSENKGRTTTLGRGGSDYTAALLAEALHASRVDIWTDVPGIYTTDPRVVSAAKRIDEIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRALALRRNQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTLDTTGSTSTGDTLLTQSLLMELSALCRVEVEEGLALVALIGNDLSKACGVGKEVFGVLEPFNIRMICYGASSHNLCFLVPGEDAEQVVQKLHSNLFE EIVVSKFGGTSVADFDAMNRSADIVLSDANVRLVVLSASAGITNLLVALAEGLEPGERFEKLDAIRNIQFAILERLRYPNVIREEIERLLENITVLAEAAALATSPALTDELVSHGELMSTLLFVEILRERDVQAQWFDVRKVMRTNDRFGRAEPDIAALAELAALQLLPRLNEGLVITQGFIGSENKGRTTTLGRGGSDYTAALLAEALHASRVDIWTDVPGIYTTDPRVVSAAKRIDEIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRALALRRNQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTLDTTGSTSTGDTLLTQSLLMELSALCRVEVEEGLALVALIGNDLSKACGVGKEVFGVLEPFNIRMICYGASSHNLCFLVPGEDAEQVVQKLHSNLFE 2j0x-a1-m1-cB_2j0x-a1-m1-cA CRYSTAL STRUCTURE OF E. COLI ASPARTOKINASE III IN COMPLEX WITH LYSINE AND ASPARTATE (T-STATE) P08660 P08660 2.8 X-RAY DIFFRACTION 227 0.998 562 (Escherichia coli) 562 (Escherichia coli) 445 447 SEIVVSKFGGTSVADFDAMNRSADIVLSDANVRLVVLSASAGITNLLVALAEGLEPGERFEKLDAIRNIQFAILERLRYPNVIREEIERLLENITVLAEAAALATSPALTDELVSHGELMSTLLFVEILRERDVQAQWFDVRKVMRTNDRFGRAEPDIAALAELAALQLLPRLNEGLVITQGFIGSENKGRTTTLGRGGSDYTAALLAEALHASRVDIWTDVPGIYTTDPRVVSAAKRIDEIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRALALRRNQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTLDTTGSTDTLLTQSLLMELSALCRVEVEEGLALVALIGNDLSKACGVGKEVFGVLEPFNIRMICYGASSHNLCFLVPGEDAEQVVQKLHSNLFE EIVVSKFGGTSVADFDAMNRSADIVLSDANVRLVVLSASAGITNLLVALAEGLEPGERFEKLDAIRNIQFAILERLRYPNVIREEIERLLENITVLAEAAALATSPALTDELVSHGELMSTLLFVEILRERDVQAQWFDVRKVMRTNDRFGRAEPDIAALAELAALQLLPRLNEGLVITQGFIGSENKGRTTTLGRGGSDYTAALLAEALHASRVDIWTDVPGIYTTDPRVVSAAKRIDEIAFAEAAEMATFGAKVLHPATLLPAVRSDIPVFVGSSKDPRAGGTLVCNKTENPPLFRALALRRNQTLLTLHSLNMLHSRGFLAEVFGILARHNISVDLITTSEVSVALTLDTTGSTSTGDTLLTQSLLMELSALCRVEVEEGLALVALIGNDLSKACGVGKEVFGVLEPFNIRMICYGASSHNLCFLVPGEDAEQVVQKLHSNLFE 2j10-a1-m1-cB_2j10-a1-m1-cC p53 tetramerization domain mutant T329F Q331K P04637 P04637 NOT SOLUTION NMR 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 2j0z-a1-m1-cA_2j0z-a1-m1-cD 2j0z-a1-m1-cB_2j0z-a1-m1-cC 2j10-a1-m1-cA_2j10-a1-m1-cD 2j11-a1-m1-cA_2j11-a1-m1-cD 2j11-a1-m1-cB_2j11-a1-m1-cC EYFFLKIRGRERFEMFRELNEALELKDAQAG EYFFLKIRGRERFEMFRELNEALELKDAQAG 2j1n-a1-m1-cB_2j1n-a1-m1-cC osmoporin OmpC P06996 P06996 2 X-RAY DIFFRACTION 145 1.0 562 (Escherichia coli) 562 (Escherichia coli) 346 346 2j1n-a1-m1-cA_2j1n-a1-m1-cB 2j1n-a1-m1-cA_2j1n-a1-m1-cC 2j4u-a1-m1-cP_2j4u-a1-m1-cQ 2j4u-a1-m1-cP_2j4u-a1-m1-cR 2j4u-a1-m1-cQ_2j4u-a1-m1-cR 2j4u-a2-m1-cU_2j4u-a2-m1-cV 2j4u-a2-m1-cU_2j4u-a2-m1-cW 2j4u-a2-m1-cV_2j4u-a2-m1-cW 2xe1-a1-m1-cA_2xe1-a1-m2-cA 2xe1-a1-m1-cA_2xe1-a1-m3-cA 2xe1-a1-m2-cA_2xe1-a1-m3-cA 7jz3-a1-m1-cA_7jz3-a1-m1-cB 7jz3-a1-m1-cA_7jz3-a1-m1-cC 7jz3-a1-m1-cB_7jz3-a1-m1-cC AEVYNKDGNKLDLYGKVDGLHYFSDNKDVDGDQTYMRLGFKGETQVTDQLTGYGQWEYQIQGNSAENENNSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNTDFFGLVDGLNFAVQYQGKNGNPSGEGFTSGVTNNGRDALRQNGDGVGGSITYDYEGFGIGGAISSSKRTDAQNTAAYIGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNQFTRDAGINTDNIVALGLVYQF AEVYNKDGNKLDLYGKVDGLHYFSDNKDVDGDQTYMRLGFKGETQVTDQLTGYGQWEYQIQGNSAENENNSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNTDFFGLVDGLNFAVQYQGKNGNPSGEGFTSGVTNNGRDALRQNGDGVGGSITYDYEGFGIGGAISSSKRTDAQNTAAYIGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNQFTRDAGINTDNIVALGLVYQF 2j1o-a1-m1-cA_2j1o-a1-m2-cA Geranylgeranyl diphosphate synthase from Sinapis alba Q43133 Q43133 2 X-RAY DIFFRACTION 119 1.0 3728 (Sinapis alba) 3728 (Sinapis alba) 255 255 PISYIIRKADSVNKALDSAVPLREPLKIHEAMRYSLLAGGKRVRPVLCIAACELVGGEESLAMPAACAVEMIHTMSLIHDDVYGEDVAVLAGDALLSFAFEHLASATSSEVSPARVVRAVGELAKAIGTEGLVAGQVVDISNVGLEHLKFIHLHKTAALLEASAVLGGIIGGGSDEEIERLRKFARCIGLLFQVVDDILDVTIADKLTYPKLMGLEKSREFAEKLNTEARDQLLGFDSDKVAPLLALANYIANRQ PISYIIRKADSVNKALDSAVPLREPLKIHEAMRYSLLAGGKRVRPVLCIAACELVGGEESLAMPAACAVEMIHTMSLIHDDVYGEDVAVLAGDALLSFAFEHLASATSSEVSPARVVRAVGELAKAIGTEGLVAGQVVDISNVGLEHLKFIHLHKTAALLEASAVLGGIIGGGSDEEIERLRKFARCIGLLFQVVDDILDVTIADKLTYPKLMGLEKSREFAEKLNTEARDQLLGFDSDKVAPLLALANYIANRQ 2j1p-a1-m1-cA_2j1p-a1-m1-cB Geranylgeranyl diphosphate synthase from Sinapis alba in complex with GGPP Q43133 Q43133 1.8 X-RAY DIFFRACTION 137 0.981 3728 (Sinapis alba) 3728 (Sinapis alba) 270 271 PISYIIRKADSVNKALDSAVPLREPLKIHEARYSLLAGGKRVRPVLCIAACELVGGEESLAPAACAVEIHTSLIHDDLPCDNDDLRRGKPTNHKVYGEDVAVLAGDALLSFAFEHLASATSSEVSPARVVRAVGELAKAIGTEGLVAGQVVDISLDLNNVGLEHLKFIHLHKTAALLEASAVLGGIIGGGSDEEIERLRKFARCIGLLFQVVDDILDVTKKLTYPKLGLEKSREFAEKLNTEARDQLLGFDSDKVAPLLALANYIANRQN DPISYIIRKADSVNKALDSAVPLREPLKIHEARYSLLAGGKRVRPVLCIAACELVGGEESLAPAACAVEIHTSLIHDDLPCDNDDLRRGKPTNHKVYGEDVAVLAGDALLSFAFEHLASATSSEVSPARVVRAVGELAKAIGTEGLVAGQVVDISSEGLDLNNVGLEHLKFIHLHKTAALLEASAVLGGIIGGGSDEEIERLRKFARCIGLLFQVVDDILDVTKSSKLTYPKLGLEKSREFAEKLNTEARDQLLGFDSDKVAPLLALANYI 2j2f-a3-m1-cD_2j2f-a3-m1-cE The T199D Mutant of Stearoyl Acyl Carrier Protein Desaturase from Ricinus Communis (Castor Bean) P22337 P22337 2.65 X-RAY DIFFRACTION 200 1.0 3988 (Ricinus communis) 3988 (Ricinus communis) 347 347 1afr-a1-m1-cA_1afr-a1-m1-cF 1afr-a2-m1-cB_1afr-a2-m1-cC 1afr-a3-m1-cD_1afr-a3-m1-cE 1oq4-a1-m1-cA_1oq4-a1-m1-cB 1oq4-a2-m1-cC_1oq4-a2-m1-cD 1oq4-a3-m1-cE_1oq4-a3-m1-cF 1oq7-a1-m1-cA_1oq7-a1-m1-cB 1oq7-a2-m1-cC_1oq7-a2-m1-cD 1oq7-a3-m1-cE_1oq7-a3-m1-cF 1oq9-a1-m1-cA_1oq9-a1-m2-cA 1oqb-a1-m1-cA_1oqb-a1-m1-cB 1oqb-a2-m1-cC_1oqb-a2-m1-cD 1oqb-a3-m1-cE_1oqb-a3-m1-cF 2j2f-a1-m1-cF_2j2f-a1-m1-cA 2j2f-a2-m1-cC_2j2f-a2-m1-cB 2xz0-a1-m1-cC_2xz0-a1-m2-cC 2xz0-a2-m1-cA_2xz0-a2-m1-cB 2xz1-a1-m1-cB_2xz1-a1-m1-cA 4v0j-a1-m1-cD_4v0j-a1-m1-cC 4v0j-a2-m1-cF_4v0j-a2-m1-cE 4v0j-a3-m1-cA_4v0j-a3-m1-cB PFMPPREVHVQVTHSMPPQKIEIFKSLDNWAEENILVHLKPVEKCWQPQDFLPDPASDGFDEQVRELRERAKEIPDDYFVVLVGDMITEEALPTYQTMLNTLDGVRDETGASPTSWAIWTRAWTAEENRHGDLLNKYLYLSGRVDMRQIEKTIQYLIGSGMDPRTENSPYLGFIYTSFQERADFISHGNTARQAKEHGDIKLAQICGTIAADEKRHETAYTKIVEKLFEIDPDGTVLAFADMMRKKISMPAHLMYDGRDDNLFDHFSAVAQRLGVYTAKDYADILEFLVGRWKVDKLTGLSAEGQKAQDYVCRLPPRIRRLEERAQGRAKEAPTMPFSWIFDRQVKL PFMPPREVHVQVTHSMPPQKIEIFKSLDNWAEENILVHLKPVEKCWQPQDFLPDPASDGFDEQVRELRERAKEIPDDYFVVLVGDMITEEALPTYQTMLNTLDGVRDETGASPTSWAIWTRAWTAEENRHGDLLNKYLYLSGRVDMRQIEKTIQYLIGSGMDPRTENSPYLGFIYTSFQERADFISHGNTARQAKEHGDIKLAQICGTIAADEKRHETAYTKIVEKLFEIDPDGTVLAFADMMRKKISMPAHLMYDGRDDNLFDHFSAVAQRLGVYTAKDYADILEFLVGRWKVDKLTGLSAEGQKAQDYVCRLPPRIRRLEERAQGRAKEAPTMPFSWIFDRQVKL 2j2j-a2-m1-cE_2j2j-a2-m1-cF Canine adenovirus fibre head at 1.5 A resolution Q65914 Q65914 1.5 X-RAY DIFFRACTION 80 1.0 10514 (Canine adenovirus 2) 10514 (Canine adenovirus 2) 182 182 2j1k-a1-m1-cC_2j1k-a1-m1-cH 2j1k-a1-m1-cC_2j1k-a1-m1-cI 2j1k-a1-m1-cH_2j1k-a1-m1-cI 2j1k-a2-m1-cD_2j1k-a2-m1-cE 2j1k-a2-m1-cD_2j1k-a2-m1-cF 2j1k-a2-m1-cE_2j1k-a2-m1-cF 2j1k-a3-m1-cL_2j1k-a3-m1-cM 2j1k-a3-m1-cL_2j1k-a3-m1-cN 2j1k-a3-m1-cM_2j1k-a3-m1-cN 2j1k-a4-m1-cQ_2j1k-a4-m1-cR 2j1k-a4-m1-cQ_2j1k-a4-m1-cS 2j1k-a4-m1-cR_2j1k-a4-m1-cS 2j2j-a1-m1-cA_2j2j-a1-m1-cB 2j2j-a1-m1-cA_2j2j-a1-m1-cD 2j2j-a1-m1-cB_2j2j-a1-m1-cD 2j2j-a2-m1-cC_2j2j-a2-m1-cE 2j2j-a2-m1-cC_2j2j-a2-m1-cF 2w9l-a1-m1-cQ_2w9l-a1-m1-cR 2w9l-a1-m1-cQ_2w9l-a1-m1-cS 2w9l-a1-m1-cR_2w9l-a1-m1-cS 2w9l-a2-m1-cD_2w9l-a2-m1-cE 2w9l-a2-m1-cD_2w9l-a2-m1-cF 2w9l-a2-m1-cE_2w9l-a2-m1-cF 2w9l-a3-m1-cC_2w9l-a3-m1-cH 2w9l-a3-m1-cC_2w9l-a3-m1-cI 2w9l-a3-m1-cH_2w9l-a3-m1-cI 2w9l-a4-m1-cL_2w9l-a4-m1-cM 2w9l-a4-m1-cL_2w9l-a4-m1-cN 2w9l-a4-m1-cM_2w9l-a4-m1-cN 2wbv-a1-m1-cA_2wbv-a1-m1-cB 2wbv-a1-m1-cA_2wbv-a1-m1-cD 2wbv-a1-m1-cD_2wbv-a1-m1-cB 2wbv-a2-m1-cC_2wbv-a2-m1-cF 2wbv-a2-m1-cE_2wbv-a2-m1-cC 2wbv-a2-m1-cE_2wbv-a2-m1-cF APITLWTGPGPSINGFINDTPVIRCFICLTRDSNLVTVNASFVGEGGYRIVSPTQSQFSLIMEFDQFGQLMSTGNINSTTTWGEKPWGNNTVQPRPSHTWKLCMPNREVYSTPAATISRCGLDSIAVDGAPSRSIDCMLIINKPKGVATYTLTFRFLNFNRLSGGTLFKTDVLTFTYVGENQ APITLWTGPGPSINGFINDTPVIRCFICLTRDSNLVTVNASFVGEGGYRIVSPTQSQFSLIMEFDQFGQLMSTGNINSTTTWGEKPWGNNTVQPRPSHTWKLCMPNREVYSTPAATISRCGLDSIAVDGAPSRSIDCMLIINKPKGVATYTLTFRFLNFNRLSGGTLFKTDVLTFTYVGENQ 2j2m-a1-m1-cA_2j2m-a1-m1-cD Crystal Structure Analysis of Catalase from Exiguobacterium oxidotolerans A2A136 A2A136 2.4 X-RAY DIFFRACTION 136 1.0 223958 (Exiguobacterium oxidotolerans) 223958 (Exiguobacterium oxidotolerans) 480 480 2j2m-a1-m1-cB_2j2m-a1-m1-cC KKLTTNQGVPIGDNQNSRTAGRRGPTLLEDYQLIEKIAHFDRERVPERVVHARGFGAHGVFKVKNSMKKYTKAAFLQEEGTEVPVFARFSTVIHGTHSPETLRDPRGFSVKFYTEEGNWDFVGNNLPVFFIRDAMKFPDMVHSLKPDPRTNIQDPDRYWDFMTLRPESTNMLMHIFTDEGIPASYRKMRGSSVHSFKWVNAHGNTVYIKLRWVPKEGVHNLSADEATEVQGKDFNHASNDTFQAIENGDFPEWDLFVQVLDPADVENFDFDPLDATKDWFEDVIPFQHVGTMTLNKNVDNYFAETESVGFNPGVLVPGMLPSEDKLLQGRLFSYSDTQRHRIGPNYQQLPINCPFAQVNNYQRDGAMPFKQQTSSVNYEPNRYQDEPKQTPEYTEDTQPLHDDIHGRLEIEKTNNFGQAGEVYRRMTEEEQMALLNNLVNDLQQVRHENTVLLAICNFYRADASLGEKLSEALNVDIKPF KKLTTNQGVPIGDNQNSRTAGRRGPTLLEDYQLIEKIAHFDRERVPERVVHARGFGAHGVFKVKNSMKKYTKAAFLQEEGTEVPVFARFSTVIHGTHSPETLRDPRGFSVKFYTEEGNWDFVGNNLPVFFIRDAMKFPDMVHSLKPDPRTNIQDPDRYWDFMTLRPESTNMLMHIFTDEGIPASYRKMRGSSVHSFKWVNAHGNTVYIKLRWVPKEGVHNLSADEATEVQGKDFNHASNDTFQAIENGDFPEWDLFVQVLDPADVENFDFDPLDATKDWFEDVIPFQHVGTMTLNKNVDNYFAETESVGFNPGVLVPGMLPSEDKLLQGRLFSYSDTQRHRIGPNYQQLPINCPFAQVNNYQRDGAMPFKQQTSSVNYEPNRYQDEPKQTPEYTEDTQPLHDDIHGRLEIEKTNNFGQAGEVYRRMTEEEQMALLNNLVNDLQQVRHENTVLLAICNFYRADASLGEKLSEALNVDIKPF 2j2m-a1-m1-cB_2j2m-a1-m1-cD Crystal Structure Analysis of Catalase from Exiguobacterium oxidotolerans A2A136 A2A136 2.4 X-RAY DIFFRACTION 291 1.0 223958 (Exiguobacterium oxidotolerans) 223958 (Exiguobacterium oxidotolerans) 480 480 2j2m-a1-m1-cA_2j2m-a1-m1-cC KKLTTNQGVPIGDNQNSRTAGRRGPTLLEDYQLIEKIAHFDRERVPERVVHARGFGAHGVFKVKNSMKKYTKAAFLQEEGTEVPVFARFSTVIHGTHSPETLRDPRGFSVKFYTEEGNWDFVGNNLPVFFIRDAMKFPDMVHSLKPDPRTNIQDPDRYWDFMTLRPESTNMLMHIFTDEGIPASYRKMRGSSVHSFKWVNAHGNTVYIKLRWVPKEGVHNLSADEATEVQGKDFNHASNDTFQAIENGDFPEWDLFVQVLDPADVENFDFDPLDATKDWFEDVIPFQHVGTMTLNKNVDNYFAETESVGFNPGVLVPGMLPSEDKLLQGRLFSYSDTQRHRIGPNYQQLPINCPFAQVNNYQRDGAMPFKQQTSSVNYEPNRYQDEPKQTPEYTEDTQPLHDDIHGRLEIEKTNNFGQAGEVYRRMTEEEQMALLNNLVNDLQQVRHENTVLLAICNFYRADASLGEKLSEALNVDIKPF KKLTTNQGVPIGDNQNSRTAGRRGPTLLEDYQLIEKIAHFDRERVPERVVHARGFGAHGVFKVKNSMKKYTKAAFLQEEGTEVPVFARFSTVIHGTHSPETLRDPRGFSVKFYTEEGNWDFVGNNLPVFFIRDAMKFPDMVHSLKPDPRTNIQDPDRYWDFMTLRPESTNMLMHIFTDEGIPASYRKMRGSSVHSFKWVNAHGNTVYIKLRWVPKEGVHNLSADEATEVQGKDFNHASNDTFQAIENGDFPEWDLFVQVLDPADVENFDFDPLDATKDWFEDVIPFQHVGTMTLNKNVDNYFAETESVGFNPGVLVPGMLPSEDKLLQGRLFSYSDTQRHRIGPNYQQLPINCPFAQVNNYQRDGAMPFKQQTSSVNYEPNRYQDEPKQTPEYTEDTQPLHDDIHGRLEIEKTNNFGQAGEVYRRMTEEEQMALLNNLVNDLQQVRHENTVLLAICNFYRADASLGEKLSEALNVDIKPF 2j2m-a1-m1-cC_2j2m-a1-m1-cD Crystal Structure Analysis of Catalase from Exiguobacterium oxidotolerans A2A136 A2A136 2.4 X-RAY DIFFRACTION 285 1.0 223958 (Exiguobacterium oxidotolerans) 223958 (Exiguobacterium oxidotolerans) 480 480 2j2m-a1-m1-cA_2j2m-a1-m1-cB KKLTTNQGVPIGDNQNSRTAGRRGPTLLEDYQLIEKIAHFDRERVPERVVHARGFGAHGVFKVKNSMKKYTKAAFLQEEGTEVPVFARFSTVIHGTHSPETLRDPRGFSVKFYTEEGNWDFVGNNLPVFFIRDAMKFPDMVHSLKPDPRTNIQDPDRYWDFMTLRPESTNMLMHIFTDEGIPASYRKMRGSSVHSFKWVNAHGNTVYIKLRWVPKEGVHNLSADEATEVQGKDFNHASNDTFQAIENGDFPEWDLFVQVLDPADVENFDFDPLDATKDWFEDVIPFQHVGTMTLNKNVDNYFAETESVGFNPGVLVPGMLPSEDKLLQGRLFSYSDTQRHRIGPNYQQLPINCPFAQVNNYQRDGAMPFKQQTSSVNYEPNRYQDEPKQTPEYTEDTQPLHDDIHGRLEIEKTNNFGQAGEVYRRMTEEEQMALLNNLVNDLQQVRHENTVLLAICNFYRADASLGEKLSEALNVDIKPF KKLTTNQGVPIGDNQNSRTAGRRGPTLLEDYQLIEKIAHFDRERVPERVVHARGFGAHGVFKVKNSMKKYTKAAFLQEEGTEVPVFARFSTVIHGTHSPETLRDPRGFSVKFYTEEGNWDFVGNNLPVFFIRDAMKFPDMVHSLKPDPRTNIQDPDRYWDFMTLRPESTNMLMHIFTDEGIPASYRKMRGSSVHSFKWVNAHGNTVYIKLRWVPKEGVHNLSADEATEVQGKDFNHASNDTFQAIENGDFPEWDLFVQVLDPADVENFDFDPLDATKDWFEDVIPFQHVGTMTLNKNVDNYFAETESVGFNPGVLVPGMLPSEDKLLQGRLFSYSDTQRHRIGPNYQQLPINCPFAQVNNYQRDGAMPFKQQTSSVNYEPNRYQDEPKQTPEYTEDTQPLHDDIHGRLEIEKTNNFGQAGEVYRRMTEEEQMALLNNLVNDLQQVRHENTVLLAICNFYRADASLGEKLSEALNVDIKPF 2j2z-a1-m1-cB_2j2z-a1-m2-cB X-Ray Structure of the Chaperone PapD in complex with the Pilus terminator subunit PapH at 2.3 Angstrom resolution P07111 P07111 2.3 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 150 RAAFHGEVVRPACTLAMEDAWQIIDMGETPVRDLQNGFSGPERKFSLRLRNCEFNSQGGNLFSDSRIRVTFDGVRGETPDKFNLSGQAKGINLQIADVRGNIARAGKVMPAIPLTGNEEALDYTLRIVRNGKKLEAGNYFAVLGFRVDYE RAAFHGEVVRPACTLAMEDAWQIIDMGETPVRDLQNGFSGPERKFSLRLRNCEFNSQGGNLFSDSRIRVTFDGVRGETPDKFNLSGQAKGINLQIADVRGNIARAGKVMPAIPLTGNEEALDYTLRIVRNGKKLEAGNYFAVLGFRVDYE 2j3f-a1-m1-cC_2j3f-a1-m1-cB L-ficolin complexed to N-acetyl-D-galactosamine Q15485 Q15485 2.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 217 2j0g-a1-m1-cA_2j0g-a1-m1-cB 2j0g-a1-m1-cA_2j0g-a1-m1-cC 2j0g-a1-m1-cC_2j0g-a1-m1-cB 2j0g-a2-m1-cD_2j0g-a2-m1-cE 2j0g-a2-m1-cF_2j0g-a2-m1-cD 2j0g-a2-m1-cF_2j0g-a2-m1-cE 2j0h-a1-m1-cA_2j0h-a1-m1-cB 2j0h-a1-m1-cA_2j0h-a1-m1-cC 2j0h-a1-m1-cC_2j0h-a1-m1-cB 2j0h-a2-m1-cD_2j0h-a2-m1-cE 2j0h-a2-m1-cF_2j0h-a2-m1-cD 2j0h-a2-m1-cF_2j0h-a2-m1-cE 2j0y-a1-m1-cA_2j0y-a1-m1-cB 2j0y-a1-m1-cA_2j0y-a1-m1-cC 2j0y-a1-m1-cC_2j0y-a1-m1-cB 2j0y-a2-m1-cD_2j0y-a2-m1-cE 2j0y-a2-m1-cD_2j0y-a2-m1-cF 2j0y-a2-m1-cF_2j0y-a2-m1-cE 2j1g-a1-m1-cA_2j1g-a1-m1-cB 2j1g-a1-m1-cA_2j1g-a1-m1-cC 2j1g-a1-m1-cC_2j1g-a1-m1-cB 2j1g-a2-m1-cD_2j1g-a2-m1-cE 2j1g-a2-m1-cD_2j1g-a2-m1-cF 2j1g-a2-m1-cF_2j1g-a2-m1-cE 2j2p-a1-m1-cA_2j2p-a1-m1-cB 2j2p-a1-m1-cC_2j2p-a1-m1-cA 2j2p-a1-m1-cC_2j2p-a1-m1-cB 2j2p-a2-m1-cD_2j2p-a2-m1-cE 2j2p-a2-m1-cF_2j2p-a2-m1-cD 2j2p-a2-m1-cF_2j2p-a2-m1-cE 2j3f-a1-m1-cB_2j3f-a1-m1-cA 2j3f-a1-m1-cC_2j3f-a1-m1-cA 2j3f-a2-m1-cD_2j3f-a2-m1-cE 2j3f-a2-m1-cD_2j3f-a2-m1-cF 2j3f-a2-m1-cE_2j3f-a2-m1-cF 2j3g-a1-m1-cA_2j3g-a1-m1-cB 2j3g-a1-m1-cA_2j3g-a1-m1-cC 2j3g-a1-m1-cC_2j3g-a1-m1-cB 2j3g-a2-m1-cD_2j3g-a2-m1-cE 2j3g-a2-m1-cF_2j3g-a2-m1-cD 2j3g-a2-m1-cF_2j3g-a2-m1-cE 2j3o-a1-m1-cA_2j3o-a1-m1-cB 2j3o-a1-m1-cA_2j3o-a1-m1-cC 2j3o-a1-m1-cC_2j3o-a1-m1-cB 2j3o-a2-m1-cD_2j3o-a2-m1-cE 2j3o-a2-m1-cD_2j3o-a2-m1-cF 2j3o-a2-m1-cE_2j3o-a2-m1-cF 2j3u-a1-m1-cA_2j3u-a1-m1-cB 2j3u-a1-m1-cC_2j3u-a1-m1-cA 2j3u-a1-m1-cC_2j3u-a1-m1-cB 2j3u-a2-m1-cD_2j3u-a2-m1-cE 2j3u-a2-m1-cD_2j3u-a2-m1-cF 2j3u-a2-m1-cF_2j3u-a2-m1-cE 4nyt-a1-m1-cA_4nyt-a1-m1-cB 4nyt-a1-m1-cA_4nyt-a1-m1-cC 4nyt-a1-m1-cB_4nyt-a1-m1-cC 4r9j-a1-m1-cA_4r9j-a1-m1-cB 4r9j-a1-m1-cA_4r9j-a1-m1-cG 4r9j-a1-m1-cB_4r9j-a1-m1-cG 4r9t-a1-m1-cA_4r9t-a1-m1-cB 4r9t-a1-m1-cC_4r9t-a1-m1-cA 4r9t-a1-m1-cC_4r9t-a1-m1-cB TGPRTCKDLLDRGHFLSGWHTIYLPDCRPLTVLCDMDTDGGGWTVFQRRVDGSVDFYRDWATYKQGFGSRLGEFWLGNDNIHALTAQGTSELRTDLVDFEDNYQFAKYRSFKVADEAEKYNLVLGAFVEGSAGDSLTFHNNQSFSTKDQDNDLNTGNCAVMFQGAWWYKNCHTSNLNGRYLRGTHGSFANGINWKSGKGYNYSYKVSEMKVRPA PCLTGPRTCKDLLDRGHFLSGWHTIYLPDCRPLTVLCDMDTDGGGWTVFQRRVDGSVDFYRDWATYKQGFGSRLGEFWLGNDNIHALTAQGTSELRTDLVDFEDNYQFAKYRSFKVADEAEKYNLVLGAFVEGSAGDSLTFHNNQSFSTKDQDNDLNTGNCAVMFQGAWWYKNCHTSNLNGRYLRGTHGSFANGINWKSGKGYNYSYKVSEMKVRPA 2j3h-a1-m1-cA_2j3h-a1-m1-cB Crystal structure of Arabidopsis thaliana Double Bond Reductase (AT5G16970)-Apo form Q39172 Q39172 2.5 X-RAY DIFFRACTION 98 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 336 345 2j3i-a1-m1-cA_2j3i-a1-m1-cB 2j3j-a1-m1-cA_2j3j-a1-m1-cB 2j3k-a1-m1-cA_2j3k-a1-m1-cB MTATNKQVILKDYVSGFPTESDFDFTTTTVELRVPEGTNSVLVKNLYLSCDPYMRIRMGKQAYTPGQPIQGYGVSRIIESGHPDYKKGDLLWGIVAWEEYSVITPMTHAHFKIQHTDVPLSYYTGLLGMPGMTAYAGFYEVCSPKEGETVYVSAASGAVGQLVGQLAKMMGCYVVGSAGSKEKVDLLKTKFGFDDAFNYKEESDLTAALKRCFPNGIDIYFENVGGKMLDAVLVNMNMHGRIAVCGMISQYNLENQEGVHNLSNIIYKRNRIQGFVVSDFYDKYSKFLEFVLPHIREGKITYVEDVADGLEKAPEALVGLFHGKNVGKQVVVVARE MTATNKQVILKDYVSGFPTESDFDFTTTTVELRVPEGTNSVLVKNLYLSCDPYMRIRMGKPDPSTAALAQAYTPGQPIQGYGVSRIIESGHPDYKKGDLLWGIVAWEEYSVITPMTHAHFKIQHTDVPLSYYTGLLGMPGMTAYAGFYEVCSPKEGETVYVSAASGAVGQLVGQLAKMMGCYVVGSAGSKEKVDLLKTKFGFDDAFNYKEESDLTAALKRCFPNGIDIYFENVGGKMLDAVLVNMNMHGRIAVCGMISQYNLENQEGVHNLSNIIYKRNRIQGFVVSDFYDKYSKFLEFVLPHIREGKITYVEDVADGLEKAPEALVGLFHGKNVGKQVVVVARE 2j3m-a1-m1-cA_2j3m-a1-m1-cB PROLYL-TRNA SYNTHETASE FROM ENTEROCOCCUS FAECALIS COMPLEXED WITH ATP, manganese and prolinol Q831W7 Q831W7 2.3 X-RAY DIFFRACTION 168 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 554 558 2j3l-a1-m1-cA_2j3l-a1-m1-cB MKQSKMLIPTLEVLSHQILLRAGYIRQVAAGIYSYLPLANRVLEKLKTIMREEFEKIDAVEMLMPALLPAELWKESGRYETYGPNLYRLKDRNDRDYILGPTHEETFTELIRDEINSYKRLPLNLYQIQTKYRDEKRSRSGLLRGREFIMKDGYSFHADEASLDQSYRDYEKAYSRIFERCGLEFRAIIGDGGKDSKEFMAISEIGEDTICYSTESDYAANLEMATSLYTPKKSHETQLDLEKIATPEVGTIAEVANFFEVEPQRIIKSVLFIADEEPVMVLVRGDHDVNDVKLKNFLGADFLDEATEEDARRVLGAGFGSIGPVNVSEDVKIYADLAVQDLANAIVGANEDGYHLTNVNPDRDFQPISYEDLRFVQEGDPSPDGNGVLAFTKGIEIGHIFKLGTRYSDAMGATVLDENGREKSVIMGCYGIGVSRLLSAIVEQNADERGINWPTGIAPFDLHVVQMNVKDEYQTKLSQEVEAMMTEAGYEVLVDDRNERAGVKFADADLIGCPIRITVGKKAVDGVVEVKIKRTGEMLEVRKEELESTLSILM MKQSKMLIPTLEVLSHQILLRAGYIRQVAAGIYSYLPLANRVLEKLKTIMREEFEKIDAVEMLMPALLPAELWKESGRYETYGPNLYRLKDRNDRDYILGPTHEETFTELIRDEINSYKRLPLNLYQIQTKYRDEKRSRSGLLRGREFIMKDGYSFHADEASLDQSYRDYEKAYSRIFERCGLEFRAIIGDGGAMGGKDSKEFMAISEIGEDTICYSTESDYAANLEMATSLYTPKKSHETQLDLEKIATPEVGTIAEVANFFEVEPQRIIKSVLFIADEEPVMVLVRGDHDVNDVKLKNFLGADFLDEATEEDARRVLGAGFGSIGPVNVSEDVKIYADLAVQDLANAIVGANEDGYHLTNVNPDRDFQPISYEDLRFVQEGDPSPDGNGVLAFTKGIEIGHIFKLGTRYSDAMGATVLDENGREKSVIMGCYGIGVSRLLSAIVEQNADERGINWPTGIAPFDLHVVQMNVKDEYQTKLSQEVEAMMTEAGYEVLVDDRNERAGVKFADADLIGCPIRITVGKKAVDGVVEVKIKRTGEMLEVRKEELESTLSILM 2j4e-a4-m1-cH_2j4e-a4-m3-cC THE ITP COMPLEX OF HUMAN INOSINE TRIPHOSPHATASE Q9BY32 Q9BY32 2.8 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 194 2car-a1-m1-cB_2car-a1-m1-cA 2i5d-a1-m1-cA_2i5d-a1-m2-cA 2j4e-a1-m1-cA_2j4e-a1-m1-cB 2j4e-a2-m1-cG_2j4e-a2-m1-cF 2j4e-a3-m2-cH_2j4e-a3-m1-cC 2j4e-a5-m4-cE_2j4e-a5-m1-cD 2j4e-a6-m1-cE_2j4e-a6-m5-cD 4f95-a1-m1-cA_4f95-a1-m2-cA ASLVGKKIVFVTGNAKKLEEVVQILGDKFPCTLVAQKIDLPEYQGEPDEISIQKCQEAVRQVQGPVLVEDTCLCFNALGGLPGPYIKWFLEKLKPEGLHQLLAGFEDKSAYALCTFALSTQPVRLFRGRTSGRIVAPRGCQDFGWDPCFQPDGYEQTYAEMPKAEKNAVSHRFRALLELQEYFG SMAASLVGKKIVFVTGNAKKLEEVVQILGDKFPCTLVAQKIDLPEYQGEPDEISIQKCQEAVRQVQGPVLVEDTCLCFNALGGLPGPYIKWFLEKLKPEGLHQLLAGFEDKSAYALCTFALSTGDPSQPVRLFRGRTSGRIVAPRGCQDFGWDPCFQPDGYEQTYAEMPKAEKNAVSHRFRALLELQEYFGSLA 2j4j-a1-m1-cA_2j4j-a1-m1-cE Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UMP and AMPPCP to 2.1 Angstrom resolution Q97ZE2 Q97ZE2 2.1 X-RAY DIFFRACTION 13 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 216 216 2j4j-a1-m1-cB_2j4j-a1-m1-cD 2j4j-a1-m1-cB_2j4j-a1-m1-cF 2j4j-a1-m1-cC_2j4j-a1-m1-cA 2j4j-a1-m1-cC_2j4j-a1-m1-cE 2j4j-a1-m1-cD_2j4j-a1-m1-cF 2j4k-a1-m1-cB_2j4k-a1-m1-cD 2j4k-a1-m1-cE_2j4k-a1-m1-cD 2j4l-a1-m1-cA_2j4l-a1-m1-cF 2j4l-a1-m1-cB_2j4l-a1-m1-cD 2j4l-a1-m1-cB_2j4l-a1-m1-cE 2j4l-a1-m1-cD_2j4l-a1-m1-cE 2j4l-a2-m1-cG_2j4l-a2-m1-cL 2j4l-a2-m1-cI_2j4l-a2-m1-cG 2j4l-a2-m1-cK_2j4l-a2-m1-cJ MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILEELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILEELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j4j-a1-m1-cA_2j4j-a1-m1-cF Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UMP and AMPPCP to 2.1 Angstrom resolution Q97ZE2 Q97ZE2 2.1 X-RAY DIFFRACTION 74 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 216 226 2j4j-a1-m1-cC_2j4j-a1-m1-cB 2j4j-a1-m1-cD_2j4j-a1-m1-cE 2j4k-a1-m1-cC_2j4k-a1-m1-cB 2j4k-a1-m1-cF_2j4k-a1-m1-cD 2j4l-a1-m1-cA_2j4l-a1-m1-cE 2j4l-a1-m1-cD_2j4l-a1-m1-cF 2j4l-a2-m1-cJ_2j4l-a2-m1-cL 2j4l-a2-m1-cK_2j4l-a2-m1-cG MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILEELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILEGSQSVQAGTYELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j4j-a1-m1-cE_2j4j-a1-m1-cF Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UMP and AMPPCP to 2.1 Angstrom resolution Q97ZE2 Q97ZE2 2.1 X-RAY DIFFRACTION 62 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 216 226 2j4j-a1-m1-cA_2j4j-a1-m1-cB 2j4j-a1-m1-cC_2j4j-a1-m1-cD 2j4k-a1-m1-cA_2j4k-a1-m1-cB 2j4k-a1-m1-cC_2j4k-a1-m1-cD 2j4l-a1-m1-cB_2j4l-a1-m1-cA 2j4l-a1-m1-cE_2j4l-a1-m1-cF 2j4l-a2-m1-cH_2j4l-a2-m1-cG MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILEELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILEGSQSVQAGTYELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j4l-a2-m1-cH_2j4l-a2-m1-cI Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UTP to 2.8 Angstrom resolution Q97ZE2 Q97ZE2 2.8 X-RAY DIFFRACTION 62 0.994 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 171 194 MNIILKISGKFFDEVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVIPHLELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDLADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPVKLIPHLTTQDLRKILLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j4l-a2-m1-cH_2j4l-a2-m1-cK Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UTP to 2.8 Angstrom resolution Q97ZE2 Q97ZE2 2.8 X-RAY DIFFRACTION 12 0.994 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 171 190 2j4l-a2-m1-cH_2j4l-a2-m1-cJ MNIILKISGKFFDEVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVIPHLELLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDNVDRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRLIPHLTTQDLRKILLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j4l-a2-m1-cI_2j4l-a2-m1-cL Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UTP to 2.8 Angstrom resolution Q97ZE2 Q97ZE2 2.8 X-RAY DIFFRACTION 12 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 194 214 2j4l-a1-m1-cC_2j4l-a1-m1-cF MNIILKISGKFFDEDLADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPVKLIPHLTTQDLRKILLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILLLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j4l-a2-m1-cK_2j4l-a2-m1-cL Crystal structure of uridylate kinase from Sulfolobus solfataricus in complex with UTP to 2.8 Angstrom resolution Q97ZE2 Q97ZE2 2.8 X-RAY DIFFRACTION 63 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 190 214 2j4l-a2-m1-cI_2j4l-a2-m1-cJ MNIILKISGKFFDEDNVDRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRLIPHLTTQDLRKILLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV MNIILKISGKFFDEDNVDNLIVLRQSIKELADNGFRVGIVTGGGSTARRYIKLAREIGIGEAYLDLLGIWASRLNAYLVMFSLQDLAYMHVPQSLEEFIQDWSHGKVVVTGGFQPGQSTAAVAALVAEASSSKTLVVATNVDGVYEKDPRIYADVKLIPHLTTQDLRKILLLDPLAIKIVERSKIRVIVMNYRKLNRIIDILKGEEVSSIIEPV 2j51-a1-m1-cA_2j51-a1-m2-cA Crystal structure of Human STE20-like kinase bound to 5-Amino-3-((4-(aminosulfonyl)phenyl)amino) -N-(2,6-difluorophenyl)-1H-1,2,4-triazole- 1-carbothioamide Q9H2G2 Q9H2G2 2.1 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 2jfl-a1-m1-cA_2jfl-a1-m2-cA 2jfm-a1-m1-cA_2jfm-a1-m2-cA 2uv2-a1-m1-cA_2uv2-a1-m2-cA YEHVTRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLAAAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVMLELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGVSAKNTRTIQRRDSFIGTPYWMAPEVVMCETSKDRPYDYKADVWSLGITLIEMAEIEPPHHELNPMRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPIRELIAEAK YEHVTRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLAAAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVMLELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGVSAKNTRTIQRRDSFIGTPYWMAPEVVMCETSKDRPYDYKADVWSLGITLIEMAEIEPPHHELNPMRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPIRELIAEAK 2j5b-a1-m1-cB_2j5b-a1-m1-cA Structure of the Tyrosyl tRNA synthetase from Acanthamoeba polyphaga Mimivirus complexed with tyrosynol Q5UPJ7 Q5UPJ7 2.2 X-RAY DIFFRACTION 60 0.994 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 320 321 TNNEHRLTQLLSIAEECETLDRLKQLVDSGRIFTAYNGFEPSGRIHIAQALITVMNTNNMIECGGQMIIYIADWFAKMNLKMNGDINKIRELGRYFIEVFKACGINLDGTRFIWASEFIASNPSYIERMLDIAEFSTISRVKIFYPCMQAADVFELVPEGIDICQLGIDQRKVNMLAIEYANDRGLKIPISLSHHMLMSLSGPKKKMSKSDPQGAIFMDDTEQEVSEKISRAYCTDETFDNPIFEYIKYLLLRWFGTLNLCGKIYTDIESIQEDFSSMNKRELKTDVANYINTIIDLVREHFKKPELSELLSNVKSYQQP DHTNNEHRLTQLLSIAEECETLDRLKQLVDSGRIFTAYNGFEPSGRIHIAQALITVMNTNNMIECGGQMIIYIADWFAKMNLKMNGDINKIRELGRYFIEVFKACGINLDGTRFIWASEFIASNPSYIERMLDIAEFSTISRVKRIFYPCMQAADVFELVPEGIDICQLGIDQRKVNMLAIEYANDRGLKIPISLSHHMLMSLSGPKKKMSKSDPQGAIFMDDTEQEVSEKISRAYCTDETFDNPIFEYIKYLLLRWFGTLNLCGKIYTDIESIQEDFSSMNKRELKTDVANYINTIIDLVREHFKKPELSELLSNVKSYQ 2j5d-a1-m1-cA_2j5d-a1-m1-cB NMR structure of BNIP3 transmembrane domain in lipid bicelles Q12983 Q12983 NOT SOLUTION NMR 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 RNTSVMKKGGIFSAEFLKVFLPSLLLSHLLAIGLGIYIGRRLTTS RNTSVMKKGGIFSAEFLKVFLPSLLLSHLLAIGLGIYIGRRLTTS 2j5g-a2-m1-cH_2j5g-a2-m1-cL The Native structure of a beta-Diketone Hydrolase from the Cyanobacterium Anabaena sp. PCC 7120 Q8YNV6 Q8YNV6 1.46 X-RAY DIFFRACTION 30 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 248 248 2j5g-a1-m1-cA_2j5g-a1-m1-cE 2j5g-a1-m1-cC_2j5g-a1-m1-cD 2j5g-a1-m1-cF_2j5g-a1-m1-cB 2j5g-a2-m1-cG_2j5g-a2-m1-cK 2j5g-a2-m1-cI_2j5g-a2-m1-cJ 2j5s-a1-m1-cB_2j5s-a1-m3-cA 2j5s-a1-m2-cB_2j5s-a1-m1-cA 2j5s-a1-m3-cB_2j5s-a1-m2-cA QPEYFTKYENLHFHRDENGILEVRMHTNGSSLVFTGKTHREFPDAFYDISRDRDNRVVILTGSGDAWMAEIDFPSLGDVTNPREWDKTYWEGKKVLQNLLDIEVPVISAVNGAALLHSEYILTTDIILASENTVFQDMPHLNAGIVPGDGVHILWPLALGLYRGRYFLFTQEKLTAQQAYELNVVHEVLPQSKLMERAWEIARTLAKQPTLNLRYTRVALTQRLKRLVNEGIGYGLALEGITATDLRN QPEYFTKYENLHFHRDENGILEVRMHTNGSSLVFTGKTHREFPDAFYDISRDRDNRVVILTGSGDAWMAEIDFPSLGDVTNPREWDKTYWEGKKVLQNLLDIEVPVISAVNGAALLHSEYILTTDIILASENTVFQDMPHLNAGIVPGDGVHILWPLALGLYRGRYFLFTQEKLTAQQAYELNVVHEVLPQSKLMERAWEIARTLAKQPTLNLRYTRVALTQRLKRLVNEGIGYGLALEGITATDLRN 2j5g-a2-m1-cI_2j5g-a2-m1-cL The Native structure of a beta-Diketone Hydrolase from the Cyanobacterium Anabaena sp. PCC 7120 Q8YNV6 Q8YNV6 1.46 X-RAY DIFFRACTION 29 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 248 248 2j5g-a1-m1-cA_2j5g-a1-m1-cD 2j5g-a1-m1-cB_2j5g-a1-m1-cE 2j5g-a1-m1-cC_2j5g-a1-m1-cF 2j5g-a2-m1-cG_2j5g-a2-m1-cJ 2j5g-a2-m1-cH_2j5g-a2-m1-cK 2j5s-a1-m1-cB_2j5s-a1-m1-cA 2j5s-a1-m2-cB_2j5s-a1-m2-cA 2j5s-a1-m3-cB_2j5s-a1-m3-cA QPEYFTKYENLHFHRDENGILEVRMHTNGSSLVFTGKTHREFPDAFYDISRDRDNRVVILTGSGDAWMAEIDFPSLGDVTNPREWDKTYWEGKKVLQNLLDIEVPVISAVNGAALLHSEYILTTDIILASENTVFQDMPHLNAGIVPGDGVHILWPLALGLYRGRYFLFTQEKLTAQQAYELNVVHEVLPQSKLMERAWEIARTLAKQPTLNLRYTRVALTQRLKRLVNEGIGYGLALEGITATDLRN QPEYFTKYENLHFHRDENGILEVRMHTNGSSLVFTGKTHREFPDAFYDISRDRDNRVVILTGSGDAWMAEIDFPSLGDVTNPREWDKTYWEGKKVLQNLLDIEVPVISAVNGAALLHSEYILTTDIILASENTVFQDMPHLNAGIVPGDGVHILWPLALGLYRGRYFLFTQEKLTAQQAYELNVVHEVLPQSKLMERAWEIARTLAKQPTLNLRYTRVALTQRLKRLVNEGIGYGLALEGITATDLRN 2j5g-a2-m1-cK_2j5g-a2-m1-cL The Native structure of a beta-Diketone Hydrolase from the Cyanobacterium Anabaena sp. PCC 7120 Q8YNV6 Q8YNV6 1.46 X-RAY DIFFRACTION 85 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 248 248 2j5g-a1-m1-cA_2j5g-a1-m1-cB 2j5g-a1-m1-cA_2j5g-a1-m1-cC 2j5g-a1-m1-cC_2j5g-a1-m1-cB 2j5g-a1-m1-cD_2j5g-a1-m1-cE 2j5g-a1-m1-cF_2j5g-a1-m1-cD 2j5g-a1-m1-cF_2j5g-a1-m1-cE 2j5g-a2-m1-cG_2j5g-a2-m1-cH 2j5g-a2-m1-cG_2j5g-a2-m1-cI 2j5g-a2-m1-cH_2j5g-a2-m1-cI 2j5g-a2-m1-cJ_2j5g-a2-m1-cK 2j5g-a2-m1-cJ_2j5g-a2-m1-cL 2j5s-a1-m1-cA_2j5s-a1-m2-cA 2j5s-a1-m1-cA_2j5s-a1-m3-cA 2j5s-a1-m1-cB_2j5s-a1-m2-cB 2j5s-a1-m1-cB_2j5s-a1-m3-cB 2j5s-a1-m2-cA_2j5s-a1-m3-cA 2j5s-a1-m2-cB_2j5s-a1-m3-cB QPEYFTKYENLHFHRDENGILEVRMHTNGSSLVFTGKTHREFPDAFYDISRDRDNRVVILTGSGDAWMAEIDFPSLGDVTNPREWDKTYWEGKKVLQNLLDIEVPVISAVNGAALLHSEYILTTDIILASENTVFQDMPHLNAGIVPGDGVHILWPLALGLYRGRYFLFTQEKLTAQQAYELNVVHEVLPQSKLMERAWEIARTLAKQPTLNLRYTRVALTQRLKRLVNEGIGYGLALEGITATDLRN QPEYFTKYENLHFHRDENGILEVRMHTNGSSLVFTGKTHREFPDAFYDISRDRDNRVVILTGSGDAWMAEIDFPSLGDVTNPREWDKTYWEGKKVLQNLLDIEVPVISAVNGAALLHSEYILTTDIILASENTVFQDMPHLNAGIVPGDGVHILWPLALGLYRGRYFLFTQEKLTAQQAYELNVVHEVLPQSKLMERAWEIARTLAKQPTLNLRYTRVALTQRLKRLVNEGIGYGLALEGITATDLRN 2j5i-a2-m1-cH_2j5i-a2-m1-cJ Crystal Structure of Hydroxycinnamoyl-CoA Hydratase-Lyase O69762 O69762 1.8 X-RAY DIFFRACTION 29 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 246 246 2j5i-a1-m1-cA_2j5i-a1-m1-cE 2j5i-a1-m1-cB_2j5i-a1-m1-cD 2j5i-a1-m1-cF_2j5i-a1-m1-cC 2j5i-a2-m1-cG_2j5i-a2-m1-cK 2j5i-a2-m1-cI_2j5i-a2-m1-cL 2vss-a1-m1-cA_2vss-a1-m1-cE 2vss-a1-m1-cC_2vss-a1-m1-cF 2vss-a1-m1-cD_2vss-a1-m1-cB 2vsu-a1-m1-cA_2vsu-a1-m1-cE 2vsu-a1-m1-cB_2vsu-a1-m1-cD 2vsu-a1-m1-cF_2vsu-a1-m1-cC 6l3o-a1-m1-cA_6l3o-a1-m1-cB 6l3o-a1-m2-cA_6l3o-a1-m2-cB 6l3o-a1-m3-cA_6l3o-a1-m3-cB YEGRWKTVKVEIEDGIAFVILNRPEKRNAMSPTLNREMIDVLETLEQDPAAGVLVLTGAGEAWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRMYAKPTIAMVNGWCFGGGFSPLVACDLAICADEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFGGQKAAEMGLVNESVPLAQLREVTIELARNLLEKNPVVLRAAKHGFKRCRELTWEQNEDYLYAKLDQSRLLD YEGRWKTVKVEIEDGIAFVILNRPEKRNAMSPTLNREMIDVLETLEQDPAAGVLVLTGAGEAWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRMYAKPTIAMVNGWCFGGGFSPLVACDLAICADEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFGGQKAAEMGLVNESVPLAQLREVTIELARNLLEKNPVVLRAAKHGFKRCRELTWEQNEDYLYAKLDQSRLLD 2j5i-a2-m1-cH_2j5i-a2-m1-cK Crystal Structure of Hydroxycinnamoyl-CoA Hydratase-Lyase O69762 O69762 1.8 X-RAY DIFFRACTION 40 0.996 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 246 246 2j5i-a1-m1-cB_2j5i-a1-m1-cE 2j5i-a1-m1-cC_2j5i-a1-m1-cD 2j5i-a1-m1-cF_2j5i-a1-m1-cA 2j5i-a2-m1-cI_2j5i-a2-m1-cJ 2j5i-a2-m1-cL_2j5i-a2-m1-cG 2vss-a1-m1-cA_2vss-a1-m1-cF 2vss-a1-m1-cC_2vss-a1-m1-cD 2vss-a1-m1-cE_2vss-a1-m1-cB 2vsu-a1-m1-cA_2vsu-a1-m1-cF 2vsu-a1-m1-cD_2vsu-a1-m1-cC 2vsu-a1-m1-cE_2vsu-a1-m1-cB 6l3o-a1-m1-cA_6l3o-a1-m3-cB 6l3o-a1-m2-cA_6l3o-a1-m1-cB 6l3o-a1-m3-cA_6l3o-a1-m2-cB YEGRWKTVKVEIEDGIAFVILNRPEKRNAMSPTLNREMIDVLETLEQDPAAGVLVLTGAGEAWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRMYAKPTIAMVNGWCFGGGFSPLVACDLAICADEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFGGQKAAEMGLVNESVPLAQLREVTIELARNLLEKNPVVLRAAKHGFKRCRELTWEQNEDYLYAKLDQSRLLD TYEGRWKTVKVEIEDGIAFVILNRPEKRNAMSPTLNREMIDVLETLEQDPAAGVLVLTGAGEAWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRMYAKPTIAMVNGWCFGGGFSPLVACDLAICADEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFGGQKAAEMGLVNESVPLAQLREVTIELARNLLEKNPVVLRAAKHGFKRCRELTWEQNEDYLYAKLDQSRLL 2j5t-a2-m1-cG_2j5t-a2-m1-cE Glutamate 5-kinase from Escherichia coli complexed with glutamate P0A7B5 P0A7B5 2.9 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 356 365 2j5t-a1-m1-cA_2j5t-a1-m1-cD 2j5t-a1-m1-cB_2j5t-a1-m1-cC 2j5t-a2-m1-cH_2j5t-a2-m1-cF DSQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAAGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNNVVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQKGLYTADPRSNPQAELIKDVYGIDDALRAIAGGMSTKLQAADVACRAGIDTIIAAGSKPGVIGDVMEGISVGTLFHAQATPLENRKRWIFGAPPAGEITVDEGATAAILERGSSLLPKGIKSVTGNFSRGEVIRICNLEGRDIAHGVSRYNSDALRRIAGHHSQEIDAILGYEYGPVAVHRDDMITR DSQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAAGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNNVVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQKGLYTADPRSNPQAELIKDVYGIDDALRAIAGDSVSGLGTGGMSTKLQAADVACRAGIDTIIAAGSKPGVIGDVMEGISVGTLFHAQATPLENRKRWIFGAPPAGEITVDEGATAAILERGSSLLPKGIKSVTGNFSRGEVIRICNLEGRDIAHGVSRYNSDALRRIAGHHSQEIDAILGYEYGPVAVHRDDMITR 2j5u-a1-m10-cB_2j5u-a1-m9-cB MreC Lysteria monocytogenes Q8Y6Y4 Q8Y6Y4 2.5 X-RAY DIFFRACTION 15 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 201 201 2j5u-a1-m11-cB_2j5u-a1-m12-cB 2j5u-a1-m1-cB_2j5u-a1-m2-cB 2j5u-a1-m3-cB_2j5u-a1-m4-cB 2j5u-a1-m5-cB_2j5u-a1-m6-cB 2j5u-a1-m7-cB_2j5u-a1-m8-cB QHLKERLEELAQLESEVADLKKENKDLKESLDITDSIRDYDPLNASVISRNPTNWNDQVEIDKGSSDGVKPDMAVTTPSGLIGKVTTTGAKSATVELLTSSDVKNRVSAKVQGKENAFGIINGYDSDTKLLELKQLPYDMKFKKGQKVVTSGLGGKFPAGIFIGTIEKVETDKMGLSQTAFIKPGADMYDLNHVTVLKRSA QHLKERLEELAQLESEVADLKKENKDLKESLDITDSIRDYDPLNASVISRNPTNWNDQVEIDKGSSDGVKPDMAVTTPSGLIGKVTTTGAKSATVELLTSSDVKNRVSAKVQGKENAFGIINGYDSDTKLLELKQLPYDMKFKKGQKVVTSGLGGKFPAGIFIGTIEKVETDKMGLSQTAFIKPGADMYDLNHVTVLKRSA 2j5u-a1-m6-cB_2j5u-a1-m9-cB MreC Lysteria monocytogenes Q8Y6Y4 Q8Y6Y4 2.5 X-RAY DIFFRACTION 43 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 201 201 2j5u-a1-m10-cB_2j5u-a1-m12-cB 2j5u-a1-m11-cB_2j5u-a1-m8-cB 2j5u-a1-m1-cB_2j5u-a1-m3-cB 2j5u-a1-m2-cB_2j5u-a1-m5-cB 2j5u-a1-m4-cB_2j5u-a1-m7-cB QHLKERLEELAQLESEVADLKKENKDLKESLDITDSIRDYDPLNASVISRNPTNWNDQVEIDKGSSDGVKPDMAVTTPSGLIGKVTTTGAKSATVELLTSSDVKNRVSAKVQGKENAFGIINGYDSDTKLLELKQLPYDMKFKKGQKVVTSGLGGKFPAGIFIGTIEKVETDKMGLSQTAFIKPGADMYDLNHVTVLKRSA QHLKERLEELAQLESEVADLKKENKDLKESLDITDSIRDYDPLNASVISRNPTNWNDQVEIDKGSSDGVKPDMAVTTPSGLIGKVTTTGAKSATVELLTSSDVKNRVSAKVQGKENAFGIINGYDSDTKLLELKQLPYDMKFKKGQKVVTSGLGGKFPAGIFIGTIEKVETDKMGLSQTAFIKPGADMYDLNHVTVLKRSA 2j5u-a1-m9-cB_2j5u-a1-m9-cA MreC Lysteria monocytogenes Q8Y6Y4 Q8Y6Y4 2.5 X-RAY DIFFRACTION 148 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 201 210 2j5u-a1-m10-cB_2j5u-a1-m10-cA 2j5u-a1-m11-cB_2j5u-a1-m11-cA 2j5u-a1-m12-cB_2j5u-a1-m12-cA 2j5u-a1-m1-cB_2j5u-a1-m1-cA 2j5u-a1-m2-cB_2j5u-a1-m2-cA 2j5u-a1-m3-cB_2j5u-a1-m3-cA 2j5u-a1-m4-cB_2j5u-a1-m4-cA 2j5u-a1-m5-cB_2j5u-a1-m5-cA 2j5u-a1-m6-cB_2j5u-a1-m6-cA 2j5u-a1-m7-cB_2j5u-a1-m7-cA 2j5u-a1-m8-cB_2j5u-a1-m8-cA QHLKERLEELAQLESEVADLKKENKDLKESLDITDSIRDYDPLNASVISRNPTNWNDQVEIDKGSSDGVKPDMAVTTPSGLIGKVTTTGAKSATVELLTSSDVKNRVSAKVQGKENAFGIINGYDSDTKLLELKQLPYDMKFKKGQKVVTSGLGGKFPAGIFIGTIEKVETDKMGLSQTAFIKPGADMYDLNHVTVLKRSA TENQHLKERLEELAQLESEVADLKKENKDLKESLDITDSIRDYDPLNASVISRNPTNWNDQVEIDKGSSDGVKPDMAVTTPSGLIGKVTTTGAKSATVELLTSSDVKNRVSAKVQGKENAFGIINGYDSDTKLLELKQLPYDMKFKKGQKVVTSGLGGKFPAGIFIGTIEKVETDKMGLSQTAFIKPGADMYDLNHVTVLKRSAEAGTTD 2j5v-a1-m1-cA_2j5v-a1-m1-cB GLUTAMATE 5-KINASE FROM ESCHERICHIA COLI COMPLEXED WITH GLUTAMYL-5-PHOSPHATE AND PYROGLUTAMIC ACID P0A7B5 P0A7B5 2.5 X-RAY DIFFRACTION 187 1.0 562 (Escherichia coli) 562 (Escherichia coli) 323 325 2j5t-a1-m1-cB_2j5t-a1-m1-cA 2j5t-a1-m1-cC_2j5t-a1-m1-cD 2j5t-a2-m1-cF_2j5t-a2-m1-cE 2j5t-a2-m1-cH_2j5t-a2-m1-cG 2j5t-a3-m1-cB_2j5t-a3-m1-cA 2j5t-a4-m1-cH_2j5t-a4-m1-cG 2j5t-a5-m1-cF_2j5t-a5-m1-cE 2j5t-a6-m1-cC_2j5t-a6-m1-cD 2w21-a1-m1-cA_2w21-a1-m2-cA DSQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAAGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNNVVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQMSTKLQAADVACRAGIDTIIAAGSKPGVIGDVMEGISVGTLFHAQATPLENRKRWIFGAPPAGEITVDEGATAAILERGSSLLPKGIKSVTGNFSRGEVIRICNLEGRDIAHGVSRYNSDALRRIAGHHSQEIDAILGYEYGPVAVHRDDMITR DSQTLVVKLGTSVLTGGSRRLNRAHIVELVRQCAQLHAAGHRIVIVTSGAIAAGREHLGYPELPATIASKQLLAAVGQSRLIQLWEQLFSIYGIHVGQMLLTRADMEDRERFLNARDTLRALLDNNVVPVINENDAVATAEIKVGDNDNLSALAAILAGADKLLLLTDQGGMSTKLQAADVACRAGIDTIIAAGSKPGVIGDVMEGISVGTLFHAQATPLENRKRWIFGAPPAGEITVDEGATAAILERGSSLLPKGIKSVTGNFSRGEVIRICNLEGRDIAHGVSRYNSDALRRIAGHHSQEIDAILGYEYGPVAVHRDDMITR 2j64-a1-m1-cA_2j64-a1-m1-cC H-ficolin O75636 O75636 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 2j5z-a1-m1-cB_2j5z-a1-m1-cA 2j5z-a1-m1-cB_2j5z-a1-m1-cC 2j5z-a1-m1-cC_2j5z-a1-m1-cA 2j64-a1-m1-cA_2j64-a1-m1-cB 2j64-a1-m1-cB_2j64-a1-m1-cC GPRNCRELLSQGATLSGWYHLCLPEGRALPVFCDMDTEGGGWLVFQRRQDGSVDFFRSWSSYRAGFGNQESEFWLGNENLHQLTLQGNWELRVELEDFNGNRTFAHYATFRLLGEVDHYQLALGKFSEGTAGDSLSLHSGRPFTTYDADHDSSNSNCAVIVHGAWWYASCYRSNLNGRYAVSEAAAHKYGIDWASGRGVGHPYRRVRMMLR GPRNCRELLSQGATLSGWYHLCLPEGRALPVFCDMDTEGGGWLVFQRRQDGSVDFFRSWSSYRAGFGNQESEFWLGNENLHQLTLQGNWELRVELEDFNGNRTFAHYATFRLLGEVDHYQLALGKFSEGTAGDSLSLHSGRPFTTYDADHDSSNSNCAVIVHGAWWYASCYRSNLNGRYAVSEAAAHKYGIDWASGRGVGHPYRRVRMMLR 2j68-a1-m1-cA_2j68-a1-m2-cA Bacterial dynamin-like protein BDLP, GDP bound B2IZD3 B2IZD3 3.1 X-RAY DIFFRACTION 150 1.0 272131 (Nostoc punctiforme) 272131 (Nostoc punctiforme) 680 680 VNQVATDRFIQDLERVAQVRSEMSVCLNKLAETINKAELAGDSSSGKLSLERDIEDITIASKNLQQGVFRLLVLGDMKRGKSTFLNALIGENLLPSTAVLTVLRYGPEKKVTIHFNDGKSPQQLDFQNFKYKYTIDPAEAKKLEQEKKQAFPDVDYAVVEYPLTLLQKGIEIVDSPGLNDTEARNELSLGYVNNCHAILFVMRASQPCTLGERRYLENYIKGRGLTVFFLVNAWDQVRESLIDPDDVEELQASENRLRQVFNANLAEYCTVEGQNIYDERVFELSSIQALRRRLKNPQADLDGTGFPKFMDSLNTFLTRERAIAELRQVRTLARLACNHTREAVARRIPLLEQDVNELKKRIDSVEPEFNKLTGIRDEFQKEIINTRDTQARTISESFRSYVLNLGNTFENDFLRYQPELNLFDFLSSGKREAFNAALQKAFEQYITDKSAAWTLTAEKDINAAFKELSRSASQYGASYNQITDQITEKLTGKDVEDNSPGWAKWAMGLLSLSKGNLAGFALAGAGFDWKNILLNYFTVIGIGGIITAVTGILLGPIGFALLGLGVGFLQADQARRELVKTAKKELVKHLPQVAHEQSQVVYNAVKECFDSYEREVSKRINDDIVSRKSELDNLVKQKQTREINRESEFNRLKNLQEDVIAQLQKIEAAYSNLLAYYSHH VNQVATDRFIQDLERVAQVRSEMSVCLNKLAETINKAELAGDSSSGKLSLERDIEDITIASKNLQQGVFRLLVLGDMKRGKSTFLNALIGENLLPSTAVLTVLRYGPEKKVTIHFNDGKSPQQLDFQNFKYKYTIDPAEAKKLEQEKKQAFPDVDYAVVEYPLTLLQKGIEIVDSPGLNDTEARNELSLGYVNNCHAILFVMRASQPCTLGERRYLENYIKGRGLTVFFLVNAWDQVRESLIDPDDVEELQASENRLRQVFNANLAEYCTVEGQNIYDERVFELSSIQALRRRLKNPQADLDGTGFPKFMDSLNTFLTRERAIAELRQVRTLARLACNHTREAVARRIPLLEQDVNELKKRIDSVEPEFNKLTGIRDEFQKEIINTRDTQARTISESFRSYVLNLGNTFENDFLRYQPELNLFDFLSSGKREAFNAALQKAFEQYITDKSAAWTLTAEKDINAAFKELSRSASQYGASYNQITDQITEKLTGKDVEDNSPGWAKWAMGLLSLSKGNLAGFALAGAGFDWKNILLNYFTVIGIGGIITAVTGILLGPIGFALLGLGVGFLQADQARRELVKTAKKELVKHLPQVAHEQSQVVYNAVKECFDSYEREVSKRINDDIVSRKSELDNLVKQKQTREINRESEFNRLKNLQEDVIAQLQKIEAAYSNLLAYYSHH 2j6c-a1-m1-cA_2j6c-a1-m2-cA crystal structure of AFV3-109, a highly conserved protein from crenarchaeal viruses 1.3 X-RAY DIFFRACTION 88 1.0 235266 (Captovirus AFV1) 235266 (Captovirus AFV1) 109 109 2j6b-a1-m1-cA_2j6b-a1-m2-cA MLYILNSAILPLKPGEEYTVKAKEITIQEAKELVTKEQFTSAIGHQATAELLSSILGVNVPMNRVQIKVTHGDRILAFMLKQRLPEGVVVKTTEELEKIGYELWLFEIQ MLYILNSAILPLKPGEEYTVKAKEITIQEAKELVTKEQFTSAIGHQATAELLSSILGVNVPMNRVQIKVTHGDRILAFMLKQRLPEGVVVKTTEELEKIGYELWLFEIQ 2j6g-a1-m1-cA_2j6g-a1-m2-cA FaeG from F4ac ETEC strain 5_95, produced in tobacco plant chloroplast Q6T3W5 Q6T3W5 1.55 X-RAY DIFFRACTION 166 1.0 562 (Escherichia coli) 562 (Escherichia coli) 260 260 2j6r-a1-m1-cB_2j6r-a1-m1-cA SWMTGDFNGSVDIGGSITADDYRQKWEWKVGTGLNGFGNVLNDLTNGGTKLTITVTGNKPILLGRTKEAFATPVTGGVDGIPHIAFTDYEGASVVLRKPTNKNGLAYFVLPMKNAGGTKVGSVKVNASYAGVLGRGGVTSADGELLSLFADGLSSIFYGGLPRGSELSAGSAAAARTKLFGSLSRDDILGQIQRVNANVTSLVDVAGSYRENMEYTDGNVVSAAYALGIANGQTIEATFNQAVTTSTQWSAPLNVAITYY SWMTGDFNGSVDIGGSITADDYRQKWEWKVGTGLNGFGNVLNDLTNGGTKLTITVTGNKPILLGRTKEAFATPVTGGVDGIPHIAFTDYEGASVVLRKPTNKNGLAYFVLPMKNAGGTKVGSVKVNASYAGVLGRGGVTSADGELLSLFADGLSSIFYGGLPRGSELSAGSAAAARTKLFGSLSRDDILGQIQRVNANVTSLVDVAGSYRENMEYTDGNVVSAAYALGIANGQTIEATFNQAVTTSTQWSAPLNVAITYY 2j6p-a1-m1-cB_2j6p-a1-m1-cF STRUCTURE OF AS-SB REDUCTASE FROM LEISHMANIA MAJOR Q6Q1Q5 Q6Q1Q5 2.15 X-RAY DIFFRACTION 20 1.0 5664 (Leishmania major) 5664 (Leishmania major) 145 145 2j6p-a1-m1-cA_2j6p-a1-m1-cD 2j6p-a1-m1-cA_2j6p-a1-m1-cE 2j6p-a1-m1-cB_2j6p-a1-m1-cC NYTYIKPEELVELLDNPDSLVKAAVIDCRDSDRDCGFIVNSINMPTISCTEEMYEKLAKTLFEEKKELAVFHCAQSLVRAPKGANRFALAQKKLGYVLPAVYVLRGGWEAFYHMYGDVRPDLMYVKLGPEQKLISEEDLNSAVDH NYTYIKPEELVELLDNPDSLVKAAVIDCRDSDRDCGFIVNSINMPTISCTEEMYEKLAKTLFEEKKELAVFHCAQSLVRAPKGANRFALAQKKLGYVLPAVYVLRGGWEAFYHMYGDVRPDLMYVKLGPEQKLISEEDLNSAVDH 2j6p-a1-m1-cD_2j6p-a1-m1-cF STRUCTURE OF AS-SB REDUCTASE FROM LEISHMANIA MAJOR Q6Q1Q5 Q6Q1Q5 2.15 X-RAY DIFFRACTION 56 1.0 5664 (Leishmania major) 5664 (Leishmania major) 145 145 2j6p-a1-m1-cA_2j6p-a1-m1-cB 2j6p-a1-m1-cC_2j6p-a1-m1-cE NYTYIKPEELVELLDNPDSLVKAAVIDCRDSDRDCGFIVNSINMPTISCTEEMYEKLAKTLFEEKKELAVFHCAQSLVRAPKGANRFALAQKKLGYVLPAVYVLRGGWEAFYHMYGDVRPDLMYVKLGPEQKLISEEDLNSAVDH NYTYIKPEELVELLDNPDSLVKAAVIDCRDSDRDCGFIVNSINMPTISCTEEMYEKLAKTLFEEKKELAVFHCAQSLVRAPKGANRFALAQKKLGYVLPAVYVLRGGWEAFYHMYGDVRPDLMYVKLGPEQKLISEEDLNSAVDH 2j6z-a1-m1-cA_2j6z-a1-m2-cA Structural and functional characterisation of partner-switching regulating the environmental stress response in B. subtilis P40399 P40399 1.95 X-RAY DIFFRACTION 115 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 86 86 1w53-a1-m1-cA_1w53-a1-m2-cA 2j6y-a1-m1-cB_2j6y-a1-m1-cA 2j6y-a2-m1-cD_2j6y-a2-m1-cC 2j6y-a3-m1-cE_2j6y-a3-m2-cE 2j70-a1-m1-cA_2j70-a1-m2-cA MDFREVIEQRYHQLLSRYIAELTETSLIQAQKFSRKTIEHQIPPEEIISIHRKVLKELYPSLPEDVFHSLDFLIEVMIGYGMAYQE MDFREVIEQRYHQLLSRYIAELTETSLIQAQKFSRKTIEHQIPPEEIISIHRKVLKELYPSLPEDVFHSLDFLIEVMIGYGMAYQE 2j71-a1-m1-cA_2j71-a1-m2-cA alpha-glucan recognition by a family 41 carbohydrate-binding module from Thermotoga maritima pullulanase PulA O33840 O33840 1.69 X-RAY DIFFRACTION 29 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 102 102 TETTIVVHYHRYDGKYDGWNLWIWPVEPVSQEGKAYQFTGEDDFGKVAVVKLPMDLTKVGIIVRLNEWQAKDVAKDRFIEIKDGKAEVWILQGVEEIFYEKP TETTIVVHYHRYDGKYDGWNLWIWPVEPVSQEGKAYQFTGEDDFGKVAVVKLPMDLTKVGIIVRLNEWQAKDVAKDRFIEIKDGKAEVWILQGVEEIFYEKP 2j73-a1-m1-cB_2j73-a1-m1-cA alpha-glucan rcognition by a family 41 carbohydrate-binding module from Thermotoga maritima pullulanase PulA O33840 O33840 1.4 X-RAY DIFFRACTION 27 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 102 103 2j72-a1-m1-cA_2j72-a1-m1-cB TETTIVVHYHRYDGKYDGWNLWIWPVEPVSQEGKAYQFTGEDDFGKVAVVKLPMDLTKVGIIVRLNEWQAKDVAKDRFIEIKDGKAEVWILQGVEEIFYEKP FTETTIVVHYHRYDGKYDGWNLWIWPVEPVSQEGKAYQFTGEDDFGKVAVVKLPMDLTKVGIIVRLNEWQAKDVAKDRFIEIKDGKAEVWILQGVEEIFYEKP 2j7a-a3-m1-cM_2j7a-a3-m1-cP Crystal structure of cytochrome c nitrite reductase NrfHA complex from Desulfovibrio vulgaris Q72EF3 Q72EF3 2.3 X-RAY DIFFRACTION 44 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 494 494 2j7a-a1-m1-cD_2j7a-a1-m1-cA 2j7a-a2-m1-cG_2j7a-a2-m1-cJ 2vr0-a1-m1-cD_2vr0-a1-m1-cA GCSDVSTELKTPVYKTKLTAEEIRNSAFKPEFPKQYASYERNDETTVMTEYKGSVPFNKNDNVNPLPEGYRHAQPYLKNLWLGYPFMYEYREARGHTYAIQDFLHIDRINRYAEKGGLPATCWNCKTPKMMEWVKESGDGFWAKDVNEFRDKIDMKDHTIGCATCHDPQTMELRITSVPLTDYLVSQGKDPKKLPRNEMRALVCGQCHVEYYFNGPTMGVNKKPVFPWAEGFDPADMYRYYDKHGDLQVKGFEGKFADWTHPASKTPMIKAQHPEYETWINGTHGAAGVTCADCHMSYTRSDDKKKISSHWWTSPMKDPEMRACRQCHSDKTPDYLKSRVLFTQKRTFDLLLAAQEVSVKAHEAVRLANEYQGAKAAGYDDLMIQAREMVRKGQFFWDYVSAENSVGFHNPAKALDTLAQSQQFSQKAIDLAMEATQYGIGKDLSGDIKTIVPPILKMNRKLQQDPEFMKTHKWFQYLPVLPKADQVWDGQKRL GCSDVSTELKTPVYKTKLTAEEIRNSAFKPEFPKQYASYERNDETTVMTEYKGSVPFNKNDNVNPLPEGYRHAQPYLKNLWLGYPFMYEYREARGHTYAIQDFLHIDRINRYAEKGGLPATCWNCKTPKMMEWVKESGDGFWAKDVNEFRDKIDMKDHTIGCATCHDPQTMELRITSVPLTDYLVSQGKDPKKLPRNEMRALVCGQCHVEYYFNGPTMGVNKKPVFPWAEGFDPADMYRYYDKHGDLQVKGFEGKFADWTHPASKTPMIKAQHPEYETWINGTHGAAGVTCADCHMSYTRSDDKKKISSHWWTSPMKDPEMRACRQCHSDKTPDYLKSRVLFTQKRTFDLLLAAQEVSVKAHEAVRLANEYQGAKAAGYDDLMIQAREMVRKGQFFWDYVSAENSVGFHNPAKALDTLAQSQQFSQKAIDLAMEATQYGIGKDLSGDIKTIVPPILKMNRKLQQDPEFMKTHKWFQYLPVLPKADQVWDGQKRL 2j7a-a3-m1-cO_2j7a-a3-m1-cR Crystal structure of cytochrome c nitrite reductase NrfHA complex from Desulfovibrio vulgaris Q72EF4 Q72EF4 2.3 X-RAY DIFFRACTION 59 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 144 145 2j7a-a1-m1-cC_2j7a-a1-m1-cF 2j7a-a2-m1-cI_2j7a-a2-m1-cL 2vr0-a1-m1-cC_2vr0-a1-m1-cF LVLGGATLGVVALATVAFGMKYTDQRPFCTSCHIMNPVGVTHKLSGHANISCNDCHAPHNLLAKLPFKAIAGARDVYMNTLGHPGDLILAGMETKEVVNANCKACHTMTNVEVASMEAKKYCTDCHRNVQHMRMKPISTREVAD KLVLGGATLGVVALATVAFGMKYTDQRPFCTSCHIMNPVGVTHKLSGHANISCNDCHAPHNLLAKLPFKAIAGARDVYMNTLGHPGDLILAGMETKEVVNANCKACHTMTNVEVASMEAKKYCTDCHRNVQHMRMKPISTREVAD 2j7a-a3-m1-cP_2j7a-a3-m1-cQ Crystal structure of cytochrome c nitrite reductase NrfHA complex from Desulfovibrio vulgaris Q72EF3 Q72EF3 2.3 X-RAY DIFFRACTION 67 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 494 495 2j7a-a1-m1-cA_2j7a-a1-m1-cB 2j7a-a1-m1-cD_2j7a-a1-m1-cE 2j7a-a2-m1-cG_2j7a-a2-m1-cH 2j7a-a2-m1-cJ_2j7a-a2-m1-cK 2j7a-a3-m1-cM_2j7a-a3-m1-cN 2vr0-a1-m1-cA_2vr0-a1-m1-cB 2vr0-a1-m1-cD_2vr0-a1-m1-cE GCSDVSTELKTPVYKTKLTAEEIRNSAFKPEFPKQYASYERNDETTVMTEYKGSVPFNKNDNVNPLPEGYRHAQPYLKNLWLGYPFMYEYREARGHTYAIQDFLHIDRINRYAEKGGLPATCWNCKTPKMMEWVKESGDGFWAKDVNEFRDKIDMKDHTIGCATCHDPQTMELRITSVPLTDYLVSQGKDPKKLPRNEMRALVCGQCHVEYYFNGPTMGVNKKPVFPWAEGFDPADMYRYYDKHGDLQVKGFEGKFADWTHPASKTPMIKAQHPEYETWINGTHGAAGVTCADCHMSYTRSDDKKKISSHWWTSPMKDPEMRACRQCHSDKTPDYLKSRVLFTQKRTFDLLLAAQEVSVKAHEAVRLANEYQGAKAAGYDDLMIQAREMVRKGQFFWDYVSAENSVGFHNPAKALDTLAQSQQFSQKAIDLAMEATQYGIGKDLSGDIKTIVPPILKMNRKLQQDPEFMKTHKWFQYLPVLPKADQVWDGQKRL GCSDVSTELKTPVYKTKLTAEEIRNSAFKPEFPKQYASYERNDETTVMTEYKGSVPFNKNDNVNPLPEGYRHAQPYLKNLWLGYPFMYEYREARGHTYAIQDFLHIDRINRYAEKGGLPATCWNCKTPKMMEWVKESGDGFWAKDVNEFRDKIDMKDHTIGCATCHDPQTMELRITSVPLTDYLVSQGKDPKKLPRNEMRALVCGQCHVEYYFNGPTMGVNKKPVFPWAEGFDPADMYRYYDKHGDLQVKGFEGKFADWTHPASKTPMIKAQHPEYETWINGTHGAAGVTCADCHMSYTRSDDKKKISSHWWTSPMKDPEMRACRQCHSDKTPDYLKSRVLFTQKRTFDLLLAAQEVSVKAHEAVRLANEYQGAKAAGYDDLMIQAREMVRKGQFFWDYVSAENSVGFHNPAKALDTLAQSQQFSQKAIDLAMEATQYGIGKDLSGDIKTIVPPILKMNRKLQQDPEFMKTHKWFQYLPVLPKADQVWDGQKRLV 2j7j-a1-m1-cA_2j7j-a1-m2-cA Invariance of the zinc finger module: a comparison of the free structure with those in nucleic-acid complexes P03001 P03001 1.65 X-RAY DIFFRACTION 69 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 85 85 MYVCHFENCGKAFKKHNQLKVHQFSHTQQLPYECPHEGCDKRFSLPSRLKRHEKVHAGYPCKKDDSCSFVGKTWTLYLKHVAECH MYVCHFENCGKAFKKHNQLKVHQFSHTQQLPYECPHEGCDKRFSLPSRLKRHEKVHAGYPCKKDDSCSFVGKTWTLYLKHVAECH 2j7l-a1-m1-cA_2j7l-a1-m2-cA E. coli P Pilus chaperone PapD in complex with a pilus biogenesis inhibitor, pilicide 2c P15319 P15319 2.6 X-RAY DIFFRACTION 94 1.0 562 (Escherichia coli) 562 (Escherichia coli) 210 210 AVSLDRTRAVFDGSEKSMTLDISNDNKQLPYLAQAWIENENQEKIITGPVIATPPVQRLDPGAKSMVRLSTTPDISKLPQDRESLFYFNLREIPPRSEQIALQTKIKLFYRPAAIKTRPNEVWQDQLILNKVSGGYRIENPTPYYVTVIGLGGSEKQAEEGEFETVMLSPRSEQTVKSANYNTPYLSYINDYGGRPVLSFICNGSRCSVK AVSLDRTRAVFDGSEKSMTLDISNDNKQLPYLAQAWIENENQEKIITGPVIATPPVQRLDPGAKSMVRLSTTPDISKLPQDRESLFYFNLREIPPRSEQIALQTKIKLFYRPAAIKTRPNEVWQDQLILNKVSGGYRIENPTPYYVTVIGLGGSEKQAEEGEFETVMLSPRSEQTVKSANYNTPYLSYINDYGGRPVLSFICNGSRCSVK 2j7t-a1-m1-cA_2j7t-a1-m2-cA Crystal structure of human serine threonine kinase-10 bound to SU11274 O94804 O94804 2 X-RAY DIFFRACTION 138 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 285 5owq-a3-m1-cB_5owq-a3-m1-cA HVRRDLDPNEVWEIVGELGDGAFGKVYKAKNKETGALAAAKVIEEELEDYIVEIEILATCDHPYIVKLLGAYYHDGKLWIMIEFCPGGAVDAIMLELDRGLTEPQIQVVCRQMLEALNFLHSKRIIHRDLKAGNVLMTLEGDIRLADFGVSAKNLKTLQKIGTPYWMAPEVVMCETMKDTPYDYKADIWSLGITLIEMAQIEPPHHELNPMRVLLKIAKSDPPTLLTPSKWSVEFRDFLKIALDKNPETRPSAAQLLEHPFVSSITSNKALRELVAEAKAEVMEE HVRRDLDPNEVWEIVGELGDGAFGKVYKAKNKETGALAAAKVIEEELEDYIVEIEILATCDHPYIVKLLGAYYHDGKLWIMIEFCPGGAVDAIMLELDRGLTEPQIQVVCRQMLEALNFLHSKRIIHRDLKAGNVLMTLEGDIRLADFGVSAKNLKTLQKIGTPYWMAPEVVMCETMKDTPYDYKADIWSLGITLIEMAQIEPPHHELNPMRVLLKIAKSDPPTLLTPSKWSVEFRDFLKIALDKNPETRPSAAQLLEHPFVSSITSNKALRELVAEAKAEVMEE 2j80-a1-m1-cB_2j80-a1-m1-cA Structure of Citrate-bound Periplasmic Domain of Sensor Histidine Kinase CitA P52687 P52687 1.6 X-RAY DIFFRACTION 44 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 120 125 ERLHYQVGQRALIQAQISAPELVEAVQKRDLARIKALIDPRSFSDATYITVGDASGQRLYHVNPDEIGKSEGGDSDEALINAKSYVSVRKGSLGSSLRGKSPIQDATGKVIGIVSVGYTI TEERLHYQVGQRALIQAQISAPELVEAVQKRDLARIKALIDPRSFSDATYITVGDASGQRLYHVNPDEIGKSEGGDSDEALINAKSYVSVRKGSLGSSLRGKSPIQDATGKVIGIVSVGYTIEQL 2j82-a1-m1-cA_2j82-a1-m2-cA Structural analysis of the PP2C Family Phosphatase tPphA from Thermosynechococcus elongatus Q8DGS1 Q8DGS1 1.28 X-RAY DIFFRACTION 25 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 220 220 MDVAGLTDCGLIRKSNQDAFYIDEKHQRFFIVADGMAGGEEASRLAVDHIRQYLETHLEDLQHDPVTLLRQAFAANHAIVEQQRQNSARADMGTTAVVILLDEKGDRAWCAHVGDSRIYRWRKDQLQQITSDHTWIAQARHVLSQCLGREDLSQIDIQPIDLEPGDRLLLCSDGLTEELTDDVISIYLSEPNVQKAAAALVDAAKTHGGRDNVTVVVISV MDVAGLTDCGLIRKSNQDAFYIDEKHQRFFIVADGMAGGEEASRLAVDHIRQYLETHLEDLQHDPVTLLRQAFAANHAIVEQQRQNSARADMGTTAVVILLDEKGDRAWCAHVGDSRIYRWRKDQLQQITSDHTWIAQARHVLSQCLGREDLSQIDIQPIDLEPGDRLLLCSDGLTEELTDDVISIYLSEPNVQKAAAALVDAAKTHGGRDNVTVVVISV 2j85-a1-m1-cB_2j85-a1-m1-cA B116 of Sulfolobus turreted icosahedral virus (STIV) Q6Q0K9 Q6Q0K9 2.39 X-RAY DIFFRACTION 43 1.0 269145 (Sulfolobus turreted icosahedral virus 1) 269145 (Sulfolobus turreted icosahedral virus 1) 112 113 GKVFLTNAFSINLKEFPTTITIDKLDEEDFCLKLELRLEDGTLINAIGHDSTINLVNTLCGTQLQKNRVEVKNEGDEALIIISQRLEEGKVLSDKEIKDYRQGKISFYEVWH GKVFLTNAFSINLKEFPTTITIDKLDEEDFCLKLELRLEDGTLINAIGHDSTINLVNTLCGTQLQKNRVEVKNEGDEALIIISQRLEEGKVLSDKEIKDYRQGKISFYEVWHH 2j87-a1-m1-cA_2j87-a1-m1-cD Structure of vaccinia virus thymidine kinase in complex with dTTP: insights for drug design O57203 O57203 3.1 X-RAY DIFFRACTION 70 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 158 171 2j87-a1-m1-cC_2j87-a1-m1-cB GHIQLIIGPMFSGKSTELIRRVRRYQIAQYKCVTIKYSNDNALEATKLCDVLQSITDFSVIGIDEGQFFPDIVEFCERMANEGKIVIVAALDGTFQRKPFNNILNLLILSEMVVKLTAVCMKCFKEASFSKRLGEETEIEIIGGNDMYQSVCRKCYVG GHIQLIIGPMFSGKSTELIRRVRRYQIAQYKCVTIKYSNDNRYGTWTHDKNNFEALEATKLCDVLQSITDFSVIGIDEGQFFPDIVEFCERMANEGKIVIVAALDGTFQRKPFNNILNLLILSEMVVKLTAVCMKCFKEASFSKRLGEETEIEIIGGNDMYQSVCRKCYVG 2j87-a1-m1-cB_2j87-a1-m1-cD Structure of vaccinia virus thymidine kinase in complex with dTTP: insights for drug design O57203 O57203 3.1 X-RAY DIFFRACTION 54 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 165 171 2j87-a1-m1-cA_2j87-a1-m1-cC GHIQLIIGPMFSGKSTELIRRVRRYQIAQYKCVTIKYSNDNHDKNNFEALEATKLCDVLQSITDFSVIGIDEGQFFPDIVEFCERMANEGKIVIVAALDGTFQRKPFNNILNLLILSEMVVKLTAVCMKCFKEASFSKRLGEETEIEIIGGNDMYQSVCRKCYVG GHIQLIIGPMFSGKSTELIRRVRRYQIAQYKCVTIKYSNDNRYGTWTHDKNNFEALEATKLCDVLQSITDFSVIGIDEGQFFPDIVEFCERMANEGKIVIVAALDGTFQRKPFNNILNLLILSEMVVKLTAVCMKCFKEASFSKRLGEETEIEIIGGNDMYQSVCRKCYVG 2j8h-a1-m2-cA_2j8h-a1-m4-cA Structure of the immunoglobulin tandem repeat A168-A169 of titin Q8WZ42 Q8WZ42 1.99 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 2j8h-a1-m1-cA_2j8h-a1-m3-cA MAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRIQEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDPVITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVAD MAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRIQEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDPVITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVAD 2j8h-a1-m3-cA_2j8h-a1-m4-cA Structure of the immunoglobulin tandem repeat A168-A169 of titin Q8WZ42 Q8WZ42 1.99 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 2j8h-a1-m1-cA_2j8h-a1-m2-cA MAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRIQEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDPVITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVAD MAPHFKEELRNLNVRYQSNATLVCKVTGHPKPIVKWYRQGKEIIADGLKYRIQEFKGGYHQLIIASVTDDDATVYQVRATNQGGSVSGTASLEVEVPAKIHLPKTLEGMGAVHALRGEVVSIKIPFSGKPDPVITWQKGQDLIDNNGHYQVIVTRSFTSLVFPNGVERKDAGFYVVCAKNRFGIDQKTVELDVAD 2j8m-a1-m1-cB_2j8m-a1-m1-cA Structure of P. aeruginosa acetyltransferase PA4866 Q9HUU7 Q9HUU7 1.44 X-RAY DIFFRACTION 115 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 170 171 1yvo-a1-m1-cA_1yvo-a1-m1-cB 2j8n-a1-m1-cA_2j8n-a1-m1-cB 2j8r-a1-m1-cA_2j8r-a1-m1-cB ASIRDAGVADLPGILAIYNDAVGNTTAIWNETPVDLANRQAWFDARARQGYPILVASDAAGEVLGYASYGDWRPFEGFRGTVEHSVYVRDDQRGKGLGVQLLQALIERARAQGLHVMVAAIESGNAASIGLHRRLGFEISGQMPQVGQKFGRWLDLTFMQLNLDPTRSAP SASIRDAGVADLPGILAIYNDAVGNTTAIWNETPVDLANRQAWFDARARQGYPILVASDAAGEVLGYASYGDWRPFEGFRGTVEHSVYVRDDQRGKGLGVQLLQALIERARAQGLHVMVAAIESGNAASIGLHRRLGFEISGQMPQVGQKFGRWLDLTFMQLNLDPTRSAP 2j8w-a1-m1-cA_2j8w-a1-m1-cB The crystal structure of cytochrome c' from Rubrivivax gelatinosus at 1.3 A Resolution and pH 8.0 P00142 P00142 1.29 X-RAY DIFFRACTION 33 1.0 28068 (Rubrivivax gelatinosus) 28068 (Rubrivivax gelatinosus) 128 128 1jaf-a1-m1-cA_1jaf-a1-m1-cB 1jaf-a1-m2-cA_1jaf-a1-m2-cB 2j9b-a1-m1-cA_2j9b-a1-m1-cB QFQKPGDAIEYRQSAFTLIANHFGRVAAMAQGKAPFDAKVAAENIALVSTLSKLPLTAFGPGTDKGHGTEAKPAVWSDAAGFKAAADKFAAAVDKLDAAGKTGDFAQIKAAVGETGGACKGCHDKFKE QFQKPGDAIEYRQSAFTLIANHFGRVAAMAQGKAPFDAKVAAENIALVSTLSKLPLTAFGPGTDKGHGTEAKPAVWSDAAGFKAAADKFAAAVDKLDAAGKTGDFAQIKAAVGETGGACKGCHDKFKE 2j96-a1-m1-cA_2j96-a1-m1-cB The E-configuration of alfa-Phycoerythrocyanin P00309 P00309 2.25 X-RAY DIFFRACTION 91 1.0 83541 (Mastigocladus laminosus) 83541 (Mastigocladus laminosus) 162 162 MKTPLTEAIAAADLRGSYLSNTELQAVFGRFNRARAGLEAARAFANNGKKWAEAAANHVYQKFPYTTQMQGPQYASTPEGKAKCVRDIDHYLRTISYCCVVGGTGPLDDYVVAGLKEFNSALGLSPSWYIAALEFVRDNHGLTGDVAGEANTYINYAINALS MKTPLTEAIAAADLRGSYLSNTELQAVFGRFNRARAGLEAARAFANNGKKWAEAAANHVYQKFPYTTQMQGPQYASTPEGKAKCVRDIDHYLRTISYCCVVGGTGPLDDYVVAGLKEFNSALGLSPSWYIAALEFVRDNHGLTGDVAGEANTYINYAINALS 2j97-a1-m1-cA_2j97-a1-m2-cA Human coronavirus 229E non structural protein 9 (Nsp9) P0C6X1 P0C6X1 1.75 X-RAY DIFFRACTION 82 1.0 11137 (Human coronavirus 229E) 11137 (Human coronavirus 229E) 98 98 KMKVKATKGEGDGGITSEGNALYNNAFMYAYVTTKPGMKYVKWEHDSGVVTVELEPPCRFVIDTPTGPQIKYLYFVKNLNNLRRGAVLGYIGATVRLQ KMKVKATKGEGDGGITSEGNALYNNAFMYAYVTTKPGMKYVKWEHDSGVVTVELEPPCRFVIDTPTGPQIKYLYFVKNLNNLRRGAVLGYIGATVRLQ 2j98-a1-m1-cB_2j98-a1-m1-cA Human coronavirus 229E non structural protein 9 cys69ala mutant (Nsp9) P0C6X1 P0C6X1 1.8 X-RAY DIFFRACTION 85 0.99 11137 (Human coronavirus 229E) 11137 (Human coronavirus 229E) 102 106 KPGKMKVKATKGEGDGGITSEGNALYNNEGGRAFMYAYVTTKPGMKYVKWEHDSGVVTVELEPPARFVIDTPTGPQIKYLYFVKNLNNLRRGAVLGYIGATV EIMPGKMKVKATKGEGDGGITSEGNALYNNEGGRAFMYAYVTTKPGMKYVKWEHDSGVVTVELEPPARFVIDTPTGPQIKYLYFVKNLNNLRRGAVLGYIGATVRL 2j9i-a1-m1-cA_2j9i-a1-m1-cL Lengsin is a survivor of an ancient family of class I glutamine synthetases in eukaryotes that has undergone evolutionary re- engineering for a tissue-specific role in the vertebrate eye lens. Q8CIX8 Q8CIX8 17.0 ELECTRON MICROSCOPY 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 421 421 2j9i-a1-m1-cB_2j9i-a1-m1-cG 2j9i-a1-m1-cC_2j9i-a1-m1-cH 2j9i-a1-m1-cD_2j9i-a1-m1-cI 2j9i-a1-m1-cE_2j9i-a1-m1-cJ 2j9i-a1-m1-cF_2j9i-a1-m1-cK SAEHVLTMLNEHAAAFVRFEATDAAGASRSKSIPAQFFEKVIHARGYLEDGEVNAGAAGAAASDIVLMPELSTAAVAAAAAAATAAVICDGGAAAAASPRYIARAALAQLQAAGAAAGLLSAFIADFCIFGVPEVINSKTISFPASTTAAAADQPQEAAAGGAAGAAAGAAGGAAAAGAAEICFLPEAAGAAAADNAFTLRTGLQEVARRYNAIASAAAAAAAAAAGAGSHSIWDVGAAGTNAFAGASGARATLTGAKWLAGLLAAAAAAAAAAAAAAAAAAAAAAGAAAAAATAWGAAAAACALNIAAAAAAKGAQIENKAGAAAANPYLVLAATVAAGLDGIQSAGAAAGAAAADAAAAAPSEIPGKMEDALAALEQDAECLKAGLGEAFIRAAVAAAKYELENEETDAEGNKFLEYFI SAEHVLTMLNEHAAAFVRFEATDAAGASRSKSIPAQFFEKVIHARGYLEDGEVNAGAAGAAASDIVLMPELSTAAVAAAAAAATAAVICDGGAAAAASPRYIARAALAQLQAAGAAAGLLSAFIADFCIFGVPEVINSKTISFPASTTAAAADQPQEAAAGGAAGAAAGAAGGAAAAGAAEICFLPEAAGAAAADNAFTLRTGLQEVARRYNAIASAAAAAAAAAAGAGSHSIWDVGAAGTNAFAGASGARATLTGAKWLAGLLAAAAAAAAAAAAAAAAAAAAAAGAAAAAATAWGAAAAACALNIAAAAAAKGAQIENKAGAAAANPYLVLAATVAAGLDGIQSAGAAAGAAAADAAAAAPSEIPGKMEDALAALEQDAECLKAGLGEAFIRAAVAAAKYELENEETDAEGNKFLEYFI 2j9i-a1-m1-cK_2j9i-a1-m1-cL Lengsin is a survivor of an ancient family of class I glutamine synthetases in eukaryotes that has undergone evolutionary re- engineering for a tissue-specific role in the vertebrate eye lens. Q8CIX8 Q8CIX8 17.0 ELECTRON MICROSCOPY 171 1.0 10090 (Mus musculus) 10090 (Mus musculus) 421 421 2j9i-a1-m1-cA_2j9i-a1-m1-cB 2j9i-a1-m1-cA_2j9i-a1-m1-cF 2j9i-a1-m1-cB_2j9i-a1-m1-cC 2j9i-a1-m1-cC_2j9i-a1-m1-cD 2j9i-a1-m1-cD_2j9i-a1-m1-cE 2j9i-a1-m1-cE_2j9i-a1-m1-cF 2j9i-a1-m1-cG_2j9i-a1-m1-cH 2j9i-a1-m1-cG_2j9i-a1-m1-cL 2j9i-a1-m1-cH_2j9i-a1-m1-cI 2j9i-a1-m1-cI_2j9i-a1-m1-cJ 2j9i-a1-m1-cJ_2j9i-a1-m1-cK SAEHVLTMLNEHAAAFVRFEATDAAGASRSKSIPAQFFEKVIHARGYLEDGEVNAGAAGAAASDIVLMPELSTAAVAAAAAAATAAVICDGGAAAAASPRYIARAALAQLQAAGAAAGLLSAFIADFCIFGVPEVINSKTISFPASTTAAAADQPQEAAAGGAAGAAAGAAGGAAAAGAAEICFLPEAAGAAAADNAFTLRTGLQEVARRYNAIASAAAAAAAAAAGAGSHSIWDVGAAGTNAFAGASGARATLTGAKWLAGLLAAAAAAAAAAAAAAAAAAAAAAGAAAAAATAWGAAAAACALNIAAAAAAKGAQIENKAGAAAANPYLVLAATVAAGLDGIQSAGAAAGAAAADAAAAAPSEIPGKMEDALAALEQDAECLKAGLGEAFIRAAVAAAKYELENEETDAEGNKFLEYFI SAEHVLTMLNEHAAAFVRFEATDAAGASRSKSIPAQFFEKVIHARGYLEDGEVNAGAAGAAASDIVLMPELSTAAVAAAAAAATAAVICDGGAAAAASPRYIARAALAQLQAAGAAAGLLSAFIADFCIFGVPEVINSKTISFPASTTAAAADQPQEAAAGGAAGAAAGAAGGAAAAGAAEICFLPEAAGAAAADNAFTLRTGLQEVARRYNAIASAAAAAAAAAAGAGSHSIWDVGAAGTNAFAGASGARATLTGAKWLAGLLAAAAAAAAAAAAAAAAAAAAAAGAAAAAATAWGAAAAACALNIAAAAAAKGAQIENKAGAAAANPYLVLAATVAAGLDGIQSAGAAAGAAAADAAAAAPSEIPGKMEDALAALEQDAECLKAGLGEAFIRAAVAAAKYELENEETDAEGNKFLEYFI 2j9l-a1-m1-cB_2j9l-a1-m1-cD Cytoplasmic Domain of the Human Chloride Transporter ClC-5 in complex with ATP P51795 P51795 2.3 X-RAY DIFFRACTION 19 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 2j9l-a1-m1-cA_2j9l-a1-m1-cC 2j9l-a1-m1-cF_2j9l-a1-m1-cD HKTLAMDVMKPRRNDPLLTVLTQDSMTVEDVETIISETTYSGFPVVVSRESQRLVGFVLRRDLIISIENARKKQDGVVSTSIIYFTEHSPPLPPYTPPTLKLRNILDLSPFTVTDLTPMEIVVDIFRKLGLRQCLVTHNGRLLGIITKKDVLKHIAQMANQLFNEFLEVLF HKTLAMDVMKPRRNDPLLTVLTQDSMTVEDVETIISETTYSGFPVVVSRESQRLVGFVLRRDLIISIENARKKQDGVVSTSIIYFTEHSPPLPPYTPPTLKLRNILDLSPFTVTDLTPMEIVVDIFRKLGLRQCLVTHNGRLLGIITKKDVLKHIAQMANQDLFNEFLEVL 2j9r-a1-m2-cA_2j9r-a1-m4-cA Thymidine kinase from B. anthracis in complex with dT. Q81JX0 Q81JX0 2.7 X-RAY DIFFRACTION 61 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 178 178 2j9r-a1-m1-cA_2j9r-a1-m3-cA SHMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCVKAVPVSASKDIFKHITEEMDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSACGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPTKQ SHMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCVKAVPVSASKDIFKHITEEMDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSACGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPTKQ 2j9r-a1-m3-cA_2j9r-a1-m4-cA Thymidine kinase from B. anthracis in complex with dT. Q81JX0 Q81JX0 2.7 X-RAY DIFFRACTION 121 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 178 178 2j9r-a1-m1-cA_2j9r-a1-m2-cA SHMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCVKAVPVSASKDIFKHITEEMDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSACGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPTKQ SHMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCVKAVPVSASKDIFKHITEEMDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSACGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPTKQ 2ja1-a1-m1-cA_2ja1-a1-m4-cA Thymidine kinase from B. cereus with TTP bound as phosphate donor. Q0H0H6 Q0H0H6 2.8 X-RAY DIFFRACTION 48 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 193 193 2ja1-a1-m2-cA_2ja1-a1-m3-cA GSMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEELDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSVCGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPA GSMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEELDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSVCGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPA 2ja1-a1-m2-cA_2ja1-a1-m4-cA Thymidine kinase from B. cereus with TTP bound as phosphate donor. Q0H0H6 Q0H0H6 2.8 X-RAY DIFFRACTION 29 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 193 193 2ja1-a1-m1-cA_2ja1-a1-m3-cA GSMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEELDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSVCGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPA GSMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEELDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSVCGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPA 2ja1-a1-m3-cA_2ja1-a1-m4-cA Thymidine kinase from B. cereus with TTP bound as phosphate donor. Q0H0H6 Q0H0H6 2.8 X-RAY DIFFRACTION 83 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 193 193 2ja1-a1-m1-cA_2ja1-a1-m2-cA GSMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEELDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSVCGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPA GSMYLINQNGWIEVICGSMFSGKSEELIRRVRRTQFAKQHAIVFKPCIDNRYSEEDVVSHNGLKVKAVPVSASKDIFEHITEELDVIAIDEVQFFDGDIVEVVQVLANRGYRVIVAGLDQDFRGLPFGQVPQLMAIAEHVTKLQAVCSVCGSPASRTQRLIDGEPAAFDDPIILVGASESYEPRCRHCHAVPA 2ja3-a2-m1-cD_2ja3-a2-m1-cC Cytoplasmic Domain of the Human Chloride Transporter ClC-5 in complex with ADP P51795 P51795 3.05 X-RAY DIFFRACTION 46 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 171 172 2j9l-a1-m1-cA_2j9l-a1-m1-cB 2j9l-a1-m1-cD_2j9l-a1-m1-cC 2j9l-a1-m1-cF_2j9l-a1-m1-cE 2ja3-a1-m1-cA_2ja3-a1-m1-cB 2ja3-a3-m1-cF_2ja3-a3-m1-cE HKTLAMDVMKPRRNDPLLTVLTQDSMTVEDVETIISETTYSGFPVVVSRESQRLVGFVLRRDLIISIENARKKQDGVVSTSIIYFTEHSPPLPPYTPPTLKLRNILDLSPFTVTDLTPMEIVVDIFRKLGLRQCLVTHNGRLLGIITKKDVLKHIAQMANQDLFNEFLEVL HKTLAMDVMKPRRNDPLLTVLTQDSMTVEDVETIISETTYSGFPVVVSRESQRLVGFVLRRDLIISIENARKKQDGVVSTSIIYFTEHSPPLPPYTPPTLKLRNILDLSPFTVTDLTPMEIVVDIFRKLGLRQCLVTHNGRLLGIITKKDVLKHIAQMANQLFNEFLEVLFQ 2ja9-a1-m1-cA_2ja9-a1-m2-cA Structure of the N-terminal deletion of yeast exosome component Rrp40 Q08285 Q08285 2.2 X-RAY DIFFRACTION 54 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 175 175 KRYIPSVNDFVIGVIIGTFSDSYKVSLQNFSSSVSLSYMAFPNASKKNRPTLQVGDLVYARVCTAEKELEAEIECFDSTTGRDAGFGILEDGMIIDVNLNFARQLLFNNDFPLLKVLAAHTKFEVAIGLNGKIWVKCEELSNTLACYRTIMECCQKNDTAAFKDIAKRQFKEILT KRYIPSVNDFVIGVIIGTFSDSYKVSLQNFSSSVSLSYMAFPNASKKNRPTLQVGDLVYARVCTAEKELEAEIECFDSTTGRDAGFGILEDGMIIDVNLNFARQLLFNNDFPLLKVLAAHTKFEVAIGLNGKIWVKCEELSNTLACYRTIMECCQKNDTAAFKDIAKRQFKEILT 2jaa-a1-m1-cA_2jaa-a1-m1-cB SeMet substituted Shigella Flexneri Ipad P18013 P18013 3.1 X-RAY DIFFRACTION 37 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 162 177 ISHRELWAKIANSINDINEQYLKVYEHAVSSYTQYQDFSAVLSSLAGWVNSLKKALEELKEKYKDKPLYPANNTVSQEQANKWLTELGGTIGKVSQKNGGYVVSINTPIDNLKSLNAKYQAWNAGFSAEDETKNNLQTLVQKYSNANSIFDNLVKVLSSTIS LDGDQISHRELWAKIANSINDINEQYLKVYEHAVSSYTQYQDFSAVLSSLAGWISPVKLQVNSLKKALEELKEKYKDKPLYPANNTVSQEQANKWLTELGGTIGKVSQKNGGYVVSINTPIDNLKSLDNLNAKYQAWNAGFSAEDETKNNLQTLVQKYSNANSIFDNLVKVLSSTIS 2jae-a1-m1-cB_2jae-a1-m1-cA The structure of L-amino acid oxidase from Rhodococcus opacus in the unbound state Q8VPD4 Q8VPD4 1.25 X-RAY DIFFRACTION 265 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 477 478 2jb1-a1-m1-cA_2jb1-a1-m1-cB 2jb2-a1-m1-cB_2jb2-a1-m1-cA 2jb3-a1-m1-cB_2jb3-a1-m1-cA DLIGKVKGSHSVVVLGGGPAGLCSAFELQKAGYKVTVLEARTRPGGRVWTARGGSEETDLSGETQKCTFSEGHFYNVGATRIPQSHITLDYCRELGVEIQGFGNQNANTFVNYQSDTSLSGQSVTYRAAKADTFGYMSELLKKATDQGALDQVLSREDKDALSEFLSDFGDLSDDGRYLGSSRRGYDSEPGAGLNFGTEKKPFAMQEVIRSGIGRNFSFDFGYDQAMMMFTPVGGMDRIYYAFQDRIGTDNIVFGAEVTSMKNVSEGVTVEYTAGGSKKSITADYAICTIPPHLVGRLQNNLPGDVLTALKAAKPSSSGKLGIEYSRRWWETEDRIYGGASNTDKDISQIMFPYDHYNSDRGVVVAYYSSGKRQEAFESLTHRQRLAKAIAEGSEIHGEKYTRDISSSFSGSWRRTKYSESAWANWAGATPEYEKLLEPVDKIYFAGDHLSNAIAWQHGALTSARDVVTHIHERVAQ DLIGKVKGSHSVVVLGGGPAGLCSAFELQKAGYKVTVLEARTRPGGRVWTARGGSEETDLSGETQKCTFSEGHFYNVGATRIPQSHITLDYCRELGVEIQGFGNQNANTFVNYQSDTSLSGQSVTYRAAKADTFGYMSELLKKATDQGALDQVLSREDKDALSEFLSDFGDLSDDGRYLGSSRRGYDSEPGAGLNFGTEKKPFAMQEVIRSGIGRNFSFDFGYDQAMMMFTPVGGMDRIYYAFQDRIGTDNIVFGAEVTSMKNVSEGVTVEYTAGGSKKSITADYAICTIPPHLVGRLQNNLPGDVLTALKAAKPSSSGKLGIEYSRRWWETEDRIYGGASNTDKDISQIMFPYDHYNSDRGVVVAYYSSGKRQEAFESLTHRQRLAKAIAEGSEIHGEKYTRDISSSFSGSWRRTKYSESAWANWAGSATPEYEKLLEPVDKIYFAGDHLSNAIAWQHGALTSARDVVTHIHERVAQ 2jah-a1-m1-cB_2jah-a1-m1-cD Biochemical and structural analysis of the Clavulanic acid dehydeogenase (CAD) from Streptomyces clavuligerus Q9LCV7 Q9LCV7 1.8 X-RAY DIFFRACTION 120 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 239 239 2jah-a1-m1-cA_2jah-a1-m1-cC 2jap-a1-m1-cA_2jap-a1-m1-cC 2jap-a1-m1-cB_2jap-a1-m1-cD SALQGKVALITGASSGIGEATARALAAEGAAVAIAARRVEKLRALGDELTAAGAKVHVLELDVADRQGVDAAVASTVEALGGLDILVNNAGILLGPVEDADTTDWTRIDTNLLGLYTRAALPHLLRSKGTVVQSSIAGRVNVRNAAVYQATKFGVNAFSETLRQEVTERGVRVVVIEPGTTDTELRGHITHTATKEYEQRISQIRKLQAQDIAEAVRYAVTAPHHATVHEIFIRPTDQV SALQGKVALITGASSGIGEATARALAAEGAAVAIAARRVEKLRALGDELTAAGAKVHVLELDVADRQGVDAAVASTVEALGGLDILVNNAGILLGPVEDADTTDWTRIDTNLLGLYTRAALPHLLRSKGTVVQSSIAGRVNVRNAAVYQATKFGVNAFSETLRQEVTERGVRVVVIEPGTTDTELRGHITHTATKEYEQRISQIRKLQAQDIAEAVRYAVTAPHHATVHEIFIRPTDQV 2jah-a1-m1-cD_2jah-a1-m1-cC Biochemical and structural analysis of the Clavulanic acid dehydeogenase (CAD) from Streptomyces clavuligerus Q9LCV7 Q9LCV7 1.8 X-RAY DIFFRACTION 98 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 239 240 2jah-a1-m1-cA_2jah-a1-m1-cB 2jap-a1-m1-cA_2jap-a1-m1-cB 2jap-a1-m1-cD_2jap-a1-m1-cC SALQGKVALITGASSGIGEATARALAAEGAAVAIAARRVEKLRALGDELTAAGAKVHVLELDVADRQGVDAAVASTVEALGGLDILVNNAGILLGPVEDADTTDWTRIDTNLLGLYTRAALPHLLRSKGTVVQSSIAGRVNVRNAAVYQATKFGVNAFSETLRQEVTERGVRVVVIEPGTTDTELRGHITHTATKEYEQRISQIRKLQAQDIAEAVRYAVTAPHHATVHEIFIRPTDQV PSALQGKVALITGASSGIGEATARALAAEGAAVAIAARRVEKLRALGDELTAAGAKVHVLELDVADRQGVDAAVASTVEALGGLDILVNNAGILLGPVEDADTTDWTRIDTNLLGLYTRAALPHLLRSKGTVVQSSIAGRVNVRNAAVYQATKFGVNAFSETLRQEVTERGVRVVVIEPGTTDTELRGHITHTATKEYEQRISQIRKLQAQDIAEAVRYAVTAPHHATVHEIFIRPTDQV 2jan-a2-m1-cB_2jan-a2-m1-cC TYROSYL-TRNA SYNTHETASE FROM MYCOBACTERIUM TUBERCULOSIS IN UNLIGANDED STATE P9WFT1 P9WFT1 2.9 X-RAY DIFFRACTION 111 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 405 407 2jan-a1-m1-cD_2jan-a1-m1-cA ILDELSWRGLIAQSTDLDTLAAEAQRGPMTVYAGFDPTAPSLHAGHLVPLLTLRRFQRAGHRPIVLAGGATGMIGTVAEWTERIRGQLERFVDFDDSPMGAIVENNLEWTGSLSAIEFLRDIGKHFSVNVMLARDTIRRRLAGEGISYTEFSYLLLQANDYVELHRRHGCTLQIGGADQWGNIIAGVRLVRQKLGATVHALTVPLVTAADGTKFGKSTGGGSLWLDPQMTSPYAWYQYFVNTADADVIRYLRWFTFLSADELAELEQATAQRPQQRAAQRRLASELTVLVHGEAATAAVEHASRALFGRGELARLDEATLAAALRETTVAELKPGSPDGIVDLLVASGLSASKGAARRTIHEGGVSVNNIRVDNEEWVPQSSDFLHGRWLVLRRGKRSIAGVERI ILDELSWRGLIAQSTDLDTLAAEAQRGPMTVYAGFDPTAPSLHAGHLVPLLTLRRFQRAGHRPIVLAGGATGMIGDTVAEWTERIRGQLERFVDFDDSPMGAIVENNLEWTGSLSAIEFLRDIGKHFSVNVMLARDTIRRRLAGEGISYTEFSYLLLQANDYVELHRRHGCTLQIGGADQWGNIIAGVRLVRQKLGATVHALTVPLVTAADGTKFGKSTGGGSLWLDPQMTSPYAWYQYFVNTADADVIRYLRWFTFLSADELAELEQATAQRPQQRAAQRRLASELTVLVHGEAATAAVEHASRALFGRGELARLDEATLAAALRETTVAELKPGSPDGIVDLLVASGLSASKGAARRTIHEGGVSVNNIRVDNEEWVPQSSDFLHGRWLVLRRGKRSIAGVERIG 2jar-a1-m1-cA_2jar-a1-m2-cA Crystal structure of D12N variant of mouse cytosolic 5'(3')- deoxyribonucleotidase (cdN) in complex with deoxyuridine 5'- monophosphate Q9JM14 Q9JM14 1.94 X-RAY DIFFRACTION 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 196 196 2jao-a1-m1-cA_2jao-a1-m2-cA KRPVRVLVNMDGVLADFESGLLQGFRRRFPEEPHVPLEQRRGFLANEQYGALRPDLAEKVASVYESPGFFLNLEPIPGALDALREMNDMKDTEVFICTTPLLKYDHCVGEKYRWVEQNLGPEFVERIILTRDKTVVMGDLLIDDKDNIQGLEETPSWEHILFTCCHNQHLALPPTRRRLLSWSDNWRGIIESKRAS KRPVRVLVNMDGVLADFESGLLQGFRRRFPEEPHVPLEQRRGFLANEQYGALRPDLAEKVASVYESPGFFLNLEPIPGALDALREMNDMKDTEVFICTTPLLKYDHCVGEKYRWVEQNLGPEFVERIILTRDKTVVMGDLLIDDKDNIQGLEETPSWEHILFTCCHNQHLALPPTRRRLLSWSDNWRGIIESKRAS 2jas-a3-m1-cF_2jas-a3-m1-cE Structure of deoxyadenosine kinase from M.mycoides with bound dATP Q93IG4 Q93IG4 2.7 X-RAY DIFFRACTION 50 0.995 44101 (Mycoplasma mycoides subsp. mycoides SC) 44101 (Mycoplasma mycoides subsp. mycoides SC) 193 194 2jaq-a1-m1-cB_2jaq-a1-m1-cA 2jas-a1-m1-cB_2jas-a1-m1-cA 2jas-a2-m1-cD_2jas-a2-m1-cC 2jat-a1-m1-cA_2jat-a1-m1-cB HMKIAIFGTVGAGKSTISAEISKKLGYEIFKEPVEENPYFEQYYKDLKKTVFKMQIYMLTARSKQLKQAKNLENIIFDRTLLEDPIFMKVNYDLNNVDQTDYNTYIDFYNNVVLENSFDIVIYLRVSTKTAISRIKKRGRSEELLIGEEYWETLNKNYEEFYKQNVYDFPFFVVDAELDVKTQIELIMNKLNS MKIAIFGTVGAGKSTISAEISKKLGYEIFKEPVEENPYFEQYYKDLKKTVFKMQIYMLTARSKQLKQAKNLENIIFDRTLLEDPIFMKVNYDLNNVDQTDYNTYIDFYNNVVLENLLSFDIVIYLRVSTKTAISRIKKRGRSEELLIGEEYWETLNKNYEEFYKQNVYDFPFFVVDAELDVKTQIELIMNKLNS 2jax-a1-m1-cA_2jax-a1-m2-cA Universal Stress Protein Rv2623 from Mycobaterium Tuberculosis P9WFD7 P9WFD7 3.22 X-RAY DIFFRACTION 66 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 257 257 LGIIVGIDDSPAAQVAVRWAARDAELRKIPLTLVHAVSRWQQDHGRHLIDDALKVVEQASLRAGPPTVHSEIVPAAAVPTLVDSKDAVLVVGCLGSGRWPGRLLGSVSSGLLRHAHCPVVIIHDAPVLVGVDGSSASELATAIAFDEASRRNVDLVALHAWSDVDVSEWPGIDWPATQSAEQVLAERLAGWQERYPNVAITRVVVRDQPARQLVQRSEEAQLVVVGSRGRGGYAGLVGSVGETVAQLARTPVIVARE LGIIVGIDDSPAAQVAVRWAARDAELRKIPLTLVHAVSRWQQDHGRHLIDDALKVVEQASLRAGPPTVHSEIVPAAAVPTLVDSKDAVLVVGCLGSGRWPGRLLGSVSSGLLRHAHCPVVIIHDAPVLVGVDGSSASELATAIAFDEASRRNVDLVALHAWSDVDVSEWPGIDWPATQSAEQVLAERLAGWQERYPNVAITRVVVRDQPARQLVQRSEEAQLVVVGSRGRGGYAGLVGSVGETVAQLARTPVIVARE 2jb0-a1-m2-cA_2jb0-a1-m4-cA CRYSTAL STRUCTURE OF THE MUTANT H573A OF THE NUCLEASE DOMAIN OF COLE7 IN COMPLEX WITH IM7 Q03708 Q03708 1.91 X-RAY DIFFRACTION 27 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 84 84 1ayi-a1-m1-cA_1ayi-a1-m2-cA 1cei-a1-m1-cA_1cei-a1-m2-cA 2jaz-a1-m1-cA_2jaz-a1-m1-cC 2jaz-a1-m2-cA_2jaz-a1-m2-cC 2jb0-a1-m1-cA_2jb0-a1-m3-cA 2jbg-a1-m1-cA_2jbg-a1-m1-cC 2jbg-a1-m2-cA_2jbg-a1-m2-cC LKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQ LKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQ 2jb0-a1-m3-cA_2jb0-a1-m4-cA CRYSTAL STRUCTURE OF THE MUTANT H573A OF THE NUCLEASE DOMAIN OF COLE7 IN COMPLEX WITH IM7 Q03708 Q03708 1.91 X-RAY DIFFRACTION 20 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 84 84 2jaz-a1-m1-cA_2jaz-a1-m2-cC 2jaz-a1-m1-cC_2jaz-a1-m2-cA 2jb0-a1-m1-cA_2jb0-a1-m2-cA 2jbg-a1-m1-cA_2jbg-a1-m2-cC 2jbg-a1-m1-cC_2jbg-a1-m2-cA LKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQ LKNSISDYTEAEFVQLLKEIEKENVAATDDVLDVLLEHFVKITEHPDGTDLIYYPSDNRDDSPEGIVKEIKEWRAANGKPGFKQ 2jb6-a2-m1-cL_2jb6-a2-m2-cL Fab fragment in complex with small molecule hapten, crystal form-2 P0DOY2 P0DOY2 2.85 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 2jb6-a1-m1-cA_2jb6-a1-m2-cA LTQPASVSGSPGQSITISCTGTSSDVGSNNYVSWYQQHPGKAPKLMIYGGSNRPSGVSNRFSGSKSGNTASLTISGLQAEDEADYYCRSWDSNLSYSVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP LTQPASVSGSPGQSITISCTGTSSDVGSNNYVSWYQQHPGKAPKLMIYGGSNRPSGVSNRFSGSKSGNTASLTISGLQAEDEADYYCRSWDSNLSYSVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP 2jba-a1-m1-cB_2jba-a1-m1-cA PhoB response regulator receiver domain constitutively-active double mutant D53A and Y102C. P0AFJ5 P0AFJ5 1.45 X-RAY DIFFRACTION 39 0.992 562 (Escherichia coli) 562 (Escherichia coli) 121 125 ARRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLAWMLPGGSGIQFIKHLKRESMTRDIPVVMLTARGEEEDRVRGLETGADDCITKPFSPKELVARIKAVMRR ARRILVVEDEAPIREMVCFVLEQNGFQPVEAEDYDSAVNQLNEPWPDLILLAWMLPGGSGIQFIKHLRRESMTRDIPVVMLTARGEEEDRVRGLETGADDCITKPFSPKELVARIKAVMRRISPM 2jbh-a1-m1-cB_2jbh-a1-m2-cB Human phosphoribosyl transferase domain containing 1 Q9NRG1 Q9NRG1 1.7 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 2jbh-a1-m1-cA_2jbh-a1-m2-cA PDYGRGVVIMDDWPGYDLNLFTYPQHYYGDLEYVLIPHGIIVDRIERLAKDIMKDIGYSDIMVLCVLKGGYKFADLVEHLKNISRNSDRFVSMKVDFIRLKSYRNDQSMGEMQIIGGDDLSTLAGKNVLIVEDVVGTGRTMKALLSNIEKYKPNMIKVASLLVKRTGFRPDYAGFEIPNLFVVGYALDYNEYFRDLNHICVINEHGKEKYRV PDYGRGVVIMDDWPGYDLNLFTYPQHYYGDLEYVLIPHGIIVDRIERLAKDIMKDIGYSDIMVLCVLKGGYKFADLVEHLKNISRNSDRFVSMKVDFIRLKSYRNDQSMGEMQIIGGDDLSTLAGKNVLIVEDVVGTGRTMKALLSNIEKYKPNMIKVASLLVKRTGFRPDYAGFEIPNLFVVGYALDYNEYFRDLNHICVINEHGKEKYRV 2jbr-a1-m1-cA_2jbr-a1-m1-cD Structure of the monooxygenase component of p-hydroxyphenylacetate hydroxylase from Acinetobacter baumanni Q6Q272 Q6Q272 2.3 X-RAY DIFFRACTION 117 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 399 399 2jbr-a1-m1-cB_2jbr-a1-m1-cC 2jbs-a1-m1-cA_2jbs-a1-m1-cD 2jbs-a1-m1-cB_2jbs-a1-m1-cC 2jbt-a1-m1-cB_2jbt-a1-m1-cC 2jbt-a1-m1-cD_2jbt-a1-m1-cA RLVYTHAQTPDVSGVSMLEKIQQILPQIAKNAESAEQLRRVPDENIKLLKEIGLHRAFQPKVYGGLEMSLPDFANCIVTLAGACAGTAWAFSLLCTHSHQIAMFSKQLQDEIWLKDPDATASSSIAPFGKVEEVEGGIILNGDYGWSSGCDHAEYAIVGFNRFDADGNKIYSFGVIPRSDYEIVDNWYAQAIKSSGSKMLKLVNVFIPEYRISKAKDMMEGKSAGFGLYPDSKIFYTPYRPYFASGFSAVSLGIAERMIEAFKEKQRNRVRAYTGANVGLATPALMRIAESTHQVAAARALLEKTWEDHRIHGLNHQYPNKETLAFWRTNQAYAVKMCIEAVDRLMAAAGATSFMDNSELQRLFRDAHMTGAHAYTDYDVCAQILGRELMGMEPDPTMV RLVYTHAQTPDVSGVSMLEKIQQILPQIAKNAESAEQLRRVPDENIKLLKEIGLHRAFQPKVYGGLEMSLPDFANCIVTLAGACAGTAWAFSLLCTHSHQIAMFSKQLQDEIWLKDPDATASSSIAPFGKVEEVEGGIILNGDYGWSSGCDHAEYAIVGFNRFDADGNKIYSFGVIPRSDYEIVDNWYAQAIKSSGSKMLKLVNVFIPEYRISKAKDMMEGKSAGFGLYPDSKIFYTPYRPYFASGFSAVSLGIAERMIEAFKEKQRNRVRAYTGANVGLATPALMRIAESTHQVAAARALLEKTWEDHRIHGLNHQYPNKETLAFWRTNQAYAVKMCIEAVDRLMAAAGATSFMDNSELQRLFRDAHMTGAHAYTDYDVCAQILGRELMGMEPDPTMV 2jbr-a1-m1-cC_2jbr-a1-m1-cD Structure of the monooxygenase component of p-hydroxyphenylacetate hydroxylase from Acinetobacter baumanni Q6Q272 Q6Q272 2.3 X-RAY DIFFRACTION 145 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 399 399 2jbr-a1-m1-cB_2jbr-a1-m1-cA 2jbs-a1-m1-cA_2jbs-a1-m1-cB 2jbs-a1-m1-cC_2jbs-a1-m1-cD 2jbt-a1-m1-cB_2jbt-a1-m1-cA 2jbt-a1-m1-cC_2jbt-a1-m1-cD RLVYTHAQTPDVSGVSMLEKIQQILPQIAKNAESAEQLRRVPDENIKLLKEIGLHRAFQPKVYGGLEMSLPDFANCIVTLAGACAGTAWAFSLLCTHSHQIAMFSKQLQDEIWLKDPDATASSSIAPFGKVEEVEGGIILNGDYGWSSGCDHAEYAIVGFNRFDADGNKIYSFGVIPRSDYEIVDNWYAQAIKSSGSKMLKLVNVFIPEYRISKAKDMMEGKSAGFGLYPDSKIFYTPYRPYFASGFSAVSLGIAERMIEAFKEKQRNRVRAYTGANVGLATPALMRIAESTHQVAAARALLEKTWEDHRIHGLNHQYPNKETLAFWRTNQAYAVKMCIEAVDRLMAAAGATSFMDNSELQRLFRDAHMTGAHAYTDYDVCAQILGRELMGMEPDPTMV RLVYTHAQTPDVSGVSMLEKIQQILPQIAKNAESAEQLRRVPDENIKLLKEIGLHRAFQPKVYGGLEMSLPDFANCIVTLAGACAGTAWAFSLLCTHSHQIAMFSKQLQDEIWLKDPDATASSSIAPFGKVEEVEGGIILNGDYGWSSGCDHAEYAIVGFNRFDADGNKIYSFGVIPRSDYEIVDNWYAQAIKSSGSKMLKLVNVFIPEYRISKAKDMMEGKSAGFGLYPDSKIFYTPYRPYFASGFSAVSLGIAERMIEAFKEKQRNRVRAYTGANVGLATPALMRIAESTHQVAAARALLEKTWEDHRIHGLNHQYPNKETLAFWRTNQAYAVKMCIEAVDRLMAAAGATSFMDNSELQRLFRDAHMTGAHAYTDYDVCAQILGRELMGMEPDPTMV 2jbw-a2-m1-cC_2jbw-a2-m1-cD Crystal Structure of the 2,6-dihydroxy-pseudo-oxynicotine Hydrolase. Q93NG6 Q93NG6 2.1 X-RAY DIFFRACTION 57 1.0 29320 (Paenarthrobacter nicotinovorans) 29320 (Paenarthrobacter nicotinovorans) 341 348 2jbw-a1-m1-cA_2jbw-a1-m1-cB NWGRLILDGVSYSDVGARDRPKEITWFDYWSLANEYEQEAERKVALGHDLSAGELLSAALCAQYAQFLWFDERRQKGQARKVELYQKAAPLLSPPAERHELVVDGIPPVYVRIPEGPGPHPAVILGGLESTKEESFQENLVLDRGATATFDGPGQGEFEYKRIAGDYEKYTSAVVDLLTKLEAIRNDAIGVLGRSLGGNYALKSAACEPRLAACISWGGFSDLDYWDLETPLTKESWKYVSKVDTLEEARLHVHAALETRDVLSQIACPTYILHGVHDEVPLSFVDTVLELVPAEHLNLVVEKDGDHCCHNLGIRPRLEADWLYDVLVAGKKVAPTKGWPL VKPEDEDNWGRLILDGVSYSDVGARDRPKEITWFDYWSLANEYEQEAERKVALGHDLSAGELLSAALCAQYAQFLWFDERRQKGQARKVELYQKAAPLLSPPAERHELVVDGIPPVYVRIPEGPGPHPAVILGGLESTKEESFQENLVLDRGATATFDGPGQGEFEYKRIAGDYEKYTSAVVDLLTKLEAIRNDAIGVLGRSLGGNYALKSAACEPRLAACISWGGFSDLDYWDLETPLTKESWKYVSKVDTLEEARLHVHAALETRDVLSQIACPTYILHGVHDEVPLSFVDTVLELVPAEHLNLVVEKDGDHCCHNLGIRPRLEADWLYDVLVAGKKVAPTKGWPL 2jbx-a1-m1-cB_2jbx-a1-m1-cA Crystal Structure of the myxoma virus anti-apoptotic protein M11L Q85295 Q85295 2.73 X-RAY DIFFRACTION 73 1.0 10273 (Myxoma virus) 10273 (Myxoma virus) 123 126 SRLKTAVYDYLNDVDITECTEDLLCQLSNCCDFINETYAKNYDTLYDIERDILSYNIVNIKNTLTFALRDASPSVKLATLTLLASVIKKLNKIQHTDAAFSEVIDGIVAEEQQVIGFIQKKCK PSRLKTAVYDYLNDVDITECTEDLLCQLSNCCDFINETYAKNYDTLYDIERDILSYNIVNIKNTLTFALRDASPSVKLATLTLLASVIKKLNKIQHTDAAFSEVIDGIVAEEQQVIGFIQKKCKYN 2jc2-a2-m1-cC_2jc2-a2-m1-cD The crystal structure of the natural F112L human sorcin mutant P30626 P30626 2.5 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 2jc2-a1-m1-cA_2jc2-a1-m1-cB DPLYGYFAAVAGQDGQIDADELQRCLTQSGIAGGYKPFNLETCRLMVSMLDRDMSGTMGFNEFKELWAVLNGWRQHFISLDTDRSGTVDPQELQKALTTMGFRLSPQAVNSIAKRYSTNGKITFDDYIACCVKLRALTDSFRRRDTAQQGVVNFPYDDFIQCVMSV DPLYGYFAAVAGQDGQIDADELQRCLTQSGIAGGYKPFNLETCRLMVSMLDRDMSGTMGFNEFKELWAVLNGWRQHFISLDTDRSGTVDPQELQKALTTMGFRLSPQAVNSIAKRYSTNGKITFDDYIACCVKLRALTDSFRRRDTAQQGVVNFPYDDFIQCVMSV 2jc6-a1-m1-cC_2jc6-a1-m1-cA Crystal structure of human calmodulin-dependent protein kinase 1D Q8IU85 Q8IU85 2.3 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 277 278 SWKKQAEDIKKIFEFKETLGTGAFSEVVLAEEKATGKLFAVKCIPKKASIENEIAVLRKIKHENIVALEDIYESPNHLYLVMQLVSGGELFDRIVEKGFYTEKDASTLIRQVLDAVYYLHRMGIVHRDLKPENLLYYSQDEESKIMISPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDSKLFEQILKAEYEFDSPYWDDISDSAKDFIRNLMEKDPNKRYTCEQAARHPWIAGDTALNKNIHESVSAQIRKNFAKSKWRQAFNAT SWKKQAEDIKKIFEFKETLGTGAFSEVVLAEEKATGKLFAVKCIPKKASSIENEIAVLRKIKHENIVALEDIYESPNHLYLVMQLVSGGELFDRIVEKGFYTEKDASTLIRQVLDAVYYLHRMGIVHRDLKPENLLYYSQDEESKIMISPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDSKLFEQILKAEYEFDSPYWDDISDSAKDFIRNLMEKDPNKRYTCEQAARHPWIAGDTALNKNIHESVSAQIRKNFAKSKWRQAFNAT 2jcg-a1-m1-cA_2jcg-a1-m2-cA Apo form of the catabolite control protein A (ccpA) from bacillus megaterium, with the DNA binding domain P46828 P46828 2.6 X-RAY DIFFRACTION 27 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 322 322 VTIYDVAREASVSMATVSRVVNGNPNVKPSTRKKVLETIERLGYRPNAVTTTVGVIIPDISNIFYAELARGIEDIASMYKYNIILSNSDQNQDKQLHLLNNMLGKQVDGIIFMSGNVTEEHVEELKKSPVPVVLAASIESTNQIPSVTIDYEQAAFDAVQSLIDSGHKNIAFVSGTLEEPINHAKKVKGYKRALTESGLPVRDSYIVEGDYTYDSGIEAVEKLLEEDEKPTAIFVGTDEMALGVIHGAQDRGLNVPNDLEIIGFDNTRLSTMVRPQLTSVVQPMYDIGAVAMRLLTKYMNKETVDSSIVELPHRIEFRQSTK VTIYDVAREASVSMATVSRVVNGNPNVKPSTRKKVLETIERLGYRPNAVTTTVGVIIPDISNIFYAELARGIEDIASMYKYNIILSNSDQNQDKQLHLLNNMLGKQVDGIIFMSGNVTEEHVEELKKSPVPVVLAASIESTNQIPSVTIDYEQAAFDAVQSLIDSGHKNIAFVSGTLEEPINHAKKVKGYKRALTESGLPVRDSYIVEGDYTYDSGIEAVEKLLEEDEKPTAIFVGTDEMALGVIHGAQDRGLNVPNDLEIIGFDNTRLSTMVRPQLTSVVQPMYDIGAVAMRLLTKYMNKETVDSSIVELPHRIEFRQSTK 2jcw-a1-m1-cA_2jcw-a1-m2-cA REDUCED BRIDGE-BROKEN YEAST CU/ZN SUPEROXIDE DISMUTASE ROOM TEMPERATURE (298K) STRUCTURE P00445 P00445 1.7 X-RAY DIFFRACTION 66 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 153 153 1b4l-a1-m1-cA_1b4l-a1-m2-cA 1b4t-a1-m1-cA_1b4t-a1-m2-cA 1f18-a1-m1-cA_1f18-a1-m2-cA 1f1a-a1-m1-cA_1f1a-a1-m2-cA 1f1d-a1-m1-cA_1f1d-a1-m2-cA 1f1g-a1-m1-cA_1f1g-a1-m1-cB 1f1g-a2-m1-cC_1f1g-a2-m1-cD 1f1g-a3-m1-cE_1f1g-a3-m1-cF 1jcv-a1-m1-cA_1jcv-a1-m2-cA 1sdy-a1-m1-cA_1sdy-a1-m1-cB 1sdy-a1-m1-cD_1sdy-a1-m1-cC 1yaz-a1-m1-cA_1yaz-a1-m2-cA 1yso-a1-m1-cA_1yso-a1-m2-cA VQAVAVLKGDAGVSGVVKFEQASESEPTTVSYEIAGNSPNAERGFHIHEFGDATNGCVSAGPHFNPFKKTHGAPTDEVRHVGDMGNVKTDENGVAKGSFKDSLIKLIGPTSVVGRSVVIHAGQDDLGKGDTEESLKTGNAGPRPACGVIGLTN VQAVAVLKGDAGVSGVVKFEQASESEPTTVSYEIAGNSPNAERGFHIHEFGDATNGCVSAGPHFNPFKKTHGAPTDEVRHVGDMGNVKTDENGVAKGSFKDSLIKLIGPTSVVGRSVVIHAGQDDLGKGDTEESLKTGNAGPRPACGVIGLTN 2jd1-a1-m1-cA_2jd1-a1-m1-cB X-ray structure of 1-deoxy-D-xylulose 5-phosphate reductoisomerase, DXR, Rv2870c, from Mycobacterium tuberculosis, in complex with manganese and NADPH P9WNS1 P9WNS1 2 X-RAY DIFFRACTION 151 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 379 379 2c82-a1-m1-cA_2c82-a1-m1-cB 2jcv-a1-m1-cA_2jcv-a1-m1-cB 2jcx-a1-m1-cA_2jcx-a1-m1-cB 2jcy-a1-m1-cA_2jcy-a1-m1-cB 2jd0-a1-m1-cA_2jd0-a1-m1-cB 2jd2-a1-m1-cA_2jd2-a1-m1-cB 2y1c-a1-m1-cA_2y1c-a1-m1-cB 2y1d-a1-m1-cA_2y1d-a1-m1-cB 2y1e-a1-m1-cA_2y1e-a1-m1-cB 2y1f-a1-m1-cA_2y1f-a1-m1-cB 2y1g-a1-m1-cA_2y1g-a1-m1-cB 3ras-a1-m1-cA_3ras-a1-m1-cB 3zhx-a1-m1-cA_3zhx-a1-m1-cB 3zhy-a1-m1-cB_3zhy-a1-m1-cA 3zhz-a1-m1-cA_3zhz-a1-m1-cB 3zi0-a1-m1-cA_3zi0-a1-m1-cB 4a03-a1-m1-cA_4a03-a1-m1-cB 4aic-a1-m1-cA_4aic-a1-m1-cB 4ooe-a1-m1-cA_4ooe-a1-m1-cB 4ooe-a2-m1-cC_4ooe-a2-m1-cD 4oof-a1-m1-cA_4oof-a1-m1-cB 4rcv-a1-m1-cA_4rcv-a1-m1-cB GRLRVVVLGSTGSIGTQALQVIADNPDRFEVVGLAAGGAHLDTLLRQRAQTGVTNIAVADEHAAQRVGDIPYHGSDAATRLVEQTEADVVLNALVGALGLRPTLAALKTGARLALANKESLVAGGSLVLRAARPGQIVPVDSEHSALAQCLRGGTPDEVAKLVLTASGGPFRGWSAADLEHVTPEQAGAHPTWSMGPMNTLNSASLVNKGLEVIETHLLFGIPYDRIDVVVHPQSIIHSMVTFIDGSTIAQASPPDMKLPISLALGWPRRVSGAAAACDFHTASSWEFEPLDTDVFPAVELARQAGVAGGCMTAVYNAANEEAAAAFLAGRIGFPAIVGIIADVLHAADQWAVEPATVDDVLDAQRWARERAQRAVSGM GRLRVVVLGSTGSIGTQALQVIADNPDRFEVVGLAAGGAHLDTLLRQRAQTGVTNIAVADEHAAQRVGDIPYHGSDAATRLVEQTEADVVLNALVGALGLRPTLAALKTGARLALANKESLVAGGSLVLRAARPGQIVPVDSEHSALAQCLRGGTPDEVAKLVLTASGGPFRGWSAADLEHVTPEQAGAHPTWSMGPMNTLNSASLVNKGLEVIETHLLFGIPYDRIDVVVHPQSIIHSMVTFIDGSTIAQASPPDMKLPISLALGWPRRVSGAAAACDFHTASSWEFEPLDTDVFPAVELARQAGVAGGCMTAVYNAANEEAAAAFLAGRIGFPAIVGIIADVLHAADQWAVEPATVDDVLDAQRWARERAQRAVSGM 2jd3-a1-m1-cA_2jd3-a1-m1-cB ParR from plasmid pB171 2.8 X-RAY DIFFRACTION 213 1.0 562 (Escherichia coli) 562 (Escherichia coli) 90 90 KRKKYTLYLHPEKAADFQTLEAIESVPRSERGELFRNAFISGMALHQLDPRLPVLLTAILSEEFSADQVVTLLSQTTGWKPSQADIRAVL KRKKYTLYLHPEKAADFQTLEAIESVPRSERGELFRNAFISGMALHQLDPRLPVLLTAILSEEFSADQVVTLLSQTTGWKPSQADIRAVL 2jd5-a1-m1-cA_2jd5-a1-m1-cB Sky1p bound to Npl3p-derived substrate peptide Q03656 Q03656 2.5 X-RAY DIFFRACTION 34 0.992 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 353 360 2jd5-a1-m1-cC_2jd5-a1-m1-cB FHPAFKGEPYKDARYILVRKLGWGHFSTVWLAKDMVNNTHVAMKIVRGDKVYTEAAEDEIKLLQRVNDADNTKEDSMGANHILKLLDHFNHKGPNGVHVVMVFEVLGENLLALIKKYEHRGIPLIYVKQISKQLLLGLDYMHRRCGIIHTDIKPENVLMEIVDSPENLIQIKIADLGNACWYDEHYTNSIQTREYRSPEVLLGAPWGCGADIWSTACLIFELITGDFLFTKDDDHIAQIIELLGELPSYLLRNGKYTRTFFNSLLRNISKLKFWPLEDVLTEKYKFSKDEAKEISDFLSPMLQLDPRKRADAGGLVNHPWLKDTLGMEEIRVPDRELYGSGSDIPGWFEEVRD PAFKGEPYKDARYILVRKLGWGHFSTVWLAKDMVNNTHVAMKIVRGDKVYTEAAEDEIKLLQRVNDADNTKEDSMGANHILKLLDHFNHKGPNGVHVVMVFEVLGENLLALIKKYEHRGIPLIYVKQISKQLLLGLDYMHRRCGIIHTDIKPENVLMEIVDSPENLIQIKIADLGNACWYDEHYTNSIQTREYRSPEVLLGAPWGCGADIWSTACLIFELITGDFLFEPDEGHSYTKDDDHIAQIIELLGELPSYLLRNGKYTRTFFNSRGLLRNISKLKFWPLEDVLTEKYKFSKDEAKEISDFLSPMLQLDPRKRADAGGLVNHPWLKDTLGMEEIRVPDRELYGSGSDIPGWFEEVR 2jd6-a2-m2-cE_2jd6-a2-m2-cX Crystal Structure of the as isolated Ferritin from the Hyperthermophilic Archaeal Anaerobe Pyrococcus furiosus Q8U2T8 Q8U2T8 2.75 X-RAY DIFFRACTION 17 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 167 167 2jd6-a1-m1-c0_2jd6-a1-m1-cG 2jd6-a1-m1-c0_2jd6-a1-m1-cH 2jd6-a1-m1-c1_2jd6-a1-m1-cI 2jd6-a1-m1-c1_2jd6-a1-m1-cO 2jd6-a1-m1-c2_2jd6-a1-m1-cG 2jd6-a1-m1-c2_2jd6-a1-m1-cH 2jd6-a1-m1-c3_2jd6-a1-m1-cK 2jd6-a1-m1-c3_2jd6-a1-m1-cQ 2jd6-a1-m1-c4_2jd6-a1-m1-cP 2jd6-a1-m1-c4_2jd6-a1-m1-cR 2jd6-a1-m1-c5_2jd6-a1-m1-cJ 2jd6-a1-m1-c5_2jd6-a1-m1-cL 2jd6-a1-m1-c6_2jd6-a1-m1-cM 2jd6-a1-m1-c6_2jd6-a1-m1-cN 2jd6-a1-m1-c7_2jd6-a1-m1-cI 2jd6-a1-m1-c7_2jd6-a1-m1-cO 2jd6-a1-m1-c8_2jd6-a1-m1-cM 2jd6-a1-m1-c8_2jd6-a1-m1-cN 2jd6-a1-m1-c9_2jd6-a1-m1-cK 2jd6-a1-m1-c9_2jd6-a1-m1-cQ 2jd6-a1-m1-cJ_2jd6-a1-m1-cY 2jd6-a1-m1-cL_2jd6-a1-m1-cY 2jd6-a1-m1-cP_2jd6-a1-m1-cZ 2jd6-a1-m1-cR_2jd6-a1-m1-cZ 2jd6-a2-m1-cA_2jd6-a2-m1-cU 2jd6-a2-m1-cA_2jd6-a2-m1-cW 2jd6-a2-m1-cB_2jd6-a2-m1-cU 2jd6-a2-m1-cB_2jd6-a2-m1-cW 2jd6-a2-m1-cC_2jd6-a2-m1-cV 2jd6-a2-m1-cC_2jd6-a2-m2-cV 2jd6-a2-m1-cD_2jd6-a2-m1-cS 2jd6-a2-m1-cD_2jd6-a2-m2-cT 2jd6-a2-m1-cE_2jd6-a2-m1-cX 2jd6-a2-m1-cE_2jd6-a2-m2-cX 2jd6-a2-m1-cF_2jd6-a2-m1-cS 2jd6-a2-m1-cF_2jd6-a2-m2-cT 2jd6-a2-m1-cT_2jd6-a2-m2-cD 2jd6-a2-m1-cT_2jd6-a2-m2-cF 2jd6-a2-m1-cV_2jd6-a2-m2-cC 2jd6-a2-m1-cX_2jd6-a2-m2-cE 2jd6-a2-m2-cA_2jd6-a2-m2-cU 2jd6-a2-m2-cA_2jd6-a2-m2-cW 2jd6-a2-m2-cB_2jd6-a2-m2-cU 2jd6-a2-m2-cB_2jd6-a2-m2-cW 2jd6-a2-m2-cC_2jd6-a2-m2-cV 2jd6-a2-m2-cD_2jd6-a2-m2-cS 2jd6-a2-m2-cF_2jd6-a2-m2-cS 2jd7-a1-m1-c0_2jd7-a1-m1-cG 2jd7-a1-m1-c0_2jd7-a1-m1-cH 2jd7-a1-m1-c1_2jd7-a1-m1-cI 2jd7-a1-m1-c1_2jd7-a1-m1-cO 2jd7-a1-m1-c2_2jd7-a1-m1-cG 2jd7-a1-m1-c2_2jd7-a1-m1-cH 2jd7-a1-m1-c3_2jd7-a1-m1-cK 2jd7-a1-m1-c3_2jd7-a1-m1-cQ 2jd7-a1-m1-c4_2jd7-a1-m1-cP 2jd7-a1-m1-c4_2jd7-a1-m1-cR 2jd7-a1-m1-c5_2jd7-a1-m1-cJ 2jd7-a1-m1-c5_2jd7-a1-m1-cL 2jd7-a1-m1-c6_2jd7-a1-m1-cM 2jd7-a1-m1-c6_2jd7-a1-m1-cN 2jd7-a1-m1-c7_2jd7-a1-m1-cI 2jd7-a1-m1-c7_2jd7-a1-m1-cO 2jd7-a1-m1-c8_2jd7-a1-m1-cM 2jd7-a1-m1-c8_2jd7-a1-m1-cN 2jd7-a1-m1-c9_2jd7-a1-m1-cK 2jd7-a1-m1-c9_2jd7-a1-m1-cQ 2jd7-a1-m1-cJ_2jd7-a1-m1-cY 2jd7-a1-m1-cL_2jd7-a1-m1-cY 2jd7-a1-m1-cP_2jd7-a1-m1-cZ 2jd7-a1-m1-cR_2jd7-a1-m1-cZ 2jd7-a2-m1-cA_2jd7-a2-m1-cU 2jd7-a2-m1-cA_2jd7-a2-m1-cW 2jd7-a2-m1-cB_2jd7-a2-m1-cU 2jd7-a2-m1-cB_2jd7-a2-m1-cW 2jd7-a2-m1-cC_2jd7-a2-m1-cV 2jd7-a2-m1-cC_2jd7-a2-m2-cV 2jd7-a2-m1-cD_2jd7-a2-m1-cS 2jd7-a2-m1-cD_2jd7-a2-m2-cT 2jd7-a2-m1-cE_2jd7-a2-m1-cX 2jd7-a2-m1-cE_2jd7-a2-m2-cX 2jd7-a2-m1-cF_2jd7-a2-m1-cS 2jd7-a2-m1-cF_2jd7-a2-m2-cT 2jd7-a2-m1-cT_2jd7-a2-m2-cD 2jd7-a2-m1-cT_2jd7-a2-m2-cF 2jd7-a2-m1-cV_2jd7-a2-m2-cC 2jd7-a2-m1-cX_2jd7-a2-m2-cE 2jd7-a2-m2-cA_2jd7-a2-m2-cU 2jd7-a2-m2-cA_2jd7-a2-m2-cW 2jd7-a2-m2-cB_2jd7-a2-m2-cU 2jd7-a2-m2-cB_2jd7-a2-m2-cW 2jd7-a2-m2-cC_2jd7-a2-m2-cV 2jd7-a2-m2-cD_2jd7-a2-m2-cS 2jd7-a2-m2-cE_2jd7-a2-m2-cX 2jd7-a2-m2-cF_2jd7-a2-m2-cS 2jd8-a1-m1-c0_2jd8-a1-m1-cG 2jd8-a1-m1-c0_2jd8-a1-m1-cH 2jd8-a1-m1-c1_2jd8-a1-m1-cI 2jd8-a1-m1-c1_2jd8-a1-m1-cO 2jd8-a1-m1-c2_2jd8-a1-m1-cG 2jd8-a1-m1-c2_2jd8-a1-m1-cH 2jd8-a1-m1-c3_2jd8-a1-m1-cK 2jd8-a1-m1-c3_2jd8-a1-m1-cQ 2jd8-a1-m1-c4_2jd8-a1-m1-cP 2jd8-a1-m1-c4_2jd8-a1-m1-cR 2jd8-a1-m1-c5_2jd8-a1-m1-cJ 2jd8-a1-m1-c5_2jd8-a1-m1-cL 2jd8-a1-m1-c6_2jd8-a1-m1-cM 2jd8-a1-m1-c6_2jd8-a1-m1-cN 2jd8-a1-m1-c7_2jd8-a1-m1-cI 2jd8-a1-m1-c7_2jd8-a1-m1-cO 2jd8-a1-m1-c8_2jd8-a1-m1-cM 2jd8-a1-m1-c8_2jd8-a1-m1-cN 2jd8-a1-m1-c9_2jd8-a1-m1-cK 2jd8-a1-m1-c9_2jd8-a1-m1-cQ 2jd8-a1-m1-cJ_2jd8-a1-m1-cY 2jd8-a1-m1-cL_2jd8-a1-m1-cY 2jd8-a1-m1-cP_2jd8-a1-m1-cZ 2jd8-a1-m1-cR_2jd8-a1-m1-cZ 2jd8-a2-m1-cA_2jd8-a2-m1-cU 2jd8-a2-m1-cA_2jd8-a2-m1-cW 2jd8-a2-m1-cB_2jd8-a2-m1-cU 2jd8-a2-m1-cB_2jd8-a2-m1-cW 2jd8-a2-m1-cC_2jd8-a2-m1-cV 2jd8-a2-m1-cC_2jd8-a2-m2-cV 2jd8-a2-m1-cD_2jd8-a2-m1-cS 2jd8-a2-m1-cD_2jd8-a2-m2-cT 2jd8-a2-m1-cE_2jd8-a2-m1-cX 2jd8-a2-m1-cE_2jd8-a2-m2-cX 2jd8-a2-m1-cF_2jd8-a2-m1-cS 2jd8-a2-m1-cF_2jd8-a2-m2-cT 2jd8-a2-m1-cT_2jd8-a2-m2-cD 2jd8-a2-m1-cT_2jd8-a2-m2-cF 2jd8-a2-m1-cV_2jd8-a2-m2-cC 2jd8-a2-m1-cX_2jd8-a2-m2-cE 2jd8-a2-m2-cA_2jd8-a2-m2-cU 2jd8-a2-m2-cA_2jd8-a2-m2-cW 2jd8-a2-m2-cB_2jd8-a2-m2-cU 2jd8-a2-m2-cB_2jd8-a2-m2-cW 2jd8-a2-m2-cC_2jd8-a2-m2-cV 2jd8-a2-m2-cD_2jd8-a2-m2-cS 2jd8-a2-m2-cE_2jd8-a2-m2-cX 2jd8-a2-m2-cF_2jd8-a2-m2-cS 2x17-a1-m1-c0_2x17-a1-m1-cG 2x17-a1-m1-c0_2x17-a1-m1-cH 2x17-a1-m1-c1_2x17-a1-m1-cI 2x17-a1-m1-c2_2x17-a1-m1-cG 2x17-a1-m1-c2_2x17-a1-m1-cH 2x17-a1-m1-c3_2x17-a1-m1-cK 2x17-a1-m1-c3_2x17-a1-m1-cQ 2x17-a1-m1-c5_2x17-a1-m1-cJ 2x17-a1-m1-c5_2x17-a1-m1-cL 2x17-a1-m1-c7_2x17-a1-m1-cI 2x17-a1-m1-c9_2x17-a1-m1-cK 2x17-a1-m1-c9_2x17-a1-m1-cQ 2x17-a1-m1-cM_2x17-a1-m1-c6 2x17-a1-m1-cM_2x17-a1-m1-c8 2x17-a1-m1-cN_2x17-a1-m1-c6 2x17-a1-m1-cN_2x17-a1-m1-c8 2x17-a1-m1-cO_2x17-a1-m1-c1 2x17-a1-m1-cO_2x17-a1-m1-c7 2x17-a1-m1-cP_2x17-a1-m1-c4 2x17-a1-m1-cP_2x17-a1-m1-cZ 2x17-a1-m1-cR_2x17-a1-m1-c4 2x17-a1-m1-cR_2x17-a1-m1-cZ 2x17-a1-m1-cY_2x17-a1-m1-cJ 2x17-a1-m1-cY_2x17-a1-m1-cL 7ohf-a1-m10-cA_7ohf-a1-m11-cA 7ohf-a1-m10-cA_7ohf-a1-m9-cA 7ohf-a1-m11-cA_7ohf-a1-m12-cA 7ohf-a1-m12-cA_7ohf-a1-m9-cA 7ohf-a1-m13-cA_7ohf-a1-m14-cA 7ohf-a1-m13-cA_7ohf-a1-m16-cA 7ohf-a1-m14-cA_7ohf-a1-m15-cA 7ohf-a1-m15-cA_7ohf-a1-m16-cA 7ohf-a1-m17-cA_7ohf-a1-m18-cA 7ohf-a1-m17-cA_7ohf-a1-m20-cA 7ohf-a1-m18-cA_7ohf-a1-m19-cA 7ohf-a1-m19-cA_7ohf-a1-m20-cA 7ohf-a1-m1-cA_7ohf-a1-m2-cA 7ohf-a1-m1-cA_7ohf-a1-m4-cA 7ohf-a1-m21-cA_7ohf-a1-m22-cA 7ohf-a1-m21-cA_7ohf-a1-m24-cA 7ohf-a1-m22-cA_7ohf-a1-m23-cA 7ohf-a1-m23-cA_7ohf-a1-m24-cA 7ohf-a1-m2-cA_7ohf-a1-m3-cA 7ohf-a1-m3-cA_7ohf-a1-m4-cA 7ohf-a1-m5-cA_7ohf-a1-m6-cA 7ohf-a1-m5-cA_7ohf-a1-m8-cA 7ohf-a1-m6-cA_7ohf-a1-m7-cA 7ohf-a1-m7-cA_7ohf-a1-m8-cA MLSERMLKALNDQLNRELYSAYLYFAMAAYFEDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGRVELDEIPKPPKEWESPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLEWFINEQVEEEASVKKILDKLKFAKDSPQILFMLDKELSARAPKLPG MLSERMLKALNDQLNRELYSAYLYFAMAAYFEDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGRVELDEIPKPPKEWESPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLEWFINEQVEEEASVKKILDKLKFAKDSPQILFMLDKELSARAPKLPG 2jd6-a2-m2-cF_2jd6-a2-m2-cX Crystal Structure of the as isolated Ferritin from the Hyperthermophilic Archaeal Anaerobe Pyrococcus furiosus Q8U2T8 Q8U2T8 2.75 X-RAY DIFFRACTION 65 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 167 167 2jd6-a1-m1-c0_2jd6-a1-m1-cI 2jd6-a1-m1-c1_2jd6-a1-m1-cJ 2jd6-a1-m1-c2_2jd6-a1-m1-cK 2jd6-a1-m1-c3_2jd6-a1-m1-cL 2jd6-a1-m1-c4_2jd6-a1-m1-cM 2jd6-a1-m1-c5_2jd6-a1-m1-cN 2jd6-a1-m1-c6_2jd6-a1-m1-cO 2jd6-a1-m1-c7_2jd6-a1-m1-cP 2jd6-a1-m1-c8_2jd6-a1-m1-cQ 2jd6-a1-m1-c9_2jd6-a1-m1-cR 2jd6-a1-m1-cG_2jd6-a1-m1-cY 2jd6-a1-m1-cH_2jd6-a1-m1-cZ 2jd6-a2-m1-cA_2jd6-a2-m1-cS 2jd6-a2-m1-cB_2jd6-a2-m1-cT 2jd6-a2-m1-cC_2jd6-a2-m1-cU 2jd6-a2-m1-cD_2jd6-a2-m1-cV 2jd6-a2-m1-cE_2jd6-a2-m1-cW 2jd6-a2-m1-cF_2jd6-a2-m1-cX 2jd6-a2-m2-cA_2jd6-a2-m2-cS 2jd6-a2-m2-cB_2jd6-a2-m2-cT 2jd6-a2-m2-cC_2jd6-a2-m2-cU 2jd6-a2-m2-cD_2jd6-a2-m2-cV 2jd6-a2-m2-cE_2jd6-a2-m2-cW 2jd7-a1-m1-c0_2jd7-a1-m1-cI 2jd7-a1-m1-c1_2jd7-a1-m1-cJ 2jd7-a1-m1-c2_2jd7-a1-m1-cK 2jd7-a1-m1-c3_2jd7-a1-m1-cL 2jd7-a1-m1-c4_2jd7-a1-m1-cM 2jd7-a1-m1-c5_2jd7-a1-m1-cN 2jd7-a1-m1-c6_2jd7-a1-m1-cO 2jd7-a1-m1-c7_2jd7-a1-m1-cP 2jd7-a1-m1-c8_2jd7-a1-m1-cQ 2jd7-a1-m1-c9_2jd7-a1-m1-cR 2jd7-a1-m1-cG_2jd7-a1-m1-cY 2jd7-a1-m1-cH_2jd7-a1-m1-cZ 2jd7-a2-m1-cA_2jd7-a2-m1-cS 2jd7-a2-m1-cB_2jd7-a2-m1-cT 2jd7-a2-m1-cC_2jd7-a2-m1-cU 2jd7-a2-m1-cD_2jd7-a2-m1-cV 2jd7-a2-m1-cE_2jd7-a2-m1-cW 2jd7-a2-m1-cF_2jd7-a2-m1-cX 2jd7-a2-m2-cA_2jd7-a2-m2-cS 2jd7-a2-m2-cB_2jd7-a2-m2-cT 2jd7-a2-m2-cC_2jd7-a2-m2-cU 2jd7-a2-m2-cD_2jd7-a2-m2-cV 2jd7-a2-m2-cE_2jd7-a2-m2-cW 2jd7-a2-m2-cF_2jd7-a2-m2-cX 2jd8-a1-m1-c0_2jd8-a1-m1-cI 2jd8-a1-m1-c1_2jd8-a1-m1-cJ 2jd8-a1-m1-c2_2jd8-a1-m1-cK 2jd8-a1-m1-c3_2jd8-a1-m1-cL 2jd8-a1-m1-c4_2jd8-a1-m1-cM 2jd8-a1-m1-c5_2jd8-a1-m1-cN 2jd8-a1-m1-c6_2jd8-a1-m1-cO 2jd8-a1-m1-c7_2jd8-a1-m1-cP 2jd8-a1-m1-c8_2jd8-a1-m1-cQ 2jd8-a1-m1-c9_2jd8-a1-m1-cR 2jd8-a1-m1-cG_2jd8-a1-m1-cY 2jd8-a1-m1-cH_2jd8-a1-m1-cZ 2jd8-a2-m1-cA_2jd8-a2-m1-cS 2jd8-a2-m1-cB_2jd8-a2-m1-cT 2jd8-a2-m1-cC_2jd8-a2-m1-cU 2jd8-a2-m1-cD_2jd8-a2-m1-cV 2jd8-a2-m1-cE_2jd8-a2-m1-cW 2jd8-a2-m1-cF_2jd8-a2-m1-cX 2jd8-a2-m2-cA_2jd8-a2-m2-cS 2jd8-a2-m2-cB_2jd8-a2-m2-cT 2jd8-a2-m2-cC_2jd8-a2-m2-cU 2jd8-a2-m2-cD_2jd8-a2-m2-cV 2jd8-a2-m2-cE_2jd8-a2-m2-cW 2jd8-a2-m2-cF_2jd8-a2-m2-cX 2x17-a1-m1-c0_2x17-a1-m1-cI 2x17-a1-m1-c1_2x17-a1-m1-cJ 2x17-a1-m1-c2_2x17-a1-m1-cK 2x17-a1-m1-c3_2x17-a1-m1-cL 2x17-a1-m1-c8_2x17-a1-m1-cQ 2x17-a1-m1-c9_2x17-a1-m1-cR 2x17-a1-m1-cH_2x17-a1-m1-cZ 2x17-a1-m1-cM_2x17-a1-m1-c4 2x17-a1-m1-cN_2x17-a1-m1-c5 2x17-a1-m1-cO_2x17-a1-m1-c6 2x17-a1-m1-cP_2x17-a1-m1-c7 2x17-a1-m1-cY_2x17-a1-m1-cG 7ohf-a1-m10-cA_7ohf-a1-m18-cA 7ohf-a1-m11-cA_7ohf-a1-m5-cA 7ohf-a1-m12-cA_7ohf-a1-m24-cA 7ohf-a1-m13-cA_7ohf-a1-m3-cA 7ohf-a1-m14-cA_7ohf-a1-m19-cA 7ohf-a1-m15-cA_7ohf-a1-m9-cA 7ohf-a1-m16-cA_7ohf-a1-m23-cA 7ohf-a1-m17-cA_7ohf-a1-m6-cA 7ohf-a1-m1-cA_7ohf-a1-m7-cA 7ohf-a1-m21-cA_7ohf-a1-m8-cA 7ohf-a1-m22-cA_7ohf-a1-m4-cA 7ohf-a1-m2-cA_7ohf-a1-m20-cA MLSERMLKALNDQLNRELYSAYLYFAMAAYFEDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGRVELDEIPKPPKEWESPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLEWFINEQVEEEASVKKILDKLKFAKDSPQILFMLDKELSARAPKLPG MLSERMLKALNDQLNRELYSAYLYFAMAAYFEDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGRVELDEIPKPPKEWESPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLEWFINEQVEEEASVKKILDKLKFAKDSPQILFMLDKELSARAPKLPG 2jd6-a2-m2-cW_2jd6-a2-m2-cX Crystal Structure of the as isolated Ferritin from the Hyperthermophilic Archaeal Anaerobe Pyrococcus furiosus Q8U2T8 Q8U2T8 2.75 X-RAY DIFFRACTION 30 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 167 167 2jd6-a1-m1-c0_2jd6-a1-m1-c7 2jd6-a1-m1-c0_2jd6-a1-m1-cZ 2jd6-a1-m1-c1_2jd6-a1-m1-c5 2jd6-a1-m1-c1_2jd6-a1-m1-c6 2jd6-a1-m1-c2_2jd6-a1-m1-c3 2jd6-a1-m1-c2_2jd6-a1-m1-cY 2jd6-a1-m1-c3_2jd6-a1-m1-cY 2jd6-a1-m1-c4_2jd6-a1-m1-c8 2jd6-a1-m1-c4_2jd6-a1-m1-c9 2jd6-a1-m1-c5_2jd6-a1-m1-c6 2jd6-a1-m1-c7_2jd6-a1-m1-cZ 2jd6-a1-m1-c8_2jd6-a1-m1-c9 2jd6-a1-m1-cG_2jd6-a1-m1-cI 2jd6-a1-m1-cG_2jd6-a1-m1-cJ 2jd6-a1-m1-cH_2jd6-a1-m1-cK 2jd6-a1-m1-cH_2jd6-a1-m1-cR 2jd6-a1-m1-cI_2jd6-a1-m1-cJ 2jd6-a1-m1-cK_2jd6-a1-m1-cR 2jd6-a1-m1-cL_2jd6-a1-m1-cN 2jd6-a1-m1-cL_2jd6-a1-m1-cQ 2jd6-a1-m1-cM_2jd6-a1-m1-cO 2jd6-a1-m1-cM_2jd6-a1-m1-cP 2jd6-a1-m1-cN_2jd6-a1-m1-cQ 2jd6-a1-m1-cO_2jd6-a1-m1-cP 2jd6-a2-m1-cA_2jd6-a2-m1-cC 2jd6-a2-m1-cA_2jd6-a2-m1-cD 2jd6-a2-m1-cB_2jd6-a2-m1-cE 2jd6-a2-m1-cB_2jd6-a2-m2-cF 2jd6-a2-m1-cC_2jd6-a2-m1-cD 2jd6-a2-m1-cE_2jd6-a2-m2-cF 2jd6-a2-m1-cF_2jd6-a2-m2-cB 2jd6-a2-m1-cF_2jd6-a2-m2-cE 2jd6-a2-m1-cS_2jd6-a2-m1-cW 2jd6-a2-m1-cS_2jd6-a2-m1-cX 2jd6-a2-m1-cT_2jd6-a2-m1-cU 2jd6-a2-m1-cT_2jd6-a2-m2-cV 2jd6-a2-m1-cU_2jd6-a2-m2-cV 2jd6-a2-m1-cV_2jd6-a2-m2-cT 2jd6-a2-m1-cV_2jd6-a2-m2-cU 2jd6-a2-m1-cW_2jd6-a2-m1-cX 2jd6-a2-m2-cA_2jd6-a2-m2-cC 2jd6-a2-m2-cA_2jd6-a2-m2-cD 2jd6-a2-m2-cB_2jd6-a2-m2-cE 2jd6-a2-m2-cC_2jd6-a2-m2-cD 2jd6-a2-m2-cS_2jd6-a2-m2-cW 2jd6-a2-m2-cS_2jd6-a2-m2-cX 2jd6-a2-m2-cT_2jd6-a2-m2-cU 2jd7-a1-m1-c0_2jd7-a1-m1-c7 2jd7-a1-m1-c0_2jd7-a1-m1-cZ 2jd7-a1-m1-c1_2jd7-a1-m1-c5 2jd7-a1-m1-c1_2jd7-a1-m1-c6 2jd7-a1-m1-c2_2jd7-a1-m1-c3 2jd7-a1-m1-c2_2jd7-a1-m1-cY 2jd7-a1-m1-c3_2jd7-a1-m1-cY 2jd7-a1-m1-c4_2jd7-a1-m1-c8 2jd7-a1-m1-c4_2jd7-a1-m1-c9 2jd7-a1-m1-c5_2jd7-a1-m1-c6 2jd7-a1-m1-c7_2jd7-a1-m1-cZ 2jd7-a1-m1-c8_2jd7-a1-m1-c9 2jd7-a1-m1-cG_2jd7-a1-m1-cI 2jd7-a1-m1-cG_2jd7-a1-m1-cJ 2jd7-a1-m1-cH_2jd7-a1-m1-cK 2jd7-a1-m1-cH_2jd7-a1-m1-cR 2jd7-a1-m1-cI_2jd7-a1-m1-cJ 2jd7-a1-m1-cK_2jd7-a1-m1-cR 2jd7-a1-m1-cL_2jd7-a1-m1-cN 2jd7-a1-m1-cL_2jd7-a1-m1-cQ 2jd7-a1-m1-cM_2jd7-a1-m1-cO 2jd7-a1-m1-cM_2jd7-a1-m1-cP 2jd7-a1-m1-cN_2jd7-a1-m1-cQ 2jd7-a1-m1-cO_2jd7-a1-m1-cP 2jd7-a2-m1-cA_2jd7-a2-m1-cC 2jd7-a2-m1-cA_2jd7-a2-m1-cD 2jd7-a2-m1-cB_2jd7-a2-m1-cE 2jd7-a2-m1-cB_2jd7-a2-m2-cF 2jd7-a2-m1-cC_2jd7-a2-m1-cD 2jd7-a2-m1-cE_2jd7-a2-m2-cF 2jd7-a2-m1-cF_2jd7-a2-m2-cB 2jd7-a2-m1-cF_2jd7-a2-m2-cE 2jd7-a2-m1-cS_2jd7-a2-m1-cW 2jd7-a2-m1-cS_2jd7-a2-m1-cX 2jd7-a2-m1-cT_2jd7-a2-m1-cU 2jd7-a2-m1-cT_2jd7-a2-m2-cV 2jd7-a2-m1-cU_2jd7-a2-m2-cV 2jd7-a2-m1-cV_2jd7-a2-m2-cT 2jd7-a2-m1-cV_2jd7-a2-m2-cU 2jd7-a2-m1-cW_2jd7-a2-m1-cX 2jd7-a2-m2-cA_2jd7-a2-m2-cC 2jd7-a2-m2-cA_2jd7-a2-m2-cD 2jd7-a2-m2-cB_2jd7-a2-m2-cE 2jd7-a2-m2-cC_2jd7-a2-m2-cD 2jd7-a2-m2-cS_2jd7-a2-m2-cW 2jd7-a2-m2-cS_2jd7-a2-m2-cX 2jd7-a2-m2-cT_2jd7-a2-m2-cU 2jd7-a2-m2-cW_2jd7-a2-m2-cX 2jd8-a1-m1-c0_2jd8-a1-m1-c7 2jd8-a1-m1-c0_2jd8-a1-m1-cZ 2jd8-a1-m1-c1_2jd8-a1-m1-c5 2jd8-a1-m1-c1_2jd8-a1-m1-c6 2jd8-a1-m1-c2_2jd8-a1-m1-c3 2jd8-a1-m1-c2_2jd8-a1-m1-cY 2jd8-a1-m1-c3_2jd8-a1-m1-cY 2jd8-a1-m1-c4_2jd8-a1-m1-c8 2jd8-a1-m1-c4_2jd8-a1-m1-c9 2jd8-a1-m1-c5_2jd8-a1-m1-c6 2jd8-a1-m1-c7_2jd8-a1-m1-cZ 2jd8-a1-m1-c8_2jd8-a1-m1-c9 2jd8-a1-m1-cG_2jd8-a1-m1-cI 2jd8-a1-m1-cG_2jd8-a1-m1-cJ 2jd8-a1-m1-cH_2jd8-a1-m1-cK 2jd8-a1-m1-cH_2jd8-a1-m1-cR 2jd8-a1-m1-cI_2jd8-a1-m1-cJ 2jd8-a1-m1-cK_2jd8-a1-m1-cR 2jd8-a1-m1-cL_2jd8-a1-m1-cN 2jd8-a1-m1-cL_2jd8-a1-m1-cQ 2jd8-a1-m1-cM_2jd8-a1-m1-cO 2jd8-a1-m1-cM_2jd8-a1-m1-cP 2jd8-a1-m1-cN_2jd8-a1-m1-cQ 2jd8-a1-m1-cO_2jd8-a1-m1-cP 2jd8-a2-m1-cA_2jd8-a2-m1-cC 2jd8-a2-m1-cA_2jd8-a2-m1-cD 2jd8-a2-m1-cB_2jd8-a2-m1-cE 2jd8-a2-m1-cB_2jd8-a2-m2-cF 2jd8-a2-m1-cC_2jd8-a2-m1-cD 2jd8-a2-m1-cE_2jd8-a2-m2-cF 2jd8-a2-m1-cF_2jd8-a2-m2-cB 2jd8-a2-m1-cF_2jd8-a2-m2-cE 2jd8-a2-m1-cS_2jd8-a2-m1-cW 2jd8-a2-m1-cS_2jd8-a2-m1-cX 2jd8-a2-m1-cT_2jd8-a2-m1-cU 2jd8-a2-m1-cT_2jd8-a2-m2-cV 2jd8-a2-m1-cU_2jd8-a2-m2-cV 2jd8-a2-m1-cV_2jd8-a2-m2-cT 2jd8-a2-m1-cV_2jd8-a2-m2-cU 2jd8-a2-m1-cW_2jd8-a2-m1-cX 2jd8-a2-m2-cA_2jd8-a2-m2-cC 2jd8-a2-m2-cA_2jd8-a2-m2-cD 2jd8-a2-m2-cB_2jd8-a2-m2-cE 2jd8-a2-m2-cC_2jd8-a2-m2-cD 2jd8-a2-m2-cS_2jd8-a2-m2-cW 2jd8-a2-m2-cS_2jd8-a2-m2-cX 2jd8-a2-m2-cT_2jd8-a2-m2-cU 2jd8-a2-m2-cW_2jd8-a2-m2-cX 2x17-a1-m1-c0_2x17-a1-m1-c7 2x17-a1-m1-c0_2x17-a1-m1-cZ 2x17-a1-m1-c1_2x17-a1-m1-c5 2x17-a1-m1-c2_2x17-a1-m1-c3 2x17-a1-m1-c4_2x17-a1-m1-c8 2x17-a1-m1-c6_2x17-a1-m1-c1 2x17-a1-m1-c6_2x17-a1-m1-c5 2x17-a1-m1-c7_2x17-a1-m1-cZ 2x17-a1-m1-c9_2x17-a1-m1-c4 2x17-a1-m1-c9_2x17-a1-m1-c8 2x17-a1-m1-cG_2x17-a1-m1-cI 2x17-a1-m1-cG_2x17-a1-m1-cJ 2x17-a1-m1-cI_2x17-a1-m1-cJ 2x17-a1-m1-cK_2x17-a1-m1-cH 2x17-a1-m1-cK_2x17-a1-m1-cR 2x17-a1-m1-cL_2x17-a1-m1-cQ 2x17-a1-m1-cM_2x17-a1-m1-cO 2x17-a1-m1-cM_2x17-a1-m1-cP 2x17-a1-m1-cN_2x17-a1-m1-cL 2x17-a1-m1-cN_2x17-a1-m1-cQ 2x17-a1-m1-cO_2x17-a1-m1-cP 2x17-a1-m1-cR_2x17-a1-m1-cH 2x17-a1-m1-cY_2x17-a1-m1-c2 2x17-a1-m1-cY_2x17-a1-m1-c3 7ohf-a1-m10-cA_7ohf-a1-m17-cA 7ohf-a1-m10-cA_7ohf-a1-m5-cA 7ohf-a1-m11-cA_7ohf-a1-m24-cA 7ohf-a1-m11-cA_7ohf-a1-m8-cA 7ohf-a1-m12-cA_7ohf-a1-m15-cA 7ohf-a1-m12-cA_7ohf-a1-m23-cA 7ohf-a1-m13-cA_7ohf-a1-m19-cA 7ohf-a1-m13-cA_7ohf-a1-m2-cA 7ohf-a1-m14-cA_7ohf-a1-m18-cA 7ohf-a1-m14-cA_7ohf-a1-m9-cA 7ohf-a1-m15-cA_7ohf-a1-m23-cA 7ohf-a1-m16-cA_7ohf-a1-m22-cA 7ohf-a1-m16-cA_7ohf-a1-m3-cA 7ohf-a1-m17-cA_7ohf-a1-m5-cA 7ohf-a1-m18-cA_7ohf-a1-m9-cA 7ohf-a1-m19-cA_7ohf-a1-m2-cA 7ohf-a1-m1-cA_7ohf-a1-m20-cA 7ohf-a1-m1-cA_7ohf-a1-m6-cA 7ohf-a1-m20-cA_7ohf-a1-m6-cA 7ohf-a1-m21-cA_7ohf-a1-m4-cA 7ohf-a1-m21-cA_7ohf-a1-m7-cA 7ohf-a1-m22-cA_7ohf-a1-m3-cA 7ohf-a1-m24-cA_7ohf-a1-m8-cA 7ohf-a1-m4-cA_7ohf-a1-m7-cA MLSERMLKALNDQLNRELYSAYLYFAMAAYFEDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGRVELDEIPKPPKEWESPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLEWFINEQVEEEASVKKILDKLKFAKDSPQILFMLDKELSARAPKLPG MLSERMLKALNDQLNRELYSAYLYFAMAAYFEDLGLEGFANWMKAQAEEEIGHALRFYNYIYDRNGRVELDEIPKPPKEWESPLKAFEAAYEHEKFISKSIYELAALAEEEKDYSTRAFLEWFINEQVEEEASVKKILDKLKFAKDSPQILFMLDKELSARAPKLPG 2jdj-a2-m1-cB_2jdj-a2-m3-cB crystal structure of HapK from Hahella chejuensis Q2S9J0 Q2S9J0 2 X-RAY DIFFRACTION 114 1.0 158327 (Hahella chejuensis) 158327 (Hahella chejuensis) 102 102 2jdj-a1-m1-cA_2jdj-a1-m2-cA ETIIHKIRLFDVAQADAFEFWVQNVDYATCPDLPSVVRFDVHRASLQANAPYHYVEVIKITDRAAFDADETSTFAGLVQAFSRAEVVEELAGEQLGSGYAAG ETIIHKIRLFDVAQADAFEFWVQNVDYATCPDLPSVVRFDVHRASLQANAPYHYVEVIKITDRAAFDADETSTFAGLVQAFSRAEVVEELAGEQLGSGYAAG 2je3-a1-m1-cA_2je3-a1-m2-cA Cytochrome P460 from Nitrosomonas europaea - probable physiological form Q50927 Q50927 1.8 X-RAY DIFFRACTION 135 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 157 157 2je2-a1-m1-cA_2je2-a1-m2-cA AGVAEFNDKGELLLPKNYREWVMVGTQVTPTEIRTVYVDPESYAHWKKTGEFRDGTVTVKELVSVGDRKGPNGYFMGDYIGLEASVKDSQRFANEPGNWAFYIFYVPDTPLVAAAKNLPTAECAACHKENAKTDMVFTQFYPVLRAAKATGESGVVA AGVAEFNDKGELLLPKNYREWVMVGTQVTPTEIRTVYVDPESYAHWKKTGEFRDGTVTVKELVSVGDRKGPNGYFMGDYIGLEASVKDSQRFANEPGNWAFYIFYVPDTPLVAAAKNLPTAECAACHKENAKTDMVFTQFYPVLRAAKATGESGVVA 2je6-a1-m2-cI_2je6-a1-m3-cI Structure of a 9-subunit archaeal exosome Q9UXC4 Q9UXC4 1.6 X-RAY DIFFRACTION 12 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 207 207 2je6-a1-m1-cI_2je6-a1-m2-cI 2je6-a1-m1-cI_2je6-a1-m3-cI 2jea-a1-m1-cI_2jea-a1-m2-cI 2jea-a1-m1-cI_2jea-a1-m3-cI 2jea-a1-m2-cI_2jea-a1-m3-cI 3l7z-a1-m1-cI_3l7z-a1-m1-cC 4ba1-a1-m1-cI_4ba1-a1-m2-cI 4ba1-a1-m1-cI_4ba1-a1-m3-cI 4ba1-a1-m2-cI_4ba1-a1-m3-cI 4ba2-a1-m1-cI_4ba2-a1-m2-cI 4ba2-a1-m1-cI_4ba2-a1-m3-cI 4ba2-a1-m2-cI_4ba2-a1-m3-cI QEIVLQPRSIVVPGELLAEGEFQIPWSPYILKINSKYYSTVVGLFDVKDTQFEVIPLEGSFYYPKINDIVIGLVEDVEIYGWVVDIKAPYKAYLPASNLLGRSINVGEDLRRYLDVGDYVIARIENFDRSIDPVLSVKGKDLGRVSNGIVIDIMPVKVPRVIGKNKSMYETLTSKSIFVANNGRIWAFSEEILIEAIRKIENESHIK QEIVLQPRSIVVPGELLAEGEFQIPWSPYILKINSKYYSTVVGLFDVKDTQFEVIPLEGSFYYPKINDIVIGLVEDVEIYGWVVDIKAPYKAYLPASNLLGRSINVGEDLRRYLDVGDYVIARIENFDRSIDPVLSVKGKDLGRVSNGIVIDIMPVKVPRVIGKNKSMYETLTSKSIFVANNGRIWAFSEEILIEAIRKIENESHIK 2jee-a2-m1-cC_2jee-a2-m1-cD Xray structure of E. coli YiiU P0AF36 P0AF36 2.8 X-RAY DIFFRACTION 103 1.0 562 (Escherichia coli) 562 (Escherichia coli) 78 78 2jee-a1-m1-cA_2jee-a1-m1-cB MSLEVFEKLEAKVQQAIDTITLLQMEIEELKEKNNSLSQEVQNAQHQREELERENNHLKEQQNGWQERLQALLGRMEE MSLEVFEKLEAKVQQAIDTITLLQMEIEELKEKNNSLSQEVQNAQHQREELERENNHLKEQQNGWQERLQALLGRMEE 2jen-a1-m2-cA_2jen-a1-m6-cA Family 12 xyloglucanase from Bacillus licheniformis in complex with ligand Q7X4S4 Q7X4S4 1.4 X-RAY DIFFRACTION 25 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 233 233 2jen-a1-m1-cA_2jen-a1-m4-cA 2jen-a1-m3-cA_2jen-a1-m5-cA AASSSNPSDKLYFKNKKYYIFNNVWGADQVSGWWQTIYHNSDSDMGWVWNWPSNTSTVKAYPSIVSGWHWTEGYTAGSGFPTRLSDQKNINTKVSYSISANGTYNAAYDIWLHNTNKASWDSAPTDAIMIWLNNTNAGPAGSYVETVSIGGHSWKVYKGYIDAGGGKGWNVFSFIRTANTQSANLNIRDFTNYLADSKQWLSKTKYVSSVEFGTEVFGGTGQINISNWDVTVR AASSSNPSDKLYFKNKKYYIFNNVWGADQVSGWWQTIYHNSDSDMGWVWNWPSNTSTVKAYPSIVSGWHWTEGYTAGSGFPTRLSDQKNINTKVSYSISANGTYNAAYDIWLHNTNKASWDSAPTDAIMIWLNNTNAGPAGSYVETVSIGGHSWKVYKGYIDAGGGKGWNVFSFIRTANTQSANLNIRDFTNYLADSKQWLSKTKYVSSVEFGTEVFGGTGQINISNWDVTVR 2jen-a1-m3-cA_2jen-a1-m6-cA Family 12 xyloglucanase from Bacillus licheniformis in complex with ligand Q7X4S4 Q7X4S4 1.4 X-RAY DIFFRACTION 28 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 233 233 2jen-a1-m1-cA_2jen-a1-m5-cA 2jen-a1-m2-cA_2jen-a1-m4-cA AASSSNPSDKLYFKNKKYYIFNNVWGADQVSGWWQTIYHNSDSDMGWVWNWPSNTSTVKAYPSIVSGWHWTEGYTAGSGFPTRLSDQKNINTKVSYSISANGTYNAAYDIWLHNTNKASWDSAPTDAIMIWLNNTNAGPAGSYVETVSIGGHSWKVYKGYIDAGGGKGWNVFSFIRTANTQSANLNIRDFTNYLADSKQWLSKTKYVSSVEFGTEVFGGTGQINISNWDVTVR AASSSNPSDKLYFKNKKYYIFNNVWGADQVSGWWQTIYHNSDSDMGWVWNWPSNTSTVKAYPSIVSGWHWTEGYTAGSGFPTRLSDQKNINTKVSYSISANGTYNAAYDIWLHNTNKASWDSAPTDAIMIWLNNTNAGPAGSYVETVSIGGHSWKVYKGYIDAGGGKGWNVFSFIRTANTQSANLNIRDFTNYLADSKQWLSKTKYVSSVEFGTEVFGGTGQINISNWDVTVR 2jen-a1-m5-cA_2jen-a1-m6-cA Family 12 xyloglucanase from Bacillus licheniformis in complex with ligand Q7X4S4 Q7X4S4 1.4 X-RAY DIFFRACTION 42 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 233 233 2jen-a1-m1-cA_2jen-a1-m2-cA 2jen-a1-m1-cA_2jen-a1-m3-cA 2jen-a1-m2-cA_2jen-a1-m3-cA 2jen-a1-m4-cA_2jen-a1-m5-cA 2jen-a1-m4-cA_2jen-a1-m6-cA AASSSNPSDKLYFKNKKYYIFNNVWGADQVSGWWQTIYHNSDSDMGWVWNWPSNTSTVKAYPSIVSGWHWTEGYTAGSGFPTRLSDQKNINTKVSYSISANGTYNAAYDIWLHNTNKASWDSAPTDAIMIWLNNTNAGPAGSYVETVSIGGHSWKVYKGYIDAGGGKGWNVFSFIRTANTQSANLNIRDFTNYLADSKQWLSKTKYVSSVEFGTEVFGGTGQINISNWDVTVR AASSSNPSDKLYFKNKKYYIFNNVWGADQVSGWWQTIYHNSDSDMGWVWNWPSNTSTVKAYPSIVSGWHWTEGYTAGSGFPTRLSDQKNINTKVSYSISANGTYNAAYDIWLHNTNKASWDSAPTDAIMIWLNNTNAGPAGSYVETVSIGGHSWKVYKGYIDAGGGKGWNVFSFIRTANTQSANLNIRDFTNYLADSKQWLSKTKYVSSVEFGTEVFGGTGQINISNWDVTVR 2jeo-a1-m2-cA_2jeo-a1-m4-cA Crystal structure of human uridine-cytidine kinase 1 Q9HA47 Q9HA47 2.5 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 2jeo-a1-m1-cA_2jeo-a1-m3-cA 2uvq-a1-m1-cA_2uvq-a1-m2-cA 2uvq-a1-m3-cA_2uvq-a1-m4-cA MRPFLIGVSGGTASGKSTVCEKIMELLGQNEVEQRQRKVVILSQDRFYKVLTAEQKAKALKGQYNFDHPDAFDNDLMHRTLKNIVEGKTVEVPTYDFVTHSRLPETTVVYPADVVLFEGILVFYSQEIRDMFHLRLFVDTDSDVRLSRRVLRDVRDLEQILTQYTTFVKPAFEEFCLPTKKYADVIIPRGVDNMVAINLIVQHIQDILNGDI MRPFLIGVSGGTASGKSTVCEKIMELLGQNEVEQRQRKVVILSQDRFYKVLTAEQKAKALKGQYNFDHPDAFDNDLMHRTLKNIVEGKTVEVPTYDFVTHSRLPETTVVYPADVVLFEGILVFYSQEIRDMFHLRLFVDTDSDVRLSRRVLRDVRDLEQILTQYTTFVKPAFEEFCLPTKKYADVIIPRGVDNMVAINLIVQHIQDILNGDI 2jeo-a1-m3-cA_2jeo-a1-m4-cA Crystal structure of human uridine-cytidine kinase 1 Q9HA47 Q9HA47 2.5 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 2jeo-a1-m1-cA_2jeo-a1-m2-cA 2uvq-a1-m1-cA_2uvq-a1-m3-cA 2uvq-a1-m2-cA_2uvq-a1-m4-cA MRPFLIGVSGGTASGKSTVCEKIMELLGQNEVEQRQRKVVILSQDRFYKVLTAEQKAKALKGQYNFDHPDAFDNDLMHRTLKNIVEGKTVEVPTYDFVTHSRLPETTVVYPADVVLFEGILVFYSQEIRDMFHLRLFVDTDSDVRLSRRVLRDVRDLEQILTQYTTFVKPAFEEFCLPTKKYADVIIPRGVDNMVAINLIVQHIQDILNGDI MRPFLIGVSGGTASGKSTVCEKIMELLGQNEVEQRQRKVVILSQDRFYKVLTAEQKAKALKGQYNFDHPDAFDNDLMHRTLKNIVEGKTVEVPTYDFVTHSRLPETTVVYPADVVLFEGILVFYSQEIRDMFHLRLFVDTDSDVRLSRRVLRDVRDLEQILTQYTTFVKPAFEEFCLPTKKYADVIIPRGVDNMVAINLIVQHIQDILNGDI 2jer-a1-m1-cA_2jer-a1-m1-cF Agmatine deiminase of Enterococcus faecalis catalyzing its reaction. Q837U5 Q837U5 1.65 X-RAY DIFFRACTION 11 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 365 366 2jer-a1-m1-cB_2jer-a1-m1-cE AKRIVGSTPKQDGFRMPGEFEPQEKVWMIWPERPDNWRDGGKPVQEAFTNVAKAISQFTPMNVVVSQQQFQNCRRQLPPEITVYEMSNNDAWVRDCGPSFVINDHGEIRGVDWTFNAWGGLVDGLYFPWDQDDLVAQKICEIEHVDSYRTDDFVLEGGSFHVDGQGTVLTTEMCLLSEGRNPQLSKEAIEQKLCDYLNVEKVLWLGDGIDPEETNGHVDDVACFIAPGEVACIYTEDQNSPFYEAAQDAYQRLLKMTDAKGRQLKVHKLCCPVKNVTIKGSFKIDFVEGTMPREDGDICIASYMNFLITNDGVIVPQYGDENDRLALEQVQTMFPDKKIVGVNTVEVVYGGGNIHITQQEPKRVG AKRIVGSTPKQDGFRMPGEFEPQEKVWMIWPERPDNWRDGGKPVQEAFTNVAKAISQFTPMNVVVSQQQFQNCRRQLPPEITVYEMSNNDAWVRDCGPSFVINDHGEIRGVDWTFNAWGGLVDGLYFPWDQDDLVAQKICEIEHVDSYRTDDFVLEGGSFHVDGQGTVLTTEMCLLSEGRNPQLSKEAIEQKLCDYLNVEKVLWLGDGIDPEETNGHVDDVACFIAPGEVACIYTEDQNSPFYEAAQDAYQRLLKMTDAKGRQLKVHKLCCPVKNVTIKGSFKIDFVEGTMPREDGDICIASYMNFLITNDGVIVPQYGDENDRLALEQVQTMFPDKKIVGVNTVEVVYGGGNIHITQQEPKRVGG 2jer-a2-m1-cH_2jer-a2-m1-cC Agmatine deiminase of Enterococcus faecalis catalyzing its reaction. Q837U5 Q837U5 1.65 X-RAY DIFFRACTION 46 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 364 366 2jer-a1-m1-cA_2jer-a1-m1-cE 2jer-a1-m1-cB_2jer-a1-m1-cF 2jer-a2-m1-cG_2jer-a2-m1-cD AKRIVGSTPKQDGFRMPGEFEPQEKVWMIWPERPDNWRDGGKPVQEAFTNVAKAISQFTPMNVVVSQQQFQNCRRQLPPEITVYEMSNNDAWVRDCGPSFVINDHGEIRGVDWTFNAWGGLVDGLYFPWDQDDLVAQKICEIEHVDSYRTDDFVLEGGSFHVDGQGTVLTTEMCLLSEGRNPQLSKEAIEQKLCDYLNVEKVLWLGDGIDPEETNGHVDDVACFIAPGEVACIYTEDQNSPFYEAAQDAYQRLLKMTDAKGRQLKVHKLCCPVKNVTIKGSFKIDFVEGTMPREDGDICIASYMNFLITNDGVIVPQYGDENDRLALEQVQTMFPDKKIVGVNTVEVVYGGGNIHITQQEPKRV AKRIVGSTPKQDGFRMPGEFEPQEKVWMIWPERPDNWRDGGKPVQEAFTNVAKAISQFTPMNVVVSQQQFQNCRRQLPPEITVYEMSNNDAWVRDCGPSFVINDHGEIRGVDWTFNAWGGLVDGLYFPWDQDDLVAQKICEIEHVDSYRTDDFVLEGGSFHVDGQGTVLTTEMCLLSEGRNPQLSKEAIEQKLCDYLNVEKVLWLGDGIDPEETNGHVDDVACFIAPGEVACIYTEDQNSPFYEAAQDAYQRLLKMTDAKGRQLKVHKLCCPVKNVTIKGSFKIDFVEGTMPREDGDICIASYMNFLITNDGVIVPQYGDENDRLALEQVQTMFPDKKIVGVNTVEVVYGGGNIHITQQEPKRVGG 2jer-a2-m1-cH_2jer-a2-m1-cG Agmatine deiminase of Enterococcus faecalis catalyzing its reaction. Q837U5 Q837U5 1.65 X-RAY DIFFRACTION 48 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 364 365 2jer-a1-m1-cB_2jer-a1-m1-cA 2jer-a1-m1-cF_2jer-a1-m1-cE 2jer-a2-m1-cC_2jer-a2-m1-cD AKRIVGSTPKQDGFRMPGEFEPQEKVWMIWPERPDNWRDGGKPVQEAFTNVAKAISQFTPMNVVVSQQQFQNCRRQLPPEITVYEMSNNDAWVRDCGPSFVINDHGEIRGVDWTFNAWGGLVDGLYFPWDQDDLVAQKICEIEHVDSYRTDDFVLEGGSFHVDGQGTVLTTEMCLLSEGRNPQLSKEAIEQKLCDYLNVEKVLWLGDGIDPEETNGHVDDVACFIAPGEVACIYTEDQNSPFYEAAQDAYQRLLKMTDAKGRQLKVHKLCCPVKNVTIKGSFKIDFVEGTMPREDGDICIASYMNFLITNDGVIVPQYGDENDRLALEQVQTMFPDKKIVGVNTVEVVYGGGNIHITQQEPKRV AKRIVGSTPKQDGFRMPGEFEPQEKVWMIWPERPDNWRDGGKPVQEAFTNVAKAISQFTPMNVVVSQQQFQNCRRQLPPEITVYEMSNNDAWVRDCGPSFVINDHGEIRGVDWTFNAWGGLVDGLYFPWDQDDLVAQKICEIEHVDSYRTDDFVLEGGSFHVDGQGTVLTTEMCLLSEGRNPQLSKEAIEQKLCDYLNVEKVLWLGDGIDPEETNGHVDDVACFIAPGEVACIYTEDQNSPFYEAAQDAYQRLLKMTDAKGRQLKVHKLCCPVKNVTIKGSFKIDFVEGTMPREDGDICIASYMNFLITNDGVIVPQYGDENDRLALEQVQTMFPDKKIVGVNTVEVVYGGGNIHITQQEPKRVG 2jes-a1-m1-cW_2jes-a1-m1-cY Portal protein (gp6) from bacteriophage SPP1 P54309 P54309 3.4 X-RAY DIFFRACTION 204 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 370 370 2jes-a1-m1-cA_2jes-a1-m1-cC 2jes-a1-m1-cA_2jes-a1-m1-cY 2jes-a1-m1-cC_2jes-a1-m1-cE 2jes-a1-m1-cE_2jes-a1-m1-cG 2jes-a1-m1-cG_2jes-a1-m1-cI 2jes-a1-m1-cI_2jes-a1-m1-cK 2jes-a1-m1-cK_2jes-a1-m1-cM 2jes-a1-m1-cM_2jes-a1-m1-cO 2jes-a1-m1-cO_2jes-a1-m1-cQ 2jes-a1-m1-cQ_2jes-a1-m1-cS 2jes-a1-m1-cS_2jes-a1-m1-cU 2jes-a1-m1-cU_2jes-a1-m1-cW PDTTMIQKLIDEHNPEPLLKGVRYYMCENDIEKKRRTYYDAAGQQLVDDTKTNNRTSHAWHKLFVDQKTQYLVGEPVTFTSDNKTLLEYVNELADDDFDDILNETVKNMSNKGIEYWHPFVDEEGEFDYVIFPAEEMIVVYWGRVPIIPFKNNEEMVSDLKFYKDLIDNYDSITSSTMDSFSDFQQIVYVLKNYDGENPKEFTANLRYHSVIKVSGDGGVDTLRAEIPVDSAAKELERIQDELYKSAQAVDNSPETIGGGATGPALEKLYALLDLKANMAERKIRAGLRLFFWFFAEYLRNTGKGDFNPDKELTMTFTRTRIQNDSEIVQSLVQGVTGGIMSKETAVARNPFVQDPEEELARIEEEMNQY PDTTMIQKLIDEHNPEPLLKGVRYYMCENDIEKKRRTYYDAAGQQLVDDTKTNNRTSHAWHKLFVDQKTQYLVGEPVTFTSDNKTLLEYVNELADDDFDDILNETVKNMSNKGIEYWHPFVDEEGEFDYVIFPAEEMIVVYWGRVPIIPFKNNEEMVSDLKFYKDLIDNYDSITSSTMDSFSDFQQIVYVLKNYDGENPKEFTANLRYHSVIKVSGDGGVDTLRAEIPVDSAAKELERIQDELYKSAQAVDNSPETIGGGATGPALEKLYALLDLKANMAERKIRAGLRLFFWFFAEYLRNTGKGDFNPDKELTMTFTRTRIQNDSEIVQSLVQGVTGGIMSKETAVARNPFVQDPEEELARIEEEMNQY 2jf1-a1-m2-cA_2jf1-a1-m3-cA CRYSTAL STRUCTURE OF THE FILAMIN A REPEAT 21 COMPLEXED WITH THE INTEGRIN BETA2 CYTOPLASMIC TAIL PEPTIDE P21333 P21333 2.2 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 2jf1-a1-m1-cA_2jf1-a1-m2-cA 2jf1-a1-m1-cA_2jf1-a1-m3-cA GAHKVRAGGPGLERAEAGVPAEFSIWTREAGAGGLAIAVEGPSKAEISFESCGVAYVVQEPGDYEVSVKFNEEHIPDSPFVVPVASP GAHKVRAGGPGLERAEAGVPAEFSIWTREAGAGGLAIAVEGPSKAEISFESCGVAYVVQEPGDYEVSVKFNEEHIPDSPFVVPVASP 2jf7-a1-m3-cB_2jf7-a1-m4-cB Structure of Strictosidine Glucosidase Q8GU20 Q8GU20 2.48 X-RAY DIFFRACTION 27 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 466 466 2jf6-a1-m1-cA_2jf6-a1-m2-cA 2jf6-a1-m1-cA_2jf6-a1-m3-cA 2jf6-a1-m1-cB_2jf6-a1-m2-cB 2jf6-a1-m1-cB_2jf6-a1-m3-cB 2jf6-a1-m2-cA_2jf6-a1-m4-cA 2jf6-a1-m2-cB_2jf6-a1-m4-cB 2jf6-a1-m3-cA_2jf6-a1-m4-cA 2jf6-a1-m3-cB_2jf6-a1-m4-cB 2jf7-a1-m1-cA_2jf7-a1-m2-cA 2jf7-a1-m1-cA_2jf7-a1-m3-cA 2jf7-a1-m1-cB_2jf7-a1-m2-cB 2jf7-a1-m1-cB_2jf7-a1-m3-cB 2jf7-a1-m2-cA_2jf7-a1-m4-cA 2jf7-a1-m2-cB_2jf7-a1-m4-cB 2jf7-a1-m3-cA_2jf7-a1-m4-cA VVHRRDFPQDFIFGAGGSAYQCEGAYNEGNRGPSIWDTFTQRSPAKISDGSNGNQAINCYHMYKEDIKIMKQTGLESYRFSISWSRVLPGGRLAAGVNKDGVKFYHDFIDELLANGIKPSVTLFHWDLPQALEDEYGGFLSHRIVDDFCEYAEFCFWEFGDKIKYWTTFNEPHTFAVNGYALGEFAPGRGGKGDEGDPAIEPYVVTHNILLAHKAAVEEYRNKFQKCQEGEIGIVLNSMWMEPLSDVQADIDAQKRALDFMLGWFLEPLTTGDYPKSMRELVKGRLPKFSADDSEKLKGCYDFIGMNYYTATYVTNAVLSYETDDQVTKTFERNQKPIGHALYGGWQHVVPWGLYKLLVYTKETYHVPVLYVTESGMVEENKTKILLSEARRDAERTDYHQKHLASVRDAIDDGVNVKGYFVWSFFDNFEWNLGYICRYGIIHVDYKSFERYPKESAIWYKNFIAG VVHRRDFPQDFIFGAGGSAYQCEGAYNEGNRGPSIWDTFTQRSPAKISDGSNGNQAINCYHMYKEDIKIMKQTGLESYRFSISWSRVLPGGRLAAGVNKDGVKFYHDFIDELLANGIKPSVTLFHWDLPQALEDEYGGFLSHRIVDDFCEYAEFCFWEFGDKIKYWTTFNEPHTFAVNGYALGEFAPGRGGKGDEGDPAIEPYVVTHNILLAHKAAVEEYRNKFQKCQEGEIGIVLNSMWMEPLSDVQADIDAQKRALDFMLGWFLEPLTTGDYPKSMRELVKGRLPKFSADDSEKLKGCYDFIGMNYYTATYVTNAVLSYETDDQVTKTFERNQKPIGHALYGGWQHVVPWGLYKLLVYTKETYHVPVLYVTESGMVEENKTKILLSEARRDAERTDYHQKHLASVRDAIDDGVNVKGYFVWSFFDNFEWNLGYICRYGIIHVDYKSFERYPKESAIWYKNFIAG 2jf7-a1-m4-cB_2jf7-a1-m2-cA Structure of Strictosidine Glucosidase Q8GU20 Q8GU20 2.48 X-RAY DIFFRACTION 45 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 466 467 2jf6-a1-m1-cA_2jf6-a1-m1-cB 2jf6-a1-m2-cA_2jf6-a1-m2-cB 2jf6-a1-m3-cA_2jf6-a1-m3-cB 2jf6-a1-m4-cA_2jf6-a1-m4-cB 2jf7-a1-m1-cB_2jf7-a1-m3-cA 2jf7-a1-m2-cB_2jf7-a1-m1-cA 2jf7-a1-m3-cB_2jf7-a1-m4-cA VVHRRDFPQDFIFGAGGSAYQCEGAYNEGNRGPSIWDTFTQRSPAKISDGSNGNQAINCYHMYKEDIKIMKQTGLESYRFSISWSRVLPGGRLAAGVNKDGVKFYHDFIDELLANGIKPSVTLFHWDLPQALEDEYGGFLSHRIVDDFCEYAEFCFWEFGDKIKYWTTFNEPHTFAVNGYALGEFAPGRGGKGDEGDPAIEPYVVTHNILLAHKAAVEEYRNKFQKCQEGEIGIVLNSMWMEPLSDVQADIDAQKRALDFMLGWFLEPLTTGDYPKSMRELVKGRLPKFSADDSEKLKGCYDFIGMNYYTATYVTNAVLSYETDDQVTKTFERNQKPIGHALYGGWQHVVPWGLYKLLVYTKETYHVPVLYVTESGMVEENKTKILLSEARRDAERTDYHQKHLASVRDAIDDGVNVKGYFVWSFFDNFEWNLGYICRYGIIHVDYKSFERYPKESAIWYKNFIAG VVHRRDFPQDFIFGAGGSAYQCEGAYNEGNRGPSIWDTFTQRSPAKISDGSNGNQAINCYHMYKEDIKIMKQTGLESYRFSISWSRVLPGGRLAAGVNKDGVKFYHDFIDELLANGIKPSVTLFHWDLPQALEDEYGGFLSHRIVDDFCEYAEFCFWEFGDKIKYWTTFNEPHTFAVNGYALGEFAPGRGGKGDEGDPAIEPYVVTHNILLAHKAAVEEYRNKFQKCQEGEIGIVLNSMWMEPLSDVQADIDAQKRALDFMLGWFLEPLTTGDYPKSMRELVKGRLPKFSADDSEKLKGCYDFIGMNYYTATYVTNAVKLSYETDDQVTKTFERNQKPIGHALYGGWQHVVPWGLYKLLVYTKETYHVPVLYVTESGMVEENKTKILLSEARRDAERTDYHQKHLASVRDAIDDGVNVKGYFVWSFFDNFEWNLGYICRYGIIHVDYKSFERYPKESAIWYKNFIAG 2jf7-a1-m4-cB_2jf7-a1-m4-cA Structure of Strictosidine Glucosidase Q8GU20 Q8GU20 2.48 X-RAY DIFFRACTION 35 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 466 467 2jf6-a1-m1-cA_2jf6-a1-m3-cB 2jf6-a1-m2-cA_2jf6-a1-m1-cB 2jf6-a1-m3-cA_2jf6-a1-m4-cB 2jf6-a1-m4-cA_2jf6-a1-m2-cB 2jf7-a1-m1-cB_2jf7-a1-m1-cA 2jf7-a1-m2-cB_2jf7-a1-m2-cA 2jf7-a1-m3-cB_2jf7-a1-m3-cA VVHRRDFPQDFIFGAGGSAYQCEGAYNEGNRGPSIWDTFTQRSPAKISDGSNGNQAINCYHMYKEDIKIMKQTGLESYRFSISWSRVLPGGRLAAGVNKDGVKFYHDFIDELLANGIKPSVTLFHWDLPQALEDEYGGFLSHRIVDDFCEYAEFCFWEFGDKIKYWTTFNEPHTFAVNGYALGEFAPGRGGKGDEGDPAIEPYVVTHNILLAHKAAVEEYRNKFQKCQEGEIGIVLNSMWMEPLSDVQADIDAQKRALDFMLGWFLEPLTTGDYPKSMRELVKGRLPKFSADDSEKLKGCYDFIGMNYYTATYVTNAVLSYETDDQVTKTFERNQKPIGHALYGGWQHVVPWGLYKLLVYTKETYHVPVLYVTESGMVEENKTKILLSEARRDAERTDYHQKHLASVRDAIDDGVNVKGYFVWSFFDNFEWNLGYICRYGIIHVDYKSFERYPKESAIWYKNFIAG VVHRRDFPQDFIFGAGGSAYQCEGAYNEGNRGPSIWDTFTQRSPAKISDGSNGNQAINCYHMYKEDIKIMKQTGLESYRFSISWSRVLPGGRLAAGVNKDGVKFYHDFIDELLANGIKPSVTLFHWDLPQALEDEYGGFLSHRIVDDFCEYAEFCFWEFGDKIKYWTTFNEPHTFAVNGYALGEFAPGRGGKGDEGDPAIEPYVVTHNILLAHKAAVEEYRNKFQKCQEGEIGIVLNSMWMEPLSDVQADIDAQKRALDFMLGWFLEPLTTGDYPKSMRELVKGRLPKFSADDSEKLKGCYDFIGMNYYTATYVTNAVKLSYETDDQVTKTFERNQKPIGHALYGGWQHVVPWGLYKLLVYTKETYHVPVLYVTESGMVEENKTKILLSEARRDAERTDYHQKHLASVRDAIDDGVNVKGYFVWSFFDNFEWNLGYICRYGIIHVDYKSFERYPKESAIWYKNFIAG 2jf9-a1-m2-cC_2jf9-a1-m2-cA ESTROGEN RECEPTOR ALPHA LBD IN COMPLEX WITH A TAMOXIFEN-SPECIFIC PEPTIDE ANTAGONIST P03372 P03372 2.1 X-RAY DIFFRACTION 19 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 214 215 1a52-a3-m2-cB_1a52-a3-m4-cB 2jf9-a1-m1-cC_2jf9-a1-m1-cA SLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMK SLALSLTADQMVSALLDAEPPILYSEYDPTRPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSM 2jfb-a3-m1-cN_2jfb-a3-m1-cO 3D Structure of Lumazine Synthase from Candida albicans 2.5 X-RAY DIFFRACTION 71 1.0 5476 (Candida albicans) 5476 (Candida albicans) 153 153 2jfb-a1-m1-cA_2jfb-a1-m1-cB 2jfb-a1-m1-cA_2jfb-a1-m1-cE 2jfb-a1-m1-cB_2jfb-a1-m1-cC 2jfb-a1-m1-cC_2jfb-a1-m1-cD 2jfb-a1-m1-cD_2jfb-a1-m1-cE 2jfb-a2-m1-cF_2jfb-a2-m1-cG 2jfb-a2-m1-cH_2jfb-a2-m1-cG 2jfb-a2-m1-cH_2jfb-a2-m1-cI 2jfb-a2-m1-cJ_2jfb-a2-m1-cF 2jfb-a2-m1-cJ_2jfb-a2-m1-cI 2jfb-a3-m1-cK_2jfb-a3-m1-cO 2jfb-a3-m1-cL_2jfb-a3-m1-cK 2jfb-a3-m1-cL_2jfb-a3-m1-cM 2jfb-a3-m1-cM_2jfb-a3-m1-cN 6vfj-a1-m10-cA_6vfj-a1-m6-cA 6vfj-a1-m10-cA_6vfj-a1-m9-cA 6vfj-a1-m11-cA_6vfj-a1-m12-cA 6vfj-a1-m11-cA_6vfj-a1-m15-cA 6vfj-a1-m12-cA_6vfj-a1-m13-cA 6vfj-a1-m13-cA_6vfj-a1-m14-cA 6vfj-a1-m14-cA_6vfj-a1-m15-cA 6vfj-a1-m16-cA_6vfj-a1-m17-cA 6vfj-a1-m16-cA_6vfj-a1-m20-cA 6vfj-a1-m17-cA_6vfj-a1-m18-cA 6vfj-a1-m18-cA_6vfj-a1-m19-cA 6vfj-a1-m19-cA_6vfj-a1-m20-cA 6vfj-a1-m1-cA_6vfj-a1-m2-cA 6vfj-a1-m1-cA_6vfj-a1-m5-cA 6vfj-a1-m21-cA_6vfj-a1-m22-cA 6vfj-a1-m21-cA_6vfj-a1-m25-cA 6vfj-a1-m22-cA_6vfj-a1-m23-cA 6vfj-a1-m23-cA_6vfj-a1-m24-cA 6vfj-a1-m24-cA_6vfj-a1-m25-cA 6vfj-a1-m26-cA_6vfj-a1-m27-cA 6vfj-a1-m26-cA_6vfj-a1-m30-cA 6vfj-a1-m27-cA_6vfj-a1-m28-cA 6vfj-a1-m28-cA_6vfj-a1-m29-cA 6vfj-a1-m29-cA_6vfj-a1-m30-cA 6vfj-a1-m2-cA_6vfj-a1-m3-cA 6vfj-a1-m31-cA_6vfj-a1-m32-cA 6vfj-a1-m31-cA_6vfj-a1-m35-cA 6vfj-a1-m32-cA_6vfj-a1-m33-cA 6vfj-a1-m33-cA_6vfj-a1-m34-cA 6vfj-a1-m34-cA_6vfj-a1-m35-cA 6vfj-a1-m36-cA_6vfj-a1-m37-cA 6vfj-a1-m36-cA_6vfj-a1-m40-cA 6vfj-a1-m37-cA_6vfj-a1-m38-cA 6vfj-a1-m38-cA_6vfj-a1-m39-cA 6vfj-a1-m39-cA_6vfj-a1-m40-cA 6vfj-a1-m3-cA_6vfj-a1-m4-cA 6vfj-a1-m41-cA_6vfj-a1-m42-cA 6vfj-a1-m41-cA_6vfj-a1-m45-cA 6vfj-a1-m42-cA_6vfj-a1-m43-cA 6vfj-a1-m43-cA_6vfj-a1-m44-cA 6vfj-a1-m44-cA_6vfj-a1-m45-cA 6vfj-a1-m46-cA_6vfj-a1-m47-cA 6vfj-a1-m46-cA_6vfj-a1-m50-cA 6vfj-a1-m47-cA_6vfj-a1-m48-cA 6vfj-a1-m48-cA_6vfj-a1-m49-cA 6vfj-a1-m49-cA_6vfj-a1-m50-cA 6vfj-a1-m4-cA_6vfj-a1-m5-cA 6vfj-a1-m51-cA_6vfj-a1-m52-cA 6vfj-a1-m51-cA_6vfj-a1-m55-cA 6vfj-a1-m52-cA_6vfj-a1-m53-cA 6vfj-a1-m53-cA_6vfj-a1-m54-cA 6vfj-a1-m54-cA_6vfj-a1-m55-cA 6vfj-a1-m56-cA_6vfj-a1-m57-cA 6vfj-a1-m56-cA_6vfj-a1-m60-cA 6vfj-a1-m57-cA_6vfj-a1-m58-cA 6vfj-a1-m58-cA_6vfj-a1-m59-cA 6vfj-a1-m59-cA_6vfj-a1-m60-cA 6vfj-a1-m6-cA_6vfj-a1-m7-cA 6vfj-a1-m7-cA_6vfj-a1-m8-cA 6vfj-a1-m8-cA_6vfj-a1-m9-cA KYDGSKLRIGILHARWNRKIIDALVAGAVKRLQEFGVKEENIIIETVPGSFELPYGSKLFVEKQKRLGKPLDAIIPIGVLIKGSTMHFEYICDSTTHQLMKLNFELGIPVIFGVLTCLTDEQAEARAGLIEGKMHNHGEDWGAAAVEMATKFN KYDGSKLRIGILHARWNRKIIDALVAGAVKRLQEFGVKEENIIIETVPGSFELPYGSKLFVEKQKRLGKPLDAIIPIGVLIKGSTMHFEYICDSTTHQLMKLNFELGIPVIFGVLTCLTDEQAEARAGLIEGKMHNHGEDWGAAAVEMATKFN 2jfp-a1-m1-cA_2jfp-a1-m1-cB Crystal structure of Enterococcus faecalis glutamate racemase in complex with D- Glutamate Q836J0 Q836J0 1.98 X-RAY DIFFRACTION 44 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 267 267 2jfo-a1-m1-cA_2jfo-a1-m1-cB SNQEAIGLIDSGVGGLTVLKEALKQLPNERLIYLGDTARCPYGPRPAEQVVQFTWEMADFLLKKRIKMLVIACNTATAVALEEIKAALPIPVVGVILPGARAAVKVTKNNKIGVIGTLGTIKSASYEIAIKSKAPAIEVTSLACPKFVPIVESNQYRSSVAKKIVAETLQALQLKGLDTLILGCTHYPLLRPVIQNVMGSHVTLIDSGAETVGEVSMLLDYFDIAHTPEAPTQPHEFYTTGSAKMFEEIASSWLGIENLKAQQIHLG SNQEAIGLIDSGVGGLTVLKEALKQLPNERLIYLGDTARCPYGPRPAEQVVQFTWEMADFLLKKRIKMLVIACNTATAVALEEIKAALPIPVVGVILPGARAAVKVTKNNKIGVIGTLGTIKSASYEIAIKSKAPAIEVTSLACPKFVPIVESNQYRSSVAKKIVAETLQALQLKGLDTLILGCTHYPLLRPVIQNVMGSHVTLIDSGAETVGEVSMLLDYFDIAHTPEAPTQPHEFYTTGSAKMFEEIASSWLGIENLKAQQIHLG 2jfq-a1-m1-cA_2jfq-a1-m1-cB Crystal structure of Staphylococcus aureus glutamate racemase in complex with D- Glutamate Q6GHT5 Q6GHT5 2.15 X-RAY DIFFRACTION 67 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 265 265 MNKPIGVIDSGVGGLTVAKEIMRQLPNETIYYLGDIGRCPYGPRPGEQVKQYTVEIARKLMEFDIKMLVIACNTATAVALEYLQKTLSISVIGVIEPGARTAIMTTRNQNVLVLGTEGTIKSEAYRTHIKRINPHVEVHGVACPGFVPLVEQMRYSDPTITSIVIHQTLKRWRNSESDTVILGCTHYPLLYKPIYDYFGGKKTVISSGLETAREVSALLTFSNEHASYTEHPDHRFFATGDTTHITNIIKEWLNLSVNVERISVN MNKPIGVIDSGVGGLTVAKEIMRQLPNETIYYLGDIGRCPYGPRPGEQVKQYTVEIARKLMEFDIKMLVIACNTATAVALEYLQKTLSISVIGVIEPGARTAIMTTRNQNVLVLGTEGTIKSEAYRTHIKRINPHVEVHGVACPGFVPLVEQMRYSDPTITSIVIHQTLKRWRNSESDTVILGCTHYPLLYKPIYDYFGGKKTVISSGLETAREVSALLTFSNEHASYTEHPDHRFFATGDTTHITNIIKEWLNLSVNVERISVN 2jfv-a1-m1-cA_2jfv-a1-m2-cA Crystal structure of Enterococcus faecium glutamate racemase in complex with citrate Q3XZW8 Q3XZW8 1.8 X-RAY DIFFRACTION 57 1.0 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 270 270 2jfu-a1-m1-cA_2jfu-a1-m2-cA 2jfw-a1-m1-cA_2jfw-a1-m2-cA MIRLTDNRPIGFIDSGVGGLTVVKEALKQLPNENILFVGDTARCPYGPRPAEQVIQYTWEMTDYLVEQGIKMLVIACNTATAVALEEIKAALSIPVIGVILPGTRAAVKKTQNKQVGIIGTIGTVKSQAYEKALKEKVPELTVTSLACPKFVSVVESNEYHSSVAKKIVAETLAPLTTKKIDTLILGCTHYPLLRPIIQNVMGENVQLIDSGAETVGEVSMLLDYFNLSNSPQNGRTLCQFYTTGSAKLFEEIAEDWLGIGHLNVEHIEL MIRLTDNRPIGFIDSGVGGLTVVKEALKQLPNENILFVGDTARCPYGPRPAEQVIQYTWEMTDYLVEQGIKMLVIACNTATAVALEEIKAALSIPVIGVILPGTRAAVKKTQNKQVGIIGTIGTVKSQAYEKALKEKVPELTVTSLACPKFVSVVESNEYHSSVAKKIVAETLAPLTTKKIDTLILGCTHYPLLRPIIQNVMGENVQLIDSGAETVGEVSMLLDYFNLSNSPQNGRTLCQFYTTGSAKLFEEIAEDWLGIGHLNVEHIEL 2jg5-a1-m1-cA_2jg5-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHOFRUCTOKINASE FROM STAPHYLOCOCCUS AUREUS Q9KWK1 Q9KWK1 2.3 X-RAY DIFFRACTION 88 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 306 306 MIYTVTFNPSIDYVIFTNDFKIDGLNRATATYKFAGGKGINVSRVLKTLDVESTALGFAGGFPGKFIIDTLNNSAIQSNFIEVDEDTRINVKLKTGQETEINAPGPHITSTQFEQLLQQIKNTTSEDIVIVAGSVPSSIPSDAYAQIAQITAQTGAKLVVDAEKELAESVLPYHPLFIKPNKDELEVMFNTTVNSDADVIKYGRLLVDKGAQSVIVSLGGDGAIYIDKEISIKAVNPQGKVVNTVGSGDSTVAGMVAGIASGLSIEKAFQQAVACGTATAFDEDLATRDAIEKIKSQVTISVLDGE MIYTVTFNPSIDYVIFTNDFKIDGLNRATATYKFAGGKGINVSRVLKTLDVESTALGFAGGFPGKFIIDTLNNSAIQSNFIEVDEDTRINVKLKTGQETEINAPGPHITSTQFEQLLQQIKNTTSEDIVIVAGSVPSSIPSDAYAQIAQITAQTGAKLVVDAEKELAESVLPYHPLFIKPNKDELEVMFNTTVNSDADVIKYGRLLVDKGAQSVIVSLGGDGAIYIDKEISIKAVNPQGKVVNTVGSGDSTVAGMVAGIASGLSIEKAFQQAVACGTATAFDEDLATRDAIEKIKSQVTISVLDGE 2jg7-a2-m1-cE_2jg7-a2-m1-cH Crystal structure of Seabream Antiquitin and Elucidation of its substrate specificity Q4KTQ7 Q4KTQ7 2.83 X-RAY DIFFRACTION 58 1.0 72011 (Acanthopagrus schlegelii) 72011 (Acanthopagrus schlegelii) 509 509 2jg7-a1-m1-cA_2jg7-a1-m1-cC 2jg7-a1-m1-cB_2jg7-a1-m1-cD 2jg7-a2-m1-cF_2jg7-a2-m1-cG SGLLINQPKYSWLKELGLSEDNPGVYNGSWGGSGEVITSYCPANNEPIARVTQATLAEYEETVQKTREAWKMWADIPAPKRGEIVRQIGDALRKKIKVLGSLVSLEMGKIYVEGVGEVQEYVDVCDYAVGLSRMIGGPVLPSERPGHALIEQWNPVGLVGIITAFNFPVAVYGWNNAIALTCGNVCLWKGAPTTPLTSVAVTKIVAEVLEQNNLPGAICSMTCGGADIGTAMAKDERVDLLSFTGSTHVGKMVAMMVQERFGRKLLELGGNNAIIVFEDADLNLVVPSAVFASVGTAGQRCTTTRRLMLHESVHDAVVERIAKAYKQVRIGDPWDPSTLYGPLHTKQAVDQYLAAIEQAKQQGGTLVCGGKVMDRPGNYVEPTIITGLAHDAPIVHTETFVPILYVLKFKTEEEAFAWNNEVQQGLSSSIFTKDLGRVFRWLGPKGSDCGIVNVNIPTSGAEIGGAFGGEKHTGGGRESGSDSWKQYMRRSTCTINYSKDLPLAQGIKF SGLLINQPKYSWLKELGLSEDNPGVYNGSWGGSGEVITSYCPANNEPIARVTQATLAEYEETVQKTREAWKMWADIPAPKRGEIVRQIGDALRKKIKVLGSLVSLEMGKIYVEGVGEVQEYVDVCDYAVGLSRMIGGPVLPSERPGHALIEQWNPVGLVGIITAFNFPVAVYGWNNAIALTCGNVCLWKGAPTTPLTSVAVTKIVAEVLEQNNLPGAICSMTCGGADIGTAMAKDERVDLLSFTGSTHVGKMVAMMVQERFGRKLLELGGNNAIIVFEDADLNLVVPSAVFASVGTAGQRCTTTRRLMLHESVHDAVVERIAKAYKQVRIGDPWDPSTLYGPLHTKQAVDQYLAAIEQAKQQGGTLVCGGKVMDRPGNYVEPTIITGLAHDAPIVHTETFVPILYVLKFKTEEEAFAWNNEVQQGLSSSIFTKDLGRVFRWLGPKGSDCGIVNVNIPTSGAEIGGAFGGEKHTGGGRESGSDSWKQYMRRSTCTINYSKDLPLAQGIKF 2jg7-a2-m1-cF_2jg7-a2-m1-cH Crystal structure of Seabream Antiquitin and Elucidation of its substrate specificity Q4KTQ7 Q4KTQ7 2.83 X-RAY DIFFRACTION 73 1.0 72011 (Acanthopagrus schlegelii) 72011 (Acanthopagrus schlegelii) 509 509 2jg7-a1-m1-cA_2jg7-a1-m1-cD 2jg7-a1-m1-cB_2jg7-a1-m1-cC 2jg7-a2-m1-cE_2jg7-a2-m1-cG SGLLINQPKYSWLKELGLSEDNPGVYNGSWGGSGEVITSYCPANNEPIARVTQATLAEYEETVQKTREAWKMWADIPAPKRGEIVRQIGDALRKKIKVLGSLVSLEMGKIYVEGVGEVQEYVDVCDYAVGLSRMIGGPVLPSERPGHALIEQWNPVGLVGIITAFNFPVAVYGWNNAIALTCGNVCLWKGAPTTPLTSVAVTKIVAEVLEQNNLPGAICSMTCGGADIGTAMAKDERVDLLSFTGSTHVGKMVAMMVQERFGRKLLELGGNNAIIVFEDADLNLVVPSAVFASVGTAGQRCTTTRRLMLHESVHDAVVERIAKAYKQVRIGDPWDPSTLYGPLHTKQAVDQYLAAIEQAKQQGGTLVCGGKVMDRPGNYVEPTIITGLAHDAPIVHTETFVPILYVLKFKTEEEAFAWNNEVQQGLSSSIFTKDLGRVFRWLGPKGSDCGIVNVNIPTSGAEIGGAFGGEKHTGGGRESGSDSWKQYMRRSTCTINYSKDLPLAQGIKF SGLLINQPKYSWLKELGLSEDNPGVYNGSWGGSGEVITSYCPANNEPIARVTQATLAEYEETVQKTREAWKMWADIPAPKRGEIVRQIGDALRKKIKVLGSLVSLEMGKIYVEGVGEVQEYVDVCDYAVGLSRMIGGPVLPSERPGHALIEQWNPVGLVGIITAFNFPVAVYGWNNAIALTCGNVCLWKGAPTTPLTSVAVTKIVAEVLEQNNLPGAICSMTCGGADIGTAMAKDERVDLLSFTGSTHVGKMVAMMVQERFGRKLLELGGNNAIIVFEDADLNLVVPSAVFASVGTAGQRCTTTRRLMLHESVHDAVVERIAKAYKQVRIGDPWDPSTLYGPLHTKQAVDQYLAAIEQAKQQGGTLVCGGKVMDRPGNYVEPTIITGLAHDAPIVHTETFVPILYVLKFKTEEEAFAWNNEVQQGLSSSIFTKDLGRVFRWLGPKGSDCGIVNVNIPTSGAEIGGAFGGEKHTGGGRESGSDSWKQYMRRSTCTINYSKDLPLAQGIKF 2jg7-a2-m1-cG_2jg7-a2-m1-cH Crystal structure of Seabream Antiquitin and Elucidation of its substrate specificity Q4KTQ7 Q4KTQ7 2.83 X-RAY DIFFRACTION 215 1.0 72011 (Acanthopagrus schlegelii) 72011 (Acanthopagrus schlegelii) 509 509 2jg7-a1-m1-cA_2jg7-a1-m1-cB 2jg7-a1-m1-cC_2jg7-a1-m1-cD 2jg7-a2-m1-cE_2jg7-a2-m1-cF SGLLINQPKYSWLKELGLSEDNPGVYNGSWGGSGEVITSYCPANNEPIARVTQATLAEYEETVQKTREAWKMWADIPAPKRGEIVRQIGDALRKKIKVLGSLVSLEMGKIYVEGVGEVQEYVDVCDYAVGLSRMIGGPVLPSERPGHALIEQWNPVGLVGIITAFNFPVAVYGWNNAIALTCGNVCLWKGAPTTPLTSVAVTKIVAEVLEQNNLPGAICSMTCGGADIGTAMAKDERVDLLSFTGSTHVGKMVAMMVQERFGRKLLELGGNNAIIVFEDADLNLVVPSAVFASVGTAGQRCTTTRRLMLHESVHDAVVERIAKAYKQVRIGDPWDPSTLYGPLHTKQAVDQYLAAIEQAKQQGGTLVCGGKVMDRPGNYVEPTIITGLAHDAPIVHTETFVPILYVLKFKTEEEAFAWNNEVQQGLSSSIFTKDLGRVFRWLGPKGSDCGIVNVNIPTSGAEIGGAFGGEKHTGGGRESGSDSWKQYMRRSTCTINYSKDLPLAQGIKF SGLLINQPKYSWLKELGLSEDNPGVYNGSWGGSGEVITSYCPANNEPIARVTQATLAEYEETVQKTREAWKMWADIPAPKRGEIVRQIGDALRKKIKVLGSLVSLEMGKIYVEGVGEVQEYVDVCDYAVGLSRMIGGPVLPSERPGHALIEQWNPVGLVGIITAFNFPVAVYGWNNAIALTCGNVCLWKGAPTTPLTSVAVTKIVAEVLEQNNLPGAICSMTCGGADIGTAMAKDERVDLLSFTGSTHVGKMVAMMVQERFGRKLLELGGNNAIIVFEDADLNLVVPSAVFASVGTAGQRCTTTRRLMLHESVHDAVVERIAKAYKQVRIGDPWDPSTLYGPLHTKQAVDQYLAAIEQAKQQGGTLVCGGKVMDRPGNYVEPTIITGLAHDAPIVHTETFVPILYVLKFKTEEEAFAWNNEVQQGLSSSIFTKDLGRVFRWLGPKGSDCGIVNVNIPTSGAEIGGAFGGEKHTGGGRESGSDSWKQYMRRSTCTINYSKDLPLAQGIKF 2jgd-a1-m1-cB_2jgd-a1-m1-cA E. COLI 2-oxoglutarate dehydrogenase (E1o) P0AFG3 P0AFG3 2.6 X-RAY DIFFRACTION 227 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 807 812 6vef-a1-m1-cA_6vef-a1-m1-cB TNVKQVKVLQLINAYRFRGHQHANLDPLGLWKVADLDPSFHDLTEADFQETFNVGSFASGKETMKLGELLEALKQTYCGPIGAEYMHITSTEEKRWIQQRIESGRATFNSEEKKRFLSELTAAEGLERYLGAKFPRFSLEGGDALIPMLKEMIRHAGNSGTREVVLGMAHRGRLNVLVNVLGKKPQDLFDEFAGKHGTGDVKYHMGFSSDFQTDGGLVHLALAFNPSHLEIVSPVVIGSVRARLDRLDEPSSNKVLPITIHGDAAVTGQGVVQETLNMSKARGYEVGGTVRIVINNQYCTDIGKMVQAPIFHVNADDPEAVAFVTRLALDFRNTFKRDVFIDLVCYRRHYQKIKKHPTPRKIYADKLEQEKVATLEDATEMVNLYRDALDAGDCVVAEWRPMNMHSFTWSPYLNHEWDEEYPNKVEMKRLQELAKRISTVPEAVEMQSRVAKIYADRQAMAAGEKLFDWGGAENLAYATLVDEGIPVRLSGEDSGRGTFFHRHAVIHNQSNGSTYTPLQHIHNGQGAFRVWDSSEEAVLAFEYGYATAEPRTLTIWEAQFGDFANGAQVVIDQFISSGEQKWGRMCGLVMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVCVPSTPAQVYHMLRRQALRGMRRPLVVMSPKSLLRHPLAVSSLEELANGTFLPAIGEIDELDPKGVKRVVMCSGKVYYDLLEQRRKNNQHDVAIVRIEQLYPFPHKAMQEVLQQFAHVKDFVWCQEEPLNQGAWYCSQHHFREVIPFGASLRYAGRPASASPAVGYMSVHQKQQQDLVNDALNVE DTNVKQVKVLQLINAYRFRGHQHANLDPLGLWQQDDLDPSFHDLTEDFQETFNVGSFAETMKLGELLEALKQTYCGPIGAEYMHITSTEEKRWIQQRIESRATFNSEEKKRFLSELTAAEGLERYLGAKFPGRFSLEGGDALIPMLKEMIRHAGNSGTREVVLGMAHRGRLNVLVNVLGKKPQDLFDEFAGKHHLGTGDVKYHMGFSSDFQTDGGLVHLALAFNPSHLEIVSPVVIGSVRARLDRLDEPSSNKVLPITIHGDAAVTGQGVVQETLNMSKARGYEVGGTVRIVINNQYCTDIGKMVQAPIFHVNADDPEAVAFVTRLALDFRNTFKRDVFIDLVCYRRHQPLMYQKIKKHPTPRKIYADKLEQEKVATLEDATEMVNLYRDALDAGDCVVAEWRPMNMHSFTWSPYLNHEWDEEYPNKVEMKRLQELAKRISTVPEAVEMQSRVAKIYGDRQAMAAGEKLFDWGGAENLAYATLVDEGIPVRLSGEDSGRGTFFHRHAVIHNQSNGSTYTPLQHIHNGQGAFRVWDSVLSEEAVLAFEYGYATAEPRTLTIWEAQFGDFANGAQVVIDQFISSGEQKWGRMCGLVMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVCVPSTPAQVYHMLRRQALRGMRRPLVVMSPKSLLRHPLAVSSLEELANGTFLPAIGEIDELDPKGVKRVVMCSGKVYYDLLEQRRKNNQHDVAIVRIEQLYPFPHKAMQEVLQQFAHVKDFVWCQEEPLNQGAWYCSQHHFREVIPFGASLRYAGRPASASPAVGHMSVHQKQQQDLVNDALNVE 2jgm-a1-m1-cB_2jgm-a1-m1-cA Crystal structure of mouse acetylcholinesterase inhibited by aged diisopropyl fluorophosphate (DFP) P21836 P21836 2.9 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 529 534 1c2b-a1-m1-cA_1c2b-a1-m2-cA 1c2o-a1-m1-cA_1c2o-a1-m1-cD 1c2o-a2-m1-cB_1c2o-a2-m1-cC 1j06-a1-m1-cB_1j06-a1-m1-cA 1j07-a1-m1-cB_1j07-a1-m1-cA 1ku6-a2-m1-cA_1ku6-a2-m2-cA 1maa-a1-m1-cB_1maa-a1-m1-cA 1maa-a2-m1-cC_1maa-a2-m1-cD 1n5m-a1-m1-cB_1n5m-a1-m1-cA 1n5r-a1-m1-cB_1n5r-a1-m1-cA 1q83-a1-m1-cB_1q83-a1-m1-cA 1q84-a1-m1-cB_1q84-a1-m1-cA 2c0p-a1-m1-cB_2c0p-a1-m1-cA 2c0q-a1-m1-cB_2c0q-a1-m1-cA 2gyu-a1-m1-cB_2gyu-a1-m1-cA 2gyv-a1-m1-cB_2gyv-a1-m1-cA 2gyw-a1-m1-cB_2gyw-a1-m1-cA 2h9y-a1-m1-cB_2h9y-a1-m1-cA 2ha0-a1-m1-cA_2ha0-a1-m1-cB 2ha2-a1-m1-cB_2ha2-a1-m1-cA 2ha3-a1-m1-cB_2ha3-a1-m1-cA 2ha4-a1-m1-cB_2ha4-a1-m1-cA 2ha5-a1-m1-cB_2ha5-a1-m1-cA 2ha6-a1-m1-cB_2ha6-a1-m1-cA 2ha7-a1-m1-cB_2ha7-a1-m2-cA 2jey-a1-m1-cB_2jey-a1-m1-cA 2jez-a1-m1-cB_2jez-a1-m1-cA 2jf0-a1-m1-cB_2jf0-a1-m1-cA 2jge-a1-m1-cB_2jge-a1-m1-cA 2jgf-a1-m1-cB_2jgf-a1-m1-cA 2jgi-a1-m1-cB_2jgi-a1-m1-cA 2jgj-a1-m1-cB_2jgj-a1-m1-cA 2jgk-a1-m1-cB_2jgk-a1-m1-cA 2whq-a1-m1-cB_2whq-a1-m1-cA 2whr-a1-m1-cB_2whr-a1-m1-cA 2wls-a1-m1-cB_2wls-a1-m1-cA 2wu3-a1-m1-cB_2wu3-a1-m1-cA 2wu4-a1-m1-cB_2wu4-a1-m1-cA 2xud-a1-m1-cB_2xud-a1-m1-cA 2xuf-a1-m1-cB_2xuf-a1-m1-cA 2xug-a1-m1-cA_2xug-a1-m1-cB 2xuh-a1-m1-cB_2xuh-a1-m1-cA 2xuj-a1-m1-cB_2xuj-a1-m1-cA 2xuo-a1-m1-cB_2xuo-a1-m1-cA 2xup-a1-m1-cA_2xup-a1-m1-cB 2xuq-a1-m1-cB_2xuq-a1-m1-cA 3dl4-a1-m1-cA_3dl4-a1-m1-cB 3dl7-a1-m1-cB_3dl7-a1-m1-cA 4a16-a1-m1-cA_4a16-a1-m1-cB 4a16-a2-m1-cC_4a16-a2-m1-cD 4a23-a1-m1-cB_4a23-a1-m1-cA 4ara-a1-m1-cB_4ara-a1-m1-cA 4arb-a1-m1-cB_4arb-a1-m1-cA 4b7z-a1-m1-cB_4b7z-a1-m1-cA 4b80-a1-m1-cB_4b80-a1-m1-cA 4b81-a1-m1-cB_4b81-a1-m1-cA 4b82-a1-m1-cB_4b82-a1-m1-cA 4b83-a1-m1-cB_4b83-a1-m1-cA 4b84-a1-m1-cB_4b84-a1-m1-cA 4b85-a1-m1-cB_4b85-a1-m1-cA 4bc0-a1-m1-cB_4bc0-a1-m1-cA 4bc0-a2-m1-cC_4bc0-a2-m1-cD 4btl-a1-m1-cB_4btl-a1-m1-cA 5dti-a1-m1-cB_5dti-a1-m1-cA 5dtj-a1-m1-cB_5dtj-a1-m1-cA 5ehn-a1-m1-cB_5ehn-a1-m1-cA 5ehq-a1-m1-cB_5ehq-a1-m1-cA 5ehz-a1-m1-cB_5ehz-a1-m1-cA 5eia-a1-m1-cB_5eia-a1-m1-cA 5eie-a1-m1-cB_5eie-a1-m1-cA 5eih-a1-m1-cB_5eih-a1-m1-cA 5fkj-a1-m1-cC_5fkj-a1-m1-cD 5fkj-a2-m1-cB_5fkj-a2-m1-cA 5foq-a1-m1-cB_5foq-a1-m1-cA 5fpp-a1-m1-cB_5fpp-a1-m1-cA 5fum-a1-m1-cB_5fum-a1-m1-cA 5hcu-a1-m1-cB_5hcu-a1-m1-cA 5ov9-a1-m1-cB_5ov9-a1-m1-cA 6fsd-a1-m1-cB_6fsd-a1-m1-cA 6fse-a1-m1-cB_6fse-a1-m1-cA 6td2-a1-m1-cB_6td2-a1-m1-cA 7qak-a1-m1-cB_7qak-a1-m1-cA 7qb4-a1-m1-cB_7qb4-a1-m1-cA 7qyn-a1-m1-cB_7qyn-a1-m1-cA 7r02-a1-m1-cB_7r02-a1-m1-cA 7r0a-a1-m1-cB_7r0a-a1-m1-cA 7r2f-a1-m1-cB_7r2f-a1-m1-cA 7r3c-a1-m1-cB_7r3c-a1-m1-cA 7r4e-a1-m1-cB_7r4e-a1-m1-cA EDPQLLVRVRGGQLRGIRLKAPGGPVSAFLGIPFAEPPVGSRRFMPPEPKRPWSGVLDATTFQNVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPASPTPVLIWIYGGGFYSGAASLDVYDGRFLAQVEGAVLVSMNYRVGTFGFLALPGSREAPGNVGLLDQRLALQWVQENIAAFGGDPMSVTLFGEAGAASVGMHILSLPSRSLFHRAVLQSGTPNGPWATVSAGEARRRATLLARLVGCNDTELIACLRTRPAQDLVDHEWHVLPQESIFRFSFVPVVDGDFLSDTPEALINTGDFQDLQVLVGVVKDEGSYFLVYGVPGFSKDNESLISRAQFLAGVRIGVPQASDLAAEAVVLHYTDWLHPEDPTHLRDAMSAVVGDHNVVCPVAQLAGRLAAQGARVYAYIFEHRASTLTWPLWMGVPHGYEIEFIFGLPLDPSLNYTTEERIFAQRLMKYWTNFARTGDPNDPRDSKSPQWPPYTTAAQQYVSLNLKPLEVRRGLRAQTCAFWNRFLPKLL EGREDPQLLVRVRGGQLRGIRLKAPGGPVSAFLGIPFAEPPVGSRRFMPPEPKRPWSGVLDATTFQNVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPASPTPVLIWIYGGGFYSGAASLDVYDGRFLAQVEGAVLVSMNYRVGTFGFLALPGSREAPGNVGLLDQRLALQWVQENIAAFGGDPMSVTLFGEAGAASVGMHILSLPSRSLFHRAVLQSGTPNGPWATVSAGEARRRATLLARLVGCNDTELIACLRTRPAQDLVDHEWHVLPQESIFRFSFVPVVDGDFLSDTPEALINTGDFQDLQVLVGVVKDEGSYFLVYGVPGFSKDNESLISRAQFLAGVRIGVPQASDLAAEAVVLHYTDWLHPEDPTHLRDAMSAVVGDHNVVCPVAQLAGRLAAQGARVYAYIFEHRASTLTWPLWMGVPHGYEIEFIFGLPLDPSLNYTTEERIFAQRLMKYWTNFARTGDPNDPRDSKSPQWPPYTTAAQQYVSLNLKPLEVRRGLRAQTCAFWNRFLPKLLSA 2jgo-a1-m1-cA_2jgo-a1-m1-cB Structure of the arsenated de novo designed peptide Coil Ser L9C 1.81 X-RAY DIFFRACTION 23 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 2jgo-a1-m1-cA_2jgo-a1-m1-cC 2jgo-a1-m1-cB_2jgo-a1-m1-cC 3ljm-a1-m1-cA_3ljm-a1-m1-cB 3ljm-a1-m1-cA_3ljm-a1-m1-cC 3ljm-a1-m1-cB_3ljm-a1-m1-cC EWEALEKKCAALESKLQALEKKLEALEHG EWEALEKKCAALESKLQALEKKLEALEHG 2jgq-a1-m1-cA_2jgq-a1-m1-cB Kinetics and structural properties of triosephosphate isomerase from Helicobacter pylori P56076 P56076 2.3 X-RAY DIFFRACTION 126 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 231 231 TKIAMANFKSAMPIFKSHAYLKELEKTLKPQHFDRVFVFPDFFGLLPNSFLHFTLGVQNAYPRDCGAFTGEITSKHLEELKIHTLLIGHSERRTLLKESPSFLKEKFDFFKSKNFKIVYCIGEELTTREKGFKAVKEFLSEQLENIDLNYPNLVVAYEPIWAIGTSASLEDIYLTHGFLKQILNQKTPLLYGGSVNTQNAKEILGIDSVDGLLIGSASWELENFKTIISFL TKIAMANFKSAMPIFKSHAYLKELEKTLKPQHFDRVFVFPDFFGLLPNSFLHFTLGVQNAYPRDCGAFTGEITSKHLEELKIHTLLIGHSERRTLLKESPSFLKEKFDFFKSKNFKIVYCIGEELTTREKGFKAVKEFLSEQLENIDLNYPNLVVAYEPIWAIGTSASLEDIYLTHGFLKQILNQKTPLLYGGSVNTQNAKEILGIDSVDGLLIGSASWELENFKTIISFL 2jgs-a1-m1-cA_2jgs-a1-m1-cD Circular permutant of avidin P02701 P02701 1.9 X-RAY DIFFRACTION 165 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 109 113 2jgs-a1-m1-cC_2jgs-a1-m1-cB ESPLHGTQNTINKRTQPTFGFTVNWKFSESTTVFTGQCFIDKEVLKTMWLLRSSVNDIGDDWKATRVGIMIFTRCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVT ESPLHGTQNTINKRTQPTFGFTVNWKFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGIMIFTRLCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVT 2jh3-a2-m1-cD_2jh3-a2-m1-cB The crystal structure of DR2241 from Deinococcus radiodurans at 1.9 A resolution reveals a multi-domain protein with structural similarity to chelatases but also with two additional novel domains Q9RS86 Q9RS86 1.9 X-RAY DIFFRACTION 67 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 456 459 2jh3-a1-m1-cA_2jh3-a1-m1-cC GALRSLVLIGHGSHHHGESARATQQVAEALRGRGLAGHLPYDEVLEGYWQQEPGLRQVLRTVAYSDVTVVPVFLSEGYVTETVLPRELGLGHQGPVPTGGVVRVLGGRRVRYTRPLGAHPGMADAIAAQARDTLPEGTDPADVTLLLLAARPGNAALETHAQALRERGQFAGVEVVLESAVPLSEWPSRVEAGQAVLVPFLTHLGKHAAERLQQALAQAAERFPQAPPLHVGGPVGEHPAVAEVVLALAAEGREDERGGDIDQAHAEAWAALRHLAERGGRLGEVLLTPYGGLFELRHTLDEGRATLDLQTVVTPEGLRDLTARDEAGRWRPIRTWRTLPRGWRAVLSPADLRLGLELLYPAVIEESYAHEHRRLHWTPWMSTARRQTGTLARVQRATPDQVDTVAAQVCASCLRTRLWAGHTLGQTIFSGVPGGLPCAEACTVLLAAVRDEVGRE GALRSLVLIGHGSHHHGESARATQQVAEALRGRGLAGHLPYDEVLEGYWQQEPGLRQVLRTVAYSDVTVVPVFLSEGYVTETVLPRELGLGHQGPVPTGGVVRVLGGRRVRYTRPLGAHPGMADAIAAQARDTLPEGTDPADVTLLLLAARPGNAALETHAQALRERGQFAGVEVVLESRESAVPLSEWPSRVEAGQAVLVPFLTHLGKHAAERLQQALAQAAERFPQAPPLHVGGPVGEHPAVAEVVLALAAEGREDERGGDIDQAHAEAWAALRHLAERGGRLGEVLLTPYGGLFELRHTLDEGRATLDLQTVVTPEGLRDLTARDEAGRWRPIRTWRTLPRGWRAVLSPADLRLGLELLYPAVIEESYAHEHRRLHWTPWMSTARRQTGTLARVQRATPDQVDTVAAQVCASCLRTRLWAGHTLGQTIFSGVPGGLPCAEACTVLLAAVRDEVGRE 2jhe-a2-m1-cC_2jhe-a2-m1-cD N-terminal domain of TyrR transcription factor (residues 1 - 190) P07604 P07604 2.3 X-RAY DIFFRACTION 132 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 187 189 2jhe-a1-m1-cA_2jhe-a1-m1-cB MRLEVFCEDRLGLTRELLDLLVLRGIDLRGIEIDPIGRIYLNFAELEFESFSSLMAEIRRIAGVTDVRTVPWMPSEREHLALSALLEALPEPVLSVDMKSKVDMANPASCQLFGQKLDRLRNHTAAQLINGFNFLRWLESEPQDSHNEHVVINGQNFLMEITPVYLQDENDQHVLTAVVMLRSTIRM MRLEVFCEDRLGLTRELLDLLVLRGIDLRGIEIDPIGRIYLNFAELEFESFSSLMAEIRRIAGVTDVRTVPWMPSEREHLALSALLEALPEPVLSVDMKSKVDMANPASCQLFGQKLDRLRNHTAAQLINGFNFLRWLESEPQDSHNEHVVINGQNFLMEITPVYLQDENDQHVLTAVVMLRSTIRMGR 2ji2-a1-m1-cB_2ji2-a1-m1-cA X-ray structure of E114A mutant of superoxide reductase from Desulfoarculus baarsii in the native, reduced form Q46495 Q46495 1.7 X-RAY DIFFRACTION 117 1.0 453230 (Desulfarculus baarsii) 453230 (Desulfarculus baarsii) 125 126 1vzg-a1-m1-cA_1vzg-a1-m1-cB 1vzh-a1-m1-cA_1vzh-a1-m1-cB 1vzi-a1-m1-cA_1vzi-a1-m1-cB 2ji1-a1-m1-cA_2ji1-a1-m1-cB 2ji1-a2-m1-cC_2ji1-a2-m1-cD 2ji2-a2-m1-cD_2ji2-a2-m1-cC 2ji3-a1-m1-cB_2ji3-a1-m1-cA 2ji3-a2-m1-cD_2ji3-a2-m1-cC PERLQVYKCEVCGNIVEVLNGGIGELVCCNQDMKLMSENTVDAAKEKHVPVIEKIDGGYKVKVGAVAHPMEEKHYIQWIELLADDKCYTQFLKPGQAPEAVFLIEAAKVVARAYCNIHGHWKAEN MPERLQVYKCEVCGNIVEVLNGGIGELVCCNQDMKLMSENTVDAAKEKHVPVIEKIDGGYKVKVGAVAHPMEEKHYIQWIELLADDKCYTQFLKPGQAPEAVFLIEAAKVVARAYCNIHGHWKAEN 2ji4-a1-m2-cA_2ji4-a1-m6-cA Human phosphoribosylpyrophosphate synthetase - associated protein 41 (PAP41) O60256 O60256 2.55 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 302 2ji4-a1-m1-cA_2ji4-a1-m5-cA 2ji4-a1-m3-cA_2ji4-a1-m4-cA GLVLFSANSNSSCMELSKKIAERLGVEMGKVQVYQEPNRETRVQIQESVRGKDVFIIQTVSKDVNTTIMELLIMVYACKTSCAKSIIGVIPYFPYSKQSIVSKLLASMMCKAGLTHLITMDLHQKEIQGFFNIPVDNLRASPFLLQYIQEEIPDYRNAVIVAKSPASAKRAQSFAERLRLGIAVIHPITVVGDVGGRIAIIVDDIIDDVDSFLAAAETLKERGAYKIFVMATHGLLSSDAPRRIEESAIDEVVVTNTIPHEVQKLQCPKIKTVDISMILSEAIRRIHNGESMSYLFRNIGLD GLVLFSANSNSSCMELSKKIAERLGVEMGKVQVYQEPNRETRVQIQESVRGKDVFIIQTVSKDVNTTIMELLIMVYACKTSCAKSIIGVIPYFPYSKQSIVSKLLASMMCKAGLTHLITMDLHQKEIQGFFNIPVDNLRASPFLLQYIQEEIPDYRNAVIVAKSPASAKRAQSFAERLRLGIAVIHPITVVGDVGGRIAIIVDDIIDDVDSFLAAAETLKERGAYKIFVMATHGLLSSDAPRRIEESAIDEVVVTNTIPHEVQKLQCPKIKTVDISMILSEAIRRIHNGESMSYLFRNIGLD 2ji4-a1-m3-cA_2ji4-a1-m6-cA Human phosphoribosylpyrophosphate synthetase - associated protein 41 (PAP41) O60256 O60256 2.55 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 302 2ji4-a1-m1-cA_2ji4-a1-m4-cA 2ji4-a1-m2-cA_2ji4-a1-m5-cA GLVLFSANSNSSCMELSKKIAERLGVEMGKVQVYQEPNRETRVQIQESVRGKDVFIIQTVSKDVNTTIMELLIMVYACKTSCAKSIIGVIPYFPYSKQSIVSKLLASMMCKAGLTHLITMDLHQKEIQGFFNIPVDNLRASPFLLQYIQEEIPDYRNAVIVAKSPASAKRAQSFAERLRLGIAVIHPITVVGDVGGRIAIIVDDIIDDVDSFLAAAETLKERGAYKIFVMATHGLLSSDAPRRIEESAIDEVVVTNTIPHEVQKLQCPKIKTVDISMILSEAIRRIHNGESMSYLFRNIGLD GLVLFSANSNSSCMELSKKIAERLGVEMGKVQVYQEPNRETRVQIQESVRGKDVFIIQTVSKDVNTTIMELLIMVYACKTSCAKSIIGVIPYFPYSKQSIVSKLLASMMCKAGLTHLITMDLHQKEIQGFFNIPVDNLRASPFLLQYIQEEIPDYRNAVIVAKSPASAKRAQSFAERLRLGIAVIHPITVVGDVGGRIAIIVDDIIDDVDSFLAAAETLKERGAYKIFVMATHGLLSSDAPRRIEESAIDEVVVTNTIPHEVQKLQCPKIKTVDISMILSEAIRRIHNGESMSYLFRNIGLD 2ji4-a1-m5-cA_2ji4-a1-m6-cA Human phosphoribosylpyrophosphate synthetase - associated protein 41 (PAP41) O60256 O60256 2.55 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 302 2ji4-a1-m1-cA_2ji4-a1-m2-cA 2ji4-a1-m1-cA_2ji4-a1-m3-cA 2ji4-a1-m2-cA_2ji4-a1-m3-cA 2ji4-a1-m4-cA_2ji4-a1-m5-cA 2ji4-a1-m4-cA_2ji4-a1-m6-cA GLVLFSANSNSSCMELSKKIAERLGVEMGKVQVYQEPNRETRVQIQESVRGKDVFIIQTVSKDVNTTIMELLIMVYACKTSCAKSIIGVIPYFPYSKQSIVSKLLASMMCKAGLTHLITMDLHQKEIQGFFNIPVDNLRASPFLLQYIQEEIPDYRNAVIVAKSPASAKRAQSFAERLRLGIAVIHPITVVGDVGGRIAIIVDDIIDDVDSFLAAAETLKERGAYKIFVMATHGLLSSDAPRRIEESAIDEVVVTNTIPHEVQKLQCPKIKTVDISMILSEAIRRIHNGESMSYLFRNIGLD GLVLFSANSNSSCMELSKKIAERLGVEMGKVQVYQEPNRETRVQIQESVRGKDVFIIQTVSKDVNTTIMELLIMVYACKTSCAKSIIGVIPYFPYSKQSIVSKLLASMMCKAGLTHLITMDLHQKEIQGFFNIPVDNLRASPFLLQYIQEEIPDYRNAVIVAKSPASAKRAQSFAERLRLGIAVIHPITVVGDVGGRIAIIVDDIIDDVDSFLAAAETLKERGAYKIFVMATHGLLSSDAPRRIEESAIDEVVVTNTIPHEVQKLQCPKIKTVDISMILSEAIRRIHNGESMSYLFRNIGLD 2jif-a1-m1-cA_2jif-a1-m1-cD Structure of human short-branched chain acyl-CoA dehydrogenase (ACADSB) P45954 P45954 2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 381 381 2jif-a1-m1-cB_2jif-a1-m1-cC APLQTFTDEEMMIKSSVKKFAQEQIAPLVSTMDENSKMEKSVIQGLFQQGLMGIEVDPEYGGTGASFLSTVLVIEELAKVDASVAVFCEIQNTLINTLIRKHGTEEQKATYLPQLTTEKVGSFCLSEAGAGSDSFALKTRADKEGDYYVLNGSKMWISSAEHAGLFLVMANVDPTIGYKGITSFLVDRDTPGLHIGKPENKLGLRASSTCPLTFENVKVPEANILGQIGHGYKYAIGSLNEGRIGIAAQMLGLAQGCFDYTIPYIKERIQFGKRLFDFQGLQHQVAHVATQLEAARLLTYNAARLLEAGKPFIKEASMAKYYASEIAGQTTSKCIEWMGGVGYTKDYPVEKYFRDAKIGTIYEGASNIQLNTIAKHIDAEY APLQTFTDEEMMIKSSVKKFAQEQIAPLVSTMDENSKMEKSVIQGLFQQGLMGIEVDPEYGGTGASFLSTVLVIEELAKVDASVAVFCEIQNTLINTLIRKHGTEEQKATYLPQLTTEKVGSFCLSEAGAGSDSFALKTRADKEGDYYVLNGSKMWISSAEHAGLFLVMANVDPTIGYKGITSFLVDRDTPGLHIGKPENKLGLRASSTCPLTFENVKVPEANILGQIGHGYKYAIGSLNEGRIGIAAQMLGLAQGCFDYTIPYIKERIQFGKRLFDFQGLQHQVAHVATQLEAARLLTYNAARLLEAGKPFIKEASMAKYYASEIAGQTTSKCIEWMGGVGYTKDYPVEKYFRDAKIGTIYEGASNIQLNTIAKHIDAEY 2jif-a1-m1-cB_2jif-a1-m1-cD Structure of human short-branched chain acyl-CoA dehydrogenase (ACADSB) P45954 P45954 2 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 377 381 2jif-a1-m1-cC_2jif-a1-m1-cA TFTDEEMMIKSSVKKFAQEQIAPLVSTMDENSKMEKSVIQGLFQQGLMGIEVDPEYGGTGASFLSTVLVIEELAKVDASVAVFCEIQNTLINTLIRKHGTEEQKATYLPQLTTEKVGSFCLSEAGAGSDSFALKTRADKEGDYYVLNGSKMWISSAEHAGLFLVMANVDPTIGYKGITSFLVDRDTPGLHIGKPENKLGLRASSTCPLTFENVKVPEANILGQIGHGYKYAIGSLNEGRIGIAAQMLGLAQGCFDYTIPYIKERIQFGKRLFDFQGLQHQVAHVATQLEAARLLTYNAARLLEAGKPFIKEASMAKYYASEIAGQTTSKCIEWMGGVGYTKDYPVEKYFRDAKIGTIYEGASNIQLNTIAKHIDAEY APLQTFTDEEMMIKSSVKKFAQEQIAPLVSTMDENSKMEKSVIQGLFQQGLMGIEVDPEYGGTGASFLSTVLVIEELAKVDASVAVFCEIQNTLINTLIRKHGTEEQKATYLPQLTTEKVGSFCLSEAGAGSDSFALKTRADKEGDYYVLNGSKMWISSAEHAGLFLVMANVDPTIGYKGITSFLVDRDTPGLHIGKPENKLGLRASSTCPLTFENVKVPEANILGQIGHGYKYAIGSLNEGRIGIAAQMLGLAQGCFDYTIPYIKERIQFGKRLFDFQGLQHQVAHVATQLEAARLLTYNAARLLEAGKPFIKEASMAKYYASEIAGQTTSKCIEWMGGVGYTKDYPVEKYFRDAKIGTIYEGASNIQLNTIAKHIDAEY 2jif-a1-m1-cC_2jif-a1-m1-cD Structure of human short-branched chain acyl-CoA dehydrogenase (ACADSB) P45954 P45954 2 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 377 381 2jif-a1-m1-cB_2jif-a1-m1-cA TFTDEEMMIKSSVKKFAQEQIAPLVSTMDENSKMEKSVIQGLFQQGLMGIEVDPEYGGTGASFLSTVLVIEELAKVDASVAVFCEIQNTLINTLIRKHGTEEQKATYLPQLTTEKVGSFCLSEAGAGSDSFALKTRADKEGDYYVLNGSKMWISSAEHAGLFLVMANVDPTIGYKGITSFLVDRDTPGLHIGKPENKLGLRASSTCPLTFENVKVPEANILGQIGHGYKYAIGSLNEGRIGIAAQMLGLAQGCFDYTIPYIKERIQFGKRLFDFQGLQHQVAHVATQLEAARLLTYNAARLLEAGKPFIKEASMAKYYASEIAGQTTSKCIEWMGGVGYTKDYPVEKYFRDAKIGTIYEGASNIQLNTIAKHIDAEY APLQTFTDEEMMIKSSVKKFAQEQIAPLVSTMDENSKMEKSVIQGLFQQGLMGIEVDPEYGGTGASFLSTVLVIEELAKVDASVAVFCEIQNTLINTLIRKHGTEEQKATYLPQLTTEKVGSFCLSEAGAGSDSFALKTRADKEGDYYVLNGSKMWISSAEHAGLFLVMANVDPTIGYKGITSFLVDRDTPGLHIGKPENKLGLRASSTCPLTFENVKVPEANILGQIGHGYKYAIGSLNEGRIGIAAQMLGLAQGCFDYTIPYIKERIQFGKRLFDFQGLQHQVAHVATQLEAARLLTYNAARLLEAGKPFIKEASMAKYYASEIAGQTTSKCIEWMGGVGYTKDYPVEKYFRDAKIGTIYEGASNIQLNTIAKHIDAEY 2jis-a1-m1-cA_2jis-a1-m1-cB Human cysteine sulfinic acid decarboxylase (CSAD) in complex with PLP. Q9Y600 Q9Y600 1.6 X-RAY DIFFRACTION 483 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 478 487 LPSLAGDPVAVEALLRAVFGVVVDEAIQKGTSVSQKVCEWKEPEELKQLLDLELRSQGESQKQILERCRAVIRYSVKTGHPRFFNQLFSGLDPHALAGRIITESLNTSQYTYEIAPVFVLMEEEVLRKLRALVGWSSGDGIFCPGGSISNMYAVNLARYQRYPDCKQRGLRTLPPLALFTSKECHYSIQKGAAFLGLGTDSVRVVKADERGKMVPEDLERQIGMAEAEGAVPFLVSATSGTTVLGAFDPLEAIADVCQRHGLWLHVDAAWGGSVLLSQTHRHLLDGIQRADSVAWNPHKLLAAGLQCSALLLQDTSNLLKRCHGSKFYDVALDTGDKVVQCGRRVDCLKLWLMWKAQGDQGLERRIDQAFVLARYLVEEMKKREGFELVMEPEFVNVCFWFVPPSLRGKQESPDYHERLSKVAPVLKERMVKEGSMMIGYQPHGTRGNFFRVVVANSALTCADMDFLLNELERLGQDL LPSLAGDPVAVEALLRAVFGVVVDEAIQKGTSVSQKVCEWKEPEELKQLLDLELRSQGESQKQILERCRAVIRYSVKTGHPRFFNQLFSGLDPHALAGRIITESLNTSQYTYEIAPVFVLMEEEVLRKLRALVGWSSGDGIFCPGGSISNMYAVNLARYQRYPDCKQRGLRTLPPLALFTSKECHYSIQKGAAFLGLGTDSVRVVKADERGKMVPEDLERQIGMAEAEGAVPFLVSATSGTTVLGAFDPLEAIADVCQRHGLWLHVDAAWGGSVLLSQTHRHLLDGIQRADSVAWNPHKLLAAGLQCSALLLQDTSNLLKRCHGSQASYLFQQDKFYDVALDTGDKVVQCGRRVDCLKLWLMWKAQGDQGLERRIDQAFVLARYLVEEMKKREGFELVMEPEFVNVCFWFVPPSLRGKQESPDYHERLSKVAPVLKERMVKEGSMMIGYQPHGTRGNFFRVVVANSALTCADMDFLLNELERLGQDL 2jj4-a1-m2-cA_2jj4-a1-m2-cB The complex of PII and acetylglutamate kinase from Synechococcus elongatus PCC7942 Q6V1L5 Q6V1L5 3.46 X-RAY DIFFRACTION 100 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 284 284 2jj4-a1-m1-cA_2jj4-a1-m1-cB 2jj4-a1-m1-cC_2jj4-a1-m2-cC 2v5h-a1-m1-cA_2v5h-a1-m1-cB 2v5h-a1-m1-cC_2v5h-a1-m1-cF 2v5h-a1-m1-cD_2v5h-a1-m1-cE AGAADRVRILSEALPYLQQFAGRTVVVKYGGAAMKQEELKEAVMRDIVFLACVGMRPVVVHGGGPEINAWLGRVGIEPQFHNGLRVTDADTMEVVEMVLVGRVNKDIVSRINTTGGRAVGFCGTDGRLVLARPHDQEGIGFVGEVNSVNSEVIEPLLERGYIPVISSVAADENGQSFNINADTVAGEIAAALNAEKLILLTDTRGILEDPKRPESLIPRLNIPQSRELIAQGIVGGGMIPKVDCCIRSLAQGVRAAHIIDGRIPHALLLEIFTDAGIGTMIVGS AGAADRVRILSEALPYLQQFAGRTVVVKYGGAAMKQEELKEAVMRDIVFLACVGMRPVVVHGGGPEINAWLGRVGIEPQFHNGLRVTDADTMEVVEMVLVGRVNKDIVSRINTTGGRAVGFCGTDGRLVLARPHDQEGIGFVGEVNSVNSEVIEPLLERGYIPVISSVAADENGQSFNINADTVAGEIAAALNAEKLILLTDTRGILEDPKRPESLIPRLNIPQSRELIAQGIVGGGMIPKVDCCIRSLAQGVRAAHIIDGRIPHALLLEIFTDAGIGTMIVGS 2jj7-a1-m1-cA_2jj7-a1-m1-cB Crystal structure of the HlyIIR mutant protein with residues 170-185 substituted by alanine Q7X506 Q7X506 2.1 X-RAY DIFFRACTION 76 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 177 183 ASREQTMENILKAAKKKFGERGYEGTSIQEIAKEAKVNVAMASYYFNGKENLYYEVFKKYGLANELPNFLEKNQFNPINALREYLTVFTTHIKENPEIGTLAYEEIIKESARLEKIKPYFIGSFEQLKEILQEGEKQGVFHFFSINHTIHWITSIVLFPKFDSADLVSRIISALTDK HMASREQTMENILKAAKKKFGERGYEGTSIQEIAKEAKVNVAMASYYFNGKENLYYEVFKKYGLANELPNFLEKNQFNPINALREYLTVFTTHIKENPEIGTLAYEEIIKESARLEKIKPYFIGSFEQLKEILQEGEKQGVFHFFSINHTIHWITSIVLFPKFKKFIDSADLVSRIISALTDK 2jjb-a2-m1-cB_2jjb-a2-m1-cD Family 37 trehalase from Escherichia coli in complex with casuarine-6- O-alpha-glucopyranose P13482 P13482 1.9 X-RAY DIFFRACTION 122 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 493 500 2jjb-a1-m1-cC_2jjb-a1-m1-cA 2wyn-a1-m1-cB_2wyn-a1-m1-cD 2wyn-a2-m1-cC_2wyn-a2-m1-cA VTPQPPDILLGPLFNDVQNAKLFPDQKTFADAVPNSDPLMILADYRMQQNQSGFDLRHFVNVNFTLPKEGQSLREHIDGLWPVLTRSTENTEKWDSLLPLPEPYVVPGGRFREVYYWDSYFTMLGLAESGHWDKVADMVANFAHEIDTYGHIPNGNRSYYLSRSQPPFFALMVELLAQHEGDAALKQYLPQMQKEYAYWMDGVENLQAGQQEKRVVKLQDGTLLNRYWDDRDTPRPESWVEDIATAKSNPNRPATEIYRDLRSAAASGWDFSSRWMDNPQQLNTLRTTSIVPVDLNSLMFKMEKILARASKAAGDNAMANQYETLANARQKGIEKYLWNDQQGWYADYDLKSHKVRNQLTAAALFPLYVNAAAKDRANKMATATKTHLLQPGGLNTTSVKSGQQWDAPNGWAPLQWVATEGLQNYGQKEVAMDISWHFLTNVQHTYDREKKLVEKYDVSTTPLQDGFGWTNGVTLKMLDLICPKEQPCDNVPA VTPQPPDILLGPLFNDVQNAKLFPDQKTFADAVPNSDPLMILADYRMQQNQGFDLRHFVNVNFTLPKKYVPPEGQSLREHIDGLWPVLTRSTENTEKWDSLLPLPEPYVVPGGRFREVYYWDSYFTMLGLAESGHWDKVADMVANFAHEIDTYGHIPNGNRSYYLSRSQPPFFALMVELLAQHEGDAALKQYLPQMQKEYAYWMDGVENLQAGQQEKRVVKLQDGTLLNRYWDDRDTPRPESWVEDIATAKSNPNRPATEIYRDLRSAAASGWDFSSRWMDNPQQLNTLRTTSIVPVDLNSLMFKMEKILARASKAAGDNAMANQYETLANARQKGIEKYLWNDQQGWYADYDLKSHKVRNQLTAAALFPLYVNAAAKDRANKMATATKTHLLQPGGLNTTSVKSGQQWDAPNGWAPLQWVATEGLQNYGQKEVAMDISWHFLTNVQHTYDREKKLVEKYDVSTTYPLQDGFGWTNGVTLKMLDLICPKEQPCDNVPATR 2jjf-a1-m1-cA_2jjf-a1-m2-cA N328A mutant of M. tuberculosis Rv3290c P9WQ77 P9WQ77 1.95 X-RAY DIFFRACTION 291 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 435 435 2cin-a1-m1-cA_2cin-a1-m2-cA 2cjd-a1-m1-cA_2cjd-a1-m2-cA 2cjg-a1-m1-cA_2cjg-a1-m2-cA 2cjh-a1-m1-cA_2cjh-a1-m2-cA 2jje-a1-m1-cA_2jje-a1-m2-cA 2jjg-a1-m1-cA_2jjg-a1-m2-cA 2jjh-a1-m1-cA_2jjh-a1-m2-cA TTPDRVHEVLGRSMLVDGLDIVLDLTRSGGSYLVDAITGRRYLDMFTFVASSALGMNPPALVDDREFHAELMQAALNKPSNSDVYSVAMARFVETFARVLGDPALPHLFFVEGGALAVENALKAAFDWKSRHNQAHGIDPALGTQVLHLRGAFHGRSGYTLSLTNTKPTITARFPKFDWPRIDAPYMRPGLDEPAMAALEAEALRQARAAFETRPHDIACFVAEPIQGEGGDRHFRPEFFAAMRELCDEFDALLIFDEVQTGCGLTGTAWAYQQLDVAPDIVAFGKKTQVCGVMAGRRVDEVADNVFAVPSRLASTWGGNLTDMVRARRILEVIEAEGLFERAVQHGKYLRARLDELAADFPAVVLDPRGRGLMCAFSLPTTADRDELIRQLWQRAVIVLPAGADTVRFRPPLTVSTAEIDAAIAAVRSALPVVT TTPDRVHEVLGRSMLVDGLDIVLDLTRSGGSYLVDAITGRRYLDMFTFVASSALGMNPPALVDDREFHAELMQAALNKPSNSDVYSVAMARFVETFARVLGDPALPHLFFVEGGALAVENALKAAFDWKSRHNQAHGIDPALGTQVLHLRGAFHGRSGYTLSLTNTKPTITARFPKFDWPRIDAPYMRPGLDEPAMAALEAEALRQARAAFETRPHDIACFVAEPIQGEGGDRHFRPEFFAAMRELCDEFDALLIFDEVQTGCGLTGTAWAYQQLDVAPDIVAFGKKTQVCGVMAGRRVDEVADNVFAVPSRLASTWGGNLTDMVRARRILEVIEAEGLFERAVQHGKYLRARLDELAADFPAVVLDPRGRGLMCAFSLPTTADRDELIRQLWQRAVIVLPAGADTVRFRPPLTVSTAEIDAAIAAVRSALPVVT 2jjl-a1-m2-cA_2jjl-a1-m3-cA Structure of avian reovirus sigmaC117-326, P321 crystal form Q992I2 Q992I2 2.3 X-RAY DIFFRACTION 136 1.0 38170 (Avian orthoreovirus) 38170 (Avian orthoreovirus) 207 207 2bsf-a1-m1-cA_2bsf-a1-m2-cA 2bsf-a1-m1-cA_2bsf-a1-m3-cA 2bsf-a1-m2-cA_2bsf-a1-m3-cA 2bt7-a1-m1-cA_2bt7-a1-m2-cA 2bt7-a1-m1-cA_2bt7-a1-m3-cA 2bt7-a1-m2-cA_2bt7-a1-m3-cA 2bt8-a1-m1-cA_2bt8-a1-m2-cA 2bt8-a1-m1-cA_2bt8-a1-m3-cA 2bt8-a1-m2-cA_2bt8-a1-m3-cA 2jjl-a1-m1-cA_2jjl-a1-m2-cA 2jjl-a1-m1-cA_2jjl-a1-m3-cA 2vrs-a1-m1-cA_2vrs-a1-m1-cB 2vrs-a1-m1-cA_2vrs-a1-m1-cC 2vrs-a1-m1-cB_2vrs-a1-m1-cC TVDGNSTAISNLKSDISSNGLAITDLQDRVKSLESTASHGLSFSPPLSVADGVVSLDMDPYFCSQRVSLTSYSAEAQLMQFRWMARGTNGSSDTIDMTVNAHCHGRRTDYMMSSTGNLTVTSNVVLLTFDLSDITHIPSDLARLVPSAGFQAASFPVDVSFTRDSATHAYQAYGVYSSSRVFTITFPTGGDGTANIRSLTVRTGIDT TVDGNSTAISNLKSDISSNGLAITDLQDRVKSLESTASHGLSFSPPLSVADGVVSLDMDPYFCSQRVSLTSYSAEAQLMQFRWMARGTNGSSDTIDMTVNAHCHGRRTDYMMSSTGNLTVTSNVVLLTFDLSDITHIPSDLARLVPSAGFQAASFPVDVSFTRDSATHAYQAYGVYSSSRVFTITFPTGGDGTANIRSLTVRTGIDT 2jjm-a3-m1-cJ_2jjm-a3-m1-cK Crystal Structure of a family GT4 glycosyltransferase from Bacillus anthracis ORF BA1558. Q81ST7 Q81ST7 3.1 X-RAY DIFFRACTION 13 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 359 359 2jjm-a1-m1-cB_2jjm-a1-m1-cC 2jjm-a2-m1-cE_2jjm-a2-m1-cG 2jjm-a2-m1-cF_2jjm-a2-m1-cH KLKIGITCYPGGSGVVGTELGKQLAERGHEIHFITSGLPKVYPNIYFHEVTVNFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPNKDIQTVYNFIDERVYFKRDMTQLKKEYGISKILIHISNFRKVKRVQDVVQAFAKIVTEVDAKLLLVGDGPEFCTILQLVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGDTGYLCEVGDTTGVADQAIQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVL KLKIGITCYPGGSGVVGTELGKQLAERGHEIHFITSGLPKVYPNIYFHEVTVNFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPNKDIQTVYNFIDERVYFKRDMTQLKKEYGISKILIHISNFRKVKRVQDVVQAFAKIVTEVDAKLLLVGDGPEFCTILQLVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGDTGYLCEVGDTTGVADQAIQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVL 2jjm-a3-m1-cJ_2jjm-a3-m1-cL Crystal Structure of a family GT4 glycosyltransferase from Bacillus anthracis ORF BA1558. Q81ST7 Q81ST7 3.1 X-RAY DIFFRACTION 52 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 359 359 2jjm-a1-m1-cA_2jjm-a1-m1-cC 2jjm-a1-m1-cB_2jjm-a1-m1-cD 2jjm-a2-m1-cE_2jjm-a2-m1-cH 2jjm-a2-m1-cF_2jjm-a2-m1-cG 2jjm-a3-m1-cI_2jjm-a3-m1-cK KLKIGITCYPGGSGVVGTELGKQLAERGHEIHFITSGLPKVYPNIYFHEVTVNFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPNKDIQTVYNFIDERVYFKRDMTQLKKEYGISKILIHISNFRKVKRVQDVVQAFAKIVTEVDAKLLLVGDGPEFCTILQLVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGDTGYLCEVGDTTGVADQAIQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVL KLKIGITCYPGGSGVVGTELGKQLAERGHEIHFITSGLPKVYPNIYFHEVTVNFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPNKDIQTVYNFIDERVYFKRDMTQLKKEYGISKILIHISNFRKVKRVQDVVQAFAKIVTEVDAKLLLVGDGPEFCTILQLVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGDTGYLCEVGDTTGVADQAIQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVL 2jjm-a3-m1-cK_2jjm-a3-m1-cL Crystal Structure of a family GT4 glycosyltransferase from Bacillus anthracis ORF BA1558. Q81ST7 Q81ST7 3.1 X-RAY DIFFRACTION 79 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 359 359 2jjm-a1-m1-cA_2jjm-a1-m1-cB 2jjm-a1-m1-cC_2jjm-a1-m1-cD 2jjm-a2-m1-cE_2jjm-a2-m1-cF 2jjm-a2-m1-cG_2jjm-a2-m1-cH 2jjm-a3-m1-cI_2jjm-a3-m1-cJ 3mbo-a1-m1-cB_3mbo-a1-m1-cA 3mbo-a2-m1-cD_3mbo-a2-m1-cC 3mbo-a3-m1-cF_3mbo-a3-m1-cE 3mbo-a4-m1-cG_3mbo-a4-m1-cH KLKIGITCYPGGSGVVGTELGKQLAERGHEIHFITSGLPKVYPNIYFHEVTVNFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPNKDIQTVYNFIDERVYFKRDMTQLKKEYGISKILIHISNFRKVKRVQDVVQAFAKIVTEVDAKLLLVGDGPEFCTILQLVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGDTGYLCEVGDTTGVADQAIQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVL KLKIGITCYPGGSGVVGTELGKQLAERGHEIHFITSGLPKVYPNIYFHEVTVNFQYPPYDLALASKMAEVAQRENLDILHVHYAIPHAICAYLAKQMIGERIKIVTTLHGTDITVLGSDPSLNNLIRFGIEQSDVVTAVSHSLINETHELVKPNKDIQTVYNFIDERVYFKRDMTQLKKEYGISKILIHISNFRKVKRVQDVVQAFAKIVTEVDAKLLLVGDGPEFCTILQLVKNLHIEDRVLFLGKQDNVAELLAMSDLMLLLSEKESFGLVLLEAMACGVPCIGTRVGGIPEVIQHGDTGYLCEVGDTTGVADQAIQLLKDEELHRNMGERARESVYEQFRSEKIVSQYETIYYDVL 2jjw-a1-m1-cA_2jjw-a1-m2-cA Structure of human signal regulatory protein (sirp) gamma Q9P1W8 Q9P1W8 1.7 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 LQMIQPEKLLLVTVGKTATLHCTVTSLLPVGPVLWFRGVGPGRELIYNQKEGHFPRVTTVSDLTKRNNMDFSIRISSITPADVGTYYCVKFRKNVEFKSGPGTEMALGAKP LQMIQPEKLLLVTVGKTATLHCTVTSLLPVGPVLWFRGVGPGRELIYNQKEGHFPRVTTVSDLTKRNNMDFSIRISSITPADVGTYYCVKFRKNVEFKSGPGTEMALGAKP 2jjx-a1-m1-cB_2jjx-a1-m2-cC THE CRYSTAL STRUCTURE OF UMP KINASE FROM BACILLUS ANTHRACIS (BA1797) A0A6L7HKK4 A0A6L7HKK4 2.82 X-RAY DIFFRACTION 87 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 244 244 2jjx-a1-m1-cA_2jjx-a1-m2-cA 2jjx-a1-m1-cC_2jjx-a1-m2-cB RPYKRVLIKLSGGALADQTGNSFNSKRLEHIANEILSIVDLGIEVSIVIGGGNIFRGHLAEEWGIDRVEADNIGTLGTIINSLMLRGVLTSKTNKEVRVMTSIPFNAVAEPYIRLRAVHHLDNGYIVIFGGGNGQPFVTTDYPSVQRAIEMNSDAILVAKQGVDGVFTSDPKHNKSAKMYRKLNYNDVVRQNIQVMDQAALLLARDYNLPAHVFNFDEPGVMRRICLGEHVGTLINDDASLLVH RPYKRVLIKLSGGALADQTGNSFNSKRLEHIANEILSIVDLGIEVSIVIGGGNIFRGHLAEEWGIDRVEADNIGTLGTIINSLMLRGVLTSKTNKEVRVMTSIPFNAVAEPYIRLRAVHHLDNGYIVIFGGGNGQPFVTTDYPSVQRAIEMNSDAILVAKQGVDGVFTSDPKHNKSAKMYRKLNYNDVVRQNIQVMDQAALLLARDYNLPAHVFNFDEPGVMRRICLGEHVGTLINDDASLLVH 2jjx-a1-m1-cC_2jjx-a1-m2-cC THE CRYSTAL STRUCTURE OF UMP KINASE FROM BACILLUS ANTHRACIS (BA1797) A0A6L7HKK4 A0A6L7HKK4 2.82 X-RAY DIFFRACTION 32 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 244 244 2jjx-a1-m1-cA_2jjx-a1-m2-cB 2jjx-a1-m1-cB_2jjx-a1-m2-cA RPYKRVLIKLSGGALADQTGNSFNSKRLEHIANEILSIVDLGIEVSIVIGGGNIFRGHLAEEWGIDRVEADNIGTLGTIINSLMLRGVLTSKTNKEVRVMTSIPFNAVAEPYIRLRAVHHLDNGYIVIFGGGNGQPFVTTDYPSVQRAIEMNSDAILVAKQGVDGVFTSDPKHNKSAKMYRKLNYNDVVRQNIQVMDQAALLLARDYNLPAHVFNFDEPGVMRRICLGEHVGTLINDDASLLVH RPYKRVLIKLSGGALADQTGNSFNSKRLEHIANEILSIVDLGIEVSIVIGGGNIFRGHLAEEWGIDRVEADNIGTLGTIINSLMLRGVLTSKTNKEVRVMTSIPFNAVAEPYIRLRAVHHLDNGYIVIFGGGNGQPFVTTDYPSVQRAIEMNSDAILVAKQGVDGVFTSDPKHNKSAKMYRKLNYNDVVRQNIQVMDQAALLLARDYNLPAHVFNFDEPGVMRRICLGEHVGTLINDDASLLVH 2jkl-a5-m2-cD_2jkl-a5-m3-cD DraE Adhesin in complex with Bromamphenicol P24093 P24093 1.9 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 139 139 1usq-a1-m1-cA_1usq-a1-m2-cA 1usq-a1-m1-cA_1usq-a1-m3-cA 1usq-a1-m2-cA_1usq-a1-m3-cA 1usq-a2-m1-cB_1usq-a2-m4-cB 1usq-a2-m1-cB_1usq-a2-m5-cB 1usq-a2-m4-cB_1usq-a2-m5-cB 1usq-a3-m1-cC_1usq-a3-m6-cC 1usq-a3-m1-cC_1usq-a3-m7-cC 1usq-a3-m6-cC_1usq-a3-m7-cC 1usq-a4-m1-cD_1usq-a4-m2-cD 1usq-a4-m1-cD_1usq-a4-m3-cD 1usq-a4-m2-cD_1usq-a4-m3-cD 1usq-a5-m1-cE_1usq-a5-m8-cE 1usq-a5-m1-cE_1usq-a5-m9-cE 1usq-a5-m8-cE_1usq-a5-m9-cE 1usq-a6-m10-cF_1usq-a6-m11-cF 1usq-a6-m1-cF_1usq-a6-m10-cF 1usq-a6-m1-cF_1usq-a6-m11-cF 1usz-a1-m1-cA_1usz-a1-m2-cA 1usz-a1-m1-cA_1usz-a1-m3-cA 1usz-a1-m2-cA_1usz-a1-m3-cA 1ut1-a1-m1-cA_1ut1-a1-m1-cE 1ut1-a1-m1-cD_1ut1-a1-m1-cA 1ut1-a1-m1-cD_1ut1-a1-m1-cE 1ut1-a2-m1-cB_1ut1-a2-m1-cC 1ut1-a2-m1-cB_1ut1-a2-m1-cF 1ut1-a2-m1-cC_1ut1-a2-m1-cF 1ut2-a1-m1-cA_1ut2-a1-m1-cB 1ut2-a1-m1-cA_1ut2-a1-m1-cC 1ut2-a1-m1-cB_1ut2-a1-m1-cC 1ut2-a2-m1-cD_1ut2-a2-m1-cE 1ut2-a2-m1-cD_1ut2-a2-m1-cI 1ut2-a2-m1-cE_1ut2-a2-m1-cI 1ut2-a3-m1-cF_1ut2-a3-m1-cG 1ut2-a3-m1-cF_1ut2-a3-m1-cH 1ut2-a3-m1-cG_1ut2-a3-m1-cH 2jkj-a1-m1-cA_2jkj-a1-m2-cA 2jkj-a1-m1-cA_2jkj-a1-m3-cA 2jkj-a1-m2-cA_2jkj-a1-m3-cA 2jkj-a2-m1-cB_2jkj-a2-m4-cB 2jkj-a2-m1-cB_2jkj-a2-m5-cB 2jkj-a2-m4-cB_2jkj-a2-m5-cB 2jkj-a3-m1-cC_2jkj-a3-m6-cC 2jkj-a3-m1-cC_2jkj-a3-m7-cC 2jkj-a3-m6-cC_2jkj-a3-m7-cC 2jkj-a4-m1-cD_2jkj-a4-m2-cD 2jkj-a4-m1-cD_2jkj-a4-m3-cD 2jkj-a4-m2-cD_2jkj-a4-m3-cD 2jkj-a5-m1-cE_2jkj-a5-m8-cE 2jkj-a5-m1-cE_2jkj-a5-m9-cE 2jkj-a5-m8-cE_2jkj-a5-m9-cE 2jkj-a6-m10-cF_2jkj-a6-m11-cF 2jkj-a6-m1-cF_2jkj-a6-m10-cF 2jkj-a6-m1-cF_2jkj-a6-m11-cF 2jkl-a1-m1-cA_2jkl-a1-m2-cA 2jkl-a1-m1-cA_2jkl-a1-m3-cA 2jkl-a1-m2-cA_2jkl-a1-m3-cA 2jkl-a2-m1-cB_2jkl-a2-m4-cB 2jkl-a2-m1-cB_2jkl-a2-m5-cB 2jkl-a2-m4-cB_2jkl-a2-m5-cB 2jkl-a3-m1-cC_2jkl-a3-m6-cC 2jkl-a3-m1-cC_2jkl-a3-m7-cC 2jkl-a3-m6-cC_2jkl-a3-m7-cC 2jkl-a4-m1-cE_2jkl-a4-m8-cE 2jkl-a4-m1-cE_2jkl-a4-m9-cE 2jkl-a4-m8-cE_2jkl-a4-m9-cE 2jkl-a5-m1-cD_2jkl-a5-m2-cD 2jkl-a5-m1-cD_2jkl-a5-m3-cD 2jkl-a6-m10-cF_2jkl-a6-m11-cF 2jkl-a6-m1-cF_2jkl-a6-m10-cF 2jkl-a6-m1-cF_2jkl-a6-m11-cF 2jkn-a1-m1-cA_2jkn-a1-m2-cA 2jkn-a1-m1-cA_2jkn-a1-m7-cA 2jkn-a1-m2-cA_2jkn-a1-m7-cA 2jkn-a2-m1-cB_2jkn-a2-m3-cB 2jkn-a2-m1-cB_2jkn-a2-m8-cB 2jkn-a2-m3-cB_2jkn-a2-m8-cB 2jkn-a3-m1-cC_2jkn-a3-m4-cC 2jkn-a3-m1-cC_2jkn-a3-m9-cC 2jkn-a3-m4-cC_2jkn-a3-m9-cC 2jkn-a4-m1-cD_2jkn-a4-m2-cD 2jkn-a4-m1-cD_2jkn-a4-m7-cD 2jkn-a4-m2-cD_2jkn-a4-m7-cD 2jkn-a5-m10-cE_2jkn-a5-m5-cE 2jkn-a5-m1-cE_2jkn-a5-m10-cE 2jkn-a5-m1-cE_2jkn-a5-m5-cE 2jkn-a6-m11-cF_2jkn-a6-m6-cF 2jkn-a6-m1-cF_2jkn-a6-m11-cF 2jkn-a6-m1-cF_2jkn-a6-m6-cF 2w5p-a1-m1-cA_2w5p-a1-m1-cB 2w5p-a1-m1-cC_2w5p-a1-m1-cA 2w5p-a1-m1-cC_2w5p-a1-m1-cB GSFTPSGTTGTTKLTVTEKCQVRVGDLTVAKTRGQLTDAAPIGPVTVQALGCDARQVALKADTDNFEQGKFFLISDNNRDKLYVNIRPTDNSAWTTDNGVFYKNDVGSWGGIIGIYVDGQQTNTPPGNYTLTLTGGYWA GSFTPSGTTGTTKLTVTEKCQVRVGDLTVAKTRGQLTDAAPIGPVTVQALGCDARQVALKADTDNFEQGKFFLISDNNRDKLYVNIRPTDNSAWTTDNGVFYKNDVGSWGGIIGIYVDGQQTNTPPGNYTLTLTGGYWA 2jku-a1-m1-cA_2jku-a1-m2-cA Crystal structure of the N-terminal region of the biotin acceptor domain of human propionyl-CoA carboxylase P05165 P05165 1.5 X-RAY DIFFRACTION 134 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 35 35 TSSVLRSPMPGVVVAVSVKPGDAVAEGQEICVIEA TSSVLRSPMPGVVVAVSVKPGDAVAEGQEICVIEA 2jkz-a2-m1-cC_2jkz-a2-m1-cD SACCHAROMYCES CEREVISIAE HYPOXANTHINE-GUANINE PHOSPHORIBOSYLTRANSFERASE IN COMPLEX WITH GMP (GUANOSINE 5'- MONOPHOSPHATE) (ORTHORHOMBIC CRYSTAL FORM) Q04178 Q04178 3.45 X-RAY DIFFRACTION 99 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 201 201 2jky-a1-m1-cB_2jky-a1-m1-cA 2jkz-a1-m1-cA_2jkz-a1-m1-cB 2xbu-a1-m1-cA_2xbu-a1-m1-cB DKQYISYNNVHQLCQVSAERIKNFKPDLIIAIGGGGFIPARILRTFLKEPGVPTIRIFAIILSLYEDVKVSRTQWIDYEQCKLDLVGKNVLIVDEVDDTRTTLHYALSELEKDAAEQAKAKGIDTEKSPEMKTNFGIFVLHDKQKPKKADLPAEMLNDKNRYFAAKTVPDKWYAYPWESTDIVFHTRMAIEQGNDIFIPEQ DKQYISYNNVHQLCQVSAERIKNFKPDLIIAIGGGGFIPARILRTFLKEPGVPTIRIFAIILSLYEDVKVSRTQWIDYEQCKLDLVGKNVLIVDEVDDTRTTLHYALSELEKDAAEQAKAKGIDTEKSPEMKTNFGIFVLHDKQKPKKADLPAEMLNDKNRYFAAKTVPDKWYAYPWESTDIVFHTRMAIEQGNDIFIPEQ 2jl1-a1-m1-cA_2jl1-a1-m2-cA Structural insight into bioremediation of triphenylmethane dyes by Citrobacter sp. triphenylmethane reductase Q2TNI4 Q2TNI4 1.96 X-RAY DIFFRACTION 69 1.0 308866 (Citrobacter sp. MY-5) 308866 (Citrobacter sp. MY-5) 287 287 2vrb-a1-m1-cA_2vrb-a1-m2-cA 2vrc-a1-m1-cA_2vrc-a1-m1-cB 2vrc-a1-m1-cC_2vrc-a1-m1-cD FSIAVTGATGQLGGLVIQHLLKKVPASQIIAIVRNVEKASTLADQGVEVRHGDYNQPESLQKAFAGVSKLLFISGPHYDNTLLIVQHANVVKAARDAGVKHIAYTGYAFAEESIIPLAHVHLATEYAIRTTNIPYTFLRNALYTDFFVNEGLRASTESGAIVTNAGSGIVNSVTRNELALAAATVLTEEGHENKTYNLVSNQPWTFDELAQILSEVSGKKVVHQPVSFEEEKNFLVNAGVPEPFTEITAAIYDAISKGEASKTSDDLQKLIGSLTPLKETVKQALKM FSIAVTGATGQLGGLVIQHLLKKVPASQIIAIVRNVEKASTLADQGVEVRHGDYNQPESLQKAFAGVSKLLFISGPHYDNTLLIVQHANVVKAARDAGVKHIAYTGYAFAEESIIPLAHVHLATEYAIRTTNIPYTFLRNALYTDFFVNEGLRASTESGAIVTNAGSGIVNSVTRNELALAAATVLTEEGHENKTYNLVSNQPWTFDELAQILSEVSGKKVVHQPVSFEEEKNFLVNAGVPEPFTEITAAIYDAISKGEASKTSDDLQKLIGSLTPLKETVKQALKM 2jlm-a1-m1-cA_2jlm-a1-m1-cC Structure of a Putative Acetyltransferase (ACIAD1637) from Acinetobacter baylyi ADP1 Q6FBS8 Q6FBS8 2.35 X-RAY DIFFRACTION 19 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 177 177 TTTLFRFVECTEDQHALEILEILNDAIINSTALYDYKPRSKESMAAWFATKRQNNFPIIGAVNEVGQLLGFASWGSFRAFPAYKYTVEHSVYIHKDYRGLGLSKHLMNELIKRAVESEVHVMVGCIDATNVASIQLHQKLGFIHSGTIQQAGFKFGRWLDAAFYQLTLDTPLHPQDD TTTLFRFVECTEDQHALEILEILNDAIINSTALYDYKPRSKESMAAWFATKRQNNFPIIGAVNEVGQLLGFASWGSFRAFPAYKYTVEHSVYIHKDYRGLGLSKHLMNELIKRAVESEVHVMVGCIDATNVASIQLHQKLGFIHSGTIQQAGFKFGRWLDAAFYQLTLDTPLHPQDD 2jlm-a1-m1-cC_2jlm-a1-m1-cD Structure of a Putative Acetyltransferase (ACIAD1637) from Acinetobacter baylyi ADP1 Q6FBS8 Q6FBS8 2.35 X-RAY DIFFRACTION 126 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 177 182 2jlm-a1-m1-cA_2jlm-a1-m1-cB 2jlm-a1-m1-cE_2jlm-a1-m1-cF TTTLFRFVECTEDQHALEILEILNDAIINSTALYDYKPRSKESMAAWFATKRQNNFPIIGAVNEVGQLLGFASWGSFRAFPAYKYTVEHSVYIHKDYRGLGLSKHLMNELIKRAVESEVHVMVGCIDATNVASIQLHQKLGFIHSGTIQQAGFKFGRWLDAAFYQLTLDTPLHPQDD MFSPSTTTLFRFVECTEDQHALEILEILNDAIINSTALYDYKPRSKESMAAWFATKRQNNFPIIGAVNEVGQLLGFASWGSFRAFPAYKYTVEHSVYIHKDYRGLGLSKHLMNELIKRAVESEVHVMVGCIDATNVASIQLHQKLGFIHSGTIQQAGFKFGRWLDAAFYQLTLDTPLHPQDD 2jlm-a1-m1-cE_2jlm-a1-m1-cD Structure of a Putative Acetyltransferase (ACIAD1637) from Acinetobacter baylyi ADP1 Q6FBS8 Q6FBS8 2.35 X-RAY DIFFRACTION 56 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 179 182 PSTTTLFRFVECTEDQHALEILEILNDAIINSTALYDYKPRSKESMAAWFATKRQNNFPIIGAVNEVGQLLGFASWGSFRAFPAYKYTVEHSVYIHKDYRGLGLSKHLMNELIKRAVESEVHVMVGCIDATNVASIQLHQKLGFIHSGTIQQAGFKFGRWLDAAFYQLTLDTPLHPQDD MFSPSTTTLFRFVECTEDQHALEILEILNDAIINSTALYDYKPRSKESMAAWFATKRQNNFPIIGAVNEVGQLLGFASWGSFRAFPAYKYTVEHSVYIHKDYRGLGLSKHLMNELIKRAVESEVHVMVGCIDATNVASIQLHQKLGFIHSGTIQQAGFKFGRWLDAAFYQLTLDTPLHPQDD 2jlp-a2-m1-cC_2jlp-a2-m1-cD Crystal structure of human extracellular copper-zinc superoxide dismutase. P08294 P08294 1.7 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 169 2jlp-a1-m1-cB_2jlp-a1-m1-cA DGTLHAACQVQPSATLDAAQPRVTGVVLFRQLAPRAKLDAFFALEGFPTEPNSSSRAIHVHQFGDLSQGCESTGPHYNPLAVPHPQHPGDFGNFAVRDGSLWRYRAGLAASLAGPHSIVGRAVVVHAGEDDLGRGGNQASVENGNAGRRLACCVVGVCGPGLWERQA DDGTLHAACQVQPSATLDAAQPRVTGVVLFRQLAPRAKLDAFFALEGFPTEPNSSSRAIHVHQFGDLSQGCESTGPHYNPLAVPHPQHPGDFGNFAVRDGSLWRYRAGLAASLAGPHSIVGRAVVVHAGEDDLGRGGNQASVENGNAGRRLACCVVGVCGPGLWERQAR 2jna-a1-m1-cA_2jna-a1-m1-cB Solution NMR Structure of Salmonella typhimurium LT2 Secreted Protein STM0082: Northeast Structural Genomics Consortium Target StR109 Q7CR88 Q7CR88 NOT SOLUTION NMR 147 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 104 104 MKKRIIAAALLATVASFSTLAAEQVSKQEISHFKLVKVGTINVSQSGGQISSPSDLREKLSELADAKGGKYYHIIAAREHGPNFEAVAEVYNDATKLEHHHHHH MKKRIIAAALLATVASFSTLAAEQVSKQEISHFKLVKVGTINVSQSGGQISSPSDLREKLSELADAKGGKYYHIIAAREHGPNFEAVAEVYNDATKLEHHHHHH 2jnj-a1-m1-cA_2jnj-a1-m1-cB Solution structure of the p8 TFIIH subunit Q6ZYL4 Q6ZYL4 NOT SOLUTION NMR 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 GSHMVNVLKGVLIECDPAMKQFLLYLDESNALGKKFIIQDIDDTHVFVIAELVNVLQERVGELMDQNAFSLTQK GSHMVNVLKGVLIECDPAMKQFLLYLDESNALGKKFIIQDIDDTHVFVIAELVNVLQERVGELMDQNAFSLTQK 2jo4-a1-m1-cA_2jo4-a1-m1-cD Tetrameric structure of KIA7 peptide NOT SOLUTION NMR 14 1.0 20 20 2jo4-a1-m1-cB_2jo4-a1-m1-cC AKAAAAAIKAIAAIIKAGGY AKAAAAAIKAIAAIIKAGGY 2jo4-a1-m1-cB_2jo4-a1-m1-cD Tetrameric structure of KIA7 peptide NOT SOLUTION NMR 11 1.0 20 20 2jo4-a1-m1-cA_2jo4-a1-m1-cC 2jo5-a1-m1-cA_2jo5-a1-m1-cC AKAAAAAIKAIAAIIKAGGY AKAAAAAIKAIAAIIKAGGY 2jo4-a1-m1-cC_2jo4-a1-m1-cD Tetrameric structure of KIA7 peptide NOT SOLUTION NMR 34 1.0 20 20 2jo4-a1-m1-cA_2jo4-a1-m1-cB AKAAAAAIKAIAAIIKAGGY AKAAAAAIKAIAAIIKAGGY 2jo5-a1-m1-cA_2jo5-a1-m1-cD Tetrameric structure of KIA7F peptide NOT SOLUTION NMR 15 1.0 20 20 2jo5-a1-m1-cB_2jo5-a1-m1-cC AKAAAAAIKAIAAIIKAGGF AKAAAAAIKAIAAIIKAGGF 2jo5-a1-m1-cC_2jo5-a1-m1-cD Tetrameric structure of KIA7F peptide NOT SOLUTION NMR 38 1.0 20 20 2jo5-a1-m1-cA_2jo5-a1-m1-cB AKAAAAAIKAIAAIIKAGGF AKAAAAAIKAIAAIIKAGGF 2jo8-a1-m1-cA_2jo8-a1-m1-cB Solution structure of C-terminal domain of human mammalian sterile 20-like kinase 1 (MST1) Q13043 Q13043 NOT SOLUTION NMR 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 GSDYEFLKSWTVEDLQKRLLALDPMMEQEIEEIRQKYQSKRQPILDAIEAK GSDYEFLKSWTVEDLQKRLLALDPMMEQEIEEIRQKYQSKRQPILDAIEAK 2jp1-a1-m1-cA_2jp1-a1-m1-cB Solution structure of the alternative conformation of XCL1/Lymphotactin P47992 P47992 NOT SOLUTION NMR 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 VGSEVSDKRTCVSLTTQRLPVSRIKTYTITEGSLRAVIFITKRGLKVCADPQATWVRDVV VGSEVSDKRTCVSLTTQRLPVSRIKTYTITEGSLRAVIFITKRGLKVCADPQATWVRDVV 2jpq-a1-m1-cA_2jpq-a1-m1-cB Solution NMR structure of homodimer VP2129 from Vibrio parahaemolyticus. Northeast Structural Genomics Consortium target VpR61. Q87MV2 Q87MV2 NOT SOLUTION NMR 160 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 83 83 MPITSKYTDEQVEKILAEVALVLEKHAASPELTLMIAGNIATNVLNQRVAASQRKLIAEKFAQALMSSLETPKTHLEHHHHHH MPITSKYTDEQVEKILAEVALVLEKHAASPELTLMIAGNIATNVLNQRVAASQRKLIAEKFAQALMSSLETPKTHLEHHHHHH 2jpt-a1-m1-cA_2jpt-a1-m1-cB Structural changes induced in apo-s100a1 protein by the disulphide formation between its CYS85 residue and b-mercaptoethanol P02639 P02639 NOT SOLUTION NMR 104 1.0 9913 (Bos taurus) 9913 (Bos taurus) 93 93 GSELETAMETLINVFHAHSGKEGDKYKLSKKELKELLQTELSGFLDAQKDADAVDKVMKELDEDGDGEVDFQEYVVLVAALTVACNNFFWENS GSELETAMETLINVFHAHSGKEGDKYKLSKKELKELLQTELSGFLDAQKDADAVDKVMKELDEDGDGEVDFQEYVVLVAALTVACNNFFWENS 2jra-a1-m1-cA_2jra-a1-m1-cB A novel domain-swapped solution NMR structure of protein RPA2121 from Rhodopseudomonas palustris. Northeast Structural Genomics Target RpT6 Q6N7Y3 Q6N7Y3 NOT SOLUTION NMR 107 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 67 67 MMTASDRLGADPTQAASSPGGARAVSIVGNQIDSRELFTVDREIVIAHGDDRYRLRLTSQNKLILTK MMTASDRLGADPTQAASSPGGARAVSIVGNQIDSRELFTVDREIVIAHGDDRYRLRLTSQNKLILTK 2jrl-a1-m1-cA_2jrl-a1-m1-cB Solution structure of the beryllofluoride-activated NtrC4 receiver domain dimer O66551 O66551 NOT SOLUTION NMR 25 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 121 121 MKRVLVVDDEESITSSLSAILEEEGYHPDTAKTLREAEKKIKELFFPVIVLDVWMPDGDGVNFIDFIKENSPDSVVIVITGHGSVDTAVKAIKKGAYEFLEKPFSVERFLLTIKHAFEEYS MKRVLVVDDEESITSSLSAILEEEGYHPDTAKTLREAEKKIKELFFPVIVLDVWMPDGDGVNFIDFIKENSPDSVVIVITGHGSVDTAVKAIKKGAYEFLEKPFSVERFLLTIKHAFEEYS 2jrx-a1-m1-cA_2jrx-a1-m1-cB Solution NMR structure of protein YejL from E. coli. Northeast Structural Genomics target ER309 P0AD24 P0AD24 NOT SOLUTION NMR 121 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 83 83 MPQISRYSDEQVEQLLAELLNVLEKHKAPTDLSLMVLGNMVTNLINTSIAPAQRQAIANSFARALQSSINEDKAHLEHHHHHH MPQISRYSDEQVEQLLAELLNVLEKHKAPTDLSLMVLGNMVTNLINTSIAPAQRQAIANSFARALQSSINEDKAHLEHHHHHH 2js1-a1-m1-cA_2js1-a1-m1-cB Solution NMR structure of the homodimer protein YVFG from Bacillus subtilis, Northeast Structural Genomics Consortium Target SR478 P71066 P71066 NOT SOLUTION NMR 13 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 80 80 MSELFSVPYFIENLKQHIEMNQSEDKIHAMNSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRGESKLEHHHHHH MSELFSVPYFIENLKQHIEMNQSEDKIHAMNSYYRSVVSTLVQDQLTKNAVVLKRIQHLDEAYNKVKRGESKLEHHHHHH 2js3-a1-m1-cA_2js3-a1-m1-cB NMR Structure of protein Q6N9A4_RHOPA. Northeast Structural Genomics Consortium target RpT8 Q6N9A4 Q6N9A4 NOT SOLUTION NMR 69 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 96 96 MGSSHHHHHHSSGRENLYFQGMTDTAAEDVRKIATALLKTAIEIVSEEDGGAHNQCKLCGASVPWLQTGDEIKHADDCPVVIAKQILSSRPKLHAV MGSSHHHHHHSSGRENLYFQGMTDTAAEDVRKIATALLKTAIEIVSEEDGGAHNQCKLCGASVPWLQTGDEIKHADDCPVVIAKQILSSRPKLHAV 2js5-a1-m1-cA_2js5-a1-m1-cB NMR Structure of protein Q60C73_METCA. Northeast Structural Genomics Consortium target McR1 Q60C73 Q60C73 NOT SOLUTION NMR 34 1.0 414 (Methylococcus capsulatus) 414 (Methylococcus capsulatus) 71 71 MSEGAEELKAKLKKLNAQATALKMDLHDLAEDLPTGWNRIMEVAEKTYEAYRQLDEFRKSTASLEHHHHHH MSEGAEELKAKLKKLNAQATALKMDLHDLAEDLPTGWNRIMEVAEKTYEAYRQLDEFRKSTASLEHHHHHH 2jsc-a1-m1-cA_2jsc-a1-m1-cB NMR structure of the cadmium metal-sensor CMTR from Mycobacterium tuberculosis P9WMI9 P9WMI9 NOT SOLUTION NMR 114 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 96 97 LARLGRALADPTRCRILVALLDGVCYPGQLAAHLGLTRSNVSNHLSCLRGCGLVVATYEGRQVRYALADSHLARALGELVQVVLAVDTDQPCVAER ALARLGRALADPTRCRILVALLDGVCYPGQLAAHLGLTRSNVSNHLSCLRGCGLVVATYEGRQVRYALADSHLARALGELVQVVLAVDTDQPCVAER 2jst-a1-m1-cA_2jst-a1-m1-cB Four-Alpha-Helix Bundle with Designed Anesthetic Binding Pockets II: Halothane Effects on Structure and Dynamics NOT SOLUTION NMR 73 1.0 62 62 MKKLREEAAKLFEEWKKLAEEAAKLLEGGGGGGGGELMKLCEEAAKKAEELFKLAEERLKKL MKKLREEAAKLFEEWKKLAEEAAKLLEGGGGGGGGELMKLCEEAAKKAEELFKLAEERLKKL 2jug-a1-m1-cA_2jug-a1-m1-cB Multienzyme Docking in Hybrid Megasynthetases Q5ZPA9 Q5ZPA9 NOT SOLUTION NMR 41 1.0 38 (Archangium disciforme) 38 (Archangium disciforme) 78 78 GPLGSSAGALLAHAASLGVRLWVEGERLRFQAPPGVMTPELQSRLGGARHELIALLRQLQPSSQGGSLLAPVARNGRL GPLGSSAGALLAHAASLGVRLWVEGERLRFQAPPGVMTPELQSRLGGARHELIALLRQLQPSSQGGSLLAPVARNGRL 2juz-a1-m1-cA_2juz-a1-m1-cB Solution NMR structure of HI0947 from Haemophilus influenzae, Northeast Structural Genomics Consortium Target IR123 P44897 P44897 NOT SOLUTION NMR 120 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 80 80 MAQHSKYSDAQLSAIVNDMIAVLEKHKAPVDLSLIALGNMASNLLTTSVPQTQCEALAQAFSNSLINAVKTRLEHHHHHH MAQHSKYSDAQLSAIVNDMIAVLEKHKAPVDLSLIALGNMASNLLTTSVPQTQCEALAQAFSNSLINAVKTRLEHHHHHH 2jv7-a1-m1-cA_2jv7-a1-m1-cB NMR Solution Structure of Histoplasma capsulatum CBP Homodimer O42720 O42720 NOT SOLUTION NMR 221 1.0 5037 (Histoplasma capsulatum) 5037 (Histoplasma capsulatum) 78 78 DQPSVGDAFDKYNEAVRVFTQLSSAANCDWAACLSSLSASSAACIAAVGELGLDVPLDLACAATATSSATEACKGCLW DQPSVGDAFDKYNEAVRVFTQLSSAANCDWAACLSSLSASSAACIAAVGELGLDVPLDLACAATATSSATEACKGCLW 2jwa-a1-m1-cA_2jwa-a1-m1-cB ErbB2 transmembrane segment dimer spatial structure P04626 P04626 NOT SOLUTION NMR 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 GCPAEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRK GCPAEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRK 2jwl-a1-m1-cA_2jwl-a1-m1-cB Solution Structure of periplasmic domain of TolR from H. influenzae with SAXS data P43769 P43769 NOT SOLUTION NMR 50 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 74 74 2jwk-a1-m1-cA_2jwk-a1-m1-cB GSVPVILEVAGIGKYAISIGGERQEGLTEEMVTQLSRQEFDKDNNTLFLVGGAKEVPYEEVIKALNLLHLAGIK GSVPVILEVAGIGKYAISIGGERQEGLTEEMVTQLSRQEFDKDNNTLFLVGGAKEVPYEEVIKALNLLHLAGIK 2jwn-a1-m1-cA_2jwn-a1-m1-cB Solution NMR structure of the protease-resistent domain of Xenopus laevis ePABP2 Q6TY21 Q6TY21 NOT SOLUTION NMR 104 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 124 124 AIAPCMQTTHSKMTAGAYTEGPPQPLSAEEKKEIDKRSVYVGNVDYGSTAQDLEAHFSSCGSINRITILCDKFSGHPKGYAYIEFAERNSVDAAVAMDETVFRGRTIKVLPKRTNMPGISSTDR AIAPCMQTTHSKMTAGAYTEGPPQPLSAEEKKEIDKRSVYVGNVDYGSTAQDLEAHFSSCGSINRITILCDKFSGHPKGYAYIEFAERNSVDAAVAMDETVFRGRTIKVLPKRTNMPGISSTDR 2jxi-a1-m1-cA_2jxi-a1-m1-cB Solution structure of the DNA-binding domain of Pseudomonas putida Proline utilization A (putA) bound to GTTGCA DNA sequence Q88D80 Q88D80 NOT SOLUTION NMR 89 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 45 45 2jxg-a1-m1-cA_2jxg-a1-m1-cB 2jxh-a1-m1-cA_2jxh-a1-m1-cB MATTTLGVKLDDPTRERLKAAAQSIDRTPHWLIKQAIFNYLEKLE MATTTLGVKLDDPTRERLKAAAQSIDRTPHWLIKQAIFNYLEKLE 2jxr-a2-m2-cA_2jxr-a2-m1-cA STRUCTURE OF YEAST PROTEINASE A P07267 P07267 2.4 X-RAY DIFFRACTION 32 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 329 329 1fq4-a2-m2-cA_1fq4-a2-m1-cA 1fq7-a2-m2-cA_1fq7-a2-m1-cA 1fq8-a2-m2-cA_1fq8-a2-m1-cA GGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSNECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAEATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTENGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLITLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGSCISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDIGNNAVGLAKAI GGHDVPLTNYLNAQYYTDITLGTPPQNFKVILDTGSSNLWVPSNECGSLACFLHSKYDHEASSSYKANGTEFAIQYGTGSLEGYISQDTLSIGDLTIPKQDFAEATSEPGLTFAFGKFDGILGLGYDTISVDKVVPPFYNAIQQDLLDEKRFAFYLGDTSKDTENGGEATFGGIDESKFKGDITWLPVRRKAYWEVKFEGIGLGDEYAELESHGAAIDTGTSLITLPSGLAEMINAEIGAKKGWTGQYTLDCNTRDNLPDLIFNFNGYNFTIGPYDYTLEVSGSCISAITPMDFPEPVGPLAIVGDAFLRKYYSIYDIGNNAVGLAKAI 2jz7-a1-m1-cA_2jz7-a1-m1-cE Solution NMR structure of selenium-binding protein from Methanococcus Vannielii Q5UBU1 Q5UBU1 NOT SOLUTION NMR 41 1.0 2187 (Methanococcus vannielii) 2187 (Methanococcus vannielii) 81 81 2jz7-a1-m1-cA_2jz7-a1-m1-cB 2jz7-a1-m1-cB_2jz7-a1-m1-cC 2jz7-a1-m1-cC_2jz7-a1-m1-cD 2jz7-a1-m1-cD_2jz7-a1-m1-cE MIFEDKFIITTADEIPGLQLYSLGIASTISDNVDEIVENLRKQVKAKGGMGLIAFRITCADGKFLGYGTIVKADEAQFTMA MIFEDKFIITTADEIPGLQLYSLGIASTISDNVDEIVENLRKQVKAKGGMGLIAFRITCADGKFLGYGTIVKADEAQFTMA 2k1k-a1-m1-cA_2k1k-a1-m1-cB NMR structures of dimeric transmembrane domain of the receptor tyrosine kinase EphA1 in lipid bicelles at pH 4.3 P21709 P21709 NOT SOLUTION NMR 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 38 38 SPPVSRGLTGGEIVAVIFGLLLGAALLLGILVFRSRRA SPPVSRGLTGGEIVAVIFGLLLGAALLLGILVFRSRRA 2k1l-a1-m1-cA_2k1l-a1-m1-cB NMR structures of dimeric transmembrane domain of the receptor tyrosine kinase EphA1 in lipid bicelles at pH 6.3 P21709 P21709 NOT SOLUTION NMR 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 38 38 SPPVSRGLTGGEIVAVIFGLLLGAALLLGILVFRSRRA SPPVSRGLTGGEIVAVIFGLLLGAALLLGILVFRSRRA 2k1n-a1-m1-cA_2k1n-a1-m1-cB DNA bound structure of the N-terminal domain of AbrB P08874 P08874 NOT SOLUTION NMR 129 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 55 55 MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMTCQ MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMTCQ 2k1n-a1-m1-cA_2k1n-a1-m1-cD DNA bound structure of the N-terminal domain of AbrB P08874 P08874 NOT SOLUTION NMR 10 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 55 55 MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMTCQ MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMTCQ 2k1o-a1-m1-cA_2k1o-a1-m1-cB NMR Structure of Helicobacter pylori JHP0511 (HP0564). Q9ZLR7 Q9ZLR7 NOT SOLUTION NMR 84 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 54 54 KRNFSVTFYLSKEEHDVLRRLADEEVESVNSFVKRHILKTIIYKKGTNQDSSIN KRNFSVTFYLSKEEHDVLRRLADEEVESVNSFVKRHILKTIIYKKGTNQDSSIN 2k5j-a1-m1-cA_2k5j-a1-m1-cB Solution structure of protein yiiF from Shigella flexneri serotype 5b (strain 8401) . Northeast Structural Genomics Consortium target sft1 Q0SZ80 Q0SZ80 NOT SOLUTION NMR 83 1.0 373384 (Shigella flexneri 5 str. 8401) 373384 (Shigella flexneri 5 str. 8401) 80 80 MNSLAGIDMGRILLDLSNEVIKQLDDLEVQRNLPRADLLREAVDQYLINQSQTARTSVPGIWQGCEEDGVEYQRKLREEW MNSLAGIDMGRILLDLSNEVIKQLDDLEVQRNLPRADLLREAVDQYLINQSQTARTSVPGIWQGCEEDGVEYQRKLREEW 2k6l-a1-m1-cA_2k6l-a1-m1-cB The solution structure of XACb0070 from Xanthonomas axonopodis pv citri reveals this new protein is a member of the RHH family of transcriptional repressors Q8NL33 Q8NL33 NOT SOLUTION NMR 91 1.0 51 51 MNTVRWNIAVSPDVDQSVRMFIAAQGGGRKGDLSRFIEDAVRAYLFERAVE MNTVRWNIAVSPDVDQSVRMFIAAQGGGRKGDLSRFIEDAVRAYLFERAVE 2k6s-a1-m1-cA_2k6s-a1-m1-cB Structure of Rab11-FIP2 C-terminal Coiled-coil Domain Q7L804 Q7L804 NOT SOLUTION NMR 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 GSLTYEEVLQELVKHKELLRRKDTHIRELEDYIDNLLVRVM GSLTYEEVLQELVKHKELLRRKDTHIRELEDYIDNLLVRVM 2k7i-a1-m1-cA_2k7i-a1-m1-cB Solution NMR structure of protein ATU0232 from AGROBACTERIUM TUMEFACIENS. Northeast Structural Genomics Consortium (NESG) target AtT3. Ontario Center for Structural Proteomics target ATC0223. Q8UIR1 Q8UIR1 NOT SOLUTION NMR 135 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 62 62 MYKFEIYQDKAGEYRFRFKASNGETMFSSEGYKAKASAIHAIESIKRNSAGADTVDLTTMTA MYKFEIYQDKAGEYRFRFKASNGETMFSSEGYKAKASAIHAIESIKRNSAGADTVDLTTMTA 2k7v-a1-m1-cA_2k7v-a1-m1-cB Deletions in a surface loop divert the folding of a protein domain into a metastable dimeric form P06959 P06959 NOT SOLUTION NMR 118 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 85 MVKEVNVPDIVEVTEVMVKVGDKVAAEQSLITVEGDKASMEVPAPFAGVVKELKVNVGDKVKTGSLIMIFEVEGAAPAAAPAKQE MVKEVNVPDIVEVTEVMVKVGDKVAAEQSLITVEGDKASMEVPAPFAGVVKELKVNVGDKVKTGSLIMIFEVEGAAPAAAPAKQE 2k8s-a1-m1-cA_2k8s-a1-m1-cB Solution NMR structure of dimeric thioredoxin-like protein NE0084 from Nitrosomonas europea: Northeast Structural Genomics Target NeT6 Q82Y06 Q82Y06 NOT SOLUTION NMR 51 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 80 80 VASKAIFYHAGCPVCVSAEQAVANAIDPSKYTVEIVHLGTDKARIAEAEKAGVKSVPALVIDGAAFHINFGAGIDDLKGS VASKAIFYHAGCPVCVSAEQAVANAIDPSKYTVEIVHLGTDKARIAEAEKAGVKSVPALVIDGAAFHINFGAGIDDLKGS 2k8x-a1-m1-cA_2k8x-a1-m1-cB GlyTM1b(1-19)zip: A Chimeric Peptide Model of the N-Terminus of a Rat Short Alpha-Tropomyosin with the N-Terminus Encoded by Exon 1b in Complex with TM9d(252-284), a Peptide Model Containing the C Terminus of Alpha-Tropomyosin Encoded by Exon 9d P03069 P03069 NOT SOLUTION NMR 24 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 38 38 GAGSSSLEAVRRKIRSLQEQNYHLENEVARLKKLVGER GAGSSSLEAVRRKIRSLQEQNYHLENEVARLKKLVGER 2k9q-a1-m1-cA_2k9q-a1-m1-cB Solution NMR structure of HTH_XRE family transcriptional regulator BT_p548217 from Bacteroides thetaiotaomicron. Northeast Structural Genomics Consortium Target BtR244. Q8ABY1 Q8ABY1 NOT SOLUTION NMR 71 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 77 77 MELSNELKVERIRLSLTAKSVAEEMGISRQQLCNIEQSETAPVVVKYIAFLRSKGVDLNALFDRIIVNKLEHHHHHH MELSNELKVERIRLSLTAKSVAEEMGISRQQLCNIEQSETAPVVVKYIAFLRSKGVDLNALFDRIIVNKLEHHHHHH 2k9y-a1-m1-cA_2k9y-a1-m1-cB EphA2 dimeric structure in the lipidic bicelle at pH 5.0 P29317 P29317 NOT SOLUTION NMR 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 EFQTLSPEGSGNLAVIGGVAVGVVLLLVLAGVGFFIHRRRK EFQTLSPEGSGNLAVIGGVAVGVVLLLVLAGVGFFIHRRRK 2ka1-a1-m1-cA_2ka1-a1-m1-cB Solution NMR structure of BNIP3 transmembrane peptide dimer in detergent micelles Q12983 Q12983 NOT SOLUTION NMR 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 35 35 GGIFSAEFLKVFLPSLLLSHLLAIGLGIYIGRRLT GGIFSAEFLKVFLPSLLLSHLLAIGLGIYIGRRLT 2ka2-a1-m1-cA_2ka2-a1-m1-cB Solution NMR structure of BNIP3 transmembrane peptide dimer in detergent micelles with His173-Ser172 intermonomer hydrogen bond restraints Q12983 Q12983 NOT SOLUTION NMR 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 35 35 GGIFSAEFLKVFLPSLLLSHLLAIGLGIYIGRRLT GGIFSAEFLKVFLPSLLLSHLLAIGLGIYIGRRLT 2kad-a1-m1-cB_2kad-a1-m1-cD Magic-Angle-Spinning Solid-State NMR Structure of Influenza A M2 Transmembrane Domain O70632 O70632 NOT SOLID-STATE NMR 19 1.0 130763 (Influenza A virus (A/Hong Kong/156/97(H5N1))) 130763 (Influenza A virus (A/Hong Kong/156/97(H5N1))) 25 25 1nyj-a1-m1-cA_1nyj-a1-m1-cB 1nyj-a1-m1-cA_1nyj-a1-m1-cD 1nyj-a1-m1-cB_1nyj-a1-m1-cC 1nyj-a1-m1-cC_1nyj-a1-m1-cD 2kad-a1-m1-cA_2kad-a1-m1-cC 2kad-a1-m1-cA_2kad-a1-m1-cD 2kad-a1-m1-cB_2kad-a1-m1-cC SSDPLVVAASIIGILHLIAWILDRL SSDPLVVAASIIGILHLIAWILDRL 2kax-a1-m1-cA_2kax-a1-m1-cB Solution structure and dynamics of S100A5 in the apo and Ca2+ -bound states P33763 P33763 NOT SOLUTION NMR 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 METPLEKALTTMVTTFHKYSGREGSKLTLSRKELKELIKKELCLGEMKESSIDDLMKSLDKNSDQEIDFKEYSVFLTMLCMAYNDFFLEDNK METPLEKALTTMVTTFHKYSGREGSKLTLSRKELKELIKKELCLGEMKESSIDDLMKSLDKNSDQEIDFKEYSVFLTMLCMAYNDFFLEDNK 2kb1-a1-m1-cA_2kb1-a1-m1-cD NMR studies of a channel protein without membrane: structure and dynamics of water-solubilized KcsA NOT SOLUTION NMR 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 103 103 2k1e-a1-m1-cA_2k1e-a1-m1-cB 2k1e-a1-m1-cA_2k1e-a1-m1-cD 2k1e-a1-m1-cB_2k1e-a1-m1-cC 2k1e-a1-m1-cC_2k1e-a1-m1-cD 2kb1-a1-m1-cA_2kb1-a1-m1-cB 2kb1-a1-m1-cB_2kb1-a1-m1-cC 2kb1-a1-m1-cC_2kb1-a1-m1-cD SADHEREAQKAEEELQKVLEEASKKAVEAERGAPGAALISYPDAIWWSVETATTVGYGDRYPVTEEGRKVAEQVMKAGIEVFALVTAALATDFVRREEERRGH SADHEREAQKAEEELQKVLEEASKKAVEAERGAPGAALISYPDAIWWSVETATTVGYGDRYPVTEEGRKVAEQVMKAGIEVFALVTAALATDFVRREEERRGH 2kdc-a1-m1-cB_2kdc-a1-m1-cC NMR Solution Structure of E. coli diacylglycerol kinase (DAGK) in DPC micelles P0ABN1 P0ABN1 NOT SOLUTION NMR 121 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 121 121 2kdc-a1-m1-cA_2kdc-a1-m1-cB 2kdc-a1-m1-cA_2kdc-a1-m1-cC ANNTTGFTRIIKAAGYSWKGLRAAWINEAAFRQEGVAVLLAVVIACWLDVDAITRVLLISSVMLVMIVEILNSAIEAVVDRIGSEYHELSGRAKDMGSAAVLIAIIVAVITWCILLWSHFG ANNTTGFTRIIKAAGYSWKGLRAAWINEAAFRQEGVAVLLAVVIACWLDVDAITRVLLISSVMLVMIVEILNSAIEAVVDRIGSEYHELSGRAKDMGSAAVLIAIIVAVITWCILLWSHFG 2kdd-a1-m1-cA_2kdd-a1-m1-cB Solution structure of the conserved C-terminal dimerization domain of Borealin Q53HL2 Q53HL2 NOT SOLUTION NMR 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 SKEIFLTVPVGGGESLRLLASDLQRHSIAQLDPEALGNIKKLSNRLAQICSSIRTHK SKEIFLTVPVGGGESLRLLASDLQRHSIAQLDPEALGNIKKLSNRLAQICSSIRTHK 2kel-a1-m1-cA_2kel-a1-m1-cB Structure of the transcription regulator SvtR from the hyperthermophilic archaeal virus SIRV1 Q8QL46 Q8QL46 NOT SOLUTION NMR 137 1.0 157898 (Sulfolobus islandicus rod-shaped virus 1) 157898 (Sulfolobus islandicus rod-shaped virus 1) 46 46 KQKAVFGIYMDKDLKTRLKVYCAKNNLQLTQAIEEAIKEYLQKRNG KQKAVFGIYMDKDLKTRLKVYCAKNNLQLTQAIEEAIKEYLQKRNG 2khm-a1-m1-cA_2khm-a1-m1-cB Structure of the C-terminal non-repetitive domain of the spider dragline silk protein ADF-3 Q16987 Q16987 NOT SOLUTION NMR 254 1.0 45920 (Araneus diadematus) 45920 (Araneus diadematus) 140 140 MASMTGGQQMGRGSMGAASAAVSVGGYGPQSSSAPVASAAASRLSSPAASSRVSSAVSSLVSSGPTNQAALSNTISSVVSQVSASNPGLSGCDVLVQALLEVVSALVSILGSSSIGQINYGASAQYTQMVGQSVAQALAG MASMTGGQQMGRGSMGAASAAVSVGGYGPQSSSAPVASAAASRLSSPAASSRVSSAVSSLVSSGPTNQAALSNTISSVVSQVSASNPGLSGCDVLVQALLEVVSALVSILGSSSIGQINYGASAQYTQMVGQSVAQALAG 2ki6-a1-m1-cC_2ki6-a1-m1-cD The FGF1-S100A13-C2A hetero-hexameric complex structure: A component in the non-classical pathway for FGF1 secretion Q99584 Q99584 NOT SOLUTION NMR 44 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 96 97 2k8m-a1-m1-cB_2k8m-a1-m1-cC 2ki4-a1-m1-cB_2ki4-a1-m1-cC 2l5x-a1-m1-cB_2l5x-a1-m1-cC 2le9-a1-m1-cB_2le9-a1-m1-cC MAAEPLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLKIR MAAEPLTELEESIETVVTTFFTFARQEGRKDSLSVNEFKELVTQQLPHLLKDVGSLDEKMKSLDVNQDSELKFNEYWRLIGELAKEIRKKKDLIRKK 2kih-a1-m1-cB_2kih-a1-m1-cC S31N mutant of M2 proton channel P0DOF5 P0DOF5 NOT SOLUTION NMR 25 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 38 38 2kih-a1-m1-cA_2kih-a1-m1-cB SDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK SDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK 2kih-a1-m1-cC_2kih-a1-m1-cD S31N mutant of M2 proton channel P0DOF5 P0DOF5 NOT SOLUTION NMR 29 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 38 38 2kih-a1-m1-cA_2kih-a1-m1-cD SDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK SDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK 2kik-a1-m1-cA_2kik-a1-m1-cB An artificial di-iron oxo-protein with phenol oxidase activity NOT SOLUTION NMR 45 1.0 48 48 DYLRELLKGELQGIKQYREALEYTHNPVLAKILEDEEKHIEWLETILG DYLRELLKGELQGIKQYREALEYTHNPVLAKILEDEEKHIEWLETILG 2kix-a1-m1-cC_2kix-a1-m1-cD Channel domain of BM2 protein from influenza B virus B4UQM4 B4UQM4 NOT SOLUTION NMR 19 1.0 529646 (Influenza B virus (B/Taiwan/70061/2006)) 529646 (Influenza B virus (B/Taiwan/70061/2006)) 33 33 2kix-a1-m1-cA_2kix-a1-m1-cB 2kix-a1-m1-cA_2kix-a1-m1-cD 2kix-a1-m1-cB_2kix-a1-m1-cC MLEPFQILSISSFILSALHFIAWTIGHLNQIKR MLEPFQILSISSFILSALHFIAWTIGHLNQIKR 2kj1-a1-m1-cB_2kj1-a1-m1-cC cytoplasmic domain structure of BM2 proton channel from influenza B virus Q9WD75 Q9WD75 NOT SOLUTION NMR 68 1.0 11520 (Influenza B virus) 11520 (Influenza B virus) 61 61 2kj1-a1-m1-cA_2kj1-a1-m1-cB 2kj1-a1-m1-cA_2kj1-a1-m1-cD 2kj1-a1-m1-cC_2kj1-a1-m1-cD GPNKETINREVSILRHSYQKEIQAKETMKEVLSDNMEVLSDHIVIEGLSAEEIIKMGETVL GPNKETINREVSILRHSYQKEIQAKETMKEVLSDNMEVLSDHIVIEGLSAEEIIKMGETVL 2kj3-a1-m1-cB_2kj3-a1-m1-cC High-resolution structure of the HET-s(218-289) prion in its amyloid form obtained by solid-state NMR Q03689 Q03689 NOT SOLID-STATE NMR 177 1.0 79 79 2kj3-a1-m1-cA_2kj3-a1-m1-cB MKIDAIVGRNSAKDIRTEERARVQLGNVVTAAALHGGIRISDQTTNSVETVVGKGESRVLIGNEYGGKGFWDNHHHHHH MKIDAIVGRNSAKDIRTEERARVQLGNVVTAAALHGGIRISDQTTNSVETVVGKGESRVLIGNEYGGKGFWDNHHHHHH 2kjb-a1-m1-cA_2kjb-a1-m1-cB Solution structure of CzrA in the DNA bound state O85142 O85142 NOT SOLUTION NMR 28 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 95 95 NTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSVHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPKE NTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSVHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPKE 2kjz-a1-m1-cA_2kjz-a1-m1-cB Solution NMR structure of protein ATC0852 from Agrobacterium tumefaciens. Northeast Structural Genomics Consortium (NESG) target AtT2. A9CJT2 A9CJT2 NOT SOLUTION NMR 185 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 122 122 MTHPDFTILYVDNPPASTQFYKALLGVDPVESSPTFSLFVLANGMKLGLWSRHTVEPKASVTGGGGELAFRVENDAQVDETFAGWKASGVAMLQQPAKMEFGYTFTAADPDSHRLRVYAFAG MTHPDFTILYVDNPPASTQFYKALLGVDPVESSPTFSLFVLANGMKLGLWSRHTVEPKASVTGGGGELAFRVENDAQVDETFAGWKASGVAMLQQPAKMEFGYTFTAADPDSHRLRVYAFAG 2kke-a1-m1-cA_2kke-a1-m1-cB Solution NMR Structure of a dimeric protein of unknown function from Methanobacterium thermoautotrophicum, Northeast Structural Genomics Consortium Target TR5 O26567 O26567 NOT SOLUTION NMR 91 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 53 53 MVGRRPGGGLKDTKPVVVRLYPDEIEALKSRVPANTSMSAYIRRIILNHLEDE MVGRRPGGGLKDTKPVVVRLYPDEIEALKSRVPANTSMSAYIRRIILNHLEDE 2klh-a1-m1-cA_2klh-a1-m1-cB NMR Structure of RCL in complex with GMP O35820 O35820 NOT SOLUTION NMR 120 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 152 152 MRRSVYFCGSIRGGREDQALYARIVSRLRRYGKVLTEHVADAELEPLGEEAAGGDQFIHEQALNWLQQADVVVAEVTQPSLGVGYELGRAVALGKPILCLFRPQSGRVLSAMIRGAADGSRFQVWDYAEGEVETMLDRYFEAYLVEHHHHHH MRRSVYFCGSIRGGREDQALYARIVSRLRRYGKVLTEHVADAELEPLGEEAAGGDQFIHEQALNWLQQADVVVAEVTQPSLGVGYELGRAVALGKPILCLFRPQSGRVLSAMIRGAADGSRFQVWDYAEGEVETMLDRYFEAYLVEHHHHHH 2kn7-a1-m1-cA_2kn7-a1-m1-cD Structure of the XPF-single strand DNA complex Q92889 Q92889 NOT SOLUTION NMR 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 2aq0-a1-m1-cA_2aq0-a1-m1-cB EKYNPGPQDFLLKMPGVNAKNCRSLMHHVKNIAELAALSQDELTSILGNAANAKQLYDFIHTSFAEV EKYNPGPQDFLLKMPGVNAKNCRSLMHHVKNIAELAALSQDELTSILGNAANAKQLYDFIHTSFAEV 2knv-a1-m1-cA_2knv-a1-m1-cB NMR dimer structure of the UBA domain of p62 (SQSTM1) Q13501 Q13501 NOT SOLUTION NMR 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 GSPPEADPRLIESLSQMLSMGFSDEGGWLTRLLQTKNYDIGAALDTIQYSKH GSPPEADPRLIESLSQMLSMGFSDEGGWLTRLLQTKNYDIGAALDTIQYSKH 2ko8-a1-m1-cB_2ko8-a1-m1-cC The Structure of Anti-TRAP O31466 O31466 NOT SOLUTION NMR 32 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 52 52 2ko8-a1-m1-cA_2ko8-a1-m1-cB 2ko8-a1-m1-cA_2ko8-a1-m1-cC VIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK VIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK 2kp8-a1-m1-cB_2kp8-a1-m1-cC Ligand bound to a model peptide that mimics the open fusogenic form NOT SOLUTION NMR 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 72 72 2kp8-a1-m1-cA_2kp8-a1-m1-cB 2kp8-a1-m1-cA_2kp8-a1-m1-cC TSLIHSLIEESQNQQEKNEQELLELDGDGPQLLSGIVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARILAVE TSLIHSLIEESQNQQEKNEQELLELDGDGPQLLSGIVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARILAVE 2kqt-a1-m1-cC_2kqt-a1-m1-cD Solid-state NMR structure of the M2 transmembrane peptide of the influenza A virus in DMPC lipid bilayers bound to deuterated amantadine O70632 O70632 NOT SOLID-STATE NMR 23 1.0 130763 (Influenza A virus (A/Hong Kong/156/97(H5N1))) 130763 (Influenza A virus (A/Hong Kong/156/97(H5N1))) 25 25 2kqt-a1-m1-cA_2kqt-a1-m1-cB 2kqt-a1-m1-cA_2kqt-a1-m1-cD 2kqt-a1-m1-cB_2kqt-a1-m1-cC 2ly0-a1-m1-cA_2ly0-a1-m1-cB 2ly0-a1-m1-cA_2ly0-a1-m1-cD 2ly0-a1-m1-cB_2ly0-a1-m1-cC 2ly0-a1-m1-cC_2ly0-a1-m1-cD 2muv-a1-m1-cA_2muv-a1-m1-cB 2muv-a1-m1-cA_2muv-a1-m1-cD 2muv-a1-m1-cB_2muv-a1-m1-cC 2muv-a1-m1-cC_2muv-a1-m1-cD 2muw-a1-m1-cA_2muw-a1-m1-cB 2muw-a1-m1-cA_2muw-a1-m1-cD 2muw-a1-m1-cB_2muw-a1-m1-cC 2muw-a1-m1-cC_2muw-a1-m1-cD SSDPLVVAASIIGILHLILWILDRL SSDPLVVAASIIGILHLILWILDRL 2krf-a1-m1-cA_2krf-a1-m1-cB NMR solution structure of the DNA binding domain of Competence protein A P14204 P14204 NOT SOLUTION NMR 71 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 69 69 SSQKEQDVLTPRECLILQEVEKGFTNQEIADALHLSKRSIEYSLTSIFNKLNVGSRTEAVLIAKSDGVL SSQKEQDVLTPRECLILQEVEKGFTNQEIADALHLSKRSIEYSLTSIFNKLNVGSRTEAVLIAKSDGVL 2ks0-a1-m1-cA_2ks0-a1-m1-cB Solution NMR structure of the Q251Q8_DESHY(21-82) protein from Desulfitobacterium Hafniense, Northeast Structural Genomics Consortium Target DhR8C Q251Q8 Q251Q8 NOT SOLUTION NMR 64 1.0 138119 (Desulfitobacterium hafniense Y51) 138119 (Desulfitobacterium hafniense Y51) 66 66 MDNRQFLSLTGVSKVQSFDPKEILLETIQGVLSIKGEKLGLKAGQVEVEGLIDALVYPLEHHHHHH MDNRQFLSLTGVSKVQSFDPKEILLETIQGVLSIKGEKLGLKAGQVEVEGLIDALVYPLEHHHHHH 2ku1-a1-m1-cC_2ku1-a1-m1-cE Dynamic Regulation of Archaeal Proteasome Gate Opening as Studied by TROSY-NMR P25156 P25156 NOT SOLUTION NMR 15 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 237 237 2ku1-a1-m1-cA_2ku1-a1-m1-cF 2ku1-a1-m1-cB_2ku1-a1-m1-cD GAMGMQQGQMAYDRAITVFSPDGRLFQVEYAREAVKKGSTALGMKFANGVLLISDKKVRSRLIEQNSIEKIQLIDDYVAAVTSGLVADARVLVDFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGPRLFDCDPAGTINEYKATAIGSGKDAVVSFLEREYKENLPEKEAVTLGIKALKSSLEEGEELKAPEIASITVGNKYRIYDQEEVKKFL GAMGMQQGQMAYDRAITVFSPDGRLFQVEYAREAVKKGSTALGMKFANGVLLISDKKVRSRLIEQNSIEKIQLIDDYVAAVTSGLVADARVLVDFARISAQQEKVTYGSLVNIENLVKRVADQMQQYTQYGGVRPYGVSLIFAGIDQIGPRLFDCDPAGTINEYKATAIGSGKDAVVSFLEREYKENLPEKEAVTLGIKALKSSLEEGEELKAPEIASITVGNKYRIYDQEEVKKFL 2kw3-a1-m1-cA_2kw3-a1-m1-cB Heterotrimeric interaction between RFX5 and RFXAP P48382 P48382 NOT SOLUTION NMR 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 GAGEPTTLLQRLRGTISKAVQNKVEGILQDVQKFSDNDKLYLYLQLPSGPTTGDKSSEPSTLSNEEYM GAGEPTTLLQRLRGTISKAVQNKVEGILQDVQKFSDNDKLYLYLQLPSGPTTGDKSSEPSTLSNEEYM 2kw6-a1-m1-cA_2kw6-a1-m1-cB Solution NMR Structure of Cyclin-dependent kinase 2-associated protein 1 (CDK2-associated protein 1; oral cancer suppressor Deleted in oral cancer 1, DOC-1) from H.sapiens, Northeast Structural Genomics Consortium Target Target HR3057H O14519 O14519 NOT SOLUTION NMR 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 MGHHHHHHSHSKYAELLAIIEELGKEIRPTYAGSKSAMERLKRGIIHARGLVRECLAETERNARS MGHHHHHHSHSKYAELLAIIEELGKEIRPTYAGSKSAMERLKRGIIHARGLVRECLAETERNARS 2kwd-a1-m1-cA_2kwd-a1-m1-cC Supramolecular Protein Structure Determination by Site-Specific Long-Range Intermolecular Solid State NMR Spectroscopy P19909 P19909 NOT SOLID-STATE NMR 39 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 2kwd-a1-m1-cA_2kwd-a1-m1-cB MQYKLILNGKTLKGETTTEAVDAATAEKVFKQYANDNGVDGEWTYDDATKTFTVTE MQYKLILNGKTLKGETTTEAVDAATAEKVFKQYANDNGVDGEWTYDDATKTFTVTE 2kwd-a1-m1-cA_2kwd-a1-m1-cE Supramolecular Protein Structure Determination by Site-Specific Long-Range Intermolecular Solid State NMR Spectroscopy P19909 P19909 NOT SOLID-STATE NMR 25 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 2kwd-a1-m1-cA_2kwd-a1-m1-cD MQYKLILNGKTLKGETTTEAVDAATAEKVFKQYANDNGVDGEWTYDDATKTFTVTE MQYKLILNGKTLKGETTTEAVDAATAEKVFKQYANDNGVDGEWTYDDATKTFTVTE 2kwx-a1-m1-cC_2kwx-a1-m1-cD The V27A mutant of influenza A M2 proton channel P0DOF5 P0DOF5 NOT SOLUTION NMR 33 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 38 38 2kwx-a1-m1-cA_2kwx-a1-m1-cB 2kwx-a1-m1-cA_2kwx-a1-m1-cD 2kwx-a1-m1-cB_2kwx-a1-m1-cC SDPLAVAASIIGILHLILWILDRLFFKSIYRFFEHGLK SDPLAVAASIIGILHLILWILDRLFFKSIYRFFEHGLK 2kyv-a1-m1-cD_2kyv-a1-m1-cE Hybrid solution and solid-state NMR structure ensemble of phospholamban pentamer P61015 P61015 NOT SOLUTION NMR, SOLID-STATE NMR 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 52 52 2kyv-a1-m1-cA_2kyv-a1-m1-cB 2kyv-a1-m1-cA_2kyv-a1-m1-cE 2kyv-a1-m1-cB_2kyv-a1-m1-cC 2kyv-a1-m1-cC_2kyv-a1-m1-cD MEKVQYLTRSAIRRASTIEMPQQARQNLQNLFINFCLILICLLLICIIVMLL MEKVQYLTRSAIRRASTIEMPQQARQNLQNLFINFCLILICLLLICIIVMLL 2l01-a1-m1-cA_2l01-a1-m1-cB Solution NMR Structure of protein BVU3908 from Bacteroides vulgatus, Northeast Structural Genomics Consortium Target BvR153 A6L747 A6L747 NOT SOLUTION NMR 54 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 77 77 MKMLKEKAGALAGQIWEALNGTEGLTQKQIKKATKLKADKDFFLGLGWLLREDKVVTSEVEGEIFVKLVLEHHHHHH MKMLKEKAGALAGQIWEALNGTEGLTQKQIKKATKLKADKDFFLGLGWLLREDKVVTSEVEGEIFVKLVLEHHHHHH 2l02-a1-m1-cA_2l02-a1-m1-cB Solution NMR Structure of protein BT2368 from Bacteroides thetaiotaomicron, Northeast Structural Genomics Consortium Target BtR375 Q8A574 Q8A574 NOT SOLUTION NMR 67 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 82 82 MDKKIVGANAGKVWHALNEADGISIPELARKVNLSVESTALAVGWLARENKVVIERKNGLIEIYNEGHFDFSFGLEHHHHHH MDKKIVGANAGKVWHALNEADGISIPELARKVNLSVESTALAVGWLARENKVVIERKNGLIEIYNEGHFDFSFGLEHHHHHH 2l0j-a1-m1-cB_2l0j-a1-m1-cC Solid State NMR structure of the M2 proton channel from Influenza A Virus in hydrated lipid bilayer P0DOF5 P0DOF5 NOT SOLID-STATE NMR 37 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 41 41 2l0j-a1-m1-cA_2l0j-a1-m1-cB 2l0j-a1-m1-cA_2l0j-a1-m1-cD 2l0j-a1-m1-cC_2l0j-a1-m1-cD SSDPLVVAASIIGILHLILWILDRLFFKSIYRFFEHGLKRG SSDPLVVAASIIGILHLILWILDRLFFKSIYRFFEHGLKRG 2l35-a1-m1-cB_2l35-a1-m1-cA Structure of the DAP12-NKG2C transmembrane heterotrimer O43914 P26717 NOT SOLUTION NMR 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 63 2l34-a1-m1-cA_2l34-a1-m1-cB CSTVSPGVLAGIVVGDLVLTVLIALAVYFLGR CSTVSPGVLAGIVVGDLVLTVLIALAVYFLGRLGTAEVLGIISIVLVATVLKTIVLIPFLEQN 2l48-a1-m1-cA_2l48-a1-m1-cB Solution structure of the PlyG cell wall binding domain Q8LTE6 Q8LTE6 NOT SOLUTION NMR 65 1.0 347962 (Bacillus phage Gamma) 347962 (Bacillus phage Gamma) 85 85 GSIQKVKNGNVATTSPTKQNIIQSGAFSPYETPDVMGALTSLKMTADFILQSDGLTYFISKPTSDAQLKAMKEYLDRKGWWYEVK GSIQKVKNGNVATTSPTKQNIIQSGAFSPYETPDVMGALTSLKMTADFILQSDGLTYFISKPTSDAQLKAMKEYLDRKGWWYEVK 2l6w-a1-m1-cA_2l6w-a1-m1-cB PDGFR beta-TM P09619 P09619 NOT SOLUTION NMR 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 39 39 GHSLPFKVVVISAILALVVLTIISLIILIMLWQKKPRYE GHSLPFKVVVISAILALVVLTIISLIILIMLWQKKPRYE 2l8t-a1-m1-cA_2l8t-a1-m1-cB Staphylococcus aureus pathogenicity island 1 protein gp6, an internal scaffold in size determination O54465 O54465 NOT SOLUTION NMR 100 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 71 71 ETKYELNNTKKVANAFGLNEEDTNLLINAVDLDIKNNMQEISSELQQSEQSKQKQYGTTLQNLAKQNRIIK ETKYELNNTKKVANAFGLNEEDTNLLINAVDLDIKNNMQEISSELQQSEQSKQKQYGTTLQNLAKQNRIIK 2l8x-a1-m1-cA_2l8x-a1-m1-cB Spatial structure of antimicrobial peptide Arenicin-2 dimer in DPC micelles Q5SC59 Q5SC59 NOT SOLUTION NMR 36 1.0 6344 (Arenicola marina) 6344 (Arenicola marina) 21 21 RWCVYAYVRIRGVLVRYRRCW RWCVYAYVRIRGVLVRYRRCW 2l9h-a1-m1-cA_2l9h-a1-m1-cC Oligomeric Structure of the Chemokine CCL5/RANTES from NMR, MS, and SAXS Data P13501 P13501 NOT SOLUTION NMR, SOLUTION SCATTERING 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 PYSSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS PYSSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 2l9u-a1-m1-cA_2l9u-a1-m1-cB Spatial structure of dimeric ErbB3 transmembrane domain P21860 P21860 NOT SOLUTION NMR 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 MGRTHLTMALTVIAGLVVIFMMLGGTFLYWRGRRHHHHHH MGRTHLTMALTVIAGLVVIFMMLGGTFLYWRGRRHHHHHH 2lcx-a1-m1-cA_2lcx-a1-m1-cB Spatial Structure of the ErbB4 dimeric TM domain Q15303 Q15303 NOT SOLUTION NMR 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 2l2t-a1-m1-cA_2l2t-a1-m1-cB STLPQHARTPLIAAGVIGGLFILVIVGLTFAVYVRRKSIKKKRA STLPQHARTPLIAAGVIGGLFILVIVGLTFAVYVRRKSIKKKRA 2ldx-a1-m1-cA_2ldx-a1-m1-cD CHARACTERIZATION OF THE ANTIGENIC SITES ON THE REFINED 3-ANGSTROMS RESOLUTION STRUCTURE OF MOUSE TESTICULAR LACTATE DEHYDROGENASE C4 P00342 P00342 2.96 X-RAY DIFFRACTION 100 1.0 10090 (Mus musculus) 10090 (Mus musculus) 331 331 2ldx-a1-m1-cB_2ldx-a1-m1-cC STVKEQLIQNLVPEDKLSRCKITVVGVGDVGMACAISILLKGLADELALVDADTDKLRGEALDLQHGSLFLSTPKIVFGKDYNVSANSKLVIITAGARMVSGQTRLDLLQRNVAIMKAIVPGVIQNSPDCKIIVVTNPVDILTYVVWKISGFPVGRVIGSGCNLDSARFRYLIGEKLGVNPTSCHGWVLGEHGDSSVPIWSGVNVAGVTLKSLNPAIGTDKNKQHWKNVHKQVVEGGYEVLDMKGYTSWAIGLSVTDLARSILKNLKRVHPVTTLVKGFHGIKEEVFLSIPCVLGESGITDFVKVNMTAEEEGLLKKSADTLWNMQKNLEL STVKEQLIQNLVPEDKLSRCKITVVGVGDVGMACAISILLKGLADELALVDADTDKLRGEALDLQHGSLFLSTPKIVFGKDYNVSANSKLVIITAGARMVSGQTRLDLLQRNVAIMKAIVPGVIQNSPDCKIIVVTNPVDILTYVVWKISGFPVGRVIGSGCNLDSARFRYLIGEKLGVNPTSCHGWVLGEHGDSSVPIWSGVNVAGVTLKSLNPAIGTDKNKQHWKNVHKQVVEGGYEVLDMKGYTSWAIGLSVTDLARSILKNLKRVHPVTTLVKGFHGIKEEVFLSIPCVLGESGITDFVKVNMTAEEEGLLKKSADTLWNMQKNLEL 2ldx-a1-m1-cB_2ldx-a1-m1-cD CHARACTERIZATION OF THE ANTIGENIC SITES ON THE REFINED 3-ANGSTROMS RESOLUTION STRUCTURE OF MOUSE TESTICULAR LACTATE DEHYDROGENASE C4 P00342 P00342 2.96 X-RAY DIFFRACTION 146 1.0 10090 (Mus musculus) 10090 (Mus musculus) 331 331 2ldx-a1-m1-cA_2ldx-a1-m1-cC STVKEQLIQNLVPEDKLSRCKITVVGVGDVGMACAISILLKGLADELALVDADTDKLRGEALDLQHGSLFLSTPKIVFGKDYNVSANSKLVIITAGARMVSGQTRLDLLQRNVAIMKAIVPGVIQNSPDCKIIVVTNPVDILTYVVWKISGFPVGRVIGSGCNLDSARFRYLIGEKLGVNPTSCHGWVLGEHGDSSVPIWSGVNVAGVTLKSLNPAIGTDKNKQHWKNVHKQVVEGGYEVLDMKGYTSWAIGLSVTDLARSILKNLKRVHPVTTLVKGFHGIKEEVFLSIPCVLGESGITDFVKVNMTAEEEGLLKKSADTLWNMQKNLEL STVKEQLIQNLVPEDKLSRCKITVVGVGDVGMACAISILLKGLADELALVDADTDKLRGEALDLQHGSLFLSTPKIVFGKDYNVSANSKLVIITAGARMVSGQTRLDLLQRNVAIMKAIVPGVIQNSPDCKIIVVTNPVDILTYVVWKISGFPVGRVIGSGCNLDSARFRYLIGEKLGVNPTSCHGWVLGEHGDSSVPIWSGVNVAGVTLKSLNPAIGTDKNKQHWKNVHKQVVEGGYEVLDMKGYTSWAIGLSVTDLARSILKNLKRVHPVTTLVKGFHGIKEEVFLSIPCVLGESGITDFVKVNMTAEEEGLLKKSADTLWNMQKNLEL 2ldx-a1-m1-cC_2ldx-a1-m1-cD CHARACTERIZATION OF THE ANTIGENIC SITES ON THE REFINED 3-ANGSTROMS RESOLUTION STRUCTURE OF MOUSE TESTICULAR LACTATE DEHYDROGENASE C4 P00342 P00342 2.96 X-RAY DIFFRACTION 142 1.0 10090 (Mus musculus) 10090 (Mus musculus) 331 331 2ldx-a1-m1-cA_2ldx-a1-m1-cB STVKEQLIQNLVPEDKLSRCKITVVGVGDVGMACAISILLKGLADELALVDADTDKLRGEALDLQHGSLFLSTPKIVFGKDYNVSANSKLVIITAGARMVSGQTRLDLLQRNVAIMKAIVPGVIQNSPDCKIIVVTNPVDILTYVVWKISGFPVGRVIGSGCNLDSARFRYLIGEKLGVNPTSCHGWVLGEHGDSSVPIWSGVNVAGVTLKSLNPAIGTDKNKQHWKNVHKQVVEGGYEVLDMKGYTSWAIGLSVTDLARSILKNLKRVHPVTTLVKGFHGIKEEVFLSIPCVLGESGITDFVKVNMTAEEEGLLKKSADTLWNMQKNLEL STVKEQLIQNLVPEDKLSRCKITVVGVGDVGMACAISILLKGLADELALVDADTDKLRGEALDLQHGSLFLSTPKIVFGKDYNVSANSKLVIITAGARMVSGQTRLDLLQRNVAIMKAIVPGVIQNSPDCKIIVVTNPVDILTYVVWKISGFPVGRVIGSGCNLDSARFRYLIGEKLGVNPTSCHGWVLGEHGDSSVPIWSGVNVAGVTLKSLNPAIGTDKNKQHWKNVHKQVVEGGYEVLDMKGYTSWAIGLSVTDLARSILKNLKRVHPVTTLVKGFHGIKEEVFLSIPCVLGESGITDFVKVNMTAEEEGLLKKSADTLWNMQKNLEL 2lfh-a1-m1-cA_2lfh-a1-m1-cB Solution NMR Structure of the Helix-loop-Helix Domain of Human ID3 Protein, Northeast Structural Genomics Consortium Target HR3111A Q02535 Q02535 NOT SOLUTION NMR 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 68 68 MGHHHHHHSHMGGGKGPAAEEPLSLLDDMNHCYSRLRELVPGVPRGTQLSQVEILQRVIDYILDLQVV MGHHHHHHSHMGGGKGPAAEEPLSLLDDMNHCYSRLRELVPGVPRGTQLSQVEILQRVIDYILDLQVV 2lfr-a1-m1-cA_2lfr-a1-m1-cB Solution structure of the chimeric Af1503 HAMP- EnvZ DHp homodimer P0AEJ5 P0AEJ5 NOT SOLUTION NMR 136 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 111 111 2l7h-a1-m1-cA_2l7h-a1-m1-cB STITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR STITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR 2lfs-a1-m1-cA_2lfs-a1-m1-cB Solution structure of the chimeric Af1503 HAMP- EnvZ DHp homodimer; A219F variant P0AEJ5 P0AEJ5 NOT SOLUTION NMR 109 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 111 111 2l7i-a1-m1-cA_2l7i-a1-m1-cB STITRPIIELSNTFDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR STITRPIIELSNTFDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR 2lh0-a1-m1-cA_2lh0-a1-m1-cB NMR structure of the histone-interacting N-terminal homodimeric region of Rtt106 P40161 P40161 NOT SOLUTION NMR 52 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 70 70 GHMMSKLFLDELPESLSRKIGTVVRVLPSSLEIFEELYKYALNENSNDRSEHHKKPRIDDSSDLLKTDEI GHMMSKLFLDELPESLSRKIGTVVRVLPSSLEIFEELYKYALNENSNDRSEHHKKPRIDDSSDLLKTDEI 2lhk-a1-m1-cA_2lhk-a1-m1-cB Structural analysis of a chaperone in type III secretion system O52124 O52124 NOT SOLUTION NMR 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 107 107 MSIVSQTRNKELLDKKIRSEIEAIKKIIAEFDVVKESVNELSEKAKTDPQAAEKLNKLIEGYTYGEERKLYDSALSKIEKLIETLSPARSKSQSTMNQRNRNNRKIV MSIVSQTRNKELLDKKIRSEIEAIKKIIAEFDVVKESVNELSEKAKTDPQAAEKLNKLIEGYTYGEERKLYDSALSKIEKLIETLSPARSKSQSTMNQRNRNNRKIV 2li9-a1-m1-cA_2li9-a1-m1-cB Metal binding domain of rat beta-amyloid P08592 P08592 NOT SOLUTION NMR 24 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 16 16 DAEFGHDSGFEVRHQK DAEFGHDSGFEVRHQK 2ljb-a1-m1-cC_2ljb-a1-m1-cD Structure of the influenza AM2-BM2 chimeric channel B4UQM4 B4UQM4 NOT SOLUTION NMR 21 1.0 529646 (Influenza B virus (B/Taiwan/70061/2006)) 529646 (Influenza B virus (B/Taiwan/70061/2006)) 30 30 2ljb-a1-m1-cA_2ljb-a1-m1-cB 2ljb-a1-m1-cA_2ljb-a1-m1-cD 2ljb-a1-m1-cB_2ljb-a1-m1-cC 2ljc-a1-m1-cA_2ljc-a1-m1-cD 2ljc-a1-m1-cB_2ljc-a1-m1-cC 2ljc-a1-m1-cC_2ljc-a1-m1-cD SDPLVVAASIIGILHFIAWTIGHLNQIKRG SDPLVVAASIIGILHFIAWTIGHLNQIKRG 2ljc-a1-m1-cA_2ljc-a1-m1-cB Structure of the influenza AM2-BM2 chimeric channel bound to rimantadine B4UQM4 B4UQM4 NOT SOLUTION NMR 35 1.0 529646 (Influenza B virus (B/Taiwan/70061/2006)) 529646 (Influenza B virus (B/Taiwan/70061/2006)) 30 30 SDPLVVAASIIGILHFIAWTIGHLNQIKRG SDPLVVAASIIGILHFIAWTIGHLNQIKRG 2ljr-a1-m1-cA_2ljr-a1-m1-cB GLUTATHIONE TRANSFERASE APO-FORM FROM HUMAN P0CG30 P0CG30 3.2 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 1ljr-a1-m1-cA_1ljr-a1-m1-cB 3ljr-a1-m1-cA_3ljr-a1-m1-cB 4mpf-a1-m1-cA_4mpf-a1-m1-cB 4mpg-a1-m1-cA_4mpg-a1-m1-cB MGLELFLDLVSQPSRAVYIFAKKNGIPLELRTVDLVKGQHKSKEFLQINSLGKLPTLKDGDFILTESSAILIYLSCKYQTPDHWYPSDLQARARVHEYLGWHADCIRGTFGIPLWVQVLGPLIGVQVPEEKVERNRTAMDQALQWLEDKFLGDRPFLAGQQVTLADLMALEELMQPVALGYELFEGRPRLAAWRGRVEAFLGAELCQEAHSIILSILEQAAKKTLPTPSPEAYQAMLLRIARIP MGLELFLDLVSQPSRAVYIFAKKNGIPLELRTVDLVKGQHKSKEFLQINSLGKLPTLKDGDFILTESSAILIYLSCKYQTPDHWYPSDLQARARVHEYLGWHADCIRGTFGIPLWVQVLGPLIGVQVPEEKVERNRTAMDQALQWLEDKFLGDRPFLAGQQVTLADLMALEELMQPVALGYELFEGRPRLAAWRGRVEAFLGAELCQEAHSIILSILEQAAKKTLPTPSPEAYQAMLLRIARIP 2ljy-a1-m1-cA_2ljy-a1-m1-cB Haddock model structure of the N-terminal domain dimer of HPV16 E6 P03126 P03126 NOT SOLUTION NMR 14 1.0 333760 (Human papillomavirus type 16) 333760 (Human papillomavirus type 16) 70 70 MFQDPQERPRKLPQLCTELQTTIHDIILECVYCKQQLLRREVYDFAFRDLCIVYRDGNPYAVCDKCLKFY MFQDPQERPRKLPQLCTELQTTIHDIILECVYCKQQLLRREVYDFAFRDLCIVYRDGNPYAVCDKCLKFY 2lkp-a1-m1-cA_2lkp-a1-m1-cB solution structure of apo-NmtR Q7D4Y3 Q7D4Y3 NOT SOLUTION NMR 112 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 119 119 GHGVEGRNRPSAPLDSQAAAQVASTLQALATPSRLMILTQLRNGPLPVTDLAEAIGMEQSAVSHQLRVLRNLGLVVGDRAGRSIVYSLYDTHVAQLLDEAIYHSEHLHLGLSDRHPSAG GHGVEGRNRPSAPLDSQAAAQVASTLQALATPSRLMILTQLRNGPLPVTDLAEAIGMEQSAVSHQLRVLRNLGLVVGDRAGRSIVYSLYDTHVAQLLDEAIYHSEHLHLGLSDRHPSAG 2llt-a1-m1-cA_2llt-a1-m1-cB Post-translational S-nitrosylation is an endogenous factor fine-tuning human S100A1 protein properties P23297 P23297 NOT SOLUTION NMR 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 2l0p-a1-m1-cA_2l0p-a1-m1-cB 2lhl-a1-m1-cA_2lhl-a1-m1-cB 2lls-a1-m1-cA_2lls-a1-m1-cB 2llu-a1-m1-cA_2llu-a1-m1-cB 2m3w-a1-m1-cA_2m3w-a1-m1-cB GSELETAMETLINVFHAHSGKEGDKYKLSKKELKELLQTELSGFLDAQKDVDAVDKVMKELDENGDGEVDFQEYVVLVAALTVANNFFWENS GSELETAMETLINVFHAHSGKEGDKYKLSKKELKELLQTELSGFLDAQKDVDAVDKVMKELDENGDGEVDFQEYVVLVAALTVANNFFWENS 2lme-a1-m1-cB_2lme-a1-m1-cC Solid-state NMR structure of the membrane anchor domain of the trimeric autotransporter YadA A1JUB7 A1JUB7 NOT SOLID-STATE NMR 111 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 105 105 2lme-a1-m1-cA_2lme-a1-m1-cB 2lme-a1-m1-cA_2lme-a1-m1-cC GDQASWSHPQFEKGAHKFRQLDNRLDKLDTRVDKGLASSAALNSLFQPYGVGKVNFTAGVGGYRSSQALAIGSGYRVNESVALKAGVAYAGSSDVMYNASFNIEW GDQASWSHPQFEKGAHKFRQLDNRLDKLDTRVDKGLASSAALNSLFQPYGVGKVNFTAGVGGYRSSQALAIGSGYRVNESVALKAGVAYAGSSDVMYNASFNIEW 2lns-a1-m1-cA_2lns-a1-m1-cB Solution structure of AGR2 residues 41-175 O95994 O95994 NOT SOLUTION NMR 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 IDPFTPQTLSRGWGDQLIWTQTYEEALYKSKTSNKPLMIIHHLDECPHSQALKKVFAENKEIQKLAEQFVLLNLVYETTDKHLSPDGQYVPRIMFVDPSLTVRADITGRYSNRLYAYEPADTALLLDNMKKALKLLKTEL IDPFTPQTLSRGWGDQLIWTQTYEEALYKSKTSNKPLMIIHHLDECPHSQALKKVFAENKEIQKLAEQFVLLNLVYETTDKHLSPDGQYVPRIMFVDPSLTVRADITGRYSNRLYAYEPADTALLLDNMKKALKLLKTEL 2lo0-a1-m1-cA_2lo0-a1-m1-cB Solution structure of the Get5 carboxyl domain from A. fumigatus Q4WE50 Q4WE50 NOT SOLUTION NMR 77 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 45 45 PSGESVVATEAFWDDLQGFLEQRLKDYDEANKLRVLFKEAWRSSF PSGESVVATEAFWDDLQGFLEQRLKDYDEANKLRVLFKEAWRSSF 2loh-a1-m1-cA_2loh-a1-m1-cB Dimeric structure of transmembrane domain of amyloid precursor protein in micellar environment P05067 P05067 NOT SOLUTION NMR 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 GSQKLVFFAEDVGSNKGAIIGLMVGGVVIATVIVITLVMLKKK GSQKLVFFAEDVGSNKGAIIGLMVGGVVIATVIVITLVMLKKK 2lp7-a1-m1-cA_2lp7-a1-m1-cC Structure of gp41-M-MAT, a membrane associated MPER trimer from HIV-1 gp41. M1E1E4 M1E1E4 NOT SOLUTION NMR 43 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 59 59 2lp7-a1-m1-cA_2lp7-a1-m1-cB 2lp7-a1-m1-cB_2lp7-a1-m1-cC GYIPEAPRDGQAYVRKDGEWVLLSTFLGSSGNEQELLELDKWASLWNWFNITNWLWYIK GYIPEAPRDGQAYVRKDGEWVLLSTFLGSSGNEQELLELDKWASLWNWFNITNWLWYIK 2lr6-a1-m1-cA_2lr6-a1-m1-cB NMR structure of a LINE-1 type transposase domain-containing protein 1 (L1TD1) from Homo sapiens Q5T7N2 Q5T7N2 NOT SOLUTION NMR 126 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 GVLMDEGAVLTLAADLSSATLDISKQWSNVFNILRENDFEPKFLCEVKLAFKCDGEIKTFSDLQSLRKFASQKSSMKELLKDVLPQKE GVLMDEGAVLTLAADLSSATLDISKQWSNVFNILRENDFEPKFLCEVKLAFKCDGEIKTFSDLQSLRKFASQKSSMKELLKDVLPQKE 2lre-a1-m1-cA_2lre-a1-m1-cB The solution structure of the dimeric Acanthaporin I3NI56 I3NI56 NOT SOLUTION NMR 35 1.0 43142 (Acanthamoeba culbertsoni) 43142 (Acanthamoeba culbertsoni) 61 61 AMGKCSVLKKVACAAAIAGAVAACGGIDLPCVLAALKAAEGCASCFCEDHCHGVCKDLHLC AMGKCSVLKKVACAAAIAGAVAACGGIDLPCVLAALKAAEGCASCFCEDHCHGVCKDLHLC 2lrm-a1-m1-cA_2lrm-a1-m1-cB Assignment and structure of E coli periplasmic protein YmgD P0AB46 P0AB46 NOT SOLUTION NMR 53 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 84 84 NGLPSETYITCAEANEMAKTDSAQVAEIVAVMGNASVASRDLKIEQSPELSAKVVEKLNQVCAKDPQMLLITAIDDTMRAIGKK NGLPSETYITCAEANEMAKTDSAQVAEIVAVMGNASVASRDLKIEQSPELSAKVVEKLNQVCAKDPQMLLITAIDDTMRAIGKK 2ltt-a1-m1-cA_2ltt-a1-m1-cB Solution NMR Structure of YdbC:dT19G1 complex. Northeast Structural Genomics Consortium (NESG) Target KR150 Q9CIP3 Q9CIP3 NOT SOLUTION NMR 52 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 74 74 2ltd-a1-m1-cA_2ltd-a1-m1-cB MADKLKFEIIEELIVLSENAKGWRKELNRVSWNDAEPKYDIRTWSPDHEKMGKGITLSEEEFGVLLKELGNKLE MADKLKFEIIEELIVLSENAKGWRKELNRVSWNDAEPKYDIRTWSPDHEKMGKGITLSEEEFGVLLKELGNKLE 2luc-a1-m1-cA_2luc-a1-m1-cB Solution Structure of human S100 calcium-binding protein A11 P31949 P31949 NOT SOLUTION NMR 154 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 MAKISSPTETERCIESLIAVFQKYAGKDGYNYTLSKTEFLSFMNTELAAFTKNQKDPGVLDRMMKKLDTNSDGQLDFSEFLNLIGGLAMACHDSFLKAVPSQKRT MAKISSPTETERCIESLIAVFQKYAGKDGYNYTLSKTEFLSFMNTELAAFTKNQKDPGVLDRMMKKLDTNSDGQLDFSEFLNLIGGLAMACHDSFLKAVPSQKRT 2lw9-a1-m1-cA_2lw9-a1-m1-cB NMR solution structure of Myo10 anti-CC Q9HD67 Q9HD67 NOT SOLUTION NMR 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 ENKQVEEILRLEKEIEDLQRMKEQQELSLTEASLQKLQERRDQELRRLEEE ENKQVEEILRLEKEIEDLQRMKEQQELSLTEASLQKLQERRDQELRRLEEE 2lxc-a1-m1-cB_2lxc-a1-m1-cC Solution structure of the complex between the Sgt2 homodimerization domain and the Get5 UBL domain Q12118 Q12118 NOT SOLUTION NMR 97 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 74 74 2lxb-a1-m1-cA_2lxb-a1-m1-cB SVDSASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILNSA SVDSASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILNSA 2lyl-a1-m1-cA_2lyl-a1-m1-cB NOE-based 3D structure of the predissociated homodimer of CylR2 in equilibrium with monomer at 266K (-7 Celsius degrees) Q8VL32 Q8VL32 NOT SOLUTION NMR 48 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 66 66 MIINNLKLIREKKKISQSELAALLEVSRQTINGIEKNKYNPSLQLALKIAYYLNTPLEDIFQWQPE MIINNLKLIREKKKISQSELAALLEVSRQTINGIEKNKYNPSLQLALKIAYYLNTPLEDIFQWQPE 2lyn-a3-m1-cC_2lyn-a3-m1-cA HIGH RESOLUTION STRUCTURE OF RED ABALONE LYSIN DIMER P04552 P04552 2.07 X-RAY DIFFRACTION 13 1.0 6454 (Haliotis rufescens) 6454 (Haliotis rufescens) 127 130 PKFLNKAFEVALKVQIIAGFDRGLVKWLRVHGRTLSTVQKKALYFVNRRYMQTHWANYMLWINKKIDALGRTPVVGDYTRLGAEIGRRIDMAYFYDFLKDKNMIPKYLPYMEEINRMRPADVPVKYM YVEPKFLNKAFEVALKVQIIAGFDRGLVKWLRVHGRTLSTVQKKALYFVNRRYMQTHWANYMLWINKKIDALGRTPVVGDYTRLGAEIGRRIDMAYFYDFLKDKNMIPKYLPYMEEINRMRPADVPVKYM 2lyn-a3-m1-cC_2lyn-a3-m1-cD HIGH RESOLUTION STRUCTURE OF RED ABALONE LYSIN DIMER P04552 P04552 2.07 X-RAY DIFFRACTION 30 1.0 6454 (Haliotis rufescens) 6454 (Haliotis rufescens) 127 128 1lyn-a1-m1-cA_1lyn-a1-m1-cB 2lyn-a1-m1-cB_2lyn-a1-m1-cA 2lyn-a2-m1-cC_2lyn-a2-m1-cD 2lyn-a3-m1-cB_2lyn-a3-m1-cA PKFLNKAFEVALKVQIIAGFDRGLVKWLRVHGRTLSTVQKKALYFVNRRYMQTHWANYMLWINKKIDALGRTPVVGDYTRLGAEIGRRIDMAYFYDFLKDKNMIPKYLPYMEEINRMRPADVPVKYM EPKFLNKAFEVALKVQIIAGFDRGLVKWLRVHGRTLSTVQKKALYFVNRRYMQTHWANYMLWINKKIDALGRTPVVGDYTRLGAEIGRRIDMAYFYDFLKDKNMIPKYLPYMEEINRMRPADVPVKYM 2lyn-a3-m1-cD_2lyn-a3-m1-cA HIGH RESOLUTION STRUCTURE OF RED ABALONE LYSIN DIMER P04552 P04552 2.07 X-RAY DIFFRACTION 50 1.0 6454 (Haliotis rufescens) 6454 (Haliotis rufescens) 128 130 EPKFLNKAFEVALKVQIIAGFDRGLVKWLRVHGRTLSTVQKKALYFVNRRYMQTHWANYMLWINKKIDALGRTPVVGDYTRLGAEIGRRIDMAYFYDFLKDKNMIPKYLPYMEEINRMRPADVPVKYM YVEPKFLNKAFEVALKVQIIAGFDRGLVKWLRVHGRTLSTVQKKALYFVNRRYMQTHWANYMLWINKKIDALGRTPVVGDYTRLGAEIGRRIDMAYFYDFLKDKNMIPKYLPYMEEINRMRPADVPVKYM 2lyy-a1-m1-cA_2lyy-a1-m1-cB NMR structure of the protein NB7890A from Shewanella sp K4DIE2 K4DIE2 NOT SOLUTION NMR 191 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 96 96 SNNENAFYARATELIKLANQQNQNTEIQTGEVSASFMWALARYNAWFGSTSFETKEQMQAKKQEMMDYYMDRYKEMLDANMEDYIENFDHYRATQK SNNENAFYARATELIKLANQQNQNTEIQTGEVSASFMWALARYNAWFGSTSFETKEQMQAKKQEMMDYYMDRYKEMLDANMEDYIENFDHYRATQK 2lz3-a1-m1-cA_2lz3-a1-m1-cB Solution NMR structure of transmembrane domain of amyloid precursor protein WT P05067 P05067 NOT SOLUTION NMR 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 KGAIIGLMVGGVVIATVIVITLVMLKKK KGAIIGLMVGGVVIATVIVITLVMLKKK 2lz4-a1-m1-cA_2lz4-a1-m1-cB Solution NMR structure of transmembrane domain of amyloid precursor protein V44M P05067 P05067 NOT SOLUTION NMR 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 KGAIIGLMVGGVVIATMIVITLVMLKKK KGAIIGLMVGGVVIATMIVITLVMLKKK 2lzf-a1-m1-cA_2lzf-a1-m1-cB Structure of the biofilm matrix promoter AbbA from B. subtilis O31697 O31697 NOT SOLUTION NMR 44 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 68 68 GSHMRMSLIGERFTEEEQKLLLNILINHEYAIELLSSEINDIETGTKNVDGTTYKKLVTLYDRFRFEN GSHMRMSLIGERFTEEEQKLLLNILINHEYAIELLSSEINDIETGTKNVDGTTYKKLVTLYDRFRFEN 2lzl-a1-m1-cA_2lzl-a1-m1-cB FGFR3tm P22607 P22607 NOT SOLUTION NMR 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 LPAEEELVEADEAGSVYAGILSYGVGFFLFILVVAAVTLCRLR LPAEEELVEADEAGSVYAGILSYGVGFFLFILVVAAVTLCRLR 2lzs-a1-m1-cE_2lzs-a1-m1-cF TatA oligomer P69428 P69428 NOT SOLUTION NMR 16 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 48 48 2lzs-a1-m1-cA_2lzs-a1-m1-cB 2lzs-a1-m1-cA_2lzs-a1-m1-cI 2lzs-a1-m1-cB_2lzs-a1-m1-cC 2lzs-a1-m1-cC_2lzs-a1-m1-cD 2lzs-a1-m1-cD_2lzs-a1-m1-cE 2lzs-a1-m1-cF_2lzs-a1-m1-cG 2lzs-a1-m1-cG_2lzs-a1-m1-cH 2lzs-a1-m1-cH_2lzs-a1-m1-cI GGISIWQLLIIAVIVVLLFGTKKLGSIGSDLGASIKGFKKAMSDDEPK GGISIWQLLIIAVIVVLLFGTKKLGSIGSDLGASIKGFKKAMSDDEPK 2m0b-a1-m1-cA_2m0b-a1-m1-cB Homodimeric transmembrane domain of the human receptor tyrosine kinase ErbB1 (EGFR, HER1) in micelles P00533 P00533 NOT SOLUTION NMR 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 EGCPTNGPKIPSIATGMVGALLLLLVVALGIGLFMRRRHIVRKR EGCPTNGPKIPSIATGMVGALLLLLVVALGIGLFMRRRHIVRKR 2m0m-a1-m1-cA_2m0m-a1-m1-cB Structural Characterization of Minor Ampullate Spidroin Domains and their Distinct Roles in Fibroin Solubility and Fiber Formation Q2LC34 Q2LC34 NOT SOLUTION NMR 196 1.0 107 107 VGTTVASTTSRLSTAEASSRISTAASTLVSGGYLNTAALPSVIADLFAQVGASSPGVSDSEVLIQVLLEIVSSLIHILSSSSVGQVDFSSVGSSAAAVGQSMQVVMG VGTTVASTTSRLSTAEASSRISTAASTLVSGGYLNTAALPSVIADLFAQVGASSPGVSDSEVLIQVLLEIVSSLIHILSSSSVGQVDFSSVGSSAAAVGQSMQVVMG 2m0r-a1-m1-cA_2m0r-a1-m1-cB Solution structure and dynamics of human S100A14 Q9HCY8 Q9HCY8 NOT SOLUTION NMR 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 MGQCRSANAEDAQEFSDVERAIETLIKNFHQYSVEGGKETLTPSELRDLVTQQLPHLMPSNCGLEEKIANLGSCNDSKLEFRSFWELIGEAAKSVKLERPVRGH MGQCRSANAEDAQEFSDVERAIETLIKNFHQYSVEGGKETLTPSELRDLVTQQLPHLMPSNCGLEEKIANLGSCNDSKLEFRSFWELIGEAAKSVKLERPVRGH 2m1c-a1-m1-cA_2m1c-a1-m1-cB HADDOCK structure of GtYybT PAS Homodimer A4ITV2 A4ITV2 NOT SOLUTION NMR 55 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 113 113 RGSHMRSLHKELQQYISNLSYRVKKVSEEALMQMPIGILLLDEEDKIEWSNRFLAACFKEQTLIGRSLAELSEPLAAFVKKGKTDEEIIELNGKQLKVIVHRHERLLYFFDVT RGSHMRSLHKELQQYISNLSYRVKKVSEEALMQMPIGILLLDEEDKIEWSNRFLAACFKEQTLIGRSLAELSEPLAAFVKKGKTDEEIIELNGKQLKVIVHRHERLLYFFDVT 2m1l-a1-m1-cA_2m1l-a1-m1-cB Solution NMR Structure of Cyclin-dependent kinase 2-associated protein 2 (CDK2AP2, DOC-1R) from Homo sapiens, Northeast Structural Genomics Consortium (NESG) Target HR8910C O75956 O75956 NOT SOLUTION NMR 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 SHMAMKPPGAQGSQSTYTDLLSVIEEMGKEIRPTYAGSKSAMERLKRGIIHARALVRECLAETERNART SHMAMKPPGAQGSQSTYTDLLSVIEEMGKEIRPTYAGSKSAMERLKRGIIHARALVRECLAETERNART 2m1n-a1-m1-cA_2m1n-a1-m1-cB Solution structure of a chaperone in type III secretion system NOT SOLUTION NMR 72 1.0 869692 (Escherichia coli 3003) 869692 (Escherichia coli 3003) 107 107 MSIVSQTRNKELLLKKIDSLIEAIKKIIAEFDVVKESVNELSEKAKTDPQAAEKLNKLIEGYTYGEERKLYDSALSKIEKLIETLSPARSKSQSTMNQRNRNNRKIV MSIVSQTRNKELLLKKIDSLIEAIKKIIAEFDVVKESVNELSEKAKTDPQAAEKLNKLIEGYTYGEERKLYDSALSKIEKLIETLSPARSKSQSTMNQRNRNNRKIV 2m20-a1-m1-cA_2m20-a1-m1-cB EGFR transmembrane - juxtamembrane (TM-JM) segment in bicelles: MD guided NMR refined structure. P00533 P00533 NOT SOLUTION NMR 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 KIPSIATGLVGALLLLLVVALGIGLFIRRRHIVRKRTLRRLLQERELVEPLTPSGEKLWS KIPSIATGLVGALLLLLVVALGIGLFIRRRHIVRKRTLRRLLQERELVEPLTPSGEKLWS 2m32-a1-m1-cB_2m32-a1-m1-cC Alpha-1 integrin I-domain in complex with GLOGEN triple helical peptide NOT SOLUTION NMR 35 1.0 15 15 GPGPGLGENGPGPGP GPGPGLGENGPGPGP 2m32-a1-m1-cB_2m32-a1-m1-cD Alpha-1 integrin I-domain in complex with GLOGEN triple helical peptide NOT SOLUTION NMR 34 1.0 15 15 GPGPGLGENGPGPGP GPGPGLGENGPGPGP 2m32-a1-m1-cC_2m32-a1-m1-cD Alpha-1 integrin I-domain in complex with GLOGEN triple helical peptide NOT SOLUTION NMR 33 1.0 15 15 GPGPGLGENGPGPGP GPGPGLGENGPGPGP 2m3b-a1-m1-cD_2m3b-a1-m1-cE Serine 16 phosphorylated phospholamban pentamer, Hybrid solution and solid-state NMR structural ensemble P61015 P61015 NOT SOLUTION NMR, SOLID-STATE NMR 50 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 51 51 2m3b-a1-m1-cA_2m3b-a1-m1-cB 2m3b-a1-m1-cA_2m3b-a1-m1-cE 2m3b-a1-m1-cB_2m3b-a1-m1-cC 2m3b-a1-m1-cC_2m3b-a1-m1-cD MEKVQYLTRSAIRRATIEMPQQARQNLQNLFINFCLILICLLLICIIVMLL MEKVQYLTRSAIRRATIEMPQQARQNLQNLFINFCLILICLLLICIIVMLL 2m3x-a1-m1-cA_2m3x-a1-m1-cB Solution structure of Ph1500: a homohexameric protein centered on a 12-bladed beta-propeller O59169 O59169 NOT SOLUTION NMR 57 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 147 147 EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 2m3x-a1-m1-cA_2m3x-a1-m1-cF Solution structure of Ph1500: a homohexameric protein centered on a 12-bladed beta-propeller O59169 O59169 NOT SOLUTION NMR 52 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 147 147 2m3x-a1-m1-cD_2m3x-a1-m1-cE EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 2m3x-a1-m1-cB_2m3x-a1-m1-cC Solution structure of Ph1500: a homohexameric protein centered on a 12-bladed beta-propeller O59169 O59169 NOT SOLUTION NMR 55 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 147 147 EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 2m3x-a1-m1-cE_2m3x-a1-m1-cF Solution structure of Ph1500: a homohexameric protein centered on a 12-bladed beta-propeller O59169 O59169 NOT SOLUTION NMR 54 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 147 147 2m3x-a1-m1-cC_2m3x-a1-m1-cD EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT EGVIMSELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 2m59-a1-m1-cA_2m59-a1-m1-cB Spatial structure of dimeric VEGFR2 membrane domain in DPC micelles P35968 P35968 NOT SOLUTION NMR 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 EKTNLEIIILVGTAVIAMFFWLLLVIILRTVKRANGG EKTNLEIIILVGTAVIAMFFWLLLVIILRTVKRANGG 2m6i-a1-m1-cD_2m6i-a1-m1-cE Putative pentameric open-channel structure of full-length transmembrane domains of human glycine receptor alpha1 subunit P23415 P23415 NOT SOLUTION NMR 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 150 2m6i-a1-m1-cA_2m6i-a1-m1-cB 2m6i-a1-m1-cA_2m6i-a1-m1-cE 2m6i-a1-m1-cB_2m6i-a1-m1-cC 2m6i-a1-m1-cC_2m6i-a1-m1-cD MLERQLGYYLIQLYIPSLLIVILSWISFWINLDAAPARVGLGITTVLTLTTQSSGSRASLPKVSYVKAIDIWLAVCLLFVFSALLEYAAVNFVSRQREFGGGGFIQRAKKIDKISRIGFPLAFLIFNLFYWIIYKIVRREDEFEHHHHHH MLERQLGYYLIQLYIPSLLIVILSWISFWINLDAAPARVGLGITTVLTLTTQSSGSRASLPKVSYVKAIDIWLAVCLLFVFSALLEYAAVNFVSRQREFGGGGFIQRAKKIDKISRIGFPLAFLIFNLFYWIIYKIVRREDEFEHHHHHH 2m6x-a1-m1-cB_2m6x-a1-m1-cE Structure of the p7 channel of Hepatitis C virus, genotype 5a O39928 O39928 NOT SOLUTION NMR 36 1.0 356419 (Hepatitis C virus (isolate EUH1480)) 356419 (Hepatitis C virus (isolate EUH1480)) 63 63 2m6x-a1-m1-cA_2m6x-a1-m1-cD 2m6x-a1-m1-cC_2m6x-a1-m1-cF GAKNVIVLNAASAAGNHGFFWGLLVVTLAWHVKGRLVPGATYLSLGVWPLLLVRLLRPHRALA GAKNVIVLNAASAAGNHGFFWGLLVVTLAWHVKGRLVPGATYLSLGVWPLLLVRLLRPHRALA 2m6x-a1-m1-cD_2m6x-a1-m1-cF Structure of the p7 channel of Hepatitis C virus, genotype 5a O39928 O39928 NOT SOLUTION NMR 10 1.0 356419 (Hepatitis C virus (isolate EUH1480)) 356419 (Hepatitis C virus (isolate EUH1480)) 63 63 2m6x-a1-m1-cA_2m6x-a1-m1-cC 2m6x-a1-m1-cA_2m6x-a1-m1-cE 2m6x-a1-m1-cB_2m6x-a1-m1-cD 2m6x-a1-m1-cB_2m6x-a1-m1-cF 2m6x-a1-m1-cC_2m6x-a1-m1-cE GAKNVIVLNAASAAGNHGFFWGLLVVTLAWHVKGRLVPGATYLSLGVWPLLLVRLLRPHRALA GAKNVIVLNAASAAGNHGFFWGLLVVTLAWHVKGRLVPGATYLSLGVWPLLLVRLLRPHRALA 2m6x-a1-m1-cE_2m6x-a1-m1-cF Structure of the p7 channel of Hepatitis C virus, genotype 5a O39928 O39928 NOT SOLUTION NMR 56 1.0 356419 (Hepatitis C virus (isolate EUH1480)) 356419 (Hepatitis C virus (isolate EUH1480)) 63 63 2m6x-a1-m1-cA_2m6x-a1-m1-cB 2m6x-a1-m1-cA_2m6x-a1-m1-cF 2m6x-a1-m1-cB_2m6x-a1-m1-cC 2m6x-a1-m1-cC_2m6x-a1-m1-cD 2m6x-a1-m1-cD_2m6x-a1-m1-cE GAKNVIVLNAASAAGNHGFFWGLLVVTLAWHVKGRLVPGATYLSLGVWPLLLVRLLRPHRALA GAKNVIVLNAASAAGNHGFFWGLLVVTLAWHVKGRLVPGATYLSLGVWPLLLVRLLRPHRALA 2m7w-a1-m1-cB_2m7w-a1-m1-cC Independently verified structure of gp41-M-MAT, a membrane associated MPER trimer from HIV-1 gp41 M1E1E4 M1E1E4 NOT SOLUTION NMR 39 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 59 59 2m7w-a1-m1-cA_2m7w-a1-m1-cB 2m7w-a1-m1-cA_2m7w-a1-m1-cC GYIPEAPRDGQAYVRKDGEWVLLSTFLGSSGNEQELLELDKWASLWNWFNITNWLWYIK GYIPEAPRDGQAYVRKDGEWVLLSTFLGSSGNEQELLELDKWASLWNWFNITNWLWYIK 2m89-a1-m1-cA_2m89-a1-m1-cB Solution structure of the Aha1 dimer from Colwellia psychrerythraea Q484T9 Q484T9 NOT SOLUTION NMR, SOLUTION SCATTERING 48 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 134 134 MVNINHRIGIKASPEKIYQALTTDDGLKKWWTNDISGAGVVGSTIKFRFNGGGPDFKVTKLIPNKTVCWQHAGNMPESWMGTEISFQLETVENQTFVRFTHSNWHETTDFMAHCNTKWAVFLLSLKDALEIGKG MVNINHRIGIKASPEKIYQALTTDDGLKKWWTNDISGAGVVGSTIKFRFNGGGPDFKVTKLIPNKTVCWQHAGNMPESWMGTEISFQLETVENQTFVRFTHSNWHETTDFMAHCNTKWAVFLLSLKDALEIGKG 2m9q-a1-m1-cB_2m9q-a1-m1-cA NMR structure of an inhibitor bound dengue NS3 protease P14337 NOT SOLUTION NMR 19 1.0 413041 (Dengue virus 2 Thailand/0168/1979) 2 240 2m9p-a1-m1-cB_2m9p-a1-m1-cA KR GSAADLELERAADVKWEDQAEISGSSPILSITISEDGSMSIKNEEEEQTLGGGGSGGGGEFAGVLWDVPSPPPVGKAELEDGAYRIKQKGILGYSQIGAGVYKEGTFHTMWHVTRGAVLMHKGKRIEPSWADVKKDLISYGGGWKLEGEWKEGEEVQVLALEPGKNPRAVQTKPGLFKTNAGTIGAVSLDFSPGTSGSPIIDKKGKVVGLYGNGVVTRSGAYVSAIAQTEKSIEDNPEIE 2ma8-a1-m1-cA_2ma8-a1-m1-cB Solution NMR Structure of Salmonella typhimurium LT2 Secreted Protein SrfN: Northeast Structural Genomics Consortium Target StR109 Q7CR88 Q7CR88 NOT SOLUTION NMR 34 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 83 83 AEQVSKQEISHFKLVKVGTINVSQSGGQISSPSDLREKLSELADAKGGKYYHIIAAREHGPNFEAVAEVYNDATKLEHHHHHH AEQVSKQEISHFKLVKVGTINVSQSGGQISSPSDLREKLSELADAKGGKYYHIIAAREHGPNFEAVAEVYNDATKLEHHHHHH 2mab-a1-m1-cA_2mab-a1-m1-cB Untangling the Solution Structure of C-Terminal Domain of Aciniform Spidroin X1WB74 X1WB74 NOT SOLUTION NMR 219 1.0 109 109 PSFGLVLNSPNGLRSPQAKARINNLASALSTAVGRNGVDVNAFTSGLRATLSNLGDSGMSPNEAKVEVLLEALTAALQLLSSSTLGAVDTTSIGLTSNSVSKAVAQALA PSFGLVLNSPNGLRSPQAKARINNLASALSTAVGRNGVDVNAFTSGLRATLSNLGDSGMSPNEAKVEVLLEALTAALQLLSSSTLGAVDTTSIGLTSNSVSKAVAQALA 2mad-a1-m1-cH_2mad-a1-m2-cH THE ACTIVE SITE STRUCTURE OF METHYLAMINE DEHYDROGENASE: HYDRAZINES IDENTIFY C6 AS THE REACTIVE SITE OF THE TRYPTOPHAN DERIVED QUINONE COFACTOR P23006 P23006 2.25 X-RAY DIFFRACTION 19 1.0 34007 (Paracoccus versutus) 34007 (Paracoccus versutus) 373 373 1mae-a1-m1-cH_1mae-a1-m2-cH 1maf-a1-m1-cH_1maf-a1-m2-cH SSASAAAAAAAAALAAGAADGPTNDEAPGADGRRSYINLPAHHSAIIQQWVLDAGSGSILGHVNGGFLPNPVAAHSGSEFALASTSFSRIAKGKRTDYVEVFDPVTFLPIADIELPDAPRFDVGPYSWMNANTPNNADLLFFQFAAGPAVGLVVQGGSSDDQLLSSPTCYHIHPGAPSTFYLLCAQGGLAKTDHAGGAAGAGLVGAMLTAAQNLLTQPAQANKSGRIVWPVYSGKILQADISAAGATNKAPIDALSGGRKADTWRPGGWQQVAYLKSSDGIYLLTSEQSAWKLHAAAKEVTSVTGLVGQTSSQISLGHDVDAISVAQDGGPDLYALSAGTEVLHIYDAGAGDQDQSTVELGSGPQVLSVMNEA SSASAAAAAAAAALAAGAADGPTNDEAPGADGRRSYINLPAHHSAIIQQWVLDAGSGSILGHVNGGFLPNPVAAHSGSEFALASTSFSRIAKGKRTDYVEVFDPVTFLPIADIELPDAPRFDVGPYSWMNANTPNNADLLFFQFAAGPAVGLVVQGGSSDDQLLSSPTCYHIHPGAPSTFYLLCAQGGLAKTDHAGGAAGAGLVGAMLTAAQNLLTQPAQANKSGRIVWPVYSGKILQADISAAGATNKAPIDALSGGRKADTWRPGGWQQVAYLKSSDGIYLLTSEQSAWKLHAAAKEVTSVTGLVGQTSSQISLGHDVDAISVAQDGGPDLYALSAGTEVLHIYDAGAGDQDQSTVELGSGPQVLSVMNEA 2maj-a1-m1-cA_2maj-a1-m1-cC Solution Structure of the STIM1 CC1-CC2 homodimer. Q13586 Q13586 NOT SOLUTION NMR 198 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 GSHMASSRQKYAEEELEQVREALRKAEKELESHSSWYAPEALQKWLQLTHEVEVQYYNIKKQNAEKQLLVAKEGAEKIKKKR GSHMASSRQKYAEEELEQVREALRKAEKELESHSSWYAPEALQKWLQLTHEVEVQYYNIKKQNAEKQLLVAKEGAEKIKKKR 2mak-a1-m1-cA_2mak-a1-m1-cC Solution structure of the STIM1 CC1-CC2 homodimer in complex with two Orai1 C-terminal domains. Q13586 Q13586 NOT SOLUTION NMR 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 GSHMASSRQKYAEEELEQVREALRKAEKELESHSSWYAPEALQKWLQLTHEVEVQYYNIKKQNAEKQLLVAKEGAEKIKKKR GSHMASSRQKYAEEELEQVREALRKAEKELESHSSWYAPEALQKWLQLTHEVEVQYYNIKKQNAEKQLLVAKEGAEKIKKKR 2mas-a1-m1-cA_2mas-a1-m1-cD PURINE NUCLEOSIDE HYDROLASE WITH A TRANSITION STATE INHIBITOR Q27546 Q27546 2.3 X-RAY DIFFRACTION 60 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 313 313 1mas-a1-m1-cB_1mas-a1-m1-cA 1mas-a1-m2-cB_1mas-a1-m2-cA 2mas-a1-m1-cB_2mas-a1-m1-cC AKKIILDCDPGLDDAVAILLAHGNPEIELLAITTVVGNQTLAKVTRNAQLVADIAGITGVPIAAGCDKPLVRKIMTAGHIHGESGMGTVAYPAEFKNKVDERHAVNLIIDLVMSHEPKTITLVPTGGLTNIAMAARLEPRIVDRVKEVVLMGGGYHEGNATSVAEFNIIIDPEAAHIVFNESWQVTMVGLDLTHQALATPPILQRVKEVDTNPARFMLEIMDYYTKIYQSNRYMAAAAVHDPCAVAYVIDPSVMTTERVPVDIELTGKLTLGMTVADFRNPRPEHCHTQVAVKLDFEKFWGLVLDALERIGDP AKKIILDCDPGLDDAVAILLAHGNPEIELLAITTVVGNQTLAKVTRNAQLVADIAGITGVPIAAGCDKPLVRKIMTAGHIHGESGMGTVAYPAEFKNKVDERHAVNLIIDLVMSHEPKTITLVPTGGLTNIAMAARLEPRIVDRVKEVVLMGGGYHEGNATSVAEFNIIIDPEAAHIVFNESWQVTMVGLDLTHQALATPPILQRVKEVDTNPARFMLEIMDYYTKIYQSNRYMAAAAVHDPCAVAYVIDPSVMTTERVPVDIELTGKLTLGMTVADFRNPRPEHCHTQVAVKLDFEKFWGLVLDALERIGDP 2mda-a1-m1-cA_2mda-a1-m1-cB The Solution Structure of the Regulatory Domain of Tyrosine Hydroxylase P04177 P04177 NOT SOLUTION NMR 52 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 95 95 PGNPLEAVVFEERDGNAVLNLLFSLRGTKPSSLSRAVKVFETFEAKIHHLETRPAQRPLAGSPHLEYFVRFEVPSGDLAALLSSVRRVSDDVRSA PGNPLEAVVFEERDGNAVLNLLFSLRGTKPSSLSRAVKVFETFEAKIHHLETRPAQRPLAGSPHLEYFVRFEVPSGDLAALLSSVRRVSDDVRSA 2mdv-a1-m1-cA_2mdv-a1-m1-cB NMR structure of beta alpha alpha 38 NOT SOLUTION NMR 91 1.0 32630 (synthetic construct) 32630 (synthetic construct) 38 38 RWLCIWLSDQTLEDLEKMARREGLSKSEMINVALQHYK RWLCIWLSDQTLEDLEKMARREGLSKSEMINVALQHYK 2mdw-a1-m1-cA_2mdw-a1-m1-cB NMR structure of a strand-swapped dimer of the WW domain NOT SOLUTION NMR 76 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 KLPPGWEKRCFYFNRITGKRQFERPSD KLPPGWEKRCFYFNRITGKRQFERPSD 2met-a1-m1-cA_2met-a1-m1-cB NMR spatial structure of the trimeric mutant TM domain of VEGFR2 receptor. P35968 P35968 NOT SOLUTION NMR 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 2met-a1-m1-cA_2met-a1-m1-cC 2met-a1-m1-cB_2met-a1-m1-cC EKTNLEIIILEGTAVIAMFFWLLLVIILRTVKRANGG EKTNLEIIILEGTAVIAMFFWLLLVIILRTVKRANGG 2meu-a1-m1-cA_2meu-a1-m1-cB NMR spatial structure of mutant dimeric TM domain of VEGFR2 receptor P35968 P35968 NOT SOLUTION NMR 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 EKTNLEIIILVETAVIAMEFWLLLVIILRTVKRANGG EKTNLEIIILVETAVIAMEFWLLLVIILRTVKRANGG 2mf0-a1-m1-cA_2mf0-a1-m1-cB Structural basis of the non-coding RNA RsmZ acting as protein sponge: Conformer L of RsmZ(1-72)/RsmE(dimer) 1to3 complex P0DPC3 P0DPC3 NOT SOLUTION NMR 139 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 59 59 2jpp-a1-m1-cA_2jpp-a1-m1-cB 2mf0-a1-m1-cC_2mf0-a1-m1-cD 2mf0-a1-m1-cE_2mf0-a1-m1-cF 2mf1-a1-m1-cA_2mf1-a1-m1-cB 2mf1-a1-m1-cC_2mf1-a1-m1-cD 2mf1-a1-m1-cE_2mf1-a1-m1-cF 2mfc-a1-m1-cA_2mfc-a1-m1-cC 2mfe-a1-m1-cA_2mfe-a1-m1-cC 2mff-a1-m1-cA_2mff-a1-m1-cC 2mfg-a1-m1-cA_2mfg-a1-m1-cC 2mfh-a1-m1-cA_2mfh-a1-m1-cC MLILTRKVGESINIGDDITITILGVSGQQVRIGINAPKDVAVHREEIYQRIQAGLTAPD MLILTRKVGESINIGDDITITILGVSGQQVRIGINAPKDVAVHREEIYQRIQAGLTAPD 2mfz-a1-m1-cA_2mfz-a1-m1-cB NMR structure of C-terminal domain from A. ventricosus minor ampullate spidroin (MiSp) K4MTL7 K4MTL7 NOT SOLUTION NMR 268 1.0 182803 (Araneus ventricosus) 182803 (Araneus ventricosus) 125 125 GSGNSVTSGGYGYGTSAAAGAGVAAGSYAGAVNRLSSAEAASRVSSNIAAIASGGASALPSVISNIYSGVVASGVSSNEALIQALLELLSALVHVLSSASIGNVSSVGVDSTLNVVQDSVGQYVG GSGNSVTSGGYGYGTSAAAGAGVAAGSYAGAVNRLSSAEAASRVSSNIAAIASGGASALPSVISNIYSGVVASGVSSNEALIQALLELLSALVHVLSSASIGNVSSVGVDSTLNVVQDSVGQYVG 2mg4-a1-m1-cA_2mg4-a1-m1-cB Computational design and experimental verification of a symmetric protein homodimer NOT SOLUTION NMR 45 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 66 66 MEKRPRTEFSEEQKKALDLAFYFDRRLTPEWRRYLSQRLGLNEEQIERWFRRKEQQIGWSHPQFEK MEKRPRTEFSEEQKKALDLAFYFDRRLTPEWRRYLSQRLGLNEEQIERWFRRKEQQIGWSHPQFEK 2mgs-a1-m1-cA_2mgs-a1-m1-cB Solution structure of CXCL5 P42830 P42830 NOT SOLUTION NMR 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 LRELRCVCLQTTQGVHPKMISNLQVFAIGPQCSKVEVVASLKNGKEICLDPEAPFLKKVIQKILDGGNKEN LRELRCVCLQTTQGVHPKMISNLQVFAIGPQCSKVEVVASLKNGKEICLDPEAPFLKKVIQKILDGGNKEN 2mh3-a1-m1-cA_2mh3-a1-m1-cB NMR structure of the basic helix-loop-helix region of the transcriptional repressor HES-1 Q14469 Q14469 NOT SOLUTION NMR 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 70 MKPKTASEHRKSSKPIMEKRRRARINESLSQLKTLILDALKKDSSRHSKLEKADILEMTVKHLRNLQRAQ MKPKTASEHRKSSKPIMEKRRRARINESLSQLKTLILDALKKDSSRHSKLEKADILEMTVKHLRNLQRAQ 2mhe-a1-m1-cA_2mhe-a1-m1-cB NMR structure of the protein NP_419126.1 from Caulobacter crescentus Q9ABC3 Q9ABC3 NOT SOLUTION NMR 104 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 74 74 MPDKQLLHIVVGGELKDVAGVEFRDLSKVEFVGAYPSYDEAHKAWKAKAQATVDNAHARYFIIHAHKLLDPSEG MPDKQLLHIVVGGELKDVAGVEFRDLSKVEFVGAYPSYDEAHKAWKAKAQATVDNAHARYFIIHAHKLLDPSEG 2mhg-a1-m1-cA_2mhg-a1-m1-cB NMR structure of protein NP_254181.1 from Pseudomonas aeruginosa PA01 Q9HT79 Q9HT79 NOT SOLUTION NMR 74 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 75 75 GADDDAPSGEPDVTIRQEGDKTIQEYRVNGFLYAIKVVPKHGKPYFLVRADGSDGNFIRSDQPDKLIPQWEIFSW GADDDAPSGEPDVTIRQEGDKTIQEYRVNGFLYAIKVVPKHGKPYFLVRADGSDGNFIRSDQPDKLIPQWEIFSW 2mic-a1-m1-cA_2mic-a1-m1-cB NMR structure of p75 transmembrane domain in DPC micelles P07174 P07174 NOT SOLUTION NMR 35 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 41 41 MTRGTTDNLIPVYCSILAAVVVGLVAYIAFKRWNSSKQNKQ MTRGTTDNLIPVYCSILAAVVVGLVAYIAFKRWNSSKQNKQ 2mip-a1-m1-cE_2mip-a1-m1-cG CRYSTAL STRUCTURE OF HUMAN IMMUNODEFICIENCY VIRUS (HIV) TYPE 2 PROTEASE IN COMPLEX WITH A REDUCED AMIDE INHIBITOR AND COMPARISON WITH HIV-1 PROTEASE STRUCTURES 2.2 X-RAY DIFFRACTION 24 1.0 6 6 FVFLEI FVFLEI 2mip-a2-m1-cF_2mip-a2-m1-cH CRYSTAL STRUCTURE OF HUMAN IMMUNODEFICIENCY VIRUS (HIV) TYPE 2 PROTEASE IN COMPLEX WITH A REDUCED AMIDE INHIBITOR AND COMPARISON WITH HIV-1 PROTEASE STRUCTURES 2.2 X-RAY DIFFRACTION 24 1.0 6 6 FVFLEI FVFLEI 2mit-a1-m1-cA_2mit-a1-m1-cB Solution structure of oxidized dimeric form of human defensin 5 Q01523 Q01523 NOT SOLUTION NMR 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 ATCYCRTGRCATRESLSGVCEISGRLYRLCCR ATCYCRTGRCATRESLSGVCEISGRLYRLCCR 2mjg-a1-m1-cA_2mjg-a1-m1-cB Solution Structure of C-terminal AbrB P08874 P08874 NOT SOLUTION NMR 145 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 46 46 MNCMTCQVTGEVSDDNLKLAGGKLVLSKEGAEQIISEIQNQLQNLK MNCMTCQVTGEVSDDNLKLAGGKLVLSKEGAEQIISEIQNQLQNLK 2mjo-a1-m1-cA_2mjo-a1-m1-cB NMR structure of p75 transmembrane domain C257A mutant in DPC micelles P07174 P07174 NOT SOLUTION NMR 30 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 41 41 MTRGTTDNLIPVYASILAAVVVGLVAYIAFKRWNSSKQNKQ MTRGTTDNLIPVYASILAAVVVGLVAYIAFKRWNSSKQNKQ 2mjp-a1-m1-cA_2mjp-a1-m1-cB STRUCTURE-BASED IDENTIFICATION OF THE BIOCHEMICAL FUNCTION OF A HYPOTHETICAL PROTEIN FROM METHANOCOCCUS JANNASCHII:MJ0226 Q57679 Q57679 2.2 X-RAY DIFFRACTION 52 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 184 184 1b78-a1-m1-cA_1b78-a1-m1-cB KIYFATGNPNKIKEANIILKDLKDVEIEQIKISYPEIQGTLEEVAEFGAKWVYNILKKPVIVEDSGFFVEALNGFPGTYSKFVQETIGNEGILKLLEGKDNRNAYFKTVIGYCDENGVRLFKGIVKGRVSEEIRSKGYGFAYDSIFIPEEEERTFAEMTTEEKSQISHRKKAFEEFKKFLLDRI KIYFATGNPNKIKEANIILKDLKDVEIEQIKISYPEIQGTLEEVAEFGAKWVYNILKKPVIVEDSGFFVEALNGFPGTYSKFVQETIGNEGILKLLEGKDNRNAYFKTVIGYCDENGVRLFKGIVKGRVSEEIRSKGYGFAYDSIFIPEEEERTFAEMTTEEKSQISHRKKAFEEFKKFLLDRI 2mk9-a1-m1-cA_2mk9-a1-m1-cB Spatial structure of the dimeric transmembrane domain of Toll-like receptor 3 O15455 O15455 NOT SOLUTION NMR 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 MDSAPFELFFMINTSILLIFIFIVLLIHFEGWRI MDSAPFELFFMINTSILLIFIFIVLLIHFEGWRI 2mka-a1-m1-cA_2mka-a1-m1-cB Spatial structure of the Toll-like receptor 3 transmembrane domain in the trimeric state O15455 O15455 NOT SOLUTION NMR 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 MDSAPFELFFMINTSILLIFIFIVLLIHFEGWRI MDSAPFELFFMINTSILLIFIFIVLLIHFEGWRI 2mka-a1-m1-cA_2mka-a1-m1-cC Spatial structure of the Toll-like receptor 3 transmembrane domain in the trimeric state O15455 O15455 NOT SOLUTION NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 MDSAPFELFFMINTSILLIFIFIVLLIHFEGWRI MDSAPFELFFMINTSILLIFIFIVLLIHFEGWRI 2mme-a1-m1-cR_2mme-a1-m1-cc Hybrid structure of the Shigella flexneri MxiH Type three secretion system needle Q6XVY0 Q6XVY0 7.7 SOLID-STATE NMR, ELECTRON MICROSCOPY 33 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 83 83 2mme-a1-m1-cA_2mme-a1-m1-cL 2mme-a1-m1-cB_2mme-a1-m1-cM 2mme-a1-m1-cC_2mme-a1-m1-cN 2mme-a1-m1-cD_2mme-a1-m1-cO 2mme-a1-m1-cE_2mme-a1-m1-cP 2mme-a1-m1-cF_2mme-a1-m1-cQ 2mme-a1-m1-cG_2mme-a1-m1-cR 2mme-a1-m1-cH_2mme-a1-m1-cS 2mme-a1-m1-cI_2mme-a1-m1-cT 2mme-a1-m1-cJ_2mme-a1-m1-cU 2mme-a1-m1-cK_2mme-a1-m1-cV 2mme-a1-m1-cL_2mme-a1-m1-cW 2mme-a1-m1-cM_2mme-a1-m1-cX 2mme-a1-m1-cN_2mme-a1-m1-cY 2mme-a1-m1-cO_2mme-a1-m1-cZ 2mme-a1-m1-cP_2mme-a1-m1-ca 2mme-a1-m1-cQ_2mme-a1-m1-cb 6zni-a1-m1-cA_6zni-a1-m1-cL 6zni-a1-m1-cA_6zni-a1-m1-cW 6zni-a1-m1-cB_6zni-a1-m1-cV 6zni-a1-m1-cC_6zni-a1-m1-cU 6zni-a1-m1-cD_6zni-a1-m1-cT 6zni-a1-m1-cE_6zni-a1-m1-cS 6zni-a1-m1-cF_6zni-a1-m1-cR 6zni-a1-m1-cG_6zni-a1-m1-cQ 6zni-a1-m1-cH_6zni-a1-m1-cP 6zni-a1-m1-cI_6zni-a1-m1-cO 6zni-a1-m1-cJ_6zni-a1-m1-cN 6zni-a1-m1-cK_6zni-a1-m1-cM 8axk-a1-m1-ca_8axk-a1-m1-cw 8axk-a1-m1-cb_8axk-a1-m1-cv 8axk-a1-m1-ce_8axk-a1-m1-cs 8axk-a1-m1-cf_8axk-a1-m1-cr 8axk-a1-m1-cg_8axk-a1-m1-cq 8axk-a1-m1-ch_8axk-a1-m1-cp 8axk-a1-m1-ci_8axk-a1-m1-co 8axk-a1-m1-cj_8axk-a1-m1-cn 8axk-a1-m1-ck_8axk-a1-m1-cm 8axk-a1-m1-cl_8axk-a1-m1-ca 8axk-a1-m1-cS_8axk-a1-m1-cf 8axk-a1-m1-ct_8axk-a1-m1-cd 8axk-a1-m1-cT_8axk-a1-m1-ce 8axk-a1-m1-cu_8axk-a1-m1-cc 8axk-a1-m1-cU_8axk-a1-m1-cd 8axk-a1-m1-cV_8axk-a1-m1-cc 8axk-a1-m1-cW_8axk-a1-m1-cb MSVTVPDKDWTLSSLSETFDDGTQTLQGQLTSALNALAENPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR MSVTVPDKDWTLSSLSETFDDGTQTLQGQLTSALNALAENPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 2mme-a1-m1-cW_2mme-a1-m1-cc Hybrid structure of the Shigella flexneri MxiH Type three secretion system needle Q6XVY0 Q6XVY0 7.7 SOLID-STATE NMR, ELECTRON MICROSCOPY 25 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 83 83 2mme-a1-m1-cA_2mme-a1-m1-cG 2mme-a1-m1-cB_2mme-a1-m1-cH 2mme-a1-m1-cC_2mme-a1-m1-cI 2mme-a1-m1-cD_2mme-a1-m1-cJ 2mme-a1-m1-cE_2mme-a1-m1-cK 2mme-a1-m1-cF_2mme-a1-m1-cL 2mme-a1-m1-cG_2mme-a1-m1-cM 2mme-a1-m1-cH_2mme-a1-m1-cN 2mme-a1-m1-cI_2mme-a1-m1-cO 2mme-a1-m1-cJ_2mme-a1-m1-cP 2mme-a1-m1-cK_2mme-a1-m1-cQ 2mme-a1-m1-cL_2mme-a1-m1-cR 2mme-a1-m1-cM_2mme-a1-m1-cS 2mme-a1-m1-cN_2mme-a1-m1-cT 2mme-a1-m1-cO_2mme-a1-m1-cU 2mme-a1-m1-cP_2mme-a1-m1-cV 2mme-a1-m1-cQ_2mme-a1-m1-cW 2mme-a1-m1-cR_2mme-a1-m1-cX 2mme-a1-m1-cS_2mme-a1-m1-cY 2mme-a1-m1-cT_2mme-a1-m1-cZ 2mme-a1-m1-cU_2mme-a1-m1-ca 2mme-a1-m1-cV_2mme-a1-m1-cb 6rwy-a1-m1-cL_6rwy-a1-m1-cR 6rwy-a1-m1-cM_6rwy-a1-m1-cS 6rwy-a1-m1-cN_6rwy-a1-m1-cT 6rwy-a1-m1-cO_6rwy-a1-m1-cU 6rwy-a1-m1-cP_6rwy-a1-m1-cV 6zni-a1-m1-cA_6zni-a1-m1-cG 6zni-a1-m1-cA_6zni-a1-m1-cR 6zni-a1-m1-cB_6zni-a1-m1-cH 6zni-a1-m1-cB_6zni-a1-m1-cQ 6zni-a1-m1-cC_6zni-a1-m1-cI 6zni-a1-m1-cC_6zni-a1-m1-cP 6zni-a1-m1-cD_6zni-a1-m1-cJ 6zni-a1-m1-cD_6zni-a1-m1-cO 6zni-a1-m1-cE_6zni-a1-m1-cK 6zni-a1-m1-cE_6zni-a1-m1-cN 6zni-a1-m1-cF_6zni-a1-m1-cL 6zni-a1-m1-cF_6zni-a1-m1-cM 6zni-a1-m1-cM_6zni-a1-m1-cS 6zni-a1-m1-cN_6zni-a1-m1-cT 6zni-a1-m1-cO_6zni-a1-m1-cU 6zni-a1-m1-cP_6zni-a1-m1-cV 6zni-a1-m1-cQ_6zni-a1-m1-cW 8axk-a1-m1-ca_8axk-a1-m1-cr 8axk-a1-m1-cb_8axk-a1-m1-cq 8axk-a1-m1-cc_8axk-a1-m1-cp 8axk-a1-m1-ce_8axk-a1-m1-cn 8axk-a1-m1-cf_8axk-a1-m1-cm 8axk-a1-m1-cg_8axk-a1-m1-ca 8axk-a1-m1-ch_8axk-a1-m1-cb 8axk-a1-m1-ci_8axk-a1-m1-cc 8axk-a1-m1-cj_8axk-a1-m1-cd 8axk-a1-m1-ck_8axk-a1-m1-ce 8axk-a1-m1-cl_8axk-a1-m1-cf 8axk-a1-m1-co_8axk-a1-m1-cd 8axk-a1-m1-co_8axk-a1-m1-cu 8axk-a1-m1-cp_8axk-a1-m1-cv 8axk-a1-m1-cq_8axk-a1-m1-cw 8axk-a1-m1-cS_8axk-a1-m1-ck 8axk-a1-m1-cs_8axk-a1-m1-cm 8axk-a1-m1-cT_8axk-a1-m1-cj 8axk-a1-m1-ct_8axk-a1-m1-cn 8axk-a1-m1-cU_8axk-a1-m1-ci 8axk-a1-m1-cV_8axk-a1-m1-ch 8axk-a1-m1-cW_8axk-a1-m1-cg MSVTVPDKDWTLSSLSETFDDGTQTLQGQLTSALNALAENPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR MSVTVPDKDWTLSSLSETFDDGTQTLQGQLTSALNALAENPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 2mme-a1-m1-cX_2mme-a1-m1-cc Hybrid structure of the Shigella flexneri MxiH Type three secretion system needle Q6XVY0 Q6XVY0 7.7 SOLID-STATE NMR, ELECTRON MICROSCOPY 56 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 83 83 2mme-a1-m1-cA_2mme-a1-m1-cF 2mme-a1-m1-cB_2mme-a1-m1-cG 2mme-a1-m1-cC_2mme-a1-m1-cH 2mme-a1-m1-cD_2mme-a1-m1-cI 2mme-a1-m1-cE_2mme-a1-m1-cJ 2mme-a1-m1-cF_2mme-a1-m1-cK 2mme-a1-m1-cG_2mme-a1-m1-cL 2mme-a1-m1-cH_2mme-a1-m1-cM 2mme-a1-m1-cI_2mme-a1-m1-cN 2mme-a1-m1-cJ_2mme-a1-m1-cO 2mme-a1-m1-cK_2mme-a1-m1-cP 2mme-a1-m1-cL_2mme-a1-m1-cQ 2mme-a1-m1-cM_2mme-a1-m1-cR 2mme-a1-m1-cN_2mme-a1-m1-cS 2mme-a1-m1-cO_2mme-a1-m1-cT 2mme-a1-m1-cP_2mme-a1-m1-cU 2mme-a1-m1-cQ_2mme-a1-m1-cV 2mme-a1-m1-cR_2mme-a1-m1-cW 2mme-a1-m1-cS_2mme-a1-m1-cX 2mme-a1-m1-cT_2mme-a1-m1-cY 2mme-a1-m1-cU_2mme-a1-m1-cZ 2mme-a1-m1-cV_2mme-a1-m1-ca 2mme-a1-m1-cW_2mme-a1-m1-cb 6rwy-a1-m1-cL_6rwy-a1-m1-cQ 6rwy-a1-m1-cM_6rwy-a1-m1-cR 6rwy-a1-m1-cN_6rwy-a1-m1-cS 6rwy-a1-m1-cO_6rwy-a1-m1-cT 6rwy-a1-m1-cP_6rwy-a1-m1-cU 6rwy-a1-m1-cQ_6rwy-a1-m1-cV 6zni-a1-m1-cA_6zni-a1-m1-cF 6zni-a1-m1-cA_6zni-a1-m1-cQ 6zni-a1-m1-cB_6zni-a1-m1-cG 6zni-a1-m1-cB_6zni-a1-m1-cP 6zni-a1-m1-cC_6zni-a1-m1-cH 6zni-a1-m1-cC_6zni-a1-m1-cO 6zni-a1-m1-cD_6zni-a1-m1-cI 6zni-a1-m1-cD_6zni-a1-m1-cN 6zni-a1-m1-cE_6zni-a1-m1-cJ 6zni-a1-m1-cE_6zni-a1-m1-cM 6zni-a1-m1-cF_6zni-a1-m1-cK 6zni-a1-m1-cG_6zni-a1-m1-cL 6zni-a1-m1-cM_6zni-a1-m1-cR 6zni-a1-m1-cN_6zni-a1-m1-cS 6zni-a1-m1-cO_6zni-a1-m1-cT 6zni-a1-m1-cP_6zni-a1-m1-cU 6zni-a1-m1-cQ_6zni-a1-m1-cV 6zni-a1-m1-cR_6zni-a1-m1-cW 8axk-a1-m1-ca_8axk-a1-m1-cq 8axk-a1-m1-cb_8axk-a1-m1-cp 8axk-a1-m1-cd_8axk-a1-m1-cn 8axk-a1-m1-ce_8axk-a1-m1-cm 8axk-a1-m1-cf_8axk-a1-m1-ca 8axk-a1-m1-cg_8axk-a1-m1-cb 8axk-a1-m1-cg_8axk-a1-m1-cl 8axk-a1-m1-ch_8axk-a1-m1-cc 8axk-a1-m1-ci_8axk-a1-m1-cd 8axk-a1-m1-cj_8axk-a1-m1-ce 8axk-a1-m1-ck_8axk-a1-m1-cf 8axk-a1-m1-cm_8axk-a1-m1-cr 8axk-a1-m1-co_8axk-a1-m1-cc 8axk-a1-m1-cq_8axk-a1-m1-cv 8axk-a1-m1-cr_8axk-a1-m1-cw 8axk-a1-m1-cS_8axk-a1-m1-cl 8axk-a1-m1-cs_8axk-a1-m1-cn 8axk-a1-m1-cT_8axk-a1-m1-ck 8axk-a1-m1-ct_8axk-a1-m1-co 8axk-a1-m1-cU_8axk-a1-m1-cj 8axk-a1-m1-cu_8axk-a1-m1-cp 8axk-a1-m1-cV_8axk-a1-m1-ci 8axk-a1-m1-cW_8axk-a1-m1-ch MSVTVPDKDWTLSSLSETFDDGTQTLQGQLTSALNALAENPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR MSVTVPDKDWTLSSLSETFDDGTQTLQGQLTSALNALAENPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 2mmv-a1-m1-cA_2mmv-a1-m1-cB ZapA mutant dimer from Geobacillus stearothermophilus A0A078N0N2 A0A078N0N2 NOT SOLUTION NMR 127 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 86 86 GSHMTEQPKTRVSVRIYGQDYTIVGAESPAHIRLVAAFVDDKMHEFSEKQPMLDVPKLAVLTAVQIASEYLKLKEEYQRLREQLKK GSHMTEQPKTRVSVRIYGQDYTIVGAESPAHIRLVAAFVDDKMHEFSEKQPMLDVPKLAVLTAVQIASEYLKLKEEYQRLREQLKK 2mn6-a1-m1-cA_2mn6-a1-m1-cB Solution structure of dimeric TatA of twin-arginine translocation system from E. coli P69428 P69428 NOT SOLUTION NMR 85 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 47 47 MGGISIWQLLIIAVIVVLLFGTKKLGSIGSDLGASIKGFKKAMSDDE MGGISIWQLLIIAVIVVLLFGTKKLGSIGSDLGASIKGFKKAMSDDE 2mom-a1-m1-cA_2mom-a1-m1-cB Structural insights of TM domain of LAMP-2A in DPC micelles P13473 P13473 NOT SOLUTION NMR 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 42 SADDDNFLVPIAVGAALAGVLILVLLAYFIGLKHHHAGYEQF SADDDNFLVPIAVGAALAGVLILVLLAYFIGLKHHHAGYEQF 2mom-a1-m1-cA_2mom-a1-m1-cC Structural insights of TM domain of LAMP-2A in DPC micelles P13473 P13473 NOT SOLUTION NMR 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 42 SADDDNFLVPIAVGAALAGVLILVLLAYFIGLKHHHAGYEQF SADDDNFLVPIAVGAALAGVLILVLLAYFIGLKHHHAGYEQF 2mom-a1-m1-cB_2mom-a1-m1-cC Structural insights of TM domain of LAMP-2A in DPC micelles P13473 P13473 NOT SOLUTION NMR 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 42 SADDDNFLVPIAVGAALAGVLILVLLAYFIGLKHHHAGYEQF SADDDNFLVPIAVGAALAGVLILVLLAYFIGLKHHHAGYEQF 2mpn-a1-m1-cA_2mpn-a1-m1-cB 3D NMR structure of the transmembrane domain of the full-length inner membrane protein YgaP from Escherichia coli P55734 P55734 NOT SOLUTION NMR 87 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 68 68 KSQPLPLMRQVQIAAGGLILIGVVLGYTVNSGFFLLSGFVGAGLLFAGISGFSGMARLLDKMPWNQRA KSQPLPLMRQVQIAAGGLILIGVVLGYTVNSGFFLLSGFVGAGLLFAGISGFSGMARLLDKMPWNQRA 2mpr-a1-m1-cB_2mpr-a1-m1-cC MALTOPORIN FROM SALMONELLA TYPHIMURIUM P26466 P26466 2.4 X-RAY DIFFRACTION 141 1.0 421 421 1mpr-a1-m1-cA_1mpr-a1-m1-cB 1mpr-a1-m1-cA_1mpr-a1-m1-cC 1mpr-a1-m1-cB_1mpr-a1-m1-cC 2mpr-a1-m1-cA_2mpr-a1-m1-cB 2mpr-a1-m1-cA_2mpr-a1-m1-cC VDFHGYARSGIGWTGSGGEQQCFQATGAQSKYRLGNECETYAELKLGQEVWKEGDKSFYFDTNVAYSVNQQNDWESTDPAFREANVQGKNLIEWLPGSTIWAGKRFYQRHDVHMIDFYYWDISGPGAGIENIDLGFGKLSLAATRSTEAGGSYTFSSQNIYDEVKDTANDVFDVRLAGLQTNPDGVLELGVDYGRANTTDGYKLADGASKDGWMFTAEHTQSMLKGYNKFVVQYATDAMTTQGKGQARGSDGSSSFTEKINYANKVINNNGNMWRILDHGAISLGDKWDLMYVGMYQNIDWDNNLGTEWWTVGVRPMYKWTPIMSTLLEVGYDNVKSQQTGDRNNQYKITLAQQWQAGDSIWSRPAIRIFATYAKWDEKWGYIKDGDNISRYAAATNSGISTNSRGDSDEWTFGAQMEIWW VDFHGYARSGIGWTGSGGEQQCFQATGAQSKYRLGNECETYAELKLGQEVWKEGDKSFYFDTNVAYSVNQQNDWESTDPAFREANVQGKNLIEWLPGSTIWAGKRFYQRHDVHMIDFYYWDISGPGAGIENIDLGFGKLSLAATRSTEAGGSYTFSSQNIYDEVKDTANDVFDVRLAGLQTNPDGVLELGVDYGRANTTDGYKLADGASKDGWMFTAEHTQSMLKGYNKFVVQYATDAMTTQGKGQARGSDGSSSFTEKINYANKVINNNGNMWRILDHGAISLGDKWDLMYVGMYQNIDWDNNLGTEWWTVGVRPMYKWTPIMSTLLEVGYDNVKSQQTGDRNNQYKITLAQQWQAGDSIWSRPAIRIFATYAKWDEKWGYIKDGDNISRYAAATNSGISTNSRGDSDEWTFGAQMEIWW 2mqs-a1-m1-cD_2mqs-a1-m1-cB Transient Collagen Triple Helix Binding to a Key Metalloproteinase in Invasion and Development: Spin Labels to Structure NOT SOLUTION NMR 70 1.0 26 28 2mqs-a1-m1-cB_2mqs-a1-m1-cC GPGPGPGPQGIAGQRGVVGLGPGPGP GPGPGPGPQGIAGQRGVVGLGPGPGPGP 2mqs-a1-m1-cD_2mqs-a1-m1-cC Transient Collagen Triple Helix Binding to a Key Metalloproteinase in Invasion and Development: Spin Labels to Structure NOT SOLUTION NMR 69 1.0 26 28 GPGPGPGPQGIAGQRGVVGLGPGPGP GPGPGPGPQGIAGQRGVVGLGPGPGPGP 2mrn-a1-m1-cA_2mrn-a1-m1-cB Structure of truncated EcMazE P0AE72 P0AE72 NOT SOLUTION NMR 144 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 67 67 NHKVHHHHHHMSDDDDKGIHSSVKRWGNSPAVRIPATLMQALNLNIDDEVKIDLVDGKLIIEPVRKE NHKVHHHHHHMSDDDDKGIHSSVKRWGNSPAVRIPATLMQALNLNIDDEVKIDLVDGKLIIEPVRKE 2ms0-a1-m1-cA_2ms0-a1-m1-cC Solution NMR structure pf tRNApro:MLV-Nucleocapsid (1:2) Complex P03355 P03355 NOT SOLUTION NMR 22 1.0 11786 (Murine leukemia virus) 11786 (Murine leukemia virus) 55 56 ATVVSGQKQDRQGGERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQTSL ATVVSGQKQDRQGGERRRSQLDRDQCAYCKEKGHWAKDCPKKPRGPRGPRPQTSLL 2ms7-a1-m1-cQ_2ms7-a1-m1-cU High-resolution solid-state NMR structure of the helical signal transduction filament MAVS CARD Q7Z434 Q7Z434 NOT SOLID-STATE NMR 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 2ms7-a1-m1-cA_2ms7-a1-m1-cE 2ms7-a1-m1-cA_2ms7-a1-m1-cO 2ms7-a1-m1-cB_2ms7-a1-m1-cF 2ms7-a1-m1-cB_2ms7-a1-m1-cN 2ms7-a1-m1-cC_2ms7-a1-m1-cG 2ms7-a1-m1-cC_2ms7-a1-m1-cM 2ms7-a1-m1-cD_2ms7-a1-m1-cH 2ms7-a1-m1-cD_2ms7-a1-m1-cL 2ms7-a1-m1-cE_2ms7-a1-m1-cI 2ms7-a1-m1-cF_2ms7-a1-m1-cJ 2ms7-a1-m1-cG_2ms7-a1-m1-cK 2ms7-a1-m1-cL_2ms7-a1-m1-cP 2ms7-a1-m1-cM_2ms7-a1-m1-cQ 2ms7-a1-m1-cN_2ms7-a1-m1-cR 2ms7-a1-m1-cO_2ms7-a1-m1-cS 2ms7-a1-m1-cP_2ms7-a1-m1-cT GSMPFAEDKTYKYICRNFSNFCNVDVVEILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCELVDLADEVASVYQSYQPRTS GSMPFAEDKTYKYICRNFSNFCNVDVVEILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCELVDLADEVASVYQSYQPRTS 2ms7-a1-m1-cT_2ms7-a1-m1-cU High-resolution solid-state NMR structure of the helical signal transduction filament MAVS CARD Q7Z434 Q7Z434 NOT SOLID-STATE NMR 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 2ms7-a1-m1-cA_2ms7-a1-m1-cB 2ms7-a1-m1-cA_2ms7-a1-m1-cL 2ms7-a1-m1-cB_2ms7-a1-m1-cC 2ms7-a1-m1-cC_2ms7-a1-m1-cD 2ms7-a1-m1-cD_2ms7-a1-m1-cE 2ms7-a1-m1-cE_2ms7-a1-m1-cF 2ms7-a1-m1-cF_2ms7-a1-m1-cG 2ms7-a1-m1-cG_2ms7-a1-m1-cH 2ms7-a1-m1-cH_2ms7-a1-m1-cI 2ms7-a1-m1-cI_2ms7-a1-m1-cJ 2ms7-a1-m1-cJ_2ms7-a1-m1-cK 2ms7-a1-m1-cL_2ms7-a1-m1-cM 2ms7-a1-m1-cM_2ms7-a1-m1-cN 2ms7-a1-m1-cN_2ms7-a1-m1-cO 2ms7-a1-m1-cO_2ms7-a1-m1-cP 2ms7-a1-m1-cP_2ms7-a1-m1-cQ 2ms7-a1-m1-cQ_2ms7-a1-m1-cR 2ms7-a1-m1-cR_2ms7-a1-m1-cS 2ms7-a1-m1-cS_2ms7-a1-m1-cT GSMPFAEDKTYKYICRNFSNFCNVDVVEILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCELVDLADEVASVYQSYQPRTS GSMPFAEDKTYKYICRNFSNFCNVDVVEILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCELVDLADEVASVYQSYQPRTS 2msd-a1-m1-cA_2msd-a1-m1-cC NMR data-driven model of GTPase KRas-GNP tethered to a lipid-bilayer nanodisc P02647 P02647 NOT SOLUTION NMR 184 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 2msc-a1-m1-cA_2msc-a1-m1-cC 2mse-a1-m1-cA_2mse-a1-m1-cC 6cc9-a1-m1-cA_6cc9-a1-m1-cC 6cch-a1-m1-cA_6cch-a1-m1-cC 6ccx-a1-m1-cA_6ccx-a1-m1-cC 6pts-a1-m1-cA_6pts-a1-m1-cC 6ptw-a1-m1-cA_6ptw-a1-m1-cC 6w4e-a1-m1-cA_6w4e-a1-m1-cD 6w4f-a1-m1-cA_6w4f-a1-m1-cD 7rsc-a1-m1-cD_7rsc-a1-m1-cE 7rse-a1-m1-cD_7rse-a1-m1-cE LKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLN LKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLN 2msp-a2-m1-cF_2msp-a2-m1-cG MAJOR SPERM PROTEIN, BETA ISOFORM, ENGINEERED C59S/T90C MUTANT, PUTATIVE SUBFILAMENT STRUCTURE, PH 8.5 P27440 P27440 3.3 X-RAY DIFFRACTION 30 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 124 124 1msp-a1-m1-cA_1msp-a1-m2-cA 2msp-a1-m1-cA_2msp-a1-m1-cB 2msp-a1-m1-cC_2msp-a1-m1-cD SVPPGDINTQPGSKIVFNAPYDDKHTYHIKITNAGGRRIGWAIKTTNMRRLGVDPPSGVLDPSEKVLMAVSCDTFNAATEDLNNDRICIEWTNTPDGAAKQFRREWFQGDGMVRRKNLPIEYNL SVPPGDINTQPGSKIVFNAPYDDKHTYHIKITNAGGRRIGWAIKTTNMRRLGVDPPSGVLDPSEKVLMAVSCDTFNAATEDLNNDRICIEWTNTPDGAAKQFRREWFQGDGMVRRKNLPIEYNL 2msp-a2-m1-cG_2msp-a2-m1-cH MAJOR SPERM PROTEIN, BETA ISOFORM, ENGINEERED C59S/T90C MUTANT, PUTATIVE SUBFILAMENT STRUCTURE, PH 8.5 P27440 P27440 3.3 X-RAY DIFFRACTION 44 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 124 124 1msp-a1-m1-cB_1msp-a1-m1-cA 1msp-a1-m2-cB_1msp-a1-m2-cA 2msp-a1-m1-cB_2msp-a1-m1-cC 2msp-a2-m1-cE_2msp-a2-m1-cF SVPPGDINTQPGSKIVFNAPYDDKHTYHIKITNAGGRRIGWAIKTTNMRRLGVDPPSGVLDPSEKVLMAVSCDTFNAATEDLNNDRICIEWTNTPDGAAKQFRREWFQGDGMVRRKNLPIEYNL SVPPGDINTQPGSKIVFNAPYDDKHTYHIKITNAGGRRIGWAIKTTNMRRLGVDPPSGVLDPSEKVLMAVSCDTFNAATEDLNNDRICIEWTNTPDGAAKQFRREWFQGDGMVRRKNLPIEYNL 2mus-a1-m1-cB_2mus-a1-m1-cC HADDOCK calculated model of LIN5001 bound to the HET-s amyloid Q03689 Q03689 NOT SOLUTION NMR 150 1.0 71 71 2lbu-a1-m1-cA_2lbu-a1-m1-cB 2lbu-a1-m1-cB_2lbu-a1-m1-cC 2lbu-a1-m1-cC_2lbu-a1-m1-cD 2mus-a1-m1-cA_2mus-a1-m1-cB 2mus-a1-m1-cC_2mus-a1-m1-cD 2rnm-a1-m1-cA_2rnm-a1-m1-cB 2rnm-a1-m1-cB_2rnm-a1-m1-cC 2rnm-a1-m1-cC_2rnm-a1-m1-cD RNSAKDIRTEERARVQLGNVVTAAALHGGIRISDQTTNSVKTVVGKGESRVLIGNEYGGKGFWDNHHHHHH RNSAKDIRTEERARVQLGNVVTAAALHGGIRISDQTTNSVKTVVGKGESRVLIGNEYGGKGFWDNHHHHHH 2mus-a1-m1-cD_2mus-a1-m1-cE HADDOCK calculated model of LIN5001 bound to the HET-s amyloid Q03689 Q03689 NOT SOLUTION NMR 138 1.0 71 71 2lbu-a1-m1-cD_2lbu-a1-m1-cE 2rnm-a1-m1-cD_2rnm-a1-m1-cE RNSAKDIRTEERARVQLGNVVTAAALHGGIRISDQTTNSVKTVVGKGESRVLIGNEYGGKGFWDNHHHHHH RNSAKDIRTEERARVQLGNVVTAAALHGGIRISDQTTNSVKTVVGKGESRVLIGNEYGGKGFWDNHHHHHH 2mvw-a1-m1-cA_2mvw-a1-m1-cB Solution structure of the TRIM19 B-box1 (B1) of human promyelocytic leukemia (PML) P29590 P29590 NOT SOLUTION NMR 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 GSRQIVDAQAVCTRCKESADFWCFECEQLLCAKCFEAHQWFLKHEARPLAE GSRQIVDAQAVCTRCKESADFWCFECEQLLCAKCFEAHQWFLKHEARPLAE 2mw4-a1-m1-cA_2mw4-a1-m1-cD Tetramerization domain of the Ciona intestinalis p53/p73-b transcription factor protein F6SSG7 F6SSG7 NOT SOLUTION NMR 20 1.0 7719 (Ciona intestinalis) 7719 (Ciona intestinalis) 47 47 2mw4-a1-m1-cB_2mw4-a1-m1-cC SDGDVVYTLNIRGKRKFEKVKEYKEALDLLDYVQPDVKKACCQRNQI SDGDVVYTLNIRGKRKFEKVKEYKEALDLLDYVQPDVKKACCQRNQI 2mw4-a1-m1-cB_2mw4-a1-m1-cD Tetramerization domain of the Ciona intestinalis p53/p73-b transcription factor protein F6SSG7 F6SSG7 NOT SOLUTION NMR 72 1.0 7719 (Ciona intestinalis) 7719 (Ciona intestinalis) 47 47 2mw4-a1-m1-cA_2mw4-a1-m1-cC SDGDVVYTLNIRGKRKFEKVKEYKEALDLLDYVQPDVKKACCQRNQI SDGDVVYTLNIRGKRKFEKVKEYKEALDLLDYVQPDVKKACCQRNQI 2mw4-a1-m1-cC_2mw4-a1-m1-cD Tetramerization domain of the Ciona intestinalis p53/p73-b transcription factor protein F6SSG7 F6SSG7 NOT SOLUTION NMR 102 1.0 7719 (Ciona intestinalis) 7719 (Ciona intestinalis) 47 47 2mw4-a1-m1-cA_2mw4-a1-m1-cB SDGDVVYTLNIRGKRKFEKVKEYKEALDLLDYVQPDVKKACCQRNQI SDGDVVYTLNIRGKRKFEKVKEYKEALDLLDYVQPDVKKACCQRNQI 2mwg-a1-m1-cA_2mwg-a1-m1-cB Full-Length Solution Structure Of YtvA, a LOV-Photoreceptor Protein and Regulator of Bacterial Stress Response O34627 O34627 NOT SOLUTION NMR 99 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 261 261 GASFQSFGIPGQLEVIKKALDHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITALSTPIVPIRNGISALPLVGNLTEERFNSIVCTLTNILSTSKDDYLIIDLSGLAQVNEQTADQIFKLSHLLKLTGTELIITGIKPELAMKMNKLDANFSSLKTYSNVKDAVKVLPIM GASFQSFGIPGQLEVIKKALDHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITALSTPIVPIRNGISALPLVGNLTEERFNSIVCTLTNILSTSKDDYLIIDLSGLAQVNEQTADQIFKLSHLLKLTGTELIITGIKPELAMKMNKLDANFSSLKTYSNVKDAVKVLPIM 2mx9-a1-m1-cA_2mx9-a1-m1-cB NMR structure of N-terminal domain from A. ventricosus minor ampullate spidroin (MiSp) at pH 5.5 K4MTL7 K4MTL7 NOT SOLUTION NMR 81 1.0 182803 (Araneus ventricosus) 182803 (Araneus ventricosus) 133 133 GSGNSQPIWTNPNAAMTMTNNLVQCASRSGVLTADQMDDMGMMADSVNSQMQKMGPNPPQHRLRAMNTAMAAEVAEVVATSPPQSYSAVLNTIGACLRESMMQATGSVDNAFTNEVMQLVKMLSADSANEVST GSGNSQPIWTNPNAAMTMTNNLVQCASRSGVLTADQMDDMGMMADSVNSQMQKMGPNPPQHRLRAMNTAMAAEVAEVVATSPPQSYSAVLNTIGACLRESMMQATGSVDNAFTNEVMQLVKMLSADSANEVST 2myj-a1-m1-cA_2myj-a1-m1-cB Solution structure of a bacterial chaperone P0AET2 P0AET2 NOT SOLUTION NMR 97 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 79 79 ANESAKDMTCQEFIDLNPKAMTPVAWWMLHEETVYKGGDTVTLNETDLTQIPKVIEYCKKNPQKNLYTFKNQASNDLPN ANESAKDMTCQEFIDLNPKAMTPVAWWMLHEETVYKGGDTVTLNETDLTQIPKVIEYCKKNPQKNLYTFKNQASNDLPN 2mz6-a1-m1-cA_2mz6-a1-m1-cB NMR structure of Protegrin-3 (PG3) in the presence of DPC micelles P32196 P32196 NOT SOLUTION NMR 27 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 18 18 RGGGLCYCRRRFCVCVGR RGGGLCYCRRRFCVCVGR 2mzc-a1-m1-cA_2mzc-a1-m1-cB Metal Binding of Glutaredoxins Q8YJA2 Q8YJA2 NOT SOLUTION NMR 19 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 92 92 GPGSMVDVIIYTRPGCPYCARAKALLARKGAEFNEIDASATPELRAEMQERSGRNTFPQIFIGSVHVGGSDDLYALEDEGKLDSLLKTGKLI GPGSMVDVIIYTRPGCPYCARAKALLARKGAEFNEIDASATPELRAEMQERSGRNTFPQIFIGSVHVGGSDDLYALEDEGKLDSLLKTGKLI 2n0a-a1-m1-cA_2n0a-a1-m1-cB Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 271 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cB_2n0a-a1-m1-cC Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 269 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cC_2n0a-a1-m1-cD Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 276 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cC_2n0a-a1-m1-cE Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cD_2n0a-a1-m1-cE Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 281 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cE_2n0a-a1-m1-cF Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 276 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cE_2n0a-a1-m1-cG Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cF_2n0a-a1-m1-cG Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 280 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cG_2n0a-a1-m1-cH Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 280 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cH_2n0a-a1-m1-cI Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 276 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cH_2n0a-a1-m1-cJ Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0a-a1-m1-cI_2n0a-a1-m1-cJ Atomic-resolution structure of alpha-synuclein fibrils P37840 P37840 NOT SOLID-STATE NMR 281 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKNEEGAPQEGILEDMPVDPDNEAYEMPSEEGYQDYEPEA 2n0k-a1-m1-cA_2n0k-a1-m1-cB Chemical shift assignments and structure of the alpha-crystallin domain from human, HSPB5 P02511 P02511 NOT SOLUTION NMR 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 GLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVDGPRKQV GLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVDGPRKQV 2n1e-a1-m1-cA_2n1e-a1-m1-cE MAX1 peptide fibril NOT SOLID-STATE NMR 23 1.0 19 19 VKVKVKVKVPTKVKVKVKV VKVKVKVKVPTKVKVKVKV 2n1e-a1-m1-cB_2n1e-a1-m1-cF MAX1 peptide fibril NOT SOLID-STATE NMR 29 1.0 19 19 VKVKVKVKVPTKVKVKVKV VKVKVKVKVPTKVKVKVKV 2n1e-a1-m1-cC_2n1e-a1-m1-cG MAX1 peptide fibril NOT SOLID-STATE NMR 29 1.0 19 19 VKVKVKVKVPTKVKVKVKV VKVKVKVKVPTKVKVKVKV 2n1e-a1-m1-cD_2n1e-a1-m1-cH MAX1 peptide fibril NOT SOLID-STATE NMR 22 1.0 19 19 VKVKVKVKVPTKVKVKVKV VKVKVKVKVPTKVKVKVKV 2n1e-a1-m1-cF_2n1e-a1-m1-cG MAX1 peptide fibril NOT SOLID-STATE NMR 26 1.0 19 19 2n1e-a1-m1-cA_2n1e-a1-m1-cB 2n1e-a1-m1-cB_2n1e-a1-m1-cC 2n1e-a1-m1-cC_2n1e-a1-m1-cD 2n1e-a1-m1-cE_2n1e-a1-m1-cF VKVKVKVKVPTKVKVKVKV VKVKVKVKVPTKVKVKVKV 2n1e-a1-m1-cG_2n1e-a1-m1-cH MAX1 peptide fibril NOT SOLID-STATE NMR 25 1.0 19 19 VKVKVKVKVPTKVKVKVKV VKVKVKVKVPTKVKVKVKV 2n1f-a1-m1-cD_2n1f-a1-m1-cE Structure and assembly of the mouse ASC filament by combined NMR spectroscopy and cryo-electron microscopy Q9EPB4 Q9EPB4 4.0 SOLID-STATE NMR, ELECTRON MICROSCOPY 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 2n1f-a1-m1-cB_2n1f-a1-m1-cC GRARDAILDALENLSGDELKKFKMKLLTVQLREGYGRIPRGALLQMDAIDLTDKLVSYYLESYGLELTMTVLRDMGLQELAEQLQTTKE GRARDAILDALENLSGDELKKFKMKLLTVQLREGYGRIPRGALLQMDAIDLTDKLVSYYLESYGLELTMTVLRDMGLQELAEQLQTTKE 2n1f-a1-m1-cH_2n1f-a1-m1-cO Structure and assembly of the mouse ASC filament by combined NMR spectroscopy and cryo-electron microscopy Q9EPB4 Q9EPB4 4.0 SOLID-STATE NMR, ELECTRON MICROSCOPY 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 2n1f-a1-m1-cA_2n1f-a1-m1-cH 2n1f-a1-m1-cB_2n1f-a1-m1-cI 2n1f-a1-m1-cC_2n1f-a1-m1-cJ 2n1f-a1-m1-cC_2n1f-a1-m1-cK 2n1f-a1-m1-cD_2n1f-a1-m1-cL 2n1f-a1-m1-cE_2n1f-a1-m1-cM 2n1f-a1-m1-cF_2n1f-a1-m1-cM 2n1f-a1-m1-cG_2n1f-a1-m1-cN GRARDAILDALENLSGDELKKFKMKLLTVQLREGYGRIPRGALLQMDAIDLTDKLVSYYLESYGLELTMTVLRDMGLQELAEQLQTTKE GRARDAILDALENLSGDELKKFKMKLLTVQLREGYGRIPRGALLQMDAIDLTDKLVSYYLESYGLELTMTVLRDMGLQELAEQLQTTKE 2n1f-a1-m1-cI_2n1f-a1-m1-cO Structure and assembly of the mouse ASC filament by combined NMR spectroscopy and cryo-electron microscopy Q9EPB4 Q9EPB4 4.0 SOLID-STATE NMR, ELECTRON MICROSCOPY 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 89 89 2n1f-a1-m1-cA_2n1f-a1-m1-cG 2n1f-a1-m1-cB_2n1f-a1-m1-cH 2n1f-a1-m1-cB_2n1f-a1-m1-cK 2n1f-a1-m1-cC_2n1f-a1-m1-cI 2n1f-a1-m1-cC_2n1f-a1-m1-cL 2n1f-a1-m1-cD_2n1f-a1-m1-cJ 2n1f-a1-m1-cD_2n1f-a1-m1-cM 2n1f-a1-m1-cE_2n1f-a1-m1-cN 2n1f-a1-m1-cF_2n1f-a1-m1-cL 2n1f-a1-m1-cG_2n1f-a1-m1-cM 2n1f-a1-m1-cH_2n1f-a1-m1-cN GRARDAILDALENLSGDELKKFKMKLLTVQLREGYGRIPRGALLQMDAIDLTDKLVSYYLESYGLELTMTVLRDMGLQELAEQLQTTKE GRARDAILDALENLSGDELKKFKMKLLTVQLREGYGRIPRGALLQMDAIDLTDKLVSYYLESYGLELTMTVLRDMGLQELAEQLQTTKE 2n2a-a1-m1-cA_2n2a-a1-m1-cB Spatial structure of HER2/ErbB2 dimeric transmembrane domain in the presence of cytoplasmic juxtamembrane domains P04626 P04626 NOT SOLUTION NMR 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 58 AEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRKYTMRRLLQETELVEPLG AEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRKYTMRRLLQETELVEPLG 2n2j-a1-m1-cA_2n2j-a1-m1-cB Solution structure of the EBNA-2 N-terminal Dimerization (END) domain from the Epstein-barr virus P12978 P12978 NOT SOLUTION NMR 94 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 62 62 GAMEMPTFYLALHGGQTYHLIVDTDSLGNPSLSVIPSNPYQEQLSDTPLIPLTIFVGENTGV GAMEMPTFYLALHGGQTYHLIVDTDSLGNPSLSVIPSNPYQEQLSDTPLIPLTIFVGENTGV 2n54-a1-m1-cA_2n54-a1-m1-cB Solution structure of a disulfide stabilized XCL1 dimer P47992 P47992 NOT SOLUTION NMR 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 VGSEVSDKRTCVSLTTQRLPVSRIKTYTITEGSLRCVIFITKRGLKVCCDPQATWVRDVVRSMDRK VGSEVSDKRTCVSLTTQRLPVSRIKTYTITEGSLRCVIFITKRGLKVCCDPQATWVRDVVRSMDRK 2n5e-a1-m1-cA_2n5e-a1-m1-cB The 3D solution structure of discoidal high-density lipoprotein particles P02647 P02647 NOT SOLUTION NMR 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 STFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ STFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 2n5g-a1-m1-cA_2n5g-a1-m1-cB NMR structure of KorA, a plasmid-encoded, global transcription regulator KorA P03052 P03052 NOT SOLUTION NMR 68 1.0 562 (Escherichia coli) 562 (Escherichia coli) 101 101 MKKRLTESQFQEAIQGLEVGQQTIEIARGVLVDGKPQATFATSLGLTRGAVSQAVHRVWAAFEDKNLPEGYARVTAVLPEHQAYIVRKWEADAKKKQETKR MKKRLTESQFQEAIQGLEVGQQTIEIARGVLVDGKPQATFATSLGLTRGAVSQAVHRVWAAFEDKNLPEGYARVTAVLPEHQAYIVRKWEADAKKKQETKR 2n64-a1-m1-cB_2n64-a1-m1-cC NMR Structure of the C-terminal Coiled-Coil Domain of CIN85 Q96B97 Q96B97 NOT SOLUTION NMR 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 2n64-a1-m1-cA_2n64-a1-m1-cB 2n64-a1-m1-cA_2n64-a1-m1-cC GHMEGKPKMEPAASSQAAVEELRTQVRELRSIIETMKDQQKREIKQLLSELDEEKKIRLRLQMEVNDIKKALQSK GHMEGKPKMEPAASSQAAVEELRTQVRELRSIIETMKDQQKREIKQLLSELDEEKKIRLRLQMEVNDIKKALQSK 2n65-a1-m1-cA_2n65-a1-m1-cB Disulphide linked homodimer of designed antimicrobial peptide VG16KRKP NOT SOLUTION NMR 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 16 16 VARGWKRKCPLFGKGG VARGWKRKCPLFGKGG 2n70-a1-m1-cA_2n70-a1-m1-cC Two-fold symmetric structure of the 18-60 construct of S31N M2 from Influenza A in lipid bilayers P0DOF5 P0DOF5 NOT SOLID-STATE NMR 28 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 43 43 RSNDSSDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK RSNDSSDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK 2n70-a1-m1-cA_2n70-a1-m1-cD Two-fold symmetric structure of the 18-60 construct of S31N M2 from Influenza A in lipid bilayers P0DOF5 P0DOF5 NOT SOLID-STATE NMR 18 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 43 43 2n70-a1-m1-cB_2n70-a1-m1-cC RSNDSSDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK RSNDSSDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK 2n70-a1-m1-cC_2n70-a1-m1-cD Two-fold symmetric structure of the 18-60 construct of S31N M2 from Influenza A in lipid bilayers P0DOF5 P0DOF5 NOT SOLID-STATE NMR 32 1.0 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 381517 (Influenza A virus (A/Udorn/307/1972(H3N2))) 43 43 2n70-a1-m1-cA_2n70-a1-m1-cB RSNDSSDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK RSNDSSDPLVVAANIIGILHLILWILDRLFFKSIYRFFEHGLK 2n8r-a1-m1-cB_2n8r-a1-m1-cD Productive complex between MMP-12 and synthetic triple-helical collagen, revealed through paramagnetic NMR NOT SOLUTION NMR 71 1.0 28 28 GPGPGPGPGPPGVVGEQGEQGPGPGPGP GPGPGPGPGPPGVVGEQGEQGPGPGPGP 2n8r-a1-m1-cC_2n8r-a1-m1-cD Productive complex between MMP-12 and synthetic triple-helical collagen, revealed through paramagnetic NMR NOT SOLUTION NMR 79 1.0 28 28 2n8r-a1-m1-cB_2n8r-a1-m1-cC GPGPGPGPGPPGVVGEQGEQGPGPGPGP GPGPGPGPGPPGVVGEQGEQGPGPGPGP 2n90-a1-m1-cA_2n90-a1-m1-cB TrkA transmembrane domain NMR structure in DPC micelles P04629 P04629 NOT SOLUTION NMR 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 39 39 MKKDETPFGVSVAVGLAVFACLFLSTLLLVLNKAGRRNK MKKDETPFGVSVAVGLAVFACLFLSTLLLVLNKAGRRNK 2n97-a1-m1-cA_2n97-a1-m1-cB DD homodimer P08138 P08138 NOT SOLUTION NMR 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 GLYSSLPPAKREEVEKLLNGSAGDTWRHLAGELGYQPEHIDSFTHEACPVRALLASWATQDSATLDALLAALRRIQRADLVESLCSESTATSPV GLYSSLPPAKREEVEKLLNGSAGDTWRHLAGELGYQPEHIDSFTHEACPVRALLASWATQDSATLDALLAALRRIQRADLVESLCSESTATSPV 2n9b-a1-m1-cA_2n9b-a1-m1-cB Solution NMR Structure of Antiparallel Myosin-10:GCN4 Tandem Coiled-Coil P03069 P03069 NOT SOLUTION NMR 77 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 69 69 GSHENKQVEEILRLEKEIEDLQRMKERQELSLTEASLQKLQLEDKVEELLSKNYHLENEVARLKKLVGE GSHENKQVEEILRLEKEIEDLQRMKERQELSLTEASLQKLQLEDKVEELLSKNYHLENEVARLKKLVGE 2na6-a1-m1-cA_2na6-a1-m1-cB Transmembrane domain of mouse Fas/CD95 death receptor P25446 P25446 NOT SOLUTION NMR 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 28 28 RNRLWLLTILVLLIPLVFIYRKYRKRKS RNRLWLLTILVLLIPLVFIYRKYRKRKS 2na6-a1-m1-cA_2na6-a1-m1-cC Transmembrane domain of mouse Fas/CD95 death receptor P25446 P25446 NOT SOLUTION NMR 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 28 28 RNRLWLLTILVLLIPLVFIYRKYRKRKS RNRLWLLTILVLLIPLVFIYRKYRKRKS 2na6-a1-m1-cB_2na6-a1-m1-cC Transmembrane domain of mouse Fas/CD95 death receptor P25446 P25446 NOT SOLUTION NMR 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 28 28 RNRLWLLTILVLLIPLVFIYRKYRKRKS RNRLWLLTILVLLIPLVFIYRKYRKRKS 2na7-a1-m1-cA_2na7-a1-m1-cB Transmembrane domain of human Fas/CD95 death receptor P25445 P25445 NOT SOLUTION NMR 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 RSNLGWLSLLLLPIPLIVWVKRKEVQKT RSNLGWLSLLLLPIPLIVWVKRKEVQKT 2na7-a1-m1-cA_2na7-a1-m1-cC Transmembrane domain of human Fas/CD95 death receptor P25445 P25445 NOT SOLUTION NMR 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 RSNLGWLSLLLLPIPLIVWVKRKEVQKT RSNLGWLSLLLLPIPLIVWVKRKEVQKT 2na7-a1-m1-cB_2na7-a1-m1-cC Transmembrane domain of human Fas/CD95 death receptor P25445 P25445 NOT SOLUTION NMR 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 RSNLGWLSLLLLPIPLIVWVKRKEVQKT RSNLGWLSLLLLPIPLIVWVKRKEVQKT 2nb1-a1-m1-cA_2nb1-a1-m1-cC P63/p73 hetero-tetramerisation domain Q9H3D4 Q9H3D4 NOT SOLUTION NMR 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 SDDELLYLPVRGRETYEMLLEIKESLELMQYLPQHTIETYRQQQQQQHQHLLQKQTSIQS SDDELLYLPVRGRETYEMLLEIKESLELMQYLPQHTIETYRQQQQQQHQHLLQKQTSIQS 2nb1-a1-m1-cB_2nb1-a1-m1-cD P63/p73 hetero-tetramerisation domain O15350 O15350 NOT SOLUTION NMR 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 50 50 GSDEDTYYLQVRGRKNFEILMKLKESLELMELVPQPLVDSYRQQQQLLQR GSDEDTYYLQVRGRKNFEILMKLKESLELMELVPQPLVDSYRQQQQLLQR 2ndp-a1-m1-cA_2ndp-a1-m1-cB Structure of DNA-binding HU protein from micoplasma Mycoplasma gallisepticum A0A0F6CKR5 A0A0F6CKR5 NOT SOLUTION NMR 139 1.0 1006581 (Mycoplasmoides gallisepticum S6) 1006581 (Mycoplasmoides gallisepticum S6) 99 99 MAKIKSLSAAEYLKEMADETNIKVQDIRLVVTSLQKVLAKELATTGEVRLFDIGKFKLVTTKPRTGINPKTKQKIQIPAGKKIKLTVSKILTDAVDSHK MAKIKSLSAAEYLKEMADETNIKVQDIRLVVTSLQKVLAKELATTGEVRLFDIGKFKLVTTKPRTGINPKTKQKIQIPAGKKIKLTVSKILTDAVDSHK 2nlb-a5-m1-cA_2nlb-a5-m3-cD Human beta-defensin-1 (Mutant Asn4Ala) P60022 P60022 1.85 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 2nlb-a5-m2-cC_2nlb-a5-m3-cB DHYACVSSGGQCLYSACPIFTKIQGTCYRGKAKCCK DHYACVSSGGQCLYSACPIFTKIQGTCYRGKAKCCK 2nlf-a6-m1-cB_2nlf-a6-m5-cB Human beta-defensin-1 (Mutant Leu13Glu) P60022 P60022 1.45 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 DHYNCVSSGGQCEYSACPIFTKIQGTCYRGKAKCCK DHYNCVSSGGQCEYSACPIFTKIQGTCYRGKAKCCK 2nli-a3-m2-cB_2nli-a3-m4-cB Crystal Structure of the complex between L-lactate oxidase and a substrate analogue at 1.59 angstrom resolution Q44467 Q44467 1.59 X-RAY DIFFRACTION 84 1.0 1377 (Aerococcus viridans) 1377 (Aerococcus viridans) 326 326 2j6x-a2-m1-cH_2j6x-a2-m1-cF 2nli-a1-m1-cB_2nli-a1-m3-cB 2nli-a1-m1-cB_2nli-a1-m4-cB 2nli-a1-m2-cB_2nli-a1-m3-cB 2nli-a1-m2-cB_2nli-a1-m4-cB 2nli-a3-m1-cB_2nli-a3-m3-cB 2nli-a3-m1-cB_2nli-a3-m4-cB 2nli-a3-m2-cB_2nli-a3-m3-cB EYNAPSEIKYIDVVNTYDLEEEASKVVPHGGFNYIAGASGDEWTKRANDRAWKHKLLYPRLAQDVEAPDTSTEILGHKIKAPFIMAPIAAHGLAHTTKEAGTARAVSEFGTIMSISAYSGATFEEISEGLNGGPRWFQIYMAKDDQQNRDILDEAKSDGATAIILTADSSKQKISPRDIEEIAGHSGLPVFVKGIQHPEDADMAIKRGASGIWVSNHGARQLYEAPGSFDTLPAIAERVNKRVPIVFDSGVRRGEHVAKALASGADVVALGRPVLFGLALGGWQGAYSVLDYFQKDLTRVMQLTGSQNVEDLKGLDLFDNPYGYEY EYNAPSEIKYIDVVNTYDLEEEASKVVPHGGFNYIAGASGDEWTKRANDRAWKHKLLYPRLAQDVEAPDTSTEILGHKIKAPFIMAPIAAHGLAHTTKEAGTARAVSEFGTIMSISAYSGATFEEISEGLNGGPRWFQIYMAKDDQQNRDILDEAKSDGATAIILTADSSKQKISPRDIEEIAGHSGLPVFVKGIQHPEDADMAIKRGASGIWVSNHGARQLYEAPGSFDTLPAIAERVNKRVPIVFDSGVRRGEHVAKALASGADVVALGRPVLFGLALGGWQGAYSVLDYFQKDLTRVMQLTGSQNVEDLKGLDLFDNPYGYEY 2nlq-a7-m2-cA_2nlq-a7-m5-cC Human beta-defensin-1 (Mutant Lys31Ala) P60022 P60022 1.8 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 2nlq-a10-m2-cA_2nlq-a10-m5-cC 2nlq-a6-m2-cA_2nlq-a6-m5-cC DHYNCVSSGGQCLYSACPIFTKIQGTCYRGAAKCCK DHYNCVSSGGQCLYSACPIFTKIQGTCYRGAAKCCK 2nlq-a9-m1-cD_2nlq-a9-m3-cB Human beta-defensin-1 (Mutant Lys31Ala) P60022 P60022 1.8 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 2nlp-a5-m2-cB_2nlp-a5-m3-cC 2nlp-a8-m1-cB_2nlp-a8-m4-cC 2nlp-a9-m2-cB_2nlp-a9-m3-cC 2nlq-a11-m3-cD_2nlq-a11-m7-cB 2nlq-a5-m1-cD_2nlq-a5-m3-cB 2nlq-a7-m1-cD_2nlq-a7-m3-cB 2nlq-a8-m1-cD_2nlq-a8-m3-cB DHYNCVSSGGQCLYSACPIFTKIQGTCYRGAAKCCK DHYNCVSSGGQCLYSACPIFTKIQGTCYRGAAKCCK 2nlu-a1-m1-cA_2nlu-a1-m1-cB Domain-Swapped Dimer of the PWWP Module of Human Hepatoma-derived Growth Factor P51858 P51858 NOT SOLUTION NMR 180 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 MSRSNRQKEYKCGDLVFAKMKGYPHWPARIDEMPEAAVKSTANKYQVFFFGTHETAFLGPKDLFPYEESKEKFGKPNKRKGFSEGLWEIENNPTVKASGY MSRSNRQKEYKCGDLVFAKMKGYPHWPARIDEMPEAAVKSTANKYQVFFFGTHETAFLGPKDLFPYEESKEKFGKPNKRKGFSEGLWEIENNPTVKASGY 2nlv-a1-m1-cB_2nlv-a1-m1-cA CRYSTAL STRUCTURE OF A XISI-LIKE PROTEIN (AVA_3825) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.30 A RESOLUTION Q3M6F6 Q3M6F6 1.3 X-RAY DIFFRACTION 53 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 106 108 KLVKYQELVKKLLTNYASDDVSDQDVEVQLILDTERNHYQWNVGWQGLNRIYRCVIHFDIKDGKIWLQQNLTDRNPAEELVGVPREDIVLGLQAPYKRQYTDYGVA GDKLVKYQELVKKLLTNYASDDVSDQDVEVQLILDTERNHYQWNVGWQGLNRIYRCVIHFDIKDGKIWLQQNLTDRNPAEELVGVPREDIVLGLQAPYKRQYTDYGVA 2nlz-a1-m1-cB_2nlz-a1-m1-cD Crystal structure of cephalosporin acylase from Bacillus halodurans Q9KEI5 Q9KEI5 2.7 X-RAY DIFFRACTION 43 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 535 537 2nlz-a1-m1-cC_2nlz-a1-m1-cA MFDPQSYPYPSRRNVVYAKNGMVATSQPLAAQAGLDILKAGGNAIDAAIATATALTVLEPTSNGIGSDAFALVWTKGKLHGLNGSGRAPMSLTMEAVKAKGYEQELPPYGVIPVTVPGAPGAWAELAKMYGNLPLAASLAPAIRYAEEGYPVTPTLAKYWKAAYDRVKTEWTDDVYQPWFDTFAPKGRAPRVGEVWRSQGHADTLRSIAESNGESFYRGELADQIHAFFDKHGGYLTKEDLACYRPEWVEPISIDYRGYRVWEIPPNGQGLVALEALNIVKGFEFYHKDTVDTYHKQIEAMKLAFVDGMKYVTEPSDMSVSVEQLLSDEYATERRKEIGEQALTPEPGTPTVYLATADGDGNMVSFIQSNYMGFGSGVVVPGTGIAMQNRGHNFSLDPNHDNALKPGKRTYHTIIPGFLTKNDQPIGPFGVMGGFMQPQGHMQVMMNTIDFGLNPQAALDAPRWQWTNGKQVQVEPTFPVDIAQALVRRGHKIQVVLDEGAFGRGQIIWRDPTTGVLAGGTEPRTDGQVAAWEGH MFDPQSYPYPSRRNVVYAKNGMVATSQPLAAQAGLDILKAGGNAIDAAIATATALTVLEPTSNGIGSDAFALVWTKGKLHGLNGSGRAPMSLTMEAVKAKGYEQELPPYGVIPVTVPGAPGAWAELAKMYGNLPLAASLAPAIRYAEEGYPVTPTLAKYWKAAYDRVKTEWTDDVYQPWFDTFAPKGRAPRVGEVWRSQGHADTLRSIAESNGESFYRGELADQIHAFFDKHGGYLTKEDLACYRPEWVEPISIDYRGYRVWEIPPNGQGLVALEALNIVKGFEFYHKDTVDTYHKQIEAMKLAFVDGMKYVTEPSDMSVSVEQLLSDEYATERRKEIGEQALTPEPGTPTVYLATADGDGNMVSFIQSNYMGFGSGVVVPGTGIAMQNRGHNFSLDPNHDNALKPGKRTYHTIIPGFLTKNDQPIGPFGVMGGFMQPQGHMQVMMNTIDFGLNPQAALDAPRWQWTNGKQVQVEPTFPVDIAQALVRRGHKIQVVLDEGAFGRGQIIWRDPTTGVLAGGTEPRTDGQVAAWEGHHH 2nlz-a1-m1-cC_2nlz-a1-m1-cD Crystal structure of cephalosporin acylase from Bacillus halodurans Q9KEI5 Q9KEI5 2.7 X-RAY DIFFRACTION 169 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 535 537 2nlz-a1-m1-cB_2nlz-a1-m1-cA MFDPQSYPYPSRRNVVYAKNGMVATSQPLAAQAGLDILKAGGNAIDAAIATATALTVLEPTSNGIGSDAFALVWTKGKLHGLNGSGRAPMSLTMEAVKAKGYEQELPPYGVIPVTVPGAPGAWAELAKMYGNLPLAASLAPAIRYAEEGYPVTPTLAKYWKAAYDRVKTEWTDDVYQPWFDTFAPKGRAPRVGEVWRSQGHADTLRSIAESNGESFYRGELADQIHAFFDKHGGYLTKEDLACYRPEWVEPISIDYRGYRVWEIPPNGQGLVALEALNIVKGFEFYHKDTVDTYHKQIEAMKLAFVDGMKYVTEPSDMSVSVEQLLSDEYATERRKEIGEQALTPEPGTPTVYLATADGDGNMVSFIQSNYMGFGSGVVVPGTGIAMQNRGHNFSLDPNHDNALKPGKRTYHTIIPGFLTKNDQPIGPFGVMGGFMQPQGHMQVMMNTIDFGLNPQAALDAPRWQWTNGKQVQVEPTFPVDIAQALVRRGHKIQVVLDEGAFGRGQIIWRDPTTGVLAGGTEPRTDGQVAAWEGH MFDPQSYPYPSRRNVVYAKNGMVATSQPLAAQAGLDILKAGGNAIDAAIATATALTVLEPTSNGIGSDAFALVWTKGKLHGLNGSGRAPMSLTMEAVKAKGYEQELPPYGVIPVTVPGAPGAWAELAKMYGNLPLAASLAPAIRYAEEGYPVTPTLAKYWKAAYDRVKTEWTDDVYQPWFDTFAPKGRAPRVGEVWRSQGHADTLRSIAESNGESFYRGELADQIHAFFDKHGGYLTKEDLACYRPEWVEPISIDYRGYRVWEIPPNGQGLVALEALNIVKGFEFYHKDTVDTYHKQIEAMKLAFVDGMKYVTEPSDMSVSVEQLLSDEYATERRKEIGEQALTPEPGTPTVYLATADGDGNMVSFIQSNYMGFGSGVVVPGTGIAMQNRGHNFSLDPNHDNALKPGKRTYHTIIPGFLTKNDQPIGPFGVMGGFMQPQGHMQVMMNTIDFGLNPQAALDAPRWQWTNGKQVQVEPTFPVDIAQALVRRGHKIQVVLDEGAFGRGQIIWRDPTTGVLAGGTEPRTDGQVAAWEGHHH 2nm0-a1-m1-cB_2nm0-a1-m2-cB Crystal Structure of SCO1815: a Beta-Ketoacyl-Acyl Carrier Protein Reductase from Streptomyces coelicolor A3(2) Q9S274 Q9S274 1.99 X-RAY DIFFRACTION 110 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 221 221 2nm0-a1-m1-cA_2nm0-a1-m2-cA MSRSVLVTGGNRGIGLAIARAFADAGDKVAITYRSGEPPEGFLAVKCDITDTEQVEQAYKEIEETHGPVEVLIANAGVTKDQLMSEEDFTSVVETNLTGTFRVVKRANRAMLRAKKGRVVLISSVVGLLGSAGQANYAASKAGLVGFARSLARELGSRNITFNVVAPGFVDTQRANIVSQVPLGRYARPEEIAATVRFLASDDASYITGAVIPVDGGLGMG MSRSVLVTGGNRGIGLAIARAFADAGDKVAITYRSGEPPEGFLAVKCDITDTEQVEQAYKEIEETHGPVEVLIANAGVTKDQLMSEEDFTSVVETNLTGTFRVVKRANRAMLRAKKGRVVLISSVVGLLGSAGQANYAASKAGLVGFARSLARELGSRNITFNVVAPGFVDTQRANIVSQVPLGRYARPEEIAATVRFLASDDASYITGAVIPVDGGLGMG 2nm0-a1-m2-cA_2nm0-a1-m2-cB Crystal Structure of SCO1815: a Beta-Ketoacyl-Acyl Carrier Protein Reductase from Streptomyces coelicolor A3(2) Q9S274 Q9S274 1.99 X-RAY DIFFRACTION 103 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 221 221 2nm0-a1-m1-cA_2nm0-a1-m1-cB MSRSVLVTGGNRGIGLAIARAFADAGDKVAITYRSGEPPEGFLAVKCDITDTEQVEQAYKEIEETHGPVEVLIANAGVTKDQLMSEEDFTSVVETNLTGTFRVVKRANRAMLRAKKGRVVLISSVVGLLGSAGQANYAASKAGLVGFARSLARELGSRNITFNVVAPGFVDTQRANIVSQVPLGRYARPEEIAATVRFLASDDASYITGAVIPVDGGLGMG MSRSVLVTGGNRGIGLAIARAFADAGDKVAITYRSGEPPEGFLAVKCDITDTEQVEQAYKEIEETHGPVEVLIANAGVTKDQLMSEEDFTSVVETNLTGTFRVVKRANRAMLRAKKGRVVLISSVVGLLGSAGQANYAASKAGLVGFARSLARELGSRNITFNVVAPGFVDTQRANIVSQVPLGRYARPEEIAATVRFLASDDASYITGAVIPVDGGLGMG 2nmm-a4-m1-cA_2nmm-a4-m1-cB Crystal structure of human phosphohistidine phosphatase. Northeast Structural Genomics Consortium target HR1409 Q9NRX4 Q9NRX4 2.7 X-RAY DIFFRACTION 14 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 111 112 2nmm-a4-m1-cC_2nmm-a4-m1-cA 2nmm-a4-m1-cC_2nmm-a4-m1-cB AVADLALIPDVDIDSDGVFKYVLIRVHSAPESKEIVRGYKWAEYHADIYDKVSGDQKQGCDCECLGGGRISHQSQDKKIHVYGYSAYGPAQHAISTEKIKAKYPDYEVTWA HSHAVADLALIPDVDIDSDGVFKYVLIRVHSASKEIVRGYKWAEYHADIYDKVSGDQKQGCDCECLGGGRISHQSQDKKIHVYGYSAYGPAQHAISTEKIKAKYPDYEVTWA 2nn2-a2-m1-cA_2nn2-a2-m2-cA Crystal structure of the BTB domain from the LRF/ZBTB7 transcriptional regulator O95365 O95365 2.1 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR 2nn2-a2-m1-cA_2nn2-a2-m2-cB Crystal structure of the BTB domain from the LRF/ZBTB7 transcriptional regulator O95365 O95365 2.1 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 2nn2-a2-m1-cB_2nn2-a2-m2-cA GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR 2nn2-a2-m1-cB_2nn2-a2-m2-cB Crystal structure of the BTB domain from the LRF/ZBTB7 transcriptional regulator O95365 O95365 2.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR 2nn2-a2-m2-cA_2nn2-a2-m2-cB Crystal structure of the BTB domain from the LRF/ZBTB7 transcriptional regulator O95365 O95365 2.1 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 2if5-a1-m1-cA_2if5-a1-m2-cA 2nn2-a1-m1-cA_2nn2-a1-m1-cB 2nn2-a2-m1-cA_2nn2-a2-m1-cB GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR GPIGIPFPDHSSDILSGLNEQRTQGLLCDVVILVEGREFPTHRSVLAACSQYFKKLFTSQNVYEIDFVSAEALTALMDFAYTATLTVSTANVGDILSAARLLEIPAVSHVCADLLDR 2nnc-a1-m1-cA_2nnc-a1-m2-cA Structure of the sulfur carrier protein SoxY from Chlorobium limicola f thiosulfatophilum Q8RLX2 Q8RLX2 2.14 X-RAY DIFFRACTION 26 1.0 1092 (Chlorobium limicola) 1092 (Chlorobium limicola) 110 110 2nnf-a1-m1-cA_2nnf-a1-m2-cA SASKLDDAIAAKFGSLPIQESTAIQIKAPEIAENGAFVPVTVATSIPGATNISIFTPANFSPMVASFDVLPRMKPEVSLRMRMAKTENLVVVVQAGGKLYRAVREVKVTI SASKLDDAIAAKFGSLPIQESTAIQIKAPEIAENGAFVPVTVATSIPGATNISIFTPANFSPMVASFDVLPRMKPEVSLRMRMAKTENLVVVVQAGGKLYRAVREVKVTI 2nnc-a1-m1-cA_2nnc-a1-m2-cB Structure of the sulfur carrier protein SoxY from Chlorobium limicola f thiosulfatophilum Q8RLX2 Q8RLX2 2.14 X-RAY DIFFRACTION 16 0.982 1092 (Chlorobium limicola) 1092 (Chlorobium limicola) 110 115 2nnc-a1-m2-cA_2nnc-a1-m1-cB 2nnf-a1-m1-cA_2nnf-a1-m2-cB 2nnf-a1-m2-cA_2nnf-a1-m1-cB SASKLDDAIAAKFGSLPIQESTAIQIKAPEIAENGAFVPVTVATSIPGATNISIFTPANFSPMVASFDVLPRMKPEVSLRMRMAKTENLVVVVQAGGKLYRAVREVKVTI SWSEKAFSASKLDDAIAAKFGSLPIQESTAIQIKAPEIAENGAFVPVTVATSIPGATNISIFTPANFSPMVASFDVLPRMKPEVSLRMRMAKTENLVVVVQAGGKLYRAVREVKV 2nnc-a1-m2-cA_2nnc-a1-m2-cB Structure of the sulfur carrier protein SoxY from Chlorobium limicola f thiosulfatophilum Q8RLX2 Q8RLX2 2.14 X-RAY DIFFRACTION 62 0.982 1092 (Chlorobium limicola) 1092 (Chlorobium limicola) 110 115 2nnc-a1-m1-cA_2nnc-a1-m1-cB 2nnf-a1-m1-cA_2nnf-a1-m1-cB 2nnf-a1-m2-cA_2nnf-a1-m2-cB SASKLDDAIAAKFGSLPIQESTAIQIKAPEIAENGAFVPVTVATSIPGATNISIFTPANFSPMVASFDVLPRMKPEVSLRMRMAKTENLVVVVQAGGKLYRAVREVKVTI SWSEKAFSASKLDDAIAAKFGSLPIQESTAIQIKAPEIAENGAFVPVTVATSIPGATNISIFTPANFSPMVASFDVLPRMKPEVSLRMRMAKTENLVVVVQAGGKLYRAVREVKV 2nnn-a4-m1-cG_2nnn-a4-m1-cH Crystal structure of probable transcriptional regulator from Pseudomonas aeruginosa Q9I3B8 Q9I3B8 2.4 X-RAY DIFFRACTION 123 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 131 132 2nnn-a1-m1-cA_2nnn-a1-m1-cB 2nnn-a2-m1-cC_2nnn-a2-m1-cD 2nnn-a3-m1-cE_2nnn-a3-m1-cF 2nnn-a5-m1-cI_2nnn-a5-m1-cJ RLDDQIGFILRQANQRYAALFANGIGNGLTPTQWAALVRLGETGPCPQNQLGRLTADAATIKGVVERLDKRGLIQRSADPDDGRRLLVSLSPAGRAELEGLAAAREINRQALAPLSLQEQETLRGLLARLI RLDDQIGFILRQANQRYAALFANGIGNGLTPTQWAALVRLGETGPCPQNQLGRLTADAATIKGVVERLDKRGLIQRSADPDDGRRLLVSLSPAGRAELEAGLAAAREINRQALAPLSLQEQETLRGLLARLI 2nnt-a1-m1-cB_2nnt-a1-m1-cC General structural motifs of amyloid protofilaments O14776 O14776 NOT SOLID-STATE NMR 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 2nnt-a1-m1-cA_2nnt-a1-m1-cB 2nnt-a1-m1-cC_2nnt-a1-m1-cD MGATAVSEWTEYKTADGKTFYYNNRTLESTW MGATAVSEWTEYKTADGKTFYYNNRTLESTW 2nnu-a2-m1-cB_2nnu-a2-m2-cB Crystal Structure of the Papillomavirus DNA Tethering Complex E2:Brd4 O60885 O60885 1.59 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 20 20 ATIDMNFQSDLLSIFEENLF ATIDMNFQSDLLSIFEENLF 2nnw-a2-m1-cC_2nnw-a2-m3-cC Alternative conformations of Nop56/58-fibrillarin complex and implication for induced-fit assenly of box C/D RNPs Q8U4M1 Q8U4M1 2.7 X-RAY DIFFRACTION 126 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 350 350 2nnw-a1-m1-cA_2nnw-a1-m2-cA 3nmu-a3-m1-cA_3nmu-a3-m1-cB 3nvi-a1-m1-cA_3nvi-a1-m1-cC 3nvk-a1-m1-cA_3nvk-a1-m1-cF FISENVRGIYAFDENGNLIEKRYFTDKPEKVLDQLLKGEITKDLEELLNSLKEKGYDEFVFEHPELSRRAKELGFSATTEFPNIAGERLRSNPEEFLGENWFEEYYKVGVALTRMRIQEQSGARDKMVIQAIEALDDVDKVINLLVARLREWYSLHFPELDELLPKHPQYVAFVKTVGHRDNINEEVLRELGLSEEKIKKILEAKEKTMGAWMDQTDIEVVRQLAEEIDRLYQLRKKLEDYIDRAMDDVAPNLKALVGAKLAARLISLAGGLRELAMMPSSTIQVLGAEPKHGVIYQYPAINRSPWWQRGKIARALAGKLAIAARVDYFSGEYIAEELKKELEARIREIK FISENVRGIYAFDENGNLIEKRYFTDKPEKVLDQLLKGEITKDLEELLNSLKEKGYDEFVFEHPELSRRAKELGFSATTEFPNIAGERLRSNPEEFLGENWFEEYYKVGVALTRMRIQEQSGARDKMVIQAIEALDDVDKVINLLVARLREWYSLHFPELDELLPKHPQYVAFVKTVGHRDNINEEVLRELGLSEEKIKKILEAKEKTMGAWMDQTDIEVVRQLAEEIDRLYQLRKKLEDYIDRAMDDVAPNLKALVGAKLAARLISLAGGLRELAMMPSSTIQVLGAEPKHGVIYQYPAINRSPWWQRGKIARALAGKLAIAARVDYFSGEYIAEELKKELEARIREIK 2nny-a1-m1-cA_2nny-a1-m1-cB Crystal structure of the Ets1 dimer DNA complex. P14921 P14921 2.58 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 3mfk-a1-m1-cB_3mfk-a1-m1-cA VRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSSQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVSDLQSLLGYTPEELHAMLDVK VRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSSQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVSDLQSLLGYTPEELHAMLDVK 2no2-a1-m1-cA_2no2-a1-m2-cA Crystal structure of the DLLRKN-containing coiled-coil domain of Huntingtin-interacting protein 1 O00291 O00291 2.8 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 GSHADLLRKNAEVTKQVSMARQAQVDLEREKKELEDSLERISDQGQRKTQEQLEVLESLKQELATSQRELQVLQGSLETSAQSEANWAAEFAELEKERDSLV GSHADLLRKNAEVTKQVSMARQAQVDLEREKKELEDSLERISDQGQRKTQEQLEVLESLKQELATSQRELQVLQGSLETSAQSEANWAAEFAELEKERDSLV 2no4-a2-m2-cA_2no4-a2-m2-cB Crystal Structure analysis of a Dehalogenase Q51645 Q51645 1.93 X-RAY DIFFRACTION 74 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 225 226 2no4-a1-m1-cA_2no4-a1-m1-cB 2no4-a2-m1-cA_2no4-a2-m1-cB 2no5-a1-m1-cA_2no5-a1-m1-cB 2no5-a2-m1-cA_2no5-a2-m1-cB 2no5-a2-m2-cA_2no5-a2-m2-cB LVDSLRACVFDAYGTLLDVHSAVMRNADEVGASAEALSMLWRQRQLEYSWTRTLMHQYADFWQLTDEALTFALRTYHLEDRKGLKDRLMSAYKELSAYPDAAETLEKLKSAGYIVAILSNGNDEMLQAALKASKLDRVLDSCLSADDLKIYKPDPRIYQFACDRLGVNPNEVCFVSSNAWDLGGAGKFGFNTVRINRQGNPPEYEFAPLKHQVNSLSELWPLLAK LVDSLRACVFDAYGTLLDVHSAVMRNADEVGASAEALSMLWRQRQLEYSWTRTLMHQYADFWQLTDEALTFALRTYHLEDRKGLKDRLMSAYKELSAYPDAAETLEKLKSAGYIVAILSNGNDEMLQAALKASKLDRVLDSCLSADDLKIYKPDPRIYQFACDRLGVNPNEVCFVSSNAWDLGGAGKFGFNTVRINRQGNPPEYEFAPLKHQVNSLSELWPLLAKN 2no5-a2-m1-cB_2no5-a2-m2-cB Crystal Structure analysis of a Dehalogenase with intermediate complex Q51645 Q51645 2.6 X-RAY DIFFRACTION 41 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 225 225 2no4-a2-m1-cA_2no4-a2-m2-cA 2no4-a2-m1-cB_2no4-a2-m2-cB 2no5-a2-m1-cA_2no5-a2-m2-cA LVDSLRACVFAYGTLLDVHSAVMRNADEVGASAEALSMLWRQRQLEYSWTRTLMHQYADFWQLTDEALTFALRTYHLEDRKGLKDRLMSAYKELSAYPDAAETLEKLKSAGYIVAILSNGNDEMLQAALKASKLDRVLDSCLSADDLKIYKPDPRIYQFACDRLGVNPNEVCFVSSNAWDLGGAGKFGFNTVRINRQGNPPEYEFAPLKHQVNSLSELWPLLAKN LVDSLRACVFAYGTLLDVHSAVMRNADEVGASAEALSMLWRQRQLEYSWTRTLMHQYADFWQLTDEALTFALRTYHLEDRKGLKDRLMSAYKELSAYPDAAETLEKLKSAGYIVAILSNGNDEMLQAALKASKLDRVLDSCLSADDLKIYKPDPRIYQFACDRLGVNPNEVCFVSSNAWDLGGAGKFGFNTVRINRQGNPPEYEFAPLKHQVNSLSELWPLLAKN 2no9-a2-m4-cB_2no9-a2-m2-cA The structure of deoxycytidine kinase complexed with troxacitabine and ADP. P27707 P27707 2.15 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 242 1p60-a2-m3-cB_1p60-a2-m1-cA 1p60-a2-m4-cB_1p60-a2-m2-cA 2no0-a2-m3-cB_2no0-a2-m1-cA 2no0-a2-m4-cB_2no0-a2-m2-cA 2no1-a2-m3-cB_2no1-a2-m1-cA 2no1-a2-m4-cB_2no1-a2-m2-cA 2no6-a2-m3-cB_2no6-a2-m1-cA 2no6-a2-m4-cB_2no6-a2-m2-cA 2no9-a2-m3-cB_2no9-a2-m1-cA 2noa-a2-m3-cB_2noa-a2-m1-cA 2noa-a2-m4-cB_2noa-a2-m2-cA RIKKISIEGNIAAGKSTFVNILKQLSEDWEVVPEPVARWSNVQNGGNVLQMMYEKPERWSFTFQTYACLSRIRAQLASLNGKLKDAEKPVLFFERSVYSDRYIFASNLYESESMNETEWTIYQDWHDWMNNQFGQSLELDGIIYLQATPETCLHRIYLRGRNEEQGIPLEYLEKLHYKHESWLLHRTLKTNFDYLQEVPILTLDVNEDFKDKYESLVEKVKEFLSTL TRIKKISIEGNIAAGKSTFVNILKQLSEDWEVVPEPVARWSNVQSTQDEFEELTMSQKNGGNVLQMMYEKPERWSFTFQTYACLSRIRAQLASLNGKLKDAEKPVLFFERSVYSDRYIFASNLYESESMNETEWTIYQDWHDWMNNQFGQSLELDGIIYLQATPETCLHRIYLRGRNEEQGIPLEYLEKLHYKHESWLLHRTLKTNFDYLQEVPILTLDVNEDFKDKYESLVEKVKEFLSTL 2noa-a3-m1-cA_2noa-a3-m2-cA The structure of deoxycytidine kinase complexed with lamivudine and ADP. P27707 P27707 1.8 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 1p60-a2-m1-cA_1p60-a2-m2-cA 1p60-a3-m1-cA_1p60-a3-m2-cA 2no0-a2-m1-cA_2no0-a2-m2-cA 2no0-a3-m1-cA_2no0-a3-m2-cA 2no1-a2-m1-cA_2no1-a2-m2-cA 2no1-a3-m1-cA_2no1-a3-m2-cA 2no6-a2-m1-cA_2no6-a2-m2-cA 2no6-a3-m1-cA_2no6-a3-m2-cA 2no9-a2-m1-cA_2no9-a2-m2-cA 2no9-a3-m1-cA_2no9-a3-m2-cA 2noa-a2-m1-cA_2noa-a2-m2-cA 3kfx-a2-m1-cB_3kfx-a2-m2-cB TRIKKISIEGNIAAGKSTFVNILKQLSEDWEVVPEPVARWSNVQSTQDEFEELTMSQKNGGNVLQMMYEKPERWSFTFQTYACLSRIRAQLASLNGKLKDAEKPVLFFERSVYSDRYIFASNLYESESMNETEWTIYQDWHDWMNNQFGQSLELDGIIYLQATPETCLHRIYLRGRNEEQGIPLEYLEKLHYKHESWLLHRTLKTNFDYLQEVPILTLDVNEDFKDKYESLVEKVKEFLSTL TRIKKISIEGNIAAGKSTFVNILKQLSEDWEVVPEPVARWSNVQSTQDEFEELTMSQKNGGNVLQMMYEKPERWSFTFQTYACLSRIRAQLASLNGKLKDAEKPVLFFERSVYSDRYIFASNLYESESMNETEWTIYQDWHDWMNNQFGQSLELDGIIYLQATPETCLHRIYLRGRNEEQGIPLEYLEKLHYKHESWLLHRTLKTNFDYLQEVPILTLDVNEDFKDKYESLVEKVKEFLSTL 2nog-a1-m1-cB_2nog-a1-m1-cA SANT Domain Structure of Xenopus Remodeling Factor ISWI Q6DFM0 Q6DFM0 2 X-RAY DIFFRACTION 46 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 156 157 EPKVPKAPRPPKQPNVQDFQFFPPRLFELLEKEILYYRKTIGYKVPRNPDLPNSAQVQKEEQLKIDEAEPLNDEELEEKEKLLTQGFTNWNKRDFNQFIKANEKWGRDDIENIAREVEGKTPEEVIEYSAVFWERCNELQDIEKTMAQIERGEARI EPKVPKAPRPPKQPNVQDFQFFPPRLFELLEKEILYYRKTIGYKVPRNPDLPNSAQVQKEEQLKIDEAEPLNDEELEEKEKLLTQGFTNWNKRDFNQFIKANEKWGRDDIENIAREVEGKTPEEVIEYSAVFWERCNELQDIEKTMAQIERGEARIQ 2nox-a4-m1-cM_2nox-a4-m1-cP Crystal structure of tryptophan 2,3-dioxygenase from Ralstonia metallidurans Q1LK00 Q1LK00 2.4 X-RAY DIFFRACTION 82 0.996 119219 (Cupriavidus metallidurans) 119219 (Cupriavidus metallidurans) 255 259 2nox-a1-m1-cC_2nox-a1-m1-cB 2nox-a1-m1-cD_2nox-a1-m1-cA 2nox-a2-m1-cE_2nox-a2-m1-cH 2nox-a2-m1-cG_2nox-a2-m1-cF 2nox-a3-m1-cI_2nox-a3-m1-cL 2nox-a3-m1-cK_2nox-a3-m1-cJ 2nox-a4-m1-cO_2nox-a4-m1-cN DMSYGDYLGLDQILSAQHPLSPDHNEMLFIVQHQTTELWMKLMLHELRAARDGVKSDQLQPAFKMLARVSRIMDQLVQAWNVLATMTPPEYSAMRPYLGASSGFQSYQYREIEFILGNKNAAMLRPHAHRPEHLELVETALHTPSMYDEAIRLMARRGFQIDPEVVERDWTQPTQYNASVEAAWLEVYRNPSAHWELYELGEKFVDLEDAFRQWRFRHVTTVERVIGFKREGVSYLRRMLDVVLFPELWKLRTDL MSYGDYLGLDQILSAQHPLSPDHNEMLFIVQHQTTELWMKLMLHELRAARDGVKSDQLQPAFKMLARVSRIMDQLVQAWNVLATMTPPEYSAMRPYLGASSGFQSYQYREIEFILGNKNAAMLRPHAHRPEHLELVETALHTPSMYDEAIRLMARRGFQIDPEVVERDWTQPTQYNASVEAAWLEVYRNPSAHWELYELGEKFVDLEDAFRQWRFRHVTTVERVIGFKRGTGGTEGVSYLRRMLDVVLFPELWKLRTDL 2nox-a4-m1-cO_2nox-a4-m1-cP Crystal structure of tryptophan 2,3-dioxygenase from Ralstonia metallidurans Q1LK00 Q1LK00 2.4 X-RAY DIFFRACTION 162 0.992 119219 (Cupriavidus metallidurans) 119219 (Cupriavidus metallidurans) 257 259 2nox-a1-m1-cA_2nox-a1-m1-cB 2nox-a1-m1-cC_2nox-a1-m1-cD 2nox-a2-m1-cE_2nox-a2-m1-cF 2nox-a2-m1-cG_2nox-a2-m1-cH 2nox-a3-m1-cJ_2nox-a3-m1-cI 2nox-a3-m1-cK_2nox-a3-m1-cL 2nox-a4-m1-cM_2nox-a4-m1-cN RDMSYGDYLGLDQILSAQHPLSPDHNEMLFIVQHQTTELWMKLMLHELRAARDGVKSDQLQPAFKMLARVSRIMDQLVQAWNVLATMTPPEYSAMRPYLGASSGFQSYQYREIEFILGNKNAAMLRPHAHRPEHLELVETALHTPSMYDEAIRLMARRGFQIDPEVVERDWTQPTQYNASVEAAWLEVYRNPSAHWELYELGEKFVDLEDAFRQWRFRHVTTVERVIGFKGTEGVSYLRRMLDVVLFPELWKLRTDL MSYGDYLGLDQILSAQHPLSPDHNEMLFIVQHQTTELWMKLMLHELRAARDGVKSDQLQPAFKMLARVSRIMDQLVQAWNVLATMTPPEYSAMRPYLGASSGFQSYQYREIEFILGNKNAAMLRPHAHRPEHLELVETALHTPSMYDEAIRLMARRGFQIDPEVVERDWTQPTQYNASVEAAWLEVYRNPSAHWELYELGEKFVDLEDAFRQWRFRHVTTVERVIGFKRGTGGTEGVSYLRRMLDVVLFPELWKLRTDL 2np0-a2-m1-cA_2np0-a2-m2-cA Crystal structure of the Botulinum neurotoxin type B complexed with synaptotagamin-II ectodomain P10844 P10844 2.62 X-RAY DIFFRACTION 75 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 1289 1289 PVTINNFNYNDPIDNNNIIMMEPPFARGTGRYYKAFKITDRIWIIPERYTFGYKPEDFNKSSGIFNRDVCEYYDPDYLNTNDKKNIFLQTMIKLFNRIKSKPLGEKLLEMIINGIPYLGDRRVPLEEFNTNIASVTVNKLISNPGEVERKKGIFANLIIFGPGPVLNENETIDIGIQNHFASREGFGGIMQMKFCPEYVSVFNNVQENKGASIFNRRGYFSDPALILMHELIHVLHGLYGIKVDDLPIVPNEKKFFMQSTDAIQAEELYTFGGQDPSIITPSTDKSIYDKVLQNFRGIVDRLNKVLVCISDPNININIYKNKFKDKYKFVEDSEGKYSIDVESFDKLYKSLMFGFTETNIAENYKIKTRASYFSDSLPPVKIKNLLDNEIYTIEEGFNISDKDMEKEYRGQNKAINKQAYEEISKEHLAVYKIQMCKSVKPGICIDVDNEDLFFIADKNSFSDDLSKNERIEYNTQSNYIENDFPINELILDTDLISKIELPSENTESLTDFNVDVPVYEKQPAIKKIFTDENTIFQYLYSQTFPLDIRDISLTSSFDDALLFSNKVYSFFSMDYIKTANKVVEAGLFAGWVKQIVNDFVIEANKSNTMDKIADISLIVPYIGLALNVGNETAKGNFENAFEIAGASILLEFIPELLIPVVGAFLLESYIDNKNKIIKTIDNALTKRNEKWSDMYGLIVAQWLSTVNTQFYTIKEGMYKALNYQAQALEEIIKYRYNIYSEKEKSNINIDFNDINSKLNEGINQAIDNINNFINGCSVSYLMKKMIPLAVEKLLDFDNTLKKNLLNYIDENKLYLIGSAEYEKSKVNKYLKTIMPFDLSIYTNDTILIEMFNKYNSEILNNIILNLRYKDNNLIDLSGYGAKVEVYDGVELNDKNQFKLTSSANSKIRVTQNQNIIFNSVFLDFSVSFWIRIPKYKNDGIQNYIHNEYTIINCMKNNSGWKISIRGNRIIWTLIDINGKTKSVFFEYNIREDISEYINRWFFVTITNNLNNAKIYINGKLESNTDIKDIREVIANGEIIFKLDGDIDRTQFIWMKYFSIFNTELSQSNIEERYKIQSYSEYLKDFWGNPLMYNKEYYMFNAGNKNSYIKLKKDSPVGEILTRSKYNQNSKYINYRDLYIGEKFIIRRKSNSQSINDDIVRKEDYIYLDFFNLNQEWRVYTYKYFKKEEEKLFLAPISDSDEFYNTIQIKEYDEQPTYSCQLLFKKDEESTDEIGLIGIHRFYESGIVFEEYKDYFCISKWYLKEVKRKPYNLKLGCNWQFIPKDEGWTE PVTINNFNYNDPIDNNNIIMMEPPFARGTGRYYKAFKITDRIWIIPERYTFGYKPEDFNKSSGIFNRDVCEYYDPDYLNTNDKKNIFLQTMIKLFNRIKSKPLGEKLLEMIINGIPYLGDRRVPLEEFNTNIASVTVNKLISNPGEVERKKGIFANLIIFGPGPVLNENETIDIGIQNHFASREGFGGIMQMKFCPEYVSVFNNVQENKGASIFNRRGYFSDPALILMHELIHVLHGLYGIKVDDLPIVPNEKKFFMQSTDAIQAEELYTFGGQDPSIITPSTDKSIYDKVLQNFRGIVDRLNKVLVCISDPNININIYKNKFKDKYKFVEDSEGKYSIDVESFDKLYKSLMFGFTETNIAENYKIKTRASYFSDSLPPVKIKNLLDNEIYTIEEGFNISDKDMEKEYRGQNKAINKQAYEEISKEHLAVYKIQMCKSVKPGICIDVDNEDLFFIADKNSFSDDLSKNERIEYNTQSNYIENDFPINELILDTDLISKIELPSENTESLTDFNVDVPVYEKQPAIKKIFTDENTIFQYLYSQTFPLDIRDISLTSSFDDALLFSNKVYSFFSMDYIKTANKVVEAGLFAGWVKQIVNDFVIEANKSNTMDKIADISLIVPYIGLALNVGNETAKGNFENAFEIAGASILLEFIPELLIPVVGAFLLESYIDNKNKIIKTIDNALTKRNEKWSDMYGLIVAQWLSTVNTQFYTIKEGMYKALNYQAQALEEIIKYRYNIYSEKEKSNINIDFNDINSKLNEGINQAIDNINNFINGCSVSYLMKKMIPLAVEKLLDFDNTLKKNLLNYIDENKLYLIGSAEYEKSKVNKYLKTIMPFDLSIYTNDTILIEMFNKYNSEILNNIILNLRYKDNNLIDLSGYGAKVEVYDGVELNDKNQFKLTSSANSKIRVTQNQNIIFNSVFLDFSVSFWIRIPKYKNDGIQNYIHNEYTIINCMKNNSGWKISIRGNRIIWTLIDINGKTKSVFFEYNIREDISEYINRWFFVTITNNLNNAKIYINGKLESNTDIKDIREVIANGEIIFKLDGDIDRTQFIWMKYFSIFNTELSQSNIEERYKIQSYSEYLKDFWGNPLMYNKEYYMFNAGNKNSYIKLKKDSPVGEILTRSKYNQNSKYINYRDLYIGEKFIIRRKSNSQSINDDIVRKEDYIYLDFFNLNQEWRVYTYKYFKKEEEKLFLAPISDSDEFYNTIQIKEYDEQPTYSCQLLFKKDEESTDEIGLIGIHRFYESGIVFEEYKDYFCISKWYLKEVKRKPYNLKLGCNWQFIPKDEGWTE 2np2-a1-m1-cA_2np2-a1-m1-cB Hbb-DNA complex Q57267 Q57267 3.02 X-RAY DIFFRACTION 170 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 102 102 RPKVTKSDIVDQIALNIKNNNLKLEKKYIRLVIDAFFEELKSNLCSNNVIEFRSFGTFEVRKRKGRLNARNPQTGEYVKVLDHHVAYFRPGKDLKERVWGIK RPKVTKSDIVDQIALNIKNNNLKLEKKYIRLVIDAFFEELKSNLCSNNVIEFRSFGTFEVRKRKGRLNARNPQTGEYVKVLDHHVAYFRPGKDLKERVWGIK 2np3-a1-m1-cA_2np3-a1-m1-cB Crystal structure of TetR-family regulator (SCO0857) from Streptomyces coelicolor A3. Q9RCV4 Q9RCV4 2.35 X-RAY DIFFRACTION 79 0.985 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 136 174 ILTAARVCFYGTKENLFLQALELPGKIEEAITAAAQGGLDGIGERVVRAHLSVWDDVSSRPALTVRSAARLRETATGILARALGGVITGEDALRTSVATQLVGLARYVAHLEPLASADTDTVARHYGRAVQAIVTD GGRRPGETRTREAILTAARVCFAERGFDATSLRRIAETAGVDQSLVHHFYGTKENLFLQALELPGKIEEAITAAAQGGLDGIGERVVRAHLSVWDDVSSRPALTVRSALRETATGILARALGGVITGEDALRTSVATQLVGLARYVAHLEPLASADTDTVARHYGRAVQAIVTD 2np5-a3-m1-cD_2np5-a3-m1-cB Crystal structure of a transcriptional regulator (RHA1_ro04179) from Rhodococcus sp. Rha1. Q0S914 Q0S914 1.8 X-RAY DIFFRACTION 125 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 154 183 2np5-a1-m1-cC_2np5-a1-m1-cA 2np5-a2-m1-cD_2np5-a2-m1-cB 2np5-a3-m1-cC_2np5-a3-m1-cA SPERLAAALFDVAAESGLKDEFAFALRTLVDKLLARLSEVERGGDPARALFAASQLLPLDEARSREAHVAAFAVRAATSPSLAEIRRKTLFTIRTGLSAVLIGIGTPEAETRAALLLATVDGLALDAIGSPALYPPEYLEHALDIQIGILQGAD TSPERLAAALFDVAAESGLEGASVREVAKRAGVSIGAVQHHFSTKDEFAFALRTLVDKLLARLSEVERGGDPARALFAASQLLPLDEARSREAHVAAFAVRAATSPSLAEIRRKTLFTIRTGLSAVLIGIGTPEAETRAALLLATVDGLALDAIGSPALYPPEYLEHALDIQIGILQGADVVP 2np5-a3-m1-cD_2np5-a3-m1-cC Crystal structure of a transcriptional regulator (RHA1_ro04179) from Rhodococcus sp. Rha1. Q0S914 Q0S914 1.8 X-RAY DIFFRACTION 58 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 154 180 SPERLAAALFDVAAESGLKDEFAFALRTLVDKLLARLSEVERGGDPARALFAASQLLPLDEARSREAHVAAFAVRAATSPSLAEIRRKTLFTIRTGLSAVLIGIGTPEAETRAALLLATVDGLALDAIGSPALYPPEYLEHALDIQIGILQGAD SPERLAAALFDVAAESGLEGASVREVAKRAGVSIGAVQHHFSTKDEFAFALRTLVDKLLARLSEVERGGDPARALFAASQLLPLDEARSREAHVAAFAVRAATSPSLAEIRRKTLFTIRTGLSAVLIGIGTPEAETRAALLLATVDGLALDAIGSPALYPPEYLEHALDIQIGILQGADV 2npj-a1-m2-cA_2npj-a1-m3-cA An unusual twin-His arrangement in the pore of ammonia channels is essential for substrate conductance P69681 P69681 2 X-RAY DIFFRACTION 142 1.0 562 (Escherichia coli) 562 (Escherichia coli) 363 363 1u77-a1-m1-cA_1u77-a1-m2-cA 1u77-a1-m1-cA_1u77-a1-m3-cA 1u77-a1-m2-cA_1u77-a1-m3-cA 1u7c-a1-m1-cA_1u7c-a1-m2-cA 1u7c-a1-m1-cA_1u7c-a1-m3-cA 1u7c-a1-m2-cA_1u7c-a1-m3-cA 1u7g-a1-m1-cA_1u7g-a1-m2-cA 1u7g-a1-m1-cA_1u7g-a1-m3-cA 1u7g-a1-m2-cA_1u7g-a1-m3-cA 1xqe-a1-m1-cA_1xqe-a1-m2-cA 1xqe-a1-m1-cA_1xqe-a1-m3-cA 1xqe-a1-m2-cA_1xqe-a1-m3-cA 1xqf-a1-m1-cA_1xqf-a1-m2-cA 1xqf-a1-m1-cA_1xqf-a1-m3-cA 1xqf-a1-m2-cA_1xqf-a1-m3-cA 2nmr-a1-m1-cA_2nmr-a1-m2-cA 2nmr-a1-m1-cA_2nmr-a1-m3-cA 2nmr-a1-m2-cA_2nmr-a1-m3-cA 2nop-a1-m1-cA_2nop-a1-m2-cA 2nop-a1-m1-cA_2nop-a1-m3-cA 2nop-a1-m2-cA_2nop-a1-m3-cA 2now-a1-m1-cA_2now-a1-m2-cA 2now-a1-m1-cA_2now-a1-m3-cA 2now-a1-m2-cA_2now-a1-m3-cA 2npc-a1-m1-cA_2npc-a1-m2-cA 2npc-a1-m1-cA_2npc-a1-m3-cA 2npc-a1-m2-cA_2npc-a1-m3-cA 2npd-a1-m1-cA_2npd-a1-m2-cA 2npd-a1-m1-cA_2npd-a1-m3-cA 2npd-a1-m2-cA_2npd-a1-m3-cA 2npe-a1-m1-cA_2npe-a1-m2-cA 2npe-a1-m1-cA_2npe-a1-m3-cA 2npe-a1-m2-cA_2npe-a1-m3-cA 2npg-a1-m1-cA_2npg-a1-m2-cA 2npg-a1-m1-cA_2npg-a1-m3-cA 2npg-a1-m2-cA_2npg-a1-m3-cA 2npj-a1-m1-cA_2npj-a1-m2-cA 2npj-a1-m1-cA_2npj-a1-m3-cA 2npk-a1-m1-cA_2npk-a1-m2-cA 2npk-a1-m1-cA_2npk-a1-m3-cA 2npk-a1-m2-cA_2npk-a1-m3-cA 2ns1-a1-m1-cA_2ns1-a1-m2-cA 2ns1-a1-m1-cA_2ns1-a1-m3-cA 2ns1-a1-m2-cA_2ns1-a1-m3-cA 2nuu-a1-m1-cA_2nuu-a1-m1-cB 2nuu-a1-m1-cA_2nuu-a1-m1-cC 2nuu-a1-m1-cB_2nuu-a1-m1-cC 2nuu-a2-m1-cE_2nuu-a2-m1-cD 2nuu-a2-m1-cE_2nuu-a2-m1-cF 2nuu-a2-m1-cF_2nuu-a2-m1-cD 2nuu-a3-m1-cA_2nuu-a3-m1-cB 2nuu-a3-m1-cA_2nuu-a3-m1-cC 2nuu-a3-m1-cB_2nuu-a3-m1-cC 2nuu-a3-m1-cE_2nuu-a3-m1-cD 2nuu-a3-m1-cE_2nuu-a3-m1-cF 2nuu-a3-m1-cF_2nuu-a3-m1-cD 2nuu-a4-m1-cA_2nuu-a4-m1-cB 2nuu-a4-m1-cA_2nuu-a4-m1-cC 2nuu-a4-m1-cB_2nuu-a4-m1-cC 2nuu-a4-m2-cE_2nuu-a4-m2-cD 2nuu-a4-m2-cE_2nuu-a4-m2-cF 2nuu-a4-m2-cF_2nuu-a4-m2-cD 2nuu-a5-m1-cA_2nuu-a5-m1-cB 2nuu-a5-m1-cA_2nuu-a5-m1-cC 2nuu-a5-m1-cB_2nuu-a5-m1-cC 2nuu-a5-m3-cE_2nuu-a5-m3-cD 2nuu-a5-m3-cE_2nuu-a5-m3-cF 2nuu-a5-m3-cF_2nuu-a5-m3-cD 3c1g-a1-m1-cA_3c1g-a1-m2-cA 3c1g-a1-m1-cA_3c1g-a1-m3-cA 3c1g-a1-m2-cA_3c1g-a1-m3-cA 3c1h-a1-m1-cA_3c1h-a1-m2-cA 3c1h-a1-m1-cA_3c1h-a1-m3-cA 3c1h-a1-m2-cA_3c1h-a1-m3-cA 3c1i-a1-m1-cA_3c1i-a1-m2-cA 3c1i-a1-m1-cA_3c1i-a1-m3-cA 3c1i-a1-m2-cA_3c1i-a1-m3-cA 3c1j-a1-m1-cA_3c1j-a1-m2-cA 3c1j-a1-m1-cA_3c1j-a1-m3-cA 3c1j-a1-m2-cA_3c1j-a1-m3-cA 4nh2-a1-m1-cA_4nh2-a1-m1-cD 4nh2-a1-m1-cA_4nh2-a1-m1-cF 4nh2-a1-m1-cF_4nh2-a1-m1-cD 4nh2-a2-m1-cB_4nh2-a2-m1-cC 4nh2-a2-m1-cB_4nh2-a2-m1-cE 4nh2-a2-m1-cC_4nh2-a2-m1-cE 6b21-a1-m1-cA_6b21-a1-m2-cA 6b21-a1-m1-cA_6b21-a1-m3-cA 6b21-a1-m2-cA_6b21-a1-m3-cA AVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLPCDVFGVFGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVP AVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLPCDVFGVFGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVP 2npm-a1-m1-cB_2npm-a1-m1-cA crystal structure of Cryptosporidium parvum 14-3-3 protein in complex with peptide Q5CUW0 Q5CUW0 2.52 X-RAY DIFFRACTION 48 0.996 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 235 237 SVNARESNVYMAKLAEQAERYDEMAKYMKDVVEARQSEELTVEERNLLSVAYKNAVGSRRSSWRIISSVEQKEHSRNAEDASKMCGKYRSKVEAELTDICNDILTMLDKHLIPTATSPDSKVFYFKMKGDYHRYISEFSTGDSKQSSAEDALKAYKDATVVAKDLEPTHPIRLGLALNFSVFHYEILNEPRAAIDMAKEAFEMAIEQLDKLSEDCYKDSTLIMQLLRDNLTLWTA MSDSVNARESNVYMAKLAEQAERYDEMAKYMKDVVEARQEELTVEERNLLSVAYKNAVGSRRSSWRIISSVEQKEHSRNAEDASKMCGKYRSKVEAELTDICNDILTMLDKHLIPTATSPDSKVFYFKMKGDYHRYISEFSTGDSKQSSAEDALKAYKDATVVAKDLEPTHPIRLGLALNFSVFHYEILNEPRAAIDMAKEAFEMAIEQLDKLSEDCYKDSTLIMQLLRDNLTLWTA 2npn-a2-m1-cA_2npn-a2-m2-cA Crystal structure of putative cobalamin synthesis related protein (CobF) from Corynebacterium diphtheriae Q6NIF5 Q6NIF5 1.6 X-RAY DIFFRACTION 145 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 233 233 ARTIYVIGIGTGSPEFLTLQAISGLRHAQAIVALDQKSDLLALRQKIVDTHAPGTPIYAVTDEEEVRRWHAERAHLLASTIRERTPDDGAVAFLVWGDPSLYDSTLRIIEHRNLEDLHADVKVIPGITAVQVLTAEHGILINRIGEAIHITTGRNLPETSAKDRRNCVVLDGKTAWQDVATEHTYWWGAFLGTEQQVLRKGYVHEIGAQVAELKQQLRTEHGWIDTYLLRELD ARTIYVIGIGTGSPEFLTLQAISGLRHAQAIVALDQKSDLLALRQKIVDTHAPGTPIYAVTDEEEVRRWHAERAHLLASTIRERTPDDGAVAFLVWGDPSLYDSTLRIIEHRNLEDLHADVKVIPGITAVQVLTAEHGILINRIGEAIHITTGRNLPETSAKDRRNCVVLDGKTAWQDVATEHTYWWGAFLGTEQQVLRKGYVHEIGAQVAELKQQLRTEHGWIDTYLLRELD 2npn-a3-m1-cA_2npn-a3-m3-cA Crystal structure of putative cobalamin synthesis related protein (CobF) from Corynebacterium diphtheriae Q6NIF5 Q6NIF5 1.6 X-RAY DIFFRACTION 17 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 233 233 ARTIYVIGIGTGSPEFLTLQAISGLRHAQAIVALDQKSDLLALRQKIVDTHAPGTPIYAVTDEEEVRRWHAERAHLLASTIRERTPDDGAVAFLVWGDPSLYDSTLRIIEHRNLEDLHADVKVIPGITAVQVLTAEHGILINRIGEAIHITTGRNLPETSAKDRRNCVVLDGKTAWQDVATEHTYWWGAFLGTEQQVLRKGYVHEIGAQVAELKQQLRTEHGWIDTYLLRELD ARTIYVIGIGTGSPEFLTLQAISGLRHAQAIVALDQKSDLLALRQKIVDTHAPGTPIYAVTDEEEVRRWHAERAHLLASTIRERTPDDGAVAFLVWGDPSLYDSTLRIIEHRNLEDLHADVKVIPGITAVQVLTAEHGILINRIGEAIHITTGRNLPETSAKDRRNCVVLDGKTAWQDVATEHTYWWGAFLGTEQQVLRKGYVHEIGAQVAELKQQLRTEHGWIDTYLLRELD 2nq2-a1-m1-cB_2nq2-a1-m1-cA An inward-facing conformation of a putative metal-chelate type ABC transporter. Q57130 Q57130 2.4 X-RAY DIFFRACTION 86 0.997 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 300 308 SYPKILFGLTLLLVITAVISLGIGRYSLSVQQQVIFQVRLPRILTALCVGAGLALSGVVLQGIFRNPLVNPHIIGVTSGSAFGGTLAIFFGFSLYGLFTSTILFGFGTLALVFLFSLLMLILIGMILSGLFSALVSLLQYISDTEEKLPSIVFWLMGSFATSNWEKLLFFFVPFLLCSSILLSLSWRLNLLSLDEKEAKALGVKMAPLRWLVIFLSGSLVACQVAISGSIGWVGLIIPHLSRMLVGANHQSLLPCTMLVGATYMLLVDNVARSLSDAEIPISILTALIGAPLFGVLVYKL YPKILFGLTLLLVITAVISLGIGRYSLSVPQIDPVQQQVIFQVRLPRILTALCVGAGLALSGVVLQGIFRNPLVNPHIIGVTSGSAFGGTLAIFFGFSLYGLFTSTILFGFGTLALVFLFSFKSLLMLILIGMILSGLFSALVSLLQYISDTEEKLPSIVFWLMGSFATSNWEKLLFFFVPFLLCSSILLSLSWRLNLLSLDEKEAKALGVKMAPLRWLVIFLSGSLVACQVAISGSIGWVGLIIPHLSRMLVGANHQSLLPCTMLVGATYMLLVDNVARSLSDAEIPISILTALIGAPLFGVLVYKL 2nq2-a1-m1-cD_2nq2-a1-m1-cC An inward-facing conformation of a putative metal-chelate type ABC transporter. Q57399 Q57399 2.4 X-RAY DIFFRACTION 103 0.996 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 248 251 MNKALSVENLGFYYQAFQQLNFDLNKGDILAVLGQNGCGKSTLLDLLLGIHRPIQGKIEVYQSIGFVPQFFSSPFAYSVLDIVLMGRSTHINTFAKPKSHDYQVAMQALDYLNLTHLAKREFTSLSGGQRQLILIARAIASECKLILLDEPTSALDLANQDIVLSLLIDLAQSQNMTVVFTTHQPNQVVAIANKTLLLNKQNFKFGETRNILTSENLTALFHLPMFEQQAQYKESFFTHFVPLYKTLL NKALSVENLGFYYQAENFLFQQLNFDLNKGDILAVLGQNGCGKSTLLDLLLGIHRPIQGKIEVYQSIGFVPQFFSSPFAYSVLDIVLMGRSTHINTFAKPKSHDYQVAMQALDYLNLTHLAKREFTSLSGGQRQLILIARAIASECKLILLDEPTSALDLANQDIVLSLLIDLAQSQNMTVVFTTHQPNQVVAIANKTLLLNKQNFKFGETRNILTSENLTALFHLPMFEQQAQYKESFFTHFVPLYKTLL 2nqa-a1-m1-cA_2nqa-a1-m1-cB Catalytic Domain of Human Calpain 8 P17655 A6NHC0 2.2 X-RAY DIFFRACTION 67 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 305 313 2nqa-a1-m1-cD_2nqa-a1-m1-cA 2nqa-a1-m1-cE_2nqa-a1-m1-cB NALKYLGQDFKTLRQQCLDSGVLFKDPEFPAPSALGYTQGIIWKRPTELPSPQFIVGGATRTDIQGGLGDCWLLAAIASLTLNEELLYRVVPRDQDFQENYAGIFHFQFWQYGEWVEVVIDDRLPTKNGQLLFLHSEQGNEFWSALLEKAYAKLNGYEALAGGSTVEGFEDFTGGISEFYDLKKPPANLYQIIRKALAGSLLGCSIDVYSAAEAEAITSQKLVKSHAYSVTGVEEVNFQGHPEKLIRLRNPWGEEWSGAWSDDAPEWNHIDPRRKEELDKKVEDGEFWMSLSDFVRQFSRLEICN NALKYLGQDFKTLRQQCLDSGVLFKDPEFPAPSALGYKDLGPGPQTQGIIWKRPTELPSPQFIVGGATRTDIQGGLGDCWLLAAIASLTLNEELLYRVVPRDQDFQENYAGIFHFQFWQYGEWVEVVIDDRLPTKNGQLLFLHSEQGNEFWSALLEKAYAKLNGYEALAGGSTVEGFEDFTGGSEFYDLKKPPANLYQIIRKALAGSLLGCSIDVYSAAEAEAITSQKLVKSHAYSVTGVEEVNFQGHPEKLIRLRNPWGEEWSGAWSDDAPEWNHIDPRRKEELDKKVEDGEFWMSLSDFVRQFSRLEICNL 2nql-a1-m1-cA_2nql-a1-m1-cB Crystal structure of a member of the enolase superfamily from Agrobacterium tumefaciens A9CL63 A9CL63 1.8 X-RAY DIFFRACTION 171 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 388 388 4dn1-a1-m1-cB_4dn1-a1-m1-cA MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI 2nql-a2-m1-cB_2nql-a2-m2-cB Crystal structure of a member of the enolase superfamily from Agrobacterium tumefaciens A9CL63 A9CL63 1.8 X-RAY DIFFRACTION 20 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 388 388 MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI 2nql-a2-m1-cB_2nql-a2-m4-cA Crystal structure of a member of the enolase superfamily from Agrobacterium tumefaciens A9CL63 A9CL63 1.8 X-RAY DIFFRACTION 102 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 388 388 2nql-a2-m2-cB_2nql-a2-m3-cA MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI 2nql-a2-m2-cB_2nql-a2-m4-cA Crystal structure of a member of the enolase superfamily from Agrobacterium tumefaciens A9CL63 A9CL63 1.8 X-RAY DIFFRACTION 47 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 388 388 2nql-a2-m1-cB_2nql-a2-m3-cA MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI MNSPIATVEVFTLTQPRKVPYLGALREGEVVNPNGYIVRKGNRTVYPTFDRSVLVRMTTEAGTVGWGETYGIVAPGAVAALINDLLAGFVIGRDASDPSAVYDDLYDMMRVRGYTGGFYVDALAALDIALWDIAGQEAGKSIRDLLGGGVDSFPAYVSGLPERTLKARGELAKYWQDRGFNAFKFATPVADDGPAAEIANLRQVLGPQAKIAADMHWNQTPERALELIAEMQPFDPWFAEAPVWTEDIAGLEKVSKNTDVPIAVGEEWRTHWDMRARIERCRIAIVQPEMGHKGITNFIRIGALAAEHGIDVIPHATVGAGIFLAASLQASSTLSMLKGHEFQHSIFEPNRRLLDGDMDCREGRYHLPSGPGLGVRPSEAALGLIERI 2nqm-a1-m1-cA_2nqm-a1-m1-cB MoeA T100A mutant P12281 P12281 3 X-RAY DIFFRACTION 168 1.0 562 (Escherichia coli) 562 (Escherichia coli) 322 403 LMSLDTALNEMLSRVTPLTAQETLPLVQCFGRILASDVVSPLDVPGFDNRRRGEDISAGAVVFPAGTRLTTAELPVIASLGIAEVPVIRKVRVALFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIRDDPHALRAAFIEADSQADVVISSGGVSVGEADYTKTILEELGEIAFWKLAIKPGKPFAFGKLSNSWFCGLPGNPVSATLTFYQLVQPLLAKLSGNTASGLPARQRVRTASRLKKTPGRLDFQRGVLQRNADGELEVTTTGHQGSHIFSSFSLGNCFIVLERDRGNVEVGEWVEVEPFNALFG LMSLDTALNEMLSRVTPLTAQETLPLVQCFGRILASDVVSPLDVPGFDNSAMDGYAVRLADIASGQPLPVAGKSFAGQPYHGEWPAGTCIRIMAGAPVPEGCEAVVMQEQTEQMDNGVRFTAEVRSGQNIRRRGEDISAGAVVFPAGTRLTTAELPVIASLGIAEVPVIRKVRVALFSTGDELQLPGQPLGDGQIYDTNRLAVHLMLEQLGCEVINLGIIRDDPHALRAAFIEADSQADVVISSGGVSVGEADYTKTILEELGEIAFWKLAIKPGKPFAFGKLSNSWFCGLPGNPVSATLTFYQLVQPLLAKLSGNTASGLPARQRVRTASRLKKTPGRLDFQRGVLQRNADGELEVTTTGHQGSHIFSSFSLGNCFIVLERDRGNVEVGEWVEVEPFNALFG 2nqp-a2-m1-cA_2nqp-a2-m1-cB Crystal structure of pseudoudirinde synthase TruA in complex with leucyl tRNA P07649 P07649 3.5 X-RAY DIFFRACTION 99 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 264 264 1dj0-a1-m1-cA_1dj0-a1-m1-cB 2nqp-a1-m1-cD_2nqp-a1-m1-cC 2nr0-a1-m1-cA_2nr0-a1-m1-cB 2nr0-a2-m1-cC_2nr0-a2-m1-cD 2nre-a1-m1-cA_2nre-a1-m2-cA PPVYKIALGIEYDGSKYYGWQRQNEVRSVQEKLEKALSQVANEPITVFCAGRTDAGVHGTGQVVHFETTALRKDAAWTLGVNANLPGDIAVRWVKTVPDDFHARFSATARRYRYIIYNHRLRPAVLSKGVTHFYEPLDAERMHRAAQCLLGENDFTSFRAVQCQSRTPWRNVMHINVTRHGPYVVVDIKANAFVHHMVRNIVGSLMEVGAHNQPESWIAELLAAKDRTLAAATAKAEGLYLVAVDYPDRYDLPKPPMGPLFLAD PPVYKIALGIEYDGSKYYGWQRQNEVRSVQEKLEKALSQVANEPITVFCAGRTDAGVHGTGQVVHFETTALRKDAAWTLGVNANLPGDIAVRWVKTVPDDFHARFSATARRYRYIIYNHRLRPAVLSKGVTHFYEPLDAERMHRAAQCLLGENDFTSFRAVQCQSRTPWRNVMHINVTRHGPYVVVDIKANAFVHHMVRNIVGSLMEVGAHNQPESWIAELLAAKDRTLAAATAKAEGLYLVAVDYPDRYDLPKPPMGPLFLAD 2nr4-a1-m1-cB_2nr4-a1-m1-cA Crystal structure of FMN-bound protein MM1853 from Methanosarcina mazei, Pfam DUF447 Q8PVV4 Q8PVV4 1.85 X-RAY DIFFRACTION 110 0.995 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 182 191 DLSSFGIREGISEIIASTGFEHPNAAPIGIVMKGERPFVRLFKGSHTWENVLKEKCLASNVVYDPILFVRSTFLVPSEFEYVDAGEFKFPVLKEAIAWVVFECINLRNTSLVADLVPLNAGFNERNIKELPVPNRGFNAVLEATVHATRYQYLELIRHYESLASKCGGDAEKKAMKLIYEAL DLSSFGIREGISEIIASTGFEHPNAAPIGIVMKGERPFVRLFKGSHTWENVLKEKCLASNVVYDPILFVRSTFSDLVPSEFEYVDGEFKFPVLKEAIAWVVFECINLRNTDQSLVADLVPLNAGFNERNIKELPVPNRGFNAVLEATVHATRYQLTGEEKYLELIRHYESLASKCGGDAEKKAMKLIYEAL 2nr5-a1-m1-cA_2nr5-a1-m1-cG Crystal Structure of Protein of Unknown Function SO2669 from Shewanella oneidensis MR-1 Q8EDS4 Q8EDS4 1.9 X-RAY DIFFRACTION 12 0.982 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 56 56 2nr5-a1-m1-cF_2nr5-a1-m1-cC TKKERIAIQRSAEEALGKLKAIRQLCGAEDSDQEVEIWTNRIKELEDWLWGESPIA TKKERIAIQRSAEEALGKLKAIRQLCGAESSDQEVEIWTNRIKELEDWLWGESPIA 2nr5-a3-m5-cB_2nr5-a3-m5-cC Crystal Structure of Protein of Unknown Function SO2669 from Shewanella oneidensis MR-1 Q8EDS4 Q8EDS4 1.9 X-RAY DIFFRACTION 59 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 54 60 2nr5-a1-m1-cA_2nr5-a1-m1-cH 2nr5-a1-m1-cB_2nr5-a1-m1-cC 2nr5-a1-m1-cG_2nr5-a1-m1-cD 2nr5-a2-m1-cA_2nr5-a2-m1-cH 2nr5-a2-m1-cE_2nr5-a2-m2-cE 2nr5-a2-m2-cA_2nr5-a2-m2-cH 2nr5-a2-m3-cF_2nr5-a2-m4-cF 2nr5-a3-m1-cB_2nr5-a3-m1-cC 2nr5-a3-m1-cG_2nr5-a3-m1-cD 2nr5-a3-m5-cG_2nr5-a3-m5-cD TKKERIAIQRSAEEALGKLKAIRQLCGAEDQEVEIWTNRIKELEDWLWGESPIA TKKERIAIQRSAEEALGKLKAIRQLCGAEDSSDSSDQEVEIWTNRIKELEDWLWGESPIA 2nr5-a3-m5-cB_2nr5-a3-m5-cG Crystal Structure of Protein of Unknown Function SO2669 from Shewanella oneidensis MR-1 Q8EDS4 Q8EDS4 1.9 X-RAY DIFFRACTION 57 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 54 56 2nr5-a1-m1-cA_2nr5-a1-m1-cE 2nr5-a1-m1-cB_2nr5-a1-m1-cG 2nr5-a2-m1-cA_2nr5-a2-m1-cE 2nr5-a2-m2-cA_2nr5-a2-m2-cE 2nr5-a2-m3-cF_2nr5-a2-m1-cH 2nr5-a2-m4-cF_2nr5-a2-m2-cH 2nr5-a3-m1-cB_2nr5-a3-m1-cG 2nr5-a3-m1-cC_2nr5-a3-m5-cD 2nr5-a3-m1-cD_2nr5-a3-m5-cC TKKERIAIQRSAEEALGKLKAIRQLCGAEDQEVEIWTNRIKELEDWLWGESPIA TKKERIAIQRSAEEALGKLKAIRQLCGAESSDQEVEIWTNRIKELEDWLWGESPIA 2nr9-a2-m1-cA_2nr9-a2-m2-cA Crystal structure of GlpG, Rhomboid Peptidase from Haemophilus influenzae P44783 P44783 2.2 X-RAY DIFFRACTION 26 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 192 192 FLAQQGKITLILTALCVLIYIAQQLGFEDDIMYLMHYPAYEEQDSEVWRYISHTLVHLSNLHILFNLSWFFIFGGMIERTFGSVKLLMLYVVASAITGYVQNYVSGPAFFGLSGVVYAVLGYVFIRDKLNHHLFDLPEGFFTMLLVGIALGFISPLFGVEMGNAAHISGLIVGLIWGFIDSKLRKNSLELVP FLAQQGKITLILTALCVLIYIAQQLGFEDDIMYLMHYPAYEEQDSEVWRYISHTLVHLSNLHILFNLSWFFIFGGMIERTFGSVKLLMLYVVASAITGYVQNYVSGPAFFGLSGVVYAVLGYVFIRDKLNHHLFDLPEGFFTMLLVGIALGFISPLFGVEMGNAAHISGLIVGLIWGFIDSKLRKNSLELVP 2nrc-a3-m1-cC_2nrc-a3-m1-cD C28A Mutant of Succinyl-CoA:3-Ketoacid CoA Transferase from Pig Heart Q29551 Q29551 2.05 X-RAY DIFFRACTION 171 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 467 469 1m3e-a1-m1-cA_1m3e-a1-m1-cB 1m3e-a2-m1-cD_1m3e-a2-m1-cC 1o9l-a1-m1-cB_1o9l-a1-m1-cA 1o9l-a2-m1-cC_1o9l-a2-m1-cD 1ooy-a1-m1-cA_1ooy-a1-m1-cB 1ooy-a1-m2-cA_1ooy-a1-m2-cB 1ooy-a2-m1-cA_1ooy-a2-m1-cB 1ooz-a1-m1-cB_1ooz-a1-m1-cA 1ooz-a1-m2-cB_1ooz-a1-m2-cA 1ooz-a2-m1-cB_1ooz-a2-m1-cA 1ope-a1-m1-cA_1ope-a1-m1-cB 1ope-a1-m2-cA_1ope-a1-m2-cB 1ope-a2-m1-cA_1ope-a2-m1-cB 2nrb-a1-m1-cA_2nrb-a1-m1-cB 2nrb-a2-m1-cC_2nrb-a2-m1-cD 2nrc-a1-m1-cA_2nrc-a1-m1-cB 2nrc-a2-m1-cC_2nrc-a2-m1-cD 2nrc-a3-m1-cA_2nrc-a3-m1-cB 3dlx-a1-m1-cB_3dlx-a1-m1-cA 3dlx-a2-m1-cD_3dlx-a2-m1-cC 3k6m-a1-m1-cB_3k6m-a1-m1-cA 3k6m-a2-m1-cD_3k6m-a2-m1-cC 3oxo-a1-m1-cB_3oxo-a1-m1-cA 3oxo-a2-m1-cC_3oxo-a2-m1-cD 3oxo-a3-m1-cE_3oxo-a3-m1-cF 3oxo-a4-m1-cH_3oxo-a4-m1-cG TKFYTDAVEAVKDIPNGATVLVGGFGLAGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERLSVRKNVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAKGNAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVT TKFYTDAVEAVKDIPNGATVLVGGFGLAGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERLSVRKGDNVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAKGNAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVT 2nrc-a3-m1-cD_2nrc-a3-m1-cB C28A Mutant of Succinyl-CoA:3-Ketoacid CoA Transferase from Pig Heart Q29551 Q29551 2.05 X-RAY DIFFRACTION 81 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 469 472 TKFYTDAVEAVKDIPNGATVLVGGFGLAGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERLSVRKGDNVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAKGNAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVT TKFYTDAVEAVKDIPNGATVLVGGFGLAGIPENLIGALLKTGVKELTAVSNNAGVDNFGLGLLLQSKQIKRMISSYVGENAEFERQYLAGELEVELTPQGTLAERIRAGGAGVPAFYTSTGYGTLVQEGGSPIKYNKDGSIAIASKPREVREFNGQHFILEEAIRGDFALVKAWKADQAGNVTFRKSARNFNLPMCKAAETTVVEVEEIVDIGSFAPEDIHIPKIYVHRLVKGEKYEKRIERLSVRKEKLGDNVRERIIKRAALEFEDGMYANLGIGIPLLASNFISPNMTVHLQSENGILGLGPYPLQNEVDADLINAGKETVTVLPGASYFSSDESFAMIRGGHVNLTMLGAMQVSKYGDLANWMIPGKLVKGMGGAMDLVSSAKTKVVVTMEHSAKGNAHKIMEKCTLPLTGKQCVNRIITEKAVFDVDRKKGLTLIELWEGLTVDDIKKSTGCDFAVSPKLIPMQQVT 2nrh-a1-m1-cA_2nrh-a1-m1-cB Crystal structure of conserved putative Baf family transcriptional activator from Campylobacter jejuni Q0PBB6 Q0PBB6 2.3 X-RAY DIFFRACTION 120 0.984 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 192 199 LLLCDIGNSNANFLDKYFTLNIDQFLEFIFYINVNEHLKEHLKNQKNFINLEPYFLFDTIYQGLGIDRIAACYTIEDGVVVDAGSAITIDIIHLGGFILPGIANYKKIYSHISPFNTQVSLDAFPQKTMDALSYGVFKGIYLLIKDAAQNKKLYFTGGDGQFLANYFDHAIYDKLLIFRGMKKIIKENPNLL LLLCDIGNSNANFLDKYFTLNIDQFLEFKNQKIFYINVNEHLKEHLKNQKNFINLEPYFLFDTIYQGLGIDRIAACYTIEDGVVVDAGSAITIDIISNSIHLGGFILPGIANYKKIYSHISPRLFNTQVSLDAFPQKTMDALSYGVFKGIYLLIKDAAKKLYFTGGDGQFLANYFDHAIYDKLLIFRGMKKIIKENPNL 2nrk-a1-m1-cA_2nrk-a1-m2-cA Crystal structure of conserved protein GrpB from Enterococcus faecalis Q837C3 Q837C3 1.65 X-RAY DIFFRACTION 39 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 163 163 IVTEYQPAWVEQFEEEAQALKQILKENCLKVEHIGSTSVPNLAAKPIIDFLVIVEEIEKVDLLQWEFERIGYEYGEFGLSGRRYLRKGPIKRTHHVHIYQFDNTQEILRHLAFRNYLRENPAIATTYGTLKKQLAQAHPDSIDKYKDAFIKKIEKEALKKYWE IVTEYQPAWVEQFEEEAQALKQILKENCLKVEHIGSTSVPNLAAKPIIDFLVIVEEIEKVDLLQWEFERIGYEYGEFGLSGRRYLRKGPIKRTHHVHIYQFDNTQEILRHLAFRNYLRENPAIATTYGTLKKQLAQAHPDSIDKYKDAFIKKIEKEALKKYWE 2nrn-a1-m1-cA_2nrn-a1-m1-cC Self-assembly of coiled-coil tetramers in the 1.40 A structure of a leucine-zipper mutant P03069 P03069 1.4 X-RAY DIFFRACTION 14 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 30 31 KVKQLADKVEELLSKNYHLANEVARLAKLV KVKQLADKVEELLSKNYHLANEVARLAKLVG 2nrn-a1-m1-cB_2nrn-a1-m1-cD Self-assembly of coiled-coil tetramers in the 1.40 A structure of a leucine-zipper mutant P03069 P03069 1.4 X-RAY DIFFRACTION 48 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 33 34 KVKQLADKVEELLSKNYHLANEVARLAKLVGER MKVKQLADKVEELLSKNYHLANEVARLAKLVGER 2nrn-a1-m1-cC_2nrn-a1-m1-cD Self-assembly of coiled-coil tetramers in the 1.40 A structure of a leucine-zipper mutant P03069 P03069 1.4 X-RAY DIFFRACTION 49 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 31 34 2nrn-a1-m1-cA_2nrn-a1-m1-cB KVKQLADKVEELLSKNYHLANEVARLAKLVG MKVKQLADKVEELLSKNYHLANEVARLAKLVGER 2ns1-a1-m2-cB_2ns1-a1-m3-cB Crystal structure of the e. coli ammonia channel AMTB complexed with the signal transduction protein GLNK P0AC55 P0AC55 1.962 X-RAY DIFFRACTION 77 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 113 113 1gnk-a2-m1-cB_1gnk-a2-m4-cB 1gnk-a2-m1-cB_1gnk-a2-m5-cB 1gnk-a2-m4-cB_1gnk-a2-m5-cB 2ns1-a1-m1-cB_2ns1-a1-m2-cB 2ns1-a1-m1-cB_2ns1-a1-m3-cB 2nuu-a1-m1-cG_2nuu-a1-m1-cH 2nuu-a1-m1-cG_2nuu-a1-m1-cI 2nuu-a1-m1-cH_2nuu-a1-m1-cI 2nuu-a2-m1-cJ_2nuu-a2-m1-cK 2nuu-a2-m1-cJ_2nuu-a2-m1-cL 2nuu-a2-m1-cK_2nuu-a2-m1-cL 2nuu-a3-m1-cG_2nuu-a3-m1-cH 2nuu-a3-m1-cG_2nuu-a3-m1-cI 2nuu-a3-m1-cH_2nuu-a3-m1-cI 2nuu-a3-m1-cJ_2nuu-a3-m1-cK 2nuu-a3-m1-cJ_2nuu-a3-m1-cL 2nuu-a3-m1-cK_2nuu-a3-m1-cL 2nuu-a4-m1-cG_2nuu-a4-m1-cH 2nuu-a4-m1-cG_2nuu-a4-m1-cI 2nuu-a4-m1-cH_2nuu-a4-m1-cI 2nuu-a4-m2-cJ_2nuu-a4-m2-cK 2nuu-a4-m2-cJ_2nuu-a4-m2-cL 2nuu-a4-m2-cK_2nuu-a4-m2-cL 2nuu-a5-m1-cG_2nuu-a5-m1-cH 2nuu-a5-m1-cG_2nuu-a5-m1-cI 2nuu-a5-m1-cH_2nuu-a5-m1-cI 2nuu-a5-m3-cJ_2nuu-a5-m3-cK 2nuu-a5-m3-cJ_2nuu-a5-m3-cL 2nuu-a5-m3-cK_2nuu-a5-m3-cL SMKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEFSVNFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL SMKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEFSVNFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL 2ns2-a1-m1-cB_2ns2-a1-m1-cA Crystal Structure of Spindlin1 Q9Y657 Q9Y657 2.2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 172 201 NIVGCRIQHGWKEGNGPVTQWKGTVLDQVPVNPSLYLIKYDGFDCVYGLELNKDERVSALEVLPDADTMIGKAVEHMEWRGMVLARAPVMNTWFYITYEKDPVLYMYQLLDDYKEGDLRIMVVDSLVGKQVEYAKEDGSKRTGMVIHQVEAKPSVYFIKFDDDFHIYVYDLV RRNIVGCRIQHGWKEGNGPVTQWKGTVLDQVPVNPSLYLIKYDGFDCVYGLELNKDERVSALEVLPDRVATSRISDAHLADTMIGKAVEHMFETEDGSKDEWRGMVLARAPVMNTWFYITYEKDPVLYMYQLLDDYKEGDLRIMPDPGEVVDSLVGKQVEYAKEDGSKRTGMVIHQVEAKPSVYFIKFDDDFHIYVYDLVK 2ns8-a3-m1-cA_2ns8-a3-m2-cC How an in vitro selected peptide mimics the antibiotic tetracycline to induce TET repressor P04483 P04483 2.55 X-RAY DIFFRACTION 33 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 200 206 RLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAIEMLDRHHTHFSPLEGESWQDFLRNNAKSFRNALLSHRDGAKVHLGTRPTEKQYETLENQLAFLTQQGFSLENALYALSAVGHFTLGSVLEDQEHQVAKEERETPTTDSMPPLLRQAIELFDHQGAEPAFLHGLESLIRGFEVQLT SRLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAIEMLDRHHTHFSPLEGESWQDFLRNNAKSFRNALLSHRDGAKVHLGTRPTEKQYETLENQLAFLTQQGFSLENALYALSAVGHFTLGSVLEDQEHQVAKEERETPTTDSMPPLLRQAIELFDHQGAEPAFLHGLESLIRGFEVQLTALLQI 2ns8-a3-m2-cD_2ns8-a3-m1-cA How an in vitro selected peptide mimics the antibiotic tetracycline to induce TET repressor P04483 P04483 2.55 X-RAY DIFFRACTION 10 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 198 200 RLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAIEMLDRHHTHFSPLEGESWQDFLRNNAKSFRNALLSHRDGAKVHLGTRPTEKQYETLENQLAFLTQQGFSLENALYALSAVGHFTLGSVLEDQEHQVAKEERETDSMPPLLRQAIELFDHQGAEPAFLHGLESLIRGFEVQLTA RLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAIEMLDRHHTHFSPLEGESWQDFLRNNAKSFRNALLSHRDGAKVHLGTRPTEKQYETLENQLAFLTQQGFSLENALYALSAVGHFTLGSVLEDQEHQVAKEERETPTTDSMPPLLRQAIELFDHQGAEPAFLHGLESLIRGFEVQLT 2ns8-a3-m2-cD_2ns8-a3-m2-cC How an in vitro selected peptide mimics the antibiotic tetracycline to induce TET repressor P04483 P04483 2.55 X-RAY DIFFRACTION 170 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 198 206 2ns7-a1-m1-cB_2ns7-a1-m1-cA 2ns8-a1-m1-cA_2ns8-a1-m1-cB 2ns8-a2-m1-cD_2ns8-a2-m1-cC 2ns8-a3-m1-cA_2ns8-a3-m1-cB 3zqf-a1-m1-cA_3zqf-a1-m2-cA 3zqg-a1-m1-cA_3zqg-a1-m2-cA 3zqh-a1-m1-cA_3zqh-a1-m2-cA 3zqi-a1-m1-cA_3zqi-a1-m1-cB 4ac0-a1-m1-cA_4ac0-a1-m2-cA 6sy4-a1-m1-cB_6sy4-a1-m1-cA 6sy6-a1-m1-cB_6sy6-a1-m1-cA RLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAIEMLDRHHTHFSPLEGESWQDFLRNNAKSFRNALLSHRDGAKVHLGTRPTEKQYETLENQLAFLTQQGFSLENALYALSAVGHFTLGSVLEDQEHQVAKEERETDSMPPLLRQAIELFDHQGAEPAFLHGLESLIRGFEVQLTA SRLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAIEMLDRHHTHFSPLEGESWQDFLRNNAKSFRNALLSHRDGAKVHLGTRPTEKQYETLENQLAFLTQQGFSLENALYALSAVGHFTLGSVLEDQEHQVAKEERETPTTDSMPPLLRQAIELFDHQGAEPAFLHGLESLIRGFEVQLTALLQI 2ns9-a1-m1-cA_2ns9-a1-m1-cB Crystal structure of protein APE2225 from Aeropyrum pernix K1, Pfam COXG Q9Y9R3 Q9Y9R3 1.8 X-RAY DIFFRACTION 82 0.98 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 152 152 AGVWGLKVRYEGSFEVSKTPEEVFEFLTDPKRFSRAFPGFKSVEVEDGSFTIELRLSLGPLRGDARVRASFEDLEKPSKATVKGSGRGAGSTLDFTLRFAVEPSGGGSRVSWVFEGNVGGLAASMGGRVLDSLARRMINDVISGVKRELGEA RLHAGVWGLKVRYEGSFEVSKTPEEVFEFLTDPKRFSRAFPGFKSVEVEDGSFTIELRLSLGPLRGDARVRASFEDLEKPSKATVKGSGRGAGSTLDFTLRFAVEPSGGGSRVSWVFEGNVGGLAASMGGRVLDSLARRMINDVISGVKREL 2nsa-a2-m1-cA_2nsa-a2-m2-cA Structures of and interactions between domains of trigger factor from Themotoga maritim Q9WZF8 Q9WZF8 1.7 X-RAY DIFFRACTION 58 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 165 165 EFETLEQLKESLKKEGKEIYDVEKESREQLLEKLPEIVEIEISDRTLEILVNEAINRLKREGRYEQIVSSYESEEKFREELKERILDDIKRDRVIEVLAQEKGISVNDEELEKEAEELAPFWGISPDRAKSLVKARQDLREELRWAILKRKVLDLLLQEVEHHHH EFETLEQLKESLKKEGKEIYDVEKESREQLLEKLPEIVEIEISDRTLEILVNEAINRLKREGRYEQIVSSYESEEKFREELKERILDDIKRDRVIEVLAQEKGISVNDEELEKEAEELAPFWGISPDRAKSLVKARQDLREELRWAILKRKVLDLLLQEVEHHHH 2nsc-a2-m1-cA_2nsc-a2-m2-cA Structures of and interactions between domains of trigger factor from Themotoga maritima Q9WZF8 Q9WZF8 2.2 X-RAY DIFFRACTION 190 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 109 109 2nsb-a2-m1-cA_2nsb-a2-m2-cA MEVKELERDKNRVVLEYVFGAEEIAQAEDKAVRYLNQRVEIPGFRKGRIPKNVLKMKLGEEFQEYTLDFLMDLIPDTLKDRKLILSPIVTERELKDVTARVVVEVHEEP MEVKELERDKNRVVLEYVFGAEEIAQAEDKAVRYLNQRVEIPGFRKGRIPKNVLKMKLGEEFQEYTLDFLMDLIPDTLKDRKLILSPIVTERELKDVTARVVVEVHEEP 2nsh-a1-m1-cA_2nsh-a1-m8-cA E. coli PurE H45Q mutant complexed with nitro-AIR P0AG18 P0AG18 1.8 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 163 163 1d7a-a1-m1-cA_1d7a-a1-m1-cO 1d7a-a1-m1-cB_1d7a-a1-m1-cN 1d7a-a1-m1-cC_1d7a-a1-m1-cM 1d7a-a1-m1-cD_1d7a-a1-m1-cL 1qcz-a1-m1-cA_1qcz-a1-m8-cA 1qcz-a1-m2-cA_1qcz-a1-m7-cA 1qcz-a1-m3-cA_1qcz-a1-m6-cA 1qcz-a1-m4-cA_1qcz-a1-m5-cA 2ate-a1-m1-cA_2ate-a1-m8-cA 2ate-a1-m2-cA_2ate-a1-m7-cA 2ate-a1-m3-cA_2ate-a1-m6-cA 2ate-a1-m4-cA_2ate-a1-m5-cA 2nsh-a1-m2-cA_2nsh-a1-m7-cA 2nsh-a1-m3-cA_2nsh-a1-m6-cA 2nsh-a1-m4-cA_2nsh-a1-m5-cA 2nsj-a1-m1-cA_2nsj-a1-m8-cA 2nsj-a1-m2-cA_2nsj-a1-m7-cA 2nsj-a1-m3-cA_2nsj-a1-m6-cA 2nsj-a1-m4-cA_2nsj-a1-m5-cA 2nsl-a1-m1-cA_2nsl-a1-m8-cA 2nsl-a1-m2-cA_2nsl-a1-m7-cA 2nsl-a1-m3-cA_2nsl-a1-m6-cA 2nsl-a1-m4-cA_2nsl-a1-m5-cA PARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAQRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA PARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAQRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA 2nsh-a1-m3-cA_2nsh-a1-m8-cA E. coli PurE H45Q mutant complexed with nitro-AIR P0AG18 P0AG18 1.8 X-RAY DIFFRACTION 113 1.0 562 (Escherichia coli) 562 (Escherichia coli) 163 163 1d7a-a1-m1-cA_1d7a-a1-m1-cL 1d7a-a1-m1-cB_1d7a-a1-m1-cM 1d7a-a1-m1-cC_1d7a-a1-m1-cO 1d7a-a1-m1-cD_1d7a-a1-m1-cN 1qcz-a1-m1-cA_1qcz-a1-m5-cA 1qcz-a1-m2-cA_1qcz-a1-m6-cA 1qcz-a1-m3-cA_1qcz-a1-m8-cA 1qcz-a1-m4-cA_1qcz-a1-m7-cA 2ate-a1-m1-cA_2ate-a1-m5-cA 2ate-a1-m2-cA_2ate-a1-m6-cA 2ate-a1-m3-cA_2ate-a1-m8-cA 2ate-a1-m4-cA_2ate-a1-m7-cA 2nsh-a1-m1-cA_2nsh-a1-m5-cA 2nsh-a1-m2-cA_2nsh-a1-m6-cA 2nsh-a1-m4-cA_2nsh-a1-m7-cA 2nsj-a1-m1-cA_2nsj-a1-m5-cA 2nsj-a1-m2-cA_2nsj-a1-m6-cA 2nsj-a1-m3-cA_2nsj-a1-m8-cA 2nsj-a1-m4-cA_2nsj-a1-m7-cA 2nsl-a1-m1-cA_2nsl-a1-m5-cA 2nsl-a1-m2-cA_2nsl-a1-m6-cA 2nsl-a1-m3-cA_2nsl-a1-m8-cA 2nsl-a1-m4-cA_2nsl-a1-m7-cA PARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAQRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA PARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAQRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA 2nsh-a1-m6-cA_2nsh-a1-m8-cA E. coli PurE H45Q mutant complexed with nitro-AIR P0AG18 P0AG18 1.8 X-RAY DIFFRACTION 40 1.0 562 (Escherichia coli) 562 (Escherichia coli) 163 163 1d7a-a1-m1-cA_1d7a-a1-m1-cC 1d7a-a1-m1-cA_1d7a-a1-m1-cD 1d7a-a1-m1-cB_1d7a-a1-m1-cC 1d7a-a1-m1-cB_1d7a-a1-m1-cD 1d7a-a1-m1-cL_1d7a-a1-m1-cN 1d7a-a1-m1-cL_1d7a-a1-m1-cO 1d7a-a1-m1-cM_1d7a-a1-m1-cN 1d7a-a1-m1-cM_1d7a-a1-m1-cO 1qcz-a1-m1-cA_1qcz-a1-m3-cA 1qcz-a1-m1-cA_1qcz-a1-m4-cA 1qcz-a1-m2-cA_1qcz-a1-m3-cA 1qcz-a1-m2-cA_1qcz-a1-m4-cA 1qcz-a1-m5-cA_1qcz-a1-m7-cA 1qcz-a1-m5-cA_1qcz-a1-m8-cA 1qcz-a1-m6-cA_1qcz-a1-m7-cA 1qcz-a1-m6-cA_1qcz-a1-m8-cA 2ate-a1-m1-cA_2ate-a1-m3-cA 2ate-a1-m1-cA_2ate-a1-m4-cA 2ate-a1-m2-cA_2ate-a1-m3-cA 2ate-a1-m2-cA_2ate-a1-m4-cA 2ate-a1-m5-cA_2ate-a1-m7-cA 2ate-a1-m5-cA_2ate-a1-m8-cA 2ate-a1-m6-cA_2ate-a1-m7-cA 2ate-a1-m6-cA_2ate-a1-m8-cA 2nsh-a1-m1-cA_2nsh-a1-m3-cA 2nsh-a1-m1-cA_2nsh-a1-m4-cA 2nsh-a1-m2-cA_2nsh-a1-m3-cA 2nsh-a1-m2-cA_2nsh-a1-m4-cA 2nsh-a1-m5-cA_2nsh-a1-m7-cA 2nsh-a1-m5-cA_2nsh-a1-m8-cA 2nsh-a1-m6-cA_2nsh-a1-m7-cA 2nsj-a1-m1-cA_2nsj-a1-m3-cA 2nsj-a1-m1-cA_2nsj-a1-m4-cA 2nsj-a1-m2-cA_2nsj-a1-m3-cA 2nsj-a1-m2-cA_2nsj-a1-m4-cA 2nsj-a1-m5-cA_2nsj-a1-m7-cA 2nsj-a1-m5-cA_2nsj-a1-m8-cA 2nsj-a1-m6-cA_2nsj-a1-m7-cA 2nsj-a1-m6-cA_2nsj-a1-m8-cA 2nsl-a1-m1-cA_2nsl-a1-m3-cA 2nsl-a1-m1-cA_2nsl-a1-m4-cA 2nsl-a1-m2-cA_2nsl-a1-m3-cA 2nsl-a1-m2-cA_2nsl-a1-m4-cA 2nsl-a1-m5-cA_2nsl-a1-m7-cA 2nsl-a1-m5-cA_2nsl-a1-m8-cA 2nsl-a1-m6-cA_2nsl-a1-m7-cA 2nsl-a1-m6-cA_2nsl-a1-m8-cA PARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAQRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA PARVAIVMGSKSDWATMQFAAEIFEILNVPHHVEVVSAQRTPDKLFSFAESAEENGYQVIIAGAGGAAHLPGMIAAKTLVPVLGVPVQSAALSGVDSLYSIVQMPRGIPVGTLAIGKAGAANAALLAAQILATHDKELHQRLNDWRKAQTDEVLENPDPRGAA 2ntf-a3-m1-cL_2ntf-a3-m1-cA Crystal Structure of a Quorum-Quenching Antibody in Complex with an N-Acyl-L-Homoserine Lactone Analog 3.18 X-RAY DIFFRACTION 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 QAVVTQESALTTSPGETVTLTCRSSTGAVTTRNYANWVQEKPDHFFTGLIGDTNNRAPGVPARFSGSLIGHKAALTITGAQTEDESVYFCALWYSNHWVFGGGTKLTVLGQPKSSPSVTLFPPSSEELETNKATLVCTITDFYPGVVTVDWKVDGTPVTQGMETTQPSKQSNNKYMASSYLTLTAGAWERHSSYSCQVTHEGHTVEKSLSR QAVVTQESALTTSPGETVTLTCRSSTGAVTTRNYANWVQEKPDHFFTGLIGDTNNRAPGVPARFSGSLIGHKAALTITGAQTEDESVYFCALWYSNHWVFGGGTKLTVLGQPKSSPSVTLFPPSSEELETNKATLVCTITDFYPGVVTVDWKVDGTPVTQGMETTQPSKQSNNKYMASSYLTLTAGAWERHSSYSCQVTHEGHTVEKSLSR 2ntk-a1-m1-cB_2ntk-a1-m1-cD Crystal structure of PurO/IMP from Methanothermobacter thermoautotrophicus O27099 O27099 2.03 X-RAY DIFFRACTION 19 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 202 202 1kuu-a1-m1-cA_1kuu-a1-m3-cA 1kuu-a1-m2-cA_1kuu-a1-m4-cA 2ntk-a1-m1-cC_2ntk-a1-m1-cA 2ntl-a1-m1-cA_2ntl-a1-m1-cC 2ntl-a1-m1-cB_2ntl-a1-m1-cD 2ntm-a1-m1-cA_2ntm-a1-m1-cC 2ntm-a1-m1-cB_2ntm-a1-m1-cD MYLGRILAVGRNSNGSFVAYRVSSRSFPNRTTSIQEERVAVVPVEGHERDVFRNPYIAYNCIRIVGDTAVVSNGSHTDTIADKVALGMNLRDAIGLSLLAMDYEKDELNTPRIAAAINGSEAFIGIVTADGLMVSRVPEETPVYISTYEQTEPAATEFKAGSPEEAAEFILKGGEFAAFTHPVTAAAAFNDGEGWNLATREM MYLGRILAVGRNSNGSFVAYRVSSRSFPNRTTSIQEERVAVVPVEGHERDVFRNPYIAYNCIRIVGDTAVVSNGSHTDTIADKVALGMNLRDAIGLSLLAMDYEKDELNTPRIAAAINGSEAFIGIVTADGLMVSRVPEETPVYISTYEQTEPAATEFKAGSPEEAAEFILKGGEFAAFTHPVTAAAAFNDGEGWNLATREM 2ntk-a1-m1-cC_2ntk-a1-m1-cD Crystal structure of PurO/IMP from Methanothermobacter thermoautotrophicus O27099 O27099 2.03 X-RAY DIFFRACTION 36 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 202 202 1kuu-a1-m1-cA_1kuu-a1-m2-cA 1kuu-a1-m3-cA_1kuu-a1-m4-cA 2ntk-a1-m1-cB_2ntk-a1-m1-cA 2ntl-a1-m1-cA_2ntl-a1-m1-cB 2ntl-a1-m1-cD_2ntl-a1-m1-cC 2ntm-a1-m1-cA_2ntm-a1-m1-cB 2ntm-a1-m1-cC_2ntm-a1-m1-cD MYLGRILAVGRNSNGSFVAYRVSSRSFPNRTTSIQEERVAVVPVEGHERDVFRNPYIAYNCIRIVGDTAVVSNGSHTDTIADKVALGMNLRDAIGLSLLAMDYEKDELNTPRIAAAINGSEAFIGIVTADGLMVSRVPEETPVYISTYEQTEPAATEFKAGSPEEAAEFILKGGEFAAFTHPVTAAAAFNDGEGWNLATREM MYLGRILAVGRNSNGSFVAYRVSSRSFPNRTTSIQEERVAVVPVEGHERDVFRNPYIAYNCIRIVGDTAVVSNGSHTDTIADKVALGMNLRDAIGLSLLAMDYEKDELNTPRIAAAINGSEAFIGIVTADGLMVSRVPEETPVYISTYEQTEPAATEFKAGSPEEAAEFILKGGEFAAFTHPVTAAAAFNDGEGWNLATREM 2ntk-a1-m1-cD_2ntk-a1-m1-cA Crystal structure of PurO/IMP from Methanothermobacter thermoautotrophicus O27099 O27099 2.03 X-RAY DIFFRACTION 39 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 202 206 1kuu-a1-m1-cA_1kuu-a1-m4-cA 1kuu-a1-m2-cA_1kuu-a1-m3-cA 2ntk-a1-m1-cB_2ntk-a1-m1-cC 2ntl-a1-m1-cA_2ntl-a1-m1-cD 2ntl-a1-m1-cB_2ntl-a1-m1-cC 2ntm-a1-m1-cA_2ntm-a1-m1-cD 2ntm-a1-m1-cB_2ntm-a1-m1-cC MYLGRILAVGRNSNGSFVAYRVSSRSFPNRTTSIQEERVAVVPVEGHERDVFRNPYIAYNCIRIVGDTAVVSNGSHTDTIADKVALGMNLRDAIGLSLLAMDYEKDELNTPRIAAAINGSEAFIGIVTADGLMVSRVPEETPVYISTYEQTEPAATEFKAGSPEEAAEFILKGGEFAAFTHPVTAAAAFNDGEGWNLATREM RGSHMYLGRILAVGRNSNGSFVAYRVSSRSFPNRTTSIQEERVAVVPVEGHERDVFRNPYIAYNCIRIVGDTAVVSNGSHTDTIADKVALGMNLRDAIGLSLLAMDYEKDELNTPRIAAAINGSEAFIGIVTADGLMVSRVPEETPVYISTYEQTEPAATEFKAGSPEEAAEFILKGGEFAAFTHPVTAAAAFNDGEGWNLATREM 2ntn-a1-m1-cB_2ntn-a1-m2-cB Crystal structure of MabA-C60V/G139A/S144L P9WGT3 P9WGT3 2.3 X-RAY DIFFRACTION 82 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 207 207 1uzl-a1-m1-cB_1uzl-a1-m2-cB 1uzn-a1-m1-cA_1uzn-a1-m2-cA 1uzn-a1-m1-cB_1uzn-a1-m2-cB 2ntn-a1-m1-cA_2ntn-a1-m2-cA AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIASVQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTLQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGM AKPPFVSRSVLVTGGNRGIGLAIAQRLAADGHKVAVTHRGSGAPKGLFGVEVDVTDSDAVDRAFTAVEEHQGPVEVLVSNAGLMTEEKFEKVINANLTGAFRVAQRASRSMQRNKFGRMIFIASVQANYAASKAGVIGMARSIARELSKANVTANVVAPGYIDTLQFIPAKRVGTPAEVAGVVSFLASEDASYISGAVIPVDGGMGM 2ntt-a1-m1-cA_2ntt-a1-m1-cB Crystal Structure of SEK Q93CC5 Q93CC5 1.561 X-RAY DIFFRACTION 31 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 217 217 QGDIGIDNLRNFYTKKDFVDLKDVKDNDTPIANQLQFSNESYDLISESKDFNKFSNFKGKKLDVFGISYNGQSNTKYIYGGVTATNEYLDKSRNIPINIWINGNHKTISTNKVSTNKKFVTAQEIDVKLRKYLQEEYNIYGHNGTKKGEEYGHKSKFYSGFNIGKVTFHLNNNDTFSYDLFYTGDDGLPKSFLKIYEDNKTVESEKFHLDVDISYKA QGDIGIDNLRNFYTKKDFVDLKDVKDNDTPIANQLQFSNESYDLISESKDFNKFSNFKGKKLDVFGISYNGQSNTKYIYGGVTATNEYLDKSRNIPINIWINGNHKTISTNKVSTNKKFVTAQEIDVKLRKYLQEEYNIYGHNGTKKGEEYGHKSKFYSGFNIGKVTFHLNNNDTFSYDLFYTGDDGLPKSFLKIYEDNKTVESEKFHLDVDISYKA 2ntx-a2-m1-cA_2ntx-a2-m2-cA Prone8 Q9LV40 Q9LV40 2.2 X-RAY DIFFRACTION 31 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 300 300 SERQQADEKDRFAKLLLGEDSGGGKGVSSALALSNAITNLAASIFGEQKLQPPQDRQARWKKEIDWLLSVTDHIVEFVPSEIVTRQRGDLLNIPALRKLDALIDTLDNFRGHNEFWYVLPPVKVPPGGLSEPSRRLYFQKDSVTQVQKAAAINAQVLSEEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLALDSTEHKVLDLKNRIEASVVIWKRKSLEKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVSRIEDVLYTDTLALKQT SERQQADEKDRFAKLLLGEDSGGGKGVSSALALSNAITNLAASIFGEQKLQPPQDRQARWKKEIDWLLSVTDHIVEFVPSEIVTRQRGDLLNIPALRKLDALIDTLDNFRGHNEFWYVLPPVKVPPGGLSEPSRRLYFQKDSVTQVQKAAAINAQVLSEEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLALDSTEHKVLDLKNRIEASVVIWKRKSLEKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVSRIEDVLYTDTLALKQT 2ntx-a2-m2-cB_2ntx-a2-m1-cA Prone8 Q9LV40 Q9LV40 2.2 X-RAY DIFFRACTION 23 0.996 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 273 300 2ntx-a2-m1-cB_2ntx-a2-m2-cA RSERQQADEKDRFAKLLLGEDSGGGKGVSSALALSNAITNLAASIFGEQKLQPPQDRQARWKKEIDWLLSVTDHIVEFVPSIVTRQRGDLLNIPALRKLDALIDTLDNFEPSRRLYFQKDSVTQVQKAAAINAQVLSEEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLALDSTEHKVLDLKNRIEASVVIWKRKSLEKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVSRIEDVLYTDT SERQQADEKDRFAKLLLGEDSGGGKGVSSALALSNAITNLAASIFGEQKLQPPQDRQARWKKEIDWLLSVTDHIVEFVPSEIVTRQRGDLLNIPALRKLDALIDTLDNFRGHNEFWYVLPPVKVPPGGLSEPSRRLYFQKDSVTQVQKAAAINAQVLSEEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLALDSTEHKVLDLKNRIEASVVIWKRKSLEKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVSRIEDVLYTDTLALKQT 2ntx-a2-m2-cB_2ntx-a2-m2-cA Prone8 Q9LV40 Q9LV40 2.2 X-RAY DIFFRACTION 100 0.996 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 273 300 2ntx-a1-m1-cB_2ntx-a1-m1-cA 2ntx-a2-m1-cB_2ntx-a2-m1-cA RSERQQADEKDRFAKLLLGEDSGGGKGVSSALALSNAITNLAASIFGEQKLQPPQDRQARWKKEIDWLLSVTDHIVEFVPSIVTRQRGDLLNIPALRKLDALIDTLDNFEPSRRLYFQKDSVTQVQKAAAINAQVLSEEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLALDSTEHKVLDLKNRIEASVVIWKRKSLEKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVSRIEDVLYTDT SERQQADEKDRFAKLLLGEDSGGGKGVSSALALSNAITNLAASIFGEQKLQPPQDRQARWKKEIDWLLSVTDHIVEFVPSEIVTRQRGDLLNIPALRKLDALIDTLDNFRGHNEFWYVLPPVKVPPGGLSEPSRRLYFQKDSVTQVQKAAAINAQVLSEEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLALDSTEHKVLDLKNRIEASVVIWKRKSLEKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVSRIEDVLYTDTLALKQT 2ntz-a1-m1-cB_2ntz-a1-m1-cA Structure of a ParB-DNA complex reveals a double B-box interaction Q38420 Q38420 3.35 X-RAY DIFFRACTION 59 0.988 10678 (Punavirus P1) 10678 (Punavirus P1) 166 177 SIREIGLRLRKNDGSQKDIAAKEGLSQAKVTRALQAASAPEELVALFPVQSELTFSDYKTLCAVGDEGNKNLEFDQLIQNISPEINDILSIEEAEDEVKNKILRLITKEASLLTDKSVVTELWKFEDKDRFARKRVKGRAFSYEFNRLSKELQEELDRIGHILRKS QTALQHSIREIGLRLRKNDGSQKDIAAKEGLSQAKVTRALQAASAPEELVALFPVQSELTFSDYKTLCAVGDEGNLEFDQLIQNISPEINDILSIEEAEDEVKNKILRLITKEASLLTDKKSVVTELWKFEDKDRFARKRVKGRAFSYEFNRLSKELQEELDRIGHILRKSLDKKPK 2nu5-a1-m1-cA_2nu5-a1-m1-cB Crystal structure of a complex of griffithsin cocrystallized with N-acetylglucosamine P84801 P84801 1.564 X-RAY DIFFRACTION 193 1.0 373036 (Griffithsia sp. Q66D336) 373036 (Griffithsia sp. Q66D336) 121 121 2gty-a1-m1-cA_2gty-a1-m1-cB 2guc-a1-m1-cA_2guc-a1-m1-cB 2gud-a1-m1-cA_2gud-a1-m1-cB 2gue-a1-m1-cA_2gue-a1-m1-cB 2gux-a1-m1-cA_2gux-a1-m2-cA 2hyq-a1-m1-cA_2hyq-a1-m1-cB 2hyr-a1-m1-cA_2hyr-a1-m1-cB 2nuo-a1-m1-cA_2nuo-a1-m1-cB 7ria-a1-m1-cA_7ria-a1-m1-cB 7rib-a1-m1-cA_7rib-a1-m2-cA 7rib-a2-m1-cB_7rib-a2-m1-cC 7ric-a1-m1-cA_7ric-a1-m2-cA 7rid-a1-m1-cA_7rid-a1-m2-cA 7rkg-a1-m1-cA_7rkg-a1-m1-cB 7rki-a1-m1-cA_7rki-a1-m1-cB SLTHRKFGGSGGSPFSGLSSIAVRSGSYLDAIIIDGVHHGGSGGNLSPTFTFGSGEYISNMTIRSGDYIDNISFETNMGRRFGPYGGSGGSANTLSNVKVIQINGSAGDYLDSLDIYYEQY SLTHRKFGGSGGSPFSGLSSIAVRSGSYLDAIIIDGVHHGGSGGNLSPTFTFGSGEYISNMTIRSGDYIDNISFETNMGRRFGPYGGSGGSANTLSNVKVIQINGSAGDYLDSLDIYYEQY 2nuh-a2-m2-cA_2nuh-a2-m3-cA Crystal structure of CutA from the phytopathgen bacterium Xylella fastidiosa Q9PFN8 Q9PFN8 1.39 X-RAY DIFFRACTION 84 1.0 160492 (Xylella fastidiosa 9a5c) 160492 (Xylella fastidiosa 9a5c) 104 104 2nuh-a2-m1-cA_2nuh-a2-m2-cA 2nuh-a2-m1-cA_2nuh-a2-m3-cA SDVYLIFSTCPDLPSAEIISRVLVQERLAACVTQLPGAVSTYRWQGKIETTQEIQLLIKTNAVHVNAAITRLCALHPYRLPEAIAVQVSVGLPEYLTWINTEID SDVYLIFSTCPDLPSAEIISRVLVQERLAACVTQLPGAVSTYRWQGKIETTQEIQLLIKTNAVHVNAAITRLCALHPYRLPEAIAVQVSVGLPEYLTWINTEID 2nuj-a1-m1-cA_2nuj-a1-m2-cB Crystal structure of thioesterase superfamily (YP_509914.1) from Jannaschia Sp. CCS1 at 2.00 A resolution Q28QX3 Q28QX3 2 X-RAY DIFFRACTION 23 1.0 188905 (Jannaschia) 188905 (Jannaschia) 156 156 2nuj-a1-m1-cB_2nuj-a1-m2-cA LPPYHTPLPAETLRALSIPAPWTFGLADRVRFGELDAIGHVNHTAYLRWYESFRLPFLKARHVTDYGPTSPRLVLKQVHCTYLAEGGEDYVITGRVSNFRTTSFTEFACWRLGDAVECTSEGSAVVVLLNRDGSGRYPIPEAGRASFVTEDGVLAA LPPYHTPLPAETLRALSIPAPWTFGLADRVRFGELDAIGHVNHTAYLRWYESFRLPFLKARHVTDYGPTSPRLVLKQVHCTYLAEGGEDYVITGRVSNFRTTSFTEFACWRLGDAVECTSEGSAVVVLLNRDGSGRYPIPEAGRASFVTEDGVLAA 2nuj-a1-m1-cB_2nuj-a1-m2-cB Crystal structure of thioesterase superfamily (YP_509914.1) from Jannaschia Sp. CCS1 at 2.00 A resolution Q28QX3 Q28QX3 2 X-RAY DIFFRACTION 40 1.0 188905 (Jannaschia) 188905 (Jannaschia) 156 156 2nuj-a1-m1-cA_2nuj-a1-m2-cA LPPYHTPLPAETLRALSIPAPWTFGLADRVRFGELDAIGHVNHTAYLRWYESFRLPFLKARHVTDYGPTSPRLVLKQVHCTYLAEGGEDYVITGRVSNFRTTSFTEFACWRLGDAVECTSEGSAVVVLLNRDGSGRYPIPEAGRASFVTEDGVLAA LPPYHTPLPAETLRALSIPAPWTFGLADRVRFGELDAIGHVNHTAYLRWYESFRLPFLKARHVTDYGPTSPRLVLKQVHCTYLAEGGEDYVITGRVSNFRTTSFTEFACWRLGDAVECTSEGSAVVVLLNRDGSGRYPIPEAGRASFVTEDGVLAA 2nuj-a1-m2-cA_2nuj-a1-m2-cB Crystal structure of thioesterase superfamily (YP_509914.1) from Jannaschia Sp. CCS1 at 2.00 A resolution Q28QX3 Q28QX3 2 X-RAY DIFFRACTION 24 1.0 188905 (Jannaschia) 188905 (Jannaschia) 156 156 2nuj-a1-m1-cA_2nuj-a1-m1-cB LPPYHTPLPAETLRALSIPAPWTFGLADRVRFGELDAIGHVNHTAYLRWYESFRLPFLKARHVTDYGPTSPRLVLKQVHCTYLAEGGEDYVITGRVSNFRTTSFTEFACWRLGDAVECTSEGSAVVVLLNRDGSGRYPIPEAGRASFVTEDGVLAA LPPYHTPLPAETLRALSIPAPWTFGLADRVRFGELDAIGHVNHTAYLRWYESFRLPFLKARHVTDYGPTSPRLVLKQVHCTYLAEGGEDYVITGRVSNFRTTSFTEFACWRLGDAVECTSEGSAVVVLLNRDGSGRYPIPEAGRASFVTEDGVLAA 2nul-a1-m1-cA_2nul-a1-m2-cA PEPTIDYLPROLYL ISOMERASE FROM E. COLI P23869 P23869 2.1 X-RAY DIFFRACTION 34 1.0 562 (Escherichia coli) 562 (Escherichia coli) 163 163 MVTFHTNHGDIVIKTFDDKAPETVKNFLDYCREGFYNNTIFHRVINGFMIQGGGFEPGMKQKATKEPIKNEANNGLKNTRGTLAMARTQAPHSATAQFFINVVDNDFLNFSGESLQGWGYCVFAEVVDGMDVVDKIKGVATGRSGMHQDVPKEDVIIESVTVS MVTFHTNHGDIVIKTFDDKAPETVKNFLDYCREGFYNNTIFHRVINGFMIQGGGFEPGMKQKATKEPIKNEANNGLKNTRGTLAMARTQAPHSATAQFFINVVDNDFLNFSGESLQGWGYCVFAEVVDGMDVVDKIKGVATGRSGMHQDVPKEDVIIESVTVS 2nuu-a3-m1-cC_2nuu-a3-m1-cF Regulating the Escherichia coli ammonia channel: the crystal structure of the AmtB-GlnK complex P69681 P69681 2.5 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 409 409 2nuu-a3-m1-cA_2nuu-a3-m1-cE 2nuu-a3-m1-cB_2nuu-a3-m1-cD HHHHHAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA HHHHHAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA 2nuu-a4-m1-cH_2nuu-a4-m2-cK Regulating the Escherichia coli ammonia channel: the crystal structure of the AmtB-GlnK complex P0AC55 P0AC55 2.5 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 112 MKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEYSVNFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL MKLVTVIIKPFKLEDVREALSSIGIQGLTVTEVKGFGRQKGHAELYRGAEYSVNFLPKVKIDVAIADDQLDEVIDIVSKAAYTGKIGDGKIFVAELQRVIRIRTGEADEAAL 2nuu-a5-m1-cB_2nuu-a5-m3-cD Regulating the Escherichia coli ammonia channel: the crystal structure of the AmtB-GlnK complex P69681 P69681 2.5 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 409 410 HHHHHAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA HHHHHHAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA 2nuu-a5-m1-cB_2nuu-a5-m3-cE Regulating the Escherichia coli ammonia channel: the crystal structure of the AmtB-GlnK complex P69681 P69681 2.5 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 409 409 HHHHHAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA HHHHHAVADKADNAFMMICTALVLFMTIPGIALFYGGLIRGKNVLSMLTQVTVTFALVCILWVVYGYSLAFGEGNNFFGNINWLMLKNIELTAVMGSIYQYIHVAFQGSFACITVGLIVGALAERIRFSAVLIFVVVWLTLSYIPIAHMVWGGGLLASHGALDFAGGTVVHINAAIAGLVGAYLIGKRVGFGKEAFKPHNLPMVFTGTAILYIGWFGFNAGSAGTANEIAALAFVNTVVATAAAILGWIFGEWALRGKPSLLGACSGAIAGLVGVTPACGYIGVGGALIIGVVAGLAGLWGVTMLKRLLRVDDPCDVFGVHGVCGIVGCIMTGIFAASSLGGVGFAEGVTMGHQLLVQLESIAITIVWSGVVAFIGYKLADLTVGLRVPEEQEREGLDVNSHGENAYNA 2nuw-a1-m1-cA_2nuw-a1-m2-cB 2-keto-3-deoxygluconate aldolase from Sulfolobus acidocaldarius, native structure at 1.8 A resolution Q4JC35 Q4JC35 1.8 X-RAY DIFFRACTION 54 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 288 288 2nuw-a1-m1-cB_2nuw-a1-m2-cA 2nux-a1-m1-cA_2nux-a1-m1-cB 2nux-a1-m2-cA_2nux-a1-m2-cB 2nuy-a1-m1-cA_2nuy-a1-m2-cB 2nuy-a1-m1-cB_2nuy-a1-m2-cA MEIISPIITPFDKQGKVNVDALKTHAKNLLEKGIDAIFVNGTTGLGPALSKDEKRQNLNALYDVTHKLIFQVGSLNLNDVMELVKFSNEMDILGVSSHSPYYFPRLPEKFLAKYYEEIARISSHSLYIYNYPAATGYDIPPSILKSLPVKGIKDTNQDLAHSLEYKLNLPGVKVYNGSNTLIYYSLLSLDGVVASFTNFIPEVIVKQRDLIKQGKLDDALRLQELINRLADILRKYGSISAIYVLVNEFQGYDVGYPRPPIFPLTDEEALSLKREIEPLKRKIQELVH MEIISPIITPFDKQGKVNVDALKTHAKNLLEKGIDAIFVNGTTGLGPALSKDEKRQNLNALYDVTHKLIFQVGSLNLNDVMELVKFSNEMDILGVSSHSPYYFPRLPEKFLAKYYEEIARISSHSLYIYNYPAATGYDIPPSILKSLPVKGIKDTNQDLAHSLEYKLNLPGVKVYNGSNTLIYYSLLSLDGVVASFTNFIPEVIVKQRDLIKQGKLDDALRLQELINRLADILRKYGSISAIYVLVNEFQGYDVGYPRPPIFPLTDEEALSLKREIEPLKRKIQELVH 2nuw-a1-m2-cA_2nuw-a1-m2-cB 2-keto-3-deoxygluconate aldolase from Sulfolobus acidocaldarius, native structure at 1.8 A resolution Q4JC35 Q4JC35 1.8 X-RAY DIFFRACTION 103 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 288 288 2nuw-a1-m1-cA_2nuw-a1-m1-cB 2nux-a1-m1-cA_2nux-a1-m2-cA 2nux-a1-m1-cB_2nux-a1-m2-cB 2nuy-a1-m1-cA_2nuy-a1-m1-cB 2nuy-a1-m2-cA_2nuy-a1-m2-cB MEIISPIITPFDKQGKVNVDALKTHAKNLLEKGIDAIFVNGTTGLGPALSKDEKRQNLNALYDVTHKLIFQVGSLNLNDVMELVKFSNEMDILGVSSHSPYYFPRLPEKFLAKYYEEIARISSHSLYIYNYPAATGYDIPPSILKSLPVKGIKDTNQDLAHSLEYKLNLPGVKVYNGSNTLIYYSLLSLDGVVASFTNFIPEVIVKQRDLIKQGKLDDALRLQELINRLADILRKYGSISAIYVLVNEFQGYDVGYPRPPIFPLTDEEALSLKREIEPLKRKIQELVH MEIISPIITPFDKQGKVNVDALKTHAKNLLEKGIDAIFVNGTTGLGPALSKDEKRQNLNALYDVTHKLIFQVGSLNLNDVMELVKFSNEMDILGVSSHSPYYFPRLPEKFLAKYYEEIARISSHSLYIYNYPAATGYDIPPSILKSLPVKGIKDTNQDLAHSLEYKLNLPGVKVYNGSNTLIYYSLLSLDGVVASFTNFIPEVIVKQRDLIKQGKLDDALRLQELINRLADILRKYGSISAIYVLVNEFQGYDVGYPRPPIFPLTDEEALSLKREIEPLKRKIQELVH 2nv2-a1-m1-cQ_2nv2-a1-m1-cI Structure of the PLP synthase complex Pdx1/2 (YaaD/E) from Bacillus subtilis P37527 P37527 2.12 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 270 271 2nv1-a1-m1-cB_2nv1-a1-m2-cE 2nv1-a1-m1-cC_2nv1-a1-m2-cD 2nv1-a1-m1-cD_2nv1-a1-m2-cC 2nv1-a1-m1-cF_2nv1-a1-m2-cA 2nv1-a1-m2-cB_2nv1-a1-m1-cE 2nv1-a1-m2-cF_2nv1-a1-m1-cA 2nv2-a1-m1-cA_2nv2-a1-m1-cM 2nv2-a1-m1-cC_2nv2-a1-m1-cW 2nv2-a1-m1-cE_2nv2-a1-m1-cU 2nv2-a1-m1-cG_2nv2-a1-m1-cS 2nv2-a1-m1-cO_2nv2-a1-m1-cK AQTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSEDELMTEAKNLGAPYELLLQIKKDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHFTDYKLIAELSKEL AQTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSEDELMTEAKNLGAPYELLLQIKKDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHFTDYKLIAELSKELG 2nv2-a1-m1-cS_2nv2-a1-m1-cI Structure of the PLP synthase complex Pdx1/2 (YaaD/E) from Bacillus subtilis P37527 P37527 2.12 X-RAY DIFFRACTION 47 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 270 271 2nv1-a1-m1-cA_2nv1-a1-m2-cA 2nv1-a1-m1-cC_2nv1-a1-m2-cE 2nv1-a1-m1-cD_2nv1-a1-m2-cD 2nv1-a1-m1-cE_2nv1-a1-m2-cC 2nv1-a1-m1-cF_2nv1-a1-m2-cB 2nv1-a1-m2-cF_2nv1-a1-m1-cB 2nv2-a1-m1-cA_2nv2-a1-m1-cO 2nv2-a1-m1-cC_2nv2-a1-m1-cM 2nv2-a1-m1-cE_2nv2-a1-m1-cW 2nv2-a1-m1-cG_2nv2-a1-m1-cU 2nv2-a1-m1-cK_2nv2-a1-m1-cQ AQTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSEDELMTEAKNLGAPYELLLQIKKDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHFTDYKLIAELSKEL AQTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSEDELMTEAKNLGAPYELLLQIKKDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHFTDYKLIAELSKELG 2nv2-a1-m1-cW_2nv2-a1-m1-cU Structure of the PLP synthase complex Pdx1/2 (YaaD/E) from Bacillus subtilis P37527 P37527 2.12 X-RAY DIFFRACTION 67 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 270 271 2nv1-a1-m1-cB_2nv1-a1-m1-cA 2nv1-a1-m1-cB_2nv1-a1-m1-cC 2nv1-a1-m1-cC_2nv1-a1-m1-cD 2nv1-a1-m1-cD_2nv1-a1-m1-cE 2nv1-a1-m1-cF_2nv1-a1-m1-cA 2nv1-a1-m1-cF_2nv1-a1-m1-cE 2nv1-a1-m2-cB_2nv1-a1-m2-cA 2nv1-a1-m2-cB_2nv1-a1-m2-cC 2nv1-a1-m2-cC_2nv1-a1-m2-cD 2nv1-a1-m2-cD_2nv1-a1-m2-cE 2nv1-a1-m2-cF_2nv1-a1-m2-cA 2nv1-a1-m2-cF_2nv1-a1-m2-cE 2nv2-a1-m1-cA_2nv2-a1-m1-cC 2nv2-a1-m1-cA_2nv2-a1-m1-cK 2nv2-a1-m1-cC_2nv2-a1-m1-cE 2nv2-a1-m1-cG_2nv2-a1-m1-cE 2nv2-a1-m1-cG_2nv2-a1-m1-cI 2nv2-a1-m1-cK_2nv2-a1-m1-cI 2nv2-a1-m1-cM_2nv2-a1-m1-cW 2nv2-a1-m1-cO_2nv2-a1-m1-cM 2nv2-a1-m1-cO_2nv2-a1-m1-cQ 2nv2-a1-m1-cQ_2nv2-a1-m1-cS 2nv2-a1-m1-cS_2nv2-a1-m1-cU AQTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSEDELMTEAKNLGAPYELLLQIKKDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHFTDYKLIAELSKEL AQTGTERVKRGMAEMQKGGVIMDVINAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIVEARVLEAMGVDYIDESEVLTPADEEFHLNKNEYTVPFVCGCRDLGEATRRIAEGASMLRTKGEPGTGNIVEAVRHMRKVNAQVRKVVAMSEDELMTEAKNLGAPYELLLQIKKDGKLPVVNFAAGGVATPADAALMMQLGADGVFVGSGIFKSDNPAKFAKAIVEATTHFTDYKLIAELSKELG 2nv4-a1-m1-cA_2nv4-a1-m1-cB Crystal structure of UPF0066 protein AF0241 in complex with S-adenosylmethionine. Northeast Structural Genomics Consortium target GR27 O29998 O29998 2.2 X-RAY DIFFRACTION 164 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 131 131 ILKPIGVVKSPFKTQNDAPRQGRFSDAVSEIAIFDEYADGLHKIENLRHIIVLYWDKASRDKLRVVPPGETEERGVFTTRSPSRPNPIGLCVVEILEVERNRLKVRWLDALDGSPVIDIKKYSPEIDCVNQ ILKPIGVVKSPFKTQNDAPRQGRFSDAVSEIAIFDEYADGLHKIENLRHIIVLYWDKASRDKLRVVPPGETEERGVFTTRSPSRPNPIGLCVVEILEVERNRLKVRWLDALDGSPVIDIKKYSPEIDCVNQ 2nv7-a1-m1-cB_2nv7-a1-m1-cA Crystal Structure of Estrogen Receptor Beta Complexed with WAY-555 Q92731 Q92731 2.1 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 228 1hj1-a1-m1-cA_1hj1-a1-m2-cA 1nde-a2-m1-cA_1nde-a2-m2-cA 1qkm-a1-m1-cA_1qkm-a1-m2-cA 1qkn-a1-m1-cA_1qkn-a1-m2-cA 1u3q-a1-m1-cA_1u3q-a1-m1-cC 1u3q-a2-m1-cD_1u3q-a2-m1-cB 1u3r-a1-m1-cB_1u3r-a1-m1-cA 1u3s-a1-m1-cB_1u3s-a1-m1-cA 1u9e-a3-m1-cA_1u9e-a3-m1-cB 1x76-a1-m1-cA_1x76-a1-m1-cB 1x78-a1-m1-cA_1x78-a1-m1-cB 1x7b-a1-m1-cB_1x7b-a1-m1-cA 1x7j-a1-m1-cA_1x7j-a1-m1-cB 1yy4-a1-m1-cA_1yy4-a1-m1-cB 1yye-a1-m1-cB_1yye-a1-m1-cA 1zaf-a1-m1-cA_1zaf-a1-m1-cB 2fsz-a1-m1-cA_2fsz-a1-m1-cB 2fsz-a2-m1-cA_2fsz-a2-m1-cB 2fsz-a2-m2-cA_2fsz-a2-m2-cB 2fsz-a2-m3-cA_2fsz-a2-m3-cB 2fsz-a2-m4-cA_2fsz-a2-m4-cB 2i0g-a1-m1-cA_2i0g-a1-m1-cB 2jj3-a1-m1-cA_2jj3-a1-m1-cB 2qtu-a1-m1-cA_2qtu-a1-m1-cB 2yjd-a1-m1-cA_2yjd-a1-m1-cB 2yly-a1-m1-cA_2yly-a1-m1-cB 2z4b-a1-m1-cA_2z4b-a1-m1-cB 3oll-a3-m1-cB_3oll-a3-m1-cA 3ols-a3-m1-cB_3ols-a3-m1-cA 3omo-a3-m1-cB_3omo-a3-m1-cA 3omp-a3-m1-cB_3omp-a3-m1-cA 3omq-a3-m1-cB_3omq-a3-m1-cA 4zi1-a1-m1-cA_4zi1-a1-m2-cA 5toa-a1-m1-cA_5toa-a1-m1-cB 7xvy-a1-m1-cA_7xvy-a1-m1-cB 7xvz-a1-m1-cA_7xvz-a1-m1-cB 7xwp-a1-m1-cA_7xwp-a1-m1-cB 7xwq-a1-m1-cA_7xwq-a1-m1-cB 7xwr-a1-m1-cA_7xwr-a1-m1-cB LSPEQLVLTLLEAEPPHVLISRPSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMDSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKNVVPVYDLLLEMLNA LSPEQLVLTLLEAEPPHVLISRPSAPFTEASMMMSLTKLADKELVHMISWAKKIPGFVELSLFDQVRLLESCWMEVLMMGLMWRSIDHPGKLIFAPDLVLDRDEGKCVEGILEIFDMLLATTSRFRELKLQHKEYLCVKAMILLNSSMDSSRKLAHLLNAVTDALVWVIAKSGISSQQQSMRLANLLMLLSHVRHASNKGMEHLLNMKCKNVVPVYDLLLEMLNAHVL 2nva-a3-m1-cF_2nva-a3-m1-cE The X-ray crystal structure of the Paramecium bursaria Chlorella virus arginine decarboxylase bound to agmatine Q84527 Q84527 1.8 X-RAY DIFFRACTION 153 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 368 370 2nv9-a1-m1-cA_2nv9-a1-m1-cB 2nv9-a2-m1-cD_2nv9-a2-m1-cC 2nv9-a3-m1-cF_2nv9-a3-m1-cE 2nv9-a4-m1-cG_2nv9-a4-m1-cH 2nva-a1-m1-cA_2nva-a1-m1-cB 2nva-a2-m1-cC_2nva-a2-m1-cD 2nva-a4-m1-cH_2nva-a4-m1-cG MNSVVNNILKAHPQTKSFYVSSPKIVEDLIDQWTILFPRVTPHYAVKCNNDEVLLKTMCDKNVNFDCASSSEIKKVIQIGVSPSRIIFAHTMKTIDDLIFAKDQGVDIATFDSSFELDKIHTYHPNCKMILRIRCDDPNATVQLGNKFGANEDEIRHLLEYAKQLDIEVIGISFHVGSGSRNPEAYYRAIKSSKEAFNEAISVGHKPYILDIGGGLHADIGELSTMSDYINDAIKDFFPEDTVTIVAEPGRFFAEHYSVLATQVIGKRVRDGLYEYFFNESTYGGFSNVIFEKSVPTPQLLRDVPDDEEYVPSVLYGCTCDGVDVINHNVALPELHIGDWVYFPSWGAYTNVLTTSFNGFGEYDVYYI MNSVVNNILKAHPQTKSFYVSSPKIVEDLIDQWTILFPRVTPHYAVKCNNDEVLLKTMCDKNVNFDCASSSEIKKVIQIGVSPSRIIFAHTMKTIDDLIFAKDQGVDIATFDSSFELDKIHTYHPNCKMILRIRCDDPNATVQLGNKFGANEDEIRHLLEYAKQLDIEVIGISFHVGSGSRNPEAYYRAIKSSKEAFNEAISVGHKPYILDIGGGLHADIDGELSTYMSDYINDAIKDFFPEDTVTIVAEPGRFFAEHYSVLATQVIGKRVRDGLYEYFFNESTYGGFSNVIFEKSVPTPQLLRDVPDDEEYVPSVLYGCTCDGVDVINHNVALPELHIGDWVYFPSWGAYTNVLTTSFNGFGEYDVYYI 2nvm-a1-m1-cA_2nvm-a1-m1-cB Crystal structure of fdxN element excision controlling factor XisI (YP_321976.1) from Anabaena Variabilis ATCC 29413 at 2.19 A resolution Q3MD55 Q3MD55 2.19 X-RAY DIFFRACTION 71 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 103 110 DKLTHYRHTIQEIIKKYYDLSNSLPDTVGDRLIIDEQRDQYLWLCCGWDGKKRVQHIILYLQIQNGKIWIEEDSTNLAIVDELVAGIPQTDIILGFHHPSKRG DKLTHYRHTIQEIIKKYYDLSNSLPDTVGDRLIIDEQRDQYLWLCCGWDGKKRVQHIILYLQIQNGKIWIEEDSTNLAIVDELVAGIPQTDIILGFHHPSKRGLTEFAIA 2nvn-a1-m1-cA_2nvn-a1-m2-cA Crystal structure of a protein with a cupin-like fold and unknown function (YP_400729.1) from Synechococcus SP. PCC 7942 (Elongatus) at 2.50 A resolution Q31MH7 Q31MH7 2.5 X-RAY DIFFRACTION 53 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 118 118 GRILREGAGWRLGWDETAHRYPGLVGTTDWAVELTAAEADFCRLVQQLAETIAAIAPELPEERLQIEAESALLWLEAEGFADAYELRLILASDRRVEACWPAAAVPALVAATHTLKGF GRILREGAGWRLGWDETAHRYPGLVGTTDWAVELTAAEADFCRLVQQLAETIAAIAPELPEERLQIEAESALLWLEAEGFADAYELRLILASDRRVEACWPAAAVPALVAATHTLKGF 2nvo-a2-m1-cA_2nvo-a2-m2-cA Crystal structure of Deinococcus radiodurans RO (RSR) protein Q9RUW8 Q9RUW8 1.89 X-RAY DIFFRACTION 47 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 496 496 SDESRLTRFLVLGVDGGTFYASAQKHTVQATDFVRELVQRDAALALRVTLDVVRGQRAPKADPALLVLALIAKTAPNAADRKAAWDALPEVARTGTMLLHFLAFADALGGWGRLTRRGVANVYETADVDKLALWAVKYKARDGWSQADALRKAHPKTDDAARNAVLKFMVDGVLPKVDSPALRVIEGHLKATEAQTDAAAAALMQEYRLPLEAVPTHVRGAEVYRAAMQTNGLTWLLRNLGNLGRVGVLTPNDSATVQAVIERLTDPAALKRGRIHPLDALKARLVYAQGQGVRGKGTWLPVPRVVDALEEAFTLAFGNVQPANTRHLLALDVSGSMTCGDVAGVPGLTPNMAAAAMSLIALRTEPDALTMGFAEQFRPLGITPRDTLESAMQKAQSVSFGGTDCAQPILWAAQERLDVDTFVVYTDNETWAGQVHPTVALDQYAQKMGRAPKLIVVGLTATEFSIADPQRRDMLDVVGFDAAAPNVMTAFARGEV SDESRLTRFLVLGVDGGTFYASAQKHTVQATDFVRELVQRDAALALRVTLDVVRGQRAPKADPALLVLALIAKTAPNAADRKAAWDALPEVARTGTMLLHFLAFADALGGWGRLTRRGVANVYETADVDKLALWAVKYKARDGWSQADALRKAHPKTDDAARNAVLKFMVDGVLPKVDSPALRVIEGHLKATEAQTDAAAAALMQEYRLPLEAVPTHVRGAEVYRAAMQTNGLTWLLRNLGNLGRVGVLTPNDSATVQAVIERLTDPAALKRGRIHPLDALKARLVYAQGQGVRGKGTWLPVPRVVDALEEAFTLAFGNVQPANTRHLLALDVSGSMTCGDVAGVPGLTPNMAAAAMSLIALRTEPDALTMGFAEQFRPLGITPRDTLESAMQKAQSVSFGGTDCAQPILWAAQERLDVDTFVVYTDNETWAGQVHPTVALDQYAQKMGRAPKLIVVGLTATEFSIADPQRRDMLDVVGFDAAAPNVMTAFARGEV 2nvv-a3-m1-cE_2nvv-a3-m1-cF Crystal Structure of the Putative Acetyl-CoA hydrolase/transferase PG1013 from Porphyromonas gingivalis, Northeast Structural Genomics Target PgR16. Q7MVN7 Q7MVN7 2.7 X-RAY DIFFRACTION 203 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 484 484 2nvv-a1-m1-cA_2nvv-a1-m1-cB 2nvv-a2-m1-cC_2nvv-a2-m1-cD ALRFITAEEAAEFVHHNDNVGFSGFTPAGNPKVVPAAIAKRAIAAHEKGNPFKIGFTGASTGARLDGVLAQADAVKFRTPYQSNKDLRNLINNGSTSYFDLHLSTLAQDLRYGFYGKVDVAIIEVADVTEDGKILPTTGVGILPTICRLADRIIVELNDKHPKEIGHDLCEPLDPPARRELPVYTPSDRIGKPYVQVDPAKIVGVVRTSEPNDESDFAPLDPVTQAIGDNVAAFLVSEKAGRIPKDFLPLQSGVGNVANAVLGALGDNPDIPAFNYTEVIQDAVIALKKGRIKFASGCSLSVSRSVIQDIYANLDFFKDKILLRPQEYSNNPEIVRRLGVITINTALEADIFGNINSTHVSGTRNGIGGSGDFTRNSYVSIFTTPSVKDGKISSFVPVAHHDHSEHSVKVIISEWGVADLRGKNPRERAHEIIDKCVHPDYRPLLRQYLELGVKGQTPQNLDCCFAFHQELAKSGDRNVRWEDY ALRFITAEEAAEFVHHNDNVGFSGFTPAGNPKVVPAAIAKRAIAAHEKGNPFKIGFTGASTGARLDGVLAQADAVKFRTPYQSNKDLRNLINNGSTSYFDLHLSTLAQDLRYGFYGKVDVAIIEVADVTEDGKILPTTGVGILPTICRLADRIIVELNDKHPKEIGHDLCEPLDPPARRELPVYTPSDRIGKPYVQVDPAKIVGVVRTSEPNDESDFAPLDPVTQAIGDNVAAFLVSEKAGRIPKDFLPLQSGVGNVANAVLGALGDNPDIPAFNYTEVIQDAVIALKKGRIKFASGCSLSVSRSVIQDIYANLDFFKDKILLRPQEYSNNPEIVRRLGVITINTALEADIFGNINSTHVSGTRNGIGGSGDFTRNSYVSIFTTPSVKDGKISSFVPVAHHDHSEHSVKVIISEWGVADLRGKNPRERAHEIIDKCVHPDYRPLLRQYLELGVKGQTPQNLDCCFAFHQELAKSGDRNVRWEDY 2nvw-a3-m1-cB_2nvw-a3-m3-cB Crystal sctucture of transcriptional regulator Gal80p from kluyveromymes lactis Q06433 Q06433 2.1 X-RAY DIFFRACTION 83 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 405 405 2nvw-a2-m1-cA_2nvw-a2-m2-cA HHHSSENLYFQGHMLASSRPIRVGFVGLTSGKSWVAKTHFLAIQQLSSQFQIVALYNPTLKSSLQTIEQLQLKHATGFDSLESFAQYKDIDMIVVSVKVPEHYEVVKNILEHSSQNLNLRYLYVEWALAASVQQAEELYSISQQRANLQTIICLQGRKSPYIVRAKELISEGCIGDINSIEISGNGGWYGYERPMRSPEYLYDIESGVNLISNSFGHTIDVLQYITGSYFQKINAMISNNIPTQFLLDENRTKETISKTCPDHLLFQGILENGKVPVSCSFKGGTPVKKLTKNLVIDIHGTKGDLKIEGDAGSNLVLYFYGIKNGEEEQTMEVFHLRNYNSVVGNILRIYESIADYHFLGKFDKQGFRFEGFPTFKDAIILHRLIDAVFRSDKEEKTLDVSKIMI HHHSSENLYFQGHMLASSRPIRVGFVGLTSGKSWVAKTHFLAIQQLSSQFQIVALYNPTLKSSLQTIEQLQLKHATGFDSLESFAQYKDIDMIVVSVKVPEHYEVVKNILEHSSQNLNLRYLYVEWALAASVQQAEELYSISQQRANLQTIICLQGRKSPYIVRAKELISEGCIGDINSIEISGNGGWYGYERPMRSPEYLYDIESGVNLISNSFGHTIDVLQYITGSYFQKINAMISNNIPTQFLLDENRTKETISKTCPDHLLFQGILENGKVPVSCSFKGGTPVKKLTKNLVIDIHGTKGDLKIEGDAGSNLVLYFYGIKNGEEEQTMEVFHLRNYNSVVGNILRIYESIADYHFLGKFDKQGFRFEGFPTFKDAIILHRLIDAVFRSDKEEKTLDVSKIMI 2nvw-a3-m3-cB_2nvw-a3-m3-cA Crystal sctucture of transcriptional regulator Gal80p from kluyveromymes lactis Q06433 Q06433 2.1 X-RAY DIFFRACTION 130 0.985 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 405 413 2nvw-a1-m1-cB_2nvw-a1-m1-cA 2nvw-a2-m1-cB_2nvw-a2-m1-cA 2nvw-a2-m2-cB_2nvw-a2-m2-cA 2nvw-a3-m1-cB_2nvw-a3-m1-cA 3e1k-a1-m1-cC_3e1k-a1-m1-cA 3e1k-a2-m1-cE_3e1k-a2-m1-cG 3e1k-a3-m1-cI_3e1k-a3-m1-cK 3e1k-a4-m1-cM_3e1k-a4-m1-cO HHHSSENLYFQGHMLASSRPIRVGFVGLTSGKSWVAKTHFLAIQQLSSQFQIVALYNPTLKSSLQTIEQLQLKHATGFDSLESFAQYKDIDMIVVSVKVPEHYEVVKNILEHSSQNLNLRYLYVEWALAASVQQAEELYSISQQRANLQTIICLQGRKSPYIVRAKELISEGCIGDINSIEISGNGGWYGYERPMRSPEYLYDIESGVNLISNSFGHTIDVLQYITGSYFQKINAMISNNIPTQFLLDENRTKETISKTCPDHLLFQGILENGKVPVSCSFKGGTPVKKLTKNLVIDIHGTKGDLKIEGDAGSNLVLYFYGIKNGEEEQTMEVFHLRNYNSVVGNILRIYESIADYHFLGKFDKQGFRFEGFPTFKDAIILHRLIDAVFRSDKEEKTLDVSKIMI HHHSSENLYFQGHMLANNNKRSKLSTVPSSRPIRVGFVGLTSGKSWVAKTHFLAIQQLSSQFQIVALYNPTLKSSLQTIEQLQLKHATGFDSLESFAQYKDIDMIVVSVKVPEHYEVVKNILEHSSQNLNLRYLYVEWALAASVQQAEELYSISQQRANLQTIICLQGRKSPYIVRAKELISEGCIGDINSIEISGNGGWYGYERPMRSPEYLYDIESGVNLISNSFGHTIDVLQYITGSYFQKINAMISNNIPTQFLLDGKRTKETISKTCPDHLLFQGILENGKVPVSCSFKGGTPVKKLTKNLVIDIHGTKGDLKIEGDSNLVLYFYGIKNGEEQTMEVFHLRNYNSVVGNILRIYESIADYHFLKFDKQGFRFEGFPTFKDAIILHRLIDAVFRSDKEEKTLDVSKIMI 2nwa-a3-m1-cD_2nwa-a3-m2-cG X-ray Crystal Structure of Protein ytmB from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR466 O34365 O34365 2.7 X-RAY DIFFRACTION 15 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 76 GPVEFNTLIVTKGKEVRIDENIFTLEKDGYRVYPEIPDVRKTKFEKSGTAEVQKLQWEEGRTIITYKLTSLHSVNL GPVEFNTLIVTKGKEVRIDENIFTLEKDGYRVYPEIPDVRKTKFEKSGTAEVQKLQWEEGRTIITYKLTSLHSVNL 2nwa-a3-m2-cF_2nwa-a3-m2-cH X-ray Crystal Structure of Protein ytmB from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR466 O34365 O34365 2.7 X-RAY DIFFRACTION 20 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 76 2nwa-a1-m1-cA_2nwa-a1-m1-cC 2nwa-a1-m1-cB_2nwa-a1-m1-cD 2nwa-a2-m1-cE_2nwa-a2-m1-cG 2nwa-a2-m1-cF_2nwa-a2-m1-cH 2nwa-a3-m1-cA_2nwa-a3-m1-cC 2nwa-a3-m1-cB_2nwa-a3-m1-cD 2nwa-a3-m2-cE_2nwa-a3-m2-cG GPVEFNTLIVTKGKEVRIDENIFTLEKDGYRVYPEIPDVRKTKFEKSGTAEVQKLQWEEGRTIITYKLTSLHSVNL GPVEFNTLIVTKGKEVRIDENIFTLEKDGYRVYPEIPDVRKTKFEKSGTAEVQKLQWEEGRTIITYKLTSLHSVNL 2nwa-a3-m2-cG_2nwa-a3-m2-cH X-ray Crystal Structure of Protein ytmB from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR466 O34365 O34365 2.7 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 76 2nwa-a1-m1-cA_2nwa-a1-m1-cB 2nwa-a1-m1-cC_2nwa-a1-m1-cD 2nwa-a2-m1-cE_2nwa-a2-m1-cF 2nwa-a2-m1-cG_2nwa-a2-m1-cH 2nwa-a3-m1-cA_2nwa-a3-m1-cB 2nwa-a3-m1-cC_2nwa-a3-m1-cD 2nwa-a3-m2-cE_2nwa-a3-m2-cF GPVEFNTLIVTKGKEVRIDENIFTLEKDGYRVYPEIPDVRKTKFEKSGTAEVQKLQWEEGRTIITYKLTSLHSVNL GPVEFNTLIVTKGKEVRIDENIFTLEKDGYRVYPEIPDVRKTKFEKSGTAEVQKLQWEEGRTIITYKLTSLHSVNL 2nwh-a2-m1-cA_2nwh-a2-m2-cA Carbohydrate kinase from Agrobacterium tumefaciens A9CII5 A9CII5 1.86 X-RAY DIFFRACTION 83 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 307 307 MKKILVLGGAHIDRRGMIETETAPGASNPGSWMEEAGGGGFNAARNLSRLGFEVRIIAPRGGDVTGEVVAEAARQAGVEDTPFTFLDRRTPSYTAILERDGNLVIALADMDLYKLFTPRRLKVRAVREAIIASDFLLCDANLPEDTLTALGLIARACEKPLAAIAISPAKAVKLKAALGDIDILFMNEAEARALTGVRDWPNILRKAGLSGGVVTRGASEVVAFNGTEKAILHPPLIREVKDVTGAGDAMASGYLAAIAEGKTIREALRQGAAAAAITVQSSFATSQDLSKDSVEAMLGLVPQAEML MKKILVLGGAHIDRRGMIETETAPGASNPGSWMEEAGGGGFNAARNLSRLGFEVRIIAPRGGDVTGEVVAEAARQAGVEDTPFTFLDRRTPSYTAILERDGNLVIALADMDLYKLFTPRRLKVRAVREAIIASDFLLCDANLPEDTLTALGLIARACEKPLAAIAISPAKAVKLKAALGDIDILFMNEAEARALTGVRDWPNILRKAGLSGGVVTRGASEVVAFNGTEKAILHPPLIREVKDVTGAGDAMASGYLAAIAEGKTIREALRQGAAAAAITVQSSFATSQDLSKDSVEAMLGLVPQAEML 2nwi-a2-m1-cC_2nwi-a2-m1-cD Crystal structure of protein AF1396 from Archaeoglobus fulgidus, Pfam DUF98 O28875 O28875 2.2 X-RAY DIFFRACTION 78 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 160 160 2nwi-a1-m1-cB_2nwi-a1-m1-cA 2nwi-a3-m1-cF_2nwi-a3-m1-cE LNAIHRILMTTDGSITAIIEAVTQKKVEVETLEQKIIRADRELAELLEIDEGDEVNYRVVYLRANGEIYAKAISFTPLKRLENSFREDLMRADIPIGKIMRKHNIEARREIRWSRVEEADLALAKELGIADRRVISRNYNIIHRGKVLINITEFFPMERF LNAIHRILMTTDGSITAIIEAVTQKKVEVETLEQKIIRADRELAELLEIDEGDEVNYRVVYLRANGEIYAKAISFTPLKRLENSFREDLMRADIPIGKIMRKHNIEARREIRWSRVEEADLALAKELGIADRRVISRNYNIIHRGKVLINITEFFPMERF 2nwq-a1-m1-cA_2nwq-a1-m1-cD Short chain dehydrogenase from Pseudomonas aeruginosa Q9HUQ6 Q9HUQ6 2.3 X-RAY DIFFRACTION 66 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 225 226 2nwq-a1-m1-cB_2nwq-a1-m1-cC SSTLFITGATSGFGEACARRFAEAGWSLVLTGRREERLQALAGELSAKTRVLPLTLDVRDRAASAAVDNLPEEFATLRGLINNAGLALGTDPAQSCDLDDWDTVDTNIKGLLYSTRLLLPRLIAHGAGASIVNLGSVAGKWPYPGSHVYGGTKAFVEQFSLNLRCDLQGTGVRVTNLEPGLCEGAHPIQPEDIAETIFWINQPAHLNINSLEIPVSQSWAGFAIH SSTLFITGATSGFGEACARRFAEAGWSLVLTGRREERLQALAGELSAKTRVLPLTLDVRDRAASAAVDNLPEEFATLRGLINNAGLALGTDPAQSCDLDDWDTVDTNIKGLLYSTRLLLPRLIAHGAGASIVNLGSVAGKWPYPGSHVYGGTKAFVEQFSLNLRCDLQGTGVRVTNLEPGLCESGAHPIQPEDIAETIFWINQPAHLNINSLEIPVSQSWAGFAIH 2nwq-a1-m1-cB_2nwq-a1-m1-cD Short chain dehydrogenase from Pseudomonas aeruginosa Q9HUQ6 Q9HUQ6 2.3 X-RAY DIFFRACTION 75 0.996 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 226 226 2nwq-a1-m1-cA_2nwq-a1-m1-cC SSTLFITGATSGFGEACARRFAEAGWSLVLTGRREERLQALAGELSAKTRVLPLTLDVRDRAASAAVDNLPEEFATLRGLINNAGLALGTDPAQSCDLDDWDTVDTNIKGLLYSTRLLLPRLIAHGAGASIVNLGSVAGKWPYPGSHVYGGTKAFVEQFSLNLRCDLQGTGVRVTNLEPGLCEGAHPIQPEDIAETIFWINQPAHLNINSLEIPVSQSWAGFAIHR SSTLFITGATSGFGEACARRFAEAGWSLVLTGRREERLQALAGELSAKTRVLPLTLDVRDRAASAAVDNLPEEFATLRGLINNAGLALGTDPAQSCDLDDWDTVDTNIKGLLYSTRLLLPRLIAHGAGASIVNLGSVAGKWPYPGSHVYGGTKAFVEQFSLNLRCDLQGTGVRVTNLEPGLCESGAHPIQPEDIAETIFWINQPAHLNINSLEIPVSQSWAGFAIH 2nwq-a1-m1-cC_2nwq-a1-m1-cD Short chain dehydrogenase from Pseudomonas aeruginosa Q9HUQ6 Q9HUQ6 2.3 X-RAY DIFFRACTION 144 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 226 226 2nwq-a1-m1-cA_2nwq-a1-m1-cB SSTLFITGATSGFGEACARRFAEAGWSLVLTGRREERLQALAGELSAKTRVLPLTLDVRDRAASAAVDNLPEEFATLRGLINNAGLALGTDPAQSCDLDDWDTVDTNIKGLLYSTRLLLPRLIAHGAGASIVNLGSVAGKWPYPGSHVYGGTKAFVEQFSLNLRCDLQGTGVRVTNLEPGLCESGAHPIQPEDIAETIFWINQPAHLNINSLEIPVSQSWAGFAIH SSTLFITGATSGFGEACARRFAEAGWSLVLTGRREERLQALAGELSAKTRVLPLTLDVRDRAASAAVDNLPEEFATLRGLINNAGLALGTDPAQSCDLDDWDTVDTNIKGLLYSTRLLLPRLIAHGAGASIVNLGSVAGKWPYPGSHVYGGTKAFVEQFSLNLRCDLQGTGVRVTNLEPGLCESGAHPIQPEDIAETIFWINQPAHLNINSLEIPVSQSWAGFAIH 2nwr-a1-m1-cB_2nwr-a1-m2-cB Crystal structure of C11N mutant of KDO8P Synthase in complex with PEP O66496 O66496 1.5 X-RAY DIFFRACTION 11 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 255 255 1fwn-a1-m1-cA_1fwn-a1-m2-cA 1fwn-a1-m1-cB_1fwn-a1-m2-cB 1fws-a1-m1-cA_1fws-a1-m2-cA 1fws-a1-m1-cB_1fws-a1-m2-cB 1fwt-a1-m1-cA_1fwt-a1-m2-cA 1fwt-a1-m1-cB_1fwt-a1-m2-cB 1fww-a1-m1-cA_1fww-a1-m2-cA 1fww-a1-m1-cB_1fww-a1-m2-cB 1fx6-a1-m1-cA_1fx6-a1-m2-cA 1fx6-a1-m1-cB_1fx6-a1-m2-cB 1fxp-a1-m1-cA_1fxp-a1-m2-cA 1fxp-a1-m1-cB_1fxp-a1-m2-cB 1fxq-a1-m1-cA_1fxq-a1-m2-cA 1fxq-a1-m1-cB_1fxq-a1-m2-cB 1fy6-a1-m1-cA_1fy6-a1-m2-cA 1fy6-a1-m1-cB_1fy6-a1-m2-cB 1jcx-a1-m1-cA_1jcx-a1-m2-cA 1jcx-a1-m1-cB_1jcx-a1-m2-cB 1jcy-a1-m1-cA_1jcy-a1-m2-cA 1jcy-a1-m1-cB_1jcy-a1-m2-cB 1lrn-a1-m1-cA_1lrn-a1-m2-cA 1lrn-a1-m1-cB_1lrn-a1-m2-cB 1lro-a1-m1-cA_1lro-a1-m2-cA 1lro-a1-m1-cB_1lro-a1-m2-cB 1lrq-a1-m1-cA_1lrq-a1-m2-cA 1lrq-a1-m1-cB_1lrq-a1-m2-cB 1pck-a1-m1-cA_1pck-a1-m2-cA 1pck-a1-m1-cB_1pck-a1-m2-cB 1pcw-a1-m1-cA_1pcw-a1-m2-cA 1pcw-a1-m1-cB_1pcw-a1-m2-cB 1pe1-a1-m1-cA_1pe1-a1-m2-cA 1pe1-a1-m1-cB_1pe1-a1-m2-cB 1t8x-a1-m1-cA_1t8x-a1-m2-cA 1t8x-a1-m1-cB_1t8x-a1-m2-cB 1t96-a1-m1-cA_1t96-a1-m2-cA 1t96-a1-m1-cB_1t96-a1-m2-cB 1t99-a1-m1-cA_1t99-a1-m2-cA 1t99-a1-m1-cB_1t99-a1-m2-cB 1zha-a1-m1-cA_1zha-a1-m2-cA 1zha-a1-m1-cB_1zha-a1-m2-cB 1zji-a1-m1-cA_1zji-a1-m2-cA 1zji-a1-m1-cB_1zji-a1-m2-cB 2a21-a1-m1-cA_2a21-a1-m2-cA 2a21-a1-m1-cB_2a21-a1-m2-cB 2a2i-a1-m1-cA_2a2i-a1-m2-cA 2a2i-a1-m1-cB_2a2i-a1-m2-cB 2ef9-a1-m1-cA_2ef9-a1-m2-cA 2ef9-a1-m1-cB_2ef9-a1-m2-cB 2nwr-a1-m1-cA_2nwr-a1-m2-cA 2nws-a1-m1-cA_2nws-a1-m2-cA 2nws-a1-m1-cB_2nws-a1-m2-cB 2nx1-a1-m1-cA_2nx1-a1-m2-cA 2nx1-a1-m1-cB_2nx1-a1-m2-cB 2nx3-a1-m1-cA_2nx3-a1-m1-cC 2nx3-a1-m1-cB_2nx3-a1-m1-cD 2nx3-a2-m1-cE_2nx3-a2-m1-cG 2nx3-a2-m1-cF_2nx3-a2-m1-cH 2nx3-a3-m1-cI_2nx3-a3-m1-cK 2nx3-a3-m1-cJ_2nx3-a3-m1-cL 2nxg-a1-m1-cA_2nxg-a1-m2-cA 2nxg-a1-m1-cB_2nxg-a1-m2-cB 2nxh-a1-m1-cA_2nxh-a1-m1-cC 2nxh-a1-m1-cB_2nxh-a1-m1-cD 2nxh-a2-m1-cE_2nxh-a2-m1-cG 2nxh-a2-m1-cH_2nxh-a2-m1-cF 2nxh-a3-m1-cI_2nxh-a3-m1-cK 2nxh-a3-m1-cJ_2nxh-a3-m1-cL 2nxi-a1-m1-cA_2nxi-a1-m1-cC 2nxi-a1-m1-cD_2nxi-a1-m1-cB 2nxi-a2-m1-cE_2nxi-a2-m1-cG 2nxi-a2-m1-cF_2nxi-a2-m1-cH 2nxi-a3-m1-cK_2nxi-a3-m1-cI 2nxi-a3-m1-cL_2nxi-a3-m1-cJ 3e0i-a1-m1-cA_3e0i-a1-m2-cA 3e0i-a1-m1-cB_3e0i-a1-m2-cB 3e12-a1-m1-cA_3e12-a1-m2-cA 3e12-a1-m1-cB_3e12-a1-m2-cB KFLVIAGPNAIESEELLLKVGEEIKRLSEKFKEVEFVFKSSFDKANRSSIHSFRGHGLEYGVKALRKVKEEFGLKITTDIHESWQAEPVAEVADIIQIPAFLCRQTDLLLAAAKTGRAVNVKKGQFLAPWDTKNVVEKLKFGGAKEIYLTERGTTFGYNNLVVDFRSLPIMKQWAKVIYDATHSVQLPGGMREFIFPLIRAAVAVGCDGVFMETHPEPEKALSDASTQLPLSQLEGIIEAILEIREVASKYYETI KFLVIAGPNAIESEELLLKVGEEIKRLSEKFKEVEFVFKSSFDKANRSSIHSFRGHGLEYGVKALRKVKEEFGLKITTDIHESWQAEPVAEVADIIQIPAFLCRQTDLLLAAAKTGRAVNVKKGQFLAPWDTKNVVEKLKFGGAKEIYLTERGTTFGYNNLVVDFRSLPIMKQWAKVIYDATHSVQLPGGMREFIFPLIRAAVAVGCDGVFMETHPEPEKALSDASTQLPLSQLEGIIEAILEIREVASKYYETI 2nwr-a1-m2-cB_2nwr-a1-m1-cA Crystal structure of C11N mutant of KDO8P Synthase in complex with PEP O66496 O66496 1.5 X-RAY DIFFRACTION 92 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 255 257 1fwn-a1-m1-cA_1fwn-a1-m2-cB 1fwn-a1-m1-cB_1fwn-a1-m2-cA 1fws-a1-m1-cA_1fws-a1-m2-cB 1fws-a1-m1-cB_1fws-a1-m2-cA 1fwt-a1-m1-cB_1fwt-a1-m2-cA 1fwt-a1-m2-cB_1fwt-a1-m1-cA 1fww-a1-m1-cB_1fww-a1-m2-cA 1fww-a1-m2-cB_1fww-a1-m1-cA 1fx6-a1-m1-cB_1fx6-a1-m2-cA 1fx6-a1-m2-cB_1fx6-a1-m1-cA 1fxp-a1-m1-cB_1fxp-a1-m2-cA 1fxp-a1-m2-cB_1fxp-a1-m1-cA 1fxq-a1-m1-cB_1fxq-a1-m2-cA 1fxq-a1-m2-cB_1fxq-a1-m1-cA 1fy6-a1-m1-cB_1fy6-a1-m2-cA 1fy6-a1-m2-cB_1fy6-a1-m1-cA 1jcx-a1-m1-cB_1jcx-a1-m2-cA 1jcx-a1-m2-cB_1jcx-a1-m1-cA 1jcy-a1-m1-cB_1jcy-a1-m2-cA 1jcy-a1-m2-cB_1jcy-a1-m1-cA 1lrn-a1-m1-cB_1lrn-a1-m2-cA 1lrn-a1-m2-cB_1lrn-a1-m1-cA 1lro-a1-m1-cB_1lro-a1-m2-cA 1lro-a1-m2-cB_1lro-a1-m1-cA 1lrq-a1-m1-cB_1lrq-a1-m2-cA 1lrq-a1-m2-cB_1lrq-a1-m1-cA 1pck-a1-m1-cB_1pck-a1-m2-cA 1pck-a1-m2-cB_1pck-a1-m1-cA 1pcw-a1-m1-cB_1pcw-a1-m2-cA 1pcw-a1-m2-cB_1pcw-a1-m1-cA 1pe1-a1-m1-cB_1pe1-a1-m2-cA 1pe1-a1-m2-cB_1pe1-a1-m1-cA 1t8x-a1-m1-cB_1t8x-a1-m2-cA 1t8x-a1-m2-cB_1t8x-a1-m1-cA 1t96-a1-m1-cB_1t96-a1-m2-cA 1t96-a1-m2-cB_1t96-a1-m1-cA 1t99-a1-m1-cB_1t99-a1-m2-cA 1t99-a1-m2-cB_1t99-a1-m1-cA 1zha-a1-m1-cB_1zha-a1-m2-cA 1zha-a1-m2-cB_1zha-a1-m1-cA 1zji-a1-m1-cB_1zji-a1-m2-cA 1zji-a1-m2-cB_1zji-a1-m1-cA 2a21-a1-m1-cB_2a21-a1-m2-cA 2a21-a1-m2-cB_2a21-a1-m1-cA 2a2i-a1-m1-cB_2a2i-a1-m2-cA 2a2i-a1-m2-cB_2a2i-a1-m1-cA 2ef9-a1-m1-cB_2ef9-a1-m2-cA 2ef9-a1-m2-cB_2ef9-a1-m1-cA 2nwr-a1-m1-cB_2nwr-a1-m2-cA 2nws-a1-m1-cB_2nws-a1-m2-cA 2nws-a1-m2-cB_2nws-a1-m1-cA 2nx1-a1-m1-cB_2nx1-a1-m2-cA 2nx1-a1-m2-cB_2nx1-a1-m1-cA 2nx3-a1-m1-cA_2nx3-a1-m1-cD 2nx3-a1-m1-cB_2nx3-a1-m1-cC 2nx3-a2-m1-cE_2nx3-a2-m1-cH 2nx3-a2-m1-cF_2nx3-a2-m1-cG 2nx3-a3-m1-cI_2nx3-a3-m1-cL 2nx3-a3-m1-cJ_2nx3-a3-m1-cK 2nxg-a1-m1-cB_2nxg-a1-m2-cA 2nxg-a1-m2-cB_2nxg-a1-m1-cA 2nxh-a1-m1-cA_2nxh-a1-m1-cD 2nxh-a1-m1-cB_2nxh-a1-m1-cC 2nxh-a2-m1-cF_2nxh-a2-m1-cG 2nxh-a2-m1-cH_2nxh-a2-m1-cE 2nxh-a3-m1-cI_2nxh-a3-m1-cL 2nxh-a3-m1-cJ_2nxh-a3-m1-cK 2nxi-a1-m1-cC_2nxi-a1-m1-cB 2nxi-a1-m1-cD_2nxi-a1-m1-cA 2nxi-a2-m1-cE_2nxi-a2-m1-cH 2nxi-a2-m1-cF_2nxi-a2-m1-cG 2nxi-a3-m1-cK_2nxi-a3-m1-cJ 2nxi-a3-m1-cL_2nxi-a3-m1-cI 3e0i-a1-m1-cB_3e0i-a1-m2-cA 3e0i-a1-m2-cB_3e0i-a1-m1-cA 3e12-a1-m1-cB_3e12-a1-m2-cA 3e12-a1-m2-cB_3e12-a1-m1-cA KFLVIAGPNAIESEELLLKVGEEIKRLSEKFKEVEFVFKSSFDKANRSSIHSFRGHGLEYGVKALRKVKEEFGLKITTDIHESWQAEPVAEVADIIQIPAFLCRQTDLLLAAAKTGRAVNVKKGQFLAPWDTKNVVEKLKFGGAKEIYLTERGTTFGYNNLVVDFRSLPIMKQWAKVIYDATHSVQLPGGMREFIFPLIRAAVAVGCDGVFMETHPEPEKALSDASTQLPLSQLEGIIEAILEIREVASKYYETI EKFLVIAGPNAIESEELLLKVGEEIKRLSEKFKEVEFVFKSSFDKANRSSIHSFRGHGLEYGVKALRKVKEEFGLKITTDIHESWQAEPVAEVADIIQIPAFLCRQTDLLLAAAKTGRAVNVKKGQFLAPWDTKNVVEKLKFGGAKEIYLTERGTTFGYNNLVVDFRSLPIMKQWAKVIYDATHSVQLPGGGMREFIFPLIRAAVAVGCDGVFMETHPEPEKALSDASTQLPLSQLEGIIEAILEIREVASKYYETI 2nwr-a1-m2-cB_2nwr-a1-m2-cA Crystal structure of C11N mutant of KDO8P Synthase in complex with PEP O66496 O66496 1.5 X-RAY DIFFRACTION 94 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 255 257 1fwn-a1-m1-cA_1fwn-a1-m1-cB 1fwn-a1-m2-cA_1fwn-a1-m2-cB 1fws-a1-m1-cA_1fws-a1-m1-cB 1fws-a1-m2-cA_1fws-a1-m2-cB 1fwt-a1-m1-cB_1fwt-a1-m1-cA 1fwt-a1-m2-cB_1fwt-a1-m2-cA 1fww-a1-m1-cB_1fww-a1-m1-cA 1fww-a1-m2-cB_1fww-a1-m2-cA 1fx6-a1-m1-cB_1fx6-a1-m1-cA 1fx6-a1-m2-cB_1fx6-a1-m2-cA 1fxp-a1-m1-cB_1fxp-a1-m1-cA 1fxp-a1-m2-cB_1fxp-a1-m2-cA 1fxq-a1-m1-cB_1fxq-a1-m1-cA 1fxq-a1-m2-cB_1fxq-a1-m2-cA 1fy6-a1-m1-cB_1fy6-a1-m1-cA 1fy6-a1-m2-cB_1fy6-a1-m2-cA 1jcx-a1-m1-cB_1jcx-a1-m1-cA 1jcx-a1-m2-cB_1jcx-a1-m2-cA 1jcy-a1-m1-cB_1jcy-a1-m1-cA 1jcy-a1-m2-cB_1jcy-a1-m2-cA 1lrn-a1-m1-cB_1lrn-a1-m1-cA 1lrn-a1-m2-cB_1lrn-a1-m2-cA 1lro-a1-m1-cB_1lro-a1-m1-cA 1lro-a1-m2-cB_1lro-a1-m2-cA 1lrq-a1-m1-cB_1lrq-a1-m1-cA 1lrq-a1-m2-cB_1lrq-a1-m2-cA 1pck-a1-m1-cB_1pck-a1-m1-cA 1pck-a1-m2-cB_1pck-a1-m2-cA 1pcw-a1-m1-cB_1pcw-a1-m1-cA 1pcw-a1-m2-cB_1pcw-a1-m2-cA 1pe1-a1-m1-cB_1pe1-a1-m1-cA 1pe1-a1-m2-cB_1pe1-a1-m2-cA 1t8x-a1-m1-cB_1t8x-a1-m1-cA 1t8x-a1-m2-cB_1t8x-a1-m2-cA 1t96-a1-m1-cB_1t96-a1-m1-cA 1t96-a1-m2-cB_1t96-a1-m2-cA 1t99-a1-m1-cB_1t99-a1-m1-cA 1t99-a1-m2-cB_1t99-a1-m2-cA 1zha-a1-m1-cB_1zha-a1-m1-cA 1zha-a1-m2-cB_1zha-a1-m2-cA 1zji-a1-m1-cB_1zji-a1-m1-cA 1zji-a1-m2-cB_1zji-a1-m2-cA 2a21-a1-m1-cB_2a21-a1-m1-cA 2a21-a1-m2-cB_2a21-a1-m2-cA 2a2i-a1-m1-cB_2a2i-a1-m1-cA 2a2i-a1-m2-cB_2a2i-a1-m2-cA 2ef9-a1-m1-cB_2ef9-a1-m1-cA 2ef9-a1-m2-cB_2ef9-a1-m2-cA 2nwr-a1-m1-cB_2nwr-a1-m1-cA 2nws-a1-m1-cB_2nws-a1-m1-cA 2nws-a1-m2-cB_2nws-a1-m2-cA 2nx1-a1-m1-cB_2nx1-a1-m1-cA 2nx1-a1-m2-cB_2nx1-a1-m2-cA 2nx3-a1-m1-cA_2nx3-a1-m1-cB 2nx3-a1-m1-cC_2nx3-a1-m1-cD 2nx3-a2-m1-cE_2nx3-a2-m1-cF 2nx3-a2-m1-cG_2nx3-a2-m1-cH 2nx3-a3-m1-cI_2nx3-a3-m1-cJ 2nx3-a3-m1-cK_2nx3-a3-m1-cL 2nxg-a1-m1-cB_2nxg-a1-m1-cA 2nxg-a1-m2-cB_2nxg-a1-m2-cA 2nxh-a1-m1-cA_2nxh-a1-m1-cB 2nxh-a1-m1-cC_2nxh-a1-m1-cD 2nxh-a2-m1-cE_2nxh-a2-m1-cF 2nxh-a2-m1-cH_2nxh-a2-m1-cG 2nxh-a3-m1-cJ_2nxh-a3-m1-cI 2nxh-a3-m1-cK_2nxh-a3-m1-cL 2nxi-a1-m1-cA_2nxi-a1-m1-cB 2nxi-a1-m1-cD_2nxi-a1-m1-cC 2nxi-a2-m1-cF_2nxi-a2-m1-cE 2nxi-a2-m1-cH_2nxi-a2-m1-cG 2nxi-a3-m1-cI_2nxi-a3-m1-cJ 2nxi-a3-m1-cL_2nxi-a3-m1-cK 3e0i-a1-m1-cB_3e0i-a1-m1-cA 3e0i-a1-m2-cB_3e0i-a1-m2-cA 3e12-a1-m1-cB_3e12-a1-m1-cA 3e12-a1-m2-cB_3e12-a1-m2-cA KFLVIAGPNAIESEELLLKVGEEIKRLSEKFKEVEFVFKSSFDKANRSSIHSFRGHGLEYGVKALRKVKEEFGLKITTDIHESWQAEPVAEVADIIQIPAFLCRQTDLLLAAAKTGRAVNVKKGQFLAPWDTKNVVEKLKFGGAKEIYLTERGTTFGYNNLVVDFRSLPIMKQWAKVIYDATHSVQLPGGMREFIFPLIRAAVAVGCDGVFMETHPEPEKALSDASTQLPLSQLEGIIEAILEIREVASKYYETI EKFLVIAGPNAIESEELLLKVGEEIKRLSEKFKEVEFVFKSSFDKANRSSIHSFRGHGLEYGVKALRKVKEEFGLKITTDIHESWQAEPVAEVADIIQIPAFLCRQTDLLLAAAKTGRAVNVKKGQFLAPWDTKNVVEKLKFGGAKEIYLTERGTTFGYNNLVVDFRSLPIMKQWAKVIYDATHSVQLPGGGMREFIFPLIRAAVAVGCDGVFMETHPEPEKALSDASTQLPLSQLEGIIEAILEIREVASKYYETI 2nwt-a1-m1-cA_2nwt-a1-m1-cB NMR Structure of Protein UPF0165 protein AF_2212 from Archaeoglobus Fulgidus; Northeast Structural Genomics Consortium Target GR83 O28071 O28071 NOT SOLUTION NMR 119 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 69 69 MPKIIEAVYENGVFKPLQKVDLKEGERVKIKLELKVEPIDLGEPVSVEEIKKIRDGTWMSSLEHHHHHH MPKIIEAVYENGVFKPLQKVDLKEGERVKIKLELKVEPIDLGEPVSVEEIKKIRDGTWMSSLEHHHHHH 2nwu-a1-m1-cA_2nwu-a1-m1-cB Crystal structure of protein SSO1042 from Sulfolobus solfataricus, Pfam DUF54 Q97Z89 Q97Z89 2.4 X-RAY DIFFRACTION 48 0.992 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 127 129 DKVVVAEVRPSEDVNKVLSAISNFFDFEKNTGIIDILVLEARTLKSLLKFHRVLRNERILDSARKYLKGIEGNTIAFIHKQAAAVGVLSFVAIKFYIEYQNPKEIVDWLAPKTAHGVPLWDNPVPPD DKVVVAEVRPSEDVNKVLSAISNFFDFEKNTRKEGIIDILVLEARTLKSLLKFHRVLRNERILDSARKYLKGIEGNTIAFIHKQAAAVGVLSFVAIKFYIEYQNPKEIVDWLAPKTAHGVPLWDNPVPP 2nwv-a1-m1-cA_2nwv-a1-m2-cA Crystal structure of XisI protein-like (YP_323822.1) from Anabaena Variabilis ATCC 29413 at 1.85 A resolution Q3M7V9 Q3M7V9 1.85 X-RAY DIFFRACTION 62 1.0 111 111 DNVAEYRKLIKQVLTEYDNLSRQSPETNYETCLVFDENHDNYLWLAVDWQGSKRIKYTYVHIRIKNEKIYIEEDYTEEGIATELRLGVTNNDIVLAFHPPDVRKFTDFATA DNVAEYRKLIKQVLTEYDNLSRQSPETNYETCLVFDENHDNYLWLAVDWQGSKRIKYTYVHIRIKNEKIYIEEDYTEEGIATELRLGVTNNDIVLAFHPPDVRKFTDFATA 2nx4-a2-m1-cC_2nx4-a2-m1-cD The Crystal Structure of athe Putative TetR-family transcriptional regulator Rha06780 from Rhodococcus sp. Rha1. Q0SCU8 Q0SCU8 1.7 X-RAY DIFFRACTION 127 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 187 187 2nx4-a1-m1-cA_2nx4-a1-m1-cB HDERRRSITAAAWRLIAARGIEAANMRDIATEAGYTNGALSHYFAGKDEILRTSYEHISEATDRRIAEALGDATGLDALRILCREVMPINEEQLLEARIAASLWPRAMYDEQMAATNRRTMDNWREQMAIFLEQAREEGSVGDIDVTIVVEQLLNMMMGMQILGVLTPGETSSERQLEMLEQFVAAL HDERRRSITAAAWRLIAARGIEAANMRDIATEAGYTNGALSHYFAGKDEILRTSYEHISEATDRRIAEALGDATGLDALRILCREVMPINEEQLLEARIAASLWPRAMYDEQMAATNRRTMDNWREQMAIFLEQAREEGSVGDIDVTIVVEQLLNMMMGMQILGVLTPGETSSERQLEMLEQFVAAL 2nx8-a1-m1-cA_2nx8-a1-m2-cA The crystal structure of the tRNA-specific adenosine deaminase from Streptococcus pyogenes Q5XE14 Q5XE14 2 X-RAY DIFFRACTION 98 1.0 301450 (Streptococcus pyogenes serotype M6) 301450 (Streptococcus pyogenes serotype M6) 168 168 SFLMPYSLEEQTYFMQEALKESEKSLQKAEIPIGCVIVKDGEIIGRGHNAREESNQAIMHAEMMAINEANAHEGNWRLLDTTLFVTIEPCVMCSGAIGLARIPHVIYGASNQKFGGVDSLYQILTDERLNHRVQVERGLLAADCANIMQTFFRQGRERKKIAKHLIKE SFLMPYSLEEQTYFMQEALKESEKSLQKAEIPIGCVIVKDGEIIGRGHNAREESNQAIMHAEMMAINEANAHEGNWRLLDTTLFVTIEPCVMCSGAIGLARIPHVIYGASNQKFGGVDSLYQILTDERLNHRVQVERGLLAADCANIMQTFFRQGRERKKIAKHLIKE 2nx9-a1-m1-cA_2nx9-a1-m1-cB Crystal structure of the carboxyltransferase domain of the oxaloacetate decarboxylase Na+ pump from Vibrio cholerae Q6A1F6 Q6A1F6 1.7 X-RAY DIFFRACTION 125 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 451 453 AIKRVGVTDVVLRDAHQSLFATRLRIDDMLPIAQQLDQIGYWSLECWGGATFDSCIRFLGEDPWQRLRLLKQAMPNTPLQMLLRGQNLLGYRHYADDVVDTFVERAVKNGMDVFRVFDAMNDVRNMQQALQAVKKMGAHAQGTLCYTTSPVHNLQTWVDVAQQLAELGVDSIALKDMAGILTPYAAEELVSTLKKQVDVELHLHCHSTAGLADMTLLKAIEAGVDRVDTAISSMSGTYGHPATESLVATLQGTGYDTGLDIAKLEQIAAYFRDVRKKYHAFEGMMKGSDARILVAQVPGGMLTNMESQLKQQNALDKLDLVLEEIPRVREELGFLPLVTPTSQIVGTQAVINVVLGERYKTITKETSGVLKGEYGKTPAPVNTELQARVLAGAEAITCRPADLIAAEMPTLQDRVLQQAKEQHITLAENAIDDVLTIALFDQVGWKFLANR TQAIKRVGVTDVVLRDAHQSLFATRLRIDDMLPIAQQLDQIGYWSLECWGGATFDSCIRFLGEDPWQRLRLLKQAMPNTPLQMLLRGQNLLGYRHYADDVVDTFVERAVKNGMDVFRVFDAMNDVRNMQQALQAVKKMGAHAQGTLCYTTSPVHNLQTWVDVAQQLAELGVDSIALKDMAGILTPYAAEELVSTLKKQVDVELHLHCHSTAGLADMTLLKAIEAGVDRVDTAISSMSGTYGHPATESLVATLQGTGYDTGLDIAKLEQIAAYFRDVRKKYHAFEGMMKGSDARILVAQVPGGMLTNMESQLKQQNALDKLDLVLEEIPRVREELGFLPLVTPTSQIVGTQAVINVVLGERYKTITKETSGVLKGEYGKTPAPVNTELQARVLAGAEAITCRPADLIAAEMPTLQDRVLQQAKEQHITLAENAIDDVLTIALFDQVGWKFLANR 2nxq-a3-m2-cA_2nxq-a3-m3-cA Crystal structure of calcium binding protein 1 from Entamoeba histolytica: a novel arrangement of EF hand motifs P38505 P38505 2.4 X-RAY DIFFRACTION 28 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 66 66 2nxq-a1-m1-cA_2nxq-a1-m2-cA 2nxq-a1-m1-cA_2nxq-a1-m3-cA 2nxq-a1-m2-cA_2nxq-a1-m3-cA 2nxq-a2-m1-cB_2nxq-a2-m2-cB 2nxq-a2-m1-cB_2nxq-a2-m3-cB 2nxq-a2-m2-cB_2nxq-a2-m3-cB 2nxq-a3-m1-cA_2nxq-a3-m2-cA 2nxq-a3-m1-cA_2nxq-a3-m3-cA 2nxq-a3-m1-cB_2nxq-a3-m2-cB 2nxq-a3-m1-cB_2nxq-a3-m3-cB 2nxq-a3-m2-cB_2nxq-a3-m3-cB 3li6-a1-m1-cA_3li6-a1-m2-cA 3li6-a1-m1-cA_3li6-a1-m3-cA 3li6-a1-m2-cA_3li6-a1-m3-cA 3li6-a2-m1-cD_3li6-a2-m4-cD 3li6-a2-m1-cD_3li6-a2-m5-cD 3li6-a2-m4-cD_3li6-a2-m5-cD 3li6-a3-m1-cG_3li6-a3-m4-cG 3li6-a3-m1-cG_3li6-a3-m5-cG 3li6-a3-m4-cG_3li6-a3-m5-cG 3li6-a4-m1-cJ_3li6-a4-m2-cJ 3li6-a4-m1-cJ_3li6-a4-m3-cJ 3li6-a4-m2-cJ_3li6-a4-m3-cJ 3px1-a1-m1-cA_3px1-a1-m2-cA 3px1-a1-m1-cA_3px1-a1-m3-cA 3px1-a1-m2-cA_3px1-a1-m3-cA 3px1-a2-m1-cB_3px1-a2-m2-cB 3px1-a2-m1-cB_3px1-a2-m3-cB 3px1-a2-m2-cB_3px1-a2-m3-cB 3qjk-a1-m1-cA_3qjk-a1-m2-cA 3qjk-a1-m1-cA_3qjk-a1-m3-cA 3qjk-a1-m2-cA_3qjk-a1-m3-cA 3qjk-a2-m1-cB_3qjk-a2-m2-cB 3qjk-a2-m1-cB_3qjk-a2-m3-cB 3qjk-a2-m2-cB_3qjk-a2-m3-cB 3ulg-a1-m1-cA_3ulg-a1-m2-cA 3ulg-a1-m1-cA_3ulg-a1-m3-cA 3ulg-a1-m2-cA_3ulg-a1-m3-cA 3ulg-a2-m1-cB_3ulg-a2-m2-cB 3ulg-a2-m1-cB_3ulg-a2-m3-cB 3ulg-a2-m2-cB_3ulg-a2-m3-cB 5xop-a1-m1-cA_5xop-a1-m1-cB 5xop-a1-m1-cA_5xop-a1-m1-cC 5xop-a1-m1-cB_5xop-a1-m1-cC 5xop-a1-m1-cD_5xop-a1-m1-cE 5xop-a1-m1-cF_5xop-a1-m1-cD 5xop-a1-m1-cF_5xop-a1-m1-cE AEALFKEIDVNGDGAVSYEEVKAFVSKKRAIKNEQLLQLIFKSIDADGNGEIDQNEFAKFYGSIQG AEALFKEIDVNGDGAVSYEEVKAFVSKKRAIKNEQLLQLIFKSIDADGNGEIDQNEFAKFYGSIQG 2nxv-a2-m1-cA_2nxv-a2-m2-cB Structure of the 6th ORF of the Rhodobacter blastica ATPase operon; Majastridin P05449 P05449 1.1 X-RAY DIFFRACTION 23 1.0 1075 (Fuscovulum blasticum) 1075 (Fuscovulum blasticum) 249 249 2nxv-a2-m1-cB_2nxv-a2-m2-cA 2qgi-a2-m1-cA_2qgi-a2-m2-cB 2qgi-a2-m1-cB_2qgi-a2-m2-cA MKPVPTYVQDKDESTLMFSVCSLVRDQAKYDRLLESFERFGFTPDKAEFLAADNREGNQFHGFSWHKQMLPRCKGRYVIFCHEDVELVDRGYDDLVAAIEALEEADPKWLVAGVAGSPWRPLNHSVTAQALHISDVFGNDRRRGNVPCRVESLDECFLLMRRLKPVLNSYDMQGFHYYGADLCLQAEFLGGRAYAIDFHLHHYGRAIADENFHRLRQEMAQKYRRWFPGRILHCVTGRVALGGGWYEAR MKPVPTYVQDKDESTLMFSVCSLVRDQAKYDRLLESFERFGFTPDKAEFLAADNREGNQFHGFSWHKQMLPRCKGRYVIFCHEDVELVDRGYDDLVAAIEALEEADPKWLVAGVAGSPWRPLNHSVTAQALHISDVFGNDRRRGNVPCRVESLDECFLLMRRLKPVLNSYDMQGFHYYGADLCLQAEFLGGRAYAIDFHLHHYGRAIADENFHRLRQEMAQKYRRWFPGRILHCVTGRVALGGGWYEAR 2nxv-a2-m1-cB_2nxv-a2-m2-cB Structure of the 6th ORF of the Rhodobacter blastica ATPase operon; Majastridin P05449 P05449 1.1 X-RAY DIFFRACTION 28 1.0 1075 (Fuscovulum blasticum) 1075 (Fuscovulum blasticum) 249 249 2nxv-a2-m1-cA_2nxv-a2-m2-cA 2qgi-a2-m1-cA_2qgi-a2-m2-cA 2qgi-a2-m1-cB_2qgi-a2-m2-cB MKPVPTYVQDKDESTLMFSVCSLVRDQAKYDRLLESFERFGFTPDKAEFLAADNREGNQFHGFSWHKQMLPRCKGRYVIFCHEDVELVDRGYDDLVAAIEALEEADPKWLVAGVAGSPWRPLNHSVTAQALHISDVFGNDRRRGNVPCRVESLDECFLLMRRLKPVLNSYDMQGFHYYGADLCLQAEFLGGRAYAIDFHLHHYGRAIADENFHRLRQEMAQKYRRWFPGRILHCVTGRVALGGGWYEAR MKPVPTYVQDKDESTLMFSVCSLVRDQAKYDRLLESFERFGFTPDKAEFLAADNREGNQFHGFSWHKQMLPRCKGRYVIFCHEDVELVDRGYDDLVAAIEALEEADPKWLVAGVAGSPWRPLNHSVTAQALHISDVFGNDRRRGNVPCRVESLDECFLLMRRLKPVLNSYDMQGFHYYGADLCLQAEFLGGRAYAIDFHLHHYGRAIADENFHRLRQEMAQKYRRWFPGRILHCVTGRVALGGGWYEAR 2nxv-a2-m2-cA_2nxv-a2-m2-cB Structure of the 6th ORF of the Rhodobacter blastica ATPase operon; Majastridin P05449 P05449 1.1 X-RAY DIFFRACTION 148 1.0 1075 (Fuscovulum blasticum) 1075 (Fuscovulum blasticum) 249 249 2nxv-a1-m1-cA_2nxv-a1-m1-cB 2nxv-a2-m1-cA_2nxv-a2-m1-cB 2qgi-a1-m1-cA_2qgi-a1-m1-cB 2qgi-a2-m1-cA_2qgi-a2-m1-cB 2qgi-a2-m2-cA_2qgi-a2-m2-cB MKPVPTYVQDKDESTLMFSVCSLVRDQAKYDRLLESFERFGFTPDKAEFLAADNREGNQFHGFSWHKQMLPRCKGRYVIFCHEDVELVDRGYDDLVAAIEALEEADPKWLVAGVAGSPWRPLNHSVTAQALHISDVFGNDRRRGNVPCRVESLDECFLLMRRLKPVLNSYDMQGFHYYGADLCLQAEFLGGRAYAIDFHLHHYGRAIADENFHRLRQEMAQKYRRWFPGRILHCVTGRVALGGGWYEAR MKPVPTYVQDKDESTLMFSVCSLVRDQAKYDRLLESFERFGFTPDKAEFLAADNREGNQFHGFSWHKQMLPRCKGRYVIFCHEDVELVDRGYDDLVAAIEALEEADPKWLVAGVAGSPWRPLNHSVTAQALHISDVFGNDRRRGNVPCRVESLDECFLLMRRLKPVLNSYDMQGFHYYGADLCLQAEFLGGRAYAIDFHLHHYGRAIADENFHRLRQEMAQKYRRWFPGRILHCVTGRVALGGGWYEAR 2ny7-a5-m1-cG_2ny7-a5-m3-cG HIV-1 gp120 Envelope Glycoprotein Complexed with the Broadly Neutralizing CD4-Binding-Site Antibody b12 P04578 P04578 2.3 X-RAY DIFFRACTION 61 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 290 290 2ny7-a3-m1-cG_2ny7-a3-m3-cG 2ny7-a4-m1-cG_2ny7-a4-m3-cG EVVLVNVTENFNWCKNDMVEQMHEDICSLWDQSLKPCVACPKVSFEPIPIHYCAPAGFAILKCNNKTFNGTGPCTNVSTVQCTHGIRPVVSSQLLLNGSLAEEEVVIRSCNFTDNAKTIIVQLNTSVEINCTGAGHCNIARAKWNNTLKQIASKLREQFGNNKTIIFKQSSGGDPEIVTHWFNCGGEFFYCNSTQLFNSTWFNSTWSGSDTITLPCRIKQIINMWCKVGKMMYAPPISGQIRCSSNITGLLLTRDGGNSNNESEIFRPGGGDMRDNWRSELYKYKVVKIE EVVLVNVTENFNWCKNDMVEQMHEDICSLWDQSLKPCVACPKVSFEPIPIHYCAPAGFAILKCNNKTFNGTGPCTNVSTVQCTHGIRPVVSSQLLLNGSLAEEEVVIRSCNFTDNAKTIIVQLNTSVEINCTGAGHCNIARAKWNNTLKQIASKLREQFGNNKTIIFKQSSGGDPEIVTHWFNCGGEFFYCNSTQLFNSTWFNSTWSGSDTITLPCRIKQIINMWCKVGKMMYAPPISGQIRCSSNITGLLLTRDGGNSNNESEIFRPGGGDMRDNWRSELYKYKVVKIE 2nyb-a2-m1-cC_2nyb-a2-m1-cD Crystal structure of E.Coli Iron Superoxide Dismutase Q69E at 1.1 Angstrom resolution P0AGD3 P0AGD3 1.1 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 192 192 1isa-a1-m1-cA_1isa-a1-m1-cB 1isb-a1-m1-cA_1isb-a1-m1-cB 1isc-a1-m1-cA_1isc-a1-m1-cB 1za5-a1-m1-cA_1za5-a1-m1-cB 2bkb-a1-m1-cA_2bkb-a1-m1-cB 2bkb-a2-m1-cC_2bkb-a2-m1-cD 2nyb-a1-m1-cA_2nyb-a1-m1-cB SFELPALPYAKDALAPHISAETIEYHYGKHHQTYVTNLNNLIKGTAFEGKSLEEIIRSSEGGVFNNAAEVWNHTFYWNCLAPNAGGEPTGKVAEAIAASFGSFADFKAQFTDAAIKNFGSGWTWLVKNSDGKLAIVSTSNAGTPLTTDATPLLTVDVWEHAYYIDYRNARPGYLEHFWALVNWEFVAKNLAA SFELPALPYAKDALAPHISAETIEYHYGKHHQTYVTNLNNLIKGTAFEGKSLEEIIRSSEGGVFNNAAEVWNHTFYWNCLAPNAGGEPTGKVAEAIAASFGSFADFKAQFTDAAIKNFGSGWTWLVKNSDGKLAIVSTSNAGTPLTTDATPLLTVDVWEHAYYIDYRNARPGYLEHFWALVNWEFVAKNLAA 2nye-a2-m9-cB_2nye-a2-m14-cA Crystal structure of the Bateman2 domain of yeast Snf4 P12904 P12904 2.5 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 125 127 2nye-a2-m10-cB_2nye-a2-m13-cA 2nye-a2-m11-cB_2nye-a2-m16-cA 2nye-a2-m12-cB_2nye-a2-m15-cA 2nye-a2-m13-cB_2nye-a2-m12-cA 2nye-a2-m14-cB_2nye-a2-m11-cA 2nye-a2-m15-cB_2nye-a2-m10-cA 2nye-a2-m16-cB_2nye-a2-m9-cA 2nye-a2-m17-cB_2nye-a2-m2-cA 2nye-a2-m18-cB_2nye-a2-m1-cA 2nye-a2-m19-cB_2nye-a2-m4-cA 2nye-a2-m1-cB_2nye-a2-m19-cA 2nye-a2-m20-cB_2nye-a2-m3-cA 2nye-a2-m21-cB_2nye-a2-m7-cA 2nye-a2-m22-cB_2nye-a2-m8-cA 2nye-a2-m23-cB_2nye-a2-m5-cA 2nye-a2-m24-cB_2nye-a2-m6-cA 2nye-a2-m2-cB_2nye-a2-m20-cA 2nye-a2-m3-cB_2nye-a2-m17-cA 2nye-a2-m4-cB_2nye-a2-m18-cA 2nye-a2-m5-cB_2nye-a2-m24-cA 2nye-a2-m6-cB_2nye-a2-m23-cA 2nye-a2-m7-cB_2nye-a2-m22-cA 2nye-a2-m8-cB_2nye-a2-m21-cA THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKNDLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN 2nye-a3-m1-cB_2nye-a3-m26-cB Crystal structure of the Bateman2 domain of yeast Snf4 P12904 P12904 2.5 X-RAY DIFFRACTION 15 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 125 125 2nye-a3-m14-cB_2nye-a3-m25-cB THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN 2nye-a4-m1-cA_2nye-a4-m14-cA Crystal structure of the Bateman2 domain of yeast Snf4 P12904 P12904 2.5 X-RAY DIFFRACTION 27 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 127 127 2nye-a2-m10-cA_2nye-a2-m23-cA 2nye-a2-m11-cA_2nye-a2-m22-cA 2nye-a2-m12-cA_2nye-a2-m21-cA 2nye-a2-m13-cA_2nye-a2-m2-cA 2nye-a2-m15-cA_2nye-a2-m4-cA 2nye-a2-m16-cA_2nye-a2-m3-cA 2nye-a2-m17-cA_2nye-a2-m7-cA 2nye-a2-m18-cA_2nye-a2-m8-cA 2nye-a2-m19-cA_2nye-a2-m5-cA 2nye-a2-m1-cA_2nye-a2-m14-cA 2nye-a2-m20-cA_2nye-a2-m6-cA 2nye-a2-m24-cA_2nye-a2-m9-cA 2nye-a3-m1-cA_2nye-a3-m14-cA 2nye-a3-m25-cA_2nye-a3-m26-cA THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKNDLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKNDLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN 2nye-a4-m14-cB_2nye-a4-m14-cA Crystal structure of the Bateman2 domain of yeast Snf4 P12904 P12904 2.5 X-RAY DIFFRACTION 72 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 125 127 2nyc-a1-m1-cA_2nyc-a1-m2-cA 2nye-a1-m1-cB_2nye-a1-m1-cA 2nye-a2-m10-cB_2nye-a2-m10-cA 2nye-a2-m11-cB_2nye-a2-m11-cA 2nye-a2-m12-cB_2nye-a2-m12-cA 2nye-a2-m13-cB_2nye-a2-m13-cA 2nye-a2-m14-cB_2nye-a2-m14-cA 2nye-a2-m15-cB_2nye-a2-m15-cA 2nye-a2-m16-cB_2nye-a2-m16-cA 2nye-a2-m17-cB_2nye-a2-m17-cA 2nye-a2-m18-cB_2nye-a2-m18-cA 2nye-a2-m19-cB_2nye-a2-m19-cA 2nye-a2-m1-cB_2nye-a2-m1-cA 2nye-a2-m20-cB_2nye-a2-m20-cA 2nye-a2-m21-cB_2nye-a2-m21-cA 2nye-a2-m22-cB_2nye-a2-m22-cA 2nye-a2-m23-cB_2nye-a2-m23-cA 2nye-a2-m24-cB_2nye-a2-m24-cA 2nye-a2-m2-cB_2nye-a2-m2-cA 2nye-a2-m3-cB_2nye-a2-m3-cA 2nye-a2-m4-cB_2nye-a2-m4-cA 2nye-a2-m5-cB_2nye-a2-m5-cA 2nye-a2-m6-cB_2nye-a2-m6-cA 2nye-a2-m7-cB_2nye-a2-m7-cA 2nye-a2-m8-cB_2nye-a2-m8-cA 2nye-a2-m9-cB_2nye-a2-m9-cA 2nye-a3-m14-cB_2nye-a3-m14-cA 2nye-a3-m1-cB_2nye-a3-m1-cA 2nye-a3-m25-cB_2nye-a3-m25-cA 2nye-a3-m26-cB_2nye-a3-m26-cA 2nye-a4-m1-cB_2nye-a4-m1-cA THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN THFLKIPIGDLNIITQDNKSCQTTPVIDVIQLTQGRVSSVPIIDENGYLINVYEAYDVLGLIKNDLSLSVGEALRRSYTCTKNDKLSTIDNIRKARVHRFFVVDDVGRLVGVLTLSDILKYILLGSN 2nyf-a1-m1-cA_2nyf-a1-m4-cA Crystal structure of phenylalanine ammonia-lyase from Nostoc punctiforme B2J528 B2J528 2.5 X-RAY DIFFRACTION 205 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 510 510 2nyf-a1-m2-cA_2nyf-a1-m3-cA SIVTVGDRNLTIDEVVNVARHGTQVRLTDNADVIRGVQASCDYINNAVETAISREQAAELQTNLIWFLKSGAGNKLSLADVRAAMLLRANSHLYGASGIRLELIQRIETFLNAGVTPHVYEFGSIGDLVPLSYITGALIGLDPSFTVDFDGKEMDAVTALSRLGLPKLQLQPKEGLAMMNGTSVMTGIAANCVYDAKVLLALTMGVHALAIQGLYGTNQSFHPFIHQCKPHPGQLWTADQMFSLLKDSSLVREEQDRYSLRCLAQFIGPIVDGVSEITKQIEVEMNSVTDNPLIDVENQVSYHGGNFLGQYVGVTMDRLRYYIGLLAKHIDVQIALLVSPEFSNGLPPSLVGNSDRKVNMGLKGLQISGNSIMPLLSFYGNSLADRFPTHAEQFNQNINSQGYISANLTRRSVDIFQNYMAIALMFGVQAVDLRTYKMKGHYDARTCLSPNTVQLYTAVCEVVGKPLTSVRPYIWNDNEQCLDEHIARISADIAGGGLIVQAVEHIFSSL SIVTVGDRNLTIDEVVNVARHGTQVRLTDNADVIRGVQASCDYINNAVETAISREQAAELQTNLIWFLKSGAGNKLSLADVRAAMLLRANSHLYGASGIRLELIQRIETFLNAGVTPHVYEFGSIGDLVPLSYITGALIGLDPSFTVDFDGKEMDAVTALSRLGLPKLQLQPKEGLAMMNGTSVMTGIAANCVYDAKVLLALTMGVHALAIQGLYGTNQSFHPFIHQCKPHPGQLWTADQMFSLLKDSSLVREEQDRYSLRCLAQFIGPIVDGVSEITKQIEVEMNSVTDNPLIDVENQVSYHGGNFLGQYVGVTMDRLRYYIGLLAKHIDVQIALLVSPEFSNGLPPSLVGNSDRKVNMGLKGLQISGNSIMPLLSFYGNSLADRFPTHAEQFNQNINSQGYISANLTRRSVDIFQNYMAIALMFGVQAVDLRTYKMKGHYDARTCLSPNTVQLYTAVCEVVGKPLTSVRPYIWNDNEQCLDEHIARISADIAGGGLIVQAVEHIFSSL 2nyf-a1-m2-cA_2nyf-a1-m4-cA Crystal structure of phenylalanine ammonia-lyase from Nostoc punctiforme B2J528 B2J528 2.5 X-RAY DIFFRACTION 10 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 510 510 2nyf-a1-m1-cA_2nyf-a1-m3-cA SIVTVGDRNLTIDEVVNVARHGTQVRLTDNADVIRGVQASCDYINNAVETAISREQAAELQTNLIWFLKSGAGNKLSLADVRAAMLLRANSHLYGASGIRLELIQRIETFLNAGVTPHVYEFGSIGDLVPLSYITGALIGLDPSFTVDFDGKEMDAVTALSRLGLPKLQLQPKEGLAMMNGTSVMTGIAANCVYDAKVLLALTMGVHALAIQGLYGTNQSFHPFIHQCKPHPGQLWTADQMFSLLKDSSLVREEQDRYSLRCLAQFIGPIVDGVSEITKQIEVEMNSVTDNPLIDVENQVSYHGGNFLGQYVGVTMDRLRYYIGLLAKHIDVQIALLVSPEFSNGLPPSLVGNSDRKVNMGLKGLQISGNSIMPLLSFYGNSLADRFPTHAEQFNQNINSQGYISANLTRRSVDIFQNYMAIALMFGVQAVDLRTYKMKGHYDARTCLSPNTVQLYTAVCEVVGKPLTSVRPYIWNDNEQCLDEHIARISADIAGGGLIVQAVEHIFSSL SIVTVGDRNLTIDEVVNVARHGTQVRLTDNADVIRGVQASCDYINNAVETAISREQAAELQTNLIWFLKSGAGNKLSLADVRAAMLLRANSHLYGASGIRLELIQRIETFLNAGVTPHVYEFGSIGDLVPLSYITGALIGLDPSFTVDFDGKEMDAVTALSRLGLPKLQLQPKEGLAMMNGTSVMTGIAANCVYDAKVLLALTMGVHALAIQGLYGTNQSFHPFIHQCKPHPGQLWTADQMFSLLKDSSLVREEQDRYSLRCLAQFIGPIVDGVSEITKQIEVEMNSVTDNPLIDVENQVSYHGGNFLGQYVGVTMDRLRYYIGLLAKHIDVQIALLVSPEFSNGLPPSLVGNSDRKVNMGLKGLQISGNSIMPLLSFYGNSLADRFPTHAEQFNQNINSQGYISANLTRRSVDIFQNYMAIALMFGVQAVDLRTYKMKGHYDARTCLSPNTVQLYTAVCEVVGKPLTSVRPYIWNDNEQCLDEHIARISADIAGGGLIVQAVEHIFSSL 2nyf-a1-m3-cA_2nyf-a1-m4-cA Crystal structure of phenylalanine ammonia-lyase from Nostoc punctiforme B2J528 B2J528 2.5 X-RAY DIFFRACTION 233 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 510 510 2nyf-a1-m1-cA_2nyf-a1-m2-cA SIVTVGDRNLTIDEVVNVARHGTQVRLTDNADVIRGVQASCDYINNAVETAISREQAAELQTNLIWFLKSGAGNKLSLADVRAAMLLRANSHLYGASGIRLELIQRIETFLNAGVTPHVYEFGSIGDLVPLSYITGALIGLDPSFTVDFDGKEMDAVTALSRLGLPKLQLQPKEGLAMMNGTSVMTGIAANCVYDAKVLLALTMGVHALAIQGLYGTNQSFHPFIHQCKPHPGQLWTADQMFSLLKDSSLVREEQDRYSLRCLAQFIGPIVDGVSEITKQIEVEMNSVTDNPLIDVENQVSYHGGNFLGQYVGVTMDRLRYYIGLLAKHIDVQIALLVSPEFSNGLPPSLVGNSDRKVNMGLKGLQISGNSIMPLLSFYGNSLADRFPTHAEQFNQNINSQGYISANLTRRSVDIFQNYMAIALMFGVQAVDLRTYKMKGHYDARTCLSPNTVQLYTAVCEVVGKPLTSVRPYIWNDNEQCLDEHIARISADIAGGGLIVQAVEHIFSSL SIVTVGDRNLTIDEVVNVARHGTQVRLTDNADVIRGVQASCDYINNAVETAISREQAAELQTNLIWFLKSGAGNKLSLADVRAAMLLRANSHLYGASGIRLELIQRIETFLNAGVTPHVYEFGSIGDLVPLSYITGALIGLDPSFTVDFDGKEMDAVTALSRLGLPKLQLQPKEGLAMMNGTSVMTGIAANCVYDAKVLLALTMGVHALAIQGLYGTNQSFHPFIHQCKPHPGQLWTADQMFSLLKDSSLVREEQDRYSLRCLAQFIGPIVDGVSEITKQIEVEMNSVTDNPLIDVENQVSYHGGNFLGQYVGVTMDRLRYYIGLLAKHIDVQIALLVSPEFSNGLPPSLVGNSDRKVNMGLKGLQISGNSIMPLLSFYGNSLADRFPTHAEQFNQNINSQGYISANLTRRSVDIFQNYMAIALMFGVQAVDLRTYKMKGHYDARTCLSPNTVQLYTAVCEVVGKPLTSVRPYIWNDNEQCLDEHIARISADIAGGGLIVQAVEHIFSSL 2nyg-a2-m1-cD_2nyg-a2-m1-cC Crystal structure of YokD protein from Bacillus subtilis O32003 O32003 2.6 X-RAY DIFFRACTION 87 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 268 270 2nyg-a1-m1-cB_2nyg-a1-m1-cA 2nyg-a3-m1-cF_2nyg-a3-m1-cE LKKIVESTTFPRTKQSITEDLKALGLKKGMTVLVHSSLSSIGWVNGGAVAVIQALIDVVTEEGTIVMPSQSVELSDPKEWGNPPVPEEWWDIIRESMPAYNSNYTPTTRGMGQIVELFRSYPEVKRSNHPNYSFVAWGKHKNKILNQHPLEFGLGEQSPLGKLYIRESYVLLLGADFDSSTCFHLAEYRIPYQKIINRGAPIIVEGKRVWKEYKELEFREELFQEVGQAFEAEHNMKVGKVGSANCRLFSLTEAVDFAEKWFINNDSK LKKIVESTTFPRTKQSITEDLKALGLKKGMTVLVHSSLSSIGWVNGGAVAVIQALIDVVTEEGTIVMPSQSVELSDPKEWGNPPVPEEWWDIIRESMPAYNSNYTPTTRGMGQIVELFRSYPEVKRSNHPNYSFVAWGKHKNKILNQHPLEFGLGEQSPLGKLYIRESYVLLLGADFDSSTCFHLAEYRIPYQKIINRGAPIIVEGKRVWKEYKELEFREELFQEVGQAFEAEHNMKVGKVGSANCRLFSLTEAVDFAEKWFINNDSKNI 2nyh-a2-m4-cB_2nyh-a2-m2-cA Crystal structure of putative dioxygenase (YP_555069.1) from Burkholderia Xenovorans LB400 at 1.70 A resolution Q13JM0 Q13JM0 1.7 X-RAY DIFFRACTION 27 1.0 36873 (Paraburkholderia xenovorans) 36873 (Paraburkholderia xenovorans) 113 114 2nyh-a2-m3-cB_2nyh-a2-m1-cA TFRDTSAIASWHAHVYFDASSRDAAWTLREQIEAHWSGKLQLGRFHERPVGPHPWSYQLAFTQEQFADLVGWLTLNHGALDIFLHPNTGDALRDHRDAAVWIGHSHELVLSAL GTFRDTSAIASWHAHVYFDASSRDAAWTLREQIEAHWSGKLQLGRFHERPVGPHPWSYQLAFTQEQFADLVGWLTLNHGALDIFLHPNTGDALRDHRDAAVWIGHSHELVLSAL 2nyh-a3-m1-cA_2nyh-a3-m2-cA Crystal structure of putative dioxygenase (YP_555069.1) from Burkholderia Xenovorans LB400 at 1.70 A resolution Q13JM0 Q13JM0 1.7 X-RAY DIFFRACTION 10 1.0 36873 (Paraburkholderia xenovorans) 36873 (Paraburkholderia xenovorans) 114 114 2nyh-a2-m1-cA_2nyh-a2-m2-cA GTFRDTSAIASWHAHVYFDASSRDAAWTLREQIEAHWSGKLQLGRFHERPVGPHPWSYQLAFTQEQFADLVGWLTLNHGALDIFLHPNTGDALRDHRDAAVWIGHSHELVLSAL GTFRDTSAIASWHAHVYFDASSRDAAWTLREQIEAHWSGKLQLGRFHERPVGPHPWSYQLAFTQEQFADLVGWLTLNHGALDIFLHPNTGDALRDHRDAAVWIGHSHELVLSAL 2nyh-a3-m2-cB_2nyh-a3-m2-cA Crystal structure of putative dioxygenase (YP_555069.1) from Burkholderia Xenovorans LB400 at 1.70 A resolution Q13JM0 Q13JM0 1.7 X-RAY DIFFRACTION 90 1.0 36873 (Paraburkholderia xenovorans) 36873 (Paraburkholderia xenovorans) 113 114 2nyh-a1-m1-cB_2nyh-a1-m1-cA 2nyh-a3-m1-cB_2nyh-a3-m1-cA 2p8i-a1-m1-cA_2p8i-a1-m1-cB 2p8i-a2-m1-cC_2p8i-a2-m1-cD TFRDTSAIASWHAHVYFDASSRDAAWTLREQIEAHWSGKLQLGRFHERPVGPHPWSYQLAFTQEQFADLVGWLTLNHGALDIFLHPNTGDALRDHRDAAVWIGHSHELVLSAL GTFRDTSAIASWHAHVYFDASSRDAAWTLREQIEAHWSGKLQLGRFHERPVGPHPWSYQLAFTQEQFADLVGWLTLNHGALDIFLHPNTGDALRDHRDAAVWIGHSHELVLSAL 2nyi-a1-m1-cB_2nyi-a1-m1-cA Crystal Structure of an Unknown Protein from Galdieria sulphuraria J3QW32 J3QW32 1.8 X-RAY DIFFRACTION 172 0.994 130081 (Galdieria sulphuraria) 130081 (Galdieria sulphuraria) 167 168 ETQSFVVSVAGSDRVGIVHDFSWALKNISANVESSRACLGGDFAIVLVSLNAKDGKLIQSALESALPGFQISTRRASHVSPDTREYELYVEGPDSEGIVEAVTAVLAKKGANIVELETETLPAPFAGFTLFRGSRVAFPFPLYQEVVTALSRVEEEFGVDIDLEEVV ETQSFVVSVAGSDRVGIVHDFSWALKNISANVESSRACLGGDFAIVLVSLNAKDGKLIQSALESALPGFQISTRRASSVVSPDTREYELYVEGPDSEGIVEAVTAVLAKKGANIVELETETLPAPFAGFTLFRGSRVAFPFPLYQEVVTALSRVEEEFGVDIDLEEVV 2nyr-a1-m1-cB_2nyr-a1-m1-cA Crystal Structure of Human Sirtuin Homolog 5 in Complex with Suramin Q9NXA8 Q9NXA8 2.06 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 259 PSSSMADFRKFFAKAKHIVIISGAGVSAESGVPTFRGAGGYWRKWQAQDLATPLAFAHNPSRVWEFYHYRREVMGSKEPNAGHRAIAECETRLGKQGRRVVVITQNIDELHRKAGTKNLLEIHGSLFKTRCTSCGVVAENYKSPICPALSGKGAPEPGTQDASIPVEKLPRCEEAGCGGLLRPHVVWFGENLDPAILEEVDRELAHCDLCLVVGTSSVVYPAAMFAPQVAARGVPVAEFNTRFHFQGPCGTTLPEALA PSSSMADFRKFFAKAKHIVIISGAGVSAESGVPTFRGAGGYWRKWQAQDLATPLAFAHNPSRVWEFYHYRREVMGSKEPNAGHRAIAECETRLGKQGRRVVVITQNIDELHRKAGTKNLLEIHGSLFKTRCTSCGVVAENYKSPICPALSGKGAPEPGTQDASIPVEKLPRCEEAGCGGLLRPHVVWFGENLDPAILEEVDRELAHCDLCLVVGTSSVVYPAAMFAPQVAARGVPVAEFNTERFHFQGPCGTTLPEALA 2nys-a1-m1-cB_2nys-a1-m1-cA X-ray Crystal Structure of Protein AGR_C_3712 from Agrobacterium tumefaciens. Northeast Structural Genomics Consortium Target AtR88. Q8U561 Q8U561 2.7 X-RAY DIFFRACTION 53 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 113 115 DHIRYDILAQDALRGVIRKVLGEVAATGRLPGDHHFFITFLTGAPGVRISQHLKSKYAEQTIVIQHQFWDKVTETGFEIGLSFSDTPEKLVIPYNAIRGFYDPSVNFELEFDV QDHIRYDILAQDALRGVIRKVLGEVAATGRLPGDHHFFITFLTGAPGVRISQHLKSKYAEQTIVIQHQFWDKVTETGFEIGLSFSDTPEKLVIPYNAIRGFYDPSVNFELEFDVP 2nyt-a1-m1-cD_2nyt-a1-m1-cC The APOBEC2 Crystal Structure and Functional Implications for AID Q9Y235 Q9Y235 2.5 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 179 185 2nyt-a1-m1-cA_2nyt-a1-m1-cB MIVTGERLPANFFKFQFRNVEYSSGRNKTFLCYVVEAQGKGGQVQASRGYLEDEHAAAHAEEAFFNTILPAFDPALRYNVTWYVSSSPCAACADRIIKTLSKTKNLRLLILVGRLFMWEEPEIQAALKKLKEAGCKLRIMKPQDFEYVWQNFVEQEFQPWEDIQENFLYYEEKLADILK MIVTGERLPANFFKFQFRNVEYSSGRNKTFLCYVVEAQGKGGQVQASRGYLEDEHAAAHAEEAFFNTILPAFDPALRYNVTWYVSSSPCAACADRIIKTLSKTKNLRLLILVGRLFMWEEPEIQAALKKLKEAGCKLRIMKPQDFEYVWQNFVEQEEGESKAFQPWEDIQENFLYYEEKLADILK 2nz0-a2-m2-cA_2nz0-a2-m4-cC Crystal structure of potassium channel Kv4.3 in complex with its regulatory subunit KChIP1 (CASP Target) Q9NZI2 Q9NZI2 3.2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 170 170 2i2r-a3-m1-cN_2i2r-a3-m1-cG 2i2r-a3-m1-cO_2i2r-a3-m1-cF 2i2r-a3-m1-cP_2i2r-a3-m1-cE 2nz0-a2-m1-cA_2nz0-a2-m3-cC 2nz0-a2-m1-cC_2nz0-a2-m3-cA 2nz0-a2-m2-cC_2nz0-a2-m4-cA MGLEQLEAQTNFTKRELQVLYRGFKNECPSGVVNEDTFKQIYAQFFPHGDASTYAHYLFNAFDTTQTGSVKFEDFVTALSILLRGTVHEKLRWTFNLYDINKDGYINKEEMMDIVKAIYDMMDTPRQHVDVFFQKMDKNKDGIVTLDEFLESCQEDDNIMRSLQLFQNVM MGLEQLEAQTNFTKRELQVLYRGFKNECPSGVVNEDTFKQIYAQFFPHGDASTYAHYLFNAFDTTQTGSVKFEDFVTALSILLRGTVHEKLRWTFNLYDINKDGYINKEEMMDIVKAIYDMMDTPRQHVDVFFQKMDKNKDGIVTLDEFLESCQEDDNIMRSLQLFQNVM 2nz1-a2-m1-cX_2nz1-a2-m2-cX Viral Chemokine Binding Protein M3 From Murine Gammaherpesvirus68 In Complex With The CC-Chemokine CCL2/MCP-1 O41925 O41925 2.5 X-RAY DIFFRACTION 90 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 371 371 1mkf-a1-m1-cA_1mkf-a1-m1-cB 1mkf-a2-m1-cA_1mkf-a2-m1-cB 1mkf-a2-m2-cA_1mkf-a2-m2-cB 1ml0-a1-m1-cA_1ml0-a1-m2-cA 1ml0-a2-m1-cA_1ml0-a2-m2-cA 1ml0-a2-m3-cA_1ml0-a2-m5-cA 1ml0-a2-m4-cA_1ml0-a2-m6-cA 2nyz-a1-m1-cA_2nyz-a1-m1-cB 2nz1-a1-m1-cA_2nz1-a1-m1-cB HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH HSSGVSTQSVDLSQIKRGDEIQAHCLTPAETEVTECAGILKDVLSKNLHELQGLCNVKNKMGVPWVSVEELGQEIITGRLPFPSVGGTPVNDLVRVLVVAESNTPEETPEEEFYAYVELQTELYTFGLSDDNVVFTSDYMTVWMIDIPKSYVDVGMLTRATFLEQWPGAKVTVMIPYSSTFTWCGELGAISEESAPQPSLSARSPVCKNSARYSTSKFCEVDGCTAETGMEKMSLLTPFGGPPQQAKMNTCPCYYKYSVSPLPAMDHLILADLAGLDSLTSPVYVMAAYFDSTHENPVRPSSKLYHCALQMTSHDGVWTSTSSEQCPIRLVEGQSQNVLQVRVAPTSMPNLVGVSLMLEGQQYRLEYFGDH 2nz2-a1-m1-cA_2nz2-a1-m4-cA Crystal structure of human argininosuccinate synthase in complex with aspartate and citrulline P00966 P00966 2.4 X-RAY DIFFRACTION 251 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 402 402 2nz2-a1-m2-cA_2nz2-a1-m3-cA KGSVVLAYSGGLDTSCILVWLKEQGYDVIAYLANIGQKEDFEEARKKALKLGAKKVFIEDVSREFVEEFIWPAIQSSALYEDRYLLGTSLARPCIARKQVEIAQREGAKYVSHGATGKGNDQVRFELSCYSLAPQIKVIAPWRMPEFYNRFKRNDLMEYAKQHGIPIPVTPKNPWSMDENLMHISYEAGILENPKNQAPPGLYTKTQDPAKAPNTPDILEIEFKKGVPVKVTNVKDGTTHQTSLELFMYLNEVAGKHGVGRIDIVENRFIGMKSRGIYETPAGTILYHAHLDIEAFTMDREVRKIKQGLGLKFAELVYTGFWHSPECEFVRHCIAKSQERVEGKVQVSVLKGQVYILGRESPLSLYNEELVSNVQGDYEPTDATGFININSLRLKEYHRLQS KGSVVLAYSGGLDTSCILVWLKEQGYDVIAYLANIGQKEDFEEARKKALKLGAKKVFIEDVSREFVEEFIWPAIQSSALYEDRYLLGTSLARPCIARKQVEIAQREGAKYVSHGATGKGNDQVRFELSCYSLAPQIKVIAPWRMPEFYNRFKRNDLMEYAKQHGIPIPVTPKNPWSMDENLMHISYEAGILENPKNQAPPGLYTKTQDPAKAPNTPDILEIEFKKGVPVKVTNVKDGTTHQTSLELFMYLNEVAGKHGVGRIDIVENRFIGMKSRGIYETPAGTILYHAHLDIEAFTMDREVRKIKQGLGLKFAELVYTGFWHSPECEFVRHCIAKSQERVEGKVQVSVLKGQVYILGRESPLSLYNEELVSNVQGDYEPTDATGFININSLRLKEYHRLQS 2nz2-a1-m2-cA_2nz2-a1-m4-cA Crystal structure of human argininosuccinate synthase in complex with aspartate and citrulline P00966 P00966 2.4 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 402 402 2nz2-a1-m1-cA_2nz2-a1-m3-cA KGSVVLAYSGGLDTSCILVWLKEQGYDVIAYLANIGQKEDFEEARKKALKLGAKKVFIEDVSREFVEEFIWPAIQSSALYEDRYLLGTSLARPCIARKQVEIAQREGAKYVSHGATGKGNDQVRFELSCYSLAPQIKVIAPWRMPEFYNRFKRNDLMEYAKQHGIPIPVTPKNPWSMDENLMHISYEAGILENPKNQAPPGLYTKTQDPAKAPNTPDILEIEFKKGVPVKVTNVKDGTTHQTSLELFMYLNEVAGKHGVGRIDIVENRFIGMKSRGIYETPAGTILYHAHLDIEAFTMDREVRKIKQGLGLKFAELVYTGFWHSPECEFVRHCIAKSQERVEGKVQVSVLKGQVYILGRESPLSLYNEELVSNVQGDYEPTDATGFININSLRLKEYHRLQS KGSVVLAYSGGLDTSCILVWLKEQGYDVIAYLANIGQKEDFEEARKKALKLGAKKVFIEDVSREFVEEFIWPAIQSSALYEDRYLLGTSLARPCIARKQVEIAQREGAKYVSHGATGKGNDQVRFELSCYSLAPQIKVIAPWRMPEFYNRFKRNDLMEYAKQHGIPIPVTPKNPWSMDENLMHISYEAGILENPKNQAPPGLYTKTQDPAKAPNTPDILEIEFKKGVPVKVTNVKDGTTHQTSLELFMYLNEVAGKHGVGRIDIVENRFIGMKSRGIYETPAGTILYHAHLDIEAFTMDREVRKIKQGLGLKFAELVYTGFWHSPECEFVRHCIAKSQERVEGKVQVSVLKGQVYILGRESPLSLYNEELVSNVQGDYEPTDATGFININSLRLKEYHRLQS 2nz2-a1-m3-cA_2nz2-a1-m4-cA Crystal structure of human argininosuccinate synthase in complex with aspartate and citrulline P00966 P00966 2.4 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 402 402 2nz2-a1-m1-cA_2nz2-a1-m2-cA KGSVVLAYSGGLDTSCILVWLKEQGYDVIAYLANIGQKEDFEEARKKALKLGAKKVFIEDVSREFVEEFIWPAIQSSALYEDRYLLGTSLARPCIARKQVEIAQREGAKYVSHGATGKGNDQVRFELSCYSLAPQIKVIAPWRMPEFYNRFKRNDLMEYAKQHGIPIPVTPKNPWSMDENLMHISYEAGILENPKNQAPPGLYTKTQDPAKAPNTPDILEIEFKKGVPVKVTNVKDGTTHQTSLELFMYLNEVAGKHGVGRIDIVENRFIGMKSRGIYETPAGTILYHAHLDIEAFTMDREVRKIKQGLGLKFAELVYTGFWHSPECEFVRHCIAKSQERVEGKVQVSVLKGQVYILGRESPLSLYNEELVSNVQGDYEPTDATGFININSLRLKEYHRLQS KGSVVLAYSGGLDTSCILVWLKEQGYDVIAYLANIGQKEDFEEARKKALKLGAKKVFIEDVSREFVEEFIWPAIQSSALYEDRYLLGTSLARPCIARKQVEIAQREGAKYVSHGATGKGNDQVRFELSCYSLAPQIKVIAPWRMPEFYNRFKRNDLMEYAKQHGIPIPVTPKNPWSMDENLMHISYEAGILENPKNQAPPGLYTKTQDPAKAPNTPDILEIEFKKGVPVKVTNVKDGTTHQTSLELFMYLNEVAGKHGVGRIDIVENRFIGMKSRGIYETPAGTILYHAHLDIEAFTMDREVRKIKQGLGLKFAELVYTGFWHSPECEFVRHCIAKSQERVEGKVQVSVLKGQVYILGRESPLSLYNEELVSNVQGDYEPTDATGFININSLRLKEYHRLQS 2nz5-a1-m1-cA_2nz5-a1-m1-cB Structure and Function Studies of Cytochrome P450 158A1 from Streptomyces coelicolor A3(2) Q9KZF5 Q9KZF5 2.35 X-RAY DIFFRACTION 44 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 399 399 PPPVRDWPALDLDGPEFDPVLAELMREGPLTRVRLPHGEGWAWLATRYDDVKAITNDPRFGRAEVTQRQITRLAPHFKPRPGSLAFADQPDHNRLRRAVAGAFTVGATKRLRPRAQEILDGLVDGILAEGPPADLVERVLEPFPIAVVSEVMGVPAADRERVHSWTRQIISTSGGAEAAERAKRGLYGWITETVRARAGSEGGDVYSMLGAAVGRGEVGETEAVGLAGPLQIGGEAVTHNVGQMLYLLLTRRELMARMRERPGARGTALDELLRWISHRTSVGLARIALEDVEVHGTRIAAGEPVYVSYLAANRDPDVFPDPDRIDLDRDPNPHLAYGNGHHFCTGAVLARMQTELLVDTLLERLPGLRLAVPAEQVAWRRKTMIRGPRTLPCTWHHHH PPPVRDWPALDLDGPEFDPVLAELMREGPLTRVRLPHGEGWAWLATRYDDVKAITNDPRFGRAEVTQRQITRLAPHFKPRPGSLAFADQPDHNRLRRAVAGAFTVGATKRLRPRAQEILDGLVDGILAEGPPADLVERVLEPFPIAVVSEVMGVPAADRERVHSWTRQIISTSGGAEAAERAKRGLYGWITETVRARAGSEGGDVYSMLGAAVGRGEVGETEAVGLAGPLQIGGEAVTHNVGQMLYLLLTRRELMARMRERPGARGTALDELLRWISHRTSVGLARIALEDVEVHGTRIAAGEPVYVSYLAANRDPDVFPDPDRIDLDRDPNPHLAYGNGHHFCTGAVLARMQTELLVDTLLERLPGLRLAVPAEQVAWRRKTMIRGPRTLPCTWHHHH 2nz6-a2-m2-cA_2nz6-a2-m3-cA Crystal structure of the PTPRJ inactivating mutant C1239S Q12913 Q12913 2.3 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 296 2cfv-a1-m1-cA_2cfv-a1-m2-cA 2cfv-a1-m1-cA_2cfv-a1-m3-cA 2cfv-a1-m2-cA_2cfv-a1-m3-cA 2nz6-a2-m1-cA_2nz6-a2-m2-cA 2nz6-a2-m1-cA_2nz6-a2-m3-cA HHHHHHSSGVDLGTENLYFQSMKLIRVENFEAYFKKQQADSNCGFAEEYEDLKLVGISQPKYAAELAENRGKNRYNNVLPYDISRVKLSVQTHSTDDYINANYMPGYHSKKDFIATQGPLPNTLKDFWRMVWEKNVYAIIMLTKEYWPSKQAQDYGDITVAMTSEIVLPEWTIRDFTVKNIQTSESHPLRQFHFTSWPDHGVPDTTDLLINFRYLVRDYMESPILVHSSAGVGRTGTFIAIDRLIYQIENENTVDVYGIVYDLRMHRPLMVQTEDQYVFLNQCVLDIVRSQKDLIY HHHHHHSSGVDLGTENLYFQSMKLIRVENFEAYFKKQQADSNCGFAEEYEDLKLVGISQPKYAAELAENRGKNRYNNVLPYDISRVKLSVQTHSTDDYINANYMPGYHSKKDFIATQGPLPNTLKDFWRMVWEKNVYAIIMLTKEYWPSKQAQDYGDITVAMTSEIVLPEWTIRDFTVKNIQTSESHPLRQFHFTSWPDHGVPDTTDLLINFRYLVRDYMESPILVHSSAGVGRTGTFIAIDRLIYQIENENTVDVYGIVYDLRMHRPLMVQTEDQYVFLNQCVLDIVRSQKDLIY 2nza-a1-m1-cB_2nza-a1-m1-cA Structure and Function Studies of Cytochrome P450 158A1 from Streptomyces coelicolor A3(2) Q9KZF5 Q9KZF5 2.9 X-RAY DIFFRACTION 27 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 388 397 PPPVRDWPALDLDGPEFDPVLAELMREGPLTRVRLPHGEGWAWLATRYDDVKAITNDPRFGRAEVTQRQPRPGSLAFADQPDHNRLRRAVAGAFTVGATKRLRPRAQEILDGLVDGILAEGPPADLVERVLEPFPIAVVSEVMGVPAADRERVHSWTRQIISTSGGAEAAERAKRGLYGWITETVRARAGSEGGDVYSMLGAAVGRGEVGETEAVGLAGPLQIGGEAVTHNVGQMLYLLLTRRELMARMRERPGARGTALDELLRWISHRTSVGLARIALEDVEVHGTRIAAGEPVYVSYLAANRDPDVFPDPDRIDLDRDPNPHLAYGNGHHFCTGAVLARMQTELLVDTLLERLPGLRLAVPAEQVAWRRKTMIRGPRTLPCTWHH PPPVRDWPALDLDGPEFDPVLAELMREGPLTRVRLPHGEGWAWLATRYDDVKAITNDPRFGRAEVTQRQITRLAPHFKPRPGSLAFADQPDHNRLRRAVAGAFTVGATKRLRPRAQEILDGLVDGILAEGPPADLVERVLEPFPIAVVSEVMGVPAADRERVHSWTRQIISTSGGAEAAERAKRGLYGWITETVRARAGSEGGDVYSMLGAAVGRGEVGETEAVGLAGPLQIGGEAVTHNVGQMLYLLLTRRELMARMRERPGARGTALDELLRWISHRTSVGLARIALEDVEVHGTRIAAGEPVYVSYLAANRDPDVFPDPDRIDLDRDPNPHLAYGNGHHFCTGAVLARMQTELLVDTLLERLPGLRLAVPAEQVAWRRKTMIRGPRTLPCTWHH 2nzc-a1-m1-cB_2nzc-a1-m1-cD The structure of uncharacterized protein TM1266 from Thermotoga maritima. Q9X0Z3 Q9X0Z3 1.95 X-RAY DIFFRACTION 25 0.988 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 80 80 2nzc-a1-m1-cA_2nzc-a1-m1-cC EKRFYILTIVVEDREKAYRQVNELLHNFSEDILLRVGYPVREENAIIFLVLKTDNDTIGALSGKLGQISGVRVKTVPLKR HEKRFYILTIVVEDREKAYRQVNELLHNFSEDILLRVGYPVREENAIIFLVLKTDNDTIGALSGKLGQISGVRVKTVPLK 2nzc-a1-m1-cC_2nzc-a1-m1-cD The structure of uncharacterized protein TM1266 from Thermotoga maritima. Q9X0Z3 Q9X0Z3 1.95 X-RAY DIFFRACTION 45 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 79 80 2nzc-a1-m1-cA_2nzc-a1-m1-cB EKRFYILTIVVEDREKAYRQVNELLHNFSEDILLRVGYPVREENAIIFLVLKTDNDTIGALSGKLGQISGVRVKTVPLK HEKRFYILTIVVEDREKAYRQVNELLHNFSEDILLRVGYPVREENAIIFLVLKTDNDTIGALSGKLGQISGVRVKTVPLK 2nzh-a2-m2-cA_2nzh-a2-m4-cA Crystal structure of a secretion chaperone CsaA from Bacillus subtilis in the space group P 4 21 2 P37584 P37584 1.9 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 110 110 2nzh-a2-m1-cA_2nzh-a2-m3-cA 2nzh-a2-m1-cA_2nzh-a2-m4-cA 2nzh-a2-m2-cA_2nzh-a2-m3-cA MAVIDDFEKLDIRTGTIVKAEEFPEARVPAIKLVIDFGTEIGIKQSSAQITKRYKPEGLINKQVIAVVNFPPRRIAGFKSEVLVLGGIPGQGDVVLLQPDQPVPNGTKIG MAVIDDFEKLDIRTGTIVKAEEFPEARVPAIKLVIDFGTEIGIKQSSAQITKRYKPEGLINKQVIAVVNFPPRRIAGFKSEVLVLGGIPGQGDVVLLQPDQPVPNGTKIG 2nzh-a2-m4-cB_2nzh-a2-m1-cA Crystal structure of a secretion chaperone CsaA from Bacillus subtilis in the space group P 4 21 2 P37584 P37584 1.9 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 108 110 2nzh-a2-m1-cB_2nzh-a2-m3-cA 2nzh-a2-m2-cB_2nzh-a2-m4-cA 2nzh-a2-m3-cB_2nzh-a2-m2-cA VIDDFEKLDIRTGTIVKAEEFPEARVPAIKLVIDFGTEIGIKQSSAQITKRYKPEGLINKQVIAVVNFPPRRIAGFKSEVLVLGGIPGQGDVVLLQPDQPVPNGTKIG MAVIDDFEKLDIRTGTIVKAEEFPEARVPAIKLVIDFGTEIGIKQSSAQITKRYKPEGLINKQVIAVVNFPPRRIAGFKSEVLVLGGIPGQGDVVLLQPDQPVPNGTKIG 2nzh-a2-m4-cB_2nzh-a2-m4-cA Crystal structure of a secretion chaperone CsaA from Bacillus subtilis in the space group P 4 21 2 P37584 P37584 1.9 X-RAY DIFFRACTION 111 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 108 110 2nzh-a1-m1-cB_2nzh-a1-m1-cA 2nzh-a2-m1-cB_2nzh-a2-m1-cA 2nzh-a2-m2-cB_2nzh-a2-m2-cA 2nzh-a2-m3-cB_2nzh-a2-m3-cA 2nzo-a1-m1-cA_2nzo-a1-m1-cB 2nzo-a2-m1-cC_2nzo-a2-m1-cD VIDDFEKLDIRTGTIVKAEEFPEARVPAIKLVIDFGTEIGIKQSSAQITKRYKPEGLINKQVIAVVNFPPRRIAGFKSEVLVLGGIPGQGDVVLLQPDQPVPNGTKIG MAVIDDFEKLDIRTGTIVKAEEFPEARVPAIKLVIDFGTEIGIKQSSAQITKRYKPEGLINKQVIAVVNFPPRRIAGFKSEVLVLGGIPGQGDVVLLQPDQPVPNGTKIG 2nzj-a5-m1-cA_2nzj-a5-m2-cC The crystal structure of REM1 in complex with GDP O75628 O75628 2.5 X-RAY DIFFRACTION 61 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 155 159 MALYRVVLLGDPGVGKTSLASLFAGKHEQLGEDVYERTLTVDGEDTTLVVVDTWSWSQESCLQGGSAYVIVYSIADRGSFESASELRIQLRRTHVPIILVGNKADLARCREVSVEEGRACAVVFDCKFIETSATLQHNVAELFEGVVRQLRLRRR MALYRVVLLGDPGVGKTSLASLFAGKHEQLGEDVYERTLTVDGEDTTLVVVDTWESWSQESCLQGGSAYVIVYSIADRGSFESASELRIQLRRTHQADHVPIILVGNKADLARCREVSVEEGRACAVVFDCKFIETSATLQHNVAELFEGVVRQLRLRR 2nzt-a1-m1-cB_2nzt-a1-m1-cA Crystal structure of human hexokinase II P52789 P52789 2.45 X-RAY DIFFRACTION 92 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 867 871 DQVQKVDQYLYHMRLSDETLLEISKRFRKEMEKGLGATTHPTAAVKMLPTFVRSTPDGTEHGEFLALDLGGTNFRVLWVKVVEMENQIYAIPEDIMRGSGTQLFDHIAECLANFMDKLQIKDKKLPLGFTFSFPCHQTKLDESFLVSWTKGFKSSGVEGRDVVALIRKAIQRRGDFDIDIVAVVNDTVGTMMTCGYDDHNCEIGLIVGTGSNACYMEEMRHIDMVEGDEGRMCINMEWGAFGDDGSLNDIRTEFDQEIDMGSLNPGKQLFEKMISGMYMGELVRLILVKMAKEELLFGGKLSPELLNTGRFETKDISDIEGEDGIRKAREVLMRLGLDPTQEDCVATHRICQIVSTRSASLCAATLAAVLQRIKENKGELRSTIGVDGSVYKKHPHFAKRLHKTVRRLVPGCDVRFLRSEDGSGKGAAMVTAVAYRLADQHRARQKTLEHLQLSHDQLLEVKRRMKVEMERGLSKETHASAPVKMLPTYVCGDFLALDLGGTNFRVLLVRVVEMHNKIYAIPQEVMHGTGDELFDHIVQCIADFLEYMGMKGVSLPLGFTFSFPCQQNSLDESILLKWTKGFKASGCEGEDVVTLLKEAIHRRDVVAVVNDTVGTMMTCGFEDPHCEVGLIVGTGSNACYMEEMRNVELVEGEEGRMCVNMEWGAFGDNGCLDDFRTEFDVAVDELSLNPGKQRFEKMISGMYLGEIVRNILIDFTKRGLLFRGRISERLKTRGIFETKFLSQIESDCLALLQVRAILQHLGLESTCDDSIIVKEVCTVVARRAAQLCGAGMAAVVDRIRENRGLDALKVTVGVDGTLYKLHPHFAKVMHETVKDLAPKCDVSFLQSEDGSGKGAALITAVACRIRE DQVQKVDQYLYHMRLSDETLLEISKRFRKEMEKGLGATTHPTAAVKMLPTFVRSTPDGTEHGEFLALDLGGTNFRVLWVKVVEMENQIYAIPEDIMRGSGTQLFDHIAECLANFMDKLQIKDKKLPLGFTFSFPCHQTKLDESFLVSWTKGFKSSGVEGRDVVALIRKAIQRRGDFDIDIVAVVNDTVGTMMTCGYDDHNCEIGLIVGTGSNACYMEEMRHIDMVEGDEGRMCINMEWGAFGDDGSLNDIRTEFDQEIDMGSLNPGKQLFEKMISGMYMGELVRLILVKMAKEELLFGGKLSPELLNTGRFETKDISDIEGEKDGIRKAREVLMRLGLDPTQEDCVATHRICQIVSTRSASLCAATLAAVLQRIKENKGEERLRSTIGVDGSVYKKHPHFAKRLHKTVRRLVPGCDVRFLRSEDGSGKGAAMVTAVAYRLADQHRARQKTLEHLQLSHDQLLEVKRRMKVEMERGLSKETHASAPVKMLPTYVCGDFLALDLGGTNFRVLLVRVRGVEMHNKIYAIPQEVMHGTGDELFDHIVQCIADFLEYMGMSLPLGFTFSFPCQQNSLDESILLKWTKGFKASGCEGEDVVTLLKEAIHRRDLDVVAVVNDTVGTMMTCGFEDPHCEVGLIVGTGSNACYMEEMRNVELVEGEEGRMCVNMEWGAFGDNGCLDDFRTEFDVAVDELSLNPGKQRFEKMISGMYLGEIVRNILIDFTKRGLLFRGRISERLKTRGIFETKFLSQIESDCLALLQVRAILQHLGLESTCDDSIIVKEVCTVVARRAAQLCGAGMAAVVDRIRENRGLDALKVTVGVDGTLYKLHPHFAKVMHETVKDLAPKCDVSFLQSEDGSGKGAALITAVACRIRE 2nzx-a2-m1-cC_2nzx-a2-m2-cC Crystal Structure of alpha1,3-Fucosyltransferase with GDP O30511 O30511 1.9 X-RAY DIFFRACTION 37 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 350 350 2nzw-a1-m1-cB_2nzw-a1-m1-cA 2nzw-a2-m1-cC_2nzw-a2-m2-cC 2nzx-a1-m1-cB_2nzx-a1-m1-cA 2nzy-a1-m1-cB_2nzy-a1-m1-cA 2nzy-a2-m1-cC_2nzy-a2-m2-cC MFQPLLDAYVESASIEKMASKSPPPLKIAVANWWGDEEIKEFKNSVLYFILSQRYTITLHQNPNEFSDLVFGNPLGSARKILSYQNAKRVFYTGENESPNFNLFDYAIGFDELDFNDRYLRMPLYYDRLHHKAESVNDTTAPYKLKDNSLYALKKPSHCFKEKHPNLCAVVNDESDPLKRGFASFVASNPNAPIRNAFYDALNSIEPVTGGGSVRNTLGYNVKNKNEFLSQYKFNLCFENTQGYGYVTEKIIDAYFSHTIPIYWGSPSVAKDFNPKSFVNVHDFKNFDEAIDYIKYLHTHKNAYLDMLYENPLNTLDGKAYFYQNLSFKKILAFFKTILENDTIYHDNPF MFQPLLDAYVESASIEKMASKSPPPLKIAVANWWGDEEIKEFKNSVLYFILSQRYTITLHQNPNEFSDLVFGNPLGSARKILSYQNAKRVFYTGENESPNFNLFDYAIGFDELDFNDRYLRMPLYYDRLHHKAESVNDTTAPYKLKDNSLYALKKPSHCFKEKHPNLCAVVNDESDPLKRGFASFVASNPNAPIRNAFYDALNSIEPVTGGGSVRNTLGYNVKNKNEFLSQYKFNLCFENTQGYGYVTEKIIDAYFSHTIPIYWGSPSVAKDFNPKSFVNVHDFKNFDEAIDYIKYLHTHKNAYLDMLYENPLNTLDGKAYFYQNLSFKKILAFFKTILENDTIYHDNPF 2o03-a1-m1-cA_2o03-a1-m2-cA Crystal structure of FurB from M. tuberculosis- a Zinc uptake regulator P9WN85 P9WN85 2.699 X-RAY DIFFRACTION 92 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 129 129 ASAAGVRSTRQRAAISTLLETLDDFRSAQELHDELRRRGENIGLTTVYRTLQSMASSGLVDTLHTDTGESVYRRCSEHHHHHLVCRSCGSTIEVGDHEVEAWAAEVATKHGFSDVSHTIEIFGTCSDCR ASAAGVRSTRQRAAISTLLETLDDFRSAQELHDELRRRGENIGLTTVYRTLQSMASSGLVDTLHTDTGESVYRRCSEHHHHHLVCRSCGSTIEVGDHEVEAWAAEVATKHGFSDVSHTIEIFGTCSDCR 2o07-a1-m1-cA_2o07-a1-m1-cB Human spermidine synthase P19623 P19623 1.89 X-RAY DIFFRACTION 111 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 274 285 2o05-a1-m1-cA_2o05-a1-m1-cB 2o06-a1-m1-cB_2o06-a1-m1-cA 2o0l-a1-m1-cA_2o0l-a1-m1-cB 3rw9-a1-m1-cA_3rw9-a1-m1-cB IREGWFRETCSLWPGQALSLQVEQLLHHRRSRYQDILVFRSKTYGNVLVLDGVIQCTERDEFSYQEMIANLPLCSHPNPRKVLIIGGGDGGVLREVVKHPSVESVVQCEIDEDVIQVSKKFLPGMAIGYSSSKLTLHVGDGFEFMKQNQDAFDVIITDSSESYYQLMKTALKEDGVLCCQGECQWLHLDLIKEMRQFCQSLFPVVAYAYCTIPTYPSGQIGFMLCSKNPSTNFQEPVQPLTQQQVAQMQLKYYNSDVHRAAFVLPEFARKALND AIREGWFRETCSLWPGQALSLQVEQLLHHRRSRYQDILVFRSKTYGNVLVLDGVIQCTERDEFSYQEMIANLPLCSHPNPRKVLIIGGGDGGVLREVVKHPSVESVVQCEIDEDVIQVSKKFLPGMAIGYSSSKLTLHVGDGFEFMKQNQDAFDVIITDSSDPMGPAESLFKESYYQLMKTALKEDGVLCCQGECQWLHLDLIKEMRQFCQSLFPVVAYAYCTIPTYPSGQIGFMLCSKNPSTNFQEPVQPLTQQQVAQMQLKYYNSDVHRAAFVLPEFARKALN 2o08-a1-m1-cA_2o08-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE HD SUPERFAMILY HYDROLASE (BH1327) FROM BACILLUS HALODURANS AT 1.90 A RESOLUTION Q9KD90 Q9KD90 1.9 X-RAY DIFFRACTION 48 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 183 183 GNRGKALQLVKPHLTEHRYQHTIGVETAIDLAKLYGADQQKAELAAIFHDYAKFRDKNERTLIREKLSQQDILFYGDELLHAPCGAYYVREEVGIEDEDVLQAIRFHTTGRPNSLLEKIIFLADYIEPNRQFPGVEKVRTQAKTDLNGAIISSLVNTITFLLKKNQPIYPDTLATYNQLLLEQ GNRGKALQLVKPHLTEHRYQHTIGVETAIDLAKLYGADQQKAELAAIFHDYAKFRDKNERTLIREKLSQQDILFYGDELLHAPCGAYYVREEVGIEDEDVLQAIRFHTTGRPNSLLEKIIFLADYIEPNRQFPGVEKVRTQAKTDLNGAIISSLVNTITFLLKKNQPIYPDTLATYNQLLLEQ 2o0r-a1-m1-cB_2o0r-a1-m1-cA The three-dimensional structure of N-Succinyldiaminopimelate aminotransferase from Mycobacterium tuberculosis P9WPZ5 P9WPZ5 2 X-RAY DIFFRACTION 216 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 383 384 ATVSRLRPYATTVFAEMSALATRIGAVNLGQGFPDEDGPPKMLQAAQDAIAGGVNQYPPGPGSAPLRRAIAAQRRRHFGVDYDPETEVLVTVGATEAIAAAVLGLVEPGSEVLLIEPFYDSYSPVVAMAGAHRVTVPLVPDGRGFALDADALRRAVTPRTRALIINSPHNPTGAVLSATELAAIAEIAVAANLVVITDEVYEHLVFDHARHLPLAGFDGMAERTITISSAAMFNCTGWKIGWACGPAELIAGVRAAKQYLSYVGGAPFQPAVALALDTEDAWVAALRNSLRARRDRLAAGLTEIGFAVHDSYGTYFLCADPRPLGYDDSTEFCAALPEKVGVAAIPMSAFCDPADVWNHLVRFTFCKRDDTLDEAIRRLSVLA ATVSRLRPYATTVFAEMSALATRIGAVNLGQGFPDEDGPPKMLQAAQDAIAGGVNQYPPGPGSAPLRRAIAAQRRRHFGVDYDPETEVLVTVGATEAIAAAVLGLVEPGSEVLLIEPFYDSYSPVVAMAGAHRVTVPLVPDGRGFALDADALRRAVTPRTRALIINSPHNPTGAVLSATELAAIAEIAVAANLVVITDEVYEHLVFDHARHLPLAGFDGMAERTITISSAAMFNCTGWKIGWACGPAELIAGVRAAKQYLSYVGGAPFQPAVALALDTEDAWVAALRNSLRARRDRLAAGLTEIGFAVHDSYGTYFLCADPRPLGYDDSTEFCAALPEKVGVAAIPMSAFCDPADVWNHLVRFTFCKRDDTLDEAIRRLSVLAE 2o0t-a2-m1-cC_2o0t-a2-m1-cD The three dimensional structure of diaminopimelate decarboxylase from Mycobacterium tuberculosis reveals a tetrameric enzyme organisation P9WIU7 P9WIU7 2.33 X-RAY DIFFRACTION 232 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 445 445 1hkv-a1-m1-cA_1hkv-a1-m1-cB 1hkw-a1-m1-cB_1hkw-a1-m1-cA 2o0t-a1-m1-cA_2o0t-a1-m1-cB NELLHLAPNVWPRNTTRDEVGVVCIAGIPLTQLAQEYGTPLFVIDEDDFRSRCRETAAAFGSGANVHYAAAFLCSEVARWISEEGLCLDVCTGGELAVALHASFPPERITLHGNNKSVSELTAAVKAGVGHIVVDSMTEIERLDAIAGEAGIVQDVLVRLTVGVEAHTHEFISTAHEDQKFGLSVASGAAMAAVRRVFATDHLRLVGLHSHIGSQIFDVDGFELAAHRVIGLLRDVVGEFGPEKTAQIATVDLGGGLGISYLPSDDPPPIAELAAKLGTIVSDESTAVGLPTPKLVVEPGRAIAGPGTITLYEVGTVKDVDVSATAHRRYVSVDGGMSDNIRTALYGAQYDVRLVSRVSDAPPVPARLVGKHCESGDIIVRDTWVPDDIRPGDLVAVAATGAYCYSLSSRYNMVGRPAVVAVHAGNARLVLRRETVDDLLSLEVR NELLHLAPNVWPRNTTRDEVGVVCIAGIPLTQLAQEYGTPLFVIDEDDFRSRCRETAAAFGSGANVHYAAAFLCSEVARWISEEGLCLDVCTGGELAVALHASFPPERITLHGNNKSVSELTAAVKAGVGHIVVDSMTEIERLDAIAGEAGIVQDVLVRLTVGVEAHTHEFISTAHEDQKFGLSVASGAAMAAVRRVFATDHLRLVGLHSHIGSQIFDVDGFELAAHRVIGLLRDVVGEFGPEKTAQIATVDLGGGLGISYLPSDDPPPIAELAAKLGTIVSDESTAVGLPTPKLVVEPGRAIAGPGTITLYEVGTVKDVDVSATAHRRYVSVDGGMSDNIRTALYGAQYDVRLVSRVSDAPPVPARLVGKHCESGDIIVRDTWVPDDIRPGDLVAVAATGAYCYSLSSRYNMVGRPAVVAVHAGNARLVLRRETVDDLLSLEVR 2o0y-a3-m1-cA_2o0y-a3-m2-cD Crystal structure of putative transcriptional regulator RHA1_ro06953 (IclR-family) from Rhodococcus sp. Q0S167 Q0S167 2 X-RAY DIFFRACTION 66 1.0 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 239 250 2o0y-a3-m1-cB_2o0y-a3-m2-cC GVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGL SAEKPAVADAGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD 2o0y-a4-m1-cA_2o0y-a4-m1-cC Crystal structure of putative transcriptional regulator RHA1_ro06953 (IclR-family) from Rhodococcus sp. Q0S167 Q0S167 2 X-RAY DIFFRACTION 22 1.0 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 239 252 GVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGL TDSAEKPAVADAGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD 2o0y-a4-m1-cA_2o0y-a4-m1-cD Crystal structure of putative transcriptional regulator RHA1_ro06953 (IclR-family) from Rhodococcus sp. Q0S167 Q0S167 2 X-RAY DIFFRACTION 18 1.0 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 239 250 GVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGL SAEKPAVADAGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD 2o0y-a4-m1-cB_2o0y-a4-m1-cD Crystal structure of putative transcriptional regulator RHA1_ro06953 (IclR-family) from Rhodococcus sp. Q0S167 Q0S167 2 X-RAY DIFFRACTION 35 1.0 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 241 250 AGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD SAEKPAVADAGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD 2o0y-a4-m1-cD_2o0y-a4-m1-cC Crystal structure of putative transcriptional regulator RHA1_ro06953 (IclR-family) from Rhodococcus sp. Q0S167 Q0S167 2 X-RAY DIFFRACTION 140 1.0 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 250 252 2o0y-a1-m1-cA_2o0y-a1-m1-cB 2o0y-a2-m1-cD_2o0y-a2-m1-cC 2o0y-a3-m1-cA_2o0y-a3-m1-cB 2o0y-a3-m2-cD_2o0y-a3-m2-cC 2o0y-a4-m1-cA_2o0y-a4-m1-cB SAEKPAVADAGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD TDSAEKPAVADAGVRSVTRVIDLLELFDAAHPTRSLKELVEGTKLPKTTVVRLVATCARSVLTSRADGSYSLGPELRWVRLAGRTWAPPEEVVDIRQLSADTGETVNLYIRQGLSRVVVAQCESTATVRSVIPLGVPYPLWAGAAGKILLLAAPELIDDVAADSPHGPEFADQLREKVEDGRERGYQLVHGERELGSSGLSFPLVDSHGTVVAALTLGGPTGRFTEDRTPHYIECTRAAAEEISAIGLPGLD 2o11-a2-m1-cA_2o11-a2-m4-cA Mycobacterium tuberculosis Chorismate synthase P9WPY1 P9WPY1 1.65 X-RAY DIFFRACTION 162 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 383 383 1ztb-a2-m1-cA_1ztb-a2-m4-cA 1ztb-a2-m2-cA_1ztb-a2-m3-cA 2g85-a1-m1-cA_2g85-a1-m4-cA 2g85-a1-m2-cA_2g85-a1-m3-cA 2o11-a2-m2-cA_2o11-a2-m3-cA 2o12-a2-m1-cA_2o12-a2-m4-cA 2o12-a2-m2-cA_2o12-a2-m3-cA 2qhf-a1-m1-cA_2qhf-a1-m4-cA 2qhf-a1-m2-cA_2qhf-a1-m3-cA 4bai-a1-m1-cA_4bai-a1-m3-cA 4bai-a1-m2-cA_4bai-a1-m4-cA 4baj-a1-m1-cA_4baj-a1-m3-cA 4baj-a1-m2-cA_4baj-a1-m4-cA MLRWITAGESHGRALVAVVEGMVAGVHVTSADIADQLARRRLGYGDAVTVLSGIRHGSTLGGPIAIEIGNTEWPKWETVMAADPVDPAELADVARNAPLTRPRPGHADYAGMLKYGFDDARPVLERASARETAARVAAGTVARAFLRQALGVEVLSHVISIGASAPYEGPPPRAEDLPAIDASPVRAYDKAAEADMIAQIEAAKKDGDTLGGVVEAVALGLPVGLGSFTSGDHRLDSQLAAAVMGIQAIKGVEIGDGFQTARRRGSRAHDEMYPGPDGVVRSTNRAGGLEGGMTNGQPLRVRAAMKPISTVPRALATVDLATGDEAVAIHQRSDVCAVPAAGVVVETMVALVLARAALEKFGGDSLAETQRNIAAYQRSVADR MLRWITAGESHGRALVAVVEGMVAGVHVTSADIADQLARRRLGYGDAVTVLSGIRHGSTLGGPIAIEIGNTEWPKWETVMAADPVDPAELADVARNAPLTRPRPGHADYAGMLKYGFDDARPVLERASARETAARVAAGTVARAFLRQALGVEVLSHVISIGASAPYEGPPPRAEDLPAIDASPVRAYDKAAEADMIAQIEAAKKDGDTLGGVVEAVALGLPVGLGSFTSGDHRLDSQLAAAVMGIQAIKGVEIGDGFQTARRRGSRAHDEMYPGPDGVVRSTNRAGGLEGGMTNGQPLRVRAAMKPISTVPRALATVDLATGDEAVAIHQRSDVCAVPAAGVVVETMVALVLARAALEKFGGDSLAETQRNIAAYQRSVADR 2o11-a2-m2-cA_2o11-a2-m4-cA Mycobacterium tuberculosis Chorismate synthase P9WPY1 P9WPY1 1.65 X-RAY DIFFRACTION 60 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 383 383 1ztb-a2-m1-cA_1ztb-a2-m3-cA 1ztb-a2-m2-cA_1ztb-a2-m4-cA 2g85-a1-m1-cA_2g85-a1-m3-cA 2g85-a1-m2-cA_2g85-a1-m4-cA 2o11-a2-m1-cA_2o11-a2-m3-cA 2o12-a2-m1-cA_2o12-a2-m3-cA 2o12-a2-m2-cA_2o12-a2-m4-cA 2qhf-a1-m1-cA_2qhf-a1-m3-cA 2qhf-a1-m2-cA_2qhf-a1-m4-cA 4bai-a1-m1-cA_4bai-a1-m4-cA 4bai-a1-m2-cA_4bai-a1-m3-cA 4baj-a1-m1-cA_4baj-a1-m4-cA 4baj-a1-m2-cA_4baj-a1-m3-cA MLRWITAGESHGRALVAVVEGMVAGVHVTSADIADQLARRRLGYGDAVTVLSGIRHGSTLGGPIAIEIGNTEWPKWETVMAADPVDPAELADVARNAPLTRPRPGHADYAGMLKYGFDDARPVLERASARETAARVAAGTVARAFLRQALGVEVLSHVISIGASAPYEGPPPRAEDLPAIDASPVRAYDKAAEADMIAQIEAAKKDGDTLGGVVEAVALGLPVGLGSFTSGDHRLDSQLAAAVMGIQAIKGVEIGDGFQTARRRGSRAHDEMYPGPDGVVRSTNRAGGLEGGMTNGQPLRVRAAMKPISTVPRALATVDLATGDEAVAIHQRSDVCAVPAAGVVVETMVALVLARAALEKFGGDSLAETQRNIAAYQRSVADR MLRWITAGESHGRALVAVVEGMVAGVHVTSADIADQLARRRLGYGDAVTVLSGIRHGSTLGGPIAIEIGNTEWPKWETVMAADPVDPAELADVARNAPLTRPRPGHADYAGMLKYGFDDARPVLERASARETAARVAAGTVARAFLRQALGVEVLSHVISIGASAPYEGPPPRAEDLPAIDASPVRAYDKAAEADMIAQIEAAKKDGDTLGGVVEAVALGLPVGLGSFTSGDHRLDSQLAAAVMGIQAIKGVEIGDGFQTARRRGSRAHDEMYPGPDGVVRSTNRAGGLEGGMTNGQPLRVRAAMKPISTVPRALATVDLATGDEAVAIHQRSDVCAVPAAGVVVETMVALVLARAALEKFGGDSLAETQRNIAAYQRSVADR 2o16-a3-m2-cA_2o16-a3-m1-cB Crystal structure of a putative acetoin utilization protein (AcuB) from Vibrio cholerae Q9KTZ3 Q9KTZ3 1.9 X-RAY DIFFRACTION 85 0.985 666 (Vibrio cholerae) 666 (Vibrio cholerae) 132 135 SLMIKVEDMMTRHPHTLLRTHTLNDAKHLMEALDIRHVPIVDANKKLLGIVSQRDLLAAQESSLQFETPLFEVMHTDVTSVAPQAGLKESAIYMQKHKIGCLPVVAKDVLVGIITDSDFVTIAINLLELQEE LMIKVEDMMTRHPHTLLRTHTLNDAKHLMEALDIRHVPIVDANKKLLGIVSQRDLLAAQESSSLAFETPLFEVMHTDVTSVAPQAGLKESAIYMQKHKIGCLPVVAKDVLVGIITDSDFVTIAINLLELQEESEP 2o16-a4-m1-cA_2o16-a4-m1-cB Crystal structure of a putative acetoin utilization protein (AcuB) from Vibrio cholerae Q9KTZ3 Q9KTZ3 1.9 X-RAY DIFFRACTION 54 0.985 666 (Vibrio cholerae) 666 (Vibrio cholerae) 132 135 SLMIKVEDMMTRHPHTLLRTHTLNDAKHLMEALDIRHVPIVDANKKLLGIVSQRDLLAAQESSLQFETPLFEVMHTDVTSVAPQAGLKESAIYMQKHKIGCLPVVAKDVLVGIITDSDFVTIAINLLELQEE LMIKVEDMMTRHPHTLLRTHTLNDAKHLMEALDIRHVPIVDANKKLLGIVSQRDLLAAQESSSLAFETPLFEVMHTDVTSVAPQAGLKESAIYMQKHKIGCLPVVAKDVLVGIITDSDFVTIAINLLELQEESEP 2o18-a1-m1-cB_2o18-a1-m1-cC Crystal structure of a Thiamine biosynthesis lipoprotein apbE, NorthEast Strcutural Genomics target ER559 P0AB85 P0AB85 2.2 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 290 303 TEVTVLEGKTGTFWRASIPGIDAKRSAELKEKIQTQLDADDQLLSTYKKDSALRFNDSQSLSPWPVSEAADIVTTSLRIGAKTDGADITVGPLVNLWGFGSQEQIDAKAKTGLQHLTVINQSHQQYLQKDLPDLYVDLSTVGEGYAADHLARLEQEGISRYLVSVGGALNSRGNGEGLPWRVAIQQAVVDINGHGISTSGSYRNYYELDGKRLSHVIDPQTGRPIEHNLVSVTVIAPTALEADAWDTGLVLGPEKAKEVVRREGLAVYITKEGDSFKTWSPQFKSFLVSE TEVTVLEGKTGTFWRASIPGIDAKRSAELKEKIQTQLDADDQLLSTYKKDSALRFNDSQSLSPWPVSEAADIVTTSLRIGAKTDGADITVGPLVNLWGFGPEQQPVQIPSQEQIDAKAKTGLQHLTVINQSHQQYLQKDLPDLYVDLSTVGEGYAADHLARLEQEGISRYLVSVGGALNSRGNGEGLPWRVAIQKPTVQAVVDINGHGISTSGSYRNYYELDGKRLSHVIDPQTGRPIEHNLVSVTVIAPTALEADAWDTGLVLGPEKAKEVVRREGLAVYITKEGDSFKTWSPQFKSFLVSE 2o18-a1-m1-cD_2o18-a1-m1-cC Crystal structure of a Thiamine biosynthesis lipoprotein apbE, NorthEast Strcutural Genomics target ER559 P0AB85 P0AB85 2.2 X-RAY DIFFRACTION 12 0.997 562 (Escherichia coli) 562 (Escherichia coli) 296 303 TEVTVLEGKTGTFWRASIPGIDAKRSAELKEKIQTQLDADDQLLSTYKKDSALRFNDSQSLSPWPVSEAADIVTTSLRIGAKTDGADITVGPLVNLWGFGVQIPSQEQIDAKAKTGLQHLTVINQSHQQYLQKDLPDLYVDLSTVGEGYAADHLARLEQEGISRYLVSVGGALNSRGNGEGLPWRVAIQKQAVVDINGHGISTSGSYRNYYELDGKRLSHVIDPQTGRPIEHNLVSVTVIAPTALEADAWDTGLVLGPEKAKEVVRREGLAVYITKEGDSFKTWSPQFKSFLVSEK TEVTVLEGKTGTFWRASIPGIDAKRSAELKEKIQTQLDADDQLLSTYKKDSALRFNDSQSLSPWPVSEAADIVTTSLRIGAKTDGADITVGPLVNLWGFGPEQQPVQIPSQEQIDAKAKTGLQHLTVINQSHQQYLQKDLPDLYVDLSTVGEGYAADHLARLEQEGISRYLVSVGGALNSRGNGEGLPWRVAIQKPTVQAVVDINGHGISTSGSYRNYYELDGKRLSHVIDPQTGRPIEHNLVSVTVIAPTALEADAWDTGLVLGPEKAKEVVRREGLAVYITKEGDSFKTWSPQFKSFLVSE 2o1b-a1-m1-cA_2o1b-a1-m2-cA Structure of aminotransferase from Staphylococcus aureus Q2FV61 Q2FV61 1.95 X-RAY DIFFRACTION 162 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 371 371 ISNKLANIPDSYFGEHGPLPLINAVGIPDGPTPQGIIDHFQKALTIPENQKYGAFHGKEAFKQAIVDFYQRQYNVTLDKEDEVCILYGTKNGLVAVPTCVINPGDYVLLPDPGYTDYLAGVLLADGKPVPLNLEPPHYLPDWSKVDSQIIDKTKLIYLTYPNNPTGSTATKEVFDEAIAKFKGTDTKIVHDFAYGAFGFDAKNPSILASENGKDVAIEIYSLSKGYNSGFRVGFAVGNKDIQALKKYQTHTNAGFGALQDAAIYALNHYDDFLEEQSNVFKTRRDRFEALAKADLPFVHAKGGIYVWLETPPGYDSEQFEQFLVQEKSILVAPGKPFGENGNRYVRISLALDDQKLDEAAIRLTELAYLYE ISNKLANIPDSYFGEHGPLPLINAVGIPDGPTPQGIIDHFQKALTIPENQKYGAFHGKEAFKQAIVDFYQRQYNVTLDKEDEVCILYGTKNGLVAVPTCVINPGDYVLLPDPGYTDYLAGVLLADGKPVPLNLEPPHYLPDWSKVDSQIIDKTKLIYLTYPNNPTGSTATKEVFDEAIAKFKGTDTKIVHDFAYGAFGFDAKNPSILASENGKDVAIEIYSLSKGYNSGFRVGFAVGNKDIQALKKYQTHTNAGFGALQDAAIYALNHYDDFLEEQSNVFKTRRDRFEALAKADLPFVHAKGGIYVWLETPPGYDSEQFEQFLVQEKSILVAPGKPFGENGNRYVRISLALDDQKLDEAAIRLTELAYLYE 2o1q-a1-m1-cA_2o1q-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE ACETYLACETONE DIOXYGENASE (MPE_A3659) FROM METHYLIBIUM PETROLEIPHILUM PM1 AT 1.50 A RESOLUTION 1.5 X-RAY DIFFRACTION 27 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 139 139 2o1q-a1-m1-cB_2o1q-a1-m2-cA LKSKIKEEYVQDQVDWKPFPAAFSTGGIRWKLLHVSPEGSWTAIFDCPAGSSFAAHVHVGPGEYFLTKGKDVRGGKAAGGDTAIAPGYGYESANARHDKTEFPVASEFYSFLGPLTFVKPDGSPIAVIGWEDAQGAWAA LKSKIKEEYVQDQVDWKPFPAAFSTGGIRWKLLHVSPEGSWTAIFDCPAGSSFAAHVHVGPGEYFLTKGKDVRGGKAAGGDTAIAPGYGYESANARHDKTEFPVASEFYSFLGPLTFVKPDGSPIAVIGWEDAQGAWAA 2o1q-a1-m1-cB_2o1q-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE ACETYLACETONE DIOXYGENASE (MPE_A3659) FROM METHYLIBIUM PETROLEIPHILUM PM1 AT 1.50 A RESOLUTION 1.5 X-RAY DIFFRACTION 96 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 139 139 2o1q-a1-m1-cA_2o1q-a1-m2-cA LKSKIKEEYVQDQVDWKPFPAAFSTGGIRWKLLHVSPEGSWTAIFDCPAGSSFAAHVHVGPGEYFLTKGKDVRGGKAAGGDTAIAPGYGYESANARHDKTEFPVASEFYSFLGPLTFVKPDGSPIAVIGWEDAQGAWAA LKSKIKEEYVQDQVDWKPFPAAFSTGGIRWKLLHVSPEGSWTAIFDCPAGSSFAAHVHVGPGEYFLTKGKDVRGGKAAGGDTAIAPGYGYESANARHDKTEFPVASEFYSFLGPLTFVKPDGSPIAVIGWEDAQGAWAA 2o1q-a1-m2-cA_2o1q-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE ACETYLACETONE DIOXYGENASE (MPE_A3659) FROM METHYLIBIUM PETROLEIPHILUM PM1 AT 1.50 A RESOLUTION 1.5 X-RAY DIFFRACTION 49 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 139 139 2o1q-a1-m1-cA_2o1q-a1-m1-cB LKSKIKEEYVQDQVDWKPFPAAFSTGGIRWKLLHVSPEGSWTAIFDCPAGSSFAAHVHVGPGEYFLTKGKDVRGGKAAGGDTAIAPGYGYESANARHDKTEFPVASEFYSFLGPLTFVKPDGSPIAVIGWEDAQGAWAA LKSKIKEEYVQDQVDWKPFPAAFSTGGIRWKLLHVSPEGSWTAIFDCPAGSSFAAHVHVGPGEYFLTKGKDVRGGKAAGGDTAIAPGYGYESANARHDKTEFPVASEFYSFLGPLTFVKPDGSPIAVIGWEDAQGAWAA 2o1s-a2-m1-cD_2o1s-a2-m1-cC 1-deoxy-D-xylulose 5-phosphate synthase (DXS) from Escherichia coli P77488 P77488 2.4 X-RAY DIFFRACTION 284 1.0 562 (Escherichia coli) 562 (Escherichia coli) 469 518 2o1s-a1-m1-cB_2o1s-a1-m1-cA PTLALVDSTQELRLLPKESLPKLCDELRRYLLDGLGTVELTVALHYVYNTPFDQLIWDVGHQAYPHKILTGSEYDVLSVGHSSTSISAGIGIAVAAEKEGKNRRTVCVIGDGAITAGAFEANHAGDIRPDLVILNDNTLFEELGFNYIGPVDGHDVLGLITTLKNRDLKGPQFLHITKLPSYSKIFGDWLCETAAKDNKLAITPAREGSGVEFSRKFPDRYFDVAIAEQHAVTFAAGLAIGGYKPIVAIYSTFLQRAYDQVLHDVAIQKLPVLFAIDRAGIVGADGQTHQGAFDLSYLRCIPEVITPSDENECRQLYTGYHYNDGPSAVRYPRGNAVGVELTPLEKLPIGKGIVKRRGEKLAILNFGTLPEAAKVAESLNATLVDRFVKPLDEALILEAASHEALVTVEENAIGGAGSGVNEVLAHRKPVPVLNIGLPDFFIPQGTQEERAELGLDAAGEAKIKAWLAL FDIAKYPTLALVDSTQELRLLPKESLPKLCDELRRYLLDSVSRSSGHFASGLGTVELTVALHYVYNTPFDQLIWDVGHQAYPHKILTGRRDKIGTIRQKGGLHPFPWRGESEYDVLSVGHSSTSISAGIGIAVAAEKEGKNRRTVCVIGDGAITAGAFEANHAGDIRPDLVILNDNEGTLFEELGFNYIGPVDGHDVLGLITTLKNRDLKGPQFLHITKKGRGYEPALPSYSKIFGDWLCETAAKDNKLAITPAREGSGVEFSRKFPDRYFDVAIAEQHAVTFAAGLAIGGYKPIVAIYSTFLQRAYDQVLHDVAIQKLPVLFAIDRAGIVGADGQTHQGAFDLSYLRCIPEVITPSDENECRQLYTGYHYNDGPSAVRYPRGNAVGVELTPLEKLPIGKGIVKRRGEKLAILNFGTLPEAAKVAESLNATLVDRFVKPLDEALILEAASHEALVTVEENAIGGAGSGVNEVLAHRKPVPVLNIGLPDFFIPQGTQEERAELGLDAAGEAKIKAWLAL 2o1x-a2-m1-cD_2o1x-a2-m1-cC 1-deoxy-D-xylulose 5-phosphate synthase (DXS) from Deinococcus radiodurans Q9RUB5 Q9RUB5 2.9 X-RAY DIFFRACTION 309 0.996 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 530 538 2o1x-a1-m1-cA_2o1x-a1-m1-cB 6ouv-a1-m1-cB_6ouv-a1-m1-cA 6ouw-a1-m1-cA_6ouw-a1-m2-cA 6xxg-a1-m1-cBBB_6xxg-a1-m1-cAAA HGPKDLKRLSREQLPALTEELRGEIVRVCSRGGLHLASSLGAVDIITALHYVLDSPRDRILFDVGHQAYAHKILTGRRDQMADIKKEGGISGFTKVSESEHDAITVGHASTSLTNALGMALARDAQGKDFHVAAVIGDGSLTGGMALAALNTIGDMGRKMLIVLNDNEMSISENVVNPFAAMGVRYVGPVDGHNVQELVWLLERLVDLDGPTILHIVTTKGAYSWSAAFGEAVTEWAKTDPRTFVVTPAMREGSGLVEFSRVHPHRYLDVGIAEEVAVTTAAGMALQGMRPVVAIYSTFLQRAYDQVLHDVAIEHLNVTFCIDRAGIVGADGATHNGVFDLSFLRSIPGVRIGLPKDAAELRGMLKYAQTHDGPFAIRYPRGNTAQVPAGTWPDLKWGEWERLKGGDDVVILAGGKALDYALKAAEDLPGVGVVNARFVKPLDEEMLREVGGRARALITVEDNTVVGGFGGAVLEALNSMNLHPTVRVLGIPDEFQEHATAESVHARAGIDAPAIRTVLAELGVDVPIEV TSDTPLLDQIHGPKDLKRLSREQLPALTEELRGEIVRVCSRGGLHLASSLGAVDIITALHYVLDSPRDRILFDVGHQAYAHKILTGRRDQMADIKKEGGISGFTKVSESEHDAITVGHASTSLTNALGMALARDAQGKDFHVAAVIGDGSLTGGMALAALNTIGDMGRKMLIVLNDNEMSISENVNPFAAMGVRYVGPVDGHNVQELVWLLERLVDLDGPTILHIVTTKGAYSWSAAFGEAVTEWAKTDPRTFVVTPAMREGSGLVEFSRVHPHRYLDVGIAEEVAVTTAAGMALQGMRPVVAIYSTFLQRAYDQVLHDVAIEHLNVTFCIDRAGIVGADGATHNGVFDLSFLRSIPGVRIGLPKDAAELRGMLKYAQTHDGPFAIRYPRGNTAQVPAGTWPDLKWGEWERLKGGDDVVILAGGKALDYALKAAEDLPGVGVVNARFVKPLDEEMLREVGGRARALITVEDNTVVGGFGGAVLEALNSMNLHPTVRVLGIPDEFQEHATAESVHARAGIDAPAIRTVLAELGVDVPIE 2o20-a4-m1-cG_2o20-a4-m1-cH Crystal structure of transcription regulator CcpA of Lactococcus lactis Q9CF33 Q9CF33 1.9 X-RAY DIFFRACTION 68 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 271 272 2o20-a1-m1-cA_2o20-a1-m1-cB 2o20-a2-m1-cC_2o20-a2-m1-cD 2o20-a3-m1-cE_2o20-a3-m1-cF RTTTVGVILPTITSTYFAAITRGVDDIASMYKYNMILANSDNDVEKEEKVLETFLSKQVDGIVYMGSSLDEKIRTSLKNSRTPVVLVGTIDGDKEIPSVNIDYHLAAYQSTKKLIDSGNKKIAYIMGSLKDVENTERMVGYQEALLEANIEFDENLVFEGNYSYEQGKALAERLLERGATSAVVSHDTVAVGLLSAMMDKGVKVPEDFEIISGANSPITQYTYPTLTSVNQPLYDLGAVAMRLLTKLMLKEDVEQNQLVLDHEIFSRRSTK KRTTTVGVILPTITSTYFAAITRGVDDIASMYKYNMILANSDNDVEKEEKVLETFLSKQVDGIVYMGSSLDEKIRTSLKNSRTPVVLVGTIDGDKEIPSVNIDYHLAAYQSTKKLIDSGNKKIAYIMGSLKDVENTERMVGYQEALLEANIEFDENLVFEGNYSYEQGKALAERLLERGATSAVVSHDTVAVGLLSAMMDKGVKVPEDFEIISGANSPITQYTYPTLTSVNQPLYDLGAVAMRLLTKLMLKEDVEQNQLVLDHEIFSRRSTK 2o23-a1-m1-cA_2o23-a1-m2-cA The structure of wild-type human HADH2 (17beta-hydroxysteroid dehydrogenase type 10) bound to NAD+ at 1.2 A Q99714 Q99714 1.2 X-RAY DIFFRACTION 167 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 248 1u7t-a1-m1-cA_1u7t-a1-m1-cB 1u7t-a1-m1-cC_1u7t-a1-m1-cD 2o23-a1-m1-cB_2o23-a1-m2-cB 7onu-a1-m1-cA_7onu-a1-m1-cB 7onu-a1-m1-cC_7onu-a1-m1-cD RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIAVASKTYNLKKGQTHTLEDFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPNFLASQVPFPSRLGDPAEYAHLVQAIIENPFLNGEVIRLDGAIRMQPGS RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIAVASKTYNLKKGQTHTLEDFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPNFLASQVPFPSRLGDPAEYAHLVQAIIENPFLNGEVIRLDGAIRMQPGS 2o23-a1-m1-cA_2o23-a1-m2-cB The structure of wild-type human HADH2 (17beta-hydroxysteroid dehydrogenase type 10) bound to NAD+ at 1.2 A Q99714 Q99714 1.2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 255 2o23-a1-m2-cA_2o23-a1-m1-cB 7onu-a1-m1-cB_7onu-a1-m1-cD RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIAVASKTYNLKKGQTHTLEDFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPNFLASQVPFPSRLGDPAEYAHLVQAIIENPFLNGEVIRLDGAIRMQPGS MAAACRSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIAVASKTYNLKKGQTHTLEDFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLNFLASQVPFPSRLGDPAEYAHLVQAIIENPFLNGEVIRLDGAIRMQPGS 2o23-a1-m2-cA_2o23-a1-m2-cB The structure of wild-type human HADH2 (17beta-hydroxysteroid dehydrogenase type 10) bound to NAD+ at 1.2 A Q99714 Q99714 1.2 X-RAY DIFFRACTION 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 255 1u7t-a1-m1-cA_1u7t-a1-m1-cD 1u7t-a1-m1-cB_1u7t-a1-m1-cC 2o23-a1-m1-cA_2o23-a1-m1-cB 7onu-a1-m1-cA_7onu-a1-m1-cD 7onu-a1-m1-cB_7onu-a1-m1-cC RSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIAVASKTYNLKKGQTHTLEDFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPNFLASQVPFPSRLGDPAEYAHLVQAIIENPFLNGEVIRLDGAIRMQPGS MAAACRSVKGLVAVITGGASGLGLATAERLVGQGASAVLLDLPNSGGEAQAKKLGNNCVFAPADVTSEKDVQTALALAKGKFGRVDVAVNCAGIAVASKTYNLKKGQTHTLEDFQRVLDVNLMGTFNVIRLVAGEMGQNEPDQGGQRGVIINTASVAAFEGQVGQAAYSASKGGIVGMTLPIARDLAPIGIRVMTIAPGLFGTPLLNFLASQVPFPSRLGDPAEYAHLVQAIIENPFLNGEVIRLDGAIRMQPGS 2o26-a2-m1-cE_2o26-a2-m1-cF Structure of a class III RTK signaling assembly P20826 P20826 2.5 X-RAY DIFFRACTION 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 139 139 2o26-a1-m1-cB_2o26-a1-m1-cA ICGNPVTDNVKDITKLVANLPNDYMITLNYVAGMDVLPSHCWLRDMVIQLSLSLTTLLDKFSNISEGLSNYSIIDKLGKIVDDLVLCMEENAPKNIKESPKRPETRSFTPEEFFSIFNRSIDAFKDFMVASDTSDCVLS ICGNPVTDNVKDITKLVANLPNDYMITLNYVAGMDVLPSHCWLRDMVIQLSLSLTTLLDKFSNISEGLSNYSIIDKLGKIVDDLVLCMEENAPKNIKESPKRPETRSFTPEEFFSIFNRSIDAFKDFMVASDTSDCVLS 2o2a-a3-m1-cA_2o2a-a3-m1-cC The crystal structure of a protein of unknown function from Streptococcus agalactiae Q8DYX9 Q8E4I8 2.1 X-RAY DIFFRACTION 19 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 123 124 AEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLEF AAEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLEF 2o2a-a3-m1-cD_2o2a-a3-m1-cA The crystal structure of a protein of unknown function from Streptococcus agalactiae Q8E4I8 Q8DYX9 2.1 X-RAY DIFFRACTION 43 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 122 123 2o2a-a3-m1-cB_2o2a-a3-m1-cC AEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLE AEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLEF 2o2a-a3-m1-cD_2o2a-a3-m1-cB The crystal structure of a protein of unknown function from Streptococcus agalactiae Q8E4I8 Q8E4I8 2.1 X-RAY DIFFRACTION 80 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 122 124 AEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLE AAEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLEF 2o2a-a3-m1-cD_2o2a-a3-m1-cC The crystal structure of a protein of unknown function from Streptococcus agalactiae Q8E4I8 Q8E4I8 2.1 X-RAY DIFFRACTION 56 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 122 124 2o2a-a1-m1-cA_2o2a-a1-m1-cB 2o2a-a2-m1-cD_2o2a-a2-m1-cC 2o2a-a3-m1-cA_2o2a-a3-m1-cB AEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLE AAEVIREQEFVNQYHYDARNLEWEEENGTPKTNFEVTFQLANRDEAAKVTSIVAVLQFVIVRDEFVISGVISQAHIQGRLINEPSEFSQDEVENLAAPLLEIVKRLTYEVTEIALDRPGVTLEF 2o2c-a2-m1-cC_2o2c-a2-m1-cB Crystal structure of phosphoglucose isomerase from T. brucei containing glucose-6-phosphate in the active site P13377 P13377 1.58 X-RAY DIFFRACTION 477 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 561 564 2o2c-a1-m1-cA_2o2c-a1-m2-cA 2o2d-a1-m1-cA_2o2d-a1-m2-cA 2o2d-a2-m1-cC_2o2d-a2-m1-cB ADTTLTSCASWTQLQKLYEQYGDEPIKKHFETDSERGQRYSVKVSLGSKDENFLFLDYSKSHINDEIKCALLRLAEERGIRQFVQSVFRGERVNTTENRPVLHIALRNRSNRPIYVDGKDVMPAVNKVLDQMRSFSEKVRTGEWKGHTGKAIRHVVNIGIGGSDLGPVMATEALKPFSQRDLSLHFVSNVDGTHIAEVLKSIDIEATLFIVASKTFTTQETITNALSARRALLDYLRSRGIDEKGSVAKHFVALSTNNQKVKEFGIDEENMFQFWDWVGGRYSMWSAIGLPIMISIGYENFVELLTGAHVIDEHFANAPPEQNVPLLLALVGVWYINFFGAVTHAILPYDQYLWRLPAYLQQLDMESNGKYVTRSGKTVSTLTGPIIFGEAGTNGQHAFYQLIHQGTNLIPCDFIGAIQSQNKIGDHHKIFMSNFFAQTEALMIGKSPSEVRRELEAAGERSAEKINALLPHKTFIGGRPSNTLLIKSLTPRALGAIIAMYEHKVLVQGAIWGIDSYDQWGVELGKVLAKSILPQLRPGMRVNNHDSSTNGLINMFNELSH GADADTTLTSCASWTQLQKLYEQYGDEPIKKHFETDSERGQRYSVKVSLGSKDENFLFLDYSKSHINDEIKCALLRLAEERGIRQFVQSVFRGERVNTTENRPVLHIALRNRSNRPIYVDGKDVMPAVNKVLDQMRSFSEKVRTGEWKGHTGKAIRHVVNIGIGGSDLGPVMATEALKPFSQRDLSLHFVSNVDGTHIAEVLKSIDIEATLFIVASKTFTTQETITNALSARRALLDYLRSRGIDEKGSVAKHFVALSTNNQKVKEFGIDEENMFQFWDWVGGRYSMWSAIGLPIMISIGYENFVELLTGAHVIDEHFANAPPEQNVPLLLALVGVWYINFFGAVTHAILPYDQYLWRLPAYLQQLDMESNGKYVTRSGKTVSTLTGPIIFGEAGTNGQHAFYQLIHQGTNLIPCDFIGAIQSQNKIGDHHKIFMSNFFAQTEALMIGKSPSEVRRELEAAGERSAEKINALLPHKTFIGGRPSNTLLIKSLTPRALGAIIAMYEHKVLVQGAIWGIDSYDQWGVELGKVLAKSILPQLRPGMRVNNHDSSTNGLINMFNELSH 2o2e-a1-m1-cA_2o2e-a1-m1-cB Mycobacterium tuberculosis tryptophan synthase beta subunit dimer (apoform) P9WFX9 P9WFX9 2.2 X-RAY DIFFRACTION 96 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 315 316 2o2j-a1-m1-cA_2o2j-a1-m1-cB YVPEALMAVIEEVTAAYQKERVSQDFLDDLDRLQANYAGRPSPLYEATRLSQHAGSARIFLKREDLNHTGSHKINNVLGQALLARRMGKTRVIAETGAGQHGVATATACALLGLDCVIYMGGIDTARQALNVARMRLLGAEVVAVQTGSKTLKDAINEAFRDWVANADNTYYCFGTAAGPHPFPTMVRDFQRIIGMEARVQIQGQAGRLPDAVVACVGGGSNAIGIFHAFLDDPGVRLVGFEAAGRVDYRPITDSEAMDAFGLLCRMEGIIPAIESAHAVAGALKLGVELGRGAVIVVNLSGRGDKDVETAAKWF YVPEALMAVIEEVTAAYQKERVSQDFLDDLDRLQANYAGRPSPLYEATRLSQHAGSARIFLKREDLNHTGSHKINNVLGQALLARRMGKTRVIAETGAGQHGVATATACALLGLDCVIYMGGIDTARQALNVARMRLLGAEVVAVQTGSKTLKDAINEAFRDWVANADNTYYCFGTAAGPHPFPTMVRDFQRIIGMEARVQIQGQAGRLPDAVVACVGGGSNAIGIFHAFLDDPGVRLVGFEAAGDRVDYRPITDSEAMDAFGLLCRMEGIIPAIESAHAVAGALKLGVELGRGAVIVVNLSGRGDKDVETAAKWF 2o2k-a1-m1-cA_2o2k-a1-m1-cB Crystal Structure of the Activation Domain of Human Methionine Synthase Isoform/Mutant D963E/K1071N Q99707 Q99707 1.6 X-RAY DIFFRACTION 87 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 332 333 ERRYLPLSQARKSGFQMDWLSEPHPVKPTFIGTQVFEEYDLQKLVDYIDWKPFFDVWQLRGKYPNRGFPKIFNDKGEARKVYDDAHNMLNTLISQKKLRARGVVGFWPAQSIQDDIHLYAEAAVPQAAEPIATFYGLRQQAENSTEPYYCLSDFIAPLHSGIRDYLGLFAVACFGVEELSKAYEDDGDDYSSIMVKALGDRLAEAFAEELHERVRRELWAYCGSEQLDVADLRRLRYKGIRPAPGYPSQPDHTEKLTMWRLADIEQSTGIRLTESLAMAPASAVSGLYFSNLKSKYFAVGKISKDQVEDYALRKNISVAEVEKWLGPILGYD ERRYLPLSQARKSGFQMDWLSEPHPVKPTFIGTQVFEEYDLQKLVDYIDWKPFFDVWQLRGKYPNRGFPKIFNDKGGEARKVYDDAHNMLNTLISQKKLRARGVVGFWPAQSIQDDIHLYAEAAVPQAAEPIATFYGLRQQAENTEPYYCLSDFIAPLHSGIRDYLGLFAVACFGVEELSKAYEDDGDDYSSIMVKALGDRLAEAFAEELHERVRRELWAYCGSEQLDVADLRRLRYKGIRPAPGYPSQPDHTEKLTMWRLADIEQSTGIRLTESLAMAPASAVSGLYFSNLKSKYFAVGKISKDQVEDYALRKNISVAEVEKWLGPILGYDT 2o2s-a1-m1-cB_2o2s-a1-m2-cB The structure of T. gondii enoyl acyl carrier protein reductase in complex with NAD and triclosan Q6UCJ9 Q6UCJ9 2.6 X-RAY DIFFRACTION 84 1.0 383379 (Toxoplasma gondii RH) 383379 (Toxoplasma gondii RH) 302 302 2o2s-a1-m1-cA_2o2s-a1-m2-cA 2o50-a1-m1-cA_2o50-a1-m2-cA 2o50-a1-m1-cB_2o50-a1-m2-cB 3nj8-a1-m1-cA_3nj8-a1-m2-cA 3nj8-a1-m1-cB_3nj8-a1-m2-cB 4o1m-a1-m1-cA_4o1m-a1-m1-cE 4o1m-a1-m1-cB_4o1m-a1-m1-cC 4o1m-a2-m1-cD_4o1m-a2-m2-cD 4o1m-a2-m1-cF_4o1m-a2-m2-cF FPIDLRGQTAFVAGVADSHGYGWAIAKHLASAGARVALGTWPPVLGLFQKSLQSGRLDEDRKLPDGSLIEFAGVYPLDAAFDKPEDVPQDIKDNKRYAGVDGYTIKEVAVKVKQDLGNIDILVHSLANGPEVTKPLLETSRKGYLAASSNSAYSFVSLLQHFGPIMNEGGSAVTLSYLAAERVVPGYGGGMSSAKAALESDTRTLAWEAGQKYGVRVNAISAGPLKSRAASAIGKEKSFIDYAIDYSYNNAPLRRDLHSDDVGGAALFLLSPLARAVSGVTLYVDNGLHAMGQAVDSRSMPP FPIDLRGQTAFVAGVADSHGYGWAIAKHLASAGARVALGTWPPVLGLFQKSLQSGRLDEDRKLPDGSLIEFAGVYPLDAAFDKPEDVPQDIKDNKRYAGVDGYTIKEVAVKVKQDLGNIDILVHSLANGPEVTKPLLETSRKGYLAASSNSAYSFVSLLQHFGPIMNEGGSAVTLSYLAAERVVPGYGGGMSSAKAALESDTRTLAWEAGQKYGVRVNAISAGPLKSRAASAIGKEKSFIDYAIDYSYNNAPLRRDLHSDDVGGAALFLLSPLARAVSGVTLYVDNGLHAMGQAVDSRSMPP 2o2s-a1-m2-cB_2o2s-a1-m2-cA The structure of T. gondii enoyl acyl carrier protein reductase in complex with NAD and triclosan Q6UCJ9 Q6UCJ9 2.6 X-RAY DIFFRACTION 132 0.997 383379 (Toxoplasma gondii RH) 383379 (Toxoplasma gondii RH) 302 303 2o2s-a1-m1-cB_2o2s-a1-m1-cA 2o50-a1-m1-cA_2o50-a1-m1-cB 2o50-a1-m2-cA_2o50-a1-m2-cB 3nj8-a1-m1-cB_3nj8-a1-m1-cA 3nj8-a1-m2-cB_3nj8-a1-m2-cA 4o1m-a1-m1-cA_4o1m-a1-m1-cC 4o1m-a1-m1-cB_4o1m-a1-m1-cE 4o1m-a2-m1-cD_4o1m-a2-m2-cF 4o1m-a2-m2-cD_4o1m-a2-m1-cF FPIDLRGQTAFVAGVADSHGYGWAIAKHLASAGARVALGTWPPVLGLFQKSLQSGRLDEDRKLPDGSLIEFAGVYPLDAAFDKPEDVPQDIKDNKRYAGVDGYTIKEVAVKVKQDLGNIDILVHSLANGPEVTKPLLETSRKGYLAASSNSAYSFVSLLQHFGPIMNEGGSAVTLSYLAAERVVPGYGGGMSSAKAALESDTRTLAWEAGQKYGVRVNAISAGPLKSRAASAIGKEKSFIDYAIDYSYNNAPLRRDLHSDDVGGAALFLLSPLARAVSGVTLYVDNGLHAMGQAVDSRSMPP PIDLRGQTAFVAGVADSHGYGWAIAKHLASAGARVALGTWPPVLGLFQKSLQSGRLDEDRKLPDGSLIEFAGVYPLDAAFDKPEDVPQDIKDNKRYAGVDGYTIKEVAVKVKQDLGNIDILVHSLANGPEVTKPLLETSRKGYLAASSNSAYSFVSLLQHFGPIMNEGGSAVTLSYLAAERVVPGYGGGMSSAKAALESDTRTLAWEAGQKYGVRVNAISAGPLKSRAASAIGKSGEKSFIDYAIDYSYNNAPLRRDLHSDDVGGAALFLLSPLARAVSGVTLYVDNGLHAMGQAVDSRSMPP 2o2z-a2-m1-cC_2o2z-a2-m1-cD Crystal structure of a protein member of the upf0052 family (bh3568) from bacillus halodurans at 2.60 A resolution Q9K706 Q9K706 2.6 X-RAY DIFFRACTION 64 0.997 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 304 304 2hzb-a1-m1-cA_2hzb-a1-m1-cB 2hzb-a2-m1-cC_2hzb-a2-m1-cD 2o2z-a1-m1-cB_2o2z-a1-m1-cA KKNVIVFGGGTGLSVLLRGLKTFPVSITAIVTVADDGGSSGRLRKELDIPPPGDVRNVLVALSEVEPLLEQLFQHRFENGGLSGHSLGNLLLAGTSITGDFARGISESKVLNVRGKVLPASNRSIILHGEEDGTIVTGESSIPKAGKKIKRVFLTPKDTKPLREGLEAIRKADVIVIGPGSLYTSVLPNLLVPGICEAIKQSTARKVYICNVTQNGETDGYTASDHLQAIDHCGVGIVDDILVHGEPISDTVKAKYAKEKAEPVIVDEHKLKALGVGTISDYFVLEQDDVLRHNASKVSEAILE KKKNVIVFGGGTGLSVLLRGLKTFPVSITAIVTVADDGGSSGRLRKELDIPPPGDVRNVLVALSEVEPLLEQLFQHRFENGGLSGHSLGNLLLAGTSITGDFARGISESKVLNVRGKVLPASNRSIILHGEEDGTIVTGESSIPKAGKKIKRVFLTPKDTKPLREGLEAIRKADVIVIGPGSLYTSVLPNLLVPGICEAIKQSTARKVYICNVTQNGETDGYTASDHLQAIDHCGVGIVDDILVHGEPISDTVKAKYAKEKAEPVIVDEHKLKALGVGTISDYFVLEQDVLRHNASKVSEAILE 2o30-a1-m1-cB_2o30-a1-m1-cA Nuclear movement protein from E. cuniculi GB-M1 Q8SSJ3 Q8SSJ3 1.66 X-RAY DIFFRACTION 10 0.988 284813 (Encephalitozoon cuniculi GB-M1) 284813 (Encephalitozoon cuniculi GB-M1) 80 81 AKYTWDQELNEINIQFPVTGSAIKIRVGKKICVKNQGEIVIDGELLHEVDVSSLWWVINGDVVDVNVTKKRNEWWDSLLV AKYTWDQELNEINIQFPVTDSSAIKIRVGKKICVKNQGEIVIDGELLHEVDVSSLWWVINGDVVDVNVTKKRNEWWDSLLV 2o35-a1-m1-cA_2o35-a1-m2-cA Protein of Unknown Function (DUF1244) from Sinorhizobium meliloti Q92M60 Q92M60 2.12 X-RAY DIFFRACTION 13 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 76 76 SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRT SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRT 2o35-a1-m1-cA_2o35-a1-m2-cB Protein of Unknown Function (DUF1244) from Sinorhizobium meliloti Q92M60 Q92M60 2.12 X-RAY DIFFRACTION 20 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 76 92 2o35-a1-m2-cA_2o35-a1-m1-cB SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRT SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRTQNGEASPEQKAAFERN 2o35-a1-m1-cB_2o35-a1-m2-cB Protein of Unknown Function (DUF1244) from Sinorhizobium meliloti Q92M60 Q92M60 2.12 X-RAY DIFFRACTION 29 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 92 92 SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRTQNGEASPEQKAAFERN SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRTQNGEASPEQKAAFERN 2o35-a1-m2-cA_2o35-a1-m2-cB Protein of Unknown Function (DUF1244) from Sinorhizobium meliloti Q92M60 Q92M60 2.12 X-RAY DIFFRACTION 106 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 76 92 2o35-a1-m1-cA_2o35-a1-m1-cB SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRT SEISPEQRTAFEAAVFRRLLEHLRERSDVQNIDLNLAGFCRNCLSNWYREAAEASGVPSKEESREIVYGPYEEWRTQNGEASPEQKAAFERN 2o38-a1-m1-cA_2o38-a1-m1-cB Putative XRE Family Transcriptional Regulator Q6N370 Q6N370 1.83 X-RAY DIFFRACTION 139 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 88 88 PDAEERQTKLRLAYALNAVIDRARLSQAAAAARLGINQPKVSALRNYKLEGFSVERLTLLNALDQDVEIVIRKKPRSRAAARISVVAA PDAEERQTKLRLAYALNAVIDRARLSQAAAAARLGINQPKVSALRNYKLEGFSVERLTLLNALDQDVEIVIRKKPRSRAAARISVVAA 2o3a-a1-m1-cA_2o3a-a1-m1-cB Crystal structure of a protein AF_0751 from Archaeoglobus fulgidus O29507 O29507 2.2 X-RAY DIFFRACTION 169 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 161 163 LEVYVLRLGHRPDKRISTHVALTARAFGAKGIYFDTEDKSVFESVRDVVERWGGDFFIKAVSWKKLLREFDGLKVHLTMYGIPLPQKLEEIKRADKVLVVVGPPEVYELCDLNISIGTQPHSEVAALAVFLDRVLGKVFDISFDDAKIKVIPSERGKRVVS LEVYVLRLGHRPERDKRISTHVALTARAFGAKGIYFDTEDKSVFESVRDVVERWGGDFFIKAVSWKKLLREFDGLKVHLTMYGIPLPQKLEEIKRADKVLVVVGPPEVYELCDLNISIGTQPHSEVAALAVFLDRVLGKVFDISFDDAKIKVIPSERGKRVVS 2o3c-a1-m1-cA_2o3c-a1-m1-cB Crystal structure of zebrafish Ape A0MTA1 A0MTA1 2.3 X-RAY DIFFRACTION 25 1.0 7955 (Danio rerio) 7955 (Danio rerio) 276 280 PILYEDPPEKLTSKDGRAANMKITSWNVDGLRAWVKKNGLDWVRKEDPDILCLQETKCAEKALPADITAMPEYPHKYWAGSEDKEGYSGVAMLCKTEPLNVTYGIGKEEHDKEGRVITAEFPDFFLVTAYVPNASRGLVRLDYRKTWDVDFRAYLCGLDARKPLVLCGDLNVAHQEIDLKNPKGNRKNAGFTPEEREGFTQLLEAGFTDSFRELYPDQAYAYTFWTYMMNARSKNVGWRLDYFVLSSALLPGLCDSKIRNTAMGSDHCPITLFLAV HMEAPILYEDPPEKLTSKDGRAANMKITSWNVDGLRAWVKKNGLDWVRKEDPDILCLQETKCAEKALPADITAMPEYPHKYWAGSEDKEGYSGVAMLCKTEPLNVTYGIGKEEHDKEGRVITAEFPDFFLVTAYVPNASRGLVRLDYRKTWDVDFRAYLCGLDARKPLVLCGDLNVAHQEIDLKNPKGNRKNAGFTPEEREGFTQLLEAGFTDSFRELYPDQAYAYTFWTYMMNARSKNVGWRLDYFVLSSALLPGLCDSKIRNTAMGSDHCPITLFLAV 2o3c-a1-m1-cA_2o3c-a1-m1-cC Crystal structure of zebrafish Ape A0MTA1 A0MTA1 2.3 X-RAY DIFFRACTION 26 1.0 7955 (Danio rerio) 7955 (Danio rerio) 276 276 PILYEDPPEKLTSKDGRAANMKITSWNVDGLRAWVKKNGLDWVRKEDPDILCLQETKCAEKALPADITAMPEYPHKYWAGSEDKEGYSGVAMLCKTEPLNVTYGIGKEEHDKEGRVITAEFPDFFLVTAYVPNASRGLVRLDYRKTWDVDFRAYLCGLDARKPLVLCGDLNVAHQEIDLKNPKGNRKNAGFTPEEREGFTQLLEAGFTDSFRELYPDQAYAYTFWTYMMNARSKNVGWRLDYFVLSSALLPGLCDSKIRNTAMGSDHCPITLFLAV PILYEDPPEKLTSKDGRAANMKITSWNVDGLRAWVKKNGLDWVRKEDPDILCLQETKCAEKALPADITAMPEYPHKYWAGSEDKEGYSGVAMLCKTEPLNVTYGIGKEEHDKEGRVITAEFPDFFLVTAYVPNASRGLVRLDYRKTWDVDFRAYLCGLDARKPLVLCGDLNVAHQEIDLKNPKGNRKNAGFTPEEREGFTQLLEAGFTDSFRELYPDQAYAYTFWTYMMNARSKNVGWRLDYFVLSSALLPGLCDSKIRNTAMGSDHCPITLFLAV 2o3c-a1-m1-cC_2o3c-a1-m1-cB Crystal structure of zebrafish Ape A0MTA1 A0MTA1 2.3 X-RAY DIFFRACTION 26 1.0 7955 (Danio rerio) 7955 (Danio rerio) 276 280 PILYEDPPEKLTSKDGRAANMKITSWNVDGLRAWVKKNGLDWVRKEDPDILCLQETKCAEKALPADITAMPEYPHKYWAGSEDKEGYSGVAMLCKTEPLNVTYGIGKEEHDKEGRVITAEFPDFFLVTAYVPNASRGLVRLDYRKTWDVDFRAYLCGLDARKPLVLCGDLNVAHQEIDLKNPKGNRKNAGFTPEEREGFTQLLEAGFTDSFRELYPDQAYAYTFWTYMMNARSKNVGWRLDYFVLSSALLPGLCDSKIRNTAMGSDHCPITLFLAV HMEAPILYEDPPEKLTSKDGRAANMKITSWNVDGLRAWVKKNGLDWVRKEDPDILCLQETKCAEKALPADITAMPEYPHKYWAGSEDKEGYSGVAMLCKTEPLNVTYGIGKEEHDKEGRVITAEFPDFFLVTAYVPNASRGLVRLDYRKTWDVDFRAYLCGLDARKPLVLCGDLNVAHQEIDLKNPKGNRKNAGFTPEEREGFTQLLEAGFTDSFRELYPDQAYAYTFWTYMMNARSKNVGWRLDYFVLSSALLPGLCDSKIRNTAMGSDHCPITLFLAV 2o3i-a2-m2-cB_2o3i-a2-m1-cA X-ray Crystal Structure of Protein CV_3147 from Chromobacterium violaceum. Northeast Structural Genomics Consortium Target CvR68. Q7NTB2 Q7NTB2 2.3 X-RAY DIFFRACTION 45 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 365 366 2o3i-a2-m1-cB_2o3i-a2-m2-cA AFELSPSDLEPLLQGACFFGSGGGGTISARHLAANFRKGDYYPTDKVRVVDVDEATDGDCVVAYGAPDAINQVQWPNGPVEAALAARQRLESQGRKLAYVVAPESGALGFVVASLVAAKLGLAVVDADGAGRAVPSLPLTYAAAGVPPTPAFLAGESGLCVELGVRPPPREDISTVVEQLRPILTNPQFGQFGGLAWSPAQLGGALPVRGTLSRALKLGRALQDGKVKTAEALDFLRRELDIKGKLLFGPATLASPGKVVLEDGERRCTVLYQNESLLAWDSALSHPLATAPDAISYFVEGEGQHVFSNGDLSGNDHGLDPSVRGRKAAVIALPAAAPLSEGLILQSFADELAQLGYLGPYAPVD AFELSPSDLEPLLQGACFFGSGGGGTISARHLAANFRKGDYYPTDKVRVVDVDEATDGDCVVAYGAPDAINQVQWPNGPVEAALAARQRLESQGRKLAYVVAPESGALGFVVASLVAAKLGLAVVDADGAGRAVPSLPLTYAAAGVPPTPAFLAGESGLCVELGVRPPPDREDISTVVEQLRPILTNPQFGQFGGLAWSPAQLGGALPVRGTLSRALKLGRALQDGKVKTAEALDFLRRELDIKGKLLFGPATLASPGKVVLEDGERRCTVLYQNESLLAWDSALSHPLATAPDAISYFVEGEGQHVFSNGDLSGNDHGLDPSVRGRKAAVIALPAAAPLSEGLILQSFADELAQLGYLGPYAPVD 2o3i-a2-m2-cB_2o3i-a2-m2-cA X-ray Crystal Structure of Protein CV_3147 from Chromobacterium violaceum. Northeast Structural Genomics Consortium Target CvR68. Q7NTB2 Q7NTB2 2.3 X-RAY DIFFRACTION 53 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 365 366 2o3i-a1-m1-cB_2o3i-a1-m1-cA 2o3i-a2-m1-cB_2o3i-a2-m1-cA AFELSPSDLEPLLQGACFFGSGGGGTISARHLAANFRKGDYYPTDKVRVVDVDEATDGDCVVAYGAPDAINQVQWPNGPVEAALAARQRLESQGRKLAYVVAPESGALGFVVASLVAAKLGLAVVDADGAGRAVPSLPLTYAAAGVPPTPAFLAGESGLCVELGVRPPPREDISTVVEQLRPILTNPQFGQFGGLAWSPAQLGGALPVRGTLSRALKLGRALQDGKVKTAEALDFLRRELDIKGKLLFGPATLASPGKVVLEDGERRCTVLYQNESLLAWDSALSHPLATAPDAISYFVEGEGQHVFSNGDLSGNDHGLDPSVRGRKAAVIALPAAAPLSEGLILQSFADELAQLGYLGPYAPVD AFELSPSDLEPLLQGACFFGSGGGGTISARHLAANFRKGDYYPTDKVRVVDVDEATDGDCVVAYGAPDAINQVQWPNGPVEAALAARQRLESQGRKLAYVVAPESGALGFVVASLVAAKLGLAVVDADGAGRAVPSLPLTYAAAGVPPTPAFLAGESGLCVELGVRPPPDREDISTVVEQLRPILTNPQFGQFGGLAWSPAQLGGALPVRGTLSRALKLGRALQDGKVKTAEALDFLRRELDIKGKLLFGPATLASPGKVVLEDGERRCTVLYQNESLLAWDSALSHPLATAPDAISYFVEGEGQHVFSNGDLSGNDHGLDPSVRGRKAAVIALPAAAPLSEGLILQSFADELAQLGYLGPYAPVD 2o3o-a2-m1-cB_2o3o-a2-m1-cD Crystal Structure of the sensor histidine kinase regulator YycI from Bacillus subtitlis Q45612 Q45612 2.89 X-RAY DIFFRACTION 96 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 233 235 2o3o-a1-m1-cC_2o3o-a1-m1-cA 2o3o-a3-m1-cE_2o3o-a3-m1-cG 2o3o-a4-m1-cF_2o3o-a4-m1-cH 2o3o-a5-m1-cK_2o3o-a5-m1-cI 2o3o-a6-m1-cJ_2o3o-a6-m1-cL KEYEVIKNDVEHDKADHITYEGLNKEATEGYRITANQKSFSKEEIEALKDQKPLDPSDDHKVTSLKKFANPIALSKKDIEDDAQALVSSKIQDGEKYKLWKVDKSKKEIIFFQTYEGHYIYQKTDNPSNIGQVVLHLNGKNEVVSYDQTTLETFKQIQKESLITEDAVELLYYQNQLKEYSTVKSCKFGYVAQYPLTSTQVLAPVWRITVEYEKKVTVQEYFTVNALESTILD KEYEVIKNDVEHDKADHITYEGLNKEATEGYRITANQKSFSKEEIEALKDQKPLDPSDDHKVTSLKKFANPIALSKKDIEDDAQALVSSKIQDGEKYKLWKVDKSKKEIIFFQTYEGHYIYQKTDNPSNIGQVVLHLNGKNEVVSYDQTTLETFKQIQKESLITEDAVELLYYQNQLKEYSTVKSCKFGYVAQYPLTSTQVLAPVWRITVEYEKKTVQEYFTVNALESTILDTDQ 2o3z-a1-m1-cA_2o3z-a1-m1-cB X-ray crystal structure of LpxC complexed with 3-heptyloxybenzoate O67648 O67648 2.25 X-RAY DIFFRACTION 25 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 267 267 1yh8-a1-m1-cA_1yh8-a1-m1-cB 1yhc-a1-m1-cA_1yhc-a1-m1-cB 2ies-a1-m1-cA_2ies-a1-m1-cB GLEKTVKEKLSFEGVGIHTGEYSKLIIHPEKEGTGIRFFKNGVYIPARHEFVVHTNHSTDLGFKGQRIKTVEHILSVLHLLEITNVTIEVIGNEIPILDGSGWEFYEAIRKNILNQNREIDYFVVEEPIIVEDEGRLIKAEPSDTLEVTYEGEFKNFLGRQKFTFVEGNEEEIVLARTFAFDWEIEHIKKVGLGKGGSLKNTLVLGKDKVYNPEGLRYENEPVRHKVFDLIGDLYLLGSPVKGKFYSFRGGHSLNVKLVKELAKKQK GLEKTVKEKLSFEGVGIHTGEYSKLIIHPEKEGTGIRFFKNGVYIPARHEFVVHTNHSTDLGFKGQRIKTVEHILSVLHLLEITNVTIEVIGNEIPILDGSGWEFYEAIRKNILNQNREIDYFVVEEPIIVEDEGRLIKAEPSDTLEVTYEGEFKNFLGRQKFTFVEGNEEEIVLARTFAFDWEIEHIKKVGLGKGGSLKNTLVLGKDKVYNPEGLRYENEPVRHKVFDLIGDLYLLGSPVKGKFYSFRGGHSLNVKLVKELAKKQK 2o4c-a1-m1-cA_2o4c-a1-m1-cB Crystal Structure of D-Erythronate-4-phosphate Dehydrogenase Complexed with NAD Q9I3W9 Q9I3W9 2.3 X-RAY DIFFRACTION 75 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 380 380 MRILADENIPVVDAFFADQGSIRRLPGRAIDRAALAEVDVLLVRSVTEVSRAALAGSPVRFVGTCTIGTDHLDLDYFAEAGIAWSSAPGCNARGVVDYVLGCLLAMAEVRGADLAERTYGVVGAGQVGGRLVEVLRGLGWKVLVCDPPRQAREPDGEFVSLERLLAEADVISLHTPLNRDGEHPTRHLLDEPRLAALRPGTWLVNASRGAVVDNQALRRLLEGGADLEVALDVWEGEPQADPELAARCLIATPHIAGYSLEGKLRGTAQIYQAYCAWRGIAERVSLQDVLPETWLAGLQLNPGCDPAWALATLCRAVYDPRSDDAAFRRSLTGDSATRRAAFDALRKHYPPRREITGLRVATGGQAELQRVVRALGAQLV MRILADENIPVVDAFFADQGSIRRLPGRAIDRAALAEVDVLLVRSVTEVSRAALAGSPVRFVGTCTIGTDHLDLDYFAEAGIAWSSAPGCNARGVVDYVLGCLLAMAEVRGADLAERTYGVVGAGQVGGRLVEVLRGLGWKVLVCDPPRQAREPDGEFVSLERLLAEADVISLHTPLNRDGEHPTRHLLDEPRLAALRPGTWLVNASRGAVVDNQALRRLLEGGADLEVALDVWEGEPQADPELAARCLIATPHIAGYSLEGKLRGTAQIYQAYCAWRGIAERVSLQDVLPETWLAGLQLNPGCDPAWALATLCRAVYDPRSDDAAFRRSLTGDSATRRAAFDALRKHYPPRREITGLRVATGGQAELQRVVRALGAQLV 2o4t-a1-m1-cA_2o4t-a1-m2-cA CRYSTAL STRUCTURE OF a protein of the DUF1048 family with a left-handed superhelix fold (BH3976) FROM BACILLUS HALODURANS AT 1.95 A RESOLUTION Q9K5W1 Q9K5W1 1.95 X-RAY DIFFRACTION 137 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 90 90 HVSRVEKLPKDYQIVYKEIQKYLFKVGPVELNEGIGLLSEILGFFEEGAAAGKGVLDVTGTDVAAFCDALIGDSKTYADLYQESIQQHVD HVSRVEKLPKDYQIVYKEIQKYLFKVGPVELNEGIGLLSEILGFFEEGAAAGKGVLDVTGTDVAAFCDALIGDSKTYADLYQESIQQHVD 2o4v-a1-m1-cB_2o4v-a1-m1-cC An arginine ladder in OprP mediates phosphate specific transfer across the outer membrane P05695 P05695 1.94 X-RAY DIFFRACTION 172 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 411 411 2o4v-a1-m1-cA_2o4v-a1-m1-cB 2o4v-a1-m1-cA_2o4v-a1-m1-cC GTVTTDGADIVIKTKGGLEVATTDKEFSFKLGGRLQADYGRFDGYYTNNGNTADAAYFRRAYLEFGGTAYRDWKYQINYDLSRNVGNDSAGYFDEASVTYTGFNPVNLKFGRFYTDFGLEKATSSKWVTALERNLTYDIADWVNDNVGTGIQASSVVGGMAFLSGSVFSENNNDTDGDSVKRYNLRGVFAPLHEPGNVVHLGLQYAYRDLEDSAVDTRIRPRMGMRGVSTNGGNDAGSNGNRGLFGGSSAVEGLWKDDSVWGLEGAWALGAFSAQAEYLRRTVKAERDREDLKASGYYAQLAYTLTGEPRLYKLDGAKFDTIKPENKEIGAWELFYRYDSIKVEDDNIVVDSATREVGDAKGKTHTLGVNWYANEAVKVSANYVKAKTDKISNANGDDSGDGLVMRLQYVF GTVTTDGADIVIKTKGGLEVATTDKEFSFKLGGRLQADYGRFDGYYTNNGNTADAAYFRRAYLEFGGTAYRDWKYQINYDLSRNVGNDSAGYFDEASVTYTGFNPVNLKFGRFYTDFGLEKATSSKWVTALERNLTYDIADWVNDNVGTGIQASSVVGGMAFLSGSVFSENNNDTDGDSVKRYNLRGVFAPLHEPGNVVHLGLQYAYRDLEDSAVDTRIRPRMGMRGVSTNGGNDAGSNGNRGLFGGSSAVEGLWKDDSVWGLEGAWALGAFSAQAEYLRRTVKAERDREDLKASGYYAQLAYTLTGEPRLYKLDGAKFDTIKPENKEIGAWELFYRYDSIKVEDDNIVVDSATREVGDAKGKTHTLGVNWYANEAVKVSANYVKAKTDKISNANGDDSGDGLVMRLQYVF 2o4x-a1-m1-cB_2o4x-a1-m1-cA Crystal structure of human P100 tudor domain Q7KZF4 Q7KZF4 2 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 217 2hqe-a1-m1-cB_2hqe-a1-m1-cA TQFEKLMENMRNDIASHPPYAPRRGEFCIAKFVDGEWYRARVEKVESPAKIHVFYIDYGNREVLPSTRLGTLSPAFSTRVLPAQATE SASYKPVFVTEITDDLHFYVQDVETGTQFEKLMENMRNDIASHPPVEGSYAPRRGEFCIAKFVDGEWYRARVEKVESPAKIHVFYIDYGNREVLPSTRLGTLSPAFSTRVLPAQATEYAFAFIQVPQDDDARTDAVDSVVRDIQNTQCLLNVEHLSAGCPHVTLQFADSKGDVGLGLVKEGLVMVEVRKEKQFQKVITEYLNAQESAKSARLNLWRY 2o56-a1-m1-cH_2o56-a1-m1-cA Crystal Structure of a Member of the Enolase Superfamily from Salmonella Typhimurium Q8ZKY6 Q8ZKY6 2 X-RAY DIFFRACTION 81 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 389 392 2o56-a1-m1-cB_2o56-a1-m1-cC 2o56-a1-m1-cE_2o56-a1-m1-cF 2o56-a1-m1-cG_2o56-a1-m1-cD LMKITSVDIIDVAKWRPVVVKINTDEGISGFGEVGLAYGVGASAGIGMAKDLSAIIIGMDPMNNEAIWEKMLKKTFWGQGGGGIFSAAMSGIDIALWDIKGKAWGVPLYKMLGGKSREKIRTYASQLQFGWGDGSDKDMLTEPEQYAQAALTAVSEGYDAIKVDTVAMDRHGNWNQQNLNGPLTDKILRLGYDRMAAIRDAVGPDVDIIAEMHAFTDTTSAIQFGRMIEELGIFYYEEPVMPLNPAQMKQVADKVNIPLAAGERIYWRWGYRPFLENGSLSVIQPDICTCGGITEVKKICDMAHVYDKTVQIHVCGGPISTAVALHMETAIPNFVIHELHRYALLEPNTQTCKYNYLPKNGMYEVPELPGIGQELTEETMKKSPTITVK LMKITSVDIIDVANDFKWRPVVVKINTDEGISGFGEVGLAYGVGASAGIGMAKDLSAIIIGMDPMNNEAIWEKMLKKTFWGQGGGGIFSAAMSGIDIALWDIKGKAWGVPLYKMLGGKSREKIRTYASQLQFGWGDGSDKDMLTEPEQYAQAALTAVSEGYDAIKVDTVAMDRHGNWNQQNLNGPLTDKILRLGYDRMAAIRDAVGPDVDIIAEMHAFTDTTSAIQFGRMIEELGIFYYEEPVMPLNPAQMKQVADKVNIPLAAGERIYWRWGYRPFLENGSLSVIQPDICTCGGITEVKKICDMAHVYDKTVQIHVCGGPISTAVALHMETAIPNFVIHELHRYALLEPNTQTCKYNYLPKNGMYEVPELPGIGQELTEETMKKSPTITVK 2o56-a1-m1-cH_2o56-a1-m1-cE Crystal Structure of a Member of the Enolase Superfamily from Salmonella Typhimurium Q8ZKY6 Q8ZKY6 2 X-RAY DIFFRACTION 46 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 389 392 2o56-a1-m1-cA_2o56-a1-m1-cC 2o56-a1-m1-cA_2o56-a1-m1-cF 2o56-a1-m1-cC_2o56-a1-m1-cD 2o56-a1-m1-cD_2o56-a1-m1-cF 2o56-a1-m1-cG_2o56-a1-m1-cB 2o56-a1-m1-cG_2o56-a1-m1-cE 2o56-a1-m1-cH_2o56-a1-m1-cB LMKITSVDIIDVAKWRPVVVKINTDEGISGFGEVGLAYGVGASAGIGMAKDLSAIIIGMDPMNNEAIWEKMLKKTFWGQGGGGIFSAAMSGIDIALWDIKGKAWGVPLYKMLGGKSREKIRTYASQLQFGWGDGSDKDMLTEPEQYAQAALTAVSEGYDAIKVDTVAMDRHGNWNQQNLNGPLTDKILRLGYDRMAAIRDAVGPDVDIIAEMHAFTDTTSAIQFGRMIEELGIFYYEEPVMPLNPAQMKQVADKVNIPLAAGERIYWRWGYRPFLENGSLSVIQPDICTCGGITEVKKICDMAHVYDKTVQIHVCGGPISTAVALHMETAIPNFVIHELHRYALLEPNTQTCKYNYLPKNGMYEVPELPGIGQELTEETMKKSPTITVK LMKITSVDIIDVANDFKWRPVVVKINTDEGISGFGEVGLAYGVGASAGIGMAKDLSAIIIGMDPMNNEAIWEKMLKKTFWGQGGGGIFSAAMSGIDIALWDIKGKAWGVPLYKMLGGKSREKIRTYASQLQFGWGDGSDKDMLTEPEQYAQAALTAVSEGYDAIKVDTVAMDRHGNWNQQNLNGPLTDKILRLGYDRMAAIRDAVGPDVDIIAEMHAFTDTTSAIQFGRMIEELGIFYYEEPVMPLNPAQMKQVADKVNIPLAAGERIYWRWGYRPFLENGSLSVIQPDICTCGGITEVKKICDMAHVYDKTVQIHVCGGPISTAVALHMETAIPNFVIHELHRYALLEPNTQTCKYNYLPKNGMYEVPELPGIGQELTEETMKKSPTITVK 2o56-a1-m1-cH_2o56-a1-m1-cF Crystal Structure of a Member of the Enolase Superfamily from Salmonella Typhimurium Q8ZKY6 Q8ZKY6 2 X-RAY DIFFRACTION 146 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 389 392 2o56-a1-m1-cA_2o56-a1-m1-cB 2o56-a1-m1-cD_2o56-a1-m1-cE 2o56-a1-m1-cG_2o56-a1-m1-cC LMKITSVDIIDVAKWRPVVVKINTDEGISGFGEVGLAYGVGASAGIGMAKDLSAIIIGMDPMNNEAIWEKMLKKTFWGQGGGGIFSAAMSGIDIALWDIKGKAWGVPLYKMLGGKSREKIRTYASQLQFGWGDGSDKDMLTEPEQYAQAALTAVSEGYDAIKVDTVAMDRHGNWNQQNLNGPLTDKILRLGYDRMAAIRDAVGPDVDIIAEMHAFTDTTSAIQFGRMIEELGIFYYEEPVMPLNPAQMKQVADKVNIPLAAGERIYWRWGYRPFLENGSLSVIQPDICTCGGITEVKKICDMAHVYDKTVQIHVCGGPISTAVALHMETAIPNFVIHELHRYALLEPNTQTCKYNYLPKNGMYEVPELPGIGQELTEETMKKSPTITVK LMKITSVDIIDVANDFKWRPVVVKINTDEGISGFGEVGLAYGVGASAGIGMAKDLSAIIIGMDPMNNEAIWEKMLKKTFWGQGGGGIFSAAMSGIDIALWDIKGKAWGVPLYKMLGGKSREKIRTYASQLQFGWGDGSDKDMLTEPEQYAQAALTAVSEGYDAIKVDTVAMDRHGNWNQQNLNGPLTDKILRLGYDRMAAIRDAVGPDVDIIAEMHAFTDTTSAIQFGRMIEELGIFYYEEPVMPLNPAQMKQVADKVNIPLAAGERIYWRWGYRPFLENGSLSVIQPDICTCGGITEVKKICDMAHVYDKTVQIHVCGGPISTAVALHMETAIPNFVIHELHRYALLEPNTQTCKYNYLPKNGMYEVPELPGIGQELTEETMKKSPTITVK 2o57-a2-m1-cD_2o57-a2-m1-cC Crystal Structure of a putative sarcosine dimethylglycine methyltransferase from Galdieria sulphuraria 1.946 X-RAY DIFFRACTION 46 1.0 130081 (Galdieria sulphuraria) 130081 (Galdieria sulphuraria) 259 266 2o57-a1-m1-cB_2o57-a1-m1-cA DDSDRFYFHVWGGEDIHVGLYKEPVDQDEIREASLRTDEWLASELATGVLQRQAKGLDLGAGYGGAARFLVRKFGVSIDCLNIAPVQNKRNEEYNNQAGLADNITVKYGSFLEIPCEDNSYDFIWSQDAFLHSPDKLKVFQECARVLKPRGVAITDPKEDGIDKSSIQPILDRIKLHDGSLGLYRSLAKECGLVTLRTFSRPDSLVHHYSKVKAELIKRSSEFCSPEFQANKRGLEHWIEGGRAGKLTWGGLFRKSDKI YYDDDDSDRFYFHVWGGEDIHVGLYKEPVDQDEIREASLRTDEWLASELATGVLQRQAKGLDLGAGYGGAARFLVRKFGVSIDCLNIAPVQNKRNEEYNNQAGLADNITVKYGSFLEIPCEDNSYDFIWSQDAFLHSPDKLKVFQECARVLKPRGVAITDPKEDGIDKSSIQPILDRIKLHDGSLGLYRSLAKECGLVTLRTFSRPDSLVHHYSKVKAELIKRSSEIASFCSPEFQANKRGLEHWIEGGRAGKLTWGGLFRKSDKI 2o5a-a1-m1-cB_2o5a-a1-m1-cA Crystal structure of Q9KD89 from Bacillus halodurans. Northeast Structural Genomics target BhR21 Q9KD89 Q9KD89 2.7 X-RAY DIFFRACTION 32 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 104 107 NQELLQLAVNAVDDKKAEQVVALNKGISLDFFLICHGNSEKQVQAIAHELKKVAQEQGIEIKRLEGYEQARWVLIDLGDVVVHVFHKDERAYYNLEKLWPTVEL SNQELLQLAVNAVDDKKAEQVVALNKGISLDFFLICHGNSEKQVQAIAHELKKVAQEQGIEIKRLEGYEQARWVLIDLGDVVVHVFHKDERAYYNLEKLWPTVELEG 2o5n-a1-m1-cA_2o5n-a1-m1-cB Crystal structure of a Viral Glycoprotein 2.4 X-RAY DIFFRACTION 90 0.989 10366 (Murid betaherpesvirus 1) 10366 (Murid betaherpesvirus 1) 264 267 VVRPEVNRTGTVDICQGPELIFSVSRTSSGATGERISLKNTLSIVSENGGKPGTYEWSFPANESWPEIQFLLQNREFVSKYYADVVQTPGELVVEYRCPVPQFNCTITHRWKGETISFDGAIQTIRSVTSEYTTKNEDTLVKYIRGLNVTLLTDNAKSIEHRWTEICKKLKDADRPDDNQYTLEDDILEDDIEDIVQCQTTQVPLKYHTVWSAGRDSRAIALSAIEVASYLPVNRSQILNTTCEITSSSGWTVRLRFSEEVAAS PEVNRTGTVDICQGPELIFSVSRTSSGATGERISLKNTLSIVSENGGKPGTYEWSFPANESWPEIQFLLQNREFVSKYYADVVQTPGELVVEYRCPVPQFNCTITHRWKGETISFDGAIQTIRSVTSEYTTKNEDTLVKYIRGLNVTLLTDNAKSIEHRWTEICKKLKDADRPDDNQYTLEDDILEDDIEDIVQCQTTQVPLKYHTVWSAGRDSRAIALSADYYTDIEVASYLPVNRSQILNTTCEITSSSGWTVRLRFSEEVAASK 2o5x-a3-m5-cH_2o5x-a3-m4-cH Crystal structure of 1E9 LeuH47Trp/ArgH100Trp, an engineered Diels-Alderase Fab with nM steroid-binding affinity 2.05 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 2o5x-a2-m2-cH_2o5x-a2-m1-cH 2o5y-a2-m2-cH_2o5y-a2-m1-cH 2o5y-a3-m2-cH_2o5y-a3-m1-cH 2o5z-a2-m2-cH_2o5z-a2-m1-cH 2o5z-a3-m2-cH_2o5z-a3-m1-cH QVQLVQSGPELKKPGETVKISCKASGYMFTNYGMNWVKQAPGKALKWMGWINPYTGESTFADDFKGRFAFFLETSATTAYLQINNLKNEDTATYFCARGTTIVWAMDYWGQGTSVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP QVQLVQSGPELKKPGETVKISCKASGYMFTNYGMNWVKQAPGKALKWMGWINPYTGESTFADDFKGRFAFFLETSATTAYLQINNLKNEDTATYFCARGTTIVWAMDYWGQGTSVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP 2o66-a2-m2-cC_2o66-a2-m1-cA Crystal Structure of Arabidopsis thaliana PII bound to citrate Q9ZST4 Q9ZST4 1.9 X-RAY DIFFRACTION 28 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 106 107 2o66-a2-m1-cB_2o66-a2-m2-cB 2o66-a2-m1-cC_2o66-a2-m2-cA 2o67-a2-m1-cB_2o67-a2-m2-cB 2o67-a2-m1-cC_2o67-a2-m2-cA 2o67-a2-m2-cC_2o67-a2-m1-cA SSDYIPDSKFYKVEAIVRPWRIQQVSSALLKIGIRGVTVSDVRGFDKFVAKVKMEIVVKKDQVESVINTIIEGARTGEIGDGKIFVLPVSDVIRVRTGERGEKAEK SSDYIPDSKFYKVEAIVRPWRIQQVSSALLKIGIRGVTVSDVRGFGEDKFVAKVKMEIVVKKDQVESVINTIIEGARTGEIGDGKIFVLPVSDVIRVRTGERGEKAE 2o66-a2-m2-cC_2o66-a2-m2-cA Crystal Structure of Arabidopsis thaliana PII bound to citrate Q9ZST4 Q9ZST4 1.9 X-RAY DIFFRACTION 87 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 106 107 2o66-a1-m1-cC_2o66-a1-m1-cA 2o66-a2-m1-cC_2o66-a2-m1-cA 2o67-a1-m1-cC_2o67-a1-m1-cA 2o67-a2-m1-cC_2o67-a2-m1-cA 2o67-a2-m2-cC_2o67-a2-m2-cA SSDYIPDSKFYKVEAIVRPWRIQQVSSALLKIGIRGVTVSDVRGFDKFVAKVKMEIVVKKDQVESVINTIIEGARTGEIGDGKIFVLPVSDVIRVRTGERGEKAEK SSDYIPDSKFYKVEAIVRPWRIQQVSSALLKIGIRGVTVSDVRGFGEDKFVAKVKMEIVVKKDQVESVINTIIEGARTGEIGDGKIFVLPVSDVIRVRTGERGEKAE 2o6h-a2-m2-cA_2o6h-a2-m2-cB Lumazine synthase RibH1 from Brucella melitensis (Gene BMEI1187, Swiss-Prot entry Q8YGH2) complexed with inhibitor 5-Nitro-6-(D-Ribitylamino)-2,4(1H,3H) Pyrimidinedione Q8YGH2 Q8YGH2 2.7 X-RAY DIFFRACTION 93 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 147 147 2f59-a1-m1-cA_2f59-a1-m1-cB 2f59-a1-m1-cA_2f59-a1-m1-cE 2f59-a1-m1-cB_2f59-a1-m1-cC 2f59-a1-m1-cC_2f59-a1-m1-cD 2f59-a1-m1-cE_2f59-a1-m1-cD 2f59-a2-m1-cA_2f59-a2-m1-cB 2f59-a2-m1-cA_2f59-a2-m1-cE 2f59-a2-m1-cB_2f59-a2-m1-cC 2f59-a2-m1-cC_2f59-a2-m1-cD 2f59-a2-m1-cE_2f59-a2-m1-cD 2f59-a2-m2-cA_2f59-a2-m2-cB 2f59-a2-m2-cA_2f59-a2-m2-cE 2f59-a2-m2-cB_2f59-a2-m2-cC 2f59-a2-m2-cC_2f59-a2-m2-cD 2f59-a2-m2-cE_2f59-a2-m2-cD 2i0f-a1-m1-cA_2i0f-a1-m1-cE 2i0f-a1-m1-cB_2i0f-a1-m1-cA 2i0f-a1-m1-cB_2i0f-a1-m1-cC 2i0f-a1-m1-cD_2i0f-a1-m1-cC 2i0f-a1-m1-cD_2i0f-a1-m1-cE 2o6h-a1-m1-cA_2o6h-a1-m1-cB 2o6h-a1-m1-cA_2o6h-a1-m1-cE 2o6h-a1-m1-cC_2o6h-a1-m1-cB 2o6h-a1-m1-cC_2o6h-a1-m1-cD 2o6h-a1-m1-cD_2o6h-a1-m1-cE 2o6h-a2-m1-cA_2o6h-a2-m1-cB 2o6h-a2-m1-cA_2o6h-a2-m1-cE 2o6h-a2-m1-cC_2o6h-a2-m1-cB 2o6h-a2-m1-cC_2o6h-a2-m1-cD 2o6h-a2-m1-cD_2o6h-a2-m1-cE 2o6h-a2-m2-cA_2o6h-a2-m2-cE 2o6h-a2-m2-cC_2o6h-a2-m2-cB 2o6h-a2-m2-cC_2o6h-a2-m2-cD 2o6h-a2-m2-cD_2o6h-a2-m2-cE DAPHLLIVEARFYDDLADALLDGAKAALDEAGATYDVVTVPGALEIPATISFALDGADNGGTEYDGFVALGTVIRGETYHFDIVSNESCRALTDLSVEESIAIGNGILTVENEEQAWVRARREDKDKGGFAARAALTMIGLRKKFGA DAPHLLIVEARFYDDLADALLDGAKAALDEAGATYDVVTVPGALEIPATISFALDGADNGGTEYDGFVALGTVIRGETYHFDIVSNESCRALTDLSVEESIAIGNGILTVENEEQAWVRARREDKDKGGFAARAALTMIGLRKKFGA 2o6l-a1-m1-cA_2o6l-a1-m1-cB Crystal Structure of the UDP-Glucuronic Acid Binding Domain of the Human Drug Metabolizing UDP-Glucuronosyltransferase 2B7 P16662 P16662 1.8 X-RAY DIFFRACTION 33 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 155 160 AKPLPKEEDFVQSSGENGVVVFSLGSVSNTEERANVIASALAQIPQKVLWRFDGNKPDTLGLNTRLYKWIPQNDLLGHPKTRAFITHGGANGIYEAIYHGIPVGIPLFADQPDNIAHKARGAAVRVDFNTSSTDLLNALKRVINDPSYKENVKLS SNAAKPLPKEEDFVQSSGENGVVVFSLGNTEERANVIASALAQIPQKVLWRFDGNKPDTLGLNTRLYKWIPQNDLLGHPKTRAFITHGGANGIYEAIYHGIPVGIPLFADQPDNIAHKARGAAVRVDFNTSSTDLLNALKRVINDPSYKENVKLSRIQHD 2o6n-a1-m2-cA_2o6n-a1-m4-cA RH4B: designed right-handed coiled coil tetramer with all biological amino acids 1.1 X-RAY DIFFRACTION 40 1.0 31 31 2o6n-a1-m1-cA_2o6n-a1-m3-cA 2o6n-a1-m1-cA_2o6n-a1-m4-cA 2o6n-a1-m2-cA_2o6n-a1-m3-cA AEIEQAKKEIAYLIKKAKEILEIKKAKQEIA AEIEQAKKEIAYLIKKAKEILEIKKAKQEIA 2o6p-a4-m2-cB_2o6p-a4-m1-cA Crystal Structure of the heme-IsdC complex Q8KQR1 Q8KQR1 1.5 X-RAY DIFFRACTION 20 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 119 123 GSDSGTLNYEVYKYNTNDTSIANDYFNKPAKYIKKNGKLYVQITVNHSHWITGMSIEGHKENIISKNTAKDERTSEFEVSKLNGKIDGKIDVYIDEKVNGKPFKYDHHYNITYKFNGPT GSDSGTLNYEVYKYNTNDTSIANDYFNKPAKYIKKNGKLYVQITVNHSHWITGMSIEGHKENIISKNTAKDERTSEFEVSKLNGKIDGKIDVYIDEKVNGKPFKYDHHYNITYKFNGPTDVAG 2o6p-a5-m3-cB_2o6p-a5-m1-cA Crystal Structure of the heme-IsdC complex Q8KQR1 Q8KQR1 1.5 X-RAY DIFFRACTION 19 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 119 123 GSDSGTLNYEVYKYNTNDTSIANDYFNKPAKYIKKNGKLYVQITVNHSHWITGMSIEGHKENIISKNTAKDERTSEFEVSKLNGKIDGKIDVYIDEKVNGKPFKYDHHYNITYKFNGPT GSDSGTLNYEVYKYNTNDTSIANDYFNKPAKYIKKNGKLYVQITVNHSHWITGMSIEGHKENIISKNTAKDERTSEFEVSKLNGKIDGKIDVYIDEKVNGKPFKYDHHYNITYKFNGPTDVAG 2o6u-a1-m1-cA_2o6u-a1-m2-cB Crystal structure of the PA5185 protein from Pseudomonas Aeruginosa strain PAO1- new crystal form. Q9HU04 Q9HU04 3.01 X-RAY DIFFRACTION 21 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 139 139 2av9-a1-m1-cB_2av9-a1-m1-cD 2av9-a1-m1-cE_2av9-a1-m1-cA 2av9-a2-m1-cC_2av9-a2-m1-cH 2av9-a2-m1-cK_2av9-a2-m1-cI 2av9-a3-m1-cG_2av9-a3-m1-cJ 2av9-a3-m1-cL_2av9-a3-m1-cF 2o5u-a1-m1-cA_2o5u-a1-m2-cA 2o5u-a1-m1-cB_2o5u-a1-m2-cB 2o5u-a2-m1-cC_2o5u-a2-m5-cC 2o5u-a2-m3-cC_2o5u-a2-m4-cC 2o6b-a1-m1-cA_2o6b-a1-m2-cB 2o6b-a1-m1-cB_2o6b-a1-m2-cA 2o6t-a1-m1-cC_2o6t-a1-m2-cA 2o6t-a1-m2-cC_2o6t-a1-m1-cA 2o6t-a2-m1-cE_2o6t-a2-m3-cG 2o6t-a2-m3-cE_2o6t-a2-m1-cG 2o6t-a3-m1-cI_2o6t-a3-m4-cI 2o6t-a3-m1-cK_2o6t-a3-m4-cK 2o6u-a1-m1-cB_2o6u-a1-m2-cA RPLREQYLHFQPISTRWHDNDIYGHVNNVTYYAFFDTAVNTYLIERGGLDIQGGEVIGLVVSSSCDYFAPVAFPQRIEMGLRVARLGNSSVQYELALFLEGQREACAAGRFVHVFVERRSSRPVAIPQELRDALAALQS RPLREQYLHFQPISTRWHDNDIYGHVNNVTYYAFFDTAVNTYLIERGGLDIQGGEVIGLVVSSSCDYFAPVAFPQRIEMGLRVARLGNSSVQYELALFLEGQREACAAGRFVHVFVERRSSRPVAIPQELRDALAALQS 2o6x-a1-m1-cA_2o6x-a1-m2-cA Crystal Structure of ProCathepsin L1 from Fasciola hepatica Q24940 Q24940 1.4 X-RAY DIFFRACTION 34 1.0 6192 (Fasciola hepatica) 6192 (Fasciola hepatica) 306 306 NDDLWHQWKRMYNKEYNGADDQHRRNIWEKNVKHIQEHNLRHDLGLVTYTLGLNQFTDMTFEEFKAKYLTEMSRASDILSHGVPYEAVPDKIDWRESGYVTEVKDQGNCGSGWAFSTTGTMEGQYMKNERTSISFSEQQLVDCSRPWGNNGCGGGLMENAYQYLKQFGLETESSYPYTAVEGQCRYNKQLGVAKVTGFYTVHSGSEVELKNLVGAEGPAAVAVDVESDFMMYRSGIYQSQTCSPLRVNHAVLAVGYGTQGGTDYWIVKNSWGLSWGERGYIRMVRNRGNMCGIASLASLPMVARFP NDDLWHQWKRMYNKEYNGADDQHRRNIWEKNVKHIQEHNLRHDLGLVTYTLGLNQFTDMTFEEFKAKYLTEMSRASDILSHGVPYEAVPDKIDWRESGYVTEVKDQGNCGSGWAFSTTGTMEGQYMKNERTSISFSEQQLVDCSRPWGNNGCGGGLMENAYQYLKQFGLETESSYPYTAVEGQCRYNKQLGVAKVTGFYTVHSGSEVELKNLVGAEGPAAVAVDVESDFMMYRSGIYQSQTCSPLRVNHAVLAVGYGTQGGTDYWIVKNSWGLSWGERGYIRMVRNRGNMCGIASLASLPMVARFP 2o6y-a2-m1-cE_2o6y-a2-m1-cH Tyrosine ammonia-lyase from Rhodobacter sphaeroides Q3IWB0 Q3IWB0 1.5 X-RAY DIFFRACTION 369 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 513 513 2o6y-a1-m1-cC_2o6y-a1-m1-cB 2o6y-a1-m1-cD_2o6y-a1-m1-cA 2o6y-a2-m1-cF_2o6y-a2-m1-cG 2o78-a1-m1-cC_2o78-a1-m1-cB 2o78-a1-m1-cD_2o78-a1-m1-cA 2o78-a2-m1-cE_2o78-a2-m1-cH 2o78-a2-m1-cF_2o78-a2-m1-cG 2o7b-a1-m1-cC_2o7b-a1-m1-cB 2o7b-a1-m1-cD_2o7b-a1-m1-cA 2o7b-a2-m1-cE_2o7b-a2-m1-cH 2o7b-a2-m1-cF_2o7b-a2-m1-cG 2o7d-a1-m1-cC_2o7d-a1-m1-cB 2o7d-a1-m1-cD_2o7d-a1-m1-cA 2o7d-a2-m1-cE_2o7d-a2-m1-cH 2o7d-a2-m1-cF_2o7d-a2-m1-cG 2o7e-a1-m1-cC_2o7e-a1-m1-cB 2o7e-a1-m1-cD_2o7e-a1-m1-cA 2o7e-a2-m1-cE_2o7e-a2-m1-cH 2o7e-a2-m1-cF_2o7e-a2-m1-cG 2o7f-a1-m1-cC_2o7f-a1-m1-cB 2o7f-a1-m1-cD_2o7f-a1-m1-cA 2o7f-a2-m1-cE_2o7f-a2-m1-cH 2o7f-a2-m1-cF_2o7f-a2-m1-cG KPAVELDRHIDLDQAHAVASGGARIVLAPPARDRCRASEARLGAVIREARHVYGLTTGFGPLANRLISGENVRTLQANLVHHLASGVGPVLDWTTARAMVLARLVSIAQGASGASEGTIARLIDLLNSELAPAVPSRGTVGDLTPLAHMVLCLQGRGDFLDRDGTRLDGAEGLRRGRLQPLDLSHRDALALVNGTSAMTGIALVNAHACRHLGNWAVALTALLAECLRGRTEAWAAALSDLRPHPGQKDAAARLRARVDGSARVVRHVIAERRLDAGDIGTEPEAGQDAYSLRCAPQVLGAGFDTLAWHDRVLTIELNAVTDNPVFPPDGSVPALHGGNFMGQHVALTSDALATAVTVLAGLAERQIARLTDERLNRGLPPFLHRGPAGLNSGFMGAQVTATALLAEMRATGPASIHSISTNAANQDVVSLGTIAARLCREKIDRWAEILAILALCLAQAAELRCGSGLDGVSPAGKKLVQALREQFPPLETDRPLGQEIAALATHLLQQSPV KPAVELDRHIDLDQAHAVASGGARIVLAPPARDRCRASEARLGAVIREARHVYGLTTGFGPLANRLISGENVRTLQANLVHHLASGVGPVLDWTTARAMVLARLVSIAQGASGASEGTIARLIDLLNSELAPAVPSRGTVGDLTPLAHMVLCLQGRGDFLDRDGTRLDGAEGLRRGRLQPLDLSHRDALALVNGTSAMTGIALVNAHACRHLGNWAVALTALLAECLRGRTEAWAAALSDLRPHPGQKDAAARLRARVDGSARVVRHVIAERRLDAGDIGTEPEAGQDAYSLRCAPQVLGAGFDTLAWHDRVLTIELNAVTDNPVFPPDGSVPALHGGNFMGQHVALTSDALATAVTVLAGLAERQIARLTDERLNRGLPPFLHRGPAGLNSGFMGAQVTATALLAEMRATGPASIHSISTNAANQDVVSLGTIAARLCREKIDRWAEILAILALCLAQAAELRCGSGLDGVSPAGKKLVQALREQFPPLETDRPLGQEIAALATHLLQQSPV 2o6y-a2-m1-cG_2o6y-a2-m1-cH Tyrosine ammonia-lyase from Rhodobacter sphaeroides Q3IWB0 Q3IWB0 1.5 X-RAY DIFFRACTION 269 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 513 513 2o6y-a1-m1-cA_2o6y-a1-m1-cB 2o6y-a1-m1-cC_2o6y-a1-m1-cD 2o6y-a2-m1-cE_2o6y-a2-m1-cF 2o78-a1-m1-cA_2o78-a1-m1-cB 2o78-a1-m1-cC_2o78-a1-m1-cD 2o78-a2-m1-cE_2o78-a2-m1-cF 2o78-a2-m1-cG_2o78-a2-m1-cH 2o7b-a1-m1-cA_2o7b-a1-m1-cB 2o7b-a1-m1-cC_2o7b-a1-m1-cD 2o7b-a2-m1-cE_2o7b-a2-m1-cF 2o7b-a2-m1-cG_2o7b-a2-m1-cH 2o7d-a1-m1-cA_2o7d-a1-m1-cB 2o7d-a1-m1-cC_2o7d-a1-m1-cD 2o7d-a2-m1-cE_2o7d-a2-m1-cF 2o7d-a2-m1-cG_2o7d-a2-m1-cH 2o7e-a1-m1-cA_2o7e-a1-m1-cB 2o7e-a1-m1-cC_2o7e-a1-m1-cD 2o7e-a2-m1-cE_2o7e-a2-m1-cF 2o7e-a2-m1-cG_2o7e-a2-m1-cH 2o7f-a1-m1-cA_2o7f-a1-m1-cB 2o7f-a1-m1-cC_2o7f-a1-m1-cD 2o7f-a2-m1-cE_2o7f-a2-m1-cF 2o7f-a2-m1-cG_2o7f-a2-m1-cH KPAVELDRHIDLDQAHAVASGGARIVLAPPARDRCRASEARLGAVIREARHVYGLTTGFGPLANRLISGENVRTLQANLVHHLASGVGPVLDWTTARAMVLARLVSIAQGASGASEGTIARLIDLLNSELAPAVPSRGTVGDLTPLAHMVLCLQGRGDFLDRDGTRLDGAEGLRRGRLQPLDLSHRDALALVNGTSAMTGIALVNAHACRHLGNWAVALTALLAECLRGRTEAWAAALSDLRPHPGQKDAAARLRARVDGSARVVRHVIAERRLDAGDIGTEPEAGQDAYSLRCAPQVLGAGFDTLAWHDRVLTIELNAVTDNPVFPPDGSVPALHGGNFMGQHVALTSDALATAVTVLAGLAERQIARLTDERLNRGLPPFLHRGPAGLNSGFMGAQVTATALLAEMRATGPASIHSISTNAANQDVVSLGTIAARLCREKIDRWAEILAILALCLAQAAELRCGSGLDGVSPAGKKLVQALREQFPPLETDRPLGQEIAALATHLLQQSPV KPAVELDRHIDLDQAHAVASGGARIVLAPPARDRCRASEARLGAVIREARHVYGLTTGFGPLANRLISGENVRTLQANLVHHLASGVGPVLDWTTARAMVLARLVSIAQGASGASEGTIARLIDLLNSELAPAVPSRGTVGDLTPLAHMVLCLQGRGDFLDRDGTRLDGAEGLRRGRLQPLDLSHRDALALVNGTSAMTGIALVNAHACRHLGNWAVALTALLAECLRGRTEAWAAALSDLRPHPGQKDAAARLRARVDGSARVVRHVIAERRLDAGDIGTEPEAGQDAYSLRCAPQVLGAGFDTLAWHDRVLTIELNAVTDNPVFPPDGSVPALHGGNFMGQHVALTSDALATAVTVLAGLAERQIARLTDERLNRGLPPFLHRGPAGLNSGFMGAQVTATALLAEMRATGPASIHSISTNAANQDVVSLGTIAARLCREKIDRWAEILAILALCLAQAAELRCGSGLDGVSPAGKKLVQALREQFPPLETDRPLGQEIAALATHLLQQSPV 2o74-a3-m1-cE_2o74-a3-m1-cF Structure of OHCU decarboxylase in complex with guanine A1L259 A1L259 1.8 X-RAY DIFFRACTION 91 1.0 7955 (Danio rerio) 7955 (Danio rerio) 164 168 2o70-a1-m1-cB_2o70-a1-m1-cA 2o70-a2-m1-cD_2o70-a2-m1-cC 2o70-a3-m1-cE_2o70-a3-m1-cF 2o73-a1-m1-cB_2o73-a1-m1-cA 2o73-a2-m1-cD_2o73-a2-m1-cC 2o73-a3-m1-cE_2o73-a3-m1-cF 2o74-a1-m1-cB_2o74-a1-m1-cA 2o74-a2-m1-cD_2o74-a2-m1-cC DINVVNALAYEDFVKLFGNVVEKCPLISAAIWSYRPFKDLADIEARISEFIHSLPDSGKEGILRCHPDLAGRDLQSGTLTPESQEEQSQAGMTTLDSAEIVHMYRLNSEYKERFGFPFVICARLNNKADIVRQLSERLKNRRTAELECAIEEVKKICSLRLHSI MDINVVNALAYEDFVKLFGNVVEKCPLISAAIWSYRPFKDLADIEARISEFIHSLPDSGKEGILRCHPDLAGRDLQSGTLTPESQEEQSQAGMTTLDSAEIVHMYRLNSEYKERFGFPFVICARLNNKADIVRQLSERLKNRRTAELECAIEEVKKICSLRLHSIVLS 2o78-a1-m1-cD_2o78-a1-m1-cB Tyrosine ammonia-lyase from Rhodobacter sphaeroides (His89Phe variant) complexed with cinnamic acid Q3IWB0 Q3IWB0 1.9 X-RAY DIFFRACTION 10 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 513 514 2o7f-a1-m1-cD_2o7f-a1-m1-cB KPAVELDRHIDLDQAHAVASGGARIVLAPPARDRCRASEARLGAVIREARHVYGLTTGFGPLANRLISGENVRTLQANLVHFLASGVGPVLDWTTARAMVLARLVSIAQGASGASEGTIARLIDLLNSELAPAVPSRGTVGDLTPLAHMVLCLQGRGDFLDRDGTRLDGAEGLRRGRLQPLDLSHRDALALVNGTSAMTGIALVNAHACRHLGNWAVALTALLAECLRGRTEAWAAALSDLRPHPGQKDAAARLRARVDGSARVVRHVIAERRLDAGDIGTEPEAGQDAYSLRCAPQVLGAGFDTLAWHDRVLTIELNAVTDNPVFPPDGSVPALHGGNFMGQHVALTSDALATAVTVLAGLAERQIARLTDERLNRGLPPFLHRGPAGLNSGFMGAQVTATALLAEMRATGPASIHSISTNAANQDVVSLGTIAARLCREKIDRWAEILAILALCLAQAAELRCGSGLDGVSPAGKKLVQALREQFPPLETDRPLGQEIAALATHLLQQSPV PKPAVELDRHIDLDQAHAVASGGARIVLAPPARDRCRASEARLGAVIREARHVYGLTTGFGPLANRLISGENVRTLQANLVHFLASGVGPVLDWTTARAMVLARLVSIAQGASGASEGTIARLIDLLNSELAPAVPSRGTVGDLTPLAHMVLCLQGRGDFLDRDGTRLDGAEGLRRGRLQPLDLSHRDALALVNGTSAMTGIALVNAHACRHLGNWAVALTALLAECLRGRTEAWAAALSDLRPHPGQKDAAARLRARVDGSARVVRHVIAERRLDAGDIGTEPEAGQDAYSLRCAPQVLGAGFDTLAWHDRVLTIELNAVTDNPVFPPDGSVPALHGGNFMGQHVALTSDALATAVTVLAGLAERQIARLTDERLNRGLPPFLHRGPAGLNSGFMGAQVTATALLAEMRATGPASIHSISTNAANQDVVSLGTIAARLCREKIDRWAEILAILALCLAQAAELRCGSGLDGVSPAGKKLVQALREQFPPLETDRPLGQEIAALATHLLQQSPV 2o7g-a1-m1-cA_2o7g-a1-m1-cB Crystal structure of the Pribnow Box recognition region of SigC from Mycobacterium tuberculosis P9WGH1 P9WGH1 2.7 X-RAY DIFFRACTION 36 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 88 89 TASDDEAVTALALSAAKGNGRALEAFIKATQQDVWRFVAYLSDVGSADDLTQETFLRAIGAIPRFSARSSARTWLLAIARHVVADHIR ATASDDEAVTALALSAAKGNGRALEAFIKATQQDVWRFVAYLSDVGSADDLTQETFLRAIGAIPRFSARSSARTWLLAIARHVVADHIR 2o7h-a2-m1-cE_2o7h-a2-m1-cF Crystal structure of trimeric coiled coil GCN4 leucine zipper P03069 P03069 1.86 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 31 31 1rb5-a1-m1-cA_1rb5-a1-m1-cB 1rb6-a1-m1-cB_1rb6-a1-m1-cA 2o7h-a1-m1-cB_2o7h-a1-m1-cA 2o7h-a2-m1-cE_2o7h-a2-m1-cD 2o7h-a2-m1-cF_2o7h-a2-m1-cD RMKQLEDKVEELLSKNYHLENRVARLEKLVG RMKQLEDKVEELLSKNYHLENRVARLEKLVG 2o7t-a1-m1-cA_2o7t-a1-m2-cA Crystal structure of a tetr family transcriptional regulator (ncgl1578, cgl1640) from corynebacterium glutamicum at 2.10 A resolution Q8NQ14 Q8NQ14 2.1 X-RAY DIFFRACTION 107 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 183 183 RADALKRREHIITTTCNLYRTHHHDSLTENIAEQAGVGVATLYRNFPDRFTLDACAQYLFNVVISLQLQAISTFPTDPEGVWTSFNQLLFDRGLGSLVPALAPESLDDLPDEVSALRRTTEKNTTTLINLAKQHGLVHHDIAPGTYIVGLITISRPPITALATISENSHKALLGLYLSGLKHG RADALKRREHIITTTCNLYRTHHHDSLTENIAEQAGVGVATLYRNFPDRFTLDACAQYLFNVVISLQLQAISTFPTDPEGVWTSFNQLLFDRGLGSLVPALAPESLDDLPDEVSALRRTTEKNTTTLINLAKQHGLVHHDIAPGTYIVGLITISRPPITALATISENSHKALLGLYLSGLKHG 2o8i-a1-m1-cA_2o8i-a1-m2-cA Crystal structure of protein Atu2327 from Agrobacterium tumefaciens str. C58 A9CI02 A9CI02 2.6 X-RAY DIFFRACTION 89 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 153 153 VTREEFVARFGGVFEHSPFIAERAYDAGGAGLELTAKAVHGALCAQFRVASEAERLGVLRAHPDLAGKLAIAGELTGLDRLSPQEHARFTQLNSAYTEKFGFPFIIAVKGLNRHDILSAFDTRIDNNAAQEFATATGQVEKIAWLRLASLPEG VTREEFVARFGGVFEHSPFIAERAYDAGGAGLELTAKAVHGALCAQFRVASEAERLGVLRAHPDLAGKLAIAGELTGLDRLSPQEHARFTQLNSAYTEKFGFPFIIAVKGLNRHDILSAFDTRIDNNAAQEFATATGQVEKIAWLRLASLPEG 2o8m-a1-m1-cB_2o8m-a1-m1-cA Crystal structure of the S139A mutant of Hepatitis C Virus NS3/4A protease P27958 P27958 2 X-RAY DIFFRACTION 36 1.0 11103 () 11103 () 154 185 1a1r-a3-m1-cA_1a1r-a3-m1-cB 1n1l-a3-m1-cB_1n1l-a3-m1-cA 1rgq-a1-m1-cA_1rgq-a1-m1-cB 1rtl-a1-m1-cB_1rtl-a1-m1-cA 2a4g-a1-m1-cC_2a4g-a1-m1-cA 2a4q-a1-m1-cC_2a4q-a1-m1-cA 2a4r-a1-m1-cC_2a4r-a1-m1-cA 2f9u-a1-m1-cC_2f9u-a1-m1-cA 2f9v-a1-m1-cC_2f9v-a1-m1-cA 2fm2-a1-m1-cC_2fm2-a1-m1-cA 2gvf-a3-m1-cC_2gvf-a3-m1-cA 2obo-a1-m1-cC_2obo-a1-m1-cA 2obq-a1-m1-cC_2obq-a1-m1-cA 2oc0-a1-m1-cC_2oc0-a1-m1-cA 2oc1-a1-m1-cC_2oc1-a1-m1-cA 2oc7-a1-m1-cC_2oc7-a1-m1-cA 2oc8-a1-m1-cC_2oc8-a1-m1-cA 2oin-a3-m1-cA_2oin-a3-m1-cB 2xcf-a1-m1-cB_2xcf-a1-m1-cA 2xcn-a1-m1-cB_2xcn-a1-m1-cA 2xni-a1-m1-cB_2xni-a1-m1-cA 3eyd-a3-m1-cC_3eyd-a3-m1-cA 3kf2-a1-m1-cA_3kf2-a1-m1-cB 3kn2-a3-m1-cC_3kn2-a3-m1-cA 3lon-a1-m1-cC_3lon-a1-m1-cA 3lox-a1-m1-cC_3lox-a1-m1-cA QVEGEVQIVSTATQTFLATCINGVCWTVYHGAGTRTIASPKGPVIQMYTNVDQDLVGWPAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSAGGPLLCPAGHAVGLFRAAVCTRGVAKAVDFIPVENLETTMRS QMGAPITAYAQQTRGLLGCIITSLTGRDKNQVEGEVQIVSTATQTFLATCINGVCWTVYHGAGTRTIASPKGPVIQMYTNVDQDLVGWPAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSAGGPLLCPAGHAVGLFRAAVCTRGVAKAVDFIPVENLETTMRSG 2o8n-a1-m1-cA_2o8n-a1-m2-cA Crystal Structure of Mouse Apolipoprotein A-I Binding Protein Q8K4Z3 Q8K4Z3 2 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 227 227 2dg2-a2-m1-cC_2dg2-a2-m1-cD 2dg2-a3-m1-cE_2dg2-a3-m1-cF 3rno-a1-m1-cA_3rno-a1-m2-cA 3ro7-a1-m1-cA_3ro7-a1-m2-cA 3roe-a1-m1-cA_3roe-a1-m1-cC 3roe-a2-m1-cB_3roe-a2-m1-cD 3roe-a3-m1-cE_3roe-a3-m1-cF 3rog-a1-m1-cA_3rog-a1-m2-cA 3rox-a1-m1-cA_3rox-a1-m2-cA 3roz-a1-m1-cA_3roz-a1-m2-cA AVKYLSQEEAQAVDQELFNEYQFSVDQLELAGLSCATAIAKAYPPTSSKSPPTVLVICGPGNNGGDGLVCARHLKLFGYQPTIYYPKRPNKPLFTGLVTQCQKDIPFLGEPPEPVDELYELVVDAIFGFSFKGDVREPFHSILSVLSGLTVPIASIDIPSGWDVEKGNPSGIQPDLLISLTAPKKSATHFTGRYHYLGGRFVPPALEKKYQLNLPSYPDTECVYRLQ AVKYLSQEEAQAVDQELFNEYQFSVDQLELAGLSCATAIAKAYPPTSSKSPPTVLVICGPGNNGGDGLVCARHLKLFGYQPTIYYPKRPNKPLFTGLVTQCQKDIPFLGEPPEPVDELYELVVDAIFGFSFKGDVREPFHSILSVLSGLTVPIASIDIPSGWDVEKGNPSGIQPDLLISLTAPKKSATHFTGRYHYLGGRFVPPALEKKYQLNLPSYPDTECVYRLQ 2o8p-a1-m1-cA_2o8p-a1-m2-cA Crystal structure of a putative 14-3-3 protein from Cryptosporidium parvum, cgd7_2470 Q5CYG0 Q5CYG0 1.82 X-RAY DIFFRACTION 44 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 215 215 DERLLQKYRAQVFEWGGCFDKFEALKSLIYLSEFENSEFDDEERHLLTLCIKHKISDYRTTSQVLQEQTKQLNNDELVKICSEYVFSLRKDIKAFLQSFEDCVDRLVEKSFFSKFFKLKVKSDISRYKLEFGLCSLEDSKKIHQDAFTLLCEHPDKIEQLPLGFIQNLAYILSEKYGEKKQVFNLNSLGKILELQIKEQENDRKAQITVYLQGIK DERLLQKYRAQVFEWGGCFDKFEALKSLIYLSEFENSEFDDEERHLLTLCIKHKISDYRTTSQVLQEQTKQLNNDELVKICSEYVFSLRKDIKAFLQSFEDCVDRLVEKSFFSKFFKLKVKSDISRYKLEFGLCSLEDSKKIHQDAFTLLCEHPDKIEQLPLGFIQNLAYILSEKYGEKKQVFNLNSLGKILELQIKEQENDRKAQITVYLQGIK 2o8r-a1-m1-cB_2o8r-a1-m1-cA Crystal Structure of Polyphosphate Kinase from Porphyromonas Gingivalis Q7MTR1 Q7MTR1 2.7 X-RAY DIFFRACTION 120 0.993 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 588 630 RDSWLSFNERVLEAADRTLPVYDRIKFLSIFSSNLEEFYTVRVAYLQAIRETVIRQDELYYRIFYDQILPTLEEHGIRLRTHAPTHPDHKAYLRRFFHEEIFPLLYPLLLPSKVRTFIRSGRVYLAVRLKEKETDEAYSYALLNVPTDGLPRFVELPRLQTDTFYYYSFLEDIIKEHLDVVFPGYEVDSYSIKVSRPTRFYDGRPDEVLRYIAIRSGNYVNLQDLALPNPFAPRLETLTPEPLLSKHLEQAPSLEGIRRKDYLIHVPYYTYDYVVRLLEAAISPDVSEIRLTQYRVAENSSIISALEAAAQSGKKVSVFVELKARFDEENNLRLSERRRSGIRIVYSPGLKVHAKTALILYHTPAGERPQGIALLSTGNFNETTARIYSDTTLTANTDIVHDVYRLFRILDGDPEPARFSRLLVARYNGEAITNLIEREIENVKRGKRGYLLKNGLQDKNVITQLYRASEAGVEIDLIVRGICCLVPDPQSRNIRVTRLVDYLEHSRIWCFHNGGKEEVFISSADWLYNRIETACPVLDPTLRREIIDILEIQLRDNIKACIYKHNSDEKPVRAQAAIYRYLKGKEET SAYPFFRRDSWLSFNERVLEAADRTLPVYDRIKFLSIFSSNLEEFYTVRVAYHQAVLQKHILQAIRETVIRQDELYYRIFYDQILPTLEEHGIRLRTHAPTHPDHKAYLRRFFHEEIFPLLYPLLLPSKVRTFIRSGRVYLAVRLKEKETDEAYSYALLNVPTDGLPRFVELPRLQTDTFYYYSFLEDIIKEHLDVVFPGYEVDSYSIKVSRDADLLLDAPTRFYDGRPDEVLRYICSSCDIDPEEAIRSGNYVNLQDLALPNPFAPRLETLTPEPLLSKHLEQAPSLEGIRRKDYLIHVPYYTYDYVVRLLEAAISPDVSEIRLTQYRVAENSSIISALEAAAQSGKKVSVFVELKARFNLRLSERRRSGIRIVYSPGLKVHAKTALILYHTPAGERPQGIALLSTGNFNETTARIYSDTTLTANTDIVHDVYRLFRILDGDPEPARFSRLLVARYNGEAITNLIEREIENVKRGKRGYLLKNGLQDKNVITQLYRASEAGVEIDLIVRGICCLVPDPQSRNIRVTRLVDYLEHSRIWCFHNGGKEEVFISSADWKRNLYNRIETACPVLDPTLRREIIDILEIQLRDNIKACRIDSSLNNIYKHNSDEKPVRAQAAIYRYLKGKEETT 2o8v-a1-m1-cA_2o8v-a1-m2-cA PAPS reductase in a covalent complex with thioredoxin C35A P17854 P17854 3 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 229 229 SKLDLNALNELPKVDRILALAETNAELEKLDAEGRVAWALDNLPGEYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYRFIDELTDKLKLNLKVYRATESAAWQEARYGKLWEQGVEGIEKYNDINKVEPMNRALKELNAQTWFAGLRREQSGSRANLPVLAIQRGVFKVLPIIDWDNRTIYQYLQKHGLKYHPLWDEGYLSVGDTHTTRKLKRECGLHEG SKLDLNALNELPKVDRILALAETNAELEKLDAEGRVAWALDNLPGEYVLSSSFGIQAAVSLHLVNQIRPDIPVILTDTGYLFPETYRFIDELTDKLKLNLKVYRATESAAWQEARYGKLWEQGVEGIEKYNDINKVEPMNRALKELNAQTWFAGLRREQSGSRANLPVLAIQRGVFKVLPIIDWDNRTIYQYLQKHGLKYHPLWDEGYLSVGDTHTTRKLKRECGLHEG 2o8x-a2-m11-cA_2o8x-a2-m9-cC Crystal structure of the ""-35 element"" promoter recognition domain of Mycobacterium tuberculosis SigC P9WGH1 P9WGH1 3 X-RAY DIFFRACTION 18 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 61 61 2o8x-a2-m10-cA_2o8x-a2-m2-cC 2o8x-a2-m10-cC_2o8x-a2-m6-cA 2o8x-a2-m12-cA_2o8x-a2-m4-cC 2o8x-a2-m12-cC_2o8x-a2-m8-cA 2o8x-a2-m1-cA_2o8x-a2-m11-cC 2o8x-a2-m1-cC_2o8x-a2-m9-cA 2o8x-a2-m2-cA_2o8x-a2-m6-cC 2o8x-a2-m3-cA_2o8x-a2-m7-cC 2o8x-a2-m3-cC_2o8x-a2-m5-cA 2o8x-a2-m4-cA_2o8x-a2-m8-cC 2o8x-a2-m5-cC_2o8x-a2-m7-cA MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA 2o8x-a2-m11-cC_2o8x-a2-m9-cC Crystal structure of the ""-35 element"" promoter recognition domain of Mycobacterium tuberculosis SigC P9WGH1 P9WGH1 3 X-RAY DIFFRACTION 17 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 61 61 2o8x-a2-m10-cC_2o8x-a2-m2-cC 2o8x-a2-m10-cC_2o8x-a2-m6-cC 2o8x-a2-m12-cC_2o8x-a2-m4-cC 2o8x-a2-m12-cC_2o8x-a2-m8-cC 2o8x-a2-m1-cC_2o8x-a2-m11-cC 2o8x-a2-m1-cC_2o8x-a2-m9-cC 2o8x-a2-m2-cC_2o8x-a2-m6-cC 2o8x-a2-m3-cC_2o8x-a2-m5-cC 2o8x-a2-m3-cC_2o8x-a2-m7-cC 2o8x-a2-m4-cC_2o8x-a2-m8-cC 2o8x-a2-m5-cC_2o8x-a2-m7-cC MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA 2o8x-a3-m1-cB_2o8x-a3-m7-cC Crystal structure of the ""-35 element"" promoter recognition domain of Mycobacterium tuberculosis SigC P9WGH1 P9WGH1 3 X-RAY DIFFRACTION 10 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 61 61 2o8x-a2-m10-cB_2o8x-a2-m4-cC 2o8x-a2-m10-cC_2o8x-a2-m4-cB 2o8x-a2-m11-cB_2o8x-a2-m2-cC 2o8x-a2-m11-cC_2o8x-a2-m2-cB 2o8x-a2-m12-cB_2o8x-a2-m9-cC 2o8x-a2-m12-cC_2o8x-a2-m9-cB 2o8x-a2-m1-cB_2o8x-a2-m7-cC 2o8x-a2-m1-cC_2o8x-a2-m7-cB 2o8x-a2-m3-cB_2o8x-a2-m6-cC 2o8x-a2-m3-cC_2o8x-a2-m6-cB 2o8x-a2-m5-cB_2o8x-a2-m8-cC 2o8x-a2-m5-cC_2o8x-a2-m8-cB 2o8x-a3-m1-cC_2o8x-a3-m7-cB MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA 2o8x-a3-m7-cB_2o8x-a3-m7-cC Crystal structure of the ""-35 element"" promoter recognition domain of Mycobacterium tuberculosis SigC P9WGH1 P9WGH1 3 X-RAY DIFFRACTION 27 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 61 61 2o8x-a1-m1-cA_2o8x-a1-m1-cB 2o8x-a1-m1-cA_2o8x-a1-m1-cC 2o8x-a1-m1-cB_2o8x-a1-m1-cC 2o8x-a2-m10-cA_2o8x-a2-m10-cB 2o8x-a2-m10-cA_2o8x-a2-m10-cC 2o8x-a2-m10-cB_2o8x-a2-m10-cC 2o8x-a2-m11-cA_2o8x-a2-m11-cB 2o8x-a2-m11-cA_2o8x-a2-m11-cC 2o8x-a2-m11-cB_2o8x-a2-m11-cC 2o8x-a2-m12-cA_2o8x-a2-m12-cB 2o8x-a2-m12-cA_2o8x-a2-m12-cC 2o8x-a2-m12-cB_2o8x-a2-m12-cC 2o8x-a2-m1-cA_2o8x-a2-m1-cB 2o8x-a2-m1-cA_2o8x-a2-m1-cC 2o8x-a2-m1-cB_2o8x-a2-m1-cC 2o8x-a2-m2-cA_2o8x-a2-m2-cB 2o8x-a2-m2-cA_2o8x-a2-m2-cC 2o8x-a2-m2-cB_2o8x-a2-m2-cC 2o8x-a2-m3-cA_2o8x-a2-m3-cB 2o8x-a2-m3-cA_2o8x-a2-m3-cC 2o8x-a2-m3-cB_2o8x-a2-m3-cC 2o8x-a2-m4-cA_2o8x-a2-m4-cB 2o8x-a2-m4-cA_2o8x-a2-m4-cC 2o8x-a2-m4-cB_2o8x-a2-m4-cC 2o8x-a2-m5-cA_2o8x-a2-m5-cB 2o8x-a2-m5-cA_2o8x-a2-m5-cC 2o8x-a2-m5-cB_2o8x-a2-m5-cC 2o8x-a2-m6-cA_2o8x-a2-m6-cB 2o8x-a2-m6-cA_2o8x-a2-m6-cC 2o8x-a2-m6-cB_2o8x-a2-m6-cC 2o8x-a2-m7-cA_2o8x-a2-m7-cB 2o8x-a2-m7-cA_2o8x-a2-m7-cC 2o8x-a2-m7-cB_2o8x-a2-m7-cC 2o8x-a2-m8-cA_2o8x-a2-m8-cB 2o8x-a2-m8-cA_2o8x-a2-m8-cC 2o8x-a2-m8-cB_2o8x-a2-m8-cC 2o8x-a2-m9-cA_2o8x-a2-m9-cB 2o8x-a2-m9-cA_2o8x-a2-m9-cC 2o8x-a2-m9-cB_2o8x-a2-m9-cC 2o8x-a3-m1-cA_2o8x-a3-m1-cB 2o8x-a3-m1-cA_2o8x-a3-m1-cC 2o8x-a3-m1-cB_2o8x-a3-m1-cC 2o8x-a3-m7-cA_2o8x-a3-m7-cB 2o8x-a3-m7-cA_2o8x-a3-m7-cC MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA MGFEDLVEVTTMIADLTTDQREALLLTQLLGLSYADAAAVCGCPVGTIRSRVARARDALLA 2o90-a1-m4-cA_2o90-a1-m8-cA Atomic resolution crystal structure of E.coli dihydroneopterin aldolase in complex with neopterin P0AC16 P0AC16 1.07 X-RAY DIFFRACTION 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 2o90-a1-m1-cA_2o90-a1-m5-cA 2o90-a1-m2-cA_2o90-a1-m6-cA 2o90-a1-m3-cA_2o90-a1-m7-cA MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEMAWDNRKAAKSDDVADCLSYADIAETVVSHVEGARFALVERVAEEVAELLLARFNSPWVRIKLSKPGAVARAANVGVIIERG MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEMAWDNRKAAKSDDVADCLSYADIAETVVSHVEGARFALVERVAEEVAELLLARFNSPWVRIKLSKPGAVARAANVGVIIERG 2o90-a1-m7-cA_2o90-a1-m8-cA Atomic resolution crystal structure of E.coli dihydroneopterin aldolase in complex with neopterin P0AC16 P0AC16 1.07 X-RAY DIFFRACTION 74 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 2o90-a1-m1-cA_2o90-a1-m2-cA 2o90-a1-m1-cA_2o90-a1-m3-cA 2o90-a1-m2-cA_2o90-a1-m4-cA 2o90-a1-m3-cA_2o90-a1-m4-cA 2o90-a1-m5-cA_2o90-a1-m6-cA 2o90-a1-m5-cA_2o90-a1-m7-cA 2o90-a1-m6-cA_2o90-a1-m8-cA MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEMAWDNRKAAKSDDVADCLSYADIAETVVSHVEGARFALVERVAEEVAELLLARFNSPWVRIKLSKPGAVARAANVGVIIERG MDIVFIEQLSVITTIGVYDWEQTIEQKLVFDIEMAWDNRKAAKSDDVADCLSYADIAETVVSHVEGARFALVERVAEEVAELLLARFNSPWVRIKLSKPGAVARAANVGVIIERG 2o95-a3-m1-cB_2o95-a3-m1-cA Crystal Structure of the Metal-Free Dimeric Human Mov34 MPN domain (residues 1-186) P51665 P51665 1.95 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 179 MPELAVQKVVVHPLVLLSVVDHFNRIGKVGNQKRVVGVLLGSWQKKVLDVSNSFAVPFDEDDKDDSVWFLDHDYLENMYGMFKKVNARERIVGWYHTGPKLHKNDIAINELMKRYCPNSVLVIIDVKPKDGLPTEAYISVEEVHPTSKTFEHVTSEIGAEEAEEVGVEHLLRDIKD MPELAVQKVVVHPLVLLSVVDHFNRIGKVGNQKRVVGVLLGSWQKKVLDVSNSFAVPFDEDDKDDSVWFLDHDYLENMYGMFKKVNARERIVGWYHTGPKLHKNDIAINELMKRYCPNSVLVIIDVKPKDGLPTEAYISVEEVHPTSKTFEHVTSEIGAEEAEEVGVEHLLRDIKDTTV 2o95-a4-m1-cB_2o95-a4-m3-cB Crystal Structure of the Metal-Free Dimeric Human Mov34 MPN domain (residues 1-186) P51665 P51665 1.95 X-RAY DIFFRACTION 141 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 2o95-a1-m1-cA_2o95-a1-m2-cA 2o96-a1-m1-cA_2o96-a1-m1-cB MPELAVQKVVVHPLVLLSVVDHFNRIGKVGNQKRVVGVLLGSWQKKVLDVSNSFAVPFDEDDKDDSVWFLDHDYLENMYGMFKKVNARERIVGWYHTGPKLHKNDIAINELMKRYCPNSVLVIIDVKPKDGLPTEAYISVEEVHPTSKTFEHVTSEIGAEEAEEVGVEHLLRDIKD MPELAVQKVVVHPLVLLSVVDHFNRIGKVGNQKRVVGVLLGSWQKKVLDVSNSFAVPFDEDDKDDSVWFLDHDYLENMYGMFKKVNARERIVGWYHTGPKLHKNDIAINELMKRYCPNSVLVIIDVKPKDGLPTEAYISVEEVHPTSKTFEHVTSEIGAEEAEEVGVEHLLRDIKD 2o98-a1-m1-cQ_2o98-a1-m1-cP Structure of the 14-3-3 / H+-ATPase plant complex Q08436 Q08436 2.7 X-RAY DIFFRACTION 13 1.0 4092 (Nicotiana plumbaginifolia) 4092 (Nicotiana plumbaginifolia) 50 52 FNELNQLAEEAKRRAEIARQRELHTLKGHVESVVKLKGLDIETIQQSYDI TNFNELNQLAEEAKRRAEIARQRELHTLKGHVESVVKLKGLDIETIQQSYDI 2o99-a2-m1-cB_2o99-a2-m1-cC The crystal structure of E.coli IclR C-terminal fragment in complex with glyoxylate P16528 P16528 1.7 X-RAY DIFFRACTION 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 171 174 2o9a-a1-m1-cD_2o9a-a1-m1-cA 2o9a-a2-m1-cB_2o9a-a2-m1-cC GHSRNLLAIVHPILRNLEESGETVNAVLDQSDHEAIIIDQVQCTHLRSAPIGGKLPHASGAGKAFLAQLSEEQVTKLLHRKGLHAYTHATLVSPVHLKEDLAQTRKRGYSFDDEEHALGLRCLAACIFDEHREPFAAISISGPISRITDDRVTEFGAVIKAAKEVTLAYGG GHSRNLLAIVHPILRNLEESGETVNAVLDQSDHEAIIIDQVQCTHLRSAPIGGKLPHASGAGKAFLAQLSEEQVTKLLHRKGLHAYTHATLVSPVHLKEDLAQTRKRGYSFDDEEHALGLRCLAACIFDEHREPFAAISISGPISRITDDRVTEFGAVIKAAKEVTLAYGGRGS 2o9x-a2-m1-cA_2o9x-a2-m2-cA Crystal Structure Of A Putative Redox Enzyme Maturation Protein From Archaeoglobus Fulgidus O30064 O30064 3.4 X-RAY DIFFRACTION 60 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 160 160 RENLYFQGHREHLKLFSLIFSYPDEDKLGKAIALAEGIGLTEIAQTLKQVDIEALQVEYTSLFISSHPSVPCPPYQSYFEEGSVYGKASLRAAELYSKYGLNYVYESEPPDHISVELEFLSNPELLSDFRDWFLEFAKCVEEKSEIYATFARAFRKFLEK RENLYFQGHREHLKLFSLIFSYPDEDKLGKAIALAEGIGLTEIAQTLKQVDIEALQVEYTSLFISSHPSVPCPPYQSYFEEGSVYGKASLRAAELYSKYGLNYVYESEPPDHISVELEFLSNPELLSDFRDWFLEFAKCVEEKSEIYATFARAFRKFLEK 2oa2-a1-m1-cA_2oa2-a1-m2-cA Crystal structure of BH2720 (10175341) from Bacillus halodurans at 1.41 A resolution Q9K9C9 Q9K9C9 1.41 X-RAY DIFFRACTION 118 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 129 129 VTDHGPRPFVVNIEDETKRNRAFRRALWTGDHLQVTLSIQVGEDIGLEIHPHLDQFLRVEEGRGLVQGHRQDNLHFQEEVFDDYAILIPAGTWHNVRNTGNRPLKLYSIYAPPQHPHGTVHETKAIAAA VTDHGPRPFVVNIEDETKRNRAFRRALWTGDHLQVTLSIQVGEDIGLEIHPHLDQFLRVEEGRGLVQGHRQDNLHFQEEVFDDYAILIPAGTWHNVRNTGNRPLKLYSIYAPPQHPHGTVHETKAIAAA 2oaf-a1-m1-cA_2oaf-a1-m2-cB Crystal structure of thioesterase superfamily (YP_508616.1) from Jannaschia sp. CCS1 at 2.00 A resolution Q28UM1 Q28UM1 2 X-RAY DIFFRACTION 22 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 141 142 2oaf-a1-m2-cA_2oaf-a1-m1-cB QPRPDSAFVHDVRVTWGDCDPAKIAYTGHLPRFALEAIDAWWSEYHGPGGWYHLELDTNVGTPFVRLEDFKSPVTPRHILKCHTWPTRLGTKSITFRVDGVQDGVTCFVGAFTCVFTIADQFKSQPAPDHLRALIEPHIPA LQPRPDSAFVHDVRVTWGDCDPAKIAYTGHLPRFALEAIDAWWSEYHGPGGWYHLELDTNVGTPFVRLEDFKSPVTPRHILKCHTWPTRLGTKSITFRVDGVQDGVTCFVGAFTCVFTIADQFKSQPAPDHLRALIEPHIPA 2oaf-a1-m1-cB_2oaf-a1-m2-cB Crystal structure of thioesterase superfamily (YP_508616.1) from Jannaschia sp. CCS1 at 2.00 A resolution Q28UM1 Q28UM1 2 X-RAY DIFFRACTION 54 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 142 142 2oaf-a1-m1-cA_2oaf-a1-m2-cA LQPRPDSAFVHDVRVTWGDCDPAKIAYTGHLPRFALEAIDAWWSEYHGPGGWYHLELDTNVGTPFVRLEDFKSPVTPRHILKCHTWPTRLGTKSITFRVDGVQDGVTCFVGAFTCVFTIADQFKSQPAPDHLRALIEPHIPA LQPRPDSAFVHDVRVTWGDCDPAKIAYTGHLPRFALEAIDAWWSEYHGPGGWYHLELDTNVGTPFVRLEDFKSPVTPRHILKCHTWPTRLGTKSITFRVDGVQDGVTCFVGAFTCVFTIADQFKSQPAPDHLRALIEPHIPA 2oaf-a1-m2-cA_2oaf-a1-m2-cB Crystal structure of thioesterase superfamily (YP_508616.1) from Jannaschia sp. CCS1 at 2.00 A resolution Q28UM1 Q28UM1 2 X-RAY DIFFRACTION 60 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 141 142 2oaf-a1-m1-cA_2oaf-a1-m1-cB QPRPDSAFVHDVRVTWGDCDPAKIAYTGHLPRFALEAIDAWWSEYHGPGGWYHLELDTNVGTPFVRLEDFKSPVTPRHILKCHTWPTRLGTKSITFRVDGVQDGVTCFVGAFTCVFTIADQFKSQPAPDHLRALIEPHIPA LQPRPDSAFVHDVRVTWGDCDPAKIAYTGHLPRFALEAIDAWWSEYHGPGGWYHLELDTNVGTPFVRLEDFKSPVTPRHILKCHTWPTRLGTKSITFRVDGVQDGVTCFVGAFTCVFTIADQFKSQPAPDHLRALIEPHIPA 2oai-a1-m1-cA_2oai-a1-m2-cA The structure of transporter associated domain CorC_HlyC from a Xylella fastidiosa Temecula1 hemolysin. Q87DZ3 Q87DZ3 1.8 X-RAY DIFFRACTION 46 1.0 183190 (Xylella fastidiosa Temecula1) 183190 (Xylella fastidiosa Temecula1) 77 77 2r8d-a1-m1-cA_2r8d-a1-m2-cA EDALVTREDGSFLIDGTLPIEELREVLGANNYHTLAGCISYFGRIPHVGEYFDWAGWRIEIVDLDGARIDLLLQRLN EDALVTREDGSFLIDGTLPIEELREVLGANNYHTLAGCISYFGRIPHVGEYFDWAGWRIEIVDLDGARIDLLLQRLN 2oal-a1-m1-cA_2oal-a1-m1-cB RebH with bound FAD Q8KHZ8 Q8KHZ8 2.1 X-RAY DIFFRACTION 91 0.998 68170 (Lentzea aerocolonigenes) 68170 (Lentzea aerocolonigenes) 527 528 2e4g-a1-m1-cA_2e4g-a1-m1-cB 2o9z-a1-m1-cA_2o9z-a1-m1-cB 2oa1-a1-m1-cA_2oa1-a1-m1-cB 2oam-a1-m1-cA_2oam-a1-m1-cB 4lu6-a1-m1-cA_4lu6-a1-m1-cB 6p00-a1-m1-cA_6p00-a1-m1-cB 6p2v-a1-m1-cB_6p2v-a1-m1-cA 7ju0-a1-m1-cA_7ju0-a1-m1-cB MSGKIDKILIVGGGTAGWMAASYLGKALQGTADITLLQAPDIPTLGVGEATIPNLQTAFFDFLGIPEDEWMRECNASYKVAIKFINWRTAGEGTSEARELDGGPDHFYHSFGLLKYHEQIPLSHYWFDRSYRGKTVEPFDYACYKEPVILDANRSPRRLDGSKVTNYAWHFDAHLVADFLRRFATEKLGVRHVEDRVEHVQRDANGNIESVRTATGRVFDADLFVDCSGFRGLLINKAMEEPFLDMSDHLLNDSAVATQVPHDDDANGVEPFTSAIAMKSGWTWKIPMLGRFGTGYVYSSRFATEDEAVREFCEMWHLDPETQPLNRIRFRVGRNRRAWVGNCVSIGTSSCFVEPLESTGIYFVYAALYQLVKHFPDKSLNPVLTARFNREIETMFDDTRDFIQAHFYFSPRTDTPFWRANKELRLADGMQEKIDMYRAGMAINAPASDDAQLYYGNFEEEFRNFWNNSNYYCVLAGLGLVPDAPSPRLAHMPQATESVDEVFGAVKDRQRNLLETLPSLHEFLRQQ SGKIDKILIVGGGTAGWMAASYLGKALQGTADITLLQAPDIPTLGVGEATIPNLQTAFFDFLGIPEDEWMRECNASYKVAIKFINWRTAGEGTSEARELDGGPDHFYHSFGLLKYHEQIPLSHYWFDRSYRGKTVEPFDYACYKEPVILDANRSPRRLDGSKVTNYAWHFDAHLVADFLRRFATEKLGVRHVEDRVEHVQRDANGNIESVRTATGRVFDADLFVDCSGFRGLLINKAMEEPFLDMSDHLLNDSAVATQVPHDDDANGVEPFTSAIAMKSGWTWKIPMLGRFGTGYVYSSRFATEDEAVREFCEMWHLDPETQPLNRIRFRVGRNRRAWVGNCVSIGTSSCFVEPLESTGIYFVYAALYQLVKHFPDKSLNPVLTARFNREIETMFDDTRDFIQAHFYFSPRTDTPFWRANKELRLADGMQEKIDMYRAGMAINAPASDDAQLYYGNFEEEFRNFWNNSNYYCVLAGLGLVPDAPSPRLAHMPQATESVDEVFGAVKDRQRNLLETLPSLHEFLRQQHG 2oap-a1-m3-c1_2oap-a1-m3-c2 Crystal structure of the archaeal secretion ATPase GspE in complex with AMP-PNP O29598 O29598 2.95 X-RAY DIFFRACTION 111 0.994 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 481 487 2oap-a1-m1-c1_2oap-a1-m1-c2 2oap-a1-m1-c1_2oap-a1-m2-c2 2oap-a1-m2-c1_2oap-a1-m2-c2 2oap-a1-m2-c1_2oap-a1-m3-c2 2oap-a1-m3-c1_2oap-a1-m1-c2 2oaq-a1-m1-c1_2oaq-a1-m1-c2 2oaq-a1-m1-c1_2oaq-a1-m2-c2 2oaq-a1-m2-c1_2oaq-a1-m2-c2 2oaq-a1-m2-c1_2oaq-a1-m3-c2 2oaq-a1-m3-c1_2oaq-a1-m1-c2 2oaq-a1-m3-c1_2oaq-a1-m3-c2 HYDILRRHIRSEDLLETPEFGSGSRIVEEYWIQEPFTKAIIVENEDEFRNVYYALEPTVSSEEAEVISALYDDLKKILVLQDVSVDLEERAEVLVRAIEKTDNFYSRLYYLFRDFFGYGLIDPLEDTNVEDISCDGYNIPIFIYHQKYGNVETNIVLDQEKLDRVLRLTQRSGKHISIANPIVDATLPDGSRLQATFGTEVTPRGSSFTIRKFTIEPLTPIDLIEKGTVPSGVLAYLWLAIEHKFSAIVVGETASGKTTTLNAIFIPPDAKVVSIEDTREIKLYHENWIAEVTRTGGEGEIDYDLLRAALRQRPDYIIVGEVRGREAQTLFQASTGHASYSTLHAGDINQVYRLESEPLKVPRSLQFLDIALVQTWVRGNTRLRRTKEVNEILGIDPVDKNLLVNQFVKWDPKEDKHIEVSPKKLEKADFLGVSVQEVYDELSRKRYLELLKRGIRNYKEVTRYIHAYYRNPELATKEEGL HYDILRRHIRSEDLLETPEFGSGSRIVEEYWIQEPFTKAIIVENEDEFRNVYYALEPTVSSEEAEVISALYDDLKKILVLQDVSVDLEERAEVLVRAIEKLSKEYAVSFTDNFYSRLYYLFRDFFGYGLIDPLEDTNVEDISCDGYNIPIFIYHQKYGNVETNIVLDQEKLDRVLRLTQRSGKHISIANPIVDATLPDGSRLQATFGTEVTPRGSSFTIRKFTIEPLTPIDLIEKGTVPSGVLAYLWLAIEHKFSAIVVGETASGKTTTLNAIFIPPDAKVVSIEDTREIKLYHENWIAEVTRTGEIDYDLLRAALRQRPDYIIVGEVRGREAQTLFQASTGHASYSTLHAGDINQVYRLESEPLKVPRSLQFLDIALVQTWVRGNTRLRRTKEVNEILGIDPVDKNLLVNQFVKWDPKEDKHIEVSPKKLEKADFLGVSVQEVYDELSRKRYLELLKRGIRNYKEVTRYIHAYYRNPELATKEEGL 2oar-a2-m1-cB_2oar-a2-m2-cB Mechanosensitive Channel of Large Conductance (MscL) A5U127 A5U127 3.5 X-RAY DIFFRACTION 13 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 125 125 MLKGFKEFLARGNIVDLAVAVVIGTAFTALVTKFTDSIITPLINRIGVNAQSDVGILRIGIGGGQTIDLNVLLSAAINFFLIAFAVYFLVVLPYNTLRKKGEVEQPGDTQVVLLTEIRDLLAQTN MLKGFKEFLARGNIVDLAVAVVIGTAFTALVTKFTDSIITPLINRIGVNAQSDVGILRIGIGGGQTIDLNVLLSAAINFFLIAFAVYFLVVLPYNTLRKKGEVEQPGDTQVVLLTEIRDLLAQTN 2oar-a2-m2-cA_2oar-a2-m2-cE Mechanosensitive Channel of Large Conductance (MscL) A5U127 A5U127 3.5 X-RAY DIFFRACTION 146 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 125 125 2oar-a1-m1-cA_2oar-a1-m1-cB 2oar-a1-m1-cA_2oar-a1-m1-cE 2oar-a1-m1-cB_2oar-a1-m1-cC 2oar-a1-m1-cC_2oar-a1-m1-cD 2oar-a1-m1-cD_2oar-a1-m1-cE 2oar-a2-m1-cA_2oar-a2-m1-cB 2oar-a2-m1-cA_2oar-a2-m1-cE 2oar-a2-m1-cB_2oar-a2-m1-cC 2oar-a2-m1-cC_2oar-a2-m1-cD 2oar-a2-m1-cD_2oar-a2-m1-cE 2oar-a2-m2-cA_2oar-a2-m2-cB 2oar-a2-m2-cB_2oar-a2-m2-cC 2oar-a2-m2-cC_2oar-a2-m2-cD 2oar-a2-m2-cD_2oar-a2-m2-cE 6ctd-a1-m1-cA_6ctd-a1-m1-cB 6ctd-a1-m1-cA_6ctd-a1-m1-cE 6ctd-a1-m1-cB_6ctd-a1-m1-cC 6ctd-a1-m1-cC_6ctd-a1-m1-cD 6ctd-a1-m1-cD_6ctd-a1-m1-cE 6ctd-a2-m1-cF_6ctd-a2-m1-cG 6ctd-a2-m1-cF_6ctd-a2-m1-cJ 6ctd-a2-m1-cG_6ctd-a2-m1-cH 6ctd-a2-m1-cH_6ctd-a2-m1-cI 6ctd-a2-m1-cI_6ctd-a2-m1-cJ MLKGFKEFLARGNIVDLAVAVVIGTAFTALVTKFTDSIITPLINRIGVNAQSDVGILRIGIGGGQTIDLNVLLSAAINFFLIAFAVYFLVVLPYNTLRKKGEVEQPGDTQVVLLTEIRDLLAQTN MLKGFKEFLARGNIVDLAVAVVIGTAFTALVTKFTDSIITPLINRIGVNAQSDVGILRIGIGGGQTIDLNVLLSAAINFFLIAFAVYFLVVLPYNTLRKKGEVEQPGDTQVVLLTEIRDLLAQTN 2oar-a2-m2-cB_2oar-a2-m2-cE Mechanosensitive Channel of Large Conductance (MscL) A5U127 A5U127 3.5 X-RAY DIFFRACTION 11 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 125 125 2oar-a1-m1-cA_2oar-a1-m1-cC 2oar-a1-m1-cA_2oar-a1-m1-cD 2oar-a1-m1-cB_2oar-a1-m1-cD 2oar-a1-m1-cB_2oar-a1-m1-cE 2oar-a2-m1-cA_2oar-a2-m1-cC 2oar-a2-m1-cA_2oar-a2-m1-cD 2oar-a2-m1-cB_2oar-a2-m1-cD 2oar-a2-m1-cB_2oar-a2-m1-cE 2oar-a2-m2-cA_2oar-a2-m2-cC 2oar-a2-m2-cA_2oar-a2-m2-cD 2oar-a2-m2-cB_2oar-a2-m2-cD MLKGFKEFLARGNIVDLAVAVVIGTAFTALVTKFTDSIITPLINRIGVNAQSDVGILRIGIGGGQTIDLNVLLSAAINFFLIAFAVYFLVVLPYNTLRKKGEVEQPGDTQVVLLTEIRDLLAQTN MLKGFKEFLARGNIVDLAVAVVIGTAFTALVTKFTDSIITPLINRIGVNAQSDVGILRIGIGGGQTIDLNVLLSAAINFFLIAFAVYFLVVLPYNTLRKKGEVEQPGDTQVVLLTEIRDLLAQTN 2oas-a2-m1-cA_2oas-a2-m2-cB Crystal Structure of 4-hydroxybutyrate coenzyme A transferase (AtoA) in complex with CoA from Shewanella oneidensis, Northeast Structural Genomics Target SoR119. Q8EG98 Q8EG98 2.4 X-RAY DIFFRACTION 22 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 420 420 2oas-a2-m1-cB_2oas-a2-m2-cA PAIVCQSALEAVSLIRSGETLWTHSGATPKVLLDALAKHALTLDNITLLQLHTEGAESLSHPSLLGHLRHRCFFGGVPTRPLLQSGDADYVPIFLSEVPKLFRSGEQKIDTAIIQVSPPDKHGCSLGISVEATLAACQVAGKIIAHINPQPRTHGDGFIHIDRFAAVYEQSASLPIHSFATGDAVSLAIGQHVAELVRDGDCLQGIGAIPDAVLSCLTGHKDLGVHTELFSDGILQLVEKGVINNTKKRFYPGKLVTGFALGSQKLYDYVDDNPAVIFDIEQVNDTSIIRKNPNVAINSALQVDLTGQVCADSIGTKIYSGVGGQDFIRGAGLSEGGRSVIALPSTAAGGRISRIASVLSPGAGVVTTRAHVHYIVTEYGAANLKGRSLRERAQALINIAHPDFREQLSRDAFEVWGLNL PAIVCQSALEAVSLIRSGETLWTHSGATPKVLLDALAKHALTLDNITLLQLHTEGAESLSHPSLLGHLRHRCFFGGVPTRPLLQSGDADYVPIFLSEVPKLFRSGEQKIDTAIIQVSPPDKHGCSLGISVEATLAACQVAGKIIAHINPQPRTHGDGFIHIDRFAAVYEQSASLPIHSFATGDAVSLAIGQHVAELVRDGDCLQGIGAIPDAVLSCLTGHKDLGVHTELFSDGILQLVEKGVINNTKKRFYPGKLVTGFALGSQKLYDYVDDNPAVIFDIEQVNDTSIIRKNPNVAINSALQVDLTGQVCADSIGTKIYSGVGGQDFIRGAGLSEGGRSVIALPSTAAGGRISRIASVLSPGAGVVTTRAHVHYIVTEYGAANLKGRSLRERAQALINIAHPDFREQLSRDAFEVWGLNL 2oas-a2-m2-cA_2oas-a2-m2-cB Crystal Structure of 4-hydroxybutyrate coenzyme A transferase (AtoA) in complex with CoA from Shewanella oneidensis, Northeast Structural Genomics Target SoR119. Q8EG98 Q8EG98 2.4 X-RAY DIFFRACTION 121 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 420 420 2oas-a1-m1-cA_2oas-a1-m1-cB 2oas-a2-m1-cA_2oas-a2-m1-cB PAIVCQSALEAVSLIRSGETLWTHSGATPKVLLDALAKHALTLDNITLLQLHTEGAESLSHPSLLGHLRHRCFFGGVPTRPLLQSGDADYVPIFLSEVPKLFRSGEQKIDTAIIQVSPPDKHGCSLGISVEATLAACQVAGKIIAHINPQPRTHGDGFIHIDRFAAVYEQSASLPIHSFATGDAVSLAIGQHVAELVRDGDCLQGIGAIPDAVLSCLTGHKDLGVHTELFSDGILQLVEKGVINNTKKRFYPGKLVTGFALGSQKLYDYVDDNPAVIFDIEQVNDTSIIRKNPNVAINSALQVDLTGQVCADSIGTKIYSGVGGQDFIRGAGLSEGGRSVIALPSTAAGGRISRIASVLSPGAGVVTTRAHVHYIVTEYGAANLKGRSLRERAQALINIAHPDFREQLSRDAFEVWGLNL PAIVCQSALEAVSLIRSGETLWTHSGATPKVLLDALAKHALTLDNITLLQLHTEGAESLSHPSLLGHLRHRCFFGGVPTRPLLQSGDADYVPIFLSEVPKLFRSGEQKIDTAIIQVSPPDKHGCSLGISVEATLAACQVAGKIIAHINPQPRTHGDGFIHIDRFAAVYEQSASLPIHSFATGDAVSLAIGQHVAELVRDGDCLQGIGAIPDAVLSCLTGHKDLGVHTELFSDGILQLVEKGVINNTKKRFYPGKLVTGFALGSQKLYDYVDDNPAVIFDIEQVNDTSIIRKNPNVAINSALQVDLTGQVCADSIGTKIYSGVGGQDFIRGAGLSEGGRSVIALPSTAAGGRISRIASVLSPGAGVVTTRAHVHYIVTEYGAANLKGRSLRERAQALINIAHPDFREQLSRDAFEVWGLNL 2oaw-a5-m1-cB_2oaw-a5-m4-cD Structure of SHH variant of ""Bergerac"" chimera of spectrin SH3 P07751 P07751 1.9 X-RAY DIFFRACTION 21 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 65 65 2oaw-a5-m2-cA_2oaw-a5-m3-cC KELVLALYDYQEKSPREVTMKKGDILTLLNSTNKDWWKVEVKITVNGKTYERQGFVPAAYVKKLD KELVLALYDYQEKSPREVTMKKGDILTLLNSTNKDWWKVEVKITVNGKTYERQGFVPAAYVKKLD 2oaw-a5-m3-cC_2oaw-a5-m4-cD Structure of SHH variant of ""Bergerac"" chimera of spectrin SH3 P07751 P07751 1.9 X-RAY DIFFRACTION 13 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 65 65 2oaw-a5-m1-cB_2oaw-a5-m2-cA KELVLALYDYQEKSPREVTMKKGDILTLLNSTNKDWWKVEVKITVNGKTYERQGFVPAAYVKKLD KELVLALYDYQEKSPREVTMKKGDILTLLNSTNKDWWKVEVKITVNGKTYERQGFVPAAYVKKLD 2ob5-a1-m1-cA_2ob5-a1-m2-cA Crystal structure of protein Atu2016, putative sugar binding protein A9CIE0 A9CIE0 1.6 X-RAY DIFFRACTION 74 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 145 145 YFQGLKNIDPALNADVLHALRAGHGDTLVISDTNFPSDSVARQTTVGKVLHIDNVSAARAKAILSVLPLDTPLQPSVGREVGAPDQLEPVQVEVQQEIDAAEGKSAPYGIERFAFYEKAKQAYCVITTGETRFYGCFLLTKGVIP YFQGLKNIDPALNADVLHALRAGHGDTLVISDTNFPSDSVARQTTVGKVLHIDNVSAARAKAILSVLPLDTPLQPSVGREVGAPDQLEPVQVEVQQEIDAAEGKSAPYGIERFAFYEKAKQAYCVITTGETRFYGCFLLTKGVIP 2oba-a1-m1-cC_2oba-a1-m1-cE Pseudomonas aeruginosa 6-pyruvoyl tetrahydrobiopterin synthase Q9I0H2 Q9I0H2 2.33 X-RAY DIFFRACTION 66 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 120 120 2oba-a1-m1-cA_2oba-a1-m1-cD 2oba-a1-m1-cB_2oba-a1-m1-cF GSHELFKEFTFESAHRLPHVPEGHKCGRLHGHSFRVAIHIEGEVDPHTGWIRDFAEIKAIFKPIYEQLDHNYLNDIPGLENPTSENLCRWIWQQLKPLLPELSKVRVHETCTSGCEYRGD GSHELFKEFTFESAHRLPHVPEGHKCGRLHGHSFRVAIHIEGEVDPHTGWIRDFAEIKAIFKPIYEQLDHNYLNDIPGLENPTSENLCRWIWQQLKPLLPELSKVRVHETCTSGCEYRGD 2oba-a1-m1-cE_2oba-a1-m1-cF Pseudomonas aeruginosa 6-pyruvoyl tetrahydrobiopterin synthase Q9I0H2 Q9I0H2 2.33 X-RAY DIFFRACTION 39 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 120 120 2oba-a1-m1-cA_2oba-a1-m1-cB 2oba-a1-m1-cA_2oba-a1-m1-cC 2oba-a1-m1-cB_2oba-a1-m1-cC 2oba-a1-m1-cD_2oba-a1-m1-cE 2oba-a1-m1-cD_2oba-a1-m1-cF GSHELFKEFTFESAHRLPHVPEGHKCGRLHGHSFRVAIHIEGEVDPHTGWIRDFAEIKAIFKPIYEQLDHNYLNDIPGLENPTSENLCRWIWQQLKPLLPELSKVRVHETCTSGCEYRGD GSHELFKEFTFESAHRLPHVPEGHKCGRLHGHSFRVAIHIEGEVDPHTGWIRDFAEIKAIFKPIYEQLDHNYLNDIPGLENPTSENLCRWIWQQLKPLLPELSKVRVHETCTSGCEYRGD 2obb-a1-m1-cA_2obb-a1-m2-cA Structure of the conserved protein coded by locus BT_0820 from Bacteroides thetaiotaomicron Q8A9J5 Q8A9J5 2.2 X-RAY DIFFRACTION 81 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 119 119 NATIAVDFDGTIVEHRYPRIGEEIPFAVETLKLLQQEKHRLILWSVREGELLDEAIEWCRARGLEFYAANKDYPEEHQGFSRKLKADLFIDDRNVGGIPDWGIIYEIKEKKTFADIYSQ NATIAVDFDGTIVEHRYPRIGEEIPFAVETLKLLQQEKHRLILWSVREGELLDEAIEWCRARGLEFYAANKDYPEEHQGFSRKLKADLFIDDRNVGGIPDWGIIYEIKEKKTFADIYSQ 2obe-a1-m1-cB_2obe-a1-m1-cC Crystal Structure of Chimpanzee Adenovirus (Type 68/Simian 25) Major Coat Protein Hexon Q8UY79 Q8UY79 2.1 X-RAY DIFFRACTION 615 0.999 175567 (Simian adenovirus 25) 175567 (Simian adenovirus 25) 906 909 2obe-a1-m1-cB_2obe-a1-m1-cA 2obe-a1-m1-cC_2obe-a1-m1-cA MLPQWAYMHIAGQDASEYLSPGLVQFARATDTYFSLGNKFRNPTVAPTHDVTTDRSQRLTLRFVPVDREDNTYSYKVRYTLAVGDNRVLDMASTYFDIRGVLDRGPSFKPYSGTAYNSLAPKGAPNTCQWTYKATEKTYTYGNAPVQGINITKDGIQLGTDTDDQPIYADKTYQPEPQVGDAEWHEKYGGRALKPDTKMKPCYGSFAKPTNKEGGQANVKTTKEYDIDMAFFDNRSAAAAGLAPEIVLYTENVDLETPDTHIVYKAGTDDSSSSINLGQQAMPNRPNYIGFRDNFIGLMYYNSTGNMGVLAGQASQLNAVVDLQDRNTELSYQLLLDSLGDRTRYFSMWNQAVDSYDPDVRIIENHGVEDELPNYCFPLDAVGRTDTYQGIKANTTWTKDDSVNDANEIGKGNPFAMEINIQANLWRNFLYANVALYLPDSYKYTPANVTLPTNTNTYDYMNGRVVAPSLVDSYINIGARWSLDPMDNVNPFNHHRNAGLRYRSMLLGNGRYVPFHIQVPQKFFAIKSLLLLPGSYTYEWNFRKDVNMILQSSLGNDLRTDGASISFTSINLYATFFPMAHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPANATNVPISIPSRNWAAFRGWSFTRLKTKETPSLGSGFDPYFVYSGSIPYLDGTFYLNHTFKKVSITFDSSVSWPGNDRLLTPNEFEIKRTVDGEGYNVAQCNMTKDWFLVQMLAHYNIGYQGFYVPEGYKDRMYSFFRNFQPMSRQVVDEVNYKDYQAVTLAYQHNNSGFVGYLAPTMRQGQPYPANYPYPLIGKSAVTSVTQKKFLCDRVMWRIPFSSNFMSMGALTDLGQNMLYANSAHALDMNFEVDPMDESTLLYVVFEVFDVVRVHQPHRGVIEAVYLRTPFSAGN MLPQWAYMHIAGQDASEYLSPGLVQFARATDTYFSLGNKFRNPTVAPTHDVTTDRSQRLTLRFVPVDREDNTYSYKVRYTLAVGDNRVLDMASTYFDIRGVLDRGPSFKPYSGTAYNSLAPKGAPNTCQWTYKTEKTYTYGNAPVQGINITKDGIQLGTDTDDQPIYADKTYQPEPQVGDAEWHEKYGGRALKPDTKMKPCYGSFAKPTNKEGGQANVKTGTGTTKEYDIDMAFFDNRSAAAAGLAPEIVLYTENVDLETPDTHIVYKAGTDDSSSSINLGQQAMPNRPNYIGFRDNFIGLMYYNSTGNMGVLAGQASQLNAVVDLQDRNTELSYQLLLDSLGDRTRYFSMWNQAVDSYDPDVRIIENHGVEDELPNYCFPLDAVGRTDTYQGIKANTTWTKDDSVNDANEIGKGNPFAMEINIQANLWRNFLYANVALYLPDSYKYTPANVTLPTNTNTYDYMNGRVVAPSLVDSYINIGARWSLDPMDNVNPFNHHRNAGLRYRSMLLGNGRYVPFHIQVPQKFFAIKSLLLLPGSYTYEWNFRKDVNMILQSSLGNDLRTDGASISFTSINLYATFFPMAHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPANATNVPISIPSRNWAAFRGWSFTRLKTKETPSLGSGFDPYFVYSGSIPYLDGTFYLNHTFKKVSITFDSSVSWPGNDRLLTPNEFEIKRTVDGEGYNVAQCNMTKDWFLVQMLAHYNIGYQGFYVPEGYKDRMYSFFRNFQPMSRQVVDEVNYKDYQAVTLAYQHNNSGFVGYLAPTMRQGQPYPANYPYPLIGKSAVTSVTQKKFLCDRVMWRIPFSSNFMSMGALTDLGQNMLYANSAHALDMNFEVDPMDESTLLYVVFEVFDVVRVHQPHRGVIEAVYLRTPFSAGN 2obh-a1-m1-cC_2obh-a1-m1-cD Centrin-XPC peptide Q01831 Q01831 1.8 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 16 17 NWKLLAKGLLIRERLK NWKLLAKGLLIRERLKR 2obk-a1-m1-cA_2obk-a1-m1-cB X-Ray structure of the putative Se binding protein from Pseudomonas fluorescens. Northeast Structural Genomics Consortium target PlR6. Q4KGC5 Q4KGC5 2.7 X-RAY DIFFRACTION 58 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 84 85 2obk-a1-m1-cC_2obk-a1-m1-cD 2obk-a2-m1-cE_2obk-a2-m1-cF 2obk-a2-m1-cH_2obk-a2-m1-cG RKPEVIITYCTQCQWLLRAAWLAQELLSTFSDDLGKVSLEPATGGAFRITCDGVQIWERKADGGFPEAKVLKQRVRDQIDPERD RKPEVIITYCTQCQWLLRAAWLAQELLSTFSDDLGKVSLEPATGGAFRITCDGVQIWERKADGGFPEAKVLKQRVRDQIDPERDL 2obk-a2-m1-cE_2obk-a2-m1-cH X-Ray structure of the putative Se binding protein from Pseudomonas fluorescens. Northeast Structural Genomics Consortium target PlR6. Q4KGC5 Q4KGC5 2.7 X-RAY DIFFRACTION 21 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 80 83 2obk-a1-m1-cA_2obk-a1-m1-cD 2obk-a1-m1-cC_2obk-a1-m1-cB 2obk-a2-m1-cG_2obk-a2-m1-cF KPEVIITYCTQCQWLLRAAWLAQELLSTFSDDLGKVSLEPATGGAFRITCDGVQIWERKADGGFPEAKVLKQRVRDQIDP KPEVIITYCTQCQWLLRAAWLAQELLSTFSDDLGKVSLEPATGGAFRITCDGVQIWERKADGGFPEAKVLKQRVRDQIDPERD 2obn-a2-m1-cC_2obn-a2-m1-cD Crystal structure of a duf1611 family protein (ava_3511) from anabaena variabilis atcc 29413 at 2.30 A resolution Q3M7B8 Q3M7B8 2.3 X-RAY DIFFRACTION 158 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 338 339 2obn-a1-m1-cA_2obn-a1-m1-cB LPLNQRVAILLHEGTTGTIGKTGLALLRYSEAPIVAVIDRNCAGQSLREITGIYRYVPIVKSVEAALEYKPQVLVIGIAPGGGIPDDYWIELKTALQAGSLVNGLHTPLANIPDLNALLQPGQLIWDVRKEPANLDVASGAARTLPCRRVLTVGTDAIGKSTSLELHWAAKLRGWRSKFLATGQTGVLEGDGVALDAVRVDFAAGAVEQVRYGKNYDILHIEGQGSLLHPGSTATLPLIRGSQPTQLVLVHRAGQTHNGNNPHVPIPPLPEVIRLYETVASGGGAFGTVPVVGIALNTAHLDEYAAKEAIAHTIAETGLPCTDVVRFGADVLLDAVQN RLPLNQRVAILLHEGTTGTIGKTGLALLRYSEAPIVAVIDRNCAGQSLREITGIYRYVPIVKSVEAALEYKPQVLVIGIAPGGGIPDDYWIELKTALQAGSLVNGLHTPLANIPDLNALLQPGQLIWDVRKEPANLDVASGAARTLPCRRVLTVGTDAIGKSTSLELHWAAKLRGWRSKFLATGQTGVLEGDGVALDAVRVDFAAGAVEQVRYGKNYDILHIEGQGSLLHPGSTATLPLIRGSQPTQLVLVHRAGQTHNGNNPHVPIPPLPEVIRLYETVASGGGAFGTVPVVGIALNTAHLDEYAAKEAIAHTIAETGLPCTDVVRFGADVLLDAVQN 2obx-a1-m1-cE_2obx-a1-m1-cI Lumazine synthase RibH2 from Mesorhizobium loti (Gene mll7281, Swiss-Prot entry Q986N2) complexed with inhibitor 5-Nitro-6-(D-Ribitylamino)-2,4(1H,3H) Pyrimidinedione Q986N2 Q986N2 2.53 X-RAY DIFFRACTION 10 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 146 146 2obx-a1-m1-cH_2obx-a1-m1-cA ETVRIAVVRARWHADIVDQCVSAFEAEMADIGGDRFAVDVFDVPGAYEIPLHARTLAETGRYGAVLGTAFVVNGGIYRHEFVASAVIDGMMNVQLSTGVPVLSAVLTPHNYHDSAEHHRFFFEHFTVKGKEAARACVEILAAREKI ETVRIAVVRARWHADIVDQCVSAFEAEMADIGGDRFAVDVFDVPGAYEIPLHARTLAETGRYGAVLGTAFVVNGGIYRHEFVASAVIDGMMNVQLSTGVPVLSAVLTPHNYHDSAEHHRFFFEHFTVKGKEAARACVEILAAREKI 2obx-a1-m1-cE_2obx-a1-m1-cJ Lumazine synthase RibH2 from Mesorhizobium loti (Gene mll7281, Swiss-Prot entry Q986N2) complexed with inhibitor 5-Nitro-6-(D-Ribitylamino)-2,4(1H,3H) Pyrimidinedione Q986N2 Q986N2 2.53 X-RAY DIFFRACTION 28 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 146 146 2obx-a1-m1-cB_2obx-a1-m1-cH 2obx-a1-m1-cC_2obx-a1-m1-cG 2obx-a1-m1-cD_2obx-a1-m1-cF 2obx-a1-m1-cI_2obx-a1-m1-cA ETVRIAVVRARWHADIVDQCVSAFEAEMADIGGDRFAVDVFDVPGAYEIPLHARTLAETGRYGAVLGTAFVVNGGIYRHEFVASAVIDGMMNVQLSTGVPVLSAVLTPHNYHDSAEHHRFFFEHFTVKGKEAARACVEILAAREKI ETVRIAVVRARWHADIVDQCVSAFEAEMADIGGDRFAVDVFDVPGAYEIPLHARTLAETGRYGAVLGTAFVVNGGIYRHEFVASAVIDGMMNVQLSTGVPVLSAVLTPHNYHDSAEHHRFFFEHFTVKGKEAARACVEILAAREKI 2obx-a2-m1-cD_2obx-a2-m1-cE Lumazine synthase RibH2 from Mesorhizobium loti (Gene mll7281, Swiss-Prot entry Q986N2) complexed with inhibitor 5-Nitro-6-(D-Ribitylamino)-2,4(1H,3H) Pyrimidinedione Q986N2 Q986N2 2.53 X-RAY DIFFRACTION 74 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 146 146 2obx-a1-m1-cB_2obx-a1-m1-cA 2obx-a1-m1-cB_2obx-a1-m1-cC 2obx-a1-m1-cD_2obx-a1-m1-cC 2obx-a1-m1-cD_2obx-a1-m1-cE 2obx-a1-m1-cE_2obx-a1-m1-cA 2obx-a1-m1-cF_2obx-a1-m1-cG 2obx-a1-m1-cH_2obx-a1-m1-cG 2obx-a1-m1-cI_2obx-a1-m1-cH 2obx-a1-m1-cI_2obx-a1-m1-cJ 2obx-a1-m1-cJ_2obx-a1-m1-cF 2obx-a2-m1-cB_2obx-a2-m1-cA 2obx-a2-m1-cB_2obx-a2-m1-cC 2obx-a2-m1-cD_2obx-a2-m1-cC 2obx-a2-m1-cE_2obx-a2-m1-cA 2obx-a3-m1-cF_2obx-a3-m1-cG 2obx-a3-m1-cH_2obx-a3-m1-cG 2obx-a3-m1-cI_2obx-a3-m1-cH 2obx-a3-m1-cI_2obx-a3-m1-cJ 2obx-a3-m1-cJ_2obx-a3-m1-cF ETVRIAVVRARWHADIVDQCVSAFEAEMADIGGDRFAVDVFDVPGAYEIPLHARTLAETGRYGAVLGTAFVVNGGIYRHEFVASAVIDGMMNVQLSTGVPVLSAVLTPHNYHDSAEHHRFFFEHFTVKGKEAARACVEILAAREKI ETVRIAVVRARWHADIVDQCVSAFEAEMADIGGDRFAVDVFDVPGAYEIPLHARTLAETGRYGAVLGTAFVVNGGIYRHEFVASAVIDGMMNVQLSTGVPVLSAVLTPHNYHDSAEHHRFFFEHFTVKGKEAARACVEILAAREKI 2oby-a4-m1-cE_2oby-a4-m4-cE Crystal structure of Human P53 inducible oxidoreductase (TP53I3,PIG3) Q53FA7 Q53FA7 3 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 2j8z-a1-m1-cA_2j8z-a1-m2-cA 2oby-a1-m1-cA_2oby-a1-m1-cB 2oby-a2-m1-cC_2oby-a2-m2-cC 2oby-a3-m1-cD_2oby-a3-m3-cD IPMLAVHFDKPGGPENLYVKEVAKPSPGEGEVLLKVAASALNRADLMQRQGQYDPPPGASNILGLEASGHVAELGPGCQGHWKIGDTAMALLPGGGQAQYVTVPEGLLMPIPEGLTLTQAAAIPEAWLTAFQLLHLVGNVQAGDYVLIHAGLSGVGTAAIQLTRMAGAIPLVTAGSQKKLQMAEKLGAAAGFNYKKEDFSEATLKFTKGAGVNLILDCIGGSYWEKNVNCLALDGRWVLYGLMGGGDINGPLFSKLLFKRGSLITSLLRSRDNKYKQMLVNAFTEQILPHFSTEGPQRLLPVLDRIYPVTEIQEAHKYMEANKNIGKIVLELPQ IPMLAVHFDKPGGPENLYVKEVAKPSPGEGEVLLKVAASALNRADLMQRQGQYDPPPGASNILGLEASGHVAELGPGCQGHWKIGDTAMALLPGGGQAQYVTVPEGLLMPIPEGLTLTQAAAIPEAWLTAFQLLHLVGNVQAGDYVLIHAGLSGVGTAAIQLTRMAGAIPLVTAGSQKKLQMAEKLGAAAGFNYKKEDFSEATLKFTKGAGVNLILDCIGGSYWEKNVNCLALDGRWVLYGLMGGGDINGPLFSKLLFKRGSLITSLLRSRDNKYKQMLVNAFTEQILPHFSTEGPQRLLPVLDRIYPVTEIQEAHKYMEANKNIGKIVLELPQ 2ocd-a1-m1-cC_2ocd-a1-m1-cD Crystal structure of L-asparaginase I from Vibrio cholerae O1 biovar eltor str. N16961 Q9KQK3 Q9KQK3 2.45 X-RAY DIFFRACTION 155 0.997 666 (Vibrio cholerae) 666 (Vibrio cholerae) 313 317 2ocd-a1-m1-cA_2ocd-a1-m1-cB ARKHIYIAYTGGTIGKKSDVPVAGFEKQLASPEFHRPEPLFTIHEYDPLDSSDTPADWQLIADDIAANYDKYDGFVILHGTDTAYTASALSFFENLGKPVIVTGSQIPLADLRSDGQANLLNALHVAANYPINEVTLFFNNRLRGNRSRKSHAGFSAFSSPNLPPLLEAGINIELSTNVKVDEKPSGEFKVNPITPQPIGVITYPGISHEVIRNTLLQPVNAILLTFGVGNAPQNPELLAQLKAASERGVIVVNLTQCLAGKVNGGCALADAGVISGYDTPEAALAKLHYLLSQNLSYEEVKAKQQVLRGETL ARKHIYIAYTGGTIGKKSVPVAGFEKQLASPEFHRPEPLFTIHEYDPLDSSDTPADWQLIADDIAANYDKYDGFVILHGTDTAYTASALSFFENLGKPVIVTGSQIPLADLRSDGQANLLNALHVAANYPINEVTLFFNNRLRGNRSRKSHADGFSAFSSPNLPPLLEAGINIELSTNVKVDEKPSGEFKVNPITPQPIGVITYPGISHEVIRNTLLQPVNAILLTFGVGNAPQNPELLAQLKAASERGVIVVNLTQCLAGKVNGGYATGCALADAGVISGYDTPEAALAKLHYLLSQNLSYEEVKAKQQVLRGETL 2ocd-a1-m1-cD_2ocd-a1-m1-cB Crystal structure of L-asparaginase I from Vibrio cholerae O1 biovar eltor str. N16961 Q9KQK3 Q9KQK3 2.45 X-RAY DIFFRACTION 36 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 317 318 2ocd-a1-m1-cA_2ocd-a1-m1-cC ARKHIYIAYTGGTIGKKSVPVAGFEKQLASPEFHRPEPLFTIHEYDPLDSSDTPADWQLIADDIAANYDKYDGFVILHGTDTAYTASALSFFENLGKPVIVTGSQIPLADLRSDGQANLLNALHVAANYPINEVTLFFNNRLRGNRSRKSHADGFSAFSSPNLPPLLEAGINIELSTNVKVDEKPSGEFKVNPITPQPIGVITYPGISHEVIRNTLLQPVNAILLTFGVGNAPQNPELLAQLKAASERGVIVVNLTQCLAGKVNGGYATGCALADAGVISGYDTPEAALAKLHYLLSQNLSYEEVKAKQQVLRGETL ARKHIYIAYTGGTIGKKSDVPVAGFEKQLASPEFHRPEPLFTIHEYDPLDSSDTPADWQLIADDIAANYDKYDGFVILHGTDTAYTASALSFFENLGKPVIVTGSQIPLADLRSDGQANLLNALHVAANYPINEVTLFFNNRLRGNRSRKSHADGFSAFSSPNLPPLLEAGINIELSTNVKVDEKPSGEFKVNPITPQPIGVITYPGISHEVIRNTLLQPVNAILLTFGVGNAPQNPELLAQLKAASERGVIVVNLTQCLAGKVNGGYATGCALADAGVISGYDTPEAALAKLHYLLSQNLSYEEVKAKQQVLRGETL 2ocp-a4-m1-cG_2ocp-a4-m1-cH Crystal Structure of Human Deoxyguanosine Kinase Q16854 Q16854 2.8 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 229 2ocp-a1-m1-cA_2ocp-a1-m1-cB 2ocp-a2-m1-cC_2ocp-a2-m1-cD 2ocp-a3-m1-cE_2ocp-a3-m1-cF GPRRLSIEGNIAVGKSTFVKLLTKTYPEWHVATEPVATWQNIQLGNLLDMMYREPARWSYTFQTFSFLSRLKVQLEPFPEKLLQARKPVQIFERSVYSDRYIFAKNLFENGSLSDIEWHIYQDWHSFLLWEFASRITLHGFIYLQASPQVCLKRLYQRAREEEKGIELAYLEQLHGQHEAWLIHKTTKLHFEALMNIPVLVLDVNDDFSEEVTKQEDLMREVNTFVKNL GPRRLSIEGNIAVGKSTFVKLLTKTYPEWHVATEPVATWQNIQLGNLLDMMYREPARWSYTFQTFSFLSRLKVQLEPFPEKLLQARKPVQIFERSVYSDRYIFAKNLFENGSLSDIEWHIYQDWHSFLLWEFASRITLHGFIYLQASPQVCLKRLYQRAREEEKGIELAYLEQLHGQHEAWLIHKTTKLHFEALMNIPVLVLDVNDDFSEEVTKQEDLMREVNTFVKNL 2oct-a1-m1-cB_2oct-a1-m2-cB Stefin B (Cystatin B) tetramer P04080 P04080 1.4 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 2oct-a1-m1-cA_2oct-a1-m2-cA GAPSATQPATAETQHIADQVRSQLEEKYNKKFPVFKAVSFKSQVVAGTNYFIKVHVGDEDFVHLRVFQSLPHENKSLTLSNYQTNKAKHDELTYF GAPSATQPATAETQHIADQVRSQLEEKYNKKFPVFKAVSFKSQVVAGTNYFIKVHVGDEDFVHLRVFQSLPHENKSLTLSNYQTNKAKHDELTYF 2oct-a1-m2-cB_2oct-a1-m1-cA Stefin B (Cystatin B) tetramer P04080 P04080 1.4 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 97 2oct-a1-m1-cB_2oct-a1-m2-cA GAPSATQPATAETQHIADQVRSQLEEKYNKKFPVFKAVSFKSQVVAGTNYFIKVHVGDEDFVHLRVFQSLPHENKSLTLSNYQTNKAKHDELTYF MSGAPSATQPATAETQHIADQVRSQLEEKYNKKFPVFKAVSFKSQVVAGTNYFIKVHVGDEDFVHLRVFQSLPHENKSLTLSNYQTNKAKHDELTYF 2oct-a1-m2-cB_2oct-a1-m2-cA Stefin B (Cystatin B) tetramer P04080 P04080 1.4 X-RAY DIFFRACTION 163 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 97 2oct-a1-m1-cB_2oct-a1-m1-cA GAPSATQPATAETQHIADQVRSQLEEKYNKKFPVFKAVSFKSQVVAGTNYFIKVHVGDEDFVHLRVFQSLPHENKSLTLSNYQTNKAKHDELTYF MSGAPSATQPATAETQHIADQVRSQLEEKYNKKFPVFKAVSFKSQVVAGTNYFIKVHVGDEDFVHLRVFQSLPHENKSLTLSNYQTNKAKHDELTYF 2ocy-a2-m1-cA_2ocy-a2-m2-cA Complex of the guanine exchange factor Sec2p and the Rab GTPase Sec4p P17065 P17065 3.3 X-RAY DIFFRACTION 20 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 146 146 SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD 2ocy-a2-m1-cA_2ocy-a2-m2-cB Complex of the guanine exchange factor Sec2p and the Rab GTPase Sec4p P17065 P17065 3.3 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 146 146 2ocy-a2-m1-cB_2ocy-a2-m2-cA SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD 2ocy-a2-m1-cB_2ocy-a2-m2-cB Complex of the guanine exchange factor Sec2p and the Rab GTPase Sec4p P17065 P17065 3.3 X-RAY DIFFRACTION 12 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 146 146 SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD 2ocy-a2-m2-cA_2ocy-a2-m2-cB Complex of the guanine exchange factor Sec2p and the Rab GTPase Sec4p P17065 P17065 3.3 X-RAY DIFFRACTION 201 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 146 146 2ocy-a1-m1-cA_2ocy-a1-m1-cB 2ocy-a2-m1-cA_2ocy-a2-m1-cB SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD SALSTQLIESVDKQSHLEEQLNKSLKTIASQKAAIENYNQLKEDYNTLKRELSDRDDEVKRLREDIAKENELRTKAEEEADKLNKEVEDLTASLFDEANNVADARKEKYAIEILNKRLTEQLREKDTLLDTLTLQLKNLKKVHSLD 2ocz-a1-m1-cA_2ocz-a1-m2-cA The Structure of a Putative 3-Dehydroquinate Dehydratase from Streptococcus pyogenes. P63590 P63590 1.85 X-RAY DIFFRACTION 62 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 209 209 ARIVAPVPRHFDEAQAIDISKYEDVNLIEWRADFLPKDEIVAVAPAIFEKFAGKEIIFTLRTVQEGGNITLSSQEYVDIIKEINAIYNPDYIDFEYFTHKSVFQELDFPNLILSYHNFEETPENLEAFSETKLAPRVVKIAVPQSEQDVLDLNYTRGFKTLNPEQEFATISGKLGRLSRFAGDVIGSSWTYVSLGQVTLNDKRIIEVLE ARIVAPVPRHFDEAQAIDISKYEDVNLIEWRADFLPKDEIVAVAPAIFEKFAGKEIIFTLRTVQEGGNITLSSQEYVDIIKEINAIYNPDYIDFEYFTHKSVFQELDFPNLILSYHNFEETPENLEAFSETKLAPRVVKIAVPQSEQDVLDLNYTRGFKTLNPEQEFATISGKLGRLSRFAGDVIGSSWTYVSLGQVTLNDKRIIEVLE 2od0-a1-m1-cB_2od0-a1-m1-cA The crystal structure of gene product VP1028 from Vibrio parahaemolyticus Q87QX1 Q87QX1 1.95 X-RAY DIFFRACTION 41 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 99 100 KPILKDSKLFEALGTIKSRSFGGFGLFADETFALVVNNQLHIRADQQTSSDFETQGLKPYVYKKRGFPVVTKYYAISSELWESSDRLIEVAKKSLENAK KPILKDSKLFEALGTIKSRSFGGFGLFADETFALVVNNQLHIRADQQTSSDFETQGLKPYVYKKRGFPVVTKYYAISSELWESSDRLIEVAKKSLENAKL 2od4-a1-m1-cA_2od4-a1-m1-cB Crystal structure of a dimeric ferredoxin-like protein (jcvi_pep_1096665735785) from uncultured marine organism at 1.70 A resolution 1.7 X-RAY DIFFRACTION 91 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 97 97 GFAGSIPYIRVVSITAQSKLQFDTVTYFENVWSPKVISLGAISAEFVQSNENSGYIIHYPDKQTAISVFDKIKPEVDEVRTQNRIQITEGKRLFRVD GFAGSIPYIRVVSITAQSKLQFDTVTYFENVWSPKVISLGAISAEFVQSNENSGYIIHYPDKQTAISVFDKIKPEVDEVRTQNRIQITEGKRLFRVD 2od5-a2-m1-cA_2od5-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE NUCLEIC ACID BINDING PROTEIN (JCVI_PEP_1096688149193) FROM UNCULTURED MARINE ORGANISM AT 1.79 A RESOLUTION 1.79 X-RAY DIFFRACTION 38 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 89 89 2od5-a2-m2-cA_2od5-a2-m3-cA ETESKTVRIREKIKKFLGDRPRNTAEILEHINSTRHGTTSQQLGNVLSKDKDIVKVGYIKRSGILSGGYDICEWATRNWVAEHCPEWTE ETESKTVRIREKIKKFLGDRPRNTAEILEHINSTRHGTTSQQLGNVLSKDKDIVKVGYIKRSGILSGGYDICEWATRNWVAEHCPEWTE 2od5-a2-m2-cA_2od5-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE NUCLEIC ACID BINDING PROTEIN (JCVI_PEP_1096688149193) FROM UNCULTURED MARINE ORGANISM AT 1.79 A RESOLUTION 1.79 X-RAY DIFFRACTION 54 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 89 89 2od5-a2-m1-cA_2od5-a2-m3-cA ETESKTVRIREKIKKFLGDRPRNTAEILEHINSTRHGTTSQQLGNVLSKDKDIVKVGYIKRSGILSGGYDICEWATRNWVAEHCPEWTE ETESKTVRIREKIKKFLGDRPRNTAEILEHINSTRHGTTSQQLGNVLSKDKDIVKVGYIKRSGILSGGYDICEWATRNWVAEHCPEWTE 2od5-a2-m3-cA_2od5-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE NUCLEIC ACID BINDING PROTEIN (JCVI_PEP_1096688149193) FROM UNCULTURED MARINE ORGANISM AT 1.79 A RESOLUTION 1.79 X-RAY DIFFRACTION 18 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 89 89 2od5-a2-m1-cA_2od5-a2-m2-cA ETESKTVRIREKIKKFLGDRPRNTAEILEHINSTRHGTTSQQLGNVLSKDKDIVKVGYIKRSGILSGGYDICEWATRNWVAEHCPEWTE ETESKTVRIREKIKKFLGDRPRNTAEILEHINSTRHGTTSQQLGNVLSKDKDIVKVGYIKRSGILSGGYDICEWATRNWVAEHCPEWTE 2od6-a2-m1-cC_2od6-a2-m1-cD Crystal structure of a dimeric ferredoxin-like protein (jcvi_pep_1096682647733) from uncultured marine organism at 1.85 A resolution 1.85 X-RAY DIFFRACTION 75 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 102 103 2od6-a1-m1-cB_2od6-a1-m1-cA EPKFTSFTTADFINDVDELFIDAVEKTAPVWVKEKSRGLLKFSNRVWNKGEVFRVVTYEYKDRASFEANIAYLEDTFGKNPVFLQLVTTAKFTTSRCLVVEV AEPKFTSFTTADFINDVDELFIDAVEKTAPVWVKEKSRGLLKFSNRVWNKGEVFRVVTYEYKDRASFEANIAYLEDTFGKNPVFLQLVTTAKFTTSRCLVVEV 2oda-a1-m1-cA_2oda-a1-m1-cB Crystal Structure of PSPTO_2114 Q884H9 Q884H9 1.9 X-RAY DIFFRACTION 44 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 188 191 TFPALLFGLSGCLVDFGAQAATSDTPDDEHAQLTPGAQNALKALRDQGPCAWIDELPEALSTPLAAPVNDWIAAPRPTAGWPQPDACWALALNVSQLEGCVLISGDPRLLQSGLNAGLWTIGLASCGPLCGLSPSQWQALNNAEREQRRAQATLKLYSLGVHSVIDHLGELESCLADIALRRSKGEKP PLPTFPALLFGLSGCLVDFGAQAATSDTPDDEHAQLTPGAQNALKALRDQGPCAWIDELPEALSTPLAAPVNDWIAAPRPTAGWPQPDACWALALNVSQLEGCVLISGDPRLLQSGLNAGLWTIGLASCGPLCGLSPSQWQALNNAEREQRRAQATLKLYSLGVHSVIDHLGELESCLADIALRRSKGEKP 2odf-a3-m1-cC_2odf-a3-m1-cH The crystal structure of gene product Atu2144 from Agrobacterium tumefaciens A9CI91 A9CI91 1.9 X-RAY DIFFRACTION 51 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 249 251 2odf-a1-m1-cD_2odf-a1-m1-cA 2odf-a2-m1-cF_2odf-a2-m1-cB 2odf-a4-m1-cG_2odf-a4-m1-cE FFTEAEGKAVGVENAAAKGDVLLVCEHASATIPQKYGTLGLSADVLSSHAAWDPGALAVARLLSEKFHATLVYQRFSRLVYDCNRPPESPSAMPVKSEIYDIPGNFDLDEAERFARTSALYVPFHDRVSEIIAERQAAGRKVVVVTIHSFTPVYHGRFREVEIGILHDNDSRLADAMLAGAEGASLTVRRNDPYGPEDGVTHTLRLHALPDGLLNVMIEIRNDLIANEGEQAAIAGFLHELMGKALSSI RFFTEAEGKAVGVENAAAKGDVLLVCEHASATIPQKYGTLGLSADVLSSHAAWDPGALAVARLLSEKFHATLVYQRFSRLVYDCNRPPESPSAMPVKSEIYDIPGNFDLDEAERFARTSALYVPFHDRVSEIIAERQAAGRKVVVVTIHSFTPVYHGRFREVEIGILHDNDSRLADAMLAGAEGASLTVRRNDPYGPEDGVTHTLRLHALPDGLLNVMIEIRNDLIANEGEQAAIAGFLHELMGKALSSIE 2odk-a3-m2-cB_2odk-a3-m4-cD Putative prevent-host-death protein from Nitrosomonas europaea Q82T22 Q82T22 1.4 X-RAY DIFFRACTION 13 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 50 51 2odk-a3-m1-cB_2odk-a3-m3-cD 2odk-a3-m3-cC_2odk-a3-m4-cC HVWPVQDAKARFSEFLDACITEGPQIVSRRGAEEAVLVPIGEWRRLQAAA HHVWPVQDAKARFSEFLDACITEGPQIVSRRGAEEAVLVPIGEWRRLQAAA 2odk-a3-m4-cC_2odk-a3-m4-cD Putative prevent-host-death protein from Nitrosomonas europaea Q82T22 Q82T22 1.4 X-RAY DIFFRACTION 71 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 50 51 2odk-a1-m1-cA_2odk-a1-m1-cB 2odk-a2-m1-cC_2odk-a2-m1-cD 2odk-a3-m1-cA_2odk-a3-m1-cB 2odk-a3-m2-cA_2odk-a3-m2-cB 2odk-a3-m3-cC_2odk-a3-m3-cD HVWPVQDAKARFSEFLDACITEGPQIVSRRGAEEAVLVPIGEWRRLQAAA HHVWPVQDAKARFSEFLDACITEGPQIVSRRGAEEAVLVPIGEWRRLQAAA 2odm-a1-m1-cA_2odm-a1-m1-cB Crystal structure of S. aureus YlaN, an essential leucine rich protein involved in the control of cell shape Q7A161 Q7A161 2.24 X-RAY DIFFRACTION 36 0.987 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 76 80 ATKNAALKQLTKDADEILHLIKVQLDNLCPLYEEVLDTQFGLQKEVDFAVKLGLVDREDGKQILRLEKELSKLHEA QATKNAALKQLTKDADEILHLIKVQLDNCPLYEEVLDTQFGLQKEVDFAVKLGLVDREDGKQILRLEKELSKLHEAFTLV 2odo-a2-m1-cC_2odo-a2-m1-cD Crystal structure of Pseudomonas Fluorescens alanine racemase Q4ADX2 Q4ADX2 2.8 X-RAY DIFFRACTION 183 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 354 354 2odo-a1-m1-cA_2odo-a1-m1-cB MRPARALIDLQALRHNYQLAREVTGAKALAVIADAYGHGAVRCAQALEAEADGFAVACIEEALELRAAGIRAPILLLEGFFEADELPLIVEHDFWCVVHSLWQLDAIEQARLAKPIHVWLLDSGMHRVGLHPNDYKAAYQRLQASANVAKIVLMSHFARADELDCTRSVEQVAVFLGARADLTAEISLRNSPAVLGWPRVPSDWVRPGLMLYGSSPFDEPQATASRLQPVMTLESKVICVRELPAGEPVGYGARFITPKPMRIGVVAMGYADGYPRQAPTGTPVFVDGVRSQLLGRVSMDMLCIDLTDVPQAGLGSTVELWGKNILASEVATAADTIPYQIFCNLKRVPRLYSG MRPARALIDLQALRHNYQLAREVTGAKALAVIADAYGHGAVRCAQALEAEADGFAVACIEEALELRAAGIRAPILLLEGFFEADELPLIVEHDFWCVVHSLWQLDAIEQARLAKPIHVWLLDSGMHRVGLHPNDYKAAYQRLQASANVAKIVLMSHFARADELDCTRSVEQVAVFLGARADLTAEISLRNSPAVLGWPRVPSDWVRPGLMLYGSSPFDEPQATASRLQPVMTLESKVICVRELPAGEPVGYGARFITPKPMRIGVVAMGYADGYPRQAPTGTPVFVDGVRSQLLGRVSMDMLCIDLTDVPQAGLGSTVELWGKNILASEVATAADTIPYQIFCNLKRVPRLYSG 2odr-a1-m1-cB_2odr-a1-m1-cA Methanococcus Maripaludis Phosphoseryl-tRNA synthetase Q6LZE1 Q6LZE1 3.228 X-RAY DIFFRACTION 167 0.998 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 448 491 INESYPRIKPVFGKTHPVNDTIENLRQAYLRMGFEEYINPVIVDERDIYKQFGPEAMAVLDRCFYLAGLPRFKDLTAVSSKLTLRSHMTSGWFLTVSDLMNKKPLPFKLFSIDRCFRREQKEDKSHLMTYHSASCAIAGEGVDINDGKAIAEGLLSQFGFTNFKFIPDEKKSKYYTPETQTEVYAYHPKLKEWLEVATFGVYSPVALSKYGIDVPVMNLGLGVERLAMISGNFADVREMVYPQFYEHKLNDRNVASMVKLDKVPVMDEIYDLTKELIESCVKNSILNEIYVYDGNVIGIPEFKDFLEKGKSEGVATGIRYIDALCFKITSKLEEADINLKIDDIALKQIMSKNKVIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX REEIIEMANKDFEKAWIETKDLIKAKKINESYPRIKPVFGKTHPVNDTIENLRQAYLRMGFEEYINPVIVDERDIYKQFGPEAMAVLDRCFYLAGLPRFKDLTAVSSKLTLRSHMTSGWFLTVSDLMNKKPLPFKLFSIDRCFRREQKEDKSHLMTYHSASCAIAGEGVDINDGKAIAEGLLSQFGFTNFKFIPDEKKSKYYTPETQTEVYAYHPKLKEWLEVATFGVYSPVALSKYGIDVPVMNLGLGVERLAMISGNFADVREMVYPQFYEHKLNDRNVASMVKLDKVPVMDEIYDLTKELIESCVKNSILNEIYVYDGNVIGIPEFKDFLEKGKSEGVATGIRYIDALCFKITSKLEEAINLKIDDIALKQIMSKNKVIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2odr-a1-m1-cD_2odr-a1-m1-cC Methanococcus Maripaludis Phosphoseryl-tRNA synthetase Q6LZE1 Q6LZE1 3.228 X-RAY DIFFRACTION 170 0.991 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 451 468 REEIIEMANKDFEKAWIETKDLIKAKKINESYPRIKPVFGKTHPVNDTIENLRQAYLRMGFEEYINPVIVDERDIYKQFGPEAMAVLDRCFYLAGLPRFKDLTAVSSKLTLRSHMTSGWFLTVSDLMNKKPLPFKLFSIDRCFRREQKEDKSHLMTYHSASCAIAGEGVDINDGKAIAEGLLSQFGFTNFKFIPDEKKSKYYTPETQTEVYAYHPKLKEWLEVATFGVYSPVALSKYGIDVPVMNLGLGVERLAMISGNFADVREMVYPQFYEHKLNDRNVASMVKLDKVPEIYVYDGNVIGIPELKIDDIALKQIMSKNKVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX REEIIEMANKDFEKAWIETKDLIKAKKINESYPRIKPVFGKTHPVNDTIENLRQAYLRMGFEEYINPVIVDERDIYKQFGPEAMAVLDRCFYLAGLPRFKDLTAVSSKLTLRSHMTSGWFLTVSDLMNKKPLPFKLFSIDRCFRREQKEDKSHLMTYHSASCAIAGEGVDINDGKAIAEGLLSQFGFTNFKFIPDEKKSKYYTPETQTEVYAYHPKLKEWLEVATFGVYSPVALSKYGIDVPVMNLGLGVERLAMISGNFADVREMVYPQFYEHKLNDRNVASMVKLDKVPSILNEIYVYDGNVIGIPEKIDDIALKQIMSKNXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2oe0-a1-m1-cA_2oe0-a1-m1-cB Crystal Structure of Mitochondrial Thioredoxin 3 from Saccharomyces cerevisiae P25372 P25372 2 X-RAY DIFFRACTION 25 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 106 106 2oe1-a1-m1-cA_2oe1-a1-m1-cB SSYTSITKLTNLTEFRNLIKQNDKLVIDFYATWCGPCKMMQPHLTKLIQAYPDVRFVKCDVDESPDIAKECEVTAMPTFVLGKDGQLIGKIIGANPTALEKGIKDL SSYTSITKLTNLTEFRNLIKQNDKLVIDFYATWCGPCKMMQPHLTKLIQAYPDVRFVKCDVDESPDIAKECEVTAMPTFVLGKDGQLIGKIIGANPTALEKGIKDL 2oe3-a1-m1-cB_2oe3-a1-m1-cA Crystal Structure of Mitochondrial Thioredoxin 3 from Saccharomyces cerevisiae (oxidized form) P25372 P25372 1.8 X-RAY DIFFRACTION 44 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 104 106 YTSITKLTNLTEFRNLIKQNDKLVIDFYATWCGPCKMMQPHLTKLIQAYPDVRFVKCDVDESPDIAKECEVTAMPTFVLGKDGQLIGKIIGANPTALEKGIKDL SSYTSITKLTNLTEFRNLIKQNDKLVIDFYATWCGPCKMMQPHLTKLIQAYPDVRFVKCDVDESPDIAKECEVTAMPTFVLGKDGQLIGKIIGANPTALEKGIKDL 2oee-a2-m1-cB_2oee-a2-m3-cB yheA from Bacillus subtilis O07542 O07542 1.96 X-RAY DIFFRACTION 90 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 88 88 2oee-a1-m1-cA_2oee-a1-m2-cA VNFYDVAYDLENALRGSEEFTRLKNLYDEVNADESAKRFENFRDVQLRQAQKTVALVQQHEKISQLEAEQRSLIGELNKIIKPLEELY VNFYDVAYDLENALRGSEEFTRLKNLYDEVNADESAKRFENFRDVQLRQAQKTVALVQQHEKISQLEAEQRSLIGELNKIIKPLEELY 2oem-a1-m1-cA_2oem-a1-m1-cB Crystal structure of a rubisco-like protein from Geobacillus kaustophilus liganded with Mg2+ and 2,3-diketohexane 1-phosphate Q5L1E2 Q5L1E2 1.7 X-RAY DIFFRACTION 228 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 407 411 2oej-a1-m1-cA_2oej-a1-m1-cB 2oek-a1-m1-cA_2oek-a1-m1-cB 2oel-a1-m1-cA_2oel-a1-m1-cB SAVMATYLLHDETDIRKKAEGIALGLTIGTWTDLPALEQEQLRKHKGEVVAIEELGESERVNAYFGKRLKRAIVKIAYPTVNFSADLPALLVTTFGKLSLDGEVRLLDLEFPDEWKRQFPGPRFGIDGIRDRVGVHNRPLLMSIFKGMIGRDLAYLTSELKKQALGGVDLVDDEILFDSELLPFEKRITEGKAALQEVYEQTGKRTLYAVNLTGKTFALKDKAKRAAELGADVLLFNVFAYGLDVLQALREDEEIAVPIMAHPAFSGAVTPSEFYGVAPSLWLGKLLRLAGADFVLFPSPYGSVALEREQALGIARALTDDQEPFARAFPVPSAGIHPGLVPLIIRDFGLDTIVNAGGGIHGHPDGAIGGGRAFRAAIDAVLAGRPLRAAAAENEALQKAIDRWGVV SAVMATYLLHDETDIRKKAEGIALGLTIGTWTDLPALEQEQLRKHKGEVVAIEELGESERVNAYFGKRLKRAIVKIAYPTVNFSADLPALLVTTFGKLSLDGEVRLLDLEFPDEWKRQFPGPRFGIDGIRDRVGVHNRPLLMSIFKGMIGRDLAYLTSELKKQALGGVDLVDDEILFDSELLPFEKRITEGKAALQEVYEQTGKRTLYAVNLTGKTFALKDKAKRAAELGADVLLFNVFAYGLDVLQALREDEEIAVPIMAHPAFSGAVTPSEFYGVAPSLWLGKLLRLAGADFVLFPSPYGSVALEREQALGIARALTDDQEPFARAFPVPSAGIHPGLVPLIIRDFGLDTIVNAGGGIHGHPDGAIGGGRAFRAAIDAVLAGRPLRAAAAENEALQKAIDRWGVVEVEA 2oeq-a1-m1-cB_2oeq-a1-m1-cD Protein of Unknown Function (DUF964) from Bacillus stearothermophilus Q5L2A5 Q5L2A5 2.9 X-RAY DIFFRACTION 104 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 107 108 2oeq-a1-m1-cA_2oeq-a1-m1-cC EPLHALARQLEQAIRASEPFQQLKRAYEDVRRDETAYRFANVRDIQLRLHEKQRGAAILPDEIEQAQKAALAQQNEKLARLALEQQSITIAEVQQIAKPLEELHRSF SEPLHALARQLEQAIRASEPFQQLKRAYEDVRRDETAYRFANVRDIQLRLHEKQRGAAILPDEIEQAQKAALAQQNEKLARLALEQQSITIAEVQQIAKPLEELHRSF 2oeq-a1-m1-cD_2oeq-a1-m1-cC Protein of Unknown Function (DUF964) from Bacillus stearothermophilus Q5L2A5 Q5L2A5 2.9 X-RAY DIFFRACTION 50 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 108 110 2oeq-a1-m1-cA_2oeq-a1-m1-cB SEPLHALARQLEQAIRASEPFQQLKRAYEDVRRDETAYRFANVRDIQLRLHEKQRGAAILPDEIEQAQKAALAQQNEKLARLALEQQSITIAEVQQIAKPLEELHRSF SEPLHALARQLEQAIRASEPFQQLKRAYEDVRRDETAYRFANVRDIQLRLHEKQRGAAILPDEIEQAQKAALAQQNEKLARLALEQQSITIAEVQQIAKPLEELHRSFEG 2oer-a1-m1-cA_2oer-a1-m1-cB Probable Transcriptional Regulator from Pseudomonas aeruginosa Q9I3U1 Q9I3U1 2 X-RAY DIFFRACTION 50 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 178 188 SELVASILEAAVQVQRFTTARVAERAGVSIGSLYQYFPNKAAILFRLQSDEWRRTTRLLGEILEDTTRPPLERLRRLVLAFVRSECEEAAIRVALSDAAPLYEAREVKAEGARVFQAFLREALPEVAEAERSLAGDLLTTTLGAVGKQFSEQPRSEAEIERYAEALADLCAYLAALGE SSELVASILEAAVQVLAGAQRFTTARVAERAGVSIGSLYQYFPNKAAILFRLQSDEWRRTTRLLGEILEDTTRPPLERLRRLVLAFVRSECEEAAIRVALSDAAPLYRDADEAREVKAEGARVFQAFLREALPEVAEAERSLAGDLLTTTLGAVGKQFSEQPRSEAEIERYAEALADLCAYLAALGER 2oez-a1-m1-cA_2oez-a1-m1-cB Protein of Unknown Function (DUF1342) from Vibrio parahaemolyticus Q87LT3 Q87LT3 1.97 X-RAY DIFFRACTION 91 0.996 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 236 238 ATTHKFEHPLNEKTRIYLRVESLLRQAHLASGFADNHQYQLFFRALFDVEIFEQIQLKSELAKDLEKQRLSYRHWLNVEGVDQEALNSLLNEIDVVHSQLGAERFGQALKEDRFLSSIRQRFNLCCFDLPALHYWLHLPIERKKHDANQWQKSLKPLSDALTLWLKLARETGHFKAQIARAGFFQSDADEANILRLHIPKYGVYPISGHKNRFAIKFAFENGQACSQDVEFELAVC TTHKFEHPLNEKTRIYLRVESLLRQAHLASGFADNHQYQLFFRALFDVEIFEQIQLKSELAKDLEKQRLSYRHWLNVEGVDQEALNSLLNEIDVVHSQLGAERFGQALKEDRFLSSIRQRFNLPGGCCFDLPALHYWLHLPIERKKHDANQWQKSLKPLSDALTLWLKLARETGHFKAQIARAGFFQSDADEANILRLHIPKYGVYPISGHKNRFAIKFAFENGQACSQDVEFELAVC 2of5-a1-m1-cA_2of5-a1-m1-cE Oligomeric Death Domain complex P78560 P78560 3.2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 2of5-a1-m1-cA_2of5-a1-m1-cG 2of5-a1-m1-cB_2of5-a1-m1-cC 2of5-a1-m1-cD_2of5-a1-m1-cF HILNSSPSDRQINQLAQRLGPEWEPMVLSLGLSQTDIYRCKANHPHNVQSQVVEAFIRWRQRFGKQATFQSLHNGLRAVEVDPSLLLHMLE HILNSSPSDRQINQLAQRLGPEWEPMVLSLGLSQTDIYRCKANHPHNVQSQVVEAFIRWRQRFGKQATFQSLHNGLRAVEVDPSLLLHMLE 2of5-a1-m1-cD_2of5-a1-m1-cE Oligomeric Death Domain complex P78560 P78560 3.2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 2of5-a1-m1-cA_2of5-a1-m1-cB 2of5-a1-m1-cA_2of5-a1-m1-cF 2of5-a1-m1-cC_2of5-a1-m1-cD 2of5-a1-m1-cC_2of5-a1-m1-cG HILNSSPSDRQINQLAQRLGPEWEPMVLSLGLSQTDIYRCKANHPHNVQSQVVEAFIRWRQRFGKQATFQSLHNGLRAVEVDPSLLLHMLE HILNSSPSDRQINQLAQRLGPEWEPMVLSLGLSQTDIYRCKANHPHNVQSQVVEAFIRWRQRFGKQATFQSLHNGLRAVEVDPSLLLHMLE 2of5-a1-m1-cE_2of5-a1-m1-cF Oligomeric Death Domain complex P78560 P78560 3.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 HILNSSPSDRQINQLAQRLGPEWEPMVLSLGLSQTDIYRCKANHPHNVQSQVVEAFIRWRQRFGKQATFQSLHNGLRAVEVDPSLLLHMLE HILNSSPSDRQINQLAQRLGPEWEPMVLSLGLSQTDIYRCKANHPHNVQSQVVEAFIRWRQRFGKQATFQSLHNGLRAVEVDPSLLLHMLE 2of5-a1-m1-cH_2of5-a1-m1-cI Oligomeric Death Domain complex Q9HB75 Q9HB75 3.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 2of5-a1-m1-cJ_2of5-a1-m1-cK 2of5-a1-m1-cK_2of5-a1-m1-cL MNLGDAETGFLTQSNLLSVAGRLGLDWPAVALHLGVSYREVQRIRHEFRDDLDEQIRHMLFSWAERQAGQPGAVGLLVQALEQSDRQDVAEEVRAVLELG MNLGDAETGFLTQSNLLSVAGRLGLDWPAVALHLGVSYREVQRIRHEFRDDLDEQIRHMLFSWAERQAGQPGAVGLLVQALEQSDRQDVAEEVRAVLELG 2of5-a1-m1-cH_2of5-a1-m1-cL Oligomeric Death Domain complex Q9HB75 Q9HB75 3.2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 2of5-a1-m1-cI_2of5-a1-m1-cJ MNLGDAETGFLTQSNLLSVAGRLGLDWPAVALHLGVSYREVQRIRHEFRDDLDEQIRHMLFSWAERQAGQPGAVGLLVQALEQSDRQDVAEEVRAVLELG MNLGDAETGFLTQSNLLSVAGRLGLDWPAVALHLGVSYREVQRIRHEFRDDLDEQIRHMLFSWAERQAGQPGAVGLLVQALEQSDRQDVAEEVRAVLELG 2of6-a1-m9-cA_2of6-a1-m9-cC Structure of immature West Nile virus P14335 P14335 24.0 ELECTRON MICROSCOPY 19 1.0 11082 (West Nile virus) 11082 (West Nile virus) 400 400 2of6-a1-m10-cA_2of6-a1-m10-cC 2of6-a1-m11-cA_2of6-a1-m11-cC 2of6-a1-m12-cA_2of6-a1-m12-cC 2of6-a1-m13-cA_2of6-a1-m13-cC 2of6-a1-m14-cA_2of6-a1-m14-cC 2of6-a1-m15-cA_2of6-a1-m15-cC 2of6-a1-m16-cA_2of6-a1-m16-cC 2of6-a1-m17-cA_2of6-a1-m17-cC 2of6-a1-m18-cA_2of6-a1-m18-cC 2of6-a1-m19-cA_2of6-a1-m19-cC 2of6-a1-m1-cA_2of6-a1-m1-cC 2of6-a1-m20-cA_2of6-a1-m20-cC 2of6-a1-m21-cA_2of6-a1-m21-cC 2of6-a1-m22-cA_2of6-a1-m22-cC 2of6-a1-m23-cA_2of6-a1-m23-cC 2of6-a1-m24-cA_2of6-a1-m24-cC 2of6-a1-m25-cA_2of6-a1-m25-cC 2of6-a1-m26-cA_2of6-a1-m26-cC 2of6-a1-m27-cA_2of6-a1-m27-cC 2of6-a1-m28-cA_2of6-a1-m28-cC 2of6-a1-m29-cA_2of6-a1-m29-cC 2of6-a1-m2-cA_2of6-a1-m2-cC 2of6-a1-m30-cA_2of6-a1-m30-cC 2of6-a1-m31-cA_2of6-a1-m31-cC 2of6-a1-m32-cA_2of6-a1-m32-cC 2of6-a1-m33-cA_2of6-a1-m33-cC 2of6-a1-m34-cA_2of6-a1-m34-cC 2of6-a1-m35-cA_2of6-a1-m35-cC 2of6-a1-m36-cA_2of6-a1-m36-cC 2of6-a1-m37-cA_2of6-a1-m37-cC 2of6-a1-m38-cA_2of6-a1-m38-cC 2of6-a1-m39-cA_2of6-a1-m39-cC 2of6-a1-m3-cA_2of6-a1-m3-cC 2of6-a1-m40-cA_2of6-a1-m40-cC 2of6-a1-m41-cA_2of6-a1-m41-cC 2of6-a1-m42-cA_2of6-a1-m42-cC 2of6-a1-m43-cA_2of6-a1-m43-cC 2of6-a1-m44-cA_2of6-a1-m44-cC 2of6-a1-m45-cA_2of6-a1-m45-cC 2of6-a1-m46-cA_2of6-a1-m46-cC 2of6-a1-m47-cA_2of6-a1-m47-cC 2of6-a1-m48-cA_2of6-a1-m48-cC 2of6-a1-m49-cA_2of6-a1-m49-cC 2of6-a1-m4-cA_2of6-a1-m4-cC 2of6-a1-m50-cA_2of6-a1-m50-cC 2of6-a1-m51-cA_2of6-a1-m51-cC 2of6-a1-m52-cA_2of6-a1-m52-cC 2of6-a1-m53-cA_2of6-a1-m53-cC 2of6-a1-m54-cA_2of6-a1-m54-cC 2of6-a1-m55-cA_2of6-a1-m55-cC 2of6-a1-m56-cA_2of6-a1-m56-cC 2of6-a1-m57-cA_2of6-a1-m57-cC 2of6-a1-m58-cA_2of6-a1-m58-cC 2of6-a1-m59-cA_2of6-a1-m59-cC 2of6-a1-m5-cA_2of6-a1-m5-cC 2of6-a1-m60-cA_2of6-a1-m60-cC 2of6-a1-m6-cA_2of6-a1-m6-cC 2of6-a1-m7-cA_2of6-a1-m7-cC 2of6-a1-m8-cA_2of6-a1-m8-cC FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVKMMNMEAANLAEVRSYCYLATVSDLSTKAACPTMGEAHNDKRADPAFVCRQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKAIGRTILKENIKYEVAIFVHGPTTVESHGNYSTQVGATQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTNAYYVMTVGTKTFLVHREWFMDLNLPWSSAGSTVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFKFLGTPADTGHGTVVLELQYTGTDGPCKVPISSVASLNDLTPVGRLVTVNPFVSVATANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKS FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVKMMNMEAANLAEVRSYCYLATVSDLSTKAACPTMGEAHNDKRADPAFVCRQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKAIGRTILKENIKYEVAIFVHGPTTVESHGNYSTQVGATQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTNAYYVMTVGTKTFLVHREWFMDLNLPWSSAGSTVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFKFLGTPADTGHGTVVLELQYTGTDGPCKVPISSVASLNDLTPVGRLVTVNPFVSVATANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKS 2of7-a1-m1-cA_2of7-a1-m2-cA Structural Genomics, the crystal structure of a tetR-family transcriptional regulator from Streptomyces coelicolor A3 Q9EWH2 Q9EWH2 2.3 X-RAY DIFFRACTION 97 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 185 185 GLRERKKTRTREAIRAATYGLIRQQGYEATTVEQIAERAEVSPSTVLRYFPTREDIVLTDEYDPVAAELAARPAGEPWSDSLRHVLRKALGLGAGEEAELIRLRTRLLAEVPAVRARLENSDTGRLARAIADRTGLDPDGLEVRIVSSLVGGLEVSRYWAEHDHEESLAELVDRALDALENGLPA GLRERKKTRTREAIRAATYGLIRQQGYEATTVEQIAERAEVSPSTVLRYFPTREDIVLTDEYDPVAAELAARPAGEPWSDSLRHVLRKALGLGAGEEAELIRLRTRLLAEVPAVRARLENSDTGRLARAIADRTGLDPDGLEVRIVSSLVGGLEVSRYWAEHDHEESLAELVDRALDALENGLPA 2of8-a1-m1-cA_2of8-a1-m2-cA Crystal structure of AVR4 (D39A/C122S)-BNA complex P56734 P56734 1.05 X-RAY DIFFRACTION 11 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 120 120 2fhl-a1-m1-cA_2fhl-a1-m2-cA 2mf6-a1-m1-cA_2mf6-a1-m1-cB 2mf6-a1-m1-cC_2mf6-a1-m1-cD KCSLTGKWTNNLGSIMTIRAVNSRGEFTGTYLTAVAANPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDISYDWKATRVGYNNFTRLS KCSLTGKWTNNLGSIMTIRAVNSRGEFTGTYLTAVAANPGNITLSPLLGIQHKRASQPTFGFTVHWNFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDISYDWKATRVGYNNFTRLS 2ofw-a2-m1-cC_2ofw-a2-m1-cD Crystal structure of the APSK domain of human PAPSS1 complexed with 2 APS molecules O43252 O43252 2.05 X-RAY DIFFRACTION 150 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 2ofw-a1-m1-cB_2ofw-a1-m1-cA 2ofw-a3-m1-cE_2ofw-a3-m1-cF 2ofw-a4-m1-cH_2ofw-a4-m1-cG 2ofx-a1-m1-cA_2ofx-a1-m1-cB 2pey-a1-m1-cB_2pey-a1-m1-cA 2pez-a1-m1-cB_2pez-a1-m1-cA RATNVTYQAHHVSRNKRGQVVGTRGGFRGCTIWLTGLSGAGKTTVSMALEEYLVCHGIPCYTLDGDNIRQGLNKNLGFSPEDREENVRRIAEVAKLFADAGLVCITSFISPYTQDRNNARQIHEGASLPFFEVFVDAPLHVCEQRDVKGLYKKARAGEIKGFTGIDSEYEKPEAPELVLKTDSCDVNDCVQQVVELLNERDILP RATNVTYQAHHVSRNKRGQVVGTRGGFRGCTIWLTGLSGAGKTTVSMALEEYLVCHGIPCYTLDGDNIRQGLNKNLGFSPEDREENVRRIAEVAKLFADAGLVCITSFISPYTQDRNNARQIHEGASLPFFEVFVDAPLHVCEQRDVKGLYKKARAGEIKGFTGIDSEYEKPEAPELVLKTDSCDVNDCVQQVVELLNERDILP 2ofy-a1-m1-cB_2ofy-a1-m1-cA Crystal structure of putative XRE-family transcriptional regulator from Rhodococcus sp. Q0S9B8 Q0S9B8 1.7 X-RAY DIFFRACTION 74 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 78 80 PLTAEELERGQRLGELLRSARGDSVTVAFDAGISVETLRKIETGRIATPAFFTIAAVARVLDLSLDDVAAVVTFGPVS RVPLTAEELERGQRLGELLRSARGDSVTVAFDAGISVETLRKIETGRIATPAFFTIAAVARVLDLSLDDVAAVVTFGPVS 2og9-a1-m2-cA_2og9-a1-m4-cB Crystal Structure of mandelate racemase/muconate lactonizing enzyme from Polaromonas sp. JS666 Q12GE3 Q12GE3 1.9 X-RAY DIFFRACTION 69 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 354 354 2og9-a1-m1-cA_2og9-a1-m3-cB 2og9-a1-m1-cB_2og9-a1-m4-cA 2og9-a1-m2-cB_2og9-a1-m3-cA 3cb3-a3-m1-cC_3cb3-a3-m1-cA 3cb3-a3-m1-cD_3cb3-a3-m2-cB 3cb3-a3-m2-cC_3cb3-a3-m2-cA 3cb3-a3-m2-cD_3cb3-a3-m1-cB PSDRITWVRISSCYLPLATPITEIAILFAEIETAGGHQGLGFSYSKRAGGPGQFAHAREIAPALIGEDPSDIAKLWDKLCWAGASAGRSGLSTQAIGAFDVALWDLKAKRAGLSLAKLLGSYRDSVRCYNTSGGFLHTPIDQLVNASASIERGIGGIKLKVGQPDGALDIARVTAVRKHLGDAVPLVDANQQWDRPTAQRCRIFEPFNLVWIEEPLDAYDHEGHAALALQFDTPIATGELTSAAEHGDLIRHRAADYLPDAPRVGGITPFLKIASLAEHAGLLAPHFAELHVHLAAAYPREPWVEHFEWLEPLFNERIEIRDGRLVPTRPGLGLTLSGQVKAWTREEAQVGTRP PSDRITWVRISSCYLPLATPITEIAILFAEIETAGGHQGLGFSYSKRAGGPGQFAHAREIAPALIGEDPSDIAKLWDKLCWAGASAGRSGLSTQAIGAFDVALWDLKAKRAGLSLAKLLGSYRDSVRCYNTSGGFLHTPIDQLVNASASIERGIGGIKLKVGQPDGALDIARVTAVRKHLGDAVPLVDANQQWDRPTAQRCRIFEPFNLVWIEEPLDAYDHEGHAALALQFDTPIATGELTSAAEHGDLIRHRAADYLPDAPRVGGITPFLKIASLAEHAGLLAPHFAELHVHLAAAYPREPWVEHFEWLEPLFNERIEIRDGRLVPTRPGLGLTLSGQVKAWTREEAQVGTRP 2og9-a1-m2-cB_2og9-a1-m4-cB Crystal Structure of mandelate racemase/muconate lactonizing enzyme from Polaromonas sp. JS666 Q12GE3 Q12GE3 1.9 X-RAY DIFFRACTION 19 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 354 354 2og9-a1-m1-cA_2og9-a1-m3-cA 2og9-a1-m1-cA_2og9-a1-m4-cA 2og9-a1-m1-cB_2og9-a1-m3-cB 2og9-a1-m1-cB_2og9-a1-m4-cB 2og9-a1-m2-cA_2og9-a1-m3-cA 2og9-a1-m2-cA_2og9-a1-m4-cA 2og9-a1-m2-cB_2og9-a1-m3-cB 3cb3-a3-m1-cB_3cb3-a3-m1-cA 3cb3-a3-m1-cB_3cb3-a3-m2-cA 3cb3-a3-m1-cC_3cb3-a3-m1-cD 3cb3-a3-m1-cC_3cb3-a3-m2-cD 3cb3-a3-m2-cB_3cb3-a3-m1-cA 3cb3-a3-m2-cB_3cb3-a3-m2-cA 3cb3-a3-m2-cC_3cb3-a3-m1-cD 3cb3-a3-m2-cC_3cb3-a3-m2-cD PSDRITWVRISSCYLPLATPITEIAILFAEIETAGGHQGLGFSYSKRAGGPGQFAHAREIAPALIGEDPSDIAKLWDKLCWAGASAGRSGLSTQAIGAFDVALWDLKAKRAGLSLAKLLGSYRDSVRCYNTSGGFLHTPIDQLVNASASIERGIGGIKLKVGQPDGALDIARVTAVRKHLGDAVPLVDANQQWDRPTAQRCRIFEPFNLVWIEEPLDAYDHEGHAALALQFDTPIATGELTSAAEHGDLIRHRAADYLPDAPRVGGITPFLKIASLAEHAGLLAPHFAELHVHLAAAYPREPWVEHFEWLEPLFNERIEIRDGRLVPTRPGLGLTLSGQVKAWTREEAQVGTRP PSDRITWVRISSCYLPLATPITEIAILFAEIETAGGHQGLGFSYSKRAGGPGQFAHAREIAPALIGEDPSDIAKLWDKLCWAGASAGRSGLSTQAIGAFDVALWDLKAKRAGLSLAKLLGSYRDSVRCYNTSGGFLHTPIDQLVNASASIERGIGGIKLKVGQPDGALDIARVTAVRKHLGDAVPLVDANQQWDRPTAQRCRIFEPFNLVWIEEPLDAYDHEGHAALALQFDTPIATGELTSAAEHGDLIRHRAADYLPDAPRVGGITPFLKIASLAEHAGLLAPHFAELHVHLAAAYPREPWVEHFEWLEPLFNERIEIRDGRLVPTRPGLGLTLSGQVKAWTREEAQVGTRP 2oga-a3-m1-cC_2oga-a3-m1-cA X-ray crystal structure of S. venezuelae DesV in complex with ketimine intermediate Q9ZGH4 Q9ZGH4 2.05 X-RAY DIFFRACTION 18 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 369 371 PRVPFLDLKAAYEELRAETDAAIARVLDSGRYLLGPELEGFEAEFAAYCETDHAVGVNSGMDALQLALRGLGIGPGDEVIVPSHTYIASWLAVSATGATPVPVEPHEDHPTLDPLLVEKAITPRTRALLPVHLYGHPADMDALRELADRHGLHIVEDAAQAHGARYRGRRIGAGSSVAAFSFYPGKNLGCFGDGGAVVTGDPELAERLRMLRNYGSRQKYSHETKGTNSRLDEMQAAVLRIRLAHLDSWNGRRSALAAEYLSGLAGLPGIGLPVTAPDTDPVWHLFTVRTERRDELRSHLDARGIDTLTHYPVPVHLSPAYAGEAPPEGSLPRAESFARQVLSLPIGPHLERPQALRVIDAVREWAERV TPRVPFLDLKAAYEELRAETDAAIARVLDSGRYLLGPELEGFEAEFAAYCETDHAVGVNSGMDALQLALRGLGIGPGDEVIVPSHTYIASWLAVSATGATPVPVEPHEDHPTLDPLLVEKAITPRTRALLPVHLYGHPADMDALRELADRHGLHIVEDAAQAHGARYRGRRIGAGSSVAAFSFYPGKNLGCFGDGGAVVTGDPELAERLRMLRNYGSRQKYSHETKGTNSRLDEMQAAVLRIRLAHLDSWNGRRSALAAEYLSGLAGLPGIGLPVTAPDTDPVWHLFTVRTERRDELRSHLDARGIDTLTHYPVPVHLSPAYAGEAPPEGSLPRAESFARQVLSLPIGPHLERPQALRVIDAVREWAERVD 2oga-a3-m1-cD_2oga-a3-m1-cA X-ray crystal structure of S. venezuelae DesV in complex with ketimine intermediate Q9ZGH4 Q9ZGH4 2.05 X-RAY DIFFRACTION 16 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 370 371 2oga-a3-m1-cC_2oga-a3-m1-cB TPRVPFLDLKAAYEELRAETDAAIARVLDSGRYLLGPELEGFEAEFAAYCETDHAVGVNSGMDALQLALRGLGIGPGDEVIVPSHTYIASWLAVSATGATPVPVEPHEDHPTLDPLLVEKAITPRTRALLPVHLYGHPADMDALRELADRHGLHIVEDAAQAHGARYRGRRIGAGSSVAAFSFYPGKNLGCFGDGGAVVTGDPELAERLRMLRNYGSRQKYSHETKGTNSRLDEMQAAVLRIRLAHLDSWNGRRSALAAEYLSGLAGLPGIGLPVTAPDTDPVWHLFTVRTERRDELRSHLDARGIDTLTHYPVPVHLSPAYAGEAPPEGSLPRAESFARQVLSLPIGPHLERPQALRVIDAVREWAERV TPRVPFLDLKAAYEELRAETDAAIARVLDSGRYLLGPELEGFEAEFAAYCETDHAVGVNSGMDALQLALRGLGIGPGDEVIVPSHTYIASWLAVSATGATPVPVEPHEDHPTLDPLLVEKAITPRTRALLPVHLYGHPADMDALRELADRHGLHIVEDAAQAHGARYRGRRIGAGSSVAAFSFYPGKNLGCFGDGGAVVTGDPELAERLRMLRNYGSRQKYSHETKGTNSRLDEMQAAVLRIRLAHLDSWNGRRSALAAEYLSGLAGLPGIGLPVTAPDTDPVWHLFTVRTERRDELRSHLDARGIDTLTHYPVPVHLSPAYAGEAPPEGSLPRAESFARQVLSLPIGPHLERPQALRVIDAVREWAERVD 2ogb-a3-m1-cB_2ogb-a3-m2-cB Crystal structure of the C-terminal domain of mouse Nrdp1 Q8BH75 Q8BH75 1.95 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 119 119 STIEYNEILEWVNSLQPARVTRWGGISTPDAVLQAVIKRSLVESGCPASIVNELIENAHERSWPQGLATLETRQNRRYYENYVAKRIPGKQAVVVACENQHGDDVQEPGLVIFAHGVEE STIEYNEILEWVNSLQPARVTRWGGISTPDAVLQAVIKRSLVESGCPASIVNELIENAHERSWPQGLATLETRQNRRYYENYVAKRIPGKQAVVVACENQHGDDVQEPGLVIFAHGVEE 2oge-a2-m1-cD_2oge-a2-m1-cC x-ray structure of S. venezuelae DesV in its internal aldimine form Q9ZGH4 Q9ZGH4 2.05 X-RAY DIFFRACTION 145 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 367 368 2oga-a1-m1-cB_2oga-a1-m1-cA 2oga-a2-m1-cC_2oga-a2-m1-cD 2oga-a3-m1-cB_2oga-a3-m1-cA 2oga-a3-m1-cC_2oga-a3-m1-cD 2oge-a1-m1-cA_2oge-a1-m1-cB PRVPFLDLKAAYEELRAETDAAIARVLDSGRYLLGPELEGFEAEFAAYCETDHAVGVNSGMDALQLALRGLGIGPGDEVIVPSHTYIASWLAVSATGATPVPVEPHEDHPTLDPLLVEKAITPRTRALLPVHLYGHPADMDALRELADRHGLHIVEDAAQAHGARYRGRRIGAGSSVAAFSFYPGNLGCFGDGGAVVTGDPELAERLRMLRNYGSRQKYSHETKGTNSRLDEMQAAVLRIRLAHLDSWNGRRSALAAEYLSGLAGLPGIGLPVTAPDTDPVWHLFTVRTERRDELRSHLDARGIDTLTHYPVPVHLSPAYAGEAPPEGSLPRAESFARQVLSLPIGPHLERPQALRVIDAVREWAER PRVPFLDLKAAYEELRAETDAAIARVLDSGRYLLGPELEGFEAEFAAYCETDHAVGVNSGMDALQLALRGLGIGPGDEVIVPSHTYIASWLAVSATGATPVPVEPHEDHPTLDPLLVEKAITPRTRALLPVHLYGHPADMDALRELADRHGLHIVEDAAQAHGARYRGRRIGAGSSVAAFSFYPGNLGCFGDGGAVVTGDPELAERLRMLRNYGSRQKYSHETKGTNSRLDEMQAAVLRIRLAHLDSWNGRRSALAAEYLSGLAGLPGIGLPVTAPDTDPVWHLFTVRTERRDELRSHLDARGIDTLTHYPVPVHLSPAYAGEAPPEGSLPRAESFARQVLSLPIGPHLERPQALRVIDAVREWAERV 2ogf-a1-m1-cA_2ogf-a1-m1-cD Crystal structure of protein MJ0408 from Methanococcus jannaschii, Pfam DUF372 Q57851 Q57851 1.89 X-RAY DIFFRACTION 69 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 118 119 2ogf-a1-m1-cC_2ogf-a1-m1-cB SLRVEETEVFKKYFKNLTDRERAVFEGGITLGALFHQFVGTPVSKYNKESLERAIEEAKNQPCVYDIKVKIRNVGEKYVSLDGKLDVDLKIKINKTVAHLKLEYIPEIDYPLYVKKFE SLRVEETEVFKKYFKNLTDRERAVFEGGITLGALFHQFVGTPVSKYNKESLERAIEEAKNQPCVYDIKVKIRNVGEKYVSLDGKLDVDLKIKINKTVAHLKLEYIPEIDYPLYVKKFEE 2ogf-a1-m1-cB_2ogf-a1-m1-cD Crystal structure of protein MJ0408 from Methanococcus jannaschii, Pfam DUF372 Q57851 Q57851 1.89 X-RAY DIFFRACTION 88 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 119 119 2ogf-a1-m1-cA_2ogf-a1-m1-cC SLRVEETEVFKKYFKNLTDRERAVFEGGITLGALFHQFVGTPVSKYNKESLERAIEEAKNQPCVYDIKVKIRNVGEKYVSLDGKLDVDLKIKINKTVAHLKLEYIPEIDYPLYVKKFEE SLRVEETEVFKKYFKNLTDRERAVFEGGITLGALFHQFVGTPVSKYNKESLERAIEEAKNQPCVYDIKVKIRNVGEKYVSLDGKLDVDLKIKINKTVAHLKLEYIPEIDYPLYVKKFEE 2ogf-a1-m1-cC_2ogf-a1-m1-cD Crystal structure of protein MJ0408 from Methanococcus jannaschii, Pfam DUF372 Q57851 Q57851 1.89 X-RAY DIFFRACTION 18 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 118 119 2ogf-a1-m1-cA_2ogf-a1-m1-cB SLRVEETEVFKKYFKNLTDRERAVFEGGITLGALFHQFVGTPVSKYNKESLERAIEEAKNQPCVYDIKVKIRNVGEKYVSLDGKLDVDLKIKINKTVAHLKLEYIPEIDYPLYVKKFE SLRVEETEVFKKYFKNLTDRERAVFEGGITLGALFHQFVGTPVSKYNKESLERAIEEAKNQPCVYDIKVKIRNVGEKYVSLDGKLDVDLKIKINKTVAHLKLEYIPEIDYPLYVKKFEE 2ogg-a1-m1-cA_2ogg-a1-m4-cA Structure of B. subtilis trehalose repressor (TreR) effector binding domain P39796 P39796 2.5 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 143 2ogg-a1-m2-cA_2ogg-a1-m3-cA TKTTVHKFGLEPPSELIQKQLRANLDDDIWEVIRSRKIDGEHVILDKDYFFRKHVPHLTKEICENSIYEYIEGELGLSISYAQKEIVAEPCTDEDRELLDLRGYDHVVVRNYVFLEDTSLFQYTESRHRLDKFRFVDFARRGK TKTTVHKFGLEPPSELIQKQLRANLDDDIWEVIRSRKIDGEHVILDKDYFFRKHVPHLTKEICENSIYEYIEGELGLSISYAQKEIVAEPCTDEDRELLDLRGYDHVVVRNYVFLEDTSLFQYTESRHRLDKFRFVDFARRGK 2ogg-a1-m2-cA_2ogg-a1-m4-cA Structure of B. subtilis trehalose repressor (TreR) effector binding domain P39796 P39796 2.5 X-RAY DIFFRACTION 28 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 143 2ogg-a1-m1-cA_2ogg-a1-m3-cA TKTTVHKFGLEPPSELIQKQLRANLDDDIWEVIRSRKIDGEHVILDKDYFFRKHVPHLTKEICENSIYEYIEGELGLSISYAQKEIVAEPCTDEDRELLDLRGYDHVVVRNYVFLEDTSLFQYTESRHRLDKFRFVDFARRGK TKTTVHKFGLEPPSELIQKQLRANLDDDIWEVIRSRKIDGEHVILDKDYFFRKHVPHLTKEICENSIYEYIEGELGLSISYAQKEIVAEPCTDEDRELLDLRGYDHVVVRNYVFLEDTSLFQYTESRHRLDKFRFVDFARRGK 2ogi-a1-m1-cA_2ogi-a1-m1-cB Crystal structure of a putative metal dependent phosphohydrolase (sag1661) from streptococcus agalactiae serogroup v at 1.85 A resolution Q8DY32 Q8DY32 1.85 X-RAY DIFFRACTION 45 0.995 216466 (Streptococcus agalactiae serogroup V) 216466 (Streptococcus agalactiae serogroup V) 190 190 YKDYTGLDRTELLSKVRHSDKRFNHVLGVERAAIELAERYGYDKEKAGLAALLHDYAKELSDDEFLRLIDKYQPDPDLKKWGNNIWHGLVGIYKIQEDLAIKDQDILAAIAKHTVGSAQSTLDKIVYVADYIEHNRDFPGVEEARELAKVDLNKAVAYETARTVAFLASKAQPIYPKTIETYNAYIPYLD TYKDYTGLDRTELLSKVRHSDKRFNHVLGVERAAIELAERYGYDKEKAGLAALLHDYAKELSDDEFLRLIDKYQPDPDLKKWGNNIWHGLVGIYKIQEDLAIKDQDILAAIAKHTVGSAQSTLDKIVYVADYIEHNRDFPGVEEARELAKVDLNKAVAYETARTVAFLASKAQPIYPKTIETYNAYIPYL 2ogj-a1-m1-cC_2ogj-a1-m1-cD Crystal structure of a dihydroorotase Q7CS13 Q7CS13 2.62 X-RAY DIFFRACTION 67 0.99 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 310 356 LTNVKPVGFLIGDTQRIAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDADFTVFDLVDARLFEPRYAVIGAEAIAASRYI PILLTNVKPVGFGKGQSSTDILIGGDGKIAAVLQAQRIDAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCAEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDENRLDVGQRADFTVFDLVDADLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRYI 2ogj-a1-m1-cC_2ogj-a1-m1-cE Crystal structure of a dihydroorotase Q7CS13 Q7CS13 2.62 X-RAY DIFFRACTION 36 0.997 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 310 364 LTNVKPVGFLIGDTQRIAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDADFTVFDLVDARLFEPRYAVIGAEAIAASRYI QAPILLTNVKPVGFGKQSSTDILIGGDGKIAAVGSALQAPADTQRIDAAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDENRLDVGQRADFTVFDLVDADLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRY 2ogj-a1-m1-cF_2ogj-a1-m1-cA Crystal structure of a dihydroorotase Q7CS13 Q7CS13 2.62 X-RAY DIFFRACTION 37 0.997 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 351 371 2ogj-a1-m1-cB_2ogj-a1-m1-cE 2ogj-a1-m1-cC_2ogj-a1-m1-cB 2ogj-a1-m1-cD_2ogj-a1-m1-cA 2ogj-a1-m1-cF_2ogj-a1-m1-cD PILLTNVKPVGFASQSSTDILIGGDGKIAAVGRIDAKAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDENRLDVADFTVFDLVDADLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRYI QAPILLTNVKPVGFGKGASQSSTDILIGGDGKIAAVGSALQAPADTQRIDAAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDENRLDVGQRADFTVFDLVDADLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRYIPRA 2ogj-a1-m1-cF_2ogj-a1-m1-cE Crystal structure of a dihydroorotase Q7CS13 Q7CS13 2.62 X-RAY DIFFRACTION 67 0.989 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 351 364 2ogj-a1-m1-cB_2ogj-a1-m1-cA PILLTNVKPVGFASQSSTDILIGGDGKIAAVGRIDAKAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDENRLDVADFTVFDLVDADLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRYI QAPILLTNVKPVGFGKQSSTDILIGGDGKIAAVGSALQAPADTQRIDAAFISPGWVDLHVHIWHGGTDISIRPSECGAERGVTTLVDAGSAGEANFHGFREYIIEPSRERIKAFLNLGSIGLVACNRVPELRDIKDIDLDRILECYAENSEHIVGLVRASHVITGSWGVTPVKLGKKIAKILKVPVHVGEPPALYDEVLEILGPGDVVTHCFNGKSGSSIEDEDLFNLAERCEGIRLDIGHGGASFSFKVAEAAIARGLLPFSISTDLHGHSNFPVWDLATTSKLLSVDPFENVVEAVTRNPASVIRLDENRLDVGQRADFTVFDLVDADLEATDSNGDVSRLKRLFEPRYAVIGAEAIAASRY 2ogk-a1-m1-cA_2ogk-a1-m1-cD Crystal structure of protein AF2318 from Archaeglobus fulgidus, Pfam DUF54 O27966 O27966 3 X-RAY DIFFRACTION 14 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 133 142 GKIEWVRVSAVVHSTEDREKVGEAISTLFPFEFEIAVSKMEYLEVELTKSSEIKKFWKNLLELLGEQAEEILSTLEDRIDEQNVLHIRIDKQKAYLGEVSLTSGGDPIAVKLRLVTYPSKREKVIEFARELCT KGKIEWVRVSAVVHSTEDREKVGEAISTLFPFEFEIAVSKAKGHYGNPMEYLEVELTKSSEIKKFWKNLLELLGEQAEEILSTLEDRIDEQNVLHIRIDKQKAYLGEVSLTSGGDPIAVKLRLVTYPSKREKVIEFARELCT 2ogk-a1-m1-cB_2ogk-a1-m1-cD Crystal structure of protein AF2318 from Archaeglobus fulgidus, Pfam DUF54 O27966 O27966 3 X-RAY DIFFRACTION 60 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 139 142 KIEWVRVSAVVHSTEDREKVGEAISTLFPFEFEIAVSKAKGHYGNPMEYLEVELTKSSEIKKFWKNLLELLGEQAEEILSTLEDRIDEQNVLHIRIDKQKAYLGEVSLTSGGDPIAVKLRLVTYPSKREKVIEFARELC KGKIEWVRVSAVVHSTEDREKVGEAISTLFPFEFEIAVSKAKGHYGNPMEYLEVELTKSSEIKKFWKNLLELLGEQAEEILSTLEDRIDEQNVLHIRIDKQKAYLGEVSLTSGGDPIAVKLRLVTYPSKREKVIEFARELCT 2ogk-a1-m1-cC_2ogk-a1-m1-cD Crystal structure of protein AF2318 from Archaeglobus fulgidus, Pfam DUF54 O27966 O27966 3 X-RAY DIFFRACTION 43 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 131 142 GKIEWVRVSAVVHSTEDREKVGEAISTLFPFEFEIAVSMEYLEVELTKSSEIKKFWKNLLELLGEQAEEILSTLEDRIDEQNVLHIRIDKQKAYLGEVSLTSGGDPIAVKLRLVTYPSKREKVIEFARELC KGKIEWVRVSAVVHSTEDREKVGEAISTLFPFEFEIAVSKAKGHYGNPMEYLEVELTKSSEIKKFWKNLLELLGEQAEEILSTLEDRIDEQNVLHIRIDKQKAYLGEVSLTSGGDPIAVKLRLVTYPSKREKVIEFARELCT 2ogr-a1-m1-cB_2ogr-a1-m1-cD Crystal Structure of Yellow Fluorescent Protein from Zoanthus sp. at 1.8 A Resolution Q9U6Y4 Q9U6Y4 1.8 X-RAY DIFFRACTION 47 1.0 105402 (Zoanthus sp.) 105402 (Zoanthus sp.) 222 222 1xa9-a1-m1-cA_1xa9-a1-m2-cA 1xa9-a1-m3-cA_1xa9-a1-m4-cA 1xae-a1-m1-cB_1xae-a1-m2-cA 1xae-a1-m2-cB_1xae-a1-m1-cA 2ogr-a1-m1-cA_2ogr-a1-m1-cC 5y8q-a1-m1-cA_5y8q-a1-m1-cB 5y8q-a1-m2-cA_5y8q-a1-m2-cB 5y8r-a1-m1-cA_5y8r-a1-m2-cA 5y8r-a1-m3-cA_5y8r-a1-m4-cA 6lof-a1-m1-cA_6lof-a1-m1-cB 6lof-a1-m2-cA_6lof-a1-m2-cB HGLKEEMTMKYHMEGCVNGHKFVITGEGIGYPFKGKQTINLCVIEGGPLPFSEDILSAGDRIFTEYPQDIVDYFKNSCPAGYTWGRSFLFEDGAVCICNVDITVSVKENCIYHKSIFNGMNFPADGPVMKKMTTNWEASCEKIMPVPKQGILKGDVSMYLLLKDGGRYRCQFDTVYKAKSVPSKMPEWHFIQHKLLREDRSDAKNQKWQLTEHAIAFPSALA HGLKEEMTMKYHMEGCVNGHKFVITGEGIGYPFKGKQTINLCVIEGGPLPFSEDILSAGDRIFTEYPQDIVDYFKNSCPAGYTWGRSFLFEDGAVCICNVDITVSVKENCIYHKSIFNGMNFPADGPVMKKMTTNWEASCEKIMPVPKQGILKGDVSMYLLLKDGGRYRCQFDTVYKAKSVPSKMPEWHFIQHKLLREDRSDAKNQKWQLTEHAIAFPSALA 2oh3-a1-m1-cA_2oh3-a1-m2-cA Crystal structure of COG1633: Uncharacterized conserved protein (ZP_00055496.1) from Magnetospirillum magnetotacticum MS-1 at 2.00 A resolution Q2VZ87 Q2VZ87 2 X-RAY DIFFRACTION 32 1.0 272627 (Magnetospirillum magnetotacticum MS-1) 272627 (Magnetospirillum magnetotacticum MS-1) 143 143 YTLAEFLAHAIALETEAAERYVELADEAHNNLDTATVFRDARFSTLHGDEIKQRSRALELPKLSWQYRWKTPPEVGDEHYLTPYHALRYARDNEIRGEYYKEAAANSADPEVKRLGADFAAEEAEHVVALDKWIEKTPRPSIT YTLAEFLAHAIALETEAAERYVELADEAHNNLDTATVFRDARFSTLHGDEIKQRSRALELPKLSWQYRWKTPPEVGDEHYLTPYHALRYARDNEIRGEYYKEAAANSADPEVKRLGADFAAEEAEHVVALDKWIEKTPRPSIT 2ohc-a1-m1-cB_2ohc-a1-m1-cA structural and mutational analysis of tRNA-intron splicing endonuclease from Thermoplasma acidophilum DSM1728 Q9HIY5 Q9HIY5 2.5 X-RAY DIFFRACTION 86 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 288 289 2ohe-a2-m1-cA_2ohe-a2-m2-cA EQGICGSHVFFIEDGKSKNYIIGKYKIGYLSGDNLILDPYECLYLYFKGRISFQNSDSFRDLFDTVTFDRYVAYEILKNKGYRVKEDSGLIYFRKGTEKPLSLRVMREYDRIQFSDLVENPVDYYFTVDEEGDPTVYSSQEIFPGGRNLVSPVSAPVVRMGGRSFGAGDLEWWIGTAFHGFRLLTENEANYISGNHSASQVDMVYSDLVGRGCIVKTGFKYGANFRVYLGRDSQHAEYLVSVMPEEERWYSISRGVRVASSVRKTMIYASIYKNEVRYVALKRVKDII MEQGICGSHVFFIEDGKSKNYIIGKYKIGYLSGDNLILDPYECLYLYFKGRISFQNSDSFRDLFDTVTFDRYVAYEILKNKGYRVKEDSGLIYFRKGTEKPLSLRVMREYDRIQFSDLVENPVDYYFTVDEEGDPTVYSSQEIFPGGRNLVSPVSAPVVRMGGRSFGAGDLEWWIGTAFHGFRLLTENEANYISGNHSASQVDMVYSDLVGRGCIVKTGFKYGANFRVYLGRDSQHAEYLVSVMPEEERWYSISRGVRVASSVRKTMIYASIYKNEVRYVALKRVKDII 2ohd-a1-m1-cB_2ohd-a1-m1-cF Crystal structure of hypothetical molybdenum cofactor biosynthesis protein C from Sulfolobus tokodaii Q975D5 Q975D5 2.2 X-RAY DIFFRACTION 132 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 139 144 2ohd-a1-m1-cD_2ohd-a1-m1-cA 2ohd-a1-m1-cE_2ohd-a1-m1-cC AKIVDISSKDIVLREAVVEGYIKLRKETIEKIKNKEVEKGDVITVAKTAGILAAKKTPELIPMCHPIPLEFVDVEIKIEEEGLRVISTVKAHYKTGVEMEALTATSVALLTIWDMVKKYEKDENGQYPYTEIKSIRVIN AKIVDISSKDIVLREAVVEGYIKLRKETIEKIKNKEVEKGDVITVAKTAGILAAKKTPELIPMCHPIPLEFVDVEIKIEEEGLRVISTVKAHYKTGVEMEALTATSVALLTIWDMVKKYEKDENGQYPYTEIKSIRVINKIKTY 2ohd-a1-m1-cC_2ohd-a1-m1-cF Crystal structure of hypothetical molybdenum cofactor biosynthesis protein C from Sulfolobus tokodaii Q975D5 Q975D5 2.2 X-RAY DIFFRACTION 16 0.993 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 141 144 2ohd-a1-m1-cB_2ohd-a1-m1-cD 2ohd-a1-m1-cE_2ohd-a1-m1-cA EAKIVDISSKDIVLREAVVEGYIKLRKETIEKIKNKEVEKGDVITVAKTAGILAAKKTPELIPMCHPIPLEFVDVEIKIEEEGLRVISTVKAHYKTGVEMEALTATSVALLTIWDMVKKYEKDENGQYPYTEIKSIRVINK AKIVDISSKDIVLREAVVEGYIKLRKETIEKIKNKEVEKGDVITVAKTAGILAAKKTPELIPMCHPIPLEFVDVEIKIEEEGLRVISTVKAHYKTGVEMEALTATSVALLTIWDMVKKYEKDENGQYPYTEIKSIRVINKIKTY 2ohd-a1-m1-cD_2ohd-a1-m1-cE Crystal structure of hypothetical molybdenum cofactor biosynthesis protein C from Sulfolobus tokodaii Q975D5 Q975D5 2.2 X-RAY DIFFRACTION 44 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 140 140 2ohd-a1-m1-cB_2ohd-a1-m1-cA 2ohd-a1-m1-cB_2ohd-a1-m1-cC 2ohd-a1-m1-cC_2ohd-a1-m1-cA 2ohd-a1-m1-cD_2ohd-a1-m1-cF 2ohd-a1-m1-cE_2ohd-a1-m1-cF AKIVDISSKDIVLREAVVEGYIKLRKETIEKIKNKEVEKGDVITVAKTAGILAAKKTPELIPMCHPIPLEFVDVEIKIEEEGLRVISTVKAHYKTGVEMEALTATSVALLTIWDMVKKYEKDENGQYPYTEIKSIRVINK AKIVDISSKDIVLREAVVEGYIKLRKETIEKIKNKEVEKGDVITVAKTAGILAAKKTPELIPMCHPIPLEFVDVEIKIEEEGLRVISTVKAHYKTGVEMEALTATSVALLTIWDMVKKYEKDENGQYPYTEIKSIRVINK 2ohi-a6-m1-cD_2ohi-a6-m1-cE Crystal Structure of coenzyme F420H2 oxidase (FprA), a diiron flavoprotein, reduced state Q50497 Q50497 2.3 X-RAY DIFFRACTION 82 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 403 403 2ohh-a1-m1-cA_2ohh-a1-m1-cB 2ohh-a2-m1-cD_2ohh-a2-m1-cE 2ohh-a3-m1-cA_2ohh-a3-m1-cB 2ohh-a3-m1-cD_2ohh-a3-m1-cE 2ohi-a1-m1-cA_2ohi-a1-m1-cB 2ohi-a2-m1-cD_2ohi-a2-m1-cE 2ohi-a3-m1-cG_2ohi-a3-m1-cH 2ohi-a4-m1-cI_2ohi-a4-m1-cJ 2ohi-a5-m1-cG_2ohi-a5-m1-cH 2ohi-a5-m1-cI_2ohi-a5-m1-cJ 2ohi-a6-m1-cA_2ohi-a6-m1-cB 2ohj-a1-m1-cA_2ohj-a1-m1-cB 2ohj-a2-m1-cD_2ohj-a2-m1-cE 2ohj-a3-m1-cA_2ohj-a3-m1-cB 2ohj-a3-m1-cD_2ohj-a3-m1-cE 2ohj-a3-m2-cA_2ohj-a3-m2-cB 2ohj-a3-m2-cD_2ohj-a3-m2-cE 2ohj-a4-m1-cA_2ohj-a4-m1-cB 2ohj-a4-m1-cD_2ohj-a4-m1-cE MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR 2ohj-a3-m1-cA_2ohj-a3-m2-cA Crystal Structure of coenzyme F420H2 oxidase (FprA), a diiron flavoprotein, inactive oxidized state Q50497 Q50497 2.26 X-RAY DIFFRACTION 22 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 403 403 MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR 2ohj-a5-m1-cB_2ohj-a5-m2-cA Crystal Structure of coenzyme F420H2 oxidase (FprA), a diiron flavoprotein, inactive oxidized state Q50497 Q50497 2.26 X-RAY DIFFRACTION 12 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 403 403 2ohj-a3-m1-cA_2ohj-a3-m2-cB 2ohj-a3-m1-cB_2ohj-a3-m2-cA MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR 2ohj-a5-m2-cA_2ohj-a5-m2-cD Crystal Structure of coenzyme F420H2 oxidase (FprA), a diiron flavoprotein, inactive oxidized state Q50497 Q50497 2.26 X-RAY DIFFRACTION 71 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 403 403 2ohh-a3-m1-cA_2ohh-a3-m1-cD 2ohh-a3-m1-cB_2ohh-a3-m1-cE 2ohi-a5-m1-cG_2ohi-a5-m1-cI 2ohi-a5-m1-cH_2ohi-a5-m1-cJ 2ohi-a6-m1-cA_2ohi-a6-m1-cD 2ohi-a6-m1-cB_2ohi-a6-m1-cE 2ohj-a3-m1-cA_2ohj-a3-m1-cD 2ohj-a3-m1-cB_2ohj-a3-m1-cE 2ohj-a3-m2-cA_2ohj-a3-m2-cD 2ohj-a3-m2-cB_2ohj-a3-m2-cE 2ohj-a4-m1-cA_2ohj-a4-m1-cD 2ohj-a4-m1-cB_2ohj-a4-m1-cE 2ohj-a5-m1-cB_2ohj-a5-m1-cE MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR MKAAAKRISDGVYWTGVLDWDLRNYHGYTLQGTTYNAYLVCGDEGVALIDNSYPGTFDELMARVEDALQQVGMERVDYIIQNHVEKDHSGVLVELHRRFPEAPIYCTEVAVKGLLKHYPSLREAEFMTVKTGDVLDLGGKTLTFLETPLLHWPDSMFTLLDEDGILFSNDAFGQHLCCPQRLDREIPEYILMDAARKFYANLITPLSKLVLKKFDEVKELGLLERIQMIAPSHGQIWTDPMKIIEAYTGWATGMVDERVTVIYDTMHGSTRKMAHAIAEGAMSEGVDVRVYCLHEDDRSEIVKDILESGAIALGAPTIYDEPYPSVGDLLMYLRGLKFNRTLTRKALVFGSMGGNGGATGTMKELLAEAGFDVACEEEVYYVPTGDELDACFEAGRKLAAEIR 2ohv-a1-m1-cA_2ohv-a1-m2-cA Structural Basis for Glutamate Racemase Inhibition Q9A1B7 Q9A1B7 2.5 X-RAY DIFFRACTION 43 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 258 258 2ohg-a1-m1-cA_2ohg-a1-m2-cA 2oho-a1-m1-cB_2oho-a1-m1-cA MDTRPIGFLDSGVGGLTVVCELIRQLPHEKIVYIGDSARAPKKQIKEYTWELVNFLLTQNVKMIVFACNTATAVAWEEVKAALDIPVLGVVLPGASAAIKSTTKGQVGVIGTPMTVASDIYRKKIQLLAPSIQVRSLACPKFVPIVESNEMCSSIAKKIVYDSLAPLVGKIDTLVLGCTHYPLLRPIIQNVMGPSVKLIDSGAECVRDISVLLNYFDINGNYHQAVEHRFFTTANPEIFQEIASIWLKQKINVEHVTL MDTRPIGFLDSGVGGLTVVCELIRQLPHEKIVYIGDSARAPKKQIKEYTWELVNFLLTQNVKMIVFACNTATAVAWEEVKAALDIPVLGVVLPGASAAIKSTTKGQVGVIGTPMTVASDIYRKKIQLLAPSIQVRSLACPKFVPIVESNEMCSSIAKKIVYDSLAPLVGKIDTLVLGCTHYPLLRPIIQNVMGPSVKLIDSGAECVRDISVLLNYFDINGNYHQAVEHRFFTTANPEIFQEIASIWLKQKINVEHVTL 2oi2-a1-m1-cA_2oi2-a1-m2-cA Streptococcus pneumoniae Mevalonate Kinase in Complex with Diphosphomevalonate A0A0H2UNK6 A0A0H2UNK6 2.5 X-RAY DIFFRACTION 69 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 285 285 KVGVGQAHSKIILIGEHAVVYGYPAISLPLLEVEVTCKVVPAESPWRLYEEDTLSMAVYASLEYLNITEACIRCEIDEKRGMGSSAAISIAAIRAVFDYYQADLPHDVLEILVNRAEMIAHMNPSGLDAKTCLSDQPIRFIKNVGFTELEMDLSAYLVIADTGVYGHTREAIQVVQNKGKDALPFLHALGELTQQAEIAISQKDAEGLGQILSQAHLHLKEIGVSSLEADSLVETALSHGALGAKMSGGGLGGCIIALVTNLTHAQELAERLEEKGAVQTWIESL KVGVGQAHSKIILIGEHAVVYGYPAISLPLLEVEVTCKVVPAESPWRLYEEDTLSMAVYASLEYLNITEACIRCEIDEKRGMGSSAAISIAAIRAVFDYYQADLPHDVLEILVNRAEMIAHMNPSGLDAKTCLSDQPIRFIKNVGFTELEMDLSAYLVIADTGVYGHTREAIQVVQNKGKDALPFLHALGELTQQAEIAISQKDAEGLGQILSQAHLHLKEIGVSSLEADSLVETALSHGALGAKMSGGGLGGCIIALVTNLTHAQELAERLEEKGAVQTWIESL 2oi6-a1-m2-cA_2oi6-a1-m3-cA E. coli GlmU- Complex with UDP-GlcNAc, CoA and GlcN-1-PO4 P0ACC7 P0ACC7 2.2 X-RAY DIFFRACTION 155 1.0 562 (Escherichia coli) 562 (Escherichia coli) 450 450 1fwy-a1-m1-cA_1fwy-a1-m2-cA 1fwy-a1-m1-cA_1fwy-a1-m3-cA 1fwy-a1-m2-cA_1fwy-a1-m3-cA 1fwy-a2-m1-cB_1fwy-a2-m2-cB 1fwy-a2-m1-cB_1fwy-a2-m3-cB 1fwy-a2-m2-cB_1fwy-a2-m3-cB 1fxj-a1-m1-cA_1fxj-a1-m2-cA 1fxj-a1-m1-cA_1fxj-a1-m3-cA 1fxj-a1-m2-cA_1fxj-a1-m3-cA 1fxj-a2-m1-cB_1fxj-a2-m2-cB 1fxj-a2-m1-cB_1fxj-a2-m3-cB 1fxj-a2-m2-cB_1fxj-a2-m3-cB 1hv9-a1-m1-cA_1hv9-a1-m2-cA 1hv9-a1-m1-cA_1hv9-a1-m3-cA 1hv9-a1-m2-cA_1hv9-a1-m3-cA 2oi5-a1-m1-cA_2oi5-a1-m2-cA 2oi5-a1-m1-cA_2oi5-a1-m3-cA 2oi5-a1-m2-cA_2oi5-a1-m3-cA 2oi6-a1-m1-cA_2oi6-a1-m2-cA 2oi6-a1-m1-cA_2oi6-a1-m3-cA 2oi7-a1-m1-cA_2oi7-a1-m2-cA 2oi7-a1-m1-cA_2oi7-a1-m3-cA 2oi7-a1-m2-cA_2oi7-a1-m3-cA 2oi7-a3-m1-cA_2oi7-a3-m2-cA 2oi7-a3-m1-cA_2oi7-a3-m3-cA 2oi7-a3-m2-cA_2oi7-a3-m3-cA 8cu9-a1-m1-cA_8cu9-a1-m2-cA 8cu9-a1-m1-cA_8cu9-a1-m3-cA 8cu9-a1-m2-cA_8cu9-a1-m3-cA NAMSVVILAAGKGTRMYSDLPKVLHTLAGKAMVQHVIDAANELGAAHVHLVYGHGGDLLKQALKDDNLNWVLQAEQLGTGHAMQQAAPFFADDEDILMLYGDVPLISVETLQRLRDAKPQGGIGLLTVKLDDPTGYGRITRENGKVTGIVEHKDATDEQRQIQEINTGILIANGADMKRWLAKLTNNNAQGEYYITDIIALAYQEGREIVAVHPQRLSEVEGVNNRLQLSRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRPV NAMSVVILAAGKGTRMYSDLPKVLHTLAGKAMVQHVIDAANELGAAHVHLVYGHGGDLLKQALKDDNLNWVLQAEQLGTGHAMQQAAPFFADDEDILMLYGDVPLISVETLQRLRDAKPQGGIGLLTVKLDDPTGYGRITRENGKVTGIVEHKDATDEQRQIQEINTGILIANGADMKRWLAKLTNNNAQGEYYITDIIALAYQEGREIVAVHPQRLSEVEGVNNRLQLSRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRPV 2oi8-a1-m1-cA_2oi8-a1-m2-cA Crystal structure of putative regulatory protein SCO4313 Q9KXS8 Q9KXS8 2.5 X-RAY DIFFRACTION 144 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 199 199 TPRERYRTQVRAEIKDHAWEQIATAGASALSLNAIAKRGSGPALYRYFDGRDELITELIRDAYRSQADSLRAAAASGADLAGLAHALRAWALDDPQRYFLIFGTPVPGYRAPDDITEIAAETAVIVDACAAGTDGAFDAHLDTHRQWADRPAPSSALHRALSFWSRLHGVLSLELAGQFTGGFDSALLFEAELKDLLGP TPRERYRTQVRAEIKDHAWEQIATAGASALSLNAIAKRGSGPALYRYFDGRDELITELIRDAYRSQADSLRAAAASGADLAGLAHALRAWALDDPQRYFLIFGTPVPGYRAPDDITEIAAETAVIVDACAAGTDGAFDAHLDTHRQWADRPAPSSALHRALSFWSRLHGVLSLELAGQFTGGFDSALLFEAELKDLLGP 2oif-a4-m1-cC_2oif-a4-m1-cE The crystal structure of ferric cyanide bound barley hexacoordinate hemoglobin. Q42831 Q42831 1.8 X-RAY DIFFRACTION 26 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 152 153 2oif-a1-m1-cF_2oif-a1-m1-cA 2oif-a2-m1-cB_2oif-a2-m1-cD 2oif-a3-m1-cH_2oif-a3-m1-cG VFSEEKEALVLKSWAIMKKDSANLGLRFFLKIFEIAPSARQMFPFLRDSDVPLETNPKLKTHAVSVFVMTCEAAAQLRKAGKITVRETTLKRLGGTHLKYGVADGHFEVTRFALLETIKEALPADMWGPEMRNAWGEAYDQLVAAIKQEMKP VVFSEEKEALVLKSWAIMKKDSANLGLRFFLKIFEIAPSARQMFPFLRDSDVPLETNPKLKTHAVSVFVMTCEAAAQLRKAGKITVRETTLKRLGGTHLKYGVADGHFEVTRFALLETIKEALPADMWGPEMRNAWGEAYDQLVAAIKQEMKP 2oig-a1-m1-cC_2oig-a1-m1-cD Crystal structure of RS21-C6 core segment and dm5CTP complex Q9QY93 Q9QY93 3.3 X-RAY DIFFRACTION 174 1.0 10090 (Mus musculus) 10090 (Mus musculus) 90 104 PFRFSPEPTLEDIRRLHAQFHQPRNLLLALVGEVGELAELFQWKSDTGPQAWPPKERAALQEELSDVLIYLVALAARCHVDLPQAVISKM RPFRFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKSDTEPGPQAWPPKERAALQEELSDVLIYLVALAARCHVDLPQAVISKMDT 2oii-a1-m1-cB_2oii-a1-m1-cC Structure of EMILIN-1 C1q-like domain Q9Y6C2 Q9Y6C2 NOT SOLUTION NMR 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 2ka3-a1-m1-cA_2ka3-a1-m1-cB 2ka3-a1-m1-cA_2ka3-a1-m1-cC 2ka3-a1-m1-cB_2ka3-a1-m1-cC 2oii-a1-m1-cA_2oii-a1-m1-cB 2oii-a1-m1-cA_2oii-a1-m1-cC PVPQVAFSAALSLPRSEPGTVPFDRVLLNDGGYYDPETGVFTAPLAGRYLLSAVLTGHRHEKVEAVLSRSNQGVARVDSGGTLGVFSLILPLQAGDTVCVDLVMGQLAHSEEPLTIFSGALLYGDPELEHA PVPQVAFSAALSLPRSEPGTVPFDRVLLNDGGYYDPETGVFTAPLAGRYLLSAVLTGHRHEKVEAVLSRSNQGVARVDSGGTLGVFSLILPLQAGDTVCVDLVMGQLAHSEEPLTIFSGALLYGDPELEHA 2oik-a2-m1-cD_2oik-a2-m1-cC Crystal structure of a histidine triad (hit) protein (mfla_2506) from methylobacillus flagellatus kt at 1.65 A resolution Q1GYB6 Q1GYB6 1.65 X-RAY DIFFRACTION 79 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 135 136 2oik-a1-m1-cA_2oik-a1-m1-cB SFHKNCELCTTAGGEILWQDALCRVVHVENQDYPGFCRVILNRHVKESDLRPAERDHLLVVFAVEEAVREVRPDKINLASLGNTPHVHWHVIPRFKRDRHFPNSVWGETKRESLPQALDQGSTTALKKAISVRLD SFHKNCELCTTAGGEILWQDALCRVVHVENQDYPGFCRVILNRHVKESDLRPAERDHLLVVFAVEEAVREVRPDKINLASLGNTPHVHWHVIPRFKRDRHFPNSVWGETKRESLPQALDQGSTTALKKAISVRLDQ 2oin-a3-m1-cC_2oin-a3-m1-cD crystal structure of HCV NS3-4A R155K muntant P27958 P27958 2.5 X-RAY DIFFRACTION 24 1.0 63746 (Hepatitis C virus (isolate H77)) 63746 (Hepatitis C virus (isolate H77)) 16 21 1a1r-a3-m1-cC_1a1r-a3-m1-cD 3kf2-a1-m1-cC_3kf2-a1-m1-cD GSVVIVGRIVLSGKPA KGSVVIVGRIVLSGKPAIIPA 2oiw-a1-m1-cD_2oiw-a1-m1-cA The structure of a predicted thioesterase from Bacillus stearothermophilus Q5KYT1 Q5KYT1 2 X-RAY DIFFRACTION 33 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 126 129 2oiw-a1-m1-cB_2oiw-a1-m1-cC AFTTVITPRVSETDGVGHINNTTVPVWFEAGRHEIFKLFTPDLSFKRWRVIIREVDYVNQYYGQDVTVYTGIERIGNTSLTIYEEIHQNGVVCAKGRSVYVNFNFDTGRPEPIPDDIRVKLREHVW NAFTTVITPRVSETDGVGHINNTTVPVWFEAGRHEIFKLFTPDLSFKRWRVIIREVDYVNQYYGQDVTVYTGIERIGNTSLTIYEEIHQNGVVCAKGRSVYVNFNFDTGRPEPIPDDIRVKLREHVWQP 2oiw-a1-m1-cD_2oiw-a1-m1-cB The structure of a predicted thioesterase from Bacillus stearothermophilus Q5KYT1 Q5KYT1 2 X-RAY DIFFRACTION 34 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 126 129 2oiw-a1-m1-cA_2oiw-a1-m1-cC AFTTVITPRVSETDGVGHINNTTVPVWFEAGRHEIFKLFTPDLSFKRWRVIIREVDYVNQYYGQDVTVYTGIERIGNTSLTIYEEIHQNGVVCAKGRSVYVNFNFDTGRPEPIPDDIRVKLREHVW NAFTTVITPRVSETDGVGHINNTTVPVWFEAGRHEIFKLFTPDLSFKRWRVIIREVDYVNQYYGQDVTVYTGIERIGNTSLTIYEEIHQNGVVCAKGRSVYVNFNFDTGRPEPIPDDIRVKLREHVWQP 2oiw-a1-m1-cD_2oiw-a1-m1-cC The structure of a predicted thioesterase from Bacillus stearothermophilus Q5KYT1 Q5KYT1 2 X-RAY DIFFRACTION 49 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 126 129 2oiw-a1-m1-cA_2oiw-a1-m1-cB AFTTVITPRVSETDGVGHINNTTVPVWFEAGRHEIFKLFTPDLSFKRWRVIIREVDYVNQYYGQDVTVYTGIERIGNTSLTIYEEIHQNGVVCAKGRSVYVNFNFDTGRPEPIPDDIRVKLREHVW AFTTVITPRVSETDGVGHINNTTVPVWFEAGRHEIFKLFTPDLSFKRWRVIIREVDYVNQYYGQDVTVYTGIERIGNTSLTIYEEIHQNGVVCAKGRSVYVNFNFDTGRPEPIPDDIRVKLREHVWQPG 2ojl-a1-m2-cB_2ojl-a1-m1-cA Crystal structure of Q7WAF1_BORPA from Bordetella parapertussis. Northeast Structural Genomics target BpR68. Q7WAF1 Q7WAF1 2.1 X-RAY DIFFRACTION 22 1.0 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 76 78 2ojl-a1-m1-cB_2ojl-a1-m2-cA PRIAIQYCTQCQWLLRAAWAQELLSTFGADLGEVALVPGTGGVFRIHYNGAPLWDREVDGGFPEAKVLKQRVRDHL HPPRIAIQYCTQCQWLLRAAWAQELLSTFGADLGEVALVPGTGGVFRIHYNGAPLWDREVDGGFPEAKVLKQRVRDHL 2ojl-a1-m2-cB_2ojl-a1-m2-cA Crystal structure of Q7WAF1_BORPA from Bordetella parapertussis. Northeast Structural Genomics target BpR68. Q7WAF1 Q7WAF1 2.1 X-RAY DIFFRACTION 58 1.0 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 76 78 2ojl-a1-m1-cB_2ojl-a1-m1-cA PRIAIQYCTQCQWLLRAAWAQELLSTFGADLGEVALVPGTGGVFRIHYNGAPLWDREVDGGFPEAKVLKQRVRDHL HPPRIAIQYCTQCQWLLRAAWAQELLSTFGADLGEVALVPGTGGVFRIHYNGAPLWDREVDGGFPEAKVLKQRVRDHL 2ok8-a2-m1-cC_2ok8-a2-m1-cD Ferredoxin-NADP+ reductase from Plasmodium falciparum C6KT68 C6KT68 2.4 X-RAY DIFFRACTION 30 0.988 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 257 261 2ok8-a1-m1-cB_2ok8-a1-m1-cA NFINLYTVKNPLKCKIVDKINLVRPNSPNEVYHLEINHNGLFKYLEGHTCGIIPYYNRCARLYSISSSNNMENLSVAIKIHKYETNYGYCSGFIKNLKINDDIYLTGAHGYFNLPNDAIQKNTNFIFIATGTGISPYISFLKKLFAYNSNYTGYITIYYGVYNEDSILYLNELEYFQKMYPNNINIHYVFSYKQNSDATSFYVQDEIYKRKTEFLNLFNNYKCELYICGHKSIRYKVMDILKSFDEKKKKRVHVEVY NFINLYTVKNPLKCKIVDKINLVRPNSPNEVYHLEINHNGLFKYLEGHTCGIIPYYNERCARLYSISSSNNMENLSVAIKIHKYNYGYCSGFIKNLKINDDIYLTGAHGYFNLPNDAIQKNTNFIFIATGTGISPYISFLKKLFAYDLYNRNSNYTGYITIYYGVYNEDSILYLNELEYFQKMYPNNINIHYVFSYKQNSDATSFYVQDEIYKRKTEFLNLFNNYKCELYICGHKSIRYKVMDILKQFDEKKKKRVHVEVY 2oka-a1-m1-cA_2oka-a1-m1-cD Crystal structure of Q9HYQ7_PSEAE from Pseudomonas aeruginosa. Northeast Structural Genomics Consortium target PaR82 Q9HYQ7 Q9HYQ7 2.5 X-RAY DIFFRACTION 26 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 84 84 2oka-a1-m1-cB_2oka-a1-m1-cC AKPEIVITYCTQCQWLLRAAWLAQELLSTFADDLGKVCLEPGTGGVFRITCDGVQVWERKADGGFPEAKALKQRVRDRIDPQRD AKPEIVITYCTQCQWLLRAAWLAQELLSTFADDLGKVCLEPGTGGVFRITCDGVQVWERKADGGFPEAKALKQRVRDRIDPQRD 2oka-a1-m1-cC_2oka-a1-m1-cD Crystal structure of Q9HYQ7_PSEAE from Pseudomonas aeruginosa. Northeast Structural Genomics Consortium target PaR82 Q9HYQ7 Q9HYQ7 2.5 X-RAY DIFFRACTION 58 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 84 84 2oka-a1-m1-cA_2oka-a1-m1-cB AKPEIVITYCTQCQWLLRAAWLAQELLSTFADDLGKVCLEPGTGGVFRITCDGVQVWERKADGGFPEAKALKQRVRDRIDPQRD AKPEIVITYCTQCQWLLRAAWLAQELLSTFADDLGKVCLEPGTGGVFRITCDGVQVWERKADGGFPEAKALKQRVRDRIDPQRD 2okb-a2-m2-cA_2okb-a2-m3-cA High Resolution Crystal Structures of Vaccinia Virus dUTPase P17374 P17374 2.15 X-RAY DIFFRACTION 10 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 113 113 2okb-a2-m1-cA_2okb-a2-m2-cA 2okb-a2-m1-cA_2okb-a2-m3-cA MFVKETNRAKSPTRQSPGAAGYDLYSAYDYTIPPGERQLIKTDISMSMPKFCYGRIAPRSGLSLKGIDIGGGVIDEDYRGNIGVILINNGKCTFNVNTGDRIAQLIYQRIYYP MFVKETNRAKSPTRQSPGAAGYDLYSAYDYTIPPGERQLIKTDISMSMPKFCYGRIAPRSGLSLKGIDIGGGVIDEDYRGNIGVILINNGKCTFNVNTGDRIAQLIYQRIYYP 2okb-a2-m2-cA_2okb-a2-m3-cC High Resolution Crystal Structures of Vaccinia Virus dUTPase P17374 P17374 2.15 X-RAY DIFFRACTION 16 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 113 113 2okb-a2-m1-cA_2okb-a2-m2-cC 2okb-a2-m1-cC_2okb-a2-m3-cA MFVKETNRAKSPTRQSPGAAGYDLYSAYDYTIPPGERQLIKTDISMSMPKFCYGRIAPRSGLSLKGIDIGGGVIDEDYRGNIGVILINNGKCTFNVNTGDRIAQLIYQRIYYP MFVKETNRAKSPTRQSPGAAGYDLYSAYDYTIPPGERQLIKTDISMSMPKFCYGRIAPRSGLSLKGIDIGGGVIDEDYRGNIGVILINNGKCTFNVNTGDRIAQLIYQRIYYP 2okb-a2-m3-cB_2okb-a2-m3-cC High Resolution Crystal Structures of Vaccinia Virus dUTPase P17374 P17374 2.15 X-RAY DIFFRACTION 58 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 113 113 2okb-a1-m1-cA_2okb-a1-m1-cB 2okb-a1-m1-cA_2okb-a1-m1-cC 2okb-a1-m1-cB_2okb-a1-m1-cC 2okb-a2-m1-cA_2okb-a2-m1-cB 2okb-a2-m1-cA_2okb-a2-m1-cC 2okb-a2-m1-cB_2okb-a2-m1-cC 2okb-a2-m2-cA_2okb-a2-m2-cB 2okb-a2-m2-cA_2okb-a2-m2-cC 2okb-a2-m2-cB_2okb-a2-m2-cC 2okb-a2-m3-cA_2okb-a2-m3-cB 2okb-a2-m3-cA_2okb-a2-m3-cC 2okd-a1-m1-cA_2okd-a1-m1-cC 2okd-a1-m1-cB_2okd-a1-m1-cA 2okd-a1-m1-cB_2okd-a1-m1-cC 2oke-a1-m1-cA_2oke-a1-m1-cB 2oke-a1-m1-cA_2oke-a1-m1-cC 2oke-a1-m1-cB_2oke-a1-m1-cC 2ol0-a1-m1-cA_2ol0-a1-m1-cB 2ol0-a1-m1-cA_2ol0-a1-m1-cC 2ol0-a1-m1-cB_2ol0-a1-m1-cC 2ol1-a1-m1-cA_2ol1-a1-m1-cB 2ol1-a1-m1-cA_2ol1-a1-m1-cC 2ol1-a1-m1-cB_2ol1-a1-m1-cC MFVKETNRAKSPTRQSPGAAGYDLYSAYDYTIPPGERQLIKTDISMSMPKFCYGRIAPRSGLSLKGIDIGGGVIDEDYRGNIGVILINNGKCTFNVNTGDRIAQLIYQRIYYP MFVKETNRAKSPTRQSPGAAGYDLYSAYDYTIPPGERQLIKTDISMSMPKFCYGRIAPRSGLSLKGIDIGGGVIDEDYRGNIGVILINNGKCTFNVNTGDRIAQLIYQRIYYP 2okf-a1-m1-cA_2okf-a1-m1-cB CRYSTAL STRUCTURE OF A FDXN ELEMENT EXCISION CONTROLLING FACTOR PROTEIN (AVA_3312) FROM ANABAENA VARIABILIS AT 1.60 A RESOLUTION Q3M7W6 Q3M7W6 1.6 X-RAY DIFFRACTION 70 1.0 128 128 RDVFHEVVKTALKKDGWQITDDPLTISVGGVNLKLIAAERQGQKIAVEVKSFLKQSSAISEFHTALGQFINYRGALRKVEPDRVLYLAVPLTTYKTFFQLDFPKEIIIENQVKLVYDVEQEVIFQWIN RDVFHEVVKTALKKDGWQITDDPLTISVGGVNLKLIAAERQGQKIAVEVKSFLKQSSAISEFHTALGQFINYRGALRKVEPDRVLYLAVPLTTYKTFFQLDFPKEIIIENQVKLVYDVEQEVIFQWIN 2okg-a1-m1-cA_2okg-a1-m1-cB Structure of effector binding domain of central glycolytic gene regulator (CggR) from B. subtilis O32253 O32253 1.65 X-RAY DIFFRACTION 53 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 241 243 NAKDVLGLTLLEKTLKERLNLKDAIIVSGDSDQSPWVKKEGRAAVACKKRFSGKNIVAVTGGTTIEAVAETPDSKNRELLFVPARGGLGKNQANTICAHAEKASGTYRLLFVPGQLSQGAYSSIIEEPSVKEVLNTIKSASLVHGIGEAKTAQRRNTPLEDLKKIDDNDAVTEAFGYYFNADGEVVHKVHSVGQLDDIDAIPDIIAVAGGSSKAEAIEAYFKKPRNTVLVTDEGAAKKLLR AKDVLGLTLLEKTLKERLNLKDAIIVSGDSDQSPWVKKEGRAAVACKKRFSGKNIVAVTGGTTIEAVAETPDSKNRELLFVPARGGLGEDVKNQANTICAHAEKASGTYRLLFVPGQLSQGAYSSIIEEPSVKEVLNTIKSASLVHGIGEAKTAQRRNTPLEDLKKIDDNDAVTEAFGYYFNADGEVVHKVHSVGQLDDIDAIPDIIAVAGGSSKAEAIEAYFKKPRNTVLVTDEGAAKKLLR 2okh-a1-m1-cA_2okh-a1-m1-cB Crystal structure of dimeric form of PfFabZ in crystal form3 Q965D7 Q965D7 3 X-RAY DIFFRACTION 69 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 120 124 KILPHRYPFLLVDKVIYMQPNKTIIGLKQVSTNEPFFQIMPGVLQIEALAQLAGILCLLFLFAGVDGVRWKKPVLPGDTLTMQANLISFKSSLGIAKLSGVGYVNGKVVINISEMTFALS KILPHRYPFLLVDKVIYMQPNKTIIGLKQVSTNEPFFQIMPGVLQIEALAQLAGILCLKSDNLFLFAGVDGVRWKKPVLPGDTLTMQANLISFKSSLGIAKLSGVGYVNGKVVINISEMTFALS 2okk-a1-m1-cA_2okk-a1-m2-cA The X-ray crystal structure of the 65kDa isoform of Glutamic Acid Decarboxylase (GAD65) Q05329 Q05329 2.3 X-RAY DIFFRACTION 420 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 482 482 NYAFLHATDLLPACDGERPTLAFLQDVMNILLQYVVKSFDRSTKVIDFHYPNELLQEYNWELADQPQNLEEILMHCQTTLKYAIKTGHPRYFNQLSTGLDMVGLAADWLTSTANTNMFTYEIAPVFVLLEYVTLKKMREIIGWPGGSGDGIFSPGGAISNMYAMMIARFKMFPEVKEKGMAALPRLIAFTSEHSHFSLKKGAAALGIGTDSVILIKCDERGKMIPSDLERRILEAKQKGFVPFLVSATAGTTVYGAFDPLLAVADICKKYKIWMHVDAAWGGGLLMSRKHKWKLSGVERANSVTWNPHMMGVPLQCSALLVREEGLMQNCNQMHDLSYDTGDKALQCGRHVDVFKLWLMWRAKGTTGFEAHVDKCLELAEYLYNIIKNREGYEMVFDGKPQHTNVCFWYIPPSLRTLEERMSRLSKVAPVIKARMMEYGTTMVSYQPLGDKVNFFRMVISNPAATHQDIDFLIEEIERLGQD NYAFLHATDLLPACDGERPTLAFLQDVMNILLQYVVKSFDRSTKVIDFHYPNELLQEYNWELADQPQNLEEILMHCQTTLKYAIKTGHPRYFNQLSTGLDMVGLAADWLTSTANTNMFTYEIAPVFVLLEYVTLKKMREIIGWPGGSGDGIFSPGGAISNMYAMMIARFKMFPEVKEKGMAALPRLIAFTSEHSHFSLKKGAAALGIGTDSVILIKCDERGKMIPSDLERRILEAKQKGFVPFLVSATAGTTVYGAFDPLLAVADICKKYKIWMHVDAAWGGGLLMSRKHKWKLSGVERANSVTWNPHMMGVPLQCSALLVREEGLMQNCNQMHDLSYDTGDKALQCGRHVDVFKLWLMWRAKGTTGFEAHVDKCLELAEYLYNIIKNREGYEMVFDGKPQHTNVCFWYIPPSLRTLEERMSRLSKVAPVIKARMMEYGTTMVSYQPLGDKVNFFRMVISNPAATHQDIDFLIEEIERLGQD 2okq-a1-m1-cB_2okq-a1-m1-cA Crystal structure of unknown conserved ybaA protein from Shigella flexneri P0AAQ9 P0AAQ9 1.8 X-RAY DIFFRACTION 168 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 118 127 ENLYFQSNAMKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRPFDGKRMIYGGFESIIDE TENLYFQSNAMKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRMKEFGESMPFDGKRMIYGGFESIIDE 2okq-a2-m4-cB_2okq-a2-m1-cA Crystal structure of unknown conserved ybaA protein from Shigella flexneri P0AAQ9 P0AAQ9 1.8 X-RAY DIFFRACTION 36 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 118 127 2okq-a2-m3-cB_2okq-a2-m2-cA ENLYFQSNAMKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRPFDGKRMIYGGFESIIDE TENLYFQSNAMKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRMKEFGESMPFDGKRMIYGGFESIIDE 2okq-a2-m4-cB_2okq-a2-m2-cA Crystal structure of unknown conserved ybaA protein from Shigella flexneri P0AAQ9 P0AAQ9 1.8 X-RAY DIFFRACTION 43 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 118 127 2okq-a2-m3-cB_2okq-a2-m1-cA ENLYFQSNAMKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRPFDGKRMIYGGFESIIDE TENLYFQSNAMKYVDGFVVAVPADKKDAYREMAAKAAPLFKEFGALRIVECWASDVPDGKVTDFRMAVKAEENEEVVFSWIEYPSKEVRDAANQKMMSDPRMKEFGESMPFDGKRMIYGGFESIIDE 2oku-a1-m1-cB_2oku-a1-m1-cA The crystal structure of the acyl-CoA dehydrogenase family protein from Porphyromonas gingivalis Q7MW70 Q7MW70 1.9 X-RAY DIFFRACTION 58 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 112 118 VAAIRHITTGTYIARIREEYQQTEVKPELQPKEALARTDRAEALIAFVTEQKDQELLDFQARRLVETAHAVFGHLLLAANDDDSFRQSAEVYLRYGQAEQEKIDSYVRAFRP QVVAAIRHITTGTYIARIREEYQQTEVKPELQPKEALARTDRAEALIAFVTEQKDQELLDFQARRLVETAHAVFGHLLLAANDDDSFRQSAEVYLRYGQAEQEKIDSYVRAFRPEELT 2okv-a2-m1-cC_2okv-a2-m1-cD c-Myc DNA Unwinding Element Binding Protein Q8TEA8 Q8TEA8 2 X-RAY DIFFRACTION 103 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 149 2okv-a1-m1-cA_2okv-a1-m1-cB MKAVVQRVTRASVTVGGEQISAIGRGICVLLGISLEDTQKELEHMVRKILNLRVFEDESGKHWSKSVMDKQYEILCVSQFTLQCVLKGNKPDFHLAMPTEQAEGFYNSFLEQLRKTYRPELIKDGKFGAYMQVHIQNDGPVTIELESPA MKAVVQRVTRASVTVGGEQISAIGRGICVLLGISLEDTQKELEHMVRKILNLRVFEDESGKHWSKSVMDKQYEILCVSQFTLQCVLKGNKPDFHLAMPTEQAEGFYNSFLEQLRKTYRPELIKDGKFGAYMQVHIQNDGPVTIELESPA 2okx-a3-m1-cA_2okx-a3-m1-cB Crystal structure of GH78 family rhamnosidase of Bacillus SP. GL1 AT 1.9 A Q93RE7 Q93RE7 1.9 X-RAY DIFFRACTION 139 1.0 84635 (Bacillus sp. GL1) 84635 (Bacillus sp. GL1) 954 954 GRNWNASWIWGGQEESPRNEWRCFRGSFDAPASVEGPAMLHITADSRYVLFVNGEQVGRGPVRSWPKEQFYDSYDIGGQLRPGVRNTIAVLVLHFGVSNFYYLRGRGGLIAEIEADGRTLAATDAAWRTERLGGQRSNSPRMACQQGFGEVIDARELAEDWALPAFDDGGWAQARSIGPAGTAPWTSLVPRDIPFLTEEKLYPASIQSLSRVKAPKYAAALDLRNQMVPESVNHANPVSYCGYVATILTLETSGVVTLGFPTGVRGSGVWVDGVLQTEWTGVQPERYYSLNLAAGEHLVLVDITSSDHGGSSHFAIDSEAAFTLRSPAGDNGVPLATIGTFDQSEYIDHRPGRRMQTDHPDYRALPEAAPTAAALEAFASWVKPFEPSLYTEENVFGSNVWRTLAERRAVPRSVLNAILPVPEPGVLPVFEDGDCELVIDLGAERSGFIGFELEAPAGTIIDAYGVEYMREGYTQHTYGLDNTFRYICREGRQSYVSPVRRGFRYLFLTVRGNSAPVKLHEIYIRQSTYPVAEQGSFRCSDALLNATWEISRHTTRLCMEDTFVDCPSYEQVFWVGDSRNEALVNYYVFGETEIVERCLNLVPGSADETPLYLDQVPSAWSSVIPNWTFFWILACREYAAHTGNEAFAARIWPAVKHTLTHYLEHIDDSGLLNMAGWNLLDWAPIDQPNEGIVTHQNLFLVKALRDSRALAAAAGATEEADAFAARADLLAETINAVLWDEEKRAYIDCIHADGRRSDVYSMQTQVVAYLCGVAQGEREAVIEGYLSSPPPAFVQIGSPFMSFFYYEALEKAGRQTLMLDDIRRNYGQMLRYDATTCWEMYPNFAENRSNPDMLTRSHCHAWSAAPGYFLGSSILGVKRGADGWRTVDIAPQPCDLTWAEGVVPLPQGGHIAVSWEFVSAGKLKLRIEAPEDIEVNVTLPEGIEGEVTQVKYMS GRNWNASWIWGGQEESPRNEWRCFRGSFDAPASVEGPAMLHITADSRYVLFVNGEQVGRGPVRSWPKEQFYDSYDIGGQLRPGVRNTIAVLVLHFGVSNFYYLRGRGGLIAEIEADGRTLAATDAAWRTERLGGQRSNSPRMACQQGFGEVIDARELAEDWALPAFDDGGWAQARSIGPAGTAPWTSLVPRDIPFLTEEKLYPASIQSLSRVKAPKYAAALDLRNQMVPESVNHANPVSYCGYVATILTLETSGVVTLGFPTGVRGSGVWVDGVLQTEWTGVQPERYYSLNLAAGEHLVLVDITSSDHGGSSHFAIDSEAAFTLRSPAGDNGVPLATIGTFDQSEYIDHRPGRRMQTDHPDYRALPEAAPTAAALEAFASWVKPFEPSLYTEENVFGSNVWRTLAERRAVPRSVLNAILPVPEPGVLPVFEDGDCELVIDLGAERSGFIGFELEAPAGTIIDAYGVEYMREGYTQHTYGLDNTFRYICREGRQSYVSPVRRGFRYLFLTVRGNSAPVKLHEIYIRQSTYPVAEQGSFRCSDALLNATWEISRHTTRLCMEDTFVDCPSYEQVFWVGDSRNEALVNYYVFGETEIVERCLNLVPGSADETPLYLDQVPSAWSSVIPNWTFFWILACREYAAHTGNEAFAARIWPAVKHTLTHYLEHIDDSGLLNMAGWNLLDWAPIDQPNEGIVTHQNLFLVKALRDSRALAAAAGATEEADAFAARADLLAETINAVLWDEEKRAYIDCIHADGRRSDVYSMQTQVVAYLCGVAQGEREAVIEGYLSSPPPAFVQIGSPFMSFFYYEALEKAGRQTLMLDDIRRNYGQMLRYDATTCWEMYPNFAENRSNPDMLTRSHCHAWSAAPGYFLGSSILGVKRGADGWRTVDIAPQPCDLTWAEGVVPLPQGGHIAVSWEFVSAGKLKLRIEAPEDIEVNVTLPEGIEGEVTQVKYMS 2okz-a1-m1-cB_2okz-a1-m3-cB MVGGVV peptide derived from Alzheimer's A-beta 1.8 X-RAY DIFFRACTION 18 1.0 6 6 MVGGVV MVGGVV 2ol4-a1-m1-cA_2ol4-a1-m2-cB Crystal structure of plasmodium falciparum enoyl ACP reductase with triclosan reductase Q9BJJ9 Q9BJJ9 2.26 X-RAY DIFFRACTION 38 0.986 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 277 280 1uh5-a1-m1-cA_1uh5-a1-m2-cB 1uh5-a1-m1-cB_1uh5-a1-m2-cA 1v35-a1-m1-cA_1v35-a1-m2-cB 1v35-a1-m1-cB_1v35-a1-m2-cA 1vrw-a2-m1-cA_1vrw-a2-m2-cB 1vrw-a2-m1-cB_1vrw-a2-m2-cA 1vrw-a3-m1-cA_1vrw-a3-m2-cB 1zsn-a1-m1-cA_1zsn-a1-m2-cB 1zsn-a1-m1-cB_1zsn-a1-m2-cA 1zw1-a1-m1-cA_1zw1-a1-m2-cB 1zw1-a1-m1-cB_1zw1-a1-m2-cA 1zxb-a1-m1-cA_1zxb-a1-m2-cB 1zxb-a1-m1-cB_1zxb-a1-m2-cA 1zxl-a1-m1-cA_1zxl-a1-m2-cB 1zxl-a1-m1-cB_1zxl-a1-m2-cA 2foi-a2-m1-cC_2foi-a2-m2-cD 2foi-a2-m1-cD_2foi-a2-m2-cC 2o2y-a1-m1-cB_2o2y-a1-m1-cC 2o2y-a1-m1-cD_2o2y-a1-m1-cA 2ol4-a1-m2-cA_2ol4-a1-m1-cB 2oos-a1-m1-cB_2oos-a1-m2-cA 2oos-a1-m2-cB_2oos-a1-m1-cA 2op0-a1-m1-cA_2op0-a1-m2-cB 2op0-a1-m2-cA_2op0-a1-m1-cB 2op1-a1-m1-cA_2op1-a1-m2-cB 2op1-a1-m2-cA_2op1-a1-m1-cB 3am3-a1-m1-cA_3am3-a1-m2-cB 3am3-a1-m1-cB_3am3-a1-m2-cA 3am4-a1-m1-cA_3am4-a1-m2-cB 3am4-a1-m1-cB_3am4-a1-m2-cA 3am5-a1-m1-cA_3am5-a1-m2-cB 3am5-a1-m2-cA_3am5-a1-m1-cB 3lsy-a1-m1-cA_3lsy-a1-m2-cB 3lsy-a1-m1-cB_3lsy-a1-m2-cA 3lt0-a1-m1-cA_3lt0-a1-m2-cB 3lt0-a1-m1-cB_3lt0-a1-m2-cA 3lt1-a1-m1-cA_3lt1-a1-m2-cB 3lt1-a1-m2-cA_3lt1-a1-m1-cB 3lt2-a1-m1-cA_3lt2-a1-m2-cB 3lt2-a1-m1-cB_3lt2-a1-m2-cA 3lt4-a1-m1-cA_3lt4-a1-m2-cB 3lt4-a1-m2-cA_3lt4-a1-m1-cB EDICFIAGIGDTNGYGWGIAKELSKRNVKIIFGIWPPVYNIFMKNYKNGKFDNDMIIDKKMNILDMLPFDASFDTANDIDEETKNNKRYNMLQNYTIEDVANLIHQKYGKINMLVHSLANAKEVQKDLLNTSRKGYLDALSKSSYSLISLCKYFVNIMKPQSSIISLTYHASQKVVPGYGGGMSSAKAALESDTRVLAYHLGRNYNIRINTISAGPLKSTFIDYAIEYSEKYAPLRQKLLSTDIGSVASFLLSRESRAITGQTIYVDNGLNIMFLPD DICFIAGIGDTNGYGWGIAKELSKRNVKIIFGIWPPVYNIFMKNYKNGKFDNDMIKMNILDMLPFDASFDTANDIDEETKNNKRYNMLQNYTIEDVANLIHQKYGKINMLVHSLANAKEVQKDLLNTSRKGYLDALSKSSYSLISLCKYFVNIMKPQSSIISLTYHASQKVVPGYGGGMSSAKAALESDTRVLAYHLGRNYNIRINTISAGPLKSRAATAINTFIDYAIEYSEKYAPLRQKLLSTDIGSVASFLLSRESRAITGQTIYVDNGLNIMFLPD 2ol4-a1-m2-cA_2ol4-a1-m2-cB Crystal structure of plasmodium falciparum enoyl ACP reductase with triclosan reductase Q9BJJ9 Q9BJJ9 2.26 X-RAY DIFFRACTION 112 0.986 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 277 280 1nhg-a1-m1-cC_1nhg-a1-m1-cD 1nhg-a2-m1-cC_1nhg-a2-m1-cD 1nhg-a2-m2-cC_1nhg-a2-m2-cD 1nhw-a1-m1-cC_1nhw-a1-m1-cD 1nhw-a2-m1-cC_1nhw-a2-m1-cD 1nhw-a2-m2-cC_1nhw-a2-m2-cD 1nnu-a1-m1-cC_1nnu-a1-m1-cD 1nnu-a2-m1-cC_1nnu-a2-m1-cD 1nnu-a2-m2-cC_1nnu-a2-m2-cD 1uh5-a1-m1-cA_1uh5-a1-m1-cB 1uh5-a1-m2-cA_1uh5-a1-m2-cB 1v35-a1-m1-cA_1v35-a1-m1-cB 1v35-a1-m2-cA_1v35-a1-m2-cB 1vrw-a1-m1-cA_1vrw-a1-m1-cB 1vrw-a2-m1-cA_1vrw-a2-m1-cB 1vrw-a2-m2-cA_1vrw-a2-m2-cB 1zsn-a1-m1-cA_1zsn-a1-m1-cB 1zsn-a1-m2-cA_1zsn-a1-m2-cB 1zw1-a1-m1-cA_1zw1-a1-m1-cB 1zw1-a1-m2-cA_1zw1-a1-m2-cB 1zxb-a1-m1-cA_1zxb-a1-m1-cB 1zxb-a1-m2-cA_1zxb-a1-m2-cB 1zxl-a1-m1-cA_1zxl-a1-m1-cB 1zxl-a1-m2-cA_1zxl-a1-m2-cB 2foi-a1-m1-cC_2foi-a1-m1-cD 2foi-a2-m1-cC_2foi-a2-m1-cD 2foi-a2-m2-cC_2foi-a2-m2-cD 2nq8-a1-m1-cC_2nq8-a1-m1-cD 2nq8-a1-m2-cC_2nq8-a1-m2-cD 2o2y-a1-m1-cA_2o2y-a1-m1-cC 2o2y-a1-m1-cD_2o2y-a1-m1-cB 2ol4-a1-m1-cA_2ol4-a1-m1-cB 2oos-a1-m1-cB_2oos-a1-m1-cA 2oos-a1-m2-cB_2oos-a1-m2-cA 2op0-a1-m1-cA_2op0-a1-m1-cB 2op0-a1-m2-cA_2op0-a1-m2-cB 2op1-a1-m1-cA_2op1-a1-m1-cB 2op1-a1-m2-cA_2op1-a1-m2-cB 3am3-a1-m1-cA_3am3-a1-m1-cB 3am3-a1-m2-cA_3am3-a1-m2-cB 3am4-a1-m1-cA_3am4-a1-m1-cB 3am4-a1-m2-cA_3am4-a1-m2-cB 3am5-a1-m1-cA_3am5-a1-m1-cB 3am5-a1-m2-cA_3am5-a1-m2-cB 3lsy-a1-m1-cA_3lsy-a1-m1-cB 3lsy-a1-m2-cA_3lsy-a1-m2-cB 3lt0-a1-m1-cA_3lt0-a1-m1-cB 3lt0-a1-m2-cA_3lt0-a1-m2-cB 3lt1-a1-m1-cA_3lt1-a1-m1-cB 3lt1-a1-m2-cA_3lt1-a1-m2-cB 3lt2-a1-m1-cA_3lt2-a1-m1-cB 3lt2-a1-m2-cA_3lt2-a1-m2-cB 3lt4-a1-m1-cA_3lt4-a1-m1-cB 3lt4-a1-m2-cA_3lt4-a1-m2-cB 4ige-a1-m1-cA_4ige-a1-m1-cB 4igf-a1-m1-cA_4igf-a1-m1-cB EDICFIAGIGDTNGYGWGIAKELSKRNVKIIFGIWPPVYNIFMKNYKNGKFDNDMIIDKKMNILDMLPFDASFDTANDIDEETKNNKRYNMLQNYTIEDVANLIHQKYGKINMLVHSLANAKEVQKDLLNTSRKGYLDALSKSSYSLISLCKYFVNIMKPQSSIISLTYHASQKVVPGYGGGMSSAKAALESDTRVLAYHLGRNYNIRINTISAGPLKSTFIDYAIEYSEKYAPLRQKLLSTDIGSVASFLLSRESRAITGQTIYVDNGLNIMFLPD DICFIAGIGDTNGYGWGIAKELSKRNVKIIFGIWPPVYNIFMKNYKNGKFDNDMIKMNILDMLPFDASFDTANDIDEETKNNKRYNMLQNYTIEDVANLIHQKYGKINMLVHSLANAKEVQKDLLNTSRKGYLDALSKSSYSLISLCKYFVNIMKPQSSIISLTYHASQKVVPGYGGGMSSAKAALESDTRVLAYHLGRNYNIRINTISAGPLKSRAATAINTFIDYAIEYSEKYAPLRQKLLSTDIGSVASFLLSRESRAITGQTIYVDNGLNIMFLPD 2ol5-a1-m1-cA_2ol5-a1-m1-cB Crystal Structure of a protease synthase and sporulation negative regulatory protein PAI 2 from Bacillus stearothermophilus Q5L206 Q5L206 2.5 X-RAY DIFFRACTION 94 0.994 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 176 179 DPDVAYQVIEENSFATLVSHQRELFATHLPLLLDREKTCLYGHFARSNPQWNDIQHQTVLAIFHGPHCYISPSWYETNQAVPTWNYVAVHVYGNVELINDQGEVQSLHDVEKYEAPGSRYQLLSGNKGIQAFKIIIKRIEGKAKLSQNHPAHRQERIIKQLEQPFENEKRIASLKK NDPDVAYQVIEENSFATLVSHQRELFATHLPLLLDREKTCLYGHFARSNPQWNDIQHQTVLAIFHGPHCYISPSWYETNQAVPTWNYVAVHVYGNVELINDQGEVQSLHDVEKYEAPGSRYQLSEVLSGNKGIQAFKIIIKRIEGKAKLSQNHPAHRQERIIKQLEQPFENEKRIASLK 2ol9-a1-m1-cA_2ol9-a1-m2-cA Peptide corresponding to residues 170-175 of human prion 0.85 X-RAY DIFFRACTION 16 1.0 6 6 SNQNNF SNQNNF 2old-a1-m1-cA_2old-a1-m1-cB Bence Jones KWR Protein- Immunoglobulin Light Chain Dimer, P3(2)21 Crystal Form 2.6 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 216 2omb-a1-m1-cA_2omb-a1-m1-cB 2omb-a2-m1-cC_2omb-a2-m1-cD 2omn-a1-m1-cA_2omn-a1-m1-cB SALPQPASVSGSPGQSITISCTGTSSDVGGYDLVSWYQHHPGGAPKLIIYEVTNRPSGVSDRFSGSKSGNTASLTISGLQAEDEADYYCSSYASGSTPRIFGGGTRLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS SALPQPASVSGSPGQSITISCTGTSSDVGGYDLVSWYQHHPGGAPKLIIYEVTNRPSGVSDRFSGSKSGNTASLTISGLQAEDEADYYCSSYASGSTPRIFGGGTRLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS 2olk-a1-m1-cA_2olk-a1-m1-cB ABC Protein ArtP in complex with ADP-beta-S D0VWX4 D0VWX4 2.1 X-RAY DIFFRACTION 27 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 242 242 LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF 2olk-a1-m1-cA_2olk-a1-m1-cD ABC Protein ArtP in complex with ADP-beta-S D0VWX4 D0VWX4 2.1 X-RAY DIFFRACTION 41 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 242 242 LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF 2olk-a1-m1-cB_2olk-a1-m1-cC ABC Protein ArtP in complex with ADP-beta-S D0VWX4 D0VWX4 2.1 X-RAY DIFFRACTION 28 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 242 242 LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF 2olk-a1-m1-cC_2olk-a1-m1-cD ABC Protein ArtP in complex with ADP-beta-S D0VWX4 D0VWX4 2.1 X-RAY DIFFRACTION 33 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 242 242 LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF 2olm-a1-m1-cA_2olm-a1-m2-cA ArfGap domain of HIV-1 Rev binding protein P52594 P52594 1.48 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 SSAKRKQEEKHLKMLRDMTGLPHNRKCFDCDQRGPTYVNMTVGSFVCTSCSGSLRGLNPPHRVKSISMTTFTQQEIEFLQKHGNEVCKQIWLGLFDDRSSAIPDFRDPQKVKEFLQEKYEKKRWYVPPEQAKV SSAKRKQEEKHLKMLRDMTGLPHNRKCFDCDQRGPTYVNMTVGSFVCTSCSGSLRGLNPPHRVKSISMTTFTQQEIEFLQKHGNEVCKQIWLGLFDDRSSAIPDFRDPQKVKEFLQEKYEKKRWYVPPEQAKV 2ols-a2-m1-cA_2ols-a2-m2-cA The crystal structure of the phosphoenolpyruvate synthase from Neisseria meningitidis Q9K0I2 Q9K0I2 2.4 X-RAY DIFFRACTION 151 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 725 725 NYVIWFENLRMTDVERVGGKNASLGEMISQLTEKGVRVPGGFATTAEAYRAFLAHNGLSERISAALAKLDVEDVAELARVGKEIRQWILDTPFPEQLDAEIEAAWNKMVADAGGADISVAVRSSATAFAGQQETFLNINGLDNVKEAMHHVFASLYNDRAISYRVHKGFDIVALSAGVQRMVRSDSGASGVMFTLDTESGYDQVVFVTSSYGLGENVVQGAVNPDEFYVFKPTLKAGKPAILRKTMGSKHIKMIFTDKAEAGKSVTNVDVPEEDRNRFSITDEEITELAHYALTIEKHYGRPMDIEWGRDGLDGKLYILQARPETLCEGRAQKVGQGKVRDVLVTDMTDPDWEPVMKRASAIVTNRGGRTCHAAIIAREPAVVGCGNATELLKNGQEVTVSCADTGFIYAGLMPKAPVKVMMNVGNPELAFSFANLPSEGIGLARMEFIINRQIGIHPKALLEFDKQDDELKAEITRRIAGYASPVDFYVDKIAEGVATLAASVYPRKTIVRMSDFKSNEYANLVGGNVYEPHEENPMLGFRGAARYVADNFKDCFALECKALKRVRDEMGLTNVEIMIPFVRTLGEAEAVVKALKENGLERGKNGLRLIMMCELPSNAVLAEQFLQYFDGFSIGSNDMTQLTLGLDRDSGLVSESFDERNPAVKVMLHLAISACRKQNKYVGICGQGPSDHPDFAKWLVEEGIESVSLNPDTVIETWLYLANEL NYVIWFENLRMTDVERVGGKNASLGEMISQLTEKGVRVPGGFATTAEAYRAFLAHNGLSERISAALAKLDVEDVAELARVGKEIRQWILDTPFPEQLDAEIEAAWNKMVADAGGADISVAVRSSATAFAGQQETFLNINGLDNVKEAMHHVFASLYNDRAISYRVHKGFDIVALSAGVQRMVRSDSGASGVMFTLDTESGYDQVVFVTSSYGLGENVVQGAVNPDEFYVFKPTLKAGKPAILRKTMGSKHIKMIFTDKAEAGKSVTNVDVPEEDRNRFSITDEEITELAHYALTIEKHYGRPMDIEWGRDGLDGKLYILQARPETLCEGRAQKVGQGKVRDVLVTDMTDPDWEPVMKRASAIVTNRGGRTCHAAIIAREPAVVGCGNATELLKNGQEVTVSCADTGFIYAGLMPKAPVKVMMNVGNPELAFSFANLPSEGIGLARMEFIINRQIGIHPKALLEFDKQDDELKAEITRRIAGYASPVDFYVDKIAEGVATLAASVYPRKTIVRMSDFKSNEYANLVGGNVYEPHEENPMLGFRGAARYVADNFKDCFALECKALKRVRDEMGLTNVEIMIPFVRTLGEAEAVVKALKENGLERGKNGLRLIMMCELPSNAVLAEQFLQYFDGFSIGSNDMTQLTLGLDRDSGLVSESFDERNPAVKVMLHLAISACRKQNKYVGICGQGPSDHPDFAKWLVEEGIESVSLNPDTVIETWLYLANEL 2olx-a1-m1-cA_2olx-a1-m2-cA Structure of NNQQ Peptide from Yeast Prion SUP35 1.42 X-RAY DIFFRACTION 10 1.0 4 4 NNQQ NNQQ 2om6-a1-m1-cA_2om6-a1-m1-cB Hypothetical Protein (Probable Phosphoserine Phosph (PH0253) from Pyrococcus Horikoshii OT3 O57991 O57991 2.2 X-RAY DIFFRACTION 49 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 226 226 REVKLVTFDVWNTLLDLNILDEFSHQLAKISGLHIKDVANAVIEVRNEIKKRAQASEDPRKVLTGSQEALAGKLKVDVELVKRATARAILNVDESLVLEGTKEALQFVKERGLKTAVIGNVFWPGSYTRLLLERFGLEFIDKTFFADEVLSYKPRKEFEKVLNSFEVKPEESLHIGDTYAEDYQGARKVGWAVWINQEGDKVRKLEERGFEIPSIANLKDVIELIS REVKLVTFDVWNTLLDLNILDEFSHQLAKISGLHIKDVANAVIEVRNEIKKRAQASEDPRKVLTGSQEALAGKLKVDVELVKRATARAILNVDESLVLEGTKEALQFVKERGLKTAVIGNVFWPGSYTRLLLERFGLEFIDKTFFADEVLSYKPRKEFEKVLNSFEVKPEESLHIGDTYAEDYQGARKVGWAVWINQEGDKVRKLEERGFEIPSIANLKDVIELIS 2omd-a1-m1-cA_2omd-a1-m1-cB Crystal structure of molybdopterin converting factor subunit 2 (aq_2181) from aquifex aeolicus VF5 O67928 O67928 2 X-RAY DIFFRACTION 103 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 135 145 MEVGMIPRVYLGHEWFGAERILSEYQVPEDCGAQVLFLGIPRNAPEDGGNIEALEYEAYPEMAIKEMEKIRQETIEKFGVKEVFIHHRLGLVKIGEPSFLVLAVGGHREETFKACRYAVDETKKRVPIWKKEIFK MEVGMIPRVYLGHEWFGAERILSEYQVPEDCGAQVLFLGIPRNAPEDGGNIEALEYEAYPEMAIKEMEKIRQETIEKFGVKEVFIHHRLGLVKIGEPSFLVLAVGGHREETFKACRYAVDETKKRVPIWKKEIFKEGKGEWVLGE 2omk-a1-m1-cB_2omk-a1-m1-cA Structure of the Bacteroides Thetaiotaomicron Thiamin Pyrophosphokinase Q8A545 Q8A545 1.8 X-RAY DIFFRACTION 91 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 203 220 NAMINEHYIPQAIILANGEYPAHELPLRLLAEAQFVVCCAANEYISRGHTPDVIIGDGDSLLPEYKKRFSSIILQETNDQTKAVHYLQSKGIRKIAIVGATGKREDHTLGNISLLVEYMRSGMEVRTVTDYGTFIPVSDTQSFASYPGQQVSIINFGAKGLKAEGLFYPLSDFTNWWQGTLNEAIADEFTIHCTGEYLVFLAY GVDLGTENLYFQSNAMINEHYIPQAIILANGEYPAHELPLRLLAEAQFVVCCAANEYISRGHTPDVIIGDGDSLLPEYKKRFSSIILQISDQETNDQTKAVHYLQSKGIRKIAIVGATGKREDHTLGNISLLVEYMRSGMEVRTVTDYGTFIPVSDTQSFASYPGQQVSIINFGAKGLKAEGLFYPLSDFTNWWQGTLNEAIADEFTIHCTGEYLVFLAY 2omo-a3-m1-cG_2omo-a3-m1-cD Putative antibiotic biosynthesis monooxygenase from Nitrosomonas europaea Q82WP3 Q82WP3 1.83 X-RAY DIFFRACTION 92 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 95 100 2omo-a1-m1-cH_2omo-a1-m1-cA 2omo-a2-m1-cC_2omo-a2-m1-cB 2omo-a4-m1-cE_2omo-a4-m1-cF GHYVTIVYASVKTDKTEAFKEATRNHEQSIREPGNRFDILQSADDPTRFVLYEAYKTRKDAAAHKETAHYLTWRDTVADWAEPRKGVIYGGLYPT NLYFQGHYVTIVYASVKTDKTEAFKEATRNHEQSIREPGNRFDILQSADDPTRFVLYEAYKTRKDAAAHKETAHYLTWRDTVADWAEPRKGVIYGGLYPT 2omp-a1-m3-cB_2omp-a1-m4-cA LYQLEN peptide derived from human insulin chain A, residues 13-18 1.9 X-RAY DIFFRACTION 16 1.0 6 6 2omp-a1-m1-cB_2omp-a1-m2-cA LYQLEN LYQLEN 2omp-a1-m4-cA_2omp-a1-m4-cB LYQLEN peptide derived from human insulin chain A, residues 13-18 1.9 X-RAY DIFFRACTION 17 1.0 6 6 2omp-a1-m1-cA_2omp-a1-m1-cB 2omp-a1-m2-cA_2omp-a1-m2-cB 2omp-a1-m3-cA_2omp-a1-m3-cB LYQLEN LYQLEN 2omq-a1-m1-cD_2omq-a1-m2-cC VEALYL peptide derived from human insulin chain B, residues 12-17 P01308 P01308 2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 2omq-a1-m1-cB_2omq-a1-m2-cA VEALYL VEALYL 2omq-a1-m2-cC_2omq-a1-m2-cD VEALYL peptide derived from human insulin chain B, residues 12-17 P01308 P01308 2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 2omq-a1-m1-cA_2omq-a1-m1-cB 2omq-a1-m1-cC_2omq-a1-m1-cD 2omq-a1-m2-cA_2omq-a1-m2-cB VEALYL VEALYL 2on5-a4-m1-cE_2on5-a4-m1-cH Structure of NaGST-2 D3U1A6 D3U1A6 1.9 X-RAY DIFFRACTION 80 1.0 51031 (Necator americanus) 51031 (Necator americanus) 206 206 2on5-a1-m1-cA_2on5-a1-m1-cG 2on5-a2-m1-cB_2on5-a2-m1-cC 2on5-a3-m1-cD_2on5-a3-m1-cF MVHYKLTYFAGRGLAEPIRQIFALAGQKYEDVRYTFQEWPKHKDEMPFGQIPVLEEDGKQLAQSFAIARYLSRKFGFAGKTPFEEALVDSVADQYKDYINEIRPYLRVVAGVDQGDPEKLFKELLLPAREKFFGFMKKFLEKSKSGYLVGDSVTYADLCLAEHTSGIAAKFPSIYDGFPEIKAHAEKVRSIPALKKWIETRPETKF MVHYKLTYFAGRGLAEPIRQIFALAGQKYEDVRYTFQEWPKHKDEMPFGQIPVLEEDGKQLAQSFAIARYLSRKFGFAGKTPFEEALVDSVADQYKDYINEIRPYLRVVAGVDQGDPEKLFKELLLPAREKFFGFMKKFLEKSKSGYLVGDSVTYADLCLAEHTSGIAAKFPSIYDGFPEIKAHAEKVRSIPALKKWIETRPETKF 2ona-a1-m1-cA_2ona-a1-m2-cB MVGGVV peptide derived from Alzheimer's A-beta, residues 35-40 2.03 X-RAY DIFFRACTION 16 1.0 6 6 MVGGVV MVGGVV 2ona-a1-m2-cA_2ona-a1-m2-cB MVGGVV peptide derived from Alzheimer's A-beta, residues 35-40 2.03 X-RAY DIFFRACTION 15 1.0 6 6 2ona-a1-m1-cA_2ona-a1-m1-cB MVGGVV MVGGVV 2ona-a1-m2-cC_2ona-a1-m2-cD MVGGVV peptide derived from Alzheimer's A-beta, residues 35-40 2.03 X-RAY DIFFRACTION 15 1.0 6 6 2ona-a1-m1-cC_2ona-a1-m1-cD 2ona-a1-m1-cD_2ona-a1-m2-cC MVGGVV MVGGVV 2ond-a1-m1-cA_2ond-a1-m1-cB Crystal Structure of the HAT-C domain of murine CstF-77 Q99LI7 Q99LI7 2.8 X-RAY DIFFRACTION 133 1.0 10090 (Mus musculus) 10090 (Mus musculus) 299 299 2ooe-a1-m1-cA_2ooe-a1-m2-cA 6uro-a1-m1-cE_6uro-a1-m1-cF TPQEAQQVDWKKYIQWEKSNPLRTEDQTLITKRVFAYEQCLLVLGHHPDIWYEAAQYLEQSSKLLAEKGDNNAKLFSDEAANIYERAISTLLKKNLLYFAYADYEESRKYEKVHSIYNRLLAIEDIDPTLVYIQYKFARRAEGIKSGRIFKKAREDARTRHHVYVTAALEYYCSKDKSVAFKIFELGLKKYGDIPEYVLAYIDYLSHLNEDNNTRVLFERVLTSGSLPPEKSGEIWARFLAFESNIGDLASILKVEKRRFTAFREEYEGKETALLVDRYKFDLYPCSASELKALGYKDV TPQEAQQVDWKKYIQWEKSNPLRTEDQTLITKRVFAYEQCLLVLGHHPDIWYEAAQYLEQSSKLLAEKGDNNAKLFSDEAANIYERAISTLLKKNLLYFAYADYEESRKYEKVHSIYNRLLAIEDIDPTLVYIQYKFARRAEGIKSGRIFKKAREDARTRHHVYVTAALEYYCSKDKSVAFKIFELGLKKYGDIPEYVLAYIDYLSHLNEDNNTRVLFERVLTSGSLPPEKSGEIWARFLAFESNIGDLASILKVEKRRFTAFREEYEGKETALLVDRYKFDLYPCSASELKALGYKDV 2onf-a1-m1-cA_2onf-a1-m1-cB Crystal structure of a putative osmotically inducible protein c (ta0195) from thermoplasma acidophilum at 1.70 A resolution Q9HLN2 Q9HLN2 1.7 X-RAY DIFFRACTION 235 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 137 137 GHVYESDVSWIDDRRTEVSVGDHRIEVDSPPEFGGPEGQLYPETLFPSVLASCLLTTFLEFKDRGINLKSWNSHVTAELGPSPEKGFKFHRIKIHVKIGVNDEDKEKIPRAQLAEKYCFISRAIRNNVEEIVDYEFV GHVYESDVSWIDDRRTEVSVGDHRIEVDSPPEFGGPEGQLYPETLFPSVLASCLLTTFLEFKDRGINLKSWNSHVTAELGPSPEKGFKFHRIKIHVKIGVNDEDKEKIPRAQLAEKYCFISRAIRNNVEEIVDYEFV 2onh-a1-m1-cA_2onh-a1-m1-cB Crystal Structure of of limonene synthase with 2-fluorolinalyl diphosphate(FLPP) Q40322 Q40322 2.7 X-RAY DIFFRACTION 47 1.0 29719 (Mentha spicata) 29719 (Mentha spicata) 543 543 2ong-a1-m1-cA_2ong-a1-m1-cB MRRSGNYNPSRWDVNFIQSLLSDYKEDKHVIRASELVTLVKMELEKETDQIRQLELIDDLQRMGLSDHFQNEFKEILSSIYLDHHYYKNPFPKEERDLYSTSLAFRLLREHGFQVAQEVFDSFKNEEGEFKESLSDDTRGLLQLYEASFLLTEGETTLESAREFATKFLEEKVNEGGVDGDLLTRIAYSLDIPLHWRIKRPNAPVWIEWYRKRPDMNPVVLELAILDLNIVQAQFQEELKESFRWWRNTGFVEKLPFARDRLVECYFWNTGIIEPRQHASARIMMGKVNALITVIDDIYDVYGTLEELEQFTDLIRRWDINSIDQLPDYMQLCFLALNNFVDDTSYDVMKEKGVNVIPYLRQSWVDLADKYMVEARWFYGGHKPSLEEYLENSWQSISGPCMLTHIFFRVTDSFTKETVDSLYKYHDLVRWSSFVLRLADDLGTSVEEVSRGDVPKSLQCYMSDYNASEAEARKHVKWLIAEVWKKMNAERVSKDSPFGKDFIGCAVDLGRMAQLMYHNGDGHGTQHPIIHQQMTRTLFEPFA MRRSGNYNPSRWDVNFIQSLLSDYKEDKHVIRASELVTLVKMELEKETDQIRQLELIDDLQRMGLSDHFQNEFKEILSSIYLDHHYYKNPFPKEERDLYSTSLAFRLLREHGFQVAQEVFDSFKNEEGEFKESLSDDTRGLLQLYEASFLLTEGETTLESAREFATKFLEEKVNEGGVDGDLLTRIAYSLDIPLHWRIKRPNAPVWIEWYRKRPDMNPVVLELAILDLNIVQAQFQEELKESFRWWRNTGFVEKLPFARDRLVECYFWNTGIIEPRQHASARIMMGKVNALITVIDDIYDVYGTLEELEQFTDLIRRWDINSIDQLPDYMQLCFLALNNFVDDTSYDVMKEKGVNVIPYLRQSWVDLADKYMVEARWFYGGHKPSLEEYLENSWQSISGPCMLTHIFFRVTDSFTKETVDSLYKYHDLVRWSSFVLRLADDLGTSVEEVSRGDVPKSLQCYMSDYNASEAEARKHVKWLIAEVWKKMNAERVSKDSPFGKDFIGCAVDLGRMAQLMYHNGDGHGTQHPIIHQQMTRTLFEPFA 2oni-a2-m3-cA_2oni-a2-m6-cA Catalytic Domain of the Human NEDD4-like E3 Ligase Q96PU5 Q96PU5 2.2 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 364 2oni-a1-m1-cA_2oni-a1-m2-cA 2oni-a2-m1-cA_2oni-a2-m2-cA 2oni-a2-m4-cA_2oni-a2-m5-cA LYFQGSREFKQKYDYFRKKLKKPADIPNRFEKLHRNNIFEESYRRISVKRPDVLKARLWIEFEEKGLDYGGVAREWFFLLSKEFNPYYGLFEYSATDNYTLQINPNSGLCNEDHLSYFTFIGRVAGLAVFHGKLLDGFFIRPFYKLGKQITLNDESVDSEYYNSLKWILENDPTELDLFCIDEENFGQTYQVDLKPNGSEIVTNENKREYIDLVIQWRFVNRVQKQNAFLEGFTELLPIDLIKIFDENELELLCGLGDVDVNDWRQHSIYKNGYCPNHPVIQWFWKAVLLDAEKRIRLLQFVTGTSRVPNGFAELYGSNGPQLFTIEQWGSPEKLPRAHTCFNRLDLPPYETFEDLREKLLAVE LYFQGSREFKQKYDYFRKKLKKPADIPNRFEKLHRNNIFEESYRRISVKRPDVLKARLWIEFEEKGLDYGGVAREWFFLLSKEFNPYYGLFEYSATDNYTLQINPNSGLCNEDHLSYFTFIGRVAGLAVFHGKLLDGFFIRPFYKLGKQITLNDESVDSEYYNSLKWILENDPTELDLFCIDEENFGQTYQVDLKPNGSEIVTNENKREYIDLVIQWRFVNRVQKQNAFLEGFTELLPIDLIKIFDENELELLCGLGDVDVNDWRQHSIYKNGYCPNHPVIQWFWKAVLLDAEKRIRLLQFVTGTSRVPNGFAELYGSNGPQLFTIEQWGSPEKLPRAHTCFNRLDLPPYETFEDLREKLLAVE 2oni-a2-m5-cA_2oni-a2-m6-cA Catalytic Domain of the Human NEDD4-like E3 Ligase Q96PU5 Q96PU5 2.2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 364 2oni-a2-m1-cA_2oni-a2-m3-cA 2oni-a2-m1-cA_2oni-a2-m4-cA 2oni-a2-m2-cA_2oni-a2-m5-cA 2oni-a2-m2-cA_2oni-a2-m6-cA 2oni-a2-m3-cA_2oni-a2-m4-cA LYFQGSREFKQKYDYFRKKLKKPADIPNRFEKLHRNNIFEESYRRISVKRPDVLKARLWIEFEEKGLDYGGVAREWFFLLSKEFNPYYGLFEYSATDNYTLQINPNSGLCNEDHLSYFTFIGRVAGLAVFHGKLLDGFFIRPFYKLGKQITLNDESVDSEYYNSLKWILENDPTELDLFCIDEENFGQTYQVDLKPNGSEIVTNENKREYIDLVIQWRFVNRVQKQNAFLEGFTELLPIDLIKIFDENELELLCGLGDVDVNDWRQHSIYKNGYCPNHPVIQWFWKAVLLDAEKRIRLLQFVTGTSRVPNGFAELYGSNGPQLFTIEQWGSPEKLPRAHTCFNRLDLPPYETFEDLREKLLAVE LYFQGSREFKQKYDYFRKKLKKPADIPNRFEKLHRNNIFEESYRRISVKRPDVLKARLWIEFEEKGLDYGGVAREWFFLLSKEFNPYYGLFEYSATDNYTLQINPNSGLCNEDHLSYFTFIGRVAGLAVFHGKLLDGFFIRPFYKLGKQITLNDESVDSEYYNSLKWILENDPTELDLFCIDEENFGQTYQVDLKPNGSEIVTNENKREYIDLVIQWRFVNRVQKQNAFLEGFTELLPIDLIKIFDENELELLCGLGDVDVNDWRQHSIYKNGYCPNHPVIQWFWKAVLLDAEKRIRLLQFVTGTSRVPNGFAELYGSNGPQLFTIEQWGSPEKLPRAHTCFNRLDLPPYETFEDLREKLLAVE 2onk-a2-m1-cF_2onk-a2-m1-cG ABC transporter ModBC in complex with its binding protein ModA O30144 O30144 3.1 X-RAY DIFFRACTION 97 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 240 240 2onk-a1-m1-cA_2onk-a1-m1-cB MFLKVRAEKRLGNFRLNVDFEMGRDYCVLLGPTGAGKSVFLELIAGIVKPDRGEVRLNGADITPLPPERRGIGFVPQDYALFPHLSVYRNIAYGLRNVERVERDRRVREMAEKLGIAHLLDRKPARLSGGERQRVALARALVIQPRLLLLDEPLSAVDLKTKGVLMEELRFVQREFDVPILHVTHDLIEAAMLADEVAVMLNGRIVEKGKLKELFSAKNGEVAEFLSARNLLLKVSKILD MFLKVRAEKRLGNFRLNVDFEMGRDYCVLLGPTGAGKSVFLELIAGIVKPDRGEVRLNGADITPLPPERRGIGFVPQDYALFPHLSVYRNIAYGLRNVERVERDRRVREMAEKLGIAHLLDRKPARLSGGERQRVALARALVIQPRLLLLDEPLSAVDLKTKGVLMEELRFVQREFDVPILHVTHDLIEAAMLADEVAVMLNGRIVEKGKLKELFSAKNGEVAEFLSARNLLLKVSKILD 2onk-a2-m1-cH_2onk-a2-m1-cI ABC transporter ModBC in complex with its binding protein ModA O30143 O30143 3.1 X-RAY DIFFRACTION 262 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 252 252 2onk-a1-m1-cC_2onk-a1-m1-cD MRLLFSALLALLSSIILLFVLLPVAATVTLQLFNFDEFLKAASDPAVWKVVLTTYYAALISTLIAVIFGTPLAYILARKSFPGKSVVEGIVDLPVVIPHTVAGIALLVVFGSSGLIGSFSPLKFVDALPGIVVAMLFVSVPIYINQAKEGFASVDVRLEHVARTLGSSPLRVFFTVSLPLSVRHIVAGAIMSWARGISEFGAVVVIAYYPMIAPTLIYERYLSEGLSAAMPVAAILILLSLAVFVALRIIVG MRLLFSALLALLSSIILLFVLLPVAATVTLQLFNFDEFLKAASDPAVWKVVLTTYYAALISTLIAVIFGTPLAYILARKSFPGKSVVEGIVDLPVVIPHTVAGIALLVVFGSSGLIGSFSPLKFVDALPGIVVAMLFVSVPIYINQAKEGFASVDVRLEHVARTLGSSPLRVFFTVSLPLSVRHIVAGAIMSWARGISEFGAVVVIAYYPMIAPTLIYERYLSEGLSAAMPVAAILILLSLAVFVALRIIVG 2onv-a1-m3-cA_2onv-a1-m4-cA Crystal Structure of the amyloid-fibril forming peptide GGVVIA derived from the Alzheimer's amyloid Abeta (Abeta37-42). 1.61 X-RAY DIFFRACTION 18 1.0 6 6 2onv-a1-m1-cA_2onv-a1-m2-cA GGVVIA GGVVIA 2onw-a1-m1-cX_2onw-a1-m2-cX Structure of SSTSSA, a fibril forming peptide from Bovine Pancreatic Ribonuclease (RNase A, residues 15-20) 1.51 X-RAY DIFFRACTION 17 1.0 6 6 SSTSAA SSTSAA 2onw-a1-m3-cX_2onw-a1-m4-cX Structure of SSTSSA, a fibril forming peptide from Bovine Pancreatic Ribonuclease (RNase A, residues 15-20) 1.51 X-RAY DIFFRACTION 17 1.0 6 6 SSTSAA SSTSAA 2oo2-a1-m1-cA_2oo2-a1-m2-cA Crystal structure of protein AF1782 from Archaeoglobus fulgidus, Pfam DUF357 O28492 O28492 1.8 X-RAY DIFFRACTION 42 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 76 76 SLEEELRRETLKWLERIEERVKEIEGDEGFMRNIEAYISDSRYFLEKGDLVRAFECVVWAWAWLEIGLEVGKLHET SLEEELRRETLKWLERIEERVKEIEGDEGFMRNIEAYISDSRYFLEKGDLVRAFECVVWAWAWLEIGLEVGKLHET 2oo9-a2-m1-cC_2oo9-a2-m2-cC crystal structure of the UBA domain from human c-Cbl ubiquitin ligase P22681 P22681 2.1 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 39 39 2oo9-a1-m1-cB_2oo9-a1-m1-cA SSEIENLSQGYSYQDIQKALVIAQNNIEAKNILREFAAA SSEIENLSQGYSYQDIQKALVIAQNNIEAKNILREFAAA 2ood-a1-m1-cA_2ood-a1-m2-cA Crystal structure of guanine deaminase from Bradyrhizobium japonicum Q89NG0 Q89NG0 2.62 X-RAY DIFFRACTION 139 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 453 453 LTTVGIRGTFFDFVDDPWKHIGNEQAAARFHQDGLVVTDGVIKAFGPYEKIAAAHPGVEITHIKDRIIVPGFIDGHIHLPQTRVLGAYGEQLLPWLQKSIYPEEIKYKDRNYAREGVKRFLDALLAAGTTTCQAFTSSSPVATEELFEEASRRNRVIAGLTGIDRNAPAEFIDTPENFYRDSKRLIAQYHDKGRNLYAITPRFAFGASPELLKACQRLKHEHPDCWVNTHISENPAECSGVLVEHPDCQDYLGVYEKFDLVGPKFSGGHGVYLSNNEFRRSKKGAAVVFCPCSNLFLGSGLFRLGRATDPEHRVKSFGTDVGGGNRFSISVLDDAYKVGCNNTLLDGSIDPSRKDLAEAERNKLSPYRGFWSVTLGGAEGLYIDDKLGNFEPGKEADFVALDPNGGQLAQPWHQSLIGAGPRTVDEAASLFAVVGDDRCVDETWVGKRLYKKS LTTVGIRGTFFDFVDDPWKHIGNEQAAARFHQDGLVVTDGVIKAFGPYEKIAAAHPGVEITHIKDRIIVPGFIDGHIHLPQTRVLGAYGEQLLPWLQKSIYPEEIKYKDRNYAREGVKRFLDALLAAGTTTCQAFTSSSPVATEELFEEASRRNRVIAGLTGIDRNAPAEFIDTPENFYRDSKRLIAQYHDKGRNLYAITPRFAFGASPELLKACQRLKHEHPDCWVNTHISENPAECSGVLVEHPDCQDYLGVYEKFDLVGPKFSGGHGVYLSNNEFRRSKKGAAVVFCPCSNLFLGSGLFRLGRATDPEHRVKSFGTDVGGGNRFSISVLDDAYKVGCNNTLLDGSIDPSRKDLAEAERNKLSPYRGFWSVTLGGAEGLYIDDKLGNFEPGKEADFVALDPNGGQLAQPWHQSLIGAGPRTVDEAASLFAVVGDDRCVDETWVGKRLYKKS 2ooi-a1-m1-cA_2ooi-a1-m1-cB The crystal structure of gene product SA0254 from Staphylocococcus aureus subsp. aureus N315 A0A0H3JL95 A0A0H3JL95 2.6 X-RAY DIFFRACTION 90 0.994 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 157 158 NRINVFKTNGFSKSRMTSKVLVFKEMATPPKSVQDELQLNADDTVYYLERLRFVDDDVLCIEYSYYHKEIVKYLNDDIAKGSIFDYLESNMKLRIGFSDIFFNVDKLTSSEASLLQLSTGEPCLRYHQTFYTMTGKPFDSSDIVFHYRHAQFYIPSK NRINVFKTNGFSKSLGRMTSKVLVFKEMATPPKSVQDELQLNADTVYYLERLRFVDDDVLCIEYSYYHKEIVKYLNDDIAKGSIFDYLESNMKLRIGFSDIFFNVDKLTSSEASLLQLSTGEPCLRYHQTFYTMTGKPFDSSDIVFHYRHAQFYIPSK 2ooj-a1-m1-cA_2ooj-a1-m1-cB CRYSTAL STRUCTURE OF A PROTEIN WITH UNKNOWN FUNCTION FROM DUF3224 FAMILY (SO_1590) FROM SHEWANELLA ONEIDENSIS MR-1 AT 1.84 A RESOLUTION Q8EGL1 Q8EGL1 1.84 X-RAY DIFFRACTION 178 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 125 128 ETKVTGKFDVKLTPENAYATGVGGVNLGRALDKTFYGELEARSQGELSATAVKGSAGYVAIEQVVGKLCGRQGSFVLQHFGITDNRLHLEVVPHSGAGELTGLYGTAISIENGQHFYEFSFCFEP ETKVTGKFDVKLTPENAYATGVGGVNLGRALDKTFYGELEARSQGELSATAVKGSAGYVAIEQVVGKLCGRQGSFVLQHFGITDGQNRLHLEVVPHSGAGELTGLYGTAISIENGQHFYEFSFCFEPA 2ook-a1-m1-cB_2ook-a1-m1-cA Crystal structure of a protein with unknown function (YP_749275.1) from Shewanella Frigidimarina NCIMB 400 at 1.80 A resolution Q087X8 Q087X8 1.8 X-RAY DIFFRACTION 81 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 120 123 KKHGLSIGINRIESVFFVTLKAIGTLTHEDYLVITPLEGALSQVDQPKVSLFLDATELDGWDLRAAWDDLKLGLKSEFERVAILGNKDWQEWAAKIGSWFIAGEIKYFEDEDDALKWLRY DKKHGLSIGINRIESVFFVTLKAIGTLTHEDYLVITPLEGALSQVDQPKVSLFLDATELDGWDLRAAWDDLKLGLKHKSEFERVAILGNKDWQEWAAKIGSWFIAGEIKYFEDEDDALKWLRY 2ool-a1-m1-cB_2ool-a1-m1-cA Crystal structure of the chromophore-binding domain of an unusual bacteriophytochrome RpBphP3 from R. palustris Q6N5G2 Q6N5G2 2.2 X-RAY DIFFRACTION 39 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 298 304 ECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRDENEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAE TECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRDESRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEI 2op5-a1-m1-cB_2op5-a1-m1-cA CRYSTAL STRUCTURE OF A DIMERIC FERREDOXIN-LIKE PROTEIN (JCVI_PEP_1096672785533) FROM UNCULTURED MARINE ORGANISM AT 2.20 A RESOLUTION 2.2 X-RAY DIFFRACTION 117 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 105 110 2op5-a2-m1-cD_2op5-a2-m1-cC 2op5-a3-m1-cF_2op5-a3-m1-cE AFLNSLFDFTSENELELFLKSLDEVWSEDLYSRLSAAGLIRHVISKVWNEQHRISVFEYDSKEGYQKCQEIIDKEFGITLKEKLKKFVFKIHNNRGVVVSEFIRS TDETAFLNSLFDFTSENELELFLKSLDEVWSEDLYSRLSAAGLIRHVISKVWNKEQHRISVFEYDSKEGYQKCQEIIDKEFGITLKEKLKKFVFKIHNNRGVVVSEFIRS 2opa-a1-m2-cB_2opa-a1-m3-cB YwhB binary complex with 2-Fluoro-p-hydroxycinnamate P70994 P70994 2.4 X-RAY DIFFRACTION 40 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 61 61 2op8-a1-m1-cA_2op8-a1-m2-cA 2op8-a1-m1-cA_2op8-a1-m3-cA 2op8-a1-m1-cB_2op8-a1-m2-cB 2op8-a1-m1-cB_2op8-a1-m3-cB 2op8-a1-m2-cA_2op8-a1-m3-cA 2op8-a1-m2-cB_2op8-a1-m3-cB 2opa-a1-m1-cA_2opa-a1-m2-cA 2opa-a1-m1-cA_2opa-a1-m3-cA 2opa-a1-m1-cB_2opa-a1-m2-cB 2opa-a1-m1-cB_2opa-a1-m3-cB 2opa-a1-m2-cA_2opa-a1-m3-cA PYVTVKMLEGRTDEQKRNLVEKVTEAVKETTGASEEKIVVFIEEMRKDHYAVAGKRLSDME PYVTVKMLEGRTDEQKRNLVEKVTEAVKETTGASEEKIVVFIEEMRKDHYAVAGKRLSDME 2opa-a1-m3-cA_2opa-a1-m3-cB YwhB binary complex with 2-Fluoro-p-hydroxycinnamate P70994 P70994 2.4 X-RAY DIFFRACTION 71 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 61 61 2op8-a1-m1-cA_2op8-a1-m1-cB 2op8-a1-m2-cA_2op8-a1-m2-cB 2op8-a1-m3-cA_2op8-a1-m3-cB 2opa-a1-m1-cA_2opa-a1-m1-cB 2opa-a1-m2-cA_2opa-a1-m2-cB PYVTVKMLEGRTDEQKRNLVEKVTEAVKETTGASEEKIVVFIEEMRKDHYAVAGKRLSDME PYVTVKMLEGRTDEQKRNLVEKVTEAVKETTGASEEKIVVFIEEMRKDHYAVAGKRLSDME 2opi-a2-m2-cA_2opi-a2-m2-cB Crystal Structure of L-fuculose-1-phosphate aldolase from Bacteroides thetaiotaomicron Q9RQ12 Q9RQ12 2.5 X-RAY DIFFRACTION 61 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 197 203 2opi-a1-m1-cA_2opi-a1-m1-cB 2opi-a2-m1-cA_2opi-a2-m1-cB 2opi-a2-m1-cA_2opi-a2-m2-cB 2opi-a2-m2-cA_2opi-a2-m1-cB ITDEHIELFLAQAHRYGDAKLLCSSGNLSWRIGEEALISGTGSWVPTLAKEKVSICNIASGTPTNGVKPSESTFHLGVLRERPDVNVVLHFQSEYATAISCKNKPTNFNVTAEIPCHVGSEIPVIPYYRPGSPELAKAVVEALKHNSVLLTNHGQVVCGKDFDQVYERATFFEACRIIVQSGGDYSVLTPEEIEDLE ITDEHIELFLAQAHRYGDAKLLCSSGNLSWRIGEEALISGTGSWVPTLAKEKVSICNIASGTPTNGVKPSESTFHLGVLRERPDVNVVLHFQSEYATAISCKNKPTNFNVTAEIPCHVGSEIPVIPYYRPGSPELAKAVVEALKHNSVLLTNHGQVVCGKDFDQVYERATFFEACRIIVQSGGDYSVLTPEEIEDLEIYVLGK 2opk-a2-m1-cC_2opk-a2-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE MANNOSE-6-PHOSPHATE ISOMERASE (REUT_A1446) FROM RALSTONIA EUTROPHA JMP134 AT 2.10 A RESOLUTION Q471W7 Q471W7 2.1 X-RAY DIFFRACTION 95 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 106 108 2opk-a1-m1-cA_2opk-a1-m1-cB PKHGNLFADVPVGAPDEIFQPLLERKGLKIERIISNGQASPPGFWYDSPQDEWVVVSGSAGIECEGDTAPRVRPGDWLHVPAHCRHRVAWTDGGEPTVWLAVHCDA DPKHGNLFADVPVGAPDEIFQPLLERKGLKIERIISNGQASPPGFWYDSPQDEWVVVSGSAGIECEGDTAPRVRPGDWLHVPAHCRHRVAWTDGGEPTVWLAVHCDAA 2opl-a1-m1-cA_2opl-a1-m1-cB Crystal structure of an osmc-like protein (gsu2788) from geobacter sulfurreducens at 1.50 A resolution Q749F5 Q749F5 1.5 X-RAY DIFFRACTION 445 0.994 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 176 178 TTVVNGVNVDQLATIEQIKAKPEIAQFKFRATNQWGGTHNQATIKDFYGAAEDDTRKPVFDLDEPPVLLGENRGANPVEYLLVALSGCLTTSLVAHAAARGIALRGVKSRYEGDIDLRGFLGLSEEVPVGYREIRVFFSIDADLTDGQKEELIRAQKYSPVYNTVAKPVPVAVLLD TVVNGVNVDQLATIEQIKAKPEIAQFKFRATNQWGGTHNQATIKDFYGACAEDDTRKPVFDLDEPPVLLGENRGANPVEYLLVALSGCLTTSLVAHAAARGIALRGVKSRYEGDIDLRGFLGLSEEVPVGYREIRVFFSIDADLTDGQKEELIRAQKYSPVYNTVAKPVPVAVLLDRG 2opo-a2-m1-cD_2opo-a2-m1-cC Crystal structure of the calcium-binding pollen allergen Che a 3 Q84V36 Q84V36 1.75 X-RAY DIFFRACTION 151 1.0 3559 (Chenopodium album) 3559 (Chenopodium album) 82 85 2opo-a1-m1-cA_2opo-a1-m1-cB DTPQDIADRERIFKRFDTNGDGKISSSELGDALKTLGSVTPDEVRRMMAEIDTDGDGFISFDEFTDFARANRGLVKDVSKIF AAEDTPQDIADRERIFKRFDTNGDGKISSSELGDALKTLGSVTPDEVRRMMAEIDTDGDGFISFDEFTDFARANRGLVKDVSKIF 2opy-a1-m1-cA_2opy-a1-m2-cA Smac mimic bound to BIR3-XIAP P98170 P98170 2.8 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 NFPNSTNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLVR NFPNSTNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLVR 2oq2-a2-m1-cD_2oq2-a2-m1-cC Crystal structure of yeast PAPS reductase with PAP, a product complex P18408 P18408 2.1 X-RAY DIFFRACTION 58 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 246 257 2oq2-a1-m1-cA_2oq2-a1-m1-cB MKTYHLNNDIIVTQEQLDHWNEQLIKLETPQEIIAWSIVTFPHLFQTTAFGLTGLVTIDMLSKLSEKYYMPELLFIDTLHHFPQTLTLKNEIEKKYYQPKNQTIHVYKPDGCESEADFASKYGDFLWEKDDDKYDYLAKVEPAHRAYKELHISAVFTGRRKSQGSARSQLSIIEIDELNGILKINPLINWTFEQVKQYIDANNVPYNELLDLGYRSIGDYHSTQPVKEGEDERAGRECGIHEASRF MKTYHLNNDIIVTQEQLDHWNEQLIKLETPQEIIAWSIVTFPHLFQTTAFGLTGLVTIDMLSKLSEKYYMPELLFIDTLHHFPQTLTLKNEIEKKYYQPKNQTIHVYKPDGCESEADFASKYGDFLWEKDDDKYDYLAKVEPAHRAYKELHISAVFTGRRKSQGSARSQLSIIEIDELNGILKINPLINWTFEQVKQYIDANNVPYNELLDLGYRSIGDYHSTQPVKEGEDERAGRWKGKAKTECGIHEASRFAQFL 2oqb-a1-m1-cB_2oqb-a1-m1-cA Crystal structure of the N-terminal domain of coactivator-associated methyltransferase 1 (CARM1) Q4AE70 Q4AE70 1.69 X-RAY DIFFRACTION 64 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 106 108 GSHMATVSVFPGARLLTIGDANGEIQRHAEQQALRLEVRAGPDAAGIALYSHEDVCVFKCSVSRETECSRVGRQSFIITLGCNSVLIQFATPHDFCSFYNILKTCR GSHMATVSVFPGARLLTIGDANGEIQRHAEQQALRLEVRAGPDAAGIALYSHEDVCVFKCSVSRETECSRVGRQSFIITLGCNSVLIQFATPHDFCSFYNILKTCRGH 2oqb-a2-m4-cB_2oqb-a2-m1-cA Crystal structure of the N-terminal domain of coactivator-associated methyltransferase 1 (CARM1) Q4AE70 Q4AE70 1.69 X-RAY DIFFRACTION 23 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 106 108 2oqb-a2-m3-cB_2oqb-a2-m2-cA GSHMATVSVFPGARLLTIGDANGEIQRHAEQQALRLEVRAGPDAAGIALYSHEDVCVFKCSVSRETECSRVGRQSFIITLGCNSVLIQFATPHDFCSFYNILKTCR GSHMATVSVFPGARLLTIGDANGEIQRHAEQQALRLEVRAGPDAAGIALYSHEDVCVFKCSVSRETECSRVGRQSFIITLGCNSVLIQFATPHDFCSFYNILKTCRGH 2oqb-a2-m4-cB_2oqb-a2-m2-cA Crystal structure of the N-terminal domain of coactivator-associated methyltransferase 1 (CARM1) Q4AE70 Q4AE70 1.69 X-RAY DIFFRACTION 66 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 106 108 2oqb-a2-m3-cB_2oqb-a2-m1-cA GSHMATVSVFPGARLLTIGDANGEIQRHAEQQALRLEVRAGPDAAGIALYSHEDVCVFKCSVSRETECSRVGRQSFIITLGCNSVLIQFATPHDFCSFYNILKTCR GSHMATVSVFPGARLLTIGDANGEIQRHAEQQALRLEVRAGPDAAGIALYSHEDVCVFKCSVSRETECSRVGRQSFIITLGCNSVLIQFATPHDFCSFYNILKTCRGH 2oqc-a1-m1-cA_2oqc-a1-m2-cB Crystal Structure of Penicillin V acylase from Bacillus subtilis P54948 P54948 2.5 X-RAY DIFFRACTION 31 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 317 317 2oqc-a1-m1-cB_2oqc-a1-m2-cA CTSLTLETADRKHVLARTMDFAFQLGTEVILYPRRYSWNSEADGRAHQTQYAFIGMGRKLGNILFADGINESGLSCAALYFPGYAEYEKTIREDTVHIVPHEFVTWVLSVCQSLEDVKEKIRSLTIVEKKLDLLDTVLPLHWILSDRTGRNLTIEPRADGLKVYDNQPGVMTNSPDFIWHVTNLQQYTGIRPKQLEAFGQGLGTVGLPGDYTPPSRFVRAVYLKEHLEPAADETKGVTAAFQILANMTIPKGAVITEEDEIHYTQYTSVMCNETGNYYFHHYDNRQIQKVNLFHEDLDCLEPKVFSAKAEESIHELN CTSLTLETADRKHVLARTMDFAFQLGTEVILYPRRYSWNSEADGRAHQTQYAFIGMGRKLGNILFADGINESGLSCAALYFPGYAEYEKTIREDTVHIVPHEFVTWVLSVCQSLEDVKEKIRSLTIVEKKLDLLDTVLPLHWILSDRTGRNLTIEPRADGLKVYDNQPGVMTNSPDFIWHVTNLQQYTGIRPKQLEAFGQGLGTVGLPGDYTPPSRFVRAVYLKEHLEPAADETKGVTAAFQILANMTIPKGAVITEEDEIHYTQYTSVMCNETGNYYFHHYDNRQIQKVNLFHEDLDCLEPKVFSAKAEESIHELN 2oqc-a1-m2-cA_2oqc-a1-m2-cB Crystal Structure of Penicillin V acylase from Bacillus subtilis P54948 P54948 2.5 X-RAY DIFFRACTION 13 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 317 317 2oqc-a1-m1-cA_2oqc-a1-m1-cB CTSLTLETADRKHVLARTMDFAFQLGTEVILYPRRYSWNSEADGRAHQTQYAFIGMGRKLGNILFADGINESGLSCAALYFPGYAEYEKTIREDTVHIVPHEFVTWVLSVCQSLEDVKEKIRSLTIVEKKLDLLDTVLPLHWILSDRTGRNLTIEPRADGLKVYDNQPGVMTNSPDFIWHVTNLQQYTGIRPKQLEAFGQGLGTVGLPGDYTPPSRFVRAVYLKEHLEPAADETKGVTAAFQILANMTIPKGAVITEEDEIHYTQYTSVMCNETGNYYFHHYDNRQIQKVNLFHEDLDCLEPKVFSAKAEESIHELN CTSLTLETADRKHVLARTMDFAFQLGTEVILYPRRYSWNSEADGRAHQTQYAFIGMGRKLGNILFADGINESGLSCAALYFPGYAEYEKTIREDTVHIVPHEFVTWVLSVCQSLEDVKEKIRSLTIVEKKLDLLDTVLPLHWILSDRTGRNLTIEPRADGLKVYDNQPGVMTNSPDFIWHVTNLQQYTGIRPKQLEAFGQGLGTVGLPGDYTPPSRFVRAVYLKEHLEPAADETKGVTAAFQILANMTIPKGAVITEEDEIHYTQYTSVMCNETGNYYFHHYDNRQIQKVNLFHEDLDCLEPKVFSAKAEESIHELN 2oqc-a3-m1-cB_2oqc-a3-m2-cB Crystal Structure of Penicillin V acylase from Bacillus subtilis P54948 P54948 2.5 X-RAY DIFFRACTION 247 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 317 317 2oqc-a1-m1-cA_2oqc-a1-m2-cA 2oqc-a1-m1-cB_2oqc-a1-m2-cB 2oqc-a2-m1-cA_2oqc-a2-m2-cA CTSLTLETADRKHVLARTMDFAFQLGTEVILYPRRYSWNSEADGRAHQTQYAFIGMGRKLGNILFADGINESGLSCAALYFPGYAEYEKTIREDTVHIVPHEFVTWVLSVCQSLEDVKEKIRSLTIVEKKLDLLDTVLPLHWILSDRTGRNLTIEPRADGLKVYDNQPGVMTNSPDFIWHVTNLQQYTGIRPKQLEAFGQGLGTVGLPGDYTPPSRFVRAVYLKEHLEPAADETKGVTAAFQILANMTIPKGAVITEEDEIHYTQYTSVMCNETGNYYFHHYDNRQIQKVNLFHEDLDCLEPKVFSAKAEESIHELN CTSLTLETADRKHVLARTMDFAFQLGTEVILYPRRYSWNSEADGRAHQTQYAFIGMGRKLGNILFADGINESGLSCAALYFPGYAEYEKTIREDTVHIVPHEFVTWVLSVCQSLEDVKEKIRSLTIVEKKLDLLDTVLPLHWILSDRTGRNLTIEPRADGLKVYDNQPGVMTNSPDFIWHVTNLQQYTGIRPKQLEAFGQGLGTVGLPGDYTPPSRFVRAVYLKEHLEPAADETKGVTAAFQILANMTIPKGAVITEEDEIHYTQYTSVMCNETGNYYFHHYDNRQIQKVNLFHEDLDCLEPKVFSAKAEESIHELN 2oqe-a4-m1-cA_2oqe-a4-m2-cF Crystal Structure of Hansenula polymorpha amine oxidase in complex with Xe to 1.6 Angstroms P12807 P12807 1.6 X-RAY DIFFRACTION 15 0.998 654 654 APARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGNVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAV APARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAV 2oqe-a5-m1-cF_2oqe-a5-m1-cD Crystal Structure of Hansenula polymorpha amine oxidase in complex with Xe to 1.6 Angstroms P12807 P12807 1.6 X-RAY DIFFRACTION 18 1.0 654 655 1a2v-a1-m1-cA_1a2v-a1-m1-cC 1a2v-a1-m1-cA_1a2v-a1-m1-cE 1a2v-a1-m1-cB_1a2v-a1-m1-cD 1a2v-a1-m1-cB_1a2v-a1-m1-cF 1a2v-a1-m1-cC_1a2v-a1-m1-cE 1a2v-a1-m1-cD_1a2v-a1-m1-cF 1ekm-a3-m1-cA_1ekm-a3-m1-cC 1ekm-a3-m1-cA_1ekm-a3-m2-cB 1ekm-a3-m1-cB_1ekm-a3-m2-cA 1ekm-a3-m1-cB_1ekm-a3-m2-cC 1ekm-a3-m1-cC_1ekm-a3-m2-cB 1ekm-a3-m2-cA_1ekm-a3-m2-cC 2oov-a4-m1-cA_2oov-a4-m1-cC 2oov-a4-m1-cA_2oov-a4-m1-cE 2oov-a4-m1-cB_2oov-a4-m1-cD 2oov-a4-m1-cB_2oov-a4-m1-cF 2oov-a4-m1-cC_2oov-a4-m1-cE 2oov-a4-m1-cD_2oov-a4-m1-cF 2oqe-a5-m1-cA_2oqe-a5-m1-cC 2oqe-a5-m1-cA_2oqe-a5-m1-cE 2oqe-a5-m1-cB_2oqe-a5-m1-cD 2oqe-a5-m1-cC_2oqe-a5-m1-cE 2oqe-a5-m1-cF_2oqe-a5-m1-cB 3n9h-a4-m1-cA_3n9h-a4-m1-cC 3n9h-a4-m1-cA_3n9h-a4-m1-cE 3n9h-a4-m1-cB_3n9h-a4-m1-cD 3n9h-a4-m1-cB_3n9h-a4-m1-cF 3n9h-a4-m1-cC_3n9h-a4-m1-cE 3n9h-a4-m1-cD_3n9h-a4-m1-cF 3nbb-a4-m1-cA_3nbb-a4-m1-cC 3nbb-a4-m1-cA_3nbb-a4-m1-cF 3nbb-a4-m1-cB_3nbb-a4-m1-cD 3nbb-a4-m1-cB_3nbb-a4-m1-cE 3nbb-a4-m1-cC_3nbb-a4-m1-cF 3nbb-a4-m1-cD_3nbb-a4-m1-cE 3nbj-a4-m1-cA_3nbj-a4-m1-cC 3nbj-a4-m1-cA_3nbj-a4-m1-cE 3nbj-a4-m1-cB_3nbj-a4-m1-cD 3nbj-a4-m1-cB_3nbj-a4-m1-cF 3nbj-a4-m1-cC_3nbj-a4-m1-cE 3nbj-a4-m1-cD_3nbj-a4-m1-cF 3sx1-a3-m1-cB_3sx1-a3-m3-cA 3sx1-a3-m1-cC_3sx1-a3-m4-cA 3sx1-a3-m1-cC_3sx1-a3-m5-cB 3sx1-a3-m4-cA_3sx1-a3-m5-cB 3sx1-a3-m5-cC_3sx1-a3-m1-cB 3sx1-a3-m5-cC_3sx1-a3-m3-cA 3sxx-a4-m1-cB_3sxx-a4-m1-cF 3sxx-a4-m1-cC_3sxx-a4-m1-cA 3sxx-a4-m1-cD_3sxx-a4-m1-cB 3sxx-a4-m1-cD_3sxx-a4-m1-cF 3sxx-a4-m1-cE_3sxx-a4-m1-cA 3sxx-a4-m1-cE_3sxx-a4-m1-cC 3t0u-a3-m1-cA_3t0u-a3-m1-cC 3t0u-a3-m1-cA_3t0u-a3-m2-cB 3t0u-a3-m1-cC_3t0u-a3-m2-cB 3t0u-a3-m2-cA_3t0u-a3-m1-cB 3t0u-a3-m2-cA_3t0u-a3-m2-cC 3t0u-a3-m2-cC_3t0u-a3-m1-cB 4ev2-a4-m1-cA_4ev2-a4-m1-cD 4ev2-a4-m1-cA_4ev2-a4-m1-cF 4ev2-a4-m1-cB_4ev2-a4-m1-cC 4ev2-a4-m1-cB_4ev2-a4-m1-cE 4ev2-a4-m1-cD_4ev2-a4-m1-cF 4ev2-a4-m1-cE_4ev2-a4-m1-cC 4ev5-a4-m1-cA_4ev5-a4-m1-cD 4ev5-a4-m1-cA_4ev5-a4-m1-cF 4ev5-a4-m1-cB_4ev5-a4-m1-cC 4ev5-a4-m1-cD_4ev5-a4-m1-cF 4ev5-a4-m1-cE_4ev5-a4-m1-cB 4ev5-a4-m1-cE_4ev5-a4-m1-cC APARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAV APARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGNVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAV 2oqg-a1-m1-cA_2oqg-a1-m1-cB ArsR-like Transcriptional Regulator from Rhodococcus sp. RHA1 Q0S8Y1 Q0S8Y1 1.54 X-RAY DIFFRACTION 22 0.991 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 107 107 GTVGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAES TVGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAESE 2oqg-a1-m1-cC_2oqg-a1-m1-cD ArsR-like Transcriptional Regulator from Rhodococcus sp. RHA1 Q0S8Y1 Q0S8Y1 1.54 X-RAY DIFFRACTION 11 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 105 105 VGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAES VGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAES 2oqg-a1-m1-cD_2oqg-a1-m1-cA ArsR-like Transcriptional Regulator from Rhodococcus sp. RHA1 Q0S8Y1 Q0S8Y1 1.54 X-RAY DIFFRACTION 11 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 105 107 VGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAES GTVGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAES 2oqg-a1-m1-cD_2oqg-a1-m1-cB ArsR-like Transcriptional Regulator from Rhodococcus sp. RHA1 Q0S8Y1 Q0S8Y1 1.54 X-RAY DIFFRACTION 88 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 105 107 2oqg-a1-m1-cC_2oqg-a1-m1-cA VGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAES TVGTYAELASVFAALSDETRWEILTELGRADQSASSLATRLPVSRQAIAKHLNALQACGLVESVKVGREIRYRALGAELNKTARTLERIGAEWDRRLAAIKQIAESE 2oqh-a5-m2-cA_2oqh-a5-m4-cA Crystal structure of an isomerase from Streptomyces coelicolor A3(2) Q9F3A5 Q9F3A5 1.98 X-RAY DIFFRACTION 29 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 350 350 2oqh-a5-m1-cA_2oqh-a5-m3-cA 2oqh-a5-m1-cA_2oqh-a5-m4-cA 2oqh-a5-m1-cC_2oqh-a5-m3-cC 2oqh-a5-m1-cC_2oqh-a5-m4-cC 2oqh-a5-m2-cA_2oqh-a5-m3-cA 2oqh-a5-m2-cC_2oqh-a5-m3-cC 2oqh-a5-m2-cC_2oqh-a5-m4-cC 2oqh-a6-m1-cB_2oqh-a6-m6-cB 2oqh-a6-m1-cB_2oqh-a6-m7-cB 2oqh-a6-m1-cD_2oqh-a6-m6-cD 2oqh-a6-m1-cD_2oqh-a6-m7-cD 2oqh-a6-m5-cB_2oqh-a6-m6-cB 2oqh-a6-m5-cB_2oqh-a6-m7-cB 2oqh-a6-m5-cD_2oqh-a6-m6-cD 2oqh-a6-m5-cD_2oqh-a6-m7-cD 4dye-a1-m1-cA_4dye-a1-m3-cA 4dye-a1-m1-cA_4dye-a1-m4-cA 4dye-a1-m2-cA_4dye-a1-m3-cA 4dye-a1-m2-cA_4dye-a1-m4-cA 4dye-a1-m5-cA_4dye-a1-m7-cA 4dye-a1-m5-cA_4dye-a1-m8-cA 4dye-a1-m6-cA_4dye-a1-m7-cA 4dye-a1-m6-cA_4dye-a1-m8-cA SLKITDVDVWVVNLPLVNPFGETRTVVRVRTDSGVEGWGETWGAPVAAIVRRAPDLIGTSPFALEAFHRKQHVPFFYGYLGYAAIAAVDVACWDAGKATGQSVTDLLGGAVRDEVPITALITRADAPGATPADLPKAAEHAVRVVEEGGFDAVKLKGTTDCAGDVAILRAVREALPGVNLRVDPNAAWSVPDSVRAGIALEELDLEYLEDPCVGIEGAQVKAKVRIPLCTNCVVRFEDFAPARLNAVDVIHGDVYKWGGIAATKALAAHCETFGLGNLHSGGELGIATAAHLAVVSSTPVLSRAIDSYYLHADDIIEPLHLENGRLRVPSGPGLGVSVDEDKLRHYAGVN SLKITDVDVWVVNLPLVNPFGETRTVVRVRTDSGVEGWGETWGAPVAAIVRRAPDLIGTSPFALEAFHRKQHVPFFYGYLGYAAIAAVDVACWDAGKATGQSVTDLLGGAVRDEVPITALITRADAPGATPADLPKAAEHAVRVVEEGGFDAVKLKGTTDCAGDVAILRAVREALPGVNLRVDPNAAWSVPDSVRAGIALEELDLEYLEDPCVGIEGAQVKAKVRIPLCTNCVVRFEDFAPARLNAVDVIHGDVYKWGGIAATKALAAHCETFGLGNLHSGGELGIATAAHLAVVSSTPVLSRAIDSYYLHADDIIEPLHLENGRLRVPSGPGLGVSVDEDKLRHYAGVN 2oqh-a6-m7-cD_2oqh-a6-m5-cB Crystal structure of an isomerase from Streptomyces coelicolor A3(2) Q9F3A5 Q9F3A5 1.98 X-RAY DIFFRACTION 84 0.997 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 361 364 2oqh-a5-m1-cA_2oqh-a5-m4-cC 2oqh-a5-m2-cA_2oqh-a5-m3-cC 2oqh-a5-m3-cA_2oqh-a5-m1-cC 2oqh-a5-m4-cA_2oqh-a5-m2-cC 2oqh-a6-m1-cD_2oqh-a6-m7-cB 2oqh-a6-m5-cD_2oqh-a6-m6-cB 2oqh-a6-m6-cD_2oqh-a6-m1-cB 4dye-a1-m1-cA_4dye-a1-m6-cA 4dye-a1-m2-cA_4dye-a1-m5-cA 4dye-a1-m3-cA_4dye-a1-m7-cA 4dye-a1-m4-cA_4dye-a1-m8-cA SLKITDVDVWVVNLPLVNPFETKTGETRTVVRVRTDSGVEGWGETWGAPVAAIVRRAPDLIGTSPFALEAFHRKQHVPFFYGYLGYAAIAAVDVACWDAGKATGQSVTDLLGGAVRDEVPITALITRADAPGATPADLPKAAEHAVRVVEEGGFDAVKLKGTTDCAGDVAILRAVREALPGVNLRVDPNAAWSVPDSVRAGIALEELDLEYLEDPCVGIEGAQVKAKVRIPLCTNCVVRFEDFAPARLNAVDVIHGDVYKWGGIAATKALAAHCETFGLGNLHSGGELGIATAAHLAVVSSTPVLSRAIDSYYLHADDIIEPLHLENGRLRVPSGPGLGVSVDEDKLRHYAGVNERDGDLT LKITDVDVWVVNLPLVNPFTSSFETKTGETRTVVRVRTDSGVEGWGETWGAPVAAIVRRAPDLIGTSPFALEAFHRKQHVPFFYGYLGYAAIAAVDVACWDAGKATGQSVTDLLGGAVRDEVPITALITRADAPGATPADLPKAAEHAVRVVEEGGFDAVKLKGTTDCAGDVAILRAVREALPGVNLRVDPNAAWSVPDSVRAGIALEELDLEYLEDPCVGIEGAQVKAKVRIPLCTNCVVRFEDFAPARLNAVDVIHGDVYKWGGIAATKALAAHCETFGLGNLHSGGELGIATAAHLAVVSSTPVLSRAIDSYYLHADDIIEPLHLENGRLRVPSGPGLGVSVDEDKLRHYAGVNERDGDLT 2oqh-a6-m7-cD_2oqh-a6-m7-cB Crystal structure of an isomerase from Streptomyces coelicolor A3(2) Q9F3A5 Q9F3A5 1.98 X-RAY DIFFRACTION 60 0.997 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 361 364 2oqh-a5-m1-cA_2oqh-a5-m1-cC 2oqh-a5-m2-cA_2oqh-a5-m2-cC 2oqh-a5-m3-cA_2oqh-a5-m3-cC 2oqh-a5-m4-cA_2oqh-a5-m4-cC 2oqh-a6-m1-cD_2oqh-a6-m1-cB 2oqh-a6-m5-cD_2oqh-a6-m5-cB 2oqh-a6-m6-cD_2oqh-a6-m6-cB 4dye-a1-m1-cA_4dye-a1-m7-cA 4dye-a1-m2-cA_4dye-a1-m8-cA 4dye-a1-m3-cA_4dye-a1-m5-cA 4dye-a1-m4-cA_4dye-a1-m6-cA 4dye-a2-m1-cA_4dye-a2-m7-cA SLKITDVDVWVVNLPLVNPFETKTGETRTVVRVRTDSGVEGWGETWGAPVAAIVRRAPDLIGTSPFALEAFHRKQHVPFFYGYLGYAAIAAVDVACWDAGKATGQSVTDLLGGAVRDEVPITALITRADAPGATPADLPKAAEHAVRVVEEGGFDAVKLKGTTDCAGDVAILRAVREALPGVNLRVDPNAAWSVPDSVRAGIALEELDLEYLEDPCVGIEGAQVKAKVRIPLCTNCVVRFEDFAPARLNAVDVIHGDVYKWGGIAATKALAAHCETFGLGNLHSGGELGIATAAHLAVVSSTPVLSRAIDSYYLHADDIIEPLHLENGRLRVPSGPGLGVSVDEDKLRHYAGVNERDGDLT LKITDVDVWVVNLPLVNPFTSSFETKTGETRTVVRVRTDSGVEGWGETWGAPVAAIVRRAPDLIGTSPFALEAFHRKQHVPFFYGYLGYAAIAAVDVACWDAGKATGQSVTDLLGGAVRDEVPITALITRADAPGATPADLPKAAEHAVRVVEEGGFDAVKLKGTTDCAGDVAILRAVREALPGVNLRVDPNAAWSVPDSVRAGIALEELDLEYLEDPCVGIEGAQVKAKVRIPLCTNCVVRFEDFAPARLNAVDVIHGDVYKWGGIAATKALAAHCETFGLGNLHSGGELGIATAAHLAVVSSTPVLSRAIDSYYLHADDIIEPLHLENGRLRVPSGPGLGVSVDEDKLRHYAGVNERDGDLT 2oqk-a2-m1-cA_2oqk-a2-m2-cA Crystal structure of putative Cryptosporidium parvum translation initiation factor eIF-1A Q5CVP1 Q5CVP1 1.8 X-RAY DIFFRACTION 12 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 92 92 DKRELVFKEEGQEYGQVQRLGNGRLDAYCFDGQKRLCHIRGKRKKVWVNPGDIVLVSLRDFQDSKGDIILKYTPDEARALKSKGEIPETTKI DKRELVFKEEGQEYGQVQRLGNGRLDAYCFDGQKRLCHIRGKRKKVWVNPGDIVLVSLRDFQDSKGDIILKYTPDEARALKSKGEIPETTKI 2oqm-a2-m1-cD_2oqm-a2-m1-cC Crystal structure of a dinb family member protein (sden_0562) from shewanella denitrificans at 1.83 A resolution Q12RS4 Q12RS4 1.83 X-RAY DIFFRACTION 103 0.994 192073 (Shewanella denitrificans) 192073 (Shewanella denitrificans) 174 175 2oqm-a1-m1-cB_2oqm-a1-m1-cA ENLYFQGLYDLTVVQFSKLKNLNAIFDKAEAFAELKKVDDVLLNSRLAADQFNLIRQVQIACDTAKVGVARLTGQLETAPKHDDSETTLAELRQRIASVLTYLEGFSEADFANAATIQISQPRWQGKYLTGYEFAIEHAIPNLYFHITTAYGILRHNGVEVGKKDYLGAPYKAP NLYFQGLYDLTVVQFSKLKNLNAIFDKAEAFAELKKVDDVLLNSRLAADQFNLIRQVQIACDTAKVGVARLTGQLETAPKHDDSETTLAELRQRIASVLTYLEGFSEADFANAATIQISQPRWQGKYLTGYEFAIEHAIPNLYFHITTAYGILRHNGVEVGKKDYLGAPYKAPIL 2oqq-a2-m1-cA_2oqq-a2-m2-cA Crystal structure of HY5 leucine zipper homodimer from Arabidopsis thaliana O24646 O24646 2 X-RAY DIFFRACTION 10 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 42 42 GSAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKN GSAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKN 2oqq-a2-m1-cB_2oqq-a2-m2-cB Crystal structure of HY5 leucine zipper homodimer from Arabidopsis thaliana O24646 O24646 2 X-RAY DIFFRACTION 17 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 42 42 GSAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKN GSAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKN 2oqq-a2-m2-cA_2oqq-a2-m2-cB Crystal structure of HY5 leucine zipper homodimer from Arabidopsis thaliana O24646 O24646 2 X-RAY DIFFRACTION 53 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 42 42 2oqq-a1-m1-cA_2oqq-a1-m1-cB 2oqq-a2-m1-cA_2oqq-a2-m1-cB GSAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKN GSAYLSELENRVKDLENKNSELEERLSTLQNENQMLRHILKN 2oqr-a1-m1-cA_2oqr-a1-m2-cA The structure of the response regulator RegX3 from Mycobacterium tuberculosis P9WGL9 P9WGL9 2.03 X-RAY DIFFRACTION 144 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 226 226 ATSVLIVEDEESLADPLAFLLRKEGFEATVVTDGPAALAEFDRAGADIVLLDLMLPGMSGTDVCKQLRARSSVPVIMVTARDSEIDKVVGLELGADDYVTKPYSARELIARIRAVLRRGGDDDSEMSDGVLESGPVRMDVERHVVSVNGDTITLPLKEFDLLEYLMRNSGRVLTRGQLIDRVWGADYVGDTKTLDVHVKRLRSKIEADPANPVHLVTVRGLGYKLE ATSVLIVEDEESLADPLAFLLRKEGFEATVVTDGPAALAEFDRAGADIVLLDLMLPGMSGTDVCKQLRARSSVPVIMVTARDSEIDKVVGLELGADDYVTKPYSARELIARIRAVLRRGGDDDSEMSDGVLESGPVRMDVERHVVSVNGDTITLPLKEFDLLEYLMRNSGRVLTRGQLIDRVWGADYVGDTKTLDVHVKRLRSKIEADPANPVHLVTVRGLGYKLE 2oqt-a5-m1-cC_2oqt-a5-m1-cD Structural Genomics, the crystal structure of a putative PTS IIA domain from Streptococcus pyogenes M1 GAS Q9A1N7 Q9A1N7 2.41 X-RAY DIFFRACTION 39 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 149 151 ANLKQALIDNNSIRLGLSADTWQEAVRLAVQPLIDSKAVTSAYYDAIIASTEKYGPYYVLPGAPHAEAGLGVNRNAFALITLTKPVTFSDGKEVSVLLTLAATDPSIHTTVAIPQIVALFELDNAIERLVACQSPKEVLEVEESKDSPY ANLKQALIDNNSIRLGLSADTWQEAVRLAVQPLIDSKAVTSAYYDAIIASTEKYGPYYVLPGAPHAEAGLGVNRNAFALITLTKPVTFSDGKEVSVLLTLAATDPSIHTTVAIPQIVALFELDNAIERLVACQSPKEVLEVEESKDSPYLE 2oqt-a6-m1-cA_2oqt-a6-m1-cB Structural Genomics, the crystal structure of a putative PTS IIA domain from Streptococcus pyogenes M1 GAS Q9A1N7 Q9A1N7 2.41 X-RAY DIFFRACTION 46 0.993 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 146 146 ANLKQALIDNNSIRLGLSADTWQEAVRLAVQPLIDSKAVTSAYYDAIIASTEKYGPYYVLPGAPHAEALGVNRNAFALITLTKPVTFSDGKEVSVLLTLAATDPSIHTTVAIPQIVALFELDNAIERLVACQSPKEVLEVEESKDS ANLKQALIDNNSIRLGLSADTWQEAVRLAVQPLIDSKAVTSAYYDAIIASTEKYGPYYVLPGAPHAEAGLGVNRNAFALITLTKPVTFSDGKEVSVLLTLAATDPSIHTTVAIPQIVALFELDNAIERLVACQSPKEVLEVEESKD 2or0-a3-m1-cA_2or0-a3-m2-cB Structural Genomics, the crystal structure of a putative hydroxylase from Rhodococcus sp. RHA1 Q0S6I7 Q0S6I7 2.1 X-RAY DIFFRACTION 125 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 374 397 2or0-a3-m2-cA_2or0-a3-m1-cB GRVLDRIEVVAEEIRGQAVQSEADCRLTDAAAGLLRDSGAIRLLQPRLYGGYEVHPREFAETVGVAALDGASGWVTGIVGVHPWELAFADPQVQEEIWGEDNDTWASPYAPGVATPVDGGYVLKGRWSFSSGTDHCQWAFLGAVGDATPSSLHVILPRTDYQIVEDTWDVIGLRGTGSKDLIVDGAFVPGYRTLNAAKVDGRAQKEAGRPEPLFNPYSCFPLGITAAVIGITEGALACHIAVQKDRVAITGQKIKEDPYVLSAIGESAAEINASRVSLIETADRFYDKVDAGKEITFEERAIGRRTQIAAAWRAVRAADEIFARAGGGALHYKTPQRFWRDAHAGLAHAVHVPGPTNHASALTQLGGEPQGRAI SHHHHHHSSGRENLYFQGGRVLDRIEVVAEEIRGQAVQSEADCRLTDAAAGLLRDSGAIRLLQPRLYGGYEVHPREFAETVGVAALDGASGWVTGIVGVHPWELAFADPQVQEEIWGEDNDTWASPYAPGVATPVDGGYVLKGRWSFSSGTDHCQWAFLGAVGDGEGGIATPSSLHVILPRTDYQIVEDTWDVIGLRGTGSKDLIVDGAFVPGYRTLNAAKVDGRAQKEAGRPEPLFNPYSCFPLGITAAVIGITEGALACHIAVQKDRVAITGQKIKEDPYVLSAIGESAAEINASRVSLIETADRFYDKVDAGKEITFEERAIGRRTQIAAAWRAVRAADEIFARAGGGALHYKTPQRFWRDAHAGLAHAVHVPGPTNHASALTQLGGEPQGRAI 2or0-a3-m2-cA_2or0-a3-m2-cB Structural Genomics, the crystal structure of a putative hydroxylase from Rhodococcus sp. RHA1 Q0S6I7 Q0S6I7 2.1 X-RAY DIFFRACTION 78 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 374 397 2or0-a3-m1-cA_2or0-a3-m1-cB GRVLDRIEVVAEEIRGQAVQSEADCRLTDAAAGLLRDSGAIRLLQPRLYGGYEVHPREFAETVGVAALDGASGWVTGIVGVHPWELAFADPQVQEEIWGEDNDTWASPYAPGVATPVDGGYVLKGRWSFSSGTDHCQWAFLGAVGDATPSSLHVILPRTDYQIVEDTWDVIGLRGTGSKDLIVDGAFVPGYRTLNAAKVDGRAQKEAGRPEPLFNPYSCFPLGITAAVIGITEGALACHIAVQKDRVAITGQKIKEDPYVLSAIGESAAEINASRVSLIETADRFYDKVDAGKEITFEERAIGRRTQIAAAWRAVRAADEIFARAGGGALHYKTPQRFWRDAHAGLAHAVHVPGPTNHASALTQLGGEPQGRAI SHHHHHHSSGRENLYFQGGRVLDRIEVVAEEIRGQAVQSEADCRLTDAAAGLLRDSGAIRLLQPRLYGGYEVHPREFAETVGVAALDGASGWVTGIVGVHPWELAFADPQVQEEIWGEDNDTWASPYAPGVATPVDGGYVLKGRWSFSSGTDHCQWAFLGAVGDGEGGIATPSSLHVILPRTDYQIVEDTWDVIGLRGTGSKDLIVDGAFVPGYRTLNAAKVDGRAQKEAGRPEPLFNPYSCFPLGITAAVIGITEGALACHIAVQKDRVAITGQKIKEDPYVLSAIGESAAEINASRVSLIETADRFYDKVDAGKEITFEERAIGRRTQIAAAWRAVRAADEIFARAGGGALHYKTPQRFWRDAHAGLAHAVHVPGPTNHASALTQLGGEPQGRAI 2or2-a1-m1-cA_2or2-a1-m1-cB Structure of the W47A/W242A Mutant of Bacterial Phosphatidylinositol-Specific Phospholipase C P08954 P08954 1.84 X-RAY DIFFRACTION 58 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 296 296 ASSVNELENWSKWMQPIPDNIPLARISIPGTHDSGTFKLQNPIKQVAGMTQEYDFRYQMDHGARIFDIRGRLTDDNTIVLHHGPLYLYVTLHEFINEAKQFLKDNPSETIIMSLKKEYEDMKGAEGSFSSTFEKNYFVDPIFLKTEGNIKLGDARGKIVLLKRYSGSNESGGYNNFYWPDNETFTTTVNQNVNVTVQDKYKVNYDEKVKSIKDTMDETMNNSEDLNHLYINFTSLSSGGTAANSPYYYASYINPEIANDIKQKNPTRVGWVIQDYINEKWSPLLYQEVIRANKSLI ASSVNELENWSKWMQPIPDNIPLARISIPGTHDSGTFKLQNPIKQVAGMTQEYDFRYQMDHGARIFDIRGRLTDDNTIVLHHGPLYLYVTLHEFINEAKQFLKDNPSETIIMSLKKEYEDMKGAEGSFSSTFEKNYFVDPIFLKTEGNIKLGDARGKIVLLKRYSGSNESGGYNNFYWPDNETFTTTVNQNVNVTVQDKYKVNYDEKVKSIKDTMDETMNNSEDLNHLYINFTSLSSGGTAANSPYYYASYINPEIANDIKQKNPTRVGWVIQDYINEKWSPLLYQEVIRANKSLI 2ord-a1-m1-cA_2ord-a1-m1-cB Crystal structure of Acetylornithine aminotransferase (EC 2.6.1.11) (ACOAT) (TM1785) from Thermotoga maritima at 1.40 A resolution Q9X2A5 Q9X2A5 1.4 X-RAY DIFFRACTION 355 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 384 384 2e54-a1-m1-cA_2e54-a1-m2-cA KIHHHHHHYLNTYSRFPATFVYGKGSWIYDEKGNAYLDFTSGIAVNVLGHSHPRLVEAIKDQAEKLIHCSNLFWNRPQELAELLSKNTFGGKVFFANTGTEANEAAIKIARKYGKKKSEKKYRILSAHNSFHGRTLGSLTATGQPKYQKPFEPLVPGFEYFEFNNVEDLRRKSEDVCAVFLEPIQGESGIVPATKEFLEEARKLCDEYDALLVFDEVQCGGRTGKLFAYQKYGVVPDVLTTAKGLGGGVPIGAVIVNERANVLEPGDHGTTFGGNPLACRAGVTVIKELTKEGFLEEVEEKGNYLKKLQEKEEYDVVADVRGGLIGIQFREEVSNREVATKCFENKLLVVPAGNNTIRFLPPLTVEYGEIDLAVETLKKVLQGI KIHHHHHHYLNTYSRFPATFVYGKGSWIYDEKGNAYLDFTSGIAVNVLGHSHPRLVEAIKDQAEKLIHCSNLFWNRPQELAELLSKNTFGGKVFFANTGTEANEAAIKIARKYGKKKSEKKYRILSAHNSFHGRTLGSLTATGQPKYQKPFEPLVPGFEYFEFNNVEDLRRKSEDVCAVFLEPIQGESGIVPATKEFLEEARKLCDEYDALLVFDEVQCGGRTGKLFAYQKYGVVPDVLTTAKGLGGGVPIGAVIVNERANVLEPGDHGTTFGGNPLACRAGVTVIKELTKEGFLEEVEEKGNYLKKLQEKEEYDVVADVRGGLIGIQFREEVSNREVATKCFENKLLVVPAGNNTIRFLPPLTVEYGEIDLAVETLKKVLQGI 2ori-a1-m1-cA_2ori-a1-m1-cB Crystal structure of a thermostable mutant of Bacillus subtilis Adenylate Kinase (A193V/Q199R/) P16304 P16304 1.8 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 216 216 MNLVLMGLPGAGKGTQGERIVEDYGIPHISTGDMFRAAMKEETPLGLEAKSYIDKGELVPDEVTIGIVKERLGKDDCERGFLLDGFPRTVAQAEALEEILEEYGKPIDYVINIEVDKDVLMERLTGRRICSVCGTTYHLVFNPPKTPGICDKDGGELYQRADDNEETVSKRLEVNMKQTQPLLDFYSEKGYLVNVNGQRDIQDVYADVKDLLGGLK MNLVLMGLPGAGKGTQGERIVEDYGIPHISTGDMFRAAMKEETPLGLEAKSYIDKGELVPDEVTIGIVKERLGKDDCERGFLLDGFPRTVAQAEALEEILEEYGKPIDYVINIEVDKDVLMERLTGRRICSVCGTTYHLVFNPPKTPGICDKDGGELYQRADDNEETVSKRLEVNMKQTQPLLDFYSEKGYLVNVNGQRDIQDVYADVKDLLGGLK 2orr-a1-m1-cA_2orr-a1-m2-cA Murine Inducible Nitric Oxide Synthase Oxygenase Domain (Delta 114) 4-(Benzo[1,3]dioxol-5-yloxy)-2-(4-imidazol-1-yl-phenoxy)-pyrimidine Complex P29477 P29477 2 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 291 291 1dd7-a1-m1-cA_1dd7-a1-m2-cA 2orq-a1-m1-cA_2orq-a1-m2-cA 2ors-a1-m1-cA_2ors-a1-m2-cA 2ort-a1-m1-cA_2ort-a1-m2-cA MNPKSLTRGPRDKPTPLEELLPHAIEFINQYYGSFKEAKIEEHLARLEAVTKEIETTGTYQLTLDELIFATKMAWRNAPRCIGRIQWSNLQVFDARNCSTAQEMFQHICRHILYATNNGNIRSAITVFPQRSDGKHDFRLWNSQLIRYAGYTIRGDAATLEFTQLCIDLGWKPRYGRFDVLPLVLQADGQDPEVFEIPPDLVLEVTMELKWYALPAVANMLLEVGGLEFPACPFNGWYMVAVLHSFQKQNVTIMDHHTASESFMKHMQNEYVLSPFYYYQIEPWKTHIWQN MNPKSLTRGPRDKPTPLEELLPHAIEFINQYYGSFKEAKIEEHLARLEAVTKEIETTGTYQLTLDELIFATKMAWRNAPRCIGRIQWSNLQVFDARNCSTAQEMFQHICRHILYATNNGNIRSAITVFPQRSDGKHDFRLWNSQLIRYAGYTIRGDAATLEFTQLCIDLGWKPRYGRFDVLPLVLQADGQDPEVFEIPPDLVLEVTMELKWYALPAVANMLLEVGGLEFPACPFNGWYMVAVLHSFQKQNVTIMDHHTASESFMKHMQNEYVLSPFYYYQIEPWKTHIWQN 2ory-a3-m1-cA_2ory-a3-m1-cB Crystal structure of M37 lipase Q5DRN8 Q5DRN8 2.2 X-RAY DIFFRACTION 113 0.997 269172 (Photobacterium sp. M37) 269172 (Photobacterium sp. M37) 335 344 SYTKEQLMLAFSYMSYYGITHTKNAELILKKMKEALKTWKPFQEDDWEVVWGPAVYTMPFTIFNDAMMYVIQKKGAEGEYVIAIRGTNPVSISDWLFNDFMVSAMKKWPYASVEGRILKISESTSYGLKTLQKLKPKSHIPGENKTILQFLNEKIGPEGKAKICVTGHSKGGALSSTLALWLKDIQGVKLSQNIDISTIPFAGPTAGNADFADYFDDCLGDQCTRIANSLDIVPYAWNTNSLKKLKSIYISEQASVKPLLYQRALIRAMIAETKGKKYKQIKAETPPLEGNINPILIEYLVQAAYQHVVGYPELMGMMDDIPLTDIFEDAIAGLL YTKEQLMLAFSYMSYYGITHTGSAKKNAELILKKMKEALKTWKPFQEDDWEVVWGPAVYTMPFTIFNDAMMYVIQKKGAEGEYVIAIRGTNPVSISDWLFNDFMVSAMKKWPYASVEGRILKISESTSYGLKTLQKLKPKSHIPGENKTILQFLNEKIGPEGKAKICVTGHSKGGALSSTLALWLKDIQGVKLSQNIDISTIPFAGPTAGNADFADYFDDCLGDQCTRIANSLDIVPYAWNTNSLKKLKSIYISEQASVKPLLYQRALIRAMIAETKGKKYKQIKAETPPLEGNINPILIEYLVQAAYQHVVGYPELMGMMDDIPLTDIFEDAIAGLLHHHHHH 2os5-a4-m2-cB_2os5-a4-m6-cB Macrophage migration inhibitory factor from Ancylostoma ceylanicum A4GRE3 A4GRE3 1.6 X-RAY DIFFRACTION 27 1.0 53326 (Ancylostoma ceylanicum) 53326 (Ancylostoma ceylanicum) 118 118 2os5-a4-m1-cB_2os5-a4-m4-cB 2os5-a4-m3-cB_2os5-a4-m5-cB PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAATM PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAATM 2os5-a4-m6-cA_2os5-a4-m6-cD Macrophage migration inhibitory factor from Ancylostoma ceylanicum A4GRE3 A4GRE3 1.6 X-RAY DIFFRACTION 61 1.0 53326 (Ancylostoma ceylanicum) 53326 (Ancylostoma ceylanicum) 118 118 2os5-a3-m1-cA_2os5-a3-m1-cD 2os5-a3-m1-cB_2os5-a3-m3-cC 2os5-a3-m1-cC_2os5-a3-m2-cB 2os5-a3-m2-cA_2os5-a3-m2-cD 2os5-a3-m2-cC_2os5-a3-m3-cB 2os5-a3-m3-cA_2os5-a3-m3-cD 2os5-a4-m1-cA_2os5-a4-m1-cD 2os5-a4-m1-cB_2os5-a4-m3-cC 2os5-a4-m1-cC_2os5-a4-m2-cB 2os5-a4-m2-cA_2os5-a4-m2-cD 2os5-a4-m2-cC_2os5-a4-m3-cB 2os5-a4-m3-cA_2os5-a4-m3-cD 2os5-a4-m4-cA_2os5-a4-m4-cD 2os5-a4-m4-cB_2os5-a4-m6-cC 2os5-a4-m4-cC_2os5-a4-m5-cB 2os5-a4-m5-cA_2os5-a4-m5-cD 2os5-a4-m5-cC_2os5-a4-m6-cB PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAATM PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAATM 2os5-a4-m6-cC_2os5-a4-m6-cD Macrophage migration inhibitory factor from Ancylostoma ceylanicum A4GRE3 A4GRE3 1.6 X-RAY DIFFRACTION 96 1.0 53326 (Ancylostoma ceylanicum) 53326 (Ancylostoma ceylanicum) 118 118 2os5-a1-m1-cA_2os5-a1-m2-cA 2os5-a1-m1-cA_2os5-a1-m3-cA 2os5-a1-m2-cA_2os5-a1-m3-cA 2os5-a2-m1-cB_2os5-a2-m1-cC 2os5-a2-m1-cB_2os5-a2-m1-cD 2os5-a2-m1-cC_2os5-a2-m1-cD 2os5-a3-m1-cA_2os5-a3-m2-cA 2os5-a3-m1-cA_2os5-a3-m3-cA 2os5-a3-m1-cB_2os5-a3-m1-cC 2os5-a3-m1-cB_2os5-a3-m1-cD 2os5-a3-m1-cC_2os5-a3-m1-cD 2os5-a3-m2-cA_2os5-a3-m3-cA 2os5-a3-m2-cB_2os5-a3-m2-cC 2os5-a3-m2-cB_2os5-a3-m2-cD 2os5-a3-m2-cC_2os5-a3-m2-cD 2os5-a3-m3-cB_2os5-a3-m3-cC 2os5-a3-m3-cB_2os5-a3-m3-cD 2os5-a3-m3-cC_2os5-a3-m3-cD 2os5-a4-m1-cA_2os5-a4-m2-cA 2os5-a4-m1-cA_2os5-a4-m3-cA 2os5-a4-m1-cB_2os5-a4-m1-cC 2os5-a4-m1-cB_2os5-a4-m1-cD 2os5-a4-m1-cC_2os5-a4-m1-cD 2os5-a4-m2-cA_2os5-a4-m3-cA 2os5-a4-m2-cB_2os5-a4-m2-cC 2os5-a4-m2-cB_2os5-a4-m2-cD 2os5-a4-m2-cC_2os5-a4-m2-cD 2os5-a4-m3-cB_2os5-a4-m3-cC 2os5-a4-m3-cB_2os5-a4-m3-cD 2os5-a4-m3-cC_2os5-a4-m3-cD 2os5-a4-m4-cA_2os5-a4-m5-cA 2os5-a4-m4-cA_2os5-a4-m6-cA 2os5-a4-m4-cB_2os5-a4-m4-cC 2os5-a4-m4-cB_2os5-a4-m4-cD 2os5-a4-m4-cC_2os5-a4-m4-cD 2os5-a4-m5-cA_2os5-a4-m6-cA 2os5-a4-m5-cB_2os5-a4-m5-cC 2os5-a4-m5-cB_2os5-a4-m5-cD 2os5-a4-m5-cC_2os5-a4-m5-cD 2os5-a4-m6-cB_2os5-a4-m6-cC 2os5-a4-m6-cB_2os5-a4-m6-cD 3rf4-a1-m1-cA_3rf4-a1-m1-cB 3rf4-a1-m1-cA_3rf4-a1-m1-cC 3rf4-a1-m1-cB_3rf4-a1-m1-cC 3rf4-a2-m1-cA_3rf4-a2-m1-cB 3rf4-a2-m1-cA_3rf4-a2-m1-cC 3rf4-a2-m1-cB_3rf4-a2-m1-cC 3rf4-a2-m2-cA_3rf4-a2-m2-cB 3rf4-a2-m2-cA_3rf4-a2-m2-cC 3rf4-a2-m2-cB_3rf4-a2-m2-cC 3rf5-a1-m1-cA_3rf5-a1-m1-cB 3rf5-a1-m1-cA_3rf5-a1-m1-cC 3rf5-a1-m1-cB_3rf5-a1-m1-cC PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAATM PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAATM 2os7-a2-m1-cF_2os7-a2-m1-cD Caf1M periplasmic chaperone tetramer P26926 P26926 2.9 X-RAY DIFFRACTION 11 0.995 632 (Yersinia pestis) 632 (Yersinia pestis) 190 195 KFASKEYGVTIGESRIIYPLDAAGVMVSVKNTQDYPVLIQSRIYPFVVTPPLFRLDAKQQNSLRIAPRDKESLKWLCVKGIPQKFNPDKDVGVFVQFAINNCIKLLVRPNELKGTPIQFAENLSWKVDGGKLIAENPSPFYMNIGELTFGGKSIPSHYIPPKSTWAFDLNVSWRIINDQGGLDRLYSKNV KFASKEYGVTIGESRIIYPLDAAGVMVSVKNTQDYPVLIQSRIYPFVVTPPLFRLDAKQQNSLRIAQAGGVFPRDKESLKWLCVKGIPQKFNPDKDVGVFVQFAINNCIKLLVRPNELKGTPIQFAENLSWKVDGGKLIAENPSPFYMNIGELTFGGKSIPSHYIPPKSTWAFDLNVSWRIINDQGGLDRLYSKN 2ose-a1-m2-cA_2ose-a1-m3-cA Crystal Structure of the Mimivirus Cyclophilin Q5UP71 Q5UP71 2.04 X-RAY DIFFRACTION 46 1.0 315393 (Mimivirus) 315393 (Mimivirus) 195 195 2ose-a1-m1-cA_2ose-a1-m2-cA 2ose-a1-m1-cA_2ose-a1-m3-cA MNYSLEDLPNSGKNPRVYMDIVLNNEIIGRLQIKLFRDAFPAGVENFVQLTNGKTYRNRTYEGCKFHNVLHNNYIVSGDIYSSAGTVYCDEPIPPVFGDYFYPHESKGLLSLVPYTDESGNRYYDSTFMITLDDIRPSNVLDELDRDQVVIGQVYGGLDVLDKINSMIKPYAGRKYPTFSIGKCGAYLDSSQAQR MNYSLEDLPNSGKNPRVYMDIVLNNEIIGRLQIKLFRDAFPAGVENFVQLTNGKTYRNRTYEGCKFHNVLHNNYIVSGDIYSSAGTVYCDEPIPPVFGDYFYPHESKGLLSLVPYTDESGNRYYDSTFMITLDDIRPSNVLDELDRDQVVIGQVYGGLDVLDKINSMIKPYAGRKYPTFSIGKCGAYLDSSQAQR 2oso-a1-m1-cA_2oso-a1-m2-cA Crystal structure of a vinyl-4-reductase family protein (mj_1460) from methanocaldococcus jannaschii dsm at 1.90 A resolution Q58855 Q58855 1.9 X-RAY DIFFRACTION 173 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 152 152 2osd-a1-m1-cA_2osd-a1-m2-cA GAFEKIFPDILEAIRNEEIIKESKKIPPYFGLFALVIFDKVKGSETSLYEIGEEFGKLSPKNIEELKKIFKLNFGDLEIDENKILLKNPPYKIKLSNPPYQWVSKEEPIHDFIAGILAGCLEEIFYYYFVVNEVECVSQGKDKCVFEVKEVD GAFEKIFPDILEAIRNEEIIKESKKIPPYFGLFALVIFDKVKGSETSLYEIGEEFGKLSPKNIEELKKIFKLNFGDLEIDENKILLKNPPYKIKLSNPPYQWVSKEEPIHDFIAGILAGCLEEIFYYYFVVNEVECVSQGKDKCVFEVKEVD 2ost-a1-m1-cD_2ost-a1-m1-cA The structure of a bacterial homing endonuclease : I-Ssp6803I Q57253 Q57253 3.1 X-RAY DIFFRACTION 24 0.985 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 133 148 2ost-a1-m1-cC_2ost-a1-m1-cB STKLKGDIAQQAAIMRALKMGWGVLKPLGDRLSYDLVFDVEGILLKVQVKSSWKSEKTGNYVVDNRGNDFDFAVAYVEELELFYVFPVDVFISYGSEIHLVETDKRQRKPRSFGYREAWHLILQKGAAQKETS MGSTKLKGDIAQQAAIMRALKMGWGVLKPLGDRLSYDLVFDVEGILLKVQVKSSWKSEKTGNYVVDNRRTRTNRRNIVRSPYRGNDFDFAVAYVEELELFYVFPVDVFISYGSEIHLVETDKRQRKPRSFGYREAWHLILQKGAAQKE 2ost-a1-m1-cD_2ost-a1-m1-cB The structure of a bacterial homing endonuclease : I-Ssp6803I Q57253 Q57253 3.1 X-RAY DIFFRACTION 41 0.992 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 133 148 2ost-a1-m1-cC_2ost-a1-m1-cA STKLKGDIAQQAAIMRALKMGWGVLKPLGDRLSYDLVFDVEGILLKVQVKSSWKSEKTGNYVVDNRGNDFDFAVAYVEELELFYVFPVDVFISYGSEIHLVETDKRQRKPRSFGYREAWHLILQKGAAQKETS GSTKLKGDIAQQAAIMRALKMGWGVLKPLGDRLSYDLVFDVEGILLKVQVKSSWKSEKTGNYVVDNRRTRTNRRNIVRSPYRGNDFDFAVAYVEELELFYVFPVDVFISYGSEIHLVETDKRQRKPRSFGYREAWHLILQKGAAQKET 2ost-a1-m1-cD_2ost-a1-m1-cC The structure of a bacterial homing endonuclease : I-Ssp6803I Q57253 Q57253 3.1 X-RAY DIFFRACTION 18 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 133 138 2ost-a1-m1-cA_2ost-a1-m1-cB STKLKGDIAQQAAIMRALKMGWGVLKPLGDRLSYDLVFDVEGILLKVQVKSSWKSEKTGNYVVDNRGNDFDFAVAYVEELELFYVFPVDVFISYGSEIHLVETDKRQRKPRSFGYREAWHLILQKGAAQKETS MGSTKLKGDIAQQAAIMRALKMGWGVLKPLGDRLSYDLVFDVEGILLKVQVKSSWKSEKTGNYVVDNRRTRGNDFDFAVAYVEELELFYVFPVDVFISYGSEIHLVETDKRQRKPRSFGYREAWHLILQKGAAQKETS 2ota-a1-m1-cB_2ota-a1-m1-cA Crystal structure of the UPF0352 protein CPS_2611 from Colwellia psychrerythraea. NESG target CsR4. Q481E4 Q481E4 2.2 X-RAY DIFFRACTION 135 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 60 66 2jr2-a1-m1-cA_2jr2-a1-m1-cB NERVEKIIQDLLDVLVKEEVTPDLALCLGNAVTNIIAQVPESKRVAVVDNFTKALKQSVL YSNERVEKIIQDLLDVLVKEEVTPDLALCLGNAVTNIIAQVPESKRVAVVDNFTKALKQSVLEHHH 2otk-a1-m1-cE_2otk-a1-m1-cF Structure of Alzheimer Ab peptide in complex with an engineered binding protein NOT SOLUTION NMR 19 1.0 43 43 4bxl-a1-m1-cA_4bxl-a1-m1-cB 5k5g-a1-m1-cB_5k5g-a1-m1-cC GEIVYLPNLNPDQLCAFIHSLHDDPSQSANLLAEAKKLNDAQA GEIVYLPNLNPDQLCAFIHSLHDDPSQSANLLAEAKKLNDAQA 2otm-a1-m1-cB_2otm-a1-m1-cC Crystal structure of a putative endoribonuclease (so_1960) from shewanella oneidensis mr-1 at 1.85 A resolution Q8EFL1 Q8EFL1 1.85 X-RAY DIFFRACTION 63 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 148 148 2otm-a1-m1-cA_2otm-a1-m1-cB 2otm-a1-m1-cA_2otm-a1-m1-cC NTPESRLVAAGLELPEVAAALGNYEPYSIVGSQLTSGQFPYLQGKLLYQGQLGADYTVSEGYAACRLATLNAIAQLKQACGELSRIKQIYRLEGVLNVHQSCIEHPKALDGASDLLLEIFGEAGRHSRIWTNPVPLNSLCLVYLFAEL NTPESRLVAAGLELPEVAAALGNYEPYSIVGSQLTSGQFPYLQGKLLYQGQLGADYTVSEGYAACRLATLNAIAQLKQACGELSRIKQIYRLEGVLNVHQSCIEHPKALDGASDLLLEIFGEAGRHSRIWTNPVPLNSLCLVYLFAEL 2otn-a1-m1-cB_2otn-a1-m1-cA Crystal structure of the catalytically active form of diaminopimelate epimerase from Bacillus anthracis Q81XR2 Q81XR2 2.4 X-RAY DIFFRACTION 67 0.993 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 288 293 GLVPRGSHMSQFSFTKMHGLGNSYIYVNMFEEQIPEEDLALVAEKVSNINTGIGADGMILICPSDVAPVKMRMFNNDGSEGKSCGNGLRCVAKYAYEHKLVEDTVFTIETLAGIVTAEVTVEEGKVTLAKIDMGAPRLTRAEIPMLGEGETPFIRENFLYNNHRYAFTAVSMGNPHAVIFVDDVEQAPLTTLGPVLETHEMFPERVNVEFIEILNEEEMNFRVWERCGTGACAAVVASILNGKMERGKEITVHLAGGDLMIAWTEEGNVLMKGPAEVICRGVYEYKIE VPRGSHMSQFSFTKMHGLGNSYIYVNMFEEQIPEEDLALVAEKVSNINTGIGADGMILICPSDVAPVKMRMFNNDGSEGKSCGNGLRCVAKYAYEHKLVEDTVFTIETLAGIVTAEVTVEEGKVTLAKIDMGAPRLTRAEIPMLGEGETPFIRENFLYNNHRYAFTAVSMGNPHAVIFVDDVEQAPLTTLGPVLETHEMFPERVNVEFIEILNEEEMNFRVWERGSGVTQACGTGACAAVVASILNGKMERGKEITVHLAGGDLMIAWTEEGNVLMKGPAEVICRGVYEYKIE 2oto-a3-m1-cB_2oto-a3-m1-cC N-terminal fragment of Streptococcus pyogenes M1 protein 3.04 X-RAY DIFFRACTION 84 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 137 137 AANNPAIQNIRLRHENKDLKARLENAEVAGRDFKRAEELEKAKQALEDQRKDLETKLKELQQDYDLAKESTSWDRQRLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKE AANNPAIQNIRLRHENKDLKARLENAEVAGRDFKRAEELEKAKQALEDQRKDLETKLKELQQDYDLAKESTSWDRQRLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKE 2oto-a3-m1-cD_2oto-a3-m1-cA N-terminal fragment of Streptococcus pyogenes M1 protein 3.04 X-RAY DIFFRACTION 85 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 134 136 NPAIQNIRLRHENKDLKARLENAEVAGRDFKRAEELEKAKQALEDQRKDLETKLKELQQDYDLAKESTSWDRQRLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKE ANNPAIQNIRLRHENKDLKARLENAEVAGRDFKRAEELEKAKQALEDQRKDLETKLKELQQDYDLAKESTSWDRQRLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKE 2oto-a3-m1-cD_2oto-a3-m1-cC N-terminal fragment of Streptococcus pyogenes M1 protein 3.04 X-RAY DIFFRACTION 126 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 134 137 2oto-a1-m1-cA_2oto-a1-m1-cB 2oto-a2-m1-cD_2oto-a2-m1-cC 2oto-a3-m1-cA_2oto-a3-m1-cB NPAIQNIRLRHENKDLKARLENAEVAGRDFKRAEELEKAKQALEDQRKDLETKLKELQQDYDLAKESTSWDRQRLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKE AANNPAIQNIRLRHENKDLKARLENAEVAGRDFKRAEELEKAKQALEDQRKDLETKLKELQQDYDLAKESTSWDRQRLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKE 2otp-a1-m1-cA_2otp-a1-m1-cB Crystal Structure of Immunoglobulin-Like Transcript 1 (ILT1/LIR7/LILRA2) Q8N149 Q8N149 2.6 X-RAY DIFFRACTION 385 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 194 LPKPTLWAEPGSVIIQGSPVTLRCQGSLQAEEYHLYRENKASWVRRIQEPGKNGQFPIPSITWEHAGRYHCQYYSHNHSSEYSDPLELVVTGAYSKPTLSALPSPVVTLGGNVTLQCVSQVAFDGFILCKEGEDEHPQCLNSHSHARGWSWAIFSVGPVSPSRRWSYRCYAYDSNSPYVWSLPSDLLELLVPG LPKPTLWAEPGSVIIQGSPVTLRCQGSLQAEEYHLYRENKSASWVRRIQEPGKNGQFPIPSITWEHAGRYHCQYYSHNHSSEYSDPLELVVTGAYSKPTLSALPSPVVTLGGNVTLQCVSQVAFDGFILCKEGEDEHPQCLNSHSHARGWSWAIFSVGPVSPSRRWSYRCYAYDSNSPYVWSLPSDLLELLVPG 2otx-a1-m1-cB_2otx-a1-m1-cA Crystal Structure of A N-terminal Fragment of SKAP-HOM Containing both the Helical Dimerization Domain and the PH Domain Q3UND0 Q3UND0 2.6 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 168 170 PEEIRNLLADVETFVADTLKGENLSKKAKEKRESLIKKIKDVKSVYLQEFQFPPIAAQDLPFVIKAGYLEKRRKDHSFLGFEWQKRWCALSKTVFYYYGSDKDKQQKGEFAIDGYDVRMNNTLRKDGKKDCCFEICAPDKRIYQFTAASPKDAEEWVQQLKFILQDLG GSPEEIRNLLADVETFVADTLKGENLSKKAKEKRESLIKKIKDVKSVYLQEFQFPPIAAQDLPFVIKAGYLEKRRKDHSFLGFEWQKRWCALSKTVFYYYGSDKDKQQKGEFAIDGYDVRMNNTLRKDGKKDCCFEICAPDKRIYQFTAASPKDAEEWVQQLKFILQDLG 2ou3-a1-m1-cA_2ou3-a1-m1-cB Crystal structure of a tellurite resistance protein of cog3793 (npun_f6341) from nostoc punctiforme pcc 73102 at 1.85 A resolution 1.85 X-RAY DIFFRACTION 130 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 156 156 SDIKKLGSSWIINWFFGFNQIPTNEDSSIYKSVLTCAKADGVISPEEKDWALGFCASWGVADWVIEDLKTYEADEALEEVIARSPQVSAQRDILLSAIWVSAADGELHEKEKAKIRKATILGIKEEIVDQLEQLYYYEAALRQKRLNLLYPQKSPY SDIKKLGSSWIINWFFGFNQIPTNEDSSIYKSVLTCAKADGVISPEEKDWALGFCASWGVADWVIEDLKTYEADEALEEVIARSPQVSAQRDILLSAIWVSAADGELHEKEKAKIRKATILGIKEEIVDQLEQLYYYEAALRQKRLNLLYPQKSPY 2ou5-a1-m1-cA_2ou5-a1-m1-cB Crystal structure of a pyridoxamine 5'-phosphate oxidase-related fmn-binding protein (jann_0254) from jannaschia sp. ccs1 at 1.60 A resolution Q28VU1 Q28VU1 1.6 X-RAY DIFFRACTION 121 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 173 173 GSDTVLTGLLDTVWQQFGRGTKDRHHPARHPTLATIGTDGPDLRTLVLRAASHAEATLEFHTDAASPKVAHIRRDARVAIHIWIPKASLQVRAKAIAKILPGDPNLFAQLPEAARNYQGPVPGTPLPAEPDATPNRFTRLICHLSEIDVLHLTTPHQRAVYTAPDWRGIWVSP GSDTVLTGLLDTVWQQFGRGTKDRHHPARHPTLATIGTDGPDLRTLVLRAASHAEATLEFHTDAASPKVAHIRRDARVAIHIWIPKASLQVRAKAIAKILPGDPNLFAQLPEAARNYQGPVPGTPLPAEPDATPNRFTRLICHLSEIDVLHLTTPHQRAVYTAPDWRGIWVSP 2ou6-a1-m1-cA_2ou6-a1-m2-cA Crystal structure of a putative metalloenzyme of the duf664 family (dr_1065) from deinococcus radiodurans at 1.80 A resolution Q9RVG4 Q9RVG4 1.8 X-RAY DIFFRACTION 97 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 180 180 PTFNPELHAQTLNSERAYFVQPDADPAFTPHIGALVELTYARLTTLQAVEGLPEDQLWATAPGFANSIGTLLAHIAAVERVYHVLSFQGRDVTPEDDGAAYWGLTGKEGTAPARLPTLDELRAELADARAETLRVFAAKDDAWLAEPLGPGWANQHWAWFHVEDEVNHRGQLRLLRQVLA PTFNPELHAQTLNSERAYFVQPDADPAFTPHIGALVELTYARLTTLQAVEGLPEDQLWATAPGFANSIGTLLAHIAAVERVYHVLSFQGRDVTPEDDGAAYWGLTGKEGTAPARLPTLDELRAELADARAETLRVFAAKDDAWLAEPLGPGWANQHWAWFHVEDEVNHRGQLRLLRQVLA 2oui-a1-m1-cA_2oui-a1-m1-cD D275P mutant of alcohol dehydrogenase from protozoa Entamoeba histolytica P35630 P35630 1.77 X-RAY DIFFRACTION 61 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 360 360 1y9a-a1-m1-cA_1y9a-a1-m2-cC 1y9a-a1-m1-cC_1y9a-a1-m2-cA 2oui-a1-m1-cB_2oui-a1-m1-cC MKGLAMLGIGRIGWIEKKIPECGPLDALVRPLALAPCTSDTHTVWAGAIGDRHDMILGHEAVGQIVKVGSLVKRLKVGDKVIVPAITPDWGEEESQRGYPMHSGGMLGGWKFSNFKDGVFSEVFHVNEADANLALLPRDIKPEDAVMLSDMVTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIPIPRSEWGVGMGHKHIHGGLTPGGRVRMEKLASLISTGKLDTSKLITHRFEGLEKVEDALMLMKNKPADLIKPVVRIHYDDEDTLH MKGLAMLGIGRIGWIEKKIPECGPLDALVRPLALAPCTSDTHTVWAGAIGDRHDMILGHEAVGQIVKVGSLVKRLKVGDKVIVPAITPDWGEEESQRGYPMHSGGMLGGWKFSNFKDGVFSEVFHVNEADANLALLPRDIKPEDAVMLSDMVTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIPIPRSEWGVGMGHKHIHGGLTPGGRVRMEKLASLISTGKLDTSKLITHRFEGLEKVEDALMLMKNKPADLIKPVVRIHYDDEDTLH 2oui-a1-m1-cB_2oui-a1-m1-cD D275P mutant of alcohol dehydrogenase from protozoa Entamoeba histolytica P35630 P35630 1.77 X-RAY DIFFRACTION 41 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 360 360 1y9a-a1-m1-cA_1y9a-a1-m1-cC 1y9a-a1-m2-cA_1y9a-a1-m2-cC 2oui-a1-m1-cA_2oui-a1-m1-cC MKGLAMLGIGRIGWIEKKIPECGPLDALVRPLALAPCTSDTHTVWAGAIGDRHDMILGHEAVGQIVKVGSLVKRLKVGDKVIVPAITPDWGEEESQRGYPMHSGGMLGGWKFSNFKDGVFSEVFHVNEADANLALLPRDIKPEDAVMLSDMVTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIPIPRSEWGVGMGHKHIHGGLTPGGRVRMEKLASLISTGKLDTSKLITHRFEGLEKVEDALMLMKNKPADLIKPVVRIHYDDEDTLH MKGLAMLGIGRIGWIEKKIPECGPLDALVRPLALAPCTSDTHTVWAGAIGDRHDMILGHEAVGQIVKVGSLVKRLKVGDKVIVPAITPDWGEEESQRGYPMHSGGMLGGWKFSNFKDGVFSEVFHVNEADANLALLPRDIKPEDAVMLSDMVTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIPIPRSEWGVGMGHKHIHGGLTPGGRVRMEKLASLISTGKLDTSKLITHRFEGLEKVEDALMLMKNKPADLIKPVVRIHYDDEDTLH 2oui-a1-m1-cC_2oui-a1-m1-cD D275P mutant of alcohol dehydrogenase from protozoa Entamoeba histolytica P35630 P35630 1.77 X-RAY DIFFRACTION 153 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 360 360 1y9a-a1-m1-cA_1y9a-a1-m2-cA 1y9a-a1-m1-cC_1y9a-a1-m2-cC 2oui-a1-m1-cA_2oui-a1-m1-cB MKGLAMLGIGRIGWIEKKIPECGPLDALVRPLALAPCTSDTHTVWAGAIGDRHDMILGHEAVGQIVKVGSLVKRLKVGDKVIVPAITPDWGEEESQRGYPMHSGGMLGGWKFSNFKDGVFSEVFHVNEADANLALLPRDIKPEDAVMLSDMVTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIPIPRSEWGVGMGHKHIHGGLTPGGRVRMEKLASLISTGKLDTSKLITHRFEGLEKVEDALMLMKNKPADLIKPVVRIHYDDEDTLH MKGLAMLGIGRIGWIEKKIPECGPLDALVRPLALAPCTSDTHTVWAGAIGDRHDMILGHEAVGQIVKVGSLVKRLKVGDKVIVPAITPDWGEEESQRGYPMHSGGMLGGWKFSNFKDGVFSEVFHVNEADANLALLPRDIKPEDAVMLSDMVTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIPIPRSEWGVGMGHKHIHGGLTPGGRVRMEKLASLISTGKLDTSKLITHRFEGLEKVEDALMLMKNKPADLIKPVVRIHYDDEDTLH 2ouj-a1-m1-cA_2ouj-a1-m2-cA The crystal structure of the Thrombospondin-1 N-terminal domain in complex with fractionated Heparin DP8 P07996 P07996 1.9 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 SVFDIFELTGAARKGSGRRLVKGPDPSSPAFRIEDANLIPPVPDDKFQDLVDAVRTEKGFLLLASLRQMKKTRGTLLALERKDHSGQVFSVVSNGKAGTLDLSLTVQGKQHVVSVEEALLATGQWKSITLFVQEDRAQLYIDCEKMENAELDVPIQSVFTRDLASIARLRIAKGGVNDNFQGVLQNVRFVFGTTPEDILRNKGC SVFDIFELTGAARKGSGRRLVKGPDPSSPAFRIEDANLIPPVPDDKFQDLVDAVRTEKGFLLLASLRQMKKTRGTLLALERKDHSGQVFSVVSNGKAGTLDLSLTVQGKQHVVSVEEALLATGQWKSITLFVQEDRAQLYIDCEKMENAELDVPIQSVFTRDLASIARLRIAKGGVNDNFQGVLQNVRFVFGTTPEDILRNKGC 2ouw-a1-m1-cA_2ouw-a1-m3-cB Crystal structure of Alkylhydroperoxidase AhpD core (YP_425393.1) from Rhodospirillum rubrum ATCC 11170 at 1.95 A resolution Q2RXN9 Q2RXN9 1.95 X-RAY DIFFRACTION 11 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 130 131 2ouw-a1-m2-cA_2ouw-a1-m1-cB 2ouw-a1-m3-cA_2ouw-a1-m2-cB GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLV GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLVD 2ouw-a1-m2-cA_2ouw-a1-m3-cB Crystal structure of Alkylhydroperoxidase AhpD core (YP_425393.1) from Rhodospirillum rubrum ATCC 11170 at 1.95 A resolution Q2RXN9 Q2RXN9 1.95 X-RAY DIFFRACTION 62 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 130 131 2ouw-a1-m1-cA_2ouw-a1-m2-cB 2ouw-a1-m3-cA_2ouw-a1-m1-cB GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLV GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLVD 2ouw-a1-m2-cB_2ouw-a1-m3-cB Crystal structure of Alkylhydroperoxidase AhpD core (YP_425393.1) from Rhodospirillum rubrum ATCC 11170 at 1.95 A resolution Q2RXN9 Q2RXN9 1.95 X-RAY DIFFRACTION 19 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 131 131 2ouw-a1-m1-cA_2ouw-a1-m2-cA 2ouw-a1-m1-cA_2ouw-a1-m3-cA 2ouw-a1-m1-cB_2ouw-a1-m2-cB 2ouw-a1-m1-cB_2ouw-a1-m3-cB 2ouw-a1-m2-cA_2ouw-a1-m3-cA GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLVD GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLVD 2ouw-a1-m3-cA_2ouw-a1-m3-cB Crystal structure of Alkylhydroperoxidase AhpD core (YP_425393.1) from Rhodospirillum rubrum ATCC 11170 at 1.95 A resolution Q2RXN9 Q2RXN9 1.95 X-RAY DIFFRACTION 190 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 130 131 2ouw-a1-m1-cA_2ouw-a1-m1-cB 2ouw-a1-m2-cA_2ouw-a1-m2-cB GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLV GATVRLLDDAEISTLPEVKAVFDDIRATRGSDFVNNIWRGLANDPALLKRTWEQVKTVVGEGALDPLTREIYLAVSTANSCSYCAHSHTAAARAKGTPAQHAEVLAIIGLAAQTNALVTAQIPVDEAFLVD 2oux-a1-m1-cB_2oux-a1-m1-cA Crystal structure of the soluble part of a magnesium transporter Q830V1 Q830V1 2.16 X-RAY DIFFRACTION 79 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 245 246 EEEQFALLLETLKNQQNEFRELFLALHIYEQGQFYQSLDEKDRQHLYNYLSPKELADFDVIEEDNENKDYLAERPSYAADLAEYTDNAVDLLNLDKSQKAKYLSLLSSEEAGEIKELLHYEDETAGAITTEFVSIVANQTVRSAYVLKNQADAETIYYVYVVDQENHLVGVISLRDLIVNDDDTLIADILNERVISVHVGDDQEDVAQTIRDYDFLAVPVTDYDDHLLGIVTVDDIIDVIDDEAA EEEQFALLLETLKNQQNEFRELFLALHIYEQGQFYQSLDEKDRQHLYNYLSPKELADFDVIEEDNENKDYLAERPSYAADLAEYTDNAVDLLNLDKSQKAKYLSLLSSEEAGEIKELLHYEDETAGAITTEFVSIVANQTVRSAYVLKNQADAETIYYVYVVDQENHLVGVISLRDLIVNDDDTLIADILNERVISVHVGDDQEDVAQTIRDYDFLAVPVTDYDDHLLGIVTVDDIIDVIDDEAAS 2ov2-a11-m1-cC_2ov2-a11-m2-cD The crystal structure of the human RAC3 in complex with the CRIB domain of human p21-activated kinase 4 (PAK4) P60763 P60763 2.1 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 179 2ov2-a10-m1-cA_2ov2-a10-m1-cB 2ov2-a12-m3-cG_2ov2-a12-m1-cF 2ov2-a9-m1-cE_2ov2-a9-m1-cH 2qme-a2-m1-cA_2qme-a2-m2-cA MQAIKCVVVGDGAVGKTCLLISYTTNAFPGEYIPTVFDNYSANVMVDGKPVNLGLWDTAGQEDYDRLRPLSYPQTDVFLICFSLVSPASFENVRAKWYPEVRHHCPHTPILLVGTKLDLRDDKDTIERLRDKKLAPITYPQGLAMAREIGSVKYLECSALTQRGLKTVFDEAIRAVLG SMQAIKCVVVGDGAVGKTCLLISYTTNAFPGEYIPTVFDNYSANVMVDGKPVNLGLWDTAGQEDYDRLRPLSYPQTDVFLICFSLVSPASFENVRAKWYPEVRHHCPHTPILLVGTKLDLRDDKDTIERLRDKKLAPITYPQGLAMAREIGSVKYLECSALTQRGLKTVFDEAIRAVLG 2ov9-a2-m1-cD_2ov9-a2-m1-cC Crystal structure of protein RHA08564, thioesterase superfamily protein Q0S4E1 Q0S4E1 1.9 X-RAY DIFFRACTION 280 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 190 203 2ov9-a1-m1-cA_2ov9-a1-m1-cB GTVLTSPPGSAVDRATDAARRVVDALLRTDRGNANLERVAEELNSIAGHLEEHAPAVAERLIDWNGEGVTRHDPVTGPENALAPPVVLEGLSDGSVRGTVTLTIPYQGPPGHVHGGVSALLLDHVLGVANAWGGKAGTAQLSTRYHRPTPLFEPLTLTGKLSVDGRKITTAGDIRTADGQVCVSVEGLFV HPTFENSPSGTVLTSPPDGSAVDRATDAARRVVDALLRTDRGNANLERVAEELNSIAGHLEEHAPAVAERLIDWNGEGVTRHDPVTGPENALAPPVVLEGLSDGSVRGTVTLTIPYQGPPGHVHGGVSALLLDHVLGVANAWGGKAGTAQLSTRYHRPTPLFEPLTLTGKLSVDGRKITTAGDIRTADGQVCVSVEGLFVDKT 2ovb-a1-m1-cA_2ovb-a1-m2-cA Crystal Structure of StaL-sulfate complex Q8KLM3 Q8KLM3 2.61 X-RAY DIFFRACTION 49 1.0 55952 (Streptomyces toyocaensis) 55952 (Streptomyces toyocaensis) 248 248 2ov8-a1-m1-cA_2ov8-a1-m2-cA 2ovf-a1-m1-cA_2ovf-a1-m2-cA 4eec-a1-m1-cB_4eec-a1-m1-cA MMCWIASYPKAGGHWLRCMLTSYVTGEPVETWPGIQAGVPHLEGLLRDGEAPSADPDEQVLLATHFTADRPVLRFYRESTAKVVCLIRNPRDAMLSLMRMKGIPPEDVEACRKIAETFIADEGFSSVRIWAGEGSWPENIRSWTDSVHESFPNAAVLAVRYEDLRKDPEGELWKVVDFLELGGRDGVADAVANCTLERMREMEERSKLLGLETTKSLKFMGDDIEKAYADLLHGETDFAHYARLYGYA MMCWIASYPKAGGHWLRCMLTSYVTGEPVETWPGIQAGVPHLEGLLRDGEAPSADPDEQVLLATHFTADRPVLRFYRESTAKVVCLIRNPRDAMLSLMRMKGIPPEDVEACRKIAETFIADEGFSSVRIWAGEGSWPENIRSWTDSVHESFPNAAVLAVRYEDLRKDPEGELWKVVDFLELGGRDGVADAVANCTLERMREMEERSKLLGLETTKSLKFMGDDIEKAYADLLHGETDFAHYARLYGYA 2ovc-a1-m2-cA_2ovc-a1-m4-cA Crystal structure of a coiled-coil tetramerization domain from Kv7.4 channels P56696 P56696 2.07 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 2ovc-a1-m1-cA_2ovc-a1-m3-cA 2ovc-a1-m1-cA_2ovc-a1-m4-cA 2ovc-a1-m2-cA_2ovc-a1-m3-cA DEISMMGRVVKVEKQVQSIEHKLDLLLGFY DEISMMGRVVKVEKQVQSIEHKLDLLLGFY 2ovh-a2-m1-cA_2ovh-a2-m2-cA Progesterone Receptor with Bound Asoprisnil and a Peptide from the Co-Repressor SMRT P06401 P06401 2 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 243 2ovm-a2-m1-cA_2ovm-a2-m2-cA IQLIPPLINLLMSIEPDVIYAGHDNTKPDTSSSLLTSLNQLGERQLLSVVKWSKSLPGFRNLHIDDQITLIQYSWMSLMVFGLGWRSYKHVSGQMLYFAPDLILNEQRMKESSFYSLCLTMWQIPQEFVKLQVSQEEFLCMKVLLLLNTIPLEGLRSQTQFEEMRSSYIRELIKAIGLRQKGVVSSSQRFYQLTKLLDNLHDLVKQLHLYCLNTFIQSRMSEVIAAQLPKILAGMVKPLLFHK IQLIPPLINLLMSIEPDVIYAGHDNTKPDTSSSLLTSLNQLGERQLLSVVKWSKSLPGFRNLHIDDQITLIQYSWMSLMVFGLGWRSYKHVSGQMLYFAPDLILNEQRMKESSFYSLCLTMWQIPQEFVKLQVSQEEFLCMKVLLLLNTIPLEGLRSQTQFEEMRSSYIRELIKAIGLRQKGVVSSSQRFYQLTKLLDNLHDLVKQLHLYCLNTFIQSRMSEVIAAQLPKILAGMVKPLLFHK 2ovl-a4-m5-cD_2ovl-a4-m7-cD Crystal structure of a racemase from Streptomyces coelicolor A3(2) Q9RKF7 Q9RKF7 2.13 X-RAY DIFFRACTION 26 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 326 326 2ovl-a3-m1-cA_2ovl-a3-m2-cB 2ovl-a3-m1-cA_2ovl-a3-m3-cB 2ovl-a3-m1-cB_2ovl-a3-m2-cA 2ovl-a3-m1-cB_2ovl-a3-m3-cA 2ovl-a3-m2-cA_2ovl-a3-m4-cB 2ovl-a3-m2-cB_2ovl-a3-m4-cA 2ovl-a3-m3-cA_2ovl-a3-m4-cB 2ovl-a3-m3-cB_2ovl-a3-m4-cA 2ovl-a4-m1-cC_2ovl-a4-m6-cC 2ovl-a4-m1-cC_2ovl-a4-m7-cC 2ovl-a4-m1-cD_2ovl-a4-m6-cD 2ovl-a4-m1-cD_2ovl-a4-m7-cD 2ovl-a4-m5-cC_2ovl-a4-m6-cC 2ovl-a4-m5-cC_2ovl-a4-m7-cC 2ovl-a4-m5-cD_2ovl-a4-m6-cD 3ck5-a1-m1-cA_3ck5-a1-m2-cB 3ck5-a1-m1-cA_3ck5-a1-m3-cB 3ck5-a1-m1-cB_3ck5-a1-m2-cA 3ck5-a1-m1-cB_3ck5-a1-m3-cA 3ck5-a1-m2-cA_3ck5-a1-m4-cB 3ck5-a1-m2-cB_3ck5-a1-m4-cA 3ck5-a1-m3-cA_3ck5-a1-m4-cB 3ck5-a1-m3-cB_3ck5-a1-m4-cA 3ck5-a2-m1-cC_3ck5-a2-m6-cC 3ck5-a2-m1-cC_3ck5-a2-m7-cC 3ck5-a2-m1-cD_3ck5-a2-m6-cD 3ck5-a2-m1-cD_3ck5-a2-m7-cD 3ck5-a2-m5-cC_3ck5-a2-m6-cC 3ck5-a2-m5-cC_3ck5-a2-m7-cC 3ck5-a2-m5-cD_3ck5-a2-m6-cD 3ck5-a2-m5-cD_3ck5-a2-m7-cD LIERVRTDLYRIPLDFELITVRIEDSDGATGLGYTYTVNHGGAAVATVDKDLRGCLLGADAEQIEKIWQSWWRLHYAGRGGHATSAISAVDIALWDLKGIRARTPLWKLFGGYDPVVPVYAGGIDLELPVADLKTQADRFLAGGFRAIKKVGRPDLKEDVDRVSALREHLGDSFPLVDANKWTVDGAIRAARALAPFDLHWIEEPTIPDDLVGNARIVRESGHTIAGGENLHTLYDFHNAVRAGSLTLPEPDVSNIGGYTTFRKVAALAEANNLLTSHGVHDLTVHALASVPHRTYEAHAVTDGCVSAPDRPGHGVVLDFERLGRL LIERVRTDLYRIPLDFELITVRIEDSDGATGLGYTYTVNHGGAAVATVDKDLRGCLLGADAEQIEKIWQSWWRLHYAGRGGHATSAISAVDIALWDLKGIRARTPLWKLFGGYDPVVPVYAGGIDLELPVADLKTQADRFLAGGFRAIKKVGRPDLKEDVDRVSALREHLGDSFPLVDANKWTVDGAIRAARALAPFDLHWIEEPTIPDDLVGNARIVRESGHTIAGGENLHTLYDFHNAVRAGSLTLPEPDVSNIGGYTTFRKVAALAEANNLLTSHGVHDLTVHALASVPHRTYEAHAVTDGCVSAPDRPGHGVVLDFERLGRL 2ovl-a4-m7-cD_2ovl-a4-m1-cC Crystal structure of a racemase from Streptomyces coelicolor A3(2) Q9RKF7 Q9RKF7 2.13 X-RAY DIFFRACTION 97 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 326 346 2ovl-a3-m1-cA_2ovl-a3-m2-cA 2ovl-a3-m1-cB_2ovl-a3-m3-cB 2ovl-a3-m2-cB_2ovl-a3-m4-cB 2ovl-a3-m3-cA_2ovl-a3-m4-cA 2ovl-a4-m1-cD_2ovl-a4-m6-cC 2ovl-a4-m5-cD_2ovl-a4-m7-cC 2ovl-a4-m6-cD_2ovl-a4-m5-cC 3ck5-a1-m1-cA_3ck5-a1-m2-cA 3ck5-a1-m1-cB_3ck5-a1-m3-cB 3ck5-a1-m2-cB_3ck5-a1-m4-cB 3ck5-a1-m3-cA_3ck5-a1-m4-cA 3ck5-a2-m1-cD_3ck5-a2-m6-cC 3ck5-a2-m5-cD_3ck5-a2-m7-cC 3ck5-a2-m6-cD_3ck5-a2-m5-cC 3ck5-a2-m7-cD_3ck5-a2-m1-cC LIERVRTDLYRIPLDFELITVRIEDSDGATGLGYTYTVNHGGAAVATVDKDLRGCLLGADAEQIEKIWQSWWRLHYAGRGGHATSAISAVDIALWDLKGIRARTPLWKLFGGYDPVVPVYAGGIDLELPVADLKTQADRFLAGGFRAIKKVGRPDLKEDVDRVSALREHLGDSFPLVDANKWTVDGAIRAARALAPFDLHWIEEPTIPDDLVGNARIVRESGHTIAGGENLHTLYDFHNAVRAGSLTLPEPDVSNIGGYTTFRKVAALAEANNLLTSHGVHDLTVHALASVPHRTYEAHAVTDGCVSAPDRPGHGVVLDFERLGRL LIERVRTDLYRIPLPTRLTDSTHGADFELITVRIEDSDGATGLGYTYTVNHGGAAVATVDKDLRGCLLGADAEQIEKIWQSWWRLHYAGRGGHATSAISAVDIALWDLKGIRARTPLWKLFGGYDPVVPVYAGGIDLELPVADLKTQADRFLAGGFRAIKKVGRPDLKEDVDRVSALREHLGDSFPLVDANKWTVDGAIRAARALAPFDLHWIEEPTIPDDLVGNARIVRESGHTIAGGENLHTLYDFHNAVRAGSLTLPEPDVSNIGGYTTFRKVAALAEANNLLTSHGVHDLTVHALASVPHRTYEAHLHAYAEPAVTDGCVSAPDRPGHGVVLDFERLGRLAV 2ovl-a4-m7-cD_2ovl-a4-m7-cC Crystal structure of a racemase from Streptomyces coelicolor A3(2) Q9RKF7 Q9RKF7 2.13 X-RAY DIFFRACTION 121 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 326 346 2ovl-a1-m1-cA_2ovl-a1-m1-cB 2ovl-a2-m1-cD_2ovl-a2-m1-cC 2ovl-a3-m1-cA_2ovl-a3-m1-cB 2ovl-a3-m2-cA_2ovl-a3-m2-cB 2ovl-a3-m3-cA_2ovl-a3-m3-cB 2ovl-a3-m4-cA_2ovl-a3-m4-cB 2ovl-a4-m1-cD_2ovl-a4-m1-cC 2ovl-a4-m5-cD_2ovl-a4-m5-cC 2ovl-a4-m6-cD_2ovl-a4-m6-cC 3ck5-a1-m1-cA_3ck5-a1-m1-cB 3ck5-a1-m2-cA_3ck5-a1-m2-cB 3ck5-a1-m3-cA_3ck5-a1-m3-cB 3ck5-a1-m4-cA_3ck5-a1-m4-cB 3ck5-a2-m1-cD_3ck5-a2-m1-cC 3ck5-a2-m5-cD_3ck5-a2-m5-cC 3ck5-a2-m6-cD_3ck5-a2-m6-cC 3ck5-a2-m7-cD_3ck5-a2-m7-cC 3ck5-a3-m1-cA_3ck5-a3-m1-cB 3ck5-a4-m1-cD_3ck5-a4-m1-cC LIERVRTDLYRIPLDFELITVRIEDSDGATGLGYTYTVNHGGAAVATVDKDLRGCLLGADAEQIEKIWQSWWRLHYAGRGGHATSAISAVDIALWDLKGIRARTPLWKLFGGYDPVVPVYAGGIDLELPVADLKTQADRFLAGGFRAIKKVGRPDLKEDVDRVSALREHLGDSFPLVDANKWTVDGAIRAARALAPFDLHWIEEPTIPDDLVGNARIVRESGHTIAGGENLHTLYDFHNAVRAGSLTLPEPDVSNIGGYTTFRKVAALAEANNLLTSHGVHDLTVHALASVPHRTYEAHAVTDGCVSAPDRPGHGVVLDFERLGRL LIERVRTDLYRIPLPTRLTDSTHGADFELITVRIEDSDGATGLGYTYTVNHGGAAVATVDKDLRGCLLGADAEQIEKIWQSWWRLHYAGRGGHATSAISAVDIALWDLKGIRARTPLWKLFGGYDPVVPVYAGGIDLELPVADLKTQADRFLAGGFRAIKKVGRPDLKEDVDRVSALREHLGDSFPLVDANKWTVDGAIRAARALAPFDLHWIEEPTIPDDLVGNARIVRESGHTIAGGENLHTLYDFHNAVRAGSLTLPEPDVSNIGGYTTFRKVAALAEANNLLTSHGVHDLTVHALASVPHRTYEAHLHAYAEPAVTDGCVSAPDRPGHGVVLDFERLGRLAV 2ovp-a2-m2-cB_2ovp-a2-m4-cB Structure of the Skp1-Fbw7 complex Q969H0 Q969H0 2.9 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 441 441 2ovp-a2-m1-cB_2ovp-a2-m3-cB TQVKHMMQVIEPQFQRDFISLLPKELALYVLSFLEPKDLLQAAQTCRYWRILAEDNLLWREKCKEEGIDEPLHIKVIKPGFIHSPWKSAYIRQHRIDTNWRRGELKSPKVLKGHDDHVITCLQFCGNRIVSGSDDNTLKVWSAVTGKCLRTLVGHTGGVWSSQMRDNIIISGSTDRTLKVWNAETGECIHTLYGHTSTVRCMHLHEKRVVSGSRDATLRVWDIETGQCLHVLMGHVAAVRCVQYDGRRVVSGAYDFMVKVWDPETETCLHTLQGHTNRVYSLQFDGIHVVSGSLDTSIRVWDVETGNCIHTLTGHQSLTSGMELKDNILVSGNADSTVKIWDIKTGQCLQTLQGPNKHQSAVTCLQFNKNFVITSSDDGTVKLWDLKTGEFIRNLVTLESGGSGGVVWRIRASNTKLVCAVGSRNGTEETKLLVLDFDVDM TQVKHMMQVIEPQFQRDFISLLPKELALYVLSFLEPKDLLQAAQTCRYWRILAEDNLLWREKCKEEGIDEPLHIKVIKPGFIHSPWKSAYIRQHRIDTNWRRGELKSPKVLKGHDDHVITCLQFCGNRIVSGSDDNTLKVWSAVTGKCLRTLVGHTGGVWSSQMRDNIIISGSTDRTLKVWNAETGECIHTLYGHTSTVRCMHLHEKRVVSGSRDATLRVWDIETGQCLHVLMGHVAAVRCVQYDGRRVVSGAYDFMVKVWDPETETCLHTLQGHTNRVYSLQFDGIHVVSGSLDTSIRVWDVETGNCIHTLTGHQSLTSGMELKDNILVSGNADSTVKIWDIKTGQCLQTLQGPNKHQSAVTCLQFNKNFVITSSDDGTVKLWDLKTGEFIRNLVTLESGGSGGVVWRIRASNTKLVCAVGSRNGTEETKLLVLDFDVDM 2ovq-a2-m1-cB_2ovq-a2-m4-cB Structure of the Skp1-Fbw7-CyclinEdegC complex Q969H0 Q969H0 2.6 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 444 444 2ovp-a2-m1-cB_2ovp-a2-m4-cB 2ovp-a2-m2-cB_2ovp-a2-m3-cB 2ovq-a2-m2-cB_2ovq-a2-m3-cB 5v4b-a2-m1-cB_5v4b-a2-m4-cB 5v4b-a2-m2-cB_5v4b-a2-m3-cB TQVKHMMQVIEPQFQRDFISLLPKELALYVLSFLEPKDLLQAAQTCRYWRILAEDNLLWREKCKEEGIDEPLHIKRRKVIKPGFIHSPWKSAYIRQHRIDTNWRRGELKSPKVLKGHDDHVITCLQFCGNRIVSGSDDNTLKVWSAVTGKCLRTLVGHTGGVWSSQMRDNIIISGSTDRTLKVWNAETGECIHTLYGHTSTVRCMHLHEKRVVSGSRDATLRVWDIETGQCLHVLMGHVAAVRCVQYDGRRVVSGAYDFMVKVWDPETETCLHTLQGHTNRVYSLQFDGIHVVSGSLDTSIRVWDVETGNCIHTLTGHQSLTSGMELKDNILVSGNADSTVKIWDIKTGQCLQTLQGPNKHQSAVTCLQFNKNFVITSSDDGTVKLWDLKTGEFIRNLVTLESGGSGGVVWRIRASNTKLVCAVGSRNGTEETKLLVLDFDVDM TQVKHMMQVIEPQFQRDFISLLPKELALYVLSFLEPKDLLQAAQTCRYWRILAEDNLLWREKCKEEGIDEPLHIKRRKVIKPGFIHSPWKSAYIRQHRIDTNWRRGELKSPKVLKGHDDHVITCLQFCGNRIVSGSDDNTLKVWSAVTGKCLRTLVGHTGGVWSSQMRDNIIISGSTDRTLKVWNAETGECIHTLYGHTSTVRCMHLHEKRVVSGSRDATLRVWDIETGQCLHVLMGHVAAVRCVQYDGRRVVSGAYDFMVKVWDPETETCLHTLQGHTNRVYSLQFDGIHVVSGSLDTSIRVWDVETGNCIHTLTGHQSLTSGMELKDNILVSGNADSTVKIWDIKTGQCLQTLQGPNKHQSAVTCLQFNKNFVITSSDDGTVKLWDLKTGEFIRNLVTLESGGSGGVVWRIRASNTKLVCAVGSRNGTEETKLLVLDFDVDM 2ovs-a1-m1-cA_2ovs-a1-m1-cB Crystal structure of a Type Three secretion System protein O85638 O85638 1.9 X-RAY DIFFRACTION 61 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 3e3c-a1-m1-cA_3e3c-a1-m1-cB 4kt5-a1-m1-cB_4kt5-a1-m1-cA GLVPRGSIKDGIYSIIFISNEDSCGEGILIKNGNITGGDIASVYQGVLSEDEDIILHVHRYNYEIPSVLNIEQDYQLVIPKKVLSNDNNLTLHCHVRGNEKLFVDVYAKFIEPLV GLVPRGSIKDGIYSIIFISNEDSCGEGILIKNGNITGGDIASVYQGVLSEDEDIILHVHRYNYEIPSVLNIEQDYQLVIPKKVLSNDNNLTLHCHVRGNEKLFVDVYAKFIEPLV 2ovs-a2-m1-cA_2ovs-a2-m2-cB Crystal structure of a Type Three secretion System protein O85638 O85638 1.9 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 GLVPRGSIKDGIYSIIFISNEDSCGEGILIKNGNITGGDIASVYQGVLSEDEDIILHVHRYNYEIPSVLNIEQDYQLVIPKKVLSNDNNLTLHCHVRGNEKLFVDVYAKFIEPLV GLVPRGSIKDGIYSIIFISNEDSCGEGILIKNGNITGGDIASVYQGVLSEDEDIILHVHRYNYEIPSVLNIEQDYQLVIPKKVLSNDNNLTLHCHVRGNEKLFVDVYAKFIEPLV 2owl-a1-m1-cA_2owl-a1-m1-cB Crystal structure of E. coli RdgC P36767 P36767 2.4 X-RAY DIFFRACTION 79 1.0 562 (Escherichia coli) 562 (Escherichia coli) 289 289 LWFKNLVYRLSREISLRAEEEKQLASAFTPCGSQDAKGWVPPGSHSDALTHVANGQIVICARKEEKILPSPVIKQALEAKIAKLEAEQARKLKKTEKDSLKDEVLHSLLPRAFSRFSQTWIDTVNGLIVDCASAKKAEDTLALLRKSLGSLPVVPLSENPIELTLTEWVRSGSAAQGFQLLDEAELKSLLEDGGVIRAKKQDLTSEEITNHIEAGKVVTKLALDWQQRIQFVCDDGSLKRLKFCDELRDQNEDIDREDFAQRFDADFILTGELAALIQNLIEGLGGEAQ LWFKNLVYRLSREISLRAEEEKQLASAFTPCGSQDAKGWVPPGSHSDALTHVANGQIVICARKEEKILPSPVIKQALEAKIAKLEAEQARKLKKTEKDSLKDEVLHSLLPRAFSRFSQTWIDTVNGLIVDCASAKKAEDTLALLRKSLGSLPVVPLSENPIELTLTEWVRSGSAAQGFQLLDEAELKSLLEDGGVIRAKKQDLTSEEITNHIEAGKVVTKLALDWQQRIQFVCDDGSLKRLKFCDELRDQNEDIDREDFAQRFDADFILTGELAALIQNLIEGLGGEAQ 2owm-a2-m1-cD_2owm-a2-m1-cB Motor domain of Neurospora crassa kinesin-3 (NcKin3) Q9C2M3 Q9C2M3 3.25 X-RAY DIFFRACTION 80 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 325 327 2owm-a1-m1-cA_2owm-a1-m1-cC ANVRVVVRVRAFLPRELERNAECIVEMDPATERTSLLVPQLEEKSFTFDKSFWSHNTEDEHYATQEHVYDSLGEEFLDHNFEGYHTCIFAYGQTGSGKSYTMMGTPDQPGLIPRTCEDLFQRIASAQDETPNISYNVKVSYFEVYNEHVRDLLAPVVPNKPPYYLKVRESPTEGPYVKDLTEVPVRGLEEIIRWMRIGDGSRTVASTKMNDTSSRSHAVFTIMLKQIHHTTERSSRIRLVDLAGSESNINKSLTTLGRVIAALADVVPYRDSVLTWLLKDSLGGNSKTAMIACISPTDYDETLSTLRYADQAKRIRTRAVVNQVD ANVRVVVRVRAFLPRELERNAECIVEMDPATERTSLLVPQLEEKSFTFDKSFWSHNTEDEHYATQEHVYDSLGEEFLDHNFEGYHTCIFAYGQTGSGKSYTMMGTPDQPGLIPRTCEDLFQRIASAQDETPNISYNVKVSYFEVYNEHVRDLLAPVVPNKPPYYLKVRESPTEGPYVKDLTEVPVRGLEEIIRWMRIGDGSRTVASTKMNDTSSRSHAVFTIMLKQIHHTTERSSRIRLVDLAGSERASNINKSLTTLGRVIAALADVVPYRDSVLTWLLKDSLGGNSKTAMIACISPTDYDETLSTLRYADQAKRIRTRAVVNQVD 2own-a2-m1-cA_2own-a2-m2-cA Crystal structure of oleoyl thioesterase (putative) (NP_784467.1) from Lactobacillus plantarum at 2.00 A resolution F9ULU3 F9ULU3 2 X-RAY DIFFRACTION 38 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 252 252 TLGANASLYSEQHRITYYECDRTGRATLTTLIDIAVLASEDQSDALGLTTEVQSHGVGWVVTQYAIDITRPRQDEVVTIAVRGSAYNPYFAYREFWIRDADGQQLAYITSIWVSQTTRRIVKILPELVAPYQSEVVKRIPRLPRPISFEATDTTITKPYHVRFFDIDPNRHVNNAHYFDWLVDTLPATFLLQHDLVHVDVRYENEVKYGQTVTAHANILPSEVADQVTTSHLIEVDDEKCCEVTIQWRTLPE TLGANASLYSEQHRITYYECDRTGRATLTTLIDIAVLASEDQSDALGLTTEVQSHGVGWVVTQYAIDITRPRQDEVVTIAVRGSAYNPYFAYREFWIRDADGQQLAYITSIWVSQTTRRIVKILPELVAPYQSEVVKRIPRLPRPISFEATDTTITKPYHVRFFDIDPNRHVNNAHYFDWLVDTLPATFLLQHDLVHVDVRYENEVKYGQTVTAHANILPSEVADQVTTSHLIEVDDEKCCEVTIQWRTLPE 2own-a2-m2-cA_2own-a2-m2-cB Crystal structure of oleoyl thioesterase (putative) (NP_784467.1) from Lactobacillus plantarum at 2.00 A resolution F9ULU3 F9ULU3 2 X-RAY DIFFRACTION 85 0.996 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 252 254 2own-a1-m1-cA_2own-a1-m1-cB 2own-a2-m1-cA_2own-a2-m1-cB TLGANASLYSEQHRITYYECDRTGRATLTTLIDIAVLASEDQSDALGLTTEVQSHGVGWVVTQYAIDITRPRQDEVVTIAVRGSAYNPYFAYREFWIRDADGQQLAYITSIWVSQTTRRIVKILPELVAPYQSEVVKRIPRLPRPISFEATDTTITKPYHVRFFDIDPNRHVNNAHYFDWLVDTLPATFLLQHDLVHVDVRYENEVKYGQTVTAHANILPSEVADQVTTSHLIEVDDEKCCEVTIQWRTLPE TLGANASLYSEQHRITYYECDRTGRATLTTLIDIAVLASEDQSDALGLTTEVQSHGVGWVVTQYAIDITRPRQDEVVTIAVRGSAYNPYFAYREFWIRDADGQQLAYITSIWVSQTTRRIVKILPELVAPYQSEVVRIPRLPRPISFEATDTTITKPYHVRFFDIDPNRHVNNAHYFDWLVDTLPATFLLQHDLVHVDVRYENEVKYGQTVTAHANILPSEVADQVTTSHLIEVDDEKCCEVTIQWRTLPEPIQ 2owp-a1-m1-cA_2owp-a1-m1-cB Crystal structure of a cystatin-like fold protein (bxe_b1374) from burkholderia xenovorans lb400 at 2.00 A resolution Q13MU9 Q13MU9 2 X-RAY DIFFRACTION 94 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 125 125 GEVNQPDIVAQVQAAFVEYERALVENDIEANALFWHTPETVRYGIAEVQHGGEAIRAWRERCEPVPKSRKLHRTVVTTFGTDFATVSTEFTSDATPLLGRQQTWARLSPADGWKIVAAHVSLIAP GEVNQPDIVAQVQAAFVEYERALVENDIEANALFWHTPETVRYGIAEVQHGGEAIRAWRERCEPVPKSRKLHRTVVTTFGTDFATVSTEFTSDATPLLGRQQTWARLSPADGWKIVAAHVSLIAP 2owy-a1-m1-cA_2owy-a1-m1-cB The recombination-associated protein RdgC adopts a novel toroidal architecture for DNA binding Q9HYX7 Q9HYX7 2.5 X-RAY DIFFRACTION 80 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 306 306 MWFRNLLVYRLTQDLQLDADSLEKALGEKSARPCASQELTTYGFTAPFGKGPDAPLVHVSQDFFLISARKEERILPGSVVRDALKEKVDEIEAQQMRKVYKKERDQLKDEIVQTLLPRAFIRRSSTFAAIAPSLGLILVDSASAKKAEDLLSTLREALGSLPVRPLSVKVAPTATLTDWVKTQEAAGDFHVLDECELRDTHEDGGVVRCKRQDLTSEEIQLHLTAGKLVTQLSLAWSDKLSFVLDDKLAVKRLRFEDLLQEQAEKDGGEDALGQLDASFTLMMLTFAEFLPALFEALGGEEIPQGV MWFRNLLVYRLTQDLQLDADSLEKALGEKSARPCASQELTTYGFTAPFGKGPDAPLVHVSQDFFLISARKEERILPGSVVRDALKEKVDEIEAQQMRKVYKKERDQLKDEIVQTLLPRAFIRRSSTFAAIAPSLGLILVDSASAKKAEDLLSTLREALGSLPVRPLSVKVAPTATLTDWVKTQEAAGDFHVLDECELRDTHEDGGVVRCKRQDLTSEEIQLHLTAGKLVTQLSLAWSDKLSFVLDDKLAVKRLRFEDLLQEQAEKDGGEDALGQLDASFTLMMLTFAEFLPALFEALGGEEIPQGV 2ox1-a2-m1-cC_2ox1-a2-m1-cD Archaeal Dehydroquinase O30011 O30011 2.33 X-RAY DIFFRACTION 62 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 196 196 2ox1-a1-m1-cA_2ox1-a1-m1-cB MKLVATLSSPEELELAEKADVVELRIDLFDFSGARVDKEKILTCRRVSDGGKFEGDERERIEKMKRAFDSLNPDYVDLESDLPDSAFDFNCRIIESYHNFIRTPDYSELKGIVEGRRGDLVKIATMGKSKRDVETIVRILTNYDDVVAFLMGERFSFTRVLAAYLGSPFIYCYVGSPKAPGQISLDDAREIISRLG MKLVATLSSPEELELAEKADVVELRIDLFDFSGARVDKEKILTCRRVSDGGKFEGDERERIEKMKRAFDSLNPDYVDLESDLPDSAFDFNCRIIESYHNFIRTPDYSELKGIVEGRRGDLVKIATMGKSKRDVETIVRILTNYDDVVAFLMGERFSFTRVLAAYLGSPFIYCYVGSPKAPGQISLDDAREIISRLG 2ox4-a1-m1-cA_2ox4-a1-m1-cH Crystal structure of putative dehydratase from Zymomonas mobilis ZM4 Q5NN22 Q5NN22 1.8 X-RAY DIFFRACTION 77 1.0 542 (Zymomonas mobilis) 542 (Zymomonas mobilis) 393 393 2ox4-a1-m1-cB_2ox4-a1-m1-cC 2ox4-a1-m1-cE_2ox4-a1-m1-cF 2ox4-a1-m1-cG_2ox4-a1-m1-cD SLKITKIEIFHVHTRPQSGQRPILVKVSTDEGIYGLGEAGIAYGVGGSAAAGILKDYAALLIGEDPFNTEAIWEKLFKKTFWGQGGGTVIFSGISAFDIAFWDIKGKALNLPVYKLLGGKNREDLRVYASQLQFGWGKERKSKGRKEEYAEEALKAVAEGYDAVKVDVLAHDRNGSREGVFLEGPLPSETIKIGVERVEAIRNAVGPDVDIIVENHGHTDLVSAIQFAKAIEEFNIFFYEEINTPLNPRLLKEAKKKIDIPLASGERIYSRWGFLPFLEDRSIDVIQPDLGTCGGFTEFKKIADMAHIFEVTVQAHVAGTGVAEAASLHAEIAIPNFCIHEHHQKTLLPEYEELCVHNYQPVKGRYKVPELPGIGQDITEKLYQISDYVSIEA SLKITKIEIFHVHTRPQSGQRPILVKVSTDEGIYGLGEAGIAYGVGGSAAAGILKDYAALLIGEDPFNTEAIWEKLFKKTFWGQGGGTVIFSGISAFDIAFWDIKGKALNLPVYKLLGGKNREDLRVYASQLQFGWGKERKSKGRKEEYAEEALKAVAEGYDAVKVDVLAHDRNGSREGVFLEGPLPSETIKIGVERVEAIRNAVGPDVDIIVENHGHTDLVSAIQFAKAIEEFNIFFYEEINTPLNPRLLKEAKKKIDIPLASGERIYSRWGFLPFLEDRSIDVIQPDLGTCGGFTEFKKIADMAHIFEVTVQAHVAGTGVAEAASLHAEIAIPNFCIHEHHQKTLLPEYEELCVHNYQPVKGRYKVPELPGIGQDITEKLYQISDYVSIEA 2ox4-a1-m1-cE_2ox4-a1-m1-cH Crystal structure of putative dehydratase from Zymomonas mobilis ZM4 Q5NN22 Q5NN22 1.8 X-RAY DIFFRACTION 43 1.0 542 (Zymomonas mobilis) 542 (Zymomonas mobilis) 393 393 2ox4-a1-m1-cA_2ox4-a1-m1-cC 2ox4-a1-m1-cA_2ox4-a1-m1-cF 2ox4-a1-m1-cB_2ox4-a1-m1-cG 2ox4-a1-m1-cB_2ox4-a1-m1-cH 2ox4-a1-m1-cC_2ox4-a1-m1-cD 2ox4-a1-m1-cE_2ox4-a1-m1-cG 2ox4-a1-m1-cF_2ox4-a1-m1-cD SLKITKIEIFHVHTRPQSGQRPILVKVSTDEGIYGLGEAGIAYGVGGSAAAGILKDYAALLIGEDPFNTEAIWEKLFKKTFWGQGGGTVIFSGISAFDIAFWDIKGKALNLPVYKLLGGKNREDLRVYASQLQFGWGKERKSKGRKEEYAEEALKAVAEGYDAVKVDVLAHDRNGSREGVFLEGPLPSETIKIGVERVEAIRNAVGPDVDIIVENHGHTDLVSAIQFAKAIEEFNIFFYEEINTPLNPRLLKEAKKKIDIPLASGERIYSRWGFLPFLEDRSIDVIQPDLGTCGGFTEFKKIADMAHIFEVTVQAHVAGTGVAEAASLHAEIAIPNFCIHEHHQKTLLPEYEELCVHNYQPVKGRYKVPELPGIGQDITEKLYQISDYVSIEA SLKITKIEIFHVHTRPQSGQRPILVKVSTDEGIYGLGEAGIAYGVGGSAAAGILKDYAALLIGEDPFNTEAIWEKLFKKTFWGQGGGTVIFSGISAFDIAFWDIKGKALNLPVYKLLGGKNREDLRVYASQLQFGWGKERKSKGRKEEYAEEALKAVAEGYDAVKVDVLAHDRNGSREGVFLEGPLPSETIKIGVERVEAIRNAVGPDVDIIVENHGHTDLVSAIQFAKAIEEFNIFFYEEINTPLNPRLLKEAKKKIDIPLASGERIYSRWGFLPFLEDRSIDVIQPDLGTCGGFTEFKKIADMAHIFEVTVQAHVAGTGVAEAASLHAEIAIPNFCIHEHHQKTLLPEYEELCVHNYQPVKGRYKVPELPGIGQDITEKLYQISDYVSIEA 2ox4-a1-m1-cF_2ox4-a1-m1-cH Crystal structure of putative dehydratase from Zymomonas mobilis ZM4 Q5NN22 Q5NN22 1.8 X-RAY DIFFRACTION 136 1.0 542 (Zymomonas mobilis) 542 (Zymomonas mobilis) 393 393 2ox4-a1-m1-cA_2ox4-a1-m1-cB 2ox4-a1-m1-cE_2ox4-a1-m1-cD 2ox4-a1-m1-cG_2ox4-a1-m1-cC SLKITKIEIFHVHTRPQSGQRPILVKVSTDEGIYGLGEAGIAYGVGGSAAAGILKDYAALLIGEDPFNTEAIWEKLFKKTFWGQGGGTVIFSGISAFDIAFWDIKGKALNLPVYKLLGGKNREDLRVYASQLQFGWGKERKSKGRKEEYAEEALKAVAEGYDAVKVDVLAHDRNGSREGVFLEGPLPSETIKIGVERVEAIRNAVGPDVDIIVENHGHTDLVSAIQFAKAIEEFNIFFYEEINTPLNPRLLKEAKKKIDIPLASGERIYSRWGFLPFLEDRSIDVIQPDLGTCGGFTEFKKIADMAHIFEVTVQAHVAGTGVAEAASLHAEIAIPNFCIHEHHQKTLLPEYEELCVHNYQPVKGRYKVPELPGIGQDITEKLYQISDYVSIEA SLKITKIEIFHVHTRPQSGQRPILVKVSTDEGIYGLGEAGIAYGVGGSAAAGILKDYAALLIGEDPFNTEAIWEKLFKKTFWGQGGGTVIFSGISAFDIAFWDIKGKALNLPVYKLLGGKNREDLRVYASQLQFGWGKERKSKGRKEEYAEEALKAVAEGYDAVKVDVLAHDRNGSREGVFLEGPLPSETIKIGVERVEAIRNAVGPDVDIIVENHGHTDLVSAIQFAKAIEEFNIFFYEEINTPLNPRLLKEAKKKIDIPLASGERIYSRWGFLPFLEDRSIDVIQPDLGTCGGFTEFKKIADMAHIFEVTVQAHVAGTGVAEAASLHAEIAIPNFCIHEHHQKTLLPEYEELCVHNYQPVKGRYKVPELPGIGQDITEKLYQISDYVSIEA 2ox6-a3-m2-cA_2ox6-a3-m2-cB Crystal structure of gene product SO3848 from Shewanella oneidensis MR-1 Q8EAP9 Q8EAP9 1.7 X-RAY DIFFRACTION 59 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 162 162 2ox6-a1-m1-cA_2ox6-a1-m1-cB 2ox6-a2-m1-cD_2ox6-a2-m1-cC 2ox6-a3-m1-cD_2ox6-a3-m1-cC IGLNAIEMSYLRQSLSLSAAQVGQLTNHSEAEVLAWENAETQAPELAQKKLLDIDDIIEMQVLNTTDGIEALFKKEPKRHLAFVVYPTQAIYTQYNPEFLSSLPLTELYNTAAWRIKKECKLVLEVDVSLINLNVEAYKAYREQNGLSESRESRAKWAATQL IGLNAIEMSYLRQSLSLSAAQVGQLTNHSEAEVLAWENAETQAPELAQKKLLDIDDIIEMQVLNTTDGIEALFKKEPKRHLAFVVYPTQAIYTQYNPEFLSSLPLTELYNTAAWRIKKECKLVLEVDVSLINLNVEAYKAYREQNGLSESRESRAKWAATQL 2ox7-a1-m1-cC_2ox7-a1-m1-cD Crystal structure of protein EF1440 from Enterococcus faecalis Q835D7 Q835D7 1.777 X-RAY DIFFRACTION 18 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 139 139 2ox7-a1-m1-cA_2ox7-a1-m1-cB SLIPKFRAWDTYEKELENVTPLFDDSNSIAIITDFQIKGSPGTSEIEIGSYDTTFNWDEFPYVIQSTGLKDKNGVEIFEGDILVYDAPKKYAHRRSHEIAYADGRFFWEFLDLVFCQSNILYRDGYLVIGNIHENPELL SLIPKFRAWDTYEKELENVTPLFDDSNSIAIITDFQIKGSPGTSEIEIGSYDTTFNWDEFPYVIQSTGLKDKNGVEIFEGDILVYDAPKKYAHRRSHEIAYADGRFFWEFLDLVFCQSNILYRDGYLVIGNIHENPELL 2ox7-a1-m1-cD_2ox7-a1-m1-cA Crystal structure of protein EF1440 from Enterococcus faecalis Q835D7 Q835D7 1.777 X-RAY DIFFRACTION 116 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 139 140 2ox7-a1-m1-cC_2ox7-a1-m1-cB SLIPKFRAWDTYEKELENVTPLFDDSNSIAIITDFQIKGSPGTSEIEIGSYDTTFNWDEFPYVIQSTGLKDKNGVEIFEGDILVYDAPKKYAHRRSHEIAYADGRFFWEFLDLVFCQSNILYRDGYLVIGNIHENPELL SLIPKFRAWDTYEKELENVTPLFDDSNSIAIITDFQIKGSPGTSEIEIGSYDTTFNWDEFPYVIQSTGLKDKNGVEIFEGDILVYDAPKKYAHRRSHEIAYADGRFFWEFLDLVFCQSNILYRDGYLVIGNIHENPELLE 2ox7-a1-m1-cD_2ox7-a1-m1-cB Crystal structure of protein EF1440 from Enterococcus faecalis Q835D7 Q835D7 1.777 X-RAY DIFFRACTION 24 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 139 140 2ox7-a1-m1-cC_2ox7-a1-m1-cA SLIPKFRAWDTYEKELENVTPLFDDSNSIAIITDFQIKGSPGTSEIEIGSYDTTFNWDEFPYVIQSTGLKDKNGVEIFEGDILVYDAPKKYAHRRSHEIAYADGRFFWEFLDLVFCQSNILYRDGYLVIGNIHENPELL SLIPKFRAWDTYEKELENVTPLFDDSNSIAIITDFQIKGSPGTSEIEIGSYDTTFNWDEFPYVIQSTGLKDKNGVEIFEGDILVYDAPKKYAHRRSHEIAYADGRFFWEFLDLVFCQSNILYRDGYLVIGNIHENPELLE 2oxj-a1-m1-cB_2oxj-a1-m1-cA Helix Bundle Quaternary Structure from alpha/beta-Peptide Foldamers: GCN4-p1 with beta-residues at b and f heptad positions. 2 X-RAY DIFFRACTION 30 1.0 22 24 2oxj-a1-m1-cB_2oxj-a1-m1-cC 2oxj-a1-m1-cC_2oxj-a1-m1-cA RMQLEKVELLKNHLEEVRLKLV RMQLEKVELLKNHLEEVRLKLVER 2oxk-a1-m2-cA_2oxk-a1-m4-cA Helix Bundle Quaternary Structure from alpha/beta-Peptide Foldamers: GCN4-pLI with beta-residues at b and f heptad positions. 2 X-RAY DIFFRACTION 38 1.0 24 24 2oxk-a1-m1-cA_2oxk-a1-m3-cA 2oxk-a1-m1-cA_2oxk-a1-m4-cA 2oxk-a1-m2-cA_2oxk-a1-m3-cA RMQIEKLEILKLHIEELRIKLLER RMQIEKLEILKLHIEELRIKLLER 2oxl-a1-m1-cA_2oxl-a1-m1-cB Structure and Function of the E. coli Protein YmgB: a Protein Critical for Biofilm Formation and Acid Resistance P75993 P75993 1.8 X-RAY DIFFRACTION 36 1.0 562 (Escherichia coli) 562 (Escherichia coli) 61 61 NLLEEESAVLGQAVTNLLSGDNVNNKNIILSLIHSLETTSDILKADVIRKTLEIVLRYTAD NLLEEESAVLGQAVTNLLSGDNVNNKNIILSLIHSLETTSDILKADVIRKTLEIVLRYTAD 2oxq-a1-m1-cC_2oxq-a1-m1-cD Structure of the UbcH5 :CHIP U-box complex F6NGW2 F6NGW2 2.9 X-RAY DIFFRACTION 56 1.0 7955 (Danio rerio) 7955 (Danio rerio) 72 72 2c2v-a1-m1-cS_2c2v-a1-m1-cT 2c2v-a2-m1-cV_2c2v-a2-m1-cU 2f42-a1-m1-cA_2f42-a1-m2-cA EIPDYLCGKISFELMAEPCITPSGITYDRKDIEEHLQRVGHFDPVTRSPLTQDQLIPNLAMKEVIDAFIQEN EIPDYLCGKISFELMAEPCITPSGITYDRKDIEEHLQRVGHFDPVTRSPLTQDQLIPNLAMKEVIDAFIQEN 2oy9-a1-m1-cB_2oy9-a1-m1-cA Crystal structure of an unknown conserved protein- Pfam: UPF0223 Q9K9K7 Q9K9K7 1.6 X-RAY DIFFRACTION 28 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 80 83 ISLDWSTEEVIDVVHFFQAIEQAYDQGIAREDLLGKYRRFKEIVPSKSEEKQLFRAYEQENDVSCYQTIKKAREEEEHIQ TLPISLDWSTEEVIDVVHFFQAIEQAYDQGIAREDLLGKYRRFKEIVPSKSEEKQLFRAYEQENDVSCYQTIKKAREEEEHIQ 2oya-a3-m1-cA_2oya-a3-m1-cB Crystal structure analysis of the dimeric form of the SRCR domain of mouse MARCO Q60754 Q60754 1.77 X-RAY DIFFRACTION 103 1.0 10090 (Mus musculus) 10090 (Mus musculus) 102 102 APLAQRVRIMGGTNRGRAEVYYNNEWGTICDDDWDNNDATVFCRMLGYSRGRALSSYGGGSGNIWLDNVNCRGTENSLWDCSKNSWGNHNCVHNEDAGVECS APLAQRVRIMGGTNRGRAEVYYNNEWGTICDDDWDNNDATVFCRMLGYSRGRALSSYGGGSGNIWLDNVNCRGTENSLWDCSKNSWGNHNCVHNEDAGVECS 2oyn-a1-m1-cA_2oyn-a1-m2-cA Crystal structure of CDP-bound protein MJ0056 from Methanococcus jannaschii, Pfam DUF120 Q60365 Q60365 1.85 X-RAY DIFFRACTION 32 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 137 137 SLVKLMIIEGEVVSGLGEGRYFLSLPPYKEIFKKILGFEPYEGTLNLKLDREFDINKFKYIETEDFEFNGKRFFGVKVLPIKILIGNKKIDGAIVVPKKTYHSSEIIEIIAPMKLREQFNLKDGDVIKILIKGDKDE SLVKLMIIEGEVVSGLGEGRYFLSLPPYKEIFKKILGFEPYEGTLNLKLDREFDINKFKYIETEDFEFNGKRFFGVKVLPIKILIGNKKIDGAIVVPKKTYHSSEIIEIIAPMKLREQFNLKDGDVIKILIKGDKDE 2oyo-a1-m2-cA_2oyo-a1-m3-cB Crystal structure of Uncharacterized peroxidase-related protein (YP_604910.1) from Deinococcus geothermalis DSM 11300 at 1.51 A resolution Q1IYE3 Q1IYE3 1.51 X-RAY DIFFRACTION 52 1.0 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 184 184 2oyo-a1-m1-cA_2oyo-a1-m2-cB 2oyo-a1-m1-cB_2oyo-a1-m3-cA DRISSLPVPDATQVPEGVRKLWAKAEANIGFVPNVFRAQAVNGEQFLAWWNYFNLLLNKEGYLTNAERELVAVVVSGVNRCLYCAVSHGAALREFLGDPQKADAVAVNWRHADLTEREQALAAYAEKLTRHPAEVTAADLEPLRAVGLDDHQIELVQVIGFNLTNRVSSALGFVPNPEYYRQAR DRISSLPVPDATQVPEGVRKLWAKAEANIGFVPNVFRAQAVNGEQFLAWWNYFNLLLNKEGYLTNAERELVAVVVSGVNRCLYCAVSHGAALREFLGDPQKADAVAVNWRHADLTEREQALAAYAEKLTRHPAEVTAADLEPLRAVGLDDHQIELVQVIGFNLTNRVSSALGFVPNPEYYRQAR 2oyo-a1-m3-cA_2oyo-a1-m3-cB Crystal structure of Uncharacterized peroxidase-related protein (YP_604910.1) from Deinococcus geothermalis DSM 11300 at 1.51 A resolution Q1IYE3 Q1IYE3 1.51 X-RAY DIFFRACTION 126 1.0 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 184 184 2oyo-a1-m1-cA_2oyo-a1-m1-cB 2oyo-a1-m2-cA_2oyo-a1-m2-cB DRISSLPVPDATQVPEGVRKLWAKAEANIGFVPNVFRAQAVNGEQFLAWWNYFNLLLNKEGYLTNAERELVAVVVSGVNRCLYCAVSHGAALREFLGDPQKADAVAVNWRHADLTEREQALAAYAEKLTRHPAEVTAADLEPLRAVGLDDHQIELVQVIGFNLTNRVSSALGFVPNPEYYRQAR DRISSLPVPDATQVPEGVRKLWAKAEANIGFVPNVFRAQAVNGEQFLAWWNYFNLLLNKEGYLTNAERELVAVVVSGVNRCLYCAVSHGAALREFLGDPQKADAVAVNWRHADLTEREQALAAYAEKLTRHPAEVTAADLEPLRAVGLDDHQIELVQVIGFNLTNRVSSALGFVPNPEYYRQAR 2oys-a2-m1-cA_2oys-a2-m2-cB Crystal Structure of SP1951 protein from Streptococcus pneumoniae in complex with FMN, Northeast Structural Genomics Target SpR27 A0A0H2URW2 A0A0H2URW2 2 X-RAY DIFFRACTION 46 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 227 227 2oys-a2-m1-cB_2oys-a2-m2-cA NKIFIYAGVRNHNSKTLEYTKRLSSIISSRNNVDISFRTPFNSELEISNSDSEELFKKGIDRQSNADDGGVIKKELLESDIIIISSPVYLQNVSVDTKNFIERIGGWSHLFRLAGKFVVTLDVAESNGSDNVSEYLRDIFSYGGQILHQVSITNSLKDIAEAQLEATYKIEDVLEGKIKYKTTDYQERAYQTLKLILENYDSEHFEKYWEKKRLFEANSLEEWYYVE NKIFIYAGVRNHNSKTLEYTKRLSSIISSRNNVDISFRTPFNSELEISNSDSEELFKKGIDRQSNADDGGVIKKELLESDIIIISSPVYLQNVSVDTKNFIERIGGWSHLFRLAGKFVVTLDVAESNGSDNVSEYLRDIFSYGGQILHQVSITNSLKDIAEAQLEATYKIEDVLEGKIKYKTTDYQERAYQTLKLILENYDSEHFEKYWEKKRLFEANSLEEWYYVE 2oys-a2-m2-cA_2oys-a2-m2-cB Crystal Structure of SP1951 protein from Streptococcus pneumoniae in complex with FMN, Northeast Structural Genomics Target SpR27 A0A0H2URW2 A0A0H2URW2 2 X-RAY DIFFRACTION 80 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 227 227 1sqs-a1-m1-cA_1sqs-a1-m1-cB 2oys-a1-m1-cA_2oys-a1-m1-cB 2oys-a2-m1-cA_2oys-a2-m1-cB NKIFIYAGVRNHNSKTLEYTKRLSSIISSRNNVDISFRTPFNSELEISNSDSEELFKKGIDRQSNADDGGVIKKELLESDIIIISSPVYLQNVSVDTKNFIERIGGWSHLFRLAGKFVVTLDVAESNGSDNVSEYLRDIFSYGGQILHQVSITNSLKDIAEAQLEATYKIEDVLEGKIKYKTTDYQERAYQTLKLILENYDSEHFEKYWEKKRLFEANSLEEWYYVE NKIFIYAGVRNHNSKTLEYTKRLSSIISSRNNVDISFRTPFNSELEISNSDSEELFKKGIDRQSNADDGGVIKKELLESDIIIISSPVYLQNVSVDTKNFIERIGGWSHLFRLAGKFVVTLDVAESNGSDNVSEYLRDIFSYGGQILHQVSITNSLKDIAEAQLEATYKIEDVLEGKIKYKTTDYQERAYQTLKLILENYDSEHFEKYWEKKRLFEANSLEEWYYVE 2oyy-a3-m4-cB_2oyy-a3-m8-cH HTHP: a hexameric tyrosine-coordinated heme protein Q5LL55 Q5LL55 2.5 X-RAY DIFFRACTION 17 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 71 71 2oyy-a3-m1-cH_2oyy-a3-m5-cB 2oyy-a3-m6-cB_2oyy-a3-m7-cH TWLPTLVTATPQEGFDLAVKLSRIAVKKTQPDAQVRDTLRAVYEKDANALIAVSAVVATHFQTIAAANDYW TWLPTLVTATPQEGFDLAVKLSRIAVKKTQPDAQVRDTLRAVYEKDANALIAVSAVVATHFQTIAAANDYW 2oyy-a3-m8-cG_2oyy-a3-m8-cH HTHP: a hexameric tyrosine-coordinated heme protein Q5LL55 Q5LL55 2.5 X-RAY DIFFRACTION 90 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 71 71 2oyy-a1-m1-cA_2oyy-a1-m1-cB 2oyy-a1-m1-cA_2oyy-a1-m3-cB 2oyy-a1-m1-cB_2oyy-a1-m2-cA 2oyy-a1-m2-cA_2oyy-a1-m2-cB 2oyy-a1-m2-cB_2oyy-a1-m3-cA 2oyy-a1-m3-cA_2oyy-a1-m3-cB 2oyy-a2-m1-cC_2oyy-a2-m1-cD 2oyy-a2-m1-cC_2oyy-a2-m1-cF 2oyy-a2-m1-cD_2oyy-a2-m1-cG 2oyy-a2-m1-cE_2oyy-a2-m1-cF 2oyy-a2-m1-cE_2oyy-a2-m1-cH 2oyy-a2-m1-cG_2oyy-a2-m1-cH 2oyy-a3-m1-cC_2oyy-a3-m1-cD 2oyy-a3-m1-cC_2oyy-a3-m1-cF 2oyy-a3-m1-cD_2oyy-a3-m1-cG 2oyy-a3-m1-cE_2oyy-a3-m1-cF 2oyy-a3-m1-cE_2oyy-a3-m1-cH 2oyy-a3-m1-cG_2oyy-a3-m1-cH 2oyy-a3-m4-cA_2oyy-a3-m4-cB 2oyy-a3-m4-cA_2oyy-a3-m6-cB 2oyy-a3-m4-cB_2oyy-a3-m5-cA 2oyy-a3-m5-cA_2oyy-a3-m5-cB 2oyy-a3-m5-cB_2oyy-a3-m6-cA 2oyy-a3-m6-cA_2oyy-a3-m6-cB 2oyy-a3-m7-cC_2oyy-a3-m7-cD 2oyy-a3-m7-cC_2oyy-a3-m7-cF 2oyy-a3-m7-cD_2oyy-a3-m7-cG 2oyy-a3-m7-cE_2oyy-a3-m7-cF 2oyy-a3-m7-cE_2oyy-a3-m7-cH 2oyy-a3-m7-cG_2oyy-a3-m7-cH 2oyy-a3-m8-cC_2oyy-a3-m8-cD 2oyy-a3-m8-cC_2oyy-a3-m8-cF 2oyy-a3-m8-cD_2oyy-a3-m8-cG 2oyy-a3-m8-cE_2oyy-a3-m8-cF 2oyy-a3-m8-cE_2oyy-a3-m8-cH TWLPTLVTATPQEGFDLAVKLSRIAVKKTQPDAQVRDTLRAVYEKDANALIAVSAVVATHFQTIAAANDYW TWLPTLVTATPQEGFDLAVKLSRIAVKKTQPDAQVRDTLRAVYEKDANALIAVSAVVATHFQTIAAANDYW 2oyz-a1-m1-cA_2oyz-a1-m2-cA Crystal structure of unknown function protein VPA0057 from Vibrio parahaemolyticus (targeted domain 2-94) Q87K41 Q87K41 1.71 X-RAY DIFFRACTION 84 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 92 92 ASIKENSYFAGGVKSLGFNQHGQDVSVGVLPGEYTFGTQAPERTVVKGALVVKRVGEADWTTYSSGESFDVEGNSSFELQVKDATAYLCEYL ASIKENSYFAGGVKSLGFNQHGQDVSVGVLPGEYTFGTQAPERTVVKGALVVKRVGEADWTTYSSGESFDVEGNSSFELQVKDATAYLCEYL 2oz2-a1-m1-cA_2oz2-a1-m2-cC Crystal structure analysis of cruzain bound to vinyl sulfone derived inhibitor (K11777) P25779 P25779 1.95 X-RAY DIFFRACTION 23 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 215 215 2oz2-a1-m1-cC_2oz2-a1-m2-cA APAAVDWRARGAVTAVKDQGQCGSCWAFSAIGNVECQWFLAGHPLTNLSEQMLVSCDKTDSGCSGGLMNNAFEWIVQENNGAVYTEDSYPYASGEGISPPCTTSGHTVGATITGHVELPQDEAQIAAWLAVNGPVAVAVDASSWMTYTGGVMTSCVSEQLDHGVLLVGYNDSAAVPYWIIKNSWTTQWGEEGYIRIAKGSNQCLVKEEASSAVVG APAAVDWRARGAVTAVKDQGQCGSCWAFSAIGNVECQWFLAGHPLTNLSEQMLVSCDKTDSGCSGGLMNNAFEWIVQENNGAVYTEDSYPYASGEGISPPCTTSGHTVGATITGHVELPQDEAQIAAWLAVNGPVAVAVDASSWMTYTGGVMTSCVSEQLDHGVLLVGYNDSAAVPYWIIKNSWTTQWGEEGYIRIAKGSNQCLVKEEASSAVVG 2oz2-a2-m1-cA_2oz2-a2-m1-cC Crystal structure analysis of cruzain bound to vinyl sulfone derived inhibitor (K11777) P25779 P25779 1.95 X-RAY DIFFRACTION 61 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 215 215 2oz2-a1-m1-cA_2oz2-a1-m1-cC 2oz2-a1-m2-cA_2oz2-a1-m2-cC APAAVDWRARGAVTAVKDQGQCGSCWAFSAIGNVECQWFLAGHPLTNLSEQMLVSCDKTDSGCSGGLMNNAFEWIVQENNGAVYTEDSYPYASGEGISPPCTTSGHTVGATITGHVELPQDEAQIAAWLAVNGPVAVAVDASSWMTYTGGVMTSCVSEQLDHGVLLVGYNDSAAVPYWIIKNSWTTQWGEEGYIRIAKGSNQCLVKEEASSAVVG APAAVDWRARGAVTAVKDQGQCGSCWAFSAIGNVECQWFLAGHPLTNLSEQMLVSCDKTDSGCSGGLMNNAFEWIVQENNGAVYTEDSYPYASGEGISPPCTTSGHTVGATITGHVELPQDEAQIAAWLAVNGPVAVAVDASSWMTYTGGVMTSCVSEQLDHGVLLVGYNDSAAVPYWIIKNSWTTQWGEEGYIRIAKGSNQCLVKEEASSAVVG 2oz3-a3-m3-cG_2oz3-a3-m1-cE Crystal structure of L-Rhamnonate dehydratase from Azotobacter vinelandii C1DMY1 C1DMY1 2 X-RAY DIFFRACTION 25 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 380 381 2oz3-a1-m1-cA_2oz3-a1-m2-cB 2oz3-a1-m1-cB_2oz3-a1-m2-cA 2oz3-a1-m1-cC_2oz3-a1-m1-cA 2oz3-a1-m1-cC_2oz3-a1-m2-cD 2oz3-a1-m1-cD_2oz3-a1-m1-cB 2oz3-a1-m2-cC_2oz3-a1-m1-cD 2oz3-a1-m2-cC_2oz3-a1-m2-cA 2oz3-a1-m2-cD_2oz3-a1-m2-cB 2oz3-a2-m1-cG_2oz3-a2-m1-cE 2oz3-a2-m1-cH_2oz3-a2-m1-cF 2oz3-a3-m1-cG_2oz3-a3-m1-cE 2oz3-a3-m1-cG_2oz3-a3-m3-cE 2oz3-a3-m1-cH_2oz3-a3-m1-cF 2oz3-a3-m1-cH_2oz3-a3-m3-cF 2oz3-a3-m3-cG_2oz3-a3-m3-cE 2oz3-a3-m3-cH_2oz3-a3-m1-cF 2oz3-a3-m3-cH_2oz3-a3-m3-cF 3ekg-a1-m1-cA_3ekg-a1-m3-cA 3ekg-a1-m1-cA_3ekg-a1-m4-cA 3ekg-a1-m1-cB_3ekg-a1-m3-cB 3ekg-a1-m1-cB_3ekg-a1-m4-cB 3ekg-a1-m2-cA_3ekg-a1-m3-cA 3ekg-a1-m2-cA_3ekg-a1-m4-cA 3ekg-a1-m2-cB_3ekg-a1-m3-cB 3ekg-a1-m2-cB_3ekg-a1-m4-cB SLSIPTIKQVRAFVLRGGGADYHDQGDGHWIDDHISTPGKYPEYRQSRRSFGINVLGTLVVEIEASDGNVGFAVTTGGEPAAYIVEKHLARFLEGARVTDIERIWDQYNSTLYYGRKGLVINTISGVDLALWDLLGKVRREPVHQLLGGAVRDELQFYATGARPDLAQKGFIGGKPLHHGPSEGEEGLKKNLEELATRERVGPDFWLFDCWSLDLNYATRLARGAREYGLKWIEEALPPDDYWGYAELRRNAPTGVTTGEHEATRWGFRLLEGCCDIIQPDVGWCGGVTELLKISALADAHNALVVPHGSSVYSYHFVATRQNSPFAEFLAPKADQVVPFHPQLLGEPVPENGRRLSRLDQPGFGVTLNPECQLHRPYTH SLSIPTIKQVRAFVLRGGGADYHDQGDGHWIDDHISTPGKYPEYRQSRRSFGINVLGTLVVEIEASDGNVGFAVTTGGEPAAYIVEKHLARFLEGARVTDIERIWDQYNSTLYYGRKGLVINTISGVDLALWDLLGKVRREPVHQLLGGAVRDELQFYATGARPDLAQKGFIGGKPLHHGPSEGEEGLKKNLEELATRERVGPDFWLFDCWSLDLNYATRLARGAREYGLKWIEEALPPDDYWGYAELRRNAPTGVTTGEHEATRWGFRLLEGCCDIIQPDVGWCGGVTELLKISALADAHNALVVPHGSSVYSYHFVATRQNSPFAEFLAPKADQVVPFHPQLLGEPVPENGRRLSRLDQPGFGVTLNPECQLHRPYTHE 2oz3-a3-m3-cH_2oz3-a3-m3-cG Crystal structure of L-Rhamnonate dehydratase from Azotobacter vinelandii C1DMY1 C1DMY1 2 X-RAY DIFFRACTION 103 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 368 380 2oz3-a1-m1-cA_2oz3-a1-m2-cA 2oz3-a1-m1-cC_2oz3-a1-m1-cB 2oz3-a1-m1-cD_2oz3-a1-m2-cD 2oz3-a1-m2-cC_2oz3-a1-m2-cB 2oz3-a2-m1-cF_2oz3-a2-m1-cE 2oz3-a2-m1-cH_2oz3-a2-m1-cG 2oz3-a3-m1-cF_2oz3-a3-m1-cE 2oz3-a3-m1-cH_2oz3-a3-m1-cG 2oz3-a3-m3-cF_2oz3-a3-m3-cE 3ekg-a1-m1-cA_3ekg-a1-m1-cB 3ekg-a1-m2-cA_3ekg-a1-m2-cB 3ekg-a1-m3-cA_3ekg-a1-m3-cB 3ekg-a1-m4-cA_3ekg-a1-m4-cB 3ekg-a2-m1-cA_3ekg-a2-m1-cB LSIPTIKQVRAFVLRGHWIDDHISTPGKYPEYRQSRRSFGINVLGTLVVEIEASDGNVGFAVTTGGEPAAYIVEKHLARFLEGARVTDIERIWDQYNSTLYYGRKGLVINTISGVDLALWDLLGKVRREPVHQLLGGAVRDELQFYATGARPDLAQKGFIGGKPLHHGPSEGEEGLKKNLEELATRERVGPDFWLFDCWSLDLNYATRLARGAREYGLKWIEEALPPDDYWGYAELRRNAPTGVTTGEHEATRWGFRLLEGCCDIIQPDVGWCGGVTELLKISALADAHNALVVPHGSSVYSYHFVATRQNSPFAEFLAPKADQVVPFHPQLLGEPVPENGRRLSRLDQPGFGVTLNPECQLHRPYTH SLSIPTIKQVRAFVLRGGGADYHDQGDGHWIDDHISTPGKYPEYRQSRRSFGINVLGTLVVEIEASDGNVGFAVTTGGEPAAYIVEKHLARFLEGARVTDIERIWDQYNSTLYYGRKGLVINTISGVDLALWDLLGKVRREPVHQLLGGAVRDELQFYATGARPDLAQKGFIGGKPLHHGPSEGEEGLKKNLEELATRERVGPDFWLFDCWSLDLNYATRLARGAREYGLKWIEEALPPDDYWGYAELRRNAPTGVTTGEHEATRWGFRLLEGCCDIIQPDVGWCGGVTELLKISALADAHNALVVPHGSSVYSYHFVATRQNSPFAEFLAPKADQVVPFHPQLLGEPVPENGRRLSRLDQPGFGVTLNPECQLHRPYTH 2oz8-a1-m3-cA_2oz8-a1-m4-cB Crystal structure of putative mandelate racemase from Mesorhizobium loti Q987E0 Q987E0 2.48 X-RAY DIFFRACTION 33 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 371 371 2oz8-a1-m1-cA_2oz8-a1-m3-cB 2oz8-a1-m1-cB_2oz8-a1-m2-cA 2oz8-a1-m2-cB_2oz8-a1-m4-cA LSLSHFRITRFQFARDRVIGDSQVRADDVNVAALELVSESGEVGLGFIQTLFNPLPDQQEIESVFEHEVWPSLKGNRAIALVHRVNRPRYSLPFHEAVQVALWDLAAKEAGLPLHVLLGSRRNRVKAYASGLDFHLDDDAFVSLFSHAASIGYSAFKIKVGHRDFDRDLRRLELLKTCVPAGSKVMIDPNEAWTSKEALTKLVAIREAGHDLLWVEDPILRHDHDGLRTLRHAVTWTQINSGEYLDLQGKRLLLEAHAADILNVHGQVTDVMRIGWLAAELGIPISIGNTFLEAGVHMAVALPEVEWLEYSFQNFDHLVEQPIEIRDGYAYAPDRPGHGLVLSEKARGEWSRPRRLARSELGAAPENPRLP LSLSHFRITRFQFARDRVIGDSQVRADDVNVAALELVSESGEVGLGFIQTLFNPLPDQQEIESVFEHEVWPSLKGNRAIALVHRVNRPRYSLPFHEAVQVALWDLAAKEAGLPLHVLLGSRRNRVKAYASGLDFHLDDDAFVSLFSHAASIGYSAFKIKVGHRDFDRDLRRLELLKTCVPAGSKVMIDPNEAWTSKEALTKLVAIREAGHDLLWVEDPILRHDHDGLRTLRHAVTWTQINSGEYLDLQGKRLLLEAHAADILNVHGQVTDVMRIGWLAAELGIPISIGNTFLEAGVHMAVALPEVEWLEYSFQNFDHLVEQPIEIRDGYAYAPDRPGHGLVLSEKARGEWSRPRRLARSELGAAPENPRLP 2oz8-a1-m3-cB_2oz8-a1-m4-cB Crystal structure of putative mandelate racemase from Mesorhizobium loti Q987E0 Q987E0 2.48 X-RAY DIFFRACTION 34 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 371 371 2oz8-a1-m1-cA_2oz8-a1-m2-cA 2oz8-a1-m1-cA_2oz8-a1-m3-cA 2oz8-a1-m1-cB_2oz8-a1-m2-cB 2oz8-a1-m1-cB_2oz8-a1-m3-cB 2oz8-a1-m2-cA_2oz8-a1-m4-cA 2oz8-a1-m2-cB_2oz8-a1-m4-cB 2oz8-a1-m3-cA_2oz8-a1-m4-cA LSLSHFRITRFQFARDRVIGDSQVRADDVNVAALELVSESGEVGLGFIQTLFNPLPDQQEIESVFEHEVWPSLKGNRAIALVHRVNRPRYSLPFHEAVQVALWDLAAKEAGLPLHVLLGSRRNRVKAYASGLDFHLDDDAFVSLFSHAASIGYSAFKIKVGHRDFDRDLRRLELLKTCVPAGSKVMIDPNEAWTSKEALTKLVAIREAGHDLLWVEDPILRHDHDGLRTLRHAVTWTQINSGEYLDLQGKRLLLEAHAADILNVHGQVTDVMRIGWLAAELGIPISIGNTFLEAGVHMAVALPEVEWLEYSFQNFDHLVEQPIEIRDGYAYAPDRPGHGLVLSEKARGEWSRPRRLARSELGAAPENPRLP LSLSHFRITRFQFARDRVIGDSQVRADDVNVAALELVSESGEVGLGFIQTLFNPLPDQQEIESVFEHEVWPSLKGNRAIALVHRVNRPRYSLPFHEAVQVALWDLAAKEAGLPLHVLLGSRRNRVKAYASGLDFHLDDDAFVSLFSHAASIGYSAFKIKVGHRDFDRDLRRLELLKTCVPAGSKVMIDPNEAWTSKEALTKLVAIREAGHDLLWVEDPILRHDHDGLRTLRHAVTWTQINSGEYLDLQGKRLLLEAHAADILNVHGQVTDVMRIGWLAAELGIPISIGNTFLEAGVHMAVALPEVEWLEYSFQNFDHLVEQPIEIRDGYAYAPDRPGHGLVLSEKARGEWSRPRRLARSELGAAPENPRLP 2oz8-a1-m4-cA_2oz8-a1-m4-cB Crystal structure of putative mandelate racemase from Mesorhizobium loti Q987E0 Q987E0 2.48 X-RAY DIFFRACTION 87 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 371 371 2oz8-a1-m1-cA_2oz8-a1-m1-cB 2oz8-a1-m2-cA_2oz8-a1-m2-cB 2oz8-a1-m3-cA_2oz8-a1-m3-cB LSLSHFRITRFQFARDRVIGDSQVRADDVNVAALELVSESGEVGLGFIQTLFNPLPDQQEIESVFEHEVWPSLKGNRAIALVHRVNRPRYSLPFHEAVQVALWDLAAKEAGLPLHVLLGSRRNRVKAYASGLDFHLDDDAFVSLFSHAASIGYSAFKIKVGHRDFDRDLRRLELLKTCVPAGSKVMIDPNEAWTSKEALTKLVAIREAGHDLLWVEDPILRHDHDGLRTLRHAVTWTQINSGEYLDLQGKRLLLEAHAADILNVHGQVTDVMRIGWLAAELGIPISIGNTFLEAGVHMAVALPEVEWLEYSFQNFDHLVEQPIEIRDGYAYAPDRPGHGLVLSEKARGEWSRPRRLARSELGAAPENPRLP LSLSHFRITRFQFARDRVIGDSQVRADDVNVAALELVSESGEVGLGFIQTLFNPLPDQQEIESVFEHEVWPSLKGNRAIALVHRVNRPRYSLPFHEAVQVALWDLAAKEAGLPLHVLLGSRRNRVKAYASGLDFHLDDDAFVSLFSHAASIGYSAFKIKVGHRDFDRDLRRLELLKTCVPAGSKVMIDPNEAWTSKEALTKLVAIREAGHDLLWVEDPILRHDHDGLRTLRHAVTWTQINSGEYLDLQGKRLLLEAHAADILNVHGQVTDVMRIGWLAAELGIPISIGNTFLEAGVHMAVALPEVEWLEYSFQNFDHLVEQPIEIRDGYAYAPDRPGHGLVLSEKARGEWSRPRRLARSELGAAPENPRLP 2oze-a1-m1-cA_2oze-a1-m2-cA The Crystal structure of Delta protein of pSM19035 from Streptoccocus pyogenes Q57280 Q57280 1.83 X-RAY DIFFRACTION 68 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 284 284 MEKEELKILEELRRILSNKNEAIVILNNYFKGGVGKSKLSTMFAYLTDKLNLKVLMIDKDLQATLTKDLAKTFKVELPRVNFYEGLKNGNLASSIVHLTDNLDLIPGTFDLMLLPKLTRSWTFENESRLLATLLAPLKSDYDLIIIDTVPTPSVYTNNAIVASDYVMIPLQAEEESTNNIQNYISYLIDLQEQFNPGLDMIGFVPYLVDTDSATIKSNLEELYKQHKEDNLVFQNIIKRSNKVSTWSKNGITEHKGYDKKVLSMYKNVFFEMLERIIQLENEKE MEKEELKILEELRRILSNKNEAIVILNNYFKGGVGKSKLSTMFAYLTDKLNLKVLMIDKDLQATLTKDLAKTFKVELPRVNFYEGLKNGNLASSIVHLTDNLDLIPGTFDLMLLPKLTRSWTFENESRLLATLLAPLKSDYDLIIIDTVPTPSVYTNNAIVASDYVMIPLQAEEESTNNIQNYISYLIDLQEQFNPGLDMIGFVPYLVDTDSATIKSNLEELYKQHKEDNLVFQNIIKRSNKVSTWSKNGITEHKGYDKKVLSMYKNVFFEMLERIIQLENEKE 2ozg-a1-m5-cA_2ozg-a1-m6-cA Crystal structure of GCN5-related N-acetyltransferase (YP_325469.1) from Anabaena variabilis ATCC 29413 at 2.00 A resolution Q3M362 Q3M362 2 X-RAY DIFFRACTION 37 1.0 383 383 2ozg-a1-m1-cA_2ozg-a1-m2-cA 2ozg-a1-m1-cA_2ozg-a1-m3-cA 2ozg-a1-m2-cA_2ozg-a1-m3-cA 2ozg-a1-m4-cA_2ozg-a1-m5-cA 2ozg-a1-m4-cA_2ozg-a1-m6-cA RFKYTKASQENIQQLGNILEQCFVSFGDSEIYVKGIGLENFRVIYREQKVAGGLAILPGQWWGGQRVPAGIAAVGIAPEYRGDGAAIALIQHTLQEISEQDIPISVLYPATQRLYRKAGYEQAGSSCVWEIPTDSIQIQHASLPLEPVVLKNNPIFHELYQQQAQLTHGYLDRHPAIWQGLNRTLDTETLYSYLIGDKDKPQGYIIFTQERTRDGSILRIRDWVTLSNPAVQSFWTFIANHRSQIDKVTWKSSVIDALTLLLPEQSATIRSQDRWLRIVNVCKALEARGYPLGVEAELHLEVQDDLLATNQGKFILSVANGKSEVTKGGKGELQLDIKGLASLYTSLFTPRQLQLTGKLQATETALLKATQIFAGESPWIDFF RFKYTKASQENIQQLGNILEQCFVSFGDSEIYVKGIGLENFRVIYREQKVAGGLAILPGQWWGGQRVPAGIAAVGIAPEYRGDGAAIALIQHTLQEISEQDIPISVLYPATQRLYRKAGYEQAGSSCVWEIPTDSIQIQHASLPLEPVVLKNNPIFHELYQQQAQLTHGYLDRHPAIWQGLNRTLDTETLYSYLIGDKDKPQGYIIFTQERTRDGSILRIRDWVTLSNPAVQSFWTFIANHRSQIDKVTWKSSVIDALTLLLPEQSATIRSQDRWLRIVNVCKALEARGYPLGVEAELHLEVQDDLLATNQGKFILSVANGKSEVTKGGKGELQLDIKGLASLYTSLFTPRQLQLTGKLQATETALLKATQIFAGESPWIDFF 2ozg-a2-m1-cA_2ozg-a2-m4-cA Crystal structure of GCN5-related N-acetyltransferase (YP_325469.1) from Anabaena variabilis ATCC 29413 at 2.00 A resolution Q3M362 Q3M362 2 X-RAY DIFFRACTION 101 1.0 383 383 2ozg-a1-m1-cA_2ozg-a1-m4-cA 2ozg-a1-m2-cA_2ozg-a1-m6-cA 2ozg-a1-m3-cA_2ozg-a1-m5-cA RFKYTKASQENIQQLGNILEQCFVSFGDSEIYVKGIGLENFRVIYREQKVAGGLAILPGQWWGGQRVPAGIAAVGIAPEYRGDGAAIALIQHTLQEISEQDIPISVLYPATQRLYRKAGYEQAGSSCVWEIPTDSIQIQHASLPLEPVVLKNNPIFHELYQQQAQLTHGYLDRHPAIWQGLNRTLDTETLYSYLIGDKDKPQGYIIFTQERTRDGSILRIRDWVTLSNPAVQSFWTFIANHRSQIDKVTWKSSVIDALTLLLPEQSATIRSQDRWLRIVNVCKALEARGYPLGVEAELHLEVQDDLLATNQGKFILSVANGKSEVTKGGKGELQLDIKGLASLYTSLFTPRQLQLTGKLQATETALLKATQIFAGESPWIDFF RFKYTKASQENIQQLGNILEQCFVSFGDSEIYVKGIGLENFRVIYREQKVAGGLAILPGQWWGGQRVPAGIAAVGIAPEYRGDGAAIALIQHTLQEISEQDIPISVLYPATQRLYRKAGYEQAGSSCVWEIPTDSIQIQHASLPLEPVVLKNNPIFHELYQQQAQLTHGYLDRHPAIWQGLNRTLDTETLYSYLIGDKDKPQGYIIFTQERTRDGSILRIRDWVTLSNPAVQSFWTFIANHRSQIDKVTWKSSVIDALTLLLPEQSATIRSQDRWLRIVNVCKALEARGYPLGVEAELHLEVQDDLLATNQGKFILSVANGKSEVTKGGKGELQLDIKGLASLYTSLFTPRQLQLTGKLQATETALLKATQIFAGESPWIDFF 2ozh-a1-m1-cA_2ozh-a1-m2-cA Crystal structure of a putative acetyltransferase belonging to the gnat family (xcc2953) from xanthomonas campestris pv. campestris at 1.40 A resolution Q8P6L4 Q8P6L4 1.4 X-RAY DIFFRACTION 141 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 138 138 GPHVHVSTDNSLLDIGLIHRTLSQDTDWAKDIPLALVQRAIDHSLCFGGFVDGRQVAFARVISDYATFAYLGDVFVLPEHRGRGYSKALDAVAHPDLQGLRRFSLATSDAHGLYARYGFTPPLFPQSLERYVPGLYST GPHVHVSTDNSLLDIGLIHRTLSQDTDWAKDIPLALVQRAIDHSLCFGGFVDGRQVAFARVISDYATFAYLGDVFVLPEHRGRGYSKALDAVAHPDLQGLRRFSLATSDAHGLYARYGFTPPLFPQSLERYVPGLYST 2ozj-a2-m1-cB_2ozj-a2-m3-cB CRYSTAL STRUCTURE OF A CUPIN SUPERFAMILY PROTEIN (DSY2733) FROM DESULFITOBACTERIUM HAFNIENSE DCB-2 AT 1.60 A RESOLUTION B8FSC7 B8FSC7 1.6 X-RAY DIFFRACTION 109 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 106 106 2ozj-a1-m1-cA_2ozj-a1-m2-cA ARLKNLPQERPLPLASLIEARENQVLSALAQSDRVQISLFSFADGESVSEEEYFGDTLYLILQGEAVITFDDQKIDLVPEDVLVPAHKIHAIAGKGRFKLQITLID ARLKNLPQERPLPLASLIEARENQVLSALAQSDRVQISLFSFADGESVSEEEYFGDTLYLILQGEAVITFDDQKIDLVPEDVLVPAHKIHAIAGKGRFKLQITLID 2ozk-a1-m1-cB_2ozk-a1-m1-cA Structure of an N-Terminal Truncated Form of Nendou (NSP15) From SARS-CORONAVIRUS P0C6X7 P0C6X7 2.9 X-RAY DIFFRACTION 96 1.0 305 306 NNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVISKVVKVTIDYAEISFMLW INNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVISKVVKVTIDYAEISFMLW 2ozk-a1-m1-cD_2ozk-a1-m1-cA Structure of an N-Terminal Truncated Form of Nendou (NSP15) From SARS-CORONAVIRUS P0C6X7 P0C6X7 2.9 X-RAY DIFFRACTION 10 1.0 296 306 2ozk-a1-m1-cC_2ozk-a1-m1-cB NAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDSSKCVCSVIDLLLDDFVEIIKSQDLSVISKVVKVTIDYAEISFMLW INNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVISKVVKVTIDYAEISFMLW 2ozk-a1-m1-cD_2ozk-a1-m1-cB Structure of an N-Terminal Truncated Form of Nendou (NSP15) From SARS-CORONAVIRUS P0C6X7 P0C6X7 2.9 X-RAY DIFFRACTION 57 1.0 296 305 2ozk-a1-m1-cC_2ozk-a1-m1-cA NAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDSSKCVCSVIDLLLDDFVEIIKSQDLSVISKVVKVTIDYAEISFMLW NNAVYTKVDGIDVEIFENKTTLPVNVAFELWAKRNIKPVPEIKILNNLGVDIAANTVIWDYKREAPAHVSTIGVCTMTDIAKKPTESACSSLTVLFDGRVEGQVDLFRNARNGVLITEGSVKGLTPSKGPAQASVNGVTLIGESVKTQFNYFKKVDGIIQQLPETYFTQSRDLEDFKPRSQMETDFLELAMDEFIQRYKLEGYAFEHIVYGDFSHGQLGGLHLMIGLAKRSQDSPLKLEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVISKVVKVTIDYAEISFMLW 2ozr-a1-m1-cD_2ozr-a1-m1-cB MMP13 Catalytic Domain Complexed with 4-{[1-methyl-2,4-dioxo-6-(3-phenylprop-1-yn-1-yl)-1,4-dihydroquinazolin-3(2H)-yl]methyl}benzoic acid P45452 P45452 2.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 167 2ozr-a1-m1-cA_2ozr-a1-m1-cC 5uwm-a1-m1-cC_5uwm-a1-m1-cA 5uwm-a2-m1-cD_5uwm-a2-m1-cB NVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGD YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGD 2ozr-a1-m1-cD_2ozr-a1-m1-cC MMP13 Catalytic Domain Complexed with 4-{[1-methyl-2,4-dioxo-6-(3-phenylprop-1-yn-1-yl)-1,4-dihydroquinazolin-3(2H)-yl]methyl}benzoic acid P45452 P45452 2.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 167 2ozr-a1-m1-cA_2ozr-a1-m1-cB NVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGD YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGD 2ozr-a1-m1-cG_2ozr-a1-m1-cB MMP13 Catalytic Domain Complexed with 4-{[1-methyl-2,4-dioxo-6-(3-phenylprop-1-yn-1-yl)-1,4-dihydroquinazolin-3(2H)-yl]methyl}benzoic acid P45452 P45452 2.3 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 167 6hv2-a1-m1-cB_6hv2-a1-m1-cA YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPG YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGD 2ozr-a1-m1-cH_2ozr-a1-m1-cG MMP13 Catalytic Domain Complexed with 4-{[1-methyl-2,4-dioxo-6-(3-phenylprop-1-yn-1-yl)-1,4-dihydroquinazolin-3(2H)-yl]methyl}benzoic acid P45452 P45452 2.3 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 166 2ozr-a1-m1-cE_2ozr-a1-m1-cF YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGFMLPDDDVQGIQSLYGPG YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPG 2ozv-a1-m1-cA_2ozv-a1-m1-cB Crystal structure of a predicted O-methyltransferase, protein Atu636 from Agrobacterium tumefaciens. Q7D120 Q7D120 1.7 X-RAY DIFFRACTION 59 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 200 202 DALLASLVADDRACRIADLGAGAGAAGAVAARLEKAEVTLYERSQEAEFARRSLELPDNAAFSARIEVLEADVTLRAKARVEAGLPDEHFHHVINPPYGLFEDWIRTASAIVSGGQLSLISRPQSVAEIIAACGSRFGGLEITLIHPRPGEDAVRLVTAIKGSRARLTFRAPLIHETGSHAFTPFVDDLNNGRAAYARNV DALLASLVADDRACRIADLGAGAGAAGAVAARLEKAEVTLYERSQEAEFARRSLELPDNAAFSARIEVLEADVTLRAKARVEAGLPDEHFHHVINPPYGLFEDWIRTASAIVSGGQLSLISRPQSVAEIIAACGSRFGGLEITLIHPRPGEDAVRLVTAIKGSRARLTFRAPLIHETGSHAFTPFVDDLNNGRAAYARNVRA 2p04-a1-m1-cB_2p04-a1-m1-cA 2.1 Ang structure of the dimerized PAS domain of signal transduction histidine kinase from Nostoc punctiforme PCC 73102 with homology to the H-NOXA/H-NOBA domain of the soluble guanylyl cyclase D0VWX5 D0VWX5 2.11 X-RAY DIFFRACTION 75 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 105 107 MAPPHLTLSPELLAKAFPFHFAFSRNREIVQTGEVLERISPEPLVGKLIEQHFQINRPKILIDFDAISKQPRALFILEFLHNGMQLKGQMMYQPEEEVIFFLGSP MAPPHLTLSPELLAKAFPFHFAFSRNREIVQTGEVLERISPEPLVGKLIEQHFQINRPKILIDFDAISKQPRALFILEFLHNGMQLKGQMMYQPEEEVIFFLGSPWI 2p06-a1-m1-cB_2p06-a1-m2-cB Crystal structure of a predicted coding region AF_0060 from Archaeoglobus fulgidus DSM 4304 O30176 O30176 2.1 X-RAY DIFFRACTION 16 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 83 83 LYFQGDYFRLAEKFLREHAKYKRVSRPGNTPRPWFDFSEERLLSRLFEEDELREAVEKEDWENLRDELLDVANFCYLWGKLSV LYFQGDYFRLAEKFLREHAKYKRVSRPGNTPRPWFDFSEERLLSRLFEEDELREAVEKEDWENLRDELLDVANFCYLWGKLSV 2p06-a1-m2-cA_2p06-a1-m2-cB Crystal structure of a predicted coding region AF_0060 from Archaeoglobus fulgidus DSM 4304 O30176 O30176 2.1 X-RAY DIFFRACTION 75 0.987 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 79 83 2p06-a1-m1-cA_2p06-a1-m1-cB DYFRLAEKFLREHAKYKRVSRPGNTPRPWFDFSEERLLSRLFEEDELREAVEKEDWENLRDELLDVANFCYLWGKLSVK LYFQGDYFRLAEKFLREHAKYKRVSRPGNTPRPWFDFSEERLLSRLFEEDELREAVEKEDWENLRDELLDVANFCYLWGKLSV 2p0a-a1-m1-cA_2p0a-a1-m2-cB The crystal structure of human synapsin III (SYN3) in complex with AMPPNP O14994 O14994 1.9 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 298 2p0a-a1-m1-cB_2p0a-a1-m2-cA RPRILLVIDDAHTDWSKYFHGKKVNGEIEIRVEQAEFSELNLAAYVTGGCMVDMQRSFKPDFILVRQHAYSMALGEDYRSLVIGLQYGGLPAVNSLYSVYNFCSKPWVFSQLIKIFHSLGPEKFPLVEQTFFPNHKPMVTAPHFPVVVKLGHAHAGMGKIKVENQLDFQDITSVVAMAKTYATTEAFIDSKYDIRIQKIGSNYKAYMRTSISGNWKANTGSAMLEQVAMTERYRLWVDSCSEMFGGLDICAVKAVHSKDGRDYIIEVMDSSMPLIGEHVEEDRQLMADLVVSKMSQLP RPRILLVIDDAHTDWSKYFHGKKVNGEIEIRVEQAEFSELNLAAYVTGGCMVDMQRSFKPDFILVRQHAYSMALGEDYRSLVIGLQYGGLPAVNSLYSVYNFCSKPWVFSQLIKIFHSLGPEKFPLVEQTFFPNHKPMVTAPHFPVVVKLGHAHAGMGKIKVENQLDFQDITSVVAMAKTYATTEAFIDSKYDIRIQKIGSNYKAYMRTSISGNWKANTGSAMLEQVAMTERYRLWVDSCSEMFGGLDICAVKAVHSKDGRDYIIEVMDSSMPLIGEHVEEDRQLMADLVVSKMSQLP 2p0a-a1-m2-cA_2p0a-a1-m2-cB The crystal structure of human synapsin III (SYN3) in complex with AMPPNP O14994 O14994 1.9 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 298 2p0a-a1-m1-cA_2p0a-a1-m1-cB RPRILLVIDDAHTDWSKYFHGKKVNGEIEIRVEQAEFSELNLAAYVTGGCMVDMQRSFKPDFILVRQHAYSMALGEDYRSLVIGLQYGGLPAVNSLYSVYNFCSKPWVFSQLIKIFHSLGPEKFPLVEQTFFPNHKPMVTAPHFPVVVKLGHAHAGMGKIKVENQLDFQDITSVVAMAKTYATTEAFIDSKYDIRIQKIGSNYKAYMRTSISGNWKANTGSAMLEQVAMTERYRLWVDSCSEMFGGLDICAVKAVHSKDGRDYIIEVMDSSMPLIGEHVEEDRQLMADLVVSKMSQLP RPRILLVIDDAHTDWSKYFHGKKVNGEIEIRVEQAEFSELNLAAYVTGGCMVDMQRSFKPDFILVRQHAYSMALGEDYRSLVIGLQYGGLPAVNSLYSVYNFCSKPWVFSQLIKIFHSLGPEKFPLVEQTFFPNHKPMVTAPHFPVVVKLGHAHAGMGKIKVENQLDFQDITSVVAMAKTYATTEAFIDSKYDIRIQKIGSNYKAYMRTSISGNWKANTGSAMLEQVAMTERYRLWVDSCSEMFGGLDICAVKAVHSKDGRDYIIEVMDSSMPLIGEHVEEDRQLMADLVVSKMSQLP 2p0g-a1-m1-cA_2p0g-a1-m1-cD Crystal structure of Selenoprotein W-related protein from Vibrio cholerae. Northeast Structural Genomics target VcR75 Q9KTC1 Q9KTC1 2.3 X-RAY DIFFRACTION 25 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 77 79 2p0g-a1-m1-cB_2p0g-a1-m1-cC KAQIEIYYCRQCNWLRSAWLSQELLHTFSEEIEYVALHPDTGGRFEIFCNGVQIWERKQEGGFPEAKVLKQRVRDLI KAQIEIYYCRQCNWLRSAWLSQELLHTFSEEIEYVALHPDTGGRFEIFCNGVQIWERKQEGGFPEAKVLKQRVRDLIDP 2p0g-a1-m1-cC_2p0g-a1-m1-cD Crystal structure of Selenoprotein W-related protein from Vibrio cholerae. Northeast Structural Genomics target VcR75 Q9KTC1 Q9KTC1 2.3 X-RAY DIFFRACTION 46 0.987 666 (Vibrio cholerae) 666 (Vibrio cholerae) 79 79 2p0g-a1-m1-cA_2p0g-a1-m1-cB NKAQIEIYYCRQCNWLRSAWLSQELLHTFSEEIEYVALHPDTGGRFEIFCNGVQIWERKQEGGFPEAKVLKQRVRDLID KAQIEIYYCRQCNWLRSAWLSQELLHTFSEEIEYVALHPDTGGRFEIFCNGVQIWERKQEGGFPEAKVLKQRVRDLIDP 2p0k-a2-m2-cA_2p0k-a2-m3-cA Crystal structure of SCMH1 Q96GD3 Q96GD3 1.75 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 2p0k-a2-m1-cA_2p0k-a2-m2-cA 2p0k-a2-m1-cA_2p0k-a2-m3-cA HFTWDKYLKETCSVPAPVHCFKQSYTPPSNEFKISMKLEAQDPRNTTSTCIATVVGLTGARLRLRLDGSDNKNDFWRLVDSAEIQPIGNCEKNGGMLQPPLGFRLNASSWPMFLLKTLNGAEMAPIRIFHKEPPSPSHNFFKMGMKLEAVDRKNPHFICPATIGEVRGSEVLVTFDGWRGAFDYWCRFDSRDIFPVGWCSLTGDNLQPP HFTWDKYLKETCSVPAPVHCFKQSYTPPSNEFKISMKLEAQDPRNTTSTCIATVVGLTGARLRLRLDGSDNKNDFWRLVDSAEIQPIGNCEKNGGMLQPPLGFRLNASSWPMFLLKTLNGAEMAPIRIFHKEPPSPSHNFFKMGMKLEAVDRKNPHFICPATIGEVRGSEVLVTFDGWRGAFDYWCRFDSRDIFPVGWCSLTGDNLQPP 2p0m-a3-m1-cA_2p0m-a3-m1-cB Revised structure of rabbit reticulocyte 15S-lipoxygenase P12530 P12530 2.4 X-RAY DIFFRACTION 76 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 662 662 GVYRVCVSTGASIYAGSKNKVELWLVGQHGEVELGSCLRPTRNKEEEFKVNVSKYLGSLLFVRLRKKHFLKEDAWFCNWISVQALGAAEDKYWFPCYRWVVGDGVQSLPVGTGCTTVGDPQGLFQKHREQELEERRKLYQWGSWKEGLILNVAGSKLTDLPVDERFLEDKKIDFEASLAWGLAELALKNSLNILAPWKTLDDFNRIFWCGRSKLARRVRDSWQEDSLFGYQFLNGANPMLLRRSVQLPARLVFPPGMEELQAQLEKELKAGTLFEADFALLDNIKANVILYCQQYLAAPLVMLKLQPDGKLMPMVIQLHLPKIGSSPPPLFLPTDPPMVWLLAKCWVRSSDFQVHELNSHLLRGHLMAEVFTVATMRCLPSIHPVFKLIVPHLRYTLEINVRARNGLVSDFGIFDQIMSTGGGGHVQLLQQAGAFLTYRSFCPPDDLADRGLLGVESSFYAQDALRLWEIISRYVQGIMGLYYKTDEAVRDDLELQSWCREITEIGLQGAQKQGFPTSLQSVAQACHFVTMCIFTCTGQHSSIHLGQLDWFTWVPNAPCTMRLPPPTTKDATLETVMATLPNLHQSSLQMSIVWQLGRDQPIMVPLGQHQEEYFSGPEPRAVLEKFREELAIMDKEIEVRNEKLDIPYEYLRPSIVENSVAI GVYRVCVSTGASIYAGSKNKVELWLVGQHGEVELGSCLRPTRNKEEEFKVNVSKYLGSLLFVRLRKKHFLKEDAWFCNWISVQALGAAEDKYWFPCYRWVVGDGVQSLPVGTGCTTVGDPQGLFQKHREQELEERRKLYQWGSWKEGLILNVAGSKLTDLPVDERFLEDKKIDFEASLAWGLAELALKNSLNILAPWKTLDDFNRIFWCGRSKLARRVRDSWQEDSLFGYQFLNGANPMLLRRSVQLPARLVFPPGMEELQAQLEKELKAGTLFEADFALLDNIKANVILYCQQYLAAPLVMLKLQPDGKLMPMVIQLHLPKIGSSPPPLFLPTDPPMVWLLAKCWVRSSDFQVHELNSHLLRGHLMAEVFTVATMRCLPSIHPVFKLIVPHLRYTLEINVRARNGLVSDFGIFDQIMSTGGGGHVQLLQQAGAFLTYRSFCPPDDLADRGLLGVESSFYAQDALRLWEIISRYVQGIMGLYYKTDEAVRDDLELQSWCREITEIGLQGAQKQGFPTSLQSVAQACHFVTMCIFTCTGQHSSIHLGQLDWFTWVPNAPCTMRLPPPTTKDATLETVMATLPNLHQSSLQMSIVWQLGRDQPIMVPLGQHQEEYFSGPEPRAVLEKFREELAIMDKEIEVRNEKLDIPYEYLRPSIVENSVAI 2p0r-a1-m1-cA_2p0r-a1-m1-cB Structure of Human Calpain 9 in complex with Leupeptin O14815 O14815 2.5 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 319 319 2p0r-a1-m1-cD_2p0r-a1-m1-cA 2p0r-a1-m1-cE_2p0r-a1-m1-cB ARITHSSGQSFEQMRQECLQRGTLFEDADFPASNSSLFYSERPQIPFVWKRPGEIVKNPEFILGGATRTDICQGELGDCWLLAAIASLTLNQKALARVIPQDQSFGPGYAGIFHFQFWQHSEWLDVVIDDRLPTFRDRLVFLHSADHNEFWSALLEKAYAKLNGSYEALKGGSAIEAMEDFTGGVAETFQTKEAPENFYEILEKALKRGSLLGCFIDTRSAAESEARTPFGLIKGHAYSVTGIDQVSFRGQRIELIRIRNPWGQVEWNGSWSDSSPEWRSVGPAEQKRLCHTALDDGEFWMAFKDFKAHFDKVEICNLT ARITHSSGQSFEQMRQECLQRGTLFEDADFPASNSSLFYSERPQIPFVWKRPGEIVKNPEFILGGATRTDICQGELGDCWLLAAIASLTLNQKALARVIPQDQSFGPGYAGIFHFQFWQHSEWLDVVIDDRLPTFRDRLVFLHSADHNEFWSALLEKAYAKLNGSYEALKGGSAIEAMEDFTGGVAETFQTKEAPENFYEILEKALKRGSLLGCFIDTRSAAESEARTPFGLIKGHAYSVTGIDQVSFRGQRIELIRIRNPWGQVEWNGSWSDSSPEWRSVGPAEQKRLCHTALDDGEFWMAFKDFKAHFDKVEICNLT 2p0s-a1-m1-cB_2p0s-a1-m1-cA Structural Genomics, the crystal structure of a putative ABC transporter domain from Porphyromonas gingivalis W83 Q7MVU4 Q7MVU4 1.6 X-RAY DIFFRACTION 151 0.983 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 120 128 DKTIAIADRTGEYEQLFKENDEFRFVHAEKTAEEYRKGADKSGIDAVLEIRQDLLEDPNAVAIYGYKQLPASVSNHISRILSDYLSDKKIASYNIPDIKQILADSKIELSVHTYKWSEDG DKTIAIADRTGEYEQLFKENDEFRFVHAEKTAEEYRKGADKSGIDAVLEIRQDLLEDPNAVAIYGYKQLPASVSNHISRILSDYLSDKKIASYNIPDIKQILADSKIELSVHTYKWSETSGELASGIS 2p0u-a1-m1-cB_2p0u-a1-m1-cA crystal structure of Marchantia polymorpha stilbenecarboxylate synthase 2 (STCS2) Q5I6Y1 Q5I6Y1 1.9 X-RAY DIFFRACTION 210 0.987 3197 (Marchantia polymorpha) 3197 (Marchantia polymorpha) 398 402 MKHHHHHHHGSSRSRLIAQAVGPATVLAMGKAVPANVFEQATYPDFFFNITNSNDKPALKAKFQRICDKSGIKKRHFYLDQKILESNPAMCTYMETSLNCRQEIAVAQVPKLAKEASMNAIKEWGRPKSEITHIVMATTSGVNMPGAELATAKLLGLRPNVRRVMMYQQGFAGATVLRVAKDLAENNAGARVLAICSEVTAVTFRAPSETHIDGLVGSALFGDGAAAVIVGSDPRPGIERPIYEMHWAGEMVLPESDGAIDGHLTEAGLVFHLLKDVPGLITKNIGGFLKDTKNLVGASSWNELFWAVHPGGPAILDQVEAKLELEKGKFQASRDILSDYGNMSSASVLFVLDRVRERSLESNKSTFGEGSEWGFLIGFGPGLTVETLLLRALPLQQA HHHGGLVPRGSHGGSSRSRLIAQAVGPATVLAMGKAVPANVFEQATYPDFFFNITNSNDKPALKAKFQRICDKSGIKKRHFYLDQKILESNPAMCTYMETSLNCRQEIAVAQVPKLAKEASMNAIKEWGRPKSEITHIVMATTSGVNMPGAELATAKLLGLRPNVRRVMMYQQGFAGATVLRVAKDLAENNAGARVLAICSEVTAVTFRAPSETHIDGLVGSALFGDGAAAVIVGSDPRPGIERPIYEMHWAGEMVLPESDGAIDGHLTEAGLVFHLLKDVPGLITKNIGGFLKDTKNLVGASSWNELFWAVHPGGPAILDQVEAKLELEKGKFQASRDILSDYGNMSSASVLFVLDRVRERSLESNKSTFGEGSEWGFLIGFGPGLTVETLLLRALPLQQA 2p10-a1-m1-cF_2p10-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHONOPYRUVATE HYDROLASE (MLL9387) FROM MESORHIZOBIUM LOTI MAFF303099 AT 2.15 A RESOLUTION Q981G2 Q981G2 2.15 X-RAY DIFFRACTION 12 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 256 258 2p10-a1-m1-cA_2p10-a1-m1-cD 2p10-a1-m1-cE_2p10-a1-m1-cC RPTRSELVDRFQKKIRAGEPIIGGGAGTGLSAKSEEAGDIDLIVIYNSGRYRAGRGSLAGLLAYGNANQIVVDAREVLPVVRHTPVLAGVNGTDPFVSTFLRELKEIGFAGVQNFPTVGLIDGLFRQNLEETGSYAQEVEIAEAHKLDLLTTPYVFSPEDAVAAKAGADILVCHGLTGKSDDCVSLINECIEAARTIRDDIIILSHGGPIANPEDARFILDSCQGCHGFYGASSERLPAEEAIRSQTLAFKAIRRQ KRPTRSELVDRFQKKIRAGEPIIGGGAGTGLSAKSEEAGDIDLIVIYNSGRYRAGRGSLAGLLAYGNANQIVVDAREVLPVVRHTPVLAGVNGTDPFVSTFLRELKEIGFAGVQNFPTVGLIDGLFRQNLEETGSYAQEVEIAEAHKLDLLTTPYVFSPEDAVAAKAGADILVCHGLTGKSDDCVSLINECIEAARTIRDDIIILSHGGPIANPEDARFILDSCQGCHGFYGASSERLPAEEAIRSQTLAFKAIRRQP 2p10-a1-m1-cF_2p10-a1-m1-cC CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHONOPYRUVATE HYDROLASE (MLL9387) FROM MESORHIZOBIUM LOTI MAFF303099 AT 2.15 A RESOLUTION Q981G2 Q981G2 2.15 X-RAY DIFFRACTION 105 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 256 260 2p10-a1-m1-cA_2p10-a1-m1-cE 2p10-a1-m1-cB_2p10-a1-m1-cD RPTRSELVDRFQKKIRAGEPIIGGGAGTGLSAKSEEAGDIDLIVIYNSGRYRAGRGSLAGLLAYGNANQIVVDAREVLPVVRHTPVLAGVNGTDPFVSTFLRELKEIGFAGVQNFPTVGLIDGLFRQNLEETGSYAQEVEIAEAHKLDLLTTPYVFSPEDAVAAKAGADILVCHGLTGKSDDCVSLINECIEAARTIRDDIIILSHGGPIANPEDARFILDSCQGCHGFYGASSERLPAEEAIRSQTLAFKAIRRQ RPTRSELVDRFQKKIRAGEPIIGGGAGTGLSAKSEEAGDIDLIVIYNSGRYRAGRGSLAGLLAYGNANQIVVDAREVLPVVRHTPVLAGVNGTDPFVSTFLRELKEIGFAGVQNFPTVGLIDGLFRQNLEETGSYAQEVEIAEAHKLDLLTTPYVFSPEDAVAAKAGADILVCHGLTTRSGKSDDCVSLINECIEAARTIRDDIIILSHGGPIANPEDARFILDSCQGCHGFYGASSERLPAEEAIRSQTLAFKAIRRQP 2p10-a1-m1-cF_2p10-a1-m1-cE CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHONOPYRUVATE HYDROLASE (MLL9387) FROM MESORHIZOBIUM LOTI MAFF303099 AT 2.15 A RESOLUTION Q981G2 Q981G2 2.15 X-RAY DIFFRACTION 166 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 256 259 2p10-a1-m1-cA_2p10-a1-m1-cB 2p10-a1-m1-cD_2p10-a1-m1-cC RPTRSELVDRFQKKIRAGEPIIGGGAGTGLSAKSEEAGDIDLIVIYNSGRYRAGRGSLAGLLAYGNANQIVVDAREVLPVVRHTPVLAGVNGTDPFVSTFLRELKEIGFAGVQNFPTVGLIDGLFRQNLEETGSYAQEVEIAEAHKLDLLTTPYVFSPEDAVAAKAGADILVCHGLTGKSDDCVSLINECIEAARTIRDDIIILSHGGPIANPEDARFILDSCQGCHGFYGASSERLPAEEAIRSQTLAFKAIRRQ RPTRSELVDRFQKKIRAGEPIIGGGAGTGLSAKSEEAGDIDLIVIYNSGRYRAGRGSLAGLLAYGNANQIVVDAREVLPVVRHTPVLAGVNGTDPFVSTFLRELKEIGFAGVQNFPTVGLIDGLFRQNLEETGSYAQEVEIAEAHKLDLLTTPYVFSPEDAVAAKAGADILVCHGLTTRSGKSDDCVSLINECIEAARTIRDDIIILSHGGPIANPEDARFILDSCQGCHGFYGASSERLPAEEAIRSQTLAFKAIRRQ 2p11-a1-m1-cB_2p11-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE HALOACID DEHALOGENASE-LIKE HYDROLASE (BXE_B1342) FROM BURKHOLDERIA XENOVORANS LB400 AT 2.20 A RESOLUTION Q13MR9 Q13MR9 2.2 X-RAY DIFFRACTION 69 0.995 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 207 211 PHDIVFLFDCDNTLLDNDHVLADLRAHREFGAQNSARYWEIFETLRTELGYADYLGALQRYRLEQPRDTRLLLSSFLIDYPFASRVYPGALNALRHLGARGPTVILSDGDVVFQPRKIARSGLWDEVEGRVLIYIHKELLDQVECYPARHYVVDDKLRILAAKKAWGARLTTVFPRQGHYAFDPKEISSHPPADVTVERIGDLVEDA PHDIVFLFDCDNTLLDNDHVLADLRAHREFGAQNSARYWEIFETLRTELYADYLGALQRYRLEQPRDTRLLLSSFLIDYPFASRVYPGALNALRHLGARGPTVILSDGDVVFQPRKIARSGLWDEVEGRVLIYIHKELLDQVECYPARHYVVDDKLRILAAKKAWGARLTTVFPRQGHYAFDPKEISSHPPADVTVERIGDLVEDAEWLLA 2p12-a1-m1-cB_2p12-a1-m1-cA Crystal structure of protein of unknown function DUF402 from Rhodococcus sp. RHA1 Q0SI31 Q0SI31 1.63 X-RAY DIFFRACTION 53 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 162 163 HPPKVEYFDLRDHTNTDPKGFVRHVDHYRVEPWGLYARTSDHPQFHYLESWLLPDLGLRASIFHYHPYHQRDQDHYVDIGTFTRGDDVWKSEDHYLDLVVRTGRDTELLDVDELEAHTTGLLDTATAEQAILTATTAIDGIAAHGHDLGRWLASIGPIDWRG IHPPKVEYFDLRDHTNTDPKGFVRHVDHYRVEPWGLYARTSDHPQFHYLESWLLPDLGLRASIFHYHPYHQRDQDHYVDIGTFTRGDDVWKSEDHYLDLVVRTGRDTELLDVDELEAHTTGLLDTATAEQAILTATTAIDGIAAHGHDLGRWLASIGPIDWRG 2p13-a1-m1-cB_2p13-a1-m1-cA Transporter associated domain CorC_HlyC from Nitrosomonas europaea Q82SS8 Q82SS8 1.65 X-RAY DIFFRACTION 41 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 82 84 EKVVAEQQADGTWLDGWISIRKASNLLEHDLVAERYSTLGGYLLWQFGYIPAAGEQITVDGLIFEIVSVNKHNIGKVRVHRT EKVVAEQQADGTWLDGWISIRKASNLLEHDLVDEAERYSTLGGYLLWQFGYIPAAGEQITVDGLIFEIVSVNKHNIGKVRVHRT 2p19-a2-m1-cB_2p19-a2-m2-cB Crystal structure of bacterial regulatory protein of gntR family from Corynebacterium glutamicum Q8NTZ4 Q8NTZ4 2.1 X-RAY DIFFRACTION 93 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 142 142 2p19-a1-m1-cA_2p19-a1-m1-cC DPKTRVLEHRLLAASSAIAEKLGVSAGDEVLLIRRLRSTGDIPVAILENYLPPAFNDVSLDELEKGGLYDALRSRGVVLKIANQKIGARRAVGEESTLLDIEDGGPLLTVERVALDNSGQVIELGSHCYRPDMYNFETTLVA DPKTRVLEHRLLAASSAIAEKLGVSAGDEVLLIRRLRSTGDIPVAILENYLPPAFNDVSLDELEKGGLYDALRSRGVVLKIANQKIGARRAVGEESTLLDIEDGGPLLTVERVALDNSGQVIELGSHCYRPDMYNFETTLVA 2p1a-a1-m1-cA_2p1a-a1-m1-cB Crystal structure of a putative metal-binding protein (bce_2162) from bacillus cereus atcc 10987 at 2.10 A resolution Q739H9 Q739H9 2.1 X-RAY DIFFRACTION 76 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 137 143 GFVQSALHQLKVAVDTSIQLDQYTEIDLKIAPIQSKRSLFEYAHLSLICHADLLILNGSTEKELHTFYKEQTPETIAQQKTIQGYDLLSKTFLSYSNEQLAEKTAYWGISYSRFEWLLEIVAHFYHHRGQIHILLCE GFVQSALHQLKVAVDTSIQLDQYTEIDLKIAPIQSKRSLFEYAHLSLICHADLLILNGSTEKELHTFYKEQTPETIAQQKTIQGYDLLSKTFLSYSNEQLAEKTAYWGISYSRFEWLLEIVAHFYHHRGQIHILLCEHKDPNI 2p1i-a3-m1-cE_2p1i-a3-m1-cF Plasmodium yoelii Ribonucleotide Reductase Subunit R2 (PY03671) Q7RIF3 Q7RIF3 2.7 X-RAY DIFFRACTION 31 1.0 352914 (Plasmodium yoelii yoelii 17XNL) 352914 (Plasmodium yoelii yoelii 17XNL) 258 258 2o1z-a1-m1-cB_2o1z-a1-m1-cA 2p1i-a1-m1-cA_2p1i-a1-m1-cD 2p1i-a2-m1-cB_2p1i-a2-m1-cC 2p1i-a4-m1-cG_2p1i-a4-m1-cH MYPEVWNFYKKAEASFWTAEEIDLSSDLKDFEKLNVNEKHFIKHVLAFFAASENLASKFLREVEIIEAKKFYSFQIAVENIHSETYSLLIDNYIKDEKERLNLFHAIENIPAIKNKALWAAKWINDTNSFAERIVANACVEGILFSGSFCAIFWFKKQNKLHGLTFSNELISRDEGLHTDFNCLIYSLLENKLPENVVQNIVKEAVEVERSFICESLPCDLIGMNSRLMSQYIEFVADRLLECLGCSKVFHSKNPFNW MYPEVWNFYKKAEASFWTAEEIDLSSDLKDFEKLNVNEKHFIKHVLAFFAASENLASKFLREVEIIEAKKFYSFQIAVENIHSETYSLLIDNYIKDEKERLNLFHAIENIPAIKNKALWAAKWINDTNSFAERIVANACVEGILFSGSFCAIFWFKKQNKLHGLTFSNELISRDEGLHTDFNCLIYSLLENKLPENVVQNIVKEAVEVERSFICESLPCDLIGMNSRLMSQYIEFVADRLLECLGCSKVFHSKNPFNW 2p1j-a1-m1-cA_2p1j-a1-m1-cB Crystal structure of a polC-type DNA polymerase III exonuclease domain from Thermotoga maritima Q9ZHF6 Q9ZHF6 2.5 X-RAY DIFFRACTION 175 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 164 171 TFVVLDFETTGLDPQVDEIIEIGAVKIQGGQIVDEYHTLIKPSREISRKSSEITGITQEMLENKRSIEEVLPEFLGFLEDSIIVAHNANFDYRFLRLWIKKVMGLDWERPYIDTLALAKSLLKLRSYSLDSVVEKLGLGPFRHHRALDDARVTAQVFLRFVEMM TFVVLDFETTGLDPQVDEIIEIGAVKIQGGQIVDEYHTLIKPSREISRKSSEITGITQEMLENKRSIEEVLPEFLGFLEDSIIVAHNANFDYRFLRLWIKKVMGLDWERPYIDTLALAKSLLKLRSYSLDSVVEKLGLGPFRHHRALDDARVTAQVFLRFVEMMKKEGHHH 2p1l-a5-m2-cB_2p1l-a5-m4-cH Structure of the Bcl-XL:Beclin 1 complex Q14457 Q14457 2.5 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 2p1l-a5-m1-cB_2p1l-a5-m3-cH 2p1l-a5-m1-cD_2p1l-a5-m4-cF 2p1l-a5-m2-cD_2p1l-a5-m3-cF GSGTMENLSRRLKVTGDLFDIMSG GSGTMENLSRRLKVTGDLFDIMSG 2p1o-a2-m1-cB_2p1o-a2-m2-cB Mechanism of Auxin Perception by the TIR1 ubiquitin ligase Q570C0 Q570C0 1.9 X-RAY DIFFRACTION 64 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 571 571 2p1m-a2-m1-cB_2p1m-a2-m2-cB 2p1n-a3-m1-cB_2p1n-a3-m2-cE 2p1p-a2-m1-cB_2p1p-a2-m2-cB 2p1q-a2-m1-cB_2p1q-a2-m2-cB SFPEEVLEHVFSFIQLDKDRNSVSLVCKSWYEIERWCRRKVFIGNCYAVSPATVIRRFPKVRSVELKGKPHFADFNLVPDGWGGYVYPWIEAMSSSYTWLEEIRLKRMVVTDDCLELIAKSFKNFKVLVLSSCEGFSTDGLAAIAATCRNLKELDLRESDVDDVSGHWLSHFPDTYTSLVSLNISCLASEVSFSALERLVTRCPNLKSLKLNRAVPLEKLATLLQRAPQLEELGTGGYTAEVRPDVYSGLSVALSGCKELRCLSGFWDAVPAYLPAVYSVCSRLTTLNLSYATVQSYDLVKLLCQCPKLQRLWVLDYIEDAGLEVLASTCKDLRELRVFPSEPFVMEPNVALTEQGLVSVSMGCPKLESVLYFCRQMTNAALITIARNRPNMTRFRLCIIEPKAPDYLTLEPLDIGFGAIVEHCKDLRRLSLSGLLTDKVFEYIGTYAKKMEMLSVAFAGDSDLGMHHVLSGCDSLRKLEIRDCPFGDKALLANASKLETMRSLWMSSCSVSFGACKLLGQKMPKLNVEVIDERGAPDSRPESCPVERVFIYRTVAGPRFDMPGFVWNMDQ SFPEEVLEHVFSFIQLDKDRNSVSLVCKSWYEIERWCRRKVFIGNCYAVSPATVIRRFPKVRSVELKGKPHFADFNLVPDGWGGYVYPWIEAMSSSYTWLEEIRLKRMVVTDDCLELIAKSFKNFKVLVLSSCEGFSTDGLAAIAATCRNLKELDLRESDVDDVSGHWLSHFPDTYTSLVSLNISCLASEVSFSALERLVTRCPNLKSLKLNRAVPLEKLATLLQRAPQLEELGTGGYTAEVRPDVYSGLSVALSGCKELRCLSGFWDAVPAYLPAVYSVCSRLTTLNLSYATVQSYDLVKLLCQCPKLQRLWVLDYIEDAGLEVLASTCKDLRELRVFPSEPFVMEPNVALTEQGLVSVSMGCPKLESVLYFCRQMTNAALITIARNRPNMTRFRLCIIEPKAPDYLTLEPLDIGFGAIVEHCKDLRRLSLSGLLTDKVFEYIGTYAKKMEMLSVAFAGDSDLGMHHVLSGCDSLRKLEIRDCPFGDKALLANASKLETMRSLWMSSCSVSFGACKLLGQKMPKLNVEVIDERGAPDSRPESCPVERVFIYRTVAGPRFDMPGFVWNMDQ 2p1r-a2-m1-cD_2p1r-a2-m1-cB Crystal structure of Salmonella typhimurium YegS, a putative lipid kinase homologous to eukaryotic sphingosine and diacylglycerol kinases. Q8ZNP1 Q8ZNP1 2.5 X-RAY DIFFRACTION 29 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 276 283 2p1r-a1-m1-cC_2p1r-a1-m1-cA ANFPASLLILNGKSADNQPLREAITLLRDEGIQIHVRVTWEKGDAQRYVDEARRLGVETVIAGGGDGTINEVSTALIQIRDGVAPALGLLPLGTANDFATSAGIPEALDKALKLAIAGNAEIDAVNDKTCFINATGGFGGVSYLIHGLRDTLTPDRCEIRGENFHWQGDALVIGIGNGRQAGGGQQLCPTALINDGLLQLRIFTGEELLPALFSTLTQSDDNPNIIDGASAWFDIHAPHEITFNLDGEPLSGQEFHIEVLPGALRCRLPPDCPLLR ANFPASLLILNGKSADNQPLREAITLLRDEGIQIHVRVTWEKGDAQRYVDEARRLGVETVIAGGGDGTINEVSTALIQIRDGVAPALGLLPLGTANDFATSAGIPEALDKALKLAIAGNAEIDAVNDKTCFINATGGFGTRITTLGGVSYLIHGLRDTLTPDRCEIRGENFHWQGDALVIGIGNGRQAGGGQQLCPTALINDGLLQLRIFTGEELLPALFSTLTQSDDNPNIIDGASAWFDIHAPHEITFNLDGEPLSGQEFHIEVLPGALRCRLPPDCPLLR 2p1y-a1-m1-cA_2p1y-a1-m1-cC 1.B2.D9, a bispecific alpha/beta TCR Q5R1B3 Q5R1B3 2.42 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 231 231 AVTQSPRNKVAVTGGKVTLSCNQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQENFSLILELATPSQTSVYFCASGDRLFFGHGTKLSVLGSADDAKKDAAKKDGQVRQSPQSLTVWEGETAILNCSYENSAFDYFPWYQQFPGEGPALLISILSVSDKKEDGRFTIFFNKREKKLSLHIADSQPGDSATYFCAAIDTNAYKVIFGKGTHLHVLP AVTQSPRNKVAVTGGKVTLSCNQTNNHNNMYWYRQDTGHGLRLIHYSYGAGSTEKGDIPDGYKASRPSQENFSLILELATPSQTSVYFCASGDRLFFGHGTKLSVLGSADDAKKDAAKKDGQVRQSPQSLTVWEGETAILNCSYENSAFDYFPWYQQFPGEGPALLISILSVSDKKEDGRFTIFFNKREKKLSLHIADSQPGDSATYFCAAIDTNAYKVIFGKGTHLHVLP 2p1z-a1-m1-cA_2p1z-a1-m1-cB Crystal structure of phosphoribosyltransferase from Corynebacterium diphtheriae Q6NF12 Q6NF12 2.44 X-RAY DIFFRACTION 95 0.994 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 156 165 SKKAELAELVKELAVYVDLRRATLHARASRLIGELLRELTADWDYVAVGGLTLGADPVATSVHADGREIHAFVVRKEAKHGQRRIEGPDVVGKKVLVVEDTTTTGNSPLTAVKALREAGAEVVGVATVVDATGAADVIAAEGLEYRYILGLEDLGL SKKAELAELVKELAVVHGKKEADYYVDLRRATLHARASRLIGELLRELTADWDYVAVGGLTLGADPVATSVHADGREIHAFVVRKEAKGQRRIEGPDVVGKKVLVVEDTTTTGNSPLTAVKALREAGAEVVGVATVVDRATGAADVIAAEGLEYRYILGLEDLGL 2p22-a4-m1-cB_2p22-a4-m2-cB Structure of the Yeast ESCRT-I Heterotetramer Core Q02767 Q02767 2.7 X-RAY DIFFRACTION 63 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 92 92 2p22-a2-m1-cB_2p22-a2-m2-cB 2p22-a2-m3-cB_2p22-a2-m4-cB 2p22-a3-m1-cB_2p22-a3-m2-cB KLNQNQDISQLFHDEVPLFDNSITSKDKEVIETLSEIYSIVITLDHVEKAYLKDSIDDTQYTNTVDKLLKQFKVYLNSQNKEESNAITRLER KLNQNQDISQLFHDEVPLFDNSITSKDKEVIETLSEIYSIVITLDHVEKAYLKDSIDDTQYTNTVDKLLKQFKVYLNSQNKEESNAITRLER 2p22-a4-m1-cC_2p22-a4-m2-cC Structure of the Yeast ESCRT-I Heterotetramer Core Q99176 Q99176 2.7 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 186 186 2p22-a2-m1-cC_2p22-a2-m2-cC 2p22-a2-m3-cC_2p22-a2-m4-cC 2p22-a3-m3-cC_2p22-a3-m4-cC SRLDIIRAEMDVVPSPGLPSKNIPLPEGINLLSSKEIIDLIQTHRHQLELYVTKFNPLTDFAGKIHAFRDQFKQLEENFEDLHEQKDKVQALLENARILESKYVASWQDYHSEFSKKYGDIALKKKLEQNTKKLDEESSQLETTTRSIDSADDLDQFIKNYLDIRTQYHLRREKLATWDKQGNLKY SRLDIIRAEMDVVPSPGLPSKNIPLPEGINLLSSKEIIDLIQTHRHQLELYVTKFNPLTDFAGKIHAFRDQFKQLEENFEDLHEQKDKVQALLENARILESKYVASWQDYHSEFSKKYGDIALKKKLEQNTKKLDEESSQLETTTRSIDSADDLDQFIKNYLDIRTQYHLRREKLATWDKQGNLKY 2p22-a5-m1-cD_2p22-a5-m4-cD Structure of the Yeast ESCRT-I Heterotetramer Core P42939 P42939 2.7 X-RAY DIFFRACTION 27 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 79 79 2p22-a2-m1-cD_2p22-a2-m4-cD 2p22-a2-m2-cD_2p22-a2-m3-cD MNVEELLRRIPLYNKYGKDFPQETVTRFQMPEFKLPALQPTRDLLCPWYEECDNITKVCQLHDSSNKKFDQWYKEQYLS MNVEELLRRIPLYNKYGKDFPQETVTRFQMPEFKLPALQPTRDLLCPWYEECDNITKVCQLHDSSNKKFDQWYKEQYLS 2p23-a1-m1-cA_2p23-a1-m1-cB Crystal structure of human FGF19 O95750 O95750 1.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 136 DPIRLRHLYTSGPHGLSSCFLRIRADGVVDCARGQSAHSLLEIKAVALRTVAIKGVHSVRYLCMGADGKMQGLLQYSEEDCAFEEEIRPDGYNVYRSEKHRLPVSLSSAKQRQLYKNRGFLPLSHFLPMLPMVPEE DPIRLRHLYTSGPHGLSSCFLRIRADGVVDCARGQSAHSLLEIKAVALRTVAIKGVHSVRYLCMGADGKMQGLLQYSEEDCAFEEEIRPDGYNVYRSEKHRLPVSLSSAKQRQLYKNRGFLPLSHFLPMLPMVPEE 2p25-a1-m1-cA_2p25-a1-m2-cA The crystal structure of the glyoxalase family protein from Enterococcus faecalis Q832L2 Q832L2 1.7 X-RAY DIFFRACTION 183 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 124 124 FFKEIHHVAINASNYQATKNFYVEKLGFEVLRENHRPEKNDIKLDLKLGSQELEIFISDQFPARPSYPEALGLRHLAFKVEHIEEVIAFLNEQGIETEPLRVDDFTGKKTFFFDPDGLPLELHE FFKEIHHVAINASNYQATKNFYVEKLGFEVLRENHRPEKNDIKLDLKLGSQELEIFISDQFPARPSYPEALGLRHLAFKVEHIEEVIAFLNEQGIETEPLRVDDFTGKKTFFFDPDGLPLELHE 2p27-a1-m1-cA_2p27-a1-m2-cA Crystal Structure of Human Pyridoxal Phosphate Phosphatase with Mg2+ at 1.9 A resolution Q96GD0 Q96GD0 1.9 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 286 286 2cfr-a1-m1-cA_2cfr-a1-m2-cA 2cfs-a1-m1-cA_2cfs-a1-m2-cA 2cft-a1-m1-cA_2cft-a1-m2-cA 2oyc-a1-m1-cA_2oyc-a1-m2-cA 2p69-a1-m1-cA_2p69-a1-m2-cA 4bx2-a1-m1-cB_4bx2-a1-m1-cA 4bx3-a1-m1-cA_4bx3-a1-m1-cB 5aes-a1-m1-cA_5aes-a1-m1-cB ARCERLRGAALRDVLGRAQGVLFDCDGVLWNGERAVPGAPELLERLARAGKAALFVSNNSRRARPELALRFARLGFGGLRAEQLFSSALCAARLLRQRLPGPPDAPGAVFVLGGEGLRAELRAAGLRLAGDPSAAPRVRAVLVGYDEHFSFAKLREACAHLRDPECLLVATDRDPWHPLSDGSRTPGTGSLAAAVETASGRQALVVGKPSPYFECITENFSIDPARTLVGDRLETDILFGHRCGTTVLTLTGVSRLEEAQAYLAAGQHDLVPHYYVESIADLTEGL ARCERLRGAALRDVLGRAQGVLFDCDGVLWNGERAVPGAPELLERLARAGKAALFVSNNSRRARPELALRFARLGFGGLRAEQLFSSALCAARLLRQRLPGPPDAPGAVFVLGGEGLRAELRAAGLRLAGDPSAAPRVRAVLVGYDEHFSFAKLREACAHLRDPECLLVATDRDPWHPLSDGSRTPGTGSLAAAVETASGRQALVVGKPSPYFECITENFSIDPARTLVGDRLETDILFGHRCGTTVLTLTGVSRLEEAQAYLAAGQHDLVPHYYVESIADLTEGL 2p2l-a2-m1-cB_2p2l-a2-m2-cC Rac1-GDP-Zinc Complex P63000 P63000 1.9 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 179 2p2l-a2-m1-cA_2p2l-a2-m2-cA 2p2l-a2-m2-cB_2p2l-a2-m1-cC MQAIKCVVVGDGAVGKTCLLISYTTNAFPGEYIPTVFDNYSANVMVDGPVNLGLWDTAGQEDYDRLRPLSYPQTDVSLICFSLVSPASFENVRAKWYPEVRHHCPNTPIILVGTKLDLRDDKDTIEKLKEKKLTPITYPQGLAMAKEIGAVKYLECSALTQRGLKTVFDEAIRAVLCP MQAIKCVVVGDGAVGKTCLLISYTTNAFPGEYIPTVFDNYSANVMVDGKPVNLGLWDTAGQEDYDRLRPLSYPQTDVSLICFSLVSPASFENVRAKWYPEVRHHCPNTPIILVGTKLDLRDDKDTIEKLKEKKLTPITYPQGLAMAKEIGAVKYLECSALTQRGLKTVFDEAIRAVLCP 2p2l-a2-m2-cB_2p2l-a2-m2-cC Rac1-GDP-Zinc Complex P63000 P63000 1.9 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 179 2p2l-a1-m1-cA_2p2l-a1-m1-cB 2p2l-a1-m1-cA_2p2l-a1-m1-cC 2p2l-a1-m1-cB_2p2l-a1-m1-cC 2p2l-a2-m1-cA_2p2l-a2-m1-cB 2p2l-a2-m1-cA_2p2l-a2-m1-cC 2p2l-a2-m1-cB_2p2l-a2-m1-cC 2p2l-a2-m2-cA_2p2l-a2-m2-cB 2p2l-a2-m2-cA_2p2l-a2-m2-cC MQAIKCVVVGDGAVGKTCLLISYTTNAFPGEYIPTVFDNYSANVMVDGPVNLGLWDTAGQEDYDRLRPLSYPQTDVSLICFSLVSPASFENVRAKWYPEVRHHCPNTPIILVGTKLDLRDDKDTIEKLKEKKLTPITYPQGLAMAKEIGAVKYLECSALTQRGLKTVFDEAIRAVLCP MQAIKCVVVGDGAVGKTCLLISYTTNAFPGEYIPTVFDNYSANVMVDGKPVNLGLWDTAGQEDYDRLRPLSYPQTDVSLICFSLVSPASFENVRAKWYPEVRHHCPNTPIILVGTKLDLRDDKDTIEKLKEKKLTPITYPQGLAMAKEIGAVKYLECSALTQRGLKTVFDEAIRAVLCP 2p2o-a2-m1-cE_2p2o-a2-m1-cF Crystal structure of maltose transacetylase from Geobacillus kaustophilus P2(1) crystal form Q75TD0 Q75TD0 1.74 X-RAY DIFFRACTION 67 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 184 184 2ic7-a1-m1-cA_2ic7-a1-m1-cB 2ic7-a1-m1-cA_2ic7-a1-m1-cC 2ic7-a1-m1-cB_2ic7-a1-m1-cC 2p2o-a1-m1-cA_2p2o-a1-m1-cB 2p2o-a1-m1-cA_2p2o-a1-m1-cC 2p2o-a1-m1-cB_2p2o-a1-m1-cC 2p2o-a2-m1-cD_2p2o-a2-m1-cE 2p2o-a2-m1-cD_2p2o-a2-m1-cF KSEKEKMLAGHLYNPADLELVKERERARRLVRLYNETLETEYDKRTGLLKELFGSTGERLFIEPNFRCDYGYNIHVGENFFMNFDGVILDVCEVRIGDHCFIGPGVHIYTATHPLDPHERNSGLEYGKPVVIGHNVWIGGRAVINPGVTIGDNAVIASGAVVTKDVPANAVVGGNPAKVIKWLK KSEKEKMLAGHLYNPADLELVKERERARRLVRLYNETLETEYDKRTGLLKELFGSTGERLFIEPNFRCDYGYNIHVGENFFMNFDGVILDVCEVRIGDHCFIGPGVHIYTATHPLDPHERNSGLEYGKPVVIGHNVWIGGRAVINPGVTIGDNAVIASGAVVTKDVPANAVVGGNPAKVIKWLK 2p2s-a1-m1-cA_2p2s-a1-m1-cB Crystal structure of putative oxidoreductase (YP_050235.1) from Erwinia carotovora atroseptica SCRI1043 at 1.25 A resolution Q6D5A0 Q6D5A0 1.25 X-RAY DIFFRACTION 145 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 329 329 KIRFAAIGLAHNHIYDCQQLIDAGAELAGVFESDSDNRAKFTSLFPSVPFAASAEQLITDASIDLIACAVIPCDRAELALRTLDAGKDFFTAKPPLTTLEQLDAVQRRVAETGRKFAVYFNERINVDSALFAGELVQRGEIGRVIQTGVGPHRERGARPDWFYQKRQYGGILCDIGIHQIEQFLYFTGNTNARVVTSQTANYHHPHHPEFEDFGDALLGDNGATGYFRCDWFTPDGLSVWGDGRLTILGTEGYIEIRKYVDLTRGESNVVYLVNGKGEQRFTPAGSVERAFFPDFLRDCRERTENASQSHIFKATELSILAQQAANKIA KIRFAAIGLAHNHIYDCQQLIDAGAELAGVFESDSDNRAKFTSLFPSVPFAASAEQLITDASIDLIACAVIPCDRAELALRTLDAGKDFFTAKPPLTTLEQLDAVQRRVAETGRKFAVYFNERINVDSALFAGELVQRGEIGRVIQTGVGPHRERGARPDWFYQKRQYGGILCDIGIHQIEQFLYFTGNTNARVVTSQTANYHHPHHPEFEDFGDALLGDNGATGYFRCDWFTPDGLSVWGDGRLTILGTEGYIEIRKYVDLTRGESNVVYLVNGKGEQRFTPAGSVERAFFPDFLRDCRERTENASQSHIFKATELSILAQQAANKIA 2p2u-a1-m1-cA_2p2u-a1-m2-cA Crystal structure of putative host-nuclease inhibitor protein Gam from Desulfovibrio vulgaris Q72CZ5 Q72CZ5 2.75 X-RAY DIFFRACTION 321 1.0 881 (Desulfovibrio vulgaris) 881 (Desulfovibrio vulgaris) 144 144 VIVADIRQAEGALAEIATIDRKVGEIEAQNEAIDAAKARASQKSAPLLARRKELEDGVATFATLNKTEFKSLDLGFGTIGFRLSTQIVQSKITKDTLERLRQFGISEGIRIKEDVNKEAQGWPDERLEVGLKRRTTDAFYIEIN VIVADIRQAEGALAEIATIDRKVGEIEAQNEAIDAAKARASQKSAPLLARRKELEDGVATFATLNKTEFKSLDLGFGTIGFRLSTQIVQSKITKDTLERLRQFGISEGIRIKEDVNKEAQGWPDERLEVGLKRRTTDAFYIEIN 2p2u-a2-m1-cB_2p2u-a2-m3-cB Crystal structure of putative host-nuclease inhibitor protein Gam from Desulfovibrio vulgaris Q72CZ5 Q72CZ5 2.75 X-RAY DIFFRACTION 311 1.0 881 (Desulfovibrio vulgaris) 881 (Desulfovibrio vulgaris) 147 147 VIVADIRQAEGALAEIATIDRKVGEIEAQNEAIDAAKARASQKSAPLLARRKELEDGVATFATLNKTEFSLDLGFGTIGFRLSTQIVQSKITKDTLERLRQFGISEGIRIKEDVNKEAQGWPDERLEVGLKRRTTDAFYIEINREEV VIVADIRQAEGALAEIATIDRKVGEIEAQNEAIDAAKARASQKSAPLLARRKELEDGVATFATLNKTEFSLDLGFGTIGFRLSTQIVQSKITKDTLERLRQFGISEGIRIKEDVNKEAQGWPDERLEVGLKRRTTDAFYIEINREEV 2p2v-a1-m2-cA_2p2v-a1-m4-cA Crystal structure analysis of monofunctional alpha-2,3-sialyltransferase Cst-I from Campylobacter jejuni Q9RGF1 Q9RGF1 1.85 X-RAY DIFFRACTION 43 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 275 275 2p2v-a1-m1-cA_2p2v-a1-m3-cA 2p2v-a1-m1-cA_2p2v-a1-m4-cA 2p2v-a1-m2-cA_2p2v-a1-m3-cA 2p56-a1-m1-cA_2p56-a1-m3-cA 2p56-a1-m1-cA_2p56-a1-m4-cA 2p56-a1-m2-cA_2p56-a1-m3-cA 2p56-a1-m2-cA_2p56-a1-m4-cA RMENELIVSKNMQNIIIAGNGPSLKNINYKRLPREYDVFRCNQFYFEDKYYLGKKIKAVFFNPGVFLQQYHTAKQLILKNEYEIKNIFCSTFNLPFIESNDFLHQFYNFFPDAKLGYEVIENLKEFYAYIKYNEIYFNKRITSGVYMCAIAIALGYKTIYLCGIDFYEGDVIYPFEAMSTNIKTIFPGDFKPSNCHSKEYDIEALKLLKSIYKVNIYALCDDSILANHFPLSININNNFTLENKHNNSINDILLTDNTPGVSFYKNQLKADNKIM RMENELIVSKNMQNIIIAGNGPSLKNINYKRLPREYDVFRCNQFYFEDKYYLGKKIKAVFFNPGVFLQQYHTAKQLILKNEYEIKNIFCSTFNLPFIESNDFLHQFYNFFPDAKLGYEVIENLKEFYAYIKYNEIYFNKRITSGVYMCAIAIALGYKTIYLCGIDFYEGDVIYPFEAMSTNIKTIFPGDFKPSNCHSKEYDIEALKLLKSIYKVNIYALCDDSILANHFPLSININNNFTLENKHNNSINDILLTDNTPGVSFYKNQLKADNKIM 2p2w-a1-m1-cA_2p2w-a1-m2-cA Crystal structure of citrate synthase from Thermotoga maritima MSB8 Q9WYC6 Q9WYC6 1.9 X-RAY DIFFRACTION 369 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 358 358 MIQKGLEGVKICESSICYLDGINGRLYYRGIPVEELAEKSTFEETAYFLWYGKLPTKSELEEFKRKMADYRELPAEALGILYHLPKNLHYIDVLKIFLSIHEDLREKAIRVASVFPTILAYYYRYSKGKELIRPRKDLSHVENFYYMMFGERNEKIRLLESAFILLMEQDINASTFAALVIASTLSDLYSCIVGALGALKGPLHGGASEKVPPMLEEIGSEDRVEEFVQKCLKEKRKIMGFGHRVYKTYDPRAVFLKRVLQEHFPDSKLFRIASKLEEYIVSNKIKNIYPNVDLYSSVLFEELGFPRNMFTALFATARVVGWTAHVIEYVSDNKLIRPTSEYVGPMDVEYIPIERRDE MIQKGLEGVKICESSICYLDGINGRLYYRGIPVEELAEKSTFEETAYFLWYGKLPTKSELEEFKRKMADYRELPAEALGILYHLPKNLHYIDVLKIFLSIHEDLREKAIRVASVFPTILAYYYRYSKGKELIRPRKDLSHVENFYYMMFGERNEKIRLLESAFILLMEQDINASTFAALVIASTLSDLYSCIVGALGALKGPLHGGASEKVPPMLEEIGSEDRVEEFVQKCLKEKRKIMGFGHRVYKTYDPRAVFLKRVLQEHFPDSKLFRIASKLEEYIVSNKIKNIYPNVDLYSSVLFEELGFPRNMFTALFATARVVGWTAHVIEYVSDNKLIRPTSEYVGPMDVEYIPIERRDE 2p30-a2-m1-cA_2p30-a2-m2-cA Crystal structure of TTHB049 from Thermus thermophilus HB8 Q53WB3 Q53WB3 1.85 X-RAY DIFFRACTION 99 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 177 177 MELWLVRHGETLWNREGRLLGWTDLPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLAMDGEEATG MELWLVRHGETLWNREGRLLGWTDLPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLAMDGEEATG 2p32-a7-m1-cA_2p32-a7-m1-cF Crystal structure of the C-terminal 10 kDa subdomain from C. elegans Hsp70 P09446 P09446 3.2 X-RAY DIFFRACTION 17 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 82 82 2p32-a7-m1-cB_2p32-a7-m1-cE 2p32-a7-m1-cC_2p32-a7-m1-cD GLVPRGSHMGLESYAFNLKQTIEDEKLKDKISPEDKKKIEDKCDEILKWLDSNQTAEKEEFEHQQKDLEGLANPIISKLYQS GLVPRGSHMGLESYAFNLKQTIEDEKLKDKISPEDKKKIEDKCDEILKWLDSNQTAEKEEFEHQQKDLEGLANPIISKLYQS 2p32-a7-m1-cE_2p32-a7-m1-cF Crystal structure of the C-terminal 10 kDa subdomain from C. elegans Hsp70 P09446 P09446 3.2 X-RAY DIFFRACTION 16 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 82 82 2p32-a7-m1-cA_2p32-a7-m1-cB 2p32-a7-m1-cA_2p32-a7-m1-cC 2p32-a7-m1-cB_2p32-a7-m1-cC 2p32-a7-m1-cD_2p32-a7-m1-cE 2p32-a7-m1-cD_2p32-a7-m1-cF GLVPRGSHMGLESYAFNLKQTIEDEKLKDKISPEDKKKIEDKCDEILKWLDSNQTAEKEEFEHQQKDLEGLANPIISKLYQS GLVPRGSHMGLESYAFNLKQTIEDEKLKDKISPEDKKKIEDKCDEILKWLDSNQTAEKEEFEHQQKDLEGLANPIISKLYQS 2p35-a1-m1-cB_2p35-a1-m1-cA Crystal structure of trans-aconitate methyltransferase from Agrobacterium tumefaciens Q8UH15 Q8UH15 1.95 X-RAY DIFFRACTION 78 0.991 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 234 239 EDERTRPARDLLAQVPLERVLNGYDLGCGPGNSTELLTDRYGVNVITGIDSDDDLEKAADRLPNTNFGKADLATWKPAQKADLLYANAVFQWVPDHLAVLSQLDQLESGGVLAVQPDNLQEPTHIAHETADGGPWKDAFSRKPLPPPSDYFNALSPKSSRVDVWHTVYNHPKDADSIVEWVKGTGLRPYLAAAGEENREAFLADYTRRIAAAYPPADGRLLLRFPRLFVVAVKK AQQYLKFEDERTRPARDLLAQVPLERVLNGYDLGCGPGNSTELLTDRYGVNVITGIDSDDDLEKAADRLPNTNFGKADLATWKPAQKADLLYANAVFQWVPDHLAVLSQLDQLESGGVLAVQPDNLQEPTHIAHETADGGPWKDAFKPLPPPSDYFNALSPKSSRVDVWHTVYNHPKDADSIVEWVKGTGLRPYLAAAGEENREAFLADYTRRIAAAYPPADGRLLLRFPRLFVVAVKK 2p38-a1-m1-cA_2p38-a1-m2-cB Crystal Structure of Pyrococcus Abyssi Protein Homologue of Saccharomyces Cerevisiae NIP7P Q9V219 Q9V219 1.8 X-RAY DIFFRACTION 24 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 155 155 2p38-a1-m1-cB_2p38-a1-m2-cA LRVRRASSWELDLILKEAEKYGELLHEFFCVVEGKYRDVYAVNEEVWKIIEDINMRPYSLGTFVGTIRVDENLVEKFYPNLEFFSLIKLEKNYVILGPKASFLFTTGKDAPKEAVREIKWQGSKRVVVLNDLGDIIGIGLINPKSDRRFIKNLKD LRVRRASSWELDLILKEAEKYGELLHEFFCVVEGKYRDVYAVNEEVWKIIEDINMRPYSLGTFVGTIRVDENLVEKFYPNLEFFSLIKLEKNYVILGPKASFLFTTGKDAPKEAVREIKWQGSKRVVVLNDLGDIIGIGLINPKSDRRFIKNLKD 2p38-a1-m1-cB_2p38-a1-m2-cB Crystal Structure of Pyrococcus Abyssi Protein Homologue of Saccharomyces Cerevisiae NIP7P Q9V219 Q9V219 1.8 X-RAY DIFFRACTION 24 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 155 155 2p38-a1-m1-cA_2p38-a1-m2-cA LRVRRASSWELDLILKEAEKYGELLHEFFCVVEGKYRDVYAVNEEVWKIIEDINMRPYSLGTFVGTIRVDENLVEKFYPNLEFFSLIKLEKNYVILGPKASFLFTTGKDAPKEAVREIKWQGSKRVVVLNDLGDIIGIGLINPKSDRRFIKNLKD LRVRRASSWELDLILKEAEKYGELLHEFFCVVEGKYRDVYAVNEEVWKIIEDINMRPYSLGTFVGTIRVDENLVEKFYPNLEFFSLIKLEKNYVILGPKASFLFTTGKDAPKEAVREIKWQGSKRVVVLNDLGDIIGIGLINPKSDRRFIKNLKD 2p38-a1-m2-cA_2p38-a1-m2-cB Crystal Structure of Pyrococcus Abyssi Protein Homologue of Saccharomyces Cerevisiae NIP7P Q9V219 Q9V219 1.8 X-RAY DIFFRACTION 28 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 155 155 2p38-a1-m1-cA_2p38-a1-m1-cB LRVRRASSWELDLILKEAEKYGELLHEFFCVVEGKYRDVYAVNEEVWKIIEDINMRPYSLGTFVGTIRVDENLVEKFYPNLEFFSLIKLEKNYVILGPKASFLFTTGKDAPKEAVREIKWQGSKRVVVLNDLGDIIGIGLINPKSDRRFIKNLKD LRVRRASSWELDLILKEAEKYGELLHEFFCVVEGKYRDVYAVNEEVWKIIEDINMRPYSLGTFVGTIRVDENLVEKFYPNLEFFSLIKLEKNYVILGPKASFLFTTGKDAPKEAVREIKWQGSKRVVVLNDLGDIIGIGLINPKSDRRFIKNLKD 2p3c-a1-m1-cA_2p3c-a1-m1-cB Crystal Structure of the subtype F wild type HIV protease complexed with TL-3 inhibitor Q6Q004 Q6Q004 2.1 X-RAY DIFFRACTION 141 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 98 98 PQITLWKRPLVTIKVGGQLKEALLDTGADDTVLEDIALPGKWKPKMIGGIGGFIKVKQYENVSLEIGHKAIGTVLVGPTPVNIIGRNMLTQIGCTLNF PQITLWKRPLVTIKVGGQLKEALLDTGADDTVLEDIALPGKWKPKMIGGIGGFIKVKQYENVSLEIGHKAIGTVLVGPTPVNIIGRNMLTQIGCTLNF 2p3d-a1-m1-cA_2p3d-a1-m1-cB Crystal Structure of the multi-drug resistant mutant subtype F HIV protease complexed with TL-3 inhibitor Q7SRY5 Q7SRY5 2.8 X-RAY DIFFRACTION 146 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 PQITLWKRPIVTIKVEGQLREALLDTGADDTVLEDINLSGKWKPKIIGGIRGFVKVKQYEDILIEICGHRAVGAVLVGPTPANIIGRNMLTQIGCTLNF PQITLWKRPIVTIKVEGQLREALLDTGADDTVLEDINLSGKWKPKIIGGIRGFVKVKQYEDILIEICGHRAVGAVLVGPTPANIIGRNMLTQIGCTLNF 2p3e-a1-m1-cA_2p3e-a1-m1-cB Crystal structure of AQ1208 from Aquifex aeolicus O67262 O67262 1.99 X-RAY DIFFRACTION 226 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 398 403 ELLKEYNPYLEYRDGELFIEGVSLKELAQTFGTPLYVYSSNFIKERFEAYRKAFPDALICYAVKANFNPHLVKLLGELGAGADIVSGGELYLAKKAGIPPERIVYAGVGKTEKELTDAVDSEILMFNVESRQELDVLNEIAGKLGKKARIAIRVNPSKFGVDIREAQKEYEYASKLENLEIVGIHCHIGSQILDISPYREAVEKVVSLYESLTQKGFDIKYLDIGGGLGIKYKPEDKEPAPQDLADLLKDLLVKAKIILEPGRSIMGNAGILITQVQFLKDKGSKHFIIVDAGMNDLIRPSIYNAYHHIIPVETKEVVADIVGPICETGDFLALDREIEEVQRGEYLAVLSAGAYGFAMSSHYNMRPRAAEVLVENGSVKLIRKRENYDYIVEPSLDI ELLKEYNPYLEYRDGELFIEGVSLKELAQTFGTPLYVYSSNFIKERFEAYRKAFPDALICYAVKANFNPHLVKLLGELGAGADIVSGGELYLAKKAGIPPERIVYAGVGKTEKELTDAVDSEILMFNVESRQELDVLNEIAGKLGKKARIAIRVNPSKFGVDIREAQKEYEYASKLENLEIVGIHCHIGSQILDISPYREAVEKVVSLYESLTQKGFDIKYLDIGGGLGIKYKPEDKEPAPQDLADLLKDLLENVKAKIILEPGRSIMGNAGILITQVQFLKDKGSKHFIIVDAGMNDLIRPSIYNAYHHIIPVETKERKKVVADIVGPICETGDFLALDREIEEVQRGEYLAVLSAGAYGFAMSSHYNMRPRAAEVLVENGSVKLIRKRENYDYIVEPSLDI 2p3n-a1-m1-cA_2p3n-a1-m1-cD Thermotoga maritima IMPase TM1415 O33832 O33832 2.2 X-RAY DIFFRACTION 14 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 256 256 2p3n-a1-m1-cB_2p3n-a1-m1-cC 2p3v-a1-m1-cA_2p3v-a1-m1-cD 2p3v-a1-m1-cB_2p3v-a1-m1-cC MDRLDFSIKLLRKVGHLLMIHWGRVDNVEKKTGFKDIVTEIDREAQRMIVDEIRKFFPDENIMAEEGIFEKGDRLWIIDPIDGTINFVHGLPNFSISLAYVENGEVKLGVVHAPALNETLYAEEGSGAFFNGERIRVSENASLEECVGSTGSYVDFTGKFIERMEKRTRRIRILGSAALNAAYVGAGRVDFFVTWRINPWDIAAGLIIVKEAGGMVTDFSGKEANAFSKNFIFSNGLIHDEVVKVVNEVVEEIGGK MDRLDFSIKLLRKVGHLLMIHWGRVDNVEKKTGFKDIVTEIDREAQRMIVDEIRKFFPDENIMAEEGIFEKGDRLWIIDPIDGTINFVHGLPNFSISLAYVENGEVKLGVVHAPALNETLYAEEGSGAFFNGERIRVSENASLEECVGSTGSYVDFTGKFIERMEKRTRRIRILGSAALNAAYVGAGRVDFFVTWRINPWDIAAGLIIVKEAGGMVTDFSGKEANAFSKNFIFSNGLIHDEVVKVVNEVVEEIGGK 2p3n-a1-m1-cB_2p3n-a1-m1-cD Thermotoga maritima IMPase TM1415 O33832 O33832 2.2 X-RAY DIFFRACTION 24 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 256 256 2p3n-a1-m1-cA_2p3n-a1-m1-cC 2p3v-a1-m1-cA_2p3v-a1-m1-cC 2p3v-a1-m1-cB_2p3v-a1-m1-cD MDRLDFSIKLLRKVGHLLMIHWGRVDNVEKKTGFKDIVTEIDREAQRMIVDEIRKFFPDENIMAEEGIFEKGDRLWIIDPIDGTINFVHGLPNFSISLAYVENGEVKLGVVHAPALNETLYAEEGSGAFFNGERIRVSENASLEECVGSTGSYVDFTGKFIERMEKRTRRIRILGSAALNAAYVGAGRVDFFVTWRINPWDIAAGLIIVKEAGGMVTDFSGKEANAFSKNFIFSNGLIHDEVVKVVNEVVEEIGGK MDRLDFSIKLLRKVGHLLMIHWGRVDNVEKKTGFKDIVTEIDREAQRMIVDEIRKFFPDENIMAEEGIFEKGDRLWIIDPIDGTINFVHGLPNFSISLAYVENGEVKLGVVHAPALNETLYAEEGSGAFFNGERIRVSENASLEECVGSTGSYVDFTGKFIERMEKRTRRIRILGSAALNAAYVGAGRVDFFVTWRINPWDIAAGLIIVKEAGGMVTDFSGKEANAFSKNFIFSNGLIHDEVVKVVNEVVEEIGGK 2p3n-a1-m1-cC_2p3n-a1-m1-cD Thermotoga maritima IMPase TM1415 O33832 O33832 2.2 X-RAY DIFFRACTION 89 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 256 256 2p3n-a1-m1-cA_2p3n-a1-m1-cB 2p3v-a1-m1-cA_2p3v-a1-m1-cB 2p3v-a1-m1-cC_2p3v-a1-m1-cD MDRLDFSIKLLRKVGHLLMIHWGRVDNVEKKTGFKDIVTEIDREAQRMIVDEIRKFFPDENIMAEEGIFEKGDRLWIIDPIDGTINFVHGLPNFSISLAYVENGEVKLGVVHAPALNETLYAEEGSGAFFNGERIRVSENASLEECVGSTGSYVDFTGKFIERMEKRTRRIRILGSAALNAAYVGAGRVDFFVTWRINPWDIAAGLIIVKEAGGMVTDFSGKEANAFSKNFIFSNGLIHDEVVKVVNEVVEEIGGK MDRLDFSIKLLRKVGHLLMIHWGRVDNVEKKTGFKDIVTEIDREAQRMIVDEIRKFFPDENIMAEEGIFEKGDRLWIIDPIDGTINFVHGLPNFSISLAYVENGEVKLGVVHAPALNETLYAEEGSGAFFNGERIRVSENASLEECVGSTGSYVDFTGKFIERMEKRTRRIRILGSAALNAAYVGAGRVDFFVTWRINPWDIAAGLIIVKEAGGMVTDFSGKEANAFSKNFIFSNGLIHDEVVKVVNEVVEEIGGK 2p3q-a2-m1-cA_2p3q-a2-m2-cA Crystal Structure of Dengue Methyltransferase in Complex with GpppG and S-Adenosyl-L-homocysteine Q20IJ2 Q20IJ2 2.75 X-RAY DIFFRACTION 38 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 258 258 1l9k-a2-m1-cA_1l9k-a2-m2-cA 1r6a-a2-m1-cA_1r6a-a2-m2-cA 2p1d-a2-m1-cA_2p1d-a2-m2-cA 2p3l-a2-m1-cA_2p3l-a2-m2-cA 2p3o-a2-m1-cA_2p3o-a2-m2-cA 2p40-a2-m1-cA_2p40-a2-m2-cA 2p41-a2-m1-cA_2p41-a2-m2-cA ETLGEKWKSRLNALGKSEFQIYKKSGIQEVDRTLAKEGIKRGETDHHAVSRGSAKLRWFVERNLVTPEGKVVDLGCGRGGWSYYCGGLKNVREVKGLTKGGPGHEEPIPMSTYGWNLVRLQSGVDVFFIPPERCDTLLCDIGESSPNPTVEAGRTLRVLNLVENWLSNNTQFCVKVLNPYMSSVIEKMEALQRKHGGALVRNPLSRNSTHEMYWVSNASGNIVSSVNMISRMLINRFTMRHKKATYEPDVDLGSGTRN ETLGEKWKSRLNALGKSEFQIYKKSGIQEVDRTLAKEGIKRGETDHHAVSRGSAKLRWFVERNLVTPEGKVVDLGCGRGGWSYYCGGLKNVREVKGLTKGGPGHEEPIPMSTYGWNLVRLQSGVDVFFIPPERCDTLLCDIGESSPNPTVEAGRTLRVLNLVENWLSNNTQFCVKVLNPYMSSVIEKMEALQRKHGGALVRNPLSRNSTHEMYWVSNASGNIVSSVNMISRMLINRFTMRHKKATYEPDVDLGSGTRN 2p3w-a2-m1-cB_2p3w-a2-m3-cB Crystal Structure of the HtrA3 PDZ Domain Bound to a Phage-Derived Ligand (FGRWV) P83110 P83110 1.7 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 2p3w-a1-m1-cA_2p3w-a1-m2-cA GSHMKRFIGIRMRTITPSLVDEPEVSSGIYVQEVAPNSPSQRGGIQDGDIIVKVNGRPLVDSSELQEAVLTESPLLLEVRRGNDDLLFSIAPEVVMGGGFGRWV GSHMKRFIGIRMRTITPSLVDEPEVSSGIYVQEVAPNSPSQRGGIQDGDIIVKVNGRPLVDSSELQEAVLTESPLLLEVRRGNDDLLFSIAPEVVMGGGFGRWV 2p4b-a1-m1-cB_2p4b-a1-m1-cA Crystal structure of E.coli RseB P0AFX9 P0AFX9 2.4 X-RAY DIFFRACTION 109 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 260 284 ALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVAKFSWTPTWLPQGFSEVSSSRRPLPTMDNMPIESRLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKFG ASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPLKAKFSWTPTWLPQGFSEVSSSRRPLPTMDNMPIESRLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKFGA 2p4b-a2-m1-cC_2p4b-a2-m2-cC Crystal structure of E.coli RseB P0AFX9 P0AFX9 2.4 X-RAY DIFFRACTION 29 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 260 260 PASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPSWTPTWLPQGFSERLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKF PASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPSWTPTWLPQGFSERLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKF 2p4g-a1-m1-cA_2p4g-a1-m2-cA CRYSTAL STRUCTURE OF A PYRIMIDINE REDUCTASE-LIKE PROTEIN (DIP1392) FROM CORYNEBACTERIUM DIPHTHERIAE NCTC AT 2.30 A RESOLUTION Q6NGV8 Q6NGV8 2.3 X-RAY DIFFRACTION 123 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 246 246 VTTEQIVYGALPLTTINEPECRAIAITSINGSATLSGVSGPGDQTDADLLIQLRGWADAIVVGAETARKENYGPVVLPHGIKNQRQKLGRCGLPKLTLLSKSLYFDFSSELFSPDLPSELSPLVITQQPANNSEQWDQRLQKLIDVGVEVIVAPTSTNPLKIAFDALHARRLKKISIEGGPSVYRQALSLGIVDRLHLTIAPNIICPVESPLFGKISDDSFTTRLVLELSSSPNGLIFSRYKVIRD VTTEQIVYGALPLTTINEPECRAIAITSINGSATLSGVSGPGDQTDADLLIQLRGWADAIVVGAETARKENYGPVVLPHGIKNQRQKLGRCGLPKLTLLSKSLYFDFSSELFSPDLPSELSPLVITQQPANNSEQWDQRLQKLIDVGVEVIVAPTSTNPLKIAFDALHARRLKKISIEGGPSVYRQALSLGIVDRLHLTIAPNIICPVESPLFGKISDDSFTTRLVLELSSSPNGLIFSRYKVIRD 2p4m-a2-m1-cF_2p4m-a2-m1-cH High pH structure of Rtms5 H146S variant P83690 P83690 1.8 X-RAY DIFFRACTION 57 1.0 105610 (Montipora efflorescens) 105610 (Montipora efflorescens) 218 218 1mou-a1-m1-cA_1mou-a1-m4-cA 1mou-a1-m2-cA_1mou-a1-m3-cA 1mov-a1-m1-cA_1mov-a1-m4-cA 1mov-a1-m2-cA_1mov-a1-m3-cA 2arl-a1-m1-cA_2arl-a1-m3-cA 2arl-a1-m2-cA_2arl-a1-m4-cA 2p4m-a1-m1-cA_2p4m-a1-m1-cC 2p4m-a1-m1-cB_2p4m-a1-m1-cD 2p4m-a2-m1-cE_2p4m-a2-m1-cG 3vic-a1-m1-cA_3vic-a1-m1-cC 3vic-a1-m1-cB_3vic-a1-m1-cD 3vic-a2-m1-cE_3vic-a2-m1-cG 3vic-a2-m1-cH_3vic-a2-m1-cF 3vk1-a1-m1-cA_3vk1-a1-m4-cA 3vk1-a1-m2-cA_3vk1-a1-m3-cA MSVIATQMTYKVYMSGTVNGHYFEVEGDGKGKPYEGEQTVKLTVTKGGPLPFAWDILSPQCSIPFTKYPEDIPDYVKQSFPEGFTWERIMNFEDGAVCTVSNDSSIQGNCFTYHVKFSGLNFPPNGPVMQKKTQGWEPSSERLFARGGMLIGNNFMALKLEGGGHYLCEFKTTYKAKKPVKMPGYHYVDRKLDVTNHNKDYTSVEQCEISIARKPVVA MSVIATQMTYKVYMSGTVNGHYFEVEGDGKGKPYEGEQTVKLTVTKGGPLPFAWDILSPQCSIPFTKYPEDIPDYVKQSFPEGFTWERIMNFEDGAVCTVSNDSSIQGNCFTYHVKFSGLNFPPNGPVMQKKTQGWEPSSERLFARGGMLIGNNFMALKLEGGGHYLCEFKTTYKAKKPVKMPGYHYVDRKLDVTNHNKDYTSVEQCEISIARKPVVA 2p4p-a1-m1-cB_2p4p-a1-m1-cA Crystal structure of a CorC_HlyC domain from Haemophilus ducreyi Q7VKS4 Q7VKS4 1.8 X-RAY DIFFRACTION 21 1.0 233412 ([Haemophilus] ducreyi 35000HP) 233412 ([Haemophilus] ducreyi 35000HP) 66 72 DSWLIDGATPLEDVRALNIHTFPRDENYETIGGFYLRIPTDFVLYDYFEIIDTENFRIDQLVSFRD NARRNEDSWLIDGATPLEDVRALNIHTFPRDENYETIGGFYLRIPTDFVLYDYFEIIDTENFRIDQLVSFRD 2p4q-a1-m1-cA_2p4q-a1-m2-cA Crystal Structure Analysis of Gnd1 in Saccharomyces cerevisiae P38720 P38720 2.37 X-RAY DIFFRACTION 393 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 476 476 MSADFGLIGLAVMGQNLILNAADHGFTVCAYNRTQSKVDHFLANEAKGKSIIGATSIEDFISKLKRPRKVMLLVKAGAPVDALINQIVPLLEKGDIIIDGGNSHFPDSNRRYEELKKKGILFVGSGVSGGEEGARYGPSLMPGGSEEAWPHIKNIFQSISAKSDGEPCCEWVGPAGAGHYVKMVHNGIEYGDMQLICEAYDIMKRLGGFTDKEISDVFAKWNNGVLDSFLVEITRDILKFDDVDGKPLVEKIMDTAGQKGTGKWTAINALDLGMPVTLIGEAVFARCLSALKNERIRASKVLPGPEVPKDAVKDREQFVDDLEQALYASKIISYAQGFMLIREAAATYGWKLNNPAIALMWRGGCIIRSVFLGQITKAYREEPDLENLLFNKFFADAVTKAQSGWRKSIALATTYGIPTPAFSTALSFYDGYRSERLPANLLQAQRDYFGAHTFRVLPECASDNLPVDKDIHINWT MSADFGLIGLAVMGQNLILNAADHGFTVCAYNRTQSKVDHFLANEAKGKSIIGATSIEDFISKLKRPRKVMLLVKAGAPVDALINQIVPLLEKGDIIIDGGNSHFPDSNRRYEELKKKGILFVGSGVSGGEEGARYGPSLMPGGSEEAWPHIKNIFQSISAKSDGEPCCEWVGPAGAGHYVKMVHNGIEYGDMQLICEAYDIMKRLGGFTDKEISDVFAKWNNGVLDSFLVEITRDILKFDDVDGKPLVEKIMDTAGQKGTGKWTAINALDLGMPVTLIGEAVFARCLSALKNERIRASKVLPGPEVPKDAVKDREQFVDDLEQALYASKIISYAQGFMLIREAAATYGWKLNNPAIALMWRGGCIIRSVFLGQITKAYREEPDLENLLFNKFFADAVTKAQSGWRKSIALATTYGIPTPAFSTALSFYDGYRSERLPANLLQAQRDYFGAHTFRVLPECASDNLPVDKDIHINWT 2p4r-a2-m1-cA_2p4r-a2-m2-cA Structural basis for a novel interaction between AIP4 and beta-PIX O55043 O55043 2.001 X-RAY DIFFRACTION 22 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 55 55 SVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTHNGRTGWFPSNYVREI SVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTHNGRTGWFPSNYVREI 2p4r-a2-m1-cT_2p4r-a2-m2-cT Structural basis for a novel interaction between AIP4 and beta-PIX Q96J02 Q96J02 2.001 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 16 16 PSRPPRPSRPPPPTPR PSRPPRPSRPPPPTPR 2p4s-a1-m1-cB_2p4s-a1-m1-cC Structure of Purine Nucleoside Phosphorylase from Anopheles gambiae in complex with DADMe-ImmH A4Q998 A4Q998 2.2 X-RAY DIFFRACTION 103 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 282 282 2p4s-a1-m1-cA_2p4s-a1-m1-cB 2p4s-a1-m1-cA_2p4s-a1-m1-cC YTYDTLQEIATYLLERTELRPKVGIICGSGLGTLAEQLTDVDSFDYETIPHFPVSTVAGHVGRLVFGYLAGVPVMCMQGRFHHYEGYPLAKCAMPVRVMHLIGCTHLIATNAAGGANPKYRVGDIMLIKDHINLMGFAGNNPLQGPNDERFGPRFFGMANTYDPKLNQQAKVIARQIGIENELREGVYTCLGGPNFETVAEVKMLSMLGVDAIGMSTVHEIITARHCGMTCFAFSLITNMCTMSYEEEEEHCHDSIVGVGKNREKTLGEFVSRIVKHIHYEA YTYDTLQEIATYLLERTELRPKVGIICGSGLGTLAEQLTDVDSFDYETIPHFPVSTVAGHVGRLVFGYLAGVPVMCMQGRFHHYEGYPLAKCAMPVRVMHLIGCTHLIATNAAGGANPKYRVGDIMLIKDHINLMGFAGNNPLQGPNDERFGPRFFGMANTYDPKLNQQAKVIARQIGIENELREGVYTCLGGPNFETVAEVKMLSMLGVDAIGMSTVHEIITARHCGMTCFAFSLITNMCTMSYEEEEEHCHDSIVGVGKNREKTLGEFVSRIVKHIHYEA 2p4w-a1-m1-cA_2p4w-a1-m1-cB Crystal structure of heat shock regulator from Pyrococcus furiosus Q8U030 Q8U030 2.6 X-RAY DIFFRACTION 260 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 197 198 MGEELNRLLDVLGNETRRRILFLLTKRPYFVSELSRELGVGQKAVLEHLRILEEAGLIESRVEKIPRGRPRKYYMIKKGLRLEILLTPTLFGSEMYEAKGVRKSPEYEQAKELIKSQEPINVKMRELAEFLHELNERIREIIEEKRELEEARILIETYIENTMRRLAEENRQIIEEIFRDIEKILPPGYARSLKEKF MGEELNRLLDVLGNETRRRILFLLTKRPYFVSELSRELGVGQKAVLEHLRILEEAGLIESRVEKIPRGRPRKYYMIKKGLRLEILLTPTLFGSEMYEAKGVRKSPEYEQAKELIKSQEPINVKMRELAEFLHELNERIREIIEEKRELEEARILIETYIENTMRRLAEENRQIIEEIFRDIEKILPPGYARSLKEKFL 2p4z-a3-m1-cA_2p4z-a3-m1-cB A Ferredoxin-like Metallo-beta-lactamase Superfamily Protein from Thermoanaerobacter tengcongensis Q8R8V2 Q8R8V2 2.1 X-RAY DIFFRACTION 68 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 275 276 HGSVEVQVLIENVVFARNFVAEHGLSLLLKKGNKEIVVDTGQSENFIKNCGLMGIDVGRIKKVVLTHGHYDHIGGLKGLLERNPEVKIYTHKEILNKKYAMRKGGQFEEIGFDLSFYEKYKNNFVLIDKDAEIEEGFYVITNTDITYDNEFTTKNFFVEKEGKRIPDKFLDEVFVVVKEEDGINVVTGCSHAGILNILETARNRFGVSYIKSLIGGFHLRGMEEEKVKDIARKIEEYGVKKVLTGHCTGIDEYGFLKSVLKDKISYLTTSSSIVV HHGSVEVQVLIENVVFARNFVAEHGLSLLLKKGNKEIVVDTGQSENFIKNCGLMGIDVGRIKKVVLTHGHYDHIGGLKGLLERNPEVKIYTHKEILNKKYAMRKGGQFEEIGFDLSFYEKYKNNFVLIDKDAEIEEGFYVITNTDITYDNEFTTKNFFVEKEGKRIPDKFLDEVFVVVKEEDGINVVTGCSHAGILNILETARNRFGVSYIKSLIGGFHLRGMEEEKVKDIARKIEEYGVKKVLTGHCTGIDEYGFLKSVLKDKISYLTTSSSIVV 2p50-a2-m1-cD_2p50-a2-m1-cC Crystal structure of N-acetyl-D-Glucosamine-6-Phosphate deacetylase liganded with Zn P0AF18 P0AF18 2.2 X-RAY DIFFRACTION 69 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 354 355 1ymy-a1-m1-cB_1ymy-a1-m1-cA 1yrr-a1-m1-cB_1yrr-a1-m1-cA 1yrr-a1-m2-cB_1yrr-a1-m2-cA 2p50-a1-m1-cB_2p50-a1-m1-cA 2p53-a1-m1-cA_2p53-a1-m1-cB MYALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNLVKKGTHNPNFVRKPDAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATAPASGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ MYALTQGRIFTGHEFLDDHAVVIADGLIKSVCPVAELPPEIEQRSLNGAILSPGFIDVQLNGCGGVQFNDTAEAVSVETLEIMQKANEKSGCTNYLPTLITTSDELMKQGVRVMREYLAKHPNQALGLHLEGPWLNLVKKGTHNPNFVRKPDAALVDFLCENADVITKVTLAPEMVPAEVISKLANAGIVVSAGHSNATLKEAKAGFRAGITFATHLYNAMPYITGREPGLAGAILDEADIYCGIIADGLHVDYANIRNAKRLKGDKLCLVTDATAPAGAGSSLTMIEGVRNLVEHCGIALDEVLRMATLYPARAIGVEKRLGTLAAGKVANLTAFTPDFKITKTIVNGNEVVTQ 2p5q-a2-m1-cC_2p5q-a2-m1-cD Crystal structure of the poplar glutathione peroxidase 5 in the reduced form A3FNZ8 A3FNZ8 2 X-RAY DIFFRACTION 61 1.0 3695 (Populus trichocarpa x Populus deltoides) 3695 (Populus trichocarpa x Populus deltoides) 160 160 2p5q-a1-m1-cB_2p5q-a1-m1-cA 2p5r-a1-m1-cA_2p5r-a1-m1-cB ESVHDFTVKDAKENDVDLSIFKGKVLLIVNVASKCGMTNSNYAEMNQLYEKYKDQGLEILAFPCNQFGEEEPGTNDQITDFVCTRFKSEFPIFDKIDVNGENASPLYRFLKLGKWGIFGDDIQWNFAKFLVNKDGQVVDRYYPTTSPLSLERDIKQLLEI ESVHDFTVKDAKENDVDLSIFKGKVLLIVNVASKCGMTNSNYAEMNQLYEKYKDQGLEILAFPCNQFGEEEPGTNDQITDFVCTRFKSEFPIFDKIDVNGENASPLYRFLKLGKWGIFGDDIQWNFAKFLVNKDGQVVDRYYPTTSPLSLERDIKQLLEI 2p5s-a1-m1-cA_2p5s-a1-m1-cB RAB domain of human RASEF in complex with GDP Q8IZ41 Q8IZ41 2.15 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 161 AYKIVLAGDAAVGKSSFLMRLCKNEFRFQMKTLIVDGERTVLQLWDTAGQERFRSIAKSYFRKADGVLLLYDVTCEKSFLNIREWVDMIEDAAVPIMLVGNKADIRDTAATEGQKCVPGHFGEKLAMTYGALFCETSAKDGSNIVEAVLHLAREVKK AYKIVLAGDAAVGKSSFLMRLCKNEFRGVDFQMKTLIVDGERTVLQLWDTAGQERFRSIAKSYFRKADGVLLLYDVTCEKSFLNIREWVDMIEDAAVPIMLVGNKADIRDTAATEGQKCVPGHFGEKLAMTYGALFCETSAKDGSNIVEAVLHLAREVKKR 2p5t-a3-m1-cG_2p5t-a3-m1-cE Molecular and structural characterization of the PezAT chromosomal toxin-antitoxin system of the human pathogen Streptococcus pneumoniae Q97QZ2 Q97QZ2 3.2 X-RAY DIFFRACTION 53 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 93 95 2p5t-a1-m1-cA_2p5t-a1-m1-cC 2p5t-a2-m1-cG_2p5t-a2-m1-cE MLNPVEDYELTLKIEIVKERGANLLSRLYRYQDSQGISIDDESNPWILMSDDLSDLIHTNIYLVETFDEIERYSGYLDGIERMLEISEKRMVA DKMLNPVEDYELTLKIEIVKERGANLLSRLYRYQDSQGISIDDESNPWILMSDDLSDLIHTNIYLVETFDEIERYSGYLDGIERMLEISEKRMVA 2p5u-a2-m1-cB_2p5u-a2-m1-cC Crystal structure of Thermus thermophilus HB8 UDP-glucose 4-epimerase complex with NAD Q5SKQ2 Q5SKQ2 2.37 X-RAY DIFFRACTION 84 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 311 311 2p5u-a1-m1-cA_2p5u-a1-m1-cD MRVLVTGGAGFIGSHIVEDLLARGLEVAVLDNLATGKRENVPKGVPFFRVDLRDKEGVERAFREFRPTHVSHQAAQASVKVSVEDPVLDFEVNLLGGLNLLEACRQYGVEKLVFASTGGAIYGEVPEGERAEETWPPRPKSPYAASKAAFEHYLSVYGQSYGLKWVSLRYGNVYGPRQDPHGEAGVVAIFAERVLKGLPVTLYARKTPGDEGCVRDYVYVGDVAEAHALALFSLEGIYNVGTGEGHTTREVLMAVAEAAGKAPEVQPAPPRPGDLERSVLSPLKLMAHGWRPKVGFQEGIRLTVDHFRGAV MRVLVTGGAGFIGSHIVEDLLARGLEVAVLDNLATGKRENVPKGVPFFRVDLRDKEGVERAFREFRPTHVSHQAAQASVKVSVEDPVLDFEVNLLGGLNLLEACRQYGVEKLVFASTGGAIYGEVPEGERAEETWPPRPKSPYAASKAAFEHYLSVYGQSYGLKWVSLRYGNVYGPRQDPHGEAGVVAIFAERVLKGLPVTLYARKTPGDEGCVRDYVYVGDVAEAHALALFSLEGIYNVGTGEGHTTREVLMAVAEAAGKAPEVQPAPPRPGDLERSVLSPLKLMAHGWRPKVGFQEGIRLTVDHFRGAV 2p5v-a1-m1-cA_2p5v-a1-m1-cB Crystal Structure of Transcriptional Regulator NMB0573 from Neisseria Meningitidis Q9K0L9 Q9K0L9 1.99 X-RAY DIFFRACTION 220 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 155 155 2p5v-a1-m1-cC_2p5v-a1-m1-cD 2p5v-a1-m1-cF_2p5v-a1-m1-cE 2p5v-a1-m1-cH_2p5v-a1-m1-cG 2p6s-a1-m1-cA_2p6s-a1-m1-cB 2p6s-a1-m1-cC_2p6s-a1-m1-cD 2p6s-a1-m1-cF_2p6s-a1-m1-cE 2p6s-a1-m1-cH_2p6s-a1-m1-cG 2p6t-a1-m1-cA_2p6t-a1-m1-cB 2p6t-a1-m1-cC_2p6t-a1-m1-cD 2p6t-a1-m1-cE_2p6t-a1-m1-cF 2p6t-a1-m1-cH_2p6t-a1-m1-cG QLTLDKTDIKILQVLQENGRLTNVELSERVALSPSPCLRRLKQLEDAGIVRQYAALLSPESVNLGLQAFIRVSIRKAKDAREDFAASVRKWPEVLSCFALTGETDYLLQAFFTDNAFSHFVLDTLLSHHGVQDAQSSFVLKEIKHTTSLPLNHLL QLTLDKTDIKILQVLQENGRLTNVELSERVALSPSPCLRRLKQLEDAGIVRQYAALLSPESVNLGLQAFIRVSIRKAKDAREDFAASVRKWPEVLSCFALTGETDYLLQAFFTDNAFSHFVLDTLLSHHGVQDAQSSFVLKEIKHTTSLPLNHLL 2p5v-a1-m1-cC_2p5v-a1-m1-cF Crystal Structure of Transcriptional Regulator NMB0573 from Neisseria Meningitidis Q9K0L9 Q9K0L9 1.99 X-RAY DIFFRACTION 20 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 153 153 2p5v-a1-m1-cA_2p5v-a1-m1-cD 2p5v-a1-m1-cB_2p5v-a1-m1-cG 2p5v-a1-m1-cH_2p5v-a1-m1-cE 2p6s-a1-m1-cA_2p6s-a1-m1-cD 2p6s-a1-m1-cB_2p6s-a1-m1-cG 2p6s-a1-m1-cC_2p6s-a1-m1-cF 2p6s-a1-m1-cH_2p6s-a1-m1-cE 2p6t-a1-m1-cA_2p6t-a1-m1-cD 2p6t-a1-m1-cB_2p6t-a1-m1-cG 2p6t-a1-m1-cC_2p6t-a1-m1-cF 2p6t-a1-m1-cE_2p6t-a1-m1-cH TLDKTDIKILQVLQENGRLTNVELSERVALSPSPCLRRLKQLEDAGIVRQYAALLSPESVNLGLQAFIRVSIRKAKDAREDFAASVRKWPEVLSCFALTGETDYLLQAFFTDNAFSHFVLDTLLSHHGVQDAQSSFVLKEIKHTTSLPLNHLL TLDKTDIKILQVLQENGRLTNVELSERVALSPSPCLRRLKQLEDAGIVRQYAALLSPESVNLGLQAFIRVSIRKAKDAREDFAASVRKWPEVLSCFALTGETDYLLQAFFTDNAFSHFVLDTLLSHHGVQDAQSSFVLKEIKHTTSLPLNHLL 2p5z-a1-m2-cX_2p5z-a1-m3-cX The E. coli c3393 protein is a component of the type VI secretion system and exhibits structural similarity to T4 bacteriophage tail proteins gp27 and gp5 A0A0H2VBP9 A0A0H2VBP9 2.6 X-RAY DIFFRACTION 60 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 361 361 2p5z-a1-m1-cX_2p5z-a1-m2-cX 2p5z-a1-m1-cX_2p5z-a1-m3-cX HKLKIRGLQSPVDVLTFEGREQLSTPFRYDIQFTSSDKAIAPESVLMQDGAFSLTAALRTLHGVITGFKHLSSSQDEARYEVRLEPRMALLTRSRQNAIYQNQTVPQIVEKILRERHQMRGQDFVFNLKSEYPAREQVMQYGEDDLTFVSRLLSEVGIWFRFATDARLKIEVIEFYDDQSGYERGLTLPLRTEAVWGLNTAYSVSGAFYARIRHERYLNEQAILKGQSTSSLLMPGLEIKVQGDDAPAVFRKGVLITGVTTSAARDRSYELTFTAIPYSERYGYRPALIPRPVMAGTLPARVTSDIYAHIDKDGRYRVNLDFRDTWKPGYESLWVRLLAGTEVSIAFEEGNPDRPYIAGVK HKLKIRGLQSPVDVLTFEGREQLSTPFRYDIQFTSSDKAIAPESVLMQDGAFSLTAALRTLHGVITGFKHLSSSQDEARYEVRLEPRMALLTRSRQNAIYQNQTVPQIVEKILRERHQMRGQDFVFNLKSEYPAREQVMQYGEDDLTFVSRLLSEVGIWFRFATDARLKIEVIEFYDDQSGYERGLTLPLRTEAVWGLNTAYSVSGAFYARIRHERYLNEQAILKGQSTSSLLMPGLEIKVQGDDAPAVFRKGVLITGVTTSAARDRSYELTFTAIPYSERYGYRPALIPRPVMAGTLPARVTSDIYAHIDKDGRYRVNLDFRDTWKPGYESLWVRLLAGTEVSIAFEEGNPDRPYIAGVK 2p62-a1-m1-cA_2p62-a1-m1-cB Crystal structure of hypothetical protein PH0156 from Pyrococcus horikoshii OT3 O57895 O57895 2.5 X-RAY DIFFRACTION 82 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 241 241 MRIKLIIVEGKTDESFFKVLLEKLYGFREAKKLTPEFPIGKWGFRIGEHPLVLEKDNIALVIIHAEGKQRIPKVLKSVLDSVKLGLLNVEEVYVVRDVDEGNDVFEWVLSFLREREVRVDNGAIVTEGVKIYPYGMGNLTLNEPFVKEKKELELSLAYLAKLDGILEKYRGSMRALSQDKGDKLTPKDVMHILSIANDYTGDCLSGLYEKYIGIMIHRNRELLIRFLSEVNLLPLLERMVG MRIKLIIVEGKTDESFFKVLLEKLYGFREAKKLTPEFPIGKWGFRIGEHPLVLEKDNIALVIIHAEGKQRIPKVLKSVLDSVKLGLLNVEEVYVVRDVDEGNDVFEWVLSFLREREVRVDNGAIVTEGVKIYPYGMGNLTLNEPFVKEKKELELSLAYLAKLDGILEKYRGSMRALSQDKGDKLTPKDVMHILSIANDYTGDCLSGLYEKYIGIMIHRNRELLIRFLSEVNLLPLLERMVG 2p63-a1-m1-cB_2p63-a1-m1-cD Suprafacial orientation of the SCFCdc4 dimer accommodates multiple geometries for substrate ubiquitination P07834 P07834 2.67 X-RAY DIFFRACTION 26 0.98 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 50 50 SPEYLSDEIFSAINNNLPHAYFKNLLFRLVANDRSELSDLGTLIKDNLKR PEYLSDEIFSAINNNLPHAYFKNLLFRLVANDRSELSDLGTLIKDNLKRD 2p63-a3-m1-cB_2p63-a3-m1-cA Suprafacial orientation of the SCFCdc4 dimer accommodates multiple geometries for substrate ubiquitination P07834 P07834 2.67 X-RAY DIFFRACTION 69 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 50 51 2p63-a1-m1-cB_2p63-a1-m1-cA 2p63-a1-m1-cD_2p63-a1-m1-cC 2p63-a2-m1-cD_2p63-a2-m1-cC SPEYLSDEIFSAINNNLPHAYFKNLLFRLVANDRSELSDLGTLIKDNLKR GSPEYLSDEIFSAINNNLPHAYFKNLLFRLVANDRSELSDLGTLIKDNLKR 2p64-a1-m1-cA_2p64-a1-m1-cB D domain of b-TrCP Q9Y297 Q9Y297 2.5 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 49 50 AASYEKEKELCVKYFEQWSESDQVEFVEHLISQCHYQHGHINSYLKPLQ GAASYEKEKELCVKYFEQWSESDQVEFVEHLISQCHYQHGHINSYLKPLQ 2p67-a1-m1-cA_2p67-a1-m2-cA Crystal structure of LAO/AO transport system kinase P27254 P27254 1.8 X-RAY DIFFRACTION 148 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 302 302 SLINEATLAESIRRLRQGERATLAQAMTLVESRHPRHQALSTQLLDAIMPYCGNTLRLGVTGTPGAGKSTFLEAFGMLLIREGLKVAVIAVDPSNDLARAEAAFIRPVPSGASQRARELMLLCEAAGYDVVIVETVGVGQSETEVARMVDCFISLQIAQGIKKGLMEVADLIVINKDDGDNHTNVAIARHMYESALHILRRKYDEWQPRVLTCSALEKRGIDEIWHAIIDFKTALTASGRLQQVRQQQSVEWLRKQTEEEVLNHLFANEDFDRYYRQTLLAVKNNTLSPRTGLRQLSEFIQT SLINEATLAESIRRLRQGERATLAQAMTLVESRHPRHQALSTQLLDAIMPYCGNTLRLGVTGTPGAGKSTFLEAFGMLLIREGLKVAVIAVDPSNDLARAEAAFIRPVPSGASQRARELMLLCEAAGYDVVIVETVGVGQSETEVARMVDCFISLQIAQGIKKGLMEVADLIVINKDDGDNHTNVAIARHMYESALHILRRKYDEWQPRVLTCSALEKRGIDEIWHAIIDFKTALTASGRLQQVRQQQSVEWLRKQTEEEVLNHLFANEDFDRYYRQTLLAVKNNTLSPRTGLRQLSEFIQT 2p6b-a1-m1-cA_2p6b-a1-m1-cC Crystal Structure of Human Calcineurin in Complex with PVIVIT Peptide Q08209 Q08209 2.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 357 357 TDRVVKAVPFPPSHRLTAKEVFDNDGKPRVDILKAHLMKEGRLEESVALRIITEGASILRQEKNLLDIDAPVTVCGDIHGQFFDLMKLFEVGGSPANTRYLFLGDYVDRGYFSIECVLYLWALKILYPKTLFLLRGNHECRHLTEYFTFKQECKIKYSERVYDACMDAFDCLPLAALMNQQFLCVHGGLSPEINTLDDIRKLDRFKEPPAYGPMCDILWSDPLEDFGNEKTQEHFTHNTVRGCSYFYSYPAVCEFLQHNNLLSILRAHEAQDAGYRMYRKSQTTGFPSLITIFSAPNYLDVYNNKAAVLKYENNVMNIRQFNCSPHPYWLPNFMDVFTWSLPFVGEKVTEMLVNVLN TDRVVKAVPFPPSHRLTAKEVFDNDGKPRVDILKAHLMKEGRLEESVALRIITEGASILRQEKNLLDIDAPVTVCGDIHGQFFDLMKLFEVGGSPANTRYLFLGDYVDRGYFSIECVLYLWALKILYPKTLFLLRGNHECRHLTEYFTFKQECKIKYSERVYDACMDAFDCLPLAALMNQQFLCVHGGLSPEINTLDDIRKLDRFKEPPAYGPMCDILWSDPLEDFGNEKTQEHFTHNTVRGCSYFYSYPAVCEFLQHNNLLSILRAHEAQDAGYRMYRKSQTTGFPSLITIFSAPNYLDVYNNKAAVLKYENNVMNIRQFNCSPHPYWLPNFMDVFTWSLPFVGEKVTEMLVNVLN 2p6c-a3-m4-cB_2p6c-a3-m5-cB Crystal structure of hypothetical protein aq_2013 from Aquifex aeolicus VF5. O67812 O67812 2 X-RAY DIFFRACTION 86 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 137 137 2p6c-a1-m1-cA_2p6c-a1-m2-cA 2p6c-a1-m1-cA_2p6c-a1-m3-cA 2p6c-a1-m2-cA_2p6c-a1-m3-cA 2p6c-a3-m1-cB_2p6c-a3-m4-cB 2p6c-a3-m1-cB_2p6c-a3-m5-cB MKAYTKYLTFNTKKRRELIRITDEVKKAVEESEVKEGLCLVSSMHLTSSVIIQDDEEGLHEDIWEWLEKLAPYRPDYKHHRTGEDNGDAHLKNLLTHLQVVLPITNGKLDLGPWQEIFYAEFDGQRPKRVVIKIIGE MKAYTKYLTFNTKKRRELIRITDEVKKAVEESEVKEGLCLVSSMHLTSSVIIQDDEEGLHEDIWEWLEKLAPYRPDYKHHRTGEDNGDAHLKNLLTHLQVVLPITNGKLDLGPWQEIFYAEFDGQRPKRVVIKIIGE 2p6h-a3-m4-cB_2p6h-a3-m5-cB Crystal structure of hypothetical protein APE1520 from Aeropyrum pernix K1 Q9YBS9 Q9YBS9 1.95 X-RAY DIFFRACTION 82 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 134 134 2p6h-a1-m1-cA_2p6h-a1-m2-cA 2p6h-a1-m1-cA_2p6h-a1-m3-cA 2p6h-a1-m2-cA_2p6h-a1-m3-cA 2p6h-a3-m1-cB_2p6h-a3-m4-cB 2p6h-a3-m1-cB_2p6h-a3-m5-cB METGSFTVKTERRLQVLDVTGKVEEWLSTVGGVNGLLVVYVPHTTAAVAVNEAEPRLMEDIVEFIRELTKPGGPWKHNLVDVNAHAHLGNTIIGDSRVIPVVGGRLSLGTWQRILFVEMDGPRERTVNLLYLGE METGSFTVKTERRLQVLDVTGKVEEWLSTVGGVNGLLVVYVPHTTAAVAVNEAEPRLMEDIVEFIRELTKPGGPWKHNLVDVNAHAHLGNTIIGDSRVIPVVGGRLSLGTWQRILFVEMDGPRERTVNLLYLGE 2p6m-a3-m1-cB_2p6m-a3-m2-cA Crystal structure of TTHB049 from Thermus thermophilus HB8 Q53WB3 Q53WB3 1.9 X-RAY DIFFRACTION 50 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 170 171 MELWLVRHGETLWNREGRLLGWTDMPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLAL MELWLVRHGETLWNREGRLLGWTDMPLTAEGEAQARRLKGALPSLPAFSSDLLRARRTAELAGFSPRLYPELREIHFGALEGALWETLDPRYKEALLRFQGFHPPGGESLSAFQERVFRFLEGLKAPAVLFTHGGVVRAVLRALGEDGLVPPGSAVAVDWPRRVLVRLALD 2p6p-a1-m1-cB_2p6p-a1-m1-cA X-ray crystal structure of C-C bond-forming dTDP-D-Olivose-transferase UrdGT2 Q9RPA7 Q9RPA7 1.88 X-RAY DIFFRACTION 111 0.995 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 376 382 MRILFVAAGSPATVFALAPLATAARNAGHQVVMAANQDMGPVVTGVGLPAVATTDLPIRHFITTDREGRPEAIPSDPVAQARFTGRWFARMAASSLPRMLDFSRAWRPDLIVGGTMSYVAPLLALHLGVPHARQTWDAVDADGIHPGADAELRPELSELGLERLPAPDLFIDICPPSLRPANAAPARMMRHVATSRQCPLEPWMYTRDTRQRVLVTSGDRNFDFLRGLAKDLVRWDVELIVAAPDTVAEALRAEVPQARVGWTPLDVVAPTCDLLVHHAGGVSTLTGLSAGVPQLLIPKGSVLEAPARRVADYGAAIALLPGEDSTEAIADSCQELQAKDTYARRAQDLSREISGMPLPATVVTALEQLAHHHHHH MRILFVAAGSPATVFALAPLATAARNAGHQVVMAANQDMGPVVTGVGLPAVATTDLPIRHFITTDREGRPEAIPSDPVAQARFTGRWFARMAASSLPRMLDFSRAWRPDLIVGGTMSYVAPLLALHLGVPHARQTWDAVDADGIHPGADAELRPELSELGLERLPAPDLFIDICPPSLRPANAAPARMMRHVATSRQCPLEPWMYTRDTRQRVLVTSGSRVAKESYDRNFDFLRGLAKDLVRWDVELIVAAPDTVAEALRAEVPQARVGWTPLDVVAPTCDLLVHHAGGVSTLTGLSAGVPQLLIPKGSVLEAPARRVADYGAAIALLPGEDSTEAIADSCQELQAKDTYARRAQDLSREISGMPLPATVVTALEQLAHHHH 2p6s-a1-m1-cF_2p6s-a1-m1-cH Crystal Structure of Transcriptional Regulator NMB0573/L-Met Complex from Neisseria Meningitidis Q9K0L9 Q9K0L9 2.8 X-RAY DIFFRACTION 12 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 153 153 2p5v-a1-m1-cA_2p5v-a1-m1-cG 2p5v-a1-m1-cB_2p5v-a1-m1-cD 2p5v-a1-m1-cC_2p5v-a1-m1-cA 2p5v-a1-m1-cC_2p5v-a1-m1-cE 2p5v-a1-m1-cE_2p5v-a1-m1-cG 2p5v-a1-m1-cF_2p5v-a1-m1-cD 2p5v-a1-m1-cF_2p5v-a1-m1-cH 2p5v-a1-m1-cH_2p5v-a1-m1-cB 2p6s-a1-m1-cA_2p6s-a1-m1-cG 2p6s-a1-m1-cB_2p6s-a1-m1-cD 2p6s-a1-m1-cC_2p6s-a1-m1-cA 2p6s-a1-m1-cC_2p6s-a1-m1-cE 2p6s-a1-m1-cE_2p6s-a1-m1-cG 2p6s-a1-m1-cF_2p6s-a1-m1-cD 2p6s-a1-m1-cH_2p6s-a1-m1-cB 2p6t-a1-m1-cA_2p6t-a1-m1-cG 2p6t-a1-m1-cC_2p6t-a1-m1-cA 2p6t-a1-m1-cC_2p6t-a1-m1-cE 2p6t-a1-m1-cD_2p6t-a1-m1-cB 2p6t-a1-m1-cE_2p6t-a1-m1-cG 2p6t-a1-m1-cF_2p6t-a1-m1-cD 2p6t-a1-m1-cH_2p6t-a1-m1-cB 2p6t-a1-m1-cH_2p6t-a1-m1-cF TLDKTDIKILQVLQENGRLTNVELSERVALSPSPCLRRLKQLEDAGIVRQYAALLSPESVNLGLQAFIRVSIRKAKDAREDFAASVRKWPEVLSCFALTGETDYLLQAFFTDNAFSHFVLDTLLSHHGVQDAQSSFVLKEIKHTTSLPLNHLL TLDKTDIKILQVLQENGRLTNVELSERVALSPSPCLRRLKQLEDAGIVRQYAALLSPESVNLGLQAFIRVSIRKAKDAREDFAASVRKWPEVLSCFALTGETDYLLQAFFTDNAFSHFVLDTLLSHHGVQDAQSSFVLKEIKHTTSLPLNHLL 2p6v-a1-m3-cA_2p6v-a1-m6-cA Structure of TAFH domain of the human TAF4 subunit of TFIID O00268 O00268 2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 2p6v-a1-m1-cA_2p6v-a1-m5-cA 2p6v-a1-m2-cA_2p6v-a1-m4-cA SSAATETMENVCNFLSTLILASSGQSTETAANVELVQNLLDGIEAEDFTSRLYRELNSSPQPYLVPFLRSLPALRQLTPDSAAFIQQSQ SSAATETMENVCNFLSTLILASSGQSTETAANVELVQNLLDGIEAEDFTSRLYRELNSSPQPYLVPFLRSLPALRQLTPDSAAFIQQSQ 2p6v-a1-m5-cA_2p6v-a1-m6-cA Structure of TAFH domain of the human TAF4 subunit of TFIID O00268 O00268 2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 2p6v-a1-m1-cA_2p6v-a1-m2-cA 2p6v-a1-m1-cA_2p6v-a1-m3-cA 2p6v-a1-m2-cA_2p6v-a1-m3-cA 2p6v-a1-m4-cA_2p6v-a1-m5-cA 2p6v-a1-m4-cA_2p6v-a1-m6-cA SSAATETMENVCNFLSTLILASSGQSTETAANVELVQNLLDGIEAEDFTSRLYRELNSSPQPYLVPFLRSLPALRQLTPDSAAFIQQSQ SSAATETMENVCNFLSTLILASSGQSTETAANVELVQNLLDGIEAEDFTSRLYRELNSSPQPYLVPFLRSLPALRQLTPDSAAFIQQSQ 2p6y-a2-m14-cA_2p6y-a2-m9-cA X-ray structure of the protein Q9KM02_VIBCH from Vibrio cholerae at the resolution 1.63 A. Northeast Structural Genomics Consortium target VcR80. Q9KM02 Q9KM02 1.63 X-RAY DIFFRACTION 12 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 128 128 2p6y-a2-m10-cA_2p6y-a2-m23-cA 2p6y-a2-m11-cA_2p6y-a2-m22-cA 2p6y-a2-m12-cA_2p6y-a2-m24-cA 2p6y-a2-m13-cA_2p6y-a2-m7-cA 2p6y-a2-m15-cA_2p6y-a2-m2-cA 2p6y-a2-m16-cA_2p6y-a2-m8-cA 2p6y-a2-m17-cA_2p6y-a2-m5-cA 2p6y-a2-m19-cA_2p6y-a2-m6-cA 2p6y-a2-m1-cA_2p6y-a2-m18-cA 2p6y-a2-m20-cA_2p6y-a2-m4-cA 2p6y-a2-m21-cA_2p6y-a2-m3-cA IHLIALRLTRGDLKQQIVQLVQQHRIHAGSIASCVGCLSTLHIRLADSVSTLQVSAPFEILSLSGTLTYQHCHLHIAVADAQGRVWGGHLLEGNLINTAELIHHYPQHHFTREFDPNTGYSELVVSAA IHLIALRLTRGDLKQQIVQLVQQHRIHAGSIASCVGCLSTLHIRLADSVSTLQVSAPFEILSLSGTLTYQHCHLHIAVADAQGRVWGGHLLEGNLINTAELIHHYPQHHFTREFDPNTGYSELVVSAA 2p6y-a2-m5-cA_2p6y-a2-m9-cA X-ray structure of the protein Q9KM02_VIBCH from Vibrio cholerae at the resolution 1.63 A. Northeast Structural Genomics Consortium target VcR80. Q9KM02 Q9KM02 1.63 X-RAY DIFFRACTION 101 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 128 128 2p6y-a1-m1-cA_2p6y-a1-m2-cA 2p6y-a1-m1-cA_2p6y-a1-m3-cA 2p6y-a1-m2-cA_2p6y-a1-m3-cA 2p6y-a2-m10-cA_2p6y-a2-m5-cA 2p6y-a2-m10-cA_2p6y-a2-m9-cA 2p6y-a2-m11-cA_2p6y-a2-m6-cA 2p6y-a2-m11-cA_2p6y-a2-m7-cA 2p6y-a2-m12-cA_2p6y-a2-m4-cA 2p6y-a2-m12-cA_2p6y-a2-m8-cA 2p6y-a2-m13-cA_2p6y-a2-m17-cA 2p6y-a2-m13-cA_2p6y-a2-m21-cA 2p6y-a2-m14-cA_2p6y-a2-m19-cA 2p6y-a2-m14-cA_2p6y-a2-m24-cA 2p6y-a2-m15-cA_2p6y-a2-m20-cA 2p6y-a2-m15-cA_2p6y-a2-m22-cA 2p6y-a2-m16-cA_2p6y-a2-m18-cA 2p6y-a2-m16-cA_2p6y-a2-m23-cA 2p6y-a2-m17-cA_2p6y-a2-m21-cA 2p6y-a2-m18-cA_2p6y-a2-m23-cA 2p6y-a2-m19-cA_2p6y-a2-m24-cA 2p6y-a2-m1-cA_2p6y-a2-m2-cA 2p6y-a2-m1-cA_2p6y-a2-m3-cA 2p6y-a2-m20-cA_2p6y-a2-m22-cA 2p6y-a2-m2-cA_2p6y-a2-m3-cA 2p6y-a2-m4-cA_2p6y-a2-m8-cA 2p6y-a2-m6-cA_2p6y-a2-m7-cA IHLIALRLTRGDLKQQIVQLVQQHRIHAGSIASCVGCLSTLHIRLADSVSTLQVSAPFEILSLSGTLTYQHCHLHIAVADAQGRVWGGHLLEGNLINTAELIHHYPQHHFTREFDPNTGYSELVVSAA IHLIALRLTRGDLKQQIVQLVQQHRIHAGSIASCVGCLSTLHIRLADSVSTLQVSAPFEILSLSGTLTYQHCHLHIAVADAQGRVWGGHLLEGNLINTAELIHHYPQHHFTREFDPNTGYSELVVSAA 2p7i-a2-m3-cA_2p7i-a2-m8-cB CRYSTAL STRUCTURE OF a SAM dependent methyl-transferase type 12 family protein (ECA1738) FROM PECTOBACTERIUM ATROSEPTICUM SCRI1043 AT 1.74 A RESOLUTION Q6D6E7 Q6D6E7 1.74 X-RAY DIFFRACTION 25 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 222 226 2p7h-a1-m1-cB_2p7h-a1-m1-cC 2p7h-a1-m1-cD_2p7h-a1-m1-cA 2p7h-a2-m1-cB_2p7h-a2-m1-cC 2p7h-a2-m1-cD_2p7h-a2-m1-cA 2p7h-a2-m2-cB_2p7h-a2-m2-cC 2p7h-a2-m2-cD_2p7h-a2-m2-cA 2p7h-a2-m3-cB_2p7h-a2-m3-cC 2p7h-a2-m3-cD_2p7h-a2-m3-cA 2p7h-a2-m4-cB_2p7h-a2-m4-cC 2p7h-a2-m4-cD_2p7h-a2-m4-cA 2p7i-a1-m1-cA_2p7i-a1-m2-cB 2p7i-a1-m2-cA_2p7i-a1-m1-cB 2p7i-a2-m1-cA_2p7i-a2-m2-cB 2p7i-a2-m2-cA_2p7i-a2-m1-cB 2p7i-a2-m4-cA_2p7i-a2-m6-cB 2p7i-a2-m5-cA_2p7i-a2-m7-cB 2p7i-a2-m6-cA_2p7i-a2-m4-cB 2p7i-a2-m7-cA_2p7i-a2-m5-cB 2p7i-a2-m8-cA_2p7i-a2-m3-cB NFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKG YNFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKGINQ 2p7i-a2-m3-cB_2p7i-a2-m8-cB CRYSTAL STRUCTURE OF a SAM dependent methyl-transferase type 12 family protein (ECA1738) FROM PECTOBACTERIUM ATROSEPTICUM SCRI1043 AT 1.74 A RESOLUTION Q6D6E7 Q6D6E7 1.74 X-RAY DIFFRACTION 46 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 226 226 2p7h-a1-m1-cA_2p7h-a1-m1-cC 2p7h-a1-m1-cB_2p7h-a1-m1-cD 2p7h-a2-m1-cA_2p7h-a2-m1-cC 2p7h-a2-m1-cB_2p7h-a2-m1-cD 2p7h-a2-m2-cA_2p7h-a2-m2-cC 2p7h-a2-m2-cB_2p7h-a2-m2-cD 2p7h-a2-m3-cA_2p7h-a2-m3-cC 2p7h-a2-m3-cB_2p7h-a2-m3-cD 2p7h-a2-m4-cA_2p7h-a2-m4-cC 2p7h-a2-m4-cB_2p7h-a2-m4-cD 2p7h-a3-m1-cB_2p7h-a3-m1-cD 2p7h-a3-m2-cB_2p7h-a3-m2-cD 2p7h-a3-m3-cA_2p7h-a3-m3-cC 2p7h-a3-m4-cA_2p7h-a3-m4-cC 2p7i-a1-m1-cA_2p7i-a1-m2-cA 2p7i-a1-m1-cB_2p7i-a1-m2-cB 2p7i-a2-m1-cA_2p7i-a2-m2-cA 2p7i-a2-m1-cB_2p7i-a2-m2-cB 2p7i-a2-m3-cA_2p7i-a2-m8-cA 2p7i-a2-m4-cA_2p7i-a2-m6-cA 2p7i-a2-m4-cB_2p7i-a2-m6-cB 2p7i-a2-m5-cA_2p7i-a2-m7-cA 2p7i-a2-m5-cB_2p7i-a2-m7-cB YNFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKGINQ YNFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKGINQ 2p7i-a2-m4-cA_2p7i-a2-m8-cA CRYSTAL STRUCTURE OF a SAM dependent methyl-transferase type 12 family protein (ECA1738) FROM PECTOBACTERIUM ATROSEPTICUM SCRI1043 AT 1.74 A RESOLUTION Q6D6E7 Q6D6E7 1.74 X-RAY DIFFRACTION 16 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 222 222 2p7h-a2-m1-cB_2p7h-a2-m3-cD 2p7h-a2-m1-cD_2p7h-a2-m4-cB 2p7h-a2-m2-cB_2p7h-a2-m4-cD 2p7h-a2-m2-cD_2p7h-a2-m3-cB 2p7i-a2-m1-cA_2p7i-a2-m6-cA 2p7i-a2-m2-cA_2p7i-a2-m5-cA 2p7i-a2-m3-cA_2p7i-a2-m7-cA NFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKG NFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKG 2p7i-a2-m7-cA_2p7i-a2-m8-cB CRYSTAL STRUCTURE OF a SAM dependent methyl-transferase type 12 family protein (ECA1738) FROM PECTOBACTERIUM ATROSEPTICUM SCRI1043 AT 1.74 A RESOLUTION Q6D6E7 Q6D6E7 1.74 X-RAY DIFFRACTION 16 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 222 226 2p7h-a2-m1-cB_2p7h-a2-m3-cA 2p7h-a2-m1-cD_2p7h-a2-m4-cC 2p7h-a2-m2-cB_2p7h-a2-m4-cA 2p7h-a2-m2-cD_2p7h-a2-m3-cC 2p7h-a2-m3-cB_2p7h-a2-m2-cA 2p7h-a2-m3-cD_2p7h-a2-m1-cC 2p7h-a2-m4-cB_2p7h-a2-m1-cA 2p7h-a2-m4-cD_2p7h-a2-m2-cC 2p7h-a3-m1-cB_2p7h-a3-m3-cA 2p7h-a3-m1-cD_2p7h-a3-m4-cC 2p7h-a3-m2-cB_2p7h-a3-m4-cA 2p7h-a3-m2-cD_2p7h-a3-m3-cC 2p7i-a2-m1-cA_2p7i-a2-m4-cB 2p7i-a2-m2-cA_2p7i-a2-m7-cB 2p7i-a2-m3-cA_2p7i-a2-m5-cB 2p7i-a2-m4-cA_2p7i-a2-m3-cB 2p7i-a2-m5-cA_2p7i-a2-m1-cB 2p7i-a2-m6-cA_2p7i-a2-m2-cB 2p7i-a2-m8-cA_2p7i-a2-m6-cB NFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKG YNFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKGINQ 2p7i-a2-m8-cA_2p7i-a2-m8-cB CRYSTAL STRUCTURE OF a SAM dependent methyl-transferase type 12 family protein (ECA1738) FROM PECTOBACTERIUM ATROSEPTICUM SCRI1043 AT 1.74 A RESOLUTION Q6D6E7 Q6D6E7 1.74 X-RAY DIFFRACTION 41 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 222 226 2p7h-a1-m1-cB_2p7h-a1-m1-cA 2p7h-a1-m1-cD_2p7h-a1-m1-cC 2p7h-a2-m1-cB_2p7h-a2-m1-cA 2p7h-a2-m1-cD_2p7h-a2-m1-cC 2p7h-a2-m2-cB_2p7h-a2-m2-cA 2p7h-a2-m2-cD_2p7h-a2-m2-cC 2p7h-a2-m3-cB_2p7h-a2-m3-cA 2p7h-a2-m3-cD_2p7h-a2-m3-cC 2p7h-a2-m4-cB_2p7h-a2-m4-cA 2p7h-a2-m4-cD_2p7h-a2-m4-cC 2p7i-a1-m1-cA_2p7i-a1-m1-cB 2p7i-a1-m2-cA_2p7i-a1-m2-cB 2p7i-a2-m1-cA_2p7i-a2-m1-cB 2p7i-a2-m2-cA_2p7i-a2-m2-cB 2p7i-a2-m3-cA_2p7i-a2-m3-cB 2p7i-a2-m4-cA_2p7i-a2-m4-cB 2p7i-a2-m5-cA_2p7i-a2-m5-cB 2p7i-a2-m6-cA_2p7i-a2-m6-cB 2p7i-a2-m7-cA_2p7i-a2-m7-cB NFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKG YNFDFDVHPFVRAFTPFFRPGNLLELGSFKGDFTSRLQEHFNDITCVEASEEAISHAQGRLKDGITYIHSRFEDAQLPRRYDNIVLTHVLEHIDDPVALLKRINDDWLAEGGRLFLVCPNANAVSRQIAVKGIISHNSAVTEAEFAHGHRCTYALDTLERDASRAGLQVTYRSGIFFKALANFQWDQILQTDILSKEYLDGCYQLGQQYPDLCASIFLLCEKGINQ 2p7j-a1-m1-cA_2p7j-a1-m1-cB Crystal structure of the domain of putative sensory box/GGDEF family protein from Vibrio parahaemolyticus Q87SR8 Q87SR8 2.25 X-RAY DIFFRACTION 40 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 262 271 NNVENTAKEALHQLAYTGREYNNIQDQIETISDLLGHSQSLYDYLREPSKANLTILENWSSVARNQKLYKQIRFLDTSGTEKVRIKYDFKTSIAGPSLILRDKSAREYFKYAQSLDNEQISAWGIELERDKGELVYPLSPSLRILPISVNDVRQGYLVLNVDIEYLSSLLNYSPVRDFHIELVKHKGFYIASPDESRLYGDIIPERSQFNFSNYPDIWPRVVSEQAGYSYSGEHLIAFSSIKFVSNEPLHLIIDLSNEQLSK ANNVENTAKEALHQLAYTGREYNNIQDQIETISDLLGHSQSLYDYLREPSKANLTILENWSSVARNQKLYKQIRFLDTSGTEKVRIKYDFKTSIAGPSLILRDKSAREYFKYAQSLDNEQISAWGIELERDKGELVYPLSPSLRILPISVNDVRQGYLVLNVDIEYLSSLLNYSPVRDFHIELVKHKGFYIASPDESRLYGDIIPERSQFNFSNYPDIWPRVVSEQAGYSYSGEHLIAFSSIKFVSNEPLHLIIDLSNEQLSKRATRDIND 2p7m-a4-m1-cA_2p7m-a4-m3-cF Crystal structure of monoclinic form of genomically encoded fosfomycin resistance protein, FosX, from Listeria monocytogenes at pH 6.5 Q8Y6I2 Q8Y6I2 1.85 X-RAY DIFFRACTION 14 0.992 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 127 130 2p7l-a4-m1-cA_2p7l-a4-m3-cF 2p7l-a4-m2-cD_2p7l-a4-m3-cE 2p7p-a4-m1-cA_2p7p-a4-m3-cF 2p7p-a4-m2-cD_2p7p-a4-m3-cE 2p7q-a4-m1-cA_2p7q-a4-m3-cF 2p7q-a4-m2-cD_2p7q-a4-m3-cE MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKR 2p7n-a1-m1-cA_2p7n-a1-m2-cA Crystal structure of the Pathogenicity island 1 effector protein from Chromobacterium violaceum. Northeast Structural Genomics Consortium (NESGC) target CvR69. Q7NUT0 Q7NUT0 2.8 X-RAY DIFFRACTION 82 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 327 327 PALAAARAKADELGQAAREVRASVERQTAYETRLAAQRSAAAFSGGEPPARREAPGAELDEARNAQTVSARLFEGNLKGVAQSGHASAEQKQALQSGLDDVFADAPPQARSAGAPLYSANAAAGQGADSDLWDISDQIGKIKDNYLGVYENVVGQYTDFYKAFSDILSQANWIKLNVDALKAALEKLKKDFSLGDNLDNKKAVLFPAQSKDGGIQGGSESDARKWAKEGLPDAPPPGFSCVQKAADGNWVVVVDTPIDTIRDVGALGSGTLELDNAKFQAWQSGFKAQEENLKNTLQTLTQKYSNANSLFDNLVKVLSSTISSCLET PALAAARAKADELGQAAREVRASVERQTAYETRLAAQRSAAAFSGGEPPARREAPGAELDEARNAQTVSARLFEGNLKGVAQSGHASAEQKQALQSGLDDVFADAPPQARSAGAPLYSANAAAGQGADSDLWDISDQIGKIKDNYLGVYENVVGQYTDFYKAFSDILSQANWIKLNVDALKAALEKLKKDFSLGDNLDNKKAVLFPAQSKDGGIQGGSESDARKWAKEGLPDAPPPGFSCVQKAADGNWVVVVDTPIDTIRDVGALGSGTLELDNAKFQAWQSGFKAQEENLKNTLQTLTQKYSNANSLFDNLVKVLSSTISSCLET 2p7p-a4-m2-cC_2p7p-a4-m3-cE Crystal structure of genomically encoded fosfomycin resistance protein, FosX, from Listeria monocytogenes complexed with MN(II) and sulfate ion Q8Y6I2 Q8Y6I2 2.17 X-RAY DIFFRACTION 13 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 131 131 2p7l-a4-m1-cA_2p7l-a4-m3-cE 2p7l-a4-m1-cB_2p7l-a4-m3-cF 2p7l-a4-m2-cD_2p7l-a4-m3-cF 2p7m-a4-m1-cB_2p7m-a4-m3-cF 2p7m-a4-m2-cD_2p7m-a4-m3-cF 2p7m-a4-m3-cE_2p7m-a4-m2-cC 2p7p-a4-m1-cA_2p7p-a4-m3-cE 2p7p-a4-m1-cB_2p7p-a4-m3-cF 2p7p-a4-m2-cD_2p7p-a4-m3-cF 2p7q-a4-m1-cA_2p7q-a4-m3-cE 2p7q-a4-m1-cB_2p7q-a4-m3-cF 2p7q-a4-m2-cC_2p7q-a4-m3-cE 2p7q-a4-m2-cD_2p7q-a4-m3-cF MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY 2p7p-a4-m2-cC_2p7p-a4-m3-cF Crystal structure of genomically encoded fosfomycin resistance protein, FosX, from Listeria monocytogenes complexed with MN(II) and sulfate ion Q8Y6I2 Q8Y6I2 2.17 X-RAY DIFFRACTION 11 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 131 131 2p7l-a4-m1-cB_2p7l-a4-m3-cE 2p7l-a4-m2-cC_2p7l-a4-m3-cF 2p7m-a4-m1-cB_2p7m-a4-m3-cE 2p7m-a4-m2-cC_2p7m-a4-m3-cF 2p7p-a4-m1-cB_2p7p-a4-m3-cE 2p7q-a4-m1-cB_2p7q-a4-m3-cE 2p7q-a4-m2-cC_2p7q-a4-m3-cF MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY 2p7p-a4-m3-cE_2p7p-a4-m3-cF Crystal structure of genomically encoded fosfomycin resistance protein, FosX, from Listeria monocytogenes complexed with MN(II) and sulfate ion Q8Y6I2 Q8Y6I2 2.17 X-RAY DIFFRACTION 133 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 131 131 2p7k-a1-m1-cA_2p7k-a1-m1-cB 2p7l-a2-m1-cD_2p7l-a2-m1-cC 2p7l-a3-m1-cE_2p7l-a3-m1-cF 2p7l-a4-m2-cD_2p7l-a4-m2-cC 2p7l-a4-m3-cE_2p7l-a4-m3-cF 2p7m-a2-m1-cD_2p7m-a2-m1-cC 2p7m-a3-m1-cE_2p7m-a3-m1-cF 2p7m-a4-m2-cD_2p7m-a4-m2-cC 2p7m-a4-m3-cE_2p7m-a4-m3-cF 2p7o-a1-m1-cB_2p7o-a1-m1-cA 2p7p-a1-m1-cB_2p7p-a1-m1-cA 2p7p-a2-m1-cD_2p7p-a2-m1-cC 2p7p-a3-m1-cE_2p7p-a3-m1-cF 2p7p-a4-m1-cB_2p7p-a4-m1-cA 2p7p-a4-m2-cD_2p7p-a4-m2-cC 2p7q-a1-m1-cB_2p7q-a1-m1-cA 2p7q-a3-m1-cE_2p7q-a3-m1-cF 2p7q-a4-m1-cB_2p7q-a4-m1-cA 2p7q-a4-m3-cE_2p7q-a4-m3-cF MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY MISGLSHITLIVKDLNKTTAFLQNIFNAEEIYSSGDKTFSLSKEKFFLIAGLWICIMEGDSLQERTYNHIAFQIQSEEVDEYTERIKALGVEMKPERPRVQGEGRSIYFYDFDNHLFELHAGTLEERLKRY 2p7v-a2-m1-cB_2p7v-a2-m2-cB Crystal structure of the Escherichia coli regulator of sigma 70, Rsd, in complex with sigma 70 domain 4 Q0P6L9 Q0P6L9 2.6 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 68 68 DVLAGLTAREAKVLRMRFGIDMNTDYTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEVLRSFLDD DVLAGLTAREAKVLRMRFGIDMNTDYTLEEVGKQFDVTRERIRQIEAKALRKLRHPSRSEVLRSFLDD 2p82-a2-m1-cD_2p82-a2-m1-cC Cysteine protease ATG4A Q8WYN0 Q8WYN0 2.1 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 307 2p82-a1-m1-cA_2p82-a1-m1-cB DELVWILGKQHLLKTEKSKLLSDISARLWFTYRRKFSPIGGTGPSSDAGWGCMLRCGQMMLAQALICRHLGRDWSWKEQPKEYQRILQCFLDRKDCCYSIHQMAQMGVGEGKSIGEWFGPNTVAQVLKKLALFDEWNSLAVYVSMDNTVVIEDIKKMCRVLPAWKPLLLIVPLRLGINQINPVYVDAFKECFKMPQSLGALGGKPNNAYYFIGFLGDELIFLDPHTTQTFVDTEENGTVNDQTFHCLQSPQRMNILNLDPSVALGFFCKEEKDFDNWCSLVQKEILKENLRMFELVQKHPS TDELVWILGKQHLLKTEKSKLLSDISARLWFTYRRKFSPIGGTGPSSDAGWGCMLRCGQMMLAQALICRHLGRDWSWKEQPKEYQRILQCFLDRKDCCYSIHQMAQMGVGEGKSIGEWFGPNTVAQVLKKLALFDEWNSLAVYVSMDNTVVIEDIKKMCRVLPLSSAWKPLLLIVPLRLGINQINPVYVDAFKECFKMPQSLGALGGKPNNAYYFIGFLGDELIFLDPHTTQTFVDTEENGTVNDQTFHCLQSPQRMNILNLDPSVALGFFCKEEKDFDNWCSLVQKEILKENLRMFELVQKHPSHW 2p84-a1-m1-cA_2p84-a1-m2-cA Crystal structure of ORF041 from Bacteriophage 37 Q4ZC86 Q4ZC86 1.8 X-RAY DIFFRACTION 101 1.0 320840 (Phietavirus pv37) 320840 (Phietavirus pv37) 133 133 LIPKFREFDRERHRTDYQKGMSYAEQQDFDMGFTIWFDHIEDLDLIEKDGTINRIVMMSTGLKDKNVKEIYESDIVRNLYGELYVVEWLDGSFVLTEFYNGGYDHYIIDSSTEYEVLGNIYENPELLEDDNHA LIPKFREFDRERHRTDYQKGMSYAEQQDFDMGFTIWFDHIEDLDLIEKDGTINRIVMMSTGLKDKNVKEIYESDIVRNLYGELYVVEWLDGSFVLTEFYNGGYDHYIIDSSTEYEVLGNIYENPELLEDDNHA 2p8b-a1-m1-cA_2p8b-a1-m8-cA Crystal structure of N-succinyl Arg/Lys racemase from Bacillus cereus ATCC 14579 complexed with N-succinyl Lys. Q81IL5 Q81IL5 1.7 X-RAY DIFFRACTION 74 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 369 369 2p88-a1-m1-cA_2p88-a1-m1-cB 2p88-a1-m1-cC_2p88-a1-m1-cD 2p88-a1-m1-cE_2p88-a1-m1-cF 2p88-a1-m1-cG_2p88-a1-m1-cH 2p8b-a1-m2-cA_2p8b-a1-m7-cA 2p8b-a1-m3-cA_2p8b-a1-m6-cA 2p8b-a1-m4-cA_2p8b-a1-m5-cA 2p8c-a1-m1-cA_2p8c-a1-m8-cA 2p8c-a1-m2-cA_2p8c-a1-m7-cA 2p8c-a1-m3-cA_2p8c-a1-m6-cA 2p8c-a1-m4-cA_2p8c-a1-m5-cA MKITAIHLYAIRLPLRNPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGQNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPENMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRVDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDIVR MKITAIHLYAIRLPLRNPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGQNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPENMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRVDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDIVR 2p8b-a1-m3-cA_2p8b-a1-m8-cA Crystal structure of N-succinyl Arg/Lys racemase from Bacillus cereus ATCC 14579 complexed with N-succinyl Lys. Q81IL5 Q81IL5 1.7 X-RAY DIFFRACTION 70 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 369 369 2p88-a1-m1-cA_2p88-a1-m1-cF 2p88-a1-m1-cB_2p88-a1-m1-cG 2p88-a1-m1-cC_2p88-a1-m1-cH 2p88-a1-m1-cD_2p88-a1-m1-cE 2p8b-a1-m1-cA_2p8b-a1-m5-cA 2p8b-a1-m2-cA_2p8b-a1-m6-cA 2p8b-a1-m4-cA_2p8b-a1-m7-cA 2p8c-a1-m1-cA_2p8c-a1-m5-cA 2p8c-a1-m2-cA_2p8c-a1-m6-cA 2p8c-a1-m3-cA_2p8c-a1-m8-cA 2p8c-a1-m4-cA_2p8c-a1-m7-cA MKITAIHLYAIRLPLRNPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGQNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPENMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRVDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDIVR MKITAIHLYAIRLPLRNPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGQNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPENMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRVDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDIVR 2p8b-a1-m6-cA_2p8b-a1-m8-cA Crystal structure of N-succinyl Arg/Lys racemase from Bacillus cereus ATCC 14579 complexed with N-succinyl Lys. Q81IL5 Q81IL5 1.7 X-RAY DIFFRACTION 23 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 369 369 2p88-a1-m1-cA_2p88-a1-m1-cE 2p88-a1-m1-cA_2p88-a1-m1-cG 2p88-a1-m1-cB_2p88-a1-m1-cF 2p88-a1-m1-cB_2p88-a1-m1-cH 2p88-a1-m1-cC_2p88-a1-m1-cE 2p88-a1-m1-cC_2p88-a1-m1-cG 2p88-a1-m1-cD_2p88-a1-m1-cF 2p88-a1-m1-cD_2p88-a1-m1-cH 2p8b-a1-m1-cA_2p8b-a1-m3-cA 2p8b-a1-m1-cA_2p8b-a1-m4-cA 2p8b-a1-m2-cA_2p8b-a1-m3-cA 2p8b-a1-m2-cA_2p8b-a1-m4-cA 2p8b-a1-m5-cA_2p8b-a1-m7-cA 2p8b-a1-m5-cA_2p8b-a1-m8-cA 2p8b-a1-m6-cA_2p8b-a1-m7-cA 2p8c-a1-m1-cA_2p8c-a1-m3-cA 2p8c-a1-m1-cA_2p8c-a1-m4-cA 2p8c-a1-m2-cA_2p8c-a1-m3-cA 2p8c-a1-m2-cA_2p8c-a1-m4-cA 2p8c-a1-m5-cA_2p8c-a1-m7-cA 2p8c-a1-m5-cA_2p8c-a1-m8-cA 2p8c-a1-m6-cA_2p8c-a1-m7-cA 2p8c-a1-m6-cA_2p8c-a1-m8-cA MKITAIHLYAIRLPLRNPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGQNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPENMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRVDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDIVR MKITAIHLYAIRLPLRNPFVISYGSYSDMPSIIVKMETDEGIIGYGEGVADDHVTGESWESTFHTLKHTLTPALIGQNPMNIEKIHDMMDNTIYGVPTAKAAIDIACFDIMGKKLNQPVYQLIGGRYHEEFPVTHVLSIADPENMAEEAASMIQKGYQSFKMKVGTNVKEDVKRIEAVRERVGNDIAIRVDVNQGWKNSANTLTALRSLGHLNIDWIEQPVIADDIDAMAHIRSKTDLPLMIDEGLKSSREMRQIIKLEAADKVNIKLMKCGGIYPAVKLAHQAEMAGIECQVGSMVESSVASSAGFHVAFSKKIITSVELTGPLKFTKDIGNLHYDVPFIRLNEKPGLGIEINEDTLQELTVFQDIVR 2p8j-a1-m1-cA_2p8j-a1-m1-cB Crystal structure of S-adenosylmethionine-dependent methyltransferase (NP_349143.1) from Clostridium acetobutylicum at 2.00 A resolution Q97G40 Q97G40 2 X-RAY DIFFRACTION 61 0.995 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 203 203 KTIIRQPQLYRFLKYCNESNLDKTVLDCGAGGDLPPLSIFVEDGYKTYGIEISDLQLKKAENFSRENNFKLNISKGDIRKLPFKDESSFVYSYGTIFHRKNDVKEAIDEIKRVLKPGGLACINFLTTKDERYNKGEKIGEGEFLQLEGEKVIHSYVSLEEADKYFKDKVLFKEDRVVERINDGLKIKQGYVDYIAEKFSKSIL KTIIRQPQLYRFLKYCNESNLDKTVLDCGAGGDLPPLSIFVEDGYKTYGIEISDLQLKKAENFSRENNFKLNISKGDIRKLPFKDESSFVYSYGTIFHRKNDVKEAIDEIKRVLKPGGLACINFLTTKDERYNKGEKIGEGEFLQLERGEKVIHSYVSLEEADKYFKDKVLFKEDRVVERINDGLKIKQGYVDYIAEKFSKSI 2p8u-a1-m1-cA_2p8u-a1-m1-cB Crystal structure of human 3-hydroxy-3-methylglutaryl CoA synthase I Q01581 Q01581 2 X-RAY DIFFRACTION 235 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 461 461 NLYFQSMDVGIVALEIYFPSQYVDQAELEKYDGVDAGKYTIGLGQAKMGFCTDREDINSLCMTVVQNLMERNNLSYDCIGRLEVGTETIIDKSKSVKTNLMQLFEESGNTDIEGIDTTNAYGGTAAVFNAVNWIESSSWDGRYALVVAGDIAVYATGNARPTGGVGAVALLIGPNAPLIFERGLRGTHMQHAYDFYKPDMLSEYPIVDGKLSIQCYLSALDRCYSVYCKKIHAQWQKEGNDKDFTLNDFGFMIFHSPYCKLVQKSLARMLLNDFLNDQNRDKNSIYSGLEAFGDVKLEDTYFDRDVEKAFMKASSELFSQKTKASLLVSNQNGNMYTSSVYGSLASVLAQYSPQQLAGKRIGVFSYGSGLAATLYSLKVTQDATPGSALDKITASLCDLKSRLDSRTGVAPDVFAENMKLREDTHHLVNYIPQGSIDSLFEGTWYLVRVDEKHRRTYARRP NLYFQSMDVGIVALEIYFPSQYVDQAELEKYDGVDAGKYTIGLGQAKMGFCTDREDINSLCMTVVQNLMERNNLSYDCIGRLEVGTETIIDKSKSVKTNLMQLFEESGNTDIEGIDTTNAYGGTAAVFNAVNWIESSSWDGRYALVVAGDIAVYATGNARPTGGVGAVALLIGPNAPLIFERGLRGTHMQHAYDFYKPDMLSEYPIVDGKLSIQCYLSALDRCYSVYCKKIHAQWQKEGNDKDFTLNDFGFMIFHSPYCKLVQKSLARMLLNDFLNDQNRDKNSIYSGLEAFGDVKLEDTYFDRDVEKAFMKASSELFSQKTKASLLVSNQNGNMYTSSVYGSLASVLAQYSPQQLAGKRIGVFSYGSGLAATLYSLKVTQDATPGSALDKITASLCDLKSRLDSRTGVAPDVFAENMKLREDTHHLVNYIPQGSIDSLFEGTWYLVRVDEKHRRTYARRP 2p90-a1-m1-cC_2p90-a1-m1-cA The crystal structure of a protein of unknown function from Corynebacterium glutamicum ATCC 13032 Q8NP93 Q8NP93 2.35 X-RAY DIFFRACTION 76 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 266 269 2p90-a1-m1-cA_2p90-a1-m1-cB 2p90-a1-m1-cC_2p90-a1-m1-cB RMYELEYPSPEVSGQTAGGPTLIVALQGYADAGHAVESSSSHLMDALDHRLIASFNNDELIDYRSRRPVVVIEHNEVTSMDELNLGLHVVRDNDNKPFLMLSGPEPDLRWGDFSNAVVDLVEKFGVENTICLYAAPMTVPHTRPTVVTAHGNSTDRLKDQVSTRMTVPGSASLMLEKLLKDKGKNVSGYTVHVPHYVSASPYPAATLKLLQSIADSADLNLPLLALERDAEKVHRQLMEQTEESSEIQRVVGALEQQYDSELERYR DRMYELEYPSPEVSGQTAGGPTLIVALQGYADAGHAVESSSSHLMDALDHRLIASFNNDELIDYRSRRPVVVIEHNEVTSMDELNLGLHVVRDNDNKPFLMLSGPEPDLRWGDFSNAVVDLVEKFGVENTICLYAAPMTVPHTRPTVVTAHGNSTDRLKDQVSLDTRMTVPGSASLMLEKLLKDKGKNVSGYTVHVPHYVSASPYPAATLKLLQSIADSADLNLPLLALERDAEKVHRQLMEQTEESSEIQRVVGALEQQYDSELERYR 2p91-a1-m1-cC_2p91-a1-m1-cD Crystal structure of Enoyl-[acyl-carrier-protein] reductase (NADH) from Aquifex aeolicus VF5 O67505 O67505 2 X-RAY DIFFRACTION 24 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 228 233 2p91-a1-m1-cB_2p91-a1-m1-cA LLEGKRALITGVANERSIAYGIAKSFHREGAQLAFTYATPKLEKRVREIAKGFGSDLVVKCDVSLDEDIKNLKKFLEENWGSLDIIVHSIAYAPKEEFKGGVIDTSREGFKIAMDISVYSLIALTRELLPLMEGRNGAIVTLSYYGAEKVVPHYNVMGIAKAALESTVRYLAYDIAKHGHRINAISAGPVPITIEDVGDTAVFLCSDWARAITGEVVHVDNGYHIMGV GLLEGKRALITGVANERSIAYGIAKSFHREGAQLAFTYATPKLEKRVREIAKGFGSDLVVKCDVSLDEDIKNLKKFLEENWGSLDIIVHSIAYAPKEEFKGGVIDTSREGFKIAMDISVYSLIALTRELLPLMEGRNGAIVTLSYYGAEKVVPHYNVMGIAKAALESTVRYLAYDIAKHGHRINAISAGPVKFGKPITIEDVGDTAVFLCSDWARAITGEVVHVDNGYHIMGV 2p91-a1-m1-cD_2p91-a1-m1-cA Crystal structure of Enoyl-[acyl-carrier-protein] reductase (NADH) from Aquifex aeolicus VF5 O67505 O67505 2 X-RAY DIFFRACTION 91 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 233 254 2p91-a1-m1-cC_2p91-a1-m1-cB GLLEGKRALITGVANERSIAYGIAKSFHREGAQLAFTYATPKLEKRVREIAKGFGSDLVVKCDVSLDEDIKNLKKFLEENWGSLDIIVHSIAYAPKEEFKGGVIDTSREGFKIAMDISVYSLIALTRELLPLMEGRNGAIVTLSYYGAEKVVPHYNVMGIAKAALESTVRYLAYDIAKHGHRINAISAGPVKFGKPITIEDVGDTAVFLCSDWARAITGEVVHVDNGYHIMGV GLLEGKRALITGVANERSIAYGIAKSFHREGAQLAFTYATPKLEKRVREIAKGFGSDLVVKCDVSLDEDIKNLKKFLEENWGSLDIIVHSIAYAPKEEFKGGVIDTSREGFKIAMDISVYSLIALTRELLPLMEGRNGAIVTLSYYGAEKVVPHYNVMGIAKAALESTVRYLAYDIAKHGHRINAISAGPVKTLAAITGFHLLMEHTTKVNPFGKPITIEDVGDTAVFLCSDWARAITGEVVHVDNGYHIMGVF 2p91-a1-m1-cD_2p91-a1-m1-cB Crystal structure of Enoyl-[acyl-carrier-protein] reductase (NADH) from Aquifex aeolicus VF5 O67505 O67505 2 X-RAY DIFFRACTION 114 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 233 252 2p91-a1-m1-cC_2p91-a1-m1-cA GLLEGKRALITGVANERSIAYGIAKSFHREGAQLAFTYATPKLEKRVREIAKGFGSDLVVKCDVSLDEDIKNLKKFLEENWGSLDIIVHSIAYAPKEEFKGGVIDTSREGFKIAMDISVYSLIALTRELLPLMEGRNGAIVTLSYYGAEKVVPHYNVMGIAKAALESTVRYLAYDIAKHGHRINAISAGPVKFGKPITIEDVGDTAVFLCSDWARAITGEVVHVDNGYHIMGV GLLEGKRALITGVANERSIAYGIAKSFHREGAQLAFTYATPKLEKRVREIAKGFGSDLVVKCDVSLDEDIKNLKKFLEENWGSLDIIVHSIAYAPKEEFKGGVIDTSREGFKIAMDISVYSLIALTRELLPLMEGRNGAIVTLSYYGAEKVVPHYNVMGIAKAALESTVRYLAYDIAKHGHRINAISAGPVKTLAATGFHLLMEHTTKVNPFGKPITIEDVGDTAVFLCSDWARAITGEVVHVDNGYHIMGV 2p97-a2-m2-cA_2p97-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE METAL-DEPENDENT HYDROLASE (AVA_3068) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.65 A RESOLUTION Q3M8K9 Q3M8K9 1.65 X-RAY DIFFRACTION 17 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 198 198 2p97-a2-m1-cA_2p97-a2-m3-cA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA 2p97-a2-m2-cA_2p97-a2-m4-cB CRYSTAL STRUCTURE OF A PUTATIVE METAL-DEPENDENT HYDROLASE (AVA_3068) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.65 A RESOLUTION Q3M8K9 Q3M8K9 1.65 X-RAY DIFFRACTION 20 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 198 198 2p97-a2-m1-cA_2p97-a2-m3-cB 2p97-a2-m1-cB_2p97-a2-m3-cA 2p97-a2-m2-cB_2p97-a2-m4-cA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA 2p97-a3-m1-cA_2p97-a3-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE METAL-DEPENDENT HYDROLASE (AVA_3068) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.65 A RESOLUTION Q3M8K9 Q3M8K9 1.65 X-RAY DIFFRACTION 17 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 198 198 2p97-a2-m1-cA_2p97-a2-m2-cA 2p97-a2-m3-cA_2p97-a2-m4-cA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA 2p97-a3-m2-cA_2p97-a3-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE METAL-DEPENDENT HYDROLASE (AVA_3068) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.65 A RESOLUTION Q3M8K9 Q3M8K9 1.65 X-RAY DIFFRACTION 54 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 198 198 2p97-a1-m1-cA_2p97-a1-m1-cB 2p97-a2-m1-cA_2p97-a2-m1-cB 2p97-a2-m2-cA_2p97-a2-m2-cB 2p97-a2-m3-cA_2p97-a2-m3-cB 2p97-a2-m4-cA_2p97-a2-m4-cB 2p97-a3-m1-cA_2p97-a3-m1-cB GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA GKSLHRPDLYSWSTFNPARNIDFNGFAWIRPEGNILIDPVALSNHDWKHLESLGGVVWIVLTNSDHVRSAKEIADQTYTKIAGPVAEKENFPIYCDRWLSDGDELVPGLKVELQGSKTPGELALLLEETTLITGDLVRAYRAGGLEILPDEKLNKQKVVASVRRLAALEKVEAVLVGDGWSVFRDGRDRLKELVATLA 2p9c-a1-m1-cA_2p9c-a1-m2-cB Crystal structure of serine bound G336V mutant of E.coli phosphoglycerate dehydrogenase P0A9T0 P0A9T0 2.46 X-RAY DIFFRACTION 76 1.0 562 (Escherichia coli) 562 (Escherichia coli) 405 405 1psd-a1-m1-cA_1psd-a1-m2-cB 1psd-a1-m1-cB_1psd-a1-m2-cA 1yba-a1-m1-cA_1yba-a1-m1-cD 1yba-a1-m1-cB_1yba-a1-m1-cC 2p9c-a1-m1-cB_2p9c-a1-m2-cA 2p9e-a1-m1-cB_2p9e-a1-m1-cC 2p9e-a1-m1-cD_2p9e-a1-m1-cA 2p9g-a1-m1-cA_2p9g-a1-m1-cB 2p9g-a1-m2-cA_2p9g-a1-m2-cB 2pa3-a1-m1-cA_2pa3-a1-m2-cA 2pa3-a1-m3-cA_2pa3-a1-m4-cA LEKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAAGSFEARGKKLGIIGYGHIGTQLGILAESLGMYVYFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENPSTKNMMGAKEISLMKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVFPTEPATNSDPFTSPLAEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHVGRRLMHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQMGYVVIDIEADEDVAEKALQAMKAIPGTIRARLLY LEKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAAGSFEARGKKLGIIGYGHIGTQLGILAESLGMYVYFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENPSTKNMMGAKEISLMKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVFPTEPATNSDPFTSPLAEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHVGRRLMHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQMGYVVIDIEADEDVAEKALQAMKAIPGTIRARLLY 2p9c-a1-m2-cA_2p9c-a1-m2-cB Crystal structure of serine bound G336V mutant of E.coli phosphoglycerate dehydrogenase P0A9T0 P0A9T0 2.46 X-RAY DIFFRACTION 187 1.0 562 (Escherichia coli) 562 (Escherichia coli) 405 405 1psd-a1-m1-cA_1psd-a1-m1-cB 1psd-a1-m2-cA_1psd-a1-m2-cB 1sc6-a1-m1-cB_1sc6-a1-m1-cA 1sc6-a1-m1-cC_1sc6-a1-m1-cD 1yba-a1-m1-cA_1yba-a1-m1-cB 1yba-a1-m1-cC_1yba-a1-m1-cD 2p9c-a1-m1-cA_2p9c-a1-m1-cB 2p9e-a1-m1-cB_2p9e-a1-m1-cA 2p9e-a1-m1-cD_2p9e-a1-m1-cC 2p9g-a1-m1-cA_2p9g-a1-m2-cB 2p9g-a1-m1-cB_2p9g-a1-m2-cA 2pa3-a1-m1-cA_2pa3-a1-m4-cA 2pa3-a1-m2-cA_2pa3-a1-m3-cA LEKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAAGSFEARGKKLGIIGYGHIGTQLGILAESLGMYVYFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENPSTKNMMGAKEISLMKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVFPTEPATNSDPFTSPLAEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHVGRRLMHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQMGYVVIDIEADEDVAEKALQAMKAIPGTIRARLLY LEKDKIKFLLVEGVHQKALESLRAAGYTNIEFHKGALDDEQLKESIRDAHFIGLRSRTHLTEDVINAAEKLVAIGAFAIGTNQVDLDAAAKRGIPVFNAPFSNTRSVAELVIGELLLLLRGVPEANAKAHRGVWNKLAAGSFEARGKKLGIIGYGHIGTQLGILAESLGMYVYFYDIENKLPLGNATQVQHLSDLLNMSDVVSLHVPENPSTKNMMGAKEISLMKPGSLLINASRGTVVDIPALADALASKHLAGAAIDVFPTEPATNSDPFTSPLAEFDNVLLTPHIGGSTQEAQENIGLEVAGKLIKYSDNGSTLSAVNFPEVSLPLHVGRRLMHIHENRPGVLTALNKIFAEQGVNIAAQYLQTSAQMGYVVIDIEADEDVAEKALQAMKAIPGTIRARLLY 2p9j-a1-m1-cD_2p9j-a1-m1-cC Crystal structure of AQ2171 from Aquifex aeolicus O67920 O67920 2.4 X-RAY DIFFRACTION 42 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 158 159 2p9j-a1-m1-cA_2p9j-a1-m1-cB 2p9j-a1-m1-cA_2p9j-a1-m1-cD 2p9j-a1-m1-cB_2p9j-a1-m1-cC ALRDRVKKLKLLIDIDGVLTDGKLYYTEHGETIKVFNVLDGIGIKLLQKGITLAVISGRDSAPLITRLKELGVEEIYTGSYKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLKN ALRDRVKKLKLLIDIDGVLTDGKLYYTEHGETIKVFNVLDGIGIKLLQKGITLAVISGRDSAPLITRLKELGVEEIYTGSYKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLKND 2p9j-a1-m1-cE_2p9j-a1-m1-cA Crystal structure of AQ2171 from Aquifex aeolicus O67920 O67920 2.4 X-RAY DIFFRACTION 10 0.987 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 150 155 ALRDRVKKLKLLIDIDGVLTDGKLYYTIKVFNVLDGIGIKLLQKGITLAVISGSAPLITRLKELGVEEIYTGSKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLKN ALRDRVKKLKLLIDIDGVLTDGKLYYTEHGETIKVFNVLDGIGIKLLQKGITLAVISGRDSAPLITRLKELGVEEIYTGSKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLK 2p9j-a1-m1-cE_2p9j-a1-m1-cH Crystal structure of AQ2171 from Aquifex aeolicus O67920 O67920 2.4 X-RAY DIFFRACTION 60 0.987 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 150 153 2p9j-a1-m1-cF_2p9j-a1-m1-cE 2p9j-a1-m1-cG_2p9j-a1-m1-cH ALRDRVKKLKLLIDIDGVLTDGKLYYTIKVFNVLDGIGIKLLQKGITLAVISGSAPLITRLKELGVEEIYTGSKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLKN ALRDRVKKLKLLIDIDGVLTDGKLYYTEETIKVFNVLDGIGIKLLQKGITLAVISGRDSAPLITRLKELGVEEIYTGKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLK 2p9j-a1-m1-cH_2p9j-a1-m1-cC Crystal structure of AQ2171 from Aquifex aeolicus O67920 O67920 2.4 X-RAY DIFFRACTION 15 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 153 159 2p9j-a1-m1-cE_2p9j-a1-m1-cD 2p9j-a1-m1-cF_2p9j-a1-m1-cA 2p9j-a1-m1-cG_2p9j-a1-m1-cB ALRDRVKKLKLLIDIDGVLTDGKLYYTEETIKVFNVLDGIGIKLLQKGITLAVISGRDSAPLITRLKELGVEEIYTGKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLK ALRDRVKKLKLLIDIDGVLTDGKLYYTEHGETIKVFNVLDGIGIKLLQKGITLAVISGRDSAPLITRLKELGVEEIYTGSYKKLEIYEKIKEKYSLKDEEIGFIGDDVVDIEVKKVGFPVAVRNAVEEVRKVAVYITQRNGGEGALREVAELIHFLKND 2p9m-a2-m1-cD_2p9m-a2-m1-cC Crystal structure of conserved hypothetical protein MJ0922 from Methanocaldococcus jannaschii DSM 2661 Q58332 Q58332 2.59 X-RAY DIFFRACTION 60 0.992 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 124 125 2p9m-a1-m1-cA_2p9m-a1-m1-cB DTLKNIKVKDVTKNVITAKRHEGVVEAFEKLKYKISSLPVIDDENKVIGIVTTTDIGYNLIRDKYTLETTIGDVTKDVITIHEDASILEAIKKDIINQLPVVDKNNKLVGIISDGDIIRTISKI TLKNIKVKDVTKNVITAKRHEGVVEAFEKLKYKISSLPVIDDENKVIGIVTTTDIGYNLIRDKYTLETTIGDVTKDVITIHEDASILEAIKKDISGINQLPVVDKNNKLVGIISDGDIIRTISKI 2p9x-a1-m1-cB_2p9x-a1-m1-cD Crystal structure of PH0832 from Pyrococcus horikoshii OT3 O58562 O58562 1.65 X-RAY DIFFRACTION 34 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 95 98 2p9x-a1-m1-cA_2p9x-a1-m1-cC KGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGIEANSLEELVSEIRKIYGE SKGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGEDIEANSLEELVSEIRKIYGE 2p9x-a1-m1-cC_2p9x-a1-m1-cD Crystal structure of PH0832 from Pyrococcus horikoshii OT3 O58562 O58562 1.65 X-RAY DIFFRACTION 21 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 98 98 2p9x-a1-m1-cB_2p9x-a1-m1-cA SKGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGEDIEANSLEELVSEIRKIYGE SKGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGEDIEANSLEELVSEIRKIYGE 2p9x-a2-m1-cA_2p9x-a2-m2-cC Crystal structure of PH0832 from Pyrococcus horikoshii OT3 O58562 O58562 1.65 X-RAY DIFFRACTION 14 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 98 98 SKGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGEDIEANSLEELVSEIRKIYGE SKGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGEDIEANSLEELVSEIRKIYGE 2p9x-a2-m2-cB_2p9x-a2-m2-cC Crystal structure of PH0832 from Pyrococcus horikoshii OT3 O58562 O58562 1.65 X-RAY DIFFRACTION 42 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 95 98 2p9x-a1-m1-cA_2p9x-a1-m1-cD 2p9x-a1-m1-cB_2p9x-a1-m1-cC 2p9x-a2-m1-cA_2p9x-a2-m1-cD KGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGIEANSLEELVSEIRKIYGE SKGRDILTKTIILALREVAPGLEAVLEAHLRATLNSGIELAYDDPQKFKEAVSKLFGEYSARLLEMVIISKLKGRLGEDIEANSLEELVSEIRKIYGE 2pa4-a1-m1-cD_2pa4-a1-m1-cC Crystal structure of UDP-glucose pyrophosphorylase from Corynebacteria glutamicum in complex with magnesium and UDP-glucose 2 X-RAY DIFFRACTION 11 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 295 299 2pa4-a1-m1-cA_2pa4-a1-m1-cB AVKTVVVPAAGLGTRFLPATKTVPKELLPVVDTPGIELIAAEAAELGATRLAIITAPNKAGVLAHFERSSELEETLMERDQVEIIRRAADLIKAVPVTQDKPLGLGHAVGLAESVLDDDEDVVAVMLPDDLVLPTGVMERMAQVRAEFGGSVLCAVEVSEADVSKYGIFEIEADTKDSDVKKVKGMVEKPAIEDAPSRLAATGRYLLDRKIFDALRRITPGAGGELQLTDAIDLLIDEGHPVHIVIHQGKRHDLGNPGGYIPACVDFGLSHPVYGAQLKDAIKQILAEHEAAERI NAVKTVVVPAAGLGTRFLPATKTVPKELLPVVDTPGIELIAAEAAELGATRLAIITAPNKAGVLAHFERSSELEETLMERGKTDQVEIIRRAADLIKAVPVTQDKPLGLGHAVGLAESVLDDDEDVVAVMLPDDLVLPTGVMERMAQVRAEFGGSVLCAVEVSEADVSKYGIFEIEADTKDSDVKKVKGMVEKPAIEDAPSRLAATGRYLLDRKIFDALRRITPGAGGELQLTDAIDLLIDEGHPVHIVIHQGKRHDLGNPGGYIPACVDFGLSHPVYGAQLKDAIKQILAEHEAAERI 2pa4-a3-m1-cA_2pa4-a3-m1-cD Crystal structure of UDP-glucose pyrophosphorylase from Corynebacteria glutamicum in complex with magnesium and UDP-glucose 2 X-RAY DIFFRACTION 189 0.99 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 294 295 2pa4-a1-m1-cA_2pa4-a1-m1-cD 2pa4-a1-m1-cB_2pa4-a1-m1-cC 2pa4-a2-m1-cB_2pa4-a2-m1-cC VKTVVVPAAGLGTRFLPATKTVPKELLPVVDTPGIELIAAEAAELGATRLAIITAPNKAGVLAHFERSSELEETLMERGKTDQVEIIRRAADLIKAVPVTQDKPLGLGHAVGLAESVLDDDEDVVAVMLPDDLVLPTGVMERMAQVRAEFGGSVLCAVEVSEADVSKYGIFEIEADTKDSDVKKVKGMVEKPAIEDAPSRLAATGRYLLDRKIFDALRRITPGAGGELQLTDAIDLLIDEGHPVHIVIHQGKRHDLGNPGGYIPACVDFGLSHPVYGAQLKDAIKQILAEHEAA AVKTVVVPAAGLGTRFLPATKTVPKELLPVVDTPGIELIAAEAAELGATRLAIITAPNKAGVLAHFERSSELEETLMERDQVEIIRRAADLIKAVPVTQDKPLGLGHAVGLAESVLDDDEDVVAVMLPDDLVLPTGVMERMAQVRAEFGGSVLCAVEVSEADVSKYGIFEIEADTKDSDVKKVKGMVEKPAIEDAPSRLAATGRYLLDRKIFDALRRITPGAGGELQLTDAIDLLIDEGHPVHIVIHQGKRHDLGNPGGYIPACVDFGLSHPVYGAQLKDAIKQILAEHEAAERI 2pa6-a2-m1-cA_2pa6-a2-m4-cB Crystal structure of MJ0232 from Methanococcus jannaschii Q60173 Q60173 1.85 X-RAY DIFFRACTION 125 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 427 427 2pa6-a2-m1-cB_2pa6-a2-m3-cA 2pa6-a2-m2-cA_2pa6-a2-m3-cB 2pa6-a2-m2-cB_2pa6-a2-m4-cA MLYNMDERFEIKDIVAREVIDSRGNPTVEVEVITKGNGYGSAIVPSGASTGTHEALELRDKEKRFGGKGVLMAVENVNSIIRPEILGYDARMQREIDTIMIELDGTPNKSRLGANAILAVSLAVAKAAAATAKIPLYKYLGGFNSYVMPVPMMNVINGGKHAGNDLDLQEFMIMPVGATSISEAVRMGSEVYHVLKNVILEKYGKNAVNVGDEGGFAPPLKTSREALDLLTESVKKAGYEDEVVFALDAAASEFYKDGYYYVEGKKLTREELLDYYKALVDEYPIVSIEDPFHEEDFEGFAMITKELDIQIVGDDLFVTNVERLRKGIEMKAANALLLKVNQIGTLSEAVDAAQLAFRNGYGVVVSHRSGETEDTTIADLSVALNSGQIKTGAPARGERTAKYNQLIRIEQELGLSKYAGRNFRCPF MLYNMDERFEIKDIVAREVIDSRGNPTVEVEVITKGNGYGSAIVPSGASTGTHEALELRDKEKRFGGKGVLMAVENVNSIIRPEILGYDARMQREIDTIMIELDGTPNKSRLGANAILAVSLAVAKAAAATAKIPLYKYLGGFNSYVMPVPMMNVINGGKHAGNDLDLQEFMIMPVGATSISEAVRMGSEVYHVLKNVILEKYGKNAVNVGDEGGFAPPLKTSREALDLLTESVKKAGYEDEVVFALDAAASEFYKDGYYYVEGKKLTREELLDYYKALVDEYPIVSIEDPFHEEDFEGFAMITKELDIQIVGDDLFVTNVERLRKGIEMKAANALLLKVNQIGTLSEAVDAAQLAFRNGYGVVVSHRSGETEDTTIADLSVALNSGQIKTGAPARGERTAKYNQLIRIEQELGLSKYAGRNFRCPF 2pa6-a2-m2-cB_2pa6-a2-m4-cB Crystal structure of MJ0232 from Methanococcus jannaschii Q60173 Q60173 1.85 X-RAY DIFFRACTION 13 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 427 427 2pa6-a2-m1-cA_2pa6-a2-m3-cA 2pa6-a2-m1-cA_2pa6-a2-m4-cA 2pa6-a2-m1-cB_2pa6-a2-m3-cB 2pa6-a2-m1-cB_2pa6-a2-m4-cB 2pa6-a2-m2-cA_2pa6-a2-m3-cA 2pa6-a2-m2-cA_2pa6-a2-m4-cA 2pa6-a2-m2-cB_2pa6-a2-m3-cB MLYNMDERFEIKDIVAREVIDSRGNPTVEVEVITKGNGYGSAIVPSGASTGTHEALELRDKEKRFGGKGVLMAVENVNSIIRPEILGYDARMQREIDTIMIELDGTPNKSRLGANAILAVSLAVAKAAAATAKIPLYKYLGGFNSYVMPVPMMNVINGGKHAGNDLDLQEFMIMPVGATSISEAVRMGSEVYHVLKNVILEKYGKNAVNVGDEGGFAPPLKTSREALDLLTESVKKAGYEDEVVFALDAAASEFYKDGYYYVEGKKLTREELLDYYKALVDEYPIVSIEDPFHEEDFEGFAMITKELDIQIVGDDLFVTNVERLRKGIEMKAANALLLKVNQIGTLSEAVDAAQLAFRNGYGVVVSHRSGETEDTTIADLSVALNSGQIKTGAPARGERTAKYNQLIRIEQELGLSKYAGRNFRCPF MLYNMDERFEIKDIVAREVIDSRGNPTVEVEVITKGNGYGSAIVPSGASTGTHEALELRDKEKRFGGKGVLMAVENVNSIIRPEILGYDARMQREIDTIMIELDGTPNKSRLGANAILAVSLAVAKAAAATAKIPLYKYLGGFNSYVMPVPMMNVINGGKHAGNDLDLQEFMIMPVGATSISEAVRMGSEVYHVLKNVILEKYGKNAVNVGDEGGFAPPLKTSREALDLLTESVKKAGYEDEVVFALDAAASEFYKDGYYYVEGKKLTREELLDYYKALVDEYPIVSIEDPFHEEDFEGFAMITKELDIQIVGDDLFVTNVERLRKGIEMKAANALLLKVNQIGTLSEAVDAAQLAFRNGYGVVVSHRSGETEDTTIADLSVALNSGQIKTGAPARGERTAKYNQLIRIEQELGLSKYAGRNFRCPF 2pa6-a2-m4-cA_2pa6-a2-m4-cB Crystal structure of MJ0232 from Methanococcus jannaschii Q60173 Q60173 1.85 X-RAY DIFFRACTION 131 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 427 427 2pa6-a1-m1-cA_2pa6-a1-m1-cB 2pa6-a2-m1-cA_2pa6-a2-m1-cB 2pa6-a2-m2-cA_2pa6-a2-m2-cB 2pa6-a2-m3-cA_2pa6-a2-m3-cB MLYNMDERFEIKDIVAREVIDSRGNPTVEVEVITKGNGYGSAIVPSGASTGTHEALELRDKEKRFGGKGVLMAVENVNSIIRPEILGYDARMQREIDTIMIELDGTPNKSRLGANAILAVSLAVAKAAAATAKIPLYKYLGGFNSYVMPVPMMNVINGGKHAGNDLDLQEFMIMPVGATSISEAVRMGSEVYHVLKNVILEKYGKNAVNVGDEGGFAPPLKTSREALDLLTESVKKAGYEDEVVFALDAAASEFYKDGYYYVEGKKLTREELLDYYKALVDEYPIVSIEDPFHEEDFEGFAMITKELDIQIVGDDLFVTNVERLRKGIEMKAANALLLKVNQIGTLSEAVDAAQLAFRNGYGVVVSHRSGETEDTTIADLSVALNSGQIKTGAPARGERTAKYNQLIRIEQELGLSKYAGRNFRCPF MLYNMDERFEIKDIVAREVIDSRGNPTVEVEVITKGNGYGSAIVPSGASTGTHEALELRDKEKRFGGKGVLMAVENVNSIIRPEILGYDARMQREIDTIMIELDGTPNKSRLGANAILAVSLAVAKAAAATAKIPLYKYLGGFNSYVMPVPMMNVINGGKHAGNDLDLQEFMIMPVGATSISEAVRMGSEVYHVLKNVILEKYGKNAVNVGDEGGFAPPLKTSREALDLLTESVKKAGYEDEVVFALDAAASEFYKDGYYYVEGKKLTREELLDYYKALVDEYPIVSIEDPFHEEDFEGFAMITKELDIQIVGDDLFVTNVERLRKGIEMKAANALLLKVNQIGTLSEAVDAAQLAFRNGYGVVVSHRSGETEDTTIADLSVALNSGQIKTGAPARGERTAKYNQLIRIEQELGLSKYAGRNFRCPF 2pa7-a1-m1-cB_2pa7-a1-m1-cA Structure of Wild-Type dTDP-4-keto-6-deoxy-D-glucose-3,4-ketoisomerase from Aneurinibacillus thermoaerophilus in complex with TDP Q6T1W8 Q6T1W8 1.5 X-RAY DIFFRACTION 120 1.0 143495 (Aneurinibacillus thermoaerophilus) 143495 (Aneurinibacillus thermoaerophilus) 134 135 2pae-a1-m1-cB_2pae-a1-m1-cA 2pak-a1-m1-cB_2pak-a1-m1-cA 2pam-a1-m1-cB_2pam-a1-m1-cA ENKVINFKKIIDSRGSLVAIEENKNIPFSIKRVYYIFDTKGEEPRGFHAHKKLEQVLVCLNGSCRVILDDGNIIQEITLDSPAVGLYVGPAVWHEMHDFSSDCVMMVLASDYYDETDYIRQYDNFKKYIAKINL ENKVINFKKIIDSRGSLVAIEENKNIPFSIKRVYYIFDTKGEEPRGFHAHKKLEQVLVCLNGSCRVILDDGNIIQEITLDSPAVGLYVGPAVWHEMHDFSSDCVMMVLASDYYDETDYIRQYDNFKKYIAKINLE 2paj-a2-m1-cA_2paj-a2-m2-cA Crystal structure of an amidohydrolase from an environmental sample of Sargasso sea 2.7 X-RAY DIFFRACTION 146 1.0 32644 (unidentified) 32644 (unidentified) 421 421 PSTLIRNAAAIMTGGRGTADDPSRVPGPDIRIVGDTIDAIGALAPRPGETIVDATDCVIYPAWVNTHHHLFQSLLKGEPFRALFDERRFRLAARIGLIELARSGCATVADHNYVYYPGMPFDSSAILFEEAEKLGLRFVLLRGGATQTRQLEADLPTALRPETLDAYVADIERLAARYHDASPRAMRRVVMAPTTVLYSISPREMRETAAVARRLGLRMHSHLSGKSPVAFCGEHDWLGSDVWYAHLVKVDADEIALLAQTGTGVAHCPQSNGRLPVREMADAGVPVSIGVDGAASNEAADMISEVHMTWLAQRARLASIAEVIHWGTAGGARVMGLDEVGKVAVGYAADIAVYRLDDPRYFGLHDPAIGPVASGGRPSVMALFSAGKRVVVDDLIEGVDIKELGGEARRVVRELLREVVV PSTLIRNAAAIMTGGRGTADDPSRVPGPDIRIVGDTIDAIGALAPRPGETIVDATDCVIYPAWVNTHHHLFQSLLKGEPFRALFDERRFRLAARIGLIELARSGCATVADHNYVYYPGMPFDSSAILFEEAEKLGLRFVLLRGGATQTRQLEADLPTALRPETLDAYVADIERLAARYHDASPRAMRRVVMAPTTVLYSISPREMRETAAVARRLGLRMHSHLSGKSPVAFCGEHDWLGSDVWYAHLVKVDADEIALLAQTGTGVAHCPQSNGRLPVREMADAGVPVSIGVDGAASNEAADMISEVHMTWLAQRARLASIAEVIHWGTAGGARVMGLDEVGKVAVGYAADIAVYRLDDPRYFGLHDPAIGPVASGGRPSVMALFSAGKRVVVDDLIEGVDIKELGGEARRVVRELLREVVV 2pan-a2-m1-cD_2pan-a2-m1-cF Crystal structure of E. coli glyoxylate carboligase P0AEP7 P0AEP7 2.7 X-RAY DIFFRACTION 271 1.0 562 (Escherichia coli) 562 (Escherichia coli) 570 570 2pan-a1-m1-cA_2pan-a1-m2-cA 2pan-a1-m1-cB_2pan-a1-m2-cB 2pan-a2-m1-cC_2pan-a2-m1-cE AKRAVDAAYVLEKEGITTAFGVPGAAINPFYSARKHGGIRHILARHVEGASHAEGYTRATAGNIGVCLGTSGPAGTDITALYSASADSIPILCITGQAPRARLHKEDFQAVDIEAIAKPVSKAVTVREAALVPRVLQQAFHLRSGRPGPVLVDLPFDVQVAEIEFDPDYEPLPVYKPAASRQIEKAVELIQAERPVIVAGGGVINADAAALLQQFAELTSVPVIPTLGWGCIPDDHELAGVGLQTAHRYGNATLLASDVFGIGNRFANRHTGSVEKYTEGRKIVHIDIEPTQIGRVLCPDLGIVSDAKAALTLLVEVAQEQKAGRLPCRKEWVADCQQRKRTLLRKTHFDNVPVKPQRVYEENKAFGRDVCYVTTIGLSQIAAAQLHVFKDRHWINCGQAGPLGWTIPAALGVCAADPKRNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKALAQYRVPVVVEVILERVTNISGSELDNVEFEDIADNAADAPTETCFHYE AKRAVDAAYVLEKEGITTAFGVPGAAINPFYSARKHGGIRHILARHVEGASHAEGYTRATAGNIGVCLGTSGPAGTDITALYSASADSIPILCITGQAPRARLHKEDFQAVDIEAIAKPVSKAVTVREAALVPRVLQQAFHLRSGRPGPVLVDLPFDVQVAEIEFDPDYEPLPVYKPAASRQIEKAVELIQAERPVIVAGGGVINADAAALLQQFAELTSVPVIPTLGWGCIPDDHELAGVGLQTAHRYGNATLLASDVFGIGNRFANRHTGSVEKYTEGRKIVHIDIEPTQIGRVLCPDLGIVSDAKAALTLLVEVAQEQKAGRLPCRKEWVADCQQRKRTLLRKTHFDNVPVKPQRVYEENKAFGRDVCYVTTIGLSQIAAAQLHVFKDRHWINCGQAGPLGWTIPAALGVCAADPKRNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKALAQYRVPVVVEVILERVTNISGSELDNVEFEDIADNAADAPTETCFHYE 2pan-a2-m1-cE_2pan-a2-m1-cF Crystal structure of E. coli glyoxylate carboligase P0AEP7 P0AEP7 2.7 X-RAY DIFFRACTION 80 1.0 562 (Escherichia coli) 562 (Escherichia coli) 570 570 2pan-a1-m1-cA_2pan-a1-m1-cB 2pan-a1-m2-cA_2pan-a1-m2-cB 2pan-a2-m1-cC_2pan-a2-m1-cD AKRAVDAAYVLEKEGITTAFGVPGAAINPFYSARKHGGIRHILARHVEGASHAEGYTRATAGNIGVCLGTSGPAGTDITALYSASADSIPILCITGQAPRARLHKEDFQAVDIEAIAKPVSKAVTVREAALVPRVLQQAFHLRSGRPGPVLVDLPFDVQVAEIEFDPDYEPLPVYKPAASRQIEKAVELIQAERPVIVAGGGVINADAAALLQQFAELTSVPVIPTLGWGCIPDDHELAGVGLQTAHRYGNATLLASDVFGIGNRFANRHTGSVEKYTEGRKIVHIDIEPTQIGRVLCPDLGIVSDAKAALTLLVEVAQEQKAGRLPCRKEWVADCQQRKRTLLRKTHFDNVPVKPQRVYEENKAFGRDVCYVTTIGLSQIAAAQLHVFKDRHWINCGQAGPLGWTIPAALGVCAADPKRNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKALAQYRVPVVVEVILERVTNISGSELDNVEFEDIADNAADAPTETCFHYE AKRAVDAAYVLEKEGITTAFGVPGAAINPFYSARKHGGIRHILARHVEGASHAEGYTRATAGNIGVCLGTSGPAGTDITALYSASADSIPILCITGQAPRARLHKEDFQAVDIEAIAKPVSKAVTVREAALVPRVLQQAFHLRSGRPGPVLVDLPFDVQVAEIEFDPDYEPLPVYKPAASRQIEKAVELIQAERPVIVAGGGVINADAAALLQQFAELTSVPVIPTLGWGCIPDDHELAGVGLQTAHRYGNATLLASDVFGIGNRFANRHTGSVEKYTEGRKIVHIDIEPTQIGRVLCPDLGIVSDAKAALTLLVEVAQEQKAGRLPCRKEWVADCQQRKRTLLRKTHFDNVPVKPQRVYEENKAFGRDVCYVTTIGLSQIAAAQLHVFKDRHWINCGQAGPLGWTIPAALGVCAADPKRNVVAISGDFDFQFLIEELAVGAQFNIPYIHVLVNNAYLGLIRQSQRAFDDYCVQLAFENINSSEVNGYGVDHVKVAEGLGCKAIRVFKPEDIAPAFEQAKALAQYRVPVVVEVILERVTNISGSELDNVEFEDIADNAADAPTETCFHYE 2par-a2-m1-cA_2par-a2-m3-cB Crystal structure of the 5'-deoxynucleotidase YfbR mutant E72A complexed with Co(2+) and TMP P76491 P76491 2.1 X-RAY DIFFRACTION 33 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 175 178 2paq-a2-m1-cB_2paq-a2-m2-cA 2paq-a2-m2-cB_2paq-a2-m3-cA 2paq-a2-m3-cB_2paq-a2-m1-cA 2par-a2-m2-cA_2par-a2-m1-cB 2par-a2-m3-cA_2par-a2-m2-cB 2pau-a2-m1-cA_2pau-a2-m2-cB 2pau-a2-m2-cA_2pau-a2-m3-cB 2pau-a2-m3-cA_2pau-a2-m1-cB KQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGNVNAERIALLAMYHDASAVLTGDLPTEYKAIEKIAQQKLVDMVPEELRDIFAPLIDEHAYSDEEKSLVKQADALCAYLKCLEELAAGNNEFLLAKTRLEATLEARRSQEMDYFMEIFVPSFH KQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGNVNAERIALLAMYHDASAVLTGDLPTPAQEYKAIEKIAQQKLVDMVPEELRDIFAPLIDEHAYSDEEKSLVKQADALCAYLKCLEELAAGNNEFLLAKTRLEATLEARRSQEMDYFMEIFVPSFH 2par-a2-m3-cA_2par-a2-m3-cB Crystal structure of the 5'-deoxynucleotidase YfbR mutant E72A complexed with Co(2+) and TMP P76491 P76491 2.1 X-RAY DIFFRACTION 124 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 175 178 2paq-a1-m1-cB_2paq-a1-m1-cA 2paq-a2-m1-cB_2paq-a2-m1-cA 2paq-a2-m2-cB_2paq-a2-m2-cA 2paq-a2-m3-cB_2paq-a2-m3-cA 2par-a1-m1-cA_2par-a1-m1-cB 2par-a2-m1-cA_2par-a2-m1-cB 2par-a2-m2-cA_2par-a2-m2-cB 2pau-a1-m1-cA_2pau-a1-m1-cB 2pau-a2-m1-cA_2pau-a2-m1-cB 2pau-a2-m2-cA_2pau-a2-m2-cB 2pau-a2-m3-cA_2pau-a2-m3-cB KQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGNVNAERIALLAMYHDASAVLTGDLPTEYKAIEKIAQQKLVDMVPEELRDIFAPLIDEHAYSDEEKSLVKQADALCAYLKCLEELAAGNNEFLLAKTRLEATLEARRSQEMDYFMEIFVPSFH KQSHFFAHLSRLKLINRWPLMRNVRTENVSEHSLQVAMVAHALAAIKNRKFGGNVNAERIALLAMYHDASAVLTGDLPTPAQEYKAIEKIAQQKLVDMVPEELRDIFAPLIDEHAYSDEEKSLVKQADALCAYLKCLEELAAGNNEFLLAKTRLEATLEARRSQEMDYFMEIFVPSFH 2pb9-a1-m1-cA_2pb9-a1-m2-cB Crystal structure of C-terminal domain of phosphomethylpyrimidine kinase Q8U193 Q8U193 2.7 X-RAY DIFFRACTION 10 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 181 181 2pb9-a1-m1-cB_2pb9-a1-m2-cA EKWRIYEELTNAVREFESINPVRLIPEVGTNFVYSLPLPYARSTKDVAGVKGRIVKYGNSVKAVGPVEFGASDHLARAVLTYRFYPEYRSAINIRYSREIIEEIIEIAQERGFKVSFYDRREEPEEIKAKEGATIPWGIETAIKRIKERPDIIYHLGDVGKEPILVFGRNPREVLEKIKLI EKWRIYEELTNAVREFESINPVRLIPEVGTNFVYSLPLPYARSTKDVAGVKGRIVKYGNSVKAVGPVEFGASDHLARAVLTYRFYPEYRSAINIRYSREIIEEIIEIAQERGFKVSFYDRREEPEEIKAKEGATIPWGIETAIKRIKERPDIIYHLGDVGKEPILVFGRNPREVLEKIKLI 2pb9-a1-m1-cB_2pb9-a1-m2-cB Crystal structure of C-terminal domain of phosphomethylpyrimidine kinase Q8U193 Q8U193 2.7 X-RAY DIFFRACTION 52 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 181 181 2pb9-a1-m1-cA_2pb9-a1-m2-cA EKWRIYEELTNAVREFESINPVRLIPEVGTNFVYSLPLPYARSTKDVAGVKGRIVKYGNSVKAVGPVEFGASDHLARAVLTYRFYPEYRSAINIRYSREIIEEIIEIAQERGFKVSFYDRREEPEEIKAKEGATIPWGIETAIKRIKERPDIIYHLGDVGKEPILVFGRNPREVLEKIKLI EKWRIYEELTNAVREFESINPVRLIPEVGTNFVYSLPLPYARSTKDVAGVKGRIVKYGNSVKAVGPVEFGASDHLARAVLTYRFYPEYRSAINIRYSREIIEEIIEIAQERGFKVSFYDRREEPEEIKAKEGATIPWGIETAIKRIKERPDIIYHLGDVGKEPILVFGRNPREVLEKIKLI 2pb9-a1-m2-cA_2pb9-a1-m2-cB Crystal structure of C-terminal domain of phosphomethylpyrimidine kinase Q8U193 Q8U193 2.7 X-RAY DIFFRACTION 13 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 181 181 2pb9-a1-m1-cA_2pb9-a1-m1-cB EKWRIYEELTNAVREFESINPVRLIPEVGTNFVYSLPLPYARSTKDVAGVKGRIVKYGNSVKAVGPVEFGASDHLARAVLTYRFYPEYRSAINIRYSREIIEEIIEIAQERGFKVSFYDRREEPEEIKAKEGATIPWGIETAIKRIKERPDIIYHLGDVGKEPILVFGRNPREVLEKIKLI EKWRIYEELTNAVREFESINPVRLIPEVGTNFVYSLPLPYARSTKDVAGVKGRIVKYGNSVKAVGPVEFGASDHLARAVLTYRFYPEYRSAINIRYSREIIEEIIEIAQERGFKVSFYDRREEPEEIKAKEGATIPWGIETAIKRIKERPDIIYHLGDVGKEPILVFGRNPREVLEKIKLI 2pbk-a1-m1-cB_2pbk-a1-m1-cA Crystal structure of KSHV protease in complex with hexapeptide phosphonate inhibitor O36607 O36607 1.73 X-RAY DIFFRACTION 76 1.0 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 227 228 QGLYVGGFVDVVSCPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPRELSQPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPLETLMAKAIDAGFIRDRLDLLKTDRGVASILSPVYLKA QGLYVGGFVDVVSCPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPRELSQTPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPLETLMAKAIDAGFIRDRLDLLKTDRGVASILSPVYLKA 2pbq-a1-m1-cB_2pbq-a1-m1-cC Crystal structure of molybdenum cofactor biosynthesis (aq_061) From aquifex aeolicus VF5 O66472 O66472 1.7 X-RAY DIFFRACTION 54 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 165 172 2pbq-a1-m1-cB_2pbq-a1-m1-cA 2pbq-a1-m1-cC_2pbq-a1-m1-cA 2qq1-a1-m1-cB_2qq1-a1-m1-cA 2qq1-a1-m1-cB_2qq1-a1-m1-cC 2qq1-a1-m1-cC_2qq1-a1-m1-cA 2qq1-a2-m1-cE_2qq1-a2-m1-cD 2qq1-a2-m1-cE_2qq1-a2-m1-cF 2qq1-a2-m1-cF_2qq1-a2-m1-cD 3mci-a1-m1-cB_3mci-a1-m1-cA 3mci-a1-m1-cB_3mci-a1-m1-cC 3mci-a1-m1-cC_3mci-a1-m1-cA 3mcj-a1-m1-cA_3mcj-a1-m1-cB 3mcj-a1-m1-cC_3mcj-a1-m1-cA 3mcj-a1-m1-cC_3mcj-a1-m1-cB 3mcj-a2-m1-cD_3mcj-a2-m1-cF 3mcj-a2-m1-cE_3mcj-a2-m1-cD 3mcj-a2-m1-cE_3mcj-a2-m1-cF KKAVIGVVTISDEDISGKAIIDYLKDVIITPFEVEYRVIPDERDLIEKTLIELADEKGCSLILTTGGTGPAPRDVTPEATEAVCEKMLPGFGELMRQVSLKQVPTAILSRQTAGIRGSCLIVNLPGKPQSIKVCLDAVMPAIPYCIDLIGGAYIDTDPNKVKAFR KKAVIGVVTISDRASKGIYEDISGKAIIDYLKDVIITPFEVEYRVIPDERDLIEKTLIELADEKGCSLILTTGGTGPAPRDVTPEATEAVCEKMLPGFGELMRQVSLKQVPTAILSRQTAGIRGSCLIVNLPGKPQSIKVCLDAVMPAIPYCIDLIGGAYIDTDPNKVKAFR 2pbr-a1-m1-cA_2pbr-a1-m1-cB Crystal structure of thymidylate kinase (aq_969) from Aquifex Aeolicus VF5 O67099 O67099 1.96 X-RAY DIFFRACTION 11 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 195 195 MLIAFEGIDGSGKTTQAKKLYEYLKQKGYFVSLYREPGGTKVGEVLREILLTEELDERTELLLFEASRSKLIEEKIIPDLKRDKVVILDRFVLSTIAYQGYGKGLDVEFIKNLNEFATRGVKPDITLLLDIPVDIALRRLKEKNRFENKEFLEKVRKGFLELAKEEENVVVIDASGEEEEVFKEILRALSGVLRV MLIAFEGIDGSGKTTQAKKLYEYLKQKGYFVSLYREPGGTKVGEVLREILLTEELDERTELLLFEASRSKLIEEKIIPDLKRDKVVILDRFVLSTIAYQGYGKGLDVEFIKNLNEFATRGVKPDITLLLDIPVDIALRRLKEKNRFENKEFLEKVRKGFLELAKEEENVVVIDASGEEEEVFKEILRALSGVLRV 2pby-a1-m1-cD_2pby-a1-m1-cA Probable Glutaminase from Geobacillus kaustophilus HTA426 Q5KY26 Q5KY26 2.07 X-RAY DIFFRACTION 70 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 286 291 2pby-a1-m1-cC_2pby-a1-m1-cB NQEELVRFVEEAKQYARYGKVADYIPALGKANPNELSIAIYTPDDEVVSAGDVTVKVTLQSISKIIALALVLIDRGEDEVFHKVGMEPLNPMINAGALVVTSMIQGGSVSERLERLLAFVRRLAGNERISYSDEVARSEFETAFLNRSLCYFLKQHRIIDEDVEELMELYTKQCAIEMTCIDLARIGLVLALDGRDPHSSEPLMPLDVARICKTFMVTCGMYNSSGEFAIKVGIPAKSGVSGGILAAVPGRCGIGVFGPALDDKGNSLTGVKLLERLSKTYSLSIF LVYNQEELVRFVEEAKQYARYGKVADYIPALGKANPNELSIAIYTPDDEVVSAGDVTVKVTLQSISKIIALALVLIDRGEDEVFHKVGMEPKPLNPMINAGALVVTSMIQGGSVSERLERLLAFVRRLAGNERISYSDEVARSEFETAFLNRSLCYFLKQHRIIDEDVEELMELYTKQCAIEMTCIDLARIGLVLALDGRDPHSSEPLMPLDVARICKTFMVTCGMYNSSGEFAIKVGIPAKSGVSGGILAAVPGRCGIGVFGPALDDKGNSLTGVKLLERLSKTYSLSIF 2pby-a1-m1-cD_2pby-a1-m1-cC Probable Glutaminase from Geobacillus kaustophilus HTA426 Q5KY26 Q5KY26 2.07 X-RAY DIFFRACTION 31 0.997 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 286 288 2pby-a1-m1-cB_2pby-a1-m1-cA NQEELVRFVEEAKQYARYGKVADYIPALGKANPNELSIAIYTPDDEVVSAGDVTVKVTLQSISKIIALALVLIDRGEDEVFHKVGMEPLNPMINAGALVVTSMIQGGSVSERLERLLAFVRRLAGNERISYSDEVARSEFETAFLNRSLCYFLKQHRIIDEDVEELMELYTKQCAIEMTCIDLARIGLVLALDGRDPHSSEPLMPLDVARICKTFMVTCGMYNSSGEFAIKVGIPAKSGVSGGILAAVPGRCGIGVFGPALDDKGNSLTGVKLLERLSKTYSLSIF YNQEELVRFVEEAKQYARYGKVADYIPALGKANPNELSIAIYTPDDEVVSAGDVTVKVTLQSISKIIALALVLIDRGEDEVFHKVGMEPKPLNPMINAGALVVTSMIQGGSVSERLERLLAFVRRLAGNERISYSDEVARSEFETAFLNRSLCYFLKQHRIIDEDVEELMELYTKQCAIEMTCIDLARIGLVLALDGRDPHSSEPLMPLDVARICKTFMVTCGMYNSSGEFAIKVGIPAKSGVSGGILAAVPGRCGIGVFGPALDDKGNSLTGVKLLERLSKTYSLSI 2pbz-a1-m1-cB_2pbz-a1-m1-cC Crystal structure of an IMP biosynthesis protein PurP from Thermococcus kodakaraensis Q5JD28 Q5JD28 2.5 X-RAY DIFFRACTION 103 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 290 290 2pbz-a1-m1-cA_2pbz-a1-m1-cB 2pbz-a1-m1-cA_2pbz-a1-m1-cC IVSTIASHSSLQILLGAKKEGFKTRLYVSPKRRPFYSSLPIVDDLVVAEETSILNDDGIVVPHGSFVAYLGIEAIEKAKARFFGNRRFLKWETTFELQDKALEGAGIPRVEVVEPEDAKPDELYFVRIEGSELEERLSPYRVERFIPGVYLYVHFFYSPILERLELLGVDERVLIADGNARWPVKPLPYTIVGNRAIALRESLLPQLYDYGLAFVRTRELEPPGVIGPFALHFAYDGSFKAIGIASRIDGGSNADHWYSELYWGERLSGRRIARELRLAEEEDRLEEVVT IVSTIASHSSLQILLGAKKEGFKTRLYVSPKRRPFYSSLPIVDDLVVAEETSILNDDGIVVPHGSFVAYLGIEAIEKAKARFFGNRRFLKWETTFELQDKALEGAGIPRVEVVEPEDAKPDELYFVRIEGSELEERLSPYRVERFIPGVYLYVHFFYSPILERLELLGVDERVLIADGNARWPVKPLPYTIVGNRAIALRESLLPQLYDYGLAFVRTRELEPPGVIGPFALHFAYDGSFKAIGIASRIDGGSNADHWYSELYWGERLSGRRIARELRLAEEEDRLEEVVT 2pc5-a1-m1-cA_2pc5-a1-m1-cC Native crystal structure analysis on Arabidopsis dUTPase Q9STG6 Q9STG6 2.2 X-RAY DIFFRACTION 111 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 127 127 2pc5-a1-m1-cB_2pc5-a1-m1-cA 2pc5-a1-m1-cB_2pc5-a1-m1-cC 4oop-a1-m1-cA_4oop-a1-m1-cB 4oop-a1-m1-cC_4oop-a1-m1-cA 4oop-a1-m1-cC_4oop-a1-m1-cB 4ooq-a1-m1-cB_4ooq-a1-m1-cA 4ooq-a1-m1-cC_4ooq-a1-m1-cA 4ooq-a1-m1-cC_4ooq-a1-m1-cB SPFFKVKKLSEKAVIPTRGSPLSAGYDLSSAVDSKVPARGKALIPTDLSIAVPEGTYARIAPRSGLAWKHSIDVGAGVIDADYRGPVGVILFNHSDADFEVKFGDRIAQLIIEKIVTPDVVEVDDLD SPFFKVKKLSEKAVIPTRGSPLSAGYDLSSAVDSKVPARGKALIPTDLSIAVPEGTYARIAPRSGLAWKHSIDVGAGVIDADYRGPVGVILFNHSDADFEVKFGDRIAQLIIEKIVTPDVVEVDDLD 2pc6-a2-m1-cD_2pc6-a2-m1-cB Crystal structure of putative acetolactate synthase- small subunit from Nitrosomonas europaea Q82UZ2 Q82UZ2 2.5 X-RAY DIFFRACTION 201 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 157 158 2pc6-a1-m1-cA_2pc6-a1-m1-cC RHIISLLENEAGALSRVAGLFSARGYNIESLSVAPTEDPTLSRTLVTNGPDEIVEQITKQLNKLIVVKLIDLSSEGYVERELLVKVRAVGKDREEKRLADIFRGNIIDVTNELYTIELTGTRSKLDGFLQAVDCNLILEIARTGVSGLSRGERVLKL RHIISLLENEAGALSRVAGLFSARGYNIESLSVAPTEDPTLSRTLVTNGPDEIVEQITKQLNKLIEVVKLIDLSSEGYVERELLVKVRAVGKDREEKRLADIFRGNIIDVTNELYTIELTGTRSKLDGFLQAVDCNLILEIARTGVSGLSRGERVLKL 2pce-a1-m1-cD_2pce-a1-m1-cH Crystal structure of putative mandelate racemase/muconate lactonizing enzyme from Roseovarius nubinhibens ISM A3SNG0 A3SNG0 2 X-RAY DIFFRACTION 76 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 372 372 2pce-a1-m1-cA_2pce-a1-m1-cE 2pce-a1-m1-cC_2pce-a1-m1-cG 2pce-a1-m1-cF_2pce-a1-m1-cB 3fv9-a1-m1-cA_3fv9-a1-m1-cB 3fv9-a1-m1-cD_3fv9-a1-m1-cH 3fv9-a1-m1-cE_3fv9-a1-m1-cC 3fv9-a1-m1-cF_3fv9-a1-m1-cG LKITRIDIHRTDLPVRGGVYRLSGGREYHSYDATIVSIETDTGLTGWGESTPFGSTYIAAHAGGTRAALELLAPAILGMDPRQHDRIWDRMRDTLKGHRDARAALDIACWDIAAQAAGLPLCDMTGGRVAGPVPVISSIGGDTPEAMRAKVARHRAQGFKGHSIKIGASEAEGGPALDAERITACLADRQPGEWYLADANNGLTVEHALRMLSLLPPGLDIVLEAPCASWAETKSLRARCALPLLLDELIQTETDLIAAIRDDLCDGVGLKVSKQGGITPMLRQRAIAAAAGMVMSVQDTVGSQISFAAILHLAQSTPRHLLRCALDTRAMTTAELAEIDAPLRDGGASAPSDPGLGLRVNRDALGTPVKTF LKITRIDIHRTDLPVRGGVYRLSGGREYHSYDATIVSIETDTGLTGWGESTPFGSTYIAAHAGGTRAALELLAPAILGMDPRQHDRIWDRMRDTLKGHRDARAALDIACWDIAAQAAGLPLCDMTGGRVAGPVPVISSIGGDTPEAMRAKVARHRAQGFKGHSIKIGASEAEGGPALDAERITACLADRQPGEWYLADANNGLTVEHALRMLSLLPPGLDIVLEAPCASWAETKSLRARCALPLLLDELIQTETDLIAAIRDDLCDGVGLKVSKQGGITPMLRQRAIAAAAGMVMSVQDTVGSQISFAAILHLAQSTPRHLLRCALDTRAMTTAELAEIDAPLRDGGASAPSDPGLGLRVNRDALGTPVKTF 2pce-a1-m1-cG_2pce-a1-m1-cH Crystal structure of putative mandelate racemase/muconate lactonizing enzyme from Roseovarius nubinhibens ISM A3SNG0 A3SNG0 2 X-RAY DIFFRACTION 62 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 372 372 2pce-a1-m1-cA_2pce-a1-m1-cH 2pce-a1-m1-cB_2pce-a1-m1-cC 2pce-a1-m1-cB_2pce-a1-m1-cE 2pce-a1-m1-cC_2pce-a1-m1-cD 2pce-a1-m1-cD_2pce-a1-m1-cE 2pce-a1-m1-cF_2pce-a1-m1-cA 2pce-a1-m1-cF_2pce-a1-m1-cG 3fv9-a1-m1-cA_3fv9-a1-m1-cD 3fv9-a1-m1-cA_3fv9-a1-m1-cF 3fv9-a1-m1-cB_3fv9-a1-m1-cG 3fv9-a1-m1-cB_3fv9-a1-m1-cH 3fv9-a1-m1-cC_3fv9-a1-m1-cH 3fv9-a1-m1-cD_3fv9-a1-m1-cE 3fv9-a1-m1-cE_3fv9-a1-m1-cF 3fv9-a1-m1-cG_3fv9-a1-m1-cC LKITRIDIHRTDLPVRGGVYRLSGGREYHSYDATIVSIETDTGLTGWGESTPFGSTYIAAHAGGTRAALELLAPAILGMDPRQHDRIWDRMRDTLKGHRDARAALDIACWDIAAQAAGLPLCDMTGGRVAGPVPVISSIGGDTPEAMRAKVARHRAQGFKGHSIKIGASEAEGGPALDAERITACLADRQPGEWYLADANNGLTVEHALRMLSLLPPGLDIVLEAPCASWAETKSLRARCALPLLLDELIQTETDLIAAIRDDLCDGVGLKVSKQGGITPMLRQRAIAAAAGMVMSVQDTVGSQISFAAILHLAQSTPRHLLRCALDTRAMTTAELAEIDAPLRDGGASAPSDPGLGLRVNRDALGTPVKTF LKITRIDIHRTDLPVRGGVYRLSGGREYHSYDATIVSIETDTGLTGWGESTPFGSTYIAAHAGGTRAALELLAPAILGMDPRQHDRIWDRMRDTLKGHRDARAALDIACWDIAAQAAGLPLCDMTGGRVAGPVPVISSIGGDTPEAMRAKVARHRAQGFKGHSIKIGASEAEGGPALDAERITACLADRQPGEWYLADANNGLTVEHALRMLSLLPPGLDIVLEAPCASWAETKSLRARCALPLLLDELIQTETDLIAAIRDDLCDGVGLKVSKQGGITPMLRQRAIAAAAGMVMSVQDTVGSQISFAAILHLAQSTPRHLLRCALDTRAMTTAELAEIDAPLRDGGASAPSDPGLGLRVNRDALGTPVKTF 2pcj-a1-m1-cA_2pcj-a1-m1-cB Crystal structure of ABC transporter (aq_297) From Aquifex Aeolicus VF5 O66646 O66646 1.7 X-RAY DIFFRACTION 20 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 223 223 AEILRAENIKKVIRGYEILKGISLSVKKGEFVSIIGASGSGKSTLLYILGLLDAPTEGKVFLEGKEVDYTNEKELSLLRNRKLGFVFQFHYLIPELTALENVIVPMLKMGKPKKEAKERGEYLLSELGLGDKLSRKPYELSGGEQQRVAIARALANEPILLFADEPTGNLDSANTKRVMDIFLKINEGGTSIVMVTHERELAELTHRTLEMKDGKVVGEITRV AEILRAENIKKVIRGYEILKGISLSVKKGEFVSIIGASGSGKSTLLYILGLLDAPTEGKVFLEGKEVDYTNEKELSLLRNRKLGFVFQFHYLIPELTALENVIVPMLKMGKPKKEAKERGEYLLSELGLGDKLSRKPYELSGGEQQRVAIARALANEPILLFADEPTGNLDSANTKRVMDIFLKINEGGTSIVMVTHERELAELTHRTLEMKDGKVVGEITRV 2pcl-a2-m3-cA_2pcl-a2-m6-cA Crystal structure of ABC transporter with complex (aq_297) from aquifex aeolicus VF5 O66646 O66646 1.7 X-RAY DIFFRACTION 42 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 223 223 2pcl-a1-m1-cA_2pcl-a1-m2-cA 2pcl-a2-m1-cA_2pcl-a2-m2-cA 2pcl-a2-m4-cA_2pcl-a2-m5-cA AEILRAENIKKVIRGYEILKGISLSVKKGEFVSIIGASGSGKSTLLYILGLLDAPTEGKVFLEGKEVDYTNEKELSLLRNRKLGFVFQFHYLIPELTALENVIVPMLKMGKPKKEAKERGEYLLSELGLGDKLSRKPYELSGGEQQRVAIARALANEPILLFADEPTGNLDSANTKRVMDIFLKINEGGTSIVMVTHERELAELTHRTLEMKDGKVVGEITRV AEILRAENIKKVIRGYEILKGISLSVKKGEFVSIIGASGSGKSTLLYILGLLDAPTEGKVFLEGKEVDYTNEKELSLLRNRKLGFVFQFHYLIPELTALENVIVPMLKMGKPKKEAKERGEYLLSELGLGDKLSRKPYELSGGEQQRVAIARALANEPILLFADEPTGNLDSANTKRVMDIFLKINEGGTSIVMVTHERELAELTHRTLEMKDGKVVGEITRV 2pcl-a2-m4-cA_2pcl-a2-m6-cA Crystal structure of ABC transporter with complex (aq_297) from aquifex aeolicus VF5 O66646 O66646 1.7 X-RAY DIFFRACTION 18 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 223 223 2pcl-a2-m1-cA_2pcl-a2-m5-cA 2pcl-a2-m2-cA_2pcl-a2-m3-cA AEILRAENIKKVIRGYEILKGISLSVKKGEFVSIIGASGSGKSTLLYILGLLDAPTEGKVFLEGKEVDYTNEKELSLLRNRKLGFVFQFHYLIPELTALENVIVPMLKMGKPKKEAKERGEYLLSELGLGDKLSRKPYELSGGEQQRVAIARALANEPILLFADEPTGNLDSANTKRVMDIFLKINEGGTSIVMVTHERELAELTHRTLEMKDGKVVGEITRV AEILRAENIKKVIRGYEILKGISLSVKKGEFVSIIGASGSGKSTLLYILGLLDAPTEGKVFLEGKEVDYTNEKELSLLRNRKLGFVFQFHYLIPELTALENVIVPMLKMGKPKKEAKERGEYLLSELGLGDKLSRKPYELSGGEQQRVAIARALANEPILLFADEPTGNLDSANTKRVMDIFLKINEGGTSIVMVTHERELAELTHRTLEMKDGKVVGEITRV 2pcn-a1-m2-cA_2pcn-a1-m3-cA Crystal structure of S-adenosylmethionine: 2-dimethylmenaquinone methyltransferase (gk_1813) from geobacillus kaustophilus HTA426 Q5KYY8 Q5KYY8 1.9 X-RAY DIFFRACTION 41 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 161 161 2pcn-a1-m1-cA_2pcn-a1-m2-cA 2pcn-a1-m1-cA_2pcn-a1-m3-cA MKTADLCDQFLDELQVCELPFQSYGGKRMFSGPIATVDVFEDNVLVREALETVPPGTVLVVDGKGSRRVALLGDRLAQIACERGLAGVIIHGCIRDSAEIGAMPIGVMAIGTCPVKSKKEGKGARDVVLEFGGVRWEPGAYVYADADGVVVANKDLLAKNG MKTADLCDQFLDELQVCELPFQSYGGKRMFSGPIATVDVFEDNVLVREALETVPPGTVLVVDGKGSRRVALLGDRLAQIACERGLAGVIIHGCIRDSAEIGAMPIGVMAIGTCPVKSKKEGKGARDVVLEFGGVRWEPGAYVYADADGVVVANKDLLAKNG 2pcq-a1-m1-cA_2pcq-a1-m4-cA Crystal structure of putative dihydrodipicolinate synthase (TTHA0737) from Thermus Thermophilus HB8 Q5SKB1 Q5SKB1 2.1 X-RAY DIFFRACTION 92 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 279 279 2pcq-a1-m2-cA_2pcq-a1-m3-cA ILPPIPTPFDREGRLDEEAFRELAQALEPLVDGLLVYGSNGEGVHLTPEERARGLRALRPRKPFLVGLEETLPQAEGALLEAKAAGAALLATPPRYYHGSLGAGLLRYYEALAEKPLFLYHVPQNTKVDLPLEAVEALAPHPNVLGIKDSSGDLSRIAFYQARLQEFRVYTGHAPTFLGALALGAEGGILAAANLAPRAYRALLDHFREGRLAEAQELQKKLFPLGDLLAKGGVPLLKQALRHLGLPAGYPRPPYPAESPLWERFLPVLEGLKEEGWVL ILPPIPTPFDREGRLDEEAFRELAQALEPLVDGLLVYGSNGEGVHLTPEERARGLRALRPRKPFLVGLEETLPQAEGALLEAKAAGAALLATPPRYYHGSLGAGLLRYYEALAEKPLFLYHVPQNTKVDLPLEAVEALAPHPNVLGIKDSSGDLSRIAFYQARLQEFRVYTGHAPTFLGALALGAEGGILAAANLAPRAYRALLDHFREGRLAEAQELQKKLFPLGDLLAKGGVPLLKQALRHLGLPAGYPRPPYPAESPLWERFLPVLEGLKEEGWVL 2pcq-a1-m2-cA_2pcq-a1-m4-cA Crystal structure of putative dihydrodipicolinate synthase (TTHA0737) from Thermus Thermophilus HB8 Q5SKB1 Q5SKB1 2.1 X-RAY DIFFRACTION 118 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 279 279 2pcq-a1-m1-cA_2pcq-a1-m3-cA ILPPIPTPFDREGRLDEEAFRELAQALEPLVDGLLVYGSNGEGVHLTPEERARGLRALRPRKPFLVGLEETLPQAEGALLEAKAAGAALLATPPRYYHGSLGAGLLRYYEALAEKPLFLYHVPQNTKVDLPLEAVEALAPHPNVLGIKDSSGDLSRIAFYQARLQEFRVYTGHAPTFLGALALGAEGGILAAANLAPRAYRALLDHFREGRLAEAQELQKKLFPLGDLLAKGGVPLLKQALRHLGLPAGYPRPPYPAESPLWERFLPVLEGLKEEGWVL ILPPIPTPFDREGRLDEEAFRELAQALEPLVDGLLVYGSNGEGVHLTPEERARGLRALRPRKPFLVGLEETLPQAEGALLEAKAAGAALLATPPRYYHGSLGAGLLRYYEALAEKPLFLYHVPQNTKVDLPLEAVEALAPHPNVLGIKDSSGDLSRIAFYQARLQEFRVYTGHAPTFLGALALGAEGGILAAANLAPRAYRALLDHFREGRLAEAQELQKKLFPLGDLLAKGGVPLLKQALRHLGLPAGYPRPPYPAESPLWERFLPVLEGLKEEGWVL 2pcr-a1-m1-cA_2pcr-a1-m1-cD Crystal structure of Myo-inositol-1(or 4)-monophosphatase (aq_1983) from Aquifex Aeolicus VF5 O67791 O67791 2.6 X-RAY DIFFRACTION 56 0.996 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 232 234 2pcr-a1-m1-cB_2pcr-a1-m1-cC NLKKYLEVAKIAALAGGQVLKENFGKSYVDKTSEERIKEVILKFFPDHEVVGESEYRWFIDPLDGTKNYINGFPIFAVSVGLVKGEEPIVGAVYLPYFDKLYWGAKGLGAYVNGKRIKVKDNESLKHAGVVYGFPSRSRRDISIYLNIFKDVFYEVGSRRPGAAAVDLCVAEGIFDGEFEKPWDITAGLVILKEAGGVYTLVGEPFGVSDIIAGNKALHDFILQVAKKYEVA NLKKYLEVAKIAALAGGQVLKENFGKVFVSYVDKTSEERIKEVILKFFPDHEVVGESEYRWFIDPLDGTKNYINGFPIFAVSVGLVKGEEPIVGAVYLPYFDKLYWGAKGLGAYVNGKRIKVKDNESLKHAGVVYGFPSSRRDISIYLNIFKDVFYEVGSRRPGAAAVDLCVAEGIFDGEFEKPWDITAGLVILKEAGGVYTLVGEPFGVSDIIAGNKALHDFILQVAKKYEVA 2pcr-a1-m1-cB_2pcr-a1-m1-cD Crystal structure of Myo-inositol-1(or 4)-monophosphatase (aq_1983) from Aquifex Aeolicus VF5 O67791 O67791 2.6 X-RAY DIFFRACTION 40 0.991 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 234 234 2pcr-a1-m1-cA_2pcr-a1-m1-cC ENLKKYLEVAKIAALAGGQVLKENFGKVSYVDKTSEERIKEVILKFFPDHEVVGESEYRWFIDPLDGTKNYINGFPIFAVSVGLVKGEEPIVGAVYLPYFDKLYWGAKGLGAYVNGKRIKVKDNESLKHAGVVYGFPSRSRRDISIYLNIFKDVFYEVGSRRPGAAAVDLCVAEGIFDGEFEKPWDITAGLVILKEAGGVYTLVGEPFGVSDIIAGNKALHDFILQVAKKYEVA NLKKYLEVAKIAALAGGQVLKENFGKVFVSYVDKTSEERIKEVILKFFPDHEVVGESEYRWFIDPLDGTKNYINGFPIFAVSVGLVKGEEPIVGAVYLPYFDKLYWGAKGLGAYVNGKRIKVKDNESLKHAGVVYGFPSSRRDISIYLNIFKDVFYEVGSRRPGAAAVDLCVAEGIFDGEFEKPWDITAGLVILKEAGGVYTLVGEPFGVSDIIAGNKALHDFILQVAKKYEVA 2pd0-a2-m1-cD_2pd0-a2-m1-cB Protein cgd2_2020 from Cryptosporidium parvum Q5CTR0 Q5CTR0 2.3 X-RAY DIFFRACTION 51 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 200 202 2pd0-a1-m1-cA_2pd0-a1-m1-cC KLLGVNSFALRQFVEGYRGSYIPRSPYEFLRNVNNYIIENNPTLVDGYADFCKHIFIPNFTEAKQSIVKITNENEKYIKTGYISRRDEEIPVLSRWFPKDSPPASQLIKSKYLDIILYSKEQCEKESSINCLQDILDDREKNPDWYIISIKAQNESFEVPEPITILRNTLIEEGGSGVPLKREKYLESVEFWKEHAIVSS SKLLGVNSFALRQFVEGYRGSYIPRSPYEFLRNVNNYIIENNPTLVDGYADFCKHIFIPNFTEAKQSIVKITNENEKYIKTGYISRRDEEIPVLSRWFPKDSPPASQLIKSKYLDIILYSKEQCEKESSINCCLQDILDDREKNPDWYIISIKAQNESFEVPEPITILRNTLIEEGGSGVPLKREKYLESVEFWKEHAIVSS 2pd1-a3-m1-cA_2pd1-a3-m2-cA Crystal structure of NE2512 protein of unknown function from Nitrosomonas europaea Q82S47 Q82S47 1.86 X-RAY DIFFRACTION 19 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 101 101 GHTKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG GHTKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG 2pd1-a3-m1-cC_2pd1-a3-m2-cC Crystal structure of NE2512 protein of unknown function from Nitrosomonas europaea Q82S47 Q82S47 1.86 X-RAY DIFFRACTION 12 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 99 99 TKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG TKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG 2pd1-a5-m3-cB_2pd1-a5-m3-cD Crystal structure of NE2512 protein of unknown function from Nitrosomonas europaea Q82S47 Q82S47 1.86 X-RAY DIFFRACTION 113 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 98 99 2pd1-a1-m1-cC_2pd1-a1-m1-cA 2pd1-a2-m1-cB_2pd1-a2-m1-cD 2pd1-a3-m1-cC_2pd1-a3-m1-cA 2pd1-a3-m2-cC_2pd1-a3-m2-cA 2pd1-a3-m3-cB_2pd1-a3-m3-cD 2pd1-a3-m4-cB_2pd1-a3-m4-cD 2pd1-a4-m1-cB_2pd1-a4-m1-cD 2pd1-a4-m1-cC_2pd1-a4-m1-cA 2pd1-a5-m1-cC_2pd1-a5-m1-cA TKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPA TKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG 2pd1-a5-m3-cD_2pd1-a5-m1-cA Crystal structure of NE2512 protein of unknown function from Nitrosomonas europaea Q82S47 Q82S47 1.86 X-RAY DIFFRACTION 28 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 99 101 2pd1-a3-m3-cD_2pd1-a3-m1-cA 2pd1-a3-m4-cD_2pd1-a3-m2-cA 2pd1-a4-m1-cB_2pd1-a4-m1-cC TKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG GHTKLALFVRLEAKPGQEAALADFLASALPLANAESGTTAWFALKFGPSTFGVFDAFADEAGRQAHLNGQIAAALANAATLLSSPPNIEKVELLAAKLPAG 2pd2-a2-m4-cB_2pd2-a2-m5-cB Crystal structure of (ST0148) conserved hypothetical from Sulfolobus Tokodaii Strain7 Q976P3 Q976P3 2.06 X-RAY DIFFRACTION 48 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 108 108 2pd2-a1-m1-cA_2pd2-a1-m2-cA 2pd2-a1-m1-cA_2pd2-a1-m3-cA 2pd2-a1-m2-cA_2pd2-a1-m3-cA 2pd2-a2-m1-cB_2pd2-a2-m4-cB 2pd2-a2-m1-cB_2pd2-a2-m5-cB MKVVVQIKDFDKVPQALRSVINLYNDIKDAEIEVVLHQSAIKALLKDSDTRSIIEDLIKKNILIVGCENSIRSQNLSHDQLIPGIKIVTSGVGEIVRKQSEGWIYLAL MKVVVQIKDFDKVPQALRSVINLYNDIKDAEIEVVLHQSAIKALLKDSDTRSIIEDLIKKNILIVGCENSIRSQNLSHDQLIPGIKIVTSGVGEIVRKQSEGWIYLAL 2pd4-a1-m1-cA_2pd4-a1-m1-cD Crystal Structure of the Helicobacter pylori Enoyl-Acyl Carrier Protein Reductase in Complex with Hydroxydiphenyl Ether Compounds, Triclosan and Diclosan O24990 O24990 2.3 X-RAY DIFFRACTION 81 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 274 274 2pd3-a1-m1-cA_2pd3-a1-m1-cD 2pd3-a1-m1-cB_2pd3-a1-m1-cC 2pd4-a1-m1-cB_2pd4-a1-m1-cC GFLKGKKGLIVGVANNKSIAYGIAQSCFNQGATLAFTYLNESLEKRVRPIAQELNSPYVYELDVSKEEHFKSLYNSVKKDLGSLDFIVHSVAFAPKEALEGSLLETSKSAFNTAMEISVYSLIELTNTLKPLLNNGASVLTLSYLGSTKYMAHYNVMGLAKAALESAVRYLAVDLGKHHIRVNALSAGPIRTLASSGIADFRMILKWNEINAPLRKNVSLEEVGNAGMYLLSSLSSGVSGEVHFVDAGYHVMGMGAVEEKDNKATLLWDLHKEQ GFLKGKKGLIVGVANNKSIAYGIAQSCFNQGATLAFTYLNESLEKRVRPIAQELNSPYVYELDVSKEEHFKSLYNSVKKDLGSLDFIVHSVAFAPKEALEGSLLETSKSAFNTAMEISVYSLIELTNTLKPLLNNGASVLTLSYLGSTKYMAHYNVMGLAKAALESAVRYLAVDLGKHHIRVNALSAGPIRTLASSGIADFRMILKWNEINAPLRKNVSLEEVGNAGMYLLSSLSSGVSGEVHFVDAGYHVMGMGAVEEKDNKATLLWDLHKEQ 2pd4-a1-m1-cB_2pd4-a1-m1-cD Crystal Structure of the Helicobacter pylori Enoyl-Acyl Carrier Protein Reductase in Complex with Hydroxydiphenyl Ether Compounds, Triclosan and Diclosan O24990 O24990 2.3 X-RAY DIFFRACTION 122 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 274 274 2pd3-a1-m1-cA_2pd3-a1-m1-cC 2pd3-a1-m1-cB_2pd3-a1-m1-cD 2pd4-a1-m1-cA_2pd4-a1-m1-cC GFLKGKKGLIVGVANNKSIAYGIAQSCFNQGATLAFTYLNESLEKRVRPIAQELNSPYVYELDVSKEEHFKSLYNSVKKDLGSLDFIVHSVAFAPKEALEGSLLETSKSAFNTAMEISVYSLIELTNTLKPLLNNGASVLTLSYLGSTKYMAHYNVMGLAKAALESAVRYLAVDLGKHHIRVNALSAGPIRTLASSGIADFRMILKWNEINAPLRKNVSLEEVGNAGMYLLSSLSSGVSGEVHFVDAGYHVMGMGAVEEKDNKATLLWDLHKEQ GFLKGKKGLIVGVANNKSIAYGIAQSCFNQGATLAFTYLNESLEKRVRPIAQELNSPYVYELDVSKEEHFKSLYNSVKKDLGSLDFIVHSVAFAPKEALEGSLLETSKSAFNTAMEISVYSLIELTNTLKPLLNNGASVLTLSYLGSTKYMAHYNVMGLAKAALESAVRYLAVDLGKHHIRVNALSAGPIRTLASSGIADFRMILKWNEINAPLRKNVSLEEVGNAGMYLLSSLSSGVSGEVHFVDAGYHVMGMGAVEEKDNKATLLWDLHKEQ 2pd4-a1-m1-cC_2pd4-a1-m1-cD Crystal Structure of the Helicobacter pylori Enoyl-Acyl Carrier Protein Reductase in Complex with Hydroxydiphenyl Ether Compounds, Triclosan and Diclosan O24990 O24990 2.3 X-RAY DIFFRACTION 116 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 274 274 2pd3-a1-m1-cA_2pd3-a1-m1-cB 2pd3-a1-m1-cC_2pd3-a1-m1-cD 2pd4-a1-m1-cA_2pd4-a1-m1-cB GFLKGKKGLIVGVANNKSIAYGIAQSCFNQGATLAFTYLNESLEKRVRPIAQELNSPYVYELDVSKEEHFKSLYNSVKKDLGSLDFIVHSVAFAPKEALEGSLLETSKSAFNTAMEISVYSLIELTNTLKPLLNNGASVLTLSYLGSTKYMAHYNVMGLAKAALESAVRYLAVDLGKHHIRVNALSAGPIRTLASSGIADFRMILKWNEINAPLRKNVSLEEVGNAGMYLLSSLSSGVSGEVHFVDAGYHVMGMGAVEEKDNKATLLWDLHKEQ GFLKGKKGLIVGVANNKSIAYGIAQSCFNQGATLAFTYLNESLEKRVRPIAQELNSPYVYELDVSKEEHFKSLYNSVKKDLGSLDFIVHSVAFAPKEALEGSLLETSKSAFNTAMEISVYSLIELTNTLKPLLNNGASVLTLSYLGSTKYMAHYNVMGLAKAALESAVRYLAVDLGKHHIRVNALSAGPIRTLASSGIADFRMILKWNEINAPLRKNVSLEEVGNAGMYLLSSLSSGVSGEVHFVDAGYHVMGMGAVEEKDNKATLLWDLHKEQ 2pd6-a1-m1-cC_2pd6-a1-m1-cD Structure of human hydroxysteroid dehydrogenase type 8, HSD17B8 Q92506 Q92506 2 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 237 242 2pd6-a1-m1-cA_2pd6-a1-m1-cB ALALVTGAGSGIGRAVSVRLAGEGATVAACDLDRAAAQETVRLLNHAAFQADVSEARAARCLLEQVQACFSRPPSVVVSCAGITQDEFLLHMSEDDWDKVIAVNLKGTFLVTQAAAQALVSNGCRGSIINISSIVGKVGNVGQTNYAASKAGVIGLTQTAARELGRHGIRCNSVLPGFIATPMTQKVPQKVVDKITEMIPMGHLGDPEDVADVVAFLASEDSGYITGTSVEVTGGLF NRLRSALALVTGAGSGIGRAVSVRLAGEGATVAACDLDRAAAQETVRLLNHAAFQADVSEARAARCLLEQVQACFSRPPSVVVSCAGITQDEFLLHMSEDDWDKVIAVNLKGTFLVTQAAAQALVSNGCRGSIINISSIVGKVGNVGQTNYAASKAGVIGLTQTAARELGRHGIRCNSVLPGFIATPMTQKVPQKVVDKITEMIPMGHLGDPEDVADVVAFLASEDSGYITGTSVEVTGGLF 2peb-a1-m1-cA_2peb-a1-m1-cB Crystal structure of a putative dioxygenase (npun_f1925) from nostoc punctiforme pcc 73102 at 1.46 A resolution 1.46 X-RAY DIFFRACTION 73 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 113 113 KEDTIEIAGFHAHVYFDAASRDVAARVREGLGARFEVQLGRWFDKPIGPHPKGYQVAFLPNQFDKVVPWLLNREGLDILVHPETGDAVSDHAVYSLWLGAALALNIEFLRQLS KEDTIEIAGFHAHVYFDAASRDVAARVREGLGARFEVQLGRWFDKPIGPHPKGYQVAFLPNQFDKVVPWLLNREGLDILVHPETGDAVSDHAVYSLWLGAALALNIEFLRQLS 2pee-a3-m1-cA_2pee-a3-m6-cB Crystal Structure of a Thermophilic Serpin, Tengpin, in the Native State Q8R9P5 Q8R9P5 2.7 X-RAY DIFFRACTION 14 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 387 387 2pee-a3-m2-cA_2pee-a3-m4-cB 2pee-a3-m3-cA_2pee-a3-m5-cB VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL 2pee-a3-m2-cA_2pee-a3-m6-cB Crystal Structure of a Thermophilic Serpin, Tengpin, in the Native State Q8R9P5 Q8R9P5 2.7 X-RAY DIFFRACTION 51 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 387 387 2pee-a3-m1-cA_2pee-a3-m5-cB 2pee-a3-m3-cA_2pee-a3-m4-cB VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL 2pee-a3-m5-cB_2pee-a3-m6-cB Crystal Structure of a Thermophilic Serpin, Tengpin, in the Native State Q8R9P5 Q8R9P5 2.7 X-RAY DIFFRACTION 14 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 387 387 2pee-a3-m4-cB_2pee-a3-m5-cB 2pee-a3-m4-cB_2pee-a3-m6-cB VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL 2pee-a4-m2-cA_2pee-a4-m3-cA Crystal Structure of a Thermophilic Serpin, Tengpin, in the Native State Q8R9P5 Q8R9P5 2.7 X-RAY DIFFRACTION 51 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 387 387 2pee-a3-m1-cA_2pee-a3-m2-cA 2pee-a3-m1-cA_2pee-a3-m3-cA 2pee-a3-m2-cA_2pee-a3-m3-cA 2pee-a4-m1-cA_2pee-a4-m2-cA 2pee-a4-m1-cA_2pee-a4-m3-cA VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL VQAANLMDRIKANPVSEKNIDEKFIYNTADFSIELFKNSIDDKENSLISPLSAMLALAMTANGADNETLAQMEKALGKDISIEDLNKYLYTYMKKLPNEEKSKLTIANSIWFKENDFMPSKDFLQIIADYYKADIFKAAFDSSTVSDINNWVKSKTNGMIDKILNKIDPEDVMYLINAVAFDAEWETVYEKASVHEDIFTDVYGNRQKVEFMNSEENLYIEEENAIGFVKPYAKNHYSFVAILPDENISVNEYIKTLTGQKFIDLIKNAKITLVRASLPKFKYEYTIKMNETLESLGMTDAFLPDKADFSKLGKSDIGNLYISEVLHKTFISVDELGTKAGAVTSVDITAAGIPVNFKTVKLNRPFIFAIIDNSTNLPIFIGTVLSL 2peh-a3-m1-cA_2peh-a3-m2-cB Crystal structure of the UHM domain of human SPF45 in complex with SF3b155-ULM5 Q96I25 Q96I25 2.11 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 AMGKCPTKVVLLRNMVGAGEVDEDLEVETKEECEKYGKVGKCVIFEIPGAPDDEAVRIFLEFERVESAIKAVVDLNGRYFGGRVVKACFYNLDKFRVLDLAEQV AMGKCPTKVVLLRNMVGAGEVDEDLEVETKEECEKYGKVGKCVIFEIPGAPDDEAVRIFLEFERVESAIKAVVDLNGRYFGGRVVKACFYNLDKFRVLDLAEQV 2pek-a4-m1-cD_2pek-a4-m1-cC Crystal structure of RbcX point mutant Q29A Q44177 Q44177 3.1 X-RAY DIFFRACTION 146 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 108 110 2pei-a1-m1-cA_2pei-a1-m1-cB 2pei-a2-m1-cC_2pei-a2-m1-cD 2pei-a3-m1-cE_2pei-a3-m1-cF 2pei-a4-m1-cG_2pei-a4-m1-cH 2pei-a5-m1-cJ_2pei-a5-m1-cI 2pei-a6-m1-cK_2pei-a6-m1-cL 2pej-a1-m1-cB_2pej-a1-m1-cA 2pej-a2-m1-cD_2pej-a2-m1-cC 2pej-a3-m1-cF_2pej-a3-m1-cE 2pek-a1-m1-cB_2pek-a1-m1-cA 2pek-a2-m1-cD_2pek-a2-m1-cC 2pek-a3-m1-cE_2pek-a3-m1-cF 2pek-a4-m2-cE_2pek-a4-m2-cF 2pem-a1-m1-cA_2pem-a1-m1-cB 2pem-a2-m1-cD_2pem-a2-m1-cC 2pem-a3-m1-cF_2pem-a3-m1-cE 2pen-a1-m1-cB_2pen-a1-m1-cA 2pen-a2-m1-cD_2pen-a2-m1-cC 2pen-a3-m1-cE_2pen-a3-m1-cF 2pen-a4-m1-cD_2pen-a4-m1-cC 2pen-a4-m2-cE_2pen-a4-m2-cF 2peq-a1-m1-cA_2peq-a1-m1-cB 2z44-a1-m1-cA_2z44-a1-m2-cA 2z45-a1-m1-cB_2z45-a1-m1-cA 2z46-a1-m1-cA_2z46-a1-m1-cB 2z46-a2-m1-cC_2z46-a2-m1-cD 2z46-a3-m1-cE_2z46-a3-m1-cF EFKKVAKETAITLQSYLTYQAVRLISQALSETNPGQAIWLGEFSKRHPIQESDLYLEAMMLENKELVLRILTVRENLAEGVLEFLPEMVLSQIKQSNGNHRRSLLERL EFKKVAKETAITLQSYLTYQAVRLISQALSETNPGQAIWLGEFSKRHPIQESDLYLEAMMLENKELVLRILTVRENLAEGVLEFLPEMVLSQIKQSNGNHRRSLLERLTQ 2pen-a4-m1-cC_2pen-a4-m2-cE Crystal structure of RbcX, crystal form I Q44177 Q44177 2.8 X-RAY DIFFRACTION 11 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 109 110 2pek-a4-m1-cC_2pek-a4-m2-cE 2pek-a4-m1-cD_2pek-a4-m2-cF 2pen-a4-m1-cD_2pen-a4-m2-cF FKKVAKETAITLQSYLTYQAVRLISQQLSETNPGQAIWLGEFSKRHPIQESDLYLEAMMLENKELVLRILTVRENLAEGVLEFLPEMVLSQIKQSNGNHRRSLLERLTQ FKKVAKETAITLQSYLTYQAVRLISQQLSETNPGQAIWLGEFSKRHPIQESDLYLEAMMLENKELVLRILTVRENLAEGVLEFLPEMVLSQIKQSNGNHRRSLLERLTQV 2pex-a1-m1-cA_2pex-a1-m1-cB Structure of reduced C22S OhrR from Xanthamonas Campestris Q93R11 Q93R11 1.9 X-RAY DIFFRACTION 192 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 136 137 RTDTLLQLDNQLSFALYSANLAMHKLYRGLLKALDLTYPQYLVMLVLWETDERSVSEIGERLYLDSATLTPLLKRLQAAGLVTRTRVIIALTETGRALRSKAGAVPEQVFCASACSLDELRQLKQELEKLRSSLGA ARTDTLLQLDNQLSFALYSANLAMHKLYRGLLKALDLTYPQYLVMLVLWETDERSVSEIGERLYLDSATLTPLLKRLQAAGLVTRTRVIIALTETGRALRSKAGAVPEQVFCASACSLDELRQLKQELEKLRSSLGA 2pfb-a1-m1-cB_2pfb-a1-m1-cA Structure of oxidized OhrR from Xanthamonas campestris Q93R11 Q93R11 1.93 X-RAY DIFFRACTION 86 0.992 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 123 129 DNQLCFALYSANLAMHKLYRGLLKALDLTYPQYLVMLVLWETDERSVSEIGERLYLDSATLTPLLKRLQAAGLVTRTRQVIIALTETGRALRSKAGAVPEQVFCASASSLDELRQLKQELEKL LLQLDNQLCFALYSANLAMHKLYRGLLKALDLTYPQYLVMLVLWETDERSVSEIGERLYLDSATLTPLLKRLQAAGLVTRTRVIIALTETGRALRSKAGAVPEQVFCASASSLDELRQLKQELEKLRSS 2pfc-a1-m1-cA_2pfc-a1-m2-cA Structure of Mycobacterium tuberculosis Rv0098 P9WM67 P9WM67 2.3 X-RAY DIFFRACTION 94 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 160 160 3b18-a1-m1-cA_3b18-a1-m4-cA 3b18-a1-m2-cA_3b18-a1-m5-cA 3b18-a1-m3-cA_3b18-a1-m6-cA 3b18-a2-m1-cA_3b18-a2-m4-cA PIAEELLARVLEPYSCKGCRYLIDAQYSATEDSVLAYGNFTIGESAYIRSTGHFNAVELILCFNQLAYSAFAPAVLNEEIRVLRGWSIDDYCQHQLSSMLIRKASSRFRKPLNPQKFSARLLCRDLQVIWRYLKVPCVIEFWDNGGAASGEIELAALNIP PIAEELLARVLEPYSCKGCRYLIDAQYSATEDSVLAYGNFTIGESAYIRSTGHFNAVELILCFNQLAYSAFAPAVLNEEIRVLRGWSIDDYCQHQLSSMLIRKASSRFRKPLNPQKFSARLLCRDLQVIWRYLKVPCVIEFWDNGGAASGEIELAALNIP 2pfd-a2-m5-cC_2pfd-a2-m7-cD Anisotropically refined structure of FTCD O88618 O88618 3.42 X-RAY DIFFRACTION 91 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 532 532 1tt9-a1-m1-cA_1tt9-a1-m3-cB 1tt9-a1-m1-cB_1tt9-a1-m4-cA 1tt9-a1-m2-cA_1tt9-a1-m4-cB 1tt9-a1-m2-cB_1tt9-a1-m3-cA 1tt9-a2-m1-cC_1tt9-a2-m6-cD 1tt9-a2-m1-cD_1tt9-a2-m7-cC 1tt9-a2-m5-cC_1tt9-a2-m7-cD 1tt9-a2-m5-cD_1tt9-a2-m6-cC 2pfd-a1-m1-cA_2pfd-a1-m3-cB 2pfd-a1-m1-cB_2pfd-a1-m4-cA 2pfd-a1-m2-cA_2pfd-a1-m4-cB 2pfd-a1-m2-cB_2pfd-a1-m3-cA 2pfd-a2-m1-cC_2pfd-a2-m6-cD 2pfd-a2-m1-cD_2pfd-a2-m7-cC 2pfd-a2-m5-cD_2pfd-a2-m6-cC SQLVECVPNFSEGNNQEVIDAISQAISQTPGCVLLDVDAGPSTNRTVYTFVGQPECVVEGALSAARTASQLIDRKHKGEHPRGALDVCPFIPVRGVSDECVLCAKAFGQRLAEELNVPVYLYGEAAQPSRQTLPAIRAGEYEALPEKLKQAEWVPDFGPSSFVPSWGATVTGARKFLIAFNINLLSTKEQAHRIALNLREQGRGKDQPGRLKKVQGIGWYLEEKNLAQVSTNLLDFEVTALHTVYEEARREAQELNLPVVGSQLVGLVPLKALLDAAAFYCDKEKLFVLEEEHRIRLVVNRLGLDSLAPFDPKERIIEYLVPDSGPEQSLLDASLRAFVREVGARSAAPGGGSVAAAVAALGAALASVGQTYGRRQFDHLDSTRRLIPPFHAASAQLTSLVDADARAFAACLGAIKLPKNTPEERDRRTCALQEGLRQAVAVPLKLAETVSQLWPALQELAQCGNLSCLSDLQVAAKALETGVFGAYFNVLINLKDTDDVFKEKTRHRISSLLQEAKTQAALVLGSLEARKE SQLVECVPNFSEGNNQEVIDAISQAISQTPGCVLLDVDAGPSTNRTVYTFVGQPECVVEGALSAARTASQLIDRKHKGEHPRGALDVCPFIPVRGVSDECVLCAKAFGQRLAEELNVPVYLYGEAAQPSRQTLPAIRAGEYEALPEKLKQAEWVPDFGPSSFVPSWGATVTGARKFLIAFNINLLSTKEQAHRIALNLREQGRGKDQPGRLKKVQGIGWYLEEKNLAQVSTNLLDFEVTALHTVYEEARREAQELNLPVVGSQLVGLVPLKALLDAAAFYCDKEKLFVLEEEHRIRLVVNRLGLDSLAPFDPKERIIEYLVPDSGPEQSLLDASLRAFVREVGARSAAPGGGSVAAAVAALGAALASVGQTYGRRQFDHLDSTRRLIPPFHAASAQLTSLVDADARAFAACLGAIKLPKNTPEERDRRTCALQEGLRQAVAVPLKLAETVSQLWPALQELAQCGNLSCLSDLQVAAKALETGVFGAYFNVLINLKDTDDVFKEKTRHRISSLLQEAKTQAALVLGSLEARKE 2pfd-a2-m7-cC_2pfd-a2-m7-cD Anisotropically refined structure of FTCD O88618 O88618 3.42 X-RAY DIFFRACTION 166 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 532 532 1tt9-a1-m1-cA_1tt9-a1-m1-cB 1tt9-a1-m2-cA_1tt9-a1-m2-cB 1tt9-a1-m3-cA_1tt9-a1-m3-cB 1tt9-a1-m4-cA_1tt9-a1-m4-cB 1tt9-a2-m1-cC_1tt9-a2-m1-cD 1tt9-a2-m5-cC_1tt9-a2-m5-cD 1tt9-a2-m6-cC_1tt9-a2-m6-cD 1tt9-a2-m7-cC_1tt9-a2-m7-cD 2pfd-a1-m1-cA_2pfd-a1-m1-cB 2pfd-a1-m2-cA_2pfd-a1-m2-cB 2pfd-a1-m3-cA_2pfd-a1-m3-cB 2pfd-a1-m4-cA_2pfd-a1-m4-cB 2pfd-a2-m1-cC_2pfd-a2-m1-cD 2pfd-a2-m5-cC_2pfd-a2-m5-cD 2pfd-a2-m6-cC_2pfd-a2-m6-cD SQLVECVPNFSEGNNQEVIDAISQAISQTPGCVLLDVDAGPSTNRTVYTFVGQPECVVEGALSAARTASQLIDRKHKGEHPRGALDVCPFIPVRGVSDECVLCAKAFGQRLAEELNVPVYLYGEAAQPSRQTLPAIRAGEYEALPEKLKQAEWVPDFGPSSFVPSWGATVTGARKFLIAFNINLLSTKEQAHRIALNLREQGRGKDQPGRLKKVQGIGWYLEEKNLAQVSTNLLDFEVTALHTVYEEARREAQELNLPVVGSQLVGLVPLKALLDAAAFYCDKEKLFVLEEEHRIRLVVNRLGLDSLAPFDPKERIIEYLVPDSGPEQSLLDASLRAFVREVGARSAAPGGGSVAAAVAALGAALASVGQTYGRRQFDHLDSTRRLIPPFHAASAQLTSLVDADARAFAACLGAIKLPKNTPEERDRRTCALQEGLRQAVAVPLKLAETVSQLWPALQELAQCGNLSCLSDLQVAAKALETGVFGAYFNVLINLKDTDDVFKEKTRHRISSLLQEAKTQAALVLGSLEARKE SQLVECVPNFSEGNNQEVIDAISQAISQTPGCVLLDVDAGPSTNRTVYTFVGQPECVVEGALSAARTASQLIDRKHKGEHPRGALDVCPFIPVRGVSDECVLCAKAFGQRLAEELNVPVYLYGEAAQPSRQTLPAIRAGEYEALPEKLKQAEWVPDFGPSSFVPSWGATVTGARKFLIAFNINLLSTKEQAHRIALNLREQGRGKDQPGRLKKVQGIGWYLEEKNLAQVSTNLLDFEVTALHTVYEEARREAQELNLPVVGSQLVGLVPLKALLDAAAFYCDKEKLFVLEEEHRIRLVVNRLGLDSLAPFDPKERIIEYLVPDSGPEQSLLDASLRAFVREVGARSAAPGGGSVAAAVAALGAALASVGQTYGRRQFDHLDSTRRLIPPFHAASAQLTSLVDADARAFAACLGAIKLPKNTPEERDRRTCALQEGLRQAVAVPLKLAETVSQLWPALQELAQCGNLSCLSDLQVAAKALETGVFGAYFNVLINLKDTDDVFKEKTRHRISSLLQEAKTQAALVLGSLEARKE 2pfe-a3-m2-cB_2pfe-a3-m1-cA Crystal Structure of Thermobifida fusca Protease A (TFPA) Q47SP5 Q47SP5 1.436 X-RAY DIFFRACTION 16 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 186 186 AAIIGGNPYYFGNYRCSIGFSVRQGSQTGFATAGHCGSTGTRVSSPSGTVAGSYFPGRDMGWVRITSADTVTPLVNRYNGGTVTVTGSQEAATGSSVCRSGATTGWRCGTIQSKNQTVRYAEGTVTGLTRTTACAEGGDSGGPWLTGSQAQGVTSGGTGDCRSGGITFFQPINPLLSYFGLQLVTG AAIIGGNPYYFGNYRCSIGFSVRQGSQTGFATAGHCGSTGTRVSSPSGTVAGSYFPGRDMGWVRITSADTVTPLVNRYNGGTVTVTGSQEAATGSSVCRSGATTGWRCGTIQSKNQTVRYAEGTVTGLTRTTACAEGGDSGGPWLTGSQAQGVTSGGTGDCRSGGITFFQPINPLLSYFGLQLVTG 2pff-a1-m1-cA_2pff-a1-m2-cG Structural Insights of Yeast Fatty Acid Synthase P19097 P19097 4 X-RAY DIFFRACTION 498 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1683 1683 2pff-a1-m1-cD_2pff-a1-m2-cD 2pff-a1-m1-cG_2pff-a1-m2-cA XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2pff-a1-m1-cD_2pff-a1-m2-cG Structural Insights of Yeast Fatty Acid Synthase P19097 P19097 4 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1683 1683 2pff-a1-m1-cA_2pff-a1-m2-cA 2pff-a1-m1-cG_2pff-a1-m2-cD XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2pff-a1-m1-cG_2pff-a1-m2-cG Structural Insights of Yeast Fatty Acid Synthase P19097 P19097 4 X-RAY DIFFRACTION 260 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1683 1683 2pff-a1-m1-cA_2pff-a1-m2-cD 2pff-a1-m1-cD_2pff-a1-m2-cA XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2pff-a1-m2-cD_2pff-a1-m2-cG Structural Insights of Yeast Fatty Acid Synthase P19097 P19097 4 X-RAY DIFFRACTION 46 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1683 1683 2pff-a1-m1-cA_2pff-a1-m1-cD 2pff-a1-m1-cA_2pff-a1-m1-cG 2pff-a1-m1-cD_2pff-a1-m1-cG 2pff-a1-m2-cA_2pff-a1-m2-cD 2pff-a1-m2-cA_2pff-a1-m2-cG XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXVTFKDKYVLITGAGKGSIGAEVLQGLLQGGAKVVVTTSRFSKQVTDYYQSIYAKYGAKGSTLIVVPFNQGSKQDVEALIEFIYDTEKNGGLGWDLDAIIPFAAIPEQGIELEHIDSKSEFAHRIMLTNILRMMGCVKKQKSARGIETRPAQVILPMSPNHGTFGGDGMYSESKLSLETLFNRWHSESWANQLTVCGAIIGWTRGTGLMSANNIIAEGIEKMGVRTFSQKEMAFNLLGLLTPEVVELCQKSPVMADLNGGLQFVPELKEFTAKLRKELVETSEVRKAVSIETALEHKVVNGNSADAAYAPRANIQLDFPELKPYKQVKQIAPAELEGLLDLERVIVVTGFAEVGPWGSARTRWEMEAFGEFSLEGCVEMAWIMGFISYHNGNLKGRPYTGWVDSKTKEPVDDKDVKAKYETSILEHSGIRLIEPELFNGYNPEKKEMIQEVIVEEDLEPFEASKETAEQFKHQHGDKVDIFEIPETGEYSVKLLKGATLYIPKALRFDRLVAGQIPTGWNAKTYGISDDIISQVDPITLFVLVSVVEAFIASGITDPYEMYKYVHVSEVGNCSGSGMGGVSALRGMFKDRFKDEPVQNDILQESFINTMSAWVNMLLISSSGPIKTPVGACATSVESVDIGVETILSGKARICIVGGYDDFQEEGSFEFGNMKATSNTLEEFEHGRTPAEMSRPATTTRNGFMEAQGAGIQIIMQADLALKMGVPIYGIVAMAATATDKIGRSVPAPGKGILTTAREHHSSVKYASPNLNMKYRKRQLVTREAQIKDWVENELEALKLEAEEIPSEDQNEFLLERTREIHNEAESQLRAAQQQWGNDFYKRDPRIAPLRGALATYGLTIDDLGVASFHGTSTKANDKNESATINEMMKHLGRSEGNPVIGVFQKFLTGHPKGAAGAWMMNGALQILNSGIIPGNRNADNVDKILEQFEYVLYPSKTLKTDGVRAVSITSFGFGQKGGQAIVVHPDYLYGAITEDRYNEYVAKVSAREKSAYKFFHNGMIYNKLFVSKEHAPYTDELEEDVYLDPLARVSKDKKSGSLTFNSKNIQSKDSYXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2pff-a1-m2-cE_2pff-a1-m2-cH Structural Insights of Yeast Fatty Acid Synthase P07149 P07149 4 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 2006 2006 2pff-a1-m1-cB_2pff-a1-m1-cE 2pff-a1-m1-cB_2pff-a1-m1-cH 2pff-a1-m1-cE_2pff-a1-m1-cH 2pff-a1-m2-cB_2pff-a1-m2-cE 2pff-a1-m2-cB_2pff-a1-m2-cH 6jsh-a1-m1-cB_6jsh-a1-m1-cF 6jsh-a1-m1-cB_6jsh-a1-m1-cG 6jsh-a1-m1-cF_6jsh-a1-m1-cG 6jsi-a1-m1-cB_6jsi-a1-m1-cF 6jsi-a1-m1-cB_6jsi-a1-m1-cG 6jsi-a1-m1-cF_6jsi-a1-m1-cG MDAYSTRPLTLSHGSLEHVLLVPTASFFIASQLQEQFNKILPEPTEGFAADDEPTTPAELVGKFLGYVSSLVEPSKVGQFDQVLNLCLTEFENCYLEGNDIHALAAKLLQENDTTLVKTKELIKNYITARIMAKRPFDKKSNSALFRAVGEGNAQLVAIFGGQGNTDDYFEELRDLYQTYHVLVGDLIKFSAETLSELIRTTLDAEKVFTQGLNILEWLENPSNTPDKDYLLSIPISCPLIGVIQLAHYVVTAKLLGFTPGELRSYLKGATGHSQGLVTAVAIAETDSWESFFVSVRKAITVLFFIGVRCYEAYPNTSLPPSILEDSLENNEGVPSPMLSISNLTQEQVQDYVNKTNSHLPAGKQVEISLVNGAKNLVVSGPPQSLYGLNLTLRKAKAPSGLDQSRIPFSERKLKFSNRFLPVASPFHSHLLVPASDLINKDLVKNNVSFNAKDIQIPVYDTFDGSDLRVLSGSISERIVDCIIRLPVKWETTTQFKATHILDFGPGGASGLGVLTHRNKDGTGVRVIVAGTLDINPDDDYGFKQXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXQGSQEQGMGMDLYKTSKAAQDVWNRADNHFKDTYGFSILDIVINNPVNLTIHFGGEKGKRIRENYSAMIFETIVDGKLKTEKIFKEINEHSTSYTFRSEKGLLSATQFTQPALTLMEKAAFEDLKSKGLIPADATFAGHSLGEYAALASLADVMSIESLVEVVFYRGMTMQVAVPRDELGRSNYGMIAINPGRVAASFSQEALQYVVERVGKRTGWLVEIVNYNVENQQYVAAGDLRALDTVTNVLNFIKLQKIDIIELQKSLSLEEVEGHLFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX MDAYSTRPLTLSHGSLEHVLLVPTASFFIASQLQEQFNKILPEPTEGFAADDEPTTPAELVGKFLGYVSSLVEPSKVGQFDQVLNLCLTEFENCYLEGNDIHALAAKLLQENDTTLVKTKELIKNYITARIMAKRPFDKKSNSALFRAVGEGNAQLVAIFGGQGNTDDYFEELRDLYQTYHVLVGDLIKFSAETLSELIRTTLDAEKVFTQGLNILEWLENPSNTPDKDYLLSIPISCPLIGVIQLAHYVVTAKLLGFTPGELRSYLKGATGHSQGLVTAVAIAETDSWESFFVSVRKAITVLFFIGVRCYEAYPNTSLPPSILEDSLENNEGVPSPMLSISNLTQEQVQDYVNKTNSHLPAGKQVEISLVNGAKNLVVSGPPQSLYGLNLTLRKAKAPSGLDQSRIPFSERKLKFSNRFLPVASPFHSHLLVPASDLINKDLVKNNVSFNAKDIQIPVYDTFDGSDLRVLSGSISERIVDCIIRLPVKWETTTQFKATHILDFGPGGASGLGVLTHRNKDGTGVRVIVAGTLDINPDDDYGFKQXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXQGSQEQGMGMDLYKTSKAAQDVWNRADNHFKDTYGFSILDIVINNPVNLTIHFGGEKGKRIRENYSAMIFETIVDGKLKTEKIFKEINEHSTSYTFRSEKGLLSATQFTQPALTLMEKAAFEDLKSKGLIPADATFAGHSLGEYAALASLADVMSIESLVEVVFYRGMTMQVAVPRDELGRSNYGMIAINPGRVAASFSQEALQYVVERVGKRTGWLVEIVNYNVENQQYVAAGDLRALDTVTNVLNFIKLQKIDIIELQKSLSLEEVEGHLFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 2pfi-a1-m1-cA_2pfi-a1-m1-cB Crystal structure of the cytoplasmic domain of the human chloride channel ClC-Ka P51800 P51800 1.6 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 148 SHHVRVEHFMNHSITTLAKDTPLEEVVKVVTSTDVTEYPLVESTESQILVGIVQRAQLVQALQAGHQQCLQDILARGCPTEPVTLTLFSETTLHQAQNLFKLLNLQSLFVTSRGRAVGCVSWVEMKKAISNLTNPPAPKEFLEVL SHHVRVEHFMNHSITTLAKDTPLEEVVKVVTSTDVTEYPLVESTESQILVGIVQRAQLVQALQAEPPGHQQCLQDILARGCPTEPVTLTLFSETTLHQAQNLFKLLNLQSLFVTSRGRAVGCVSWVEMKKAISNLTNPPAPKEFLEVL 2pfk-a2-m1-cC_2pfk-a2-m1-cD THE CRYSTAL STRUCTURE OF UNLIGANDED PHOSPHOFRUCTOKINASE FROM ESCHERICHIA COLI P0A796 P0A796 2.4 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 301 305 1pfk-a1-m1-cA_1pfk-a1-m1-cB 1pfk-a1-m2-cA_1pfk-a1-m2-cB 2pfk-a1-m1-cA_2pfk-a1-m1-cB MIKKIGVLTSGGDAPGMNAAIRGVVRSALTEGLEVMGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFRDENIRAVAIENLKKRGIDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFVVVPEVEFSREDLVNEIKAGIAKGKKHAIVAITEHMCDVDELAHFIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIDLLLAGYGGRCVGIQNEQLVHHDIIDAI MIKKIGVLTSGGDAPGMNAAIRGVVRSALTEGLEVMGIYDGYLGLYEDRMVQLDRYSVSDMINRGGTFLGSARFPEFRDENIRAVAIENLKKRGIDALVVIGGDGSYMGAMRLTEMGFPCIGLPGTIDNDIKGTDYTIGFFTALSTVVEAIDRLRDTSSSHQRISVVEVMGRYCGDLTLAAAIAGGCEFVVVPEVEFSREDLVNEIKAGIAKGKKHAIVAITEHMCDVDELAHFIEKETGRETRATVLGHIQRGGSPVPYDRILASRMGAYAIDLLLAGYGGRCVGIQNEQLVHHDIIDAIENMK 2pfm-a1-m1-cA_2pfm-a1-m2-cB Crystal Structure of Adenylosuccinate Lyase (PurB) from Bacillus anthracis A0A6L8PR48 A0A6L8PR48 2 X-RAY DIFFRACTION 130 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 434 434 2pfm-a1-m1-cB_2pfm-a1-m2-cA ISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPALGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAANTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA ISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPALGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAANTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA 2pfm-a1-m1-cB_2pfm-a1-m2-cB Crystal Structure of Adenylosuccinate Lyase (PurB) from Bacillus anthracis A0A6L8PR48 A0A6L8PR48 2 X-RAY DIFFRACTION 179 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 434 434 2pfm-a1-m1-cA_2pfm-a1-m2-cA ISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPALGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAANTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA ISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPALGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAANTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA 2pfm-a1-m2-cA_2pfm-a1-m2-cB Crystal Structure of Adenylosuccinate Lyase (PurB) from Bacillus anthracis A0A6L8PR48 A0A6L8PR48 2 X-RAY DIFFRACTION 268 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 434 434 2pfm-a1-m1-cA_2pfm-a1-m1-cB ISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPALGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAANTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA ISRYTRPEMGAIWTEENKFKAWLEVEILACEAWAELGDIPKEDVKKIREHASFDIDRIYEIEKETRHDVVAFTRAVSETPALGEERKWVHYGLTSTDVVDTALSYILKQANEIILKDLENFVSILANKAKEHKYTIMMGRTHGVHAEPTTFGLKLGLWYEEMKRNVERFKQAANTVRVGKLSGAVGTYANIDPFVEKYVCENLGLEAAPISTQTLQRDRHAHYMSTLALIATSIEKMAVEIRGLQKSETREVEEAFAKGQKGSSAMPHKRNPIGSENMTGLARVIRGYMMTAYENVPLWHERDISHSSAERVILPDATIALNYMLNRFGNIVKNLTVYPENMKRNMTRTYGLIYSQRVMLTLIDKGMVREEAYDIVQPKAMEAWETQVQFKELVEADERITSKLTQEEINECFNYEHHMQHVDTIFERLGLNEA 2pfr-a3-m2-cB_2pfr-a3-m1-cA Human N-acetyltransferase 2 P11245 P11245 1.92 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 287 290 SDIEAYFERIGYKNKLDLETLTDILEHQIRAVPFENLNMHCGQAMELGLEAIFDHIVRRNRGGWCLQVNQLLYWALTTIGFQTTMLGGYFYIPPVNKYSTGMVHLLLQVTIDGRNYIVDAGSGSSSQMWQPLELISGKDQPQVPCIFCLTEERGIWYLDQIRREQYITNKEFLNSHLLPKKKHQKIYLFTLEPRTIEDFESMNTYLQTSPTSSFITTSFCSLQTPEGVYCLVGFILTYRKFNYKDNTDLVEFKTLTEEEVEEVLKNIFKISLGRNLVPKPGDGSLTI SDIEAYFERIGYKNSRNKLDLETLTDILEHQIRAVPFENLNMHCGQAMELGLEAIFDHIVRRNRGGWCLQVNQLLYWALTTIGFQTTMLGGYFYIPPVNKYSTGMVHLLLQVTIDGRNYIVDAGSGSSSQMWQPLELISGKDQPQVPCIFCLTEERGIWYLDQIRREQYITNKEFLNSHLLPKKKHQKIYLFTLEPRTIEDFESMNTYLQTSPTSSFITTSFCSLQTPEGVYCLVGFILTYRKFNYKDNTDLVEFKTLTEEEVEEVLKNIFKISLGRNLVPKPGDGSLTI 2pfw-a1-m1-cB_2pfw-a1-m1-cA CRYSTAL STRUCTURE OF A RMLC-LIKE CUPIN (SFRI_3105) FROM SHEWANELLA FRIGIDIMARINA NCIMB 400 AT 1.90 A RESOLUTION Q07YH2 Q07YH2 1.9 X-RAY DIFFRACTION 122 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 108 109 QQSEHFSFGEQTEIEDIGGGLKRQLGFNHELAVKIWFDKGAEGYVHAHRHSQVSYVVEGEFHVNVDGVIKVLTAGDSFFVPPHVDHGAVCPTGGILIDTFSPAREDFV QQSEHFSFGEQTEIEDIGGGLKRQLGFNHELAVKIWFDKGAEGYVHAHRHSQVSYVVEGEFHVNVDGVIKVLTAGDSFFVPPHVDHGAVCPTGGILIDTFSPAREDFVE 2pfx-a1-m1-cA_2pfx-a1-m3-cB Crystal structure of uncharacterized peroxidase-related protein (YP_614459.1) from Silicibacter sp. TM1040 at 1.70 A resolution Q1GDR9 Q1GDR9 1.7 X-RAY DIFFRACTION 54 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 178 178 2pfx-a1-m1-cB_2pfx-a1-m2-cA 2pfx-a1-m2-cB_2pfx-a1-m3-cA GTKPKEPTALDLPADPLPDETQKYFEICQEKLGVPNVLKAYAFNVEKLNAFTAYNDLLGESQLSKLEREIAVVVSSINKCFYCLVAHGAAVRQLSGDPQLGELVNYRVAPLDARQRVLDFAAKTRASAEIEEADREVLRSHGFNDRDIWDIANVTGFFNTNRVASATAPNAEYHGQFR GTKPKEPTALDLPADPLPDETQKYFEICQEKLGVPNVLKAYAFNVEKLNAFTAYNDLLGESQLSKLEREIAVVVSSINKCFYCLVAHGAAVRQLSGDPQLGELVNYRVAPLDARQRVLDFAAKTRASAEIEEADREVLRSHGFNDRDIWDIANVTGFFNTNRVASATAPNAEYHGQFR 2pfx-a1-m3-cA_2pfx-a1-m3-cB Crystal structure of uncharacterized peroxidase-related protein (YP_614459.1) from Silicibacter sp. TM1040 at 1.70 A resolution Q1GDR9 Q1GDR9 1.7 X-RAY DIFFRACTION 103 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 178 178 2pfx-a1-m1-cA_2pfx-a1-m1-cB 2pfx-a1-m2-cA_2pfx-a1-m2-cB GTKPKEPTALDLPADPLPDETQKYFEICQEKLGVPNVLKAYAFNVEKLNAFTAYNDLLGESQLSKLEREIAVVVSSINKCFYCLVAHGAAVRQLSGDPQLGELVNYRVAPLDARQRVLDFAAKTRASAEIEEADREVLRSHGFNDRDIWDIANVTGFFNTNRVASATAPNAEYHGQFR GTKPKEPTALDLPADPLPDETQKYFEICQEKLGVPNVLKAYAFNVEKLNAFTAYNDLLGESQLSKLEREIAVVVSSINKCFYCLVAHGAAVRQLSGDPQLGELVNYRVAPLDARQRVLDFAAKTRASAEIEEADREVLRSHGFNDRDIWDIANVTGFFNTNRVASATAPNAEYHGQFR 2pg0-a1-m1-cB_2pg0-a1-m2-cB Crystal structure of acyl-CoA dehydrogenase from Geobacillus kaustophilus Q5L0D5 Q5L0D5 1.8 X-RAY DIFFRACTION 70 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 377 377 2pg0-a1-m1-cA_2pg0-a1-m2-cA RYLREEHHMFRAAFRKFLEKEAYPHYNDWEKRGIIPRSFWAKMGENGFLCPWVDEKYGGLNADFAYSVVINEELEKVGSSLVGIGLHNDIVTPYIASYGTEEQKQKWLPKCVTGELITAIAMTEPGAGSDLANISTTAVKDGDYYIVNGQKTFITNGIHADLIVVACKTDPQAKPPHRGISLLVVERDTPGFTRGRKLEKVGLHAQDTAELFFQDAKVPAYNLLGEEGKGFYYLMEKLQQERLVVAIAAQTAAEVMFSLTKQYVKQRTAFGKRVSEFQTVQFRLAEMATEIALGRTFVDRVIEEHMAGKQIVTEVSMAKWWITEMAKRVAAEAMQLHGGYGYMEEYEIARRYRDIPVSAIYAGTNEMMKTIIARQLD RYLREEHHMFRAAFRKFLEKEAYPHYNDWEKRGIIPRSFWAKMGENGFLCPWVDEKYGGLNADFAYSVVINEELEKVGSSLVGIGLHNDIVTPYIASYGTEEQKQKWLPKCVTGELITAIAMTEPGAGSDLANISTTAVKDGDYYIVNGQKTFITNGIHADLIVVACKTDPQAKPPHRGISLLVVERDTPGFTRGRKLEKVGLHAQDTAELFFQDAKVPAYNLLGEEGKGFYYLMEKLQQERLVVAIAAQTAAEVMFSLTKQYVKQRTAFGKRVSEFQTVQFRLAEMATEIALGRTFVDRVIEEHMAGKQIVTEVSMAKWWITEMAKRVAAEAMQLHGGYGYMEEYEIARRYRDIPVSAIYAGTNEMMKTIIARQLD 2pg0-a1-m2-cB_2pg0-a1-m2-cA Crystal structure of acyl-CoA dehydrogenase from Geobacillus kaustophilus Q5L0D5 Q5L0D5 1.8 X-RAY DIFFRACTION 98 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 377 380 2pg0-a1-m1-cB_2pg0-a1-m1-cA RYLREEHHMFRAAFRKFLEKEAYPHYNDWEKRGIIPRSFWAKMGENGFLCPWVDEKYGGLNADFAYSVVINEELEKVGSSLVGIGLHNDIVTPYIASYGTEEQKQKWLPKCVTGELITAIAMTEPGAGSDLANISTTAVKDGDYYIVNGQKTFITNGIHADLIVVACKTDPQAKPPHRGISLLVVERDTPGFTRGRKLEKVGLHAQDTAELFFQDAKVPAYNLLGEEGKGFYYLMEKLQQERLVVAIAAQTAAEVMFSLTKQYVKQRTAFGKRVSEFQTVQFRLAEMATEIALGRTFVDRVIEEHMAGKQIVTEVSMAKWWITEMAKRVAAEAMQLHGGYGYMEEYEIARRYRDIPVSAIYAGTNEMMKTIIARQLD TARYLREEHHMFRAAFRKFLEKEAYPHYNDWEKRGIIPRSFWAKMGENGFLCPWVDEKYGGLNADFAYSVVINEELEKVGSSLVGIGLHNDIVTPYIASYGTEEQKQKWLPKCVTGELITAIAMTEPGAGSDLANISTTAVKDGDYYIVNGQKTFITNGIHADLIVVACKTDPQAKPPHRGISLLVVERDTPGFTRGRKLEKVGLHAQDTAELFFQDAKVPAYNLLGEEGKGFYYLMEKLQQERLVVAIAAQTAAEVMFSLTKQYVKQRTAFGKRVSEFQTVQFRLAEMATEIALGRTFVDRVIEEHMAGKQIVTEVSMAKWWITEMAKRVAAEAMQLHGGYGYMEEYEIARRYRDIPVSAIYAGTNEMMKTIIARQLDL 2pg1-a3-m1-cE_2pg1-a3-m1-cG Structural analysis of a cytoplasmic dynein Light Chain-Intermediate Chain complex Q94524 Q94524 2.8 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 101 101 SQFIVDDVSKTIKEAIETTIGGNAYQHDKVNNWTGQVVENCLTVLTKEQKPYKYIVTAIQKNGAGLHTASSCYWNNDTDGSCTVRWENKTYCIVSVFGLAV SQFIVDDVSKTIKEAIETTIGGNAYQHDKVNNWTGQVVENCLTVLTKEQKPYKYIVTAIQKNGAGLHTASSCYWNNDTDGSCTVRWENKTYCIVSVFGLAV 2pg1-a3-m1-cF_2pg1-a3-m1-cG Structural analysis of a cytoplasmic dynein Light Chain-Intermediate Chain complex Q94524 Q94524 2.8 X-RAY DIFFRACTION 117 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 100 101 1ygt-a1-m1-cA_1ygt-a1-m2-cA 2pg1-a1-m1-cF_2pg1-a1-m1-cG 2pg1-a2-m1-cH_2pg1-a2-m1-cE 2pg1-a3-m1-cH_2pg1-a3-m1-cE 3fm7-a1-m1-cA_3fm7-a1-m1-cB QFIVDDVSKTIKEAIETTIGGNAYQHDKVNNWTGQVVENCLTVLTKEQKPYKYIVTAIQKNGAGLHTASSCYWNNDTDGSCTVRWENKTYCIVSVFGLAV SQFIVDDVSKTIKEAIETTIGGNAYQHDKVNNWTGQVVENCLTVLTKEQKPYKYIVTAIQKNGAGLHTASSCYWNNDTDGSCTVRWENKTYCIVSVFGLAV 2pg1-a3-m1-cK_2pg1-a3-m1-cL Structural analysis of a cytoplasmic dynein Light Chain-Intermediate Chain complex Q62871 Q62871 2.8 X-RAY DIFFRACTION 20 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 29 29 IKLGMAKITQVDFPPREIVTYTKETQTPV IKLGMAKITQVDFPPREIVTYTKETQTPV 2pg3-a1-m1-cA_2pg3-a1-m2-cA Crystal structure of a Queuosine biosynthesis protein queC (ECA1155) from Erwinia carotovora subsp. atroseptica SCRI1043 at 2.40 A resolution Q6D820 Q6D820 2.4 X-RAY DIFFRACTION 154 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 218 218 KRAVVVFSGGQDSTTCLIQALQDYDDVHCITFDYGQRHRAEIEVAQELSQKLGAAAHKVLDVGLLNELATSSLTRDSIPVPDNTFVPGRNILFLTLASIYAYQVGAEAVITGVCETDFSGYPDCRDEFVKALNQAIVLGIARDIRFETPLWLNKAETWALADYYQQLDTVRYHTLTCYNGIKGDGCGQCAACHLRANGLAQYQKDAATVASLKQKVGL KRAVVVFSGGQDSTTCLIQALQDYDDVHCITFDYGQRHRAEIEVAQELSQKLGAAAHKVLDVGLLNELATSSLTRDSIPVPDNTFVPGRNILFLTLASIYAYQVGAEAVITGVCETDFSGYPDCRDEFVKALNQAIVLGIARDIRFETPLWLNKAETWALADYYQQLDTVRYHTLTCYNGIKGDGCGQCAACHLRANGLAQYQKDAATVASLKQKVGL 2pg4-a3-m1-cA_2pg4-a3-m3-cA Crystal structure of a putative dna binding protein (ape_0880a) from aeropyrum pernix k1 at 2.21 A resolution Q9YDN4 Q9YDN4 2.21 X-RAY DIFFRACTION 19 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 90 90 DDETLRLQFGHLIRILPTLLEFEKKGYEPSLAEIVKASGVSEKTFFGLKDRLIRAGLVKEETLSYRVKTLKLTEKGRRLAECLEKCRDVL DDETLRLQFGHLIRILPTLLEFEKKGYEPSLAEIVKASGVSEKTFFGLKDRLIRAGLVKEETLSYRVKTLKLTEKGRRLAECLEKCRDVL 2pg4-a4-m1-cB_2pg4-a4-m4-cB Crystal structure of a putative dna binding protein (ape_0880a) from aeropyrum pernix k1 at 2.21 A resolution Q9YDN4 Q9YDN4 2.21 X-RAY DIFFRACTION 27 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 90 90 DETLRLQFGHLIRILPTLLEFEKKGYEPSLAEIVKASGVSEKTFFGLKDRLIRAGLVKEETLSYRVKTLKLTEKGRRLAECLEKCRDVLG DETLRLQFGHLIRILPTLLEFEKKGYEPSLAEIVKASGVSEKTFFGLKDRLIRAGLVKEETLSYRVKTLKLTEKGRRLAECLEKCRDVLG 2pg4-a4-m4-cA_2pg4-a4-m4-cB Crystal structure of a putative dna binding protein (ape_0880a) from aeropyrum pernix k1 at 2.21 A resolution Q9YDN4 Q9YDN4 2.21 X-RAY DIFFRACTION 58 0.989 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 90 90 2pg4-a1-m1-cA_2pg4-a1-m1-cB 2pg4-a2-m1-cA_2pg4-a2-m1-cB 2pg4-a2-m2-cA_2pg4-a2-m2-cB 2pg4-a3-m1-cA_2pg4-a3-m1-cB 2pg4-a3-m3-cA_2pg4-a3-m3-cB 2pg4-a4-m1-cA_2pg4-a4-m1-cB DDETLRLQFGHLIRILPTLLEFEKKGYEPSLAEIVKASGVSEKTFFGLKDRLIRAGLVKEETLSYRVKTLKLTEKGRRLAECLEKCRDVL DETLRLQFGHLIRILPTLLEFEKKGYEPSLAEIVKASGVSEKTFFGLKDRLIRAGLVKEETLSYRVKTLKLTEKGRRLAECLEKCRDVLG 2pgc-a1-m1-cA_2pgc-a1-m1-cE Crystal structure of a a marine metagenome protein (jcvi_pep_1096685590403) from uncultured marine organism at 2.53 A resolution 2.53 X-RAY DIFFRACTION 58 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 198 198 2pgc-a1-m1-cB_2pgc-a1-m1-cD SNINYVILTVASVDFSYRETARLSSYSKDLIDNAGAKGTRFGSIGTGDHAGSLIFIQFYDDLTGYQKALEIQSKSSVFKEIDSGKANIYLRNISTSLPTKFEQSYEHPKYIVLTRAEAASDKDKFLNCINDTASCFKDNGALTLRFGNLLTGSNVGNYLLGVGYPSEAIEKTYDELLAHSSYKELTFAKVNRNIIKIL SNINYVILTVASVDFSYRETARLSSYSKDLIDNAGAKGTRFGSIGTGDHAGSLIFIQFYDDLTGYQKALEIQSKSSVFKEIDSGKANIYLRNISTSLPTKFEQSYEHPKYIVLTRAEAASDKDKFLNCINDTASCFKDNGALTLRFGNLLTGSNVGNYLLGVGYPSEAIEKTYDELLAHSSYKELTFAKVNRNIIKIL 2pgc-a1-m1-cC_2pgc-a1-m1-cD Crystal structure of a a marine metagenome protein (jcvi_pep_1096685590403) from uncultured marine organism at 2.53 A resolution 2.53 X-RAY DIFFRACTION 43 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 196 198 2pgc-a1-m1-cA_2pgc-a1-m1-cB INYVILTVASVDFSYRETARLSSYSKDLIDNAGAKGTRFGSIGTGDHAGSLIFIQFYDDLTGYQKALEIQSKSSVFKEIDSGKANIYLRNISTSLPTKFEQSYEHPKYIVLTRAEAASDKDKFLNCINDTASCFKDNGALTLRFGNLLTGSNVGNYLLGVGYPSEAIEKTYDELLAHSSYKELTFAKVNRNIIKIL SNINYVILTVASVDFSYRETARLSSYSKDLIDNAGAKGTRFGSIGTGDHAGSLIFIQFYDDLTGYQKALEIQSKSSVFKEIDSGKANIYLRNISTSLPTKFEQSYEHPKYIVLTRAEAASDKDKFLNCINDTASCFKDNGALTLRFGNLLTGSNVGNYLLGVGYPSEAIEKTYDELLAHSSYKELTFAKVNRNIIKIL 2pgc-a1-m1-cC_2pgc-a1-m1-cE Crystal structure of a a marine metagenome protein (jcvi_pep_1096685590403) from uncultured marine organism at 2.53 A resolution 2.53 X-RAY DIFFRACTION 48 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 196 198 INYVILTVASVDFSYRETARLSSYSKDLIDNAGAKGTRFGSIGTGDHAGSLIFIQFYDDLTGYQKALEIQSKSSVFKEIDSGKANIYLRNISTSLPTKFEQSYEHPKYIVLTRAEAASDKDKFLNCINDTASCFKDNGALTLRFGNLLTGSNVGNYLLGVGYPSEAIEKTYDELLAHSSYKELTFAKVNRNIIKIL SNINYVILTVASVDFSYRETARLSSYSKDLIDNAGAKGTRFGSIGTGDHAGSLIFIQFYDDLTGYQKALEIQSKSSVFKEIDSGKANIYLRNISTSLPTKFEQSYEHPKYIVLTRAEAASDKDKFLNCINDTASCFKDNGALTLRFGNLLTGSNVGNYLLGVGYPSEAIEKTYDELLAHSSYKELTFAKVNRNIIKIL 2pgd-a1-m1-cA_2pgd-a1-m2-cA THE STRUCTURE OF 6-PHOSPHOGLUCONATE DEHYDROGENASE REFINED AT 2 ANGSTROMS RESOLUTION P00349 P00349 2 X-RAY DIFFRACTION 375 1.0 9940 (Ovis aries) 9940 (Ovis aries) 473 473 1pgn-a1-m1-cA_1pgn-a1-m2-cA 1pgo-a1-m1-cA_1pgo-a1-m2-cA 1pgp-a1-m1-cA_1pgp-a1-m2-cA 1pgq-a1-m1-cA_1pgq-a1-m2-cA 2jkv-a1-m1-cA_2jkv-a1-m1-cB 2jkv-a2-m1-cC_2jkv-a2-m1-cD 2jkv-a3-m1-cF_2jkv-a3-m1-cE 4gwg-a2-m1-cA_4gwg-a2-m2-cA 4gwk-a2-m1-cA_4gwk-a2-m2-cA 5uq9-a1-m1-cA_5uq9-a1-m1-cB 5uq9-a2-m1-cC_5uq9-a2-m1-cD 5uq9-a3-m1-cE_5uq9-a3-m1-cF 5uq9-a4-m1-cG_5uq9-a4-m1-cH AQADIALIGLAVMGQNLILNMNDHGFVVCAFNRTVSKVDDFLANEAKGTKVLGAHSLEEMVSKLKKPRRIILLVKAGQAVDNFIEKLVPLLDIGDIIIDGGNSEYRDTMRRCRDLKDKGILFVGSGVSGGEDGARYGPSLMPGGNKEAWPHIKAIFQGIAAKVGTGEPCCDWVGDDGAGHFVKMVHNGIEYGDMQLICEAYHLMKDVLGLGHKEMAKAFEEWNKTELDSFLIEITASILKFQDADGKHLLPKIRDSAGQKGTGKWTAISALEYGVPVTLIGEAVFARCLSSLKDERIQASKKLKGPQNIPFEGDKKSFLEDIRKALYASKIISYAQGFMLLRQAATEFGWTLNYGGIALMWRGGCIIRSVFLGKIKDAFDRNPGLQNLLLDDFFKSAVENCQDSWRRAISTGVQAGIPMPCFTTALSFYDGYRHAMLPANLIQAQRDYFGAHTYELLAKPGQFIHTNWTGHGG AQADIALIGLAVMGQNLILNMNDHGFVVCAFNRTVSKVDDFLANEAKGTKVLGAHSLEEMVSKLKKPRRIILLVKAGQAVDNFIEKLVPLLDIGDIIIDGGNSEYRDTMRRCRDLKDKGILFVGSGVSGGEDGARYGPSLMPGGNKEAWPHIKAIFQGIAAKVGTGEPCCDWVGDDGAGHFVKMVHNGIEYGDMQLICEAYHLMKDVLGLGHKEMAKAFEEWNKTELDSFLIEITASILKFQDADGKHLLPKIRDSAGQKGTGKWTAISALEYGVPVTLIGEAVFARCLSSLKDERIQASKKLKGPQNIPFEGDKKSFLEDIRKALYASKIISYAQGFMLLRQAATEFGWTLNYGGIALMWRGGCIIRSVFLGKIKDAFDRNPGLQNLLLDDFFKSAVENCQDSWRRAISTGVQAGIPMPCFTTALSFYDGYRHAMLPANLIQAQRDYFGAHTYELLAKPGQFIHTNWTGHGG 2pgi-a2-m2-cA_2pgi-a2-m4-cA THE CRYSTAL STRUCTURE OF PHOSPHOGLUCOSE ISOMERASE-AN ENZYME WITH AUTOCRINE MOTILITY FACTOR ACTIVITY IN TUMOR CELLS P13376 P13376 2.3 X-RAY DIFFRACTION 57 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 442 442 1b0z-a2-m1-cA_1b0z-a2-m3-cA 1b0z-a2-m2-cA_1b0z-a2-m4-cA 1c7r-a2-m1-cA_1c7r-a2-m3-cA 1c7r-a2-m2-cA_1c7r-a2-m4-cA 2pgi-a2-m1-cA_2pgi-a2-m3-cA AISFDYSNALPFMQENELDYLSEFVKAAHHMLHERKGPGSDFLGWVDWPIRYDKNEFSRIKQAAERIRNHSDALVVIGIGGSYLGARAAIEALSHTFHNQMNDTTQIYFAGQNISSTYISHLLDVLEGKDLSINVISKSGTTTEPAIAFRIFRDYMEKKYGKEEARKRIYVTTDRTKGALKKLADQEGYETFVIPDNIGGRYSVLTAVGLLPIAVAGLNIDRMMEGAASAYHKYNNPDLLTNESYQYAAVRNILYRKGKAIELLVNYEPSLHYVSEWWKQLFGESEGKDQKGLFPASVDFTTDLHSMGQYVQEGRRNLIETVLHVKKPQIELTIQEDPENIDGLNFLAGKTLDEVNKKAFQGTLLAHVDGGVPNLIVELDEMNEYTFGEMVYFFEKACGISGHLLGVNPFDQPGVEAYKKNMFALLGKPGFEDEKAALMKRL AISFDYSNALPFMQENELDYLSEFVKAAHHMLHERKGPGSDFLGWVDWPIRYDKNEFSRIKQAAERIRNHSDALVVIGIGGSYLGARAAIEALSHTFHNQMNDTTQIYFAGQNISSTYISHLLDVLEGKDLSINVISKSGTTTEPAIAFRIFRDYMEKKYGKEEARKRIYVTTDRTKGALKKLADQEGYETFVIPDNIGGRYSVLTAVGLLPIAVAGLNIDRMMEGAASAYHKYNNPDLLTNESYQYAAVRNILYRKGKAIELLVNYEPSLHYVSEWWKQLFGESEGKDQKGLFPASVDFTTDLHSMGQYVQEGRRNLIETVLHVKKPQIELTIQEDPENIDGLNFLAGKTLDEVNKKAFQGTLLAHVDGGVPNLIVELDEMNEYTFGEMVYFFEKACGISGHLLGVNPFDQPGVEAYKKNMFALLGKPGFEDEKAALMKRL 2pgi-a2-m3-cA_2pgi-a2-m4-cA THE CRYSTAL STRUCTURE OF PHOSPHOGLUCOSE ISOMERASE-AN ENZYME WITH AUTOCRINE MOTILITY FACTOR ACTIVITY IN TUMOR CELLS P13376 P13376 2.3 X-RAY DIFFRACTION 394 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 442 442 1b0z-a1-m1-cA_1b0z-a1-m2-cA 1b0z-a2-m1-cA_1b0z-a2-m2-cA 1b0z-a2-m3-cA_1b0z-a2-m4-cA 1c7q-a1-m1-cA_1c7q-a1-m2-cA 1c7r-a1-m1-cA_1c7r-a1-m2-cA 1c7r-a2-m1-cA_1c7r-a2-m2-cA 1c7r-a2-m3-cA_1c7r-a2-m4-cA 2pgi-a1-m1-cA_2pgi-a1-m2-cA 2pgi-a2-m1-cA_2pgi-a2-m2-cA AISFDYSNALPFMQENELDYLSEFVKAAHHMLHERKGPGSDFLGWVDWPIRYDKNEFSRIKQAAERIRNHSDALVVIGIGGSYLGARAAIEALSHTFHNQMNDTTQIYFAGQNISSTYISHLLDVLEGKDLSINVISKSGTTTEPAIAFRIFRDYMEKKYGKEEARKRIYVTTDRTKGALKKLADQEGYETFVIPDNIGGRYSVLTAVGLLPIAVAGLNIDRMMEGAASAYHKYNNPDLLTNESYQYAAVRNILYRKGKAIELLVNYEPSLHYVSEWWKQLFGESEGKDQKGLFPASVDFTTDLHSMGQYVQEGRRNLIETVLHVKKPQIELTIQEDPENIDGLNFLAGKTLDEVNKKAFQGTLLAHVDGGVPNLIVELDEMNEYTFGEMVYFFEKACGISGHLLGVNPFDQPGVEAYKKNMFALLGKPGFEDEKAALMKRL AISFDYSNALPFMQENELDYLSEFVKAAHHMLHERKGPGSDFLGWVDWPIRYDKNEFSRIKQAAERIRNHSDALVVIGIGGSYLGARAAIEALSHTFHNQMNDTTQIYFAGQNISSTYISHLLDVLEGKDLSINVISKSGTTTEPAIAFRIFRDYMEKKYGKEEARKRIYVTTDRTKGALKKLADQEGYETFVIPDNIGGRYSVLTAVGLLPIAVAGLNIDRMMEGAASAYHKYNNPDLLTNESYQYAAVRNILYRKGKAIELLVNYEPSLHYVSEWWKQLFGESEGKDQKGLFPASVDFTTDLHSMGQYVQEGRRNLIETVLHVKKPQIELTIQEDPENIDGLNFLAGKTLDEVNKKAFQGTLLAHVDGGVPNLIVELDEMNEYTFGEMVYFFEKACGISGHLLGVNPFDQPGVEAYKKNMFALLGKPGFEDEKAALMKRL 2pgn-a1-m1-cA_2pgn-a1-m2-cB The crystal structure of FAD and ThDP-dependent Cyclohexane-1,2-dione Hydrolase in Complex with Cyclohexane-1,2-dione 1.2 X-RAY DIFFRACTION 85 1.0 587 587 2pgn-a1-m1-cB_2pgn-a1-m2-cA 2pgo-a1-m1-cA_2pgo-a1-m2-cB 2pgo-a1-m1-cB_2pgo-a1-m2-cA 4d5e-a1-m1-cA_4d5e-a1-m2-cB 4d5e-a1-m2-cA_4d5e-a1-m1-cB 4d5g-a1-m1-cA_4d5g-a1-m2-cB 4d5g-a1-m2-cA_4d5g-a1-m1-cB AIKRGADLIVEALEEYGTEQVVGFIGHTSHFVADAFSKSHLGKRVINPATELGGAWMVNGYNYVKDRSAAVGAWHCVGNLLLHAAMQEARTGRIPAVHIGLNSDGRLAGRSEAAQQVPWQSFTPIARSTQRVERLDKVGEAIHEAFRVAEGHPAGPAYVDIPFDLTADQIDDKALVPRGATRAKSVLHAPNEDVREAAAQLVAAKNPVILAGGGVARSGGSEALLKLAEMVGVPVVTTSTGAGVFPETHALAMGSAGFCGWKSANDMMAAADFVLVLGSRLSDWGIAQGYITKMPKFVHVDTDPAVLGTFYFPLLSVVADAKTFMEQLIEVLPGTSGFKAVRYQERENFRQATEFRAAWDGWVREQESGDGMPASMFRAMAEVRKVQRPEDIIVTDIGNHTLPMFGGAILQRPRRLVTSMAEGILGCGFPMALGAQLAEPNSRVFLGTGDGALYYHFNEFRVAVEHKLPVITMVFTNESYGANWTLMNHQFGQNNWTEFMNPDWVGIAKAFGAYGESVRETGDIAGALQRAIDSGKPALIEIPVSKTQGLASDPVGGVGPNLLLKGREIPVDTGGSMYPGENLLHLK AIKRGADLIVEALEEYGTEQVVGFIGHTSHFVADAFSKSHLGKRVINPATELGGAWMVNGYNYVKDRSAAVGAWHCVGNLLLHAAMQEARTGRIPAVHIGLNSDGRLAGRSEAAQQVPWQSFTPIARSTQRVERLDKVGEAIHEAFRVAEGHPAGPAYVDIPFDLTADQIDDKALVPRGATRAKSVLHAPNEDVREAAAQLVAAKNPVILAGGGVARSGGSEALLKLAEMVGVPVVTTSTGAGVFPETHALAMGSAGFCGWKSANDMMAAADFVLVLGSRLSDWGIAQGYITKMPKFVHVDTDPAVLGTFYFPLLSVVADAKTFMEQLIEVLPGTSGFKAVRYQERENFRQATEFRAAWDGWVREQESGDGMPASMFRAMAEVRKVQRPEDIIVTDIGNHTLPMFGGAILQRPRRLVTSMAEGILGCGFPMALGAQLAEPNSRVFLGTGDGALYYHFNEFRVAVEHKLPVITMVFTNESYGANWTLMNHQFGQNNWTEFMNPDWVGIAKAFGAYGESVRETGDIAGALQRAIDSGKPALIEIPVSKTQGLASDPVGGVGPNLLLKGREIPVDTGGSMYPGENLLHLK 2pgn-a1-m1-cB_2pgn-a1-m2-cB The crystal structure of FAD and ThDP-dependent Cyclohexane-1,2-dione Hydrolase in Complex with Cyclohexane-1,2-dione 1.2 X-RAY DIFFRACTION 76 1.0 587 587 2pgn-a1-m1-cA_2pgn-a1-m2-cA 2pgo-a1-m1-cA_2pgo-a1-m2-cA 2pgo-a1-m1-cB_2pgo-a1-m2-cB 4d5e-a1-m1-cA_4d5e-a1-m2-cA 4d5e-a1-m1-cB_4d5e-a1-m2-cB 4d5g-a1-m1-cA_4d5g-a1-m2-cA 4d5g-a1-m1-cB_4d5g-a1-m2-cB AIKRGADLIVEALEEYGTEQVVGFIGHTSHFVADAFSKSHLGKRVINPATELGGAWMVNGYNYVKDRSAAVGAWHCVGNLLLHAAMQEARTGRIPAVHIGLNSDGRLAGRSEAAQQVPWQSFTPIARSTQRVERLDKVGEAIHEAFRVAEGHPAGPAYVDIPFDLTADQIDDKALVPRGATRAKSVLHAPNEDVREAAAQLVAAKNPVILAGGGVARSGGSEALLKLAEMVGVPVVTTSTGAGVFPETHALAMGSAGFCGWKSANDMMAAADFVLVLGSRLSDWGIAQGYITKMPKFVHVDTDPAVLGTFYFPLLSVVADAKTFMEQLIEVLPGTSGFKAVRYQERENFRQATEFRAAWDGWVREQESGDGMPASMFRAMAEVRKVQRPEDIIVTDIGNHTLPMFGGAILQRPRRLVTSMAEGILGCGFPMALGAQLAEPNSRVFLGTGDGALYYHFNEFRVAVEHKLPVITMVFTNESYGANWTLMNHQFGQNNWTEFMNPDWVGIAKAFGAYGESVRETGDIAGALQRAIDSGKPALIEIPVSKTQGLASDPVGGVGPNLLLKGREIPVDTGGSMYPGENLLHLK AIKRGADLIVEALEEYGTEQVVGFIGHTSHFVADAFSKSHLGKRVINPATELGGAWMVNGYNYVKDRSAAVGAWHCVGNLLLHAAMQEARTGRIPAVHIGLNSDGRLAGRSEAAQQVPWQSFTPIARSTQRVERLDKVGEAIHEAFRVAEGHPAGPAYVDIPFDLTADQIDDKALVPRGATRAKSVLHAPNEDVREAAAQLVAAKNPVILAGGGVARSGGSEALLKLAEMVGVPVVTTSTGAGVFPETHALAMGSAGFCGWKSANDMMAAADFVLVLGSRLSDWGIAQGYITKMPKFVHVDTDPAVLGTFYFPLLSVVADAKTFMEQLIEVLPGTSGFKAVRYQERENFRQATEFRAAWDGWVREQESGDGMPASMFRAMAEVRKVQRPEDIIVTDIGNHTLPMFGGAILQRPRRLVTSMAEGILGCGFPMALGAQLAEPNSRVFLGTGDGALYYHFNEFRVAVEHKLPVITMVFTNESYGANWTLMNHQFGQNNWTEFMNPDWVGIAKAFGAYGESVRETGDIAGALQRAIDSGKPALIEIPVSKTQGLASDPVGGVGPNLLLKGREIPVDTGGSMYPGENLLHLK 2pgn-a1-m2-cA_2pgn-a1-m2-cB The crystal structure of FAD and ThDP-dependent Cyclohexane-1,2-dione Hydrolase in Complex with Cyclohexane-1,2-dione 1.2 X-RAY DIFFRACTION 341 1.0 587 587 2pgn-a1-m1-cA_2pgn-a1-m1-cB 2pgo-a1-m1-cA_2pgo-a1-m1-cB 2pgo-a1-m2-cA_2pgo-a1-m2-cB 4d5e-a1-m1-cA_4d5e-a1-m1-cB 4d5e-a1-m2-cA_4d5e-a1-m2-cB 4d5g-a1-m1-cA_4d5g-a1-m1-cB 4d5g-a1-m2-cA_4d5g-a1-m2-cB AIKRGADLIVEALEEYGTEQVVGFIGHTSHFVADAFSKSHLGKRVINPATELGGAWMVNGYNYVKDRSAAVGAWHCVGNLLLHAAMQEARTGRIPAVHIGLNSDGRLAGRSEAAQQVPWQSFTPIARSTQRVERLDKVGEAIHEAFRVAEGHPAGPAYVDIPFDLTADQIDDKALVPRGATRAKSVLHAPNEDVREAAAQLVAAKNPVILAGGGVARSGGSEALLKLAEMVGVPVVTTSTGAGVFPETHALAMGSAGFCGWKSANDMMAAADFVLVLGSRLSDWGIAQGYITKMPKFVHVDTDPAVLGTFYFPLLSVVADAKTFMEQLIEVLPGTSGFKAVRYQERENFRQATEFRAAWDGWVREQESGDGMPASMFRAMAEVRKVQRPEDIIVTDIGNHTLPMFGGAILQRPRRLVTSMAEGILGCGFPMALGAQLAEPNSRVFLGTGDGALYYHFNEFRVAVEHKLPVITMVFTNESYGANWTLMNHQFGQNNWTEFMNPDWVGIAKAFGAYGESVRETGDIAGALQRAIDSGKPALIEIPVSKTQGLASDPVGGVGPNLLLKGREIPVDTGGSMYPGENLLHLK AIKRGADLIVEALEEYGTEQVVGFIGHTSHFVADAFSKSHLGKRVINPATELGGAWMVNGYNYVKDRSAAVGAWHCVGNLLLHAAMQEARTGRIPAVHIGLNSDGRLAGRSEAAQQVPWQSFTPIARSTQRVERLDKVGEAIHEAFRVAEGHPAGPAYVDIPFDLTADQIDDKALVPRGATRAKSVLHAPNEDVREAAAQLVAAKNPVILAGGGVARSGGSEALLKLAEMVGVPVVTTSTGAGVFPETHALAMGSAGFCGWKSANDMMAAADFVLVLGSRLSDWGIAQGYITKMPKFVHVDTDPAVLGTFYFPLLSVVADAKTFMEQLIEVLPGTSGFKAVRYQERENFRQATEFRAAWDGWVREQESGDGMPASMFRAMAEVRKVQRPEDIIVTDIGNHTLPMFGGAILQRPRRLVTSMAEGILGCGFPMALGAQLAEPNSRVFLGTGDGALYYHFNEFRVAVEHKLPVITMVFTNESYGANWTLMNHQFGQNNWTEFMNPDWVGIAKAFGAYGESVRETGDIAGALQRAIDSGKPALIEIPVSKTQGLASDPVGGVGPNLLLKGREIPVDTGGSMYPGENLLHLK 2pgs-a1-m2-cA_2pgs-a1-m6-cA Crystal structure of a putative deoxyguanosinetriphosphate triphosphohydrolase from Pseudomonas syringae pv. phaseolicola 1448A Q48JX0 Q48JX0 2.35 X-RAY DIFFRACTION 59 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 382 382 2pgs-a1-m1-cA_2pgs-a1-m4-cA 2pgs-a1-m3-cA_2pgs-a1-m5-cA SLDWQTLLNRERLPFHKDHDRIIFSGAFRRLGRKTQVHPHTRLTHSLEVSCVGRSLGRVGETLRAALPDWCDPSDLGVVQSACLAHDIGNPPFGHSGEDAIRNWFNQAAGRGWLDASETERNDFLNFEGNAQGFRVLTQLEYHQFDGGTRLTYATLGTYLKYPWTARKHKFGCYQSELPILEQIAGKLGLPQLEEQRWARHPLVYLEAADDICYALIDLEDGLEDLLDYAEVESLLLGLVGRRKLAILRGKAIEHLTNAAARAFVEQQDALLAGTLPGDLVEHHGPAKRCVLNAKDARKKIFQDKRKTLHEIGAYTTLEILLNAFCGAAVEQFGGRTPSFKHRRILDLLGNSAPDPKAPLHASFLRIDFIAGTDSYASEARE SLDWQTLLNRERLPFHKDHDRIIFSGAFRRLGRKTQVHPHTRLTHSLEVSCVGRSLGRVGETLRAALPDWCDPSDLGVVQSACLAHDIGNPPFGHSGEDAIRNWFNQAAGRGWLDASETERNDFLNFEGNAQGFRVLTQLEYHQFDGGTRLTYATLGTYLKYPWTARKHKFGCYQSELPILEQIAGKLGLPQLEEQRWARHPLVYLEAADDICYALIDLEDGLEDLLDYAEVESLLLGLVGRRKLAILRGKAIEHLTNAAARAFVEQQDALLAGTLPGDLVEHHGPAKRCVLNAKDARKKIFQDKRKTLHEIGAYTTLEILLNAFCGAAVEQFGGRTPSFKHRRILDLLGNSAPDPKAPLHASFLRIDFIAGTDSYASEARE 2pgs-a1-m5-cA_2pgs-a1-m6-cA Crystal structure of a putative deoxyguanosinetriphosphate triphosphohydrolase from Pseudomonas syringae pv. phaseolicola 1448A Q48JX0 Q48JX0 2.35 X-RAY DIFFRACTION 25 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 382 382 2pgs-a1-m1-cA_2pgs-a1-m2-cA 2pgs-a1-m1-cA_2pgs-a1-m3-cA 2pgs-a1-m2-cA_2pgs-a1-m3-cA 2pgs-a1-m4-cA_2pgs-a1-m5-cA 2pgs-a1-m4-cA_2pgs-a1-m6-cA SLDWQTLLNRERLPFHKDHDRIIFSGAFRRLGRKTQVHPHTRLTHSLEVSCVGRSLGRVGETLRAALPDWCDPSDLGVVQSACLAHDIGNPPFGHSGEDAIRNWFNQAAGRGWLDASETERNDFLNFEGNAQGFRVLTQLEYHQFDGGTRLTYATLGTYLKYPWTARKHKFGCYQSELPILEQIAGKLGLPQLEEQRWARHPLVYLEAADDICYALIDLEDGLEDLLDYAEVESLLLGLVGRRKLAILRGKAIEHLTNAAARAFVEQQDALLAGTLPGDLVEHHGPAKRCVLNAKDARKKIFQDKRKTLHEIGAYTTLEILLNAFCGAAVEQFGGRTPSFKHRRILDLLGNSAPDPKAPLHASFLRIDFIAGTDSYASEARE SLDWQTLLNRERLPFHKDHDRIIFSGAFRRLGRKTQVHPHTRLTHSLEVSCVGRSLGRVGETLRAALPDWCDPSDLGVVQSACLAHDIGNPPFGHSGEDAIRNWFNQAAGRGWLDASETERNDFLNFEGNAQGFRVLTQLEYHQFDGGTRLTYATLGTYLKYPWTARKHKFGCYQSELPILEQIAGKLGLPQLEEQRWARHPLVYLEAADDICYALIDLEDGLEDLLDYAEVESLLLGLVGRRKLAILRGKAIEHLTNAAARAFVEQQDALLAGTLPGDLVEHHGPAKRCVLNAKDARKKIFQDKRKTLHEIGAYTTLEILLNAFCGAAVEQFGGRTPSFKHRRILDLLGNSAPDPKAPLHASFLRIDFIAGTDSYASEARE 2pgw-a1-m1-cD_2pgw-a1-m1-cH Crystal structure of a putative muconate cycloisomerase from Sinorhizobium meliloti 1021 Q92YR6 Q92YR6 1.95 X-RAY DIFFRACTION 86 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 363 363 2pgw-a1-m1-cA_2pgw-a1-m1-cB 2pgw-a1-m1-cE_2pgw-a1-m1-cG 2pgw-a1-m1-cF_2pgw-a1-m1-cC VKISNVRVRPLVLPLKQPYHWSYGIRESFAVNLIEIEADDGTVGIGECTVAPDQTGTAAILYRLAKHLVGHSPHDVAPLIARIFHQEYLGHGANIRAANQIFSGIDAWDLQGKLAGLPVHQLLGGAHRKAVGYFYFLQGETAEELARDAAVGHAQGERVFYLKVGRGEKLDLEITAAVRGEIGDARLRLDANEGWSVHDAINCRKLEKYDIEFIEQPTVSWSIPAAHVREKVGIPIVADQAAFTLYDVYEICRQRAADICIGPREIGGIQPKAAAVAEAAGLKICIHSSFTTGITTCAEHHIGLAIPNLDDGNQIWQLVQEDIVSSPDLTPKNGWLDAFRKPGLGFQLAEDLVAEGEGRYAAS VKISNVRVRPLVLPLKQPYHWSYGIRESFAVNLIEIEADDGTVGIGECTVAPDQTGTAAILYRLAKHLVGHSPHDVAPLIARIFHQEYLGHGANIRAANQIFSGIDAWDLQGKLAGLPVHQLLGGAHRKAVGYFYFLQGETAEELARDAAVGHAQGERVFYLKVGRGEKLDLEITAAVRGEIGDARLRLDANEGWSVHDAINCRKLEKYDIEFIEQPTVSWSIPAAHVREKVGIPIVADQAAFTLYDVYEICRQRAADICIGPREIGGIQPKAAAVAEAAGLKICIHSSFTTGITTCAEHHIGLAIPNLDDGNQIWQLVQEDIVSSPDLTPKNGWLDAFRKPGLGFQLAEDLVAEGEGRYAAS 2pgw-a1-m1-cF_2pgw-a1-m1-cH Crystal structure of a putative muconate cycloisomerase from Sinorhizobium meliloti 1021 Q92YR6 Q92YR6 1.95 X-RAY DIFFRACTION 36 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 363 363 2pgw-a1-m1-cA_2pgw-a1-m1-cE 2pgw-a1-m1-cA_2pgw-a1-m1-cF 2pgw-a1-m1-cB_2pgw-a1-m1-cC 2pgw-a1-m1-cB_2pgw-a1-m1-cG 2pgw-a1-m1-cD_2pgw-a1-m1-cC 2pgw-a1-m1-cD_2pgw-a1-m1-cG 2pgw-a1-m1-cE_2pgw-a1-m1-cH VKISNVRVRPLVLPLKQPYHWSYGIRESFAVNLIEIEADDGTVGIGECTVAPDQTGTAAILYRLAKHLVGHSPHDVAPLIARIFHQEYLGHGANIRAANQIFSGIDAWDLQGKLAGLPVHQLLGGAHRKAVGYFYFLQGETAEELARDAAVGHAQGERVFYLKVGRGEKLDLEITAAVRGEIGDARLRLDANEGWSVHDAINCRKLEKYDIEFIEQPTVSWSIPAAHVREKVGIPIVADQAAFTLYDVYEICRQRAADICIGPREIGGIQPKAAAVAEAAGLKICIHSSFTTGITTCAEHHIGLAIPNLDDGNQIWQLVQEDIVSSPDLTPKNGWLDAFRKPGLGFQLAEDLVAEGEGRYAAS VKISNVRVRPLVLPLKQPYHWSYGIRESFAVNLIEIEADDGTVGIGECTVAPDQTGTAAILYRLAKHLVGHSPHDVAPLIARIFHQEYLGHGANIRAANQIFSGIDAWDLQGKLAGLPVHQLLGGAHRKAVGYFYFLQGETAEELARDAAVGHAQGERVFYLKVGRGEKLDLEITAAVRGEIGDARLRLDANEGWSVHDAINCRKLEKYDIEFIEQPTVSWSIPAAHVREKVGIPIVADQAAFTLYDVYEICRQRAADICIGPREIGGIQPKAAAVAEAAGLKICIHSSFTTGITTCAEHHIGLAIPNLDDGNQIWQLVQEDIVSSPDLTPKNGWLDAFRKPGLGFQLAEDLVAEGEGRYAAS 2pgw-a1-m1-cH_2pgw-a1-m1-cC Crystal structure of a putative muconate cycloisomerase from Sinorhizobium meliloti 1021 Q92YR6 Q92YR6 1.95 X-RAY DIFFRACTION 120 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 363 366 2pgw-a1-m1-cA_2pgw-a1-m1-cG 2pgw-a1-m1-cB_2pgw-a1-m1-cF 2pgw-a1-m1-cD_2pgw-a1-m1-cE VKISNVRVRPLVLPLKQPYHWSYGIRESFAVNLIEIEADDGTVGIGECTVAPDQTGTAAILYRLAKHLVGHSPHDVAPLIARIFHQEYLGHGANIRAANQIFSGIDAWDLQGKLAGLPVHQLLGGAHRKAVGYFYFLQGETAEELARDAAVGHAQGERVFYLKVGRGEKLDLEITAAVRGEIGDARLRLDANEGWSVHDAINCRKLEKYDIEFIEQPTVSWSIPAAHVREKVGIPIVADQAAFTLYDVYEICRQRAADICIGPREIGGIQPKAAAVAEAAGLKICIHSSFTTGITTCAEHHIGLAIPNLDDGNQIWQLVQEDIVSSPDLTPKNGWLDAFRKPGLGFQLAEDLVAEGEGRYAAS VKISNVRVRPLVLPLKQPYHWSYGIRESFAVNLIEIEADDGTVGIGECTVAPDQTGTAAILYRLAKHLVGHSPHDVAPLIARIFHQEYLGHGANIRAANQIFSGIDAWDLQGKLAGLPVHQLLGGAHRKAVGYFYFLQGETAEELARDAAVGHAQGERVFYLKVGRGEKLDLEITAAVRGEIGDARLRLDANEGWSVHDAINCRKLEKYDIEFIEQPTVSWSIPAAHVREKVGIPIVADQAAFTLYDVYEICRQRAADICIGPREIGGIQPKAAAVAEAAGLKICIHSSFTTGITTCAEHHIGLAIPNLDDGNQIWQLVQEDIVSSPDLTPKNGWLDAFRKPGLGFQLAEDLVAEGEGRYAASREG 2ph0-a1-m1-cA_2ph0-a1-m1-cB Crystal structure of the Q6D2T7_ERWCT protein from Erwinia carotovora. NESG target EwR41. Q6D2T7 Q6D2T7 1.85 X-RAY DIFFRACTION 69 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 157 158 TTLNELLATNPDGTLEDIAGKYNTSLFAVVEALPTAQCTLATGDRFDQVWDTIATWGEVTLISHTADAILEFKSELPTGTHRHGYFNLRGKNGLSGHIRATSCQHIAFIERKFGDTASVVFFNANGAAFKIFLGRDSHRQLLSAQVDAFRALASELQ TTLNELLATNPDGTLEDIAGKYNTSLFAVVEALPTAQCTLATGDRFDQVWDTIATWGEVTLISHTADAILEFKSELPTGTHRHGYFNLRGKNGLSGHIRATSCQHIAFIERKFGDTASVVFFNANGAAFKIFLGRDSHRQLLSAQVDAFRALASELQP 2ph1-a1-m1-cA_2ph1-a1-m2-cA Crystal structure of nucleotide-binding protein AF2382 from Archaeoglobus fulgidus, Northeast Structural Genomics Target GR165 O30288 O30288 2.7 X-RAY DIFFRACTION 49 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 240 240 RVTDEEIKERLGKIKSRIAVSGKGGVGKSTVTALLAVHYARQGKKVGILDADFLGPSIPILFGLRNARIAVSAEGLEPVLTQKYGIKVSQFLLPKENTPVIWRGPLIAGIREFLGRVAWGELDHLLIDLPPGTGDAPLTVQDAKPTGVVVVSTPQELTAVIVEKAINAEETNTSVLGLVENSYFVCPNCGHKSYIFGEGKGESLAKKYNIGFFTSIPIEEELIKLADSGRIEEYEKDWFE RVTDEEIKERLGKIKSRIAVSGKGGVGKSTVTALLAVHYARQGKKVGILDADFLGPSIPILFGLRNARIAVSAEGLEPVLTQKYGIKVSQFLLPKENTPVIWRGPLIAGIREFLGRVAWGELDHLLIDLPPGTGDAPLTVQDAKPTGVVVVSTPQELTAVIVEKAINAEETNTSVLGLVENSYFVCPNCGHKSYIFGEGKGESLAKKYNIGFFTSIPIEEELIKLADSGRIEEYEKDWFE 2ph3-a1-m1-cB_2ph3-a1-m2-cB Crystal structure of 3-oxoacyl-[acyl carrier protein] reductase TTHA0415 from Thermus thermophilus Q5SL78 Q5SL78 1.91 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 237 237 RKALITGASRGIGRAIALRLAEDGFALAIHYGQNREKAEEVAEEARRRGSPLVAVLGANLLEAEAATALVHQAAEVLGGLDTLVNNAGITRDTLLVRMKDEDWEAVLEANLSAVFRTTREAVKLMMKARFGRIVNITSVVGILGNPANYVASKAGLIGFTRAVAKEYAQRGITVNAVIETEMTERLPQEVKEAYLKQIPAGRFGRPEEVAEAVAFLVSEKAGYITGQTLCVDGGLTP RKALITGASRGIGRAIALRLAEDGFALAIHYGQNREKAEEVAEEARRRGSPLVAVLGANLLEAEAATALVHQAAEVLGGLDTLVNNAGITRDTLLVRMKDEDWEAVLEANLSAVFRTTREAVKLMMKARFGRIVNITSVVGILGNPANYVASKAGLIGFTRAVAKEYAQRGITVNAVIETEMTERLPQEVKEAYLKQIPAGRFGRPEEVAEAVAFLVSEKAGYITGQTLCVDGGLTP 2ph3-a1-m2-cB_2ph3-a1-m1-cA Crystal structure of 3-oxoacyl-[acyl carrier protein] reductase TTHA0415 from Thermus thermophilus Q5SL78 Q5SL78 1.91 X-RAY DIFFRACTION 99 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 237 245 2ph3-a1-m1-cB_2ph3-a1-m2-cA RKALITGASRGIGRAIALRLAEDGFALAIHYGQNREKAEEVAEEARRRGSPLVAVLGANLLEAEAATALVHQAAEVLGGLDTLVNNAGITRDTLLVRMKDEDWEAVLEANLSAVFRTTREAVKLMMKARFGRIVNITSVVGILGNPANYVASKAGLIGFTRAVAKEYAQRGITVNAVIETEMTERLPQEVKEAYLKQIPAGRFGRPEEVAEAVAFLVSEKAGYITGQTLCVDGGLTP MRKALITGASRGIGRAIALRLAEDGFALAIHYGQNREKAEEVAEEARRRGSPLVAVLGANLLEAEAATALVHQAAEVLGGLDTLVNNAGITRDTLLVRMKDEDWEAVLEANLSAVFRTTREAVKLMMKARFGRIVNITSVVGILGNPGQANYVASKAGLIGFTRAVAKEYAQRGITVNAVAPGFIETEMTERLPQEVKEAYLKQIPAGRFGRPEEVAEAVAFLVSEKAGYITGQTLCVDGGLTPH 2ph3-a1-m2-cB_2ph3-a1-m2-cA Crystal structure of 3-oxoacyl-[acyl carrier protein] reductase TTHA0415 from Thermus thermophilus Q5SL78 Q5SL78 1.91 X-RAY DIFFRACTION 124 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 237 245 2ph3-a1-m1-cB_2ph3-a1-m1-cA RKALITGASRGIGRAIALRLAEDGFALAIHYGQNREKAEEVAEEARRRGSPLVAVLGANLLEAEAATALVHQAAEVLGGLDTLVNNAGITRDTLLVRMKDEDWEAVLEANLSAVFRTTREAVKLMMKARFGRIVNITSVVGILGNPANYVASKAGLIGFTRAVAKEYAQRGITVNAVIETEMTERLPQEVKEAYLKQIPAGRFGRPEEVAEAVAFLVSEKAGYITGQTLCVDGGLTP MRKALITGASRGIGRAIALRLAEDGFALAIHYGQNREKAEEVAEEARRRGSPLVAVLGANLLEAEAATALVHQAAEVLGGLDTLVNNAGITRDTLLVRMKDEDWEAVLEANLSAVFRTTREAVKLMMKARFGRIVNITSVVGILGNPGQANYVASKAGLIGFTRAVAKEYAQRGITVNAVAPGFIETEMTERLPQEVKEAYLKQIPAGRFGRPEEVAEAVAFLVSEKAGYITGQTLCVDGGLTPH 2ph4-a2-m1-cA_2ph4-a2-m2-cB Crystal structure of a novel Arg49 phospholipase A2 homologue from Zhaoermia mangshanensis venom P84776 P84776 2.05 X-RAY DIFFRACTION 20 1.0 242058 (Protobothrops mangshanensis) 242058 (Protobothrops mangshanensis) 121 121 2ph4-a2-m1-cB_2ph4-a2-m2-cA SLIELTKMVFQETGKNPVTYYTLYGCNCGVGRRGKPKDATDRCCFVHRCCYKKLTGCDPKKDRYSYSWENKAIVCGEKNPCLKELCECDKAVAICLRKNLGTYDKNYRFTMKFLCDKPEKC SLIELTKMVFQETGKNPVTYYTLYGCNCGVGRRGKPKDATDRCCFVHRCCYKKLTGCDPKKDRYSYSWENKAIVCGEKNPCLKELCECDKAVAICLRKNLGTYDKNYRFTMKFLCDKPEKC 2ph4-a2-m2-cA_2ph4-a2-m2-cB Crystal structure of a novel Arg49 phospholipase A2 homologue from Zhaoermia mangshanensis venom P84776 P84776 2.05 X-RAY DIFFRACTION 36 1.0 242058 (Protobothrops mangshanensis) 242058 (Protobothrops mangshanensis) 121 121 2ph4-a1-m1-cA_2ph4-a1-m1-cB 2ph4-a2-m1-cA_2ph4-a2-m1-cB SLIELTKMVFQETGKNPVTYYTLYGCNCGVGRRGKPKDATDRCCFVHRCCYKKLTGCDPKKDRYSYSWENKAIVCGEKNPCLKELCECDKAVAICLRKNLGTYDKNYRFTMKFLCDKPEKC SLIELTKMVFQETGKNPVTYYTLYGCNCGVGRRGKPKDATDRCCFVHRCCYKKLTGCDPKKDRYSYSWENKAIVCGEKNPCLKELCECDKAVAICLRKNLGTYDKNYRFTMKFLCDKPEKC 2ph5-a1-m1-cA_2ph5-a1-m2-cA Crystal structure of the homospermidine synthase hss from Legionella pneumophila in complex with NAD, Northeast Structural Genomics Target LgR54 Q5ZSM2 Q5ZSM2 2.5 X-RAY DIFFRACTION 88 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 454 454 NTKKILFKNRFVILGFGCVGQALPLIFEKFDIKPSQVTIIAAEGTKVDVAQQYGVSFKLQQITPQNYLEVIGSTLEENDFLIDVSIGISSLALIILCNQKGALYINAATEPWKERRTNYSLREEVLRLKDKTQKTALITHGANPGLVSHFIKEALLNIAKDNGLTINRPKNAAEWANLATLGIKVIHVAEQDSQVTYPPKSPGEFVNTWSANGLILEGLQPAEIGWGTHEAHWPHDAYSHSNGPQCAIYLSRPSAGVVRSWTPTLGAFHGFLITHAETISLTNFLTLKNGSELLYRPTVHYAYNPCPDARLSIFELKSNEWKPQNKNRLILNEIIDGCDELGVLLGNQRGAYWYGSTLSIQEARQIAPYNNATSLQVVASISGIIWAIEHPDEGIVEPEEVDHQYIIDIAKPYLGKVGGYYTDWTPLKNRGELYPEEVDLSDPWQFFNIRVNLE NTKKILFKNRFVILGFGCVGQALPLIFEKFDIKPSQVTIIAAEGTKVDVAQQYGVSFKLQQITPQNYLEVIGSTLEENDFLIDVSIGISSLALIILCNQKGALYINAATEPWKERRTNYSLREEVLRLKDKTQKTALITHGANPGLVSHFIKEALLNIAKDNGLTINRPKNAAEWANLATLGIKVIHVAEQDSQVTYPPKSPGEFVNTWSANGLILEGLQPAEIGWGTHEAHWPHDAYSHSNGPQCAIYLSRPSAGVVRSWTPTLGAFHGFLITHAETISLTNFLTLKNGSELLYRPTVHYAYNPCPDARLSIFELKSNEWKPQNKNRLILNEIIDGCDELGVLLGNQRGAYWYGSTLSIQEARQIAPYNNATSLQVVASISGIIWAIEHPDEGIVEPEEVDHQYIIDIAKPYLGKVGGYYTDWTPLKNRGELYPEEVDLSDPWQFFNIRVNLE 2phi-a1-m1-cA_2phi-a1-m1-cB A LARGE CONFORMATIONAL CHANGE IS FOUND IN THE CRYSTAL STRUCTURE OF THE PORCINE PANCREATIC PHOSPHOLIPASE A2 POINT MUTANT F63V P00592 P00592 2.2 X-RAY DIFFRACTION 46 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 124 124 ALWQFRSMIKCAIPGSHPLMDFNNYGCYCGLGGSGTPVDELDRCCETHDNCYRDAKNLDSCKVLVDNPYTESYSYSCSNTEITCNSKNNACEAFICNCDRNAAICFSKAPYNKEHKNLDTKKYC ALWQFRSMIKCAIPGSHPLMDFNNYGCYCGLGGSGTPVDELDRCCETHDNCYRDAKNLDSCKVLVDNPYTESYSYSCSNTEITCNSKNNACEAFICNCDRNAAICFSKAPYNKEHKNLDTKKYC 2phk-a1-m1-cA_2phk-a1-m2-cA THE CRYSTAL STRUCTURE OF A PHOSPHORYLASE KINASE PEPTIDE SUBSTRATE COMPLEX: KINASE SUBSTRATE RECOGNITION P00518 P00518 2.6 X-RAY DIFFRACTION 88 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 277 277 GFYENYEPKEILGRGVSSVVRRCIHKPTCKEYAVKIIDVTGGGSFSAEEVQELREATLKEVDILRKVSGHPNIIQLKDTYETNTFFFLVFDLMKKGELFDYLTEKVTLSEKETRKIMRALLEVICALHKLNIVHRDLKPENILLDDDMNIKLTDFGFSCQLDPGEKLREVCGTPSYLAPEIIECSMNDNHPGYGKEVDMWSTGVIMYTLLAGSPPFWHRKQMLMLRMIMSGNYQFGSPEWDDYSDTVKDLVSRFLVVQPQKRYTAEEALAHPFFQQY GFYENYEPKEILGRGVSSVVRRCIHKPTCKEYAVKIIDVTGGGSFSAEEVQELREATLKEVDILRKVSGHPNIIQLKDTYETNTFFFLVFDLMKKGELFDYLTEKVTLSEKETRKIMRALLEVICALHKLNIVHRDLKPENILLDDDMNIKLTDFGFSCQLDPGEKLREVCGTPSYLAPEIIECSMNDNHPGYGKEVDMWSTGVIMYTLLAGSPPFWHRKQMLMLRMIMSGNYQFGSPEWDDYSDTVKDLVSRFLVVQPQKRYTAEEALAHPFFQQY 2phl-a1-m1-cB_2phl-a1-m1-cC THE STRUCTURE OF PHASEOLIN AT 2.2 ANGSTROMS RESOLUTION: IMPLICATIONS FOR A COMMON VICILIN(SLASH)LEGUMIN STRUCTURE AND THE GENETIC ENGINEERING OF SEED STORAGE PROTEINS P02853 P02853 2.2 X-RAY DIFFRACTION 217 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 360 361 2phl-a1-m1-cA_2phl-a1-m1-cB 2phl-a1-m1-cA_2phl-a1-m1-cC DNPFYFNSDNSWNTLFKNQYGHIRVLQRFDQQSKRLQNLEDYRLVEFRSKPETLLLPQQADAELLLVVRSGSAILVLVKPDDRREYFFLTSDNPIFSDHQKIPAGTIFYLVNPDPKEDLRIIQLAMPVNNPQIHEFFLSSTEAQQSYLQEFSKHILEASFNSKFEEINRVLFEEEGQQEGVIVNIDSEQIKELSKHAKSSNTIGNEFGNLTERTDNSLNVLISSIEMEEGALFVPHYYSKAIVILVVNEGEAHVELVGPKGETLEYESYRAELSKDDVFVIPAAYPVAIKATSNVNFTGFGINANNNNRNLLAGKTDNVISSIGRALDGKDVLGLTFSGSGDEVMKLINKQSGSYFVDAH QDNPFYFNSDNSWNTLFKNQYGHIRVLQRFDQQSKRLQNLEDYRLVEFRSKPETLLLPQQADAELLLVVRSGSAILVLVKPDDRREYFFLTSDNPIFSDHQKIPAGTIFYLVNPDPKEDLRIIQLAMPVNNPQIHEFFLSSTEAQQSYLQEFSKHILEASFNSKFEEINRVLFEEEGQQEGVIVNIDSEQIKELSKHAKSSNTIGNEFGNLTERTDNSLNVLISSIEMEEGALFVPHYYSKAIVILVVNEGEAHVELVGPKGETLEYESYRAELSKDDVFVIPAAYPVAIKATSNVNFTGFGINANNNNRNLLAGKTDNVISSIGRALDGKDVLGLTFSGSGDEVMKLINKQSGSYFVDAH 2php-a1-m1-cA_2php-a1-m1-cE Crystal structure of the C-terminal domain of protein MJ0236 (Y236_METJA) Q57688 Q57688 2.03 X-RAY DIFFRACTION 26 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 177 179 2php-a1-m1-cD_2php-a1-m1-cB YINKEKVIKNLSYAIYLLKKNFTLIPEVGSNIAESLPFPKDFKDVAALTGRIIKNKLGGFYIVGDIEFGASEHIAKIILSASKFNPEIRACNIKYDGGLIKLLKDKFAVSSFDRKEEPPNVSTEWGTKIACEKFGGVPDIIYDRGGEGKEPIRVLGRDAIEVVKKVEVIQKIYNTLE YINKEKVIKNLSYAIYLLKKNFTLIPEVGSNIAESLPFPKDFKDVAALTGRIIKNKLGGFYIVGDIEFGASEHIAKIILSASKFNPEIRACNIKYDGGLIKLLKDKFAVSSFDRKEEPPNVSTEWGTKIACEKFGGVPDIIYDRGGEGKEPIRVLGRDAIEVVKKVEVIQKIYNTLEGH 2php-a1-m1-cE_2php-a1-m1-cD Crystal structure of the C-terminal domain of protein MJ0236 (Y236_METJA) Q57688 Q57688 2.03 X-RAY DIFFRACTION 69 0.989 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 179 180 2php-a1-m1-cA_2php-a1-m1-cB YINKEKVIKNLSYAIYLLKKNFTLIPEVGSNIAESLPFPKDFKDVAALTGRIIKNKLGGFYIVGDIEFGASEHIAKIILSASKFNPEIRACNIKYDGGLIKLLKDKFAVSSFDRKEEPPNVSTEWGTKIACEKFGGVPDIIYDRGGEGKEPIRVLGRDAIEVVKKVEVIQKIYNTLEGH SLTYINKEKVIKNLSYAIYLLKKNFTLIPEVGSNIAESLPFPKDFKDVAALTGRIIKNKLGGFYIVGDIEFGASEHIAKIILSASKFNPEIRACNIKYDGGLIKLLKDKFAVSSFDRKEEPPNVSTEWGTKIACEKFGGVPDIIYDRGGEGKEPIRVLGRDAIEVVKKVEVIQKIYNTLE 2pi7-a1-m1-cB_2pi7-a1-m1-cA Structure of the catalytic domain of the chick retinal neurite inhibitor-Receptor Protein Tyrosine Phosphatase CRYP-2/cPTPRO Q98945 Q98945 2.59 X-RAY DIFFRACTION 35 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 289 294 RKLTNPVQLDDFDGYIKDMAKDSDYKFSLQFEELKLIGLDIPHFAADLPMNRCKNRYTNILPYDFSRVRLVSMNEEEGSDYINANYIPGYNSPQEYIATQGPLPETRNDFWKMVLQQKSQIIVMLTQCNEKRRVKCDHYWPFTEDPIAYGDITVEMLSEEEHTDWVYRNFRISYADEVQDVMHFNYTAWPDHGVPTANAAESILQFVQMVRQKSVKSKGPMIIHCSAGVGRTGTFIALDWLLQHIRDHEFVDILGLVSDMRSYRMSMVQTEEQYIFIHQCVQLMWQKKK LKKRKLTNPVQLDDFDGYIKDMAKDSDYKFSLQFEELKLIGLDIPHFAADLPMNRCKNRYTNILPYDFSRVRLVSMNEEEGSDYINANYIPGYNSPQEYIATQGPLPETRNDFWKMVLQQKSQIIVMLTQCNEKRRVKCDHYWPFTEDPIAYGDITVEMLSEEEHTDWVYRNFRISYADEVQDVMHFNYTAWPDHGVPTANAAESILQFVQMVRQKSVKSKGPMIIHCSAGVGRTGTFIALDWLLQHIRDHEFVDILGLVSDMRSYRMSMVQTEEQYIFIHQCVQLMWQKKKQQ 2pi8-a1-m1-cA_2pi8-a1-m1-cD Crystal structure of E. coli MltA with bound chitohexaose P0A935 P0A935 2.25 X-RAY DIFFRACTION 35 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 323 327 2pi8-a1-m1-cC_2pi8-a1-m1-c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pi8-a1-m1-cB_2pi8-a1-m1-cD Crystal structure of E. coli MltA with bound chitohexaose P0A935 P0A935 2.25 X-RAY DIFFRACTION 52 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 327 327 2pi8-a1-m1-cA_2pi8-a1-m1-cC SKPTDRGQQYKDGKFTQPFSLVNQPDAVGAPINAGDFAEQINHIRNSSPRLYGNQSNVYNAVQEWLRAGGDTRNRQFGIDAWQEGADNYGNVQFTGYYTPVIQARHTRQGEFQYPIYRPPKRGRLSSRAEIYAGALSDKYILAYSNSLDNFIDVQGSGYIDFGDGSPLNFFSYAGKNGHAYRSIGKVLIDRGEVKKEDSQAIRHWGETHSEAEVRELLEQNPSFVFFKPQSFAPVKGASAVPLVGRASVASDRSIIPPGTTLIAEVPLLDNNGKFNGQYELRLVALDVGGAIKGQHFAIYQGIGPEAGHRAGWYNHYGRVWVLKTAP SKPTDRGQQYKDGKFTQPFSLVNQPDAVGAPINAGDFAEQINHIRNSSPRLYGNQSNVYNAVQEWLRAGGDTRNRQFGIDAWQEGADNYGNVQFTGYYTPVIQARHTRQGEFQYPIYRPPKRGRLSSRAEIYAGALSDKYILAYSNSLDNFIDVQGSGYIDFGDGSPLNFFSYAGKNGHAYRSIGKVLIDRGEVKKEDSQAIRHWGETHSEAEVRELLEQNPSFVFFKPQSFAPVKGASAVPLVGRASVASDRSIIPPGTTLIAEVPLLDNNGKFNGQYELRLVALDVGGAIKGQHFAIYQGIGPEAGHRAGWYNHYGRVWVLKTAP 2pi8-a1-m1-cC_2pi8-a1-m1-cD Crystal structure of E. coli MltA with bound chitohexaose P0A935 P0A935 2.25 X-RAY DIFFRACTION 30 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 324 327 2pi8-a1-m1-cA_2pi8-a1-m1-c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pid-a1-m1-cA_2pid-a1-m1-cB Crystal structure of human mitochondrial tyrosyl-tRNA synthetase in complex with an adenylate analog Q9Y2Z4 Q9Y2Z4 2.2 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 317 324 3zxi-a1-m1-cA_3zxi-a1-m1-cB GLLAAQKARGLFKDFFPETGTKIELPELFPQTIYCGFDPTADSLHVGHLLALLGLFHLQRAGHNVIALVGGATARLGDPSGRTKEREALETERVRANARALRLGLEALAANHQQLFTDGRSWGSFTVLDNSAWYQKQHLVDFLAAVGGHFRMGTLLSRQSVQLRLKSPEGMSLAEFFYQVLQAYDFYYLFQRYGCRVQLGGSDQLGNIMSGYEFINKLTGEDVFGITVPLITAVWLNRDKTSPFELYQFFVRQPDDSVERYLKLFTFLPLPEIDHIMQLHVKEPERRGPQKRLAAEVTKLVHGREGLDSAKRCTQAL GLLAAQKARGLFKDFFPETGTKIELPELFDRGTASFPQTIYCGFDPTADSLHVGHLLALLGLFHLQRAGHNVIALVGGATARLGDPSGRTKEREALETERVRANARALRLGLEALAANHQQLFTDGRSWGSFTVLDNSAWYQKQHLVDFLAAVGGHFRMGTLLSRQSVQLRLKSPEGMSLAEFFYQVLQAYDFYYLFQRYGCRVQLGGSDQLGNIMSGYEFINKLTGEDVFGITVPLITAVWLNRDKTSPFELYQFFVRQPDDSVERYLKLFTFLPLPEIDHIMQLHVKEPERRGPQKRLAAEVTKLVHGREGLDSAKRCTQAL 2pif-a1-m1-cA_2pif-a1-m1-cB Crystal structure of UPF0317 protein PSPTO_5379 from Pseudomonas syringae pv. tomato. NorthEast Structural Genomics target PsR181 Q87UC6 Q87UC6 2.3 X-RAY DIFFRACTION 27 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 244 245 ARQSAIAAAREARGTYRNGLVTPTAGVAPGTQANLIALPRDWAYDFLLYAQRNPKACPILDVSDAGSPTTLLAEGSDLRTDIPYRIWRDGKLAEEVSDATQAWAEHDDVAFLIGCSFTFETPLQEAGIEVRHITDGCNVPYRTNRACRPAGRLHGEVVSRPIPADRVAEASAISGRHGAPVHIGEPGRLGINDLSRPDFGDAVSIKPGEVPVFWACGVTPQAAVASGVPFAITHSPGYFITDVP ARQSAIAAAREARGTYRNGLVTPTAGVAPGTQANLIALPRDWAYDFLLYAQRNPKACPILDVSDAGSPTTLLAEGSDLRTDIPYRIWRDGKLAEEVSDATQAWAEHDDVAFLIGCSFTFETPLQEAGIEVRHITDGCNVPYRTNRACRPAGRLHGEVVSRPIPADRVAEASAISGRHGAPVHIGEPGRLGINDLSRPDFGDAVSIKPGEVPVFWACGVTPQAAVASGVPFAITHSPGYFITDVPD 2pig-a1-m1-cA_2pig-a1-m1-cB Crystal structure of ydcK from Salmonella cholerae at 2.38 A resolution. Northeast Structural Genomics target SCR6 A0A0H2WQ05 A0A0H2WQ05 2.38 X-RAY DIFFRACTION 94 0.994 54388 (Salmonella enterica subsp. enterica serovar Paratyphi A) 54388 (Salmonella enterica subsp. enterica serovar Paratyphi A) 309 318 KYRLSEGPRAFTYQVDGEKKSVLLRQVIAVTDFNDVKAGTSGGWVDADNVLSQQGDCWIYDENAAFAGTEITGNARITQPCTLYNNVRIGDNVWIDRADISDGARISDNVTIQSSSVREECAIYGDARVLNQSEILAAQILQIYDRATVNHSRIVHQVQLYGNATITHAFIEHRAEVFDFALIEGDKDNNVWICDCAKVYGHARVIAGTEEDAIPTLRYSSQVAEHALIEGNCVLKHHVLVGGHAEVRGGPILLDDRVLIEGHACIQGEILIERQVEISGRAAVIAFDDNTIHLRGPKVINGEDRITRT KYRLSEGPRAFTYQVDGEKKSVLLRQVIAVTDFNDVKAGTSGGWVDADNVLSQQGDCWIYDENAAFAGTEITGNARITQPCTLYNNVRIGDNVWIDRADISDGARISDNVTIQSSSVREECAIYGDARVLNQSEILAIQILQIYDRATVNHSRIVHQVQLYGNATITHAFIEHRAEVFDFALIEGDKDNNVWICDCAKVYGHARVIAGTEEDAIPTLRYSSQVAEHALIEGNCVLKHHVLVGGHAEVRGGPILLDDRVLIEGHACIQGEILIERQVEISGRAAVIAFDNTIHLRGPKVINGEDRITRTPLVGSLLEHH 2pii-a1-m2-cA_2pii-a1-m3-cA PII, GLNB PRODUCT P0A9Z1 P0A9Z1 1.9 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 112 1pil-a1-m1-cA_1pil-a1-m2-cA 1pil-a1-m1-cA_1pil-a1-m3-cA 1pil-a1-m2-cA_1pil-a1-m3-cA 2pii-a1-m1-cA_2pii-a1-m2-cA 2pii-a1-m1-cA_2pii-a1-m3-cA MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFGRQKGHTELYRGAEYMVDFLPKVKIEIVVPDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDDAAI MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFGRQKGHTELYRGAEYMVDFLPKVKIEIVVPDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDDAAI 2pij-a1-m1-cA_2pij-a1-m1-cB Structure of the Cro protein from prophage Pfl 6 in Pseudomonas fluorescens Pf-5 J3IU59 J3IU59 1.7 X-RAY DIFFRACTION 41 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 57 58 KKIPLSKYLEEHGTQSALAAALGVNQSAISQVRAGRSIEITLYEDGRVEANEIRPIP KKIPLSKYLEEHGTQSALAAALGVNQSAISQVRAGRSIEITLYEDGRVEANEIRPIPA 2pim-a2-m1-cA_2pim-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE, PHENYLACETIC ACID DEGRADATION-RELATED PROTEIN (REUT_B4779) FROM RALSTONIA EUTROPHA JMP134 AT 2.20 A RESOLUTION Q46RV7 Q46RV7 2.2 X-RAY DIFFRACTION 30 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 127 127 2pim-a2-m2-cA_2pim-a2-m3-cA NYFSRLRGEAPVPAVAGTLGGVIRAVDLEAGSLESDYVATDAFLNPVGQVQGGLGALDDVTALVTATLEDGASCSTLNLNLSFLRPAQAGLLRGRARLERRGRNVCNVVGELSQDGKLVATATATCV NYFSRLRGEAPVPAVAGTLGGVIRAVDLEAGSLESDYVATDAFLNPVGQVQGGLGALDDVTALVTATLEDGASCSTLNLNLSFLRPAQAGLLRGRARLERRGRNVCNVVGELSQDGKLVATATATCV 2pim-a2-m2-cA_2pim-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE, PHENYLACETIC ACID DEGRADATION-RELATED PROTEIN (REUT_B4779) FROM RALSTONIA EUTROPHA JMP134 AT 2.20 A RESOLUTION Q46RV7 Q46RV7 2.2 X-RAY DIFFRACTION 17 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 127 127 2pim-a2-m1-cA_2pim-a2-m3-cA NYFSRLRGEAPVPAVAGTLGGVIRAVDLEAGSLESDYVATDAFLNPVGQVQGGLGALDDVTALVTATLEDGASCSTLNLNLSFLRPAQAGLLRGRARLERRGRNVCNVVGELSQDGKLVATATATCV NYFSRLRGEAPVPAVAGTLGGVIRAVDLEAGSLESDYVATDAFLNPVGQVQGGLGALDDVTALVTATLEDGASCSTLNLNLSFLRPAQAGLLRGRARLERRGRNVCNVVGELSQDGKLVATATATCV 2pim-a2-m3-cA_2pim-a2-m4-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE, PHENYLACETIC ACID DEGRADATION-RELATED PROTEIN (REUT_B4779) FROM RALSTONIA EUTROPHA JMP134 AT 2.20 A RESOLUTION Q46RV7 Q46RV7 2.2 X-RAY DIFFRACTION 95 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 127 127 2pim-a1-m1-cA_2pim-a1-m2-cA 2pim-a2-m1-cA_2pim-a2-m2-cA NYFSRLRGEAPVPAVAGTLGGVIRAVDLEAGSLESDYVATDAFLNPVGQVQGGLGALDDVTALVTATLEDGASCSTLNLNLSFLRPAQAGLLRGRARLERRGRNVCNVVGELSQDGKLVATATATCV NYFSRLRGEAPVPAVAGTLGGVIRAVDLEAGSLESDYVATDAFLNPVGQVQGGLGALDDVTALVTATLEDGASCSTLNLNLSFLRPAQAGLLRGRARLERRGRNVCNVVGELSQDGKLVATATATCV 2pjl-a1-m2-cA_2pjl-a1-m3-cB Crystal Structure of Human Estrogen-Related Receptor alpha in Complex with a Synthetic Inverse Agonist reveals its Novel Molecular Mechanism P11474 P11474 2.3 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 2pjl-a1-m1-cA_2pjl-a1-m2-cB 2pjl-a1-m1-cB_2pjl-a1-m3-cA LEVLFQGPVNALVSHLLVVEPEKLYAMLPAVATLSDLFDREIVVTISWAKSIPGFSSLSLSDQMSVLQSVWMEVLVLGVAQRSLPLQDELAFAEDLVLDEEGARAAGLGELGAALLQLVRRLQALRLEREEYVLLKALALANSDSVHIEDAEAVEQLREALHEALLEYEAGRRRAGRLLLTLPLLRQTAGKVLAHFYGVKLEGKVPMHKLFLEMLEAM LEVLFQGPVNALVSHLLVVEPEKLYAMLPAVATLSDLFDREIVVTISWAKSIPGFSSLSLSDQMSVLQSVWMEVLVLGVAQRSLPLQDELAFAEDLVLDEEGARAAGLGELGAALLQLVRRLQALRLEREEYVLLKALALANSDSVHIEDAEAVEQLREALHEALLEYEAGRRRAGRLLLTLPLLRQTAGKVLAHFYGVKLEGKVPMHKLFLEMLEAM 2pjl-a1-m2-cB_2pjl-a1-m3-cB Crystal Structure of Human Estrogen-Related Receptor alpha in Complex with a Synthetic Inverse Agonist reveals its Novel Molecular Mechanism P11474 P11474 2.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 2pjl-a1-m1-cA_2pjl-a1-m2-cA 2pjl-a1-m1-cA_2pjl-a1-m3-cA 2pjl-a1-m1-cB_2pjl-a1-m2-cB 2pjl-a1-m1-cB_2pjl-a1-m3-cB 2pjl-a1-m2-cA_2pjl-a1-m3-cA LEVLFQGPVNALVSHLLVVEPEKLYAMLPAVATLSDLFDREIVVTISWAKSIPGFSSLSLSDQMSVLQSVWMEVLVLGVAQRSLPLQDELAFAEDLVLDEEGARAAGLGELGAALLQLVRRLQALRLEREEYVLLKALALANSDSVHIEDAEAVEQLREALHEALLEYEAGRRRAGRLLLTLPLLRQTAGKVLAHFYGVKLEGKVPMHKLFLEMLEAM LEVLFQGPVNALVSHLLVVEPEKLYAMLPAVATLSDLFDREIVVTISWAKSIPGFSSLSLSDQMSVLQSVWMEVLVLGVAQRSLPLQDELAFAEDLVLDEEGARAAGLGELGAALLQLVRRLQALRLEREEYVLLKALALANSDSVHIEDAEAVEQLREALHEALLEYEAGRRRAGRLLLTLPLLRQTAGKVLAHFYGVKLEGKVPMHKLFLEMLEAM 2pjl-a1-m3-cA_2pjl-a1-m3-cB Crystal Structure of Human Estrogen-Related Receptor alpha in Complex with a Synthetic Inverse Agonist reveals its Novel Molecular Mechanism P11474 P11474 2.3 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 1xb7-a1-m1-cA_1xb7-a1-m2-cA 2pjl-a1-m1-cA_2pjl-a1-m1-cB 2pjl-a1-m2-cA_2pjl-a1-m2-cB 3d24-a1-m1-cA_3d24-a1-m1-cC 3k6p-a2-m1-cA_3k6p-a2-m2-cA 7e2e-a1-m1-cA_7e2e-a1-m1-cB LEVLFQGPVNALVSHLLVVEPEKLYAMLPAVATLSDLFDREIVVTISWAKSIPGFSSLSLSDQMSVLQSVWMEVLVLGVAQRSLPLQDELAFAEDLVLDEEGARAAGLGELGAALLQLVRRLQALRLEREEYVLLKALALANSDSVHIEDAEAVEQLREALHEALLEYEAGRRRAGRLLLTLPLLRQTAGKVLAHFYGVKLEGKVPMHKLFLEMLEAM LEVLFQGPVNALVSHLLVVEPEKLYAMLPAVATLSDLFDREIVVTISWAKSIPGFSSLSLSDQMSVLQSVWMEVLVLGVAQRSLPLQDELAFAEDLVLDEEGARAAGLGELGAALLQLVRRLQALRLEREEYVLLKALALANSDSVHIEDAEAVEQLREALHEALLEYEAGRRRAGRLLLTLPLLRQTAGKVLAHFYGVKLEGKVPMHKLFLEMLEAM 2pjq-a1-m1-cB_2pjq-a1-m1-cC Crystal structure of Q88U62_LACPL from Lactobacillus plantarum. Northeast Structural Genomics target LpR71 F9URF4 F9URF4 2.8 X-RAY DIFFRACTION 102 0.995 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 206 206 2pjq-a2-m1-cA_2pjq-a2-m2-cA 2pjq-a3-m1-cD_2pjq-a3-m3-cD ITETQLTAIQTYALQKLAHDHSGHGRDHLQRVNRLARRLAKDEGANLNLTLAAAWLHDVILANPAKAHQDLIVQLNAQNVTADDQTAIFAIIDHSFSKSFNGPQKLSLEGQVVQDADRLDAIGAIGIARALYYSGHVGEKIYDPAIAPREHTREQYRHQPGTAINHFYEKLFKLAALNTDTAKALAAHRTAVHEFVDQFKAEWTAD ITETQLTAIQTYALQKLAHDHSGHGRDHLQRVNRLARRLAKDEGANLNLTLAAAWLHDVIDANPAKAHQDLIVQLNAQNVTADDQTAIFAIIDHSFSKSFNGPQKLSLEGQVVQDADRLDAIGAIGIARALYYSGHVGEKIYDPAIAPREHTREQYRHQPGTAINHFYEKLFKLAALNTDTAKALAAHRTAVHEFVDQFKAEWTAD 2pjr-a1-m1-cA_2pjr-a1-m1-cF HELICASE PRODUCT COMPLEX P56255 P56255 2.9 X-RAY DIFFRACTION 25 0.998 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 542 544 QLLAHLNKEQQEAVRTTEGPLLIMAGAGSGKTRVLTHRIAYLMAEKHVAPWNILAITFTNKAAREMRERVQSLLGGAAEDVWISTFHSMCVRILRRDIDRIGINRNFSILDPTDQLSVMKTILKEKNIDPKKFEPRTILGTISAAKNELLPPEQFAKRASTYYEKVVSDVYQEYQQRLLRNHSLDFDDLIMTTIQLFDRVPDVLHYYQYKFQYIHIDEYQDTNRAQYTLVKKLAERFQNICAVGDADQSIYRWRGADIQNILSFERDYPNAKVILLEQNYRSTKRILQAANEVIEHNVNRKPKRIWTENPEGKPILYYEAMNEADEAQFVAGRIREAVERGERRYRDFAVLYRTNAQSRVMEEMLLKANIPYQIVGGLKFYDRKEIKDILAYLRVIANPDDDLSLLRIINVPKRGIGASTIDKLVRYAADHELSLFEALGELEMIGLGAKAAGALAAFRSQLEQWTQLQEYVSVTELVEEVLDKSGYREMLKAERTIEAQSRLENLDEFLSVTKHFENVSDDKSLIAFLTDLALISDLDELD LSEQLLAHLNKEQQEAVRTTEGPLLIMAGAGSGKTRVLTHRIAYLMAEKHVAPWNILAITFTNKAAREMRERVQSLLGGAAEDVWISTFHSMCVRILRRDIDRIGINRNFSILDPTDQLSVMKTILKEKNIDPKKFEPRTILGTISAAKNELLPPEQFAKRASTYYEKVVSDVYQEYQQRLLRNHSLDFDDLIMTTIQLFDRVPDVLHYYQYKFQYIHIDEYQDTNRAQYTLVKKLAERFQNICAVGDADQSIYRWRGADIQNILSFERDYPNAKVILLEQNYRSTKRILQAANEVIEHNVNRKPKRIWTENPEGKPILYYEAMNEADEAQFVAGRIREAVERGERRYRDFAVLYRTNAQSRVMEEMLLKANIPYQIVGGLKFYDRKEIKDILAYLRVIANPDDDLSLLRIINVPKRGIGASTIDKLVRYAADHELSLFEALGELEMIGLGAKAAGALAAFRSQLEQWTQLQEYVSVTELVEEVLDKSGYREMLKAERTIEAQSRLENLDEFLSVTKHFENVSDDKSLIAFLTDLALISDLDEL 2pjs-a1-m1-cB_2pjs-a1-m1-cA Crystal structure of Atu1953, protein of unknown function A9CIG0 A9CIG0 1.85 X-RAY DIFFRACTION 243 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 111 112 AVRRVVANIATPEPARAQAFYGDILGPVADHGWIVTHASPLEAHAQVSFAREGGSGTDVPDLSIEVDNFDEVHARILKAGLPIEYGPVTEAWGVQRLFLRDPFGKLINILS AVRRVVANIATPEPARAQAFYGDILGPVADHGWIVTHASPLEAHAQVSFAREGGSGTDVPDLSIEVDNFDEVHARILKAGLPIEYGPVTEAWGVQRLFLRDPFGKLINILSH 2pju-a2-m1-cC_2pju-a2-m1-cD Crystal structure of propionate catabolism operon regulatory protein prpR P77743 P77743 2.1 X-RAY DIFFRACTION 69 1.0 562 (Escherichia coli) 562 (Escherichia coli) 188 208 2pju-a1-m1-cB_2pju-a1-m1-cA KPVIWTVSVTRLFELFRDISLEFDHLANITPIQLGFEKAVTYIRKKLANERCDAIIAAGSNGAYLKSRLSVPVILIKPSGYDVLQFLAKAGKLTSSIGVVTYQETIPALVAFQKTFNLRLDQRSYITEEDARGQINELKANGTEAVVGAGLITDLAEEAGMTGIFIYSAATVRQAFSDALDMTRMSLR KPVIWTVSVTRLFELFRDISLEFDHLANITPIQLGFEKAVTYIRKKLANERCDAIIAAGSNGAYLKSRLSVPVILIKPSGYDVLQFLAKAGKLTSSIGVVTYQETIPALVAFQKTFNLRLDQRSYITEEDARGQINELKANGTEAVVGAGLITDLAEEAGMTGIFIYSAATVRQAFSDALDMTRMSLRHNTHDATTRYVLEGHHHHHH 2pjw-a2-m1-cH_2pjw-a2-m2-cH The Vps27/Hse1 complex is a GAT domain-based scaffold for ubiquitin-dependent sorting P38753 P38753 3.01 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 84 84 KEAIVFSQKTTIDQLHNSLNAASKTGNSNEVLQDPHIGDYGSVTPLRPQVTRLGKYAKEKEDLSLRQVLANAERSYNQLDRAAN KEAIVFSQKTTIDQLHNSLNAASKTGNSNEVLQDPHIGDYGSVTPLRPQVTRLGKYAKEKEDLSLRQVLANAERSYNQLDRAAN 2pjw-a2-m1-cV_2pjw-a2-m2-cV The Vps27/Hse1 complex is a GAT domain-based scaffold for ubiquitin-dependent sorting P40343 P40343 3.01 X-RAY DIFFRACTION 12 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 87 87 VDLSDEEKDSIYFASLVEKKSRPLNEILEDSKLQNLAQRVFASKARLNYALNDKAQKYNTLIENGKISEINIYDRLLEQQLQSINLS VDLSDEEKDSIYFASLVEKKSRPLNEILEDSKLQNLAQRVFASKARLNYALNDKAQKYNTLIENGKISEINIYDRLLEQQLQSINLS 2pjz-a2-m1-cA_2pjz-a2-m2-cA The crystal structure of putative Cobalt transport ATP-binding protein (cbiO-2), ST1066 Q972R9 Q972R9 1.9 X-RAY DIFFRACTION 102 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 261 261 MIQLKNVGITLSGKGYERFSLENINLEVNGEKVIILGPNGSGKTTLLRAISGLLPYSGNIFINGMEVRKIRNYIRYSTNLPEAYEIGVTVNDIVYLYEELKGLDRDLFLEMLKALKLGEEILRRKLYKLSAGQSVLVRTSLALASQPEIVGLDEPFENVDAARRHVISRYIKEYGKEGILVTHELDMLNLYKEYKAYFLVGNRLQGPISVSELLESSIVEGERNDALLVLDIMDKKVSIVKGDLGMKFGALGSLNRIYGII MIQLKNVGITLSGKGYERFSLENINLEVNGEKVIILGPNGSGKTTLLRAISGLLPYSGNIFINGMEVRKIRNYIRYSTNLPEAYEIGVTVNDIVYLYEELKGLDRDLFLEMLKALKLGEEILRRKLYKLSAGQSVLVRTSLALASQPEIVGLDEPFENVDAARRHVISRYIKEYGKEGILVTHELDMLNLYKEYKAYFLVGNRLQGPISVSELLESSIVEGERNDALLVLDIMDKKVSIVKGDLGMKFGALGSLNRIYGII 2pk2-a1-m1-cA_2pk2-a1-m1-cD Cyclin box structure of the P-TEFb subunit Cyclin T1 derived from a fusion complex with EIAV Tat P32544 P32544 2.67 X-RAY DIFFRACTION 26 1.0 31675 (Equine infectious anemia virus (clone CL22)) 31675 (Equine infectious anemia virus (clone CL22)) 256 256 2pk2-a1-m1-cB_2pk2-a1-m1-cC NNKRWYFTREQLENSPSRRFGVDPDKELSYRQQAANLLQDMGQRLNVSQLTINTAIVYMHRFYMIQSFTRFPGNSVAPAALFLAAKVEEQPKKLEHVIKVAHTCLHPQESLPDTRSEAYLQQVQDLVILESIILQTLGFELTIDHPHTHVVKCTQLVRASKDLAQTSYFMATNSLHLTTFSLQYTPPVVACVCIHLACKWSNWEIPVSTDGKHWWEYVDATVTLELLDELTHEFLQILEKTPNRLKRIWNWRACEA NNKRWYFTREQLENSPSRRFGVDPDKELSYRQQAANLLQDMGQRLNVSQLTINTAIVYMHRFYMIQSFTRFPGNSVAPAALFLAAKVEEQPKKLEHVIKVAHTCLHPQESLPDTRSEAYLQQVQDLVILESIILQTLGFELTIDHPHTHVVKCTQLVRASKDLAQTSYFMATNSLHLTTFSLQYTPPVVACVCIHLACKWSNWEIPVSTDGKHWWEYVDATVTLELLDELTHEFLQILEKTPNRLKRIWNWRACEA 2pk2-a1-m1-cC_2pk2-a1-m1-cD Cyclin box structure of the P-TEFb subunit Cyclin T1 derived from a fusion complex with EIAV Tat P32544 P32544 2.67 X-RAY DIFFRACTION 47 1.0 31675 (Equine infectious anemia virus (clone CL22)) 31675 (Equine infectious anemia virus (clone CL22)) 256 256 2pk2-a1-m1-cA_2pk2-a1-m1-cB NNKRWYFTREQLENSPSRRFGVDPDKELSYRQQAANLLQDMGQRLNVSQLTINTAIVYMHRFYMIQSFTRFPGNSVAPAALFLAAKVEEQPKKLEHVIKVAHTCLHPQESLPDTRSEAYLQQVQDLVILESIILQTLGFELTIDHPHTHVVKCTQLVRASKDLAQTSYFMATNSLHLTTFSLQYTPPVVACVCIHLACKWSNWEIPVSTDGKHWWEYVDATVTLELLDELTHEFLQILEKTPNRLKRIWNWRACEA NNKRWYFTREQLENSPSRRFGVDPDKELSYRQQAANLLQDMGQRLNVSQLTINTAIVYMHRFYMIQSFTRFPGNSVAPAALFLAAKVEEQPKKLEHVIKVAHTCLHPQESLPDTRSEAYLQQVQDLVILESIILQTLGFELTIDHPHTHVVKCTQLVRASKDLAQTSYFMATNSLHLTTFSLQYTPPVVACVCIHLACKWSNWEIPVSTDGKHWWEYVDATVTLELLDELTHEFLQILEKTPNRLKRIWNWRACEA 2pk3-a1-m1-cA_2pk3-a1-m1-cB Crystal Structure of a GDP-4-keto-6-deoxy-D-mannose reductase Q6T1X6 Q6T1X6 1.82 X-RAY DIFFRACTION 62 1.0 143495 (Aneurinibacillus thermoaerophilus) 143495 (Aneurinibacillus thermoaerophilus) 309 309 MRALITGVAGFVGKYLANHLTEQNVEVFGTSRNNEAKLPNVEMISLDIMDSQRVKKVISDIKPDYIFHLAAKSSVKDSWLNKKGTFSTNVFGTLHVLDAVRDSNLDCRILTIGSSEEYGMILPEESPVSEENQLRPMSPYGVSKASVGMLARQYVKAYGMDIIHTRTFNHIGPGQSLGFVTQDFAKQIVDIEMEKQEPIIKVGNLEAVRDFTDVRDIVQAYWLLSQYGKTGDVYNVCSGIGTRIQDVLDLLLAMANVKIDTELNPLQLRPSEVPTLIGSNKRLKDSTGWKPRIPLEKSLFEILQSYRQA MRALITGVAGFVGKYLANHLTEQNVEVFGTSRNNEAKLPNVEMISLDIMDSQRVKKVISDIKPDYIFHLAAKSSVKDSWLNKKGTFSTNVFGTLHVLDAVRDSNLDCRILTIGSSEEYGMILPEESPVSEENQLRPMSPYGVSKASVGMLARQYVKAYGMDIIHTRTFNHIGPGQSLGFVTQDFAKQIVDIEMEKQEPIIKVGNLEAVRDFTDVRDIVQAYWLLSQYGKTGDVYNVCSGIGTRIQDVLDLLLAMANVKIDTELNPLQLRPSEVPTLIGSNKRLKDSTGWKPRIPLEKSLFEILQSYRQA 2pk7-a1-m1-cB_2pk7-a1-m1-cA Crystal structure of the Q4KFT4_PSEF5 protein from Pseudomonas fluorescens. NESG target PlR1 Q4KFT4 Q4KFT4 2.2 X-RAY DIFFRACTION 45 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 59 63 TKLLDILACPICKGPLKLSADKTELISKGAGLAYPIRDGIPVLESEARTLTTEERLDKL TKLLDILACPICKGPLKLSADKTELISKGAGLAYPIRDGIPVLESEARTLTTEERLDKLEHHH 2pk8-a1-m1-cA_2pk8-a1-m2-cA Crystal structure of an uncharacterized protein PF0899 from Pyrococcus furiosus Q8U2E0 Q8U2E0 1.85 X-RAY DIFFRACTION 50 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 94 94 STRGDLIRILGEIEEKMNELKMDGFNPDIILFGREAYNFLSNLLKKEMEEEGPFTHVSNIKIEILEELGGDAVVIDSKVLGLVPGAAKRIKIIK STRGDLIRILGEIEEKMNELKMDGFNPDIILFGREAYNFLSNLLKKEMEEEGPFTHVSNIKIEILEELGGDAVVIDSKVLGLVPGAAKRIKIIK 2pk9-a3-m1-cB_2pk9-a3-m1-cD Structure of the Pho85-Pho80 CDK-cyclin Complex of the Phosphate-responsive Signal Transduction Pathway P20052 P20052 2.906 X-RAY DIFFRACTION 25 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 214 219 GIPKVILPADFNKCSRTDLVVLISRMLVSLIAINENSITLTRYHSKIPPNISIFNYFIRLTKFSSLEHCVLMTSLYYIDLLQTVYPDFTLNSLTAHRFLLTATTVATKGLCDSFSTNAHYAKVGGVRCHELNILENDFLKRVNYRIIPRDHNITLCSIEQKQKKFVIDKNSYVNRPKSGYNVLDKYYRRIVQLVGSFNASPDKSRKVDYVLPPN QGIPKVILPADFNKCSRTDLVVLISRMLVSLIAINENSQITLTRYHSKIPPNISIFNYFIRLTKFSSLEHCVLMTSLYYIDLLQTVYPDFTLNSLTAHRFLLTATTVATKGLCDSFSTNAHYAKVGGVRCHELNILENDFLKRVNYRIIPRDHNITLCSIEQKQKKFVIDKNYSYVNRPKSGYNVLDKYYRRIVQLVGSFNASPDKSRKVDYVLPPNID 2pka-a3-m1-cY_2pka-a3-m1-cB REFINED 2 ANGSTROMS X-RAY CRYSTAL STRUCTURE OF PORCINE PANCREATIC KALLIKREIN A, A SPECIFIC TRYPSIN-LIKE SERINE PROTEINASE. CRYSTALLIZATION, STRUCTURE DETERMINATION, CRYSTALLOGRAPHIC REFINEMENT, STRUCTURE AND ITS COMPARISON WITH BOVINE TRYPSIN P00752 P00752 2.05 X-RAY DIFFRACTION 24 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 152 152 ADGKDYSHDLMLLRLQSPAKITDAVKVLELPTQEPELGSTCEASGWGSIEPGPDDFEFPDEIQCVQLTLLQNTFCADAHPDKVTESMLCAGYLPGGKDTCMGDSGGPLICNGMWQGITSWGHTPCGSANKPSIYTKLIFYLDWIDDTITENP ADGKDYSHDLMLLRLQSPAKITDAVKVLELPTQEPELGSTCEASGWGSIEPGPDDFEFPDEIQCVQLTLLQNTFCADAHPDKVTESMLCAGYLPGGKDTCMGDSGGPLICNGMWQGITSWGHTPCGSANKPSIYTKLIFYLDWIDDTITENP 2pkd-a3-m1-cD_2pkd-a3-m1-cF Crystal structure of CD84: Insite into SLAM family function Q9UIB8 Q9UIB8 2.043 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 2pkd-a1-m1-cA_2pkd-a1-m1-cB 2pkd-a2-m1-cC_2pkd-a2-m1-cE EIFTVNGILGESVTFPVNIQEPRQVKIIAWTSKTSVAYVTPGDSETAPVVTVTHRNYYERIHALGPNYNLVISDLRMEDAGDYKADINTQADPYTTTKRYNLQIYRR EIFTVNGILGESVTFPVNIQEPRQVKIIAWTSKTSVAYVTPGDSETAPVVTVTHRNYYERIHALGPNYNLVISDLRMEDAGDYKADINTQADPYTTTKRYNLQIYRR 2pkh-a2-m1-cE_2pkh-a2-m1-cH Structural Genomics, the crystal structure of the C-terminal domain of histidine utilization repressor from Pseudomonas syringae pv. tomato str. DC3000 Q87UX0 Q87UX0 1.95 X-RAY DIFFRACTION 17 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 140 140 2pkh-a1-m1-cA_2pkh-a1-m1-cD 2pkh-a1-m1-cB_2pkh-a1-m1-cC 2pkh-a2-m1-cF_2pkh-a2-m1-cG HRHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK HRHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK 2pkh-a2-m1-cF_2pkh-a2-m1-cH Structural Genomics, the crystal structure of the C-terminal domain of histidine utilization repressor from Pseudomonas syringae pv. tomato str. DC3000 Q87UX0 Q87UX0 1.95 X-RAY DIFFRACTION 21 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 139 140 2pkh-a1-m1-cD_2pkh-a1-m1-cB RHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK HRHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK 2pkh-a2-m1-cG_2pkh-a2-m1-cE Structural Genomics, the crystal structure of the C-terminal domain of histidine utilization repressor from Pseudomonas syringae pv. tomato str. DC3000 Q87UX0 Q87UX0 1.95 X-RAY DIFFRACTION 13 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 139 140 2pkh-a1-m1-cA_2pkh-a1-m1-cC RHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK HRHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK 2pkh-a2-m1-cG_2pkh-a2-m1-cH Structural Genomics, the crystal structure of the C-terminal domain of histidine utilization repressor from Pseudomonas syringae pv. tomato str. DC3000 Q87UX0 Q87UX0 1.95 X-RAY DIFFRACTION 86 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 139 140 2pkh-a1-m1-cA_2pkh-a1-m1-cB 2pkh-a1-m1-cD_2pkh-a1-m1-cC 2pkh-a2-m1-cF_2pkh-a2-m1-cE RHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK HRHTCKVVLKEEAAGSERALALDREGQRVFHSLIVHFENDIPVQIEDRFVNAQVAPDYLKQDFTLQTPYAYLSQVAPLTEGEHVVEAILAEADECKLLQIDAGEPCLLIRRRTWSGRQPVTAARLIHPGSRHRLEGRFTK 2pkp-a1-m1-cA_2pkp-a1-m2-cA Crystal structure of 3-isopropylmalate dehydratase (leuD)from Methhanocaldococcus Jannaschii DSM2661 (MJ1271) Q58667 Q58667 2.1 X-RAY DIFFRACTION 27 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 167 167 MIIKGRAHKFGDDVDTDAIIPGPYLRTTDPYELASHCMAGIDENFPKKVKEGDVIVAGENFGCGSSREQAVIAIKYCGIKAVIAKSFARIFYRNAINVGLIPIIANTDEIKDGDIVEIDLDKEEIVITNKNKTIKCETPKGLEREILAAGGLVNYLKKRKLIQSKKG MIIKGRAHKFGDDVDTDAIIPGPYLRTTDPYELASHCMAGIDENFPKKVKEGDVIVAGENFGCGSSREQAVIAIKYCGIKAVIAKSFARIFYRNAINVGLIPIIANTDEIKDGDIVEIDLDKEEIVITNKNKTIKCETPKGLEREILAAGGLVNYLKKRKLIQSKKG 2pl1-a1-m1-cA_2pl1-a1-m2-cA Berrylium Fluoride activated receiver domain of E.coli PhoP P23836 P23836 1.9 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 117 117 2pkx-a1-m1-cA_2pkx-a1-m1-cB RVLVVEDNALLRHHLKVQIQDAGHQVDDAEDAKEADYYLNEHIPDIAIVDLGLPDEDGLSLIRRWRSNDVSLPILVLTARESWQDKVEVLSAGADDYVTKPFHIEEVARQALRRNSQ RVLVVEDNALLRHHLKVQIQDAGHQVDDAEDAKEADYYLNEHIPDIAIVDLGLPDEDGLSLIRRWRSNDVSLPILVLTARESWQDKVEVLSAGADDYVTKPFHIEEVARQALRRNSQ 2pl2-a1-m1-cA_2pl2-a1-m1-cB Crystal structure of TTC0263: a thermophilic TPR protein in Thermus thermophilus HB27 Q72L02 Q72L02 2.5 X-RAY DIFFRACTION 37 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 194 194 AEQNPLRLGVQLYALGRYDAALTLFERALKENPQDPEALYWLARTQLKLGLVNPALENGKTLVARTPRYLGGYMVLSEAYVALYRQAEDRERGKGYLEQALSVLKDAERVNPRYAPLHLQRGLVYALLGERDKAEASLKQALALEDTPEIRSALAELYLSMGRLDEALAQYAKALEQAPKDLDLRVRYASALLL AEQNPLRLGVQLYALGRYDAALTLFERALKENPQDPEALYWLARTQLKLGLVNPALENGKTLVARTPRYLGGYMVLSEAYVALYRQAEDRERGKGYLEQALSVLKDAERVNPRYAPLHLQRGLVYALLGERDKAEASLKQALALEDTPEIRSALAELYLSMGRLDEALAQYAKALEQAPKDLDLRVRYASALLL 2pl5-a1-m1-cA_2pl5-a1-m2-cA Crystal Structure of Homoserine O-acetyltransferase from Leptospira interrogans Q8F4I0 Q8F4I0 2.2 X-RAY DIFFRACTION 225 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 362 362 GSIGIIETKYAEFKELILNNGSVLSPVVIAYETYGTLSSSKNNAILICHALSGDAHAAGYHSGSDKKPGWWDDYIGPGKSFDTNQYFIICSNVIGGCKGSSGPLSIHPETSTPYGSRFPFVSIQDMVKAQKLLVESLGIEKLFCVAGGSMGGMQALEWSIAYPNSLSNCIVMASTAEHSAMQIAFNEVGRQAILSDPNWKNGLYDENSPRKGLALARMVGHITYLSDDKMREKFGRNPPRGNILSTDFAVGSYLIYQGESFVDRFDANSYIYVTKALDHYSLGKGKELTAALSNATCRFLVVSYSSDWLYPPAQSREIVKSLEAADKRVFYVELQSGEGHDSFLLKNPKQIEILKGFLENPN GSIGIIETKYAEFKELILNNGSVLSPVVIAYETYGTLSSSKNNAILICHALSGDAHAAGYHSGSDKKPGWWDDYIGPGKSFDTNQYFIICSNVIGGCKGSSGPLSIHPETSTPYGSRFPFVSIQDMVKAQKLLVESLGIEKLFCVAGGSMGGMQALEWSIAYPNSLSNCIVMASTAEHSAMQIAFNEVGRQAILSDPNWKNGLYDENSPRKGLALARMVGHITYLSDDKMREKFGRNPPRGNILSTDFAVGSYLIYQGESFVDRFDANSYIYVTKALDHYSLGKGKELTAALSNATCRFLVVSYSSDWLYPPAQSREIVKSLEAADKRVFYVELQSGEGHDSFLLKNPKQIEILKGFLENPN 2pl7-a1-m1-cA_2pl7-a1-m1-cB Orhorhombic crystal structure of hydrophobin HFBII in the presence of a detergent P79073 P79073 1 X-RAY DIFFRACTION 30 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 67 67 AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKA AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKA 2pla-a1-m1-cA_2pla-a1-m1-cB Crystal structure of human glycerol-3-phosphate dehydrogenase 1-like protein Q8N335 Q8N335 2.51 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 343 343 APLKVCIVGSGNWGSAVAKIIGNNVKKLQKFASTVKMWVFEETVNGRKLTDIINNDHENVKYLPGHKLPENVVAMSNLSEAVQDADLLVFVIPHQFIHRICDEITGRVPKKALGITLIKGIDEGPEGLKLISDIIREKMGIDISVLMGANIANEVAAEKFCETTIGSKVMENGLLFKELLQTPNFRITVVDDADTVELCGALKNIVAVGAGFCDGLRCGDNTKAAVIRLGLMEMIAFARIFCKGQVSTATFLESCGVADLITTCYGGRNRRVAEAFARTGKTIEELEKEMLNGQKLQGPQTSAEVYRILKQKGLLDKFPLFTAVYQICYESRPVQEMLSCLQS APLKVCIVGSGNWGSAVAKIIGNNVKKLQKFASTVKMWVFEETVNGRKLTDIINNDHENVKYLPGHKLPENVVAMSNLSEAVQDADLLVFVIPHQFIHRICDEITGRVPKKALGITLIKGIDEGPEGLKLISDIIREKMGIDISVLMGANIANEVAAEKFCETTIGSKVMENGLLFKELLQTPNFRITVVDDADTVELCGALKNIVAVGAGFCDGLRCGDNTKAAVIRLGLMEMIAFARIFCKGQVSTATFLESCGVADLITTCYGGRNRRVAEAFARTGKTIEELEKEMLNGQKLQGPQTSAEVYRILKQKGLLDKFPLFTAVYQICYESRPVQEMLSCLQS 2plg-a2-m4-cB_2plg-a2-m1-cA Crystal structure of T110839 protein from Synechococcus elongatus Q8DKM0 Q8DKM0 2.6 X-RAY DIFFRACTION 39 0.993 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 145 150 2plg-a2-m3-cB_2plg-a2-m2-cA SLTVSEVQPVAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK LTVSEVQPVSPASLDAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK 2plg-a2-m4-cB_2plg-a2-m2-cA Crystal structure of T110839 protein from Synechococcus elongatus Q8DKM0 Q8DKM0 2.6 X-RAY DIFFRACTION 36 0.993 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 145 150 2plg-a2-m3-cB_2plg-a2-m1-cA SLTVSEVQPVAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK LTVSEVQPVSPASLDAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK 2plg-a3-m1-cA_2plg-a3-m2-cA Crystal structure of T110839 protein from Synechococcus elongatus Q8DKM0 Q8DKM0 2.6 X-RAY DIFFRACTION 119 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 150 150 2plg-a2-m1-cA_2plg-a2-m2-cA LTVSEVQPVSPASLDAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK LTVSEVQPVSPASLDAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK 2plg-a3-m2-cB_2plg-a3-m2-cA Crystal structure of T110839 protein from Synechococcus elongatus Q8DKM0 Q8DKM0 2.6 X-RAY DIFFRACTION 90 0.993 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 145 150 2plg-a1-m1-cB_2plg-a1-m1-cA 2plg-a3-m1-cB_2plg-a3-m1-cA SLTVSEVQPVAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK LTVSEVQPVSPASLDAPLENAVEIIETVISSLHQGDAPLVGQTDSGKIWFRYGSAEVFVQLSGHTEEDFLTIWSPVLPLPVADELALYRKLLTLNWLTTFEAHFAIAEEQVQVVASRTLGGITAGEISRLITIVATLADDYDDALRAEFK 2plh-a1-m3-cA_2plh-a1-m4-cA STRUCTURE OF ALPHA-1-PUROTHIONIN AT ROOM TEMPERATURE AND 2.8 ANGSTROMS RESOLUTION P01544 P01544 2.5 X-RAY DIFFRACTION 16 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 45 45 2plh-a1-m1-cA_2plh-a1-m2-cA 2plh-a1-m1-cA_2plh-a1-m3-cA 2plh-a1-m2-cA_2plh-a1-m4-cA KSCCRSTLGRNCYNLCRARGAQKLCAGVCRCKISSGLSCPKGFPK KSCCRSTLGRNCYNLCRARGAQKLCAGVCRCKISSGLSCPKGFPK 2pli-a1-m1-cB_2pli-a1-m1-cA Crystal structure of putative Mg2+ and Co2+ transporter(CorC)associated region from Neisseria meningitidis MC58 Q9K0P8 Q9K0P8 1.7 X-RAY DIFFRACTION 18 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 81 83 ADNIHAVSSERWRIHAATEIEDINTFFGTEYSSEEADTIGGLVIQELGHLPVRGEKVLIGGLQFTVARADNRRLHTLATRV SADNIHAVSSERWRIHAATEIEDINTFFGTEYSSEEADTIGGLVIQELGHLPVRGEKVLIGGLQFTVARADNRRLHTLATRVK 2pli-a1-m1-cD_2pli-a1-m1-cB Crystal structure of putative Mg2+ and Co2+ transporter(CorC)associated region from Neisseria meningitidis MC58 Q9K0P8 Q9K0P8 1.7 X-RAY DIFFRACTION 28 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 80 81 2pli-a1-m1-cC_2pli-a1-m1-cA DNIHAVSSERWRIHAATEIEDINTFFGTEYSSEEADTIGGLVIQELGHLPVRGEKVLIGGLQFTVARADNRRLHTLATRV ADNIHAVSSERWRIHAATEIEDINTFFGTEYSSEEADTIGGLVIQELGHLPVRGEKVLIGGLQFTVARADNRRLHTLATRV 2plj-a1-m1-cB_2plj-a1-m1-cA Crystal structure of lysine/ornithine decarboxylase complexed with putrescine from Vibrio vulnificus 1.7 X-RAY DIFFRACTION 130 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 363 376 2plk-a1-m1-cB_2plk-a1-m1-cA VLSAEEIHLIEASVEQFGAPLLLLDCDVIRQQYRALKNALPNVTLHYALKPLPHPVVVRTLLAEGASFDLATTGEVELVASEGVPADLTIHTHPIKRDADIRDALAYGCNVFVVDNLNELEKFKAYRDDVELLVRLSFSKKFGCSPEQALVIIETAKEWNIRIKGLSFHVGSQTTNPNKYVEAIHTCRHVMEQVVERGLPALSTLDIGGGFPVNYTQQVMPIDQFCAPINEALSLLPETVHVLAEPGRFICAPAVTSVASVMGQAEREGQIWYYLDDGIYGSFSGLMFDDARYPLTTIKGELIPSVLSGPTCDSVDVIAENILLPKLNNGDLVIGRTMGAYTSATATDFNFFKRAQTIALNEF HSQSIFDIHPVLSAEEIHLIEASVEQFGAPLLLLDCDVIRQQYRALKNALPNVTLHYALKPLPHPVVVRTLLAEGASFDLATTGEVELVASEGVPADLTIHTHPIKRDADIRDALAYGCNVFVVDNLNELEKFKAYRDDVELLVRLSFSKKFGCSPEQALVIIETAKEWNIRIKGLSFHVGSQTTNPNKYVEAIHTCRHVMEQVVERGLPALSTLDIGGGFPVNYTQQVMPIDQFCAPINEALSLLPETVHVLAEPGRFICAPAVTSVASVMGQAEREGQIWYYLDDGIYGSFSGLMFDDARYPLTTIKQGGELIPSVLSGPTCDSVDVIAENILLPKLNNGDLVIGRTMGAYTSATATDFNFFKRAQTIALNEFV 2pln-a1-m1-cA_2pln-a1-m2-cA Crystal structure analysis of HP1043, an orphan resonse regulator of h. pylori O25684 O25684 1.8 X-RAY DIFFRACTION 53 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 114 114 2hqo-a1-m1-cA_2hqo-a1-m1-cB 2hqr-a1-m1-cA_2hqr-a1-m1-cB PRGSRVLLIEKNSVLGGEIEKGLNVKGFADVTESLEDGEYLDIRNYDLVVSDKNALSFVSRIKEKHSSIVVLVSSDNPTSEEEVHAFEQGADDYIAKPYRSIKALVARIEARLR PRGSRVLLIEKNSVLGGEIEKGLNVKGFADVTESLEDGEYLDIRNYDLVVSDKNALSFVSRIKEKHSSIVVLVSSDNPTSEEEVHAFEQGADDYIAKPYRSIKALVARIEARLR 2pls-a1-m1-cB_2pls-a1-m1-cC Structural Genomics, the crystal structure of the CorC/HlyC transporter associated domain of a CBS domain protein from Chlorobium tepidum TLS Q8KEZ1 Q8KEZ1 2.15 X-RAY DIFFRACTION 16 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 83 83 2pls-a1-m1-cA_2pls-a1-m1-cB 2pls-a1-m1-cA_2pls-a1-m1-cC 2pls-a2-m1-cD_2pls-a2-m1-cE 2pls-a2-m1-cD_2pls-a2-m1-cF 2pls-a2-m1-cE_2pls-a2-m1-cF SNAVQREDGSWLLDGLIAVPELKDTLGLRAVPEEEKGVYHTLSGIWLLGRLPQTGDITFWENWRLEVIDDSKRIDKVLATKID SNAVQREDGSWLLDGLIAVPELKDTLGLRAVPEEEKGVYHTLSGIWLLGRLPQTGDITFWENWRLEVIDDSKRIDKVLATKID 2pls-a6-m1-cL_2pls-a6-m2-cL Structural Genomics, the crystal structure of the CorC/HlyC transporter associated domain of a CBS domain protein from Chlorobium tepidum TLS Q8KEZ1 Q8KEZ1 2.15 X-RAY DIFFRACTION 23 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 83 83 2pls-a3-m1-cG_2pls-a3-m1-cH 2pls-a4-m1-cI_2pls-a4-m1-cJ 2pls-a5-m1-cK_2pls-a5-m2-cK SNAVQREDGSWLLDGLIAVPELKDTLGLRAVPEEEKGVYHTLSGIWLLGRLPQTGDITFWENWRLEVIDDSKRIDKVLATKID SNAVQREDGSWLLDGLIAVPELKDTLGLRAVPEEEKGVYHTLSGIWLLGRLPQTGDITFWENWRLEVIDDSKRIDKVLATKID 2plv-a1-m8-c1_2plv-a1-m9-c1 STRUCTURAL FACTORS THAT CONTROL CONFORMATIONAL TRANSITIONS AND SEROTYPE SPECIFICITY IN TYPE 3 POLIOVIRUS P03300 P03300 2.88 X-RAY DIFFRACTION 84 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 288 288 1al2-a1-m10-c1_1al2-a1-m6-c1 1al2-a1-m10-c1_1al2-a1-m9-c1 1al2-a1-m11-c1_1al2-a1-m12-c1 1al2-a1-m11-c1_1al2-a1-m15-c1 1al2-a1-m12-c1_1al2-a1-m13-c1 1al2-a1-m13-c1_1al2-a1-m14-c1 1al2-a1-m14-c1_1al2-a1-m15-c1 1al2-a1-m16-c1_1al2-a1-m17-c1 1al2-a1-m16-c1_1al2-a1-m20-c1 1al2-a1-m17-c1_1al2-a1-m18-c1 1al2-a1-m18-c1_1al2-a1-m19-c1 1al2-a1-m19-c1_1al2-a1-m20-c1 1al2-a1-m1-c1_1al2-a1-m2-c1 1al2-a1-m1-c1_1al2-a1-m5-c1 1al2-a1-m21-c1_1al2-a1-m22-c1 1al2-a1-m21-c1_1al2-a1-m25-c1 1al2-a1-m22-c1_1al2-a1-m23-c1 1al2-a1-m23-c1_1al2-a1-m24-c1 1al2-a1-m24-c1_1al2-a1-m25-c1 1al2-a1-m26-c1_1al2-a1-m27-c1 1al2-a1-m26-c1_1al2-a1-m30-c1 1al2-a1-m27-c1_1al2-a1-m28-c1 1al2-a1-m28-c1_1al2-a1-m29-c1 1al2-a1-m29-c1_1al2-a1-m30-c1 1al2-a1-m2-c1_1al2-a1-m3-c1 1al2-a1-m31-c1_1al2-a1-m32-c1 1al2-a1-m31-c1_1al2-a1-m35-c1 1al2-a1-m32-c1_1al2-a1-m33-c1 1al2-a1-m33-c1_1al2-a1-m34-c1 1al2-a1-m34-c1_1al2-a1-m35-c1 1al2-a1-m36-c1_1al2-a1-m37-c1 1al2-a1-m36-c1_1al2-a1-m40-c1 1al2-a1-m37-c1_1al2-a1-m38-c1 1al2-a1-m38-c1_1al2-a1-m39-c1 1al2-a1-m39-c1_1al2-a1-m40-c1 1al2-a1-m3-c1_1al2-a1-m4-c1 1al2-a1-m41-c1_1al2-a1-m42-c1 1al2-a1-m41-c1_1al2-a1-m45-c1 1al2-a1-m42-c1_1al2-a1-m43-c1 1al2-a1-m43-c1_1al2-a1-m44-c1 1al2-a1-m44-c1_1al2-a1-m45-c1 1al2-a1-m46-c1_1al2-a1-m47-c1 1al2-a1-m46-c1_1al2-a1-m50-c1 1al2-a1-m47-c1_1al2-a1-m48-c1 1al2-a1-m48-c1_1al2-a1-m49-c1 1al2-a1-m49-c1_1al2-a1-m50-c1 1al2-a1-m4-c1_1al2-a1-m5-c1 1al2-a1-m51-c1_1al2-a1-m52-c1 1al2-a1-m51-c1_1al2-a1-m55-c1 1al2-a1-m52-c1_1al2-a1-m53-c1 1al2-a1-m53-c1_1al2-a1-m54-c1 1al2-a1-m54-c1_1al2-a1-m55-c1 1al2-a1-m56-c1_1al2-a1-m57-c1 1al2-a1-m56-c1_1al2-a1-m60-c1 1al2-a1-m57-c1_1al2-a1-m58-c1 1al2-a1-m58-c1_1al2-a1-m59-c1 1al2-a1-m59-c1_1al2-a1-m60-c1 1al2-a1-m6-c1_1al2-a1-m7-c1 1al2-a1-m7-c1_1al2-a1-m8-c1 1al2-a1-m8-c1_1al2-a1-m9-c1 1ar6-a1-m10-c1_1ar6-a1-m6-c1 1ar6-a1-m10-c1_1ar6-a1-m9-c1 1ar6-a1-m11-c1_1ar6-a1-m12-c1 1ar6-a1-m11-c1_1ar6-a1-m15-c1 1ar6-a1-m12-c1_1ar6-a1-m13-c1 1ar6-a1-m13-c1_1ar6-a1-m14-c1 1ar6-a1-m14-c1_1ar6-a1-m15-c1 1ar6-a1-m16-c1_1ar6-a1-m17-c1 1ar6-a1-m16-c1_1ar6-a1-m20-c1 1ar6-a1-m17-c1_1ar6-a1-m18-c1 1ar6-a1-m18-c1_1ar6-a1-m19-c1 1ar6-a1-m19-c1_1ar6-a1-m20-c1 1ar6-a1-m1-c1_1ar6-a1-m2-c1 1ar6-a1-m1-c1_1ar6-a1-m5-c1 1ar6-a1-m21-c1_1ar6-a1-m22-c1 1ar6-a1-m21-c1_1ar6-a1-m25-c1 1ar6-a1-m22-c1_1ar6-a1-m23-c1 1ar6-a1-m23-c1_1ar6-a1-m24-c1 1ar6-a1-m24-c1_1ar6-a1-m25-c1 1ar6-a1-m26-c1_1ar6-a1-m27-c1 1ar6-a1-m26-c1_1ar6-a1-m30-c1 1ar6-a1-m27-c1_1ar6-a1-m28-c1 1ar6-a1-m28-c1_1ar6-a1-m29-c1 1ar6-a1-m29-c1_1ar6-a1-m30-c1 1ar6-a1-m2-c1_1ar6-a1-m3-c1 1ar6-a1-m31-c1_1ar6-a1-m32-c1 1ar6-a1-m31-c1_1ar6-a1-m35-c1 1ar6-a1-m32-c1_1ar6-a1-m33-c1 1ar6-a1-m33-c1_1ar6-a1-m34-c1 1ar6-a1-m34-c1_1ar6-a1-m35-c1 1ar6-a1-m36-c1_1ar6-a1-m37-c1 1ar6-a1-m36-c1_1ar6-a1-m40-c1 1ar6-a1-m37-c1_1ar6-a1-m38-c1 1ar6-a1-m38-c1_1ar6-a1-m39-c1 1ar6-a1-m39-c1_1ar6-a1-m40-c1 1ar6-a1-m3-c1_1ar6-a1-m4-c1 1ar6-a1-m41-c1_1ar6-a1-m42-c1 1ar6-a1-m41-c1_1ar6-a1-m45-c1 1ar6-a1-m42-c1_1ar6-a1-m43-c1 1ar6-a1-m43-c1_1ar6-a1-m44-c1 1ar6-a1-m44-c1_1ar6-a1-m45-c1 1ar6-a1-m46-c1_1ar6-a1-m47-c1 1ar6-a1-m46-c1_1ar6-a1-m50-c1 1ar6-a1-m47-c1_1ar6-a1-m48-c1 1ar6-a1-m48-c1_1ar6-a1-m49-c1 1ar6-a1-m49-c1_1ar6-a1-m50-c1 1ar6-a1-m4-c1_1ar6-a1-m5-c1 1ar6-a1-m51-c1_1ar6-a1-m52-c1 1ar6-a1-m51-c1_1ar6-a1-m55-c1 1ar6-a1-m52-c1_1ar6-a1-m53-c1 1ar6-a1-m53-c1_1ar6-a1-m54-c1 1ar6-a1-m54-c1_1ar6-a1-m55-c1 1ar6-a1-m56-c1_1ar6-a1-m57-c1 1ar6-a1-m56-c1_1ar6-a1-m60-c1 1ar6-a1-m57-c1_1ar6-a1-m58-c1 1ar6-a1-m58-c1_1ar6-a1-m59-c1 1ar6-a1-m59-c1_1ar6-a1-m60-c1 1ar6-a1-m6-c1_1ar6-a1-m7-c1 1ar6-a1-m7-c1_1ar6-a1-m8-c1 1ar6-a1-m8-c1_1ar6-a1-m9-c1 1ar7-a1-m10-c1_1ar7-a1-m6-c1 1ar7-a1-m10-c1_1ar7-a1-m9-c1 1ar7-a1-m11-c1_1ar7-a1-m12-c1 1ar7-a1-m11-c1_1ar7-a1-m15-c1 1ar7-a1-m12-c1_1ar7-a1-m13-c1 1ar7-a1-m13-c1_1ar7-a1-m14-c1 1ar7-a1-m14-c1_1ar7-a1-m15-c1 1ar7-a1-m16-c1_1ar7-a1-m17-c1 1ar7-a1-m16-c1_1ar7-a1-m20-c1 1ar7-a1-m17-c1_1ar7-a1-m18-c1 1ar7-a1-m18-c1_1ar7-a1-m19-c1 1ar7-a1-m19-c1_1ar7-a1-m20-c1 1ar7-a1-m1-c1_1ar7-a1-m2-c1 1ar7-a1-m1-c1_1ar7-a1-m5-c1 1ar7-a1-m21-c1_1ar7-a1-m22-c1 1ar7-a1-m21-c1_1ar7-a1-m25-c1 1ar7-a1-m22-c1_1ar7-a1-m23-c1 1ar7-a1-m23-c1_1ar7-a1-m24-c1 1ar7-a1-m24-c1_1ar7-a1-m25-c1 1ar7-a1-m26-c1_1ar7-a1-m27-c1 1ar7-a1-m26-c1_1ar7-a1-m30-c1 1ar7-a1-m27-c1_1ar7-a1-m28-c1 1ar7-a1-m28-c1_1ar7-a1-m29-c1 1ar7-a1-m29-c1_1ar7-a1-m30-c1 1ar7-a1-m2-c1_1ar7-a1-m3-c1 1ar7-a1-m31-c1_1ar7-a1-m32-c1 1ar7-a1-m31-c1_1ar7-a1-m35-c1 1ar7-a1-m32-c1_1ar7-a1-m33-c1 1ar7-a1-m33-c1_1ar7-a1-m34-c1 1ar7-a1-m34-c1_1ar7-a1-m35-c1 1ar7-a1-m36-c1_1ar7-a1-m37-c1 1ar7-a1-m36-c1_1ar7-a1-m40-c1 1ar7-a1-m37-c1_1ar7-a1-m38-c1 1ar7-a1-m38-c1_1ar7-a1-m39-c1 1ar7-a1-m39-c1_1ar7-a1-m40-c1 1ar7-a1-m3-c1_1ar7-a1-m4-c1 1ar7-a1-m41-c1_1ar7-a1-m42-c1 1ar7-a1-m41-c1_1ar7-a1-m45-c1 1ar7-a1-m42-c1_1ar7-a1-m43-c1 1ar7-a1-m43-c1_1ar7-a1-m44-c1 1ar7-a1-m44-c1_1ar7-a1-m45-c1 1ar7-a1-m46-c1_1ar7-a1-m47-c1 1ar7-a1-m46-c1_1ar7-a1-m50-c1 1ar7-a1-m47-c1_1ar7-a1-m48-c1 1ar7-a1-m48-c1_1ar7-a1-m49-c1 1ar7-a1-m49-c1_1ar7-a1-m50-c1 1ar7-a1-m4-c1_1ar7-a1-m5-c1 1ar7-a1-m51-c1_1ar7-a1-m52-c1 1ar7-a1-m51-c1_1ar7-a1-m55-c1 1ar7-a1-m52-c1_1ar7-a1-m53-c1 1ar7-a1-m53-c1_1ar7-a1-m54-c1 1ar7-a1-m54-c1_1ar7-a1-m55-c1 1ar7-a1-m56-c1_1ar7-a1-m57-c1 1ar7-a1-m56-c1_1ar7-a1-m60-c1 1ar7-a1-m57-c1_1ar7-a1-m58-c1 1ar7-a1-m58-c1_1ar7-a1-m59-c1 1ar7-a1-m59-c1_1ar7-a1-m60-c1 1ar7-a1-m6-c1_1ar7-a1-m7-c1 1ar7-a1-m7-c1_1ar7-a1-m8-c1 1ar7-a1-m8-c1_1ar7-a1-m9-c1 1ar8-a1-m10-c1_1ar8-a1-m6-c1 1ar8-a1-m10-c1_1ar8-a1-m9-c1 1ar8-a1-m11-c1_1ar8-a1-m12-c1 1ar8-a1-m11-c1_1ar8-a1-m15-c1 1ar8-a1-m12-c1_1ar8-a1-m13-c1 1ar8-a1-m13-c1_1ar8-a1-m14-c1 1ar8-a1-m14-c1_1ar8-a1-m15-c1 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6psz-a1-m43-c3_6psz-a1-m44-c3 6psz-a1-m44-c3_6psz-a1-m45-c3 6psz-a1-m46-c3_6psz-a1-m47-c3 6psz-a1-m46-c3_6psz-a1-m50-c3 6psz-a1-m47-c3_6psz-a1-m48-c3 6psz-a1-m48-c3_6psz-a1-m49-c3 6psz-a1-m49-c3_6psz-a1-m50-c3 6psz-a1-m4-c3_6psz-a1-m5-c3 6psz-a1-m51-c3_6psz-a1-m52-c3 6psz-a1-m51-c3_6psz-a1-m55-c3 6psz-a1-m52-c3_6psz-a1-m53-c3 6psz-a1-m53-c3_6psz-a1-m54-c3 6psz-a1-m54-c3_6psz-a1-m55-c3 6psz-a1-m56-c3_6psz-a1-m57-c3 6psz-a1-m56-c3_6psz-a1-m60-c3 6psz-a1-m57-c3_6psz-a1-m58-c3 6psz-a1-m58-c3_6psz-a1-m59-c3 6psz-a1-m59-c3_6psz-a1-m60-c3 6psz-a1-m6-c3_6psz-a1-m7-c3 6psz-a1-m7-c3_6psz-a1-m8-c3 6psz-a1-m8-c3_6psz-a1-m9-c3 6q0b-a1-m10-c3_6q0b-a1-m6-c3 6q0b-a1-m10-c3_6q0b-a1-m9-c3 6q0b-a1-m11-c3_6q0b-a1-m12-c3 6q0b-a1-m11-c3_6q0b-a1-m15-c3 6q0b-a1-m12-c3_6q0b-a1-m13-c3 6q0b-a1-m13-c3_6q0b-a1-m14-c3 6q0b-a1-m14-c3_6q0b-a1-m15-c3 6q0b-a1-m16-c3_6q0b-a1-m17-c3 6q0b-a1-m16-c3_6q0b-a1-m20-c3 6q0b-a1-m17-c3_6q0b-a1-m18-c3 6q0b-a1-m18-c3_6q0b-a1-m19-c3 6q0b-a1-m19-c3_6q0b-a1-m20-c3 6q0b-a1-m1-c3_6q0b-a1-m2-c3 6q0b-a1-m1-c3_6q0b-a1-m5-c3 6q0b-a1-m21-c3_6q0b-a1-m22-c3 6q0b-a1-m21-c3_6q0b-a1-m25-c3 6q0b-a1-m22-c3_6q0b-a1-m23-c3 6q0b-a1-m23-c3_6q0b-a1-m24-c3 6q0b-a1-m24-c3_6q0b-a1-m25-c3 6q0b-a1-m26-c3_6q0b-a1-m27-c3 6q0b-a1-m26-c3_6q0b-a1-m30-c3 6q0b-a1-m27-c3_6q0b-a1-m28-c3 6q0b-a1-m28-c3_6q0b-a1-m29-c3 6q0b-a1-m29-c3_6q0b-a1-m30-c3 6q0b-a1-m2-c3_6q0b-a1-m3-c3 6q0b-a1-m31-c3_6q0b-a1-m32-c3 6q0b-a1-m31-c3_6q0b-a1-m35-c3 6q0b-a1-m32-c3_6q0b-a1-m33-c3 6q0b-a1-m33-c3_6q0b-a1-m34-c3 6q0b-a1-m34-c3_6q0b-a1-m35-c3 6q0b-a1-m36-c3_6q0b-a1-m37-c3 6q0b-a1-m36-c3_6q0b-a1-m40-c3 6q0b-a1-m37-c3_6q0b-a1-m38-c3 6q0b-a1-m38-c3_6q0b-a1-m39-c3 6q0b-a1-m39-c3_6q0b-a1-m40-c3 6q0b-a1-m3-c3_6q0b-a1-m4-c3 6q0b-a1-m41-c3_6q0b-a1-m42-c3 6q0b-a1-m41-c3_6q0b-a1-m45-c3 6q0b-a1-m42-c3_6q0b-a1-m43-c3 6q0b-a1-m43-c3_6q0b-a1-m44-c3 6q0b-a1-m44-c3_6q0b-a1-m45-c3 6q0b-a1-m46-c3_6q0b-a1-m47-c3 6q0b-a1-m46-c3_6q0b-a1-m50-c3 6q0b-a1-m47-c3_6q0b-a1-m48-c3 6q0b-a1-m48-c3_6q0b-a1-m49-c3 6q0b-a1-m49-c3_6q0b-a1-m50-c3 6q0b-a1-m4-c3_6q0b-a1-m5-c3 6q0b-a1-m51-c3_6q0b-a1-m52-c3 6q0b-a1-m51-c3_6q0b-a1-m55-c3 6q0b-a1-m52-c3_6q0b-a1-m53-c3 6q0b-a1-m53-c3_6q0b-a1-m54-c3 6q0b-a1-m54-c3_6q0b-a1-m55-c3 6q0b-a1-m56-c3_6q0b-a1-m57-c3 6q0b-a1-m56-c3_6q0b-a1-m60-c3 6q0b-a1-m57-c3_6q0b-a1-m58-c3 6q0b-a1-m58-c3_6q0b-a1-m59-c3 6q0b-a1-m59-c3_6q0b-a1-m60-c3 6q0b-a1-m6-c3_6q0b-a1-m7-c3 6q0b-a1-m7-c3_6q0b-a1-m8-c3 6q0b-a1-m8-c3_6q0b-a1-m9-c3 GLPVMNTPGSNQYLTADNFQSPCALPEFDVTPPIDIPGEVKNMMELAEIDTMIPFDLSATKKNTMEMYRVRLSDKPHTDDPILCLSLSPASDPRLSHTMLGEILNYYTHWAGSLKFTFLFCGSMMATGKLLVSYAPPGADPPKKRKEAMLGTHVIWDIGLQSSCTMVVPWISNTTYRQTIDDSFTEGGYISVFYQTRIVVPLSTPREMDILGFVSACNDFSVRLLRDTTHIEQKA GLPVMNTPGSNQYLTADNFQSPCALPEFDVTPPIDIPGEVKNMMELAEIDTMIPFDLSATKKNTMEMYRVRLSDKPHTDDPILCLSLSPASDPRLSHTMLGEILNYYTHWAGSLKFTFLFCGSMMATGKLLVSYAPPGADPPKKRKEAMLGTHVIWDIGLQSSCTMVVPWISNTTYRQTIDDSFTEGGYISVFYQTRIVVPLSTPREMDILGFVSACNDFSVRLLRDTTHIEQKA 2pm5-a6-m1-cB_2pm5-a6-m4-cB Human alpha-defensin 1 derivative (HNP1) P59666 P59666 2.4 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 27 2pm5-a3-m1-cB_2pm5-a3-m4-cB 2pm5-a3-m2-cB_2pm5-a3-m3-cB 2pm5-a4-m1-cA_2pm5-a4-m5-cA 2pm5-a4-m6-cA_2pm5-a4-m7-cA 2pm5-a5-m1-cA_2pm5-a5-m5-cA DCYCRIPACIAGEYGTCIYQGLWAFCC DCYCRIPACIAGEYGTCIYQGLWAFCC 2pmb-a1-m1-cC_2pmb-a1-m1-cA Crystal structure of predicted nucleotide-binding protein from Vibrio cholerae Q9KTK3 Q9KTK3 1.99 X-RAY DIFFRACTION 66 0.995 666 (Vibrio cholerae) 666 (Vibrio cholerae) 417 420 2pmb-a1-m1-cB_2pmb-a1-m1-cD 3gh1-a1-m1-cC_3gh1-a1-m1-cA 3gh1-a1-m1-cD_3gh1-a1-m1-cB 4npa-a1-m1-cA_4npa-a1-m1-cB 4npa-a1-m1-cD_4npa-a1-m1-cC SLIIQVSPSDLLSQLEVERLKKSDLYQLYRNCSLAVLNSGNSKELLDKYKNFDITVRRERGIKLELANPPEHAFVDGQIIKGIQEHLFSVLRDIVYVNHLNATHITNLVFGILRNAGALIPGATPNLVVCWGGHSINEVEYQYTREVGHELGLRELNICTGCGPGAEGPKGAAVGHAKQRYSEYRYLGLTEPSIIAAEPPNPIVNELVIPDIEKRLEAFVRAHGIIIFPGGPGTAEELLYILGIHPENADQPPIVLTGPKQSEAYFRSLDKFITDTLGEAARKHYSIAIDNPAEAARISNAPLVRQHRKDKEDAYSFNWSLKIEPEFQLPFEPNHESANLDLHLNQRPEVLAANLRRAFSGVVAGNVKAEGIREIERHGPFEHGDPVLKKDQLLNDFVAQNRKLPGGSAYEPCYKIV SLIIQVSPSDLLSQLEVERLKKTASSDLYQLYRNCSLAVLNSTDNSKELLDKYKNFDITVRRERGIKLELANPPEHAFVDGQIIKGIQEHLFSVLRDIVYVNHLNATHITNLVFGILRNAGALIPGATPNLVVCWGGHSINEVEYQYTREVGHELGLRELNICTGCGPGAEGPKGAAVGHAKQRYSEYRYLGLTEPSIIAAEPPNPIVNELVIPDIEKRLEAFVRAHGIIIFPGGPGTAEELLYILGIHPENADQPPIVLTGPKQSEAYFRSLDKFITDTLGEAARKHYSIAIDNPAEAARISNAPLVRQHRKDKEDAYSFNWSLKIEPEFQLPFEPNHESANLDLHLNQRPEVLAANLRRAFSGVVAGNVKAEGIREIERHGPFEHGDPVLKKDQLLNDFVAQNRKLPGSAYEPCYKIV 2pmb-a1-m1-cC_2pmb-a1-m1-cB Crystal structure of predicted nucleotide-binding protein from Vibrio cholerae Q9KTK3 Q9KTK3 1.99 X-RAY DIFFRACTION 74 0.998 666 (Vibrio cholerae) 666 (Vibrio cholerae) 417 420 2pmb-a1-m1-cA_2pmb-a1-m1-cD 3gh1-a1-m1-cC_3gh1-a1-m1-cB 3gh1-a1-m1-cD_3gh1-a1-m1-cA 4npa-a1-m1-cC_4npa-a1-m1-cB 4npa-a1-m1-cD_4npa-a1-m1-cA SLIIQVSPSDLLSQLEVERLKKSDLYQLYRNCSLAVLNSGNSKELLDKYKNFDITVRRERGIKLELANPPEHAFVDGQIIKGIQEHLFSVLRDIVYVNHLNATHITNLVFGILRNAGALIPGATPNLVVCWGGHSINEVEYQYTREVGHELGLRELNICTGCGPGAEGPKGAAVGHAKQRYSEYRYLGLTEPSIIAAEPPNPIVNELVIPDIEKRLEAFVRAHGIIIFPGGPGTAEELLYILGIHPENADQPPIVLTGPKQSEAYFRSLDKFITDTLGEAARKHYSIAIDNPAEAARISNAPLVRQHRKDKEDAYSFNWSLKIEPEFQLPFEPNHESANLDLHLNQRPEVLAANLRRAFSGVVAGNVKAEGIREIERHGPFEHGDPVLKKDQLLNDFVAQNRKLPGGSAYEPCYKIV SLIIQVSPSDLLSQLEVERLKKTSSDLYQLYRNCSLAVLNSTDNSKELLDKYKNFDITVRRERGIKLELANPPEHAFVDGQIIKGIQEHLFSVLRDIVYVNHLNATHITNLVFGILRNAGALIPGATPNLVVCWGGHSINEVEYQYTREVGHELGLRELNICTGCGPGAEGPKGAAVGHAKQRYSEYRYLGLTEPSIIAAEPPNPIVNELVIPDIEKRLEAFVRAHGIIIFPGGPGTAEELLYILGIHPENADQPPIVLTGPKQSEAYFRSLDKFITDTLGEAARKHYSIAIDNPAEAARISNAPLVRQHRKDKEDAYSFNWSLKIEPEFQLPFEPNHESANLDLHLNQRPEVLAANLRRAFSGVVAGNVKAEGIREIERHGPFEHGDPVLKKDQLLNDFVAQNRKLPGGSAYEPCYKIV 2pml-a1-m1-cX_2pml-a1-m2-cX Crystal structure of PfPK7 in complex with an ATP analogue O96214 O96214 2.6 X-RAY DIFFRACTION 56 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 340 340 GPLGSMKDILSNYSNLIYLNKYVKEKDKYINDYRIIRTLNQGKFNKIILCEKDNKFYALKKYEKSLLEKKRDFTKSNNDKISIKSKYDDFKNELQIITDIKNEYCLTCEGIITNYDEVYIIYEYMENDSILKFDEYFFVLDKNYTCFIPIQVIKCIIKSVLNSFSYIHNEKNICHRDVKPSNILMDKNGRVKLSDFGESEYMVDKKIKGSRGTYEFMPPEFFSNESSYNGAKVDIWSLGICLYVMFYNVVPFSLKISLVELFNNIRTKNIEYPLDRNHFLYPLTNFLSNEDIDFLKLFLRKNPAERITSEDALKHEWLADTNIEDLREFSKELYKKRKKL GPLGSMKDILSNYSNLIYLNKYVKEKDKYINDYRIIRTLNQGKFNKIILCEKDNKFYALKKYEKSLLEKKRDFTKSNNDKISIKSKYDDFKNELQIITDIKNEYCLTCEGIITNYDEVYIIYEYMENDSILKFDEYFFVLDKNYTCFIPIQVIKCIIKSVLNSFSYIHNEKNICHRDVKPSNILMDKNGRVKLSDFGESEYMVDKKIKGSRGTYEFMPPEFFSNESSYNGAKVDIWSLGICLYVMFYNVVPFSLKISLVELFNNIRTKNIEYPLDRNHFLYPLTNFLSNEDIDFLKLFLRKNPAERITSEDALKHEWLADTNIEDLREFSKELYKKRKKL 2pmp-a1-m2-cA_2pmp-a1-m3-cA Structure of 2C-methyl-D-erythritol 2,4-cyclodiphosphate synthase from the isoprenoid biosynthetic pathway of Arabidopsis thaliana Q9CAK8 Q9CAK8 2.3 X-RAY DIFFRACTION 72 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 160 160 2pmp-a1-m1-cA_2pmp-a1-m2-cA 2pmp-a1-m1-cA_2pmp-a1-m3-cA TLPFRIGHGFDLHRLEPGYPLIIGGIVIPHDRGCEAHSDGDVLLHCVVDAILGALGLPDIGQIFPDSDPKWKGAASSVFIKEAVRLMDEAGYEIGNLDATLILQRPKISPHKETIRSNLSKLLGADPSVVNLKAKTHEKVDSLGENRSIAAHTVILLMKK TLPFRIGHGFDLHRLEPGYPLIIGGIVIPHDRGCEAHSDGDVLLHCVVDAILGALGLPDIGQIFPDSDPKWKGAASSVFIKEAVRLMDEAGYEIGNLDATLILQRPKISPHKETIRSNLSKLLGADPSVVNLKAKTHEKVDSLGENRSIAAHTVILLMKK 2pmu-a1-m1-cC_2pmu-a1-m1-cD Crystal structure of the DNA-binding domain of PhoP Q7D9B8 Q7D9B8 1.779 X-RAY DIFFRACTION 29 0.989 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 92 96 2pmu-a1-m1-cA_2pmu-a1-m1-cB 2pmu-a1-m1-cC_2pmu-a1-m1-cB 2pmu-a1-m1-cD_2pmu-a1-m1-cE 2pmu-a1-m1-cF_2pmu-a1-m1-cA 2pmu-a1-m1-cF_2pmu-a1-m1-cE NVRLTFADIELDEETHEVWKAGQPVSLSPTEFTLLRYFVINAGTVLSKPKILDHVWVNVVESYVSYLRRKIDTGEKRLLHTLRGVGYVLREP VRLTFADIELDEETHEVWKAGQPVSLSPTEFTLLRYFVINAGTVLSKPKILDHVWRYDFGVNVVESYVSYLRRKIDTGEKRLLHTLRGVGYVLREP 2pmy-a1-m1-cB_2pmy-a1-m1-cA EF-hand domain of human RASEF Q8IZ41 Q8IZ41 2.3 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 73 DGDGEELARLRSVFAACDANRSGRLEREEFRALCTELRVRPADAEAVFQRLDADRDGAITFQEFARGFLGSL ADGDGEELARLRSVFAACDANRSGRLEREEFRALCTELRVRPADAEAVFQRLDADRDGAITFQEFARGFLGSL 2pmy-a2-m4-cB_2pmy-a2-m1-cA EF-hand domain of human RASEF Q8IZ41 Q8IZ41 2.3 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 73 2pmy-a2-m3-cB_2pmy-a2-m2-cA DGDGEELARLRSVFAACDANRSGRLEREEFRALCTELRVRPADAEAVFQRLDADRDGAITFQEFARGFLGSL ADGDGEELARLRSVFAACDANRSGRLEREEFRALCTELRVRPADAEAVFQRLDADRDGAITFQEFARGFLGSL 2pmy-a2-m4-cB_2pmy-a2-m2-cA EF-hand domain of human RASEF Q8IZ41 Q8IZ41 2.3 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 73 2pmy-a2-m3-cB_2pmy-a2-m1-cA DGDGEELARLRSVFAACDANRSGRLEREEFRALCTELRVRPADAEAVFQRLDADRDGAITFQEFARGFLGSL ADGDGEELARLRSVFAACDANRSGRLEREEFRALCTELRVRPADAEAVFQRLDADRDGAITFQEFARGFLGSL 2pn0-a2-m1-cC_2pn0-a2-m1-cB Prokaryotic transcription elongation factor GreA/GreB from Nitrosomonas europaea Q82T10 Q82T10 1.7 X-RAY DIFFRACTION 128 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 119 121 2pn0-a1-m1-cD_2pn0-a1-m1-cA KIISSLDAERLEILLETLSQNAFPGRDDLEAELARAEVVDPEEIPPTVVTNSTVRFRVESSAEEFLTLVYPKDVDTSGEKISILAPVGSALLGLAQGDEIEWPKPGGGVLRVRIVEVTY KPKIISSLDAERLEILLETLSQNAFPGRDDLEAELARAEVVDPEEIPPTVVTNSTVRFRVESSAEEFLTLVYPKDVDTSGEKISILAPVGSALLGLAQGDEIEWPKPGGGVLRVRIVEVTY 2pn1-a1-m1-cA_2pn1-a1-m2-cA Crystal structure of carbamoylphosphate synthase large subunit (split gene in MJ) (ZP_00538348.1) from Exiguobacterium sp. 255-15 at 2.00 A resolution B1YM69 B1YM69 2 X-RAY DIFFRACTION 115 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 301 301 GQKPHLLITSAGRRAKLVEYFVKEFKTGRVSTADCSPLASALYADQHYIVPKIDEVEYIDHLLTLCQDEGVTALLTLIDPELGLLAQATERFQAIGVTVIVSPYAACELCFDKYTYEYCLRQGIAHARTYATASFEEALAAGEVQLPVFVKPRNGDLIVQELLVGQELGVDAYVDLISGKVTSIFIKEKLTRAGETDKSRSVLRDDVFELVEHVLDGSGLVGPLDFDLFDVAGTLYLSEINPRFGGGYPHAYECGVNFPAQLYRNLHEINVPQIGQYLDDIYLKHDTVTLISAAELQKIKR GQKPHLLITSAGRRAKLVEYFVKEFKTGRVSTADCSPLASALYADQHYIVPKIDEVEYIDHLLTLCQDEGVTALLTLIDPELGLLAQATERFQAIGVTVIVSPYAACELCFDKYTYEYCLRQGIAHARTYATASFEEALAAGEVQLPVFVKPRNGDLIVQELLVGQELGVDAYVDLISGKVTSIFIKEKLTRAGETDKSRSVLRDDVFELVEHVLDGSGLVGPLDFDLFDVAGTLYLSEINPRFGGGYPHAYECGVNFPAQLYRNLHEINVPQIGQYLDDIYLKHDTVTLISAAELQKIKR 2pn2-a1-m1-cA_2pn2-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE OSMOTIC STRESS INDUCED AND DETOXIFICATION RESPONSE PROTEIN (PSYC_0566) FROM PSYCHROBACTER ARCTICUS 273-4 AT 2.15 A RESOLUTION Q4FU81 Q4FU81 1.95 X-RAY DIFFRACTION 259 1.0 259536 (Psychrobacter arcticus 273-4) 259536 (Psychrobacter arcticus 273-4) 133 133 LYFQGTTSKVTYQGDLRTSAIHLQSNNEIITDAPVDNQGKGEAFSPTDLLATSLASCLTIIGIKARDEIDIAGTTAEVTKVAADPRRVSEVHIAITFNQELDDKTQKIFYNTALTCPVAKSIHPDIFQKVIIH LYFQGTTSKVTYQGDLRTSAIHLQSNNEIITDAPVDNQGKGEAFSPTDLLATSLASCLTIIGIKARDEIDIAGTTAEVTKVAADPRRVSEVHIAITFNQELDDKTQKIFYNTALTCPVAKSIHPDIFQKVIIH 2pnf-a1-m1-cB_2pnf-a1-m2-cB Structure of Aquifex Aeolicus FabG 3-oxoacyl-(acyl-carrier protein) reductase O67610 O67610 1.8 X-RAY DIFFRACTION 116 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 248 248 2p68-a1-m1-cA_2p68-a1-m2-cA 2p68-a1-m1-cB_2p68-a1-m2-cB 2pnf-a1-m1-cA_2pnf-a1-m2-cA MEIKLQGKVSLVTGSTRGIGRAIAEKLASAGSTVIITGTSGERAKAVAEEIANKYGVKAHGVEMNLLSEESINKAFEEIYNLVDGIDILVNNAGITRDKLFLRMSLLDWEEVLKVNLTGTFLVTQNSLRKMIKQRWGRIVNISSVVGFTGNVGQVNYSTTKAGLIGFTKSLAKELAPRNVLVNAVAPGFIETDMTAVLSEEIKQKYKEQIPLGRFGSPEEVANVVLFLCSELASYITGEVIHVNGGMF MEIKLQGKVSLVTGSTRGIGRAIAEKLASAGSTVIITGTSGERAKAVAEEIANKYGVKAHGVEMNLLSEESINKAFEEIYNLVDGIDILVNNAGITRDKLFLRMSLLDWEEVLKVNLTGTFLVTQNSLRKMIKQRWGRIVNISSVVGFTGNVGQVNYSTTKAGLIGFTKSLAKELAPRNVLVNAVAPGFIETDMTAVLSEEIKQKYKEQIPLGRFGSPEEVANVVLFLCSELASYITGEVIHVNGGMF 2pnf-a1-m2-cA_2pnf-a1-m2-cB Structure of Aquifex Aeolicus FabG 3-oxoacyl-(acyl-carrier protein) reductase O67610 O67610 1.8 X-RAY DIFFRACTION 137 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 248 248 2p68-a1-m1-cB_2p68-a1-m1-cA 2p68-a1-m2-cB_2p68-a1-m2-cA 2pnf-a1-m1-cA_2pnf-a1-m1-cB MEIKLQGKVSLVTGSTRGIGRAIAEKLASAGSTVIITGTSGERAKAVAEEIANKYGVKAHGVEMNLLSEESINKAFEEIYNLVDGIDILVNNAGITRDKLFLRMSLLDWEEVLKVNLTGTFLVTQNSLRKMIKQRWGRIVNISSVVGFTGNVGQVNYSTTKAGLIGFTKSLAKELAPRNVLVNAVAPGFIETDMTAVLSEEIKQKYKEQIPLGRFGSPEEVANVVLFLCSELASYITGEVIHVNGGMF MEIKLQGKVSLVTGSTRGIGRAIAEKLASAGSTVIITGTSGERAKAVAEEIANKYGVKAHGVEMNLLSEESINKAFEEIYNLVDGIDILVNNAGITRDKLFLRMSLLDWEEVLKVNLTGTFLVTQNSLRKMIKQRWGRIVNISSVVGFTGNVGQVNYSTTKAGLIGFTKSLAKELAPRNVLVNAVAPGFIETDMTAVLSEEIKQKYKEQIPLGRFGSPEEVANVVLFLCSELASYITGEVIHVNGGMF 2pnv-a3-m7-cB_2pnv-a3-m8-cB Crystal Structure of the leucine zipper domain of small-conductance Ca2+-activated K+ (SKCa) channel from Rattus norvegicus P70604 P70604 2.1 X-RAY DIFFRACTION 28 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 39 39 2pnv-a1-m1-cA_2pnv-a1-m2-cA 2pnv-a1-m1-cA_2pnv-a1-m3-cA 2pnv-a1-m2-cA_2pnv-a1-m3-cA 2pnv-a2-m1-cB_2pnv-a2-m4-cB 2pnv-a2-m1-cB_2pnv-a2-m5-cB 2pnv-a2-m4-cB_2pnv-a2-m5-cB 2pnv-a3-m1-cA_2pnv-a3-m2-cA 2pnv-a3-m1-cA_2pnv-a3-m3-cA 2pnv-a3-m2-cA_2pnv-a3-m3-cA 2pnv-a3-m6-cB_2pnv-a3-m7-cB 2pnv-a3-m6-cB_2pnv-a3-m8-cB NIMYDMISDLNERSEDFEKRIVTLETKLETLIGSIHALP NIMYDMISDLNERSEDFEKRIVTLETKLETLIGSIHALP 2po3-a1-m1-cB_2po3-a1-m1-cA Crystal Structure Analysis of DesI in the presence of its TDP-sugar product Q9ZGH0 Q9ZGH0 2.1 X-RAY DIFFRACTION 166 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 392 393 ALSDLAFFGGPAAFDQPLLVGRPNRIDRARLYERLDRALDSQWLSNGGPLVREFEERVAGLAGVRHAVATCNATAGLQLLAHAAGLTGEVIMPSMTFAATPHALRWIGLTPVFADIDPDTGNLDPDQVAAAVTPRTSAVVGVHLWGRPCAADQLRKVADEHGLRLYFDAAHALGCAVDGRPAGSLGDAEVFSFHATKAVNAFEGGAVVTDDADLAARIRALHNFGFDLPGGSPAGGTNAKMSEAAAAMGLTSLDAFPEVIDRNRRNHAAYREHLADLPGVLVADHDRHGLNNHQYVIVEIDEATTGIHRDLVMEVLKAEGVHTRAYFSPGCHELEPYRGQPHAPLPHTERLAARVLSLPTGTAIGDDDIRRVADLLRLCATRGRELTARHRD SALSDLAFFGGPAAFDQPLLVGRPNRIDRARLYERLDRALDSQWLSNGGPLVREFEERVAGLAGVRHAVATCNATAGLQLLAHAAGLTGEVIMPSMTFAATPHALRWIGLTPVFADIDPDTGNLDPDQVAAAVTPRTSAVVGVHLWGRPCAADQLRKVADEHGLRLYFDAAHALGCAVDGRPAGSLGDAEVFSFHATKAVNAFEGGAVVTDDADLAARIRALHNFGFDLPGGSPAGGTNAKMSEAAAAMGLTSLDAFPEVIDRNRRNHAAYREHLADLPGVLVADHDRHGLNNHQYVIVEIDEATTGIHRDLVMEVLKAEGVHTRAYFSPGCHELEPYRGQPHAPLPHTERLAARVLSLPTGTAIGDDDIRRVADLLRLCATRGRELTARHRD 2poc-a1-m1-cA_2poc-a1-m1-cC The crystal structure of isomerase domain of glucosamine-6-phosphate synthase from Candida albicans P53704 P53704 1.8 X-RAY DIFFRACTION 24 0.997 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 339 352 2poc-a1-m1-cD_2poc-a1-m1-cB 2put-a1-m1-cA_2put-a1-m1-cC 2put-a1-m1-cD_2put-a1-m1-cB 2puv-a1-m1-cA_2puv-a1-m1-cC 2puv-a1-m1-cD_2puv-a1-m1-cB 2puw-a1-m1-cA_2puw-a1-m2-cA 2puw-a1-m1-cB_2puw-a1-m2-cB GPYKHFMQKEIFEQPDSAFNTMRGRIDFENCVVTLGGLKSWLSTIRRCRRIIMIACGTSYHSCLATRSIFEELTEIPVSVELASDFLDRRSPVFRDDTCVFVSQSGETADSILALQYCLERGALTVGIVNSVGSSMSRQTHCGVHINAGPEIGVASTKAYTSQYIALVMFALSLSNDSISRKGRHEEIIKGLQKIPEQIKQVLKLENKIKDLCNSSLNDQKSLLLLGRGYQFATALEGALKIKEISYMHSEGVLAGELLPIIAFATRDSLFPKVMSAIEQVTARDGRPIVICNEGDAIISVHTTLEVPETVDCLQGLLNVIPLQLISYWLAVNRGIDVD PYKHFMQKEIFEQPDSAFNTMRGRIDFENCVVTLGGLKSWLSTIRRCRRIIMIACGTSYHSCLATRSIFEELTEIPVSVELASDFLDRRSPVFRDDTCVFVSQSGETADSILALQYCLERGALTVGIVNSVGSSMSRQTHCGVHINAGPEIGVASTKAYTSQYIALVMFALSLSNDSISRKGRHEEIIKGLQKIPEQIKQVLKLENKIKDLCNSSLNDQKSLLLLGRGYQFATALEGALKIKEISYMHSEGVLAGELKHGILALVDEDLPIIAFATRDSLFPKVMSAIEQVTARDGRPIVICNEGDAIISNDKVHTTLEVPETVDCLQGLLNVIPLQLISYWLAVNRGIDVD 2poc-a1-m1-cB_2poc-a1-m1-cC The crystal structure of isomerase domain of glucosamine-6-phosphate synthase from Candida albicans P53704 P53704 1.8 X-RAY DIFFRACTION 14 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 352 352 2poc-a1-m1-cA_2poc-a1-m1-cD 2put-a1-m1-cA_2put-a1-m1-cD 2put-a1-m1-cC_2put-a1-m1-cB 2puv-a1-m1-cA_2puv-a1-m1-cD 2puv-a1-m1-cC_2puv-a1-m1-cB 2puw-a1-m1-cB_2puw-a1-m2-cA 2puw-a1-m2-cB_2puw-a1-m1-cA PYKHFMQKEIFEQPDSAFNTMRGRIDFENCVVTLGGLKSWLSTIRRCRRIIMIACGTSYHSCLATRSIFEELTEIPVSVELASDFLDRRSPVFRDDTCVFVSQSGETADSILALQYCLERGALTVGIVNSVGSSMSRQTHCGVHINAGPEIGVASTKAYTSQYIALVMFALSLSNDSISRKGRHEEIIKGLQKIPEQIKQVLKLENKIKDLCNSSLNDQKSLLLLGRGYQFATALEGALKIKEISYMHSEGVLAGELKHGILALVDEDLPIIAFATRDSLFPKVMSAIEQVTARDGRPIVICNEGDAIISNDKVHTTLEVPETVDCLQGLLNVIPLQLISYWLAVNRGIDVD PYKHFMQKEIFEQPDSAFNTMRGRIDFENCVVTLGGLKSWLSTIRRCRRIIMIACGTSYHSCLATRSIFEELTEIPVSVELASDFLDRRSPVFRDDTCVFVSQSGETADSILALQYCLERGALTVGIVNSVGSSMSRQTHCGVHINAGPEIGVASTKAYTSQYIALVMFALSLSNDSISRKGRHEEIIKGLQKIPEQIKQVLKLENKIKDLCNSSLNDQKSLLLLGRGYQFATALEGALKIKEISYMHSEGVLAGELKHGILALVDEDLPIIAFATRDSLFPKVMSAIEQVTARDGRPIVICNEGDAIISNDKVHTTLEVPETVDCLQGLLNVIPLQLISYWLAVNRGIDVD 2poc-a1-m1-cD_2poc-a1-m1-cC The crystal structure of isomerase domain of glucosamine-6-phosphate synthase from Candida albicans P53704 P53704 1.8 X-RAY DIFFRACTION 80 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 340 352 2poc-a1-m1-cA_2poc-a1-m1-cB 2put-a1-m1-cA_2put-a1-m1-cB 2put-a1-m1-cD_2put-a1-m1-cC 2puv-a1-m1-cA_2puv-a1-m1-cB 2puv-a1-m1-cD_2puv-a1-m1-cC 2puw-a1-m1-cB_2puw-a1-m1-cA 2puw-a1-m2-cB_2puw-a1-m2-cA PYKHFMQKEIFEQPDSAFNTMRGRIDFENCVVTLGGLKSWLSTIRRCRRIIMIACGTSYHSCLATRSIFEELTEIPVSVELASDFLDRRSPVFRDDTCVFVSQSGETADSILALQYCLERGALTVGIVNSVGSSMSRQTHCGVHINAGPEIGVASTKAYTSQYIALVMFALSLSNDSISRKGRHEEIIKGLQKIPEQIKQVLKLENKIKDLCNSSLNDQKSLLLLGRGYQFATALEGALKIKEISYMHSEGVLAGELPIIAFATRDSLFPKVMSAIEQVTARDGRPIVICNEGDAIISNDKVHTTLEVPETVDCLQGLLNVIPLQLISYWLAVNRGIDVD PYKHFMQKEIFEQPDSAFNTMRGRIDFENCVVTLGGLKSWLSTIRRCRRIIMIACGTSYHSCLATRSIFEELTEIPVSVELASDFLDRRSPVFRDDTCVFVSQSGETADSILALQYCLERGALTVGIVNSVGSSMSRQTHCGVHINAGPEIGVASTKAYTSQYIALVMFALSLSNDSISRKGRHEEIIKGLQKIPEQIKQVLKLENKIKDLCNSSLNDQKSLLLLGRGYQFATALEGALKIKEISYMHSEGVLAGELKHGILALVDEDLPIIAFATRDSLFPKVMSAIEQVTARDGRPIVICNEGDAIISNDKVHTTLEVPETVDCLQGLLNVIPLQLISYWLAVNRGIDVD 2pod-a1-m1-cA_2pod-a1-m4-cB Crystal structure of a member of enolase superfamily from Burkholderia pseudomallei K96243 Q63IJ7 Q63IJ7 2.34 X-RAY DIFFRACTION 69 0.997 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 371 372 2pod-a1-m2-cA_2pod-a1-m3-cB 2pod-a1-m3-cA_2pod-a1-m1-cB 2pod-a1-m4-cA_2pod-a1-m2-cB SLKITEIETLRPEEFPNLLWVLVHTDEGITGLGETFYGACSAEAYIHEWAANRLIGEDPLQIDRHAKRLSGYLGFRSAGAERGNSALDIALWDIFGKATGQPIYQLLGGKCRDTIRTYNTCAGPHYARYDDLNAFLHRADELALDLLDSGITAKIWPFDPYAEASDGYYISKSDLKRALEPFEKIRRAVGDKDVVEFHSLWNLPPALQIAEALREYETFWHEDPIRDSLSSLKRYAERSLAPVCASETLATRWGFRDLLETNAAGIVLDISWCGGLSEARKIASAEAWHLPVAPHDCTGPVVLTASTHLSLNAPNALVQESVRAFYDGWYRDLVTALPTVKDGHITVPDGPGLGLELPDIRERLTIAVRNT SLKITEIETLRPEEFPNLLWVLVHTDEGITGLGETFYGACSAEAYIHEWAANRLIGEDPLQIDRHAKRLSGYLGFRSAGAERGNSALDIALWDIFGKATGQPIYQLLGGKCRDTIRTYNTCAGPHYRYDDLNAFLHRADELALDLLDSGITAKIWPFDPYAEASDGYYISKSDLKRALEPFEKIRRAVGDKDVVEFHSLWNLPPALQIAEALREYETFWHEDPIRDSLSSLKRYAERSLAPVCASETLATRWGFRDLLETNAAGIVLDISWCGGLSEARKIASAEAWHLPVAPHDCTGPVVLTASTHLSLNAPNALVQESVRAFYDGWYRDLVTALPTVKDGHITVPDGPGLGLELPDIRERLTIAVRNTSD 2pod-a1-m2-cB_2pod-a1-m4-cB Crystal structure of a member of enolase superfamily from Burkholderia pseudomallei K96243 Q63IJ7 Q63IJ7 2.34 X-RAY DIFFRACTION 44 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 372 372 2pod-a1-m1-cA_2pod-a1-m3-cA 2pod-a1-m1-cA_2pod-a1-m4-cA 2pod-a1-m1-cB_2pod-a1-m3-cB 2pod-a1-m1-cB_2pod-a1-m4-cB 2pod-a1-m2-cA_2pod-a1-m3-cA 2pod-a1-m2-cA_2pod-a1-m4-cA 2pod-a1-m2-cB_2pod-a1-m3-cB SLKITEIETLRPEEFPNLLWVLVHTDEGITGLGETFYGACSAEAYIHEWAANRLIGEDPLQIDRHAKRLSGYLGFRSAGAERGNSALDIALWDIFGKATGQPIYQLLGGKCRDTIRTYNTCAGPHYRYDDLNAFLHRADELALDLLDSGITAKIWPFDPYAEASDGYYISKSDLKRALEPFEKIRRAVGDKDVVEFHSLWNLPPALQIAEALREYETFWHEDPIRDSLSSLKRYAERSLAPVCASETLATRWGFRDLLETNAAGIVLDISWCGGLSEARKIASAEAWHLPVAPHDCTGPVVLTASTHLSLNAPNALVQESVRAFYDGWYRDLVTALPTVKDGHITVPDGPGLGLELPDIRERLTIAVRNTSD SLKITEIETLRPEEFPNLLWVLVHTDEGITGLGETFYGACSAEAYIHEWAANRLIGEDPLQIDRHAKRLSGYLGFRSAGAERGNSALDIALWDIFGKATGQPIYQLLGGKCRDTIRTYNTCAGPHYRYDDLNAFLHRADELALDLLDSGITAKIWPFDPYAEASDGYYISKSDLKRALEPFEKIRRAVGDKDVVEFHSLWNLPPALQIAEALREYETFWHEDPIRDSLSSLKRYAERSLAPVCASETLATRWGFRDLLETNAAGIVLDISWCGGLSEARKIASAEAWHLPVAPHDCTGPVVLTASTHLSLNAPNALVQESVRAFYDGWYRDLVTALPTVKDGHITVPDGPGLGLELPDIRERLTIAVRNTSD 2pod-a1-m4-cA_2pod-a1-m4-cB Crystal structure of a member of enolase superfamily from Burkholderia pseudomallei K96243 Q63IJ7 Q63IJ7 2.34 X-RAY DIFFRACTION 125 0.997 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 371 372 2pod-a1-m1-cA_2pod-a1-m1-cB 2pod-a1-m2-cA_2pod-a1-m2-cB 2pod-a1-m3-cA_2pod-a1-m3-cB SLKITEIETLRPEEFPNLLWVLVHTDEGITGLGETFYGACSAEAYIHEWAANRLIGEDPLQIDRHAKRLSGYLGFRSAGAERGNSALDIALWDIFGKATGQPIYQLLGGKCRDTIRTYNTCAGPHYARYDDLNAFLHRADELALDLLDSGITAKIWPFDPYAEASDGYYISKSDLKRALEPFEKIRRAVGDKDVVEFHSLWNLPPALQIAEALREYETFWHEDPIRDSLSSLKRYAERSLAPVCASETLATRWGFRDLLETNAAGIVLDISWCGGLSEARKIASAEAWHLPVAPHDCTGPVVLTASTHLSLNAPNALVQESVRAFYDGWYRDLVTALPTVKDGHITVPDGPGLGLELPDIRERLTIAVRNT SLKITEIETLRPEEFPNLLWVLVHTDEGITGLGETFYGACSAEAYIHEWAANRLIGEDPLQIDRHAKRLSGYLGFRSAGAERGNSALDIALWDIFGKATGQPIYQLLGGKCRDTIRTYNTCAGPHYRYDDLNAFLHRADELALDLLDSGITAKIWPFDPYAEASDGYYISKSDLKRALEPFEKIRRAVGDKDVVEFHSLWNLPPALQIAEALREYETFWHEDPIRDSLSSLKRYAERSLAPVCASETLATRWGFRDLLETNAAGIVLDISWCGGLSEARKIASAEAWHLPVAPHDCTGPVVLTASTHLSLNAPNALVQESVRAFYDGWYRDLVTALPTVKDGHITVPDGPGLGLELPDIRERLTIAVRNTSD 2poi-a1-m1-cA_2poi-a1-m2-cA Crystal structure of XIAP BIR1 domain (I222 form) P98170 P98170 1.8 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 78 EFVEEFNRLKTFANFPSGSPVSASTLARAGFLYTGEGDTVRCFSCHAAVDRWQYGDSAVGRHRKVSPNCRFINGFYLE EFVEEFNRLKTFANFPSGSPVSASTLARAGFLYTGEGDTVRCFSCHAAVDRWQYGDSAVGRHRKVSPNCRFINGFYLE 2pok-a1-m1-cB_2pok-a1-m1-cA Crystal structure of a M20 family metallo peptidase from Streptococcus pneumoniae A0A0H2UN21 A0A0H2UN21 1.9 X-RAY DIFFRACTION 222 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 456 458 VFPSEQEQIEKFEKDHVAQHYFEVLRTLISKKSVFAQQVGLKEVANYLGEIFKRVGAEVEIDESYTAPFVMAHFKSSRPDAKTLIFYNHYDTVPADGDQVWTEDPFTLSVRNGFMYGRGVDDDKGHITARLSALRKYMQHHDDLPVNISFIMEGAEESASTDLDKYLEKHADKLRGADLLVWEQGTKNALEQLEISGGNKGIVTFDAKVKSADVDIHSSYGGVVESAPWYLLQALQSLRAADGRILVEGLYEEVQEPNEREMALLETYGQRNPEEVSRIYGLELPLLQEERMAFLKRFFFDPALNIEGIQSGYQGQGVKTILPAEASAKLEVRLVPGLEPHDVLEKIRKQLDKNGFDKVELYYTLGEMSYRSDMSAPAILNVIELAKKFYPQGVSVLPTTAGTGPMHTVFDALEVPMVAFGLGNANSRDHGGDENVRIADYYTHIELVEELIRSYE AMVFPSEQEQIEKFEKDHVAQHYFEVLRTLISKKSVFAQQVGLKEVANYLGEIFKRVGAEVEIDESYTAPFVMAHFKSSRPDAKTLIFYNHYDTVPADGDQVWTEDPFTLSVRNGFMYGRGVDDDKGHITARLSALRKYMQHHDDLPVNISFIMEGAEESASTDLDKYLEKHADKLRGADLLVWEQGTKNALEQLEISGGNKGIVTFDAKVKSADVDIHSSYGGVVESAPWYLLQALQSLRAADGRILVEGLYEEVQEPNEREMALLETYGQRNPEEVSRIYGLELPLLQEERMAFLKRFFFDPALNIEGIQSGYQGQGVKTILPAEASAKLEVRLVPGLEPHDVLEKIRKQLDKNGFDKVELYYTLGEMSYRSDMSAPAILNVIELAKKFYPQGVSVLPTTAGTGPMHTVFDALEVPMVAFGLGNANSRDHGGDENVRIADYYTHIELVEELIRSYE 2por-a1-m2-cA_2por-a1-m3-cA STRUCTURE OF PORIN REFINED AT 1.8 ANGSTROMS RESOLUTION P31243 P31243 1.8 X-RAY DIFFRACTION 118 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 301 301 2por-a1-m1-cA_2por-a1-m2-cA 2por-a1-m1-cA_2por-a1-m3-cA 3por-a1-m1-cA_3por-a1-m2-cA 3por-a1-m1-cA_3por-a1-m3-cA 3por-a1-m2-cA_3por-a1-m3-cA EVKLSGDARMGVMYNGDDWNFSSRSRVLFTMSGTTDSGLEFGASFKAHESVGAETGEDGTVFLSGAFGKIEMGDALGASEALFGDLYEVGYTDLDDRGGNDIPYLTGDERLTAEDNPVLLYTYSAGAFSVAASMSDGKVGETSEDDAQEMAVAAAYTFGNYTVGLGYEKIDSPDTALMADMEQLELAAIAKFGATNVKAYYADGELDRDFARAVFDLTPVAAAATAVDHKAYGLSVDSTFGATTVGGYVQVLDIDTIDDVTYYGLGASYDLGGGASIVGGIADNDLPNSDMVADLGVKFKF EVKLSGDARMGVMYNGDDWNFSSRSRVLFTMSGTTDSGLEFGASFKAHESVGAETGEDGTVFLSGAFGKIEMGDALGASEALFGDLYEVGYTDLDDRGGNDIPYLTGDERLTAEDNPVLLYTYSAGAFSVAASMSDGKVGETSEDDAQEMAVAAAYTFGNYTVGLGYEKIDSPDTALMADMEQLELAAIAKFGATNVKAYYADGELDRDFARAVFDLTPVAAAATAVDHKAYGLSVDSTFGATTVGGYVQVLDIDTIDDVTYYGLGASYDLGGGASIVGGIADNDLPNSDMVADLGVKFKF 2poz-a1-m1-cB_2poz-a1-m1-cH Crystal structure of a putative dehydratase from Mesorhizobium loti Q981H6 Q981H6 2.04 X-RAY DIFFRACTION 148 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 368 370 2poz-a1-m1-cA_2poz-a1-m1-cF 2poz-a1-m1-cC_2poz-a1-m1-cG 2poz-a1-m1-cD_2poz-a1-m1-cE LKITGVNIYLLKSGRLHPVLVEISTDEGITGAGEAGIAYGVGGTAAAGIKDLSERFLIGKDPSRIEELWSTYDHSFWAKNGGAIIFAGISAIEQALWDIKGKCLGVPVYELFGGKIRDRVRAYANGWYGAADTPDEFARAVERPLKEGYGALKFYPLAQLQHVTRRSSAEAIELAYRRVKAVRDAAGPEIELVDLSGGLTTDETIRFCRKIGELDICFVEEPCDPFDNGALKVISEQIPLPIAVGERVYTRFGFRKIFELQACGIIQPDIGTAGGLETKKICAAEAYNRVAPHVCGSSLIETATLQLEANITNFIHEHYPAFKADDGYVEVLENPPSISSGYFEPNGPGLGAVLIKRNIEPYLWASCT LKITGVNIYLLKSGRLHPVLVEISTDEGITGAGEAGIAYGVGGTAAAGIKDLSERFLIGKDPSRIEELWSTYDHSFWAKNGGAIIFAGISAIEQALWDIKGKCLGVPVYELFGGKIRDRVRAYANGWYGAADTPDEFARAVERPLKEGYGALKFYPLAQRVLQHVTRRSSAEAIELAYRRVKAVRDAAGPEIELVDLSGGLTTDETIRFCRKIGELDICFVEEPCDPFDNGALKVISEQIPLPIAVGERVYTRFGFRKIFELQACGIIQPDIGTAGGLETKKICAAEAYNRVAPHVCGSSLIETATLQLEANITNFIHEHYPAFKADDGYVEVLENPPSISSGYFEPNGPGLGAVLIKRNIEPYLWASCT 2poz-a1-m1-cC_2poz-a1-m1-cH Crystal structure of a putative dehydratase from Mesorhizobium loti Q981H6 Q981H6 2.04 X-RAY DIFFRACTION 77 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 367 370 2poz-a1-m1-cA_2poz-a1-m1-cE 2poz-a1-m1-cB_2poz-a1-m1-cF 2poz-a1-m1-cD_2poz-a1-m1-cG LKITGVNIYLLKSGRLHPVLVEISTDEGITGAGEAGIAYGVGGTAAAGIKDLSERFLIGKDPSRIEELWSTYDHSFWAKNGGAIIFAGISAIEQALWDIKGKCLGVPVYELFGGKIRDRVRAYANGWYGAADTPDEFARAVERPLKEGYGALKFYPLALQHVTRRSSAEAIELAYRRVKAVRDAAGPEIELVDLSGGLTTDETIRFCRKIGELDICFVEEPCDPFDNGALKVISEQIPLPIAVGERVYTRFGFRKIFELQACGIIQPDIGTAGGLETKKICAAEAYNRVAPHVCGSSLIETATLQLEANITNFIHEHYPAFKADDGYVEVLENPPSISSGYFEPNGPGLGAVLIKRNIEPYLWASCT LKITGVNIYLLKSGRLHPVLVEISTDEGITGAGEAGIAYGVGGTAAAGIKDLSERFLIGKDPSRIEELWSTYDHSFWAKNGGAIIFAGISAIEQALWDIKGKCLGVPVYELFGGKIRDRVRAYANGWYGAADTPDEFARAVERPLKEGYGALKFYPLAQRVLQHVTRRSSAEAIELAYRRVKAVRDAAGPEIELVDLSGGLTTDETIRFCRKIGELDICFVEEPCDPFDNGALKVISEQIPLPIAVGERVYTRFGFRKIFELQACGIIQPDIGTAGGLETKKICAAEAYNRVAPHVCGSSLIETATLQLEANITNFIHEHYPAFKADDGYVEVLENPPSISSGYFEPNGPGLGAVLIKRNIEPYLWASCT 2poz-a1-m1-cG_2poz-a1-m1-cH Crystal structure of a putative dehydratase from Mesorhizobium loti Q981H6 Q981H6 2.04 X-RAY DIFFRACTION 39 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 368 370 2poz-a1-m1-cB_2poz-a1-m1-cA 2poz-a1-m1-cC_2poz-a1-m1-cB 2poz-a1-m1-cC_2poz-a1-m1-cD 2poz-a1-m1-cD_2poz-a1-m1-cA 2poz-a1-m1-cE_2poz-a1-m1-cF 2poz-a1-m1-cG_2poz-a1-m1-cE 2poz-a1-m1-cH_2poz-a1-m1-cF LKITGVNIYLLKSGRLHPVLVEISTDEGITGAGEAGIAYGVGGTAAAGIKDLSERFLIGKDPSRIEELWSTYDHSFWAKNGGAIIFAGISAIEQALWDIKGKCLGVPVYELFGGKIRDRVRAYANGWYGAADTPDEFARAVERPLKEGYGALKFYPLAQLQHVTRRSSAEAIELAYRRVKAVRDAAGPEIELVDLSGGLTTDETIRFCRKIGELDICFVEEPCDPFDNGALKVISEQIPLPIAVGERVYTRFGFRKIFELQACGIIQPDIGTAGGLETKKICAAEAYNRVAPHVCGSSLIETATLQLEANITNFIHEHYPAFKADDGYVEVLENPPSISSGYFEPNGPGLGAVLIKRNIEPYLWASCT LKITGVNIYLLKSGRLHPVLVEISTDEGITGAGEAGIAYGVGGTAAAGIKDLSERFLIGKDPSRIEELWSTYDHSFWAKNGGAIIFAGISAIEQALWDIKGKCLGVPVYELFGGKIRDRVRAYANGWYGAADTPDEFARAVERPLKEGYGALKFYPLAQRVLQHVTRRSSAEAIELAYRRVKAVRDAAGPEIELVDLSGGLTTDETIRFCRKIGELDICFVEEPCDPFDNGALKVISEQIPLPIAVGERVYTRFGFRKIFELQACGIIQPDIGTAGGLETKKICAAEAYNRVAPHVCGSSLIETATLQLEANITNFIHEHYPAFKADDGYVEVLENPPSISSGYFEPNGPGLGAVLIKRNIEPYLWASCT 2pp3-a6-m3-cB_2pp3-a6-m4-cC Crystal structure of L-talarate/galactarate dehydratase mutant K197A liganded with Mg and L-glucarate Q8ZL58 Q8ZL58 2.2 X-RAY DIFFRACTION 15 1.0 395 395 2pp0-a3-m1-cB_2pp0-a3-m3-cC 2pp0-a3-m1-cC_2pp0-a3-m3-cB 2pp0-a3-m3-cB_2pp0-a3-m4-cC 2pp0-a3-m3-cC_2pp0-a3-m4-cB 2pp0-a4-m1-cA_2pp0-a4-m5-cA 2pp0-a4-m1-cA_2pp0-a4-m6-cA 2pp0-a4-m2-cA_2pp0-a4-m7-cA 2pp0-a4-m2-cA_2pp0-a4-m8-cA 2pp0-a5-m10-cA_2pp0-a5-m7-cA 2pp0-a5-m10-cA_2pp0-a5-m8-cA 2pp0-a5-m1-cA_2pp0-a5-m5-cA 2pp0-a5-m1-cA_2pp0-a5-m6-cA 2pp0-a5-m2-cA_2pp0-a5-m7-cA 2pp0-a5-m2-cA_2pp0-a5-m8-cA 2pp0-a5-m5-cA_2pp0-a5-m9-cA 2pp0-a5-m6-cA_2pp0-a5-m9-cA 2pp0-a6-m11-cB_2pp0-a6-m4-cC 2pp0-a6-m11-cC_2pp0-a6-m4-cB 2pp0-a6-m1-cB_2pp0-a6-m11-cC 2pp0-a6-m1-cB_2pp0-a6-m3-cC 2pp0-a6-m1-cC_2pp0-a6-m11-cB 2pp0-a6-m1-cC_2pp0-a6-m3-cB 2pp0-a6-m3-cB_2pp0-a6-m4-cC 2pp0-a6-m3-cC_2pp0-a6-m4-cB 2pp1-a5-m1-cA_2pp1-a5-m2-cB 2pp1-a5-m1-cA_2pp1-a5-m3-cB 2pp1-a5-m1-cB_2pp1-a5-m2-cA 2pp1-a5-m1-cB_2pp1-a5-m3-cA 2pp1-a6-m1-cA_2pp1-a6-m2-cB 2pp1-a6-m1-cA_2pp1-a6-m3-cB 2pp1-a6-m1-cB_2pp1-a6-m2-cA 2pp1-a6-m1-cB_2pp1-a6-m3-cA 2pp1-a6-m2-cA_2pp1-a6-m4-cB 2pp1-a6-m2-cB_2pp1-a6-m4-cA 2pp1-a6-m3-cA_2pp1-a6-m4-cB 2pp1-a6-m3-cB_2pp1-a6-m4-cA 2pp1-a7-m1-cC_2pp1-a7-m6-cE 2pp1-a7-m1-cC_2pp1-a7-m7-cE 2pp1-a7-m1-cE_2pp1-a7-m6-cC 2pp1-a7-m1-cE_2pp1-a7-m7-cC 2pp1-a7-m5-cC_2pp1-a7-m6-cE 2pp1-a7-m5-cC_2pp1-a7-m7-cE 2pp1-a7-m5-cE_2pp1-a7-m6-cC 2pp1-a7-m5-cE_2pp1-a7-m7-cC 2pp1-a8-m10-cD_2pp1-a8-m9-cF 2pp1-a8-m10-cF_2pp1-a8-m9-cD 2pp1-a8-m1-cD_2pp1-a8-m10-cF 2pp1-a8-m1-cD_2pp1-a8-m8-cF 2pp1-a8-m1-cF_2pp1-a8-m10-cD 2pp1-a8-m1-cF_2pp1-a8-m8-cD 2pp1-a8-m8-cD_2pp1-a8-m9-cF 2pp1-a8-m8-cF_2pp1-a8-m9-cD 2pp3-a3-m1-cB_2pp3-a3-m3-cC 2pp3-a3-m1-cC_2pp3-a3-m3-cB 2pp3-a3-m3-cB_2pp3-a3-m4-cC 2pp3-a3-m3-cC_2pp3-a3-m4-cB 2pp3-a4-m1-cA_2pp3-a4-m5-cA 2pp3-a4-m1-cA_2pp3-a4-m6-cA 2pp3-a4-m2-cA_2pp3-a4-m7-cA 2pp3-a4-m2-cA_2pp3-a4-m8-cA 2pp3-a5-m10-cA_2pp3-a5-m7-cA 2pp3-a5-m10-cA_2pp3-a5-m8-cA 2pp3-a5-m1-cA_2pp3-a5-m5-cA 2pp3-a5-m1-cA_2pp3-a5-m6-cA 2pp3-a5-m2-cA_2pp3-a5-m7-cA 2pp3-a5-m2-cA_2pp3-a5-m8-cA 2pp3-a5-m5-cA_2pp3-a5-m9-cA 2pp3-a5-m6-cA_2pp3-a5-m9-cA 2pp3-a6-m11-cB_2pp3-a6-m4-cC 2pp3-a6-m11-cC_2pp3-a6-m4-cB 2pp3-a6-m1-cB_2pp3-a6-m11-cC 2pp3-a6-m1-cB_2pp3-a6-m3-cC 2pp3-a6-m1-cC_2pp3-a6-m11-cB 2pp3-a6-m1-cC_2pp3-a6-m3-cB 2pp3-a6-m3-cC_2pp3-a6-m4-cB SANSDAVTYAKAANTRTAAETGDRIEWVKLSLAFLPLATPVSDAKVLTGRQKPLTEVAIIIAEIRSRDGFEGVGFSYSKRAGGQGIYAHAKEIADNLLGEDPNDIDKIYTKLLWAGASVGRSGMAVQAISPIDIALWDMKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLHTPLDQVLKNVVISRENGIGGIKLAVGQPNCAEDIRRLTAVREALGDEFPLMVDANQQWDRETAIRMGRKMEQFNLIWIEEPLDAYDIEGHAQLAAALDTPIATGEMLTSFREHEQLILGNASDFVQPDAPRVGGISPFLKIMDLAAKHGRKLAPHFAMEVHLHLSAAYPLEPWLEHFEWLNPLFNEQLELRDGRMWISDRHGLGFTLSEQARRWTQLTCEFGKRP SANSDAVTYAKAANTRTAAETGDRIEWVKLSLAFLPLATPVSDAKVLTGRQKPLTEVAIIIAEIRSRDGFEGVGFSYSKRAGGQGIYAHAKEIADNLLGEDPNDIDKIYTKLLWAGASVGRSGMAVQAISPIDIALWDMKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLHTPLDQVLKNVVISRENGIGGIKLAVGQPNCAEDIRRLTAVREALGDEFPLMVDANQQWDRETAIRMGRKMEQFNLIWIEEPLDAYDIEGHAQLAAALDTPIATGEMLTSFREHEQLILGNASDFVQPDAPRVGGISPFLKIMDLAAKHGRKLAPHFAMEVHLHLSAAYPLEPWLEHFEWLNPLFNEQLELRDGRMWISDRHGLGFTLSEQARRWTQLTCEFGKRP 2pp3-a6-m3-cC_2pp3-a6-m4-cC Crystal structure of L-talarate/galactarate dehydratase mutant K197A liganded with Mg and L-glucarate Q8ZL58 Q8ZL58 2.2 X-RAY DIFFRACTION 139 1.0 395 395 2pp0-a3-m1-cB_2pp0-a3-m3-cB 2pp0-a3-m3-cC_2pp0-a3-m4-cC 2pp0-a4-m1-cA_2pp0-a4-m8-cA 2pp0-a4-m2-cA_2pp0-a4-m6-cA 2pp0-a5-m10-cA_2pp0-a5-m5-cA 2pp0-a5-m1-cA_2pp0-a5-m8-cA 2pp0-a5-m2-cA_2pp0-a5-m6-cA 2pp0-a5-m7-cA_2pp0-a5-m9-cA 2pp0-a6-m11-cB_2pp0-a6-m4-cB 2pp0-a6-m1-cB_2pp0-a6-m3-cB 2pp0-a6-m1-cC_2pp0-a6-m11-cC 2pp0-a6-m3-cC_2pp0-a6-m4-cC 2pp1-a5-m1-cA_2pp1-a5-m1-cB 2pp1-a5-m2-cA_2pp1-a5-m2-cB 2pp1-a5-m3-cA_2pp1-a5-m3-cB 2pp1-a6-m1-cA_2pp1-a6-m1-cB 2pp1-a6-m2-cA_2pp1-a6-m2-cB 2pp1-a6-m3-cA_2pp1-a6-m3-cB 2pp1-a6-m4-cA_2pp1-a6-m4-cB 2pp1-a7-m1-cC_2pp1-a7-m7-cC 2pp1-a7-m1-cE_2pp1-a7-m6-cE 2pp1-a7-m5-cC_2pp1-a7-m6-cC 2pp1-a7-m5-cE_2pp1-a7-m7-cE 2pp1-a8-m10-cF_2pp1-a8-m9-cF 2pp1-a8-m1-cD_2pp1-a8-m10-cD 2pp1-a8-m1-cF_2pp1-a8-m8-cF 2pp1-a8-m8-cD_2pp1-a8-m9-cD 2pp3-a3-m1-cB_2pp3-a3-m3-cB 2pp3-a3-m3-cC_2pp3-a3-m4-cC 2pp3-a4-m1-cA_2pp3-a4-m8-cA 2pp3-a4-m2-cA_2pp3-a4-m6-cA 2pp3-a5-m10-cA_2pp3-a5-m5-cA 2pp3-a5-m1-cA_2pp3-a5-m8-cA 2pp3-a5-m2-cA_2pp3-a5-m6-cA 2pp3-a5-m7-cA_2pp3-a5-m9-cA 2pp3-a6-m11-cB_2pp3-a6-m4-cB 2pp3-a6-m1-cB_2pp3-a6-m3-cB 2pp3-a6-m1-cC_2pp3-a6-m11-cC SANSDAVTYAKAANTRTAAETGDRIEWVKLSLAFLPLATPVSDAKVLTGRQKPLTEVAIIIAEIRSRDGFEGVGFSYSKRAGGQGIYAHAKEIADNLLGEDPNDIDKIYTKLLWAGASVGRSGMAVQAISPIDIALWDMKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLHTPLDQVLKNVVISRENGIGGIKLAVGQPNCAEDIRRLTAVREALGDEFPLMVDANQQWDRETAIRMGRKMEQFNLIWIEEPLDAYDIEGHAQLAAALDTPIATGEMLTSFREHEQLILGNASDFVQPDAPRVGGISPFLKIMDLAAKHGRKLAPHFAMEVHLHLSAAYPLEPWLEHFEWLNPLFNEQLELRDGRMWISDRHGLGFTLSEQARRWTQLTCEFGKRP SANSDAVTYAKAANTRTAAETGDRIEWVKLSLAFLPLATPVSDAKVLTGRQKPLTEVAIIIAEIRSRDGFEGVGFSYSKRAGGQGIYAHAKEIADNLLGEDPNDIDKIYTKLLWAGASVGRSGMAVQAISPIDIALWDMKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLHTPLDQVLKNVVISRENGIGGIKLAVGQPNCAEDIRRLTAVREALGDEFPLMVDANQQWDRETAIRMGRKMEQFNLIWIEEPLDAYDIEGHAQLAAALDTPIATGEMLTSFREHEQLILGNASDFVQPDAPRVGGISPFLKIMDLAAKHGRKLAPHFAMEVHLHLSAAYPLEPWLEHFEWLNPLFNEQLELRDGRMWISDRHGLGFTLSEQARRWTQLTCEFGKRP 2pp3-a6-m4-cB_2pp3-a6-m4-cC Crystal structure of L-talarate/galactarate dehydratase mutant K197A liganded with Mg and L-glucarate Q8ZL58 Q8ZL58 2.2 X-RAY DIFFRACTION 232 1.0 395 395 2pp0-a1-m1-cB_2pp0-a1-m1-cC 2pp0-a2-m1-cA_2pp0-a2-m2-cA 2pp0-a3-m1-cB_2pp0-a3-m1-cC 2pp0-a3-m3-cB_2pp0-a3-m3-cC 2pp0-a3-m4-cB_2pp0-a3-m4-cC 2pp0-a4-m1-cA_2pp0-a4-m2-cA 2pp0-a4-m5-cA_2pp0-a4-m8-cA 2pp0-a4-m6-cA_2pp0-a4-m7-cA 2pp0-a5-m10-cA_2pp0-a5-m9-cA 2pp0-a5-m1-cA_2pp0-a5-m2-cA 2pp0-a5-m5-cA_2pp0-a5-m8-cA 2pp0-a5-m6-cA_2pp0-a5-m7-cA 2pp0-a6-m11-cB_2pp0-a6-m11-cC 2pp0-a6-m1-cB_2pp0-a6-m1-cC 2pp0-a6-m3-cB_2pp0-a6-m3-cC 2pp0-a6-m4-cB_2pp0-a6-m4-cC 2pp1-a1-m1-cA_2pp1-a1-m2-cA 2pp1-a2-m1-cB_2pp1-a2-m3-cB 2pp1-a3-m1-cC_2pp1-a3-m1-cE 2pp1-a4-m1-cD_2pp1-a4-m1-cF 2pp1-a5-m1-cA_2pp1-a5-m2-cA 2pp1-a5-m1-cB_2pp1-a5-m3-cB 2pp1-a6-m1-cA_2pp1-a6-m2-cA 2pp1-a6-m1-cB_2pp1-a6-m3-cB 2pp1-a6-m2-cB_2pp1-a6-m4-cB 2pp1-a6-m3-cA_2pp1-a6-m4-cA 2pp1-a7-m1-cC_2pp1-a7-m1-cE 2pp1-a7-m5-cC_2pp1-a7-m5-cE 2pp1-a7-m6-cC_2pp1-a7-m6-cE 2pp1-a7-m7-cC_2pp1-a7-m7-cE 2pp1-a8-m10-cD_2pp1-a8-m10-cF 2pp1-a8-m1-cD_2pp1-a8-m1-cF 2pp1-a8-m8-cD_2pp1-a8-m8-cF 2pp1-a8-m9-cD_2pp1-a8-m9-cF 2pp3-a1-m1-cB_2pp3-a1-m1-cC 2pp3-a2-m1-cA_2pp3-a2-m2-cA 2pp3-a3-m1-cB_2pp3-a3-m1-cC 2pp3-a3-m3-cB_2pp3-a3-m3-cC 2pp3-a3-m4-cB_2pp3-a3-m4-cC 2pp3-a4-m1-cA_2pp3-a4-m2-cA 2pp3-a4-m5-cA_2pp3-a4-m8-cA 2pp3-a4-m6-cA_2pp3-a4-m7-cA 2pp3-a5-m10-cA_2pp3-a5-m9-cA 2pp3-a5-m1-cA_2pp3-a5-m2-cA 2pp3-a5-m5-cA_2pp3-a5-m8-cA 2pp3-a5-m6-cA_2pp3-a5-m7-cA 2pp3-a6-m11-cB_2pp3-a6-m11-cC 2pp3-a6-m1-cB_2pp3-a6-m1-cC 2pp3-a6-m3-cB_2pp3-a6-m3-cC SANSDAVTYAKAANTRTAAETGDRIEWVKLSLAFLPLATPVSDAKVLTGRQKPLTEVAIIIAEIRSRDGFEGVGFSYSKRAGGQGIYAHAKEIADNLLGEDPNDIDKIYTKLLWAGASVGRSGMAVQAISPIDIALWDMKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLHTPLDQVLKNVVISRENGIGGIKLAVGQPNCAEDIRRLTAVREALGDEFPLMVDANQQWDRETAIRMGRKMEQFNLIWIEEPLDAYDIEGHAQLAAALDTPIATGEMLTSFREHEQLILGNASDFVQPDAPRVGGISPFLKIMDLAAKHGRKLAPHFAMEVHLHLSAAYPLEPWLEHFEWLNPLFNEQLELRDGRMWISDRHGLGFTLSEQARRWTQLTCEFGKRP SANSDAVTYAKAANTRTAAETGDRIEWVKLSLAFLPLATPVSDAKVLTGRQKPLTEVAIIIAEIRSRDGFEGVGFSYSKRAGGQGIYAHAKEIADNLLGEDPNDIDKIYTKLLWAGASVGRSGMAVQAISPIDIALWDMKAKRAGLPLAKLLGAHRDSVQCYNTSGGFLHTPLDQVLKNVVISRENGIGGIKLAVGQPNCAEDIRRLTAVREALGDEFPLMVDANQQWDRETAIRMGRKMEQFNLIWIEEPLDAYDIEGHAQLAAALDTPIATGEMLTSFREHEQLILGNASDFVQPDAPRVGGISPFLKIMDLAAKHGRKLAPHFAMEVHLHLSAAYPLEPWLEHFEWLNPLFNEQLELRDGRMWISDRHGLGFTLSEQARRWTQLTCEFGKRP 2pp6-a1-m2-cA_2pp6-a1-m4-cA Crystal structure of the ATP-binding sugar transporter-like protein from Salmonella typhimurium Q8ZQ92 Q8ZQ92 2.7 X-RAY DIFFRACTION 10 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 84 84 2pp6-a1-m1-cA_2pp6-a1-m3-cA SNAADLFDGKRRDALIAERFGKVNINGTDCIVVESDFLAGKNVVVFSGNVIPRRGDRVVLRGSEFTVTRIRRFNGKPQLTLEEN SNAADLFDGKRRDALIAERFGKVNINGTDCIVVESDFLAGKNVVVFSGNVIPRRGDRVVLRGSEFTVTRIRRFNGKPQLTLEEN 2pp6-a2-m1-cA_2pp6-a2-m2-cA Crystal structure of the ATP-binding sugar transporter-like protein from Salmonella typhimurium Q8ZQ92 Q8ZQ92 2.7 X-RAY DIFFRACTION 37 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 84 84 2pp6-a1-m1-cA_2pp6-a1-m2-cA 2pp6-a1-m3-cA_2pp6-a1-m4-cA SNAADLFDGKRRDALIAERFGKVNINGTDCIVVESDFLAGKNVVVFSGNVIPRRGDRVVLRGSEFTVTRIRRFNGKPQLTLEEN SNAADLFDGKRRDALIAERFGKVNINGTDCIVVESDFLAGKNVVVFSGNVIPRRGDRVVLRGSEFTVTRIRRFNGKPQLTLEEN 2ppi-a1-m1-cA_2ppi-a1-m2-cA Structure of the BTB (Tramtrack and Bric a brac) domain of human Gigaxonin Q9H2C0 Q9H2C0 2.4 X-RAY DIFFRACTION 126 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 YFQSMAVSDPQHAARLLRALSSFRERFCDAHLVLDGEEIPVQKNILAAASPYIRTKLNYNPSTYKIELEGISVMVMREILDYIFSGQIRLNEDTIQDVVQAADLLLLTDLKTLCCEFL YFQSMAVSDPQHAARLLRALSSFRERFCDAHLVLDGEEIPVQKNILAAASPYIRTKLNYNPSTYKIELEGISVMVMREILDYIFSGQIRLNEDTIQDVVQAADLLLLTDLKTLCCEFL 2ppq-a1-m1-cA_2ppq-a1-m2-cA Crystal structure of the homoserine kinase from Agrobacterium tumefaciens Q8UHA8 Q8UHA8 2 X-RAY DIFFRACTION 59 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 307 307 TDITEDELRNFLTQYDVGSLTSYKGIAENSNFLLHTTKDPLILTLYEKKNDLPFFLGLQHLAAKGLSCPLPLPRKDGELLGELSGRPAALISFLEGWLRKPEAKHCREVGKALAAHLASEGFEIKRPNALSVDGWKVLWDKSEERADEVEKGLREEIRPEIDYLAAHWPKDLPAGVIHADLFQDNVFFLGDELSGLIDFYFACNDLLAYDVSICLNAWCFEKDGAYNVTKGKALLEGYQSVRPLSEAELEALPLLSRGSALRFFLTRLYDWLTTPAGALVVKKDPLEYLRKLRFHRTIANVAEYGLA TDITEDELRNFLTQYDVGSLTSYKGIAENSNFLLHTTKDPLILTLYEKKNDLPFFLGLQHLAAKGLSCPLPLPRKDGELLGELSGRPAALISFLEGWLRKPEAKHCREVGKALAAHLASEGFEIKRPNALSVDGWKVLWDKSEERADEVEKGLREEIRPEIDYLAAHWPKDLPAGVIHADLFQDNVFFLGDELSGLIDFYFACNDLLAYDVSICLNAWCFEKDGAYNVTKGKALLEGYQSVRPLSEAELEALPLLSRGSALRFFLTRLYDWLTTPAGALVVKKDPLEYLRKLRFHRTIANVAEYGLA 2ppt-a1-m1-cB_2ppt-a1-m1-cA Crystal structure of thioredoxin-2 1.92 X-RAY DIFFRACTION 34 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 143 149 AESLRLTCLACGQANKVPSDRLAAGPKCGICGAGLITGKVAGIDPAILARAERDDLPLLVDFWAPWCGPCRQMAPQFQAAAATLAGQVRLAKIDTQAHPAVAGRHRIQGIPAFILFHKGRELARAAGARPASELVGFVRGKLG MMGAKMAESLRLTCLACGQANKVPSDRLAAGPKCGICGAGLITGKVAGIDPAILARAERDDLPLLVDFWAPWCGPCRQMAPQFQAAAATLAGQVRLAKIDTQAHPAVAGRHRIQGIPAFILFHKGRELARAAGARPASELVGFVRGKLG 2ppv-a1-m1-cA_2ppv-a1-m2-cA CRYSTAL STRUCTURE OF a protein belonging to the UPF0052 (SE_0549) FROM STAPHYLOCOCCUS EPIDERMIDIS ATCC 12228 AT 2.00 A RESOLUTION A0A0H2VHQ6 A0A0H2VHQ6 2 X-RAY DIFFRACTION 51 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 318 318 KQNVVLIGGGTGLSVLARGLREFPIDITAIVTVADNGGSTGKIRDVDIPAPGDIRNVIAALSDSESILTQLFQYRFGENQVDGHSLGNLVIAGTNITNDFGHAIKELSKVLNIKGQVIPSTNASVQLNAVEDGEIVHGETNIPKTHKKIDRVFLEPSDVEPNEAIEALEQADLIVLGPGSLYTSVISNLCVKGISEALLRTSAPKLYVSNVTQPGETDNYDVKEHIDALTRQVGEPFIDFVICSSESYSKDVLQRYEEKNSKPVAVHKEQLKDSGIRVLTASNLVEISNEHYVRHNTKVLSKIYELALELTSTIRFTP KQNVVLIGGGTGLSVLARGLREFPIDITAIVTVADNGGSTGKIRDVDIPAPGDIRNVIAALSDSESILTQLFQYRFGENQVDGHSLGNLVIAGTNITNDFGHAIKELSKVLNIKGQVIPSTNASVQLNAVEDGEIVHGETNIPKTHKKIDRVFLEPSDVEPNEAIEALEQADLIVLGPGSLYTSVISNLCVKGISEALLRTSAPKLYVSNVTQPGETDNYDVKEHIDALTRQVGEPFIDFVICSSESYSKDVLQRYEEKNSKPVAVHKEQLKDSGIRVLTASNLVEISNEHYVRHNTKVLSKIYELALELTSTIRFTP 2ppw-a3-m1-cB_2ppw-a3-m2-cB The crystal structure of uncharacterized Ribose 5-phosphate isomerase RpiB from Streptococcus pneumoniae A0A0H2UNJ8 A0A0H2UNJ8 2.01 X-RAY DIFFRACTION 114 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 202 202 2ppw-a1-m1-cA_2ppw-a1-m2-cA 2ppw-a2-m1-cB_2ppw-a2-m2-cB 2ppw-a3-m1-cA_2ppw-a3-m2-cA AKIALINENSQASKNHIIYDSLKEATDKKGYQLFNYGRGEEGESQLTYVQNGLAAILLNTKAVDFVVTGCGTGVGALALNSFPGVVCGLAVDPTDAYLYSQINGGNALSIPYAKGFGWGAELTLKLFERLFAEEGGGYPRERVIPEQRNARILNEVKQITHNDLTILKIIDQDFLKDTISGKYFQEYFFENCQDDEVAAYLK AKIALINENSQASKNHIIYDSLKEATDKKGYQLFNYGRGEEGESQLTYVQNGLAAILLNTKAVDFVVTGCGTGVGALALNSFPGVVCGLAVDPTDAYLYSQINGGNALSIPYAKGFGWGAELTLKLFERLFAEEGGGYPRERVIPEQRNARILNEVKQITHNDLTILKIIDQDFLKDTISGKYFQEYFFENCQDDEVAAYLK 2ppw-a3-m2-cB_2ppw-a3-m1-cA The crystal structure of uncharacterized Ribose 5-phosphate isomerase RpiB from Streptococcus pneumoniae A0A0H2UNJ8 A0A0H2UNJ8 2.01 X-RAY DIFFRACTION 26 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 202 203 2ppw-a3-m1-cB_2ppw-a3-m2-cA AKIALINENSQASKNHIIYDSLKEATDKKGYQLFNYGRGEEGESQLTYVQNGLAAILLNTKAVDFVVTGCGTGVGALALNSFPGVVCGLAVDPTDAYLYSQINGGNALSIPYAKGFGWGAELTLKLFERLFAEEGGGYPRERVIPEQRNARILNEVKQITHNDLTILKIIDQDFLKDTISGKYFQEYFFENCQDDEVAAYLK AKIALINENSQASKNHIIYDSLKEATDKKGYQLFNYGRGEEGESQLTYVQNGLAAILLNTKAVDFVVTGCGTGVGALALNSFPGVVCGLAVDPTDAYLYSQINGGNALSIPYAKGFGWGAELTLKLFERLFAEEGGGYPRERVIPEQRNARILNEVKQITHNDLTILKIIDQDFLKDTISGKYFQEYFFENCQDDEVAAYLKE 2ppw-a3-m2-cB_2ppw-a3-m2-cA The crystal structure of uncharacterized Ribose 5-phosphate isomerase RpiB from Streptococcus pneumoniae A0A0H2UNJ8 A0A0H2UNJ8 2.01 X-RAY DIFFRACTION 30 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 202 203 2ppw-a3-m1-cB_2ppw-a3-m1-cA AKIALINENSQASKNHIIYDSLKEATDKKGYQLFNYGRGEEGESQLTYVQNGLAAILLNTKAVDFVVTGCGTGVGALALNSFPGVVCGLAVDPTDAYLYSQINGGNALSIPYAKGFGWGAELTLKLFERLFAEEGGGYPRERVIPEQRNARILNEVKQITHNDLTILKIIDQDFLKDTISGKYFQEYFFENCQDDEVAAYLK AKIALINENSQASKNHIIYDSLKEATDKKGYQLFNYGRGEEGESQLTYVQNGLAAILLNTKAVDFVVTGCGTGVGALALNSFPGVVCGLAVDPTDAYLYSQINGGNALSIPYAKGFGWGAELTLKLFERLFAEEGGGYPRERVIPEQRNARILNEVKQITHNDLTILKIIDQDFLKDTISGKYFQEYFFENCQDDEVAAYLKE 2ppx-a1-m2-cA_2ppx-a1-m4-cA Crystal structure of a HTH XRE-family like protein from Agrobacterium tumefaciens A9CIQ1 A9CIQ1 2 X-RAY DIFFRACTION 26 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 61 61 2ppx-a1-m1-cA_2ppx-a1-m3-cA PRIKIIRRALKLTQEEFSARYHIPLGTLRDWEQGRSEPDQPARAYLKIIAVDPEGTAAALR PRIKIIRRALKLTQEEFSARYHIPLGTLRDWEQGRSEPDQPARAYLKIIAVDPEGTAAALR 2ppx-a1-m3-cA_2ppx-a1-m4-cA Crystal structure of a HTH XRE-family like protein from Agrobacterium tumefaciens A9CIQ1 A9CIQ1 2 X-RAY DIFFRACTION 56 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 61 61 2ppx-a1-m1-cA_2ppx-a1-m2-cA PRIKIIRRALKLTQEEFSARYHIPLGTLRDWEQGRSEPDQPARAYLKIIAVDPEGTAAALR PRIKIIRRALKLTQEEFSARYHIPLGTLRDWEQGRSEPDQPARAYLKIIAVDPEGTAAALR 2ppy-a1-m1-cC_2ppy-a1-m1-cF Crystal structure of Enoyl-CoA hydrates (gk_1992) from Geobacillus Kaustophilus HTA426 Q5KYF9 Q5KYF9 2.16 X-RAY DIFFRACTION 30 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 257 257 2ppy-a1-m1-cB_2ppy-a1-m1-cA 2ppy-a1-m1-cE_2ppy-a1-m1-cD AVETKKQYLTVFKEDGIAEIHLHINKSNSYDLEFYKEFNAAIDDIRFDPDIKVVIVSDVPKFFSAGADINFLRSADPRFKTQFCLFCNETLDKIARSPQVYIACLEGHTVGGGLEALACDLRFGDEAGKIGLPEVSLGVLAGTGGTQRLARLIGYSRALDNITGETITPQEALEIGLVNRVFPQAETRERTREYARKLANSATYAVSNIKLAINGKEPLNVAIRYEGELQNLLFRSEDAKEGLSAFLEKRQPNWKGI AVETKKQYLTVFKEDGIAEIHLHINKSNSYDLEFYKEFNAAIDDIRFDPDIKVVIVSDVPKFFSAGADINFLRSADPRFKTQFCLFCNETLDKIARSPQVYIACLEGHTVGGGLEALACDLRFGDEAGKIGLPEVSLGVLAGTGGTQRLARLIGYSRALDNITGETITPQEALEIGLVNRVFPQAETRERTREYARKLANSATYAVSNIKLAINGKEPLNVAIRYEGELQNLLFRSEDAKEGLSAFLEKRQPNWKGI 2ppy-a1-m1-cF_2ppy-a1-m1-cA Crystal structure of Enoyl-CoA hydrates (gk_1992) from Geobacillus Kaustophilus HTA426 Q5KYF9 Q5KYF9 2.16 X-RAY DIFFRACTION 38 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 257 258 2ppy-a1-m1-cB_2ppy-a1-m1-cE 2ppy-a1-m1-cC_2ppy-a1-m1-cD AVETKKQYLTVFKEDGIAEIHLHINKSNSYDLEFYKEFNAAIDDIRFDPDIKVVIVSDVPKFFSAGADINFLRSADPRFKTQFCLFCNETLDKIARSPQVYIACLEGHTVGGGLEALACDLRFGDEAGKIGLPEVSLGVLAGTGGTQRLARLIGYSRALDNITGETITPQEALEIGLVNRVFPQAETRERTREYARKLANSATYAVSNIKLAINGKEPLNVAIRYEGELQNLLFRSEDAKEGLSAFLEKRQPNWKGI TAVETKKQYLTVFKEDGIAEIHLHINKSNSYDLEFYKEFNAAIDDIRFDPDIKVVIVSDVPKFFSAGADINFLRSADPRFKTQFCLFCNETLDKIARSPQVYIACLEGHTVGGGLEALACDLRFGDEAGKIGLPEVSLGVLAGTGGTQRLARLIGYSRALDNITGETITPQEALEIGLVNRVFPQAETRERTREYARKLANSATYAVSNIKLAINGKEPLNVAIRYEGELQNLLFRSEDAKEGLSAFLEKRQPNWKGI 2ppy-a3-m1-cF_2ppy-a3-m1-cD Crystal structure of Enoyl-CoA hydrates (gk_1992) from Geobacillus Kaustophilus HTA426 Q5KYF9 Q5KYF9 2.16 X-RAY DIFFRACTION 125 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 257 258 2ppy-a1-m1-cB_2ppy-a1-m1-cD 2ppy-a1-m1-cB_2ppy-a1-m1-cF 2ppy-a1-m1-cC_2ppy-a1-m1-cA 2ppy-a1-m1-cE_2ppy-a1-m1-cA 2ppy-a1-m1-cE_2ppy-a1-m1-cC 2ppy-a1-m1-cF_2ppy-a1-m1-cD 2ppy-a2-m1-cC_2ppy-a2-m1-cA 2ppy-a2-m1-cE_2ppy-a2-m1-cA 2ppy-a2-m1-cE_2ppy-a2-m1-cC 2ppy-a3-m1-cB_2ppy-a3-m1-cD 2ppy-a3-m1-cB_2ppy-a3-m1-cF AVETKKQYLTVFKEDGIAEIHLHINKSNSYDLEFYKEFNAAIDDIRFDPDIKVVIVSDVPKFFSAGADINFLRSADPRFKTQFCLFCNETLDKIARSPQVYIACLEGHTVGGGLEALACDLRFGDEAGKIGLPEVSLGVLAGTGGTQRLARLIGYSRALDNITGETITPQEALEIGLVNRVFPQAETRERTREYARKLANSATYAVSNIKLAINGKEPLNVAIRYEGELQNLLFRSEDAKEGLSAFLEKRQPNWKGI TAVETKKQYLTVFKEDGIAEIHLHINKSNSYDLEFYKEFNAAIDDIRFDPDIKVVIVSDVPKFFSAGADINFLRSADPRFKTQFCLFCNETLDKIARSPQVYIACLEGHTVGGGLEALACDLRFGDEAGKIGLPEVSLGVLAGTGGTQRLARLIGYSRALDNITGETITPQEALEIGLVNRVFPQAETRERTREYARKLANSATYAVSNIKLAINGKEPLNVAIRYEGELQNLLFRSEDAKEGLSAFLEKRQPNWKGI 2pq7-a1-m1-cA_2pq7-a1-m2-cA Crystal structure of predicted HD superfamily hydrolase (104161995) from uncultured Thermotogales bacterium at 1.45 A resolution Q1EM40 Q1EM40 1.45 X-RAY DIFFRACTION 60 1.0 221214 (uncultured Thermotogales bacterium) 221214 (uncultured Thermotogales bacterium) 169 169 NLTELERIPHLREILNIVREAFKDYDDPAHDISHTFRVENASEIASREKCDLQKAIIAALLHDIKRPHEALTGVDHAESGAEYASGLLPTGFDISFVAEVSKAIRSHRTPTSLTGKILQDADRLDAIGAVAIARVFSYPETFWTETARKAEDRYSFVVEFVQRFLAEWG NLTELERIPHLREILNIVREAFKDYDDPAHDISHTFRVENASEIASREKCDLQKAIIAALLHDIKRPHEALTGVDHAESGAEYASGLLPTGFDISFVAEVSKAIRSHRTPTSLTGKILQDADRLDAIGAVAIARVFSYPETFWTETARKAEDRYSFVVEFVQRFLAEWG 2pqf-a9-m1-cA_2pqf-a9-m4-cE Human Poly(ADP-Ribose) Polymerase 12, Catalytic fragment in complex with an inhibitor 3-Aminobenzoic acid Q9H0J9 Q9H0J9 2.2 X-RAY DIFFRACTION 15 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 2pqf-a7-m2-cF_2pqf-a7-m1-cC 2pqf-a8-m1-cB_2pqf-a8-m3-cD 6v3w-a1-m1-cA_6v3w-a1-m2-cA DPGFQKITLSSSSEEYQKVWNLFNRTLPFYFVQKIERVQNLALWEVYQWQKGQQKQNGGKAVDERQLFHGTSAIFVDAICQQNFDWRVCGVHGTSYGKGSYFARDAAYSHHYSKSDTQTHTFLARVLVGEFVRGNASFVRPPAKEGWAFYDSCVNSVSDPSIFVIFEKHQVYPEYVIQYTTSS PGFQKITLSSSSEEYQKVWNLFNRTLPFYFVQKIERVQNLALWEVYQWQKGQQKQNGGKAVDERQLFHGTSAIFVDAICQQNFDWRVCGVHGTSYGKGSYFARDAAYSHHYSKSDTQTHTFLARVLVGEFVRGNASFVRPPAKEGWSNAFYDSCVNSVSDPSIFVIFEKHQVYPEYVIQYTTS 2pqm-a1-m1-cB_2pqm-a1-m1-cA Crystal structure of Cysteine Synthase (OASS) from Entamoeba histolytica at 1.86 A resolution O15570 O15570 1.86 X-RAY DIFFRACTION 201 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 334 338 3bm5-a1-m1-cB_3bm5-a1-m1-cA 4il5-a1-m1-cB_4il5-a1-m1-cA 4jbl-a1-m1-cB_4jbl-a1-m1-cA 4jbn-a1-m1-cA_4jbn-a1-m1-cB QISISSPRKRIYHNILETIGGTPLVELHGVTEHPRIKKGTRILVKLEYFNPMSSVKDRVGFNIVYQAIKDGRLKPGMEIIESTSGNTGIALCQAGAVFGYRVNIAMPSTMSVERQMIMKAFGAELILTEGKKGMPGAIEEVNKMIKENPGKYFVANQFGNPDNTAAHHYTANEIWEDTDGEVDIVVSAVGTSGTVIGVAEKLKEKKKGIKIIAVEPEESAVLEGKAKGPHGIQGIGAGFIPDIYKKEFVDEIIPIKTQDAWKMARAVVKYDGIMCGMSSGAAILAGLKEAEKPENEGKTIVIIVPSCGERYLSTDLYKIKDEGTKIQILDSLLN EQISISSPRKRIYHNILETIGGTPLVELHGVTEHPRIKKGTRILVKLEYFNPMSSVKDRVGFNIVYQAIKDGRLKPGMEIIESTSGNTGIALCQAGAVFGYRVNIAMPSTMSVERQMIMKAFGAELILTEGKKGMPGAIEEVNKMIKENPGKYFVANQFGNPDNTAAHHYTANEIWEDTDGEVDIVVSAVGTSGTVIGVAEKLKEKKKGIKIIAVEPEESAVLEGKAKGPHGIQGIGAGFIPDIYKKEFVDEIIPIKTQDAWKMARAVVKYDGIMCGMSSGAAILAGLKEAEKPENEGKTIVIIVPSCGERYLSTDLYKIKDEGTKIQILDSLLNEHH 2pqq-a1-m1-cC_2pqq-a1-m1-cA Structural Genomics, the crystal structure of the N-terminal domain of a transcriptional regulator from Streptomyces coelicolor A3(2) Q9XA42 Q9XA42 2 X-RAY DIFFRACTION 61 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 137 143 DDVLRRNPLFAALDDEQSAELRASSEVTLARGDTLFHEGDPGDRLYVVTEGKVKLHRTSPDGRENLAVVGPSELIGELSLFDPGPRTATGTALTEVKLLALGHGDLQPWLNVRPEVATALLRAVARRLRKTNDASDG GHDDVLRRNPLFAALDDEQSAELRASSEVTLARGDTLFHEGDPGDRLYVVTEGKVKLHRTSPDGRENLAVVGPSELIGELSLFDPGPRTATGTALTEVKLLALGHGDLQPWLNVRPEVATALLRAVARRLRKTNDALVFSDGS 2pqq-a1-m1-cC_2pqq-a1-m1-cD Structural Genomics, the crystal structure of the N-terminal domain of a transcriptional regulator from Streptomyces coelicolor A3(2) Q9XA42 Q9XA42 2 X-RAY DIFFRACTION 11 0.993 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 137 140 DDVLRRNPLFAALDDEQSAELRASSEVTLARGDTLFHEGDPGDRLYVVTEGKVKLHRTSPDGRENLAVVGPSELIGELSLFDPGPRTATGTALTEVKLLALGHGDLQPWLNVRPEVATALLRAVARRLRKTNDASDG DVLRRNPLFAALDDEQSAELRASSEVTLARGDTLFHEGDPGDRLYVVTEGKVKLHRTSPDGRENLAVVGPSELIGELSLFDPGPRTATGTALTEVKLLALGHGDLQPWLNVRPEVATALLRAVARRLRKTNDALVFSDGS 2pqq-a1-m1-cD_2pqq-a1-m1-cA Structural Genomics, the crystal structure of the N-terminal domain of a transcriptional regulator from Streptomyces coelicolor A3(2) Q9XA42 Q9XA42 2 X-RAY DIFFRACTION 72 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 140 143 2pqq-a1-m1-cC_2pqq-a1-m1-cB DVLRRNPLFAALDDEQSAELRASSEVTLARGDTLFHEGDPGDRLYVVTEGKVKLHRTSPDGRENLAVVGPSELIGELSLFDPGPRTATGTALTEVKLLALGHGDLQPWLNVRPEVATALLRAVARRLRKTNDALVFSDGS GHDDVLRRNPLFAALDDEQSAELRASSEVTLARGDTLFHEGDPGDRLYVVTEGKVKLHRTSPDGRENLAVVGPSELIGELSLFDPGPRTATGTALTEVKLLALGHGDLQPWLNVRPEVATALLRAVARRLRKTNDALVFSDGS 2pqv-a1-m1-cA_2pqv-a1-m1-cB Crystal structure of MutT/nudix family protein from Streptococcus pneumoniae A0A0H2UMZ7 A0A0H2UMZ7 1.63 X-RAY DIFFRACTION 63 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 148 150 TQQDFRTKVDNTVFGVRATALIVQNHKLLVTKDKGKYYTIGGAIQVNESTEDAVVREVKEELGVKAQAGQLAFVVENRFEVDGVSYHNIEFHYLVDLLEDAPLTQEDEKRQPCEWIDLDKLQNIQLVPVFLKTALPDWEGQLRHIHLE ATQQDFRTKVDNTVFGVRATALIVQNHKLLVTKDKGKYYTIGGAIQVNESTEDAVVREVKEELGVKAQAGQLAFVVENRFEVDGVSYHNIEFHYLVDLLEDAPLTQEDEKRQPCEWIDLDKLQNIQLVPVFLKTALPDWEGQLRHIHLEE 2pr1-a2-m1-cB_2pr1-a2-m2-cB Crystal structure of the Bacillus subtilis N-acetyltransferase YlbP protein in complex with Coenzyme-A O34468 O34468 3.2 X-RAY DIFFRACTION 23 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 149 149 TKVERLLINYKTLEEFKKFKEYGIQELSMLEELQDNIIENDSTSPFYGIYFGDKLVARMSLYQVNGKSNPYFDNRQDYLELWKLEVLPGYQNRGYGRALVEFAKSFKMPIRTNPRMKSAEFWNKMNFKTVKYDMARDKGEDPLIWHPDM TKVERLLINYKTLEEFKKFKEYGIQELSMLEELQDNIIENDSTSPFYGIYFGDKLVARMSLYQVNGKSNPYFDNRQDYLELWKLEVLPGYQNRGYGRALVEFAKSFKMPIRTNPRMKSAEFWNKMNFKTVKYDMARDKGEDPLIWHPDM 2pr1-a2-m2-cB_2pr1-a2-m2-cA Crystal structure of the Bacillus subtilis N-acetyltransferase YlbP protein in complex with Coenzyme-A O34468 O34468 3.2 X-RAY DIFFRACTION 57 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 149 152 2pr1-a1-m1-cB_2pr1-a1-m1-cA 2pr1-a2-m1-cB_2pr1-a2-m1-cA TKVERLLINYKTLEEFKKFKEYGIQELSMLEELQDNIIENDSTSPFYGIYFGDKLVARMSLYQVNGKSNPYFDNRQDYLELWKLEVLPGYQNRGYGRALVEFAKSFKMPIRTNPRMKSAEFWNKMNFKTVKYDMARDKGEDPLIWHPDM MTKVERLLINYKTLEEFKKFKEYGIQELSMLEELQDNIIENDSTSPFYGIYFGDKLVARMSLYQVNGKSNPYFDNRQDYLELWKLEVLPGYQNRGYGRALVEFAKSFKMPIRTNPRMKSAEFWNKMNFKTVKYDMARDKGEDPLIWHPDMDR 2pr5-a2-m1-cA_2pr5-a2-m2-cA Structural Basis for Light-dependent Signaling in the Dimeric LOV Photosensor YtvA (Dark Structure) O34627 O34627 1.45 X-RAY DIFFRACTION 34 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 127 127 2pr6-a2-m1-cA_2pr6-a2-m2-cA DHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITALS DHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITALS 2pr5-a2-m2-cB_2pr5-a2-m1-cA Structural Basis for Light-dependent Signaling in the Dimeric LOV Photosensor YtvA (Dark Structure) O34627 O34627 1.45 X-RAY DIFFRACTION 33 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 126 127 2pr5-a2-m1-cB_2pr5-a2-m2-cA 2pr6-a2-m1-cB_2pr6-a2-m2-cA 2pr6-a2-m2-cB_2pr6-a2-m1-cA DHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITAL DHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITALS 2pr5-a2-m2-cB_2pr5-a2-m2-cA Structural Basis for Light-dependent Signaling in the Dimeric LOV Photosensor YtvA (Dark Structure) O34627 O34627 1.45 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 126 127 2pr5-a1-m1-cB_2pr5-a1-m1-cA 2pr5-a2-m1-cB_2pr5-a2-m1-cA 2pr6-a1-m1-cB_2pr6-a1-m1-cA 2pr6-a2-m1-cB_2pr6-a2-m1-cA 2pr6-a2-m2-cB_2pr6-a2-m2-cA DHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITAL DHVRVGVVITDPALEDNPIVYVNQGFVQMTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTMFWNELNIDPMEIEDKTYFVGIQNDITKQKEYEKLLEDSLTEITALS 2pr8-a1-m1-cA_2pr8-a1-m1-cB crystal structure of aminoglycoside N-acetyltransferase AAC(6')-Ib11 Q8GLI5 Q8GLI5 2.1 X-RAY DIFFRACTION 65 1.0 173 173 DSVTLRLMTEHDLAMLYEWLNRSHIVEWWGGEEARPTLADVQEQYLPSVLAQESVTPYIAMLNGEPIGYAQSYVALGSGDGWWEEETDPGVRGIDLSLANASQLGKGLGTKLVRALVELLFNDPEVTKIQTDPSPSNLRAIRCYEKAGFERQGTVTTPDGPAVYMVQTRQAFE DSVTLRLMTEHDLAMLYEWLNRSHIVEWWGGEEARPTLADVQEQYLPSVLAQESVTPYIAMLNGEPIGYAQSYVALGSGDGWWEEETDPGVRGIDLSLANASQLGKGLGTKLVRALVELLFNDPEVTKIQTDPSPSNLRAIRCYEKAGFERQGTVTTPDGPAVYMVQTRQAFE 2prd-a1-m1-cA_2prd-a1-m6-cA CRYSTAL STRUCTURE OF INORGANIC PYROPHOSPHATASE FROM THERMUS THERMOPHILUS P38576 P38576 2 X-RAY DIFFRACTION 26 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 174 174 2prd-a1-m2-cA_2prd-a1-m5-cA 2prd-a1-m3-cA_2prd-a1-m4-cA ANLKSLPVGDKAPEVVHMVIEVPRGSGNKYEYDPDLGAIKLDRVLPGAQFYPGDYGFIPSTLAEDGDPLDGLVLSTYPLLPGVVVEVRVVGLLLMEDEKGGDAKVIGVVAEDQRLDHIQDIGDVPEGVKQEIQHFFETYKALEAKKGKWVKVTGWRDRKAALEEVRACIARYKG ANLKSLPVGDKAPEVVHMVIEVPRGSGNKYEYDPDLGAIKLDRVLPGAQFYPGDYGFIPSTLAEDGDPLDGLVLSTYPLLPGVVVEVRVVGLLLMEDEKGGDAKVIGVVAEDQRLDHIQDIGDVPEGVKQEIQHFFETYKALEAKKGKWVKVTGWRDRKAALEEVRACIARYKG 2prd-a1-m2-cA_2prd-a1-m6-cA CRYSTAL STRUCTURE OF INORGANIC PYROPHOSPHATASE FROM THERMUS THERMOPHILUS P38576 P38576 2 X-RAY DIFFRACTION 53 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 174 174 2prd-a1-m1-cA_2prd-a1-m4-cA 2prd-a1-m3-cA_2prd-a1-m5-cA ANLKSLPVGDKAPEVVHMVIEVPRGSGNKYEYDPDLGAIKLDRVLPGAQFYPGDYGFIPSTLAEDGDPLDGLVLSTYPLLPGVVVEVRVVGLLLMEDEKGGDAKVIGVVAEDQRLDHIQDIGDVPEGVKQEIQHFFETYKALEAKKGKWVKVTGWRDRKAALEEVRACIARYKG ANLKSLPVGDKAPEVVHMVIEVPRGSGNKYEYDPDLGAIKLDRVLPGAQFYPGDYGFIPSTLAEDGDPLDGLVLSTYPLLPGVVVEVRVVGLLLMEDEKGGDAKVIGVVAEDQRLDHIQDIGDVPEGVKQEIQHFFETYKALEAKKGKWVKVTGWRDRKAALEEVRACIARYKG 2prd-a1-m5-cA_2prd-a1-m6-cA CRYSTAL STRUCTURE OF INORGANIC PYROPHOSPHATASE FROM THERMUS THERMOPHILUS P38576 P38576 2 X-RAY DIFFRACTION 49 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 174 174 2prd-a1-m1-cA_2prd-a1-m2-cA 2prd-a1-m1-cA_2prd-a1-m3-cA 2prd-a1-m2-cA_2prd-a1-m3-cA 2prd-a1-m4-cA_2prd-a1-m5-cA 2prd-a1-m4-cA_2prd-a1-m6-cA ANLKSLPVGDKAPEVVHMVIEVPRGSGNKYEYDPDLGAIKLDRVLPGAQFYPGDYGFIPSTLAEDGDPLDGLVLSTYPLLPGVVVEVRVVGLLLMEDEKGGDAKVIGVVAEDQRLDHIQDIGDVPEGVKQEIQHFFETYKALEAKKGKWVKVTGWRDRKAALEEVRACIARYKG ANLKSLPVGDKAPEVVHMVIEVPRGSGNKYEYDPDLGAIKLDRVLPGAQFYPGDYGFIPSTLAEDGDPLDGLVLSTYPLLPGVVVEVRVVGLLLMEDEKGGDAKVIGVVAEDQRLDHIQDIGDVPEGVKQEIQHFFETYKALEAKKGKWVKVTGWRDRKAALEEVRACIARYKG 2pro-a4-m1-cA_2pro-a4-m2-cB PRO REGION OF ALPHA-LYTIC PROTEASE P00778 P00778 3 X-RAY DIFFRACTION 20 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 142 143 DPQLKFAMQRDLGIFPTQLPQYLQTEKLARTQAAAIEREFGAQFAGSWIERNEDGSFKLVAATSGARKSSTLGGVEVRNVRYSLKQLQSAMEQLDAGAGVQSWYVDPRSNAVVVKVDDGATDAGVDFVALSGADSAQVRIES VDPQLKFAMQRDLGIFPTQLPQYLQTEKLARTQAAAIEREFGAQFAGSWIERNEDGSFKLVAATSGARKSSTLGGVEVRNVRYSLKQLQSAMEQLDAGAGVQSWYVDPRSNAVVVKVDDGATDAGVDFVALSGADSAQVRIES 2pro-a4-m3-cC_2pro-a4-m1-cA PRO REGION OF ALPHA-LYTIC PROTEASE P00778 P00778 3 X-RAY DIFFRACTION 21 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 129 142 IFPTQLPQYLQTEKLARTQAAAIEREFGAQFAGSWIERNEDGSFKLVAATSGARKSSTLGGVEVRNVRYSLKQLQSAMEQLDAGAGVQSWYVDPRSNAVVVKVDDGATDAGVDFVALSGADSAQVRIES DPQLKFAMQRDLGIFPTQLPQYLQTEKLARTQAAAIEREFGAQFAGSWIERNEDGSFKLVAATSGARKSSTLGGVEVRNVRYSLKQLQSAMEQLDAGAGVQSWYVDPRSNAVVVKVDDGATDAGVDFVALSGADSAQVRIES 2pro-a4-m3-cC_2pro-a4-m2-cB PRO REGION OF ALPHA-LYTIC PROTEASE P00778 P00778 3 X-RAY DIFFRACTION 37 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 129 143 IFPTQLPQYLQTEKLARTQAAAIEREFGAQFAGSWIERNEDGSFKLVAATSGARKSSTLGGVEVRNVRYSLKQLQSAMEQLDAGAGVQSWYVDPRSNAVVVKVDDGATDAGVDFVALSGADSAQVRIES VDPQLKFAMQRDLGIFPTQLPQYLQTEKLARTQAAAIEREFGAQFAGSWIERNEDGSFKLVAATSGARKSSTLGGVEVRNVRYSLKQLQSAMEQLDAGAGVQSWYVDPRSNAVVVKVDDGATDAGVDFVALSGADSAQVRIES 2prr-a2-m1-cJ_2prr-a2-m1-cF Crystal structure of alkylhydroperoxidase AhpD core: uncharacterized peroxidase-related protein (YP_296737.1) from Ralstonia eutropha JMP134 at 2.15 A resolution Q46Y90 Q46Y90 2.15 X-RAY DIFFRACTION 111 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 182 184 2prr-a1-m1-cA_2prr-a1-m1-cB 2prr-a1-m1-cE_2prr-a1-m1-cD 2prr-a1-m1-cI_2prr-a1-m1-cH 2prr-a2-m1-cC_2prr-a2-m1-cG 2prr-a2-m1-cL_2prr-a2-m1-cK AHPISRYPVPELAALPDDIRQRILEVQDKAGFVPNVFLTLAHRPDEFRAFFAYHDALLKDGGLTKGEREIVVATSAANQCLYCVVAHGAILRIYEKKPLVADQVAVNYLKADIPPRQRALDFALKVCKASHEVNEADFEALREHGFTDEDAWDIAAITAFFGLSNRANTIGRPNDEFFLGRV AHPISRYPVPELAALPDDIRQRILEVQDKAGFVPNVFLTLAHRPDEFRAFFAYHDALLKDGGLTKGEREIVVATSAANQCLYCVVAHGAILRIYEKKPLVADQVAVNYLKADIPPRQRALDFALKVCKASHEVNEADFEALREHGFTDEDAWDIAAITAFFGLSNRANTIGRPNDEFFLGRVPK 2prr-a2-m1-cL_2prr-a2-m1-cF Crystal structure of alkylhydroperoxidase AhpD core: uncharacterized peroxidase-related protein (YP_296737.1) from Ralstonia eutropha JMP134 at 2.15 A resolution Q46Y90 Q46Y90 2.15 X-RAY DIFFRACTION 52 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 183 184 2prr-a1-m1-cA_2prr-a1-m1-cD 2prr-a1-m1-cE_2prr-a1-m1-cH 2prr-a1-m1-cI_2prr-a1-m1-cB 2prr-a2-m1-cC_2prr-a2-m1-cK 2prr-a2-m1-cJ_2prr-a2-m1-cG AHPISRYPVPELAALPDDIRQRILEVQDKAGFVPNVFLTLAHRPDEFRAFFAYHDALLKDGGLTKGEREIVVATSAANQCLYCVVAHGAILRIYEKKPLVADQVAVNYLKADIPPRQRALDFALKVCKASHEVNEADFEALREHGFTDEDAWDIAAITAFFGLSNRANTIGRPNDEFFLGRVP AHPISRYPVPELAALPDDIRQRILEVQDKAGFVPNVFLTLAHRPDEFRAFFAYHDALLKDGGLTKGEREIVVATSAANQCLYCVVAHGAILRIYEKKPLVADQVAVNYLKADIPPRQRALDFALKVCKASHEVNEADFEALREHGFTDEDAWDIAAITAFFGLSNRANTIGRPNDEFFLGRVPK 2prv-a1-m1-cB_2prv-a1-m1-cA Crystal structure of an uncharacterized protein (yobk, bsu18990) from bacillus subtilis at 1.30 A resolution O34596 O34596 1.3 X-RAY DIFFRACTION 47 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 150 151 GIYSKVENFINENKQNAIFTEGASHENIGRIEENLQCDLPNSYKWFLEKYGAGGLFGVLVLGYNFDHASVVNRTNEYKEHYGLTDGLVVIEDVDYFAYCLDTNKKDGECPVVEWDRVIGYQDTVADSFIEFFYNKIQEAKDDWDEDEDWD GIYSKVENFINENKQNAIFTEGASHENIGRIEENLQCDLPNSYKWFLEKYGAGGLFGVLVLGYNFDHASVVNRTNEYKEHYGLTDGLVVIEDVDYFAYCLDTNKKDGECPVVEWDRVIGYQDTVADSFIEFFYNKIQEAKDDWDEDEDWDD 2prx-a1-m1-cA_2prx-a1-m1-cB Crystal structure of Thioesterase superfamily protein (ZP_00837258.1) from Shewanella loihica PV-4 at 1.65 A resolution A3QJH3 A3QJH3 1.5 X-RAY DIFFRACTION 72 0.991 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 110 110 FQDAYSHCYGLKSYWRGEQTIAHFPKPFHTAIPGFVYGGLIASLIDCHGTGSASAAAQPRFVTAALNIDYLAPTPGVELELVGEIKEVRKVVVEIALSALCARGHVAVKP FQDAYSHCYGLKSYWRGEQTIAHFPKPFHTAPGFVYGGLIASLIDCHGTGSASAAAQRPRFVTAALNIDYLAPTPGVELELVGEIKEVRKVVVEIALSALCARGHVAVKP 2ps2-a4-m1-cD_2ps2-a4-m2-cD Crystal structure of putative mandelate racemase/muconate lactonizing enzyme from Aspergillus oryzae Q2U1E8 Q2U1E8 1.8 X-RAY DIFFRACTION 66 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 361 361 2ps2-a1-m1-cA_2ps2-a1-m2-cA 2ps2-a2-m1-cB_2ps2-a2-m1-cC 2ps2-a3-m1-cD_2ps2-a3-m2-cD 2ps2-a4-m1-cA_2ps2-a4-m2-cA 2ps2-a4-m1-cB_2ps2-a4-m1-cC 2ps2-a4-m2-cB_2ps2-a4-m2-cC DLKIARIDVFQVDLPYSGGVYYLSFDATIVRITTDTGIEGWGESTPFGSNYIASHPRGVRAGIATMAPSLIGLDPRRVDRINDAMDDALLGHEDAKTAIDVACWDIFGKSVGLPVCELLGGRTNTRLPLISSIYVGEPEDMRARVAKYRAKGYKGQSVKISGEPVTDAKRITAALANQQPDEFFIVDANGKLSVETALRLLRLLPHGLDFALEAPCATWRECISLRRKTDIPIIYDELATNEMSIVKILADDAAEGIDLKISKAGGLTRGRRQRDICLAAGYSVSVQETCGSDIAFAAIVHLAQTIPERSLRCILECRDMVTVKTADGAFDIQDGFATAPTTPGLGIMPRLDVLGEAVASY DLKIARIDVFQVDLPYSGGVYYLSFDATIVRITTDTGIEGWGESTPFGSNYIASHPRGVRAGIATMAPSLIGLDPRRVDRINDAMDDALLGHEDAKTAIDVACWDIFGKSVGLPVCELLGGRTNTRLPLISSIYVGEPEDMRARVAKYRAKGYKGQSVKISGEPVTDAKRITAALANQQPDEFFIVDANGKLSVETALRLLRLLPHGLDFALEAPCATWRECISLRRKTDIPIIYDELATNEMSIVKILADDAAEGIDLKISKAGGLTRGRRQRDICLAAGYSVSVQETCGSDIAFAAIVHLAQTIPERSLRCILECRDMVTVKTADGAFDIQDGFATAPTTPGLGIMPRLDVLGEAVASY 2ps2-a4-m2-cB_2ps2-a4-m2-cD Crystal structure of putative mandelate racemase/muconate lactonizing enzyme from Aspergillus oryzae Q2U1E8 Q2U1E8 1.8 X-RAY DIFFRACTION 47 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 361 361 2ps2-a4-m1-cA_2ps2-a4-m1-cC 2ps2-a4-m1-cA_2ps2-a4-m2-cB 2ps2-a4-m1-cB_2ps2-a4-m1-cD 2ps2-a4-m1-cB_2ps2-a4-m2-cA 2ps2-a4-m1-cC_2ps2-a4-m2-cD 2ps2-a4-m1-cD_2ps2-a4-m2-cC 2ps2-a4-m2-cA_2ps2-a4-m2-cC DLKIARIDVFQVDLPYSGGVYYLSFDATIVRITTDTGIEGWGESTPFGSNYIASHPRGVRAGIATMAPSLIGLDPRRVDRINDAMDDALLGHEDAKTAIDVACWDIFGKSVGLPVCELLGGRTNTRLPLISSIYVGEPEDMRARVAKYRAKGYKGQSVKISGEPVTDAKRITAALANQQPDEFFIVDANGKLSVETALRLLRLLPHGLDFALEAPCATWRECISLRRKTDIPIIYDELATNEMSIVKILADDAAEGIDLKISKAGGLTRGRRQRDICLAAGYSVSVQETCGSDIAFAAIVHLAQTIPERSLRCILECRDMVTVKTADGAFDIQDGFATAPTTPGLGIMPRLDVLGEAVASY DLKIARIDVFQVDLPYSGGVYYLSFDATIVRITTDTGIEGWGESTPFGSNYIASHPRGVRAGIATMAPSLIGLDPRRVDRINDAMDDALLGHEDAKTAIDVACWDIFGKSVGLPVCELLGGRTNTRLPLISSIYVGEPEDMRARVAKYRAKGYKGQSVKISGEPVTDAKRITAALANQQPDEFFIVDANGKLSVETALRLLRLLPHGLDFALEAPCATWRECISLRRKTDIPIIYDELATNEMSIVKILADDAAEGIDLKISKAGGLTRGRRQRDICLAAGYSVSVQETCGSDIAFAAIVHLAQTIPERSLRCILECRDMVTVKTADGAFDIQDGFATAPTTPGLGIMPRLDVLGEAVASY 2ps2-a6-m1-cA_2ps2-a6-m2-cC Crystal structure of putative mandelate racemase/muconate lactonizing enzyme from Aspergillus oryzae Q2U1E8 Q2U1E8 1.8 X-RAY DIFFRACTION 84 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 361 361 2ps2-a4-m1-cA_2ps2-a4-m2-cC 2ps2-a4-m1-cB_2ps2-a4-m2-cD 2ps2-a4-m1-cC_2ps2-a4-m2-cA 2ps2-a4-m1-cD_2ps2-a4-m2-cB 2ps2-a5-m1-cB_2ps2-a5-m2-cD DLKIARIDVFQVDLPYSGGVYYLSFDATIVRITTDTGIEGWGESTPFGSNYIASHPRGVRAGIATMAPSLIGLDPRRVDRINDAMDDALLGHEDAKTAIDVACWDIFGKSVGLPVCELLGGRTNTRLPLISSIYVGEPEDMRARVAKYRAKGYKGQSVKISGEPVTDAKRITAALANQQPDEFFIVDANGKLSVETALRLLRLLPHGLDFALEAPCATWRECISLRRKTDIPIIYDELATNEMSIVKILADDAAEGIDLKISKAGGLTRGRRQRDICLAAGYSVSVQETCGSDIAFAAIVHLAQTIPERSLRCILECRDMVTVKTADGAFDIQDGFATAPTTPGLGIMPRLDVLGEAVASY DLKIARIDVFQVDLPYSGGVYYLSFDATIVRITTDTGIEGWGESTPFGSNYIASHPRGVRAGIATMAPSLIGLDPRRVDRINDAMDDALLGHEDAKTAIDVACWDIFGKSVGLPVCELLGGRTNTRLPLISSIYVGEPEDMRARVAKYRAKGYKGQSVKISGEPVTDAKRITAALANQQPDEFFIVDANGKLSVETALRLLRLLPHGLDFALEAPCATWRECISLRRKTDIPIIYDELATNEMSIVKILADDAAEGIDLKISKAGGLTRGRRQRDICLAAGYSVSVQETCGSDIAFAAIVHLAQTIPERSLRCILECRDMVTVKTADGAFDIQDGFATAPTTPGLGIMPRLDVLGEAVASY 2psg-a1-m2-cA_2psg-a1-m1-cA REFINED STRUCTURE OF PORCINE PEPSINOGEN AT 1.8 ANGSTROMS RESOLUTION P00791 P00791 1.8 X-RAY DIFFRACTION 60 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 369 369 LVKVPLVRKKSLRQNLIKDGKLKDFLKTHKHNPASKYFPEAAALIGDEPLENYLDTEYFGTIGIGTPAQDFTVIFDTGSSNLWVPSVYCSSLACSDHNQFNPDDSSTFEATQELSITYGTGSMTGILGYDTVQVGGISDTNQIFGLSETEPGSFLYYAPFDGILGLAYPSISASGATPVFDNLWDQGLVSQDLFSVYLSSNDDSGSVVLLGGIDSSYYTGSLNWVPVSVEGYWQITLDSITMDGETIACSGGCQAIVDTGTSLLTGPTSAIANIQSDIGASENSDGEMVISCSSIDSLPDIVFTIDGVQYPLSPSAYILQDDDSCTSGFEGMDVPTSSGELWILGDVFIRQYYTVFDRANNKVGLAPVA LVKVPLVRKKSLRQNLIKDGKLKDFLKTHKHNPASKYFPEAAALIGDEPLENYLDTEYFGTIGIGTPAQDFTVIFDTGSSNLWVPSVYCSSLACSDHNQFNPDDSSTFEATQELSITYGTGSMTGILGYDTVQVGGISDTNQIFGLSETEPGSFLYYAPFDGILGLAYPSISASGATPVFDNLWDQGLVSQDLFSVYLSSNDDSGSVVLLGGIDSSYYTGSLNWVPVSVEGYWQITLDSITMDGETIACSGGCQAIVDTGTSLLTGPTSAIANIQSDIGASENSDGEMVISCSSIDSLPDIVFTIDGVQYPLSPSAYILQDDDSCTSGFEGMDVPTSSGELWILGDVFIRQYYTVFDRANNKVGLAPVA 2psy-a2-m1-cB_2psy-a2-m1-cA Crystal Structure of Human Kallikrein 5 in complex with Leupeptin and Zinc Q9Y337 2.3 X-RAY DIFFRACTION 11 1.0 66430 (Streptomyces roseus) 9606 (Homo sapiens) 2 227 2psx-a1-m1-cB_2psx-a1-m1-cA 2psy-a1-m1-cB_2psy-a1-m1-cA LL IINGSDCDMHTQPWQAALLLRPNQLYCGAVLVHPQWLLTAAHCRKKVFRVRLGHYSLSPVYESGQQMFQGVKSIPHPGYSHPGHSNDLMLIKLNRRIRPTKDVRPINVSSHCPSAGTKCLVSGWGTTKSPQVHFPKVLQCLNISVLSQKRCEDAYPRQIDDTMFCAGDKAGRDSCQGDSGGPVVCNGSLQGLVSWGDYPCARPNRPGVYTNLCKFTKWIQETIQANS 2pt0-a1-m1-cA_2pt0-a1-m1-cB Structure of Selenomonas ruminantium PTP-like phytase with the active site cysteine oxidized to cysteine-sulfonic acid Q7WUJ1 Q7WUJ1 1.7 X-RAY DIFFRACTION 17 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 312 312 TVTEPVGSYARAERPQDFEGFVWRLDNDGKEALPRNFRTSADALRAPEKKFHLDAAYVPSREGMDALHISGSSAFTPAQLKNVAAKLREKTAGPIYDVDLRQESHGYLDGIPVSWYGERDWANLGKSQHEALADERHRLHAALHKTVYIAPLGKHKLPEGGEVRRVQKVQTEQEVAEAAGMRYFRIAATDHVWPTPENIDRFLAFYRTLPQDAWLHFHEAGVGRTTAFMVMTDMLKNPSVSLKDILYRQHEIGGFYYGEFPIKTKDKDSWKTKYYREKIVMIEQFYRYVQENRADGYQTPWSVWLKSHPAKA TVTEPVGSYARAERPQDFEGFVWRLDNDGKEALPRNFRTSADALRAPEKKFHLDAAYVPSREGMDALHISGSSAFTPAQLKNVAAKLREKTAGPIYDVDLRQESHGYLDGIPVSWYGERDWANLGKSQHEALADERHRLHAALHKTVYIAPLGKHKLPEGGEVRRVQKVQTEQEVAEAAGMRYFRIAATDHVWPTPENIDRFLAFYRTLPQDAWLHFHEAGVGRTTAFMVMTDMLKNPSVSLKDILYRQHEIGGFYYGEFPIKTKDKDSWKTKYYREKIVMIEQFYRYVQENRADGYQTPWSVWLKSHPAKA 2pt5-a5-m2-cD_2pt5-a5-m1-cB Crystal Structure Of Shikimate Kinase (aq_2177) From Aquifex Aeolicus vf5 O67925 O67925 2.1 X-RAY DIFFRACTION 45 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 155 165 RIYLIGFCSGKSTVGSLLSRSLNIPFYDVDEEVQKREGLSIPQIFEKKGEAYFRKLEFEVLKDLSEKENVVISTGGGLGANEEALNFKSRGTTVFIDIPFEVFLERCRPLDEIKNLFEERRKIYSKADIKVKGEKPPEEVVKEILLSLEGNALGG RIYLIGFCSGKSTVGSLLSRSLNIPFYDVDEEVQKREGLSIPQIFEKKGEAYFRKLEFEVLKDLSEKENVVISTGGGLGANEEALNFKSRGTTVFIDIPFEVFLERCKDSKERPLLKRPLDEIKNLFEERRKIYSKADIKVKGEKPPEEVVKEILLSLEGNALGG 2ptf-a1-m1-cA_2ptf-a1-m1-cB Crystal structure of protein MTH_863 from Methanobacterium thermoautotrophicum bound to FMN O26951 O26951 2.35 X-RAY DIFFRACTION 82 0.98 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 200 200 VEYTHFKDLQALEMERGRLYETIVVTWDDSMVGNAAPIGVLCTGDDTVTLYLYQGTRTVENVLNNGRFTVNVTLDPLIFTDSTLGDLEEDMFSHYRDFLHLRGADAFFTAEVVSVKKLVKRDRESELHVVKARAGDVMRAESFRMALNRGIYAVIESLIAYTRAPLVLRERIAEMNRVARKVGGPREKEAMRRIIQALES VEYTHFKDLQALEMERGRLYETIVVTWDDSMVGNAAPIGVLCTGDDTVTLYLYQGTRTVENVLNNGRFTVNVTLDPLIFTDSTLGDLEEDMFSHYRDFLHLRGADAFFTAEVVSVKKLVESELHVVKARAGDVMRAESFRMALNRGIYAVIESLIAYTRAEFSDPLVLRERIAEMNRVARKVGGPREKEAMRRIIQALES 2ptg-a2-m1-cB_2ptg-a2-m2-cB Crystal structure of Eimeria tenella enoyl reductase Q0VIP6 Q0VIP6 2.6 X-RAY DIFFRACTION 58 1.0 413949 (Eimeria tenella strain Houghton) 413949 (Eimeria tenella strain Houghton) 224 224 2ptg-a2-m1-cA_2ptg-a2-m2-cA PLPVDLRGKTAFVAGVADSNGYGWAICKLLRAAGARVLVGTWPPVYSIFKKVFDKIYPLDAVFDTPQDVPPEVSSNYAGVGGFTISEVAEAVRADVGQIDILVHSLANGPEVTKPLLQTSRKGYLAAVSSSSYSFVSLLQHFLPLMKEGGSALALSYIALESDCRTLAFEAGRARAVRVNCISAGPLKELESDDVGRAALFLLSPLARAVTGATLYVDNGLHAM PLPVDLRGKTAFVAGVADSNGYGWAICKLLRAAGARVLVGTWPPVYSIFKKVFDKIYPLDAVFDTPQDVPPEVSSNYAGVGGFTISEVAEAVRADVGQIDILVHSLANGPEVTKPLLQTSRKGYLAAVSSSSYSFVSLLQHFLPLMKEGGSALALSYIALESDCRTLAFEAGRARAVRVNCISAGPLKELESDDVGRAALFLLSPLARAVTGATLYVDNGLHAM 2ptg-a2-m2-cA_2ptg-a2-m2-cB Crystal structure of Eimeria tenella enoyl reductase Q0VIP6 Q0VIP6 2.6 X-RAY DIFFRACTION 100 1.0 413949 (Eimeria tenella strain Houghton) 413949 (Eimeria tenella strain Houghton) 224 224 2ptg-a1-m1-cA_2ptg-a1-m1-cB 2ptg-a2-m1-cA_2ptg-a2-m1-cB PLPVDLRGKTAFVAGVADSNGYGWAICKLLRAAGARVLVGTWPPVYSIFKKVFDKIYPLDAVFDTPQDVPPEVSSNYAGVGGFTISEVAEAVRADVGQIDILVHSLANGPEVTKPLLQTSRKGYLAAVSSSSYSFVSLLQHFLPLMKEGGSALALSYIALESDCRTLAFEAGRARAVRVNCISAGPLKELESDDVGRAALFLLSPLARAVTGATLYVDNGLHAM PLPVDLRGKTAFVAGVADSNGYGWAICKLLRAAGARVLVGTWPPVYSIFKKVFDKIYPLDAVFDTPQDVPPEVSSNYAGVGGFTISEVAEAVRADVGQIDILVHSLANGPEVTKPLLQTSRKGYLAAVSSSSYSFVSLLQHFLPLMKEGGSALALSYIALESDCRTLAFEAGRARAVRVNCISAGPLKELESDDVGRAALFLLSPLARAVTGATLYVDNGLHAM 2ptm-a1-m2-cA_2ptm-a1-m4-cA Structure and rearrangements in the carboxy-terminal region of SpIH channels O76977 O76977 1.93 X-RAY DIFFRACTION 59 1.0 7668 (Strongylocentrotus purpuratus) 7668 (Strongylocentrotus purpuratus) 192 192 2ptm-a1-m1-cA_2ptm-a1-m3-cA 2ptm-a1-m1-cA_2ptm-a1-m4-cA 2ptm-a1-m2-cA_2ptm-a1-m3-cA DSSSRQYREKLKQVEEYMQYRKLPSHLRNKILDYYEYRYRGKMFDERHIFREVSESIRQDVANYNCRDLVASVPFFVGADSNFVTRVVTLLEFEVFQPADYVIQEGTFGDRMFFIQQGIVDIIMSDGVIATSLSDGSYFGEICLLTRERRVASVKCETYCTLFSLSVQHFNQVLDEFPAMRKTMEEIAVRRL DSSSRQYREKLKQVEEYMQYRKLPSHLRNKILDYYEYRYRGKMFDERHIFREVSESIRQDVANYNCRDLVASVPFFVGADSNFVTRVVTLLEFEVFQPADYVIQEGTFGDRMFFIQQGIVDIIMSDGVIATSLSDGSYFGEICLLTRERRVASVKCETYCTLFSLSVQHFNQVLDEFPAMRKTMEEIAVRRL 2ptq-a1-m1-cB_2ptq-a1-m2-cB Crystal structure of Escherichia coli adenylosuccinate lyase mutant H171N with bound AMP and fumarate P0AB89 P0AB89 2 X-RAY DIFFRACTION 264 1.0 562 (Escherichia coli) 562 (Escherichia coli) 458 458 2ptq-a1-m1-cA_2ptq-a1-m2-cA 2ptr-a1-m1-cA_2ptr-a1-m2-cA 2ptr-a1-m1-cB_2ptr-a1-m2-cB 2pts-a1-m1-cA_2pts-a1-m4-cA 2pts-a1-m2-cA_2pts-a1-m3-cA 3gzh-a1-m1-cA_3gzh-a1-m3-cA 3gzh-a1-m2-cA_3gzh-a1-m4-cA 4nsl-a1-m1-cC_4nsl-a1-m1-cB 4nsl-a1-m1-cD_4nsl-a1-m1-cA MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGLKDLAVQYRDIPLLSRTNGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELKHH MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGLKDLAVQYRDIPLLSRTNGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELKHH 2ptq-a1-m2-cB_2ptq-a1-m1-cA Crystal structure of Escherichia coli adenylosuccinate lyase mutant H171N with bound AMP and fumarate P0AB89 P0AB89 2 X-RAY DIFFRACTION 118 1.0 562 (Escherichia coli) 562 (Escherichia coli) 458 459 2ptq-a1-m1-cB_2ptq-a1-m2-cA 2ptr-a1-m1-cA_2ptr-a1-m2-cB 2ptr-a1-m2-cA_2ptr-a1-m1-cB 2pts-a1-m1-cA_2pts-a1-m3-cA 2pts-a1-m2-cA_2pts-a1-m4-cA 3gzh-a1-m1-cA_3gzh-a1-m2-cA 3gzh-a1-m3-cA_3gzh-a1-m4-cA 4nsl-a1-m1-cA_4nsl-a1-m1-cC 4nsl-a1-m1-cD_4nsl-a1-m1-cB MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGLKDLAVQYRDIPLLSRTNGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELKHH MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGLKDLAVQYRDIPLLSRTNGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELKHHH 2ptr-a1-m2-cA_2ptr-a1-m2-cB Crystal structure of Escherichia coli adenylosuccinate lyase mutant H171A with bound adenylosuccinate substrate P0AB89 P0AB89 1.85 X-RAY DIFFRACTION 236 0.993 562 (Escherichia coli) 562 (Escherichia coli) 454 456 2ptq-a1-m1-cB_2ptq-a1-m1-cA 2ptq-a1-m2-cB_2ptq-a1-m2-cA 2ptr-a1-m1-cA_2ptr-a1-m1-cB 2pts-a1-m1-cA_2pts-a1-m2-cA 2pts-a1-m3-cA_2pts-a1-m4-cA 3gzh-a1-m1-cA_3gzh-a1-m4-cA 3gzh-a1-m2-cA_3gzh-a1-m3-cA 3gzh-a2-m1-cA_3gzh-a2-m4-cA 3gzh-a2-m5-cA_3gzh-a2-m6-cA 4nsl-a1-m1-cA_4nsl-a1-m1-cB 4nsl-a1-m1-cD_4nsl-a1-m1-cC MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGLKDLAVQYRDIPLLSRTAGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELKHHH MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVASFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGLKDLAVQYRDIPLLSRTAGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELKHHH 2ptz-a1-m1-cA_2ptz-a1-m2-cA Crystal Structure of the T. brucei enolase complexed with phosphonoacetohydroxamate (PAH), His156-out conformation Q38BV6 Q38BV6 1.65 X-RAY DIFFRACTION 150 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 431 431 1oep-a1-m1-cA_1oep-a1-m2-cA 2ptw-a1-m1-cA_2ptw-a1-m2-cA 2ptx-a1-m1-cA_2ptx-a1-m2-cA 2pty-a1-m1-cA_2pty-a1-m2-cA 2pu0-a1-m1-cA_2pu0-a1-m2-cA 2pu1-a1-m1-cA_2pu1-a1-m2-cA SHMTIQKVHGREVLDSRGNPTVEVEVTTEKGVFRSAVPSGASTGVYEACELRDGDKKRYVGKGCLQAVKNVNEVIGPALIGRDELKQEELDTLMLRLDGTPNKGKLGANAILGCSMAISKAAAAAKGVPLYRYLASLAGTKELRLPVPCFNVINGGKHAGNALPFQEFMIAPVKATSFSEALRMGSEVYHSLRGIIKKKYGQDAVNVGDEGGFAPPIKDINEPLPILMEAIEEAGHRGKFAICMDCAASETYDEKKQQYNLTFKSPEPTWVTAEQLRETYCKWAHDYPIVSIEDPYDQDDFAGFAGITEALKGKTQIVGDDLTVTNTERIKMAIEKKACNSLLLKINQIGTISEAIASSKLCMENGWSVMVSHRSGETEDTYIADLVVALGSGQIKTGAPCRGERTAKLNQLLRIEEELGAHAKFGFPGWS SHMTIQKVHGREVLDSRGNPTVEVEVTTEKGVFRSAVPSGASTGVYEACELRDGDKKRYVGKGCLQAVKNVNEVIGPALIGRDELKQEELDTLMLRLDGTPNKGKLGANAILGCSMAISKAAAAAKGVPLYRYLASLAGTKELRLPVPCFNVINGGKHAGNALPFQEFMIAPVKATSFSEALRMGSEVYHSLRGIIKKKYGQDAVNVGDEGGFAPPIKDINEPLPILMEAIEEAGHRGKFAICMDCAASETYDEKKQQYNLTFKSPEPTWVTAEQLRETYCKWAHDYPIVSIEDPYDQDDFAGFAGITEALKGKTQIVGDDLTVTNTERIKMAIEKKACNSLLLKINQIGTISEAIASSKLCMENGWSVMVSHRSGETEDTYIADLVVALGSGQIKTGAPCRGERTAKLNQLLRIEEELGAHAKFGFPGWS 2puj-a1-m1-cA_2puj-a1-m4-cA Crystal Structure of the S112A/H265A double mutant of a C-C hydrolase, BphD from Burkholderia xenovorans LB400, in complex with its substrate HOPDA P47229 P47229 1.57 X-RAY DIFFRACTION 20 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 283 283 2og1-a1-m1-cA_2og1-a1-m2-cA 2og1-a1-m1-cB_2og1-a1-m2-cB 2pu5-a1-m1-cA_2pu5-a1-m2-cA 2pu5-a1-m1-cB_2pu5-a1-m2-cB 2pu7-a1-m1-cA_2pu7-a1-m4-cA 2pu7-a1-m2-cA_2pu7-a1-m3-cA 2puh-a1-m1-cA_2puh-a1-m4-cA 2puh-a1-m2-cA_2puh-a1-m3-cA 2puj-a1-m2-cA_2puj-a1-m3-cA 2rht-a1-m1-cA_2rht-a1-m4-cA 2rht-a1-m2-cA_2rht-a1-m3-cA 2rhw-a1-m1-cA_2rhw-a1-m4-cA 2rhw-a1-m2-cA_2rhw-a1-m3-cA 2ri6-a1-m1-cA_2ri6-a1-m4-cA 2ri6-a1-m2-cA_2ri6-a1-m3-cA 3v1k-a1-m1-cA_3v1k-a1-m2-cA 3v1k-a1-m1-cB_3v1k-a1-m2-cB 3v1l-a1-m1-cA_3v1l-a1-m4-cA 3v1l-a1-m2-cA_3v1l-a1-m3-cA 3v1m-a1-m1-cA_3v1m-a1-m4-cA 3v1m-a1-m2-cA_3v1m-a1-m3-cA 3v1n-a1-m1-cA_3v1n-a1-m4-cA 3v1n-a1-m2-cA_3v1n-a1-m3-cA LTESSTSKFVKINEKGFSDFNIHYNEAGNGETVIMLHGGGPGAGGWSNYYRNVGPFVDAGYRVILKDSPGFNKSDAVVMDEQRGLVNARAVKGLMDALDIDRAHLVGNAMGGATALNFALEYPDRIGKLILMGPGGLGPSMFAPMPMEGIKLLFKLYAEPSYETLKQMLQVFLYDQSLITEELLQGRWEAIQRQPEHLKNFLISAQKAPLSTWDVTARLGEIKAKTFITWGRDDRFVPLDHGLKLLWNIDDARLHVFSKCGAWAQWEHADEFNRLVIDFLRHA LTESSTSKFVKINEKGFSDFNIHYNEAGNGETVIMLHGGGPGAGGWSNYYRNVGPFVDAGYRVILKDSPGFNKSDAVVMDEQRGLVNARAVKGLMDALDIDRAHLVGNAMGGATALNFALEYPDRIGKLILMGPGGLGPSMFAPMPMEGIKLLFKLYAEPSYETLKQMLQVFLYDQSLITEELLQGRWEAIQRQPEHLKNFLISAQKAPLSTWDVTARLGEIKAKTFITWGRDDRFVPLDHGLKLLWNIDDARLHVFSKCGAWAQWEHADEFNRLVIDFLRHA 2puj-a1-m3-cA_2puj-a1-m4-cA Crystal Structure of the S112A/H265A double mutant of a C-C hydrolase, BphD from Burkholderia xenovorans LB400, in complex with its substrate HOPDA P47229 P47229 1.57 X-RAY DIFFRACTION 50 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 283 283 2og1-a1-m1-cB_2og1-a1-m1-cA 2og1-a1-m2-cB_2og1-a1-m2-cA 2pu5-a1-m1-cB_2pu5-a1-m1-cA 2pu5-a1-m2-cB_2pu5-a1-m2-cA 2pu7-a1-m1-cA_2pu7-a1-m2-cA 2pu7-a1-m3-cA_2pu7-a1-m4-cA 2puh-a1-m1-cA_2puh-a1-m2-cA 2puh-a1-m3-cA_2puh-a1-m4-cA 2puj-a1-m1-cA_2puj-a1-m2-cA 2rht-a1-m1-cA_2rht-a1-m2-cA 2rht-a1-m3-cA_2rht-a1-m4-cA 2rhw-a1-m1-cA_2rhw-a1-m2-cA 2rhw-a1-m3-cA_2rhw-a1-m4-cA 2ri6-a1-m1-cA_2ri6-a1-m2-cA 2ri6-a1-m3-cA_2ri6-a1-m4-cA 3v1k-a1-m1-cB_3v1k-a1-m1-cA 3v1k-a1-m2-cB_3v1k-a1-m2-cA 3v1l-a1-m1-cA_3v1l-a1-m2-cA 3v1l-a1-m3-cA_3v1l-a1-m4-cA 3v1m-a1-m1-cA_3v1m-a1-m2-cA 3v1m-a1-m3-cA_3v1m-a1-m4-cA 3v1n-a1-m1-cA_3v1n-a1-m2-cA 3v1n-a1-m3-cA_3v1n-a1-m4-cA LTESSTSKFVKINEKGFSDFNIHYNEAGNGETVIMLHGGGPGAGGWSNYYRNVGPFVDAGYRVILKDSPGFNKSDAVVMDEQRGLVNARAVKGLMDALDIDRAHLVGNAMGGATALNFALEYPDRIGKLILMGPGGLGPSMFAPMPMEGIKLLFKLYAEPSYETLKQMLQVFLYDQSLITEELLQGRWEAIQRQPEHLKNFLISAQKAPLSTWDVTARLGEIKAKTFITWGRDDRFVPLDHGLKLLWNIDDARLHVFSKCGAWAQWEHADEFNRLVIDFLRHA LTESSTSKFVKINEKGFSDFNIHYNEAGNGETVIMLHGGGPGAGGWSNYYRNVGPFVDAGYRVILKDSPGFNKSDAVVMDEQRGLVNARAVKGLMDALDIDRAHLVGNAMGGATALNFALEYPDRIGKLILMGPGGLGPSMFAPMPMEGIKLLFKLYAEPSYETLKQMLQVFLYDQSLITEELLQGRWEAIQRQPEHLKNFLISAQKAPLSTWDVTARLGEIKAKTFITWGRDDRFVPLDHGLKLLWNIDDARLHVFSKCGAWAQWEHADEFNRLVIDFLRHA 2pul-a2-m2-cB_2pul-a2-m2-cA Structures of 5-methylthioribose kinase reveal substrate specificity and unusual mode of nucleotide binding O31663 O31663 2 X-RAY DIFFRACTION 90 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 369 381 2olc-a1-m1-cA_2olc-a1-m1-cB 2olc-a2-m1-cA_2olc-a2-m1-cB 2olc-a2-m2-cA_2olc-a2-m2-cB 2pu8-a1-m1-cB_2pu8-a1-m1-cA 2pu8-a2-m1-cB_2pu8-a2-m1-cA 2pu8-a2-m2-cB_2pu8-a2-m2-cA 2pui-a1-m1-cB_2pui-a1-m1-cA 2pui-a2-m1-cB_2pui-a2-m1-cA 2pui-a2-m2-cB_2pui-a2-m2-cA 2pul-a1-m1-cB_2pul-a1-m1-cA 2pul-a2-m1-cB_2pul-a2-m1-cA 2pun-a1-m1-cB_2pun-a1-m1-cA 2pun-a2-m1-cB_2pun-a2-m1-cA 2pun-a2-m2-cB_2pun-a2-m2-cA 2pup-a1-m1-cB_2pup-a1-m1-cA 2pup-a2-m1-cB_2pup-a2-m1-cA 2pup-a2-m2-cB_2pup-a2-m2-cA PLYETLNESSAVALAVKLGLTCQEIGDGNLNYVFHIYRALIIKQAVPPLTIDRARIESSALIRQGEHVPHLVPRVFYSDTEMAVTVMEDLSHLKIARKGLIEGENYPHLSQHIGEFLGKTLFYSSDYALEPKVKKQLVKQFTNPELCDITERLVFTDPFFDHDTNDFEEELRPFVEKLWNNDSVKIEAAKLKKSFLTSAETLIHGDLHTGSIFASEHETKVIDPEFAFYGPIGFDVGQFIANLFLNALSRDGADREPLYEHVNQVWETFEETFSEAWQKDSLDVYANIDGYLTDTLSHIFEEAIGFAGCELIRRTIGLAHVADLDTIVPFDKRIGRKRLALETGTAFIEKRSEFKTITDVIELFKLLVK KTPLYETLNESSAVALAVKLGLTLTCQEIGDGNLNYVFHIYDRALIIKQAVPYAKVESWPLTIDRARIESSALIRQGEHVPHLVPRVFYSDTEMAVTVMEDLSHLKIARKGLIEGENYPHLSQHIGEFLGKTLFYSSDYALEPKVKKQLVKQFTNPELCDITERLVFTDPFFDHDTNDFEEELRPFVEKLWNNDSVKIEAAKLKKSFLTSAETLIHGDLHTGSIFASEHETKVIDPEFAFYGPIGFDVGQFIANLFLNALSRDGADREPLYEHVNQVWETFEETFSEAWQKDSLDVYANIDGYLTDTLSHIFEEAIGFAGCELIRRTIGLAHVADLDTIVPFDKRIGRKRLALETGTAFIEKRSEFKTITDVIELFKLLVK 2puq-a1-m1-cI_2puq-a1-m1-cH Crystal structure of active site inhibited coagulation factor VIIA in complex with soluble tissue factor P08709 2.05 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 2 254 YT IVGGKVCPKGECPWQVLLLVNGAQLCGGTLINTIWVVSAAHCFDKIKNWRNLIAVLGEHDLSEHDGDEQSRRVAQVIIPSTYVPGTTNHDIALLRLHQPVVLTDHVVPLCLPERTFSERTLAFVRFSLVSGWGQLLDRGATALELMVLNVPRLMTQDCLQQSRKVGDSPNITEYMFCAGYSDGSKDSCKGDSGGPHATHYRGTWYLTGIVSWGQGCATVGHFGVYTRVSQYIEWLQKLMRSEPRPGVLLRAPFP 2pur-a1-m1-cB_2pur-a1-m2-cB Structure of dihydrodipicolinate synthase mutant Thr44Ser at 1.7 A. P0A6L2 P0A6L2 1.7 X-RAY DIFFRACTION 33 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 291 291 1dhp-a1-m1-cA_1dhp-a1-m2-cA 1dhp-a1-m1-cB_1dhp-a1-m2-cB 1s5t-a1-m1-cA_1s5t-a1-m2-cA 1s5t-a1-m1-cB_1s5t-a1-m2-cB 1s5v-a1-m1-cA_1s5v-a1-m2-cA 1s5v-a1-m1-cB_1s5v-a1-m2-cB 1s5w-a1-m1-cA_1s5w-a1-m2-cA 1s5w-a1-m1-cB_1s5w-a1-m2-cB 1yxc-a1-m1-cA_1yxc-a1-m2-cA 1yxc-a1-m1-cB_1yxc-a1-m2-cB 1yxd-a1-m1-cA_1yxd-a1-m2-cA 1yxd-a1-m1-cB_1yxd-a1-m2-cB 2a6l-a1-m1-cA_2a6l-a1-m2-cA 2a6l-a1-m1-cB_2a6l-a1-m2-cB 2a6n-a1-m1-cA_2a6n-a1-m2-cA 2a6n-a1-m1-cB_2a6n-a1-m2-cB 2pur-a1-m1-cA_2pur-a1-m2-cA 3c0j-a1-m1-cA_3c0j-a1-m2-cA 3c0j-a1-m1-cB_3c0j-a1-m2-cB 3den-a1-m1-cA_3den-a1-m2-cA 3den-a1-m1-cB_3den-a1-m2-cB 3du0-a1-m1-cA_3du0-a1-m2-cA 3du0-a1-m1-cB_3du0-a1-m2-cB 3g0s-a1-m1-cB_3g0s-a1-m2-cA 3g0s-a1-m2-cB_3g0s-a1-m1-cA 3i7q-a2-m1-cA_3i7q-a2-m2-cA 3i7q-a2-m1-cB_3i7q-a2-m2-cB 3i7r-a2-m1-cA_3i7r-a2-m2-cA 3i7r-a2-m1-cB_3i7r-a2-m2-cB 3i7s-a2-m1-cA_3i7s-a2-m2-cA 3i7s-a2-m1-cB_3i7s-a2-m2-cB 4eou-a1-m1-cA_4eou-a1-m2-cA 4eou-a1-m1-cB_4eou-a1-m2-cB 5t26-a1-m1-cA_5t26-a1-m1-cB 5t26-a1-m2-cA_5t26-a1-m2-cB 6ue0-a1-m1-cAAA_6ue0-a1-m2-cBBB 6ue0-a1-m1-cBBB_6ue0-a1-m2-cAAA 7jz7-a1-m1-cA_7jz7-a1-m2-cA 7jz7-a1-m1-cB_7jz7-a1-m2-cB 7jz8-a1-m1-cA_7jz8-a1-m2-cA 7jz8-a1-m1-cB_7jz8-a1-m2-cB 7jz9-a1-m1-cA_7jz9-a1-m2-cA 7jz9-a1-m1-cB_7jz9-a1-m2-cB 7jza-a1-m1-cA_7jza-a1-m2-cA 7jza-a1-m1-cB_7jza-a1-m2-cB 7jzb-a1-m1-cA_7jzb-a1-m2-cA 7jzb-a1-m1-cB_7jzb-a1-m2-cB 7jzc-a1-m1-cA_7jzc-a1-m2-cA 7jzc-a1-m1-cB_7jzc-a1-m2-cB 7jzd-a1-m1-cA_7jzd-a1-m2-cA 7jzd-a1-m1-cB_7jzd-a1-m2-cB 7jze-a1-m1-cA_7jze-a1-m2-cA 7jze-a1-m1-cB_7jze-a1-m2-cB 7jzf-a1-m1-cA_7jzf-a1-m2-cA 7jzf-a1-m1-cB_7jzf-a1-m2-cB 7jzg-a1-m1-cA_7jzg-a1-m2-cA 7jzg-a1-m1-cB_7jzg-a1-m2-cB MFTGSIVAIVTPMDEKGNVCRASLKKLIDYHVASGTSAIVSVGSTGESATLNHDEHADVVMMTLDLADGRIPVIAGTGANATAEAISLTQRFNDSGIVGCLTVTPYYNRPSQEGLYQHFKAIAEHTDLPQILYNVPSRTGCDLLPETVGRLAKVKNIIGIEATGNLTRVNQIKELVSDDFVLLSGDDASALDFMQLGGHGVISVTANVAARDMAQMCKLAAEGHFAEARVINQRLMPLHNKLFVEPNPIPVKWACKELGLVATDTLRLPMTPITDSGRETVRAALKHAGLL MFTGSIVAIVTPMDEKGNVCRASLKKLIDYHVASGTSAIVSVGSTGESATLNHDEHADVVMMTLDLADGRIPVIAGTGANATAEAISLTQRFNDSGIVGCLTVTPYYNRPSQEGLYQHFKAIAEHTDLPQILYNVPSRTGCDLLPETVGRLAKVKNIIGIEATGNLTRVNQIKELVSDDFVLLSGDDASALDFMQLGGHGVISVTANVAARDMAQMCKLAAEGHFAEARVINQRLMPLHNKLFVEPNPIPVKWACKELGLVATDTLRLPMTPITDSGRETVRAALKHAGLL 2pur-a1-m2-cA_2pur-a1-m2-cB Structure of dihydrodipicolinate synthase mutant Thr44Ser at 1.7 A. P0A6L2 P0A6L2 1.7 X-RAY DIFFRACTION 122 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 291 291 1dhp-a1-m1-cA_1dhp-a1-m2-cB 1dhp-a1-m1-cB_1dhp-a1-m2-cA 1dhp-a2-m1-cA_1dhp-a2-m2-cB 1s5t-a1-m1-cA_1s5t-a1-m2-cB 1s5t-a1-m1-cB_1s5t-a1-m2-cA 1s5v-a1-m1-cA_1s5v-a1-m2-cB 1s5v-a1-m1-cB_1s5v-a1-m2-cA 1s5v-a2-m1-cA_1s5v-a2-m2-cB 1s5w-a1-m1-cA_1s5w-a1-m2-cB 1s5w-a1-m1-cB_1s5w-a1-m2-cA 1yxc-a1-m1-cA_1yxc-a1-m1-cB 1yxc-a1-m2-cA_1yxc-a1-m2-cB 1yxd-a1-m1-cA_1yxd-a1-m1-cB 1yxd-a1-m2-cA_1yxd-a1-m2-cB 2a6l-a1-m1-cA_2a6l-a1-m1-cB 2a6l-a1-m2-cA_2a6l-a1-m2-cB 2a6n-a1-m1-cA_2a6n-a1-m1-cB 2a6n-a1-m2-cA_2a6n-a1-m2-cB 2ats-a1-m1-cA_2ats-a1-m1-cB 2ojp-a1-m1-cA_2ojp-a1-m1-cB 2pur-a1-m1-cA_2pur-a1-m1-cB 3c0j-a1-m1-cA_3c0j-a1-m1-cB 3c0j-a1-m2-cA_3c0j-a1-m2-cB 3c0j-a2-m1-cA_3c0j-a2-m1-cB 3den-a1-m1-cA_3den-a1-m1-cB 3den-a1-m2-cA_3den-a1-m2-cB 3du0-a1-m1-cA_3du0-a1-m1-cB 3du0-a1-m2-cA_3du0-a1-m2-cB 3g0s-a1-m1-cB_3g0s-a1-m1-cA 3g0s-a1-m2-cB_3g0s-a1-m2-cA 3i7q-a1-m1-cA_3i7q-a1-m1-cB 3i7q-a2-m1-cA_3i7q-a2-m1-cB 3i7q-a2-m2-cA_3i7q-a2-m2-cB 3i7r-a1-m1-cA_3i7r-a1-m1-cB 3i7r-a2-m1-cA_3i7r-a2-m1-cB 3i7r-a2-m2-cA_3i7r-a2-m2-cB 3i7s-a1-m1-cA_3i7s-a1-m1-cB 3i7s-a2-m1-cA_3i7s-a2-m1-cB 3i7s-a2-m2-cA_3i7s-a2-m2-cB 4eou-a1-m1-cA_4eou-a1-m1-cB 4eou-a1-m2-cA_4eou-a1-m2-cB 5t25-a1-m1-cB_5t25-a1-m1-cA 5t26-a1-m1-cA_5t26-a1-m2-cA 5t26-a1-m1-cB_5t26-a1-m2-cB 6nva-a1-m1-cA_6nva-a1-m1-cB 6nva-a2-m1-cC_6nva-a2-m1-cD 6nva-a3-m1-cF_6nva-a3-m1-cE 6nva-a4-m1-cG_6nva-a4-m1-cH 6ue0-a1-m1-cAAA_6ue0-a1-m1-cBBB 6ue0-a1-m2-cAAA_6ue0-a1-m2-cBBB 7jz7-a1-m1-cA_7jz7-a1-m1-cB 7jz7-a1-m2-cA_7jz7-a1-m2-cB 7jz8-a1-m1-cA_7jz8-a1-m1-cB 7jz8-a1-m2-cA_7jz8-a1-m2-cB 7jz9-a1-m1-cA_7jz9-a1-m1-cB 7jz9-a1-m2-cA_7jz9-a1-m2-cB 7jza-a1-m1-cA_7jza-a1-m1-cB 7jza-a1-m2-cA_7jza-a1-m2-cB 7jzb-a1-m1-cA_7jzb-a1-m1-cB 7jzb-a1-m2-cA_7jzb-a1-m2-cB 7jzc-a1-m1-cA_7jzc-a1-m1-cB 7jzc-a1-m2-cA_7jzc-a1-m2-cB 7jzd-a1-m1-cA_7jzd-a1-m1-cB 7jzd-a1-m2-cA_7jzd-a1-m2-cB 7jze-a1-m1-cA_7jze-a1-m1-cB 7jze-a1-m2-cA_7jze-a1-m2-cB 7jzf-a1-m1-cA_7jzf-a1-m1-cB 7jzf-a1-m2-cA_7jzf-a1-m2-cB 7jzg-a1-m1-cA_7jzg-a1-m1-cB 7jzg-a1-m2-cA_7jzg-a1-m2-cB MFTGSIVAIVTPMDEKGNVCRASLKKLIDYHVASGTSAIVSVGSTGESATLNHDEHADVVMMTLDLADGRIPVIAGTGANATAEAISLTQRFNDSGIVGCLTVTPYYNRPSQEGLYQHFKAIAEHTDLPQILYNVPSRTGCDLLPETVGRLAKVKNIIGIEATGNLTRVNQIKELVSDDFVLLSGDDASALDFMQLGGHGVISVTANVAARDMAQMCKLAAEGHFAEARVINQRLMPLHNKLFVEPNPIPVKWACKELGLVATDTLRLPMTPITDSGRETVRAALKHAGLL MFTGSIVAIVTPMDEKGNVCRASLKKLIDYHVASGTSAIVSVGSTGESATLNHDEHADVVMMTLDLADGRIPVIAGTGANATAEAISLTQRFNDSGIVGCLTVTPYYNRPSQEGLYQHFKAIAEHTDLPQILYNVPSRTGCDLLPETVGRLAKVKNIIGIEATGNLTRVNQIKELVSDDFVLLSGDDASALDFMQLGGHGVISVTANVAARDMAQMCKLAAEGHFAEARVINQRLMPLHNKLFVEPNPIPVKWACKELGLVATDTLRLPMTPITDSGRETVRAALKHAGLL 2puy-a1-m1-cA_2puy-a1-m1-cB Crystal Structure of the BHC80 PHD finger Q96BD5 Q96BD5 1.43 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 60 MIHEDFCSVCRKSGQLLMCDTCSRVYHLDCLDPPLKTIPKGMWICPRCQDQMLKKEEAI HMIHEDFCSVCRKSGQLLMCDTCSRVYHLDCLDPPLKTIPKGMWICPRCQDQMLKKEEAI 2puz-a1-m1-cA_2puz-a1-m1-cB Crystal structure of Imidazolonepropionase from Agrobacterium tumefaciens with bound product N-formimino-L-Glutamate Q8U8Z6 Q8U8Z6 1.83 X-RAY DIFFRACTION 114 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 404 404 2gok-a1-m1-cA_2gok-a1-m1-cB ATALWRNAQLATLNPAMDGIGAVENAVIAVRNGRIAFAGPESDLPDDLSTADETTDCGGRWITPALIDCHTHLVFGGNRAMEFEMRLNGATYEEIAKAGGGIVSSVRDTRALSDEVLVAQALPRLDTLLSEGVSTIEIKSGYGLDIETELKMLRVARRLETLRPVRIVTSYLAAHATPADYKGRNADYITDVVLPGLEKAHAEGLADAVDGFCEGIAFSVKEIDRVFAAAQQRGLPVKLHAEQLSNLGGAELAASYNALSADHLEYLDETGAKALAKAGTVAVLLPGAFYALREKQLPPVQALRDAGAEIALATDCNPGTSPLTSLLLTMNMGATLFRMTVEECLTATTRNAAKALGLLAETGTLEAGKSADFAIWDIERPAELVYRIGFNPLHARIFKGQKVS ATALWRNAQLATLNPAMDGIGAVENAVIAVRNGRIAFAGPESDLPDDLSTADETTDCGGRWITPALIDCHTHLVFGGNRAMEFEMRLNGATYEEIAKAGGGIVSSVRDTRALSDEVLVAQALPRLDTLLSEGVSTIEIKSGYGLDIETELKMLRVARRLETLRPVRIVTSYLAAHATPADYKGRNADYITDVVLPGLEKAHAEGLADAVDGFCEGIAFSVKEIDRVFAAAQQRGLPVKLHAEQLSNLGGAELAASYNALSADHLEYLDETGAKALAKAGTVAVLLPGAFYALREKQLPPVQALRDAGAEIALATDCNPGTSPLTSLLLTMNMGATLFRMTVEECLTATTRNAAKALGLLAETGTLEAGKSADFAIWDIERPAELVYRIGFNPLHARIFKGQKVS 2pv2-a2-m1-cC_2pv2-a2-m1-cD Crystallographic Structure of SurA first peptidyl-prolyl isomerase domain complexed with peptide NFTLKFWDIFRK P0ABZ6 P0ABZ6 1.3 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 103 103 2pv2-a1-m1-cA_2pv2-a1-m1-cB TELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNGADFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLR TELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNGADFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLR 2pv3-a1-m1-cA_2pv3-a1-m1-cB Crystallographic Structure of SurA fragment lacking the second peptidyl-prolyl isomerase domain complexed with peptide NFTLKFWDIFRK P0ABZ6 P0ABZ6 3.39 X-RAY DIFFRACTION 152 1.0 562 (Escherichia coli) 562 (Escherichia coli) 284 284 VDKVAAVVNNGVVLESDVDGLMQSVKLNAAQARQQLPDDATLRHQIMERLIMDQIILQMGQKMGVKISDEQLDQAIANIAKQNNMTLDQMRSRLAYDGLNYNTYRNQIRKEMIISEVRNNEVRRRITILPQEVESLAQQVGNQNDASTELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNDFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLAAQKDRAYRMLMNRKFSEEAASWMQEQRASAYVKILS VDKVAAVVNNGVVLESDVDGLMQSVKLNAAQARQQLPDDATLRHQIMERLIMDQIILQMGQKMGVKISDEQLDQAIANIAKQNNMTLDQMRSRLAYDGLNYNTYRNQIRKEMIISEVRNNEVRRRITILPQEVESLAQQVGNQNDASTELNLSHILIPLPENPTSDQVNEAESQARAIVDQARNDFGKLAIAHSADQQALNGGQMGWGRIQELPGIFAQALSTAKKGDIVGPIRSGVGFHILKVNDLAAQKDRAYRMLMNRKFSEEAASWMQEQRASAYVKILS 2pv7-a1-m1-cA_2pv7-a1-m1-cB Crystal structure of chorismate mutase / prephenate dehydrogenase (tyrA) (1574749) from Haemophilus influenzae RD at 2.00 A resolution P43902 P43902 2 X-RAY DIFFRACTION 269 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 269 273 GFKTINSDIHKIVIVGGYGKLGGLFARYLRASGYPISILDREDWAVAESILANADVVIVSVPINLTLETIERLKPYLTENLLADLTSVKREPLAKLEVHTGAVLGLHPFGADIASAKQVVVRCDGRFPERYEWLLEQIQIWGAKIYQTNATEHDHNTYIQALRHFSTFANGLHLSKQPINLANLLALSSPIYRLELAIGRLFAQDAELYADIINLAVIETLKQTYDEALTFFENNDRQGFIDAFHKVRDWFGDYSEQFLKESRQLLQQA GFKTINSDIHKIVIVGGYGKLGGLFARYLRASGYPISILDREDWAVAESILANADVVIVSVPINLTLETIERLKPYLTENLLADLTSVKREPLAKLEVHTGAVLGLHPFGADIASAKQVVVRCDGRFPERYEWLLEQIQIWGAKIYQTNATEHDHNTYIQALRHFSTFANGLHLSKQPINLANLLALSSPIYRLELAIGRLFAQDAELYADIIDKSENLAVIETLKQTYDEALTFFENNDRQGFIDAFHKVRDWFGDYSEQFLKESRQLLQQA 2pvp-a1-m1-cB_2pvp-a1-m1-cA Crystal structure of D-Alanine-D-Alanine Ligase from Helicobacter pylori Q2N4T5 Q2N4T5 2.4 X-RAY DIFFRACTION 78 0.99 102617 (Helicobacter pylori SS1) 102617 (Helicobacter pylori SS1) 315 329 HMEFCVLFGGASFEHEISIVSAIALKGVLKDRIKYFIFLDENHHFYLIEESNMHSKYFAQIKEKKLPPLILTHNGLLKNSFLGAKIIELPLVINLVHGGDGEDGKLASLLEFYRIAFIGPRIEASVLSYNKYLTKLYAKDLGIKTLDYVLLNEKNRANALDLMNFNFPFIVKPSNAGSSLGVNVVKEEKELIYALDSAFEYSKEVLIEPFIQGVKEYNLAGCKIKKDFCFSYIEEPNKQPKASLSNALEEQLKENFKKLYSDLFDGAIIRCDFFVIENEVYLNEINPIPGSLANYLFDDFKTTLENLAQSLPKTP HMEFCVLFGGASFEHEISIVSAIALKGVLKDRIKYFIFLDENHHFYLIEESNMHSKYFAQIKEKKLPPLILTHNGLLKNSFLGAKIIELPLVINLVHGGDGEDGKLASLLEFYRIAFIGPRIEASVLSYNKYLTKLYAKDLGIKTLDYVLLNEKNRANALDLMNFNFPFIVKPSNAGSSLGVNVVKEEKELIYALDSAFEYSKEVLIEPFIQGVKEYNLAGCKIKKDFCFSYIEEPNKQEFLDFKQKYLDFSRNKAPKASLSNALEEQLKENFKKLYSDLFDGAIIRCDFFVIENEVYLNEINPIPGSLANYLFDDFKTTLENLAQSLP 2pvq-a1-m1-cA_2pvq-a1-m2-cA Crystal structure of Ochrobactrum anthropi glutathione transferase Cys10Ala mutant with glutathione bound at the H-site P81065 P81065 1.803 X-RAY DIFFRACTION 92 1.0 529 (Brucella anthropi) 529 (Brucella anthropi) 201 201 2nto-a1-m1-cA_2nto-a1-m2-cA MKLYYKVGAASLAPHIILSEAGLPYELEAVDLKAKKTADGGDYFAVNPRGAVPALEVKPGTVITQNAAILQYIGDHSDVAAFKPAYGSIERARLQEALGFCSDLHAAFSGLFAPNLSEEARAGVIANINRRLGQLEAMLSDKNAYWLGDDFTQPDAYASVIIGWGVGQKLDLSAYPKALKLRERVLARPNVQKAFKEEGLN MKLYYKVGAASLAPHIILSEAGLPYELEAVDLKAKKTADGGDYFAVNPRGAVPALEVKPGTVITQNAAILQYIGDHSDVAAFKPAYGSIERARLQEALGFCSDLHAAFSGLFAPNLSEEARAGVIANINRRLGQLEAMLSDKNAYWLGDDFTQPDAYASVIIGWGVGQKLDLSAYPKALKLRERVLARPNVQKAFKEEGLN 2pvs-a3-m2-cA_2pvs-a3-m4-cA Structure of human pancreatic lipase related protein 2 mutant N336Q P54317 P54317 3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 435 435 2pvs-a3-m1-cA_2pvs-a3-m3-cA KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKNLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKNLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC 2pvs-a3-m2-cA_2pvs-a3-m4-cB Structure of human pancreatic lipase related protein 2 mutant N336Q P54317 P54317 3 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 435 445 2pvs-a3-m1-cA_2pvs-a3-m3-cB 2pvs-a3-m3-cA_2pvs-a3-m1-cB 2pvs-a3-m4-cA_2pvs-a3-m2-cB KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKNLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKKNIDGIWEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKRGINLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC 2pvs-a3-m3-cB_2pvs-a3-m4-cB Structure of human pancreatic lipase related protein 2 mutant N336Q P54317 P54317 3 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 445 445 2pvs-a3-m1-cB_2pvs-a3-m2-cB KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKKNIDGIWEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKRGINLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKKNIDGIWEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKRGINLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC 2pvs-a3-m4-cA_2pvs-a3-m4-cB Structure of human pancreatic lipase related protein 2 mutant N336Q P54317 P54317 3 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 435 445 2pvs-a3-m1-cA_2pvs-a3-m1-cB 2pvs-a3-m2-cA_2pvs-a3-m2-cB 2pvs-a3-m3-cA_2pvs-a3-m3-cB KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKNLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC KEVCYGQLGCFSDEKPWAGTLQRPVKLLPWSPEDIDTRFLLYTNENPNNFQLITGTEPDTIEASNFQLDRKTRFIIHGFLDKAEDSWPSDMCKKMFEVEKVNCICVDWRHGSRAMYTQAVQNIRVVGAETAFLIQALSTQLGYSLEDVHVIGHSLGAHTAAEAGRRLGGRVGRITGLDPAGPCFQDEPEEVRLDPSDAVFVDVIHTDSSPIVPSLGFGMSQKVGHLDFFPNGGKEMPGCKKNIDGIWEGIGGFVSCNHLRSFEYYSSSVLNPDGFLGYPCASYDEFQESKCFPCPAEGCPKMGHYADQFKGKTSAVEQTFFLNTGESGQFTSWRYKVSVTLSGKEKVNGYIRIALYGSNENSKQYEIFKGSLKPDASHTCAIDVDFNVGKIQKVKFLWNKRGINLSEPKLGASQITVQSGEDGTEYNFCSSDTVEENVLQSLYPC 2pw0-a1-m1-cB_2pw0-a1-m1-cA crystal structure of trans-aconitate bound to methylaconitate isomerase PrpF from Shewanella oneidensis Q8EJW4 Q8EJW4 1.57 X-RAY DIFFRACTION 24 0.994 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 340 385 LFPPQIKVAATYMRGGTSKGVFFRLQDLPEAAQVPGPARDALLLRVIGSPDPYAKQIDGMGGATSSTSKTVILSHSSKANHDVDYLFGQVSIDKPFVDWSGNCGNLTAAVGAFAISNGLIDAARIPRNGVCTVRIWQANIGKTIIAHVPITDGAVQETGDFELDGVTFPAAEVQIEFMNPAADCMFPTGNLVDVNATMIAGIPTIFINAEDLGYTGTELQDDINSDKIAFVAPPKSYASSSGKTVAAEDVDLLVRALKLHHAMMGTAAVAIGTAAAIPGTLVNLAAGGGEKEAVRFGHPSGTLRVGAQAVQENGEWTVIKAIMSRSARVLMEGFVRVPKP FPPQIKVAATYMRGGTSKGVFFRLQDLPEAAQVPGPARDALLLRVIGSPDPYAKQIDGMGGATSSTSKTVILSHSSKANHDVDYLFGQVSIDKPFVDWSGNCGNLTAAVGAFAISNGLIDAARIPRNGVCTVRIWQANIGKTIIAHVPITDGAVQETGDFELDGVTFPAAEVQIEFMNPAADMFPTGNLVDVLEVPGIGRFNATMINAGIPTIFINAEDLGYTGTELQDDINSDNAALAKFETIRAHGALRMGLIKHIDEAASRQHTPKIAFVAPPKSYASSSGKTVAAEDVDLLVRALSMGKLHHAMMGTAAVAIGTAAAIPGTLVNLAAGGGEKEAVRFGHPSGTLRVGAQAVQENGEWTVIKAIMSRSARVLMEGFVRVPKP 2pw6-a1-m1-cA_2pw6-a1-m2-cA Crystal structure of uncharacterized protein JW3007 from Escherichia coli K12 P24197 P24197 2.27 X-RAY DIFFRACTION 30 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 234 234 RPALFLGHGPNVLEDNLYTRSWQKLGTLPRPQAIVVVSAHWFTRGTGVTAETLYDTHYPAPGSPALAQRLVELLAPIPVTLDKEAWGFDHGSWGVLIKYPDADIPVQLSIDSSKPAAWHFEGRKLAALRDEGILVASGNVVHNLRTVKWHGDSSPYPWATSFNEYVKANLTWQGPVEQHPLVNYLDHEGGTLSNPTPEHYLPLLYVLGAWDGQEPITIPVEGIEGSLSLSVQIG RPALFLGHGPNVLEDNLYTRSWQKLGTLPRPQAIVVVSAHWFTRGTGVTAETLYDTHYPAPGSPALAQRLVELLAPIPVTLDKEAWGFDHGSWGVLIKYPDADIPVQLSIDSSKPAAWHFEGRKLAALRDEGILVASGNVVHNLRTVKWHGDSSPYPWATSFNEYVKANLTWQGPVEQHPLVNYLDHEGGTLSNPTPEHYLPLLYVLGAWDGQEPITIPVEGIEGSLSLSVQIG 2pw9-a2-m1-cC_2pw9-a2-m1-cD Crystal structure of a putative formate dehydrogenase accessory protein from Desulfotalea psychrophila Q6AMB9 Q6AMB9 2.1 X-RAY DIFFRACTION 136 1.0 177439 (Desulfotalea psychrophila LSv54) 177439 (Desulfotalea psychrophila LSv54) 221 237 2pw9-a1-m1-cB_2pw9-a1-m1-cA PLSIMQKSVVIRPGGRQEMDEHVAIETPYAIALNDRVIGSSMVLPVDLEEFGAGFLFGQGYIKKAEEIREILVCPQGRISVYAFAPLADYCLPFAEIKSFIREALHSSPLGPQTHCVHGCGLWNNGRLQVYHEDVGRHNAVDKVLGSILLGRASNNSAVYTTGRLTSDMVLKCARIGIPIIMSRTSPSSLGLALAKRSGATLVAYSRPERINVFNAPERIL PLSIMQKSVVIRPGGRQEMDEHVAIETPYAIALNDRVIGSSMVLPVDLEEFGAGFLFGQGYIKKAEEIREILVCPQGRISVYADVENEEPKIPKEMLEEFAPLADYCLPFAEIKSFIREALHSSPLGPQTHCVHGCGLWNNGRLQVYHEDVGRHNAVDKVLGSILLGRASNNSAVYTTGRLTSDMVLKCARIGIPIIMSRTSPSSLGLALAKRSGATLVAYSRPERINVFNAPERIL 2pwj-a3-m1-cD_2pwj-a3-m1-cE Structure of a mitochondrial type II peroxiredoxin from Pisum sativum Q6KBB1 Q6KBB1 2.8 X-RAY DIFFRACTION 68 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 163 163 2pwj-a1-m1-cA_2pwj-a1-m1-cC 2pwj-a2-m1-cB_2pwj-a2-m1-cF ILSAASNVSLQKARTWDEGVESKFSTTPVNDIFKDKKVVIFGLPGAYTGVCSSKHVPPYKHNIDKFKAKGVDSVICVAINDPYTVNAWAEKIQAKDAIEFYGDFDGSFHKSLELTTDLSAGLLGIRSERWSAYVVDGKVKALNVEESPSDVKVSGAETILGQI ILSAASNVSLQKARTWDEGVESKFSTTPVNDIFKDKKVVIFGLPGAYTGVCSSKHVPPYKHNIDKFKAKGVDSVICVAINDPYTVNAWAEKIQAKDAIEFYGDFDGSFHKSLELTTDLSAGLLGIRSERWSAYVVDGKVKALNVEESPSDVKVSGAETILGQI 2pwy-a1-m1-cA_2pwy-a1-m2-cA Crystal Structure of a m1A58 tRNA methyltransferase Q8GBB2 Q8GBB2 1.7 X-RAY DIFFRACTION 61 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 251 251 2pwy-a1-m1-cB_2pwy-a1-m2-cB 5c0o-a1-m1-cH_5c0o-a1-m1-cG 5c1i-a1-m1-cC_5c1i-a1-m1-cB 5c1i-a1-m1-cD_5c1i-a1-m1-cA GPLLLKDRKGRAYLVFPKEGGVFHHHKGSVPHEALLEAGPGGVVRTHLGEELSVHRPTLEEYLLHMKRSATPTYPKDASAMVTLLDLAPGMRVLEAGTGSGGLTLFLARAVGEKGLVESYEARPHHLAQAERNVRAFWQVENVRFHLGKLEEAELEEAAYDGVALDLMEPWKVLEKAALALKPDRFLVAYLPNITQVLELVRAAEAHPFRLERVLEVGWREWEVRLPVAHPRFQQVGHTAFLVALRRWKGS GPLLLKDRKGRAYLVFPKEGGVFHHHKGSVPHEALLEAGPGGVVRTHLGEELSVHRPTLEEYLLHMKRSATPTYPKDASAMVTLLDLAPGMRVLEAGTGSGGLTLFLARAVGEKGLVESYEARPHHLAQAERNVRAFWQVENVRFHLGKLEEAELEEAAYDGVALDLMEPWKVLEKAALALKPDRFLVAYLPNITQVLELVRAAEAHPFRLERVLEVGWREWEVRLPVAHPRFQQVGHTAFLVALRRWKGS 2pwy-a1-m2-cB_2pwy-a1-m2-cA Crystal Structure of a m1A58 tRNA methyltransferase Q8GBB2 Q8GBB2 1.7 X-RAY DIFFRACTION 144 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 250 251 2pwy-a1-m1-cB_2pwy-a1-m1-cA 5c0o-a1-m1-cG_5c0o-a1-m1-cE 5c1i-a1-m1-cD_5c1i-a1-m1-cB GPLLLKDRKGRAYLVFPKEGGVFHHHKGSVPHEALLEAGPGGVVRTHLGEELSVHRPTLEEYLLHMKRSATPTYPKDASAMVTLLDLAPGMRVLEAGTGSGGLTLFLARAVGEKGLVESYEARPHHLAQAERNVRAFWQVENVRFHLGKLEEAELEEAAYDGVALDLMEPWKVLEKAALALKPDRFLVAYLPNITQVLELVRAAEAHPFRLERVLEVGWREWEVRLPVAHPRFQQVGHTAFLVALRRWKG GPLLLKDRKGRAYLVFPKEGGVFHHHKGSVPHEALLEAGPGGVVRTHLGEELSVHRPTLEEYLLHMKRSATPTYPKDASAMVTLLDLAPGMRVLEAGTGSGGLTLFLARAVGEKGLVESYEARPHHLAQAERNVRAFWQVENVRFHLGKLEEAELEEAAYDGVALDLMEPWKVLEKAALALKPDRFLVAYLPNITQVLELVRAAEAHPFRLERVLEVGWREWEVRLPVAHPRFQQVGHTAFLVALRRWKGS 2px7-a1-m1-cB_2px7-a1-m1-cA Crystal structure of 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase from Thermus thermophilus HB8 Q5SLX2 Q5SLX2 2.2 X-RAY DIFFRACTION 145 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 202 203 MEVSVLIPAAGPKAFLQVGGRTLLEWTLAAFRDAAEVLVALPPGAEPPKGLGAVFLEGGATRQASVARLLEAASLPLVLVHDVARPFVSRGLVARVLEAAQRSGAAVPVLPVPDTLMAPEGEAYGRVVPREAFRLVQTPQGFFTALLREAHAYARRKGLEASDDAQLVQALGYPVALVEGEATAFKITHPQDLVLAEALARV MEVSVLIPAAGGPKAFLQVGGRTLLEWTLAAFRDAAEVLVALPPGAEPPKGLGAVFLEGGATRQASVARLLEAASLPLVLVHDVARPFVSRGLVARVLEAAQRSGAAVPVLPVPDTLMAPEGEAYGRVVPREAFRLVQTPQGFFTALLREAHAYARRKGLEASDDAQLVQALGYPVALVEGEATAFKITHPQDLVLAEALARV 2pxs-a2-m5-cB_2pxs-a2-m7-cB Crystal Structure of N66D Mutant of Green Fluorescent Protein from Zoanthus sp. at 2.2 A Resolution (Mature State) Q9U6Y5 Q9U6Y5 2.2 X-RAY DIFFRACTION 48 1.0 105402 (Zoanthus sp.) 105402 (Zoanthus sp.) 225 225 2ojk-a1-m1-cA_2ojk-a1-m4-cA 2ojk-a1-m2-cA_2ojk-a1-m3-cA 2ojk-a2-m1-cB_2ojk-a2-m5-cB 2ojk-a3-m1-cB_2ojk-a3-m5-cB 2ojk-a3-m6-cB_2ojk-a3-m7-cB 2pxs-a1-m1-cA_2pxs-a1-m4-cA 2pxs-a1-m2-cA_2pxs-a1-m3-cA 2pxs-a2-m1-cB_2pxs-a2-m6-cB 2pxw-a1-m1-cA_2pxw-a1-m4-cA 2pxw-a1-m2-cA_2pxw-a1-m3-cA 2pxw-a2-m1-cB_2pxw-a2-m6-cB 2pxw-a2-m5-cB_2pxw-a2-m7-cB SKHGLTKEMTMKYRMEGCVDGHKFVITGEGIGYPFKGKQAINLCVVEGGPLPFAEDILSAAFNRVFTEYPQDIVDYFKNSCPAGYTWDRSFLFEDGAVCICNADITVSVEENCMYHESKFYGVNFPADGPVMKKMTDNWEPSCEKIIPVPKQGILKGDVSMYLLLKDGGRLRCQFDTVYKAKSVPRKMPDWHFIQHKLTREDRSDAKNQKWHLTEHAIASGSALP SKHGLTKEMTMKYRMEGCVDGHKFVITGEGIGYPFKGKQAINLCVVEGGPLPFAEDILSAAFNRVFTEYPQDIVDYFKNSCPAGYTWDRSFLFEDGAVCICNADITVSVEENCMYHESKFYGVNFPADGPVMKKMTDNWEPSCEKIIPVPKQGILKGDVSMYLLLKDGGRLRCQFDTVYKAKSVPRKMPDWHFIQHKLTREDRSDAKNQKWHLTEHAIASGSALP 2pxs-a2-m6-cB_2pxs-a2-m7-cB Crystal Structure of N66D Mutant of Green Fluorescent Protein from Zoanthus sp. at 2.2 A Resolution (Mature State) Q9U6Y5 Q9U6Y5 2.2 X-RAY DIFFRACTION 64 1.0 105402 (Zoanthus sp.) 105402 (Zoanthus sp.) 225 225 2ojk-a1-m1-cA_2ojk-a1-m3-cA 2ojk-a1-m2-cA_2ojk-a1-m4-cA 2ojk-a2-m5-cB_2ojk-a2-m6-cB 2ojk-a3-m1-cB_2ojk-a3-m7-cB 2ojk-a3-m5-cB_2ojk-a3-m6-cB 2pxs-a1-m1-cA_2pxs-a1-m3-cA 2pxs-a1-m2-cA_2pxs-a1-m4-cA 2pxs-a2-m1-cB_2pxs-a2-m5-cB 2pxw-a1-m1-cA_2pxw-a1-m3-cA 2pxw-a1-m2-cA_2pxw-a1-m4-cA 2pxw-a2-m1-cB_2pxw-a2-m5-cB 2pxw-a2-m6-cB_2pxw-a2-m7-cB SKHGLTKEMTMKYRMEGCVDGHKFVITGEGIGYPFKGKQAINLCVVEGGPLPFAEDILSAAFNRVFTEYPQDIVDYFKNSCPAGYTWDRSFLFEDGAVCICNADITVSVEENCMYHESKFYGVNFPADGPVMKKMTDNWEPSCEKIIPVPKQGILKGDVSMYLLLKDGGRLRCQFDTVYKAKSVPRKMPDWHFIQHKLTREDRSDAKNQKWHLTEHAIASGSALP SKHGLTKEMTMKYRMEGCVDGHKFVITGEGIGYPFKGKQAINLCVVEGGPLPFAEDILSAAFNRVFTEYPQDIVDYFKNSCPAGYTWDRSFLFEDGAVCICNADITVSVEENCMYHESKFYGVNFPADGPVMKKMTDNWEPSCEKIIPVPKQGILKGDVSMYLLLKDGGRLRCQFDTVYKAKSVPRKMPDWHFIQHKLTREDRSDAKNQKWHLTEHAIASGSALP 2py6-a1-m1-cA_2py6-a1-m4-cA Crystal structure of Methyltransferase FkbM (YP_546752.1) from Methylobacillus flagellatus KT at 2.20 A resolution Q1GXX6 Q1GXX6 2.15 X-RAY DIFFRACTION 24 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 369 369 2py6-a1-m2-cA_2py6-a1-m3-cA DPLANDSFLAAADALAVDPFGIPANVREVIARRGNATRLVILGTKGFGAHLNVRHERPCEVIAAVDDFRYHSGELYYGLPIISTDRFTELATHDRDLVALNTCRYDGPKRFFDQICRTHGIPHLNFEQAVRAFGLQGNVDYRVDDWGADIVRNIPAFQTLAQRLADDYSVQTLYAVLNFHLTCEPEYYHEVERPYSTLYFRSGLLRFSDSEKVDCGASIGESLAGLIGVTKGKFERVWIEPDRINLQTLQNVLRRYTDTNFASRITVHGCGAGENTIRVPFDLIDVRPIDDIIDDAPTFIKDIEGSELSALKGARRAISEHKPKLAISAYHRSTDLLDLTNYILSIRPDYQIGLRHHTPDRWDTCLYFY DPLANDSFLAAADALAVDPFGIPANVREVIARRGNATRLVILGTKGFGAHLNVRHERPCEVIAAVDDFRYHSGELYYGLPIISTDRFTELATHDRDLVALNTCRYDGPKRFFDQICRTHGIPHLNFEQAVRAFGLQGNVDYRVDDWGADIVRNIPAFQTLAQRLADDYSVQTLYAVLNFHLTCEPEYYHEVERPYSTLYFRSGLLRFSDSEKVDCGASIGESLAGLIGVTKGKFERVWIEPDRINLQTLQNVLRRYTDTNFASRITVHGCGAGENTIRVPFDLIDVRPIDDIIDDAPTFIKDIEGSELSALKGARRAISEHKPKLAISAYHRSTDLLDLTNYILSIRPDYQIGLRHHTPDRWDTCLYFY 2py6-a1-m2-cA_2py6-a1-m4-cA Crystal structure of Methyltransferase FkbM (YP_546752.1) from Methylobacillus flagellatus KT at 2.20 A resolution Q1GXX6 Q1GXX6 2.15 X-RAY DIFFRACTION 22 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 369 369 2py6-a1-m1-cA_2py6-a1-m3-cA DPLANDSFLAAADALAVDPFGIPANVREVIARRGNATRLVILGTKGFGAHLNVRHERPCEVIAAVDDFRYHSGELYYGLPIISTDRFTELATHDRDLVALNTCRYDGPKRFFDQICRTHGIPHLNFEQAVRAFGLQGNVDYRVDDWGADIVRNIPAFQTLAQRLADDYSVQTLYAVLNFHLTCEPEYYHEVERPYSTLYFRSGLLRFSDSEKVDCGASIGESLAGLIGVTKGKFERVWIEPDRINLQTLQNVLRRYTDTNFASRITVHGCGAGENTIRVPFDLIDVRPIDDIIDDAPTFIKDIEGSELSALKGARRAISEHKPKLAISAYHRSTDLLDLTNYILSIRPDYQIGLRHHTPDRWDTCLYFY DPLANDSFLAAADALAVDPFGIPANVREVIARRGNATRLVILGTKGFGAHLNVRHERPCEVIAAVDDFRYHSGELYYGLPIISTDRFTELATHDRDLVALNTCRYDGPKRFFDQICRTHGIPHLNFEQAVRAFGLQGNVDYRVDDWGADIVRNIPAFQTLAQRLADDYSVQTLYAVLNFHLTCEPEYYHEVERPYSTLYFRSGLLRFSDSEKVDCGASIGESLAGLIGVTKGKFERVWIEPDRINLQTLQNVLRRYTDTNFASRITVHGCGAGENTIRVPFDLIDVRPIDDIIDDAPTFIKDIEGSELSALKGARRAISEHKPKLAISAYHRSTDLLDLTNYILSIRPDYQIGLRHHTPDRWDTCLYFY 2py6-a1-m3-cA_2py6-a1-m4-cA Crystal structure of Methyltransferase FkbM (YP_546752.1) from Methylobacillus flagellatus KT at 2.20 A resolution Q1GXX6 Q1GXX6 2.15 X-RAY DIFFRACTION 106 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 369 369 2py6-a1-m1-cA_2py6-a1-m2-cA DPLANDSFLAAADALAVDPFGIPANVREVIARRGNATRLVILGTKGFGAHLNVRHERPCEVIAAVDDFRYHSGELYYGLPIISTDRFTELATHDRDLVALNTCRYDGPKRFFDQICRTHGIPHLNFEQAVRAFGLQGNVDYRVDDWGADIVRNIPAFQTLAQRLADDYSVQTLYAVLNFHLTCEPEYYHEVERPYSTLYFRSGLLRFSDSEKVDCGASIGESLAGLIGVTKGKFERVWIEPDRINLQTLQNVLRRYTDTNFASRITVHGCGAGENTIRVPFDLIDVRPIDDIIDDAPTFIKDIEGSELSALKGARRAISEHKPKLAISAYHRSTDLLDLTNYILSIRPDYQIGLRHHTPDRWDTCLYFY DPLANDSFLAAADALAVDPFGIPANVREVIARRGNATRLVILGTKGFGAHLNVRHERPCEVIAAVDDFRYHSGELYYGLPIISTDRFTELATHDRDLVALNTCRYDGPKRFFDQICRTHGIPHLNFEQAVRAFGLQGNVDYRVDDWGADIVRNIPAFQTLAQRLADDYSVQTLYAVLNFHLTCEPEYYHEVERPYSTLYFRSGLLRFSDSEKVDCGASIGESLAGLIGVTKGKFERVWIEPDRINLQTLQNVLRRYTDTNFASRITVHGCGAGENTIRVPFDLIDVRPIDDIIDDAPTFIKDIEGSELSALKGARRAISEHKPKLAISAYHRSTDLLDLTNYILSIRPDYQIGLRHHTPDRWDTCLYFY 2py8-a3-m1-cD_2py8-a3-m2-cD RbcX Q55670 Q55670 2.45 X-RAY DIFFRACTION 122 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 103 103 2py8-a1-m1-cB_2py8-a1-m1-cC 2py8-a2-m1-cA_2py8-a2-m2-cA QTKHIAQATVKVLQSYLTYQAVLRIQSELGETNPPQAIWLNQYLASHSIQNGETFLTELLDENKELVLRILAVREDIAESVLDFLPGMTRNSLAESNIAHRRH QTKHIAQATVKVLQSYLTYQAVLRIQSELGETNPPQAIWLNQYLASHSIQNGETFLTELLDENKELVLRILAVREDIAESVLDFLPGMTRNSLAESNIAHRRH 2py9-a2-m1-cC_2py9-a2-m1-cD Protein-RNA Interaction involving KH1 domain from Human Poly(C)-Binding Protein-2 Q15366 Q15366 2.56 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 2axy-a1-m1-cB_2axy-a1-m1-cA 2axy-a2-m1-cD_2axy-a2-m1-cC 2pqu-a1-m1-cB_2pqu-a1-m1-cA 2pqu-a2-m1-cC_2pqu-a2-m1-cD 2py9-a1-m1-cB_2py9-a1-m1-cA TLTIRLLHGKEVGSIIGKKGESVKKREESGARINISEGNCPERIITLAGPTNAIFKAFAIIDKLEE TLTIRLLHGKEVGSIIGKKGESVKKREESGARINISEGNCPERIITLAGPTNAIFKAFAIIDKLEE 2pyb-a1-m2-cC_2pyb-a1-m3-cD Napa protein from borrelia burgdorferi O51633 O51633 2.6 X-RAY DIFFRACTION 20 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 151 151 2pyb-a1-m1-cA_2pyb-a1-m1-cC 2pyb-a1-m1-cA_2pyb-a1-m2-cD 2pyb-a1-m1-cB_2pyb-a1-m2-cB 2pyb-a1-m1-cB_2pyb-a1-m3-cB 2pyb-a1-m1-cC_2pyb-a1-m2-cD 2pyb-a1-m1-cD_2pyb-a1-m3-cA 2pyb-a1-m1-cD_2pyb-a1-m3-cC 2pyb-a1-m2-cA_2pyb-a1-m2-cC 2pyb-a1-m2-cA_2pyb-a1-m3-cD 2pyb-a1-m2-cB_2pyb-a1-m3-cB 2pyb-a1-m3-cA_2pyb-a1-m3-cC DDLDAIQLKLQELLASLHIFYSNLRGIHWNIKDTNFFVIHKKTQKLYEYIEKIIDIVAERSRMLGYDSEFRYSEFMKKSFIKELDIESTSNFLPSMESIVCSLTEILKNIFGMRKLIDTAGDYGTANIMDDIMSDLEKHLWMHKALLENCD DDLDAIQLKLQELLASLHIFYSNLRGIHWNIKDTNFFVIHKKTQKLYEYIEKIIDIVAERSRMLGYDSEFRYSEFMKKSFIKELDIESTSNFLPSMESIVCSLTEILKNIFGMRKLIDTAGDYGTANIMDDIMSDLEKHLWMHKALLENCD 2pyb-a1-m2-cD_2pyb-a1-m3-cD Napa protein from borrelia burgdorferi O51633 O51633 2.6 X-RAY DIFFRACTION 27 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 151 151 2pyb-a1-m1-cA_2pyb-a1-m2-cB 2pyb-a1-m1-cA_2pyb-a1-m2-cC 2pyb-a1-m1-cB_2pyb-a1-m1-cC 2pyb-a1-m1-cB_2pyb-a1-m3-cA 2pyb-a1-m1-cC_2pyb-a1-m3-cA 2pyb-a1-m1-cD_2pyb-a1-m2-cD 2pyb-a1-m1-cD_2pyb-a1-m3-cD 2pyb-a1-m2-cA_2pyb-a1-m3-cB 2pyb-a1-m2-cA_2pyb-a1-m3-cC 2pyb-a1-m2-cB_2pyb-a1-m2-cC 2pyb-a1-m3-cB_2pyb-a1-m3-cC DDLDAIQLKLQELLASLHIFYSNLRGIHWNIKDTNFFVIHKKTQKLYEYIEKIIDIVAERSRMLGYDSEFRYSEFMKKSFIKELDIESTSNFLPSMESIVCSLTEILKNIFGMRKLIDTAGDYGTANIMDDIMSDLEKHLWMHKALLENCD DDLDAIQLKLQELLASLHIFYSNLRGIHWNIKDTNFFVIHKKTQKLYEYIEKIIDIVAERSRMLGYDSEFRYSEFMKKSFIKELDIESTSNFLPSMESIVCSLTEILKNIFGMRKLIDTAGDYGTANIMDDIMSDLEKHLWMHKALLENCD 2pyb-a1-m3-cC_2pyb-a1-m3-cD Napa protein from borrelia burgdorferi O51633 O51633 2.6 X-RAY DIFFRACTION 66 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 151 151 2pyb-a1-m1-cA_2pyb-a1-m1-cB 2pyb-a1-m1-cC_2pyb-a1-m1-cD 2pyb-a1-m2-cA_2pyb-a1-m2-cB 2pyb-a1-m2-cC_2pyb-a1-m2-cD 2pyb-a1-m3-cA_2pyb-a1-m3-cB DDLDAIQLKLQELLASLHIFYSNLRGIHWNIKDTNFFVIHKKTQKLYEYIEKIIDIVAERSRMLGYDSEFRYSEFMKKSFIKELDIESTSNFLPSMESIVCSLTEILKNIFGMRKLIDTAGDYGTANIMDDIMSDLEKHLWMHKALLENCD DDLDAIQLKLQELLASLHIFYSNLRGIHWNIKDTNFFVIHKKTQKLYEYIEKIIDIVAERSRMLGYDSEFRYSEFMKKSFIKELDIESTSNFLPSMESIVCSLTEILKNIFGMRKLIDTAGDYGTANIMDDIMSDLEKHLWMHKALLENCD 2pyt-a1-m1-cB_2pyt-a1-m1-cA Crystal structure of a putative ethanolamine utilization protein q (eutq, stm2468) from salmonella typhimurium lt2 at 1.90 A resolution Q9ZFV5 Q9ZFV5 1.9 X-RAY DIFFRACTION 117 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 117 122 GTQPSFTSVTGKGGVKVIDGSSVKFGRFDGAEPHCVGLTDLVTEQDGSSAAGFQWDNAFFPWTLNYDEIDVLEGELHVRHEGETIAKAGDVFIPKGSSIEFGTPTSVRFLYVAWPAN LELGTQPSFTSVTGKGGVKVIDGSSVKFGRFDGAEPHCVGLTDLVTEQDGSSAAGFQWDNAFFPWTLNYDEIDVLEGELHVRHEGETIAKAGDVFIPKGSSIEFGTPTSVRFLYVAWPANWQ 2pyw-a1-m1-cB_2pyw-a1-m1-cA Structure of A. thaliana 5-methylthioribose kinase in complex with ADP and MTR Q9C6D2 Q9C6D2 1.9 X-RAY DIFFRACTION 112 0.998 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 411 417 SFEEFTPLNEKSLVDYIKSTPALSSKIGLVIKEVGDGNLNFVFIVVGSSGSLVIKQALPYIRCIGESWPMTKERAYFEATTLRKHGNLSPDHVPEVYHFDRTMALIGMRYLEPPHIILRKGLIAGIEYPFLADHMSDYMAKTLFFTSLLYHDTTEHRRAVTEFCGNVELCRLTEQVVFSDPYRVSTFNRWTSPYLDDDAKAVREDSALKLEIAELKSMFCERAQALIHGDLHTGSVMVTQDSTQVIDPEFSFYGPMGFDIGAYLGNLILAFFAQDGHATQENDRKEYKQWILRTIEQTWNLFNKRFIALWDQNKDGPGEAYLADIYNNTEVLKFVQENYMRNLLHDSLGFGAAKMIRRIVGVAHVEDFESIEEDKRRAICERSALEFAKMLLKERRKFKSIGEVVSAIQQQ FEEFTPLNEKSLVDYIKSTPALSSKIGADKSDDDLVIKEVGDGNLNFVFIVVGSSGSLVIKQALPYIRCIGESWPMTKERAYFEATTLRKHGNLSPDHVPEVYHFDRTMALIGMRYLEPPHIILRKGLIAGIEYPFLADHMSDYMAKTLFFTSLLYHDTTEHRRAVTEFCGNVELCRLTEQVVFSDPYRVSTFNRWTSPYLDDDAKAVREDSALKLEIAELKSMFCERAQALIHGDLHTGSVMVTQDSTQVIDPEFSFYGPMGFDIGAYLGNLILAFFAQDGHATQENDRKEYKQWILRTIEQTWNLFNKRFIALWDQNKDGPGEAYLADIYNNTEVLKFVQENYMRNLLHDSLGFGAAKMIRRIVGVAHVEDFESIEEDKRRAICERSALEFAKMLLKERRKFKSIGEVVSAIQQQ 2pyy-a1-m1-cA_2pyy-a1-m1-cB Crystal Structure of the GluR0 ligand-binding core from Nostoc punctiforme in complex with (L)-glutamate D0VWX9 D0VWX9 2.1 X-RAY DIFFRACTION 41 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 212 217 PLLVATRVIPPFVLSNLSGFSIDLWRSIATQIGIESKLIEYSSVPELISAIKDNKVNLGIAAISITAEREQNFDFSLPIFASGLQIMVRNGDIRSIDDLPGKVVATTAGSTAATYLREHHISVLEVPKIEEAYKALQTKKADAVVFDAPVLLFYAANEGKGKVEIVGSILREESYGIILPNNSPYRKPINQALLNLKENGTYQSLYDKWFDP PLLVATRVIPPFVLSNLSGFSIDLWRSIATQIGIESKLIEYSSVPELISAIKDNKVNLGIAAISITAEREQNFDFSLPIFASGLQIMVRNGDIRSIDDLPGKVVATTAGSTAATYLREHHISVLEVPKIEEAYKALQTKKADAVVFDAPVLLFYAANEGKGKVEIVGSILREESYGIILPNNSPYRKPINQALLNLKENGTYQSLYDKWFDPKNSLE 2pyy-a1-m1-cC_2pyy-a1-m1-cB Crystal Structure of the GluR0 ligand-binding core from Nostoc punctiforme in complex with (L)-glutamate D0VWX9 D0VWX9 2.1 X-RAY DIFFRACTION 47 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 212 217 PLLVATRVIPPFVLSNLSGFSIDLWRSIATQIGIESKLIEYSSVPELISAIKDNKVNLGIAAISITAEREQNFDFSLPIFASGLQIMVRNGDIRSIDDLPGKVVATTAGSTAATYLREHHISVLEVPKIEEAYKALQTKKADAVVFDAPVLLFYAANEGKGKVEIVGSILREESYGIILPNNSPYRKPINQALLNLKENGTYQSLYDKWFDP PLLVATRVIPPFVLSNLSGFSIDLWRSIATQIGIESKLIEYSSVPELISAIKDNKVNLGIAAISITAEREQNFDFSLPIFASGLQIMVRNGDIRSIDDLPGKVVATTAGSTAATYLREHHISVLEVPKIEEAYKALQTKKADAVVFDAPVLLFYAANEGKGKVEIVGSILREESYGIILPNNSPYRKPINQALLNLKENGTYQSLYDKWFDPKNSLE 2pz0-a1-m1-cA_2pz0-a1-m1-cB Crystal structure of Glycerophosphodiester Phosphodiesterase (GDPD) from T. tengcongensis Q8RB32 Q8RB32 1.91 X-RAY DIFFRACTION 54 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 239 243 KTLVIAHRGDSKNVPENTIAAFKRAMELGADGIELDVQLTKDGHLVVIHDETVDRTTNGEGFVKDFTLEEIKKLDAGIKFGEKFAGERIPTLYEVFELIGDKDFLVNIEIKSGIVLYPGIEEKLIKAIKEYNFEERVIISSFNHYSLRDVKKMAPHLKIGLLYQCGLVEPWHMALRMEAYSLHPFYFNIIPELVEGCKKNGVKLFPWTVDRKEDMERMIKAGVDGIITDDPETLINLVR MKTLVIAHRGDSKNVPENTIAAFKRAMELGADGIELDVQLTKDGHLVVIHDETVDRTTNGEGFVKDFTLEEIKKLDAGIKFGEKFAGERIPTLYEVFELIGDKDFLVNIEIKSGIVLYPGIEEKLIKAIKEYNFEERVIISSFNHYSLRDVKKMAPHLKIGLLYQCGLVEPWHMALRMEAYSLHPFYFNIIPELVEGCKKNGVKLFPWTVDRKEDMERMIKAGVDGIITDDPETLINLVRKGG 2pz8-a1-m1-cA_2pz8-a1-m1-cB NAD+ Synthetase from Bacillus anthracis with AMP-CPP and Mg2+ Q81RP3 Q81RP3 2 X-RAY DIFFRACTION 198 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 280 280 2pza-a1-m1-cA_2pza-a1-m1-cB MTLQEQIMKALHVQPVIDPKAEIRKRVDFLKDYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVEEIRNEGGNATFIAVRLPYKVQKDEDDAQLALQFIQADQSVAFDIASTVDAFSNQYENLLDESLTDFNKGNVKARIRMVTQYAIGGQKGLLVIGTDHAAEAVTGFFTKFGDGGADLLPLTGLTKRQGRALLQELGADERLYLKMPTADLLDEKPGQADETELGITYDQLDDYLEGKTVPADVAEKIEKRYTVSEHKRQVPASMFDDWWKLAAALEHH MTLQEQIMKALHVQPVIDPKAEIRKRVDFLKDYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVEEIRNEGGNATFIAVRLPYKVQKDEDDAQLALQFIQADQSVAFDIASTVDAFSNQYENLLDESLTDFNKGNVKARIRMVTQYAIGGQKGLLVIGTDHAAEAVTGFFTKFGDGGADLLPLTGLTKRQGRALLQELGADERLYLKMPTADLLDEKPGQADETELGITYDQLDDYLEGKTVPADVAEKIEKRYTVSEHKRQVPASMFDDWWKLAAALEHH 2pz9-a1-m1-cA_2pz9-a1-m2-cA Crystal structure of putative transcriptional regulator SCO4942 from Streptomyces coelicolor Q9EWE9 Q9EWE9 2.8 X-RAY DIFFRACTION 120 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 177 177 STRQRIVAAAKEEFARHGIAGARVDRIAKQARTSKERVYAYFRSKEALYAHVAERETTALIEATQLDPADLPGYAGILFDHFAARPDHYRLITWGRLELAPLQATIAGKLDKLRDAQRIGLLDPAWDPVDVLALINQIATWAGQPEIAAAAADQAVDPSVTARRAALVTAVEHFPRP STRQRIVAAAKEEFARHGIAGARVDRIAKQARTSKERVYAYFRSKEALYAHVAERETTALIEATQLDPADLPGYAGILFDHFAARPDHYRLITWGRLELAPLQATIAGKLDKLRDAQRIGLLDPAWDPVDVLALINQIATWAGQPEIAAAAADQAVDPSVTARRAALVTAVEHFPRP 2pzb-a2-m1-cC_2pzb-a2-m1-cD NAD+ Synthetase from Bacillus anthracis Q81RP3 Q81RP3 1.9 X-RAY DIFFRACTION 126 0.996 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 247 250 2pzb-a1-m1-cB_2pzb-a1-m1-cA TLQEQIMKALHVQPVIDPKAEIRKRVDFLKDYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVEEIRNEGGNATFIAVRLPYKDDAQLALQFIQADQSVAFDIASTVDAFSNQYENLLDESLTDFNKGNVKARIRMVTQYAIGGQKGLLVIGTDHAAEAVTGFFTKFGDGGADLLPLTGLTKRQGRALLQELGADERLYLITYDQLDDYLEGKTVPADVAEKIEKRYTVSMFDDWWKLAAALEHHHHH MTLQEQIMKALHVQPVIDPKAEIRKRVDFLKDYVKKTGAKGFVLGISGGQDSTLAGRLAQLAVEEIRNEGGNATFIAVRLPYKVDDAQLALQFIQADQSVAFDIASTVDAFSNQYENLLDESLTDFNKGNVKARIRMVTQYAIGGQKGLLVIGTDHAAEAVTGFFTKFGDGGADLLPLTGLTKRQGRALLQELGADERLYLITYDQLDDYLEGKTVPADVAEKIEKRYTVSASMFDDWWKLAAALEHHHH 2pzf-a3-m1-cB_2pzf-a3-m1-cA Minimal human CFTR first nucleotide binding domain as a head-to-tail dimer with delta F508 P13569 P13569 2 X-RAY DIFFRACTION 70 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 216 224 TTTEVVMENVTAFWEEGGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNL SLTTTEVVMENVTAFWGGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLDFSSKLMG 2pzh-a1-m1-cB_2pzh-a1-m1-cD YbgC thioesterase (Hp0496) from Helicobacter pylori P94842 P94842 1.7 X-RAY DIFFRACTION 27 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 133 133 2pzh-a1-m1-cC_2pzh-a1-m1-cA HMRCRVYYEDTDSEGVVYHANYLKYCERARSEFFFKQNVLPENEEGVFVIRSIKADFFTPASLGQVLEIRTQIKELRKVFVVLFQEIYCIQNASLEPMKPFKVFASEIKFGFVNRSTYSPIAIPKLFKELLNA HMRCRVYYEDTDSEGVVYHANYLKYCERARSEFFFKQNVLPENEEGVFVIRSIKADFFTPASLGQVLEIRTQIKELRKVFVVLFQEIYCIQNASLEPMKPFKVFASEIKFGFVNRSTYSPIAIPKLFKELLNA 2pzh-a1-m1-cC_2pzh-a1-m1-cD YbgC thioesterase (Hp0496) from Helicobacter pylori P94842 P94842 1.7 X-RAY DIFFRACTION 55 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 133 133 2pzh-a1-m1-cB_2pzh-a1-m1-cA HMRCRVYYEDTDSEGVVYHANYLKYCERARSEFFFKQNVLPENEEGVFVIRSIKADFFTPASLGQVLEIRTQIKELRKVFVVLFQEIYCIQNASLEPMKPFKVFASEIKFGFVNRSTYSPIAIPKLFKELLNA HMRCRVYYEDTDSEGVVYHANYLKYCERARSEFFFKQNVLPENEEGVFVIRSIKADFFTPASLGQVLEIRTQIKELRKVFVVLFQEIYCIQNASLEPMKPFKVFASEIKFGFVNRSTYSPIAIPKLFKELLNA 2pzh-a1-m1-cD_2pzh-a1-m1-cA YbgC thioesterase (Hp0496) from Helicobacter pylori P94842 P94842 1.7 X-RAY DIFFRACTION 47 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 133 134 2pzh-a1-m1-cB_2pzh-a1-m1-cC HMRCRVYYEDTDSEGVVYHANYLKYCERARSEFFFKQNVLPENEEGVFVIRSIKADFFTPASLGQVLEIRTQIKELRKVFVVLFQEIYCIQNASLEPMKPFKVFASEIKFGFVNRSTYSPIAIPKLFKELLNA THMRCRVYYEDTDSEGVVYHANYLKYCERARSEFFFKQNVLPENEEGVFVIRSIKADFFTPASLGQVLEIRTQIKELRKVFVVLFQEIYCIQNASLEPMKPFKVFASEIKFGFVNRSTYSPIAIPKLFKELLNA 2pzk-a1-m1-cA_2pzk-a1-m1-cB Crystal structure of the Bordetella bronchiseptica enzyme WbmG in complex with NAD O87988 O87988 2.1 X-RAY DIFFRACTION 77 0.984 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 310 310 2pzl-a1-m1-cB_2pzl-a1-m1-cA 2pzm-a1-m1-cB_2pzm-a1-m1-cA SHMRILITGGAGCLGSNLIEHWLPQGHEILVIDNFATGKREVLPPVAGLSVIEGSVTDAGLLERAFDSFKPTHVVHSAAAYKDPDDWAEDAATNVQGSINVAKAASKAGVKRLLNFQTALCYGRPATVPIPIDSPTAPFTSYGISKTAGEAFLMMSDVPVVSLRLANVTGPRLAIGPIPTFYKRLKAGQKCFCSDTVRDFLDMSDFLAIADLSLQEGRPTGVFNVSTGEGHSIKEVFDVVLDYVGATLAEPVPVVAPGADDVPSVVLDPSKTETEFGWKAKVDFKDTITGQLAWYDKYGVTDIFSHLSAP LVPRGSHMRILITGGAGCLGSNLIEHWLPQGHEILVIDNFATGKREVLPPVAGLSVIEGSVTDAGLLERAFDSFKPTHVVHSAAAYKDPDDWAEDAATNVQGSINVAKAASKAGVKRLLNFQTALCYGRPATVPIPIDSPTAPFTSYGISKTAGEAFLMMSDVPVVSLRLANVTGPRLAIGPIPTFYKRLKAGQKCFCSDTVRDFLDMSDFLAIADLSLQEGRPTGVFNVSTGEGHSIKEVFDVVLDYVGAEPVPVVAPGADDVPSVVLDPSKTETEFGWKAKVDFKDTITGQLAWYDKYGVTDIFSHLS 2pzz-a2-m1-cD_2pzz-a2-m1-cB 2.2 A resolution crystal structure of UPF0201 protein from Methanococcus jannaschii Q58959 Q58959 2.2 X-RAY DIFFRACTION 53 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 109 121 2pzz-a1-m1-cC_2pzz-a1-m1-cA LEVIIKAKVKPTEDKYKVKKAILNIFPKAKLTFIEKDNEFGEWEGKTKSVEKLKELLRSQSILDAARVLEKGTENATKFYLNKQAAYVGAVNFDGGIFVKILIIKDIAP LEVIIKAKVKPTEDKYKVKKAILNIFPKAKLTFIEKDNEFGEWEGKTKSVEKLKELLRSQSILDAARVLEKGTENATKFYLNKQAAYVGAVNFDIDTHGGIFVKILADENEDIKIIKDIAP 2q01-a1-m1-cB_2q01-a1-m1-cC Crystal structure of glucuronate isomerase from Caulobacter crescentus Q9A874 Q9A874 2.34 X-RAY DIFFRACTION 123 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 480 480 2q01-a1-m1-cA_2q01-a1-m1-cB 2q01-a1-m1-cA_2q01-a1-m1-cC RPLSFHEDRLFPSDPATRSYARGLYALVKDLPIISPHGHTDPSWFATNAPFQDATDLLLAPDHYLFRMLYSQGVSLDALKVRSKAGVPDTDPREAWRVFASHFYLFRGTPSWVWLNHVFSQVFGFTEFLEASNADDYFDRITAALATDAFRPRALFDRFNIETLATTEGPHESLQHHAAIRESGWGGHVITAYRPDAVIDFEDERSPRAFERFAETSGQDVYSWKSYLEAHRLRRQAFIDAGATSSDHGHPTAATADLSDVEAEALFNSLVKGDVTPEKAELFRAQMLTEMAKMSLDDGLVMQIHPGSHRNHNVGLLNSHGRDKGADIPMRTEYVDALKPLLTRLGNDPRLSIILFTLDETTYSRELAPLAGHYPVLKLGPSWWFHDSPEGMMRFREQVTETAGFYNTVGFNDDTRAFLSIPARHDVARRVDSAFLARMVAEHRMDLVEAEELIVDLTYNLPKKAYKLDQRPDWARPATL RPLSFHEDRLFPSDPATRSYARGLYALVKDLPIISPHGHTDPSWFATNAPFQDATDLLLAPDHYLFRMLYSQGVSLDALKVRSKAGVPDTDPREAWRVFASHFYLFRGTPSWVWLNHVFSQVFGFTEFLEASNADDYFDRITAALATDAFRPRALFDRFNIETLATTEGPHESLQHHAAIRESGWGGHVITAYRPDAVIDFEDERSPRAFERFAETSGQDVYSWKSYLEAHRLRRQAFIDAGATSSDHGHPTAATADLSDVEAEALFNSLVKGDVTPEKAELFRAQMLTEMAKMSLDDGLVMQIHPGSHRNHNVGLLNSHGRDKGADIPMRTEYVDALKPLLTRLGNDPRLSIILFTLDETTYSRELAPLAGHYPVLKLGPSWWFHDSPEGMMRFREQVTETAGFYNTVGFNDDTRAFLSIPARHDVARRVDSAFLARMVAEHRMDLVEAEELIVDLTYNLPKKAYKLDQRPDWARPATL 2q02-a6-m1-cB_2q02-a6-m3-cD Crystal structure of a xylose isomerase domain containing protein (stm4435) from salmonella typhimurium lt2 at 2.40 A resolution Q8ZK48 Q8ZK48 2.4 X-RAY DIFFRACTION 33 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 267 267 2q02-a5-m2-cC_2q02-a5-m1-cA GNIEKTRFCINRKIAPGLSIEAFFRLVKRLEFNKVELRNDPSGSVTDDLNYNQVRNLAEKYGLEIVTINAVYPFNQLTEEVVKKTEGLLRDAQGVGARALVLCPLNDGTIVPPEVTVEAIKRLSDLFARYDIQGLVEPLGFRVSSLRSAVWAQQLIREAGSPFKVLLDTFHHHLYEEAEKEFASRIDISAIGLVHLSGVEDTRPTEALADEQRILSEKDVQNYQQVQRLENGYRGIYAFEPFSSQLASWSEAEIEEQINRSVSLLLQ GNIEKTRFCINRKIAPGLSIEAFFRLVKRLEFNKVELRNDPSGSVTDDLNYNQVRNLAEKYGLEIVTINAVYPFNQLTEEVVKKTEGLLRDAQGVGARALVLCPLNDGTIVPPEVTVEAIKRLSDLFARYDIQGLVEPLGFRVSSLRSAVWAQQLIREAGSPFKVLLDTFHHHLYEEAEKEFASRIDISAIGLVHLSGVEDTRPTEALADEQRILSEKDVQNYQQVQRLENGYRGIYAFEPFSSQLASWSEAEIEEQINRSVSLLLQ 2q03-a1-m1-cB_2q03-a1-m1-cA Crystal structure of uncharacterized protein (YP_563039.1) from Shewanella denitrificans OS217 at 1.80 A resolution Q12ML0 Q12ML0 1.8 X-RAY DIFFRACTION 70 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 129 131 TKLQTIIGFQITAWDETSYFESDNGAKLTQAVITQSYQGVLQGHSEIRYLSYQDNANATFVGFEHFTGSLGDKKGSFILQHKGLFAAGVASSEFELVERSATGDFVHLVGKGHFVSTENGQANYQITLQ TKLQTIIGFQITAWDETSYFESDNGAKLTQAVITQSYQGVLQGHSEIRYLSYQDNANATFVGFEHFTGSLGDKKGSFILQHKGLFAAGVASSEFELVERSATGDFVHLVGKGHFVSTENGQANYQITLQDS 2q04-a7-m1-cD_2q04-a7-m1-cA Crystal structure of acetoin utilization protein (ZP_00540088.1) from Exiguobacterium sibiricum 255-15 at 2.33 A resolution B1YKD7 B1YKD7 2.33 X-RAY DIFFRACTION 16 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 202 203 2q04-a10-m1-cD_2q04-a10-m1-cA GFEKQFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRFY GFEKQFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRFYD 2q04-a7-m1-cF_2q04-a7-m1-cB Crystal structure of acetoin utilization protein (ZP_00540088.1) from Exiguobacterium sibiricum 255-15 at 2.33 A resolution B1YKD7 B1YKD7 2.33 X-RAY DIFFRACTION 29 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 197 200 2q04-a10-m1-cC_2q04-a10-m1-cA 2q04-a11-m1-cF_2q04-a11-m1-cB 2q04-a7-m1-cC_2q04-a7-m1-cA QFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRF FEKQFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRF 2q04-a8-m1-cF_2q04-a8-m1-cD Crystal structure of acetoin utilization protein (ZP_00540088.1) from Exiguobacterium sibiricum 255-15 at 2.33 A resolution B1YKD7 B1YKD7 2.33 X-RAY DIFFRACTION 25 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 197 202 2q04-a10-m1-cC_2q04-a10-m1-cE 2q04-a10-m1-cF_2q04-a10-m1-cD 2q04-a11-m1-cC_2q04-a11-m1-cE 2q04-a11-m1-cF_2q04-a11-m1-cD 2q04-a7-m1-cB_2q04-a7-m1-cA 2q04-a7-m1-cC_2q04-a7-m1-cE 2q04-a7-m1-cF_2q04-a7-m1-cD 2q04-a8-m1-cC_2q04-a8-m1-cE 2q04-a9-m1-cB_2q04-a9-m1-cA QFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRF GFEKQFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRFY 2q04-a8-m1-cF_2q04-a8-m1-cE Crystal structure of acetoin utilization protein (ZP_00540088.1) from Exiguobacterium sibiricum 255-15 at 2.33 A resolution B1YKD7 B1YKD7 2.33 X-RAY DIFFRACTION 35 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 197 202 2q04-a10-m1-cC_2q04-a10-m1-cD 2q04-a10-m1-cF_2q04-a10-m1-cE 2q04-a11-m1-cC_2q04-a11-m1-cD 2q04-a11-m1-cF_2q04-a11-m1-cE 2q04-a7-m1-cC_2q04-a7-m1-cD 2q04-a7-m1-cF_2q04-a7-m1-cE 2q04-a8-m1-cC_2q04-a8-m1-cD QFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRF GFEKQFNHRTLETSLGPVEIEGPVTSQILATYKLDPGLTAFRQPAEQHEALVEIAALEEGRIIIARQGNDIIGYVTFLYPDPYETWSEGNNPYILELGAIEVAARFRGQQIGKKLLEVSLDPAEHYLILTTEYYWHWDLKGSGLSVWDYRKIEKNHGGLVFFPTDDPEIASHPANCLARIGKHVAPEVVAHFDALRLRRRFY 2q05-a1-m1-cC_2q05-a1-m3-cD Crystal structure of tyr/ser protein phosphatase from Vaccinia virus WR P07239 P07239 2.57 X-RAY DIFFRACTION 32 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 163 172 2q05-a1-m2-cC_2q05-a1-m1-cD 2q05-a1-m3-cC_2q05-a1-m2-cD GHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK HHSSGREFQGHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK 2q05-a1-m3-cA_2q05-a1-m3-cD Crystal structure of tyr/ser protein phosphatase from Vaccinia virus WR P07239 P07239 2.57 X-RAY DIFFRACTION 20 0.983 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 172 172 2q05-a1-m1-cA_2q05-a1-m1-cD 2q05-a1-m2-cA_2q05-a1-m2-cD HHHHSSGYFQGHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVID HHSSGREFQGHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK 2q05-a1-m3-cC_2q05-a1-m2-cB Crystal structure of tyr/ser protein phosphatase from Vaccinia virus WR P07239 P07239 2.57 X-RAY DIFFRACTION 56 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 163 170 2q05-a1-m1-cC_2q05-a1-m3-cB 2q05-a1-m2-cC_2q05-a1-m1-cB GHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK ENLYFQGHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDKN 2q05-a1-m3-cC_2q05-a1-m3-cA Crystal structure of tyr/ser protein phosphatase from Vaccinia virus WR P07239 P07239 2.57 X-RAY DIFFRACTION 16 0.994 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 163 172 2q05-a1-m1-cC_2q05-a1-m1-cA 2q05-a1-m2-cC_2q05-a1-m2-cA GHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK HHHHSSGYFQGHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVID 2q05-a1-m3-cC_2q05-a1-m3-cD Crystal structure of tyr/ser protein phosphatase from Vaccinia virus WR P07239 P07239 2.57 X-RAY DIFFRACTION 64 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 163 172 2q05-a1-m1-cC_2q05-a1-m1-cD 2q05-a1-m2-cC_2q05-a1-m2-cD 2rf6-a1-m1-cA_2rf6-a1-m2-cA 3cm3-a1-m1-cA_3cm3-a1-m2-cA 8gz4-a1-m1-cA_8gz4-a1-m2-cA GHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK HHSSGREFQGHDKKSLYKYLLLRSTGDHRAKSPTITRVTNNVYLGNYKNADAPSSEVKFKYVLNLTDKYTLPNSNINIIHIPLVDDTTTDISKYFDDVTAFLSKCDQRNEPVLVHCAAGVNRSGAILAYLSKNKESLPLYFLYVYHSRDLRGAFVENPSFKRQIIEKYVIDK 2q09-a2-m1-cA_2q09-a2-m2-cA Crystal structure of Imidazolonepropionase from environmental sample with bound inhibitor 3-(2,5-Dioxo-imidazolidin-4-yl)-propionic acid A0KF84 A0KF84 1.97 X-RAY DIFFRACTION 112 1.0 32644 (unidentified) 32644 (unidentified) 392 392 2oof-a2-m1-cA_2oof-a2-m2-cA NCERVWLNVTPATLRSDLADYGLLEPHALGVHEGRIHALVPQDLKYPAHWQDKGKLVTPGLIDCHTHLIFAGSRAEEFELRQKGVPYAEIARKGGGIISTVRATRAASEDQLFELALPRVKSLIREGVTTVEIKSGYGLTLEDELKLRVARRLGEALPIRVKTTLLAAHAVPPEYRDDPDSWVETICQEIIPAAAEAGLADAVDVFCEHIGFSLAQTEQVYLAADQYGLAVKGHDQLSNLGGSTLAANFGALSVDHLEYLDPEGIQALAHRGVVATLLPTAFYFLKETKLPPVVALRKAGVPAVSSDINPGTAPIVSLRANACTLFGLTPVEAAGVTRHAARALGEQEQLGQLRVGLADFLVWNCGHPAELSYLIGVDQLVSRVVNGEETLH NCERVWLNVTPATLRSDLADYGLLEPHALGVHEGRIHALVPQDLKYPAHWQDKGKLVTPGLIDCHTHLIFAGSRAEEFELRQKGVPYAEIARKGGGIISTVRATRAASEDQLFELALPRVKSLIREGVTTVEIKSGYGLTLEDELKLRVARRLGEALPIRVKTTLLAAHAVPPEYRDDPDSWVETICQEIIPAAAEAGLADAVDVFCEHIGFSLAQTEQVYLAADQYGLAVKGHDQLSNLGGSTLAANFGALSVDHLEYLDPEGIQALAHRGVVATLLPTAFYFLKETKLPPVVALRKAGVPAVSSDINPGTAPIVSLRANACTLFGLTPVEAAGVTRHAARALGEQEQLGQLRVGLADFLVWNCGHPAELSYLIGVDQLVSRVVNGEETLH 2q0h-a1-m1-cA_2q0h-a1-m1-cB ABC Protein ArtP in complex with ADP/Mg2+, ATP-gamma-S hydrolyzed D0VWX4 D0VWX4 2.2 X-RAY DIFFRACTION 56 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 241 242 2olj-a1-m1-cA_2olj-a1-m1-cB 2ouk-a5-m1-cB_2ouk-a5-m1-cA 2ouk-a6-m1-cD_2ouk-a6-m1-cC 3c41-a1-m1-cJ_3c41-a1-m1-cK 3c4j-a1-m1-cA_3c4j-a1-m1-cB QMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF LQMIDVHQLKKSFGSLEVLKGINVHIREGEVVVVIGPSGSGKSTFLRCLNLLEDFDEGEIIIDGINLKAKDTNLNKVREEVGMVFQRFNLFPHMTVLNNITLAPMKVRKWPREKAEAKAMELLDKVGLKDKAHAYPDSLSGGQAQRVAIARALAMEPKIMLFDEPTSALDPEMVGEVLSVMKQLANEGMTMVVVTHEMGFAREVGDRVLFMDGGYIIEEGKPEDLFDRPQHERTKAFLSKVF 2q0k-a1-m1-cA_2q0k-a1-m1-cB Oxidized thioredoxin reductase from Helicobacter pylori in complex with NADP+ P56431 P56431 1.7 X-RAY DIFFRACTION 131 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 310 310 2q0l-a1-m1-cA_2q0l-a1-m1-cB 3ish-a1-m1-cA_3ish-a1-m1-cB 3ish-a2-m1-cC_3ish-a2-m2-cC MIDCAIIGGGPAGLSAGLYATRGGVKNAVLFEKGMPGGQITGSSEIENYPGVKEVVSGLDFMQPWQEQCFRFGLKHEMTAVQRVSKKDSHFVILAEDGKTFEAKSVIIATGGSPKRTGIKGESEYWGKGVSTCATCDGFFYKNKEVAVLGGGDTAVEEAIYLANICKKVYLIHRRDGFRCAPITLEHAKNNDKIEFLTPYVVEEIKGDASGVSSLSIKNTATNEKRELVVPGFFIFVGYDVNNAVLKQEDNSMLCKCDEYGSIVVDFSMKTNVQGLFAAGDIRIFAPKQVVCAASDGATAALSVISYLEH MIDCAIIGGGPAGLSAGLYATRGGVKNAVLFEKGMPGGQITGSSEIENYPGVKEVVSGLDFMQPWQEQCFRFGLKHEMTAVQRVSKKDSHFVILAEDGKTFEAKSVIIATGGSPKRTGIKGESEYWGKGVSTCATCDGFFYKNKEVAVLGGGDTAVEEAIYLANICKKVYLIHRRDGFRCAPITLEHAKNNDKIEFLTPYVVEEIKGDASGVSSLSIKNTATNEKRELVVPGFFIFVGYDVNNAVLKQEDNSMLCKCDEYGSIVVDFSMKTNVQGLFAAGDIRIFAPKQVVCAASDGATAALSVISYLEH 2q0o-a1-m1-cA_2q0o-a1-m1-cB Crystal structure of an anti-activation complex in bacterial quorum sensing P55407 P55407 2 X-RAY DIFFRACTION 46 1.0 394 (Sinorhizobium fredii NGR234) 394 (Sinorhizobium fredii NGR234) 235 235 SVNGNLRSLIDMLEAAQDGHMIKIALRSFAHSCGYDRFAYLQKDGTQVRTFHSYPGPWESIYLGSDYFNIDPVLAEAKRRRDVFFWTADAWPARGSSPLRRFRDEAISHGIRCGVTIPVEGSYGSAMMLTFASPERKVDISGVLDPKKAVQLLMMVHYQLKIIAAKTVLNPKQMLSPREMLCLVWASKGKTASVTANLTGINARTVQHYLDKARAKLDAESVPQLVAIAKDRGLV SVNGNLRSLIDMLEAAQDGHMIKIALRSFAHSCGYDRFAYLQKDGTQVRTFHSYPGPWESIYLGSDYFNIDPVLAEAKRRRDVFFWTADAWPARGSSPLRRFRDEAISHGIRCGVTIPVEGSYGSAMMLTFASPERKVDISGVLDPKKAVQLLMMVHYQLKIIAAKTVLNPKQMLSPREMLCLVWASKGKTASVTANLTGINARTVQHYLDKARAKLDAESVPQLVAIAKDRGLV 2q0q-a4-m1-cC_2q0q-a4-m7-cE Structure of the Native M. Smegmatis Aryl Esterase A0R5U7 A0R5U7 1.5 X-RAY DIFFRACTION 83 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 211 211 2q0q-a1-m1-cG_2q0q-a1-m1-cH 2q0q-a1-m2-cG_2q0q-a1-m2-cH 2q0q-a1-m3-cG_2q0q-a1-m3-cH 2q0q-a1-m4-cG_2q0q-a1-m4-cH 2q0q-a2-m1-cA_2q0q-a2-m1-cB 2q0q-a2-m5-cA_2q0q-a2-m5-cB 2q0q-a2-m6-cA_2q0q-a2-m6-cB 2q0q-a2-m7-cA_2q0q-a2-m7-cB 2q0q-a3-m10-cD_2q0q-a3-m9-cF 2q0q-a3-m10-cF_2q0q-a3-m8-cD 2q0q-a3-m1-cD_2q0q-a3-m8-cF 2q0q-a3-m1-cF_2q0q-a3-m9-cD 2q0q-a4-m1-cE_2q0q-a4-m7-cC 2q0q-a4-m5-cC_2q0q-a4-m6-cE 2q0q-a4-m5-cE_2q0q-a4-m6-cC 2q0s-a1-m1-cA_2q0s-a1-m1-cH 2q0s-a1-m1-cB_2q0s-a1-m1-cG 2q0s-a1-m1-cC_2q0s-a1-m1-cF 2q0s-a1-m1-cD_2q0s-a1-m1-cE AKRILCFGDSLTWGWVPVEDGAPTERFAPDVRWTGVLAQQLGADFEVIEEGLSARTTNIDDPTDPRLNGASYLPSCLATHLPLDLVIILGTNDTKAYFRRTPLDIALGSVLVTQVLTSAGGVGTTYPAPKVLVVSPPPLAPPHPWFQLIFEGGEQKTTELARVYSALASFKVPFFDAGSVISTDGVDGIHFTEANNRDLGVALAEQVRSLL AKRILCFGDSLTWGWVPVEDGAPTERFAPDVRWTGVLAQQLGADFEVIEEGLSARTTNIDDPTDPRLNGASYLPSCLATHLPLDLVIILGTNDTKAYFRRTPLDIALGSVLVTQVLTSAGGVGTTYPAPKVLVVSPPPLAPPHPWFQLIFEGGEQKTTELARVYSALASFKVPFFDAGSVISTDGVDGIHFTEANNRDLGVALAEQVRSLL 2q0q-a4-m6-cE_2q0q-a4-m7-cE Structure of the Native M. Smegmatis Aryl Esterase A0R5U7 A0R5U7 1.5 X-RAY DIFFRACTION 40 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 211 211 2q0q-a1-m1-cG_2q0q-a1-m2-cG 2q0q-a1-m1-cG_2q0q-a1-m3-cG 2q0q-a1-m1-cH_2q0q-a1-m2-cH 2q0q-a1-m1-cH_2q0q-a1-m3-cH 2q0q-a1-m2-cG_2q0q-a1-m4-cG 2q0q-a1-m2-cH_2q0q-a1-m4-cH 2q0q-a1-m3-cG_2q0q-a1-m4-cG 2q0q-a1-m3-cH_2q0q-a1-m4-cH 2q0q-a2-m1-cA_2q0q-a2-m5-cA 2q0q-a2-m1-cA_2q0q-a2-m6-cA 2q0q-a2-m1-cB_2q0q-a2-m5-cB 2q0q-a2-m1-cB_2q0q-a2-m6-cB 2q0q-a2-m5-cA_2q0q-a2-m7-cA 2q0q-a2-m5-cB_2q0q-a2-m7-cB 2q0q-a2-m6-cA_2q0q-a2-m7-cA 2q0q-a2-m6-cB_2q0q-a2-m7-cB 2q0q-a3-m10-cD_2q0q-a3-m8-cD 2q0q-a3-m10-cD_2q0q-a3-m9-cD 2q0q-a3-m10-cF_2q0q-a3-m8-cF 2q0q-a3-m10-cF_2q0q-a3-m9-cF 2q0q-a3-m1-cD_2q0q-a3-m8-cD 2q0q-a3-m1-cD_2q0q-a3-m9-cD 2q0q-a3-m1-cF_2q0q-a3-m8-cF 2q0q-a3-m1-cF_2q0q-a3-m9-cF 2q0q-a4-m1-cC_2q0q-a4-m5-cC 2q0q-a4-m1-cC_2q0q-a4-m6-cC 2q0q-a4-m1-cE_2q0q-a4-m5-cE 2q0q-a4-m1-cE_2q0q-a4-m6-cE 2q0q-a4-m5-cC_2q0q-a4-m7-cC 2q0q-a4-m5-cE_2q0q-a4-m7-cE 2q0q-a4-m6-cC_2q0q-a4-m7-cC 2q0s-a1-m1-cA_2q0s-a1-m1-cC 2q0s-a1-m1-cA_2q0s-a1-m1-cG 2q0s-a1-m1-cB_2q0s-a1-m1-cD 2q0s-a1-m1-cB_2q0s-a1-m1-cH 2q0s-a1-m1-cC_2q0s-a1-m1-cE 2q0s-a1-m1-cD_2q0s-a1-m1-cF 2q0s-a1-m1-cE_2q0s-a1-m1-cG 2q0s-a1-m1-cF_2q0s-a1-m1-cH AKRILCFGDSLTWGWVPVEDGAPTERFAPDVRWTGVLAQQLGADFEVIEEGLSARTTNIDDPTDPRLNGASYLPSCLATHLPLDLVIILGTNDTKAYFRRTPLDIALGSVLVTQVLTSAGGVGTTYPAPKVLVVSPPPLAPPHPWFQLIFEGGEQKTTELARVYSALASFKVPFFDAGSVISTDGVDGIHFTEANNRDLGVALAEQVRSLL AKRILCFGDSLTWGWVPVEDGAPTERFAPDVRWTGVLAQQLGADFEVIEEGLSARTTNIDDPTDPRLNGASYLPSCLATHLPLDLVIILGTNDTKAYFRRTPLDIALGSVLVTQVLTSAGGVGTTYPAPKVLVVSPPPLAPPHPWFQLIFEGGEQKTTELARVYSALASFKVPFFDAGSVISTDGVDGIHFTEANNRDLGVALAEQVRSLL 2q0t-a1-m1-cB_2q0t-a1-m1-cC Crystal structure of a putative gamma-carboxymuconolactone decarboxylase subunit (bxe_b0980) from burkholderia xenovorans lb400 at 1.70 A resolution Q13LR5 Q13LR5 1.7 X-RAY DIFFRACTION 157 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 247 247 2q0t-a1-m1-cB_2q0t-a1-m1-cA 2q0t-a1-m1-cC_2q0t-a1-m1-cA PQPDPSRLRDELVRLHGKASPEWDSLVRLDPRFVDAYLKFAGVPQRRNHLDDKTRAFIALAADACATQLYAPGVARHIERALSFGATREELIEVLELVSTIGIHTSNVGVPVLLEVLEEEGLRKGAPPLDERRQKLKAEFETNRGYWHPTWEGLLELDPDLFEAYVEFSSVPWRTGVLSPKIKEFYCAFDASATHLYVPGLKLHIRNALRYGATAEELELLEIVSVTGIHGAELGAPLLEAALKRSG PQPDPSRLRDELVRLHGKASPEWDSLVRLDPRFVDAYLKFAGVPQRRNHLDDKTRAFIALAADACATQLYAPGVARHIERALSFGATREELIEVLELVSTIGIHTSNVGVPVLLEVLEEEGLRKGAPPLDERRQKLKAEFETNRGYWHPTWEGLLELDPDLFEAYVEFSSVPWRTGVLSPKIKEFYCAFDASATHLYVPGLKLHIRNALRYGATAEELELLEIVSVTGIHGAELGAPLLEAALKRSG 2q0x-a1-m1-cB_2q0x-a1-m1-cA Alpha/Beta hydrolase fold protein of unknown function Q389W3 Q389W3 2.2 X-RAY DIFFRACTION 134 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 293 294 RPEPVQGHLFTYYKDPYCKIPVFMMNMDARRCVLWVGGQTESLLSFDYFTNLAEELQGDWAFVQVEVPSGKIGSGPQDHAHDAEDVDDLIGILLRDHCMNEVALFATSTGTQLVFELLENSAHKSSITRVILHGVVCDPENPLFTPEGCAARKEHVEKLMAEGRGEDSLAMLKHYDIPITPARLAGGGFPTLQEAVWNPCIRKEFDVLRRSVGVIKVPLLLMLAHNVQYKPSDEEVGTVLEGVRDHTGCNRVTVSYFNDTCDELRRVLKAAESEHVAAILQFLADEDEFRTET SRPEPVQGHLFTYYKDPYCKIPVFMMNMDARRCVLWVGGQTESLLSFDYFTNLAEELQGDWAFVQVEVPSGKIGSGPQDHAHDAEDVDDLIGILLRDHCMNEVALFATSTGTQLVFELLENSAHKSSITRVILHGVVCDPENPLFTPEGCAARKEHVEKLMAEGRGEDSLAMLKHYDIPITPARLAGGGFPTLQEAVWNPCIRKEFDVLRRSVGVIKVPLLLMLAHNVQYKPSDEEVGTVLEGVRDHTGCNRVTVSYFNDTCDELRRVLKAAESEHVAAILQFLADEDEFRTET 2q0y-a1-m1-cA_2q0y-a1-m2-cA Crystal structure of GCN5-related N-acetyltransferase (YP_295895.1) from Ralstonia eutropha JMP134 at 1.80 A resolution Q470Y2 Q470Y2 1.8 X-RAY DIFFRACTION 145 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 144 144 GECRPLCIDDLELVCRHREAFREAGRDALTLAAQDPFRDWLLPRLADGSYFGWVEEGGAPLAGIGLVIEWPPHPSHPLQDKRGYILNLYVDPSHRERGIGQALNRAEAEFAERGIAFAVLHATEGQPLYARGWSPTTESKPIAG GECRPLCIDDLELVCRHREAFREAGRDALTLAAQDPFRDWLLPRLADGSYFGWVEEGGAPLAGIGLVIEWPPHPSHPLQDKRGYILNLYVDPSHRERGIGQALNRAEAEFAERGIAFAVLHATEGQPLYARGWSPTTESKPIAG 2q14-a2-m1-cE_2q14-a2-m1-cG Crystal structure of Phosphohydrolase (BT4208) from Bacteroides thetaiotaomicron VPI-5482 at 2.20 A resolution Q8A013 Q8A013 2.2 X-RAY DIFFRACTION 11 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 391 391 2q14-a1-m1-cA_2q14-a1-m1-cC 2q14-a1-m1-cB_2q14-a1-m1-cD 2q14-a2-m1-cH_2q14-a2-m1-cF ERKIINDPVFGFINIPKGLLYDIVRHPLLQRLTRIKQVGLSSVVYPGAQHTRFQHSLGAFYLSEAITQLTSKGNFIFDSEAEAVQAAILLHDIGHGPFSHVLEDTIVQGVSHEEISLLERNKENGQLSLAIQIFKDEYPKRFLHQLVSGQLDDRLDYLRRDSFYTGVTEGNIGSARIIKLDVADDRLVIESKGIYSIENFLTARRLYWQVYLHKTSVAYERLISTLLRAKELASQGVELFASPALHFFLYNDINHTEFHNNPDCLENFIQLDDNDIWTALKVWSNHPDKVLSTLSLGINRNIFKVENSAEPIGEDRIKELTLQISQQLGITLSEANYFVSTPSIEKNYDPADDSIDIIYKDGTIKNIAEASDLNISLLSKKVKKYYLCYQR ERKIINDPVFGFINIPKGLLYDIVRHPLLQRLTRIKQVGLSSVVYPGAQHTRFQHSLGAFYLSEAITQLTSKGNFIFDSEAEAVQAAILLHDIGHGPFSHVLEDTIVQGVSHEEISLLERNKENGQLSLAIQIFKDEYPKRFLHQLVSGQLDDRLDYLRRDSFYTGVTEGNIGSARIIKLDVADDRLVIESKGIYSIENFLTARRLYWQVYLHKTSVAYERLISTLLRAKELASQGVELFASPALHFFLYNDINHTEFHNNPDCLENFIQLDDNDIWTALKVWSNHPDKVLSTLSLGINRNIFKVENSAEPIGEDRIKELTLQISQQLGITLSEANYFVSTPSIEKNYDPADDSIDIIYKDGTIKNIAEASDLNISLLSKKVKKYYLCYQR 2q14-a2-m1-cH_2q14-a2-m1-cE Crystal structure of Phosphohydrolase (BT4208) from Bacteroides thetaiotaomicron VPI-5482 at 2.20 A resolution Q8A013 Q8A013 2.2 X-RAY DIFFRACTION 55 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 386 391 2q14-a1-m1-cB_2q14-a1-m1-cC 2q14-a1-m1-cD_2q14-a1-m1-cA 2q14-a2-m1-cF_2q14-a2-m1-cG RKIINDPVFGFINIPKGLLYDIVRHPLLQRLTRIKQVGLSSVVYPGAQHTRFQHSLGAFYLSEAITQLTSKGNFIFDSEAEAVQAAILLHDIGHGPFSHVLEDTIVQGVSHEEISLLERNKENGQLSLAIQIFKDEYPKRFLHQLVSGQLDDRLDYLRRDSFYTGVTEGNIGSARIIKLDVADDRLVIESKGIYSIENFLTARRLYWQVYLHKTSVAYERLISTLLRAKELASQGVELFASPALHFFLYNDINHTEFHNNPDCLENFIQLDDNDIWTALKVWSNHPDKVLSTLSLGINRNIFKVENSAEPIGEDRIKELTLQISQQLGITLSEANYFVSTPSYDPADDSIDIIYKDGTIKNIAEASDLNISLLSKKVKKYYLCYQR ERKIINDPVFGFINIPKGLLYDIVRHPLLQRLTRIKQVGLSSVVYPGAQHTRFQHSLGAFYLSEAITQLTSKGNFIFDSEAEAVQAAILLHDIGHGPFSHVLEDTIVQGVSHEEISLLERNKENGQLSLAIQIFKDEYPKRFLHQLVSGQLDDRLDYLRRDSFYTGVTEGNIGSARIIKLDVADDRLVIESKGIYSIENFLTARRLYWQVYLHKTSVAYERLISTLLRAKELASQGVELFASPALHFFLYNDINHTEFHNNPDCLENFIQLDDNDIWTALKVWSNHPDKVLSTLSLGINRNIFKVENSAEPIGEDRIKELTLQISQQLGITLSEANYFVSTPSIEKNYDPADDSIDIIYKDGTIKNIAEASDLNISLLSKKVKKYYLCYQR 2q14-a2-m1-cH_2q14-a2-m1-cG Crystal structure of Phosphohydrolase (BT4208) from Bacteroides thetaiotaomicron VPI-5482 at 2.20 A resolution Q8A013 Q8A013 2.2 X-RAY DIFFRACTION 113 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 386 391 2q14-a1-m1-cB_2q14-a1-m1-cA 2q14-a1-m1-cD_2q14-a1-m1-cC 2q14-a2-m1-cF_2q14-a2-m1-cE RKIINDPVFGFINIPKGLLYDIVRHPLLQRLTRIKQVGLSSVVYPGAQHTRFQHSLGAFYLSEAITQLTSKGNFIFDSEAEAVQAAILLHDIGHGPFSHVLEDTIVQGVSHEEISLLERNKENGQLSLAIQIFKDEYPKRFLHQLVSGQLDDRLDYLRRDSFYTGVTEGNIGSARIIKLDVADDRLVIESKGIYSIENFLTARRLYWQVYLHKTSVAYERLISTLLRAKELASQGVELFASPALHFFLYNDINHTEFHNNPDCLENFIQLDDNDIWTALKVWSNHPDKVLSTLSLGINRNIFKVENSAEPIGEDRIKELTLQISQQLGITLSEANYFVSTPSYDPADDSIDIIYKDGTIKNIAEASDLNISLLSKKVKKYYLCYQR ERKIINDPVFGFINIPKGLLYDIVRHPLLQRLTRIKQVGLSSVVYPGAQHTRFQHSLGAFYLSEAITQLTSKGNFIFDSEAEAVQAAILLHDIGHGPFSHVLEDTIVQGVSHEEISLLERNKENGQLSLAIQIFKDEYPKRFLHQLVSGQLDDRLDYLRRDSFYTGVTEGNIGSARIIKLDVADDRLVIESKGIYSIENFLTARRLYWQVYLHKTSVAYERLISTLLRAKELASQGVELFASPALHFFLYNDINHTEFHNNPDCLENFIQLDDNDIWTALKVWSNHPDKVLSTLSLGINRNIFKVENSAEPIGEDRIKELTLQISQQLGITLSEANYFVSTPSIEKNYDPADDSIDIIYKDGTIKNIAEASDLNISLLSKKVKKYYLCYQR 2q16-a1-m1-cB_2q16-a1-m1-cA Structure of the E. coli inosine triphosphate pyrophosphatase RgdB in complex with ITP P52061 P52061 1.95 X-RAY DIFFRACTION 47 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 192 195 2pyu-a1-m1-cA_2pyu-a1-m2-cA KVVLATGNVGKVRELASLLSDFGLDIVAQTDLGVDSAEETGLTFIENAILKARHAAKVTALPAIADASGLAVDVLGGAPGIYSARYSGEDATDQKNLQKLLETKDVPDDQRQARFHCVLVYLRHAEDPTPLVCHGSWPGVITREPAGTGGFGYDPIFFVPSEGKTAAELTREEKSAISHRGQALKLLLDALR QKVVLATGNVGKVRELASLLSDFGLDIVAQTDLGVDSAEETGLTFIENAILKARHAAKVTALPAIADASGLAVDVLGGAPGIYSARYSGEDATDQKNLQKLLETKDVPDDQRQARFHCVLVYLRHAEDPTPLVCHGSWPGVITREPAGTGGFGYDPIFFVPSEGKTAAELTREEKSAISHRGQALKLLLDALRNG 2q18-a2-m1-cX_2q18-a2-m3-cX 2-keto-3-deoxy-D-arabinonate dehydratase Q97UA0 Q97UA0 2.1 X-RAY DIFFRACTION 118 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 282 282 2q18-a1-m1-cX_2q18-a1-m3-cX 2q18-a1-m2-cX_2q18-a1-m4-cX 2q19-a1-m1-cX_2q19-a1-m3-cX 2q19-a1-m2-cX_2q19-a1-m4-cX 2q19-a2-m1-cX_2q19-a2-m3-cX 2q1a-a1-m1-cX_2q1a-a1-m3-cX 2q1a-a1-m2-cX_2q1a-a1-m4-cX 2q1a-a2-m1-cX_2q1a-a2-m3-cX 2q1c-a1-m1-cX_2q1c-a1-m3-cX 2q1c-a1-m2-cX_2q1c-a1-m4-cX 2q1c-a2-m1-cX_2q1c-a2-m3-cX 2q1d-a1-m1-cX_2q1d-a1-m3-cX 2q1d-a1-m2-cX_2q1d-a1-m4-cX 2q1d-a2-m1-cX_2q1d-a2-m3-cX 3bqb-a1-m1-cA_3bqb-a1-m1-cX 3bqb-a1-m1-cY_3bqb-a1-m1-cZ 3bqb-a2-m1-cA_3bqb-a2-m1-cX 3bqb-a3-m1-cY_3bqb-a3-m1-cZ MKLFRVVKRGYYISYAILDNSTIIRLDEDPIKALMRYSENKEVLGDRVTGIDYQSLLKSFQINDIRITKPIDPPEVWGSGISYENVAKILGKTIYEKVYDAVRPEIFFKATPNRCVGHGEAIAVRSDSEWTLPEPELAVVLDSNGKILGYTIMDDVSARDLEAENPLYLPQSKIYAGCCAFGPVIVTSDEIKNPYSLDITLKIVREGRVFFEGSVNTNKMRRKIEEQIQYLIRDNPIPDGTILTTGTAIVPGRDKGLKDEDIVEITISNIGTLITPVKKRRK MKLFRVVKRGYYISYAILDNSTIIRLDEDPIKALMRYSENKEVLGDRVTGIDYQSLLKSFQINDIRITKPIDPPEVWGSGISYENVAKILGKTIYEKVYDAVRPEIFFKATPNRCVGHGEAIAVRSDSEWTLPEPELAVVLDSNGKILGYTIMDDVSARDLEAENPLYLPQSKIYAGCCAFGPVIVTSDEIKNPYSLDITLKIVREGRVFFEGSVNTNKMRRKIEEQIQYLIRDNPIPDGTILTTGTAIVPGRDKGLKDEDIVEITISNIGTLITPVKKRRK 2q1d-a1-m1-cX_2q1d-a1-m4-cX 2-keto-3-deoxy-D-arabinonate dehydratase complexed with magnesium and 2,5-dioxopentanoate Q97UA0 Q97UA0 2.7 X-RAY DIFFRACTION 34 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 281 281 2q18-a1-m1-cX_2q18-a1-m4-cX 2q18-a1-m2-cX_2q18-a1-m3-cX 2q19-a1-m1-cX_2q19-a1-m4-cX 2q19-a1-m2-cX_2q19-a1-m3-cX 2q1a-a1-m1-cX_2q1a-a1-m4-cX 2q1a-a1-m2-cX_2q1a-a1-m3-cX 2q1c-a1-m1-cX_2q1c-a1-m4-cX 2q1c-a1-m2-cX_2q1c-a1-m3-cX 2q1d-a1-m2-cX_2q1d-a1-m3-cX 3bqb-a1-m1-cA_3bqb-a1-m1-cZ 3bqb-a1-m1-cY_3bqb-a1-m1-cX MKLFRVVKRGYYISYAILDNSTIIRLDEDPIKALMRYSENKEVLGDRVTGIDYQSLLKSFQINDIRITKPIDPPEVWGSGISYNVAKILGKTIYEKVYDAVRPEIFFKATPNRCVGHGEAIAVRSDSEWTLPEPELAVVLDSNGKILGYTIMDDVSARDLEAENPLYLPQSKIYAGCCAFGPVIVTSDEIKNPYSLDITLKIVREGRVFFEGSVNTNKMRRKIEEQIQYLIRDNPIPDGTILTTGTAIVPGRDKGLKDEDIVEITISNIGTLITPVKKRRK MKLFRVVKRGYYISYAILDNSTIIRLDEDPIKALMRYSENKEVLGDRVTGIDYQSLLKSFQINDIRITKPIDPPEVWGSGISYNVAKILGKTIYEKVYDAVRPEIFFKATPNRCVGHGEAIAVRSDSEWTLPEPELAVVLDSNGKILGYTIMDDVSARDLEAENPLYLPQSKIYAGCCAFGPVIVTSDEIKNPYSLDITLKIVREGRVFFEGSVNTNKMRRKIEEQIQYLIRDNPIPDGTILTTGTAIVPGRDKGLKDEDIVEITISNIGTLITPVKKRRK 2q1e-a2-m1-cC_2q1e-a2-m1-cD Altered dimer interface decreases stability in an amyloidogenic kappa1 Bence Jones protein. A2NI60 A2NI60 2.55 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 2q1e-a1-m1-cA_2q1e-a1-m1-cB ATDIQMTQSPSSLSASVGDRVTITCQASQDINNYLIWYQQKPGQAPKLLIYDASTLETGVPSRFSGSGSGTEFTFTISSLQPEDLATYHCQQYDNLPYTFGQGTKLEIK ATDIQMTQSPSSLSASVGDRVTITCQASQDINNYLIWYQQKPGQAPKLLIYDASTLETGVPSRFSGSGSGTEFTFTISSLQPEDLATYHCQQYDNLPYTFGQGTKLEIK 2q1k-a2-m1-cC_2q1k-a2-m1-cD Cyrstal Structure of AscE from Aeromonas hydrophilla Q1EHA4 Q1EHA4 2.7 X-RAY DIFFRACTION 64 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 51 51 2q1k-a1-m1-cA_2q1k-a1-m1-cB PVFARELHAQLVQALGDVKRRLLRGGTQQQYQQWQQEADAIEAGNIIEKIK PVFARELHAQLVQALGDVKRRLLRGGTQQQYQQWQQEADAIEAGNIIEKIK 2q1s-a1-m1-cA_2q1s-a1-m2-cA Crystal structure of the Bordetella bronchiseptica enzyme WbmF in complex with NADH O87989 O87989 1.5 X-RAY DIFFRACTION 67 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 336 336 2pzj-a1-m1-cA_2pzj-a1-m2-cA 2q1t-a1-m1-cA_2q1t-a1-m2-cA 2q1u-a1-m1-cB_2q1u-a1-m1-cA NASKLANTNVMVVGGAGFVGSNLVKRLLELGVNQVHVVDNLLSAEKINVPDHPAVRFSETSITDDALLASLQDEYDYVFHLATYHGNQSSIHDPLADHENNTLTTLKLYERLKHFKRLKKVVYSAAGEETDIVSLHNNDSPYSMSKIFGEFYSVYYHKQHQLPTVRARFQNVYGPGEILGAGRWRGTPATVWRNVTPTFIYKALKGMPLPLENGGVATRDFIFVEDVANGLIACAADGTPGGVYNIASGKETSIADLATKINEITGNNTELDRLPKRPWDNSKRFGSPEKARRELGFSADVSIDDGLRKTIEWTKANLAVIEQIMRKHDSALATYG NASKLANTNVMVVGGAGFVGSNLVKRLLELGVNQVHVVDNLLSAEKINVPDHPAVRFSETSITDDALLASLQDEYDYVFHLATYHGNQSSIHDPLADHENNTLTTLKLYERLKHFKRLKKVVYSAAGEETDIVSLHNNDSPYSMSKIFGEFYSVYYHKQHQLPTVRARFQNVYGPGEILGAGRWRGTPATVWRNVTPTFIYKALKGMPLPLENGGVATRDFIFVEDVANGLIACAADGTPGGVYNIASGKETSIADLATKINEITGNNTELDRLPKRPWDNSKRFGSPEKARRELGFSADVSIDDGLRKTIEWTKANLAVIEQIMRKHDSALATYG 2q1w-a2-m1-cA_2q1w-a2-m2-cA Crystal structure of the Bordetella bronchiseptica enzyme WbmH in complex with NAD+ O87987 O87987 2.19 X-RAY DIFFRACTION 87 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 300 300 2q1w-a1-m1-cC_2q1w-a1-m1-cB MKKVFITGICGQIGSHIAELLLERGDKVVGIDNFATGRREHLKDHPNLTFVEGSIADHALVNQLIGDLQPDAVVHTAASYKDPDDWYNDTLTNCVGGSNVVQAAKKNNVGRFVYFQTALCYGVKPIQQPVRLDHPRNPANSSYAISKSANEDYLEYSGLDFVTFRLANVVGPRNVSGPLPIFFQRLSEGKKCFVTKARRDFVFVKDLARATVRAVDGVGHGAYHFSSGTDVAIKELYDAVVEAMALPSYPEPEIRELGPDDAPSILLDPSRTIQDFGKIEFTPLKETVAAAVAYFREYGV MKKVFITGICGQIGSHIAELLLERGDKVVGIDNFATGRREHLKDHPNLTFVEGSIADHALVNQLIGDLQPDAVVHTAASYKDPDDWYNDTLTNCVGGSNVVQAAKKNNVGRFVYFQTALCYGVKPIQQPVRLDHPRNPANSSYAISKSANEDYLEYSGLDFVTFRLANVVGPRNVSGPLPIFFQRLSEGKKCFVTKARRDFVFVKDLARATVRAVDGVGHGAYHFSSGTDVAIKELYDAVVEAMALPSYPEPEIRELGPDDAPSILLDPSRTIQDFGKIEFTPLKETVAAAVAYFREYGV 2q24-a1-m1-cA_2q24-a1-m1-cB Crystal structure of TetR transcriptional regulator SCO0520 from Streptomyces coelicolor Q9RJL5 Q9RJL5 1.8 X-RAY DIFFRACTION 73 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 170 172 NRDKILAAAVRVFSEEGLDAHLERIAREAGVGSGTLYRNFPTREALIEAAYRNEVARLCDSVPGLLAELPPAEALRAWTRRFIDYATAKLGADALRAVVASGGDPYGDSRQLIQSALTALDAAAAAGEIRSDIRSTDFAALAGIALTSSRPDQRAQAERLLDLVLDGLRP NRDKILAAAVRVFSEEGLDAHLERIAREAGVGSGTLYRNFPTREALIEAAYRNEVARLCDSVPGLLAELPPAEALRAWTRRFIDYATAKLGADALRAVVASGGDPYGDSRQLIQSALTALDAAAAAGEIRSDIRSTDFAALAGIALTSSRPDQRAQAERLLDLVLDGLRPTA 2q24-a2-m1-cA_2q24-a2-m2-cB Crystal structure of TetR transcriptional regulator SCO0520 from Streptomyces coelicolor Q9RJL5 Q9RJL5 1.8 X-RAY DIFFRACTION 62 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 170 172 NRDKILAAAVRVFSEEGLDAHLERIAREAGVGSGTLYRNFPTREALIEAAYRNEVARLCDSVPGLLAELPPAEALRAWTRRFIDYATAKLGADALRAVVASGGDPYGDSRQLIQSALTALDAAAAAGEIRSDIRSTDFAALAGIALTSSRPDQRAQAERLLDLVLDGLRP NRDKILAAAVRVFSEEGLDAHLERIAREAGVGSGTLYRNFPTREALIEAAYRNEVARLCDSVPGLLAELPPAEALRAWTRRFIDYATAKLGADALRAVVASGGDPYGDSRQLIQSALTALDAAAAAGEIRSDIRSTDFAALAGIALTSSRPDQRAQAERLLDLVLDGLRPTA 2q28-a1-m1-cA_2q28-a1-m2-cB Crystal structure of oxalyl-coA decarboxylase from Escherichia coli in complex with adenosine-5`-diphosphate P0AFI0 P0AFI0 1.74 X-RAY DIFFRACTION 42 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 550 550 2q27-a1-m1-cB_2q27-a1-m2-cA 2q27-a1-m2-cB_2q27-a1-m1-cA 2q28-a1-m1-cB_2q28-a1-m2-cA 2q29-a1-m1-cA_2q29-a1-m2-cB 2q29-a1-m1-cB_2q29-a1-m2-cA LQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHIT LQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHIT 2q28-a1-m1-cB_2q28-a1-m2-cB Crystal structure of oxalyl-coA decarboxylase from Escherichia coli in complex with adenosine-5`-diphosphate P0AFI0 P0AFI0 1.74 X-RAY DIFFRACTION 209 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 550 550 2q27-a1-m1-cA_2q27-a1-m2-cA 2q27-a1-m1-cB_2q27-a1-m2-cB 2q28-a1-m1-cA_2q28-a1-m2-cA 2q29-a1-m1-cA_2q29-a1-m2-cA 2q29-a1-m1-cB_2q29-a1-m2-cB LQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHIT LQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHIT 2q28-a1-m2-cA_2q28-a1-m2-cB Crystal structure of oxalyl-coA decarboxylase from Escherichia coli in complex with adenosine-5`-diphosphate P0AFI0 P0AFI0 1.74 X-RAY DIFFRACTION 92 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 550 550 2q27-a1-m1-cB_2q27-a1-m1-cA 2q27-a1-m2-cB_2q27-a1-m2-cA 2q28-a1-m1-cA_2q28-a1-m1-cB 2q29-a1-m1-cA_2q29-a1-m1-cB 2q29-a1-m2-cA_2q29-a1-m2-cB LQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHIT LQMTDGMHIIVEALKQNNIDTIYGVVGIPVTDMARHAQAEGIRYIGFRHEQSAGYAAAASGFLTQKPGICLTVSAPGFLNGLTALANATVNGFPMIMISGSSDRAIVDLQQGDYEELDQMNAAKPYAKAAFRVNQPQDLGIALARAIRVSVSGRPGGVYLDLPANVLAATMEKDEALTTIVKVENPSPALLPCPKSVTSAISLLAKAERPLIILGKGAAYSQADEQLREFIESAQIPFLPMSMAKGILEDTHPLSAAAARSFALANADVVMLVGARLNWLLAHGKKGWAADTQFIQLDIEPQEIDSNRPIAVPVVGDIASSMQGMLAELKQNTFTTPLVWRDILNIHKQQNAQKMHEKLSTDTQPLNYFNALSAVRDVLRENQDIYLVNEGANTLDNARNIIDMYKPRRRLDCGTWGVMGIGMGYAIGASVTSGSPVVAIEGDSAFGFSGMEIETICRYNLPVTIVIFNNGGIYRGDGVDLSGAGAPSPTDLLHHARYDKLMDAFRGVGYNVTTTDELRHALTTGIQSRKPTIINVVIDPAAGTESGHIT 2q2e-a1-m1-cA_2q2e-a1-m2-cA Crystal structure of the topoisomerase VI holoenzyme from Methanosarcina mazei Q8PUB7 Q8PUB7 4 X-RAY DIFFRACTION 161 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 315 315 LAREKLLEIAEKIYNQFEEEVVPSVSLPSSAKTVKGAFQLLKTYATDFLINEHLARNRGSTLRELYYISEGWDYAKFKEQGESDRLIEDLEILTSLQREYFHMRPEEDGATMFGPIEITEQTKRGHCQKVGEGGYQIPFNVENIEFQKHDASMIIAIETGGMYARLMENGFDEAYNAILVHLKGQPARSTRRIIKRMNEELGIPVAVFTDGDPWSYRIYASVAYGAFMATPAAKFLGLQPSDIVEYELSTDKLTEQDVSALRSELSDPRFESDYWKEQIQLQLDIGKKAEQQAFAGKGLDFVTEVYLPNRLKEMG LAREKLLEIAEKIYNQFEEEVVPSVSLPSSAKTVKGAFQLLKTYATDFLINEHLARNRGSTLRELYYISEGWDYAKFKEQGESDRLIEDLEILTSLQREYFHMRPEEDGATMFGPIEITEQTKRGHCQKVGEGGYQIPFNVENIEFQKHDASMIIAIETGGMYARLMENGFDEAYNAILVHLKGQPARSTRRIIKRMNEELGIPVAVFTDGDPWSYRIYASVAYGAFMATPAAKFLGLQPSDIVEYELSTDKLTEQDVSALRSELSDPRFESDYWKEQIQLQLDIGKKAEQQAFAGKGLDFVTEVYLPNRLKEMG 2q2e-a1-m1-cB_2q2e-a1-m2-cB Crystal structure of the topoisomerase VI holoenzyme from Methanosarcina mazei Q8PUB8 Q8PUB8 4 X-RAY DIFFRACTION 54 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 581 581 KKQKSISVAEFFEKNRQILGFDSAPRSLITTVKEAVDNALDACEEAGILPDILVQVERTGPDYVTVIIEDNGPGIVREQIPKVFAKLLYGFHALKSRGQQGIGISAAVLYAQMTAGRHTKILSKTSPTAPAHYYELMINTSTNEPDILVDEVRDWFRPHGTQIELEMRAAYVKGRRQSIYEYLKATAIVNPHARITLIDPDGNEEVFERATDKMPEPAEEILPHPEGIELGTLMKMLHYTEPFLRYSFCKLLTAEEICKAAGLDPEIDPHALGRHEARKLIEAFEKVKIMAPPTDCLSPIGEDLIYRGLEKETTVDFIATSTRKPAVYSGNPFVVEVGMAYGGNLPKEEKISIMRFANRVPLLYQQGGCVTTHAVEDIKWKQYGLNQPGGGIPVGPVILLIHVASINVPFTSESKDAIADIPVIKEEIDLAIKEVARKLKHYLSKQSNLKKRREKEIIITKVLPKLAAKVAHVLEKDVPDINPVVAKIMGNLLVHRVIKNNGDGTVDVAIKVKNAYSFRVHEMLPCKVKPEPKVVTMGNDYDYVWDISASAGSSKVLSYKIESASEEELQKLPQLIVTGAK KKQKSISVAEFFEKNRQILGFDSAPRSLITTVKEAVDNALDACEEAGILPDILVQVERTGPDYVTVIIEDNGPGIVREQIPKVFAKLLYGFHALKSRGQQGIGISAAVLYAQMTAGRHTKILSKTSPTAPAHYYELMINTSTNEPDILVDEVRDWFRPHGTQIELEMRAAYVKGRRQSIYEYLKATAIVNPHARITLIDPDGNEEVFERATDKMPEPAEEILPHPEGIELGTLMKMLHYTEPFLRYSFCKLLTAEEICKAAGLDPEIDPHALGRHEARKLIEAFEKVKIMAPPTDCLSPIGEDLIYRGLEKETTVDFIATSTRKPAVYSGNPFVVEVGMAYGGNLPKEEKISIMRFANRVPLLYQQGGCVTTHAVEDIKWKQYGLNQPGGGIPVGPVILLIHVASINVPFTSESKDAIADIPVIKEEIDLAIKEVARKLKHYLSKQSNLKKRREKEIIITKVLPKLAAKVAHVLEKDVPDINPVVAKIMGNLLVHRVIKNNGDGTVDVAIKVKNAYSFRVHEMLPCKVKPEPKVVTMGNDYDYVWDISASAGSSKVLSYKIESASEEELQKLPQLIVTGAK 2q2f-a1-m1-cA_2q2f-a1-m2-cA Structure of the human Selenoprotein S (VCP-interacting membrane protein) Q9BQE4 Q9BQE4 1.5 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 GSARLRALRQRQLDRAAAAVEPDVVVKRQEALAAARLKQEELNAQVEKHKEKLKQLEEEKRRQKIEWDS GSARLRALRQRQLDRAAAAVEPDVVVKRQEALAAARLKQEELNAQVEKHKEKLKQLEEEKRRQKIEWDS 2q2g-a2-m2-cB_2q2g-a2-m1-cA Crystal structure of dimerization domain of HSP40 from Cryptosporidium parvum, cgd2_1800 A3FQ69 A3FQ69 1.9 X-RAY DIFFRACTION 20 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 159 174 2q2g-a2-m1-cB_2q2g-a2-m2-cA EVPLLVTLEELYLGKRKKIKVTREENIVEVEIKPGWKDGTKLTYSGEGDQESPGTSPGDLVLIIQTKTHPRFTRDDCHLIKVTIPLVRALTGFTCPVTTLDRNLQIPIKEIVNPKTRKIVNEGPIKNQPGQKGDLILEFDICFPKSLTPEQKKLIKEAL RSHEVPLLVTLEELYLGKRKKIKVTRKRFIEHKVRNEENIVEVEIKPGWKDGTKLTYSGEGDQESPGTSPGDLVLIIQTKTHPRFTRDDCHLIKVTIPLVRALTGFTCPVTTLDNRNLQIPIKEIVNPKTRKIVPNEGPIKNQPGQKGDLILEFDICFPKSLTPEQKKLIKEAL 2q2g-a2-m2-cB_2q2g-a2-m2-cA Crystal structure of dimerization domain of HSP40 from Cryptosporidium parvum, cgd2_1800 A3FQ69 A3FQ69 1.9 X-RAY DIFFRACTION 69 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 159 174 2q2g-a1-m1-cB_2q2g-a1-m1-cA 2q2g-a2-m1-cB_2q2g-a2-m1-cA EVPLLVTLEELYLGKRKKIKVTREENIVEVEIKPGWKDGTKLTYSGEGDQESPGTSPGDLVLIIQTKTHPRFTRDDCHLIKVTIPLVRALTGFTCPVTTLDRNLQIPIKEIVNPKTRKIVNEGPIKNQPGQKGDLILEFDICFPKSLTPEQKKLIKEAL RSHEVPLLVTLEELYLGKRKKIKVTRKRFIEHKVRNEENIVEVEIKPGWKDGTKLTYSGEGDQESPGTSPGDLVLIIQTKTHPRFTRDDCHLIKVTIPLVRALTGFTCPVTTLDNRNLQIPIKEIVNPKTRKIVPNEGPIKNQPGQKGDLILEFDICFPKSLTPEQKKLIKEAL 2q2i-a1-m1-cB_2q2i-a1-m1-cA Crystal structure of the protein secretion chaperone CsaA from Agrobacterium tumefaciens. A9CI62 A9CI62 1.55 X-RAY DIFFRACTION 130 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 109 112 2q2h-a1-m1-cB_2q2h-a1-m1-cA SGEISYADFEKVDIRVGTIVEAVPFPEPAIKVKIDFGPEIGIKKSSAQITVHYTPESLVGRQVLGVVNFPPRQIGPFRSEVLTLGFADANGDIVLAAVERPVPNGEKMC SGEISYADFEKVDIRVGTIVEAVPFPEARKPAIKVKIDFGPEIGIKKSSAQITVHYTPESLVGRQVLGVVNFPPRQIGPFRSEVLTLGFADANGDIVLAAVERPVPNGEKMC 2q2k-a1-m1-cA_2q2k-a1-m2-cA Structure of nucleic-acid binding protein O87365 O87365 3 X-RAY DIFFRACTION 15 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 45 45 KETKHLLKIKKEDYPQIFDFLENVPRGTKTAHIREALRRYIEEIG KETKHLLKIKKEDYPQIFDFLENVPRGTKTAHIREALRRYIEEIG 2q2k-a1-m2-cB_2q2k-a1-m2-cA Structure of nucleic-acid binding protein O87365 O87365 3 X-RAY DIFFRACTION 105 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 44 45 2q2k-a1-m1-cB_2q2k-a1-m1-cA KETKHLLKIKKEDYPQIFDFLENVPRGTKTAHIREALRRYIEEI KETKHLLKIKKEDYPQIFDFLENVPRGTKTAHIREALRRYIEEIG 2q2l-a1-m1-cA_2q2l-a1-m1-cB Crystal Structure of Superoxide Dismutase from P. atrosanguina B2CP37 B2CP37 2.367 X-RAY DIFFRACTION 15 1.0 487759 (Potentilla atrosanguinea) 487759 (Potentilla atrosanguinea) 152 152 MAKGVAVLSSSEGVAGTILFTQEGDGPTTVTGNISGLKPGLHGFHVHALGDTTNGCMSTGPHFNPAGKEHGSPEDETRHAGDLGNITVGDDGTACFTIVDKQIPLTGPHSIIGRAVVVHADPDDLGKGGHELSKSTGNAGGRIACGIIGLQG MAKGVAVLSSSEGVAGTILFTQEGDGPTTVTGNISGLKPGLHGFHVHALGDTTNGCMSTGPHFNPAGKEHGSPEDETRHAGDLGNITVGDDGTACFTIVDKQIPLTGPHSIIGRAVVVHADPDDLGKGGHELSKSTGNAGGRIACGIIGLQG 2q2q-a1-m1-cA_2q2q-a1-m1-cD Structure of D-3-Hydroxybutyrate Dehydrogenase from Pseudomonas putida Q9AE70 Q9AE70 2.02 X-RAY DIFFRACTION 124 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 250 255 2q2q-a1-m1-cC_2q2q-a1-m1-cB 2q2q-a2-m1-cF_2q2q-a2-m2-cE 2q2q-a2-m2-cF_2q2q-a2-m1-cE 2q2q-a4-m1-cH_2q2q-a4-m3-cG 2q2q-a4-m3-cH_2q2q-a4-m1-cG 2q2v-a1-m1-cB_2q2v-a1-m2-cA 2q2v-a1-m2-cB_2q2v-a1-m1-cA 2q2v-a3-m1-cB_2q2v-a3-m2-cA 2q2v-a3-m3-cD_2q2v-a3-m4-cC 2q2v-a4-m1-cD_2q2v-a4-m5-cC 2q2v-a4-m5-cD_2q2v-a4-m1-cC 2q2w-a1-m1-cC_2q2w-a1-m1-cA 2q2w-a1-m1-cD_2q2w-a1-m1-cB TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRDPLQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRAANGGDPLQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ 2q2q-a1-m1-cB_2q2q-a1-m1-cD Structure of D-3-Hydroxybutyrate Dehydrogenase from Pseudomonas putida Q9AE70 Q9AE70 2.02 X-RAY DIFFRACTION 122 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 252 255 2q2q-a1-m1-cC_2q2q-a1-m1-cA 2q2q-a2-m1-cF_2q2q-a2-m1-cE 2q2q-a2-m2-cF_2q2q-a2-m2-cE 2q2q-a3-m1-cH_2q2q-a3-m1-cG 2q2q-a4-m1-cH_2q2q-a4-m1-cG 2q2q-a4-m3-cH_2q2q-a4-m3-cG 2q2v-a1-m1-cB_2q2v-a1-m1-cA 2q2v-a1-m2-cB_2q2v-a1-m2-cA 2q2v-a2-m1-cD_2q2v-a2-m1-cC 2q2v-a4-m1-cD_2q2v-a4-m1-cC 2q2v-a4-m5-cD_2q2v-a4-m5-cC 2q2w-a1-m1-cA_2q2w-a1-m1-cB 2q2w-a1-m1-cD_2q2w-a1-m1-cC TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRAGDPLQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRAANGGDPLQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ 2q2q-a2-m1-cF_2q2q-a2-m2-cF Structure of D-3-Hydroxybutyrate Dehydrogenase from Pseudomonas putida Q9AE70 Q9AE70 2.02 X-RAY DIFFRACTION 12 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 238 238 2q2q-a1-m1-cA_2q2q-a1-m1-cB 2q2q-a1-m1-cC_2q2q-a1-m1-cD 2q2q-a2-m1-cE_2q2q-a2-m2-cE 2q2q-a4-m1-cG_2q2q-a4-m3-cG 2q2q-a4-m1-cH_2q2q-a4-m3-cH 2q2v-a1-m1-cA_2q2v-a1-m2-cA 2q2v-a1-m1-cB_2q2v-a1-m2-cB 2q2v-a4-m1-cC_2q2v-a4-m5-cC 2q2v-a4-m1-cD_2q2v-a4-m5-cD 2q2w-a1-m1-cC_2q2w-a1-m1-cB 2q2w-a1-m1-cD_2q2w-a1-m1-cA TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ 2q2v-a3-m3-cD_2q2v-a3-m1-cB Structure of D-3-Hydroxybutyrate Dehydrogenase from Pseudomonas putida Q9AE70 Q9AE70 1.9 X-RAY DIFFRACTION 22 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 247 253 TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRAAGDPLQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ 2q2v-a3-m3-cD_2q2v-a3-m2-cA Structure of D-3-Hydroxybutyrate Dehydrogenase from Pseudomonas putida Q9AE70 Q9AE70 1.9 X-RAY DIFFRACTION 25 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 247 255 TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ TLKGKTALVTGSTSGIGLGIAQVLARAGANIVLNGFGDPAPALAEIARHGVKAVHHPADLSDVAQIEALFALAEREFGGVDILVNNAGIQHVAPVEQFPLESWDKIIALNLSAVFHGTRLALPGMRARNWGRIINIASVHGLVGSTGKAAYVAAKHGVVGLTKVVGLETATSNVTCNAICPGWVLTPLVQKQIDDRAANGGDPLQAQHDLLAEKQPSLAFVTPEHLGELVLFLCSEAGSQVRGAAWNVDGGWLAQ 2q30-a3-m1-cE_2q30-a3-m1-cF Crystal structure of a rmlc-like cupin protein (dde_2303) from desulfovibrio desulfuricans subsp. at 1.94 A resolution Q30YZ6 Q30YZ6 1.94 X-RAY DIFFRACTION 104 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 102 102 2q30-a1-m1-cB_2q30-a1-m1-cA 2q30-a2-m1-cC_2q30-a2-m1-cD 2q30-a4-m1-cG_2q30-a4-m1-cH KSHNLLEAVRFDDQRFVELVHESENFKIVSFTFKAGQELPVHSHNIEGELNIVVLEGEGEFVGDGDAVIPAPRGAVLVAPISTPHGVRAVTDKVLVTIAPPI KSHNLLEAVRFDDQRFVELVHESENFKIVSFTFKAGQELPVHSHNIEGELNIVVLEGEGEFVGDGDAVIPAPRGAVLVAPISTPHGVRAVTDKVLVTIAPPI 2q32-a1-m1-cA_2q32-a1-m1-cB Crystal structure of human heme oxygenase-2 C127A (HO-2) P30519 P30519 2.4 X-RAY DIFFRACTION 27 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 213 218 2qpp-a1-m1-cA_2qpp-a1-m1-cB 2rgz-a1-m1-cA_2rgz-a1-m1-cB RMADLSELLKEGTKEAHDRAENTQFVKDFLKGNIKKELFKLATTALYFTYSALEEEMERNKDHPAFAPLYFPMELHRKEALTKDMEYFFGENWEEQVQAPKAAQKYVERIHYIGQNEPELLVAHAYTRYMGDLSGGQVLKKVAQRALKLPSTGEGTQFYLFENVDNAQQFKQLYRARMNALDLNMKTKERIVEEANKAFEYNMQIFNELDQAG ADLSELLKEGTKEAHDRAENTQFVKDFLKGNIKKELFKLATTALYFTYSALEEEMERNKDHPAFAPLYFPMELHRKEALTKDMEYFFGENWEEQVQAPKAAQKYVERIHYIGQNEPELLVAHAYTRYMGDLSGGQVLKKVAQRALKLPSTGEGTQFYLFENVDNAQQFKQLYRARMNALDLNMKTKERIVEEANKAFEYNMQIFNELDQAGSTLARET 2q35-a1-m2-cA_2q35-a1-m3-cA Crystal Structure of the Y82F variant of ECH2 decarboxylase domain of CurF from Lyngbya majuscula Q6DNE7 Q6DNE7 1.65 X-RAY DIFFRACTION 62 1.0 276768 (Moorena producens 19L) 276768 (Moorena producens 19L) 243 243 2q2x-a1-m1-cA_2q2x-a1-m2-cA 2q2x-a1-m1-cA_2q2x-a1-m3-cA 2q2x-a1-m2-cA_2q2x-a1-m3-cA 2q34-a1-m1-cA_2q34-a1-m2-cA 2q34-a1-m1-cA_2q34-a1-m3-cA 2q34-a1-m2-cA_2q34-a1-m3-cA 2q35-a1-m1-cA_2q35-a1-m2-cA 2q35-a1-m1-cA_2q35-a1-m3-cA NAVVQLTELGNGVVQITMKDESSRNGFSPSIVEGLRHCFSVVAQNQQYKVVILTGYGNYFSSGASKEFLIRKTRGEVEVLDLSGLILDCEIPIIAAMQGHSFGGGLLLGLYADFVVFSQESVYATNFMKYGFTPVGATSLILREKLGSELAQEMIYTGENYRGKELAERGIPFPVVSRQDVLNYAQQLGQKIAKSPRLSLVALKQHLSADIKAKFPEAIKKELEIHQVTFNQPEIASRIQQEF NAVVQLTELGNGVVQITMKDESSRNGFSPSIVEGLRHCFSVVAQNQQYKVVILTGYGNYFSSGASKEFLIRKTRGEVEVLDLSGLILDCEIPIIAAMQGHSFGGGLLLGLYADFVVFSQESVYATNFMKYGFTPVGATSLILREKLGSELAQEMIYTGENYRGKELAERGIPFPVVSRQDVLNYAQQLGQKIAKSPRLSLVALKQHLSADIKAKFPEAIKKELEIHQVTFNQPEIASRIQQEF 2q37-a1-m1-cA_2q37-a1-m2-cA Crystal structure of OHCU decarboxylase in the presence of (S)-allantoin Q9LVM5 Q9LVM5 2.5 X-RAY DIFFRACTION 46 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 137 137 GEDEWKVCCGSSEFAKQSTSGPLTSQEAIYTARDIWFNQVNVTDWLEAFSAHPQIGNTPSEQSTAFATTSASALQELAEWNVLYKKKFGFIFIICASGRTHAELHALKERYENRPIVELEIAAEQKITELRAKLFSD GEDEWKVCCGSSEFAKQSTSGPLTSQEAIYTARDIWFNQVNVTDWLEAFSAHPQIGNTPSEQSTAFATTSASALQELAEWNVLYKKKFGFIFIICASGRTHAELHALKERYENRPIVELEIAAEQKITELRAKLFSD 2q3l-a1-m1-cB_2q3l-a1-m1-cA CRYSTAL STRUCTURE OF AN UNCHARACTERIZED PROTEIN FROM DUF3478 FAMILY WITH A SPOIIAA-LIKE FOLD (SHEW_3102) FROM SHEWANELLA LOIHICA PV-4 AT 2.25 A RESOLUTION A3QHM0 A3QHM0 2.25 X-RAY DIFFRACTION 46 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 120 124 GSSNLHGIAIGIERSQDDFYLAFKAVGKLTHEDYEQTPLLESALAGIIVALIDITELDGLSLHAAWDDLKLGLKHGKEFKRVAIIGQGELQEWATRVANWFTPGEFKFFEDKRDALDWLC GSSNLHGIAIGIERSQDDFYLAFKAVGKLTHEDYEQTPLLESALAGIKTPEIVALIDITELDGLSLHAAWDDLKLGLKHGKEFKRVAIIGQGELQEWATRVANWFTPGEFKFFEDKRDALDWLC 2q3l-a2-m1-cB_2q3l-a2-m2-cA CRYSTAL STRUCTURE OF AN UNCHARACTERIZED PROTEIN FROM DUF3478 FAMILY WITH A SPOIIAA-LIKE FOLD (SHEW_3102) FROM SHEWANELLA LOIHICA PV-4 AT 2.25 A RESOLUTION A3QHM0 A3QHM0 2.25 X-RAY DIFFRACTION 30 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 120 124 GSSNLHGIAIGIERSQDDFYLAFKAVGKLTHEDYEQTPLLESALAGIIVALIDITELDGLSLHAAWDDLKLGLKHGKEFKRVAIIGQGELQEWATRVANWFTPGEFKFFEDKRDALDWLC GSSNLHGIAIGIERSQDDFYLAFKAVGKLTHEDYEQTPLLESALAGIKTPEIVALIDITELDGLSLHAAWDDLKLGLKHGKEFKRVAIIGQGELQEWATRVANWFTPGEFKFFEDKRDALDWLC 2q3m-a1-m1-cA_2q3m-a1-m2-cA Ensemble refinement of the protein crystal structure of an Arabidopsis thaliana putative steroid sulphotransferase P52839 P52839 1.9 X-RAY DIFFRACTION 139 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 284 284 1q44-a2-m1-cA_1q44-a2-m2-cA SVPAYLGDEDLTQETRALISSLPKEKGWLVSEIYEFQGLWHTQAILQGILICQKRFEAKDSDIILVTNPKSGTTWLKALVFALLNRHKFPVSSSGNHPLLVTNPHLLVPFLEGVYYESPDFDFSSLPSPRLMNTHISHLSLPESVKSSSCKIVYCCRNPKDMFVSLWHFGKKLYPIEKAVEAFCEGKFIGGPFWDHILEYWYASRENPNKVLFVTYEELKKQTEVEMKRIAEFLECGFIEEEEVREIVKLCSFEGWRDTLSESLAEEIDRTIEEKFKGSGLKFS SVPAYLGDEDLTQETRALISSLPKEKGWLVSEIYEFQGLWHTQAILQGILICQKRFEAKDSDIILVTNPKSGTTWLKALVFALLNRHKFPVSSSGNHPLLVTNPHLLVPFLEGVYYESPDFDFSSLPSPRLMNTHISHLSLPESVKSSSCKIVYCCRNPKDMFVSLWHFGKKLYPIEKAVEAFCEGKFIGGPFWDHILEYWYASRENPNKVLFVTYEELKKQTEVEMKRIAEFLECGFIEEEEVREIVKLCSFEGWRDTLSESLAEEIDRTIEEKFKGSGLKFS 2q3n-a1-m1-cA_2q3n-a1-m2-cA Agglutinin from Abrus Precatorius (APA-I) Q9M6E9 Q9M6E9 3.5 X-RAY DIFFRACTION 60 1.0 3816 (Abrus precatorius) 3816 (Abrus precatorius) 247 247 DPIKFTTGSATPASYNQFIDALRERLTGGLIYGIPVLRDPSTVEKPNQYVTVELSYSDTVSIQLGIDLTNAYVVAYRAGSESFFFRNAPASASTYLFTGTQQYSLPFDGNYDDLEKWAHQSRQRISLGLEALRQGIKFLRSGASDDEEIARTLIVIIQMVAEAARFRYVSKLVVISLSNRAAFQPDPSMLSLENTWEPLSRAVQHTVQDTFPQNVTLINVRQERVVVSSLSHPSVSALALMLFVCNP DPIKFTTGSATPASYNQFIDALRERLTGGLIYGIPVLRDPSTVEKPNQYVTVELSYSDTVSIQLGIDLTNAYVVAYRAGSESFFFRNAPASASTYLFTGTQQYSLPFDGNYDDLEKWAHQSRQRISLGLEALRQGIKFLRSGASDDEEIARTLIVIIQMVAEAARFRYVSKLVVISLSNRAAFQPDPSMLSLENTWEPLSRAVQHTVQDTFPQNVTLINVRQERVVVSSLSHPSVSALALMLFVCNP 2q3p-a1-m1-cA_2q3p-a1-m2-cA Ensemble refinement of the protein crystal structure of At3g17210 from Arabidopsis thaliana Q9LUV2 Q9LUV2 1.9 X-RAY DIFFRACTION 100 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 102 102 1q4r-a1-m1-cA_1q4r-a1-m2-cA 1q53-a1-m1-cA_1q53-a1-m1-cB PVKHVLLASFKDGVSPEKIEELIKGYANLVNLIEPKAFHWGKDVSIENLHQGYTHIFESTFESKEAVAEYIAHPAHVEFATIFLGSLDKVLVIDYKPTSVSL PVKHVLLASFKDGVSPEKIEELIKGYANLVNLIEPKAFHWGKDVSIENLHQGYTHIFESTFESKEAVAEYIAHPAHVEFATIFLGSLDKVLVIDYKPTSVSL 2q3t-a1-m1-cA_2q3t-a1-m2-cA Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At3g22680 Q9LUJ3 Q9LUJ3 1.6 X-RAY DIFFRACTION 73 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 121 121 1vk5-a2-m1-cA_1vk5-a2-m2-cA 3gan-a2-m1-cA_3gan-a2-m2-cA 6ois-a1-m1-cA_6ois-a1-m1-cB 6oit-a1-m1-cA_6oit-a1-m1-cB GSLLRRAEMYQDYMKQVPIPTNRGSLIPFTSWVGLSISMKQLYGQPLHYLTNVLLQRWDQSRFGTDSEEQRLDSIIHPTKAEATIWLVEEIHRLTPSHLHMALLWRSDPMYHSFIDPIFPE GSLLRRAEMYQDYMKQVPIPTNRGSLIPFTSWVGLSISMKQLYGQPLHYLTNVLLQRWDQSRFGTDSEEQRLDSIIHPTKAEATIWLVEEIHRLTPSHLHMALLWRSDPMYHSFIDPIFPE 2q3v-a1-m1-cA_2q3v-a1-m2-cB Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At2g34160 O22969 O22969 1.8 X-RAY DIFFRACTION 18 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 89 99 1vm0-a1-m1-cA_1vm0-a1-m2-cB 1vm0-a1-m2-cA_1vm0-a1-m1-cB 2q3v-a1-m2-cA_2q3v-a1-m1-cB KKNRIQVSNTKKPLFFYVNLAKRYQQYNDVELSALGAIATVVTVTEILKNNGFAVEKKITSIVDIKPVQKAKIEITLVKSEKFDELAAA KNRIQVSNTKKPLFFYVNLAKRYQQYNDVELSALGAIATVVTVTEILKNNGFAVEKKITSIVDIKDDARGRPVQKAKIEITLVKSEKFDELAAANEEKE 2q3v-a1-m1-cB_2q3v-a1-m2-cB Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At2g34160 O22969 O22969 1.8 X-RAY DIFFRACTION 53 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 99 99 1vm0-a1-m1-cA_1vm0-a1-m2-cA 1vm0-a1-m1-cB_1vm0-a1-m2-cB 2q3v-a1-m1-cA_2q3v-a1-m2-cA KNRIQVSNTKKPLFFYVNLAKRYQQYNDVELSALGAIATVVTVTEILKNNGFAVEKKITSIVDIKDDARGRPVQKAKIEITLVKSEKFDELAAANEEKE KNRIQVSNTKKPLFFYVNLAKRYQQYNDVELSALGAIATVVTVTEILKNNGFAVEKKITSIVDIKDDARGRPVQKAKIEITLVKSEKFDELAAANEEKE 2q3v-a2-m1-cA_2q3v-a2-m1-cB Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At2g34160 O22969 O22969 1.8 X-RAY DIFFRACTION 34 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 89 99 1vm0-a1-m1-cA_1vm0-a1-m1-cB 1vm0-a1-m2-cA_1vm0-a1-m2-cB 2q3v-a1-m1-cA_2q3v-a1-m1-cB 2q3v-a1-m2-cA_2q3v-a1-m2-cB KKNRIQVSNTKKPLFFYVNLAKRYQQYNDVELSALGAIATVVTVTEILKNNGFAVEKKITSIVDIKPVQKAKIEITLVKSEKFDELAAA KNRIQVSNTKKPLFFYVNLAKRYQQYNDVELSALGAIATVVTVTEILKNNGFAVEKKITSIVDIKDDARGRPVQKAKIEITLVKSEKFDELAAANEEKE 2q3x-a1-m1-cA_2q3x-a1-m1-cB The RIM1alpha C2B domain Q9JIR4 Q9JIR4 1.73 X-RAY DIFFRACTION 73 0.985 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 137 140 SPGPAQLVGRQAGDIQIGEDKKGQLEVEVIRARSLTQKPSTPAPYVKVYLLENGACIAKKKTRIARKTLDPLYQQSLVFDESPQGKVLQVIVWGDYGRDHKCFGVAQILLEELDLSSVIGWYKLFPPSSLVDPTLAP SPGPAQLVGRQTLATPAGDIQIGEDKKGQLEVEVIRARSLTQKPSTPAPYVKVYLLENGACIAKKKTRIARKTLDPLYQQSLVFDESPQGKVLQVIVWGDYDHKCFGVAQILLEELDLSSVIGWYKLFPPSSLVDPTLAP 2q3z-a2-m1-cA_2q3z-a2-m2-cA Transglutaminase 2 undergoes large conformational change upon activation P21980 P21980 2 X-RAY DIFFRACTION 154 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 655 655 3s3j-a1-m1-cB_3s3j-a1-m1-cA 3s3s-a1-m1-cB_3s3s-a1-m1-cA MAEELVLERCDLELETNGRDHHTADLCREKLVVRRGQPFWLTLHFEGRNYQASVDSLTFSVVTGPAPSQEAGTKARFPLRDAVEEGDWTATVVDQQDCTLSLQLTTPANAPIGLYRLSLEASTGYQGSSFVLGHFILLFNAWCPADAVYLDSEEERQEYVLTQQGFIYQGSAKFIKNIPWNFGQFQDGILDICLILLDVNPKFLKNAGRDCSRRSSPVYVGRVGSGMVNCNDDQGVLLGRWDNNYGDGVSPMSWIGSVDILRRWKNHGCQRVKYGQCWVFAAVACTVLRCLGIPTRVVTNYNSAHDSNLLIEYFRNSEMIWNFHCWVESWMTRPDLQPGYEGWQALDPTPQEKSEGTYCCGPVPVRAIKEGDLSTKYDAPFVFAEVNADVVDWIQKSINRSLIVGLKISTKSVGRDEREDITHTYKYPEGSSEEREAFTRANHGMAMRIRVGQSMNMGSDFDVFAHITNNTAEEYVCRLLLCARTVSYNGILGPECGTKYLLNLTLEPFSEKSVPLCILYEKYRDCLTESNLIKVRALLVEPVINSYLLAERDLYLENPEIKIRILGEPKQKRKLVAEVSLQNPLPVALEGCTFTVEGAGLTEEQKTVEIPDPVEAGEEVKVRMDLVPLHMGLHKLVVNFESDKLKAVKGFRNVI MAEELVLERCDLELETNGRDHHTADLCREKLVVRRGQPFWLTLHFEGRNYQASVDSLTFSVVTGPAPSQEAGTKARFPLRDAVEEGDWTATVVDQQDCTLSLQLTTPANAPIGLYRLSLEASTGYQGSSFVLGHFILLFNAWCPADAVYLDSEEERQEYVLTQQGFIYQGSAKFIKNIPWNFGQFQDGILDICLILLDVNPKFLKNAGRDCSRRSSPVYVGRVGSGMVNCNDDQGVLLGRWDNNYGDGVSPMSWIGSVDILRRWKNHGCQRVKYGQCWVFAAVACTVLRCLGIPTRVVTNYNSAHDSNLLIEYFRNSEMIWNFHCWVESWMTRPDLQPGYEGWQALDPTPQEKSEGTYCCGPVPVRAIKEGDLSTKYDAPFVFAEVNADVVDWIQKSINRSLIVGLKISTKSVGRDEREDITHTYKYPEGSSEEREAFTRANHGMAMRIRVGQSMNMGSDFDVFAHITNNTAEEYVCRLLLCARTVSYNGILGPECGTKYLLNLTLEPFSEKSVPLCILYEKYRDCLTESNLIKVRALLVEPVINSYLLAERDLYLENPEIKIRILGEPKQKRKLVAEVSLQNPLPVALEGCTFTVEGAGLTEEQKTVEIPDPVEAGEEVKVRMDLVPLHMGLHKLVVNFESDKLKAVKGFRNVI 2q45-a1-m1-cA_2q45-a1-m4-cA Ensemble refinement of the protein crystal structure of putative tropinone reductase from Arabidopsis thaliana gene At1g07440 P0DKI3 P0DKI3 2.1 X-RAY DIFFRACTION 47 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 218 218 1xq1-a2-m1-cA_1xq1-a2-m4-cA 1xq1-a2-m2-cA_1xq1-a2-m3-cA 2q45-a1-m2-cA_2q45-a1-m3-cA SQRWSLKAKTVLVTGGTKGIGHAIVEEFAGFGAVIHTCARNEYELNECLSKWQKKGFQVTGSVCDASLRPEREKLMQTVSSMFGGKLDILINNLGALDYTAEDFSFHISTNLESAYHLSQLAHPLLKASGCGNIIFMSGSIYSATKGALNQLARNLACEWASDGIRANAVAPAVIAGEPEEVSSLVAFLCMPAASYITGQTICVDGGLTVNGFSYQPQ SQRWSLKAKTVLVTGGTKGIGHAIVEEFAGFGAVIHTCARNEYELNECLSKWQKKGFQVTGSVCDASLRPEREKLMQTVSSMFGGKLDILINNLGALDYTAEDFSFHISTNLESAYHLSQLAHPLLKASGCGNIIFMSGSIYSATKGALNQLARNLACEWASDGIRANAVAPAVIAGEPEEVSSLVAFLCMPAASYITGQTICVDGGLTVNGFSYQPQ 2q45-a1-m2-cA_2q45-a1-m4-cA Ensemble refinement of the protein crystal structure of putative tropinone reductase from Arabidopsis thaliana gene At1g07440 P0DKI3 P0DKI3 2.1 X-RAY DIFFRACTION 85 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 218 218 1xq1-a2-m1-cA_1xq1-a2-m3-cA 1xq1-a2-m2-cA_1xq1-a2-m4-cA 2q45-a1-m1-cA_2q45-a1-m3-cA SQRWSLKAKTVLVTGGTKGIGHAIVEEFAGFGAVIHTCARNEYELNECLSKWQKKGFQVTGSVCDASLRPEREKLMQTVSSMFGGKLDILINNLGALDYTAEDFSFHISTNLESAYHLSQLAHPLLKASGCGNIIFMSGSIYSATKGALNQLARNLACEWASDGIRANAVAPAVIAGEPEEVSSLVAFLCMPAASYITGQTICVDGGLTVNGFSYQPQ SQRWSLKAKTVLVTGGTKGIGHAIVEEFAGFGAVIHTCARNEYELNECLSKWQKKGFQVTGSVCDASLRPEREKLMQTVSSMFGGKLDILINNLGALDYTAEDFSFHISTNLESAYHLSQLAHPLLKASGCGNIIFMSGSIYSATKGALNQLARNLACEWASDGIRANAVAPAVIAGEPEEVSSLVAFLCMPAASYITGQTICVDGGLTVNGFSYQPQ 2q45-a1-m3-cA_2q45-a1-m4-cA Ensemble refinement of the protein crystal structure of putative tropinone reductase from Arabidopsis thaliana gene At1g07440 P0DKI3 P0DKI3 2.1 X-RAY DIFFRACTION 84 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 218 218 1xq1-a1-m1-cA_1xq1-a1-m2-cA 1xq1-a2-m1-cA_1xq1-a2-m2-cA 1xq1-a2-m3-cA_1xq1-a2-m4-cA 2q45-a1-m1-cA_2q45-a1-m2-cA SQRWSLKAKTVLVTGGTKGIGHAIVEEFAGFGAVIHTCARNEYELNECLSKWQKKGFQVTGSVCDASLRPEREKLMQTVSSMFGGKLDILINNLGALDYTAEDFSFHISTNLESAYHLSQLAHPLLKASGCGNIIFMSGSIYSATKGALNQLARNLACEWASDGIRANAVAPAVIAGEPEEVSSLVAFLCMPAASYITGQTICVDGGLTVNGFSYQPQ SQRWSLKAKTVLVTGGTKGIGHAIVEEFAGFGAVIHTCARNEYELNECLSKWQKKGFQVTGSVCDASLRPEREKLMQTVSSMFGGKLDILINNLGALDYTAEDFSFHISTNLESAYHLSQLAHPLLKASGCGNIIFMSGSIYSATKGALNQLARNLACEWASDGIRANAVAPAVIAGEPEEVSSLVAFLCMPAASYITGQTICVDGGLTVNGFSYQPQ 2q47-a2-m2-cA_2q47-a2-m3-cB Ensemble refinement of the protein crystal structure of a putative phosphoprotein phosphatase from Arabidopsis thaliana gene At1g05000 Q9ZVN4 Q9ZVN4 3.3 X-RAY DIFFRACTION 26 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 148 148 1xri-a2-m1-cA_1xri-a2-m2-cB 1xri-a2-m1-cB_1xri-a2-m3-cA 1xri-a2-m2-cA_1xri-a2-m3-cB 2q47-a2-m1-cA_2q47-a2-m2-cB 2q47-a2-m1-cB_2q47-a2-m3-cA HLIPPLNFSVDNGIFRSGFPDSANFSFLQTLGLRSIIYLCPEPYPESNLQFLKSNGIRLFQFGIEGNKEPFVNIPDHKIRALKVLLDEKNHPVLIHCKRGKHRTGCLVGCLRKLQKWCLTSIFDEYQRFAAAKARVSDQRFEIFDVSS HLIPPLNFSVDNGIFRSGFPDSANFSFLQTLGLRSIIYLCPEPYPESNLQFLKSNGIRLFQFGIEGNKEPFVNIPDHKIRALKVLLDEKNHPVLIHCKRGKHRTGCLVGCLRKLQKWCLTSIFDEYQRFAAAKARVSDQRFEIFDVSS 2q47-a2-m3-cA_2q47-a2-m3-cB Ensemble refinement of the protein crystal structure of a putative phosphoprotein phosphatase from Arabidopsis thaliana gene At1g05000 Q9ZVN4 Q9ZVN4 3.3 X-RAY DIFFRACTION 43 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 148 148 1xri-a1-m1-cA_1xri-a1-m1-cB 1xri-a2-m1-cA_1xri-a2-m1-cB 1xri-a2-m2-cA_1xri-a2-m2-cB 1xri-a2-m3-cA_1xri-a2-m3-cB 2q47-a1-m1-cA_2q47-a1-m1-cB 2q47-a2-m1-cA_2q47-a2-m1-cB 2q47-a2-m2-cA_2q47-a2-m2-cB HLIPPLNFSVDNGIFRSGFPDSANFSFLQTLGLRSIIYLCPEPYPESNLQFLKSNGIRLFQFGIEGNKEPFVNIPDHKIRALKVLLDEKNHPVLIHCKRGKHRTGCLVGCLRKLQKWCLTSIFDEYQRFAAAKARVSDQRFEIFDVSS HLIPPLNFSVDNGIFRSGFPDSANFSFLQTLGLRSIIYLCPEPYPESNLQFLKSNGIRLFQFGIEGNKEPFVNIPDHKIRALKVLLDEKNHPVLIHCKRGKHRTGCLVGCLRKLQKWCLTSIFDEYQRFAAAKARVSDQRFEIFDVSS 2q48-a1-m1-cA_2q48-a1-m1-cB Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At5g48480 Q9LV66 Q9LV66 1.8 X-RAY DIFFRACTION 131 0.983 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 119 121 1xy7-a1-m1-cA_1xy7-a1-m1-cB HLVFTEFKQLLVEAQKVGDAVTFYKSAFGAIESHVLSSELNLAGSSFVVCDVSSLPGFSTAKSEGSGVTFLLGTKDAEAAVAKAVDAGAVKVEVTEAEVELGFKGKVTDPFGVTWIFAE VFTEFKQLLVEAQKVGDAVTFYKSAFGAIESGHSLHVLSSELNLAGSSFVVCDVSSLPGFSTAKSEGSGVTFLLGTKDAEAAVAKAVDAGAVKVEVTEAEVELGFKGKVTDPFGVTWIFAE 2q49-a1-m1-cA_2q49-a1-m1-cD Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At2g19940 Q93Z70 Q93Z70 2.19 X-RAY DIFFRACTION 151 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 345 345 1xyg-a1-m1-cA_1xyg-a1-m1-cD 1xyg-a1-m1-cB_1xyg-a1-m1-cC 2q49-a1-m1-cB_2q49-a1-m1-cC KDIRIGLLGASGYTGAEIVRLLANHPHFQVTLMTADRKAGQSMESVFPHLRAQKLPTLVSVKDADFSTVDAVFCCLPHGTTQEIIKELPTALKIVDLSADFRLRNIAEYEEWYGQPHKAVELQKEVVYGLTEILREDIKKARLVANPGCYPTTIQLPLVPLLKANLIKHENIIIDAKSGVSGAGRGAKEANLYSEIAEGISSYGVTRHRHVPEIEQGLSDVAQSKVTVSFTPHLMPMIRGMQSTIYVEMAPGVRTEDLHQQLKTSYEDEEFVKVLDEGVVPRTHNVRGSNYCHMSVFPDRIPGRAIIISVIDNLVKGASGQALQNLNIMLGYPETTGLLHQPLFP KDIRIGLLGASGYTGAEIVRLLANHPHFQVTLMTADRKAGQSMESVFPHLRAQKLPTLVSVKDADFSTVDAVFCCLPHGTTQEIIKELPTALKIVDLSADFRLRNIAEYEEWYGQPHKAVELQKEVVYGLTEILREDIKKARLVANPGCYPTTIQLPLVPLLKANLIKHENIIIDAKSGVSGAGRGAKEANLYSEIAEGISSYGVTRHRHVPEIEQGLSDVAQSKVTVSFTPHLMPMIRGMQSTIYVEMAPGVRTEDLHQQLKTSYEDEEFVKVLDEGVVPRTHNVRGSNYCHMSVFPDRIPGRAIIISVIDNLVKGASGQALQNLNIMLGYPETTGLLHQPLFP 2q49-a1-m1-cB_2q49-a1-m1-cD Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At2g19940 Q93Z70 Q93Z70 2.19 X-RAY DIFFRACTION 63 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 345 345 1xyg-a1-m1-cA_1xyg-a1-m1-cC 1xyg-a1-m1-cB_1xyg-a1-m1-cD 2q49-a1-m1-cA_2q49-a1-m1-cC KDIRIGLLGASGYTGAEIVRLLANHPHFQVTLMTADRKAGQSMESVFPHLRAQKLPTLVSVKDADFSTVDAVFCCLPHGTTQEIIKELPTALKIVDLSADFRLRNIAEYEEWYGQPHKAVELQKEVVYGLTEILREDIKKARLVANPGCYPTTIQLPLVPLLKANLIKHENIIIDAKSGVSGAGRGAKEANLYSEIAEGISSYGVTRHRHVPEIEQGLSDVAQSKVTVSFTPHLMPMIRGMQSTIYVEMAPGVRTEDLHQQLKTSYEDEEFVKVLDEGVVPRTHNVRGSNYCHMSVFPDRIPGRAIIISVIDNLVKGASGQALQNLNIMLGYPETTGLLHQPLFP KDIRIGLLGASGYTGAEIVRLLANHPHFQVTLMTADRKAGQSMESVFPHLRAQKLPTLVSVKDADFSTVDAVFCCLPHGTTQEIIKELPTALKIVDLSADFRLRNIAEYEEWYGQPHKAVELQKEVVYGLTEILREDIKKARLVANPGCYPTTIQLPLVPLLKANLIKHENIIIDAKSGVSGAGRGAKEANLYSEIAEGISSYGVTRHRHVPEIEQGLSDVAQSKVTVSFTPHLMPMIRGMQSTIYVEMAPGVRTEDLHQQLKTSYEDEEFVKVLDEGVVPRTHNVRGSNYCHMSVFPDRIPGRAIIISVIDNLVKGASGQALQNLNIMLGYPETTGLLHQPLFP 2q49-a1-m1-cC_2q49-a1-m1-cD Ensemble refinement of the protein crystal structure of gene product from Arabidopsis thaliana At2g19940 Q93Z70 Q93Z70 2.19 X-RAY DIFFRACTION 79 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 345 345 1xyg-a1-m1-cA_1xyg-a1-m1-cB 1xyg-a1-m1-cC_1xyg-a1-m1-cD 2q49-a1-m1-cA_2q49-a1-m1-cB KDIRIGLLGASGYTGAEIVRLLANHPHFQVTLMTADRKAGQSMESVFPHLRAQKLPTLVSVKDADFSTVDAVFCCLPHGTTQEIIKELPTALKIVDLSADFRLRNIAEYEEWYGQPHKAVELQKEVVYGLTEILREDIKKARLVANPGCYPTTIQLPLVPLLKANLIKHENIIIDAKSGVSGAGRGAKEANLYSEIAEGISSYGVTRHRHVPEIEQGLSDVAQSKVTVSFTPHLMPMIRGMQSTIYVEMAPGVRTEDLHQQLKTSYEDEEFVKVLDEGVVPRTHNVRGSNYCHMSVFPDRIPGRAIIISVIDNLVKGASGQALQNLNIMLGYPETTGLLHQPLFP KDIRIGLLGASGYTGAEIVRLLANHPHFQVTLMTADRKAGQSMESVFPHLRAQKLPTLVSVKDADFSTVDAVFCCLPHGTTQEIIKELPTALKIVDLSADFRLRNIAEYEEWYGQPHKAVELQKEVVYGLTEILREDIKKARLVANPGCYPTTIQLPLVPLLKANLIKHENIIIDAKSGVSGAGRGAKEANLYSEIAEGISSYGVTRHRHVPEIEQGLSDVAQSKVTVSFTPHLMPMIRGMQSTIYVEMAPGVRTEDLHQQLKTSYEDEEFVKVLDEGVVPRTHNVRGSNYCHMSVFPDRIPGRAIIISVIDNLVKGASGQALQNLNIMLGYPETTGLLHQPLFP 2q4d-a1-m1-cB_2q4d-a1-m1-cA Ensemble refinement of the crystal structure of a lysine decarboxylase-like protein from Arabidopsis thaliana gene At5g11950 Q84MC2 Q84MC2 2.152 X-RAY DIFFRACTION 98 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 173 176 1ydh-a1-m1-cB_1ydh-a1-m1-cA RFRKICVFCGSHSGHREVFSDAAIELGNELVKRKIDLVYGGGSVGLGLISRRVYEGGLHVLGIIPKALPIEISGETVGDVRVVADHERKAAAQEAEAFIALPGGYGTEELLEITWSQLGIHKKTVGLLNVDGYYNNLLALFDTGVEEGFIKPGARNIVVSAPTAKELEKEEYT QRSRFRKICVFCGSHSGHREVFSDAAIELGNELVKRKIDLVYGGGSVGLGLISRRVYEGGLHVLGIIPKALPIEISGETVGDVRVVADHERKAAAQEAEAFIALPGGYGTEELLEITWSQLGIHKKTVGLLNVDGYYNNLLALFDTGVEEGFIKPGARNIVVSAPTAKELEKEEYT 2q4k-a5-m1-cA_2q4k-a5-m1-cB Ensemble refinement of the protein crystal structure of gene product from Homo sapiens Hs.433573 Q9H3H3 Q9H3H3 2.5 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 232 1ztp-a5-m1-cA_1ztp-a5-m1-cB EDGFTAEHLAAEAAADDPWLVFDARTTPATELDAWLAKYPPSQVTRYGDPGSPNSEPVGWIAVYGQGYSPNSGDVQGLQAAWEALQTSGRPITPGTLRQLAITHHVLSGKWLHLAPGFKLDHAWAGIARAVVEGRLQVAKVSPRAKEGGRQVICVYTDDFTDRLGVLEADSAIRAAGIKCLLTYKPDVYTYLGIYRANRWHLCPTLYESRFQGSRVLDRANNVEL EDGFTAEHLAAEAAADDPWLVFDARTTPATELDAWLAKYPPSQVTRYGDPGSPNSEPVGWIAVYGQGYSPNSGDVQGLQAAWEALQTSGRPITPGTLRQLAITHHVLSGKWLHLAPGFKLDHAWAGIARAVVEGRLQVAKVSPRAKEGGRQVICVYTDDFTDRLGVLEADSAIRAAGIKCLLTYKPDVYTYLGIYRANRWHLCPTLYESRFQLGGSARGSRVLDRANNVELT 2q4o-a1-m1-cA_2q4o-a1-m1-cB Ensemble refinement of the crystal structure of a lysine decarboxylase-like protein from Arabidopsis thaliana gene At2g37210 Q8L8B8 Q8L8B8 1.95 X-RAY DIFFRACTION 100 0.982 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 170 170 2a33-a1-m1-cA_2a33-a1-m1-cB QKSKFRRICVFCGSSQGKKSSYQDAAVDLGNELVSRNIDLVYGGGSIGLGLVSQAVHDGGRHVIGIIPKTLVGEVRAVADHQRKAEAKHSDAFIALPGGYGTLEELLEVITWAQLGIHDKPVGLLNVDGYYNSLLSFIDKAVEEGFISPTAREIIVSAPTAKELVKKLEE KSKFRRICVFCGSSQGKKSSYQDAAVDLGNELVSRNIDLVYGGGSIGLGLVSQAVHDGGRHVIGIIPKGETVGEVRAVADHQRKAEAKHSDAFIALPGGYGTLEELLEVITWAQLGIHDKPVGLLNVDGYYNSLLSFIDKAVEEGFISPTAREIIVSAPTAKELVKKLEE 2q4t-a1-m1-cA_2q4t-a1-m1-cB Ensemble refinement of the protein crystal structure of a cytosolic 5'-nucleotidase III from Mus musculus Mm.158936 Q9D020 Q9D020 2.35 X-RAY DIFFRACTION 30 1.0 10090 (Mus musculus) 10090 (Mus musculus) 283 283 2bdu-a1-m1-cA_2bdu-a1-m1-cB AVHLKPEFQKSSVRIKNPTRVEEIICGLIKGGAAKLQIITDFDTLSRFSYNGKRCPTCHNIIDNCKLVTDECRRKLLQLKEQYYAIEVDPVLTVEEKFPYVEWYTKSHGLLIEQGIPKAKLKEIVADSDVLKEGYENFFGKLQQHGIPVFIFSAGIGDVLEEVIRQAGVYHSNVKVVSNFDFDENGVLKGFKGELIHVFNKHDGALKNTDYFSQLKDNSNIILLGDSQGDLRADGVANVEHILKIGYLNDRVDELLEKYDSYDIVLVKEESLEVVNSILQKTL AVHLKPEFQKSSVRIKNPTRVEEIICGLIKGGAAKLQIITDFDTLSRFSYNGKRCPTCHNIIDNCKLVTDECRRKLLQLKEQYYAIEVDPVLTVEEKFPYVEWYTKSHGLLIEQGIPKAKLKEIVADSDVLKEGYENFFGKLQQHGIPVFIFSAGIGDVLEEVIRQAGVYHSNVKVVSNFDFDENGVLKGFKGELIHVFNKHDGALKNTDYFSQLKDNSNIILLGDSQGDLRADGVANVEHILKIGYLNDRVDELLEKYDSYDIVLVKEESLEVVNSILQKTL 2q4v-a1-m1-cA_2q4v-a1-m1-cB Ensemble refinement of the protein crystal structure of thialysine n-acetyltransferase (SSAT2) from Homo sapiens Q96F10 Q96F10 1.842 X-RAY DIFFRACTION 244 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 154 157 2bei-a1-m1-cA_2bei-a1-m1-cB SVRIREAKEGDCGDILRLIRELAEFEKLKISEEALRADGFGDNPFYHCLVAEILGPCVVGYGIYYFIYSTWKGRTIYLEDIYVPEYRGQGIGSKIIKKVAEVALDKGCSQFRLAVLDWNQRADLYKALGAQDLTEAEGWHFFCFQGEATRKLAG ASVRIREAKEGDCGDILRLIRELAEFEKLSDQVKISEEALRADGFGDNPFYHCLVAEICVVGYGIYYFIYSTWKGRTIYLEDIYVPEYRGQGIGSKIIKKVAEVALDKGCSQFRLAVLDWNQRADLYKALGAQDLTEAEGWHFFCFQGEATRKLAGK 2q4z-a1-m1-cA_2q4z-a1-m1-cB Ensemble refinement of the protein crystal structure of an aspartoacylase from Rattus norvegicus Q9R1T5 Q9R1T5 1.8 X-RAY DIFFRACTION 79 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 300 300 2gu2-a1-m1-cA_2gu2-a1-m1-cB 2gu2-a2-m1-cA_2gu2-a2-m1-cB 2gu2-a2-m2-cA_2gu2-a2-m2-cB CVAEEPIKKIAIFGGTHGNELTGVFLVTHWLKNGAEVHRAGLEVKPFITNPRAVEKCTRYIDCDLNRVFDLENLSKESEDLPYEVRRAQEINHLFGPKNSDDAYDVVFDLHNTTSNGCTLILGDSGNDFLIQFHYIKTCAPLPCSVYLIEHPSLKYATTRSIAKYPVGIEVGPQPHGVLRADILDQRRLKHALDFIQRFNEGKEFPPCAIDVYKIEKVDYPRNESGDVAAVIHPNLQDQDWKPLHPGDPVFVSLDGKVIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRST CVAEEPIKKIAIFGGTHGNELTGVFLVTHWLKNGAEVHRAGLEVKPFITNPRAVEKCTRYIDCDLNRVFDLENLSKESEDLPYEVRRAQEINHLFGPKNSDDAYDVVFDLHNTTSNGCTLILGDSGNDFLIQFHYIKTCAPLPCSVYLIEHPSLKYATTRSIAKYPVGIEVGPQPHGVLRADILDQRRLKHALDFIQRFNEGKEFPPCAIDVYKIEKVDYPRNESGDVAAVIHPNLQDQDWKPLHPGDPVFVSLDGKVIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRST 2q58-a1-m1-cB_2q58-a1-m1-cA Cryptosporidium parvum putative polyprenyl pyrophosphate synthase (cgd4_2550) in complex with zoledronate Q5CR09 Q5CR09 2.37 X-RAY DIFFRACTION 111 0.988 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 329 335 2o1o-a1-m1-cB_2o1o-a1-m1-cA YDYTDFINYYDKFKVIVYNVLKKLPVIEYYLNCIDYNVKKGKHIRGKILVLISSLAYSNIKRDSIYLLGWVVEAIQALILIADDIMDSGKFRRGAPCWYIVHGQSNAINDIFFLKMLSLSLIFELSSVFGNDIVMKIQKIYNESIFFTVLGQHLDLSYFDLSKADKISERYFSMVEMKTSRYTFYMPVFFGLTLSEIQVSSAQLNLIEAILYKLGEFYQVHNDVSDYLFNDSNADDICRFKLTWPLQKSFEIADEEMKLKISENYGKNSSLVKDCYNLLKINEHYLEYQRNALDYLIKLVKDITDDSLQKVFIHLIHQISELITNSRSN YDYTDFINYYDKFKVIVYNVLKKLPLNDEIRKPVIEYYLNCIDYNVKKGKHIRGKILVLISSLSSAYSNIKRDSIYLLGWVVEAIQALILIADDIMDSGKFRRGAPCWYIVHGQSNAINDIFFLKMLSLSLIFELSSVFGNDIVMKIQKIYNESIFFTVLGQHLDLSYFDLSKADKISERYFSMVEMKTSRYTFYMPVFFGLTLSEIQVSSAQLNLIEAILYKLGEFYQVHNDVSDYLFNDSNADDICRFKLTWPLQKSFEIADEEMKLKISENYGKNSSLVKDCYNLLKINEHYLEYQRNALDYLIKLVKDITDDSLQKVFIHLIHQISELITN 2q5b-a5-m1-cC_2q5b-a5-m2-cA High resolution structure of Plastocyanin from Phormidium laminosum Q51883 Q51883 1.45 X-RAY DIFFRACTION 12 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 105 105 ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG 2q5b-a5-m2-cA_2q5b-a5-m3-cB High resolution structure of Plastocyanin from Phormidium laminosum Q51883 Q51883 1.45 X-RAY DIFFRACTION 23 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 105 105 ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG ETFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG 2q5c-a3-m1-cA_2q5c-a3-m1-cD Crystal structure of NtrC family transcriptional regulator from Clostridium acetobutylicum Q97LU5 Q97LU5 1.49 X-RAY DIFFRACTION 21 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 187 187 SLSLKIALISQNENLLNLFPKLALEKNFIPITKTASLTRASKIAFGLQDEVDAIISRGATSDYIKKSVSIPSISIKVTRFDTMRAVYNAKRFGNELALIAYKHSIVDKHEIEAMLGVKIKEFLFSSEDEITTLISKVKTENIKIVVSGKTVTDEAIKQGLYGETINSGEESLRRAIEEALNLIEVRN SLSLKIALISQNENLLNLFPKLALEKNFIPITKTASLTRASKIAFGLQDEVDAIISRGATSDYIKKSVSIPSISIKVTRFDTMRAVYNAKRFGNELALIAYKHSIVDKHEIEAMLGVKIKEFLFSSEDEITTLISKVKTENIKIVVSGKTVTDEAIKQGLYGETINSGEESLRRAIEEALNLIEVRN 2q5j-a1-m1-cA_2q5j-a1-m2-cA X-ray structure of phenylpyruvate decarboxylase in complex with 3-deaza-ThDP P51852 P51852 3.2 X-RAY DIFFRACTION 13 1.0 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 523 523 2nxw-a1-m1-cA_2nxw-a1-m2-cA 2q5l-a1-m1-cA_2q5l-a1-m2-cA MKLAEALLRALKDRGAQAMFGIPGDFALPFFKVAEETQILPLHTLSHEPAVGFAADAAARYSSTLGVAAVTYGAGAFNMVNAVAGAYAEKSPVVVISGAPGTTETQFQVFKEITVAQARLDDPAKAPAEIARVLGAARAQSRPVYLEIPRNMVNAEVEPVGDDPAWPVDRDALAACADEVLAAMRSATSPVLMVCVEVRRYGLEAKVAELAQRLGVPVVTTFMGRGLLADAPTPPLGTYIGVAGDAEITRLVEESDGLFLLGAILSDTNFAVSQRKIDLRKTIHAFDRAVTLGYHTYADIPLAGLVDALLERLPPSDRTTRGKEPHAYPTGLQADGEPIAPMDIARAVNDRVRAGQEPLLIAADMGDCLFTAMDMIDAGLMAPGYYAGMGFGVPAGIGAQCVSGGKRILTVVGDGAFQMTGWELGNCRRLGIDPIVILFNNASWEMLRTFQPESAFNDLDDWRFADMAAGMGGDGVRVRTRAELKAALDKAFATRGRFQLIEAMIPRGVLSDTLARFVQGQKR MKLAEALLRALKDRGAQAMFGIPGDFALPFFKVAEETQILPLHTLSHEPAVGFAADAAARYSSTLGVAAVTYGAGAFNMVNAVAGAYAEKSPVVVISGAPGTTETQFQVFKEITVAQARLDDPAKAPAEIARVLGAARAQSRPVYLEIPRNMVNAEVEPVGDDPAWPVDRDALAACADEVLAAMRSATSPVLMVCVEVRRYGLEAKVAELAQRLGVPVVTTFMGRGLLADAPTPPLGTYIGVAGDAEITRLVEESDGLFLLGAILSDTNFAVSQRKIDLRKTIHAFDRAVTLGYHTYADIPLAGLVDALLERLPPSDRTTRGKEPHAYPTGLQADGEPIAPMDIARAVNDRVRAGQEPLLIAADMGDCLFTAMDMIDAGLMAPGYYAGMGFGVPAGIGAQCVSGGKRILTVVGDGAFQMTGWELGNCRRLGIDPIVILFNNASWEMLRTFQPESAFNDLDDWRFADMAAGMGGDGVRVRTRAELKAALDKAFATRGRFQLIEAMIPRGVLSDTLARFVQGQKR 2q5l-a2-m1-cB_2q5l-a2-m1-cA X-ray structure of phenylpyruvate decarboxylase in complex with 2-(1-hydroxyethyl)-3-deaza-ThDP P51852 P51852 1.85 X-RAY DIFFRACTION 200 1.0 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 535 538 2nxw-a1-m1-cB_2nxw-a1-m1-cA 2nxw-a1-m2-cB_2nxw-a1-m2-cA 2nxw-a2-m1-cB_2nxw-a2-m1-cA 2q5j-a1-m1-cA_2q5j-a1-m1-cB 2q5j-a1-m2-cA_2q5j-a1-m2-cB 2q5j-a2-m1-cA_2q5j-a2-m1-cB 2q5l-a1-m1-cB_2q5l-a1-m1-cA 2q5l-a1-m2-cB_2q5l-a1-m2-cA 2q5o-a1-m1-cA_2q5o-a1-m1-cB 2q5o-a1-m2-cA_2q5o-a1-m2-cB 2q5o-a2-m1-cA_2q5o-a2-m1-cB 2q5q-a1-m1-cA_2q5q-a1-m1-cB 2q5q-a1-m2-cA_2q5q-a1-m2-cB 2q5q-a2-m1-cA_2q5q-a2-m1-cB PRGSHMKLAEALLRALKDRGAQAMFGIPGDFALPFFKVAEETQILPLHTLSHEPAVGFAADAAARYSSTLGVAAVTYGAGAFNMVNAVAGAYAEKSPVVVISGAPGTTEGNAGLLLDTQFQVFKEITVAQARLDDPAKAPAEIARVLGAARAQSRPVYLEIPRNMVNAEVEPVGDDPAWPVDRDALAACADEVLAAMRSATSPVLMVCVEVRRYGLEAKVAELAQRLGVPVVTTFMGRGLLADAPTPPLGTYIGVAGDAEITRLVEESDGLFLLGAILSDTNFAVSQRKIDLRKTIHAFDRAVTLGYHTYADIPLAGLVDALLERLPPSDRTTRGKEPHAYPTGLQADGEPIAPMDIARAVNDRVRAGQEPLLIAADMGDCLFTAMDMIDAGLMAPGYYAGMGFGVPAGIGAQCVSGGKRILTVVGDGAFQMTGWELGNCRRLGIDPIVILFNNASWEMLRTFQPESAFNDLDDWRFADMAAGMGGDGVRVRTRAELKAALDKAFATRGRFQLIEAMIPRGVLSDTLARFVQGQK VPRGSHMKLAEALLRALKDRGAQAMFGIPGDFALPFFKVAEETQILPLHTLSHEPAVGFAADAAARYSSTLGVAAVTYGAGAFNMVNAVAGAYAEKSPVVVISGAPGTTEGNAGLLLTLDTQFQVFKEITVAQARLDDPAKAPAEIARVLGAARAQSRPVYLEIPRNMVNAEVEPVGDDPAWPVDRDALAACADEVLAAMRSATSPVLMVCVEVRRYGLEAKVAELAQRLGVPVVTTFMGRGLLADAPTPPLGTYIGVAGDAEITRLVEESDGLFLLGAILSDTNFAVSQRKIDLRKTIHAFDRAVTLGYHTYADIPLAGLVDALLERLPPSDRTTRGKEPHAYPTGLQADGEPIAPMDIARAVNDRVRAGQEPLLIAADMGDCLFTAMDMIDAGLMAPGYYAGMGFGVPAGIGAQCVSGGKRILTVVGDGAFQMTGWELGNCRRLGIDPIVILFNNASWEMLRTFQPESAFNDLDDWRFADMAAGMGGDGVRVRTRAELKAALDKAFATRGRFQLIEAMIPRGVLSDTLARFVQGQK 2q5p-a1-m1-cB_2q5p-a1-m1-cA Crystal Structure of PPARgamma bound to partial agonist MRL24 P37231 P37231 2.3 X-RAY DIFFRACTION 46 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 245 256 2p4y-a1-m1-cB_2p4y-a1-m1-cA 2q5s-a1-m1-cA_2q5s-a1-m1-cB 2q6r-a1-m1-cA_2q6r-a1-m1-cB 3ia6-a1-m1-cA_3ia6-a1-m1-cB 5f9b-a1-m1-cB_5f9b-a1-m1-cA ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKSPFVIYDMNSLMMGEFKHITVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVILHPLLQEIYKD ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDL 2q5q-a1-m1-cA_2q5q-a1-m2-cB X-ray structure of phenylpyruvate decarboxylase in complex with 3-deaza-ThDP and 5-phenyl-2-oxo-valeric acid P51852 P51852 1.9 X-RAY DIFFRACTION 37 0.992 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 533 535 2nxw-a1-m1-cB_2nxw-a1-m2-cB 2q5j-a1-m1-cB_2q5j-a1-m2-cB 2q5l-a1-m1-cB_2q5l-a1-m2-cB 2q5o-a1-m1-cA_2q5o-a1-m2-cB 2q5o-a1-m2-cA_2q5o-a1-m1-cB 2q5q-a1-m2-cA_2q5q-a1-m1-cB SHMKLAEALLRALKDRGAQAMFGIPGDFALPFFKVAEETQILPLHTLSHEPAVGFAADAAARYSSTLGVAAVTYGAGAFNMVNAVAGAYAEKSPVVVISGAPGTTEGNAGLLLHHQGRTLDTQFQVFKEITVAQARLDDPAKAPAEIARVLGAARAQSRPVYLEIPRNMVNAEVEPVGDDPAWPVDRDALAACADEVLAAMRSATSPVLMVCVEVRRYGLEAKVAELAQRLGVPVVTTFMGRGLLADAPTPPLGTYIGVAGDAEITRLVEESDGLFLLGAILSDTNFAVSQRKIDLRKTIHAFDRAVTLGYHTYADIPLAGLVDALLERLPPSDGKEPHAYPTGLQADGEPIAPMDIARAVNDRVRAGQEPLLIAADMGDCLFTAMDMIDAGLMAPGYYAGMGFGVPAGIGAQCVSGGKRILTVVGDGAFQMTGWELGNCRRLGIDPIVILFNNASWEMLRTFQPESAFNDLDDWRFADMAAGMGGDGVRVRTRAELKAALDKAFATRGRFQLIEAMIPRGVLSDTLARFVQG HMKLAEALLRALKDRGAQAMFGIPGDFALPFFKVAEETQILPLHTLSHEPAVGFAADAAARYSSTLGVAAVTYGAGAFNMVNAVAGAYAEKSPVVVISGAPGTTEGNAGLLLHHQGRTLDTQFQVFKEITVAQARLDDPAKAPAEIARVLGAARAQSRPVYLEIPRNMVNAEVEPVGDDPAWPVDRDALAACADEVLAAMRSATSPVLMVCVEVRRYGLEAKVAELAQRLGVPVVTTFMGRGLLADAPTPPLGTYIGVAGDAEITRLVEESDGLFLLGAILSDTNFAVSQRKIDLRKTIHAFDRAVTLGYHTYADIPLAGLVDALLERLPPSEPHAYPTGLQADGEPIAPMDIARAVNDRVRAGQEPLLIAADMGDCLFTAMDMIDAGLMAPGYYAGMGFGVPAGIGAQCVSGGKRILTVVGDGAFQMTGWELGNCRRLGIDPIVILFNNASWEMLRTFQPESAFNDLDDWRFADMAAGMGGDGVRVRTRAELKAALDKAFATRGRFQLIEAMIPRGVLSDTLARFVQGQKRLHA 2q5r-a1-m1-cB_2q5r-a1-m1-cA Structure of apo Staphylococcus aureus D-tagatose-6-phosphate kinase Q5HE12 Q5HE12 2.3 X-RAY DIFFRACTION 87 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 310 316 2jg1-a1-m1-cD_2jg1-a1-m1-cA 2jg1-a2-m1-cC_2jg1-a2-m1-cB 2jgv-a1-m1-cD_2jgv-a1-m1-cA 2jgv-a2-m1-cC_2jgv-a2-m1-cB 2q5r-a2-m1-cC_2q5r-a2-m1-cD SHILTLTLNPSVDISYPLTALKLDDVNRVQEVSKTAGGKGLNVTRVLAQVGEPVLASGFIGGELGQFIAKKLDHADIKHAFYNIKGETRNCIAILHEGQQTEILEQGPEIDNQEAAGFIKHFEQLLEKVEAVAISGSLPKGLNQDYYAQIIERCQNKGVPVILDCSGATLQTVLENPYKPTVIKPNISELYQLLNQPLDESLESLKQAVSQPLFEGIEWIIVSLGAQGAFAKHNHTFYRVNIPTISVLNPVGSGDSTVAGITSAILNHENDHDLLKKANTLGLNAQEAQTGYVNLNNYDDLFNQIEVLEV GLVPRGSHILTLTLNPSVDISYPLTALKLDDVNRVQEVSKTAGGKGLNVTRVLAQVGEPVLASGFIGGELGQFIAKKLDHADIKHAFYNIKGETRNCIAILHEGQQTEILEQGPEIDNQEAAGFIKHFEQLLEKVEAVAISGSLPKGLNQDYYAQIIERCQNKGVPVILDCSGATLQTVLENPYKPTVIKPNISELYQLLNQPLDESLESLKQAVSQPLFEGIEWIIVSLGAQGAFAKHNHTFYRVNIPTISVLNPVGSGDSTVAGITSAILNHENDHDLLKKANTLGLNAQEAQTGYVNLNNYDDLFNQIEVLEV 2q5z-a1-m2-cA_2q5z-a1-m2-cB Crystal structure of iMazG from Vibrio DAT 722: Ntag-iMazG (P43212) Q2F9Z1 Q2F9Z1 2.3 X-RAY DIFFRACTION 137 0.989 344879 (Vibrio sp. DAT722) 344879 (Vibrio sp. DAT722) 93 94 2q5z-a1-m1-cA_2q5z-a1-m1-cB 2q73-a1-m1-cB_2q73-a1-m1-cA 2q73-a1-m1-cD_2q73-a1-m1-cC 2q9l-a1-m1-cA_2q9l-a1-m1-cB 2q9l-a1-m1-cD_2q9l-a1-m1-cC HMKLSELQSHIKEFDYAPEQSEHYFFKLIEEVGELSESIRKGKSGQPTLDELKGSVAEELYDVLYYVCALANIHGVNLEKTRELKEVLNKVKY MKLSELQSHIKEFDYAPEQSEHYFFKLIEEVGELSESIRKGKSGQPTLDELKGSVAEELYDVLYYVCALANIHGVNLEKTRELKEVLNKVKYNR 2q60-a1-m1-cD_2q60-a1-m1-cB Crystal structure of the ligand binding domain of polyandrocarpa misakiensis rxr in tetramer in absence of ligand Q9UAF1 Q9UAF1 2.9 X-RAY DIFFRACTION 18 0.985 7723 (Polyandrocarpa misakiensis) 7723 (Polyandrocarpa misakiensis) 197 198 2q60-a1-m1-cA_2q60-a1-m1-cC NPNDDMPVDKILEAELISDAADRQLVTLVEWAKRIPHFSSLPLEDQVILLRAGWNELLIASFSHRSIDVKDSILLASGLHVHRHSAHQAGVGPIFDRVLTELVSKMRDMMMDKTELGCLRAVVLFNPDVKNPSDSAHIESLREKVYASLEAYCRSKYPDQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPID DDMPVDKILEAELISDCKAADRQLVTLVEWAKRIPHFSSLPLEDQVILLRAGWNELLIASFSHRSIDVKDSILLASGLHVHRHSAHQAGVGPIFDRVLTELVSKMRDMMMDKTELGCLRAVVLFNPDVKNPSDSAHIESLREKVYASLEAYCRSKYPDQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDKF 2q60-a1-m1-cD_2q60-a1-m1-cC Crystal structure of the ligand binding domain of polyandrocarpa misakiensis rxr in tetramer in absence of ligand Q9UAF1 Q9UAF1 2.9 X-RAY DIFFRACTION 60 0.99 7723 (Polyandrocarpa misakiensis) 7723 (Polyandrocarpa misakiensis) 197 203 2q60-a1-m1-cA_2q60-a1-m1-cB NPNDDMPVDKILEAELISDAADRQLVTLVEWAKRIPHFSSLPLEDQVILLRAGWNELLIASFSHRSIDVKDSILLASGLHVHRHSAHQAGVGPIFDRVLTELVSKMRDMMMDKTELGCLRAVVLFNPDVKNPSDSAHIESLREKVYASLEAYCRSKYPDQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPID NDDMPVDKILEAELISDPNICKAADRQLVTLVEWAKRIPHFSSLPLEDQVILLRAGWNELLIASFSHRSIDVKDSILLASGLHVHRHSAHQAGVGPIFDRVLTELVSKMRDMMMDKTELGCLRAVVLFNPDVKNPSDSAHIESLREKVYASLEAYCRSKYPDQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDKFL 2q62-a1-m1-cB_2q62-a1-m1-cD Crystal Structure of ArsH from Sinorhizobium meliloti Q92R45 Q92R45 1.8 X-RAY DIFFRACTION 18 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 222 235 2q62-a1-m1-cA_2q62-a1-m1-cC 2q62-a2-m1-cF_2q62-a2-m1-cH 2q62-a2-m1-cG_2q62-a2-m1-cE HDLPAANLQQLRLPDSASLRPAFSTHRPRILILYGSLRTVSYSRLLAEEARRLLEFFGAEVKVFDPSGLPLPDAAPVSHPKVQELRELSIWSEGQVWVSPERHGAMTGIMKAQIDWIPLSTGSIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVAKAFQEFDANGRMKPSSYYDRVVDVMEELVKFTLLTRDCSAYLTDRYSERKESA HDLPAANLQQLRLPDSASLRPAFSTHRPRILILYGSLRTVSYSRLLAEEARRLLEFFGAEVKVFDPSGLPLPDAAPVSHPKVQELRELSIWSEGQVWVSPERHGAMTGIMKAQIDWIPLSTGSIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVAKAFQEFDANGRMKPSSYYDRVVDVMEELVKFTLLTRDCSAYLTDRYSERKESAAELEHRVTLKSVH 2q62-a1-m1-cC_2q62-a1-m1-cD Crystal Structure of ArsH from Sinorhizobium meliloti Q92R45 Q92R45 1.8 X-RAY DIFFRACTION 95 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 221 235 2q62-a1-m1-cA_2q62-a1-m1-cB 2q62-a2-m1-cF_2q62-a2-m1-cE 2q62-a2-m1-cG_2q62-a2-m1-cH DLPAANLQQLRLPDSASLRPAFSTHRPRILILYGSLRTVSYSRLLAEEARRLLEFFGAEVKVFDPSGLPLPDAAPVSHPKVQELRELSIWSEGQVWVSPERHGAMTGIMKAQIDWIPLSTGSIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVAKAFQEFDANGRMKPSSYYDRVVDVMEELVKFTLLTRDCSAYLTDRYSERKESA HDLPAANLQQLRLPDSASLRPAFSTHRPRILILYGSLRTVSYSRLLAEEARRLLEFFGAEVKVFDPSGLPLPDAAPVSHPKVQELRELSIWSEGQVWVSPERHGAMTGIMKAQIDWIPLSTGSIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVAKAFQEFDANGRMKPSSYYDRVVDVMEELVKFTLLTRDCSAYLTDRYSERKESAAELEHRVTLKSVH 2q62-a2-m1-cF_2q62-a2-m1-cG Crystal Structure of ArsH from Sinorhizobium meliloti Q92R45 Q92R45 1.8 X-RAY DIFFRACTION 140 0.995 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 219 219 2q62-a1-m1-cA_2q62-a1-m1-cD 2q62-a1-m1-cC_2q62-a1-m1-cB 2q62-a2-m1-cE_2q62-a2-m1-cH DLPAANLQQLRLPDSASLRPAFSTHRPRILILYGSLRTVSYSRLLAEEARRLLEFFGAEVKVFDPSGLPLPDAAPVSHPKVQELRELSIWSEGQVWVSPERHGAMTGIMKAQIDWIPLSTGSIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVAKAFQEFDANGRMKPSSYYDRVVDVMEELVKFTLLTRDCSAYLTDRYSERKE HDLPAANLQQLRLPDSASLRPAFSTHRPRILILYGSLRTVSYSRLLAEEARRLLEFFGAEVKVFDPSGLPLPDAAPVSHPKVQELRELSIWSEGQVWVSPERHGAMTGIMKAQIDWIPLSTGSIRPTQGKTLAVMQVSGGSQSFNAVNQMRILGRWMRMITIPNQSSVAKAFQEFDANGRMKPSSYYDRVVDVMEELVKFTLLTRDCSAYLTDRYSERK 2q67-a1-m2-cB_2q67-a1-m2-cA Crystal Structure of Nak channel D66A mutant Q81HW2 Q81HW2 2.3 X-RAY DIFFRACTION 65 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 103 104 2ahy-a1-m1-cB_2ahy-a1-m1-cA 2ahy-a1-m1-cB_2ahy-a1-m2-cA 2ahy-a1-m2-cB_2ahy-a1-m1-cA 2ahy-a1-m2-cB_2ahy-a1-m2-cA 2ahz-a1-m1-cB_2ahz-a1-m1-cA 2ahz-a1-m1-cB_2ahz-a1-m2-cA 2ahz-a1-m2-cB_2ahz-a1-m1-cA 2ahz-a1-m2-cB_2ahz-a1-m2-cA 2q67-a1-m1-cB_2q67-a1-m1-cA 2q67-a1-m1-cB_2q67-a1-m2-cA 2q67-a1-m2-cB_2q67-a1-m1-cA 2q68-a1-m1-cB_2q68-a1-m1-cA 2q68-a1-m1-cB_2q68-a1-m2-cA 2q68-a1-m2-cB_2q68-a1-m1-cA 2q68-a1-m2-cB_2q68-a1-m2-cA 2q69-a1-m1-cB_2q69-a1-m1-cA 2q69-a1-m1-cB_2q69-a1-m2-cA 2q69-a1-m2-cB_2q69-a1-m1-cA 2q69-a1-m2-cB_2q69-a1-m2-cA 2q6a-a1-m1-cB_2q6a-a1-m1-cA 2q6a-a1-m1-cB_2q6a-a1-m2-cA 2q6a-a1-m2-cB_2q6a-a1-m1-cA 2q6a-a1-m2-cB_2q6a-a1-m2-cA 3vou-a1-m1-cB_3vou-a1-m1-cA 3vou-a1-m1-cB_3vou-a1-m2-cA 3vou-a1-m2-cB_3vou-a1-m1-cA 3vou-a1-m2-cB_3vou-a1-m2-cA MLSFLLTLKRMLRACLRAWKDKEFQVLFVLTILTLISGTIFYSTVEGLRPIDALYFSVVTLTTVGAGNFSPQTDFGKIFTILYIFIGIGLVFGFIHKLAVNVQ MLSFLLTLKRMLRACLRAWKDKEFQVLFVLTILTLISGTIFYSTVEGLRPIDALYFSVVTLTTVGAGNFSPQTDFGKIFTILYIFIGIGLVFGFIHKLAVNVQL 2q6c-a1-m1-cC_2q6c-a1-m1-cB Design and synthesis of novel, conformationally restricted HMG-COA reductase inhibitors P04035 P04035 2 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 414 420 1dq8-a1-m1-cC_1dq8-a1-m1-cB 1dq8-a1-m1-cD_1dq8-a1-m1-cA 1dq9-a1-m1-cA_1dq9-a1-m1-cD 1dq9-a1-m1-cB_1dq9-a1-m1-cC 1dqa-a1-m1-cC_1dqa-a1-m1-cB 1dqa-a1-m1-cD_1dqa-a1-m1-cA 1hw8-a1-m1-cC_1hw8-a1-m1-cB 1hw8-a1-m1-cD_1hw8-a1-m1-cA 1hw9-a1-m1-cC_1hw9-a1-m1-cB 1hw9-a1-m1-cD_1hw9-a1-m1-cA 1hwi-a1-m1-cC_1hwi-a1-m1-cB 1hwi-a1-m1-cD_1hwi-a1-m1-cA 1hwj-a1-m1-cB_1hwj-a1-m1-cC 1hwj-a1-m1-cD_1hwj-a1-m1-cA 1hwk-a1-m1-cB_1hwk-a1-m1-cC 1hwk-a1-m1-cD_1hwk-a1-m1-cA 1hwl-a1-m1-cB_1hwl-a1-m1-cC 1hwl-a1-m1-cD_1hwl-a1-m1-cA 2q1l-a1-m1-cA_2q1l-a1-m1-cD 2q1l-a1-m1-cB_2q1l-a1-m1-cC 2q6b-a1-m1-cC_2q6b-a1-m1-cB 2q6b-a1-m1-cD_2q6b-a1-m1-cA 2q6c-a1-m1-cD_2q6c-a1-m1-cA 2r4f-a1-m1-cC_2r4f-a1-m1-cB 2r4f-a1-m1-cD_2r4f-a1-m1-cA 3bgl-a1-m1-cC_3bgl-a1-m1-cB 3bgl-a1-m1-cD_3bgl-a1-m1-cA 3cct-a1-m1-cC_3cct-a1-m1-cB 3cct-a1-m1-cD_3cct-a1-m1-cA 3ccw-a1-m1-cC_3ccw-a1-m1-cB 3ccw-a1-m1-cD_3ccw-a1-m1-cA 3ccz-a1-m1-cC_3ccz-a1-m1-cB 3ccz-a1-m1-cD_3ccz-a1-m1-cA 3cd0-a1-m1-cC_3cd0-a1-m1-cB 3cd0-a1-m1-cD_3cd0-a1-m1-cA 3cd5-a1-m1-cC_3cd5-a1-m1-cB 3cd5-a1-m1-cD_3cd5-a1-m1-cA 3cd7-a1-m1-cA_3cd7-a1-m1-cD 3cd7-a1-m1-cB_3cd7-a1-m1-cC 3cda-a1-m1-cC_3cda-a1-m1-cB 3cda-a1-m1-cD_3cda-a1-m1-cA 3cdb-a1-m1-cC_3cdb-a1-m1-cB 3cdb-a1-m1-cD_3cdb-a1-m1-cA PNEECLQILGNGAKFLSDAEIIQLVNAKHIPAYKLETLIETHERGVSIRRQLLSKKLSEPSSLQYLPYRDYNYSLVMGACCENVIGYMPIPVGVAGPLCLDEKEFQVPMATTEGCLVASTNRGCRAIGLGGGASSRVLADGMTRGPVVRLPRACDSAEVKAWLETSEGFAVIKEAFDSTSRFARLQKLHTSIAGRNLYIRFQSRSGDAMGMNMISKGTEKALSKLHEYFPEMQILAVSGNYCTDKKPAAINWIEGRGKSVVCEAVIPAKVVREVLKTTTEAMIEVNINKNLVGSAMAGSIGGYNAHAANIVTAIYIACGQDAAQNVGSSNCITLMEASGPTNEDLYISCTMPSIEIGTVGGGTNLLPQQACLQMLGVQGACKDNPGENARQLARIVCGTVMAGELSLMAALAAG EPRPNEECLQILGNAEKGAKFLSDAEIIQLVNAKHIPAYKLETLIETHERGVSIRRQLLSKKLSEPSSLQYLPYRDYNYSLVMGACCENVIGYMPIPVGVAGPLCLDEKEFQVPMATTEGCLVASTNRGCRAIGLGGGASSRVLADGMTRGPVVRLPRACDSAEVKAWLETSEGFAVIKEAFDSTSRFARLQKLHTSIAGRNLYIRFQSRSGDAMGMNMISKGTEKALSKLHEYFPEMQILAVSGNYCTDKKPAAINWIEGRGKSVVCEAVIPAKVVREVLKTTTEAMIEVNINKNLVGSAMAGSIGGYNAHAANIVTAIYIACGQDAAQNVGSSNCITLMEASGPTNEDLYISCTMPSIEIGTVGGGTNLLPQQACLQMLGVQGACKDNPGENARQLARIVCGTVMAGELSLMAALAAG 2q6f-a1-m1-cA_2q6f-a1-m1-cB Crystal structure of infectious bronchitis virus (IBV) main protease in complex with a Michael acceptor inhibitor N3 P0C6V5 P0C6V5 2 X-RAY DIFFRACTION 97 1.0 11120 (Infectious bronchitis virus) 11120 (Infectious bronchitis virus) 294 295 2q6d-a1-m1-cA_2q6d-a1-m1-cB 2q6f-a1-m1-cC_2q6f-a1-m1-cB 2q6f-a1-m1-cD_2q6f-a1-m1-cA SGFKKLVSPSSAVEKCIVSVSYRGNNLNGLWLGDSIYCPRHVLGKFSGDQWGDVLNLANNHEFEVVTQNGVTLNVVSRRLKGAVLILQTAVANAETPKYKFVKANCGDSFTIACSYGGTVIGLYPVTMRSNGTIRASFLAGACGSVGFNIEKGVVNFFYMHHLELPNALHTGTDLMGEFYGGYVDEEVAQRVPPDNLVTNNIVAWLYAAIISVPKWLESTTVSIEDYNRWASDNGFTPFSTSTAITKLSAITGVDVCKLLRTIMVKSAQWGSDPILGQYNFEDELTPESVFNQV SGFKKLVSPSSAVEKCIVSVSYRGNNLNGLWLGDSIYCPRHVLGKFSGDQWGDVLNLANNHEFEVVTQNGVTLNVVSRRLKGAVLILQTAVANAETPKYKFVKANCGDSFTIACSYGGTVIGLYPVTMRSNGTIRASFLAGACGSVGFNIEKGVVNFFYMHHLELPNALHTGTDLMGEFYGGYVDEEVAQRVPPDNLVTNNIVAWLYAAIISVPKWLESTTVSIEDYNRWASDNGFTPFSTSTAITKLSAITGVDVCKLLRTIMVKSAQWGSDPILGQYNFEDELTPESVFNQVG 2q6i-a2-m1-cA_2q6i-a2-m6-cA salL with ClDA and LMet A4X3Q0 A4X3Q0 2.6 X-RAY DIFFRACTION 10 1.0 369723 (Salinispora tropica CNB-440) 369723 (Salinispora tropica CNB-440) 266 266 2q6i-a2-m2-cA_2q6i-a2-m5-cA 2q6i-a2-m3-cA_2q6i-a2-m4-cA 2q6l-a2-m1-cA_2q6l-a2-m6-cA 2q6l-a2-m2-cA_2q6l-a2-m5-cA 2q6l-a2-m3-cA_2q6l-a2-m4-cA MQHNLIAFLSDVGSADEAHALCKGVMYGVAPAATIVDITHDVAPFDVREGALFLADVPHSFPAHTVICAYVYPETGTATHTIAVRNEKGQLLVGPNNGLLSFALDASPAVECHEVLSPDVMNQPVTPTWYGKDIVAACAAHLAAGTDLAAVGPRIDPKQIVRLPYASASEVEGGIRGEVVRIDRAFGNVWTNIPTHLIGSMRLEVKIEALSDTVLELPFCKTFGEVDEGQPLLYLNSRGRLALGLNQSNFIEKWPVVPGDSITVSP MQHNLIAFLSDVGSADEAHALCKGVMYGVAPAATIVDITHDVAPFDVREGALFLADVPHSFPAHTVICAYVYPETGTATHTIAVRNEKGQLLVGPNNGLLSFALDASPAVECHEVLSPDVMNQPVTPTWYGKDIVAACAAHLAAGTDLAAVGPRIDPKQIVRLPYASASEVEGGIRGEVVRIDRAFGNVWTNIPTHLIGSMRLEVKIEALSDTVLELPFCKTFGEVDEGQPLLYLNSRGRLALGLNQSNFIEKWPVVPGDSITVSP 2q6i-a2-m3-cA_2q6i-a2-m6-cA salL with ClDA and LMet A4X3Q0 A4X3Q0 2.6 X-RAY DIFFRACTION 21 1.0 369723 (Salinispora tropica CNB-440) 369723 (Salinispora tropica CNB-440) 266 266 2q6i-a2-m1-cA_2q6i-a2-m5-cA 2q6i-a2-m2-cA_2q6i-a2-m4-cA 2q6k-a2-m1-cA_2q6k-a2-m5-cA 2q6k-a2-m2-cA_2q6k-a2-m4-cA 2q6k-a2-m3-cA_2q6k-a2-m6-cA 2q6l-a2-m1-cA_2q6l-a2-m5-cA 2q6l-a2-m2-cA_2q6l-a2-m4-cA 2q6l-a2-m3-cA_2q6l-a2-m6-cA MQHNLIAFLSDVGSADEAHALCKGVMYGVAPAATIVDITHDVAPFDVREGALFLADVPHSFPAHTVICAYVYPETGTATHTIAVRNEKGQLLVGPNNGLLSFALDASPAVECHEVLSPDVMNQPVTPTWYGKDIVAACAAHLAAGTDLAAVGPRIDPKQIVRLPYASASEVEGGIRGEVVRIDRAFGNVWTNIPTHLIGSMRLEVKIEALSDTVLELPFCKTFGEVDEGQPLLYLNSRGRLALGLNQSNFIEKWPVVPGDSITVSP MQHNLIAFLSDVGSADEAHALCKGVMYGVAPAATIVDITHDVAPFDVREGALFLADVPHSFPAHTVICAYVYPETGTATHTIAVRNEKGQLLVGPNNGLLSFALDASPAVECHEVLSPDVMNQPVTPTWYGKDIVAACAAHLAAGTDLAAVGPRIDPKQIVRLPYASASEVEGGIRGEVVRIDRAFGNVWTNIPTHLIGSMRLEVKIEALSDTVLELPFCKTFGEVDEGQPLLYLNSRGRLALGLNQSNFIEKWPVVPGDSITVSP 2q6i-a2-m5-cA_2q6i-a2-m6-cA salL with ClDA and LMet A4X3Q0 A4X3Q0 2.6 X-RAY DIFFRACTION 89 1.0 369723 (Salinispora tropica CNB-440) 369723 (Salinispora tropica CNB-440) 266 266 2q6i-a1-m1-cA_2q6i-a1-m2-cA 2q6i-a1-m1-cA_2q6i-a1-m3-cA 2q6i-a1-m2-cA_2q6i-a1-m3-cA 2q6i-a2-m1-cA_2q6i-a2-m2-cA 2q6i-a2-m1-cA_2q6i-a2-m3-cA 2q6i-a2-m2-cA_2q6i-a2-m3-cA 2q6i-a2-m4-cA_2q6i-a2-m5-cA 2q6i-a2-m4-cA_2q6i-a2-m6-cA 2q6k-a1-m1-cA_2q6k-a1-m2-cA 2q6k-a1-m1-cA_2q6k-a1-m3-cA 2q6k-a1-m2-cA_2q6k-a1-m3-cA 2q6k-a2-m1-cA_2q6k-a2-m2-cA 2q6k-a2-m1-cA_2q6k-a2-m3-cA 2q6k-a2-m2-cA_2q6k-a2-m3-cA 2q6k-a2-m4-cA_2q6k-a2-m5-cA 2q6k-a2-m4-cA_2q6k-a2-m6-cA 2q6k-a2-m5-cA_2q6k-a2-m6-cA 2q6l-a1-m1-cA_2q6l-a1-m2-cA 2q6l-a1-m1-cA_2q6l-a1-m3-cA 2q6l-a1-m2-cA_2q6l-a1-m3-cA 2q6l-a2-m1-cA_2q6l-a2-m2-cA 2q6l-a2-m1-cA_2q6l-a2-m3-cA 2q6l-a2-m2-cA_2q6l-a2-m3-cA 2q6l-a2-m4-cA_2q6l-a2-m5-cA 2q6l-a2-m4-cA_2q6l-a2-m6-cA 2q6l-a2-m5-cA_2q6l-a2-m6-cA 2q6o-a1-m1-cA_2q6o-a1-m2-cA 2q6o-a1-m1-cA_2q6o-a1-m3-cA 2q6o-a1-m2-cA_2q6o-a1-m3-cA 2q6o-a3-m1-cB_2q6o-a3-m4-cB 2q6o-a3-m1-cB_2q6o-a3-m5-cB 2q6o-a3-m4-cB_2q6o-a3-m5-cB 6ryz-a1-m1-cB_6ryz-a1-m1-cA 6ryz-a1-m1-cB_6ryz-a1-m1-cC 6ryz-a1-m1-cC_6ryz-a1-m1-cA 6rz2-a1-m1-cA_6rz2-a1-m1-cC 6rz2-a1-m1-cB_6rz2-a1-m1-cA 6rz2-a1-m1-cB_6rz2-a1-m1-cC MQHNLIAFLSDVGSADEAHALCKGVMYGVAPAATIVDITHDVAPFDVREGALFLADVPHSFPAHTVICAYVYPETGTATHTIAVRNEKGQLLVGPNNGLLSFALDASPAVECHEVLSPDVMNQPVTPTWYGKDIVAACAAHLAAGTDLAAVGPRIDPKQIVRLPYASASEVEGGIRGEVVRIDRAFGNVWTNIPTHLIGSMRLEVKIEALSDTVLELPFCKTFGEVDEGQPLLYLNSRGRLALGLNQSNFIEKWPVVPGDSITVSP MQHNLIAFLSDVGSADEAHALCKGVMYGVAPAATIVDITHDVAPFDVREGALFLADVPHSFPAHTVICAYVYPETGTATHTIAVRNEKGQLLVGPNNGLLSFALDASPAVECHEVLSPDVMNQPVTPTWYGKDIVAACAAHLAAGTDLAAVGPRIDPKQIVRLPYASASEVEGGIRGEVVRIDRAFGNVWTNIPTHLIGSMRLEVKIEALSDTVLELPFCKTFGEVDEGQPLLYLNSRGRLALGLNQSNFIEKWPVVPGDSITVSP 2q6q-a1-m1-cA_2q6q-a1-m1-cB Crystal structure of Spc42p, a critical component of spindle pole body in budding yeast P36094 P36094 1.97 X-RAY DIFFRACTION 89 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 62 65 QQNKELNFKLREKQNEIFELKKIAETLRSKLEKYVDITKKLEDQNLNLQIKISDLEKKLSDA QQNKELNFKLREKQNEIFELKKIAETLRSKLEKYVDITKKLEDQNLNLQIKISDLEKKLSDANST 2q74-a2-m1-cB_2q74-a2-m2-cB Mycobacterium tuberculosis SuhB P9WKI9 P9WKI9 2.6 X-RAY DIFFRACTION 57 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 245 245 2q74-a1-m1-cC_2q74-a1-m1-cA DNEPARLRSVAENLAAEAAAFVRGRRAEVFDPVTVVDTDTERLLRDRLAQLRPGDPILGEEGRVTWVLDPIDGTVNFVYGIPAYAVSIGAQVGGITVAGAVADVAARTVYSAATGLGAHLTDERGRHVLRCTGVDELSMALLGTGFGYSVRCREKQAELLAHVVPLVRDVRRIGSAALDLCMVAAGRLDAYYEHGVQVWDCAAGALIAAEAGARVLLSAGLVVVAAAPGIADELLAALQRFNGLE DNEPARLRSVAENLAAEAAAFVRGRRAEVFDPVTVVDTDTERLLRDRLAQLRPGDPILGEEGRVTWVLDPIDGTVNFVYGIPAYAVSIGAQVGGITVAGAVADVAARTVYSAATGLGAHLTDERGRHVLRCTGVDELSMALLGTGFGYSVRCREKQAELLAHVVPLVRDVRRIGSAALDLCMVAAGRLDAYYEHGVQVWDCAAGALIAAEAGARVLLSAGLVVVAAAPGIADELLAALQRFNGLE 2q78-a5-m1-cB_2q78-a5-m1-cH Crystal structure of a thioesterase-like protein (tm0581) from thermotoga maritima msb8 at 2.20 A resolution Q9WZ50 Q9WZ50 2.2 X-RAY DIFFRACTION 24 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 126 126 2q78-a5-m1-cC_2q78-a5-m1-cA 2q78-a5-m1-cE_2q78-a5-m1-cG HDFDFLEGKRLTEDVALDETVWNEDIELDLHLVATSALIGVVHRVSYELLSRYLPNDYTAVVVETLARHVKAVPTGTRVAVGVRVVGVVGNRVKFRGIVSGDEKILEAEFVRAIVPREKLRRLALE HDFDFLEGKRLTEDVALDETVWNEDIELDLHLVATSALIGVVHRVSYELLSRYLPNDYTAVVVETLARHVKAVPTGTRVAVGVRVVGVVGNRVKFRGIVSGDEKILEAEFVRAIVPREKLRRLALE 2q78-a5-m1-cD_2q78-a5-m1-cA Crystal structure of a thioesterase-like protein (tm0581) from thermotoga maritima msb8 at 2.20 A resolution Q9WZ50 Q9WZ50 2.2 X-RAY DIFFRACTION 10 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 125 130 DFDFLEGKRLTEDVALDETVWNEDIELDLHLVATSALIGVVHRVSYELLSRYLPNDYTAVVVETLARHVKAVPTGTRVAVGVRVVGVVGNRVKFRGIVSGDEKILEAEFVRAIVPREKLRRLALE HHHHHDFDFLEGKRLTEDVALDETVWNEDIELDLHLVATSALIGVVHRVSYELLSRYLPNDYTAVVVETLARHVKAVPTGTRVAVGVRVVGVVGNRVKFRGIVSGDEKILEAEFVRAIVPREKLRRLALE 2q78-a5-m1-cG_2q78-a5-m1-cH Crystal structure of a thioesterase-like protein (tm0581) from thermotoga maritima msb8 at 2.20 A resolution Q9WZ50 Q9WZ50 2.2 X-RAY DIFFRACTION 93 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 126 126 2q78-a1-m1-cB_2q78-a1-m1-cA 2q78-a2-m1-cD_2q78-a2-m1-cC 2q78-a3-m1-cE_2q78-a3-m1-cF 2q78-a4-m1-cG_2q78-a4-m1-cH 2q78-a5-m1-cB_2q78-a5-m1-cA 2q78-a5-m1-cD_2q78-a5-m1-cC 2q78-a5-m1-cE_2q78-a5-m1-cF HDFDFLEGKRLTEDVALDETVWNEDIELDLHLVATSALIGVVHRVSYELLSRYLPNDYTAVVVETLARHVKAVPTGTRVAVGVRVVGVVGNRVKFRGIVSGDEKILEAEFVRAIVPREKLRRLALE HDFDFLEGKRLTEDVALDETVWNEDIELDLHLVATSALIGVVHRVSYELLSRYLPNDYTAVVVETLARHVKAVPTGTRVAVGVRVVGVVGNRVKFRGIVSGDEKILEAEFVRAIVPREKLRRLALE 2q79-a1-m1-cA_2q79-a1-m2-cA Crystal Structure of single chain E2C from HPV16 with a 12aa linker for monomerization. P03120 P03120 1.8 X-RAY DIFFRACTION 50 1.0 333760 (Human papillomavirus type 16) 333760 (Human papillomavirus type 16) 74 74 1by9-a1-m1-cA_1by9-a1-m2-cA 1r8p-a1-m1-cA_1r8p-a1-m1-cB 1zzf-a1-m1-cA_1zzf-a1-m1-cB 3mi7-a1-m1-cX_3mi7-a1-m2-cX TTPIVHLKGDANTLKCLRYRFKKHCTLYTAVSSTWHWTKSAIVTLTYDSEWQRDQFLSQVKIPKTITVSTGFMS TTPIVHLKGDANTLKCLRYRFKKHCTLYTAVSSTWHWTKSAIVTLTYDSEWQRDQFLSQVKIPKTITVSTGFMS 2q7b-a1-m1-cA_2q7b-a1-m2-cA Crystal structure of acetyltransferase (NP_689019.1) from Streptococcus agalactiae 2603 at 2.00 A resolution Q8DX25 Q8DX25 2 X-RAY DIFFRACTION 36 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 161 161 FQGEIKEYENNPYHLAQLVDLINYCQNIEAKLDIKAEQDDIFQIENYYQNRKGQFWIALENEKVVGSIALLRIDDKTAVLKKFFTYPKYRGNPVRLGRKLFERFLFARASKFTRIVLDTPEKEKRSHFFYENQGFKQITRDELDVDYIFPDRDSRIYVKLL FQGEIKEYENNPYHLAQLVDLINYCQNIEAKLDIKAEQDDIFQIENYYQNRKGQFWIALENEKVVGSIALLRIDDKTAVLKKFFTYPKYRGNPVRLGRKLFERFLFARASKFTRIVLDTPEKEKRSHFFYENQGFKQITRDELDVDYIFPDRDSRIYVKLL 2q7d-a3-m1-cB_2q7d-a3-m1-cA Crystal Structure of Human Inositol 1,3,4-Trisphosphate 5/6-kinase (ITPK1) in complex with AMPPNP and Mn2+ Q13572 Q13572 1.6 X-RAY DIFFRACTION 130 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 336 337 HHHHHHMQTFLKGKRVGYWLSEKKIKKLNFQAFAELCRKRGMEVVQLNLSRPIEEQGPLDVIIHKLTDVILEADQNDSQSLELVHRFQEYIDAHPETIVLDPLPAIRTLLDRSKSYELIRKIEAYMEDDRICSPPFMELTSLTMRLLEKNGLTFPFICKTRVAHGNSHEMAIVFNQEGLNAIQPPCVVQNFINHNAVLYKVFVVGESYTVVQRPSLKNFSAGTSDRESIFFNSHNVSKPESSSVLTELDKIEGVFERPSDEVIRELSRALRQALGVSLFGIDIIINNQTGQHAVIDINAFPGYEGVSEFFTDLLNHIATVLQGQSTAMAATGDVAL KIHHHHHHMQTFLKGKRVGYWLSEKKIKKLNFQAFAELCRKRGMEVVQLNLSRPIEEQGPLDVIIHKLTDVILEADQNDSQSLELVHRFQEYIDAHPETIVLDPLPAIRTLLDRSKSYELIRKIEAYMEDDRICSPPFMELTSLCGDDTMRLLEKNGLTFPFICKTRVAHGTNSHEMAIVFNQEGLNAPPCVVQNFINHNAVLYKVFVVGESYTVVQRPSLKNFSDRESIFFNSHNVSKPESSSVLTELDKIEGVFERPSDEVIRELSRALRQALGVSLFGIDIIINNQTGQHAVIDINAFPGYEGVSEFFTDLLNHIATVLQGQSTAMAATGDVAL 2q7d-a4-m2-cB_2q7d-a4-m1-cA Crystal Structure of Human Inositol 1,3,4-Trisphosphate 5/6-kinase (ITPK1) in complex with AMPPNP and Mn2+ Q13572 Q13572 1.6 X-RAY DIFFRACTION 41 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 336 337 HHHHHHMQTFLKGKRVGYWLSEKKIKKLNFQAFAELCRKRGMEVVQLNLSRPIEEQGPLDVIIHKLTDVILEADQNDSQSLELVHRFQEYIDAHPETIVLDPLPAIRTLLDRSKSYELIRKIEAYMEDDRICSPPFMELTSLTMRLLEKNGLTFPFICKTRVAHGNSHEMAIVFNQEGLNAIQPPCVVQNFINHNAVLYKVFVVGESYTVVQRPSLKNFSAGTSDRESIFFNSHNVSKPESSSVLTELDKIEGVFERPSDEVIRELSRALRQALGVSLFGIDIIINNQTGQHAVIDINAFPGYEGVSEFFTDLLNHIATVLQGQSTAMAATGDVAL KIHHHHHHMQTFLKGKRVGYWLSEKKIKKLNFQAFAELCRKRGMEVVQLNLSRPIEEQGPLDVIIHKLTDVILEADQNDSQSLELVHRFQEYIDAHPETIVLDPLPAIRTLLDRSKSYELIRKIEAYMEDDRICSPPFMELTSLCGDDTMRLLEKNGLTFPFICKTRVAHGTNSHEMAIVFNQEGLNAPPCVVQNFINHNAVLYKVFVVGESYTVVQRPSLKNFSDRESIFFNSHNVSKPESSSVLTELDKIEGVFERPSDEVIRELSRALRQALGVSLFGIDIIINNQTGQHAVIDINAFPGYEGVSEFFTDLLNHIATVLQGQSTAMAATGDVAL 2q7v-a1-m1-cB_2q7v-a1-m1-cA Crystal Structure of Deinococcus Radiodurans Thioredoxin Reductase Q9RSY7 Q9RSY7 1.9 X-RAY DIFFRACTION 111 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 309 313 AHDYDVVIIGGGPAGLTAAIYTGRAQLSTLILEKGMPGGQIAWSEEVENFPGFPEPIAGMELAQRMHQQAEKFGAKVEMDEVQGVQHDATSHPYPFTVRGYNGEYRAKAVILATGADPRKLGIPGEDNFWGKGVSTCATCDGFFYKGKKVVVIGGGDAAVEEGMFLTKFADEVTVIHRRDTLRANKVAQARAFANPKMKFIWDTAVEEIQGADSVSGVKLRNLKTGEVSELATDGVFIFIGHVPNTAFVKDTVSLRDDGYVDVRDEIYTNIPMLFAAGDVSDYIYRQLATSVGAGTRAAMMTERQLAAL TAPTAHDYDVVIIGGGPAGLTAAIYTGRAQLSTLILEKGMPGGQIAWSEEVENFPGFPEPIAGMELAQRMHQQAEKFGAKVEMDEVQGVQHDATSHPYPFTVRGYNGEYRAKAVILATGADPRKLGIPGEDNFWGKGVSTCATCDGFFYKGKKVVVIGGGDAAVEEGMFLTKFADEVTVIHRRDTLRANKVAQARAFANPKMKFIWDTAVEEIQGADSVSGVKLRNLKTGEVSELATDGVFIFIGHVPNTAFVKDTVSLRDDGYVDVRDEIYTNIPMLFAAGDVSDYIYRQLATSVGAGTRAAMMTERQLAAL 2q7x-a1-m1-cB_2q7x-a1-m1-cA Crystal structure of a putative phospho transferase (sp_1565) from streptococcus pneumoniae tigr4 at 2.00 A resolution Q97PN8 Q97PN8 2 X-RAY DIFFRACTION 46 0.986 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 284 292 RPITVIGGGTGSPVILSLREDVEIAAIVTVADGDLRNVLVASDPFYEVFQYRFSEDAGAFAGHPLGNLIIAGLSEQGSTYNAQLLSFFHTTGIYPSSDHPLTLHAVFQDGTEVAGESHIVDHRGIIDNVYVTNALNDDTPLASRRVVQTILESDIVLGPGSLFTSILPNIVIEIGRALLETAEIAYVCNITQRGETEHFTDSDHVEVLHRHLGRPFIDTVLVNIEVPQEYNSNRFDEYLVQVEHDFVGLCQVSRVISSNFLRLENGGAFHDGDLIVDELRIIQV RPITVIGGGTGSPVILSLREDVEIAAIVTVADDGGSSGELRNQPGDLRNVLVASDPFYEVFQYRFSEFAGHPLGNLIIAGLSEQGSTYNAQLLSFFHTTGIYPSSDHPLTLHAVFQDGTEVAGESHIVDHRGIIDNVYVTNALNDDTPLASRRVVQTILESDIVLGPGSLFTSILPNIVIEIGRALLETAEIAYVCNITQRGETEHFTDSDHVEVLHRHLGRPFIDTVLVNIEVPQEYNSNRFDEYLVQVEHDFVGLCQVSRVISSNFLRLENGGAFHDGDLIVDELRIIQV 2q82-a1-m1-cA_2q82-a1-m2-cA Crystal structure of core protein P7 from Pseudomonas phage phi12. Northeast Structural Genomics Target OC1 Q94M07 Q94M07 1.83 X-RAY DIFFRACTION 49 1.0 161736 (Pseudomonas phage phi12) 161736 (Pseudomonas phage phi12) 108 108 ELQNRLAQYETSLVSHNGDVPVITGFNVRVTTLDALKVPAVAVLGDDAQDLAYVFGARPLAVGVNIIRVVDVPGQQPSALVDAELGALHEVSVRVLNDIADEQLVKAN ELQNRLAQYETSLVSHNGDVPVITGFNVRVTTLDALKVPAVAVLGDDAQDLAYVFGARPLAVGVNIIRVVDVPGQQPSALVDAELGALHEVSVRVLNDIADEQLVKAN 2q87-a1-m1-cB_2q87-a1-m1-cC The Crystal Structure of the Human IRp60 Ectodomain Q9UGN4 Q9UGN4 1.7 X-RAY DIFFRACTION 20 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 RTVAGPVGGSLSVQCPYEKEHRTLNKYWCRPPQIFLCDKIVETKGSAGKRNGRVSIRDSPANLSFTVTLELTEEDAGTYWCGVDTPWLQDFHDPVVEVEVSVFPAS RTVAGPVGGSLSVQCPYEKEHRTLNKYWCRPPQIFLCDKIVETKGSAGKRNGRVSIRDSPANLSFTVTLENLTEEDAGTYWCGVDTPWLQDFHDPVVEVEVSVFPA 2q8f-a1-m1-cA_2q8f-a1-m2-cA Structure of pyruvate dehydrogenase kinase isoform 1 Q15118 Q15118 2.03 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 365 365 2q8g-a1-m1-cA_2q8g-a1-m2-cA 2q8h-a1-m1-cA_2q8h-a1-m2-cA GVPGQVDFYARFSPSPLSMKQFLDFGSCEKTSFMFLRQELPVRLANIMKEISLLPDNLLRTPSVQLVQSWYIQSLQELLDFKDKSAEDAKAIYDFTDTVIRIRNRHNDVIPTMAQGVIEYKESFDPVTSQNVQYFLDRFYMSRISIRMLLNQHSLLFGHIGSINPNCNVLEVIKDGYENARRLCDLYYINSPELELEELNAKSPGQPIQVVYVPSHLYHMVFELFKNAMRATMEHHANRGVYPPIQVHVTLGNEDLTVKMSDRGGGVPLRKIDRLFNYMYSTAPRPRVETSRAVPLAGFGYGLPISRLYAQYFQGDLKLYSLEGYGTDAVIYIKALSTDSIERLPVYNKAAWKHYNTNADDWCVP GVPGQVDFYARFSPSPLSMKQFLDFGSCEKTSFMFLRQELPVRLANIMKEISLLPDNLLRTPSVQLVQSWYIQSLQELLDFKDKSAEDAKAIYDFTDTVIRIRNRHNDVIPTMAQGVIEYKESFDPVTSQNVQYFLDRFYMSRISIRMLLNQHSLLFGHIGSINPNCNVLEVIKDGYENARRLCDLYYINSPELELEELNAKSPGQPIQVVYVPSHLYHMVFELFKNAMRATMEHHANRGVYPPIQVHVTLGNEDLTVKMSDRGGGVPLRKIDRLFNYMYSTAPRPRVETSRAVPLAGFGYGLPISRLYAQYFQGDLKLYSLEGYGTDAVIYIKALSTDSIERLPVYNKAAWKHYNTNADDWCVP 2q8n-a1-m1-cB_2q8n-a1-m2-cC Crystal structure of Glucose-6-phosphate isomerase (EC 5.3.1.9) (TM1385) from Thermotoga maritima at 1.82 A resolution Q9X1A5 Q9X1A5 1.82 X-RAY DIFFRACTION 12 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 450 450 2q8n-a1-m1-cA_2q8n-a1-m2-cA 2q8n-a1-m1-cC_2q8n-a1-m2-cB HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE 2q8n-a1-m1-cC_2q8n-a1-m2-cC Crystal structure of Glucose-6-phosphate isomerase (EC 5.3.1.9) (TM1385) from Thermotoga maritima at 1.82 A resolution Q9X1A5 Q9X1A5 1.82 X-RAY DIFFRACTION 433 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 450 450 2q8n-a1-m1-cA_2q8n-a1-m1-cB 2q8n-a1-m2-cA_2q8n-a1-m2-cB HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE 2q8n-a1-m2-cA_2q8n-a1-m2-cC Crystal structure of Glucose-6-phosphate isomerase (EC 5.3.1.9) (TM1385) from Thermotoga maritima at 1.82 A resolution Q9X1A5 Q9X1A5 1.82 X-RAY DIFFRACTION 25 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 449 450 2q8n-a1-m1-cA_2q8n-a1-m1-cC 2q8n-a1-m1-cB_2q8n-a1-m2-cB HMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE 2q8n-a1-m2-cB_2q8n-a1-m2-cC Crystal structure of Glucose-6-phosphate isomerase (EC 5.3.1.9) (TM1385) from Thermotoga maritima at 1.82 A resolution Q9X1A5 Q9X1A5 1.82 X-RAY DIFFRACTION 17 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 450 450 2q8n-a1-m1-cA_2q8n-a1-m2-cB 2q8n-a1-m1-cA_2q8n-a1-m2-cC 2q8n-a1-m1-cB_2q8n-a1-m1-cC 2q8n-a1-m2-cA_2q8n-a1-m1-cB 2q8n-a1-m2-cA_2q8n-a1-m1-cC HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE HHMSLKFDFSNLFEPNISGGLTDEDVKSVEEKVTSAVRNFVENTPDFAKLDRSWIDSVKSLEDWIINFDTVVVLGIGGSGLGNLALHYSLRPLNWNEMTREERNGYARVFVVDNVDPDLMSSVLDRIDPKTTLFNVISKSGSTAEVMATYSIARGILEAYGLDPREHMLITTDPEKGFLRKLVKEEGFRSLEVPPGVGGRFSVLTPVGLLSAMAEGIDIDELHEGAKDAFEKSMKENILENPAAMIALTHYLYLNKGKSISVMMAYSNRMIYLVDWYRQLWAESLGKRYNLKGEEVFTGQTPVKALGATDQHSQIQLYNEGPNDKVITFLRVENFDREIVIPETGRAELSYLARKKLSELLLAEQTGTEEALRENNRPNMRVTFDGLTPYNVGQFFAYYEAATAFMGYLLEINPFDQPGVELGKKITFALMGREGYTYEIKERSKKVIIE 2q8o-a1-m1-cA_2q8o-a1-m1-cB crystal structure of mouse GITR ligand dimer Q7TS55 Q7TS55 1.75 X-RAY DIFFRACTION 103 1.0 10090 (Mus musculus) 10090 (Mus musculus) 125 125 2qdn-a1-m1-cA_2qdn-a1-m1-cB 3b9i-a1-m1-cA_3b9i-a1-m1-cB 3fc0-a1-m1-cB_3fc0-a1-m1-cA 7e57-a1-m1-cA_7e57-a1-m1-cB 7khx-a1-m1-cA_7khx-a1-m1-cB IESCMVKFELSSSKWHMTSPKPHCVNTTSDGKLKILQSGTYLIYGQVIPVDKKYIKDNAPFVVQIYKKNDVLQTLMNDFQILPIGGVYELHAGDNIYLKFNSKDHIQKNNTYWGIILMPDLPFIS IESCMVKFELSSSKWHMTSPKPHCVNTTSDGKLKILQSGTYLIYGQVIPVDKKYIKDNAPFVVQIYKKNDVLQTLMNDFQILPIGGVYELHAGDNIYLKFNSKDHIQKNNTYWGIILMPDLPFIS 2q8r-a2-m1-cF_2q8r-a2-m1-cG Structural and Functional Characterization of CC Chemokine CCL14 Q16627 Q16627 1.82 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 2q8r-a1-m1-cH_2q8r-a1-m1-cE 2q8t-a1-m1-cA_2q8t-a1-m1-cB 2q8t-a2-m1-cD_2q8t-a2-m1-cC GPYHPSECCFTYTTYKIPRQRIMDYYETNSQCSKPGIVFITKRGHSVCTNPSDKWVQDYIKDM GPYHPSECCFTYTTYKIPRQRIMDYYETNSQCSKPGIVFITKRGHSVCTNPSDKWVQDYIKDM 2q8u-a3-m1-cB_2q8u-a3-m1-cA CRYSTAL STRUCTURE OF MRE11 FROM THERMOTOGA MARITIMA MSB8 (TM1635) AT 2.20 A RESOLUTION Q9X1X0 Q9X1X0 2.2 X-RAY DIFFRACTION 35 0.993 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 289 303 3qg5-a1-m1-cC_3qg5-a1-m1-cD 3tho-a2-m1-cB_3tho-a2-m2-cB 4nzv-a1-m1-cB_4nzv-a1-m1-cA 4o24-a1-m1-cB_4o24-a1-m1-cA 4o4k-a3-m1-cB_4o4k-a3-m1-cA 4o5g-a1-m1-cB_4o5g-a1-m1-cA 6asc-a1-m1-cB_6asc-a1-m1-cA 6x1y-a1-m1-cA_6x1y-a1-m2-cB 6x1z-a1-m1-cB_6x1z-a1-m1-cA LKILHTSDWHLGVTSWTSSRPVDRREELKKALDKVVEEAEKREVDLILLTGDLLHSRNNPSVVALHDLLDYLKRRTAPVVVLPGNHLKLFGNFVTSISSDITFVSFEPVDVEAKRGQKVRILPFPYPEGDFRFFLESRLNKLYEEALKKEDFAIFGHFTVEGLREIIINRALIPSVVDYAALGHIHSFREIQKQPLTIYPGSLIRIDFGEEADEKGAVFVELKRGEPPRYERIDASPLPLKTLYYKKIDTSALKSIRDFCRNFPGYVRVVYEEDSGILLGEIDNLVKIE HHHHHVINLKELKILHTSDWHLGVTSWTSSRPVDRREELKKALDKVVEEAEKREVDLILLTGDLLHSRNNPSVVALHDLLDYLKRRTAPVVVLPGLKLFGNFVTSISSDITFVSFEPVDVEAKRGQKVRILPFPYPKNEGDFRFFLESRLNKLYEEALKKEDFAIFGHFTVEGLAREIIINRALIPSVVDYAALGHIHSFREIQKQPLTIYPGSLIRIDFGEEADEKGAVFVELKRGEPPRYERIDASPLPLKTLYYKKIDTSALKSIRDFCRNFPGYVRVVYEEDSGILPDLGEIDNLVKIE 2q8x-a1-m1-cB_2q8x-a1-m1-cA The high-resolution crystal structure of ixt6, a thermophilic, intracellular xylanase from G. stearothermophilus Q09LY9 Q09LY9 1.45 X-RAY DIFFRACTION 28 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 328 330 SLPSLRDVFANDFRIGAAVNPVTIEMQKQLLIDHVNSITAENHMKFEHLQPEEGKFTFQEADRIVDFACSHRMAVRGHTLVWHNQTPDWVFQDGQGHFVSRDVLLERMKCHISTVVRRYKGKIYCWDVINEAVADEGNELLRPSKWRQIIGDDFMEQAFLYAYEADPDALLFYNDYNECFPEKREKIFALVKSLRDKGIPIHGIGMQAHWSLTRPSLDEIRAAIERYASLGVVLHITELDVSMFEFHDRRTDLAAPTSEMIERQAERYGQIFALFKEYRDVIQSVTFWGIADDHTWLDNFPVHGRKNWPLLFDEQHKPKPAFWRAVSV NSSLPSLRDVFANDFRIGAAVNPVTIEMQKQLLIDHVNSITAENHMKFEHLQPEEGKFTFQEADRIVDFACSHRMAVRGHTLVWHNQTPDWVFQDGQGHFVSRDVLLERMKCHISTVVRRYKGKIYCWDVINEAVADEGNELLRPSKWRQIIGDDFMEQAFLYAYEADPDALLFYNDYNECFPEKREKIFALVKSLRDKGIPIHGIGMQAHWSLTRPSLDEIRAAIERYASLGVVLHITELDVSMFEFHDRRTDLAAPTSEMIERQAERYGQIFALFKEYRDVIQSVTFWGIADDHTWLDNFPVHGRKNWPLLFDEQHKPKPAFWRAVSV 2q97-a2-m1-cT_2q97-a2-m2-cT Complex of mammalian actin with toxofilin from toxoplasma gondii Q9NG25 Q9NG25 2.5 X-RAY DIFFRACTION 93 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 109 109 MQQELGLLRPEERLIAGQAKAAALQTVHQLGAVALTPEQAKAALLDEILRATQNLDLRKYENLNTEQQKAYEQVQRDLSQLSPETKALLIENQRKEKTLLEKARKLFQR MQQELGLLRPEERLIAGQAKAAALQTVHQLGAVALTPEQAKAALLDEILRATQNLDLRKYENLNTEQQKAYEQVQRDLSQLSPETKALLIENQRKEKTLLEKARKLFQR 2q9c-a3-m1-cB_2q9c-a3-m1-cA Structure of FTSY:GMPPNP with MGCL Complex P83749 P83749 2.2 X-RAY DIFFRACTION 69 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 290 304 2q9a-a3-m1-cB_2q9a-a3-m1-cA 2q9b-a3-m1-cB_2q9b-a3-m1-cA MGFFDRLKAGLAKTRERLLKAIPWGGNLEEVLEELEMALLAADVGLSATEEILQEVRASGRKDLKEAVKEKLVGMLEPDKPKPVEPKGRVVLVVGVNGVGKTTTIAKLGRYYQNLGKKVMFCAGDTFRAAGGTQLSEWGKRLSIPVIQGPEGTDPAALAYDAVQAMKARGYDLLFVDTAGRLHTKHNLMEELKKVKRAIAKADPEEPKEVWLVLDAVTGQNGLEQAKKFHEAVGLTGVIVTKLDGTAKGGVLIPIVRTLKVPIKFVGVGEGPDDLQPFDPEAFVEALLED MGFFDRLKAGLAKTRERLLKAIPWGGNLEEVLEELEMALLAADVGLSATEEILQEVRASGRKDLKEAVKEKLVGMLEPDERRATLRKLGFNPQKPKPVEPKGRVVLVVGVNGVGKTTTIAKLGRYYQNLGKKVMFCAGDTFRAAGGTQLSEWGKRLSIPVIQGPEGTDPAALAYDAVQAMKARGYDLLFVDTAGRLHTKHNLMEELKKVKRAIAKADPEEPKEVWLVLDAVTGQNGLEQAKKFHEAVGLTGVIVTKLDGTAKGGVLIPIVRTLKVPIKFVGVGEGPDDLQPFDPEAFVEALLED 2q9c-a4-m2-cB_2q9c-a4-m1-cA Structure of FTSY:GMPPNP with MGCL Complex P83749 P83749 2.2 X-RAY DIFFRACTION 64 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 290 304 2q9a-a4-m1-cB_2q9a-a4-m2-cA 2q9b-a4-m2-cB_2q9b-a4-m1-cA MGFFDRLKAGLAKTRERLLKAIPWGGNLEEVLEELEMALLAADVGLSATEEILQEVRASGRKDLKEAVKEKLVGMLEPDKPKPVEPKGRVVLVVGVNGVGKTTTIAKLGRYYQNLGKKVMFCAGDTFRAAGGTQLSEWGKRLSIPVIQGPEGTDPAALAYDAVQAMKARGYDLLFVDTAGRLHTKHNLMEELKKVKRAIAKADPEEPKEVWLVLDAVTGQNGLEQAKKFHEAVGLTGVIVTKLDGTAKGGVLIPIVRTLKVPIKFVGVGEGPDDLQPFDPEAFVEALLED MGFFDRLKAGLAKTRERLLKAIPWGGNLEEVLEELEMALLAADVGLSATEEILQEVRASGRKDLKEAVKEKLVGMLEPDERRATLRKLGFNPQKPKPVEPKGRVVLVVGVNGVGKTTTIAKLGRYYQNLGKKVMFCAGDTFRAAGGTQLSEWGKRLSIPVIQGPEGTDPAALAYDAVQAMKARGYDLLFVDTAGRLHTKHNLMEELKKVKRAIAKADPEEPKEVWLVLDAVTGQNGLEQAKKFHEAVGLTGVIVTKLDGTAKGGVLIPIVRTLKVPIKFVGVGEGPDDLQPFDPEAFVEALLED 2q9k-a1-m1-cA_2q9k-a1-m2-cA Crystal structure of a putative oxidoreductase (exig_1997) from exiguobacterium sibiricum 255-15 at 1.59 A resolution B1YJ68 B1YJ68 1.59 X-RAY DIFFRACTION 117 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 145 145 KVEHRLSEQQKALTDLPLVFLITHDQSKSWPITHAISWVYAKDETTIRFAIEADSLLVKTLADHPVFTLIFFADQSTYSLTCTDVAAWETTARLPLKVALYEGQIKEVRDILFYGAAVSDRPRVYKTYDEAAAQLDQQIQDILKG KVEHRLSEQQKALTDLPLVFLITHDQSKSWPITHAISWVYAKDETTIRFAIEADSLLVKTLADHPVFTLIFFADQSTYSLTCTDVAAWETTARLPLKVALYEGQIKEVRDILFYGAAVSDRPRVYKTYDEAAAQLDQQIQDILKG 2q9l-a1-m1-cD_2q9l-a1-m1-cB Crystal structure of iMazG from Vibrio DAT 722: Ctag-iMazG (P43212) Q2F9Z1 Q2F9Z1 2.2 X-RAY DIFFRACTION 37 1.0 344879 (Vibrio sp. DAT722) 344879 (Vibrio sp. DAT722) 78 90 2q5z-a1-m1-cA_2q5z-a1-m2-cB 2q5z-a1-m2-cA_2q5z-a1-m1-cB 2q73-a1-m1-cA_2q73-a1-m1-cC 2q73-a1-m1-cD_2q73-a1-m1-cB 2q9l-a1-m1-cC_2q9l-a1-m1-cA FDYAPEQSEHYFFKLIEEVGELSESIRKGKSGQPTLDELKGSVAEELYDVLYYVCALANIHGVNLEKTHELKEVLNKV MKLSELQSHIKEFDYAPEQSEHYFFKLIEEVGELSESIRKGKSGQPTLDELKGSVAEELYDVLYYVCALANIHGVNLEKTHELKEVLNKV 2q9o-a1-m1-cA_2q9o-a1-m1-cB Near-atomic resolution structure of a Melanocarpus albomyces laccase Q70KY3 Q70KY3 1.3 X-RAY DIFFRACTION 69 1.0 204285 (Melanocarpus albomyces) 204285 (Melanocarpus albomyces) 558 558 3dkh-a1-m1-cA_3dkh-a1-m1-cB 3fu7-a1-m1-cA_3fu7-a1-m1-cB 3fu8-a1-m1-cA_3fu8-a1-m1-cB 3fu9-a1-m1-cA_3fu9-a1-m1-cB EPTCNTPSNRACWSDGFDINTDYEVSTPDTGVTQSYVFNLTEVDNWMGPDGVVKEKVMLINGNIMGPNIVANWGDTVEVTVINNLVTNGTSIHWHGIQKDTNLHDGANGVTECPIPPKGGQRTYRWRARQYGTSWYHSHFSAQYGNGVVGTIQINGPASLPYDIDLGVFPITDYYYRAADDLVHFTQNNAPPFSDNVLINGTAVNPNTGEGQYANVTLTPGKRHRLRILNTSTENHFQVSLVNHTMTVIAADMVPVNAMTVDSLFLAVGQRYDVVIDASRAPDNYWFNVTFGGQAACGGSLNPHPAAIFHYAGAPGGLPTDEGTPPVDHQCLDTLDVRPVVPRSVPVNSFVKRPDNTLPVALDLTGTPLFVWKVNGSDINVDWGKPIIDYILTGNTSYPVSDNIVQVDAVDQWTYWLIENDPEGPFSLPHPMHLHGHDFLVLGRSPDVPAASQQRFVFDPAVDLARLNGDNPPRRDTTMLPAGGWLLLAFRTDNPGAWLFHCHIAWHVSGGLSVDFLERPADLRQRISQEDEDDFNRVCDEWRAYWPTNPYPKIDSGL EPTCNTPSNRACWSDGFDINTDYEVSTPDTGVTQSYVFNLTEVDNWMGPDGVVKEKVMLINGNIMGPNIVANWGDTVEVTVINNLVTNGTSIHWHGIQKDTNLHDGANGVTECPIPPKGGQRTYRWRARQYGTSWYHSHFSAQYGNGVVGTIQINGPASLPYDIDLGVFPITDYYYRAADDLVHFTQNNAPPFSDNVLINGTAVNPNTGEGQYANVTLTPGKRHRLRILNTSTENHFQVSLVNHTMTVIAADMVPVNAMTVDSLFLAVGQRYDVVIDASRAPDNYWFNVTFGGQAACGGSLNPHPAAIFHYAGAPGGLPTDEGTPPVDHQCLDTLDVRPVVPRSVPVNSFVKRPDNTLPVALDLTGTPLFVWKVNGSDINVDWGKPIIDYILTGNTSYPVSDNIVQVDAVDQWTYWLIENDPEGPFSLPHPMHLHGHDFLVLGRSPDVPAASQQRFVFDPAVDLARLNGDNPPRRDTTMLPAGGWLLLAFRTDNPGAWLFHCHIAWHVSGGLSVDFLERPADLRQRISQEDEDDFNRVCDEWRAYWPTNPYPKIDSGL 2q9r-a1-m1-cA_2q9r-a1-m2-cA CRYSTAL STRUCTURE OF a DUF416 family protein (SBAL_3149) FROM SHEWANELLA BALTICA OS155 AT 1.91 A RESOLUTION A3D7B7 A3D7B7 1.91 X-RAY DIFFRACTION 60 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 192 192 KTGFFKRLKALTLPQKQLFATALCQRLPNYQLFSEVCEFGDPAVLSTALELLWQSLYDPKLKFNIDVHLQRLEDNTPEPADFEAYGVYPADAVVAISTLLGAIQGKIEEDIVNISKLSSSTVANYIEAISDVDLVDEALDDFVFAHEVEEEKELQNSLLEIIEENPKITAELVKGLRKDIIETGVSNIGISV KTGFFKRLKALTLPQKQLFATALCQRLPNYQLFSEVCEFGDPAVLSTALELLWQSLYDPKLKFNIDVHLQRLEDNTPEPADFEAYGVYPADAVVAISTLLGAIQGKIEEDIVNISKLSSSTVANYIEAISDVDLVDEALDDFVFAHEVEEEKELQNSLLEIIEENPKITAELVKGLRKDIIETGVSNIGISV 2q9s-a1-m1-cA_2q9s-a1-m2-cA Linoleic Acid Bound to Fatty Acid Binding Protein 4 P04117 P04117 2.3 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA 2q9s-a2-m1-cA_2q9s-a2-m3-cA Linoleic Acid Bound to Fatty Acid Binding Protein 4 P04117 P04117 2.3 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 1a2d-a1-m1-cA_1a2d-a1-m1-cB 1acd-a1-m1-cA_1acd-a1-m2-cA 2ans-a1-m1-cA_2ans-a1-m1-cB 2qm9-a1-m1-cB_2qm9-a1-m1-cA 3js1-a1-m1-cA_3js1-a1-m1-cB 3jsq-a1-m1-cA_3jsq-a1-m2-cA CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA CDAFVGTWKLVSSENFDDYMKEVGVGFATRKVAGMAKPNMIISVNGDLVTIRSESTFKNTEISFKLGVEFDEITADDRKVKSIITLDGGALVQVQKWDGKSTTIKRKRDGDKLVVECVMKGVTSTRVYERA 2q9u-a1-m1-cB_2q9u-a1-m2-cB Crystal structure of the flavodiiron protein from Giardia intestinalis Q86QZ1 Q86QZ1 1.9 X-RAY DIFFRACTION 82 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 407 407 2q9u-a1-m1-cA_2q9u-a1-m2-cA KYVQDQEMIPGVYWVGIVDWMVRIFHGYHTDEGSSYNSYFIDDECPTVIDSVKYPFAEEWLSRIAACCPLDKIKYVVMNHAEGDHASSLKDHYHKFTNATFVCTKKCQEHLKILYGMEKATWLIVDDKYTLKIGKRTLKFIPVPLLHWPDSTFTYCPEDKILFSNDGFGQHYATSRRWADECDVSHVMHLFKEYTANILGLFSAQMRKALEVASTVEIKYILSAHGVSWRGDAMGLAIAEYDRWSKGQHCQKKVTVVLDSMYGTTHRMALALLDGARSTGCETVLLEMTSSDITKVALHTYDSGAVAFASPTLNNTMMPSVAAALNYVRGLTLIKGKPAFAFGAFGWSNRAVPDIVAELRDGCKADVYDEKGITFKFNYTEELLEQAYNAGVDLGKRAIAYCEKNAP KYVQDQEMIPGVYWVGIVDWMVRIFHGYHTDEGSSYNSYFIDDECPTVIDSVKYPFAEEWLSRIAACCPLDKIKYVVMNHAEGDHASSLKDHYHKFTNATFVCTKKCQEHLKILYGMEKATWLIVDDKYTLKIGKRTLKFIPVPLLHWPDSTFTYCPEDKILFSNDGFGQHYATSRRWADECDVSHVMHLFKEYTANILGLFSAQMRKALEVASTVEIKYILSAHGVSWRGDAMGLAIAEYDRWSKGQHCQKKVTVVLDSMYGTTHRMALALLDGARSTGCETVLLEMTSSDITKVALHTYDSGAVAFASPTLNNTMMPSVAAALNYVRGLTLIKGKPAFAFGAFGWSNRAVPDIVAELRDGCKADVYDEKGITFKFNYTEELLEQAYNAGVDLGKRAIAYCEKNAP 2q9u-a1-m2-cB_2q9u-a1-m2-cA Crystal structure of the flavodiiron protein from Giardia intestinalis Q86QZ1 Q86QZ1 1.9 X-RAY DIFFRACTION 92 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 407 409 2q9u-a1-m1-cB_2q9u-a1-m1-cA KYVQDQEMIPGVYWVGIVDWMVRIFHGYHTDEGSSYNSYFIDDECPTVIDSVKYPFAEEWLSRIAACCPLDKIKYVVMNHAEGDHASSLKDHYHKFTNATFVCTKKCQEHLKILYGMEKATWLIVDDKYTLKIGKRTLKFIPVPLLHWPDSTFTYCPEDKILFSNDGFGQHYATSRRWADECDVSHVMHLFKEYTANILGLFSAQMRKALEVASTVEIKYILSAHGVSWRGDAMGLAIAEYDRWSKGQHCQKKVTVVLDSMYGTTHRMALALLDGARSTGCETVLLEMTSSDITKVALHTYDSGAVAFASPTLNNTMMPSVAAALNYVRGLTLIKGKPAFAFGAFGWSNRAVPDIVAELRDGCKADVYDEKGITFKFNYTEELLEQAYNAGVDLGKRAIAYCEKNAP KPKYVQDQEMIPGVYWVGIVDWMVRIFHGYHTDEGSSYNSYFIDDECPTVIDSVKYPFAEEWLSRIAACCPLDKIKYVVMNHAEGDHASSLKDHYHKFTNATFVCTKKCQEHLKILYGMEKATWLIVDDKYTLKIGKRTLKFIPVPLLHWPDSTFTYCPEDKILFSNDGFGQHYATSRRWADECDVSHVMHLFKEYTANILGLFSAQMRKALEVASTVEIKYILSAHGVSWRGDAMGLAIAEYDRWSKGQHCQKKVTVVLDSMYGTTHRMALALLDGARSTGCETVLLEMTSSDITKVALHTYDSGAVAFASPTLNNTMMPSVAAALNYVRGLTLIKGKPAFAFGAFGWSNRAVPDIVAELRDGCKADVYDEKGITFKFNYTEELLEQAYNAGVDLGKRAIAYCEKNAP 2qa1-a1-m1-cA_2qa1-a1-m2-cA Crystal structure of PgaE, an aromatic hydroxylase involved in angucycline biosynthesis Q93LY7 Q93LY7 1.8 X-RAY DIFFRACTION 51 1.0 161235 (Streptomyces sp. PGA64) 161235 (Streptomyces sp. PGA64) 487 487 4icy-a1-m1-cA_4icy-a1-m2-cA HRSDAAVIVVGAGPAGMMLAGELRLAGVEVVVLERLVETGESRGLGFTARTMEVFDQRGILPRFGEVETSTQGHFGGLPIDFGVLEGAWQAAKTVPQSVTETHLEQWATGLGADIRRGHEVLSLTDDGAGVTVEVRGPEGKHTLRAAYLVGCDGGRSSVRKAAGFDFPGTAATMEMYLADIKGVELQPRMIGETLPGGMVMVGPLPGGITRIIVCERGTPPPPSWHEVADAWKRLTGDDIAHAEPVWVSAFGNATRQVTEYRRGRVILAGDSAHIHLPAGGQGMNTSIQDAVNLGWKLGAVVNGTATEELLDSYHSERHAVGKRLLMNTQAQGLLFLSGPEVQPLRDVLTELIQYGEVARHLAGMVSGLEITYDVGTGSHPLLGKRMPALELTTATRETSSTELLHTARGVLLDLADNPRLRARAAAWSDRVDIVTAVPGEVSATSGLRDTTAVLIRPDGHVAWAAPGSHHDLPMALERWFGAPLTG HRSDAAVIVVGAGPAGMMLAGELRLAGVEVVVLERLVETGESRGLGFTARTMEVFDQRGILPRFGEVETSTQGHFGGLPIDFGVLEGAWQAAKTVPQSVTETHLEQWATGLGADIRRGHEVLSLTDDGAGVTVEVRGPEGKHTLRAAYLVGCDGGRSSVRKAAGFDFPGTAATMEMYLADIKGVELQPRMIGETLPGGMVMVGPLPGGITRIIVCERGTPPPPSWHEVADAWKRLTGDDIAHAEPVWVSAFGNATRQVTEYRRGRVILAGDSAHIHLPAGGQGMNTSIQDAVNLGWKLGAVVNGTATEELLDSYHSERHAVGKRLLMNTQAQGLLFLSGPEVQPLRDVLTELIQYGEVARHLAGMVSGLEITYDVGTGSHPLLGKRMPALELTTATRETSSTELLHTARGVLLDLADNPRLRARAAAWSDRVDIVTAVPGEVSATSGLRDTTAVLIRPDGHVAWAAPGSHHDLPMALERWFGAPLTG 2qa2-a1-m1-cA_2qa2-a1-m2-cA Crystal structure of CabE, an aromatic hydroxylase from angucycline biosynthesis, determined to 2.7 A resolution D0VWY3 D0VWY3 2.7 X-RAY DIFFRACTION 63 1.0 1883 (Streptomyces) 1883 (Streptomyces) 489 489 SDASVIVVGAGPAGLMLAGELRLGGVDVMVLEQLPQRTGESRGLGFTARTMEVFDQRGILPAFGPVETSTQGHFGGRPVDFGVLEGAHYGVKAVPQSTTESVLEEWALGRGAELLRGHTVRALTDEGDHVVVEVEGPDGPRSLTTRYVVGCDGGRSTVRKAAGFDFPGTSASREMFLADIRGCEITPRPIGETVPLGMVMSAPLGDGVDRIIVCERGAPARRRTGPPPYQEVAAAWQRLTGQDISHGEPVWVSAFGDPARQVSAYRRGRVLLAGDSAHVHLPAGGQGMNVSVQDSVNLGWKLAAVVSGRAPAGLLDTYHEERHPVGRRLLMNTQAQGMLFLSGDEMQPLRDVLSELIRYDEVSRHLAGMVSGLDIRYEVDGGDHPLLGMRMPHQELVRAHGKTSTTELLHPARGVLLDIADDAEVREAATGWSDRVDIVTASLHDAPPQGPLSDARAVLVRPDGYVAWISPGSRAGLTEALDRWFGPAR SDASVIVVGAGPAGLMLAGELRLGGVDVMVLEQLPQRTGESRGLGFTARTMEVFDQRGILPAFGPVETSTQGHFGGRPVDFGVLEGAHYGVKAVPQSTTESVLEEWALGRGAELLRGHTVRALTDEGDHVVVEVEGPDGPRSLTTRYVVGCDGGRSTVRKAAGFDFPGTSASREMFLADIRGCEITPRPIGETVPLGMVMSAPLGDGVDRIIVCERGAPARRRTGPPPYQEVAAAWQRLTGQDISHGEPVWVSAFGDPARQVSAYRRGRVLLAGDSAHVHLPAGGQGMNVSVQDSVNLGWKLAAVVSGRAPAGLLDTYHEERHPVGRRLLMNTQAQGMLFLSGDEMQPLRDVLSELIRYDEVSRHLAGMVSGLDIRYEVDGGDHPLLGMRMPHQELVRAHGKTSTTELLHPARGVLLDIADDAEVREAATGWSDRVDIVTASLHDAPPQGPLSDARAVLVRPDGYVAWISPGSRAGLTEALDRWFGPAR 2qa7-a2-m1-cD_2qa7-a2-m1-cC Crystal structure of Huntingtin-interacting protein 1 (HIP1) coiled-coil domain with a basic surface suitable for HIP-protein interactor (HIPPI) O00291 O00291 2.8 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 102 2qa7-a1-m1-cB_2qa7-a1-m1-cA DEKDHLIERLYREISGLKAQLENMKTESQRVVLQLKGHVSELEADLAEQQHLRQQAADDCEFLRAELDEL DEKDHLIERLYREISGLKAQLENMKTESQRVVLQLKGHVSELEADLAEQQHLRQQAADDCEFLRAELDELRRQREDTEKAQRSLSEIERKAQANEQRYSKLK 2qa9-a1-m1-cE_2qa9-a1-m2-cE Crystal structure of the second tetrahedral intermediates of SGPB at pH 4.2 P00777 P00777 1.18 X-RAY DIFFRACTION 20 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 185 185 2qa9-a1-m1-cI_2qa9-a1-m1-cE 2qa9-a1-m2-cI_2qa9-a1-m2-cE 2qa9-a2-m1-cI_2qa9-a2-m1-cE ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY 2qaa-a3-m10-cA_2qaa-a3-m9-cA Crystal structure of the second tetrahedral intermediates of SGPB at pH 7.3 P00777 P00777 1.23 X-RAY DIFFRACTION 11 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 185 185 2qaa-a3-m11-cA_2qaa-a3-m12-cA 2qaa-a3-m1-cA_2qaa-a3-m2-cA 2qaa-a3-m3-cA_2qaa-a3-m4-cA 2qaa-a3-m5-cA_2qaa-a3-m6-cA 2qaa-a3-m7-cA_2qaa-a3-m8-cA ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY 2qaa-a3-m9-cB_2qaa-a3-m10-cA Crystal structure of the second tetrahedral intermediates of SGPB at pH 7.3 P00777 P00777 1.23 X-RAY DIFFRACTION 26 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 185 185 2qaa-a3-m10-cB_2qaa-a3-m9-cA 2qaa-a3-m11-cA_2qaa-a3-m12-cB 2qaa-a3-m11-cB_2qaa-a3-m12-cA 2qaa-a3-m1-cA_2qaa-a3-m2-cB 2qaa-a3-m1-cB_2qaa-a3-m2-cA 2qaa-a3-m3-cB_2qaa-a3-m4-cA 2qaa-a3-m4-cB_2qaa-a3-m3-cA 2qaa-a3-m5-cB_2qaa-a3-m6-cA 2qaa-a3-m6-cB_2qaa-a3-m5-cA 2qaa-a3-m7-cB_2qaa-a3-m8-cA 2qaa-a3-m8-cB_2qaa-a3-m7-cA ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY 2qaa-a3-m9-cB_2qaa-a3-m8-cA Crystal structure of the second tetrahedral intermediates of SGPB at pH 7.3 P00777 P00777 1.23 X-RAY DIFFRACTION 18 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 185 185 2qaa-a3-m10-cB_2qaa-a3-m5-cA 2qaa-a3-m11-cA_2qaa-a3-m3-cB 2qaa-a3-m11-cB_2qaa-a3-m7-cA 2qaa-a3-m12-cB_2qaa-a3-m6-cA 2qaa-a3-m1-cB_2qaa-a3-m12-cA 2qaa-a3-m2-cB_2qaa-a3-m9-cA 2qaa-a3-m3-cA_2qaa-a3-m7-cB 2qaa-a3-m4-cA_2qaa-a3-m5-cB 2qaa-a3-m4-cB_2qaa-a3-m10-cA 2qaa-a3-m6-cB_2qaa-a3-m1-cA 2qaa-a3-m8-cB_2qaa-a3-m2-cA ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY 2qaa-a3-m9-cB_2qaa-a3-m9-cA Crystal structure of the second tetrahedral intermediates of SGPB at pH 7.3 P00777 P00777 1.23 X-RAY DIFFRACTION 38 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 185 185 2qaa-a3-m10-cA_2qaa-a3-m10-cB 2qaa-a3-m11-cA_2qaa-a3-m11-cB 2qaa-a3-m12-cA_2qaa-a3-m12-cB 2qaa-a3-m1-cA_2qaa-a3-m1-cB 2qaa-a3-m2-cA_2qaa-a3-m2-cB 2qaa-a3-m3-cA_2qaa-a3-m3-cB 2qaa-a3-m4-cB_2qaa-a3-m4-cA 2qaa-a3-m5-cA_2qaa-a3-m5-cB 2qaa-a3-m6-cB_2qaa-a3-m6-cA 2qaa-a3-m7-cA_2qaa-a3-m7-cB 2qaa-a3-m8-cB_2qaa-a3-m8-cA ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY ISGGDAIYSSTGRCSLGFNVRSGSTYYFLTAGHCTDGATTWWANSARTTVLGTTSGSSFPNNDYGIVRYTNTTIPKDGTVGGQDITSAANATVGMAVTRRGSTTGTHSGSVTALNATVNYGGGDVVYGMIRTNVCAEPGDSGGPLYSGTRAIGLTSGGSGNCSSGGTTFFQPVTEALSAYGVSVY 2qad-a3-m1-cC_2qad-a3-m1-cG Structure of tyrosine-sulfated 412d antibody complexed with HIV-1 YU2 gp120 and CD4 3.3 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 DIQMTQSPSTLSASVGDRVTITCRASQSISNWLAWYQQKPGRAPKLLMYKASSLKSGVPSRFSGSGSGTEFTLTISSLQSDDFATYYCQQHDSSPYTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKLYACEVTHQGLSSPVTKSFNRGE DIQMTQSPSTLSASVGDRVTITCRASQSISNWLAWYQQKPGRAPKLLMYKASSLKSGVPSRFSGSGSGTEFTLTISSLQSDDFATYYCQQHDSSPYTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKLYACEVTHQGLSSPVTKSFNRGE 2qad-a3-m1-cE_2qad-a3-m1-cA Structure of tyrosine-sulfated 412d antibody complexed with HIV-1 YU2 gp120 and CD4 P35961 P35961 3.3 X-RAY DIFFRACTION 88 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 312 319 TENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTGGSVITQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTNNAKTIIVQLNESVVINCTRPNNNTRKSINIGPGRALYTTGEIIGDIRQAHCNLSKTQWENTLEQIAIKLKEQFGNNKTIIFNPSSGGDPEIVTHSFNCGGEFFYCNSTQLFTWNDNITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGKDTNGTEIFRPGGGDMRDNWRSELYKYKVVKIE TENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTGGSVITQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTNNAKTIIVQLNESVVINCTRPNNNTRKSINIGPGRALYTTGEIIGDIRQAHCNLSKTQWENTLEQIAIKLKEQFGNNKTIIFNPSSGGDPEIVTHSFNCGGEFFYCNSTQLFTWNDTRNNTGRNITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGKDTNGTEIFRPGGGDMRDNWRSELYKYKVVKIE 2qae-a1-m1-cA_2qae-a1-m1-cB Crystal Structure Analysis of Trypanosoma cruzi Lipoamide dehydrogenase P90597 P90597 1.9 X-RAY DIFFRACTION 276 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 465 465 NPYDVVVIGGGPGGYVASIKAAQLGMKTACVEKRGALGGTCLNVGCIPSKALLHATHLYHDAHANFARYGLMGGEGVTMDSAKMQQQKERAVKGLTGGVEYLFKKNKVTYYKGEGSFETAHSIRVNGLDGKQEMLETKKTIIATGSEPTELPFLPFDEKVVLSSTGALALPRVPKTMVVIGGGVIGLELGSVWARLGAEVTVVEFAPRCAPTLDEDVTNALVGALAKNEKMKFMTSTKVVGGTNNGDSVSLEVEGKRETVTCEALLVSVGRRPFTGGLGLDKINVAKNERGFVKIGDHFETSIPDVYAIGDVVDKGPMLAHKAEDEGVACAEILAGKPGHVNYGVIPAVIYTMPEVASVGKSEDELKKEGVAYKVGKFPFNANSRAKAVSTEDGFVKVLVDKATDRILGVHIVCTTAGELIGEACLAMEYGASSEDVGRTCHAHPTMSEALKEACMALFAKTINF NPYDVVVIGGGPGGYVASIKAAQLGMKTACVEKRGALGGTCLNVGCIPSKALLHATHLYHDAHANFARYGLMGGEGVTMDSAKMQQQKERAVKGLTGGVEYLFKKNKVTYYKGEGSFETAHSIRVNGLDGKQEMLETKKTIIATGSEPTELPFLPFDEKVVLSSTGALALPRVPKTMVVIGGGVIGLELGSVWARLGAEVTVVEFAPRCAPTLDEDVTNALVGALAKNEKMKFMTSTKVVGGTNNGDSVSLEVEGKRETVTCEALLVSVGRRPFTGGLGLDKINVAKNERGFVKIGDHFETSIPDVYAIGDVVDKGPMLAHKAEDEGVACAEILAGKPGHVNYGVIPAVIYTMPEVASVGKSEDELKKEGVAYKVGKFPFNANSRAKAVSTEDGFVKVLVDKATDRILGVHIVCTTAGELIGEACLAMEYGASSEDVGRTCHAHPTMSEALKEACMALFAKTINF 2qag-a1-m1-cA_2qag-a1-m2-cA Crystal structure of human septin trimer 2/6/7 Q15019 Q15019 4 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 ANLPNQVHRKSVKKGFEFTLMVVGESGLGKSTLINSLFLTDLTVQIEASTVEGVKLRLTVVDKTIISYIDEQFERYLHDESGLNRRIIDNRVHCCFYFISPFGHGLKPLDVAFMKAIHNVNIVPVIAKADTLTLKERERLKKRILDEIEEHIKIYHLPFKEQTRLLKASIPFSVVGSNQLIVRGRLYPWGVVEVENPHNDFLKLRTMLITHMQDLQEVTQDLHYENFRSERL ANLPNQVHRKSVKKGFEFTLMVVGESGLGKSTLINSLFLTDLTVQIEASTVEGVKLRLTVVDKTIISYIDEQFERYLHDESGLNRRIIDNRVHCCFYFISPFGHGLKPLDVAFMKAIHNVNIVPVIAKADTLTLKERERLKKRILDEIEEHIKIYHLPFKEQTRLLKASIPFSVVGSNQLIVRGRLYPWGVVEVENPHNDFLKLRTMLITHMQDLQEVTQDLHYENFRSERL 2qap-a1-m1-cA_2qap-a1-m1-cD Fructose-1,6-bisphosphate aldolase from Leishmania mexicana Q9U5N6 Q9U5N6 1.59 X-RAY DIFFRACTION 87 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 358 358 1epx-a1-m1-cA_1epx-a1-m1-cD 1epx-a1-m1-cB_1epx-a1-m1-cC 2qap-a1-m1-cB_2qap-a1-m1-cC 2qdg-a1-m1-cC_2qdg-a1-m1-cB 2qdg-a1-m1-cD_2qdg-a1-m1-cA 2qdh-a1-m1-cC_2qdh-a1-m1-cB 2qdh-a1-m1-cD_2qdh-a1-m1-cA MSRVTVLQSQLPAYNRLKTPYESELIATVKKLTTPGKGLLAADESIGSCTKRFQPIGLSNTEEHRRQYRALMLEAEGFEQYISGVILHDETVGQKASNGQTFPEYLTARGVVPGIKTDMGLCPLLEGAEGEQMTEGLDGYVKRASAYYKKGCRFCKWRNVYKIQNGTVSESAVRFNAETLARYAILSQMSGLVPIVEPEVMIDGKHDIDTCQRVSEHVWREVVAALQRHGVIWEGCLLKPNMVVPGAESGKTAAPEQVAHYTVMTLARTMPAMLPGVMFLSGGLSEVQASEYLNAINNSPLPRPYFLSFSYARALQSSALKAWGGKESGLAAGRRAFLHRARMNSMAQLGKYKRSDDD MSRVTVLQSQLPAYNRLKTPYESELIATVKKLTTPGKGLLAADESIGSCTKRFQPIGLSNTEEHRRQYRALMLEAEGFEQYISGVILHDETVGQKASNGQTFPEYLTARGVVPGIKTDMGLCPLLEGAEGEQMTEGLDGYVKRASAYYKKGCRFCKWRNVYKIQNGTVSESAVRFNAETLARYAILSQMSGLVPIVEPEVMIDGKHDIDTCQRVSEHVWREVVAALQRHGVIWEGCLLKPNMVVPGAESGKTAAPEQVAHYTVMTLARTMPAMLPGVMFLSGGLSEVQASEYLNAINNSPLPRPYFLSFSYARALQSSALKAWGGKESGLAAGRRAFLHRARMNSMAQLGKYKRSDDD 2qap-a1-m1-cB_2qap-a1-m1-cD Fructose-1,6-bisphosphate aldolase from Leishmania mexicana Q9U5N6 Q9U5N6 1.59 X-RAY DIFFRACTION 97 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 358 358 1epx-a1-m1-cA_1epx-a1-m1-cC 1epx-a1-m1-cB_1epx-a1-m1-cD 2qap-a1-m1-cA_2qap-a1-m1-cC 2qdg-a1-m1-cC_2qdg-a1-m1-cA 2qdg-a1-m1-cD_2qdg-a1-m1-cB 2qdh-a1-m1-cC_2qdh-a1-m1-cA 2qdh-a1-m1-cD_2qdh-a1-m1-cB MSRVTVLQSQLPAYNRLKTPYESELIATVKKLTTPGKGLLAADESIGSCTKRFQPIGLSNTEEHRRQYRALMLEAEGFEQYISGVILHDETVGQKASNGQTFPEYLTARGVVPGIKTDMGLCPLLEGAEGEQMTEGLDGYVKRASAYYKKGCRFCKWRNVYKIQNGTVSESAVRFNAETLARYAILSQMSGLVPIVEPEVMIDGKHDIDTCQRVSEHVWREVVAALQRHGVIWEGCLLKPNMVVPGAESGKTAAPEQVAHYTVMTLARTMPAMLPGVMFLSGGLSEVQASEYLNAINNSPLPRPYFLSFSYARALQSSALKAWGGKESGLAAGRRAFLHRARMNSMAQLGKYKRSDDD MSRVTVLQSQLPAYNRLKTPYESELIATVKKLTTPGKGLLAADESIGSCTKRFQPIGLSNTEEHRRQYRALMLEAEGFEQYISGVILHDETVGQKASNGQTFPEYLTARGVVPGIKTDMGLCPLLEGAEGEQMTEGLDGYVKRASAYYKKGCRFCKWRNVYKIQNGTVSESAVRFNAETLARYAILSQMSGLVPIVEPEVMIDGKHDIDTCQRVSEHVWREVVAALQRHGVIWEGCLLKPNMVVPGAESGKTAAPEQVAHYTVMTLARTMPAMLPGVMFLSGGLSEVQASEYLNAINNSPLPRPYFLSFSYARALQSSALKAWGGKESGLAAGRRAFLHRARMNSMAQLGKYKRSDDD 2qap-a1-m1-cC_2qap-a1-m1-cD Fructose-1,6-bisphosphate aldolase from Leishmania mexicana Q9U5N6 Q9U5N6 1.59 X-RAY DIFFRACTION 32 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 358 358 1epx-a1-m1-cA_1epx-a1-m1-cB 1epx-a1-m1-cC_1epx-a1-m1-cD 2qap-a1-m1-cA_2qap-a1-m1-cB 2qdg-a1-m1-cA_2qdg-a1-m1-cB 2qdg-a1-m1-cC_2qdg-a1-m1-cD 2qdh-a1-m1-cA_2qdh-a1-m1-cB 2qdh-a1-m1-cC_2qdh-a1-m1-cD MSRVTVLQSQLPAYNRLKTPYESELIATVKKLTTPGKGLLAADESIGSCTKRFQPIGLSNTEEHRRQYRALMLEAEGFEQYISGVILHDETVGQKASNGQTFPEYLTARGVVPGIKTDMGLCPLLEGAEGEQMTEGLDGYVKRASAYYKKGCRFCKWRNVYKIQNGTVSESAVRFNAETLARYAILSQMSGLVPIVEPEVMIDGKHDIDTCQRVSEHVWREVVAALQRHGVIWEGCLLKPNMVVPGAESGKTAAPEQVAHYTVMTLARTMPAMLPGVMFLSGGLSEVQASEYLNAINNSPLPRPYFLSFSYARALQSSALKAWGGKESGLAAGRRAFLHRARMNSMAQLGKYKRSDDD MSRVTVLQSQLPAYNRLKTPYESELIATVKKLTTPGKGLLAADESIGSCTKRFQPIGLSNTEEHRRQYRALMLEAEGFEQYISGVILHDETVGQKASNGQTFPEYLTARGVVPGIKTDMGLCPLLEGAEGEQMTEGLDGYVKRASAYYKKGCRFCKWRNVYKIQNGTVSESAVRFNAETLARYAILSQMSGLVPIVEPEVMIDGKHDIDTCQRVSEHVWREVVAALQRHGVIWEGCLLKPNMVVPGAESGKTAAPEQVAHYTVMTLARTMPAMLPGVMFLSGGLSEVQASEYLNAINNSPLPRPYFLSFSYARALQSSALKAWGGKESGLAAGRRAFLHRARMNSMAQLGKYKRSDDD 2qaz-a2-m1-cD_2qaz-a2-m1-cC Structure of C. crescentus SspB ortholog Q9A6J2 Q9A6J2 2.7 X-RAY DIFFRACTION 54 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 112 118 2qas-a1-m1-cA_2qas-a1-m2-cA 2qaz-a1-m1-cA_2qaz-a1-m1-cB MQYEAMAQDALRGVVKAALKKAAAPGGLPEPHHLYITFKTKAAGVSGPQDLLSKYPDEMTIVLQHQYWDLAPGETFFSVTLKFGGQPKRLSVPYAALTRFYDPSVQFALQFS PPEDLMQYEAMAQDALRGVVKAALKKAAAPGGLPEPHHLYITFKTKAAGVSGPQDLLSKYPDEMTIVLQHQYWDLAPGETFFSVTLKFGGQPKRLSVPYAALTRFYDPSVQFALQFSA 2qb0-a2-m1-cC_2qb0-a2-m1-cB Structure of the 2TEL crystallization module fused to T4 lysozyme with an Ala-Gly-Pro linker. P41212 P00720 2.56 X-RAY DIFFRACTION 36 0.987 562 (Escherichia coli) 10665 (Tequatrovirus T4) 77 241 SIRLPAHLRLQPIYWSRDDVAQWLKWAENEFSLRPIDSNTFEMNGKALLLLTKEDFRYRSPHSGDELYELLQHILKQ SIRLPAHLRLQPIYWSRDDVAQWLKWAENEFSLRPIDSNTFEMNGKALLLLTKEDFRYRSPHSGDVLYELLQHILKQAGPNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFCQDVDAAVRGILRNAKLKPVYDSLDCVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 2qbu-a1-m1-cA_2qbu-a1-m1-cB Crystal structure of Methanothermobacter thermautotrophicus CbiL O27402 O27402 2.1 X-RAY DIFFRACTION 175 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 228 228 MHGKLIGVGVGPGDSELLTLRAVNVLRSVPVICAPRSSSERESIALSIVEDILTERRDGCRILDPVFPMTDDRDELESHWDSAARMVAAELEDGRDVAFITLGDPSIYSTFSYLQQRIEDMGFKTEMVPGVTSFTACAATAGRTLVEGDEILLVVPRVDDRFERVLRDVDACVIMKTSRHGRRAMEVVESDPRGKDVVSVANCSMDDEVVERGFASGGGYLATTLVRF MHGKLIGVGVGPGDSELLTLRAVNVLRSVPVICAPRSSSERESIALSIVEDILTERRDGCRILDPVFPMTDDRDELESHWDSAARMVAAELEDGRDVAFITLGDPSIYSTFSYLQQRIEDMGFKTEMVPGVTSFTACAATAGRTLVEGDEILLVVPRVDDRFERVLRDVDACVIMKTSRHGRRAMEVVESDPRGKDVVSVANCSMDDEVVERGFASGGGYLATTLVRF 2qbx-a3-m1-cA_2qbx-a3-m1-cB EphB2/SNEW Antagonistic Peptide Complex P29323 P29323 2.3 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 EETLMDSTTATAELGWMVHPPSGWEEVSGYDENMNTIRTYQVCNVFESSQNNWLRTKFIRRRGAHRIHVEMKFSVRDCSSIPSVPGSCKETFNLYYYEADFDSATKTFPNWMENPWVKVDTIAADESFSQVDLGGRVMKINTEVRSFGPVSRSGFYLAFQDYGGCMSLIAVRVFYR EETLMDSTTATAELGWMVHPPSGWEEVSGYDENMNTIRTYQVCNVFESSQNNWLRTKFIRRRGAHRIHVEMKFSVRDCSSIPSVPGSCKETFNLYYYEADFDSATKTFPNWMENPWVKVDTIAADESFSQVDLGGRVMKINTEVRSFGPVSRSGFYLAFQDYGGCMSLIAVRVFYR 2qc7-a2-m1-cB_2qc7-a2-m3-cB Crystal structure of the protein-disulfide isomerase related chaperone ERp29 P30040 P30040 2.9 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 2qc7-a1-m1-cA_2qc7-a1-m2-cA VHTKGALPLDTVTFYKVIPKSKFVLVKFDTQYPYGEKQDEFKRLAENSASSDDLLVAEVGISDYGDKLNMELSEKYKLDKESYPVFYLFRDGDFENPVPYTGAVKVGAIQRWLKGQGVYLGMPGCLPVYDALAGEFIRASGVEARQALLKQGQDNLSSVKETQKKWAEQYLKIMGKILDQGEDFPASEMTRIARLIEKNKMSDGKKEELQKSLNILTAFQKKGA VHTKGALPLDTVTFYKVIPKSKFVLVKFDTQYPYGEKQDEFKRLAENSASSDDLLVAEVGISDYGDKLNMELSEKYKLDKESYPVFYLFRDGDFENPVPYTGAVKVGAIQRWLKGQGVYLGMPGCLPVYDALAGEFIRASGVEARQALLKQGQDNLSSVKETQKKWAEQYLKIMGKILDQGEDFPASEMTRIARLIEKNKMSDGKKEELQKSLNILTAFQKKGA 2qck-a2-m1-cA_2qck-a2-m4-cA Crystal structure of flavin reductase domain protein (YP_831077.1) from Arthrobacter sp. FB24 at 1.90 A resolution A0JVA7 A0JVA7 1.9 X-RAY DIFFRACTION 18 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 155 155 2qck-a2-m2-cA_2qck-a2-m3-cA FEGTFKEFRRHAAGVAIITVNYNGTPYGFTATSVASLSAQPPRFTFNARSSSSWPAIANTTHIGVHLGLDNQELADRFARTKNRFEGDHWELGPYEVPILKDVAGWLIGKIQRLSFENNAVVVVEVVEGQVGEDGTPLLYHSGAYSQPVPLDYEI FEGTFKEFRRHAAGVAIITVNYNGTPYGFTATSVASLSAQPPRFTFNARSSSSWPAIANTTHIGVHLGLDNQELADRFARTKNRFEGDHWELGPYEVPILKDVAGWLIGKIQRLSFENNAVVVVEVVEGQVGEDGTPLLYHSGAYSQPVPLDYEI 2qck-a2-m3-cA_2qck-a2-m4-cA Crystal structure of flavin reductase domain protein (YP_831077.1) from Arthrobacter sp. FB24 at 1.90 A resolution A0JVA7 A0JVA7 1.9 X-RAY DIFFRACTION 176 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 155 155 2qck-a1-m1-cA_2qck-a1-m2-cA 2qck-a2-m1-cA_2qck-a2-m2-cA FEGTFKEFRRHAAGVAIITVNYNGTPYGFTATSVASLSAQPPRFTFNARSSSSWPAIANTTHIGVHLGLDNQELADRFARTKNRFEGDHWELGPYEVPILKDVAGWLIGKIQRLSFENNAVVVVEVVEGQVGEDGTPLLYHSGAYSQPVPLDYEI FEGTFKEFRRHAAGVAIITVNYNGTPYGFTATSVASLSAQPPRFTFNARSSSSWPAIANTTHIGVHLGLDNQELADRFARTKNRFEGDHWELGPYEVPILKDVAGWLIGKIQRLSFENNAVVVVEVVEGQVGEDGTPLLYHSGAYSQPVPLDYEI 2qcq-a1-m1-cA_2qcq-a1-m1-cB Crystal structure of Bone Morphogenetic Protein-3 (BMP-3) P12645 P12645 2.21 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 EPRNCARRYLKVDFADIGWSEWIISPKSFDAYYCSGACQFPMPKSLKPSNHATIQSIVRAVGVVPGIPEPCCVPEKMSSLSILFFDENKNVVLKVYPNMTVESCACR IEPRNCARRYLKVDFADIGWSEWIISPKSFDAYYCSGACQFPMPKSLKPSNHATIQSIVRAVGVVPGIPEPCCVPEKMSSLSILFFDENKNVVLKVYPNMTVESCACR 2qcv-a1-m1-cA_2qcv-a1-m4-cA CRYSTAL STRUCTURE OF a putative 5-dehydro-2-deoxygluconokinase (IOLC) FROM BACILLUS HALODURANS C-125 AT 1.90 A RESOLUTION Q9KAG8 Q9KAG8 1.9 X-RAY DIFFRACTION 42 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 320 320 2qcv-a1-m2-cA_2qcv-a1-m3-cA TYELSTDREFDLIAIGRACIDLNAVEYNRPEETTFSKYVGGSPANIVIGSSKLGLKAGFIGKIADDQHGRFIESYRGVGVDTSNLVVDQEGHKTGLAFTEIKSPEECSILYRQDVADLYLSPEEVNEAYIRRSKLLLVSGTALSKSPSREAVLKAIRLAKRNDVKVVFELDYRPYSWETPEETAVYYSLVAEQSDIVIGTREEFDVLENRTEKGDNDETIRYLFKHSPELIVIKHGVEGSFAYTKAGEAYRGYAYKTKVLKTFGAGDSYASAFLYALISGKGIETALKYGSASASIVVSKAPSVEEIEALIEKDETITIA TYELSTDREFDLIAIGRACIDLNAVEYNRPEETTFSKYVGGSPANIVIGSSKLGLKAGFIGKIADDQHGRFIESYRGVGVDTSNLVVDQEGHKTGLAFTEIKSPEECSILYRQDVADLYLSPEEVNEAYIRRSKLLLVSGTALSKSPSREAVLKAIRLAKRNDVKVVFELDYRPYSWETPEETAVYYSLVAEQSDIVIGTREEFDVLENRTEKGDNDETIRYLFKHSPELIVIKHGVEGSFAYTKAGEAYRGYAYKTKVLKTFGAGDSYASAFLYALISGKGIETALKYGSASASIVVSKAPSVEEIEALIEKDETITIA 2qcv-a1-m3-cA_2qcv-a1-m4-cA CRYSTAL STRUCTURE OF a putative 5-dehydro-2-deoxygluconokinase (IOLC) FROM BACILLUS HALODURANS C-125 AT 1.90 A RESOLUTION Q9KAG8 Q9KAG8 1.9 X-RAY DIFFRACTION 50 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 320 320 2qcv-a1-m1-cA_2qcv-a1-m2-cA TYELSTDREFDLIAIGRACIDLNAVEYNRPEETTFSKYVGGSPANIVIGSSKLGLKAGFIGKIADDQHGRFIESYRGVGVDTSNLVVDQEGHKTGLAFTEIKSPEECSILYRQDVADLYLSPEEVNEAYIRRSKLLLVSGTALSKSPSREAVLKAIRLAKRNDVKVVFELDYRPYSWETPEETAVYYSLVAEQSDIVIGTREEFDVLENRTEKGDNDETIRYLFKHSPELIVIKHGVEGSFAYTKAGEAYRGYAYKTKVLKTFGAGDSYASAFLYALISGKGIETALKYGSASASIVVSKAPSVEEIEALIEKDETITIA TYELSTDREFDLIAIGRACIDLNAVEYNRPEETTFSKYVGGSPANIVIGSSKLGLKAGFIGKIADDQHGRFIESYRGVGVDTSNLVVDQEGHKTGLAFTEIKSPEECSILYRQDVADLYLSPEEVNEAYIRRSKLLLVSGTALSKSPSREAVLKAIRLAKRNDVKVVFELDYRPYSWETPEETAVYYSLVAEQSDIVIGTREEFDVLENRTEKGDNDETIRYLFKHSPELIVIKHGVEGSFAYTKAGEAYRGYAYKTKVLKTFGAGDSYASAFLYALISGKGIETALKYGSASASIVVSKAPSVEEIEALIEKDETITIA 2qcw-a1-m1-cA_2qcw-a1-m1-cB Crystal Structure of Bone Morphogenetic Protein-6 (BMP-6) P22004 P22004 2.49 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 2r52-a1-m1-cA_2r52-a1-m1-cB 2r53-a1-m1-cA_2r53-a1-m1-cB 6omo-a1-m1-cI_6omo-a1-m1-cJ TACRKHELYVSFQDLGWQDWIIAPKGYAANYCDGECSFPLNAHMNATNHAIVQTLVHLMNPEYVPKPCCAPTKLNAISVLYFDDNSNVILKKYRNMVVRACGCH TACRKHELYVSFQDLGWQDWIIAPKGYAANYCDGECSFPLNAHMNATNHAIVQTLVHLMNPEYVPKPCCAPTKLNAISVLYFDDNSNVILKKYRNMVVRACGCH 2qcx-a1-m1-cA_2qcx-a1-m2-cB Crystal structure of Bacillus subtilis TenA Y112F mutant complexed with formyl aminomethyl pyrimidine P25052 P25052 2.2 X-RAY DIFFRACTION 90 0.995 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 222 227 1to9-a2-m1-cB_1to9-a2-m2-cA 1to9-a2-m2-cB_1to9-a2-m1-cA 1tyh-a1-m1-cA_1tyh-a1-m1-cE 1tyh-a1-m1-cB_1tyh-a1-m1-cD 1yaf-a1-m1-cC_1yaf-a1-m1-cA 1yaf-a1-m1-cD_1yaf-a1-m1-cB 1yak-a1-m1-cB_1yak-a1-m2-cA 1yak-a1-m2-cB_1yak-a1-m1-cA 1yak-a2-m1-cD_1yak-a2-m3-cC 1yak-a2-m3-cD_1yak-a2-m1-cC 2qcx-a1-m2-cA_2qcx-a1-m1-cB QGMKFSEECRSAAAEWWEGSFVHPFVQGIGDGTLPIDRFKYYVLQDSYYLTHFAKVQSFGAAYAKDLYTTGRMASHAQGTYEAEMALHREFAELLEISEEERKAFKPSPTAYSFTSHMYRSVLSGNFAEILAALLPCYWLYYEVGEKLLHCDPGHPIYQKWIGTYGGDWFRQQVEEQINRFDELAENSTEEVRAKMKENFVISSYYEYQFWGMAYRKEGWSD GMKFSEECRSAAAEWWEGSFVHPFVQGIGDGTLPIDRFKYYVLQDSYYLTHFAKVQSFGAAYAKDLYTTGRMASHAQGTYEAEMALHREFAELLEISEEERKAFKPSPTAYSFTSHMYRSVLSGNFAEILAALLPCYWLYYEVGEKLLHCDPGHPIYQKWIGTYGGDWFRQQVEEQINRFDELAENSTEEVRAKMKENFVISSYYEYQFWGMAYRKEGWSDSAIKEV 2qcx-a1-m2-cA_2qcx-a1-m2-cB Crystal structure of Bacillus subtilis TenA Y112F mutant complexed with formyl aminomethyl pyrimidine P25052 P25052 2.2 X-RAY DIFFRACTION 44 0.995 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 222 227 1to9-a1-m1-cB_1to9-a1-m1-cA 1to9-a2-m1-cB_1to9-a2-m1-cA 1to9-a2-m2-cB_1to9-a2-m2-cA 1tyh-a1-m1-cA_1tyh-a1-m1-cD 1tyh-a1-m1-cB_1tyh-a1-m1-cE 1yaf-a1-m1-cC_1yaf-a1-m1-cB 1yaf-a1-m1-cD_1yaf-a1-m1-cA 1yak-a1-m1-cB_1yak-a1-m1-cA 1yak-a1-m2-cB_1yak-a1-m2-cA 1yak-a2-m1-cD_1yak-a2-m1-cC 1yak-a2-m3-cD_1yak-a2-m3-cC 2qcx-a1-m1-cA_2qcx-a1-m1-cB QGMKFSEECRSAAAEWWEGSFVHPFVQGIGDGTLPIDRFKYYVLQDSYYLTHFAKVQSFGAAYAKDLYTTGRMASHAQGTYEAEMALHREFAELLEISEEERKAFKPSPTAYSFTSHMYRSVLSGNFAEILAALLPCYWLYYEVGEKLLHCDPGHPIYQKWIGTYGGDWFRQQVEEQINRFDELAENSTEEVRAKMKENFVISSYYEYQFWGMAYRKEGWSD GMKFSEECRSAAAEWWEGSFVHPFVQGIGDGTLPIDRFKYYVLQDSYYLTHFAKVQSFGAAYAKDLYTTGRMASHAQGTYEAEMALHREFAELLEISEEERKAFKPSPTAYSFTSHMYRSVLSGNFAEILAALLPCYWLYYEVGEKLLHCDPGHPIYQKWIGTYGGDWFRQQVEEQINRFDELAENSTEEVRAKMKENFVISSYYEYQFWGMAYRKEGWSDSAIKEV 2qde-a1-m1-cA_2qde-a1-m1-cH Crystal structure of mandelate racemase/muconate lactonizing family protein from Azoarcus sp. EbN1 Q5P025 Q5P025 1.93 X-RAY DIFFRACTION 88 1.0 76114 (Aromatoleum aromaticum EbN1) 76114 (Aromatoleum aromaticum EbN1) 375 375 2qde-a1-m1-cB_2qde-a1-m1-cD 2qde-a1-m1-cC_2qde-a1-m1-cF 2qde-a1-m1-cE_2qde-a1-m1-cG LKITKVEVIPISTPMKRIDGVLLKLHSDEGLVGIADAGDTSSWYRGETQDSITSMICDFFAPKVLLGEDPTKIEKIVGRMDILTRDNNQAKATVDFALHDLVGKRFGVPVYQLLGGKTIERIPLGLVLGAGEPEAVAEEALAVLREGFHFVKLKAGGPLKADIAMVAEVRRAVGDDVDLFIDINGAWTYDQALTTIRALEKYNLSKIEQPLPAWDLDGMARLRGKVATPIYADESAQELHDLLAIINKGAADGLMIKTQKAGGLLKAQRWLTLARLANLPVICGCMVGSGLEASPAAHLLAANDWIAQFPQENAGPLHIHDCLNSRDIDNDIALNVPRFEGGYLYPNDGPGLGIELNEDLVRRLVTPGKAARVVT LKITKVEVIPISTPMKRIDGVLLKLHSDEGLVGIADAGDTSSWYRGETQDSITSMICDFFAPKVLLGEDPTKIEKIVGRMDILTRDNNQAKATVDFALHDLVGKRFGVPVYQLLGGKTIERIPLGLVLGAGEPEAVAEEALAVLREGFHFVKLKAGGPLKADIAMVAEVRRAVGDDVDLFIDINGAWTYDQALTTIRALEKYNLSKIEQPLPAWDLDGMARLRGKVATPIYADESAQELHDLLAIINKGAADGLMIKTQKAGGLLKAQRWLTLARLANLPVICGCMVGSGLEASPAAHLLAANDWIAQFPQENAGPLHIHDCLNSRDIDNDIALNVPRFEGGYLYPNDGPGLGIELNEDLVRRLVTPGKAARVVT 2qde-a1-m1-cE_2qde-a1-m1-cH Crystal structure of mandelate racemase/muconate lactonizing family protein from Azoarcus sp. EbN1 Q5P025 Q5P025 1.93 X-RAY DIFFRACTION 30 1.0 76114 (Aromatoleum aromaticum EbN1) 76114 (Aromatoleum aromaticum EbN1) 375 375 2qde-a1-m1-cA_2qde-a1-m1-cD 2qde-a1-m1-cA_2qde-a1-m1-cG 2qde-a1-m1-cB_2qde-a1-m1-cC 2qde-a1-m1-cB_2qde-a1-m1-cH 2qde-a1-m1-cC_2qde-a1-m1-cE 2qde-a1-m1-cD_2qde-a1-m1-cF 2qde-a1-m1-cF_2qde-a1-m1-cG LKITKVEVIPISTPMKRIDGVLLKLHSDEGLVGIADAGDTSSWYRGETQDSITSMICDFFAPKVLLGEDPTKIEKIVGRMDILTRDNNQAKATVDFALHDLVGKRFGVPVYQLLGGKTIERIPLGLVLGAGEPEAVAEEALAVLREGFHFVKLKAGGPLKADIAMVAEVRRAVGDDVDLFIDINGAWTYDQALTTIRALEKYNLSKIEQPLPAWDLDGMARLRGKVATPIYADESAQELHDLLAIINKGAADGLMIKTQKAGGLLKAQRWLTLARLANLPVICGCMVGSGLEASPAAHLLAANDWIAQFPQENAGPLHIHDCLNSRDIDNDIALNVPRFEGGYLYPNDGPGLGIELNEDLVRRLVTPGKAARVVT LKITKVEVIPISTPMKRIDGVLLKLHSDEGLVGIADAGDTSSWYRGETQDSITSMICDFFAPKVLLGEDPTKIEKIVGRMDILTRDNNQAKATVDFALHDLVGKRFGVPVYQLLGGKTIERIPLGLVLGAGEPEAVAEEALAVLREGFHFVKLKAGGPLKADIAMVAEVRRAVGDDVDLFIDINGAWTYDQALTTIRALEKYNLSKIEQPLPAWDLDGMARLRGKVATPIYADESAQELHDLLAIINKGAADGLMIKTQKAGGLLKAQRWLTLARLANLPVICGCMVGSGLEASPAAHLLAANDWIAQFPQENAGPLHIHDCLNSRDIDNDIALNVPRFEGGYLYPNDGPGLGIELNEDLVRRLVTPGKAARVVT 2qde-a1-m1-cG_2qde-a1-m1-cH Crystal structure of mandelate racemase/muconate lactonizing family protein from Azoarcus sp. EbN1 Q5P025 Q5P025 1.93 X-RAY DIFFRACTION 69 1.0 76114 (Aromatoleum aromaticum EbN1) 76114 (Aromatoleum aromaticum EbN1) 375 375 2qde-a1-m1-cA_2qde-a1-m1-cB 2qde-a1-m1-cC_2qde-a1-m1-cD 2qde-a1-m1-cE_2qde-a1-m1-cF LKITKVEVIPISTPMKRIDGVLLKLHSDEGLVGIADAGDTSSWYRGETQDSITSMICDFFAPKVLLGEDPTKIEKIVGRMDILTRDNNQAKATVDFALHDLVGKRFGVPVYQLLGGKTIERIPLGLVLGAGEPEAVAEEALAVLREGFHFVKLKAGGPLKADIAMVAEVRRAVGDDVDLFIDINGAWTYDQALTTIRALEKYNLSKIEQPLPAWDLDGMARLRGKVATPIYADESAQELHDLLAIINKGAADGLMIKTQKAGGLLKAQRWLTLARLANLPVICGCMVGSGLEASPAAHLLAANDWIAQFPQENAGPLHIHDCLNSRDIDNDIALNVPRFEGGYLYPNDGPGLGIELNEDLVRRLVTPGKAARVVT LKITKVEVIPISTPMKRIDGVLLKLHSDEGLVGIADAGDTSSWYRGETQDSITSMICDFFAPKVLLGEDPTKIEKIVGRMDILTRDNNQAKATVDFALHDLVGKRFGVPVYQLLGGKTIERIPLGLVLGAGEPEAVAEEALAVLREGFHFVKLKAGGPLKADIAMVAEVRRAVGDDVDLFIDINGAWTYDQALTTIRALEKYNLSKIEQPLPAWDLDGMARLRGKVATPIYADESAQELHDLLAIINKGAADGLMIKTQKAGGLLKAQRWLTLARLANLPVICGCMVGSGLEASPAAHLLAANDWIAQFPQENAGPLHIHDCLNSRDIDNDIALNVPRFEGGYLYPNDGPGLGIELNEDLVRRLVTPGKAARVVT 2qdo-a2-m1-cB_2qdo-a2-m1-cA NblA protein from T. vulcanus A7LBW5 A7LBW5 2.5 X-RAY DIFFRACTION 98 1.0 455064 (Thermostichus vulcanus str. Copeland) 455064 (Thermostichus vulcanus str. Copeland) 52 53 2qdo-a1-m1-cD_2qdo-a1-m1-cC DLSFEQEFQMRVMEEQVSAMSLQEARELLLQASRLLMMKDNVIRSLVKRAAR VDLSFEQEFQMRVMEEQVSAMSLQEARELLLQASRLLMMKDNVIRSLVKRAAR 2qdq-a1-m1-cB_2qdq-a1-m1-cA Crystal structure of the talin dimerisation domain P26039 P26039 2.2 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 33 34 GIAQIIAAQEEMLRKERELEEARKKLAQIRQQQ GGIAQIIAAQEEMLRKERELEEARKKLAQIRQQQ 2qdr-a1-m4-cB_2qdr-a1-m3-cA Crystal structure of a putative dioxygenase (npun_f5605) from nostoc punctiforme pcc 73102 at 2.60 A resolution B2J7U5 B2J7U5 2.6 X-RAY DIFFRACTION 52 0.996 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 279 280 2qdr-a1-m1-cB_2qdr-a1-m2-cA 2qdr-a1-m1-cB_2qdr-a1-m3-cA 2qdr-a1-m2-cB_2qdr-a1-m1-cA 2qdr-a1-m2-cB_2qdr-a1-m4-cA 2qdr-a1-m3-cB_2qdr-a1-m1-cA 2qdr-a1-m3-cB_2qdr-a1-m4-cA 2qdr-a1-m4-cB_2qdr-a1-m2-cA HIASVKEDWGGDGRGRNLSGRRTAIAKEYLPRQYQFFDTNTVEKQGWRVRGPDNIAPGSRRLLTWHDSGASTSRVVLPPKFEAPSGIFTADLEIFVIKGAIQLGEWQLNKHSYSFIPAGVRIGSWKVLGGEEAEILWENGSVPLEYKYAQEDHPDARLSDFIPALDSKLLPWGKADTVQFVQANKKWLRKDINGGGVWLLAILPHFDNKYQIQPYNEEGYCLTGYCDVGDYRIVKDHYWYCPSFSTLPRHITDDGGLFFVRVDRDLSKVATVLSYAPQD FLHIASVKEDWGGDGRGRNLSGRRTAIAKEYLPRQYQFFDTNTVEKQGWRVRGPDNIAPGSRRLLTWHDSGASTSRVVLPPKFEAPSGIFTADLEIFVIKGAIQLGEWQLNKHSYSFIPAGVRIGSWKVLGGEEAEILWENGSVPLEYKYAQEDHPDARLSDFIPALDSKLLPWGKADTVQFVQANKKWLRKDINGGGVWLLAILPHFDNKYQIQPYNEEGYCLTGYCDVGDYRIVKDHYWYCPSFSTLPRHITDDGGLFFVRVDRDLSKVATVLSYAPQ 2qdr-a1-m4-cB_2qdr-a1-m4-cA Crystal structure of a putative dioxygenase (npun_f5605) from nostoc punctiforme pcc 73102 at 2.60 A resolution B2J7U5 B2J7U5 2.6 X-RAY DIFFRACTION 53 0.996 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 279 280 2qdr-a1-m1-cB_2qdr-a1-m1-cA 2qdr-a1-m2-cB_2qdr-a1-m2-cA 2qdr-a1-m3-cB_2qdr-a1-m3-cA HIASVKEDWGGDGRGRNLSGRRTAIAKEYLPRQYQFFDTNTVEKQGWRVRGPDNIAPGSRRLLTWHDSGASTSRVVLPPKFEAPSGIFTADLEIFVIKGAIQLGEWQLNKHSYSFIPAGVRIGSWKVLGGEEAEILWENGSVPLEYKYAQEDHPDARLSDFIPALDSKLLPWGKADTVQFVQANKKWLRKDINGGGVWLLAILPHFDNKYQIQPYNEEGYCLTGYCDVGDYRIVKDHYWYCPSFSTLPRHITDDGGLFFVRVDRDLSKVATVLSYAPQD FLHIASVKEDWGGDGRGRNLSGRRTAIAKEYLPRQYQFFDTNTVEKQGWRVRGPDNIAPGSRRLLTWHDSGASTSRVVLPPKFEAPSGIFTADLEIFVIKGAIQLGEWQLNKHSYSFIPAGVRIGSWKVLGGEEAEILWENGSVPLEYKYAQEDHPDARLSDFIPALDSKLLPWGKADTVQFVQANKKWLRKDINGGGVWLLAILPHFDNKYQIQPYNEEGYCLTGYCDVGDYRIVKDHYWYCPSFSTLPRHITDDGGLFFVRVDRDLSKVATVLSYAPQ 2qe4-a1-m1-cB_2qe4-a1-m1-cA Estrogen receptor alpha ligand-binding domain in complex with a benzopyran agonist P03372 P03372 2.4 X-RAY DIFFRACTION 88 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 204 207 1a52-a1-m1-cA_1a52-a1-m1-cB 1a52-a2-m1-cA_1a52-a2-m1-cB 1a52-a2-m2-cA_1a52-a2-m2-cB 1ere-a1-m1-cA_1ere-a1-m1-cB 1ere-a2-m1-cC_1ere-a2-m1-cD 1ere-a3-m1-cE_1ere-a3-m1-cF 1g50-a1-m1-cA_1g50-a1-m2-cA 1g50-a2-m1-cC_1g50-a2-m1-cB 1gwq-a1-m1-cB_1gwq-a1-m1-cA 1l2i-a1-m1-cB_1l2i-a1-m1-cA 1pcg-a1-m1-cA_1pcg-a1-m1-cB 1qkt-a1-m1-cA_1qkt-a1-m2-cA 1qku-a1-m1-cA_1qku-a1-m2-cA 1qku-a2-m1-cB_1qku-a2-m1-cC 1r5k-a1-m1-cB_1r5k-a1-m1-cA 1r5k-a2-m1-cC_1r5k-a2-m2-cC 1sj0-a1-m1-cA_1sj0-a1-m2-cA 1uom-a1-m1-cA_1uom-a1-m2-cA 1x7e-a1-m1-cA_1x7e-a1-m1-cB 1x7r-a1-m1-cA_1x7r-a1-m2-cA 1xp1-a1-m1-cA_1xp1-a1-m2-cA 1xp6-a1-m1-cA_1xp6-a1-m2-cA 1xp9-a1-m1-cA_1xp9-a1-m2-cA 1xpc-a1-m1-cA_1xpc-a1-m2-cA 1xqc-a1-m1-cB_1xqc-a1-m1-cA 1xqc-a2-m1-cD_1xqc-a2-m1-cC 1yim-a1-m1-cA_1yim-a1-m2-cA 1yin-a1-m1-cA_1yin-a1-m2-cA 1zky-a1-m1-cA_1zky-a1-m1-cB 2ayr-a1-m1-cA_2ayr-a1-m2-cA 2b1v-a1-m1-cA_2b1v-a1-m1-cB 2b1z-a1-m1-cA_2b1z-a1-m1-cB 2b23-a1-m1-cA_2b23-a1-m1-cB 2bj4-a1-m1-cA_2bj4-a1-m1-cB 2fai-a1-m1-cA_2fai-a1-m1-cB 2g44-a1-m1-cA_2g44-a1-m1-cB 2g5o-a1-m1-cA_2g5o-a1-m1-cB 2iog-a1-m1-cA_2iog-a1-m2-cA 2iok-a1-m1-cA_2iok-a1-m1-cB 2jf9-a1-m1-cB_2jf9-a1-m1-cA 2jf9-a1-m1-cC_2jf9-a1-m2-cC 2jf9-a1-m2-cB_2jf9-a1-m2-cA 2jfa-a1-m1-cA_2jfa-a1-m1-cB 2ocf-a1-m1-cA_2ocf-a1-m2-cA 2ouz-a1-m1-cA_2ouz-a1-m2-cA 2p15-a1-m1-cA_2p15-a1-m1-cB 2pog-a1-m1-cB_2pog-a1-m1-cA 2q6j-a1-m1-cB_2q6j-a1-m1-cA 2q70-a1-m1-cB_2q70-a1-m1-cA 2qa6-a1-m1-cB_2qa6-a1-m1-cA 2qa8-a1-m1-cA_2qa8-a1-m1-cB 2qab-a1-m1-cA_2qab-a1-m1-cB 2qgt-a1-m1-cA_2qgt-a1-m1-cB 2qgw-a1-m1-cA_2qgw-a1-m1-cB 2qh6-a1-m1-cB_2qh6-a1-m1-cA 2qr9-a1-m1-cA_2qr9-a1-m1-cB 2qse-a1-m1-cA_2qse-a1-m1-cB 2qxm-a1-m1-cA_2qxm-a1-m1-cB 2qxs-a1-m1-cB_2qxs-a1-m1-cA 2qzo-a1-m1-cA_2qzo-a1-m1-cB 2r6w-a1-m1-cB_2r6w-a1-m1-cA 2r6y-a1-m1-cB_2r6y-a1-m1-cA 2yat-a1-m1-cA_2yat-a1-m2-cA 2yja-a1-m1-cB_2yja-a1-m2-cB 3dt3-a1-m1-cA_3dt3-a1-m1-cB 3erd-a1-m1-cB_3erd-a1-m1-cA 3ert-a1-m1-cA_3ert-a1-m2-cA 3hlv-a1-m1-cA_3hlv-a1-m1-cB 3hm1-a1-m1-cA_3hm1-a1-m1-cB 3l03-a1-m1-cA_3l03-a1-m1-cB 3os8-a1-m1-cC_3os8-a1-m1-cA 3os8-a2-m1-cD_3os8-a2-m1-cB 3os9-a1-m1-cC_3os9-a1-m1-cA 3os9-a2-m1-cD_3os9-a2-m1-cB 3osa-a1-m1-cC_3osa-a1-m1-cA 3osa-a2-m1-cD_3osa-a2-m1-cB 3uu7-a1-m1-cB_3uu7-a1-m1-cA 3uua-a1-m1-cB_3uua-a1-m1-cA 3uud-a1-m1-cB_3uud-a1-m1-cA 4dma-a1-m1-cB_4dma-a1-m1-cA 4iv2-a1-m1-cA_4iv2-a1-m1-cB 4ivw-a3-m1-cA_4ivw-a3-m1-cB 4ivy-a1-m1-cA_4ivy-a1-m1-cB 4iw6-a1-m1-cA_4iw6-a1-m1-cB 4iw8-a1-m1-cB_4iw8-a1-m1-cA 4iwc-a1-m1-cA_4iwc-a1-m1-cB 4iwf-a1-m1-cB_4iwf-a1-m1-cA 4mg5-a1-m1-cB_4mg5-a1-m1-cA 4mg8-a1-m1-cB_4mg8-a1-m1-cA 4mg9-a1-m1-cB_4mg9-a1-m1-cA 4mga-a1-m1-cB_4mga-a1-m1-cA 4mgb-a1-m1-cB_4mgb-a1-m1-cA 4mgc-a1-m1-cB_4mgc-a1-m1-cA 4mgd-a1-m1-cB_4mgd-a1-m1-cA 4pp6-a1-m1-cB_4pp6-a1-m1-cA 4ppp-a1-m1-cA_4ppp-a1-m1-cB 4pps-a1-m1-cB_4pps-a1-m1-cA 4pxm-a1-m1-cB_4pxm-a1-m1-cA 4q50-a4-m1-cD_4q50-a4-m1-cH 4q50-a5-m1-cD_4q50-a5-m1-cH 4tuz-a1-m1-cA_4tuz-a1-m1-cB 4tv1-a1-m1-cB_4tv1-a1-m1-cA 4xi3-a1-m1-cA_4xi3-a1-m1-cC 4xi3-a2-m1-cD_4xi3-a2-m1-cB 4zn7-a1-m1-cA_4zn7-a1-m1-cB 4zn9-a1-m1-cB_4zn9-a1-m1-cA 4znh-a1-m1-cB_4znh-a1-m1-cA 4zns-a1-m1-cA_4zns-a1-m1-cB 4znu-a1-m1-cB_4znu-a1-m1-cA 4znv-a1-m1-cA_4znv-a1-m1-cB 4znw-a1-m1-cB_4znw-a1-m1-cA 5aav-a1-m1-cB_5aav-a1-m1-cA 5acc-a1-m1-cA_5acc-a1-m2-cA 5di7-a1-m1-cA_5di7-a1-m1-cB 5did-a1-m1-cA_5did-a1-m1-cB 5die-a1-m1-cB_5die-a1-m1-cA 5dig-a1-m1-cA_5dig-a1-m1-cB 5dk9-a1-m1-cA_5dk9-a1-m1-cB 5dkb-a1-m1-cA_5dkb-a1-m1-cB 5dke-a1-m1-cA_5dke-a1-m1-cB 5dkg-a1-m1-cA_5dkg-a1-m1-cB 5dl4-a1-m1-cA_5dl4-a1-m1-cB 5dlr-a1-m1-cA_5dlr-a1-m1-cB 5dmc-a1-m1-cA_5dmc-a1-m1-cB 5dmf-a1-m1-cB_5dmf-a1-m1-cA 5dp0-a1-m1-cA_5dp0-a1-m1-cB 5drj-a1-m1-cA_5drj-a1-m1-cB 5drm-a1-m1-cB_5drm-a1-m1-cA 5dtv-a1-m1-cA_5dtv-a1-m1-cB 5du5-a1-m1-cA_5du5-a1-m1-cB 5due-a1-m1-cA_5due-a1-m1-cB 5dug-a1-m1-cA_5dug-a1-m1-cB 5duh-a1-m1-cB_5duh-a1-m1-cA 5dvs-a1-m1-cB_5dvs-a1-m1-cA 5dwe-a1-m1-cB_5dwe-a1-m1-cA 5dwi-a1-m1-cB_5dwi-a1-m1-cA 5dx3-a1-m1-cB_5dx3-a1-m1-cA 5dxe-a1-m1-cB_5dxe-a1-m1-cA 5dxg-a1-m1-cB_5dxg-a1-m1-cA 5dxk-a1-m1-cA_5dxk-a1-m1-cB 5dxm-a1-m1-cA_5dxm-a1-m1-cB 5dxp-a1-m1-cA_5dxp-a1-m1-cB 5dxq-a1-m1-cA_5dxq-a1-m1-cB 5dxr-a1-m1-cA_5dxr-a1-m1-cB 5dyb-a1-m1-cA_5dyb-a1-m1-cB 5dz1-a1-m1-cA_5dz1-a1-m1-cB 5dz3-a1-m1-cA_5dz3-a1-m1-cB 5dzi-a1-m1-cA_5dzi-a1-m1-cB 5e14-a1-m1-cA_5e14-a1-m1-cB 5e19-a1-m1-cA_5e19-a1-m1-cB 5e1c-a1-m1-cA_5e1c-a1-m1-cB 5egv-a1-m1-cA_5egv-a1-m1-cB 5ehj-a1-m1-cA_5ehj-a1-m1-cB 5eit-a1-m1-cA_5eit-a1-m1-cB 5fqp-a1-m1-cA_5fqp-a1-m2-cA 5fqr-a1-m1-cA_5fqr-a1-m2-cA 5fqs-a1-m1-cA_5fqs-a1-m2-cA 5fqt-a1-m1-cA_5fqt-a1-m2-cA 5fqv-a1-m1-cA_5fqv-a1-m2-cA 5hyr-a1-m1-cB_5hyr-a1-m1-cA 5kcc-a1-m1-cB_5kcc-a1-m1-cA 5kcd-a1-m1-cB_5kcd-a1-m1-cA 5kct-a1-m1-cB_5kct-a1-m1-cA 5kcw-a1-m1-cB_5kcw-a1-m1-cA 5kd9-a1-m1-cB_5kd9-a1-m1-cA 5kr9-a1-m1-cB_5kr9-a1-m1-cA 5kra-a1-m1-cA_5kra-a1-m1-cB 5kra-a2-m1-cE_5kra-a2-m1-cF 5krc-a1-m1-cA_5krc-a1-m1-cB 5krh-a1-m1-cA_5krh-a1-m1-cB 5kri-a1-m1-cB_5kri-a1-m1-cA 5krl-a1-m1-cB_5krl-a1-m1-cA 5krm-a1-m1-cA_5krm-a1-m1-cB 5t1z-a1-m1-cB_5t1z-a1-m1-cA 5tld-a1-m1-cA_5tld-a1-m1-cB 5tlf-a1-m1-cB_5tlf-a1-m1-cA 5tlg-a1-m1-cA_5tlg-a1-m1-cB 5tll-a1-m1-cB_5tll-a1-m1-cA 5tlp-a1-m1-cB_5tlp-a1-m1-cA 5tlt-a1-m1-cA_5tlt-a1-m1-cB 5tlu-a1-m1-cA_5tlu-a1-m1-cB 5tlv-a1-m1-cA_5tlv-a1-m1-cB 5tlx-a1-m1-cA_5tlx-a1-m1-cB 5tly-a1-m1-cA_5tly-a1-m1-cB 5tm2-a1-m1-cA_5tm2-a1-m1-cB 5tm3-a1-m1-cA_5tm3-a1-m1-cB 5tm4-a1-m1-cB_5tm4-a1-m1-cA 5tm5-a1-m1-cB_5tm5-a1-m1-cA 5tm6-a1-m1-cA_5tm6-a1-m1-cB 5tm7-a1-m1-cA_5tm7-a1-m1-cB 5tm8-a1-m1-cB_5tm8-a1-m1-cA 5tm9-a1-m1-cB_5tm9-a1-m1-cA 5tmm-a1-m1-cB_5tmm-a1-m1-cA 5tmo-a1-m1-cA_5tmo-a1-m1-cB 5tmq-a1-m1-cA_5tmq-a1-m1-cB 5tmr-a1-m1-cB_5tmr-a1-m1-cA 5tms-a1-m1-cA_5tms-a1-m1-cB 5tmt-a1-m1-cB_5tmt-a1-m1-cA 5tmu-a1-m1-cB_5tmu-a1-m1-cA 5tmv-a1-m1-cA_5tmv-a1-m1-cB 5tmz-a1-m1-cA_5tmz-a1-m1-cB 5tn1-a1-m1-cA_5tn1-a1-m1-cB 5tn3-a1-m1-cA_5tn3-a1-m1-cB 5tn4-a1-m1-cA_5tn4-a1-m1-cB 5tn5-a1-m1-cA_5tn5-a1-m1-cB 5tn6-a1-m1-cB_5tn6-a1-m1-cA 5tn7-a1-m1-cB_5tn7-a1-m1-cA 5tn8-a1-m1-cA_5tn8-a1-m1-cB 5u2b-a2-m1-cD_5u2b-a2-m1-cC 5u2d-a1-m1-cB_5u2d-a1-m1-cA 5ufw-a1-m1-cB_5ufw-a1-m1-cA 5w9d-a1-m1-cB_5w9d-a1-m1-cA 5wgd-a1-m1-cB_5wgd-a1-m1-cA 5wgq-a1-m1-cB_5wgq-a1-m1-cA 6chw-a1-m1-cA_6chw-a1-m2-cA 6chz-a1-m1-cA_6chz-a1-m2-cA 6d0f-a1-m1-cA_6d0f-a1-m1-cB 6df6-a1-m1-cB_6df6-a1-m1-cA 6df6-a2-m1-cD_6df6-a2-m1-cC 6dfn-a1-m1-cB_6dfn-a1-m1-cA 6dfn-a2-m1-cD_6dfn-a2-m1-cC 6pet-a1-m1-cA_6pet-a1-m1-cD 6pet-a2-m1-cB_6pet-a2-m1-cC 6pfm-a1-m1-cA_6pfm-a1-m1-cD 6psj-a1-m1-cB_6psj-a1-m1-cA 6sbo-a1-m1-cA_6sbo-a1-m1-cB 6sq0-a1-m1-cB_6sq0-a1-m1-cA 6suo-a1-m1-cB_6suo-a1-m1-cA 6vjd-a1-m1-cA_6vjd-a1-m1-cB 6vjd-a2-m1-cD_6vjd-a2-m1-cC 6vpf-a1-m1-cD_6vpf-a1-m1-cB 6vpf-a2-m1-cA_6vpf-a2-m2-cC 6wok-a2-m1-cB_6wok-a2-m1-cC 6zor-a1-m1-cB_6zor-a1-m1-cA 7jhd-a1-m1-cB_7jhd-a1-m1-cA 7kbs-a1-m1-cB_7kbs-a1-m1-cA 7msa-a1-m1-cA_7msa-a1-m1-cD 7msa-a2-m1-cC_7msa-a2-m1-cB 7n9o-a1-m1-cB_7n9o-a1-m1-cA 7n9o-a2-m1-cD_7n9o-a2-m1-cC 7r62-a1-m1-cA_7r62-a1-m2-cA 7rnm-a1-m1-cA_7rnm-a1-m1-cB 7rrz-a1-m1-cB_7rrz-a1-m1-cA 7rrz-a2-m1-cD_7rrz-a2-m1-cC 7rs0-a1-m1-cB_7rs0-a1-m1-cA 7rs0-a2-m1-cD_7rs0-a2-m1-cC 7rs2-a2-m1-cD_7rs2-a2-m1-cC 7rs3-a2-m1-cC_7rs3-a2-m1-cD 7rs4-a1-m1-cA_7rs4-a1-m1-cB 7rs7-a1-m1-cB_7rs7-a1-m1-cA 7rs7-a2-m1-cD_7rs7-a2-m1-cC 7rs8-a2-m1-cD_7rs8-a2-m1-cC 7rs9-a1-m1-cB_7rs9-a1-m1-cA 7rs9-a2-m1-cD_7rs9-a2-m1-cC 7te7-a1-m1-cA_7te7-a1-m2-cA 7ujc-a1-m1-cB_7ujc-a1-m1-cA 7ujm-a1-m1-cA_7ujm-a1-m1-cB 7ujm-a2-m1-cD_7ujm-a2-m1-cC 7ujo-a1-m1-cA_7ujo-a1-m1-cB 7ujo-a2-m1-cC_7ujo-a2-m2-cD 7ujw-a1-m1-cC_7ujw-a1-m1-cB 7ujw-a2-m1-cA_7ujw-a2-m2-cD 7ujy-a2-m1-cD_7ujy-a2-m1-cC 7wnv-a2-m1-cC_7wnv-a2-m1-cD 8du6-a1-m1-cB_8du6-a1-m1-cA 8du8-a1-m1-cB_8du8-a1-m1-cA 8dub-a1-m1-cB_8dub-a1-m1-cA 8duc-a1-m1-cA_8duc-a1-m2-cA 8dud-a1-m1-cA_8dud-a1-m2-cA 8dug-a1-m1-cB_8dug-a1-m1-cA 8duh-a1-m1-cB_8duh-a1-m1-cA 8dui-a1-m1-cB_8dui-a1-m1-cA 8dus-a1-m1-cB_8dus-a1-m1-cA 8dus-a2-m1-cF_8dus-a2-m1-cE 8dus-a3-m1-cH_8dus-a3-m1-cG 8dv5-a1-m1-cB_8dv5-a1-m1-cA 8dvb-a1-m1-cB_8dvb-a1-m1-cA LALSLTADQMVSALLDAEPPILYSESMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKSVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSM LALSLTADQMVSALLDAEPPILYSEPFSEASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKSVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSM 2qe6-a4-m1-cA_2qe6-a4-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE METHYLTRANSFERASE (TFU_2867) FROM THERMOBIFIDA FUSCA YX AT 1.95 A RESOLUTION Q47KX2 Q47KX2 1.95 X-RAY DIFFRACTION 21 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 259 259 2qe6-a3-m1-cB_2qe6-a3-m2-cB SVWPPPGLDFSKPTIARVYDALLGGKDNFEADRALADYACKIPGLKESAIENRKVLVRGVRFLAGEAGISQFLDLGSGLPTVQNTHEVAQSVNPDARVVYVDIDPVLTHGRALLAKDPNTAVFTADVRDPEYILNHPDVRRIDFSRPAAILVGLHYLSPDVVDRVVGAYRDALAPGSYLFTSLVDTGLPAQQKLARITRENLGEGWARTPEEIERQFGDFELVEPGVVYTALWRPDEPVDPDNLSPGEQLGAGIGRKKA SVWPPPGLDFSKPTIARVYDALLGGKDNFEADRALADYACKIPGLKESAIENRKVLVRGVRFLAGEAGISQFLDLGSGLPTVQNTHEVAQSVNPDARVVYVDIDPVLTHGRALLAKDPNTAVFTADVRDPEYILNHPDVRRIDFSRPAAILVGLHYLSPDVVDRVVGAYRDALAPGSYLFTSLVDTGLPAQQKLARITRENLGEGWARTPEEIERQFGDFELVEPGVVYTALWRPDEPVDPDNLSPGEQLGAGIGRKKA 2qe8-a2-m2-cB_2qe8-a2-m1-cA Crystal structure of a putative hydrolase (ava_4197) from anabaena variabilis atcc 29413 at 1.35 A resolution Q3M5E0 Q3M5E0 1.35 X-RAY DIFFRACTION 28 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 332 333 2qe8-a2-m1-cB_2qe8-a2-m2-cA RLEVVAELSLAPGNITLTPDGRLFLSLHQFYQPEQVAELTQDGLIPFPPQSGNAIITFDTVLGIKSDGNGIVWLDNGNQSKSVPKLVAWDTLNNQLSRVIYLPPPITLSNSFVNDLAVDLIHNFVYISDPAPDDKAALIRVDLQTGLAARVLQGYPGIAPEDIDLVIDGVPVQIGQPDGTVIRPHLGVNGIVLDAENEWLYLSPHSTSYRIKSADLSNLQLTDAELGSKIERYSEKPICDGISIDKDHNIYVGDLAHSAIGVITSADRAYKLLVTDEKLSWTDSFNFGSDGYLYFDCNQLHHSAPLNAGENISAPPYYIFRLKPLAAGIVGR DRLEVVAELSLAPGNITLTPDGRLFLSLHQFYQPEQVAELTQDGLIPFPPQSGNAIITFDTVLGIKSDGNGIVWLDNGNQSKSVPKLVAWDTLNNQLSRVIYLPPPITLSNSFVNDLAVDLIHNFVYISDPAPDDKAALIRVDLQTGLAARVLQGYPGIAPEDIDLVIDGVPVQIGQPDGTVIRPHLGVNGIVLDAENEWLYLSPHSTSYRIKSADLSNLQLTDAELGSKIERYSEKPICDGISIDKDHNIYVGDLAHSAIGVITSADRAYKLLVTDEKLSWTDSFNFGSDGYLYFDCNQLHHSAPLNAGENISAPPYYIFRLKPLAAGIVGR 2qe8-a2-m2-cB_2qe8-a2-m2-cA Crystal structure of a putative hydrolase (ava_4197) from anabaena variabilis atcc 29413 at 1.35 A resolution Q3M5E0 Q3M5E0 1.35 X-RAY DIFFRACTION 51 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 332 333 2qe8-a1-m1-cB_2qe8-a1-m1-cA 2qe8-a2-m1-cB_2qe8-a2-m1-cA RLEVVAELSLAPGNITLTPDGRLFLSLHQFYQPEQVAELTQDGLIPFPPQSGNAIITFDTVLGIKSDGNGIVWLDNGNQSKSVPKLVAWDTLNNQLSRVIYLPPPITLSNSFVNDLAVDLIHNFVYISDPAPDDKAALIRVDLQTGLAARVLQGYPGIAPEDIDLVIDGVPVQIGQPDGTVIRPHLGVNGIVLDAENEWLYLSPHSTSYRIKSADLSNLQLTDAELGSKIERYSEKPICDGISIDKDHNIYVGDLAHSAIGVITSADRAYKLLVTDEKLSWTDSFNFGSDGYLYFDCNQLHHSAPLNAGENISAPPYYIFRLKPLAAGIVGR DRLEVVAELSLAPGNITLTPDGRLFLSLHQFYQPEQVAELTQDGLIPFPPQSGNAIITFDTVLGIKSDGNGIVWLDNGNQSKSVPKLVAWDTLNNQLSRVIYLPPPITLSNSFVNDLAVDLIHNFVYISDPAPDDKAALIRVDLQTGLAARVLQGYPGIAPEDIDLVIDGVPVQIGQPDGTVIRPHLGVNGIVLDAENEWLYLSPHSTSYRIKSADLSNLQLTDAELGSKIERYSEKPICDGISIDKDHNIYVGDLAHSAIGVITSADRAYKLLVTDEKLSWTDSFNFGSDGYLYFDCNQLHHSAPLNAGENISAPPYYIFRLKPLAAGIVGR 2qea-a3-m5-cB_2qea-a3-m3-cC CRYSTAL STRUCTURE OF A PUTATIVE GENERAL STRESS PROTEIN 26 (JANN_0955) FROM JANNASCHIA SP. CCS1 AT 2.46 A RESOLUTION Q28TU0 Q28TU0 2.46 X-RAY DIFFRACTION 16 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 153 155 2qea-a3-m1-cB_2qea-a3-m4-cC 2qea-a3-m1-cB_2qea-a3-m5-cA 2qea-a3-m3-cC_2qea-a3-m1-cA 2qea-a3-m4-cC_2qea-a3-m5-cA 2qea-a3-m5-cB_2qea-a3-m1-cA ADLTHEFWDRLEDVRSGLGIKGQGRLIPSPQTDDPGAIWFITAKGTDLAKGVAAGPQPAQFVVSDDGEGLYADLDGTLERSTDREALDEFWSFVADAWFDGGQHDPDVCLLKFTPASGEISITEGGGARFLYEIAKAHLTDETPDGEQATVTF ADLTHEFWDRLEDVRSGLGIKGQGRLIPSPQTDDDAPGAIWFITAKGTDLAKGVAAGPQPAQFVVSDDGEGLYADLDGTLERSTDREALDEFWSFVADAWFDGGQHDPDVCLLKFTPASGEISITEGGGARFLYEIAKAHLTDETPDGEQATVTF 2qea-a3-m5-cB_2qea-a3-m4-cC CRYSTAL STRUCTURE OF A PUTATIVE GENERAL STRESS PROTEIN 26 (JANN_0955) FROM JANNASCHIA SP. CCS1 AT 2.46 A RESOLUTION Q28TU0 Q28TU0 2.46 X-RAY DIFFRACTION 29 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 153 155 2qea-a3-m1-cB_2qea-a3-m3-cC ADLTHEFWDRLEDVRSGLGIKGQGRLIPSPQTDDPGAIWFITAKGTDLAKGVAAGPQPAQFVVSDDGEGLYADLDGTLERSTDREALDEFWSFVADAWFDGGQHDPDVCLLKFTPASGEISITEGGGARFLYEIAKAHLTDETPDGEQATVTF ADLTHEFWDRLEDVRSGLGIKGQGRLIPSPQTDDDAPGAIWFITAKGTDLAKGVAAGPQPAQFVVSDDGEGLYADLDGTLERSTDREALDEFWSFVADAWFDGGQHDPDVCLLKFTPASGEISITEGGGARFLYEIAKAHLTDETPDGEQATVTF 2qea-a3-m5-cB_2qea-a3-m5-cA CRYSTAL STRUCTURE OF A PUTATIVE GENERAL STRESS PROTEIN 26 (JANN_0955) FROM JANNASCHIA SP. CCS1 AT 2.46 A RESOLUTION Q28TU0 Q28TU0 2.46 X-RAY DIFFRACTION 86 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 153 156 2qea-a1-m1-cB_2qea-a1-m1-cA 2qea-a2-m1-cC_2qea-a2-m2-cC 2qea-a3-m1-cB_2qea-a3-m1-cA 2qea-a3-m3-cC_2qea-a3-m4-cC ADLTHEFWDRLEDVRSGLGIKGQGRLIPSPQTDDPGAIWFITAKGTDLAKGVAAGPQPAQFVVSDDGEGLYADLDGTLERSTDREALDEFWSFVADAWFDGGQHDPDVCLLKFTPASGEISITEGGGARFLYEIAKAHLTDETPDGEQATVTF GADLTHEFWDRLEDVRSGLGIKGQGRLIPSPQTDDDAPGAIWFITAKGTDLAKGVAAGPQPAQFVVSDDGEGLYADLDGTLERSTDREALDEFWSFVADAWFDGGQHDPDVCLLKFTPASGEISITEGGGARFLYEIAKAHLTDETPDGEQATVTF 2qec-a1-m1-cA_2qec-a1-m2-cA Crystal structure of histone acetyltransferase HPA2 and related acetyltransferase (NP_600742.1) from Corynebacterium glutamicum ATCC 13032 at 1.90 A resolution Q8NQB1 Q8NQB1 1.9 X-RAY DIFFRACTION 57 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 178 178 SPTVLPATQADFPKIVDVLVEAFANDPTFLRWIPQPDPGSAKLRALFELQIEKQYAVAGNIDVARDSEGEIVGVALWDRPDPRLVSIFGKAAARFHPKFPHWYLYTVATSSSARGTGVGSALLNHGIARAGDEAIYLEATSTRAAQLYNRLGFVPLGYIPSDDDGTPELAWKPPAPTV SPTVLPATQADFPKIVDVLVEAFANDPTFLRWIPQPDPGSAKLRALFELQIEKQYAVAGNIDVARDSEGEIVGVALWDRPDPRLVSIFGKAAARFHPKFPHWYLYTVATSSSARGTGVGSALLNHGIARAGDEAIYLEATSTRAAQLYNRLGFVPLGYIPSDDDGTPELAWKPPAPTV 2qee-a2-m1-cF_2qee-a2-m1-cE Crystal structure of putative amidohydrolase BH0493 from Bacillus halodurans C-125 Q9KFI6 Q9KFI6 1.65 X-RAY DIFFRACTION 116 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 416 424 2pnk-a1-m1-cB_2pnk-a1-m1-cA 2pnk-a1-m1-cC_2pnk-a1-m1-cA 2pnk-a1-m1-cC_2pnk-a1-m1-cB 2pnk-a2-m1-cD_2pnk-a2-m1-cE 2pnk-a2-m1-cD_2pnk-a2-m1-cF 2pnk-a2-m1-cF_2pnk-a2-m1-cE 2pnk-a3-m1-cH_2pnk-a3-m1-cG 2pnk-a3-m1-cH_2pnk-a3-m1-cI 2pnk-a3-m1-cI_2pnk-a3-m1-cG 2pnk-a4-m1-cJ_2pnk-a4-m1-cK 2pnk-a4-m1-cJ_2pnk-a4-m1-cL 2pnk-a4-m1-cL_2pnk-a4-m1-cK 2pnk-a5-m1-cB_2pnk-a5-m1-cA 2pnk-a5-m1-cC_2pnk-a5-m1-cA 2pnk-a5-m1-cC_2pnk-a5-m1-cB 2pnk-a5-m1-cJ_2pnk-a5-m1-cK 2pnk-a5-m1-cJ_2pnk-a5-m1-cL 2pnk-a5-m1-cL_2pnk-a5-m1-cK 2pnk-a6-m1-cD_2pnk-a6-m1-cE 2pnk-a6-m1-cD_2pnk-a6-m1-cF 2pnk-a6-m1-cF_2pnk-a6-m1-cE 2pnk-a6-m1-cH_2pnk-a6-m1-cG 2pnk-a6-m1-cH_2pnk-a6-m1-cI 2pnk-a6-m1-cI_2pnk-a6-m1-cG 2q08-a1-m1-cA_2q08-a1-m1-cB 2q08-a1-m1-cA_2q08-a1-m1-cC 2q08-a1-m1-cB_2q08-a1-m1-cC 2q08-a2-m1-cD_2q08-a2-m1-cE 2q08-a2-m1-cD_2q08-a2-m1-cF 2q08-a2-m1-cE_2q08-a2-m1-cF 2q08-a3-m1-cG_2q08-a3-m1-cH 2q08-a3-m1-cG_2q08-a3-m1-cI 2q08-a3-m1-cH_2q08-a3-m1-cI 2q08-a4-m1-cJ_2q08-a4-m1-cK 2q08-a4-m1-cJ_2q08-a4-m1-cL 2q08-a4-m1-cK_2q08-a4-m1-cL 2q6e-a1-m1-cA_2q6e-a1-m1-cB 2q6e-a1-m1-cA_2q6e-a1-m1-cC 2q6e-a1-m1-cB_2q6e-a1-m1-cC 2qee-a1-m1-cA_2qee-a1-m1-cB 2qee-a1-m1-cA_2qee-a1-m1-cC 2qee-a1-m1-cB_2qee-a1-m1-cC 2qee-a2-m1-cD_2qee-a2-m1-cE 2qee-a2-m1-cD_2qee-a2-m1-cF 2qee-a3-m1-cG_2qee-a3-m1-cH 2qee-a3-m1-cG_2qee-a3-m1-cI 2qee-a3-m1-cH_2qee-a3-m1-cI 2qee-a4-m1-cJ_2qee-a4-m1-cK 2qee-a4-m1-cJ_2qee-a4-m1-cL 2qee-a4-m1-cK_2qee-a4-m1-cL 3hk5-a1-m1-cA_3hk5-a1-m2-cA 3hk5-a1-m1-cA_3hk5-a1-m3-cA 3hk5-a1-m1-cB_3hk5-a1-m2-cB 3hk5-a1-m1-cB_3hk5-a1-m3-cB 3hk5-a1-m2-cA_3hk5-a1-m3-cA 3hk5-a1-m2-cB_3hk5-a1-m3-cB 3hk5-a2-m1-cA_3hk5-a2-m2-cA 3hk5-a2-m1-cA_3hk5-a2-m3-cA 3hk5-a2-m1-cB_3hk5-a2-m2-cB 3hk5-a2-m1-cB_3hk5-a2-m3-cB 3hk5-a2-m2-cA_3hk5-a2-m3-cA 3hk5-a2-m2-cB_3hk5-a2-m3-cB 3hk7-a1-m1-cA_3hk7-a1-m1-cB 3hk7-a1-m1-cA_3hk7-a1-m1-cC 3hk7-a1-m1-cB_3hk7-a1-m1-cC 3hk7-a1-m1-cG_3hk7-a1-m1-cH 3hk7-a2-m1-cA_3hk7-a2-m1-cB 3hk7-a2-m1-cD_3hk7-a2-m1-cE 3hk7-a2-m1-cD_3hk7-a2-m1-cF 3hk7-a2-m1-cE_3hk7-a2-m1-cF 3hk7-a2-m1-cJ_3hk7-a2-m1-cL 3hk7-a3-m1-cB_3hk7-a3-m1-cC 3hk7-a3-m1-cE_3hk7-a3-m1-cF 3hk7-a3-m1-cG_3hk7-a3-m1-cH 3hk7-a3-m1-cG_3hk7-a3-m1-cI 3hk7-a3-m1-cH_3hk7-a3-m1-cI 3hk7-a3-m1-cK_3hk7-a3-m1-cL 3hk7-a4-m1-cD_3hk7-a4-m1-cF 3hk7-a4-m1-cJ_3hk7-a4-m1-cK 3hk7-a4-m1-cJ_3hk7-a4-m1-cL 3hk7-a4-m1-cK_3hk7-a4-m1-cL 3hk8-a1-m1-cA_3hk8-a1-m2-cA 3hk8-a1-m1-cA_3hk8-a1-m3-cA 3hk8-a1-m1-cB_3hk8-a1-m2-cB 3hk8-a1-m1-cB_3hk8-a1-m3-cB 3hk8-a1-m2-cA_3hk8-a1-m3-cA 3hk8-a1-m2-cB_3hk8-a1-m3-cB 3hk8-a2-m1-cA_3hk8-a2-m2-cA 3hk8-a2-m1-cA_3hk8-a2-m3-cA 3hk8-a2-m1-cB_3hk8-a2-m2-cB 3hk8-a2-m1-cB_3hk8-a2-m3-cB 3hk8-a2-m2-cA_3hk8-a2-m3-cA 3hk8-a2-m2-cB_3hk8-a2-m3-cB 3hk9-a1-m1-cA_3hk9-a1-m1-cB 3hk9-a1-m1-cA_3hk9-a1-m1-cC 3hk9-a1-m1-cB_3hk9-a1-m1-cC 3hk9-a1-m1-cD_3hk9-a1-m1-cE 3hk9-a2-m1-cA_3hk9-a2-m1-cB 3hk9-a2-m1-cD_3hk9-a2-m1-cE 3hk9-a2-m1-cD_3hk9-a2-m1-cF 3hk9-a2-m1-cE_3hk9-a2-m1-cF 3hk9-a3-m1-cB_3hk9-a3-m1-cC 3hk9-a3-m1-cG_3hk9-a3-m1-cH 3hk9-a3-m1-cG_3hk9-a3-m1-cI 3hk9-a3-m1-cH_3hk9-a3-m1-cI 3hk9-a3-m1-cJ_3hk9-a3-m1-cL 3hk9-a4-m1-cG_3hk9-a4-m1-cH 3hk9-a4-m1-cJ_3hk9-a4-m1-cK 3hk9-a4-m1-cJ_3hk9-a4-m1-cL 3hk9-a4-m1-cK_3hk9-a4-m1-cL 3hka-a1-m1-cA_3hka-a1-m1-cB 3hka-a1-m1-cA_3hka-a1-m1-cC 3hka-a1-m1-cB_3hka-a1-m1-cC SLSINSREVLAEKVKNAVNNQPVTDMHTHLFSPNFGEILLWDIDELLTYHYLVAEVMRWTDVSIEAFWAMSKREQADLIWEELFIKRSPVSEACRGVLTCLQGLGLDPATRDLQVYREYFAKKTSEEQVDTVLQLANVSDVVMTNDPFDDNERISWLEGKQPDSRFHAALRLDPLLNEYEQTKHRLRDWGYKVNDEWNEGSIQEVKRFLTDWIERMDPVYMAVSLPPTFSFPEESNRGRIIRDCLLPVAEKHNIPFAMMIGVKKRVHPALGDAGDFVGKASMDGVEHLLREYPNNKFLVTMLSRENQHELVVLARKFSNLMIFGCWWFMNNPEIINEMTRMRMEMLGTSFIPQHSDARVLEQLIYKWHHSKSIIAEVLIDKYDDILQAGWEVTEEEIKRDVADLFSRNFWRFVGRN SLSINSREVLAEKVKNAVNNQPVTDMHTHLFSPNFGEILLWDIDELLTYHYLVAEVMRWTDVSIEAFWAMSKREQADLIWEELFIKRSPVSEACRGVLTCLQGLGLDPATRDLQVYREYFAKKTSEEQVDTVLQLANVSDVVMTNDPFDDNERISWLEGKQPDSRFHAALRLDPLLNEYEQTKHRLRDWGYKVNDEWNEGSIQEVKRFLTDWIERMDPVYMAVSLPPTFSFPEESNRGRIIRDCLLPVAEKHNIPFAMMIGVKKRVHPALGDAGDFVGKASMDGVEHLLREYPNNKFLVTMLSRENQHELVVLARKFSNLMIFGCWWFMNNPEIINEMTRMRMEMLGTSFIPQHSDARVLEQLIYKWHHSKSIIAEVLIDKYDDILQAGWEVTEEEIKRDVADLFSRNFWRFVGRNDHVTSVKV 2qeu-a1-m1-cA_2qeu-a1-m2-cB Crystal structure of putative carboxymuconolactone decarboxylase (YP_555818.1) from Burkholderia xenovorans LB400 at 1.65 A resolution Q13HH1 Q13HH1 1.65 X-RAY DIFFRACTION 74 0.992 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 127 128 2qeu-a1-m1-cC_2qeu-a1-m2-cC 2qeu-a1-m2-cA_2qeu-a1-m1-cB ATSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGK TSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGKRT 2qeu-a1-m1-cA_2qeu-a1-m2-cC Crystal structure of putative carboxymuconolactone decarboxylase (YP_555818.1) from Burkholderia xenovorans LB400 at 1.65 A resolution Q13HH1 Q13HH1 1.65 X-RAY DIFFRACTION 16 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 127 127 2qeu-a1-m1-cB_2qeu-a1-m2-cB 2qeu-a1-m1-cC_2qeu-a1-m2-cA ATSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGK ATSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGK 2qeu-a1-m2-cC_2qeu-a1-m1-cB Crystal structure of putative carboxymuconolactone decarboxylase (YP_555818.1) from Burkholderia xenovorans LB400 at 1.65 A resolution Q13HH1 Q13HH1 1.65 X-RAY DIFFRACTION 15 0.992 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 127 128 2qeu-a1-m1-cA_2qeu-a1-m2-cA 2qeu-a1-m1-cC_2qeu-a1-m2-cB ATSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGK TSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGKRT 2qeu-a1-m2-cC_2qeu-a1-m2-cB Crystal structure of putative carboxymuconolactone decarboxylase (YP_555818.1) from Burkholderia xenovorans LB400 at 1.65 A resolution Q13HH1 Q13HH1 1.65 X-RAY DIFFRACTION 25 0.992 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 127 128 2qeu-a1-m1-cA_2qeu-a1-m1-cB 2qeu-a1-m1-cA_2qeu-a1-m1-cC 2qeu-a1-m1-cC_2qeu-a1-m1-cB 2qeu-a1-m2-cA_2qeu-a1-m2-cB 2qeu-a1-m2-cA_2qeu-a1-m2-cC ATSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGK TSQDILKQHAAHYESDGGLPEALVQLAEYAPETFDAYSRRTTLKSEADGAKLPLKYKHLILVVLDAIRDEPIGIVNHTRAANAGLSVDELIEGILLGIIVYGPAWGKTGRKAVTFAVEFEKELAGKRT 2qez-a1-m1-cC_2qez-a1-m1-cF Crystal structure of ethanolamine ammonia-lyase heavy chain (YP_013784.1) from Listeria monocytogenes 4b F2365 at 2.15 A resolution 2.15 X-RAY DIFFRACTION 45 0.995 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 422 428 2qez-a1-m1-cB_2qez-a1-m1-cD 2qez-a1-m1-cE_2qez-a1-m1-cA ILKTNLFGHTYQFKSITDVLAKANEEKSGDRLAGVAAESAEERVAAKVVLSKTLGDLRNNPVVPYETDEVTRIIQDQVNDRIHDSIKNWTVEELREWILDHKTTDADIKRVARGLTSEIIAAVTKLSNLDLIYGAKKIRVIAHANTTIGLPGTFSARLQPNPTDDPDGILASLEGLTYGIGDAVIGLNPVDDSTDSVVRLLNKFEEFRSKWDVPTQTCVLAHVKTQEARRGAPTGLVFQSIAGSEKGNTAFGFDGATIEEARQLALQSGAATGPNVYFETGQFGVDQVTEARCYGFAKKFDPFLVNTVVPEYLYDSKQVIRAGLEDHFGKLTGISGCDVCYTNHKADQNDVENLSVLLTAAGCNFIGIPHGVLNYQTTGYHETATLRELFGLKPIKEFDQWEKGFSENGKLTSRAGDASIFL ILKTNGHTYQFKSITDVLAKANEEKSGDRLAGVAAESAEERVAAKVVLSKTLGDLRNNPVVPYETDEVTRIIQDQVNDRIHDSIKNWTVEELREWILDHKTTDADIKRVARGLTSEIIAAVTKLSNLDLIYGAKKIRVIAHANTTIGLPGTFSARLQPNHPTDDPDGILASLEGLTYGIGDAVIGLNPVDDSTDSVVRLLNKFEEFRSKWDVPTQTCVLAHVKTQEARRGAPTGLVFQSIAGSEKGNTAFGFDGATIEEARQLALQSGAATGPNVYFETGQFGVDQVTEARCYGFAKKFDPFLVNTVVGFIGPEYLYDSKQVIRAGLEDHFGKLTGISGCDVCYTNHKADQNDVENLSVLLTAAGCNFIGIPHGDDVLNYQTTGYHETATLRELFGLKPIKEFDQWEKGFSENGKLTSRAGDASIFLK 2qez-a4-m1-cB_2qez-a4-m1-cC Crystal structure of ethanolamine ammonia-lyase heavy chain (YP_013784.1) from Listeria monocytogenes 4b F2365 at 2.15 A resolution 2.15 X-RAY DIFFRACTION 92 0.988 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 422 422 2qez-a1-m1-cA_2qez-a1-m1-cF 2qez-a1-m1-cB_2qez-a1-m1-cC 2qez-a1-m1-cE_2qez-a1-m1-cD 2qez-a2-m1-cA_2qez-a2-m1-cF 2qez-a3-m1-cE_2qez-a3-m1-cD ILKTNLFGHTYQFKSITDVLAKANEEKSGDRLAGVAAESAEERVAAKVVLSKTLGDLRNNPVVPYETDEVTRIIQDQVNDRIHDSIKNWTVEELREWILDHKTTDADIKRVARGLTSEIIAAVTKLSNLDLIYGAKKIRVIAHANTTIGLPGTFSARLQPNHPTDDPDGILASLEGLTYGIGDAVIGLNPVDDSTDSVVRLLNKFEEFRSKWDVPTQTCVLAHVKTQEARRGAPTGLVFQSIAGSEKGNTAFGFDGATIEEARQLALQSGAATGPNVYFETGFGVDQVTEARCYGFAKKFDPFLVNTVVGFILYDSKQVIRAGLEDHFGKLTGISGCDVCYTNHKADQNDVENLSVLLTAAGCNFIGIPHDVLNYQTTGYHETATLRELFGLKPIKEFDQWEKGFSENGKLTSRAGDASIFL ILKTNLFGHTYQFKSITDVLAKANEEKSGDRLAGVAAESAEERVAAKVVLSKTLGDLRNNPVVPYETDEVTRIIQDQVNDRIHDSIKNWTVEELREWILDHKTTDADIKRVARGLTSEIIAAVTKLSNLDLIYGAKKIRVIAHANTTIGLPGTFSARLQPNPTDDPDGILASLEGLTYGIGDAVIGLNPVDDSTDSVVRLLNKFEEFRSKWDVPTQTCVLAHVKTQEARRGAPTGLVFQSIAGSEKGNTAFGFDGATIEEARQLALQSGAATGPNVYFETGQFGVDQVTEARCYGFAKKFDPFLVNTVVPEYLYDSKQVIRAGLEDHFGKLTGISGCDVCYTNHKADQNDVENLSVLLTAAGCNFIGIPHGVLNYQTTGYHETATLRELFGLKPIKEFDQWEKGFSENGKLTSRAGDASIFL 2qf7-a1-m1-cA_2qf7-a1-m2-cA Crystal structure of a complete multifunctional pyruvate carboxylase from Rhizobium etli Q2K340 Q2K340 2 X-RAY DIFFRACTION 91 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 1075 1075 3tw6-a1-m1-cA_3tw6-a1-m2-cA GPISKILVANRSEIAIRVFRAANELGIKTVAIWAEEDKLALHRFKADESYQVGRGPHLARDLGPIESYLSIDEVIRVAKLSGADAIHPGYGLLSESPEFVDACNKAGIIFIGPKADTMRQLGNKVAARNLAISVGVPVVKLVERARHVESQILGDTHGNVVHLFERDCSVQRRNQKVVERAPAPYLSEAQRQELAAYSLKIAGATNYIGAGTVEYLMDADTGKFYFIEVNPRIQVEHTVTEVVTGIDIVKAQIHILDGAAIGTPQSGVPNQEDIRLNGHALQCRVTTEDPEHNFIPDYGRITAYRSASGFGIRLDGGTSYSGAIITRYYDPLLVKVTAWAPNPLEAISRMDRALREFRIRGVATNLTFLEAIIGHPKFRDNSYTTRFIDTTPELFQQVKRQDRATKLLTYLADVTVNGHPEAKDRPKPLENAARPVVPYAGNGVKDGTKQLLDTLGPKKFGEWMRNEKRVLLTDTTMRDGHQSLLATRMRTYDIARIAGTYSHALPNLLSLECWGGATFDVSMRFLTEDPWERLALIREGAPNLLLQMLLRGANGVGYTNYPDNVVKYFVRQAAKGGIDLFRVFDCLNWVENMRVSMDAIAEENKLCEAAICYTGDILNSARPKYDLKYYTNLAVELEKAGAHIIAVDMAGLLKPAAAKVLFKALREATGLPIHFHTHDTSGIAAATVLAAVEAGVDAVDAAMDALSGNTSQPCLGSIVEALSGSERDPGLDPAWIRRISFYWEAVRNQYAAFESDLKGPASEVYLHEMPGGQFTNLKEQARSLGLETRWHQVAQAYADANQMFGDIVKVTPSSKVVGDMALMMVSQDLTVADVVSPDREVSFPESVVSMLKGDLGQPPSGWPEALQKKALKGEKPYTVRPGSLLKEADLDAERKVIEKKLEREVSDFEFASYLMYPKVFTDFALASDTYGPVSVLPTPAYFYGLADGEELFADIEKGKTLVIVNQAVSATDSQGMVTVFFELNGQPRRIKVPDRAHGATGAAVRRKAEPGNAAHVGAPMPGVISRVFVSSGQAVDVLVSIEAETAIHAEKDGTIAEVLVKAGDQIDAKDLLAVY GPISKILVANRSEIAIRVFRAANELGIKTVAIWAEEDKLALHRFKADESYQVGRGPHLARDLGPIESYLSIDEVIRVAKLSGADAIHPGYGLLSESPEFVDACNKAGIIFIGPKADTMRQLGNKVAARNLAISVGVPVVKLVERARHVESQILGDTHGNVVHLFERDCSVQRRNQKVVERAPAPYLSEAQRQELAAYSLKIAGATNYIGAGTVEYLMDADTGKFYFIEVNPRIQVEHTVTEVVTGIDIVKAQIHILDGAAIGTPQSGVPNQEDIRLNGHALQCRVTTEDPEHNFIPDYGRITAYRSASGFGIRLDGGTSYSGAIITRYYDPLLVKVTAWAPNPLEAISRMDRALREFRIRGVATNLTFLEAIIGHPKFRDNSYTTRFIDTTPELFQQVKRQDRATKLLTYLADVTVNGHPEAKDRPKPLENAARPVVPYAGNGVKDGTKQLLDTLGPKKFGEWMRNEKRVLLTDTTMRDGHQSLLATRMRTYDIARIAGTYSHALPNLLSLECWGGATFDVSMRFLTEDPWERLALIREGAPNLLLQMLLRGANGVGYTNYPDNVVKYFVRQAAKGGIDLFRVFDCLNWVENMRVSMDAIAEENKLCEAAICYTGDILNSARPKYDLKYYTNLAVELEKAGAHIIAVDMAGLLKPAAAKVLFKALREATGLPIHFHTHDTSGIAAATVLAAVEAGVDAVDAAMDALSGNTSQPCLGSIVEALSGSERDPGLDPAWIRRISFYWEAVRNQYAAFESDLKGPASEVYLHEMPGGQFTNLKEQARSLGLETRWHQVAQAYADANQMFGDIVKVTPSSKVVGDMALMMVSQDLTVADVVSPDREVSFPESVVSMLKGDLGQPPSGWPEALQKKALKGEKPYTVRPGSLLKEADLDAERKVIEKKLEREVSDFEFASYLMYPKVFTDFALASDTYGPVSVLPTPAYFYGLADGEELFADIEKGKTLVIVNQAVSATDSQGMVTVFFELNGQPRRIKVPDRAHGATGAAVRRKAEPGNAAHVGAPMPGVISRVFVSSGQAVDVLVSIEAETAIHAEKDGTIAEVLVKAGDQIDAKDLLAVY 2qf9-a1-m1-cA_2qf9-a1-m1-cB Crystal structure of putative secreted protein DUF305 from Streptomyces coelicolor Q8CK01 Q8CK01 1.69 X-RAY DIFFRACTION 37 0.986 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 148 148 AADSADAGFARDSVHHQQAVESYIVRDRTDDEEVRRLAYDIAQTQANQRGIGWLDLWALPKVSSDPPTWGGPGATDAEKKLGTLDGKQAEVYYLQLTEHHRGGVHAKGCVERCTVGVEKRLARGVESQESEIRLADLLAERGAKEGHH AADSADAGFARDSVHHQQAVESYIVRDRTDDEEVRRLAYDIAQTQANQRGIGWLDLWALPKVSDPPTWGPGATDAEKKLGTLDGKQAEVYYLQLTEHHRGGVHAKGCVERCTVGVEKRLARGVESQESEIRLADLLAERGAKEGHHHH 2qfw-a3-m1-cE_2qfw-a3-m1-cF Crystal structure of Saccharomyces cerevesiae mitochondrial NADP(+)-dependent isocitrate dehydrogenase in complex with isocitrate P21954 P21954 2.6 X-RAY DIFFRACTION 263 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 409 411 2qfv-a1-m1-cB_2qfv-a1-m1-cA 2qfv-a2-m1-cC_2qfv-a2-m1-cD 2qfw-a1-m1-cA_2qfw-a1-m1-cB 2qfw-a2-m1-cC_2qfw-a2-m1-cD 2qfx-a1-m1-cA_2qfx-a1-m1-cB 2qfx-a2-m1-cC_2qfx-a2-m1-cD 2qfx-a3-m1-cE_2qfx-a3-m1-cF 2qfy-a1-m1-cA_2qfy-a1-m1-cB 2qfy-a2-m1-cC_2qfy-a2-m1-cD 2qfy-a3-m1-cE_2qfy-a3-m1-cF SKIKVKQPVVELDGDEMTRIIWDKIKKKLILPYLDVDLKYYDLSVESRDATSDKITQDAAEAIKKYGVGIKCATITPDEARVKEFNLHKMWKSPNGTIRNILGGTVFREPIVIPRIPRLVPRWEKPIIIGRHAHGDQYKATDTLIPGPGSLELVYKPSDPTTAQPQTLKVYDYKGSGVAMAMYNTDESIEGFAHSSFKLAIDKKLNLFLSTKNTILKKYDGRFKDIFQEVYEAQYKSKFEQLGIHYEHRLIDDMVAQMIKSKGGFIMALKNYDGDVQSDIVAQGFGSLGLMTSILVTPDGKTFESEAAHGTVTRHYRKYQKGEETSTNSIASIFAWSRGLLKRGELDNTPALCKFANILESATLNTVQQDGIMTKDLALACGNNERSAYVTTEEFLDAVEKRLQKEIKS FSKIKVKQPVVELDGDEMTRIIWDKIKKKLILPYLDVDLKYYDLSVESRDATSDKITQDAAEAIKKYGVGIKCATITPDEARVKEFNLHKMWKSPNGTIRNILGGTVFREPIVIPRIPRLVPRWEKPIIIGRHAHGDQYKATDTLIPGPGSLELVYKPSDPTTAQPQTLKVYDYKGSGVAMAMYNTDESIEGFAHSSFKLAIDKKLNLFLSTKNTILKKYDGRFKDIFQEVYEAQYKSKFEQLGIHYEHRLIDDMVAQMIKSKGGFIMALKNYDGDVQSDIVAQGFGSLGLMTSILVTPDGKTFESEAAHGTVTRHYRKYQKGEETSTNSIASIFAWSRGLLKRGELDNTPALCKFANILESATLNTVQQDGIMTKDLALACGNNERSAYVTTEEFLDAVEKRLQKEIKSI 2qg3-a2-m1-cB_2qg3-a2-m3-cB CRYSTAL STRUCTURE OF A TYW3 METHYLTRANSFERASE-LIKE PROTEIN (AF_2059) FROM ARCHAEOGLOBUS FULGIDUS DSM 4304 AT 1.95 A RESOLUTION O28220 O28220 1.95 X-RAY DIFFRACTION 54 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 185 185 2qg3-a1-m1-cA_2qg3-a1-m2-cA WEQFKKEKLRGYLEAKNQRKVDFDIVELLDLINSFDDFVTLSSCSGRIAVVDLEKPGDKASSLFLGKWHEGVEVSEVAEAALRSRKVAWLIQYPPIIHVACRNIGAAKLLNAANTAGFRRSGVISLSNYVVEIASLERIELPVAEKGLLVDDAYLSYVVRWANEKLLKGKEKLGRLQEALESLQR WEQFKKEKLRGYLEAKNQRKVDFDIVELLDLINSFDDFVTLSSCSGRIAVVDLEKPGDKASSLFLGKWHEGVEVSEVAEAALRSRKVAWLIQYPPIIHVACRNIGAAKLLNAANTAGFRRSGVISLSNYVVEIASLERIELPVAEKGLLVDDAYLSYVVRWANEKLLKGKEKLGRLQEALESLQR 2qg4-a4-m3-cG_2qg4-a4-m3-cH Crystal structure of human UDP-glucose dehydrogenase product complex with UDP-glucuronate O60701 O60701 2.1 X-RAY DIFFRACTION 199 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 460 461 2q3e-a1-m1-cA_2q3e-a1-m1-cB 2q3e-a1-m1-cD_2q3e-a1-m1-cC 2q3e-a1-m1-cE_2q3e-a1-m1-cF 2q3e-a2-m1-cH_2q3e-a2-m1-cG 2q3e-a2-m1-cI_2q3e-a2-m1-cJ 2q3e-a2-m1-cK_2q3e-a2-m1-cL 2qg4-a1-m1-cA_2qg4-a1-m1-cB 2qg4-a1-m2-cA_2qg4-a1-m2-cB 2qg4-a1-m3-cA_2qg4-a1-m3-cB 2qg4-a2-m1-cC_2qg4-a2-m1-cD 2qg4-a3-m1-cE_2qg4-a3-m1-cF 2qg4-a4-m1-cG_2qg4-a4-m1-cH 2qg4-a4-m2-cG_2qg4-a4-m2-cH 2qg4-a5-m1-cC_2qg4-a5-m1-cD 2qg4-a5-m4-cC_2qg4-a5-m4-cD 2qg4-a5-m5-cC_2qg4-a5-m5-cD 2qg4-a6-m1-cE_2qg4-a6-m1-cF 2qg4-a6-m4-cE_2qg4-a6-m4-cF 2qg4-a6-m5-cE_2qg4-a6-m5-cF 3itk-a1-m1-cB_3itk-a1-m1-cA 3itk-a1-m1-cC_3itk-a1-m1-cD 3itk-a1-m1-cE_3itk-a1-m1-cF 3khu-a1-m1-cA_3khu-a1-m1-cB 3khu-a1-m1-cD_3khu-a1-m1-cC 3khu-a1-m1-cF_3khu-a1-m1-cE 3prj-a1-m1-cA_3prj-a1-m1-cB 3prj-a1-m1-cD_3prj-a1-m1-cC 3prj-a1-m1-cE_3prj-a1-m1-cF 3ptz-a1-m1-cB_3ptz-a1-m1-cA 3ptz-a1-m1-cC_3ptz-a1-m1-cD 3ptz-a1-m1-cF_3ptz-a1-m1-cE 3tdk-a1-m1-cA_3tdk-a1-m1-cB 3tdk-a1-m1-cC_3tdk-a1-m1-cD 3tdk-a1-m1-cE_3tdk-a1-m1-cF 3tdk-a2-m1-cG_3tdk-a2-m1-cH 3tdk-a2-m1-cI_3tdk-a2-m1-cJ 3tdk-a2-m1-cK_3tdk-a2-m1-cL 3tf5-a1-m1-cA_3tf5-a1-m2-cC 3tf5-a1-m1-cB_3tf5-a1-m2-cB 3tf5-a1-m1-cC_3tf5-a1-m2-cA 4edf-a1-m1-cD_4edf-a1-m1-cA 4edf-a2-m1-cC_4edf-a2-m1-cB 4rjt-a1-m1-cA_4rjt-a1-m2-cC 4rjt-a1-m1-cB_4rjt-a1-m2-cB 4rjt-a1-m2-cA_4rjt-a1-m1-cC 5tjh-a1-m1-cA_5tjh-a1-m1-cF 5tjh-a1-m1-cB_5tjh-a1-m1-cE 5tjh-a1-m1-cD_5tjh-a1-m1-cC 5vr8-a1-m1-cB_5vr8-a1-m1-cA 5vr8-a1-m1-cD_5vr8-a1-m1-cF 5vr8-a1-m1-cE_5vr8-a1-m1-cC 5w4x-a1-m1-cA_5w4x-a1-m2-cC 5w4x-a1-m1-cB_5w4x-a1-m2-cB 5w4x-a1-m2-cA_5w4x-a1-m1-cC 6c4j-a1-m1-cA_6c4j-a1-m1-cB 6c4j-a1-m1-cC_6c4j-a1-m1-cD 6c4j-a1-m1-cE_6c4j-a1-m1-cF 6c4j-a2-m1-cH_6c4j-a2-m1-cG 6c4j-a2-m1-cJ_6c4j-a2-m1-cI 6c4j-a2-m1-cK_6c4j-a2-m1-cL 6c4k-a2-m1-cB_6c4k-a2-m2-cB 6c4k-a2-m1-cC_6c4k-a2-m2-cA 6c4k-a2-m2-cC_6c4k-a2-m1-cA 6c58-a1-m1-cB_6c58-a1-m1-cA 6c58-a1-m1-cD_6c58-a1-m1-cC 6c58-a1-m1-cE_6c58-a1-m1-cF 6c5a-a1-m1-cA_6c5a-a1-m1-cB 6c5a-a1-m1-cC_6c5a-a1-m1-cD 6c5a-a1-m1-cE_6c5a-a1-m1-cF 6c5z-a1-m1-cB_6c5z-a1-m1-cA 6c5z-a1-m1-cD_6c5z-a1-m1-cC 6c5z-a1-m1-cE_6c5z-a1-m1-cF MFEIKKICCIGAGYVGGPTCSVIAHMCPEIRVTVVDVNESRINAWNSPTLPIYEPGLKEVVESCRGKNLFFSTNIDDAIKEADLVFISVNTPTKTYGMGKGRAADLKYIEACARRIVQNSNGYKIVTEKSTVPVRAAESIRRIFDANTKPNLNLQVLSNPEFLAEGTAIKDLKNPDRVLIGGDETPEGQRAVQALCAVYEHWVPREKILTTNTWSSELSKLAANAFLAQRISSINSISALCEATGADVEEVATAIGMDQRIGNKFLKASVGFGGSCFQKDVLNLVYLCEALNLPEVARYWQQVIDMNDYQRRRFASRIIDSLFNTVTDKKIAILGFAFKKDTGDTRESSSIYISKYLMDEGAHLHIYDPKVPREQIVVDLSHDQVSRLVTISKDPYEACDGAHAVVICTEWDMFKELDYERIHKKMLKPAFIFDGRRVLDGLHNELQTIGFQIETIGKKV MFEIKKICCIGAGYVGGPTCSVIAHMCPEIRVTVVDVNESRINAWNSPTLPIYEPGLKEVVESCRGKNLFFSTNIDDAIKEADLVFISVNTPTKTYGMGKGRAADLKYIEACARRIVQNSNGYKIVTEKSTVPVRAAESIRRIFDANTKPNLNLQVLSNPEFLAEGTAIKDLKNPDRVLIGGDETPEGQRAVQALCAVYEHWVPREKILTTNTWSSELSKLAANAFLAQRISSINSISALCEATGADVEEVATAIGMDQRIGNKFLKASVGFGGSCFQKDVLNLVYLCEALNLPEVARYWQQVIDMNDYQRRRFASRIIDSLFNTVTDKKIAILGFAFKKDTGDTRESSSIYISKYLMDEGAHLHIYDPKVPREQIVVDLSHDDQVSRLVTISKDPYEACDGAHAVVICTEWDMFKELDYERIHKKMLKPAFIFDGRRVLDGLHNELQTIGFQIETIGKKV 2qg7-a2-m1-cB_2qg7-a2-m1-cD Plasmodium vivax ethanolamine kinase Pv091845 A5K4Q6 A5K4Q6 2.407 X-RAY DIFFRACTION 76 0.983 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 363 367 2qg7-a1-m1-cA_2qg7-a1-m1-cE ESNLRILEGEDRSEKAKELLKKYVSNVFENEKTLYIYCKYVMLHYGKDLVNPNEVDSLEFQIINGITNILIKVKDMSKQAKYLIRLYDEIINREREKKISCILYNKNIAKKIYVFFTNGRIEEFMDGYALSREDIKNPKFQKLIAKNLKLLHDIKLNENLYKELQVTQKVPGTRPSFLWNTIWKYFHLLNEERKKICSFDAKANILKLIDFDVLRDSIVEVESLCKRENSPIVLCHCDLLSSNIINTVGGDSISFIDFEYSCPMERAYDIANHFNEYAGFNCDWDLTPSKEEEYHFIMHYLGTDDEELINQLIREIQPFYICSHINWGLWSLLQGMHSSDFDFINYGMTRLTASCLPIFRSKV YPITESNLRILEGEDRSEKAKELLKKYVSNVFENEKTLYIYCKYVMLHYGKDLVNPNEVDSLEFQIINGGTNILIKVKDMSKQAKYLIRLYGPKTDNREREKKISCILYNKNIAKKIYVFFTNGRIEEFMDGYALSREDIKNPKFQKLIAKNLKLLHDIKLNENLYKELQVTQKVPGTRPSFLWNTIWKYFHLLNEERKKICSFDAKANILKLIDFDVLRDSIVEVESLCKRENSPIVLCHCDLLSSNIINTVGDSISFIDFEYSCPMERAYDIANHFNEYAGFNCDWDLTPSKEEEYHFIMHYLGTDDEELINQLIREIQPFYICSHINWGLWSLLQGMHSSDFDFINYGMTRLTASCLPIFRSKV 2qg8-a1-m2-cA_2qg8-a1-m3-cA Plasmodium yoelii acyl carrier protein synthase PY06285 with ADP bound Q7RB63 Q7RB63 2 X-RAY DIFFRACTION 65 1.0 73239 (Plasmodium yoelii yoelii) 73239 (Plasmodium yoelii yoelii) 137 137 2bdd-a2-m1-cA_2bdd-a2-m2-cA 2bdd-a2-m1-cA_2bdd-a2-m3-cA 2bdd-a2-m2-cA_2bdd-a2-m3-cA 2qg8-a1-m1-cA_2qg8-a1-m2-cA 2qg8-a1-m1-cA_2qg8-a1-m3-cA GSHHIIGIGTDILCVNRIYKILEKNINFIKKVLNPFELAEFETQKNKSNELKKLAIYVSKKFAAKEAILKSMGRGLSGLSMNDIEIKNDKYGKPHVYLYGKAKKVAYEMGIVKIFLSISDEKITFIIQAQALAVGSN GSHHIIGIGTDILCVNRIYKILEKNINFIKKVLNPFELAEFETQKNKSNELKKLAIYVSKKFAAKEAILKSMGRGLSGLSMNDIEIKNDKYGKPHVYLYGKAKKVAYEMGIVKIFLSISDEKITFIIQAQALAVGSN 2qga-a1-m1-cB_2qga-a1-m2-cC Plasmodium vivax adenylosuccinate lyase Pv003765 with AMP bound A5KBL5 A5KBL5 2.01 X-RAY DIFFRACTION 174 0.998 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 454 455 2hvg-a2-m1-cA_2hvg-a2-m2-cB 2hvg-a2-m1-cB_2hvg-a2-m2-cA 2qga-a1-m2-cB_2qga-a1-m1-cC EHLKNISPIDGRYKKACGELSAFFSEHALIKHRIIVEVRWLLFLNEEELFFEKVTDHSVEVLNQIATNITDSDIARVKAIEEETNHDVKAVEYFVKEKLKNSKREDLLKIKEYVHYLCTSEDINNVAYATCLKACLNDVVIPCLEKIMLKLKDLAVEYSHVPLLSRTHGQPASSTTFGKEMANFYARIHHHVGVIRRVKVCAKFNGAVGNFNAHKVASKDTDWVNTIGLFLKKHFNLTYSIYCTQIQDHDYICELCDGLARANGTLIDLCVDIWLYISNNLLKLKSSTMPHKVNPIDFENAEGNLHIANAFFKLFSSKLPTSRLQRDLSDSTVLRNIGSSLAYCLIAYKSVLKGLNKIDIDRRNLEEELNQNWSTLAEPIQIVMKRHNYVDAYEELKQFTRGKVIDQKIMQEFIKTKCAFLPQDVVDQLLELTPATYTGYADYLAKNVERLSGE EHLKNISPIDGRYKKACGELSAFFSEHALIKHRIIVEVRWLLFLNEEELFFEKVTDHSVEVLNQIATNITDSDIARVKAIEEETNHDVKAVEYFVKEKLKNSKREDLLKIKEYVHYLCTSEDINNVAYATCLKACLNDVVIPCLEKIMLKLKDLAVEYSHVPLLSRTHGQPASSTTFGKEMANFYARIHHHVGVIRRVKVCAKFNGAVGNFNAHKVASKDTDWVNTIGLFLKKHFNLTYSIYCTQIQDHDYICELCDGLARANGTLIDLCVDIWLYISNNLLKLKVGSSTMPHKVNPIDFENAEGNLHIANAFFKLFSSKLPTSRLQRDLSDSTVLRNIGSSLAYCLIAYKSVLKGLNKIDIDRRNLEEELNQNWSTLAEPIQIVMKRHNYVDAYEELKQFTRGKVIDQKIMQEFIKTKCAFLPQDVVDQLLELTPATYTGYADYLAKNVERLSG 2qga-a1-m1-cC_2qga-a1-m2-cC Plasmodium vivax adenylosuccinate lyase Pv003765 with AMP bound A5KBL5 A5KBL5 2.01 X-RAY DIFFRACTION 77 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 455 455 2hvg-a2-m1-cA_2hvg-a2-m2-cA 2hvg-a2-m1-cB_2hvg-a2-m2-cB 2qga-a1-m1-cB_2qga-a1-m2-cB EHLKNISPIDGRYKKACGELSAFFSEHALIKHRIIVEVRWLLFLNEEELFFEKVTDHSVEVLNQIATNITDSDIARVKAIEEETNHDVKAVEYFVKEKLKNSKREDLLKIKEYVHYLCTSEDINNVAYATCLKACLNDVVIPCLEKIMLKLKDLAVEYSHVPLLSRTHGQPASSTTFGKEMANFYARIHHHVGVIRRVKVCAKFNGAVGNFNAHKVASKDTDWVNTIGLFLKKHFNLTYSIYCTQIQDHDYICELCDGLARANGTLIDLCVDIWLYISNNLLKLKVGSSTMPHKVNPIDFENAEGNLHIANAFFKLFSSKLPTSRLQRDLSDSTVLRNIGSSLAYCLIAYKSVLKGLNKIDIDRRNLEEELNQNWSTLAEPIQIVMKRHNYVDAYEELKQFTRGKVIDQKIMQEFIKTKCAFLPQDVVDQLLELTPATYTGYADYLAKNVERLSG EHLKNISPIDGRYKKACGELSAFFSEHALIKHRIIVEVRWLLFLNEEELFFEKVTDHSVEVLNQIATNITDSDIARVKAIEEETNHDVKAVEYFVKEKLKNSKREDLLKIKEYVHYLCTSEDINNVAYATCLKACLNDVVIPCLEKIMLKLKDLAVEYSHVPLLSRTHGQPASSTTFGKEMANFYARIHHHVGVIRRVKVCAKFNGAVGNFNAHKVASKDTDWVNTIGLFLKKHFNLTYSIYCTQIQDHDYICELCDGLARANGTLIDLCVDIWLYISNNLLKLKVGSSTMPHKVNPIDFENAEGNLHIANAFFKLFSSKLPTSRLQRDLSDSTVLRNIGSSLAYCLIAYKSVLKGLNKIDIDRRNLEEELNQNWSTLAEPIQIVMKRHNYVDAYEELKQFTRGKVIDQKIMQEFIKTKCAFLPQDVVDQLLELTPATYTGYADYLAKNVERLSG 2qga-a1-m2-cB_2qga-a1-m2-cC Plasmodium vivax adenylosuccinate lyase Pv003765 with AMP bound A5KBL5 A5KBL5 2.01 X-RAY DIFFRACTION 274 0.998 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 454 455 2hvg-a1-m1-cA_2hvg-a1-m1-cB 2hvg-a2-m1-cA_2hvg-a2-m1-cB 2hvg-a2-m2-cA_2hvg-a2-m2-cB 2qga-a1-m1-cB_2qga-a1-m1-cC EHLKNISPIDGRYKKACGELSAFFSEHALIKHRIIVEVRWLLFLNEEELFFEKVTDHSVEVLNQIATNITDSDIARVKAIEEETNHDVKAVEYFVKEKLKNSKREDLLKIKEYVHYLCTSEDINNVAYATCLKACLNDVVIPCLEKIMLKLKDLAVEYSHVPLLSRTHGQPASSTTFGKEMANFYARIHHHVGVIRRVKVCAKFNGAVGNFNAHKVASKDTDWVNTIGLFLKKHFNLTYSIYCTQIQDHDYICELCDGLARANGTLIDLCVDIWLYISNNLLKLKSSTMPHKVNPIDFENAEGNLHIANAFFKLFSSKLPTSRLQRDLSDSTVLRNIGSSLAYCLIAYKSVLKGLNKIDIDRRNLEEELNQNWSTLAEPIQIVMKRHNYVDAYEELKQFTRGKVIDQKIMQEFIKTKCAFLPQDVVDQLLELTPATYTGYADYLAKNVERLSGE EHLKNISPIDGRYKKACGELSAFFSEHALIKHRIIVEVRWLLFLNEEELFFEKVTDHSVEVLNQIATNITDSDIARVKAIEEETNHDVKAVEYFVKEKLKNSKREDLLKIKEYVHYLCTSEDINNVAYATCLKACLNDVVIPCLEKIMLKLKDLAVEYSHVPLLSRTHGQPASSTTFGKEMANFYARIHHHVGVIRRVKVCAKFNGAVGNFNAHKVASKDTDWVNTIGLFLKKHFNLTYSIYCTQIQDHDYICELCDGLARANGTLIDLCVDIWLYISNNLLKLKVGSSTMPHKVNPIDFENAEGNLHIANAFFKLFSSKLPTSRLQRDLSDSTVLRNIGSSLAYCLIAYKSVLKGLNKIDIDRRNLEEELNQNWSTLAEPIQIVMKRHNYVDAYEELKQFTRGKVIDQKIMQEFIKTKCAFLPQDVVDQLLELTPATYTGYADYLAKNVERLSG 2qgf-a1-m3-cA_2qgf-a1-m3-cC Structure of regulatory chain mutant H20A of asparate transcarbamoylase from E. coli P0A786 P0A786 2.2 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 310 310 2qgf-a1-m1-cA_2qgf-a1-m1-cC 2qgf-a1-m2-cA_2qgf-a1-m2-cC ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL 2qgh-a1-m1-cA_2qgh-a1-m2-cA Crystal structure of diaminopimelate decarboxylase from Helicobacter pylori complexed with L-lysine B4XMC6 B4XMC6 2.3 X-RAY DIFFRACTION 246 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 394 394 3c5q-a1-m1-cA_3c5q-a1-m2-cA NYEELFQTHKTPFYLYDFDKIKQAFLNYKEAFKGRKSLICYALKANSNLSILSLLAHLESGADCVSIGEIQRALKAGIKPYRIVFSGVGKSAFEIEQALKLNILFLNVESFMELKTIETIAQSLGIKARISIRINPNIDAKTHPYISTGLKENKFGVGEKEALEMFLWAKKSAFLEPVSVHFHIGSQLLDLEPIIEASQKVAKIAKSLIALGIDLRFFDVGGGIGVSYENEETIKLYDYAQGILNALQGLDLTIICEPGRSIVAESGELITQVLYEKKNKRFVIVDAGMNDFLRPSLYHAKHAIRVITPSEISPCDVVGPVCESSDTFLKDAHLPELEPGDKIAIEKVGAYGSSMASQYNSRPKLLELALEDKIRVIRKREALEDLWRLEEEGL NYEELFQTHKTPFYLYDFDKIKQAFLNYKEAFKGRKSLICYALKANSNLSILSLLAHLESGADCVSIGEIQRALKAGIKPYRIVFSGVGKSAFEIEQALKLNILFLNVESFMELKTIETIAQSLGIKARISIRINPNIDAKTHPYISTGLKENKFGVGEKEALEMFLWAKKSAFLEPVSVHFHIGSQLLDLEPIIEASQKVAKIAKSLIALGIDLRFFDVGGGIGVSYENEETIKLYDYAQGILNALQGLDLTIICEPGRSIVAESGELITQVLYEKKNKRFVIVDAGMNDFLRPSLYHAKHAIRVITPSEISPCDVVGPVCESSDTFLKDAHLPELEPGDKIAIEKVGAYGSSMASQYNSRPKLLELALEDKIRVIRKREALEDLWRLEEEGL 2qgs-a1-m1-cB_2qgs-a1-m1-cA Crystal structure of SE1688 protein from Staphylococcus epidermidis. Northeast Structural Genomics Consortium target SeR89 A0A0H2VIU2 A0A0H2VIU2 2 X-RAY DIFFRACTION 103 0.995 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 191 201 NSRKIKKAYEYKSFHQHDTTGHDIAHVERVYNNACYIAKRENITDTLVIELSSLLHDTVYDQLKQFLSTLDLSSEISQQVLYIIKHHVKLSIDGEIVRDADRLDAIGAIGIARTFQFSGHFGEPWTETKLSNEELHTSLVEELDNSAIKHFYEKLFKLKDLHTPTAKKLAEERHQFIQYLKQFSEWNFNKE NSRKIKKAYEYKSFHQHDTTGHDIAHVERVYNNACYIAKRENITDTLVIELSSLLHDTVDSKLTDEILAYDQLKQFLSTLDLSSEISQQVLYIIKHSHVKLSIDGEIVRDADRLDAIGAIGIARTFQFSGHFGEPWTETKLSNEELHTSLVEELDNSAIKHFYEKLFKLKDLHTPTAKKLAEERHQFIQYLKQFSEWNFNK 2qgv-a11-m1-cC_2qgv-a11-m1-cD Crystal structure of hydrogenase-1 operon protein hyaE from Shigella flexneri. Northeast Structural Genomics Consortium Target SfR170 A0A2S4MV65 A0A2S4MV65 2.7 X-RAY DIFFRACTION 31 1.0 198214 (Shigella flexneri 2a str. 301) 198214 (Shigella flexneri 2a str. 301) 118 118 TPFDALWQRLARGWTPVSESRLDDWLTQAPDGVVLLSSDPKRTPEVSDNPVIGELLHEFPDYTWQVAIADLEQSEAIGDRFGAFRFPATLVFTGGNYRGVLNGIHPWAELINLRGLVE TPFDALWQRLARGWTPVSESRLDDWLTQAPDGVVLLSSDPKRTPEVSDNPVIGELLHEFPDYTWQVAIADLEQSEAIGDRFGAFRFPATLVFTGGNYRGVLNGIHPWAELINLRGLVE 2qgx-a6-m1-cD_2qgx-a6-m1-cC Ubiquitin-conjugating enzyme E2Q Q7Z7E8 Q7Z7E8 2.56 X-RAY DIFFRACTION 42 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 160 161 2qgx-a5-m1-cA_2qgx-a5-m1-cB GSVQATDRLMKELRDIYRSQSFKGGNYAVELVNDSLYDWNVKLLKVDQDSALHNDLQILKEKEGADFILLNFSFKDNFPFDPPFVRVVSPVLSGGYVLGGGAICMELLTKQGWSSAYSIESVIMQISATLVKGKARVQFGANKSQYSLTRAQQSYKSLVQ SVQATDRLMKELRDIYRSQSFKGGNYAVELVNDSLYDWNVKLLKVDQDSALHNDLQILKEKEGADFILLNFSFKDNFPFDPPFVRVVSPVLSGGYVLGGGAICMELLTKQGWSSAYSIESVIMQISATLVKGKARVQFGANKSQYSLTRAQQSYKSLVQIH 2qgy-a1-m1-cB_2qgy-a1-m1-cA Crystal structure of an enolase from the environmental genome shotgun sequencing of the Sargasso Sea 1.8 X-RAY DIFFRACTION 106 1.0 375 376 QDISIGKLSRLKIWITDNHLSDDQWSNTKKFIIIKITTEDGIEGWGEAFSINFREKGIAIIIKELFREISNIPNLSIKSFYNKISLLSDGHRGLDFSSATSAIEIALWDISGKLKNLPLNSLLTKSPKPNVPIYATCWSDLKKDTNDYLRQIEKFYGKKYGGIKIYPMLDSLSISIQFVEKVREIVGDELPLMLDLAVPEDLDQTKSFLKEVSSFNPYWIEEPVDGENISLLTEIKNTFNMKVVTGEKQSGLVHFRELISRNAADIFNPDISGMGGLIDIIEISNEASNNGIFISPHCWNSMSVSASAMLHVCSSIPNSEKAEIFPDYINFSKKFCELPFDIIDNKAHINKSAGLGIVIHEDILSELSIYSLDEK NQDISIGKLSRLKIWITDNHLSDDQWSNTKKFIIIKITTEDGIEGWGEAFSINFREKGIAIIIKELFREISNIPNLSIKSFYNKISLLSDGHRGLDFSSATSAIEIALWDISGKLKNLPLNSLLTKSPKPNVPIYATCWSDLKKDTNDYLRQIEKFYGKKYGGIKIYPMLDSLSISIQFVEKVREIVGDELPLMLDLAVPEDLDQTKSFLKEVSSFNPYWIEEPVDGENISLLTEIKNTFNMKVVTGEKQSGLVHFRELISRNAADIFNPDISGMGGLIDIIEISNEASNNGIFISPHCWNSMSVSASAMLHVCSSIPNSEKAEIFPDYINFSKKFCELPFDIIDNKAHINKSAGLGIVIHEDILSELSIYSLDEK 2qh9-a1-m1-cB_2qh9-a1-m1-cA The crystal structure of a protein of unknown function from Archaeoglobus fulgidus DSM 4304 O28839 O28839 1.8 X-RAY DIFFRACTION 42 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 168 172 KWRFLGIDDSFDDRKCCVVGCVTCGGYVEGFLYTEIDIDGLDATDKLISVRRSKFREQIKCIFLPGITLGGFNLVDIQRVYRETKIPVVVVRRKPDEEFDSARNLENYELRRKIVEVAGEIHRIGDIYIQTAGLTPSEAEKLVKASLIKGNPEPVRISHLVASAIIHG GNAKKWRFLGIDDSFDDRKCCVVGCVTCGGYVEGFLYTEIDIDGLDATDKLISVRRSKFREQIKCIFLPGITLGGFNLVDIQRVYRETKIPVVVVRRKPDEEFDSARNLENYELRRKIVEVAGEIHRIGDIYIQTAGLTPSEAEKLVKASLIKGNPEPVRISHLVASAIIHG 2qhd-a1-m1-cA_2qhd-a1-m1-cB Crystal structure of ecarpholin S (ser49-PLA2) complexed with fatty acid P48650 P48650 1.95 X-RAY DIFFRACTION 55 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 122 122 SVVELGKMIIQETGKSPFPSYTSYGCFCGGGERGPPLDATDRCCLAHSCCYDTLPDCSPKTDRYKYKRENGEIICENSTSCKKRICECDKAVAVCLRKNLNTYNKKYTYYPNFWCKGDIEKC SVVELGKMIIQETGKSPFPSYTSYGCFCGGGERGPPLDATDRCCLAHSCCYDTLPDCSPKTDRYKYKRENGEIICENSTSCKKRICECDKAVAVCLRKNLNTYNKKYTYYPNFWCKGDIEKC 2qi9-a1-m1-cA_2qi9-a1-m1-cB ABC-transporter BtuCD in complex with its periplasmic binding protein BtuF P06609 P06609 2.6 X-RAY DIFFRACTION 94 1.0 562 (Escherichia coli) 562 (Escherichia coli) 313 313 1l7v-a1-m1-cA_1l7v-a1-m1-cB 4dbl-a1-m1-cA_4dbl-a1-m1-cB 4dbl-a2-m1-cF_4dbl-a2-m1-cG 4fi3-a1-m1-cA_4fi3-a1-m1-cB 4r9u-a1-m1-cA_4r9u-a1-m1-cB LTLARQQQRQNIRWLLSLSVLLLALLLSLSAGEQWISPGDWFTPRGELFVWQIRLPRTLAVLLVGAALAISGAVQALFENPLAEPGLLGVSNGAGVGLIAAVLLGQGQLPNWALGLSAIAGALIITLILLRFARRHLSTSRLLLAGVALGIISSALTWAIYFSTSVDLRQLYWGGFGGVDWRQSWLLALIPVLLWISSQSRPNLALGEISARQLGLPLWFWRNVLVAATGWVGVSVALAGAIGFIGLVIPHILRLSGLTDHRVLLPGCALAGASALLLADIVARLALAAAELPIGVVTATLGAPVFIWLLLKA LTLARQQQRQNIRWLLSLSVLLLALLLSLSAGEQWISPGDWFTPRGELFVWQIRLPRTLAVLLVGAALAISGAVQALFENPLAEPGLLGVSNGAGVGLIAAVLLGQGQLPNWALGLSAIAGALIITLILLRFARRHLSTSRLLLAGVALGIISSALTWAIYFSTSVDLRQLYWGGFGGVDWRQSWLLALIPVLLWISSQSRPNLALGEISARQLGLPLWFWRNVLVAATGWVGVSVALAGAIGFIGLVIPHILRLSGLTDHRVLLPGCALAGASALLLADIVARLALAAAELPIGVVTATLGAPVFIWLLLKA 2qi9-a1-m1-cC_2qi9-a1-m1-cD ABC-transporter BtuCD in complex with its periplasmic binding protein BtuF P06611 P06611 2.6 X-RAY DIFFRACTION 53 1.0 562 (Escherichia coli) 562 (Escherichia coli) 240 240 1l7v-a1-m1-cC_1l7v-a1-m1-cD 4dbl-a1-m1-cC_4dbl-a1-m1-cD 4dbl-a2-m1-cH_4dbl-a2-m1-cI 4fi3-a1-m1-cC_4fi3-a1-m1-cD 4r9u-a1-m1-cC_4r9u-a1-m1-cD SIVQLQDVAESTRLGPLSGEVRAGEILHLVGPNGAGKSTLLARAGTSGKGSIQFAGQPLEAWSATKLALHRAYLSQQQTPPFATPVWHYLTLHQHDKTRTELLNDVAGALALDDKLGRSTNQLSGGEWQRVRLAAVVLQITPQANPAGQLLLLDEPNSLDVAQQSALDKILSALSQQGLAIVSSHDLNHTLRHAHRAWLLKGGKLASGRREEVLTPPNLAQAYGNFRRLDIEGHRLISTI SIVQLQDVAESTRLGPLSGEVRAGEILHLVGPNGAGKSTLLARAGTSGKGSIQFAGQPLEAWSATKLALHRAYLSQQQTPPFATPVWHYLTLHQHDKTRTELLNDVAGALALDDKLGRSTNQLSGGEWQRVRLAAVVLQITPQANPAGQLLLLDEPNSLDVAQQSALDKILSALSQQGLAIVSSHDLNHTLRHAHRAWLLKGGKLASGRREEVLTPPNLAQAYGNFRRLDIEGHRLISTI 2qib-a1-m1-cB_2qib-a1-m1-cA Crystal structure of tetR-family transcriptional regulator from Streptomyces coelicolor Q9KZ14 Q9KZ14 1.7 X-RAY DIFFRACTION 127 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 204 217 RRQQLIGVALDLFSRRSPDEVSIDEIASAAGISRPLVYHYFPGKLSLYEAALQRASDDLADRFVEPRQGPLGARLLRVGRYFDFVDEHGPGFSALRSTTTNALVDSVRQAAYVQILSHLDVTEPPARLELVVRSWISLAESTALLWLDGRRIPRAELETQLVHDFAALAVSAAYDEEGALVRRVLADEPEGPFGDLVDRLLALS GVEERRQQLIGVALDLFSRRSPDEVSIDEIASAAGISRPLVYHYFPGKLSLYEAALQRASDDLADRFVEPRQGPLGARLLRVGRYFDFVDEHGPGFSALRGGPAVGSTTTNALVDSVRQAAYVQILSHLDVTEPPARLELVVRSWISLAESTALLWLDGRRIPRAELETQLVHDFAALAVSAAYDEEGALVRRVLADEPEDGPFGDLVDRLLALSAR 2qie-a2-m1-cH_2qie-a2-m1-cK Staphylococcus aureus molybdopterin synthase in complex with precursor Z P65401 P65401 2.5 X-RAY DIFFRACTION 91 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 131 136 2q5w-a1-m1-cE_2q5w-a1-m2-cE 2qie-a1-m1-cA_2qie-a1-m1-cE MKQFEIVIEPIQTEQYREFTINEYQGAVVVFTGHVREWTKGVKTEYLEYEAYIPMAEKKLAQIGDEINEKWPGTITSIVHRIGPLQISDIAVLIAVSSPHRKDAYRANEYAIERIKEIVPIWKKEIKWQGH MKQFEIVIEPIQTEQYREFTINEYQGAVVVFTGHVREWTKGVKTEYLEYEAYIPMAEKKLAQIGDEINEKWPGTITSIVHRIGPLQISDIAVLIAVSSPHRKDAYRANEYAIERIKEIVPIWKKEIWEDGSKWQGH 2qif-a1-m1-cB_2qif-a1-m1-cA Crystal structure of a metallochaperone with a tetranuclear Cu(I) cluster O32221 O32221 1.5 X-RAY DIFFRACTION 13 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 68 69 MEQKTLQVEGMSCQHCVKAVETSVGELDGVSAVHVNLEAGKVDVSFDADKVSVKDIADAIEDQGYDVA MEQKTLQVEGMSCQHCVKAVETSVGELDGVSAVHVNLEAGKVDVSFDADKVSVKDIADAIEDQGYDVAK 2qih-a2-m4-cB_2qih-a2-m5-cB Crystal structure of 527-665 fragment of UspA1 protein from Moraxella catarrhalis Q9XD54 Q9XD54 1.897 X-RAY DIFFRACTION 153 1.0 480 (Moraxella catarrhalis) 480 (Moraxella catarrhalis) 137 137 2qih-a1-m1-cA_2qih-a1-m2-cA 2qih-a1-m1-cA_2qih-a1-m3-cA 2qih-a1-m2-cA_2qih-a1-m3-cA 2qih-a2-m1-cB_2qih-a2-m4-cB 2qih-a2-m1-cB_2qih-a2-m5-cB NTDRIATAELGIAENKKDAQIAKAQANENKDGIAKNQADIQLHDKKITNLGILHSMVARAVGNNTQGVATNKADIAKNQADIANNIKNIYELAQQQDQHSSDIKTLAKVSAANTDRIAKNKAEADASFETLTKNQKL NTDRIATAELGIAENKKDAQIAKAQANENKDGIAKNQADIQLHDKKITNLGILHSMVARAVGNNTQGVATNKADIAKNQADIANNIKNIYELAQQQDQHSSDIKTLAKVSAANTDRIAKNKAEADASFETLTKNQKL 2qip-a1-m1-cA_2qip-a1-m2-cA Crystal structure of a protein of unknown function VPA0982 from Vibrio parahaemolyticus RIMD 2210633 Q9AF14 Q9AF14 1.48 X-RAY DIFFRACTION 96 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 160 160 QSDHKEKIAILVDVQNVYYTCREAYRSNFDYNQFWYVATQEKEVVSAKAYAIASNDPKQRQFHHILRGVGFEVLKPYIQRRDGSAKGDWDVGITLDAIEIAPDVDRVILVSGDGDFSLLVERIQQRYNKKVTVYGVPRLTSQTLIDCADNFVAIDDDFLL QSDHKEKIAILVDVQNVYYTCREAYRSNFDYNQFWYVATQEKEVVSAKAYAIASNDPKQRQFHHILRGVGFEVLKPYIQRRDGSAKGDWDVGITLDAIEIAPDVDRVILVSGDGDFSLLVERIQQRYNKKVTVYGVPRLTSQTLIDCADNFVAIDDDFLL 2qiw-a1-m1-cA_2qiw-a1-m1-cB Crystal structure of a putative phosphoenolpyruvate phosphonomutase (ncgl1015, cgl1060) from corynebacterium glutamicum atcc 13032 at 1.80 A resolution Q8NRI8 Q8NRI8 1.8 X-RAY DIFFRACTION 102 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 250 250 GSDLKSLATKFASDHESGKLLVLPTVWDTWSAGLVEEAGFSGLTIGSHPVADATGSSDGENNFADYAVVKKITSAVSIPVSVDVESGYGLSPADLIAQILEAGAVGINVEDVVHSEGKRVREAQEHADYIAAARQAADVAGVDVVINGRTDAVKLGADVFEDPVEAIKRIKLEQAGARSVYPVGLSTAEQVERLVDAVSVPVNITAHPVDGHGAGDLATLAGLGVRRVTFGPLWQKWLAATSAQQLKGWA GSDLKSLATKFASDHESGKLLVLPTVWDTWSAGLVEEAGFSGLTIGSHPVADATGSSDGENNFADYAVVKKITSAVSIPVSVDVESGYGLSPADLIAQILEAGAVGINVEDVVHSEGKRVREAQEHADYIAAARQAADVAGVDVVINGRTDAVKLGADVFEDPVEAIKRIKLEQAGARSVYPVGLSTAEQVERLVDAVSVPVNITAHPVDGHGAGDLATLAGLGVRRVTFGPLWQKWLAATSAQQLKGWA 2qiy-a1-m1-cB_2qiy-a1-m1-cA yeast Deubiquitinase Ubp3 and Bre5 cofactor complex P53741 P53741 1.69 X-RAY DIFFRACTION 85 0.985 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 133 134 1zx2-a1-m1-cA_1zx2-a1-m1-cB TVQDICFAFLQNYYERMRTDPSKLAYFYASTAELTHTNYQSDDVLPTVKVTGRENINKFFSRNDAKVRSLKLKLDTIDFQYTGHLHKSILIMATGEMFWTGTPVYKFCQTFILLPSSTFDITNDIIRFISNSF VTVQDICFAFLQNYYERMRTDPSKLAYFYASTAELTHTNYQSKKDDVLPTVKVTGRENINKFFSRNDAKVRSLKLKLDTIDFQYTGHLHKSILIMATGEMFWTGTPVYKFCQTFILLPSSTFDITNDIIRFISN 2qj4-a1-m1-cA_2qj4-a1-m1-cB A Mechanistic Basis for Converting a Receptor Tyrosine Kinase Agonist to an Antagonist Q08048 Q08048 2.5 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 172 172 TLHEFKKSAKTTLTKEDPLLKIKTKKVNSADECANRCIRNRGFTFTCKAFVFDKSRKRCYWYPFNSMSSGVKKGFGHEFDLYENKDYIRNCIIGKGGSYKGTVSITKSGIKCQPWNSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEV TLHEFKKSAKTTLTKEDPLLKIKTKKVNSADECANRCIRNRGFTFTCKAFVFDKSRKRCYWYPFNSMSSGVKKGFGHEFDLYENKDYIRNCIIGKGGSYKGTVSITKSGIKCQPWNSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEV 2qjh-a1-m1-cE_2qjh-a1-m1-cK M. jannaschii ADH synthase covalently bound to dihydroxyacetone phosphate Q57843 Q57843 2.6 X-RAY DIFFRACTION 36 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 264 264 2qjg-a1-m1-cB_2qjg-a1-m1-cL 2qjg-a1-m1-cC_2qjg-a1-m1-cO 2qjg-a1-m1-cK_2qjg-a1-m1-cD 2qjg-a1-m1-cM_2qjg-a1-m1-cE 2qjg-a1-m1-cN_2qjg-a1-m1-cA 2qjg-a2-m1-cF_2qjg-a2-m1-cP 2qjg-a2-m1-cG_2qjg-a2-m1-cR 2qjg-a2-m1-cH_2qjg-a2-m1-cQ 2qjg-a2-m1-cI_2qjg-a2-m1-cT 2qjg-a2-m1-cS_2qjg-a2-m1-cJ 2qjh-a1-m1-cA_2qjh-a1-m1-cO 2qjh-a1-m1-cB_2qjh-a1-m1-cN 2qjh-a1-m1-cL_2qjh-a1-m1-cD 2qjh-a1-m1-cM_2qjh-a1-m1-cC 2qjh-a2-m1-cF_2qjh-a2-m1-cT 2qjh-a2-m1-cG_2qjh-a2-m1-cS 2qjh-a2-m1-cH_2qjh-a2-m1-cR 2qjh-a2-m1-cI_2qjh-a2-m1-cQ 2qjh-a2-m1-cJ_2qjh-a2-m1-cP 2qji-a1-m1-cA_2qji-a1-m1-cL 2qji-a1-m1-cB_2qji-a1-m1-cK 2qji-a1-m1-cC_2qji-a1-m1-cO 2qji-a1-m1-cD_2qji-a1-m1-cN 2qji-a1-m1-cE_2qji-a1-m1-cM 2qji-a2-m1-cF_2qji-a2-m1-cS 2qji-a2-m1-cG_2qji-a2-m1-cR 2qji-a2-m1-cH_2qji-a2-m1-cP 2qji-a2-m1-cI_2qji-a2-m1-cQ 2qji-a2-m1-cT_2qji-a2-m1-cJ ELFKDIKNLGKLVRLERIFNRESEKTVIVPMDHGVSNGPIKGLIDIRKTVNDVAEGGANAVLLHKGIVRHGDVGLIIHLSGGTAISPNPLKKVIVTTVEEAIRMGADAVSIHVNVGSDEDWEAYRDLGMIAETCEYWGMPLIAMMYPRGKHIQNERDPELVAHAARLGAELGADIVKTSYTGDIDSFRDVVKGCPAPVVVAGGPKTNTDEEFLQMIKDAMEAGAAGVAVGRNIFQHDDVVGITRAVCKIVHENADVEEALKEIR ELFKDIKNLGKLVRLERIFNRESEKTVIVPMDHGVSNGPIKGLIDIRKTVNDVAEGGANAVLLHKGIVRHGDVGLIIHLSGGTAISPNPLKKVIVTTVEEAIRMGADAVSIHVNVGSDEDWEAYRDLGMIAETCEYWGMPLIAMMYPRGKHIQNERDPELVAHAARLGAELGADIVKTSYTGDIDSFRDVVKGCPAPVVVAGGPKTNTDEEFLQMIKDAMEAGAAGVAVGRNIFQHDDVVGITRAVCKIVHENADVEEALKEIR 2qjh-a2-m1-cF_2qjh-a2-m1-cG M. jannaschii ADH synthase covalently bound to dihydroxyacetone phosphate Q57843 Q57843 2.6 X-RAY DIFFRACTION 101 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 264 264 2qjg-a1-m1-cB_2qjg-a1-m1-cE 2qjg-a1-m1-cC_2qjg-a1-m1-cB 2qjg-a1-m1-cC_2qjg-a1-m1-cD 2qjg-a1-m1-cD_2qjg-a1-m1-cA 2qjg-a1-m1-cE_2qjg-a1-m1-cA 2qjg-a1-m1-cK_2qjg-a1-m1-cO 2qjg-a1-m1-cM_2qjg-a1-m1-cL 2qjg-a1-m1-cM_2qjg-a1-m1-cN 2qjg-a1-m1-cN_2qjg-a1-m1-cK 2qjg-a1-m1-cO_2qjg-a1-m1-cL 2qjg-a2-m1-cF_2qjg-a2-m1-cI 2qjg-a2-m1-cF_2qjg-a2-m1-cJ 2qjg-a2-m1-cG_2qjg-a2-m1-cJ 2qjg-a2-m1-cH_2qjg-a2-m1-cG 2qjg-a2-m1-cI_2qjg-a2-m1-cH 2qjg-a2-m1-cR_2qjg-a2-m1-cQ 2qjg-a2-m1-cS_2qjg-a2-m1-cP 2qjg-a2-m1-cS_2qjg-a2-m1-cR 2qjg-a2-m1-cT_2qjg-a2-m1-cP 2qjg-a2-m1-cT_2qjg-a2-m1-cQ 2qjh-a1-m1-cA_2qjh-a1-m1-cB 2qjh-a1-m1-cA_2qjh-a1-m1-cE 2qjh-a1-m1-cB_2qjh-a1-m1-cC 2qjh-a1-m1-cC_2qjh-a1-m1-cD 2qjh-a1-m1-cE_2qjh-a1-m1-cD 2qjh-a1-m1-cK_2qjh-a1-m1-cL 2qjh-a1-m1-cK_2qjh-a1-m1-cO 2qjh-a1-m1-cM_2qjh-a1-m1-cL 2qjh-a1-m1-cM_2qjh-a1-m1-cN 2qjh-a1-m1-cN_2qjh-a1-m1-cO 2qjh-a2-m1-cF_2qjh-a2-m1-cJ 2qjh-a2-m1-cG_2qjh-a2-m1-cH 2qjh-a2-m1-cH_2qjh-a2-m1-cI 2qjh-a2-m1-cI_2qjh-a2-m1-cJ 2qjh-a2-m1-cP_2qjh-a2-m1-cQ 2qjh-a2-m1-cP_2qjh-a2-m1-cT 2qjh-a2-m1-cQ_2qjh-a2-m1-cR 2qjh-a2-m1-cS_2qjh-a2-m1-cR 2qjh-a2-m1-cS_2qjh-a2-m1-cT 2qji-a1-m1-cA_2qji-a1-m1-cB 2qji-a1-m1-cA_2qji-a1-m1-cE 2qji-a1-m1-cB_2qji-a1-m1-cC 2qji-a1-m1-cC_2qji-a1-m1-cD 2qji-a1-m1-cD_2qji-a1-m1-cE 2qji-a1-m1-cK_2qji-a1-m1-cL 2qji-a1-m1-cK_2qji-a1-m1-cO 2qji-a1-m1-cL_2qji-a1-m1-cM 2qji-a1-m1-cM_2qji-a1-m1-cN 2qji-a1-m1-cN_2qji-a1-m1-cO 2qji-a2-m1-cF_2qji-a2-m1-cG 2qji-a2-m1-cF_2qji-a2-m1-cJ 2qji-a2-m1-cG_2qji-a2-m1-cH 2qji-a2-m1-cH_2qji-a2-m1-cI 2qji-a2-m1-cI_2qji-a2-m1-cJ 2qji-a2-m1-cP_2qji-a2-m1-cQ 2qji-a2-m1-cP_2qji-a2-m1-cR 2qji-a2-m1-cR_2qji-a2-m1-cS 2qji-a2-m1-cT_2qji-a2-m1-cQ 2qji-a2-m1-cT_2qji-a2-m1-cS ELFKDIKNLGKLVRLERIFNRESEKTVIVPMDHGVSNGPIKGLIDIRKTVNDVAEGGANAVLLHKGIVRHGDVGLIIHLSGGTAISPNPLKKVIVTTVEEAIRMGADAVSIHVNVGSDEDWEAYRDLGMIAETCEYWGMPLIAMMYPRGKHIQNERDPELVAHAARLGAELGADIVKTSYTGDIDSFRDVVKGCPAPVVVAGGPKTNTDEEFLQMIKDAMEAGAAGVAVGRNIFQHDDVVGITRAVCKIVHENADVEEALKEIR ELFKDIKNLGKLVRLERIFNRESEKTVIVPMDHGVSNGPIKGLIDIRKTVNDVAEGGANAVLLHKGIVRHGDVGLIIHLSGGTAISPNPLKKVIVTTVEEAIRMGADAVSIHVNVGSDEDWEAYRDLGMIAETCEYWGMPLIAMMYPRGKHIQNERDPELVAHAARLGAELGADIVKTSYTGDIDSFRDVVKGCPAPVVVAGGPKTNTDEEFLQMIKDAMEAGAAGVAVGRNIFQHDDVVGITRAVCKIVHENADVEEALKEIR 2qjh-a2-m1-cG_2qjh-a2-m1-cT M. jannaschii ADH synthase covalently bound to dihydroxyacetone phosphate Q57843 Q57843 2.6 X-RAY DIFFRACTION 10 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 264 264 2qjg-a1-m1-cK_2qjg-a1-m1-cA 2qjg-a1-m1-cM_2qjg-a1-m1-cB 2qjg-a2-m1-cF_2qjg-a2-m1-cT 2qjg-a2-m1-cP_2qjg-a2-m1-cJ 2qjh-a1-m1-cA_2qjh-a1-m1-cK 2qjh-a1-m1-cE_2qjh-a1-m1-cL 2qjh-a1-m1-cM_2qjh-a1-m1-cD 2qjh-a2-m1-cH_2qjh-a2-m1-cS ELFKDIKNLGKLVRLERIFNRESEKTVIVPMDHGVSNGPIKGLIDIRKTVNDVAEGGANAVLLHKGIVRHGDVGLIIHLSGGTAISPNPLKKVIVTTVEEAIRMGADAVSIHVNVGSDEDWEAYRDLGMIAETCEYWGMPLIAMMYPRGKHIQNERDPELVAHAARLGAELGADIVKTSYTGDIDSFRDVVKGCPAPVVVAGGPKTNTDEEFLQMIKDAMEAGAAGVAVGRNIFQHDDVVGITRAVCKIVHENADVEEALKEIR ELFKDIKNLGKLVRLERIFNRESEKTVIVPMDHGVSNGPIKGLIDIRKTVNDVAEGGANAVLLHKGIVRHGDVGLIIHLSGGTAISPNPLKKVIVTTVEEAIRMGADAVSIHVNVGSDEDWEAYRDLGMIAETCEYWGMPLIAMMYPRGKHIQNERDPELVAHAARLGAELGADIVKTSYTGDIDSFRDVVKGCPAPVVVAGGPKTNTDEEFLQMIKDAMEAGAAGVAVGRNIFQHDDVVGITRAVCKIVHENADVEEALKEIR 2qjo-a1-m2-cA_2qjo-a1-m2-cB crystal structure of a bifunctional NMN adenylyltransferase/ADP ribose pyrophosphatase (NadM) complexed with ADPRP and NAD from Synechocystis sp. Q55928 Q55928 2.6 X-RAY DIFFRACTION 70 0.985 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 332 336 2qjo-a1-m1-cA_2qjo-a1-m1-cB 2qjo-a1-m1-cC_2qjo-a1-m2-cC DPMQTKYQYGIYIGRFQPFHLGHLRTLNLALEKAEQVIIILGSHRVAADTRNPWRSPERMAMIEACLSPQILKRVHFLTVRDWLYSDNLWLAAVQQQVLKITGGSNSVVVLGHRKDASSYYLNLFPQWDYLETGHYPDFSSTAIRGAYFEGKEGDYLDKVPPAIADYLQTFQKSERYIALCDEYQFLQAYKQAWATAPYAPTFITTDAVVVQAGHVLMVRRQAKPGLGLIALPGGFIKQNETLVEGMLRELKEETRLKVPLPVLRGSIVDSHVFDAPGRSLRGRTITHAYFIQLPGGELPAVKKAWWMSLADLYAQEEQIYEDHFQIIQHFV KYQYGIYIGRFQPFHLGHLRTLNLALEKAEQVIIILGSHRVAADTRNPWRSPERMAMIEACLSPQILKRVHFLTVRDWLYSDNLWLAAVQQQVLKITGGSNSVVVLGHRKDASSYYLNLFPQWDYLETGHYPDFSSTAIRGAYFEGKEGDYLDKVPPAIADYLQTFQKSERYIALCDEYQFLQAYKQAWATAPYAPTFITTDAVVVQAGHVLMVRRQAKPGLGLIALPGGFIKQNETLVEGMLRELKEETRLKVPLPVLRGSIVDSHVFDAPGRSLRGRTITHAYFIQLPGGELPAVKGGDDAQKAWWMSLADLYAQEEQIYEDHFQIIQHFVSKV 2qjo-a1-m2-cC_2qjo-a1-m2-cA crystal structure of a bifunctional NMN adenylyltransferase/ADP ribose pyrophosphatase (NadM) complexed with ADPRP and NAD from Synechocystis sp. Q55928 Q55928 2.6 X-RAY DIFFRACTION 64 0.997 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 327 332 2qjo-a1-m1-cB_2qjo-a1-m2-cB 2qjo-a1-m1-cC_2qjo-a1-m1-cA KYQYGIYIGRFQPFHLGHLRTLNLALEKAEQVIIILGSHRVAADTRNPWRSPERMAMIEACLSPQILKRVHFLTVRDWLYSDNLWLAAVQQQVLKITGGSNSVVVLGHRKDASSYYLNLFPQWDYLETGHYPDFSSTAIRGAYFEGKEGDYLDKVPPAIADYLQTFQKSERYIALCDEYQFLQAYKQAWATAPYAPTFITTDAVVVQAGHVLMVRRQAKPGLGLIALPGGFIKQNETLVEGMLRELKEETRLKVPLPVLRGSIVDSHVFDAPGRSLRGRTITHAYFIQLPGGELPAVKAWWMSLADLYAQEEQIYEDHFQIIQHFVS DPMQTKYQYGIYIGRFQPFHLGHLRTLNLALEKAEQVIIILGSHRVAADTRNPWRSPERMAMIEACLSPQILKRVHFLTVRDWLYSDNLWLAAVQQQVLKITGGSNSVVVLGHRKDASSYYLNLFPQWDYLETGHYPDFSSTAIRGAYFEGKEGDYLDKVPPAIADYLQTFQKSERYIALCDEYQFLQAYKQAWATAPYAPTFITTDAVVVQAGHVLMVRRQAKPGLGLIALPGGFIKQNETLVEGMLRELKEETRLKVPLPVLRGSIVDSHVFDAPGRSLRGRTITHAYFIQLPGGELPAVKKAWWMSLADLYAQEEQIYEDHFQIIQHFV 2qjv-a1-m2-cB_2qjv-a1-m3-cB Crystal structure of an iolb-like protein (stm4420) from salmonella typhimurium lt2 at 1.90 A resolution Q8ZK62 Q8ZK62 1.9 X-RAY DIFFRACTION 37 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 252 252 2qjv-a1-m1-cA_2qjv-a1-m2-cA 2qjv-a1-m1-cA_2qjv-a1-m3-cA 2qjv-a1-m1-cB_2qjv-a1-m2-cB 2qjv-a1-m1-cB_2qjv-a1-m3-cB 2qjv-a1-m2-cA_2qjv-a1-m3-cA ANLLSTCTSESGNIQHISPQNAGWEYVGFDVWQLAGESITLPSDERERCLVLVAGLASVAADSFFYRIGQRSPFERIPAYSVYLPHHTEAVTAETDLELAVCSAPGFGELPVRLISPQEVGVEHRGGRNQRLVHNILPDSQLADSLLVVEVYTNAGATSSWPAHHDTAVEGQETYLEETYYHRFNPPQGFCLQRVYTDDRSLDECAVYNRDVVVPGYHPVATIAGYDNYYLNVAGPLRWRFTWEENHAWINS ANLLSTCTSESGNIQHISPQNAGWEYVGFDVWQLAGESITLPSDERERCLVLVAGLASVAADSFFYRIGQRSPFERIPAYSVYLPHHTEAVTAETDLELAVCSAPGFGELPVRLISPQEVGVEHRGGRNQRLVHNILPDSQLADSLLVVEVYTNAGATSSWPAHHDTAVEGQETYLEETYYHRFNPPQGFCLQRVYTDDRSLDECAVYNRDVVVPGYHPVATIAGYDNYYLNVAGPLRWRFTWEENHAWINS 2qjv-a1-m3-cA_2qjv-a1-m3-cB Crystal structure of an iolb-like protein (stm4420) from salmonella typhimurium lt2 at 1.90 A resolution Q8ZK62 Q8ZK62 1.9 X-RAY DIFFRACTION 69 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 252 252 2qjv-a1-m1-cA_2qjv-a1-m1-cB 2qjv-a1-m2-cA_2qjv-a1-m2-cB ANLLSTCTSESGNIQHISPQNAGWEYVGFDVWQLAGESITLPSDERERCLVLVAGLASVAADSFFYRIGQRSPFERIPAYSVYLPHHTEAVTAETDLELAVCSAPGFGELPVRLISPQEVGVEHRGGRNQRLVHNILPDSQLADSLLVVEVYTNAGATSSWPAHHDTAVEGQETYLEETYYHRFNPPQGFCLQRVYTDDRSLDECAVYNRDVVVPGYHPVATIAGYDNYYLNVAGPLRWRFTWEENHAWINS ANLLSTCTSESGNIQHISPQNAGWEYVGFDVWQLAGESITLPSDERERCLVLVAGLASVAADSFFYRIGQRSPFERIPAYSVYLPHHTEAVTAETDLELAVCSAPGFGELPVRLISPQEVGVEHRGGRNQRLVHNILPDSQLADSLLVVEVYTNAGATSSWPAHHDTAVEGQETYLEETYYHRFNPPQGFCLQRVYTDDRSLDECAVYNRDVVVPGYHPVATIAGYDNYYLNVAGPLRWRFTWEENHAWINS 2qjw-a2-m1-cD_2qjw-a2-m1-cC CRYSTAL STRUCTURE OF A PUTATIVE HYDROLASE OF THE ALPHA/BETA SUPERFAMILY (XCC1541) FROM XANTHOMONAS CAMPESTRIS PV. CAMPESTRIS AT 1.35 A RESOLUTION Q8PAE4 Q8PAE4 1.35 X-RAY DIFFRACTION 39 0.994 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 169 171 2qjw-a1-m1-cA_2qjw-a1-m1-cB SRGHCILAHGFESGPDALKVTALAEVAERLGWTHERPDFTDLDARRDLGQLGDVRGRLQRLLEIARAATEVVLAGSSLGSYIAAQVSLQVPTRALFLVPPTKGPLPALDAAAVPISIVHAWHDELIPAADVIAWAQARSARLLLVDDGHRLGAHVQAASRAFAELLQSL RGHCILAHGFESGPDALKVTALAEVAERLGWTHERPDFTDLDARRDLGQLGDVRGRLQRLLEIARAATEKGPVVLAGSSLGSYIAAQVSLQVPTRALFLVPPTKGPLPALDAAAVPISIVHAWHDELIPAADVIAWAQARSARLLLVDDGHRLGAHVQAASRAFAELLQSL 2qkd-a2-m1-cA_2qkd-a2-m2-cA Crystal structure of tandem ZPR1 domains Q62384 Q62384 2 X-RAY DIFFRACTION 263 1.0 10090 (Mus musculus) 10090 (Mus musculus) 384 384 IESLCMNCYRNGTTRLLLTKIPFFREIIVSSFSCEHCGWNNTEIQSAGRIQDQGVRYTLTVRSQEDMNREVVKTDSATTRIPELDFEIPAFSQKGALTTVEGLISRAISGLEQDQPTRRAVEGAIAERIDEFIGKLKDLKQMASPFTLVIDDPSGNSFVENPHAPQKDNALVITYYDRTPQQAEMLGLEEDLRNEVLQFNTNCPECNAPAQTNMKLVQIPHFKEVIIMATNCENCGHRTNEVKSGGAVEPLGTRITLHITDPSDMTRDLLKSETCSVEIPELEFELGMAVLGGKFTTLEGLLKDIRELVTKNPFTLGDSSNPDQSEKLQEFSQKLGQIIEGKMKAHFIMNDPAGNSYLQNVYAPEDDPEMKVERYKRTFDQNEE IESLCMNCYRNGTTRLLLTKIPFFREIIVSSFSCEHCGWNNTEIQSAGRIQDQGVRYTLTVRSQEDMNREVVKTDSATTRIPELDFEIPAFSQKGALTTVEGLISRAISGLEQDQPTRRAVEGAIAERIDEFIGKLKDLKQMASPFTLVIDDPSGNSFVENPHAPQKDNALVITYYDRTPQQAEMLGLEEDLRNEVLQFNTNCPECNAPAQTNMKLVQIPHFKEVIIMATNCENCGHRTNEVKSGGAVEPLGTRITLHITDPSDMTRDLLKSETCSVEIPELEFELGMAVLGGKFTTLEGLLKDIRELVTKNPFTLGDSSNPDQSEKLQEFSQKLGQIIEGKMKAHFIMNDPAGNSYLQNVYAPEDDPEMKVERYKRTFDQNEE 2qko-a2-m1-cC_2qko-a2-m1-cD Crystal structure of transcriptional regulator RHA06399 from Rhodococcus sp. RHA1 Q0S912 Q0S912 2.35 X-RAY DIFFRACTION 126 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 173 173 2qko-a1-m1-cA_2qko-a1-m1-cB QNPERRAALVNAAIEVLAREGARGLTFRAVDVEANVPKGTASNYFPSRDDLFDQVGKRIHERLNLELAIEYQGLFGRITRDRTGYLALQELRLEAVRRPELRTTLTRTISENLKRDIGFHLDSGLPGDRSTVLLYLANALIVEHLTLPGVLEGVDTERLVADLVTRAVATPDA QNPERRAALVNAAIEVLAREGARGLTFRAVDVEANVPKGTASNYFPSRDDLFDQVGKRIHERLNLELAIEYQGLFGRITRDRTGYLALQELRLEAVRRPELRTTLTRTISENLKRDIGFHLDSGLPGDRSTVLLYLANALIVEHLTLPGVLEGVDTERLVADLVTRAVATPDA 2qkp-a2-m1-cD_2qkp-a2-m1-cC Crystal structure of C-terminal domain of SMU_1151c from Streptococcus mutans Q8DU08 Q8DU08 1.75 X-RAY DIFFRACTION 134 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 134 138 2qkp-a1-m1-cA_2qkp-a1-m1-cB DRTTQQPFGNGYLSVEQANLILNHLPLEITFVNKDDIFQYYNDSVPAAEMVFKRTPSQVGRNVELCHPPKVLDKVKKVFELLRNGQRDKVNMWFQSERLGKFVYVTYAAVRDQAGDFQGVLEYVQDIKPFFELD LDRTTQQPFGNGYLSVEQANLILNHLPLEITFVNKDDIFQYYNDSVPAAEMVFKRTPSQVGRNVELCHPPKVLDKVKKVFELLRNGQRDKVNMWFQSERLGKFVYVTYAAVRDQAGDFQGVLEYVQDIKPFFELDSEF 2qkt-a1-m1-cA_2qkt-a1-m2-cA Crystal Structure of the 5th PDZ domain of InaD Q24008 Q24008 2.05 X-RAY DIFFRACTION 12 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 85 85 LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK 2qkt-a1-m1-cA_2qkt-a1-m4-cB Crystal Structure of the 5th PDZ domain of InaD Q24008 Q24008 2.05 X-RAY DIFFRACTION 35 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 85 85 2qkt-a1-m2-cA_2qkt-a1-m3-cB LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK 2qkt-a1-m2-cA_2qkt-a1-m4-cB Crystal Structure of the 5th PDZ domain of InaD Q24008 Q24008 2.05 X-RAY DIFFRACTION 38 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 85 85 2qkt-a1-m1-cA_2qkt-a1-m3-cB 2qku-a2-m1-cC_2qku-a2-m2-cC LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK 2qkt-a1-m3-cB_2qkt-a1-m4-cB Crystal Structure of the 5th PDZ domain of InaD Q24008 Q24008 2.05 X-RAY DIFFRACTION 23 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 85 85 LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK LEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSMEVTRPK 2qku-a2-m1-cB_2qku-a2-m2-cC The 5th PDZ Domain of InaD in 10mM DTT Q24008 Q24008 2.2 X-RAY DIFFRACTION 19 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 82 88 2qku-a2-m2-cB_2qku-a2-m1-cC LEKFNVDLKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSEVTRP LEKFNVDLKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSEVTRPKPAAAS 2qku-a2-m2-cB_2qku-a2-m2-cC The 5th PDZ Domain of InaD in 10mM DTT Q24008 Q24008 2.2 X-RAY DIFFRACTION 39 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 82 88 2qku-a2-m1-cB_2qku-a2-m1-cC LEKFNVDLKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSEVTRP LEKFNVDLKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVCYALFKGANGKVSEVTRPKPAAAS 2qkv-a1-m2-cA_2qkv-a1-m6-cB Crystal Structure of the C645S Mutant of the 5th PDZ Domain of InaD Q24008 Q24008 1.55 X-RAY DIFFRACTION 14 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 92 92 2qkv-a1-m1-cA_2qkv-a1-m4-cB 2qkv-a1-m3-cA_2qkv-a1-m5-cB GIPRNSLEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVSYALFKGANGKVSMEVTRPKP GIPRNSLEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVSYALFKGANGKVSMEVTRPKP 2qkv-a1-m3-cA_2qkv-a1-m6-cB Crystal Structure of the C645S Mutant of the 5th PDZ Domain of InaD Q24008 Q24008 1.55 X-RAY DIFFRACTION 10 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 92 92 2qkv-a1-m1-cA_2qkv-a1-m5-cB 2qkv-a1-m2-cA_2qkv-a1-m4-cB GIPRNSLEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVSYALFKGANGKVSMEVTRPKP GIPRNSLEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVSYALFKGANGKVSMEVTRPKP 2qkv-a1-m5-cB_2qkv-a1-m6-cB Crystal Structure of the C645S Mutant of the 5th PDZ Domain of InaD Q24008 Q24008 1.55 X-RAY DIFFRACTION 61 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 92 92 2qkv-a1-m1-cA_2qkv-a1-m2-cA 2qkv-a1-m1-cA_2qkv-a1-m3-cA 2qkv-a1-m2-cA_2qkv-a1-m3-cA 2qkv-a1-m4-cB_2qkv-a1-m5-cB 2qkv-a1-m4-cB_2qkv-a1-m6-cB GIPRNSLEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVSYALFKGANGKVSMEVTRPKP GIPRNSLEKFNVDLMKKAGKELGLSLSPNEIGCTIADLIQGQYPEIDSKLQRGDIITKFNGDALEGLPFQVSYALFKGANGKVSMEVTRPKP 2ql2-a3-m1-cD_2ql2-a3-m1-cB Crystal Structure of the basic-helix-loop-helix domains of the heterodimer E47/NeuroD1 bound to DNA Q60867 Q60867 2.5 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 57 59 RRMKANARERNRMHGLNAALDNLRKVVPCYSKTQKLSKIETLRLAKNYIWALSEILR SRRMKANARERNRMHGLNAALDNLRKVVPCYSKTQKLSKIETLRLAKNYIWALSEILRS 2ql3-a4-m1-cG_2ql3-a4-m1-cH Crystal structure of the C-terminal domain of a probable LysR family transcriptional regulator from Rhodococcus sp. RHA1 Q0SFM8 Q0SFM8 2.05 X-RAY DIFFRACTION 119 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 200 200 2ql3-a1-m1-cA_2ql3-a1-m1-cB 2ql3-a2-m1-cC_2ql3-a2-m1-cD 2ql3-a3-m1-cE_2ql3-a3-m1-cF 2ql3-a5-m1-cI_2ql3-a5-m1-cJ 2ql3-a6-m1-cK_2ql3-a6-m1-cL VAGPIAVGCYPALGPTILPSLYAFTAEYPRASVEFREDTQNRLRTQLEGGELDVAIVYDLDLSPEWQTVPLTREPVVLGAEHPLAGVDGPVRLADLAEHPVLLDAPPSTNHADVCREAGFAPRVAYRTANFETARAFVGRGLGWTLLLQRPRVDVTYEGLPVVVKPIAEPKPASVAVVVAWHQEATLSRVARAFIRFVTA VAGPIAVGCYPALGPTILPSLYAFTAEYPRASVEFREDTQNRLRTQLEGGELDVAIVYDLDLSPEWQTVPLTREPVVLGAEHPLAGVDGPVRLADLAEHPVLLDAPPSTNHADVCREAGFAPRVAYRTANFETARAFVGRGLGWTLLLQRPRVDVTYEGLPVVVKPIAEPKPASVAVVVAWHQEATLSRVARAFIRFVTA 2ql8-a1-m1-cA_2ql8-a1-m1-cB Crystal structure of a putative redox protein (lsei_0423) from lactobacillus casei atcc 334 at 1.50 A resolution Q03BZ3 Q03BZ3 1.5 X-RAY DIFFRACTION 257 1.0 321967 (Lacticaseibacillus paracasei ATCC 334) 321967 (Lacticaseibacillus paracasei ATCC 334) 138 139 QDERWNHPLYTTTAINDEELEGHAYIPGGLKVQTSSPNDHPGTNPEQLLGLSLSTCLEATLEAVEKEHGLPHTGAVRVKVAFIGARAEYQFLVHAQVVKGVDFDTAKAFTNEIENRCPVSKLLKNSGNYTIETVTDFK QDERWNHPLYTTTAINDEELEGHAYIPGGLKVQTSSPNDHPGTNPEQLLGLSLSTCLEATLEAVEKEHGLPHTGAVRVKVAFIGARAEYQFLVHAQVVKGVDFDTAKAFTNEIENRCPVSKLLKNSGNYTIETVTDFKD 2qlw-a2-m1-cA_2qlw-a2-m2-cA Crystal structure of rhamnose mutarotase RhaU of Rhizobium leguminosarum Q7BSH1 Q7BSH1 1.6 X-RAY DIFFRACTION 21 1.0 386 (Rhizobium leguminosarum bv. trifolii) 386 (Rhizobium leguminosarum bv. trifolii) 100 100 2qlw-a2-m1-cB_2qlw-a2-m2-cB 2qlx-a1-m1-cA_2qlx-a1-m2-cA 2qlx-a1-m1-cB_2qlx-a1-m2-cB GDTLEKHAFKQLNPGEAEYRKRHDEIWPELVDLLHQSGASDYSIHLDRETNTLFGVLTRPKDHTASLPDHPVKKWWAHADIATNPDNSPVQSDLVTLFHP GDTLEKHAFKQLNPGEAEYRKRHDEIWPELVDLLHQSGASDYSIHLDRETNTLFGVLTRPKDHTASLPDHPVKKWWAHADIATNPDNSPVQSDLVTLFHP 2qlw-a2-m2-cA_2qlw-a2-m2-cB Crystal structure of rhamnose mutarotase RhaU of Rhizobium leguminosarum Q7BSH1 Q7BSH1 1.6 X-RAY DIFFRACTION 91 1.0 386 (Rhizobium leguminosarum bv. trifolii) 386 (Rhizobium leguminosarum bv. trifolii) 100 100 2qlw-a1-m1-cA_2qlw-a1-m1-cB 2qlw-a2-m1-cA_2qlw-a2-m1-cB 2qlx-a1-m1-cA_2qlx-a1-m1-cB 2qlx-a1-m2-cA_2qlx-a1-m2-cB 2qlx-a2-m1-cA_2qlx-a2-m1-cB GDTLEKHAFKQLNPGEAEYRKRHDEIWPELVDLLHQSGASDYSIHLDRETNTLFGVLTRPKDHTASLPDHPVKKWWAHADIATNPDNSPVQSDLVTLFHP GDTLEKHAFKQLNPGEAEYRKRHDEIWPELVDLLHQSGASDYSIHLDRETNTLFGVLTRPKDHTASLPDHPVKKWWAHADIATNPDNSPVQSDLVTLFHP 2qlz-a2-m1-cC_2qlz-a2-m1-cD Crystal Structure of Transcription Factor PF0095 from Pyrococcus furiosus Q8U4J2 Q8U4J2 2.5 X-RAY DIFFRACTION 264 0.99 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 206 208 2qlz-a1-m1-cA_2qlz-a1-m1-cB 2quf-a1-m1-cB_2quf-a1-m1-cA EPDLFYILGNKVRRDLLSHLTCECYFSLLSSKSVSSTAVAKHLKIEREGVLQSYEKTKKYYKISIAKSYVFTLTPEFWYKGLDLGDELRDFEISLSGLDTEPSTLKEITDFIKANKELEKVLEAFKTIESYRSSLRKIKEAYLKEIGDTQLAILHYLLLNGRATVEELSDRLNLKEREVREKISEARFVPVKIINDNTVVLDEDQI EPDLFYILGNKVRRDLLSHLTCECYFSLLSSKVSVSSTAVAKHLKIEREGVLQSYEKKYYKISIAKSYVFTLTPEFWYKGLDLGDAELRDFEISLSGLDTEPSTLKEITDFIKANKELEKVLEAFKTIESYRSSLRKIKEAYLKEIGDTQLAILHYLLLNGRATVEELSDRLNLKEREVREKISEARFVPVKIINDNTVVLDEDQILR 2qm0-a2-m1-cB_2qm0-a2-m2-cB Crystal structure of BES protein from Bacillus cereus Q81A57 Q81A57 1.84 X-RAY DIFFRACTION 44 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 265 265 VEKQQIITSNTEQWKYSKLEGKEYQIHISKPKQPAPDSGYPVIYVLDGNAFFQTFHEAVKIQSVRAEKTGVSPAIIVGVGYPIEGAFSGEERCYDFTPSVISKDAPLKPDGKPWPKTGGAHNFFTFIEEELKPQIEKNFEIDKGKQTLFGHLGGLFALHILFTNLNAFQNYFISSPSIWWNNKSVLEKEENLIIELNNAKFETGVFLTVGSLEREHVVGANELSERLLQVNHDKLKFKFYEAEGENHASVVPTSLSKGLRFISYV VEKQQIITSNTEQWKYSKLEGKEYQIHISKPKQPAPDSGYPVIYVLDGNAFFQTFHEAVKIQSVRAEKTGVSPAIIVGVGYPIEGAFSGEERCYDFTPSVISKDAPLKPDGKPWPKTGGAHNFFTFIEEELKPQIEKNFEIDKGKQTLFGHLGGLFALHILFTNLNAFQNYFISSPSIWWNNKSVLEKEENLIIELNNAKFETGVFLTVGSLEREHVVGANELSERLLQVNHDKLKFKFYEAEGENHASVVPTSLSKGLRFISYV 2qm0-a2-m2-cA_2qm0-a2-m2-cB Crystal structure of BES protein from Bacillus cereus Q81A57 Q81A57 1.84 X-RAY DIFFRACTION 141 0.988 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 259 265 2qm0-a1-m1-cA_2qm0-a1-m1-cB 2qm0-a2-m1-cA_2qm0-a2-m1-cB NTTVEKQQIITSNTEQWKYSKLEGKEYQIHISKPKQPAPDSGYPVIYVLDGNAFFQTFHEAVKIQSVRAEKTGVSPAIIVGVGYPIEGAFSGEERCYDFTPSVISKPWPKTGGAHNFFTFIEEELKPQIEKNFEIDKGKQTLFGHLGGLFALHILFTNLNAFQNYFISSPSIWWNNKSVLEKEENLIIELNNAKFETGVFLTVGSLEREHVVGANELSERLLQVNHDKLKFKFYEAEGENHASVVPTSLSKGLRFISYV VEKQQIITSNTEQWKYSKLEGKEYQIHISKPKQPAPDSGYPVIYVLDGNAFFQTFHEAVKIQSVRAEKTGVSPAIIVGVGYPIEGAFSGEERCYDFTPSVISKDAPLKPDGKPWPKTGGAHNFFTFIEEELKPQIEKNFEIDKGKQTLFGHLGGLFALHILFTNLNAFQNYFISSPSIWWNNKSVLEKEENLIIELNNAKFETGVFLTVGSLEREHVVGANELSERLLQVNHDKLKFKFYEAEGENHASVVPTSLSKGLRFISYV 2qm1-a2-m1-cC_2qm1-a2-m1-cD Crystal structure of glucokinase from Enterococcus faecalis Q830J4 Q830J4 2.02 X-RAY DIFFRACTION 170 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 320 320 2qm1-a1-m1-cA_2qm1-a1-m1-cB SNADKKIIGIDLGGTTIKFAILTTDGVVQQKWSIETNILEDGKHIVPSIIESIRHRIDLYNKKEDFVGIGGTPGSVDIEKGTVVGAYNLNWTTVQPVKEQIESALGIPFALDNDANVAALGERWKGAGENNPDVIFITLGTGVGGGIVAAGKLLHGVAGCAGEVGHVTVDPNGFDCTCGKRGCLETVSSATGVVRVARHLSEEFAGDSELKQAIDDGQDVSSKDVFEFAEKGDHFALVVDRVCFYLGLATGNLGNTLNPDSVVIGGGVSAAGEFLRSRVEKYFQEFTFPQVRNSTKIKLAELGNEAGVIGAASLALQFSK SNADKKIIGIDLGGTTIKFAILTTDGVVQQKWSIETNILEDGKHIVPSIIESIRHRIDLYNKKEDFVGIGGTPGSVDIEKGTVVGAYNLNWTTVQPVKEQIESALGIPFALDNDANVAALGERWKGAGENNPDVIFITLGTGVGGGIVAAGKLLHGVAGCAGEVGHVTVDPNGFDCTCGKRGCLETVSSATGVVRVARHLSEEFAGDSELKQAIDDGQDVSSKDVFEFAEKGDHFALVVDRVCFYLGLATGNLGNTLNPDSVVIGGGVSAAGEFLRSRVEKYFQEFTFPQVRNSTKIKLAELGNEAGVIGAASLALQFSK 2qm2-a2-m1-cA_2qm2-a2-m2-cA Putative HopJ type III effector protein from Vibrio parahaemolyticus Q87IM6 Q87IM6 2.09 X-RAY DIFFRACTION 39 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 114 114 FGKELQQFLDALASSPEKIEFETTAVIEDNYDFTPAAFTNGNTQNDANENNGSCKIFAFGLLNALDKEATLACFGRFYREDVLLHPENNDHQNIRNFVTGWEGIQFETSALTAK FGKELQQFLDALASSPEKIEFETTAVIEDNYDFTPAAFTNGNTQNDANENNGSCKIFAFGLLNALDKEATLACFGRFYREDVLLHPENNDHQNIRNFVTGWEGIQFETSALTAK 2qm2-a2-m2-cB_2qm2-a2-m2-cA Putative HopJ type III effector protein from Vibrio parahaemolyticus Q87IM6 Q87IM6 2.09 X-RAY DIFFRACTION 48 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 112 114 2qhq-a1-m1-cA_2qhq-a1-m1-cB 2qm2-a1-m1-cB_2qm2-a1-m1-cA 2qm2-a2-m1-cB_2qm2-a2-m1-cA KELQQFLDALASSPEKIEFETTAVIEDNYDFTPAAFTNGNTQNDANENNGSCKIFAFGLLNALDKEATLACFGRFYREDVLLHPENNDHQNIRNFVTGWEGIQFETSALTAK FGKELQQFLDALASSPEKIEFETTAVIEDNYDFTPAAFTNGNTQNDANENNGSCKIFAFGLLNALDKEATLACFGRFYREDVLLHPENNDHQNIRNFVTGWEGIQFETSALTAK 2qm3-a1-m1-cA_2qm3-a1-m2-cA Crystal structure of a predicted methyltransferase from Pyrococcus furiosus Q8U1U4 Q8U1U4 2.05 X-RAY DIFFRACTION 108 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 334 334 NLYFQSNAKEIVERVKTKTKIPVYERSVENVLSAVLASDDIWRIVDLSEEPLPLVVAILESLNELGYVTFEDGVKLTEKGEELVAEYGIGKRYDLQAFADLLEQFREIVKDRPEPLHEFDQAYVTPETTVARVILHTRGDLENKDIFVLGDDDLTSIALLSGLPKRIAVLDIDERLTKFIEKAANEIGYEDIEIFTFDLRKPLPDYALHKFDTFITDPPETLEAIRAFVGRGIATLKGPRCAGYFGITRRESSLDKWREIQKLLLNEFNVVITDIIRNFNEYVNWGYAEETRAWKLIPIKKLPEYNWYKSYFRIETLEGSRGYEDEIPEEDIYN NLYFQSNAKEIVERVKTKTKIPVYERSVENVLSAVLASDDIWRIVDLSEEPLPLVVAILESLNELGYVTFEDGVKLTEKGEELVAEYGIGKRYDLQAFADLLEQFREIVKDRPEPLHEFDQAYVTPETTVARVILHTRGDLENKDIFVLGDDDLTSIALLSGLPKRIAVLDIDERLTKFIEKAANEIGYEDIEIFTFDLRKPLPDYALHKFDTFITDPPETLEAIRAFVGRGIATLKGPRCAGYFGITRRESSLDKWREIQKLLLNEFNVVITDIIRNFNEYVNWGYAEETRAWKLIPIKKLPEYNWYKSYFRIETLEGSRGYEDEIPEEDIYN 2qma-a1-m1-cB_2qma-a1-m1-cA Crystal structure of glutamate decarboxylase domain of diaminobutyrate-pyruvate transaminase and L-2,4-diaminobutyrate decarboxylase from Vibrio parahaemolyticus Q87NC6 Q87NC6 1.81 X-RAY DIFFRACTION 436 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 440 444 APQEEWKKHFIHTGELGSAEFASVSHTTSAKSVFEQVNAPYSGDPKALEDAINAVDLDNKNAPLKSVIDDVAELVAKNAIFTQHPDCIAHLHTPPLPAVAAEAIAALNQSDSWDQASSATYVEQKVVNWLCDKYDLSEKADGIFTSGGTQSNQGLLARDWIADKLSGHSIQKLGLPDYADKLRIVCSKKSHFTVQKSASWGLGEKAVTVDANADGTDITKLDEVIAQAKAEGLIPFAIVGTAGTTDHGAIDDLDFIADAVKHDWHVDGAYGGALILSSHKSRLKGVERAHSISVDFHKLFYQTISCGALLVNDKSNFKFLLKRFDALKVFTQNVGPKALGDYDHLLAQTLEVADIRTNDQFELLAEPSLSTVLFRATHETADLDELNKALRLEALTRGIAVLGETIVDGKTALKFTILNPCLTTSDFESLLSKINLAVEL APQEEWKKHFIHTGELGSAEFASVSHTTSAKSVFEQVNAPYSGDPKALEDAINAVDLDNKNAPLKSVIDDVAELVAKNAIFTQHPDCIAHLHTPPLPAVAAEAIAALNQSDSWDQASSATYVEQKVVNWLCDKYDLSEKADGIFTSGGTQSNQGLLARDWIADKLSGHSIQKLGLPDYADKLRIVCSKKSHFTVQKSASWGLGEKAVTVDANADGTDITKLDEVIAQAKAEGLIPFAIVGTAGTTDHGAIDDLDFIADAVKHDWHVDGAYGGALILSSHKSRLKGVERAHSISVDFHKLFYQTISCGALLVNDKSNFKFLLHATTKRFDALKVFTQNVGPKALGDYDHLLAQTLEVADIRTNDQFELLAEPSLSTVLFRATHETADLDELNKALRLEALTRGIAVLGETIVDGKTALKFTILNPCLTTSDFESLLSKINLAVEL 2qmb-a1-m1-cA_2qmb-a1-m1-cC Structure determination of haemoglobin from Turkey(meleagris gallopavo) at 2.8 Angstrom resolution P81023 P81023 2.8 X-RAY DIFFRACTION 13 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 141 141 1faw-a1-m1-cA_1faw-a1-m1-cC 3k8b-a1-m1-cA_3k8b-a1-m1-cC 3mjp-a1-m1-cA_3mjp-a1-m1-cC VLSAADKNNVKGIFTKIAGHAEEYGAETLERMFITYPPTKTYFPHFDLSHGSAQIKGHGKKVVAALIEAANHIDDIAGTLSKLSDLHAHKLRVDPVNFKLLGQCFLVVVAIHHPAALTPEVHASLDKFLCAVGTVLTAKYR VLSAADKNNVKGIFTKIAGHAEEYGAETLERMFITYPPTKTYFPHFDLSHGSAQIKGHGKKVVAALIEAANHIDDIAGTLSKLSDLHAHKLRVDPVNFKLLGQCFLVVVAIHHPAALTPEVHASLDKFLCAVGTVLTAKYR 2qmb-a1-m1-cB_2qmb-a1-m1-cD Structure determination of haemoglobin from Turkey(meleagris gallopavo) at 2.8 Angstrom resolution G1U9Q8 G1U9Q8 2.8 X-RAY DIFFRACTION 14 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 146 146 1faw-a1-m1-cB_1faw-a1-m1-cD 2r80-a1-m1-cB_2r80-a1-m1-cD 3wr1-a1-m1-cB_3wr1-a1-m2-cB VHWSAEEKQLITGLWGKVNVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLDNIKNTFSQLSELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPECQAAWQKLVRVVAHALARKYH VHWSAEEKQLITGLWGKVNVADCGAEALARLLIVYPWTQRFFASFGNLSSPTAILGNPMVRAHGKKVLTSFGDAVKNLDNIKNTFSQLSELHCDKLHVDPENFRLLGDILIIVLAAHFSKDFTPECQAAWQKLVRVVAHALARKYH 2qmc-a1-m1-cB_2qmc-a1-m1-cD Crystal Structure of Helicobacter Pylori Gamma-Glutamyltranspeptidase T380A Mutant O25743 O25743 1.55 X-RAY DIFFRACTION 25 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 186 186 2nqo-a1-m1-cB_2nqo-a1-m1-cD 2qm6-a1-m1-cB_2qm6-a1-m1-cD ATHYSVADRWGNAVSVTYTINASYGSAASIDGAGFLLNNEMDDFSIKPGNPNLYGLVGGDANAIEANKRPLSSMSPTIVLKNNKVFLVVGSPGGSRIITTVLQVISNVIDYNMNISEAVSAPRFHMQWLPDELRIEKFGMPADVKDNLTKMGYQIVTKPVMGDVNAIQVLPKTKGSVFYGSTDPRK ATHYSVADRWGNAVSVTYTINASYGSAASIDGAGFLLNNEMDDFSIKPGNPNLYGLVGGDANAIEANKRPLSSMSPTIVLKNNKVFLVVGSPGGSRIITTVLQVISNVIDYNMNISEAVSAPRFHMQWLPDELRIEKFGMPADVKDNLTKMGYQIVTKPVMGDVNAIQVLPKTKGSVFYGSTDPRK 2qmi-a1-m1-cB_2qmi-a1-m1-cH Structure of the octameric penicillin-binding protein homologue from Pyrococcus abyssi Q9V2D6 Q9V2D6 2.2 X-RAY DIFFRACTION 159 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 447 447 2qmi-a1-m1-cC_2qmi-a1-m1-cG 2qmi-a1-m1-cD_2qmi-a1-m1-cF 2qmi-a1-m1-cE_2qmi-a1-m1-cA MDVGKLESFIVEKMAERKVPGISISIIKDGDVVYAKGFGYRNVEARLPSTPETIYGIGSITKSFTALAIMKLVEEGGLSLDDPVEKFVNIKLRPFGEPVTVHHLLTHSSGIPSLGYAEAFIDGMVGGDNWLPVSTPEETIAFARDMEKWAVAKPGERFFYLNTGYVLLGKIIEKVSGVSYEEYIKKKILEPLGMNRSYFFKEEVEKDKDVAMGYILDKEGRLVPQPFPYGITADGGLLSSVLDLAKYLKMYIERDESIVSKEYIEKMETSYIKVPWEIFGGEGYGYGLIIYPNFLGEKLVGHSGSVGMYTGYIGYIPEKKIGVAVLENSSGYPPSYIAMYALALLLGKNPEKELPFIYRERILKKVEGRYMGYKGTIKFEVKVDGDVVYLRALGRAFTYTIPLFPEVLEEDFIKCYTLSNGRKMYAEFYIKDNKVDLIFERYRLIKS MDVGKLESFIVEKMAERKVPGISISIIKDGDVVYAKGFGYRNVEARLPSTPETIYGIGSITKSFTALAIMKLVEEGGLSLDDPVEKFVNIKLRPFGEPVTVHHLLTHSSGIPSLGYAEAFIDGMVGGDNWLPVSTPEETIAFARDMEKWAVAKPGERFFYLNTGYVLLGKIIEKVSGVSYEEYIKKKILEPLGMNRSYFFKEEVEKDKDVAMGYILDKEGRLVPQPFPYGITADGGLLSSVLDLAKYLKMYIERDESIVSKEYIEKMETSYIKVPWEIFGGEGYGYGLIIYPNFLGEKLVGHSGSVGMYTGYIGYIPEKKIGVAVLENSSGYPPSYIAMYALALLLGKNPEKELPFIYRERILKKVEGRYMGYKGTIKFEVKVDGDVVYLRALGRAFTYTIPLFPEVLEEDFIKCYTLSNGRKMYAEFYIKDNKVDLIFERYRLIKS 2qmi-a1-m1-cC_2qmi-a1-m1-cH Structure of the octameric penicillin-binding protein homologue from Pyrococcus abyssi Q9V2D6 Q9V2D6 2.2 X-RAY DIFFRACTION 14 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 446 447 2qmi-a1-m1-cA_2qmi-a1-m1-cF 2qmi-a1-m1-cD_2qmi-a1-m1-cG 2qmi-a1-m1-cE_2qmi-a1-m1-cB MDVGKLESFIVEKMAERKVPGISISIIKDGDVVYAKGFGYRNVEARLPSTPETIYGIGSITKSFTALAIMKLVEEGGLSLDDPVEKFVNIKLRPFGEPVTVHHLLTHSSGIPSLGYAEAFIDGMVGGDNWLPVSTPEETIAFARDMEKWAVAKPGERFFYLNTGYVLLGKIIEKVSGVSYEEYIKKKILEPLGMNRSYFFKEEVEKDKDVAMGYILDKEGRLVPQPFPYGITADGGLLSSVLDLAKYLKMYIERDESIVSKEYIEKMETSYIKVPWEIFGGEGYGYGLIIYPNFLGEKLVGHSGSVGMYTGYIGYIPEKKIGVAVLENSSGYPPSYIAMYALALLLGKNPEKELPFIYRERILKKVEGRYMGYKGTIKFEVKVDGDVVYLRALGRAFTYTIPLFPEVLEEDFIKCYTLSNGRKMYAEFYIKDNKVDLIFERYRLIK MDVGKLESFIVEKMAERKVPGISISIIKDGDVVYAKGFGYRNVEARLPSTPETIYGIGSITKSFTALAIMKLVEEGGLSLDDPVEKFVNIKLRPFGEPVTVHHLLTHSSGIPSLGYAEAFIDGMVGGDNWLPVSTPEETIAFARDMEKWAVAKPGERFFYLNTGYVLLGKIIEKVSGVSYEEYIKKKILEPLGMNRSYFFKEEVEKDKDVAMGYILDKEGRLVPQPFPYGITADGGLLSSVLDLAKYLKMYIERDESIVSKEYIEKMETSYIKVPWEIFGGEGYGYGLIIYPNFLGEKLVGHSGSVGMYTGYIGYIPEKKIGVAVLENSSGYPPSYIAMYALALLLGKNPEKELPFIYRERILKKVEGRYMGYKGTIKFEVKVDGDVVYLRALGRAFTYTIPLFPEVLEEDFIKCYTLSNGRKMYAEFYIKDNKVDLIFERYRLIKS 2qmi-a1-m1-cG_2qmi-a1-m1-cH Structure of the octameric penicillin-binding protein homologue from Pyrococcus abyssi Q9V2D6 Q9V2D6 2.2 X-RAY DIFFRACTION 54 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 447 447 2qmi-a1-m1-cA_2qmi-a1-m1-cB 2qmi-a1-m1-cC_2qmi-a1-m1-cB 2qmi-a1-m1-cC_2qmi-a1-m1-cD 2qmi-a1-m1-cD_2qmi-a1-m1-cA 2qmi-a1-m1-cE_2qmi-a1-m1-cF 2qmi-a1-m1-cE_2qmi-a1-m1-cH 2qmi-a1-m1-cF_2qmi-a1-m1-cG MDVGKLESFIVEKMAERKVPGISISIIKDGDVVYAKGFGYRNVEARLPSTPETIYGIGSITKSFTALAIMKLVEEGGLSLDDPVEKFVNIKLRPFGEPVTVHHLLTHSSGIPSLGYAEAFIDGMVGGDNWLPVSTPEETIAFARDMEKWAVAKPGERFFYLNTGYVLLGKIIEKVSGVSYEEYIKKKILEPLGMNRSYFFKEEVEKDKDVAMGYILDKEGRLVPQPFPYGITADGGLLSSVLDLAKYLKMYIERDESIVSKEYIEKMETSYIKVPWEIFGGEGYGYGLIIYPNFLGEKLVGHSGSVGMYTGYIGYIPEKKIGVAVLENSSGYPPSYIAMYALALLLGKNPEKELPFIYRERILKKVEGRYMGYKGTIKFEVKVDGDVVYLRALGRAFTYTIPLFPEVLEEDFIKCYTLSNGRKMYAEFYIKDNKVDLIFERYRLIKS MDVGKLESFIVEKMAERKVPGISISIIKDGDVVYAKGFGYRNVEARLPSTPETIYGIGSITKSFTALAIMKLVEEGGLSLDDPVEKFVNIKLRPFGEPVTVHHLLTHSSGIPSLGYAEAFIDGMVGGDNWLPVSTPEETIAFARDMEKWAVAKPGERFFYLNTGYVLLGKIIEKVSGVSYEEYIKKKILEPLGMNRSYFFKEEVEKDKDVAMGYILDKEGRLVPQPFPYGITADGGLLSSVLDLAKYLKMYIERDESIVSKEYIEKMETSYIKVPWEIFGGEGYGYGLIIYPNFLGEKLVGHSGSVGMYTGYIGYIPEKKIGVAVLENSSGYPPSYIAMYALALLLGKNPEKELPFIYRERILKKVEGRYMGYKGTIKFEVKVDGDVVYLRALGRAFTYTIPLFPEVLEEDFIKCYTLSNGRKMYAEFYIKDNKVDLIFERYRLIKS 2qml-a2-m1-cA_2qml-a2-m2-cA Crystal structure of an uncharacterized protein (bh2621) from bacillus halodurans at 1.55 A resolution Q9K9M4 Q9K9M4 1.55 X-RAY DIFFRACTION 52 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 184 184 DKLAPFEVFDHVVNKKLSFRHVTDDVDLHSWHEEHVIPYWKLNIPLVDYKKHLQTFLNDDHQTLVGAINGVPSYWESYWVKEDIIANYYPFEEHDQGIHLLIGPQEYLGQGLIYPLLLAIQQKFQEPDTNTIVAEPDRRNKKIHVFKKCGFQPVKEVELPDKIGLLKCEQNVFEKRWSDWKNKF DKLAPFEVFDHVVNKKLSFRHVTDDVDLHSWHEEHVIPYWKLNIPLVDYKKHLQTFLNDDHQTLVGAINGVPSYWESYWVKEDIIANYYPFEEHDQGIHLLIGPQEYLGQGLIYPLLLAIQQKFQEPDTNTIVAEPDRRNKKIHVFKKCGFQPVKEVELPDKIGLLKCEQNVFEKRWSDWKNKF 2qmm-a1-m1-cA_2qmm-a1-m1-cB Crystal structure of APC86534.1 (C-terminal domain of NCBI AAB90184.1; Pfam BIG 123.1) O29206 O29206 1.85 X-RAY DIFFRACTION 100 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 195 195 AVRGFLIVGNKAFTQPFSLNDLPGAGRMDVLCRCTSQALFISHGIRRDVEVYLLLLGPPSPPKSILIKGDEVRRMSPDERNVAGHIKKALAVECGKSWKKVHSGVYVSRKGLEELIEELSEKYSIIYLKEDGVDISNAQLPPNPLFVIGDHEGLTEEQEKVVERYAALKLSLSPLSLLAEQCVVIAHHHLDRLQF AVRGFLIVGNKAFTQPFSLNDLPGAGRMDVLCRCTSQALFISHGIRRDVEVYLLLLGPPSPPKSILIKGDEVRRMSPDERNVAGHIKKALAVECGKSWKKVHSGVYVSRKGLEELIEELSEKYSIIYLKEDGVDISNAQLPPNPLFVIGDHEGLTEEQEKVVERYAALKLSLSPLSLLAEQCVVIAHHHLDRLQF 2qms-a2-m1-cB_2qms-a2-m2-cD Crystal structure of a signaling molecule Q14451 Q14451 2.1 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 2qms-a1-m1-cA_2qms-a1-m2-cC SLSAAIHRTQLWFHGRISREESQRLIGQQGLVDGLFLVRESQRNPQGFVLSLCHLQKVKHYLILPSEEEGRLYFSMDDGQTRFTDLLQLVEFHQLNRGILPCLLRHCCTRVAL SLSAAIHRTQLWFHGRISREESQRLIGQQGLVDGLFLVRESQRNPQGFVLSLCHLQKVKHYLILPSEEEGRLYFSMDDGQTRFTDLLQLVEFHQLNRGILPCLLRHCCTRVAL 2qmu-a2-m1-cA_2qmu-a2-m2-cA Structure of an archaeal heterotrimeric initiation factor 2 reveals a nucleotide state between the GTP and the GDP states Q980A5 Q980A5 3.2 X-RAY DIFFRACTION 24 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 414 414 AWPKVQPEVNIGVVGHVDHGKTTLVQAITGIWTSKHSEELKRGMTIKLGYAETNIGVCESCKKPEAYVTEPSCKSCGSDDEPKFLRRISFIDAPGHEVLMATMLSGAALMDGAILVVAANEPFPQPQTREHFVALGIIGVKNLIIVQNKVDVVSKEEALSQYRQIKQFTKGTWAENVPIIPVSALHKINIDSLIEGIEEYIKTPYRDLSQKPVMLVIRSFDVNKPGTQFNELKGGVIGGSIIQGLFKVDQEIKVLPGLRVEKQGKVSYEPIFTKISSIRFGDEEFKEAKPGGLVAIGTYLDPSLTKADNLLGSIITLADAEVPVLWNIRIKYNLLERVVGAKEMLKVDPIRAKETLMLSVGSSTTLGIVTSVKKDEIEVELRRPVAVWSNNIRTVISRQIAGRWRMIGWGLVEI AWPKVQPEVNIGVVGHVDHGKTTLVQAITGIWTSKHSEELKRGMTIKLGYAETNIGVCESCKKPEAYVTEPSCKSCGSDDEPKFLRRISFIDAPGHEVLMATMLSGAALMDGAILVVAANEPFPQPQTREHFVALGIIGVKNLIIVQNKVDVVSKEEALSQYRQIKQFTKGTWAENVPIIPVSALHKINIDSLIEGIEEYIKTPYRDLSQKPVMLVIRSFDVNKPGTQFNELKGGVIGGSIIQGLFKVDQEIKVLPGLRVEKQGKVSYEPIFTKISSIRFGDEEFKEAKPGGLVAIGTYLDPSLTKADNLLGSIITLADAEVPVLWNIRIKYNLLERVVGAKEMLKVDPIRAKETLMLSVGSSTTLGIVTSVKKDEIEVELRRPVAVWSNNIRTVISRQIAGRWRMIGWGLVEI 2qmw-a1-m1-cB_2qmw-a1-m2-cB The crystal structure of the prephenate dehydratase (PDT) from Staphylococcus aureus subsp. aureus Mu50 A0A0H3K044 A0A0H3K044 2.3 X-RAY DIFFRACTION 78 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 244 244 2qmw-a1-m1-cA_2qmw-a1-m2-cA QLYYLGPKGTFSYLACRQYFSATFQPKSNLFEVIKAVADTSIGVVPIENSIINIVADALAQQDVFAHGEIRLDINFALYGNGTDSISDIKKVYSIAPAISQTTNYIHQHQFDYDYVDSTIQSLTKIENGVAAIAPLGSGEAYGFTPIDTHIEDYPHNVTRFLVIKNQQQFNATSLFLITPHDKPGLLASVLNTFALFNINLSWIESRPGYRFFVQADSAITTDIKKVIAILETLDFKVEIGAFN QLYYLGPKGTFSYLACRQYFSATFQPKSNLFEVIKAVADTSIGVVPIENSIINIVADALAQQDVFAHGEIRLDINFALYGNGTDSISDIKKVYSIAPAISQTTNYIHQHQFDYDYVDSTIQSLTKIENGVAAIAPLGSGEAYGFTPIDTHIEDYPHNVTRFLVIKNQQQFNATSLFLITPHDKPGLLASVLNTFALFNINLSWIESRPGYRFFVQADSAITTDIKKVIAILETLDFKVEIGAFN 2qmw-a1-m2-cB_2qmw-a1-m2-cA The crystal structure of the prephenate dehydratase (PDT) from Staphylococcus aureus subsp. aureus Mu50 A0A0H3K044 A0A0H3K044 2.3 X-RAY DIFFRACTION 18 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 244 259 2qmw-a1-m1-cB_2qmw-a1-m1-cA QLYYLGPKGTFSYLACRQYFSATFQPKSNLFEVIKAVADTSIGVVPIENSIINIVADALAQQDVFAHGEIRLDINFALYGNGTDSISDIKKVYSIAPAISQTTNYIHQHQFDYDYVDSTIQSLTKIENGVAAIAPLGSGEAYGFTPIDTHIEDYPHNVTRFLVIKNQQQFNATSLFLITPHDKPGLLASVLNTFALFNINLSWIESRPGYRFFVQADSAITTDIKKVIAILETLDFKVEIGAFN QLYYLGPKGTFSYLACRQYFSENEATFQPKSNLFEVIKAVADDDTSIGVVPIENSIEGTINIVADALAQQDVFAHGEIRLDINFALYGNGTDSISDIKKVYSIAPAISQTTNYIHQHQFDYDYVDSTIQSLTKIENGVAAIAPLGSGEAYGFTPIDTHIEDYPHNVTRFLVIKNQQQFDQNATSLFLITPHDKPGLLASVLNTFALFNINLSWIESRPLKTQLGYRFFVQADSAITTDIKKVIAILETLDFKVEIGAFN 2qmx-a2-m1-cA_2qmx-a2-m2-cB The crystal structure of L-Phe inhibited prephenate dehydratase from Chlorobium tepidum TLS Q8KBW6 Q8KBW6 2.3 X-RAY DIFFRACTION 12 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 275 275 2qmx-a2-m1-cB_2qmx-a2-m2-cA NWLIAYQGEPGAYSEIAALRFGEPLPCESFDDVFSAVTEQKADYAVIPIENSLGGSIHQNYDLLLRRPVVILAETFVKVEHCLLGLPGASVETATKASHPQALVQCHNFFATHPQIRAEAAYDTAGSAKVAESRDKSALAIASKRAGELYGLDILKENLADEEWNITRFFCIAHENNPDISHLKVRPDVARQKTSIVFALPNEQGSLFRALATFALRGIDLTKIESRPSRKKAFEYLFYADFIGHREDQNVHNALENLREFATVKVLGSYGVVNP NWLIAYQGEPGAYSEIAALRFGEPLPCESFDDVFSAVTEQKADYAVIPIENSLGGSIHQNYDLLLRRPVVILAETFVKVEHCLLGLPGASVETATKASHPQALVQCHNFFATHPQIRAEAAYDTAGSAKVAESRDKSALAIASKRAGELYGLDILKENLADEEWNITRFFCIAHENNPDISHLKVRPDVARQKTSIVFALPNEQGSLFRALATFALRGIDLTKIESRPSRKKAFEYLFYADFIGHREDQNVHNALENLREFATVKVLGSYGVVNP 2qmx-a2-m2-cA_2qmx-a2-m2-cB The crystal structure of L-Phe inhibited prephenate dehydratase from Chlorobium tepidum TLS Q8KBW6 Q8KBW6 2.3 X-RAY DIFFRACTION 120 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 275 275 2qmx-a1-m1-cA_2qmx-a1-m1-cB 2qmx-a2-m1-cA_2qmx-a2-m1-cB NWLIAYQGEPGAYSEIAALRFGEPLPCESFDDVFSAVTEQKADYAVIPIENSLGGSIHQNYDLLLRRPVVILAETFVKVEHCLLGLPGASVETATKASHPQALVQCHNFFATHPQIRAEAAYDTAGSAKVAESRDKSALAIASKRAGELYGLDILKENLADEEWNITRFFCIAHENNPDISHLKVRPDVARQKTSIVFALPNEQGSLFRALATFALRGIDLTKIESRPSRKKAFEYLFYADFIGHREDQNVHNALENLREFATVKVLGSYGVVNP NWLIAYQGEPGAYSEIAALRFGEPLPCESFDDVFSAVTEQKADYAVIPIENSLGGSIHQNYDLLLRRPVVILAETFVKVEHCLLGLPGASVETATKASHPQALVQCHNFFATHPQIRAEAAYDTAGSAKVAESRDKSALAIASKRAGELYGLDILKENLADEEWNITRFFCIAHENNPDISHLKVRPDVARQKTSIVFALPNEQGSLFRALATFALRGIDLTKIESRPSRKKAFEYLFYADFIGHREDQNVHNALENLREFATVKVLGSYGVVNP 2qnd-a3-m1-cA_2qnd-a3-m1-cB Crystal Structure of the KH1-KH2 domains from human Fragile X Mental Retardation Protein Q06787 Q06787 1.9 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 141 FHEQFIVREDLGLAIGTHGANIQQARKVPGVTAIDLDEDTCTFHIYGEDQDAVKKARSFLEFAEDVIQVPRNLVGKVIGKNGKLIQEIVDKSGVVRVRIEAENEKNVPQEEGVPFVFVGTKDSIANATVLLDYHLNYLK SRFHEQFIVREDLGLAIGTHGANIQQARKVPGVTAIDLDEDTCTFHIYGEDQDAVKKARSFLEFAEDVIQVPRNLVGKVIGKNGKLIQEIVDKSGVVRVRIEAENEKNVPQEEGVPFVFVGTKDSIANATVLLDYHLNYLK 2qne-a1-m1-cB_2qne-a1-m1-cA Crystal structure of putative methyltransferase (ZP_00558420.1) from Desulfitobacterium hafniense Y51 at 2.30 A resolution Q24SP7 Q24SP7 2.3 X-RAY DIFFRACTION 343 1.0 138119 (Desulfitobacterium hafniense Y51) 138119 (Desulfitobacterium hafniense Y51) 456 457 GLLPKYNILTEDQVQKIHENTKILEEIGIEFEYEPALEVFRREGQKVEGKRVYLTREFVESKLKSAPAEFTLHARNPENNVVIGGDNIVFPGYGAPFIYELDGSRRKTTLQDYENFAKLAGASKNHLSGGTAEPQDIPDGVRHLQLYSSIKNSDKCFGSAEGKERAEDSVEIAAILFGGKDVIKEKPVLVSLINSLTPLKYDERLGALAYAEAGQAVIIASLVAGSTGPASLAGTLSLQNAEVLAGISLAQSINPGTPVIYGSTSALSDRSGSLSIGSPECALFISASAQLARFYGVPSRSGGGLNDSKTVDAQAGYESTLAANLTGVNFVLHTAGILQYFASYEKFIDDEIAGLLHYKGYTFDEDGAFDVIEKVGPGGHFLTQKHTRKNHKREFYTPTLSDRSAYDTWAKEKLETKQRAHARWQQILANYVPPALDPEIDAKLQAFIAQRGKEVG GLLPKYNILTEDQVQKIHENTKILEEIGIEFEYEPALEVFRREGQKVEGKRVYLTREFVESKLKSAPAEFTLHARNPENNVVIGGDNIVFPGYGAPFIYELDGSRRKTTLQDYENFAKLAGASKNHLSGGTAEPQDIPDGVRHLQLYSSIKNSDKCFGSAEGKERAEDSVEIAAILFGGKDVIKEKPVLVSLINSLTPLKYDERLGALAYAEAGQAVIIASLVAGSTGPASLAGTLSLQNAEVLAGISLAQSINPGTPVIYGSTSALSDRSGSLSIGSPECALFISASAQLARFYGVPSRSGGGLNDSKTVDAQAGYESTLAANLTGVNFVLHTAGILQYFASYEKFIDDEIAGLLHYKGYTFDEDGAFDVIEKVGPGGHFLTQKHTRKNHKREFYTPTLSDRSAYDTWAKEKLETKQRAHARWQQILANYVPPALDPEIDAKLQAFIAQRGKEVGE 2qnf-a1-m1-cA_2qnf-a1-m1-cB Crystal structure of T4 Endonuclease VII H43N mutant in complex with heteroduplex DNA containing base mismatches P13340 P13340 3 X-RAY DIFFRACTION 198 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 157 157 1e7d-a1-m1-cA_1e7d-a1-m1-cB 1e7l-a1-m1-cA_1e7l-a1-m1-cB 1en7-a1-m1-cA_1en7-a1-m1-cB 2qnc-a1-m1-cA_2qnc-a1-m1-cB MLLTGKLYKEEKQKFYDAQNGKCLICQRELNPDVQANHLDHDNELNGPKAGKVRGLLCNLCNAAEGQMKHKFNRSGLKGQGVDYLEWLENLLTYLKSDYTQNNIHPNFVGDKSKEFSRLGKEEMMAEMLQRGFEYNESDTKTQLIASFKKQLRKSLK MLLTGKLYKEEKQKFYDAQNGKCLICQRELNPDVQANHLDHDNELNGPKAGKVRGLLCNLCNAAEGQMKHKFNRSGLKGQGVDYLEWLENLLTYLKSDYTQNNIHPNFVGDKSKEFSRLGKEEMMAEMLQRGFEYNESDTKTQLIASFKKQLRKSLK 2qni-a1-m1-cA_2qni-a1-m2-cA Crystal structure of uncharacterized protein Atu0299 A9CKF0 A9CKF0 1.8 X-RAY DIFFRACTION 67 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 190 190 GHALYITHPQVKIDPAVPVPEWGLSERGAERAREASRLPWAKALRRIVSSAETKAIETAHLAETSGAAIEIIEAHENDRSATGFLPPPEFEKAADWFFAHPEESFQGWERAIDAQARIVEAVKAVLDRHDARQPIAFVGHGGVGTLLKCHIEGRGISRSQPAGGGNLFRFSIAEFSAAATCDWTAETWQG GHALYITHPQVKIDPAVPVPEWGLSERGAERAREASRLPWAKALRRIVSSAETKAIETAHLAETSGAAIEIIEAHENDRSATGFLPPPEFEKAADWFFAHPEESFQGWERAIDAQARIVEAVKAVLDRHDARQPIAFVGHGGVGTLLKCHIEGRGISRSQPAGGGNLFRFSIAEFSAAATCDWTAETWQG 2qnl-a1-m1-cA_2qnl-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE DNA DAMAGE-INDUCIBLE PROTEIN (CHU_0679) FROM CYTOPHAGA HUTCHINSONII ATCC 33406 AT 1.50 A RESOLUTION 1.5 X-RAY DIFFRACTION 84 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 159 159 GHTQEALFVRLALDAWNTQSSRTDKLIQSLSNEALAVETAPGRNSGTYLLGHLTAVHDALPLLELGDTLYPQLAPVFIQNPDKSGLEKPEINDLRLYWSLVQERLANQFNQLQPADWFNKHAAISREDFLKEPHRNKLSVLINRTNHAYHLGQLAYLKK GHTQEALFVRLALDAWNTQSSRTDKLIQSLSNEALAVETAPGRNSGTYLLGHLTAVHDALPLLELGDTLYPQLAPVFIQNPDKSGLEKPEINDLRLYWSLVQERLANQFNQLQPADWFNKHAAISREDFLKEPHRNKLSVLINRTNHAYHLGQLAYLKK 2qnr-a1-m1-cA_2qnr-a1-m1-cB Human septin 2 in complex with GDP Q15019 Q15019 2.6 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 232 2qa5-a1-m1-cA_2qa5-a1-m1-cB EFTLVVGESGLGKSTLINSLFLSTVEIEVKLRLTVVDTPFKTIISYIDEQFERYLHDESGLNRRHIIDNRVHCCFYFISPFGHGLKPLDVAFKAIHNKVNIVPVIAKADTLTLKERERLKKRILDEIEEHNIKIYHLPFKEQTRLLKASIPFSVVGSNQLIEVRGRLYPWGVVEVENPEHNDFLKLRTLITHQDLQEVTQDLHYENFRSERLKR FEFTLVVGESGLGKSTLINSLFLTKIERTVQIEASTVEIEEVKLRLTVVDTPCRDCFKTIISYIDEQFERYLHDESGLNRRHIIDNRVHCCFYFISPFGHGLKPLDVAFKAIHNKVNIVPVIAKADTLTLKERERLKKRILDEIEEHNIKIYHLPDFKEQTRLLKASIPFSVVGSNQLIEVRGRLYPWGVVEVENPEHNDFLKLRTLITHQDLQEVTQDLHYENFRSERLKR 2qnt-a1-m1-cA_2qnt-a1-m2-cA Crystal structure of protein of unknown function from Agrobacterium tumefaciens str. C58 A9CII6 A9CII6 1.4 X-RAY DIFFRACTION 113 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 123 123 NLYFQGRFVNPIPFVRDINRSKSFYRDRLGLKILEDFGSFVLFETGFAIHEGRSLEETIWRTSSQEAYGRRNLLYFEHADVDAAFQIAPHVELIHPLERQAWGQRVFRFYDPDGHAIEVGESL NLYFQGRFVNPIPFVRDINRSKSFYRDRLGLKILEDFGSFVLFETGFAIHEGRSLEETIWRTSSQEAYGRRNLLYFEHADVDAAFQIAPHVELIHPLERQAWGQRVFRFYDPDGHAIEVGESL 2qpv-a1-m1-cA_2qpv-a1-m1-cB Crystal structure of uncharacterized protein Atu1531 Q7CZ16 Q7CZ16 2.35 X-RAY DIFFRACTION 138 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 128 128 PVQSRIIHLSVEKPWAEVYDFAANPGNPRWAAGLAGGLEADGEDWIAKGGPLGEVRVNFAPHNEFGVIDHVVTLPDGLKVYNALRVTPNGSGTEVSFTLLRLEGTDEDFEQDASAITADLELKSLLEA PVQSRIIHLSVEKPWAEVYDFAANPGNPRWAAGLAGGLEADGEDWIAKGGPLGEVRVNFAPHNEFGVIDHVVTLPDGLKVYNALRVTPNGSGTEVSFTLLRLEGTDEDFEQDASAITADLELKSLLEA 2qpv-a2-m1-cA_2qpv-a2-m2-cB Crystal structure of uncharacterized protein Atu1531 Q7CZ16 Q7CZ16 2.35 X-RAY DIFFRACTION 75 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 128 128 PVQSRIIHLSVEKPWAEVYDFAANPGNPRWAAGLAGGLEADGEDWIAKGGPLGEVRVNFAPHNEFGVIDHVVTLPDGLKVYNALRVTPNGSGTEVSFTLLRLEGTDEDFEQDASAITADLELKSLLEA PVQSRIIHLSVEKPWAEVYDFAANPGNPRWAAGLAGGLEADGEDWIAKGGPLGEVRVNFAPHNEFGVIDHVVTLPDGLKVYNALRVTPNGSGTEVSFTLLRLEGTDEDFEQDASAITADLELKSLLEA 2qpx-a1-m2-cA_2qpx-a1-m3-cA Crystal structure of putative metal-dependent hydrolase (YP_805737.1) from Lactobacillus casei ATCC 334 at 1.40 A resolution Q03BX7 Q03BX7 1.4 X-RAY DIFFRACTION 76 1.0 321967 (Lacticaseibacillus paracasei ATCC 334) 321967 (Lacticaseibacillus paracasei ATCC 334) 367 367 2qpx-a1-m1-cA_2qpx-a1-m2-cA 2qpx-a1-m1-cA_2qpx-a1-m3-cA GDDLSEFVDQVPLLDHHCHFLIDGKVPNRDDRLAQVSTEADKDYPLADTKNRLAYHGFLALAKEFALDANNPLAANDPGYATYNHRIFGHFHFKELLIDTGFVPDDPILDLDQTAELVGIPVKAIYRLETHAEDFLEHDNFAAWWQAFSNDVKQAKAHGFVGFSIAAYRVGLHLEPVNVIEAAAGFDTWKHSGEKRLTSKPLIDYLYHVAPFIIAQDPLQFHVGYGDADTDYLGNPLLRDYLKAFTKKGLKVVLLHCYPYHREAGYLASVFPNLYFDISLLDNLGPSGASRVFNEAVELAPYTRILFASDASTYPEYGLAARQFKQALVAHFNQLPFVDLAQKKAWINAICWQTSAKLYHQERELRV GDDLSEFVDQVPLLDHHCHFLIDGKVPNRDDRLAQVSTEADKDYPLADTKNRLAYHGFLALAKEFALDANNPLAANDPGYATYNHRIFGHFHFKELLIDTGFVPDDPILDLDQTAELVGIPVKAIYRLETHAEDFLEHDNFAAWWQAFSNDVKQAKAHGFVGFSIAAYRVGLHLEPVNVIEAAAGFDTWKHSGEKRLTSKPLIDYLYHVAPFIIAQDPLQFHVGYGDADTDYLGNPLLRDYLKAFTKKGLKVVLLHCYPYHREAGYLASVFPNLYFDISLLDNLGPSGASRVFNEAVELAPYTRILFASDASTYPEYGLAARQFKQALVAHFNQLPFVDLAQKKAWINAICWQTSAKLYHQERELRV 2qq0-a1-m1-cA_2qq0-a1-m2-cB Thymidine Kinase from Thermotoga Maritima in complex with thymidine + AppNHp Q9WYN2 Q9WYN2 1.5 X-RAY DIFFRACTION 20 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 169 170 2orw-a1-m1-cA_2orw-a1-m2-cB 2orw-a1-m2-cA_2orw-a1-m1-cB 2qq0-a1-m2-cA_2qq0-a1-m1-cB 2qqe-a1-m1-cB_2qqe-a1-m2-cA SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKTMIVSHVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAGGEEEIDVGGQEKYIAVCRDCYNTLK SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKSTMIVSHVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAGGEEEIDVGGQEKYIAVCRDCYNTLK 2qq0-a1-m2-cA_2qq0-a1-m2-cB Thymidine Kinase from Thermotoga Maritima in complex with thymidine + AppNHp Q9WYN2 Q9WYN2 1.5 X-RAY DIFFRACTION 70 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 169 170 2orw-a1-m1-cA_2orw-a1-m1-cB 2orw-a1-m2-cA_2orw-a1-m2-cB 2qq0-a1-m1-cA_2qq0-a1-m1-cB SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKTMIVSHVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAGGEEEIDVGGQEKYIAVCRDCYNTLK SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKSTMIVSHVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAGGEEEIDVGGQEKYIAVCRDCYNTLK 2qq3-a2-m1-cE_2qq3-a2-m1-cF Crystal Structure Of Enoyl-CoA Hydrates Subunit I (gk_2039) Other Form From Geobacillus Kaustophilus HTA426 Q5KYB2 Q5KYB2 1.95 X-RAY DIFFRACTION 20 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 255 255 2pbp-a2-m1-cA_2pbp-a2-m5-cA 2pbp-a2-m2-cA_2pbp-a2-m4-cA 2pbp-a2-m3-cA_2pbp-a2-m6-cA 2qq3-a1-m1-cB_2qq3-a1-m1-cG 2qq3-a1-m1-cD_2qq3-a1-m1-cC 2qq3-a1-m1-cH_2qq3-a1-m1-cK 2qq3-a2-m1-cA_2qq3-a2-m1-cI 2qq3-a2-m1-cJ_2qq3-a2-m1-cL FVSIAARQEGAVGIIELARPDVLNALSRQMVAEIVAAVEAFDRNEKVRVIVLTGRGRAFAAGADIQEMAKDDPIRLEWLNQFADWDRLSIVKTPMIAAVNGLALGGGFELALSCDLIVASSAAEFGFPEVNLGVMPGAGGTQRLTKLIGPKRALEWLWTGARMSAKEAEQLGIVNRVVSPELLMEETMRLAGRLAEQPPLALRLIKEAVQKAVDYPLYEGMQFERKNFYLLFASEDQKEGMAAFLEKRKPRFQGK FVSIAARQEGAVGIIELARPDVLNALSRQMVAEIVAAVEAFDRNEKVRVIVLTGRGRAFAAGADIQEMAKDDPIRLEWLNQFADWDRLSIVKTPMIAAVNGLALGGGFELALSCDLIVASSAAEFGFPEVNLGVMPGAGGTQRLTKLIGPKRALEWLWTGARMSAKEAEQLGIVNRVVSPELLMEETMRLAGRLAEQPPLALRLIKEAVQKAVDYPLYEGMQFERKNFYLLFASEDQKEGMAAFLEKRKPRFQGK 2qq3-a2-m1-cE_2qq3-a2-m1-cJ Crystal Structure Of Enoyl-CoA Hydrates Subunit I (gk_2039) Other Form From Geobacillus Kaustophilus HTA426 Q5KYB2 Q5KYB2 1.95 X-RAY DIFFRACTION 30 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 255 256 2pbp-a2-m1-cA_2pbp-a2-m6-cA 2pbp-a2-m2-cA_2pbp-a2-m5-cA 2pbp-a2-m3-cA_2pbp-a2-m4-cA 2qq3-a1-m1-cB_2qq3-a1-m1-cD 2qq3-a1-m1-cG_2qq3-a1-m1-cK 2qq3-a1-m1-cH_2qq3-a1-m1-cC 2qq3-a2-m1-cA_2qq3-a2-m1-cF 2qq3-a2-m1-cI_2qq3-a2-m1-cL FVSIAARQEGAVGIIELARPDVLNALSRQMVAEIVAAVEAFDRNEKVRVIVLTGRGRAFAAGADIQEMAKDDPIRLEWLNQFADWDRLSIVKTPMIAAVNGLALGGGFELALSCDLIVASSAAEFGFPEVNLGVMPGAGGTQRLTKLIGPKRALEWLWTGARMSAKEAEQLGIVNRVVSPELLMEETMRLAGRLAEQPPLALRLIKEAVQKAVDYPLYEGMQFERKNFYLLFASEDQKEGMAAFLEKRKPRFQGK EFVSIAARQEGAVGIIELARPDVLNALSRQMVAEIVAAVEAFDRNEKVRVIVLTGRGRAFAAGADIQEMAKDDPIRLEWLNQFADWDRLSIVKTPMIAAVNGLALGGGFELALSCDLIVASSAAEFGFPEVNLGVMPGAGGTQRLTKLIGPKRALEWLWTGARMSAKEAEQLGIVNRVVSPELLMEETMRLAGRLAEQPPLALRLIKEAVQKAVDYPLYEGMQFERKNFYLLFASEDQKEGMAAFLEKRKPRFQGK 2qq3-a2-m1-cF_2qq3-a2-m1-cJ Crystal Structure Of Enoyl-CoA Hydrates Subunit I (gk_2039) Other Form From Geobacillus Kaustophilus HTA426 Q5KYB2 Q5KYB2 1.95 X-RAY DIFFRACTION 155 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 255 256 2pbp-a1-m1-cA_2pbp-a1-m2-cA 2pbp-a2-m1-cA_2pbp-a2-m2-cA 2pbp-a2-m1-cA_2pbp-a2-m3-cA 2pbp-a2-m2-cA_2pbp-a2-m3-cA 2pbp-a2-m4-cA_2pbp-a2-m5-cA 2pbp-a2-m4-cA_2pbp-a2-m6-cA 2pbp-a2-m5-cA_2pbp-a2-m6-cA 2qq3-a1-m1-cB_2qq3-a1-m1-cC 2qq3-a1-m1-cB_2qq3-a1-m1-cK 2qq3-a1-m1-cC_2qq3-a1-m1-cK 2qq3-a1-m1-cD_2qq3-a1-m1-cG 2qq3-a1-m1-cD_2qq3-a1-m1-cH 2qq3-a1-m1-cG_2qq3-a1-m1-cH 2qq3-a2-m1-cA_2qq3-a2-m1-cE 2qq3-a2-m1-cA_2qq3-a2-m1-cL 2qq3-a2-m1-cE_2qq3-a2-m1-cL 2qq3-a2-m1-cF_2qq3-a2-m1-cI 2qq3-a2-m1-cI_2qq3-a2-m1-cJ FVSIAARQEGAVGIIELARPDVLNALSRQMVAEIVAAVEAFDRNEKVRVIVLTGRGRAFAAGADIQEMAKDDPIRLEWLNQFADWDRLSIVKTPMIAAVNGLALGGGFELALSCDLIVASSAAEFGFPEVNLGVMPGAGGTQRLTKLIGPKRALEWLWTGARMSAKEAEQLGIVNRVVSPELLMEETMRLAGRLAEQPPLALRLIKEAVQKAVDYPLYEGMQFERKNFYLLFASEDQKEGMAAFLEKRKPRFQGK EFVSIAARQEGAVGIIELARPDVLNALSRQMVAEIVAAVEAFDRNEKVRVIVLTGRGRAFAAGADIQEMAKDDPIRLEWLNQFADWDRLSIVKTPMIAAVNGLALGGGFELALSCDLIVASSAAEFGFPEVNLGVMPGAGGTQRLTKLIGPKRALEWLWTGARMSAKEAEQLGIVNRVVSPELLMEETMRLAGRLAEQPPLALRLIKEAVQKAVDYPLYEGMQFERKNFYLLFASEDQKEGMAAFLEKRKPRFQGK 2qq4-a2-m1-cE_2qq4-a2-m1-cG Crystal structure of Iron-sulfur cluster biosynthesis protein IscU (TTHA1736) from thermus thermophilus HB8 Q5SHJ4 Q5SHJ4 1.85 X-RAY DIFFRACTION 43 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 137 137 2qq4-a1-m1-cA_2qq4-a1-m1-cH 2qq4-a1-m1-cF_2qq4-a1-m1-cJ 2qq4-a1-m1-cI_2qq4-a1-m1-cA 2qq4-a1-m1-cI_2qq4-a1-m1-cF 2qq4-a1-m1-cJ_2qq4-a1-m1-cH 2qq4-a2-m1-cB_2qq4-a2-m1-cD 2qq4-a2-m1-cB_2qq4-a2-m1-cE 2qq4-a2-m1-cD_2qq4-a2-m1-cC 2qq4-a2-m1-cG_2qq4-a2-m1-cC SVLDELYREILLDHYQSPRNFGVLPQATKQAGGMNPSCGDQVEVMVLLEGDTIADIRFQGQGCAISTASASLMTEAVKGKKVAEALELSRKFQAMVVEGAPPDPTLGDLLALQGVAKLPARVKCATLAWHALEEALR SVLDELYREILLDHYQSPRNFGVLPQATKQAGGMNPSCGDQVEVMVLLEGDTIADIRFQGQGCAISTASASLMTEAVKGKKVAEALELSRKFQAMVVEGAPPDPTLGDLLALQGVAKLPARVKCATLAWHALEEALR 2qq5-a3-m2-cA_2qq5-a3-m4-cA Crystal structure of human SDR family member 1 Q96LJ7 Q96LJ7 1.8 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 238 238 2qq5-a2-m1-cA_2qq5-a2-m3-cA 2qq5-a3-m1-cA_2qq5-a3-m3-cA APMNGQVCVVTGASRGIGRGIALQLCKAGATVYITGRHLDTLRVVAQEAQSLGGQCVPVVCDSSQESEVRSLFEQVDREQQGRLDVLVNNAYAGVQTILNTRNKAFWETPASMWDDINNVGLRGHYFCSVYGARLMVPAGQGLIVVISSPGSLQYMFNVPYGVGKAACDKLAADCAHELRRHGVSCVSLWPGIVQTELLSSAETTELSGKCVVALATDPNILSLSGKVLPSCDLARRY APMNGQVCVVTGASRGIGRGIALQLCKAGATVYITGRHLDTLRVVAQEAQSLGGQCVPVVCDSSQESEVRSLFEQVDREQQGRLDVLVNNAYAGVQTILNTRNKAFWETPASMWDDINNVGLRGHYFCSVYGARLMVPAGQGLIVVISSPGSLQYMFNVPYGVGKAACDKLAADCAHELRRHGVSCVSLWPGIVQTELLSSAETTELSGKCVVALATDPNILSLSGKVLPSCDLARRY 2qq5-a3-m3-cA_2qq5-a3-m4-cA Crystal structure of human SDR family member 1 Q96LJ7 Q96LJ7 1.8 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 238 238 2qq5-a1-m1-cA_2qq5-a1-m2-cA 2qq5-a3-m1-cA_2qq5-a3-m2-cA APMNGQVCVVTGASRGIGRGIALQLCKAGATVYITGRHLDTLRVVAQEAQSLGGQCVPVVCDSSQESEVRSLFEQVDREQQGRLDVLVNNAYAGVQTILNTRNKAFWETPASMWDDINNVGLRGHYFCSVYGARLMVPAGQGLIVVISSPGSLQYMFNVPYGVGKAACDKLAADCAHELRRHGVSCVSLWPGIVQTELLSSAETTELSGKCVVALATDPNILSLSGKVLPSCDLARRY APMNGQVCVVTGASRGIGRGIALQLCKAGATVYITGRHLDTLRVVAQEAQSLGGQCVPVVCDSSQESEVRSLFEQVDREQQGRLDVLVNNAYAGVQTILNTRNKAFWETPASMWDDINNVGLRGHYFCSVYGARLMVPAGQGLIVVISSPGSLQYMFNVPYGVGKAACDKLAADCAHELRRHGVSCVSLWPGIVQTELLSSAETTELSGKCVVALATDPNILSLSGKVLPSCDLARRY 2qq6-a2-m2-cB_2qq6-a2-m4-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme-like protein from Rubrobacter xylanophilus DSM 9941 Q1AYK7 Q1AYK7 2.9 X-RAY DIFFRACTION 62 1.0 266117 (Rubrobacter xylanophilus DSM 9941) 266117 (Rubrobacter xylanophilus DSM 9941) 388 388 2qq6-a2-m1-cA_2qq6-a2-m2-cA 2qq6-a2-m1-cB_2qq6-a2-m3-cB 2qq6-a2-m3-cA_2qq6-a2-m4-cA SAPRITRVETAAIRAVGPSVLVRVWAGDEHGLGECYPSAPAAGIHHIVNEEQLLGEDPRDVERLYEKRRWNIFTGGQAGAVITALSGIETALWDLAGKLQGVPVYRLLGGAFRRRVRLYADCNAGTVDAAAHHIEGGLFEEGSNEEYIAVAREAVERGFDAIKLDVDDITGPLHRDFWNGAISPREHEAVARVAAVREAVGPEVEVAIDHGRFDIPSSIRFARAEPFGLLWLEEPTPPENLDALAEVRRSTSTPICAGENVYTRFDFRELFAKRAVDYVPDVAKCGGLAEAKRIANLAELDYIPFAPHNVSSPVGTVAAAHVCAAVSNFAVLEWHAIDPHWEDFVRYPGGPVIREGHIELTEEPGLGLELDEEAAFEHRHEKGVPFFG SAPRITRVETAAIRAVGPSVLVRVWAGDEHGLGECYPSAPAAGIHHIVNEEQLLGEDPRDVERLYEKRRWNIFTGGQAGAVITALSGIETALWDLAGKLQGVPVYRLLGGAFRRRVRLYADCNAGTVDAAAHHIEGGLFEEGSNEEYIAVAREAVERGFDAIKLDVDDITGPLHRDFWNGAISPREHEAVARVAAVREAVGPEVEVAIDHGRFDIPSSIRFARAEPFGLLWLEEPTPPENLDALAEVRRSTSTPICAGENVYTRFDFRELFAKRAVDYVPDVAKCGGLAEAKRIANLAELDYIPFAPHNVSSPVGTVAAAHVCAAVSNFAVLEWHAIDPHWEDFVRYPGGPVIREGHIELTEEPGLGLELDEEAAFEHRHEKGVPFFG 2qq6-a2-m3-cA_2qq6-a2-m4-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme-like protein from Rubrobacter xylanophilus DSM 9941 Q1AYK7 Q1AYK7 2.9 X-RAY DIFFRACTION 51 1.0 266117 (Rubrobacter xylanophilus DSM 9941) 266117 (Rubrobacter xylanophilus DSM 9941) 386 388 2qq6-a2-m1-cA_2qq6-a2-m2-cB 2qq6-a2-m1-cA_2qq6-a2-m3-cB 2qq6-a2-m2-cA_2qq6-a2-m1-cB 2qq6-a2-m2-cA_2qq6-a2-m4-cB 2qq6-a2-m3-cA_2qq6-a2-m1-cB 2qq6-a2-m4-cA_2qq6-a2-m2-cB 2qq6-a2-m4-cA_2qq6-a2-m3-cB SAPRITRVETAAIRAVPSVLVRVWAGDEHGLGECYPSAPAAGIHHIVNEEQLLGEDPRDVERLYEKRRWNIFTGGQAGAVITALSGIETALWDLAGKLQGVPVYRLLGGAFRRRVRLYADCNAGTVDAAAHHIEGGLFEEGSNEEYIAVAREAVERGFDAIKLDVDDITGPLHRDFWNGAISPREHEAVARVAAVREAVGPEVEVAIDHGRFDIPSSIRFARAEPFGLLWLEEPTPPENLDALAEVRRSTSTPICAGENVYTRFDFRELFAKRAVDYVPDVAKCGGLAEAKRIANLAELDYIPFAPHNVSSPVGTVAAAHVCAAVSNFAVLEWHAIDPHWEDFVRYPGGPVIREGHIELTEEPGLGLELDEEAAFEHRHEGVPFFG SAPRITRVETAAIRAVGPSVLVRVWAGDEHGLGECYPSAPAAGIHHIVNEEQLLGEDPRDVERLYEKRRWNIFTGGQAGAVITALSGIETALWDLAGKLQGVPVYRLLGGAFRRRVRLYADCNAGTVDAAAHHIEGGLFEEGSNEEYIAVAREAVERGFDAIKLDVDDITGPLHRDFWNGAISPREHEAVARVAAVREAVGPEVEVAIDHGRFDIPSSIRFARAEPFGLLWLEEPTPPENLDALAEVRRSTSTPICAGENVYTRFDFRELFAKRAVDYVPDVAKCGGLAEAKRIANLAELDYIPFAPHNVSSPVGTVAAAHVCAAVSNFAVLEWHAIDPHWEDFVRYPGGPVIREGHIELTEEPGLGLELDEEAAFEHRHEKGVPFFG 2qq6-a2-m4-cA_2qq6-a2-m4-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme-like protein from Rubrobacter xylanophilus DSM 9941 Q1AYK7 Q1AYK7 2.9 X-RAY DIFFRACTION 136 1.0 266117 (Rubrobacter xylanophilus DSM 9941) 266117 (Rubrobacter xylanophilus DSM 9941) 386 388 2qq6-a1-m1-cA_2qq6-a1-m1-cB 2qq6-a2-m1-cA_2qq6-a2-m1-cB 2qq6-a2-m2-cA_2qq6-a2-m2-cB 2qq6-a2-m3-cA_2qq6-a2-m3-cB SAPRITRVETAAIRAVPSVLVRVWAGDEHGLGECYPSAPAAGIHHIVNEEQLLGEDPRDVERLYEKRRWNIFTGGQAGAVITALSGIETALWDLAGKLQGVPVYRLLGGAFRRRVRLYADCNAGTVDAAAHHIEGGLFEEGSNEEYIAVAREAVERGFDAIKLDVDDITGPLHRDFWNGAISPREHEAVARVAAVREAVGPEVEVAIDHGRFDIPSSIRFARAEPFGLLWLEEPTPPENLDALAEVRRSTSTPICAGENVYTRFDFRELFAKRAVDYVPDVAKCGGLAEAKRIANLAELDYIPFAPHNVSSPVGTVAAAHVCAAVSNFAVLEWHAIDPHWEDFVRYPGGPVIREGHIELTEEPGLGLELDEEAAFEHRHEGVPFFG SAPRITRVETAAIRAVGPSVLVRVWAGDEHGLGECYPSAPAAGIHHIVNEEQLLGEDPRDVERLYEKRRWNIFTGGQAGAVITALSGIETALWDLAGKLQGVPVYRLLGGAFRRRVRLYADCNAGTVDAAAHHIEGGLFEEGSNEEYIAVAREAVERGFDAIKLDVDDITGPLHRDFWNGAISPREHEAVARVAAVREAVGPEVEVAIDHGRFDIPSSIRFARAEPFGLLWLEEPTPPENLDALAEVRRSTSTPICAGENVYTRFDFRELFAKRAVDYVPDVAKCGGLAEAKRIANLAELDYIPFAPHNVSSPVGTVAAAHVCAAVSNFAVLEWHAIDPHWEDFVRYPGGPVIREGHIELTEEPGLGLELDEEAAFEHRHEKGVPFFG 2qqe-a1-m2-cB_2qqe-a1-m1-cA Thymidine Kinase from Thermotoga Maritima in complex with Thymidine Q9WYN2 Q9WYN2 1.9 X-RAY DIFFRACTION 72 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 158 164 2qpo-a1-m1-cC_2qpo-a1-m1-cB SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAIDVGGQEKYIAVCRDCYNTLK SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKNGVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAGEEEIDVGGQEKYIAVCRDCYNTLK 2qqe-a1-m2-cB_2qqe-a1-m2-cA Thymidine Kinase from Thermotoga Maritima in complex with Thymidine Q9WYN2 Q9WYN2 1.9 X-RAY DIFFRACTION 69 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 158 164 2qpo-a1-m1-cB_2qpo-a1-m1-cD 2qpo-a1-m1-cC_2qpo-a1-m1-cA 2qqe-a1-m1-cB_2qqe-a1-m1-cA SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAIDVGGQEKYIAVCRDCYNTLK SGKLTVITGPMYSGKTTELLSFVEIYKLGKKKVAVFKPKNGVEAHVIERPEEMRKYIEEDTRGVFIDEVQFFNPSLFEVVKDLLDRGIDVFCAGLDLTHKQNPFETTALLLSLADTVIKKKAVCHRCGEYNATLTLKVAGEEEIDVGGQEKYIAVCRDCYNTLK 2qql-a1-m1-cA_2qql-a1-m2-cA Neuropilin-2 a1a2b1b2 Domains in Complex with a Semaphorin-Blocking Fab O60462 O60462 3.1 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 554 554 PPCGGRLNSKDAGYITSPGYPQDYPSHQNCEWIVYAPEPNQKIVLNFNPHFEIEKHDCKYDFIEIRDGDSESADLLGKHCGNIAPPTIISSGSMLYIKFTSDYARQGAGFSLRYEIFKTGSEDCSKNFTSPNGTIESPGFPEKYPHNLDCTFTILAKPKMEIILQFLIFDLCKYDWLDIWDGIPHVGPLIGKYCGTKTPSELRSSTGILSLTFHTDMAVAKDGFSARYYLVHQEPLENFQCNVPLGMESGRIANEQISASSTYSDGRWTPQQSRLHGDDNGWTPNLDSNKEYLQVDLRFLTMLTAIATQGAISRETQNGYYVKSYKLEVSTNGEDWMVYRHGKNHKVFQANNDATEVVLNKLHAPLLTRFVRIRPQTWHSGIALRLELFGCRVTDAPCSNMLGMLSGLIADSQISASSTQEYLWSPSAARLVSSRSGWFPRIPQAQPGEEWLQVDLGTPKTVKGVIIQGARGARAFVRKFKVSYSLNGKDWEYIQDPRTQQPKLFEGNMHYDTPDIRRFDPIPAQYVRVYPERWSPAGIGMRLEVLGCDWTHHH PPCGGRLNSKDAGYITSPGYPQDYPSHQNCEWIVYAPEPNQKIVLNFNPHFEIEKHDCKYDFIEIRDGDSESADLLGKHCGNIAPPTIISSGSMLYIKFTSDYARQGAGFSLRYEIFKTGSEDCSKNFTSPNGTIESPGFPEKYPHNLDCTFTILAKPKMEIILQFLIFDLCKYDWLDIWDGIPHVGPLIGKYCGTKTPSELRSSTGILSLTFHTDMAVAKDGFSARYYLVHQEPLENFQCNVPLGMESGRIANEQISASSTYSDGRWTPQQSRLHGDDNGWTPNLDSNKEYLQVDLRFLTMLTAIATQGAISRETQNGYYVKSYKLEVSTNGEDWMVYRHGKNHKVFQANNDATEVVLNKLHAPLLTRFVRIRPQTWHSGIALRLELFGCRVTDAPCSNMLGMLSGLIADSQISASSTQEYLWSPSAARLVSSRSGWFPRIPQAQPGEEWLQVDLGTPKTVKGVIIQGARGARAFVRKFKVSYSLNGKDWEYIQDPRTQQPKLFEGNMHYDTPDIRRFDPIPAQYVRVYPERWSPAGIGMRLEVLGCDWTHHH 2qqp-a1-m10-cA_2qqp-a1-m9-cC Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 102 1.0 213633 (Providence virus) 213633 (Providence virus) 484 484 2qqp-a1-m10-cC_2qqp-a1-m6-cA 2qqp-a1-m11-cA_2qqp-a1-m15-cC 2qqp-a1-m11-cC_2qqp-a1-m12-cA 2qqp-a1-m12-cC_2qqp-a1-m13-cA 2qqp-a1-m13-cC_2qqp-a1-m14-cA 2qqp-a1-m14-cC_2qqp-a1-m15-cA 2qqp-a1-m16-cA_2qqp-a1-m20-cC 2qqp-a1-m16-cC_2qqp-a1-m17-cA 2qqp-a1-m17-cC_2qqp-a1-m18-cA 2qqp-a1-m18-cC_2qqp-a1-m19-cA 2qqp-a1-m19-cC_2qqp-a1-m20-cA 2qqp-a1-m1-cA_2qqp-a1-m5-cC 2qqp-a1-m1-cC_2qqp-a1-m2-cA 2qqp-a1-m21-cA_2qqp-a1-m25-cC 2qqp-a1-m21-cC_2qqp-a1-m22-cA 2qqp-a1-m22-cC_2qqp-a1-m23-cA 2qqp-a1-m23-cC_2qqp-a1-m24-cA 2qqp-a1-m24-cC_2qqp-a1-m25-cA 2qqp-a1-m26-cA_2qqp-a1-m30-cC 2qqp-a1-m26-cC_2qqp-a1-m27-cA 2qqp-a1-m27-cC_2qqp-a1-m28-cA 2qqp-a1-m28-cC_2qqp-a1-m29-cA 2qqp-a1-m29-cC_2qqp-a1-m30-cA 2qqp-a1-m2-cC_2qqp-a1-m3-cA 2qqp-a1-m31-cA_2qqp-a1-m35-cC 2qqp-a1-m31-cC_2qqp-a1-m32-cA 2qqp-a1-m32-cC_2qqp-a1-m33-cA 2qqp-a1-m33-cC_2qqp-a1-m34-cA 2qqp-a1-m34-cC_2qqp-a1-m35-cA 2qqp-a1-m36-cA_2qqp-a1-m40-cC 2qqp-a1-m36-cC_2qqp-a1-m37-cA 2qqp-a1-m37-cC_2qqp-a1-m38-cA 2qqp-a1-m38-cC_2qqp-a1-m39-cA 2qqp-a1-m39-cC_2qqp-a1-m40-cA 2qqp-a1-m3-cC_2qqp-a1-m4-cA 2qqp-a1-m41-cA_2qqp-a1-m45-cC 2qqp-a1-m41-cC_2qqp-a1-m42-cA 2qqp-a1-m42-cC_2qqp-a1-m43-cA 2qqp-a1-m43-cC_2qqp-a1-m44-cA 2qqp-a1-m44-cC_2qqp-a1-m45-cA 2qqp-a1-m46-cA_2qqp-a1-m50-cC 2qqp-a1-m46-cC_2qqp-a1-m47-cA 2qqp-a1-m47-cC_2qqp-a1-m48-cA 2qqp-a1-m48-cC_2qqp-a1-m49-cA 2qqp-a1-m49-cC_2qqp-a1-m50-cA 2qqp-a1-m4-cC_2qqp-a1-m5-cA 2qqp-a1-m51-cA_2qqp-a1-m55-cC 2qqp-a1-m51-cC_2qqp-a1-m52-cA 2qqp-a1-m52-cC_2qqp-a1-m53-cA 2qqp-a1-m53-cC_2qqp-a1-m54-cA 2qqp-a1-m54-cC_2qqp-a1-m55-cA 2qqp-a1-m56-cA_2qqp-a1-m60-cC 2qqp-a1-m56-cC_2qqp-a1-m57-cA 2qqp-a1-m57-cC_2qqp-a1-m58-cA 2qqp-a1-m58-cC_2qqp-a1-m59-cA 2qqp-a1-m59-cC_2qqp-a1-m60-cA 2qqp-a1-m6-cC_2qqp-a1-m7-cA 2qqp-a1-m7-cC_2qqp-a1-m8-cA 2qqp-a1-m8-cC_2qqp-a1-m9-cA QSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN QSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN 2qqp-a1-m54-cG_2qqp-a1-m9-cG Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 202 1.0 213633 (Providence virus) 213633 (Providence virus) 518 518 2qqp-a1-m10-cA_2qqp-a1-m10-cC 2qqp-a1-m10-cA_2qqp-a1-m10-cE 2qqp-a1-m10-cC_2qqp-a1-m10-cE 2qqp-a1-m10-cG_2qqp-a1-m23-cG 2qqp-a1-m11-cA_2qqp-a1-m11-cC 2qqp-a1-m11-cA_2qqp-a1-m11-cE 2qqp-a1-m11-cC_2qqp-a1-m11-cE 2qqp-a1-m11-cG_2qqp-a1-m20-cG 2qqp-a1-m11-cG_2qqp-a1-m38-cG 2qqp-a1-m12-cA_2qqp-a1-m12-cC 2qqp-a1-m12-cA_2qqp-a1-m12-cE 2qqp-a1-m12-cC_2qqp-a1-m12-cE 2qqp-a1-m12-cG_2qqp-a1-m37-cG 2qqp-a1-m12-cG_2qqp-a1-m47-cG 2qqp-a1-m13-cA_2qqp-a1-m13-cC 2qqp-a1-m13-cA_2qqp-a1-m13-cE 2qqp-a1-m13-cC_2qqp-a1-m13-cE 2qqp-a1-m13-cG_2qqp-a1-m45-cG 2qqp-a1-m13-cG_2qqp-a1-m46-cG 2qqp-a1-m14-cA_2qqp-a1-m14-cC 2qqp-a1-m14-cA_2qqp-a1-m14-cE 2qqp-a1-m14-cC_2qqp-a1-m14-cE 2qqp-a1-m14-cG_2qqp-a1-m29-cG 2qqp-a1-m14-cG_2qqp-a1-m44-cG 2qqp-a1-m15-cA_2qqp-a1-m15-cC 2qqp-a1-m15-cA_2qqp-a1-m15-cE 2qqp-a1-m15-cC_2qqp-a1-m15-cE 2qqp-a1-m15-cG_2qqp-a1-m16-cG 2qqp-a1-m15-cG_2qqp-a1-m28-cG 2qqp-a1-m16-cA_2qqp-a1-m16-cC 2qqp-a1-m16-cA_2qqp-a1-m16-cE 2qqp-a1-m16-cC_2qqp-a1-m16-cE 2qqp-a1-m16-cG_2qqp-a1-m28-cG 2qqp-a1-m17-cA_2qqp-a1-m17-cC 2qqp-a1-m17-cA_2qqp-a1-m17-cE 2qqp-a1-m17-cC_2qqp-a1-m17-cE 2qqp-a1-m17-cG_2qqp-a1-m27-cG 2qqp-a1-m17-cG_2qqp-a1-m52-cG 2qqp-a1-m18-cA_2qqp-a1-m18-cC 2qqp-a1-m18-cA_2qqp-a1-m18-cE 2qqp-a1-m18-cC_2qqp-a1-m18-cE 2qqp-a1-m18-cG_2qqp-a1-m51-cG 2qqp-a1-m18-cG_2qqp-a1-m60-cG 2qqp-a1-m19-cA_2qqp-a1-m19-cC 2qqp-a1-m19-cA_2qqp-a1-m19-cE 2qqp-a1-m19-cC_2qqp-a1-m19-cE 2qqp-a1-m19-cG_2qqp-a1-m39-cG 2qqp-a1-m19-cG_2qqp-a1-m59-cG 2qqp-a1-m1-cA_2qqp-a1-m1-cC 2qqp-a1-m1-cA_2qqp-a1-m1-cE 2qqp-a1-m1-cC_2qqp-a1-m1-cE 2qqp-a1-m1-cG_2qqp-a1-m10-cG 2qqp-a1-m1-cG_2qqp-a1-m23-cG 2qqp-a1-m20-cA_2qqp-a1-m20-cC 2qqp-a1-m20-cA_2qqp-a1-m20-cE 2qqp-a1-m20-cC_2qqp-a1-m20-cE 2qqp-a1-m20-cG_2qqp-a1-m38-cG 2qqp-a1-m21-cA_2qqp-a1-m21-cC 2qqp-a1-m21-cA_2qqp-a1-m21-cE 2qqp-a1-m21-cC_2qqp-a1-m21-cE 2qqp-a1-m21-cG_2qqp-a1-m30-cG 2qqp-a1-m21-cG_2qqp-a1-m43-cG 2qqp-a1-m22-cA_2qqp-a1-m22-cC 2qqp-a1-m22-cA_2qqp-a1-m22-cE 2qqp-a1-m22-cC_2qqp-a1-m22-cE 2qqp-a1-m22-cG_2qqp-a1-m42-cG 2qqp-a1-m23-cA_2qqp-a1-m23-cC 2qqp-a1-m23-cA_2qqp-a1-m23-cE 2qqp-a1-m23-cC_2qqp-a1-m23-cE 2qqp-a1-m24-cA_2qqp-a1-m24-cC 2qqp-a1-m24-cA_2qqp-a1-m24-cE 2qqp-a1-m24-cC_2qqp-a1-m24-cE 2qqp-a1-m24-cG_2qqp-a1-m54-cG 2qqp-a1-m24-cG_2qqp-a1-m9-cG 2qqp-a1-m25-cA_2qqp-a1-m25-cC 2qqp-a1-m25-cA_2qqp-a1-m25-cE 2qqp-a1-m25-cC_2qqp-a1-m25-cE 2qqp-a1-m25-cG_2qqp-a1-m26-cG 2qqp-a1-m25-cG_2qqp-a1-m53-cG 2qqp-a1-m26-cA_2qqp-a1-m26-cC 2qqp-a1-m26-cA_2qqp-a1-m26-cE 2qqp-a1-m26-cC_2qqp-a1-m26-cE 2qqp-a1-m26-cG_2qqp-a1-m53-cG 2qqp-a1-m27-cA_2qqp-a1-m27-cC 2qqp-a1-m27-cA_2qqp-a1-m27-cE 2qqp-a1-m27-cC_2qqp-a1-m27-cE 2qqp-a1-m27-cG_2qqp-a1-m52-cG 2qqp-a1-m28-cA_2qqp-a1-m28-cC 2qqp-a1-m28-cA_2qqp-a1-m28-cE 2qqp-a1-m28-cC_2qqp-a1-m28-cE 2qqp-a1-m29-cA_2qqp-a1-m29-cC 2qqp-a1-m29-cA_2qqp-a1-m29-cE 2qqp-a1-m29-cC_2qqp-a1-m29-cE 2qqp-a1-m29-cG_2qqp-a1-m44-cG 2qqp-a1-m2-cA_2qqp-a1-m2-cC 2qqp-a1-m2-cA_2qqp-a1-m2-cE 2qqp-a1-m2-cC_2qqp-a1-m2-cE 2qqp-a1-m2-cG_2qqp-a1-m22-cG 2qqp-a1-m2-cG_2qqp-a1-m42-cG 2qqp-a1-m30-cA_2qqp-a1-m30-cC 2qqp-a1-m30-cA_2qqp-a1-m30-cE 2qqp-a1-m30-cC_2qqp-a1-m30-cE 2qqp-a1-m30-cG_2qqp-a1-m43-cG 2qqp-a1-m31-cA_2qqp-a1-m31-cC 2qqp-a1-m31-cA_2qqp-a1-m31-cE 2qqp-a1-m31-cC_2qqp-a1-m31-cE 2qqp-a1-m31-cG_2qqp-a1-m40-cG 2qqp-a1-m31-cG_2qqp-a1-m58-cG 2qqp-a1-m32-cA_2qqp-a1-m32-cC 2qqp-a1-m32-cA_2qqp-a1-m32-cE 2qqp-a1-m32-cC_2qqp-a1-m32-cE 2qqp-a1-m32-cG_2qqp-a1-m57-cG 2qqp-a1-m32-cG_2qqp-a1-m7-cG 2qqp-a1-m33-cA_2qqp-a1-m33-cC 2qqp-a1-m33-cA_2qqp-a1-m33-cE 2qqp-a1-m33-cC_2qqp-a1-m33-cE 2qqp-a1-m33-cG_2qqp-a1-m5-cG 2qqp-a1-m33-cG_2qqp-a1-m6-cG 2qqp-a1-m34-cA_2qqp-a1-m34-cC 2qqp-a1-m34-cA_2qqp-a1-m34-cE 2qqp-a1-m34-cC_2qqp-a1-m34-cE 2qqp-a1-m34-cG_2qqp-a1-m49-cG 2qqp-a1-m34-cG_2qqp-a1-m4-cG 2qqp-a1-m35-cA_2qqp-a1-m35-cC 2qqp-a1-m35-cA_2qqp-a1-m35-cE 2qqp-a1-m35-cC_2qqp-a1-m35-cE 2qqp-a1-m35-cG_2qqp-a1-m36-cG 2qqp-a1-m35-cG_2qqp-a1-m48-cG 2qqp-a1-m36-cA_2qqp-a1-m36-cC 2qqp-a1-m36-cA_2qqp-a1-m36-cE 2qqp-a1-m36-cC_2qqp-a1-m36-cE 2qqp-a1-m36-cG_2qqp-a1-m48-cG 2qqp-a1-m37-cA_2qqp-a1-m37-cC 2qqp-a1-m37-cA_2qqp-a1-m37-cE 2qqp-a1-m37-cC_2qqp-a1-m37-cE 2qqp-a1-m37-cG_2qqp-a1-m47-cG 2qqp-a1-m38-cA_2qqp-a1-m38-cC 2qqp-a1-m38-cA_2qqp-a1-m38-cE 2qqp-a1-m38-cC_2qqp-a1-m38-cE 2qqp-a1-m39-cA_2qqp-a1-m39-cC 2qqp-a1-m39-cA_2qqp-a1-m39-cE 2qqp-a1-m39-cC_2qqp-a1-m39-cE 2qqp-a1-m39-cG_2qqp-a1-m59-cG 2qqp-a1-m3-cA_2qqp-a1-m3-cC 2qqp-a1-m3-cA_2qqp-a1-m3-cE 2qqp-a1-m3-cC_2qqp-a1-m3-cE 2qqp-a1-m3-cG_2qqp-a1-m41-cG 2qqp-a1-m3-cG_2qqp-a1-m50-cG 2qqp-a1-m40-cA_2qqp-a1-m40-cC 2qqp-a1-m40-cA_2qqp-a1-m40-cE 2qqp-a1-m40-cC_2qqp-a1-m40-cE 2qqp-a1-m40-cG_2qqp-a1-m58-cG 2qqp-a1-m41-cA_2qqp-a1-m41-cC 2qqp-a1-m41-cA_2qqp-a1-m41-cE 2qqp-a1-m41-cC_2qqp-a1-m41-cE 2qqp-a1-m41-cG_2qqp-a1-m50-cG 2qqp-a1-m42-cA_2qqp-a1-m42-cC 2qqp-a1-m42-cA_2qqp-a1-m42-cE 2qqp-a1-m42-cC_2qqp-a1-m42-cE 2qqp-a1-m43-cA_2qqp-a1-m43-cC 2qqp-a1-m43-cA_2qqp-a1-m43-cE 2qqp-a1-m43-cC_2qqp-a1-m43-cE 2qqp-a1-m44-cA_2qqp-a1-m44-cC 2qqp-a1-m44-cA_2qqp-a1-m44-cE 2qqp-a1-m44-cC_2qqp-a1-m44-cE 2qqp-a1-m45-cA_2qqp-a1-m45-cC 2qqp-a1-m45-cA_2qqp-a1-m45-cE 2qqp-a1-m45-cC_2qqp-a1-m45-cE 2qqp-a1-m45-cG_2qqp-a1-m46-cG 2qqp-a1-m46-cA_2qqp-a1-m46-cC 2qqp-a1-m46-cA_2qqp-a1-m46-cE 2qqp-a1-m46-cC_2qqp-a1-m46-cE 2qqp-a1-m47-cA_2qqp-a1-m47-cC 2qqp-a1-m47-cA_2qqp-a1-m47-cE 2qqp-a1-m47-cC_2qqp-a1-m47-cE 2qqp-a1-m48-cA_2qqp-a1-m48-cC 2qqp-a1-m48-cA_2qqp-a1-m48-cE 2qqp-a1-m48-cC_2qqp-a1-m48-cE 2qqp-a1-m49-cA_2qqp-a1-m49-cC 2qqp-a1-m49-cA_2qqp-a1-m49-cE 2qqp-a1-m49-cC_2qqp-a1-m49-cE 2qqp-a1-m4-cA_2qqp-a1-m4-cC 2qqp-a1-m4-cA_2qqp-a1-m4-cE 2qqp-a1-m4-cC_2qqp-a1-m4-cE 2qqp-a1-m4-cG_2qqp-a1-m49-cG 2qqp-a1-m50-cA_2qqp-a1-m50-cC 2qqp-a1-m50-cA_2qqp-a1-m50-cE 2qqp-a1-m50-cC_2qqp-a1-m50-cE 2qqp-a1-m51-cA_2qqp-a1-m51-cC 2qqp-a1-m51-cA_2qqp-a1-m51-cE 2qqp-a1-m51-cC_2qqp-a1-m51-cE 2qqp-a1-m51-cG_2qqp-a1-m60-cG 2qqp-a1-m52-cA_2qqp-a1-m52-cC 2qqp-a1-m52-cA_2qqp-a1-m52-cE 2qqp-a1-m52-cC_2qqp-a1-m52-cE 2qqp-a1-m53-cA_2qqp-a1-m53-cC 2qqp-a1-m53-cA_2qqp-a1-m53-cE 2qqp-a1-m53-cC_2qqp-a1-m53-cE 2qqp-a1-m54-cA_2qqp-a1-m54-cC 2qqp-a1-m54-cA_2qqp-a1-m54-cE 2qqp-a1-m54-cC_2qqp-a1-m54-cE 2qqp-a1-m55-cA_2qqp-a1-m55-cC 2qqp-a1-m55-cA_2qqp-a1-m55-cE 2qqp-a1-m55-cC_2qqp-a1-m55-cE 2qqp-a1-m55-cG_2qqp-a1-m56-cG 2qqp-a1-m55-cG_2qqp-a1-m8-cG 2qqp-a1-m56-cA_2qqp-a1-m56-cC 2qqp-a1-m56-cA_2qqp-a1-m56-cE 2qqp-a1-m56-cC_2qqp-a1-m56-cE 2qqp-a1-m56-cG_2qqp-a1-m8-cG 2qqp-a1-m57-cA_2qqp-a1-m57-cC 2qqp-a1-m57-cA_2qqp-a1-m57-cE 2qqp-a1-m57-cC_2qqp-a1-m57-cE 2qqp-a1-m57-cG_2qqp-a1-m7-cG 2qqp-a1-m58-cA_2qqp-a1-m58-cC 2qqp-a1-m58-cA_2qqp-a1-m58-cE 2qqp-a1-m58-cC_2qqp-a1-m58-cE 2qqp-a1-m59-cA_2qqp-a1-m59-cC 2qqp-a1-m59-cA_2qqp-a1-m59-cE 2qqp-a1-m59-cC_2qqp-a1-m59-cE 2qqp-a1-m5-cA_2qqp-a1-m5-cC 2qqp-a1-m5-cA_2qqp-a1-m5-cE 2qqp-a1-m5-cC_2qqp-a1-m5-cE 2qqp-a1-m5-cG_2qqp-a1-m6-cG 2qqp-a1-m60-cA_2qqp-a1-m60-cC 2qqp-a1-m60-cA_2qqp-a1-m60-cE 2qqp-a1-m60-cC_2qqp-a1-m60-cE 2qqp-a1-m6-cA_2qqp-a1-m6-cC 2qqp-a1-m6-cA_2qqp-a1-m6-cE 2qqp-a1-m6-cC_2qqp-a1-m6-cE 2qqp-a1-m7-cA_2qqp-a1-m7-cC 2qqp-a1-m7-cA_2qqp-a1-m7-cE 2qqp-a1-m7-cC_2qqp-a1-m7-cE 2qqp-a1-m8-cA_2qqp-a1-m8-cC 2qqp-a1-m8-cA_2qqp-a1-m8-cE 2qqp-a1-m8-cC_2qqp-a1-m8-cE 2qqp-a1-m9-cA_2qqp-a1-m9-cC 2qqp-a1-m9-cA_2qqp-a1-m9-cE 2qqp-a1-m9-cC_2qqp-a1-m9-cE EQATILKPQLLPGESVAPSGGRGTMDPPVHEICAQSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN EQATILKPQLLPGESVAPSGGRGTMDPPVHEICAQSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN 2qqp-a1-m55-cF_2qqp-a1-m9-cF Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 34 1.0 213633 (Providence virus) 213633 (Providence virus) 67 67 2qqp-a1-m10-cF_2qqp-a1-m24-cF 2qqp-a1-m11-cF_2qqp-a1-m16-cF 2qqp-a1-m12-cF_2qqp-a1-m38-cF 2qqp-a1-m13-cF_2qqp-a1-m47-cF 2qqp-a1-m14-cF_2qqp-a1-m45-cF 2qqp-a1-m15-cF_2qqp-a1-m29-cF 2qqp-a1-m17-cF_2qqp-a1-m28-cF 2qqp-a1-m18-cF_2qqp-a1-m52-cF 2qqp-a1-m19-cF_2qqp-a1-m60-cF 2qqp-a1-m1-cF_2qqp-a1-m6-cF 2qqp-a1-m20-cF_2qqp-a1-m39-cF 2qqp-a1-m21-cF_2qqp-a1-m26-cF 2qqp-a1-m22-cF_2qqp-a1-m43-cF 2qqp-a1-m25-cF_2qqp-a1-m54-cF 2qqp-a1-m27-cF_2qqp-a1-m53-cF 2qqp-a1-m2-cF_2qqp-a1-m23-cF 2qqp-a1-m30-cF_2qqp-a1-m44-cF 2qqp-a1-m31-cF_2qqp-a1-m36-cF 2qqp-a1-m32-cF_2qqp-a1-m58-cF 2qqp-a1-m33-cF_2qqp-a1-m7-cF 2qqp-a1-m34-cF_2qqp-a1-m5-cF 2qqp-a1-m35-cF_2qqp-a1-m49-cF 2qqp-a1-m37-cF_2qqp-a1-m48-cF 2qqp-a1-m3-cF_2qqp-a1-m42-cF 2qqp-a1-m40-cF_2qqp-a1-m59-cF 2qqp-a1-m41-cF_2qqp-a1-m46-cF 2qqp-a1-m4-cF_2qqp-a1-m50-cF 2qqp-a1-m51-cF_2qqp-a1-m56-cF 2qqp-a1-m57-cF_2qqp-a1-m8-cF FAGTVSALASIGLGLLGKSSATPSVIKGIAQQAVGAVQANPGILEGAVKAIGSVGARLVGSIKARRA FAGTVSALASIGLGLLGKSSATPSVIKGIAQQAVGAVQANPGILEGAVKAIGSVGARLVGSIKARRA 2qqp-a1-m8-cC_2qqp-a1-m9-cE Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 93 1.0 213633 (Providence virus) 213633 (Providence virus) 484 517 2qqp-a1-m10-cA_2qqp-a1-m6-cA 2qqp-a1-m10-cA_2qqp-a1-m9-cA 2qqp-a1-m10-cC_2qqp-a1-m6-cE 2qqp-a1-m11-cA_2qqp-a1-m12-cA 2qqp-a1-m11-cA_2qqp-a1-m15-cA 2qqp-a1-m11-cC_2qqp-a1-m12-cE 2qqp-a1-m12-cA_2qqp-a1-m13-cA 2qqp-a1-m12-cC_2qqp-a1-m13-cE 2qqp-a1-m13-cA_2qqp-a1-m14-cA 2qqp-a1-m13-cC_2qqp-a1-m14-cE 2qqp-a1-m14-cA_2qqp-a1-m15-cA 2qqp-a1-m14-cC_2qqp-a1-m15-cE 2qqp-a1-m15-cC_2qqp-a1-m11-cE 2qqp-a1-m16-cA_2qqp-a1-m17-cA 2qqp-a1-m16-cA_2qqp-a1-m20-cA 2qqp-a1-m16-cC_2qqp-a1-m17-cE 2qqp-a1-m17-cA_2qqp-a1-m18-cA 2qqp-a1-m17-cC_2qqp-a1-m18-cE 2qqp-a1-m18-cA_2qqp-a1-m19-cA 2qqp-a1-m18-cC_2qqp-a1-m19-cE 2qqp-a1-m19-cA_2qqp-a1-m20-cA 2qqp-a1-m19-cC_2qqp-a1-m20-cE 2qqp-a1-m1-cA_2qqp-a1-m2-cA 2qqp-a1-m1-cA_2qqp-a1-m5-cA 2qqp-a1-m1-cC_2qqp-a1-m2-cE 2qqp-a1-m20-cC_2qqp-a1-m16-cE 2qqp-a1-m21-cA_2qqp-a1-m22-cA 2qqp-a1-m21-cA_2qqp-a1-m25-cA 2qqp-a1-m21-cC_2qqp-a1-m22-cE 2qqp-a1-m22-cA_2qqp-a1-m23-cA 2qqp-a1-m22-cC_2qqp-a1-m23-cE 2qqp-a1-m23-cA_2qqp-a1-m24-cA 2qqp-a1-m23-cC_2qqp-a1-m24-cE 2qqp-a1-m24-cA_2qqp-a1-m25-cA 2qqp-a1-m24-cC_2qqp-a1-m25-cE 2qqp-a1-m25-cC_2qqp-a1-m21-cE 2qqp-a1-m26-cA_2qqp-a1-m27-cA 2qqp-a1-m26-cA_2qqp-a1-m30-cA 2qqp-a1-m26-cC_2qqp-a1-m27-cE 2qqp-a1-m27-cA_2qqp-a1-m28-cA 2qqp-a1-m27-cC_2qqp-a1-m28-cE 2qqp-a1-m28-cA_2qqp-a1-m29-cA 2qqp-a1-m28-cC_2qqp-a1-m29-cE 2qqp-a1-m29-cA_2qqp-a1-m30-cA 2qqp-a1-m29-cC_2qqp-a1-m30-cE 2qqp-a1-m2-cA_2qqp-a1-m3-cA 2qqp-a1-m2-cC_2qqp-a1-m3-cE 2qqp-a1-m30-cC_2qqp-a1-m26-cE 2qqp-a1-m31-cA_2qqp-a1-m32-cA 2qqp-a1-m31-cA_2qqp-a1-m35-cA 2qqp-a1-m31-cC_2qqp-a1-m32-cE 2qqp-a1-m32-cA_2qqp-a1-m33-cA 2qqp-a1-m32-cC_2qqp-a1-m33-cE 2qqp-a1-m33-cA_2qqp-a1-m34-cA 2qqp-a1-m33-cC_2qqp-a1-m34-cE 2qqp-a1-m34-cA_2qqp-a1-m35-cA 2qqp-a1-m34-cC_2qqp-a1-m35-cE 2qqp-a1-m35-cC_2qqp-a1-m31-cE 2qqp-a1-m36-cA_2qqp-a1-m37-cA 2qqp-a1-m36-cA_2qqp-a1-m40-cA 2qqp-a1-m36-cC_2qqp-a1-m37-cE 2qqp-a1-m37-cA_2qqp-a1-m38-cA 2qqp-a1-m37-cC_2qqp-a1-m38-cE 2qqp-a1-m38-cA_2qqp-a1-m39-cA 2qqp-a1-m38-cC_2qqp-a1-m39-cE 2qqp-a1-m39-cA_2qqp-a1-m40-cA 2qqp-a1-m39-cC_2qqp-a1-m40-cE 2qqp-a1-m3-cA_2qqp-a1-m4-cA 2qqp-a1-m3-cC_2qqp-a1-m4-cE 2qqp-a1-m40-cC_2qqp-a1-m36-cE 2qqp-a1-m41-cA_2qqp-a1-m42-cA 2qqp-a1-m41-cA_2qqp-a1-m45-cA 2qqp-a1-m41-cC_2qqp-a1-m42-cE 2qqp-a1-m42-cA_2qqp-a1-m43-cA 2qqp-a1-m42-cC_2qqp-a1-m43-cE 2qqp-a1-m43-cA_2qqp-a1-m44-cA 2qqp-a1-m43-cC_2qqp-a1-m44-cE 2qqp-a1-m44-cA_2qqp-a1-m45-cA 2qqp-a1-m44-cC_2qqp-a1-m45-cE 2qqp-a1-m45-cC_2qqp-a1-m41-cE 2qqp-a1-m46-cA_2qqp-a1-m47-cA 2qqp-a1-m46-cA_2qqp-a1-m50-cA 2qqp-a1-m46-cC_2qqp-a1-m47-cE 2qqp-a1-m47-cA_2qqp-a1-m48-cA 2qqp-a1-m47-cC_2qqp-a1-m48-cE 2qqp-a1-m48-cA_2qqp-a1-m49-cA 2qqp-a1-m48-cC_2qqp-a1-m49-cE 2qqp-a1-m49-cA_2qqp-a1-m50-cA 2qqp-a1-m49-cC_2qqp-a1-m50-cE 2qqp-a1-m4-cA_2qqp-a1-m5-cA 2qqp-a1-m4-cC_2qqp-a1-m5-cE 2qqp-a1-m50-cC_2qqp-a1-m46-cE 2qqp-a1-m51-cA_2qqp-a1-m52-cA 2qqp-a1-m51-cA_2qqp-a1-m55-cA 2qqp-a1-m51-cC_2qqp-a1-m52-cE 2qqp-a1-m52-cA_2qqp-a1-m53-cA 2qqp-a1-m52-cC_2qqp-a1-m53-cE 2qqp-a1-m53-cA_2qqp-a1-m54-cA 2qqp-a1-m53-cC_2qqp-a1-m54-cE 2qqp-a1-m54-cA_2qqp-a1-m55-cA 2qqp-a1-m54-cC_2qqp-a1-m55-cE 2qqp-a1-m55-cC_2qqp-a1-m51-cE 2qqp-a1-m56-cA_2qqp-a1-m57-cA 2qqp-a1-m56-cA_2qqp-a1-m60-cA 2qqp-a1-m56-cC_2qqp-a1-m57-cE 2qqp-a1-m57-cA_2qqp-a1-m58-cA 2qqp-a1-m57-cC_2qqp-a1-m58-cE 2qqp-a1-m58-cA_2qqp-a1-m59-cA 2qqp-a1-m58-cC_2qqp-a1-m59-cE 2qqp-a1-m59-cA_2qqp-a1-m60-cA 2qqp-a1-m59-cC_2qqp-a1-m60-cE 2qqp-a1-m5-cC_2qqp-a1-m1-cE 2qqp-a1-m60-cC_2qqp-a1-m56-cE 2qqp-a1-m6-cA_2qqp-a1-m7-cA 2qqp-a1-m6-cC_2qqp-a1-m7-cE 2qqp-a1-m7-cA_2qqp-a1-m8-cA 2qqp-a1-m7-cC_2qqp-a1-m8-cE 2qqp-a1-m8-cA_2qqp-a1-m9-cA 2qqp-a1-m9-cC_2qqp-a1-m10-cE QSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN QATILKPQLLPGESVAPSGGRGTMDPPVHEICAQSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN 2qqp-a1-m8-cD_2qqp-a1-m9-cF Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 26 1.0 213633 (Providence virus) 213633 (Providence virus) 40 67 2qqp-a1-m10-cB_2qqp-a1-m6-cB 2qqp-a1-m10-cB_2qqp-a1-m9-cB 2qqp-a1-m10-cD_2qqp-a1-m6-cF 2qqp-a1-m11-cB_2qqp-a1-m12-cB 2qqp-a1-m11-cB_2qqp-a1-m15-cB 2qqp-a1-m11-cD_2qqp-a1-m12-cF 2qqp-a1-m12-cB_2qqp-a1-m13-cB 2qqp-a1-m12-cD_2qqp-a1-m13-cF 2qqp-a1-m13-cB_2qqp-a1-m14-cB 2qqp-a1-m13-cD_2qqp-a1-m14-cF 2qqp-a1-m14-cB_2qqp-a1-m15-cB 2qqp-a1-m14-cD_2qqp-a1-m15-cF 2qqp-a1-m15-cD_2qqp-a1-m11-cF 2qqp-a1-m16-cB_2qqp-a1-m17-cB 2qqp-a1-m16-cB_2qqp-a1-m20-cB 2qqp-a1-m16-cD_2qqp-a1-m17-cF 2qqp-a1-m17-cB_2qqp-a1-m18-cB 2qqp-a1-m17-cD_2qqp-a1-m18-cF 2qqp-a1-m18-cB_2qqp-a1-m19-cB 2qqp-a1-m18-cD_2qqp-a1-m19-cF 2qqp-a1-m19-cB_2qqp-a1-m20-cB 2qqp-a1-m19-cD_2qqp-a1-m20-cF 2qqp-a1-m1-cB_2qqp-a1-m2-cB 2qqp-a1-m1-cB_2qqp-a1-m5-cB 2qqp-a1-m1-cD_2qqp-a1-m2-cF 2qqp-a1-m20-cD_2qqp-a1-m16-cF 2qqp-a1-m21-cB_2qqp-a1-m22-cB 2qqp-a1-m21-cB_2qqp-a1-m25-cB 2qqp-a1-m21-cD_2qqp-a1-m22-cF 2qqp-a1-m22-cB_2qqp-a1-m23-cB 2qqp-a1-m22-cD_2qqp-a1-m23-cF 2qqp-a1-m23-cB_2qqp-a1-m24-cB 2qqp-a1-m23-cD_2qqp-a1-m24-cF 2qqp-a1-m24-cB_2qqp-a1-m25-cB 2qqp-a1-m24-cD_2qqp-a1-m25-cF 2qqp-a1-m25-cD_2qqp-a1-m21-cF 2qqp-a1-m26-cB_2qqp-a1-m27-cB 2qqp-a1-m26-cB_2qqp-a1-m30-cB 2qqp-a1-m26-cD_2qqp-a1-m27-cF 2qqp-a1-m27-cB_2qqp-a1-m28-cB 2qqp-a1-m27-cD_2qqp-a1-m28-cF 2qqp-a1-m28-cB_2qqp-a1-m29-cB 2qqp-a1-m28-cD_2qqp-a1-m29-cF 2qqp-a1-m29-cB_2qqp-a1-m30-cB 2qqp-a1-m29-cD_2qqp-a1-m30-cF 2qqp-a1-m2-cB_2qqp-a1-m3-cB 2qqp-a1-m2-cD_2qqp-a1-m3-cF 2qqp-a1-m30-cD_2qqp-a1-m26-cF 2qqp-a1-m31-cB_2qqp-a1-m32-cB 2qqp-a1-m31-cB_2qqp-a1-m35-cB 2qqp-a1-m31-cD_2qqp-a1-m32-cF 2qqp-a1-m32-cB_2qqp-a1-m33-cB 2qqp-a1-m32-cD_2qqp-a1-m33-cF 2qqp-a1-m33-cB_2qqp-a1-m34-cB 2qqp-a1-m33-cD_2qqp-a1-m34-cF 2qqp-a1-m34-cB_2qqp-a1-m35-cB 2qqp-a1-m34-cD_2qqp-a1-m35-cF 2qqp-a1-m35-cD_2qqp-a1-m31-cF 2qqp-a1-m36-cB_2qqp-a1-m37-cB 2qqp-a1-m36-cB_2qqp-a1-m40-cB 2qqp-a1-m36-cD_2qqp-a1-m37-cF 2qqp-a1-m37-cB_2qqp-a1-m38-cB 2qqp-a1-m37-cD_2qqp-a1-m38-cF 2qqp-a1-m38-cB_2qqp-a1-m39-cB 2qqp-a1-m38-cD_2qqp-a1-m39-cF 2qqp-a1-m39-cB_2qqp-a1-m40-cB 2qqp-a1-m39-cD_2qqp-a1-m40-cF 2qqp-a1-m3-cB_2qqp-a1-m4-cB 2qqp-a1-m3-cD_2qqp-a1-m4-cF 2qqp-a1-m40-cD_2qqp-a1-m36-cF 2qqp-a1-m41-cB_2qqp-a1-m42-cB 2qqp-a1-m41-cB_2qqp-a1-m45-cB 2qqp-a1-m41-cD_2qqp-a1-m42-cF 2qqp-a1-m42-cB_2qqp-a1-m43-cB 2qqp-a1-m42-cD_2qqp-a1-m43-cF 2qqp-a1-m43-cB_2qqp-a1-m44-cB 2qqp-a1-m43-cD_2qqp-a1-m44-cF 2qqp-a1-m44-cB_2qqp-a1-m45-cB 2qqp-a1-m44-cD_2qqp-a1-m45-cF 2qqp-a1-m45-cD_2qqp-a1-m41-cF 2qqp-a1-m46-cB_2qqp-a1-m47-cB 2qqp-a1-m46-cB_2qqp-a1-m50-cB 2qqp-a1-m46-cD_2qqp-a1-m47-cF 2qqp-a1-m47-cB_2qqp-a1-m48-cB 2qqp-a1-m47-cD_2qqp-a1-m48-cF 2qqp-a1-m48-cB_2qqp-a1-m49-cB 2qqp-a1-m48-cD_2qqp-a1-m49-cF 2qqp-a1-m49-cB_2qqp-a1-m50-cB 2qqp-a1-m49-cD_2qqp-a1-m50-cF 2qqp-a1-m4-cB_2qqp-a1-m5-cB 2qqp-a1-m4-cD_2qqp-a1-m5-cF 2qqp-a1-m50-cD_2qqp-a1-m46-cF 2qqp-a1-m51-cB_2qqp-a1-m52-cB 2qqp-a1-m51-cB_2qqp-a1-m55-cB 2qqp-a1-m51-cD_2qqp-a1-m52-cF 2qqp-a1-m52-cB_2qqp-a1-m53-cB 2qqp-a1-m52-cD_2qqp-a1-m53-cF 2qqp-a1-m53-cB_2qqp-a1-m54-cB 2qqp-a1-m53-cD_2qqp-a1-m54-cF 2qqp-a1-m54-cB_2qqp-a1-m55-cB 2qqp-a1-m54-cD_2qqp-a1-m55-cF 2qqp-a1-m55-cD_2qqp-a1-m51-cF 2qqp-a1-m56-cB_2qqp-a1-m57-cB 2qqp-a1-m56-cB_2qqp-a1-m60-cB 2qqp-a1-m56-cD_2qqp-a1-m57-cF 2qqp-a1-m57-cB_2qqp-a1-m58-cB 2qqp-a1-m57-cD_2qqp-a1-m58-cF 2qqp-a1-m58-cB_2qqp-a1-m59-cB 2qqp-a1-m58-cD_2qqp-a1-m59-cF 2qqp-a1-m59-cB_2qqp-a1-m60-cB 2qqp-a1-m59-cD_2qqp-a1-m60-cF 2qqp-a1-m5-cD_2qqp-a1-m1-cF 2qqp-a1-m60-cD_2qqp-a1-m56-cF 2qqp-a1-m6-cB_2qqp-a1-m7-cB 2qqp-a1-m6-cD_2qqp-a1-m7-cF 2qqp-a1-m7-cB_2qqp-a1-m8-cB 2qqp-a1-m7-cD_2qqp-a1-m8-cF 2qqp-a1-m8-cB_2qqp-a1-m9-cB 2qqp-a1-m9-cD_2qqp-a1-m10-cF FAGTVSALASIGLGLLGKSSATPSVIKGIAQQAVGAVQAN FAGTVSALASIGLGLLGKSSATPSVIKGIAQQAVGAVQANPGILEGAVKAIGSVGARLVGSIKARRA 2qqp-a1-m9-cC_2qqp-a1-m9-cG Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 128 1.0 213633 (Providence virus) 213633 (Providence virus) 484 518 2qqp-a1-m10-cC_2qqp-a1-m10-cG 2qqp-a1-m10-cE_2qqp-a1-m23-cG 2qqp-a1-m11-cC_2qqp-a1-m11-cG 2qqp-a1-m11-cE_2qqp-a1-m20-cG 2qqp-a1-m12-cC_2qqp-a1-m12-cG 2qqp-a1-m12-cE_2qqp-a1-m37-cG 2qqp-a1-m13-cC_2qqp-a1-m13-cG 2qqp-a1-m13-cE_2qqp-a1-m46-cG 2qqp-a1-m14-cC_2qqp-a1-m14-cG 2qqp-a1-m14-cE_2qqp-a1-m44-cG 2qqp-a1-m15-cC_2qqp-a1-m15-cG 2qqp-a1-m15-cE_2qqp-a1-m28-cG 2qqp-a1-m16-cC_2qqp-a1-m16-cG 2qqp-a1-m16-cE_2qqp-a1-m15-cG 2qqp-a1-m17-cC_2qqp-a1-m17-cG 2qqp-a1-m17-cE_2qqp-a1-m27-cG 2qqp-a1-m18-cC_2qqp-a1-m18-cG 2qqp-a1-m18-cE_2qqp-a1-m51-cG 2qqp-a1-m19-cC_2qqp-a1-m19-cG 2qqp-a1-m19-cE_2qqp-a1-m59-cG 2qqp-a1-m1-cC_2qqp-a1-m1-cG 2qqp-a1-m1-cE_2qqp-a1-m10-cG 2qqp-a1-m20-cC_2qqp-a1-m20-cG 2qqp-a1-m20-cE_2qqp-a1-m38-cG 2qqp-a1-m21-cC_2qqp-a1-m21-cG 2qqp-a1-m21-cE_2qqp-a1-m30-cG 2qqp-a1-m22-cC_2qqp-a1-m22-cG 2qqp-a1-m22-cE_2qqp-a1-m42-cG 2qqp-a1-m23-cC_2qqp-a1-m23-cG 2qqp-a1-m23-cE_2qqp-a1-m1-cG 2qqp-a1-m24-cC_2qqp-a1-m24-cG 2qqp-a1-m24-cE_2qqp-a1-m9-cG 2qqp-a1-m25-cC_2qqp-a1-m25-cG 2qqp-a1-m25-cE_2qqp-a1-m53-cG 2qqp-a1-m26-cC_2qqp-a1-m26-cG 2qqp-a1-m26-cE_2qqp-a1-m25-cG 2qqp-a1-m27-cC_2qqp-a1-m27-cG 2qqp-a1-m27-cE_2qqp-a1-m52-cG 2qqp-a1-m28-cC_2qqp-a1-m28-cG 2qqp-a1-m28-cE_2qqp-a1-m16-cG 2qqp-a1-m29-cC_2qqp-a1-m29-cG 2qqp-a1-m29-cE_2qqp-a1-m14-cG 2qqp-a1-m2-cC_2qqp-a1-m2-cG 2qqp-a1-m2-cE_2qqp-a1-m22-cG 2qqp-a1-m30-cC_2qqp-a1-m30-cG 2qqp-a1-m30-cE_2qqp-a1-m43-cG 2qqp-a1-m31-cC_2qqp-a1-m31-cG 2qqp-a1-m31-cE_2qqp-a1-m40-cG 2qqp-a1-m32-cC_2qqp-a1-m32-cG 2qqp-a1-m32-cE_2qqp-a1-m57-cG 2qqp-a1-m33-cC_2qqp-a1-m33-cG 2qqp-a1-m33-cE_2qqp-a1-m6-cG 2qqp-a1-m34-cC_2qqp-a1-m34-cG 2qqp-a1-m34-cE_2qqp-a1-m4-cG 2qqp-a1-m35-cC_2qqp-a1-m35-cG 2qqp-a1-m35-cE_2qqp-a1-m48-cG 2qqp-a1-m36-cC_2qqp-a1-m36-cG 2qqp-a1-m36-cE_2qqp-a1-m35-cG 2qqp-a1-m37-cC_2qqp-a1-m37-cG 2qqp-a1-m37-cE_2qqp-a1-m47-cG 2qqp-a1-m38-cC_2qqp-a1-m38-cG 2qqp-a1-m38-cE_2qqp-a1-m11-cG 2qqp-a1-m39-cC_2qqp-a1-m39-cG 2qqp-a1-m39-cE_2qqp-a1-m19-cG 2qqp-a1-m3-cC_2qqp-a1-m3-cG 2qqp-a1-m3-cE_2qqp-a1-m41-cG 2qqp-a1-m40-cC_2qqp-a1-m40-cG 2qqp-a1-m40-cE_2qqp-a1-m58-cG 2qqp-a1-m41-cC_2qqp-a1-m41-cG 2qqp-a1-m41-cE_2qqp-a1-m50-cG 2qqp-a1-m42-cC_2qqp-a1-m42-cG 2qqp-a1-m42-cE_2qqp-a1-m2-cG 2qqp-a1-m43-cC_2qqp-a1-m43-cG 2qqp-a1-m43-cE_2qqp-a1-m21-cG 2qqp-a1-m44-cC_2qqp-a1-m44-cG 2qqp-a1-m44-cE_2qqp-a1-m29-cG 2qqp-a1-m45-cC_2qqp-a1-m45-cG 2qqp-a1-m45-cE_2qqp-a1-m13-cG 2qqp-a1-m46-cC_2qqp-a1-m46-cG 2qqp-a1-m46-cE_2qqp-a1-m45-cG 2qqp-a1-m47-cC_2qqp-a1-m47-cG 2qqp-a1-m47-cE_2qqp-a1-m12-cG 2qqp-a1-m48-cC_2qqp-a1-m48-cG 2qqp-a1-m48-cE_2qqp-a1-m36-cG 2qqp-a1-m49-cC_2qqp-a1-m49-cG 2qqp-a1-m49-cE_2qqp-a1-m34-cG 2qqp-a1-m4-cC_2qqp-a1-m4-cG 2qqp-a1-m4-cE_2qqp-a1-m49-cG 2qqp-a1-m50-cC_2qqp-a1-m50-cG 2qqp-a1-m50-cE_2qqp-a1-m3-cG 2qqp-a1-m51-cC_2qqp-a1-m51-cG 2qqp-a1-m51-cE_2qqp-a1-m60-cG 2qqp-a1-m52-cC_2qqp-a1-m52-cG 2qqp-a1-m52-cE_2qqp-a1-m17-cG 2qqp-a1-m53-cC_2qqp-a1-m53-cG 2qqp-a1-m53-cE_2qqp-a1-m26-cG 2qqp-a1-m54-cC_2qqp-a1-m54-cG 2qqp-a1-m54-cE_2qqp-a1-m24-cG 2qqp-a1-m55-cC_2qqp-a1-m55-cG 2qqp-a1-m55-cE_2qqp-a1-m8-cG 2qqp-a1-m56-cC_2qqp-a1-m56-cG 2qqp-a1-m56-cE_2qqp-a1-m55-cG 2qqp-a1-m57-cC_2qqp-a1-m57-cG 2qqp-a1-m57-cE_2qqp-a1-m7-cG 2qqp-a1-m58-cC_2qqp-a1-m58-cG 2qqp-a1-m58-cE_2qqp-a1-m31-cG 2qqp-a1-m59-cC_2qqp-a1-m59-cG 2qqp-a1-m59-cE_2qqp-a1-m39-cG 2qqp-a1-m5-cC_2qqp-a1-m5-cG 2qqp-a1-m5-cE_2qqp-a1-m33-cG 2qqp-a1-m60-cC_2qqp-a1-m60-cG 2qqp-a1-m60-cE_2qqp-a1-m18-cG 2qqp-a1-m6-cC_2qqp-a1-m6-cG 2qqp-a1-m6-cE_2qqp-a1-m5-cG 2qqp-a1-m7-cC_2qqp-a1-m7-cG 2qqp-a1-m7-cE_2qqp-a1-m32-cG 2qqp-a1-m8-cC_2qqp-a1-m8-cG 2qqp-a1-m8-cE_2qqp-a1-m56-cG 2qqp-a1-m9-cE_2qqp-a1-m54-cG QSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN EQATILKPQLLPGESVAPSGGRGTMDPPVHEICAQSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN 2qqp-a1-m9-cE_2qqp-a1-m9-cG Crystal Structure of Authentic Providence Virus Q80IX5 Q80IX5 3.8 X-RAY DIFFRACTION 150 1.0 213633 (Providence virus) 213633 (Providence virus) 517 518 2qqp-a1-m10-cE_2qqp-a1-m10-cG 2qqp-a1-m11-cE_2qqp-a1-m11-cG 2qqp-a1-m12-cE_2qqp-a1-m12-cG 2qqp-a1-m13-cE_2qqp-a1-m13-cG 2qqp-a1-m14-cE_2qqp-a1-m14-cG 2qqp-a1-m15-cE_2qqp-a1-m15-cG 2qqp-a1-m16-cE_2qqp-a1-m16-cG 2qqp-a1-m17-cE_2qqp-a1-m17-cG 2qqp-a1-m18-cE_2qqp-a1-m18-cG 2qqp-a1-m19-cE_2qqp-a1-m19-cG 2qqp-a1-m1-cE_2qqp-a1-m1-cG 2qqp-a1-m20-cE_2qqp-a1-m20-cG 2qqp-a1-m21-cE_2qqp-a1-m21-cG 2qqp-a1-m22-cE_2qqp-a1-m22-cG 2qqp-a1-m23-cE_2qqp-a1-m23-cG 2qqp-a1-m24-cE_2qqp-a1-m24-cG 2qqp-a1-m25-cE_2qqp-a1-m25-cG 2qqp-a1-m26-cE_2qqp-a1-m26-cG 2qqp-a1-m27-cE_2qqp-a1-m27-cG 2qqp-a1-m28-cE_2qqp-a1-m28-cG 2qqp-a1-m29-cE_2qqp-a1-m29-cG 2qqp-a1-m2-cE_2qqp-a1-m2-cG 2qqp-a1-m30-cE_2qqp-a1-m30-cG 2qqp-a1-m31-cE_2qqp-a1-m31-cG 2qqp-a1-m32-cE_2qqp-a1-m32-cG 2qqp-a1-m33-cE_2qqp-a1-m33-cG 2qqp-a1-m34-cE_2qqp-a1-m34-cG 2qqp-a1-m35-cE_2qqp-a1-m35-cG 2qqp-a1-m36-cE_2qqp-a1-m36-cG 2qqp-a1-m37-cE_2qqp-a1-m37-cG 2qqp-a1-m38-cE_2qqp-a1-m38-cG 2qqp-a1-m39-cE_2qqp-a1-m39-cG 2qqp-a1-m3-cE_2qqp-a1-m3-cG 2qqp-a1-m40-cE_2qqp-a1-m40-cG 2qqp-a1-m41-cE_2qqp-a1-m41-cG 2qqp-a1-m42-cE_2qqp-a1-m42-cG 2qqp-a1-m43-cE_2qqp-a1-m43-cG 2qqp-a1-m44-cE_2qqp-a1-m44-cG 2qqp-a1-m45-cE_2qqp-a1-m45-cG 2qqp-a1-m46-cE_2qqp-a1-m46-cG 2qqp-a1-m47-cE_2qqp-a1-m47-cG 2qqp-a1-m48-cE_2qqp-a1-m48-cG 2qqp-a1-m49-cE_2qqp-a1-m49-cG 2qqp-a1-m4-cE_2qqp-a1-m4-cG 2qqp-a1-m50-cE_2qqp-a1-m50-cG 2qqp-a1-m51-cE_2qqp-a1-m51-cG 2qqp-a1-m52-cE_2qqp-a1-m52-cG 2qqp-a1-m53-cE_2qqp-a1-m53-cG 2qqp-a1-m54-cE_2qqp-a1-m54-cG 2qqp-a1-m55-cE_2qqp-a1-m55-cG 2qqp-a1-m56-cE_2qqp-a1-m56-cG 2qqp-a1-m57-cE_2qqp-a1-m57-cG 2qqp-a1-m58-cE_2qqp-a1-m58-cG 2qqp-a1-m59-cE_2qqp-a1-m59-cG 2qqp-a1-m5-cE_2qqp-a1-m5-cG 2qqp-a1-m60-cE_2qqp-a1-m60-cG 2qqp-a1-m6-cE_2qqp-a1-m6-cG 2qqp-a1-m7-cE_2qqp-a1-m7-cG 2qqp-a1-m8-cE_2qqp-a1-m8-cG QATILKPQLLPGESVAPSGGRGTMDPPVHEICAQSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN EQATILKPQLLPGESVAPSGGRGTMDPPVHEICAQSIDPSEGAVGWFYKYMDPAGAVESGKALGEFSKVPDGLLRYSVDAEQRPIVTIECPTVSESDLPLDGKLWRVSFISFPAFRLNFIALANINNEALTLETRNTFIQTLNNITNWRDLGTGQWAQFAPGWYYSIYVLPNTYAMAEIGDRTDSVTQFRKVYKGITFEFNAPTLIDQGWWVGAHIPVKPQSETIPAAERFSAGSMTVSASNAIFQPSNTVARIVWSITPLPVATVALTTGTGGTNNTSGKFFSVEIDGNVNSVWTFTAPASILAEGEPFAEEGDTTSFSMTTITADTVVYSVSSSLTGSSVIVRGVTKGSGVSITPVTVGIDTEAVNRLSIEMPALTTEEVTTNVPKYEQFLCKESGGAYIVHYKMNNPVFEMTGEENFGGFQFHYPGYDPENNALGLRGIVDTFENNFSSAVVHFWGISQSATIVCKTYDGWEGTTNAGSTVGQFAHTGAEEEDEVVQLANRLQMELTGVYQADDN 2qqy-a1-m11-cA_2qqy-a1-m9-cA Crystal structure of ferritin like, diiron-carboxylate proteins from Bacillus anthracis str. Ames Q9K5J5 Q9K5J5 2 X-RAY DIFFRACTION 60 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 133 133 2qqy-a1-m10-cA_2qqy-a1-m12-cA 2qqy-a1-m1-cA_2qqy-a1-m3-cA 2qqy-a1-m2-cA_2qqy-a1-m4-cA 2qqy-a1-m5-cA_2qqy-a1-m7-cA 2qqy-a1-m6-cA_2qqy-a1-m8-cA SHDVKELIEGLNEDLAGEYSAIIYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLRVKQAEDVRELEYARQSEYETIKRYEKRKEQAANLNTELVVKLEDIADETNHEELDRLLN SHDVKELIEGLNEDLAGEYSAIIYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLRVKQAEDVRELEYARQSEYETIKRYEKRKEQAANLNTELVVKLEDIADETNHEELDRLLN 2qqy-a1-m5-cA_2qqy-a1-m9-cA Crystal structure of ferritin like, diiron-carboxylate proteins from Bacillus anthracis str. Ames Q9K5J5 Q9K5J5 2 X-RAY DIFFRACTION 19 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 133 133 2qqy-a1-m10-cA_2qqy-a1-m3-cA 2qqy-a1-m10-cA_2qqy-a1-m8-cA 2qqy-a1-m11-cA_2qqy-a1-m4-cA 2qqy-a1-m11-cA_2qqy-a1-m6-cA 2qqy-a1-m12-cA_2qqy-a1-m2-cA 2qqy-a1-m12-cA_2qqy-a1-m7-cA 2qqy-a1-m1-cA_2qqy-a1-m5-cA 2qqy-a1-m1-cA_2qqy-a1-m9-cA 2qqy-a1-m2-cA_2qqy-a1-m7-cA 2qqy-a1-m3-cA_2qqy-a1-m8-cA 2qqy-a1-m4-cA_2qqy-a1-m6-cA SHDVKELIEGLNEDLAGEYSAIIYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLRVKQAEDVRELEYARQSEYETIKRYEKRKEQAANLNTELVVKLEDIADETNHEELDRLLN SHDVKELIEGLNEDLAGEYSAIIYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLRVKQAEDVRELEYARQSEYETIKRYEKRKEQAANLNTELVVKLEDIADETNHEELDRLLN 2qqy-a1-m7-cA_2qqy-a1-m9-cA Crystal structure of ferritin like, diiron-carboxylate proteins from Bacillus anthracis str. Ames Q9K5J5 Q9K5J5 2 X-RAY DIFFRACTION 22 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 133 133 2qqy-a1-m10-cA_2qqy-a1-m2-cA 2qqy-a1-m10-cA_2qqy-a1-m6-cA 2qqy-a1-m11-cA_2qqy-a1-m8-cA 2qqy-a1-m12-cA_2qqy-a1-m3-cA 2qqy-a1-m12-cA_2qqy-a1-m5-cA 2qqy-a1-m1-cA_2qqy-a1-m11-cA 2qqy-a1-m1-cA_2qqy-a1-m8-cA 2qqy-a1-m2-cA_2qqy-a1-m6-cA 2qqy-a1-m3-cA_2qqy-a1-m5-cA 2qqy-a1-m4-cA_2qqy-a1-m7-cA 2qqy-a1-m4-cA_2qqy-a1-m9-cA SHDVKELIEGLNEDLAGEYSAIIYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLRVKQAEDVRELEYARQSEYETIKRYEKRKEQAANLNTELVVKLEDIADETNHEELDRLLN SHDVKELIEGLNEDLAGEYSAIIYNHNAATVSGIYRQVLKPFFESEISDEQGHALYLAEKIKTLGGTPTTIPLRVKQAEDVRELEYARQSEYETIKRYEKRKEQAANLNTELVVKLEDIADETNHEELDRLLN 2qqz-a1-m1-cB_2qqz-a1-m1-cA Crystal structure of putative glyoxalase family protein from Bacillus anthracis A0A6L7H199 A0A6L7H199 1.92 X-RAY DIFFRACTION 145 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 119 120 RNYIQGIDHVQVAAPVGCEEEARAFYGETIGEEIPKPEELKKRGGCWFKCGNQEIHIGVEQNFNPAKRAHPAFYVLKIDEFKQELIKQGIEVIDDHARPDVIRFYVSDPFGNRIEFENK RNYIQGIDHVQVAAPVGCEEEARAFYGETIGEEIPKPEELKKRGGCWFKCGNQEIHIGVEQNFNPAKRAHPAFYVLKIDEFKQELIKQGIEVIDDHARPDVIRFYVSDPFGNRIEFENKN 2qr4-a1-m1-cB_2qr4-a1-m1-cA Crystal structure of oligoendopeptidase-F from Enterococcus faecium 2.5 X-RAY DIFFRACTION 130 1.0 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 496 511 LSDQEFDEKYLELSEELKQSEKHKGTLDQGASQFLNAIEFVLRVYRQTEVIYVYAHLKNDQDTGNTDYQALYARASSLFSKVSEAVSWFEPEILQLSDDQIWQYFKEEPKLEVYRHYIQQIVDNRAHVLSAEQESLLAGAGEIFDASSDTFAVLNNADLVFPTIEGENGEIVQLSHGVYGQLLESTDRRVREAAFKGLYSVYEQFRNTFASTLGTHIKGHNFKAKVRNYSSAREASLSNNHIPESVYDTLVDVVNKHLPLLHRYELRKRLLEVEKLHYDLYTPVLGKEKALEALKPGEEYALDQLFTLVHEGHSVHSYIFLAEIASTTNENILTEYLLETEKDPRVRAYVLNHYLDGFKGTVFRQTQFAEFEHFHTEDEKGVPLTSEYLSDSYGKLNAKYYGPAVEEDPEIKFEWSRIPHFYYNYYVFQYSTGFSAASALAKKILNQEPEALENYLAYLKSDYPVEVKKAGVDTQAAYIEDASFEQRLNELEELID LSDQEFDEKYLELSEELKQSEKHKGTLDQGASQFLNAIEFVLRVYRQTEVIYVYAHLKNDQDTGNTDYQALYARASSLFSKVSEAVSWFEPEILQLSDDQIWQYFKEEPKLEVYRHYIQQIVDNRAHVLSAEQESLLAGAGEIFDASSDTFAVLNNADLVFPTIEGENGEIVQLSHGVYGQLLESTDRRVREAAFKGLYSVYEQFRNTFASTLGTHIKGHNFKAKVRNYSSAREASLSNNHIPESVYDTLVDVVNKHLPLLHRYELRKRLLEVEKLHYDLYTPVLGEAPIEAKEKALEALKPGEEYAITLDQLFTLVHEGHSVHSYFTIFLAEIASTTNENILTEYLLETEKDPRVRAYVLNHYLDGFKGTVFRQTQFAEFEHFHTEDEKGVPLTSEYLSDSYGKLNAKYYGPAVEEDPEIKFEWSRIPHFYYNYYVFQYSTGFSAASALAKKILNQEPEALENYLAYLKAGNSDYPVEVKKAGVDTQAAYIEDASFEQRLNELEELIDRE 2qr6-a1-m2-cA_2qr6-a1-m4-cA Crystal structure of IMP dehydrogenase/GMP reductase-like protein (NP_599840.1) from Corynebacterium glutamicum ATCC 13032 Kitasato at 1.50 A resolution Q8NSR4 Q8NSR4 1.5 X-RAY DIFFRACTION 156 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 363 363 2qr6-a1-m1-cA_2qr6-a1-m3-cA 2qr6-a1-m1-cA_2qr6-a1-m4-cA 2qr6-a1-m2-cA_2qr6-a1-m3-cA NLYFQGRDHVEIGIGREARRTYSLDDISVVSSRRTRSSKDVDTTWHIDAYKFDLPFNHPSDALASPEFVIEGKQGGLGVINAEGLWGRHADLDEAIAKVIAAYEEGDQAAATRTLQELHAAPLDTELLSERIAQVRDSGEIVAVRVSPQNVREIAPIVIKAGADLLVIQGTLISAEHVNTNLKEFIGSLDVPVIAGGVNDYTTALHRTGAVGIIVGGGENTNSLALGEVSATAIADVAAARRDYLDETGGRYVHIIADGSIENSGDVVKAIACGADAVVLGSPLARAEEAAGKGYFWPAVAAHPRFPRGVVTESVAAPSLEQILHGPSTPWGVENFEGGLKRALAKCGYTDLKSFQKVSLHVN NLYFQGRDHVEIGIGREARRTYSLDDISVVSSRRTRSSKDVDTTWHIDAYKFDLPFNHPSDALASPEFVIEGKQGGLGVINAEGLWGRHADLDEAIAKVIAAYEEGDQAAATRTLQELHAAPLDTELLSERIAQVRDSGEIVAVRVSPQNVREIAPIVIKAGADLLVIQGTLISAEHVNTNLKEFIGSLDVPVIAGGVNDYTTALHRTGAVGIIVGGGENTNSLALGEVSATAIADVAAARRDYLDETGGRYVHIIADGSIENSGDVVKAIACGADAVVLGSPLARAEEAAGKGYFWPAVAAHPRFPRGVVTESVAAPSLEQILHGPSTPWGVENFEGGLKRALAKCGYTDLKSFQKVSLHVN 2qrr-a1-m1-cA_2qrr-a1-m1-cB Crystal structure of the soluble domain of the ABC transporter, ATP-binding protein from Vibrio parahaemolyticus Q87RS1 Q87RS1 1.71 X-RAY DIFFRACTION 71 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 93 94 SIPEDYQARLQPNRVEGSYPLVREFTGATVDAPLSQISRKYNIDVSILSSDLDYAGGVKFGVAELFGNEQDDSAAIEYLRENNVKVEVLGYVL LSIPEDYQARLQPNRVEGSYPLVREFTGATVDAPLSQISRKYNIDVSILSSDLDYAGGVKFGVAELFGNEQDDSAAIEYLRENNVKVEVLGYVL 2qrw-a7-m1-cB_2qrw-a7-m1-cH Crystal structure of Mycobacterium tuberculosis trHbO WG8F mutant P9WN23 P9WN23 1.93 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 127 127 1ngk-a1-m1-cA_1ngk-a1-m1-cG 1ngk-a1-m1-cB_1ngk-a1-m1-cH 1ngk-a1-m1-cC_1ngk-a1-m1-cI 1ngk-a1-m1-cD_1ngk-a1-m1-cL 1ngk-a1-m1-cE_1ngk-a1-m1-cJ 1ngk-a1-m1-cF_1ngk-a1-m1-cK 2qrw-a1-m1-cB_2qrw-a1-m1-cH 2qrw-a2-m1-cA_2qrw-a2-m1-cG 2qrw-a3-m1-cC_2qrw-a3-m1-cI 2qrw-a4-m1-cD_2qrw-a4-m1-cL 2qrw-a5-m1-cE_2qrw-a5-m1-cJ 2qrw-a6-m1-cF_2qrw-a6-m1-cK 2qrw-a7-m1-cE_2qrw-a7-m1-cJ 2qrw-a8-m1-cA_2qrw-a8-m1-cG 2qrw-a8-m1-cD_2qrw-a8-m1-cL 2qrw-a9-m1-cC_2qrw-a9-m1-cI 2qrw-a9-m1-cF_2qrw-a9-m1-cK PKSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAFLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF PKSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAFLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF 2qrw-a8-m1-cA_2qrw-a8-m1-cL Crystal structure of Mycobacterium tuberculosis trHbO WG8F mutant P9WN23 P9WN23 1.93 X-RAY DIFFRACTION 17 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 126 126 1ngk-a1-m1-cA_1ngk-a1-m1-cL 1ngk-a1-m1-cB_1ngk-a1-m1-cJ 1ngk-a1-m1-cC_1ngk-a1-m1-cK 1ngk-a1-m1-cD_1ngk-a1-m1-cG 1ngk-a1-m1-cE_1ngk-a1-m1-cH 1ngk-a1-m1-cF_1ngk-a1-m1-cI 2qrw-a7-m1-cE_2qrw-a7-m1-cH 2qrw-a7-m1-cJ_2qrw-a7-m1-cB 2qrw-a8-m1-cD_2qrw-a8-m1-cG 2qrw-a9-m1-cC_2qrw-a9-m1-cK 2qrw-a9-m1-cF_2qrw-a9-m1-cI KSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAFLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF KSFYDAVGGAKTFDAIVSRFYAQVAEDEVLRRVYPEDDLAGAEERLRMFLEQYWGGPRTYSEQRGHPRLRMRHAPFRISLIERDAFLRCMHTAVASIDSETLDDEHRRELLDYLEMAAHSLVNSPF 2qrx-a1-m1-cA_2qrx-a1-m4-cA Crystal structure of Drosophila melanogaster Translin protein Q7JVK6 Q7JVK6 3.6 X-RAY DIFFRACTION 44 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 185 185 2qrx-a1-m2-cA_2qrx-a1-m3-cA 2qva-a1-m1-cA_2qva-a1-m1-cD 2qva-a1-m2-cA_2qva-a1-m2-cD 2qva-a2-m1-cB_2qva-a2-m3-cB 2qva-a2-m1-cC_2qva-a2-m3-cC NFVNLDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAEMLGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTMGDYERSLNISHFIGDLNTGFRLLNL NFVNLDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAEMLGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTMGDYERSLNISHFIGDLNTGFRLLNL 2qs7-a2-m2-cD_2qs7-a2-m3-cD CRYSTAL STRUCTURE OF a putative oxidoreductase of the DsrE/DsrF-like family (SSO1126) FROM SULFOLOBUS SOLFATARICUS P2 AT 2.09 A RESOLUTION Q97Z17 Q97Z17 2.09 X-RAY DIFFRACTION 55 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 130 130 2qs7-a1-m1-cA_2qs7-a1-m1-cB 2qs7-a1-m1-cA_2qs7-a1-m1-cC 2qs7-a1-m1-cB_2qs7-a1-m1-cC 2qs7-a2-m1-cD_2qs7-a2-m2-cD 2qs7-a2-m1-cD_2qs7-a2-m3-cD KKKLSIIVFSGTIDKLPVGILTSGAAASGYEVNLFFTFWGLQAITKRSLNSQQPPQIDKNYEQGPIQKQEKYPWHQLVQQAKEIGEVKVFACSTTEFFGIKREDLAEFVDDVVGVATFLDRAEGGTTLFI KKKLSIIVFSGTIDKLPVGILTSGAAASGYEVNLFFTFWGLQAITKRSLNSQQPPQIDKNYEQGPIQKQEKYPWHQLVQQAKEIGEVKVFACSTTEFFGIKREDLAEFVDDVVGVATFLDRAEGGTTLFI 2qs8-a3-m2-cB_2qs8-a3-m4-cB Crystal structure of a Xaa-Pro dipeptidase with bound methionine in the active site K7N5L1 K7N5L1 2.33 X-RAY DIFFRACTION 46 1.0 28108 (Alteromonas macleodii) 28108 (Alteromonas macleodii) 393 393 2qs8-a1-m1-cA_2qs8-a1-m3-cA 2qs8-a1-m1-cA_2qs8-a1-m4-cA 2qs8-a1-m2-cA_2qs8-a1-m3-cA 2qs8-a1-m2-cA_2qs8-a1-m4-cA 2qs8-a2-m1-cB_2qs8-a2-m3-cB 2qs8-a2-m1-cB_2qs8-a2-m4-cB 2qs8-a2-m2-cB_2qs8-a2-m3-cB 2qs8-a2-m2-cB_2qs8-a2-m4-cB 2qs8-a3-m1-cA_2qs8-a3-m3-cA 2qs8-a3-m1-cA_2qs8-a3-m4-cA 2qs8-a3-m1-cB_2qs8-a3-m3-cB 2qs8-a3-m1-cB_2qs8-a3-m4-cB 2qs8-a3-m2-cA_2qs8-a3-m3-cA 2qs8-a3-m2-cA_2qs8-a3-m4-cA 2qs8-a3-m2-cB_2qs8-a3-m3-cB DSKTLIHAGKLIDGKSDQVQSRISIVIDGNIISDIKKGFISSNDFEDYIDLRDHTVLPGLDHVHFGQEYQSKAQAPIKVEREQAILATQHAYVTFKSGFTTVRQVGDSGLVAISLRDAINSGKLAGPRIFAAGKTIATTGGHADPTNGKAVDDYDYPVPEQGVVNGPYEVYAAVRQRYKDGADGIKITVTGGVLSVAKSGQNPQFTQEEVDAVVSAAKDYGWVAVHAHGAEGKRAIKAGVDSIEHGTFDLEADLIENGTYYVPTISAGEFVAEKSKIDNFFPEIVRPKAASVGPQISDTFRKAYEKGVKIAFGTDAGVQKHGTNWKEFVYVENGPAKAIQSATETAKLLRIEDKLGSIESGKLADLIAVKGNPIEDISVLENVDVVIKDGLLY DSKTLIHAGKLIDGKSDQVQSRISIVIDGNIISDIKKGFISSNDFEDYIDLRDHTVLPGLDHVHFGQEYQSKAQAPIKVEREQAILATQHAYVTFKSGFTTVRQVGDSGLVAISLRDAINSGKLAGPRIFAAGKTIATTGGHADPTNGKAVDDYDYPVPEQGVVNGPYEVYAAVRQRYKDGADGIKITVTGGVLSVAKSGQNPQFTQEEVDAVVSAAKDYGWVAVHAHGAEGKRAIKAGVDSIEHGTFDLEADLIENGTYYVPTISAGEFVAEKSKIDNFFPEIVRPKAASVGPQISDTFRKAYEKGVKIAFGTDAGVQKHGTNWKEFVYVENGPAKAIQSATETAKLLRIEDKLGSIESGKLADLIAVKGNPIEDISVLENVDVVIKDGLLY 2qs8-a3-m4-cB_2qs8-a3-m2-cA Crystal structure of a Xaa-Pro dipeptidase with bound methionine in the active site K7N5L1 K7N5L1 2.33 X-RAY DIFFRACTION 49 0.997 28108 (Alteromonas macleodii) 28108 (Alteromonas macleodii) 393 394 2qs8-a3-m1-cB_2qs8-a3-m4-cA 2qs8-a3-m2-cB_2qs8-a3-m3-cA 2qs8-a3-m3-cB_2qs8-a3-m1-cA DSKTLIHAGKLIDGKSDQVQSRISIVIDGNIISDIKKGFISSNDFEDYIDLRDHTVLPGLDHVHFGQEYQSKAQAPIKVEREQAILATQHAYVTFKSGFTTVRQVGDSGLVAISLRDAINSGKLAGPRIFAAGKTIATTGGHADPTNGKAVDDYDYPVPEQGVVNGPYEVYAAVRQRYKDGADGIKITVTGGVLSVAKSGQNPQFTQEEVDAVVSAAKDYGWVAVHAHGAEGKRAIKAGVDSIEHGTFDLEADLIENGTYYVPTISAGEFVAEKSKIDNFFPEIVRPKAASVGPQISDTFRKAYEKGVKIAFGTDAGVQKHGTNWKEFVYVENGPAKAIQSATETAKLLRIEDKLGSIESGKLADLIAVKGNPIEDISVLENVDVVIKDGLLY SKTLIHAGKLIDGKSDQVQSRISIVIDGNIISDIKKGFISSNDFEDYIDLRDHTVLPGLDHVHFGQEYQSKAQAPIKVEREQAILATQHAYVTFKSGFTTVRQVGDSGLVAISLRDAINSGKLAGPRIFAAGKTIATTGGHADPTNGKAVDDYDYPVPEQGVVNGPYEVYAAVRQRYKDGADGIKITVTGGVLSVAKSGQNPQFTQEEVDAVVSAAKDYGWVAVHAHGAEGKRAIKAGVDSIEHGTFDLEADLIENGTYYVPTISAGEFVAEKSKIDNFFPEIVRPKAASVGPQISDTFRKAYEKGVKIAFGTDAGVQKHGTNWKEFVYVENGPAKAIQSATETAKLLRIEDKLGSIESGKLADLIAVKGNPIEDISVLENVDVVIKDGLLYEG 2qs8-a4-m1-cB_2qs8-a4-m1-cA Crystal structure of a Xaa-Pro dipeptidase with bound methionine in the active site K7N5L1 K7N5L1 2.33 X-RAY DIFFRACTION 56 0.997 28108 (Alteromonas macleodii) 28108 (Alteromonas macleodii) 393 394 2qs8-a3-m1-cB_2qs8-a3-m1-cA 2qs8-a3-m2-cB_2qs8-a3-m2-cA 2qs8-a3-m3-cB_2qs8-a3-m3-cA 2qs8-a3-m4-cB_2qs8-a3-m4-cA DSKTLIHAGKLIDGKSDQVQSRISIVIDGNIISDIKKGFISSNDFEDYIDLRDHTVLPGLDHVHFGQEYQSKAQAPIKVEREQAILATQHAYVTFKSGFTTVRQVGDSGLVAISLRDAINSGKLAGPRIFAAGKTIATTGGHADPTNGKAVDDYDYPVPEQGVVNGPYEVYAAVRQRYKDGADGIKITVTGGVLSVAKSGQNPQFTQEEVDAVVSAAKDYGWVAVHAHGAEGKRAIKAGVDSIEHGTFDLEADLIENGTYYVPTISAGEFVAEKSKIDNFFPEIVRPKAASVGPQISDTFRKAYEKGVKIAFGTDAGVQKHGTNWKEFVYVENGPAKAIQSATETAKLLRIEDKLGSIESGKLADLIAVKGNPIEDISVLENVDVVIKDGLLY SKTLIHAGKLIDGKSDQVQSRISIVIDGNIISDIKKGFISSNDFEDYIDLRDHTVLPGLDHVHFGQEYQSKAQAPIKVEREQAILATQHAYVTFKSGFTTVRQVGDSGLVAISLRDAINSGKLAGPRIFAAGKTIATTGGHADPTNGKAVDDYDYPVPEQGVVNGPYEVYAAVRQRYKDGADGIKITVTGGVLSVAKSGQNPQFTQEEVDAVVSAAKDYGWVAVHAHGAEGKRAIKAGVDSIEHGTFDLEADLIENGTYYVPTISAGEFVAEKSKIDNFFPEIVRPKAASVGPQISDTFRKAYEKGVKIAFGTDAGVQKHGTNWKEFVYVENGPAKAIQSATETAKLLRIEDKLGSIESGKLADLIAVKGNPIEDISVLENVDVVIKDGLLYEG 2qsd-a4-m1-cF_2qsd-a4-m1-cH Crystal structure of a protein Il1583 from Idiomarina loihiensis Q5QU98 Q5QU98 2.5 X-RAY DIFFRACTION 54 1.0 135577 (Idiomarina loihiensis) 135577 (Idiomarina loihiensis) 145 146 2qsd-a1-m1-cB_2qsd-a1-m1-cA 2qsd-a2-m1-cG_2qsd-a2-m1-cC 2qsd-a3-m1-cD_2qsd-a3-m1-cE DNKLFLVYVGGTAPGANIELHDIRFVVGPSEETYPAIRKGWFGTQKGLHLDSFVHLHHVDGYRIHLTSEAPEEKRLYFVNFGYHDFTVVVADSPQSAKQLARAQFSVDDCLCVDLVDNHYVTLEFDGEQQPLVPDWKGYQPLPEG DNKLFLVYVGGTAPGANIELHDIRFVVGPSEETYPAIRKGWFGTQKGLHLDSFVHLHHVDGYRIHLTSEAPEEKRLYFVNFGEYHDFTVVVADSPQSAKQLARAQFSVDDCLCVDLVDNHYVTLEFDGEQQPLVPDWKGYQPLPEG 2qsi-a1-m1-cA_2qsi-a1-m1-cB Crystal structure of putative hydrogenase expression/formation protein hupG from Rhodopseudomonas palustris CGA009 Q6NB62 Q6NB62 1.8 X-RAY DIFFRACTION 138 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 110 110 PTLVDEATVDDFIAHSGKIVVLFFRGDAVRFPEAADLAVVLPELINAFPGRLVAAEVAAEAERGLARFGVAVCPSLAVVQPERTLGVIAKIQDWSSYLAQIGALAEVDQP PTLVDEATVDDFIAHSGKIVVLFFRGDAVRFPEAADLAVVLPELINAFPGRLVAAEVAAEAERGLARFGVAVCPSLAVVQPERTLGVIAKIQDWSSYLAQIGALAEVDQP 2qsj-a1-m1-cA_2qsj-a1-m1-cB Crystal structure of a LuxR family DNA-binding response regulator from Silicibacter pomeroyi Q5LQW4 Q5LQW4 2.1 X-RAY DIFFRACTION 41 0.992 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 120 122 LTVVLIVDDHHLIRAGAKNLLEGAFSGMRVEGAETVSDALAFLEADNTVDLILLDVAIDGLVRLKRFDPSNAVALIHELIRAALEAGADGFIPKSADPQVLIHAVSLILEGEIFLPRSYL LTVVLIVDDHHLIRAGAKNLLEGAFSGMRVEGAETVSDALAFLEADNTVDLILLDVAIDGLVRLKRFDPSNAVALISGEHELIRAALEAGADGFIPKSADPQVLIHAVSLILEGEIFLPRSY 2qsq-a1-m1-cB_2qsq-a1-m1-cA Crystal structure of the N-terminal domain of carcinoembryonic antigen (CEA) P06731 P06731 1.95 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 111 2qst-a1-m1-cA_2qst-a1-m2-cA 2qst-a2-m1-cB_2qst-a2-m3-cB AKLTIESTPFNVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNRQIIGYVIGTQQATPGPAYSGREIIYPNASLLIQNIIQNDAGFYTLHVIKSDLVNEEATGQFRVYP AKLTIESTPFNVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNRQIIGYVIGTQQATPGPAYSGREIIYPNASLLIQNIIQNDAGFYTLHVIKSDLVNEEATGQFRVYPEL 2qsw-a1-m1-cA_2qsw-a1-m2-cA Crystal structure of C-terminal domain of ABC transporter / ATP-binding protein from Enterococcus faecalis Q831K6 Q831K6 1.5 X-RAY DIFFRACTION 37 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 89 89 LVVEELEQYPNGKIVRLLFHGEQAKLPIISHIVQEYQVEVSIIQGNIQQTKQGAVGSLYIQLLGEEQNILAAIEGLRKLRVETEVIGNE LVVEELEQYPNGKIVRLLFHGEQAKLPIISHIVQEYQVEVSIIQGNIQQTKQGAVGSLYIQLLGEEQNILAAIEGLRKLRVETEVIGNE 2qsx-a1-m1-cA_2qsx-a1-m1-cB Crystal structure of putative transcriptional regulator LysR From Vibrio parahaemolyticus Q87RY9 Q87RY9 1.64 X-RAY DIFFRACTION 73 0.994 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 178 183 ELLVVDVTPSFASLWLVPNINDFHQRHPNIRVKILTGDGAVESDLHVRCLPLSTHYEYSQLLCEETLLLIGNTNLPISHYPFIPQTTRPQLWEQFKQENITYHSVGFEHFYLACEAVREKGLALLPDFAQFSILRGDIQHIGNLKLHSGYGYYVVIPNFRLTSRKVALFHDWLKDKLT LLVVDVTPSFASLWLVPNINDFHQRHPNIRVKILTGDGAVGESDLHVRCLPLSTHYEYSQLLCEETLLLIGNTNLPKNQAISHYPFIPQTTRPQLWEQFKQENDITYHSVGFEHFYLACEAVREKGLALLPDFAQFSILRGDIQHIGNLKLHSGYGYYVVIPNFRLTSRKVALFHDWLKDKLT 2qt3-a3-m1-cB_2qt3-a3-m2-cB Crystal structure of N-Isopropylammelide isopropylaminohydrolase AtzC from Pseudomonas sp. strain ADP complexed with Zn O52063 O52063 2.24 X-RAY DIFFRACTION 44 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 401 401 2qt3-a3-m1-cA_2qt3-a3-m2-cA KDFDLIIRNAYLSEKDSVYDIGIVGDRIIKIEAKIEGTVKDEIDAKGNLVSPGFVDAHTHMDKSFTSTGERLPKFWSRPYTRDAAIEDGLKYYKNATHEEIKRHVIEHAHMQVLHGTLYTRTHVDVDSVAKTKAVEAVLEAKEELKDLIDIQVVAFAQSGFFVDLESESLIRKSLDMGCDLVGGVDPATRENNVEGSLDLCFKLAKEYDVDIDYHIHDIGTVGVYSINRLAQKTIENGYKGRVTTSHAWCFADAPSEWLDEAIPLYKDSGMKFVTCFSSTPPTMPVIKLLEAGINLGCASDNIRDFWVPFGNGDMVQGALIETQRLELKTNRDLGLIWKMITSEGARVLGIEKNYGIEVGKKADLVVLNSLSPQWAIIDQAKRLCVIKNGRIIVKDEVIVA KDFDLIIRNAYLSEKDSVYDIGIVGDRIIKIEAKIEGTVKDEIDAKGNLVSPGFVDAHTHMDKSFTSTGERLPKFWSRPYTRDAAIEDGLKYYKNATHEEIKRHVIEHAHMQVLHGTLYTRTHVDVDSVAKTKAVEAVLEAKEELKDLIDIQVVAFAQSGFFVDLESESLIRKSLDMGCDLVGGVDPATRENNVEGSLDLCFKLAKEYDVDIDYHIHDIGTVGVYSINRLAQKTIENGYKGRVTTSHAWCFADAPSEWLDEAIPLYKDSGMKFVTCFSSTPPTMPVIKLLEAGINLGCASDNIRDFWVPFGNGDMVQGALIETQRLELKTNRDLGLIWKMITSEGARVLGIEKNYGIEVGKKADLVVLNSLSPQWAIIDQAKRLCVIKNGRIIVKDEVIVA 2qt8-a1-m1-cA_2qt8-a1-m1-cB Coproporphyrinogen III oxidase from Leishmania major P84155 P84155 1.75 X-RAY DIFFRACTION 83 1.0 5664 (Leishmania major) 5664 (Leishmania major) 297 299 3dwr-a1-m1-cB_3dwr-a1-m1-cA 3dws-a1-m1-cA_3dws-a1-m1-cB 3ejo-a1-m1-cB_3ejo-a1-m1-cA HSLAVEAVKDFLLKLQDDICEALEAEDGQATFVEDKWTREGGGGGRTRVVDGAVIEKGGVNFSHVYGKGLPSSTERHPDIAGCNFEAGVSLVIHPKNPHVPTSHANVRLFVAEREGKEPVWWFGGGFDLTPYYAVEEDCRDFHQVAQDLCKPFGADVYARFKGWCDEYFFIPYRNEARGIGGLFFDDLNEWPFEKCFEFVQAVGKGYDAYIPIVNRRKNTPYTEQQVEFQEFRRGRYAEFNLVIDRGTKFGLQSGGRTESILISLPPRARWGYNWQPEPGTPEARLTEYFLTKRQWV HHHSLAVEAVKDFLLKLQDDICEALEAEDGQATFVEDKWTREGGGGGRTRVVDGAVIEKGGVNFSHVYGKGLPSSTERHPDIAGCNFEAGVSLVIHPKNPHVPTSHANVRLFVAEREGKEPVWWFGGGFDLTPYYAVEEDCRDFHQVAQDLCKPFGADVYARFKGWCDEYFFIPYRNEARGIGGLFFDDLNEWPFEKCFEFVQAVGKGYDAYIPIVNRRKNTPYTEQQVEFQEFRRGRYAEFNLVIDRGTKFGLQSGGRTESILISLPPRARWGYNWQPEPGTPEARLTEYFLTKRQWV 2qte-a1-m1-cA_2qte-a1-m1-cB Crystal Structure of Novel Immune-Type Receptor 11 Extracellular Fragment Mutant N30D Q8UWK4 Q8UWK4 1.9 X-RAY DIFFRACTION 76 1.0 7998 (Ictalurus punctatus) 7998 (Ictalurus punctatus) 109 109 2qhl-a1-m1-cB_2qhl-a1-m2-cB 2qhl-a2-m1-cD_2qhl-a2-m1-cA 2qhl-a3-m1-cE_2qhl-a3-m1-cC 2qjd-a1-m1-cA_2qjd-a1-m1-cB 2qqq-a1-m1-cA_2qqq-a1-m1-cB 2qqq-a2-m1-cC_2qqq-a2-m1-cD 2qte-a2-m1-cC_2qte-a2-m1-cD 3b5t-a1-m1-cB_3b5t-a1-m1-cE 3b5t-a2-m1-cC_3b5t-a2-m1-cD 3b5t-a3-m1-cA_3b5t-a3-m2-cA 3bdb-a1-m1-cA_3bdb-a1-m1-cB 3bdb-a2-m1-cC_3bdb-a2-m1-cD 3bdb-a3-m1-cE_3bdb-a3-m1-cF IKELHVKTVKRGENVTMECSMSKVTNKDNLAWYRQSFGKVPQYFVRYYSSNSGYKFAEGFKDSRFSMTVNDQKFDLNIIGAREDDGGEYFCGEVEGIIIKFTSGTRLQF IKELHVKTVKRGENVTMECSMSKVTNKDNLAWYRQSFGKVPQYFVRYYSSNSGYKFAEGFKDSRFSMTVNDQKFDLNIIGAREDDGGEYFCGEVEGIIIKFTSGTRLQF 2qti-a1-m1-cA_2qti-a1-m2-cA Crystal structure of the UPF0352 protein SO_2176 from Shewanella oneidensis. NESG target SoR77. Q8EF26 Q8EF26 2.3 X-RAY DIFFRACTION 142 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 66 66 2juw-a1-m1-cA_2juw-a1-m1-cB SNTQVESLIAEILVVLEKHKAPTDLSLALGNCVTHLLERKVPSESRQAVAEQFAKALAQSVKSNLE SNTQVESLIAEILVVLEKHKAPTDLSLALGNCVTHLLERKVPSESRQAVAEQFAKALAQSVKSNLE 2qtp-a2-m1-cA_2qtp-a2-m2-cA Crystal structure of a duf1185 family protein (spo0826) from silicibacter pomeroyi dss-3 at 2.10 A resolution Q5LV76 Q5LV76 2.1 X-RAY DIFFRACTION 48 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 143 143 KIRKIAVFIEETRIEAGREISPPTRKAVAVAVIENPFAGRYVEDLTELDTGAELGALLGERCVQALGIRPEQAESYGKSAVGENGELEHAAAILHPKLLVPSSKKGSPGQVLDVPLGHFDGIEVRLNDAPRANEIVAVAVTDS KIRKIAVFIEETRIEAGREISPPTRKAVAVAVIENPFAGRYVEDLTELDTGAELGALLGERCVQALGIRPEQAESYGKSAVGENGELEHAAAILHPKLLVPSSKKGSPGQVLDVPLGHFDGIEVRLNDAPRANEIVAVAVTDS 2qtq-a2-m1-cC_2qtq-a2-m1-cD Crystal structure of a predicted dna-binding transcriptional regulator (saro_1072) from novosphingobium aromaticivorans dsm at 1.85 A resolution Q2G9F6 Q2G9F6 1.85 X-RAY DIFFRACTION 111 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 192 193 2qtq-a1-m1-cB_2qtq-a1-m1-cA 2rha-a1-m1-cA_2rha-a1-m2-cA GARDLLLQTASNIREGDVVDISLSELSLRSGLNSALVKYYFGNKAGLLKALLDRDENIVKSVDALLAKDDSPEAKLRRHISKCIDTYYDYPYLNRLLRLVRDSDEAEAKRIADQYLLPLHRAYNRFIGEGVKAGVFRPINPQLFYFTVTGAADRFFSARLVLKHCFDQDTLTEQLRDSYREHTVDFIAGILA GARDLLLQTASNIREGDVVDISLSELSLRSGLNSALVKYYFGNKAGLLKALLDRDENIVKSVDALLAKDDSPEAKLRRHISKCIDTYYDYPYLNRLLRLVRDSDEAEAKRIADQYLLPLHRAYNRFIGEGVKAGVFRPINPQLFYFTVTGAADRFFSARLVLKHCFDQDTLTEQLRDSYREHTVDFIAGILAH 2qu4-a1-m7-cA_2qu4-a1-m9-cA Model for Bacterial ParM Filament P11904 P11904 16.0 ELECTRON MICROSCOPY 228 1.0 562 (Escherichia coli) 562 (Escherichia coli) 320 320 2qu4-a1-m10-cA_2qu4-a1-m8-cA 2qu4-a1-m1-cA_2qu4-a1-m4-cA 2qu4-a1-m1-cA_2qu4-a1-m8-cA 2qu4-a1-m2-cA_2qu4-a1-m4-cA 2qu4-a1-m3-cA_2qu4-a1-m5-cA 2qu4-a1-m5-cA_2qu4-a1-m7-cA MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN 2qu4-a1-m8-cA_2qu4-a1-m9-cA Model for Bacterial ParM Filament P11904 P11904 16.0 ELECTRON MICROSCOPY 86 1.0 562 (Escherichia coli) 562 (Escherichia coli) 320 320 2qu4-a1-m10-cA_2qu4-a1-m9-cA 2qu4-a1-m1-cA_2qu4-a1-m5-cA 2qu4-a1-m1-cA_2qu4-a1-m7-cA 2qu4-a1-m2-cA_2qu4-a1-m3-cA 2qu4-a1-m3-cA_2qu4-a1-m4-cA 2qu4-a1-m4-cA_2qu4-a1-m5-cA 2qu4-a1-m7-cA_2qu4-a1-m8-cA MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN 2qu7-a1-m1-cA_2qu7-a1-m1-cB Crystal structure of a putative transcription regulator from Staphylococcus saprophyticus subsp. saprophyticus Q4A0A0 Q4A0A0 2.3 X-RAY DIFFRACTION 82 1.0 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 274 274 RSNIIAFIVPDQNPFFTEVLTEISHECQKHHLHVAVASSEENEDKQQDLIETFVSQNVSAIILVPVKSKFQMKREWLKIPIMTLDRELESTSLPSITVDNEEAAYIATKRVLESTCKEVGLLLANPNISTTIGRKNGYNKAISEFDLNVNPSLIHYSDQQLGTNAQIYSGYEATKTLLSKGIKGIVATNHLLLLGALQAIKESEKEIKKDVIIVGFDDSYWNEIYTPKLTVISQPVKEMGQVAAKMIYKLIKGKDVTSIKLSTKLIIRESCSFN RSNIIAFIVPDQNPFFTEVLTEISHECQKHHLHVAVASSEENEDKQQDLIETFVSQNVSAIILVPVKSKFQMKREWLKIPIMTLDRELESTSLPSITVDNEEAAYIATKRVLESTCKEVGLLLANPNISTTIGRKNGYNKAISEFDLNVNPSLIHYSDQQLGTNAQIYSGYEATKTLLSKGIKGIVATNHLLLLGALQAIKESEKEIKKDVIIVGFDDSYWNEIYTPKLTVISQPVKEMGQVAAKMIYKLIKGKDVTSIKLSTKLIIRESCSFN 2quy-a1-m1-cA_2quy-a1-m1-cC Truncated mutant ASN175ALA of penicillin v acylase from bacillus sphaericus P12256 P12256 1.7 X-RAY DIFFRACTION 76 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 330 330 2iwm-a1-m1-cA_2iwm-a1-m1-cB 2iwm-a1-m1-cC_2iwm-a1-m1-cD 2pva-a1-m1-cA_2pva-a1-m1-cB 2pva-a1-m1-cC_2pva-a1-m1-cD 2quy-a1-m1-cB_2quy-a1-m1-cD 2quy-a2-m1-cF_2quy-a2-m1-cH 2quy-a2-m1-cG_2quy-a2-m1-cE 2z71-a1-m1-cA_2z71-a1-m2-cC 2z71-a1-m2-cA_2z71-a1-m1-cC 3mji-a1-m1-cA_3mji-a1-m1-cB 3mji-a1-m1-cC_3mji-a1-m1-cD 3pva-a1-m1-cA_3pva-a1-m1-cB 3pva-a1-m1-cC_3pva-a1-m1-cD 3pva-a2-m1-cE_3pva-a2-m1-cF 3pva-a2-m1-cG_3pva-a2-m1-cH CSSLSIRTTDDKSLFARTMDFTMEPDSKVIIVPRNYGIRLLEKENVVINNSYAFVGMGSTDITSPVLYDGVNEKGLMGAMLYYATFATYADEPKKGTRGINPVYVISQVLGNCVTVDDVIEKLTSYTLLNEANIILGFAPPLHYTFTDASGESIVIEPDKTGITIHRKTIGVMTASPGYEWHQTNLRAYIGVTPNPPQDIMMGDLDLTPFGQGAGGLGLPGDFTPSARFLRVAYWKKYTEKAKNETEGVTNLFHILSSVNIPKGVVLTNEGKTDYTIYTSAMCAQSKNYYFKLYDNSRISAVSLMAENLNSQDLITFEWDRKQDIKQLNQ CSSLSIRTTDDKSLFARTMDFTMEPDSKVIIVPRNYGIRLLEKENVVINNSYAFVGMGSTDITSPVLYDGVNEKGLMGAMLYYATFATYADEPKKGTRGINPVYVISQVLGNCVTVDDVIEKLTSYTLLNEANIILGFAPPLHYTFTDASGESIVIEPDKTGITIHRKTIGVMTASPGYEWHQTNLRAYIGVTPNPPQDIMMGDLDLTPFGQGAGGLGLPGDFTPSARFLRVAYWKKYTEKAKNETEGVTNLFHILSSVNIPKGVVLTNEGKTDYTIYTSAMCAQSKNYYFKLYDNSRISAVSLMAENLNSQDLITFEWDRKQDIKQLNQ 2quy-a1-m1-cA_2quy-a1-m1-cD Truncated mutant ASN175ALA of penicillin v acylase from bacillus sphaericus P12256 P12256 1.7 X-RAY DIFFRACTION 13 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 330 330 2iwm-a1-m1-cC_2iwm-a1-m1-cA 2iwm-a1-m1-cD_2iwm-a1-m1-cB 2pva-a1-m1-cA_2pva-a1-m1-cC 2pva-a1-m1-cB_2pva-a1-m1-cD 2quy-a1-m1-cB_2quy-a1-m1-cC 2quy-a2-m1-cF_2quy-a2-m1-cG 2quy-a2-m1-cH_2quy-a2-m1-cE 2z71-a1-m1-cA_2z71-a1-m2-cA 2z71-a1-m1-cC_2z71-a1-m2-cC 3mji-a1-m1-cC_3mji-a1-m1-cA 3mji-a1-m1-cD_3mji-a1-m1-cB 3pva-a1-m1-cA_3pva-a1-m1-cC 3pva-a1-m1-cB_3pva-a1-m1-cD 3pva-a2-m1-cE_3pva-a2-m1-cG 3pva-a2-m1-cF_3pva-a2-m1-cH CSSLSIRTTDDKSLFARTMDFTMEPDSKVIIVPRNYGIRLLEKENVVINNSYAFVGMGSTDITSPVLYDGVNEKGLMGAMLYYATFATYADEPKKGTRGINPVYVISQVLGNCVTVDDVIEKLTSYTLLNEANIILGFAPPLHYTFTDASGESIVIEPDKTGITIHRKTIGVMTASPGYEWHQTNLRAYIGVTPNPPQDIMMGDLDLTPFGQGAGGLGLPGDFTPSARFLRVAYWKKYTEKAKNETEGVTNLFHILSSVNIPKGVVLTNEGKTDYTIYTSAMCAQSKNYYFKLYDNSRISAVSLMAENLNSQDLITFEWDRKQDIKQLNQ CSSLSIRTTDDKSLFARTMDFTMEPDSKVIIVPRNYGIRLLEKENVVINNSYAFVGMGSTDITSPVLYDGVNEKGLMGAMLYYATFATYADEPKKGTRGINPVYVISQVLGNCVTVDDVIEKLTSYTLLNEANIILGFAPPLHYTFTDASGESIVIEPDKTGITIHRKTIGVMTASPGYEWHQTNLRAYIGVTPNPPQDIMMGDLDLTPFGQGAGGLGLPGDFTPSARFLRVAYWKKYTEKAKNETEGVTNLFHILSSVNIPKGVVLTNEGKTDYTIYTSAMCAQSKNYYFKLYDNSRISAVSLMAENLNSQDLITFEWDRKQDIKQLNQ 2quy-a2-m1-cG_2quy-a2-m1-cH Truncated mutant ASN175ALA of penicillin v acylase from bacillus sphaericus P12256 P12256 1.7 X-RAY DIFFRACTION 251 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 329 329 2iwm-a1-m1-cC_2iwm-a1-m1-cB 2iwm-a1-m1-cD_2iwm-a1-m1-cA 2pva-a1-m1-cA_2pva-a1-m1-cD 2pva-a1-m1-cB_2pva-a1-m1-cC 2quy-a1-m1-cA_2quy-a1-m1-cB 2quy-a1-m1-cC_2quy-a1-m1-cD 2quy-a2-m1-cF_2quy-a2-m1-cE 2z71-a1-m1-cA_2z71-a1-m1-cC 2z71-a1-m2-cA_2z71-a1-m2-cC 3mji-a1-m1-cC_3mji-a1-m1-cB 3mji-a1-m1-cD_3mji-a1-m1-cA 3pva-a1-m1-cA_3pva-a1-m1-cD 3pva-a1-m1-cB_3pva-a1-m1-cC 3pva-a2-m1-cE_3pva-a2-m1-cH 3pva-a2-m1-cF_3pva-a2-m1-cG CSSLSIRTTDDKSLFARTMDFTMEPDSKVIIVPRNYGIRLLEKENVVINNSYAFVGMGSTDITSPVLYDGVNEKGLMGAMLYYATFATYADEPKKGTRGINPVYVISQVLGNCVTVDDVIEKLTSYTLLNEANIILGFAPPLHYTFTDASGESIVIEPDKTGITIHRKTIGVMTASPGYEWHQTNLRAYIGVTPNPPQDIMMGDLDLTPFGQGAGGLGLPGDFTPSARFLRVAYWKKYTEKAKNETEGVTNLFHILSSVNIPKGVVLTNEGKTDYTIYTSAMCAQSKNYYFKLYDNSRISAVSLMAENLNSQDLITFEWDRKQDIKQLN CSSLSIRTTDDKSLFARTMDFTMEPDSKVIIVPRNYGIRLLEKENVVINNSYAFVGMGSTDITSPVLYDGVNEKGLMGAMLYYATFATYADEPKKGTRGINPVYVISQVLGNCVTVDDVIEKLTSYTLLNEANIILGFAPPLHYTFTDASGESIVIEPDKTGITIHRKTIGVMTASPGYEWHQTNLRAYIGVTPNPPQDIMMGDLDLTPFGQGAGGLGLPGDFTPSARFLRVAYWKKYTEKAKNETEGVTNLFHILSSVNIPKGVVLTNEGKTDYTIYTSAMCAQSKNYYFKLYDNSRISAVSLMAENLNSQDLITFEWDRKQDIKQLN 2qv0-a1-m1-cA_2qv0-a1-m1-cB Crystal structure of the response regulatory domain of protein mrkE from Klebsiella pneumoniae P21649 P21649 2.4 X-RAY DIFFRACTION 28 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 122 122 MKVIIVEDEFLAQQELSWLINTHSQMEIVGSFDDGLDVLKFLQHNKVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRIINMLQKLTTAWEQQ MKVIIVEDEFLAQQELSWLINTHSQMEIVGSFDDGLDVLKFLQHNKVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRIINMLQKLTTAWEQQ 2qv0-a2-m1-cA_2qv0-a2-m2-cB Crystal structure of the response regulatory domain of protein mrkE from Klebsiella pneumoniae P21649 P21649 2.4 X-RAY DIFFRACTION 30 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 122 122 MKVIIVEDEFLAQQELSWLINTHSQMEIVGSFDDGLDVLKFLQHNKVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRIINMLQKLTTAWEQQ MKVIIVEDEFLAQQELSWLINTHSQMEIVGSFDDGLDVLKFLQHNKVDAIFLDINIPSLDGVLLAQNISQFAHKPFIVFITAWKEHAVEAFELEAFDYILKPYQESRIINMLQKLTTAWEQQ 2qv2-a1-m1-cA_2qv2-a1-m2-cA A role of the Lowe syndrome protein OCRL in early steps of the endocytic pathway Q01968 Q01968 2.4 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 305 305 SRREFVFENVKFRQLQKEKFQISNIPKLNDSQYCKPWLRAEPFEGYLEPNETVDISLDVYVSKDSVTILNSGEDKIEDILVLFLTISGNYLPSCFGTSLEALCRMKRPIREVPVTKLIDLEEDSFLEKEKSLLQMERPLQVPKEIWLLVDHLFKYACHQEDLFQTPGMQEELQQIIDCLDTSIPETIPGSNHSVAEALLIFLEALPEPVICYELYQRCLDSAYDPRICRQVISQLPRCHRNVFRYLMAFLRELLKFSEYNSVNANMIATLFTSLLLRPPPNLMARQTPSDRQRAIQFLLGFLLGS SRREFVFENVKFRQLQKEKFQISNIPKLNDSQYCKPWLRAEPFEGYLEPNETVDISLDVYVSKDSVTILNSGEDKIEDILVLFLTISGNYLPSCFGTSLEALCRMKRPIREVPVTKLIDLEEDSFLEKEKSLLQMERPLQVPKEIWLLVDHLFKYACHQEDLFQTPGMQEELQQIIDCLDTSIPETIPGSNHSVAEALLIFLEALPEPVICYELYQRCLDSAYDPRICRQVISQLPRCHRNVFRYLMAFLRELLKFSEYNSVNANMIATLFTSLLLRPPPNLMARQTPSDRQRAIQFLLGFLLGS 2qv6-a1-m1-cA_2qv6-a1-m1-cD GTP cyclohydrolase III from M. jannaschii (MJ0145) complexed with GTP and metal ions Q57609 Q57609 2 X-RAY DIFFRACTION 34 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 253 253 2qv6-a1-m1-cB_2qv6-a1-m1-cC MIQITVIQIDNYGPWTVTPNPRRESDLQALQSRLYADLNLMFGAHKGLVFYTRFDNLIAITNGIDLITHKRIQESIRNRYPFTVSMVIASAETPYEAQKLATETLQEYGSAQDENRKEVLDVANELVVDGYVQIAHIDINNITGTLTDIVSAYDTYLNVNKVKLALMEELLKYNALLFFIGGDNFMAPSNGMSEEDFLDIFNRINKKYKIELKAGIGIGRTAEDASNLADIGLEKIRGKLVDKNVCTLKQDDF MIQITVIQIDNYGPWTVTPNPRRESDLQALQSRLYADLNLMFGAHKGLVFYTRFDNLIAITNGIDLITHKRIQESIRNRYPFTVSMVIASAETPYEAQKLATETLQEYGSAQDENRKEVLDVANELVVDGYVQIAHIDINNITGTLTDIVSAYDTYLNVNKVKLALMEELLKYNALLFFIGGDNFMAPSNGMSEEDFLDIFNRINKKYKIELKAGIGIGRTAEDASNLADIGLEKIRGKLVDKNVCTLKQDDF 2qv6-a1-m1-cB_2qv6-a1-m1-cD GTP cyclohydrolase III from M. jannaschii (MJ0145) complexed with GTP and metal ions Q57609 Q57609 2 X-RAY DIFFRACTION 196 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 250 253 2qv6-a1-m1-cC_2qv6-a1-m1-cA MIQITVIQIDNYGPWTVTPNPRRESDLQALQSRLYADLNLMFGAHKGLVFYTRFDNLIAITNGIDLITHKRIQESIRNRYPFTVSMVIASAETPYEAQKLATETLQEYGSAQDENRKEVLDVANELVVDGYVQIAHIDINNITGTLTDIVSAYDTYLNVNKVKLALMEELLKYNALLFFIGGDNFMAPSNGMSEEDFLDIFNRINKKYKIELKAGIGIGRTAEDASNLADIGLEKIRGKLVDKNVCTLKQ MIQITVIQIDNYGPWTVTPNPRRESDLQALQSRLYADLNLMFGAHKGLVFYTRFDNLIAITNGIDLITHKRIQESIRNRYPFTVSMVIASAETPYEAQKLATETLQEYGSAQDENRKEVLDVANELVVDGYVQIAHIDINNITGTLTDIVSAYDTYLNVNKVKLALMEELLKYNALLFFIGGDNFMAPSNGMSEEDFLDIFNRINKKYKIELKAGIGIGRTAEDASNLADIGLEKIRGKLVDKNVCTLKQDDF 2qv6-a1-m1-cC_2qv6-a1-m1-cD GTP cyclohydrolase III from M. jannaschii (MJ0145) complexed with GTP and metal ions Q57609 Q57609 2 X-RAY DIFFRACTION 23 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 252 253 2qv6-a1-m1-cB_2qv6-a1-m1-cA MIQITVIQIDNYGPWTVTPNPRRESDLQALQSRLYADLNLMFGAHKGLVFYTRFDNLIAITNGIDLITHKRIQESIRNRYPFTVSMVIASAETPYEAQKLATETLQEYGSAQDENRKEVLDVANELVVDGYVQIAHIDINNITGTLTDIVSAYDTYLNVNKVKLALMEELLKYNALLFFIGGDNFMAPSNGMSEEDFLDIFNRINKKYKIELKAGIGIGRTAEDASNLADIGLEKIRGKLVDKNVCTLKQDD MIQITVIQIDNYGPWTVTPNPRRESDLQALQSRLYADLNLMFGAHKGLVFYTRFDNLIAITNGIDLITHKRIQESIRNRYPFTVSMVIASAETPYEAQKLATETLQEYGSAQDENRKEVLDVANELVVDGYVQIAHIDINNITGTLTDIVSAYDTYLNVNKVKLALMEELLKYNALLFFIGGDNFMAPSNGMSEEDFLDIFNRINKKYKIELKAGIGIGRTAEDASNLADIGLEKIRGKLVDKNVCTLKQDDF 2qv7-a2-m1-cA_2qv7-a2-m2-cA Crystal Structure of Diacylglycerol Kinase DgkB in complex with ADP and Mg Q6GFF9 Q6GFF9 2.3 X-RAY DIFFRACTION 38 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 293 293 2qvl-a2-m1-cA_2qvl-a2-m2-cA GSHRKRARIIYNPTSGKEQFKRELPDALIKLEKAGYETSAYATEKIGDATLEAERAHENYDVLIAAGGDGTLNEVVNGIAEKPNRPKLGVIPGTVNDFGRALHIPNDIGALDVIIEGHSTKVDIGKNNRYFINLAAGGQLTQGPFAYYIKGFELPQKAVDLRIEYDGNVFQGEALLFFLGLTNSAGFEKLVPDAKLDDGYFTLIIVEKSNLAELGHITLASRGEHTKHPKVIYEKAKAINISSFTDLQLNVDGEYGGKLPANFLNLERHIDVFAPNDIVNEELINNDHVDDNL GSHRKRARIIYNPTSGKEQFKRELPDALIKLEKAGYETSAYATEKIGDATLEAERAHENYDVLIAAGGDGTLNEVVNGIAEKPNRPKLGVIPGTVNDFGRALHIPNDIGALDVIIEGHSTKVDIGKNNRYFINLAAGGQLTQGPFAYYIKGFELPQKAVDLRIEYDGNVFQGEALLFFLGLTNSAGFEKLVPDAKLDDGYFTLIIVEKSNLAELGHITLASRGEHTKHPKVIYEKAKAINISSFTDLQLNVDGEYGGKLPANFLNLERHIDVFAPNDIVNEELINNDHVDDNL 2qva-a1-m1-cA_2qva-a1-m2-cA Crystal structure of Drosophila melanogaster Translin protein Q7JVK6 Q7JVK6 3.4 X-RAY DIFFRACTION 76 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 182 182 2qrx-a1-m1-cA_2qrx-a1-m2-cA 2qrx-a1-m3-cA_2qrx-a1-m4-cA 2qva-a1-m1-cD_2qva-a1-m2-cD 2qva-a2-m1-cB_2qva-a2-m1-cC 2qva-a2-m3-cB_2qva-a2-m3-cC 3riu-a1-m1-cB_3riu-a1-m2-cB 4dg7-a1-m1-cA_4dg7-a1-m1-cB 4dg7-a1-m1-cC_4dg7-a1-m1-cD 4dg7-a1-m1-cF_4dg7-a1-m1-cE 4dg7-a1-m1-cG_4dg7-a1-m1-cH 4dg7-a2-m1-cA_4dg7-a2-m1-cB 4dg7-a3-m1-cC_4dg7-a3-m1-cD 4dg7-a4-m1-cF_4dg7-a4-m1-cE 4dg7-a5-m1-cG_4dg7-a5-m1-cH VNLDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAEMLGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTMGDYERSLNISHFIGDLNTGFRLLN VNLDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAEMLGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTMGDYERSLNISHFIGDLNTGFRLLN 2qvc-a2-m1-cC_2qvc-a2-m1-cD Crystal structure of a periplasmic sugar ABC transporter from Thermotoga maritima Q9WXW9 Q9WXW9 2.4 X-RAY DIFFRACTION 35 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 291 291 2qvc-a1-m1-cA_2qvc-a1-m2-cB LTIGVIGKSVHPYWSQVEQGVKAAGKALGVDTKFFVPQKEDINAQLQLESFIAEGVNGIAIAPSDPTAVIPTIKKALEGIPVVTLDTDSPDSGRYVYIGTDNYQAGYTAGLIKELLGGKGKVVIGTGSLTANSLQRIQGFKDAIKDSEIEIVDILNDEEDGARAVSLAEAALNAHPDLDAFFGVYAYNGPAQALVVKNAGKVGKVKIVCFDTTPDILQYVKEGVIQATGQRPYGYLSVTVLYLNKIGVQNTLLPKVKVDGKVDYVIDTGVDVVTPENLDEYLKKEELGIPI LTIGVIGKSVHPYWSQVEQGVKAAGKALGVDTKFFVPQKEDINAQLQLESFIAEGVNGIAIAPSDPTAVIPTIKKALEGIPVVTLDTDSPDSGRYVYIGTDNYQAGYTAGLIKELLGGKGKVVIGTGSLTANSLQRIQGFKDAIKDSEIEIVDILNDEEDGARAVSLAEAALNAHPDLDAFFGVYAYNGPAQALVVKNAGKVGKVKIVCFDTTPDILQYVKEGVIQATGQRPYGYLSVTVLYLNKIGVQNTLLPKVKVDGKVDYVIDTGVDVVTPENLDEYLKKEELGIPI 2qve-a1-m1-cA_2qve-a1-m2-cB Crystal Structure of SgTAM bound to mechanism based inhibitor Q8GMG0 Q8GMG0 2 X-RAY DIFFRACTION 17 1.0 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 525 525 2ohy-a1-m1-cA_2ohy-a1-m2-cB 2ohy-a1-m2-cA_2ohy-a1-m1-cB 2qve-a1-m1-cB_2qve-a1-m2-cA 2rjr-a1-m1-cA_2rjr-a1-m2-cB 2rjr-a1-m1-cB_2rjr-a1-m2-cA 2rjs-a1-m1-cA_2rjs-a1-m2-cB 2rjs-a1-m2-cA_2rjs-a1-m1-cB 3kdy-a2-m1-cA_3kdy-a2-m2-cB 3kdy-a2-m1-cB_3kdy-a2-m2-cA 3kdz-a2-m1-cA_3kdz-a2-m2-cB 3kdz-a2-m1-cB_3kdz-a2-m2-cA PVSVDGETLTVEAVRRVAEERATVDVPAESIAKAQKSREIFEGIAEQNIPIYGVTTGYGEMIYMQVDKSKEVELQTNLVRSHSAGVGPLFAEDEARAIVAARLNTLAKGHSAVRPIILERLAQYLNEGITPAIPEIGSLGDLAPLSHVASTLIGEGYVLRDGRPVETAQVLAERGIEPLELRFKEGLALINGTSGMTGLGSLVVGRALEQAQQAEIVTALLIEAVRGSTSPFLAEGHDIARPHEGQIDTAANMRALMRGSGLTVEHADLRRELQKDKEAGKDVQRSEIYLQKAYSLRAIPQVVGAVRDTLYHARHKLRIELNSANDNPLFFEGKEIFHGANFHGQPIAFAMDFVTIALTQLGVLAERQINRVLNRHLSYGLPEFLVSGDPGLHSGFAGAQYPATALVAENRTIGPASTQSVPSNGDNQDVVSMGLISARNARRVLSNNNKILAVEYLAAAQAVDISGRFDGLSPAAKATYEAVRRLVPTLGVDRYMADDIELVADALSRGEFLRAIARETDIQLR PVSVDGETLTVEAVRRVAEERATVDVPAESIAKAQKSREIFEGIAEQNIPIYGVTTGYGEMIYMQVDKSKEVELQTNLVRSHSAGVGPLFAEDEARAIVAARLNTLAKGHSAVRPIILERLAQYLNEGITPAIPEIGSLGDLAPLSHVASTLIGEGYVLRDGRPVETAQVLAERGIEPLELRFKEGLALINGTSGMTGLGSLVVGRALEQAQQAEIVTALLIEAVRGSTSPFLAEGHDIARPHEGQIDTAANMRALMRGSGLTVEHADLRRELQKDKEAGKDVQRSEIYLQKAYSLRAIPQVVGAVRDTLYHARHKLRIELNSANDNPLFFEGKEIFHGANFHGQPIAFAMDFVTIALTQLGVLAERQINRVLNRHLSYGLPEFLVSGDPGLHSGFAGAQYPATALVAENRTIGPASTQSVPSNGDNQDVVSMGLISARNARRVLSNNNKILAVEYLAAAQAVDISGRFDGLSPAAKATYEAVRRLVPTLGVDRYMADDIELVADALSRGEFLRAIARETDIQLR 2qve-a1-m1-cB_2qve-a1-m2-cB Crystal Structure of SgTAM bound to mechanism based inhibitor Q8GMG0 Q8GMG0 2 X-RAY DIFFRACTION 280 1.0 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 525 525 2ohy-a1-m1-cA_2ohy-a1-m2-cA 2ohy-a1-m1-cB_2ohy-a1-m2-cB 2qve-a1-m1-cA_2qve-a1-m2-cA 2rjr-a1-m1-cA_2rjr-a1-m2-cA 2rjr-a1-m1-cB_2rjr-a1-m2-cB 2rjs-a1-m1-cA_2rjs-a1-m2-cA 2rjs-a1-m1-cB_2rjs-a1-m2-cB 3kdy-a2-m1-cA_3kdy-a2-m2-cA 3kdy-a2-m1-cB_3kdy-a2-m2-cB 3kdz-a2-m1-cA_3kdz-a2-m2-cA 3kdz-a2-m1-cB_3kdz-a2-m2-cB PVSVDGETLTVEAVRRVAEERATVDVPAESIAKAQKSREIFEGIAEQNIPIYGVTTGYGEMIYMQVDKSKEVELQTNLVRSHSAGVGPLFAEDEARAIVAARLNTLAKGHSAVRPIILERLAQYLNEGITPAIPEIGSLGDLAPLSHVASTLIGEGYVLRDGRPVETAQVLAERGIEPLELRFKEGLALINGTSGMTGLGSLVVGRALEQAQQAEIVTALLIEAVRGSTSPFLAEGHDIARPHEGQIDTAANMRALMRGSGLTVEHADLRRELQKDKEAGKDVQRSEIYLQKAYSLRAIPQVVGAVRDTLYHARHKLRIELNSANDNPLFFEGKEIFHGANFHGQPIAFAMDFVTIALTQLGVLAERQINRVLNRHLSYGLPEFLVSGDPGLHSGFAGAQYPATALVAENRTIGPASTQSVPSNGDNQDVVSMGLISARNARRVLSNNNKILAVEYLAAAQAVDISGRFDGLSPAAKATYEAVRRLVPTLGVDRYMADDIELVADALSRGEFLRAIARETDIQLR PVSVDGETLTVEAVRRVAEERATVDVPAESIAKAQKSREIFEGIAEQNIPIYGVTTGYGEMIYMQVDKSKEVELQTNLVRSHSAGVGPLFAEDEARAIVAARLNTLAKGHSAVRPIILERLAQYLNEGITPAIPEIGSLGDLAPLSHVASTLIGEGYVLRDGRPVETAQVLAERGIEPLELRFKEGLALINGTSGMTGLGSLVVGRALEQAQQAEIVTALLIEAVRGSTSPFLAEGHDIARPHEGQIDTAANMRALMRGSGLTVEHADLRRELQKDKEAGKDVQRSEIYLQKAYSLRAIPQVVGAVRDTLYHARHKLRIELNSANDNPLFFEGKEIFHGANFHGQPIAFAMDFVTIALTQLGVLAERQINRVLNRHLSYGLPEFLVSGDPGLHSGFAGAQYPATALVAENRTIGPASTQSVPSNGDNQDVVSMGLISARNARRVLSNNNKILAVEYLAAAQAVDISGRFDGLSPAAKATYEAVRRLVPTLGVDRYMADDIELVADALSRGEFLRAIARETDIQLR 2qve-a1-m2-cA_2qve-a1-m2-cB Crystal Structure of SgTAM bound to mechanism based inhibitor Q8GMG0 Q8GMG0 2 X-RAY DIFFRACTION 349 1.0 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 525 525 2ohy-a1-m1-cA_2ohy-a1-m1-cB 2ohy-a1-m2-cA_2ohy-a1-m2-cB 2qve-a1-m1-cA_2qve-a1-m1-cB 2rjr-a1-m1-cA_2rjr-a1-m1-cB 2rjr-a1-m2-cA_2rjr-a1-m2-cB 2rjs-a1-m1-cA_2rjs-a1-m1-cB 2rjs-a1-m2-cA_2rjs-a1-m2-cB 3kdy-a1-m1-cA_3kdy-a1-m1-cB 3kdy-a2-m1-cA_3kdy-a2-m1-cB 3kdy-a2-m2-cA_3kdy-a2-m2-cB 3kdz-a1-m1-cA_3kdz-a1-m1-cB 3kdz-a2-m1-cA_3kdz-a2-m1-cB 3kdz-a2-m2-cA_3kdz-a2-m2-cB PVSVDGETLTVEAVRRVAEERATVDVPAESIAKAQKSREIFEGIAEQNIPIYGVTTGYGEMIYMQVDKSKEVELQTNLVRSHSAGVGPLFAEDEARAIVAARLNTLAKGHSAVRPIILERLAQYLNEGITPAIPEIGSLGDLAPLSHVASTLIGEGYVLRDGRPVETAQVLAERGIEPLELRFKEGLALINGTSGMTGLGSLVVGRALEQAQQAEIVTALLIEAVRGSTSPFLAEGHDIARPHEGQIDTAANMRALMRGSGLTVEHADLRRELQKDKEAGKDVQRSEIYLQKAYSLRAIPQVVGAVRDTLYHARHKLRIELNSANDNPLFFEGKEIFHGANFHGQPIAFAMDFVTIALTQLGVLAERQINRVLNRHLSYGLPEFLVSGDPGLHSGFAGAQYPATALVAENRTIGPASTQSVPSNGDNQDVVSMGLISARNARRVLSNNNKILAVEYLAAAQAVDISGRFDGLSPAAKATYEAVRRLVPTLGVDRYMADDIELVADALSRGEFLRAIARETDIQLR PVSVDGETLTVEAVRRVAEERATVDVPAESIAKAQKSREIFEGIAEQNIPIYGVTTGYGEMIYMQVDKSKEVELQTNLVRSHSAGVGPLFAEDEARAIVAARLNTLAKGHSAVRPIILERLAQYLNEGITPAIPEIGSLGDLAPLSHVASTLIGEGYVLRDGRPVETAQVLAERGIEPLELRFKEGLALINGTSGMTGLGSLVVGRALEQAQQAEIVTALLIEAVRGSTSPFLAEGHDIARPHEGQIDTAANMRALMRGSGLTVEHADLRRELQKDKEAGKDVQRSEIYLQKAYSLRAIPQVVGAVRDTLYHARHKLRIELNSANDNPLFFEGKEIFHGANFHGQPIAFAMDFVTIALTQLGVLAERQINRVLNRHLSYGLPEFLVSGDPGLHSGFAGAQYPATALVAENRTIGPASTQSVPSNGDNQDVVSMGLISARNARRVLSNNNKILAVEYLAAAQAVDISGRFDGLSPAAKATYEAVRRLVPTLGVDRYMADDIELVADALSRGEFLRAIARETDIQLR 2qvh-a2-m1-cA_2qvh-a2-m1-cB Crystal structure of O-succinylbenzoate synthase complexed with O-succinyl benzoate (OSB) Q47Q21 Q47Q21 1.76 X-RAY DIFFRACTION 25 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 309 309 2qvh-a1-m1-cA_2qvh-a1-m1-cB SLTGRAFAIPLRTRFRGITVREGLVRGAAGWGEFSPFAEYGPRECARWWAACYEAAELGWPAPVRDTVPVNATVPAVGPEEAARIVASSGCTTAKVKVAERGQSEANDVARVEAVRDALGPRGRVRIDVNGAWDVDTAVRIRLLDRFELEYVEQPCATVDELAEVRRRVSVPIAADESIRRAEDPLRVRDAEAADVVVLKVQPLGGVRAALRLAEECGLPVVVSSAVETSVGLAAGVALAAALPELPYACGLATLRLLHADVCDDPLLPVHGVLPVRRVDVSEQRLAEVEIDPAAWQARLAAARAAWEQ SLTGRAFAIPLRTRFRGITVREGLVRGAAGWGEFSPFAEYGPRECARWWAACYEAAELGWPAPVRDTVPVNATVPAVGPEEAARIVASSGCTTAKVKVAERGQSEANDVARVEAVRDALGPRGRVRIDVNGAWDVDTAVRIRLLDRFELEYVEQPCATVDELAEVRRRVSVPIAADESIRRAEDPLRVRDAEAADVVVLKVQPLGGVRAALRLAEECGLPVVVSSAVETSVGLAAGVALAAALPELPYACGLATLRLLHADVCDDPLLPVHGVLPVRRVDVSEQRLAEVEIDPAAWQARLAAARAAWEQ 2qvk-a2-m1-cA_2qvk-a2-m2-cA The second Ca2+-binding domain of the Na+-Ca2+ exchanger is essential for regulation: crystal structures and mutational analysis P23685 P23685 1.451 X-RAY DIFFRACTION 41 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 121 121 2qvm-a2-m1-cA_2qvm-a2-m2-cA HAGIFTFEEPVTHVSESIGIMEVKVLRTSGARGNVIVPYKTIEGTARGGGEDFEDTCGELEFQNDEIVKTISVKVIDDEEYEKNKTFFLEIGEPRLVEGRPILGEHTKLEVIIEESYEFKS HAGIFTFEEPVTHVSESIGIMEVKVLRTSGARGNVIVPYKTIEGTARGGGEDFEDTCGELEFQNDEIVKTISVKVIDDEEYEKNKTFFLEIGEPRLVEGRPILGEHTKLEVIIEESYEFKS 2qvo-a2-m1-cA_2qvo-a2-m2-cA Crystal structure of AF1382 from Archaeoglobus fulgidus O28889 O28889 1.85 X-RAY DIFFRACTION 57 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 87 87 3o3k-a1-m1-cA_3o3k-a1-m2-cA 3ov8-a1-m1-cA_3ov8-a1-m2-cA RIKLLFKEKALEILMTIYYESLGGNDVYIQYIASKVNSPHSYVWLIIKKFEEAKMVECELEGRTKIIRLTDKGQKIAQQIKSIIDIM RIKLLFKEKALEILMTIYYESLGGNDVYIQYIASKVNSPHSYVWLIIKKFEEAKMVECELEGRTKIIRLTDKGQKIAQQIKSIIDIM 2qvr-a1-m2-cA_2qvr-a1-m4-cA E. coli Fructose-1,6-bisphosphatase: Citrate, Fru-2,6-P2, and Mg2+ bound P0A993 P0A993 2.18 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 326 326 2gq1-a1-m1-cA_2gq1-a1-m3-cA 2gq1-a1-m2-cA_2gq1-a1-m4-cA 2owz-a1-m1-cA_2owz-a1-m3-cA 2owz-a1-m2-cA_2owz-a1-m4-cA 2ox3-a1-m1-cA_2ox3-a1-m3-cA 2ox3-a1-m2-cA_2ox3-a1-m4-cA 2q8m-a1-m1-cA_2q8m-a1-m1-cB 2q8m-a1-m2-cA_2q8m-a1-m2-cB 2qvr-a1-m1-cA_2qvr-a1-m3-cA KTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALKARDIVAGIASEEEDEIVVFEGCEHAKYVVLDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTLVYTTGCGVHAFTYDPSLGVFCLCQERRFPEKGKTYSINEGNYIKFPNGVKKYIKFCQEEDKSTNRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPAFLAEQAGGKASDGKERILDIIPETLHQRRSFFVGNDHVEDVERFIREFPDA KTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALKARDIVAGIASEEEDEIVVFEGCEHAKYVVLDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTLVYTTGCGVHAFTYDPSLGVFCLCQERRFPEKGKTYSINEGNYIKFPNGVKKYIKFCQEEDKSTNRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPAFLAEQAGGKASDGKERILDIIPETLHQRRSFFVGNDHVEDVERFIREFPDA 2qvr-a1-m3-cA_2qvr-a1-m4-cA E. coli Fructose-1,6-bisphosphatase: Citrate, Fru-2,6-P2, and Mg2+ bound P0A993 P0A993 2.18 X-RAY DIFFRACTION 148 1.0 562 (Escherichia coli) 562 (Escherichia coli) 326 326 2gq1-a1-m1-cA_2gq1-a1-m2-cA 2gq1-a1-m3-cA_2gq1-a1-m4-cA 2owz-a1-m1-cA_2owz-a1-m2-cA 2owz-a1-m3-cA_2owz-a1-m4-cA 2owz-a2-m1-cA_2owz-a2-m2-cA 2ox3-a1-m1-cA_2ox3-a1-m2-cA 2ox3-a1-m3-cA_2ox3-a1-m4-cA 2q8m-a1-m1-cA_2q8m-a1-m2-cB 2q8m-a1-m1-cB_2q8m-a1-m2-cA 2qvr-a1-m1-cA_2qvr-a1-m2-cA KTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALKARDIVAGIASEEEDEIVVFEGCEHAKYVVLDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTLVYTTGCGVHAFTYDPSLGVFCLCQERRFPEKGKTYSINEGNYIKFPNGVKKYIKFCQEEDKSTNRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPAFLAEQAGGKASDGKERILDIIPETLHQRRSFFVGNDHVEDVERFIREFPDA KTLGEFIVEKQHEFSHATGELTALLSAIKLGAKIIHRDINKAGLVDILGASGAENVQGEVQQKLDLFANEKLKAALKARDIVAGIASEEEDEIVVFEGCEHAKYVVLDPLDGSSNIDVNVSVGTIFSIYRRVTPVGTPVTEEDFLQPGNKQVAAGYVVYGSSTLVYTTGCGVHAFTYDPSLGVFCLCQERRFPEKGKTYSINEGNYIKFPNGVKKYIKFCQEEDKSTNRPYTSRYIGSLVADFHRNLLKGGIYLYPSTASHPDGKLRLLYECNPAFLAEQAGGKASDGKERILDIIPETLHQRRSFFVGNDHVEDVERFIREFPDA 2qvy-a1-m1-cX_2qvy-a1-m2-cX 4-Chlorobenzoyl-CoA Ligase/Synthetase, I303G mutation, bound to 3,4-Dichlorobenzoate Q8GN86 Q8GN86 2.76 X-RAY DIFFRACTION 76 1.0 206162 (Alcaligenes sp. AL3007) 206162 (Alcaligenes sp. AL3007) 499 499 1t5d-a1-m1-cX_1t5d-a1-m2-cX 1t5h-a1-m1-cX_1t5h-a1-m2-cX 2qvx-a1-m1-cX_2qvx-a1-m2-cX 2qvz-a1-m1-cX_2qvz-a1-m2-cX 2qw0-a1-m1-cX_2qw0-a1-m2-cX 3cw9-a1-m1-cA_3cw9-a1-m1-cB 3dlp-a1-m1-cX_3dlp-a1-m2-cX MQTVNEMLRRAATRAPDHCALAVPARGLRLTHAELRARVEAVAARLHADGLRPQQRVAVVAPNSADVVIAILALHRLGAVPALLNPRLKSAELAELIKRGEMTAAVIAVQVADAIFQSGSGARIIFLGDLVRDGEPYSYGPPIEDPQREPAQPAFIFYTSTGLPKAAIIPQRAAESRVLFMSTQVGLRHGRHNVVLGLMPLYHVVGFFAVLVAALALDGTYVVVEEFRPVDALQLVQQEQVTSLFATPTHLDALAAAAAHAGSSLKLDSLRHVTFAGATMPDAVLETVHQHLPGEKVNGYGTTEAMNSLYMRQPKTGTEMAPGFFSEVRIVRIGGGVDEIVANGEEGELIVAASDSAFVGYLNQPQATAEKLQDGWYRTSDVAVWTPEGTVRILGRVDDMIISGGENIHPSEIERVLGTAPGVTEVVVIGLADQRWGQSVTACVVPRLGETLSADALDTFCRSSELADFKRPKRYFILDQLPKNALNKVLRRQLVQQVS MQTVNEMLRRAATRAPDHCALAVPARGLRLTHAELRARVEAVAARLHADGLRPQQRVAVVAPNSADVVIAILALHRLGAVPALLNPRLKSAELAELIKRGEMTAAVIAVQVADAIFQSGSGARIIFLGDLVRDGEPYSYGPPIEDPQREPAQPAFIFYTSTGLPKAAIIPQRAAESRVLFMSTQVGLRHGRHNVVLGLMPLYHVVGFFAVLVAALALDGTYVVVEEFRPVDALQLVQQEQVTSLFATPTHLDALAAAAAHAGSSLKLDSLRHVTFAGATMPDAVLETVHQHLPGEKVNGYGTTEAMNSLYMRQPKTGTEMAPGFFSEVRIVRIGGGVDEIVANGEEGELIVAASDSAFVGYLNQPQATAEKLQDGWYRTSDVAVWTPEGTVRILGRVDDMIISGGENIHPSEIERVLGTAPGVTEVVVIGLADQRWGQSVTACVVPRLGETLSADALDTFCRSSELADFKRPKRYFILDQLPKNALNKVLRRQLVQQVS 2qw5-a1-m2-cB_2qw5-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE SUGAR PHOSPHATE ISOMERASE/EPIMERASE (AVA4194) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.78 A RESOLUTION Q3M5E3 Q3M5E3 1.78 X-RAY DIFFRACTION 30 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 322 324 2qw5-a1-m1-cB_2qw5-a1-m2-cA SDIYISFFFTTNLQPDNLDYRRIVVAHIKKLQRFGYSGFEFPIAPGLPENYAQDLENYTNLRHYLDSEGLENVKISTNVGATRTFDPSSNYPEQRQEALEYLKSRVDITAALGGEIGPIVIPYGVFPTTDFNEPIWSDELQEHLKVRYANAQPILDKLGEYAEIKKVKLAIEPITHWETPGPNKLSQLIEFLKGVKSKQVGVVIDSAHEILDGEGPEIFKTQVEYLAQQGRLHYVQVSPPDRGALHTSWLPWKSFLTPIVKVYDGPIAVEIFNAIPAFTNSLRLTRRKFWIPDEDPPNQYPNAYDIADEAIKVTRKELKKIG ATSDIYISFFFTTNLQPDNLDYRRIVVAHIKKLQRFGYSGFEFPIAPGLPENYAQDLENYTNLRHYLDSEGLENVKISTNVGATRTFDPSSNYPEQRQEALEYLKSRVDITAALGGEIGPIVIPYGVFPTTDFNEPIWSDELQEHLKVRYANAQPILDKLGEYAEIKKVKLAIEPITHWETPGPNKLSQLIEFLKGVKSKQVGVVIDSAHEILDGEGPEIFKTQVEYLAQQGRLHYVQVSPPDRGALHTSWLPWKSFLTPIVKVYDGPIAVEIFNAIPAFTNSLRLTRRKFWIPDEDPPNQYPNAYDIADEAIKVTRKELKKIG 2qw5-a3-m1-cB_2qw5-a3-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE SUGAR PHOSPHATE ISOMERASE/EPIMERASE (AVA4194) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.78 A RESOLUTION Q3M5E3 Q3M5E3 1.78 X-RAY DIFFRACTION 111 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 322 322 2qw5-a1-m1-cA_2qw5-a1-m2-cA 2qw5-a1-m1-cB_2qw5-a1-m2-cB 2qw5-a2-m1-cA_2qw5-a2-m2-cA SDIYISFFFTTNLQPDNLDYRRIVVAHIKKLQRFGYSGFEFPIAPGLPENYAQDLENYTNLRHYLDSEGLENVKISTNVGATRTFDPSSNYPEQRQEALEYLKSRVDITAALGGEIGPIVIPYGVFPTTDFNEPIWSDELQEHLKVRYANAQPILDKLGEYAEIKKVKLAIEPITHWETPGPNKLSQLIEFLKGVKSKQVGVVIDSAHEILDGEGPEIFKTQVEYLAQQGRLHYVQVSPPDRGALHTSWLPWKSFLTPIVKVYDGPIAVEIFNAIPAFTNSLRLTRRKFWIPDEDPPNQYPNAYDIADEAIKVTRKELKKIG SDIYISFFFTTNLQPDNLDYRRIVVAHIKKLQRFGYSGFEFPIAPGLPENYAQDLENYTNLRHYLDSEGLENVKISTNVGATRTFDPSSNYPEQRQEALEYLKSRVDITAALGGEIGPIVIPYGVFPTTDFNEPIWSDELQEHLKVRYANAQPILDKLGEYAEIKKVKLAIEPITHWETPGPNKLSQLIEFLKGVKSKQVGVVIDSAHEILDGEGPEIFKTQVEYLAQQGRLHYVQVSPPDRGALHTSWLPWKSFLTPIVKVYDGPIAVEIFNAIPAFTNSLRLTRRKFWIPDEDPPNQYPNAYDIADEAIKVTRKELKKIG 2qw7-a2-m1-cI_2qw7-a2-m1-cJ Carboxysome Subunit, CcmL P72759 P72759 2.4 X-RAY DIFFRACTION 98 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 96 96 2qw7-a1-m1-cA_2qw7-a1-m1-cB 2qw7-a1-m1-cA_2qw7-a1-m1-cE 2qw7-a1-m1-cC_2qw7-a1-m1-cB 2qw7-a1-m1-cC_2qw7-a1-m1-cD 2qw7-a1-m1-cD_2qw7-a1-m1-cE 2qw7-a2-m1-cF_2qw7-a2-m1-cG 2qw7-a2-m1-cF_2qw7-a2-m1-cJ 2qw7-a2-m1-cG_2qw7-a2-m1-cH 2qw7-a2-m1-cI_2qw7-a2-m1-cH MQLAKVLGTVVSTSKTPNLTGVKLLLVQFLDTKGQPLERYEVAGDVVGAGLNEWVLVARGSAARKERGNGDRPLDAMVVGIIDTVNVASGSLYNKR MQLAKVLGTVVSTSKTPNLTGVKLLLVQFLDTKGQPLERYEVAGDVVGAGLNEWVLVARGSAARKERGNGDRPLDAMVVGIIDTVNVASGSLYNKR 2qwt-a2-m1-cA_2qwt-a2-m2-cA Crystal structure of the TetR transcription regulatory protein from Mycobacterium vanbaalenii A1T351 A1T351 2.3 X-RAY DIFFRACTION 49 1.0 350058 (Mycolicibacterium vanbaalenii PYR-1) 350058 (Mycolicibacterium vanbaalenii PYR-1) 167 167 PLRADAARNRARVLEVAYDTFAAEGLGVPMDEIARRAGVGAGTVYRHFPTKQALVVAVAEDRVRRIVDHARTLLAAEGPGEALFVFMRDMVRSAAADYGLVDALVGYGLDLEVAAPGAEAAFLATLGELLAAAQRAGTVRADVDVAVIKALLVSERVVRVIEDGLRV PLRADAARNRARVLEVAYDTFAAEGLGVPMDEIARRAGVGAGTVYRHFPTKQALVVAVAEDRVRRIVDHARTLLAAEGPGEALFVFMRDMVRSAAADYGLVDALVGYGLDLEVAAPGAEAAFLATLGELLAAAQRAGTVRADVDVAVIKALLVSERVVRVIEDGLRV 2qwv-a1-m1-cA_2qwv-a1-m1-cB Crystal structure of unknown function protein VCA1059 Q9KKP3 Q9KKP3 2.6 X-RAY DIFFRACTION 82 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 180 188 TRSFILRARSAPTDSQRLLDEIGGKCHTEILAHCNSLFTAQSHREDVVIHLVLESTRDYSRTITVEANEIGFHEAALIALLVKALDASVGGKEQTRVVQPGLTVRTISFEALLGELAEHHSLYDKKGDSIRDIKIGPNPCFILTDSKRLGVEKISLGPKLFASQCVTLIHNEIDHQEAGW SNARNTRSFILRARSAPTDSQRLLDEIGGKCHTEILAHCNSLFTAQSHREDVVIHLVLESTRDYSRTITVEANEISGFHEAALIALLVKALDASVGGKEQTRVVQPGLTVRTISFEALLGELAEHHSLYDKKGDSIRDIKIGPNPCFILTDHNSKRLGVEKISLGPKLFASQCVTLIHNEIDHQEAGW 2qww-a4-m1-cG_2qww-a4-m1-cH Crystal structure of multiple antibiotic-resistance repressor (MarR) (YP_013417.1) from Listeria monocytogenes 4b F2365 at 2.07 A resolution 2.07 X-RAY DIFFRACTION 109 0.993 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 135 138 2qww-a2-m1-cC_2qww-a2-m1-cD 2qww-a3-m1-cF_2qww-a3-m1-cE NTDTENISELLKTYWSIQRISAGYADQNAASLGLTIQQLAINVIYSTPGISVADLTKRLIITGSSAAANVDGLISLGLVVKLSDLTLKLSKKGEDLSKRSTANAFYKAKVFENLTENEIEELIRLNKKVETLLKK VGINTDTENISELLKTYWSIQRISAGYADQNAASLGLTIQQLAINVIYSTPGISVADLTKRLIITGSSAAANVDGLISLGLVVKLNDLTLKLSKKGEDLSKRSTANAFYKAKVFENLTENEIEELIRLNKKVETLLKK 2qwz-a1-m1-cC_2qwz-a1-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (TM1040_1390) FROM SILICIBACTER SP. TM1040 AT 2.15 A RESOLUTION Q1GGU3 Q1GGU3 2.15 X-RAY DIFFRACTION 48 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 132 132 2qwz-a1-m1-cA_2qwz-a1-m1-cB ELVFDKDGLSAYLEEVFPQIQGEFSIDALAKGEITRLNVQERHLRPGGTVSGPSFALADVSVYALVLAHLGREALAVTTNASLDFRKPESGRDLLGQARLLKLGRTLAVGDILLFSEGEAPVARSTTYSIPP ELVFDKDGLSAYLEEVFPQIQGEFSIDALAKGEITRLNVQERHLRPGGTVSGPSFALADVSVYALVLAHLGREALAVTTNASLDFRKPESGRDLLGQARLLKLGRTLAVGDILLFSEGEAPVARSTTYSIPP 2qwz-a1-m1-cD_2qwz-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (TM1040_1390) FROM SILICIBACTER SP. TM1040 AT 2.15 A RESOLUTION Q1GGU3 Q1GGU3 2.15 X-RAY DIFFRACTION 36 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 132 138 2qwz-a1-m1-cC_2qwz-a1-m1-cB ELVFDKDGLSAYLEEVFPQIQGEFSIDALAKGEITRLNVQERHLRPGGTVSGPSFALADVSVYALVLAHLGREALAVTTNASLDFRKPESGRDLLGQARLLKLGRTLAVGDILLFSEGEAPVARSTTYSIPP NLYFQGELVFDKDGLSAYLEEVFPQIQGEFSIDALAKGEITRLNVQERHLRPGGTVSGPSFALADVSVYALVLAHLGREALAVTTNASLDFRKPESGRDLLGQARLLKLGRTLAVGDILLFSEGEAPVARSTTYSIPP 2qwz-a1-m1-cD_2qwz-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (TM1040_1390) FROM SILICIBACTER SP. TM1040 AT 2.15 A RESOLUTION Q1GGU3 Q1GGU3 2.15 X-RAY DIFFRACTION 13 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 132 138 2qwz-a1-m1-cC_2qwz-a1-m1-cA ELVFDKDGLSAYLEEVFPQIQGEFSIDALAKGEITRLNVQERHLRPGGTVSGPSFALADVSVYALVLAHLGREALAVTTNASLDFRKPESGRDLLGQARLLKLGRTLAVGDILLFSEGEAPVARSTTYSIPP NLYFQGELVFDKDGLSAYLEEVFPQIQGEFSIDALAKGEITRLNVQERHLRPGGTVSGPSFALADVSVYALVLAHLGREALAVTTNASLDFRKPESGRDLLGQARLLKLGRTLAVGDILLFSEGEAPVARSTTYSIPP 2qx0-a1-m1-cA_2qx0-a1-m1-cB Crystal Structure of Yersinia pestis HPPK (Ternary Complex) A0A5P8YCA3 A0A5P8YCA3 1.8 X-RAY DIFFRACTION 60 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 158 158 MIRVYIALGSNLAMPLQQVSAAREALAHLPRSRLVASPLYRTKPLGPQDQPDFLNAVVALDTSLPPEQLLDHTQAIERNQGRVRKEQRWGPRTLDLDIMLYGDQVIKTDRLTIPHYGLKAREFMLYPLADIAPDLIFPDGESLSECLKRVDKNGLVLW MIRVYIALGSNLAMPLQQVSAAREALAHLPRSRLVASPLYRTKPLGPQDQPDFLNAVVALDTSLPPEQLLDHTQAIERNQGRVRKEQRWGPRTLDLDIMLYGDQVIKTDRLTIPHYGLKAREFMLYPLADIAPDLIFPDGESLSECLKRVDKNGLVLW 2qxl-a1-m1-cA_2qxl-a1-m1-cB Crystal Structure Analysis of Sse1, a yeast Hsp110 P32589 P32589 2.41 X-RAY DIFFRACTION 38 0.992 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 617 625 TPFGLDLGNNNSVLAVARNRGIDIVVNEVSNRSTPSVVGFGPKNRYLGETGKNKQTSNIKNTVANLKRIIGLDYHHPDFEQESKHFTSKLVELDDKKTGAEVRFAGEKHVFSATQLAAMFIDKVKDTVKQDTKANITDVCIAVPPWYTEEQRYNIADAARIAGLNPVRIVNDVTAAGVSYGIFKTDLPEGEEKPRIVAFVDIGHSSYTCSIMAFKKGQLKVLGTACDKHFGGRDFDLAITEHFADEFKTKYKIDIRENPKAYNRILTAAEKLKKVLSANTNAPFSVESVMNDVDVSSQLSREELEELVKPLLERVTEPVTKALAQAKLSAEEVDFVEIIGGTTRIPTLKQSISEAFGKPLSTTLNQDEAIAKGAAFICAIHSRPFKFEDIHPYSVSYSWDKQVEDEDHMEVFPAGSSFPSTKLITLNRTGDFSMAASYTDITQLPPNTPEQIANWEITDSVPVKLKLRCDPSGLHTIEEAYTIEDKTVKKDDLTIVAHTFGLDAKKLNELIEKENEMLAQDKLVAETEDRKNTLEEYIYTLRGKLEEEYAPFASDAEKTKLQGMLNKAEEWLYDEGFDSIKAKYIAKYEELASLGNIIRGRYLAKEEEKKQAIRSKQ TPFGLDLGNNNSVLAVARNRGIDIVVNEVSNRSTPSVVGFGPKNRYLGETGKNKQTSNIKNTVANLKRIIGLDYHHPDFEQESKHFTSKLVELDDKKTGAEVRFAGEKHVFSATQLAAMFIDKVKDTVKQDTKANITDVCIAVPPWYTEEQRYNIADAARIAGLNPVRIVNDVTAAGVSYGIFKTDLPEGEEKPRIVAFVDIGHSSYTCSIMAFKKGQLKVLGTACDKHFGGRDFDLAITEHFADEFKTKYKIDIRENPKAYNRILTAAEKLKKVLSANTNAPFSVESVMNDVDVSSQLSREELEELVKPLLERVTEPVTKALAQAKLSAEEVDFVEIIGGTTRIPTLKQSISEAFGKPLSTTLNQDEAIAKGAAFICAIHSPTLRVRPFKFEDIHPYSVSYSWDKQVEDEDHMEVFPAGSSFPSTKLITLNRTGDFSMAASYTDITQLPPNTPEQIANWEITQLPEGQDSVPVKLKLRCDPSGLHTIEEAYTIEDIEKTVKKDDLTIVAHTFGLDAKKLNELIEKENEMLAQDKLVAETEDRKNTLEEYIYTLRGKLEEEYAPFASDAEKTKLQGMLNKAEEWLYDEGFDSIKAKYIAKYEELASLGNIIRGRYLAKEEEKKQA 2qxt-a3-m1-cA_2qxt-a3-m2-cB Crystal Structure Analysis of the Bacillus subtilis lipase crystallized at pH 4.5 P37957 P37957 2 X-RAY DIFFRACTION 34 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 179 179 2qxu-a10-m1-cB_2qxu-a10-m3-cD 2qxu-a11-m1-cE_2qxu-a11-m4-cF 2qxu-a12-m1-cG_2qxu-a12-m5-cG 2qxu-a13-m1-cH_2qxu-a13-m6-cH 2qxu-a9-m1-cA_2qxu-a9-m2-cC 5ct6-a3-m1-cA_5ct6-a3-m1-cB HNPVVMVHGIGGASFNFAGIKSYLVSQGWSRDKLYAVDFWDKTGTNYNNGPVLSRFVQKVLDETGAKKVDIVAHSMGGANTLYYIKNLDGGNKVANVVTLGGANRLTTGKALPGTDPNQKILYTSIYSSADMIVMNYLSRLDGARNVQIHGVGHIGLLYSSQVNSLIKEGLNGGGQNTN HNPVVMVHGIGGASFNFAGIKSYLVSQGWSRDKLYAVDFWDKTGTNYNNGPVLSRFVQKVLDETGAKKVDIVAHSMGGANTLYYIKNLDGGNKVANVVTLGGANRLTTGKALPGTDPNQKILYTSIYSSADMIVMNYLSRLDGARNVQIHGVGHIGLLYSSQVNSLIKEGLNGGGQNTN 2qxy-a1-m1-cB_2qxy-a1-m1-cA Crystal structure of a response regulator from Thermotoga maritima Q9WZU6 Q9WZU6 1.95 X-RAY DIFFRACTION 23 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 116 118 TPTVVVDESRITFLAVKNALEKDGFNVIWAKNEQEAFTFLRREKIDLVFVDVFEGEESLNLIRRIREEFPDTKVAVLSAYVDKDLIINSVKAGAVDYILKPFRLDYLLERVKKIIS LTPTVVVDESRITFLAVKNALEKDGFNVIWAKNEQEAFTFLRREKIDLVFVDVFEGEESLNLIRRIREEFPDTKVAVLSAYVDKDLIINSVKAGAVDYILKPFRLDYLLERVKKIISS 2qy6-a2-m1-cB_2qy6-a2-m3-cB Crystal structure of the N-terminal domain of UPF0209 protein yfcK from Escherichia coli O157:H7 Q8XCQ7 Q8XCQ7 2 X-RAY DIFFRACTION 53 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 244 244 2qy6-a1-m1-cA_2qy6-a1-m2-cA SLKHYSIQPANLEFNAEGTPVSRDFDDVYFSNDNGLEETRYVFLGGNQLEARFPEHPHPLFVVAESGFGTGLNFLTLWQAFDQFREAHPQAQLQRLHFISFEKFPLTRADLALAHQHWPELAPWAEQLQAQWPMPLPGCHRLLLDRVTLDLWFGDINELISQLDDSLNQKVDAWFLDGFAPAKNPDMWTQNLFNAMARLARPGGTLATFTSAGFVRRGLQEAGFTMQKRKGFGRKREMLCGVME SLKHYSIQPANLEFNAEGTPVSRDFDDVYFSNDNGLEETRYVFLGGNQLEARFPEHPHPLFVVAESGFGTGLNFLTLWQAFDQFREAHPQAQLQRLHFISFEKFPLTRADLALAHQHWPELAPWAEQLQAQWPMPLPGCHRLLLDRVTLDLWFGDINELISQLDDSLNQKVDAWFLDGFAPAKNPDMWTQNLFNAMARLARPGGTLATFTSAGFVRRGLQEAGFTMQKRKGFGRKREMLCGVME 2qya-a2-m1-cC_2qya-a2-m1-cD Crystal structure of an uncharacterized conserved protein from Methanopyrus kandleri Q8TWR4 Q8TWR4 2.17 X-RAY DIFFRACTION 79 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 115 115 2qya-a1-m1-cA_2qya-a1-m1-cB ARVLLNIHGTGDTVVLALCDEDLLGVELKYKGRTLHISEPFYSGKSMEPDRAAKKIREAVQEYEDEKTVAINALGELACSVVVDAGLAREDEIGELGGVPHVQMYILPREPFLEG ARVLLNIHGTGDTVVLALCDEDLLGVELKYKGRTLHISEPFYSGKSMEPDRAAKKIREAVQEYEDEKTVAINALGELACSVVVDAGLAREDEIGELGGVPHVQMYILPREPFLEG 2qyb-a1-m1-cA_2qyb-a1-m2-cA Crystal structure of the GAF domain region of putative membrane protein from Geobacter sulfurreducens PCA Q74D90 Q74D90 2.4 X-RAY DIFFRACTION 27 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 147 147 SEINRTLDLQIIDDLLNLLLKEFKLDLAVIRLVDEKGVLRVRSYSGKGIAGIAGKDWEPEIETYIGEAFLSNRLQFVNDTQYTKPLTRELQKEGIKSFAHIPISRKGEPPFGILSVFSRTIVGLFNEPFLNLLESLAGQLAQAVKIV SEINRTLDLQIIDDLLNLLLKEFKLDLAVIRLVDEKGVLRVRSYSGKGIAGIAGKDWEPEIETYIGEAFLSNRLQFVNDTQYTKPLTRELQKEGIKSFAHIPISRKGEPPFGILSVFSRTIVGLFNEPFLNLLESLAGQLAQAVKIV 2qyc-a2-m1-cA_2qyc-a2-m2-cB Crystal structure of a dimeric ferredoxin-like protein (bb1511) from bordetella bronchiseptica rb50 at 1.90 A resolution A0A0H3LJT0 A0A0H3LJT0 1.9 X-RAY DIFFRACTION 23 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 95 95 2qyc-a2-m1-cB_2qyc-a2-m2-cA GTFLHVVEFDDGIDAGFFRTVDEYVARKRECDGLLLYHFGENVAARSQGYTHATSSAFVDAAAHDAYQVCPAHVAKAFGPRIKRVVVYDGEVPAI GTFLHVVEFDDGIDAGFFRTVDEYVARKRECDGLLLYHFGENVAARSQGYTHATSSAFVDAAAHDAYQVCPAHVAKAFGPRIKRVVVYDGEVPAI 2qyc-a2-m1-cB_2qyc-a2-m2-cB Crystal structure of a dimeric ferredoxin-like protein (bb1511) from bordetella bronchiseptica rb50 at 1.90 A resolution A0A0H3LJT0 A0A0H3LJT0 1.9 X-RAY DIFFRACTION 31 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 95 95 GTFLHVVEFDDGIDAGFFRTVDEYVARKRECDGLLLYHFGENVAARSQGYTHATSSAFVDAAAHDAYQVCPAHVAKAFGPRIKRVVVYDGEVPAI GTFLHVVEFDDGIDAGFFRTVDEYVARKRECDGLLLYHFGENVAARSQGYTHATSSAFVDAAAHDAYQVCPAHVAKAFGPRIKRVVVYDGEVPAI 2qyc-a2-m2-cA_2qyc-a2-m2-cB Crystal structure of a dimeric ferredoxin-like protein (bb1511) from bordetella bronchiseptica rb50 at 1.90 A resolution A0A0H3LJT0 A0A0H3LJT0 1.9 X-RAY DIFFRACTION 82 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 95 95 2qyc-a1-m1-cA_2qyc-a1-m1-cB 2qyc-a2-m1-cA_2qyc-a2-m1-cB GTFLHVVEFDDGIDAGFFRTVDEYVARKRECDGLLLYHFGENVAARSQGYTHATSSAFVDAAAHDAYQVCPAHVAKAFGPRIKRVVVYDGEVPAI GTFLHVVEFDDGIDAGFFRTVDEYVARKRECDGLLLYHFGENVAARSQGYTHATSSAFVDAAAHDAYQVCPAHVAKAFGPRIKRVVVYDGEVPAI 2qyg-a2-m1-cC_2qyg-a2-m1-cD Crystal Structure of a RuBisCO-like Protein rlp2 from Rhodopseudomonas palustris Q6ND47 Q6ND47 3.3 X-RAY DIFFRACTION 255 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 429 429 2qyg-a1-m1-cA_2qyg-a1-m1-cB MTPDDIAGFYAKRADLDLDNYIELDFDFECAGDPHEAAAHLCSEQSTAQWRRVGFDEDFRPRFAAKVLELSAEPRPSGFSVPVECAARGPVHACRVTIAHPHGNFGAKIPNLLSAVCGEGVFFSPGIPLIRLQDIRFPEPYLAAFDGPRFGIAGVRERLQAFDRPIFFGVIKPNIGLPPQPFAELGYQSWTGGLDIAKDDEMLADVDWCPLAERAALLGDACRRASAETGVPKIYLANITDEVDRLTELHDVAVANGAGALLINAMPVGLSAVRMLRKHATVPLIAHFPFIAAFSRLANYGIHSRVMTRLQRLAGFDVVIMPGFGPRMMTPEHEVLDCIRACLEPMGPIKPCLPVPGGSDSAATLENVYRKVGSADFGFVPGRGVFGHPMGPAAGATSIRQAWDAIAAGIPVPDHAASHPELAAALRAF MTPDDIAGFYAKRADLDLDNYIELDFDFECAGDPHEAAAHLCSEQSTAQWRRVGFDEDFRPRFAAKVLELSAEPRPSGFSVPVECAARGPVHACRVTIAHPHGNFGAKIPNLLSAVCGEGVFFSPGIPLIRLQDIRFPEPYLAAFDGPRFGIAGVRERLQAFDRPIFFGVIKPNIGLPPQPFAELGYQSWTGGLDIAKDDEMLADVDWCPLAERAALLGDACRRASAETGVPKIYLANITDEVDRLTELHDVAVANGAGALLINAMPVGLSAVRMLRKHATVPLIAHFPFIAAFSRLANYGIHSRVMTRLQRLAGFDVVIMPGFGPRMMTPEHEVLDCIRACLEPMGPIKPCLPVPGGSDSAATLENVYRKVGSADFGFVPGRGVFGHPMGPAAGATSIRQAWDAIAAGIPVPDHAASHPELAAALRAF 2qyh-a2-m1-cC_2qyh-a2-m1-cB Crystal structure of the hypothetical protein (gk1056) from geobacillus kaustophilus HTA426 Q5L139 Q5L139 2.6 X-RAY DIFFRACTION 53 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 248 249 2qyh-a1-m1-cA_2qyh-a1-m1-cD GRKIVFFDIDGTLLDEQKQLPLSTIEAVRRLKQSGVYVAIATGRAPFFEHVRKQLGIDSFVSFNGQYVVFEGNVLYKQPLRREKVRALTEEAHKNGHPLVFDAEKRASIGDHPHIHVSASLKFAHPPVDPLYYENKDIYQALLFCRAEEEEPYVRNYPEFRFVRWHDVSTDVLPAGGSKAEGIRIEKLGIDKKDVYAFGDGLNDIELSFVGTGVAGNAHEEVKRVADFVTKPVDKEGIWYGLKQLQLI GRKIVFFDIDGTLLDEQKQLPLSTIEAVRRLKQSGVYVAIATGRAPFFEHVRKQLGIDSFVSFNGQYVVFEGNVLYKQPLRREKVRALTEEAHKNGHPLVFDAEKRASIGDHPHIHVSASLKFAHPPVDPLYYENKDIYQALLFCRAEEEEPYVRNYPEFRFVRWHDVSTDVLPAGGSKAEGIRIEKLGIDKKDVYAFGDGLNDIELSFVGTGVAGNAHEEVKRVADFVTKPVDKEGIWYGLKQLQLIR 2qyi-a1-m1-cB_2qyi-a1-m1-cD Crystal structure of a binary complex between an engineered trypsin inhibitor and Bovine trypsin P10822 P10822 2.6 X-RAY DIFFRACTION 21 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 175 175 DDDLVDAEGNLVENGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSQFRSLFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKA DDDLVDAEGNLVENGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSQFRSLFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKA 2qym-a1-m1-cA_2qym-a1-m2-cA crystal structure of unliganded PDE4C2 Q08493 Q08493 1.9 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 291 291 VPRFGVQTDQEEQLAKELEDTNKWGLDVFKVAELSGNRPLTAIIFSIFQERDLLKTFQIPADTLATYLLMLEGHYHANVAYHNSLHAADVAQSTHVLLATPALEAVFTDLEILAALFASAIHDVDHPGVSNQNDASVLENHHLAVGFKLLQAENCDIFQNLSAKQRLSLRRMVIDMVLATDMSKHMNLLADLKTMVETKKVTSLGVLLLDNYSDRIQVLQNLVHCADLSNPTKPLPLYRQWTDRIMAEFFQQQVGFIDYIAHPLWETWADLVHPDAQDLLDTLEDNREWYQ VPRFGVQTDQEEQLAKELEDTNKWGLDVFKVAELSGNRPLTAIIFSIFQERDLLKTFQIPADTLATYLLMLEGHYHANVAYHNSLHAADVAQSTHVLLATPALEAVFTDLEILAALFASAIHDVDHPGVSNQNDASVLENHHLAVGFKLLQAENCDIFQNLSAKQRLSLRRMVIDMVLATDMSKHMNLLADLKTMVETKKVTSLGVLLLDNYSDRIQVLQNLVHCADLSNPTKPLPLYRQWTDRIMAEFFQQQVGFIDYIAHPLWETWADLVHPDAQDLLDTLEDNREWYQ 2qyo-a1-m1-cB_2qyo-a1-m1-cA Crystal structure of isoflavone O-methyltransferase homolog in complex with biochanin A and SAH Q06YR3 Q06YR3 1.95 X-RAY DIFFRACTION 293 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 352 353 NNRKPSEIFKAQALLYKNMYAFVDSMSLKWSIEMNIPNIIHNHGKPITLSNLVSILQIPSTKVDNVQRLMRYLAHNGFFEIITNQELENEEEAYALTVASELLVKGTELCLAPMVECVLDPTLSTSFHNLKKWVYEEDLTLFAVNLGCDLWEFLNKNPEYNTLYNDALASDSKMINLAMKDCNLVFEGLESIVDVGGGNGTTGKIICETFPKLTCVVFDRPKVVENLCGSNNLTYVGGDMFISVPKADAVLLKAVLHDWTDKDCIKILKKCKEAVTSDGKRGKVIVIDMVINEKKDENQLTQIKLLMNVTISCVNGKERNEEEWKKLFIEAGFQDYKISPFTGLMSLIEIYP INNRKPSEIFKAQALLYKNMYAFVDSMSLKWSIEMNIPNIIHNHGKPITLSNLVSILQIPSTKVDNVQRLMRYLAHNGFFEIITNQELENEEEAYALTVASELLVKGTELCLAPMVECVLDPTLSTSFHNLKKWVYEEDLTLFAVNLGCDLWEFLNKNPEYNTLYNDALASDSKMINLAMKDCNLVFEGLESIVDVGGGNGTTGKIICETFPKLTCVVFDRPKVVENLCGSNNLTYVGGDMFISVPKADAVLLKAVLHDWTDKDCIKILKKCKEAVTSDGKRGKVIVIDMVINEKKDENQLTQIKLLMNVTISCVNGKERNEEEWKKLFIEAGFQDYKISPFTGLMSLIEIYP 2qyp-a1-m1-cA_2qyp-a1-m1-cB Orthorhombic Crystal Structure of Human Saposin C Dimer in Open Conformation P07602 P07602 2.45 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 81 2z9a-a1-m1-cA_2z9a-a1-m1-cB SDVYCEVCEFLVKEVTKLIDNNKTEKEILDAFDKMCSKLPKSLSEECQEVVDTYGSSILSILLEEVSPELVCSMLHLC AYVSDVYCEVCEFLVKEVTKLIDNNKTEKEILDAFDKMCSKLPKSLSEECQEVVDTYGSSILSILLEEVSPELVCSMLHLC 2qyv-a1-m1-cB_2qyv-a1-m1-cA Crystal structure of putative Xaa-His dipeptidase (YP_718209.1) from Haemophilus somnus 129PT at 2.11 A resolution Q0I1B9 Q0I1B9 2.11 X-RAY DIFFRACTION 92 1.0 205914 (Histophilus somni 129PT) 205914 (Histophilus somni 129PT) 463 465 LQPKLLWQWFDQICAIPHPSYKEEQLAQFIINWAKTKGFFAERDEVGNVLIRKPATVGENRKPVVLQAHLDVPQQDPILPYIDGDWVKAKGTTLGADNGIGASALAVLESNDIAHPELEVLLTTEERGEGAIGLRPNWLRSEILINTDTEENGEIYIGCAGGENADLELPIEYQVNNFEHCYQVVLKGLRGGHSGVDIHTGRANAIKVLLRFLAELQQNQPHFDFTLANIRGGSIRNAIPRESVATLVFNGDITVLQSAVQKFADVIKAELALTEPNLIFTLEKVEKPQQVFSSQCTKNIIHCLNVLPNGVVRNSDVIENVVETSLSIGVLKTEDNFVRSTLVRSLIESGKSYVASLLKSLASLAQGNINLSGDYPGWEPQSHSDILDLTKTIYAQVLGTDPEIKVIHAGLECGLLKKIYPTIDVSIGPTIRNAHSPDEKVHIPAVETYWKVLTGILAHIPSR QSLQPKLLWQWFDQICAIPHPSYKEEQLAQFIINWAKTKGFFAERDEVGNVLIRKPATVGENRKPVVLQAHLDVPQQDPILPYIDGDWVKAKGTTLGADNGIGASALAVLESNDIAHPELEVLLTTEERGEGAIGLRPNWLRSEILINTDTEENGEIYIGCAGGENADLELPIEYQVNNFEHCYQVVLKGLRGGHSGVDIHTGRANAIKVLLRFLAELQQNQPHFDFTLANIRGGSIRNAIPRESVATLVFNGDITVLQSAVQKFADVIKAELALTEPNLIFTLEKVEKPQQVFSSQCTKNIIHCLNVLPNGVVRNSDVIENVVETSLSIGVLKTEDNFVRSTLVRSLIESGKSYVASLLKSLASLAQGNINLSGDYPGWEPQSHSDILDLTKTIYAQVLGTDPEIKVIHAGLECGLLKKIYPTIDVSIGPTIRNAHSPDEKVHIPAVETYWKVLTGILAHIPSR 2qyz-a1-m1-cA_2qyz-a1-m2-cA Crystal structure of the uncharacterized protein CTC02137 from Clostridium tetani E88 Q892G2 Q892G2 2.04 X-RAY DIFFRACTION 169 1.0 212717 (Clostridium tetani E88) 212717 (Clostridium tetani E88) 127 127 NREVKFRAWDKELNMMVYTKEQTGHIEYNTNPADTINIILNQDDYGYVFMQYTGLKDKNEKEIYEGDIIKKSNRSSNLYEIIYQDSIACFRCKVIKGDIKSFPCLNIGTVRNCEVIGNIYENPELLE NREVKFRAWDKELNMMVYTKEQTGHIEYNTNPADTINIILNQDDYGYVFMQYTGLKDKNEKEIYEGDIIKKSNRSSNLYEIIYQDSIACFRCKVIKGDIKSFPCLNIGTVRNCEVIGNIYENPELLE 2qzc-a2-m1-cB_2qzc-a2-m2-cB Crystal structure of a putative tena-like thiaminase (tena-1, sso2206) from sulfolobus solfataricus p2 at 1.50 A resolution Q97WL0 Q97WL0 1.5 X-RAY DIFFRACTION 31 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 201 201 2qzc-a2-m1-cA_2qzc-a2-m2-cA GNVENLINGVGELWNKYVKHEFILKRDGSLPLDIFRYYLIQDGKYVEDLRALLIASSKGPIDKVTKILNLVFSSETHGKLYSKLDISRDVIVKTGYNLINYAYTRHLYYYANLDWNKFLVAWTPCFGYSIVGDYVIDSPNEVYKTWASFYASTEYKKRIEAILYALDEVSITEDLLNIFINSVRFEIGFWDASLRKDPTVY GNVENLINGVGELWNKYVKHEFILKRDGSLPLDIFRYYLIQDGKYVEDLRALLIASSKGPIDKVTKILNLVFSSETHGKLYSKLDISRDVIVKTGYNLINYAYTRHLYYYANLDWNKFLVAWTPCFGYSIVGDYVIDSPNEVYKTWASFYASTEYKKRIEAILYALDEVSITEDLLNIFINSVRFEIGFWDASLRKDPTVY 2qzc-a2-m2-cB_2qzc-a2-m2-cA Crystal structure of a putative tena-like thiaminase (tena-1, sso2206) from sulfolobus solfataricus p2 at 1.50 A resolution Q97WL0 Q97WL0 1.5 X-RAY DIFFRACTION 39 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 201 206 2qzc-a1-m1-cB_2qzc-a1-m1-cA 2qzc-a2-m1-cB_2qzc-a2-m1-cA GNVENLINGVGELWNKYVKHEFILKRDGSLPLDIFRYYLIQDGKYVEDLRALLIASSKGPIDKVTKILNLVFSSETHGKLYSKLDISRDVIVKTGYNLINYAYTRHLYYYANLDWNKFLVAWTPCFGYSIVGDYVIDSPNEVYKTWASFYASTEYKKRIEAILYALDEVSITEDLLNIFINSVRFEIGFWDASLRKDPTVY IVGNVENLINGVGELWNKYVKHEFILKRDGSLPLDIFRYYLIQDGKYVEDLRALLIASSKGPIDKVTKILNLVFSSKGLETHGKLYSKLDISRDVIVKTGYNLINYAYTRHLYYYANLDWNKFLVAWTPCFGYSIVGDYVIDSPNEVYKTWASFYASTEYKKRIEAILYALDEVSITEDLLNIFINSVRFEIGFWDASLRKDPTVY 2qzg-a2-m1-cD_2qzg-a2-m1-cB Crystal structure of unknown function protein MMP1188 Q6LY05 Q6LY05 2.09 X-RAY DIFFRACTION 40 1.0 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 83 88 2qzg-a1-m1-cA_2qzg-a1-m1-cC KLSPADKLKNISSLEEIVEDTTVPRNIRAAADNAKNALHNEEQELIVRSATAIQYLDDISEDPNPIHTRTQIWGIVSELETIK FSAKKLSPADKLKNISSLEEIVEDTTVPRNIRAAADNAKNALHNEEQELIVRSATAIQYLDDISEDPNPIHTRTQIWGIVSELETIKN 2qzt-a1-m1-cA_2qzt-a1-m1-cB Crystal Structure of Sterol Carrier Protein 2 Like 2 (SCP2-L2) from Aedes Aegypti Q0GY13 Q0GY13 1.7 X-RAY DIFFRACTION 75 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 108 110 3bdq-a1-m1-cA_3bdq-a1-m1-cB GIRMSVETIIERIKARVGAVDPNGPRKVLGVFQLNIKTASGVEQWIVDLKQLKVDQGVFASPDVTVTVGLEDMLAISGKTLTVGDALKQGKIELSGDADLAAKLAEVI SPGIRMSVETIIERIKARVGAVDPNGPRKVLGVFQLNIKTASGVEQWIVDLKQLKVDQGVFASPDVTVTVGLEDMLAISGKTLTVGDALKQGKIELSGDADLAAKLAEVI 2qzu-a1-m1-cA_2qzu-a1-m2-cA Crystal structure of the putative sulfatase yidJ from Bacteroides fragilis. Northeast Structural Genomics Consortium target BfR123 Q64XZ4 Q64XZ4 1.7 X-RAY DIFFRACTION 62 1.0 295405 (Bacteroides fragilis YCH46) 295405 (Bacteroides fragilis YCH46) 450 450 GLQAQEKQPTPNLVFIADQYRGDAIGCIGKEPVKTPHLDKLASEGINFTNAISSYPVSSPARGLTGYPIGSKVTGNCNSETAPYGVELSQNARCWSDVLKDQGYNGYIGKWHLDAPYKPYVDTYNNRGKVAWNEWCPPERRHGFDHWIAYGTYDYHLKPYWNTTAPRDSFYYVNQWGPEYEASKAIEYINGQKDQKQPFALVVSNPPHTGYELVPDRYKEIYKDLDVEALCKGRPDIPAKGTEGDYFRNNIRNYYACITGVDENVGRIIEALKQNNLFDNTIVVFTSDHGICGAHENAGKDIFYEESRIPILSWPDQIKPRKSDPLIAFADLYPTLLSGFSKEIPETVQTFDLSNEVLTGKNKKDLVQPYYFVKFDNHATGYRGLRTDRYTYAVHATDGKIDNVILFDRTNDPHENNIASQQLKLTHTFNRQLKTWLEKTNDPFAQYIKL GLQAQEKQPTPNLVFIADQYRGDAIGCIGKEPVKTPHLDKLASEGINFTNAISSYPVSSPARGLTGYPIGSKVTGNCNSETAPYGVELSQNARCWSDVLKDQGYNGYIGKWHLDAPYKPYVDTYNNRGKVAWNEWCPPERRHGFDHWIAYGTYDYHLKPYWNTTAPRDSFYYVNQWGPEYEASKAIEYINGQKDQKQPFALVVSNPPHTGYELVPDRYKEIYKDLDVEALCKGRPDIPAKGTEGDYFRNNIRNYYACITGVDENVGRIIEALKQNNLFDNTIVVFTSDHGICGAHENAGKDIFYEESRIPILSWPDQIKPRKSDPLIAFADLYPTLLSGFSKEIPETVQTFDLSNEVLTGKNKKDLVQPYYFVKFDNHATGYRGLRTDRYTYAVHATDGKIDNVILFDRTNDPHENNIASQQLKLTHTFNRQLKTWLEKTNDPFAQYIKL 2qzx-a3-m1-cB_2qzx-a3-m1-cA Secreted aspartic proteinase (Sap) 5 from Candida albicans P43094 P43094 2.5 X-RAY DIFFRACTION 87 1.0 5476 (Candida albicans) 5476 (Candida albicans) 342 342 GPVAVTLHNEAITYTADITVGSDNQKLNVIVDTGSSDLWIPDSNVICIPKWRGDKGDFCKSAGSYSPASSRTSQNLNTRFDIKYGDGSYAKGKLYKDTVGIGGVSVRDQLFANVWSTSARKGILGIGFQSGEATEFDYDNLPISLRNQGIIGKAAYSLYLNSAEASTGQIIFGGIDKAKYSGSLVDLPITSEKKLTVGLRSVNVRGRNVDANTNVLLDSGTTISYFTRSIVRNILYAIGAQMKFDSAGNKVYVADCKTSGTIDFQFGNNLKISVPVSEFLFQTYYTSGKPFPKCEVRIRESEDNILGDNFLRSAYVVYNLDDKKISMAPVKYTSESDIVAIN GPVAVTLHNEAITYTADITVGSDNQKLNVIVDTGSSDLWIPDSNVICIPKWRGDKGDFCKSAGSYSPASSRTSQNLNTRFDIKYGDGSYAKGKLYKDTVGIGGVSVRDQLFANVWSTSARKGILGIGFQSGEATEFDYDNLPISLRNQGIIGKAAYSLYLNSAEASTGQIIFGGIDKAKYSGSLVDLPITSEKKLTVGLRSVNVRGRNVDANTNVLLDSGTTISYFTRSIVRNILYAIGAQMKFDSAGNKVYVADCKTSGTIDFQFGNNLKISVPVSEFLFQTYYTSGKPFPKCEVRIRESEDNILGDNFLRSAYVVYNLDDKKISMAPVKYTSESDIVAIN 2qzz-a2-m1-cA_2qzz-a2-m1-cB Structure of Eugenol Synthase from Ocimum basilicum Q15GI4 Q15GI4 1.6 X-RAY DIFFRACTION 34 1.0 39350 (Ocimum basilicum) 39350 (Ocimum basilicum) 310 310 2qzz-a1-m1-cA_2qzz-a1-m1-cB 2r2g-a1-m1-cA_2r2g-a1-m1-cB 2r2g-a2-m1-cA_2r2g-a2-m1-cB GMKSKILIFGGTGYIGNHMVKGSLKLGHPTYVFTRPNSSKTTLLDEFQSLGAIIVKGELDEHEKLVELMKKVDVVISALAFPQILDQFKILEAIKVAGNIKRFLPSDFGVEEDRINALPPFEALIERKRMIRRAIEEANIPYTYVSANCFASYFINYLLRPYDPKDEITVYGTGEAKFAMNYEQDIGLYTIKVATDPRALNRVVIYRPSTNIITQLELISRWEKKIGKKFKKIHVPEEEIVALTKELPEPENIPIAILHCLFIDGATMSYDFKENDVEASTLYPELKFTTIDELLDIFVHDPPPPASAAF GMKSKILIFGGTGYIGNHMVKGSLKLGHPTYVFTRPNSSKTTLLDEFQSLGAIIVKGELDEHEKLVELMKKVDVVISALAFPQILDQFKILEAIKVAGNIKRFLPSDFGVEEDRINALPPFEALIERKRMIRRAIEEANIPYTYVSANCFASYFINYLLRPYDPKDEITVYGTGEAKFAMNYEQDIGLYTIKVATDPRALNRVVIYRPSTNIITQLELISRWEKKIGKKFKKIHVPEEEIVALTKELPEPENIPIAILHCLFIDGATMSYDFKENDVEASTLYPELKFTTIDELLDIFVHDPPPPASAAF 2r00-a2-m1-cC_2r00-a2-m2-cC crystal structure of aspartate semialdehyde dehydrogenase II complexed with ASA from vibrio cholerae P23247 P23247 2.03 X-RAY DIFFRACTION 163 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 335 335 2qz9-a1-m1-cA_2qz9-a1-m1-cC 2qz9-a2-m1-cB_2qz9-a2-m2-cB SQQFNVAIFGATGAVGETMLEVLQEREFPVDELFLLASERSEGKTYRFNGKTVRVQNVEEFDWSQVHIALFSAGGELSAKWAPIAAEAGVVVIDNTSHFRYDYDIPLVVPEVNPEAIAEFRNRNIIANPNSTIQMLVALKPIYDAVGIERINVTTYQSVSGAGKAGIDELAGQTAKLLNGYPAETNTFSQQIAFNCIPQIDQFMDNGYTKEEMKMVWETQKIFNDPSIMVNPTCVRVPVFYGHAEAVHVETRAPIDAEQVMDMLEQTDGIELFRGADFPTQVRDAGGKDHVLVGRVRNDISHHSGINLWVVADNVRKGAATNAVQIAELLVRDYF SQQFNVAIFGATGAVGETMLEVLQEREFPVDELFLLASERSEGKTYRFNGKTVRVQNVEEFDWSQVHIALFSAGGELSAKWAPIAAEAGVVVIDNTSHFRYDYDIPLVVPEVNPEAIAEFRNRNIIANPNSTIQMLVALKPIYDAVGIERINVTTYQSVSGAGKAGIDELAGQTAKLLNGYPAETNTFSQQIAFNCIPQIDQFMDNGYTKEEMKMVWETQKIFNDPSIMVNPTCVRVPVFYGHAEAVHVETRAPIDAEQVMDMLEQTDGIELFRGADFPTQVRDAGGKDHVLVGRVRNDISHHSGINLWVVADNVRKGAATNAVQIAELLVRDYF 2r01-a1-m1-cA_2r01-a1-m2-cA Crystal structure of a putative fmn-dependent nitroreductase (ct0345) from chlorobium tepidum tls at 1.15 A resolution Q8KFI1 Q8KFI1 1.15 X-RAY DIFFRACTION 183 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 191 191 KLRELVARSRSIRRFDEHVAVNDATLRDLVELVCYTPSAANRQLLRFLPVTGADSDKVFPCLKWAGYLEDWPGPEPGERPAAALVLCRNEDLPGAACDSGIAAQTILGAAEKELGGCIVAAIDRERLASLGIPDAWTVLLVIALGKPAETVVIDQIKPGDDIRYWRDKHGIHHVPKRQVDELLVTAEQLRE KLRELVARSRSIRRFDEHVAVNDATLRDLVELVCYTPSAANRQLLRFLPVTGADSDKVFPCLKWAGYLEDWPGPEPGERPAAALVLCRNEDLPGAACDSGIAAQTILGAAEKELGGCIVAAIDRERLASLGIPDAWTVLLVIALGKPAETVVIDQIKPGDDIRYWRDKHGIHHVPKRQVDELLVTAEQLRE 2r0f-a1-m1-cA_2r0f-a1-m2-cB Ligand free structure of fungal lectin CGL3 Q206Z5 Q206Z5 2 X-RAY DIFFRACTION 23 1.0 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 163 163 2r0f-a1-m1-cB_2r0f-a1-m2-cA MFHILRLESTVDLSEPLKDNGIIVFQSDKLDLEPSPNLGPTGIDNTNVNLINAKGDVLLHIGIRRRENAFVFNSIPYGESRGPEERIPLEGTFGDRRDPSITIFDHPDRYQIMIDYKTVYYYKKRLEGRCEKVSYKINEGQTPPFSDVLGVTVLYFANVMPRA MFHILRLESTVDLSEPLKDNGIIVFQSDKLDLEPSPNLGPTGIDNTNVNLINAKGDVLLHIGIRRRENAFVFNSIPYGESRGPEERIPLEGTFGDRRDPSITIFDHPDRYQIMIDYKTVYYYKKRLEGRCEKVSYKINEGQTPPFSDVLGVTVLYFANVMPRA 2r0f-a1-m2-cA_2r0f-a1-m2-cB Ligand free structure of fungal lectin CGL3 Q206Z5 Q206Z5 2 X-RAY DIFFRACTION 34 1.0 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 163 163 2r0f-a1-m1-cA_2r0f-a1-m1-cB 2r0h-a1-m1-cB_2r0h-a1-m1-cA 2r0h-a1-m1-cC_2r0h-a1-m1-cD MFHILRLESTVDLSEPLKDNGIIVFQSDKLDLEPSPNLGPTGIDNTNVNLINAKGDVLLHIGIRRRENAFVFNSIPYGESRGPEERIPLEGTFGDRRDPSITIFDHPDRYQIMIDYKTVYYYKKRLEGRCEKVSYKINEGQTPPFSDVLGVTVLYFANVMPRA MFHILRLESTVDLSEPLKDNGIIVFQSDKLDLEPSPNLGPTGIDNTNVNLINAKGDVLLHIGIRRRENAFVFNSIPYGESRGPEERIPLEGTFGDRRDPSITIFDHPDRYQIMIDYKTVYYYKKRLEGRCEKVSYKINEGQTPPFSDVLGVTVLYFANVMPRA 2r0h-a1-m1-cB_2r0h-a1-m1-cD Fungal lectin CGL3 in complex with chitotriose (chitotetraose) Q206Z5 Q206Z5 1.9 X-RAY DIFFRACTION 37 1.0 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 159 159 2r0f-a1-m1-cA_2r0f-a1-m2-cA 2r0f-a1-m1-cB_2r0f-a1-m2-cB 2r0h-a1-m1-cC_2r0h-a1-m1-cA MFHILRLESTVDLSEPLKDNGIIVFQSDKLDLEPSPNLGPTGIDNTNVNLINAKGDVLLHIGIRRRENAFVFNSIPYGESRGPEERIPLEGTFGDRRDPSITIFDHPDRYQIMIDYKTVYYYKKRLEGRCEKVSYKINEGQTPPFSDVLGVTVLYFANV MFHILRLESTVDLSEPLKDNGIIVFQSDKLDLEPSPNLGPTGIDNTNVNLINAKGDVLLHIGIRRRENAFVFNSIPYGESRGPEERIPLEGTFGDRRDPSITIFDHPDRYQIMIDYKTVYYYKKRLEGRCEKVSYKINEGQTPPFSDVLGVTVLYFANV 2r0q-a1-m1-cF_2r0q-a1-m1-cC Crystal structure of a serine recombinase- DNA regulatory complex P20384 P20384 3.2 X-RAY DIFFRACTION 27 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 191 193 2r0q-a1-m1-cD_2r0q-a1-m1-cE MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKNRPILQKALNFVRMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIQILAMVSEQERNESKQAQGIQVAKEKGVYKGRPLLYSPNAKDPQKRVIYHRVVEMLEEGQAISKIAKEVNITRQTVYRIKHDNG MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKNRPILQKALNFVRMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIQILAMVSEQERNESKRRQAQGIQVAKEKGVYKGRPLLYSPNAKDPQKRVIYHRVVEMLEEGQAISKIAKEVNITRQTVYRIKHDNG 2r0q-a1-m1-cF_2r0q-a1-m1-cE Crystal structure of a serine recombinase- DNA regulatory complex P20384 P20384 3.2 X-RAY DIFFRACTION 79 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 191 193 2r0q-a1-m1-cD_2r0q-a1-m1-cC MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKNRPILQKALNFVRMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIQILAMVSEQERNESKQAQGIQVAKEKGVYKGRPLLYSPNAKDPQKRVIYHRVVEMLEEGQAISKIAKEVNITRQTVYRIKHDNG MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKNRPILQKALNFVRMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIQILAMVSEQERNESKRRQAQGIQVAKEKGVYKGRPLLYSPNAKDPQKRVIYHRVVEMLEEGQAISKIAKEVNITRQTVYRIKHDNG 2r0t-a1-m1-cA_2r0t-a1-m1-cB Crystal structure of GDP-4-keto-6-deoxymannose-3-dehydratase with a trapped PLP-glutamate geminal diamine Q9F118 Q9F118 1.9 X-RAY DIFFRACTION 136 1.0 562 (Escherichia coli) 562 (Escherichia coli) 386 386 2gms-a1-m1-cB_2gms-a1-m1-cA 2gmu-a1-m1-cA_2gmu-a1-m1-cB 3b8x-a1-m1-cA_3b8x-a1-m1-cB 3gr9-a1-m1-cA_3gr9-a1-m1-cB 3gr9-a2-m1-cD_3gr9-a2-m1-cC 3gr9-a3-m1-cE_3gr9-a3-m1-cF 3gr9-a4-m1-cH_3gr9-a4-m1-cG NYPLASSTWDDLEYKAIQSVLDSKMFTMGEYVKQYETQFAKTFGSKYAVMVSSGSTANLLMIAALFFTKKPRLKKGDEIIVPAVSWSTTYYPLQQYGLRVKFVDIDINTLNIDIESLKEAVTDSTKAILTVNLLGNPNNFDEINKIIGGRDIILLEDNCESMGATFNNKCAGTFGLMGTFSSFYSKHIATMEGGCIVTDDEEIYHILLCIRAHGWTRNLPKKNKVTGVKSDDQFEESFKFVLPGYNVRPLEMSGAIGIEQLKKLPRFISVRRKNAEYFLDKFKDHPYLDVQQETGESSWFGFSFIIKKDSGVIRKQLVENLNSAGIECRPIVTGNFLKNTDVLKYFDYTVHNNVDNAEYLDKNGLFVGNHQIELFDEIDYLREVLK NYPLASSTWDDLEYKAIQSVLDSKMFTMGEYVKQYETQFAKTFGSKYAVMVSSGSTANLLMIAALFFTKKPRLKKGDEIIVPAVSWSTTYYPLQQYGLRVKFVDIDINTLNIDIESLKEAVTDSTKAILTVNLLGNPNNFDEINKIIGGRDIILLEDNCESMGATFNNKCAGTFGLMGTFSSFYSKHIATMEGGCIVTDDEEIYHILLCIRAHGWTRNLPKKNKVTGVKSDDQFEESFKFVLPGYNVRPLEMSGAIGIEQLKKLPRFISVRRKNAEYFLDKFKDHPYLDVQQETGESSWFGFSFIIKKDSGVIRKQLVENLNSAGIECRPIVTGNFLKNTDVLKYFDYTVHNNVDNAEYLDKNGLFVGNHQIELFDEIDYLREVLK 2r0x-a1-m1-cA_2r0x-a1-m2-cA Crystal structure of a putative flavin reductase (ycdh, hs_1225) from haemophilus somnus 129pt at 1.06 A resolution Q0I3S1 Q0I3S1 1.06 X-RAY DIFFRACTION 148 1.0 205914 (Histophilus somni 129PT) 205914 (Histophilus somni 129PT) 153 153 VEVSQFKDAAQLASAVHIVTTSGETGQHGFTASAVCSVTDSPPTLLVCINSNARAYEHFVKNRVLVNTLTAEQSSLSNIFASPLSQEERFSNASWTTLTTGSPLQDALINFDCEITEIKHVGTHDILICKIVDIHQSNAKNALVYRNRVYHSV VEVSQFKDAAQLASAVHIVTTSGETGQHGFTASAVCSVTDSPPTLLVCINSNARAYEHFVKNRVLVNTLTAEQSSLSNIFASPLSQEERFSNASWTTLTTGSPLQDALINFDCEITEIKHVGTHDILICKIVDIHQSNAKNALVYRNRVYHSV 2r11-a2-m1-cC_2r11-a2-m1-cD Crystal structure of putative hydrolase (2632844) from Bacillus subtilis at 1.96 A resolution P96688 P96688 1.96 X-RAY DIFFRACTION 57 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 276 279 2r11-a1-m1-cA_2r11-a1-m1-cB ELSDNGIRYYQTYNESLSLWPVRCKSFYISTRFGQTHVIASGPEDAPPLVLLHGALFSSTWYPNIADWSSKYRTYAVDIIGDKNKSIPENVSGTRTDYANWLLDVFDNLGIEKSHIGLSLGGLHTNFLLRPERVKSAAILSPAETFLPFHHDFYKYALGLTASNGVETFLNWNDQNVLHPIFVKQFKAGVWQDGSRNPNPNADGFPYVFTDEELRSARVPILLLLGEHEVIYDPHSALHRASSFVPDIEAEVIKNAGHVLSEQPTYVNERVRFFNA SIPELSDNGIRYYQTYNESLSLWPVRCKSFYISTRFGQTHVIASGPEDAPPLVLLHGALFSSTWYPNIADWSSKYRTYAVDIIGDKNKSIPENVSGTRTDYANWLLDVFDNLGIEKSHIGLSLGGLHTNFLLRPERVKSAAILSPAETFLPFHHDFYKYALGLTASNGVETFLNWNDQNVLHPIFVKQFKAGVWQDGSRNPNPNADGFPYVFTDEELRSARVPILLLLGEHEVIYDPHSALHRASSFVPDIEAEVIKNAGHVLSEQPTYVNERVRFFNA 2r14-a1-m1-cA_2r14-a1-m2-cA Structure of morphinone reductase in complex with tetrahydroNAD Q51990 Q51990 1.4 X-RAY DIFFRACTION 125 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 363 363 1gwj-a1-m1-cA_1gwj-a1-m2-cA 3gx9-a1-m1-cA_3gx9-a1-m2-cA NPGLFTPLQLGSLSLPNRVIMAPLTRSRTPDSVPGRLQQIYYGQRASAGLIISEATNISPTARGYVYTPGIWTDAQEAGWKGVVEAVHAKGGRIALQLWHVGRVSHELVQPDGQQPVAPSALKAEGAECFVEFEDGTAGLHPTSTPRALETDEIPGIVEDYRQAAQRAKRAGFDMVEVHAANACLPNQFLATGTNRRTDQYGGSIENRARFPLEVVDAVAEVFGPERVGIRLTPFLELFGLTDDEPEAMAFYLAGELDRRGLAYLHFNEPDTYPEGFREQMRQRFKGGLIYCGNYDAGRAQARLDDNTADAVAFGRPFIANPDLPERFRLGAALNEPDPSTFYGGAEVGYTDYPFLDNGHDRL NPGLFTPLQLGSLSLPNRVIMAPLTRSRTPDSVPGRLQQIYYGQRASAGLIISEATNISPTARGYVYTPGIWTDAQEAGWKGVVEAVHAKGGRIALQLWHVGRVSHELVQPDGQQPVAPSALKAEGAECFVEFEDGTAGLHPTSTPRALETDEIPGIVEDYRQAAQRAKRAGFDMVEVHAANACLPNQFLATGTNRRTDQYGGSIENRARFPLEVVDAVAEVFGPERVGIRLTPFLELFGLTDDEPEAMAFYLAGELDRRGLAYLHFNEPDTYPEGFREQMRQRFKGGLIYCGNYDAGRAQARLDDNTADAVAFGRPFIANPDLPERFRLGAALNEPDPSTFYGGAEVGYTDYPFLDNGHDRL 2r18-a1-m1-cA_2r18-a1-m2-cA Structural insights into the multifunctional protein VP3 of Birnaviruses P25220 P25220 2.3 X-RAY DIFFRACTION 116 1.0 10995 (Infectious bursal disease virus) 10995 (Infectious bursal disease virus) 129 129 2z7j-a1-m1-cA_2z7j-a1-m2-cA TPEEAQREKDTRISKKMETMGIYFATPEWVALNGHRGPSPGQLKYWQNTREIPDPNEDYLDYVHAEKSRLASEEQILRAATSIYGAPGQAEPPQAFIDEVAKVYEINHGRGPNQEQMKDLLLTAMEMKH TPEEAQREKDTRISKKMETMGIYFATPEWVALNGHRGPSPGQLKYWQNTREIPDPNEDYLDYVHAEKSRLASEEQILRAATSIYGAPGQAEPPQAFIDEVAKVYEINHGRGPNQEQMKDLLLTAMEMKH 2r19-a1-m2-cA_2r19-a1-m2-cB Crystal structure of the periplasmic lipopolysaccharide transport protein LptA (YhbN), orthorhombic form P0ADV1 P0ADV1 2.16 X-RAY DIFFRACTION 72 0.985 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 135 141 2r19-a1-m1-cA_2r19-a1-m1-cB 2r19-a1-m1-cA_2r19-a1-m2-cB 2r1a-a1-m1-cA_2r1a-a1-m1-cB 2r1a-a1-m1-cB_2r1a-a1-m1-cC 2r1a-a1-m1-cC_2r1a-a1-m1-cD 2r1a-a2-m1-cF_2r1a-a2-m1-cG 2r1a-a2-m1-cH_2r1a-a2-m1-cG VTGDTDQPIHIESDQQSLDMQGNVVTFTGNVIVTQGTIKINADKVVVTRPGQGKEVIDGYGKPATFYQMQDNGKPVEGHASQMHYELAKDFVVLTGNAYLQQVDSNIKGDKITYLVKEQKMQAFSDKGKRVTTVL AVTGDTDQPIHIESDQQSLDMQGNVVTFTGNVIVTQGTIKINADKVVVTRPGKEVIDGYGKPATFYQMQDNGKPVEGHASQMHYELAKDFVVLTGNAYLQQVDSNIKGDKITYLVKEQKMQAFSDKGKRVTTVLVPSQLQD 2r1f-a2-m1-cA_2r1f-a2-m2-cB Crystal structure of predicted aminodeoxychorismate lyase from Escherichia coli P28306 P28306 2.21 X-RAY DIFFRACTION 20 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 252 252 2r1f-a2-m1-cB_2r1f-a2-m2-cA HFKAGTYRFTPQTVRELKLLESGKEAQFPLRLVEGRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWYTANTTDVALLKRAHKKVKAVDSAWEGRADGLPYKDKNQLVTASIIEKETAVASERDQVASVFINRLRIGRLQTDPTVIYGGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ HFKAGTYRFTPQTVRELKLLESGKEAQFPLRLVEGRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWYTANTTDVALLKRAHKKVKAVDSAWEGRADGLPYKDKNQLVTASIIEKETAVASERDQVASVFINRLRIGRLQTDPTVIYGGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ 2r1f-a2-m1-cB_2r1f-a2-m2-cB Crystal structure of predicted aminodeoxychorismate lyase from Escherichia coli P28306 P28306 2.21 X-RAY DIFFRACTION 10 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 252 252 2r1f-a2-m1-cA_2r1f-a2-m2-cA HFKAGTYRFTPQTVRELKLLESGKEAQFPLRLVEGRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWYTANTTDVALLKRAHKKVKAVDSAWEGRADGLPYKDKNQLVTASIIEKETAVASERDQVASVFINRLRIGRLQTDPTVIYGGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ HFKAGTYRFTPQTVRELKLLESGKEAQFPLRLVEGRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWYTANTTDVALLKRAHKKVKAVDSAWEGRADGLPYKDKNQLVTASIIEKETAVASERDQVASVFINRLRIGRLQTDPTVIYGGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ 2r1f-a2-m2-cA_2r1f-a2-m2-cB Crystal structure of predicted aminodeoxychorismate lyase from Escherichia coli P28306 P28306 2.21 X-RAY DIFFRACTION 103 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 252 252 2r1f-a1-m1-cA_2r1f-a1-m1-cB 2r1f-a2-m1-cA_2r1f-a2-m1-cB HFKAGTYRFTPQTVRELKLLESGKEAQFPLRLVEGRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWYTANTTDVALLKRAHKKVKAVDSAWEGRADGLPYKDKNQLVTASIIEKETAVASERDQVASVFINRLRIGRLQTDPTVIYGGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ HFKAGTYRFTPQTVRELKLLESGKEAQFPLRLVEGRLSDYLKQLREAPYIKHTLSDDKYATVAQALELENPEWIEGWFWPDTWYTANTTDVALLKRAHKKVKAVDSAWEGRADGLPYKDKNQLVTASIIEKETAVASERDQVASVFINRLRIGRLQTDPTVIYGGERYNGKLSRADLETPTAYNTYTITGLPPGAIATPGADSLKAAAHPAKTPYLYFVADGKGGHTFNTNLASHNKSVQDYLKVLKEKNAQ 2r1i-a1-m1-cA_2r1i-a1-m1-cB Crystal structure of putative acetyltransferase (YP_831484.1) from Arthrobacter sp. FB24 at 1.65 A resolution A0JWG4 A0JWG4 1.65 X-RAY DIFFRACTION 164 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 154 154 DDSASVEVPRRATPADAATVAQLHDFNTEFGAPTPGTDELASRLSHLLAGEDVVVLLAGEPPTGLAVLSFRPNVWYPGPVAILDELYVRPGRRGHRLGSALLAASCGLVRSRGGALLEINVDGEDTDARRFYEARGFTNTEPNGTEPLYYYREL DDSASVEVPRRATPADAATVAQLHDFNTEFGAPTPGTDELASRLSHLLAGEDVVVLLAGEPPTGLAVLSFRPNVWYPGPVAILDELYVRPGRRGHRLGSALLAASCGLVRSRGGALLEINVDGEDTDARRFYEARGFTNTEPNGTEPLYYYREL 2r1j-a1-m1-cL_2r1j-a1-m1-cR Crystal Structure of the P22 c2 Repressor protein in complex with the synthetic operator 9T P69202 P69202 1.53 X-RAY DIFFRACTION 33 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 66 66 3jxb-a1-m1-cD_3jxb-a1-m1-cC 3jxc-a1-m1-cL_3jxc-a1-m1-cR 3jxd-a1-m1-cL_3jxd-a1-m1-cR TQLMGERIRARRKKLKIRQAALGKMVGVSNVAISQWERSETEPNGENLLALSKALQCSPDYLLKGD TQLMGERIRARRKKLKIRQAALGKMVGVSNVAISQWERSETEPNGENLLALSKALQCSPDYLLKGD 2r2c-a1-m1-cB_2r2c-a1-m1-cA Crystal structure of a domain of the outer membrane lipoprotein Omp28 from Porphyromonas gingivalis Q9S3Q1 Q9S3Q1 1.8 X-RAY DIFFRACTION 43 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 107 119 AKINIFAVAEYTDTQKIKVTVKGKILEGNTLPKSVQVYLLEDHVLRGAVNGIWGEEFVNLKDYLYTYAVEPLSGSFVAENYSIVAFVYDVQTFEVYDVVHVKINPQS KSYKTWDVPIAKINIFAVAEYTDTQKIKVTVKGKILEGNTLPKSVQVYLLEDKNHVLRGAVNGIWGEEFVNLKDYLYTYAVEPLSGSFVAENYSIVAFVYDVQTFEVYDVVHVKINPQS 2r2d-a4-m4-cA_2r2d-a4-m5-cD Structure of a quorum-quenching lactonase (AiiB) from Agrobacterium tumefaciens A9CKY2 A9CKY2 1.75 X-RAY DIFFRACTION 48 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 276 276 2r2d-a4-m1-cB_2r2d-a4-m6-cE 2r2d-a4-m1-cC_2r2d-a4-m2-cF MGNKLFVLDLGEIRVDENFIIANSTFVTPQKPTVSSRLIDIPVSAYLIQCTDATVLYDTGCHPECMGTNGRWPAQSQLNAPYIGASECNLPERLRQLGLSPDDISTVVLSHLHNDHAGCVEYFGKSRLIAHEDEFATAVRYFATGDHSSPYIVKDIEAWLATPRNWDLVGRDERERELAPGVNLLNFGTGHASGMLGLAVRLEKQPGFLLVSDACYTATNYGPPARRAGVLHDTIGYDRTVSHIRQYAESRSLTVLFGHDREQFASLIKSTDGFYE MGNKLFVLDLGEIRVDENFIIANSTFVTPQKPTVSSRLIDIPVSAYLIQCTDATVLYDTGCHPECMGTNGRWPAQSQLNAPYIGASECNLPERLRQLGLSPDDISTVVLSHLHNDHAGCVEYFGKSRLIAHEDEFATAVRYFATGDHSSPYIVKDIEAWLATPRNWDLVGRDERERELAPGVNLLNFGTGHASGMLGLAVRLEKQPGFLLVSDACYTATNYGPPARRAGVLHDTIGYDRTVSHIRQYAESRSLTVLFGHDREQFASLIKSTDGFYE 2r2d-a4-m4-cA_2r2d-a4-m6-cE Structure of a quorum-quenching lactonase (AiiB) from Agrobacterium tumefaciens A9CKY2 A9CKY2 1.75 X-RAY DIFFRACTION 81 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 276 276 2r2d-a1-m1-cA_2r2d-a1-m2-cE 2r2d-a2-m1-cB_2r2d-a2-m1-cC 2r2d-a3-m1-cD_2r2d-a3-m3-cF 2r2d-a4-m1-cB_2r2d-a4-m1-cC 2r2d-a4-m2-cF_2r2d-a4-m5-cD MGNKLFVLDLGEIRVDENFIIANSTFVTPQKPTVSSRLIDIPVSAYLIQCTDATVLYDTGCHPECMGTNGRWPAQSQLNAPYIGASECNLPERLRQLGLSPDDISTVVLSHLHNDHAGCVEYFGKSRLIAHEDEFATAVRYFATGDHSSPYIVKDIEAWLATPRNWDLVGRDERERELAPGVNLLNFGTGHASGMLGLAVRLEKQPGFLLVSDACYTATNYGPPARRAGVLHDTIGYDRTVSHIRQYAESRSLTVLFGHDREQFASLIKSTDGFYE MGNKLFVLDLGEIRVDENFIIANSTFVTPQKPTVSSRLIDIPVSAYLIQCTDATVLYDTGCHPECMGTNGRWPAQSQLNAPYIGASECNLPERLRQLGLSPDDISTVVLSHLHNDHAGCVEYFGKSRLIAHEDEFATAVRYFATGDHSSPYIVKDIEAWLATPRNWDLVGRDERERELAPGVNLLNFGTGHASGMLGLAVRLEKQPGFLLVSDACYTATNYGPPARRAGVLHDTIGYDRTVSHIRQYAESRSLTVLFGHDREQFASLIKSTDGFYE 2r2j-a2-m1-cA_2r2j-a2-m2-cA crystal structure of human ERp44 Q9BS26 Q9BS26 2.6 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 320 320 TSLDTENIDEILNNADVALVNFYADWCRFSQLHPIFEEASDVIKEEFNQVVFARVDCDQHSDIAQRYRISKYPTLKLFRNGKREYRGQRSVKALADYIRQQKSDPIQEIKRNIIGYFEQKDSDNYRVFERVANILHDDCAFLSAFGDVDNIIYKPPGHSAPDVYLGATNFDVTYNWIQDKCVPLVREITFENGEELTEEGLPFLILFHKEDTESLEIFQNEVARQLISEKGTINFLHADCDKFRHPLLHIQKTPADCPVIAIDSFRHYVFGDFKDVLIPGKLKQFVFDLHSGKLHREFSSPPESSFQKLAPSEYRYTLLR TSLDTENIDEILNNADVALVNFYADWCRFSQLHPIFEEASDVIKEEFNQVVFARVDCDQHSDIAQRYRISKYPTLKLFRNGKREYRGQRSVKALADYIRQQKSDPIQEIKRNIIGYFEQKDSDNYRVFERVANILHDDCAFLSAFGDVDNIIYKPPGHSAPDVYLGATNFDVTYNWIQDKCVPLVREITFENGEELTEEGLPFLILFHKEDTESLEIFQNEVARQLISEKGTINFLHADCDKFRHPLLHIQKTPADCPVIAIDSFRHYVFGDFKDVLIPGKLKQFVFDLHSGKLHREFSSPPESSFQKLAPSEYRYTLLR 2r2o-a1-m1-cA_2r2o-a1-m1-cB Crystal structure of the effector domain of human Plexin B1 O43157 O43157 2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 102 YRPLTLNALLAAQGVPVKVLDCDTISQAKEKLDQLYKGVPLTQRPDPRTLDVEWRSGVAGHLILSDEDVTSEVQGLWRRLNTLQHYKVPDGATVALVPC YRPLTLNALLAVGPAQGVPVKVLDCDTISQAKEKLDQLYKGVPLTQRPDPRTLDVEWRSGVAGHLILSDEDVTSEVQGLWRRLNTLQHYKVPDGATVALVPC 2r2v-a1-m1-cA_2r2v-a1-m1-cD Sequence Determinants of the Topology of the Lac Repressor Tetrameric Coiled Coil 1.9 X-RAY DIFFRACTION 67 1.0 33 33 2r2v-a1-m1-cB_2r2v-a1-m1-cC KLKQVADKLEEVASKLYHNANELARVAKLLGER KLKQVADKLEEVASKLYHNANELARVAKLLGER 2r2v-a2-m1-cH_2r2v-a2-m1-cG Sequence Determinants of the Topology of the Lac Repressor Tetrameric Coiled Coil 1.9 X-RAY DIFFRACTION 29 1.0 31 33 LKQVADKLEEVASKLYHNANELARVAKLLGE MKLKQVADKLEEVASKLYHNANELARVAKLLGE 2r33-a1-m1-cA_2r33-a1-m1-cB Crystal structure of a Bowman-Birk inhibitor from Vigna unguiculata seeds Q4VVG2 Q4VVG2 2.5 X-RAY DIFFRACTION 40 1.0 3917 (Vigna unguiculata) 3917 (Vigna unguiculata) 55 57 PCCDSCVCTKSIPPQCHCTNIRLNSCHSGCKSCLCTFSGSCRCLDIANFCYKPCK PCCDSCVCTKSIPPQCHCTNIRLNSCHSGCKSCLCTFSIPGSCRCLDIANFCYKPCK 2r37-a3-m4-cB_2r37-a3-m5-cB Crystal structure of human glutathione peroxidase 3 (selenocysteine to glycine mutant) P22352 P22352 1.85 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 188 2r37-a1-m1-cA_2r37-a1-m2-cA 2r37-a2-m1-cB_2r37-a2-m3-cB 2r37-a3-m1-cA_2r37-a3-m2-cA ISGTIYEYGALTIDGEEYIPFKQYAGKYVLFVNVASYGGLTGQYIELNALQEELAPFGLVILGFPCNQFGKQEPGENSEILPTLKYVRPGGGFVPNFQLFEKGDVNGEKEQKFYTFLKNSCPPTSELLGTSDRLFWEPMKVHDIRWNFEKFLVGPDGIPIMRWHHRTTVSNVKMDILSYMRRQAALGV ISGTIYEYGALTIDGEEYIPFKQYAGKYVLFVNVASYGGLTGQYIELNALQEELAPFGLVILGFPCNQFGKQEPGENSEILPTLKYVRPGGGFVPNFQLFEKGDVNGEKEQKFYTFLKNSCPPTSELLGTSDRLFWEPMKVHDIRWNFEKFLVGPDGIPIMRWHHRTTVSNVKMDILSYMRRQAALGV 2r37-a3-m5-cB_2r37-a3-m2-cA Crystal structure of human glutathione peroxidase 3 (selenocysteine to glycine mutant) P22352 P22352 1.85 X-RAY DIFFRACTION 37 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 188 191 2r37-a3-m4-cB_2r37-a3-m1-cA ISGTIYEYGALTIDGEEYIPFKQYAGKYVLFVNVASYGGLTGQYIELNALQEELAPFGLVILGFPCNQFGKQEPGENSEILPTLKYVRPGGGFVPNFQLFEKGDVNGEKEQKFYTFLKNSCPPTSELLGTSDRLFWEPMKVHDIRWNFEKFLVGPDGIPIMRWHHRTTVSNVKMDILSYMRRQAALGV GTIYEYGALTIDGEEYIPFKQYAGKYVLFVNVASYGGLTGQYIELNALQEELAPFGLVILGFPCNQFGKQEPGENSEILPTLKYVRPGGGFVPNFQLFEKGDVNGEKEQKFYTFLKNSCPPTSELLGTSDRLFWEPMKVHDIRWNFEKFLVGPDGIPIMRWHHRTTVSNVKMDILSYMRRQAALGVAENLY 2r3e-a1-m2-cA_2r3e-a1-m4-cA CRYSTAL STRUCTURE OF a ribokinase-like superfamily protein (EF1790) FROM ENTEROCOCCUS FAECALIS V583 AT 1.95 A RESOLUTION Q833Y3 Q833Y3 1.95 X-RAY DIFFRACTION 86 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 269 269 2r3b-a1-m1-cA_2r3b-a1-m1-cB 2r3b-a1-m1-cA_2r3b-a1-m2-cB 2r3b-a1-m2-cA_2r3b-a1-m1-cB 2r3b-a1-m2-cA_2r3b-a1-m2-cB 2r3e-a1-m1-cA_2r3e-a1-m3-cA 2r3e-a1-m1-cA_2r3e-a1-m4-cA 2r3e-a1-m2-cA_2r3e-a1-m3-cA RYLSKDILEEVITQRPSDSYKSNFGRVVLIGGNRQYGGAIISTEACINSGAGLTTVITDVKNHGPLHARCPEAVVGFEETVLLTNVVEQADVILIGPGLGLDATAQQILKVLAQHQKQQWLIIDGSAITLFSQGNFSLTYPEKVVFTPHQEWQRLSHLPIEQQTLANNQRQQAKLGSTIVLKSHRTTIFHAGEPFQNTGGNPGATGGTGDTLAGIIAGFLAQFKPTIETIAGAVYLHSLIGDDLAKTDYVVLPTKISQALPTYKKYAQP RYLSKDILEEVITQRPSDSYKSNFGRVVLIGGNRQYGGAIISTEACINSGAGLTTVITDVKNHGPLHARCPEAVVGFEETVLLTNVVEQADVILIGPGLGLDATAQQILKVLAQHQKQQWLIIDGSAITLFSQGNFSLTYPEKVVFTPHQEWQRLSHLPIEQQTLANNQRQQAKLGSTIVLKSHRTTIFHAGEPFQNTGGNPGATGGTGDTLAGIIAGFLAQFKPTIETIAGAVYLHSLIGDDLAKTDYVVLPTKISQALPTYKKYAQP 2r3s-a2-m1-cB_2r3s-a2-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE O-METHYLTRANSFERASE (NPUN_R0239) FROM NOSTOC PUNCTIFORME PCC 73102 AT 2.15 A RESOLUTION 2.15 X-RAY DIFFRACTION 12 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 315 315 STPSPALFFNTVNAYQRSAAIKAAVELNVFTAISQGIESSQSLAQKCQTSERGRLCDYLVIIGFTKQAEGYRLTSDSAFLDRQSKFYVGDAIEFLLSPITNGFNDLTAAVLKGGTAITLSPEHPVWVQFAKASPANPAQLIAQLVNEPLKVLDISASHGLFGIAVAQHNPNAEIFGVDWASVLEVAKENARIQGVASRYHTIAGSAFEVDYGNDYDLVLLPNFLHHFDVATCEQLLRKIKTALAVEGKVIVFDFIPNSDRITPPDAAAFSLVLATTPNGDAYTFAEYESFSNAGFSHSQLHSLPTTQQQVIVAYK STPSPALFFNTVNAYQRSAAIKAAVELNVFTAISQGIESSQSLAQKCQTSERGRLCDYLVIIGFTKQAEGYRLTSDSAFLDRQSKFYVGDAIEFLLSPITNGFNDLTAAVLKGGTAITLSPEHPVWVQFAKASPANPAQLIAQLVNEPLKVLDISASHGLFGIAVAQHNPNAEIFGVDWASVLEVAKENARIQGVASRYHTIAGSAFEVDYGNDYDLVLLPNFLHHFDVATCEQLLRKIKTALAVEGKVIVFDFIPNSDRITPPDAAAFSLVLATTPNGDAYTFAEYESFSNAGFSHSQLHSLPTTQQQVIVAYK 2r3s-a2-m2-cB_2r3s-a2-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE O-METHYLTRANSFERASE (NPUN_R0239) FROM NOSTOC PUNCTIFORME PCC 73102 AT 2.15 A RESOLUTION 2.15 X-RAY DIFFRACTION 58 0.997 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 315 320 2r3s-a2-m1-cB_2r3s-a2-m2-cA STPSPALFFNTVNAYQRSAAIKAAVELNVFTAISQGIESSQSLAQKCQTSERGRLCDYLVIIGFTKQAEGYRLTSDSAFLDRQSKFYVGDAIEFLLSPITNGFNDLTAAVLKGGTAITLSPEHPVWVQFAKASPANPAQLIAQLVNEPLKVLDISASHGLFGIAVAQHNPNAEIFGVDWASVLEVAKENARIQGVASRYHTIAGSAFEVDYGNDYDLVLLPNFLHHFDVATCEQLLRKIKTALAVEGKVIVFDFIPNSDRITPPDAAAFSLVLATTPNGDAYTFAEYESFSNAGFSHSQLHSLPTTQQQVIVAYK TPSPALFFNTVNAYQRSAAIKAAVELNVFTAISQGIESSQSLAQKCQTSERGRLCDYLVIIGFTKQAEGYRLTSDSAFLDRQSKFYVGDAIEFLLSPITNGFNDLTAAVLKGGTAISSEGTLSPEHPVWVQFAKASPANPAQLIAQLVNEIEPLKVLDISASHGLFGIAVAQHNPNAEIFGVDWASVLEVAKENARIQGVASRYHTIAGSAFEVDYGNDYDLVLLPNFLHHFDVATCEQLLRKIKTALAVEGKVIVFDFIPNSDRITPPDAAAFSLVLATTPNGDAYTFAEYESFSNAGFSHSQLHSLPTTQQQVIVAYK 2r3s-a2-m2-cB_2r3s-a2-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE O-METHYLTRANSFERASE (NPUN_R0239) FROM NOSTOC PUNCTIFORME PCC 73102 AT 2.15 A RESOLUTION 2.15 X-RAY DIFFRACTION 219 0.997 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 315 320 2r3s-a1-m1-cB_2r3s-a1-m1-cA 2r3s-a2-m1-cB_2r3s-a2-m1-cA STPSPALFFNTVNAYQRSAAIKAAVELNVFTAISQGIESSQSLAQKCQTSERGRLCDYLVIIGFTKQAEGYRLTSDSAFLDRQSKFYVGDAIEFLLSPITNGFNDLTAAVLKGGTAITLSPEHPVWVQFAKASPANPAQLIAQLVNEPLKVLDISASHGLFGIAVAQHNPNAEIFGVDWASVLEVAKENARIQGVASRYHTIAGSAFEVDYGNDYDLVLLPNFLHHFDVATCEQLLRKIKTALAVEGKVIVFDFIPNSDRITPPDAAAFSLVLATTPNGDAYTFAEYESFSNAGFSHSQLHSLPTTQQQVIVAYK TPSPALFFNTVNAYQRSAAIKAAVELNVFTAISQGIESSQSLAQKCQTSERGRLCDYLVIIGFTKQAEGYRLTSDSAFLDRQSKFYVGDAIEFLLSPITNGFNDLTAAVLKGGTAISSEGTLSPEHPVWVQFAKASPANPAQLIAQLVNEIEPLKVLDISASHGLFGIAVAQHNPNAEIFGVDWASVLEVAKENARIQGVASRYHTIAGSAFEVDYGNDYDLVLLPNFLHHFDVATCEQLLRKIKTALAVEGKVIVFDFIPNSDRITPPDAAAFSLVLATTPNGDAYTFAEYESFSNAGFSHSQLHSLPTTQQQVIVAYK 2r3v-a6-m1-cD_2r3v-a6-m1-cC The Biochemical and Structural Basis for Feedback Inhibition of Mevalonate Kinase and Isoprenoid Metabolism Q03426 Q03426 2.5 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 389 390 2r3v-a5-m1-cB_2r3v-a5-m1-cA LSEVLLVSAPGKVILHGEHAVVHGKVALAVSLNLRTFLRLQPHSNGKVDLSLPNIGIKRAWDVARLQSLDTSFLTTPTSEQVEKLKEVAGLPDDCAVTERLAVLAFLYLYLSICRKQRALPSLDIVVWSELPPGAGLGSSAAYSVCLAAALLTVCEEIPNPLKDGDCVNRWTKEDLELINKWAFQGERMIHGNPSGVDNAVSTWGGALRYHQGKISSLKRSPALQILLTNTKVPRNTRALVAGVRNRLLKFPEIVAPLLTSIDAISLECERVLGEMGEAPAPEQYLVLEELIDMNQHHLNALGVGHASLDQLCQVTRARGLHSKLTGAGGGGCGITLLKPGLEQPEVEATKQALTSCGFDCLETSIGAPGVSIHSATSLDSRVQQALDG LSEVLLVSAPGKVILHGEHAVVHGKVALAVSLNLRTFLRLQPHSNGKVDLSLPNIGIKRAWDVARLQSLDTSFLVTTPTSEQVEKLKEVAGLPDDCAVTERLAVLAFLYLYLSICRKQRALPSLDIVVWSELPPGAGLGSSAAYSVCLAAALLTVCEEIPNPLKDGDCVNRWTKEDLELINKWAFQGERMIHGNPSGVDNAVSTWGGALRYHQGKISSLKRSPALQILLTNTKVPRNTRALVAGVRNRLLKFPEIVAPLLTSIDAISLECERVLGEMGEAPAPEQYLVLEELIDMNQHHLNALGVGHASLDQLCQVTRARGLHSKLTGAGGGGCGITLLKPGLEQPEVEATKQALTSCGFDCLETSIGAPGVSIHSATSLDSRVQQALDG 2r3z-a1-m1-cB_2r3z-a1-m1-cA Crystal structure of mouse IP-10 P17515 P17515 2.5 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 67 68 IPLARTVRCNCIHIDDGPVRMRAIGKLEIIPASLSCPRVEIIATMKKNDEQRCLNPESKTIKNLMKA IPLARTVRCNCIHIDDGPVRMRAIGKLEIIPASLSCPRVEIIATMKKNDEQRCLNPESKTIKNLMKAF 2r3z-a1-m1-cD_2r3z-a1-m1-cA Crystal structure of mouse IP-10 P17515 P17515 2.5 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 64 68 2r3z-a1-m1-cC_2r3z-a1-m1-cB ARTVRCNCIHIDDGPVRMRAIGKLEIIPASLSCPRVEIIATMKKNDEQRCLNPESKTIKNLMKA IPLARTVRCNCIHIDDGPVRMRAIGKLEIIPASLSCPRVEIIATMKKNDEQRCLNPESKTIKNLMKAF 2r40-a2-m1-cA_2r40-a2-m2-cA Crystal structure of 20E bound EcR/USP Q7SIF6 Q7SIF6 2.402 X-RAY DIFFRACTION 88 1.0 7102 (Heliothis virescens) 7102 (Heliothis virescens) 238 238 1r1k-a2-m1-cA_1r1k-a2-m2-cA 1r20-a2-m1-cA_1r20-a2-m2-cA 3ixp-a1-m1-cA_3ixp-a1-m2-cA QELSIERLLEMESLVADPSEEFQFLRVGPDSNVPPKFRAPVSSLCQIGNKQIAALVVWARDIPHFSQLEMEDQILLIKGSWNELLLFAIAWRSMEFLTTTSPPQLMCLMPGMTLHRNSALQAGVGQIFDRVLSELSLKMRTLRVDQAEYVALKAIILLNPDVKGLKNRQEVEVLREKMFLCLDEYCRRSRSSEEGRFAALLLRLPALRSISLKSFEHLFFFHLVADTSIAGYIRDALR QELSIERLLEMESLVADPSEEFQFLRVGPDSNVPPKFRAPVSSLCQIGNKQIAALVVWARDIPHFSQLEMEDQILLIKGSWNELLLFAIAWRSMEFLTTTSPPQLMCLMPGMTLHRNSALQAGVGQIFDRVLSELSLKMRTLRVDQAEYVALKAIILLNPDVKGLKNRQEVEVLREKMFLCLDEYCRRSRSSEEGRFAALLLRLPALRSISLKSFEHLFFFHLVADTSIAGYIRDALR 2r41-a1-m1-cA_2r41-a1-m2-cD Crystal structure of the protein of unknown function from Enterococcus faecalis Q837L7 Q837L7 2.9 X-RAY DIFFRACTION 16 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 101 102 2r41-a1-m1-cB_2r41-a1-m2-cC 2r41-a1-m2-cA_2r41-a1-m1-cD 2r41-a1-m2-cB_2r41-a1-m1-cC ERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL 2r41-a1-m1-cD_2r41-a1-m2-cD Crystal structure of the protein of unknown function from Enterococcus faecalis Q837L7 Q837L7 2.9 X-RAY DIFFRACTION 28 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 102 102 2r41-a1-m1-cC_2r41-a1-m2-cC FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL 2r41-a2-m1-cA_2r41-a2-m1-cB Crystal structure of the protein of unknown function from Enterococcus faecalis Q837L7 Q837L7 2.9 X-RAY DIFFRACTION 49 0.99 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 101 101 2r41-a1-m1-cA_2r41-a1-m1-cB 2r41-a1-m2-cA_2r41-a1-m2-cB ERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAE 2r41-a2-m1-cA_2r41-a2-m1-cD Crystal structure of the protein of unknown function from Enterococcus faecalis Q837L7 Q837L7 2.9 X-RAY DIFFRACTION 27 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 101 102 2r41-a1-m1-cA_2r41-a1-m1-cD 2r41-a1-m1-cB_2r41-a1-m1-cC 2r41-a1-m2-cA_2r41-a1-m2-cD 2r41-a1-m2-cB_2r41-a1-m2-cC 2r41-a2-m1-cB_2r41-a2-m1-cC ERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL 2r41-a3-m3-cB_2r41-a3-m3-cD Crystal structure of the protein of unknown function from Enterococcus faecalis Q837L7 Q837L7 2.9 X-RAY DIFFRACTION 43 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 101 102 2r41-a1-m1-cA_2r41-a1-m1-cC 2r41-a1-m1-cB_2r41-a1-m1-cD 2r41-a1-m2-cA_2r41-a1-m2-cC 2r41-a1-m2-cB_2r41-a1-m2-cD 2r41-a2-m1-cA_2r41-a2-m1-cC 2r41-a2-m1-cB_2r41-a2-m1-cD 2r41-a3-m1-cA_2r41-a3-m1-cC FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAE FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL 2r41-a3-m3-cD_2r41-a3-m1-cC Crystal structure of the protein of unknown function from Enterococcus faecalis Q837L7 Q837L7 2.9 X-RAY DIFFRACTION 37 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 102 103 2r41-a3-m1-cA_2r41-a3-m3-cB FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAEL FERFDSDRSRYASLGVVSSLPSGLIDSIWLIIDLNLKGVIPLNDLLHFDLLNNNGKVTVHFSQENSSVEAIDLPFSYSTAYPSRIFAFDDGHRETILLPAELE 2r42-a1-m1-cA_2r42-a1-m2-cA The Biochemical and Structural Basis for feedback Inhibition of Mevalonate Kinase and Isoprenoid Metabolism P17256 P17256 2.4 X-RAY DIFFRACTION 63 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 383 383 1kvk-a1-m1-cA_1kvk-a1-m2-cA MLSEVLLVSAPGKVILHGEHAVVHGKVALAVALNLRTFLVLRPQSNGKVSLNLPNVGIKQVWDVATLQLLDTGFQLEKLKKVAGLPRDCVGNEGLSLLAFLYLYLAICRKQRTLPSLDIMVWSELPPGAGLGSSAAYSVCVAAALLTACEEVTNPLKDRGSIGSWPEEDLKSINKWAYEGERVIHGNPSGVDNSVSTWGGALRYQQGKMSSLKRLPALQILLTNTKVPRSTKALVAGVRSRLIKFPEIMAPLLTSIDAISLECERVLGEMAAAPVPEQYLVLEELMDMNQHHLNALGVGHASLDQLCQVTAAHGLHSKLTGAGGGGCGITLLKPGLERAKVEAAKQALTGCGFDCWETSIGAPGVSMHSATSIEDPVRQALGL MLSEVLLVSAPGKVILHGEHAVVHGKVALAVALNLRTFLVLRPQSNGKVSLNLPNVGIKQVWDVATLQLLDTGFQLEKLKKVAGLPRDCVGNEGLSLLAFLYLYLAICRKQRTLPSLDIMVWSELPPGAGLGSSAAYSVCVAAALLTACEEVTNPLKDRGSIGSWPEEDLKSINKWAYEGERVIHGNPSGVDNSVSTWGGALRYQQGKMSSLKRLPALQILLTNTKVPRSTKALVAGVRSRLIKFPEIMAPLLTSIDAISLECERVLGEMAAAPVPEQYLVLEELMDMNQHHLNALGVGHASLDQLCQVTAAHGLHSKLTGAGGGGCGITLLKPGLERAKVEAAKQALTGCGFDCWETSIGAPGVSMHSATSIEDPVRQALGL 2r47-a3-m1-cD_2r47-a3-m1-cE Crystal structure of MTH_862 protein of unknown function from Methanothermobacter thermautotrophicus O26950 O26950 1.88 X-RAY DIFFRACTION 194 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 152 154 2r47-a1-m1-cA_2r47-a1-m1-cB GHMEKLKEFRGIKEHLGVFREAVKDAERIGFAGVPGVTPFAQLFAYAVRDKDNIFIPNTDFSKARKLEVTEYGVELGEISPGNVDVLVLLGGLSMPGSDIEDVKKLVEDALEEGGELMGLCYMDMFARAGWYELLDFDCVINADIDGYVLRG GHMEKLKEFRGIKEHLGVFREAVKDAERIGFAGVPGVTPFAQLFAYAVRDKDNIFIPNTDFSKARKLEVTEYGVELGEISPGNVDVLVLLGGLSMPGIGSDIEDVKKLVEDALEEGGELMGLCYMDMFARAGWYELLDFDCVINADIDGYVLRG 2r4i-a2-m1-cD_2r4i-a2-m1-cC CRYSTAL STRUCTURE OF A NTF2-LIKE PROTEIN (CHU_1428) FROM CYTOPHAGA HUTCHINSONII ATCC 33406 AT 1.60 A RESOLUTION 1.6 X-RAY DIFFRACTION 95 0.991 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 116 119 2r4i-a1-m1-cB_2r4i-a1-m1-cA VILDCEKKLLTAIQNNDVESLEVLLHDDLLFIIPSGETVTKETDIAAYSSGKIALRAVVPSDYIIRIIHDTVVVSVNIEIKGEYEHTLDNTFRYLRVWKLFDGNWKVIAGSCTAIG NQRDVILDCEKKLLTAIQNNDVESLEVLLHDDLLFIIPSGETVTKETDIAAYSSGKIALRAVVPSDYIIRIIHDTVVVSVNIEIKGEYEHTLDNTFRYLRVWKLFDGNWKVIAGSCTAI 2r50-a3-m1-cD_2r50-a3-m1-cA The crystal structure of nonsymbiotic corn hemoglobin 1 Q9M593 Q9M593 2.2 X-RAY DIFFRACTION 19 0.993 76912 (Zea mays subsp. parviglumis) 76912 (Zea mays subsp. parviglumis) 145 146 2r50-a1-m1-cD_2r50-a1-m1-cA 2r50-a2-m1-cB_2r50-a2-m1-cC 2r50-a3-m1-cB_2r50-a3-m1-cC VFGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSAKQMFSEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRETTLKRLGATHLRYGVADGHFEVTGFALLETIKEALPADMWSLEMKKAWAEAYSQLVAAIKREMKPDA VVFGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSAKQMFLEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRETTLKRLGATHLRYGVADGHFEVTGFALLETIKEALPADMWSLEMKKAWAEAYSQLVAAIKREMKPDA 2r50-a3-m1-cD_2r50-a3-m1-cC The crystal structure of nonsymbiotic corn hemoglobin 1 Q9M593 Q9M593 2.2 X-RAY DIFFRACTION 32 1.0 76912 (Zea mays subsp. parviglumis) 76912 (Zea mays subsp. parviglumis) 145 147 2r50-a3-m1-cA_2r50-a3-m1-cB VFGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSAKQMFSEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRETTLKRLGATHLRYGVADGHFEVTGFALLETIKEALPADMWSLEMKKAWAEAYSQLVAAIKREMKPDA VFGEEQEALVLKSWAVMKKDAANLGLRFFLKVFEIAPSAKQMFSFLEKNPKLKTHAMSVFVMTCEAAAQLRKAGKVTVRETTLKRLGATHLRYGVADGHFEVTGFALLETIKEALPADMWSLEMKKAWAEAYSQLVAAIKREMKPDA 2r51-a2-m1-cA_2r51-a2-m2-cA Crystal Structure of mouse Vps26B Q8C0E2 Q8C0E2 2.1 X-RAY DIFFRACTION 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 283 283 SVEVEILLNDAESRKRAEHKTEDGKKEKYFLFYDGETVSGKVSLSLKNPNKRLEHQGIKIEFIGQIELYYDRGNHHEFVSLVKDLARPGEITQSQAFDFEFTHVEKPYESYTGQNVKLRYFLRATISRRLNDVVKEDIVVHTLSTYPELNSSIKEVGIEDCLHIEFEYNKSKYHLKDVIVGKIYFLLVRIKIKHEIDIIKRETTGTGPNVYHENDTIAKYEIDGAPVRGESIPIRLFLAGYELTPTRDINKKFSVRYYLNLVLIDEEERRYFKQQEVVLWRKG SVEVEILLNDAESRKRAEHKTEDGKKEKYFLFYDGETVSGKVSLSLKNPNKRLEHQGIKIEFIGQIELYYDRGNHHEFVSLVKDLARPGEITQSQAFDFEFTHVEKPYESYTGQNVKLRYFLRATISRRLNDVVKEDIVVHTLSTYPELNSSIKEVGIEDCLHIEFEYNKSKYHLKDVIVGKIYFLLVRIKIKHEIDIIKRETTGTGPNVYHENDTIAKYEIDGAPVRGESIPIRLFLAGYELTPTRDINKKFSVRYYLNLVLIDEEERRYFKQQEVVLWRKG 2r5j-a3-m1-cM_2r5j-a3-m1-cO Pentamer Structure of Major Capsid protein L1 of Human Papilloma Virus Type 35 P27232 P27232 3.3 X-RAY DIFFRACTION 11 1.0 10587 (human papillomavirus 35) 10587 (human papillomavirus 35) 417 417 2r5j-a1-m1-cA_2r5j-a1-m1-cC 2r5j-a1-m1-cA_2r5j-a1-m1-cD 2r5j-a2-m1-cF_2r5j-a2-m1-cH 2r5j-a2-m1-cG_2r5j-a2-m1-cJ 2r5j-a2-m1-cH_2r5j-a2-m1-cJ 2r5j-a3-m1-cK_2r5j-a3-m1-cM 2r5j-a3-m1-cL_2r5j-a3-m1-cN 2r5j-a3-m1-cL_2r5j-a3-m1-cO AVVSTDEYVTRTNIYYHAGSSRLLAVGHPYYAIKKQDSNKIAVPKVSGLQYRVFRVKLPDPNKFGFPDTSFYDPASQRLVWACTGVEVGRGQPLGVGISGHPLLNKLDDTENSNKYVGNSGTDNRECISMDYKQTQLCLIGCRPPIGEHWGKGTPSNANQVKAGECPPLELLNTVLQDGDMVDTGFGAMDFTTLQANKSDVPLDICSSICKYPDYLKMVSEPYGDMLFFYLRREQMFVRHLFNRAGTVGETVPADLYIKGTTGTLPSTSYFPTPSGSMVTSDAQIFNKPYWLQRAQGHNNGICWSNQLFVTVVDTTRSTNMSVCSAVSSSDSTYKNDNFKEYLRHGEEYDLQFIFQLCKITLTADVMTYIHSMNPSILEDWNPLKNYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL AVVSTDEYVTRTNIYYHAGSSRLLAVGHPYYAIKKQDSNKIAVPKVSGLQYRVFRVKLPDPNKFGFPDTSFYDPASQRLVWACTGVEVGRGQPLGVGISGHPLLNKLDDTENSNKYVGNSGTDNRECISMDYKQTQLCLIGCRPPIGEHWGKGTPSNANQVKAGECPPLELLNTVLQDGDMVDTGFGAMDFTTLQANKSDVPLDICSSICKYPDYLKMVSEPYGDMLFFYLRREQMFVRHLFNRAGTVGETVPADLYIKGTTGTLPSTSYFPTPSGSMVTSDAQIFNKPYWLQRAQGHNNGICWSNQLFVTVVDTTRSTNMSVCSAVSSSDSTYKNDNFKEYLRHGEEYDLQFIFQLCKITLTADVMTYIHSMNPSILEDWNPLKNYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL 2r5j-a3-m1-cN_2r5j-a3-m1-cO Pentamer Structure of Major Capsid protein L1 of Human Papilloma Virus Type 35 P27232 P27232 3.3 X-RAY DIFFRACTION 237 1.0 10587 (human papillomavirus 35) 10587 (human papillomavirus 35) 417 417 2r5j-a1-m1-cA_2r5j-a1-m1-cB 2r5j-a1-m1-cA_2r5j-a1-m1-cE 2r5j-a1-m1-cB_2r5j-a1-m1-cC 2r5j-a1-m1-cC_2r5j-a1-m1-cD 2r5j-a1-m1-cD_2r5j-a1-m1-cE 2r5j-a2-m1-cF_2r5j-a2-m1-cG 2r5j-a2-m1-cF_2r5j-a2-m1-cJ 2r5j-a2-m1-cG_2r5j-a2-m1-cH 2r5j-a2-m1-cH_2r5j-a2-m1-cI 2r5j-a2-m1-cI_2r5j-a2-m1-cJ 2r5j-a3-m1-cK_2r5j-a3-m1-cL 2r5j-a3-m1-cK_2r5j-a3-m1-cO 2r5j-a3-m1-cL_2r5j-a3-m1-cM 2r5j-a3-m1-cM_2r5j-a3-m1-cN AVVSTDEYVTRTNIYYHAGSSRLLAVGHPYYAIKKQDSNKIAVPKVSGLQYRVFRVKLPDPNKFGFPDTSFYDPASQRLVWACTGVEVGRGQPLGVGISGHPLLNKLDDTENSNKYVGNSGTDNRECISMDYKQTQLCLIGCRPPIGEHWGKGTPSNANQVKAGECPPLELLNTVLQDGDMVDTGFGAMDFTTLQANKSDVPLDICSSICKYPDYLKMVSEPYGDMLFFYLRREQMFVRHLFNRAGTVGETVPADLYIKGTTGTLPSTSYFPTPSGSMVTSDAQIFNKPYWLQRAQGHNNGICWSNQLFVTVVDTTRSTNMSVCSAVSSSDSTYKNDNFKEYLRHGEEYDLQFIFQLCKITLTADVMTYIHSMNPSILEDWNPLKNYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL AVVSTDEYVTRTNIYYHAGSSRLLAVGHPYYAIKKQDSNKIAVPKVSGLQYRVFRVKLPDPNKFGFPDTSFYDPASQRLVWACTGVEVGRGQPLGVGISGHPLLNKLDDTENSNKYVGNSGTDNRECISMDYKQTQLCLIGCRPPIGEHWGKGTPSNANQVKAGECPPLELLNTVLQDGDMVDTGFGAMDFTTLQANKSDVPLDICSSICKYPDYLKMVSEPYGDMLFFYLRREQMFVRHLFNRAGTVGETVPADLYIKGTTGTLPSTSYFPTPSGSMVTSDAQIFNKPYWLQRAQGHNNGICWSNQLFVTVVDTTRSTNMSVCSAVSSSDSTYKNDNFKEYLRHGEEYDLQFIFQLCKITLTADVMTYIHSMNPSILEDWNPLKNYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL 2r5k-a1-m1-cD_2r5k-a1-m1-cE Pentamer Structure of Major Capsid protein L1 of Human Papilloma Virus type 11 P04012 P04012 3.2 X-RAY DIFFRACTION 248 1.0 10580 (human papillomavirus 11) 10580 (human papillomavirus 11) 419 419 2r5k-a1-m1-cA_2r5k-a1-m1-cB 2r5k-a1-m1-cA_2r5k-a1-m1-cE 2r5k-a1-m1-cB_2r5k-a1-m1-cC 2r5k-a1-m1-cC_2r5k-a1-m1-cD AVVATDAYVKRTNIFYHASSSRLLAVGHPYYSIKKVNKTVVPKVSGYQYRVFKVVLPDPNKFALPDSSLFDPTTQRLVWACTGLEVGRGQPLGVGVSGHPLLNKYDDVENSGGYGGNPGQDNRVNVGMDYKQTQLCMVGCAPPLGEHWGKGTQSSNTSVQNGDCPPLELITSVIQDGDMVDTGFGAMNFADLQTNKSDVPLDICGTVCKYPDYLQMAADPYGDRLFFYLRKEQMFARHFFNRAGTVGEPVPDDLLVKGGNNRSSVASSIYVHTPSGSLVSSEAQLFNKPYWLQKAQGHNNGICWGNHLSVTVVDTTRSTNMTLCASVSKSATYTNSDYKEYMRHVEEFDLQFIFQLCSITLSAEVMAYIHTMNPSVLEDWNKQDPYKDMSFWEVNLKEKFSSELDQFPLGRKFLLQSGY AVVATDAYVKRTNIFYHASSSRLLAVGHPYYSIKKVNKTVVPKVSGYQYRVFKVVLPDPNKFALPDSSLFDPTTQRLVWACTGLEVGRGQPLGVGVSGHPLLNKYDDVENSGGYGGNPGQDNRVNVGMDYKQTQLCMVGCAPPLGEHWGKGTQSSNTSVQNGDCPPLELITSVIQDGDMVDTGFGAMNFADLQTNKSDVPLDICGTVCKYPDYLQMAADPYGDRLFFYLRKEQMFARHFFNRAGTVGEPVPDDLLVKGGNNRSSVASSIYVHTPSGSLVSSEAQLFNKPYWLQKAQGHNNGICWGNHLSVTVVDTTRSTNMTLCASVSKSATYTNSDYKEYMRHVEEFDLQFIFQLCSITLSAEVMAYIHTMNPSVLEDWNKQDPYKDMSFWEVNLKEKFSSELDQFPLGRKFLLQSGY 2r5o-a2-m2-cB_2r5o-a2-m1-cA Crystal structure of the C-terminal domain of wzt Q47591 Q47591 1.3 X-RAY DIFFRACTION 14 1.0 562 (Escherichia coli) 562 (Escherichia coli) 166 167 2r5o-a2-m1-cB_2r5o-a2-m2-cA MSLDEIEDVYHTRPGYRPEEYRWGQGGAKIIDYHIQSAGVDFPPSLTGNQQTDFLMKVVFEYDFDCVVPGILIKTLDGLFLYGTNSFLASEGRENISVSRGDVRVFKFSLPVDLNSGDYLLSFGISAGNPQTDMTPLDRRYDSIILHVTKSMDFWGVIDLKSSFTS MSLDEIEDVYHTRPGYRPEEYRWGQGGAKIIDYHIQSAGVDFPPSLTGNQQTDFLMKVVFEYDFDCVVPGILIKTLDGLFLYGTNSFLASEGRENISVSRGDVRVFKFSLPVDLNSGDYLLSFGISAGNPQTDMTPLDRRYDSIILHVTKSMDFWGVIDLKSSFTSY 2r5o-a2-m2-cB_2r5o-a2-m2-cA Crystal structure of the C-terminal domain of wzt Q47591 Q47591 1.3 X-RAY DIFFRACTION 139 1.0 562 (Escherichia coli) 562 (Escherichia coli) 166 167 2r5o-a1-m1-cB_2r5o-a1-m1-cA 2r5o-a2-m1-cB_2r5o-a2-m1-cA MSLDEIEDVYHTRPGYRPEEYRWGQGGAKIIDYHIQSAGVDFPPSLTGNQQTDFLMKVVFEYDFDCVVPGILIKTLDGLFLYGTNSFLASEGRENISVSRGDVRVFKFSLPVDLNSGDYLLSFGISAGNPQTDMTPLDRRYDSIILHVTKSMDFWGVIDLKSSFTS MSLDEIEDVYHTRPGYRPEEYRWGQGGAKIIDYHIQSAGVDFPPSLTGNQQTDFLMKVVFEYDFDCVVPGILIKTLDGLFLYGTNSFLASEGRENISVSRGDVRVFKFSLPVDLNSGDYLLSFGISAGNPQTDMTPLDRRYDSIILHVTKSMDFWGVIDLKSSFTSY 2r5r-a1-m1-cA_2r5r-a1-m4-cA The crystal structure of DUF198 from Nitrosomonas europaea ATCC 19718 Q82VD1 Q82VD1 3.05 X-RAY DIFFRACTION 110 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 241 241 2r5r-a1-m2-cA_2r5r-a1-m3-cA HIAIDRVGIKAIRHPVVVADKGGGSQHTVAQFNYVNLPHNFKGTHSRFVEILNSHEREISVESFEEILRSVSRLESDSGHIEAFPYFINKSAPVSGVKSLLDYEVTFIGEIKHGNQYSFTKVIVPVTSLCPCSKKISDYGAHNQRSHVTISVRTNSFIWIEDIIRIAEEQASCELYGLLKRPDEKYVTERAYNNPKFVEDIVRDVAEVLNHDDRIDAYIVESENFESIHNHSAYALIERDK HIAIDRVGIKAIRHPVVVADKGGGSQHTVAQFNYVNLPHNFKGTHSRFVEILNSHEREISVESFEEILRSVSRLESDSGHIEAFPYFINKSAPVSGVKSLLDYEVTFIGEIKHGNQYSFTKVIVPVTSLCPCSKKISDYGAHNQRSHVTISVRTNSFIWIEDIIRIAEEQASCELYGLLKRPDEKYVTERAYNNPKFVEDIVRDVAEVLNHDDRIDAYIVESENFESIHNHSAYALIERDK 2r5r-a1-m2-cA_2r5r-a1-m4-cA The crystal structure of DUF198 from Nitrosomonas europaea ATCC 19718 Q82VD1 Q82VD1 3.05 X-RAY DIFFRACTION 102 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 241 241 2r5r-a1-m1-cA_2r5r-a1-m3-cA HIAIDRVGIKAIRHPVVVADKGGGSQHTVAQFNYVNLPHNFKGTHSRFVEILNSHEREISVESFEEILRSVSRLESDSGHIEAFPYFINKSAPVSGVKSLLDYEVTFIGEIKHGNQYSFTKVIVPVTSLCPCSKKISDYGAHNQRSHVTISVRTNSFIWIEDIIRIAEEQASCELYGLLKRPDEKYVTERAYNNPKFVEDIVRDVAEVLNHDDRIDAYIVESENFESIHNHSAYALIERDK HIAIDRVGIKAIRHPVVVADKGGGSQHTVAQFNYVNLPHNFKGTHSRFVEILNSHEREISVESFEEILRSVSRLESDSGHIEAFPYFINKSAPVSGVKSLLDYEVTFIGEIKHGNQYSFTKVIVPVTSLCPCSKKISDYGAHNQRSHVTISVRTNSFIWIEDIIRIAEEQASCELYGLLKRPDEKYVTERAYNNPKFVEDIVRDVAEVLNHDDRIDAYIVESENFESIHNHSAYALIERDK 2r5r-a1-m3-cA_2r5r-a1-m4-cA The crystal structure of DUF198 from Nitrosomonas europaea ATCC 19718 Q82VD1 Q82VD1 3.05 X-RAY DIFFRACTION 55 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 241 241 2r5r-a1-m1-cA_2r5r-a1-m2-cA HIAIDRVGIKAIRHPVVVADKGGGSQHTVAQFNYVNLPHNFKGTHSRFVEILNSHEREISVESFEEILRSVSRLESDSGHIEAFPYFINKSAPVSGVKSLLDYEVTFIGEIKHGNQYSFTKVIVPVTSLCPCSKKISDYGAHNQRSHVTISVRTNSFIWIEDIIRIAEEQASCELYGLLKRPDEKYVTERAYNNPKFVEDIVRDVAEVLNHDDRIDAYIVESENFESIHNHSAYALIERDK HIAIDRVGIKAIRHPVVVADKGGGSQHTVAQFNYVNLPHNFKGTHSRFVEILNSHEREISVESFEEILRSVSRLESDSGHIEAFPYFINKSAPVSGVKSLLDYEVTFIGEIKHGNQYSFTKVIVPVTSLCPCSKKISDYGAHNQRSHVTISVRTNSFIWIEDIIRIAEEQASCELYGLLKRPDEKYVTERAYNNPKFVEDIVRDVAEVLNHDDRIDAYIVESENFESIHNHSAYALIERDK 2r5t-a2-m1-cA_2r5t-a2-m2-cA Crystal Structure of Inactive Serum and Glucocorticoid- Regulated Kinase 1 in Complex with AMP-PNP O00141 O00141 1.9 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 284 284 QINLGPSSNPHAKPSDFHFLKVIGKGSFGKVLLARHKAEEVFYAVKVLQKKAILVLLKNVKHPFLVGLHFSFQTADKLYFVLDYINGGELFYHLQRERCFLEPRARFYAAEIASALGYLHSLNIVYRDLKPENILLDSQGHIVLTDFGLCKENIEHNSTTSTFCGTPEYLAPEVLHKQPYDRTVDWWCLGAVLYEMLYGLPPFYSRNTAEMYDNILNKPLQLKPNITNSARHLLEGLLQKDRTKRLGAKDDFMEIKSHVFFSLINWDDLINKKITPPFNPNVSG QINLGPSSNPHAKPSDFHFLKVIGKGSFGKVLLARHKAEEVFYAVKVLQKKAILVLLKNVKHPFLVGLHFSFQTADKLYFVLDYINGGELFYHLQRERCFLEPRARFYAAEIASALGYLHSLNIVYRDLKPENILLDSQGHIVLTDFGLCKENIEHNSTTSTFCGTPEYLAPEVLHKQPYDRTVDWWCLGAVLYEMLYGLPPFYSRNTAEMYDNILNKPLQLKPNITNSARHLLEGLLQKDRTKRLGAKDDFMEIKSHVFFSLINWDDLINKKITPPFNPNVSG 2r5t-a3-m1-cA_2r5t-a3-m3-cA Crystal Structure of Inactive Serum and Glucocorticoid- Regulated Kinase 1 in Complex with AMP-PNP O00141 O00141 1.9 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 284 284 QINLGPSSNPHAKPSDFHFLKVIGKGSFGKVLLARHKAEEVFYAVKVLQKKAILVLLKNVKHPFLVGLHFSFQTADKLYFVLDYINGGELFYHLQRERCFLEPRARFYAAEIASALGYLHSLNIVYRDLKPENILLDSQGHIVLTDFGLCKENIEHNSTTSTFCGTPEYLAPEVLHKQPYDRTVDWWCLGAVLYEMLYGLPPFYSRNTAEMYDNILNKPLQLKPNITNSARHLLEGLLQKDRTKRLGAKDDFMEIKSHVFFSLINWDDLINKKITPPFNPNVSG QINLGPSSNPHAKPSDFHFLKVIGKGSFGKVLLARHKAEEVFYAVKVLQKKAILVLLKNVKHPFLVGLHFSFQTADKLYFVLDYINGGELFYHLQRERCFLEPRARFYAAEIASALGYLHSLNIVYRDLKPENILLDSQGHIVLTDFGLCKENIEHNSTTSTFCGTPEYLAPEVLHKQPYDRTVDWWCLGAVLYEMLYGLPPFYSRNTAEMYDNILNKPLQLKPNITNSARHLLEGLLQKDRTKRLGAKDDFMEIKSHVFFSLINWDDLINKKITPPFNPNVSG 2r5u-a1-m1-cC_2r5u-a1-m1-cA Crystal structure of the N-terminal domain of DnaB helicase from Mycobacterium tuberculosis P9WMR3 P9WMR3 1.9 X-RAY DIFFRACTION 29 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 138 144 2r5u-a1-m1-cD_2r5u-a1-m1-cB 2r5u-a1-m1-cF_2r5u-a1-m1-cE QPPQDLAAEQSVLGGMLLSKDAIADVLERLRPGDFYRPAHQNVYDAILDLYGRGEPADAVTVAAELDRRGLLRRIGGAPYLHTLISTVPTAANAGYYASIVAEKALLRRLVEAGTRVVQYGYAGAEVVDRAQAEIYDV QPPQDLAAEQSVLGGMLLSKDAIADVLERLRPGDFYRPAHQNVYDAILDLYGRGEPADAVTVAAELDRRGLLRRIGGAPYLHTLISTVPTAANAGYYASIVAEKALLRRLVEAGTRVVQYGYAGAEGADVAEVVDRAQAEIYDV 2r5u-a1-m1-cD_2r5u-a1-m1-cE Crystal structure of the N-terminal domain of DnaB helicase from Mycobacterium tuberculosis P9WMR3 P9WMR3 1.9 X-RAY DIFFRACTION 78 0.993 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 139 141 2r5u-a1-m1-cC_2r5u-a1-m1-cB 2r5u-a1-m1-cF_2r5u-a1-m1-cA RQPPQDLAAEQSVLGGMLLSKDAIADVLERLRPGDFYRPAHQNVYDAILDLYGRGEPADAVTVAAELDRRGLLRRIGGAPYLHTLISTVPTAANAGYYASIVAEKALLRRLVEAGTRVVQYGYAGAEVVDRAQAEIYDV QPPQDLAAEQSVLGGMLLSKDAIADVLERLRPGDFYRPAHQNVYDAILDLYGRGEPADAVTVAAELDRRGLLRRIGGAPYLHTLISTVPTAANAGYYASIVAEKALLRRLVEAGTRVVQYGYAGAVAEVVDRAQAEIYDVA 2r5w-a1-m1-cA_2r5w-a1-m1-cB Crystal structure of a bifunctional NMN adenylyltransferase/ADP ribose pyrophosphatase from Francisella tularensis Q5NHR1 Q5NHR1 2.3 X-RAY DIFFRACTION 60 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 344 345 2qjt-a1-m1-cA_2qjt-a1-m1-cB MYDISVFIGRFQPFHKGHLHNIIIALQNSKKVIINIGSCFNTPNIKNPFSFEQRKQMIESDLQVAGIDLDTVVIEPLADYFYQEQKWQDELRKNVYKHAKNNNSIAIVGHIKDSSSYYIRSFPEWDYIGVDNYKNFNATEFRQKFYNGIISKQYMCSNDPKLGTYNFLTKFMDTQVYQDLVAENNYVIEYKRLWLKAPFKPNFVTVDALVIVNDHILMVQRKAHPGKDLWALPGGFLECDETIAQAIIRELFEETNINLTHEQLAIAKRCEKVFDYPDRSVRGRTISHVGLFVFDQWPSLPEINAADDAKDVKWISLGSNIKNICDRMLEDHYQIITILLEECG MYDISVFIGRFQPFHKGHLHNIIIALQNSKKVIINIGSCFNTPNIKNPFSFEQRKQMIESDLQVAGIDLDTVVIEPLADYFYQEQKWQDELRKNVYKHAKNNNSIAIVGHIKDSSSYYIRSFPEWDYIGVDNYKNFNATEFRQKFYNGIISKQYMCSNDPKLGTYNFLTKFMDTQVYQDLVAENNYVIEYKRLWLKAPFKPNFVTVDALVIVNDHILMVQRKAHPGKDLWALPGGFLECDETIAQAIIRELFEETNINLTHEQLAIAKRCEKVFDYPDRSVRGRTISHVGLFVFDQWPSLPEINAADDAKDVKWISLGSNIKNICDRMLEDHYQIITILLEECGK 2r6a-a1-m1-cB_2r6a-a1-m3-cA Crystal Form BH1 Q9X4C9 Q9X4C9 2.9 X-RAY DIFFRACTION 171 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 374 420 2r6d-a1-m1-cF_2r6d-a1-m1-cA IPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSQRKHSGAFKNIKDILVQTYDNIEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIEVSEISRSLKALARELEVPVIALSQLDADIVAFLIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSQRKHSGAFKNIKDILVQTYDNIEMLHNRDGEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6a-a1-m3-cB_2r6a-a1-m3-cA Crystal Form BH1 Q9X4C9 Q9X4C9 2.9 X-RAY DIFFRACTION 133 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 374 420 2r6a-a1-m1-cB_2r6a-a1-m1-cA 2r6a-a1-m2-cB_2r6a-a1-m2-cA 2r6c-a1-m1-cA_2r6c-a1-m1-cB 2r6c-a1-m1-cC_2r6c-a1-m1-cD 2r6c-a1-m1-cE_2r6c-a1-m1-cF 2r6c-a1-m2-cA_2r6c-a1-m2-cB 2r6c-a1-m2-cC_2r6c-a1-m2-cD 2r6c-a1-m2-cE_2r6c-a1-m2-cF 4m4w-a1-m1-cA_4m4w-a1-m1-cB 4m4w-a1-m1-cC_4m4w-a1-m1-cD 4m4w-a1-m1-cE_4m4w-a1-m1-cF IPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSQRKHSGAFKNIKDILVQTYDNIEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIEVSEISRSLKALARELEVPVIALSQLDADIVAFLIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSQRKHSGAFKNIKDILVQTYDNIEMLHNRDGEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6c-a1-m1-cD_2r6c-a1-m2-cE Crystal Form BH2 Q9X4C9 Q9X4C9 4 X-RAY DIFFRACTION 11 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 358 358 2r6c-a1-m1-cA_2r6c-a1-m2-cB 2r6c-a1-m1-cB_2r6c-a1-m2-cA 2r6c-a1-m1-cC_2r6c-a1-m2-cF 2r6c-a1-m1-cE_2r6c-a1-m2-cD 2r6c-a1-m1-cF_2r6c-a1-m2-cC EAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQEVSEISRSLKALARELEVPVIALSQLRPMMSDIRESGSIEQDADIVAFLYEIIIAKQRNGPVGTVQLAFIKEYNKFVNL EAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQEVSEISRSLKALARELEVPVIALSQLRPMMSDIRESGSIEQDADIVAFLYEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6c-a1-m2-cA_2r6c-a1-m2-cD Crystal Form BH2 Q9X4C9 Q9X4C9 4 X-RAY DIFFRACTION 76 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 358 358 2r6a-a1-m2-cB_2r6a-a1-m1-cA 2r6a-a1-m3-cB_2r6a-a1-m2-cA 2r6c-a1-m1-cA_2r6c-a1-m1-cD 2r6c-a1-m1-cB_2r6c-a1-m1-cE 2r6c-a1-m1-cC_2r6c-a1-m1-cF 2r6c-a1-m2-cB_2r6c-a1-m2-cE 2r6c-a1-m2-cC_2r6c-a1-m2-cF 4m4w-a1-m1-cA_4m4w-a1-m1-cD 4m4w-a1-m1-cB_4m4w-a1-m1-cE 4m4w-a1-m1-cC_4m4w-a1-m1-cF EAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQEVSEISRSLKALARELEVPVIALSQLRPMMSDIRESGSIEQDADIVAFLYEIIIAKQRNGPVGTVQLAFIKEYNKFVNL EAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQEVSEISRSLKALARELEVPVIALSQLRPMMSDIRESGSIEQDADIVAFLYEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6d-a1-m1-cB_2r6d-a1-m1-cA Crystal Form B1 Q9X4C9 Q9X4C9 3.7 X-RAY DIFFRACTION 92 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 376 405 PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSQRAFKNIKDILVQTYDNIEMLHNRDGEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6d-a1-m1-cB_2r6d-a1-m1-cC Crystal Form B1 Q9X4C9 Q9X4C9 3.7 X-RAY DIFFRACTION 137 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 376 399 PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEKNIKDILVQTYDNIEMLHNRDGEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6d-a1-m1-cD_2r6d-a1-m1-cC Crystal Form B1 Q9X4C9 Q9X4C9 3.7 X-RAY DIFFRACTION 87 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 376 399 PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEKNIKDILVQTYDNIEMLHNRDGEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6d-a1-m1-cD_2r6d-a1-m1-cE Crystal Form B1 Q9X4C9 Q9X4C9 3.7 X-RAY DIFFRACTION 100 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 376 392 PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEKNIKDILVQTYDNIEEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6d-a1-m1-cE_2r6d-a1-m1-cF Crystal Form B1 Q9X4C9 Q9X4C9 3.7 X-RAY DIFFRACTION 81 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 392 392 PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEKNIKDILVQTYDNIEEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEKNIKDILVQTYDNIEEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGREVSEISRSLKALARELEVPVIALSQLSRSVERPMMSDIRESGSIEQDADIVAFLYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6e-a1-m1-cA_2r6e-a1-m3-cB Crystal Form B2 Q9X4C9 Q9X4C9 5.019 X-RAY DIFFRACTION 21 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 387 387 2r6e-a1-m1-cB_2r6e-a1-m2-cA 2r6e-a1-m2-cB_2r6e-a1-m3-cA RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6e-a1-m2-cA_2r6e-a1-m3-cB Crystal Form B2 Q9X4C9 Q9X4C9 5.019 X-RAY DIFFRACTION 26 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 387 387 2r6e-a1-m1-cA_2r6e-a1-m2-cB 2r6e-a1-m1-cB_2r6e-a1-m3-cA RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6e-a1-m3-cA_2r6e-a1-m3-cB Crystal Form B2 Q9X4C9 Q9X4C9 5.019 X-RAY DIFFRACTION 68 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 387 387 2r6e-a1-m1-cA_2r6e-a1-m1-cB 2r6e-a1-m2-cA_2r6e-a1-m2-cB RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRRPMMSDIRESGSIEQDADIVAFLYRDDYKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 2r6f-a1-m1-cB_2r6f-a1-m1-cA Crystal Structure of Bacillus stearothermophilus UvrA Q5KVB6 Q5KVB6 3.2 X-RAY DIFFRACTION 141 0.995 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 864 884 DKIIVKGARAHNLKNIDVEIPRGKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQEKPDVDAIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGRPICPTHGIEIQSQTIEQVDRLLSYPERTKQILDRIIIKDGIAARLADSLETALKLADKHACPYCGFSIGELEPRLFSFNSPFGACPDCDGLGAKLEVDLDLVIPNDELTLKEHAIAPWEPQSSQYYPQLLEAVCRHYGIPDVPVKDLPKEQLDKILYGSGGEPIYFRYTNDFGQVREQYIAFEGVIPNVERRYRETSSDYIREQEKYAEQPCPTCQGYRLKKESLAVLVGGKHIGEVTASVTEALAFFDGLELTEKEAQIARLILREIRDRLGFLQNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSRLTGVLYVLDEPSIGLHQRDNDRLIATLKSRDLGNTLIVVEHDEDTLAADYLIDIGPGAGIHGGEVVAAGTPEEVNDPNSLTGQYLSGKKFIPIPAERRRPDGRWLEVVGAREHNLKNVSVKIPLGTFVAVTGVSGSGKSTLVNEVLYKALAQKLHRAKAKPGEHRDIRGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIIKIEHFLPDVYVPCEVCHGKRYNRETLEVTYKGKNIAEVLDTVEDALDFFASIPKIKRKLETLYDVGLGYKLGQPATTLSGGEAQRVKLAAELHRRSNGRTLYILDEPTTGLHVDDIARLLDVLHRLVDNGDTVLVIEHNLDVIKTADYIIDLGPEGGDRGGQIVAVGTPEEVAEVKESHTGRYLKPILERDRARQARYEA DKIIVKGARAHNLKNIDVEIPRGKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQEKPDVDAIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGRPICPTHGIEIQSQTIEQVDRLLSYPERTKQILAPIDVVVDRIIIKDGIAARLADSLETALKLADGKVVVDVIGEGELLFSEKHACPYCGFSIGELEPRLFSFNSPFGACPDCDGLGAKLEVDLDLVIPNDELTLKEHAIAPWEPYYPQLLEAVCRHYGIPDVPVKDLPKEQLDKILYGSGGEPIYFRYTNDFGQVREQYIAFEGVIPNVERRYRETSSDYIREQEKYAEQPCPTCQGYRLKKESLAVLVGGKHIGEVTASVTEALAFFDGLELTEKEAQIARLILREIRDRLGFLQNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSRLTGVLYVLDEPSIGLHQRDNDRLIATLKSRDLGNTLIVVEHDEDTLAADYLIDIGPGAGIHGGEVVAAGTPEEVNDPNSLTGQYLSGKKFIPIPAERRRPDGRWLEVVGAREHNLKNVSVKIPLGTFVAVTGVSGSGKSTLVNEVLYKALAQKLHRAKAKPGEHRDIRGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIIKIEHFLPDVYVPCEVCHGKRYNRETLEVTYKGKNIAEVLDTVEDALDFFASIPKIKRKLETLYDVGLGYKLGQPATTLSGGEAQRVKLAAELHRRSNGRTLYILDEPTTGLHVDDIARLLDVLHRLVDNGDTVLVIEHNLDVIKTADYIIDLGPEGGDRGGQIVAVGTPEEVAEVKESHTGRYLKPILERDRARQARYEA 2r6i-a2-m1-cB_2r6i-a2-m3-cB Crystal structure of Atu1473 protein, a putative chaperone from Agrobacterium tumefaciens A9CJ14 A9CJ14 2.59 X-RAY DIFFRACTION 60 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 262 262 2r6i-a1-m1-cA_2r6i-a1-m2-cA ENLYFQGRDLLNDLSEGLSHPDPILRAQIQQKPLPKRFYKDVTVADVEEGGFTILLDGKPLRTPAKKPLVAPSRALADLLRDEWDAQKEVVNPVVPVSRHVNTAIDGIASDTQAVFEDILRFSSSDLLCYRAGDPEALVARQTDYWDPVLDWATNVLGARFILVEGVHRDQPREAIAAFAVTLKKYDTPIALAALHTTSLTGSAILALALAEGELTLEEAWALAHLDEDWTAEQWGEDEEALERRAVRLIDRAALNVLESLK ENLYFQGRDLLNDLSEGLSHPDPILRAQIQQKPLPKRFYKDVTVADVEEGGFTILLDGKPLRTPAKKPLVAPSRALADLLRDEWDAQKEVVNPVVPVSRHVNTAIDGIASDTQAVFEDILRFSSSDLLCYRAGDPEALVARQTDYWDPVLDWATNVLGARFILVEGVHRDQPREAIAAFAVTLKKYDTPIALAALHTTSLTGSAILALALAEGELTLEEAWALAHLDEDWTAEQWGEDEEALERRAVRLIDRAALNVLESLK 2r6o-a1-m1-cB_2r6o-a1-m1-cA Crystal structure of putative diguanylate cyclase/phosphodiesterase from Thiobacillus denitrificans Q3SJE6 Q3SJE6 1.8 X-RAY DIFFRACTION 76 0.996 292415 (Thiobacillus denitrificans ATCC 25259) 292415 (Thiobacillus denitrificans ATCC 25259) 238 253 3n3t-a1-m1-cA_3n3t-a1-m1-cB LTLDTRLRQALERNELVLHYQPIVELASGRIVGGEALVRWEDDTGLIVALSDWVLEACCTQLRAWQQQGRAADDLTLSVNISTRQFEGEHLTRAVDRALARSGLRPDCLELEITENVLVTDEVRTCLDALRARGVRLALDDFGTGYSSLSYLSQLPFHGLKIDQSFVRKIPAHPSETQIVTTILALARGLGEVVAEGIETAQQYAFLRDRGCEFGQGNLSTPQAADAFASLLDRQKAS RLTLDTRLRQALERNELVLHYQPIVELASGRIVGGEALVRWEDPERGLVPSAFIPAAEDTGLIVALSDWVLEACCTQLRAWQQQGRAADDLTLSVNISTRQFEGEHLTRAVDRALARSGLRPDCLELEITENVLVTDEVRTCLDALRARGVRLALDDFGTGYSSLSYLSQLPFHGLKIDQSFVRKIPAHPSETQIVTTILALARGLGEVVAEGIETAQQYAFLRDRGCEFGQGNLSTPQAADAFASLLDRQKA 2r6u-a2-m1-cB_2r6u-a2-m1-cD Crystal structure of gene product RHA04853 from Rhodococcus sp. RHA1 Q0S814 Q0S814 1.5 X-RAY DIFFRACTION 160 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 123 131 2r6u-a1-m1-cC_2r6u-a1-m1-cA MTGRIVHFEIPFDDGDRARAFYRDAFGWAIAEIMDYSMVTTGPVGESGMPDEPGYINGGMMQRGEVTTPVVTVDVESIESALERIESLGGKTVTGRTPVGNMGFAAYFTDSEGNVVGLWETAR NLYFQGMTGRIVHFEIPFDDGDRARAFYRDAFGWAIAEIPDMDYSMVTTGPVGESGMPDEPGYINGGMMQRGEVTTPVVTVDVESIESALERIESLGGKTVTGRTPVGNMGFAAYFTDSEGNVVGLWETAR 2r6z-a1-m1-cA_2r6z-a1-m1-cB Crystal structure of the SAM-dependent methyltransferase NGO1261 from Neisseria gonorrhoeae, Northeast Structural Genomics Consortium Target NgR48 P72077 P72077 1.8 X-RAY DIFFRACTION 54 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 222 239 TDILIDDTATEAVRTLIRAFPLVPVSQPPEQGSYLLAEHDTVSLRLVGEKSNVIVDFTELIAKAVNHTAHPTVWDATAGLGRDSFVLASLGLTVTAFEQHPAVACLLSDGIRRALLNPETQDTAARINLHFGNAAEQPALVKTQGKPDIVYLDPAYFHRLVGEAQDEVVLLHTARQTAKKRVVVKRPRLGEHLAGQAPAYQYTGKSTRFDVYLPYGADKGLE TDILIDDTATEAVRTLIRAFPLVPVSQPPEQGSYLLAEHDTVSLRLVGEKSNVIVDFTSGAAQYRRTKGGGELIAKAVNHTAHPTVWDATAGLGRDSFVLASLGLTVTAFEQHPAVACLLSDGIRRALLNPETQDTAARINLHFGNAAEQPALVKTQGKPDIVYLDPYPAYFHRLVGEAQDEVVLLHTARQTAKKRVVVKRPRLGEHLAGQAPAYQYTGKSTRFDVYLPYGADKGLEHH 2r76-a1-m1-cB_2r76-a1-m1-cA Crystal structure of the rare lipoprotein B (SO_1173) from Shewanella oneidensis, Northeast Structural Genomics Consortium Target SoR91A Q8EHP5 Q8EHP5 2.6 X-RAY DIFFRACTION 44 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 126 129 NQLSLSSSDEYKELTRLVRERLRLNNVKIVDAANDVPVLRLITDSLERSTLSLYPTGNVAEYELIYFVEFAVALPGKEAQPFKIEIRRDYLDDPRTALAKSREELLVKERIQAADRILQSASTEVN NQLSLSSSDEYKELTRLVRERLRLNNVKIVDAANDVPVLRLITDSLERSTLSLYPTGNVAEYELIYFVEFAVALPGKEAQPFKIEIRRDYLDDPRTALAKSREELLVKERIQAADRILQSASTEVNLEH 2r78-a2-m1-cD_2r78-a2-m1-cC Crystal structure of a domain of the sensory box sensor histidine kinase/response regulator from Geobacter sulfurreducens Q74DN1 Q74DN1 1.6 X-RAY DIFFRACTION 87 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 114 115 2r78-a1-m1-cA_2r78-a1-m1-cB GTENLYFQSNAYRALFEHAIDGIFIDAEGHYLDVNPAICSAIGYTRDEFLALDWGVLSRGVDSGWAAASLARIVGGEPLREERTVWTRNGDQLTVELSAHLLPDGKILGIARDV LGTENLYFQSNAYRALFEHAIDGIFIDAEGHYLDVNPAICSAIGYTRDEFLALDWGVLSRGVDSGWAAASLARIVGGEPLREERTVWTRNGDQLTVELSAHLLPDGKILGIARDV 2r79-a1-m2-cA_2r79-a1-m6-cA Crystal Structure of a Periplasmic Heme Binding Protein from Pseudomonas aeruginosa O68879 O68879 2.4 X-RAY DIFFRACTION 37 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 279 279 2r79-a1-m1-cA_2r79-a1-m4-cA 2r79-a1-m3-cA_2r79-a1-m5-cA LPQRWVSAGGSLSEWVVALGGESKLVGVDTTSQHPQALKQLPSVGYQRQLAAEGVLALRPDILIGTEEMGPPPVLKQLEGAGVRVETLSAKPDLEALESNLKKLGDWLGVPQRAEAAELDYRQRLRRQADWIAAAQKSQPAPGVLLVIGNAGGQLLVAGRNTGGDWVLNRAGARNLATHEGYKPISVEALAALDPVAVVIADRSLEGDAARAALLKQNPGLAPTRAARDGRLLVLDPTLLVGGLGPRLPDGLAALSAAFYPSAKPLSTPLLGDDSTRTG LPQRWVSAGGSLSEWVVALGGESKLVGVDTTSQHPQALKQLPSVGYQRQLAAEGVLALRPDILIGTEEMGPPPVLKQLEGAGVRVETLSAKPDLEALESNLKKLGDWLGVPQRAEAAELDYRQRLRRQADWIAAAQKSQPAPGVLLVIGNAGGQLLVAGRNTGGDWVLNRAGARNLATHEGYKPISVEALAALDPVAVVIADRSLEGDAARAALLKQNPGLAPTRAARDGRLLVLDPTLLVGGLGPRLPDGLAALSAAFYPSAKPLSTPLLGDDSTRTG 2r79-a1-m3-cA_2r79-a1-m6-cA Crystal Structure of a Periplasmic Heme Binding Protein from Pseudomonas aeruginosa O68879 O68879 2.4 X-RAY DIFFRACTION 68 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 279 279 2r79-a1-m1-cA_2r79-a1-m5-cA 2r79-a1-m2-cA_2r79-a1-m4-cA LPQRWVSAGGSLSEWVVALGGESKLVGVDTTSQHPQALKQLPSVGYQRQLAAEGVLALRPDILIGTEEMGPPPVLKQLEGAGVRVETLSAKPDLEALESNLKKLGDWLGVPQRAEAAELDYRQRLRRQADWIAAAQKSQPAPGVLLVIGNAGGQLLVAGRNTGGDWVLNRAGARNLATHEGYKPISVEALAALDPVAVVIADRSLEGDAARAALLKQNPGLAPTRAARDGRLLVLDPTLLVGGLGPRLPDGLAALSAAFYPSAKPLSTPLLGDDSTRTG LPQRWVSAGGSLSEWVVALGGESKLVGVDTTSQHPQALKQLPSVGYQRQLAAEGVLALRPDILIGTEEMGPPPVLKQLEGAGVRVETLSAKPDLEALESNLKKLGDWLGVPQRAEAAELDYRQRLRRQADWIAAAQKSQPAPGVLLVIGNAGGQLLVAGRNTGGDWVLNRAGARNLATHEGYKPISVEALAALDPVAVVIADRSLEGDAARAALLKQNPGLAPTRAARDGRLLVLDPTLLVGGLGPRLPDGLAALSAAFYPSAKPLSTPLLGDDSTRTG 2r79-a1-m5-cA_2r79-a1-m6-cA Crystal Structure of a Periplasmic Heme Binding Protein from Pseudomonas aeruginosa O68879 O68879 2.4 X-RAY DIFFRACTION 30 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 279 279 2r79-a1-m1-cA_2r79-a1-m2-cA 2r79-a1-m1-cA_2r79-a1-m3-cA 2r79-a1-m2-cA_2r79-a1-m3-cA 2r79-a1-m4-cA_2r79-a1-m5-cA 2r79-a1-m4-cA_2r79-a1-m6-cA LPQRWVSAGGSLSEWVVALGGESKLVGVDTTSQHPQALKQLPSVGYQRQLAAEGVLALRPDILIGTEEMGPPPVLKQLEGAGVRVETLSAKPDLEALESNLKKLGDWLGVPQRAEAAELDYRQRLRRQADWIAAAQKSQPAPGVLLVIGNAGGQLLVAGRNTGGDWVLNRAGARNLATHEGYKPISVEALAALDPVAVVIADRSLEGDAARAALLKQNPGLAPTRAARDGRLLVLDPTLLVGGLGPRLPDGLAALSAAFYPSAKPLSTPLLGDDSTRTG LPQRWVSAGGSLSEWVVALGGESKLVGVDTTSQHPQALKQLPSVGYQRQLAAEGVLALRPDILIGTEEMGPPPVLKQLEGAGVRVETLSAKPDLEALESNLKKLGDWLGVPQRAEAAELDYRQRLRRQADWIAAAQKSQPAPGVLLVIGNAGGQLLVAGRNTGGDWVLNRAGARNLATHEGYKPISVEALAALDPVAVVIADRSLEGDAARAALLKQNPGLAPTRAARDGRLLVLDPTLLVGGLGPRLPDGLAALSAAFYPSAKPLSTPLLGDDSTRTG 2r7g-a1-m1-cA_2r7g-a1-m1-cC Structure of the retinoblastoma protein pocket domain in complex with adenovirus E1A CR1 domain P06400 P06400 1.671 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 336 337 NTIQQLMMILNSASDQPSENLISYFNNCTVNPKESILKRVKDIGYIFKEKFAKAVGQGCVEIGSQRYKLGVRLYYRVMESMLKSEEERLSIQNFSKLLNDNIFHMSLLACALEVVMATYSRSTGTDLSFPWILNVLNLKAFDFYKVIESFIKAEGNLTREMIKHLERCEHRIMESLAWLSDSPLFDLIKQSKDKSTSLSLFYKKVYRLAYLRLNTLCERLLSEHPELEHIIWTLFQHTLQNEYELMRDRHLDQIMMCSMYGICKVKNIDLKFKIIVTAYKDLPHAVQETFKRVLIKEEEYDSIIVFYNSVFMQRLKTNILQYASTRPPTLSPIPHI NTIQQLMMILNSASDQPSENLISYFNNCTVNPKESILKRVKDIGYIFKEKFAKAVGQGCVEIGSQRYKLGVRLYYRVMESMLKSEEERLSIQNFSKLLNDNIFHMSLLACALEVVMATYSRSTGTDLSFPWILNVLNLKAFDFYKVIESFIKAEGNLTREMIKHLERCEHRIMESLAWLSDSPLFDLIKQSKDRKSTSLSLFYKKVYRLAYLRLNTLCERLLSEHPELEHIIWTLFQHTLQNEYELMRDRHLDQIMMCSMYGICKVKNIDLKFKIIVTAYKDLPHAVQETFKRVLIKEEEYDSIIVFYNSVFMQRLKTNILQYASTRPPTLSPIPHI 2r7h-a1-m1-cA_2r7h-a1-m1-cB CRYSTAL STRUCTURE OF A putative acetyltransferase of the GNAT family (DDE_3044) FROM DESULFOVIBRIO DESULFURICANS SUBSP. AT 1.85 A RESOLUTION Q30WV8 Q30WV8 1.85 X-RAY DIFFRACTION 55 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 155 157 AVAFRRQVLPQDALLVRRVVESTGFFTPEEADVAQELVDEHLHACGYHFVFATEDDDAGYACYGPTPATEGTYDLYWIAVAPHRQHSGLGRALLAEVVHDVRLTGGRLLFAETSGIRKYAPTRRFYERAGFSAEAVLKAFYRAGDDKIIYRLEVA AVAFRRQVLPQDALLVRRVVESTGFFTPEEADVAQELVDEHLHGAACGYHFVFATEDDDAGYACYGPTPATEGTYDLYWIAVAPHRQHSGLGRALLAEVVHDVRLTGGRLLFAETSGIRKYAPTRRFYERAGFSAEAVLKAFYRAGDDKIIYRLEVA 2r7l-a1-m2-cA_2r7l-a1-m6-cA Crystal structure of FAICAR synthetase (PurP) from M. jannaschii complexed with ATP and AICAR Q57600 Q57600 2.1 X-RAY DIFFRACTION 13 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 355 355 2r7k-a1-m1-cA_2r7k-a1-m4-cA 2r7k-a1-m2-cA_2r7k-a1-m6-cA 2r7k-a1-m3-cA_2r7k-a1-m5-cA 2r7l-a1-m1-cA_2r7l-a1-m4-cA 2r7l-a1-m3-cA_2r7l-a1-m5-cA 2r7m-a1-m1-cA_2r7m-a1-m4-cA 2r7m-a1-m2-cA_2r7m-a1-m6-cA 2r7m-a1-m3-cA_2r7m-a1-m5-cA 2r7n-a1-m1-cA_2r7n-a1-m4-cA 2r7n-a1-m2-cA_2r7n-a1-m6-cA 2r7n-a1-m3-cA_2r7n-a1-m5-cA MISKDEILEIFDKYNKDEITIATLGSHTSLHILKGAKLEGFSTVCITMKGRDVPYKRFKVADKFIYVDNFSDIKNEEIQEKLRELNSIVVPHGSFIAYCGLDNVENSFLVPMFGNRRILRWESERSLEGKLLREAGLRVPKKYESPEDIDGTVIVKFRGYFIASSTEEFYKKAEDLKKRGILTDEDIANAHIEEYVVGTNFCIHYFYSPLKDEVELLGMDKRYESNIDGLVRIPAKDQLEMNINPSYVITGNIPVVIRESLLPQVFEMGDKLVAKAKELVPPGMIGPFCLQSLCNENLELVVFEMSARVDGGTNSFMNGGPYSFLYNGEPLSMGQRIAREIKMALQLDMIDKIIS MISKDEILEIFDKYNKDEITIATLGSHTSLHILKGAKLEGFSTVCITMKGRDVPYKRFKVADKFIYVDNFSDIKNEEIQEKLRELNSIVVPHGSFIAYCGLDNVENSFLVPMFGNRRILRWESERSLEGKLLREAGLRVPKKYESPEDIDGTVIVKFRGYFIASSTEEFYKKAEDLKKRGILTDEDIANAHIEEYVVGTNFCIHYFYSPLKDEVELLGMDKRYESNIDGLVRIPAKDQLEMNINPSYVITGNIPVVIRESLLPQVFEMGDKLVAKAKELVPPGMIGPFCLQSLCNENLELVVFEMSARVDGGTNSFMNGGPYSFLYNGEPLSMGQRIAREIKMALQLDMIDKIIS 2r7l-a1-m3-cA_2r7l-a1-m6-cA Crystal structure of FAICAR synthetase (PurP) from M. jannaschii complexed with ATP and AICAR Q57600 Q57600 2.1 X-RAY DIFFRACTION 22 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 355 355 2r7k-a1-m1-cA_2r7k-a1-m5-cA 2r7k-a1-m2-cA_2r7k-a1-m4-cA 2r7k-a1-m3-cA_2r7k-a1-m6-cA 2r7l-a1-m1-cA_2r7l-a1-m5-cA 2r7l-a1-m2-cA_2r7l-a1-m4-cA 2r7m-a1-m1-cA_2r7m-a1-m5-cA 2r7m-a1-m2-cA_2r7m-a1-m4-cA 2r7m-a1-m3-cA_2r7m-a1-m6-cA 2r7n-a1-m1-cA_2r7n-a1-m5-cA 2r7n-a1-m2-cA_2r7n-a1-m4-cA 2r7n-a1-m3-cA_2r7n-a1-m6-cA MISKDEILEIFDKYNKDEITIATLGSHTSLHILKGAKLEGFSTVCITMKGRDVPYKRFKVADKFIYVDNFSDIKNEEIQEKLRELNSIVVPHGSFIAYCGLDNVENSFLVPMFGNRRILRWESERSLEGKLLREAGLRVPKKYESPEDIDGTVIVKFRGYFIASSTEEFYKKAEDLKKRGILTDEDIANAHIEEYVVGTNFCIHYFYSPLKDEVELLGMDKRYESNIDGLVRIPAKDQLEMNINPSYVITGNIPVVIRESLLPQVFEMGDKLVAKAKELVPPGMIGPFCLQSLCNENLELVVFEMSARVDGGTNSFMNGGPYSFLYNGEPLSMGQRIAREIKMALQLDMIDKIIS MISKDEILEIFDKYNKDEITIATLGSHTSLHILKGAKLEGFSTVCITMKGRDVPYKRFKVADKFIYVDNFSDIKNEEIQEKLRELNSIVVPHGSFIAYCGLDNVENSFLVPMFGNRRILRWESERSLEGKLLREAGLRVPKKYESPEDIDGTVIVKFRGYFIASSTEEFYKKAEDLKKRGILTDEDIANAHIEEYVVGTNFCIHYFYSPLKDEVELLGMDKRYESNIDGLVRIPAKDQLEMNINPSYVITGNIPVVIRESLLPQVFEMGDKLVAKAKELVPPGMIGPFCLQSLCNENLELVVFEMSARVDGGTNSFMNGGPYSFLYNGEPLSMGQRIAREIKMALQLDMIDKIIS 2r7l-a1-m5-cA_2r7l-a1-m6-cA Crystal structure of FAICAR synthetase (PurP) from M. jannaschii complexed with ATP and AICAR Q57600 Q57600 2.1 X-RAY DIFFRACTION 149 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 355 355 2r7k-a1-m1-cA_2r7k-a1-m2-cA 2r7k-a1-m1-cA_2r7k-a1-m3-cA 2r7k-a1-m2-cA_2r7k-a1-m3-cA 2r7k-a1-m4-cA_2r7k-a1-m5-cA 2r7k-a1-m4-cA_2r7k-a1-m6-cA 2r7k-a1-m5-cA_2r7k-a1-m6-cA 2r7l-a1-m1-cA_2r7l-a1-m2-cA 2r7l-a1-m1-cA_2r7l-a1-m3-cA 2r7l-a1-m2-cA_2r7l-a1-m3-cA 2r7l-a1-m4-cA_2r7l-a1-m5-cA 2r7l-a1-m4-cA_2r7l-a1-m6-cA 2r7m-a1-m1-cA_2r7m-a1-m2-cA 2r7m-a1-m1-cA_2r7m-a1-m3-cA 2r7m-a1-m2-cA_2r7m-a1-m3-cA 2r7m-a1-m4-cA_2r7m-a1-m5-cA 2r7m-a1-m4-cA_2r7m-a1-m6-cA 2r7m-a1-m5-cA_2r7m-a1-m6-cA 2r7n-a1-m1-cA_2r7n-a1-m2-cA 2r7n-a1-m1-cA_2r7n-a1-m3-cA 2r7n-a1-m2-cA_2r7n-a1-m3-cA 2r7n-a1-m4-cA_2r7n-a1-m5-cA 2r7n-a1-m4-cA_2r7n-a1-m6-cA 2r7n-a1-m5-cA_2r7n-a1-m6-cA MISKDEILEIFDKYNKDEITIATLGSHTSLHILKGAKLEGFSTVCITMKGRDVPYKRFKVADKFIYVDNFSDIKNEEIQEKLRELNSIVVPHGSFIAYCGLDNVENSFLVPMFGNRRILRWESERSLEGKLLREAGLRVPKKYESPEDIDGTVIVKFRGYFIASSTEEFYKKAEDLKKRGILTDEDIANAHIEEYVVGTNFCIHYFYSPLKDEVELLGMDKRYESNIDGLVRIPAKDQLEMNINPSYVITGNIPVVIRESLLPQVFEMGDKLVAKAKELVPPGMIGPFCLQSLCNENLELVVFEMSARVDGGTNSFMNGGPYSFLYNGEPLSMGQRIAREIKMALQLDMIDKIIS MISKDEILEIFDKYNKDEITIATLGSHTSLHILKGAKLEGFSTVCITMKGRDVPYKRFKVADKFIYVDNFSDIKNEEIQEKLRELNSIVVPHGSFIAYCGLDNVENSFLVPMFGNRRILRWESERSLEGKLLREAGLRVPKKYESPEDIDGTVIVKFRGYFIASSTEEFYKKAEDLKKRGILTDEDIANAHIEEYVVGTNFCIHYFYSPLKDEVELLGMDKRYESNIDGLVRIPAKDQLEMNINPSYVITGNIPVVIRESLLPQVFEMGDKLVAKAKELVPPGMIGPFCLQSLCNENLELVVFEMSARVDGGTNSFMNGGPYSFLYNGEPLSMGQRIAREIKMALQLDMIDKIIS 2r83-a1-m1-cA_2r83-a1-m1-cB Crystal structure analysis of human synaptotagmin 1 C2A-C2B P21579 P21579 2.7 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 279 EKLGKLQYSLDYDFQNNQLLVGIIQAAELPALDMGGTSDPYVKVFLLPDKKKKFETKVHRKTLNPVFNEQFTFKVPYSELAGKTLVMAVYDFDRFSKHDIIGEFKVPMNTVDFGHVTEEWRDLQSAEKEEQEKLGDICFSLRYVPTAGKLTVVILEAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPYYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPRRPIAQWHTLQVEEEVDAMLA EKLGKLQYSLDYDFQNNQLLVGIIQAAELPALDMGGTSDPYVKVFLLPDKKKKFETKVHRKTLNPVFNEQFTFKVPYSELAGKTLVMAVYDFDRFSKHDIIGEFKVPMNTVDFGHVTEEWRDLQSAEKEEQEKLGDICFSLRYVPTAGKLTVVILEAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPYYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPRRPIAQWHTLQVEEEVDAMLA 2r84-a2-m2-cB_2r84-a2-m3-cB Crystal structure of PurP from Pyrococcus furiosus complexed with AMP and AICAR Q8U0R7 Q8U0R7 1.9 X-RAY DIFFRACTION 122 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 313 313 2r84-a1-m1-cA_2r84-a1-m2-cA 2r84-a1-m1-cA_2r84-a1-m3-cA 2r84-a1-m2-cA_2r84-a1-m3-cA 2r84-a2-m1-cB_2r84-a2-m2-cB 2r84-a2-m1-cB_2r84-a2-m3-cB 2r85-a1-m1-cA_2r85-a1-m2-cA 2r85-a1-m1-cA_2r85-a1-m3-cA 2r85-a1-m2-cA_2r85-a1-m3-cA 2r85-a2-m1-cB_2r85-a2-m2-cB 2r85-a2-m1-cB_2r85-a2-m3-cB 2r85-a2-m2-cB_2r85-a2-m3-cB 2r86-a1-m1-cA_2r86-a1-m2-cA 2r86-a1-m1-cA_2r86-a1-m3-cA 2r86-a1-m2-cA_2r86-a1-m3-cA 2r86-a2-m1-cB_2r86-a2-m2-cB 2r86-a2-m1-cB_2r86-a2-m3-cB 2r86-a2-m2-cB_2r86-a2-m3-cB 2r87-a1-m1-cA_2r87-a1-m1-cB 2r87-a1-m1-cA_2r87-a1-m1-cC 2r87-a1-m1-cB_2r87-a1-m1-cC 2r87-a2-m1-cD_2r87-a2-m1-cE 2r87-a2-m1-cD_2r87-a2-m1-cF 2r87-a2-m1-cE_2r87-a2-m1-cF MKVRIATYASHSALQILKGAKDEGFETIAFGSSKVKPLYTKYFPVADYFIEEKYPEEELLNLNAVVVPTGSFVAHLGIELVENMKVPYFGNKRVLRWESDRNLERKWLKKAGIRVPEVYEDPDDIEKPVIVKGYFLAKDPEDFWRKAEIQIQEYVLGVPVYPHYFYSKVREELELMSIDRRYESNVDAIGRIPAKDQLEFDMDITYTVIGNIPIVLRESLLMDVIEAGERVVKAAEELMGGLWGPFCLEGVFTPDLEFVVFEISARIVAGTNIFVNGSPYTWLRYDRPVSTGRRIAMEIREAIENDMLEKVLT MKVRIATYASHSALQILKGAKDEGFETIAFGSSKVKPLYTKYFPVADYFIEEKYPEEELLNLNAVVVPTGSFVAHLGIELVENMKVPYFGNKRVLRWESDRNLERKWLKKAGIRVPEVYEDPDDIEKPVIVKGYFLAKDPEDFWRKAEIQIQEYVLGVPVYPHYFYSKVREELELMSIDRRYESNVDAIGRIPAKDQLEFDMDITYTVIGNIPIVLRESLLMDVIEAGERVVKAAEELMGGLWGPFCLEGVFTPDLEFVVFEISARIVAGTNIFVNGSPYTWLRYDRPVSTGRRIAMEIREAIENDMLEKVLT 2r8e-a3-m1-cF_2r8e-a3-m1-cH Crystal structure of YrbI from Escherichia coli in complex with Mg P67653 P67653 1.4 X-RAY DIFFRACTION 79 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 181 181 2r8e-a1-m1-cA_2r8e-a1-m1-cB 2r8e-a1-m1-cA_2r8e-a1-m1-cC 2r8e-a1-m1-cB_2r8e-a1-m1-cD 2r8e-a1-m1-cC_2r8e-a1-m1-cD 2r8e-a1-m1-cE_2r8e-a1-m1-cG 2r8e-a1-m1-cE_2r8e-a1-m1-cH 2r8e-a1-m1-cF_2r8e-a1-m1-cG 2r8e-a1-m1-cF_2r8e-a1-m1-cH 2r8e-a2-m1-cA_2r8e-a2-m1-cB 2r8e-a2-m1-cA_2r8e-a2-m1-cC 2r8e-a2-m1-cB_2r8e-a2-m1-cD 2r8e-a2-m1-cC_2r8e-a2-m1-cD 2r8e-a3-m1-cE_2r8e-a3-m1-cG 2r8e-a3-m1-cE_2r8e-a3-m1-cH 2r8e-a3-m1-cF_2r8e-a3-m1-cG 2r8x-a1-m1-cI_2r8x-a1-m1-cJ 2r8x-a1-m1-cI_2r8x-a1-m1-cL 2r8x-a1-m1-cJ_2r8x-a1-m1-cK 2r8x-a1-m1-cK_2r8x-a1-m1-cL 2r8x-a1-m1-cM_2r8x-a1-m1-cN 2r8x-a1-m1-cM_2r8x-a1-m2-cP 2r8x-a1-m1-cN_2r8x-a1-m2-cO 2r8x-a1-m2-cO_2r8x-a1-m2-cP 2r8x-a2-m1-cA_2r8x-a2-m1-cB 2r8x-a2-m1-cA_2r8x-a2-m1-cD 2r8x-a2-m1-cB_2r8x-a2-m1-cC 2r8x-a2-m1-cC_2r8x-a2-m1-cD 2r8x-a2-m1-cE_2r8x-a2-m1-cH 2r8x-a2-m1-cF_2r8x-a2-m1-cE 2r8x-a2-m1-cF_2r8x-a2-m1-cG 2r8x-a2-m1-cG_2r8x-a2-m1-cH 2r8x-a3-m1-cA_2r8x-a3-m1-cB 2r8x-a3-m1-cA_2r8x-a3-m1-cD 2r8x-a3-m1-cB_2r8x-a3-m1-cC 2r8x-a3-m1-cC_2r8x-a3-m1-cD 2r8x-a4-m1-cE_2r8x-a4-m1-cH 2r8x-a4-m1-cF_2r8x-a4-m1-cE 2r8x-a4-m1-cF_2r8x-a4-m1-cG 2r8x-a4-m1-cG_2r8x-a4-m1-cH 2r8x-a5-m1-cI_2r8x-a5-m1-cJ 2r8x-a5-m1-cI_2r8x-a5-m1-cL 2r8x-a5-m1-cJ_2r8x-a5-m1-cK 2r8x-a5-m1-cK_2r8x-a5-m1-cL 2r8x-a6-m1-cM_2r8x-a6-m1-cN 2r8x-a6-m1-cM_2r8x-a6-m4-cP 2r8x-a6-m1-cN_2r8x-a6-m4-cO 2r8x-a6-m4-cO_2r8x-a6-m4-cP 2r8y-a1-m1-cA_2r8y-a1-m1-cB 2r8y-a1-m1-cA_2r8y-a1-m1-cD 2r8y-a1-m1-cB_2r8y-a1-m1-cC 2r8y-a1-m1-cC_2r8y-a1-m1-cD 2r8y-a2-m1-cE_2r8y-a2-m1-cH 2r8y-a2-m1-cF_2r8y-a2-m1-cE 2r8y-a2-m1-cF_2r8y-a2-m1-cG 2r8y-a2-m1-cG_2r8y-a2-m1-cH 2r8y-a3-m1-cI_2r8y-a3-m1-cJ 2r8y-a3-m1-cI_2r8y-a3-m1-cL 2r8y-a3-m1-cJ_2r8y-a3-m1-cK 2r8y-a3-m1-cK_2r8y-a3-m1-cL 2r8y-a4-m1-cM_2r8y-a4-m1-cN 2r8y-a4-m1-cM_2r8y-a4-m2-cP 2r8y-a4-m1-cN_2r8y-a4-m2-cO 2r8y-a4-m2-cO_2r8y-a4-m2-cP 2r8z-a1-m1-cI_2r8z-a1-m1-cJ 2r8z-a1-m1-cI_2r8z-a1-m1-cL 2r8z-a1-m1-cJ_2r8z-a1-m1-cK 2r8z-a1-m1-cK_2r8z-a1-m1-cL 2r8z-a1-m1-cM_2r8z-a1-m1-cN 2r8z-a1-m1-cM_2r8z-a1-m2-cP 2r8z-a1-m2-cO_2r8z-a1-m1-cN 2r8z-a1-m2-cO_2r8z-a1-m2-cP 2r8z-a2-m1-cA_2r8z-a2-m1-cB 2r8z-a2-m1-cA_2r8z-a2-m1-cD 2r8z-a2-m1-cB_2r8z-a2-m1-cC 2r8z-a2-m1-cC_2r8z-a2-m1-cD 2r8z-a2-m1-cE_2r8z-a2-m1-cF 2r8z-a2-m1-cE_2r8z-a2-m1-cH 2r8z-a2-m1-cF_2r8z-a2-m1-cG 2r8z-a2-m1-cG_2r8z-a2-m1-cH 2r8z-a3-m1-cA_2r8z-a3-m1-cB 2r8z-a3-m1-cA_2r8z-a3-m1-cD 2r8z-a3-m1-cB_2r8z-a3-m1-cC 2r8z-a3-m1-cC_2r8z-a3-m1-cD 2r8z-a4-m1-cI_2r8z-a4-m1-cJ 2r8z-a4-m1-cI_2r8z-a4-m1-cL 2r8z-a4-m1-cJ_2r8z-a4-m1-cK 2r8z-a4-m1-cK_2r8z-a4-m1-cL 2r8z-a5-m1-cE_2r8z-a5-m1-cF 2r8z-a5-m1-cE_2r8z-a5-m1-cH 2r8z-a5-m1-cF_2r8z-a5-m1-cG 2r8z-a5-m1-cG_2r8z-a5-m1-cH 2r8z-a6-m1-cM_2r8z-a6-m1-cN 2r8z-a6-m1-cM_2r8z-a6-m4-cP 2r8z-a6-m4-cO_2r8z-a6-m1-cN 2r8z-a6-m4-cO_2r8z-a6-m4-cP 3hyc-a1-m1-cE_3hyc-a1-m1-cF 3hyc-a1-m1-cE_3hyc-a1-m1-cH 3hyc-a1-m1-cF_3hyc-a1-m1-cG 3hyc-a1-m1-cG_3hyc-a1-m1-cH 3hyc-a2-m1-cB_3hyc-a2-m1-cA 3hyc-a2-m1-cB_3hyc-a2-m1-cC 3hyc-a2-m1-cD_3hyc-a2-m1-cA 3hyc-a2-m1-cD_3hyc-a2-m1-cC 3hyc-a3-m1-cB_3hyc-a3-m1-cA 3hyc-a3-m1-cB_3hyc-a3-m1-cC 3hyc-a3-m1-cD_3hyc-a3-m1-cA 3hyc-a3-m1-cD_3hyc-a3-m1-cC 3hyc-a3-m1-cE_3hyc-a3-m1-cF 3hyc-a3-m1-cE_3hyc-a3-m1-cH 3hyc-a3-m1-cF_3hyc-a3-m1-cG 3hyc-a3-m1-cG_3hyc-a3-m1-cH 3i6b-a1-m1-cA_3i6b-a1-m1-cB 3i6b-a1-m1-cA_3i6b-a1-m1-cD 3i6b-a1-m1-cB_3i6b-a1-m1-cC 3i6b-a1-m1-cC_3i6b-a1-m1-cD 3i6b-a2-m1-cA_3i6b-a2-m1-cB 3i6b-a2-m1-cA_3i6b-a2-m1-cD 3i6b-a2-m1-cB_3i6b-a2-m1-cC 3i6b-a2-m1-cC_3i6b-a2-m1-cD 3i6b-a2-m2-cA_3i6b-a2-m2-cB 3i6b-a2-m2-cA_3i6b-a2-m2-cD 3i6b-a2-m2-cB_3i6b-a2-m2-cC 3i6b-a2-m2-cC_3i6b-a2-m2-cD LATCYGPVSADVMAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI LATCYGPVSADVMAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI 2r8q-a1-m1-cA_2r8q-a1-m1-cB Structure of LmjPDEB1 in complex with IBMX Q6S996 Q6S996 1.5 X-RAY DIFFRACTION 57 1.0 5664 (Leishmania major) 5664 (Leishmania major) 335 335 VIAVTPEEREAVMSIDFGGAYDFTSPGFNLFEVREKYSEPMDAAAGVVYNLLWNSGLPEKFGCREQTLLNFILQCRRRYRRVPYHNFYHVVDVCQTLHTYLYTGKASELLTELECYVLLVTALVHDLDHMGVNNSFYLKTDSPLGILSSASGNNSVLEVHHCSLAIEILSDPAADVFEGLSGQDVAYAYRALIDCVLATDMAKHADALSRFTELATSGFEKDNDTHRRLVMETLIKAGDVSNVTKPFETSRMWAMAVTEEFYRQGDMEKEKGVEVLPMFDRSKNNELARGQIGFIDFVAGKFFRDIVGNLFHGMQWCVDTVNSNRAKWQEILDGR VIAVTPEEREAVMSIDFGGAYDFTSPGFNLFEVREKYSEPMDAAAGVVYNLLWNSGLPEKFGCREQTLLNFILQCRRRYRRVPYHNFYHVVDVCQTLHTYLYTGKASELLTELECYVLLVTALVHDLDHMGVNNSFYLKTDSPLGILSSASGNNSVLEVHHCSLAIEILSDPAADVFEGLSGQDVAYAYRALIDCVLATDMAKHADALSRFTELATSGFEKDNDTHRRLVMETLIKAGDVSNVTKPFETSRMWAMAVTEEFYRQGDMEKEKGVEVLPMFDRSKNNELARGQIGFIDFVAGKFFRDIVGNLFHGMQWCVDTVNSNRAKWQEILDGR 2r8w-a1-m1-cA_2r8w-a1-m1-cB The crystal structure of dihydrodipicolinate synthase (Atu0899) from Agrobacterium tumefaciens str. C58 Q7D0E8 Q7D0E8 1.8 X-RAY DIFFRACTION 73 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 292 294 DATRFKGLSAFPITPADEAGRVDIEAFSALIARLDAAEVDSVGILGSTGIYYLTREERRRAIEAAATILRGRRTLAGIGALRTDEAVALAKDAEAAGADALLLAPVSYTPLTQEEAYHHFAAVAGATALPLAIYNNPTTTRFTFSDELLVRLAYIPNIRAIKPLPADADYAGELARLRPKLSDDFAIGYSGDWGCTDATLAGGDTWYSVVAGLLPVPALQLRAAQAGNAEEAKRLDATFQPLWALFKEFGSIRVIYAAANILSLTVSEPPRPILPLTSAERQRVEEALEALS ETDATRFKGLSAFPITPADEAGRVDIEAFSALIARLDAAEVDSVGILGSTGIYYLTREERRRAIEAAATILRGRRTLAGIGALRTDEAVALAKDAEAAGADALLLAPVSYTPLTQEEAYHHFAAVAGATALPLAIYNNPTTTRFTFSDELLVRLAYIPNIRAIKPLPADADYAGELARLRPKLSDDFAIGYSGDWGCTDATLAGGDTWYSVVAGLLPVPALQLRAAQAGNAEEAKRLDATFQPLWALFKEFGSIRVIYAAANILSLTVSEPPRPILPLTSAERQRVEEALEALS 2r8x-a2-m1-cB_2r8x-a2-m1-cH Crystal structure of YrbI phosphatase from Escherichia coli P67653 P67653 2.6 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 181 183 2r8e-a1-m1-cA_2r8e-a1-m1-cF 2r8e-a1-m1-cB_2r8e-a1-m1-cG 2r8e-a1-m1-cC_2r8e-a1-m1-cH 2r8e-a1-m1-cD_2r8e-a1-m1-cE 2r8x-a1-m1-cI_2r8x-a1-m2-cO 2r8x-a1-m1-cJ_2r8x-a1-m1-cN 2r8x-a1-m1-cK_2r8x-a1-m1-cM 2r8x-a1-m1-cL_2r8x-a1-m2-cP 2r8x-a2-m1-cA_2r8x-a2-m1-cE 2r8x-a2-m1-cC_2r8x-a2-m1-cG 2r8x-a2-m1-cF_2r8x-a2-m1-cD 2r8z-a1-m1-cI_2r8z-a1-m2-cP 2r8z-a1-m1-cK_2r8z-a1-m1-cN 2r8z-a1-m1-cL_2r8z-a1-m1-cM 2r8z-a1-m2-cO_2r8z-a1-m1-cJ 2r8z-a2-m1-cA_2r8z-a2-m1-cF 2r8z-a2-m1-cC_2r8z-a2-m1-cH 2r8z-a2-m1-cD_2r8z-a2-m1-cG 2r8z-a2-m1-cE_2r8z-a2-m1-cB 3hyc-a3-m1-cA_3hyc-a3-m1-cE 3hyc-a3-m1-cB_3hyc-a3-m1-cH 3hyc-a3-m1-cC_3hyc-a3-m1-cG 3hyc-a3-m1-cD_3hyc-a3-m1-cF 3i6b-a2-m1-cA_3i6b-a2-m2-cD 3i6b-a2-m1-cB_3i6b-a2-m2-cC 3i6b-a2-m1-cC_3i6b-a2-m2-cB 3i6b-a2-m2-cA_3i6b-a2-m1-cD LATCYGPVSADVMAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI ASLATCYGPVSADVMAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI 2r8x-a2-m1-cC_2r8x-a2-m1-cH Crystal structure of YrbI phosphatase from Escherichia coli P67653 P67653 2.6 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 181 183 2r8e-a1-m1-cA_2r8e-a1-m1-cH 2r8e-a1-m1-cB_2r8e-a1-m1-cF 2r8e-a1-m1-cC_2r8e-a1-m1-cE 2r8e-a1-m1-cD_2r8e-a1-m1-cG 2r8x-a1-m1-cI_2r8x-a1-m1-cN 2r8x-a1-m1-cJ_2r8x-a1-m1-cM 2r8x-a1-m1-cK_2r8x-a1-m2-cP 2r8x-a1-m1-cL_2r8x-a1-m2-cO 2r8x-a2-m1-cB_2r8x-a2-m1-cE 2r8x-a2-m1-cD_2r8x-a2-m1-cG 2r8x-a2-m1-cF_2r8x-a2-m1-cA 2r8z-a1-m1-cJ_2r8z-a1-m1-cN 2r8z-a1-m1-cK_2r8z-a1-m1-cM 2r8z-a1-m1-cL_2r8z-a1-m2-cP 2r8z-a1-m2-cO_2r8z-a1-m1-cI 2r8z-a2-m1-cB_2r8z-a2-m1-cH 2r8z-a2-m1-cC_2r8z-a2-m1-cG 2r8z-a2-m1-cD_2r8z-a2-m1-cF 2r8z-a2-m1-cE_2r8z-a2-m1-cA 3hyc-a3-m1-cA_3hyc-a3-m1-cH 3hyc-a3-m1-cB_3hyc-a3-m1-cG 3hyc-a3-m1-cC_3hyc-a3-m1-cF 3hyc-a3-m1-cD_3hyc-a3-m1-cE 3i6b-a2-m1-cA_3i6b-a2-m2-cA 3i6b-a2-m1-cB_3i6b-a2-m2-cD 3i6b-a2-m1-cC_3i6b-a2-m2-cC 3i6b-a2-m1-cD_3i6b-a2-m2-cB LATCYGPVSADVMAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI ASLATCYGPVSADVMAKAENIRLLILDVDGVLSDGLIYMGNNGEELKAFNVRDGYGIRCALTSDIEVAIITGRKAKLVEDRCATLGITHLYQGQSNKLIAFSDLLEKLAIAPENVAYVGDDLIDWPVMEKVGLSVAVADAHPLLIPRADYVTRIAGGRGAVREVCDLLLLAQGKLDEAKGQSI 2r91-a1-m1-cA_2r91-a1-m1-cD Crystal Structure of KD(P)GA from T.tenax Q704D1 Q704D1 2 X-RAY DIFFRACTION 117 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 286 286 2r91-a1-m1-cB_2r91-a1-m1-cC 2r94-a1-m1-cB_2r94-a1-m1-cC 2r94-a1-m1-cD_2r94-a1-m1-cA MEIVAPVITTFRGGRLDPELFANHVKNITSKGVDVVFVAGTTGLGPALSLQEKMELTDAATSAARRVIVQVASLNADEAIALAKYAESRGAEAVASLPPYYFPRLSERQIAKYFRDLCSAVSIPVFLYNYPAAVGRDVDARAAKELGCIRGVKDTNESLAHTLAYKRYLPQARVYNGSDSLVFASFAVRLDGVVASSANYLPELLAGIRDAVAAGDIERARSLQFLLDEIVESARHIGYAAAVYELVEIFQGYEAGEPRGPVYPLDPEEKAWLRAAVAKAKSQLRL MEIVAPVITTFRGGRLDPELFANHVKNITSKGVDVVFVAGTTGLGPALSLQEKMELTDAATSAARRVIVQVASLNADEAIALAKYAESRGAEAVASLPPYYFPRLSERQIAKYFRDLCSAVSIPVFLYNYPAAVGRDVDARAAKELGCIRGVKDTNESLAHTLAYKRYLPQARVYNGSDSLVFASFAVRLDGVVASSANYLPELLAGIRDAVAAGDIERARSLQFLLDEIVESARHIGYAAAVYELVEIFQGYEAGEPRGPVYPLDPEEKAWLRAAVAKAKSQLRL 2r91-a1-m1-cB_2r91-a1-m1-cD Crystal Structure of KD(P)GA from T.tenax Q704D1 Q704D1 2 X-RAY DIFFRACTION 62 1.0 2271 (Thermoproteus tenax) 2271 (Thermoproteus tenax) 286 286 2r91-a1-m1-cA_2r91-a1-m1-cC 2r94-a1-m1-cC_2r94-a1-m1-cA 2r94-a1-m1-cD_2r94-a1-m1-cB MEIVAPVITTFRGGRLDPELFANHVKNITSKGVDVVFVAGTTGLGPALSLQEKMELTDAATSAARRVIVQVASLNADEAIALAKYAESRGAEAVASLPPYYFPRLSERQIAKYFRDLCSAVSIPVFLYNYPAAVGRDVDARAAKELGCIRGVKDTNESLAHTLAYKRYLPQARVYNGSDSLVFASFAVRLDGVVASSANYLPELLAGIRDAVAAGDIERARSLQFLLDEIVESARHIGYAAAVYELVEIFQGYEAGEPRGPVYPLDPEEKAWLRAAVAKAKSQLRL MEIVAPVITTFRGGRLDPELFANHVKNITSKGVDVVFVAGTTGLGPALSLQEKMELTDAATSAARRVIVQVASLNADEAIALAKYAESRGAEAVASLPPYYFPRLSERQIAKYFRDLCSAVSIPVFLYNYPAAVGRDVDARAAKELGCIRGVKDTNESLAHTLAYKRYLPQARVYNGSDSLVFASFAVRLDGVVASSANYLPELLAGIRDAVAAGDIERARSLQFLLDEIVESARHIGYAAAVYELVEIFQGYEAGEPRGPVYPLDPEEKAWLRAAVAKAKSQLRL 2r9e-a2-m1-cC_2r9e-a2-m1-cD The structure of the binary complex of citryl dethia COA and citrate synthase from the thermophilic archaeonthermoplasma acidophilum P21553 P21553 1.95 X-RAY DIFFRACTION 397 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 379 379 2ifc-a1-m1-cA_2ifc-a1-m1-cC 2ifc-a2-m1-cD_2ifc-a2-m1-cB 2r26-a1-m1-cB_2r26-a1-m1-cA 2r26-a2-m1-cC_2r26-a2-m1-cD 2r9e-a1-m1-cB_2r9e-a1-m1-cA 4ybo-a1-m1-cB_4ybo-a1-m1-cA 4ybo-a2-m1-cC_4ybo-a2-m1-cD EISKGLEDVNIKWTRLTTIDGNKGILRYGGYSVEDIIASGAQDEEIQYLFLYGNLPTEQELRKYKETVQKGYKIPDFVINAIRQLPRESDAVAMQMAAVAAMAASETKFKWNKDTDRDVAAEMIGRMSAITVNVYRHIMNMPAELPKPSDSYAESFLNAAFGRKATKEEIDAMNTALILYTDHEVPASTTAGLVAVSTLSDMYSGITAALAALKGPLHGGAAEAAIAQFDEIKDPAMVEKWFNDNIINGKKRLMGFGHRVYKTYDPRAKIFKGIAEKLSSKKPEVHKVYEIATKLEDFGIKAFGSKGIYPNTDYFSGIVYMSIGFPLRNNIYTALFALSRVTGWQAHFIEYVEEQQRLIRPRAVYVGPAERKYVPIAER EISKGLEDVNIKWTRLTTIDGNKGILRYGGYSVEDIIASGAQDEEIQYLFLYGNLPTEQELRKYKETVQKGYKIPDFVINAIRQLPRESDAVAMQMAAVAAMAASETKFKWNKDTDRDVAAEMIGRMSAITVNVYRHIMNMPAELPKPSDSYAESFLNAAFGRKATKEEIDAMNTALILYTDHEVPASTTAGLVAVSTLSDMYSGITAALAALKGPLHGGAAEAAIAQFDEIKDPAMVEKWFNDNIINGKKRLMGFGHRVYKTYDPRAKIFKGIAEKLSSKKPEVHKVYEIATKLEDFGIKAFGSKGIYPNTDYFSGIVYMSIGFPLRNNIYTALFALSRVTGWQAHFIEYVEEQQRLIRPRAVYVGPAERKYVPIAER 2r9g-a6-m1-cF_2r9g-a6-m1-cO Crystal structure of the C-terminal fragment of AAA ATPase from Enterococcus faecium 2.09 X-RAY DIFFRACTION 23 0.994 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 180 180 2r9g-a5-m1-cB_2r9g-a5-m1-cL 2r9g-a5-m1-cK_2r9g-a5-m1-cC 2r9g-a6-m1-cE_2r9g-a6-m1-cP DAHYDVISAFQKSIRGSDVDAALHYLARLVEAGDLASICRRLMVIGYEDIGLGNPAAAARTVNAVLAAEKLGLPEARIPLADVVVDLCLSPKSNSAYMALDAALADIREGKAGDVPDHLRDSHYNRGVGYQYPHHFDQAWVNQQYLPDKLKNAQYYQPKDTGKYEQALGQQYYRIKEWKE GDAHYDVISAFQKSIRGSDVDAALHYLARLVEAGDLASICRRLMVIGYEDIGLGNPAAAARTVNAVLAAEKLGLPEARIPLADVVVDLCLSPKSNSAYMALDAALADIREGKAGDVPDHLRDSHYRGVGYQYPHHFDQAWVNQQYLPDKLKNAQYYQPKDTGKYEQALGQQYYRIKEWKE 2r9g-a6-m1-cG_2r9g-a6-m1-cM Crystal structure of the C-terminal fragment of AAA ATPase from Enterococcus faecium 2.09 X-RAY DIFFRACTION 14 1.0 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 179 179 2r9g-a5-m1-cA_2r9g-a5-m1-cL 2r9g-a5-m1-cI_2r9g-a5-m1-cD DAHYDVISAFQKSIRGSDVDAALHYLARLVEAGDLASICRRLMVIGYEDIGLGNPAAAARTVNAVLAAEKLGLPEARIPLADVVVDLCLSPKSNSAYMALDAALADIREGKAGDVPDHLRDSHYRGVGYQYPHHFDQAWVNQQYLPDKLKNAQYYQPKDTGKYEQALGQQYYRIKEWKE DAHYDVISAFQKSIRGSDVDAALHYLARLVEAGDLASICRRLMVIGYEDIGLGNPAAAARTVNAVLAAEKLGLPEARIPLADVVVDLCLSPKSNSAYMALDAALADIREGKAGDVPDHLRDSHYRGVGYQYPHHFDQAWVNQQYLPDKLKNAQYYQPKDTGKYEQALGQQYYRIKEWKE 2r9g-a6-m1-cM_2r9g-a6-m1-cN Crystal structure of the C-terminal fragment of AAA ATPase from Enterococcus faecium 2.09 X-RAY DIFFRACTION 173 1.0 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 179 180 2qw6-a1-m1-cA_2qw6-a1-m1-cB 2qw6-a1-m1-cA_2qw6-a1-m1-cD 2qw6-a1-m1-cC_2qw6-a1-m1-cB 2qw6-a1-m1-cC_2qw6-a1-m1-cD 2r9g-a1-m1-cA_2r9g-a1-m1-cB 2r9g-a1-m1-cA_2r9g-a1-m1-cD 2r9g-a1-m1-cB_2r9g-a1-m1-cC 2r9g-a1-m1-cD_2r9g-a1-m1-cC 2r9g-a2-m1-cE_2r9g-a2-m1-cF 2r9g-a2-m1-cE_2r9g-a2-m1-cH 2r9g-a2-m1-cG_2r9g-a2-m1-cF 2r9g-a2-m1-cG_2r9g-a2-m1-cH 2r9g-a3-m1-cI_2r9g-a3-m1-cJ 2r9g-a3-m1-cI_2r9g-a3-m1-cL 2r9g-a3-m1-cK_2r9g-a3-m1-cJ 2r9g-a3-m1-cK_2r9g-a3-m1-cL 2r9g-a4-m1-cM_2r9g-a4-m1-cN 2r9g-a4-m1-cM_2r9g-a4-m1-cP 2r9g-a4-m1-cN_2r9g-a4-m1-cO 2r9g-a4-m1-cO_2r9g-a4-m1-cP 2r9g-a5-m1-cA_2r9g-a5-m1-cB 2r9g-a5-m1-cA_2r9g-a5-m1-cD 2r9g-a5-m1-cB_2r9g-a5-m1-cC 2r9g-a5-m1-cD_2r9g-a5-m1-cC 2r9g-a5-m1-cI_2r9g-a5-m1-cJ 2r9g-a5-m1-cI_2r9g-a5-m1-cL 2r9g-a5-m1-cK_2r9g-a5-m1-cJ 2r9g-a5-m1-cK_2r9g-a5-m1-cL 2r9g-a6-m1-cE_2r9g-a6-m1-cF 2r9g-a6-m1-cE_2r9g-a6-m1-cH 2r9g-a6-m1-cG_2r9g-a6-m1-cF 2r9g-a6-m1-cG_2r9g-a6-m1-cH 2r9g-a6-m1-cM_2r9g-a6-m1-cP 2r9g-a6-m1-cN_2r9g-a6-m1-cO 2r9g-a6-m1-cO_2r9g-a6-m1-cP DAHYDVISAFQKSIRGSDVDAALHYLARLVEAGDLASICRRLMVIGYEDIGLGNPAAAARTVNAVLAAEKLGLPEARIPLADVVVDLCLSPKSNSAYMALDAALADIREGKAGDVPDHLRDSHYRGVGYQYPHHFDQAWVNQQYLPDKLKNAQYYQPKDTGKYEQALGQQYYRIKEWKE DAHYDVISAFQKSIRGSDVDAALHYLARLVEAGDLASICRRLMVIGYEDIGLGNPAAAARTVNAVLAAEKLGLPEARIPLADVVVDLCLSPKSNSAYMALDAALADIREGKAGDVPDHLRDSHYNRGVGYQYPHHFDQAWVNQQYLPDKLKNAQYYQPKDTGKYEQALGQQYYRIKEWKE 2r9p-a2-m1-cF_2r9p-a2-m3-cI Human mesotrypsin complexed with bovine pancreatic trypsin inhibitor(BPTI) P00974 P00974 1.4 X-RAY DIFFRACTION 17 1.0 9913 (Bos taurus) 9913 (Bos taurus) 58 58 2r9p-a1-m1-cE_2r9p-a1-m1-cG RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCGGA RPDFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCGGA 2r9p-a2-m3-cD_2r9p-a2-m1-cB Human mesotrypsin complexed with bovine pancreatic trypsin inhibitor(BPTI) P35030 P35030 1.4 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 2r9p-a1-m1-cC_2r9p-a1-m1-cA IVGGYTCEENSLPYQVSLNSGSHFCGGSLISEQWVVSAAHCYKTRIQVRLGEHNIKVLEGNEQFINAAKIIRHPKYNRDTLDNDIMLIKLSSPAVINARVSTISLPTAPPAAGTECLISGWGNTLSFGADYPDELKCLDAPVLTQAECKASYPGKITNSMFCVGFLEGGKDSCQRDAGGPVVCNGQLQGVVSWGHGCAWKNRPGVYTKVYNYVDWIKDTIAANS IVGGYTCEENSLPYQVSLNSGSHFCGGSLISEQWVVSAAHCYKTRIQVRLGEHNIKVLEGNEQFINAAKIIRHPKYNRDTLDNDIMLIKLSSPAVINARVSTISLPTAPPAAGTECLISGWGNTLSFGADYPDELKCLDAPVLTQAECKASYPGKITNSMFCVGFLEGGKDSCQRDAGGPVVCNGQLQGVVSWGHGCAWKNRPGVYTKVYNYVDWIKDTIAANS 2r9q-a1-m1-cA_2r9q-a1-m1-cD Crystal structure of 2'-deoxycytidine 5'-triphosphate deaminase from Agrobacterium tumefaciens A9CKA1 A9CKA1 2.2 X-RAY DIFFRACTION 12 0.988 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 327 330 2r9q-a1-m1-cC_2r9q-a1-m1-cB RTTGILADGAIRALFAGDKLKSEADLDVDQVQPASLDLRLGSKAYRVRASFMPGPGTRVIDKLNRFLHEVDLSQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDNAQEFDKIPAGYTGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHALLNESEVLKLHETETLVAPNVTGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLFARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHMLEKPE RTTGILADGAIRALFAGDKLKSEADLDVDQVQPASLDLRLGSKAYRVRASFMPGPGTRVIDKLNRFLHEVDLSQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDNAQEFDKIPAGYTGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHALLNESEVLKLHETETLVAENPNVTGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLFARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAQAGGTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHML 2r9q-a1-m1-cD_2r9q-a1-m1-cC Crystal structure of 2'-deoxycytidine 5'-triphosphate deaminase from Agrobacterium tumefaciens A9CKA1 A9CKA1 2.2 X-RAY DIFFRACTION 23 0.988 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 330 331 2r9q-a1-m1-cA_2r9q-a1-m1-cB RTTGILADGAIRALFAGDKLKSEADLDVDQVQPASLDLRLGSKAYRVRASFMPGPGTRVIDKLNRFLHEVDLSQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDNAQEFDKIPAGYTGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHALLNESEVLKLHETETLVAENPNVTGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLFARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAQAGGTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHML RTTGILADGAIRALFAGDKLKSEADLDVDQVQPASLDLRLGSKAYRVRASFMPGPGTRVIDKLNRLHEVDLSQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDNAQEFDKIPAGYTGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHALLNESEVLKLHETETLVASNPNVTGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLFARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAQGTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHMLEKPE 2r9q-a3-m1-cD_2r9q-a3-m1-cB Crystal structure of 2'-deoxycytidine 5'-triphosphate deaminase from Agrobacterium tumefaciens A9CKA1 A9CKA1 2.2 X-RAY DIFFRACTION 69 0.997 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 330 342 2r9q-a1-m1-cA_2r9q-a1-m1-cC 2r9q-a1-m1-cD_2r9q-a1-m1-cB 2r9q-a2-m1-cA_2r9q-a2-m1-cC RTTGILADGAIRALFAGDKLKSEADLDVDQVQPASLDLRLGSKAYRVRASFMPGPGTRVIDKLNRFLHEVDLSQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDNAQEFDKIPAGYTGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHALLNESEVLKLHETETLVAENPNVTGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLFARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAQAGGTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHML RTTGILADGAIRALFAGDKLKSEADLDVDQVQPASLDLRLGSKAYRVRASFMPGPGTRVIDKLNRFLHEVDLSQGAVLETGCVYIVPLMESLALPADMSASANPKSSTGRLDIFTRVMTDNAQEFDKIPAGYTGPLYLEISPRTFPIVVRRGSRLSQIRFRIGHALLNESEVLKLHETETLVASENPNVTGIALSIDLKGFGENGLIGYRGKHHTAVVDVDKKAQHDVLDFWEPLFARGRAELILDPDEFYILVSREAVHVPPLYAAEMTPFDPLVGEFRVHYAGFFDPGFGHAQGGTGSRAVLEVRSHEVPFILEHGQIVGRLVYEHMLEKPEGLYGTGLG 2r9r-a5-m2-cB_2r9r-a5-m4-cB Shaker family voltage dependent potassium channel (kv1.2-kv2.1 paddle chimera channel) in association with beta subunit 2.4 X-RAY DIFFRACTION 120 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 386 386 1dsx-a1-m1-cA_1dsx-a1-m1-cC 1dsx-a1-m1-cA_1dsx-a1-m1-cD 1dsx-a1-m1-cB_1dsx-a1-m1-cC 1dsx-a1-m1-cB_1dsx-a1-m1-cD 1dsx-a2-m1-cE_1dsx-a2-m1-cG 1dsx-a2-m1-cE_1dsx-a2-m1-cH 1dsx-a2-m1-cF_1dsx-a2-m1-cG 1dsx-a2-m1-cF_1dsx-a2-m1-cH 1exb-a1-m1-cE_1exb-a1-m3-cE 1exb-a1-m1-cE_1exb-a1-m4-cE 1exb-a1-m2-cE_1exb-a1-m3-cE 1exb-a1-m2-cE_1exb-a1-m4-cE 1qdv-a1-m1-cA_1qdv-a1-m1-cB 1qdv-a1-m1-cA_1qdv-a1-m1-cD 1qdv-a1-m1-cB_1qdv-a1-m1-cC 1qdv-a1-m1-cC_1qdv-a1-m1-cD 1qdw-a1-m1-cA_1qdw-a1-m1-cC 1qdw-a1-m1-cA_1qdw-a1-m1-cD 1qdw-a1-m1-cB_1qdw-a1-m1-cC 1qdw-a1-m1-cB_1qdw-a1-m1-cD 1qdw-a2-m1-cE_1qdw-a2-m1-cG 1qdw-a2-m1-cE_1qdw-a2-m1-cH 1qdw-a2-m1-cF_1qdw-a2-m1-cG 1qdw-a2-m1-cF_1qdw-a2-m1-cH 2r9r-a1-m1-cB_2r9r-a1-m3-cB 2r9r-a1-m1-cB_2r9r-a1-m4-cB 2r9r-a1-m2-cB_2r9r-a1-m3-cB 2r9r-a1-m2-cB_2r9r-a1-m4-cB 2r9r-a2-m1-cH_2r9r-a2-m3-cH 2r9r-a2-m1-cH_2r9r-a2-m4-cH 2r9r-a2-m2-cH_2r9r-a2-m3-cH 2r9r-a2-m2-cH_2r9r-a2-m4-cH 2r9r-a3-m1-cB_2r9r-a3-m3-cB 2r9r-a3-m1-cB_2r9r-a3-m4-cB 2r9r-a3-m1-cH_2r9r-a3-m3-cH 2r9r-a3-m1-cH_2r9r-a3-m4-cH 2r9r-a3-m2-cB_2r9r-a3-m3-cB 2r9r-a3-m2-cB_2r9r-a3-m4-cB 2r9r-a3-m2-cH_2r9r-a3-m3-cH 2r9r-a3-m2-cH_2r9r-a3-m4-cH 2r9r-a5-m1-cB_2r9r-a5-m3-cB 2r9r-a5-m1-cB_2r9r-a5-m4-cB 2r9r-a5-m2-cB_2r9r-a5-m3-cB 2r9r-a7-m1-cH_2r9r-a7-m3-cH 2r9r-a7-m1-cH_2r9r-a7-m4-cH 2r9r-a7-m2-cH_2r9r-a7-m3-cH 2r9r-a7-m2-cH_2r9r-a7-m4-cH 3lnm-a2-m1-cB_3lnm-a2-m3-cB 3lnm-a2-m1-cB_3lnm-a2-m4-cB 3lnm-a2-m2-cB_3lnm-a2-m3-cB 3lnm-a2-m2-cB_3lnm-a2-m4-cB 3lut-a1-m1-cB_3lut-a1-m3-cB 3lut-a1-m1-cB_3lut-a1-m4-cB 3lut-a1-m2-cB_3lut-a1-m3-cB 3lut-a1-m2-cB_3lut-a1-m4-cB 4jta-a1-m1-cB_4jta-a1-m3-cB 4jta-a1-m1-cB_4jta-a1-m4-cB 4jta-a1-m2-cB_4jta-a1-m3-cB 4jta-a1-m2-cB_4jta-a1-m4-cB 4jta-a2-m1-cQ_4jta-a2-m3-cQ 4jta-a2-m1-cQ_4jta-a2-m4-cQ 4jta-a2-m2-cQ_4jta-a2-m3-cQ 4jta-a2-m2-cQ_4jta-a2-m4-cQ 4jtc-a1-m1-cB_4jtc-a1-m3-cB 4jtc-a1-m1-cB_4jtc-a1-m4-cB 4jtc-a1-m2-cB_4jtc-a1-m3-cB 4jtc-a1-m2-cB_4jtc-a1-m4-cB 4jtc-a2-m1-cH_4jtc-a2-m3-cH 4jtc-a2-m1-cH_4jtc-a2-m4-cH 4jtc-a2-m2-cH_4jtc-a2-m3-cH 4jtc-a2-m2-cH_4jtc-a2-m4-cH 4jtd-a1-m1-cB_4jtd-a1-m3-cB 4jtd-a1-m1-cB_4jtd-a1-m4-cB 4jtd-a1-m2-cB_4jtd-a1-m3-cB 4jtd-a1-m2-cB_4jtd-a1-m4-cB 4jtd-a2-m1-cH_4jtd-a2-m3-cH 4jtd-a2-m1-cH_4jtd-a2-m4-cH 4jtd-a2-m2-cH_4jtd-a2-m3-cH 4jtd-a2-m2-cH_4jtd-a2-m4-cH 5wie-a1-m1-cB_5wie-a1-m3-cB 5wie-a1-m1-cB_5wie-a1-m4-cB 5wie-a1-m2-cB_5wie-a1-m3-cB 5wie-a1-m2-cB_5wie-a1-m4-cB 6ebk-a1-m1-cB_6ebk-a1-m1-cD 6ebk-a1-m1-cB_6ebk-a1-m1-cH 6ebk-a1-m1-cD_6ebk-a1-m1-cF 6ebk-a1-m1-cF_6ebk-a1-m1-cH 6ebl-a1-m1-cB_6ebl-a1-m1-cD 6ebl-a1-m1-cB_6ebl-a1-m1-cH 6ebl-a1-m1-cD_6ebl-a1-m1-cF 6ebl-a1-m1-cF_6ebl-a1-m1-cH 7wf3-a1-m1-cJ_7wf3-a1-m1-cN 7wf3-a1-m1-cJ_7wf3-a1-m1-cP 7wf3-a1-m1-cN_7wf3-a1-m1-cO 7wf3-a1-m1-cO_7wf3-a1-m1-cP 7wf4-a1-m1-cJ_7wf4-a1-m1-cN 7wf4-a1-m1-cJ_7wf4-a1-m1-cP 7wf4-a1-m1-cN_7wf4-a1-m1-cO 7wf4-a1-m1-cO_7wf4-a1-m1-cP SERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGYIKEEERPLPENEFQRQVWLLFEYPESSGPARIIAIVSVMVILISIVSFCLETLPIFRDENEDMHGGGVTFHTYSQSTIGYQQSTSFTDPFFIVETLCIIWFSFEFLVRFFACPSKAGFFTNIMNIIDIVAIIPYYVTIFLTESNKSVLQFQNVRRVVQIFRIMRILRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET SERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGYIKEEERPLPENEFQRQVWLLFEYPESSGPARIIAIVSVMVILISIVSFCLETLPIFRDENEDMHGGGVTFHTYSQSTIGYQQSTSFTDPFFIVETLCIIWFSFEFLVRFFACPSKAGFFTNIMNIIDIVAIIPYYVTIFLTESNKSVLQFQNVRRVVQIFRIMRILRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET 2r9z-a1-m1-cA_2r9z-a1-m1-cB Glutathione amide reductase from Chromatium gracile D0VWY5 D0VWY5 2.1 X-RAY DIFFRACTION 267 1.0 1048 (Marichromatium gracile) 1048 (Marichromatium gracile) 451 453 2rab-a1-m1-cA_2rab-a1-m1-cB TQHFDLIAIGGGSGGLAVAEKAAAFGKRVALIESKALGGTCVNVGCVPKKVMWYASHLAEAVRDAPGFGVQASLDWPRLVAGRDRYIGAINSFWDGYVERLGITRVDGHARFVDAHTIEVEGQRLSADHIVIATGGRPIVPRLPGAELGITSDGFFALQQQPKRVAIIGAGYIGIELAGLLRSFGSEVTVVALEDRLLFQFDPLLSATLAENMHAQGIETHLEFAVAALERDAQGTTLVAQDGTRLEGFDSVIWAVGRAPNTRDLGLEAAGIEVQSNGMVPTDAYQNTNVPGVYALGDITGRDQLTPVAIAAGRRLAERLFDGQSERKLDYDNIPTVVFAHPPLSKVGLSEPEARERLGDVLTVYETSFTPMRYALNEHGPKTAMKLVCAGPEQRVVGVHVIGDGADEMLQGFAVAVKMGATKADFDNTVAIHPGSAEELVTLKEPVRRPG TQHFDLIAIGGGSGGLAVAEKAAAFGKRVALIESKALGGTCVNVGCVPKKVMWYASHLAEAVRDAPGFGVQASGTLDWPRLVAGRDRYIGAINSFWDGYVERLGITRVDGHARFVDAHTIEVEGQRLSADHIVIATGGRPIVPRLPGAELGITSDGFFALQQQPKRVAIIGAGYIGIELAGLLRSFGSEVTVVALEDRLLFQFDPLLSATLAENMHAQGIETHLEFAVAALERDAQGTTLVAQDGTRLEGFDSVIWAVGRAPNTRDLGLEAAGIEVQSNGMVPTDAYQNTNVPGVYALGDITGRDQLTPVAIAAGRRLAERLFDGQSERKLDYDNIPTVVFAHPPLSKVGLSEPEARERLGDVLTVYETSFTPMRYALNEHGPKTAMKLVCAGPEQRVVGVHVIGDGADEMLQGFAVAVKMGATKADFDNTVAIHPGSAEELVTLKEPVRRPG 2ra2-a7-m2-cF_2ra2-a7-m2-cB X-Ray structure of the Q7CPV8 protein from Salmonella typhimurium at the resolution 1.9 A. Northeast Structural Genomics Consortium target StR88A Q7CPV8 Q7CPV8 1.9 X-RAY DIFFRACTION 30 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 50 55 2ra2-a7-m1-cA_2ra2-a7-m2-cB 2ra2-a7-m1-cF_2ra2-a7-m1-cA 2ra2-a7-m1-cF_2ra2-a7-m1-cB 2ra2-a7-m2-cA_2ra2-a7-m1-cB 2ra2-a7-m2-cF_2ra2-a7-m2-cA 2ra2-a8-m1-cC_2ra2-a8-m1-cD 2ra2-a8-m1-cE_2ra2-a8-m1-cC 2ra2-a8-m1-cE_2ra2-a8-m2-cD 2ra2-a8-m2-cC_2ra2-a8-m2-cD 2ra2-a8-m2-cE_2ra2-a8-m1-cD 2ra2-a8-m2-cE_2ra2-a8-m2-cC GPNYVHTNDGRSIVTDGKPQTDNDTGISYKDANGNKQQINRTDVKEVALE SGPNYVHTNDGRSIVTDGKPQTDNDTGISYKDANGNKQQINRTDVKEVALENLEH 2ra3-a1-m1-cB_2ra3-a1-m1-cA Human cationic trypsin complexed with bovine pancreatic trypsin inhibitor (BPTI) P07477 P07477 1.46 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 IVGGYNCEENSVPYQVSLNSGYHFCGGSLINEQWVVSAGHCYKSRIQVRLGEHNIEVLEGNEQFINAAKIIRHPQYDRKTLNNDIMLIKLSSRAVINAHVSTISLPTAPPATGTKCLISGWGNTASSGADYPDELQCLDAPVLSQAKCEASYPGKITSNMFCVGFLEGGKDSCQGDAGGPVVCNGQLQGVVSWGDGCAQKNKPGVYTKVYNYVKWIKNTIAANS IVGGYNCEENSVPYQVSLNSGYHFCGGSLINEQWVVSAGHCYKSRIQVRLGEHNIEVLEGNEQFINAAKIIRHPQYDRKTLNNDIMLIKLSSRAVINAHVSTISLPTAPPATGTKCLISGWGNTASSGADYPDELQCLDAPVLSQAKCEASYPGKITSNMFCVGFLEGGKDSCQGDAGGPVVCNGQLQGVVSWGDGCAQKNKPGVYTKVYNYVKWIKNTIAANS 2ra4-a2-m4-cA_2ra4-a2-m4-cB Crystal Structure of Human Monocyte Chemoattractant Protein 4 (MCP-4/CCL13) Q99616 Q99616 1.7 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 2ra4-a1-m1-cA_2ra4-a1-m1-cB 2ra4-a2-m1-cA_2ra4-a2-m1-cB 2ra4-a2-m2-cA_2ra4-a2-m2-cB 2ra4-a2-m3-cA_2ra4-a2-m3-cB DALNVPSTCCFTFSSKKISLQRLKSYVITTSRCPQKAVIFRTKLGKEICADPKEKWVQNYMKHLG DALNVPSTCCFTFSSKKISLQRLKSYVITTSRCPQKAVIFRTKLGKEICADPKEKWVQNYMKHLG 2ra4-a4-m2-cB_2ra4-a4-m4-cB Crystal Structure of Human Monocyte Chemoattractant Protein 4 (MCP-4/CCL13) Q99616 Q99616 1.7 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 2ra4-a2-m1-cA_2ra4-a2-m3-cA 2ra4-a2-m1-cA_2ra4-a2-m4-cA 2ra4-a2-m1-cB_2ra4-a2-m3-cB 2ra4-a2-m1-cB_2ra4-a2-m4-cB 2ra4-a2-m2-cA_2ra4-a2-m3-cA 2ra4-a2-m2-cA_2ra4-a2-m4-cA 2ra4-a2-m2-cB_2ra4-a2-m3-cB 2ra4-a2-m2-cB_2ra4-a2-m4-cB 2ra4-a3-m1-cA_2ra4-a3-m3-cA 2ra4-a3-m1-cA_2ra4-a3-m4-cA 2ra4-a3-m2-cA_2ra4-a3-m3-cA 2ra4-a3-m2-cA_2ra4-a3-m4-cA 2ra4-a4-m1-cB_2ra4-a4-m3-cB 2ra4-a4-m1-cB_2ra4-a4-m4-cB 2ra4-a4-m2-cB_2ra4-a4-m3-cB DALNVPSTCCFTFSSKKISLQRLKSYVITTSRCPQKAVIFRTKLGKEICADPKEKWVQNYMKHLG DALNVPSTCCFTFSSKKISLQRLKSYVITTSRCPQKAVIFRTKLGKEICADPKEKWVQNYMKHLG 2ra5-a1-m1-cA_2ra5-a1-m2-cA Crystal structure of the putative transcriptional regulator from Streptomyces coelicolor Q9RKT6 Q9RKT6 2.4 X-RAY DIFFRACTION 97 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 147 147 GLLVRRRPATKVLVNTVVPATAEIAAALGVAEDSEVHRIERLRLTHGEPAYLCNYLPPGLVDLDTGQLEATGLYRLRAAGITLHSARQSIGARAATSGEAERLGEDAGAPLLTERTTFDDTGRAVEFGTHTYRPSRYSFEFQLLVRP GLLVRRRPATKVLVNTVVPATAEIAAALGVAEDSEVHRIERLRLTHGEPAYLCNYLPPGLVDLDTGQLEATGLYRLRAAGITLHSARQSIGARAATSGEAERLGEDAGAPLLTERTTFDDTGRAVEFGTHTYRPSRYSFEFQLLVRP 2ra6-a2-m1-cC_2ra6-a2-m1-cD Crystal Structure of the Possum Milk Whey Lipocalin Trichosurin at pH 4.6 with Bound 4-ethylphenol Q29147 Q29147 1.5 X-RAY DIFFRACTION 48 1.0 9337 (Trichosurus vulpecula) 9337 (Trichosurus vulpecula) 143 143 2r73-a1-m1-cA_2r73-a1-m1-cC 2r73-a2-m1-cB_2r73-a2-m1-cD 2r74-a1-m1-cA_2r74-a1-m1-cB 2ra6-a1-m1-cA_2ra6-a1-m1-cB LSRHWHTVVLASSDRSLIEEEGPFRNFIQNITVESGNLNGFFLTRKNGQCIPLYLTAFKTEEARQFKLNYYGTNDVYYESSKPNEYAKFIFYNYHDGKVNVVANLFGRTPNLSNEIKKRFEEDFMNRGFRRENILDISEVDHC LSRHWHTVVLASSDRSLIEEEGPFRNFIQNITVESGNLNGFFLTRKNGQCIPLYLTAFKTEEARQFKLNYYGTNDVYYESSKPNEYAKFIFYNYHDGKVNVVANLFGRTPNLSNEIKKRFEEDFMNRGFRRENILDISEVDHC 2ra8-a1-m1-cA_2ra8-a1-m2-cA Crystal structure of the Q64V53_BACFR protein from Bacteroides fragilis. Northeast Structural Genomics Consortium target BfR43 Q64V53 Q64V53 1.95 X-RAY DIFFRACTION 36 1.0 295405 (Bacteroides fragilis YCH46) 295405 (Bacteroides fragilis YCH46) 339 339 KRVFVFQDFKSQKFWSIDVRGTDVIVNYGKLGTDGQTQVKNFSSAGEAEKAAGKLIAEKTKKGYVETLEEVAKEKVEAKKYALSYDEAEEGVNLDKILKDKKLPSLKQITIGWGYEGEDCSDIADGIVENKEKFAHFEGLFWGDIDFEEQEISWIEQVDLSPVLDAPLLNNLKIKGTNNLSIGKKPRPNLKSLEIISGGLPDSVVEDILGSDLPNLEKLVLYVGVEDYGFDGDNVFRPLFSKDRFPNLKWLGIVDAEEQNVVVEFLESDILPQLETDISAGVLTDEGARLLLDHVDKIKHLKFINKYNYLSDEKKELQKSLPKIDVSDSQEYPITELEH KRVFVFQDFKSQKFWSIDVRGTDVIVNYGKLGTDGQTQVKNFSSAGEAEKAAGKLIAEKTKKGYVETLEEVAKEKVEAKKYALSYDEAEEGVNLDKILKDKKLPSLKQITIGWGYEGEDCSDIADGIVENKEKFAHFEGLFWGDIDFEEQEISWIEQVDLSPVLDAPLLNNLKIKGTNNLSIGKKPRPNLKSLEIISGGLPDSVVEDILGSDLPNLEKLVLYVGVEDYGFDGDNVFRPLFSKDRFPNLKWLGIVDAEEQNVVVEFLESDILPQLETDISAGVLTDEGARLLLDHVDKIKHLKFINKYNYLSDEKKELQKSLPKIDVSDSQEYPITELEH 2rae-a1-m1-cA_2rae-a1-m2-cA Crystal structure of a TetR/AcrR family transcriptional regulator from Rhodococcus sp. RHA1 Q0S3N9 Q0S3N9 2.2 X-RAY DIFFRACTION 131 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 193 193 IGRRPSTTQDRISTVGIELFTEQGFDATSVDEVAEASGIARRTLFRYFPSKNAIPWGDFDAHLAEMRAQLAAQPDDIPIVDGLTAALLQFNAFPASEEINHRKRMGLILRVPALQAYSVVMYEGWRNVIAEYVASRLGTSPTDHVPRTVGYLLLGVAMSAYEQWLDDDSLELNELLASGMQSLYDGLSSLGEP IGRRPSTTQDRISTVGIELFTEQGFDATSVDEVAEASGIARRTLFRYFPSKNAIPWGDFDAHLAEMRAQLAAQPDDIPIVDGLTAALLQFNAFPASEEINHRKRMGLILRVPALQAYSVVMYEGWRNVIAEYVASRLGTSPTDHVPRTVGYLLLGVAMSAYEQWLDDDSLELNELLASGMQSLYDGLSSLGEP 2raf-a2-m1-cC_2raf-a2-m2-cC Crystal structure of putative dinucleotide-binding oxidoreductase (NP_786167.1) from Lactobacillus plantarum at 1.60 A resolution F9URQ8 F9URQ8 1.6 X-RAY DIFFRACTION 88 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 184 184 2raf-a1-m1-cA_2raf-a1-m1-cB EITIFGKGNGQAIGHNFEIAGHEVTYYGSKDQATTLGEIVIAVPYPALAALAKQYATQLKGKIVVDITNPLNFDTWDDLVVPADSSAAQELQQQLPDSQVLKAFNTTFAATLQSGQVNGKEPTTVLVAGNDDSAKQRFTRALADSPLEVKDAGKLKRARELEAGFQTLAASEQIGWTGGFAVVK EITIFGKGNGQAIGHNFEIAGHEVTYYGSKDQATTLGEIVIAVPYPALAALAKQYATQLKGKIVVDITNPLNFDTWDDLVVPADSSAAQELQQQLPDSQVLKAFNTTFAATLQSGQVNGKEPTTVLVAGNDDSAKQRFTRALADSPLEVKDAGKLKRARELEAGFQTLAASEQIGWTGGFAVVK 2rag-a2-m1-cC_2rag-a2-m1-cD Crystal structure of aminohydrolase from Caulobacter crescentus Q9A4T4 Q9A4T4 2 X-RAY DIFFRACTION 44 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 369 369 2rag-a1-m1-cA_2rag-a1-m1-cB SKADKALHDKFLTLDTHLDTPAHFGRPGWDIADHHEVEHDFSQVDLPRMNQGGLDGGFFVVYIGQGELTEKGYTYARDYALHRTIEIREMLAANPDTFEMALTSDDARRIAKAGKKFAFVSMENSWPVGEDLSLVETFYKEGLRMAGPVHFRNNQLADSSTDPKGKIWNGYSPLGLRWLAEANRLGIVIDVSHASDDVVDQSVALSKAPIIASHSGPKAVYDHPRNLDDARLKKIADAGGAICINSIYLTDTTPSPEAPDMKTATPEAVKAYADKRAAIDKAHPAARGDFDLYMKSMLHVLKVAGPKGVCVGADWDGGGGMDGFEDITDLPKITARLKAEGYSDADIEAIWSGNVLRIVDAAQAYAKSV SKADKALHDKFLTLDTHLDTPAHFGRPGWDIADHHEVEHDFSQVDLPRMNQGGLDGGFFVVYIGQGELTEKGYTYARDYALHRTIEIREMLAANPDTFEMALTSDDARRIAKAGKKFAFVSMENSWPVGEDLSLVETFYKEGLRMAGPVHFRNNQLADSSTDPKGKIWNGYSPLGLRWLAEANRLGIVIDVSHASDDVVDQSVALSKAPIIASHSGPKAVYDHPRNLDDARLKKIADAGGAICINSIYLTDTTPSPEAPDMKTATPEAVKAYADKRAAIDKAHPAARGDFDLYMKSMLHVLKVAGPKGVCVGADWDGGGGMDGFEDITDLPKITARLKAEGYSDADIEAIWSGNVLRIVDAAQAYAKSV 2raj-a1-m1-cA_2raj-a1-m2-cA SO4 bound PX-BAR membrane remodeling unit of Sorting Nexin 9 Q9Y5X1 Q9Y5X1 2.45 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 382 382 2rai-a1-m1-cA_2rai-a1-m1-cB 2rak-a1-m1-cA_2rak-a1-m2-cA 3dyt-a1-m1-cA_3dyt-a1-m2-cA 3dyu-a1-m1-cA_3dyu-a1-m1-cB 3dyu-a2-m1-cC_3dyu-a2-m2-cC PGTEQYLLAKQLAKPKEKIPIIVGDYGPMWVYPTSTFDCVVADPRKGSKMYGLKSYIEYQLTPTNTNRSVNHRYKHFDWLYERLLVKFGSAIPIPSLPDKQVTGRFEEEFIKMRMERLQAWMTRMCRHPVISESEVFQQFLNFRDEKEWKTGKRKAERDELAGVMIFSTMEPEAPDLDLVEIEQKCEAVGKFTKAMDDGVKELLTVGQEHWKRCTGPLPKEYQKIGKALQSLATVFSSSGYQGETDLNDAITEAGKTYEEIASLVAEQPKKDLHFLMECNHEYKGFLGCFPDIIGTHKGAIEKVKESDKLVATSKITLQDKQNMVKRVSIMSYALQAEMNHFHSNRIYDYNSVIRLYLEQQVQFYETIAEKLRQALSRFPVM PGTEQYLLAKQLAKPKEKIPIIVGDYGPMWVYPTSTFDCVVADPRKGSKMYGLKSYIEYQLTPTNTNRSVNHRYKHFDWLYERLLVKFGSAIPIPSLPDKQVTGRFEEEFIKMRMERLQAWMTRMCRHPVISESEVFQQFLNFRDEKEWKTGKRKAERDELAGVMIFSTMEPEAPDLDLVEIEQKCEAVGKFTKAMDDGVKELLTVGQEHWKRCTGPLPKEYQKIGKALQSLATVFSSSGYQGETDLNDAITEAGKTYEEIASLVAEQPKKDLHFLMECNHEYKGFLGCFPDIIGTHKGAIEKVKESDKLVATSKITLQDKQNMVKRVSIMSYALQAEMNHFHSNRIYDYNSVIRLYLEQQVQFYETIAEKLRQALSRFPVM 2rao-a1-m1-cA_2rao-a1-m1-cC X ray crystal structure of rabbit hemoglobin (oxy form) at 2.0 angstrom resolution P01948 P01948 2 X-RAY DIFFRACTION 26 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 141 141 3lqd-a1-m1-cA_3lqd-a1-m1-cC VLSPADKTNIKTAWEKIGSHGGEYGAEAVERMFLGFPTTKTYFPHFDFTHGSEQIKAHGKKVSEALTKAVGHLDDLPGALSTLSDLHAHKLRVDPVNFKLLSHCLLVTLANHHPSEFTPAVHASLDKFLANVSTVLTSKYR VLSPADKTNIKTAWEKIGSHGGEYGAEAVERMFLGFPTTKTYFPHFDFTHGSEQIKAHGKKVSEALTKAVGHLDDLPGALSTLSDLHAHKLRVDPVNFKLLSHCLLVTLANHHPSEFTPAVHASLDKFLANVSTVLTSKYR 2raq-a1-m1-cE_2raq-a1-m2-cG Crystal structure of the MTH889 protein from Methanothermobacter thermautotrophicus. Northeast Structural Genomics Consortium target TT205 O26975 O26975 3.11 X-RAY DIFFRACTION 16 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 91 91 2raq-a1-m1-cA_2raq-a1-m2-cD 2raq-a1-m1-cC_2raq-a1-m2-cB 2raq-a1-m1-cD_2raq-a1-m2-cA 2raq-a1-m1-cF_2raq-a1-m2-cF 2raq-a1-m1-cG_2raq-a1-m2-cE 2raq-a1-m2-cC_2raq-a1-m1-cB AKGLIRIVLDILKPHEPIIPEYAKYLSELRGVEGVNITLEIDKETENIKVTIQGNDLDFDEITRAIESYGGSIHSVDEVVAGRTVEEVTTP AKGLIRIVLDILKPHEPIIPEYAKYLSELRGVEGVNITLEIDKETENIKVTIQGNDLDFDEITRAIESYGGSIHSVDEVVAGRTVEEVTTP 2raq-a1-m2-cF_2raq-a1-m2-cG Crystal structure of the MTH889 protein from Methanothermobacter thermautotrophicus. Northeast Structural Genomics Consortium target TT205 O26975 O26975 3.11 X-RAY DIFFRACTION 75 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 91 91 2raq-a1-m1-cA_2raq-a1-m1-cB 2raq-a1-m1-cA_2raq-a1-m1-cG 2raq-a1-m1-cC_2raq-a1-m1-cB 2raq-a1-m1-cC_2raq-a1-m1-cD 2raq-a1-m1-cD_2raq-a1-m1-cE 2raq-a1-m1-cE_2raq-a1-m1-cF 2raq-a1-m1-cF_2raq-a1-m1-cG 2raq-a1-m2-cA_2raq-a1-m2-cB 2raq-a1-m2-cA_2raq-a1-m2-cG 2raq-a1-m2-cC_2raq-a1-m2-cB 2raq-a1-m2-cC_2raq-a1-m2-cD 2raq-a1-m2-cD_2raq-a1-m2-cE 2raq-a1-m2-cE_2raq-a1-m2-cF AKGLIRIVLDILKPHEPIIPEYAKYLSELRGVEGVNITLEIDKETENIKVTIQGNDLDFDEITRAIESYGGSIHSVDEVVAGRTVEEVTTP AKGLIRIVLDILKPHEPIIPEYAKYLSELRGVEGVNITLEIDKETENIKVTIQGNDLDFDEITRAIESYGGSIHSVDEVVAGRTVEEVTTP 2ras-a1-m1-cA_2ras-a1-m1-cB Crystal structure of a putative tetr/acrr family transcriptional regulator (saro_0558) from novosphingobium aromaticivorans dsm at 1.80 A resolution Q2GAW8 Q2GAW8 1.8 X-RAY DIFFRACTION 128 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 190 194 GTEHDARARLVDVAQAIVEERGGAGLTLSELAARAGISQANLSRYFETREDLEAIADYWFHPVEIEDVLASDLPPRRKYEFFARRFVVRRKWEADPVKLQTYIEVGNDYFEQVRSYIDLADHYLGEIIGEASDGAFSGLEVDETISLVNQCAPYCALNTTTFERLSEDKLARIVDAVFDGLSAQDRGARS GTEHDARARLVDVAQAIVEERGGAGLTLSELAARAGISQANLSRYFETREDLEAIADYWFHPVEIEDVLASDLPPRRKYEFFARRFVVRRKWEADPVKLQTYIEVGNDYFEQVRSYIDLADHYLGEIIGEASDGAFSGLEVDETISLVNQCAPYCALNTTTFERLSEDKLARIVDAVFDGLSAQDRGARSLTGL 2rau-a2-m1-cA_2rau-a2-m2-cA Crystal structure of a putative lipase (NP_343859.1) from Sulfolobus solfataricus at 1.85 A resolution Q97VU1 Q97VU1 1.85 X-RAY DIFFRACTION 64 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 345 345 YEEWKIVKREAPILGNDQLIENIWKKREDSPYDIISLHKVNLIGGGNDAVLILPGTWSSGEQLVTISWNGVHYTIPDYRKSIVLYLARNGFNVYTIDYRTHYVPPFLKDRQLSFTANWGWSTWISDIKEVVSFIKRDSGQERIYLAGESFGGIAALNYSSLYWKNDIKGLILLDGGPTKHGIRFYTPEVNSIEEEAKGIYVIPSRGGPNNPIWSYALANPDPSPDPKYKSISDFLDSLYVTGSANPYDYPYSKKEDFPILASFDPYWPYRLSLERDLKFDYEGILVPTIAFVSERFGIQIFDSKILPSNSEIILLKGYGHLDVYTGENSEKDVNSVVLKWLSQQR YEEWKIVKREAPILGNDQLIENIWKKREDSPYDIISLHKVNLIGGGNDAVLILPGTWSSGEQLVTISWNGVHYTIPDYRKSIVLYLARNGFNVYTIDYRTHYVPPFLKDRQLSFTANWGWSTWISDIKEVVSFIKRDSGQERIYLAGESFGGIAALNYSSLYWKNDIKGLILLDGGPTKHGIRFYTPEVNSIEEEAKGIYVIPSRGGPNNPIWSYALANPDPSPDPKYKSISDFLDSLYVTGSANPYDYPYSKKEDFPILASFDPYWPYRLSLERDLKFDYEGILVPTIAFVSERFGIQIFDSKILPSNSEIILLKGYGHLDVYTGENSEKDVNSVVLKWLSQQR 2rb3-a2-m1-cB_2rb3-a2-m1-cC Crystal Structure of Human Saposin D P07602 P07602 2.1 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 2r0r-a1-m1-cA_2r0r-a1-m1-cB 2r1q-a1-m1-cA_2r1q-a1-m2-cA 2rb3-a1-m1-cD_2rb3-a1-m1-cA AGFCEVCKKLVGYLDRNLEKNSTKQEILAALEKGCSFLPDPYQKQCDQFVAEYEPVLIEILVEVMDPSFVCLKIGACPS AGFCEVCKKLVGYLDRNLEKNSTKQEILAALEKGCSFLPDPYQKQCDQFVAEYEPVLIEILVEVMDPSFVCLKIGACPS 2rb6-a3-m2-cB_2rb6-a3-m1-cA X-Ray structure of the protein Q8EI81. Northeast Structural Genomics Consortium target SoR78A Q8EI81 Q8EI81 2.5 X-RAY DIFFRACTION 24 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 52 53 SSQYISTKDGKITSDSKPKLDKTTGYLYYDEDGREVIKQEDVTQIIERLEHH SSQYISTKDGKITSDSKPKLDKTTGYLYYDEDGREVIKQEDVTQIIERLEHHH 2rb7-a1-m1-cA_2rb7-a1-m1-cB Crystal structure of co-catalytic metallopeptidase (YP_387682.1) from Desulfovibrio desulfuricans G20 at 1.60 A resolution Q313A9 Q313A9 1.6 X-RAY DIFFRACTION 126 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 346 346 GSSQHIVELTSDLIRFPSHSRPEQISRCAGFIDWCAQNGIHAERDHDGIPSVVLPEKGRAGLLLAHIDVVDAEDDLFVPRVENDRLYGRGANDDKYAVALGLVFRDRLNALKAAGRSQKDALGLLITGDEEIGGNGAAKALPLIRADYVVALDGGNPQQVITKEKGIIDIKLTCTGKAAHGARPWGVNAVDLLEDYTRLKTLFAEENEDHWHRTVNLGRIRAGESTNKVPDVAEGWFNIRVTEHDDPGALIDKIRKTVSGTVSIVRTVPVFLAADSPYTERLLALSGATAGKAHGASDARYLGENGLTGVVWGAEGFNTLHSRDECLHIPSLQSIYDPLQLAREEE GSSQHIVELTSDLIRFPSHSRPEQISRCAGFIDWCAQNGIHAERDHDGIPSVVLPEKGRAGLLLAHIDVVDAEDDLFVPRVENDRLYGRGANDDKYAVALGLVFRDRLNALKAAGRSQKDALGLLITGDEEIGGNGAAKALPLIRADYVVALDGGNPQQVITKEKGIIDIKLTCTGKAAHGARPWGVNAVDLLEDYTRLKTLFAEENEDHWHRTVNLGRIRAGESTNKVPDVAEGWFNIRVTEHDDPGALIDKIRKTVSGTVSIVRTVPVFLAADSPYTERLLALSGATAGKAHGASDARYLGENGLTGVVWGAEGFNTLHSRDECLHIPSLQSIYDPLQLAREEE 2rb9-a2-m1-cC_2rb9-a2-m1-cD Crystal structure of E.coli HypE A0A0H3JHA1 A0A0H3JHA1 2 X-RAY DIFFRACTION 223 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 322 323 2i6r-a1-m1-cB_2i6r-a1-m1-cA 2i6r-a2-m1-cC_2i6r-a2-m1-cD 2rb9-a1-m1-cA_2rb9-a1-m1-cB MQQLINSLFMEAFANPWLAEQEDQARLDLAQLVAEGDRLAFSTDSYVIDPLFFPGGNIGKLAICGTANDVAVSGAIPRYLSCGFILEEGLPMETLKAVVTSMAETARTAGIAIVTGDTKVVQRGAADKLFINTAGMGAIPTNIHWGAQTLTAGDILLVSGTLGDHGATILNLREQLGLDGELVSDCAVLTPLIQTLRDIPGVKALRDATRGGVNAVVHEFAAACGCGIEISESALPVKPAVRGVCELLGLDALNFANEGKLVIAVERNAAEQVLAALHSHPLGKDAALIGEVVERKGVRLAGLYGVKRTLDLPHAEPLPRIC SMQQLINSLFMEAFANPWLAEQEDQARLDLAQLVAEGDRLAFSTDSYVIDPLFFPGGNIGKLAICGTANDVAVSGAIPRYLSCGFILEEGLPMETLKAVVTSMAETARTAGIAIVTGDTKVVQRGAADKLFINTAGMGAIPTNIHWGAQTLTAGDILLVSGTLGDHGATILNLREQLGLDGELVSDCAVLTPLIQTLRDIPGVKALRDATRGGVNAVVHEFAAACGCGIEISESALPVKPAVRGVCELLGLDALNFANEGKLVIAVERNAAEQVLAALHSHPLGKDAALIGEVVERKGVRLAGLYGVKRTLDLPHAEPLPRIC 2rbb-a1-m1-cB_2rbb-a1-m1-cA Crystal structure of a glyoxalase/bleomycin resistance protein/dioxygenase family enzyme from Burkholderia phytofirmans PsJN B2TEV0 B2TEV0 1.82 X-RAY DIFFRACTION 159 1.0 398527 (Paraburkholderia phytofirmans PsJN) 398527 (Paraburkholderia phytofirmans PsJN) 125 126 ADLSYVNIFTRDIVASAFYQQVFGFQEIESIRSPIFRGLDTGKSCIGFNAHEAYELQLAQFSETSGIKFLLNFDVDTKEAVDKLVPVAIAAGATLIKAPYETYYHWYQAVLLDPERNVFRINNVL NADLSYVNIFTRDIVASAFYQQVFGFQEIESIRSPIFRGLDTGKSCIGFNAHEAYELQLAQFSETSGIKFLLNFDVDTKEAVDKLVPVAIAAGATLIKAPYETYYHWYQAVLLDPERNVFRINNVL 2rbc-a1-m1-cA_2rbc-a1-m2-cA Crystal structure of a putative ribokinase from Agrobacterium tumefaciens A9CHQ7 A9CHQ7 1.9 X-RAY DIFFRACTION 84 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 297 297 GGKHVLCVGAAVLDTLFRVADPKGEGKVLPYEVLQIAEGASSAAYAVHRGGRASLWGAVGDDETGTRILRDLSESGIDTSGTVAPGARSALSTIIIDNRGERLIVPFYDHRLHEKKRACTPEDIALFDAVLVDVRWPELALDVLTVARALGKPAILDGDVAPVETLEGLAPAATHIVFSEPAATRLTGLETVKDLPVLHARYPQTFIAVTAGPAGCWWTEADDPTVHFQTTQVEAVDTLAAGDIFHGTFALAAEGQSRAAVRLSSVAAALKCTVFGGRIGAPTREETEEARQWLERE GGKHVLCVGAAVLDTLFRVADPKGEGKVLPYEVLQIAEGASSAAYAVHRGGRASLWGAVGDDETGTRILRDLSESGIDTSGTVAPGARSALSTIIIDNRGERLIVPFYDHRLHEKKRACTPEDIALFDAVLVDVRWPELALDVLTVARALGKPAILDGDVAPVETLEGLAPAATHIVFSEPAATRLTGLETVKDLPVLHARYPQTFIAVTAGPAGCWWTEADDPTVHFQTTQVEAVDTLAAGDIFHGTFALAAEGQSRAAVRLSSVAAALKCTVFGGRIGAPTREETEEARQWLERE 2rbd-a1-m1-cB_2rbd-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE SPORE COAT PROTEIN (BH2358) FROM BACILLUS HALODURANS C-125 AT 1.54 A RESOLUTION Q9KAD1 Q9KAD1 1.54 X-RAY DIFFRACTION 84 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 151 151 2rbd-a1-m1-cA_2rbd-a1-m2-cA DEPLHYGEVFSTWTYLSTNNGLINGYRSFINHTGDEDLKNLIDEAIQAQDENHQLEELLRSNGVGLPPAPPDRPAARLDDIPVGARFNDPEISATISDVAKGLVTCSQIIGQSIREDVALFSQFHAKVQFGGKLKLNKNKGWLIPPPLHSD DEPLHYGEVFSTWTYLSTNNGLINGYRSFINHTGDEDLKNLIDEAIQAQDENHQLEELLRSNGVGLPPAPPDRPAARLDDIPVGARFNDPEISATISDVAKGLVTCSQIIGQSIREDVALFSQFHAKVQFGGKLKLNKNKGWLIPPPLHSD 2rbd-a1-m2-cB_2rbd-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE SPORE COAT PROTEIN (BH2358) FROM BACILLUS HALODURANS C-125 AT 1.54 A RESOLUTION Q9KAD1 Q9KAD1 1.54 X-RAY DIFFRACTION 19 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 151 154 2rbd-a1-m1-cB_2rbd-a1-m2-cA DEPLHYGEVFSTWTYLSTNNGLINGYRSFINHTGDEDLKNLIDEAIQAQDENHQLEELLRSNGVGLPPAPPDRPAARLDDIPVGARFNDPEISATISDVAKGLVTCSQIIGQSIREDVALFSQFHAKVQFGGKLKLNKNKGWLIPPPLHSD NPQDEPLHYGEVFSTWTYLSTNNGLINGYRSFINHTGDEDLKNLIDEAIQAQDENHQLEELLRSNGVGLPPAPPDRPAARLDDIPVGARFNDPEISATISDVAKGLVTCSQIIGQSIREDVALFSQFHAKVQFGGKLKLNKNKGWLIPPPLHSD 2rbd-a1-m2-cB_2rbd-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE SPORE COAT PROTEIN (BH2358) FROM BACILLUS HALODURANS C-125 AT 1.54 A RESOLUTION Q9KAD1 Q9KAD1 1.54 X-RAY DIFFRACTION 101 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 151 154 2rbd-a1-m1-cB_2rbd-a1-m1-cA DEPLHYGEVFSTWTYLSTNNGLINGYRSFINHTGDEDLKNLIDEAIQAQDENHQLEELLRSNGVGLPPAPPDRPAARLDDIPVGARFNDPEISATISDVAKGLVTCSQIIGQSIREDVALFSQFHAKVQFGGKLKLNKNKGWLIPPPLHSD NPQDEPLHYGEVFSTWTYLSTNNGLINGYRSFINHTGDEDLKNLIDEAIQAQDENHQLEELLRSNGVGLPPAPPDRPAARLDDIPVGARFNDPEISATISDVAKGLVTCSQIIGQSIREDVALFSQFHAKVQFGGKLKLNKNKGWLIPPPLHSD 2rbg-a1-m1-cA_2rbg-a1-m1-cB Crystal structure of hypothetical protein(ST0493) from sulfolobus tokodaii Q975B5 Q975B5 1.75 X-RAY DIFFRACTION 18 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 123 123 YKNILTLISVNNDNFENYFRKIFLDVRSSGSKKTTINVFTEIQYQELVTLIREALLENIDIGYELFLWKKNEVDIFLKNLEKSEVDGLLVYCDDENKVFSKIVDNLPTAIKRNLIKDFCRKLS YKNILTLISVNNDNFENYFRKIFLDVRSSGSKKTTINVFTEIQYQELVTLIREALLENIDIGYELFLWKKNEVDIFLKNLEKSEVDGLLVYCDDENKVFSKIVDNLPTAIKRNLIKDFCRKLS 2rbl-a1-m1-cA_2rbl-a1-m1-cB High resolution design of a protein loop P24821 P24821 2.1 X-RAY DIFFRACTION 181 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 LDAPSQIEVKDVTDTTALITWSMQLSQLEGIELTYGIKDVPGDRTTIDLTEDENQYSIGNLKPDTEYEVSLISRRGDMSSNPAKETFTT LDAPSQIEVKDVTDTTALITWSMQLSQLEGIELTYGIKDVPGDRTTIDLTEDENQYSIGNLKPDTEYEVSLISRRGDMSSNPAKETFTT 2rc3-a2-m1-cB_2rc3-a2-m1-cC Crystal structure of CBS domain, NE2398 Q82SE2 Q82SE2 1.6 X-RAY DIFFRACTION 69 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 127 128 2rc3-a1-m1-cA_2rc3-a1-m1-cD HMKTVKHLLQEKGHTVVAIGPDDSVFNAMQKMAADNIGALLVMKDEKLVGILTERDFSRKSYLLKPVKDTQVKEIMTRQVAYVDLNNTNEDCMALITEMRVRHLPVLDDGKVIGLLSIGDLVKDAIS HMKTVKHLLQEKGHTVVAIGPDDSVFNAMQKMAADNIGALLVMKDEKLVGILTERDFSRKSYLLDKPVKDTQVKEIMTRQVAYVDLNNTNEDCMALITEMRVRHLPVLDDGKVIGLLSIGDLVKDAIS 2rc8-a1-m1-cA_2rc8-a1-m1-cB Crystal structure of the NR3A ligand binding core complex with D-serine at 1.45 Angstrom resolution Q9R1M7 Q9R1M7 1.45 X-RAY DIFFRACTION 57 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 284 285 KLHLRVVTLIEHPFVFTREVDDEGLCPAGQLCLDPMTNDSSMLDRLFSSLHSSNDTVPIKFKKCCYGYCIDLLEQLAEDMNFDFDLYIVGDGKYGAWKNGHWTGLVGDLLSGTANMAVTSFSINTARSQVIDFTSPFFSTSLGILVRTRGTELSGIHDPKLHHPSQGFRFGTVRESSAEDYVRQSFPEMHEYMRRYNVPATPDGVQYLKNDPEKLDAFIMDKALLDYEVSIDADCKLLTVGKPFAIEGYGIGLPPNSPLTSNISELISQYKSHGFMDVLHDKWY KLHLRVVTLIEHPFVFTREVDDEGLCPAGQLCLDPMTNDSSMLDRLFSSLHSSNDTVPIKFKKCCYGYCIDLLEQLAEDMNFDFDLYIVGDGKYGAWKNGHWTGLVGDLLSGTANMAVTSFSINTARSQVIDFTSPFFSTSLGILVRTRGTELSGIHDPKLHHPSQGFRFGTVRESSAEDYVRQSFPEMHEYMRRYNVPATPDGVQYLKNDPEKLDAFIMDKALLDYEVSIDADCKLLTVGKPFAIEGYGIGLPPNSPLTSNISELISQYKSHGFMDVLHDKWYK 2rcc-a3-m1-cB_2rcc-a3-m2-cC Crystal structure of putative class I ribonucleotide reductase (NP_241368.1) from Bacillus halodurans at 1.90 A resolution Q9KFH7 Q9KFH7 1.9 X-RAY DIFFRACTION 30 0.989 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 270 301 2rcc-a3-m2-cB_2rcc-a3-m1-cC FSWAYPLYKNLANFWTPFEINSHDAKQFPTLTETEQEAFKKIIGLLAFLDSVQTDYSRAAEYLTDSSLAALSVLSFQEVVHNQSYSYVLSSLVPKATQDEIFEYWKHDDVLKERNEFIIDGYEKFVDNPTPKTFLESIVYDVILEGLNFYSGFAFFYNLARNQKVSTSTINYINRDEQLHVYLFTNIFKELLVEFPELNTEETKTFVKTTLKAADLEKDWFRYIIGDKIPGINPEDETYISFIANKRAVQLGEKPYPEIKHNPKWIRAYE QLQKRKIYDTTASNASTGILNGKSSNVLNWDDVRFSWAYPLYKNLANFWTPFEINSHDAKQFPTLTETEQEAFKKIIGLLAFLDSVQTDYSRAAEYLTDSSLAALSVLSFQEVVHNQSYSYVLSSLVPKATQDEIFEYWKHDDVLKERNEFIIDGYEKFVDNPTPKTFLESIVYDVILEGLNFYSGFAFFYNLARNQKVSTSTINYINRDEQLHVYLFTNIFKELLVEFPELNTEETKTFVKTTLKAADLEKDWFRYIIGDKIPGINPEDETYISFIANKRAVQLGEKPYPEIKHNPKWIR 2rcc-a3-m2-cB_2rcc-a3-m2-cA Crystal structure of putative class I ribonucleotide reductase (NP_241368.1) from Bacillus halodurans at 1.90 A resolution Q9KFH7 Q9KFH7 1.9 X-RAY DIFFRACTION 101 0.985 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 270 302 2rcc-a1-m1-cB_2rcc-a1-m1-cA 2rcc-a2-m1-cC_2rcc-a2-m2-cC 2rcc-a3-m1-cB_2rcc-a3-m1-cA 2rcc-a3-m1-cC_2rcc-a3-m2-cC FSWAYPLYKNLANFWTPFEINSHDAKQFPTLTETEQEAFKKIIGLLAFLDSVQTDYSRAAEYLTDSSLAALSVLSFQEVVHNQSYSYVLSSLVPKATQDEIFEYWKHDDVLKERNEFIIDGYEKFVDNPTPKTFLESIVYDVILEGLNFYSGFAFFYNLARNQKVSTSTINYINRDEQLHVYLFTNIFKELLVEFPELNTEETKTFVKTTLKAADLEKDWFRYIIGDKIPGINPEDETYISFIANKRAVQLGEKPYPEIKHNPKWIRAYE GEQLQKRKIYDTTASNASTGILNGKSSNVLNWDDVRFSWAYPLYKNLANFWTPFEINSHDAKQFPTLTETEQEAFKKIIGLLAFLDSVQTDYSRAAEYLTDSSLAALSVLSFQEVVHNQSYSYVLSSLVPKATQDEIFEYWKHDDVLKERNEFIIDGYEKFVDNPTPKTFLESIVYDVILEGLNFYSGFAFFYNLARNQKVSTSTINYINRDEQLHVYLFTNIFKELLVEFPELNTEETKTFVKTTLKAADLEKDWFRYIIGDKIPGINPEDETYISFIANKRAVQLGEKPYPEIKHNPKWI 2rcc-a3-m2-cC_2rcc-a3-m2-cA Crystal structure of putative class I ribonucleotide reductase (NP_241368.1) from Bacillus halodurans at 1.90 A resolution Q9KFH7 Q9KFH7 1.9 X-RAY DIFFRACTION 25 0.997 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 301 302 2rcc-a3-m1-cC_2rcc-a3-m1-cA QLQKRKIYDTTASNASTGILNGKSSNVLNWDDVRFSWAYPLYKNLANFWTPFEINSHDAKQFPTLTETEQEAFKKIIGLLAFLDSVQTDYSRAAEYLTDSSLAALSVLSFQEVVHNQSYSYVLSSLVPKATQDEIFEYWKHDDVLKERNEFIIDGYEKFVDNPTPKTFLESIVYDVILEGLNFYSGFAFFYNLARNQKVSTSTINYINRDEQLHVYLFTNIFKELLVEFPELNTEETKTFVKTTLKAADLEKDWFRYIIGDKIPGINPEDETYISFIANKRAVQLGEKPYPEIKHNPKWIR GEQLQKRKIYDTTASNASTGILNGKSSNVLNWDDVRFSWAYPLYKNLANFWTPFEINSHDAKQFPTLTETEQEAFKKIIGLLAFLDSVQTDYSRAAEYLTDSSLAALSVLSFQEVVHNQSYSYVLSSLVPKATQDEIFEYWKHDDVLKERNEFIIDGYEKFVDNPTPKTFLESIVYDVILEGLNFYSGFAFFYNLARNQKVSTSTINYINRDEQLHVYLFTNIFKELLVEFPELNTEETKTFVKTTLKAADLEKDWFRYIIGDKIPGINPEDETYISFIANKRAVQLGEKPYPEIKHNPKWI 2rcd-a3-m1-cD_2rcd-a3-m3-cD CRYSTAL STRUCTURE OF A PROTEIN WITH UNKNOWN FUNCTION FROM DUF3225 FAMILY (ECA3500) FROM PECTOBACTERIUM ATROSEPTICUM SCRI1043 AT 2.32 A RESOLUTION Q6D1E8 Q6D1E8 2.32 X-RAY DIFFRACTION 77 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 123 123 2rcd-a1-m1-cA_2rcd-a1-m1-cB 2rcd-a2-m1-cC_2rcd-a2-m2-cC GLPDDVNQADVLADVTAAFYRYEKALTGNDVAVLDELFWHDEKTVRYGAGENLYGIEEIRAFRLARPSAGLDRALRNTVITTYGHDAVASTEFTRTGSTKIGRQQTWVKPEGWRIVAAHVSLS GLPDDVNQADVLADVTAAFYRYEKALTGNDVAVLDELFWHDEKTVRYGAGENLYGIEEIRAFRLARPSAGLDRALRNTVITTYGHDAVASTEFTRTGSTKIGRQQTWVKPEGWRIVAAHVSLS 2rcf-a1-m1-cD_2rcf-a1-m1-cE Carboxysome Shell protein, OrfA from H. Neapolitanus O85043 O85043 2.15 X-RAY DIFFRACTION 73 1.0 927 (Halothiobacillus neapolitanus) 927 (Halothiobacillus neapolitanus) 80 80 2rcf-a1-m1-cB_2rcf-a1-m1-cA 2rcf-a1-m1-cB_2rcf-a1-m1-cC 2rcf-a1-m1-cD_2rcf-a1-m1-cC 2rcf-a1-m1-cE_2rcf-a1-m1-cA 7ckb-a1-m1-cA0_7ckb-a1-m1-cA8 7ckb-a1-m1-cA0_7ckb-a1-m1-cAb 7ckb-a1-m1-cA1_7ckb-a1-m1-cA9 7ckb-a1-m1-cA1_7ckb-a1-m1-cAc 7ckb-a1-m1-cA2_7ckb-a1-m1-cA5 7ckb-a1-m1-cA2_7ckb-a1-m1-cAd 7ckb-a1-m1-cA3_7ckb-a1-m1-cA6 7ckb-a1-m1-cA3_7ckb-a1-m1-cAe 7ckb-a1-m1-cA4_7ckb-a1-m1-cA7 7ckb-a1-m1-cA4_7ckb-a1-m1-cAa 7ckb-a1-m1-cA5_7ckb-a1-m1-cAo 7ckb-a1-m1-cA6_7ckb-a1-m1-cAk 7ckb-a1-m1-cA7_7ckb-a1-m1-cAl 7ckb-a1-m1-cA8_7ckb-a1-m1-cAm 7ckb-a1-m1-cA9_7ckb-a1-m1-cAn 7ckb-a1-m1-cAA_7ckb-a1-m1-cAB 7ckb-a1-m1-cAA_7ckb-a1-m1-cAE 7ckb-a1-m1-cAB_7ckb-a1-m1-cAC 7ckb-a1-m1-cAC_7ckb-a1-m1-cAD 7ckb-a1-m1-cAD_7ckb-a1-m1-cAE 7ckb-a1-m1-cAF_7ckb-a1-m1-cAi 7ckb-a1-m1-cAf_7ckb-a1-m1-cAw 7ckb-a1-m1-cAF_7ckb-a1-m1-cAX 7ckb-a1-m1-cAG_7ckb-a1-m1-cAj 7ckb-a1-m1-cAg_7ckb-a1-m1-cAx 7ckb-a1-m1-cAG_7ckb-a1-m1-cAY 7ckb-a1-m1-cAH_7ckb-a1-m1-cAf 7ckb-a1-m1-cAh_7ckb-a1-m1-cAy 7ckb-a1-m1-cAH_7ckb-a1-m1-cAZ 7ckb-a1-m1-cAI_7ckb-a1-m1-cAg 7ckb-a1-m1-cAI_7ckb-a1-m1-cAV 7ckb-a1-m1-cAi_7ckb-a1-m1-cAz 7ckb-a1-m1-cAJ_7ckb-a1-m1-cAh 7ckb-a1-m1-cAj_7ckb-a1-m1-cAv 7ckb-a1-m1-cAJ_7ckb-a1-m1-cAW 7ckb-a1-m1-cAK_7ckb-a1-m1-cAc 7ckb-a1-m1-cAK_7ckb-a1-m1-cAn 7ckb-a1-m1-cAL_7ckb-a1-m1-cAd 7ckb-a1-m1-cAL_7ckb-a1-m1-cAo 7ckb-a1-m1-cAM_7ckb-a1-m1-cAe 7ckb-a1-m1-cAM_7ckb-a1-m1-cAk 7ckb-a1-m1-cAN_7ckb-a1-m1-cAa 7ckb-a1-m1-cAN_7ckb-a1-m1-cAl 7ckb-a1-m1-cAO_7ckb-a1-m1-cAb 7ckb-a1-m1-cAO_7ckb-a1-m1-cAm 7ckb-a1-m1-cAP_7ckb-a1-m1-cAQ 7ckb-a1-m1-cAP_7ckb-a1-m1-cAT 7ckb-a1-m1-cAp_7ckb-a1-m1-cAy 7ckb-a1-m1-cAQ_7ckb-a1-m1-cAR 7ckb-a1-m1-cAq_7ckb-a1-m1-cAz 7ckb-a1-m1-cAR_7ckb-a1-m1-cAS 7ckb-a1-m1-cAr_7ckb-a1-m1-cAv 7ckb-a1-m1-cAS_7ckb-a1-m1-cAT 7ckb-a1-m1-cAs_7ckb-a1-m1-cAw 7ckb-a1-m1-cAt_7ckb-a1-m1-cAx 7ckb-a1-m1-cAV_7ckb-a1-m1-cAt 7ckb-a1-m1-cAW_7ckb-a1-m1-cAp 7ckb-a1-m1-cAX_7ckb-a1-m1-cAq 7ckb-a1-m1-cAY_7ckb-a1-m1-cAr 7ckb-a1-m1-cAZ_7ckb-a1-m1-cAs 7ckc-a1-m1-cA0_7ckc-a1-m1-cAH 7ckc-a1-m1-cA0_7ckc-a1-m1-cAS 7ckc-a1-m1-cA1_7ckc-a1-m1-cA9 7ckc-a1-m1-cA1_7ckc-a1-m1-cAc 7ckc-a1-m1-cA2_7ckc-a1-m1-cAQ 7ckc-a1-m1-cA2_7ckc-a1-m1-cAV 7ckc-a1-m1-cA3_7ckc-a1-m1-cAa 7ckc-a1-m1-cA3_7ckc-a1-m1-cAJ 7ckc-a1-m1-cA4_7ckc-a1-m1-cA6 7ckc-a1-m1-cA4_7ckc-a1-m1-cAY 7ckc-a1-m1-cA5_7ckc-a1-m1-cAI 7ckc-a1-m1-cA5_7ckc-a1-m1-cAR 7ckc-a1-m1-cA6_7ckc-a1-m1-cAh 7ckc-a1-m1-cA7_7ckc-a1-m1-cAG 7ckc-a1-m1-cA7_7ckc-a1-m1-cAk 7ckc-a1-m1-cA8_7ckc-a1-m1-cAf 7ckc-a1-m1-cA8_7ckc-a1-m1-cAT 7ckc-a1-m1-cA9_7ckc-a1-m1-cAn 7ckc-a1-m1-cAA_7ckc-a1-m1-cAh 7ckc-a1-m1-cAa_7ckc-a1-m1-cAr 7ckc-a1-m1-cAA_7ckc-a1-m1-cAY 7ckc-a1-m1-cAB_7ckc-a1-m1-cAJ 7ckc-a1-m1-cAB_7ckc-a1-m1-cAr 7ckc-a1-m1-cAC_7ckc-a1-m1-cAv 7ckc-a1-m1-cAC_7ckc-a1-m1-cAW 7ckc-a1-m1-cAD_7ckc-a1-m1-cAj 7ckc-a1-m1-cAD_7ckc-a1-m1-cAp 7ckc-a1-m1-cAd_7ckc-a1-m1-cAt 7ckc-a1-m1-cAE_7ckc-a1-m1-cAG 7ckc-a1-m1-cAE_7ckc-a1-m1-cAy 7ckc-a1-m1-cAF_7ckc-a1-m1-cAi 7ckc-a1-m1-cAf_7ckc-a1-m1-cAx 7ckc-a1-m1-cAF_7ckc-a1-m1-cAX 7ckc-a1-m1-cAg_7ckc-a1-m1-cAo 7ckc-a1-m1-cAH_7ckc-a1-m1-cAg 7ckc-a1-m1-cAi_7ckc-a1-m1-cAz 7ckc-a1-m1-cAI_7ckc-a1-m1-cAZ 7ckc-a1-m1-cAj_7ckc-a1-m1-cAl 7ckc-a1-m1-cAK_7ckc-a1-m1-cAc 7ckc-a1-m1-cAK_7ckc-a1-m1-cAn 7ckc-a1-m1-cAk_7ckc-a1-m1-cAy 7ckc-a1-m1-cAL_7ckc-a1-m1-cAT 7ckc-a1-m1-cAL_7ckc-a1-m1-cAx 7ckc-a1-m1-cAM_7ckc-a1-m1-cAl 7ckc-a1-m1-cAM_7ckc-a1-m1-cAp 7ckc-a1-m1-cAm_7ckc-a1-m1-cAw 7ckc-a1-m1-cAN_7ckc-a1-m1-cAe 7ckc-a1-m1-cAN_7ckc-a1-m1-cAv 7ckc-a1-m1-cAO_7ckc-a1-m1-cAQ 7ckc-a1-m1-cAO_7ckc-a1-m1-cAs 7ckc-a1-m1-cAP_7ckc-a1-m1-cAd 7ckc-a1-m1-cAP_7ckc-a1-m1-cAm 7ckc-a1-m1-cAq_7ckc-a1-m1-cAz 7ckc-a1-m1-cAR_7ckc-a1-m1-cAb 7ckc-a1-m1-cAS_7ckc-a1-m1-cAo 7ckc-a1-m1-cAt_7ckc-a1-m1-cAw 7ckc-a1-m1-cAV_7ckc-a1-m1-cAs 7ckc-a1-m1-cAW_7ckc-a1-m1-cAe 7ckc-a1-m1-cAX_7ckc-a1-m1-cAq 7ckc-a1-m1-cAZ_7ckc-a1-m1-cAb MKIMQVEKTLVSTNRIADMGHKPLLVVWEKPGAPRQVAVDAIGCIPGDWVLCVGSSAAREAAGSKSYPSDLTIIGIIDQW MKIMQVEKTLVSTNRIADMGHKPLLVVWEKPGAPRQVAVDAIGCIPGDWVLCVGSSAAREAAGSKSYPSDLTIIGIIDQW 2rcj-a1-m1-cG_2rcj-a1-m1-cH Solution structure of human Immunoglobulin M P01857 P01857 NOT SOLUTION SCATTERING 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 523 523 1dn2-a1-m1-cA_1dn2-a1-m1-cB 1e4k-a1-m1-cA_1e4k-a1-m1-cB 1fc1-a1-m1-cA_1fc1-a1-m1-cB 1fc2-a1-m1-cD_1fc2-a1-m2-cD 1fcc-a1-m1-cA_1fcc-a1-m1-cB 1frt-a1-m1-cC_1frt-a1-m2-cC 1h3t-a1-m1-cB_1h3t-a1-m1-cA 1h3u-a1-m1-cB_1h3u-a1-m1-cA 1h3v-a1-m1-cB_1h3v-a1-m1-cA 1h3w-a1-m1-cM_1h3w-a1-m2-cM 1h3x-a1-m1-cB_1h3x-a1-m1-cA 1h3y-a1-m1-cA_1h3y-a1-m1-cB 1h3y-a1-m2-cA_1h3y-a1-m2-cB 1l6x-a2-m1-cA_1l6x-a2-m2-cA 1oqo-a1-m1-cA_1oqo-a1-m1-cB 1oqx-a1-m1-cB_1oqx-a1-m1-cA 1t83-a1-m1-cA_1t83-a1-m1-cB 1t89-a1-m1-cA_1t89-a1-m1-cB 2dts-a1-m1-cB_2dts-a1-m1-cA 2gj7-a1-m1-cA_2gj7-a1-m1-cB 2iwg-a1-m1-cA_2iwg-a1-m1-cD 2ql1-a1-m1-cA_2ql1-a1-m2-cA 2rcj-a1-m1-cC_2rcj-a1-m1-cD 2rcj-a1-m1-cK_2rcj-a1-m1-cL 2rcj-a1-m1-cO_2rcj-a1-m1-cP 2rcj-a1-m1-cS_2rcj-a1-m1-cT 2wah-a1-m1-cA_2wah-a1-m1-cB 3ave-a1-m1-cB_3ave-a1-m1-cA 3ay4-a1-m1-cA_3ay4-a1-m1-cB 3c2s-a1-m1-cA_3c2s-a1-m2-cA 3d6g-a1-m1-cB_3d6g-a1-m1-cA 3dnk-a1-m1-cA_3dnk-a1-m1-cB 3do3-a1-m1-cA_3do3-a1-m1-cB 3fjt-a1-m1-cA_3fjt-a1-m1-cB 3ry6-a1-m1-cA_3ry6-a1-m1-cB 3sgj-a1-m1-cB_3sgj-a1-m1-cA 3sgj-a2-m1-cB_3sgj-a2-m1-cA 3sgk-a1-m1-cA_3sgk-a1-m1-cB 3sgk-a2-m1-cA_3sgk-a2-m1-cB 3v7m-a1-m1-cA_3v7m-a1-m2-cA 3v8c-a1-m1-cB_3v8c-a1-m1-cA 3v95-a1-m1-cB_3v95-a1-m1-cA 3wjj-a1-m1-cB_3wjj-a1-m1-cA 3wjl-a1-m1-cB_3wjl-a1-m1-cA 3wkn-a1-m1-cC_3wkn-a1-m1-cB 3wkn-a2-m1-cA_3wkn-a2-m1-cD 3wkn-a3-m1-cI_3wkn-a3-m1-cJ 3wkn-a4-m1-cM_3wkn-a4-m1-cN 4b53-a1-m1-cB_4b53-a1-m1-cA 4b7i-a1-m1-cB_4b7i-a1-m1-cA 4byh-a1-m1-cA_4byh-a1-m1-cB 4c54-a1-m1-cB_4c54-a1-m1-cA 4cdh-a1-m1-cA_4cdh-a1-m1-cB 4d2n-a1-m1-cC_4d2n-a1-m1-cD 4d2n-a2-m1-cB_4d2n-a2-m1-cA 4dz8-a1-m1-cB_4dz8-a1-m1-cA 4haf-a1-m1-cB_4haf-a1-m1-cA 4hag-a1-m1-cA_4hag-a1-m2-cA 4ku1-a1-m1-cA_4ku1-a1-m1-cB 4l4j-a1-m1-cB_4l4j-a1-m1-cA 4n0u-a1-m1-cE_4n0u-a1-m2-cE 4nhg-a1-m1-cY_4nhg-a1-m1-cX 4nhg-a1-m2-cY_4nhg-a1-m2-cX 4nhg-a2-m1-cN_4nhg-a2-m1-cJ 4nhg-a2-m1-cP_4nhg-a2-m1-cO 4nhh-a1-m1-cB_4nhh-a1-m1-cA 4nhh-a1-m1-cD_4nhh-a1-m1-cC 4nhh-a2-m1-cN_4nhh-a2-m1-cJ 4nhh-a2-m2-cN_4nhh-a2-m2-cJ 4nqs-a1-m1-cB_4nqs-a1-m1-cA 4nqs-a2-m1-cH_4nqs-a2-m1-cG 4q74-a1-m1-cB_4q74-a1-m1-cA 4q7d-a1-m1-cA_4q7d-a1-m1-cB 4qgt-a1-m1-cA_4qgt-a1-m1-cB 4w4n-a1-m1-cA_4w4n-a1-m1-cB 4w4o-a1-m1-cB_4w4o-a1-m1-cA 4wi2-a1-m1-cA_4wi2-a1-m1-cB 4wi4-a1-m1-cA_4wi4-a1-m1-cB 4wi6-a1-m1-cA_4wi6-a1-m1-cB 4wi7-a1-m1-cA_4wi7-a1-m1-cB 4wi8-a1-m1-cA_4wi8-a1-m1-cB 4wi9-a1-m1-cA_4wi9-a1-m1-cB 4x4m-a1-m1-cB_4x4m-a1-m1-cA 4x4m-a2-m1-cC_4x4m-a2-m1-cD 4zne-a1-m1-cJ_4zne-a1-m1-cE 5bw7-a1-m1-cA_5bw7-a1-m1-cB 5d4q-a1-m1-cA_5d4q-a1-m1-cB 5d6d-a1-m1-cB_5d6d-a1-m1-cA 5hye-a1-m1-cC_5hye-a1-m1-cA 5iw3-a1-m1-cA_5iw3-a1-m2-cA 5iw6-a1-m1-cB_5iw6-a1-m1-cA 5jih-a1-m1-cB_5jih-a1-m1-cA 5jii-a1-m1-cA_5jii-a1-m1-cB 5jik-a1-m1-cA_5jik-a1-m1-cB 5lg1-a1-m1-cB_5lg1-a1-m1-cA 5nsg-a1-m1-cA_5nsg-a1-m2-cA 5u4y-a1-m1-cA_5u4y-a1-m1-cB 5u66-a1-m1-cA_5u66-a1-m2-cA 5vgp-a1-m1-cA_5vgp-a1-m1-cB 5vu0-a1-m1-cA_5vu0-a1-m1-cB 5w38-a1-m1-cA_5w38-a1-m1-cB 5w5l-a1-m1-cA_5w5l-a1-m1-cB 5w5m-a1-m1-cA_5w5m-a1-m1-cB 5w5n-a1-m1-cA_5w5n-a1-m1-cB 5wav-a1-m1-cA_5wav-a1-m1-cB 5xje-a1-m1-cA_5xje-a1-m1-cB 5xjf-a1-m1-cA_5xjf-a1-m1-cB 5yc5-a1-m1-cA_5yc5-a1-m1-cB 6bz4-a1-m1-cB_6bz4-a1-m1-cA 6chf-a1-m1-cB_6chf-a1-m1-cA 6cjx-a1-m1-cA_6cjx-a1-m1-cB 6d4i-a1-m1-cA_6d4i-a1-m1-cB 6d58-a1-m1-cA_6d58-a1-m1-cB 6eaq-a1-m1-cA_6eaq-a1-m1-cB 6fcz-a1-m1-cK_6fcz-a1-m1-cH 6fgo-a1-m1-cC_6fgo-a1-m1-cA 6ifj-a1-m1-cA_6ifj-a1-m1-cB 6iqg-a1-m1-cA_6iqg-a1-m1-cB 6iqh-a1-m1-cA_6iqh-a1-m1-cB 6p6d-a1-m1-cB_6p6d-a1-m1-cA 6ugw-a1-m1-cA_6ugw-a1-m2-cA 6ugx-a1-m1-cA_6ugx-a1-m1-cB 6ugy-a1-m1-cA_6ugy-a1-m2-cA 6vsl-a1-m1-cB_6vsl-a1-m1-cA 6vsz-a1-m1-cA_6vsz-a1-m1-cB 6x3i-a1-m1-cA_6x3i-a1-m2-cA 7lbl-a1-m1-cA_7lbl-a1-m1-cB 7lf5-a1-m1-cA_7lf5-a1-m2-cA 7lf9-a1-m1-cB_7lf9-a1-m1-cA 7lfn-a1-m1-cB_7lfn-a1-m1-cA 7lur-a1-m1-cA_7lur-a1-m1-cB 7q15-a1-m1-cF_7q15-a1-m1-cE 7rho-a1-m1-cB_7rho-a1-m1-cA 7rho-a2-m1-cD_7rho-a2-m1-cE 7rho-a3-m1-cF_7rho-a3-m1-cG 7rho-a4-m1-cJ_7rho-a4-m1-cK 7uru-a1-m1-cA_7uru-a1-m1-cB 7wso-a1-m1-cB_7wso-a1-m1-cK 7x13-a1-m1-cB_7x13-a1-m1-cA 7x13-a1-m1-cD_7x13-a1-m1-cC 7x13-a1-m1-cE_7x13-a1-m1-cF 7x13-a1-m1-cG_7x13-a1-m1-cH 7x13-a1-m1-cI_7x13-a1-m1-cJ 7x13-a1-m1-cK_7x13-a1-m1-cL 8a47-a1-m1-cB_8a47-a1-m1-cA 8a64-a1-m1-cB_8a64-a1-m1-cC 8din-a1-m1-cA_8din-a1-m1-cB 8dir-a1-m1-cA_8dir-a1-m1-cB 8dj7-a1-m1-cA_8dj7-a1-m1-cB ESVLTQPPSASGTPGQRVTISCTGTSSGSITVNWYQQLPGMAPKLLIYRDAMRPSGVPTRFSGSKSGTSASLAISGLEAEDESDYYCASWNSSDNSYVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPLSLPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL ESVLTQPPSASGTPGQRVTISCTGTSSGSITVNWYQQLPGMAPKLLIYRDAMRPSGVPTRFSGSKSGTSASLAISGLEAEDESDYYCASWNSSDNSYVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPLSLPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 2rcj-a1-m1-cH_2rcj-a1-m1-cK Solution structure of human Immunoglobulin M P01857 P01857 NOT SOLUTION SCATTERING 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 523 523 2rcj-a1-m1-cC_2rcj-a1-m1-cT 2rcj-a1-m1-cD_2rcj-a1-m1-cG 2rcj-a1-m1-cP_2rcj-a1-m1-cS 2rcj-a1-m1-cU_2rcj-a1-m1-cL ESVLTQPPSASGTPGQRVTISCTGTSSGSITVNWYQQLPGMAPKLLIYRDAMRPSGVPTRFSGSKSGTSASLAISGLEAEDESDYYCASWNSSDNSYVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPLSLPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL ESVLTQPPSASGTPGQRVTISCTGTSSGSITVNWYQQLPGMAPKLLIYRDAMRPSGVPTRFSGSKSGTSASLAISGLEAEDESDYYCASWNSSDNSYVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPLSLPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 2rcj-a1-m1-cQ_2rcj-a1-m1-cR Solution structure of human Immunoglobulin M Q6PYX1 Q6PYX1 NOT SOLUTION SCATTERING 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 2rcj-a1-m1-cA_2rcj-a1-m1-cB 2rcj-a1-m1-cE_2rcj-a1-m1-cF 2rcj-a1-m1-cI_2rcj-a1-m1-cJ 2rcj-a1-m1-cM_2rcj-a1-m1-cN EVQLVQSGGGVVQPGRSLRLSCSSSGFIFSSYAMYWVRQAPGKGLEWVAIIWDDGSDQHYADSVKGRFTISRNDSKNTLFLQMDSLRPEDTGVYFCARDGGSSAPDYWGQGTPVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP EVQLVQSGGGVVQPGRSLRLSCSSSGFIFSSYAMYWVRQAPGKGLEWVAIIWDDGSDQHYADSVKGRFTISRNDSKNTLFLQMDSLRPEDTGVYFCARDGGSSAPDYWGQGTPVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP 2rcj-a1-m1-cU_2rcj-a1-m1-cO Solution structure of human Immunoglobulin M P01857 NOT SOLUTION SCATTERING 52 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 104 523 SASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKSC ESVLTQPPSASGTPGQRVTISCTGTSSGSITVNWYQQLPGMAPKLLIYRDAMRPSGVPTRFSGSKSGTSASLAISGLEAEDESDYYCASWNSSDNSYVFGTGTKVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPLSLPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPQVKFNWYVDGVQVHNAKTKPREQQYNSTYRVVSVLTVLHQNWLDGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 2rcv-a4-m1-cE_2rcv-a4-m1-cF Crystal structure of the Bacillus subtilis superoxide dismutase P54375 P54375 1.6 X-RAY DIFFRACTION 46 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 200 200 2rcv-a1-m1-cB_2rcv-a1-m1-cA 2rcv-a2-m1-cH_2rcv-a2-m1-cG 2rcv-a3-m1-cD_2rcv-a3-m1-cC AYELPELPYAYDALEPHIDKETMTIHHTKHHNTYVTNLNKAVEGNTALANKSVEELVADLDSVPENIRTAVRNNGGGHANHKLFWTLLSPNGGGEPTGALAEEINSVFGSFDKFKEQFAAAAAGRFGSGWAWLVVNNGKLEITSTPNQDSPLSEGKTPILGLDVWEHAYYLNYQNRRPDYISAFWNVVNWDEVARLYSER AYELPELPYAYDALEPHIDKETMTIHHTKHHNTYVTNLNKAVEGNTALANKSVEELVADLDSVPENIRTAVRNNGGGHANHKLFWTLLSPNGGGEPTGALAEEINSVFGSFDKFKEQFAAAAAGRFGSGWAWLVVNNGKLEITSTPNQDSPLSEGKTPILGLDVWEHAYYLNYQNRRPDYISAFWNVVNWDEVARLYSER 2rcy-a1-m2-cB_2rcy-a1-m2-cC Crystal structure of Plasmodium falciparum pyrroline carboxylate reductase (MAL13P1.284) with NADP bound Q8IDC6 Q8IDC6 2.3 X-RAY DIFFRACTION 384 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 244 251 2rcy-a1-m1-cB_2rcy-a1-m1-cC 2rcy-a1-m1-cD_2rcy-a1-m2-cD 2rcy-a1-m1-cE_2rcy-a1-m1-cA 2rcy-a1-m2-cE_2rcy-a1-m2-cA NIKLGFGLGQGSALAHGIANANIILFYYGPSKKTTLNYSSNEELARHCIIVCAVKPDIAGSVLNNIKPYLSSKLLISICGGLNIGKLEEVGSENKIVWVPNTPCLVGEGSFIYCSNKNVNSTDKKYVNDIFNSCGIIHEIKEKDDIATAISGCGPAYVYLFIESLIDAGVKNGLSRELSKNLVLQTIKGSVEVKKSDQPVQQLKDNIVSPGGITAVGLYSLEKNSFKYTVNAVEAACEKSKAGS ENIKLGFGLGQGSALAHGIANANIIKKENLFYYGPSKKNTTLNYSSNEELARHCDIIVCAVKPDIAGSVLNNIKPYLSSKLLISICGGLNIGKLEEVGSENKIVWVPNTPCLVGEGSFIYCSNKNVNSTDKKYVNDIFNSCGIIHEIKEKDDIATAISGCGPAYVYLFIESLIDAGVKNGLSRELSKNLVLQTIKGSVEVKKSDQPVQQLKDNIVSPGGITAVGLYSLEKNSFKYTVNAVEAACEKSKAGS 2rcy-a1-m2-cC_2rcy-a1-m2-cA Crystal structure of Plasmodium falciparum pyrroline carboxylate reductase (MAL13P1.284) with NADP bound Q8IDC6 Q8IDC6 2.3 X-RAY DIFFRACTION 26 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 251 252 2rcy-a1-m1-cB_2rcy-a1-m2-cC 2rcy-a1-m1-cC_2rcy-a1-m1-cA 2rcy-a1-m1-cD_2rcy-a1-m2-cA 2rcy-a1-m1-cE_2rcy-a1-m1-cB 2rcy-a1-m1-cE_2rcy-a1-m1-cD 2rcy-a1-m2-cB_2rcy-a1-m1-cC 2rcy-a1-m2-cD_2rcy-a1-m1-cA 2rcy-a1-m2-cE_2rcy-a1-m2-cB 2rcy-a1-m2-cE_2rcy-a1-m2-cD ENIKLGFGLGQGSALAHGIANANIIKKENLFYYGPSKKNTTLNYSSNEELARHCDIIVCAVKPDIAGSVLNNIKPYLSSKLLISICGGLNIGKLEEVGSENKIVWVPNTPCLVGEGSFIYCSNKNVNSTDKKYVNDIFNSCGIIHEIKEKDDIATAISGCGPAYVYLFIESLIDAGVKNGLSRELSKNLVLQTIKGSVEVKKSDQPVQQLKDNIVSPGGITAVGLYSLEKNSFKYTVNAVEAACEKSKAGS GENIKLGFGLGQGSALAHGIANANIIKKENLFYYGPSKKNTTLNYSSNEELARHCDIIVCAVKPDIAGSVLNNIKPYLSSKLLISICGGLNIGKLEEVGSENKIVWVPNTPCLVGEGSFIYCSNKNVNSTDKKYVNDIFNSCGIIHEIKEKDDIATAISGCGPAYVYLFIESLIDAGVKNGLSRELSKNLVLQTIKGSVEVKKSDQPVQQLKDNIVSPGGITAVGLYSLEKNSFKYTVNAVEAACEKSKAGS 2rcy-a1-m2-cE_2rcy-a1-m1-cD Crystal structure of Plasmodium falciparum pyrroline carboxylate reductase (MAL13P1.284) with NADP bound Q8IDC6 Q8IDC6 2.3 X-RAY DIFFRACTION 30 0.983 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 235 239 2rcy-a1-m1-cB_2rcy-a1-m1-cA 2rcy-a1-m1-cC_2rcy-a1-m2-cC 2rcy-a1-m1-cE_2rcy-a1-m2-cD 2rcy-a1-m2-cB_2rcy-a1-m2-cA LGFGLGQGSALAHGIANANLFYYGPSKKNTTLNYSSNEEARHIIVCAVKPDIAGSVLNNIKPYLSSKLLISICGGLNIGKLEEVGSIVWVPNTPCLVGEGSFIYCSNKNVNSTDKKYVNDIFNSCGIIHEIKEKDDIATAISGCGPAYVYLFIESLIDAGVKNGLSRELSKNLVLQTIKGSVEVKKSDQPVQQLKDNIVSPGGITAVGLYSLEKNSFKYTVNAVEAACEKSKAGS IKLGFGLGQGSALAHGIANANIILFYYGPSKKTTLNYSSNEELIIVCAVKPDIAGSVLNNIKPYLSSKLLISICGGLNIGKLEEVGSENKIVWVPNTPCLVGEGSFIYCSNKNVNSTDKKYVNDIFNSCGIIHEIKEKDDIATAISGCGPAYVYLFIESLIDAGVKNGLSRELSKNLVLQTIKGSVEVKKSDQPVQQLKDNIVSPGGITAVGLYSLEKNSFKYTVNAVEAACEKSKAGS 2rcz-a1-m1-cA_2rcz-a1-m1-cB Structure of the second PDZ domain of ZO-1 Q07157 Q07157 1.7 X-RAY DIFFRACTION 187 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 81 2jwe-a1-m1-cA_2jwe-a1-m1-cB 3cyy-a1-m1-cA_3cyy-a1-m1-cB GSKVTLVKSRKNEEYGLRLASHIFVKEISQDSLAARDGNIQEGDVVLKINGTVTENMSLTDAKTLIERSKGKLKMVVQR GSKVTLVKSRKNEEYGLRLASHIFVKEISQDSLAARDGNIQEGDVVLKINGTVTENMSLTDAKTLIERSKGKLKMVVQRDE 2rd1-a5-m1-cB_2rd1-a5-m2-cB X-Ray structure of the protein Q7CQI7. Northeast Structural Genomics Consortium target StR87A Q7CQI7 Q7CQI7 2.3 X-RAY DIFFRACTION 66 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 56 56 2rd1-a4-m1-cA_2rd1-a4-m2-cC TTNYVTTKNGQTIVTQGKPQLDKETGTSYTDQEGNQREINSNDVAQLIKADLEHHH TTNYVTTKNGQTIVTQGKPQLDKETGTSYTDQEGNQREINSNDVAQLIKADLEHHH 2rd3-a3-m1-cD_2rd3-a3-m2-cD Crystal structure of TenA homologue (HP1287) from Helicobacter pylori A8KRL3 A8KRL3 2.7 X-RAY DIFFRACTION 46 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 218 218 2rd3-a1-m1-cA_2rd3-a1-m2-cA 2rd3-a1-m1-cD_2rd3-a1-m2-cD 2rd3-a2-m1-cA_2rd3-a2-m2-cA 3ibx-a1-m1-cA_3ibx-a1-m2-cA 3ibx-a1-m1-cD_3ibx-a1-m2-cD TMQVSQYLYQNAQSIWGDCISHPFVQGIGRGTLERDKFRFYIIQDYLFLLEYAKVFALGVVKACDEAVMREFSNAIQDILNNEMSIHNHYIRELQITQKELQNACPTLANKSYTSYMLAEGFKGSIKEVAAAVLSCGWSYLVIAQNLSQIPNALEHAFYGHWIKGYSSKEFQACVNWNINLLDSLTLASSKQEIEKLKEIFITTSEYEYLFWDMAYQS TMQVSQYLYQNAQSIWGDCISHPFVQGIGRGTLERDKFRFYIIQDYLFLLEYAKVFALGVVKACDEAVMREFSNAIQDILNNEMSIHNHYIRELQITQKELQNACPTLANKSYTSYMLAEGFKGSIKEVAAAVLSCGWSYLVIAQNLSQIPNALEHAFYGHWIKGYSSKEFQACVNWNINLLDSLTLASSKQEIEKLKEIFITTSEYEYLFWDMAYQS 2rd5-a1-m1-cA_2rd5-a1-m3-cB Structural basis for the regulation of N-acetylglutamate kinase by PII in Arabidopsis thaliana Q9SCL7 Q9SCL7 2.51 X-RAY DIFFRACTION 117 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 281 283 2rd5-a1-m2-cA_2rd5-a1-m1-cB 2rd5-a1-m3-cA_2rd5-a1-m2-cB 4usj-a1-m1-cA_4usj-a1-m3-cB 4usj-a1-m1-cB_4usj-a1-m2-cA 4usj-a1-m2-cB_4usj-a1-m3-cA DYRVEILSESLPFIQKFRGKTIVVKYGGAAMTSPELKSSVVSDLVLLACVGLRPILVHGGGPDINRYLKQLNIPAEFRDGLRVTDATTMEIVSMVLVGKVNKNLVSLINAAGATAVGLSGHDGRLLTARPVPNSAQLGFVGEVARVDPSVLRPLVDYGYIPVIASVAADDSGQAYNINADTVAGELAAALGAEKLILLTDVAGILENKEDPSSLIKEIDIKGVKKMIEDGKVAGGMIPKVKCCIRSLAQGVKTASIIDGRRQHSLLHEIMSDEGAGTMITG SPDYRVEILSESLPFIQKFRGKTIVVKYGGAAMTSPELKSSVVSDLVLLACVGLRPILVHGGGPDINRYLKQLNIPAEFRDGLRVTDATTMEIVSMVLVGKVNKNLVSLINAAGATAVGLSGHDGRLLTARPVPNSAQLGFVGEVARVDPSVLRPLVDYGYIPVIASVAADDSGQAYNINADTVAGELAAALGAEKLILLTDVAGILENKEDPSSLIKEIDIKGVKKMIEDGKVAGGMIPKVKCCIRSLAQGVKTASIIDGRRQHSLLHEIMSDEGAGTMITG 2rd5-a1-m2-cD_2rd5-a1-m3-cD Structural basis for the regulation of N-acetylglutamate kinase by PII in Arabidopsis thaliana Q9ZST4 Q9ZST4 2.51 X-RAY DIFFRACTION 109 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 126 126 2rd5-a1-m1-cC_2rd5-a1-m2-cC 2rd5-a1-m1-cC_2rd5-a1-m3-cC 2rd5-a1-m1-cD_2rd5-a1-m2-cD 2rd5-a1-m1-cD_2rd5-a1-m3-cD 2rd5-a1-m2-cC_2rd5-a1-m3-cC DYIPDSKFYKVEAIVRPWRIQQVSSALLKIGIRGVTVSDVRGFGAQGGSTERHGGSEFSEDKFVAKVKMEIVVKKDQVESVINTIIEGARTGEIGDGKIFVLPVSDVIRVRTGERGEKAEKMTGDM DYIPDSKFYKVEAIVRPWRIQQVSSALLKIGIRGVTVSDVRGFGAQGGSTERHGGSEFSEDKFVAKVKMEIVVKKDQVESVINTIIEGARTGEIGDGKIFVLPVSDVIRVRTGERGEKAEKMTGDM 2rd5-a1-m3-cA_2rd5-a1-m3-cB Structural basis for the regulation of N-acetylglutamate kinase by PII in Arabidopsis thaliana Q9SCL7 Q9SCL7 2.51 X-RAY DIFFRACTION 81 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 281 283 2rd5-a1-m1-cA_2rd5-a1-m1-cB 2rd5-a1-m2-cA_2rd5-a1-m2-cB 4usj-a1-m1-cA_4usj-a1-m1-cB 4usj-a1-m2-cA_4usj-a1-m2-cB 4usj-a1-m3-cA_4usj-a1-m3-cB DYRVEILSESLPFIQKFRGKTIVVKYGGAAMTSPELKSSVVSDLVLLACVGLRPILVHGGGPDINRYLKQLNIPAEFRDGLRVTDATTMEIVSMVLVGKVNKNLVSLINAAGATAVGLSGHDGRLLTARPVPNSAQLGFVGEVARVDPSVLRPLVDYGYIPVIASVAADDSGQAYNINADTVAGELAAALGAEKLILLTDVAGILENKEDPSSLIKEIDIKGVKKMIEDGKVAGGMIPKVKCCIRSLAQGVKTASIIDGRRQHSLLHEIMSDEGAGTMITG SPDYRVEILSESLPFIQKFRGKTIVVKYGGAAMTSPELKSSVVSDLVLLACVGLRPILVHGGGPDINRYLKQLNIPAEFRDGLRVTDATTMEIVSMVLVGKVNKNLVSLINAAGATAVGLSGHDGRLLTARPVPNSAQLGFVGEVARVDPSVLRPLVDYGYIPVIASVAADDSGQAYNINADTVAGELAAALGAEKLILLTDVAGILENKEDPSSLIKEIDIKGVKKMIEDGKVAGGMIPKVKCCIRSLAQGVKTASIIDGRRQHSLLHEIMSDEGAGTMITG 2rd9-a3-m1-cA_2rd9-a3-m1-cD Crystal structure of a putative yfit-like metal-dependent hydrolase (bh0186) from bacillus halodurans c-125 at 2.30 A resolution Q9KGB8 Q9KGB8 2.3 X-RAY DIFFRACTION 70 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 186 186 KIHHHHHHENLYFQGNFQNEAIQLLERTPKTLEVFLEGLSDSWHQCNEGYETWTVYEVVVHLIEAEKTNWIPRLRFILQEGEHKPFPAFDRFSHLNQSNAVPISERFKEFQQLRKENLNTLRSLVQSEADLERTGAHPAFGVVKVRELLSAWVVHDLTHIAQIVRSAKRYDTDVGPWKEYLGILND KIHHHHHHENLYFQGNFQNEAIQLLERTPKTLEVFLEGLSDSWHQCNEGYETWTVYEVVVHLIEAEKTNWIPRLRFILQEGEHKPFPAFDRFSHLNQSNAVPISERFKEFQQLRKENLNTLRSLVQSEADLERTGAHPAFGVVKVRELLSAWVVHDLTHIAQIVRSAKRYDTDVGPWKEYLGILND 2rd9-a3-m1-cB_2rd9-a3-m1-cD Crystal structure of a putative yfit-like metal-dependent hydrolase (bh0186) from bacillus halodurans c-125 at 2.30 A resolution Q9KGB8 Q9KGB8 2.3 X-RAY DIFFRACTION 25 0.994 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 181 186 2rd9-a3-m1-cC_2rd9-a3-m1-cA DKIHHHHHHENLYFQGNFQNEAIQLLERTPKTLEVFLEGLSDSWHQCNEGYETWTVYEVVVHLIEAEKTNWIPRLRFILQEGEHKPFPAFDRSNAVPISERFKEFQQLRKENLNTLRSLVQSEADLERTGAHPAFGVVKVRELLSAWVVHDLTHIAQIVRSAKRYDTDVGPWKEYLGILND KIHHHHHHENLYFQGNFQNEAIQLLERTPKTLEVFLEGLSDSWHQCNEGYETWTVYEVVVHLIEAEKTNWIPRLRFILQEGEHKPFPAFDRFSHLNQSNAVPISERFKEFQQLRKENLNTLRSLVQSEADLERTGAHPAFGVVKVRELLSAWVVHDLTHIAQIVRSAKRYDTDVGPWKEYLGILND 2rd9-a3-m1-cC_2rd9-a3-m1-cD Crystal structure of a putative yfit-like metal-dependent hydrolase (bh0186) from bacillus halodurans c-125 at 2.30 A resolution Q9KGB8 Q9KGB8 2.3 X-RAY DIFFRACTION 166 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 183 186 2rd9-a1-m1-cB_2rd9-a1-m1-cA 2rd9-a2-m1-cC_2rd9-a2-m1-cD 2rd9-a3-m1-cB_2rd9-a3-m1-cA HHHHHENLYFQGNFQNEAIQLLERTPKTLEVFLEGLSDSWHQCNEGYETWTVYEVVVHLIEAEKTNWIPRLRFILQEGEHKPFPAFDRFSHLNQSNAVPISERFKEFQQLRKENLNTLRSLVQSEADLERTGAHPAFGVVKVRELLSAWVVHDLTHIAQIVRSAKRYDTDVGPWKEYLGILND KIHHHHHHENLYFQGNFQNEAIQLLERTPKTLEVFLEGLSDSWHQCNEGYETWTVYEVVVHLIEAEKTNWIPRLRFILQEGEHKPFPAFDRFSHLNQSNAVPISERFKEFQQLRKENLNTLRSLVQSEADLERTGAHPAFGVVKVRELLSAWVVHDLTHIAQIVRSAKRYDTDVGPWKEYLGILND 2rdc-a1-m1-cA_2rdc-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE LIPID BINDING PROTEIN (GSU0061) FROM GEOBACTER SULFURREDUCENS PCA AT 1.80 A RESOLUTION Q74H32 Q74H32 1.8 X-RAY DIFFRACTION 97 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 130 132 ETTGRYKKVIEITGHDEVAAKLLEGLIDAGTRYFSKVVEEHRASARFRLDGEELRELTETLDRSRRLAHESLISSLHVFNRYIVKEYGEELKEAGIEGGIFPKPEANRDRIAIADWAGELLTGIYENRHR ATETTGRYKKVIEITGHDEVAAKLLEGLIDAGTRYFSKVVEEHRASARFRLDGEELRELTETLDRSRRLAHESLISSLHVFNRYIVKEYGEELKEAGIEGGIFPKPEANRDRIAIADWAGELLTGIYENRHR 2rde-a1-m1-cA_2rde-a1-m1-cB Crystal structure of VCA0042 complexed with c-di-GMP A0A0H3ADR8 A0A0H3ADR8 1.92 X-RAY DIFFRACTION 92 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 224 225 VSTINSTDALAMVEHSSELTLSITTPVGTKFVCRTPFIGTHTDKFLLVEMPKISADDLQYFFQEGFWMNIRAISPRGEGALIHFRSQLMHILQEPVPMAFLSIPNTMQVSQLRKEPRFELNLAGKVLFDEHRGDCELRDLSRSGCRFITPPLGKTYQVGDLVALEIFSDLRGTKTFPPLTGKICNLQRSLHHARYGLEFNEEGRNNAKNLLAQLKFNGTKLTLN TVSTINSTDALAMVEHSSELTLSITTPVGTKFVCRTPFIGTHTDKFLLVEMPKISADDLQYFFQEGFWMNIRAISPRGEGALIHFRSQLMHILQEPVPMAFLSIPNTMQVSQLRKEPRFELNLAGKVLFDEHRGDCELRDLSRSGCRFITPPLGKTYQVGDLVALEIFSDLRGTKTFPPLTGKICNLQRSLHHARYGLEFNEEGRNNAKNLLAQLKFNGTKLTLN 2rdh-a2-m1-cB_2rdh-a2-m1-cD Crystal structure of Staphylococcal Superantigen-Like protein 11 A8E1U5 A8E1U5 1.7 X-RAY DIFFRACTION 45 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 190 191 2rdh-a1-m1-cA_2rdh-a1-m1-cC RSQATQDLSEYYNRPYFDLRNLSGYREGNTVTFINHYQQTDVKLEGKDKDKIKDGNNENLDVFVVREGSGRQADNNSIGGITKTNRTQHITVQNVNLLVSKSTGQHTTSVTSTNYSIYKEEISLKELDFKLRKHLIDKHDLYKTEPKDSKIRVTMKNGDFYTFELNKKLQTHRMGDVIDGRNIEKIEVNL RSQATQDLSEYYNRPYFDLRNLSGYREGNTVTFINHYQQTDVKLEGKDKDKIKDGNNENLDVFVVREGSGRQADNNSIGGITKTNRTQHIDTVQNVNLLVSKSTGQHTTSVTSTNYSIYKEEISLKELDFKLRKHLIDKHDLYKTEPKDSKIRVTMKNGDFYTFELNKKLQTHRMGDVIDGRNIEKIEVNL 2rdl-a1-m2-cB_2rdl-a1-m1-cA Hamster Chymase 2 O70164 O70164 2.5 X-RAY DIFFRACTION 29 1.0 10036 (Mesocricetus auratus) 10036 (Mesocricetus auratus) 226 226 IIGGTECRPHARPYMAYLEIVTPENHLSACSGFLIRRNFVMTAAHCAGRSITVLLGAHNKKVKEDTWQKLEVEKQFPHPKYDDRLVLNDIMLLKLKEKANLTLGVGTLPISAKSNSIPPGRVCRAVGWGRTNVNEPPSDTLQEVKMRILDPQACKHFEDFHQEPQLCVGNPKKIRNVYKGDSGGPLLCAGIAQGIASYVLRNAKPPSVFTRISHYRPWINKILREN IIGGTECRPHARPYMAYLEIVTPENHLSACSGFLIRRNFVMTAAHCAGRSITVLLGAHNKKVKEDTWQKLEVEKQFPHPKYDDRLVLNDIMLLKLKEKANLTLGVGTLPISAKSNSIPPGRVCRAVGWGRTNVNEPPSDTLQEVKMRILDPQACKHFEDFHQEPQLCVGNPKKIRNVYKGDSGGPLLCAGIAQGIASYVLRNAKPPSVFTRISHYRPWINKILREN 2rdm-a1-m2-cB_2rdm-a1-m2-cA Crystal structure of response regulator receiver protein from Sinorhizobium medicae WSM419 A6UIY7 A6UIY7 1.76 X-RAY DIFFRACTION 43 1.0 366394 (Sinorhizobium medicae WSM419) 366394 (Sinorhizobium medicae WSM419) 120 122 2rdm-a1-m1-cB_2rdm-a1-m1-cA 2rdm-a1-m1-cC_2rdm-a1-m2-cC EAVTILLADDEAILLLDFESTLTDAGFLVTAVSSGAKAIELKSGAAIDGVVTDIRFCQPPDGWQVARVAREIDPNPIVYISGHAALEWASNGVPDSIILEKPFTSAQLITAVSQLLNARE SLEAVTILLADDEAILLLDFESTLTDAGFLVTAVSSGAKAIELKSGAAIDGVVTDIRFCQPPDGWQVARVAREIDPNPIVYISGHAALEWASNGVPDSIILEKPFTSAQLITAVSQLLNARE 2rdm-a2-m1-cB_2rdm-a2-m2-cA Crystal structure of response regulator receiver protein from Sinorhizobium medicae WSM419 A6UIY7 A6UIY7 1.76 X-RAY DIFFRACTION 40 1.0 366394 (Sinorhizobium medicae WSM419) 366394 (Sinorhizobium medicae WSM419) 120 122 2rdm-a1-m1-cB_2rdm-a1-m1-cC 2rdm-a1-m1-cB_2rdm-a1-m2-cA 2rdm-a1-m1-cC_2rdm-a1-m2-cA 2rdm-a1-m2-cB_2rdm-a1-m1-cA 2rdm-a1-m2-cB_2rdm-a1-m2-cC 2rdm-a1-m2-cC_2rdm-a1-m1-cA 2rdm-a2-m1-cB_2rdm-a2-m1-cC 2rdm-a2-m1-cC_2rdm-a2-m2-cA EAVTILLADDEAILLLDFESTLTDAGFLVTAVSSGAKAIELKSGAAIDGVVTDIRFCQPPDGWQVARVAREIDPNPIVYISGHAALEWASNGVPDSIILEKPFTSAQLITAVSQLLNARE SLEAVTILLADDEAILLLDFESTLTDAGFLVTAVSSGAKAIELKSGAAIDGVVTDIRFCQPPDGWQVARVAREIDPNPIVYISGHAALEWASNGVPDSIILEKPFTSAQLITAVSQLLNARE 2rdp-a1-m1-cA_2rdp-a1-m2-cA The structure of a MarR family protein from Bacillus stearothermophilus D0VWY6 D0VWY6 2.3 X-RAY DIFFRACTION 117 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 136 136 ANERTVAELEKLLRYIAANLKQRGREILTNYPITPPQFVALQWLLEEGDLTVGELSNKYLACSTTTDLVDRERNGLVARVRDEHVVRIRLLEKGERIIEEVIEKRQRDLANVLESFSDEEIVVFERCLRKLHQETK ANERTVAELEKLLRYIAANLKQRGREILTNYPITPPQFVALQWLLEEGDLTVGELSNKYLACSTTTDLVDRERNGLVARVRDEHVVRIRLLEKGERIIEEVIEKRQRDLANVLESFSDEEIVVFERCLRKLHQETK 2rdx-a1-m1-cA_2rdx-a1-m1-cF Crystal structure of mandelate racemase/muconate lactonizing enzyme from Roseovarius nubinhibens ISM A3SNF8 A3SNF8 2 X-RAY DIFFRACTION 36 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 369 369 2rdx-a1-m1-cA_2rdx-a1-m1-cD 2rdx-a1-m1-cB_2rdx-a1-m1-cC 2rdx-a1-m1-cB_2rdx-a1-m1-cE 2rdx-a1-m1-cC_2rdx-a1-m1-cH 2rdx-a1-m1-cE_2rdx-a1-m1-cH 2rdx-a1-m1-cG_2rdx-a1-m1-cD 2rdx-a1-m1-cG_2rdx-a1-m1-cF SLRITRIRLYKTDLPYVDGSYGWGAGNAITVARASVVVIDTDAGLQGCGEFTPCGENYMIAHSEGVDAFARLAAPQLLGQDPRQVARMERLMDHLVQGHGYAKAPFDAAFWDILGQATGQPVWMLLGGKLCDGAPMYRVAPQRSEAETRAELARHRAAGYRQFQIKVGADWQSDIDRIRACLPLLEPGEKAMADANQGWRVDNAIRLARATRDLDYILEQPCRSYEECQQVRRVADQPMKLDECVTGLHMAQRIVADRGAEICCLKISNLGGLSKARRTRDFLIDNRMPVVAEDSWGGEIASAAVAHFAASTPEEFLINSTDLMNYNTRSTGLGGPTVHQGRLYASDTPGLGVTPDFNSLGAPVADWAL SLRITRIRLYKTDLPYVDGSYGWGAGNAITVARASVVVIDTDAGLQGCGEFTPCGENYMIAHSEGVDAFARLAAPQLLGQDPRQVARMERLMDHLVQGHGYAKAPFDAAFWDILGQATGQPVWMLLGGKLCDGAPMYRVAPQRSEAETRAELARHRAAGYRQFQIKVGADWQSDIDRIRACLPLLEPGEKAMADANQGWRVDNAIRLARATRDLDYILEQPCRSYEECQQVRRVADQPMKLDECVTGLHMAQRIVADRGAEICCLKISNLGGLSKARRTRDFLIDNRMPVVAEDSWGGEIASAAVAHFAASTPEEFLINSTDLMNYNTRSTGLGGPTVHQGRLYASDTPGLGVTPDFNSLGAPVADWAL 2rdx-a1-m1-cD_2rdx-a1-m1-cH Crystal structure of mandelate racemase/muconate lactonizing enzyme from Roseovarius nubinhibens ISM A3SNF8 A3SNF8 2 X-RAY DIFFRACTION 69 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 369 369 2rdx-a1-m1-cA_2rdx-a1-m1-cC 2rdx-a1-m1-cB_2rdx-a1-m1-cF 2rdx-a1-m1-cG_2rdx-a1-m1-cE SLRITRIRLYKTDLPYVDGSYGWGAGNAITVARASVVVIDTDAGLQGCGEFTPCGENYMIAHSEGVDAFARLAAPQLLGQDPRQVARMERLMDHLVQGHGYAKAPFDAAFWDILGQATGQPVWMLLGGKLCDGAPMYRVAPQRSEAETRAELARHRAAGYRQFQIKVGADWQSDIDRIRACLPLLEPGEKAMADANQGWRVDNAIRLARATRDLDYILEQPCRSYEECQQVRRVADQPMKLDECVTGLHMAQRIVADRGAEICCLKISNLGGLSKARRTRDFLIDNRMPVVAEDSWGGEIASAAVAHFAASTPEEFLINSTDLMNYNTRSTGLGGPTVHQGRLYASDTPGLGVTPDFNSLGAPVADWAL SLRITRIRLYKTDLPYVDGSYGWGAGNAITVARASVVVIDTDAGLQGCGEFTPCGENYMIAHSEGVDAFARLAAPQLLGQDPRQVARMERLMDHLVQGHGYAKAPFDAAFWDILGQATGQPVWMLLGGKLCDGAPMYRVAPQRSEAETRAELARHRAAGYRQFQIKVGADWQSDIDRIRACLPLLEPGEKAMADANQGWRVDNAIRLARATRDLDYILEQPCRSYEECQQVRRVADQPMKLDECVTGLHMAQRIVADRGAEICCLKISNLGGLSKARRTRDFLIDNRMPVVAEDSWGGEIASAAVAHFAASTPEEFLINSTDLMNYNTRSTGLGGPTVHQGRLYASDTPGLGVTPDFNSLGAPVADWAL 2rdx-a1-m1-cG_2rdx-a1-m1-cH Crystal structure of mandelate racemase/muconate lactonizing enzyme from Roseovarius nubinhibens ISM A3SNF8 A3SNF8 2 X-RAY DIFFRACTION 57 0.997 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 360 369 2rdx-a1-m1-cA_2rdx-a1-m1-cB 2rdx-a1-m1-cC_2rdx-a1-m1-cD 2rdx-a1-m1-cE_2rdx-a1-m1-cF SLRITRIRLYKTDLPYVDGTVARASVVVIDTDAGLQGCGEFTPCGENYMIAHSEGVDAFARLAAPQLLGQDPRQVARMERLMDHLVQGHGYAKAPFDAAFWDILGQATGQPVWMLLGGKLCDGAPMYRVAPQRSEAETRAELARHRAAGYRQFQIKVGADWQSDIDRIRACLPLLEPGEKAMADANQGWRVDNAIRLARATRDLDYILEQPCRSYEECQQVRRVADQPMKLDECVTGLHMAQRIVADRGAEICCLKISNLGGLSKARRTRDFLIDNRMPVVAEDSWGGEIASAAVAHFAASTPEEFLINSTDLMNYNTRSTGLGGPTVHQGRLYASDTPGLGVTPDFNSLGAPVADWALP SLRITRIRLYKTDLPYVDGSYGWGAGNAITVARASVVVIDTDAGLQGCGEFTPCGENYMIAHSEGVDAFARLAAPQLLGQDPRQVARMERLMDHLVQGHGYAKAPFDAAFWDILGQATGQPVWMLLGGKLCDGAPMYRVAPQRSEAETRAELARHRAAGYRQFQIKVGADWQSDIDRIRACLPLLEPGEKAMADANQGWRVDNAIRLARATRDLDYILEQPCRSYEECQQVRRVADQPMKLDECVTGLHMAQRIVADRGAEICCLKISNLGGLSKARRTRDFLIDNRMPVVAEDSWGGEIASAAVAHFAASTPEEFLINSTDLMNYNTRSTGLGGPTVHQGRLYASDTPGLGVTPDFNSLGAPVADWAL 2rdy-a1-m1-cA_2rdy-a1-m1-cB Crystal structure of a putative glycoside hydrolase family protein from Bacillus halodurans Q9KEL0 Q9KEL0 2.03 X-RAY DIFFRACTION 79 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 769 769 LKIQFDFPASFWTEALPIGNGNLGAVFGKVEKERIALNEDTLWSGYPKDWNNPKAKEVLPKVRELIAQEKYEEADQLSRDGPYTQSYLPFGDLNIFDHGQVVAPHYHRELDLSTGIVTVTYTIGGVQYTRELFVTYPDRAIVVRLTASKEGFLSFRAKLDSLLRHVSSVEHYTISGTAPEHVSPSYYDEENPVRYGHPDSQGTFHGRLAAVNEGGSLKVDADGLHVGATCATLYFSASTSFDPSTGASCLERDPSLRTIETIKAICKRGYKEIVNRHLEDYTKLFNRVSLHLGESIAPADSTDQRIKEYGSRDLGLVELLFQYGRYLIASSRPGTQPANLQGIWNEETRAPWSSNYTLNINAENYWPAETCNLAELHKPLIHFIERLAANGKKTAEINYGARGWVAHHNADLWGQTAPVGDFGHGDPVWAFWPGGVWLTQHLWEHYTFGEDEAYLRDTAYPIKEAALFCLDWLIENEAGYLVTSPSTSPEQRFRIGEKGYAVSSATTDLSLIAECFDNCIQAAKRLSIDEDFVKALSDAKQRLLPLQIGKRGQLQEWSNDFEDEDVHHRHVSHLVGIYPGRLITEQSAPNLFEAAKTSLEIRGDEGTGWSLGWKISLWARFKDGNRCERLLSNLTLIKEDESQHRGGVYANLFGAHPPFQIDGNFSATAGIAELLQSHQGYLEFLPALPDSWKDGYVKGLRGRGGYEVDLAWTNGALVKVEIVSTKTQTCEVLTRISRITESGEEVEGDVLDSGRSFQVEKGKRYVLNR LKIQFDFPASFWTEALPIGNGNLGAVFGKVEKERIALNEDTLWSGYPKDWNNPKAKEVLPKVRELIAQEKYEEADQLSRDGPYTQSYLPFGDLNIFDHGQVVAPHYHRELDLSTGIVTVTYTIGGVQYTRELFVTYPDRAIVVRLTASKEGFLSFRAKLDSLLRHVSSVEHYTISGTAPEHVSPSYYDEENPVRYGHPDSQGTFHGRLAAVNEGGSLKVDADGLHVGATCATLYFSASTSFDPSTGASCLERDPSLRTIETIKAICKRGYKEIVNRHLEDYTKLFNRVSLHLGESIAPADSTDQRIKEYGSRDLGLVELLFQYGRYLIASSRPGTQPANLQGIWNEETRAPWSSNYTLNINAENYWPAETCNLAELHKPLIHFIERLAANGKKTAEINYGARGWVAHHNADLWGQTAPVGDFGHGDPVWAFWPGGVWLTQHLWEHYTFGEDEAYLRDTAYPIKEAALFCLDWLIENEAGYLVTSPSTSPEQRFRIGEKGYAVSSATTDLSLIAECFDNCIQAAKRLSIDEDFVKALSDAKQRLLPLQIGKRGQLQEWSNDFEDEDVHHRHVSHLVGIYPGRLITEQSAPNLFEAAKTSLEIRGDEGTGWSLGWKISLWARFKDGNRCERLLSNLTLIKEDESQHRGGVYANLFGAHPPFQIDGNFSATAGIAELLQSHQGYLEFLPALPDSWKDGYVKGLRGRGGYEVDLAWTNGALVKVEIVSTKTQTCEVLTRISRITESGEEVEGDVLDSGRSFQVEKGKRYVLNR 2rdz-a2-m1-cC_2rdz-a2-m1-cD High Resolution Crystal Structure of the Escherichia coli Cytochrome c Nitrite Reductase. P0ABK9 P0ABK9 1.74 X-RAY DIFFRACTION 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 441 441 1gu6-a1-m1-cA_1gu6-a1-m1-cG 1gu6-a2-m1-cC_1gu6-a2-m1-cE 2rdz-a1-m1-cA_2rdz-a1-m1-cB 2rf7-a1-m1-cA_2rf7-a1-m1-cB 2rf7-a2-m1-cC_2rf7-a2-m1-cD 3l1t-a1-m1-cA_3l1t-a1-m1-cB 3l1t-a2-m1-cC_3l1t-a2-m1-cD 3tor-a1-m1-cA_3tor-a1-m1-cD 3tor-a2-m1-cB_3tor-a2-m1-cC 4wjy-a1-m1-cA_4wjy-a1-m1-cB TVEAKNETFAPQHPDQYLSWKATSEQSERVDALAEDPRLVILWAGYPFSRDYNKPRGHAFAVTDVRETLRTGAPKNAEDGPLPMACWSCKSPDVARLIQKDGEDGYFHGKWARGGPEIVNNLGCADCHNTASPEFAKGKPELTLSRPYAARAMEAIGKPFEKAGRFDQQSMVCGQCHVEYYFDGKNKAVKFPWDDGMKVENMEQYYDKIAFSDWTNSLSKTPMLKAQHPEYETWTAGIHGKNNVTCIDCHMPKVQNAEGKLYTDHKIGNPFDNFAQTCANCHTQDKAALQKVVAERKQSINDLKIKVEDQLVHAHFEAKAALDAGATEAEMKPIQDDIRHAQWRWDLAIASHGIHMHAPEEGLRMLGTAMDKAADARTKLARLLATKGITHEIQIPDISTKEKAQQAIGLNMEQIKAEKQDFIKTVIPQWEEQARKNGLLS TVEAKNETFAPQHPDQYLSWKATSEQSERVDALAEDPRLVILWAGYPFSRDYNKPRGHAFAVTDVRETLRTGAPKNAEDGPLPMACWSCKSPDVARLIQKDGEDGYFHGKWARGGPEIVNNLGCADCHNTASPEFAKGKPELTLSRPYAARAMEAIGKPFEKAGRFDQQSMVCGQCHVEYYFDGKNKAVKFPWDDGMKVENMEQYYDKIAFSDWTNSLSKTPMLKAQHPEYETWTAGIHGKNNVTCIDCHMPKVQNAEGKLYTDHKIGNPFDNFAQTCANCHTQDKAALQKVVAERKQSINDLKIKVEDQLVHAHFEAKAALDAGATEAEMKPIQDDIRHAQWRWDLAIASHGIHMHAPEEGLRMLGTAMDKAADARTKLARLLATKGITHEIQIPDISTKEKAQQAIGLNMEQIKAEKQDFIKTVIPQWEEQARKNGLLS 2re1-a1-m1-cA_2re1-a1-m1-cB Crystal structure of aspartokinase alpha and beta subunits Q9JYN6 Q9JYN6 2.75 X-RAY DIFFRACTION 116 0.986 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 144 148 AVTGIAFDKNQARINVRGVPDKPGVAYQILGAVADANIEVDIIQNGTTDFSFTVPRGDYKQTLEILSERQDSIGAASIDGDDTVCKVSAVGLGRSHVGVAAKIFRTLAEEGINIQISTSEIKVSVLIDEKYELATRVLHKAFNL DDNERAAVTGIAFDKNQARINVRGVPDKPGVAYQILGAVADANIEVDIIQNTTDFSFTVPRGDYKQTLEILSERQDSIGAASDGDDTVCKVSAVGLGRSHVGVAAKIFRTLAEEGINIQISTSEIKVSVLIDEKYELATRVLHKAFNL 2re7-a1-m1-cA_2re7-a1-m2-cA Crystal structure of a pyridoxamine 5'-phosphate oxidase related protein (psyc_0186) from psychrobacter arcticus 273-4 at 2.50 A resolution Q4FV99 Q4FV99 2.5 X-RAY DIFFRACTION 82 1.0 259536 (Psychrobacter arcticus 273-4) 259536 (Psychrobacter arcticus 273-4) 130 130 SNQKHIDKIQAVIKDVKFAISTSNKKGDIHAWPTTSEVNLDNKEIWFIGDKTSDVVKDIQDDARIGLTYATQDEKNYVSISGDAELPTDKAKLDELWSPVYSAFFANGKEDANIQLIKVVPHGVECWLSG SNQKHIDKIQAVIKDVKFAISTSNKKGDIHAWPTTSEVNLDNKEIWFIGDKTSDVVKDIQDDARIGLTYATQDEKNYVSISGDAELPTDKAKLDELWSPVYSAFFANGKEDANIQLIKVVPHGVECWLSG 2re9-a1-m1-cB_2re9-a1-m1-cC Crystal structure of TL1A at 2.1 A O95150 O95150 2.1 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 2re9-a1-m1-cA_2re9-a1-m1-cB 2re9-a1-m1-cA_2re9-a1-m1-cC LRADGDKPRAHLTVVRQTPTQHFKNQFPALHWEHELGLAFTKNRMNYTNKFLLIPESGDYFIYSQVTFRGMTSECSEIRQAGRPNKPDSITVVITKVTDSYPEPTQLLMGTKSVCEVGSNWFQPIYLGAMFSLQEGDKLMVNVSDISLVDYTKEDKTFFGAFLL LRADGDKPRAHLTVVRQTPTQHFKNQFPALHWEHELGLAFTKNRMNYTNKFLLIPESGDYFIYSQVTFRGMTSECSEIRQAGRPNKPDSITVVITKVTDSYPEPTQLLMGTKSVCEVGSNWFQPIYLGAMFSLQEGDKLMVNVSDISLVDYTKEDKTFFGAFLL 2rek-a1-m1-cA_2rek-a1-m2-cB Crystal structure of tetR-family transcriptional regulator Q9ADD9 Q9ADD9 1.86 X-RAY DIFFRACTION 96 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 172 175 ADARRNYDRIIEAAAAEVARHGADASLEEIARRAGVGSATLHRHFPSRWGLLQAVFQERVAQLCDEARSLAAEHPPATALTRWLTSLAVFGAVTRGAARSLAALDSRCEQLLTEAGADLLARAQEDGTVRDDVTALELLSLANAVSLAAEHTPDAAHHATRLMGIALGGLGA RADARRNYDRIIEAAAAEVARHGADASLEEIARRAGVGSATLHRHFPSRWGLLQAVFQERVAQLCDEARSLAAEHPPATALTRWLTSLAVFGAVTRGAARSLLAALDSRCEQLLTEAGADLLARAQEDGTVRDDVTALELLSLANAVSLAAEHTPDAAHHATRLMGIALGGLGAP 2ret-a1-m1-cC_2ret-a1-m1-cG The crystal structure of a binary complex of two pseudopilins: EpsI and EpsJ from the Type 2 Secretion System of Vibrio vulnificus Q7MPZ1 Q7MPZ1 2.21 X-RAY DIFFRACTION 19 0.987 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 75 76 2ret-a1-m1-cE_2ret-a1-m1-cA TVGYLEQKFAAVADNQAVLNPKLKASNGEEELAGQTWYWKVAPVATQPLLKAFDVSVAATTQASPIITVRSYVAS TVGYLEQKFAAVADNQAVLNPKNLKASNGEEELAGQTWYWKVAPVATTQPLLKAFDVSVAATTQASPIITVRSYVA 2ret-a1-m1-cF_2ret-a1-m1-cH The crystal structure of a binary complex of two pseudopilins: EpsI and EpsJ from the Type 2 Secretion System of Vibrio vulnificus Q7MPZ0 Q7MPZ0 2.21 X-RAY DIFFRACTION 42 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 153 154 2ret-a1-m1-cD_2ret-a1-m1-cB LSQERTARLNELQRALVDSDFRQIALRQTRTKKLLHWADYLLDSDNKGIFARLGWHNPQQQFPRGEVTKVGYRIKDERLERVWWRYPDTPQEGVVTPLLSDVEELNVRFYDGKQWINEWSNELTLPAAISVELTLKDYGKIARTYLTPEGNLQ ELSQERTARLNELQRALVDSDFRQIALRQTRTKKLLHWADYLLDSDNKGIFARLGWHNPQQQFPRGEVTKVGYRIKDERLERVWWRYPDTPQEGVVTPLLSDVEELNVRFYDGKQWINEWSNELTLPAAISVELTLKDYGKIARTYLTPEGNLQ 2rex-a5-m1-cA_2rex-a5-m1-cC Crystal structure of the effector domain of PLXNB1 bound with Rnd1 GTPase O43157 O43157 2.3 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 YRPLTLNALLAVGPGAGEAQGVPVKVLDCDTISQAKEKMLDQLYKGVPLTQRPDPRTLDVEWRSGVAGHLILSDEDVTSEVQGLWRRLNTLQHYKVPDGATVALVPC YRPLTLNALLAVGPGAGEAQGVPVKVLDCDTISQAKEKMLDQLYKGVPLTQRPDPRTLDVEWRSGVAGHLILSDEDVTSEVQGLWRRLNTLQHYKVPDGATVALVPC 2rey-a1-m1-cA_2rey-a1-m2-cA Crystal structure of the PDZ domain of human dishevelled 2 (homologous to Drosophila dsh) O14641 O14641 1.55 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 LNIITVTLNMEYNFLGISIVGQSGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKCWETSV LNIITVTLNMEYNFLGISIVGQSGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKCWETSV 2rez-a1-m1-cA_2rez-a1-m2-cA Tetracenomycin ARO/CYC NaI Structure P16559 P16559 1.95 X-RAY DIFFRACTION 42 1.0 1907 (Streptomyces glaucescens) 1907 (Streptomyces glaucescens) 155 155 GSHMAARTDNSIVVNAPFELVWDVTNDIEAWPELFSEYAEAEILRQDGDGFDFRLKTRPDANGRVWEWVSHRVPDKGSRTVRAHRVETGPFAYMNLHWTYRAVAGGTEMRWVQEFDMKPGAPFDNAHMTAHLNTTTRANMERIKKIIEDRHREGQ GSHMAARTDNSIVVNAPFELVWDVTNDIEAWPELFSEYAEAEILRQDGDGFDFRLKTRPDANGRVWEWVSHRVPDKGSRTVRAHRVETGPFAYMNLHWTYRAVAGGTEMRWVQEFDMKPGAPFDNAHMTAHLNTTTRANMERIKKIIEDRHREGQ 2rfg-a1-m1-cA_2rfg-a1-m1-cD Crystal structure of dihydrodipicolinate synthase from Hahella chejuensis at 1.5A resolution Q2S9K4 Q2S9K4 1.5 X-RAY DIFFRACTION 110 1.0 158327 (Hahella chejuensis) 158327 (Hahella chejuensis) 289 289 2rfg-a1-m1-cC_2rfg-a1-m1-cB MFRGSLIAMITPFINGQVDEKALAGLVDWQIKHGAHGLVPVGTTGESPTLTEEEHKRVVALVAEQAQGRVPVIAGAGSNNPVEAVRYAQHAQQAGADAVLCVAGYYNRPSQEGLYQHFKMVHDAIDIPIIVYNIPPRAVVDIKPETMARLAALPRIVGVKDATTDLARISRERMLINKPFSFLSGDDMTAIAYNASGGQGCISVSANIAPALYGQMQTATLQGDFREALRIHDLLAPLHEALFREPSPAGAKYAASLLGLCNEECRLPIVPLSEQTKSDIKNIINELYR MFRGSLIAMITPFINGQVDEKALAGLVDWQIKHGAHGLVPVGTTGESPTLTEEEHKRVVALVAEQAQGRVPVIAGAGSNNPVEAVRYAQHAQQAGADAVLCVAGYYNRPSQEGLYQHFKMVHDAIDIPIIVYNIPPRAVVDIKPETMARLAALPRIVGVKDATTDLARISRERMLINKPFSFLSGDDMTAIAYNASGGQGCISVSANIAPALYGQMQTATLQGDFREALRIHDLLAPLHEALFREPSPAGAKYAASLLGLCNEECRLPIVPLSEQTKSDIKNIINELYR 2rfg-a1-m1-cC_2rfg-a1-m1-cD Crystal structure of dihydrodipicolinate synthase from Hahella chejuensis at 1.5A resolution Q2S9K4 Q2S9K4 1.5 X-RAY DIFFRACTION 73 1.0 158327 (Hahella chejuensis) 158327 (Hahella chejuensis) 289 289 2rfg-a1-m1-cA_2rfg-a1-m1-cB MFRGSLIAMITPFINGQVDEKALAGLVDWQIKHGAHGLVPVGTTGESPTLTEEEHKRVVALVAEQAQGRVPVIAGAGSNNPVEAVRYAQHAQQAGADAVLCVAGYYNRPSQEGLYQHFKMVHDAIDIPIIVYNIPPRAVVDIKPETMARLAALPRIVGVKDATTDLARISRERMLINKPFSFLSGDDMTAIAYNASGGQGCISVSANIAPALYGQMQTATLQGDFREALRIHDLLAPLHEALFREPSPAGAKYAASLLGLCNEECRLPIVPLSEQTKSDIKNIINELYR MFRGSLIAMITPFINGQVDEKALAGLVDWQIKHGAHGLVPVGTTGESPTLTEEEHKRVVALVAEQAQGRVPVIAGAGSNNPVEAVRYAQHAQQAGADAVLCVAGYYNRPSQEGLYQHFKMVHDAIDIPIIVYNIPPRAVVDIKPETMARLAALPRIVGVKDATTDLARISRERMLINKPFSFLSGDDMTAIAYNASGGQGCISVSANIAPALYGQMQTATLQGDFREALRIHDLLAPLHEALFREPSPAGAKYAASLLGLCNEECRLPIVPLSEQTKSDIKNIINELYR 2rfm-a3-m2-cA_2rfm-a3-m2-cB Structure of a Thermophilic Ankyrin Repeat Protein Q978J0 Q978J0 1.65 X-RAY DIFFRACTION 24 1.0 50339 (Thermoplasma volcanium) 50339 (Thermoplasma volcanium) 183 184 2rfm-a3-m1-cA_2rfm-a3-m1-cB IVEKIKDEKSINQNLDFLRNYRDSYNRTPLMVACMLGMENAIDKLVENFDKLEDKDIEGSTALIWAVKNNRLGIAEKLLSKGSNVNTKDFSGKTPLMWSIIFGYSEMSYFLLEHGANVNDRNLEGETPLIVASKYGRSEIVKKLLELGADISARDLTGLTAEASARIFGRQEVIKIFTEVRRA EIVEKIKDEKSINQNLDFLRNYRDSYNRTPLMVACMLGMENAIDKLVENFDKLEDKDIEGSTALIWAVKNNRLGIAEKLLSKGSNVNTKDFSGKTPLMWSIIFGYSEMSYFLLEHGANVNDRNLEGETPLIVASKYGRSEIVKKLLELGADISARDLTGLTAEASARIFGRQEVIKIFTEVRRA 2rfm-a4-m2-cA_2rfm-a4-m1-cB Structure of a Thermophilic Ankyrin Repeat Protein Q978J0 Q978J0 1.65 X-RAY DIFFRACTION 32 1.0 50339 (Thermoplasma volcanium) 50339 (Thermoplasma volcanium) 183 184 2rfm-a3-m1-cA_2rfm-a3-m2-cB 2rfm-a3-m2-cA_2rfm-a3-m1-cB IVEKIKDEKSINQNLDFLRNYRDSYNRTPLMVACMLGMENAIDKLVENFDKLEDKDIEGSTALIWAVKNNRLGIAEKLLSKGSNVNTKDFSGKTPLMWSIIFGYSEMSYFLLEHGANVNDRNLEGETPLIVASKYGRSEIVKKLLELGADISARDLTGLTAEASARIFGRQEVIKIFTEVRRA EIVEKIKDEKSINQNLDFLRNYRDSYNRTPLMVACMLGMENAIDKLVENFDKLEDKDIEGSTALIWAVKNNRLGIAEKLLSKGSNVNTKDFSGKTPLMWSIIFGYSEMSYFLLEHGANVNDRNLEGETPLIVASKYGRSEIVKKLLELGADISARDLTGLTAEASARIFGRQEVIKIFTEVRRA 2rfq-a1-m1-cC_2rfq-a1-m1-cD Crystal structure of 3-HSA hydroxylase from Rhodococcus sp. RHA1 Q0S811 Q0S811 1.65 X-RAY DIFFRACTION 47 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 370 371 2rfq-a1-m1-cB_2rfq-a1-m1-cA HDSHEVQRLDALLPTLRERAQETEDLRRIPDDSKALQETGFFRLLQPEQWGGYQADPVLFYSAVRKIASACGSTGWVSSIIGVHNWHLALFSQQAQEDVWGNDTDVRISSSYAPGAGQVVDGGYTVNGAWAWSSGCDHASWAVLGGPVIKDGRPVDFVSFLIPREDYRIDDVWNVVGLRGTGSNTVVVEDVFVPTHRVLSFKASNLTAPGLERNTAPVYKPWGTIHPTTISAPIVGAYGAYDAHVEHQGKRVDDPFAKVRIAEASSDIDAAWRQLSGNVADEYALLVAGEEVPFELRLRARRDQVRATGRAISSIDKLFESSGATALANGTPLQRFWRDAHAGRVHAANDPERAYVYGTGEFGLPITDTV HDSHEVQRLDALLPTLRERAQETEDLRRIPDDSKALQETGFFRLLQPEQWGGYQADPVLFYSAVRKIASACGSTGWVSSIIGVHNWHLALFSQQAQEDVWGNDTDVRISSSYAPGAGQVVDGGYTVNGAWAWSSGCDHASWAVLGGPVIKDGRPVDFVSFLIPREDYRIDDVWNVVGLRGTGSNTVVVEDVFVPTHRVLSFKASNLTAPGLERNTAPVYKPWGTIHPTTISAPIVGAYGAYDAHVEHQGKRVRDDPFAKVRIAEASSDIDAAWRQLSGNVADEYALLVAGEEVPFELRLRARRDQVRATGRAISSIDKLFESSGATALANGTPLQRFWRDAHAGRVHAANDPERAYVYGTGEFGLPITDTV 2rfq-a1-m1-cD_2rfq-a1-m1-cA Crystal structure of 3-HSA hydroxylase from Rhodococcus sp. RHA1 Q0S811 Q0S811 1.65 X-RAY DIFFRACTION 107 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 371 380 2rfq-a1-m1-cC_2rfq-a1-m1-cB HDSHEVQRLDALLPTLRERAQETEDLRRIPDDSKALQETGFFRLLQPEQWGGYQADPVLFYSAVRKIASACGSTGWVSSIIGVHNWHLALFSQQAQEDVWGNDTDVRISSSYAPGAGQVVDGGYTVNGAWAWSSGCDHASWAVLGGPVIKDGRPVDFVSFLIPREDYRIDDVWNVVGLRGTGSNTVVVEDVFVPTHRVLSFKASNLTAPGLERNTAPVYKPWGTIHPTTISAPIVGAYGAYDAHVEHQGKRVRDDPFAKVRIAEASSDIDAAWRQLSGNVADEYALLVAGEEVPFELRLRARRDQVRATGRAISSIDKLFESSGATALANGTPLQRFWRDAHAGRVHAANDPERAYVYGTGEFGLPITDTV HDSHEVQRLDALLPTLRERAQETEDLRRIPDDSKALQETGFFRLLQPEQWGGYQADPVLFYSAVRKIASACGSTGWVSSIIGVHNWHLALFSQQAQEDVWGNDTDVRISSSYAPGAGQVVDGGYTVNGAWAWSSGCDHASWAVLGGPVIKDGRPVDFVSFLIPREDYRIDDVWNVVGLRGTGSNTVVVEDVFVPTHRVLSFKASNLTAPGLERNTAPVYKPWGTIHPTTISAPIVGAYGAYDAHVEHQGKRVRAAFAGEKAKDDPFAKVRIAEASSDIDAAWRQLSGNVADEYALLVAGEEVPFELRLRARRDQVRATGRAISSIDKLFESSGATALANGTPLQRFWRDAHAGRVHAANDPERAYVYGTGEFGLPITDTV 2rfr-a1-m2-cA_2rfr-a1-m3-cA Crystal structure of an ntf2-like protein with a cystatin-like fold (saro_3722) from novosphingobium aromaticivorans dsm at 1.16 A resolution A4XF70 A4XF70 1.16 X-RAY DIFFRACTION 99 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 152 152 2rfr-a1-m1-cA_2rfr-a1-m2-cA 2rfr-a1-m1-cA_2rfr-a1-m3-cA GDDLTNLAARLRLLEDREEIRELIARYGPLADSGDAEALSELWVEDGEYAVVGFATAKGRAAIAALIDGQTHRALADGCAHFLGPATVTVEGDTATARCHSVVFRCVSGTFGSHRVSANRWTFRRTPAGWRAVRRENALLDGSAAARALLQF GDDLTNLAARLRLLEDREEIRELIARYGPLADSGDAEALSELWVEDGEYAVVGFATAKGRAAIAALIDGQTHRALADGCAHFLGPATVTVEGDTATARCHSVVFRCVSGTFGSHRVSANRWTFRRTPAGWRAVRRENALLDGSAAARALLQF 2rg1-a1-m1-cB_2rg1-a1-m2-cB Crystal structure of E. coli WrbA apoprotein P0A8G6 P0A8G6 1.85 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 166 166 2rg1-a1-m1-cA_2rg1-a1-m2-cA AKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGTGGGQEQTITSTWTTLAHHGMVIVPIGYAGTPYGATTIAQPSQEELSIARYQGEYVAGLAVKLNG AKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGTGGGQEQTITSTWTTLAHHGMVIVPIGYAGTPYGATTIAQPSQEELSIARYQGEYVAGLAVKLNG 2rg1-a1-m2-cB_2rg1-a1-m1-cA Crystal structure of E. coli WrbA apoprotein P0A8G6 P0A8G6 1.85 X-RAY DIFFRACTION 41 0.982 562 (Escherichia coli) 562 (Escherichia coli) 166 168 2rg1-a1-m1-cB_2rg1-a1-m2-cA AKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGTGGGQEQTITSTWTTLAHHGMVIVPIGYAGTPYGATTIAQPSQEELSIARYQGEYVAGLAVKLNG AKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETGKTQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGGGQEQTITSTWTTLAHHGMVIVPIGYAGTPYGATTIASRQPSQEELSIARYQGEYVAGLAVKLN 2rg1-a1-m2-cB_2rg1-a1-m2-cA Crystal structure of E. coli WrbA apoprotein P0A8G6 P0A8G6 1.85 X-RAY DIFFRACTION 69 0.982 562 (Escherichia coli) 562 (Escherichia coli) 166 168 2rg1-a1-m1-cB_2rg1-a1-m1-cA AKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGTGGGQEQTITSTWTTLAHHGMVIVPIGYAGTPYGATTIAQPSQEELSIARYQGEYVAGLAVKLNG AKVLVLYYSMYGHIETMARAVAEGASKVDGAEVVVKRVPETGKTQTAPVATPQELADYDAIIFGTPTRFGNMSGQMRTFLDQTGGLWASGALYGKLASVFSSTGGGQEQTITSTWTTLAHHGMVIVPIGYAGTPYGATTIASRQPSQEELSIARYQGEYVAGLAVKLN 2rg4-a1-m1-cA_2rg4-a1-m2-cB Crystal structure of the uncharacterized protein Q2CBJ1_9RHOB from Oceanicola granulosus HTCC2516 Q2CBJ1 Q2CBJ1 1.9 X-RAY DIFFRACTION 14 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 206 206 2rg4-a1-m1-cB_2rg4-a1-m2-cA SLAQIKSLFATRLYHAPLSEHGPALDPAEFAASCYSIAEDDDAGQEWCEREGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFELDGKALRLEDIWINILPEGGVHGSHIHPHSVISGTTYVAMPEGTSALKLEDPRLPFMMAAPTRRKGAREELRTFRSVAPKVGDVLLWESWLRHEVPMNMAEEDRISVSFNYAW SLAQIKSLFATRLYHAPLSEHGPALDPAEFAASCYSIAEDDDAGQEWCEREGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFELDGKALRLEDIWINILPEGGVHGSHIHPHSVISGTTYVAMPEGTSALKLEDPRLPFMMAAPTRRKGAREELRTFRSVAPKVGDVLLWESWLRHEVPMNMAEEDRISVSFNYAW 2rg4-a1-m1-cB_2rg4-a1-m2-cB Crystal structure of the uncharacterized protein Q2CBJ1_9RHOB from Oceanicola granulosus HTCC2516 Q2CBJ1 Q2CBJ1 1.9 X-RAY DIFFRACTION 166 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 206 206 2rg4-a1-m1-cA_2rg4-a1-m2-cA SLAQIKSLFATRLYHAPLSEHGPALDPAEFAASCYSIAEDDDAGQEWCEREGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFELDGKALRLEDIWINILPEGGVHGSHIHPHSVISGTTYVAMPEGTSALKLEDPRLPFMMAAPTRRKGAREELRTFRSVAPKVGDVLLWESWLRHEVPMNMAEEDRISVSFNYAW SLAQIKSLFATRLYHAPLSEHGPALDPAEFAASCYSIAEDDDAGQEWCEREGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFELDGKALRLEDIWINILPEGGVHGSHIHPHSVISGTTYVAMPEGTSALKLEDPRLPFMMAAPTRRKGAREELRTFRSVAPKVGDVLLWESWLRHEVPMNMAEEDRISVSFNYAW 2rg4-a1-m2-cA_2rg4-a1-m2-cB Crystal structure of the uncharacterized protein Q2CBJ1_9RHOB from Oceanicola granulosus HTCC2516 Q2CBJ1 Q2CBJ1 1.9 X-RAY DIFFRACTION 62 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 206 206 2rg4-a1-m1-cA_2rg4-a1-m1-cB SLAQIKSLFATRLYHAPLSEHGPALDPAEFAASCYSIAEDDDAGQEWCEREGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFELDGKALRLEDIWINILPEGGVHGSHIHPHSVISGTTYVAMPEGTSALKLEDPRLPFMMAAPTRRKGAREELRTFRSVAPKVGDVLLWESWLRHEVPMNMAEEDRISVSFNYAW SLAQIKSLFATRLYHAPLSEHGPALDPAEFAASCYSIAEDDDAGQEWCEREGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFELDGKALRLEDIWINILPEGGVHGSHIHPHSVISGTTYVAMPEGTSALKLEDPRLPFMMAAPTRRKGAREELRTFRSVAPKVGDVLLWESWLRHEVPMNMAEEDRISVSFNYAW 2rg7-a2-m1-cB_2rg7-a2-m1-cD Apo- Crystal Structure of a Periplasmic Heme Binding Protein from Shigella dysenteriae O70018 O70018 2.05 X-RAY DIFFRACTION 134 1.0 622 (Shigella dysenteriae) 622 (Shigella dysenteriae) 255 255 2r7a-a1-m1-cA_2r7a-a1-m1-cC 2r7a-a2-m1-cD_2r7a-a2-m1-cB 2rg7-a1-m1-cA_2rg7-a1-m1-cC AERIVVAGGSLTELIYAMGAGERVVGVDETTSYPPETAKLPHIGYWKQLSSEGILSLRPDSVITWQDAGPQIVLDQLRAQKVNVVTLPRVPATLEQMYANIRQLAKTLQVPEQGDALVTQINQRLERVQQNVAAKKAPVKAMFILSAGGSAPQVAGKGSVADAILSLAGAENVATHQQYKSYSAESLIAANPEVIVVTSQMVDGDINRLRSIAGITHTAAWKNQRIITVDQNLILGMGPRIADVVESLHQQLWPQ AERIVVAGGSLTELIYAMGAGERVVGVDETTSYPPETAKLPHIGYWKQLSSEGILSLRPDSVITWQDAGPQIVLDQLRAQKVNVVTLPRVPATLEQMYANIRQLAKTLQVPEQGDALVTQINQRLERVQQNVAAKKAPVKAMFILSAGGSAPQVAGKGSVADAILSLAGAENVATHQQYKSYSAESLIAANPEVIVVTSQMVDGDINRLRSIAGITHTAAWKNQRIITVDQNLILGMGPRIADVVESLHQQLWPQ 2rgh-a1-m1-cA_2rgh-a1-m2-cA Structure of Alpha-Glycerophosphate Oxidase from Streptococcus sp.: A Template for the Mitochondrial Alpha-Glycerophosphate Dehydrogenase D0VWY7 D0VWY7 2.3 X-RAY DIFFRACTION 37 1.0 1306 (Streptococcus sp.) 1306 (Streptococcus sp.) 534 534 2rgo-a1-m2-cB_2rgo-a1-m1-cA CFSNKTRQDSIQKQQEELDLLIIGGGITGAGVAVQAAASGIKTGLIEQDFAEGTSSRSTKLVHGGIRYLKTFDVEVVADTVGERAVVQGIAPHIPKPDPLLPIYEDEGATTFNFSVKVADLYDKLANVTGTKYENYTLTPEEVLEREPFLKKEGLKGAGVYLDFRNNDARLVIDNIKKAAEDGAYLVSKKAVGFLYEGDQIVGVKARDLLTDEVIEIKAKLVINTSGPWVDKVRNLNFTRPVSPKRPTKGIHLVVDAKKLPVPQPTYFDTGKQDGRVFAIPRENKTYFGTTDTDYQGDFTDPKVTQEDVDYLLDVINHRYPEANITLADIEASWAGLRPLLIGSSLEREPDGLLTLSGGKITDYRKAEGALRLIRQLLKEEYGIETKEIDSKKYQISGGNFDPTKLEETVTELAKEGVAAGLEEEDATYIADFYGTNARRIFELAKEAPYPGLSLAESARLRYGLEEEVLAPGDYLIRRTNHLLFERDQLDEIKQPVIDAIAEYFGWTEEEKAQQTKRLEALIAESDLRELKGE CFSNKTRQDSIQKQQEELDLLIIGGGITGAGVAVQAAASGIKTGLIEQDFAEGTSSRSTKLVHGGIRYLKTFDVEVVADTVGERAVVQGIAPHIPKPDPLLPIYEDEGATTFNFSVKVADLYDKLANVTGTKYENYTLTPEEVLEREPFLKKEGLKGAGVYLDFRNNDARLVIDNIKKAAEDGAYLVSKKAVGFLYEGDQIVGVKARDLLTDEVIEIKAKLVINTSGPWVDKVRNLNFTRPVSPKRPTKGIHLVVDAKKLPVPQPTYFDTGKQDGRVFAIPRENKTYFGTTDTDYQGDFTDPKVTQEDVDYLLDVINHRYPEANITLADIEASWAGLRPLLIGSSLEREPDGLLTLSGGKITDYRKAEGALRLIRQLLKEEYGIETKEIDSKKYQISGGNFDPTKLEETVTELAKEGVAAGLEEEDATYIADFYGTNARRIFELAKEAPYPGLSLAESARLRYGLEEEVLAPGDYLIRRTNHLLFERDQLDEIKQPVIDAIAEYFGWTEEEKAQQTKRLEALIAESDLRELKGE 2rgi-a1-m1-cB_2rgi-a1-m1-cA Crystal structure of Ca2+-free S100A2 at 1.6 A resolution P29034 P29034 1.6 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 93 SSSLEQALAVLVTTFHKYSSQEGDKFKLSKGEMKELLHKELPSFVGEKVDEEGLKKLMGSLDENSDQQVDFQEYAVFLALITVMSNDFFQGS MSSSLEQALAVLVTTFHKYSSQEGDKFKLSKGEMKELLHKELPSFVGEKVDEEGLKKLMGSLDENSDQQVDFQEYAVFLALITVMSNDFFQGS 2rgq-a1-m1-cB_2rgq-a1-m1-cC Crystal structure of a protein of unknown function with a cystatin-like fold (npun_r3134) from nostoc punctiforme pcc 73102 at 1.80 A resolution 1.8 X-RAY DIFFRACTION 57 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 129 129 2rgq-a1-m1-cA_2rgq-a1-m1-cB 2rgq-a1-m1-cA_2rgq-a1-m1-cC ELTALDKLEIELAARFESLDKEDVENYLATFASDGALQGFWGIAKGKEELRQGFYALDTFARGKRHCSSNAIIQGNYDEATESYLTVVNREDLNRAGSAFVKDQVRKINGKWYLILRQIEVDPSLPLLQ ELTALDKLEIELAARFESLDKEDVENYLATFASDGALQGFWGIAKGKEELRQGFYALDTFARGKRHCSSNAIIQGNYDEATESYLTVVNREDLNRAGSAFVKDQVRKINGKWYLILRQIEVDPSLPLLQ 2rgr-a1-m1-cA_2rgr-a1-m2-cA Topoisomerase IIA bound to G-segment DNA P06786 P06786 3 X-RAY DIFFRACTION 153 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 721 721 RKSRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREASADQILKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDQDHDGSHIKGLIINFLESSFLGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYKGLGTSLAQEVREYFSNLDRHLKIFHSLQGNDKDYIDLAFSKKKADDRKEWLRQYEPGTVLDPTLKEIPISDFINKELILFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARYIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSLYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEAR RKSRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREASADQILKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDQDHDGSHIKGLIINFLESSFLGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYKGLGTSLAQEVREYFSNLDRHLKIFHSLQGNDKDYIDLAFSKKKADDRKEWLRQYEPGTVLDPTLKEIPISDFINKELILFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARYIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSLYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEAR 2rgt-a1-m1-cA_2rgt-a1-m2-cA Crystal Structure of Lhx3 LIM domains 1 and 2 with the binding domain of Isl1 P61372 P61372 2.05 X-RAY DIFFRACTION 92 1.0 10090 (Mus musculus) 10090 (Mus musculus) 148 148 PMCAGCDQHILDRFILKALDRHWHSKCLKCSDCHVPLAERCFSRGESVYCKDDFFKRFGTKCAACQLGIPPTQVVRRAQDFVYHLHCFACVVCKRQLATGDEFYLMEDSRLVCKADYETAKQGGTPMVAASPERHDGGLQANPVEVQS PMCAGCDQHILDRFILKALDRHWHSKCLKCSDCHVPLAERCFSRGESVYCKDDFFKRFGTKCAACQLGIPPTQVVRRAQDFVYHLHCFACVVCKRQLATGDEFYLMEDSRLVCKADYETAKQGGTPMVAASPERHDGGLQANPVEVQS 2rgw-a1-m1-cB_2rgw-a1-m1-cF Catalytic Subunit of M. jannaschii Aspartate Transcarbamoylase Q58976 Q58976 2.8 X-RAY DIFFRACTION 11 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 299 299 2rgw-a1-m1-cA_2rgw-a1-m1-cD 2rgw-a1-m1-cC_2rgw-a1-m1-cE 3e2p-a5-m1-cA_3e2p-a5-m1-cD 3e2p-a5-m1-cB_3e2p-a5-m1-cF 3e2p-a6-m1-cJ_3e2p-a6-m1-cN MKHLISMKDIGKEEILEILDEARKMEELLNTKRPLKLLEGKILATVFYEPSTRTRLSFETAMKRLGGEVITMTDLKSSSVAKGESLIDTIRVISGYADIIVLRHPSEGAARLASEYSQVPIINAGQHPTQTLLDLYTIMREIGRIDGIKIAFVGDLKYGRTVHSLVYALSLFENVEMYFVSPKELRLPKDIIEDLKAKNIKFYEKESLDDLDDDIDVLYVTRIQKERFPDPNEYEKVKGSYKIKREYVEGKKFIIMHPLPRVDEIDYDVDDLPQAKYFKQSFYGIPVRMAILKKLIEDN MKHLISMKDIGKEEILEILDEARKMEELLNTKRPLKLLEGKILATVFYEPSTRTRLSFETAMKRLGGEVITMTDLKSSSVAKGESLIDTIRVISGYADIIVLRHPSEGAARLASEYSQVPIINAGQHPTQTLLDLYTIMREIGRIDGIKIAFVGDLKYGRTVHSLVYALSLFENVEMYFVSPKELRLPKDIIEDLKAKNIKFYEKESLDDLDDDIDVLYVTRIQKERFPDPNEYEKVKGSYKIKREYVEGKKFIIMHPLPRVDEIDYDVDDLPQAKYFKQSFYGIPVRMAILKKLIEDN 2rgy-a1-m1-cA_2rgy-a1-m2-cA Crystal structure of transcriptional regulator of LacI family from Burkhoderia phymatum B2JNW3 B2JNW3 2.05 X-RAY DIFFRACTION 106 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 271 271 LGIIGLFVPTFFGSYYGTILKQTDLELRAVHRHVVVATGCGESTPREQALEAVRFLIGRDCDGVVVISHDLHDEDLDELHRHPKVFLNRAFDALPDASFCPDHRRGGELAAATLIEHGHRKLAVISGPFTASDNVERLDGFFDELARHGIARDSVPLIESDFSPEGGYAATCQLLESKAPFTGLFCANDTAVSALARFQQLGISVPGDVSVIGYDDDYSAAYAAPALTSVHIPTAELTQNAVRWLINQCYGTKWEIFREFPVTVSRASVAR LGIIGLFVPTFFGSYYGTILKQTDLELRAVHRHVVVATGCGESTPREQALEAVRFLIGRDCDGVVVISHDLHDEDLDELHRHPKVFLNRAFDALPDASFCPDHRRGGELAAATLIEHGHRKLAVISGPFTASDNVERLDGFFDELARHGIARDSVPLIESDFSPEGGYAATCQLLESKAPFTGLFCANDTAVSALARFQQLGISVPGDVSVIGYDDDYSAAYAAPALTSVHIPTAELTQNAVRWLINQCYGTKWEIFREFPVTVSRASVAR 2rh0-a2-m1-cC_2rh0-a2-m1-cD Crystal structure of NudC domain-containing protein 2 (13542905) from Mus musculus at 1.95 A resolution Q9CQ48 Q9CQ48 1.95 X-RAY DIFFRACTION 320 1.0 10090 (Mus musculus) 10090 (Mus musculus) 129 130 2rh0-a1-m1-cB_2rh0-a1-m1-cA EERSGVVPCGTPWGQWYQTLEEVFIEVQVPPGTRAQDIQCGLQSRHVALAVGGREILKGKLFDSTIADEGTWTLEDRKVRIVLTKTKRDAANCWTSLLESEYAADPWVQDQQRKLTLERFQKENPGFDF EERSGVVPCGTPWGQWYQTLEEVFIEVQVPPGTRAQDIQCGLQSRHVALAVGGREILKGKLFDSTIADEGTWTLEDRKVRIVLTKTKRDAANCWTSLLESEYAADPWVQDQQRKLTLERFQKENPGFDFS 2rh7-a2-m1-cC_2rh7-a2-m1-cD Crystal Structures of the Luciferase and Green Fluorescent Protein from Renilla Reniformis Q963I9 Q963I9 1.5 X-RAY DIFFRACTION 67 1.0 6136 (Renilla reniformis) 6136 (Renilla reniformis) 211 211 2rh7-a1-m1-cA_2rh7-a1-m1-cB GLKEVMPTKINLEGLVGDHAFSMEGVGEGNILEGTQEVKISVTKGAPLPFAFDIVSVAFNRAYTGYPEEISDYFLQSFPEGFTYERNIRYQDGGTAIVKSDISLEGKFIVNVDFKAKDLRRMGPVMQQDIVGMQPSYESMYTNVTSVIGECIIAFKLQTGKHFTYHMRTVYKSKKPVETMPLYHFIQHRLVKTNVYVVQHETAIAAHSTIK GLKEVMPTKINLEGLVGDHAFSMEGVGEGNILEGTQEVKISVTKGAPLPFAFDIVSVAFNRAYTGYPEEISDYFLQSFPEGFTYERNIRYQDGGTAIVKSDISLEGKFIVNVDFKAKDLRRMGPVMQQDIVGMQPSYESMYTNVTSVIGECIIAFKLQTGKHFTYHMRTVYKSKKPVETMPLYHFIQHRLVKTNVYVVQHETAIAAHSTIK 2rhe-a1-m1-cA_2rhe-a1-m2-cA STRUCTURE OF A NOVEL BENCE-JONES PROTEIN (RHE) FRAGMENT AT 1.6 ANGSTROMS RESOLUTION 1.6 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 ESVLTQPPSASGTPGQRVTISCTGSATDIGSNSVIWYQQVPGKAPKLLIYYNDLLPSGVSDRFSASKSGTSASLAISGLESEDEADYYCAAWNDSLDEPGFGGGTKLTVLGQPK ESVLTQPPSASGTPGQRVTISCTGSATDIGSNSVIWYQQVPGKAPKLLIYYNDLLPSGVSDRFSASKSGTSASLAISGLESEDEADYYCAAWNDSLDEPGFGGGTKLTVLGQPK 2rhj-a1-m1-cA_2rhj-a1-m2-cA Synthetic Gene Encoded Bacillus Subtilis FtsZ with Two Sulfate Ions and Sodium Ion in the Nucleotide Pocket P17865 P17865 1.761 X-RAY DIFFRACTION 61 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 311 311 ASIKVIGVGGGGNNAVNRMIENEVQGVEYIAVNTDAQALNLSKAEVKMQIGAKLTRGLGAGANPEVGKKAAEESKEQIEEALKGADMVFVTAGMGGGTGTGAAPVIAQIAKDLGALTVGVVTRPFTFEGRKRQLQAAGGISAMKEAVDTLIVIPNDRILEIVDKNTPMLEAFREADNVLRQGVQGISDLIATPGLINLDFADVKTIMSNKGSALMGIGIATGENRAAEAAKKAISSPLLEAAIDGAQGVLMNITGGTNLSLYEVQEAADIVASASDQDVNMIFGSVINENLKDEIVVTVIATGFLENLYFQ ASIKVIGVGGGGNNAVNRMIENEVQGVEYIAVNTDAQALNLSKAEVKMQIGAKLTRGLGAGANPEVGKKAAEESKEQIEEALKGADMVFVTAGMGGGTGTGAAPVIAQIAKDLGALTVGVVTRPFTFEGRKRQLQAAGGISAMKEAVDTLIVIPNDRILEIVDKNTPMLEAFREADNVLRQGVQGISDLIATPGLINLDFADVKTIMSNKGSALMGIGIATGENRAAEAAKKAISSPLLEAAIDGAQGVLMNITGGTNLSLYEVQEAADIVASASDQDVNMIFGSVINENLKDEIVVTVIATGFLENLYFQ 2rhk-a2-m2-cD_2rhk-a2-m1-cC Crystal structure of influenza A NS1A protein in complex with F2F3 fragment of human cellular factor CPSF30, Northeast Structural Genomics Targets OR8C and HR6309A O95639 O95639 1.95 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 63 SHMSGEKTVVCKHWLRGLCKKGDQCEFLHEYDMTKMSECYFYSKFGECSNKECPFLHIDP HHSHMSGEKTVVCKHWLRGLCKKGDQCEFLHEYDMTKMSECYFYSKFGECSNKECPFLHIDPE 2rhk-a3-m1-cD_2rhk-a3-m1-cC Crystal structure of influenza A NS1A protein in complex with F2F3 fragment of human cellular factor CPSF30, Northeast Structural Genomics Targets OR8C and HR6309A O95639 O95639 1.95 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 63 2rhk-a1-m1-cD_2rhk-a1-m1-cC 2rhk-a2-m1-cD_2rhk-a2-m1-cC SHMSGEKTVVCKHWLRGLCKKGDQCEFLHEYDMTKMSECYFYSKFGECSNKECPFLHIDP HHSHMSGEKTVVCKHWLRGLCKKGDQCEFLHEYDMTKMSECYFYSKFGECSNKECPFLHIDPE 2rhm-a2-m1-cD_2rhm-a2-m1-cC Crystal structure of a putative kinase (caur_3907) from chloroflexus aurantiacus j-10-fl at 1.70 A resolution A9WDG5 A9WDG5 1.7 X-RAY DIFFRACTION 61 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 179 183 2rhm-a1-m1-cA_2rhm-a1-m1-cB QTPALIIVTGHPATGKTTLSQALATGLRLPLLSKDAFKEVFDGLGWSDREWSRRVGATAILYHTAATILQSGQSLIESNFRVDLDTERQNLHTIAPFTPIQIRCVASGDVLVERILSRIAQGARHPGHCDDRSPADLELVRSRGDIPPLPLGGPLLTVDTTFPEQIDNAIVQWVRQHLQ GQTPALIIVTGHPATGKTTLSQALATGLRLPLLSKDAFKEVFDGLGWSDREWSRRVGATAILYHTAATILQSGQSLIESNFRVDLDTERQNLHTIAPFTPIQIRCVASGDVLVERILSRIAQGARHPGHCDDRSPADLELVRSRGDIPPLPLGGPLLTVDTTFPEQIDNAIVQWVRQHLQSGT 2rhs-a1-m1-cA_2rhs-a1-m1-cC PheRS from Staphylococcus haemolyticus- rational protein engineering and inhibitor studies Q4L5E3 Q4L5E3 2.2 X-RAY DIFFRACTION 11 1.0 1283 (Staphylococcus haemolyticus) 1283 (Staphylococcus haemolyticus) 249 271 2rhq-a1-m1-cA_2rhq-a1-m2-cA NQQLAEETIDVTLPSRQISIGSKHPLTRTVEEIEDLFLGLGYEIVDGYEVEQDYYNFEALNLPKSHPARDMQDSFYITDEILMRTHTSPVQARTMEKRNGQGPVKIICPGKVYRRDSDDATHSHQFTQIEGLVVDKNIKMSDLKGTLELVAKKLFGADREIRLRPSYFPFTEPSVEVDVSWIEILGAGMVHPNVLEMAGFDSNEYSGFAFGMGPDRIAMLKYGIEDIRYFYTNDVRFLEQFKAVEDRGE ELMEKLNQQLAEETIDVTLPSRQISIGSKHPLTRTVEEIEDLFLGLGYEIVDGYEVEQDYYNFEALNLPKSHPARDMQDSFYITDEILMRTHTSPVQARTMEKRNGQGPVKIICPGKVYRRDSDDATHSHQFTQIEGLVVDKNIKMSDLKGTLELVAKKLFGADREIRLRPSYFPFTEPSVEVDVSCFKCKGKGCNVCKHTGWIEILGAGMVHPNVLEMAGFDSNEYSGFAFGMGPDRIAMLKYGIEDIRYFYTNDVRFLEQFKAVEDRGE 2rhs-a1-m1-cD_2rhs-a1-m1-cB PheRS from Staphylococcus haemolyticus- rational protein engineering and inhibitor studies Q4L5E4 Q4L5E4 2.2 X-RAY DIFFRACTION 46 0.992 1283 (Staphylococcus haemolyticus) 1283 (Staphylococcus haemolyticus) 785 786 2rhq-a1-m1-cB_2rhq-a1-m2-cB MLISNEWLKDYVDAGVKVEDLAERITRTGIEVDNMIDYSKDIKNLVVGYIQSKEKLNICQVDIGEEEPVQIVCGAPNVDAGQHVIVAKVGGRLPGGIKIKRAKGERSEGMICSLQEIGISSNVVPIFVFPTEVEPGTDALTALYLNDQVMEFDLTPNRADALSMVGTAYEVAALYQTEMTKPETQSNETSESATNELSVTIDNPEKVPYYSARVVKNVSIEPSPIWVQARLIKAGIRPINNVVDISNYVLLEYGQPLHMFDQDHIGSKEIVVRQAKDEETMTTLDNNERKLVDTDIVISNGQEPIALAGVMGGDFSEVTEQTTNVVIEGAIFDPVSIRHTSRRLNLRSEASSRFEKGIATEFVDEAVDRACYLLQELASGEVLQDRVSSGDLGSFVTPIDITAEKVNKTIGFNLSNDEIQSIFRQLGFETTLKGETLTVNVPSRRKDITIKEDLIEEVARIYGYDEIPSSLPVFGEVTSGELTDRQHKTRTLKETLEGAGLNQAITYSLVSKDHAKDFALQERPTISLLMPMSEAHATLRQSLLPHLIEATAYNVARKNKDVRLYEIGRVFFGNGEGELPDEVEYLSGILTGEYVVNAWQGKKEEIDFFIAKGVVDRVAEKLNLEFSYKAGKIEGLHPGRTAIVSLGGAGIGFIGELHPQVAADNDLKRTYVFELNYDAMMQVAVGYINYEQIPKFPGVTRDIALEVNHDVPSSELKQIIHNNGEDILQSTLVFDVYEGEHLEKGKKSVAIRLNYLDTEDTLTDERVSKIHDKILEALQAQGATI MLISNEWLKDYVDAGVKVEDLAERITRTGIEVDNMIDYSKDIKNLVVGYIQSKEKNICQVDIGEEEPVQIVCGAPNVDAGQHVIVAKVGGRLPGGIKIKRAKERSEGMICSLQEIGISSNVVPKAYENGIFVFPTEVEPGTDALTALYLNDQVMEFDLTPNRADALSMVGTAYEVAALYQTEMTKPETQSNETSESATNELSVTIDNPEKVPYYSARVVKNVSIEPSPIWVQARLIKAGIRPINNVVDISNYVLLEYGQPLHMFDQDHIGSKEIVVRQAKDEETMTTLDNNERKLVDTDIVISNGQEPIALAGVMGGDFSEVTEQTTNVVIEGAIFDPVSIRHTSRRLNLRSEASSRFEKGIATEFVDEAVDRACYLLQELASGEVLQDRVSSGDLGSFVTPIDITAEKVNKTIGFNLSNDEIQSIFRQLGFETTLKGETLTVNVPSRRKDITIKEDLIEEVARIYGYDEIPSSLPVFGEVTSGELTDRQHKTRTLKETLEGAGLNQAITYSLVSKDHAKDFALQERPTISLLMPMSEAHATLRQSLLPHLIEATAYNVARKNKDVRLYEIGRVFFGNGEGELPDEVEYLSGILTGEYVVNAWQGKKEEIDFFIAKGVVDRVAEKLNLEFSYKAGKIEGLHPGRTAIVSLGGAGIGFIGELHPQVAADNDLKRTYVFELNYDAMMQVAVGYINYEQIPKFPGVTRDIALEVNHDVPSSELKQIIHNNGEDILQSTLVFDVYEGEHLEKGKKSVAIRLNYLDLTDERVSKIHDKILEALQAQGATIR 2rht-a1-m2-cA_2rht-a1-m4-cA Crystal Structure of the S112A mutant of a C-C hydrolase, BphD from Burkholderia xenovorans LB400, in complex with 3-Cl HOPDA P47229 P47229 1.7 X-RAY DIFFRACTION 25 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 283 283 2og1-a1-m1-cB_2og1-a1-m2-cA 2og1-a1-m2-cB_2og1-a1-m1-cA 2pu5-a1-m1-cB_2pu5-a1-m2-cA 2pu5-a1-m2-cB_2pu5-a1-m1-cA 2pu7-a1-m1-cA_2pu7-a1-m3-cA 2pu7-a1-m2-cA_2pu7-a1-m4-cA 2puh-a1-m1-cA_2puh-a1-m3-cA 2puh-a1-m2-cA_2puh-a1-m4-cA 2puj-a1-m1-cA_2puj-a1-m3-cA 2puj-a1-m2-cA_2puj-a1-m4-cA 2rht-a1-m1-cA_2rht-a1-m3-cA 2rhw-a1-m1-cA_2rhw-a1-m3-cA 2rhw-a1-m2-cA_2rhw-a1-m4-cA 2ri6-a1-m1-cA_2ri6-a1-m3-cA 2ri6-a1-m2-cA_2ri6-a1-m4-cA 3v1k-a1-m1-cB_3v1k-a1-m2-cA 3v1k-a1-m2-cB_3v1k-a1-m1-cA 3v1l-a1-m1-cA_3v1l-a1-m3-cA 3v1l-a1-m2-cA_3v1l-a1-m4-cA 3v1m-a1-m1-cA_3v1m-a1-m3-cA 3v1m-a1-m2-cA_3v1m-a1-m4-cA 3v1n-a1-m1-cA_3v1n-a1-m3-cA 3v1n-a1-m2-cA_3v1n-a1-m4-cA LTESSTSKFVKINEKGFSDFNIHYNEAGNGETVIMLHGGGPGAGGWSNYYRNVGPFVDAGYRVILKDSPGFNKSDAVVMDEQRGLVNARAVKGLMDALDIDRAHLVGNAMGGATALNFALEYPDRIGKLILMGPGGLGPSMFAPMPMEGIKLLFKLYAEPSYETLKQMLQVFLYDQSLITEELLQGRWEAIQRQPEHLKNFLISAQKAPLSTWDVTARLGEIKAKTFITWGRDDRFVPLDHGLKLLWNIDDARLHVFSKCGHWAQWEHADEFNRLVIDFLRHA LTESSTSKFVKINEKGFSDFNIHYNEAGNGETVIMLHGGGPGAGGWSNYYRNVGPFVDAGYRVILKDSPGFNKSDAVVMDEQRGLVNARAVKGLMDALDIDRAHLVGNAMGGATALNFALEYPDRIGKLILMGPGGLGPSMFAPMPMEGIKLLFKLYAEPSYETLKQMLQVFLYDQSLITEELLQGRWEAIQRQPEHLKNFLISAQKAPLSTWDVTARLGEIKAKTFITWGRDDRFVPLDHGLKLLWNIDDARLHVFSKCGHWAQWEHADEFNRLVIDFLRHA 2ria-a1-m1-cB_2ria-a1-m1-cC Crystal structure of the trimeric neck and carbohydrate recognition domain of human surfactant protein D in complex with D-glycero-D-manno-heptose P35247 P35247 1.8 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 1b08-a1-m1-cB_1b08-a1-m1-cA 1b08-a1-m1-cC_1b08-a1-m1-cA 1b08-a1-m1-cC_1b08-a1-m1-cB 1pw9-a1-m1-cA_1pw9-a1-m1-cB 1pw9-a1-m1-cC_1pw9-a1-m1-cA 1pw9-a1-m1-cC_1pw9-a1-m1-cB 1pwb-a1-m1-cA_1pwb-a1-m1-cB 1pwb-a1-m1-cC_1pwb-a1-m1-cA 1pwb-a1-m1-cC_1pwb-a1-m1-cB 2ggu-a1-m1-cA_2ggu-a1-m1-cB 2ggu-a1-m1-cA_2ggu-a1-m1-cC 2ggu-a1-m1-cB_2ggu-a1-m1-cC 2ggx-a1-m1-cA_2ggx-a1-m1-cB 2ggx-a1-m1-cA_2ggx-a1-m1-cC 2ggx-a1-m1-cB_2ggx-a1-m1-cC 2orj-a1-m1-cA_2orj-a1-m1-cB 2orj-a1-m1-cA_2orj-a1-m1-cC 2orj-a1-m1-cB_2orj-a1-m1-cC 2ork-a1-m1-cA_2ork-a1-m1-cB 2ork-a1-m1-cC_2ork-a1-m1-cA 2ork-a1-m1-cC_2ork-a1-m1-cB 2os9-a1-m1-cA_2os9-a1-m1-cB 2os9-a1-m1-cC_2os9-a1-m1-cA 2os9-a1-m1-cC_2os9-a1-m1-cB 2ria-a1-m1-cA_2ria-a1-m1-cB 2ria-a1-m1-cA_2ria-a1-m1-cC 2rib-a1-m1-cA_2rib-a1-m1-cB 2rib-a1-m1-cA_2rib-a1-m1-cC 2rib-a1-m1-cC_2rib-a1-m1-cB 2ric-a1-m1-cA_2ric-a1-m1-cC 2ric-a1-m1-cB_2ric-a1-m1-cA 2ric-a1-m1-cB_2ric-a1-m1-cC 2rid-a1-m1-cA_2rid-a1-m1-cB 2rid-a1-m1-cA_2rid-a1-m1-cC 2rid-a1-m1-cC_2rid-a1-m1-cB 2rie-a1-m1-cA_2rie-a1-m1-cB 2rie-a1-m1-cA_2rie-a1-m1-cC 2rie-a1-m1-cC_2rie-a1-m1-cB 3dbz-a1-m1-cA_3dbz-a1-m1-cB 3dbz-a1-m1-cC_3dbz-a1-m1-cA 3dbz-a1-m1-cC_3dbz-a1-m1-cB 3g81-a1-m1-cA_3g81-a1-m1-cB 3g81-a1-m1-cC_3g81-a1-m1-cA 3g81-a1-m1-cC_3g81-a1-m1-cB 3g83-a1-m1-cA_3g83-a1-m1-cB 3g83-a1-m1-cC_3g83-a1-m1-cA 3g83-a1-m1-cC_3g83-a1-m1-cB 3g84-a1-m1-cA_3g84-a1-m1-cB 3g84-a1-m1-cA_3g84-a1-m1-cC 3g84-a1-m1-cB_3g84-a1-m1-cC 3ikn-a1-m1-cA_3ikn-a1-m1-cB 3ikn-a1-m1-cA_3ikn-a1-m1-cC 3ikn-a1-m1-cB_3ikn-a1-m1-cC 3ikp-a1-m1-cA_3ikp-a1-m1-cB 3ikp-a1-m1-cC_3ikp-a1-m1-cA 3ikp-a1-m1-cC_3ikp-a1-m1-cB 3ikq-a1-m1-cA_3ikq-a1-m1-cB 3ikq-a1-m1-cC_3ikq-a1-m1-cA 3ikq-a1-m1-cC_3ikq-a1-m1-cB 3ikr-a1-m1-cA_3ikr-a1-m1-cC 3ikr-a1-m1-cB_3ikr-a1-m1-cA 3ikr-a1-m1-cB_3ikr-a1-m1-cC 4e52-a1-m1-cA_4e52-a1-m1-cB 4e52-a1-m1-cA_4e52-a1-m1-cC 4e52-a1-m1-cB_4e52-a1-m1-cC 4m17-a1-m1-cA_4m17-a1-m1-cB 4m17-a1-m1-cA_4m17-a1-m1-cC 4m17-a1-m1-cB_4m17-a1-m1-cC 4m17-a2-m1-cD_4m17-a2-m1-cE 4m17-a2-m1-cD_4m17-a2-m1-cF 4m17-a2-m1-cE_4m17-a2-m1-cF 4m17-a3-m1-cG_4m17-a3-m1-cH 4m17-a3-m1-cG_4m17-a3-m1-cI 4m17-a3-m1-cI_4m17-a3-m1-cH 4m17-a4-m1-cK_4m17-a4-m1-cJ 4m17-a4-m1-cL_4m17-a4-m1-cJ 4m17-a4-m1-cL_4m17-a4-m1-cK 4m18-a1-m1-cA_4m18-a1-m1-cB 4m18-a1-m1-cA_4m18-a1-m1-cC 4m18-a1-m1-cB_4m18-a1-m1-cC 4m18-a2-m1-cD_4m18-a2-m1-cE 4m18-a2-m1-cD_4m18-a2-m1-cF 4m18-a2-m1-cE_4m18-a2-m1-cF 4m18-a3-m1-cG_4m18-a3-m1-cH 4m18-a3-m1-cI_4m18-a3-m1-cG 4m18-a3-m1-cI_4m18-a3-m1-cH 4m18-a4-m1-cJ_4m18-a4-m1-cK 4m18-a4-m1-cJ_4m18-a4-m1-cL 4m18-a4-m1-cK_4m18-a4-m1-cL 5oxr-a1-m1-cA_5oxr-a1-m1-cB 5oxr-a1-m1-cA_5oxr-a1-m1-cC 5oxr-a1-m1-cC_5oxr-a1-m1-cB 5oxs-a1-m1-cA_5oxs-a1-m1-cB 5oxs-a1-m1-cA_5oxs-a1-m1-cC 5oxs-a1-m1-cB_5oxs-a1-m1-cC QVEALQGQVQHLQAAFSQYKKVELFPNGQSVGEKIFKTAGFVKPFTEAQLLCTQAGGQLASPRSAAENAALQQLVVAKNEAAFLSMTDSKTEGKFTYPTGESLVYSNWAPGEPNDDGGSEDCVEIFTNGKWNDRACGEKRLVVCEF QVEALQGQVQHLQAAFSQYKKVELFPNGQSVGEKIFKTAGFVKPFTEAQLLCTQAGGQLASPRSAAENAALQQLVVAKNEAAFLSMTDSKTEGKFTYPTGESLVYSNWAPGEPNDDGGSEDCVEIFTNGKWNDRACGEKRLVVCEF 2rif-a3-m1-cC_2rif-a3-m1-cA CBS domain protein PAE2072 from Pyrobaculum aerophilum complexed with AMP Q8ZVX8 Q8ZVX8 2.35 X-RAY DIFFRACTION 32 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 128 131 IRTSELLKRPPVSLPETATIREVATELAKNRVGLAVLTARDNPKRPVAVVSERDILRAVAQRLDLDGPAMPIANSPITVLDTDPVHVAAEKMRRHNIRHVVVVNKNGELVGVLSIRDLCFERAILLEL IRTSELLKRPPVSLPETATIREVATELAKNRVGLAVLTARDNPKRPVAVVSERDILRAVAQRLDLDGPAMPIANSPITVLDTDPVHVAAEKMRRHNIRHVVVVNKNGELVGVLSIRDLCFERAILLELATA 2rif-a3-m1-cC_2rif-a3-m1-cD CBS domain protein PAE2072 from Pyrobaculum aerophilum complexed with AMP Q8ZVX8 Q8ZVX8 2.35 X-RAY DIFFRACTION 84 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 128 130 2rif-a1-m1-cB_2rif-a1-m1-cA 2rif-a2-m1-cC_2rif-a2-m1-cD 2rif-a3-m1-cB_2rif-a3-m1-cA 2rih-a1-m1-cB_2rih-a1-m1-cA IRTSELLKRPPVSLPETATIREVATELAKNRVGLAVLTARDNPKRPVAVVSERDILRAVAQRLDLDGPAMPIANSPITVLDTDPVHVAAEKMRRHNIRHVVVVNKNGELVGVLSIRDLCFERAILLEL IRTSELLKRPPVSLPETATIREVATELAKNRVGLAVLTARDNPKRPVAVVSERDILRAVAQRLDLDGPAMPIANSPITVLDTDPVHVAAEKMRRHNIRHVVVVNKNGELVGVLSIRDLCFERAILLELAT 2rif-a3-m1-cD_2rif-a3-m1-cA CBS domain protein PAE2072 from Pyrobaculum aerophilum complexed with AMP Q8ZVX8 Q8ZVX8 2.35 X-RAY DIFFRACTION 10 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 130 131 IRTSELLKRPPVSLPETATIREVATELAKNRVGLAVLTARDNPKRPVAVVSERDILRAVAQRLDLDGPAMPIANSPITVLDTDPVHVAAEKMRRHNIRHVVVVNKNGELVGVLSIRDLCFERAILLELAT IRTSELLKRPPVSLPETATIREVATELAKNRVGLAVLTARDNPKRPVAVVSERDILRAVAQRLDLDGPAMPIANSPITVLDTDPVHVAAEKMRRHNIRHVVVVNKNGELVGVLSIRDLCFERAILLELATA 2rij-a1-m1-cA_2rij-a1-m6-cA Crystal structure of a putative 2,3,4,5-tetrahydropyridine-2-carboxylate n-succinyltransferase (cj1605c, dapd) from campylobacter jejuni at 1.90 A resolution Q0P823 Q0P823 1.9 X-RAY DIFFRACTION 13 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 372 372 2rij-a1-m2-cA_2rij-a1-m5-cA 2rij-a1-m3-cA_2rij-a1-m4-cA GINTKEDFLLLIKQIEQKSGYKKPKAFGIARLDRGQLNKNKILQASFALINYEQNFGSAAILEAFQRGVEIDFNASEFVQTLKLEDIDFALSCFKPFLEEDGHQNIDLLKIIKDKFKDDEFSFVCLFEDKEPLSVESIYLKLYLLSTKKVPLRSINLNGAFGLLSNVAWSDDKPIELEYLRANERLKSNQYPKIDFVDKFPRFLAHIIPEDNTRILESSKVRGASLAAGTTIPGASYVNFNAGTTGACVEGRISSSAIVGEGSDVGGGASILGVLSGTSGNAISVGKACLLGANSVTGIPLGDNCIVDAGIAVLEGTKFLLKDAEELAKLNPYFNFDKEIYKGLELKGLNGLHFRQDSISGAIVALNKKAVK GINTKEDFLLLIKQIEQKSGYKKPKAFGIARLDRGQLNKNKILQASFALINYEQNFGSAAILEAFQRGVEIDFNASEFVQTLKLEDIDFALSCFKPFLEEDGHQNIDLLKIIKDKFKDDEFSFVCLFEDKEPLSVESIYLKLYLLSTKKVPLRSINLNGAFGLLSNVAWSDDKPIELEYLRANERLKSNQYPKIDFVDKFPRFLAHIIPEDNTRILESSKVRGASLAAGTTIPGASYVNFNAGTTGACVEGRISSSAIVGEGSDVGGGASILGVLSGTSGNAISVGKACLLGANSVTGIPLGDNCIVDAGIAVLEGTKFLLKDAEELAKLNPYFNFDKEIYKGLELKGLNGLHFRQDSISGAIVALNKKAVK 2rij-a1-m2-cA_2rij-a1-m6-cA Crystal structure of a putative 2,3,4,5-tetrahydropyridine-2-carboxylate n-succinyltransferase (cj1605c, dapd) from campylobacter jejuni at 1.90 A resolution Q0P823 Q0P823 1.9 X-RAY DIFFRACTION 13 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 372 372 2rij-a1-m1-cA_2rij-a1-m4-cA 2rij-a1-m3-cA_2rij-a1-m5-cA GINTKEDFLLLIKQIEQKSGYKKPKAFGIARLDRGQLNKNKILQASFALINYEQNFGSAAILEAFQRGVEIDFNASEFVQTLKLEDIDFALSCFKPFLEEDGHQNIDLLKIIKDKFKDDEFSFVCLFEDKEPLSVESIYLKLYLLSTKKVPLRSINLNGAFGLLSNVAWSDDKPIELEYLRANERLKSNQYPKIDFVDKFPRFLAHIIPEDNTRILESSKVRGASLAAGTTIPGASYVNFNAGTTGACVEGRISSSAIVGEGSDVGGGASILGVLSGTSGNAISVGKACLLGANSVTGIPLGDNCIVDAGIAVLEGTKFLLKDAEELAKLNPYFNFDKEIYKGLELKGLNGLHFRQDSISGAIVALNKKAVK GINTKEDFLLLIKQIEQKSGYKKPKAFGIARLDRGQLNKNKILQASFALINYEQNFGSAAILEAFQRGVEIDFNASEFVQTLKLEDIDFALSCFKPFLEEDGHQNIDLLKIIKDKFKDDEFSFVCLFEDKEPLSVESIYLKLYLLSTKKVPLRSINLNGAFGLLSNVAWSDDKPIELEYLRANERLKSNQYPKIDFVDKFPRFLAHIIPEDNTRILESSKVRGASLAAGTTIPGASYVNFNAGTTGACVEGRISSSAIVGEGSDVGGGASILGVLSGTSGNAISVGKACLLGANSVTGIPLGDNCIVDAGIAVLEGTKFLLKDAEELAKLNPYFNFDKEIYKGLELKGLNGLHFRQDSISGAIVALNKKAVK 2rij-a2-m2-cA_2rij-a2-m3-cA Crystal structure of a putative 2,3,4,5-tetrahydropyridine-2-carboxylate n-succinyltransferase (cj1605c, dapd) from campylobacter jejuni at 1.90 A resolution Q0P823 Q0P823 1.9 X-RAY DIFFRACTION 118 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 372 372 2rij-a1-m1-cA_2rij-a1-m2-cA 2rij-a1-m1-cA_2rij-a1-m3-cA 2rij-a1-m2-cA_2rij-a1-m3-cA 2rij-a1-m4-cA_2rij-a1-m5-cA 2rij-a1-m4-cA_2rij-a1-m6-cA 2rij-a1-m5-cA_2rij-a1-m6-cA 2rij-a2-m1-cA_2rij-a2-m2-cA 2rij-a2-m1-cA_2rij-a2-m3-cA GINTKEDFLLLIKQIEQKSGYKKPKAFGIARLDRGQLNKNKILQASFALINYEQNFGSAAILEAFQRGVEIDFNASEFVQTLKLEDIDFALSCFKPFLEEDGHQNIDLLKIIKDKFKDDEFSFVCLFEDKEPLSVESIYLKLYLLSTKKVPLRSINLNGAFGLLSNVAWSDDKPIELEYLRANERLKSNQYPKIDFVDKFPRFLAHIIPEDNTRILESSKVRGASLAAGTTIPGASYVNFNAGTTGACVEGRISSSAIVGEGSDVGGGASILGVLSGTSGNAISVGKACLLGANSVTGIPLGDNCIVDAGIAVLEGTKFLLKDAEELAKLNPYFNFDKEIYKGLELKGLNGLHFRQDSISGAIVALNKKAVK GINTKEDFLLLIKQIEQKSGYKKPKAFGIARLDRGQLNKNKILQASFALINYEQNFGSAAILEAFQRGVEIDFNASEFVQTLKLEDIDFALSCFKPFLEEDGHQNIDLLKIIKDKFKDDEFSFVCLFEDKEPLSVESIYLKLYLLSTKKVPLRSINLNGAFGLLSNVAWSDDKPIELEYLRANERLKSNQYPKIDFVDKFPRFLAHIIPEDNTRILESSKVRGASLAAGTTIPGASYVNFNAGTTGACVEGRISSSAIVGEGSDVGGGASILGVLSGTSGNAISVGKACLLGANSVTGIPLGDNCIVDAGIAVLEGTKFLLKDAEELAKLNPYFNFDKEIYKGLELKGLNGLHFRQDSISGAIVALNKKAVK 2ril-a1-m1-cA_2ril-a1-m2-cA Crystal structure of a putative monooxygenase (YP_001095275.1) from Shewanella loihica PV-4 at 1.26 A resolution A3QHR8 A3QHR8 1.26 X-RAY DIFFRACTION 94 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 91 91 GSAPVTLINPFKVPADKLEAAIEYWEAHRDFAQQPGYLSTQLHQSIDEGATYQLINVAIWQSEADFYQAAQKRQALGEGLGNPALYRVIRT GSAPVTLINPFKVPADKLEAAIEYWEAHRDFAQQPGYLSTQLHQSIDEGATYQLINVAIWQSEADFYQAAQKRQALGEGLGNPALYRVIRT 2rim-a2-m1-cA_2rim-a2-m2-cA Crystal structure of Rtt109 Q07794 Q07794 2.2 X-RAY DIFFRACTION 94 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 368 368 HSLNDFLSSVLPVSEQFEYLSLQSIPLETHAVVTPNKDDKRVPKSTIKTQHFFSLFHQGKVFFSLEVYVYVTLWDEADAERLIFVSKADTNGYCNTRVSVRDITKIILEFILSIDPNYYLQKVKPAIRSYKKISPELISAASLYLSFTCPREILTKICLFTRPASQYLFPDSSKNSKKHILNGEELKWWGFILDRLLIECFQNDTQAKLRIPGEDPARVRSYLRGKYPLWQVGDIFTSKENSLAVYNIPLFPDDPKARFIHQLAEEDRLLKVSLSSFWIELQERQEFKLSVTSSVGISGYSLATPSLFPSSADVIVPKSRKQFRAIKKYITGEEYDTEEGAIEAFTNIRDFLLLRATNLQSLTGKREH HSLNDFLSSVLPVSEQFEYLSLQSIPLETHAVVTPNKDDKRVPKSTIKTQHFFSLFHQGKVFFSLEVYVYVTLWDEADAERLIFVSKADTNGYCNTRVSVRDITKIILEFILSIDPNYYLQKVKPAIRSYKKISPELISAASLYLSFTCPREILTKICLFTRPASQYLFPDSSKNSKKHILNGEELKWWGFILDRLLIECFQNDTQAKLRIPGEDPARVRSYLRGKYPLWQVGDIFTSKENSLAVYNIPLFPDDPKARFIHQLAEEDRLLKVSLSSFWIELQERQEFKLSVTSSVGISGYSLATPSLFPSSADVIVPKSRKQFRAIKKYITGEEYDTEEGAIEAFTNIRDFLLLRATNLQSLTGKREH 2riq-a1-m1-cA_2riq-a1-m2-cA Crystal Structure of the Third Zinc-binding domain of human PARP-1 P09874 P09874 1.7 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 135 KKEKDKDSKLEKALKAQNDLIWNIKDELKKVCSTNDLKELLIFNKQQVPSGESAILDRVADGMVFGALLPCEECSGQLVFKSDAYYCTGDVTAWTKCMVKTQTPNRKEWVTPKEFREISYLKKLKVKKQDRIFPP KKEKDKDSKLEKALKAQNDLIWNIKDELKKVCSTNDLKELLIFNKQQVPSGESAILDRVADGMVFGALLPCEECSGQLVFKSDAYYCTGDVTAWTKCMVKTQTPNRKEWVTPKEFREISYLKKLKVKKQDRIFPP 2rir-a2-m1-cG_2rir-a2-m1-cH Crystal structure of dipicolinate synthase, A chain, from Bacillus subtilis Q04809 Q04809 2.79 X-RAY DIFFRACTION 41 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 291 291 2rir-a1-m1-cA_2rir-a1-m1-cD 2rir-a1-m1-cB_2rir-a1-m1-cC 2rir-a2-m1-cF_2rir-a2-m1-cE NALTGLKIAVIGGDARQLEIIRKLTEQQADIYLVGFDQLDHGFTGAVKCNIDEIPFQQIDSIILPVSATTGEGVVSTVFSNEEVVLKQDHLDRTPAHCVIFSGISNAYLENIAAQAKRKLVKLFERDDIAIYNSIPTVEGTILAIQHTDYTIHGSQVAVLGLGRTGTIARTFAALGANVKVGARSSAHLARITEGLVPFHTDELKEHVKDIDICINTIPSILNQTVLSSTPKTLILDLASRPGGTDFKYAEKQGIKALLAPGLPGIVAPKTAGQILANVLSKLLAEIQAEE NALTGLKIAVIGGDARQLEIIRKLTEQQADIYLVGFDQLDHGFTGAVKCNIDEIPFQQIDSIILPVSATTGEGVVSTVFSNEEVVLKQDHLDRTPAHCVIFSGISNAYLENIAAQAKRKLVKLFERDDIAIYNSIPTVEGTILAIQHTDYTIHGSQVAVLGLGRTGTIARTFAALGANVKVGARSSAHLARITEGLVPFHTDELKEHVKDIDICINTIPSILNQTVLSSTPKTLILDLASRPGGTDFKYAEKQGIKALLAPGLPGIVAPKTAGQILANVLSKLLAEIQAEE 2rir-a6-m1-cF_2rir-a6-m1-cH Crystal structure of dipicolinate synthase, A chain, from Bacillus subtilis Q04809 Q04809 2.79 X-RAY DIFFRACTION 56 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 291 291 2rir-a1-m1-cB_2rir-a1-m1-cA 2rir-a1-m1-cC_2rir-a1-m1-cD 2rir-a2-m1-cF_2rir-a2-m1-cH 2rir-a2-m1-cG_2rir-a2-m1-cE 2rir-a3-m1-cB_2rir-a3-m1-cA 2rir-a4-m1-cC_2rir-a4-m1-cD 2rir-a5-m1-cG_2rir-a5-m1-cE NALTGLKIAVIGGDARQLEIIRKLTEQQADIYLVGFDQLDHGFTGAVKCNIDEIPFQQIDSIILPVSATTGEGVVSTVFSNEEVVLKQDHLDRTPAHCVIFSGISNAYLENIAAQAKRKLVKLFERDDIAIYNSIPTVEGTILAIQHTDYTIHGSQVAVLGLGRTGTIARTFAALGANVKVGARSSAHLARITEGLVPFHTDELKEHVKDIDICINTIPSILNQTVLSSTPKTLILDLASRPGGTDFKYAEKQGIKALLAPGLPGIVAPKTAGQILANVLSKLLAEIQAEE NALTGLKIAVIGGDARQLEIIRKLTEQQADIYLVGFDQLDHGFTGAVKCNIDEIPFQQIDSIILPVSATTGEGVVSTVFSNEEVVLKQDHLDRTPAHCVIFSGISNAYLENIAAQAKRKLVKLFERDDIAIYNSIPTVEGTILAIQHTDYTIHGSQVAVLGLGRTGTIARTFAALGANVKVGARSSAHLARITEGLVPFHTDELKEHVKDIDICINTIPSILNQTVLSSTPKTLILDLASRPGGTDFKYAEKQGIKALLAPGLPGIVAPKTAGQILANVLSKLLAEIQAEE 2ris-a1-m1-cA_2ris-a1-m2-cA Crystal structure of 3,4-dihydroxy-2-butanone 4-phosphate synthase of candida albicans- alternate interpretation Q5A3V6 Q5A3V6 1.6 X-RAY DIFFRACTION 79 1.0 5476 (Candida albicans) 5476 (Candida albicans) 196 196 1tks-a1-m1-cA_1tks-a1-m1-cB 1tku-a1-m1-cA_1tku-a1-m1-cB 2riu-a1-m1-cA_2riu-a1-m2-cA NIFTPIEEALEAYKNGEFLIVMDDEDRENEGDLIMAAELITQEKMAFLVRYSSGYVCVPLSEERANQLELPPMLAGTAYTITCDFAEGTTTGISAHDRALTTRSLANPNSKPQDFIKPGHILPLRAVPGLLKKRRGHTEAAVQLSTLAGLQPAGVICELVRDEDGLMMRLDDCIQFGKKHGIKIININQLVEYISK NIFTPIEEALEAYKNGEFLIVMDDEDRENEGDLIMAAELITQEKMAFLVRYSSGYVCVPLSEERANQLELPPMLAGTAYTITCDFAEGTTTGISAHDRALTTRSLANPNSKPQDFIKPGHILPLRAVPGLLKKRRGHTEAAVQLSTLAGLQPAGVICELVRDEDGLMMRLDDCIQFGKKHGIKIININQLVEYISK 2rjd-a2-m1-cA_2rjd-a2-m2-cA Crystal structure of L3MBTL1 protein Q9Y468 Q9Y468 1.65 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 321 321 ECWSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGMKLEGIDPQHPSMYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSPPPLGFQVGMKLEAVDRMNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNMKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPLGPREPSSASP ECWSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGMKLEGIDPQHPSMYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSPPPLGFQVGMKLEAVDRMNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNMKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPLGPREPSSASP 2rje-a3-m1-cA_2rje-a3-m1-cB Crystal structure of L3MBTL1 in complex with H4K20Me2 (residues 17-25), orthorhombic form II Q9Y468 Q9Y468 1.86 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 309 313 WSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGMKLEGIDPQHPSMYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYFSWSQYLRSTRAQAAPKHLFVSQSHSPPPLGFQVGMKLEAVDRMNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNMKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPL WSWESYLEEQKAITAPVSLFQDSQAVTHNKNGFKLGMKLEGIDPQHPSMYFILTVAEVCGYRLRLHFDGYSECHDFWVNANSPDIHPAGWFEKTGHKLQPPKGYKEEEFSWSQYLRSTRAQAAPKHLFVSQSHSPPPLGFQVGMKLEAVDRMNPSLVCVASVTDVVDSRFLVHFDNWDDTYDYWCDPSSPYIHPVGWCQKQGKPLTPPQDYPDPDNFCWEKYLEETGASAVPTWAFKVRPPHSFLVNMKLEAVDRRNPALIRVASVEDVEDHRIKIHFDGWSHGYDFWIDADHPDIHPAGWCSKTGHPLQPPL 2rjf-a3-m1-cD_2rjf-a3-m1-cB Crystal structure of L3MBTL1 in complex with H4K20Me2 (residues 12-30), orthorhombic form I 2.05 X-RAY DIFFRACTION 23 1.0 8 9 2rjf-a2-m1-cD_2rjf-a2-m1-cB RHRVLRDN RHRVLRDNI 2rjl-a1-m2-cA_2rjl-a1-m3-cA Crystal structure of human TL1A extracellular domain C95S/C135S mutant O95150 O95150 2.05 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 2o0o-a1-m1-cA_2o0o-a1-m1-cB 2o0o-a1-m1-cC_2o0o-a1-m1-cA 2o0o-a1-m1-cC_2o0o-a1-m1-cB 2qe3-a1-m1-cA_2qe3-a1-m2-cA 2qe3-a1-m1-cA_2qe3-a1-m3-cA 2qe3-a1-m2-cA_2qe3-a1-m3-cA 2rjk-a1-m1-cA_2rjk-a1-m2-cA 2rjk-a1-m1-cA_2rjk-a1-m3-cA 2rjk-a1-m2-cA_2rjk-a1-m3-cA 2rjl-a1-m1-cA_2rjl-a1-m2-cA 2rjl-a1-m1-cA_2rjl-a1-m3-cA 3k51-a1-m1-cA_3k51-a1-m2-cA 3k51-a1-m1-cA_3k51-a1-m3-cA 3k51-a1-m2-cA_3k51-a1-m3-cA 3mi8-a1-m1-cA_3mi8-a1-m2-cA 3mi8-a1-m1-cA_3mi8-a1-m3-cA 3mi8-a1-m2-cA_3mi8-a1-m3-cA GDKPRAHLTVVRQTPTQFPALHWEHELGLAFTKNRMNYTNKFLLIPESGDYFIYSQVTFRGMKPDSITVVITKVTDSYPEPTQLLMGTKSVSEVGSNWFQPIYLGAMFSLQEGDKLMVNVSDISLVDYTKEDKTFFGAFLL GDKPRAHLTVVRQTPTQFPALHWEHELGLAFTKNRMNYTNKFLLIPESGDYFIYSQVTFRGMKPDSITVVITKVTDSYPEPTQLLMGTKSVSEVGSNWFQPIYLGAMFSLQEGDKLMVNVSDISLVDYTKEDKTFFGAFLL 2rjz-a1-m1-cB_2rjz-a1-m1-cA Crystal structure of the type 4 fimbrial biogenesis protein PilO from Pseudomonas aeruginosa Q51353 Q51353 2.2 X-RAY DIFFRACTION 113 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 130 135 SLKQQFSTKAFQAANLEAYKAQMKEMEESFGALLRQLPEVPGLLEDITRTGLGSGLEFEEIKLLPEVAQQFYIELPIQISVVGGYHDLATFVSGVSSLPRIVTLHDFEIKPVAPTSKLRMSILAKTYRYN SLKQQFSTKAFQAANLEAYKAQMKEMEESFGALLRQLPSDTEVPGLLEDITRTGLGSGLEFEEIKLLPEVAQQFYIELPIQISVVGGYHDLATFVSGVSSLPRIVTLHDFEIKPVAPGSTSKLRMSILAKTYRYN 2rk0-a2-m1-cA_2rk0-a2-m2-cA Crystal structure of glyoxylase/bleomycin resistance protein/dioxygenase domain from Frankia sp. EAN1pec A8LBF3 A8LBF3 2.04 X-RAY DIFFRACTION 29 1.0 298653 (Frankia sp. EAN1pec) 298653 (Frankia sp. EAN1pec) 133 133 SLSGVSHVSLTVRDLDISCRWYTEILDWKELVRGRGDTTSFAHGVLPGGLSIVLREHDGGGTDLFDETRPGLDHLSFSVESTDLDVLEERLAKAGAAFTPTQELPFGWILAFRDADNIALEALGREGHHHHHH SLSGVSHVSLTVRDLDISCRWYTEILDWKELVRGRGDTTSFAHGVLPGGLSIVLREHDGGGTDLFDETRPGLDHLSFSVESTDLDVLEERLAKAGAAFTPTQELPFGWILAFRDADNIALEALGREGHHHHHH 2rk0-a2-m2-cB_2rk0-a2-m1-cA Crystal structure of glyoxylase/bleomycin resistance protein/dioxygenase domain from Frankia sp. EAN1pec A8LBF3 A8LBF3 2.04 X-RAY DIFFRACTION 17 1.0 298653 (Frankia sp. EAN1pec) 298653 (Frankia sp. EAN1pec) 125 133 2rk0-a2-m1-cB_2rk0-a2-m2-cA SLSGVSHVSLTVRDLDISCRWYTEILDWKELVRGRGDTTSFAHGVLPGGLSIVLREHDGGGTDLFDETRPGLDHLSFSVESTDLDVLEERLAKAGAAFTPTQELPFGWILAFRDADNIALEALGR SLSGVSHVSLTVRDLDISCRWYTEILDWKELVRGRGDTTSFAHGVLPGGLSIVLREHDGGGTDLFDETRPGLDHLSFSVESTDLDVLEERLAKAGAAFTPTQELPFGWILAFRDADNIALEALGREGHHHHHH 2rk0-a2-m2-cB_2rk0-a2-m2-cA Crystal structure of glyoxylase/bleomycin resistance protein/dioxygenase domain from Frankia sp. EAN1pec A8LBF3 A8LBF3 2.04 X-RAY DIFFRACTION 172 1.0 298653 (Frankia sp. EAN1pec) 298653 (Frankia sp. EAN1pec) 125 133 2rk0-a1-m1-cB_2rk0-a1-m1-cA 2rk0-a2-m1-cB_2rk0-a2-m1-cA SLSGVSHVSLTVRDLDISCRWYTEILDWKELVRGRGDTTSFAHGVLPGGLSIVLREHDGGGTDLFDETRPGLDHLSFSVESTDLDVLEERLAKAGAAFTPTQELPFGWILAFRDADNIALEALGR SLSGVSHVSLTVRDLDISCRWYTEILDWKELVRGRGDTTSFAHGVLPGGLSIVLREHDGGGTDLFDETRPGLDHLSFSVESTDLDVLEERLAKAGAAFTPTQELPFGWILAFRDADNIALEALGREGHHHHHH 2rk3-a1-m1-cA_2rk3-a1-m2-cA Structure of A104T DJ-1 Q99497 Q99497 1.05 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 1j42-a2-m1-cA_1j42-a2-m2-cA 1p5f-a1-m1-cA_1p5f-a1-m2-cA 1pdv-a1-m1-cA_1pdv-a1-m2-cA 1pdw-a1-m1-cA_1pdw-a1-m1-cB 1pdw-a2-m1-cC_1pdw-a2-m1-cD 1pdw-a3-m1-cF_1pdw-a3-m1-cE 1pdw-a4-m1-cH_1pdw-a4-m1-cG 1pe0-a1-m1-cA_1pe0-a1-m1-cB 1q2u-a2-m1-cA_1q2u-a2-m2-cA 1soa-a1-m1-cA_1soa-a1-m2-cA 1ucf-a1-m1-cA_1ucf-a1-m1-cB 2or3-a1-m1-cA_2or3-a1-m1-cB 2r1t-a1-m1-cB_2r1t-a1-m1-cA 2r1u-a1-m1-cA_2r1u-a1-m1-cB 2r1v-a1-m1-cB_2r1v-a1-m1-cA 2rk4-a1-m1-cA_2rk4-a1-m2-cA 2rk6-a1-m1-cA_2rk6-a1-m2-cA 3b36-a1-m1-cA_3b36-a1-m2-cA 3b38-a1-m1-cA_3b38-a1-m2-cA 3b3a-a1-m1-cA_3b3a-a1-m2-cA 3bwe-a1-m1-cA_3bwe-a1-m1-cB 3bwe-a2-m1-cD_3bwe-a2-m1-cC 3bwe-a3-m1-cF_3bwe-a3-m1-cE 3bwe-a4-m1-cG_3bwe-a4-m2-cG 3cy6-a1-m1-cA_3cy6-a1-m2-cA 3cyf-a1-m1-cA_3cyf-a1-m2-cA 3cz9-a1-m1-cA_3cz9-a1-m2-cA 3cza-a1-m1-cA_3cza-a1-m2-cA 3ezg-a1-m1-cA_3ezg-a1-m2-cA 3f71-a1-m1-cA_3f71-a1-m2-cA 3sf8-a1-m1-cB_3sf8-a1-m1-cA 4bte-a1-m1-cA_4bte-a1-m2-cA 4mnt-a1-m1-cA_4mnt-a1-m2-cA 4mtc-a1-m1-cA_4mtc-a1-m2-cA 4n0m-a1-m1-cA_4n0m-a1-m2-cA 4n12-a1-m1-cA_4n12-a1-m2-cA 4ogf-a1-m1-cA_4ogf-a1-m2-cA 4oq4-a1-m1-cA_4oq4-a1-m2-cA 4p2g-a1-m1-cA_4p2g-a1-m2-cA 4p34-a1-m1-cA_4p34-a1-m2-cA 4p35-a1-m1-cA_4p35-a1-m2-cA 4p36-a1-m1-cA_4p36-a1-m2-cA 4rkw-a1-m1-cA_4rkw-a1-m2-cA 4rky-a1-m1-cA_4rky-a1-m2-cA 4s0z-a1-m1-cA_4s0z-a1-m2-cA 4zgg-a2-m1-cA_4zgg-a2-m2-cA 5sy6-a1-m1-cA_5sy6-a1-m2-cA 5sy9-a1-m1-cA_5sy9-a1-m2-cA 5sya-a1-m1-cA_5sya-a1-m2-cA 6af5-a1-m1-cA_6af5-a1-m2-cA 6af7-a1-m1-cA_6af7-a1-m2-cA 6af9-a1-m1-cA_6af9-a1-m2-cA 6afa-a1-m1-cA_6afa-a1-m2-cA 6afb-a1-m1-cA_6afb-a1-m2-cA 6afc-a1-m1-cA_6afc-a1-m2-cA 6afd-a1-m1-cA_6afd-a1-m2-cA 6afe-a1-m1-cA_6afe-a1-m2-cA 6aff-a1-m1-cA_6aff-a1-m2-cA 6afg-a1-m1-cA_6afg-a1-m2-cA 6afh-a1-m1-cA_6afh-a1-m2-cA 6afi-a1-m1-cA_6afi-a1-m2-cA 6afj-a1-m1-cA_6afj-a1-m2-cA 6afl-a1-m1-cA_6afl-a1-m2-cA 6e5z-a1-m1-cA_6e5z-a1-m2-cA 6m8z-a1-m1-cA_6m8z-a1-m2-cA ASKRALVILAKGAEEMETVIPVDVMRRAGIKVTVAGLAGKDPVQCSRDVVICPDASLEDAKKEGPYDVVVLPGGNLGAQNLSESAAVKEILKEQENRKGLIATICAGPTALLAHEIGFGSKVTTHPLAKDKMMNGGHYTYSENRVEKDGLILTSRGPGTSFEFALAIVEALNGKEVAAQVKAPLVLK ASKRALVILAKGAEEMETVIPVDVMRRAGIKVTVAGLAGKDPVQCSRDVVICPDASLEDAKKEGPYDVVVLPGGNLGAQNLSESAAVKEILKEQENRKGLIATICAGPTALLAHEIGFGSKVTTHPLAKDKMMNGGHYTYSENRVEKDGLILTSRGPGTSFEFALAIVEALNGKEVAAQVKAPLVLK 2rk5-a1-m1-cA_2rk5-a1-m2-cA Crystal structure of a domain of the putative hemolysin from Streptococcus mutans UA159 O68574 O68574 1.5 X-RAY DIFFRACTION 49 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 86 86 QSREIADNTYIVLGTMTLNDFNEYFETDLESDNVDTIAGFYLTGVGTIPSQEEKEHFEVESNGKHLELINDKVKDGRVTKLKILVS QSREIADNTYIVLGTMTLNDFNEYFETDLESDNVDTIAGFYLTGVGTIPSQEEKEHFEVESNGKHLELINDKVKDGRVTKLKILVS 2rk9-a1-m1-cA_2rk9-a1-m1-cB The crystal structure of a glyoxalase/bleomycin resistance protein/dioxygenase superfamily member from Vibrio splendidus 12B01 A3UM69 A3UM69 1.6 X-RAY DIFFRACTION 130 0.991 314291 (Vibrio splendidus 12B01) 314291 (Vibrio splendidus 12B01) 114 115 TLRVVPELYCFDINVSQSFFVDVLGFEVKYERPDEEFVYLTLDGVDVLEGILEFPLGSGVNFQWDVIDIEPLYQRVNESAADSIYLALESKSYIATQKQFVQTPDGYLFRFCQD TLRVVPELYCFDINVSQSFFVDVLGFEVKYERPDEEFVYLTLDGVDVLEGLEFPLGSGVNFQWDVIDIEPLYQRVNESAADSIYLALESKSYQIATQKQFVQTPDGYLFRFCQDI 2rkb-a3-m1-cE_2rkb-a3-m2-cE Serine dehydratase like-1 from human cancer cells Q96GA7 Q96GA7 2.8 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 2rkb-a1-m1-cA_2rkb-a1-m1-cB 2rkb-a2-m1-cC_2rkb-a2-m1-cD QEPFHVVTPLLESWALSQVAGMPVFLKCENVQPSGSFKIRGIGHFCQEMAKKGCRHLVCSSGGNAGIAAAYAARKLGIPATIVLPESTSLQVVQRLQGEGAEVQLTGKVWDEANLRAQELAKRDGWENVPPFDHPLIWKGHASLVQELKAVLRTPPGALVLAVGGGGLLAGVVAGLLEVGWQHVPIIAMETHGAHCFNAAITAGKLVTLPDITSVAKSLGAKTVAARALECMQVCKIHSEVVEDTEAVSAVQQLLDDERMLVEPACGAALAAIYSGLLRRLQAEGCLPPSLTSVVVIVCGGNNINSRELQALKTHLGQ QEPFHVVTPLLESWALSQVAGMPVFLKCENVQPSGSFKIRGIGHFCQEMAKKGCRHLVCSSGGNAGIAAAYAARKLGIPATIVLPESTSLQVVQRLQGEGAEVQLTGKVWDEANLRAQELAKRDGWENVPPFDHPLIWKGHASLVQELKAVLRTPPGALVLAVGGGGLLAGVVAGLLEVGWQHVPIIAMETHGAHCFNAAITAGKLVTLPDITSVAKSLGAKTVAARALECMQVCKIHSEVVEDTEAVSAVQQLLDDERMLVEPACGAALAAIYSGLLRRLQAEGCLPPSLTSVVVIVCGGNNINSRELQALKTHLGQ 2rkg-a1-m1-cA_2rkg-a1-m1-cB HIV-1 PR resistant mutant + LPV A0F6C5 A0F6C5 1.8 X-RAY DIFFRACTION 139 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 100 100 2rkf-a1-m1-cA_2rkf-a1-m1-cB 4m8x-a1-m1-cA_4m8x-a1-m1-cB 4m8y-a1-m1-cA_4m8y-a1-m1-cB PQITLWQRPFVTVKIAGQLMEALLDTGADDTILEEEMSLPGRWTPKVVGGIGGFMKVRQYDQILVEICGHKVIGTVLVGPTPANIIGRNLLTQIGCTLNF PQITLWQRPFVTVKIAGQLMEALLDTGADDTILEEEMSLPGRWTPKVVGGIGGFMKVRQYDQILVEICGHKVIGTVLVGPTPANIIGRNLLTQIGCTLNF 2rkh-a1-m1-cA_2rkh-a1-m2-cA Crystal structure of a putative AphA-like transcription factor (ZP_00208345.1) from Magnetospirillum magnetotacticum MS-1 at 2.00 A resolution 2 X-RAY DIFFRACTION 165 1.0 272627 (Magnetospirillum magnetotacticum MS-1) 272627 (Magnetospirillum magnetotacticum MS-1) 157 157 TLTPKEAVRLCALGTIASQPRYSELAGSVRHFTSRIGPSLELGISIELLRYEGLVEAVDALAISAAGRRELHSLLTARLRPGSDLSKLVVALKRFLGLEAEERAHQIDLLIEGVDSELARLADLRGGEGGSALAAWLDHDALLESRLAWLEDFRARL TLTPKEAVRLCALGTIASQPRYSELAGSVRHFTSRIGPSLELGISIELLRYEGLVEAVDALAISAAGRRELHSLLTARLRPGSDLSKLVVALKRFLGLEAEERAHQIDLLIEGVDSELARLADLRGGEGGSALAAWLDHDALLESRLAWLEDFRARL 2rkj-a4-m1-cM_2rkj-a4-m1-cN Cocrystal structure of a tyrosyl-tRNA synthetase splicing factor with a group I intron RNA P12063 P12063 4.5 X-RAY DIFFRACTION 98 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 367 367 1y42-a1-m1-cX_1y42-a1-m2-cX 2rkj-a1-m1-cA_2rkj-a1-m1-cB 2rkj-a2-m1-cE_2rkj-a2-m1-cF 2rkj-a3-m1-cI_2rkj-a3-m1-cJ 4ojm-a1-m1-cX_4ojm-a1-m2-cX PKYTAKINEAEENWQARAEAIKKGKKQNTWDLFEERGYVKDTAGTKEHIAELMRTRRIGAYVGIDPTAPSLHVGHLLPLMPLFWMYLEGYKAFTLIGGSTAKIGDPTGDATMNMTKIHYQLKKLWENVDTQMRARGYEADWARKRGIVNNNHWWNKQPMLEVLRRVGHALRIGPMLSRDTVKNKMTQGDGVSFAEFTYPIMQGWDWFELFYQQGVQMQIGGSDQYGNIISGLEVVKAARESEPDPQERKYVTPKTALDECVGFTVPLLTDSSGAKFGKSAGNAIWLDPYQTSVFDFYGYFVRRSDQEVENLLKLFTFMPISEITKTMEEHIKDPSKRVAQHTLAREVVTLVHGKQEASAAEDQHRMM PKYTAKINEAEENWQARAEAIKKGKKQNTWDLFEERGYVKDTAGTKEHIAELMRTRRIGAYVGIDPTAPSLHVGHLLPLMPLFWMYLEGYKAFTLIGGSTAKIGDPTGDATMNMTKIHYQLKKLWENVDTQMRARGYEADWARKRGIVNNNHWWNKQPMLEVLRRVGHALRIGPMLSRDTVKNKMTQGDGVSFAEFTYPIMQGWDWFELFYQQGVQMQIGGSDQYGNIISGLEVVKAARESEPDPQERKYVTPKTALDECVGFTVPLLTDSSGAKFGKSAGNAIWLDPYQTSVFDFYGYFVRRSDQEVENLLKLFTFMPISEITKTMEEHIKDPSKRVAQHTLAREVVTLVHGKQEASAAEDQHRMM 2rkk-a1-m1-cB_2rkk-a1-m1-cA Crystal Structure of S.cerevisiae Vta1 N-terminal domain Q06263 Q06263 2.9 X-RAY DIFFRACTION 79 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 157 157 SMASNAARVVATAKDFDKVGLGIIGYYLQLYAVELILSEEDRSQEMTALATELLDTIEAFKKEIGLHVMNTLIHDQEKAKIYMLNFTMSLYNEKLKQLKDGPWDVMLKRSLWCCIDLFSCILHLWKENISETSTNSLQKRIKYCKIYLSKLAKGEIG SMASNAARVVATAKDFDKVGLGIIGYYLQLYAVELILSEEDRSQEMTALATELLDTIEAFKKEIGLHVMNTLIHDQEKAKIYMLNFTMSLYNEKLKQLKDGPWDVMLKRSLWCCIDLFSCILHLWKENISETSTNSLQKRIKYCKIYLSKLAKGEIG 2rlc-a1-m1-cA_2rlc-a1-m4-cA Crystal Structure of the Conjugated Bile Acid Hydrolase from Clostridium perfringens in Complex with Reaction Products Glycine and Cholate P54965 P54965 1.8 X-RAY DIFFRACTION 12 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 319 319 2bjf-a1-m1-cA_2bjf-a1-m3-cA 2bjf-a1-m2-cA_2bjf-a1-m4-cA 2bjg-a1-m1-cA_2bjg-a1-m2-cA 2bjg-a1-m1-cB_2bjg-a1-m2-cB 2rf8-a1-m1-cA_2rf8-a1-m2-cA 2rf8-a1-m1-cB_2rf8-a1-m2-cB 2rg2-a1-m1-cA_2rg2-a1-m4-cA 2rg2-a1-m2-cA_2rg2-a1-m3-cA 2rlc-a1-m2-cA_2rlc-a1-m3-cA TGLALETKDGLHLFGRNDIEYSFNQSIIFIPRNFKCVNKSNKKELTTKYAVLGGTIFDDYPTFADGNEKGLGCAGLNFPVYVSYSKEDIEGKTNIPVYNFLLWVLANFSSVEEVKEALKNANIVDIPISENIPNTTLHWISDITGKSIVVEQTKEKLNVFDNNIGVLTNSPTFDWHVANLNQYVGLRYNQVPEFKLGDQSLTALGQGTGLVGLPGDFTPASRFIRVAFLRDAIKNDKDSIDLIEFFHILNNVAVRGSTRTVEEKSDLTQYTSCCLEKGIYYYNTYENNQINAIDNKENLDGNEIKTYKYNKTLSINHVN TGLALETKDGLHLFGRNDIEYSFNQSIIFIPRNFKCVNKSNKKELTTKYAVLGGTIFDDYPTFADGNEKGLGCAGLNFPVYVSYSKEDIEGKTNIPVYNFLLWVLANFSSVEEVKEALKNANIVDIPISENIPNTTLHWISDITGKSIVVEQTKEKLNVFDNNIGVLTNSPTFDWHVANLNQYVGLRYNQVPEFKLGDQSLTALGQGTGLVGLPGDFTPASRFIRVAFLRDAIKNDKDSIDLIEFFHILNNVAVRGSTRTVEEKSDLTQYTSCCLEKGIYYYNTYENNQINAIDNKENLDGNEIKTYKYNKTLSINHVN 2rld-a1-m1-cD_2rld-a1-m1-cE CRYSTAL STRUCTURE OF A PROTEIN WITH UNKNOWN FUNCTION FROM S23 RIBOSOMAL PROTEIN FAMILY (BT_0352) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 1.70 A RESOLUTION Q8AAW0 Q8AAW0 1.7 X-RAY DIFFRACTION 36 0.981 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 107 107 2rld-a1-m1-cA_2rld-a1-m1-cC DNVVKDKSLEFAVRIVNLYKFLVNEQKEFVSKQILRSGTSIGANIREAEQAQSRADFINKLNIALKEANETEYWLELLIRTEYITREQYESINNDSTEINKLLISII VVKDKSLEFAVRIVNLYKFLVNEQKEFVSKQILRSGTSIGANIREAEQAQSRADFINKLNIALKEANETEYWLELLIRTEYITREQYESINNDSTEINKLLISIIKT 2rld-a1-m1-cE_2rld-a1-m1-cB CRYSTAL STRUCTURE OF A PROTEIN WITH UNKNOWN FUNCTION FROM S23 RIBOSOMAL PROTEIN FAMILY (BT_0352) FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 AT 1.70 A RESOLUTION Q8AAW0 Q8AAW0 1.7 X-RAY DIFFRACTION 26 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 107 110 2rld-a1-m1-cD_2rld-a1-m1-cC VVKDKSLEFAVRIVNLYKFLVNEQKEFVSKQILRSGTSIGANIREAEQAQSRADFINKLNIALKEANETEYWLELLIRTEYITREQYESINNDSTEINKLLISIIKT KDNVVKDKSLEFAVRIVNLYKFLVNEQKEFVSKQILRSGTSIGANIREAEQAQSRADFINKLNIALKEANETEYWLELLIRTEYITREQYESINNDSTEINKLLISIIKT 2rmb-a1-m1-cK_2rmb-a1-m1-cS Crystal structures of cyclophilin A complexed with cyclosporin A and N-methyl-4-[(E)-2-butenyl]-4,4-dimethylthreonine cyclosporin A P62937 P62937 2.1 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 2rma-a1-m1-cA_2rma-a1-m1-cC 2rma-a1-m1-cA_2rma-a1-m1-cI 2rma-a1-m1-cC_2rma-a1-m1-cE 2rma-a1-m1-cE_2rma-a1-m1-cG 2rma-a1-m1-cG_2rma-a1-m1-cI 2rma-a1-m1-cK_2rma-a1-m1-cM 2rma-a1-m1-cK_2rma-a1-m1-cS 2rma-a1-m1-cM_2rma-a1-m1-cO 2rma-a1-m1-cO_2rma-a1-m1-cQ 2rma-a1-m1-cQ_2rma-a1-m1-cS 2rmb-a1-m1-cA_2rmb-a1-m1-cC 2rmb-a1-m1-cA_2rmb-a1-m1-cI 2rmb-a1-m1-cC_2rmb-a1-m1-cE 2rmb-a1-m1-cE_2rmb-a1-m1-cG 2rmb-a1-m1-cG_2rmb-a1-m1-cI 2rmb-a1-m1-cK_2rmb-a1-m1-cM 2rmb-a1-m1-cM_2rmb-a1-m1-cO 2rmb-a1-m1-cO_2rmb-a1-m1-cQ 2rmb-a1-m1-cQ_2rmb-a1-m1-cS 2x2c-a1-m1-cK_2x2c-a1-m1-cM 2x2c-a1-m1-cK_2x2c-a1-m1-cS 2x2c-a1-m1-cM_2x2c-a1-m1-cO 2x2c-a1-m1-cO_2x2c-a1-m1-cQ 2x2c-a1-m1-cQ_2x2c-a1-m1-cS 2x2c-a1-m2-cK_2x2c-a1-m2-cM 2x2c-a1-m2-cK_2x2c-a1-m2-cS 2x2c-a1-m2-cM_2x2c-a1-m2-cO 2x2c-a1-m2-cO_2x2c-a1-m2-cQ 2x2c-a1-m2-cQ_2x2c-a1-m2-cS MVNPTVFFDIAVDGEPLGRVSFELFADKVPKTAENFRALSTGEKGFGYKGSCFHRIIPGFMCQGGDFTRHNGTGGKSIYGEKFEDENFILKHTGPGILSMANAGPNTNGSQFFICTAKTEWLDGKHVVFGKVKEGMNIVEAMERFGSRNGKTSKKITIADCGQLE MVNPTVFFDIAVDGEPLGRVSFELFADKVPKTAENFRALSTGEKGFGYKGSCFHRIIPGFMCQGGDFTRHNGTGGKSIYGEKFEDENFILKHTGPGILSMANAGPNTNGSQFFICTAKTEWLDGKHVVFGKVKEGMNIVEAMERFGSRNGKTSKKITIADCGQLE 2ro3-a1-m1-cA_2ro3-a1-m1-cB RDC-refined Solution Structure of the N-terminal DNA Recognition Domain of the Bacillus subtilis Transition-state Regulator Abh P39758 P39758 NOT SOLUTION NMR 179 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 54 54 2fy9-a1-m1-cA_2fy9-a1-m1-cB MKSIGVVRKVDELGRIVMPIELRRALDIAIKDSIEFFVDGDKIILKKYKPHGVC MKSIGVVRKVDELGRIVMPIELRRALDIAIKDSIEFFVDGDKIILKKYKPHGVC 2ro4-a1-m1-cA_2ro4-a1-m1-cB RDC-refined Solution Structure of the N-terminal DNA Recognition Domain of the Bacillus subtilis Transition-state Regulator AbrB P08874 P08874 NOT SOLUTION NMR 167 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 53 53 1z0r-a1-m1-cA_1z0r-a1-m1-cB MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMT MKSTGIVRKVDELGRVVIPIELRRTLGIAEKDALEIYVDDEKIILKKYKPNMT 2rp4-a1-m1-cA_2rp4-a1-m1-cD Solution Structure of the oligomerization domain in Dmp53 Q8IH92 Q8IH92 NOT SOLUTION NMR 32 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 71 71 2rp4-a1-m1-cB_2rp4-a1-m1-cC DDSAAEWNVSRTPDGDYRLAITCPNKEWLLQSIEGMIKEAAAEVLRNPNQENLRRHANKLLSLKKRAYELP DDSAAEWNVSRTPDGDYRLAITCPNKEWLLQSIEGMIKEAAAEVLRNPNQENLRRHANKLLSLKKRAYELP 2rp4-a1-m1-cC_2rp4-a1-m1-cD Solution Structure of the oligomerization domain in Dmp53 Q8IH92 Q8IH92 NOT SOLUTION NMR 142 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 71 71 2rp4-a1-m1-cA_2rp4-a1-m1-cB DDSAAEWNVSRTPDGDYRLAITCPNKEWLLQSIEGMIKEAAAEVLRNPNQENLRRHANKLLSLKKRAYELP DDSAAEWNVSRTPDGDYRLAITCPNKEWLLQSIEGMIKEAAAEVLRNPNQENLRRHANKLLSLKKRAYELP 2rp5-a1-m1-cA_2rp5-a1-m1-cB Solution structure of the oligomerization domain in CEP-1 Q20646 Q20646 NOT SOLUTION NMR 80 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 117 117 TNYSFRTLTLSTAEYTKVVEFLAREAKVPRYTWVPTQVVSHILPTEGLERFLTAIKAGHDSVLFNANGIYTMGDMIREFEKHNDIFERIGIDSSKLSKYYEAFLSFYRIQEAMKLPK TNYSFRTLTLSTAEYTKVVEFLAREAKVPRYTWVPTQVVSHILPTEGLERFLTAIKAGHDSVLFNANGIYTMGDMIREFEKHNDIFERIGIDSSKLSKYYEAFLSFYRIQEAMKLPK 2rsl-a1-m2-cA_2rsl-a1-m2-cB REFINEMENT OF GAMMA DELTA RESOLVASE REVEALS A STRIKINGLY FLEXIBLE MOLECULE P03012 P03012 2.3 X-RAY DIFFRACTION 54 0.983 562 (Escherichia coli) 562 (Escherichia coli) 115 120 1gdt-a1-m1-cA_1gdt-a1-m1-cB 2rsl-a1-m1-cA_2rsl-a1-m1-cB 2rsl-a1-m1-cC_2rsl-a1-m2-cC MRLFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKRKGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDGEMGKMVVTILSAVAQAERQRI MRLFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDGEMGKMVVTILSAVAQAERQ 2rsl-a1-m2-cC_2rsl-a1-m2-cB REFINEMENT OF GAMMA DELTA RESOLVASE REVEALS A STRIKINGLY FLEXIBLE MOLECULE P03012 P03012 2.3 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 119 120 2rsl-a1-m1-cC_2rsl-a1-m1-cB MRLFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDGEMGKMVVTILSAVAQAER MRLFGYARVSTSQQSLDIQVRALKDAGVKANRIFTDKASGSSSDRKGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVSIRFIDDGISTDGEMGKMVVTILSAVAQAERQ 2rsp-a1-m1-cB_2rsp-a1-m1-cA STRUCTURE OF THE ASPARTIC PROTEASE FROM ROUS SARCOMA RETROVIRUS REFINED AT 2 ANGSTROMS RESOLUTION P03322 P03322 2 X-RAY DIFFRACTION 118 1.0 11886 (Rous sarcoma virus) 11886 (Rous sarcoma virus) 113 115 1mvp-a1-m1-cB_1mvp-a1-m1-cA LAMTMEHKDRPLVRVILTNTGSHPVKQRSVYITALLDSGADITIISEEDWPTDWPVMEGIPMRKSRDMIELGVINRDGSLERPLLLFPAVAMVRGSILGRDCLQGLGLRLTNL LAMTMEHKDRPLVRVILTNTGSHPVKQRSVYITALLDSGADITIISEEDWPTDWPVMEAAGIPMRKSRDMIELGVINRDGSLERPLLLFPAVAMVRGSILGRDCLQGLGLRLTNL 2sak-a1-m1-cA_2sak-a1-m2-cA STAPHYLOKINASE (SAKSTAR VARIANT) P68802 P68802 1.8 X-RAY DIFFRACTION 10 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 121 121 SYFEPTGPYLMVNVTGVDSKGNELLSPHYVEFPIKPGTTLTKEKIEYYVEWALDATAYKEFRVVELDPSAKIEVTYYDKNKKKEETKSFPITEKGFVVPDLSEHIKNPGFNLITKVVIEKK SYFEPTGPYLMVNVTGVDSKGNELLSPHYVEFPIKPGTTLTKEKIEYYVEWALDATAYKEFRVVELDPSAKIEVTYYDKNKKKEETKSFPITEKGFVVPDLSEHIKNPGFNLITKVVIEKK 2sam-a1-m1-cA_2sam-a1-m2-cA STRUCTURE OF THE PROTEASE FROM SIMIAN IMMUNODEFICIENCY VIRUS: COMPLEX WITH AN IRREVERSIBLE NON-PEPTIDE INHIBITOR Q5QGH9 Q5QGH9 2.4 X-RAY DIFFRACTION 137 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 99 99 1az5-a1-m1-cA_1az5-a1-m2-cA 1sip-a1-m1-cA_1sip-a1-m2-cA 1siv-a1-m1-cA_1siv-a1-m1-cB 1tcw-a1-m1-cA_1tcw-a1-m1-cB 1yti-a1-m1-cA_1yti-a1-m2-cA 1ytj-a1-m1-cA_1ytj-a1-m2-cA PQFHLWKRPVVTAHIEGQPVEVLLDTGADDSIVTGIELGPHYTPKIVGGIGGFINTKEYKNVEIEVLGKRIKGTIMTGDTPINIFGRNLLTALGMSLNF PQFHLWKRPVVTAHIEGQPVEVLLDTGADDSIVTGIELGPHYTPKIVGGIGGFINTKEYKNVEIEVLGKRIKGTIMTGDTPINIFGRNLLTALGMSLNF 2sas-a1-m1-cA_2sas-a1-m2-cA STRUCTURE OF A SARCOPLASMIC CALCIUM-BINDING PROTEIN FROM AMPHIOXUS REFINED AT 2.4 ANGSTROMS RESOLUTION P04570 P04570 2.4 X-RAY DIFFRACTION 41 1.0 7740 (Branchiostoma lanceolatum) 7740 (Branchiostoma lanceolatum) 185 185 GLNDFQKQKIKFTFDFFLDMNHDGSIQDNDFEDMMTRYKEVNKGSLSDADYKSMQASLEDEWRDLKGRADINKDDVVSWEEYLAMWEKTIATCKSVADLPAWCQNRIPFLFKGMDVSGDGIVDLEEFQNYCKNFQLQCADVPAVYNVITDGGKVTFDLNRYKELYYRLLTSPAADAGNTLMGQKP GLNDFQKQKIKFTFDFFLDMNHDGSIQDNDFEDMMTRYKEVNKGSLSDADYKSMQASLEDEWRDLKGRADINKDDVVSWEEYLAMWEKTIATCKSVADLPAWCQNRIPFLFKGMDVSGDGIVDLEEFQNYCKNFQLQCADVPAVYNVITDGGKVTFDLNRYKELYYRLLTSPAADAGNTLMGQKP 2scp-a1-m1-cA_2scp-a1-m1-cB STRUCTURE OF A SARCOPLASMIC CALCIUM-BINDING PROTEIN FROM NEREIS DIVERSICOLOR REFINED AT 2.0 ANGSTROMS RESOLUTION P04571 P04571 2 X-RAY DIFFRACTION 84 1.0 174 174 SDLWVQKMKTYFNRIDFDKDGAITRMDFESMAERFAKESEMKAEHAKVLMDSLTGVWDNFLTAVAGGKGIDETTFINSMKEMVKNPEAKSVVEGPLPLFFRAVDTNEDNNISRDEYGIFFGMLGLDKTMAPASFDAIDTNNDGLLSLEEFVIAGSDFFMNDGDSTNKVFWGPLV SDLWVQKMKTYFNRIDFDKDGAITRMDFESMAERFAKESEMKAEHAKVLMDSLTGVWDNFLTAVAGGKGIDETTFINSMKEMVKNPEAKSVVEGPLPLFFRAVDTNEDNNISRDEYGIFFGMLGLDKTMAPASFDAIDTNNDGLLSLEEFVIAGSDFFMNDGDSTNKVFWGPLV 2sem-a1-m1-cA_2sem-a1-m1-cB SEM5 SH3 DOMAIN COMPLEXED WITH PEPTOID INHIBITOR P29355 P29355 2.2 X-RAY DIFFRACTION 11 0.983 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 58 59 ETKFVQALFDFNPQESGELAFKRGDVITLINKDDPNWWEGQLNNRRGIFPSNYVCPYN TKFVQALFDFNPQESGELAFKRGDVITLINKDDPNWWEGQLNNRRGIFPSNYVCPYNSN 2snw-a1-m1-cA_2snw-a1-m1-cB SINDBIS VIRUS CAPSID PROTEIN, TYPE3 CRYSTAL FORM P03316 P03316 2.7 X-RAY DIFFRACTION 33 1.0 11034 (Sindbis virus) 11034 (Sindbis virus) 158 158 ALKLEADRLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDSGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEW ALKLEADRLFDVKNEDGDVIGHALAMEGKVMKPLHVKGTIDHPVLSKLKFTKSSAYDMEFAQLPVNMRSEAFTYTSEHPEGFYNWHHGAVQYSGGRFTIPRGVGGRGDSGRPIMDNSGRVVAIVLGGADEGTRTALSVVTWNSKGKTIKTTPEGTEEW 2spc-a1-m1-cA_2spc-a1-m1-cB CRYSTAL STRUCTURE OF THE REPETITIVE SEGMENTS OF SPECTRIN P13395 P13395 1.8 X-RAY DIFFRACTION 157 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 107 107 QNLDLQLYMRDCELAESWMSAREAFLNADDDANAGGNVEALIKKHEDFDKAINGHEQKIAALQTVADQLIAQNHYASNLVDEKRKQVLERWRHLKEGLIEKRSRLGD QNLDLQLYMRDCELAESWMSAREAFLNADDDANAGGNVEALIKKHEDFDKAINGHEQKIAALQTVADQLIAQNHYASNLVDEKRKQVLERWRHLKEGLIEKRSRLGD 2tbv-a1-m10-cA_2tbv-a1-m9-cB STRUCTURE OF TOMATO BUSHY STUNT VIRUS. V. COAT PROTEIN SEQUENCE DETERMINATION AND ITS STRUCTURAL IMPLICATIONS P11795 P11795 2.9 X-RAY DIFFRACTION 157 1.0 12145 (Tomato bushy stunt virus) 12145 (Tomato bushy stunt virus) 285 286 2tbv-a1-m10-cC_2tbv-a1-m24-cC 2tbv-a1-m11-cA_2tbv-a1-m15-cB 2tbv-a1-m11-cC_2tbv-a1-m16-cC 2tbv-a1-m12-cA_2tbv-a1-m11-cB 2tbv-a1-m12-cC_2tbv-a1-m38-cC 2tbv-a1-m13-cA_2tbv-a1-m12-cB 2tbv-a1-m13-cC_2tbv-a1-m47-cC 2tbv-a1-m14-cA_2tbv-a1-m13-cB 2tbv-a1-m14-cC_2tbv-a1-m45-cC 2tbv-a1-m15-cA_2tbv-a1-m14-cB 2tbv-a1-m15-cC_2tbv-a1-m29-cC 2tbv-a1-m16-cA_2tbv-a1-m20-cB 2tbv-a1-m17-cA_2tbv-a1-m16-cB 2tbv-a1-m17-cC_2tbv-a1-m28-cC 2tbv-a1-m18-cA_2tbv-a1-m17-cB 2tbv-a1-m18-cC_2tbv-a1-m52-cC 2tbv-a1-m19-cA_2tbv-a1-m18-cB 2tbv-a1-m19-cC_2tbv-a1-m60-cC 2tbv-a1-m1-cA_2tbv-a1-m5-cB 2tbv-a1-m1-cC_2tbv-a1-m6-cC 2tbv-a1-m20-cA_2tbv-a1-m19-cB 2tbv-a1-m20-cC_2tbv-a1-m39-cC 2tbv-a1-m21-cA_2tbv-a1-m25-cB 2tbv-a1-m21-cC_2tbv-a1-m26-cC 2tbv-a1-m22-cA_2tbv-a1-m21-cB 2tbv-a1-m22-cC_2tbv-a1-m43-cC 2tbv-a1-m23-cA_2tbv-a1-m22-cB 2tbv-a1-m24-cA_2tbv-a1-m23-cB 2tbv-a1-m25-cA_2tbv-a1-m24-cB 2tbv-a1-m25-cC_2tbv-a1-m54-cC 2tbv-a1-m26-cA_2tbv-a1-m30-cB 2tbv-a1-m27-cA_2tbv-a1-m26-cB 2tbv-a1-m27-cC_2tbv-a1-m53-cC 2tbv-a1-m28-cA_2tbv-a1-m27-cB 2tbv-a1-m29-cA_2tbv-a1-m28-cB 2tbv-a1-m2-cA_2tbv-a1-m1-cB 2tbv-a1-m2-cC_2tbv-a1-m23-cC 2tbv-a1-m30-cA_2tbv-a1-m29-cB 2tbv-a1-m30-cC_2tbv-a1-m44-cC 2tbv-a1-m31-cA_2tbv-a1-m35-cB 2tbv-a1-m31-cC_2tbv-a1-m36-cC 2tbv-a1-m32-cA_2tbv-a1-m31-cB 2tbv-a1-m32-cC_2tbv-a1-m58-cC 2tbv-a1-m33-cA_2tbv-a1-m32-cB 2tbv-a1-m33-cC_2tbv-a1-m7-cC 2tbv-a1-m34-cA_2tbv-a1-m33-cB 2tbv-a1-m34-cC_2tbv-a1-m5-cC 2tbv-a1-m35-cA_2tbv-a1-m34-cB 2tbv-a1-m35-cC_2tbv-a1-m49-cC 2tbv-a1-m36-cA_2tbv-a1-m40-cB 2tbv-a1-m37-cA_2tbv-a1-m36-cB 2tbv-a1-m37-cC_2tbv-a1-m48-cC 2tbv-a1-m38-cA_2tbv-a1-m37-cB 2tbv-a1-m39-cA_2tbv-a1-m38-cB 2tbv-a1-m3-cA_2tbv-a1-m2-cB 2tbv-a1-m3-cC_2tbv-a1-m42-cC 2tbv-a1-m40-cA_2tbv-a1-m39-cB 2tbv-a1-m40-cC_2tbv-a1-m59-cC 2tbv-a1-m41-cA_2tbv-a1-m45-cB 2tbv-a1-m41-cC_2tbv-a1-m46-cC 2tbv-a1-m42-cA_2tbv-a1-m41-cB 2tbv-a1-m43-cA_2tbv-a1-m42-cB 2tbv-a1-m44-cA_2tbv-a1-m43-cB 2tbv-a1-m45-cA_2tbv-a1-m44-cB 2tbv-a1-m46-cA_2tbv-a1-m50-cB 2tbv-a1-m47-cA_2tbv-a1-m46-cB 2tbv-a1-m48-cA_2tbv-a1-m47-cB 2tbv-a1-m49-cA_2tbv-a1-m48-cB 2tbv-a1-m4-cA_2tbv-a1-m3-cB 2tbv-a1-m4-cC_2tbv-a1-m50-cC 2tbv-a1-m50-cA_2tbv-a1-m49-cB 2tbv-a1-m51-cA_2tbv-a1-m55-cB 2tbv-a1-m51-cC_2tbv-a1-m56-cC 2tbv-a1-m52-cA_2tbv-a1-m51-cB 2tbv-a1-m53-cA_2tbv-a1-m52-cB 2tbv-a1-m54-cA_2tbv-a1-m53-cB 2tbv-a1-m55-cA_2tbv-a1-m54-cB 2tbv-a1-m55-cC_2tbv-a1-m9-cC 2tbv-a1-m56-cA_2tbv-a1-m60-cB 2tbv-a1-m57-cA_2tbv-a1-m56-cB 2tbv-a1-m57-cC_2tbv-a1-m8-cC 2tbv-a1-m58-cA_2tbv-a1-m57-cB 2tbv-a1-m59-cA_2tbv-a1-m58-cB 2tbv-a1-m5-cA_2tbv-a1-m4-cB 2tbv-a1-m60-cA_2tbv-a1-m59-cB 2tbv-a1-m6-cA_2tbv-a1-m10-cB 2tbv-a1-m7-cA_2tbv-a1-m6-cB 2tbv-a1-m8-cA_2tbv-a1-m7-cB 2tbv-a1-m9-cA_2tbv-a1-m8-cB GVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL GVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL 2tbv-a1-m57-cC_2tbv-a1-m9-cC STRUCTURE OF TOMATO BUSHY STUNT VIRUS. V. COAT PROTEIN SEQUENCE DETERMINATION AND ITS STRUCTURAL IMPLICATIONS P11795 P11795 2.9 X-RAY DIFFRACTION 55 1.0 12145 (Tomato bushy stunt virus) 12145 (Tomato bushy stunt virus) 320 320 2tbv-a1-m10-cC_2tbv-a1-m25-cC 2tbv-a1-m10-cC_2tbv-a1-m55-cC 2tbv-a1-m11-cC_2tbv-a1-m17-cC 2tbv-a1-m11-cC_2tbv-a1-m29-cC 2tbv-a1-m12-cC_2tbv-a1-m16-cC 2tbv-a1-m12-cC_2tbv-a1-m39-cC 2tbv-a1-m13-cC_2tbv-a1-m38-cC 2tbv-a1-m13-cC_2tbv-a1-m48-cC 2tbv-a1-m14-cC_2tbv-a1-m41-cC 2tbv-a1-m14-cC_2tbv-a1-m47-cC 2tbv-a1-m15-cC_2tbv-a1-m30-cC 2tbv-a1-m15-cC_2tbv-a1-m45-cC 2tbv-a1-m16-cC_2tbv-a1-m39-cC 2tbv-a1-m17-cC_2tbv-a1-m29-cC 2tbv-a1-m18-cC_2tbv-a1-m28-cC 2tbv-a1-m18-cC_2tbv-a1-m53-cC 2tbv-a1-m19-cC_2tbv-a1-m52-cC 2tbv-a1-m19-cC_2tbv-a1-m56-cC 2tbv-a1-m1-cC_2tbv-a1-m34-cC 2tbv-a1-m1-cC_2tbv-a1-m7-cC 2tbv-a1-m20-cC_2tbv-a1-m40-cC 2tbv-a1-m20-cC_2tbv-a1-m60-cC 2tbv-a1-m21-cC_2tbv-a1-m27-cC 2tbv-a1-m21-cC_2tbv-a1-m54-cC 2tbv-a1-m22-cC_2tbv-a1-m26-cC 2tbv-a1-m22-cC_2tbv-a1-m44-cC 2tbv-a1-m23-cC_2tbv-a1-m3-cC 2tbv-a1-m23-cC_2tbv-a1-m43-cC 2tbv-a1-m24-cC_2tbv-a1-m6-cC 2tbv-a1-m25-cC_2tbv-a1-m55-cC 2tbv-a1-m26-cC_2tbv-a1-m44-cC 2tbv-a1-m27-cC_2tbv-a1-m54-cC 2tbv-a1-m28-cC_2tbv-a1-m53-cC 2tbv-a1-m2-cC_2tbv-a1-m24-cC 2tbv-a1-m2-cC_2tbv-a1-m6-cC 2tbv-a1-m30-cC_2tbv-a1-m45-cC 2tbv-a1-m31-cC_2tbv-a1-m37-cC 2tbv-a1-m31-cC_2tbv-a1-m49-cC 2tbv-a1-m32-cC_2tbv-a1-m36-cC 2tbv-a1-m32-cC_2tbv-a1-m59-cC 2tbv-a1-m33-cC_2tbv-a1-m58-cC 2tbv-a1-m33-cC_2tbv-a1-m8-cC 2tbv-a1-m34-cC_2tbv-a1-m7-cC 2tbv-a1-m35-cC_2tbv-a1-m50-cC 2tbv-a1-m35-cC_2tbv-a1-m5-cC 2tbv-a1-m36-cC_2tbv-a1-m59-cC 2tbv-a1-m37-cC_2tbv-a1-m49-cC 2tbv-a1-m38-cC_2tbv-a1-m48-cC 2tbv-a1-m3-cC_2tbv-a1-m43-cC 2tbv-a1-m40-cC_2tbv-a1-m60-cC 2tbv-a1-m41-cC_2tbv-a1-m47-cC 2tbv-a1-m42-cC_2tbv-a1-m46-cC 2tbv-a1-m4-cC_2tbv-a1-m42-cC 2tbv-a1-m4-cC_2tbv-a1-m46-cC 2tbv-a1-m51-cC_2tbv-a1-m57-cC 2tbv-a1-m51-cC_2tbv-a1-m9-cC 2tbv-a1-m52-cC_2tbv-a1-m56-cC 2tbv-a1-m58-cC_2tbv-a1-m8-cC 2tbv-a1-m5-cC_2tbv-a1-m50-cC IITHVGGVGGSIMAPVAVSRQLVGSKPKFTGRTSGGVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL IITHVGGVGGSIMAPVAVSRQLVGSKPKFTGRTSGGVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL 2tbv-a1-m8-cA_2tbv-a1-m9-cA STRUCTURE OF TOMATO BUSHY STUNT VIRUS. 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COAT PROTEIN SEQUENCE DETERMINATION AND ITS STRUCTURAL IMPLICATIONS P11795 P11795 2.9 X-RAY DIFFRACTION 69 1.0 12145 (Tomato bushy stunt virus) 12145 (Tomato bushy stunt virus) 285 285 2tbv-a1-m10-cA_2tbv-a1-m6-cA 2tbv-a1-m10-cA_2tbv-a1-m9-cA 2tbv-a1-m10-cB_2tbv-a1-m24-cC 2tbv-a1-m10-cB_2tbv-a1-m6-cC 2tbv-a1-m11-cA_2tbv-a1-m12-cA 2tbv-a1-m11-cA_2tbv-a1-m15-cA 2tbv-a1-m11-cB_2tbv-a1-m12-cC 2tbv-a1-m11-cB_2tbv-a1-m16-cC 2tbv-a1-m12-cA_2tbv-a1-m13-cA 2tbv-a1-m12-cB_2tbv-a1-m13-cC 2tbv-a1-m12-cB_2tbv-a1-m38-cC 2tbv-a1-m13-cA_2tbv-a1-m14-cA 2tbv-a1-m13-cB_2tbv-a1-m14-cC 2tbv-a1-m13-cB_2tbv-a1-m47-cC 2tbv-a1-m14-cA_2tbv-a1-m15-cA 2tbv-a1-m14-cB_2tbv-a1-m15-cC 2tbv-a1-m14-cB_2tbv-a1-m45-cC 2tbv-a1-m15-cB_2tbv-a1-m11-cC 2tbv-a1-m15-cB_2tbv-a1-m29-cC 2tbv-a1-m16-cA_2tbv-a1-m17-cA 2tbv-a1-m16-cA_2tbv-a1-m20-cA 2tbv-a1-m16-cB_2tbv-a1-m11-cC 2tbv-a1-m16-cB_2tbv-a1-m17-cC 2tbv-a1-m17-cA_2tbv-a1-m18-cA 2tbv-a1-m17-cB_2tbv-a1-m18-cC 2tbv-a1-m17-cB_2tbv-a1-m28-cC 2tbv-a1-m18-cA_2tbv-a1-m19-cA 2tbv-a1-m18-cB_2tbv-a1-m19-cC 2tbv-a1-m18-cB_2tbv-a1-m52-cC 2tbv-a1-m19-cA_2tbv-a1-m20-cA 2tbv-a1-m19-cB_2tbv-a1-m20-cC 2tbv-a1-m19-cB_2tbv-a1-m60-cC 2tbv-a1-m1-cA_2tbv-a1-m2-cA 2tbv-a1-m1-cA_2tbv-a1-m5-cA 2tbv-a1-m1-cB_2tbv-a1-m2-cC 2tbv-a1-m1-cB_2tbv-a1-m6-cC 2tbv-a1-m20-cB_2tbv-a1-m16-cC 2tbv-a1-m20-cB_2tbv-a1-m39-cC 2tbv-a1-m21-cA_2tbv-a1-m22-cA 2tbv-a1-m21-cA_2tbv-a1-m25-cA 2tbv-a1-m21-cB_2tbv-a1-m22-cC 2tbv-a1-m21-cB_2tbv-a1-m26-cC 2tbv-a1-m22-cA_2tbv-a1-m23-cA 2tbv-a1-m22-cB_2tbv-a1-m23-cC 2tbv-a1-m22-cB_2tbv-a1-m43-cC 2tbv-a1-m23-cA_2tbv-a1-m24-cA 2tbv-a1-m23-cB_2tbv-a1-m24-cC 2tbv-a1-m23-cB_2tbv-a1-m2-cC 2tbv-a1-m24-cA_2tbv-a1-m25-cA 2tbv-a1-m24-cB_2tbv-a1-m10-cC 2tbv-a1-m24-cB_2tbv-a1-m25-cC 2tbv-a1-m25-cB_2tbv-a1-m21-cC 2tbv-a1-m25-cB_2tbv-a1-m54-cC 2tbv-a1-m26-cA_2tbv-a1-m27-cA 2tbv-a1-m26-cA_2tbv-a1-m30-cA 2tbv-a1-m26-cB_2tbv-a1-m21-cC 2tbv-a1-m26-cB_2tbv-a1-m27-cC 2tbv-a1-m27-cA_2tbv-a1-m28-cA 2tbv-a1-m27-cB_2tbv-a1-m28-cC 2tbv-a1-m27-cB_2tbv-a1-m53-cC 2tbv-a1-m28-cA_2tbv-a1-m29-cA 2tbv-a1-m28-cB_2tbv-a1-m17-cC 2tbv-a1-m28-cB_2tbv-a1-m29-cC 2tbv-a1-m29-cA_2tbv-a1-m30-cA 2tbv-a1-m29-cB_2tbv-a1-m15-cC 2tbv-a1-m29-cB_2tbv-a1-m30-cC 2tbv-a1-m2-cA_2tbv-a1-m3-cA 2tbv-a1-m2-cB_2tbv-a1-m23-cC 2tbv-a1-m2-cB_2tbv-a1-m3-cC 2tbv-a1-m30-cB_2tbv-a1-m26-cC 2tbv-a1-m30-cB_2tbv-a1-m44-cC 2tbv-a1-m31-cA_2tbv-a1-m32-cA 2tbv-a1-m31-cA_2tbv-a1-m35-cA 2tbv-a1-m31-cB_2tbv-a1-m32-cC 2tbv-a1-m31-cB_2tbv-a1-m36-cC 2tbv-a1-m32-cA_2tbv-a1-m33-cA 2tbv-a1-m32-cB_2tbv-a1-m33-cC 2tbv-a1-m32-cB_2tbv-a1-m58-cC 2tbv-a1-m33-cA_2tbv-a1-m34-cA 2tbv-a1-m33-cB_2tbv-a1-m34-cC 2tbv-a1-m33-cB_2tbv-a1-m7-cC 2tbv-a1-m34-cA_2tbv-a1-m35-cA 2tbv-a1-m34-cB_2tbv-a1-m35-cC 2tbv-a1-m34-cB_2tbv-a1-m5-cC 2tbv-a1-m35-cB_2tbv-a1-m31-cC 2tbv-a1-m35-cB_2tbv-a1-m49-cC 2tbv-a1-m36-cA_2tbv-a1-m37-cA 2tbv-a1-m36-cA_2tbv-a1-m40-cA 2tbv-a1-m36-cB_2tbv-a1-m31-cC 2tbv-a1-m36-cB_2tbv-a1-m37-cC 2tbv-a1-m37-cA_2tbv-a1-m38-cA 2tbv-a1-m37-cB_2tbv-a1-m38-cC 2tbv-a1-m37-cB_2tbv-a1-m48-cC 2tbv-a1-m38-cA_2tbv-a1-m39-cA 2tbv-a1-m38-cB_2tbv-a1-m12-cC 2tbv-a1-m38-cB_2tbv-a1-m39-cC 2tbv-a1-m39-cA_2tbv-a1-m40-cA 2tbv-a1-m39-cB_2tbv-a1-m20-cC 2tbv-a1-m39-cB_2tbv-a1-m40-cC 2tbv-a1-m3-cA_2tbv-a1-m4-cA 2tbv-a1-m3-cB_2tbv-a1-m42-cC 2tbv-a1-m3-cB_2tbv-a1-m4-cC 2tbv-a1-m40-cB_2tbv-a1-m36-cC 2tbv-a1-m40-cB_2tbv-a1-m59-cC 2tbv-a1-m41-cA_2tbv-a1-m42-cA 2tbv-a1-m41-cA_2tbv-a1-m45-cA 2tbv-a1-m41-cB_2tbv-a1-m42-cC 2tbv-a1-m41-cB_2tbv-a1-m46-cC 2tbv-a1-m42-cA_2tbv-a1-m43-cA 2tbv-a1-m42-cB_2tbv-a1-m3-cC 2tbv-a1-m42-cB_2tbv-a1-m43-cC 2tbv-a1-m43-cA_2tbv-a1-m44-cA 2tbv-a1-m43-cB_2tbv-a1-m22-cC 2tbv-a1-m43-cB_2tbv-a1-m44-cC 2tbv-a1-m44-cA_2tbv-a1-m45-cA 2tbv-a1-m44-cB_2tbv-a1-m30-cC 2tbv-a1-m44-cB_2tbv-a1-m45-cC 2tbv-a1-m45-cB_2tbv-a1-m14-cC 2tbv-a1-m45-cB_2tbv-a1-m41-cC 2tbv-a1-m46-cA_2tbv-a1-m47-cA 2tbv-a1-m46-cA_2tbv-a1-m50-cA 2tbv-a1-m46-cB_2tbv-a1-m41-cC 2tbv-a1-m46-cB_2tbv-a1-m47-cC 2tbv-a1-m47-cA_2tbv-a1-m48-cA 2tbv-a1-m47-cB_2tbv-a1-m13-cC 2tbv-a1-m47-cB_2tbv-a1-m48-cC 2tbv-a1-m48-cA_2tbv-a1-m49-cA 2tbv-a1-m48-cB_2tbv-a1-m37-cC 2tbv-a1-m48-cB_2tbv-a1-m49-cC 2tbv-a1-m49-cA_2tbv-a1-m50-cA 2tbv-a1-m49-cB_2tbv-a1-m35-cC 2tbv-a1-m49-cB_2tbv-a1-m50-cC 2tbv-a1-m4-cA_2tbv-a1-m5-cA 2tbv-a1-m4-cB_2tbv-a1-m50-cC 2tbv-a1-m4-cB_2tbv-a1-m5-cC 2tbv-a1-m50-cB_2tbv-a1-m46-cC 2tbv-a1-m50-cB_2tbv-a1-m4-cC 2tbv-a1-m51-cA_2tbv-a1-m52-cA 2tbv-a1-m51-cA_2tbv-a1-m55-cA 2tbv-a1-m51-cB_2tbv-a1-m52-cC 2tbv-a1-m51-cB_2tbv-a1-m56-cC 2tbv-a1-m52-cA_2tbv-a1-m53-cA 2tbv-a1-m52-cB_2tbv-a1-m18-cC 2tbv-a1-m52-cB_2tbv-a1-m53-cC 2tbv-a1-m53-cA_2tbv-a1-m54-cA 2tbv-a1-m53-cB_2tbv-a1-m27-cC 2tbv-a1-m53-cB_2tbv-a1-m54-cC 2tbv-a1-m54-cA_2tbv-a1-m55-cA 2tbv-a1-m54-cB_2tbv-a1-m25-cC 2tbv-a1-m54-cB_2tbv-a1-m55-cC 2tbv-a1-m55-cB_2tbv-a1-m51-cC 2tbv-a1-m55-cB_2tbv-a1-m9-cC 2tbv-a1-m56-cA_2tbv-a1-m57-cA 2tbv-a1-m56-cA_2tbv-a1-m60-cA 2tbv-a1-m56-cB_2tbv-a1-m51-cC 2tbv-a1-m56-cB_2tbv-a1-m57-cC 2tbv-a1-m57-cA_2tbv-a1-m58-cA 2tbv-a1-m57-cB_2tbv-a1-m58-cC 2tbv-a1-m57-cB_2tbv-a1-m8-cC 2tbv-a1-m58-cA_2tbv-a1-m59-cA 2tbv-a1-m58-cB_2tbv-a1-m32-cC 2tbv-a1-m58-cB_2tbv-a1-m59-cC 2tbv-a1-m59-cA_2tbv-a1-m60-cA 2tbv-a1-m59-cB_2tbv-a1-m40-cC 2tbv-a1-m59-cB_2tbv-a1-m60-cC 2tbv-a1-m5-cB_2tbv-a1-m1-cC 2tbv-a1-m5-cB_2tbv-a1-m34-cC 2tbv-a1-m60-cB_2tbv-a1-m19-cC 2tbv-a1-m60-cB_2tbv-a1-m56-cC 2tbv-a1-m6-cA_2tbv-a1-m7-cA 2tbv-a1-m6-cB_2tbv-a1-m1-cC 2tbv-a1-m6-cB_2tbv-a1-m7-cC 2tbv-a1-m7-cA_2tbv-a1-m8-cA 2tbv-a1-m7-cB_2tbv-a1-m33-cC 2tbv-a1-m7-cB_2tbv-a1-m8-cC 2tbv-a1-m8-cB_2tbv-a1-m57-cC 2tbv-a1-m8-cB_2tbv-a1-m9-cC 2tbv-a1-m9-cB_2tbv-a1-m10-cC 2tbv-a1-m9-cB_2tbv-a1-m55-cC GVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL GVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL 2tbv-a1-m9-cA_2tbv-a1-m9-cB STRUCTURE OF TOMATO BUSHY STUNT VIRUS. V. COAT PROTEIN SEQUENCE DETERMINATION AND ITS STRUCTURAL IMPLICATIONS P11795 P11795 2.9 X-RAY DIFFRACTION 59 1.0 12145 (Tomato bushy stunt virus) 12145 (Tomato bushy stunt virus) 285 286 2tbv-a1-m10-cA_2tbv-a1-m10-cB 2tbv-a1-m10-cA_2tbv-a1-m10-cC 2tbv-a1-m10-cB_2tbv-a1-m10-cC 2tbv-a1-m11-cA_2tbv-a1-m11-cB 2tbv-a1-m11-cA_2tbv-a1-m11-cC 2tbv-a1-m11-cB_2tbv-a1-m11-cC 2tbv-a1-m12-cA_2tbv-a1-m12-cB 2tbv-a1-m12-cA_2tbv-a1-m12-cC 2tbv-a1-m12-cB_2tbv-a1-m12-cC 2tbv-a1-m13-cA_2tbv-a1-m13-cB 2tbv-a1-m13-cA_2tbv-a1-m13-cC 2tbv-a1-m13-cB_2tbv-a1-m13-cC 2tbv-a1-m14-cA_2tbv-a1-m14-cB 2tbv-a1-m14-cA_2tbv-a1-m14-cC 2tbv-a1-m14-cB_2tbv-a1-m14-cC 2tbv-a1-m15-cA_2tbv-a1-m15-cB 2tbv-a1-m15-cA_2tbv-a1-m15-cC 2tbv-a1-m15-cB_2tbv-a1-m15-cC 2tbv-a1-m16-cA_2tbv-a1-m16-cB 2tbv-a1-m16-cA_2tbv-a1-m16-cC 2tbv-a1-m16-cB_2tbv-a1-m16-cC 2tbv-a1-m17-cA_2tbv-a1-m17-cB 2tbv-a1-m17-cA_2tbv-a1-m17-cC 2tbv-a1-m17-cB_2tbv-a1-m17-cC 2tbv-a1-m18-cA_2tbv-a1-m18-cB 2tbv-a1-m18-cA_2tbv-a1-m18-cC 2tbv-a1-m18-cB_2tbv-a1-m18-cC 2tbv-a1-m19-cA_2tbv-a1-m19-cB 2tbv-a1-m19-cA_2tbv-a1-m19-cC 2tbv-a1-m19-cB_2tbv-a1-m19-cC 2tbv-a1-m1-cA_2tbv-a1-m1-cB 2tbv-a1-m1-cA_2tbv-a1-m1-cC 2tbv-a1-m1-cB_2tbv-a1-m1-cC 2tbv-a1-m20-cA_2tbv-a1-m20-cB 2tbv-a1-m20-cA_2tbv-a1-m20-cC 2tbv-a1-m20-cB_2tbv-a1-m20-cC 2tbv-a1-m21-cA_2tbv-a1-m21-cB 2tbv-a1-m21-cA_2tbv-a1-m21-cC 2tbv-a1-m21-cB_2tbv-a1-m21-cC 2tbv-a1-m22-cA_2tbv-a1-m22-cB 2tbv-a1-m22-cA_2tbv-a1-m22-cC 2tbv-a1-m22-cB_2tbv-a1-m22-cC 2tbv-a1-m23-cA_2tbv-a1-m23-cB 2tbv-a1-m23-cA_2tbv-a1-m23-cC 2tbv-a1-m23-cB_2tbv-a1-m23-cC 2tbv-a1-m24-cA_2tbv-a1-m24-cB 2tbv-a1-m24-cA_2tbv-a1-m24-cC 2tbv-a1-m24-cB_2tbv-a1-m24-cC 2tbv-a1-m25-cA_2tbv-a1-m25-cB 2tbv-a1-m25-cA_2tbv-a1-m25-cC 2tbv-a1-m25-cB_2tbv-a1-m25-cC 2tbv-a1-m26-cA_2tbv-a1-m26-cB 2tbv-a1-m26-cA_2tbv-a1-m26-cC 2tbv-a1-m26-cB_2tbv-a1-m26-cC 2tbv-a1-m27-cA_2tbv-a1-m27-cB 2tbv-a1-m27-cA_2tbv-a1-m27-cC 2tbv-a1-m27-cB_2tbv-a1-m27-cC 2tbv-a1-m28-cA_2tbv-a1-m28-cB 2tbv-a1-m28-cA_2tbv-a1-m28-cC 2tbv-a1-m28-cB_2tbv-a1-m28-cC 2tbv-a1-m29-cA_2tbv-a1-m29-cB 2tbv-a1-m29-cA_2tbv-a1-m29-cC 2tbv-a1-m29-cB_2tbv-a1-m29-cC 2tbv-a1-m2-cA_2tbv-a1-m2-cB 2tbv-a1-m2-cA_2tbv-a1-m2-cC 2tbv-a1-m2-cB_2tbv-a1-m2-cC 2tbv-a1-m30-cA_2tbv-a1-m30-cB 2tbv-a1-m30-cA_2tbv-a1-m30-cC 2tbv-a1-m30-cB_2tbv-a1-m30-cC 2tbv-a1-m31-cA_2tbv-a1-m31-cB 2tbv-a1-m31-cA_2tbv-a1-m31-cC 2tbv-a1-m31-cB_2tbv-a1-m31-cC 2tbv-a1-m32-cA_2tbv-a1-m32-cB 2tbv-a1-m32-cA_2tbv-a1-m32-cC 2tbv-a1-m32-cB_2tbv-a1-m32-cC 2tbv-a1-m33-cA_2tbv-a1-m33-cB 2tbv-a1-m33-cA_2tbv-a1-m33-cC 2tbv-a1-m33-cB_2tbv-a1-m33-cC 2tbv-a1-m34-cA_2tbv-a1-m34-cB 2tbv-a1-m34-cA_2tbv-a1-m34-cC 2tbv-a1-m34-cB_2tbv-a1-m34-cC 2tbv-a1-m35-cA_2tbv-a1-m35-cB 2tbv-a1-m35-cA_2tbv-a1-m35-cC 2tbv-a1-m35-cB_2tbv-a1-m35-cC 2tbv-a1-m36-cA_2tbv-a1-m36-cB 2tbv-a1-m36-cA_2tbv-a1-m36-cC 2tbv-a1-m36-cB_2tbv-a1-m36-cC 2tbv-a1-m37-cA_2tbv-a1-m37-cB 2tbv-a1-m37-cA_2tbv-a1-m37-cC 2tbv-a1-m37-cB_2tbv-a1-m37-cC 2tbv-a1-m38-cA_2tbv-a1-m38-cB 2tbv-a1-m38-cA_2tbv-a1-m38-cC 2tbv-a1-m38-cB_2tbv-a1-m38-cC 2tbv-a1-m39-cA_2tbv-a1-m39-cB 2tbv-a1-m39-cA_2tbv-a1-m39-cC 2tbv-a1-m39-cB_2tbv-a1-m39-cC 2tbv-a1-m3-cA_2tbv-a1-m3-cB 2tbv-a1-m3-cA_2tbv-a1-m3-cC 2tbv-a1-m3-cB_2tbv-a1-m3-cC 2tbv-a1-m40-cA_2tbv-a1-m40-cB 2tbv-a1-m40-cA_2tbv-a1-m40-cC 2tbv-a1-m40-cB_2tbv-a1-m40-cC 2tbv-a1-m41-cA_2tbv-a1-m41-cB 2tbv-a1-m41-cA_2tbv-a1-m41-cC 2tbv-a1-m41-cB_2tbv-a1-m41-cC 2tbv-a1-m42-cA_2tbv-a1-m42-cB 2tbv-a1-m42-cA_2tbv-a1-m42-cC 2tbv-a1-m42-cB_2tbv-a1-m42-cC 2tbv-a1-m43-cA_2tbv-a1-m43-cB 2tbv-a1-m43-cA_2tbv-a1-m43-cC 2tbv-a1-m43-cB_2tbv-a1-m43-cC 2tbv-a1-m44-cA_2tbv-a1-m44-cB 2tbv-a1-m44-cA_2tbv-a1-m44-cC 2tbv-a1-m44-cB_2tbv-a1-m44-cC 2tbv-a1-m45-cA_2tbv-a1-m45-cB 2tbv-a1-m45-cA_2tbv-a1-m45-cC 2tbv-a1-m45-cB_2tbv-a1-m45-cC 2tbv-a1-m46-cA_2tbv-a1-m46-cB 2tbv-a1-m46-cA_2tbv-a1-m46-cC 2tbv-a1-m46-cB_2tbv-a1-m46-cC 2tbv-a1-m47-cA_2tbv-a1-m47-cB 2tbv-a1-m47-cA_2tbv-a1-m47-cC 2tbv-a1-m47-cB_2tbv-a1-m47-cC 2tbv-a1-m48-cA_2tbv-a1-m48-cB 2tbv-a1-m48-cA_2tbv-a1-m48-cC 2tbv-a1-m48-cB_2tbv-a1-m48-cC 2tbv-a1-m49-cA_2tbv-a1-m49-cB 2tbv-a1-m49-cA_2tbv-a1-m49-cC 2tbv-a1-m49-cB_2tbv-a1-m49-cC 2tbv-a1-m4-cA_2tbv-a1-m4-cB 2tbv-a1-m4-cA_2tbv-a1-m4-cC 2tbv-a1-m4-cB_2tbv-a1-m4-cC 2tbv-a1-m50-cA_2tbv-a1-m50-cB 2tbv-a1-m50-cA_2tbv-a1-m50-cC 2tbv-a1-m50-cB_2tbv-a1-m50-cC 2tbv-a1-m51-cA_2tbv-a1-m51-cB 2tbv-a1-m51-cA_2tbv-a1-m51-cC 2tbv-a1-m51-cB_2tbv-a1-m51-cC 2tbv-a1-m52-cA_2tbv-a1-m52-cB 2tbv-a1-m52-cA_2tbv-a1-m52-cC 2tbv-a1-m52-cB_2tbv-a1-m52-cC 2tbv-a1-m53-cA_2tbv-a1-m53-cB 2tbv-a1-m53-cA_2tbv-a1-m53-cC 2tbv-a1-m53-cB_2tbv-a1-m53-cC 2tbv-a1-m54-cA_2tbv-a1-m54-cB 2tbv-a1-m54-cA_2tbv-a1-m54-cC 2tbv-a1-m54-cB_2tbv-a1-m54-cC 2tbv-a1-m55-cA_2tbv-a1-m55-cB 2tbv-a1-m55-cA_2tbv-a1-m55-cC 2tbv-a1-m55-cB_2tbv-a1-m55-cC 2tbv-a1-m56-cA_2tbv-a1-m56-cB 2tbv-a1-m56-cA_2tbv-a1-m56-cC 2tbv-a1-m56-cB_2tbv-a1-m56-cC 2tbv-a1-m57-cA_2tbv-a1-m57-cB 2tbv-a1-m57-cA_2tbv-a1-m57-cC 2tbv-a1-m57-cB_2tbv-a1-m57-cC 2tbv-a1-m58-cA_2tbv-a1-m58-cB 2tbv-a1-m58-cA_2tbv-a1-m58-cC 2tbv-a1-m58-cB_2tbv-a1-m58-cC 2tbv-a1-m59-cA_2tbv-a1-m59-cB 2tbv-a1-m59-cA_2tbv-a1-m59-cC 2tbv-a1-m59-cB_2tbv-a1-m59-cC 2tbv-a1-m5-cA_2tbv-a1-m5-cB 2tbv-a1-m5-cA_2tbv-a1-m5-cC 2tbv-a1-m5-cB_2tbv-a1-m5-cC 2tbv-a1-m60-cA_2tbv-a1-m60-cB 2tbv-a1-m60-cA_2tbv-a1-m60-cC 2tbv-a1-m60-cB_2tbv-a1-m60-cC 2tbv-a1-m6-cA_2tbv-a1-m6-cB 2tbv-a1-m6-cA_2tbv-a1-m6-cC 2tbv-a1-m6-cB_2tbv-a1-m6-cC 2tbv-a1-m7-cA_2tbv-a1-m7-cB 2tbv-a1-m7-cA_2tbv-a1-m7-cC 2tbv-a1-m7-cB_2tbv-a1-m7-cC 2tbv-a1-m8-cA_2tbv-a1-m8-cB 2tbv-a1-m8-cA_2tbv-a1-m8-cC 2tbv-a1-m8-cB_2tbv-a1-m8-cC 2tbv-a1-m9-cA_2tbv-a1-m9-cC 2tbv-a1-m9-cB_2tbv-a1-m9-cC GVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL GVTVTSHREYLTQVNNSSGFVVNGGIVGNSLQLNPSNGTLFSWLPALASNFDQYSFNSVVLDYVPLCGTTEVGRVALYFDKDSQDPEPADRVELANFGVLKETAPWAEAMLRIPTDKVKRYCNDSATVDQKLIDLGQLGIATYGGAGADAVGELFLARSVTLYFPQPTNTLLSSKRLDLTGSLADATGPGYLVLTRTPTVLTHTFRATGTFNLSGGLRCLTSLTLGATGAVVINDILAIDNVGTASDYFLNCTVSSLPATVTFTVSGVAAGILLVGRARANVVNLL 2tod-a1-m1-cB_2tod-a1-m1-cA ORNITHINE DECARBOXYLASE FROM TRYPANOSOMA BRUCEI K69A MUTANT IN COMPLEX WITH ALPHA-DIFLUOROMETHYLORNITHINE P07805 P07805 2 X-RAY DIFFRACTION 143 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 352 353 1f3t-a1-m1-cA_1f3t-a1-m1-cB 1f3t-a2-m1-cD_1f3t-a2-m1-cC 1njj-a1-m1-cA_1njj-a1-m1-cB 1njj-a2-m1-cC_1njj-a2-m1-cD 1qu4-a1-m1-cA_1qu4-a1-m1-cB 1qu4-a2-m1-cC_1qu4-a2-m1-cD 1szr-a1-m1-cC_1szr-a1-m1-cD 1szr-a2-m1-cA_1szr-a2-m1-cB 2tod-a2-m1-cC_2tod-a2-m1-cD GDPFFVADLGDIVRKHETWKKCLPRVTPFYAVACNDDWRVLGTLAALGTGFDCASNTEIQRVRGIGVPPEKIIYANPCKQISHIRYARDSGVDVMTFDCVDELEKVAKTHPKAKMVLRISTLSVKFGAKVEDCRFILEQAKKLNIDVTGVSFHVGSGSTDASTFAQAISDSRFVFDMGTELGFNMHILDIGGGFPGTRDAPLKFEEIAGVINNALEKHFPPDLKLTIVAEPGRYYVASAFTLAVNVIAKKVTAQSFMYYVNDGVYGSFNCILYDHAVVRPLPQREPIPNEKLYPSSVWGPTCDGLDQIVERYYLPEMQVGEWLLFEDMGAYTVVGTSSFNGFQSPTIYYVVS GDPFFVADLGDIVRKHETWKKCLPRVTPFYAVACNDDWRVLGTLAALGTGFDCASNTEIQRVRGIGVPPEKIIYANPCKQISHIRYARDSGVDVMTFDCVDELEKVAKTHPKAKMVLRISTLSVKFGAKVEDCRFILEQAKKLNIDVTGVSFHVGSGSTDASTFAQAISDSRFVFDMGTELGFNMHILDIGGGFPGTRDAPLKFEEIAGVINNALEKHFPPDLKLTIVAEPGRYYVASAFTLAVNVIAKKVTPAQSFMYYVNDGVYGSFNCILYDHAVVRPLPQREPIPNEKLYPSSVWGPTCDGLDQIVERYYLPEMQVGEWLLFEDMGAYTVVGTSSFNGFQSPTIYYVVS 2ts1-a1-m1-cA_2ts1-a1-m2-cA STRUCTURE OF TYROSYL-T/RNA SYNTHETASE REFINED AT 2.3 ANGSTROMS RESOLUTION. INTERACTION OF THE ENZYME WITH THE TYROSYL ADENYLATE INTERMEDIATE P00952 P00952 2.3 X-RAY DIFFRACTION 108 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 317 317 1tya-a1-m1-cE_1tya-a1-m2-cE 1tyb-a1-m1-cE_1tyb-a1-m2-cE 1tyc-a1-m1-cA_1tyc-a1-m2-cA 1tyd-a1-m1-cE_1tyd-a1-m2-cE 3ts1-a1-m1-cA_3ts1-a1-m2-cA 4ts1-a1-m1-cB_4ts1-a1-m1-cA MDLLAELQWRGLVNQTTDEDGLRKLLNEERVTLYCGFDPTADSLHIGHLATILTMRRFQQAGHRPIALVGGATGLIGDPSGKKSERTLNAKETVEAWSARIKEQLGRFLDFEADGNPAKIKNNYDWIGPLDVITFLRDVGKHFSVNYMMAKESVQSRIETGISFTEFSYMMLQAYDFLRLYETEGCRLQIGGSDQWGNITAGLELIRKTKGRAFGLTIPLVTKADGTKFGKTESGTIWLDKEKTSPYEFYQFWINTDDRDVIRYLKYFTFLSKEEIEALEQELREAPEKRAAQKTLAEEVTKLVHGEEALRQAIRIS MDLLAELQWRGLVNQTTDEDGLRKLLNEERVTLYCGFDPTADSLHIGHLATILTMRRFQQAGHRPIALVGGATGLIGDPSGKKSERTLNAKETVEAWSARIKEQLGRFLDFEADGNPAKIKNNYDWIGPLDVITFLRDVGKHFSVNYMMAKESVQSRIETGISFTEFSYMMLQAYDFLRLYETEGCRLQIGGSDQWGNITAGLELIRKTKGRAFGLTIPLVTKADGTKFGKTESGTIWLDKEKTSPYEFYQFWINTDDRDVIRYLKYFTFLSKEEIEALEQELREAPEKRAAQKTLAEEVTKLVHGEEALRQAIRIS 2uul-a2-m1-cT_2uul-a2-m1-cX Crystal structure of C-phycocyanin from Phormidium, Lyngbya spp. (Marine) and Spirulina sp. (Fresh water) shows two different ways of energy transfer between two hexamers. 3.1 X-RAY DIFFRACTION 10 1.0 1199 (Phormidium sp.) 1199 (Phormidium sp.) 172 172 1gh0-a1-m1-cD_1gh0-a1-m1-cF 1gh0-a1-m1-cH_1gh0-a1-m1-cL 1gh0-a1-m1-cJ_1gh0-a1-m1-cL 1gh0-a2-m1-cT_1gh0-a2-m1-cX 1gh0-a3-m1-cD_1gh0-a3-m1-cF 1gh0-a3-m1-cH_1gh0-a3-m1-cL 1gh0-a3-m1-cJ_1gh0-a3-m1-cL 1gh0-a3-m1-cT_1gh0-a3-m1-cX 1gh0-a4-m1-cD_1gh0-a4-m1-cF 1gh0-a4-m1-cH_1gh0-a4-m1-cL 1gh0-a4-m1-cJ_1gh0-a4-m1-cL 1gh0-a4-m2-cT_1gh0-a4-m2-cX 1ha7-a1-m1-cB_1ha7-a1-m1-cD 1ha7-a1-m1-cB_1ha7-a1-m1-cF 1ha7-a1-m1-cD_1ha7-a1-m1-cF 1ha7-a1-m1-cH_1ha7-a1-m1-cJ 1ha7-a1-m1-cH_1ha7-a1-m1-cL 1ha7-a1-m1-cJ_1ha7-a1-m1-cL 1ha7-a2-m1-cN_1ha7-a2-m1-cP 1ha7-a2-m1-cN_1ha7-a2-m1-cR 1ha7-a2-m1-cP_1ha7-a2-m1-cR 1ha7-a2-m1-cV_1ha7-a2-m1-cX 2uul-a1-m1-cJ_2uul-a1-m1-cL 2uul-a2-m1-cN_2uul-a2-m1-cP 2uul-a2-m1-cN_2uul-a2-m1-cR 2uum-a1-m1-cH_2uum-a1-m1-cJ 2uum-a2-m1-cV_2uum-a2-m1-cX 2uun-a1-m1-cB_2uun-a1-m1-cD 2uun-a2-m1-cN_2uun-a2-m1-cP 2uun-a2-m1-cN_2uun-a2-m1-cR 4l1e-a1-m1-cB_4l1e-a1-m1-cH 4l1e-a1-m1-cD_4l1e-a1-m1-cF 4l1e-a1-m1-cF_4l1e-a1-m1-cL MFDAFTKVAAQADTRGEMVSVAQIDALSQMVAEANKRLDAVNRITANASTVVSNAARALFAEQPQLIAPGGNAYTSNRMAACLRDMEIILRYVTYAVFAGDASALEDRCLNGLRETYSALGTPGSSVAVGVGKMKEAALAIVNDPAGITPGDCSALASEIAGYFDRAAAAVS MFDAFTKVAAQADTRGEMVSVAQIDALSQMVAEANKRLDAVNRITANASTVVSNAARALFAEQPQLIAPGGNAYTSNRMAACLRDMEIILRYVTYAVFAGDASALEDRCLNGLRETYSALGTPGSSVAVGVGKMKEAALAIVNDPAGITPGDCSALASEIAGYFDRAAAAVS 2uuq-a1-m1-cA_2uuq-a1-m2-cA Crystal structure of CYP130 from Mycobacterium tuberculosis in the ligand-free form P9WPN5 P9WPN5 1.46 X-RAY DIFFRACTION 85 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 394 394 SHEFQLATAETWPNPWPMYRALRDHDPVHHVVPPQRPEYDYYVLSRHADVWSAARDHQTFSSAQGLTVNYGELEMIGLHDTPPMVMQDPPVHTEFRKLVSRGFTPRQVETVEPTVRKFVVERLEKLRANGGGDIVTELFKPLPSMVVAHYLGVPEEDWTQFDGWTQAIVAANAVGALDAVGSMMAYFTGLIERRRTEPADDAISHLVAAGVGADGDTAGTLSILAFTFTMVTGGNDTVTGMLGGSMPLLHRRPDQRRLLLDDPEGIPDAVEELLRLTSPVQGLARTTTRDVTIGDTTIPAGRRVLLLYGSANRDERQYGPDAAELDVTRCPRNILTFSHGAHHCLGAAAARMQCRVALTELLARCPDFEVAESRIVWSGGSYVRRPLSVPFRVT SHEFQLATAETWPNPWPMYRALRDHDPVHHVVPPQRPEYDYYVLSRHADVWSAARDHQTFSSAQGLTVNYGELEMIGLHDTPPMVMQDPPVHTEFRKLVSRGFTPRQVETVEPTVRKFVVERLEKLRANGGGDIVTELFKPLPSMVVAHYLGVPEEDWTQFDGWTQAIVAANAVGALDAVGSMMAYFTGLIERRRTEPADDAISHLVAAGVGADGDTAGTLSILAFTFTMVTGGNDTVTGMLGGSMPLLHRRPDQRRLLLDDPEGIPDAVEELLRLTSPVQGLARTTTRDVTIGDTTIPAGRRVLLLYGSANRDERQYGPDAAELDVTRCPRNILTFSHGAHHCLGAAAARMQCRVALTELLARCPDFEVAESRIVWSGGSYVRRPLSVPFRVT 2uuu-a1-m1-cB_2uuu-a1-m1-cA alkyldihydroxyacetonephosphate synthase in P212121 O96759 O96759 1.95 X-RAY DIFFRACTION 120 0.993 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 540 550 2uuu-a2-m1-cD_2uuu-a2-m1-cC 2uuv-a1-m1-cA_2uuv-a1-m1-cB 2uuv-a2-m1-cC_2uuv-a2-m1-cD HIDLYQQIKWNGWGDTRKFLHQLKPSGTIAMTTPEVSSVPLPSLRGFIKKELTPFVLDETPALQIENIHVDPPKQYPEFVRELKAFFLPDQLKDDKLARITHTFGKSLRDLIRVRIGQVKNAPDLIVLPHSHEEVERLVQLAHKYNVVIIPMGGGSNIVGAIEPVSNERFTVSIDMRRMNKVLWVDRREMTACIQVGIMGPELEKQLHKQGVSLGHDPDSFEFSTLGGWLATCSSGHQSDKYGDIEDMAVSFRTVTPTGTLELRNGAGINYKHIILGSEGTLGIITEAVMKVHAVPQAVEYYGFLFPTFAHAVSALQQIRSSEVIPTMIRVYDPEETQLSFAWKPSEFTSAMVKKYLHYIRSFDFKNVCLSIIGFEGPKKVVDFHRTSVFDILSKNAAFGLGSAPGKTWAEKRYDLPYIRDFLLDHNMWVDVAETTVSYANLQTLWKDAKQTFVKHFKDQGIPAWICAHISHTYTNGVCLYFIFASKQNEDMAQYIEAKKLMTDIIFKYGGSLSTRGWINVYRSLKETIDPKDICNPRKL MGSPKEHIDLYQQIKWNGWGDTRKFLHQLKPSGTIAMTTPEVSSVPLPSLRGFIKKELTKPFVLDETPALQIENIHVDPPKQYPEFVRELKAFFLPDQLKDDKLARITHTFGKSLRDLIRVRIGQVKNAPDLIVLPHSHEEVERLVQLAHKYNVVIIPMGGGSNIVGAIEPVSNERFTVSIDMRRMNKVLWVDRREMTACIQVGIMGPELEKQLHKQGVSLGHDPDSFEFSTLGGWLATCSSGHQSDKYGDIEDMAVSFRTVTPTGTLELRGINYKHIILGSEGTLGIITEAVMKVHAVPQAVEYYGFLFPTFAHAVSALQQIRSSEVIPTMIRVYDPEETQLSFAWKPSKGAVSEFTSAMVKKYLHYIRSFDFKNVCLSIIGFEGPKKVVDFHRTSVFDILSKNAAFGLGSAPGKTWAEKRYDLPYIRDFLLDHNMWVDVAETTVSYANLQTLWKDAKQTFVKHFKDQGIPAWICAHISHTYTNGVCLYFIFASKQNENKDMAQYIEAKKLMTDIIFKYGGSLSRGWINVYRSLKETIDPKDICNPRKL 2uuz-a1-m1-cB_2uuz-a1-m1-cA Orthorhombic crystal form of GamS from bacteriophage lambda. P03702 P03702 2.3 X-RAY DIFFRACTION 112 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 85 89 2uv1-a1-m1-cA_2uv1-a1-m1-cB 5mbv-a1-m1-cE_5mbv-a1-m1-cA QSWARHYQQLAREEKEAELADDMEKGIPQHLFESLCIDHLQRHGASKKSITRAFDDDVEFQERMAEHIRYMVETIAHHQVDIDSE RLEAQSWARHYQQLAREEKEAELADDMEKGIPQHLFESLCIDHLQRHGASKKSITRAFDDDVEFQERMAEHIRYMVETIAHHQVDIDSE 2uv3-a1-m1-cA_2uv3-a1-m1-cB Structure of the signal-regulatory protein (SIRP) alpha domain that binds CD47. P78324 P78324 1.8 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 122 EELQVIQPDKSVSVAAGESAILHCTVTSLIPVGPIQWFRGAGPARELIYNQKEGHFPRVTTVSESTKRENMDFSISISNITPADAGTYYCVKFRKGSPDTEFKSGAGTELSVRAKPSTRH EELQVIQPDKSVSVAAGESAILHCTVTSLIPVGPIQWFRGAGPARELIYNQKEGHFPRVTTVSESTKRENMDFSISISNITPADAGTYYCVKFRKGSPDTEFKSGAGTELSVRAKPSTRHHH 2uv4-a1-m1-cA_2uv4-a1-m2-cA Crystal Structure of a CBS domain pair from the regulatory gamma1 subunit of human AMPK in complex with AMP P54619 P54619 1.33 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 143 2uv5-a1-m1-cA_2uv5-a1-m2-cA 2uv6-a1-m1-cA_2uv6-a1-m2-cA 2uv7-a1-m1-cA_2uv7-a1-m2-cA HEFPKPEFMSKSLEELQIGTYANIAMVRTTTPVYVALGIFVQHRVSALPVVDEKGRVVDIYSKFDVINLAAEKTYNNLDVSVTKALQHRSHYFEGVLKCYLHETLETIINRLVEAEVHRLVVVDENDVVKGIVSLSDILQALV HEFPKPEFMSKSLEELQIGTYANIAMVRTTTPVYVALGIFVQHRVSALPVVDEKGRVVDIYSKFDVINLAAEKTYNNLDVSVTKALQHRSHYFEGVLKCYLHETLETIINRLVEAEVHRLVVVDENDVVKGIVSLSDILQALV 2uvd-a2-m1-cE_2uvd-a2-m1-cH The crystal structure of a 3-oxoacyl-(acyl carrier protein) reductase from Bacillus anthracis (BA3989) A0A6L7H0J7 A0A6L7H0J7 2.4 X-RAY DIFFRACTION 87 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 246 246 2uvd-a1-m1-cA_2uvd-a1-m1-cD 2uvd-a1-m1-cB_2uvd-a1-m1-cC 2uvd-a2-m1-cF_2uvd-a2-m1-cG MLKGKVALVTGASRGIGRAIAIDLAKQGANVVVNYAGNEQKANEVVDEIKKLGSDAIAVRADVANAEDVTNMVKQTVDVFGQVDILVNNAGVTKDNLLMRMKEEEWDTVINTNLKGVFLCTKAVSRFMMRQRHGRIVNIASVVGVTGNPGQANYVAAKAGVIGLTKTSAKELASRNITVNAIAPGFIATDMTDVLDENIKAEMLKLIPAAQFGEAQDIANAVTFFASDQSKYITGQTLNVDGGMVM MLKGKVALVTGASRGIGRAIAIDLAKQGANVVVNYAGNEQKANEVVDEIKKLGSDAIAVRADVANAEDVTNMVKQTVDVFGQVDILVNNAGVTKDNLLMRMKEEEWDTVINTNLKGVFLCTKAVSRFMMRQRHGRIVNIASVVGVTGNPGQANYVAAKAGVIGLTKTSAKELASRNITVNAIAPGFIATDMTDVLDENIKAEMLKLIPAAQFGEAQDIANAVTFFASDQSKYITGQTLNVDGGMVM 2uvd-a2-m1-cG_2uvd-a2-m1-cH The crystal structure of a 3-oxoacyl-(acyl carrier protein) reductase from Bacillus anthracis (BA3989) A0A6L7H0J7 A0A6L7H0J7 2.4 X-RAY DIFFRACTION 129 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 246 246 2uvd-a1-m1-cA_2uvd-a1-m1-cB 2uvd-a1-m1-cC_2uvd-a1-m1-cD 2uvd-a2-m1-cE_2uvd-a2-m1-cF MLKGKVALVTGASRGIGRAIAIDLAKQGANVVVNYAGNEQKANEVVDEIKKLGSDAIAVRADVANAEDVTNMVKQTVDVFGQVDILVNNAGVTKDNLLMRMKEEEWDTVINTNLKGVFLCTKAVSRFMMRQRHGRIVNIASVVGVTGNPGQANYVAAKAGVIGLTKTSAKELASRNITVNAIAPGFIATDMTDVLDENIKAEMLKLIPAAQFGEAQDIANAVTFFASDQSKYITGQTLNVDGGMVM MLKGKVALVTGASRGIGRAIAIDLAKQGANVVVNYAGNEQKANEVVDEIKKLGSDAIAVRADVANAEDVTNMVKQTVDVFGQVDILVNNAGVTKDNLLMRMKEEEWDTVINTNLKGVFLCTKAVSRFMMRQRHGRIVNIASVVGVTGNPGQANYVAAKAGVIGLTKTSAKELASRNITVNAIAPGFIATDMTDVLDENIKAEMLKLIPAAQFGEAQDIANAVTFFASDQSKYITGQTLNVDGGMVM 2uvk-a1-m1-cA_2uvk-a1-m1-cB Structure of YjhT P39371 P39371 1.5 X-RAY DIFFRACTION 62 1.0 511693 (Escherichia coli BL21) 511693 (Escherichia coli BL21) 339 346 SVLPETPVPFKSGTGAIDNDTVYIGLGSAGTAWYKLDTQAKDKKWTALAAFPGGPRDQATSAFIDGNLYVFGGIGKNSEGLTQVFNDVHKYNPKTNSWVKLSHAPGAGHVTFVHNGKAYVTGGVNQNIFNGYFEDLNEAGKDSTAIDKINAHYFDKKAEDYFFNKFLLSFDPSTQQWSYAGESPWYGTAGAAVVNKGDKTWLINGEAKPGLRTDAVFELDFTLKWNKLAPVSSPDGVAGGFAGISNDSLIFAGGAGFKGSRENYQNGKNYAHEGLKKSYSTDIHLWHWDKSGELSQGRAYGVSLPWNNSLLIIGGETAGGKAVTDSVLITVDNKVTVQN SVLPETPVPFKSGTGAIDNDTVYIGLGSAGTAWYKLDTQAKDKKWTALAAFPGGPRDQATSAFIDGNLYVFGGIGKNSEGLTQVFNDVHKYNPKTNSWVKLSHAPGAGHVTFVHNGKAYVTGGVNQNIFNGYFEDLNEAGKDSTAIDKINAHYFDKKAEDYFFNKFLLSFDPSTQQWSYAGESPWYGTAGAAVVNKGDKTWLINGEAKPGLRTDAVFELDFTGNNLKWNKLAPVSSPDGVAGGFAGISNDSLIFAGGAGFKGSRENYQNGKNYAHEGLKKSYSTDIHLWHNGKWDKSGELSQGRAYGVSLPWNNSLLIIGGETAGGKAVTDSVLITVKDNKVTVQN 2uvl-a1-m1-cA_2uvl-a1-m1-cB Human BIR3 domain of Baculoviral Inhibitor of Apoptosis Repeat- Containing 3 (BIRC3) Q13489 Q13489 1.91 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 95 SMRYTVSNLSMQTHAARFKTFFNWPSSVLVNPEQLASAGFYYVGNSDDVKCFCCDGGLRCWESGDDPWVQHAKWFPRCEYLIRIKGQEFIRQVQ SMRYTVSNLSMQTHAARFKTFFNWPSSVLVNPEQLASAGFYYVGNSDDVKCFCCDGGLRCWESGDDPWVQHAKWFPRCEYLIRIKGQEFIRQVQA 2uvn-a1-m2-cB_2uvn-a1-m1-cA Crystal structure of econazole-bound CYP130 from Mycobacterium tuberculosis P9WPN5 P9WPN5 3 X-RAY DIFFRACTION 35 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 391 399 2uvn-a1-m1-cB_2uvn-a1-m2-cA HEFQLATAETWPNPWPMYRALRDHDPVHHVVPPQRPEYDYYVLSRHADVWSAARDHQTFSSAQGLTVNYGELEMIGLHDTPPMVMQDPPVHTEFRKLVSRGFTPRQVETVEPTVRKFVVERLEKLRANGGGDIVTELFKPLPSMVVAHYLGVPEEDWTQFDGWTQAIVATTGALDAVGSMMAYFTGLIERRRTEPADDAISHLVAAGVGADGDTAGTLSILAFTFTMVTGGNDTVTGMLGGSMPLLHRRPDQRRLLLDDPEGIPDAVEELLRLTSPVQGLARTTTRDVTIGDTTIPAGRRVLLLYGSANRDERQYGPDAAELDVTRCPRNILTFSHGAHHCLGAAAARMQCRVALTELLARCPDFEVAESRIVWSGGSYVRRPLSVPFRVT SHEFQLATAETWPNPWPMYRALRDHDPVHHVVPPQRPEYDYYVLSRHADVWSAARDHQTFSSAQGLTVNYGELEMIGLHDTPPMVMQDPPVHTEFRKLVSRGFTPRQVETVEPTVRKFVVERLEKLRANGGGDIVTELFKPLPSMVVAHYLGVPEEDWTQFDGWTQAIVAANGATTGALDAVGSMMAYFTGLIERRRTEPADDAISHLVAAGVGADGDTAGTLSILAFTFTMVTGGNDTVTGMLGGSMPLLHRRPDQRRLLLDDPEGIPDAVEELLRLTSPVQGLARTTTRDVTIGDTTIPAGRRVLLLYGSANRDERQYGPDAAELDVTRCPRNILTFSHGAHHCLGAAAARMQCRVALTELLARCPDFEVAESRIVWSGGSYVRRPLSVPFRVTSSR 2uvn-a1-m2-cB_2uvn-a1-m2-cA Crystal structure of econazole-bound CYP130 from Mycobacterium tuberculosis P9WPN5 P9WPN5 3 X-RAY DIFFRACTION 171 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 391 399 2uvn-a1-m1-cB_2uvn-a1-m1-cA HEFQLATAETWPNPWPMYRALRDHDPVHHVVPPQRPEYDYYVLSRHADVWSAARDHQTFSSAQGLTVNYGELEMIGLHDTPPMVMQDPPVHTEFRKLVSRGFTPRQVETVEPTVRKFVVERLEKLRANGGGDIVTELFKPLPSMVVAHYLGVPEEDWTQFDGWTQAIVATTGALDAVGSMMAYFTGLIERRRTEPADDAISHLVAAGVGADGDTAGTLSILAFTFTMVTGGNDTVTGMLGGSMPLLHRRPDQRRLLLDDPEGIPDAVEELLRLTSPVQGLARTTTRDVTIGDTTIPAGRRVLLLYGSANRDERQYGPDAAELDVTRCPRNILTFSHGAHHCLGAAAARMQCRVALTELLARCPDFEVAESRIVWSGGSYVRRPLSVPFRVT SHEFQLATAETWPNPWPMYRALRDHDPVHHVVPPQRPEYDYYVLSRHADVWSAARDHQTFSSAQGLTVNYGELEMIGLHDTPPMVMQDPPVHTEFRKLVSRGFTPRQVETVEPTVRKFVVERLEKLRANGGGDIVTELFKPLPSMVVAHYLGVPEEDWTQFDGWTQAIVAANGATTGALDAVGSMMAYFTGLIERRRTEPADDAISHLVAAGVGADGDTAGTLSILAFTFTMVTGGNDTVTGMLGGSMPLLHRRPDQRRLLLDDPEGIPDAVEELLRLTSPVQGLARTTTRDVTIGDTTIPAGRRVLLLYGSANRDERQYGPDAAELDVTRCPRNILTFSHGAHHCLGAAAARMQCRVALTELLARCPDFEVAESRIVWSGGSYVRRPLSVPFRVTSSR 2uw1-a1-m1-cA_2uw1-a1-m1-cB Ivy Desaturase Structure 1.95 X-RAY DIFFRACTION 181 0.991 4052 (Hedera helix) 4052 (Hedera helix) 327 338 LEIFKSLDDWARNNVLIHLKSVEKSWQPQDYLPDPVSDGFEEQVRELRERAKEIPDDYFVVLVGDMITEEALPTYMSMLNRCDGIKDETGAEPSAWAMWTRAWTAEENRHGDLLNKYLYLSGRVDMRKIEKTIQYLIGSGMDIKSENSPYLGFIYTSFQERATFISHANTAKLAQHYGDKKLAHICGSIASDEKRHATAYTKIVEKLAEIDPDTTVIAFADMMRKKITMPAHLMYDGSDELLFKHFTAVAQRLGVYSALDYCDILEFLVDKWNVERLTGLSDEGRKAQEYVCELGPKIRRLEERAQGRAKEAPTMPFSWIFDRQVKL MQVTHSMPPQKLEIFKSLDDWARNNVLIHLKSVEKSWQPQDYLPDPVSDGFEEQVRELRERAKEIPDDYFVVLVGDMITEEALPTYMSMLNRCDGIKDETGAEPSAWAMWTRAWTAEENRHGDLLNKYLYLSGRVDMRKIEKTIQYLIGSGMDIKSENSPYLGFIYTSFQERATFISHANTAKLAQHWGDKNLAHICGSIASDEKRHATAYTKIVEKLAEIDPDTTVIAFADMMRKKITMPAHLMYDGSDELLFKHFTAVAQRVGVYSALDYCDILEFLVDKWNVERLTGLSDEGRKAQEYVCELGPKIRRLEERAQGRAKEAPTMPFSWIFDRQVKL 2ux0-a1-m1-cA_2ux0-a1-m2-cC Structure of the oligomerisation domain of calcium-calmodulin dependent protein kinase II gamma Q13555 Q13555 2.46 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 137 2ux0-a1-m1-cB_2ux0-a1-m2-cB 2ux0-a1-m1-cC_2ux0-a1-m2-cA 2ux0-a1-m1-cE_2ux0-a1-m2-cE 2ux0-a1-m1-cF_2ux0-a1-m2-cD 2ux0-a1-m2-cF_2ux0-a1-m1-cD 7urw-a1-m1-cA_7urw-a1-m2-cD 7urw-a1-m1-cB_7urw-a1-m2-cE 7urw-a1-m1-cC_7urw-a1-m2-cG 7urw-a1-m1-cF_7urw-a1-m2-cF 7urw-a1-m2-cA_7urw-a1-m1-cD 7urw-a1-m2-cB_7urw-a1-m1-cE 7urw-a1-m2-cC_7urw-a1-m1-cG 7ury-a1-m1-cF_7ury-a1-m2-cF 7ury-a1-m1-cG_7ury-a1-m2-cC 7ury-a1-m2-cB_7ury-a1-m1-cE 7ury-a1-m2-cD_7ury-a1-m1-cA 7ury-a1-m2-cG_7ury-a1-m1-cC 7urz-a1-m1-cB_7urz-a1-m2-cC 7urz-a1-m1-cC_7urz-a1-m2-cB 7urz-a1-m3-cB_7urz-a1-m4-cC 7urz-a1-m3-cC_7urz-a1-m4-cB SMTEDEDLKVRKQEIIKITEQLIEAINNGDFEAYTKICDPGLTSFEPEALGNLVEGMDFHKFYFENLLSKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWLNVHYHCSGA SMTEDEDLKVRKQEIIKITEQLIEAINNGDFEAYTKICDPGLTSFEPEALGNLVEGMDFHKFYFENLLSKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWLNVHYHCSGA 2ux0-a1-m2-cF_2ux0-a1-m2-cE Structure of the oligomerisation domain of calcium-calmodulin dependent protein kinase II gamma Q13555 Q13555 2.46 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 135 2ux0-a1-m1-cB_2ux0-a1-m1-cA 2ux0-a1-m1-cB_2ux0-a1-m1-cC 2ux0-a1-m1-cD_2ux0-a1-m1-cC 2ux0-a1-m1-cE_2ux0-a1-m1-cD 2ux0-a1-m1-cF_2ux0-a1-m1-cA 2ux0-a1-m1-cF_2ux0-a1-m1-cE 2ux0-a1-m2-cB_2ux0-a1-m2-cA 2ux0-a1-m2-cB_2ux0-a1-m2-cC 2ux0-a1-m2-cD_2ux0-a1-m2-cC 2ux0-a1-m2-cE_2ux0-a1-m2-cD 2ux0-a1-m2-cF_2ux0-a1-m2-cA 7urw-a1-m1-cA_7urw-a1-m1-cC 7urw-a1-m1-cA_7urw-a1-m1-cF 7urw-a1-m1-cB_7urw-a1-m1-cC 7urw-a1-m1-cB_7urw-a1-m1-cE 7urw-a1-m1-cD_7urw-a1-m1-cF 7urw-a1-m1-cD_7urw-a1-m1-cG 7urw-a1-m1-cG_7urw-a1-m1-cE 7urw-a1-m2-cA_7urw-a1-m2-cC 7urw-a1-m2-cA_7urw-a1-m2-cF 7urw-a1-m2-cB_7urw-a1-m2-cC 7urw-a1-m2-cB_7urw-a1-m2-cE 7urw-a1-m2-cD_7urw-a1-m2-cF 7urw-a1-m2-cD_7urw-a1-m2-cG 7urw-a1-m2-cG_7urw-a1-m2-cE 7ury-a1-m1-cA_7ury-a1-m1-cC 7ury-a1-m1-cF_7ury-a1-m1-cA 7ury-a1-m1-cG_7ury-a1-m1-cE 7ury-a1-m2-cA_7ury-a1-m2-cC 7ury-a1-m2-cF_7ury-a1-m2-cA 7ury-a1-m2-cG_7ury-a1-m2-cE 7urz-a1-m1-cB_7urz-a1-m4-cC 7urz-a1-m1-cC_7urz-a1-m4-cB 7urz-a1-m1-cG_7urz-a1-m1-cC 7urz-a1-m2-cB_7urz-a1-m3-cC 7urz-a1-m2-cC_7urz-a1-m3-cB 7urz-a1-m2-cG_7urz-a1-m2-cC 7urz-a1-m3-cG_7urz-a1-m3-cC 7urz-a1-m4-cG_7urz-a1-m4-cC TEDEDLKVRKQEIIKITEQLIEAINNGDFEAYTKICDPGLTSFEPEALGNLVEGMDFHKFYFENLLSKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWLNVHYHCSG MTEDEDLKVRKQEIIKITEQLIEAINNGDFEAYTKICDPGLTSFEPEALGNLVEGMDFHKFYFENLLSKNSKPIHTTILNPHVHVIGEDAACIAYIRLTQYIDGQGRPRTSQSEETRVWHRRDGKWLNVHYHCSG 2ux8-a1-m1-cA_2ux8-a1-m1-cC Crystal Structure of Sphingomonas elodea ATCC 31461 Glucose-1- phosphate uridylyltransferase in Complex with glucose-1-phosphate. Q5FYV5 Q5FYV5 2.65 X-RAY DIFFRACTION 159 1.0 179878 (Sphingomonas elodea) 179878 (Sphingomonas elodea) 255 282 TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEIITPGTQDGVLTEVNLSVIGRYILQPEVMRILENQGLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG MTIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEEVPDDQTHRYGIITPGTQDGVLTEVKGLVEKPAPGTAPSNLSVIGRYILQPEVMRILENQGQLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG 2ux8-a1-m1-cA_2ux8-a1-m1-cD Crystal Structure of Sphingomonas elodea ATCC 31461 Glucose-1- phosphate uridylyltransferase in Complex with glucose-1-phosphate. Q5FYV5 Q5FYV5 2.65 X-RAY DIFFRACTION 77 1.0 179878 (Sphingomonas elodea) 179878 (Sphingomonas elodea) 255 281 TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEIITPGTQDGVLTEVNLSVIGRYILQPEVMRILENQGLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEEVPDDQTHRYGIITPGTQDGVLTEVKGLVEKPAPGTAPSNLSVIGRYILQPEVMRILENQGQLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG 2ux8-a2-m1-cE_2ux8-a2-m1-cF Crystal Structure of Sphingomonas elodea ATCC 31461 Glucose-1- phosphate uridylyltransferase in Complex with glucose-1-phosphate. Q5FYV5 Q5FYV5 2.65 X-RAY DIFFRACTION 77 1.0 179878 (Sphingomonas elodea) 179878 (Sphingomonas elodea) 280 282 2ux8-a1-m1-cB_2ux8-a1-m1-cC 2ux8-a2-m1-cH_2ux8-a2-m1-cG TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEEVPDDQTHRYGIITPGTQDGVLTEVKGLVEKPAPGTAPSNLSVIGRYILQPEVMRILENQQLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEEVPDDQTHRYGIITPGTQDGVLTEVKGLVEKPAPGTAPSNLSVIGRYILQPEVMRILENQGKQLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG 2ux8-a2-m1-cH_2ux8-a2-m1-cE Crystal Structure of Sphingomonas elodea ATCC 31461 Glucose-1- phosphate uridylyltransferase in Complex with glucose-1-phosphate. Q5FYV5 Q5FYV5 2.65 X-RAY DIFFRACTION 160 1.0 179878 (Sphingomonas elodea) 179878 (Sphingomonas elodea) 244 280 2ux8-a1-m1-cB_2ux8-a1-m1-cD 2ux8-a2-m1-cF_2ux8-a2-m1-cG TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAELTEVKGLVIGRYILQPEVMRILENQLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG TIKPLRKAVFPVAGLGTRFLPATKAMPKEMLPVVDRPLIQYAVDEAVEAGIEQMIFVTGRGKSALEDHFDIAYELEATMAARGKSLDVLDGTRLKPGNIAYVRQQEPMGLGHAVWCARDIVGDEPFAVLLPDDFMFGQPGCLKQMVDAYNKVGGNLICAEEVPDDQTHRYGIITPGTQDGVLTEVKGLVEKPAPGTAPSNLSVIGRYILQPEVMRILENQQLTDAMQRMIGDQPFHGVTFQGTRYDCGDKAGFIQANLAVALSRPDLEPAVRAFAVKALG 2uxq-a1-m1-cB_2uxq-a1-m1-cA Isocitrate dehydrogenase from the psychrophilic bacterium Desulfotalea psychrophila: biochemical properties and crystal structure analysis Q6AQ66 Q6AQ66 1.75 X-RAY DIFFRACTION 274 1.0 84980 (Desulfotalea psychrophila) 84980 (Desulfotalea psychrophila) 401 402 2uxq-a2-m1-cC_2uxq-a2-m1-cD 2uxr-a1-m1-cB_2uxr-a1-m1-cA 4aov-a1-m1-cA_4aov-a1-m2-cA MKIQMKTPLVELDGDEMTRVLWPLIKDKLLLPFIDLQTEYYDLGIEERDRTNDQITIDAAEAIKKYGVGVKNATITPNQDRVEEYGLKEQWKSPNATVRAMLDGTVFRKPIMVKNIKPSVRSWQKPIVVGRHAYGDFYKNAEIFAEAGGKLEIVVTDKNGKETRQTIMEVDEPAIVQGIHNTVASIGHFARACFEYSLDQKIDCWFATKDTISKQYDQRFKIIFEEIFAQEYKEKFAAAGIEYFYTLIDDVVARMMKTEGGMLWACKNYDGDVMSDMVASAFGSLAMMSSVLVSPYGYFEYEAAHGTVQRHYYQHLKGERTSTNPVALIYAWTGALRKRGELDGTPDLCAFCDSLEAITIECIESGYMTGDLARICEPAAIKVLDSIEFIDELGKRLQQLN MKIQMKTPLVELDGDEMTRVLWPLIKDKLLLPFIDLQTEYYDLGIEERDRTNDQITIDAAEAIKKYGVGVKNATITPNQDRVEEYGLKEQWKSPNATVRAMLDGTVFRKPIMVKNIKPSVRSWQKPIVVGRHAYGDFYKNAEIFAEAGGKLEIVVTDKNGKETRQTIMEVDEPAIVQGIHNTVASIGHFARACFEYSLDQKIDCWFATKDTISKQYDQRFKIIFEEIFAQEYKEKFAAAGIEYFYTLIDDVVARMMKTEGGMLWACKNYDGDVMSDMVASAFGSLAMMSSVLVSPYGYFEYEAAHGTVQRHYYQHLKGERTSTNPVALIYAWTGALRKRGELDGTPDLCAFCDSLEAITIECIESGYMTGDLARICEPAAIKVLDSIEFIDELGKRLQQLNK 2uxy-a1-m3-cA_2uxy-a1-m6-cA Aliphatic amidase P11436 P11436 1.25 X-RAY DIFFRACTION 329 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 340 340 2uxy-a1-m1-cA_2uxy-a1-m5-cA 2uxy-a1-m2-cA_2uxy-a1-m4-cA MRHGDISSSNDTVGVAVVNYKMPRLHTAAEVLDNARKIAEMIVGMKQGLPGMDLVVFPEYSLQGIMYDPAEMMETAVAIPGEETEIFSRACRKANVWGVFSLTGERHEEHPRKAPYNTLVLIDNNGEIVQKYRKIIPWCPIEGWYPGGQTYVSEGPKGMKISLIIDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKDQQVMMAKAMAWANNCYVAVANAAGFDGVYSYFGHSAIIGFDGRTLGECGEEEMGIQYAQLSLSQIRDARANDQSQNHLFKILHRGYSGLQASGDGDRGLAECPFEFYRTWVTDAEKARENVERLTRSTTGVAQCPVGRLPYEG MRHGDISSSNDTVGVAVVNYKMPRLHTAAEVLDNARKIAEMIVGMKQGLPGMDLVVFPEYSLQGIMYDPAEMMETAVAIPGEETEIFSRACRKANVWGVFSLTGERHEEHPRKAPYNTLVLIDNNGEIVQKYRKIIPWCPIEGWYPGGQTYVSEGPKGMKISLIIDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKDQQVMMAKAMAWANNCYVAVANAAGFDGVYSYFGHSAIIGFDGRTLGECGEEEMGIQYAQLSLSQIRDARANDQSQNHLFKILHRGYSGLQASGDGDRGLAECPFEFYRTWVTDAEKARENVERLTRSTTGVAQCPVGRLPYEG 2uxy-a1-m4-cA_2uxy-a1-m6-cA Aliphatic amidase P11436 P11436 1.25 X-RAY DIFFRACTION 72 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 340 340 2uxy-a1-m1-cA_2uxy-a1-m2-cA 2uxy-a1-m3-cA_2uxy-a1-m5-cA MRHGDISSSNDTVGVAVVNYKMPRLHTAAEVLDNARKIAEMIVGMKQGLPGMDLVVFPEYSLQGIMYDPAEMMETAVAIPGEETEIFSRACRKANVWGVFSLTGERHEEHPRKAPYNTLVLIDNNGEIVQKYRKIIPWCPIEGWYPGGQTYVSEGPKGMKISLIIDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKDQQVMMAKAMAWANNCYVAVANAAGFDGVYSYFGHSAIIGFDGRTLGECGEEEMGIQYAQLSLSQIRDARANDQSQNHLFKILHRGYSGLQASGDGDRGLAECPFEFYRTWVTDAEKARENVERLTRSTTGVAQCPVGRLPYEG MRHGDISSSNDTVGVAVVNYKMPRLHTAAEVLDNARKIAEMIVGMKQGLPGMDLVVFPEYSLQGIMYDPAEMMETAVAIPGEETEIFSRACRKANVWGVFSLTGERHEEHPRKAPYNTLVLIDNNGEIVQKYRKIIPWCPIEGWYPGGQTYVSEGPKGMKISLIIDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKDQQVMMAKAMAWANNCYVAVANAAGFDGVYSYFGHSAIIGFDGRTLGECGEEEMGIQYAQLSLSQIRDARANDQSQNHLFKILHRGYSGLQASGDGDRGLAECPFEFYRTWVTDAEKARENVERLTRSTTGVAQCPVGRLPYEG 2uxy-a1-m5-cA_2uxy-a1-m6-cA Aliphatic amidase P11436 P11436 1.25 X-RAY DIFFRACTION 73 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 340 340 2uxy-a1-m1-cA_2uxy-a1-m3-cA 2uxy-a1-m1-cA_2uxy-a1-m4-cA 2uxy-a1-m2-cA_2uxy-a1-m5-cA 2uxy-a1-m2-cA_2uxy-a1-m6-cA 2uxy-a1-m3-cA_2uxy-a1-m4-cA MRHGDISSSNDTVGVAVVNYKMPRLHTAAEVLDNARKIAEMIVGMKQGLPGMDLVVFPEYSLQGIMYDPAEMMETAVAIPGEETEIFSRACRKANVWGVFSLTGERHEEHPRKAPYNTLVLIDNNGEIVQKYRKIIPWCPIEGWYPGGQTYVSEGPKGMKISLIIDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKDQQVMMAKAMAWANNCYVAVANAAGFDGVYSYFGHSAIIGFDGRTLGECGEEEMGIQYAQLSLSQIRDARANDQSQNHLFKILHRGYSGLQASGDGDRGLAECPFEFYRTWVTDAEKARENVERLTRSTTGVAQCPVGRLPYEG MRHGDISSSNDTVGVAVVNYKMPRLHTAAEVLDNARKIAEMIVGMKQGLPGMDLVVFPEYSLQGIMYDPAEMMETAVAIPGEETEIFSRACRKANVWGVFSLTGERHEEHPRKAPYNTLVLIDNNGEIVQKYRKIIPWCPIEGWYPGGQTYVSEGPKGMKISLIIDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKDQQVMMAKAMAWANNCYVAVANAAGFDGVYSYFGHSAIIGFDGRTLGECGEEEMGIQYAQLSLSQIRDARANDQSQNHLFKILHRGYSGLQASGDGDRGLAECPFEFYRTWVTDAEKARENVERLTRSTTGVAQCPVGRLPYEG 2uy1-a1-m1-cB_2uy1-a1-m1-cA CRYSTAL STRUCTURE OF CSTF-77 Q8SWC5 Q8SWC5 2 X-RAY DIFFRACTION 89 0.982 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 384 438 SSPSAIMEHARRLYMSKDYRSLESLFGRCLWKSYNLDLWMLYIEYVRKFEVYEFTLGQFENYWDSYGLFKEYRNGYMRALQTPMGSLSELWKDFTLPLFQSSFQRYQQIQPLIRGWSVKNAARLIDLEMENRPHESRMHFIHNYILDSFFYAEEVYFFYSEYLIGIGQKEKAKKVVERGIEMSDGMFLSLYYGLVMDEEAVYGDLKRKYSKVFSKELDLLRINHLNYVLKKRGLELFRKLFIELGNEGVGPHVFIYCAFIEYYATGSRATPYNIFSSGLLKHPDSTLLKEEFFLFLLRIGDEENARALFKRLEKTSRMWDSMIEYEFMVGSMELFRELVDQKMDAIKADAILPPLPPRVQMEGILGRYHCFLDSFNFLDLKIRD SSPSAIMEHARRLYMSKDYRSLESLFGRCLKKSYNLDLWMLYIEYVRKVSKLYEVYEFTLGQFENYWDSYGLYKEYIEEEGKIEDEQTRIEKIRNGYMRALQTPMGSLSELWKDFENFELELNKITGKKIVGDTLPIFQSSFQRYQQIQPLIRGWSVKNAARLIDLEMENGMKLGGRPHESRMHFIHNYILDSFYYAEEVYFFYSEYLIGIGQKEKAKKVVERGIEMSDGMFLSLYYGLVMDEEAVYGDLKRKYSFSKELDLLRINHLNYVLKKRGLELFRKLFIELGNEGVGPHVFIYCAFIEYYATGSRATPYNIFSSGLLKHPDSTLLKEEFFLFLLRIGDEENARALFKRLEKTSRMWDSMIEYEFMVGSMELFRELVDQKMDAIKADAILPPLPPRNVQMEGILGRYHCFLDSFNFLDLKIRDNSRLLDEFME 2uyg-a1-m1-cF_2uyg-a1-m1-cL Crystallogaphic structure of the typeII 3-Dehydroquinase from Thermus Thermophilus Q5SIL5 Q5SIL5 2.2 X-RAY DIFFRACTION 74 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 141 141 2uyg-a1-m1-cA_2uyg-a1-m1-cE 2uyg-a1-m1-cB_2uyg-a1-m1-cH 2uyg-a1-m1-cC_2uyg-a1-m1-cJ 2uyg-a1-m1-cD_2uyg-a1-m1-cI 2uyg-a1-m1-cG_2uyg-a1-m1-cK MVLILNGPNLNLLGRREPEVYGRTTLEELEALCEAWGAELGLGVVFRQTNYEGQLIEWVQQAHQEGFLAIVLNPGALTHYSYALLDAIRAQPLPVVEVHLTNLHAREEFRRHSVTAPACRGIVSGFGPLSYKLALVYLAET MVLILNGPNLNLLGRREPEVYGRTTLEELEALCEAWGAELGLGVVFRQTNYEGQLIEWVQQAHQEGFLAIVLNPGALTHYSYALLDAIRAQPLPVVEVHLTNLHAREEFRRHSVTAPACRGIVSGFGPLSYKLALVYLAET 2uyg-a1-m1-cK_2uyg-a1-m1-cL Crystallogaphic structure of the typeII 3-Dehydroquinase from Thermus Thermophilus Q5SIL5 Q5SIL5 2.2 X-RAY DIFFRACTION 49 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 141 141 2uyg-a1-m1-cA_2uyg-a1-m1-cB 2uyg-a1-m1-cA_2uyg-a1-m1-cC 2uyg-a1-m1-cB_2uyg-a1-m1-cC 2uyg-a1-m1-cD_2uyg-a1-m1-cE 2uyg-a1-m1-cD_2uyg-a1-m1-cF 2uyg-a1-m1-cE_2uyg-a1-m1-cF 2uyg-a1-m1-cG_2uyg-a1-m1-cH 2uyg-a1-m1-cG_2uyg-a1-m1-cI 2uyg-a1-m1-cH_2uyg-a1-m1-cI 2uyg-a1-m1-cJ_2uyg-a1-m1-cK 2uyg-a1-m1-cJ_2uyg-a1-m1-cL MVLILNGPNLNLLGRREPEVYGRTTLEELEALCEAWGAELGLGVVFRQTNYEGQLIEWVQQAHQEGFLAIVLNPGALTHYSYALLDAIRAQPLPVVEVHLTNLHAREEFRRHSVTAPACRGIVSGFGPLSYKLALVYLAET MVLILNGPNLNLLGRREPEVYGRTTLEELEALCEAWGAELGLGVVFRQTNYEGQLIEWVQQAHQEGFLAIVLNPGALTHYSYALLDAIRAQPLPVVEVHLTNLHAREEFRRHSVTAPACRGIVSGFGPLSYKLALVYLAET 2uyk-a1-m1-cA_2uyk-a1-m1-cC Crystal structure of E. coli TdcF with bound serine P0AGL2 P0AGL2 1.6 X-RAY DIFFRACTION 69 1.0 562 (Escherichia coli) 562 (Escherichia coli) 126 126 2uyj-a1-m1-cA_2uyj-a1-m1-cB 2uyj-a1-m1-cC_2uyj-a1-m1-cA 2uyj-a1-m1-cC_2uyj-a1-m1-cB 2uyk-a1-m1-cA_2uyk-a1-m1-cB 2uyk-a1-m1-cB_2uyk-a1-m1-cC 2uyn-a1-m1-cA_2uyn-a1-m1-cB 2uyn-a1-m1-cA_2uyn-a1-m1-cC 2uyn-a1-m1-cB_2uyn-a1-m1-cC 2uyp-a1-m1-cA_2uyp-a1-m1-cB 2uyp-a1-m1-cA_2uyp-a1-m1-cC 2uyp-a1-m1-cC_2uyp-a1-m1-cB KKIIETQRAPGAIGPYVQGVDLGSMVFTSGQIPVPQTGEIPADVQDQARLSLENVKAIVVAAGLSVGDIIKMTVFITDLNDFATINEVYKQFFDEHQATYPTRSCVQVARLPKDVKLEIEAIAVRS KKIIETQRAPGAIGPYVQGVDLGSMVFTSGQIPVPQTGEIPADVQDQARLSLENVKAIVVAAGLSVGDIIKMTVFITDLNDFATINEVYKQFFDEHQATYPTRSCVQVARLPKDVKLEIEAIAVRS 2uyv-a1-m1-cA_2uyv-a1-m2-cA L-RHAMNULOSE-1-PHOSPHATE ALDOLASE FROM ESCHERICHIA COLI (MUTANT Q6Y- E192A) P32169 P32169 2.2 X-RAY DIFFRACTION 17 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 2v9g-a1-m1-cA_2v9g-a1-m2-cA MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 2uyv-a1-m1-cA_2uyv-a1-m2-cD L-RHAMNULOSE-1-PHOSPHATE ALDOLASE FROM ESCHERICHIA COLI (MUTANT Q6Y- E192A) P32169 P32169 2.2 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 2uyv-a1-m1-cD_2uyv-a1-m2-cA MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 2uyv-a1-m1-cB_2uyv-a1-m2-cB L-RHAMNULOSE-1-PHOSPHATE ALDOLASE FROM ESCHERICHIA COLI (MUTANT Q6Y- E192A) P32169 P32169 2.2 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 2v9g-a1-m1-cB_2v9g-a1-m2-cB MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 2uyv-a1-m1-cD_2uyv-a1-m2-cD L-RHAMNULOSE-1-PHOSPHATE ALDOLASE FROM ESCHERICHIA COLI (MUTANT Q6Y- E192A) P32169 P32169 2.2 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 2uyy-a1-m1-cD_2uyy-a1-m1-cB Structure of the cytokine-like nuclear factor n-pac Q49A26 Q49A26 2.5 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 291 292 2uyy-a1-m1-cA_2uyy-a1-m1-cC ITPTDKKIGFLGLGLMGSGIVSNLLKMGHTVTVWNRTAEKCDLFIQEGARLGRTPAEVVSTCDITFACVSDPKAAKDLVLGPSGVLQGIRPGKCYVDMSTVDADTVTELAQVIVSRGGRFLEAPVSGNQQLSNDGMLVILAAGDRGLYEDCSSCFQAMGKTSFFLGEVGNAAKMMLIVNMVQGSFMATIAEGLTLAQVTGQSQQTLLDILNQGQLASIFLDQKCQNILQGNFKPDFYLKYIQKDLRLAIALGDAVNHPTPMAAAANEVYKRAKALDQSDNDMSAVYRAYIH SITPTDKKIGFLGLGLMGSGIVSNLLKMGHTVTVWNRTAEKCDLFIQEGARLGRTPAEVVSTCDITFACVSDPKAAKDLVLGPSGVLQGIRPGKCYVDMSTVDADTVTELAQVIVSRGGRFLEAPVSGNQQLSNDGMLVILAAGDRGLYEDCSSCFQAMGKTSFFLGEVGNAAKMMLIVNMVQGSFMATIAEGLTLAQVTGQSQQTLLDILNQGQLASIFLDQKCQNILQGNFKPDFYLKYIQKDLRLAIALGDAVNHPTPMAAAANEVYKRAKALDQSDNDMSAVYRAYIH 2uyy-a1-m1-cD_2uyy-a1-m1-cC Structure of the cytokine-like nuclear factor n-pac Q49A26 Q49A26 2.5 X-RAY DIFFRACTION 196 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 291 292 2uyy-a1-m1-cA_2uyy-a1-m1-cB ITPTDKKIGFLGLGLMGSGIVSNLLKMGHTVTVWNRTAEKCDLFIQEGARLGRTPAEVVSTCDITFACVSDPKAAKDLVLGPSGVLQGIRPGKCYVDMSTVDADTVTELAQVIVSRGGRFLEAPVSGNQQLSNDGMLVILAAGDRGLYEDCSSCFQAMGKTSFFLGEVGNAAKMMLIVNMVQGSFMATIAEGLTLAQVTGQSQQTLLDILNQGQLASIFLDQKCQNILQGNFKPDFYLKYIQKDLRLAIALGDAVNHPTPMAAAANEVYKRAKALDQSDNDMSAVYRAYIH SITPTDKKIGFLGLGLMGSGIVSNLLKMGHTVTVWNRTAEKCDLFIQEGARLGRTPAEVVSTCDITFACVSDPKAAKDLVLGPSGVLQGIRPGKCYVDMSTVDADTVTELAQVIVSRGGRFLEAPVSGNQQLSNDGMLVILAAGDRGLYEDCSSCFQAMGKTSFFLGEVGNAAKMMLIVNMVQGSFMATIAEGLTLAQVTGQSQQTLLDILNQGQLASIFLDQKCQNILQGNFKPDFYLKYIQKDLRLAIALGDAVNHPTPMAAAANEVYKRAKALDQSDNDMSAVYRAYIH 2uz0-a1-m1-cD_2uz0-a1-m1-cA The Crystal crystal structure of the estA protein, a virulence factor estA protein from Streptococcus pneumonia A0A0H2UNZ8 A0A0H2UNZ8 1.7 X-RAY DIFFRACTION 43 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 238 246 2uz0-a1-m1-cC_2uz0-a1-m1-cB GADPAVKIEYYSQVLDEWGVNVLYPDEDIPVLYLLHGSGNHNSWLKRTNVERLLRGTNLIVVPNTSNGWYTDTQYGFDYYTALAEELPQVLKRFFPNTSKREKTFIAGLSGGYGCFKLALTTNRFSHAASFSGALSFQNGSPAYWRGVFGEIRDWTTSPYSLESLAKKSDKKTKLWAWCGEQDFLYEANNLAVKNLKKLGFDVTYSHSAGTHEWYYWEKQLEVFLTTLPIDFKLEERL GADPAVKIEYYSQVLDEWGVNVLYPDEDIPVLYLLHGSGNHNSWLKRTNVERLLRGTNLIVVPNTSNGWYTDTQYGFDYYTALAEELPQVLKRFFPNTSKREKTFIAGLSGGYGCFKLALTTNRFSHAASFSGALSFQNFSPESQNLGSPAYWRGVFGEIRDWTTSPYSLESLAKKSDKKTKLWAWCGEQDFLYEANNLAVKNLKKLGFDVTYSHSAGTHEWYYWEKQLEVFLTTLPIDFKLEERL 2uz0-a1-m1-cD_2uz0-a1-m1-cB The Crystal crystal structure of the estA protein, a virulence factor estA protein from Streptococcus pneumonia A0A0H2UNZ8 A0A0H2UNZ8 1.7 X-RAY DIFFRACTION 48 0.996 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 238 245 2uz0-a1-m1-cC_2uz0-a1-m1-cA GADPAVKIEYYSQVLDEWGVNVLYPDEDIPVLYLLHGSGNHNSWLKRTNVERLLRGTNLIVVPNTSNGWYTDTQYGFDYYTALAEELPQVLKRFFPNTSKREKTFIAGLSGGYGCFKLALTTNRFSHAASFSGALSFQNGSPAYWRGVFGEIRDWTTSPYSLESLAKKSDKKTKLWAWCGEQDFLYEANNLAVKNLKKLGFDVTYSHSAGTHEWYYWEKQLEVFLTTLPIDFKLEERL GADPAVKIEYYSQVLDEWGVNVLYPDDIPVLYLLHGSGNHNSWLKRTNVERLLRGTNLIVVPNTSNGWYTDTQYGFDYYTALAEELPQVLKRFFPNTSKREKTFIAGLSGGYGCFKLALTTNRFSHAASFSGALSFQNFSPESQNLGSPAYWRGVFGEIRDWTTSPYSLESLAKKSDKKTKLWAWCGEQDFLYEANNLAVKNLKKLGFDVTYSHSAGTHEWYYWEKQLEVFLTTLPIDFKLEERL 2uz0-a1-m1-cD_2uz0-a1-m1-cC The Crystal crystal structure of the estA protein, a virulence factor estA protein from Streptococcus pneumonia A0A0H2UNZ8 A0A0H2UNZ8 1.7 X-RAY DIFFRACTION 57 0.983 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 238 242 2uz0-a1-m1-cB_2uz0-a1-m1-cA GADPAVKIEYYSQVLDEWGVNVLYPDEDIPVLYLLHGSGNHNSWLKRTNVERLLRGTNLIVVPNTSNGWYTDTQYGFDYYTALAEELPQVLKRFFPNTSKREKTFIAGLSGGYGCFKLALTTNRFSHAASFSGALSFQNGSPAYWRGVFGEIRDWTTSPYSLESLAKKSDKKTKLWAWCGEQDFLYEANNLAVKNLKKLGFDVTYSHSAGTHEWYYWEKQLEVFLTTLPIDFKLEERL GADPAVKIEYYSQVLDEWGVNVLYPDEDIPVLYLLHGSGNHNSWLKRTNVERLLRGTNLIVVPNTSNGWYTDTQYGFDYYTALAEELPQVLKRFFPNTSKREKTFIAGLSGGYGCFKLALTTNRFSHAASFSGALSFQNFSPESQNLGSPAYWRGVFGEIRDWTTSPYSLESLAKKSDKKTKLWAWCGEQDFLYEANNLAVKNLKKLGFDVTYSHSAGTHEWYYWEKQLEVFLTTLPIDFKL 2uz2-a1-m1-cA_2uz2-a1-m2-cA Crystal structure of Xenavidin A7YYL1 A7YYL1 1.7 X-RAY DIFFRACTION 10 1.0 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 115 115 2uyw-a1-m1-cA_2uyw-a1-m2-cA 2uz2-a1-m1-cD_2uz2-a1-m2-cD QKCNLQGQWRNKLGSNLIIESVSQNGEFTGTYFTSVSLIRISPLTGYQKLTEKPTFGFTVHWAFSDSITVWTGQCFLNEKGEEILHTMWLLRSSQEKEQDNWTGTRVGANTFTRL QKCNLQGQWRNKLGSNLIIESVSQNGEFTGTYFTSVSLIRISPLTGYQKLTEKPTFGFTVHWAFSDSITVWTGQCFLNEKGEEILHTMWLLRSSQEKEQDNWTGTRVGANTFTRL 2uz2-a1-m1-cA_2uz2-a1-m2-cD Crystal structure of Xenavidin A7YYL1 A7YYL1 1.7 X-RAY DIFFRACTION 27 0.991 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 115 119 2uyw-a1-m1-cA_2uyw-a1-m2-cD 2uyw-a1-m1-cD_2uyw-a1-m2-cA 2uz2-a1-m2-cA_2uz2-a1-m1-cD QKCNLQGQWRNKLGSNLIIESVSQNGEFTGTYFTSVSLIRISPLTGYQKLTEKPTFGFTVHWAFSDSITVWTGQCFLNEKGEEILHTMWLLRSSQEKEQDNWTGTRVGANTFTRL KCNLQGQWRNKLGSNLIIESVSQNGEFTGTYFTSVSLTNSTIRISPLTGYQKLTEKPTFGFTVHWAFSDSITVWTGQCFLNEKGEEILHTMWLLRSSQEKEQDNWTGTRVGANTFTRLS 2uz2-a1-m2-cA_2uz2-a1-m2-cD Crystal structure of Xenavidin A7YYL1 A7YYL1 1.7 X-RAY DIFFRACTION 140 0.991 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 115 119 2uyw-a1-m1-cA_2uyw-a1-m1-cD 2uyw-a1-m2-cA_2uyw-a1-m2-cD 2uz2-a1-m1-cA_2uz2-a1-m1-cD QKCNLQGQWRNKLGSNLIIESVSQNGEFTGTYFTSVSLIRISPLTGYQKLTEKPTFGFTVHWAFSDSITVWTGQCFLNEKGEEILHTMWLLRSSQEKEQDNWTGTRVGANTFTRL KCNLQGQWRNKLGSNLIIESVSQNGEFTGTYFTSVSLTNSTIRISPLTGYQKLTEKPTFGFTVHWAFSDSITVWTGQCFLNEKGEEILHTMWLLRSSQEKEQDNWTGTRVGANTFTRLS 2uz3-a1-m1-cA_2uz3-a1-m1-cC Crystal Structure of Thymidine Kinase with dTTP from U. urealyticum Q9PPP5 Q9PPP5 2.5 X-RAY DIFFRACTION 107 0.995 2130 (Ureaplasma urealyticum) 2130 (Ureaplasma urealyticum) 190 192 2b8t-a1-m1-cB_2b8t-a1-m1-cD 2b8t-a1-m1-cC_2b8t-a1-m1-cA 2uz3-a1-m1-cB_2uz3-a1-m1-cD IGWIEFITGPMFAGKTAELIRRLHRLEYADVKYLVFKPKISVEVESAPEILNYIMSNSFNDETKVIGIDEVQFFDDRICEVANILAENGFVVIISGLDKNFKGEPFGPIAKLFTYADKITKLTAICNECGAEATHSLRKIDGKHADYNDDIVKIGCQEFYSAVCRHHHKVPNRPYLNSNSEEFIKFFKNK IGWIEFITGPMFAGKTAELIRRLHRLEYADVKYLVFKPKSLPSVEVESAPEILNYIMSNSFNDETKVIGIDEVQFFDDRICEVANILAENGFVVIISGLDKNFKGEPFGPIAKLFTYADKITKLTAICNECGAEATHSLRKIDGKHADYNDDIVKIGCQEFYSAVCRHHHKVPNRPYLNSNSEEFIKFFKNK 2uz3-a1-m1-cC_2uz3-a1-m1-cD Crystal Structure of Thymidine Kinase with dTTP from U. urealyticum Q9PPP5 Q9PPP5 2.5 X-RAY DIFFRACTION 72 1.0 2130 (Ureaplasma urealyticum) 2130 (Ureaplasma urealyticum) 192 207 2b8t-a1-m1-cB_2b8t-a1-m1-cA 2b8t-a1-m1-cC_2b8t-a1-m1-cD 2uz3-a1-m1-cA_2uz3-a1-m1-cB IGWIEFITGPMFAGKTAELIRRLHRLEYADVKYLVFKPKSLPSVEVESAPEILNYIMSNSFNDETKVIGIDEVQFFDDRICEVANILAENGFVVIISGLDKNFKGEPFGPIAKLFTYADKITKLTAICNECGAEATHSLRKIDGKHADYNDDIVKIGCQEFYSAVCRHHHKVPNRPYLNSNSEEFIKFFKNK IGWIEFITGPMFAGKTAELIRRLHRLEYADVKYLVFKPKIDTRSIRNIQSRTGTSLPSVEVESAPEILNYIMSNSFNDETKVIGIDEVQFFDDRICEVANILAENGFVVIISGLDKNFKGEPFGPIAKLFTYADKITKLTAICNECGAEATHSLRKIDGKHADYNDDIVKIGCQEFYSAVCRHHHKVPNRPYLNSNSEEFIKFFKNK 2uzf-a1-m2-cB_2uzf-a1-m3-cB Crystal structure of Staphylococcus aureus 1,4-dihydroxy-2-naphthoyl CoA synthase (MenB) in complex with acetoacetyl CoA Q5HH38 Q5HH38 2.9 X-RAY DIFFRACTION 85 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 257 257 2uzf-a1-m1-cA_2uzf-a1-m2-cA 2uzf-a1-m1-cA_2uzf-a1-m3-cA 2uzf-a1-m1-cB_2uzf-a1-m2-cB 2uzf-a1-m1-cB_2uzf-a1-m3-cB 2uzf-a1-m2-cA_2uzf-a1-m3-cA WETLREYDEIKYEFYEGIAKVTINRPEVRNAFTPKTVAEMIDAFSRARDDQNVSVIVLTGEGDLAFCSGGDQKKIPRLNVLDLQRLIRIIPKPVIAMVKGYAVGGGNVLNVVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKVEDETVQWCKEIMKHSPTALRFLKAAMNADTDGLAGLQQMAGDATLLYYTTDEAKEGRDAFKEKRDPDFDQFPKFP WETLREYDEIKYEFYEGIAKVTINRPEVRNAFTPKTVAEMIDAFSRARDDQNVSVIVLTGEGDLAFCSGGDQKKIPRLNVLDLQRLIRIIPKPVIAMVKGYAVGGGNVLNVVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKVEDETVQWCKEIMKHSPTALRFLKAAMNADTDGLAGLQQMAGDATLLYYTTDEAKEGRDAFKEKRDPDFDQFPKFP 2uzf-a1-m3-cB_2uzf-a1-m2-cA Crystal structure of Staphylococcus aureus 1,4-dihydroxy-2-naphthoyl CoA synthase (MenB) in complex with acetoacetyl CoA Q5HH38 Q5HH38 2.9 X-RAY DIFFRACTION 100 0.996 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 257 260 2uzf-a1-m1-cB_2uzf-a1-m3-cA 2uzf-a1-m2-cB_2uzf-a1-m1-cA WETLREYDEIKYEFYEGIAKVTINRPEVRNAFTPKTVAEMIDAFSRARDDQNVSVIVLTGEGDLAFCSGGDQKKIPRLNVLDLQRLIRIIPKPVIAMVKGYAVGGGNVLNVVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKVEDETVQWCKEIMKHSPTALRFLKAAMNADTDGLAGLQQMAGDATLLYYTTDEAKEGRDAFKEKRDPDFDQFPKFP WETLREYDEIKYEFYEGIAKVTINRPEVRNAFTPKTVAEMIDAFSRARDDQNVSVIVLTGEGDLAFCSGGDQKGEDQIPRLNVLDLQRLIRIIPKPVIAMVKGYAVGGGNVLNVVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKVEDETVQWCKEIMKHSPTALRFLKAAMNADTDGLAGLQQMAGDATLLYYTTDEAKEGRDAFKEKRDPDFDQFPKFP 2uzf-a1-m3-cB_2uzf-a1-m3-cA Crystal structure of Staphylococcus aureus 1,4-dihydroxy-2-naphthoyl CoA synthase (MenB) in complex with acetoacetyl CoA Q5HH38 Q5HH38 2.9 X-RAY DIFFRACTION 139 0.996 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 257 260 2uzf-a1-m1-cB_2uzf-a1-m1-cA 2uzf-a1-m2-cB_2uzf-a1-m2-cA WETLREYDEIKYEFYEGIAKVTINRPEVRNAFTPKTVAEMIDAFSRARDDQNVSVIVLTGEGDLAFCSGGDQKKIPRLNVLDLQRLIRIIPKPVIAMVKGYAVGGGNVLNVVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKVEDETVQWCKEIMKHSPTALRFLKAAMNADTDGLAGLQQMAGDATLLYYTTDEAKEGRDAFKEKRDPDFDQFPKFP WETLREYDEIKYEFYEGIAKVTINRPEVRNAFTPKTVAEMIDAFSRARDDQNVSVIVLTGEGDLAFCSGGDQKGEDQIPRLNVLDLQRLIRIIPKPVIAMVKGYAVGGGNVLNVVCDLTIAADNAIFGQTGPKVGSFDAGYGSGYLARIVGHKKAREIWYLCRQYNAQEALDMGLVNTVVPLEKVEDETVQWCKEIMKHSPTALRFLKAAMNADTDGLAGLQQMAGDATLLYYTTDEAKEGRDAFKEKRDPDFDQFPKFP 2uzh-a1-m1-cA_2uzh-a1-m1-cB Mycobacterium smegmatis 2C-methyl-D-erythritol-2,4-cyclodiphosphate synthase (IspF) A0R559 A0R559 2.2 X-RAY DIFFRACTION 82 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 153 153 2uzh-a1-m1-cA_2uzh-a1-m1-cC 2uzh-a1-m1-cB_2uzh-a1-m1-cC LPRVGLGTDVHPIEAGRPCRLLCLEFDDADGCASDGDVAAHALCDALLSAAGLGDLGTIFGTDRPQWRGASGADMIRHVRGLVENAGFVIGNATVQVIGNRPKVGPRREEAQQVLSELVGAPVSVSATTTDGLGLTGRGEGLAAIATALVAAE LPRVGLGTDVHPIEAGRPCRLLCLEFDDADGCASDGDVAAHALCDALLSAAGLGDLGTIFGTDRPQWRGASGADMIRHVRGLVENAGFVIGNATVQVIGNRPKVGPRREEAQQVLSELVGAPVSVSATTTDGLGLTGRGEGLAAIATALVAAE 2uzq-a3-m1-cE_2uzq-a3-m1-cF Protein Phosphatase, New Crystal Form P30305 P30305 2.38 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 2uzq-a1-m1-cA_2uzq-a1-m1-cB 2uzq-a2-m1-cC_2uzq-a2-m1-cD GILELIGDYSKAFLLQTVDGKHQDLKYISPETMVALLTGKFSNIVDKFVIVDCRYPYEYEGGHIKTAVNLPLERDAESFLLKSPIAPCSLDKRVILIFHCEFSSERGPRMCRFIRERDRAVNDYPSLYYPEMYILKGGYKEFFPQHPNFCEPQDYRPMNHEAFKDELKTFR GILELIGDYSKAFLLQTVDGKHQDLKYISPETMVALLTGKFSNIVDKFVIVDCRYPYEYEGGHIKTAVNLPLERDAESFLLKSPIAPCSLDKRVILIFHCEFSSERGPRMCRFIRERDRAVNDYPSLYYPEMYILKGGYKEFFPQHPNFCEPQDYRPMNHEAFKDELKTFR 2v08-a1-m1-cA_2v08-a1-m3-cB Structure of wild-type Phormidium laminosum cytochrome c6 F2Z292 F2Z292 2 X-RAY DIFFRACTION 15 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 84 84 2v08-a1-m1-cB_2v08-a1-m2-cA 2v08-a1-m2-cB_2v08-a1-m3-cA DLATGAKVFSANCAACHAGGINLVNAEKTLKKEALEKFGMNSIVAITTQVTNGKAGMPAFKGRLTDDQIAAVAAYVLDQAEKGW DLATGAKVFSANCAACHAGGINLVNAEKTLKKEALEKFGMNSIVAITTQVTNGKAGMPAFKGRLTDDQIAAVAAYVLDQAEKGW 2v08-a1-m2-cB_2v08-a1-m3-cB Structure of wild-type Phormidium laminosum cytochrome c6 F2Z292 F2Z292 2 X-RAY DIFFRACTION 20 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 84 84 2v08-a1-m1-cA_2v08-a1-m2-cA 2v08-a1-m1-cA_2v08-a1-m3-cA 2v08-a1-m1-cB_2v08-a1-m2-cB 2v08-a1-m1-cB_2v08-a1-m3-cB 2v08-a1-m2-cA_2v08-a1-m3-cA DLATGAKVFSANCAACHAGGINLVNAEKTLKKEALEKFGMNSIVAITTQVTNGKAGMPAFKGRLTDDQIAAVAAYVLDQAEKGW DLATGAKVFSANCAACHAGGINLVNAEKTLKKEALEKFGMNSIVAITTQVTNGKAGMPAFKGRLTDDQIAAVAAYVLDQAEKGW 2v08-a1-m3-cA_2v08-a1-m3-cB Structure of wild-type Phormidium laminosum cytochrome c6 F2Z292 F2Z292 2 X-RAY DIFFRACTION 25 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 84 84 2v08-a1-m1-cA_2v08-a1-m1-cB 2v08-a1-m2-cA_2v08-a1-m2-cB DLATGAKVFSANCAACHAGGINLVNAEKTLKKEALEKFGMNSIVAITTQVTNGKAGMPAFKGRLTDDQIAAVAAYVLDQAEKGW DLATGAKVFSANCAACHAGGINLVNAEKTLKKEALEKFGMNSIVAITTQVTNGKAGMPAFKGRLTDDQIAAVAAYVLDQAEKGW 2v0h-a1-m2-cA_2v0h-a1-m3-cA Characterization of Substrate Binding and Catalysis of the Potential Antibacterial Target N-acetylglucosamine-1-phosphate Uridyltransferase (GlmU) P43889 P43889 1.79 X-RAY DIFFRACTION 150 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 450 450 2v0h-a1-m1-cA_2v0h-a1-m2-cA 2v0h-a1-m1-cA_2v0h-a1-m3-cA 2v0i-a1-m1-cA_2v0i-a1-m2-cA 2v0i-a1-m1-cA_2v0i-a1-m3-cA 2v0i-a1-m2-cA_2v0i-a1-m3-cA 2v0j-a1-m1-cA_2v0j-a1-m2-cA 2v0j-a1-m1-cA_2v0j-a1-m3-cA 2v0j-a1-m2-cA_2v0j-a1-m3-cA 2v0k-a1-m1-cA_2v0k-a1-m2-cA 2v0k-a1-m1-cA_2v0k-a1-m3-cA 2v0k-a1-m2-cA_2v0k-a1-m3-cA 2v0l-a1-m1-cA_2v0l-a1-m2-cA 2v0l-a1-m1-cA_2v0l-a1-m3-cA 2v0l-a1-m2-cA_2v0l-a1-m3-cA 2vd4-a1-m1-cA_2vd4-a1-m2-cA 2vd4-a1-m1-cA_2vd4-a1-m3-cA 2vd4-a1-m2-cA_2vd4-a1-m3-cA 2w0v-a1-m1-cA_2w0v-a1-m2-cA 2w0v-a1-m1-cA_2w0v-a1-m3-cA 2w0v-a1-m2-cA_2w0v-a1-m3-cA 2w0w-a1-m1-cA_2w0w-a1-m2-cA 2w0w-a1-m1-cA_2w0w-a1-m3-cA 2w0w-a1-m2-cA_2w0w-a1-m3-cA 4e1k-a1-m1-cA_4e1k-a1-m2-cA 4e1k-a1-m1-cA_4e1k-a1-m3-cA 4e1k-a1-m2-cA_4e1k-a1-m3-cA 4knr-a1-m1-cA_4knr-a1-m2-cA 4knr-a1-m1-cA_4knr-a1-m3-cA 4knr-a1-m2-cA_4knr-a1-m3-cA 4knx-a1-m1-cA_4knx-a1-m2-cA 4knx-a1-m1-cA_4knx-a1-m3-cA 4knx-a1-m2-cA_4knx-a1-m3-cA 4kpx-a1-m1-cA_4kpx-a1-m2-cA 4kpx-a1-m1-cA_4kpx-a1-m3-cA 4kpx-a1-m2-cA_4kpx-a1-m3-cA 4kpz-a1-m1-cA_4kpz-a1-m2-cA 4kpz-a1-m1-cA_4kpz-a1-m3-cA 4kpz-a1-m2-cA_4kpz-a1-m3-cA 4kql-a1-m1-cA_4kql-a1-m2-cA 4kql-a1-m1-cA_4kql-a1-m3-cA 4kql-a1-m2-cA_4kql-a1-m3-cA KALSAVILAAGKGTRMYSDLPKVLHTIAGKPMVKHVIDTAHQLGSENIHLIYGHGGDLMRTHLANEQVNWVLQTEQLGTAHAVQQAAPFFKDNENIVVLYGDAPLITKETLEKLIEAKPENGIALLTVNLDNPTGYGRIIRENGNVVAIVEQKDANAEQLNIKEVNTGVMVSDGASFKKWLARVGNNNAQGEYYLTDLIALANQDNCQVVAVQATDVMEVEGANNRLQLAALERYFQNKQASKLLLEGVMIYDPARFDLRGTLEHGKDVEIDVNVIIEGNVKLGDRVKIGTGCVLKNVVIGNDVEIKPYSVLEDSIVGEKAAIGPFSRLRPGAELAAETHVGNFVEIKKSTVGKGSKVNHLTYVGDSEIGSNCNIGAGVITCNYDGANKFKTIIGDDVFVGSDTQLVAPVKVANGATIGAGTTITRDVGENELVITRVAQRHIQGWQRPI KALSAVILAAGKGTRMYSDLPKVLHTIAGKPMVKHVIDTAHQLGSENIHLIYGHGGDLMRTHLANEQVNWVLQTEQLGTAHAVQQAAPFFKDNENIVVLYGDAPLITKETLEKLIEAKPENGIALLTVNLDNPTGYGRIIRENGNVVAIVEQKDANAEQLNIKEVNTGVMVSDGASFKKWLARVGNNNAQGEYYLTDLIALANQDNCQVVAVQATDVMEVEGANNRLQLAALERYFQNKQASKLLLEGVMIYDPARFDLRGTLEHGKDVEIDVNVIIEGNVKLGDRVKIGTGCVLKNVVIGNDVEIKPYSVLEDSIVGEKAAIGPFSRLRPGAELAAETHVGNFVEIKKSTVGKGSKVNHLTYVGDSEIGSNCNIGAGVITCNYDGANKFKTIIGDDVFVGSDTQLVAPVKVANGATIGAGTTITRDVGENELVITRVAQRHIQGWQRPI 2v0n-a1-m1-cB_2v0n-a1-m1-cA ACTIVATED RESPONSE REGULATOR PLED IN COMPLEX WITH C-DIGMP AND GTP- ALPHA-S B8GZM2 B8GZM2 2.71 X-RAY DIFFRACTION 153 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 454 459 2wb4-a1-m1-cB_2wb4-a1-m1-cA SARILVVDDIEANVRLLEAKLTAEYYEVSTAMDGPTALAMAARDLPDIILLDVMMPGMDGFTVCRKLKDDPTTRHIPVVLITALDGRGDRIQGLESGASDFLTKPIDDVMLFARVRSLTRFKLVIDELRQREASGRRMGVIAGAAARLDGLGGRVLIVDDNERQAQRVAAELGVEHRPVIESDPEKAKISAGGPVDLVIVNAAAKNFDGLRFTAALRSEERTRQLPVLAMVDPDDRGRMVKALEIGVNDILSRPIDPQELSARVKTQIQRKRYTDYLRNNLDHSLELAVTDQLTGLHNRRYMTGQLDSLVKRATLGGDPVSALLIDIDFFKKINDTFGHDIGDEVLREFALRLASNVRAIDLPCRYGGEEFVVIMPDTALADALRIAERIRMHVSGSPFTVAHGREMLNVTISIGVSATAGEGDTPEALLKRADEGVYQAKASGRNAVVGKAAH SARILVVDDIEANVRLLEAKLTAEYYEVSTAMDGPTALAMAARDLPDIILLDVMMPGMDGFTVCRKLKDDPTTRHIPVVLITALDGRGDRIQGLESGASDFLTKPIDDVMLFARVRSLTRFKLVIDELRQREASGRRMGVIAGAAARLDGLGGRVLIVDDNERQAQRVAAELGVEHRPVIESDPEKAKISAGGPVDLVIVNAAAKNFDGLRFTAALRSEERTRQLPVLAMVDPDDRGRMVKALEIGVNDILSRPIDPQELSARVKTQIQRKRYTDYLRNNLDHSLELAVTDQLTGLHNRRYMTGQLDSLVKRATLGGDPVSALLIDIDFFKKINDTFGHDIGDEVLREFALRLASNVRAIDLPCRYGGEEFVVIMPDTALADALRIAERIRMHVSGSPFTVAHGREMLNVTISIGVSATAGEGDTPEALLKRADEGVYQAKASGRNAVVGKAAHHHHHH 2v0o-a2-m1-cC_2v0o-a2-m2-cC FCHO2 F-BAR domain Q0JRZ9 Q0JRZ9 2.3 X-RAY DIFFRACTION 267 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 272 2v0o-a1-m1-cB_2v0o-a1-m1-cA MAYFVENFWGEKNSGFDVLYHNMKHGQISTKELADFVRERATIEEAYSRSMTKLAKSASNYSQLGTFAPVWDVFKTSTEKLANCHLDLVRKLQELIKEVQKYGEEQVKSHKKTKEEVAGTLEAVQTIQSITQALQKSKENYNAKCVEQERLKKEGATQREIEKAAVKSKKATDTYKLYVEKYALAKADFEQKMTETAQKFQDIEETHLIHIKEIIGSLSNAIKEIHLQIGQVHEEFINNMANTTVESLIQKFAESKGTGKERPGLIEFEECD MAYFVENFWGEKNSGFDVLYHNMKHGQISTKELADFVRERATIEEAYSRSMTKLAKSASNYSQLGTFAPVWDVFKTSTEKLANCHLDLVRKLQELIKEVQKYGEEQVKSHKKTKEEVAGTLEAVQTIQSITQALQKSKENYNAKCVEQERLKKEGATQREIEKAAVKSKKATDTYKLYVEKYALAKADFEQKMTETAQKFQDIEETHLIHIKEIIGSLSNAIKEIHLQIGQVHEEFINNMANTTVESLIQKFAESKGTGKERPGLIEFEECD 2v0t-a3-m1-cF_2v0t-a3-m1-cD The A178L mutation in the C-terminal hinge of the flexible loop-6 of triosephosphate isomerase (TIM) induces a more closed conformation of this hinge region in dimeric and monomeric TIM P04789 P04789 2.2 X-RAY DIFFRACTION 126 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 242 249 1ag1-a1-m1-cO_1ag1-a1-m1-cT 1iig-a1-m1-cA_1iig-a1-m1-cB 1iih-a1-m1-cA_1iih-a1-m1-cB 1kv5-a1-m1-cA_1kv5-a1-m1-cB 1tpd-a1-m1-cA_1tpd-a1-m2-cA 1tpd-a3-m1-cB_1tpd-a3-m3-cB 1tpe-a1-m1-cA_1tpe-a1-m2-cA 1tpf-a1-m1-cB_1tpf-a1-m1-cA 1trd-a1-m1-cA_1trd-a1-m2-cA 1trd-a3-m1-cB_1trd-a3-m3-cB 1tsi-a1-m1-cA_1tsi-a1-m1-cB 2j24-a1-m1-cA_2j24-a1-m1-cB 2j27-a1-m1-cA_2j27-a1-m1-cB 2v0t-a1-m1-cA_2v0t-a1-m1-cB 2v0t-a2-m1-cC_2v0t-a2-m1-cE 2v0t-a4-m1-cH_2v0t-a4-m1-cG 2v2c-a1-m1-cA_2v2c-a1-m2-cA 2v5l-a1-m1-cA_2v5l-a1-m2-cA 2v5l-a2-m1-cB_2v5l-a2-m3-cB 3tim-a1-m1-cA_3tim-a1-m1-cB 4jeq-a1-m1-cB_4jeq-a1-m1-cA 4jeq-a2-m1-cC_4jeq-a2-m1-cD 4jeq-a3-m1-cF_4jeq-a3-m1-cE 4jeq-a4-m1-cH_4jeq-a4-m1-cG 4jeq-a5-m1-cI_4jeq-a5-m1-cJ 4jeq-a6-m1-cK_4jeq-a6-m1-cL 4tim-a1-m1-cA_4tim-a1-m1-cB 5i3f-a1-m1-cA_5i3f-a1-m1-cB 5i3f-a2-m1-cC_5i3f-a2-m1-cD 5i3g-a1-m1-cA_5i3g-a1-m1-cC 5i3g-a2-m1-cB_5i3g-a2-m1-cD 5i3h-a1-m1-cA_5i3h-a1-m1-cB 5i3i-a1-m1-cA_5i3i-a1-m1-cB 5i3i-a2-m1-cC_5i3i-a2-m1-cD 5i3j-a1-m1-cA_5i3j-a1-m1-cB 5i3k-a1-m1-cA_5i3k-a1-m1-cD 5i3k-a2-m1-cB_5i3k-a2-m1-cC 5tim-a1-m1-cA_5tim-a1-m1-cB 6tim-a1-m1-cA_6tim-a1-m1-cB SKPQPIAAANWKCNGSQQSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAIAKSGAFTGEVSLPILKDFGVNWIVLGHSERRAYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWLTPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ SKPQPIAAANWKCNGSQQSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAIAKSGAFTGEVSLPILKDFGVNWIVLGHSERRAYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVLTPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ 2v0y-a1-m1-cA_2v0y-a1-m4-cA Crystal structure of apo C298S tryptophanase from E.coli P0A853 P0A853 2 X-RAY DIFFRACTION 159 1.0 562 (Escherichia coli) 562 (Escherichia coli) 466 466 2c44-a1-m1-cA_2c44-a1-m1-cB 2c44-a1-m1-cD_2c44-a1-m1-cC 2oqx-a1-m1-cA_2oqx-a1-m4-cA 2oqx-a1-m2-cA_2oqx-a1-m3-cA 2v0y-a1-m2-cA_2v0y-a1-m3-cA 2v1p-a1-m1-cA_2v1p-a1-m4-cA 2v1p-a1-m2-cA_2v1p-a1-m3-cA 4w1y-a1-m1-cA_4w1y-a1-m2-cA 4w1y-a1-m1-cB_4w1y-a1-m2-cB 4w4h-a1-m1-cA_4w4h-a1-m2-cA 4w4h-a1-m1-cB_4w4h-a1-m2-cB 5d8g-a1-m1-cA_5d8g-a1-m2-cA 5d8g-a1-m3-cA_5d8g-a1-m4-cA KHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAVTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHQGRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLSVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV KHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAVTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHQGRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLSVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV 2v0y-a1-m2-cA_2v0y-a1-m4-cA Crystal structure of apo C298S tryptophanase from E.coli P0A853 P0A853 2 X-RAY DIFFRACTION 138 1.0 562 (Escherichia coli) 562 (Escherichia coli) 466 466 2c44-a1-m1-cA_2c44-a1-m1-cC 2c44-a1-m1-cD_2c44-a1-m1-cB 2oqx-a1-m1-cA_2oqx-a1-m3-cA 2oqx-a1-m2-cA_2oqx-a1-m4-cA 2v0y-a1-m1-cA_2v0y-a1-m3-cA 2v1p-a1-m1-cA_2v1p-a1-m3-cA 2v1p-a1-m2-cA_2v1p-a1-m4-cA 4w4h-a1-m1-cA_4w4h-a1-m1-cB 4w4h-a1-m2-cA_4w4h-a1-m2-cB 5d8g-a1-m1-cA_5d8g-a1-m3-cA 5d8g-a1-m2-cA_5d8g-a1-m4-cA KHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAVTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHQGRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLSVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV KHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAVTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHQGRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLSVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV 2v1c-a1-m1-cC_2v1c-a1-m2-cC Crystal structure and mutational study of RecOR provide insight into its role in DNA repair Q9RW50 Q9RW50 3.8 X-RAY DIFFRACTION 17 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 229 229 SRTANRSGIVIRRRVTPAGDIIVTLLTPQGKLKAIARGLSSSLNLFHHVGVQVYQGPHNDLASVKQAVLEGALPTLAEPERYAFAHLMAEFADALFQEGEFSEQAFDLFAASLRGVAHQPDPEWVALVMSYKLLGLAGVIPQTARCARCGAPDPEHPDPLGGQLLCSKCAALPPYPPAVLDFLRHAVRRTVRASFEQPVPSADRPALWRALEKFVTVQVGGVHSWRQLV SRTANRSGIVIRRRVTPAGDIIVTLLTPQGKLKAIARGLSSSLNLFHHVGVQVYQGPHNDLASVKQAVLEGALPTLAEPERYAFAHLMAEFADALFQEGEFSEQAFDLFAASLRGVAHQPDPEWVALVMSYKLLGLAGVIPQTARCARCGAPDPEHPDPLGGQLLCSKCAALPPYPPAVLDFLRHAVRRTVRASFEQPVPSADRPALWRALEKFVTVQVGGVHSWRQLV 2v21-a1-m2-cB_2v21-a1-m2-cF Crystal structure of the T. thermophilus dodecin in complex with prebound FMN Q5SIE3 Q5SIE3 2.4 X-RAY DIFFRACTION 34 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 67 67 2cz8-a1-m1-cA_2cz8-a1-m1-cC 2cz8-a1-m1-cB_2cz8-a1-m1-cA 2cz8-a1-m1-cB_2cz8-a1-m1-cC 2cz8-a1-m1-cD_2cz8-a1-m2-cD 2cz8-a1-m1-cD_2cz8-a1-m3-cD 2cz8-a1-m2-cA_2cz8-a1-m2-cC 2cz8-a1-m2-cB_2cz8-a1-m2-cA 2cz8-a1-m2-cB_2cz8-a1-m2-cC 2cz8-a1-m2-cD_2cz8-a1-m3-cD 2cz8-a1-m3-cA_2cz8-a1-m3-cC 2cz8-a1-m3-cB_2cz8-a1-m3-cA 2cz8-a1-m3-cB_2cz8-a1-m3-cC 2cz8-a2-m1-cF_2cz8-a2-m1-cE 2cz8-a2-m1-cF_2cz8-a2-m1-cG 2cz8-a2-m1-cG_2cz8-a2-m1-cE 2cz8-a2-m1-cH_2cz8-a2-m2-cH 2cz8-a2-m1-cH_2cz8-a2-m3-cH 2cz8-a2-m2-cF_2cz8-a2-m2-cE 2cz8-a2-m2-cF_2cz8-a2-m2-cG 2cz8-a2-m2-cG_2cz8-a2-m2-cE 2cz8-a2-m2-cH_2cz8-a2-m3-cH 2cz8-a2-m3-cF_2cz8-a2-m3-cE 2cz8-a2-m3-cF_2cz8-a2-m3-cG 2cz8-a2-m3-cG_2cz8-a2-m3-cE 2deg-a1-m1-cC_2deg-a1-m2-cB 2deg-a1-m1-cC_2deg-a1-m2-cE 2deg-a1-m1-cD_2deg-a1-m2-cA 2deg-a1-m1-cD_2deg-a1-m2-cF 2deg-a1-m1-cE_2deg-a1-m1-cB 2deg-a1-m1-cE_2deg-a1-m2-cC 2deg-a1-m1-cF_2deg-a1-m1-cA 2deg-a1-m1-cF_2deg-a1-m2-cD 2deg-a1-m2-cC_2deg-a1-m1-cB 2deg-a1-m2-cD_2deg-a1-m1-cA 2deg-a1-m2-cE_2deg-a1-m2-cB 2deg-a1-m2-cF_2deg-a1-m2-cA 2deh-a1-m1-cC_2deh-a1-m2-cB 2deh-a1-m1-cC_2deh-a1-m2-cE 2deh-a1-m1-cD_2deh-a1-m2-cA 2deh-a1-m1-cD_2deh-a1-m2-cF 2deh-a1-m1-cE_2deh-a1-m1-cB 2deh-a1-m1-cE_2deh-a1-m2-cC 2deh-a1-m1-cF_2deh-a1-m1-cA 2deh-a1-m1-cF_2deh-a1-m2-cD 2deh-a1-m2-cC_2deh-a1-m1-cB 2deh-a1-m2-cD_2deh-a1-m1-cA 2deh-a1-m2-cE_2deh-a1-m2-cB 2deh-a1-m2-cF_2deh-a1-m2-cA 2dev-a1-m1-cC_2dev-a1-m2-cB 2dev-a1-m1-cC_2dev-a1-m2-cE 2dev-a1-m1-cD_2dev-a1-m2-cA 2dev-a1-m1-cD_2dev-a1-m2-cF 2dev-a1-m1-cE_2dev-a1-m1-cB 2dev-a1-m1-cE_2dev-a1-m2-cC 2dev-a1-m1-cF_2dev-a1-m1-cA 2dev-a1-m1-cF_2dev-a1-m2-cD 2dev-a1-m2-cC_2dev-a1-m1-cB 2dev-a1-m2-cD_2dev-a1-m1-cA 2dev-a1-m2-cE_2dev-a1-m2-cB 2dev-a1-m2-cF_2dev-a1-m2-cA 2dev-a2-m1-cE_2dev-a2-m1-cB 2dev-a2-m1-cE_2dev-a2-m2-cC 2dev-a2-m2-cC_2dev-a2-m1-cB 2dev-a3-m1-cF_2dev-a3-m1-cA 2dev-a3-m1-cF_2dev-a3-m2-cD 2dev-a3-m2-cD_2dev-a3-m1-cA 2ux9-a1-m1-cA_2ux9-a1-m1-cE 2ux9-a1-m1-cA_2ux9-a1-m2-cC 2ux9-a1-m1-cB_2ux9-a1-m1-cF 2ux9-a1-m1-cB_2ux9-a1-m2-cD 2ux9-a1-m1-cD_2ux9-a1-m2-cF 2ux9-a1-m1-cE_2ux9-a1-m2-cC 2ux9-a1-m1-cF_2ux9-a1-m2-cD 2ux9-a1-m2-cA_2ux9-a1-m1-cC 2ux9-a1-m2-cA_2ux9-a1-m2-cE 2ux9-a1-m2-cB_2ux9-a1-m1-cD 2ux9-a1-m2-cB_2ux9-a1-m2-cF 2ux9-a1-m2-cE_2ux9-a1-m1-cC 2v18-a1-m1-cA_2v18-a1-m1-cH 2v18-a1-m1-cA_2v18-a1-m1-cL 2v18-a1-m1-cB_2v18-a1-m1-cF 2v18-a1-m1-cB_2v18-a1-m1-cG 2v18-a1-m1-cC_2v18-a1-m1-cE 2v18-a1-m1-cC_2v18-a1-m1-cJ 2v18-a1-m1-cD_2v18-a1-m1-cI 2v18-a1-m1-cD_2v18-a1-m1-cK 2v18-a1-m1-cE_2v18-a1-m1-cJ 2v18-a1-m1-cF_2v18-a1-m1-cG 2v18-a1-m1-cH_2v18-a1-m1-cL 2v18-a1-m1-cI_2v18-a1-m1-cK 2v19-a1-m1-cA_2v19-a1-m1-cE 2v19-a1-m1-cA_2v19-a1-m1-cI 2v19-a1-m1-cC_2v19-a1-m1-cG 2v19-a1-m1-cC_2v19-a1-m1-cK 2v19-a1-m1-cD_2v19-a1-m1-cH 2v19-a1-m1-cD_2v19-a1-m1-cL 2v19-a1-m1-cE_2v19-a1-m1-cI 2v19-a1-m1-cF_2v19-a1-m1-cB 2v19-a1-m1-cF_2v19-a1-m1-cJ 2v19-a1-m1-cG_2v19-a1-m1-cK 2v19-a1-m1-cH_2v19-a1-m1-cL 2v19-a1-m1-cJ_2v19-a1-m1-cB 2v21-a1-m1-cA_2v21-a1-m2-cC 2v21-a1-m1-cA_2v21-a1-m2-cE 2v21-a1-m1-cB_2v21-a1-m1-cF 2v21-a1-m1-cB_2v21-a1-m2-cD 2v21-a1-m1-cC_2v21-a1-m1-cE 2v21-a1-m1-cC_2v21-a1-m2-cA 2v21-a1-m1-cD_2v21-a1-m2-cB 2v21-a1-m1-cD_2v21-a1-m2-cF 2v21-a1-m1-cE_2v21-a1-m2-cA 2v21-a1-m1-cF_2v21-a1-m2-cD 2v21-a1-m2-cC_2v21-a1-m2-cE 2vyx-a1-m1-cA_2vyx-a1-m1-cH 2vyx-a1-m1-cB_2vyx-a1-m1-cF 2vyx-a1-m1-cB_2vyx-a1-m1-cG 2vyx-a1-m1-cD_2vyx-a1-m1-cI 2vyx-a1-m1-cD_2vyx-a1-m1-cK 2vyx-a1-m1-cE_2vyx-a1-m1-cC 2vyx-a1-m1-cE_2vyx-a1-m1-cJ 2vyx-a1-m1-cF_2vyx-a1-m1-cG 2vyx-a1-m1-cI_2vyx-a1-m1-cK 2vyx-a1-m1-cJ_2vyx-a1-m1-cC 2vyx-a1-m1-cL_2vyx-a1-m1-cA 2vyx-a1-m1-cL_2vyx-a1-m1-cH GKVYKKVELVGTSEEGLEAAIQAALARARKTLRHLDWFEVKEIRGTIGEAGVKEYQVVLEVGFRLEE GKVYKKVELVGTSEEGLEAAIQAALARARKTLRHLDWFEVKEIRGTIGEAGVKEYQVVLEVGFRLEE 2v21-a1-m2-cE_2v21-a1-m2-cF Crystal structure of the T. thermophilus dodecin in complex with prebound FMN Q5SIE3 Q5SIE3 2.4 X-RAY DIFFRACTION 37 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 67 67 2cz8-a1-m1-cA_2cz8-a1-m2-cA 2cz8-a1-m1-cA_2cz8-a1-m3-cA 2cz8-a1-m1-cB_2cz8-a1-m3-cC 2cz8-a1-m1-cB_2cz8-a1-m3-cD 2cz8-a1-m1-cC_2cz8-a1-m1-cD 2cz8-a1-m2-cA_2cz8-a1-m3-cA 2cz8-a1-m2-cB_2cz8-a1-m1-cC 2cz8-a1-m2-cB_2cz8-a1-m1-cD 2cz8-a1-m2-cC_2cz8-a1-m2-cD 2cz8-a1-m3-cB_2cz8-a1-m2-cC 2cz8-a1-m3-cB_2cz8-a1-m2-cD 2cz8-a1-m3-cC_2cz8-a1-m3-cD 2cz8-a2-m1-cE_2cz8-a2-m2-cE 2cz8-a2-m1-cE_2cz8-a2-m3-cE 2cz8-a2-m1-cF_2cz8-a2-m3-cG 2cz8-a2-m1-cF_2cz8-a2-m3-cH 2cz8-a2-m1-cG_2cz8-a2-m1-cH 2cz8-a2-m2-cE_2cz8-a2-m3-cE 2cz8-a2-m2-cF_2cz8-a2-m1-cG 2cz8-a2-m2-cF_2cz8-a2-m1-cH 2cz8-a2-m2-cG_2cz8-a2-m2-cH 2cz8-a2-m3-cF_2cz8-a2-m2-cG 2cz8-a2-m3-cF_2cz8-a2-m2-cH 2cz8-a2-m3-cG_2cz8-a2-m3-cH 2deg-a1-m1-cA_2deg-a1-m1-cB 2deg-a1-m1-cC_2deg-a1-m1-cA 2deg-a1-m1-cC_2deg-a1-m1-cB 2deg-a1-m1-cD_2deg-a1-m1-cE 2deg-a1-m1-cD_2deg-a1-m1-cF 2deg-a1-m1-cE_2deg-a1-m1-cF 2deg-a1-m2-cA_2deg-a1-m2-cB 2deg-a1-m2-cC_2deg-a1-m2-cA 2deg-a1-m2-cC_2deg-a1-m2-cB 2deg-a1-m2-cD_2deg-a1-m2-cE 2deg-a1-m2-cD_2deg-a1-m2-cF 2deg-a1-m2-cE_2deg-a1-m2-cF 2deh-a1-m1-cA_2deh-a1-m1-cB 2deh-a1-m1-cC_2deh-a1-m1-cA 2deh-a1-m1-cC_2deh-a1-m1-cB 2deh-a1-m1-cD_2deh-a1-m1-cE 2deh-a1-m1-cD_2deh-a1-m1-cF 2deh-a1-m1-cE_2deh-a1-m1-cF 2deh-a1-m2-cA_2deh-a1-m2-cB 2deh-a1-m2-cC_2deh-a1-m2-cA 2deh-a1-m2-cC_2deh-a1-m2-cB 2deh-a1-m2-cD_2deh-a1-m2-cE 2deh-a1-m2-cD_2deh-a1-m2-cF 2deh-a1-m2-cE_2deh-a1-m2-cF 2dev-a1-m1-cA_2dev-a1-m1-cB 2dev-a1-m1-cC_2dev-a1-m1-cA 2dev-a1-m1-cC_2dev-a1-m1-cB 2dev-a1-m1-cD_2dev-a1-m1-cE 2dev-a1-m1-cD_2dev-a1-m1-cF 2dev-a1-m1-cE_2dev-a1-m1-cF 2dev-a1-m2-cA_2dev-a1-m2-cB 2dev-a1-m2-cC_2dev-a1-m2-cA 2dev-a1-m2-cC_2dev-a1-m2-cB 2dev-a1-m2-cD_2dev-a1-m2-cE 2dev-a1-m2-cD_2dev-a1-m2-cF 2dev-a1-m2-cE_2dev-a1-m2-cF 2ux9-a1-m1-cA_2ux9-a1-m1-cC 2ux9-a1-m1-cA_2ux9-a1-m1-cF 2ux9-a1-m1-cB_2ux9-a1-m1-cD 2ux9-a1-m1-cB_2ux9-a1-m1-cE 2ux9-a1-m1-cC_2ux9-a1-m1-cF 2ux9-a1-m1-cE_2ux9-a1-m1-cD 2ux9-a1-m2-cA_2ux9-a1-m2-cC 2ux9-a1-m2-cA_2ux9-a1-m2-cF 2ux9-a1-m2-cB_2ux9-a1-m2-cD 2ux9-a1-m2-cB_2ux9-a1-m2-cE 2ux9-a1-m2-cC_2ux9-a1-m2-cF 2ux9-a1-m2-cE_2ux9-a1-m2-cD 2v18-a1-m1-cA_2v18-a1-m1-cB 2v18-a1-m1-cA_2v18-a1-m1-cC 2v18-a1-m1-cB_2v18-a1-m1-cC 2v18-a1-m1-cD_2v18-a1-m1-cE 2v18-a1-m1-cD_2v18-a1-m1-cF 2v18-a1-m1-cE_2v18-a1-m1-cF 2v18-a1-m1-cG_2v18-a1-m1-cH 2v18-a1-m1-cG_2v18-a1-m1-cI 2v18-a1-m1-cH_2v18-a1-m1-cI 2v18-a1-m1-cJ_2v18-a1-m1-cK 2v18-a1-m1-cJ_2v18-a1-m1-cL 2v18-a1-m1-cK_2v18-a1-m1-cL 2v19-a1-m1-cA_2v19-a1-m1-cC 2v19-a1-m1-cA_2v19-a1-m1-cF 2v19-a1-m1-cD_2v19-a1-m1-cB 2v19-a1-m1-cD_2v19-a1-m1-cE 2v19-a1-m1-cE_2v19-a1-m1-cB 2v19-a1-m1-cF_2v19-a1-m1-cC 2v19-a1-m1-cG_2v19-a1-m1-cI 2v19-a1-m1-cG_2v19-a1-m1-cL 2v19-a1-m1-cH_2v19-a1-m1-cJ 2v19-a1-m1-cH_2v19-a1-m1-cK 2v19-a1-m1-cI_2v19-a1-m1-cL 2v19-a1-m1-cJ_2v19-a1-m1-cK 2v21-a1-m1-cA_2v21-a1-m1-cB 2v21-a1-m1-cA_2v21-a1-m1-cC 2v21-a1-m1-cB_2v21-a1-m1-cC 2v21-a1-m1-cD_2v21-a1-m1-cE 2v21-a1-m1-cD_2v21-a1-m1-cF 2v21-a1-m1-cE_2v21-a1-m1-cF 2v21-a1-m2-cA_2v21-a1-m2-cB 2v21-a1-m2-cA_2v21-a1-m2-cC 2v21-a1-m2-cB_2v21-a1-m2-cC 2v21-a1-m2-cD_2v21-a1-m2-cE 2v21-a1-m2-cD_2v21-a1-m2-cF 2vyx-a1-m1-cA_2vyx-a1-m1-cC 2vyx-a1-m1-cB_2vyx-a1-m1-cA 2vyx-a1-m1-cB_2vyx-a1-m1-cC 2vyx-a1-m1-cD_2vyx-a1-m1-cE 2vyx-a1-m1-cD_2vyx-a1-m1-cF 2vyx-a1-m1-cE_2vyx-a1-m1-cF 2vyx-a1-m1-cG_2vyx-a1-m1-cH 2vyx-a1-m1-cG_2vyx-a1-m1-cI 2vyx-a1-m1-cH_2vyx-a1-m1-cI 2vyx-a1-m1-cJ_2vyx-a1-m1-cK 2vyx-a1-m1-cL_2vyx-a1-m1-cJ 2vyx-a1-m1-cL_2vyx-a1-m1-cK GKVYKKVELVGTSEEGLEAAIQAALARARKTLRHLDWFEVKEIRGTIGEAGVKEYQVVLEVGFRLEE GKVYKKVELVGTSEEGLEAAIQAALARARKTLRHLDWFEVKEIRGTIGEAGVKEYQVVLEVGFRLEE 2v24-a1-m1-cA_2v24-a1-m2-cA Structure of the human SPRY domain-containing SOCS box protein SSB-4 Q96A44 Q96A44 2.2 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 RPARLDQLLDMPAAGLAVQLRHAWNPEDRSLNVFVKDDDRLTFHRHPVAQSTDGIRGKVGHARGLHAWQINWPARQRGTHAVVGVATARAPLHSVGYTALVGSDAESWGWDLGRSRLYHDPGVAYPAFLGPDEAFALPDSLLVVLDMDEGTLSFIVDGQYLGVAFRGLKGKKLYPVVSAVWGHCEVTMRYINGLDPE RPARLDQLLDMPAAGLAVQLRHAWNPEDRSLNVFVKDDDRLTFHRHPVAQSTDGIRGKVGHARGLHAWQINWPARQRGTHAVVGVATARAPLHSVGYTALVGSDAESWGWDLGRSRLYHDPGVAYPAFLGPDEAFALPDSLLVVLDMDEGTLSFIVDGQYLGVAFRGLKGKKLYPVVSAVWGHCEVTMRYINGLDPE 2v27-a1-m1-cA_2v27-a1-m1-cB Structure of the cold active phenylalanine hydroxylase from Colwellia psychrerythraea 34H Q47XN7 Q47XN7 1.5 X-RAY DIFFRACTION 48 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 264 272 2v28-a1-m1-cB_2v28-a1-m1-cA GTKYVSKVPDEHGFIEWSTEENLIWQELFTRQIACIKDKACDEYHEGLAKLNLPTDRIPQLDEVSKVLKVSTGWECYPVPALIGFGEFFRLLSEKKFPVATFIRSREEMDYLQEPDIFHEIFGHCPLLTNSSFANYTEAYGKMGLNATKEQRVFLARLYWFTIEFGLLDTPKGLRIYGGGVLSSPGETDYAMNNTDVDRKPFDILDVLRTPYRIDIMQPIYYMLTKVSDLDEIRKFEVDDIMELVAQAEALGLHEAKFPVKKAS GTKYVSKVPDEHGFIEWSTEENLIWQELFTRQIACIKDKACDEYHEGLAKLNLPTDRIPQLDEVSKVLKVSTGWECYPVPALIGFGEFFRLLSEKKFPVATFIRSREEMDYLQEPDIFHEIFGHCPLLTNSSFANYTEAYGKMGLNATKEQRVFLARLYWFTIEFGLLDTPKGLRIYGGGVLSSPGETDYAMNNTDVDRKPFDILDVLRTPYRIDIMQPIYYMLTKVSDLDEIRKFEVDDIMELVAQAEALGLHEAKFPVKKASLEHHHHHH 2v2d-a1-m2-cA_2v2d-a1-m3-cA The A178L mutation in the C-terminal hinge of the flexible loop-6 of triosephosphate isomerase (TIM) induces a more closed conformation of this hinge region in dimeric and monomeric TIM P04789 P04789 2.3 X-RAY DIFFRACTION 52 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 241 241 1ml1-a1-m1-cA_1ml1-a1-m1-cC 1ml1-a3-m1-cI_1ml1-a3-m1-cK 2v2d-a1-m1-cA_2v2d-a1-m2-cA 2v2d-a1-m1-cA_2v2d-a1-m3-cA 2vei-a1-m1-cA_2vei-a1-m1-cB 2vei-a1-m1-cA_2vei-a1-m1-cC 2vei-a1-m1-cB_2vei-a1-m1-cC 4pcf-a4-m1-cA_4pcf-a4-m1-cB 4pcf-a4-m1-cA_4pcf-a4-m1-cC 4pcf-a4-m1-cB_4pcf-a4-m1-cC SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVLTPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVLTPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ 2v2g-a2-m1-cD_2v2g-a2-m1-cC Crystal Structure of the C45S mutant of the Peroxiredoxin 6 of Arenicola Marina. Monoclinic form Q1AN22 Q1AN22 1.6 X-RAY DIFFRACTION 205 1.0 6344 (Arenicola marina) 6344 (Arenicola marina) 219 220 2v2g-a1-m1-cB_2v2g-a1-m1-cA 2v32-a1-m1-cB_2v32-a1-m1-cA 2v32-a2-m1-cD_2v32-a2-m1-cC 2v41-a1-m1-cA_2v41-a1-m1-cB 2v41-a2-m1-cC_2v41-a2-m1-cD 2v41-a3-m1-cE_2v41-a3-m1-cF 2v41-a4-m1-cG_2v41-a4-m1-cH GITLGEVFPNFEADSTIGKLKFHDWLGNSWGVLFSHPRDFTPVSTTELGRVIQLEGDFKKRGVKLIALSCDNVADHKEWSEDVKCLSGVKGDMPYPIIADETRELAVKLGMVDPDERTSTGMPLTCRAVFIIGPDKKLKLSILYPATTGRNFSEILRVIDSLQLTAQKKVATPADWQPGDRCMVVPGVSAEEAKTLFPNMEVKAVPSGKGYLRYTPQPK GITLGEVFPNFEADSTIGKLKFHDWLGNSWGVLFSHPRDFTPVSTTELGRVIQLEGDFKKRGVKLIALSCDNVADHKEWSEDVKCLSGVKGDMPYPIIADETRELAVKLGMVDPDERTSTGMPLTCRAVFIIGPDKKLKLSILYPATTGRNFSEILRVIDSLQLTAQKKVATPADWQPGDRCMVVPGVSAEEAKTLFPNMEVKAVPSGKGYLRYTPQPKS 2v2h-a1-m1-cB_2v2h-a1-m1-cC The A178L mutation in the C-terminal hinge of the flexible loop-6 of triosephosphate isomerase (TIM) induces a more closed conformation of this hinge region in dimeric and monomeric TIM P04789 P04789 1.18 X-RAY DIFFRACTION 14 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 241 241 2v2h-a1-m1-cA_2v2h-a1-m1-cB 2v2h-a1-m1-cA_2v2h-a1-m1-cC SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVLTPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ SKPQPIAAANWKSGSPDSLSELIDLFNSTSINHDVQCVVASTFVHLAMTKERLSHPKFVIAAQNAGNADALASLKDFGVNWIVLGHSERRWYYGETNEIVADKVAAAVASGFMVIACIGETLQERESGRTAVVVLTQIAAIAKKLKKADWAKVVIAYEPVWAIGTGKVLTPQQAQEAHALIRSWVSSKIGADVAGELRILYGGSVNGKNARTLYQQRDVNGFLVGGASLKPEFVDIIKATQ 2v3m-a2-m1-cD_2v3m-a2-m1-cC Structure of the Gar1 domain of NAf1 P53919 P53919 2.74 X-RAY DIFFRACTION 34 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 93 99 2v3m-a1-m1-cF_2v3m-a1-m1-cA ETVPELPEDYEISEKTIITPIGVLKSAFENNIIIHAVLKEGSIFCLEDRTLIGLTEVFGPLQNPFYRIKLPDSKKNLFDELKVRLGEKAFIVT ETVPELPEDYEISEKTIITPIGVLKSAFENNIIIHATSGEKRVLKEGSIFCLEDRTLIGLTEVFGPLQNPFYRIKLPDSKKNLFDELKVRLGEKAFIVT 2v3m-a3-m1-cB_2v3m-a3-m1-cE Structure of the Gar1 domain of NAf1 P53919 P53919 2.74 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 85 99 VPELPEDYEISEKTIITPIGVLKSAFENNIIIHSIFCLEDRTLIGLTEVFGPLQNPFYRIKLPDSKKNLFDELKVRLGEKAFIVT ETVPELPEDYEISEKTIITPIGVLKSAFENNIIIHATSGEKRVLKEGSIFCLEDRTLIGLTEVFGPLQNPFYRIKLPDSKKNLFDELKVRLGEKAFIVT 2v3z-a1-m1-cA_2v3z-a1-m4-cA Glu383Ala Escherichia coli aminopeptidase P in complex with substrate P15034 P15034 1.56 X-RAY DIFFRACTION 128 1.0 562 (Escherichia coli) 562 (Escherichia coli) 439 439 1a16-a1-m1-cA_1a16-a1-m4-cA 1a16-a1-m2-cA_1a16-a1-m3-cA 1m35-a1-m1-cA_1m35-a1-m1-cD 1m35-a1-m1-cB_1m35-a1-m1-cC 1m35-a2-m1-cE_1m35-a2-m2-cF 1m35-a2-m1-cF_1m35-a2-m2-cE 1n51-a1-m1-cA_1n51-a1-m4-cA 1n51-a1-m2-cA_1n51-a1-m3-cA 1n51-a2-m1-cA_1n51-a2-m4-cA 1n51-a3-m1-cA_1n51-a3-m4-cA 1n51-a3-m2-cA_1n51-a3-m3-cA 1w2m-a1-m1-cA_1w2m-a1-m1-cD 1w2m-a1-m1-cB_1w2m-a1-m1-cC 1w2m-a2-m1-cE_1w2m-a2-m2-cF 1w2m-a2-m2-cE_1w2m-a2-m1-cF 1w7v-a1-m1-cB_1w7v-a1-m1-cA 1w7v-a1-m2-cB_1w7v-a1-m2-cA 1w7v-a2-m1-cC_1w7v-a2-m3-cC 1w7v-a2-m1-cD_1w7v-a2-m3-cD 1wbq-a1-m1-cB_1wbq-a1-m1-cA 1wbq-a1-m2-cB_1wbq-a1-m2-cA 1wbq-a2-m1-cC_1wbq-a2-m3-cC 1wbq-a2-m1-cD_1wbq-a2-m3-cD 1wl6-a1-m1-cA_1wl6-a1-m4-cA 1wl6-a1-m2-cA_1wl6-a1-m3-cA 1wl6-a2-m1-cA_1wl6-a2-m4-cA 1wl9-a1-m1-cA_1wl9-a1-m4-cA 1wl9-a1-m2-cA_1wl9-a1-m3-cA 1wlr-a1-m1-cA_1wlr-a1-m4-cA 1wlr-a1-m2-cA_1wlr-a1-m3-cA 2bh3-a1-m1-cA_2bh3-a1-m2-cA 2bh3-a1-m3-cA_2bh3-a1-m4-cA 2bha-a1-m1-cA_2bha-a1-m2-cA 2bha-a1-m3-cA_2bha-a1-m4-cA 2bhb-a1-m1-cA_2bhb-a1-m2-cA 2bhb-a1-m3-cA_2bhb-a1-m4-cA 2bhc-a1-m1-cA_2bhc-a1-m2-cA 2bhc-a1-m3-cA_2bhc-a1-m4-cA 2bhd-a1-m1-cA_2bhd-a1-m2-cA 2bhd-a1-m3-cA_2bhd-a1-m4-cA 2bn7-a1-m1-cA_2bn7-a1-m2-cA 2bn7-a1-m3-cA_2bn7-a1-m4-cA 2bws-a1-m1-cA_2bws-a1-m4-cA 2bws-a1-m2-cA_2bws-a1-m3-cA 2bwt-a1-m1-cA_2bwt-a1-m2-cA 2bwt-a1-m3-cA_2bwt-a1-m4-cA 2bwu-a1-m1-cA_2bwu-a1-m2-cA 2bwu-a1-m3-cA_2bwu-a1-m4-cA 2bwv-a1-m1-cA_2bwv-a1-m4-cA 2bwv-a1-m2-cA_2bwv-a1-m3-cA 2bww-a1-m1-cA_2bww-a1-m2-cA 2bww-a1-m3-cA_2bww-a1-m4-cA 2bwx-a1-m1-cA_2bwx-a1-m4-cA 2bwx-a1-m2-cA_2bwx-a1-m3-cA 2bwy-a1-m1-cA_2bwy-a1-m2-cA 2bwy-a1-m3-cA_2bwy-a1-m4-cA 2v3x-a1-m1-cA_2v3x-a1-m4-cA 2v3x-a1-m2-cA_2v3x-a1-m3-cA 2v3y-a1-m1-cA_2v3y-a1-m4-cA 2v3y-a1-m2-cA_2v3y-a1-m3-cA 2v3z-a1-m2-cA_2v3z-a1-m3-cA SEISRQEFQRRRQALVEQMQPGSAALIFAAPEVTRSADSEYPYRQNSDFWYFTGFNEPEAVLVLIKSDDTHNHSVLFNRVRDLTAEIWFGRRLGQDAAPEKLGVDRALAFSEINQQLYQLLNGLDVVYHAQGEYAYADVIVNSALEKLRKGSRQNLTAPATMIDWRPVVHEMRLFKSPEEIAVLRRAGEITAMAHTRAMEKCRPGMFEYHLEGEIHHEFNRHGARYPSYNTIVGSGENGCILHYTENEEMRDGDLVLIDAGCEYKGYAGDITRTFPVNGKFTQAQREIYDIVLESLETSLRLYRPGTSILEVTGEVVRIMVSGLVKLGILKGDVDELIAQNAHRPFFMHGLSHWLGLDVHDVGVYGQDRSRILEPGMVLTVAPGLYIAPDAEVPEQYRGIGIRIEDDIVITETGNENLTASVVKKPEEIEALMVAARKQ SEISRQEFQRRRQALVEQMQPGSAALIFAAPEVTRSADSEYPYRQNSDFWYFTGFNEPEAVLVLIKSDDTHNHSVLFNRVRDLTAEIWFGRRLGQDAAPEKLGVDRALAFSEINQQLYQLLNGLDVVYHAQGEYAYADVIVNSALEKLRKGSRQNLTAPATMIDWRPVVHEMRLFKSPEEIAVLRRAGEITAMAHTRAMEKCRPGMFEYHLEGEIHHEFNRHGARYPSYNTIVGSGENGCILHYTENEEMRDGDLVLIDAGCEYKGYAGDITRTFPVNGKFTQAQREIYDIVLESLETSLRLYRPGTSILEVTGEVVRIMVSGLVKLGILKGDVDELIAQNAHRPFFMHGLSHWLGLDVHDVGVYGQDRSRILEPGMVLTVAPGLYIAPDAEVPEQYRGIGIRIEDDIVITETGNENLTASVVKKPEEIEALMVAARKQ 2v3z-a1-m3-cA_2v3z-a1-m4-cA Glu383Ala Escherichia coli aminopeptidase P in complex with substrate P15034 P15034 1.56 X-RAY DIFFRACTION 38 1.0 562 (Escherichia coli) 562 (Escherichia coli) 439 439 1a16-a1-m1-cA_1a16-a1-m2-cA 1a16-a1-m3-cA_1a16-a1-m4-cA 1m35-a1-m1-cA_1m35-a1-m1-cB 1m35-a1-m1-cC_1m35-a1-m1-cD 1m35-a2-m1-cE_1m35-a2-m1-cF 1m35-a2-m2-cE_1m35-a2-m2-cF 1n51-a1-m1-cA_1n51-a1-m2-cA 1n51-a1-m3-cA_1n51-a1-m4-cA 1n51-a3-m1-cA_1n51-a3-m2-cA 1n51-a3-m3-cA_1n51-a3-m4-cA 1w2m-a1-m1-cB_1w2m-a1-m1-cA 1w2m-a1-m1-cC_1w2m-a1-m1-cD 1w2m-a2-m1-cE_1w2m-a2-m1-cF 1w2m-a2-m2-cE_1w2m-a2-m2-cF 1w7v-a1-m1-cA_1w7v-a1-m2-cA 1w7v-a1-m1-cB_1w7v-a1-m2-cB 1w7v-a2-m1-cC_1w7v-a2-m1-cD 1w7v-a2-m3-cC_1w7v-a2-m3-cD 1wbq-a1-m1-cA_1wbq-a1-m2-cA 1wbq-a1-m1-cB_1wbq-a1-m2-cB 1wbq-a2-m1-cC_1wbq-a2-m1-cD 1wbq-a2-m3-cC_1wbq-a2-m3-cD 1wl6-a1-m1-cA_1wl6-a1-m2-cA 1wl6-a1-m3-cA_1wl6-a1-m4-cA 1wl9-a1-m1-cA_1wl9-a1-m2-cA 1wl9-a1-m3-cA_1wl9-a1-m4-cA 1wlr-a1-m1-cA_1wlr-a1-m2-cA 1wlr-a1-m3-cA_1wlr-a1-m4-cA 2bh3-a1-m1-cA_2bh3-a1-m3-cA 2bh3-a1-m2-cA_2bh3-a1-m4-cA 2bha-a1-m1-cA_2bha-a1-m3-cA 2bha-a1-m2-cA_2bha-a1-m4-cA 2bhb-a1-m1-cA_2bhb-a1-m3-cA 2bhb-a1-m2-cA_2bhb-a1-m4-cA 2bhc-a1-m1-cA_2bhc-a1-m3-cA 2bhc-a1-m2-cA_2bhc-a1-m4-cA 2bhd-a1-m1-cA_2bhd-a1-m3-cA 2bhd-a1-m2-cA_2bhd-a1-m4-cA 2bn7-a1-m1-cA_2bn7-a1-m3-cA 2bn7-a1-m2-cA_2bn7-a1-m4-cA 2bws-a1-m1-cA_2bws-a1-m2-cA 2bws-a1-m3-cA_2bws-a1-m4-cA 2bwt-a1-m1-cA_2bwt-a1-m3-cA 2bwt-a1-m2-cA_2bwt-a1-m4-cA 2bwu-a1-m1-cA_2bwu-a1-m3-cA 2bwu-a1-m2-cA_2bwu-a1-m4-cA 2bwv-a1-m1-cA_2bwv-a1-m2-cA 2bwv-a1-m3-cA_2bwv-a1-m4-cA 2bww-a1-m1-cA_2bww-a1-m3-cA 2bww-a1-m2-cA_2bww-a1-m4-cA 2bwx-a1-m1-cA_2bwx-a1-m2-cA 2bwx-a1-m3-cA_2bwx-a1-m4-cA 2bwy-a1-m1-cA_2bwy-a1-m3-cA 2bwy-a1-m2-cA_2bwy-a1-m4-cA 2v3x-a1-m1-cA_2v3x-a1-m2-cA 2v3x-a1-m3-cA_2v3x-a1-m4-cA 2v3y-a1-m1-cA_2v3y-a1-m2-cA 2v3y-a1-m3-cA_2v3y-a1-m4-cA 2v3z-a1-m1-cA_2v3z-a1-m2-cA SEISRQEFQRRRQALVEQMQPGSAALIFAAPEVTRSADSEYPYRQNSDFWYFTGFNEPEAVLVLIKSDDTHNHSVLFNRVRDLTAEIWFGRRLGQDAAPEKLGVDRALAFSEINQQLYQLLNGLDVVYHAQGEYAYADVIVNSALEKLRKGSRQNLTAPATMIDWRPVVHEMRLFKSPEEIAVLRRAGEITAMAHTRAMEKCRPGMFEYHLEGEIHHEFNRHGARYPSYNTIVGSGENGCILHYTENEEMRDGDLVLIDAGCEYKGYAGDITRTFPVNGKFTQAQREIYDIVLESLETSLRLYRPGTSILEVTGEVVRIMVSGLVKLGILKGDVDELIAQNAHRPFFMHGLSHWLGLDVHDVGVYGQDRSRILEPGMVLTVAPGLYIAPDAEVPEQYRGIGIRIEDDIVITETGNENLTASVVKKPEEIEALMVAARKQ SEISRQEFQRRRQALVEQMQPGSAALIFAAPEVTRSADSEYPYRQNSDFWYFTGFNEPEAVLVLIKSDDTHNHSVLFNRVRDLTAEIWFGRRLGQDAAPEKLGVDRALAFSEINQQLYQLLNGLDVVYHAQGEYAYADVIVNSALEKLRKGSRQNLTAPATMIDWRPVVHEMRLFKSPEEIAVLRRAGEITAMAHTRAMEKCRPGMFEYHLEGEIHHEFNRHGARYPSYNTIVGSGENGCILHYTENEEMRDGDLVLIDAGCEYKGYAGDITRTFPVNGKFTQAQREIYDIVLESLETSLRLYRPGTSILEVTGEVVRIMVSGLVKLGILKGDVDELIAQNAHRPFFMHGLSHWLGLDVHDVGVYGQDRSRILEPGMVLTVAPGLYIAPDAEVPEQYRGIGIRIEDDIVITETGNENLTASVVKKPEEIEALMVAARKQ 2v40-a1-m1-cA_2v40-a1-m2-cA Human Adenylosuccinate synthetase isozyme 2 in complex with GDP P30520 P30520 1.9 X-RAY DIFFRACTION 201 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 419 419 GGNRVTVVLGAQWGDEGKGKVVDLLAQDADIVCRCQGGNNAGHTVVVDSVEYDFHLLPSGIINPNVTAFIGNGVVIHLPGLFEEAEKNVQKGKGLEGWEKRLIISDRAHIVFDFHQAADGIQEQQKKGIGPVYSSKAARSGLRMCDLVSDFDGFSERFKVLANQYKSIYPTLEIDIEGELQKLKGYMEKIKPMVRDGVYFLYEALHGPPKKILVEGANAALLDIDFGTYPFVTSSNCTVGGVCTGLGMPPQNVGEVYGVVKAYTTRVGIGAFPTEQDNEIGELLQTRGREFGVTTGRKRRCGWLDLVLLKYAHMINGFTALALTKLDILDMFTEIKVGVAYKLDGEIIPHIPANQEVLNKVEVQYKTLPGWNTDISNARAFKELPVNAQNYVRFIEDELQIPVKWIGVGKSRESMIQLF GGNRVTVVLGAQWGDEGKGKVVDLLAQDADIVCRCQGGNNAGHTVVVDSVEYDFHLLPSGIINPNVTAFIGNGVVIHLPGLFEEAEKNVQKGKGLEGWEKRLIISDRAHIVFDFHQAADGIQEQQKKGIGPVYSSKAARSGLRMCDLVSDFDGFSERFKVLANQYKSIYPTLEIDIEGELQKLKGYMEKIKPMVRDGVYFLYEALHGPPKKILVEGANAALLDIDFGTYPFVTSSNCTVGGVCTGLGMPPQNVGEVYGVVKAYTTRVGIGAFPTEQDNEIGELLQTRGREFGVTTGRKRRCGWLDLVLLKYAHMINGFTALALTKLDILDMFTEIKVGVAYKLDGEIIPHIPANQEVLNKVEVQYKTLPGWNTDISNARAFKELPVNAQNYVRFIEDELQIPVKWIGVGKSRESMIQLF 2v4h-a1-m1-cA_2v4h-a1-m2-cA NEMO CC2-LZ domain - 1D5 DARPin complex O88522 O88522 2.9 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 98 98 GLVPRGSHMASMQLEDLRQQLQQAEEALVAKQELIDKLKEEAEQHKIVMETVPVLKAQADIYKADFQAERHAREKLVEKKEYLQEQLEQLQREFNKLK GLVPRGSHMASMQLEDLRQQLQQAEEALVAKQELIDKLKEEAEQHKIVMETVPVLKAQADIYKADFQAERHAREKLVEKKEYLQEQLEQLQREFNKLK 2v4h-a1-m2-cB_2v4h-a1-m1-cA NEMO CC2-LZ domain - 1D5 DARPin complex O88522 O88522 2.9 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 91 98 2v4h-a1-m1-cB_2v4h-a1-m2-cA HMASMQLEDLRQQLQQAEEALVAKQELIDKLKEEAEQHKIVMETVPVLKAQADIYKADFQAERHAREKLVEKKEYLQEQLEQLQREFNKLK GLVPRGSHMASMQLEDLRQQLQQAEEALVAKQELIDKLKEEAEQHKIVMETVPVLKAQADIYKADFQAERHAREKLVEKKEYLQEQLEQLQREFNKLK 2v4h-a1-m2-cB_2v4h-a1-m2-cA NEMO CC2-LZ domain - 1D5 DARPin complex O88522 O88522 2.9 X-RAY DIFFRACTION 124 1.0 10090 (Mus musculus) 10090 (Mus musculus) 91 98 2v4h-a1-m1-cB_2v4h-a1-m1-cA 2zvn-a1-m1-cB_2zvn-a1-m1-cD 2zvn-a2-m1-cF_2zvn-a2-m1-cH 2zvo-a1-m1-cB_2zvo-a1-m1-cD 3f89-a1-m1-cB_3f89-a1-m1-cA 4owf-a1-m1-cA_4owf-a1-m1-cB 6xx0-a1-m1-cA_6xx0-a1-m1-cB 6yek-a1-m1-cB_6yek-a1-m1-cA 7tv4-a1-m1-cD_7tv4-a1-m1-cB HMASMQLEDLRQQLQQAEEALVAKQELIDKLKEEAEQHKIVMETVPVLKAQADIYKADFQAERHAREKLVEKKEYLQEQLEQLQREFNKLK GLVPRGSHMASMQLEDLRQQLQQAEEALVAKQELIDKLKEEAEQHKIVMETVPVLKAQADIYKADFQAERHAREKLVEKKEYLQEQLEQLQREFNKLK 2v4i-a2-m1-cF_2v4i-a2-m1-cH Structure of a novel N-acyl-enzyme intermediate of an N-terminal nucleophile (Ntn) hydrolase, OAT2 P0DJQ5 P0DJQ5 2.2 X-RAY DIFFRACTION 87 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 202 202 1vz6-a1-m1-cA_1vz6-a1-m1-cB 1vz7-a1-m1-cA_1vz7-a1-m1-cB 1vz7-a2-m1-cC_1vz7-a2-m1-cD 1vz8-a1-m1-cA_1vz8-a1-m1-cB 1vz8-a2-m1-cC_1vz8-a2-m1-cD 2v4i-a1-m1-cB_2v4i-a1-m1-cD LLTFFATDARLDPAEQDRLFRRVMDRTFNAVSIDTDTSTSDTAVLFANGLAGEVDAGEFEEALHTAALALVKDIASDGEGAAKLIEVQVTGARDDAQAKRVGKTVVNSPLVKTAVHGCDPNWGRVAMAIGKCSDDTDIDQERVTIRFGEVEVYPPDDALRAAVAEHLRGDEVVIGIDLAIADGAFTVYGCDLTEGYVRLNSE LLTFFATDARLDPAEQDRLFRRVMDRTFNAVSIDTDTSTSDTAVLFANGLAGEVDAGEFEEALHTAALALVKDIASDGEGAAKLIEVQVTGARDDAQAKRVGKTVVNSPLVKTAVHGCDPNWGRVAMAIGKCSDDTDIDQERVTIRFGEVEVYPPDDALRAAVAEHLRGDEVVIGIDLAIADGAFTVYGCDLTEGYVRLNSE 2v4j-a1-m1-cA_2v4j-a1-m1-cD THE CRYSTAL STRUCTURE OF Desulfovibrio vulgaris DISSIMILATORY SULFITE REDUCTASE BOUND TO DsrC PROVIDES NOVEL INSIGHTS INTO THE MECHANISM OF SULFATE RESPIRATION P45574 P45574 2.1 X-RAY DIFFRACTION 41 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 436 436 AKHATPKLDQLESGPWPSFVSDIKQEAAYRAANPKGLDYQVPVDCPEDLLGVLELSYDEGETHWKHGGIVGVFGYGGGVIGRYCDQPEKFPGVAHFHTVRVAQPSGKYYSADYLRQLCDIWDLRGSGLTNMHGSTGDIVLLGTQTPQLEEIFFELTHNLNTDLGGSGSNLRTPESCLGKSRCEFACYDSQAACYELTMEYQDELHRPAFPYKFKFKFDACPNGCVASIARSDFSVIGTWKDDIKIDAEAVKAYVAGEFKPNAGAHSGRDWGKFDIEAEVVNRCPSKCMKWDGSKLSIDNKECVRCMHCINTMPRALHIGDERGASILCGAKAPILDGAQMGSLLVPFVAAEEPFDEIKEVVEKIWDWWMEEGKNRERLGETMKRLSFQKLLEVTEIAPVPQHVKEPRTNPYIFFKEEEVPGGWDRDITEYRKRHLR AKHATPKLDQLESGPWPSFVSDIKQEAAYRAANPKGLDYQVPVDCPEDLLGVLELSYDEGETHWKHGGIVGVFGYGGGVIGRYCDQPEKFPGVAHFHTVRVAQPSGKYYSADYLRQLCDIWDLRGSGLTNMHGSTGDIVLLGTQTPQLEEIFFELTHNLNTDLGGSGSNLRTPESCLGKSRCEFACYDSQAACYELTMEYQDELHRPAFPYKFKFKFDACPNGCVASIARSDFSVIGTWKDDIKIDAEAVKAYVAGEFKPNAGAHSGRDWGKFDIEAEVVNRCPSKCMKWDGSKLSIDNKECVRCMHCINTMPRALHIGDERGASILCGAKAPILDGAQMGSLLVPFVAAEEPFDEIKEVVEKIWDWWMEEGKNRERLGETMKRLSFQKLLEVTEIAPVPQHVKEPRTNPYIFFKEEEVPGGWDRDITEYRKRHLR 2v4j-a1-m1-cB_2v4j-a1-m1-cE THE CRYSTAL STRUCTURE OF Desulfovibrio vulgaris DISSIMILATORY SULFITE REDUCTASE BOUND TO DsrC PROVIDES NOVEL INSIGHTS INTO THE MECHANISM OF SULFATE RESPIRATION P45575 P45575 2.1 X-RAY DIFFRACTION 26 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 380 380 AFISSGYNPEKPMANRITDIGPRKFDEFFPPVIAKNFGSWLYHEILEPGVLMHVAESGDKVYTVRVGAARLMSITHIREMCDIADKYCGGHLRFTTRNNVEFMVADEASLKALKEDLASRKFDGGSLKFPIGGTGAGVSNIVHTQGWVHCHTPATDASGPVKAIMDEVFEDFQSMRLPAPVRISLACCINMCGAVHCSDIGVVGIHRKPPMIDHEWTDQLCEIPLAVASCPTAAVRPTKLEIGDKKVNTIAIKNERCMYCGNCYTMCPALPISDGEGDGVVIMVGGKVSNRISMPKFSKVVVAYIPNEPPRWPSLTKTIKHIIEVYSANAYKYERLGEWAERIGWERFFSLTGLEFSHHLIDDFRDPAYYTWRQSTQFKF AFISSGYNPEKPMANRITDIGPRKFDEFFPPVIAKNFGSWLYHEILEPGVLMHVAESGDKVYTVRVGAARLMSITHIREMCDIADKYCGGHLRFTTRNNVEFMVADEASLKALKEDLASRKFDGGSLKFPIGGTGAGVSNIVHTQGWVHCHTPATDASGPVKAIMDEVFEDFQSMRLPAPVRISLACCINMCGAVHCSDIGVVGIHRKPPMIDHEWTDQLCEIPLAVASCPTAAVRPTKLEIGDKKVNTIAIKNERCMYCGNCYTMCPALPISDGEGDGVVIMVGGKVSNRISMPKFSKVVVAYIPNEPPRWPSLTKTIKHIIEVYSANAYKYERLGEWAERIGWERFFSLTGLEFSHHLIDDFRDPAYYTWRQSTQFKF 2v51-a1-m1-cE_2v51-a1-m1-cF Structure of MAL-RPEL1 complexed to actin Q8K4J6 Q8K4J6 2.35 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 28 28 RKNVLQLKLQQRRTREELVSQGIMPPLK RKNVLQLKLQQRRTREELVSQGIMPPLK 2v53-a1-m1-cB_2v53-a1-m1-cD Crystal structure of a SPARC-collagen complex P02461 P02461 3.2 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 26 GPGPGPGPSGPRGQGVMGFGPKGPGA GPGPGPGPSGPRGQGVMGFGPKGPGA 2v53-a1-m1-cC_2v53-a1-m1-cD Crystal structure of a SPARC-collagen complex P02461 P02461 3.2 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 26 2v53-a1-m1-cB_2v53-a1-m1-cC GPGPGPGPSGPRGQGVMGFGPKGPGA GPGPGPGPSGPRGQGVMGFGPKGPGA 2v54-a1-m1-cB_2v54-a1-m1-cA Crystal structure of vaccinia virus thymidylate kinase bound to TDP P68693 P68693 2.4 X-RAY DIFFRACTION 50 1.0 10249 (Vaccinia virus Copenhagen) 10249 (Vaccinia virus Copenhagen) 203 204 SRGALIVFEGLDKSGKTTQCMNIMESIPANTIKYLNFPQRSTVTGKMIDDYLTRKKTYNDHIVNLLFCANRWEFASFIQEQLEQGITLIVDRYAFSGVAYAAAKGASMTLSKSYESGLPKPDLVIFLESGSKEINRNVGEEIYEDVTFQQKVLQEYKKMIEEGDIHWQIISSEFEEDVKKELIKNIVIEAIHTVTGPVGQLWM MSRGALIVFEGLDKSGKTTQCMNIMESIPANTIKYLNFPQRSTVTGKMIDDYLTRKKTYNDHIVNLLFCANRWEFASFIQEQLEQGITLIVDRYAFSGVAYAAAKGASMTLSKSYESGLPKPDLVIFLESGSKEINRNVGEEIYEDVTFQQKVLQEYKKMIEEGDIHWQIISSEFEEDVKKELIKNIVIEAIHTVTGPVGQLWM 2v57-a2-m1-cC_2v57-a2-m1-cD Crystal structure of the TetR-like transcriptional regulator LfrR from Mycobacterium smegmatis in complex with proflavine Q58L87 Q58L87 1.9 X-RAY DIFFRACTION 139 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 172 176 2v57-a1-m1-cA_2v57-a1-m1-cB 2wgb-a1-m1-cB_2wgb-a1-m1-cA ARERTRRAILDAAMLVLADHPTAALGDIAAAAGVGRSTVHRYYPERTDLLRALARHVHDLSNAAIERADPTSGPVDAALRRVVESQLDLGPIVLFVYYEPSILADPELAAYFDIGDEAIVEVLNRASYPPGWARRVFWALMQAGYEAAKDGMPRHQIVDAIMTSLTSGIITL GARERTRRAILDAAMLVLADHPTAALGDIAAAAGVGRSTVHRYYPERTDLLRALARHVHDLSNAAIERADPTSGPVDAALRRVVESQLDLGPIVLFVYYEPSILADPELAAYFDIGDEAIVEVLNRASTERYPPGWARRVFWALMQAGYEAAKDGMPRHQIVDAIMTSLTSGIITL 2v5b-a1-m1-cA_2v5b-a1-m2-cA The monomerization of Triosephosphate Isomerase from Trypanosoma cruzi P52270 P52270 2 X-RAY DIFFRACTION 49 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 236 236 SKPQPIAAANWKCLLVPLIETLNAATFDHDVQCVVAPTFLHIPMTKARLTNPKFQIAAQNAGNADALASLKDYGISWVVLGHSERRLYYGETNEIVAEKVAQAAAGFHVIVCVGETNEEREAGRTAAVVLTQLAAVAQKLSKEAWSRVVIAYEPVWAIGTGKVATPQQAQEVHELLRRWVRSKLGTDIAAQLRILYGGSVTAKNARTLYQMRDINGFLVGGASLKPEFVEIIEATK SKPQPIAAANWKCLLVPLIETLNAATFDHDVQCVVAPTFLHIPMTKARLTNPKFQIAAQNAGNADALASLKDYGISWVVLGHSERRLYYGETNEIVAEKVAQAAAGFHVIVCVGETNEEREAGRTAAVVLTQLAAVAQKLSKEAWSRVVIAYEPVWAIGTGKVATPQQAQEVHELLRRWVRSKLGTDIAAQLRILYGGSVTAKNARTLYQMRDINGFLVGGASLKPEFVEIIEATK 2v5h-a1-m1-cA_2v5h-a1-m1-cC Controlling the storage of nitrogen as arginine: the complex of PII and acetylglutamate kinase from Synechococcus elongatus PCC 7942 Q6V1L5 Q6V1L5 2.75 X-RAY DIFFRACTION 88 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 284 284 2jj4-a1-m1-cA_2jj4-a1-m1-cC 2jj4-a1-m1-cB_2jj4-a1-m2-cB 2jj4-a1-m2-cA_2jj4-a1-m2-cC 2v5h-a1-m1-cD_2v5h-a1-m1-cF 2v5h-a1-m1-cE_2v5h-a1-m1-cB AGAADRVRILSEALPYLQQFAGRTVVVKYGGAAMKQEELKEAVMRDIVFLACVGMRPVVVHGGGPEINAWLGRVGIEPQFHNGLRVTDADTMEVVEMVLVGRVNKDIVSRINTTGGRAVGFCGTDGRLVLARPHDQEGIGFVGEVNSVNSEVIEPLLERGYIPVISSVAADENGQSFNINADTVAGEIAAALNAEKLILLTDTRGILEDPKRPESLIPRLNIPQSRELIAQGIVGGGMIPKVDCCIRSLAQGVRAAHIIDGRIPHALLLEIFTDAGIGTMIVGS AGAADRVRILSEALPYLQQFAGRTVVVKYGGAAMKQEELKEAVMRDIVFLACVGMRPVVVHGGGPEINAWLGRVGIEPQFHNGLRVTDADTMEVVEMVLVGRVNKDIVSRINTTGGRAVGFCGTDGRLVLARPHDQEGIGFVGEVNSVNSEVIEPLLERGYIPVISSVAADENGQSFNINADTVAGEIAAALNAEKLILLTDTRGILEDPKRPESLIPRLNIPQSRELIAQGIVGGGMIPKVDCCIRSLAQGVRAAHIIDGRIPHALLLEIFTDAGIGTMIVGS 2v5i-a1-m2-cA_2v5i-a1-m3-cA Structure of the receptor-binding protein of bacteriophage Det7: a podoviral tailspike in a myovirus 1.6 X-RAY DIFFRACTION 349 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 553 553 2v5i-a1-m1-cA_2v5i-a1-m2-cA 2v5i-a1-m1-cA_2v5i-a1-m3-cA AAFRQEANKKFKYSVKLSDYSTLQDAVTDAVDGLLIDINYNFTDGESVDFXGKILTINCKAKFIGDGALIFNNMGPGSVINQPFMESKTTPWVIFPWDADGKWITDAALVAATLKQSKIEGYQPGVNDWVKFPGLEALLPQNVKDQHIAATLDIRSASRVEIRNAGGLMAAYLFRSCHHCKVIDSDSIIGGKDGIITFENLSGDWGLGNYVIGGRVHYGSGSGVQFLRNNGGESHNGGVIGVTSWRAGESGFKTYQGSVGGGTARNYNLQFRDSVALSPVWDGFDLGSDPGMAPEPDRPGDLPVSEYPFHQLPNNHLVDNILVMNSLGVGLGMDGSGGYVSNVTVQDCAGAGMLAHTYNRVFSNITVIDCNYLNFDSDQIIIIGDCIVNGIRAAGIKPQPSNGLVISAPNSTISGLVGNVPPDKILVGNLLDPVLGQSRVIGFNSDTAELALRINKLSATLDSGALRSHLNGYAGSGSAWTELTALSGSTPNAVSLKVNRGDYKTTEIPISGTVLPDEGVLDINTMSLYLDAGALWALIRLPDGSKTRMKLSV AAFRQEANKKFKYSVKLSDYSTLQDAVTDAVDGLLIDINYNFTDGESVDFXGKILTINCKAKFIGDGALIFNNMGPGSVINQPFMESKTTPWVIFPWDADGKWITDAALVAATLKQSKIEGYQPGVNDWVKFPGLEALLPQNVKDQHIAATLDIRSASRVEIRNAGGLMAAYLFRSCHHCKVIDSDSIIGGKDGIITFENLSGDWGLGNYVIGGRVHYGSGSGVQFLRNNGGESHNGGVIGVTSWRAGESGFKTYQGSVGGGTARNYNLQFRDSVALSPVWDGFDLGSDPGMAPEPDRPGDLPVSEYPFHQLPNNHLVDNILVMNSLGVGLGMDGSGGYVSNVTVQDCAGAGMLAHTYNRVFSNITVIDCNYLNFDSDQIIIIGDCIVNGIRAAGIKPQPSNGLVISAPNSTISGLVGNVPPDKILVGNLLDPVLGQSRVIGFNSDTAELALRINKLSATLDSGALRSHLNGYAGSGSAWTELTALSGSTPNAVSLKVNRGDYKTTEIPISGTVLPDEGVLDINTMSLYLDAGALWALIRLPDGSKTRMKLSV 2v5r-a1-m1-cA_2v5r-a1-m1-cB Structural basis for Dscam isoform specificity Q0E9K4 Q0E9K4 3 X-RAY DIFFRACTION 23 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 391 391 QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVIQSYESEADNEYVIRGNSVVMKCEIPSYVADFVFVDLWLDSEGRNYYPNNAAETDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPVGSVRPKVNPQDKHQFIDVELASSYSLLCMAQSYPTPSFRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSESVLRIESVKKEDKGMYQCFVRNDRESAEASAELKLG QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVIQSYESEADNEYVIRGNSVVMKCEIPSYVADFVFVDLWLDSEGRNYYPNNAAETDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPVGSVRPKVNPQDKHQFIDVELASSYSLLCMAQSYPTPSFRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSESVLRIESVKKEDKGMYQCFVRNDRESAEASAELKLG 2v5y-a1-m1-cA_2v5y-a1-m2-cA Crystal structure of the receptor protein tyrosine phosphatase mu ectodomain P28827 P28827 3.1 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 564 564 TFSGGCLFDEPYSTCGYSQSEGDDFNWEQVNTLTKPTSDPWMPSGSFMLVNASGRPEGQRAHLLLPQLKENDTHCIDFHYFVSSKSNSPPGLLNVYVKVNNGPLGNPIWNISGDPTRTWNRAELAISTFWPNFYQVIFEVITSGHQGYLAIDEVKVLGHPCTRTPHFLRIQNVEVNAGQFATFQCSAIGRTVAGDRLWLQGIDVRDAPLKEIKVTSSRRFIASFNVVNTTKRDAGKYRCMIRTEGGVGISNYAELVVKEPPVPIAPPQLASVGATYLWIQLNANSINGDGPIVAREVEYCTASGSWNDRQPVDSTSYKIGHLDPDTEYEISVLLTRPGEGGTGSPGPALRTRTKCADPMRGPRKLEVVEVKSRQITIRWEPFGYNVTRCHSYNLTVHYCYQVGGQEQVREEVSWDTENSHPQHTITNLSPYTNVSVKLILMNPEGRKESQELIVQTDEDLPGAVPTESIQGSTFEEKIFLQWREPTQTYGVITLYEITYKAVSSFDDLSNQSGRVSKLGNETHFLFFGLYPGTTYSFTIRASTAKGFGPPATNQFTTKISAPSM TFSGGCLFDEPYSTCGYSQSEGDDFNWEQVNTLTKPTSDPWMPSGSFMLVNASGRPEGQRAHLLLPQLKENDTHCIDFHYFVSSKSNSPPGLLNVYVKVNNGPLGNPIWNISGDPTRTWNRAELAISTFWPNFYQVIFEVITSGHQGYLAIDEVKVLGHPCTRTPHFLRIQNVEVNAGQFATFQCSAIGRTVAGDRLWLQGIDVRDAPLKEIKVTSSRRFIASFNVVNTTKRDAGKYRCMIRTEGGVGISNYAELVVKEPPVPIAPPQLASVGATYLWIQLNANSINGDGPIVAREVEYCTASGSWNDRQPVDSTSYKIGHLDPDTEYEISVLLTRPGEGGTGSPGPALRTRTKCADPMRGPRKLEVVEVKSRQITIRWEPFGYNVTRCHSYNLTVHYCYQVGGQEQVREEVSWDTENSHPQHTITNLSPYTNVSVKLILMNPEGRKESQELIVQTDEDLPGAVPTESIQGSTFEEKIFLQWREPTQTYGVITLYEITYKAVSSFDDLSNQSGRVSKLGNETHFLFFGLYPGTTYSFTIRASTAKGFGPPATNQFTTKISAPSM 2v65-a2-m7-cB_2v65-a2-m1-cB Apo LDH from the psychrophile C. gunnari O93541 O93541 2.35 X-RAY DIFFRACTION 156 1.0 52237 (Champsocephalus gunnari) 52237 (Champsocephalus gunnari) 325 325 2v65-a1-m1-cA_2v65-a1-m3-cA 2v65-a1-m4-cA_2v65-a1-m2-cA 2v65-a2-m5-cB_2v65-a2-m6-cB STKEKLISHVMKEEPVGSRSKVTVVGVGMVGMASAISILLKDLCDELAMVDVMEDKLKGEVMDLQHGSLFLKTKIVGDKDYSVTANSKVVVVTAGAESRLNLVQRNVNIFKFIIPNIVKYSPNCILMVVSNPVDILTYVAWKLSGFPRHRVIGSGTNLDSARFRHLIGEKLHLHPSSCHAWIVGEHGDSSVPVWSGVNVAGVSLQGLNPQMGTEGDGENWKAIHKEVVDGAYEVIKLKGYTSWAIGMSVADLVESIIKNMHKVHPVSTLVQGMHGVKDEVFLSVPCVLGNSGLTDVIHMTLKAEEEKQLQKSAETLWGVQKELTL STKEKLISHVMKEEPVGSRSKVTVVGVGMVGMASAISILLKDLCDELAMVDVMEDKLKGEVMDLQHGSLFLKTKIVGDKDYSVTANSKVVVVTAGAESRLNLVQRNVNIFKFIIPNIVKYSPNCILMVVSNPVDILTYVAWKLSGFPRHRVIGSGTNLDSARFRHLIGEKLHLHPSSCHAWIVGEHGDSSVPVWSGVNVAGVSLQGLNPQMGTEGDGENWKAIHKEVVDGAYEVIKLKGYTSWAIGMSVADLVESIIKNMHKVHPVSTLVQGMHGVKDEVFLSVPCVLGNSGLTDVIHMTLKAEEEKQLQKSAETLWGVQKELTL 2v65-a2-m7-cB_2v65-a2-m5-cB Apo LDH from the psychrophile C. gunnari O93541 O93541 2.35 X-RAY DIFFRACTION 54 1.0 52237 (Champsocephalus gunnari) 52237 (Champsocephalus gunnari) 325 325 2v65-a1-m2-cA_2v65-a1-m3-cA 2v65-a1-m4-cA_2v65-a1-m1-cA 2v65-a2-m1-cB_2v65-a2-m6-cB STKEKLISHVMKEEPVGSRSKVTVVGVGMVGMASAISILLKDLCDELAMVDVMEDKLKGEVMDLQHGSLFLKTKIVGDKDYSVTANSKVVVVTAGAESRLNLVQRNVNIFKFIIPNIVKYSPNCILMVVSNPVDILTYVAWKLSGFPRHRVIGSGTNLDSARFRHLIGEKLHLHPSSCHAWIVGEHGDSSVPVWSGVNVAGVSLQGLNPQMGTEGDGENWKAIHKEVVDGAYEVIKLKGYTSWAIGMSVADLVESIIKNMHKVHPVSTLVQGMHGVKDEVFLSVPCVLGNSGLTDVIHMTLKAEEEKQLQKSAETLWGVQKELTL STKEKLISHVMKEEPVGSRSKVTVVGVGMVGMASAISILLKDLCDELAMVDVMEDKLKGEVMDLQHGSLFLKTKIVGDKDYSVTANSKVVVVTAGAESRLNLVQRNVNIFKFIIPNIVKYSPNCILMVVSNPVDILTYVAWKLSGFPRHRVIGSGTNLDSARFRHLIGEKLHLHPSSCHAWIVGEHGDSSVPVWSGVNVAGVSLQGLNPQMGTEGDGENWKAIHKEVVDGAYEVIKLKGYTSWAIGMSVADLVESIIKNMHKVHPVSTLVQGMHGVKDEVFLSVPCVLGNSGLTDVIHMTLKAEEEKQLQKSAETLWGVQKELTL 2v65-a2-m7-cB_2v65-a2-m6-cB Apo LDH from the psychrophile C. gunnari O93541 O93541 2.35 X-RAY DIFFRACTION 102 1.0 52237 (Champsocephalus gunnari) 52237 (Champsocephalus gunnari) 325 325 2v65-a1-m1-cA_2v65-a1-m2-cA 2v65-a1-m4-cA_2v65-a1-m3-cA 2v65-a2-m1-cB_2v65-a2-m5-cB STKEKLISHVMKEEPVGSRSKVTVVGVGMVGMASAISILLKDLCDELAMVDVMEDKLKGEVMDLQHGSLFLKTKIVGDKDYSVTANSKVVVVTAGAESRLNLVQRNVNIFKFIIPNIVKYSPNCILMVVSNPVDILTYVAWKLSGFPRHRVIGSGTNLDSARFRHLIGEKLHLHPSSCHAWIVGEHGDSSVPVWSGVNVAGVSLQGLNPQMGTEGDGENWKAIHKEVVDGAYEVIKLKGYTSWAIGMSVADLVESIIKNMHKVHPVSTLVQGMHGVKDEVFLSVPCVLGNSGLTDVIHMTLKAEEEKQLQKSAETLWGVQKELTL STKEKLISHVMKEEPVGSRSKVTVVGVGMVGMASAISILLKDLCDELAMVDVMEDKLKGEVMDLQHGSLFLKTKIVGDKDYSVTANSKVVVVTAGAESRLNLVQRNVNIFKFIIPNIVKYSPNCILMVVSNPVDILTYVAWKLSGFPRHRVIGSGTNLDSARFRHLIGEKLHLHPSSCHAWIVGEHGDSSVPVWSGVNVAGVSLQGLNPQMGTEGDGENWKAIHKEVVDGAYEVIKLKGYTSWAIGMSVADLVESIIKNMHKVHPVSTLVQGMHGVKDEVFLSVPCVLGNSGLTDVIHMTLKAEEEKQLQKSAETLWGVQKELTL 2v66-a1-m1-cB_2v66-a1-m1-cC Crystal Structure of the coiled-coil domain of Ndel1 (a.a. 58 to 169) C Q9GZM8 Q9GZM8 2.1 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 2v71-a1-m1-cA_2v71-a1-m2-cA AEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATIVSLEDFEQRLNQAIERNAFLESELDEKESLLVSVQ AEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATIVSLEDFEQRLNQAIERNAFLESELDEKESLLVSVQ 2v66-a1-m1-cB_2v66-a1-m1-cE Crystal Structure of the coiled-coil domain of Ndel1 (a.a. 58 to 169) C Q9GZM8 Q9GZM8 2.1 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 2v66-a1-m1-cC_2v66-a1-m1-cD AEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATIVSLEDFEQRLNQAIERNAFLESELDEKESLLVSVQ AEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATIVSLEDFEQRLNQAIERNAFLESELDEKESLLVSVQ 2v66-a1-m1-cD_2v66-a1-m1-cE Crystal Structure of the coiled-coil domain of Ndel1 (a.a. 58 to 169) C Q9GZM8 Q9GZM8 2.1 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 2v71-a1-m1-cB_2v71-a1-m2-cB AEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATIVSLEDFEQRLNQAIERNAFLESELDEKESLLVSVQ AEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATIVSLEDFEQRLNQAIERNAFLESELDEKESLLVSVQ 2v6b-a1-m1-cA_2v6b-a1-m1-cD Crystal structure of lactate dehydrogenase from Deinococcus Radiodurans (apo form) P50933 P50933 2.5 X-RAY DIFFRACTION 46 0.996 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 274 279 2v6b-a1-m1-cC_2v6b-a1-m1-cB MKVGVVGTGFVGSTAAFALVLRGSCSELVLVDRDEDRAQAEAEDIAHAAPVSHGTRVWHGGHSELADAQVVILTALLEKNADIFRELVPQITRAAPDAVLLVTSNPVDLLTDLATQLAPGQPVIGSGTVLDSARFRHLMAQHAGVDGTHAHGYVLGEHGDSEVLAWSSAMVAGMPVADFMQAQNLPWNEQVRAKIDEGTRNTYYGIGAALARITEAVLRDRRAVLTVSAPTPEYGVSLSLPRVVGRQGVLSTLHPKLTGDEQQKLEQSAGVLRG MKVGVVGTGFVGSTAAFALVLRGSCSELVLVDRDEDRAQAEAEDIAHAAPVSHGTRVWHGGHSELADAQVVILTAGARLDLLEKNADIFRELVPQITRAAPDAVLLVTSNPVDLLTDLATQLAPGQPVIGSGTVLDSARFRHLMAQHAGVDGTHAHGYVLGEHGDSEVLAWSSAMVAGMPVADFMQAQNLPWNEQVRAKIDEGTRTYYGIGAALARITEAVLRDRRAVLTVSAPTPEYGVSLSLPRVVGRQGVLSTLHPKLTGDEQQKLEQSAGVLRGF 2v6b-a1-m1-cD_2v6b-a1-m1-cB Crystal structure of lactate dehydrogenase from Deinococcus Radiodurans (apo form) P50933 P50933 2.5 X-RAY DIFFRACTION 23 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 279 282 2v6b-a1-m1-cA_2v6b-a1-m1-cC MKVGVVGTGFVGSTAAFALVLRGSCSELVLVDRDEDRAQAEAEDIAHAAPVSHGTRVWHGGHSELADAQVVILTAGARLDLLEKNADIFRELVPQITRAAPDAVLLVTSNPVDLLTDLATQLAPGQPVIGSGTVLDSARFRHLMAQHAGVDGTHAHGYVLGEHGDSEVLAWSSAMVAGMPVADFMQAQNLPWNEQVRAKIDEGTRTYYGIGAALARITEAVLRDRRAVLTVSAPTPEYGVSLSLPRVVGRQGVLSTLHPKLTGDEQQKLEQSAGVLRGF MKVGVVGTGFVGSTAAFALVLRGSCSELVLVDRDEDRAQAEAEDIAHAAPVSHGTRVWHGGHSELADAQVVILTAGAESRLDLLEKNADIFRELVPQITRAAPDAVLLVTSNPVDLLTDLATQLAPGQPVIGSGTVLDSARFRHLMAQHAGVDGTHAHGYVLGEHGDSEVLAWSSAMVAGMPVADFMQAQNLPWNEQVRAKIDEGTRTYYGIGAALARITEAVLRDRRAVLTVSAPTPEYGVSLSLPRVVGRQGVLSTLHPKLTGDEQQKLEQSAGVLRGFK 2v6b-a1-m1-cD_2v6b-a1-m1-cC Crystal structure of lactate dehydrogenase from Deinococcus Radiodurans (apo form) P50933 P50933 2.5 X-RAY DIFFRACTION 73 0.996 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 279 281 2v6b-a1-m1-cA_2v6b-a1-m1-cB MKVGVVGTGFVGSTAAFALVLRGSCSELVLVDRDEDRAQAEAEDIAHAAPVSHGTRVWHGGHSELADAQVVILTAGARLDLLEKNADIFRELVPQITRAAPDAVLLVTSNPVDLLTDLATQLAPGQPVIGSGTVLDSARFRHLMAQHAGVDGTHAHGYVLGEHGDSEVLAWSSAMVAGMPVADFMQAQNLPWNEQVRAKIDEGTRTYYGIGAALARITEAVLRDRRAVLTVSAPTPEYGVSLSLPRVVGRQGVLSTLHPKLTGDEQQKLEQSAGVLRGF MKVGVVGTGFVGSTAAFALVLRGSCSELVLVDRDEDRAQAEAEDIAHAAPVSHGTRVWHGGHSELADAQVVILTAGSRLDLLEKNADIFRELVPQITRAAPDAVLLVTSNPVDLLTDLATQLAPGQPVIGSGTVLDSARFRHLMAQHAGVDGTHAHGYVLGEHGDSEVLAWSSAMVAGMPVADFMQAQNLPWNEQVRAKIDEGTRNTYYGIGAALARITEAVLRDRRAVLTVSAPTPEYGVSLSLPRVVGRQGVLSTLHPKLTGDEQQKLEQSAGVLRGFK 2v6e-a1-m1-cA_2v6e-a1-m1-cB protelomerase TelK complexed with substrate DNA Q6UAV6 Q6UAV6 3.2 X-RAY DIFFRACTION 126 1.0 255431 (Klebsiella phage phiKO2) 255431 (Klebsiella phage phiKO2) 531 531 VKIGELINSLVSEVEAIDASDRPQGDKTKKIKAAALKYKNALFNDKRKFRGKGLEKRISANTFNSYMSRARKRFDDRLHHNFEKNVIKLSEKYPLYSEELSSWLSMPAASIRQHMSRLQAKLKEIMPLAEDLSNIKIGTKNSEAKINKLANKYPEWQFAISDLNSEDWKDKRDYLYKLFQQGSSLLEDLNNLKVNHEVLYHLQLSSAERTSIQQRWANVLSEKKRNVVVIDYPRYMQAIYDIINKPIVSFDLTTRRGMAPLAFALAALSGRRMIEIMLQGEFSVAGKYTVTFLGQAKKRSEDKGISRKIYTLCDATLFVSLVNELRSCPAAADFDEVIKGYGENDTRSENGRINAILATAFNPWVKTFLGDDRRVYKDSRAIYARIAYEMFFRVDPRWKNVDEDVFFMEILGHDDENTQLHYKQFKLANFSRTWRPNVGEENARLAALQKLDSMMPDFARGDAGVRIHETVKQLVEQDPSIKITNSTLRPFNFSTRLIPRYLEFAADALGQFVGENGQWQLKDEAPAIVLP VKIGELINSLVSEVEAIDASDRPQGDKTKKIKAAALKYKNALFNDKRKFRGKGLEKRISANTFNSYMSRARKRFDDRLHHNFEKNVIKLSEKYPLYSEELSSWLSMPAASIRQHMSRLQAKLKEIMPLAEDLSNIKIGTKNSEAKINKLANKYPEWQFAISDLNSEDWKDKRDYLYKLFQQGSSLLEDLNNLKVNHEVLYHLQLSSAERTSIQQRWANVLSEKKRNVVVIDYPRYMQAIYDIINKPIVSFDLTTRRGMAPLAFALAALSGRRMIEIMLQGEFSVAGKYTVTFLGQAKKRSEDKGISRKIYTLCDATLFVSLVNELRSCPAAADFDEVIKGYGENDTRSENGRINAILATAFNPWVKTFLGDDRRVYKDSRAIYARIAYEMFFRVDPRWKNVDEDVFFMEILGHDDENTQLHYKQFKLANFSRTWRPNVGEENARLAALQKLDSMMPDFARGDAGVRIHETVKQLVEQDPSIKITNSTLRPFNFSTRLIPRYLEFAADALGQFVGENGQWQLKDEAPAIVLP 2v6h-a1-m1-cA_2v6h-a1-m2-cA Crystal structure of the C1 domain of cardiac myosin binding protein-C Q14896 Q14896 1.55 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 DDPIGLFVMRPQDGEVTVGGSITFSARVAGKPPVVKWFKGKWVDLSSKVGQHLQLHDSYDRASKVYLFELHITDAQPAFTGSYRCEVSTKDKFDCSNFNLTVHE DDPIGLFVMRPQDGEVTVGGSITFSARVAGKPPVVKWFKGKWVDLSSKVGQHLQLHDSYDRASKVYLFELHITDAQPAFTGSYRCEVSTKDKFDCSNFNLTVHE 2v6k-a1-m1-cA_2v6k-a1-m1-cB Structure of Maleyl Pyruvate Isomerase, a bacterial glutathione-s- transferase in Zeta class, in complex with substrate analogue dicarboxyethyl glutathione O86043 O86043 1.3 X-RAY DIFFRACTION 121 1.0 70356 (Ralstonia sp. U2) 70356 (Ralstonia sp. U2) 214 214 2jl4-a1-m1-cA_2jl4-a1-m1-cB AKMKLYNFWRSGTSHRLRIALNLKGVPYEYLAVHLGKEEHLKDAFKALNPQQLVPALDTGAQVLIQSPAIIEWLEEQYPTPALLPADADGRQRVRALAAIVGCDIHPINNRRILEYLRKTFGADEAAINAWCGTWISAGFDAYEALLAVDPKRGRYSFGDTPTLADCYLVPQVESARRFQVDLTPYPLIRAVDAACGELDAFRRAAPAAQPDSA AKMKLYNFWRSGTSHRLRIALNLKGVPYEYLAVHLGKEEHLKDAFKALNPQQLVPALDTGAQVLIQSPAIIEWLEEQYPTPALLPADADGRQRVRALAAIVGCDIHPINNRRILEYLRKTFGADEAAINAWCGTWISAGFDAYEALLAVDPKRGRYSFGDTPTLADCYLVPQVESARRFQVDLTPYPLIRAVDAACGELDAFRRAAPAAQPDSA 2v6l-a1-m1-cO_2v6l-a1-m1-cZ Molecular Model of a Type III Secretion System Needle P0A223 P0A223 16.0 ELECTRON MICROSCOPY 12 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 82 82 2v6l-a1-m1-c0_2v6l-a1-m1-cP 2v6l-a1-m1-c1_2v6l-a1-m1-cQ 2v6l-a1-m1-cA_2v6l-a1-m1-cL 2v6l-a1-m1-cB_2v6l-a1-m1-cM 2v6l-a1-m1-cC_2v6l-a1-m1-cN 2v6l-a1-m1-cD_2v6l-a1-m1-cO 2v6l-a1-m1-cE_2v6l-a1-m1-cP 2v6l-a1-m1-cF_2v6l-a1-m1-cQ 2v6l-a1-m1-cG_2v6l-a1-m1-cR 2v6l-a1-m1-cH_2v6l-a1-m1-cS 2v6l-a1-m1-cI_2v6l-a1-m1-cT 2v6l-a1-m1-cJ_2v6l-a1-m1-cU 2v6l-a1-m1-cK_2v6l-a1-m1-cV 2v6l-a1-m1-cL_2v6l-a1-m1-cW 2v6l-a1-m1-cM_2v6l-a1-m1-cX 2v6l-a1-m1-cN_2v6l-a1-m1-cY SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 2v6l-a1-m1-cT_2v6l-a1-m1-cZ Molecular Model of a Type III Secretion System Needle P0A223 P0A223 16.0 ELECTRON MICROSCOPY 21 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 82 82 2v6l-a1-m1-c0_2v6l-a1-m1-cU 2v6l-a1-m1-c1_2v6l-a1-m1-cV 2v6l-a1-m1-cA_2v6l-a1-m1-cG 2v6l-a1-m1-cB_2v6l-a1-m1-cH 2v6l-a1-m1-cC_2v6l-a1-m1-cI 2v6l-a1-m1-cD_2v6l-a1-m1-cJ 2v6l-a1-m1-cE_2v6l-a1-m1-cK 2v6l-a1-m1-cF_2v6l-a1-m1-cL 2v6l-a1-m1-cG_2v6l-a1-m1-cM 2v6l-a1-m1-cH_2v6l-a1-m1-cN 2v6l-a1-m1-cI_2v6l-a1-m1-cO 2v6l-a1-m1-cJ_2v6l-a1-m1-cP 2v6l-a1-m1-cK_2v6l-a1-m1-cQ 2v6l-a1-m1-cL_2v6l-a1-m1-cR 2v6l-a1-m1-cM_2v6l-a1-m1-cS 2v6l-a1-m1-cN_2v6l-a1-m1-cT 2v6l-a1-m1-cO_2v6l-a1-m1-cU 2v6l-a1-m1-cP_2v6l-a1-m1-cV 2v6l-a1-m1-cQ_2v6l-a1-m1-cW 2v6l-a1-m1-cR_2v6l-a1-m1-cX 2v6l-a1-m1-cS_2v6l-a1-m1-cY SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 2v6l-a1-m1-cU_2v6l-a1-m1-cZ Molecular Model of a Type III Secretion System Needle P0A223 P0A223 16.0 ELECTRON MICROSCOPY 79 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 82 82 2v6l-a1-m1-c0_2v6l-a1-m1-cV 2v6l-a1-m1-c1_2v6l-a1-m1-cW 2v6l-a1-m1-cA_2v6l-a1-m1-cF 2v6l-a1-m1-cB_2v6l-a1-m1-cG 2v6l-a1-m1-cC_2v6l-a1-m1-cH 2v6l-a1-m1-cD_2v6l-a1-m1-cI 2v6l-a1-m1-cE_2v6l-a1-m1-cJ 2v6l-a1-m1-cF_2v6l-a1-m1-cK 2v6l-a1-m1-cG_2v6l-a1-m1-cL 2v6l-a1-m1-cH_2v6l-a1-m1-cM 2v6l-a1-m1-cI_2v6l-a1-m1-cN 2v6l-a1-m1-cJ_2v6l-a1-m1-cO 2v6l-a1-m1-cK_2v6l-a1-m1-cP 2v6l-a1-m1-cL_2v6l-a1-m1-cQ 2v6l-a1-m1-cM_2v6l-a1-m1-cR 2v6l-a1-m1-cN_2v6l-a1-m1-cS 2v6l-a1-m1-cO_2v6l-a1-m1-cT 2v6l-a1-m1-cP_2v6l-a1-m1-cU 2v6l-a1-m1-cQ_2v6l-a1-m1-cV 2v6l-a1-m1-cR_2v6l-a1-m1-cW 2v6l-a1-m1-cS_2v6l-a1-m1-cX 2v6l-a1-m1-cT_2v6l-a1-m1-cY SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 2v6t-a1-m1-cB_2v6t-a1-m2-cB Crystal structure of a complex of pterin-4a-carbinolamine dehydratase from Toxoplasma gondii with 7,8-dihydrobiopterin Q2Q449 Q2Q449 3.1 X-RAY DIFFRACTION 29 1.0 383379 (Toxoplasma gondii RH) 383379 (Toxoplasma gondii RH) 100 100 2v6s-a1-m1-cA_2v6s-a1-m2-cA 2v6s-a1-m1-cB_2v6s-a1-m2-cB 2v6t-a1-m1-cA_2v6t-a1-m2-cA 2v6u-a1-m1-cA_2v6u-a1-m2-cA 2v6u-a1-m1-cB_2v6u-a1-m2-cB LARLAANSARLLQLHKTVPQWHLTDGHLSIKRKFQFSDFNEAWGFMSRVALYADKVDHHPNWYNVYNTVDVELSTHDAAGLTEKDFALAKFMDDAAKNFE LARLAANSARLLQLHKTVPQWHLTDGHLSIKRKFQFSDFNEAWGFMSRVALYADKVDHHPNWYNVYNTVDVELSTHDAAGLTEKDFALAKFMDDAAKNFE 2v6u-a1-m2-cB_2v6u-a1-m1-cA High resolution crystal structure of pterin-4a-carbinolamine dehydratase from Toxoplasma gondii Q2Q449 Q2Q449 1.6 X-RAY DIFFRACTION 11 1.0 383379 (Toxoplasma gondii RH) 383379 (Toxoplasma gondii RH) 99 103 2v6s-a1-m1-cB_2v6s-a1-m2-cA 2v6s-a1-m2-cB_2v6s-a1-m1-cA 2v6t-a1-m1-cA_2v6t-a1-m2-cB 2v6t-a1-m2-cA_2v6t-a1-m1-cB 2v6u-a1-m1-cB_2v6u-a1-m2-cA ARLAANSARLLQLHKTVPQWHLTDGHLSIKRKFQFSDFNEAWGFMSRVALYADKVDHHPNWYNVYNTVDVELSTHDAAGLTEKDFALAKFMDDAAKNFE MAPLARLAANSARLLQLHKTVPQWHLTDGHLSIKRKFQFSDFNEAWGFMSRVALYADKVDHHPNWYNVYNTVDVELSTHDAAGLTEKDFALAKFMDDAAKNFE 2v6u-a1-m2-cB_2v6u-a1-m2-cA High resolution crystal structure of pterin-4a-carbinolamine dehydratase from Toxoplasma gondii Q2Q449 Q2Q449 1.6 X-RAY DIFFRACTION 33 1.0 383379 (Toxoplasma gondii RH) 383379 (Toxoplasma gondii RH) 99 103 2v6s-a1-m1-cB_2v6s-a1-m1-cA 2v6s-a1-m2-cB_2v6s-a1-m2-cA 2v6t-a1-m1-cA_2v6t-a1-m1-cB 2v6t-a1-m2-cA_2v6t-a1-m2-cB 2v6u-a1-m1-cB_2v6u-a1-m1-cA ARLAANSARLLQLHKTVPQWHLTDGHLSIKRKFQFSDFNEAWGFMSRVALYADKVDHHPNWYNVYNTVDVELSTHDAAGLTEKDFALAKFMDDAAKNFE MAPLARLAANSARLLQLHKTVPQWHLTDGHLSIKRKFQFSDFNEAWGFMSRVALYADKVDHHPNWYNVYNTVDVELSTHDAAGLTEKDFALAKFMDDAAKNFE 2v71-a1-m1-cA_2v71-a1-m2-cB Coiled-coil region of NudEL Q78PB6 Q78PB6 2.24 X-RAY DIFFRACTION 27 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 158 158 2v66-a1-m1-cB_2v66-a1-m1-cD 2v66-a1-m1-cC_2v66-a1-m1-cE 2v71-a1-m1-cB_2v71-a1-m2-cA DFSSLKEETAYWKELSKYKQSFQEARDELVEFQEGSRELEAELEAQLVQAEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATISLEDFEQRLNQAIERNAFLESELDEKESLLVSV DFSSLKEETAYWKELSKYKQSFQEARDELVEFQEGSRELEAELEAQLVQAEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATISLEDFEQRLNQAIERNAFLESELDEKESLLVSV 2v71-a1-m2-cA_2v71-a1-m2-cB Coiled-coil region of NudEL Q78PB6 Q78PB6 2.24 X-RAY DIFFRACTION 135 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 158 158 2v71-a1-m1-cA_2v71-a1-m1-cB DFSSLKEETAYWKELSKYKQSFQEARDELVEFQEGSRELEAELEAQLVQAEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATISLEDFEQRLNQAIERNAFLESELDEKESLLVSV DFSSLKEETAYWKELSKYKQSFQEARDELVEFQEGSRELEAELEAQLVQAEQRNRDLQADNQRLKYEVEALKEKLEHQYAQSYKQVSVLEDDLSQTRAIKEQLHKYVRELEQANDDLERAKRATISLEDFEQRLNQAIERNAFLESELDEKESLLVSV 2v78-a1-m1-cB_2v78-a1-m2-cC Crystal structure of Sulfolobus solfataricus 2-keto-3-deoxygluconate kinase Q97U29 Q97U29 2 X-RAY DIFFRACTION 38 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 311 311 2v78-a1-m1-cA_2v78-a1-m1-cC 2v78-a1-m1-cA_2v78-a1-m2-cB 2v78-a1-m1-cB_2v78-a1-m2-cA 2v78-a1-m1-cC_2v78-a1-m2-cB 2v78-a1-m2-cA_2v78-a1-m2-cC 2var-a1-m1-cA_2var-a1-m1-cC 2var-a1-m1-cA_2var-a1-m2-cB 2var-a1-m1-cB_2var-a1-m2-cA 2var-a1-m1-cB_2var-a1-m2-cC 2var-a1-m1-cC_2var-a1-m2-cB 2var-a1-m2-cA_2var-a1-m2-cC VDVIALGEPLIQFNSFNPGPLRFVNYFEKHVAGSELNFCIAVVRNHLSCSLIARVGNDEFGKNIIEYSRAQGIDTSHIKVDNESFTGIYFIQRGYPIPMKSELVYYRKGSAGSRLSPEDINENYVRNSRLVHSTGITLAISDNAKEAVIKAFELAKSRSLDTNIRPKLWSSLEKAKETILSILKKYDIEVLITDPDDTKILLDVTDPDEAYRKYKELGVKVLLYKLGSKGAIAYKDNVKAFKDAYKVPVEDPTGAGDAMAGTFVSLYLQGKDIEYSLAHGIAASTLVITVRGDNELTPTLEDAERFLNEFK VDVIALGEPLIQFNSFNPGPLRFVNYFEKHVAGSELNFCIAVVRNHLSCSLIARVGNDEFGKNIIEYSRAQGIDTSHIKVDNESFTGIYFIQRGYPIPMKSELVYYRKGSAGSRLSPEDINENYVRNSRLVHSTGITLAISDNAKEAVIKAFELAKSRSLDTNIRPKLWSSLEKAKETILSILKKYDIEVLITDPDDTKILLDVTDPDEAYRKYKELGVKVLLYKLGSKGAIAYKDNVKAFKDAYKVPVEDPTGAGDAMAGTFVSLYLQGKDIEYSLAHGIAASTLVITVRGDNELTPTLEDAERFLNEFK 2v78-a1-m1-cC_2v78-a1-m2-cC Crystal structure of Sulfolobus solfataricus 2-keto-3-deoxygluconate kinase Q97U29 Q97U29 2 X-RAY DIFFRACTION 50 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 311 311 2v78-a1-m1-cA_2v78-a1-m1-cB 2v78-a1-m2-cA_2v78-a1-m2-cB 2var-a1-m1-cA_2var-a1-m1-cB 2var-a1-m1-cC_2var-a1-m2-cC 2var-a1-m2-cA_2var-a1-m2-cB VDVIALGEPLIQFNSFNPGPLRFVNYFEKHVAGSELNFCIAVVRNHLSCSLIARVGNDEFGKNIIEYSRAQGIDTSHIKVDNESFTGIYFIQRGYPIPMKSELVYYRKGSAGSRLSPEDINENYVRNSRLVHSTGITLAISDNAKEAVIKAFELAKSRSLDTNIRPKLWSSLEKAKETILSILKKYDIEVLITDPDDTKILLDVTDPDEAYRKYKELGVKVLLYKLGSKGAIAYKDNVKAFKDAYKVPVEDPTGAGDAMAGTFVSLYLQGKDIEYSLAHGIAASTLVITVRGDNELTPTLEDAERFLNEFK VDVIALGEPLIQFNSFNPGPLRFVNYFEKHVAGSELNFCIAVVRNHLSCSLIARVGNDEFGKNIIEYSRAQGIDTSHIKVDNESFTGIYFIQRGYPIPMKSELVYYRKGSAGSRLSPEDINENYVRNSRLVHSTGITLAISDNAKEAVIKAFELAKSRSLDTNIRPKLWSSLEKAKETILSILKKYDIEVLITDPDDTKILLDVTDPDEAYRKYKELGVKVLLYKLGSKGAIAYKDNVKAFKDAYKVPVEDPTGAGDAMAGTFVSLYLQGKDIEYSLAHGIAASTLVITVRGDNELTPTLEDAERFLNEFK 2v78-a1-m2-cB_2v78-a1-m2-cC Crystal structure of Sulfolobus solfataricus 2-keto-3-deoxygluconate kinase Q97U29 Q97U29 2 X-RAY DIFFRACTION 12 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 311 311 2v78-a1-m1-cA_2v78-a1-m2-cA 2v78-a1-m1-cB_2v78-a1-m1-cC 2var-a1-m1-cA_2var-a1-m2-cA 2var-a1-m1-cB_2var-a1-m1-cC 2var-a1-m2-cB_2var-a1-m2-cC VDVIALGEPLIQFNSFNPGPLRFVNYFEKHVAGSELNFCIAVVRNHLSCSLIARVGNDEFGKNIIEYSRAQGIDTSHIKVDNESFTGIYFIQRGYPIPMKSELVYYRKGSAGSRLSPEDINENYVRNSRLVHSTGITLAISDNAKEAVIKAFELAKSRSLDTNIRPKLWSSLEKAKETILSILKKYDIEVLITDPDDTKILLDVTDPDEAYRKYKELGVKVLLYKLGSKGAIAYKDNVKAFKDAYKVPVEDPTGAGDAMAGTFVSLYLQGKDIEYSLAHGIAASTLVITVRGDNELTPTLEDAERFLNEFK VDVIALGEPLIQFNSFNPGPLRFVNYFEKHVAGSELNFCIAVVRNHLSCSLIARVGNDEFGKNIIEYSRAQGIDTSHIKVDNESFTGIYFIQRGYPIPMKSELVYYRKGSAGSRLSPEDINENYVRNSRLVHSTGITLAISDNAKEAVIKAFELAKSRSLDTNIRPKLWSSLEKAKETILSILKKYDIEVLITDPDDTKILLDVTDPDEAYRKYKELGVKVLLYKLGSKGAIAYKDNVKAFKDAYKVPVEDPTGAGDAMAGTFVSLYLQGKDIEYSLAHGIAASTLVITVRGDNELTPTLEDAERFLNEFK 2v79-a1-m1-cA_2v79-a1-m2-cB Crystal Structure of the N-terminal domain of DnaD from Bacillus Subtilis P39787 P39787 2 X-RAY DIFFRACTION 47 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 115 117 2v79-a1-m2-cA_2v79-a1-m1-cB 8ojj-a1-m1-cA_8ojj-a1-m1-cC 8ojj-a1-m1-cB_8ojj-a1-m1-cD MKKQQFIDMQEQGTSTIPNLLLTHYKQLGLNETELILLLKIKMHLEKGSYFPTPNQLQEGMSISVEECTNRLRMFIQKGFLFIEECEDQNGIKFEKYSLQPLWGKLYEYIQLAQN MKKQQFIDMQEQGTSTIPNLLLTHYKQLGLNETELILLLKIKMHLEKGSYFPTPNQLQEGMSISVEECTNRLRMFIQKGFLFIEECEDQNGIKFEKYSLQPLWGKLYEYIQLAQNQT 2v79-a1-m2-cA_2v79-a1-m2-cB Crystal Structure of the N-terminal domain of DnaD from Bacillus Subtilis P39787 P39787 2 X-RAY DIFFRACTION 101 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 115 117 2v79-a1-m1-cA_2v79-a1-m1-cB 8ojj-a1-m1-cA_8ojj-a1-m1-cB 8ojj-a1-m1-cC_8ojj-a1-m1-cD MKKQQFIDMQEQGTSTIPNLLLTHYKQLGLNETELILLLKIKMHLEKGSYFPTPNQLQEGMSISVEECTNRLRMFIQKGFLFIEECEDQNGIKFEKYSLQPLWGKLYEYIQLAQN MKKQQFIDMQEQGTSTIPNLLLTHYKQLGLNETELILLLKIKMHLEKGSYFPTPNQLQEGMSISVEECTNRLRMFIQKGFLFIEECEDQNGIKFEKYSLQPLWGKLYEYIQLAQNQT 2v7g-a2-m1-cB_2v7g-a2-m3-cC Crystal Structure of an Engineered Urocanase Tetramer P25080 P25080 2 X-RAY DIFFRACTION 73 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 553 553 2v7g-a1-m1-cA_2v7g-a1-m2-cD 2v7g-a1-m1-cC_2v7g-a1-m2-cB 2v7g-a2-m1-cD_2v7g-a2-m3-cA NKYRDVEIRAPRGNKLTAKSWLTEAPLRMLMNNLDPQVAENPKELVVYGGIGRAARNWECYDKIVETLTRLEDDETLLVQSGKPVGVFKTHSNAPRVLIANSNLVPHWANWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYGGSLKGKWVLTAGLGGMGGAQPLAATLAGACSLNIESQQSRIDFRLETRYVDEQATDLDDALVRIAKYTAEGKAISIALHGNAAEILPELVKRGVRPDMVTDQTSAHDPLNGYLPIGWTWEQYRDRAQTIPAAVVKAAKASMAVHVQAMLDFQKQGVPTFDYGNNIRQMAKEEGVANAFDFPGFVPAYIRPLFCRGVGPFRWAALSGEAEDIYKTDAKVKELIPDDAHLHRWLDMARERISFQGLPARICWVGLGLRAKLGLAFNEMVRSGELSAPVVIGRDHLDSGSVSSPNRETEAMRDGSDAVSDWPLLNALLNTAGGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAERIARVLTNDPGTGVMRHADAGYDIAIDCAKEQGLDLPMITG NKYRDVEIRAPRGNKLTAKSWLTEAPLRMLMNNLDPQVAENPKELVVYGGIGRAARNWECYDKIVETLTRLEDDETLLVQSGKPVGVFKTHSNAPRVLIANSNLVPHWANWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYGGSLKGKWVLTAGLGGMGGAQPLAATLAGACSLNIESQQSRIDFRLETRYVDEQATDLDDALVRIAKYTAEGKAISIALHGNAAEILPELVKRGVRPDMVTDQTSAHDPLNGYLPIGWTWEQYRDRAQTIPAAVVKAAKASMAVHVQAMLDFQKQGVPTFDYGNNIRQMAKEEGVANAFDFPGFVPAYIRPLFCRGVGPFRWAALSGEAEDIYKTDAKVKELIPDDAHLHRWLDMARERISFQGLPARICWVGLGLRAKLGLAFNEMVRSGELSAPVVIGRDHLDSGSVSSPNRETEAMRDGSDAVSDWPLLNALLNTAGGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAERIARVLTNDPGTGVMRHADAGYDIAIDCAKEQGLDLPMITG 2v7g-a4-m1-cB_2v7g-a4-m1-cD Crystal Structure of an Engineered Urocanase Tetramer P25080 P25080 2 X-RAY DIFFRACTION 269 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 553 553 1uwk-a1-m1-cB_1uwk-a1-m1-cA 1uwl-a1-m1-cA_1uwl-a1-m1-cB 1w1u-a1-m1-cA_1w1u-a1-m1-cB 2v7g-a1-m1-cA_2v7g-a1-m1-cC 2v7g-a1-m2-cB_2v7g-a1-m2-cD 2v7g-a2-m1-cB_2v7g-a2-m1-cD 2v7g-a2-m3-cA_2v7g-a2-m3-cC 2v7g-a3-m1-cA_2v7g-a3-m1-cC NKYRDVEIRAPRGNKLTAKSWLTEAPLRMLMNNLDPQVAENPKELVVYGGIGRAARNWECYDKIVETLTRLEDDETLLVQSGKPVGVFKTHSNAPRVLIANSNLVPHWANWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYGGSLKGKWVLTAGLGGMGGAQPLAATLAGACSLNIESQQSRIDFRLETRYVDEQATDLDDALVRIAKYTAEGKAISIALHGNAAEILPELVKRGVRPDMVTDQTSAHDPLNGYLPIGWTWEQYRDRAQTIPAAVVKAAKASMAVHVQAMLDFQKQGVPTFDYGNNIRQMAKEEGVANAFDFPGFVPAYIRPLFCRGVGPFRWAALSGEAEDIYKTDAKVKELIPDDAHLHRWLDMARERISFQGLPARICWVGLGLRAKLGLAFNEMVRSGELSAPVVIGRDHLDSGSVSSPNRETEAMRDGSDAVSDWPLLNALLNTAGGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAERIARVLTNDPGTGVMRHADAGYDIAIDCAKEQGLDLPMITG NKYRDVEIRAPRGNKLTAKSWLTEAPLRMLMNNLDPQVAENPKELVVYGGIGRAARNWECYDKIVETLTRLEDDETLLVQSGKPVGVFKTHSNAPRVLIANSNLVPHWANWEHFNELDAKGLAMYGQMTAGSWIYIGSQGIVQGTYETFVEAGRQHYGGSLKGKWVLTAGLGGMGGAQPLAATLAGACSLNIESQQSRIDFRLETRYVDEQATDLDDALVRIAKYTAEGKAISIALHGNAAEILPELVKRGVRPDMVTDQTSAHDPLNGYLPIGWTWEQYRDRAQTIPAAVVKAAKASMAVHVQAMLDFQKQGVPTFDYGNNIRQMAKEEGVANAFDFPGFVPAYIRPLFCRGVGPFRWAALSGEAEDIYKTDAKVKELIPDDAHLHRWLDMARERISFQGLPARICWVGLGLRAKLGLAFNEMVRSGELSAPVVIGRDHLDSGSVSSPNRETEAMRDGSDAVSDWPLLNALLNTAGGATWVSLHHGGGVGMGFSQHSGMVIVCDGTDEAAERIARVLTNDPGTGVMRHADAGYDIAIDCAKEQGLDLPMITG 2v7p-a1-m1-cD_2v7p-a1-m1-cB Crystal structure of lactate dehydrogenase from Thermus Thermophilus HB8 (Holo form) Q5SJA1 Q5SJA1 2.1 X-RAY DIFFRACTION 13 0.997 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 300 299 2v7p-a1-m1-cA_2v7p-a1-m1-cC 2xxj-a1-m1-cA_2xxj-a1-m1-cC 3vph-a1-m1-cA_3vph-a1-m1-cC 3vph-a1-m1-cD_3vph-a1-m1-cB MKVGIVGSGMVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVRAGSYGDLEGARAVVLAAGVLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVMTQVAYRLSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVEGVLEVSLSLPRILGAGGVEGTVYPSLSPEEREALRRSAEILKEAAFALGF MKVGIVGSGMVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVRAGSYGDLEGARAVVLAAQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVMTQVAYRLSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVEGVLEVSLSLPRILGAGGVEGTVYPSLSPEEREALRRSAEILKEAAFALGF 2v7s-a1-m1-cA_2v7s-a1-m2-cA Crystal structure of the putative lipoprotein LppA from Mycobacterium tuberculosis P9WK81 P9WK81 1.96 X-RAY DIFFRACTION 61 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 167 167 PDTSRRLTGEQKIQLIDSRNKGSYEAARERLTATARIIADRVSAAIPGQTWKFDDDPNIQQSDRNGALCDKLTADIARRPIANSVFGATFSAEDFKIAANIVREEAAKYGATTESSLFNESAKRDYDVQGNGYEFRLLQIKFATLNITGDCFLLQKVLDLPAGQLPP PDTSRRLTGEQKIQLIDSRNKGSYEAARERLTATARIIADRVSAAIPGQTWKFDDDPNIQQSDRNGALCDKLTADIARRPIANSVFGATFSAEDFKIAANIVREEAAKYGATTESSLFNESAKRDYDVQGNGYEFRLLQIKFATLNITGDCFLLQKVLDLPAGQLPP 2v7u-a1-m2-cA_2v7u-a1-m2-cC X-ray crystal structure of 5'-fluorodeoxyadenosine synthase s158g mutant complexed with s-adenosylmethionine and chloride ion Q70GK9 Q70GK9 2 X-RAY DIFFRACTION 124 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 291 291 1rqp-a1-m1-cA_1rqp-a1-m1-cB 1rqp-a1-m1-cA_1rqp-a1-m1-cC 1rqp-a1-m1-cB_1rqp-a1-m1-cC 1rqp-a1-m2-cA_1rqp-a1-m2-cB 1rqp-a1-m2-cA_1rqp-a1-m2-cC 1rqp-a1-m2-cB_1rqp-a1-m2-cC 1rqp-a2-m1-cA_1rqp-a2-m1-cB 1rqp-a2-m1-cA_1rqp-a2-m1-cC 1rqp-a2-m1-cB_1rqp-a2-m1-cC 1rqp-a2-m3-cA_1rqp-a2-m3-cB 1rqp-a2-m3-cA_1rqp-a2-m3-cC 1rqp-a2-m3-cB_1rqp-a2-m3-cC 1rqr-a1-m1-cA_1rqr-a1-m1-cB 1rqr-a1-m1-cA_1rqr-a1-m1-cC 1rqr-a1-m1-cB_1rqr-a1-m1-cC 1rqr-a1-m2-cA_1rqr-a1-m2-cB 1rqr-a1-m2-cA_1rqr-a1-m2-cC 1rqr-a1-m2-cB_1rqr-a1-m2-cC 1rqr-a2-m1-cA_1rqr-a2-m1-cB 1rqr-a2-m1-cA_1rqr-a2-m1-cC 1rqr-a2-m1-cB_1rqr-a2-m1-cC 1rqr-a2-m3-cA_1rqr-a2-m3-cB 1rqr-a2-m3-cA_1rqr-a2-m3-cC 1rqr-a2-m3-cB_1rqr-a2-m3-cC 2c2w-a1-m1-cA_2c2w-a1-m1-cB 2c2w-a1-m1-cA_2c2w-a1-m1-cC 2c2w-a1-m1-cB_2c2w-a1-m1-cC 2c2w-a1-m2-cA_2c2w-a1-m2-cB 2c2w-a1-m2-cA_2c2w-a1-m2-cC 2c2w-a1-m2-cB_2c2w-a1-m2-cC 2c4t-a1-m1-cA_2c4t-a1-m1-cB 2c4t-a1-m1-cA_2c4t-a1-m1-cC 2c4t-a1-m1-cB_2c4t-a1-m1-cC 2c4t-a1-m2-cA_2c4t-a1-m2-cB 2c4t-a1-m2-cA_2c4t-a1-m2-cC 2c4t-a1-m2-cB_2c4t-a1-m2-cC 2c4u-a1-m1-cA_2c4u-a1-m1-cB 2c4u-a1-m1-cA_2c4u-a1-m1-cC 2c4u-a1-m1-cB_2c4u-a1-m1-cC 2c4u-a1-m1-cD_2c4u-a1-m1-cE 2c4u-a1-m1-cD_2c4u-a1-m1-cF 2c4u-a1-m1-cE_2c4u-a1-m1-cF 2c5b-a1-m1-cA_2c5b-a1-m1-cB 2c5b-a1-m1-cA_2c5b-a1-m1-cC 2c5b-a1-m1-cB_2c5b-a1-m1-cC 2c5b-a1-m2-cA_2c5b-a1-m2-cB 2c5b-a1-m2-cA_2c5b-a1-m2-cC 2c5b-a1-m2-cB_2c5b-a1-m2-cC 2c5h-a1-m1-cA_2c5h-a1-m1-cB 2c5h-a1-m1-cA_2c5h-a1-m1-cC 2c5h-a1-m1-cB_2c5h-a1-m1-cC 2c5h-a1-m2-cA_2c5h-a1-m2-cB 2c5h-a1-m2-cA_2c5h-a1-m2-cC 2c5h-a1-m2-cB_2c5h-a1-m2-cC 2cbx-a1-m1-cA_2cbx-a1-m1-cB 2cbx-a1-m1-cA_2cbx-a1-m1-cC 2cbx-a1-m1-cB_2cbx-a1-m1-cC 2cbx-a1-m2-cA_2cbx-a1-m2-cB 2cbx-a1-m2-cA_2cbx-a1-m2-cC 2cbx-a1-m2-cB_2cbx-a1-m2-cC 2cc2-a1-m1-cA_2cc2-a1-m1-cB 2cc2-a1-m1-cC_2cc2-a1-m1-cA 2cc2-a1-m1-cC_2cc2-a1-m1-cB 2cc2-a1-m2-cA_2cc2-a1-m2-cB 2cc2-a1-m2-cC_2cc2-a1-m2-cA 2cc2-a1-m2-cC_2cc2-a1-m2-cB 2v7t-a1-m1-cA_2v7t-a1-m1-cB 2v7t-a1-m1-cA_2v7t-a1-m1-cC 2v7t-a1-m1-cB_2v7t-a1-m1-cC 2v7t-a1-m2-cA_2v7t-a1-m2-cB 2v7t-a1-m2-cA_2v7t-a1-m2-cC 2v7t-a1-m2-cB_2v7t-a1-m2-cC 2v7u-a1-m1-cA_2v7u-a1-m1-cB 2v7u-a1-m1-cA_2v7u-a1-m1-cC 2v7u-a1-m1-cB_2v7u-a1-m1-cC 2v7u-a1-m2-cA_2v7u-a1-m2-cB 2v7u-a1-m2-cB_2v7u-a1-m2-cC 2v7v-a1-m1-cA_2v7v-a1-m1-cB 2v7v-a1-m1-cA_2v7v-a1-m1-cC 2v7v-a1-m1-cB_2v7v-a1-m1-cC 2v7v-a1-m2-cA_2v7v-a1-m2-cB 2v7v-a1-m2-cA_2v7v-a1-m2-cC 2v7v-a1-m2-cB_2v7v-a1-m2-cC 2v7w-a1-m1-cA_2v7w-a1-m1-cB 2v7w-a1-m1-cA_2v7w-a1-m1-cC 2v7w-a1-m1-cB_2v7w-a1-m1-cC 2v7w-a1-m2-cA_2v7w-a1-m2-cB 2v7w-a1-m2-cA_2v7w-a1-m2-cC 2v7w-a1-m2-cB_2v7w-a1-m2-cC 2v7x-a1-m1-cA_2v7x-a1-m1-cB 2v7x-a1-m1-cA_2v7x-a1-m1-cC 2v7x-a1-m1-cB_2v7x-a1-m1-cC 2v7x-a1-m2-cA_2v7x-a1-m2-cB 2v7x-a1-m2-cA_2v7x-a1-m2-cC 2v7x-a1-m2-cB_2v7x-a1-m2-cC 4cqj-a1-m1-cA_4cqj-a1-m1-cB 4cqj-a1-m1-cA_4cqj-a1-m1-cC 4cqj-a1-m1-cB_4cqj-a1-m1-cC 5fiu-a1-m1-cA_5fiu-a1-m1-cB 5fiu-a1-m1-cA_5fiu-a1-m1-cC 5fiu-a1-m1-cB_5fiu-a1-m1-cC 5fiu-a1-m2-cA_5fiu-a1-m2-cB 5fiu-a1-m2-cA_5fiu-a1-m2-cC 5fiu-a1-m2-cB_5fiu-a1-m2-cC RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYGREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYGREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA 2v83-a1-m1-cC_2v83-a1-m1-cB Crystal structure of RAG2-PHD finger in complex with H3K4me3 peptide P21784 P21784 2.4 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 71 79 GSPEFGYWITCCPTCDVDINTWVPFYSTELNKPAMIYCSHGDGHWVHAQCMDLEERTLIHLSNKYYCNEHV GSPEFGYWITCCPTCDVDINTWVPFYSTELNKPAMIYCSHGDGHWVHAQCMDLEERTLIHLSEGSNKYYCNEHVQIARA 2v8f-a1-m1-cA_2v8f-a1-m1-cB Mouse Profilin IIa in complex with a double repeat from the FH1 domain of mDia1 Q9JJV2 Q9JJV2 1.1 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 138 138 AGWQSYVDNLMCDGCQEAAIVGYCDAKYVWAATAGGVFQSITPVEIDMIVGKDREGFFTNGLTLGAKKCSVIRDSLYVDGDCTMDIRTKSQGGEPTYNVAVGRAGRVLVFVMGKEGVHGGGLNKKAYSMAKYLRDSGF AGWQSYVDNLMCDGCQEAAIVGYCDAKYVWAATAGGVFQSITPVEIDMIVGKDREGFFTNGLTLGAKKCSVIRDSLYVDGDCTMDIRTKSQGGEPTYNVAVGRAGRVLVFVMGKEGVHGGGLNKKAYSMAKYLRDSGF 2v8h-a2-m1-cD_2v8h-a2-m1-cC Crystal structure of mutant E159A of beta-alanine synthase from Saccharomyces kluyveri in complex with its substrate N-carbamyl-beta- alanine Q96W94 Q96W94 2 X-RAY DIFFRACTION 232 1.0 4934 (Lachancea kluyveri) 4934 (Lachancea kluyveri) 431 432 2v8g-a1-m1-cA_2v8g-a1-m1-cB 2v8g-a2-m1-cC_2v8g-a2-m1-cD 2v8h-a1-m1-cA_2v8h-a1-m1-cB 2vl1-a1-m1-cB_2vl1-a1-m1-cA 2vl1-a2-m1-cC_2vl1-a2-m1-cD LSIASGRLNQTILETGSQFGGVARWGQESHEFGMRRLAGTALDGAMRDWFTNECESLGCKVKVDKIGNMFAVYPGKNGGKPTATGSHLDTQPEAGKYDGILGVLAGLEVLRTFKDNNYVPNYDVCVVVWFNAEGARFARSCTGSSVWSHDLSLEEAYGLMSVGEDKPESVYDSLKNIGYIGDTPASYKENEIDAHFELHIEQGPILEDENKAIGIVTGVQAYNWQKVTVHGVGAHAGTTPWRLRKDALLMSSKMIVAASEIAQRHNGLFTCGIIDAKPYSVNIIPGEVSFTLDFRHPSDDVLATMLKEAAAEFDRLIKINDGGALSYESETLQVSPAVNFHEVCIECVSRSAFAQFKKDQVRQIWSGAGHDSCQTAPHVPTSMIFIPSKDGLSHNYYEYSSPEEIENGFKVLLQAIINYDNYRVIRGHQFP PLSIASGRLNQTILETGSQFGGVARWGQESHEFGMRRLAGTALDGAMRDWFTNECESLGCKVKVDKIGNMFAVYPGKNGGKPTATGSHLDTQPEAGKYDGILGVLAGLEVLRTFKDNNYVPNYDVCVVVWFNAEGARFARSCTGSSVWSHDLSLEEAYGLMSVGEDKPESVYDSLKNIGYIGDTPASYKENEIDAHFELHIEQGPILEDENKAIGIVTGVQAYNWQKVTVHGVGAHAGTTPWRLRKDALLMSSKMIVAASEIAQRHNGLFTCGIIDAKPYSVNIIPGEVSFTLDFRHPSDDVLATMLKEAAAEFDRLIKINDGGALSYESETLQVSPAVNFHEVCIECVSRSAFAQFKKDQVRQIWSGAGHDSCQTAPHVPTSMIFIPSKDGLSHNYYEYSSPEEIENGFKVLLQAIINYDNYRVIRGHQFP 2v8t-a1-m2-cA_2v8t-a1-m3-cB Crystal structure of Mn catalase from Thermus Thermophilus complexed with chloride Q72GH6 Q72GH6 0.98 X-RAY DIFFRACTION 65 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 302 302 2cwl-a1-m1-cB_2cwl-a1-m3-cA 2cwl-a1-m2-cB_2cwl-a1-m1-cA 2cwl-a1-m3-cB_2cwl-a1-m2-cA 2v8t-a1-m1-cA_2v8t-a1-m2-cB 2v8t-a1-m1-cB_2v8t-a1-m3-cA 2v8u-a1-m1-cA_2v8u-a1-m2-cB 2v8u-a1-m1-cB_2v8u-a1-m3-cA 2v8u-a1-m2-cA_2v8u-a1-m3-cB 6kk8-a1-m1-cA_6kk8-a1-m2-cB 6kk8-a1-m2-cA_6kk8-a1-m3-cB 6kk8-a1-m3-cA_6kk8-a1-m1-cB MFLRIDRLQIELPMPKEQDPNAAAAVQALLGGRFGEMSTLMNYMYQSFNFRGKKALKPYYDLIANIATEELGHIELVAATINSLLAKNPGKDLEEGVDPASTPLGFAKDVRNAAHFIAGGANSLVMGAMGEHWNGEYVFTSGNLILDLLHNFFLEVAARTHKLRVYEMTDNPVAREMIGYLLVRGGVHAAAYGKALESLTGVEMTKMLPIPKIDNSKIPEAKKYMDLGFHRNLYRFSPEDYRDLGLIWKGASPEDGTEVVVVDGPPTGGPVFDAGHDAAEFAPEFHPGELYEIAKKLYEKAK MFLRIDRLQIELPMPKEQDPNAAAAVQALLGGRFGEMSTLMNYMYQSFNFRGKKALKPYYDLIANIATEELGHIELVAATINSLLAKNPGKDLEEGVDPASTPLGFAKDVRNAAHFIAGGANSLVMGAMGEHWNGEYVFTSGNLILDLLHNFFLEVAARTHKLRVYEMTDNPVAREMIGYLLVRGGVHAAAYGKALESLTGVEMTKMLPIPKIDNSKIPEAKKYMDLGFHRNLYRFSPEDYRDLGLIWKGASPEDGTEVVVVDGPPTGGPVFDAGHDAAEFAPEFHPGELYEIAKKLYEKAK 2v8t-a1-m2-cB_2v8t-a1-m3-cB Crystal structure of Mn catalase from Thermus Thermophilus complexed with chloride Q72GH6 Q72GH6 0.98 X-RAY DIFFRACTION 75 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 302 302 2cwl-a1-m1-cA_2cwl-a1-m2-cA 2cwl-a1-m1-cA_2cwl-a1-m3-cA 2cwl-a1-m1-cB_2cwl-a1-m2-cB 2cwl-a1-m1-cB_2cwl-a1-m3-cB 2cwl-a1-m2-cA_2cwl-a1-m3-cA 2cwl-a1-m2-cB_2cwl-a1-m3-cB 2v8t-a1-m1-cA_2v8t-a1-m2-cA 2v8t-a1-m1-cA_2v8t-a1-m3-cA 2v8t-a1-m1-cB_2v8t-a1-m2-cB 2v8t-a1-m1-cB_2v8t-a1-m3-cB 2v8t-a1-m2-cA_2v8t-a1-m3-cA 2v8u-a1-m1-cA_2v8u-a1-m2-cA 2v8u-a1-m1-cA_2v8u-a1-m3-cA 2v8u-a1-m1-cB_2v8u-a1-m2-cB 2v8u-a1-m1-cB_2v8u-a1-m3-cB 2v8u-a1-m2-cA_2v8u-a1-m3-cA 2v8u-a1-m2-cB_2v8u-a1-m3-cB 6kk8-a1-m1-cA_6kk8-a1-m2-cA 6kk8-a1-m1-cA_6kk8-a1-m3-cA 6kk8-a1-m1-cB_6kk8-a1-m2-cB 6kk8-a1-m1-cB_6kk8-a1-m3-cB 6kk8-a1-m2-cA_6kk8-a1-m3-cA 6kk8-a1-m2-cB_6kk8-a1-m3-cB MFLRIDRLQIELPMPKEQDPNAAAAVQALLGGRFGEMSTLMNYMYQSFNFRGKKALKPYYDLIANIATEELGHIELVAATINSLLAKNPGKDLEEGVDPASTPLGFAKDVRNAAHFIAGGANSLVMGAMGEHWNGEYVFTSGNLILDLLHNFFLEVAARTHKLRVYEMTDNPVAREMIGYLLVRGGVHAAAYGKALESLTGVEMTKMLPIPKIDNSKIPEAKKYMDLGFHRNLYRFSPEDYRDLGLIWKGASPEDGTEVVVVDGPPTGGPVFDAGHDAAEFAPEFHPGELYEIAKKLYEKAK MFLRIDRLQIELPMPKEQDPNAAAAVQALLGGRFGEMSTLMNYMYQSFNFRGKKALKPYYDLIANIATEELGHIELVAATINSLLAKNPGKDLEEGVDPASTPLGFAKDVRNAAHFIAGGANSLVMGAMGEHWNGEYVFTSGNLILDLLHNFFLEVAARTHKLRVYEMTDNPVAREMIGYLLVRGGVHAAAYGKALESLTGVEMTKMLPIPKIDNSKIPEAKKYMDLGFHRNLYRFSPEDYRDLGLIWKGASPEDGTEVVVVDGPPTGGPVFDAGHDAAEFAPEFHPGELYEIAKKLYEKAK 2v8t-a1-m3-cA_2v8t-a1-m3-cB Crystal structure of Mn catalase from Thermus Thermophilus complexed with chloride Q72GH6 Q72GH6 0.98 X-RAY DIFFRACTION 292 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 302 302 2cwl-a1-m1-cB_2cwl-a1-m1-cA 2cwl-a1-m2-cB_2cwl-a1-m2-cA 2cwl-a1-m3-cB_2cwl-a1-m3-cA 2v8t-a1-m1-cA_2v8t-a1-m1-cB 2v8t-a1-m2-cA_2v8t-a1-m2-cB 2v8u-a1-m1-cA_2v8u-a1-m1-cB 2v8u-a1-m2-cA_2v8u-a1-m2-cB 2v8u-a1-m3-cA_2v8u-a1-m3-cB 6kk8-a1-m1-cA_6kk8-a1-m1-cB 6kk8-a1-m2-cA_6kk8-a1-m2-cB 6kk8-a1-m3-cA_6kk8-a1-m3-cB MFLRIDRLQIELPMPKEQDPNAAAAVQALLGGRFGEMSTLMNYMYQSFNFRGKKALKPYYDLIANIATEELGHIELVAATINSLLAKNPGKDLEEGVDPASTPLGFAKDVRNAAHFIAGGANSLVMGAMGEHWNGEYVFTSGNLILDLLHNFFLEVAARTHKLRVYEMTDNPVAREMIGYLLVRGGVHAAAYGKALESLTGVEMTKMLPIPKIDNSKIPEAKKYMDLGFHRNLYRFSPEDYRDLGLIWKGASPEDGTEVVVVDGPPTGGPVFDAGHDAAEFAPEFHPGELYEIAKKLYEKAK MFLRIDRLQIELPMPKEQDPNAAAAVQALLGGRFGEMSTLMNYMYQSFNFRGKKALKPYYDLIANIATEELGHIELVAATINSLLAKNPGKDLEEGVDPASTPLGFAKDVRNAAHFIAGGANSLVMGAMGEHWNGEYVFTSGNLILDLLHNFFLEVAARTHKLRVYEMTDNPVAREMIGYLLVRGGVHAAAYGKALESLTGVEMTKMLPIPKIDNSKIPEAKKYMDLGFHRNLYRFSPEDYRDLGLIWKGASPEDGTEVVVVDGPPTGGPVFDAGHDAAEFAPEFHPGELYEIAKKLYEKAK 2v90-a2-m1-cD_2v90-a2-m1-cB Crystal structure of the 3rd PDZ domain of intestine- and kidney- enriched PDZ domain IKEPP (PDZD3) Q86UT5 Q86UT5 2 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 95 2v90-a1-m1-cC_2v90-a1-m1-cA PRCLHLEKGPQGFGFLLREEKGLDGRPGQFLWEVDPGLPAKKAGMQAGDRLVAVAGESVEGLGHEETVSRIQGQGSCVSLTVVDPEADRETSV MKPRCLHLEKGPQGFGFLLREEKGLDGRPGQFLWEVDPGLPAKKAGMQAGDRLVAVAGESVEGLGHEETVSRIQGQGSCVSLTVVDPEADRETSV 2v90-a2-m1-cD_2v90-a2-m1-cF Crystal structure of the 3rd PDZ domain of intestine- and kidney- enriched PDZ domain IKEPP (PDZD3) Q86UT5 Q86UT5 2 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 95 2v90-a1-m1-cC_2v90-a1-m1-cE PRCLHLEKGPQGFGFLLREEKGLDGRPGQFLWEVDPGLPAKKAGMQAGDRLVAVAGESVEGLGHEETVSRIQGQGSCVSLTVVDPEADRETSV MKPRCLHLEKGPQGFGFLLREEKGLDGRPGQFLWEVDPGLPAKKAGMQAGDRLVAVAGESVEGLGHEETVSRIQGQGSCVSLTVVDPEADRETSV 2v9a-a2-m6-cB_2v9a-a2-m7-cB Structure of Citrate-free Periplasmic Domain of Sensor Histidine Kinase CitA P52687 P52687 2 X-RAY DIFFRACTION 30 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 105 105 2v9a-a1-m1-cA_2v9a-a1-m2-cA 2v9a-a1-m1-cA_2v9a-a1-m3-cA 2v9a-a1-m2-cA_2v9a-a1-m4-cA 2v9a-a1-m3-cA_2v9a-a1-m4-cA 2v9a-a2-m1-cB_2v9a-a2-m5-cB 2v9a-a2-m1-cB_2v9a-a2-m6-cB 2v9a-a2-m5-cB_2v9a-a2-m7-cB TEERLHYQVGQRALIQAMQISAMPELVEAVQKRDLARIKALIDPMRSFSDATYITVGDASGQRLYINAKSYVSVRKGSLGSSLRGKSPIQDATGKVIGIVSVGYT TEERLHYQVGQRALIQAMQISAMPELVEAVQKRDLARIKALIDPMRSFSDATYITVGDASGQRLYINAKSYVSVRKGSLGSSLRGKSPIQDATGKVIGIVSVGYT 2v9b-a1-m1-cA_2v9b-a1-m1-cB X-ray structure of viscotoxin B2 from Viscum album P08943 P08943 1.05 X-RAY DIFFRACTION 26 1.0 3972 (Viscum album) 3972 (Viscum album) 46 46 KSCCPNTTGRDIYNTCRLGGGSRERCASLSGCKIISASTCPSDYPK KSCCPNTTGRDIYNTCRLGGGSRERCASLSGCKIISASTCPSDYPK 2v9g-a1-m1-cA_2v9g-a1-m2-cB L-RHAMNULOSE-1-PHOSPHATE ALDOLASE FROM ESCHERICHIA COLI (MUTANT Q6Y- L84W-E192A) P32169 P32169 2.7 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 273 274 2v9g-a1-m2-cA_2v9g-a1-m1-cB QNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQWDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITYSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQWDPAANLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 2v9n-a1-m1-cB_2v9n-a1-m1-cC L-RHAMNULOSE-1-PHOSPHATE ALDOLASE FROM ESCHERICHIA COLI (MUTANT A88F- E192A) P32169 P32169 1.4 X-RAY DIFFRACTION 81 1.0 562 (Escherichia coli) 562 (Escherichia coli) 274 274 1gt7-a1-m1-cA_1gt7-a1-m1-cB 1gt7-a1-m1-cA_1gt7-a1-m1-cD 1gt7-a1-m1-cB_1gt7-a1-m1-cC 1gt7-a1-m1-cC_1gt7-a1-m1-cD 1gt7-a1-m2-cA_1gt7-a1-m2-cB 1gt7-a1-m2-cA_1gt7-a1-m2-cD 1gt7-a1-m2-cB_1gt7-a1-m2-cC 1gt7-a1-m2-cC_1gt7-a1-m2-cD 1gt7-a2-m1-cE_1gt7-a2-m1-cF 1gt7-a2-m1-cE_1gt7-a2-m1-cH 1gt7-a2-m1-cF_1gt7-a2-m1-cG 1gt7-a2-m1-cG_1gt7-a2-m1-cH 1gt7-a2-m2-cQ_1gt7-a2-m2-cR 1gt7-a2-m2-cQ_1gt7-a2-m2-cT 1gt7-a2-m2-cR_1gt7-a2-m2-cS 1gt7-a2-m2-cS_1gt7-a2-m2-cT 1gt7-a3-m1-cI_1gt7-a3-m1-cJ 1gt7-a3-m1-cI_1gt7-a3-m1-cL 1gt7-a3-m1-cJ_1gt7-a3-m1-cK 1gt7-a3-m1-cK_1gt7-a3-m1-cL 1gt7-a3-m2-cM_1gt7-a3-m2-cN 1gt7-a3-m2-cM_1gt7-a3-m2-cP 1gt7-a3-m2-cN_1gt7-a3-m2-cO 1gt7-a3-m2-cO_1gt7-a3-m2-cP 1gt7-a4-m1-cM_1gt7-a4-m1-cN 1gt7-a4-m1-cM_1gt7-a4-m1-cP 1gt7-a4-m1-cN_1gt7-a4-m1-cO 1gt7-a4-m1-cO_1gt7-a4-m1-cP 1gt7-a4-m2-cI_1gt7-a4-m2-cJ 1gt7-a4-m2-cI_1gt7-a4-m2-cL 1gt7-a4-m2-cJ_1gt7-a4-m2-cK 1gt7-a4-m2-cK_1gt7-a4-m2-cL 1gt7-a5-m1-cQ_1gt7-a5-m1-cR 1gt7-a5-m1-cQ_1gt7-a5-m1-cT 1gt7-a5-m1-cR_1gt7-a5-m1-cS 1gt7-a5-m1-cS_1gt7-a5-m1-cT 1gt7-a5-m2-cE_1gt7-a5-m2-cF 1gt7-a5-m2-cE_1gt7-a5-m2-cH 1gt7-a5-m2-cF_1gt7-a5-m2-cG 1gt7-a5-m2-cG_1gt7-a5-m2-cH 1ojr-a1-m1-cA_1ojr-a1-m2-cA 1ojr-a1-m1-cA_1ojr-a1-m3-cA 1ojr-a1-m2-cA_1ojr-a1-m4-cA 1ojr-a1-m3-cA_1ojr-a1-m4-cA 2uyu-a1-m1-cA_2uyu-a1-m2-cA 2uyu-a1-m1-cA_2uyu-a1-m3-cA 2uyu-a1-m2-cA_2uyu-a1-m6-cA 2uyu-a1-m3-cA_2uyu-a1-m6-cA 2uyu-a1-m4-cA_2uyu-a1-m5-cA 2uyu-a1-m4-cA_2uyu-a1-m7-cA 2uyu-a1-m5-cA_2uyu-a1-m8-cA 2uyu-a1-m7-cA_2uyu-a1-m8-cA 2uyu-a2-m10-cE_2uyu-a2-m13-cE 2uyu-a2-m11-cE_2uyu-a2-m12-cE 2uyu-a2-m11-cE_2uyu-a2-m14-cE 2uyu-a2-m12-cE_2uyu-a2-m15-cE 2uyu-a2-m13-cE_2uyu-a2-m9-cE 2uyu-a2-m14-cE_2uyu-a2-m15-cE 2uyu-a2-m1-cE_2uyu-a2-m10-cE 2uyu-a2-m1-cE_2uyu-a2-m9-cE 2uyv-a1-m1-cA_2uyv-a1-m1-cB 2uyv-a1-m1-cA_2uyv-a1-m1-cD 2uyv-a1-m1-cB_2uyv-a1-m1-cC 2uyv-a1-m1-cC_2uyv-a1-m1-cD 2uyv-a1-m2-cA_2uyv-a1-m2-cB 2uyv-a1-m2-cA_2uyv-a1-m2-cD 2uyv-a1-m2-cB_2uyv-a1-m2-cC 2uyv-a1-m2-cC_2uyv-a1-m2-cD 2v29-a1-m1-cA_2v29-a1-m2-cA 2v29-a1-m1-cA_2v29-a1-m3-cA 2v29-a1-m2-cA_2v29-a1-m4-cA 2v29-a1-m3-cA_2v29-a1-m4-cA 2v29-a2-m1-cB_2v29-a2-m5-cB 2v29-a2-m1-cB_2v29-a2-m6-cB 2v29-a2-m5-cB_2v29-a2-m7-cB 2v29-a2-m6-cB_2v29-a2-m7-cB 2v2a-a1-m1-cA_2v2a-a1-m2-cA 2v2a-a1-m1-cA_2v2a-a1-m3-cA 2v2a-a1-m2-cA_2v2a-a1-m4-cA 2v2a-a1-m3-cA_2v2a-a1-m4-cA 2v2b-a1-m1-cA_2v2b-a1-m2-cA 2v2b-a1-m1-cA_2v2b-a1-m3-cA 2v2b-a1-m2-cA_2v2b-a1-m4-cA 2v2b-a1-m3-cA_2v2b-a1-m4-cA 2v9e-a1-m1-cA_2v9e-a1-m2-cA 2v9e-a1-m1-cA_2v9e-a1-m3-cA 2v9e-a1-m2-cA_2v9e-a1-m4-cA 2v9e-a1-m3-cA_2v9e-a1-m4-cA 2v9e-a2-m1-cB_2v9e-a2-m5-cB 2v9e-a2-m1-cB_2v9e-a2-m6-cB 2v9e-a2-m5-cB_2v9e-a2-m7-cB 2v9e-a2-m6-cB_2v9e-a2-m7-cB 2v9f-a1-m1-cA_2v9f-a1-m2-cA 2v9f-a1-m1-cA_2v9f-a1-m3-cA 2v9f-a1-m2-cA_2v9f-a1-m4-cA 2v9f-a1-m3-cA_2v9f-a1-m4-cA 2v9g-a1-m1-cA_2v9g-a1-m1-cB 2v9g-a1-m1-cA_2v9g-a1-m1-cD 2v9g-a1-m1-cB_2v9g-a1-m1-cC 2v9g-a1-m1-cC_2v9g-a1-m1-cD 2v9g-a1-m2-cA_2v9g-a1-m2-cB 2v9g-a1-m2-cA_2v9g-a1-m2-cD 2v9g-a1-m2-cB_2v9g-a1-m2-cC 2v9g-a1-m2-cC_2v9g-a1-m2-cD 2v9i-a1-m1-cA_2v9i-a1-m2-cA 2v9i-a1-m1-cA_2v9i-a1-m3-cA 2v9i-a1-m2-cA_2v9i-a1-m4-cA 2v9i-a1-m3-cA_2v9i-a1-m4-cA 2v9i-a2-m1-cB_2v9i-a2-m5-cB 2v9i-a2-m1-cB_2v9i-a2-m6-cB 2v9i-a2-m5-cB_2v9i-a2-m7-cB 2v9i-a2-m6-cB_2v9i-a2-m7-cB 2v9l-a1-m1-cA_2v9l-a1-m2-cA 2v9l-a1-m1-cA_2v9l-a1-m3-cA 2v9l-a1-m2-cA_2v9l-a1-m4-cA 2v9l-a1-m3-cA_2v9l-a1-m4-cA 2v9m-a1-m1-cA_2v9m-a1-m2-cA 2v9m-a1-m1-cA_2v9m-a1-m3-cA 2v9m-a1-m2-cA_2v9m-a1-m4-cA 2v9m-a1-m3-cA_2v9m-a1-m4-cA 2v9m-a2-m1-cB_2v9m-a2-m5-cB 2v9m-a2-m1-cB_2v9m-a2-m6-cB 2v9m-a2-m5-cB_2v9m-a2-m7-cB 2v9m-a2-m6-cB_2v9m-a2-m7-cB 2v9n-a1-m1-cA_2v9n-a1-m1-cC 2v9n-a1-m1-cA_2v9n-a1-m1-cD 2v9n-a1-m1-cB_2v9n-a1-m1-cD 2v9o-a1-m1-cA_2v9o-a1-m2-cA 2v9o-a1-m1-cA_2v9o-a1-m3-cA 2v9o-a1-m2-cA_2v9o-a1-m4-cA 2v9o-a1-m3-cA_2v9o-a1-m4-cA 2v9o-a2-m1-cE_2v9o-a2-m5-cE 2v9o-a2-m1-cE_2v9o-a2-m6-cE 2v9o-a2-m5-cE_2v9o-a2-m7-cE 2v9o-a2-m6-cE_2v9o-a2-m7-cE MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAFNLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL MQNITQSWFVQGMIKATTDAWLKGWDERNGGNLTLRLDDADIAPYHDNFHQQPRYIPLSQPMPLLANTPFIVTGSGKFFRNVQLDPAFNLGIVKVDSDGAGYHILWGLTNEAVPTSELPAHFLSHCERIKATNGKDRVIMHCHATNLIALTYVLENDTAVFTRQLWEGSTECLVVFPDGVGILPWMVPGTDAIGQATAQEMQKHSLVLWPFHGVFGSGPTLDETFGLIDTAEKSAQVLVKVYSMGGMKQTISREELIALGKRFGVTPLASALAL 2v9u-a1-m1-cB_2v9u-a1-m1-cC Rim domain of main porin from Mycobacteria smegmatis A0QR29 A0QR29 2.59 X-RAY DIFFRACTION 68 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 132 132 2v9u-a1-m1-cA_2v9u-a1-m1-cB 2v9u-a1-m1-cA_2v9u-a1-m1-cH 2v9u-a1-m1-cC_2v9u-a1-m1-cD 2v9u-a1-m1-cD_2v9u-a1-m1-cE 2v9u-a1-m1-cE_2v9u-a1-m1-cF 2v9u-a1-m1-cF_2v9u-a1-m1-cG 2v9u-a1-m1-cG_2v9u-a1-m1-cH GLDNELSLVDGQDRTLTVQQWDTFLNGVFPLDRNRLTREWFHSGRAKYIVAGPGADEFEGTLELGYQIGGPGIQEVATFSVDVSGAEGGVAVSNAHGTVTGAAGGVLLRPFARLIASTGDSVTTYGEPWNMN GLDNELSLVDGQDRTLTVQQWDTFLNGVFPLDRNRLTREWFHSGRAKYIVAGPGADEFEGTLELGYQIGGPGIQEVATFSVDVSGAEGGVAVSNAHGTVTGAAGGVLLRPFARLIASTGDSVTTYGEPWNMN 2v9y-a2-m1-cB_2v9y-a2-m3-cB Human aminoimidazole ribonucleotide synthetase P22102 P22102 2.1 X-RAY DIFFRACTION 134 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 307 307 2v9y-a1-m1-cA_2v9y-a1-m2-cA GLFDLKAAGFKDPLLASGTDGVGTKLKIAQLCNKHDTIGQDLVAMCVNDILAQGAEPLFFLDYFSCGKLDLSVTEAVVAGIAKACGKAGCALLGGETAEMPDMYPPGEYDLAGFAVGAMERDQKLPHLERITEGDVVVGIASSGLHSNGFSLVRKIVAKSSLQYSSPAPDGCGDQTLGDLLLTPTRIYSHSLLPVLRSGHVKAFAHITGGGLLENIPRVLPEKLGVDLDAQTWRIPRVFSWLQQEGHLSEEEMARTFNCGVGAVLVVSKEQTEQILRGIQQHKEEAWVIGSVVARPRVKVKNLIESM GLFDLKAAGFKDPLLASGTDGVGTKLKIAQLCNKHDTIGQDLVAMCVNDILAQGAEPLFFLDYFSCGKLDLSVTEAVVAGIAKACGKAGCALLGGETAEMPDMYPPGEYDLAGFAVGAMERDQKLPHLERITEGDVVVGIASSGLHSNGFSLVRKIVAKSSLQYSSPAPDGCGDQTLGDLLLTPTRIYSHSLLPVLRSGHVKAFAHITGGGLLENIPRVLPEKLGVDLDAQTWRIPRVFSWLQQEGHLSEEEMARTFNCGVGAVLVVSKEQTEQILRGIQQHKEEAWVIGSVVARPRVKVKNLIESM 2va1-a1-m1-cC_2va1-a1-m1-cD Crystal structure of UMP kinase from Ureaplasma parvum Q9PPX6 Q9PPX6 2.5 X-RAY DIFFRACTION 88 0.996 134821 (Ureaplasma parvum) 134821 (Ureaplasma parvum) 227 228 2va1-a1-m1-cA_2va1-a1-m1-cB 2va1-a1-m1-cF_2va1-a1-m1-cE KQRIVIKISGACLKQNDSSIIDFIKINDLAEQIEKISKKYIVSIVLGGGNIWRGSIAKELDMDRNLADNMGMMATIINGLALENALNHLNVNTIVLSAIKCDKLVHESSANNIKKAIEKEQVMIFVAGTGFPYFTTDSCAAIRAAETESSIILMGKNGVDGVYDSDAQFYEHITFNMALTQNLKVMDATALALCQENNINLLVFNIDKPNAIVDVLEKKNKYTIVSK MRKQRIVIKISGACLKQNDSSIIDFIKINDLAEQIEKISKKYIVSIVLGGGNIWRGSIAKELDMDRNLADNMGMMATIINGLALENALNHLNVNTIVLSAIKCDKLVHESSANNIKKAIEKEQVMIFVAGTGFPYFTTDSCAAIRAAETESSIILMGKNGVDGVYDSAQFYEHITFNMALTQNLKVMDATALALCQENNINLLVFNIDKPNAIVDVLEKKNKYTIVSK 2va1-a1-m1-cF_2va1-a1-m1-cD Crystal structure of UMP kinase from Ureaplasma parvum Q9PPX6 Q9PPX6 2.5 X-RAY DIFFRACTION 64 1.0 134821 (Ureaplasma parvum) 134821 (Ureaplasma parvum) 226 228 2va1-a1-m1-cA_2va1-a1-m1-cC RKQRIVIKISGACLKQNDSSIIDFIKINDLAEQIEKISKKYIVSIVLGGGNIWRGSIAKELDMDRNLADNMGMMATIINGLALENALNHLNVNTIVLSAIKCDKLVHESSANNIKKAIEKEQVMIFVAGTGFPYFTTDSCAAIRAAETESSIILMGKNGVDGVYDSQFYEHITFNMALTQNLKVMDATALALCQENNINLLVFNIDKPNAIVDVLEKKNKYTIVSK MRKQRIVIKISGACLKQNDSSIIDFIKINDLAEQIEKISKKYIVSIVLGGGNIWRGSIAKELDMDRNLADNMGMMATIINGLALENALNHLNVNTIVLSAIKCDKLVHESSANNIKKAIEKEQVMIFVAGTGFPYFTTDSCAAIRAAETESSIILMGKNGVDGVYDSAQFYEHITFNMALTQNLKVMDATALALCQENNINLLVFNIDKPNAIVDVLEKKNKYTIVSK 2vaj-a1-m1-cA_2vaj-a1-m2-cA Crystal structure of NCAM2 Ig1 (I4122 cell unit) O15394 O15394 2.701 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 LQVTISLSKVELSVGESKFFTCTAIGEPESIDWYNPQGEKIISTQRVVVQKEGVRSRLTIYNANIEDAGIYRCQATDAKGQTQEATVVLEIYQ LQVTISLSKVELSVGESKFFTCTAIGEPESIDWYNPQGEKIISTQRVVVQKEGVRSRLTIYNANIEDAGIYRCQATDAKGQTQEATVVLEIYQ 2vaq-a1-m1-cA_2vaq-a1-m1-cB STRUCTURE OF STRICTOSIDINE SYNTHASE IN COMPLEX WITH INHIBITOR P68175 P68175 3.01 X-RAY DIFFRACTION 51 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 305 305 PILKEILIEAPSYAPNSFTFDSTNKGFYTSVQDGRVIKYEGPNSGFVDFAYASPYWNKAFCENSTDAEKRPLCGRTYDISYNLQNNQLYIVDCYYHLSVVGSEGGHATQLATSVDGVPFKWLYAVTVDQRTGIVYFTDVSTLYDDRGVQQIMDTSDKTGRLIKYDPSTKETTLLLKELHVPGGAEVSADSSFVLVAEFLSHQIVKYWLEGPKKGTAEVLVKIPNPGNIKRNADGHFWVSSSEELDGNMHGRVDPKGIKFDEFGNILEVIPLPPPFAGEHFEQIQEHDGLLYIGTLFHGSVGILVY PILKEILIEAPSYAPNSFTFDSTNKGFYTSVQDGRVIKYEGPNSGFVDFAYASPYWNKAFCENSTDAEKRPLCGRTYDISYNLQNNQLYIVDCYYHLSVVGSEGGHATQLATSVDGVPFKWLYAVTVDQRTGIVYFTDVSTLYDDRGVQQIMDTSDKTGRLIKYDPSTKETTLLLKELHVPGGAEVSADSSFVLVAEFLSHQIVKYWLEGPKKGTAEVLVKIPNPGNIKRNADGHFWVSSSEELDGNMHGRVDPKGIKFDEFGNILEVIPLPPPFAGEHFEQIQEHDGLLYIGTLFHGSVGILVY 2vav-a5-m1-cL_2vav-a5-m1-cG Crystal structure of deacetylcephalosporin C acetyltransferase (DAC-Soak) P39058 P39058 2.5 X-RAY DIFFRACTION 106 1.0 5044 (Hapsidospora chrysogena) 5044 (Hapsidospora chrysogena) 339 341 2vat-a1-m1-cA_2vat-a1-m1-cI 2vat-a2-m1-cE_2vat-a2-m1-cB 2vat-a3-m1-cK_2vat-a3-m1-cD 2vat-a4-m1-cF_2vat-a4-m1-cH 2vat-a5-m1-cL_2vat-a5-m1-cG 2vat-a6-m1-cJ_2vat-a6-m1-cC 2vav-a1-m1-cI_2vav-a1-m1-cA 2vav-a2-m1-cE_2vav-a2-m1-cB 2vav-a3-m1-cK_2vav-a3-m1-cD 2vav-a4-m1-cF_2vav-a4-m1-cH 2vav-a6-m1-cJ_2vav-a6-m1-cC 2vax-a1-m1-cA_2vax-a1-m1-cI 2vax-a2-m1-cE_2vax-a2-m1-cB 2vax-a3-m1-cK_2vax-a3-m1-cD 2vax-a4-m1-cF_2vax-a4-m1-cH 2vax-a5-m1-cL_2vax-a5-m1-cG 2vax-a6-m1-cJ_2vax-a6-m1-cC NRFEASLDAQDIARISLFTLESGVILRDVPVAYKSWGRMNVSRDNCVIVCHTLTSSAHVTSWWPTLFGQGRAFDTSRYFIICLNYLGSPFGSAGPCSPDPDPYGAKFPRTTIRDDVRIHRQVLDRLGVRQIAAVVGAMGGMHTLEWAFFGPEYVRKIVPIATSCRQSGWCAAWFETQRQCIYDDPKYLDGEYDVDDQPVRGLETARKIANLTYKSKPAMDERFHMQPIEAVSSYLRYQAQKFAASFDANCYIAMTLKFDTHDISRGRAGSIPEALAMITQPALIICARSDGLYSFDEHVEMGRSIPNSRLCVVDTNEGHDFFVMEADKVNDAVRGFLDQ NRFEASLDAQDIARISLFTLESGVILRDVPVAYKSWGRMNVSRDNCVIVCHTLTSSAHVTSWWPTLFGQGRAFDTSRYFIICLNYLGSPFGSAGPCSPDPDARPYGAKFPRTTIRDDVRIHRQVLDRLGVRQIAAVVGAMGGMHTLEWAFFGPEYVRKIVPIATSCRQSGWCAAWFETQRQCIYDDPKYLDGEYDVDDQPVRGLETARKIANLTYKSKPAMDERFHMQPIEAVSSYLRYQAQKFAASFDANCYIAMTLKFDTHDISRGRAGSIPEALAMITQPALIICARSDGLYSFDEHVEMGRSIPNSRLCVVDTNEGHDFFVMEADKVNDAVRGFLDQ 2vbf-a1-m1-cA_2vbf-a1-m1-cB The holostructure of the branched-chain keto acid decarboxylase (KdcA) from Lactococcus lactis Q6QBS4 Q6QBS4 1.6 X-RAY DIFFRACTION 258 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 546 546 2vbg-a1-m1-cB_2vbg-a1-m1-cA HSSGLMYTVGDYLLDRLHELGIEEIFGVPGDYNLQFLDQIISREDMKWIGNANELNASYMADGYARTKKAAAFLTTFGVGELSAINGLAGSYAENLPVVEIVGSPTSKVQNDGKFVHHTLADGDFKHFMKMHEPVTAARTLLTAENATYEIDRVLSQLLKERKPVYINLPVDVAAAKAEKPALSLENTTEQVILSKIEESLKNAQKPVVIAGHEVISFGLEKTVTQFVSETKLPITTLNFGKSAVDESLPSFLGIYNGKLSEISLKNFVESADFILMLGVKLTDSSTGAFTHHLDENKMISLNIDEGIIFNKVVEDFDFRAVVSSLSELKGIEYEGQYIDKQYEEFIPSSAPLSQDRLWQAVESLTQSNETIVAEQGTSFFGASTIFLKSNSRFIGQPLWGSIGYTFPAALGSQIADKESRHLLFIGDGSLQLTVQELGLSIREKLNPICFIINNDGYTVEREIHGPTQSYNDIPMWNYSKLPETFGATEDRVVSKIVRTENEFVSVMKEAQADVNRMYWIELVLEKEDAPKLLKKMGKLFAEQNK HSSGLMYTVGDYLLDRLHELGIEEIFGVPGDYNLQFLDQIISREDMKWIGNANELNASYMADGYARTKKAAAFLTTFGVGELSAINGLAGSYAENLPVVEIVGSPTSKVQNDGKFVHHTLADGDFKHFMKMHEPVTAARTLLTAENATYEIDRVLSQLLKERKPVYINLPVDVAAAKAEKPALSLENTTEQVILSKIEESLKNAQKPVVIAGHEVISFGLEKTVTQFVSETKLPITTLNFGKSAVDESLPSFLGIYNGKLSEISLKNFVESADFILMLGVKLTDSSTGAFTHHLDENKMISLNIDEGIIFNKVVEDFDFRAVVSSLSELKGIEYEGQYIDKQYEEFIPSSAPLSQDRLWQAVESLTQSNETIVAEQGTSFFGASTIFLKSNSRFIGQPLWGSIGYTFPAALGSQIADKESRHLLFIGDGSLQLTVQELGLSIREKLNPICFIINNDGYTVEREIHGPTQSYNDIPMWNYSKLPETFGATEDRVVSKIVRTENEFVSVMKEAQADVNRMYWIELVLEKEDAPKLLKKMGKLFAEQNK 2vbi-a2-m1-cE_2vbi-a2-m1-cH Holostructure of pyruvate decarboxylase from Acetobacter pasteurianus Q8L388 Q8L388 2.75 X-RAY DIFFRACTION 107 1.0 438 (Acetobacter pasteurianus) 438 (Acetobacter pasteurianus) 554 554 2vbi-a1-m1-cA_2vbi-a1-m1-cD 2vbi-a1-m1-cB_2vbi-a1-m1-cC 2vbi-a2-m1-cF_2vbi-a2-m1-cG TYTVGMYLAERLVQIGLKHHFAVAGDYNLVLLDQLLLNKDMKQIYCCNELNCGFSAEGYARSNGAAAAVVTFSVGAISAMNALGGAYAENLPVILISGAPNSNDQGTGHILHHTIGKTDYSYQLEMARQVTCAAESITDAHSAPAKIDHVIRTALRERKPAYLDIACNIASEPCVRPGPVSSLLSEPEIDHTSLKAAVDATVALLEKSASPVMLLGSKLRAANALAATETLADKLQCAVTIMAAAKGFFPEDHAGFRGLYWGEVSNPGVQELVETSDALLCIAPVFNDYSTVGWSAWPKGPNVILAEPDRVTVDGRAYDGFTLRAFLQALAEKAPARPASAQKSSVPTCSLTATSDEAGLTNDEIVRHINALLTSNTTLVAETGDSWFNAMRMTLPRGARVELEMQWGHIGWSVPSAFGNAMGSQDRQHVVMVGDGSFQLTAQEVAQMVRYELPVIIFLINNRGYVIEIAIHDGPYNYIKNWDYAGLMEVFNAGEGHGLGLKATTPKELTEAIARAKANTRGPTLIECQIDRTDCTDMLVQWGRKVASTNARKT TYTVGMYLAERLVQIGLKHHFAVAGDYNLVLLDQLLLNKDMKQIYCCNELNCGFSAEGYARSNGAAAAVVTFSVGAISAMNALGGAYAENLPVILISGAPNSNDQGTGHILHHTIGKTDYSYQLEMARQVTCAAESITDAHSAPAKIDHVIRTALRERKPAYLDIACNIASEPCVRPGPVSSLLSEPEIDHTSLKAAVDATVALLEKSASPVMLLGSKLRAANALAATETLADKLQCAVTIMAAAKGFFPEDHAGFRGLYWGEVSNPGVQELVETSDALLCIAPVFNDYSTVGWSAWPKGPNVILAEPDRVTVDGRAYDGFTLRAFLQALAEKAPARPASAQKSSVPTCSLTATSDEAGLTNDEIVRHINALLTSNTTLVAETGDSWFNAMRMTLPRGARVELEMQWGHIGWSVPSAFGNAMGSQDRQHVVMVGDGSFQLTAQEVAQMVRYELPVIIFLINNRGYVIEIAIHDGPYNYIKNWDYAGLMEVFNAGEGHGLGLKATTPKELTEAIARAKANTRGPTLIECQIDRTDCTDMLVQWGRKVASTNARKT 2vbi-a2-m1-cF_2vbi-a2-m1-cH Holostructure of pyruvate decarboxylase from Acetobacter pasteurianus Q8L388 Q8L388 2.75 X-RAY DIFFRACTION 42 1.0 438 (Acetobacter pasteurianus) 438 (Acetobacter pasteurianus) 554 554 2vbi-a1-m1-cA_2vbi-a1-m1-cC 2vbi-a1-m1-cB_2vbi-a1-m1-cD 2vbi-a2-m1-cE_2vbi-a2-m1-cG TYTVGMYLAERLVQIGLKHHFAVAGDYNLVLLDQLLLNKDMKQIYCCNELNCGFSAEGYARSNGAAAAVVTFSVGAISAMNALGGAYAENLPVILISGAPNSNDQGTGHILHHTIGKTDYSYQLEMARQVTCAAESITDAHSAPAKIDHVIRTALRERKPAYLDIACNIASEPCVRPGPVSSLLSEPEIDHTSLKAAVDATVALLEKSASPVMLLGSKLRAANALAATETLADKLQCAVTIMAAAKGFFPEDHAGFRGLYWGEVSNPGVQELVETSDALLCIAPVFNDYSTVGWSAWPKGPNVILAEPDRVTVDGRAYDGFTLRAFLQALAEKAPARPASAQKSSVPTCSLTATSDEAGLTNDEIVRHINALLTSNTTLVAETGDSWFNAMRMTLPRGARVELEMQWGHIGWSVPSAFGNAMGSQDRQHVVMVGDGSFQLTAQEVAQMVRYELPVIIFLINNRGYVIEIAIHDGPYNYIKNWDYAGLMEVFNAGEGHGLGLKATTPKELTEAIARAKANTRGPTLIECQIDRTDCTDMLVQWGRKVASTNARKT TYTVGMYLAERLVQIGLKHHFAVAGDYNLVLLDQLLLNKDMKQIYCCNELNCGFSAEGYARSNGAAAAVVTFSVGAISAMNALGGAYAENLPVILISGAPNSNDQGTGHILHHTIGKTDYSYQLEMARQVTCAAESITDAHSAPAKIDHVIRTALRERKPAYLDIACNIASEPCVRPGPVSSLLSEPEIDHTSLKAAVDATVALLEKSASPVMLLGSKLRAANALAATETLADKLQCAVTIMAAAKGFFPEDHAGFRGLYWGEVSNPGVQELVETSDALLCIAPVFNDYSTVGWSAWPKGPNVILAEPDRVTVDGRAYDGFTLRAFLQALAEKAPARPASAQKSSVPTCSLTATSDEAGLTNDEIVRHINALLTSNTTLVAETGDSWFNAMRMTLPRGARVELEMQWGHIGWSVPSAFGNAMGSQDRQHVVMVGDGSFQLTAQEVAQMVRYELPVIIFLINNRGYVIEIAIHDGPYNYIKNWDYAGLMEVFNAGEGHGLGLKATTPKELTEAIARAKANTRGPTLIECQIDRTDCTDMLVQWGRKVASTNARKT 2vbi-a2-m1-cG_2vbi-a2-m1-cH Holostructure of pyruvate decarboxylase from Acetobacter pasteurianus Q8L388 Q8L388 2.75 X-RAY DIFFRACTION 269 1.0 438 (Acetobacter pasteurianus) 438 (Acetobacter pasteurianus) 554 554 2vbi-a1-m1-cA_2vbi-a1-m1-cB 2vbi-a1-m1-cC_2vbi-a1-m1-cD 2vbi-a2-m1-cE_2vbi-a2-m1-cF TYTVGMYLAERLVQIGLKHHFAVAGDYNLVLLDQLLLNKDMKQIYCCNELNCGFSAEGYARSNGAAAAVVTFSVGAISAMNALGGAYAENLPVILISGAPNSNDQGTGHILHHTIGKTDYSYQLEMARQVTCAAESITDAHSAPAKIDHVIRTALRERKPAYLDIACNIASEPCVRPGPVSSLLSEPEIDHTSLKAAVDATVALLEKSASPVMLLGSKLRAANALAATETLADKLQCAVTIMAAAKGFFPEDHAGFRGLYWGEVSNPGVQELVETSDALLCIAPVFNDYSTVGWSAWPKGPNVILAEPDRVTVDGRAYDGFTLRAFLQALAEKAPARPASAQKSSVPTCSLTATSDEAGLTNDEIVRHINALLTSNTTLVAETGDSWFNAMRMTLPRGARVELEMQWGHIGWSVPSAFGNAMGSQDRQHVVMVGDGSFQLTAQEVAQMVRYELPVIIFLINNRGYVIEIAIHDGPYNYIKNWDYAGLMEVFNAGEGHGLGLKATTPKELTEAIARAKANTRGPTLIECQIDRTDCTDMLVQWGRKVASTNARKT TYTVGMYLAERLVQIGLKHHFAVAGDYNLVLLDQLLLNKDMKQIYCCNELNCGFSAEGYARSNGAAAAVVTFSVGAISAMNALGGAYAENLPVILISGAPNSNDQGTGHILHHTIGKTDYSYQLEMARQVTCAAESITDAHSAPAKIDHVIRTALRERKPAYLDIACNIASEPCVRPGPVSSLLSEPEIDHTSLKAAVDATVALLEKSASPVMLLGSKLRAANALAATETLADKLQCAVTIMAAAKGFFPEDHAGFRGLYWGEVSNPGVQELVETSDALLCIAPVFNDYSTVGWSAWPKGPNVILAEPDRVTVDGRAYDGFTLRAFLQALAEKAPARPASAQKSSVPTCSLTATSDEAGLTNDEIVRHINALLTSNTTLVAETGDSWFNAMRMTLPRGARVELEMQWGHIGWSVPSAFGNAMGSQDRQHVVMVGDGSFQLTAQEVAQMVRYELPVIIFLINNRGYVIEIAIHDGPYNYIKNWDYAGLMEVFNAGEGHGLGLKATTPKELTEAIARAKANTRGPTLIECQIDRTDCTDMLVQWGRKVASTNARKT 2vbq-a1-m1-cB_2vbq-a1-m1-cA Structure of AAC(6')-Iy in complex with bisubstrate analog CoA-S- monomethyl-acetylneamine. Q9R381 Q9R381 2 X-RAY DIFFRACTION 155 1.0 144 147 1s3z-a1-m1-cB_1s3z-a1-m1-cA 1s5k-a1-m1-cB_1s5k-a1-m1-cA 1s60-a1-m1-cA_1s60-a1-m2-cA DIRQMNKTHLEHWRGLRKQLWPGHPDDAHLADGEEILQADHLASFIAMADGVAIGFADASIRHDYVNGCDSSPVVFLEGIFVLPSFRQRGVAKQLIAAVQRWGTNKGCREMASDTSPENTISQKVHQALGFEETERVIFYRKRC SHMDIRQMNKTHLEHWRGLRKQLWPGHPDDAHLADGEEILQADHLASFIAMADGVAIGFADASIRHDYVNGCDSSPVVFLEGIFVLPSFRQRGVAKQLIAAVQRWGTNKGCREMASDTSPENTISQKVHQALGFEETERVIFYRKRC 2vc6-a1-m1-cB_2vc6-a1-m2-cB Structure of MosA from S. meliloti with pyruvate bound Q07607 Q07607 1.95 X-RAY DIFFRACTION 95 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 291 291 2vc6-a1-m1-cA_2vc6-a1-m2-cA MFEGSITALVTPFADDRIDEVALHDLVEWQIEEGSFGLVPCGTTGESPTLSKSEHEQVVEITIKTANGRVPVIAGAGSNSTAEAIAFVRHAQNAGADGVLIVSPYYNKPTQEGIYQHFKAIDAASTIPIIVYNIPGRSAIEIHVETLARIFEDCPNVKGVDATGNLLRPSLERMACGEDFNLLTGEDGTALGYMAHGGHGCISVTANVAPALCADFQQACLNGDFAAALKLQDRLMPLHRALFLETNPAGAKYALQRLGRMRGDLRLPLVTISPSFQEEIDDAMRHAGILL MFEGSITALVTPFADDRIDEVALHDLVEWQIEEGSFGLVPCGTTGESPTLSKSEHEQVVEITIKTANGRVPVIAGAGSNSTAEAIAFVRHAQNAGADGVLIVSPYYNKPTQEGIYQHFKAIDAASTIPIIVYNIPGRSAIEIHVETLARIFEDCPNVKGVDATGNLLRPSLERMACGEDFNLLTGEDGTALGYMAHGGHGCISVTANVAPALCADFQQACLNGDFAAALKLQDRLMPLHRALFLETNPAGAKYALQRLGRMRGDLRLPLVTISPSFQEEIDDAMRHAGILL 2vc6-a1-m2-cA_2vc6-a1-m2-cB Structure of MosA from S. meliloti with pyruvate bound Q07607 Q07607 1.95 X-RAY DIFFRACTION 115 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 291 291 2vc6-a1-m1-cA_2vc6-a1-m1-cB MFEGSITALVTPFADDRIDEVALHDLVEWQIEEGSFGLVPCGTTGESPTLSKSEHEQVVEITIKTANGRVPVIAGAGSNSTAEAIAFVRHAQNAGADGVLIVSPYYNKPTQEGIYQHFKAIDAASTIPIIVYNIPGRSAIEIHVETLARIFEDCPNVKGVDATGNLLRPSLERMACGEDFNLLTGEDGTALGYMAHGGHGCISVTANVAPALCADFQQACLNGDFAAALKLQDRLMPLHRALFLETNPAGAKYALQRLGRMRGDLRLPLVTISPSFQEEIDDAMRHAGILL MFEGSITALVTPFADDRIDEVALHDLVEWQIEEGSFGLVPCGTTGESPTLSKSEHEQVVEITIKTANGRVPVIAGAGSNSTAEAIAFVRHAQNAGADGVLIVSPYYNKPTQEGIYQHFKAIDAASTIPIIVYNIPGRSAIEIHVETLARIFEDCPNVKGVDATGNLLRPSLERMACGEDFNLLTGEDGTALGYMAHGGHGCISVTANVAPALCADFQQACLNGDFAAALKLQDRLMPLHRALFLETNPAGAKYALQRLGRMRGDLRLPLVTISPSFQEEIDDAMRHAGILL 2vd2-a1-m1-cA_2vd2-a1-m2-cA The crystal structure of HisG from B. subtilis O34520 O34520 2.85 X-RAY DIFFRACTION 74 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 212 212 AMGKLLTMAMPKGRIFEEAAGLLRQAGYRLPEEFEDSRKLIIDVPEENLRFILAKPMDVTTYVEHGVADVGIAGKDVMLEEERDVYEVLDLNISKCHLAVAGLPNTDWSGVAPRIATKYPNVASSYFREQGEQVEIIKLNGSIELAPLIGLADRIVDIVSTGQTLKENGLVETEHICDITSRFIVNPVSYRMKDDVIDEMASRLSLVVEGET AMGKLLTMAMPKGRIFEEAAGLLRQAGYRLPEEFEDSRKLIIDVPEENLRFILAKPMDVTTYVEHGVADVGIAGKDVMLEEERDVYEVLDLNISKCHLAVAGLPNTDWSGVAPRIATKYPNVASSYFREQGEQVEIIKLNGSIELAPLIGLADRIVDIVSTGQTLKENGLVETEHICDITSRFIVNPVSYRMKDDVIDEMASRLSLVVEGET 2vd3-a1-m2-cB_2vd3-a1-m3-cB The structure of histidine inhibited HisG from Methanobacterium thermoautotrophicum O27550 O27550 2.45 X-RAY DIFFRACTION 94 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 288 288 2vd3-a1-m1-cA_2vd3-a1-m2-cA 2vd3-a1-m1-cA_2vd3-a1-m3-cA 2vd3-a1-m1-cB_2vd3-a1-m2-cB 2vd3-a1-m1-cB_2vd3-a1-m3-cB 2vd3-a1-m2-cA_2vd3-a1-m3-cA AVPKIRIAVPSKGRISEPAIRLLENAGVGLKDTVRKLFSKTQHPQIEVMFSRAADIPEFVADGAADLGITGYDLIVERGSDVEILEDLKYGRASLVLAAPEDSTIRGPEDIPRGAVIATEFPGITENYLREHGIDAEVVELTGSTEIAPFIGVADLITDLSSTGTTLRMNHLRVIDTILESSVKLIANRESYATKSGIIEELRTGIRGVIDAEGKRLVMLNIDRKNLDRVRALMPGMTGPTVSEVLSDNGVVAVHAVVDEKEVFNLINRLKAVGARDILVVPIERIIP AVPKIRIAVPSKGRISEPAIRLLENAGVGLKDTVRKLFSKTQHPQIEVMFSRAADIPEFVADGAADLGITGYDLIVERGSDVEILEDLKYGRASLVLAAPEDSTIRGPEDIPRGAVIATEFPGITENYLREHGIDAEVVELTGSTEIAPFIGVADLITDLSSTGTTLRMNHLRVIDTILESSVKLIANRESYATKSGIIEELRTGIRGVIDAEGKRLVMLNIDRKNLDRVRALMPGMTGPTVSEVLSDNGVVAVHAVVDEKEVFNLINRLKAVGARDILVVPIERIIP 2vd3-a1-m3-cB_2vd3-a1-m3-cA The structure of histidine inhibited HisG from Methanobacterium thermoautotrophicum O27550 O27550 2.45 X-RAY DIFFRACTION 45 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 288 289 2vd3-a1-m1-cB_2vd3-a1-m1-cA 2vd3-a1-m2-cB_2vd3-a1-m2-cA AVPKIRIAVPSKGRISEPAIRLLENAGVGLKDTVRKLFSKTQHPQIEVMFSRAADIPEFVADGAADLGITGYDLIVERGSDVEILEDLKYGRASLVLAAPEDSTIRGPEDIPRGAVIATEFPGITENYLREHGIDAEVVELTGSTEIAPFIGVADLITDLSSTGTTLRMNHLRVIDTILESSVKLIANRESYATKSGIIEELRTGIRGVIDAEGKRLVMLNIDRKNLDRVRALMPGMTGPTVSEVLSDNGVVAVHAVVDEKEVFNLINRLKAVGARDILVVPIERIIP AVPKIRIAVPSKGRISEPAIRLLENAGVGLKDTVNRKLFSKTQHPQIEVMFSRAADIPEFVADGAADLGITGYDLIVERGSDVEILEDLKYGRASLVLAAPEDSTIRGPEDIPRGAVIATEFPGITENYLREHGIDAEVVELTGSTEIAPFIGVADLITDLSSTGTTLRMNHLRVIDTILESSVKLIANRESYATKSGIIEELRTGIRGVIDAEGKRLVMLNIDRKNLDRVRALMPGMTGPTVSEVLSDNGVVAVHAVVDEKEVFNLINRLKAVGARDILVVPIERIIP 2vd5-a2-m1-cB_2vd5-a2-m3-cB Structure of Human Myotonic Dystrophy Protein Kinase in Complex with the Bisindoylmaleide inhibitor BIM VIII Q09013 Q09013 2.8 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 380 380 2vd5-a1-m1-cA_2vd5-a1-m2-cA QQLVLDPGFLGLEPLLDLLLGVHQELGASELAQDKYVADFLQWAEPIVVRLKEVRLQRDDFEILKVIGRGAFSEVAVVKMKQTGQVYAMKIMNKWDMLKRGEVSCFREERDVLVNGDRRWITQLHFAFQDENYLYLVMEYYVGGDLLTLLSKFGERIPAEMARFYLAEIVMAIDSVHRLGYVHRDIKPDNILLDRCGHIRLADFGSCLKLRADGTVRSLVAVGTPDYLSPEILQAVGGSYGPECDWWALGVFAYEMFYGQTPFYADSTAETYGKIVHYKEHLSLVPEEARDFIQRLLCPPETRLGRGGAGDFRTHPFFFGLDWDGLRDSVPPFTPDTDTCNFDDGLTAMVGGETLSDIGVHLPFVGYSYSCMALRDSEVP QQLVLDPGFLGLEPLLDLLLGVHQELGASELAQDKYVADFLQWAEPIVVRLKEVRLQRDDFEILKVIGRGAFSEVAVVKMKQTGQVYAMKIMNKWDMLKRGEVSCFREERDVLVNGDRRWITQLHFAFQDENYLYLVMEYYVGGDLLTLLSKFGERIPAEMARFYLAEIVMAIDSVHRLGYVHRDIKPDNILLDRCGHIRLADFGSCLKLRADGTVRSLVAVGTPDYLSPEILQAVGGSYGPECDWWALGVFAYEMFYGQTPFYADSTAETYGKIVHYKEHLSLVPEEARDFIQRLLCPPETRLGRGGAGDFRTHPFFFGLDWDGLRDSVPPFTPDTDTCNFDDGLTAMVGGETLSDIGVHLPFVGYSYSCMALRDSEVP 2vd9-a1-m1-cA_2vd9-a1-m1-cB The crystal structure of alanine racemase from Bacillus anthracis (BA0252) with bound L-Ala-P A0A6L7HC45 A0A6L7HC45 2.1 X-RAY DIFFRACTION 250 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 368 368 2vd8-a1-m1-cB_2vd8-a1-m1-cA 3ha1-a1-m1-cA_3ha1-a1-m1-cB APFYRDTWVEVDLDAIYNNVTHIEFIPSDVEIFAVVKGNAYGHDYVPVAIALEAGATRLAVAFLDEALVLRRAGITAPILVLGPSPPRDINVAAENDVALTVFQEWVDEAILWDGSSTMYHINFDSGMGRIGIRERELGFLSLEGAPFLELEGVYTHFATADEVETSYFDQYNTFLEQLSWLEFGVDPFVHTANSAATLRFQGITFNAVRIGIAMYGLSPSVEIRPFLPFLEPALSLHTVAHIKQVIGDGISYNVTYRTTEEWIATVAIGYADGWLRRLQGFEVLVNGRVPIVGRVTMDQFMIHLPCEVPLGTVTLIGRQGDEYISATEVAEYSGTINYEIITTISFRVPRIFIRNGVVEVINYLNDI APFYRDTWVEVDLDAIYNNVTHIEFIPSDVEIFAVVKGNAYGHDYVPVAIALEAGATRLAVAFLDEALVLRRAGITAPILVLGPSPPRDINVAAENDVALTVFQEWVDEAILWDGSSTMYHINFDSGMGRIGIRERELGFLSLEGAPFLELEGVYTHFATADEVETSYFDQYNTFLEQLSWLEFGVDPFVHTANSAATLRFQGITFNAVRIGIAMYGLSPSVEIRPFLPFLEPALSLHTVAHIKQVIGDGISYNVTYRTTEEWIATVAIGYADGWLRRLQGFEVLVNGRVPIVGRVTMDQFMIHLPCEVPLGTVTLIGRQGDEYISATEVAEYSGTINYEIITTISFRVPRIFIRNGVVEVINYLNDI 2vdj-a1-m1-cA_2vdj-a1-m2-cA Crystal Structure of Homoserine O-acetyltransferase (metA) from Bacillus Cereus with Homoserine Q72X44 Q72X44 2 X-RAY DIFFRACTION 117 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 268 268 2ghr-a1-m1-cA_2ghr-a1-m2-cA EENIFVMTKERAETQDIRALKIAILNLMPTKQETEAQLLRLIGNTPLQLDVHLLHMESSFYKTFRDIENEKFDGLIITGAPVETLSFEEVDYWEELKRIMEYSKTNVTSTLHICWGAQAGLYHHYGVQKYPLKEKMFGVFEHEVREQHVKLLQGFDELFFAVHSRHTEVRESDIREVKELTLLANSEEAGVHLVIGQEGRQVFALGHSEYSCDTLKQEYERDRDKGLNIDVPKNYFKHDNPNEKPLVRWRSHGNLLFSNWLNYYVYQE EENIFVMTKERAETQDIRALKIAILNLMPTKQETEAQLLRLIGNTPLQLDVHLLHMESSFYKTFRDIENEKFDGLIITGAPVETLSFEEVDYWEELKRIMEYSKTNVTSTLHICWGAQAGLYHHYGVQKYPLKEKMFGVFEHEVREQHVKLLQGFDELFFAVHSRHTEVRESDIREVKELTLLANSEEAGVHLVIGQEGRQVFALGHSEYSCDTLKQEYERDRDKGLNIDVPKNYFKHDNPNEKPLVRWRSHGNLLFSNWLNYYVYQE 2vdv-a3-m1-cF_2vdv-a3-m1-cE Structure of trm8, m7G methylation enzyme Q12009 Q12009 2.3 X-RAY DIFFRACTION 84 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 216 216 2vdu-a1-m1-cE_2vdu-a1-m1-cF NPFSDHQLEYPVSPQDMDWSKLYPYYKNQMTKKVTIADIGCGFGGLMIDLSPAFPEDLILGMEIRVQVTNYVEDRIIALRNNTSKHGFQNINVLRGNAMKFLPNFFEKGQLSKMFFCFPDPHKARIITNTLLSEYAYVLKEGGVVYTITDVKDLHEWMVKHLEEHPLFERLSKEWEENDECVKIMRNATEEGKKVERKKGDKFVACFTRLPTPAIL NPFSDHQLEYPVSPQDMDWSKLYPYYKNQMTKKVTIADIGCGFGGLMIDLSPAFPEDLILGMEIRVQVTNYVEDRIIALRNNTSKHGFQNINVLRGNAMKFLPNFFEKGQLSKMFFCFPDPHKARIITNTLLSEYAYVLKEGGVVYTITDVKDLHEWMVKHLEEHPLFERLSKEWEENDECVKIMRNATEEGKKVERKKGDKFVACFTRLPTPAIL 2ved-a1-m4-cA_2ved-a1-m4-cB crystal structure of the chimerical mutant CapABK55M protein A8YPQ5 A8YPQ5 2.6 X-RAY DIFFRACTION 65 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 252 254 2ved-a1-m1-cA_2ved-a1-m1-cB 2ved-a1-m1-cA_2ved-a1-m2-cB 2ved-a1-m2-cA_2ved-a1-m2-cB 2ved-a1-m2-cA_2ved-a1-m4-cB 2ved-a1-m3-cA_2ved-a1-m1-cB 2ved-a1-m3-cA_2ved-a1-m3-cB 2ved-a1-m4-cA_2ved-a1-m3-cB DKRIKDEEDVEKELGLPVLGSIQKFNMTNTRRSTSSLIVHEQPKSPISEKFRGIRSNIMFANPDSAVQSIVITSEAPGAGMSTIAANLAVAYAQAGYKTLIVDGDMRKPTQHYIFNLPNNEGLSSLLLNWSTYQDSIISTEIEDLDVLTSGPIPPNPSELITSRAFANLYDTLLMNYNFVIIDTPPVNTVTDAQLFSKFTGNVVYVVNSENNNKDEVKKGKELIEATGAKLLGVVLNRMPKDKSASYYAYYG DKRIKDEEDVEKELGLPVLGSIQKFNMTNTRRSTSSLIVHEQPKSPISEKFRGIRSNIMFANPDSAVQSIVITSEAPGAGMSTIAANLAVAYAQAGYKTLIVDGDMRKPTQHYIFNLPNNEGLSSLLLNWSTYQDSIISTEIEDLDVLTSGPIPPNPSELITSRAFANLYDTLLMNYNFVIIDTPPVNTVTDAQLFSKFTGNVVYVVNSENNNKDEVKKGKELIEATGAKLLGVVLNRMPKDKSASYYAYYGTD 2vee-a2-m1-cB_2vee-a2-m1-cD Structure of protoglobin from Methanosarcina acetivorans C2A Q8TLY9 Q8TLY9 2.6 X-RAY DIFFRACTION 124 1.0 2214 (Methanosarcina acetivorans) 2214 (Methanosarcina acetivorans) 190 190 2veb-a1-m1-cA_2veb-a1-m2-cA 2vee-a1-m1-cA_2vee-a1-m1-cC 2vee-a3-m1-cE_2vee-a3-m1-cF 2vee-a4-m1-cG_2vee-a4-m1-cH 3qzx-a1-m1-cA_3qzx-a1-m2-cA 3qzz-a1-m1-cA_3qzz-a1-m2-cA 3r0g-a1-m1-cA_3r0g-a1-m1-cB 3zh0-a1-m1-cA_3zh0-a1-m1-cB 3zh0-a2-m1-cC_3zh0-a2-m1-cD 3zjh-a1-m1-cA_3zjh-a1-m1-cB 3zji-a1-m1-cB_3zji-a1-m1-cA 3zjj-a1-m1-cC_3zjj-a1-m2-cC 3zjj-a2-m1-cA_3zjj-a2-m1-cB 3zjl-a1-m1-cA_3zjl-a1-m1-cB 3zjm-a1-m1-cC_3zjm-a1-m2-cC 3zjm-a2-m1-cA_3zjm-a2-m1-cB 3zjn-a1-m1-cA_3zjn-a1-m1-cB 3zjo-a1-m1-cA_3zjo-a1-m1-cB 3zjp-a1-m1-cA_3zjp-a1-m2-cA 3zjq-a1-m1-cA_3zjq-a1-m1-cB 3zjr-a1-m1-cA_3zjr-a1-m2-cA 3zjs-a1-m1-cA_3zjs-a1-m1-cB 3zol-a1-m1-cA_3zol-a1-m1-cB 3zom-a1-m1-cB_3zom-a1-m2-cA 3zom-a2-m1-cA_3zom-a2-m3-cB IPGYTYGETENRAPFNLEDLKLLKEAVMFTAEDEEYIQKAGEVLEDQVEEILDTWYGFVGSHPHLLYYFTSPDGTPNEKYLAAVRKRFSRWILDTSNRSYDQAWLDYQYEIGLRHHRTKKNQTDNVESVPNIGYRYLVAFIYPITATMKPFLARKGHTPEEVEKMYQAWFKATTLQVALWSYPYVKYGDF IPGYTYGETENRAPFNLEDLKLLKEAVMFTAEDEEYIQKAGEVLEDQVEEILDTWYGFVGSHPHLLYYFTSPDGTPNEKYLAAVRKRFSRWILDTSNRSYDQAWLDYQYEIGLRHHRTKKNQTDNVESVPNIGYRYLVAFIYPITATMKPFLARKGHTPEEVEKMYQAWFKATTLQVALWSYPYVKYGDF 2veq-a1-m1-cA_2veq-a1-m2-cA Insights into kinetochore-DNA interactions from the structure of Cep3p P40969 P40969 2.49 X-RAY DIFFRACTION 216 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 520 520 2quq-a1-m1-cA_2quq-a1-m2-cA 6f07-a1-m1-cA_6f07-a1-m1-cB 6fe8-a1-m1-cB_6fe8-a1-m1-cA 6gsa-a1-m1-cB_6gsa-a1-m1-cA 6gyp-a1-m1-cB_6gyp-a1-m1-cC 6gys-a1-m1-cC_6gys-a1-m1-cB 6gys-a1-m1-cJ_6gys-a1-m1-cI 6gyu-a1-m1-cC_6gyu-a1-m1-cB 7k79-a1-m1-cO_7k79-a1-m1-cL ITASSSKEYLPDLLLFWQNYEYWITNIGLYKTKQRDLTRTPANLDTDTEECMFWMNYLQKDQSFQLMNFAMENLGALYFGSIGDISELYLRVEQYWDRRADKNHSVDGKYWDALIWSVFTMCIYYMPVEKLAEIFSVYPLHEYLGSNKRLNWEDGMQLVMCQNFARCSLFQLKQCDFMAHPDIRLVQAYLILATTTFPYDEPLLANSLLTQCIHTFKNFHVDDFRPLLNDDPVESIAKVTLGRIFYRLCGCDYLQSGPRKPIALHREENSTEVLYWKIISLDRDLDQYLNKSSKPPLKTLDAIRRELDIFQYKVDSLEEDFRSNNSRFQKFIALFQISTVSWKLFKMYLIYYDTADSLLKVIHYSKVIISLIVNNFHAKSEFFNRHPMVMQTITRVVSFISFYQIFVESAAVKQLLVDLTELTANLPTIFGSKLDKLVYLTERLSKLKLLWDKVQLLDSGDSFYHPVFKILQNDIKIIELKNDEMFSLIKGLGSLVPLNSDFRTIVEEFQSEYNISDILS ITASSSKEYLPDLLLFWQNYEYWITNIGLYKTKQRDLTRTPANLDTDTEECMFWMNYLQKDQSFQLMNFAMENLGALYFGSIGDISELYLRVEQYWDRRADKNHSVDGKYWDALIWSVFTMCIYYMPVEKLAEIFSVYPLHEYLGSNKRLNWEDGMQLVMCQNFARCSLFQLKQCDFMAHPDIRLVQAYLILATTTFPYDEPLLANSLLTQCIHTFKNFHVDDFRPLLNDDPVESIAKVTLGRIFYRLCGCDYLQSGPRKPIALHREENSTEVLYWKIISLDRDLDQYLNKSSKPPLKTLDAIRRELDIFQYKVDSLEEDFRSNNSRFQKFIALFQISTVSWKLFKMYLIYYDTADSLLKVIHYSKVIISLIVNNFHAKSEFFNRHPMVMQTITRVVSFISFYQIFVESAAVKQLLVDLTELTANLPTIFGSKLDKLVYLTERLSKLKLLWDKVQLLDSGDSFYHPVFKILQNDIKIIELKNDEMFSLIKGLGSLVPLNSDFRTIVEEFQSEYNISDILS 2ves-a1-m1-cB_2ves-a1-m1-cA Crystal Structure of LpxC from Pseudomonas aeruginosa complexed with the potent BB-78485 inhibitor P47205 P47205 1.9 X-RAY DIFFRACTION 26 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 288 294 2ves-a1-m1-cA_2ves-a1-m1-cC 2ves-a1-m1-cB_2ves-a1-m1-cC MIKQRTLKNIIRATGVGLHSGEKVYLTLKPAPVDTGIVFSRTDLDPVVEIPARAENVGETTMSTTLVKGDVKVDTVEHLLSAMAGLGIDNAYVELSASEVPIMDGSAGPFVFLIQSAGLQEQEAAKKFIRIKREVSVEEGDKRAVFVPFDGFKVSFEIDFDHPVFRGRTQQASVDFSSTSFVKEVSRARTFGFMRDIEYLRSQNLALGGSVENAIVVDENRVLNEDGLRYEDEFVKHKILDAIGDLYLLGNSLIGEFRGFKSGHALNNQLLRTLIADKDAWEVVTFED MIKQRTLKNIIRATGVGLHSGEKVYLTLKPAPVDTGIVFSRTDLDPVVEIPARAENVGETTMSTTLVKGDVKVDTVEHLLSAMAGLGIDNAYVELSASEVPIMDGSAGPFVFLIQSAGLQEQEAAKKFIRIKREVSVEEGDKRAVFVPFDGFKVSFEIDFDHPVFRGRTQQASVDFSSTSFVKEVSRARTFGFMRDIEYLRSQNLALGGSVENAIVVDENRVLNEDGLRYEDEFVKHKILDAIGDLYLLGNSLIGEFRGFKSGHALNNQLLRTLIADKDAWEVVTFEDARTAPI 2vf1-a1-m10-cA_2vf1-a1-m9-cB X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 23 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cB_2vf1-a1-m6-cA 2vf1-a1-m11-cA_2vf1-a1-m15-cB 2vf1-a1-m11-cB_2vf1-a1-m12-cA 2vf1-a1-m12-cB_2vf1-a1-m13-cA 2vf1-a1-m13-cB_2vf1-a1-m14-cA 2vf1-a1-m14-cB_2vf1-a1-m15-cA 2vf1-a1-m16-cA_2vf1-a1-m20-cB 2vf1-a1-m16-cB_2vf1-a1-m17-cA 2vf1-a1-m17-cB_2vf1-a1-m18-cA 2vf1-a1-m18-cB_2vf1-a1-m19-cA 2vf1-a1-m19-cB_2vf1-a1-m20-cA 2vf1-a1-m1-cA_2vf1-a1-m5-cB 2vf1-a1-m1-cB_2vf1-a1-m2-cA 2vf1-a1-m21-cA_2vf1-a1-m25-cB 2vf1-a1-m21-cB_2vf1-a1-m22-cA 2vf1-a1-m22-cB_2vf1-a1-m23-cA 2vf1-a1-m23-cB_2vf1-a1-m24-cA 2vf1-a1-m24-cB_2vf1-a1-m25-cA 2vf1-a1-m26-cA_2vf1-a1-m30-cB 2vf1-a1-m26-cB_2vf1-a1-m27-cA 2vf1-a1-m27-cB_2vf1-a1-m28-cA 2vf1-a1-m28-cB_2vf1-a1-m29-cA 2vf1-a1-m29-cB_2vf1-a1-m30-cA 2vf1-a1-m2-cB_2vf1-a1-m3-cA 2vf1-a1-m31-cA_2vf1-a1-m35-cB 2vf1-a1-m31-cB_2vf1-a1-m32-cA 2vf1-a1-m32-cB_2vf1-a1-m33-cA 2vf1-a1-m33-cB_2vf1-a1-m34-cA 2vf1-a1-m34-cB_2vf1-a1-m35-cA 2vf1-a1-m36-cA_2vf1-a1-m40-cB 2vf1-a1-m36-cB_2vf1-a1-m37-cA 2vf1-a1-m37-cB_2vf1-a1-m38-cA 2vf1-a1-m38-cB_2vf1-a1-m39-cA 2vf1-a1-m39-cB_2vf1-a1-m40-cA 2vf1-a1-m3-cB_2vf1-a1-m4-cA 2vf1-a1-m41-cA_2vf1-a1-m45-cB 2vf1-a1-m41-cB_2vf1-a1-m42-cA 2vf1-a1-m42-cB_2vf1-a1-m43-cA 2vf1-a1-m43-cB_2vf1-a1-m44-cA 2vf1-a1-m44-cB_2vf1-a1-m45-cA 2vf1-a1-m46-cA_2vf1-a1-m50-cB 2vf1-a1-m46-cB_2vf1-a1-m47-cA 2vf1-a1-m47-cB_2vf1-a1-m48-cA 2vf1-a1-m48-cB_2vf1-a1-m49-cA 2vf1-a1-m49-cB_2vf1-a1-m50-cA 2vf1-a1-m4-cB_2vf1-a1-m5-cA 2vf1-a1-m51-cA_2vf1-a1-m55-cB 2vf1-a1-m51-cB_2vf1-a1-m52-cA 2vf1-a1-m52-cB_2vf1-a1-m53-cA 2vf1-a1-m53-cB_2vf1-a1-m54-cA 2vf1-a1-m54-cB_2vf1-a1-m55-cA 2vf1-a1-m56-cA_2vf1-a1-m60-cB 2vf1-a1-m56-cB_2vf1-a1-m57-cA 2vf1-a1-m57-cB_2vf1-a1-m58-cA 2vf1-a1-m58-cB_2vf1-a1-m59-cA 2vf1-a1-m59-cB_2vf1-a1-m60-cA 2vf1-a1-m6-cB_2vf1-a1-m7-cA 2vf1-a1-m7-cB_2vf1-a1-m8-cA 2vf1-a1-m8-cB_2vf1-a1-m9-cA DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf1-a1-m54-cB_2vf1-a1-m9-cB X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 83 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cB_2vf1-a1-m23-cB 2vf1-a1-m11-cB_2vf1-a1-m20-cB 2vf1-a1-m11-cB_2vf1-a1-m38-cB 2vf1-a1-m12-cB_2vf1-a1-m37-cB 2vf1-a1-m12-cB_2vf1-a1-m47-cB 2vf1-a1-m13-cB_2vf1-a1-m45-cB 2vf1-a1-m13-cB_2vf1-a1-m46-cB 2vf1-a1-m14-cB_2vf1-a1-m29-cB 2vf1-a1-m14-cB_2vf1-a1-m44-cB 2vf1-a1-m15-cB_2vf1-a1-m16-cB 2vf1-a1-m15-cB_2vf1-a1-m28-cB 2vf1-a1-m16-cB_2vf1-a1-m28-cB 2vf1-a1-m17-cB_2vf1-a1-m27-cB 2vf1-a1-m17-cB_2vf1-a1-m52-cB 2vf1-a1-m18-cB_2vf1-a1-m51-cB 2vf1-a1-m18-cB_2vf1-a1-m60-cB 2vf1-a1-m19-cB_2vf1-a1-m39-cB 2vf1-a1-m19-cB_2vf1-a1-m59-cB 2vf1-a1-m1-cB_2vf1-a1-m10-cB 2vf1-a1-m1-cB_2vf1-a1-m23-cB 2vf1-a1-m20-cB_2vf1-a1-m38-cB 2vf1-a1-m21-cB_2vf1-a1-m30-cB 2vf1-a1-m21-cB_2vf1-a1-m43-cB 2vf1-a1-m22-cB_2vf1-a1-m42-cB 2vf1-a1-m24-cB_2vf1-a1-m54-cB 2vf1-a1-m24-cB_2vf1-a1-m9-cB 2vf1-a1-m25-cB_2vf1-a1-m26-cB 2vf1-a1-m25-cB_2vf1-a1-m53-cB 2vf1-a1-m26-cB_2vf1-a1-m53-cB 2vf1-a1-m27-cB_2vf1-a1-m52-cB 2vf1-a1-m29-cB_2vf1-a1-m44-cB 2vf1-a1-m2-cB_2vf1-a1-m22-cB 2vf1-a1-m2-cB_2vf1-a1-m42-cB 2vf1-a1-m30-cB_2vf1-a1-m43-cB 2vf1-a1-m31-cB_2vf1-a1-m40-cB 2vf1-a1-m31-cB_2vf1-a1-m58-cB 2vf1-a1-m32-cB_2vf1-a1-m57-cB 2vf1-a1-m32-cB_2vf1-a1-m7-cB 2vf1-a1-m33-cB_2vf1-a1-m5-cB 2vf1-a1-m33-cB_2vf1-a1-m6-cB 2vf1-a1-m34-cB_2vf1-a1-m49-cB 2vf1-a1-m34-cB_2vf1-a1-m4-cB 2vf1-a1-m35-cB_2vf1-a1-m36-cB 2vf1-a1-m35-cB_2vf1-a1-m48-cB 2vf1-a1-m36-cB_2vf1-a1-m48-cB 2vf1-a1-m37-cB_2vf1-a1-m47-cB 2vf1-a1-m39-cB_2vf1-a1-m59-cB 2vf1-a1-m3-cB_2vf1-a1-m41-cB 2vf1-a1-m3-cB_2vf1-a1-m50-cB 2vf1-a1-m40-cB_2vf1-a1-m58-cB 2vf1-a1-m41-cB_2vf1-a1-m50-cB 2vf1-a1-m45-cB_2vf1-a1-m46-cB 2vf1-a1-m4-cB_2vf1-a1-m49-cB 2vf1-a1-m51-cB_2vf1-a1-m60-cB 2vf1-a1-m55-cB_2vf1-a1-m56-cB 2vf1-a1-m55-cB_2vf1-a1-m8-cB 2vf1-a1-m56-cB_2vf1-a1-m8-cB 2vf1-a1-m57-cB_2vf1-a1-m7-cB 2vf1-a1-m5-cB_2vf1-a1-m6-cB DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf1-a1-m55-cA_2vf1-a1-m9-cA X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 33 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cA_2vf1-a1-m24-cA 2vf1-a1-m11-cA_2vf1-a1-m16-cA 2vf1-a1-m12-cA_2vf1-a1-m38-cA 2vf1-a1-m13-cA_2vf1-a1-m47-cA 2vf1-a1-m14-cA_2vf1-a1-m45-cA 2vf1-a1-m15-cA_2vf1-a1-m29-cA 2vf1-a1-m17-cA_2vf1-a1-m28-cA 2vf1-a1-m18-cA_2vf1-a1-m52-cA 2vf1-a1-m19-cA_2vf1-a1-m60-cA 2vf1-a1-m1-cA_2vf1-a1-m6-cA 2vf1-a1-m20-cA_2vf1-a1-m39-cA 2vf1-a1-m21-cA_2vf1-a1-m26-cA 2vf1-a1-m22-cA_2vf1-a1-m43-cA 2vf1-a1-m25-cA_2vf1-a1-m54-cA 2vf1-a1-m27-cA_2vf1-a1-m53-cA 2vf1-a1-m2-cA_2vf1-a1-m23-cA 2vf1-a1-m30-cA_2vf1-a1-m44-cA 2vf1-a1-m31-cA_2vf1-a1-m36-cA 2vf1-a1-m32-cA_2vf1-a1-m58-cA 2vf1-a1-m33-cA_2vf1-a1-m7-cA 2vf1-a1-m34-cA_2vf1-a1-m5-cA 2vf1-a1-m35-cA_2vf1-a1-m49-cA 2vf1-a1-m37-cA_2vf1-a1-m48-cA 2vf1-a1-m3-cA_2vf1-a1-m42-cA 2vf1-a1-m40-cA_2vf1-a1-m59-cA 2vf1-a1-m41-cA_2vf1-a1-m46-cA 2vf1-a1-m4-cA_2vf1-a1-m50-cA 2vf1-a1-m51-cA_2vf1-a1-m56-cA 2vf1-a1-m57-cA_2vf1-a1-m8-cA DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf1-a1-m55-cA_2vf1-a1-m9-cB X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 98 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cA_2vf1-a1-m24-cB 2vf1-a1-m10-cB_2vf1-a1-m24-cA 2vf1-a1-m11-cA_2vf1-a1-m16-cB 2vf1-a1-m11-cB_2vf1-a1-m16-cA 2vf1-a1-m12-cA_2vf1-a1-m38-cB 2vf1-a1-m12-cB_2vf1-a1-m38-cA 2vf1-a1-m13-cA_2vf1-a1-m47-cB 2vf1-a1-m13-cB_2vf1-a1-m47-cA 2vf1-a1-m14-cA_2vf1-a1-m45-cB 2vf1-a1-m14-cB_2vf1-a1-m45-cA 2vf1-a1-m15-cA_2vf1-a1-m29-cB 2vf1-a1-m15-cB_2vf1-a1-m29-cA 2vf1-a1-m17-cA_2vf1-a1-m28-cB 2vf1-a1-m17-cB_2vf1-a1-m28-cA 2vf1-a1-m18-cA_2vf1-a1-m52-cB 2vf1-a1-m18-cB_2vf1-a1-m52-cA 2vf1-a1-m19-cA_2vf1-a1-m60-cB 2vf1-a1-m19-cB_2vf1-a1-m60-cA 2vf1-a1-m1-cA_2vf1-a1-m6-cB 2vf1-a1-m1-cB_2vf1-a1-m6-cA 2vf1-a1-m20-cA_2vf1-a1-m39-cB 2vf1-a1-m20-cB_2vf1-a1-m39-cA 2vf1-a1-m21-cA_2vf1-a1-m26-cB 2vf1-a1-m21-cB_2vf1-a1-m26-cA 2vf1-a1-m22-cA_2vf1-a1-m43-cB 2vf1-a1-m22-cB_2vf1-a1-m43-cA 2vf1-a1-m25-cA_2vf1-a1-m54-cB 2vf1-a1-m25-cB_2vf1-a1-m54-cA 2vf1-a1-m27-cA_2vf1-a1-m53-cB 2vf1-a1-m27-cB_2vf1-a1-m53-cA 2vf1-a1-m2-cA_2vf1-a1-m23-cB 2vf1-a1-m2-cB_2vf1-a1-m23-cA 2vf1-a1-m30-cA_2vf1-a1-m44-cB 2vf1-a1-m30-cB_2vf1-a1-m44-cA 2vf1-a1-m31-cA_2vf1-a1-m36-cB 2vf1-a1-m31-cB_2vf1-a1-m36-cA 2vf1-a1-m32-cA_2vf1-a1-m58-cB 2vf1-a1-m32-cB_2vf1-a1-m58-cA 2vf1-a1-m33-cA_2vf1-a1-m7-cB 2vf1-a1-m33-cB_2vf1-a1-m7-cA 2vf1-a1-m34-cA_2vf1-a1-m5-cB 2vf1-a1-m34-cB_2vf1-a1-m5-cA 2vf1-a1-m35-cA_2vf1-a1-m49-cB 2vf1-a1-m35-cB_2vf1-a1-m49-cA 2vf1-a1-m37-cA_2vf1-a1-m48-cB 2vf1-a1-m37-cB_2vf1-a1-m48-cA 2vf1-a1-m3-cA_2vf1-a1-m42-cB 2vf1-a1-m3-cB_2vf1-a1-m42-cA 2vf1-a1-m40-cA_2vf1-a1-m59-cB 2vf1-a1-m40-cB_2vf1-a1-m59-cA 2vf1-a1-m41-cA_2vf1-a1-m46-cB 2vf1-a1-m41-cB_2vf1-a1-m46-cA 2vf1-a1-m4-cA_2vf1-a1-m50-cB 2vf1-a1-m4-cB_2vf1-a1-m50-cA 2vf1-a1-m51-cA_2vf1-a1-m56-cB 2vf1-a1-m51-cB_2vf1-a1-m56-cA 2vf1-a1-m55-cB_2vf1-a1-m9-cA 2vf1-a1-m57-cA_2vf1-a1-m8-cB 2vf1-a1-m57-cB_2vf1-a1-m8-cA DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf1-a1-m55-cB_2vf1-a1-m9-cB X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 10 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cB_2vf1-a1-m24-cB 2vf1-a1-m11-cB_2vf1-a1-m16-cB 2vf1-a1-m12-cB_2vf1-a1-m38-cB 2vf1-a1-m13-cB_2vf1-a1-m47-cB 2vf1-a1-m14-cB_2vf1-a1-m45-cB 2vf1-a1-m15-cB_2vf1-a1-m29-cB 2vf1-a1-m17-cB_2vf1-a1-m28-cB 2vf1-a1-m18-cB_2vf1-a1-m52-cB 2vf1-a1-m19-cB_2vf1-a1-m60-cB 2vf1-a1-m1-cB_2vf1-a1-m6-cB 2vf1-a1-m20-cB_2vf1-a1-m39-cB 2vf1-a1-m21-cB_2vf1-a1-m26-cB 2vf1-a1-m22-cB_2vf1-a1-m43-cB 2vf1-a1-m25-cB_2vf1-a1-m54-cB 2vf1-a1-m27-cB_2vf1-a1-m53-cB 2vf1-a1-m2-cB_2vf1-a1-m23-cB 2vf1-a1-m30-cB_2vf1-a1-m44-cB 2vf1-a1-m31-cB_2vf1-a1-m36-cB 2vf1-a1-m32-cB_2vf1-a1-m58-cB 2vf1-a1-m33-cB_2vf1-a1-m7-cB 2vf1-a1-m34-cB_2vf1-a1-m5-cB 2vf1-a1-m35-cB_2vf1-a1-m49-cB 2vf1-a1-m37-cB_2vf1-a1-m48-cB 2vf1-a1-m3-cB_2vf1-a1-m42-cB 2vf1-a1-m40-cB_2vf1-a1-m59-cB 2vf1-a1-m41-cB_2vf1-a1-m46-cB 2vf1-a1-m4-cB_2vf1-a1-m50-cB 2vf1-a1-m51-cB_2vf1-a1-m56-cB 2vf1-a1-m57-cB_2vf1-a1-m8-cB DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf1-a1-m8-cA_2vf1-a1-m9-cA X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 91 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cA_2vf1-a1-m6-cA 2vf1-a1-m10-cA_2vf1-a1-m9-cA 2vf1-a1-m11-cA_2vf1-a1-m12-cA 2vf1-a1-m11-cA_2vf1-a1-m15-cA 2vf1-a1-m12-cA_2vf1-a1-m13-cA 2vf1-a1-m13-cA_2vf1-a1-m14-cA 2vf1-a1-m14-cA_2vf1-a1-m15-cA 2vf1-a1-m16-cA_2vf1-a1-m17-cA 2vf1-a1-m16-cA_2vf1-a1-m20-cA 2vf1-a1-m17-cA_2vf1-a1-m18-cA 2vf1-a1-m18-cA_2vf1-a1-m19-cA 2vf1-a1-m19-cA_2vf1-a1-m20-cA 2vf1-a1-m1-cA_2vf1-a1-m2-cA 2vf1-a1-m1-cA_2vf1-a1-m5-cA 2vf1-a1-m21-cA_2vf1-a1-m22-cA 2vf1-a1-m21-cA_2vf1-a1-m25-cA 2vf1-a1-m22-cA_2vf1-a1-m23-cA 2vf1-a1-m23-cA_2vf1-a1-m24-cA 2vf1-a1-m24-cA_2vf1-a1-m25-cA 2vf1-a1-m26-cA_2vf1-a1-m27-cA 2vf1-a1-m26-cA_2vf1-a1-m30-cA 2vf1-a1-m27-cA_2vf1-a1-m28-cA 2vf1-a1-m28-cA_2vf1-a1-m29-cA 2vf1-a1-m29-cA_2vf1-a1-m30-cA 2vf1-a1-m2-cA_2vf1-a1-m3-cA 2vf1-a1-m31-cA_2vf1-a1-m32-cA 2vf1-a1-m31-cA_2vf1-a1-m35-cA 2vf1-a1-m32-cA_2vf1-a1-m33-cA 2vf1-a1-m33-cA_2vf1-a1-m34-cA 2vf1-a1-m34-cA_2vf1-a1-m35-cA 2vf1-a1-m36-cA_2vf1-a1-m37-cA 2vf1-a1-m36-cA_2vf1-a1-m40-cA 2vf1-a1-m37-cA_2vf1-a1-m38-cA 2vf1-a1-m38-cA_2vf1-a1-m39-cA 2vf1-a1-m39-cA_2vf1-a1-m40-cA 2vf1-a1-m3-cA_2vf1-a1-m4-cA 2vf1-a1-m41-cA_2vf1-a1-m42-cA 2vf1-a1-m41-cA_2vf1-a1-m45-cA 2vf1-a1-m42-cA_2vf1-a1-m43-cA 2vf1-a1-m43-cA_2vf1-a1-m44-cA 2vf1-a1-m44-cA_2vf1-a1-m45-cA 2vf1-a1-m46-cA_2vf1-a1-m47-cA 2vf1-a1-m46-cA_2vf1-a1-m50-cA 2vf1-a1-m47-cA_2vf1-a1-m48-cA 2vf1-a1-m48-cA_2vf1-a1-m49-cA 2vf1-a1-m49-cA_2vf1-a1-m50-cA 2vf1-a1-m4-cA_2vf1-a1-m5-cA 2vf1-a1-m51-cA_2vf1-a1-m52-cA 2vf1-a1-m51-cA_2vf1-a1-m55-cA 2vf1-a1-m52-cA_2vf1-a1-m53-cA 2vf1-a1-m53-cA_2vf1-a1-m54-cA 2vf1-a1-m54-cA_2vf1-a1-m55-cA 2vf1-a1-m56-cA_2vf1-a1-m57-cA 2vf1-a1-m56-cA_2vf1-a1-m60-cA 2vf1-a1-m57-cA_2vf1-a1-m58-cA 2vf1-a1-m58-cA_2vf1-a1-m59-cA 2vf1-a1-m59-cA_2vf1-a1-m60-cA 2vf1-a1-m6-cA_2vf1-a1-m7-cA 2vf1-a1-m7-cA_2vf1-a1-m8-cA DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf1-a1-m9-cA_2vf1-a1-m9-cB X-ray crystallographic structure of the picobirnavirus capsid Q9Q1V2 Q9Q1V2 3.4 X-RAY DIFFRACTION 435 1.0 104395 (Rabbit picobirnavirus) 104395 (Rabbit picobirnavirus) 525 525 2vf1-a1-m10-cA_2vf1-a1-m10-cB 2vf1-a1-m11-cA_2vf1-a1-m11-cB 2vf1-a1-m12-cA_2vf1-a1-m12-cB 2vf1-a1-m13-cA_2vf1-a1-m13-cB 2vf1-a1-m14-cA_2vf1-a1-m14-cB 2vf1-a1-m15-cA_2vf1-a1-m15-cB 2vf1-a1-m16-cA_2vf1-a1-m16-cB 2vf1-a1-m17-cA_2vf1-a1-m17-cB 2vf1-a1-m18-cA_2vf1-a1-m18-cB 2vf1-a1-m19-cA_2vf1-a1-m19-cB 2vf1-a1-m1-cA_2vf1-a1-m1-cB 2vf1-a1-m20-cA_2vf1-a1-m20-cB 2vf1-a1-m21-cA_2vf1-a1-m21-cB 2vf1-a1-m22-cA_2vf1-a1-m22-cB 2vf1-a1-m23-cA_2vf1-a1-m23-cB 2vf1-a1-m24-cA_2vf1-a1-m24-cB 2vf1-a1-m25-cA_2vf1-a1-m25-cB 2vf1-a1-m26-cA_2vf1-a1-m26-cB 2vf1-a1-m27-cA_2vf1-a1-m27-cB 2vf1-a1-m28-cA_2vf1-a1-m28-cB 2vf1-a1-m29-cA_2vf1-a1-m29-cB 2vf1-a1-m2-cA_2vf1-a1-m2-cB 2vf1-a1-m30-cA_2vf1-a1-m30-cB 2vf1-a1-m31-cA_2vf1-a1-m31-cB 2vf1-a1-m32-cA_2vf1-a1-m32-cB 2vf1-a1-m33-cA_2vf1-a1-m33-cB 2vf1-a1-m34-cA_2vf1-a1-m34-cB 2vf1-a1-m35-cA_2vf1-a1-m35-cB 2vf1-a1-m36-cA_2vf1-a1-m36-cB 2vf1-a1-m37-cA_2vf1-a1-m37-cB 2vf1-a1-m38-cA_2vf1-a1-m38-cB 2vf1-a1-m39-cA_2vf1-a1-m39-cB 2vf1-a1-m3-cA_2vf1-a1-m3-cB 2vf1-a1-m40-cA_2vf1-a1-m40-cB 2vf1-a1-m41-cA_2vf1-a1-m41-cB 2vf1-a1-m42-cA_2vf1-a1-m42-cB 2vf1-a1-m43-cA_2vf1-a1-m43-cB 2vf1-a1-m44-cA_2vf1-a1-m44-cB 2vf1-a1-m45-cA_2vf1-a1-m45-cB 2vf1-a1-m46-cA_2vf1-a1-m46-cB 2vf1-a1-m47-cA_2vf1-a1-m47-cB 2vf1-a1-m48-cA_2vf1-a1-m48-cB 2vf1-a1-m49-cA_2vf1-a1-m49-cB 2vf1-a1-m4-cA_2vf1-a1-m4-cB 2vf1-a1-m50-cA_2vf1-a1-m50-cB 2vf1-a1-m51-cA_2vf1-a1-m51-cB 2vf1-a1-m52-cA_2vf1-a1-m52-cB 2vf1-a1-m53-cA_2vf1-a1-m53-cB 2vf1-a1-m54-cA_2vf1-a1-m54-cB 2vf1-a1-m55-cA_2vf1-a1-m55-cB 2vf1-a1-m56-cA_2vf1-a1-m56-cB 2vf1-a1-m57-cA_2vf1-a1-m57-cB 2vf1-a1-m58-cA_2vf1-a1-m58-cB 2vf1-a1-m59-cA_2vf1-a1-m59-cB 2vf1-a1-m5-cA_2vf1-a1-m5-cB 2vf1-a1-m60-cA_2vf1-a1-m60-cB 2vf1-a1-m6-cA_2vf1-a1-m6-cB 2vf1-a1-m7-cA_2vf1-a1-m7-cB 2vf1-a1-m8-cA_2vf1-a1-m8-cB DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST DWSWYAPSELVAKQIANVPFNVLAGTPIKASVHLRYDPSLVSGLKDQLFVGNNASIMGARLLYLPSFGISTTVLDGLSMAANQLYAYVRKSNSGAKVYEAPDLMMTVLAIQEAYRVLFEIRRAITFANYWNFWNKYLPKQVFEQLLAIDFDDLMSNKANYCAQFNLMAQKINTFALPKYFKSILRMAYVSSNIFMDSDAVTGQMYAFVSSGYYRYSATTSESGTSLVYRDWPVGAAMPRKLNRLFTVLRELLDAIYGDADAQTMFGDIYKAFGSDGLYSIAEISVDETSTPVFDVDILAQIENCTILEANAGLAWTLDSCNVTQSKGQVLLWQPTGTITSSDNTEHIAGDIAVALGDRVLNSHIMEPQYSDVLEWTRLMATIEFDKASVTSSEKVTFKVTSCGAELIRNVLYFKNVWNDAAEDASQRVITYFSHFSQITVTNATDDPTSAYGLMSNTLDFTQLDWHPIIYVTETSVHNVANLNSILIGGDLKRPTVITTDVVKRINSAANYALYYSANLLSNIST 2vf8-a1-m1-cA_2vf8-a1-m1-cB Crystal structure of UvrA2 from Deinococcus radiodurans Q9RYW8 Q9RYW8 3 X-RAY DIFFRACTION 78 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 806 835 2vf7-a1-m1-cB_2vf7-a1-m1-cA 2vf7-a2-m1-cC_2vf7-a2-m2-cC FPDGGFVQVRGARQHNLKDISVKVPRDALVVFTGVSGSGKSSLAFGTLYAEAQRRYLESVSPYARRLFNQVPDVDAIDGLPPAVALQQARGTPTARSSVGSVTTLSNLLRMLYSRAGDYPPGQGIVYAEGFSPNTPEGACPECHGLGRVYTVTEDSMVPDPSLTIRERAVAAWPQAWGGQNQRDILVTLGIDVDVPWRELPEETRHWILFTDEQPVVPVYPGLTPAETQRALKKKMEPSYMGTFSSARRHVLHTFANTESASMKKRVQGYMISEECPLCHGKRLRQEALNVTFAGLDITELSRLPLARVSELLRPYAEEREPGHAERVKNRPEQAIALQRMAADLVKRLDVLLHLGLGYLGLDRSTPTLSPGELQRLRLATQLYSNLFGVVYVLDEPSAGLHPADTEALLSALENLKRGGNSLFVVEHDLDVIRRADWLVDVGPEAGEKGGEILYSGPPEGLKHVPESQTGQYLFADEPHTPREPAGWLELNGVTRNNLDNLDVRFPLGVMTSVTGVSGSGKSTLVSQALVDALAAHFGQGSARLGGDLAQITRLVRVDQKPIGRTPRSNMATYTGLFDQVRKLFAATPLAKKRGYNAGRFSFNVKGGRCEHCQGEGWVMVPSVYAPCPVCHGTRYNAETLEVEYRGKNIADVLALTVDEAHDFFADESAIFRALDTLREVGLGYLRLGQPATELSGGEAQRIKLATELRRSGRGGTVYVLDEPTTGLHPADVERLQRQLVKLVDAGNTVIAVEHKMQVVAASDWVLDIGPGAGEDGGRLVAQGTPAEVAQAAGSVTAPYLRAALR PDFPDGGFVQVRGARQHNLKDISVKVPRDALVVFTGVSGSGKSSLAFGTLYAEAQRRYLESVSPYARRLFNQAGVPDVDAIDGLPPAVALQQARGTPTARSSVGSVTTLSNLLRMLYSRAGDYPPGQGIVYAEGFSPNTPEGACPECHGLGRVYTVTEDSMVPDPSLTIRERAVAAWPQAWGGQNQRDILVTLGIDVDVPWRELPEETRHWILFTDEQPVVPVYPGLTPAETQRALKKKMEPSYMGTFSSARRHVLHTFANTESASMKKRVQGYMISEECPLCHGKRLRQEALNVTFAGLDITELSRLPLARVSELLRPYAEEREPGHAERVKNRPEQAIALQRMAADLVKRLDVLLHLGLGYLGLDRSTPTLSPGELQRLRLATQLYSNLFGVVYVLDEPSAGLHPADTEALLSALENLKRGGNSLFVVEHDLDVIRRADWLVDVGPEAGEKGGEILYSGPPEGLKHVPESQTGQYLFADRHTEPHTPREPAGWLELNGVTRNNLDNLDVRFPLGVMTSVTGVSGSGKSTLVSQALVDALAAHFGQPVNPDPEDDEDPADHTAGSARLGGDLAQITRLVRVDQKPIGRTPRSNMATYTGLFDQVRKLFAATPLAKKRGYNAGRFSFNVKGGRCEHCQGEGWVMVELLFLPSVYAPCPVCHGTRYNAETLEVEYRGKNIADVLALTVDEAHDFFADESAIFRALDTLREVGLGYLRLGQPATELSGGEAQRIKLATELRRSGRGGTVYVLDEPTTGLHPADVERLQRQLVKLVDAGNTVIAVEHKMQVVAASDWVLDIGPGAGEDGGRLVAQGTPAEVAQAAGSVTAPYLRAALR 2vf9-a1-m55-cA_2vf9-a1-m9-cC Crystal structure of bacteriophage PRR1 P03616 P03616 3.5 X-RAY DIFFRACTION 24 1.0 12024 (Pseudomonas phage PRR1) 12024 (Pseudomonas phage PRR1) 131 131 2vf9-a1-m10-cA_2vf9-a1-m24-cC 2vf9-a1-m10-cA_2vf9-a1-m9-cC 2vf9-a1-m10-cB_2vf9-a1-m6-cB 2vf9-a1-m10-cB_2vf9-a1-m9-cB 2vf9-a1-m10-cC_2vf9-a1-m24-cA 2vf9-a1-m10-cC_2vf9-a1-m6-cA 2vf9-a1-m11-cA_2vf9-a1-m15-cC 2vf9-a1-m11-cA_2vf9-a1-m16-cC 2vf9-a1-m11-cB_2vf9-a1-m12-cB 2vf9-a1-m11-cB_2vf9-a1-m15-cB 2vf9-a1-m11-cC_2vf9-a1-m12-cA 2vf9-a1-m11-cC_2vf9-a1-m16-cA 2vf9-a1-m12-cA_2vf9-a1-m38-cC 2vf9-a1-m12-cB_2vf9-a1-m13-cB 2vf9-a1-m12-cC_2vf9-a1-m13-cA 2vf9-a1-m12-cC_2vf9-a1-m38-cA 2vf9-a1-m13-cA_2vf9-a1-m47-cC 2vf9-a1-m13-cB_2vf9-a1-m14-cB 2vf9-a1-m13-cC_2vf9-a1-m14-cA 2vf9-a1-m13-cC_2vf9-a1-m47-cA 2vf9-a1-m14-cA_2vf9-a1-m45-cC 2vf9-a1-m14-cB_2vf9-a1-m15-cB 2vf9-a1-m14-cC_2vf9-a1-m15-cA 2vf9-a1-m14-cC_2vf9-a1-m45-cA 2vf9-a1-m15-cA_2vf9-a1-m29-cC 2vf9-a1-m15-cC_2vf9-a1-m29-cA 2vf9-a1-m16-cA_2vf9-a1-m20-cC 2vf9-a1-m16-cB_2vf9-a1-m17-cB 2vf9-a1-m16-cB_2vf9-a1-m20-cB 2vf9-a1-m16-cC_2vf9-a1-m17-cA 2vf9-a1-m17-cA_2vf9-a1-m28-cC 2vf9-a1-m17-cB_2vf9-a1-m18-cB 2vf9-a1-m17-cC_2vf9-a1-m18-cA 2vf9-a1-m17-cC_2vf9-a1-m28-cA 2vf9-a1-m18-cA_2vf9-a1-m52-cC 2vf9-a1-m18-cB_2vf9-a1-m19-cB 2vf9-a1-m18-cC_2vf9-a1-m19-cA 2vf9-a1-m18-cC_2vf9-a1-m52-cA 2vf9-a1-m19-cA_2vf9-a1-m60-cC 2vf9-a1-m19-cB_2vf9-a1-m20-cB 2vf9-a1-m19-cC_2vf9-a1-m20-cA 2vf9-a1-m19-cC_2vf9-a1-m60-cA 2vf9-a1-m1-cA_2vf9-a1-m5-cC 2vf9-a1-m1-cA_2vf9-a1-m6-cC 2vf9-a1-m1-cB_2vf9-a1-m2-cB 2vf9-a1-m1-cB_2vf9-a1-m5-cB 2vf9-a1-m1-cC_2vf9-a1-m2-cA 2vf9-a1-m1-cC_2vf9-a1-m6-cA 2vf9-a1-m20-cA_2vf9-a1-m39-cC 2vf9-a1-m20-cC_2vf9-a1-m39-cA 2vf9-a1-m21-cA_2vf9-a1-m25-cC 2vf9-a1-m21-cA_2vf9-a1-m26-cC 2vf9-a1-m21-cB_2vf9-a1-m22-cB 2vf9-a1-m21-cB_2vf9-a1-m25-cB 2vf9-a1-m21-cC_2vf9-a1-m22-cA 2vf9-a1-m21-cC_2vf9-a1-m26-cA 2vf9-a1-m22-cA_2vf9-a1-m43-cC 2vf9-a1-m22-cB_2vf9-a1-m23-cB 2vf9-a1-m22-cC_2vf9-a1-m23-cA 2vf9-a1-m22-cC_2vf9-a1-m43-cA 2vf9-a1-m23-cB_2vf9-a1-m24-cB 2vf9-a1-m23-cC_2vf9-a1-m24-cA 2vf9-a1-m24-cB_2vf9-a1-m25-cB 2vf9-a1-m24-cC_2vf9-a1-m25-cA 2vf9-a1-m25-cA_2vf9-a1-m54-cC 2vf9-a1-m25-cC_2vf9-a1-m54-cA 2vf9-a1-m26-cA_2vf9-a1-m30-cC 2vf9-a1-m26-cB_2vf9-a1-m27-cB 2vf9-a1-m26-cB_2vf9-a1-m30-cB 2vf9-a1-m26-cC_2vf9-a1-m27-cA 2vf9-a1-m27-cA_2vf9-a1-m53-cC 2vf9-a1-m27-cB_2vf9-a1-m28-cB 2vf9-a1-m27-cC_2vf9-a1-m28-cA 2vf9-a1-m27-cC_2vf9-a1-m53-cA 2vf9-a1-m28-cB_2vf9-a1-m29-cB 2vf9-a1-m28-cC_2vf9-a1-m29-cA 2vf9-a1-m29-cB_2vf9-a1-m30-cB 2vf9-a1-m29-cC_2vf9-a1-m30-cA 2vf9-a1-m2-cA_2vf9-a1-m23-cC 2vf9-a1-m2-cB_2vf9-a1-m3-cB 2vf9-a1-m2-cC_2vf9-a1-m23-cA 2vf9-a1-m2-cC_2vf9-a1-m3-cA 2vf9-a1-m30-cA_2vf9-a1-m44-cC 2vf9-a1-m30-cC_2vf9-a1-m44-cA 2vf9-a1-m31-cA_2vf9-a1-m35-cC 2vf9-a1-m31-cA_2vf9-a1-m36-cC 2vf9-a1-m31-cB_2vf9-a1-m32-cB 2vf9-a1-m31-cB_2vf9-a1-m35-cB 2vf9-a1-m31-cC_2vf9-a1-m32-cA 2vf9-a1-m31-cC_2vf9-a1-m36-cA 2vf9-a1-m32-cA_2vf9-a1-m58-cC 2vf9-a1-m32-cB_2vf9-a1-m33-cB 2vf9-a1-m32-cC_2vf9-a1-m33-cA 2vf9-a1-m32-cC_2vf9-a1-m58-cA 2vf9-a1-m33-cA_2vf9-a1-m7-cC 2vf9-a1-m33-cB_2vf9-a1-m34-cB 2vf9-a1-m33-cC_2vf9-a1-m34-cA 2vf9-a1-m33-cC_2vf9-a1-m7-cA 2vf9-a1-m34-cA_2vf9-a1-m5-cC 2vf9-a1-m34-cB_2vf9-a1-m35-cB 2vf9-a1-m34-cC_2vf9-a1-m35-cA 2vf9-a1-m34-cC_2vf9-a1-m5-cA 2vf9-a1-m35-cA_2vf9-a1-m49-cC 2vf9-a1-m35-cC_2vf9-a1-m49-cA 2vf9-a1-m36-cA_2vf9-a1-m40-cC 2vf9-a1-m36-cB_2vf9-a1-m37-cB 2vf9-a1-m36-cB_2vf9-a1-m40-cB 2vf9-a1-m36-cC_2vf9-a1-m37-cA 2vf9-a1-m37-cA_2vf9-a1-m48-cC 2vf9-a1-m37-cB_2vf9-a1-m38-cB 2vf9-a1-m37-cC_2vf9-a1-m38-cA 2vf9-a1-m37-cC_2vf9-a1-m48-cA 2vf9-a1-m38-cB_2vf9-a1-m39-cB 2vf9-a1-m38-cC_2vf9-a1-m39-cA 2vf9-a1-m39-cB_2vf9-a1-m40-cB 2vf9-a1-m39-cC_2vf9-a1-m40-cA 2vf9-a1-m3-cA_2vf9-a1-m42-cC 2vf9-a1-m3-cB_2vf9-a1-m4-cB 2vf9-a1-m3-cC_2vf9-a1-m42-cA 2vf9-a1-m3-cC_2vf9-a1-m4-cA 2vf9-a1-m40-cA_2vf9-a1-m59-cC 2vf9-a1-m40-cC_2vf9-a1-m59-cA 2vf9-a1-m41-cA_2vf9-a1-m45-cC 2vf9-a1-m41-cA_2vf9-a1-m46-cC 2vf9-a1-m41-cB_2vf9-a1-m42-cB 2vf9-a1-m41-cB_2vf9-a1-m45-cB 2vf9-a1-m41-cC_2vf9-a1-m42-cA 2vf9-a1-m41-cC_2vf9-a1-m46-cA 2vf9-a1-m42-cB_2vf9-a1-m43-cB 2vf9-a1-m42-cC_2vf9-a1-m43-cA 2vf9-a1-m43-cB_2vf9-a1-m44-cB 2vf9-a1-m43-cC_2vf9-a1-m44-cA 2vf9-a1-m44-cB_2vf9-a1-m45-cB 2vf9-a1-m44-cC_2vf9-a1-m45-cA 2vf9-a1-m46-cA_2vf9-a1-m50-cC 2vf9-a1-m46-cB_2vf9-a1-m47-cB 2vf9-a1-m46-cB_2vf9-a1-m50-cB 2vf9-a1-m46-cC_2vf9-a1-m47-cA 2vf9-a1-m47-cB_2vf9-a1-m48-cB 2vf9-a1-m47-cC_2vf9-a1-m48-cA 2vf9-a1-m48-cB_2vf9-a1-m49-cB 2vf9-a1-m48-cC_2vf9-a1-m49-cA 2vf9-a1-m49-cB_2vf9-a1-m50-cB 2vf9-a1-m49-cC_2vf9-a1-m50-cA 2vf9-a1-m4-cA_2vf9-a1-m50-cC 2vf9-a1-m4-cB_2vf9-a1-m5-cB 2vf9-a1-m4-cC_2vf9-a1-m50-cA 2vf9-a1-m4-cC_2vf9-a1-m5-cA 2vf9-a1-m51-cA_2vf9-a1-m55-cC 2vf9-a1-m51-cA_2vf9-a1-m56-cC 2vf9-a1-m51-cB_2vf9-a1-m52-cB 2vf9-a1-m51-cB_2vf9-a1-m55-cB 2vf9-a1-m51-cC_2vf9-a1-m52-cA 2vf9-a1-m51-cC_2vf9-a1-m56-cA 2vf9-a1-m52-cB_2vf9-a1-m53-cB 2vf9-a1-m52-cC_2vf9-a1-m53-cA 2vf9-a1-m53-cB_2vf9-a1-m54-cB 2vf9-a1-m53-cC_2vf9-a1-m54-cA 2vf9-a1-m54-cB_2vf9-a1-m55-cB 2vf9-a1-m54-cC_2vf9-a1-m55-cA 2vf9-a1-m55-cC_2vf9-a1-m9-cA 2vf9-a1-m56-cA_2vf9-a1-m60-cC 2vf9-a1-m56-cB_2vf9-a1-m57-cB 2vf9-a1-m56-cB_2vf9-a1-m60-cB 2vf9-a1-m56-cC_2vf9-a1-m57-cA 2vf9-a1-m57-cA_2vf9-a1-m8-cC 2vf9-a1-m57-cB_2vf9-a1-m58-cB 2vf9-a1-m57-cC_2vf9-a1-m58-cA 2vf9-a1-m57-cC_2vf9-a1-m8-cA 2vf9-a1-m58-cB_2vf9-a1-m59-cB 2vf9-a1-m58-cC_2vf9-a1-m59-cA 2vf9-a1-m59-cB_2vf9-a1-m60-cB 2vf9-a1-m59-cC_2vf9-a1-m60-cA 2vf9-a1-m6-cB_2vf9-a1-m7-cB 2vf9-a1-m6-cC_2vf9-a1-m7-cA 2vf9-a1-m7-cB_2vf9-a1-m8-cB 2vf9-a1-m7-cC_2vf9-a1-m8-cA 2vf9-a1-m8-cB_2vf9-a1-m9-cB 2vf9-a1-m8-cC_2vf9-a1-m9-cA 4ang-a1-m10-cA_4ang-a1-m24-cC 4ang-a1-m10-cA_4ang-a1-m9-cC 4ang-a1-m10-cB_4ang-a1-m6-cB 4ang-a1-m10-cB_4ang-a1-m9-cB 4ang-a1-m10-cC_4ang-a1-m24-cA 4ang-a1-m10-cC_4ang-a1-m6-cA 4ang-a1-m11-cA_4ang-a1-m15-cC 4ang-a1-m11-cA_4ang-a1-m16-cC 4ang-a1-m11-cB_4ang-a1-m12-cB 4ang-a1-m11-cB_4ang-a1-m15-cB 4ang-a1-m11-cC_4ang-a1-m12-cA 4ang-a1-m11-cC_4ang-a1-m16-cA 4ang-a1-m12-cA_4ang-a1-m38-cC 4ang-a1-m12-cB_4ang-a1-m13-cB 4ang-a1-m12-cC_4ang-a1-m13-cA 4ang-a1-m12-cC_4ang-a1-m38-cA 4ang-a1-m13-cA_4ang-a1-m47-cC 4ang-a1-m13-cB_4ang-a1-m14-cB 4ang-a1-m13-cC_4ang-a1-m14-cA 4ang-a1-m13-cC_4ang-a1-m47-cA 4ang-a1-m14-cA_4ang-a1-m45-cC 4ang-a1-m14-cB_4ang-a1-m15-cB 4ang-a1-m14-cC_4ang-a1-m15-cA 4ang-a1-m14-cC_4ang-a1-m45-cA 4ang-a1-m15-cA_4ang-a1-m29-cC 4ang-a1-m15-cC_4ang-a1-m29-cA 4ang-a1-m16-cA_4ang-a1-m20-cC 4ang-a1-m16-cB_4ang-a1-m17-cB 4ang-a1-m16-cB_4ang-a1-m20-cB 4ang-a1-m16-cC_4ang-a1-m17-cA 4ang-a1-m17-cA_4ang-a1-m28-cC 4ang-a1-m17-cB_4ang-a1-m18-cB 4ang-a1-m17-cC_4ang-a1-m18-cA 4ang-a1-m17-cC_4ang-a1-m28-cA 4ang-a1-m18-cA_4ang-a1-m52-cC 4ang-a1-m18-cB_4ang-a1-m19-cB 4ang-a1-m18-cC_4ang-a1-m19-cA 4ang-a1-m18-cC_4ang-a1-m52-cA 4ang-a1-m19-cA_4ang-a1-m60-cC 4ang-a1-m19-cB_4ang-a1-m20-cB 4ang-a1-m19-cC_4ang-a1-m20-cA 4ang-a1-m19-cC_4ang-a1-m60-cA 4ang-a1-m1-cA_4ang-a1-m5-cC 4ang-a1-m1-cA_4ang-a1-m6-cC 4ang-a1-m1-cB_4ang-a1-m2-cB 4ang-a1-m1-cB_4ang-a1-m5-cB 4ang-a1-m1-cC_4ang-a1-m2-cA 4ang-a1-m1-cC_4ang-a1-m6-cA 4ang-a1-m20-cA_4ang-a1-m39-cC 4ang-a1-m20-cC_4ang-a1-m39-cA 4ang-a1-m21-cA_4ang-a1-m25-cC 4ang-a1-m21-cA_4ang-a1-m26-cC 4ang-a1-m21-cB_4ang-a1-m22-cB 4ang-a1-m21-cB_4ang-a1-m25-cB 4ang-a1-m21-cC_4ang-a1-m22-cA 4ang-a1-m21-cC_4ang-a1-m26-cA 4ang-a1-m22-cA_4ang-a1-m43-cC 4ang-a1-m22-cB_4ang-a1-m23-cB 4ang-a1-m22-cC_4ang-a1-m23-cA 4ang-a1-m22-cC_4ang-a1-m43-cA 4ang-a1-m23-cB_4ang-a1-m24-cB 4ang-a1-m23-cC_4ang-a1-m24-cA 4ang-a1-m24-cB_4ang-a1-m25-cB 4ang-a1-m24-cC_4ang-a1-m25-cA 4ang-a1-m25-cA_4ang-a1-m54-cC 4ang-a1-m25-cC_4ang-a1-m54-cA 4ang-a1-m26-cA_4ang-a1-m30-cC 4ang-a1-m26-cB_4ang-a1-m27-cB 4ang-a1-m26-cB_4ang-a1-m30-cB 4ang-a1-m26-cC_4ang-a1-m27-cA 4ang-a1-m27-cA_4ang-a1-m53-cC 4ang-a1-m27-cB_4ang-a1-m28-cB 4ang-a1-m27-cC_4ang-a1-m28-cA 4ang-a1-m27-cC_4ang-a1-m53-cA 4ang-a1-m28-cB_4ang-a1-m29-cB 4ang-a1-m28-cC_4ang-a1-m29-cA 4ang-a1-m29-cB_4ang-a1-m30-cB 4ang-a1-m29-cC_4ang-a1-m30-cA 4ang-a1-m2-cA_4ang-a1-m23-cC 4ang-a1-m2-cB_4ang-a1-m3-cB 4ang-a1-m2-cC_4ang-a1-m23-cA 4ang-a1-m2-cC_4ang-a1-m3-cA 4ang-a1-m30-cA_4ang-a1-m44-cC 4ang-a1-m30-cC_4ang-a1-m44-cA 4ang-a1-m31-cA_4ang-a1-m35-cC 4ang-a1-m31-cA_4ang-a1-m36-cC 4ang-a1-m31-cB_4ang-a1-m32-cB 4ang-a1-m31-cB_4ang-a1-m35-cB 4ang-a1-m31-cC_4ang-a1-m32-cA 4ang-a1-m31-cC_4ang-a1-m36-cA 4ang-a1-m32-cA_4ang-a1-m58-cC 4ang-a1-m32-cB_4ang-a1-m33-cB 4ang-a1-m32-cC_4ang-a1-m33-cA 4ang-a1-m32-cC_4ang-a1-m58-cA 4ang-a1-m33-cA_4ang-a1-m7-cC 4ang-a1-m33-cB_4ang-a1-m34-cB 4ang-a1-m33-cC_4ang-a1-m34-cA 4ang-a1-m33-cC_4ang-a1-m7-cA 4ang-a1-m34-cA_4ang-a1-m5-cC 4ang-a1-m34-cB_4ang-a1-m35-cB 4ang-a1-m34-cC_4ang-a1-m35-cA 4ang-a1-m34-cC_4ang-a1-m5-cA 4ang-a1-m35-cA_4ang-a1-m49-cC 4ang-a1-m35-cC_4ang-a1-m49-cA 4ang-a1-m36-cA_4ang-a1-m40-cC 4ang-a1-m36-cB_4ang-a1-m37-cB 4ang-a1-m36-cB_4ang-a1-m40-cB 4ang-a1-m36-cC_4ang-a1-m37-cA 4ang-a1-m37-cA_4ang-a1-m48-cC 4ang-a1-m37-cB_4ang-a1-m38-cB 4ang-a1-m37-cC_4ang-a1-m38-cA 4ang-a1-m37-cC_4ang-a1-m48-cA 4ang-a1-m38-cB_4ang-a1-m39-cB 4ang-a1-m38-cC_4ang-a1-m39-cA 4ang-a1-m39-cB_4ang-a1-m40-cB 4ang-a1-m39-cC_4ang-a1-m40-cA 4ang-a1-m3-cA_4ang-a1-m42-cC 4ang-a1-m3-cB_4ang-a1-m4-cB 4ang-a1-m3-cC_4ang-a1-m42-cA 4ang-a1-m3-cC_4ang-a1-m4-cA 4ang-a1-m40-cA_4ang-a1-m59-cC 4ang-a1-m40-cC_4ang-a1-m59-cA 4ang-a1-m41-cA_4ang-a1-m45-cC 4ang-a1-m41-cA_4ang-a1-m46-cC 4ang-a1-m41-cB_4ang-a1-m42-cB 4ang-a1-m41-cB_4ang-a1-m45-cB 4ang-a1-m41-cC_4ang-a1-m42-cA 4ang-a1-m41-cC_4ang-a1-m46-cA 4ang-a1-m42-cB_4ang-a1-m43-cB 4ang-a1-m42-cC_4ang-a1-m43-cA 4ang-a1-m43-cB_4ang-a1-m44-cB 4ang-a1-m43-cC_4ang-a1-m44-cA 4ang-a1-m44-cB_4ang-a1-m45-cB 4ang-a1-m44-cC_4ang-a1-m45-cA 4ang-a1-m46-cA_4ang-a1-m50-cC 4ang-a1-m46-cB_4ang-a1-m47-cB 4ang-a1-m46-cB_4ang-a1-m50-cB 4ang-a1-m46-cC_4ang-a1-m47-cA 4ang-a1-m47-cB_4ang-a1-m48-cB 4ang-a1-m47-cC_4ang-a1-m48-cA 4ang-a1-m48-cB_4ang-a1-m49-cB 4ang-a1-m48-cC_4ang-a1-m49-cA 4ang-a1-m49-cB_4ang-a1-m50-cB 4ang-a1-m49-cC_4ang-a1-m50-cA 4ang-a1-m4-cA_4ang-a1-m50-cC 4ang-a1-m4-cB_4ang-a1-m5-cB 4ang-a1-m4-cC_4ang-a1-m50-cA 4ang-a1-m4-cC_4ang-a1-m5-cA 4ang-a1-m51-cA_4ang-a1-m55-cC 4ang-a1-m51-cA_4ang-a1-m56-cC 4ang-a1-m51-cB_4ang-a1-m52-cB 4ang-a1-m51-cB_4ang-a1-m55-cB 4ang-a1-m51-cC_4ang-a1-m52-cA 4ang-a1-m51-cC_4ang-a1-m56-cA 4ang-a1-m52-cB_4ang-a1-m53-cB 4ang-a1-m52-cC_4ang-a1-m53-cA 4ang-a1-m53-cB_4ang-a1-m54-cB 4ang-a1-m53-cC_4ang-a1-m54-cA 4ang-a1-m54-cB_4ang-a1-m55-cB 4ang-a1-m54-cC_4ang-a1-m55-cA 4ang-a1-m55-cA_4ang-a1-m9-cC 4ang-a1-m55-cC_4ang-a1-m9-cA 4ang-a1-m56-cA_4ang-a1-m60-cC 4ang-a1-m56-cB_4ang-a1-m57-cB 4ang-a1-m56-cB_4ang-a1-m60-cB 4ang-a1-m56-cC_4ang-a1-m57-cA 4ang-a1-m57-cA_4ang-a1-m8-cC 4ang-a1-m57-cB_4ang-a1-m58-cB 4ang-a1-m57-cC_4ang-a1-m58-cA 4ang-a1-m57-cC_4ang-a1-m8-cA 4ang-a1-m58-cB_4ang-a1-m59-cB 4ang-a1-m58-cC_4ang-a1-m59-cA 4ang-a1-m59-cB_4ang-a1-m60-cB 4ang-a1-m59-cC_4ang-a1-m60-cA 4ang-a1-m6-cB_4ang-a1-m7-cB 4ang-a1-m6-cC_4ang-a1-m7-cA 4ang-a1-m7-cB_4ang-a1-m8-cB 4ang-a1-m7-cC_4ang-a1-m8-cA 4ang-a1-m8-cB_4ang-a1-m9-cB 4ang-a1-m8-cC_4ang-a1-m9-cA AQLQNLVLKDREATPNDHTFVPRDIRDNVGEVVESTGVPIGESRFTISLRKTSNGRYKSTLKLVVPVVQSQTVNGIVTPVVVRTSYVTVDFDYDARSTTKERNNFVGMIADALKADKMLVHDTIVNLQGVY AQLQNLVLKDREATPNDHTFVPRDIRDNVGEVVESTGVPIGESRFTISLRKTSNGRYKSTLKLVVPVVQSQTVNGIVTPVVVRTSYVTVDFDYDARSTTKERNNFVGMIADALKADKMLVHDTIVNLQGVY 2vfa-a1-m1-cA_2vfa-a1-m1-cB Crystal structure of a chimera of Plasmodium falciparum and human hypoxanthine-guanine phosphoribosyl transferases P20035 P20035 2.8 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 205 DPVFVKDDDGYDLDSFMIPAHYKKYLTKVLVPNGVIKNRIEKLARDVMKEMGGHHIVALCVLKGGYKFFADLLDYIKALNRNSDRSIPMTVDFIRKVIGGDDLSTLTGKNVLIVEDIIDTGKTMQTLLSLVRQYNPKMVKVACLFIKRTPLWNGFKADFVGFSIPDHFVVGYSLDYNEIFRDLDHCCLVNDEGKKK AFDPVFVKDDDGYDLDSFMIPAHYKKYLTKVLVPNGVIKNRIEKLARDVMKEMGGHHIVALCVLKGGYKFFADLLDYIKALNRNSDRSIPMTVDFIRLKDIKVIGGDDLSTLTGKNVLIVEDIIDTGKTMQTLLSLVRQYNPKMVKVACLFIKRTPLWNGFKADFVGFSIPDHFVVGYSLDYNEIFRDLDHCCLVNDEGKKKYKA 2vg1-a1-m1-cA_2vg1-a1-m1-cB Rv1086 E,E-farnesyl diphosphate complex P9WFF5 P9WFF5 1.7 X-RAY DIFFRACTION 100 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 228 228 2vfw-a1-m1-cA_2vfw-a1-m1-cB 2vg0-a1-m1-cA_2vg0-a1-m1-cB SDLPRHIAVLCDGNRRWARSAGYDDVSYGYRMGAAKIAEMLRWCHEAGIELATVYLLSTENLQRDPDELAALIEIITDVVEEICAPANHWSVRTVGDLGLIGEEPARRLRGAVESTPEVASFHVNVAVGYGGRREIVDAVRALLSKELANGATAEELVDAVTVEGISENLYTSGQPDPDLVIRTSGEQRLSGFLLWQSAYSEMWFTEAHWPAFRHVDFLRALRDYSAR SDLPRHIAVLCDGNRRWARSAGYDDVSYGYRMGAAKIAEMLRWCHEAGIELATVYLLSTENLQRDPDELAALIEIITDVVEEICAPANHWSVRTVGDLGLIGEEPARRLRGAVESTPEVASFHVNVAVGYGGRREIVDAVRALLSKELANGATAEELVDAVTVEGISENLYTSGQPDPDLVIRTSGEQRLSGFLLWQSAYSEMWFTEAHWPAFRHVDFLRALRDYSAR 2vg3-a2-m1-cD_2vg3-a2-m1-cB Rv2361 with citronellyl pyrophosphate P9WFF7 P9WFF7 1.8 X-RAY DIFFRACTION 127 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 283 284 2vg2-a1-m1-cA_2vg2-a1-m1-cC 2vg2-a2-m1-cB_2vg2-a2-m1-cD 2vg3-a1-m1-cA_2vg3-a1-m1-cC 2vg4-a1-m1-cA_2vg4-a1-m1-cC 2vg4-a2-m1-cD_2vg4-a2-m1-cB 4onc-a1-m1-cA_4onc-a1-m1-cB 6ime-a1-m1-cA_6ime-a1-m1-cB PQLPPAPDDYPTFPDTSTWPVVFPELPAAPYGGPCRPPQHTSKAAAPRIPADRLPNHVAIVMDGNGRWATQRGLARTEGHKMGEAVVIDIACGAIELGIKWLSLYAFSTENWKRSPEEVRFLMGFNRDVVRRRRDTLKKLGVRIRWVGSRPRLWRSVINELAVAEEMTKSNDVITINYCVNYGGRTEITEATREIAREVAAGRLNPERITESTIARHLQRPDIPDVDLFLRTSGEQRSSNFMLWQAAYAEYIFQDKLWPDYDRRDLWAACEEYASRTRRFGSA FPQLPPAPDDYPTFPDTSTWPVVFPELPAAPYGGPCRPPQHTSKAAAPRIPADRLPNHVAIVMDGNGRWATQRGLARTEGHKMGEAVVIDIACGAIELGIKWLSLYAFSTENWKRSPEEVRFLMGFNRDVVRRRRDTLKKLGVRIRWVGSRPRLWRSVINELAVAEEMTKSNDVITINYCVNYGGRTEITEATREIAREVAAGRLNPERITESTIARHLQRPDIPDVDLFLRTSGEQRSSNFMLWQAAYAEYIFQDKLWPDYDRRDLWAACEEYASRTRRFGSA 2vgx-a2-m1-cA_2vgx-a2-m2-cA Structure of the Yersinia enterocolitica Type III Secretion Translocator Chaperone SycD O87496 O87496 1.95 X-RAY DIFFRACTION 10 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 128 128 GGGTIAMLNEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYSYGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAI GGGTIAMLNEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYSYGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAI 2vgx-a2-m1-cA_2vgx-a2-m2-cB Structure of the Yersinia enterocolitica Type III Secretion Translocator Chaperone SycD O87496 O87496 1.95 X-RAY DIFFRACTION 35 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 128 136 2vgx-a2-m2-cA_2vgx-a2-m1-cB GGGTIAMLNEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYSYGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAI GPLGSGGGTIAMLNEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYSYGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAILEM 2vgx-a2-m2-cA_2vgx-a2-m2-cB Structure of the Yersinia enterocolitica Type III Secretion Translocator Chaperone SycD O87496 O87496 1.95 X-RAY DIFFRACTION 42 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 128 136 2vgx-a1-m1-cA_2vgx-a1-m1-cB 2vgx-a2-m1-cA_2vgx-a2-m1-cB GGGTIAMLNEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYSYGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAI GPLGSGGGTIAMLNEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYSYGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAILEM 2vgy-a1-m1-cA_2vgy-a1-m2-cA Crystal structure of the Yersinia enterocolitica Type III Secretion Translocator Chaperone SycD (alternative dimer) O87496 O87496 2.6 X-RAY DIFFRACTION 29 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 123 123 NEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYEEGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAILEM NEISSDTLEQLYSLAFNQYQSGYEDAHVFQALCVLDHYDSRFFLGLGACRQAMGQYDLAIHSYEEGAVMDIEPRFPFHAAECLLQGELAEAESGLFLAQELIANPEFELSTRVSSMLEAILEM 2vh3-a1-m1-cA_2vh3-a1-m1-cB ranasmurfin P85511 P85511 1.16 X-RAY DIFFRACTION 66 0.982 68444 (Polypedates leucomystax) 68444 (Polypedates leucomystax) 110 110 AACSFPPSEIPGSKECLAEALQKHQGFKKKSYALICAYLNYKEDAENYERAAEDFDSAVKCTGCKEGVDLHEGNPELIEEGFEKFLASLKIDRKALGSLCTLFQKLAIPH AACSFPPEIPGSKECLAEALQKHQGFKKKSYALICAYLNYKEDAENYERAAEDFDSAVKCTGKEGVDLHEGNPELIEEGFEKFLASLKIDRKALGSLCTLFQKLYAIPHN 2vha-a1-m1-cA_2vha-a1-m1-cB DEBP A0A0H2UXX1 A0A0H2UXX1 1 X-RAY DIFFRACTION 58 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 276 276 APAAGSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGYSQDYSNAIVEAVKKKLNKPDLQVKLIPITSQNRIPLLQNGTFDFECGSTTNNVERQKQAAFSDTIFVVGTRLLTKKGGDIKDFADLKGKAVVVTSGTTSEVLLNKLNEEQKMNMRIISAKDHGDSFRTLESGRAVAFMMDDALLAGERAKAKKPDNWDIVGKPQSQEAYGCMLRKDDPQFKKLMDDTIAQVQTSGEAEKWFDKWFKNPIPPKNLNMNFELSDEMKALFKEPNDKAL APAAGSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGYSQDYSNAIVEAVKKKLNKPDLQVKLIPITSQNRIPLLQNGTFDFECGSTTNNVERQKQAAFSDTIFVVGTRLLTKKGGDIKDFADLKGKAVVVTSGTTSEVLLNKLNEEQKMNMRIISAKDHGDSFRTLESGRAVAFMMDDALLAGERAKAKKPDNWDIVGKPQSQEAYGCMLRKDDPQFKKLMDDTIAQVQTSGEAEKWFDKWFKNPIPPKNLNMNFELSDEMKALFKEPNDKAL 2vhd-a1-m1-cA_2vhd-a1-m1-cB Crystal Structure Of The Di-Haem Cytochrome C Peroxidase From Pseudomonas aeruginosa - Mixed Valence Form P14532 P14532 2.3 X-RAY DIFFRACTION 79 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 323 323 1eb7-a1-m1-cA_1eb7-a1-m2-cA DALHDQASALFKPIPEQVTELRGQPISEQQRELGKKLFFDPRLSRSHVLSCNTCHNVGTGGADNVPTSVGHGWQKGPRNSPTVFNAVFNAAQFWDGRAKDLGEQAKGPIQNSVEMHSTPQLVEQTLGSIPEYVDAFRKAFPKAGKPVSFDNMALAIEAYEATLVTPDSPFDLYLKGDDKALDAQQKKGLKAFMDSGCSACHNGINLGGQAYFPFGLVKKPDASVLPSGDKGRFAVTKTQSDEYVFRAAPLRNVALTAPYFHSGQVWELKDAVAIMGNAQLGKQLAPDDVENIVAFLHSLSGKQPRVEYPLLPASTETTPRPAE DALHDQASALFKPIPEQVTELRGQPISEQQRELGKKLFFDPRLSRSHVLSCNTCHNVGTGGADNVPTSVGHGWQKGPRNSPTVFNAVFNAAQFWDGRAKDLGEQAKGPIQNSVEMHSTPQLVEQTLGSIPEYVDAFRKAFPKAGKPVSFDNMALAIEAYEATLVTPDSPFDLYLKGDDKALDAQQKKGLKAFMDSGCSACHNGINLGGQAYFPFGLVKKPDASVLPSGDKGRFAVTKTQSDEYVFRAAPLRNVALTAPYFHSGQVWELKDAVAIMGNAQLGKQLAPDDVENIVAFLHSLSGKQPRVEYPLLPASTETTPRPAE 2vhe-a1-m2-cA_2vhe-a1-m3-cA PglD-CoA complex: An acetyl transferase from Campylobacter jejuni Q0P9D1 Q0P9D1 1.8 X-RAY DIFFRACTION 76 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 194 194 2npo-a1-m1-cA_2npo-a1-m2-cA 2npo-a1-m1-cA_2npo-a1-m3-cA 2npo-a1-m2-cA_2npo-a1-m3-cA 2vhe-a1-m1-cA_2vhe-a1-m2-cA 2vhe-a1-m1-cA_2vhe-a1-m3-cA 2vhe-a2-m1-cB_2vhe-a2-m2-cB 2vhe-a2-m1-cB_2vhe-a2-m3-cB 2vhe-a2-m2-cB_2vhe-a2-m3-cB 3bfp-a1-m1-cA_3bfp-a1-m2-cA 3bfp-a1-m1-cA_3bfp-a1-m3-cA 3bfp-a1-m2-cA_3bfp-a1-m3-cA 3bss-a1-m1-cA_3bss-a1-m2-cA 3bss-a1-m1-cA_3bss-a1-m3-cA 3bss-a1-m2-cA_3bss-a1-m3-cA 3bsw-a1-m1-cA_3bsw-a1-m2-cA 3bsw-a1-m1-cA_3bsw-a1-m3-cA 3bsw-a1-m2-cA_3bsw-a1-m3-cA 3bsy-a1-m1-cA_3bsy-a1-m1-cB 3bsy-a1-m1-cA_3bsy-a1-m1-cC 3bsy-a1-m1-cB_3bsy-a1-m1-cC 5t2y-a1-m1-cA_5t2y-a1-m2-cA 5t2y-a1-m1-cA_5t2y-a1-m4-cA 5t2y-a1-m2-cA_5t2y-a1-m4-cA 5t2y-a2-m1-cB_5t2y-a2-m3-cB 5t2y-a2-m1-cB_5t2y-a2-m5-cB 5t2y-a2-m3-cB_5t2y-a2-m5-cB 5tyh-a1-m1-cA_5tyh-a1-m2-cA 5tyh-a1-m1-cA_5tyh-a1-m3-cA 5tyh-a1-m2-cA_5tyh-a1-m3-cA ARTEKIYIYGASGHGLVCEDVAKNMGYKECIFLDDFKGMKFESTLPKYDFFIAIGNNEIRKKIYQKISENGFKIVNLIHKSALISPSAIVEENAGILIMPYVVINAKAKIEKGVILNTSSVIEHECVIGEFSHVSVGAKCAGNVKIGKNCFLGINSCVLPNLSLADDSILGGGATLVKNQDEKGVFVGVPAKRM ARTEKIYIYGASGHGLVCEDVAKNMGYKECIFLDDFKGMKFESTLPKYDFFIAIGNNEIRKKIYQKISENGFKIVNLIHKSALISPSAIVEENAGILIMPYVVINAKAKIEKGVILNTSSVIEHECVIGEFSHVSVGAKCAGNVKIGKNCFLGINSCVLPNLSLADDSILGGGATLVKNQDEKGVFVGVPAKRM 2vhh-a1-m1-cD_2vhh-a1-m2-cD Crystal structure of a pyrimidine degrading enzyme from Drosophila melanogaster Q9VI04 Q9VI04 2.8 X-RAY DIFFRACTION 78 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 379 379 2vhh-a1-m1-cB_2vhh-a1-m1-cC 2vhh-a1-m2-cB_2vhh-a1-m2-cC 2vhi-a1-m1-cB_2vhi-a1-m1-cC 2vhi-a1-m1-cD_2vhi-a1-m1-cE 2vhi-a1-m1-cF_2vhi-a1-m1-cG NLNDCLEKHLPPDELKEVKRILYGVEEDQTLELPTSAKDIAEQNGFDIKGYRFTAREEQTRKRRIVRVGAIQNSIVIPTTAPIEKQREAIWNKVKTMIKAAAEAGCNIVCTQEAWTMPFAFCTREKFPWCEFAEEAENGPTTKMLAELAKAYNMVIIHSILERDMEHGETIWNTAVVISNSGRYLGKHRKNHIPRVGDFNESTYYMEGNTGHPVFETEFGKLAVNICYGRHHPQNWMMFGLNGAEIVFNPSATIGRLSEPLWSIEARNAAIANSYFTVPINRVGTEQFPNEYTSGDGNKAHKEFGPFYGSSYVAAPDGSRTPSLSRDKDGLLVVELDLNLCRQVKDFWGFRMTQRVPLYAESFKKASEHGFKPQIIKET NLNDCLEKHLPPDELKEVKRILYGVEEDQTLELPTSAKDIAEQNGFDIKGYRFTAREEQTRKRRIVRVGAIQNSIVIPTTAPIEKQREAIWNKVKTMIKAAAEAGCNIVCTQEAWTMPFAFCTREKFPWCEFAEEAENGPTTKMLAELAKAYNMVIIHSILERDMEHGETIWNTAVVISNSGRYLGKHRKNHIPRVGDFNESTYYMEGNTGHPVFETEFGKLAVNICYGRHHPQNWMMFGLNGAEIVFNPSATIGRLSEPLWSIEARNAAIANSYFTVPINRVGTEQFPNEYTSGDGNKAHKEFGPFYGSSYVAAPDGSRTPSLSRDKDGLLVVELDLNLCRQVKDFWGFRMTQRVPLYAESFKKASEHGFKPQIIKET 2vhh-a1-m2-cD_2vhh-a1-m2-cC Crystal structure of a pyrimidine degrading enzyme from Drosophila melanogaster Q9VI04 Q9VI04 2.8 X-RAY DIFFRACTION 245 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 379 382 2vhh-a1-m1-cA_2vhh-a1-m1-cB 2vhh-a1-m1-cD_2vhh-a1-m1-cC 2vhh-a1-m2-cA_2vhh-a1-m2-cB 2vhi-a1-m1-cA_2vhi-a1-m1-cB 2vhi-a1-m1-cD_2vhi-a1-m1-cC 2vhi-a1-m1-cF_2vhi-a1-m1-cE 2vhi-a1-m1-cH_2vhi-a1-m1-cG NLNDCLEKHLPPDELKEVKRILYGVEEDQTLELPTSAKDIAEQNGFDIKGYRFTAREEQTRKRRIVRVGAIQNSIVIPTTAPIEKQREAIWNKVKTMIKAAAEAGCNIVCTQEAWTMPFAFCTREKFPWCEFAEEAENGPTTKMLAELAKAYNMVIIHSILERDMEHGETIWNTAVVISNSGRYLGKHRKNHIPRVGDFNESTYYMEGNTGHPVFETEFGKLAVNICYGRHHPQNWMMFGLNGAEIVFNPSATIGRLSEPLWSIEARNAAIANSYFTVPINRVGTEQFPNEYTSGDGNKAHKEFGPFYGSSYVAAPDGSRTPSLSRDKDGLLVVELDLNLCRQVKDFWGFRMTQRVPLYAESFKKASEHGFKPQIIKET ELKNLNDCLEKHLPPDELKEVKRILYGVEEDQTLELPTSAKDIAEQNGFDIKGYRFTAREEQTRKRRIVRVGAIQNSIVIPTTAPIEKQREAIWNKVKTMIKAAAEAGCNIVCTQEAWTMPFAFCTREKFPWCEFAEEAENGPTTKMLAELAKAYNMVIIHSILERDMEHGETIWNTAVVISNSGRYLGKHRKNHIPRVGDFNESTYYMEGNTGHPVFETEFGKLAVNICYGRHHPQNWMMFGLNGAEIVFNPSATIGRLSEPLWSIEARNAAIANSYFTVPINRVGTEQFPNEYTSGDGNKAHKEFGPFYGSSYVAAPDGSRTPSLSRDKDGLLVVELDLNLCRQVKDFWGFRMTQRVPLYAESFKKASEHGFKPQIIKET 2vhi-a1-m1-cH_2vhi-a1-m1-cF Crystal structure of a pyrimidine degrading enzyme from Drosophila melanogaster Q9VI04 Q9VI04 3.3 X-RAY DIFFRACTION 32 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 342 379 2vhh-a1-m1-cA_2vhh-a1-m1-cC 2vhh-a1-m1-cB_2vhh-a1-m1-cD 2vhh-a1-m1-cD_2vhh-a1-m2-cC 2vhh-a1-m2-cA_2vhh-a1-m2-cC 2vhh-a1-m2-cB_2vhh-a1-m2-cD 2vhh-a1-m2-cD_2vhh-a1-m1-cC 2vhi-a1-m1-cA_2vhi-a1-m1-cC 2vhi-a1-m1-cB_2vhi-a1-m1-cD 2vhi-a1-m1-cD_2vhi-a1-m1-cF 2vhi-a1-m1-cE_2vhi-a1-m1-cC 2vhi-a1-m1-cE_2vhi-a1-m1-cG NLNDCLEKHLPPDELKEVKRILYGVEEDQTLELPTSAKDIAEQNGFDIKGYRFTAREEQTRKRRIVRVGAIQNSIVIPTTAPIEKQREAIWNKVKTMIKAAAEAGCNIVCTQEAWTMPFACEFAEEAENGPTTKMLAELAKAYNMVIIHSILERDMEHGETIWNTAVVISNSGRYLGKHRKNHIPMEGNTGHPVFETEFGKLAVNICYGRHHPQNWMMFGLNGAEIVFNPSATIGRLSEPLWSIEARNAAIANSYFTVPINRVGTEQGPFYGSSYVAAPDGSRTPSLSRDKDGLLVVELDLNLCRQVKDFWGFRMTQRVPLYAESFKKASEHGFKPQIIKET NLNDCLEKHLPPDELKEVKRILYGVEEDQTLELPTSAKDIAEQNGFDIKGYRFTAREEQTRKRRIVRVGAIQNSIVIPTTAPIEKQREAIWNKVKTMIKAAAEAGCNIVCTQEAWTMPFAFCTREKFPWCEFAEEAENGPTTKMLAELAKAYNMVIIHSILERDMEHGETIWNTAVVISNSGRYLGKHRKNHIPRVGDFNESTYYMEGNTGHPVFETEFGKLAVNICYGRHHPQNWMMFGLNGAEIVFNPSATIGRLSEPLWSIEARNAAIANSYFTVPINRVGTEQFPNEYTSGDGNKAHKEFGPFYGSSYVAAPDGSRTPSLSRDKDGLLVVELDLNLCRQVKDFWGFRMTQRVPLYAESFKKASEHGFKPQIIKET 2vhl-a2-m1-cB_2vhl-a2-m2-cB The Three-dimensional structure of the N-Acetylglucosamine-6- phosphate deacetylase from Bacillus subtilis O34450 O34450 2.05 X-RAY DIFFRACTION 78 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 393 393 2vhl-a1-m1-cA_2vhl-a1-m2-cA AESLLIKDIAIVTENEVIKNGYVGINDGKISTVSTERPKEPYSKEIQAPADSVLLPGMIDIHIHGGYGADTMDASFSTLDIMSSRLPEEGTTSFLATTITQEHGNISQALVNAREWKAAEESSLLGAELLGIHLEGPFVSPKRAGAQPKEWIRPSDVELFKKWQQEAGGLIKIVTLAPEEDQHFELIRHLKDESIIASMGHTDADSALLSDAAKAGASHMTHLYNAMSPFHHREPGVIGTALAHDGFVTELIADGIHSHPLAAKLAFLAKGSSKLILITDSMRAKGLKDGVYEFGGQSVTVRGRTALLSDGTLAGSILKMNEGARHMREFTNCSWTDIANITSENAAKQLGIFDRKGSVTVGKDADLVIVSSDCEVILTICRGNIAFISKEAD AESLLIKDIAIVTENEVIKNGYVGINDGKISTVSTERPKEPYSKEIQAPADSVLLPGMIDIHIHGGYGADTMDASFSTLDIMSSRLPEEGTTSFLATTITQEHGNISQALVNAREWKAAEESSLLGAELLGIHLEGPFVSPKRAGAQPKEWIRPSDVELFKKWQQEAGGLIKIVTLAPEEDQHFELIRHLKDESIIASMGHTDADSALLSDAAKAGASHMTHLYNAMSPFHHREPGVIGTALAHDGFVTELIADGIHSHPLAAKLAFLAKGSSKLILITDSMRAKGLKDGVYEFGGQSVTVRGRTALLSDGTLAGSILKMNEGARHMREFTNCSWTDIANITSENAAKQLGIFDRKGSVTVGKDADLVIVSSDCEVILTICRGNIAFISKEAD 2vhs-a1-m1-cA_2vhs-a1-m1-cD Cathsilicatein, a chimera P07711 P07711 1.5 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 2vhs-a1-m1-cB_2vhs-a1-m1-cC APRSVDWREKGYVTPVKNQGQCGASYAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDVGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFSSDCSSSSLNHAMLVVGYGFISQKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV APRSVDWREKGYVTPVKNQGQCGASYAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDVGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFSSDCSSSSLNHAMLVVGYGFISQKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV 2vhs-a1-m1-cC_2vhs-a1-m1-cD Cathsilicatein, a chimera P07711 P07711 1.5 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 2vhs-a1-m1-cA_2vhs-a1-m1-cB APRSVDWREKGYVTPVKNQGQCGASYAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDVGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFSSDCSSSSLNHAMLVVGYGFISQKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV APRSVDWREKGYVTPVKNQGQCGASYAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDVGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFSSDCSSSSLNHAMLVVGYGFISQKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV 2vhv-a1-m3-cA_2vhv-a1-m3-cB Crystal structure of the D270A mutant of L-alanine dehydrogenase from Mycobacterium tuberculosis in complex with NADH. P9WQB1 P9WQB1 2.8 X-RAY DIFFRACTION 144 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 371 371 2vhv-a1-m1-cA_2vhv-a1-m1-cB 2vhv-a1-m2-cA_2vhv-a1-m2-cB 2vhw-a1-m1-cA_2vhw-a1-m1-cC 2vhw-a1-m1-cB_2vhw-a1-m1-cD 2vhw-a1-m1-cE_2vhw-a1-m1-cF 2vhx-a1-m1-cC_2vhx-a1-m1-cA 2vhx-a1-m1-cD_2vhx-a1-m1-cB 2vhx-a1-m1-cE_2vhx-a1-m1-cF 2vhz-a1-m1-cA_2vhz-a1-m1-cB 2vhz-a1-m2-cA_2vhz-a1-m2-cB 2vhz-a1-m3-cA_2vhz-a1-m3-cB 2voe-a1-m1-cA_2voe-a1-m1-cD 2voe-a1-m1-cB_2voe-a1-m1-cF 2voe-a1-m1-cC_2voe-a1-m1-cE 2voj-a1-m1-cA_2voj-a1-m2-cA 2voj-a1-m1-cC_2voj-a1-m2-cE 2voj-a1-m1-cE_2voj-a1-m2-cC 4lmp-a2-m1-cA_4lmp-a2-m2-cA 4lmp-a3-m1-cA_4lmp-a3-m2-cA 4lmp-a3-m3-cA_4lmp-a3-m6-cA 4lmp-a3-m4-cA_4lmp-a3-m5-cA 6o7f-a2-m1-cA_6o7f-a2-m6-cA 6o7f-a2-m2-cA_6o7f-a2-m5-cA 6o7f-a2-m3-cA_6o7f-a2-m4-cA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVPGAKAPKLVSNSLVAHMKPGAVLVDIAINQGGCFEGSRPTTYDHPTFAVHDTLFYCVANMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVPGAKAPKLVSNSLVAHMKPGAVLVDIAINQGGCFEGSRPTTYDHPTFAVHDTLFYCVANMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA 2vhy-a1-m1-cA_2vhy-a1-m3-cB Crystal structure of apo L-alanine dehydrogenase from Mycobacterium tuberculosis P9WQB1 P9WQB1 2.3 X-RAY DIFFRACTION 42 0.997 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 324 330 2vhy-a1-m2-cA_2vhy-a1-m1-cB 2vhy-a1-m3-cA_2vhy-a1-m2-cB MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVMKPGAVLVDIALFYCMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVL MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVVAHMKPGAVLVDITLFYCMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA 2vhy-a1-m2-cB_2vhy-a1-m3-cB Crystal structure of apo L-alanine dehydrogenase from Mycobacterium tuberculosis P9WQB1 P9WQB1 2.3 X-RAY DIFFRACTION 26 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 330 330 2vhy-a1-m1-cA_2vhy-a1-m2-cA 2vhy-a1-m1-cA_2vhy-a1-m3-cA 2vhy-a1-m1-cB_2vhy-a1-m2-cB 2vhy-a1-m1-cB_2vhy-a1-m3-cB 2vhy-a1-m2-cA_2vhy-a1-m3-cA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVVAHMKPGAVLVDITLFYCMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVVAHMKPGAVLVDITLFYCMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA 2vhy-a1-m3-cA_2vhy-a1-m3-cB Crystal structure of apo L-alanine dehydrogenase from Mycobacterium tuberculosis P9WQB1 P9WQB1 2.3 X-RAY DIFFRACTION 148 0.997 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 324 330 2vhy-a1-m1-cA_2vhy-a1-m1-cB 2vhy-a1-m2-cA_2vhy-a1-m2-cB MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVMKPGAVLVDIALFYCMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVL MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVVAHMKPGAVLVDITLFYCMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA 2vi7-a2-m1-cC_2vi7-a2-m2-cC Structure of a Putative Acetyltransferase (PA1377)from Pseudomonas aeruginosa Q9I3W7 Q9I3W7 2.25 X-RAY DIFFRACTION 76 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 165 165 2vi7-a1-m1-cA_2vi7-a1-m1-cB SPTIRLERYSERHVEGLTALYNDPAVARQVLQMPYQSVEQRRKRLHDSDDDRLLILVALHQGDVIGSASLEQHPRIRRSHSGSIGMGVAVAWQGKGVGSRLLGELLDIADNWMNLRRVELTVYTDNAPALALYRKFGFETEGEMRDYAVRDGRFVDVYSMARLRR SPTIRLERYSERHVEGLTALYNDPAVARQVLQMPYQSVEQRRKRLHDSDDDRLLILVALHQGDVIGSASLEQHPRIRRSHSGSIGMGVAVAWQGKGVGSRLLGELLDIADNWMNLRRVELTVYTDNAPALALYRKFGFETEGEMRDYAVRDGRFVDVYSMARLRR 2vid-a1-m1-cA_2vid-a1-m1-cB Serine protease SplB from Staphylococcus aureus at 1.8A resolution Q2FXC3 Q2FXC3 1.8 X-RAY DIFFRACTION 35 0.99 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 199 200 ENNVTKVKDTNIFPYTGVVAFKSATGFVVGKNTILTNKHVSKNYKVGDRITAHPNSDKGNGGIYSIKKIINYPGKEDVSVIQVEERAIERGPKGFNFNDNVTPFKYAAGAKAGERIKVIGYPHPYKYVLYESTGPVMSVEGSSIVYSAHTESGNSGSPVLNSNNELVGIHFASDVDNRNAYGVYFTPEIKKFIAENIDK ENNVTKVKDTNIFPYTGVVAFKSATGFVVGKNTILTNKHVSKNYKVGDRITAHPNSDKGNGGIYSIKKIINYPGKEDVSVIQVEERAIERGPKGFNFNDNVTPFKYAAGAKAGERIKVIGYPHPYKNKYVLYESTGPVMSVEGSSIVYSAHTESGNSGSPVLNSNNELVGIHFASDVKRNAYGVYFTPEIKKFIAENIDK 2vjh-a1-m2-cA_2vjh-a1-m3-cC The structure of Phycoerythrin from Gloeobacter violaceus Q7NLD7 Q7NLD7 2.2 X-RAY DIFFRACTION 23 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 164 164 2vjh-a1-m1-cA_2vjh-a1-m2-cC 2vjh-a1-m1-cC_2vjh-a1-m3-cA MKSVVTTVLAAADAAGRFPSGSDLESVQGNIQRSAARLEAAEKLAAGHAAVVKEAGDVVFKKYPYLKTAGEAGDSAEKVAKCYRDIDHYMRLINYCLVVGGTGPLDEWGISGAREVYRALNLPTAAYVAAFQYTRDRACAPRDMGPQALTEFRSYLDYVINALS MKSVVTTVLAAADAAGRFPSGSDLESVQGNIQRSAARLEAAEKLAAGHAAVVKEAGDVVFKKYPYLKTAGEAGDSAEKVAKCYRDIDHYMRLINYCLVVGGTGPLDEWGISGAREVYRALNLPTAAYVAAFQYTRDRACAPRDMGPQALTEFRSYLDYVINALS 2vjh-a1-m3-cA_2vjh-a1-m3-cC The structure of Phycoerythrin from Gloeobacter violaceus Q7NLD7 Q7NLD7 2.2 X-RAY DIFFRACTION 86 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 164 164 2vjh-a1-m1-cA_2vjh-a1-m1-cC 2vjh-a1-m2-cA_2vjh-a1-m2-cC MKSVVTTVLAAADAAGRFPSGSDLESVQGNIQRSAARLEAAEKLAAGHAAVVKEAGDVVFKKYPYLKTAGEAGDSAEKVAKCYRDIDHYMRLINYCLVVGGTGPLDEWGISGAREVYRALNLPTAAYVAAFQYTRDRACAPRDMGPQALTEFRSYLDYVINALS MKSVVTTVLAAADAAGRFPSGSDLESVQGNIQRSAARLEAAEKLAAGHAAVVKEAGDVVFKKYPYLKTAGEAGDSAEKVAKCYRDIDHYMRLINYCLVVGGTGPLDEWGISGAREVYRALNLPTAAYVAAFQYTRDRACAPRDMGPQALTEFRSYLDYVINALS 2vjq-a2-m1-cC_2vjq-a2-m1-cD Formyl-CoA transferase mutant variant W48Q O06644 O06644 1.8 X-RAY DIFFRACTION 537 1.0 847 (Oxalobacter formigenes) 847 (Oxalobacter formigenes) 427 427 1p5h-a1-m1-cA_1p5h-a1-m1-cB 1p5r-a1-m1-cA_1p5r-a1-m1-cB 1t3z-a1-m1-cA_1t3z-a1-m1-cB 1t4c-a1-m1-cA_1t4c-a1-m1-cB 1vgq-a1-m1-cA_1vgq-a1-m1-cB 1vgr-a1-m1-cA_1vgr-a1-m1-cB 2vjk-a1-m1-cA_2vjk-a1-m1-cB 2vjl-a1-m1-cA_2vjl-a1-m1-cB 2vjm-a1-m1-cB_2vjm-a1-m1-cA 2vjn-a1-m1-cA_2vjn-a1-m1-cB 2vjo-a1-m1-cA_2vjo-a1-m1-cB 2vjp-a1-m1-cA_2vjp-a1-m1-cB 2vjq-a1-m1-cA_2vjq-a1-m1-cB TKPLDGINVLDFTHVQAGPACTQMMGFLGANVIKIERRGSGDMTRGQLQDKPNVDSLYFTMFNCNKRSIELDMKTPEGKELLEQMIKKADVMVENFGPGALDRMGFTWEYIQELNPRVILASVKGYAEGHANEHLKVYENVAQCSGGAAATTGFWDGPPTVSGAALGDSNSGMHLMIGILAALEIRHKTGRGQKVAVAMQDAVLNLVRIKLRDQQRLERTGILAEYPQAQPNFAFDRDGNPLSFDNITSVPRGGNAGGGGQPGWMLKCKGWETDADSYVYFTIAANMWPQICDMIDKPEWKDDPAYNTFEGRVDKLMDIFSFIETKFADKDKFEVTEWAAQYGIPCGPVMSMKELAHDPSLQKVGTVVEVVDEIRGNHLTVGAPFKFSGFQPEITRAPLLGEHTDEVLKELGLDDAKIKELHAKQVV TKPLDGINVLDFTHVQAGPACTQMMGFLGANVIKIERRGSGDMTRGQLQDKPNVDSLYFTMFNCNKRSIELDMKTPEGKELLEQMIKKADVMVENFGPGALDRMGFTWEYIQELNPRVILASVKGYAEGHANEHLKVYENVAQCSGGAAATTGFWDGPPTVSGAALGDSNSGMHLMIGILAALEIRHKTGRGQKVAVAMQDAVLNLVRIKLRDQQRLERTGILAEYPQAQPNFAFDRDGNPLSFDNITSVPRGGNAGGGGQPGWMLKCKGWETDADSYVYFTIAANMWPQICDMIDKPEWKDDPAYNTFEGRVDKLMDIFSFIETKFADKDKFEVTEWAAQYGIPCGPVMSMKELAHDPSLQKVGTVVEVVDEIRGNHLTVGAPFKFSGFQPEITRAPLLGEHTDEVLKELGLDDAKIKELHAKQVV 2vjt-a1-m4-cA_2vjt-a1-m6-cA The Structure of Allophycocyanin from Gloeobacter Violaceus Q7NL80 Q7NL80 2.5 X-RAY DIFFRACTION 16 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 160 160 2vjt-a1-m1-cA_2vjt-a1-m3-cA 2vjt-a1-m2-cA_2vjt-a1-m5-cA SVLTKAIVNADAEARYLSPGELDRIKSFVASGERRLRIAQTLTEARERIVKQAGDQLFQIRPDVVSPGGNAYGEKMTALCLRDLDYYLRLVTYGIVAGDVTPIEEIGIIGVKEMYNSLQTPIPAVAEGVRAMKNVATSLLSGDDAAEAGFYFDYLVGAMQ SVLTKAIVNADAEARYLSPGELDRIKSFVASGERRLRIAQTLTEARERIVKQAGDQLFQIRPDVVSPGGNAYGEKMTALCLRDLDYYLRLVTYGIVAGDVTPIEEIGIIGVKEMYNSLQTPIPAVAEGVRAMKNVATSLLSGDDAAEAGFYFDYLVGAMQ 2vjt-a1-m5-cA_2vjt-a1-m6-cA The Structure of Allophycocyanin from Gloeobacter Violaceus Q7NL80 Q7NL80 2.5 X-RAY DIFFRACTION 55 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 160 160 2vjt-a1-m1-cA_2vjt-a1-m2-cA 2vjt-a1-m3-cA_2vjt-a1-m4-cA SVLTKAIVNADAEARYLSPGELDRIKSFVASGERRLRIAQTLTEARERIVKQAGDQLFQIRPDVVSPGGNAYGEKMTALCLRDLDYYLRLVTYGIVAGDVTPIEEIGIIGVKEMYNSLQTPIPAVAEGVRAMKNVATSLLSGDDAAEAGFYFDYLVGAMQ SVLTKAIVNADAEARYLSPGELDRIKSFVASGERRLRIAQTLTEARERIVKQAGDQLFQIRPDVVSPGGNAYGEKMTALCLRDLDYYLRLVTYGIVAGDVTPIEEIGIIGVKEMYNSLQTPIPAVAEGVRAMKNVATSLLSGDDAAEAGFYFDYLVGAMQ 2vk4-a2-m1-cC_2vk4-a2-m1-cD Crystal structure of pyruvate decarboxylase from Kluyveromyces lactis Q12629 Q12629 1.95 X-RAY DIFFRACTION 227 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 555 560 2vjy-a1-m1-cA_2vjy-a1-m1-cB 2vjy-a2-m1-cC_2vjy-a2-m1-cD 2vk4-a1-m1-cB_2vk4-a1-m1-cA 6efg-a1-m1-cB_6efg-a1-m1-cA 6efg-a2-m1-cD_6efg-a2-m1-cE 6efh-a1-m1-cB_6efh-a1-m1-cA SEITLGRYLFERLKQVEVQTIFGLPGDFNLSLLDNIYEVPGMRWAGNANELNAAYAADGYARLKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSAKQLLLHHTLGNGDFTVFHRMSSNISETTAMITDINTAPAEIDRCIRTTYVSQRPVYLGLPANLVDLTVPASLLDTPIDLSLKPNDPEAEEEVIENVLQLIKEAKNPVILADACCSRHDAKAETKKLIDLTQFPAFVTPMGKGSIDEKHPRFGGVYVGTLSSPAVKEAVESADLVLSVGALLSDFNTGSFSYSYKTKNIVEFHSDYTKIRSATFPGVQMKFALQKLLTKVADAAKGYKPVPVPSEPEHNEAVADSTPLKQEWVWTQVGEFLREGDVVITETGTSAFGINQTHFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIERLIHGETAQYNCIQNWQHLELLPTFGAKDYEAVRVSTTGEWNKLTTDEKFQDNTRIRLIEVMLPTMDAPSNLVKQAQLTAATN SEITLGRYLFERLKQVEVQTIFGLPGDFNLSLLDNIYEVPGMRWAGNANELNAAYAADGYARLKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSVQAKQLLLHHTLGNGDFTVFHRMSSNISETTAMITDINTAPAEIDRCIRTTYVSQRPVYLGLPANLVDLTVPASLLDTPIDLSLKPNDPEAEEEVIENVLQLIKEAKNPVILADACCSRHDAKAETKKLIDLTQFPAFVTPMGKGSIDEKHPRFGGVYVGTLSSPAVKEAVESADLVLSVGALLSDFNTGSFSYSYKTKNIVEFHSDYTKIRSATFPGVQMKFALQKLLTKVADAAKGYKPVPVPSEPEHNEAVADSTPLKQEWVWTQVGEFLREGDVVITETGTSAFGINQTHFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIERLIHGETAQYNCIQNWQHLELLPTFGAKDYEAVRVSTTGEWNKLTTDEKFQDNTRIRLIEVMLPTMDAPSNLVKQAQLTAATNAKN 2vko-a2-m1-cB_2vko-a2-m1-cD Structure of the soluble domain of the membrane protein TM1634 from Thermotoga maritima Q9X1W9 Q9X1W9 1.79 X-RAY DIFFRACTION 58 0.99 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 103 103 2vkj-a1-m1-cA_2vkj-a1-m1-cB 2vko-a1-m1-cC_2vko-a1-m1-cA HMNLAVKLTRMEKTLKAYELYIFSDYENFENYVKKEGLKIEGMELLKEKKARSLIAEGKDLFETANYGEALVFFEKALNLSDNEEIKKIASFYLEECRKKLAG MNLAVKLTRMEKTLKAYELYIFSDYENFENYVKKEGLKIEGMELLKEKKARSLIAEGKDLFETANYGEALVFFEKALNLSDNEEIKKIASFYLEECRKKLAGD 2vkp-a1-m1-cA_2vkp-a1-m2-cB Crystal structure of BTB domain from BTBD6 Q96KE9 Q96KE9 1.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 105 2vkp-a1-m2-cA_2vkp-a1-m1-cB SFNNELADVHFVVGPPGATRTVPAHKYVLAVGSSVFYAFYKSEIHIPDVEPAAFLILLKYYSDEIDLEADTVLATLYAAKKYIVPALAKACVNFLETSL SFNNELADVHFVVGPPGATRTVPAHKYVLAVGSSVFYAFYGDLAEVKSEIHIPDVEPAAFLILLKYYSDEIDLEADTVLATLYAAKKYIVPALAKACVNFLETSL 2vkp-a1-m1-cB_2vkp-a1-m2-cB Crystal structure of BTB domain from BTBD6 Q96KE9 Q96KE9 1.9 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 SFNNELADVHFVVGPPGATRTVPAHKYVLAVGSSVFYAFYGDLAEVKSEIHIPDVEPAAFLILLKYYSDEIDLEADTVLATLYAAKKYIVPALAKACVNFLETSL SFNNELADVHFVVGPPGATRTVPAHKYVLAVGSSVFYAFYGDLAEVKSEIHIPDVEPAAFLILLKYYSDEIDLEADTVLATLYAAKKYIVPALAKACVNFLETSL 2vkp-a1-m2-cA_2vkp-a1-m2-cB Crystal structure of BTB domain from BTBD6 Q96KE9 Q96KE9 1.9 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 105 2vkp-a1-m1-cA_2vkp-a1-m1-cB SFNNELADVHFVVGPPGATRTVPAHKYVLAVGSSVFYAFYKSEIHIPDVEPAAFLILLKYYSDEIDLEADTVLATLYAAKKYIVPALAKACVNFLETSL SFNNELADVHFVVGPPGATRTVPAHKYVLAVGSSVFYAFYGDLAEVKSEIHIPDVEPAAFLILLKYYSDEIDLEADTVLATLYAAKKYIVPALAKACVNFLETSL 2vkw-a1-m1-cB_2vkw-a1-m1-cA Human NCAM, FN3 domains 1 and 2 P13591 P13591 2.3 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 197 ADTPSSPSIDQVEPYSSTAQVQFDEPEATGGVPILKYKAEWRAVGEEVWHSKWYDAKEASMEGIVTIVGLKPETTYAVRLAALNGKGLGEISAASEFKTQPVREPSAPKLEGQMGEDGNSIKVNLIKQDDGGSPIRHYLVRYRALSSEWKPEIRLPSGSDHVMLKSLDWNAEYEVYVVAENQQGKSKAAHFVFRT QADTPSSPSIDQVEPYSSTAQVQFDEPEATGGVPILKYKAEWRAVGEEVWHSKWYDAKEASMEGIVTIVGLKPETTYAVRLAALNGKGLGEISAASEFKTQPVREPSAPKLEGQMGEDGNSIKVNLIKQDDGGSPIRHYLVRYRALSSEWKPEIRLPSGSDHVMLKSLDWNAEYEVYVVAENQQGKSKAAHFVFRTA 2vkx-a2-m1-cC_2vkx-a2-m1-cD Human NCAM, FN3 domains 1 and 2, M610R mutant P13591 P13591 2.7 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 2vkx-a1-m1-cB_2vkx-a1-m1-cA 2vkx-a3-m1-cF_2vkx-a3-m1-cE ADTPSSPSIDQVEPYSSTAQVQFDEPEATGGVPILKYKAEWRAVGEEVWHSKWYDAKEASMEGIVTIVGLKPETTYAVRLAALNGKGLGEISAASEFKTQPVREPSAPKLEGQRGEDGNSIKVNLIKQDDGGSPIRHYLVRYRALSSEWKPEIRLPSGSDHVMLKSLDWNAEYEVYVVAENQQGKSKAAHFVFRTAAA ADTPSSPSIDQVEPYSSTAQVQFDEPEATGGVPILKYKAEWRAVGEEVWHSKWYDAKEASMEGIVTIVGLKPETTYAVRLAALNGKGLGEISAASEFKTQPVREPSAPKLEGQRGEDGNSIKVNLIKQDDGGSPIRHYLVRYRALSSEWKPEIRLPSGSDHVMLKSLDWNAEYEVYVVAENQQGKSKAAHFVFRTAAA 2vl9-a1-m1-cA_2vl9-a1-m1-cB Oxidized form of human peroxiredoxin 5 P30044 P30044 2.7 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 161 APIKVGDAIPAVEVFEGEPGNKVNLAELFKGKKGVLFGVPGAFTPGCSKTHLPGFVEQAEALKAKGVQVVASLSVNDAFVTGEWGRAHKAEGKVRLLADPTGAFGKETDLLLDDSLVSIFGNRRLKRFSMVVQDGIVKALNVEPDGTGLTCSLAPNIISQL APIKVGDAIPAVEVFEGEPGNKVNLAELFKGKKGVLFGVPGAFTPGCSKTHLPGFVEQAEALKAKGVQVVASLSVNDAFVTGEWGRAHKAEGKVRLLADPTGAFGKETDLLLDDSLVSIFGNRRLKRFSMVVQDGIVKALNVEPDGTGLTCSLAPNIISQL 2vl9-a1-m1-cA_2vl9-a1-m1-cC Oxidized form of human peroxiredoxin 5 P30044 P30044 2.7 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 161 APIKVGDAIPAVEVFEGEPGNKVNLAELFKGKKGVLFGVPGAFTPGCSKTHLPGFVEQAEALKAKGVQVVASLSVNDAFVTGEWGRAHKAEGKVRLLADPTGAFGKETDLLLDDSLVSIFGNRRLKRFSMVVQDGIVKALNVEPDGTGLTCSLAPNIISQL APIKVGDAIPAVEVFEGEPGNKVNLAELFKGKKGVLFGVPGAFTPGCSKTHLPGFVEQAEALKAKGVQVVASLSVNDAFVTGEWGRAHKAEGKVRLLADPTGAFGKETDLLLDDSLVSIFGNRRLKRFSMVVQDGIVKALNVEPDGTGLTCSLAPNIISQL 2vld-a1-m1-cB_2vld-a1-m1-cA crystal structure of a repair endonuclease from Pyrococcus abyssi Q9V2E8 Q9V2E8 2.6 X-RAY DIFFRACTION 164 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 222 223 KVIIKENPSEEEIKELLDLAEKHGGVVTIFARCKVHYEGRAKSELGEGDRIIIIKPDGSFLIHQNKKREPVNWQPPGSKVTFKENSISIRRRPYERLEVEIIEPYSLVVFLAEDYEESEAEANLIFENPRVIEEGFKPIYREKPIRHGIVDVGVDKDGNIVVLELKRRKADLHAVSQKRYVDSLKEEYGENVRGILVAPSLTEGAKKLLEKEGLEFRKLEPP RKVIIKENPSEEEIKELLDLAEKHGGVVTIFARCKVHYEGRAKSELGEGDRIIIIKPDGSFLIHQNKKREPVNWQPPGSKVTFKENSISIRRRPYERLEVEIIEPYSLVVFLAEDYEESEAEANLIFENPRVIEEGFKPIYREKPIRHGIVDVGVDKDGNIVVLELKRRKADLHAVSQKRYVDSLKEEYGENVRGILVAPSLTEGAKKLLEKEGLEFRKLEPP 2vlg-a2-m1-cB_2vlg-a2-m1-cC KinA PAS-A domain, homodimer P16497 P16497 1.7 X-RAY DIFFRACTION 39 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 93 102 TDIHAVLASNGRIIYISANSKLHLGYLQGEMIGSFLKTFLHEEDQFLVESYFYNEHHLMPCTFRFIKKDHTIVWVEAAVEIVTREIILKMKVL TDIHAVLASNGRIIYISANSKLHLGYLQGEMIGSFLKTFLHEEDQFLVESYFYNEHHLMPCTFRFIKKDHTIVWVEAAVEIVTTRAERTEREIILKMKVLEE 2vli-a2-m1-cB_2vli-a2-m2-cB Structure of Deinococcus radiodurans tunicamycin resistance protein Q9RUG7 Q9RUG7 1.95 X-RAY DIFFRACTION 34 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 169 169 2vli-a1-m1-cA_2vli-a1-m2-cA RSPIIWINGPFGVGKTHTAHTLHERLPGSFVFEPEEGQALRKLTPGFSGDPQEHPWIPLLDALQYASREAAGPLIVPVSISDTARHRRLSGLKDRGLSVHHFTLIAPLNVVLERLRRDGQPQVNVGTVEDRLNELRGEQFQTHIDTAGLGTQQVAEQIAAQVGLTLAPP RSPIIWINGPFGVGKTHTAHTLHERLPGSFVFEPEEGQALRKLTPGFSGDPQEHPWIPLLDALQYASREAAGPLIVPVSISDTARHRRLSGLKDRGLSVHHFTLIAPLNVVLERLRRDGQPQVNVGTVEDRLNELRGEQFQTHIDTAGLGTQQVAEQIAAQVGLTLAPP 2vmc-a1-m2-cA_2vmc-a1-m3-cA Structure of the complex of discoidin II from Dictyostelium discoideum with N-acetyl-galactosamine P42530 P42530 1.9 X-RAY DIFFRACTION 148 1.0 366501 (Dictyostelium discoideum AX2) 366501 (Dictyostelium discoideum AX2) 252 252 2vm9-a1-m1-cA_2vm9-a1-m2-cA 2vm9-a1-m1-cA_2vm9-a1-m3-cA 2vm9-a1-m2-cA_2vm9-a1-m3-cA 2vmc-a1-m1-cA_2vmc-a1-m2-cA 2vmc-a1-m1-cA_2vmc-a1-m3-cA 2vmd-a1-m1-cA_2vmd-a1-m2-cA 2vmd-a1-m1-cA_2vmd-a1-m3-cA 2vmd-a1-m2-cA_2vmd-a1-m3-cA 2vme-a1-m1-cA_2vme-a1-m1-cB 2vme-a1-m1-cC_2vme-a1-m1-cA 2vme-a1-m1-cC_2vme-a1-m1-cB 2vme-a2-m1-cD_2vme-a2-m1-cE 2vme-a2-m1-cF_2vme-a2-m1-cD 2vme-a2-m1-cF_2vme-a2-m1-cE GSVSCLANALLNLRSSTDYNADHGVKNSILNFSNSKDASRFDGSESWSSSVLDKNQFIVAGSDSVKHFVAISTQGRGDHDQWVTSYKLRYTLDNVNWVEYNNGEIINANKDRNSIVTINFNPPIKARSIAIHPQTYNNHISLRWELYALPVKSYSNPSVQVGEVSIGDRSLNSGTGSRTIVRHVKFPVEFLSVPIVSIGCKKVDAHTDNGQMRWEGKSENITTKGFDLTFITWGNNAVYDLTFDYVAVEFNN GSVSCLANALLNLRSSTDYNADHGVKNSILNFSNSKDASRFDGSESWSSSVLDKNQFIVAGSDSVKHFVAISTQGRGDHDQWVTSYKLRYTLDNVNWVEYNNGEIINANKDRNSIVTINFNPPIKARSIAIHPQTYNNHISLRWELYALPVKSYSNPSVQVGEVSIGDRSLNSGTGSRTIVRHVKFPVEFLSVPIVSIGCKKVDAHTDNGQMRWEGKSENITTKGFDLTFITWGNNAVYDLTFDYVAVEFNN 2vml-a1-m1-cA_2vml-a1-m1-cK The monoclinic structure of phycocyanin from Gloeobacter violaceus Q7M7F7 Q7M7F7 2.4 X-RAY DIFFRACTION 90 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 162 162 2vjr-a1-m1-cA_2vjr-a1-m3-cA 2vjr-a1-m2-cA_2vjr-a1-m4-cA 2vjr-a1-m5-cA_2vjr-a1-m6-cA 2vml-a1-m1-cC_2vml-a1-m1-cG 2vml-a1-m1-cE_2vml-a1-m1-cI MKTVITEVIASADSQGRFLNNTELQAANGRFQRATASMEAARALTSNADSLVKGAVQEVYNKFPYLTQPGQMGYGDTNQAKCARDISHYLRFITYSLVAGGTGPLDDYIVAGLREVNRTFNLSPSWYIEALKHIKGKVGSQLSGQPLTEANAYIDYCINALS MKTVITEVIASADSQGRFLNNTELQAANGRFQRATASMEAARALTSNADSLVKGAVQEVYNKFPYLTQPGQMGYGDTNQAKCARDISHYLRFITYSLVAGGTGPLDDYIVAGLREVNRTFNLSPSWYIEALKHIKGKVGSQLSGQPLTEANAYIDYCINALS 2vml-a1-m1-cC_2vml-a1-m1-cK The monoclinic structure of phycocyanin from Gloeobacter violaceus Q7M7F7 Q7M7F7 2.4 X-RAY DIFFRACTION 15 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 162 162 2vjr-a1-m1-cA_2vjr-a1-m2-cA 2vjr-a1-m3-cA_2vjr-a1-m5-cA 2vjr-a1-m4-cA_2vjr-a1-m6-cA 2vml-a1-m1-cA_2vml-a1-m1-cI 2vml-a1-m1-cE_2vml-a1-m1-cG MKTVITEVIASADSQGRFLNNTELQAANGRFQRATASMEAARALTSNADSLVKGAVQEVYNKFPYLTQPGQMGYGDTNQAKCARDISHYLRFITYSLVAGGTGPLDDYIVAGLREVNRTFNLSPSWYIEALKHIKGKVGSQLSGQPLTEANAYIDYCINALS MKTVITEVIASADSQGRFLNNTELQAANGRFQRATASMEAARALTSNADSLVKGAVQEVYNKFPYLTQPGQMGYGDTNQAKCARDISHYLRFITYSLVAGGTGPLDDYIVAGLREVNRTFNLSPSWYIEALKHIKGKVGSQLSGQPLTEANAYIDYCINALS 2vn2-a1-m1-cC_2vn2-a1-m2-cC Crystal structure of the N-terminal domain of DnaD protein from Geobacillus kaustophilus HTA426 Q5KXY1 Q5KXY1 2.3 X-RAY DIFFRACTION 48 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 108 108 2vn2-a1-m1-cA_2vn2-a1-m2-cA 2vn2-a2-m1-cB_2vn2-a2-m3-cB 2vn2-a2-m1-cD_2vn2-a2-m3-cD EKKKVAEWLAQGSIAVPKLLLGHYKQLGLGEGELVLLLHMQSFFEEGVLFPTPAELAERMTVSAAECMEMVRRLLQKGMIAIEEKYTLEPLWEKLVHHLYTQAAQQGE EKKKVAEWLAQGSIAVPKLLLGHYKQLGLGEGELVLLLHMQSFFEEGVLFPTPAELAERMTVSAAECMEMVRRLLQKGMIAIEEKYTLEPLWEKLVHHLYTQAAQQGE 2vn2-a2-m3-cD_2vn2-a2-m1-cB Crystal structure of the N-terminal domain of DnaD protein from Geobacillus kaustophilus HTA426 Q5KXY1 Q5KXY1 2.3 X-RAY DIFFRACTION 10 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 108 109 2vn2-a1-m1-cC_2vn2-a1-m2-cA 2vn2-a1-m2-cC_2vn2-a1-m1-cA 2vn2-a2-m1-cD_2vn2-a2-m3-cB EKKKVAEWLAQGSIAVPKLLLGHYKQLGLGEGELVLLLHMQSFFEEGVLFPTPAELAERMTVSAAECMEMVRRLLQKGMIAIEEKYTLEPLWEKLVHHLYTQAAQQGE MEKKKVAEWLAQGSIAVPKLLLGHYKQLGLGEGELVLLLHMQSFFEEGVLFPTPAELAERMTVSAAECMEMVRRLLQKGMIAIEEKYTLEPLWEKLVHHLYTQAAQQGE 2vn2-a2-m3-cD_2vn2-a2-m3-cB Crystal structure of the N-terminal domain of DnaD protein from Geobacillus kaustophilus HTA426 Q5KXY1 Q5KXY1 2.3 X-RAY DIFFRACTION 94 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 108 109 2vn2-a1-m1-cC_2vn2-a1-m1-cA 2vn2-a1-m2-cC_2vn2-a1-m2-cA 2vn2-a2-m1-cD_2vn2-a2-m1-cB EKKKVAEWLAQGSIAVPKLLLGHYKQLGLGEGELVLLLHMQSFFEEGVLFPTPAELAERMTVSAAECMEMVRRLLQKGMIAIEEKYTLEPLWEKLVHHLYTQAAQQGE MEKKKVAEWLAQGSIAVPKLLLGHYKQLGLGEGELVLLLHMQSFFEEGVLFPTPAELAERMTVSAAECMEMVRRLLQKGMIAIEEKYTLEPLWEKLVHHLYTQAAQQGE 2vnc-a1-m1-cB_2vnc-a1-m2-cB Crystal structure of Glycogen Debranching enzyme TreX from Sulfolobus solfataricus P95868 P95868 3 X-RAY DIFFRACTION 81 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 666 666 2vnc-a1-m1-cA_2vnc-a1-m2-cA TRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDINNKTPFASINYVTSHDGFTLEDLVSYNHNEANGFNNQDGMNENYSWNCGDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERDVTFYTLEGREVDEKTWSSPTQLVIFVLEGDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEEGEKELEIEGRTALVYRR TRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDINNKTPFASINYVTSHDGFTLEDLVSYNHNEANGFNNQDGMNENYSWNCGDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERDVTFYTLEGREVDEKTWSSPTQLVIFVLEGDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEEGEKELEIEGRTALVYRR 2vnc-a1-m2-cB_2vnc-a1-m1-cA Crystal structure of Glycogen Debranching enzyme TreX from Sulfolobus solfataricus P95868 P95868 3 X-RAY DIFFRACTION 11 0.997 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 666 699 2vnc-a1-m1-cB_2vnc-a1-m2-cA TRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDINNKTPFASINYVTSHDGFTLEDLVSYNHNEANGFNNQDGMNENYSWNCGDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERDVTFYTLEGREVDEKTWSSPTQLVIFVLEGDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEEGEKELEIEGRTALVYRR DRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL 2vnv-a2-m1-cC_2vnv-a2-m1-cD Crystal structure of BclA lectin from burkholderia cenocepacia in complex with alpha-methyl-mannoside at 1.7 Angstrom resolution B4EH87 B4EH87 1.7 X-RAY DIFFRACTION 103 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 127 128 2vnv-a1-m1-cA_2vnv-a1-m1-cB 2vnv-a3-m1-cE_2vnv-a3-m2-cE 2wr9-a1-m1-cA_2wr9-a1-m1-cB 2wr9-a2-m1-cC_2wr9-a2-m1-cD 2wra-a1-m1-cA_2wra-a1-m2-cA 4aoc-a1-m1-cA_4aoc-a1-m1-cB 4aoc-a2-m1-cC_4aoc-a2-m1-cE 4aoc-a3-m1-cD_4aoc-a3-m2-cD DSQTSSNRAGEFSIPPNTDFRAIFFANAAEQQHIKLFIGDSQEPAAYHKLTTRDGPREATLNSGNGKIRFEVSVNGKPSATDARLAPINGKKSDGSPFTVNFGIVVSEDGHDSDYNDGIVVLQWPIG ADSQTSSNRAGEFSIPPNTDFRAIFFANAAEQQHIKLFIGDSQEPAAYHKLTTRDGPREATLNSGNGKIRFEVSVNGKPSATDARLAPINGKKSDGSPFTVNFGIVVSEDGHDSDYNDGIVVLQWPIG 2vo1-a1-m1-cB_2vo1-a1-m2-cB CRYSTAL STRUCTURE OF THE SYNTHETASE DOMAIN OF HUMAN CTP SYNTHETASE P17812 P17812 2.8 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 228 2vo1-a1-m1-cA_2vo1-a1-m2-cA SMKYILVTGGVISGIGKGIIASSVGTILKSCGLHVTSIKIDPYINIDNLTTGKIYQYVINKERKGDYLGKTVQVVPHITDAIQEWVMRQALIPGLEPQVCVIELGGTVGDIESMPFIEAFRQFQFKVKRENFCNIHVSLVPQPSGEQKTKPTQNSVRELRGLGLSPDLVVCRCSNPLDTSVKEKISMFCHVEPEQVICVHDVSSIYRVPLLLEEQGVVDYFLRRLDLP SMKYILVTGGVISGIGKGIIASSVGTILKSCGLHVTSIKIDPYINIDNLTTGKIYQYVINKERKGDYLGKTVQVVPHITDAIQEWVMRQALIPGLEPQVCVIELGGTVGDIESMPFIEAFRQFQFKVKRENFCNIHVSLVPQPSGEQKTKPTQNSVRELRGLGLSPDLVVCRCSNPLDTSVKEKISMFCHVEPEQVICVHDVSSIYRVPLLLEEQGVVDYFLRRLDLP 2vo1-a1-m2-cB_2vo1-a1-m1-cA CRYSTAL STRUCTURE OF THE SYNTHETASE DOMAIN OF HUMAN CTP SYNTHETASE P17812 P17812 2.8 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 235 2vo1-a1-m1-cB_2vo1-a1-m2-cA SMKYILVTGGVISGIGKGIIASSVGTILKSCGLHVTSIKIDPYINIDNLTTGKIYQYVINKERKGDYLGKTVQVVPHITDAIQEWVMRQALIPGLEPQVCVIELGGTVGDIESMPFIEAFRQFQFKVKRENFCNIHVSLVPQPSGEQKTKPTQNSVRELRGLGLSPDLVVCRCSNPLDTSVKEKISMFCHVEPEQVICVHDVSSIYRVPLLLEEQGVVDYFLRRLDLP QSMKYILVTGGVISGIGKGIIASSVGTILKSCGLHVTSIKIDPYINIDNNLTTGKIYQYVINKERKGDYLGKTVQVVPHITDAIQEWVMRQALIPVDEDGLEPQVCVIELGGTVGDIESMPFIEAFRQFQFKVKRENFCNIHVSLVPQPSSGEQKTKPTQNSVRELRGLGLSPDLVVCRCSNPLDTSVKEKISMFCHVEPEQVICVHDVSSIYRVPLLLEEQGVVDYFLRRLDLP 2vo1-a1-m2-cB_2vo1-a1-m2-cA CRYSTAL STRUCTURE OF THE SYNTHETASE DOMAIN OF HUMAN CTP SYNTHETASE P17812 P17812 2.8 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 235 2vo1-a1-m1-cB_2vo1-a1-m1-cA SMKYILVTGGVISGIGKGIIASSVGTILKSCGLHVTSIKIDPYINIDNLTTGKIYQYVINKERKGDYLGKTVQVVPHITDAIQEWVMRQALIPGLEPQVCVIELGGTVGDIESMPFIEAFRQFQFKVKRENFCNIHVSLVPQPSGEQKTKPTQNSVRELRGLGLSPDLVVCRCSNPLDTSVKEKISMFCHVEPEQVICVHDVSSIYRVPLLLEEQGVVDYFLRRLDLP QSMKYILVTGGVISGIGKGIIASSVGTILKSCGLHVTSIKIDPYINIDNNLTTGKIYQYVINKERKGDYLGKTVQVVPHITDAIQEWVMRQALIPVDEDGLEPQVCVIELGGTVGDIESMPFIEAFRQFQFKVKRENFCNIHVSLVPQPSSGEQKTKPTQNSVRELRGLGLSPDLVVCRCSNPLDTSVKEKISMFCHVEPEQVICVHDVSSIYRVPLLLEEQGVVDYFLRRLDLP 2voc-a1-m1-cB_2voc-a1-m1-cA THIOREDOXIN A ACTIVE SITE MUTANTS FORM MIXED DISULFIDE DIMERS THAT RESEMBLE ENZYME-SUBSTRATE REACTION INTERMEDIATE P14949 P14949 1.5 X-RAY DIFFRACTION 47 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 104 110 AIVKATDQSFSAETSEGVVLADFWAPWCGPSKMIAPVLEELDQEMGDKLKIVKIDVDENQETAGKYGVMSIPTLLVLKDGEVVETSVGFKPKEALQELVNKHLL AIVKATDQSFSAETSEGVVLADFWAPWCGPSKMIAPVLEELDQEMGDKLKIVKIDVDENQETAGKYGVMSIPTLLVLKDGEVVETSVGFKPKEALQELVNKHLLEHHHHH 2vof-a1-m1-cD_2vof-a1-m1-cB Structure of mouse A1 bound to the Puma BH3-domain Q99ML1 Q99ML1 1.8 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 22 23 EWAREIGAQLRRIADDLNAQYE EEWAREIGAQLRRIADDLNAQYE 2voj-a1-m1-cE_2voj-a1-m2-cE Ternary complex of M. tuberculosis Rv2780 with NAD and pyruvate P9WQB1 P9WQB1 2.6 X-RAY DIFFRACTION 48 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 371 371 2vhv-a1-m1-cA_2vhv-a1-m3-cB 2vhv-a1-m1-cB_2vhv-a1-m2-cA 2vhv-a1-m2-cB_2vhv-a1-m3-cA 2vhw-a1-m1-cB_2vhw-a1-m1-cA 2vhw-a1-m1-cC_2vhw-a1-m1-cE 2vhw-a1-m1-cD_2vhw-a1-m1-cF 2vhx-a1-m1-cA_2vhx-a1-m1-cB 2vhx-a1-m1-cC_2vhx-a1-m1-cE 2vhx-a1-m1-cD_2vhx-a1-m1-cF 2vhz-a1-m1-cA_2vhz-a1-m2-cB 2vhz-a1-m1-cB_2vhz-a1-m3-cA 2vhz-a1-m2-cA_2vhz-a1-m3-cB 2voe-a1-m1-cA_2voe-a1-m1-cE 2voe-a1-m1-cB_2voe-a1-m1-cD 2voe-a1-m1-cC_2voe-a1-m1-cF 2voj-a1-m1-cA_2voj-a1-m2-cC 2voj-a1-m1-cC_2voj-a1-m2-cA 4lmp-a3-m1-cA_4lmp-a3-m5-cA 4lmp-a3-m2-cA_4lmp-a3-m3-cA 4lmp-a3-m4-cA_4lmp-a3-m6-cA 6o7f-a2-m1-cA_6o7f-a2-m4-cA 6o7f-a2-m2-cA_6o7f-a2-m6-cA 6o7f-a2-m3-cA_6o7f-a2-m5-cA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVPGAKAPKLVSNSLVAHMKPGAVLVDIAIDQGGCFEGSRPTTYDHPTFAVHDTLFYCVANMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVPGAKAPKLVSNSLVAHMKPGAVLVDIAIDQGGCFEGSRPTTYDHPTFAVHDTLFYCVANMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA 2voj-a1-m2-cC_2voj-a1-m2-cE Ternary complex of M. tuberculosis Rv2780 with NAD and pyruvate P9WQB1 P9WQB1 2.6 X-RAY DIFFRACTION 16 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 371 371 2vhv-a1-m1-cA_2vhv-a1-m2-cA 2vhv-a1-m1-cA_2vhv-a1-m3-cA 2vhv-a1-m1-cB_2vhv-a1-m2-cB 2vhv-a1-m1-cB_2vhv-a1-m3-cB 2vhv-a1-m2-cA_2vhv-a1-m3-cA 2vhv-a1-m2-cB_2vhv-a1-m3-cB 2vhw-a1-m1-cA_2vhw-a1-m1-cE 2vhw-a1-m1-cB_2vhw-a1-m1-cC 2vhw-a1-m1-cB_2vhw-a1-m1-cF 2vhw-a1-m1-cC_2vhw-a1-m1-cF 2vhw-a1-m1-cD_2vhw-a1-m1-cA 2vhw-a1-m1-cD_2vhw-a1-m1-cE 2vhx-a1-m1-cA_2vhx-a1-m1-cE 2vhx-a1-m1-cB_2vhx-a1-m1-cF 2vhx-a1-m1-cC_2vhx-a1-m1-cB 2vhx-a1-m1-cC_2vhx-a1-m1-cF 2vhx-a1-m1-cD_2vhx-a1-m1-cA 2vhx-a1-m1-cD_2vhx-a1-m1-cE 2vhz-a1-m1-cA_2vhz-a1-m2-cA 2vhz-a1-m1-cA_2vhz-a1-m3-cA 2vhz-a1-m1-cB_2vhz-a1-m2-cB 2vhz-a1-m1-cB_2vhz-a1-m3-cB 2vhz-a1-m2-cA_2vhz-a1-m3-cA 2vhz-a1-m2-cB_2vhz-a1-m3-cB 2voe-a1-m1-cA_2voe-a1-m1-cB 2voe-a1-m1-cA_2voe-a1-m1-cC 2voe-a1-m1-cB_2voe-a1-m1-cC 2voe-a1-m1-cD_2voe-a1-m1-cE 2voe-a1-m1-cD_2voe-a1-m1-cF 2voe-a1-m1-cE_2voe-a1-m1-cF 2voj-a1-m1-cA_2voj-a1-m1-cC 2voj-a1-m1-cA_2voj-a1-m1-cE 2voj-a1-m1-cC_2voj-a1-m1-cE 2voj-a1-m2-cA_2voj-a1-m2-cC 2voj-a1-m2-cA_2voj-a1-m2-cE 4lmp-a3-m1-cA_4lmp-a3-m3-cA 4lmp-a3-m1-cA_4lmp-a3-m4-cA 4lmp-a3-m2-cA_4lmp-a3-m5-cA 4lmp-a3-m2-cA_4lmp-a3-m6-cA 4lmp-a3-m3-cA_4lmp-a3-m4-cA 4lmp-a3-m5-cA_4lmp-a3-m6-cA 6o7f-a2-m1-cA_6o7f-a2-m2-cA 6o7f-a2-m1-cA_6o7f-a2-m3-cA 6o7f-a2-m2-cA_6o7f-a2-m3-cA 6o7f-a2-m4-cA_6o7f-a2-m5-cA 6o7f-a2-m4-cA_6o7f-a2-m6-cA 6o7f-a2-m5-cA_6o7f-a2-m6-cA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVPGAKAPKLVSNSLVAHMKPGAVLVDIAIDQGGCFEGSRPTTYDHPTFAVHDTLFYCVANMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA MRVGIPTETKNNEFRVAITPAGVAELTRRGHEVLIQAGAGEGSAITDADFKAAGAQLVGTADQVWADADLLLKVKEPIAAEYGRLRHGQILFTFLHLAASRACTDALLDSGTTSIAYETVQTADGALPLLAPMSEVAGRLAAQVGAYHLMRTQGGRGVLMGGVPGVEPADVVVIGAGTAGYNAARIANGMGATVTVLDINIDKLRQLDAEFCGRIHTRYSSAYELEGAVKRADLVIGAVLVPGAKAPKLVSNSLVAHMKPGAVLVDIAIDQGGCFEGSRPTTYDHPTFAVHDTLFYCVANMPASVPKTSTYALTNATMPYVLELADHGWRAACRSNPALAKGLSTHEGALLSERVATDLGVPFTEPASVLA 2vok-a1-m1-cB_2vok-a1-m1-cA Murine TRIM21 Q62191 Q62191 1.3 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 185 186 HHHHHHMVHITLDRNTANSWLIISKDRRQVRMGDTHQNVSDNKERFSNYPMVLGAQRFSSGKMYWEVDVTQKEAWDLGVCRDSVQRKGQFSLSPENGFWTIWLWQDSYEAGTSPQTTLHIQVPPCQIGIFVDYEAGVVSFYNITDHGSLIYTFSECVFAGPLRPFFNVGFNYSGGNAAPLKLCPL AHHHHHHMVHITLDRNTANSWLIISKDRRQVRMGDTHQNVSDNKERFSNYPMVLGAQRFSSGKMYWEVDVTQKEAWDLGVCRDSVQRKGQFSLSPENGFWTIWLWQDSYEAGTSPQTTLHIQVPPCQIGIFVDYEAGVVSFYNITDHGSLIYTFSECVFAGPLRPFFNVGFNYSGGNAAPLKLCPL 2vou-a2-m1-cB_2vou-a2-m1-cC Structure of 2,6-dihydroxypyridine-3-hydroxylase from Arthrobacter nicotinovorans Q93NG3 Q93NG3 2.6 X-RAY DIFFRACTION 62 1.0 29320 (Paenarthrobacter nicotinovorans) 29320 (Paenarthrobacter nicotinovorans) 387 387 2vou-a1-m1-cA_2vou-a1-m2-cA SPTTDRIAVVGGSISGLTAALMLRDAGVDVDVYERSPQPLSGFGTGIVVQPELVHYLLEQGVELDSISVPSSSMEYVDALTGERVGSVPADWRFTSYDSIYGGLYELFGPERYHTSKCLVGLSQDSETVQMRFSDGTKAEANWVIGADGGASVVRKRLLGIEPTYAGYVTWRGVLQPGEVADDVWNYFNDKFTYGLLDDGHLIAYPIPGRENAESPRLNFQWYWNVAEGPDLDELMTDVRGIRLPTSVHNNSLNPHNLRQFHSKGESLFKPFRDLVLNASSPFVTVVADATVDRMVHGRVLLIGDAAVTPRPHAAAGGAKASDDARTLAEVFTKNHDLRGSLQSWETRQLQQGHAYLNKVKKMASRLQHGGSFEPGNPAFAFGLPKV SPTTDRIAVVGGSISGLTAALMLRDAGVDVDVYERSPQPLSGFGTGIVVQPELVHYLLEQGVELDSISVPSSSMEYVDALTGERVGSVPADWRFTSYDSIYGGLYELFGPERYHTSKCLVGLSQDSETVQMRFSDGTKAEANWVIGADGGASVVRKRLLGIEPTYAGYVTWRGVLQPGEVADDVWNYFNDKFTYGLLDDGHLIAYPIPGRENAESPRLNFQWYWNVAEGPDLDELMTDVRGIRLPTSVHNNSLNPHNLRQFHSKGESLFKPFRDLVLNASSPFVTVVADATVDRMVHGRVLLIGDAAVTPRPHAAAGGAKASDDARTLAEVFTKNHDLRGSLQSWETRQLQQGHAYLNKVKKMASRLQHGGSFEPGNPAFAFGLPKV 2voz-a1-m1-cB_2voz-a1-m2-cB Apo FutA2 from Synechocystis PCC6803 Q55835 Q55835 1.7 X-RAY DIFFRACTION 70 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 315 315 2voz-a1-m1-cA_2voz-a1-m2-cA QSRTINLYSSRHYNTDDALYDAFGEVNLIEASAEELIERIQSEGANSPGDILFTVDAGMLWRAEQAGLFQPVRSGKLNERIPENLRHPDGLWYGFTQRARVLYYSRDRVNPADLSTYEALADPQWRGKILVRPSSNVYNLSLTASRIAIHGEPETRRWLQGLVGNFARQPEGNDTAQIRAIAAGIGDVAIANSYYYIRLQKSTDPADQEVVEKVSLFFPNTGSGERGTHVNVSGAGVLKNAPNRDAAIAFLEYLASDDAQRYFAEGNNEYPVIPGVPIDPVLAAHGQLKGDPLNVSNLGRYQPDSARLMNEVGWQ QSRTINLYSSRHYNTDDALYDAFGEVNLIEASAEELIERIQSEGANSPGDILFTVDAGMLWRAEQAGLFQPVRSGKLNERIPENLRHPDGLWYGFTQRARVLYYSRDRVNPADLSTYEALADPQWRGKILVRPSSNVYNLSLTASRIAIHGEPETRRWLQGLVGNFARQPEGNDTAQIRAIAAGIGDVAIANSYYYIRLQKSTDPADQEVVEKVSLFFPNTGSGERGTHVNVSGAGVLKNAPNRDAAIAFLEYLASDDAQRYFAEGNNEYPVIPGVPIDPVLAAHGQLKGDPLNVSNLGRYQPDSARLMNEVGWQ 2voz-a1-m2-cA_2voz-a1-m2-cB Apo FutA2 from Synechocystis PCC6803 Q55835 Q55835 1.7 X-RAY DIFFRACTION 96 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 313 315 2voz-a1-m1-cA_2voz-a1-m1-cB RTINLYSSRHYNTDDALYDAFGEVNLIEASAEELIERIQSEGANSPGDILFTVDAGMLWRAEQAGLFQPVRSGKLNERIPENLRHPDGLWYGFTQRARVLYYSRDRVNPADLSTYEALADPQWRGKILVRPSSNVYNLSLTASRIAIHGEPETRRWLQGLVGNFARQPEGNDTAQIRAIAAGIGDVAIANSYYYIRLQKSTDPADQEVVEKVSLFFPNTGSGERGTHVNVSGAGVLKNAPNRDAAIAFLEYLASDDAQRYFAEGNNEYPVIPGVPIDPVLAAHGQLKGDPLNVSNLGRYQPDSARLMNEVGWQ QSRTINLYSSRHYNTDDALYDAFGEVNLIEASAEELIERIQSEGANSPGDILFTVDAGMLWRAEQAGLFQPVRSGKLNERIPENLRHPDGLWYGFTQRARVLYYSRDRVNPADLSTYEALADPQWRGKILVRPSSNVYNLSLTASRIAIHGEPETRRWLQGLVGNFARQPEGNDTAQIRAIAAGIGDVAIANSYYYIRLQKSTDPADQEVVEKVSLFFPNTGSGERGTHVNVSGAGVLKNAPNRDAAIAFLEYLASDDAQRYFAEGNNEYPVIPGVPIDPVLAAHGQLKGDPLNVSNLGRYQPDSARLMNEVGWQ 2vp8-a1-m1-cA_2vp8-a1-m1-cB Structure of Mycobacterium tuberculosis Rv1207 P9WNC9 P9WNC9 2.64 X-RAY DIFFRACTION 88 0.987 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 233 236 AGHSTLCGRPVAGDRALIMAIVNDAAARDAVHRAVADGADVIDVGDVDTEITRLVPFIEWLRGAYPDQLISVDTWRAQVAKAACAAGADLINDTWGGVDPAMPEVAAEFGAGLVCAHTYGTTTRGVVDAVISQVTAAAERAVAAGVAREKVLIDPAHDFGKNTFHGLLLLRHVADLVMTGWPVLMALSRLEGTLAATALAAAAGARMFRVHEVAATRRVLEMVASIQGVRPPT HSTLCGRPVAGDRALIMAIVNRTDAAARDAVHRAVADGADVIDVGGVDVDTEITRLVPFIEWLRGAYPDQLISVDTWRAQVAKAACAAGADLINDTWGGVDPAMPEVAAEFGAGLVCAHTYGTTTRGVVDAVISQVTAAAERAVAAGVAREKVLIDPAHDFGKNTFHGLLLLRHVADLVMTGWPVLMALSNERLEGTLAATALAAAAGARMFRVHEVAATRRVLEMVASIQGVRPP 2vpa-a1-m1-cA_2vpa-a1-m2-cA High resolution crystal structure of the antibiotic resistance protein NimA from Deinococcus radiodurans Q9RW27 Q9RW27 1.2 X-RAY DIFFRACTION 152 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 204 204 1w3o-a1-m1-cA_1w3o-a1-m2-cA 1w3p-a1-m1-cA_1w3p-a1-m2-cA 1w3q-a1-m1-cA_1w3q-a1-m2-cA 1w3r-a1-m1-cA_1w3r-a1-m2-cA 2x1j-a1-m1-cA_2x1j-a1-m2-cA 2x1k-a1-m1-cA_2x1k-a1-m2-cA SYYHHHHHHLSDFYDPRERDPSVSRRPQNRQSDEWIRELLLRGTIARVATLWQGEDGAAFPFITPLAYAYRPEQGDLVYHTNVVGRLRANAGQGHPATLEVSEIGQFLPSNSPLELSVQYRSVMVFGTARVLAGEDARAALTTLSERVFPGLKVGETTRPISEDDLKRTSVYSLSIDRWSGKENWAEQAIQEEDWPALGPEWLG SYYHHHHHHLSDFYDPRERDPSVSRRPQNRQSDEWIRELLLRGTIARVATLWQGEDGAAFPFITPLAYAYRPEQGDLVYHTNVVGRLRANAGQGHPATLEVSEIGQFLPSNSPLELSVQYRSVMVFGTARVLAGEDARAALTTLSERVFPGLKVGETTRPISEDDLKRTSVYSLSIDRWSGKENWAEQAIQEEDWPALGPEWLG 2vph-a1-m1-cB_2vph-a1-m1-cA Crystal structure of the human protein tyrosine phosphatase, non- receptor type 4, PDZ domain P29074 P29074 1.9 X-RAY DIFFRACTION 41 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 92 98 MDNLVLIRMKPDNGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDIAEHTHDQVVLFIKASELMLLVRPNAVESTV DNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDIAEHTHDQVVLFIKASCERHSGELMLLVRPNAVESTV 2vpk-a1-m1-cA_2vpk-a1-m2-cA Crystal structure of the BTB domain of human myoneurin Q9NPC7 Q9NPC7 2 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 SMSHHCEHLLERLNKQREAGFLCDCTIVIGEFQFKAHRNVLASFSEYFGAIYRSTSENNVFLDQSQVKADGFQKLLEFIYTGTLNLDSWNVKEIHQAADYLKVEEVVTKCKIKME SMSHHCEHLLERLNKQREAGFLCDCTIVIGEFQFKAHRNVLASFSEYFGAIYRSTSENNVFLDQSQVKADGFQKLLEFIYTGTLNLDSWNVKEIHQAADYLKVEEVVTKCKIKME 2vpq-a1-m1-cA_2vpq-a1-m1-cB Crystal structure of biotin carboxylase from S. aureus complexed with AMPPNP A0A0H3JRR2 A0A0H3JRR2 2.1 X-RAY DIFFRACTION 94 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 447 448 KKVLIANRGEIAVRIIRACRDLGIQTVAIYSEGDKDALHTQIADEAYCVGPTLSKDSYLNIPNILSIATSTGCDGVHPGYGFLAENADFAELCEACQLKFIGPSYQSIQKMGIKDVAKAEMIKANVPVVPGSDGLMKDVSEAKKIAKKIGYPVIIKATAGGGGKGIRVARDEKELETGFRMTEQEAQTAFGNGGLYMEKFIENFRHIEIQIVGDSYGNVIHLGERDCTIQRRMQKLVEEAPSPILDDETRREMGNAAVRAAKAVNYENAGTIEFIYDLNDNKFYFMEMNTRIQVEHPVTEMVTGIDLVKLQLQVAMGDVLPYKQEDIKLTGHAIEFRINAENPYKNFMPSPGKIEQYLAPGGYGVRIESACYTNYTIPPYYDSMVAKLIIHEPTRDEAIMAGIRALSEFVVLGIDTTIPFHIKLLNNDIFRSGKFNTNFLEQNSIMN KKVLIANRGEIAVRIIRACRDLGIQTVAIYSEGDKDALHTQIADEAYCVGPTLSKDSYLNIPNILSIATSTGCDGVHPGYGFLAENADFAELCEACQLKFIGPSYQSIQKMGIKDVAKAEMIKANVPVVPGSDGLMKDVSEAKKIAKKIGYPVIIKATAGGGGKGIRVARDEKELETGFRMTEQEAQTAFGNGGLYMEKFIENFRHIEIQIVGDSYGNVIHLGERDCTIQRRMQKLVEEAPSPILDDETRREMGNAAVRAAKAVNYENAGTIEFIYDLNDNKFYFMEMNTRIQVEHPVTEMVTGIDLVKLQLQVAMGDVLPYKQEDIKLTGHAIEFRINAENPYKNFMPSPGKIEQYLAPGGYGVRIESACYTNYTIPPYYDSMVAKLIIHEPTRDEAIMAGIRALSEFVVLGIDTTIPFHIKLLNNDIFRSGKFNTNFLEQNSIMND 2vpt-a1-m1-cA_2vpt-a1-m2-cA Clostridium thermocellum family 3 carbohydrate esterase A3DDK4 A3DDK4 1.4 X-RAY DIFFRACTION 31 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 198 198 KTIKIPVGDSCTEGGGGEGSYRTELYRLLTQAGLSIDFVGSQRSGPSSLPDKDHEGHSGWTIPQIASNINNWLNTHNPDVVFLWIGGNDLLLNGNLNATGLSNLIDQIFTVKPNVTLFVADYYPWPEAIKQYNAVIPGIVQQKANAGKKVYFVKLSEIQFDRNTDISWDGLHLSEIGYKKIANIWYKYTIDILRALAG KTIKIPVGDSCTEGGGGEGSYRTELYRLLTQAGLSIDFVGSQRSGPSSLPDKDHEGHSGWTIPQIASNINNWLNTHNPDVVFLWIGGNDLLLNGNLNATGLSNLIDQIFTVKPNVTLFVADYYPWPEAIKQYNAVIPGIVQQKANAGKKVYFVKLSEIQFDRNTDISWDGLHLSEIGYKKIANIWYKYTIDILRALAG 2vpv-a1-m2-cB_2vpv-a1-m3-cB Dimerization Domain of Mif2p P35201 P35201 2.7 X-RAY DIFFRACTION 11 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 92 92 2vpv-a1-m1-cA_2vpv-a1-m2-cA 2vpv-a1-m1-cA_2vpv-a1-m3-cA 2vpv-a1-m1-cB_2vpv-a1-m2-cB 2vpv-a1-m1-cB_2vpv-a1-m3-cB 2vpv-a1-m2-cA_2vpv-a1-m3-cA FALEIMFDKHKEYFASGILKLPAISGQKKLSNSFRTYITFHVIQGIVEVTVCKNKFLSVKGSTFQIPAFNEYAIANRGNDEAKMFFVQVTVS FALEIMFDKHKEYFASGILKLPAISGQKKLSNSFRTYITFHVIQGIVEVTVCKNKFLSVKGSTFQIPAFNEYAIANRGNDEAKMFFVQVTVS 2vpv-a1-m3-cB_2vpv-a1-m1-cA Dimerization Domain of Mif2p P35201 P35201 2.7 X-RAY DIFFRACTION 21 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 92 94 2vpv-a1-m1-cB_2vpv-a1-m2-cA 2vpv-a1-m2-cB_2vpv-a1-m3-cA FALEIMFDKHKEYFASGILKLPAISGQKKLSNSFRTYITFHVIQGIVEVTVCKNKFLSVKGSTFQIPAFNEYAIANRGNDEAKMFFVQVTVS ENFALEIMFDKHKEYFASGILKLPAISGQKKLSNSFRTYITFHVIQGIVEVTVCKNKFLSVKGSTFQIPAFNEYAIANRGNDEAKMFFVQVTVS 2vpv-a1-m3-cB_2vpv-a1-m3-cA Dimerization Domain of Mif2p P35201 P35201 2.7 X-RAY DIFFRACTION 53 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 92 94 2vpv-a1-m1-cB_2vpv-a1-m1-cA 2vpv-a1-m2-cB_2vpv-a1-m2-cA FALEIMFDKHKEYFASGILKLPAISGQKKLSNSFRTYITFHVIQGIVEVTVCKNKFLSVKGSTFQIPAFNEYAIANRGNDEAKMFFVQVTVS ENFALEIMFDKHKEYFASGILKLPAISGQKKLSNSFRTYITFHVIQGIVEVTVCKNKFLSVKGSTFQIPAFNEYAIANRGNDEAKMFFVQVTVS 2vpy-a1-m1-cB_2vpy-a1-m1-cF Polysulfide reductase with bound quinone inhibitor, pentachlorophenol (PCP) Q72LA5 Q72LA5 2.5 X-RAY DIFFRACTION 21 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 193 193 2vpw-a1-m1-cB_2vpw-a1-m1-cF 2vpx-a1-m1-cB_2vpx-a1-m1-cF 2vpz-a1-m1-cB_2vpz-a1-m1-cF MPRYAMAIDLSLCVGCAACAVACKMENEVPPGVFNLWIREREVGEYPNLVVEFRPEQCLHCENPPCVPVCPTGASYQTKDGLVLVDPKKCIACGACIAACPYDARYLHPAGYVSKCTFCAHRLEKGKVPACVETCPTYCRTFGDLEDPESPVAKALKAAERVDVLRPEQGTRPKLFYLNAPSKKGLTRESEVH MPRYAMAIDLSLCVGCAACAVACKMENEVPPGVFNLWIREREVGEYPNLVVEFRPEQCLHCENPPCVPVCPTGASYQTKDGLVLVDPKKCIACGACIAACPYDARYLHPAGYVSKCTFCAHRLEKGKVPACVETCPTYCRTFGDLEDPESPVAKALKAAERVDVLRPEQGTRPKLFYLNAPSKKGLTRESEVH 2vpy-a1-m1-cC_2vpy-a1-m1-cG Polysulfide reductase with bound quinone inhibitor, pentachlorophenol (PCP) Q72LA6 Q72LA6 2.5 X-RAY DIFFRACTION 73 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 250 250 2vpw-a1-m1-cC_2vpw-a1-m1-cG 2vpx-a1-m1-cC_2vpx-a1-m1-cG 2vpz-a1-m1-cC_2vpz-a1-m1-cG AEFYGLPNAQEFWHWTNALHFVLVGLAGGVALLAALLHLKGDAEARRYTLYALMLIALDLFILWAESPARFRFTHIWLFLSFHPTSPIWWGAWGLGLGFLTGGLLYLGKGSQRALAWALLVFSLVALSYPGLALAVNLNRPLWNGLMAGLFPLTALVLALGLAALLKSPWALFPLRVLAGASLLLALLYPLTLPPEARGHLLEEAGFWYGLFLLLGLGTFWQERLAPWAGLLAAAGLRALLVLAGQWQGL AEFYGLPNAQEFWHWTNALHFVLVGLAGGVALLAALLHLKGDAEARRYTLYALMLIALDLFILWAESPARFRFTHIWLFLSFHPTSPIWWGAWGLGLGFLTGGLLYLGKGSQRALAWALLVFSLVALSYPGLALAVNLNRPLWNGLMAGLFPLTALVLALGLAALLKSPWALFPLRVLAGASLLLALLYPLTLPPEARGHLLEEAGFWYGLFLLLGLGTFWQERLAPWAGLLAAAGLRALLVLAGQWQGL 2vq2-a1-m1-cA_2vq2-a1-m2-cA Crystal structure of PilW, widely conserved type IV pilus biogenesis factor Q9JZ41 Q9JZ41 1.54 X-RAY DIFFRACTION 89 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 220 220 ANQVSNIKTQLAMEYMRGQDYRQATASIEDALKSDPKNELAWLVRAEIYQYLKVNDKAQESFRQALSIKPDSAEINNNYGWFLCGRLNRPAESMAYFDKALADPTYPTPYIANLNKGICSAKQGQFGLAEAYLKRSLAAQPQFPPAFKELARTKMLAGQLGDADYYFKKYQSRVEVLQADDLLLGWKIAKALGNAQAAYEYEAQLQANFPYSEELQTVLT ANQVSNIKTQLAMEYMRGQDYRQATASIEDALKSDPKNELAWLVRAEIYQYLKVNDKAQESFRQALSIKPDSAEINNNYGWFLCGRLNRPAESMAYFDKALADPTYPTPYIANLNKGICSAKQGQFGLAEAYLKRSLAAQPQFPPAFKELARTKMLAGQLGDADYYFKKYQSRVEVLQADDLLLGWKIAKALGNAQAAYEYEAQLQANFPYSEELQTVLT 2vq3-a1-m1-cB_2vq3-a1-m1-cA Crystal Structure of the Membrane Proximal Oxidoreductase Domain of Human Steap3, the Dominant Ferric Reductase of the Erythroid Transferrin Cycle Q658P3 Q658P3 2 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 181 2vns-a1-m1-cA_2vns-a1-m1-cB PKVGILGSGDFARSLATRLVGSGFKVVVGSRNPKRTARLFPSAAQVTFQEEAVSSPEVIFVAVFREHYSSLCSLSDQLAGKILVDVSNPTEQEHLQHRESNAEYLASLFPTCTVVKAFNVISAWTLQAGPRDGNRQVPICGDQPEAKRAVSEMALAMGFMPVDMGSLASAWEVEAMPLRL PKVGILGSGDFARSLATRLVGSGFKVVVGSRNPKRTARLFPSAAQVTFQEEAVSSPEVIFVAVFREHYSSLCSLSDQLAGKILVDVSNPTEQEHLQHRESNAEYLASLFPTCTVVKAFNVISAWTLQAGPRDGNRQVPICGDQPEAKRAVSEMALAMGFMPVDMGSLASAWEVEAMPLRLL 2vq5-a1-m1-cA_2vq5-a1-m2-cA X-ray structure of Norcoclaurine synthase from Thalictrum flavum in complex with dopamine and hydroxybenzaldehyde Q67A25 Q67A25 2.09 X-RAY DIFFRACTION 60 1.0 150094 (Thalictrum flavum) 150094 (Thalictrum flavum) 169 169 2vne-a1-m1-cA_2vne-a1-m2-cA SQKLILTGRGIINQVSTVTKVIHHELEVAASADDIWTVYSWPGLAKHLPDLLPGAFEKLEIIGDGGVGTILDTFVPGEFPHEYKEKFILVDNEHRLKKVQIEGGYLDLGVTYYDTIHVVPTGKDSCVIKSSTEYHVKPEFVKIVEPLITTGPLAAADAISKLVLEHKSK SQKLILTGRGIINQVSTVTKVIHHELEVAASADDIWTVYSWPGLAKHLPDLLPGAFEKLEIIGDGGVGTILDTFVPGEFPHEYKEKFILVDNEHRLKKVQIEGGYLDLGVTYYDTIHVVPTGKDSCVIKSSTEYHVKPEFVKIVEPLITTGPLAAADAISKLVLEHKSK 2vq5-a1-m2-cB_2vq5-a1-m2-cA X-ray structure of Norcoclaurine synthase from Thalictrum flavum in complex with dopamine and hydroxybenzaldehyde Q67A25 Q67A25 2.09 X-RAY DIFFRACTION 73 1.0 150094 (Thalictrum flavum) 150094 (Thalictrum flavum) 151 169 2vne-a1-m1-cB_2vne-a1-m2-cA 2vne-a1-m2-cB_2vne-a1-m1-cA 2vq5-a1-m1-cB_2vq5-a1-m1-cA STVTKVIHHELEVAASADDIWTVYSWPGLAKHLPDLLPGAFEKLEIIGDGGVGTILDTFVPGEFPHEYKEKFILVDNEHRLKKVQIEGGYLDLGVTYYDTIHVVPTGKDSCVIKSSTEYHVKPEFVKIVEPLITTGPLAAADAISKLVLEH SQKLILTGRGIINQVSTVTKVIHHELEVAASADDIWTVYSWPGLAKHLPDLLPGAFEKLEIIGDGGVGTILDTFVPGEFPHEYKEKFILVDNEHRLKKVQIEGGYLDLGVTYYDTIHVVPTGKDSCVIKSSTEYHVKPEFVKIVEPLITTGPLAAADAISKLVLEHKSK 2vqa-a1-m1-cC_2vqa-a1-m1-cB Protein-folding location can regulate Mn versus Cu- or Zn-binding. Crystal Structure of MncA. P73510 P73510 2.95 X-RAY DIFFRACTION 224 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 354 356 2vqa-a1-m1-cA_2vqa-a1-m1-cB 2vqa-a1-m1-cC_2vqa-a1-m1-cA WRSLSNVVWGKDLPAFTYAFSKTPLVLYDGGTTKQVGTYNFPVSKGMAGVYMSLEPGAIRELHWHANAAEWAYVMEGRTRITLTSPEGKVEIADVDKGGLWYFPRGWGHSIEGIGPDTAKFLLVFNDGTFSEGATFSVTDWLSHTPIAWVEENLGWTAAQVAQLPKKQVYISSYGPASGPLASATPQGQTAKIEVPHTHNLLGQQPLVSLGGNELRLASAKEFPGSFNMTGALIHLEPGAMRQLHWHPNADEWQYVLDGEMDLTVFASEGKASVSRLQQGDVGYVPKGYGHAIRNSSQKPLDIVVVFNDGDYQSIDLSTWLASNPSSVLGNTFQISPELTKKLPVQDTIFSLPT WRSLSNVVWGKDLPAFTYAFSKTPLVLYDGGTTKQVGTYNFPVSKGMAGVYMSLEPGAIRELHWHANAAEWAYVMEGRTRITLTSPEGKVEIADVDKGGLWYFPRGWGHSIEGIGPDTAKFLLVFNDGTFSEGATFSVTDWLSHTPIAWVEENLGWTAAQVAQLPKKQVYISSYGPASGPLASATPQGQTAKIEVPHTHNLLGQQPLVSLGGNELRLASAKEFPGSFNMTGALIHLEPGAMRQLHWHPNADEWQYVLDGEMDLTVFASEGKASVSRLQQGDVGYVPKGYGHAIRNSSQKPLDIVVVFNDGDYQSIDLSTWLASNPSSVLGNTFQISPELTKKLPVQDTIFSLPTQP 2vqr-a1-m2-cA_2vqr-a1-m4-cA Crystal structure of a phosphonate monoester hydrolase from rhizobium leguminosarum: a new member of the alkaline phosphatase superfamily Q1M964 Q1M964 1.42 X-RAY DIFFRACTION 193 1.0 216596 (Rhizobium leguminosarum bv. viciae 3841) 216596 (Rhizobium leguminosarum bv. viciae 3841) 511 511 2vqr-a1-m1-cA_2vqr-a1-m3-cA KKNVLLIVVDQWRADFVPHVLRADGKIDFLKTPNLDRLCREGVTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRGVGYDPALIGYTTTVPDPRTTSPNDPRFRVLGDLMDGFHPVGAFEPNMEGYFGWVAQNGFDLPEHRPDIWLPEGEDAVAGATDRPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYRPEDMPAPIRAANPDIEAAQHPLMKFYVDSIRRGSFFQGAEGSGATLDEAELRQMRATYCGLITEVDDCLGRVFSYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNDPSFRIPLVIKDAGENARAGAIESGFTESIDVMPTILDWLGGKIPHACDGLSLLPFLSEGRPQDWRTELHYEYDFRDVYYSEPQSFLGLGMNDCSLCVIQDERYKYVHFAALPPLFFDLRHDPNEFTNLADDPAYAALVRDYAQKALSWRLKHADRTLTHYRSGPEGLSERSH KKNVLLIVVDQWRADFVPHVLRADGKIDFLKTPNLDRLCREGVTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRGVGYDPALIGYTTTVPDPRTTSPNDPRFRVLGDLMDGFHPVGAFEPNMEGYFGWVAQNGFDLPEHRPDIWLPEGEDAVAGATDRPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYRPEDMPAPIRAANPDIEAAQHPLMKFYVDSIRRGSFFQGAEGSGATLDEAELRQMRATYCGLITEVDDCLGRVFSYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNDPSFRIPLVIKDAGENARAGAIESGFTESIDVMPTILDWLGGKIPHACDGLSLLPFLSEGRPQDWRTELHYEYDFRDVYYSEPQSFLGLGMNDCSLCVIQDERYKYVHFAALPPLFFDLRHDPNEFTNLADDPAYAALVRDYAQKALSWRLKHADRTLTHYRSGPEGLSERSH 2vqr-a1-m3-cA_2vqr-a1-m4-cA Crystal structure of a phosphonate monoester hydrolase from rhizobium leguminosarum: a new member of the alkaline phosphatase superfamily Q1M964 Q1M964 1.42 X-RAY DIFFRACTION 89 1.0 216596 (Rhizobium leguminosarum bv. viciae 3841) 216596 (Rhizobium leguminosarum bv. viciae 3841) 511 511 2vqr-a1-m1-cA_2vqr-a1-m2-cA KKNVLLIVVDQWRADFVPHVLRADGKIDFLKTPNLDRLCREGVTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRGVGYDPALIGYTTTVPDPRTTSPNDPRFRVLGDLMDGFHPVGAFEPNMEGYFGWVAQNGFDLPEHRPDIWLPEGEDAVAGATDRPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYRPEDMPAPIRAANPDIEAAQHPLMKFYVDSIRRGSFFQGAEGSGATLDEAELRQMRATYCGLITEVDDCLGRVFSYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNDPSFRIPLVIKDAGENARAGAIESGFTESIDVMPTILDWLGGKIPHACDGLSLLPFLSEGRPQDWRTELHYEYDFRDVYYSEPQSFLGLGMNDCSLCVIQDERYKYVHFAALPPLFFDLRHDPNEFTNLADDPAYAALVRDYAQKALSWRLKHADRTLTHYRSGPEGLSERSH KKNVLLIVVDQWRADFVPHVLRADGKIDFLKTPNLDRLCREGVTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRGVGYDPALIGYTTTVPDPRTTSPNDPRFRVLGDLMDGFHPVGAFEPNMEGYFGWVAQNGFDLPEHRPDIWLPEGEDAVAGATDRPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYRPEDMPAPIRAANPDIEAAQHPLMKFYVDSIRRGSFFQGAEGSGATLDEAELRQMRATYCGLITEVDDCLGRVFSYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNDPSFRIPLVIKDAGENARAGAIESGFTESIDVMPTILDWLGGKIPHACDGLSLLPFLSEGRPQDWRTELHYEYDFRDVYYSEPQSFLGLGMNDCSLCVIQDERYKYVHFAALPPLFFDLRHDPNEFTNLADDPAYAALVRDYAQKALSWRLKHADRTLTHYRSGPEGLSERSH 2vqz-a1-m1-cE_2vqz-a1-m1-cB Structure of the cap-binding domain of influenza virus polymerase subunit PB2 with bound m7GTP P31345 P31345 2.3 X-RAY DIFFRACTION 33 0.993 11320 (Influenza A virus) 11320 (Influenza A virus) 150 152 2vqz-a1-m1-cA_2vqz-a1-m1-cD 2vqz-a1-m1-cB_2vqz-a1-m1-cA 2vqz-a1-m1-cE_2vqz-a1-m1-cD SSSFSFGGFTFKRTSGSSIKREEEVLTGNLQTLKIRVHEGYEEFTVGKRATAILRKATRRLVQLIVSGKDEQSIAEAIIVAVFSQEDCIKAVRGDLNFVNRLNPHQLLRHFQKDAKVLFQNWGIEHIDNVGVGVLPDTPSTESRGIRVSK SSSFSFGGFTFKRTSGSSIKREEEVLTGNLQTLKIRVHEGYEEFTVGKRATAILRKATRRLVQLIVSGKDEQSIAEAIIVAVFSQEDCIKAVRGDLNFVANQRLNPHQLLRHFQKDAKVLFQNWGIEHIDNVGVGVLPDTPSTESRGIRVSK 2vqz-a1-m1-cF_2vqz-a1-m1-cA Structure of the cap-binding domain of influenza virus polymerase subunit PB2 with bound m7GTP P31345 P31345 2.3 X-RAY DIFFRACTION 11 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 150 154 SFSFGGFTFKRTSGSSIKREEEVLTGNLQTLKIRVHEGYEEFTVGKRATAILRKATRRLVQLIVSGKDEQSIAEAIIVAVFSQEDCIKAVRGDLNFVNNQRLNPHQLLRHFQKDAKVLFQNWGIEHIDNVGVGVLPDTPSTESRGIRVSK SSSFSFGGFTFKRTSGSSIKREEEVLTGNLQTLKIRVHEGYEEFTVGKRATAILRKATRRLVQLIVSGKDEQSIAEAIIVAVFSQEDCIKAVRGDLNFVNRANQRLNPHQLLRHFQKDAKVLFQNWGIEHIDNVGVGVLPDTPSTESRGIRVSK 2vqz-a1-m1-cF_2vqz-a1-m1-cB Structure of the cap-binding domain of influenza virus polymerase subunit PB2 with bound m7GTP P31345 P31345 2.3 X-RAY DIFFRACTION 25 0.993 11320 (Influenza A virus) 11320 (Influenza A virus) 150 152 SFSFGGFTFKRTSGSSIKREEEVLTGNLQTLKIRVHEGYEEFTVGKRATAILRKATRRLVQLIVSGKDEQSIAEAIIVAVFSQEDCIKAVRGDLNFVNNQRLNPHQLLRHFQKDAKVLFQNWGIEHIDNVGVGVLPDTPSTESRGIRVSK SSSFSFGGFTFKRTSGSSIKREEEVLTGNLQTLKIRVHEGYEEFTVGKRATAILRKATRRLVQLIVSGKDEQSIAEAIIVAVFSQEDCIKAVRGDLNFVANQRLNPHQLLRHFQKDAKVLFQNWGIEHIDNVGVGVLPDTPSTESRGIRVSK 2vr2-a1-m2-cA_2vr2-a1-m4-cA Human Dihydropyrimidinase Q14117 Q14117 2.8 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 478 478 2vr2-a1-m1-cA_2vr2-a1-m3-cA SRLLIRGGRVVNDDFSEVADVLVEDGVVRALGHLRVLDAAGKLVLPGGIDTHTHMQFPFMGSRSIDDFHQGTKAALSGGTTMIIDFAIPQKGGSLIEAFETWRSWADPKVCCDYSLHVAVTWWSDQVKEEMKILVQDKGVNSFKMFMAYKDLYMVTDLELYEAFSRCKEIGAIAQVHAENGDLIAEGAKKMLALGITGPEGHELCRPEAVEAEATLRAITIASAVNCPLYIVHVMSKSAAKVIADARRDGKVVYGEPIAASLGTDGTHYWNKEWHHAAHHVMGPPLRPDPSTPDFLMNLLANDDLTTTGTDNCTFNTCQKALGKDDFTKIPNGVNGVEDRMSVIWEKGVHSGKMDENRFVAVTSTNAAKIFNLYPRKGRIAVGSDADIVIWDPKGTRTISAKTHHQAVNFNIFEGMVCHGVPLVTISRGKVVYEAGVFSVTAGDGKFIPRKPFAEYIYKRIKQRDRTCTPTPVERAPY SRLLIRGGRVVNDDFSEVADVLVEDGVVRALGHLRVLDAAGKLVLPGGIDTHTHMQFPFMGSRSIDDFHQGTKAALSGGTTMIIDFAIPQKGGSLIEAFETWRSWADPKVCCDYSLHVAVTWWSDQVKEEMKILVQDKGVNSFKMFMAYKDLYMVTDLELYEAFSRCKEIGAIAQVHAENGDLIAEGAKKMLALGITGPEGHELCRPEAVEAEATLRAITIASAVNCPLYIVHVMSKSAAKVIADARRDGKVVYGEPIAASLGTDGTHYWNKEWHHAAHHVMGPPLRPDPSTPDFLMNLLANDDLTTTGTDNCTFNTCQKALGKDDFTKIPNGVNGVEDRMSVIWEKGVHSGKMDENRFVAVTSTNAAKIFNLYPRKGRIAVGSDADIVIWDPKGTRTISAKTHHQAVNFNIFEGMVCHGVPLVTISRGKVVYEAGVFSVTAGDGKFIPRKPFAEYIYKRIKQRDRTCTPTPVERAPY 2vr2-a1-m3-cA_2vr2-a1-m4-cA Human Dihydropyrimidinase Q14117 Q14117 2.8 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 478 478 2vr2-a1-m1-cA_2vr2-a1-m2-cA SRLLIRGGRVVNDDFSEVADVLVEDGVVRALGHLRVLDAAGKLVLPGGIDTHTHMQFPFMGSRSIDDFHQGTKAALSGGTTMIIDFAIPQKGGSLIEAFETWRSWADPKVCCDYSLHVAVTWWSDQVKEEMKILVQDKGVNSFKMFMAYKDLYMVTDLELYEAFSRCKEIGAIAQVHAENGDLIAEGAKKMLALGITGPEGHELCRPEAVEAEATLRAITIASAVNCPLYIVHVMSKSAAKVIADARRDGKVVYGEPIAASLGTDGTHYWNKEWHHAAHHVMGPPLRPDPSTPDFLMNLLANDDLTTTGTDNCTFNTCQKALGKDDFTKIPNGVNGVEDRMSVIWEKGVHSGKMDENRFVAVTSTNAAKIFNLYPRKGRIAVGSDADIVIWDPKGTRTISAKTHHQAVNFNIFEGMVCHGVPLVTISRGKVVYEAGVFSVTAGDGKFIPRKPFAEYIYKRIKQRDRTCTPTPVERAPY SRLLIRGGRVVNDDFSEVADVLVEDGVVRALGHLRVLDAAGKLVLPGGIDTHTHMQFPFMGSRSIDDFHQGTKAALSGGTTMIIDFAIPQKGGSLIEAFETWRSWADPKVCCDYSLHVAVTWWSDQVKEEMKILVQDKGVNSFKMFMAYKDLYMVTDLELYEAFSRCKEIGAIAQVHAENGDLIAEGAKKMLALGITGPEGHELCRPEAVEAEATLRAITIASAVNCPLYIVHVMSKSAAKVIADARRDGKVVYGEPIAASLGTDGTHYWNKEWHHAAHHVMGPPLRPDPSTPDFLMNLLANDDLTTTGTDNCTFNTCQKALGKDDFTKIPNGVNGVEDRMSVIWEKGVHSGKMDENRFVAVTSTNAAKIFNLYPRKGRIAVGSDADIVIWDPKGTRTISAKTHHQAVNFNIFEGMVCHGVPLVTISRGKVVYEAGVFSVTAGDGKFIPRKPFAEYIYKRIKQRDRTCTPTPVERAPY 2vr5-a1-m2-cB_2vr5-a1-m3-cB Crystal structure of Trex from Sulfolobus Solfataricus in complex with acarbose intermediate and glucose P95868 P95868 2.8 X-RAY DIFFRACTION 29 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 714 714 2vr5-a1-m1-cA_2vr5-a1-m2-cA 2vr5-a1-m1-cA_2vr5-a1-m3-cA 2vr5-a1-m1-cB_2vr5-a1-m2-cB 2vr5-a1-m1-cB_2vr5-a1-m3-cB 2vr5-a1-m2-cA_2vr5-a1-m3-cA 2vuy-a1-m1-cA_2vuy-a1-m2-cA 2vuy-a1-m1-cA_2vuy-a1-m3-cA 2vuy-a1-m1-cB_2vuy-a1-m2-cB 2vuy-a1-m1-cB_2vuy-a1-m3-cB 2vuy-a1-m2-cA_2vuy-a1-m3-cA 2vuy-a1-m2-cB_2vuy-a1-m3-cB 7eav-a1-m1-cA_7eav-a1-m2-cA 7eav-a1-m1-cA_7eav-a1-m3-cA 7eav-a1-m1-cB_7eav-a1-m2-cB 7eav-a1-m1-cB_7eav-a1-m3-cB 7eav-a1-m2-cA_7eav-a1-m3-cA 7eav-a1-m2-cB_7eav-a1-m3-cB FRTRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFQGKKLFGMPLKDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL FRTRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFQGKKLFGMPLKDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL 2vr5-a1-m3-cB_2vr5-a1-m2-cA Crystal structure of Trex from Sulfolobus Solfataricus in complex with acarbose intermediate and glucose P95868 P95868 2.8 X-RAY DIFFRACTION 65 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 714 715 2vr5-a1-m1-cB_2vr5-a1-m3-cA 2vr5-a1-m2-cB_2vr5-a1-m1-cA 2vuy-a1-m1-cB_2vuy-a1-m2-cA 2vuy-a1-m2-cB_2vuy-a1-m3-cA 2vuy-a1-m3-cB_2vuy-a1-m1-cA 7eav-a1-m1-cB_7eav-a1-m3-cA 7eav-a1-m2-cB_7eav-a1-m1-cA 7eav-a1-m3-cB_7eav-a1-m2-cA FRTRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFQGKKLFGMPLKDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL FFRTRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFQGKKLFGMPLKDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL 2vr5-a1-m3-cB_2vr5-a1-m3-cA Crystal structure of Trex from Sulfolobus Solfataricus in complex with acarbose intermediate and glucose P95868 P95868 2.8 X-RAY DIFFRACTION 71 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 714 715 2vnc-a1-m1-cB_2vnc-a1-m1-cA 2vnc-a1-m2-cB_2vnc-a1-m2-cA 2vnc-a2-m1-cB_2vnc-a2-m1-cA 2vr5-a1-m1-cB_2vr5-a1-m1-cA 2vr5-a1-m2-cB_2vr5-a1-m2-cA 2vuy-a1-m1-cB_2vuy-a1-m1-cA 2vuy-a1-m2-cB_2vuy-a1-m2-cA 2vuy-a1-m3-cB_2vuy-a1-m3-cA 7eav-a1-m1-cB_7eav-a1-m1-cA 7eav-a1-m2-cB_7eav-a1-m2-cA 7eav-a1-m3-cB_7eav-a1-m3-cA FRTRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFQGKKLFGMPLKDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL FFRTRDRPLRPGDPYPLGSNWIEDDDGVNFSLFSENAEKVELLLYSLTNQKYPKEIIEVKNKTGDIWHVFVPGLRPGQLYAYRVYGPYKPELGLRFNPNKVLIDPYAKAINGSVIWNDAVFGYKIGDQNQDLTYDERDSGEYVPKSVVINPYFEWDDEDFIKGKKVPLKDTVIYEVHVKGFTKLRLDLPENIRGTYEGLASEQMISYLKDLGITTVELMPVFHFIDQRFLTDKGLTNYWGYDPINFFSPECRYSSTGCLGGQVLSFKKMVNELHNAGIEVIIDVVYNHTAEGNHLGPTLSFRGIDNTAYYMLQPDNKRYYLDFTGTGNTLNLSHPRVIQMVLDSLRYWVTEMHVDGFRFDLAAALARELYSVNMLNTFFIALQQDPILSQVKLIAEPWDVGQGGYQVGNFPYQWAEWNGKYRDSIRRFWRGEALPYSEIANRLLGSPDIYLGNNKTPFASINYVTSHDGFTLEDLVSYNQKHNEANGFNNQDGMNENYSWNCGAEGPTNDQNVVICREKQKRNFMITLLVSQGTPMILGGDELSRTQRGNNNAFCQDNEITWFDWNLDERKSKFLEFVKKMIQFYRAHPAFRRERYFQGKKLFGMPLKDVTFYTLEGREVDEKTWSSPTQLVIFVLEGSVMDEINMYGERIADDSFLIILNANPNNVKVKFPKGKWELVISSYLREIKPEERIIEGEKELEIEGRTALVYRRIEL 2vrc-a1-m1-cA_2vrc-a1-m1-cD Crystal structure of the Citrobacter sp. triphenylmethane reductase complexed with NADP(H) Q2TNI4 Q2TNI4 2.5 X-RAY DIFFRACTION 20 0.996 308866 (Citrobacter sp. MY-5) 308866 (Citrobacter sp. MY-5) 283 283 FSIAVTGATGQLGGLVIQHLAAVPASQIIAIVRNVEKASTLADQGVEVRHGDYNQPESLQKAFAGVSKLLFISGPHYDNTLLIVQHANVVKAARDAGVKHIAYTGYAFAEESIIPLAHVHLATEYAIRTTNIPYTFLRNALYTDFFVNEGLRASTESGAIVTNAGSGIVNSVTRNELALAAATVLTEEGHENKTYNLVSNQPWTFDELAQILSEVSGKKVVHQPVSFEEEKNFVNAGVPEPFAEITAAIYDAISKGEASKTSDDLQKLIGSLTPLKETVKQAL FSIAVTGATGQLGGLVIQHLAAVPASQIIAIVRNVEKASTLADQGVEVRHGDYNQPESLQKAFAGVSKLLFISGPHYDNTLLIVQHANVVKAARDAGVKHIAYTGYAFAEESIIPLAHVHLATEYATRTTNIPYTFLRNALYTDFFVNEGLRASTESGAIVTNAGSGIVNSVTRNELALAAATVLTEEGHENKTYNLVSNQPWTFDELAQILSEVSGKKVVHQPVSFEEEKNFVNAGVPEPFAEITAAIYDAISKGEASKTSDDLQKLIGSLTPLKETVKQAL 2vrc-a1-m1-cB_2vrc-a1-m1-cD Crystal structure of the Citrobacter sp. triphenylmethane reductase complexed with NADP(H) Q2TNI4 Q2TNI4 2.5 X-RAY DIFFRACTION 56 0.996 308866 (Citrobacter sp. MY-5) 308866 (Citrobacter sp. MY-5) 283 283 FSIAVTGATGQLGGLVIQHLAAVPASQIIAIVRNVEKASTLADQGVEVRHGDYNQPESLQKAFAGVSKLLFISGPHYDNTLLIVQHANVVKAARDAGVKHIAYTGYAFAEESIIPLAHVHLATEYAIRTTNIPYTFLRNALYTDFFVNEGLRASTESGAIVTNAGSGIVNSVTRNELALAAATVLTEEGHENKTYNLVSNQPWTFDELAQILSEVSGKKVVHQPVSFEEEKNFVNAGVPEPFAEITAAIYDAISKGEASKTSDDLQKLIGSLTPLKETVKQAL FSIAVTGATGQLGGLVIQHLAAVPASQIIAIVRNVEKASTLADQGVEVRHGDYNQPESLQKAFAGVSKLLFISGPHYDNTLLIVQHANVVKAARDAGVKHIAYTGYAFAEESIIPLAHVHLATEYATRTTNIPYTFLRNALYTDFFVNEGLRASTESGAIVTNAGSGIVNSVTRNELALAAATVLTEEGHENKTYNLVSNQPWTFDELAQILSEVSGKKVVHQPVSFEEEKNFVNAGVPEPFAEITAAIYDAISKGEASKTSDDLQKLIGSLTPLKETVKQAL 2vre-a1-m1-cB_2vre-a1-m2-cC crystal structure of human peroxisomal delta3,5,delta2,4-dienoyl coa isomerase Q13011 Q13011 1.95 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 261 2vre-a1-m1-cA_2vre-a1-m2-cA 2vre-a1-m2-cB_2vre-a1-m1-cC MAPDHSYESLRVTSAQKHVLHVQLNRPNKRNAMNKVFWREMVECFNKISRDADCRAVVISGAGKMFTAGIDLMDMASDILQPKGDDVARISWYLRDIITRYQETFNVIERCPKPVIAAVHGGCIGGGVDLVTACDIRYCAQDAFFQVKEVDVGLAADVGTLQRLPKVIGNQSLVNELAFTARKMMADEALGSGLVSRVFPDKEVMLDAALALAAEISSKSPVAVQSTKVNLLYSRDHSVAESLNYVASWNMSMLQTQDLV SMAPDHSYESLRVTSAQKHVLHVQLNRPNKRNAMNKVFWREMVECFNKISRDADCRAVVISGAGKMFTAGIDLMDMASDILQPKGDDVARISWYLRDIITRYQETFNVIERCPKPVIAAVHGGCIGGGVDLVTACDIRYCAQDAFFQVKEVDVGLAADVGTLQRLPKVIGNQSLVNELAFTARKMMADEALGSGLVSRVFPDKEVMLDAALALAAEISSKSPVAVQSTKVNLLYSRDHSVAESLNYVASWNMSMLQTQDLV 2vre-a1-m1-cC_2vre-a1-m2-cC crystal structure of human peroxisomal delta3,5,delta2,4-dienoyl coa isomerase Q13011 Q13011 1.95 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 261 2vre-a1-m1-cB_2vre-a1-m2-cA 2vre-a1-m2-cB_2vre-a1-m1-cA SMAPDHSYESLRVTSAQKHVLHVQLNRPNKRNAMNKVFWREMVECFNKISRDADCRAVVISGAGKMFTAGIDLMDMASDILQPKGDDVARISWYLRDIITRYQETFNVIERCPKPVIAAVHGGCIGGGVDLVTACDIRYCAQDAFFQVKEVDVGLAADVGTLQRLPKVIGNQSLVNELAFTARKMMADEALGSGLVSRVFPDKEVMLDAALALAAEISSKSPVAVQSTKVNLLYSRDHSVAESLNYVASWNMSMLQTQDLV SMAPDHSYESLRVTSAQKHVLHVQLNRPNKRNAMNKVFWREMVECFNKISRDADCRAVVISGAGKMFTAGIDLMDMASDILQPKGDDVARISWYLRDIITRYQETFNVIERCPKPVIAAVHGGCIGGGVDLVTACDIRYCAQDAFFQVKEVDVGLAADVGTLQRLPKVIGNQSLVNELAFTARKMMADEALGSGLVSRVFPDKEVMLDAALALAAEISSKSPVAVQSTKVNLLYSRDHSVAESLNYVASWNMSMLQTQDLV 2vre-a1-m2-cB_2vre-a1-m2-cC crystal structure of human peroxisomal delta3,5,delta2,4-dienoyl coa isomerase Q13011 Q13011 1.95 X-RAY DIFFRACTION 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 261 2vre-a1-m1-cB_2vre-a1-m1-cA 2vre-a1-m1-cB_2vre-a1-m1-cC 2vre-a1-m1-cC_2vre-a1-m1-cA 2vre-a1-m2-cB_2vre-a1-m2-cA 2vre-a1-m2-cC_2vre-a1-m2-cA MAPDHSYESLRVTSAQKHVLHVQLNRPNKRNAMNKVFWREMVECFNKISRDADCRAVVISGAGKMFTAGIDLMDMASDILQPKGDDVARISWYLRDIITRYQETFNVIERCPKPVIAAVHGGCIGGGVDLVTACDIRYCAQDAFFQVKEVDVGLAADVGTLQRLPKVIGNQSLVNELAFTARKMMADEALGSGLVSRVFPDKEVMLDAALALAAEISSKSPVAVQSTKVNLLYSRDHSVAESLNYVASWNMSMLQTQDLV SMAPDHSYESLRVTSAQKHVLHVQLNRPNKRNAMNKVFWREMVECFNKISRDADCRAVVISGAGKMFTAGIDLMDMASDILQPKGDDVARISWYLRDIITRYQETFNVIERCPKPVIAAVHGGCIGGGVDLVTACDIRYCAQDAFFQVKEVDVGLAADVGTLQRLPKVIGNQSLVNELAFTARKMMADEALGSGLVSRVFPDKEVMLDAALALAAEISSKSPVAVQSTKVNLLYSRDHSVAESLNYVASWNMSMLQTQDLV 2vrf-a6-m1-cC_2vrf-a6-m1-cD CRYSTAL STRUCTURE OF THE HUMAN BETA-2-SYNTROPHIN PDZ DOMAIN Q13425 Q13425 2 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 2vrf-a5-m1-cA_2vrf-a5-m1-cB SMPVRRVRVVKQEAGGLGISIKGGRENRMPILISKIFPGLAADQSRALRLGDAILSVNGTDLRQATHDQAVQALKRAGKEVLLEVKFIREVNTVV SMPVRRVRVVKQEAGGLGISIKGGRENRMPILISKIFPGLAADQSRALRLGDAILSVNGTDLRQATHDQAVQALKRAGKEVLLEVKFIREVNTVV 2vrn-a1-m1-cA_2vrn-a1-m1-cB The structure of the stress response protein DR1199 from Deinococcus radiodurans: a member of the DJ-1 superfamily Q9RV31 Q9RV31 2.15 X-RAY DIFFRACTION 57 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 184 184 DLTGKKIAILAADGVEEIELTSPRAAIEAAGGTTELISLEPGEIQSMKGDIEPQEKYRVDHVVSEVQVSDYDGLLLPGGTVNPDKLRLEEGAMKFVRDMYDAGKPIAAIHGPWSLSETGIAQGLKMTSWSSLKRELTLAGAQWVDEECVTDKGVVTSRKPDDLPAFNKKIVEEFAEGDHSSRRK DLTGKKIAILAADGVEEIELTSPRAAIEAAGGTTELISLEPGEIQSMKGDIEPQEKYRVDHVVSEVQVSDYDGLLLPGGTVNPDKLRLEEGAMKFVRDMYDAGKPIAAIHGPWSLSETGIAQGLKMTSWSSLKRELTLAGAQWVDEECVTDKGVVTSRKPDDLPAFNKKIVEEFAEGDHSSRRK 2vrp-a1-m1-cA_2vrp-a1-m2-cA Structure of rhodocytin Q9I841 Q9I841 2.41 X-RAY DIFFRACTION 19 1.0 8717 (Calloselasma rhodostoma) 8717 (Calloselasma rhodostoma) 133 133 DCDFGWSPYDQHCYQAFNEQKTWDEAEKFCRAQENGAHLASIESNGEADFVSWLISQKDELADEDYVWIGLRAQNKEQQCSSEWSDGSSVSYENLIDLHTKKCGALEKLTGFRKWVNYYCEQMHAFVCKLLPY DCDFGWSPYDQHCYQAFNEQKTWDEAEKFCRAQENGAHLASIESNGEADFVSWLISQKDELADEDYVWIGLRAQNKEQQCSSEWSDGSSVSYENLIDLHTKKCGALEKLTGFRKWVNYYCEQMHAFVCKLLPY 2vry-a1-m2-cA_2vry-a1-m6-cA Mouse Neuroglobin with heme iron in the reduced ferrous state Q9ER97 Q9ER97 1.87 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 147 147 2vry-a1-m1-cA_2vry-a1-m4-cA 2vry-a1-m3-cA_2vry-a1-m5-cA RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGWD RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGWD 2vs0-a1-m1-cA_2vs0-a1-m1-cB Structural analysis of homodimeric staphylococcal aureus virulence factor EsxA Q99WU4 Q99WU4 1.4 X-RAY DIFFRACTION 85 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 81 83 2vrz-a1-m1-cB_2vrz-a1-m1-cA IKSPEEIRAKSQSYGQGSDQIRQILSDLTRAQGEIAANWEGQAFSRFEEQFQQLSPKVEKFAQLLEEIKQQLNSTADAVQE IKSPEEIRAKSQSYGQGSDQIRQILSDLTRAQGEIAANWEGQAFSRFEEQFQQLSPKVEKFAQLLEEIKQQLNSTADAVQEQD 2vsc-a2-m1-cC_2vsc-a2-m1-cD Structure of the immunoglobulin-superfamily ectodomain of human CD47 Q08722 Q08722 1.9 X-RAY DIFFRACTION 169 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 115 2vsc-a1-m1-cA_2vsc-a1-m1-cB LLFNKTKSVEFTFGNDTVVIPCFVTNMEAQNTTEVYVKWKFKGRDIYTFDGALNKSTVPTDFSSAKIEVSQLLKGDASLKMDKSDAVSHTGNYTCEVTELTREGETIIELKYRV LLFNKTKSVEFTFGNDTVVIPCFVTNMEAQNTTEVYVKWKFKGRDIYTFDGALNKSTVPTDFSSAKIEVSQLLKGDASLKMDKSDAVSHTGNYTCEVTELTREGETIIELKYRVV 2vsd-a1-m1-cA_2vsd-a1-m2-cA crystal structure of CHIR-AB1 Q5ZJ90 Q5ZJ90 1.82 X-RAY DIFFRACTION 42 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 93 93 LPQPSLSLHPSQGVSLGDTVTLRCHLPRMAAWVQLWLNGTLRFDKEKDKEQDAAEFSFAVTNLEDAGTYQCRYQVSEPLWTSNQSDPVELVLT LPQPSLSLHPSQGVSLGDTVTLRCHLPRMAAWVQLWLNGTLRFDKEKDKEQDAAEFSFAVTNLEDAGTYQCRYQVSEPLWTSNQSDPVELVLT 2vsg-a1-m1-cA_2vsg-a1-m1-cB A Structural Motif in the Variant Surface Glycoproteins of Trypanosoma Brucei P26329 P26329 2.7 X-RAY DIFFRACTION 348 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 358 358 THFGVKYELWQPECELTAELRKTAGVAKMKVNSDLNSFKTLELTKMKLLTFAAKFPESKEALTLRALEAALNTDLRALRDNIANGIDRAVRATAYASEAAGALFSGIQTLHDATDGTTYCLSASGQGSNGNAAMASQGCKPLALPELLTEDSYNTDVISDKGFPKISPLTNAQGQGKSGECGLFQAASGAQATNTGVQFSGGSRINLGLGAIVASAAQQPTRPDLSDFSGTARNQADTLYGKAHASITELLQLAQGPKPGQTEVETMKLLAQKTAALDSIKFQLAASTGKKTSDYKEDENLKTEYFGKTESNIEALWNKVKEEKVKGADPEDPSKESKISDLNTEEQLQRVLDYYAVA THFGVKYELWQPECELTAELRKTAGVAKMKVNSDLNSFKTLELTKMKLLTFAAKFPESKEALTLRALEAALNTDLRALRDNIANGIDRAVRATAYASEAAGALFSGIQTLHDATDGTTYCLSASGQGSNGNAAMASQGCKPLALPELLTEDSYNTDVISDKGFPKISPLTNAQGQGKSGECGLFQAASGAQATNTGVQFSGGSRINLGLGAIVASAAQQPTRPDLSDFSGTARNQADTLYGKAHASITELLQLAQGPKPGQTEVETMKLLAQKTAALDSIKFQLAASTGKKTSDYKEDENLKTEYFGKTESNIEALWNKVKEEKVKGADPEDPSKESKISDLNTEEQLQRVLDYYAVA 2vsh-a1-m1-cB_2vsh-a1-m1-cA Synthesis of CDP-activated ribitol for teichoic acid precursors in Streptococcus pneumoniae 2 X-RAY DIFFRACTION 111 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 222 223 2vsi-a1-m1-cA_2vsi-a1-m1-cB HMIYAGILAGPKQFLELGDRPILIHTIEKFVLEPSIEKIVVGVHGDWVSHAEDLVDKYLPLYKERIIITKGGADRNTSIKNIIEAIDAYRPLTPEDIVVTHDSVRPFITLRMIQDNIQLAQNHDAVDTVVEAVDTIVESTNGQFITDIPNRAHLYQGQTPQTFRCKDFMDLYGSLSDEEKEILTDACKIFVIKGKDVALAKGEYSNLKITTVTDLKIAKSMI HMIYAGILAGPKQFLELGDRPILIHTIEKFVLEPSIEKIVVGVHGDWVSHAEDLVDKYLPLYKERIIITKGGADRNTSIKNIIEAIDAYRPLTPEDIVVTHDSVRPFITLRMIQDNIQLAQNHDAVDTVVEAVDTIVESTNGQFITDIPNRAHLYQGQTPQTFRCKDFMDLYGSLSDEEKEILTDACKIFVIKGKDVALAKGEYSNLKITTVTDLKIAKSMIE 2vsv-a1-m1-cA_2vsv-a1-m1-cB Crystal structure of the PDZ domain of human rhophilin-2 Q8IUC4 Q8IUC4 1.82 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 104 SSGVDLGTENLYFQSMPRSIRFTAEEGDLGFTLRGNAPVQVHFLDPYCSASVAGAREGDYIVSIQLVDCKWLTLSEVMKLLKSFGEDEIEMKVVSLL MHHHHHHSSGVDLGTENLYFQSMPRSIRFTAEEGDLGFTLRGNAPVQVHFLDPYCSASVAGAREGDYIVSIQLVDCKWLTLSEVMKLLKSFGEDEIEMKVVSLL 2vsw-a1-m2-cA_2vsw-a1-m2-cB The structure of the rhodanese domain of the human dual specificity phosphatase 16 Q9BY84 Q9BY84 2.2 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 2vsw-a1-m1-cA_2vsw-a1-m1-cB MIGTQIVTERLVALLESGTEKVLLIDSRPFVEYNTSHILEAININCSKLMKRRLQQDKVLITELIQHSAKHKVDIDCSQKVVVYDQSSQDVASLSSDCFLTVLLGKLEKSFNSVHLLAGGFAEFSRCFPGLCEG MIGTQIVTERLVALLESGTEKVLLIDSRPFVEYNTSHILEAININCSKLMKRRLQQDKVLITELIQHSAKHKVDIDCSQKVVVYDQSSQDVASLSSDCFLTVLLGKLEKSFNSVHLLAGGFAEFSRCFPGLCEG 2vsw-a3-m1-cB_2vsw-a3-m2-cB The structure of the rhodanese domain of the human dual specificity phosphatase 16 Q9BY84 Q9BY84 2.2 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 2vsw-a1-m1-cA_2vsw-a1-m2-cA 2vsw-a1-m1-cB_2vsw-a1-m2-cB 2vsw-a2-m1-cA_2vsw-a2-m2-cA MIGTQIVTERLVALLESGTEKVLLIDSRPFVEYNTSHILEAININCSKLMKRRLQQDKVLITELIQHSAKHKVDIDCSQKVVVYDQSSQDVASLSSDCFLTVLLGKLEKSFNSVHLLAGGFAEFSRCFPGLCEG MIGTQIVTERLVALLESGTEKVLLIDSRPFVEYNTSHILEAININCSKLMKRRLQQDKVLITELIQHSAKHKVDIDCSQKVVVYDQSSQDVASLSSDCFLTVLLGKLEKSFNSVHLLAGGFAEFSRCFPGLCEG 2vsx-a1-m1-cA_2vsx-a1-m1-cB Crystal Structure of a Translation Initiation Complex P10081 P10081 2.8 X-RAY DIFFRACTION 48 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 366 366 QIQTNYDKVVYKFDDMELDENLLRGVFGYGFEEPSAIQQRAIMPIIEGHDVLAQAQSGTGKTGTFSIAALQRIDTSVKAPQALMLAPTRELALQIQKVVMALAFHMDIKVHACIGLRDAQIVVGTPGRVFDNIQRRRFRTDKIKMFILDEADEMLSSGFKEQIYQIFTLLPPTTQVVLLSATMPNDVLEVTTKFMRNPVRILVKKDELTLEGIKQFYVNVEEEEYKYECLTDLYDSISVTQAVIFCNTRRKVEELTTKLRNDKFTVSAIYSDLPQQERDTIMKEFRSGSSRILISTDLLARGIDVQQVSLVINYDLPANKENYIHRIGRKGVAINFVTNEDVGAMRELEKFYSTQIEELPSDIATL QIQTNYDKVVYKFDDMELDENLLRGVFGYGFEEPSAIQQRAIMPIIEGHDVLAQAQSGTGKTGTFSIAALQRIDTSVKAPQALMLAPTRELALQIQKVVMALAFHMDIKVHACIGLRDAQIVVGTPGRVFDNIQRRRFRTDKIKMFILDEADEMLSSGFKEQIYQIFTLLPPTTQVVLLSATMPNDVLEVTTKFMRNPVRILVKKDELTLEGIKQFYVNVEEEEYKYECLTDLYDSISVTQAVIFCNTRRKVEELTTKLRNDKFTVSAIYSDLPQQERDTIMKEFRSGSSRILISTDLLARGIDVQQVSLVINYDLPANKENYIHRIGRKGVAINFVTNEDVGAMRELEKFYSTQIEELPSDIATL 2vsz-a1-m1-cA_2vsz-a1-m2-cB Crystal Structure of the ELMO1 PH domain Q92556 Q92556 2.3 X-RAY DIFFRACTION 39 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 141 147 2vsz-a1-m2-cA_2vsz-a1-m1-cB GPLGSPILELKEKIQPEILELIKQQRLNRLVEGTCFRKLNARRRQDKFWYCRLSPNHKVLHYGDLEESPQGEVPHDSLQDKLPVADIKAVVTGKDCPHMKENKEVLELAFSILYDSNCQLNFIAPDKHEYCIWTDGLNALL LGSPILELKEKIQPEILELIKQQRLNRLVEGTCFRKLNARRRQDKFWYCRLSPNHKVLHYGDLEESPQGEVPHDSLQDKLPVADIKAVVTGKDCPHMKEKGALKQNKEVLELAFSILYDSNCQLNFIAPDKHEYCIWTDGLNALLGK 2vsz-a1-m1-cB_2vsz-a1-m2-cB Crystal Structure of the ELMO1 PH domain Q92556 Q92556 2.3 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 147 2vsz-a1-m1-cA_2vsz-a1-m2-cA LGSPILELKEKIQPEILELIKQQRLNRLVEGTCFRKLNARRRQDKFWYCRLSPNHKVLHYGDLEESPQGEVPHDSLQDKLPVADIKAVVTGKDCPHMKEKGALKQNKEVLELAFSILYDSNCQLNFIAPDKHEYCIWTDGLNALLGK LGSPILELKEKIQPEILELIKQQRLNRLVEGTCFRKLNARRRQDKFWYCRLSPNHKVLHYGDLEESPQGEVPHDSLQDKLPVADIKAVVTGKDCPHMKEKGALKQNKEVLELAFSILYDSNCQLNFIAPDKHEYCIWTDGLNALLGK 2vsz-a1-m2-cA_2vsz-a1-m2-cB Crystal Structure of the ELMO1 PH domain Q92556 Q92556 2.3 X-RAY DIFFRACTION 62 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 141 147 2vsz-a1-m1-cA_2vsz-a1-m1-cB GPLGSPILELKEKIQPEILELIKQQRLNRLVEGTCFRKLNARRRQDKFWYCRLSPNHKVLHYGDLEESPQGEVPHDSLQDKLPVADIKAVVTGKDCPHMKENKEVLELAFSILYDSNCQLNFIAPDKHEYCIWTDGLNALL LGSPILELKEKIQPEILELIKQQRLNRLVEGTCFRKLNARRRQDKFWYCRLSPNHKVLHYGDLEESPQGEVPHDSLQDKLPVADIKAVVTGKDCPHMKEKGALKQNKEVLELAFSILYDSNCQLNFIAPDKHEYCIWTDGLNALLGK 2vt3-a1-m1-cA_2vt3-a1-m1-cB Structure and functional properties of the Bacillus subtilis transcriptional repressor Rex O05521 O05521 2 X-RAY DIFFRACTION 97 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 185 208 2vt2-a1-m1-cA_2vt2-a1-m1-cB ATAKRLPLYYRFLKNLHASGKQRVSSAELSDAVKVDSATIRRDFSYFGALGYNVDYLLSFFRKTLDQDDVILIGVGNLGTAFLHYNTKISMAFDINESKIGTEVGGVPVYNLDDLEQHVKDESVAILTVPAVAAQSITDRLVALGIKGILNFTPARLNVPEHIRIHHIDLAVELQSLVYFLKHYS KIPQATAKRLPLYYRFLKNLHASGKQRVSSAELSDAVKVDSATIRRDFSYFGALGKKGYGYNVDYLLSFFRKTLDQDEMTDVILIGVGNLGTAFLHYNFTKNNNTKISMAFDINESKIGTEVGGVPVYNLDDLEQHVKDESVAILTVPAVAAQSITDRLVALGIKGILNFTPARLNVPEHIRIHHIDLAVELQSLVYFLKHYSVLEEI 2vtb-a3-m1-cF_2vtb-a3-m1-cE Structure of cryptochrome 3 - DNA complex Q84KJ5 Q84KJ5 2.01 X-RAY DIFFRACTION 44 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 480 496 2vtb-a1-m1-cB_2vtb-a1-m1-cA 2vtb-a2-m1-cD_2vtb-a2-m1-cC HIHRVPALTEEEIDSVAIKTFERYALPSSSSVKRKGKGVTILWFRNDLRVLDNDALYKAWSSSDTILPVYCLDPRLFHTTHFFNFPKTGALRGGFLMECLVDLRKNLMKRGLNLLIRSGKPEEILPSLAKDFGARTVFAHKETCSEEVDVERLVNQGLKRVGNSTKLELIWGSTMYHKDDLPFDVFDLPDVYTQFRKSVEAKCSIRSSTRIPLSLGPTPSVDDWGDVPTLEKLGVEPQEVTRGMRFVGGESAGVGRVFEYFWKKDLLKVYKETRNGMLGPDYSTKFSPWLAFGCISPRFIYEEVQRYEKERVANNSTYWVLFELIWRDYFRFLSIKCGNSLFHLGGPRNVQGKWSQDQKLFESWRDAKTGYPLIDANMKELSTTGFMSNRGRQIVCSFLVRDMGLDWRMGAEWFETCLLDYDPCSNYGNWTYGAGVGNDPRYFSIPKQAQNYDPEGEYVAFWLQQLRRLMYMDTVVPLKH DHIHRVPALTEEEIDSVAIKTFERYALPSSSSVKRKGKGVTILWFRNDLRVLDNDALYKAWSSSDTILPVYCLDPRLFHTTHFFNFPKTGALRGGFLMECLVDLRKNLMKRGLNLLIRSGKPEEILPSLAKDFGARTVFAHKETCSEEVDVERLVNQGLKRVGNSTKLELIWGSTMYHKDDLPFDVFDLPDVYTQFRKSVEAKCSIRSSTRIPLSLGPTPSVDDWGDVPTLEKLGVEPQEVTRGMRFVGGESAGVGRVFEYFWKKDLLKVYKETRNGMLGPDYSTKFSPWLAFGCISPRFIYEEVQRYEKERVANNSTYWVLFELIWRDYFRFLSIKCGNSLFHLGGPRNVQGKWSQDQKLFESWRDAKTGYPLIDANMKELSTTGFMSNRGRQIVCSFLVRDMGLDWRMGAEWFETCLLDYDPCSNYGNWTYGAGVGNDPREDRYFSIPKQAQNYDPEGEYVAFWLQQLRRLPKEKRHWPGRLMYMDTVVPLKHG 2vtw-a2-m1-cC_2vtw-a2-m1-cD Structure of the C-terminal head domain of the fowl adenovirus type 1 short fibre Q64762 Q64762 2 X-RAY DIFFRACTION 78 1.0 10553 (Fowl aviadenovirus 1) 10553 (Fowl aviadenovirus 1) 205 205 2vtw-a1-m1-cA_2vtw-a1-m1-cE 2vtw-a1-m1-cA_2vtw-a1-m1-cF 2vtw-a1-m1-cE_2vtw-a1-m1-cF 2vtw-a2-m1-cB_2vtw-a2-m1-cC 2vtw-a2-m1-cB_2vtw-a2-m1-cD TSSVAAFTSGTIGLSSPTGNFVSSSNNPFNGSYFLQQINTMGMLTTSLYVKVDTTTMGTRPTGAVNENARYFTVWVSSFLTQCNPSNIGQGTLEPSNISMTSFEPARNPISPPVFNMNQNIPYYASRFGVLESYRPIFTGSLNTGSIDVRMQVTPVLATNNTTYNLIAFTFQCASAGLFNPTVNGTVAIGPVVHTCPAARAPVTV TSSVAAFTSGTIGLSSPTGNFVSSSNNPFNGSYFLQQINTMGMLTTSLYVKVDTTTMGTRPTGAVNENARYFTVWVSSFLTQCNPSNIGQGTLEPSNISMTSFEPARNPISPPVFNMNQNIPYYASRFGVLESYRPIFTGSLNTGSIDVRMQVTPVLATNNTTYNLIAFTFQCASAGLFNPTVNGTVAIGPVVHTCPAARAPVTV 2vty-a1-m11-cA_2vty-a1-m9-cA Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain swapped dimer O57173 O57173 2.1 X-RAY DIFFRACTION 171 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 144 144 2vty-a1-m10-cA_2vty-a1-m5-cA 2vty-a1-m12-cA_2vty-a1-m3-cA 2vty-a1-m1-cA_2vty-a1-m6-cA 2vty-a1-m2-cA_2vty-a1-m7-cA 2vty-a1-m4-cA_2vty-a1-m8-cA VYPLPENMVYRFDKSTNILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYMASTKSFTVYDINNEVNTIMLDNKGLGVRLATISFITELGRRCMNPVKTIKMFTLLSHTICDDCFVDYITDIS VYPLPENMVYRFDKSTNILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYMASTKSFTVYDINNEVNTIMLDNKGLGVRLATISFITELGRRCMNPVKTIKMFTLLSHTICDDCFVDYITDIS 2vty-a1-m5-cA_2vty-a1-m9-cA Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain swapped dimer O57173 O57173 2.1 X-RAY DIFFRACTION 20 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 144 144 2vty-a1-m10-cA_2vty-a1-m4-cA 2vty-a1-m10-cA_2vty-a1-m7-cA 2vty-a1-m11-cA_2vty-a1-m3-cA 2vty-a1-m11-cA_2vty-a1-m8-cA 2vty-a1-m12-cA_2vty-a1-m2-cA 2vty-a1-m12-cA_2vty-a1-m6-cA 2vty-a1-m1-cA_2vty-a1-m5-cA 2vty-a1-m1-cA_2vty-a1-m9-cA 2vty-a1-m2-cA_2vty-a1-m6-cA 2vty-a1-m3-cA_2vty-a1-m8-cA 2vty-a1-m4-cA_2vty-a1-m7-cA VYPLPENMVYRFDKSTNILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYMASTKSFTVYDINNEVNTIMLDNKGLGVRLATISFITELGRRCMNPVKTIKMFTLLSHTICDDCFVDYITDIS VYPLPENMVYRFDKSTNILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYMASTKSFTVYDINNEVNTIMLDNKGLGVRLATISFITELGRRCMNPVKTIKMFTLLSHTICDDCFVDYITDIS 2vty-a1-m8-cA_2vty-a1-m9-cA Vaccinia virus anti-apoptotic F1L is a novel Bcl-2-like domain swapped dimer O57173 O57173 2.1 X-RAY DIFFRACTION 53 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 144 144 2vty-a1-m10-cA_2vty-a1-m8-cA 2vty-a1-m10-cA_2vty-a1-m9-cA 2vty-a1-m11-cA_2vty-a1-m12-cA 2vty-a1-m1-cA_2vty-a1-m11-cA 2vty-a1-m1-cA_2vty-a1-m12-cA 2vty-a1-m2-cA_2vty-a1-m3-cA 2vty-a1-m2-cA_2vty-a1-m4-cA 2vty-a1-m3-cA_2vty-a1-m4-cA 2vty-a1-m5-cA_2vty-a1-m6-cA 2vty-a1-m5-cA_2vty-a1-m7-cA 2vty-a1-m6-cA_2vty-a1-m7-cA VYPLPENMVYRFDKSTNILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYMASTKSFTVYDINNEVNTIMLDNKGLGVRLATISFITELGRRCMNPVKTIKMFTLLSHTICDDCFVDYITDIS VYPLPENMVYRFDKSTNILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYMASTKSFTVYDINNEVNTIMLDNKGLGVRLATISFITELGRRCMNPVKTIKMFTLLSHTICDDCFVDYITDIS 2vu5-a1-m4-cA_2vu5-a1-m6-cA Crystal structure of Pndk from Bacillus anthracis Q81SV8 Q81SV8 2 X-RAY DIFFRACTION 79 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 148 148 2vu5-a1-m1-cA_2vu5-a1-m2-cA 2vu5-a1-m3-cA_2vu5-a1-m5-cA MEKTFLMVKPDGVQRAFIGEIVARFEKKGFQLVGAKLMQVTPEIAGQHYAEHEEKPFFGELVDFITSGPVFAMVWQGEGVVDTARNMMGKTRPHEAAPGTIRGDFGVTVAKNIIHGSDSLESAEREIGIFFKEEELVDYSKLMNEWIY MEKTFLMVKPDGVQRAFIGEIVARFEKKGFQLVGAKLMQVTPEIAGQHYAEHEEKPFFGELVDFITSGPVFAMVWQGEGVVDTARNMMGKTRPHEAAPGTIRGDFGVTVAKNIIHGSDSLESAEREIGIFFKEEELVDYSKLMNEWIY 2vu5-a1-m5-cA_2vu5-a1-m6-cA Crystal structure of Pndk from Bacillus anthracis Q81SV8 Q81SV8 2 X-RAY DIFFRACTION 48 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 148 148 2vu5-a1-m1-cA_2vu5-a1-m3-cA 2vu5-a1-m1-cA_2vu5-a1-m4-cA 2vu5-a1-m2-cA_2vu5-a1-m5-cA 2vu5-a1-m2-cA_2vu5-a1-m6-cA 2vu5-a1-m3-cA_2vu5-a1-m4-cA MEKTFLMVKPDGVQRAFIGEIVARFEKKGFQLVGAKLMQVTPEIAGQHYAEHEEKPFFGELVDFITSGPVFAMVWQGEGVVDTARNMMGKTRPHEAAPGTIRGDFGVTVAKNIIHGSDSLESAEREIGIFFKEEELVDYSKLMNEWIY MEKTFLMVKPDGVQRAFIGEIVARFEKKGFQLVGAKLMQVTPEIAGQHYAEHEEKPFFGELVDFITSGPVFAMVWQGEGVVDTARNMMGKTRPHEAAPGTIRGDFGVTVAKNIIHGSDSLESAEREIGIFFKEEELVDYSKLMNEWIY 2vug-a1-m1-cA_2vug-a1-m1-cB The structure of an archaeal homodimeric RNA ligase Q9UYG2 Q9UYG2 2.9 X-RAY DIFFRACTION 176 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 373 373 KEILVKLGLTEDRIETLEMKGGIIEDEFDGIRYVRFKDSAGKLRRGTVVIDEEYVIPGFPHIKRIINLRSGIRRIFKRGEFYVEEKVDGYNVRVVMYKGKMLGITRGGFICPFTTERIPDFVPQEFFKDNPNLILVGEMAGPESPYLVEGPPYVKEDIQFFLFDVQEIKTGRSLPVEERLKIAEEYGINHVEVFGKYTKDDVDELYQLIERLSKEGREGIIMKSPDMKKIVKYVTPYANINDIKIGARVFYELPPGYFTSRISRLAFYLAEKRIKGEEFERVAKELGSALLQPFVESIFDVEQEEDIHELFKVRVKRIETAYKMVTHFEKLGLKIEIVDIEEIKDGWRITFKRLYPDATNEIRELIGGKAFVD KEILVKLGLTEDRIETLEMKGGIIEDEFDGIRYVRFKDSAGKLRRGTVVIDEEYVIPGFPHIKRIINLRSGIRRIFKRGEFYVEEKVDGYNVRVVMYKGKMLGITRGGFICPFTTERIPDFVPQEFFKDNPNLILVGEMAGPESPYLVEGPPYVKEDIQFFLFDVQEIKTGRSLPVEERLKIAEEYGINHVEVFGKYTKDDVDELYQLIERLSKEGREGIIMKSPDMKKIVKYVTPYANINDIKIGARVFYELPPGYFTSRISRLAFYLAEKRIKGEEFERVAKELGSALLQPFVESIFDVEQEEDIHELFKVRVKRIETAYKMVTHFEKLGLKIEIVDIEEIKDGWRITFKRLYPDATNEIRELIGGKAFVD 2vuh-a1-m1-cB_2vuh-a1-m2-cB Crystal structure of the D55E mutant of the HupR receiver domain P26408 P26408 2.5 X-RAY DIFFRACTION 56 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 135 135 2jk1-a1-m1-cA_2jk1-a1-m2-cA 2vui-a1-m1-cB_2vui-a1-m2-cB APAILLVDDEPHSLAAMKLALEDDFDVLTAQGAEAAIAILEEEWVQVIICEQRMPGRTGVDFLTEVRERWPETVRIIITGYTDSASMMAAINDAGIHQFLTKPWHPEQLLSSARNAARMFTLARENERLSLEMRL APAILLVDDEPHSLAAMKLALEDDFDVLTAQGAEAAIAILEEEWVQVIICEQRMPGRTGVDFLTEVRERWPETVRIIITGYTDSASMMAAINDAGIHQFLTKPWHPEQLLSSARNAARMFTLARENERLSLEMRL 2vun-a1-m1-cB_2vun-a1-m1-cD The Crystal Structure of Enamidase at 1.9 A Resolution - A new Member of the Amidohydrolase Superfamily Q0QLE9 Q0QLE9 1.89 X-RAY DIFFRACTION 83 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 385 385 2vun-a1-m1-cA_2vun-a1-m1-cC SKTIIKNIGKIVSGDIKSPVLQADTIVVEDGLIAAIGGEELMKDAGDATIIDAAGSTVTPGLLDTHVHVSGGDYAPRQKTMDFISSALHGGVTTMISAGSPHFPGRPKDAAGTKALAITLSKSYYNARPAGVKVHGGAVILEKGLTEEDFIEMKKEGVWIVGEVGLGTIKNPEDAAPMVEWAHKHGFKVQMHTGGTSIPGSSTVTADDVIKTKPDVVSHINGGPTAISVQEVDRIMDETDFAMEIVQCGNPKIADYVARRAAEKGQLGRVIFGNDAPSGTGLIPLGILRNMCQIASMSDIDPEVAVCMATGNSTAVYGLNTGVIAPGKEADLIIMDTPLGSVAEDAMGAIAAGDIPGISVVLIDGEAVVTKSRNTPPAKRAAKIL SKTIIKNIGKIVSGDIKSPVLQADTIVVEDGLIAAIGGEELMKDAGDATIIDAAGSTVTPGLLDTHVHVSGGDYAPRQKTMDFISSALHGGVTTMISAGSPHFPGRPKDAAGTKALAITLSKSYYNARPAGVKVHGGAVILEKGLTEEDFIEMKKEGVWIVGEVGLGTIKNPEDAAPMVEWAHKHGFKVQMHTGGTSIPGSSTVTADDVIKTKPDVVSHINGGPTAISVQEVDRIMDETDFAMEIVQCGNPKIADYVARRAAEKGQLGRVIFGNDAPSGTGLIPLGILRNMCQIASMSDIDPEVAVCMATGNSTAVYGLNTGVIAPGKEADLIIMDTPLGSVAEDAMGAIAAGDIPGISVVLIDGEAVVTKSRNTPPAKRAAKIL 2vun-a1-m1-cC_2vun-a1-m1-cD The Crystal Structure of Enamidase at 1.9 A Resolution - A new Member of the Amidohydrolase Superfamily Q0QLE9 Q0QLE9 1.89 X-RAY DIFFRACTION 177 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 385 385 2vun-a1-m1-cA_2vun-a1-m1-cB SKTIIKNIGKIVSGDIKSPVLQADTIVVEDGLIAAIGGEELMKDAGDATIIDAAGSTVTPGLLDTHVHVSGGDYAPRQKTMDFISSALHGGVTTMISAGSPHFPGRPKDAAGTKALAITLSKSYYNARPAGVKVHGGAVILEKGLTEEDFIEMKKEGVWIVGEVGLGTIKNPEDAAPMVEWAHKHGFKVQMHTGGTSIPGSSTVTADDVIKTKPDVVSHINGGPTAISVQEVDRIMDETDFAMEIVQCGNPKIADYVARRAAEKGQLGRVIFGNDAPSGTGLIPLGILRNMCQIASMSDIDPEVAVCMATGNSTAVYGLNTGVIAPGKEADLIIMDTPLGSVAEDAMGAIAAGDIPGISVVLIDGEAVVTKSRNTPPAKRAAKIL SKTIIKNIGKIVSGDIKSPVLQADTIVVEDGLIAAIGGEELMKDAGDATIIDAAGSTVTPGLLDTHVHVSGGDYAPRQKTMDFISSALHGGVTTMISAGSPHFPGRPKDAAGTKALAITLSKSYYNARPAGVKVHGGAVILEKGLTEEDFIEMKKEGVWIVGEVGLGTIKNPEDAAPMVEWAHKHGFKVQMHTGGTSIPGSSTVTADDVIKTKPDVVSHINGGPTAISVQEVDRIMDETDFAMEIVQCGNPKIADYVARRAAEKGQLGRVIFGNDAPSGTGLIPLGILRNMCQIASMSDIDPEVAVCMATGNSTAVYGLNTGVIAPGKEADLIIMDTPLGSVAEDAMGAIAAGDIPGISVVLIDGEAVVTKSRNTPPAKRAAKIL 2vuo-a1-m1-cB_2vuo-a1-m1-cA Crystal structure of the rabbit IgG Fc fragment P01870 P01870 1.95 X-RAY DIFFRACTION 66 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 214 215 PPELLGGPSVFIFPPKPKDTLMISRTPEVTCVVVDVSQDDPEVQFTWYINNEQVRTARPPLREQQFNSTIRVVSTLPIAHQDWLRGKEFKCKVHNKALPAPIEKTISKARGQPLEPKVYTMGPPREELSSRSVSLTCMINGFYPSDISVEWEKNGKAEDNYKTTPAVLDSDGSYFLYSKLSVPTSEWQRGDVFTCSVMHEALHNHYTQKSISRS PPPELLGGPSVFIFPPKPKDTLMISRTPEVTCVVVDVSQDDPEVQFTWYINNEQVRTARPPLREQQFNSTIRVVSTLPIAHQDWLRGKEFKCKVHNKALPAPIEKTISKARGQPLEPKVYTMGPPREELSSRSVSLTCMINGFYPSDISVEWEKNGKAEDNYKTTPAVLDSDGSYFLYSKLSVPTSEWQRGDVFTCSVMHEALHNHYTQKSISRS 2vv8-a1-m1-cB_2vv8-a1-m1-cD Co-bound structure of bjFixLH P23222 P23222 1.61 X-RAY DIFFRACTION 21 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 106 107 2vv7-a1-m1-cB_2vv7-a1-m1-cD IPDAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLT TIPDAMIVIDGHGIIQLFSTAAERLFGWSELEAIGQNVNILMPEPDRSRHDSYISRYRTTSDPHIIGIGRIVTGKRRDGTTFPMHLSIGEMQSGGEPYFTGFVRDLT 2vvf-a2-m1-cE_2vvf-a2-m1-cF Crystal structure of the major capsid protein P2 from Bacteriophage PM2 P15794 P15794 2.5 X-RAY DIFFRACTION 62 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 269 269 2vvf-a1-m1-cA_2vvf-a1-m1-cB 2vvf-a1-m1-cA_2vvf-a1-m1-cC 2vvf-a1-m1-cB_2vvf-a1-m1-cC 2vvf-a2-m1-cD_2vvf-a2-m1-cE 2vvf-a2-m1-cD_2vvf-a2-m1-cF 2w0c-a1-m10-cA_2w0c-a1-m10-cB 2w0c-a1-m10-cA_2w0c-a1-m10-cC 2w0c-a1-m10-cB_2w0c-a1-m10-cC 2w0c-a1-m10-cD_2w0c-a1-m10-cE 2w0c-a1-m10-cD_2w0c-a1-m10-cF 2w0c-a1-m10-cE_2w0c-a1-m10-cF 2w0c-a1-m10-cG_2w0c-a1-m23-cG 2w0c-a1-m10-cH_2w0c-a1-m10-cI 2w0c-a1-m10-cH_2w0c-a1-m10-cJ 2w0c-a1-m10-cI_2w0c-a1-m10-cJ 2w0c-a1-m11-cA_2w0c-a1-m11-cB 2w0c-a1-m11-cA_2w0c-a1-m11-cC 2w0c-a1-m11-cB_2w0c-a1-m11-cC 2w0c-a1-m11-cD_2w0c-a1-m11-cE 2w0c-a1-m11-cD_2w0c-a1-m11-cF 2w0c-a1-m11-cE_2w0c-a1-m11-cF 2w0c-a1-m11-cG_2w0c-a1-m20-cG 2w0c-a1-m11-cG_2w0c-a1-m38-cG 2w0c-a1-m11-cH_2w0c-a1-m11-cI 2w0c-a1-m11-cH_2w0c-a1-m11-cJ 2w0c-a1-m11-cI_2w0c-a1-m11-cJ 2w0c-a1-m12-cA_2w0c-a1-m12-cB 2w0c-a1-m12-cA_2w0c-a1-m12-cC 2w0c-a1-m12-cB_2w0c-a1-m12-cC 2w0c-a1-m12-cD_2w0c-a1-m12-cE 2w0c-a1-m12-cD_2w0c-a1-m12-cF 2w0c-a1-m12-cE_2w0c-a1-m12-cF 2w0c-a1-m12-cG_2w0c-a1-m37-cG 2w0c-a1-m12-cG_2w0c-a1-m47-cG 2w0c-a1-m12-cH_2w0c-a1-m12-cI 2w0c-a1-m12-cH_2w0c-a1-m12-cJ 2w0c-a1-m12-cI_2w0c-a1-m12-cJ 2w0c-a1-m13-cA_2w0c-a1-m13-cB 2w0c-a1-m13-cA_2w0c-a1-m13-cC 2w0c-a1-m13-cB_2w0c-a1-m13-cC 2w0c-a1-m13-cD_2w0c-a1-m13-cE 2w0c-a1-m13-cD_2w0c-a1-m13-cF 2w0c-a1-m13-cE_2w0c-a1-m13-cF 2w0c-a1-m13-cG_2w0c-a1-m45-cG 2w0c-a1-m13-cG_2w0c-a1-m46-cG 2w0c-a1-m13-cH_2w0c-a1-m13-cI 2w0c-a1-m13-cH_2w0c-a1-m13-cJ 2w0c-a1-m13-cI_2w0c-a1-m13-cJ 2w0c-a1-m14-cA_2w0c-a1-m14-cB 2w0c-a1-m14-cA_2w0c-a1-m14-cC 2w0c-a1-m14-cB_2w0c-a1-m14-cC 2w0c-a1-m14-cD_2w0c-a1-m14-cE 2w0c-a1-m14-cD_2w0c-a1-m14-cF 2w0c-a1-m14-cE_2w0c-a1-m14-cF 2w0c-a1-m14-cG_2w0c-a1-m29-cG 2w0c-a1-m14-cG_2w0c-a1-m44-cG 2w0c-a1-m14-cH_2w0c-a1-m14-cI 2w0c-a1-m14-cH_2w0c-a1-m14-cJ 2w0c-a1-m14-cI_2w0c-a1-m14-cJ 2w0c-a1-m15-cA_2w0c-a1-m15-cB 2w0c-a1-m15-cA_2w0c-a1-m15-cC 2w0c-a1-m15-cB_2w0c-a1-m15-cC 2w0c-a1-m15-cD_2w0c-a1-m15-cE 2w0c-a1-m15-cD_2w0c-a1-m15-cF 2w0c-a1-m15-cE_2w0c-a1-m15-cF 2w0c-a1-m15-cG_2w0c-a1-m16-cG 2w0c-a1-m15-cG_2w0c-a1-m28-cG 2w0c-a1-m15-cH_2w0c-a1-m15-cI 2w0c-a1-m15-cH_2w0c-a1-m15-cJ 2w0c-a1-m15-cI_2w0c-a1-m15-cJ 2w0c-a1-m16-cA_2w0c-a1-m16-cB 2w0c-a1-m16-cA_2w0c-a1-m16-cC 2w0c-a1-m16-cB_2w0c-a1-m16-cC 2w0c-a1-m16-cD_2w0c-a1-m16-cE 2w0c-a1-m16-cD_2w0c-a1-m16-cF 2w0c-a1-m16-cE_2w0c-a1-m16-cF 2w0c-a1-m16-cG_2w0c-a1-m28-cG 2w0c-a1-m16-cH_2w0c-a1-m16-cI 2w0c-a1-m16-cH_2w0c-a1-m16-cJ 2w0c-a1-m16-cI_2w0c-a1-m16-cJ 2w0c-a1-m17-cA_2w0c-a1-m17-cB 2w0c-a1-m17-cA_2w0c-a1-m17-cC 2w0c-a1-m17-cB_2w0c-a1-m17-cC 2w0c-a1-m17-cD_2w0c-a1-m17-cE 2w0c-a1-m17-cD_2w0c-a1-m17-cF 2w0c-a1-m17-cE_2w0c-a1-m17-cF 2w0c-a1-m17-cG_2w0c-a1-m27-cG 2w0c-a1-m17-cG_2w0c-a1-m52-cG 2w0c-a1-m17-cH_2w0c-a1-m17-cI 2w0c-a1-m17-cH_2w0c-a1-m17-cJ 2w0c-a1-m17-cI_2w0c-a1-m17-cJ 2w0c-a1-m18-cA_2w0c-a1-m18-cB 2w0c-a1-m18-cA_2w0c-a1-m18-cC 2w0c-a1-m18-cB_2w0c-a1-m18-cC 2w0c-a1-m18-cD_2w0c-a1-m18-cE 2w0c-a1-m18-cD_2w0c-a1-m18-cF 2w0c-a1-m18-cE_2w0c-a1-m18-cF 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2w0c-a1-m60-cD_2w0c-a1-m60-cE 2w0c-a1-m60-cD_2w0c-a1-m60-cF 2w0c-a1-m60-cE_2w0c-a1-m60-cF 2w0c-a1-m60-cH_2w0c-a1-m60-cI 2w0c-a1-m60-cH_2w0c-a1-m60-cJ 2w0c-a1-m60-cI_2w0c-a1-m60-cJ 2w0c-a1-m6-cA_2w0c-a1-m6-cB 2w0c-a1-m6-cA_2w0c-a1-m6-cC 2w0c-a1-m6-cB_2w0c-a1-m6-cC 2w0c-a1-m6-cD_2w0c-a1-m6-cE 2w0c-a1-m6-cD_2w0c-a1-m6-cF 2w0c-a1-m6-cE_2w0c-a1-m6-cF 2w0c-a1-m6-cH_2w0c-a1-m6-cI 2w0c-a1-m6-cH_2w0c-a1-m6-cJ 2w0c-a1-m6-cI_2w0c-a1-m6-cJ 2w0c-a1-m7-cA_2w0c-a1-m7-cB 2w0c-a1-m7-cA_2w0c-a1-m7-cC 2w0c-a1-m7-cB_2w0c-a1-m7-cC 2w0c-a1-m7-cD_2w0c-a1-m7-cE 2w0c-a1-m7-cD_2w0c-a1-m7-cF 2w0c-a1-m7-cE_2w0c-a1-m7-cF 2w0c-a1-m7-cH_2w0c-a1-m7-cI 2w0c-a1-m7-cH_2w0c-a1-m7-cJ 2w0c-a1-m7-cI_2w0c-a1-m7-cJ 2w0c-a1-m8-cA_2w0c-a1-m8-cB 2w0c-a1-m8-cA_2w0c-a1-m8-cC 2w0c-a1-m8-cB_2w0c-a1-m8-cC 2w0c-a1-m8-cD_2w0c-a1-m8-cE 2w0c-a1-m8-cD_2w0c-a1-m8-cF 2w0c-a1-m8-cE_2w0c-a1-m8-cF 2w0c-a1-m8-cH_2w0c-a1-m8-cI 2w0c-a1-m8-cH_2w0c-a1-m8-cJ 2w0c-a1-m8-cI_2w0c-a1-m8-cJ 2w0c-a1-m9-cA_2w0c-a1-m9-cB 2w0c-a1-m9-cA_2w0c-a1-m9-cC 2w0c-a1-m9-cB_2w0c-a1-m9-cC 2w0c-a1-m9-cD_2w0c-a1-m9-cE 2w0c-a1-m9-cD_2w0c-a1-m9-cF 2w0c-a1-m9-cE_2w0c-a1-m9-cF 2w0c-a1-m9-cH_2w0c-a1-m9-cI 2w0c-a1-m9-cH_2w0c-a1-m9-cJ 2w0c-a1-m9-cI_2w0c-a1-m9-cJ MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF 2vvh-a1-m1-cD_2vvh-a1-m1-cC IrisFP fluorescent protein in its green form, cis conformation Q5S6Z9 Q5S6Z9 1.8 X-RAY DIFFRACTION 84 1.0 46758 (Lobophyllia hemprichii) 46758 (Lobophyllia hemprichii) 220 222 1zux-a1-m1-cA_1zux-a1-m1-cB 1zux-a1-m1-cC_1zux-a1-m1-cD 2btj-a1-m1-cA_2btj-a1-m1-cB 2btj-a1-m1-cC_2btj-a1-m1-cD 2vvh-a1-m1-cB_2vvh-a1-m1-cA 2vvi-a1-m1-cA_2vvi-a1-m1-cB 2vvi-a1-m1-cD_2vvi-a1-m1-cC 2vvj-a1-m1-cA_2vvj-a1-m1-cB 2vvj-a1-m1-cC_2vvj-a1-m1-cD 3p8u-a5-m1-cA_3p8u-a5-m1-cC 3p8u-a5-m1-cB_3p8u-a5-m1-cD 3s05-a1-m1-cA_3s05-a1-m1-cB 3s05-a1-m1-cC_3s05-a1-m1-cD 3tmr-a1-m1-cB_3tmr-a1-m1-cD 3tmr-a1-m1-cC_3tmr-a1-m1-cA 3tmt-a1-m1-cB_3tmt-a1-m1-cD 3tmt-a1-m1-cC_3tmt-a1-m1-cA 4ljb-a1-m1-cB_4ljb-a1-m1-cA 4ljb-a1-m1-cD_4ljb-a1-m1-cC 4ljc-a1-m1-cB_4ljc-a1-m1-cA 4ljc-a1-m1-cD_4ljc-a1-m1-cC 4ljd-a1-m1-cB_4ljd-a1-m1-cA 4ljd-a1-m1-cD_4ljd-a1-m1-cC 4r6b-a1-m1-cB_4r6b-a1-m1-cA 4r6b-a1-m1-cD_4r6b-a1-m1-cC 5dtl-a1-m1-cA_5dtl-a1-m1-cD 5dtl-a1-m1-cE_5dtl-a1-m1-cJ 5dtl-a2-m1-cB_5dtl-a2-m1-cF 5dtl-a2-m1-cG_5dtl-a2-m1-cK 5dtl-a3-m1-cC_5dtl-a3-m1-cL 5dtl-a3-m1-cH_5dtl-a3-m1-cI 5fvf-a1-m1-cC_5fvf-a1-m1-cB 5fvf-a1-m1-cD_5fvf-a1-m1-cA 5fvg-a1-m1-cA_5fvg-a1-m1-cD 5fvg-a1-m1-cB_5fvg-a1-m1-cC 5fvi-a1-m1-cA_5fvi-a1-m1-cD 5fvi-a1-m1-cB_5fvi-a1-m1-cC MSAIKPDMKINLRMEGNVNGHHFVIDGDGTGKPFEGKQSMDLEVKEGGPLPFAFDILTTAFNRVFAEYPDHIQDYFKQSFPKGYSWERSLTFEDGGICIARNDITMEGDTFYNKVRFHGVNFPANGPVMQKKTLKWEPSTEKMYVRDGVLTGDITMALLLEGNAHYRCDSRTTYKAKEKGVKLPGYHLVDHCIEILSHDKDYNKVKLYEHAVAHSGLPDN HHMSAIKPDMKINLRMEGNVNGHHFVIDGDGTGKPFEGKQSMDLEVKEGGPLPFAFDILTTAFNRVFAEYPDHIQDYFKQSFPKGYSWERSLTFEDGGICIARNDITMEGDTFYNKVRFHGVNFPANGPVMQKKTLKWEPSTEKMYVRDGVLTGDITMALLLEGNAHYRCDSRTTYKAKEKGVKLPGYHLVDHCIEILSHDKDYNKVKLYEHAVAHSGLPDN 2vvm-a1-m1-cB_2vvm-a1-m1-cA The structure of MAO-N-D5, a variant of monoamine oxidase from Aspergillus niger. P46882 P46882 1.85 X-RAY DIFFRACTION 79 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 478 481 2vvl-a1-m1-cE_2vvl-a1-m1-cA 2vvl-a2-m1-cB_2vvl-a2-m1-cC 2vvl-a3-m1-cD_2vvl-a3-m1-cH 2vvl-a4-m1-cF_2vvl-a4-m1-cG 3zdn-a1-m1-cB_3zdn-a1-m1-cA 3zdn-a2-m1-cD_3zdn-a2-m1-cC MTSRDGYQWTPETGLTQGVPSLGVISPPTNIWDVIVIGGGYCGLTATRDLTVAGFKTLLLEARDRIGGRSWSSNIDGYPYEMGGTWVHWHQSHVWREITRYKMHNALSPSFNFSRGVNHFQLRTNPTTSTYMTHEAEDELLRSALHKFTNVDGTNGRTVLPFPHDMFYVPEFRKYDEMSYSERIDQIRDELSLNERSSLEAFILLCSGGTLENSSFGEFLHWWAMSGYTYQGCMDCLMSYKFKDGQSAFARRFWEEAAGTGRLGYVFGCPVRSVVNERDAARVTARDGREFVAKRVVCTIPLNVLSTIQFSPALSTERISAMQAGHVSMCTKVHAEVDNKDMRSWTGIAYPFNKLCYAIGDGTTPAGNTHLVCFGNSANHIQPDEDVRETLKAVGQLAPGTFGVKRLVFHNWVKDEFAKGAWFFSRPGMVSECLQGLREKHGGVVFANSDWALGWRSFIDGAIEEGTRAARVVLEELG MTSRDGYQWTPETGLTQGVPSLGVISPPTNIGPWDVIVIGGGYCGLTATRDLTVAGFKTLLLEARDRIGGRSWSSNIDGYPYEMGGTWVHWHQSHVWREITRYKMHNALSPSFNFSRGVNHFQLRTNPTTSTYMTHEAEDELLRSALHKFTNVDGTNGRTVLPFPHDMFYVPEFRKYDEMSYSERIDQIRDELSLNERSSLEAFILLCSGGTLENSSFGEFLHWWAMSGYTYQGCMDCLMSYKFKDGQSAFARRFWEEAAGTGRLGYVFGCPVRSVVNERDAARVTARDGREFVAKRVVCTIPLNVLSTIQFSPALSTERISAMQAGHVSMCTKVHAEVDNKDMRSWTGIAYPFNKLCYAIGDGTTPAGNTHLVCFGNSANHIQPDEDVRETLKAVGQLAPGTFGVKRLVFHNWVKDEFAKGAWFFSRPGMVSECLQGLREKHGGVVFANSDWALGWRSFIDGAIEEGTRAARVVLEELGT 2vvo-a3-m1-cE_2vvo-a3-m2-cE Crystal structure of Mycobacterium tuberculosis ribose-5-phosphate isomerase B in complex with alpha d-allose 6-phosphate P9WKD7 P9WKD7 1.85 X-RAY DIFFRACTION 140 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 156 156 1usl-a1-m1-cA_1usl-a1-m1-cB 1usl-a2-m1-cD_1usl-a2-m1-cC 1usl-a3-m1-cE_1usl-a3-m2-cE 2bes-a1-m1-cA_2bes-a1-m1-cB 2bes-a2-m1-cD_2bes-a2-m1-cC 2bes-a3-m1-cE_2bes-a3-m2-cE 2bet-a1-m1-cA_2bet-a1-m1-cB 2bet-a2-m1-cD_2bet-a2-m1-cC 2bet-a3-m1-cE_2bet-a3-m2-cE 2vvo-a1-m1-cA_2vvo-a1-m1-cB 2vvo-a2-m1-cC_2vvo-a2-m1-cD 2vvp-a1-m1-cA_2vvp-a1-m1-cB 2vvp-a2-m1-cD_2vvp-a2-m1-cC 2vvp-a3-m1-cE_2vvp-a3-m2-cE 2vvq-a1-m1-cA_2vvq-a1-m1-cB 2vvq-a2-m1-cD_2vvq-a2-m1-cC 2vvq-a3-m1-cE_2vvq-a3-m2-cE GMRVYLGADHAGYELKQRIIEHLKQTGHEPIDCGALRYDADDDYPAFCIAAATRTVADPGSLGIVLGGSGNGEQIAANKVPGARCALAWSVQTAALAREHNNAQLIGIGGRMHTVAEALAIVDAFVTTPWSKAQRHQRRIDILAEYERTHEAPPVP GMRVYLGADHAGYELKQRIIEHLKQTGHEPIDCGALRYDADDDYPAFCIAAATRTVADPGSLGIVLGGSGNGEQIAANKVPGARCALAWSVQTAALAREHNNAQLIGIGGRMHTVAEALAIVDAFVTTPWSKAQRHQRRIDILAEYERTHEAPPVP 2vvt-a1-m1-cB_2vvt-a1-m1-cA Glutamate Racemase (MurI) from E. faecalis in complex with a 9-Benzyl Purine inhibitor Q836J0 Q836J0 1.65 X-RAY DIFFRACTION 76 0.981 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 266 269 NQEAIGLIDSGVGGLTVLKEALKQLPNERLIYLGDTARCPYGPRPAEQVVQFTWEMADFLLKKRIKMLVIACNTATAVALEEIKAALPIPVVGVILPGARAAVKVTKNNKIGVIGTLGTIKSASYEIAIKSKAPAIEVTSLACPKFVPIVESNQYRSSVAKKIVAETLQALQLKGLDTLILGCTHYPLLRPVIQNVMGSHVTLIDSGAETVGEVSMLLDYFDIAHTPEAPTQPHEFYTTGSAKMFEEIASSWLGIENLKAQQIHLG VPRGSHMSNQEAIGLIDSGVGGLTVLKEALKQLPNERLIYLGDTARCPYGPRPAEQVVQFTWEMADFLLKKRIKMLVIACNTATAVALEEIKAALPIPVVGVILPGARAAVKVTKNNKIGVIGTLGTIKSASYEIAIKSKAPAIEVTSLACPKFVPIVESNQYRSSVAKKIVAETLQALQLKGLDTLILGCTHYPLLRPVIQNVMGSHVTLIDSGAETVGEVSMLLDYFDIAHTPPHEFYTTGSAKMFEEIASSWLGIENLKAQQIHLG 2vvw-a1-m1-cA_2vvw-a1-m1-cB Structure of Vaccinia virus protein A52 Q01220 Q01220 1.9 X-RAY DIFFRACTION 27 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 150 150 2vvx-a1-m1-cB_2vvx-a1-m1-cA IKPDYLEYDDLLDRDEMFTILEEYFMYRGLLGLRIKYGRLFNEIKKFDNDAEEQFGTIEELKQKLRLNSEEGADNFIDYIKVQKQDIVKLTVYDCISMIGLCACVVDVWRNEKLFSRWKYCLRAIKLFINDHMLDKIKSILQNRLVYVEM IKPDYLEYDDLLDRDEMFTILEEYFMYRGLLGLRIKYGRLFNEIKKFDNDAEEQFGTIEELKQKLRLNSEEGADNFIDYIKVQKQDIVKLTVYDCISMIGLCACVVDVWRNEKLFSRWKYCLRAIKLFINDHMLDKIKSILQNRLVYVEM 2vvy-a2-m1-cB_2vvy-a2-m1-cD Structure of Vaccinia virus protein B14 P24772 P24772 2.693 X-RAY DIFFRACTION 45 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 138 138 2vvy-a1-m1-cA_2vvy-a1-m1-cC HVFSPQHCGCDRLTSIDDVRQCLTEYIYWSSYAYRNRQCAGQLYSTLLSFRDDAELVFIDIRELVKNPWDDVKDCAEIIRCYIPDEQKTIREISAIIGLCAYAATYWGGEDHPTSNSLNALFVLELNYVDYNIIFRRN HVFSPQHCGCDRLTSIDDVRQCLTEYIYWSSYAYRNRQCAGQLYSTLLSFRDDAELVFIDIRELVKNPWDDVKDCAEIIRCYIPDEQKTIREISAIIGLCAYAATYWGGEDHPTSNSLNALFVLELNYVDYNIIFRRN 2vw9-a1-m1-cB_2vw9-a1-m2-cB Single stranded DNA binding protein complex from Helicobacter pylori O25841 O25841 2.3 X-RAY DIFFRACTION 76 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 105 105 2vw9-a1-m1-cA_2vw9-a1-m2-cA MFNKVIMVGRLTRNVELKYLPSGSAAATIGLATSRRFKKQDGTLGEEVCFIDARLFGRTAEIANQYLSKGSSVLIEGRLTYESWMDQTGKKNSRHTITADSLQFM MFNKVIMVGRLTRNVELKYLPSGSAAATIGLATSRRFKKQDGTLGEEVCFIDARLFGRTAEIANQYLSKGSSVLIEGRLTYESWMDQTGKKNSRHTITADSLQFM 2vwi-a1-m1-cA_2vwi-a1-m1-cB Structure of the OSR1 kinase, a hypertension drug target O95747 O95747 2.15 X-RAY DIFFRACTION 14 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 236 264 NRDDYELQEVIGTAVVQAAYCEKVAIKRINAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLAGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFF PWSINRDDYELQEVIGSAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQ 2vwi-a1-m1-cA_2vwi-a1-m1-cC Structure of the OSR1 kinase, a hypertension drug target O95747 O95747 2.15 X-RAY DIFFRACTION 34 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 236 270 NRDDYELQEVIGTAVVQAAYCEKVAIKRINAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLAGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFF PWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDITRNKVGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFF 2vwt-a1-m1-cA_2vwt-a1-m2-cB Crystal structure of YfaU, a metal ion dependent class II aldolase from Escherichia coli K12 - Mg-pyruvate product complex P76469 P76469 1.93 X-RAY DIFFRACTION 34 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 256 256 2vws-a1-m1-cA_2vws-a1-m2-cB 2vws-a1-m1-cB_2vws-a1-m2-cA 2vws-a1-m1-cC_2vws-a1-m2-cC 2vwt-a1-m1-cB_2vwt-a1-m2-cA 2vwt-a1-m1-cC_2vwt-a1-m2-cC MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKS MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKS 2vwt-a1-m1-cB_2vwt-a1-m2-cC Crystal structure of YfaU, a metal ion dependent class II aldolase from Escherichia coli K12 - Mg-pyruvate product complex P76469 P76469 1.93 X-RAY DIFFRACTION 98 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 256 256 2vws-a1-m1-cA_2vws-a1-m2-cA 2vws-a1-m1-cB_2vws-a1-m2-cC 2vws-a1-m1-cC_2vws-a1-m2-cB 2vwt-a1-m1-cA_2vwt-a1-m2-cA 2vwt-a1-m1-cC_2vwt-a1-m2-cB MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKS MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKS 2vwt-a1-m2-cA_2vwt-a1-m2-cB Crystal structure of YfaU, a metal ion dependent class II aldolase from Escherichia coli K12 - Mg-pyruvate product complex P76469 P76469 1.93 X-RAY DIFFRACTION 61 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 256 256 2vws-a1-m1-cA_2vws-a1-m1-cB 2vws-a1-m1-cA_2vws-a1-m1-cC 2vws-a1-m1-cB_2vws-a1-m1-cC 2vws-a1-m2-cA_2vws-a1-m2-cB 2vws-a1-m2-cA_2vws-a1-m2-cC 2vws-a1-m2-cB_2vws-a1-m2-cC 2vwt-a1-m1-cA_2vwt-a1-m1-cB 2vwt-a1-m1-cA_2vwt-a1-m1-cC 2vwt-a1-m1-cB_2vwt-a1-m1-cC 2vwt-a1-m2-cA_2vwt-a1-m2-cC 2vwt-a1-m2-cB_2vwt-a1-m2-cC MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKS MNALLSNPFKERLRKGEVQIGLWLSSTTAYMAEIAATSGYDWLLIDGEHAPNTIQDLYHQLQAVAPYASQPVIRPVEGSKPLIKQVLDIGAQTLLIPMVDTAEQARQVVSATRYPPYGERGVGASVARAARWGRIENYMAQVNDSLCLLVQVESKTALDNLDEILDVEGIDGVFIGPADLSASLGYPDNAGHPEVQRIIETSIRRIRAAGKAAGFLAVAPDMAQQCLAWGANFVAVGVDTMLYSDALDQRLAMFKS 2vx2-a3-m1-cG_2vx2-a3-m1-cI Crystal structure of human enoyl Coenzyme A hydratase domain- containing protein 3 (ECHDC3) Q96DC8 Q96DC8 2.3 X-RAY DIFFRACTION 143 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 254 2vx2-a1-m1-cA_2vx2-a1-m1-cC 2vx2-a1-m1-cB_2vx2-a1-m1-cA 2vx2-a1-m1-cB_2vx2-a1-m1-cC 2vx2-a2-m1-cE_2vx2-a2-m1-cD 2vx2-a2-m1-cF_2vx2-a2-m1-cD 2vx2-a2-m1-cF_2vx2-a2-m1-cE 2vx2-a3-m1-cG_2vx2-a3-m1-cH 2vx2-a3-m1-cH_2vx2-a3-m1-cI RPTSARQLDGIRNIVLSNPKKRNTLSLAMLKSLQSDILHDADSNDLKVIIISAEGPVFSSGHDLKELTEEQGRDYHAEVFQTCSKVMMHIRNHPVPVIAMVNGLATAAGCQLVASCDIAVASDKSSFATPGVNVGLFCSTPGVALARAVPRKVALEMLFTGEPISAQEALLHGLLSKVVPEAELQEETMRIARKIASLSRPVVSLGKATFYKQLPQDLGTAYYLTSQAMVDNLALRDGQEGITAFLQKRKPVW RPTSARQLDGIRNIVLSNPKKRNTLSLAMLKSLQSDILHDADSNDLKVIIISAEGPVFSSGHDLKELTEEQGRDYHAEVFQTCSKVMMHIRNHPVPVIAMVNGLATAAGCQLVASCDIAVASDKSSFATPGVNVGLFCSTPGVALARAVPRKVALEMLFTGEPISAQEALLHGLLSKVVPEAELQEETMRIARKIASLSRPVVSLGKATFYKQLPQDLGTAYYLTSQAMVDNLALRDGQEGITAFLQKRKPVWS 2vx8-a1-m1-cA_2vx8-a1-m1-cB Vamp7 longin domain Hrb peptide complex P70280 P70280 2.2 X-RAY DIFFRACTION 136 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 138 TPEVKPLKSLLGDSAPTLHLNKGMAILFAVVARGTTILAKHAWCGGNFLEVTEQILAKIPSENNKLTYSHGNYLFHYICQDRIVYLCITDDDFERSRAFSFLNEVKKRFQTTYGSRAQTALPYAMNSEFSSVLAAQ STPEVKPLKSLLGDSAPTLHLNKGMAILFAVVARGTTILAKHAWCGGNFLEVTEQILAKIPSENNKLTYSHGNYLFHYICQDRIVYLCITDDDFERSRAFSFLNEVKKRFQTTYGSRAQTALPYAMNSEFSSVLAAQL 2vxa-a1-m1-cE_2vxa-a1-m1-cL H. halophila dodecin in complex with riboflavin A1WUH0 A1WUH0 2.6 X-RAY DIFFRACTION 36 1.0 1053 (Halorhodospira halophila) 1053 (Halorhodospira halophila) 66 66 2vxa-a1-m1-cA_2vxa-a1-m1-cE 2vxa-a1-m1-cA_2vxa-a1-m1-cL 2vxa-a1-m1-cB_2vxa-a1-m1-cH 2vxa-a1-m1-cB_2vxa-a1-m1-cK 2vxa-a1-m1-cC_2vxa-a1-m1-cF 2vxa-a1-m1-cC_2vxa-a1-m1-cG 2vxa-a1-m1-cD_2vxa-a1-m1-cI 2vxa-a1-m1-cD_2vxa-a1-m1-cJ 2vxa-a1-m1-cF_2vxa-a1-m1-cG 2vxa-a1-m1-cH_2vxa-a1-m1-cK 2vxa-a1-m1-cI_2vxa-a1-m1-cJ DHVYKIVELTGSSPNGIEEAVNNAIARAGETLRHLRWFEVVDTRGHIEGGRVNHWQVTVKVGFTLE DHVYKIVELTGSSPNGIEEAVNNAIARAGETLRHLRWFEVVDTRGHIEGGRVNHWQVTVKVGFTLE 2vxa-a1-m1-cK_2vxa-a1-m1-cL H. halophila dodecin in complex with riboflavin A1WUH0 A1WUH0 2.6 X-RAY DIFFRACTION 32 1.0 1053 (Halorhodospira halophila) 1053 (Halorhodospira halophila) 66 66 2vxa-a1-m1-cA_2vxa-a1-m1-cB 2vxa-a1-m1-cA_2vxa-a1-m1-cC 2vxa-a1-m1-cB_2vxa-a1-m1-cC 2vxa-a1-m1-cD_2vxa-a1-m1-cE 2vxa-a1-m1-cD_2vxa-a1-m1-cF 2vxa-a1-m1-cE_2vxa-a1-m1-cF 2vxa-a1-m1-cG_2vxa-a1-m1-cH 2vxa-a1-m1-cG_2vxa-a1-m1-cI 2vxa-a1-m1-cH_2vxa-a1-m1-cI 2vxa-a1-m1-cJ_2vxa-a1-m1-cK 2vxa-a1-m1-cJ_2vxa-a1-m1-cL DHVYKIVELTGSSPNGIEEAVNNAIARAGETLRHLRWFEVVDTRGHIEGGRVNHWQVTVKVGFTLE DHVYKIVELTGSSPNGIEEAVNNAIARAGETLRHLRWFEVVDTRGHIEGGRVNHWQVTVKVGFTLE 2vxb-a1-m1-cB_2vxb-a1-m1-cA Structure of the Crb2-BRCT2 domain P87074 P87074 2.3 X-RAY DIFFRACTION 78 0.982 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 224 225 2vxc-a1-m1-cA_2vxc-a1-m1-cB LIFDDCVFAFSGPVHEDAYDRSALETVVQDHGGLVLDTGLRPLFNDPFKSKQKKLRHLKPQKRSKSWNQAFVVSDTFSRKVKYLEALAFNIPCVHPQFIKQCLKMNRVVDFSPYLLASGYSHRLDCTLSQRIEPFDTTDSLYDRLLARKGPLFGKKILFIIPEQGQKALAHVYHALALGADVEIRPNVAHLECDLILTMDGTNCPVVDPEWIVECLISQSDIST LIFDDCVFAFSGPVHEDAYDRSALETVVQDHGGLVLDTGLRPLFNDPFKKLRHLKPQKRSKSWNQAFVVSDTFSRKVKYLEALAFNIPCVHPQFIKQCLKMNRVVDFSPYLLASGYSHRLDCTLSQRIEPFDTTDSLYDRLLARKGPLFGKKILFIIPEQGQKALAHVYHALALGADVEIRPNVAHLECDLILTMDGNIVDETNCPVVDPEWIVECLISQSDIST 2vxo-a1-m1-cA_2vxo-a1-m1-cB Human GMP synthetase in complex with XMP P49915 P49915 2.5 X-RAY DIFFRACTION 249 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 643 658 EGAVVILDAGYGKVIDRRVRELFVQSEIFPLETPAFAIKEQGFRAIIISGGPAPWFDPAIFTIGKPVLGICYGMQMMNKVFGGTVHKVFNISVDNTCSLFRGLQKEEVVLLTHGDSVDKVADGFKVVARSGNIVAGIANESKKLYGAQFHPEVGLTENGKVILKNFLYDIAGCSGTFTVQNRELECIREIKERVGTSKVLVLLSGGVDSTVCTALLNRALNQEQVIAVHIDNGFMRKRESQSVEEALKKLGIQVKVINAAHSFYNGTTTLPRISKTLNMTTSPEEKRKIIGDTFVKIANEVIGEMNLKPEEVFLAQGTLRPDLIESASLVASGKAELIKTHHNDTELIRKLREEGKVIEPLKDFHKDEVRILGRELGLPEELVSRHPFPGPGLAIRVICAEEPYICKDFPETNNILKIVADFSASVKKPHTLLQRVKACTTEEDQEKLMQITSLHSLNAFLLPIKTVGVQGDCRSYSYVCGISSKDEPDWESLIFLARLIPRMCHNVNRVVYIFGPPVKEPPTDVTPTFLTTGVLSTLRQADFEAHNILRESGYAGKISQMPVILTPLHFDRDPLQKQPSCQRSVVIRTFITSDFMTGIPATPGNEIPVEVVLKMVTEIKKIPGISRIMYDLTSKPPGTTEWE HYEGAVVILDAGAQYGKVIDRRVRELFVQSEIFPLETPAFAIKEQGFRAIIISGGPNSVYAEDAPWFDPAIFTIGKPVLGICYGMQMMNKVFGGTVHKKSDGVFNISVDNTCSLFRGLQKEEVVLLTHGDSVDKVADGFKVVARSGNIVAGIANESKKLYGAQFHPEVGLTENGKVILKNFLYDIAGCSGTFTVQNRELECIREIKERVGTSKVLVLLSGGVDSTVCTALLNRALNQEQVIAVHIDNGFMRKRESQSVEEALKKLGIQVKVINAAHSFYNGTTTLPRISKTLNMTTSPEEKRKIIGDTFVKIANEVIGEMNLKPEEVFLAQGTLRPDLIESASLVASGKAELIKTHHNDTELIRKLREEGKVIEPLKDFHKDEVRILGRELGLPEELVSRHPFPGPGLAIRVICAEEPYICKDFPETNNILKIVADFSASVKKPHTLLQRVKACTTEEDQEKLMQITSLHSLNAFLLPIKTVGVQGDCRSYSYVCGISSKDEPDWESLIFLARLIPRMCHNVNRVVYIFGPPVKEPPTDVTPTFLTTGVLSTLRQADFEAHNILRESGYAGKISQMPVILTPLHFDRDPLQKQPSCQRSVVIRTFITSDFMTGIPATPGNEIPVEVVLKMVTEIKKIPGISRIMYDLTSKPPGTTEWE 2vxs-a2-m1-cB_2vxs-a2-m1-cA Structure of IL-17A in complex with a potent, fully human neutralising antibody Q16552 Q16552 2.63 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 86 NPKRSSDYYNRSTSPWNLHRNEDRYPSVIWEAKCRHLGCINADGNVDYHMNSVPIQQEILVLRLEKILVSVGCTCVTPIV TNPKRSSDYYNRSTSPWNLHRNEDPERYPSVIWEAKCRHLGCINADGNVDYHMNSVPIQQEILVLSFRLEKILVSVGCTCVTPIVH 2vxw-a1-m1-cD_2vxw-a1-m1-cA Structural and Functional Studies of the Potent Anti-HIV Chemokine Variant P2-RANTES P13501 P13501 1.7 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 69 2vxw-a1-m1-cC_2vxw-a1-m1-cB SSACCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS FSPLSSQSSACCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 2vxw-a1-m1-cD_2vxw-a1-m1-cB Structural and Functional Studies of the Potent Anti-HIV Chemokine Variant P2-RANTES P13501 P13501 1.7 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 69 2vxw-a1-m1-cC_2vxw-a1-m1-cA SSACCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS FSPLSSQSSACCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 2vxx-a1-m2-cD_2vxx-a1-m3-cD X-ray structure of DpsA from Thermosynechococcus elongatus Q8DL82 Q8DL82 2.4 X-RAY DIFFRACTION 42 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 172 172 2vxx-a1-m1-cA_2vxx-a1-m1-cC 2vxx-a1-m1-cA_2vxx-a1-m2-cB 2vxx-a1-m1-cB_2vxx-a1-m3-cC 2vxx-a1-m1-cC_2vxx-a1-m2-cB 2vxx-a1-m1-cD_2vxx-a1-m2-cD 2vxx-a1-m1-cD_2vxx-a1-m3-cD 2vxx-a1-m2-cA_2vxx-a1-m2-cC 2vxx-a1-m2-cA_2vxx-a1-m3-cB 2vxx-a1-m2-cC_2vxx-a1-m3-cB 2vxx-a1-m3-cA_2vxx-a1-m1-cB 2vxx-a1-m3-cA_2vxx-a1-m3-cC ALPRQAFGEMADTVILLEKATTTPICEGMNRLLASFQALYLQYQKHHFVVEGAEFYPLHQFFQDCYEQVQDHVHALGERLNGLGGVPVAGFQQLAALCCFTPEPEGAFNCRQMLSNDLQAEQAIIGVLRQQATQAESLGDRATAYLYDQILLKTEERAYHIGHFLANDSLKV ALPRQAFGEMADTVILLEKATTTPICEGMNRLLASFQALYLQYQKHHFVVEGAEFYPLHQFFQDCYEQVQDHVHALGERLNGLGGVPVAGFQQLAALCCFTPEPEGAFNCRQMLSNDLQAEQAIIGVLRQQATQAESLGDRATAYLYDQILLKTEERAYHIGHFLANDSLKV 2vxx-a1-m3-cA_2vxx-a1-m3-cD X-ray structure of DpsA from Thermosynechococcus elongatus Q8DL82 Q8DL82 2.4 X-RAY DIFFRACTION 53 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 172 172 2vxx-a1-m1-cA_2vxx-a1-m1-cD 2vxx-a1-m1-cA_2vxx-a1-m3-cC 2vxx-a1-m1-cB_2vxx-a1-m2-cB 2vxx-a1-m1-cB_2vxx-a1-m3-cB 2vxx-a1-m1-cD_2vxx-a1-m3-cC 2vxx-a1-m2-cA_2vxx-a1-m1-cC 2vxx-a1-m2-cA_2vxx-a1-m2-cD 2vxx-a1-m2-cB_2vxx-a1-m3-cB 2vxx-a1-m2-cD_2vxx-a1-m1-cC 2vxx-a1-m3-cA_2vxx-a1-m2-cC 2vxx-a1-m3-cD_2vxx-a1-m2-cC ALPRQAFGEMADTVILLEKATTTPICEGMNRLLASFQALYLQYQKHHFVVEGAEFYPLHQFFQDCYEQVQDHVHALGERLNGLGGVPVAGFQQLAALCCFTPEPEGAFNCRQMLSNDLQAEQAIIGVLRQQATQAESLGDRATAYLYDQILLKTEERAYHIGHFLANDSLKV ALPRQAFGEMADTVILLEKATTTPICEGMNRLLASFQALYLQYQKHHFVVEGAEFYPLHQFFQDCYEQVQDHVHALGERLNGLGGVPVAGFQQLAALCCFTPEPEGAFNCRQMLSNDLQAEQAIIGVLRQQATQAESLGDRATAYLYDQILLKTEERAYHIGHFLANDSLKV 2vxx-a1-m3-cD_2vxx-a1-m3-cC X-ray structure of DpsA from Thermosynechococcus elongatus Q8DL82 Q8DL82 2.4 X-RAY DIFFRACTION 118 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 172 173 2vxx-a1-m1-cA_2vxx-a1-m1-cB 2vxx-a1-m1-cD_2vxx-a1-m1-cC 2vxx-a1-m2-cA_2vxx-a1-m2-cB 2vxx-a1-m2-cD_2vxx-a1-m2-cC 2vxx-a1-m3-cA_2vxx-a1-m3-cB ALPRQAFGEMADTVILLEKATTTPICEGMNRLLASFQALYLQYQKHHFVVEGAEFYPLHQFFQDCYEQVQDHVHALGERLNGLGGVPVAGFQQLAALCCFTPEPEGAFNCRQMLSNDLQAEQAIIGVLRQQATQAESLGDRATAYLYDQILLKTEERAYHIGHFLANDSLKV SALPRQAFGEMADTVILLEKATTTPICEGMNRLLASFQALYLQYQKHHFVVEGAEFYPLHQFFQDCYEQVQDHVHALGERLNGLGGVPVAGFQQLAALCCFTPEPEGAFNCRQMLSNDLQAEQAIIGVLRQQATQAESLGDRATAYLYDQILLKTEERAYHIGHFLANDSLKV 2vxy-a1-m1-cA_2vxy-a1-m2-cA The structure of FTsZ from Bacillus subtilis at 1.7A resolution P17865 P17865 1.7 X-RAY DIFFRACTION 81 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 306 306 2rhh-a1-m1-cA_2rhh-a1-m2-cA LASIKVIGVGGGGNNAVNRMIENEVQGVEYIAVNTDAQALNLSKAEVKMQIGAKLTRGLGAGANPEVGKKAAEESKEQIEEALKGADMVFVTAGMGGGTGTGAAPVIAQIAKDLGALTVGVVTRPFTFEGRKRQLQAAGGISAMKEAVDTLIVIPNDRILEIVDKNTPMLEAFREADNVLRQGVQGISDLIATPGLINLDFADVKTIMSNKGSALMGIGIATGENRAAEAAKKAISSPLLEAAIDGAQGVLMNITGGTNLSLYEVQEAADIVASASDQDVNMIFGSVINENLKDEIVVTVIATGFI LASIKVIGVGGGGNNAVNRMIENEVQGVEYIAVNTDAQALNLSKAEVKMQIGAKLTRGLGAGANPEVGKKAAEESKEQIEEALKGADMVFVTAGMGGGTGTGAAPVIAQIAKDLGALTVGVVTRPFTFEGRKRQLQAAGGISAMKEAVDTLIVIPNDRILEIVDKNTPMLEAFREADNVLRQGVQGISDLIATPGLINLDFADVKTIMSNKGSALMGIGIATGENRAAEAAKKAISSPLLEAAIDGAQGVLMNITGGTNLSLYEVQEAADIVASASDQDVNMIFGSVINENLKDEIVVTVIATGFI 2vy1-a1-m1-cA_2vy1-a1-m2-cA Structure of LEAFY transcription factor from Arabidopsis thaliana in complex with DNA from AP1 promoter Q00958 Q00958 2.104 X-RAY DIFFRACTION 20 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 163 163 2vy2-a1-m1-cA_2vy2-a1-m2-cA REHPFIVTEPGEVARGKKNGLDYLFHLYEQCREFLLQVQTIAKDRGEKCPTKVTNQVFRYAKKSGASYINKPKMRHYVHCYALHCLDEEASNALRRAFKERGENVGSWRQACYKPLVNIACRHGWDIDAVFNAHPRLSIWYVPTKLRQLCHLERNNAVAAAAA REHPFIVTEPGEVARGKKNGLDYLFHLYEQCREFLLQVQTIAKDRGEKCPTKVTNQVFRYAKKSGASYINKPKMRHYVHCYALHCLDEEASNALRRAFKERGENVGSWRQACYKPLVNIACRHGWDIDAVFNAHPRLSIWYVPTKLRQLCHLERNNAVAAAAA 2vyc-a2-m1-cG_2vyc-a2-m3-cJ Crystal Structure of Acid Induced Arginine Decarboxylase from E. coli P28629 P28629 2.4 X-RAY DIFFRACTION 354 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 755 755 2vyc-a1-m1-cA_2vyc-a1-m2-cC 2vyc-a1-m1-cB_2vyc-a1-m2-cB 2vyc-a1-m1-cC_2vyc-a1-m2-cA 2vyc-a1-m1-cD_2vyc-a1-m2-cE 2vyc-a1-m1-cE_2vyc-a1-m2-cD 2vyc-a2-m1-cF_2vyc-a2-m3-cF 2vyc-a2-m1-cH_2vyc-a2-m3-cI 2vyc-a2-m1-cI_2vyc-a2-m3-cH 2vyc-a2-m1-cJ_2vyc-a2-m3-cG 5xx1-a1-m1-cA_5xx1-a1-m1-cJ 5xx1-a1-m1-cB_5xx1-a1-m1-cI 5xx1-a1-m1-cC_5xx1-a1-m1-cH 5xx1-a1-m1-cD_5xx1-a1-m1-cG 5xx1-a1-m1-cE_5xx1-a1-m1-cF MKVLIVESEFLHQDTWVGNAVERLADALSQQNVTVIKSTSFDDGFAILSSNEAIDCLMFSYQMEHPDEHQNVRQLIGKLHERQQNVPVFLLGDREKALAAMDRDLLELVDEFAWILEDTADFIAGRAVAAMTRYRQQLLPPLFSALMKYSDIHEYSWAAPGHQGGVGFTKTPAGRFYHDYYGENLFRTDMGIERTSLGSLLDHTGAFGESEKYAARVFGADRSWSVVVGTSGSNRTIMQACMTDNDVVVVDRNCHKSIEQGLMLTGAKPVYMVPSRNRYGIIGPIYPQEMQPETLQKKISESPLTKDKAGQKPSYCVVTNCTYDGVCYNAKEAQDLLEKTSDRLHFDEAWYGYARFNPIYADHYAMRGEPGDHNGPTVFATHSTHKLLNALSQASYIHVREGRGAINFSRFNQAYMMHATTSPLYAICASNDVAVSMMDGNSGLSLTQEVIDEAVDFRQAMARLYKEFTADGSWFFKPWNKEVVTDPQTGKTYDFADAPTKLLTTVQDCWVMHPGESWHGFKDIPDNWSMLDPIKVSILAPGMGEDGELEETGVPAALVTAWLGRHGIVPTRTTDFQIMFLFSMGVTRGKWGTLVNTLCSFKRHYDANTPLAQVMPELVEQYPDTYANMGIHDLGDTMFAWLKENNPGARLNEAYSGLPVAEVTPREAYNAIVDNNVELVSIENLPGRIAANSVIPYPPGIPMLLSGENFGDKNSPQVSYLRSLQSWDHHFPGFEHETEGTEIIDGIYHVMCVKA MKVLIVESEFLHQDTWVGNAVERLADALSQQNVTVIKSTSFDDGFAILSSNEAIDCLMFSYQMEHPDEHQNVRQLIGKLHERQQNVPVFLLGDREKALAAMDRDLLELVDEFAWILEDTADFIAGRAVAAMTRYRQQLLPPLFSALMKYSDIHEYSWAAPGHQGGVGFTKTPAGRFYHDYYGENLFRTDMGIERTSLGSLLDHTGAFGESEKYAARVFGADRSWSVVVGTSGSNRTIMQACMTDNDVVVVDRNCHKSIEQGLMLTGAKPVYMVPSRNRYGIIGPIYPQEMQPETLQKKISESPLTKDKAGQKPSYCVVTNCTYDGVCYNAKEAQDLLEKTSDRLHFDEAWYGYARFNPIYADHYAMRGEPGDHNGPTVFATHSTHKLLNALSQASYIHVREGRGAINFSRFNQAYMMHATTSPLYAICASNDVAVSMMDGNSGLSLTQEVIDEAVDFRQAMARLYKEFTADGSWFFKPWNKEVVTDPQTGKTYDFADAPTKLLTTVQDCWVMHPGESWHGFKDIPDNWSMLDPIKVSILAPGMGEDGELEETGVPAALVTAWLGRHGIVPTRTTDFQIMFLFSMGVTRGKWGTLVNTLCSFKRHYDANTPLAQVMPELVEQYPDTYANMGIHDLGDTMFAWLKENNPGARLNEAYSGLPVAEVTPREAYNAIVDNNVELVSIENLPGRIAANSVIPYPPGIPMLLSGENFGDKNSPQVSYLRSLQSWDHHFPGFEHETEGTEIIDGIYHVMCVKA 2vyc-a2-m3-cI_2vyc-a2-m3-cJ Crystal Structure of Acid Induced Arginine Decarboxylase from E. coli P28629 P28629 2.4 X-RAY DIFFRACTION 66 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 755 755 2vyc-a1-m1-cA_2vyc-a1-m1-cB 2vyc-a1-m1-cA_2vyc-a1-m1-cE 2vyc-a1-m1-cB_2vyc-a1-m1-cC 2vyc-a1-m1-cC_2vyc-a1-m1-cD 2vyc-a1-m1-cD_2vyc-a1-m1-cE 2vyc-a1-m2-cA_2vyc-a1-m2-cB 2vyc-a1-m2-cA_2vyc-a1-m2-cE 2vyc-a1-m2-cB_2vyc-a1-m2-cC 2vyc-a1-m2-cC_2vyc-a1-m2-cD 2vyc-a1-m2-cD_2vyc-a1-m2-cE 2vyc-a2-m1-cF_2vyc-a2-m1-cG 2vyc-a2-m1-cF_2vyc-a2-m1-cJ 2vyc-a2-m1-cG_2vyc-a2-m1-cH 2vyc-a2-m1-cH_2vyc-a2-m1-cI 2vyc-a2-m1-cI_2vyc-a2-m1-cJ 2vyc-a2-m3-cF_2vyc-a2-m3-cG 2vyc-a2-m3-cF_2vyc-a2-m3-cJ 2vyc-a2-m3-cG_2vyc-a2-m3-cH 2vyc-a2-m3-cH_2vyc-a2-m3-cI 5xx1-a1-m1-cB_5xx1-a1-m1-cA 5xx1-a1-m1-cB_5xx1-a1-m1-cC 5xx1-a1-m1-cD_5xx1-a1-m1-cC 5xx1-a1-m1-cD_5xx1-a1-m1-cE 5xx1-a1-m1-cE_5xx1-a1-m1-cA 5xx1-a1-m1-cF_5xx1-a1-m1-cG 5xx1-a1-m1-cF_5xx1-a1-m1-cJ 5xx1-a1-m1-cH_5xx1-a1-m1-cG 5xx1-a1-m1-cH_5xx1-a1-m1-cI 5xx1-a1-m1-cJ_5xx1-a1-m1-cI MKVLIVESEFLHQDTWVGNAVERLADALSQQNVTVIKSTSFDDGFAILSSNEAIDCLMFSYQMEHPDEHQNVRQLIGKLHERQQNVPVFLLGDREKALAAMDRDLLELVDEFAWILEDTADFIAGRAVAAMTRYRQQLLPPLFSALMKYSDIHEYSWAAPGHQGGVGFTKTPAGRFYHDYYGENLFRTDMGIERTSLGSLLDHTGAFGESEKYAARVFGADRSWSVVVGTSGSNRTIMQACMTDNDVVVVDRNCHKSIEQGLMLTGAKPVYMVPSRNRYGIIGPIYPQEMQPETLQKKISESPLTKDKAGQKPSYCVVTNCTYDGVCYNAKEAQDLLEKTSDRLHFDEAWYGYARFNPIYADHYAMRGEPGDHNGPTVFATHSTHKLLNALSQASYIHVREGRGAINFSRFNQAYMMHATTSPLYAICASNDVAVSMMDGNSGLSLTQEVIDEAVDFRQAMARLYKEFTADGSWFFKPWNKEVVTDPQTGKTYDFADAPTKLLTTVQDCWVMHPGESWHGFKDIPDNWSMLDPIKVSILAPGMGEDGELEETGVPAALVTAWLGRHGIVPTRTTDFQIMFLFSMGVTRGKWGTLVNTLCSFKRHYDANTPLAQVMPELVEQYPDTYANMGIHDLGDTMFAWLKENNPGARLNEAYSGLPVAEVTPREAYNAIVDNNVELVSIENLPGRIAANSVIPYPPGIPMLLSGENFGDKNSPQVSYLRSLQSWDHHFPGFEHETEGTEIIDGIYHVMCVKA MKVLIVESEFLHQDTWVGNAVERLADALSQQNVTVIKSTSFDDGFAILSSNEAIDCLMFSYQMEHPDEHQNVRQLIGKLHERQQNVPVFLLGDREKALAAMDRDLLELVDEFAWILEDTADFIAGRAVAAMTRYRQQLLPPLFSALMKYSDIHEYSWAAPGHQGGVGFTKTPAGRFYHDYYGENLFRTDMGIERTSLGSLLDHTGAFGESEKYAARVFGADRSWSVVVGTSGSNRTIMQACMTDNDVVVVDRNCHKSIEQGLMLTGAKPVYMVPSRNRYGIIGPIYPQEMQPETLQKKISESPLTKDKAGQKPSYCVVTNCTYDGVCYNAKEAQDLLEKTSDRLHFDEAWYGYARFNPIYADHYAMRGEPGDHNGPTVFATHSTHKLLNALSQASYIHVREGRGAINFSRFNQAYMMHATTSPLYAICASNDVAVSMMDGNSGLSLTQEVIDEAVDFRQAMARLYKEFTADGSWFFKPWNKEVVTDPQTGKTYDFADAPTKLLTTVQDCWVMHPGESWHGFKDIPDNWSMLDPIKVSILAPGMGEDGELEETGVPAALVTAWLGRHGIVPTRTTDFQIMFLFSMGVTRGKWGTLVNTLCSFKRHYDANTPLAQVMPELVEQYPDTYANMGIHDLGDTMFAWLKENNPGARLNEAYSGLPVAEVTPREAYNAIVDNNVELVSIENLPGRIAANSVIPYPPGIPMLLSGENFGDKNSPQVSYLRSLQSWDHHFPGFEHETEGTEIIDGIYHVMCVKA 2vye-a1-m3-cB_2vye-a1-m2-cA Crystal Structure of the DnaC-ssDNA complex Q5KU75 Q5KU75 4.1 X-RAY DIFFRACTION 143 0.984 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 380 424 2vye-a1-m1-cB_2vye-a1-m3-cA 2vye-a1-m2-cB_2vye-a1-m1-cA ERIPPQSIEAEQAVLGAVFLDPTALTLASERLIPEDFYRAAHQKIFHAMLRVADKGEPVDLVTVTAELAALEQLEEVGGVSYLSELADSVPTAANVEYYARIVEEKSLLRRLIRTATSIAQDGYTREDEIDVLLDEAERKIMEVSQRKHSGAFKDVLVQTYDNIEMLHNRNGDITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMVVIDYLQLIQGSGRNRENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRDLRESGSIEQDADIVAFIIAKQRGT IPPQSIEAEQAVLGAVFLDPTALTLASERLIPEDFYRAAHQKIFHAMLRVADKGEPVDLVTVTAELAALEQLEEVGGVSYLSELADSVPTAANVEYYARIVEEKSLLRRLIRTATSIAQDGYTREDEIDVLLDEAERKIMEVSQRKHSGAFKNIKDVLVQTYDNIEMLHNRNGDITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMVVIDYLQLIQGSGRNRENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDPMMSDLRESGSIEQDADIVAFLYRDDNKDSENKNIIEIIIAKQRNGVQLAFIKEYNKFVN 2vye-a1-m3-cB_2vye-a1-m3-cA Crystal Structure of the DnaC-ssDNA complex Q5KU75 Q5KU75 4.1 X-RAY DIFFRACTION 86 0.984 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 380 424 2vye-a1-m1-cB_2vye-a1-m1-cA 2vye-a1-m2-cB_2vye-a1-m2-cA ERIPPQSIEAEQAVLGAVFLDPTALTLASERLIPEDFYRAAHQKIFHAMLRVADKGEPVDLVTVTAELAALEQLEEVGGVSYLSELADSVPTAANVEYYARIVEEKSLLRRLIRTATSIAQDGYTREDEIDVLLDEAERKIMEVSQRKHSGAFKDVLVQTYDNIEMLHNRNGDITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMVVIDYLQLIQGSGRNRENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRDLRESGSIEQDADIVAFIIAKQRGT IPPQSIEAEQAVLGAVFLDPTALTLASERLIPEDFYRAAHQKIFHAMLRVADKGEPVDLVTVTAELAALEQLEEVGGVSYLSELADSVPTAANVEYYARIVEEKSLLRRLIRTATSIAQDGYTREDEIDVLLDEAERKIMEVSQRKHSGAFKNIKDVLVQTYDNIEMLHNRNGDITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMVVIDYLQLIQGSGRNRENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDPMMSDLRESGSIEQDADIVAFLYRDDNKDSENKNIIEIIIAKQRNGVQLAFIKEYNKFVN 2vyr-a1-m1-cA_2vyr-a1-m1-cD Structure of human MDM4 N-terminal domain bound to a single domain antibody O15151 O15151 2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 2vyr-a1-m1-cB_2vyr-a1-m1-cC NQVRPKLPLLKILHAAGAQGEMFTVKEVMHYLGQYIMVKQLYDQQEQHMVYCGGDLLGELLGRQSFSVKDPSPLYDMLRKNLVTL NQVRPKLPLLKILHAAGAQGEMFTVKEVMHYLGQYIMVKQLYDQQEQHMVYCGGDLLGELLGRQSFSVKDPSPLYDMLRKNLVTL 2vyr-a1-m1-cE_2vyr-a1-m1-cL Structure of human MDM4 N-terminal domain bound to a single domain antibody 2 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 2vyr-a1-m1-cF_2vyr-a1-m1-cI EVQLLESGGGLVQPGGSLRLSCAASGFTFEEYAMLWVRQAPGKGLEWVSGINARGYTTYYADSVKGRFTISRDNSKNTLYLQMNSLRTEDTAVYYCAKPWYPFMASKGSEFDYWGQGTLVTVSS EVQLLESGGGLVQPGGSLRLSCAASGFTFEEYAMLWVRQAPGKGLEWVSGINARGYTTYYADSVKGRFTISRDNSKNTLYLQMNSLRTEDTAVYYCAKPWYPFMASKGSEFDYWGQGTLVTVSS 2vyr-a1-m1-cF_2vyr-a1-m1-cH Structure of human MDM4 N-terminal domain bound to a single domain antibody 2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 125 EVQLLESGGGLVQPGGSLRLSCAASGFTFEEYAMLWVRQAPGKGLEWVSGINARGYTTYYADSVKGRFTISRDNSKNTLYLQMNSLRTEDTAVYYCAKPWYPFMASKGSEFDYWGQGTLVTVSS EVQLLESGGGLVQPGGSLRLSCAASGFTFEEYAMLWVRQAPGKGLEWVSGINARGYTTYYADSVKGRFTISRDNSKNTLYLQMNSLRTEDTAVYYCAKPWYPFMASKGSEFDYWGQGTLVTVSSA 2vyr-a1-m1-cJ_2vyr-a1-m1-cK Structure of human MDM4 N-terminal domain bound to a single domain antibody 2 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 EVQLLESGGGLVQPGGSLRLSCAASGFTFEEYAMLWVRQAPGKGLEWVSGINARGYTTYYADSVKGRFTISRDNSKNTLYLQMNSLRTEDTAVYYCAKPWYPFMASKGSEFDYWGQGTLVTVSS EVQLLESGGGLVQPGGSLRLSCAASGFTFEEYAMLWVRQAPGKGLEWVSGINARGYTTYYADSVKGRFTISRDNSKNTLYLQMNSLRTEDTAVYYCAKPWYPFMASKGSEFDYWGQGTLVTVSS 2vz4-a1-m1-cA_2vz4-a1-m2-cA The N-terminal domain of MerR-like protein TipAL bound to promoter DNA P0A4T9 P0A4T9 2.9 X-RAY DIFFRACTION 42 1.0 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 100 100 SYSVGQVAGFAGVTVRTLHHYDDIGLLVPSERSHAGHRRYSDADLDRLQQILFYRELGFPLDEVAALLDDRAHLRRQHELLSARIGKLQKMAAAVEQAME SYSVGQVAGFAGVTVRTLHHYDDIGLLVPSERSHAGHRRYSDADLDRLQQILFYRELGFPLDEVAALLDDRAHLRRQHELLSARIGKLQKMAAAVEQAME 2vz8-a1-m1-cA_2vz8-a1-m1-cB Crystal Structure of Mammalian Fatty Acid Synthase A5YV76 A5YV76 3.219 X-RAY DIFFRACTION 414 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 1962 2004 2vz9-a1-m1-cA_2vz9-a1-m1-cB MEEVVIAGMSGKLPESENLEEFWANLIGGVDMVTADDRRWKAGLYGLPRRMGKLKDLSRFDASFFGVHSKQANTMDPQLRMLLEVTYEAIVDGGINPASLRGTSTGVWVGVSSSDASEALSRDPETLVGYSMIGCQRAMMANRLSFFFDFKGPSITIDTACSSSLLALQSAYQAIRGGECSAAVVGGLNVLLKPNSSLQFMKLGMLSQDGTCRSFDAEGTGYCRAEAVVAVLLTKKSLARRVYATILNAGTNTDGSKEQGVTFPSGDVQEQLIRSLYAPAGPDPESLEYIEAHGTGTKVGDPQELNGIVNALCATRREPLLIGSTKSNMGHPEPASGVAALIKVLLSLEHGVWAPNLHYHTPNPEIPALQDGRLQVVDRPLPIRGGNVGINSFGFGGSNVHVILQPNSRPAPPPAQHAALPRLLQASGRTLEAVQTLLEQGLRHSRDLAFVGMLNEIAAVSPVAMPFRGYAVLGGEAGSQEVQQVPGSKRPVWFICSGMGAQWQGMGLSLMRLDRFRDSILRSDQALKPLGLRVSDLLLSTDEAVLDDIVSSFVSLTSIQIALIDLLTSLGLQPDGIIGHSLGEVACGYADGCLTQEEAVLSSYWRGYCIKEANVLPGAMAAVGLSWEECKQRCPPGIVPACHNSKDTVTISGPQAAMSEFLQQLKREDVFVKEVRTGGIAFHSYFMESIAPTLLRQLRKVILDPKPRSKRWLSTSIPEAQWQGSLARTFSAEYSVNNLVSPVLFQEALQHVPAHAVVVEIAPHALLQAVLKRSLESSCTIIPLMKKDHRDNLEFFLSNVGRLHLAGVSVNPNGLFPPVEFPAPRGTPLISPHIKWDHSQAWDVPSAADFPSGSSCSSVAVYKFDVSPESPDHYLVDHCIDGRVLFPGTGYLWLTWKTLARALSQNLEETPVVFEDVTLHQATILPKTGTVSLEVRLLEASHAFEVSDSNGSLIASGKVYQWESPDPKLFDTRAAVDPADSTAEFRLSQGDVYKDLRLRGYDYGPFFQLVLESDLEGNRGRLQWNDSWVSFLDAMLHMSILAPGQLGLYLPTRFTSIRIDPVTHRQKLYTLQDTTQAADVVVDRNLNTVVAGGALFLGAHSSVAPRRPQEHLKPILEKFCFTPHVESGCLAGNTALLSGLLDAPALKACVDTALENMASPKMKVVEVLAGDGQLYSRIPALLNTQPVMDLDYTATDRNPQALEAAQAKLEQLHVTQGQWDPANPAPADLLVCNCAGGFLLLHTLDQWESLFAGASLHLVALKRSFYGSVLFLCRQQTPQDSPVFLSVEDTSFRWVDSLKDILADASSRPVWLMAVGCSTSGVVGMVNCLRKEPGGHRIRCVLVSNLSSTSPAPEMHPSSSELQKVLQGDLVMNVYRDGAWGAFRHFPLEQDRPEKQTEHAFVNVLSRGDLSSIRWVCSPLHYALPASCQDRLCSVYYTSLNFRDVMLATGKLSPDSIPGKWLTRDCMLGMEFSGRDASGRRVMGMVPAEGLATSVLLLQHATWEVPSTWTLEEAASVPIVYTTAYYSLVVRGRMQPGESVLIHSGSGGVGQAAIAIALSRGCRVFTTVGSAEKRAYLQARFPQLDETCFANSRDTSFEQHVLRHTAGKGVDLVLNSLAEEKLQASVRCLAQHGRFLEIGKFDLSNNHALGMAVFLKNVTFHGILLDSLFEEGGATWQEVSELLKAGIQEGVVQPLKCTVFPRTKVEAAFRYMAQGKHIGKVVIQVREEEQGPAPRGLPPIALTGLSKTFCPPHKSYVITGGLGGFGLQLAQWLRLRGAQKLVLTSRSGIRTGYQARQVREWRRQGVQVLVSTSNASSLDGARSLITEATQLGPVGGVFNLAMVVSKPKYSGTANLDRVTREACPELDYFVIFSSVSCGRGNAGQANYGFANSAMERICEKRRHDGLPGLAVQWGAIGDVGVVLENDTVIGGTLPQRIASCLEVLDLFLSQPHPVLSSFVLAE MEEVVIAGMSGKLPESENLEEFWANLIGGVDMVTADDRRWKAGLYGLPRRMGKLKDLSRFDASFFGVHSKQANTMDPQLRMLLEVTYEAIVDGGINPASLRGTSTGVWVGVSSSDASEALSRDPETLVGYSMIGCQRAMMANRLSFFFDFKGPSITIDTACSSSLLALQSAYQAIRGGECSAAVVGGLNVLLKPNSSLQFMKLGMLSQDGTCRSFDAEGTGYCRAEAVVAVLLTKKSLARRVYATILNAGTNTDGSKEQGVTFPSGDVQEQLIRSLYAPAGPDPESLEYIEAHGTGTKVGDPQELNGIVNALCATRREPLLIGSTKSNMGHPEPASGVAALIKVLLSLEHGVWAPNLHYHTPNPEIPALQDGRLQVVDRPLPIRGGNVGINSFGFGGSNVHVILQPNSRPAPPPAQHAALPRLLQASGRTLEAVQTLLEQGLRHSRDLAFVGMLNEIAAVSPVAMPFRGYAVLGGEAGSQEVQQVPGSKRPVWFICSGMGAQWQGMGLSLMRLDRFRDSILRSDQALKPLGLRVSDLLLSTDEAVLDDIVSSFVSLTSIQIALIDLLTSLGLQPDGIIGHSLGEVACGYADGCLTQEEAVLSSYWRGYCIKEANVLPGAMAAVGLSWEECKQRCPPGIVPACHNSKDTVTISGPQAAMSEFLQQLKREDVFVKEVRTGGIAFHSYFMESIAPTLLRQLRKVILDPKPRSKRWLSTSIPEAQWQGSLARTFSAEYSVNNLVSPVLFQEALQHVPAHAVVVEIAPHALLQAVLKRSLESSCTIIPLMKKDHRDNLEFFLSNVGRLHLAGVSVNPNGLFPPVEFPAPRGTPLISPHIKWDHSQAWDVPSAADFPSGSSCSSVAVYKFDVSPESPDHYLVDHCIDGRVLFPGTGYLWLTWKTLARALSQNLEETPVVFEDVTLHQATILPKTGTVSLEVRLLEASHAFEVSDSNGSLIASGKVYQWESPDPKLFDTRAAVDPADSTAEFRLSQGDVYKDLRLRGYDYGPFFQLVLESDLEGNRGRLQWNDSWVSFLDAMLHMSILAPGQLGLYLPTRFTSIRIDPVTHRQKLYTLQDTTQAADVVVDRNLNTVVAGGALFLGAHSSVAPRRPQEHLKPILEKFCFTPHVESGCLAGNTALQEELQLCLLSGLLDAPALKACVDTALENMASPKMKVVEVLAGDGQLYSRIPALLNTQPVMDLDYTATDRNPQALEAAQAKLEQLHVTQGQWDPANPAPADLLVCNCAPAVAVGNMAATLKEGGFLLLHTLLSQDQWESLFAGASLHLVALKRSFYGSVLFLCRQQTPQDSPVFLSVEDTSFRWVDSLKDILADASSRPVWLMAVGCSTSGVVGMVNCLRKEPGGHRIRCVLVSNLSSTSPAPEMHPSSSELQKVLQGDLVMNVYRDGAWGAFRHFPLEQDRPEKQTEHAFVNVLSRGDLSSIRWVCSPLHYALPASCQDRLCSVYYTSLNFRDVMLATGKLSPDSIPGKWLTRDCMLGMEFSGRDASGRRVMGMVPAEGLATSVLLLQHATWEVPSTWTLEEAASVPIVYTTAYYSLVVRGRMQPGESVLIHSGSGGVGQAAIAIALSRGCRVFTTVGSAEKRAYLQARFPQLDETCFANSRDTSFEQHVLRHTAGKGVDLVLNSLAEEKLQASVRCLAQHGRFLEIGKFDLSNNHALGMAVFLKNVTFHGILLDSLFEEGGATWQEVSELLKAGIQEGVVQPLKCTVFPRTKVEAAFRYMAQGKHIGKVVIQVREEEQGPAPRGLPPIALTGLSKTFCPPHKSYVITGGLGGFGLQLAQWLRLRGAQKLVLTSRSGIRTGYQARQVREWRRQGVQVLVSTSNASSLDGARSLITEATQLGPVGGVFNLAMVLRDAVLENQTPEFFQDVSKPKYSGTANLDRVTREACPELDYFVIFSSVSCGRGNAGQANYGFANSAMERICEKRRHDGLPGLAVQWGAIGDVGVVLENDTVIGGTLPQRIASCLEVLDLFLSQPHPVLSSFVLAEK 2vzb-a1-m1-cC_2vzb-a1-m3-cD A Dodecameric Thioferritin in the Bacterial Domain, Characterization of the Bacterioferritin-Related Protein from Bacteroides fragilis Q5LAA6 Q5LAA6 2.3 X-RAY DIFFRACTION 49 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 167 167 2vzb-a1-m1-cB_2vzb-a1-m1-cA 2vzb-a1-m1-cD_2vzb-a1-m2-cC 2vzb-a1-m2-cB_2vzb-a1-m2-cA 2vzb-a1-m2-cD_2vzb-a1-m3-cC 2vzb-a1-m3-cB_2vzb-a1-m3-cA AKESVKILQGKLDVKSLIDQLNAALSEEWLAYYQYWVGALVVEGAMRADVQGEFEEHAEEERHHAQLIADRIIELEGVPVLDPKKWFELARCKYDSPTAFDSVSLLNQNVSSERCAILRYQEIANFTNGKDYTTCDIAKHILAEEEEHEQDLQDYLTDIARMKESFL AKESVKILQGKLDVKSLIDQLNAALSEEWLAYYQYWVGALVVEGAMRADVQGEFEEHAEEERHHAQLIADRIIELEGVPVLDPKKWFELARCKYDSPTAFDSVSLLNQNVSSERCAILRYQEIANFTNGKDYTTCDIAKHILAEEEEHEQDLQDYLTDIARMKESFL 2vzb-a1-m2-cD_2vzb-a1-m3-cD A Dodecameric Thioferritin in the Bacterial Domain, Characterization of the Bacterioferritin-Related Protein from Bacteroides fragilis Q5LAA6 Q5LAA6 2.3 X-RAY DIFFRACTION 36 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 167 167 2vzb-a1-m1-cB_2vzb-a1-m2-cA 2vzb-a1-m1-cB_2vzb-a1-m2-cC 2vzb-a1-m1-cC_2vzb-a1-m1-cA 2vzb-a1-m1-cC_2vzb-a1-m3-cB 2vzb-a1-m1-cD_2vzb-a1-m2-cD 2vzb-a1-m1-cD_2vzb-a1-m3-cD 2vzb-a1-m2-cB_2vzb-a1-m3-cA 2vzb-a1-m2-cB_2vzb-a1-m3-cC 2vzb-a1-m2-cC_2vzb-a1-m2-cA 2vzb-a1-m3-cB_2vzb-a1-m1-cA 2vzb-a1-m3-cC_2vzb-a1-m3-cA AKESVKILQGKLDVKSLIDQLNAALSEEWLAYYQYWVGALVVEGAMRADVQGEFEEHAEEERHHAQLIADRIIELEGVPVLDPKKWFELARCKYDSPTAFDSVSLLNQNVSSERCAILRYQEIANFTNGKDYTTCDIAKHILAEEEEHEQDLQDYLTDIARMKESFL AKESVKILQGKLDVKSLIDQLNAALSEEWLAYYQYWVGALVVEGAMRADVQGEFEEHAEEERHHAQLIADRIIELEGVPVLDPKKWFELARCKYDSPTAFDSVSLLNQNVSSERCAILRYQEIANFTNGKDYTTCDIAKHILAEEEEHEQDLQDYLTDIARMKESFL 2vzb-a1-m3-cC_2vzb-a1-m3-cD A Dodecameric Thioferritin in the Bacterial Domain, Characterization of the Bacterioferritin-Related Protein from Bacteroides fragilis Q5LAA6 Q5LAA6 2.3 X-RAY DIFFRACTION 31 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 167 167 2vzb-a1-m1-cA_2vzb-a1-m2-cA 2vzb-a1-m1-cA_2vzb-a1-m3-cA 2vzb-a1-m1-cB_2vzb-a1-m1-cC 2vzb-a1-m1-cB_2vzb-a1-m1-cD 2vzb-a1-m1-cC_2vzb-a1-m1-cD 2vzb-a1-m2-cA_2vzb-a1-m3-cA 2vzb-a1-m2-cB_2vzb-a1-m2-cC 2vzb-a1-m2-cB_2vzb-a1-m2-cD 2vzb-a1-m2-cC_2vzb-a1-m2-cD 2vzb-a1-m3-cB_2vzb-a1-m3-cC 2vzb-a1-m3-cB_2vzb-a1-m3-cD AKESVKILQGKLDVKSLIDQLNAALSEEWLAYYQYWVGALVVEGAMRADVQGEFEEHAEEERHHAQLIADRIIELEGVPVLDPKKWFELARCKYDSPTAFDSVSLLNQNVSSERCAILRYQEIANFTNGKDYTTCDIAKHILAEEEEHEQDLQDYLTDIARMKESFL AKESVKILQGKLDVKSLIDQLNAALSEEWLAYYQYWVGALVVEGAMRADVQGEFEEHAEEERHHAQLIADRIIELEGVPVLDPKKWFELARCKYDSPTAFDSVSLLNQNVSSERCAILRYQEIANFTNGKDYTTCDIAKHILAEEEEHEQDLQDYLTDIARMKESFL 2vzw-a1-m1-cA_2vzw-a1-m1-cB X-ray structure of the heme-bound GAF domain of sensory histidine kinase DosT of Mycobacterium tuberculosis P9WGK1 P9WGK1 2.3 X-RAY DIFFRACTION 51 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 146 149 GKLDATLRAIVHTAAELVDARYGALGVRGYDHRLVEFVYEGIDEETRHLIGSLPEGRGVLGALIEEPKPIRLDDISRHPASVGFPLHHPPMRTFLGVPVRIRDEVFGNLYLTEKADGQPFSDDDEVLVQALAAAAGIAVDNARLFE GKLDATLRAIVHTAAELVDARYGALGVRGYDHRLVEFVYEGIDEETRHLIGSLPEGRGVLGALIEEPKPIRLDDISRHPASVGFPLHHPPMRTFLGVPVRIRDEVFGNLYLTEKADGQPFSDDDEVLVQALAAAAGIAVDNARLFEESR 2vzy-a1-m1-cC_2vzy-a1-m1-cD Crystal structure of Rv0802c from Mycobacterium tuberculosis in an unliganded form. P9WQG7 P9WQG7 2 X-RAY DIFFRACTION 63 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 189 191 2vzy-a1-m1-cB_2vzy-a1-m1-cA 2vzz-a1-m1-cA_2vzz-a1-m1-cC 2vzz-a1-m1-cB_2vzz-a1-m1-cD SRHWPLFDLRITTPRLQLQLPTEELCDQLIDTILDLPFNTLSHLWQQLAGFKRDDWSLPLAVLVDGRAVGVQALSSKDFPITRQVDSGSWLGLRYQGHGYGTEMRAAVLYFAFAELEAQVATSRSFVDNPASIAVSRRNGYRDNGLDRVAREGAMAEALLFRLTRDDWQRHRTVEVRVDGFDRCRPLFG SRHWPLFDLRITTPRLQLQLPTEELCDQLIDTILEEDLPFNTLSHLWQQLAGFKRDDWSLPLAVLVDGRAVGVQALSSKDFPITRQVDSGSWLGLRYQGHGYGTEMRAAVLYFAFAELEAQVATSRSFVDNPASIAVSRRNGYRDNGLDRVAREGAMAEALLFRLTRDDWQRHRTVEVRVDGFDRCRPLFG 2vzz-a1-m1-cC_2vzz-a1-m1-cD Crystal structure of Rv0802c from Mycobacterium tuberculosis in Complex with Succinyl-CoA P9WQG7 P9WQG7 2.3 X-RAY DIFFRACTION 38 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 210 210 2vzy-a1-m1-cB_2vzy-a1-m1-cD 2vzy-a1-m1-cC_2vzy-a1-m1-cA 2vzz-a1-m1-cA_2vzz-a1-m1-cB SRHWPLFDLRITTPRLQLQLPTEELCDQLIDTILEGVHDPDRMPFSVPWTRASREDLPFNTLSHLWQQLAGFKRDDWSLPLAVLVDGRAVGVQALSSKDFPITRQVDSGSWLGLRYQGHGYGTEMRAAVLYFAFAELEAQVATSRSFVDNPASIAVSRRNGYRDNGLDRVAREGAMAEALLFRLTRDDWQRHRTVEVRVDGFDRCRPLFG SRHWPLFDLRITTPRLQLQLPTEELCDQLIDTILEGVHDPDRMPFSVPWTRASREDLPFNTLSHLWQQLAGFKRDDWSLPLAVLVDGRAVGVQALSSKDFPITRQVDSGSWLGLRYQGHGYGTEMRAAVLYFAFAELEAQVATSRSFVDNPASIAVSRRNGYRDNGLDRVAREGAMAEALLFRLTRDDWQRHRTVEVRVDGFDRCRPLFG 2w0c-a1-m54-cP_2w0c-a1-m9-cP X-ray structure of the entire lipid-containing bacteriophage PM2 Q9XJR6 Q9XJR6 7 X-RAY DIFFRACTION 13 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 65 65 2w0c-a1-m10-cP_2w0c-a1-m23-cP 2w0c-a1-m11-cP_2w0c-a1-m20-cP 2w0c-a1-m11-cP_2w0c-a1-m38-cP 2w0c-a1-m12-cP_2w0c-a1-m37-cP 2w0c-a1-m12-cP_2w0c-a1-m47-cP 2w0c-a1-m13-cP_2w0c-a1-m45-cP 2w0c-a1-m13-cP_2w0c-a1-m46-cP 2w0c-a1-m14-cP_2w0c-a1-m29-cP 2w0c-a1-m14-cP_2w0c-a1-m44-cP 2w0c-a1-m15-cP_2w0c-a1-m16-cP 2w0c-a1-m15-cP_2w0c-a1-m28-cP 2w0c-a1-m16-cP_2w0c-a1-m28-cP 2w0c-a1-m17-cP_2w0c-a1-m27-cP 2w0c-a1-m17-cP_2w0c-a1-m52-cP 2w0c-a1-m18-cP_2w0c-a1-m51-cP 2w0c-a1-m18-cP_2w0c-a1-m60-cP 2w0c-a1-m19-cP_2w0c-a1-m39-cP 2w0c-a1-m19-cP_2w0c-a1-m59-cP 2w0c-a1-m1-cP_2w0c-a1-m10-cP 2w0c-a1-m1-cP_2w0c-a1-m23-cP 2w0c-a1-m20-cP_2w0c-a1-m38-cP 2w0c-a1-m21-cP_2w0c-a1-m30-cP 2w0c-a1-m21-cP_2w0c-a1-m43-cP 2w0c-a1-m22-cP_2w0c-a1-m42-cP 2w0c-a1-m24-cP_2w0c-a1-m54-cP 2w0c-a1-m24-cP_2w0c-a1-m9-cP 2w0c-a1-m25-cP_2w0c-a1-m26-cP 2w0c-a1-m25-cP_2w0c-a1-m53-cP 2w0c-a1-m26-cP_2w0c-a1-m53-cP 2w0c-a1-m27-cP_2w0c-a1-m52-cP 2w0c-a1-m29-cP_2w0c-a1-m44-cP 2w0c-a1-m2-cP_2w0c-a1-m22-cP 2w0c-a1-m2-cP_2w0c-a1-m42-cP 2w0c-a1-m30-cP_2w0c-a1-m43-cP 2w0c-a1-m31-cP_2w0c-a1-m40-cP 2w0c-a1-m31-cP_2w0c-a1-m58-cP 2w0c-a1-m32-cP_2w0c-a1-m57-cP 2w0c-a1-m32-cP_2w0c-a1-m7-cP 2w0c-a1-m33-cP_2w0c-a1-m5-cP 2w0c-a1-m33-cP_2w0c-a1-m6-cP 2w0c-a1-m34-cP_2w0c-a1-m49-cP 2w0c-a1-m34-cP_2w0c-a1-m4-cP 2w0c-a1-m35-cP_2w0c-a1-m36-cP 2w0c-a1-m35-cP_2w0c-a1-m48-cP 2w0c-a1-m36-cP_2w0c-a1-m48-cP 2w0c-a1-m37-cP_2w0c-a1-m47-cP 2w0c-a1-m39-cP_2w0c-a1-m59-cP 2w0c-a1-m3-cP_2w0c-a1-m41-cP 2w0c-a1-m3-cP_2w0c-a1-m50-cP 2w0c-a1-m40-cP_2w0c-a1-m58-cP 2w0c-a1-m41-cP_2w0c-a1-m50-cP 2w0c-a1-m45-cP_2w0c-a1-m46-cP 2w0c-a1-m4-cP_2w0c-a1-m49-cP 2w0c-a1-m51-cP_2w0c-a1-m60-cP 2w0c-a1-m55-cP_2w0c-a1-m56-cP 2w0c-a1-m55-cP_2w0c-a1-m8-cP 2w0c-a1-m56-cP_2w0c-a1-m8-cP 2w0c-a1-m57-cP_2w0c-a1-m7-cP 2w0c-a1-m5-cP_2w0c-a1-m6-cP MNTSVPTSVPTNQSVWGNVSTGLDALISGWARVEQIKAAKASTGQGRVEQAMTPELDNGAAVVVE MNTSVPTSVPTNQSVWGNVSTGLDALISGWARVEQIKAAKASTGQGRVEQAMTPELDNGAAVVVE 2w0c-a1-m8-cA_2w0c-a1-m9-cH X-ray structure of the entire lipid-containing bacteriophage PM2 P15794 P15794 7 X-RAY DIFFRACTION 65 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 269 269 2w0c-a1-m10-cA_2w0c-a1-m6-cH 2w0c-a1-m10-cF_2w0c-a1-m24-cF 2w0c-a1-m10-cH_2w0c-a1-m9-cA 2w0c-a1-m11-cA_2w0c-a1-m12-cH 2w0c-a1-m11-cF_2w0c-a1-m16-cF 2w0c-a1-m11-cH_2w0c-a1-m15-cA 2w0c-a1-m12-cA_2w0c-a1-m13-cH 2w0c-a1-m12-cF_2w0c-a1-m38-cF 2w0c-a1-m13-cA_2w0c-a1-m14-cH 2w0c-a1-m13-cF_2w0c-a1-m47-cF 2w0c-a1-m14-cA_2w0c-a1-m15-cH 2w0c-a1-m14-cF_2w0c-a1-m45-cF 2w0c-a1-m15-cF_2w0c-a1-m29-cF 2w0c-a1-m16-cA_2w0c-a1-m17-cH 2w0c-a1-m16-cH_2w0c-a1-m20-cA 2w0c-a1-m17-cA_2w0c-a1-m18-cH 2w0c-a1-m17-cF_2w0c-a1-m28-cF 2w0c-a1-m18-cA_2w0c-a1-m19-cH 2w0c-a1-m18-cF_2w0c-a1-m52-cF 2w0c-a1-m19-cA_2w0c-a1-m20-cH 2w0c-a1-m19-cF_2w0c-a1-m60-cF 2w0c-a1-m1-cA_2w0c-a1-m2-cH 2w0c-a1-m1-cF_2w0c-a1-m6-cF 2w0c-a1-m1-cH_2w0c-a1-m5-cA 2w0c-a1-m20-cF_2w0c-a1-m39-cF 2w0c-a1-m21-cA_2w0c-a1-m22-cH 2w0c-a1-m21-cF_2w0c-a1-m26-cF 2w0c-a1-m21-cH_2w0c-a1-m25-cA 2w0c-a1-m22-cA_2w0c-a1-m23-cH 2w0c-a1-m22-cF_2w0c-a1-m43-cF 2w0c-a1-m23-cA_2w0c-a1-m24-cH 2w0c-a1-m24-cA_2w0c-a1-m25-cH 2w0c-a1-m25-cF_2w0c-a1-m54-cF 2w0c-a1-m26-cA_2w0c-a1-m27-cH 2w0c-a1-m26-cH_2w0c-a1-m30-cA 2w0c-a1-m27-cA_2w0c-a1-m28-cH 2w0c-a1-m27-cF_2w0c-a1-m53-cF 2w0c-a1-m28-cA_2w0c-a1-m29-cH 2w0c-a1-m29-cA_2w0c-a1-m30-cH 2w0c-a1-m2-cA_2w0c-a1-m3-cH 2w0c-a1-m2-cF_2w0c-a1-m23-cF 2w0c-a1-m30-cF_2w0c-a1-m44-cF 2w0c-a1-m31-cA_2w0c-a1-m32-cH 2w0c-a1-m31-cF_2w0c-a1-m36-cF 2w0c-a1-m31-cH_2w0c-a1-m35-cA 2w0c-a1-m32-cA_2w0c-a1-m33-cH 2w0c-a1-m32-cF_2w0c-a1-m58-cF 2w0c-a1-m33-cA_2w0c-a1-m34-cH 2w0c-a1-m33-cF_2w0c-a1-m7-cF 2w0c-a1-m34-cA_2w0c-a1-m35-cH 2w0c-a1-m34-cF_2w0c-a1-m5-cF 2w0c-a1-m35-cF_2w0c-a1-m49-cF 2w0c-a1-m36-cA_2w0c-a1-m37-cH 2w0c-a1-m36-cH_2w0c-a1-m40-cA 2w0c-a1-m37-cA_2w0c-a1-m38-cH 2w0c-a1-m37-cF_2w0c-a1-m48-cF 2w0c-a1-m38-cA_2w0c-a1-m39-cH 2w0c-a1-m39-cA_2w0c-a1-m40-cH 2w0c-a1-m3-cA_2w0c-a1-m4-cH 2w0c-a1-m3-cF_2w0c-a1-m42-cF 2w0c-a1-m40-cF_2w0c-a1-m59-cF 2w0c-a1-m41-cA_2w0c-a1-m42-cH 2w0c-a1-m41-cF_2w0c-a1-m46-cF 2w0c-a1-m41-cH_2w0c-a1-m45-cA 2w0c-a1-m42-cA_2w0c-a1-m43-cH 2w0c-a1-m43-cA_2w0c-a1-m44-cH 2w0c-a1-m44-cA_2w0c-a1-m45-cH 2w0c-a1-m46-cA_2w0c-a1-m47-cH 2w0c-a1-m46-cH_2w0c-a1-m50-cA 2w0c-a1-m47-cA_2w0c-a1-m48-cH 2w0c-a1-m48-cA_2w0c-a1-m49-cH 2w0c-a1-m49-cA_2w0c-a1-m50-cH 2w0c-a1-m4-cA_2w0c-a1-m5-cH 2w0c-a1-m4-cF_2w0c-a1-m50-cF 2w0c-a1-m51-cA_2w0c-a1-m52-cH 2w0c-a1-m51-cF_2w0c-a1-m56-cF 2w0c-a1-m51-cH_2w0c-a1-m55-cA 2w0c-a1-m52-cA_2w0c-a1-m53-cH 2w0c-a1-m53-cA_2w0c-a1-m54-cH 2w0c-a1-m54-cA_2w0c-a1-m55-cH 2w0c-a1-m55-cF_2w0c-a1-m9-cF 2w0c-a1-m56-cA_2w0c-a1-m57-cH 2w0c-a1-m56-cH_2w0c-a1-m60-cA 2w0c-a1-m57-cA_2w0c-a1-m58-cH 2w0c-a1-m57-cF_2w0c-a1-m8-cF 2w0c-a1-m58-cA_2w0c-a1-m59-cH 2w0c-a1-m59-cA_2w0c-a1-m60-cH 2w0c-a1-m6-cA_2w0c-a1-m7-cH 2w0c-a1-m7-cA_2w0c-a1-m8-cH MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF 2w0c-a1-m8-cI_2w0c-a1-m9-cJ X-ray structure of the entire lipid-containing bacteriophage PM2 P15794 P15794 7 X-RAY DIFFRACTION 16 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 269 269 2w0c-a1-m10-cI_2w0c-a1-m6-cJ 2w0c-a1-m10-cJ_2w0c-a1-m9-cI 2w0c-a1-m11-cI_2w0c-a1-m12-cJ 2w0c-a1-m11-cJ_2w0c-a1-m15-cI 2w0c-a1-m12-cI_2w0c-a1-m13-cJ 2w0c-a1-m13-cI_2w0c-a1-m14-cJ 2w0c-a1-m14-cI_2w0c-a1-m15-cJ 2w0c-a1-m16-cI_2w0c-a1-m17-cJ 2w0c-a1-m16-cJ_2w0c-a1-m20-cI 2w0c-a1-m17-cI_2w0c-a1-m18-cJ 2w0c-a1-m18-cI_2w0c-a1-m19-cJ 2w0c-a1-m19-cI_2w0c-a1-m20-cJ 2w0c-a1-m1-cI_2w0c-a1-m2-cJ 2w0c-a1-m1-cJ_2w0c-a1-m5-cI 2w0c-a1-m21-cI_2w0c-a1-m22-cJ 2w0c-a1-m21-cJ_2w0c-a1-m25-cI 2w0c-a1-m22-cI_2w0c-a1-m23-cJ 2w0c-a1-m23-cI_2w0c-a1-m24-cJ 2w0c-a1-m24-cI_2w0c-a1-m25-cJ 2w0c-a1-m26-cI_2w0c-a1-m27-cJ 2w0c-a1-m26-cJ_2w0c-a1-m30-cI 2w0c-a1-m27-cI_2w0c-a1-m28-cJ 2w0c-a1-m28-cI_2w0c-a1-m29-cJ 2w0c-a1-m29-cI_2w0c-a1-m30-cJ 2w0c-a1-m2-cI_2w0c-a1-m3-cJ 2w0c-a1-m31-cI_2w0c-a1-m32-cJ 2w0c-a1-m31-cJ_2w0c-a1-m35-cI 2w0c-a1-m32-cI_2w0c-a1-m33-cJ 2w0c-a1-m33-cI_2w0c-a1-m34-cJ 2w0c-a1-m34-cI_2w0c-a1-m35-cJ 2w0c-a1-m36-cI_2w0c-a1-m37-cJ 2w0c-a1-m36-cJ_2w0c-a1-m40-cI 2w0c-a1-m37-cI_2w0c-a1-m38-cJ 2w0c-a1-m38-cI_2w0c-a1-m39-cJ 2w0c-a1-m39-cI_2w0c-a1-m40-cJ 2w0c-a1-m3-cI_2w0c-a1-m4-cJ 2w0c-a1-m41-cI_2w0c-a1-m42-cJ 2w0c-a1-m41-cJ_2w0c-a1-m45-cI 2w0c-a1-m42-cI_2w0c-a1-m43-cJ 2w0c-a1-m43-cI_2w0c-a1-m44-cJ 2w0c-a1-m44-cI_2w0c-a1-m45-cJ 2w0c-a1-m46-cI_2w0c-a1-m47-cJ 2w0c-a1-m46-cJ_2w0c-a1-m50-cI 2w0c-a1-m47-cI_2w0c-a1-m48-cJ 2w0c-a1-m48-cI_2w0c-a1-m49-cJ 2w0c-a1-m49-cI_2w0c-a1-m50-cJ 2w0c-a1-m4-cI_2w0c-a1-m5-cJ 2w0c-a1-m51-cI_2w0c-a1-m52-cJ 2w0c-a1-m51-cJ_2w0c-a1-m55-cI 2w0c-a1-m52-cI_2w0c-a1-m53-cJ 2w0c-a1-m53-cI_2w0c-a1-m54-cJ 2w0c-a1-m54-cI_2w0c-a1-m55-cJ 2w0c-a1-m56-cI_2w0c-a1-m57-cJ 2w0c-a1-m56-cJ_2w0c-a1-m60-cI 2w0c-a1-m57-cI_2w0c-a1-m58-cJ 2w0c-a1-m58-cI_2w0c-a1-m59-cJ 2w0c-a1-m59-cI_2w0c-a1-m60-cJ 2w0c-a1-m6-cI_2w0c-a1-m7-cJ 2w0c-a1-m7-cI_2w0c-a1-m8-cJ MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF 2w0c-a1-m8-cJ_2w0c-a1-m9-cJ X-ray structure of the entire lipid-containing bacteriophage PM2 P15794 P15794 7 X-RAY DIFFRACTION 25 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 269 269 2w0c-a1-m10-cA_2w0c-a1-m6-cE 2w0c-a1-m10-cE_2w0c-a1-m9-cA 2w0c-a1-m10-cJ_2w0c-a1-m6-cJ 2w0c-a1-m10-cJ_2w0c-a1-m9-cJ 2w0c-a1-m11-cA_2w0c-a1-m12-cE 2w0c-a1-m11-cE_2w0c-a1-m15-cA 2w0c-a1-m11-cJ_2w0c-a1-m12-cJ 2w0c-a1-m11-cJ_2w0c-a1-m15-cJ 2w0c-a1-m12-cA_2w0c-a1-m13-cE 2w0c-a1-m12-cJ_2w0c-a1-m13-cJ 2w0c-a1-m13-cA_2w0c-a1-m14-cE 2w0c-a1-m13-cJ_2w0c-a1-m14-cJ 2w0c-a1-m14-cA_2w0c-a1-m15-cE 2w0c-a1-m14-cJ_2w0c-a1-m15-cJ 2w0c-a1-m16-cA_2w0c-a1-m17-cE 2w0c-a1-m16-cE_2w0c-a1-m20-cA 2w0c-a1-m16-cJ_2w0c-a1-m17-cJ 2w0c-a1-m16-cJ_2w0c-a1-m20-cJ 2w0c-a1-m17-cA_2w0c-a1-m18-cE 2w0c-a1-m17-cJ_2w0c-a1-m18-cJ 2w0c-a1-m18-cA_2w0c-a1-m19-cE 2w0c-a1-m18-cJ_2w0c-a1-m19-cJ 2w0c-a1-m19-cA_2w0c-a1-m20-cE 2w0c-a1-m19-cJ_2w0c-a1-m20-cJ 2w0c-a1-m1-cA_2w0c-a1-m2-cE 2w0c-a1-m1-cE_2w0c-a1-m5-cA 2w0c-a1-m1-cJ_2w0c-a1-m2-cJ 2w0c-a1-m1-cJ_2w0c-a1-m5-cJ 2w0c-a1-m21-cA_2w0c-a1-m22-cE 2w0c-a1-m21-cE_2w0c-a1-m25-cA 2w0c-a1-m21-cJ_2w0c-a1-m22-cJ 2w0c-a1-m21-cJ_2w0c-a1-m25-cJ 2w0c-a1-m22-cA_2w0c-a1-m23-cE 2w0c-a1-m22-cJ_2w0c-a1-m23-cJ 2w0c-a1-m23-cA_2w0c-a1-m24-cE 2w0c-a1-m23-cJ_2w0c-a1-m24-cJ 2w0c-a1-m24-cA_2w0c-a1-m25-cE 2w0c-a1-m24-cJ_2w0c-a1-m25-cJ 2w0c-a1-m26-cA_2w0c-a1-m27-cE 2w0c-a1-m26-cE_2w0c-a1-m30-cA 2w0c-a1-m26-cJ_2w0c-a1-m27-cJ 2w0c-a1-m26-cJ_2w0c-a1-m30-cJ 2w0c-a1-m27-cA_2w0c-a1-m28-cE 2w0c-a1-m27-cJ_2w0c-a1-m28-cJ 2w0c-a1-m28-cA_2w0c-a1-m29-cE 2w0c-a1-m28-cJ_2w0c-a1-m29-cJ 2w0c-a1-m29-cA_2w0c-a1-m30-cE 2w0c-a1-m29-cJ_2w0c-a1-m30-cJ 2w0c-a1-m2-cA_2w0c-a1-m3-cE 2w0c-a1-m2-cJ_2w0c-a1-m3-cJ 2w0c-a1-m31-cA_2w0c-a1-m32-cE 2w0c-a1-m31-cE_2w0c-a1-m35-cA 2w0c-a1-m31-cJ_2w0c-a1-m32-cJ 2w0c-a1-m31-cJ_2w0c-a1-m35-cJ 2w0c-a1-m32-cA_2w0c-a1-m33-cE 2w0c-a1-m32-cJ_2w0c-a1-m33-cJ 2w0c-a1-m33-cA_2w0c-a1-m34-cE 2w0c-a1-m33-cJ_2w0c-a1-m34-cJ 2w0c-a1-m34-cA_2w0c-a1-m35-cE 2w0c-a1-m34-cJ_2w0c-a1-m35-cJ 2w0c-a1-m36-cA_2w0c-a1-m37-cE 2w0c-a1-m36-cE_2w0c-a1-m40-cA 2w0c-a1-m36-cJ_2w0c-a1-m37-cJ 2w0c-a1-m36-cJ_2w0c-a1-m40-cJ 2w0c-a1-m37-cA_2w0c-a1-m38-cE 2w0c-a1-m37-cJ_2w0c-a1-m38-cJ 2w0c-a1-m38-cA_2w0c-a1-m39-cE 2w0c-a1-m38-cJ_2w0c-a1-m39-cJ 2w0c-a1-m39-cA_2w0c-a1-m40-cE 2w0c-a1-m39-cJ_2w0c-a1-m40-cJ 2w0c-a1-m3-cA_2w0c-a1-m4-cE 2w0c-a1-m3-cJ_2w0c-a1-m4-cJ 2w0c-a1-m41-cA_2w0c-a1-m42-cE 2w0c-a1-m41-cE_2w0c-a1-m45-cA 2w0c-a1-m41-cJ_2w0c-a1-m42-cJ 2w0c-a1-m41-cJ_2w0c-a1-m45-cJ 2w0c-a1-m42-cA_2w0c-a1-m43-cE 2w0c-a1-m42-cJ_2w0c-a1-m43-cJ 2w0c-a1-m43-cA_2w0c-a1-m44-cE 2w0c-a1-m43-cJ_2w0c-a1-m44-cJ 2w0c-a1-m44-cA_2w0c-a1-m45-cE 2w0c-a1-m44-cJ_2w0c-a1-m45-cJ 2w0c-a1-m46-cA_2w0c-a1-m47-cE 2w0c-a1-m46-cE_2w0c-a1-m50-cA 2w0c-a1-m46-cJ_2w0c-a1-m47-cJ 2w0c-a1-m46-cJ_2w0c-a1-m50-cJ 2w0c-a1-m47-cA_2w0c-a1-m48-cE 2w0c-a1-m47-cJ_2w0c-a1-m48-cJ 2w0c-a1-m48-cA_2w0c-a1-m49-cE 2w0c-a1-m48-cJ_2w0c-a1-m49-cJ 2w0c-a1-m49-cA_2w0c-a1-m50-cE 2w0c-a1-m49-cJ_2w0c-a1-m50-cJ 2w0c-a1-m4-cA_2w0c-a1-m5-cE 2w0c-a1-m4-cJ_2w0c-a1-m5-cJ 2w0c-a1-m51-cA_2w0c-a1-m52-cE 2w0c-a1-m51-cE_2w0c-a1-m55-cA 2w0c-a1-m51-cJ_2w0c-a1-m52-cJ 2w0c-a1-m51-cJ_2w0c-a1-m55-cJ 2w0c-a1-m52-cA_2w0c-a1-m53-cE 2w0c-a1-m52-cJ_2w0c-a1-m53-cJ 2w0c-a1-m53-cA_2w0c-a1-m54-cE 2w0c-a1-m53-cJ_2w0c-a1-m54-cJ 2w0c-a1-m54-cA_2w0c-a1-m55-cE 2w0c-a1-m54-cJ_2w0c-a1-m55-cJ 2w0c-a1-m56-cA_2w0c-a1-m57-cE 2w0c-a1-m56-cE_2w0c-a1-m60-cA 2w0c-a1-m56-cJ_2w0c-a1-m57-cJ 2w0c-a1-m56-cJ_2w0c-a1-m60-cJ 2w0c-a1-m57-cA_2w0c-a1-m58-cE 2w0c-a1-m57-cJ_2w0c-a1-m58-cJ 2w0c-a1-m58-cA_2w0c-a1-m59-cE 2w0c-a1-m58-cJ_2w0c-a1-m59-cJ 2w0c-a1-m59-cA_2w0c-a1-m60-cE 2w0c-a1-m59-cJ_2w0c-a1-m60-cJ 2w0c-a1-m6-cA_2w0c-a1-m7-cE 2w0c-a1-m6-cJ_2w0c-a1-m7-cJ 2w0c-a1-m7-cA_2w0c-a1-m8-cE 2w0c-a1-m7-cJ_2w0c-a1-m8-cJ 2w0c-a1-m8-cA_2w0c-a1-m9-cE MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF 2w0c-a1-m8-cL_2w0c-a1-m9-cL X-ray structure of the entire lipid-containing bacteriophage PM2 Q9XJR3 Q9XJR3 7 X-RAY DIFFRACTION 128 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 335 335 2vve-a1-m1-cA_2vve-a1-m2-cA 2vve-a1-m1-cA_2vve-a1-m3-cA 2vve-a1-m2-cA_2vve-a1-m4-cA 2vve-a1-m3-cA_2vve-a1-m4-cA 2vve-a2-m1-cB_2vve-a2-m5-cB 2vve-a2-m1-cB_2vve-a2-m6-cB 2vve-a2-m5-cB_2vve-a2-m7-cB 2vve-a2-m6-cB_2vve-a2-m7-cB 2w0c-a1-m10-cL_2w0c-a1-m6-cL 2w0c-a1-m10-cL_2w0c-a1-m9-cL 2w0c-a1-m11-cL_2w0c-a1-m12-cL 2w0c-a1-m11-cL_2w0c-a1-m15-cL 2w0c-a1-m12-cL_2w0c-a1-m13-cL 2w0c-a1-m13-cL_2w0c-a1-m14-cL 2w0c-a1-m14-cL_2w0c-a1-m15-cL 2w0c-a1-m16-cL_2w0c-a1-m17-cL 2w0c-a1-m16-cL_2w0c-a1-m20-cL 2w0c-a1-m17-cL_2w0c-a1-m18-cL 2w0c-a1-m18-cL_2w0c-a1-m19-cL 2w0c-a1-m19-cL_2w0c-a1-m20-cL 2w0c-a1-m1-cL_2w0c-a1-m2-cL 2w0c-a1-m1-cL_2w0c-a1-m5-cL 2w0c-a1-m21-cL_2w0c-a1-m22-cL 2w0c-a1-m21-cL_2w0c-a1-m25-cL 2w0c-a1-m22-cL_2w0c-a1-m23-cL 2w0c-a1-m23-cL_2w0c-a1-m24-cL 2w0c-a1-m24-cL_2w0c-a1-m25-cL 2w0c-a1-m26-cL_2w0c-a1-m27-cL 2w0c-a1-m26-cL_2w0c-a1-m30-cL 2w0c-a1-m27-cL_2w0c-a1-m28-cL 2w0c-a1-m28-cL_2w0c-a1-m29-cL 2w0c-a1-m29-cL_2w0c-a1-m30-cL 2w0c-a1-m2-cL_2w0c-a1-m3-cL 2w0c-a1-m31-cL_2w0c-a1-m32-cL 2w0c-a1-m31-cL_2w0c-a1-m35-cL 2w0c-a1-m32-cL_2w0c-a1-m33-cL 2w0c-a1-m33-cL_2w0c-a1-m34-cL 2w0c-a1-m34-cL_2w0c-a1-m35-cL 2w0c-a1-m36-cL_2w0c-a1-m37-cL 2w0c-a1-m36-cL_2w0c-a1-m40-cL 2w0c-a1-m37-cL_2w0c-a1-m38-cL 2w0c-a1-m38-cL_2w0c-a1-m39-cL 2w0c-a1-m39-cL_2w0c-a1-m40-cL 2w0c-a1-m3-cL_2w0c-a1-m4-cL 2w0c-a1-m41-cL_2w0c-a1-m42-cL 2w0c-a1-m41-cL_2w0c-a1-m45-cL 2w0c-a1-m42-cL_2w0c-a1-m43-cL 2w0c-a1-m43-cL_2w0c-a1-m44-cL 2w0c-a1-m44-cL_2w0c-a1-m45-cL 2w0c-a1-m46-cL_2w0c-a1-m47-cL 2w0c-a1-m46-cL_2w0c-a1-m50-cL 2w0c-a1-m47-cL_2w0c-a1-m48-cL 2w0c-a1-m48-cL_2w0c-a1-m49-cL 2w0c-a1-m49-cL_2w0c-a1-m50-cL 2w0c-a1-m4-cL_2w0c-a1-m5-cL 2w0c-a1-m51-cL_2w0c-a1-m52-cL 2w0c-a1-m51-cL_2w0c-a1-m55-cL 2w0c-a1-m52-cL_2w0c-a1-m53-cL 2w0c-a1-m53-cL_2w0c-a1-m54-cL 2w0c-a1-m54-cL_2w0c-a1-m55-cL 2w0c-a1-m56-cL_2w0c-a1-m57-cL 2w0c-a1-m56-cL_2w0c-a1-m60-cL 2w0c-a1-m57-cL_2w0c-a1-m58-cL 2w0c-a1-m58-cL_2w0c-a1-m59-cL 2w0c-a1-m59-cL_2w0c-a1-m60-cL 2w0c-a1-m6-cL_2w0c-a1-m7-cL 2w0c-a1-m7-cL_2w0c-a1-m8-cL MIVKKKLAAGEFAETFKNGNNITIIKAVGELVLRAYGADGGEGLRTIVRQGVSIKGMNYTSVMLHTEYAQEIEYWVGDLDYSFQEQTTKSRDVNSFQIPLRDGVRELLPEDASRNRASIKSPVDIWIGGENMTALNGIVDGGRKFEAGQEFQINTFGSVNYWVSDEEIRVFKEYSARAKYAQNEGRTALEANNVPFFDIDVPPELDGVPFSLKARVRHKSKGVDGLGDYTSISVKPAFYITEGDETTDTLIKYTSYGSTGSHSGYDFDDNTLDVMVTLSAGVHRVFPVETELDYDAVQEVQHDWYDESFTTFIEVYSDDPLLTVKGYAQILMERT MIVKKKLAAGEFAETFKNGNNITIIKAVGELVLRAYGADGGEGLRTIVRQGVSIKGMNYTSVMLHTEYAQEIEYWVGDLDYSFQEQTTKSRDVNSFQIPLRDGVRELLPEDASRNRASIKSPVDIWIGGENMTALNGIVDGGRKFEAGQEFQINTFGSVNYWVSDEEIRVFKEYSARAKYAQNEGRTALEANNVPFFDIDVPPELDGVPFSLKARVRHKSKGVDGLGDYTSISVKPAFYITEGDETTDTLIKYTSYGSTGSHSGYDFDDNTLDVMVTLSAGVHRVFPVETELDYDAVQEVQHDWYDESFTTFIEVYSDDPLLTVKGYAQILMERT 2w0c-a1-m9-cB_2w0c-a1-m9-cG X-ray structure of the entire lipid-containing bacteriophage PM2 P15794 P15794 7 X-RAY DIFFRACTION 14 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 269 269 2w0c-a1-m10-cA_2w0c-a1-m10-cI 2w0c-a1-m10-cB_2w0c-a1-m10-cD 2w0c-a1-m10-cB_2w0c-a1-m10-cG 2w0c-a1-m10-cD_2w0c-a1-m10-cG 2w0c-a1-m10-cE_2w0c-a1-m10-cH 2w0c-a1-m10-cF_2w0c-a1-m23-cC 2w0c-a1-m11-cA_2w0c-a1-m11-cI 2w0c-a1-m11-cB_2w0c-a1-m11-cD 2w0c-a1-m11-cB_2w0c-a1-m11-cG 2w0c-a1-m11-cC_2w0c-a1-m38-cF 2w0c-a1-m11-cD_2w0c-a1-m11-cG 2w0c-a1-m11-cE_2w0c-a1-m11-cH 2w0c-a1-m11-cF_2w0c-a1-m20-cC 2w0c-a1-m12-cA_2w0c-a1-m12-cI 2w0c-a1-m12-cB_2w0c-a1-m12-cD 2w0c-a1-m12-cB_2w0c-a1-m12-cG 2w0c-a1-m12-cC_2w0c-a1-m47-cF 2w0c-a1-m12-cD_2w0c-a1-m12-cG 2w0c-a1-m12-cE_2w0c-a1-m12-cH 2w0c-a1-m12-cF_2w0c-a1-m37-cC 2w0c-a1-m13-cA_2w0c-a1-m13-cI 2w0c-a1-m13-cB_2w0c-a1-m13-cD 2w0c-a1-m13-cB_2w0c-a1-m13-cG 2w0c-a1-m13-cC_2w0c-a1-m45-cF 2w0c-a1-m13-cD_2w0c-a1-m13-cG 2w0c-a1-m13-cE_2w0c-a1-m13-cH 2w0c-a1-m13-cF_2w0c-a1-m46-cC 2w0c-a1-m14-cA_2w0c-a1-m14-cI 2w0c-a1-m14-cB_2w0c-a1-m14-cD 2w0c-a1-m14-cB_2w0c-a1-m14-cG 2w0c-a1-m14-cC_2w0c-a1-m29-cF 2w0c-a1-m14-cD_2w0c-a1-m14-cG 2w0c-a1-m14-cE_2w0c-a1-m14-cH 2w0c-a1-m14-cF_2w0c-a1-m44-cC 2w0c-a1-m15-cA_2w0c-a1-m15-cI 2w0c-a1-m15-cB_2w0c-a1-m15-cD 2w0c-a1-m15-cB_2w0c-a1-m15-cG 2w0c-a1-m15-cC_2w0c-a1-m16-cF 2w0c-a1-m15-cD_2w0c-a1-m15-cG 2w0c-a1-m15-cE_2w0c-a1-m15-cH 2w0c-a1-m15-cF_2w0c-a1-m28-cC 2w0c-a1-m16-cA_2w0c-a1-m16-cI 2w0c-a1-m16-cB_2w0c-a1-m16-cD 2w0c-a1-m16-cB_2w0c-a1-m16-cG 2w0c-a1-m16-cC_2w0c-a1-m28-cF 2w0c-a1-m16-cD_2w0c-a1-m16-cG 2w0c-a1-m16-cE_2w0c-a1-m16-cH 2w0c-a1-m17-cA_2w0c-a1-m17-cI 2w0c-a1-m17-cB_2w0c-a1-m17-cD 2w0c-a1-m17-cB_2w0c-a1-m17-cG 2w0c-a1-m17-cC_2w0c-a1-m52-cF 2w0c-a1-m17-cD_2w0c-a1-m17-cG 2w0c-a1-m17-cE_2w0c-a1-m17-cH 2w0c-a1-m17-cF_2w0c-a1-m27-cC 2w0c-a1-m18-cA_2w0c-a1-m18-cI 2w0c-a1-m18-cB_2w0c-a1-m18-cD 2w0c-a1-m18-cB_2w0c-a1-m18-cG 2w0c-a1-m18-cC_2w0c-a1-m60-cF 2w0c-a1-m18-cD_2w0c-a1-m18-cG 2w0c-a1-m18-cE_2w0c-a1-m18-cH 2w0c-a1-m18-cF_2w0c-a1-m51-cC 2w0c-a1-m19-cA_2w0c-a1-m19-cI 2w0c-a1-m19-cB_2w0c-a1-m19-cD 2w0c-a1-m19-cB_2w0c-a1-m19-cG 2w0c-a1-m19-cC_2w0c-a1-m39-cF 2w0c-a1-m19-cD_2w0c-a1-m19-cG 2w0c-a1-m19-cE_2w0c-a1-m19-cH 2w0c-a1-m19-cF_2w0c-a1-m59-cC 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MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF 2w0c-a1-m9-cC_2w0c-a1-m9-cG X-ray structure of the entire lipid-containing bacteriophage PM2 P15794 P15794 7 X-RAY DIFFRACTION 13 1.0 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 269 269 2w0c-a1-m10-cB_2w0c-a1-m10-cE 2w0c-a1-m10-cC_2w0c-a1-m10-cG 2w0c-a1-m10-cD_2w0c-a1-m23-cG 2w0c-a1-m11-cB_2w0c-a1-m11-cE 2w0c-a1-m11-cC_2w0c-a1-m11-cG 2w0c-a1-m11-cD_2w0c-a1-m20-cG 2w0c-a1-m11-cG_2w0c-a1-m38-cD 2w0c-a1-m12-cB_2w0c-a1-m12-cE 2w0c-a1-m12-cC_2w0c-a1-m12-cG 2w0c-a1-m12-cD_2w0c-a1-m37-cG 2w0c-a1-m12-cG_2w0c-a1-m47-cD 2w0c-a1-m13-cB_2w0c-a1-m13-cE 2w0c-a1-m13-cC_2w0c-a1-m13-cG 2w0c-a1-m13-cD_2w0c-a1-m46-cG 2w0c-a1-m13-cG_2w0c-a1-m45-cD 2w0c-a1-m14-cB_2w0c-a1-m14-cE 2w0c-a1-m14-cC_2w0c-a1-m14-cG 2w0c-a1-m14-cD_2w0c-a1-m44-cG 2w0c-a1-m14-cG_2w0c-a1-m29-cD 2w0c-a1-m15-cB_2w0c-a1-m15-cE 2w0c-a1-m15-cC_2w0c-a1-m15-cG 2w0c-a1-m15-cD_2w0c-a1-m28-cG 2w0c-a1-m15-cG_2w0c-a1-m16-cD 2w0c-a1-m16-cB_2w0c-a1-m16-cE 2w0c-a1-m16-cC_2w0c-a1-m16-cG 2w0c-a1-m16-cG_2w0c-a1-m28-cD 2w0c-a1-m17-cB_2w0c-a1-m17-cE 2w0c-a1-m17-cC_2w0c-a1-m17-cG 2w0c-a1-m17-cD_2w0c-a1-m27-cG 2w0c-a1-m17-cG_2w0c-a1-m52-cD 2w0c-a1-m18-cB_2w0c-a1-m18-cE 2w0c-a1-m18-cC_2w0c-a1-m18-cG 2w0c-a1-m18-cD_2w0c-a1-m51-cG 2w0c-a1-m18-cG_2w0c-a1-m60-cD 2w0c-a1-m19-cB_2w0c-a1-m19-cE 2w0c-a1-m19-cC_2w0c-a1-m19-cG 2w0c-a1-m19-cD_2w0c-a1-m59-cG 2w0c-a1-m19-cG_2w0c-a1-m39-cD 2w0c-a1-m1-cB_2w0c-a1-m1-cE 2w0c-a1-m1-cC_2w0c-a1-m1-cG 2w0c-a1-m1-cD_2w0c-a1-m10-cG 2w0c-a1-m1-cG_2w0c-a1-m23-cD 2w0c-a1-m20-cB_2w0c-a1-m20-cE 2w0c-a1-m20-cC_2w0c-a1-m20-cG 2w0c-a1-m20-cD_2w0c-a1-m38-cG 2w0c-a1-m21-cB_2w0c-a1-m21-cE 2w0c-a1-m21-cC_2w0c-a1-m21-cG 2w0c-a1-m21-cD_2w0c-a1-m30-cG 2w0c-a1-m21-cG_2w0c-a1-m43-cD 2w0c-a1-m22-cB_2w0c-a1-m22-cE 2w0c-a1-m22-cC_2w0c-a1-m22-cG 2w0c-a1-m22-cD_2w0c-a1-m42-cG 2w0c-a1-m23-cB_2w0c-a1-m23-cE 2w0c-a1-m23-cC_2w0c-a1-m23-cG 2w0c-a1-m24-cB_2w0c-a1-m24-cE 2w0c-a1-m24-cC_2w0c-a1-m24-cG 2w0c-a1-m24-cD_2w0c-a1-m9-cG 2w0c-a1-m24-cG_2w0c-a1-m54-cD 2w0c-a1-m25-cB_2w0c-a1-m25-cE 2w0c-a1-m25-cC_2w0c-a1-m25-cG 2w0c-a1-m25-cD_2w0c-a1-m53-cG 2w0c-a1-m25-cG_2w0c-a1-m26-cD 2w0c-a1-m26-cB_2w0c-a1-m26-cE 2w0c-a1-m26-cC_2w0c-a1-m26-cG 2w0c-a1-m26-cG_2w0c-a1-m53-cD 2w0c-a1-m27-cB_2w0c-a1-m27-cE 2w0c-a1-m27-cC_2w0c-a1-m27-cG 2w0c-a1-m27-cD_2w0c-a1-m52-cG 2w0c-a1-m28-cB_2w0c-a1-m28-cE 2w0c-a1-m28-cC_2w0c-a1-m28-cG 2w0c-a1-m29-cB_2w0c-a1-m29-cE 2w0c-a1-m29-cC_2w0c-a1-m29-cG 2w0c-a1-m29-cG_2w0c-a1-m44-cD 2w0c-a1-m2-cB_2w0c-a1-m2-cE 2w0c-a1-m2-cC_2w0c-a1-m2-cG 2w0c-a1-m2-cD_2w0c-a1-m22-cG 2w0c-a1-m2-cG_2w0c-a1-m42-cD 2w0c-a1-m30-cB_2w0c-a1-m30-cE 2w0c-a1-m30-cC_2w0c-a1-m30-cG 2w0c-a1-m30-cD_2w0c-a1-m43-cG 2w0c-a1-m31-cB_2w0c-a1-m31-cE 2w0c-a1-m31-cC_2w0c-a1-m31-cG 2w0c-a1-m31-cD_2w0c-a1-m40-cG 2w0c-a1-m31-cG_2w0c-a1-m58-cD 2w0c-a1-m32-cB_2w0c-a1-m32-cE 2w0c-a1-m32-cC_2w0c-a1-m32-cG 2w0c-a1-m32-cD_2w0c-a1-m57-cG 2w0c-a1-m32-cG_2w0c-a1-m7-cD 2w0c-a1-m33-cB_2w0c-a1-m33-cE 2w0c-a1-m33-cC_2w0c-a1-m33-cG 2w0c-a1-m33-cD_2w0c-a1-m6-cG 2w0c-a1-m33-cG_2w0c-a1-m5-cD 2w0c-a1-m34-cB_2w0c-a1-m34-cE 2w0c-a1-m34-cC_2w0c-a1-m34-cG 2w0c-a1-m34-cD_2w0c-a1-m4-cG 2w0c-a1-m34-cG_2w0c-a1-m49-cD 2w0c-a1-m35-cB_2w0c-a1-m35-cE 2w0c-a1-m35-cC_2w0c-a1-m35-cG 2w0c-a1-m35-cD_2w0c-a1-m48-cG 2w0c-a1-m35-cG_2w0c-a1-m36-cD 2w0c-a1-m36-cB_2w0c-a1-m36-cE 2w0c-a1-m36-cC_2w0c-a1-m36-cG 2w0c-a1-m36-cG_2w0c-a1-m48-cD 2w0c-a1-m37-cB_2w0c-a1-m37-cE 2w0c-a1-m37-cC_2w0c-a1-m37-cG 2w0c-a1-m37-cD_2w0c-a1-m47-cG 2w0c-a1-m38-cB_2w0c-a1-m38-cE 2w0c-a1-m38-cC_2w0c-a1-m38-cG 2w0c-a1-m39-cB_2w0c-a1-m39-cE 2w0c-a1-m39-cC_2w0c-a1-m39-cG 2w0c-a1-m39-cG_2w0c-a1-m59-cD 2w0c-a1-m3-cB_2w0c-a1-m3-cE 2w0c-a1-m3-cC_2w0c-a1-m3-cG 2w0c-a1-m3-cD_2w0c-a1-m41-cG 2w0c-a1-m3-cG_2w0c-a1-m50-cD 2w0c-a1-m40-cB_2w0c-a1-m40-cE 2w0c-a1-m40-cC_2w0c-a1-m40-cG 2w0c-a1-m40-cD_2w0c-a1-m58-cG 2w0c-a1-m41-cB_2w0c-a1-m41-cE 2w0c-a1-m41-cC_2w0c-a1-m41-cG 2w0c-a1-m41-cD_2w0c-a1-m50-cG 2w0c-a1-m42-cB_2w0c-a1-m42-cE 2w0c-a1-m42-cC_2w0c-a1-m42-cG 2w0c-a1-m43-cB_2w0c-a1-m43-cE 2w0c-a1-m43-cC_2w0c-a1-m43-cG 2w0c-a1-m44-cB_2w0c-a1-m44-cE 2w0c-a1-m44-cC_2w0c-a1-m44-cG 2w0c-a1-m45-cB_2w0c-a1-m45-cE 2w0c-a1-m45-cC_2w0c-a1-m45-cG 2w0c-a1-m45-cG_2w0c-a1-m46-cD 2w0c-a1-m46-cB_2w0c-a1-m46-cE 2w0c-a1-m46-cC_2w0c-a1-m46-cG 2w0c-a1-m47-cB_2w0c-a1-m47-cE 2w0c-a1-m47-cC_2w0c-a1-m47-cG 2w0c-a1-m48-cB_2w0c-a1-m48-cE 2w0c-a1-m48-cC_2w0c-a1-m48-cG 2w0c-a1-m49-cB_2w0c-a1-m49-cE 2w0c-a1-m49-cC_2w0c-a1-m49-cG 2w0c-a1-m4-cB_2w0c-a1-m4-cE 2w0c-a1-m4-cC_2w0c-a1-m4-cG 2w0c-a1-m4-cD_2w0c-a1-m49-cG 2w0c-a1-m50-cB_2w0c-a1-m50-cE 2w0c-a1-m50-cC_2w0c-a1-m50-cG 2w0c-a1-m51-cB_2w0c-a1-m51-cE 2w0c-a1-m51-cC_2w0c-a1-m51-cG 2w0c-a1-m51-cD_2w0c-a1-m60-cG 2w0c-a1-m52-cB_2w0c-a1-m52-cE 2w0c-a1-m52-cC_2w0c-a1-m52-cG 2w0c-a1-m53-cB_2w0c-a1-m53-cE 2w0c-a1-m53-cC_2w0c-a1-m53-cG 2w0c-a1-m54-cB_2w0c-a1-m54-cE 2w0c-a1-m54-cC_2w0c-a1-m54-cG 2w0c-a1-m54-cG_2w0c-a1-m9-cD 2w0c-a1-m55-cB_2w0c-a1-m55-cE 2w0c-a1-m55-cC_2w0c-a1-m55-cG 2w0c-a1-m55-cD_2w0c-a1-m8-cG 2w0c-a1-m55-cG_2w0c-a1-m56-cD 2w0c-a1-m56-cB_2w0c-a1-m56-cE 2w0c-a1-m56-cC_2w0c-a1-m56-cG 2w0c-a1-m56-cG_2w0c-a1-m8-cD 2w0c-a1-m57-cB_2w0c-a1-m57-cE 2w0c-a1-m57-cC_2w0c-a1-m57-cG 2w0c-a1-m57-cD_2w0c-a1-m7-cG 2w0c-a1-m58-cB_2w0c-a1-m58-cE 2w0c-a1-m58-cC_2w0c-a1-m58-cG 2w0c-a1-m59-cB_2w0c-a1-m59-cE 2w0c-a1-m59-cC_2w0c-a1-m59-cG 2w0c-a1-m5-cB_2w0c-a1-m5-cE 2w0c-a1-m5-cC_2w0c-a1-m5-cG 2w0c-a1-m5-cG_2w0c-a1-m6-cD 2w0c-a1-m60-cB_2w0c-a1-m60-cE 2w0c-a1-m60-cC_2w0c-a1-m60-cG 2w0c-a1-m6-cB_2w0c-a1-m6-cE 2w0c-a1-m6-cC_2w0c-a1-m6-cG 2w0c-a1-m7-cB_2w0c-a1-m7-cE 2w0c-a1-m7-cC_2w0c-a1-m7-cG 2w0c-a1-m8-cB_2w0c-a1-m8-cE 2w0c-a1-m8-cC_2w0c-a1-m8-cG 2w0c-a1-m9-cB_2w0c-a1-m9-cE MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF MRSFLNLNSIPNVAAGNSCSIKLPIGQTYEVIDLRYSGVTPSQIKNVRVELDGRLLSTYKTLNDLILENTRHKRKIKAGVVSFHFVRPEMKGVNVTDLVQQRMFALGTVGLTTCEIKFDIDEAAAGPKLSAIAQKSVGTAPSWLTMRRNFFKQLNNGTTEIADLPRPVGYRIAAIHIKAAGVDAVEFQIDGTKWRDLLKKADNDYILEQYGKAVLDNTYTIDFMLEGDVYQSVLLDQMIQDLRLKIDSTMDEQAEIIVEYMGVWSRNGF 2w0c-a1-m9-cQ_2w0c-a1-m9-cP X-ray structure of the entire lipid-containing bacteriophage PM2 Q9XJR6 Q9XJR6 7 X-RAY DIFFRACTION 45 0.983 10661 (Corticovirus PM2) 10661 (Corticovirus PM2) 60 65 2w0c-a1-m10-cQ_2w0c-a1-m10-cP 2w0c-a1-m11-cQ_2w0c-a1-m11-cP 2w0c-a1-m12-cQ_2w0c-a1-m12-cP 2w0c-a1-m13-cQ_2w0c-a1-m13-cP 2w0c-a1-m14-cQ_2w0c-a1-m14-cP 2w0c-a1-m15-cQ_2w0c-a1-m15-cP 2w0c-a1-m16-cQ_2w0c-a1-m16-cP 2w0c-a1-m17-cQ_2w0c-a1-m17-cP 2w0c-a1-m18-cQ_2w0c-a1-m18-cP 2w0c-a1-m19-cQ_2w0c-a1-m19-cP 2w0c-a1-m1-cQ_2w0c-a1-m1-cP 2w0c-a1-m20-cQ_2w0c-a1-m20-cP 2w0c-a1-m21-cQ_2w0c-a1-m21-cP 2w0c-a1-m22-cQ_2w0c-a1-m22-cP 2w0c-a1-m23-cQ_2w0c-a1-m23-cP 2w0c-a1-m24-cQ_2w0c-a1-m24-cP 2w0c-a1-m25-cQ_2w0c-a1-m25-cP 2w0c-a1-m26-cQ_2w0c-a1-m26-cP 2w0c-a1-m27-cQ_2w0c-a1-m27-cP 2w0c-a1-m28-cQ_2w0c-a1-m28-cP 2w0c-a1-m29-cQ_2w0c-a1-m29-cP 2w0c-a1-m2-cQ_2w0c-a1-m2-cP 2w0c-a1-m30-cQ_2w0c-a1-m30-cP 2w0c-a1-m31-cQ_2w0c-a1-m31-cP 2w0c-a1-m32-cQ_2w0c-a1-m32-cP 2w0c-a1-m33-cQ_2w0c-a1-m33-cP 2w0c-a1-m34-cQ_2w0c-a1-m34-cP 2w0c-a1-m35-cQ_2w0c-a1-m35-cP 2w0c-a1-m36-cQ_2w0c-a1-m36-cP 2w0c-a1-m37-cQ_2w0c-a1-m37-cP 2w0c-a1-m38-cQ_2w0c-a1-m38-cP 2w0c-a1-m39-cQ_2w0c-a1-m39-cP 2w0c-a1-m3-cQ_2w0c-a1-m3-cP 2w0c-a1-m40-cQ_2w0c-a1-m40-cP 2w0c-a1-m41-cQ_2w0c-a1-m41-cP 2w0c-a1-m42-cQ_2w0c-a1-m42-cP 2w0c-a1-m43-cQ_2w0c-a1-m43-cP 2w0c-a1-m44-cQ_2w0c-a1-m44-cP 2w0c-a1-m45-cQ_2w0c-a1-m45-cP 2w0c-a1-m46-cQ_2w0c-a1-m46-cP 2w0c-a1-m47-cQ_2w0c-a1-m47-cP 2w0c-a1-m48-cQ_2w0c-a1-m48-cP 2w0c-a1-m49-cQ_2w0c-a1-m49-cP 2w0c-a1-m4-cQ_2w0c-a1-m4-cP 2w0c-a1-m50-cQ_2w0c-a1-m50-cP 2w0c-a1-m51-cQ_2w0c-a1-m51-cP 2w0c-a1-m52-cQ_2w0c-a1-m52-cP 2w0c-a1-m53-cQ_2w0c-a1-m53-cP 2w0c-a1-m54-cQ_2w0c-a1-m54-cP 2w0c-a1-m55-cQ_2w0c-a1-m55-cP 2w0c-a1-m56-cQ_2w0c-a1-m56-cP 2w0c-a1-m57-cQ_2w0c-a1-m57-cP 2w0c-a1-m58-cQ_2w0c-a1-m58-cP 2w0c-a1-m59-cQ_2w0c-a1-m59-cP 2w0c-a1-m5-cQ_2w0c-a1-m5-cP 2w0c-a1-m60-cQ_2w0c-a1-m60-cP 2w0c-a1-m6-cQ_2w0c-a1-m6-cP 2w0c-a1-m7-cQ_2w0c-a1-m7-cP 2w0c-a1-m8-cQ_2w0c-a1-m8-cP TSVPTNQSVWGNVSTGLDALISGWARVEQIKAAKASTGQGRVEQAMTPELDNGAAVVVEA MNTSVPTSVPTNQSVWGNVSTGLDALISGWARVEQIKAAKASTGQGRVEQAMTPELDNGAAVVVE 2w0p-a1-m1-cA_2w0p-a1-m1-cB Crystal structure of the filamin A repeat 21 complexed with the migfilin peptide P21333 P21333 1.9 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 94 GGAHKVRAGGPGLERAEAGVPAEFSIWTREAGAGGLAIAVEGPSKAEISFEDRKDGSCGVAYVVQEPGDYEVSVKFNEEHIPDSPFVVPVASP GGAHKVRAGGPGLERAEAGVPAEFSIWTREAGAGGLAIAVEGPSKAEISFEDRKDGSCGVAYVVQEPGDYEVSVKFNEEHIPDSPFVVPVASPS 2w0r-a1-m1-cA_2w0r-a1-m2-cA Crystal structure of the mutated N263D YscU C-terminal domain Q56844 Q56844 1.55 X-RAY DIFFRACTION 46 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 122 122 2jlh-a1-m1-cA_2jlh-a1-m2-cA 2jlj-a1-m1-cA_2jlj-a1-m2-cA 2v5g-a1-m1-cA_2v5g-a1-m2-cA KREYKEMEGSPEIKSKRRQFHQEIQSGNMRENVKRSSVVVADPTHIAIGILYKRGETPLPLVTFKYTDAQVQTVRKIAEEEGVPILQRIPLARALYWDALVDHYIPAEQIEATAEVLRWLER KREYKEMEGSPEIKSKRRQFHQEIQSGNMRENVKRSSVVVADPTHIAIGILYKRGETPLPLVTFKYTDAQVQTVRKIAEEEGVPILQRIPLARALYWDALVDHYIPAEQIEATAEVLRWLER 2w0s-a2-m1-cA_2w0s-a2-m3-cB Crystal structure of vaccinia virus thymidylate kinase bound to brivudin-5'-monophosphate P68693 P68693 2.918 X-RAY DIFFRACTION 37 1.0 10249 (Vaccinia virus Copenhagen) 10249 (Vaccinia virus Copenhagen) 203 203 2w0s-a1-m1-cA_2w0s-a1-m1-cB SRGALIVFEGLDKSGKTTQCMNIMESIPANTIKYLNFPQRSTVTGKMIDDYLTRKKTYNDHIVNLLFCANRWEFASFIQEQLEQGITLIVDRYAFSGVAYAAAKGASMTLSKSYESGLPKPDLVIFLESGSKEINRNVGEEIYEDVTFQQKVLQEYKKMIEEGDIHWQIISSEFEEDVKKELIKNIVIEAIHTVTGPVGQLWM SRGALIVFEGLDKSGKTTQCMNIMESIPANTIKYLNFPQRSTVTGKMIDDYLTRKKTYNDHIVNLLFCANRWEFASFIQEQLEQGITLIVDRYAFSGVAYAAAKGASMTLSKSYESGLPKPDLVIFLESGSKEINRNVGEEIYEDVTFQQKVLQEYKKMIEEGDIHWQIISSEFEEDVKKELIKNIVIEAIHTVTGPVGQLWM 2w1a-a1-m1-cD_2w1a-a1-m2-cD Non-covalent complex between dahp synthase and chorismate mutase from Mycobacterium tuberculosis with bound tsa P9WIC1 P9WIC1 2.35 X-RAY DIFFRACTION 92 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 79 79 2qbv-a1-m1-cA_2qbv-a1-m2-cA 2vkl-a1-m1-cA_2vkl-a1-m2-cA 2w19-a1-m1-cC_2w19-a1-m2-cC 2w19-a1-m1-cD_2w19-a1-m2-cD 2w1a-a1-m1-cC_2w1a-a1-m2-cC 5ckx-a1-m1-cC_5ckx-a1-m2-cC 5ckx-a1-m1-cD_5ckx-a1-m2-cD 5mpv-a1-m1-cD_5mpv-a1-m2-cD 6ygt-a1-m1-cAAA_6ygt-a1-m2-cAAA PEIDTLREEIDRLDAEILALVKRRAEVSKAIGKARMASGGTRLVHSREMKVIERYSELGPDGKDLAILLLRLGRGRLGH PEIDTLREEIDRLDAEILALVKRRAEVSKAIGKARMASGGTRLVHSREMKVIERYSELGPDGKDLAILLLRLGRGRLGH 2w1o-a1-m1-cA_2w1o-a1-m1-cB NMR structure of dimerization domain of human ribosomal protein P2 P05387 P05387 NOT SOLUTION NMR 121 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 70 AMRYVASYLLAALGGNSSPSAKDIKKILDSVGIEADDDRLNKVISELNGKNIEDVIAQGIGKLASVPAGG AMRYVASYLLAALGGNSSPSAKDIKKILDSVGIEADDDRLNKVISELNGKNIEDVIAQGIGKLASVPAGG 2w1r-a1-m1-cA_2w1r-a1-m2-cA Crystal Structure of the C-terminal Domain of B. subtilis SpoVT P37554 P37554 1.5 X-RAY DIFFRACTION 38 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 117 117 DFAKEYADALYDSLGHSVLICDRDVYIAVSGSSKKDYLNKSISEMLERTMDQRSSVLESDAKSVQLVNGIDEDMNSYTVGPIVANGDPIGAVVIFSKDQTMGEVEHKAVETAAGFLA DFAKEYADALYDSLGHSVLICDRDVYIAVSGSSKKDYLNKSISEMLERTMDQRSSVLESDAKSVQLVNGIDEDMNSYTVGPIVANGDPIGAVVIFSKDQTMGEVEHKAVETAAGFLA 2w1t-a1-m1-cB_2w1t-a1-m1-cA Crystal Structure of B. subtilis SpoVT P37554 P37554 2.6 X-RAY DIFFRACTION 134 0.994 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 173 175 2ro5-a1-m1-cA_2ro5-a1-m1-cB GIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDRDGEVILKKYSPISELGDFAKEYADALYDSLGHSVLICDRDVYIAVSGSSKKDYLNKSISEMLERTMDQRSSVLESDAKSVQLVNGIDEDMNSYTVGPIVANGDPIGAVVIFSKDQTMGEVEHKAVETAAGFLARQME ATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDRDGDVILKKYSPISELGDFAKEYADALYDSLGHSVLICDRDVYIAVSGSSKKDYLNKSISEMLERTMDQRSSVLESDAKSVQLVNGIDEDMNSYTVGPIVANGDPIGAVVIFSKDQTMGEVEHKAVETAAGFLARQME 2w1v-a1-m1-cA_2w1v-a1-m1-cB Crystal structure of mouse nitrilase-2 at 1.4A resolution Q9JHW2 Q9JHW2 1.49 X-RAY DIFFRACTION 129 1.0 10090 (Mus musculus) 10090 (Mus musculus) 274 274 MSTFRLALIQLQVSSIKSDNLTRACSLVREAAKQGANIVSLPECFNSPYGTTYFPDYAEKIPGESTQKLSEVAKESSIYLIGGSIPEEDAGKLYNTCSVFGPDGSLLVKHRKIHLFDIDVPGKITFQESKTLSPGDSFSTFDTPYCKVGLGICYDMRFAELAQIYAQRGCQLLVYPGAFNLTTGPAHWELLQRARAVDNQVYVATASPARDDKASYVAWGHSTVVDPWGQVLTKAGTEETILYSDIDLKKLAEIRQQIPILKQKRADLYTVESK MSTFRLALIQLQVSSIKSDNLTRACSLVREAAKQGANIVSLPECFNSPYGTTYFPDYAEKIPGESTQKLSEVAKESSIYLIGGSIPEEDAGKLYNTCSVFGPDGSLLVKHRKIHLFDIDVPGKITFQESKTLSPGDSFSTFDTPYCKVGLGICYDMRFAELAQIYAQRGCQLLVYPGAFNLTTGPAHWELLQRARAVDNQVYVATASPARDDKASYVAWGHSTVVDPWGQVLTKAGTEETILYSDIDLKKLAEIRQQIPILKQKRADLYTVESK 2w24-a1-m4-cA_2w24-a1-m4-cB M. tuberculosis Rv3291c complexed to Lysine P96896 P96896 2.5 X-RAY DIFFRACTION 200 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 147 147 2ivm-a1-m1-cA_2ivm-a1-m1-cB 2ivm-a1-m2-cA_2ivm-a1-m2-cB 2ivm-a1-m3-cA_2ivm-a1-m3-cB 2ivm-a1-m4-cA_2ivm-a1-m4-cB 2qz8-a1-m1-cA_2qz8-a1-m1-cD 2qz8-a1-m1-cB_2qz8-a1-m2-cB 2qz8-a1-m1-cC_2qz8-a1-m2-cC 2qz8-a1-m2-cA_2qz8-a1-m2-cD 2vbw-a1-m1-cA_2vbw-a1-m1-cB 2vbx-a1-m1-cA_2vbx-a1-m1-cB 2vby-a1-m1-cA_2vby-a1-m1-cB 2vbz-a1-m1-cA_2vbz-a1-m1-cB 2vc0-a1-m1-cA_2vc0-a1-m1-cB 2vc1-a1-m1-cA_2vc1-a1-m1-cB 2w24-a1-m1-cA_2w24-a1-m1-cB 2w24-a1-m2-cA_2w24-a1-m2-cB 2w24-a1-m3-cA_2w24-a1-m3-cB 2w25-a1-m1-cA_2w25-a1-m1-cB 2w25-a1-m2-cA_2w25-a1-m2-cB 2w25-a1-m3-cA_2w25-a1-m3-cB 2w25-a1-m4-cA_2w25-a1-m4-cB 2w29-a1-m1-cA_2w29-a1-m1-cB 2w29-a1-m1-cC_2w29-a1-m1-cD 2w29-a1-m2-cA_2w29-a1-m2-cB 2w29-a1-m2-cC_2w29-a1-m2-cD ALDDIDRILVRELAADGRATLSELATRAGLSVSAVQSRVRRLESRGVVQGYSARINPEAVGHLLSAFVAITPLDPSQPDDAPARLEHIEEVESCYSVAGEESYVLLVRVASARALEDLLQRIRTTANVRTRSTIILNTFYSDRQHIP ALDDIDRILVRELAADGRATLSELATRAGLSVSAVQSRVRRLESRGVVQGYSARINPEAVGHLLSAFVAITPLDPSQPDDAPARLEHIEEVESCYSVAGEESYVLLVRVASARALEDLLQRIRTTANVRTRSTIILNTFYSDRQHIP 2w25-a1-m3-cA_2w25-a1-m4-cA Crystal structure of Glu104Ala mutant P96896 P96896 2.15 X-RAY DIFFRACTION 21 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 147 147 2ivm-a1-m1-cA_2ivm-a1-m2-cA 2ivm-a1-m1-cB_2ivm-a1-m3-cB 2ivm-a1-m2-cB_2ivm-a1-m4-cB 2ivm-a1-m3-cA_2ivm-a1-m4-cA 2qz8-a1-m1-cA_2qz8-a1-m2-cC 2qz8-a1-m1-cB_2qz8-a1-m2-cD 2qz8-a1-m1-cC_2qz8-a1-m2-cA 2qz8-a1-m1-cD_2qz8-a1-m2-cB 2w24-a1-m1-cA_2w24-a1-m2-cA 2w24-a1-m1-cB_2w24-a1-m3-cB 2w24-a1-m2-cB_2w24-a1-m4-cB 2w24-a1-m3-cA_2w24-a1-m4-cA 2w25-a1-m1-cA_2w25-a1-m2-cA 2w25-a1-m1-cB_2w25-a1-m3-cB 2w25-a1-m2-cB_2w25-a1-m4-cB 2w29-a1-m1-cA_2w29-a1-m2-cA 2w29-a1-m1-cB_2w29-a1-m1-cD 2w29-a1-m2-cB_2w29-a1-m2-cD ALDDIDRILVRELAADGRATLSELATRAGLSVSAVQSRVRRLESRGVVQGYSARINPEAVGHLLSAFVAITPLDPSQPDDAPARLEHIEEVESCYSVAGEASYVLLVRVASARALEDLLQRIRTTANVRTRSTIILNTFYSDRQHIP ALDDIDRILVRELAADGRATLSELATRAGLSVSAVQSRVRRLESRGVVQGYSARINPEAVGHLLSAFVAITPLDPSQPDDAPARLEHIEEVESCYSVAGEASYVLLVRVASARALEDLLQRIRTTANVRTRSTIILNTFYSDRQHIP 2w2c-a1-m1-cD_2w2c-a1-m1-cB STRUCTURE OF THE TETRADECAMERIC OLIGOMERISATION DOMAIN OF CALCIUM- CALMODULIN DEPENDENT PROTEIN KINASE II DELTA Q13557 Q13557 2.7 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 128 2w2c-a1-m1-cA_2w2c-a1-m1-cB 2w2c-a1-m1-cC_2w2c-a1-m1-cL 2w2c-a1-m1-cD_2w2c-a1-m1-cG 2w2c-a1-m1-cE_2w2c-a1-m1-cN 2w2c-a1-m1-cF_2w2c-a1-m1-cA 2w2c-a1-m1-cF_2w2c-a1-m1-cH 2w2c-a1-m1-cG_2w2c-a1-m1-cI 2w2c-a1-m1-cI_2w2c-a1-m1-cH 2w2c-a1-m1-cJ_2w2c-a1-m1-cE 2w2c-a1-m1-cJ_2w2c-a1-m1-cK 2w2c-a1-m1-cK_2w2c-a1-m1-cL 2w2c-a1-m1-cM_2w2c-a1-m1-cC 2w2c-a1-m1-cM_2w2c-a1-m1-cN DVKARKQEIIKVTEQLIEAINNGDFEAYTKICDPGLTAFEPEALGNLVEGMDFHRFYFENAKPIHTIILNPHVHLVGDDAACIAYIRLTQYMDGSGMPKTMQSEETRVWHRRDGKWQNVHFHRSG DEDVKARKQEIIKVTEQLIEAINNGDFEAYTKICDPGLTAFEPEALGNLVEGMDFHRFYFENALKPIHTIILNPHVHLVGDDAACIAYIRLTQYMDGSGMPKTMQSEETRVWHRRDGKWQNVHFHRSG 2w2c-a1-m1-cJ_2w2c-a1-m1-cF STRUCTURE OF THE TETRADECAMERIC OLIGOMERISATION DOMAIN OF CALCIUM- CALMODULIN DEPENDENT PROTEIN KINASE II DELTA Q13557 Q13557 2.7 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 2w2c-a1-m1-cB_2w2c-a1-m1-cL 2w2c-a1-m1-cD_2w2c-a1-m1-cC 2w2c-a1-m1-cE_2w2c-a1-m1-cH 2w2c-a1-m1-cI_2w2c-a1-m1-cN 2w2c-a1-m1-cK_2w2c-a1-m1-cA 2w2c-a1-m1-cM_2w2c-a1-m1-cG DVKARKQEIIKVTEQLIEAINNGDFEAYTKICDPGLTAFEPEALGNLVEGMDFHRFYFENAKPIHTIILNPHVHLVGDDAACIAYIRLTQYMDGSGMPKTMQSEETRVWHRRDGKWQNVHFHRSG EDVKARKQEIIKVTEQLIEAINNGDFEAYTKICDPGLTAFEPEALGNLVEGMDFHRFYFENAKPIHTIILNPHVHLVGDDAACIAYIRLTQYMDGSGMPKTMQSEETRVWHRRDGKWQNVHFHRSG 2w2e-a1-m3-cA_2w2e-a1-m4-cA 1.15 Angstrom crystal structure of P.pastoris aquaporin, Aqy1, in a closed conformation at pH 3.5 F2QVG4 F2QVG4 1.15 X-RAY DIFFRACTION 164 1.0 4922 (Komagataella pastoris) 4922 (Komagataella pastoris) 263 263 2w1p-a1-m1-cA_2w1p-a1-m2-cA 2w1p-a1-m1-cA_2w1p-a1-m4-cA 2w1p-a1-m2-cA_2w1p-a1-m3-cA 2w1p-a1-m3-cA_2w1p-a1-m4-cA 2w2e-a1-m1-cA_2w2e-a1-m2-cA 2w2e-a1-m1-cA_2w2e-a1-m3-cA 2w2e-a1-m2-cA_2w2e-a1-m4-cA 3zoj-a1-m1-cA_3zoj-a1-m2-cA 3zoj-a1-m1-cA_3zoj-a1-m4-cA 3zoj-a1-m2-cA_3zoj-a1-m3-cA 3zoj-a1-m3-cA_3zoj-a1-m4-cA 5bn2-a1-m1-cA_5bn2-a1-m3-cA 5bn2-a1-m1-cA_5bn2-a1-m4-cA 5bn2-a1-m2-cA_5bn2-a1-m3-cA 5bn2-a1-m2-cA_5bn2-a1-m4-cA GQAEIKPEDAPYITNAYKPAYARWGFGSDSVRNHFIAMSGEFVGTFLFLWSAFVIAQIANQAPETPDGGSNPAQLIMISFGFGFGVMVGVFITYRVSGGNLNPAVTLALVLARAIPPFRGILMAFTQIVAGMAAAGAASAMTPGEIAFANALGGGASRTRGLFLEAFGTAILCLTVLMLAVEKHRATWFAPFVIGIALLIAHLICIYYTGAGLNPARSFGPAVAARSFPNYHWIYWLGPILGAFLAYSIWQMWKWLNYQTTNP GQAEIKPEDAPYITNAYKPAYARWGFGSDSVRNHFIAMSGEFVGTFLFLWSAFVIAQIANQAPETPDGGSNPAQLIMISFGFGFGVMVGVFITYRVSGGNLNPAVTLALVLARAIPPFRGILMAFTQIVAGMAAAGAASAMTPGEIAFANALGGGASRTRGLFLEAFGTAILCLTVLMLAVEKHRATWFAPFVIGIALLIAHLICIYYTGAGLNPARSFGPAVAARSFPNYHWIYWLGPILGAFLAYSIWQMWKWLNYQTTNP 2w2f-a2-m1-cC_2w2f-a2-m1-cD CRYSTAL STRUCTURE OF SINGLE POINT MUTANT ARG48GLN OF P-COUMARIC ACID DECARBOXYLASE FROM LACTOBACILLUS PLANTARUM STRUCTURAL INSIGHTS INTO THE ACTIVE SITE AND DECARBOXYLATION CATALYTIC MECHANISM F9ULL2 F9ULL2 1.73 X-RAY DIFFRACTION 78 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 175 175 2gc9-a1-m1-cB_2gc9-a1-m1-cA 2w2a-a1-m1-cA_2w2a-a1-m1-cB 2w2b-a1-m1-cA_2w2b-a1-m1-cB 2w2f-a1-m1-cA_2w2f-a1-m1-cB 2wsj-a1-m1-cA_2wsj-a1-m1-cB TKTFKTLDDFLGTHFIYTYDNGWEYEWYAKNDHTVDYRIHGGMVAGQWVTDQKADIVMLTEGIYKISWTEPTGTDVALDFMPNEKKLHGTIFFPKWVEEHPEITVTYQNEHIDLMEQSREKYATYPKLVVPEFANITYMGDAGQNNEDVISEAPYKEMPNDIRNGKYFDQNYHRL TKTFKTLDDFLGTHFIYTYDNGWEYEWYAKNDHTVDYRIHGGMVAGQWVTDQKADIVMLTEGIYKISWTEPTGTDVALDFMPNEKKLHGTIFFPKWVEEHPEITVTYQNEHIDLMEQSREKYATYPKLVVPEFANITYMGDAGQNNEDVISEAPYKEMPNDIRNGKYFDQNYHRL 2w2l-a1-m1-cD_2w2l-a1-m1-cA Crystal structure of the holo forms of Rhodotorula graminis D- mandelate dehydrogenase at 2.5A. Q7LLW9 Q7LLW9 2.5 X-RAY DIFFRACTION 176 0.997 29898 (Rhodotorula graminis) 29898 (Rhodotorula graminis) 345 346 2w2k-a1-m1-cB_2w2k-a1-m1-cA 2w2l-a2-m1-cC_2w2l-a2-m1-cB MPRPRVLLLGDPARHLDDLWSDFQQKFEVIPANLTTHDGFKQALREKRYGDFEAIIKLAVENGTESYPWNADIISHLPSSLKVFAAAGAGFDWLDLDALNERGVAFANSRGAGDTATSDLALYLILSVFRLASYSERAARTGDPETFNRVHLEIGKSAHNPRGHVLGAVGLGAIQKEIARKAVHGLGMKLVYYDVAPADAETEKALGAERVDSLEELARRSDCVSVSVPYMKLTHHLIDEAFFAAMKPGSRIVNTARGPVISQDALIAALKSGKLLSAGLDVHEFEPQVSKELIEMKHVTLTTHIGGVAIETFHEFERLTMTNIDRFLLQGKPLLTPAGKVFAPS MPRPRVLLLGDPARHLDDLWSDFQQKFEVIPANLTTHDGFKQALREKRYGDFEAIIKLAVENGTESYPWNADLISHLPSSLKVFAAAGAGFDWLDLDALNERGVAFANSRGAGDTATSDLALYLILSVFRLASYSERAARTGDPETFNRVHLEIGKSAHNPRGHVLGAVGLGAIQKEIARKAVHGLGMKLVYYDVAPADAETEKALGAERVDSLEELARRSDCVSVSVPYMKLTHHLIDEAFFAAMKPGSRIVNTARGPVISQDALIAALKSGKLLSAGLDVHEFEPQVSKELIEMKHVTLTTHIGGVAIETFHEFERLTMTNIDRFLLQGKPLLTPAGKVFAPSS 2w31-a1-m1-cA_2w31-a1-m1-cB globin domain of Geobacter sulfurreducens globin-coupled sensor Q747F6 Q747F6 1.5 X-RAY DIFFRACTION 74 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 152 152 MLTMQEIKAHYRFTDEDAELLGSLFPLAETNKERLADQFYDYLLGIPETAEFLKEDLVLQKLKQTHQDWFVSLFAGSYDNRYIHNLQKIGHAHVRVGLNAHYVNVAMNVVRQFTLSIIQDNFPDPEERRQRREAVEKILDINLDIMSASYRE MLTMQEIKAHYRFTDEDAELLGSLFPLAETNKERLADQFYDYLLGIPETAEFLKEDLVLQKLKQTHQDWFVSLFAGSYDNRYIHNLQKIGHAHVRVGLNAHYVNVAMNVVRQFTLSIIQDNFPDPEERRQRREAVEKILDINLDIMSASYRE 2w37-a1-m1-cC_2w37-a1-m2-cC CRYSTAL STRUCTURE OF THE HEXAMERIC CATABOLIC ORNITHINE TRANSCARBAMYLASE FROM Lactobacillus hilgardii Q8G998 Q8G998 2.1 X-RAY DIFFRACTION 57 1.0 1588 (Lentilactobacillus hilgardii) 1588 (Lentilactobacillus hilgardii) 341 341 2w37-a1-m1-cA_2w37-a1-m2-cB 2w37-a1-m1-cB_2w37-a1-m2-cA KDFRQNVFQGRSVLAEKDFSAAELEYLIDFGLHLKALKKAGIPHHYLEGKNIALLFEKSSTRTRSAFTTASIDLGAHPEYLGQNDIQLGKKESTSDTAKVLGSMFDGIEFRGFKQSDAEILARDSGVPVWNGLTDEWHPTQMLADFMTVKENFGKLQGLTLTFMGDGRNNVANSLLVTGAILGVNIHIVAPKALFPTEETQNIAKGFAEKSGAKLVITDDLDEGLKGSNVVYTDVWVSMGESNWEERVKELTPYQVNMEAMKKTGTPDDQLIFMHCLPAFHNTDTQYGKEIKEKYGITEMEVTDEVFTSKYARQFEEAENRMHSIKAMMAATLGNLFIPRV KDFRQNVFQGRSVLAEKDFSAAELEYLIDFGLHLKALKKAGIPHHYLEGKNIALLFEKSSTRTRSAFTTASIDLGAHPEYLGQNDIQLGKKESTSDTAKVLGSMFDGIEFRGFKQSDAEILARDSGVPVWNGLTDEWHPTQMLADFMTVKENFGKLQGLTLTFMGDGRNNVANSLLVTGAILGVNIHIVAPKALFPTEETQNIAKGFAEKSGAKLVITDDLDEGLKGSNVVYTDVWVSMGESNWEERVKELTPYQVNMEAMKKTGTPDDQLIFMHCLPAFHNTDTQYGKEIKEKYGITEMEVTDEVFTSKYARQFEEAENRMHSIKAMMAATLGNLFIPRV 2w37-a1-m2-cB_2w37-a1-m2-cC CRYSTAL STRUCTURE OF THE HEXAMERIC CATABOLIC ORNITHINE TRANSCARBAMYLASE FROM Lactobacillus hilgardii Q8G998 Q8G998 2.1 X-RAY DIFFRACTION 67 1.0 1588 (Lentilactobacillus hilgardii) 1588 (Lentilactobacillus hilgardii) 341 341 2w37-a1-m1-cA_2w37-a1-m1-cB 2w37-a1-m1-cA_2w37-a1-m1-cC 2w37-a1-m1-cB_2w37-a1-m1-cC 2w37-a1-m2-cA_2w37-a1-m2-cB 2w37-a1-m2-cA_2w37-a1-m2-cC KDFRQNVFQGRSVLAEKDFSAAELEYLIDFGLHLKALKKAGIPHHYLEGKNIALLFEKSSTRTRSAFTTASIDLGAHPEYLGQNDIQLGKKESTSDTAKVLGSMFDGIEFRGFKQSDAEILARDSGVPVWNGLTDEWHPTQMLADFMTVKENFGKLQGLTLTFMGDGRNNVANSLLVTGAILGVNIHIVAPKALFPTEETQNIAKGFAEKSGAKLVITDDLDEGLKGSNVVYTDVWVSMGESNWEERVKELTPYQVNMEAMKKTGTPDDQLIFMHCLPAFHNTDTQYGKEIKEKYGITEMEVTDEVFTSKYARQFEEAENRMHSIKAMMAATLGNLFIPRV KDFRQNVFQGRSVLAEKDFSAAELEYLIDFGLHLKALKKAGIPHHYLEGKNIALLFEKSSTRTRSAFTTASIDLGAHPEYLGQNDIQLGKKESTSDTAKVLGSMFDGIEFRGFKQSDAEILARDSGVPVWNGLTDEWHPTQMLADFMTVKENFGKLQGLTLTFMGDGRNNVANSLLVTGAILGVNIHIVAPKALFPTEETQNIAKGFAEKSGAKLVITDDLDEGLKGSNVVYTDVWVSMGESNWEERVKELTPYQVNMEAMKKTGTPDDQLIFMHCLPAFHNTDTQYGKEIKEKYGITEMEVTDEVFTSKYARQFEEAENRMHSIKAMMAATLGNLFIPRV 2w3e-a1-m1-cB_2w3e-a1-m1-cA Oxidized structure of the first GAF domain of Mycobacterium tuberculosis DosS P9WGK3 P9WGK3 1.6 X-RAY DIFFRACTION 68 0.986 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 145 148 2w3d-a1-m1-cB_2w3d-a1-m1-cA 2w3f-a1-m1-cB_2w3f-a1-m1-cA 2w3g-a1-m1-cB_2w3g-a1-m1-cA 2w3h-a1-m1-cB_2w3h-a1-m1-cA 2y79-a1-m1-cB_2y79-a1-m1-cA 2y8h-a1-m1-cB_2y8h-a1-m1-cA 4ynr-a1-m1-cA_4ynr-a1-m1-cB DLEATLRAIVHSATSLVDARYGAMEVHDRQHRVLHFVYEGIDEETVRRIGHLPKGLGVIGLLIEDPKPLRLDDVSAHPASIGFPPYHPPMRTFLGVPVRVRDESFGTLYLTDKTNGQPFSDDDEVLVQALAAAAGIAVANARLYQ GAMDPDLEATLRAIVHSATSLVDARYGAMEVHDRQHRVLHFVYEGIDEETVRRIGHLPKGLGVIGLLIEDPKPLRLDDVSAHPASIGFPPYHPPMRTFLGVPVRVRDESFGTLYLTDKTNGQPFSDDDEVLVQALAAAAGIAVANARL 2w3n-a2-m1-cA_2w3n-a2-m2-cA Structure and inhibition of the CO2-sensing carbonic anhydrase Can2 from the pathogenic fungus Cryptococcus neoformans Q3I4V7 Q3I4V7 2.05 X-RAY DIFFRACTION 250 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 230 230 2w3n-a1-m1-cB_2w3n-a1-m1-cC 2w3q-a1-m1-cA_2w3q-a1-m2-cA PFHAEPLKPSDEIDMDLGHSVAAQKFKEIREVLEGNRYWARKVTSEEPEFMAEQVKGQAPNFLWIGCADSRVPEVTIMARKPGDVFVQRNVANQFKPEDDSSQALLNYAIMNVGVTHVMVVGHTGCGGCIAAFDQPLPTEENPGGTPLVRYLEPIIRLKHSLPEGSDVNDLIKENVKMAVKNVVNSPTIQGAWEQARKGEFREVFVHGWLYDLSTGNIVDLNVTQGPHPF PFHAEPLKPSDEIDMDLGHSVAAQKFKEIREVLEGNRYWARKVTSEEPEFMAEQVKGQAPNFLWIGCADSRVPEVTIMARKPGDVFVQRNVANQFKPEDDSSQALLNYAIMNVGVTHVMVVGHTGCGGCIAAFDQPLPTEENPGGTPLVRYLEPIIRLKHSLPEGSDVNDLIKENVKMAVKNVVNSPTIQGAWEQARKGEFREVFVHGWLYDLSTGNIVDLNVTQGPHPF 2w3p-a1-m1-cA_2w3p-a1-m1-cB BoxC crystal structure Q13WK7 Q13WK7 1.5 X-RAY DIFFRACTION 267 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 547 548 PVDYRTDPSQYKHWKLSFNGPVATLGIDIAEDGGIRDGYKLKLNSYDLGVDIELHDAIQRIRFEHPEVRTVVLTSLKDRVFCSGANIFMLGLSTHAWKVNFCKFTNETRNGLEDSSRHSGLKFLAAVNGACAGGGYELALACDEIYLVDDRSSSVSLPEVPLLGVLPGTGGLTRVTDKRKVRHDRADIFCTVVEGVRGERAKAWRLVDEVVKPNQFDQAIQARALELAAQSDRPAHAQGVPLTRIERTDREDGLTYKTLDVTIDRAKRIATFTAKAPQTEPPASIDAIVAAGANWWPLKFAREFDDAILSMRTNELAVGTWVFRTEGDARHLLAADASLMQHKDHWFVRETIGLLRRTLARIDVSSRSLFALIEPGSCFAGTFAELAFAADRTYMAALPANEDEEPAITLSEVNFGLYPMVTHQSRLARRFYEETEPLDAVRSRIGQAIKPVEAERLGLVTASPDDIDWADEIRIALEERAAMSPDALTGLEANLRFNGPETMETRIFGRLTAWQNWIFNRPNAVGEKGALKVYGKGSKAQFDVSRV APVDYRTDPSQYKHWKLSFNGPVATLGIDIAEDGGIRDGYKLKLNSYDLGVDIELHDAIQRIRFEHPEVRTVVLTSLKDRVFCSGANIFMLGLSTHAWKVNFCKFTNETRNGLEDSSRHSGLKFLAAVNGACAGGGYELALACDEIYLVDDRSSSVSLPEVPLLGVLPGTGGLTRVTDKRKVRHDRADIFCTVVEGVRGERAKAWRLVDEVVKPNQFDQAIQARALELAAQSDRPAHAQGVPLTRIERTDREDGLTYKTLDVTIDRAKRIATFTAKAPQTEPPASIDAIVAAGANWWPLKFAREFDDAILSMRTNELAVGTWVFRTEGDARHLLAADASLMQHKDHWFVRETIGLLRRTLARIDVSSRSLFALIEPGSCFAGTFAELAFAADRTYMAALPANEDEEPAITLSEVNFGLYPMVTHQSRLARRFYEETEPLDAVRSRIGQAIKPVEAERLGLVTASPDDIDWADEIRIALEERAAMSPDALTGLEANLRFNGPETMETRIFGRLTAWQNWIFNRPNAVGEKGALKVYGKGSKAQFDVSRV 2w3x-a1-m1-cA_2w3x-a1-m2-cB Crystal structure of a bifunctional hotdog fold thioesterase in enediyne biosynthesis, CalE7 Q8KNG2 Q8KNG2 1.75 X-RAY DIFFRACTION 26 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 141 144 2w3x-a1-m2-cA_2w3x-a1-m1-cB 2w3x-a2-m1-cD_2w3x-a2-m1-cE 2w3x-a2-m1-cF_2w3x-a2-m1-cC PRYYEYRHVVGFEETNLVGNVYYVNYLRWQGRCREMFLYEHAPEILDELRADLKLFTLKAECEFFAELAPFDRLAVRMRLVELTQTQMELGFDYLRLGGDDLLVARGRQRIACMRGPNGRTEPVRVPAGLVRAFAPFRSAT MSMPRYYEYRHVVGFEETNLVGNVYYVNYLRWQGRCREMFLYEHAPEILDELRADLKLFTLKAECEFFAELAPFDRLAVRMRLVELTQTQMELGFDYLRLGGDDLLVARGRQRIACMRGPNGRTEPVRVPAGLVRAFAPFRSAT 2w3x-a1-m2-cA_2w3x-a1-m2-cB Crystal structure of a bifunctional hotdog fold thioesterase in enediyne biosynthesis, CalE7 Q8KNG2 Q8KNG2 1.75 X-RAY DIFFRACTION 64 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 141 144 2w3x-a1-m1-cA_2w3x-a1-m1-cB 2w3x-a2-m1-cD_2w3x-a2-m1-cC 2w3x-a2-m1-cF_2w3x-a2-m1-cE PRYYEYRHVVGFEETNLVGNVYYVNYLRWQGRCREMFLYEHAPEILDELRADLKLFTLKAECEFFAELAPFDRLAVRMRLVELTQTQMELGFDYLRLGGDDLLVARGRQRIACMRGPNGRTEPVRVPAGLVRAFAPFRSAT MSMPRYYEYRHVVGFEETNLVGNVYYVNYLRWQGRCREMFLYEHAPEILDELRADLKLFTLKAECEFFAELAPFDRLAVRMRLVELTQTQMELGFDYLRLGGDDLLVARGRQRIACMRGPNGRTEPVRVPAGLVRAFAPFRSAT 2w3x-a2-m1-cD_2w3x-a2-m1-cF Crystal structure of a bifunctional hotdog fold thioesterase in enediyne biosynthesis, CalE7 Q8KNG2 Q8KNG2 1.75 X-RAY DIFFRACTION 31 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 137 141 2w3x-a1-m1-cA_2w3x-a1-m2-cA 2w3x-a1-m1-cB_2w3x-a1-m2-cB RYYEYRHVVGFEETNLVGNVYYVNYLRWQGRCREMFLYEHAPEILDELRADLKLFTLKAECEFFAELAPFDRLAVRMRLVELTQTQMELGFDYLRLGGDDLLVARGRQRIACMRGPNGRTEPVRVPAGLVRAFAPFR MPRYYEYRHVVGFEETNLVGNVYYVNYLRWQGRCREMFLYEHAPEILDELRADLKLFTLKAECEFFAELAPFDRLAVRMRLVELTQTQMELGFDYLRLGGDDLLVARGRQRIACMRGPNGRTEPVRVPAGLVRAFAPFRSA 2w40-a2-m1-cB_2w40-a2-m1-cD Crystal structure of Plasmodium falciparum glycerol kinase with bound glycerol Q8IDI4 Q8IDI4 1.49 X-RAY DIFFRACTION 110 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 503 503 2w40-a1-m1-cA_2w40-a1-m1-cC 2w41-a1-m1-cA_2w41-a1-m1-cB GSMNVILSIDQSTQSTKVFFYDEELNIVHSNNLNHEQKCLKPGWYEHDPIEIMTNLYNLMNEGIKVLKDKYTSVIIKCIGITNQRETVIIWDRITGKPLYNAIVWLDTRVEELVTEFSAKYNNNDIQKKTGTYFNTYFSAFKILWLIQNNPEIKQKIDDGTAVIGNINTWLIFNLTKGNCYTDVTNASRTLLMDINTLQWDEKMCKIFNITNMSVLPEIKSNCSNFGLVKSEHVPDYLNIPITGCIGDQQSACIGQAIFDEGEAKCTYGTGVFLLINTGEKVVYSTCGLITTICYKFNDNDKPKYALEGSIGTAGSGVSWLLKNKLIDDPSEASDIMEKCENTTGVIFVPAFSGLYAPRWRSDARASIYGMTFNTERSHIVRALLEGIAFQLNEIVDSLTSDMGIEMLHVLRCDGGMTKNKPFMQFNSDIINTKIEVSKYKEVTSLGAAVLAGLEVKIWDSLDSVKSLLRRSDAVFHSKMDDKKRKKKTSEWNKAVERTLIQL GSMNVILSIDQSTQSTKVFFYDEELNIVHSNNLNHEQKCLKPGWYEHDPIEIMTNLYNLMNEGIKVLKDKYTSVIIKCIGITNQRETVIIWDRITGKPLYNAIVWLDTRVEELVTEFSAKYNNNDIQKKTGTYFNTYFSAFKILWLIQNNPEIKQKIDDGTAVIGNINTWLIFNLTKGNCYTDVTNASRTLLMDINTLQWDEKMCKIFNITNMSVLPEIKSNCSNFGLVKSEHVPDYLNIPITGCIGDQQSACIGQAIFDEGEAKCTYGTGVFLLINTGEKVVYSTCGLITTICYKFNDNDKPKYALEGSIGTAGSGVSWLLKNKLIDDPSEASDIMEKCENTTGVIFVPAFSGLYAPRWRSDARASIYGMTFNTERSHIVRALLEGIAFQLNEIVDSLTSDMGIEMLHVLRCDGGMTKNKPFMQFNSDIINTKIEVSKYKEVTSLGAAVLAGLEVKIWDSLDSVKSLLRRSDAVFHSKMDDKKRKKKTSEWNKAVERTLIQL 2w43-a1-m1-cB_2w43-a1-m1-cA Structure of L-haloacid dehalogenase from S. tokodaii Q96XE7 Q96XE7 1.66 X-RAY DIFFRACTION 69 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 200 201 2w11-a1-m1-cB_2w11-a1-m1-cA IILAFDIFGTVLDTSTVIQEFRNKQLEYTWLLTIMGKYVEFEEITKITLRYILKVRGEESKFDEELNKWKNLKAYEDTKYLKEISEIAEVYALSNGSINEVKQHLERNGLLRYFKGIFSAESVKEYKPSPKVYKYFLDSIGAKEAFLVSSNAFDVIGAKNAGMRSIFVNRKNTIVDPIGGKPDVIVNDFKELYEWILRYK MIILAFDIFGTVLDTSTVIQEFRNKQLEYTWLLTIMGKYVEFEEITKITLRYILKVRGEESKFDEELNKWKNLKAYEDTKYLKEISEIAEVYALSNGSINEVKQHLERNGLLRYFKGIFSAESVKEYKPSPKVYKYFLDSIGAKEAFLVSSNAFDVIGAKNAGMRSIFVNRKNTIVDPIGGKPDVIVNDFKELYEWILRYK 2w48-a1-m1-cA_2w48-a1-m1-cD Crystal structure of the Full-length Sorbitol Operon Regulator SorC from Klebsiella pneumoniae P37078 P37078 3.2 X-RAY DIFFRACTION 69 0.984 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 308 308 2w48-a1-m1-cC_2w48-a1-m1-cB SDDIRLIVKIAQLYYEQDMTQAQIARELGIYRTTISRLLKRGREQGIVTIAINYDYNENLWLEQQLKQKFGLKEAVVASSEEEQLSAMGQHGALLVDRLLEPGDIIGFSWGRAVRSLVENLPQRSQSRQVICVPIIGGPSGKLESRYHVNTLTYGAAARLKAESHLADFPALLDNPLIRNGIMQSQHFKTISSYWDSLDVALVGIGSPAIRDGANWHAFYGSEESDDLNARHVAGDICSRFYDINGGLVDTNMSEKTLSIEMAKLRQARYSIGIAMGEEKYSGILGALHGRYINCLVTNRETAELLLK NSDDIRLIVKIAQLYYEQDMTQAQIARELGIYRTTISRLLKRGREQGIVTIAINYDYNENLWLEQQLKQKFGLKEAVVASSDGLLEEEQLSAMGQHGALLVDRLLEPGDIIGFSWGRAVRSLVENLPQRSQSRQVICVPIIGGPSGKLESRYHVNTLTYGAAARLKAESHLADFPALLDNPLIRNGIMQSQHFKTISSYWDSLDVALVGIGSPAIRDGANWHAFYGSEESDDLNARHVAGDICSRFYDINGGLSEKTLSIEMAKLRQARYSIGIAMGEEKYSGILGALHGRYINCLVTNRETAELLLK 2w48-a1-m1-cC_2w48-a1-m1-cD Crystal structure of the Full-length Sorbitol Operon Regulator SorC from Klebsiella pneumoniae P37078 P37078 3.2 X-RAY DIFFRACTION 76 0.99 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 299 308 2w48-a1-m1-cA_2w48-a1-m1-cB SDDIRLIVKIAQLYYEQDMTQAQIARELGIYRTTISRLLKRGREQGIVTIAINYDYNENLWLEQQLKQKFGLKEAVVAEQLSAMGQHGALLVDRLLEPGDIIGFSWGRAVRSLVENLPQRSQSRQVICVPIIGGPSGKLESRYHVNTLTYGAAARLKAESHLADFPALLDNPLIRNGIMQSQHFKTISSYWDSLDVALVGIGSPADGANWHAFYGSEESDDLNARHVAGDICSRFYDINGGTNMSEKTLSIEMAKLRQARYSIGIAMGEEKYSGILGALHGRYINCLVTNRETAELLLK NSDDIRLIVKIAQLYYEQDMTQAQIARELGIYRTTISRLLKRGREQGIVTIAINYDYNENLWLEQQLKQKFGLKEAVVASSDGLLEEEQLSAMGQHGALLVDRLLEPGDIIGFSWGRAVRSLVENLPQRSQSRQVICVPIIGGPSGKLESRYHVNTLTYGAAARLKAESHLADFPALLDNPLIRNGIMQSQHFKTISSYWDSLDVALVGIGSPAIRDGANWHAFYGSEESDDLNARHVAGDICSRFYDINGGLSEKTLSIEMAKLRQARYSIGIAMGEEKYSGILGALHGRYINCLVTNRETAELLLK 2w4d-a2-m1-cC_2w4d-a2-m1-cD Acylphosphatase variant G91A from Pyrococcus horikoshii P84142 P84142 2.4 X-RAY DIFFRACTION 50 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 90 90 1v3z-a1-m1-cA_1v3z-a1-m1-cB 1w2i-a1-m1-cA_1w2i-a1-m1-cB 2w4d-a1-m1-cA_2w4d-a1-m1-cB 2w4d-a3-m1-cE_2w4d-a3-m1-cF AIVRAHLKIYGRVQGVGFRWSMQREARKLGVNGWVRNLPDGSVEAVLEGDEERVEALIGWAHQGPPLARVTRVEVKWEQPKGEKGFRIVA AIVRAHLKIYGRVQGVGFRWSMQREARKLGVNGWVRNLPDGSVEAVLEGDEERVEALIGWAHQGPPLARVTRVEVKWEQPKGEKGFRIVA 2w4e-a1-m1-cB_2w4e-a1-m1-cA Structure of an N-terminally truncated Nudix hydrolase DR2204 from Deinococcus radiodurans Q9RSC1 Q9RSC1 2 X-RAY DIFFRACTION 83 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 131 137 PRAVFILPVTAQGEAVLIRQFRYPLRATITEIVAGGVEKGEDLGAAAARELLEEVGGAASEWVPLPGFYPQPSISGVVFYPLLALGVTLIERVVLPLAEVYRMLEAGEIQDGPSSLTLWQARGELTRRGLL RPRGPRAVFILPVTAQGEAVLIRQFRYPLRATITEIVAGGVEKGEDLGAAAARELLEEVGGAASEWVPLPGFYPQPSISGVVFYPLLALGVTLGTIERVVLPLAEVYRMLEAGEIQDGPSSLTLWQARGELTRRGLL 2w4i-a2-m1-cE_2w4i-a2-m1-cF Crystal structure of Helicobacter pylori glutamate racemase in complex with D-Glutamate and an inhibitor Q9ZLT0 Q9ZLT0 1.87 X-RAY DIFFRACTION 60 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 254 254 2jfx-a1-m1-cB_2jfx-a1-m1-cA 2jfy-a1-m1-cA_2jfy-a1-m1-cB 2jfz-a1-m1-cB_2jfz-a1-m1-cA 2w4i-a1-m1-cB_2w4i-a1-m1-cA 4b1f-a1-m1-cA_4b1f-a1-m1-cB 5w1q-a1-m1-cA_5w1q-a1-m1-cB 7uj5-a1-m1-cA_7uj5-a1-m1-cB 7uj5-a2-m1-cC_7uj5-a2-m1-cD MKIGVFDSGVGGFSVLKSLLKARLFDEIIYYGDSARVPYGTKDPTTIKQFGLEALDFFKPHEIELLIVACNTASALALEEMQKYSKIPIVGVIEPSILAIKRQVEDKNAPILVLGTKATIQSNAYDNALKQQGYLNISHLATSLFVPLIEESILEGELLETCMHYYFTPLEILPEVIILGCTHFPLIAQKIEGYFMGHFALPTPPLLIHSGDAIVEYLQQKYALKNNACTFPKVEFHASGDVIWLERQAKEWLK MKIGVFDSGVGGFSVLKSLLKARLFDEIIYYGDSARVPYGTKDPTTIKQFGLEALDFFKPHEIELLIVACNTASALALEEMQKYSKIPIVGVIEPSILAIKRQVEDKNAPILVLGTKATIQSNAYDNALKQQGYLNISHLATSLFVPLIEESILEGELLETCMHYYFTPLEILPEVIILGCTHFPLIAQKIEGYFMGHFALPTPPLLIHSGDAIVEYLQQKYALKNNACTFPKVEFHASGDVIWLERQAKEWLK 2w4l-a1-m1-cB_2w4l-a1-m1-cA Human dCMP deaminase P32321 P32321 2.1 X-RAY DIFFRACTION 91 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 157 160 DYLEWPEYFMAVAFLSAQRSKDPNSQVGACIVNSENKIVGIGYNGMPNGCSDDVLPWRRTAENKLDTKYPYVCHAELNAIMNKDVKGCSMYVALFPCNECAKLIIQAGIKEVIFMSDKYHDSDEATAARLLFNMAGVTFRKFIPKCSKIVIDFDSIN CKKRDDYLEWPEYFMAVAFLSAQRSKDPNSQVGACIVNSENKIVGIGYNGMPNGCSDDVLPWRRTAENKLDTKYPYVCHAELNAIMNDVKGCSMYVALFPCNECAKLIIQAGIKEVIFMSDKYHDSDEATAARLLFNMAGVTFRKFIPKCSKIVIDFDSI 2w4l-a1-m1-cC_2w4l-a1-m1-cB Human dCMP deaminase P32321 P32321 2.1 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 157 2w4l-a1-m1-cD_2w4l-a1-m1-cE 2w4l-a1-m1-cF_2w4l-a1-m1-cA DYLEWPEYFMAVAFLSAQRSKDPNSQVGACIVNSENKIVGIGYNGMPNGCSDDVLPPYVCHAELNAIMNKVKGCSMYVALFPCNECAKLIIQAGIKEVIFMSDKYHDSDEATAARLLFNMAGVTFRKFIPKCSKIVIDFDSI DYLEWPEYFMAVAFLSAQRSKDPNSQVGACIVNSENKIVGIGYNGMPNGCSDDVLPWRRTAENKLDTKYPYVCHAELNAIMNKDVKGCSMYVALFPCNECAKLIIQAGIKEVIFMSDKYHDSDEATAARLLFNMAGVTFRKFIPKCSKIVIDFDSIN 2w4s-a2-m1-cB_2w4s-a2-m1-cA novel RNA-binding domain in Cryptosporidium parvum at 2.5 angstrom resolution 2.45 X-RAY DIFFRACTION 44 1.0 414452 (Cryptosporidium parvum Iowa) 414452 (Cryptosporidium parvum Iowa) 85 86 2w4s-a1-m1-cC_2w4s-a1-m1-cD TMESIVLNTIVTGLQKEFIARVIKTIGSQRSLQLYENAMKVENSGGLLTADMSRRKTIGGVFCYLLKQLVAEDQITIQEWNYIRQ DTMESIVLNTIVTGLQKEFIARVIKTIGSQRSLQLYENAMKVENSGGLLTADMSRRKTIGGVFCYLLKQLVAEDQITIQEWNYIRQ 2w4y-a1-m10-cA_2w4y-a1-m9-cB Caulobacter bacteriophage 5 - virus-like particle 2.9 X-RAY DIFFRACTION 225 1.0 122 122 2w4y-a1-m10-cB_2w4y-a1-m6-cA 2w4y-a1-m10-cC_2w4y-a1-m24-cC 2w4y-a1-m11-cA_2w4y-a1-m15-cB 2w4y-a1-m11-cB_2w4y-a1-m12-cA 2w4y-a1-m11-cC_2w4y-a1-m16-cC 2w4y-a1-m12-cB_2w4y-a1-m13-cA 2w4y-a1-m12-cC_2w4y-a1-m38-cC 2w4y-a1-m13-cB_2w4y-a1-m14-cA 2w4y-a1-m13-cC_2w4y-a1-m47-cC 2w4y-a1-m14-cB_2w4y-a1-m15-cA 2w4y-a1-m14-cC_2w4y-a1-m45-cC 2w4y-a1-m15-cC_2w4y-a1-m29-cC 2w4y-a1-m16-cA_2w4y-a1-m20-cB 2w4y-a1-m16-cB_2w4y-a1-m17-cA 2w4y-a1-m17-cB_2w4y-a1-m18-cA 2w4y-a1-m17-cC_2w4y-a1-m28-cC 2w4y-a1-m18-cB_2w4y-a1-m19-cA 2w4y-a1-m18-cC_2w4y-a1-m52-cC 2w4y-a1-m19-cB_2w4y-a1-m20-cA 2w4y-a1-m19-cC_2w4y-a1-m60-cC 2w4y-a1-m1-cA_2w4y-a1-m5-cB 2w4y-a1-m1-cB_2w4y-a1-m2-cA 2w4y-a1-m1-cC_2w4y-a1-m6-cC 2w4y-a1-m20-cC_2w4y-a1-m39-cC 2w4y-a1-m21-cA_2w4y-a1-m25-cB 2w4y-a1-m21-cB_2w4y-a1-m22-cA 2w4y-a1-m21-cC_2w4y-a1-m26-cC 2w4y-a1-m22-cB_2w4y-a1-m23-cA 2w4y-a1-m22-cC_2w4y-a1-m43-cC 2w4y-a1-m23-cB_2w4y-a1-m24-cA 2w4y-a1-m24-cB_2w4y-a1-m25-cA 2w4y-a1-m25-cC_2w4y-a1-m54-cC 2w4y-a1-m26-cA_2w4y-a1-m30-cB 2w4y-a1-m26-cB_2w4y-a1-m27-cA 2w4y-a1-m27-cB_2w4y-a1-m28-cA 2w4y-a1-m27-cC_2w4y-a1-m53-cC 2w4y-a1-m28-cB_2w4y-a1-m29-cA 2w4y-a1-m29-cB_2w4y-a1-m30-cA 2w4y-a1-m2-cB_2w4y-a1-m3-cA 2w4y-a1-m2-cC_2w4y-a1-m23-cC 2w4y-a1-m30-cC_2w4y-a1-m44-cC 2w4y-a1-m31-cA_2w4y-a1-m35-cB 2w4y-a1-m31-cB_2w4y-a1-m32-cA 2w4y-a1-m31-cC_2w4y-a1-m36-cC 2w4y-a1-m32-cB_2w4y-a1-m33-cA 2w4y-a1-m32-cC_2w4y-a1-m58-cC 2w4y-a1-m33-cB_2w4y-a1-m34-cA 2w4y-a1-m33-cC_2w4y-a1-m7-cC 2w4y-a1-m34-cB_2w4y-a1-m35-cA 2w4y-a1-m34-cC_2w4y-a1-m5-cC 2w4y-a1-m35-cC_2w4y-a1-m49-cC 2w4y-a1-m36-cA_2w4y-a1-m40-cB 2w4y-a1-m36-cB_2w4y-a1-m37-cA 2w4y-a1-m37-cB_2w4y-a1-m38-cA 2w4y-a1-m37-cC_2w4y-a1-m48-cC 2w4y-a1-m38-cB_2w4y-a1-m39-cA 2w4y-a1-m39-cB_2w4y-a1-m40-cA 2w4y-a1-m3-cB_2w4y-a1-m4-cA 2w4y-a1-m3-cC_2w4y-a1-m42-cC 2w4y-a1-m40-cC_2w4y-a1-m59-cC 2w4y-a1-m41-cA_2w4y-a1-m45-cB 2w4y-a1-m41-cB_2w4y-a1-m42-cA 2w4y-a1-m41-cC_2w4y-a1-m46-cC 2w4y-a1-m42-cB_2w4y-a1-m43-cA 2w4y-a1-m43-cB_2w4y-a1-m44-cA 2w4y-a1-m44-cB_2w4y-a1-m45-cA 2w4y-a1-m46-cA_2w4y-a1-m50-cB 2w4y-a1-m46-cB_2w4y-a1-m47-cA 2w4y-a1-m47-cB_2w4y-a1-m48-cA 2w4y-a1-m48-cB_2w4y-a1-m49-cA 2w4y-a1-m49-cB_2w4y-a1-m50-cA 2w4y-a1-m4-cB_2w4y-a1-m5-cA 2w4y-a1-m4-cC_2w4y-a1-m50-cC 2w4y-a1-m51-cA_2w4y-a1-m55-cB 2w4y-a1-m51-cB_2w4y-a1-m52-cA 2w4y-a1-m51-cC_2w4y-a1-m56-cC 2w4y-a1-m52-cB_2w4y-a1-m53-cA 2w4y-a1-m53-cB_2w4y-a1-m54-cA 2w4y-a1-m54-cB_2w4y-a1-m55-cA 2w4y-a1-m55-cC_2w4y-a1-m9-cC 2w4y-a1-m56-cA_2w4y-a1-m60-cB 2w4y-a1-m56-cB_2w4y-a1-m57-cA 2w4y-a1-m57-cB_2w4y-a1-m58-cA 2w4y-a1-m57-cC_2w4y-a1-m8-cC 2w4y-a1-m58-cB_2w4y-a1-m59-cA 2w4y-a1-m59-cB_2w4y-a1-m60-cA 2w4y-a1-m6-cB_2w4y-a1-m7-cA 2w4y-a1-m7-cB_2w4y-a1-m8-cA 2w4y-a1-m8-cB_2w4y-a1-m9-cA 2w4z-a1-m10-cA_2w4z-a1-m9-cB 2w4z-a1-m10-cB_2w4z-a1-m6-cA 2w4z-a1-m10-cC_2w4z-a1-m24-cC 2w4z-a1-m11-cA_2w4z-a1-m15-cB 2w4z-a1-m11-cB_2w4z-a1-m12-cA 2w4z-a1-m11-cC_2w4z-a1-m16-cC 2w4z-a1-m12-cB_2w4z-a1-m13-cA 2w4z-a1-m12-cC_2w4z-a1-m38-cC 2w4z-a1-m13-cB_2w4z-a1-m14-cA 2w4z-a1-m13-cC_2w4z-a1-m47-cC 2w4z-a1-m14-cB_2w4z-a1-m15-cA 2w4z-a1-m14-cC_2w4z-a1-m45-cC 2w4z-a1-m15-cC_2w4z-a1-m29-cC 2w4z-a1-m16-cA_2w4z-a1-m20-cB 2w4z-a1-m16-cB_2w4z-a1-m17-cA 2w4z-a1-m17-cB_2w4z-a1-m18-cA 2w4z-a1-m17-cC_2w4z-a1-m28-cC 2w4z-a1-m18-cB_2w4z-a1-m19-cA 2w4z-a1-m18-cC_2w4z-a1-m52-cC 2w4z-a1-m19-cB_2w4z-a1-m20-cA 2w4z-a1-m19-cC_2w4z-a1-m60-cC 2w4z-a1-m1-cA_2w4z-a1-m5-cB 2w4z-a1-m1-cB_2w4z-a1-m2-cA 2w4z-a1-m1-cC_2w4z-a1-m6-cC 2w4z-a1-m20-cC_2w4z-a1-m39-cC 2w4z-a1-m21-cA_2w4z-a1-m25-cB 2w4z-a1-m21-cB_2w4z-a1-m22-cA 2w4z-a1-m21-cC_2w4z-a1-m26-cC 2w4z-a1-m22-cB_2w4z-a1-m23-cA 2w4z-a1-m22-cC_2w4z-a1-m43-cC 2w4z-a1-m23-cB_2w4z-a1-m24-cA 2w4z-a1-m24-cB_2w4z-a1-m25-cA 2w4z-a1-m25-cC_2w4z-a1-m54-cC 2w4z-a1-m26-cA_2w4z-a1-m30-cB 2w4z-a1-m26-cB_2w4z-a1-m27-cA 2w4z-a1-m27-cB_2w4z-a1-m28-cA 2w4z-a1-m27-cC_2w4z-a1-m53-cC 2w4z-a1-m28-cB_2w4z-a1-m29-cA 2w4z-a1-m29-cB_2w4z-a1-m30-cA 2w4z-a1-m2-cB_2w4z-a1-m3-cA 2w4z-a1-m2-cC_2w4z-a1-m23-cC 2w4z-a1-m30-cC_2w4z-a1-m44-cC 2w4z-a1-m31-cA_2w4z-a1-m35-cB 2w4z-a1-m31-cB_2w4z-a1-m32-cA 2w4z-a1-m31-cC_2w4z-a1-m36-cC 2w4z-a1-m32-cB_2w4z-a1-m33-cA 2w4z-a1-m32-cC_2w4z-a1-m58-cC 2w4z-a1-m33-cB_2w4z-a1-m34-cA 2w4z-a1-m33-cC_2w4z-a1-m7-cC 2w4z-a1-m34-cB_2w4z-a1-m35-cA 2w4z-a1-m34-cC_2w4z-a1-m5-cC 2w4z-a1-m35-cC_2w4z-a1-m49-cC 2w4z-a1-m36-cA_2w4z-a1-m40-cB 2w4z-a1-m36-cB_2w4z-a1-m37-cA 2w4z-a1-m37-cB_2w4z-a1-m38-cA 2w4z-a1-m37-cC_2w4z-a1-m48-cC 2w4z-a1-m38-cB_2w4z-a1-m39-cA 2w4z-a1-m39-cB_2w4z-a1-m40-cA 2w4z-a1-m3-cB_2w4z-a1-m4-cA 2w4z-a1-m3-cC_2w4z-a1-m42-cC 2w4z-a1-m40-cC_2w4z-a1-m59-cC 2w4z-a1-m41-cA_2w4z-a1-m45-cB 2w4z-a1-m41-cB_2w4z-a1-m42-cA 2w4z-a1-m41-cC_2w4z-a1-m46-cC 2w4z-a1-m42-cB_2w4z-a1-m43-cA 2w4z-a1-m43-cB_2w4z-a1-m44-cA 2w4z-a1-m44-cB_2w4z-a1-m45-cA 2w4z-a1-m46-cA_2w4z-a1-m50-cB 2w4z-a1-m46-cB_2w4z-a1-m47-cA 2w4z-a1-m47-cB_2w4z-a1-m48-cA 2w4z-a1-m48-cB_2w4z-a1-m49-cA 2w4z-a1-m49-cB_2w4z-a1-m50-cA 2w4z-a1-m4-cB_2w4z-a1-m5-cA 2w4z-a1-m4-cC_2w4z-a1-m50-cC 2w4z-a1-m51-cA_2w4z-a1-m55-cB 2w4z-a1-m51-cB_2w4z-a1-m52-cA 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2w4z-a1-m46-cB_2w4z-a1-m46-cC 2w4z-a1-m47-cA_2w4z-a1-m47-cB 2w4z-a1-m47-cA_2w4z-a1-m47-cC 2w4z-a1-m47-cB_2w4z-a1-m47-cC 2w4z-a1-m48-cA_2w4z-a1-m48-cB 2w4z-a1-m48-cA_2w4z-a1-m48-cC 2w4z-a1-m48-cB_2w4z-a1-m48-cC 2w4z-a1-m49-cA_2w4z-a1-m49-cB 2w4z-a1-m49-cA_2w4z-a1-m49-cC 2w4z-a1-m49-cB_2w4z-a1-m49-cC 2w4z-a1-m4-cA_2w4z-a1-m4-cB 2w4z-a1-m4-cA_2w4z-a1-m4-cC 2w4z-a1-m4-cB_2w4z-a1-m4-cC 2w4z-a1-m50-cA_2w4z-a1-m50-cB 2w4z-a1-m50-cA_2w4z-a1-m50-cC 2w4z-a1-m50-cB_2w4z-a1-m50-cC 2w4z-a1-m51-cA_2w4z-a1-m51-cB 2w4z-a1-m51-cA_2w4z-a1-m51-cC 2w4z-a1-m51-cB_2w4z-a1-m51-cC 2w4z-a1-m52-cA_2w4z-a1-m52-cB 2w4z-a1-m52-cA_2w4z-a1-m52-cC 2w4z-a1-m52-cB_2w4z-a1-m52-cC 2w4z-a1-m53-cA_2w4z-a1-m53-cB 2w4z-a1-m53-cA_2w4z-a1-m53-cC 2w4z-a1-m53-cB_2w4z-a1-m53-cC 2w4z-a1-m54-cA_2w4z-a1-m54-cB 2w4z-a1-m54-cA_2w4z-a1-m54-cC 2w4z-a1-m54-cB_2w4z-a1-m54-cC 2w4z-a1-m55-cA_2w4z-a1-m55-cB 2w4z-a1-m55-cA_2w4z-a1-m55-cC 2w4z-a1-m55-cB_2w4z-a1-m55-cC 2w4z-a1-m56-cA_2w4z-a1-m56-cB 2w4z-a1-m56-cA_2w4z-a1-m56-cC 2w4z-a1-m56-cB_2w4z-a1-m56-cC 2w4z-a1-m57-cA_2w4z-a1-m57-cB 2w4z-a1-m57-cA_2w4z-a1-m57-cC 2w4z-a1-m57-cB_2w4z-a1-m57-cC 2w4z-a1-m58-cA_2w4z-a1-m58-cB 2w4z-a1-m58-cA_2w4z-a1-m58-cC 2w4z-a1-m58-cB_2w4z-a1-m58-cC 2w4z-a1-m59-cA_2w4z-a1-m59-cB 2w4z-a1-m59-cA_2w4z-a1-m59-cC 2w4z-a1-m59-cB_2w4z-a1-m59-cC 2w4z-a1-m5-cA_2w4z-a1-m5-cB 2w4z-a1-m5-cA_2w4z-a1-m5-cC 2w4z-a1-m5-cB_2w4z-a1-m5-cC 2w4z-a1-m60-cA_2w4z-a1-m60-cB 2w4z-a1-m60-cA_2w4z-a1-m60-cC 2w4z-a1-m60-cB_2w4z-a1-m60-cC 2w4z-a1-m6-cA_2w4z-a1-m6-cB 2w4z-a1-m6-cA_2w4z-a1-m6-cC 2w4z-a1-m6-cB_2w4z-a1-m6-cC 2w4z-a1-m7-cA_2w4z-a1-m7-cB 2w4z-a1-m7-cA_2w4z-a1-m7-cC 2w4z-a1-m7-cB_2w4z-a1-m7-cC 2w4z-a1-m8-cA_2w4z-a1-m8-cB 2w4z-a1-m8-cA_2w4z-a1-m8-cC 2w4z-a1-m8-cB_2w4z-a1-m8-cC 2w4z-a1-m9-cA_2w4z-a1-m9-cB 2w4z-a1-m9-cA_2w4z-a1-m9-cC 2w4z-a1-m9-cB_2w4z-a1-m9-cC ALGDTLTITLGGSGGTAKVLRKINQDGYTSEYYLPETSSSFRAKVRHTKESVKPNQVQYERHNVEFTETVYASGSTPEFVRQAYVVIRHKVGDVSATVSDLGEALSFYLNEALYGKLIGWES ALGDTLTITLGGSGGTAKVLRKINQDGYTSEYYLPETSSSFRAKVRHTKESVKPNQVQYERHNVEFTETVYASGSTPEFVRQAYVVIRHKVGDVSATVSDLGEALSFYLNEALYGKLIGWES 2w53-a1-m1-cB_2w53-a1-m1-cA Structure of SmeT, the repressor of the Stenotrophomonas maltophilia multidrug efflux pump SmeDEF. Q8KLP4 Q8KLP4 2 X-RAY DIFFRACTION 88 0.983 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 173 202 3p9t-a1-m1-cB_3p9t-a1-m1-cA REGILDAAEMIGARAGYTSEVLAAIVERVHLPFMQELERTSTDQRDTPVHDLRAVMIHSFIELSEDERLRKTMEIMLRSRVLTEMQQAGFRDALDRMERALRRARDLGQLREGADPKIAARMLHATVLGVLHGAMVEPELMDLKRDGMLALDMTLAAYVKDGVFVPGTVPEPL EDTQATREGILDAAEACFHEHGVARTTLEMIGARAGYTRGAVYWHFKNKSEVLAAIVERVHLPFMQELERTSTDQRDTPVHDLRAVMIHSFIELSEDERLRKTMEIMLRSTEMQQAGFRDALDRMERALRRARDLGQLREGADPKIAARMLHATVLGVLHGAMVEPELMDLKRDGMLALDMTLAAYVKDGVFVPGTVPEPLP 2w57-a1-m1-cA_2w57-a1-m1-cB Crystal structure of the Vibrio cholerae ferric uptake regulator (Fur) reveals structural rearrangement of the DNA-binding domains P0C6C8 P0C6C8 2.6 X-RAY DIFFRACTION 97 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 131 131 DNNQALKDAGLKVTLPRLKILEVLQQPECQHISAEELYKKLIDLGEEIGLATVYRVLNQFDDAGIVTRHHFEGGKSVFELSTQHHHDHLVCLDCGEVIEFSDDVIEQRQKEIAAKYNVQLTNHSLYLYGKC DNNQALKDAGLKVTLPRLKILEVLQQPECQHISAEELYKKLIDLGEEIGLATVYRVLNQFDDAGIVTRHHFEGGKSVFELSTQHHHDHLVCLDCGEVIEFSDDVIEQRQKEIAAKYNVQLTNHSLYLYGKC 2w59-a1-m1-cB_2w59-a1-m1-cA STRUCTURE OF AN AVIAN IGY-FC 3-4 FRAGMENT 1.75 X-RAY DIFFRACTION 82 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 214 215 PIQLYAIPPSPGELYISLDAKLRCLVVNLPSDSSLSVTWTREKSGNLRPDPMVLQEHFNGTYSASSAVPVSTQDWLSGERFTCTVQHEELPLPLSKSVYRNTGPTTPPLIYPFAPHPEELSLSRVTLSCLVRGFRPRDIEIRWLRDHRAVPATEFVTTAVLPEERTANDGDTFFVYSKMSVETAKWNGGTVFACMAVHEALPMRFSQRTLQKQA PIQLYAIPPSPGELYISLDAKLRCLVVNLPSDSSLSVTWTREKSGNLRPDPMVLQEHFNGTYSASSAVPVSTQDWLSGERFTCTVQHEELPLPLSKSVYRNTGPTTPPLIYPFAPHPEELSLSRVTLSCLVRGFRPRDIEIRWLRDHRAVPATEFVTTAVLPEERTANGDGDTFFVYSKMSVETAKWNGGTVFACMAVHEALPMRFSQRTLQKQA 2w5e-a1-m1-cD_2w5e-a1-m1-cE Structural and biochemical analysis of human pathogenic astrovirus serine protease at 2.0 Angstrom resolution Q3ZN04 Q3ZN04 2 X-RAY DIFFRACTION 11 1.0 12456 (Human astrovirus 1) 12456 (Human astrovirus 1) 162 162 2w5e-a1-m1-cA_2w5e-a1-m1-cC 2w5e-a1-m1-cB_2w5e-a1-m1-cF KHHHHHHIKPGALCVIDTPEGKGTGFFSGNDIVTAAHVVGNNTFVNVCYEGLMYEAKVRYMPEKDIAFITCPGDLHPTARLKLSKNPDYSCVTVMAYVNEDLVVSTAAAMVYGNTLSYAVRTQDGMSGAPVCDKYCRVLAVHQTNTGYTGGAVIIDPTDFHP KHHHHHHIKPGALCVIDTPEGKGTGFFSGNDIVTAAHVVGNNTFVNVCYEGLMYEAKVRYMPEKDIAFITCPGDLHPTARLKLSKNPDYSCVTVMAYVNEDLVVSTAAAMVYGNTLSYAVRTQDGMSGAPVCDKYCRVLAVHQTNTGYTGGAVIIDPTDFHP 2w5e-a1-m1-cD_2w5e-a1-m1-cF Structural and biochemical analysis of human pathogenic astrovirus serine protease at 2.0 Angstrom resolution Q3ZN04 Q3ZN04 2 X-RAY DIFFRACTION 10 1.0 12456 (Human astrovirus 1) 12456 (Human astrovirus 1) 162 162 2w5e-a1-m1-cA_2w5e-a1-m1-cD 2w5e-a1-m1-cC_2w5e-a1-m1-cE KHHHHHHIKPGALCVIDTPEGKGTGFFSGNDIVTAAHVVGNNTFVNVCYEGLMYEAKVRYMPEKDIAFITCPGDLHPTARLKLSKNPDYSCVTVMAYVNEDLVVSTAAAMVYGNTLSYAVRTQDGMSGAPVCDKYCRVLAVHQTNTGYTGGAVIIDPTDFHP KHHHHHHIKPGALCVIDTPEGKGTGFFSGNDIVTAAHVVGNNTFVNVCYEGLMYEAKVRYMPEKDIAFITCPGDLHPTARLKLSKNPDYSCVTVMAYVNEDLVVSTAAAMVYGNTLSYAVRTQDGMSGAPVCDKYCRVLAVHQTNTGYTGGAVIIDPTDFHP 2w5e-a1-m1-cE_2w5e-a1-m1-cF Structural and biochemical analysis of human pathogenic astrovirus serine protease at 2.0 Angstrom resolution Q3ZN04 Q3ZN04 2 X-RAY DIFFRACTION 82 1.0 12456 (Human astrovirus 1) 12456 (Human astrovirus 1) 162 162 2w5e-a1-m1-cA_2w5e-a1-m1-cB 2w5e-a1-m1-cC_2w5e-a1-m1-cD KHHHHHHIKPGALCVIDTPEGKGTGFFSGNDIVTAAHVVGNNTFVNVCYEGLMYEAKVRYMPEKDIAFITCPGDLHPTARLKLSKNPDYSCVTVMAYVNEDLVVSTAAAMVYGNTLSYAVRTQDGMSGAPVCDKYCRVLAVHQTNTGYTGGAVIIDPTDFHP KHHHHHHIKPGALCVIDTPEGKGTGFFSGNDIVTAAHVVGNNTFVNVCYEGLMYEAKVRYMPEKDIAFITCPGDLHPTARLKLSKNPDYSCVTVMAYVNEDLVVSTAAAMVYGNTLSYAVRTQDGMSGAPVCDKYCRVLAVHQTNTGYTGGAVIIDPTDFHP 2w5v-a1-m1-cA_2w5v-a1-m1-cB Structure of TAB5 alkaline phosphatase mutant His 135 Asp with Mg bound in the M3 site. Q9KWY4 Q9KWY4 1.78 X-RAY DIFFRACTION 170 1.0 82349 (Antarctic bacterium TAB5) 82349 (Antarctic bacterium TAB5) 345 345 2w5w-a1-m1-cA_2w5w-a1-m1-cB 2w5x-a1-m1-cA_2w5x-a1-m1-cB QLKTPKNVILLISDGAGLSQISSTFYFKSGTPNYTQFKNIGLIKTSSSREDVTDASGATAFSCGIKTYNAAIGVADDSTAVKSIVEIAALNNIKTGVVATSSITDATPASFYAHALNRGLEEEIAMDMTESDLDFFAGGGLNYFTKRKDKKDVLAILKGNQFTINTTALTDFSSIASNRKMGFLLADEAMPTMEKGRGNFLSAATDLAIQFLSKDNSAFFIMSEGSQIDWGGHANNASYLISEINDFDDAIGTALAFAKKDGNTLVIVTSDHETGGFTLAAKKNKREDGSEYSDYTEIGPTFSTGGHSATLIPVFAYGPGSEEFIGIYENNEIFHKILKVTKWNQ QLKTPKNVILLISDGAGLSQISSTFYFKSGTPNYTQFKNIGLIKTSSSREDVTDASGATAFSCGIKTYNAAIGVADDSTAVKSIVEIAALNNIKTGVVATSSITDATPASFYAHALNRGLEEEIAMDMTESDLDFFAGGGLNYFTKRKDKKDVLAILKGNQFTINTTALTDFSSIASNRKMGFLLADEAMPTMEKGRGNFLSAATDLAIQFLSKDNSAFFIMSEGSQIDWGGHANNASYLISEINDFDDAIGTALAFAKKDGNTLVIVTSDHETGGFTLAAKKNKREDGSEYSDYTEIGPTFSTGGHSATLIPVFAYGPGSEEFIGIYENNEIFHKILKVTKWNQ 2w6a-a1-m1-cB_2w6a-a1-m1-cA X-ray Structure of the Dimeric GIT1 Coiled-Coil Domain Q9Z272 Q9Z272 1.4 X-RAY DIFFRACTION 84 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 56 61 DGAVTLQEYLELKKALATSEAKVQQLMKVNSSLSDELRKLQREIHKLQAENLQLRQ GPLGDGAVTLQEYLELKKALATSEAKVQQLMKVNSSLSDELRKLQREIHKLQAENLQLRQP 2w6b-a1-m2-cA_2w6b-a1-m3-cA Crystal Structure of the Trimeric beta-PIX Coiled-Coil Domain O55043 O55043 2.8 X-RAY DIFFRACTION 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 50 50 2w6b-a1-m1-cA_2w6b-a1-m2-cA 2w6b-a1-m1-cA_2w6b-a1-m3-cA 3l4f-a1-m1-cA_3l4f-a1-m1-cB 3l4f-a1-m1-cC_3l4f-a1-m1-cA 3l4f-a1-m1-cC_3l4f-a1-m1-cB SKSLVDTVYALKDEVQELRQDNKKKKSLEEEQRARKDLEKLVRKVLKNND SKSLVDTVYALKDEVQELRQDNKKKKSLEEEQRARKDLEKLVRKVLKNND 2w6d-a1-m1-cA_2w6d-a1-m1-cB BACTERIAL DYNAMIN-LIKE PROTEIN LIPID TUBE BOUND B2IZD3 B2IZD3 9.0 ELECTRON MICROSCOPY 264 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 680 680 VNQVATDRFIQDLERVAQVRSEMSVCLNKLAETINKAELAGDSSSGKLSLERDIEDITIASKNLQQGVFRLLVLGDMKRGKSTFLNALIGENLLPSTAVLTVLRYGPEKKVTIHFNDGKSPQQLDFQNFKYKYTIDPAEAKKLEQEKKQAFPDVDYAVVEYPLTLLQKGIEIVDSPGLNDTEARNELSLGYVNNCHAILFVMRASQPCTLGERRYLENYIKGRGLTVFFLVNAWDQVRESLIDPDDVEELQASENRLRQVFNANLAEYCTVEGQNIYDERVFELSSIQALRRRLKNPQADLDGTGFPKFMDSLNTFLTRERAIAELRQVRTLARLACNHTREAVARRIPLLEQDVNELKKRIDSVEPEFNKLTGIRDEFQKEIINTRDTQARTISESFRSYVLNLGNTFENDFLRYQPELNLFDFLSSGKREAFNAALQKAFEQYITDKSAAWTLTAEKDINAAFKELSRSASQYGASYNQITDQITEKLTGKDVEDNSPGWAKWAMGLLSLSKGNLAGFALAGAGFDWKNILLNYFTVIGIGGIITAVTGILLGPIGFALLGLGVGFLQADQARRELVKTAKKELVKHLPQVAHEQSQVVYNAVKECFDSYEREVSKRINDDIVSRKSELDNLVKQKQTREINRESEFNRLKNLQEDVIAQLQKIEAAYSNLLAYYSHH VNQVATDRFIQDLERVAQVRSEMSVCLNKLAETINKAELAGDSSSGKLSLERDIEDITIASKNLQQGVFRLLVLGDMKRGKSTFLNALIGENLLPSTAVLTVLRYGPEKKVTIHFNDGKSPQQLDFQNFKYKYTIDPAEAKKLEQEKKQAFPDVDYAVVEYPLTLLQKGIEIVDSPGLNDTEARNELSLGYVNNCHAILFVMRASQPCTLGERRYLENYIKGRGLTVFFLVNAWDQVRESLIDPDDVEELQASENRLRQVFNANLAEYCTVEGQNIYDERVFELSSIQALRRRLKNPQADLDGTGFPKFMDSLNTFLTRERAIAELRQVRTLARLACNHTREAVARRIPLLEQDVNELKKRIDSVEPEFNKLTGIRDEFQKEIINTRDTQARTISESFRSYVLNLGNTFENDFLRYQPELNLFDFLSSGKREAFNAALQKAFEQYITDKSAAWTLTAEKDINAAFKELSRSASQYGASYNQITDQITEKLTGKDVEDNSPGWAKWAMGLLSLSKGNLAGFALAGAGFDWKNILLNYFTVIGIGGIITAVTGILLGPIGFALLGLGVGFLQADQARRELVKTAKKELVKHLPQVAHEQSQVVYNAVKECFDSYEREVSKRINDDIVSRKSELDNLVKQKQTREINRESEFNRLKNLQEDVIAQLQKIEAAYSNLLAYYSHH 2w7h-a1-m1-cA_2w7h-a1-m2-cA Crystal structure of Y51FbsSHMT obtained in the presence of Gly and 5- Formyl Tetrahydrofolate Q7SIB6 Q7SIB6 1.67 X-RAY DIFFRACTION 255 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 405 405 1kkj-a1-m1-cA_1kkj-a1-m2-cA 1kkp-a1-m1-cA_1kkp-a1-m2-cA 1kl1-a1-m1-cA_1kl1-a1-m2-cA 1kl2-a1-m1-cA_1kl2-a1-m1-cB 1yjs-a1-m1-cA_1yjs-a1-m2-cA 1yjy-a1-m1-cA_1yjy-a1-m2-cA 1yjz-a1-m1-cA_1yjz-a1-m2-cA 2vgs-a1-m1-cA_2vgs-a1-m2-cA 2vgt-a1-m1-cA_2vgt-a1-m2-cA 2vgu-a1-m1-cA_2vgu-a1-m2-cA 2vgv-a1-m1-cA_2vgv-a1-m2-cA 2vgw-a1-m1-cA_2vgw-a1-m2-cA 2vi8-a1-m1-cA_2vi8-a1-m2-cA 2vi9-a1-m1-cA_2vi9-a1-m2-cA 2via-a1-m1-cA_2via-a1-m2-cA 2vib-a1-m1-cA_2vib-a1-m2-cA 2vmn-a1-m1-cA_2vmn-a1-m2-cA 2vmo-a1-m1-cA_2vmo-a1-m2-cA 2vmp-a1-m1-cA_2vmp-a1-m2-cA 2vmq-a1-m1-cA_2vmq-a1-m2-cA 2vmr-a1-m1-cA_2vmr-a1-m2-cA 2vms-a1-m1-cA_2vms-a1-m2-cA 2vmt-a1-m1-cA_2vmt-a1-m2-cA 2vmu-a1-m1-cA_2vmu-a1-m2-cA 2vmv-a1-m1-cA_2vmv-a1-m2-cA 2vmw-a1-m1-cA_2vmw-a1-m2-cA 2vmx-a1-m1-cA_2vmx-a1-m2-cA 2vmy-a1-m1-cA_2vmy-a1-m1-cB 2vmz-a1-m1-cA_2vmz-a1-m2-cA 2w7d-a1-m1-cA_2w7d-a1-m2-cA 2w7e-a1-m1-cA_2w7e-a1-m2-cA 2w7f-a1-m1-cA_2w7f-a1-m2-cA 2w7g-a1-m1-cA_2w7g-a1-m2-cA 2w7i-a1-m1-cA_2w7i-a1-m2-cA 2w7j-a1-m1-cA_2w7j-a1-m2-cA 2w7k-a1-m1-cA_2w7k-a1-m2-cA 2w7l-a1-m1-cA_2w7l-a1-m2-cA 2w7m-a1-m1-cA_2w7m-a1-m2-cA MKYLPQQDPQVFAAIEQERKRQHAKIELIASENFVSRAVMEAQGSVLTNKFAEGYPGRRYYGGCEYVDIVEELARERAKQLFGAEHANVQPHSGAQANMAVYFTVLEHGDTVLGMNLSHGGHLTHGSPVNFSGVQYNFVAYGVDPETHVIDYDDVREKARLHRPKLIVAAASAYPRIIDFAKFREIADEVGAYLMVDMAHIAGLVAAGLHPNPVPYAHFVTTTTHKTLRGPRGGMILCQEQFAKQIDKAIFPGIQGGPLMHVIAAKAVAFGEALQDDFKAYAKRVVDNAKRLASALQNEGFTLVSGGTDNHLLLVDLRPQQLTGKTAEKVLDEVGITVNKNTIPYDPESPFVTSGIRIGTAAVTTRGFGLEEMDEIAAIIGLVLKNVGSEQALEEARQRVAALTD MKYLPQQDPQVFAAIEQERKRQHAKIELIASENFVSRAVMEAQGSVLTNKFAEGYPGRRYYGGCEYVDIVEELARERAKQLFGAEHANVQPHSGAQANMAVYFTVLEHGDTVLGMNLSHGGHLTHGSPVNFSGVQYNFVAYGVDPETHVIDYDDVREKARLHRPKLIVAAASAYPRIIDFAKFREIADEVGAYLMVDMAHIAGLVAAGLHPNPVPYAHFVTTTTHKTLRGPRGGMILCQEQFAKQIDKAIFPGIQGGPLMHVIAAKAVAFGEALQDDFKAYAKRVVDNAKRLASALQNEGFTLVSGGTDNHLLLVDLRPQQLTGKTAEKVLDEVGITVNKNTIPYDPESPFVTSGIRIGTAAVTTRGFGLEEMDEIAAIIGLVLKNVGSEQALEEARQRVAALTD 2w7n-a1-m1-cA_2w7n-a1-m1-cB Crystal Structure of KorA Bound to Operator DNA: Insight into Repressor Cooperation in RP4 Gene Regulation P03052 P03052 1.85 X-RAY DIFFRACTION 77 0.989 562 (Escherichia coli) 562 (Escherichia coli) 94 95 5clv-a1-m1-cA_5clv-a1-m1-cB 5cm3-a1-m1-cB_5cm3-a1-m1-cA KKRLTESQFQEAIQGLEVGQQTIEIARGVLVDGKPQATFATSLGLTRGAVSQAVHRVWAAFEDKNLPEGYARVTAVLPEHQAYIVRKWEADAKK KRLTESQFQEAIQGLEVGQQTIEIARGVLVDGKPQATFATSLGLTRGAVSQAVHRVWAAFEDKNLPEGYARVTAVLPEHQAYIVRKWEADAKKKQ 2w7r-a1-m1-cA_2w7r-a1-m1-cB Structure of the PDZ domain of Human Microtubule associated serine- threonine kinase 4 O15021 O15021 1.6 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 QPIVIHSSKNYGFTIRAIRVYVGDSDIYTVHHIVWNVEEGSPACQAGLKAGDLITHINGEPVHGLVHTEVIELLLKSGNKVSITTTPFENTETSV QPIVIHSSKNYGFTIRAIRVYVGDSDIYTVHHIVWNVEEGSPACQAGLKAGDLITHINGEPVHGLVHTEVIELLLKSGNKVSITTTPFENTETSV 2w7v-a2-m1-cB_2w7v-a2-m3-cB periplasmic domain of EpsL from Vibrio parahaemolyticus Q87TC9 Q87TC9 2.3 X-RAY DIFFRACTION 52 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 80 80 2w7v-a1-m1-cA_2w7v-a1-m2-cA STDVALSWLAALPATLGQVKDLEITSFKYDGQRGEVRIHARSSDFQPFEQARVKLAEKFNVEQGQLNRSNVVGSFVLKRQ STDVALSWLAALPATLGQVKDLEITSFKYDGQRGEVRIHARSSDFQPFEQARVKLAEKFNVEQGQLNRSNVVGSFVLKRQ 2w7w-a1-m1-cA_2w7w-a1-m1-cB The crystal structure of iron superoxide dismutase from Aliivibrio salmonicida. B6ENP9 B6ENP9 1.7 X-RAY DIFFRACTION 50 1.0 316275 (Aliivibrio salmonicida LFI1238) 316275 (Aliivibrio salmonicida LFI1238) 193 193 SFELPALPFAKDALEPHISAETLDYHHGKHHNTYVVKLNGLIPGTEFEGKTLEEIIKTSTGGVFNNAAQIWNHTFYWNCLAPNAGGQPTGAVAAAIDAAFGSFEEFKAKFTDSAINNFGSSWTWLVKNADGSLAIVNTSNAATPLTDEGVTPLLTVDLWEHAYYIDFRNVRPDYMGAFWSLVNWSFVEENLAK SFELPALPFAKDALEPHISAETLDYHHGKHHNTYVVKLNGLIPGTEFEGKTLEEIIKTSTGGVFNNAAQIWNHTFYWNCLAPNAGGQPTGAVAAAIDAAFGSFEEFKAKFTDSAINNFGSSWTWLVKNADGSLAIVNTSNAATPLTDEGVTPLLTVDLWEHAYYIDFRNVRPDYMGAFWSLVNWSFVEENLAK 2w7z-a1-m1-cA_2w7z-a1-m1-cB Structure of the pentapeptide repeat protein EfsQnr, a DNA gyrase inhibitor. Free amines modified by cyclic pentylation with glutaraldehyde. Q837D8 Q837D8 1.6 X-RAY DIFFRACTION 66 0.99 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 200 202 MITYPLPEQLPLLTNCQLEDEAILENHLYQQIDLPNQEVRNLVFRDAVFDHLSLANGQFASFDCSNVRFEACDFSNVEWLSGSFHRVTFLRCNLTGTNFADSYLDCLFEDCADYASFRFANFNLVHFNQTRLVESEFFEVTWLLLEACDLTESNWLNTSLGLDFSQNTFERLTFSPNYLSGLVTPEQAIYLASALGLVIT TYPLPPNLPEQLPLLTNCQLEDEAILENHLYQQIDLPNQEVRNLVFRDAVFDHLSLANGQFASFDCSNVRFEACDFSNVEWLSGSFHRVTFLRCNLTGTNFADSYLDCLFEDCADYASFRFANFNLVHFNQTRLVESEFFEVTWLLLEACDLTESNWLNTSLGLDFSQNTFERLTFSPNYLSGLVTPEQAIYLASALGLVIT 2w82-a2-m1-cD_2w82-a2-m1-cC The structure of ArdA Q47730 Q47730 2.8 X-RAY DIFFRACTION 34 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 162 163 2w82-a1-m1-cB_2w82-a1-m1-cA 7bto-a1-m1-cD_7bto-a1-m1-cE 7btr-a1-m1-cB_7btr-a1-m1-cF DMQVYIANLGKYNEGELVGAWFTFPIDFEEVKEKIGLNDEYEEYAIHDYELPFTVDEYTSIGELNRLWEMVSELPEELQSELSALLTHFSSIEELSEHQEDIIIHSDCDDMYDVARYYIEETGALGEVPASLQNYIDYQAYGRDLDLSGTFISTNHGIFEIV DMQVYIANLGKYNEGELVGAWFTFPIDFEEVKEKIGLNDEYEEYAIHDYELPFTVDEYTSIGELNRLWEMVSELPEELQSELSALLTHFSSIEELSEHQEDIIIHSDCDDMYDVARYYIEETGALGEVPASLQNYIDYQAYGRDLDLSGTFISTNHGIFEIVY 2w83-a1-m1-cA_2w83-a1-m1-cE Crystal structure of the ARF6 GTPase in complex with a specific effector, JIP4 P62330 P62330 1.93 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 162 MEMRILMLGLDAAGKTTILYKLKLGQSVTTIPTVGFNVETVTYKNVKFNVWDVGGLDKIRPLWRHYYTGTQGLIFVVDCADRDRIDEARQELHRIINDREMRDAIILIFANKQDLPDAMKPHEIQEKLGLTRIRDRNWYVQPSCATSGDGLYEGLTWLTSN AMEMRILMLGLDAAGKTTILYKLKLGQSVTTIPTVGFNVETVTYKNVKFNVWDVGGLDKIRPLWRHYYTGTQGLIFVVDCADRDRIDEARQELHRIINDREMRDAIILIFANKQDLPDAMKPHEIQEKLGLTRIRDRNWYVQPSCATSGDGLYEGLTWLTSN 2w83-a1-m1-cD_2w83-a1-m1-cC Crystal structure of the ARF6 GTPase in complex with a specific effector, JIP4 O60271 O60271 1.93 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 67 FMGREVENLILENTQLLETKNALNIVKNDLIAKVDELTCEKDVLQGELEAVKQAKLKLEEKN AMDPEFMGREVENLILENTQLLETKNALNIVKNDLIAKVDELTCEKDVLQGELEAVKQAKLKLEEKN 2w8c-a3-m1-cA_2w8c-a3-m8-cB Plastocyanin variant with N-terminal Methionine - closed structure Q51883 Q51883 1.8 X-RAY DIFFRACTION 17 1.0 32059 (Phormidium laminosum) 32059 (Phormidium laminosum) 106 106 2w88-a1-m1-cA_2w88-a1-m2-cB 2w88-a1-m1-cB_2w88-a1-m2-cA 2w88-a1-m1-cC_2w88-a1-m2-cC 2w8c-a3-m2-cA_2w8c-a3-m6-cB 2w8c-a3-m3-cA_2w8c-a3-m7-cB METFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG METFTVKMGADSGLLQFEPANVTVHPGDTVKWVNNKLPPHNILFDDKQVPGASKELADKLSHSQLMFSPGESYEITFSSDFPAGTYTYYCAPHRGAGMVGKITVEG 2w8h-a1-m1-cB_2w8h-a1-m1-cH Crystal structure of spin labeled Wza24-345. Q9X4B7 Q9X4B7 2.76 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 322 322 2j58-a1-m1-cA_2j58-a1-m1-cE 2j58-a1-m1-cA_2j58-a1-m1-cG 2j58-a1-m1-cB_2j58-a1-m1-cD 2j58-a1-m1-cB_2j58-a1-m1-cH 2j58-a1-m1-cC_2j58-a1-m1-cE 2j58-a1-m1-cC_2j58-a1-m1-cG 2j58-a1-m1-cD_2j58-a1-m1-cF 2j58-a1-m1-cF_2j58-a1-m1-cH 2w8h-a1-m1-cA_2w8h-a1-m1-cD 2w8h-a1-m1-cA_2w8h-a1-m1-cH 2w8h-a1-m1-cB_2w8h-a1-m1-cD 2w8h-a1-m1-cC_2w8h-a1-m1-cE 2w8h-a1-m1-cC_2w8h-a1-m1-cG 2w8h-a1-m1-cE_2w8h-a1-m1-cF 2w8h-a1-m1-cF_2w8h-a1-m1-cG 2w8i-a1-m1-cA_2w8i-a1-m1-cE 2w8i-a1-m1-cA_2w8i-a1-m1-cG 2w8i-a1-m1-cB_2w8i-a1-m1-cD 2w8i-a1-m1-cB_2w8i-a1-m1-cH 2w8i-a1-m1-cC_2w8i-a1-m1-cE 2w8i-a1-m1-cC_2w8i-a1-m1-cG 2w8i-a1-m1-cD_2w8i-a1-m1-cF 2w8i-a1-m1-cF_2w8i-a1-m1-cH IPGQGLNSLRKNVVELPDSDYDLDKLVNVYPMTPGLIDQLRPEPVIARSNPQLDNLLKSYEYRIGVGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNSDGTIFYPYIGKVQVAGKTVSQVRQDITSRLTTYIESPQVDVSIAAFRSQKVYVTGEVANSGKQAITNIPLTVMDAINAAGGLAADADWRNVVLTHNGKDTKISLYALMQKGDLTQNHLLYHGDILFIPSNDDLKVFVMGEVGKQSTLKMDRSGMTLAEALGNAEGISQEMSDATGIFVVRQLKGDRTGKIADIYQLNAQDASAMVLGTEFQLCPYDIVYVTTA IPGQGLNSLRKNVVELPDSDYDLDKLVNVYPMTPGLIDQLRPEPVIARSNPQLDNLLKSYEYRIGVGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNSDGTIFYPYIGKVQVAGKTVSQVRQDITSRLTTYIESPQVDVSIAAFRSQKVYVTGEVANSGKQAITNIPLTVMDAINAAGGLAADADWRNVVLTHNGKDTKISLYALMQKGDLTQNHLLYHGDILFIPSNDDLKVFVMGEVGKQSTLKMDRSGMTLAEALGNAEGISQEMSDATGIFVVRQLKGDRTGKIADIYQLNAQDASAMVLGTEFQLCPYDIVYVTTA 2w8h-a1-m1-cG_2w8h-a1-m1-cH Crystal structure of spin labeled Wza24-345. Q9X4B7 Q9X4B7 2.76 X-RAY DIFFRACTION 231 1.0 562 (Escherichia coli) 562 (Escherichia coli) 322 322 2j58-a1-m1-cA_2j58-a1-m1-cB 2j58-a1-m1-cA_2j58-a1-m1-cD 2j58-a1-m1-cB_2j58-a1-m1-cG 2j58-a1-m1-cC_2j58-a1-m1-cF 2j58-a1-m1-cC_2j58-a1-m1-cH 2j58-a1-m1-cD_2j58-a1-m1-cE 2j58-a1-m1-cE_2j58-a1-m1-cF 2j58-a1-m1-cG_2j58-a1-m1-cH 2w8h-a1-m1-cA_2w8h-a1-m1-cC 2w8h-a1-m1-cA_2w8h-a1-m1-cG 2w8h-a1-m1-cB_2w8h-a1-m1-cE 2w8h-a1-m1-cB_2w8h-a1-m1-cF 2w8h-a1-m1-cC_2w8h-a1-m1-cD 2w8h-a1-m1-cD_2w8h-a1-m1-cE 2w8h-a1-m1-cF_2w8h-a1-m1-cH 2w8i-a1-m1-cA_2w8i-a1-m1-cB 2w8i-a1-m1-cA_2w8i-a1-m1-cD 2w8i-a1-m1-cB_2w8i-a1-m1-cG 2w8i-a1-m1-cC_2w8i-a1-m1-cF 2w8i-a1-m1-cC_2w8i-a1-m1-cH 2w8i-a1-m1-cD_2w8i-a1-m1-cE 2w8i-a1-m1-cE_2w8i-a1-m1-cF 2w8i-a1-m1-cG_2w8i-a1-m1-cH IPGQGLNSLRKNVVELPDSDYDLDKLVNVYPMTPGLIDQLRPEPVIARSNPQLDNLLKSYEYRIGVGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNSDGTIFYPYIGKVQVAGKTVSQVRQDITSRLTTYIESPQVDVSIAAFRSQKVYVTGEVANSGKQAITNIPLTVMDAINAAGGLAADADWRNVVLTHNGKDTKISLYALMQKGDLTQNHLLYHGDILFIPSNDDLKVFVMGEVGKQSTLKMDRSGMTLAEALGNAEGISQEMSDATGIFVVRQLKGDRTGKIADIYQLNAQDASAMVLGTEFQLCPYDIVYVTTA IPGQGLNSLRKNVVELPDSDYDLDKLVNVYPMTPGLIDQLRPEPVIARSNPQLDNLLKSYEYRIGVGDVLMVTVWDHPELTTPAGQYRSASDTGNWVNSDGTIFYPYIGKVQVAGKTVSQVRQDITSRLTTYIESPQVDVSIAAFRSQKVYVTGEVANSGKQAITNIPLTVMDAINAAGGLAADADWRNVVLTHNGKDTKISLYALMQKGDLTQNHLLYHGDILFIPSNDDLKVFVMGEVGKQSTLKMDRSGMTLAEALGNAEGISQEMSDATGIFVVRQLKGDRTGKIADIYQLNAQDASAMVLGTEFQLCPYDIVYVTTA 2w8p-a1-m7-cA_2w8p-a1-m9-cA The crystal structure of human C340A SSADH P51649 P51649 2.3 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 485 485 2w8o-a1-m10-cA_2w8o-a1-m11-cA 2w8o-a1-m10-cA_2w8o-a1-m6-cA 2w8o-a1-m11-cA_2w8o-a1-m6-cA 2w8o-a1-m12-cA_2w8o-a1-m4-cA 2w8o-a1-m12-cA_2w8o-a1-m8-cA 2w8o-a1-m1-cA_2w8o-a1-m3-cA 2w8o-a1-m1-cA_2w8o-a1-m5-cA 2w8o-a1-m2-cA_2w8o-a1-m7-cA 2w8o-a1-m2-cA_2w8o-a1-m9-cA 2w8o-a1-m3-cA_2w8o-a1-m5-cA 2w8o-a1-m4-cA_2w8o-a1-m8-cA 2w8o-a1-m7-cA_2w8o-a1-m9-cA 2w8p-a1-m10-cA_2w8p-a1-m11-cA 2w8p-a1-m10-cA_2w8p-a1-m6-cA 2w8p-a1-m11-cA_2w8p-a1-m6-cA 2w8p-a1-m12-cA_2w8p-a1-m4-cA 2w8p-a1-m12-cA_2w8p-a1-m8-cA 2w8p-a1-m1-cA_2w8p-a1-m3-cA 2w8p-a1-m1-cA_2w8p-a1-m5-cA 2w8p-a1-m2-cA_2w8p-a1-m7-cA 2w8p-a1-m2-cA_2w8p-a1-m9-cA 2w8p-a1-m3-cA_2w8p-a1-m5-cA 2w8p-a1-m4-cA_2w8p-a1-m8-cA 2w8q-a1-m10-cA_2w8q-a1-m11-cA 2w8q-a1-m10-cA_2w8q-a1-m6-cA 2w8q-a1-m11-cA_2w8q-a1-m6-cA 2w8q-a1-m12-cA_2w8q-a1-m4-cA 2w8q-a1-m12-cA_2w8q-a1-m8-cA 2w8q-a1-m1-cA_2w8q-a1-m3-cA 2w8q-a1-m1-cA_2w8q-a1-m5-cA 2w8q-a1-m2-cA_2w8q-a1-m7-cA 2w8q-a1-m2-cA_2w8q-a1-m9-cA 2w8q-a1-m3-cA_2w8q-a1-m5-cA 2w8q-a1-m4-cA_2w8q-a1-m8-cA 2w8q-a1-m7-cA_2w8q-a1-m9-cA 2w8r-a1-m10-cA_2w8r-a1-m11-cA 2w8r-a1-m10-cA_2w8r-a1-m6-cA 2w8r-a1-m11-cA_2w8r-a1-m6-cA 2w8r-a1-m12-cA_2w8r-a1-m4-cA 2w8r-a1-m12-cA_2w8r-a1-m8-cA 2w8r-a1-m1-cA_2w8r-a1-m3-cA 2w8r-a1-m1-cA_2w8r-a1-m5-cA 2w8r-a1-m2-cA_2w8r-a1-m7-cA 2w8r-a1-m2-cA_2w8r-a1-m9-cA 2w8r-a1-m3-cA_2w8r-a1-m5-cA 2w8r-a1-m4-cA_2w8r-a1-m8-cA 2w8r-a1-m7-cA_2w8r-a1-m9-cA LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL 2w8p-a2-m13-cA_2w8p-a2-m2-cA The crystal structure of human C340A SSADH P51649 P51649 2.3 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 485 485 2w8n-a1-m1-cA_2w8n-a1-m2-cA 2w8n-a1-m3-cA_2w8n-a1-m4-cA 2w8o-a2-m13-cA_2w8o-a2-m2-cA 2w8o-a2-m1-cA_2w8o-a2-m14-cA 2w8p-a2-m1-cA_2w8p-a2-m14-cA 2w8q-a2-m13-cA_2w8q-a2-m2-cA 2w8q-a2-m1-cA_2w8q-a2-m14-cA 2w8r-a2-m13-cA_2w8r-a2-m2-cA 2w8r-a2-m1-cA_2w8r-a2-m14-cA LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL 2w8p-a2-m14-cA_2w8p-a2-m2-cA The crystal structure of human C340A SSADH P51649 P51649 2.3 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 485 485 2w8n-a1-m1-cA_2w8n-a1-m4-cA 2w8n-a1-m2-cA_2w8n-a1-m3-cA 2w8o-a2-m14-cA_2w8o-a2-m2-cA 2w8o-a2-m1-cA_2w8o-a2-m13-cA 2w8p-a2-m1-cA_2w8p-a2-m13-cA 2w8q-a2-m14-cA_2w8q-a2-m2-cA 2w8q-a2-m1-cA_2w8q-a2-m13-cA 2w8r-a2-m14-cA_2w8r-a2-m2-cA 2w8r-a2-m1-cA_2w8r-a2-m13-cA LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL 2w8p-a3-m1-cA_2w8p-a3-m2-cA The crystal structure of human C340A SSADH P51649 P51649 2.3 X-RAY DIFFRACTION 181 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 485 485 2w8n-a1-m1-cA_2w8n-a1-m3-cA 2w8n-a1-m2-cA_2w8n-a1-m4-cA 2w8o-a1-m10-cA_2w8o-a1-m9-cA 2w8o-a1-m11-cA_2w8o-a1-m12-cA 2w8o-a1-m1-cA_2w8o-a1-m2-cA 2w8o-a1-m3-cA_2w8o-a1-m4-cA 2w8o-a1-m5-cA_2w8o-a1-m6-cA 2w8o-a1-m7-cA_2w8o-a1-m8-cA 2w8o-a2-m13-cA_2w8o-a2-m14-cA 2w8o-a2-m1-cA_2w8o-a2-m2-cA 2w8o-a3-m1-cA_2w8o-a3-m2-cA 2w8p-a1-m10-cA_2w8p-a1-m9-cA 2w8p-a1-m11-cA_2w8p-a1-m12-cA 2w8p-a1-m1-cA_2w8p-a1-m2-cA 2w8p-a1-m3-cA_2w8p-a1-m4-cA 2w8p-a1-m5-cA_2w8p-a1-m6-cA 2w8p-a1-m7-cA_2w8p-a1-m8-cA 2w8p-a2-m13-cA_2w8p-a2-m14-cA 2w8p-a2-m1-cA_2w8p-a2-m2-cA 2w8q-a1-m10-cA_2w8q-a1-m9-cA 2w8q-a1-m11-cA_2w8q-a1-m12-cA 2w8q-a1-m1-cA_2w8q-a1-m2-cA 2w8q-a1-m3-cA_2w8q-a1-m4-cA 2w8q-a1-m5-cA_2w8q-a1-m6-cA 2w8q-a1-m7-cA_2w8q-a1-m8-cA 2w8q-a2-m13-cA_2w8q-a2-m14-cA 2w8q-a2-m1-cA_2w8q-a2-m2-cA 2w8q-a3-m1-cA_2w8q-a3-m2-cA 2w8r-a1-m10-cA_2w8r-a1-m9-cA 2w8r-a1-m11-cA_2w8r-a1-m12-cA 2w8r-a1-m1-cA_2w8r-a1-m2-cA 2w8r-a1-m3-cA_2w8r-a1-m4-cA 2w8r-a1-m5-cA_2w8r-a1-m6-cA 2w8r-a1-m7-cA_2w8r-a1-m8-cA 2w8r-a2-m13-cA_2w8r-a2-m14-cA 2w8r-a2-m1-cA_2w8r-a2-m2-cA 2w8r-a3-m1-cA_2w8r-a3-m2-cA LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL LAGLSAALLRTDSFVGGRWLPAAATFPVQDPASGAALGMVADCGVREARAAVRAAYEAFCRWREVSAKERSSLLRKWYNLMIQNKDDLARIITAESGKPLKEAHGEILYSAFFLEWFSEEARRVYGDIIHTPAKDRRALVLKQPIGVAAVITPWNFPSAMITRKVGAALAAGCTVVVKPAEDTPFSALALAELASQAGIPSGVYNVIPCSRKNAKEVGEAICTDPLVSKISFTGSTTTGKILLHHAANSVKRVSMELGGLAPFIVFDSANVDQAVAGAMASKFRNTGQTAVCSNQFLVQRGIHDAFVKAFAEAMKKNLRVGNGFEEGTTQGPLINEKAVEKVEKQVNDAVSKGATVVTGGKRHQLGKNFFEPTLLCNVTQDMLCTHEETFGPLAPVIKFDTEEEAIAIANAADVGLAGYFYSQDPAQIWRVAEQLEVGMVGVNEGLISSVECPFGGVKQSGLGREGSKYGIDEYLELKYVCYGGL 2w8s-a1-m1-cB_2w8s-a1-m1-cD CRYSTAL STRUCTURE OF A catalytically promiscuous PHOSPHONATE MONOESTER HYDROLASE FROM Burkholderia caryophylli Q45087 Q45087 2.4 X-RAY DIFFRACTION 90 1.0 28094 (Trinickia caryophylli) 28094 (Trinickia caryophylli) 512 512 2w8s-a1-m1-cA_2w8s-a1-m1-cC TRKNVLLIVVDQWRADFIPHLMRAEGREPFLKTPNLDRLCREGLTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRAIGYDPALIGYTTTTPDPRTTSARDPRFTVLGDIMDGFRSVGAFEPNMEGYFGWVAQNGFELPENREDIWLPEGEHSVPGATDKPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYKAEDMPAPIRAENPDAEAAQHPLMKHYIDHIRRGSFFHGAEGSGATLDEGEIRQMRATYCGLITEIDDCLGRVFAYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNAESFRIPLVIKDAGQNRHAGQIEEGFSESIDVMPTILEWLGGETPRACDGRSLLPFLAEGKPSDWRTELHYEFDFRDVFYDQPQNSVQLSQDDCSLCVIEDENYKYVHFAALPPLFFDLKADPHEFSNLAGDPAYAALVRDYAQKALSWRLSHADRTLTHYRSSPQGLTTRNH TRKNVLLIVVDQWRADFIPHLMRAEGREPFLKTPNLDRLCREGLTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRAIGYDPALIGYTTTTPDPRTTSARDPRFTVLGDIMDGFRSVGAFEPNMEGYFGWVAQNGFELPENREDIWLPEGEHSVPGATDKPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYKAEDMPAPIRAENPDAEAAQHPLMKHYIDHIRRGSFFHGAEGSGATLDEGEIRQMRATYCGLITEIDDCLGRVFAYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNAESFRIPLVIKDAGQNRHAGQIEEGFSESIDVMPTILEWLGGETPRACDGRSLLPFLAEGKPSDWRTELHYEFDFRDVFYDQPQNSVQLSQDDCSLCVIEDENYKYVHFAALPPLFFDLKADPHEFSNLAGDPAYAALVRDYAQKALSWRLSHADRTLTHYRSSPQGLTTRNH 2w8s-a1-m1-cC_2w8s-a1-m1-cD CRYSTAL STRUCTURE OF A catalytically promiscuous PHOSPHONATE MONOESTER HYDROLASE FROM Burkholderia caryophylli Q45087 Q45087 2.4 X-RAY DIFFRACTION 200 1.0 28094 (Trinickia caryophylli) 28094 (Trinickia caryophylli) 512 512 2w8s-a1-m1-cA_2w8s-a1-m1-cB TRKNVLLIVVDQWRADFIPHLMRAEGREPFLKTPNLDRLCREGLTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRAIGYDPALIGYTTTTPDPRTTSARDPRFTVLGDIMDGFRSVGAFEPNMEGYFGWVAQNGFELPENREDIWLPEGEHSVPGATDKPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYKAEDMPAPIRAENPDAEAAQHPLMKHYIDHIRRGSFFHGAEGSGATLDEGEIRQMRATYCGLITEIDDCLGRVFAYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNAESFRIPLVIKDAGQNRHAGQIEEGFSESIDVMPTILEWLGGETPRACDGRSLLPFLAEGKPSDWRTELHYEFDFRDVFYDQPQNSVQLSQDDCSLCVIEDENYKYVHFAALPPLFFDLKADPHEFSNLAGDPAYAALVRDYAQKALSWRLSHADRTLTHYRSSPQGLTTRNH TRKNVLLIVVDQWRADFIPHLMRAEGREPFLKTPNLDRLCREGLTFRNHVTTCVPGPARASLLTGLYLMNHRAVQNTVPLDQRHLNLGKALRAIGYDPALIGYTTTTPDPRTTSARDPRFTVLGDIMDGFRSVGAFEPNMEGYFGWVAQNGFELPENREDIWLPEGEHSVPGATDKPSRIPKEFSDSTFFTERALTYLKGRDGKPFFLHLGYYRPHPPFVASAPYHAMYKAEDMPAPIRAENPDAEAAQHPLMKHYIDHIRRGSFFHGAEGSGATLDEGEIRQMRATYCGLITEIDDCLGRVFAYLDETGQWDDTLIIFTSDHGEQLGDHHLLGKIGYNAESFRIPLVIKDAGQNRHAGQIEEGFSESIDVMPTILEWLGGETPRACDGRSLLPFLAEGKPSDWRTELHYEFDFRDVFYDQPQNSVQLSQDDCSLCVIEDENYKYVHFAALPPLFFDLKADPHEFSNLAGDPAYAALVRDYAQKALSWRLSHADRTLTHYRSSPQGLTTRNH 2w8x-a1-m1-cB_2w8x-a1-m1-cA Structure of the tick ion-channel modulator Ra-KLP 1.6 X-RAY DIFFRACTION 68 1.0 34631 (Rhipicephalus appendiculatus) 34631 (Rhipicephalus appendiculatus) 66 72 FNCNKREGPCSQRSLCECDPNLQLGRHSDQLWHYNLRTNRCERGGYRDNCNSHSSSGACVMACERI FNCNKREGPCSQRSLCECDPNLQLGRHSDQLWHYNLRTNRCERGGYRDNCNSHSSSGACVMACERIHHHHHH 2w90-a1-m1-cA_2w90-a1-m1-cB Geobacillus stearothermophilus 6-phosphogluconate dehydrogenase with bound 6- phosphogluconate 2.2 X-RAY DIFFRACTION 383 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 470 471 2w8z-a1-m1-cB_2w8z-a1-m1-cA HMAKHQIGVIGLAVMGKNLALNIESKGYSVAVYNRLREKTDEFLQEAKGKNIVGTYSIEEFVNALEKPRKILLMVKAGAPTDATIEQLKPHLEKGDIVIDGGNTYFKDTQRRNKELAELGIHFIGTGVSGGEEGALKGPSIMPGGQKEAHELVRPIFEAIAAKVDGEPCTTYIGPDGAGHYVKMVHNGIEYGDMQLIAEAYFLLKHVLGMDAAELHEVFADWNKGELNSYLIEITADIFTKIDEETGKPLVDVILDKAGQKGTGKWTSQNALDLGVPLPIITESVFARFLSAMKDERVKASKVLAGPAVKPFEGDRAHFIEAVRRALYMSKICSYAQGFAQMKAASEEYNWNLRYGDIAMIFRGGCIIRAQFLQKIKEAYDRDPALSNLLLDSYFKDIVERYQDALREIVATAAMRGIPVPGSASALAYYDSYRTAVLPANLIQAQRDYFGAHTYERVDKEGIFHTEWLK GHMAKHQIGVIGLAVMGKNLALNIESKGYSVAVYNRLREKTDEFLQEAKGKNIVGTYSIEEFVNALEKPRKILLMVKAGAPTDATIEQLKPHLEKGDIVIDGGNTYFKDTQRRNKELAELGIHFIGTGVSGGEEGALKGPSIMPGGQKEAHELVRPIFEAIAAKVDGEPCTTYIGPDGAGHYVKMVHNGIEYGDMQLIAEAYFLLKHVLGMDAAELHEVFADWNKGELNSYLIEITADIFTKIDEETGKPLVDVILDKAGQKGTGKWTSQNALDLGVPLPIITESVFARFLSAMKDERVKASKVLAGPAVKPFEGDRAHFIEAVRRALYMSKICSYAQGFAQMKAASEEYNWNLRYGDIAMIFRGGCIIRAQFLQKIKEAYDRDPALSNLLLDSYFKDIVERYQDALREIVATAAMRGIPVPGSASALAYYDSYRTAVLPANLIQAQRDYFGAHTYERVDKEGIFHTEWLK 2w93-a2-m1-cC_2w93-a2-m1-cD Crystal structure of the Saccharomyces cerevisiae pyruvate decarboxylase variant E477Q in complex with the surrogate pyruvamide P06169 P06169 1.6 X-RAY DIFFRACTION 261 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 557 562 1pvd-a1-m1-cA_1pvd-a1-m1-cB 1pyd-a1-m1-cA_1pyd-a1-m1-cB 1qpb-a1-m1-cA_1qpb-a1-m1-cB 1qpb-a1-m2-cA_1qpb-a1-m2-cB 1qpb-a2-m1-cA_1qpb-a2-m1-cB 2vk1-a1-m1-cA_2vk1-a1-m1-cB 2vk1-a2-m1-cC_2vk1-a2-m1-cD 2vk8-a1-m1-cA_2vk8-a1-m1-cB 2vk8-a2-m1-cC_2vk8-a2-m1-cD 2w93-a1-m1-cA_2w93-a1-m1-cB SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISSQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILALVKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTNIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIQKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLTAA SEITLGKYLFERLKQVNVNTVFGLPGDFNLSLLDKIYEVEGMRWAGNANELNAAYAADGYARIKGMSCIITTFGVGELSALNGIAGSYAEHVGVLHVVGVPSISSQAKQLLLHHTLGNGDFTVFHRMSANISETTAMITDIATAPAEIDRCIRTTYVTQRPVYLGLPANLVDLNVPAKLLQTPIDMSLKPNDAESEKEVIDTILALVKDAKNPVILADACCSRHDVKAETKKLIDLTQFPAFVTPMGKGSIDEQHPRYGGVYVGTLSKPEVKEAVESADLILSVGALLSDFNTGSFSYSYKTKNIVEFHSDHMKIRNATFPGVQMKFVLQKLLTNIADAAKGYKPVAVPARTPANAAVPASTPLKQEWMWNQLGNFLQEGDVVIAETGTSAFGINQTTFPNNTYGISQVLWGSIGFTTGATLGAAFAAEEIDPKKRVILFIGDGSLQLTVQEISTMIRWGLKPYLFVLNNDGYTIQKLIHGPKAQYNEIQGWDHLSLLPTFGAKDYETHRVATTGEWDKLTQDKSFNDNSKIRMIEVMLPVFDAPQNLVEQAKLTAATNAKQ 2w97-a1-m1-cB_2w97-a1-m1-cA Crystal Structure of eIF4E Bound to Glycerol and eIF4G1 peptide P06730 P06730 2.29 X-RAY DIFFRACTION 29 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 177 187 NPEHYIKHPLQNRWALWFFKKNLRLISKFDTVEDFWALYNHIQLSSNLMPGCDYSLFKDGIEPMWEDEKNKRGGRWLITLNKQQRRSDLDRFWLETLLCLIGESFDDYSDDVCGAVVNVRAKGDKIAIWTTECENREAVTHIGRVYKERLGLPPKIVIGYQSHADTATKTTKNRFVV PEHYIKHPLQNRWALWFFKNDKSKTWQANLRLISKFDTVEDFWALYNHIQLSSNLMPGCDYSLFKDGIEPMWEDEKNKRGGRWLITLNKQQRRSDLDRFWLETLLCLIGESFDDYSDDVCGAVVNVRAKGDKIAIWTTECENREAVTHIGRVYKERLGLPPKIVIGYQSHADTATKSGSTTKNRFVV 2w9x-a1-m1-cA_2w9x-a1-m1-cB The active site of a carbohydrate esterase displays divergent catalytic and non-catalytic binding functions B3PDE5 B3PDE5 2 X-RAY DIFFRACTION 84 1.0 155077 (Cellvibrio japonicus) 155077 (Cellvibrio japonicus) 312 329 PLPLHIGGRVLVESPQPVSYTYSWPAVYFETAFGQSLTLKFDDDQNIFRLIVKAPVVINKPGKVDYPRVRLEKLTETQSTSGRFLGFALPKRKRQIEFIGDSFTVGYGNTSPSRECTDEELFKTTNSQMAFGPLTAKAFDADYQINASSGFGIVRNYNGTSPDKSLLSLYPYTLNNPDQLYHNKHWKPQVIVIGLGTNDFSTALNDNERWKTREALHADYVANYVKFVKQLHSNNARAQFILMNSDQSNGEIAEQVGKVVAQLKGGGLHQVEQIVFKGLDYSGCHWHPSANDDQLLANLLITHLQQKKGIWL KPLPLHIGGRVLVESPANQPVSYTYSWPAVYFETAFKGQSLTLKFDDDQNIFRLIVDDKAPVVINKPGKVDYPVHRVRLEKLTETQSTSGRFLGFYTDPSAKPLALPKRKRQIEFIGDSFTVGYGNTSPSRECTDEELFKTTNSQMAFGPLTAKAFDADYQINASSGFGIVRNYNGTSPDKSLLSLYPYTLNNPDQLYHNKHWKPQVIVIGLGTNDFSTALNDNERWKTREALHADYVANYVKFVKQLHSNNARAQFILMNSDQSNGEIAEQVGKVVAQLKGGGLHQVEQIVFKGLDYSGCHWHPSANDDQLLANLLITHLQQKKGIWL 2wag-a1-m1-cA_2wag-a1-m2-cA The Structure of a family 25 Glycosyl hydrolase from Bacillus anthracis. A0A6L7H2K3 A0A6L7H2K3 1.4 X-RAY DIFFRACTION 79 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 217 217 GSSHHHHHHMDRYEIKGVDVASYQGDIDWRELEKQNMKFAFIKATEGSAFVDKYFSKNWTNANKTSMRVGAYHFFSFDSKGETQAEQFIRNVPKYKQALPPVIDVEFYANKKDNPPKREDVTKELSVMIEMLEKHYGKKVILYATQEAYDLYIKDAYPQCDIWIRSVLTKPSLSDERKWTFWQYTNRGKLSGYNGKEKYIDLNVFYGNEEEFENYGM GSSHHHHHHMDRYEIKGVDVASYQGDIDWRELEKQNMKFAFIKATEGSAFVDKYFSKNWTNANKTSMRVGAYHFFSFDSKGETQAEQFIRNVPKYKQALPPVIDVEFYANKKDNPPKREDVTKELSVMIEMLEKHYGKKVILYATQEAYDLYIKDAYPQCDIWIRSVLTKPSLSDERKWTFWQYTNRGKLSGYNGKEKYIDLNVFYGNEEEFENYGM 2wam-a1-m2-cB_2wam-a1-m1-cA Crystal structure of Mycobacterium tuberculosis unknown function protein Rv2714 O07213 O07213 2.6 X-RAY DIFFRACTION 58 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 287 294 2wam-a1-m1-cB_2wam-a1-m2-cA 2wam-a1-m1-cC_2wam-a1-m2-cC REYEPGQPGMYELEFPAPQLSSSDGRGPVLVHALEGFSDAGHAIRLAAAHLKAALDTELVASFAIDELLDYRSRRPLMTFKTDHFTHSDDPELSLYALRDSIGTPFLLLAGLEPDLKWERFITAVRLLAERLGVRQTIGLGTVPMAVPHTRPITMTAHSNNRELISDFQPSISEIQVPGSASNLLEYRMAQHGHEVVGFTVHVPHYLTQTDYPAAAQALLEQVAKTGSLQLPLAVLAEAAAEVQAKIDEQVQASAEVAQVVAALERQYDAFIDAGAEFERFLAQQAE AREYEPGQPGMYELEFPAPQLSSSDGRGPVLVHALEGFSDAGHAIRLAAAHLKAALDTELVASFAIDELLDYRSRRPLMTFKTDHFTHSDDPELSLYALRDSIGTPFLLLAGLEPDLKWERFITAVRLLAERLGVRQTIGLGTVPMAVPHTRPITMTAHSNNRELISDFQPSISEIQVPGSASNLLEYRMAQHGHEVVGFTVHVPHYLTQTDYPAAAQALLEQVAKTGSLQLPLAVLAEAAAEVQAKIDEQVQASAEVAQVVAALERQYDAFIDAQENRSLGAEFERFLAQQAE 2wam-a2-m1-cB_2wam-a2-m1-cA Crystal structure of Mycobacterium tuberculosis unknown function protein Rv2714 O07213 O07213 2.6 X-RAY DIFFRACTION 80 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 287 294 2wam-a1-m1-cB_2wam-a1-m1-cA 2wam-a1-m1-cC_2wam-a1-m1-cA 2wam-a1-m1-cC_2wam-a1-m1-cB 2wam-a1-m2-cB_2wam-a1-m2-cA 2wam-a1-m2-cC_2wam-a1-m2-cA 2wam-a1-m2-cC_2wam-a1-m2-cB 2wam-a2-m1-cC_2wam-a2-m1-cA 2wam-a2-m1-cC_2wam-a2-m1-cB REYEPGQPGMYELEFPAPQLSSSDGRGPVLVHALEGFSDAGHAIRLAAAHLKAALDTELVASFAIDELLDYRSRRPLMTFKTDHFTHSDDPELSLYALRDSIGTPFLLLAGLEPDLKWERFITAVRLLAERLGVRQTIGLGTVPMAVPHTRPITMTAHSNNRELISDFQPSISEIQVPGSASNLLEYRMAQHGHEVVGFTVHVPHYLTQTDYPAAAQALLEQVAKTGSLQLPLAVLAEAAAEVQAKIDEQVQASAEVAQVVAALERQYDAFIDAGAEFERFLAQQAE AREYEPGQPGMYELEFPAPQLSSSDGRGPVLVHALEGFSDAGHAIRLAAAHLKAALDTELVASFAIDELLDYRSRRPLMTFKTDHFTHSDDPELSLYALRDSIGTPFLLLAGLEPDLKWERFITAVRLLAERLGVRQTIGLGTVPMAVPHTRPITMTAHSNNRELISDFQPSISEIQVPGSASNLLEYRMAQHGHEVVGFTVHVPHYLTQTDYPAAAQALLEQVAKTGSLQLPLAVLAEAAAEVQAKIDEQVQASAEVAQVVAALERQYDAFIDAQENRSLGAEFERFLAQQAE 2wb6-a1-m1-cA_2wb6-a1-m2-cA Crystal structure of AFV1-102, a protein from the Acidianus Filamentous Virus 1 Q70LC3 Q70LC3 1.95 X-RAY DIFFRACTION 48 1.0 235266 (Captovirus AFV1) 235266 (Captovirus AFV1) 114 114 LESTSLYKKAGSENLYFQGIVDKNKIVIPMSEFLDSMFLVIEKLGVHAEKKGSMIFLSSERVKLADWKQLGAMCSDCYHCKLPLSSFIEIVTRKAKDKFLVMYNEKEVTLVARG LESTSLYKKAGSENLYFQGIVDKNKIVIPMSEFLDSMFLVIEKLGVHAEKKGSMIFLSSERVKLADWKQLGAMCSDCYHCKLPLSSFIEIVTRKAKDKFLVMYNEKEVTLVARG 2wbi-a1-m1-cA_2wbi-a1-m2-cB Crystal structure of human acyl-CoA dehydrogenase 11 Q709F0 Q709F0 2.8 X-RAY DIFFRACTION 94 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 394 398 2wbi-a1-m2-cA_2wbi-a1-m1-cB VQTRKGQEVLIKVKHFMKQHILPAEKEVTEKWGKPLVIDKLKEMAKVEGLWNLFLPAVSGLSHVDYALIAEETGKCFFAPDVFNCQAPDTGNMEVLHLYGSEEQKKQWLEPLLQGNITSCFCMTEPDVASSDATNIECSIQRDEDSYVINGKKWWSSGAGNPKCKIAIVLGRTQNTSLSRHKQHSMILVPMNTPGVKIIRPLSVFGYTDNFHGGHFEIHFNQVRVPATNLILGEGRGFEISQGRLGPGRIHHCMRTVGLAERALQIMCERATQRIAFKKKLYAHEVVAHWIAESRIAIEKIRLLTLKAAHSMDTLGSAGAKKEIAMIKVAAPRAVSKIVDWAIQVCGGAGVSQDYPLANMYAITRVLRLADGPDEVHLSAIATMELRDQAKRLT VQTRKGQEVLIKVKHFMKQHILPAEKEVTEFYVQNENSVDKWGKPLVIDKLKEMAKVEGLWNLFLPAVSGLSHVDYALIAEETGKCFFAPDVFNCQAPDTGNMEVLHLYGSEEQKKQWLEPLLQGNITSCFCMTEPDVASSDATNIECSIQRDEDSYVINGKKWWSSGAGNPKCKIAIVLGRTQNTSQHSMILVPMNTPGVKIIRPLSVFGYTDNFHGGHFEIHFNQVRVPATNLILGEGRGFEISQGRLGPGRIHHCMRTVGLAERALQIMCERATQRIAFKKKLYAHEVVAHWIAESRIAIEKIRLLTLKAAHSMDTLGSAGAKKEIAMIKVAAPRAVSKIVDWAIQVCGGAGVSQDYPLANMYAITRVLRLADGPDEVHLSAIATMELRDQAKRL 2wbi-a1-m2-cA_2wbi-a1-m2-cB Crystal structure of human acyl-CoA dehydrogenase 11 Q709F0 Q709F0 2.8 X-RAY DIFFRACTION 104 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 394 398 2wbi-a1-m1-cA_2wbi-a1-m1-cB VQTRKGQEVLIKVKHFMKQHILPAEKEVTEKWGKPLVIDKLKEMAKVEGLWNLFLPAVSGLSHVDYALIAEETGKCFFAPDVFNCQAPDTGNMEVLHLYGSEEQKKQWLEPLLQGNITSCFCMTEPDVASSDATNIECSIQRDEDSYVINGKKWWSSGAGNPKCKIAIVLGRTQNTSLSRHKQHSMILVPMNTPGVKIIRPLSVFGYTDNFHGGHFEIHFNQVRVPATNLILGEGRGFEISQGRLGPGRIHHCMRTVGLAERALQIMCERATQRIAFKKKLYAHEVVAHWIAESRIAIEKIRLLTLKAAHSMDTLGSAGAKKEIAMIKVAAPRAVSKIVDWAIQVCGGAGVSQDYPLANMYAITRVLRLADGPDEVHLSAIATMELRDQAKRLT VQTRKGQEVLIKVKHFMKQHILPAEKEVTEFYVQNENSVDKWGKPLVIDKLKEMAKVEGLWNLFLPAVSGLSHVDYALIAEETGKCFFAPDVFNCQAPDTGNMEVLHLYGSEEQKKQWLEPLLQGNITSCFCMTEPDVASSDATNIECSIQRDEDSYVINGKKWWSSGAGNPKCKIAIVLGRTQNTSQHSMILVPMNTPGVKIIRPLSVFGYTDNFHGGHFEIHFNQVRVPATNLILGEGRGFEISQGRLGPGRIHHCMRTVGLAERALQIMCERATQRIAFKKKLYAHEVVAHWIAESRIAIEKIRLLTLKAAHSMDTLGSAGAKKEIAMIKVAAPRAVSKIVDWAIQVCGGAGVSQDYPLANMYAITRVLRLADGPDEVHLSAIATMELRDQAKRL 2wbl-a1-m1-cB_2wbl-a1-m1-cA Three-dimensional structure of a binary ROP-PRONE complex Q9LV40 Q9LV40 2.9 X-RAY DIFFRACTION 110 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 328 329 2nty-a1-m1-cA_2nty-a1-m1-cB ADMEMMKDRFAKLLLGEDMSGGGKGVSSALALSNAITNLAASIFGEQTKLQPMPQDRQARWKKEIDWLLSVTDHIVEFVPSQQTSKDGVCTEIMVTRQRGDLLMNIPALRKLDAMLIDTLDNFRGHNEFWYVSRDSEEGQQARKWWLPPVKVPPGGLSEPSRRMLYFQKDSVTQVQKAAMAINAQVLSEMEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLAMLDMSTEHKVLDLKNRIEASVVIWKRKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVMSRIEDVLYTDTLALK DMEMMKDRFAKLLLGEDMSGGGKGVSSALALSNAITNLAASIFGEQTKLQPMPQDRQARWKKEIDWLLSVTDHIVEFVPSQQTSKDGVCTEIMVTRQRGDLLMNIPALRKLDAMLIDTLDNFRGHNEFWYVSRDSEEGQQDKWWLPPVKVPPGGLSEPSRRMLYFQKDSVTQVQKAAMAINAQVLSEMEIPESYIDSLPKNGRASLGDSIYKSITEEWFDPEQFLAMLDMSTEHKVLDLKNRIEASVVIWKRKRELFEERAETILVLLKQKFPGLPQSSLDISKIQFNKDVGQAVLESYSRILESLAYTVMSRIEDVLYTDTLALKQTL 2wbt-a1-m1-cB_2wbt-a1-m1-cA The Structure of a Double C2H2 Zinc Finger Protein from a Hyperthermophilic Archaeal Virus in the Absence of DNA P20201 P20201 2.7 X-RAY DIFFRACTION 153 1.0 244589 (Sulfolobus spindle-shaped virus 1) 244589 (Sulfolobus spindle-shaped virus 1) 111 125 KGIFIHVTLEELKRYHQLTPEQKRLIRAIVKTLIHNPQLLDESSYLYRLLASKAISQFVCPLCLMPFSSSVSLKQHIRYTEHTKVCPVCKKEFTSTDSALDHVCKKHNICV DVDSGSKKYLSNHKGIFIHVTLEELKRYHQLTPEQKRLIRAIVKTLIHNPQLLDESSYLYRLLASKAISQFVCPLCLMPFSSSVSLKQHIRYTEHTKVCPVCKKEFTSTDSALDHVCKKHNICVS 2wcb-a1-m1-cB_2wcb-a1-m1-cA S100A12 complex with zinc in the absence of calcium P80511 P80511 1.73 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 92 2wc8-a1-m1-cA_2wc8-a1-m1-cB 2wc8-a2-m1-cC_2wc8-a2-m1-cD STKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYHTHK STKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYHTHKE 2wcf-a3-m1-cF_2wcf-a3-m1-cE calcium-free (apo) S100A12 P80511 P80511 2.78 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 90 2wce-a1-m1-cA_2wce-a1-m1-cB 2wcf-a1-m1-cA_2wcf-a1-m1-cB STKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYHTH STKLEEHLEGIVNIFHQYSVRKGHFDTLSKGELKQLLTKELANTIKNIKDKAVIDEIFQGLDANQDEQVDFQEFISLVAIALKAAHYHTH 2wci-a1-m2-cB_2wci-a1-m1-cA Structure of E. coli monothiol glutaredoxin GRX4 homodimer P0AC69 P0AC69 1.9 X-RAY DIFFRACTION 18 0.991 562 (Escherichia coli) 562 (Escherichia coli) 112 113 2wci-a1-m1-cB_2wci-a1-m2-cA TTIEKIQRQIAENPILLYMKGSPKLPSCGFSAQAVQALAACGERFAYVDILQNPDIRAELPKYANWPTFPQLWVDGELVGGCDIVIEMYQRGELQQLIKETAAKYKSEEPDA MSTTIEKIQRQIAENPILLYMKGSPKLPSCGFSAQAVQALAACGERFAYVDILQNPDIRAELPKYANWPTFPQLWVDGELVGGCDIVIEMYQRGELQQLIKETAAKYKSEEPD 2wcr-a1-m1-cB_2wcr-a1-m1-cA Crystal Structure of Tip-Alpha N34 (HP0596) from Helicobacter pylori at pH8 O25318 O25318 1.7 X-RAY DIFFRACTION 89 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 145 147 3gio-a1-m1-cA_3gio-a1-m1-cB 3guq-a1-m1-cA_3guq-a1-m2-cA SFLQDVPYWMLQNRSEYITQGVDSSHIVDGKKTEEIEKIATKRATIRVAQNIVHKLKEAYLSKTNRIKQKITNEMFIQMTQPIYDSLMNVDLGIYINPNNEEVFALVRARGFDKDALSEGLHKMSLDNQAVSILVAKVEEIFKDS NSFLQDVPYWMLQNRSEYITQGVDSSHIVDGKKTEEIEKIATKRATIRVAQNIVHKLKEAYLSKTNRIKQKITNEMFIQMTQPIYDSLMNVDRLGIYINPNNEEVFALVRARGFDKDALSEGLHKMSLDNQAVSILVAKVEEIFKDS 2wcs-a1-m1-cA_2wcs-a1-m2-cA Crystal Structure of Debranching enzyme from Nostoc punctiforme (NPDE) B2IUW9 B2IUW9 2.8 X-RAY DIFFRACTION 126 1.0 272131 (Nostoc punctiforme) 272131 (Nostoc punctiforme) 485 485 2wc7-a1-m1-cA_2wc7-a1-m2-cA 2wkg-a1-m1-cA_2wkg-a1-m2-cA MQIQTPDWVKHAVFYQIFPDRFARSKQPRKRLLQEARWEDWDSMPTLQGYKGGDLWGIMEDLDYIQNLGINAIYFTPIFQSASNHRYHTHDYYQVDPMLGGNEAFKELLDAAHQRNIKVVLDGVFNHSSRGFFFFHDVLENGPHSPWVNWFKIEGWPLSPYNGEFPANYVGWAGNRALPEFNHDNPEVREYIMEIAEYWLKFGIDGWRLDVPFEIKTPGFWQEFRDRTKAINPEAYIVGEVWGDSRQWLDGTQFDGVMNYLFAGPTIAFAAGDRVVLEQVQSRDYQPYPPLFAAEYATKIQEVLQLYPWEIQLTQLNLLASHDTARLMTIAGGDIASVELSTLLLLTFPGAPSIYYGDEVGLPGGIDPDSRRGFPEANWNQEIFNTHRQLITIRQTYPALRTGDYQVLYAQGQLYLFARTLGTEELIIAINAGTSSATANVDVASLHTQPNKLLYGTAEAEWNGEEGTQQLSLTLPARSGCILGT MQIQTPDWVKHAVFYQIFPDRFARSKQPRKRLLQEARWEDWDSMPTLQGYKGGDLWGIMEDLDYIQNLGINAIYFTPIFQSASNHRYHTHDYYQVDPMLGGNEAFKELLDAAHQRNIKVVLDGVFNHSSRGFFFFHDVLENGPHSPWVNWFKIEGWPLSPYNGEFPANYVGWAGNRALPEFNHDNPEVREYIMEIAEYWLKFGIDGWRLDVPFEIKTPGFWQEFRDRTKAINPEAYIVGEVWGDSRQWLDGTQFDGVMNYLFAGPTIAFAAGDRVVLEQVQSRDYQPYPPLFAAEYATKIQEVLQLYPWEIQLTQLNLLASHDTARLMTIAGGDIASVELSTLLLLTFPGAPSIYYGDEVGLPGGIDPDSRRGFPEANWNQEIFNTHRQLITIRQTYPALRTGDYQVLYAQGQLYLFARTLGTEELIIAINAGTSSATANVDVASLHTQPNKLLYGTAEAEWNGEEGTQQLSLTLPARSGCILGT 2wct-a2-m1-cC_2wct-a2-m1-cB human SARS coronavirus unique domain (triclinic form) P0C6X7 P0C6X7 2.79 X-RAY DIFFRACTION 77 1.0 252 257 2w2g-a1-m1-cB_2w2g-a1-m1-cA 2wct-a1-m1-cD_2wct-a1-m1-cA KIKACIDLEETKFLTNKLLLFADINGKLYHDSQNMLRGEDMSFLEKDAPYMVGDVITSGDITCVVIPSKKAGGTTEMLSRALKKVPVDEYITTYPGQGCAGYTLEEAKTALKKCKSAFYVLPSEILGTVSWNLREMLAHAEETRKLMPICMDVRAIMATIQRKYKGIKIQEGIVDYGVRFFFYTSKEPVASIITKLNSLNEPLVTMPIGYVTHGFNLEEAARCMRSLRAPAVVSVSSPDAVTTYNGYLTSSS KIKACIDEVTTTLEETKFLTNKLLLFADINGKLYHDSQNMLRGEDMSFLEKDAPYMVGDVITSGDITCVVIPSKKAGGTTEMLSRALKKVPVDEYITTYPGQGCAGYTLEEAKTALKKCKSAFYVLPSEILGTVSWNLREMLAHAEETRKLMPICMDVRAIMATIQRKYKGIKIQEGIVDYGVRFFFYTSKEPVASIITKLNSLNEPLVTMPIGYVTHGFNLEEAARCMRSLRAPAVVSVSSPDAVTTYNGYLTSSS 2wcu-a1-m1-cA_2wcu-a1-m1-cB Crystal structure of mammalian FucU Q8R2K1 Q8R2K1 1.9 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 149 149 MVALKGIPKVLSPELLFALARMGHGDEIVLADANFPTSSICQCGPVEIRADGLDIPQLLEAVLRLLPLDTYVESPAAVMDLVPSDKEKGLQTPIWKRYESLLLEADCKKTLMKLERFEFYERAKKAFAVVATGEMALYGNIILKKGTLD MVALKGIPKVLSPELLFALARMGHGDEIVLADANFPTSSICQCGPVEIRADGLDIPQLLEAVLRLLPLDTYVESPAAVMDLVPSDKEKGLQTPIWKRYESLLLEADCKKTLMKLERFEFYERAKKAFAVVATGEMALYGNIILKKGTLD 2wcv-a1-m1-cA_2wcv-a1-m2-cB Crystal structure of bacterial FucU P0AEN8 P0AEN8 1.9 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 140 2wcv-a1-m1-cC_2wcv-a1-m2-cE 2wcv-a1-m1-cD_2wcv-a1-m2-cD 2wcv-a1-m2-cA_2wcv-a1-m1-cB 2wcv-a1-m2-cC_2wcv-a1-m1-cE 2wcv-a2-m1-cF_2wcv-a2-m3-cG 2wcv-a2-m1-cG_2wcv-a2-m3-cF 2wcv-a2-m1-cH_2wcv-a2-m3-cJ 2wcv-a2-m1-cI_2wcv-a2-m3-cI 2wcv-a2-m1-cJ_2wcv-a2-m3-cH MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLQAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP 2wcv-a1-m2-cC_2wcv-a1-m2-cB Crystal structure of bacterial FucU P0AEN8 P0AEN8 1.9 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 138 140 2wcv-a1-m1-cA_2wcv-a1-m1-cB 2wcv-a1-m1-cA_2wcv-a1-m1-cE 2wcv-a1-m1-cC_2wcv-a1-m1-cB 2wcv-a1-m1-cC_2wcv-a1-m1-cD 2wcv-a1-m1-cE_2wcv-a1-m1-cD 2wcv-a1-m2-cA_2wcv-a1-m2-cB 2wcv-a1-m2-cA_2wcv-a1-m2-cE 2wcv-a1-m2-cC_2wcv-a1-m2-cD 2wcv-a1-m2-cE_2wcv-a1-m2-cD 2wcv-a2-m1-cF_2wcv-a2-m1-cG 2wcv-a2-m1-cF_2wcv-a2-m1-cJ 2wcv-a2-m1-cG_2wcv-a2-m1-cH 2wcv-a2-m1-cH_2wcv-a2-m1-cI 2wcv-a2-m1-cI_2wcv-a2-m1-cJ 2wcv-a2-m3-cF_2wcv-a2-m3-cG 2wcv-a2-m3-cF_2wcv-a2-m3-cJ 2wcv-a2-m3-cG_2wcv-a2-m3-cH 2wcv-a2-m3-cH_2wcv-a2-m3-cI 2wcv-a2-m3-cI_2wcv-a2-m3-cJ MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLQAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP 2wcv-a2-m1-cH_2wcv-a2-m3-cI Crystal structure of bacterial FucU P0AEN8 P0AEN8 1.9 X-RAY DIFFRACTION 61 1.0 562 (Escherichia coli) 562 (Escherichia coli) 140 140 2wcv-a1-m1-cA_2wcv-a1-m2-cA 2wcv-a1-m1-cC_2wcv-a1-m2-cD 2wcv-a1-m1-cE_2wcv-a1-m2-cB 2wcv-a1-m2-cC_2wcv-a1-m1-cD 2wcv-a1-m2-cE_2wcv-a1-m1-cB 2wcv-a2-m1-cF_2wcv-a2-m3-cF 2wcv-a2-m1-cG_2wcv-a2-m3-cJ 2wcv-a2-m1-cI_2wcv-a2-m3-cH 2wcv-a2-m1-cJ_2wcv-a2-m3-cG MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLQAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP MLKTISPLISPELLKVLAEMGHGDEIIFSDAHFPAHSMGPQVIRADGLLVSDLLQAIIPLFELDSYAPPLVMMAAVEGDTLDPEVERRYRNALSLQAPCPDIIRINRFAFYERAQKAFAIVITGERAKYGNILLKKGVTP 2wd6-a3-m1-cB_2wd6-a3-m1-cA Crystal structure of the Variable Domain of the Streptococcus gordonii Surface Protein SspB P16952 P16952 2.3 X-RAY DIFFRACTION 68 1.0 1302 (Streptococcus gordonii) 1302 (Streptococcus gordonii) 293 302 AYTAALAEAESKKKQDGYLSEPRSQSLNFKSEPNAIRTIDSSVHQYGQQELDALVKSWGISPTNPDRKKSRAYSYFNAINSNNTYAKLVLEKDKPVDVTYTGLKNSSFNGKKISKVVYTYTLKETGFNDGTKMTMFASSDPTVTAWYNDYFTSTNINVKVKFYDEEGQLMNLTGGLVNFSSLNRGNGSGAIDKDAIESVRNFNGRYIPISGSSIKIHENNSAYADSSNAEKSLGARWNTSEWDTTSSPNNWYGAIVGEITQSEISFNMASSKSGNIWFAFNSNINAIGVPTKP YKKEFAAYTAALAEAESKKKQDGYLSEPRSQSLNFKSEPNAIRTIDSSVHQYGQQELDALVKSWGISPTNPDRKKSRAYSYFNAINSNNTYAKLVLEKDKPVDVTYTGLKNSSFNGKKISKVVYTYTLKETGFNDGTKMTMFASSDPTVTAWYNDYFTSTNINVKVKFYDEEGQLMNLTGGLVNFSSLNRGNGSGAIDKDAIESVRNFNGRYIPISGSSIKIHENNSAYADSSNAEKSLGARWNTSEWDTTSSPNNWYGAIVGEITQSEISFNMASSKSGNIWFAFNSNINAIGVPTKPVAP 2wds-a1-m2-cA_2wds-a1-m3-cA Crystal structure of the Streptomyces coelicolor H110A AcpS mutant in complex with cofactor CoA at 1.3 A O86785 O86785 1.35 X-RAY DIFFRACTION 58 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 123 123 2jbz-a1-m1-cA_2jbz-a1-m2-cA 2jbz-a1-m1-cA_2jbz-a1-m3-cA 2jbz-a1-m2-cA_2jbz-a1-m3-cA 2jca-a1-m1-cA_2jca-a1-m1-cB 2jca-a1-m1-cA_2jca-a1-m1-cC 2jca-a1-m1-cB_2jca-a1-m1-cC 2wdo-a1-m1-cA_2wdo-a1-m2-cA 2wdo-a1-m1-cA_2wdo-a1-m3-cA 2wdo-a1-m2-cA_2wdo-a1-m3-cA 2wds-a1-m1-cA_2wds-a1-m2-cA 2wds-a1-m1-cA_2wds-a1-m3-cA 2wdy-a1-m1-cA_2wdy-a1-m2-cA 2wdy-a1-m1-cA_2wdy-a1-m3-cA 2wdy-a1-m2-cA_2wdy-a1-m3-cA MSIIGVGIDVAEVERFGAALERTPALAGRLFLESELLLPGGERRGVASLAARFAAKEALAKALGAPAGLLWTDAEVWVEAGGRPRLRVTGTVAARAAELGVASWHVSLSADAGIASAVVIAEG MSIIGVGIDVAEVERFGAALERTPALAGRLFLESELLLPGGERRGVASLAARFAAKEALAKALGAPAGLLWTDAEVWVEAGGRPRLRVTGTVAARAAELGVASWHVSLSADAGIASAVVIAEG 2we4-a2-m1-cA_2we4-a2-m1-cC Carbamate kinase from Enterococcus faecalis bound to a sulfate ion and two water molecules, which mimic the substrate carbamyl phosphate P0A2X7 P0A2X7 2.02 X-RAY DIFFRACTION 145 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 309 309 1b7b-a1-m1-cA_1b7b-a1-m1-cC 1b7b-a2-m1-cB_1b7b-a2-m1-cD 2we4-a1-m1-cB_2we4-a1-m1-cD 2we5-a1-m1-cA_2we5-a1-m1-cB 2we5-a2-m1-cC_2we5-a2-m2-cC GKKMVVALGGNAILSNDASAHAQQQALVQTSAYLVHLIKQGHRLIVSHGNGPQVGNLLLQQQAADSEKNPAMPLDTCVAMTQGSIGYWLSNALNQELNKAGIKKQVATVLTQVVVDPADEAFKNPTKPIGPFLTEAEAKEAMQAGAIFKEDAGRGWRKVVPSPKPIDIHEAETINTLIKNDIITISCGGGGIPVVGQELKGVEAVIDKDFASEKLAELVDADALVILTGVDYVCINYGKPDEKQLTNVTVAELEEYKQAGHFAPGSMLPKIEAAIQFVESQPNKQAIITSLENLGSMSGDEIVGTVVTK GKKMVVALGGNAILSNDASAHAQQQALVQTSAYLVHLIKQGHRLIVSHGNGPQVGNLLLQQQAADSEKNPAMPLDTCVAMTQGSIGYWLSNALNQELNKAGIKKQVATVLTQVVVDPADEAFKNPTKPIGPFLTEAEAKEAMQAGAIFKEDAGRGWRKVVPSPKPIDIHEAETINTLIKNDIITISCGGGGIPVVGQELKGVEAVIDKDFASEKLAELVDADALVILTGVDYVCINYGKPDEKQLTNVTVAELEEYKQAGHFAPGSMLPKIEAAIQFVESQPNKQAIITSLENLGSMSGDEIVGTVVTK 2we8-a1-m1-cA_2we8-a1-m2-cA Crystal structure of Mycobacterium tuberculosis Rv0376c homologue from Mycobacterium smegmatis A0QQG1 A0QQG1 2.3 X-RAY DIFFRACTION 86 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 345 345 2we7-a1-m1-cA_2we7-a1-m2-cA 2we7-a2-m1-cB_2we7-a2-m3-cB 2we8-a2-m1-cB_2we8-a2-m3-cB GVRDVLGTLSAVWESGGTAGVGTVVRTFRSAPRPAGASMVVAPDGTVSGSVSGGCVEGAVYDLATEVVATGTPVLQRYGVGGILDVFVEPVSQKTFPQLGAIRDDIEAQRPVAVATVITHPDAQWIGRRLVVHTDEVAGSLGSSRADAAVTDDARGLLAAGRSEVLTYGPDGQRRGEGMEVFVSSYAPRPRMLVFGAIDFAAAVAQQGAFLGYRVTVCDARPVFATTARFPTADEVVVDWPHRYLAAQAEAGAIDARTVVCVLTHDPKFDVPLLEVALRLPDIAYIGAMGSRRTHEDRLARLREAGLTEEELARLSSPIGLDLGGRTPEETAVSIAAEIIAKRWG GVRDVLGTLSAVWESGGTAGVGTVVRTFRSAPRPAGASMVVAPDGTVSGSVSGGCVEGAVYDLATEVVATGTPVLQRYGVGGILDVFVEPVSQKTFPQLGAIRDDIEAQRPVAVATVITHPDAQWIGRRLVVHTDEVAGSLGSSRADAAVTDDARGLLAAGRSEVLTYGPDGQRRGEGMEVFVSSYAPRPRMLVFGAIDFAAAVAQQGAFLGYRVTVCDARPVFATTARFPTADEVVVDWPHRYLAAQAEAGAIDARTVVCVLTHDPKFDVPLLEVALRLPDIAYIGAMGSRRTHEDRLARLREAGLTEEELARLSSPIGLDLGGRTPEETAVSIAAEIIAKRWG 2wec-a1-m1-cA_2wec-a1-m2-cA ACID PROTEINASE (PENICILLOPEPSIN) (E.C.3.4.23.20) COMPLEX WITH PHOSPHONATE INHIBITOR: METHYL(2S)-[1-(((N-(1-NAPHTHALENEACETYL))-L-VALYL)AMINOMETHYL)HYDROXY PHOSPHINYLOXY]-3-PHENYLPROPANOATE, SODIUM SALT P00798 P00798 1.5 X-RAY DIFFRACTION 59 1.0 5079 (Penicillium janthinellum) 5079 (Penicillium janthinellum) 323 323 1apt-a1-m1-cI_1apt-a1-m1-cE 1apu-a1-m1-cI_1apu-a1-m1-cE 1apu-a2-m1-cE_1apu-a2-m2-cE 1apu-a2-m1-cI_1apu-a2-m1-cE 1apu-a2-m2-cI_1apu-a2-m2-cE 1apv-a1-m1-cI_1apv-a1-m1-cE 1apw-a1-m1-cI_1apw-a1-m1-cE 2wea-a1-m1-cA_2wea-a1-m2-cA 2web-a1-m1-cA_2web-a1-m2-cA 2wed-a1-m1-cA_2wed-a1-m2-cA AASGVATNTPTANDEEYITPVTIGGTTLNLNFDTGSADLWVFSTELPASQQSGHSVYNPSATGKELSGYTWSISYGDGSSASGNVFTDSVTVGGVTAHGQAVQAAQQISAQFQQDTNNDGLLGLAFSSINTVQPQSQTTFFDTVKSSLAQPLFAVALKHQQPGVYDFGFIDSSKYTGSLTYTGVDNSQGFWSFNVDSYTAGSQSGDGFSGIADTGTTLLLLDDSVVSQYYSQVSGAQQDSNAGGYVFDCSTNLPDFSVSISGYTATVPGSLINYGPSGDGSTCLGGIQSNSGIGFSIFGDIFLKSQYVVFDSDGPQLGFAPQA AASGVATNTPTANDEEYITPVTIGGTTLNLNFDTGSADLWVFSTELPASQQSGHSVYNPSATGKELSGYTWSISYGDGSSASGNVFTDSVTVGGVTAHGQAVQAAQQISAQFQQDTNNDGLLGLAFSSINTVQPQSQTTFFDTVKSSLAQPLFAVALKHQQPGVYDFGFIDSSKYTGSLTYTGVDNSQGFWSFNVDSYTAGSQSGDGFSGIADTGTTLLLLDDSVVSQYYSQVSGAQQDSNAGGYVFDCSTNLPDFSVSISGYTATVPGSLINYGPSGDGSTCLGGIQSNSGIGFSIFGDIFLKSQYVVFDSDGPQLGFAPQA 2wet-a1-m1-cD_2wet-a1-m1-cA Crystal structure of tryptophan 5-halogenase (PyrH) complex with FAD (tryptophan) A4D0H5 A4D0H5 2.4 X-RAY DIFFRACTION 99 1.0 295838 (Streptomyces rugosporus) 295838 (Streptomyces rugosporus) 494 496 2wes-a1-m1-cA_2wes-a1-m1-cD 2wes-a2-m1-cB_2wes-a2-m1-cC 2wet-a2-m1-cC_2wet-a2-m1-cB 2weu-a1-m1-cD_2weu-a1-m1-cC 2weu-a2-m1-cA_2weu-a2-m1-cB MIRSVVIVGGGTAGWMTASYLKAAFDDRIDVTLVESGNVRRIGVGEATFSTVRHFFDYLGLDEREWLPRCAGGYKLGIRFENWSEPGEYFYHPFERLRVVDGFNMAEWWLAVGSFSEACYLTHRLCEAKRAPRMLDGSLFAEQRAQFPYAYHFDADEVARYLSEYAIARGVRHVVDDVQHVGQDERGWISGVHTKQHGEISGDLFVDCTGFRGLLINQTLGGRFQSFSDVLPNNRAVALRVPRENDEDMRPYTTATAMSAGWMWTIPLFKRDGNGYVYSDEFISPEEAERELRSTVAPGRDDLEANHIQMRIGRNERTWINNCVAVGLSAAFVEPLESTGIFFIQHAIEQLVKHFPGERWDPVLISAYNERMAHMVDGVKEFLVLHYKGAQREDTPYWKAAKTRAMPDGLARKLELSASHLLDEQTIYPYYHGFETYSWITMNLGLGIVPERPRPALLHMDPAPALAEFERLRREGDELIAALPSCYEYLASIQ MIRSVVIVGGGTAGWMTASYLKAAFDDRIDVTLVESGNVRRIGVGEATFSTVRHFFDYLGLDEREWLPRCAGGYKLGIRFENWSEPGEYFYHPFERLRVVDGFNMAEWWLAVGTSFSEACYLTHRLCEAKRAPRMLDGSLFASEQRAQFPYAYHFDADEVARYLSEYAIARGVRHVVDDVQHVGQDERGWISGVHTKQHGEISGDLFVDCTGFRGLLINQTLGGRFQSFSDVLPNNRAVALRVPRENDEDMRPYTTATAMSAGWMWTIPLFKRDGNGYVYSDEFISPEEAERELRSTVAPGRDDLEANHIQMRIGRNERTWINNCVAVGLSAAFVEPLESTGIFFIQHAIEQLVKHFPGERWDPVLISAYNERMAHMVDGVKEFLVLHYKGAQREDTPYWKAAKTRAMPDGLARKLELSASHLLDEQTIYPYYHGFETYSWITMNLGLGIVPERPRPALLHMDPAPALAEFERLRREGDELIAALPSCYEYLASIQ 2wfc-a2-m1-cB_2wfc-a2-m1-cC Crystal structure of peroxiredoxin 5 from Arenicola Marina Q1AN23 Q1AN23 1.75 X-RAY DIFFRACTION 65 1.0 6344 (Arenicola marina) 6344 (Arenicola marina) 159 159 2wfc-a1-m1-cA_2wfc-a1-m1-cD PIKEGDKLPAVTVFGATPNDKVNMAELFAGKKGVLFAVPGAFTPGSSKTHLPGYVEQAAAIHGKGVDIIACMAVNDSFVMDAWGKAHGADDKVQMLADPGGAFTKAVDMELDLSAVLGNVRSKRYSLVIEDGVVTKVNVEPDGKGLTCSLAPNILSQLG PIKEGDKLPAVTVFGATPNDKVNMAELFAGKKGVLFAVPGAFTPGSSKTHLPGYVEQAAAIHGKGVDIIACMAVNDSFVMDAWGKAHGADDKVQMLADPGGAFTKAVDMELDLSAVLGNVRSKRYSLVIEDGVVTKVNVEPDGKGLTCSLAPNILSQLG 2wfd-a1-m1-cA_2wfd-a1-m1-cB Structure of the human cytosolic leucyl-tRNA synthetase editing domain Q9P2J5 Q9P2J5 3.25 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 AGPQEYTLLKLKVLEPYPSKLSGLKGKNIFLVAATLRPETFGQTNCWVRPDKYIGFETVNGDIFICTQKAARNSYQGFTKDNGVVPVVKELGEEILGASLSAPLTSYKVIYVLPLTIKEDKGTGVVTSVPSDSPDDIAALRDLKKKQALRAKYGIRDDVLPFEPVPVIEIPGFGNLSAVTICDELKIQSQNDREKLAEAKEKIYLKGFYEGILVDGFKGQKVQDVKKTIQKKIDAGDALIYE AGPQEYTLLKLKVLEPYPSKLSGLKGKNIFLVAATLRPETFGQTNCWVRPDKYIGFETVNGDIFICTQKAARNSYQGFTKDNGVVPVVKELGEEILGASLSAPLTSYKVIYVLPLTIKEDKGTGVVTSVPSDSPDDIAALRDLKKKQALRAKYGIRDDVLPFEPVPVIEIPGFGNLSAVTICDELKIQSQNDREKLAEAKEKIYLKGFYEGILVDGFKGQKVQDVKKTIQKKIDAGDALIYE 2wfh-a1-m1-cA_2wfh-a1-m1-cB The Human Slit 2 Dimerization Domain D4 O94813 O94813 1.8 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 CPTECTCLDTVVRCSNKGLKVLPKGIPRDVTELYLDGNQFTLVPKELSNYKHLTLIDLSNNRISTLSNQSFSNMTQLLTLILSYNRLRCIPPRTFDGLKSLRLLSLHGNDISVVPEGAFNDLSALSHLAIGANPLYCDCNMQWLSDWVKSEYKEPGIARCAGPGEMADKLLLTTPSKKFTC CPTECTCLDTVVRCSNKGLKVLPKGIPRDVTELYLDGNQFTLVPKELSNYKHLTLIDLSNNRISTLSNQSFSNMTQLLTLILSYNRLRCIPPRTFDGLKSLRLLSLHGNDISVVPEGAFNDLSALSHLAIGANPLYCDCNMQWLSDWVKSEYKEPGIARCAGPGEMADKLLLTTPSKKFTC 2wfk-a1-m2-cB_2wfk-a1-m2-cA Calcium bound LipL32 Q6S9S1 Q6S9S1 2.3 X-RAY DIFFRACTION 84 1.0 293071 (Leptospira santarosai serovar Shermani) 293071 (Leptospira santarosai serovar Shermani) 227 250 2wfk-a1-m1-cB_2wfk-a1-m1-cA 2wfk-a1-m1-cC_2wfk-a1-m2-cC 2wfk-a1-m1-cD_2wfk-a1-m1-cE 2wfk-a1-m2-cD_2wfk-a1-m2-cE GGLPSLKSSFVLSESTVPGTNETVKTFLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEGVRISPTGEIGEPGDGDLVSDAFKAATPEEKSPHWFDTWIRVERSAIPDQIAKAAKAKPVQKLDDDDDGDDTYKEERHNKYNSLTRIKIPTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEESLKKAAS DRWIRPRGAFGGLPSLKSSFVLSESTVPGTNETVKTFLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEGVRISPTGEIGEPGDGDLVSDAFKAATPEEKSPHWFDTWIRVERSAIPDQIAKAAKAKPVQKLDDDDDGDDTYKEERHNKYNSLTRIKIPNPPKSFDDLKNIDTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEESLKKAAS 2wfk-a1-m2-cB_2wfk-a1-m2-cC Calcium bound LipL32 Q6S9S1 Q6S9S1 2.3 X-RAY DIFFRACTION 10 0.991 293071 (Leptospira santarosai serovar Shermani) 293071 (Leptospira santarosai serovar Shermani) 227 228 2wfk-a1-m1-cB_2wfk-a1-m1-cC 2wfk-a1-m1-cB_2wfk-a1-m1-cE 2wfk-a1-m1-cC_2wfk-a1-m2-cA 2wfk-a1-m1-cD_2wfk-a1-m2-cE 2wfk-a1-m2-cB_2wfk-a1-m2-cE 2wfk-a1-m2-cC_2wfk-a1-m1-cA 2wfk-a1-m2-cD_2wfk-a1-m1-cE GGLPSLKSSFVLSESTVPGTNETVKTFLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEGVRISPTGEIGEPGDGDLVSDAFKAATPEEKSPHWFDTWIRVERSAIPDQIAKAAKAKPVQKLDDDDDGDDTYKEERHNKYNSLTRIKIPTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEESLKKAAS GLPSLKSSFVLSESTVPGTNETVKTFLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEGVRISPTGEIGEPGDGDLVSDAFKAATPEEKSPHWFDTWIRVERSAIPDQIAKAAKAKPVQKLDDDDDGDDTYKEERHNKYNSLTRIKINIDTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEESLKKAAS 2wfk-a1-m2-cC_2wfk-a1-m2-cA Calcium bound LipL32 Q6S9S1 Q6S9S1 2.3 X-RAY DIFFRACTION 70 1.0 293071 (Leptospira santarosai serovar Shermani) 293071 (Leptospira santarosai serovar Shermani) 228 250 2wfk-a1-m1-cC_2wfk-a1-m1-cA 2wfk-a1-m1-cD_2wfk-a1-m1-cB 2wfk-a1-m1-cE_2wfk-a1-m2-cE 2wfk-a1-m2-cD_2wfk-a1-m2-cB GLPSLKSSFVLSESTVPGTNETVKTFLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEGVRISPTGEIGEPGDGDLVSDAFKAATPEEKSPHWFDTWIRVERSAIPDQIAKAAKAKPVQKLDDDDDGDDTYKEERHNKYNSLTRIKINIDTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEESLKKAAS DRWIRPRGAFGGLPSLKSSFVLSESTVPGTNETVKTFLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEGVRISPTGEIGEPGDGDLVSDAFKAATPEEKSPHWFDTWIRVERSAIPDQIAKAAKAKPVQKLDDDDDGDDTYKEERHNKYNSLTRIKIPNPPKSFDDLKNIDTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEESLKKAAS 2wfn-a1-m1-cA_2wfn-a1-m1-cB Filamin A actin binding domain P21333 P21333 3.2 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 228 WKKIQQNTFTRWCNEHLKCVSKRIANLQTDLSDGLRLIALLEVLSQKKMHRKHNQRPTFRQMQLENVSVALEFLDRESIKLVSIDSKAIVDGNLKLILGLIWTLILHYSISMPMQTPKQRLLGWIQNKLPQLPITNFSRDWQSGRALGALVDSCAPGLCPDWDSWDASKPVTNAREAMQQADDWLGIPQVITPEEIVDPNVDEHSVMTYLSQFPKAKLKPGAPLRPK WKKIQQNTFTRWCNEHLKCVSKRIANLQTDLSDGLRLIALLEVLSQKKMHRKHNQRPTFRQMQLENVSVALEFLDRESIKLVSIDSKAIVDGNLKLILGLIWTLILHYSISMPMKQTPKQRLLGWIQNKLPQLPITNFSRDWQSGRALGALVDSCAPGLCPDWDSWDASKPVTNAREAMQQADDWLGIPQVITPEEIVDPNVDEHSVMTYLSQFPKAKLKPGAPLRPK 2wfw-a1-m2-cA_2wfw-a1-m2-cC Structure and activity of the N-terminal substrate recognition domains in proteasomal ATPases - The Arc domain structure O50202 O50202 1.6 X-RAY DIFFRACTION 54 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 124 124 2wfw-a1-m1-cA_2wfw-a1-m1-cC PSGYGVLLSVHEDKTVDVFTSGRKMRLTCSPNIDTDTLALGQTVRLNEALTIVEAGTYEQVGEISTLREVLDDGLRALVVGHADEERIVWLAAPLAAVFADPEGDSLLVDTKAGYAFERIPKAE PSGYGVLLSVHEDKTVDVFTSGRKMRLTCSPNIDTDTLALGQTVRLNEALTIVEAGTYEQVGEISTLREVLDDGLRALVVGHADEERIVWLAAPLAAVFADPEGDSLLVDTKAGYAFERIPKAE 2wg5-a2-m1-cG_2wg5-a2-m1-cL Proteasome-Activating Nucleotidase (PAN) N-domain (57-134) from Archaeoglobus fulgidus fused to GCN4 O28303 O28303 2.1 X-RAY DIFFRACTION 42 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 87 87 2wg5-a1-m1-cA_2wg5-a1-m1-cF 2wg5-a1-m1-cB_2wg5-a1-m1-cC 2wg5-a1-m1-cD_2wg5-a1-m1-cE 2wg5-a2-m1-cH_2wg5-a2-m1-cI 2wg5-a2-m1-cJ_2wg5-a2-m1-cK 2wg6-a1-m1-cA_2wg6-a1-m1-cF 2wg6-a1-m1-cB_2wg6-a1-m1-cC 2wg6-a1-m1-cD_2wg6-a1-m1-cE 2wg6-a2-m1-cG_2wg6-a2-m1-cL 2wg6-a2-m1-cH_2wg6-a2-m1-cI 2wg6-a2-m1-cJ_2wg6-a2-m1-cK MKQLEDKVEELLSKNYHLENEVARLRSPPLLVGVVSDILEDGRVVVKSSTGPKFVVNTSQYINEEELKPGARVALNQQTLAIVNVLP MKQLEDKVEELLSKNYHLENEVARLRSPPLLVGVVSDILEDGRVVVKSSTGPKFVVNTSQYINEEELKPGARVALNQQTLAIVNVLP 2wg5-a2-m1-cK_2wg5-a2-m1-cL Proteasome-Activating Nucleotidase (PAN) N-domain (57-134) from Archaeoglobus fulgidus fused to GCN4 O28303 O28303 2.1 X-RAY DIFFRACTION 96 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 87 87 2wg5-a1-m1-cA_2wg5-a1-m1-cB 2wg5-a1-m1-cC_2wg5-a1-m1-cD 2wg5-a1-m1-cE_2wg5-a1-m1-cF 2wg5-a2-m1-cG_2wg5-a2-m1-cH 2wg5-a2-m1-cI_2wg5-a2-m1-cJ 2wg6-a1-m1-cA_2wg6-a1-m1-cB 2wg6-a1-m1-cC_2wg6-a1-m1-cD 2wg6-a1-m1-cE_2wg6-a1-m1-cF 2wg6-a2-m1-cG_2wg6-a2-m1-cH 2wg6-a2-m1-cI_2wg6-a2-m1-cJ 2wg6-a2-m1-cK_2wg6-a2-m1-cL MKQLEDKVEELLSKNYHLENEVARLRSPPLLVGVVSDILEDGRVVVKSSTGPKFVVNTSQYINEEELKPGARVALNQQTLAIVNVLP MKQLEDKVEELLSKNYHLENEVARLRSPPLLVGVVSDILEDGRVVVKSSTGPKFVVNTSQYINEEELKPGARVALNQQTLAIVNVLP 2wgm-a4-m1-cU_2wgm-a4-m1-cV Complete ion-coordination structure in the rotor ring of Na-dependent F-ATP synthase Q8KRV3 Q8KRV3 2.35 X-RAY DIFFRACTION 199 1.0 167644 (Ilyobacter tartaricus) 167644 (Ilyobacter tartaricus) 89 89 1yce-a1-m1-cA_1yce-a1-m1-cB 1yce-a1-m1-cA_1yce-a1-m1-cK 1yce-a1-m1-cB_1yce-a1-m1-cC 1yce-a1-m1-cC_1yce-a1-m1-cD 1yce-a1-m1-cD_1yce-a1-m1-cE 1yce-a1-m1-cE_1yce-a1-m1-cF 1yce-a1-m1-cF_1yce-a1-m1-cG 1yce-a1-m1-cG_1yce-a1-m1-cH 1yce-a1-m1-cH_1yce-a1-m1-cI 1yce-a1-m1-cI_1yce-a1-m1-cJ 1yce-a1-m1-cJ_1yce-a1-m1-cK 1yce-a2-m1-cL_1yce-a2-m1-cM 1yce-a2-m1-cL_1yce-a2-m1-cV 1yce-a2-m1-cM_1yce-a2-m1-cN 1yce-a2-m1-cN_1yce-a2-m1-cO 1yce-a2-m1-cO_1yce-a2-m1-cP 1yce-a2-m1-cP_1yce-a2-m1-cQ 1yce-a2-m1-cQ_1yce-a2-m1-cR 1yce-a2-m1-cR_1yce-a2-m1-cS 1yce-a2-m1-cS_1yce-a2-m1-cT 1yce-a2-m1-cT_1yce-a2-m1-cU 1yce-a2-m1-cU_1yce-a2-m1-cV 1yce-a3-m1-ca_1yce-a3-m1-cb 1yce-a3-m1-ca_1yce-a3-m1-ck 1yce-a3-m1-cb_1yce-a3-m1-cc 1yce-a3-m1-cc_1yce-a3-m1-cd 1yce-a3-m1-cd_1yce-a3-m1-ce 1yce-a3-m1-ce_1yce-a3-m1-cf 1yce-a3-m1-cf_1yce-a3-m1-cg 1yce-a3-m1-cg_1yce-a3-m1-ch 1yce-a3-m1-ch_1yce-a3-m1-ci 1yce-a3-m1-ci_1yce-a3-m1-cj 1yce-a3-m1-cj_1yce-a3-m1-ck 1yce-a4-m1-cl_1yce-a4-m1-cm 1yce-a4-m1-cl_1yce-a4-m1-cv 1yce-a4-m1-cm_1yce-a4-m1-cn 1yce-a4-m1-cn_1yce-a4-m1-co 1yce-a4-m1-co_1yce-a4-m1-cp 1yce-a4-m1-cp_1yce-a4-m1-cq 1yce-a4-m1-cq_1yce-a4-m1-cr 1yce-a4-m1-cr_1yce-a4-m1-cs 1yce-a4-m1-cs_1yce-a4-m1-ct 1yce-a4-m1-ct_1yce-a4-m1-cu 1yce-a4-m1-cu_1yce-a4-m1-cv 2wgm-a1-m1-ca_2wgm-a1-m1-cb 2wgm-a1-m1-ca_2wgm-a1-m1-ck 2wgm-a1-m1-cb_2wgm-a1-m1-cc 2wgm-a1-m1-cc_2wgm-a1-m1-cd 2wgm-a1-m1-cd_2wgm-a1-m1-ce 2wgm-a1-m1-ce_2wgm-a1-m1-cf 2wgm-a1-m1-cf_2wgm-a1-m1-cg 2wgm-a1-m1-cg_2wgm-a1-m1-ch 2wgm-a1-m1-ch_2wgm-a1-m1-ci 2wgm-a1-m1-ci_2wgm-a1-m1-cj 2wgm-a1-m1-cj_2wgm-a1-m1-ck 2wgm-a2-m1-cl_2wgm-a2-m1-cm 2wgm-a2-m1-cl_2wgm-a2-m1-cv 2wgm-a2-m1-cm_2wgm-a2-m1-cn 2wgm-a2-m1-cn_2wgm-a2-m1-co 2wgm-a2-m1-co_2wgm-a2-m1-cp 2wgm-a2-m1-cp_2wgm-a2-m1-cq 2wgm-a2-m1-cq_2wgm-a2-m1-cr 2wgm-a2-m1-cr_2wgm-a2-m1-cs 2wgm-a2-m1-cs_2wgm-a2-m1-ct 2wgm-a2-m1-ct_2wgm-a2-m1-cu 2wgm-a2-m1-cu_2wgm-a2-m1-cv 2wgm-a3-m1-cA_2wgm-a3-m1-cB 2wgm-a3-m1-cA_2wgm-a3-m1-cK 2wgm-a3-m1-cB_2wgm-a3-m1-cC 2wgm-a3-m1-cC_2wgm-a3-m1-cD 2wgm-a3-m1-cD_2wgm-a3-m1-cE 2wgm-a3-m1-cE_2wgm-a3-m1-cF 2wgm-a3-m1-cF_2wgm-a3-m1-cG 2wgm-a3-m1-cG_2wgm-a3-m1-cH 2wgm-a3-m1-cH_2wgm-a3-m1-cI 2wgm-a3-m1-cI_2wgm-a3-m1-cJ 2wgm-a3-m1-cJ_2wgm-a3-m1-cK 2wgm-a4-m1-cL_2wgm-a4-m1-cM 2wgm-a4-m1-cL_2wgm-a4-m1-cV 2wgm-a4-m1-cM_2wgm-a4-m1-cN 2wgm-a4-m1-cN_2wgm-a4-m1-cO 2wgm-a4-m1-cO_2wgm-a4-m1-cP 2wgm-a4-m1-cP_2wgm-a4-m1-cQ 2wgm-a4-m1-cQ_2wgm-a4-m1-cR 2wgm-a4-m1-cR_2wgm-a4-m1-cS 2wgm-a4-m1-cS_2wgm-a4-m1-cT 2wgm-a4-m1-cT_2wgm-a4-m1-cU MDMLFAKTVVLAASAVGAGTAMIAGIGPGVGQGYAAGKAVESVARQPEAKGDIISTMVLGQAVAESTGIYSLVIALILLYANPFVGLLG MDMLFAKTVVLAASAVGAGTAMIAGIGPGVGQGYAAGKAVESVARQPEAKGDIISTMVLGQAVAESTGIYSLVIALILLYANPFVGLLG 2wgp-a1-m4-cB_2wgp-a1-m3-cA Crystal structure of human dual specificity phosphatase 14 O95147 O95147 1.88 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 168 2wgp-a1-m1-cB_2wgp-a1-m4-cA 2wgp-a1-m2-cB_2wgp-a1-m1-cA 2wgp-a1-m3-cB_2wgp-a1-m2-cA GGIAQITSSLFLGRGSVASNRHLLQARGITCIVNATIEIPNFNWPQFEYVKVPLADMPHAPIGLYFDTVADKIHSVSRKHGATLVHCAAGVSRSATLCIAYLMKFHNVCLLEAYNWVKARRPVIRPNVGFWRQLIDYERQLFGKSTVKMVQTPYGIVPDVYEKESRH IGGIAQITSSLFLGRGSVASNRHLLQARGITCIVNATIEIPNFNWPQFEYVKVPLADMPHAPIGLYFDTVADKIHSVSRKHGATLVHCAAGVSRSATLCIAYLMKFHNVCLLEAYNWVKARRPVIRPNVGFWRQLIDYERQLFGKSTVKMVQTPYGIVPDVYEKESRH 2wgp-a3-m3-cB_2wgp-a3-m4-cB Crystal structure of human dual specificity phosphatase 14 O95147 O95147 1.88 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 2wgp-a1-m1-cA_2wgp-a1-m2-cA 2wgp-a1-m1-cA_2wgp-a1-m4-cA 2wgp-a1-m1-cB_2wgp-a1-m2-cB 2wgp-a1-m1-cB_2wgp-a1-m4-cB 2wgp-a1-m2-cA_2wgp-a1-m3-cA 2wgp-a1-m2-cB_2wgp-a1-m3-cB 2wgp-a1-m3-cA_2wgp-a1-m4-cA 2wgp-a1-m3-cB_2wgp-a1-m4-cB 2wgp-a2-m1-cA_2wgp-a2-m2-cA 2wgp-a2-m1-cA_2wgp-a2-m4-cA 2wgp-a2-m2-cA_2wgp-a2-m3-cA 2wgp-a2-m3-cA_2wgp-a2-m4-cA 2wgp-a3-m1-cB_2wgp-a3-m2-cB 2wgp-a3-m1-cB_2wgp-a3-m4-cB 2wgp-a3-m2-cB_2wgp-a3-m3-cB GGIAQITSSLFLGRGSVASNRHLLQARGITCIVNATIEIPNFNWPQFEYVKVPLADMPHAPIGLYFDTVADKIHSVSRKHGATLVHCAAGVSRSATLCIAYLMKFHNVCLLEAYNWVKARRPVIRPNVGFWRQLIDYERQLFGKSTVKMVQTPYGIVPDVYEKESRH GGIAQITSSLFLGRGSVASNRHLLQARGITCIVNATIEIPNFNWPQFEYVKVPLADMPHAPIGLYFDTVADKIHSVSRKHGATLVHCAAGVSRSATLCIAYLMKFHNVCLLEAYNWVKARRPVIRPNVGFWRQLIDYERQLFGKSTVKMVQTPYGIVPDVYEKESRH 2wgz-a1-m1-cA_2wgz-a1-m1-cB Crystal structure of alpha-1,3 galactosyltransferase (alpha3GT) in a complex with p-nitrophenyl-beta-galactoside (pNP-beta-Gal) P14769 P14769 2.12 X-RAY DIFFRACTION 55 1.0 9913 (Bos taurus) 9913 (Bos taurus) 287 287 2vfz-a1-m1-cA_2vfz-a1-m1-cB 2vs3-a1-m1-cB_2vs3-a1-m1-cA 2vs4-a1-m1-cB_2vs4-a1-m1-cA KLKLSDWFNPFKRPEVVTMTKWKAPVVWEGTYNRAVLDNYYAKQKITVGLTVFAVGRYIEHYLEEFLTSANKHFMVGHPVIFYIMVDDVSRMPLIELGPLRSFKVFKIKPEKRWQDISMMRMKTIGEHIVAHIQHEVDFLFCMDVDQVFQDKFGVETLGESVAQLQAWWYKADPNDFTYERRKESAAYIPFGEGDFYYHAAIFGGTPTQVLNITQECFKGILKDKKNDIEAQWHDESHLNKYFLLNKPTKILSPEYCWDYHIGLPADIKLVKMSWQTKEYNVVRNNV KLKLSDWFNPFKRPEVVTMTKWKAPVVWEGTYNRAVLDNYYAKQKITVGLTVFAVGRYIEHYLEEFLTSANKHFMVGHPVIFYIMVDDVSRMPLIELGPLRSFKVFKIKPEKRWQDISMMRMKTIGEHIVAHIQHEVDFLFCMDVDQVFQDKFGVETLGESVAQLQAWWYKADPNDFTYERRKESAAYIPFGEGDFYYHAAIFGGTPTQVLNITQECFKGILKDKKNDIEAQWHDESHLNKYFLLNKPTKILSPEYCWDYHIGLPADIKLVKMSWQTKEYNVVRNNV 2wh7-a1-m2-cA_2wh7-a1-m3-cA The partial structure of a group A streptpcoccal phage-encoded tail fibre hyaluronate lyase Hylp2 Q99ZZ7 Q99ZZ7 1.6 X-RAY DIFFRACTION 430 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 152 152 2wh7-a1-m1-cA_2wh7-a1-m2-cA 2wh7-a1-m1-cA_2wh7-a1-m3-cA NAVNIVMRQPTTPNFSSALNITSANEGGSAMQIRGVEKALGTLKITHENPSVDKEYDKNAAALSIDIVKKQKGGKGTAAQGIYINSTSGTTGKLLRIRNLNDDKFYVKPDGGFYAKETSQIDGNLKLKDPIANDHAATKAYVDGEVEKLKAL NAVNIVMRQPTTPNFSSALNITSANEGGSAMQIRGVEKALGTLKITHENPSVDKEYDKNAAALSIDIVKKQKGGKGTAAQGIYINSTSGTTGKLLRIRNLNDDKFYVKPDGGFYAKETSQIDGNLKLKDPIANDHAATKAYVDGEVEKLKAL 2whd-a1-m1-cA_2whd-a1-m1-cB Barley NADPH-dependent thioredoxin reductase 2 A9LN30 A9LN30 2.6 X-RAY DIFFRACTION 62 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 318 319 AAPLRTRVCIIGSGPAAHTAAIYAARAELKPVLFEGWMANDIAAGGQLTTTTDVENFPGFPTGIMGIDLMDNCRAQSVRFGTNILSETVTEVDFSARPFRVTSDSTTVLADTVVVATGAVARRLYFSGSDTYWNRGISACAVCDGAAPIFRNKPIAVIGGGDSAMEEGNFLTKYGSQVYIIHRRNTFRASKIMQARALSNPKIQVVWDSEVVEAYGGAGGGPLAGVKVKNLVTGEVSDLQVSGLFFAIGHEPATKFLNGQLELHADGYVATKPGSTHTSVEGVFAAGDVQDKKYRQAITAAGSGCMAALDAEHYLQEV AAAPLRTRVCIIGSGPAAHTAAIYAARAELKPVLFEGWMANDIAAGGQLTTTTDVENFPGFPTGIMGIDLMDNCRAQSVRFGTNILSETVTEVDFSARPFRVTSDSTTVLADTVVVATGAVARRLYFSGSDTYWNRGISACAVCDGAAPIFRNKPIAVIGGGDSAMEEGNFLTKYGSQVYIIHRRNTFRASKIMQARALSNPKIQVVWDSEVVEAYGGAGGGPLAGVKVKNLVTGEVSDLQVSGLFFAIGHEPATKFLNGQLELHADGYVATKPGSTHTSVEGVFAAGDVQDKKYRQAITAAGSGCMAALDAEHYLQEV 2wi8-a1-m1-cA_2wi8-a1-m2-cA Crystal structure of the triscatecholate siderophore binding protein FeuA from Bacillus subtilis P40409 P40409 1.55 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 283 283 SEKKKIEYLDKTYEVTVPTDKIAITGSVESMEDAKLLDVHPQGAISFSGKFPDMFKDITDKAEPTGEKMEPNIEKILEMKPDVILASTKFPEKTLQKISTAGTTIPVSHISSNWKENMMLLAQLTGKEKKAKKIIADYEQDLKETKTKINDKAKDSKALVIRIRQGNIYIYPEQVYFNSTLYGDLGLKAPNEVKAAKAQELISLEKLSEMNPDHIFVQFSDDENADKPDALKDLEKNPIWKSLKAVKEDHVYVNSVDPLAQGGTAWSKVRFLKAAAEKLTQNK SEKKKIEYLDKTYEVTVPTDKIAITGSVESMEDAKLLDVHPQGAISFSGKFPDMFKDITDKAEPTGEKMEPNIEKILEMKPDVILASTKFPEKTLQKISTAGTTIPVSHISSNWKENMMLLAQLTGKEKKAKKIIADYEQDLKETKTKINDKAKDSKALVIRIRQGNIYIYPEQVYFNSTLYGDLGLKAPNEVKAAKAQELISLEKLSEMNPDHIFVQFSDDENADKPDALKDLEKNPIWKSLKAVKEDHVYVNSVDPLAQGGTAWSKVRFLKAAAEKLTQNK 2wia-a2-m4-cB_2wia-a2-m5-cB Crystal Structures of the N-terminal Intracellular Domain of FeoB from Klebsiella Pneumoniae in Apo Form A6TF32 A6TF32 2.45 X-RAY DIFFRACTION 40 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 252 252 2wia-a1-m1-cA_2wia-a1-m2-cA 2wia-a1-m1-cA_2wia-a1-m3-cA 2wia-a1-m2-cA_2wia-a1-m3-cA 2wia-a2-m1-cB_2wia-a2-m4-cB 2wia-a2-m1-cB_2wia-a2-m5-cB 2wic-a1-m1-cA_2wic-a1-m2-cA 2wic-a1-m1-cA_2wic-a1-m3-cA 2wic-a1-m2-cA_2wic-a1-m3-cA MQKLTVGLIGNPNSGKTTLFNQLTGARQRVGNWAGVTVERKEGIFATTDHQVTLVDLPGTYSLTTSLDEQIACHYILSGDADMLINVVDASNLERNLYLTLQLLELGIPCVVALNMLDIAEKQQVRIDIDALAARLGCPVIPLRGRGIEALKIALDRHQANSDLELVHYPQPLLREADLLAQQMSAQIPPRQRRWLGLQMLEGDIYSRAYAGDAADKLDIALANLSDEIDDPALHIADARYQTIAAICDAVS MQKLTVGLIGNPNSGKTTLFNQLTGARQRVGNWAGVTVERKEGIFATTDHQVTLVDLPGTYSLTTSLDEQIACHYILSGDADMLINVVDASNLERNLYLTLQLLELGIPCVVALNMLDIAEKQQVRIDIDALAARLGCPVIPLRGRGIEALKIALDRHQANSDLELVHYPQPLLREADLLAQQMSAQIPPRQRRWLGLQMLEGDIYSRAYAGDAADKLDIALANLSDEIDDPALHIADARYQTIAAICDAVS 2win-a2-m1-cC_2win-a2-m1-cE C3 convertase (C3bBb) stabilized by SCIN P01024 P01024 3.9 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 638 638 2win-a1-m1-cA_2win-a1-m1-cG 6rur-a1-m1-cA_6rur-a1-m1-cG 6ruv-a1-m1-cA_6ruv-a1-m1-cG SPMYSIITPNILRLESEETMVLEAHDAQGDVPVTVTVHDFPGKKLVLSSEKTVLTPATNHMGNVTFTIPANRKGRNKFVTVQATFGTQVVEKVVLVSLQSGYLFIQTDKTIYTPGSTVLYRIFTVNHKLLPVGRTVMVNIENPEGIPVKQDSLSSQNQLGVLPLSWDIPELVNMGQWKIRAYYENSPQQVFSTEFEVKEYVLPSFEVIVEPTEKFYYIYNEKGLEVTITARFLYGKKVEGTAFVIFGIQDGEQRISLPESLKRIPIEDGSGEVVLSRKVLLDGVQRAEDLVGKSLYVSATVILHSGSDMVQAERSGIPIVTSPYQIHFTKTPKYFKPGMPFDLMVFVTNPDGSPAYRVPVAVQGEDTVQSLTQGDGVAKLSINTHPSQKPLSITVRTKKQELSEAEQATRTMQALPYSTVGNSNNYLHLSVLRTELRPGETLNVNFLLRMDRAHEAKIRYYTYLIMNKGRLLKAGRQVREPGQDLVVLPLSITTDFIPSFRLVAYYTLIGASGQREVVADSVWVDVKDSCVGSLVVKSGQSEDRQPVPGQQMTLKIEGDHGARVVLVAVDKGVFVLNKKNKLTQSKIWDVVEKADIGCTPGSGKDYAGVFSDAGLTFTSSSGQQTAQRAELQCPQPAA SPMYSIITPNILRLESEETMVLEAHDAQGDVPVTVTVHDFPGKKLVLSSEKTVLTPATNHMGNVTFTIPANRKGRNKFVTVQATFGTQVVEKVVLVSLQSGYLFIQTDKTIYTPGSTVLYRIFTVNHKLLPVGRTVMVNIENPEGIPVKQDSLSSQNQLGVLPLSWDIPELVNMGQWKIRAYYENSPQQVFSTEFEVKEYVLPSFEVIVEPTEKFYYIYNEKGLEVTITARFLYGKKVEGTAFVIFGIQDGEQRISLPESLKRIPIEDGSGEVVLSRKVLLDGVQRAEDLVGKSLYVSATVILHSGSDMVQAERSGIPIVTSPYQIHFTKTPKYFKPGMPFDLMVFVTNPDGSPAYRVPVAVQGEDTVQSLTQGDGVAKLSINTHPSQKPLSITVRTKKQELSEAEQATRTMQALPYSTVGNSNNYLHLSVLRTELRPGETLNVNFLLRMDRAHEAKIRYYTYLIMNKGRLLKAGRQVREPGQDLVVLPLSITTDFIPSFRLVAYYTLIGASGQREVVADSVWVDVKDSCVGSLVVKSGQSEDRQPVPGQQMTLKIEGDHGARVVLVAVDKGVFVLNKKNKLTQSKIWDVVEKADIGCTPGSGKDYAGVFSDAGLTFTSSSGQQTAQRAELQCPQPAA 2wj0-a1-m2-cA_2wj0-a1-m2-cB Crystal structures of Holliday junction resolvases from Archaeoglobus fulgidus bound to DNA substrate O28314 O28314 3.1 X-RAY DIFFRACTION 59 0.992 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 125 125 2wcw-a1-m1-cB_2wcw-a1-m1-cA 2wcw-a2-m1-cC_2wcw-a2-m1-cD 2wcz-a1-m1-cB_2wcz-a1-m1-cA 2wiw-a1-m1-cA_2wiw-a1-m1-cB 2wiz-a1-m1-cB_2wiz-a1-m1-cA 2wiz-a1-m2-cB_2wiz-a1-m2-cA 2wj0-a1-m1-cA_2wj0-a1-m1-cB SKGTRFERDLLVELWKAGFAAIRVAGSGVSPFPCPDIVAGNGRTYLAIEVKMRKELPLYLSADEVEQLVTFARGFGAEAYVALKLPRKKWRFFPVQMLERTEKNFKIDESVYPLGLEIAEVAGKF KGTRFERDLLVELWKAGFAAIRVAGSGVSPFPCPDIVAGNGRTYLAIEVKMRKELPLYLSADEVEQLVTFARGFGAEAYVALKLPRKKWRFFPVQMLERTEKNFKIDESVYPLGLEIAEVAGKFF 2wj8-a2-m1-cJ_2wj8-a2-m1-cI Respiratory Syncitial Virus RiboNucleoProtein P03418 P03418 3.29 X-RAY DIFFRACTION 177 1.0 11260 (Human respiratory syncytial virus A strain Long) 11260 (Human respiratory syncytial virus A strain Long) 370 374 2wj8-a1-m1-cK_2wj8-a1-m1-cL 2wj8-a1-m1-cK_2wj8-a1-m1-cT 2wj8-a1-m1-cM_2wj8-a1-m1-cL 2wj8-a1-m1-cM_2wj8-a1-m1-cN 2wj8-a1-m1-cO_2wj8-a1-m1-cN 2wj8-a1-m1-cO_2wj8-a1-m1-cP 2wj8-a1-m1-cP_2wj8-a1-m1-cQ 2wj8-a1-m1-cQ_2wj8-a1-m1-cR 2wj8-a1-m1-cR_2wj8-a1-m1-cS 2wj8-a1-m1-cT_2wj8-a1-m1-cS 2wj8-a2-m1-cA_2wj8-a2-m1-cB 2wj8-a2-m1-cB_2wj8-a2-m1-cC 2wj8-a2-m1-cD_2wj8-a2-m1-cC 2wj8-a2-m1-cD_2wj8-a2-m1-cE 2wj8-a2-m1-cE_2wj8-a2-m1-cF 2wj8-a2-m1-cF_2wj8-a2-m1-cG 2wj8-a2-m1-cH_2wj8-a2-m1-cG 2wj8-a2-m1-cI_2wj8-a2-m1-cH 2wj8-a2-m1-cJ_2wj8-a2-m1-cA 2yhm-a1-m1-cA_2yhm-a1-m1-cB 2yhm-a1-m1-cA_2yhm-a1-m1-cJ 2yhm-a1-m1-cB_2yhm-a1-m1-cC 2yhm-a1-m1-cC_2yhm-a1-m1-cD 2yhm-a1-m1-cD_2yhm-a1-m1-cE 2yhm-a1-m1-cE_2yhm-a1-m1-cF 2yhm-a1-m1-cF_2yhm-a1-m1-cG 2yhm-a1-m1-cG_2yhm-a1-m1-cH 2yhm-a1-m1-cH_2yhm-a1-m1-cI 2yhm-a1-m1-cI_2yhm-a1-m1-cJ 4bkk-a1-m1-cB_4bkk-a1-m1-cC 4bkk-a1-m1-cC_4bkk-a1-m1-cD 4bkk-a1-m1-cD_4bkk-a1-m1-cE 4bkk-a1-m1-cE_4bkk-a1-m1-cF 4bkk-a1-m1-cF_4bkk-a1-m1-cG 4bkk-a1-m1-cG_4bkk-a1-m1-cH 4bkk-a1-m1-cH_4bkk-a1-m1-cI 4bkk-a1-m1-cI_4bkk-a1-m1-cJ 4bkk-a1-m1-cJ_4bkk-a1-m1-cK 4bkk-a1-m1-cK_4bkk-a1-m1-cL 4bkk-a1-m1-cL_4bkk-a1-m1-cM 4bkk-a1-m1-cM_4bkk-a1-m1-cN 4bkk-a1-m1-cN_4bkk-a1-m1-cO 4bkk-a1-m1-cO_4bkk-a1-m1-cP 4bkk-a1-m1-cP_4bkk-a1-m1-cQ 4bkk-a1-m1-cQ_4bkk-a1-m1-cR 4bkk-a1-m1-cR_4bkk-a1-m1-cS 4bkk-a1-m1-cS_4bkk-a1-m1-cT 4bkk-a1-m1-cT_4bkk-a1-m1-cU 4bkk-a1-m1-cU_4bkk-a1-m1-cV 4bkk-a1-m1-cV_4bkk-a1-m1-cW 4bkk-a1-m1-cW_4bkk-a1-m1-cX 4v5v-a1-m1-cAA_4v5v-a1-m1-cAB 4v5v-a1-m1-cAA_4v5v-a1-m1-cAJ 4v5v-a1-m1-cAB_4v5v-a1-m1-cAC 4v5v-a1-m1-cAC_4v5v-a1-m1-cAD 4v5v-a1-m1-cAD_4v5v-a1-m1-cAE 4v5v-a1-m1-cAE_4v5v-a1-m1-cAF 4v5v-a1-m1-cAF_4v5v-a1-m1-cAG 4v5v-a1-m1-cAG_4v5v-a1-m1-cAH 4v5v-a1-m1-cAH_4v5v-a1-m1-cAI 4v5v-a1-m1-cAI_4v5v-a1-m1-cAJ 4v5v-a2-m1-cAL_4v5v-a2-m1-cAN 4v5v-a2-m1-cAL_4v5v-a2-m1-cAV 4v5v-a2-m1-cAN_4v5v-a2-m1-cAO 4v5v-a2-m1-cAO_4v5v-a2-m1-cAP 4v5v-a2-m1-cAP_4v5v-a2-m1-cAQ 4v5v-a2-m1-cAQ_4v5v-a2-m1-cAR 4v5v-a2-m1-cAR_4v5v-a2-m1-cAS 4v5v-a2-m1-cAS_4v5v-a2-m1-cAT 4v5v-a2-m1-cAT_4v5v-a2-m1-cAU 4v5v-a2-m1-cAU_4v5v-a2-m1-cAV 4v5v-a3-m1-cBA_4v5v-a3-m1-cBB 4v5v-a3-m1-cBA_4v5v-a3-m1-cBQ 4v5v-a3-m1-cBB_4v5v-a3-m1-cBC 4v5v-a3-m1-cBC_4v5v-a3-m1-cBD 4v5v-a3-m1-cBD_4v5v-a3-m1-cBE 4v5v-a3-m1-cBE_4v5v-a3-m1-cBF 4v5v-a3-m1-cBF_4v5v-a3-m1-cBG 4v5v-a3-m1-cBG_4v5v-a3-m1-cBH 4v5v-a3-m1-cBH_4v5v-a3-m1-cBI 4v5v-a3-m1-cBI_4v5v-a3-m1-cBQ 4v5v-a4-m1-cBJ_4v5v-a4-m1-cBK 4v5v-a4-m1-cBJ_4v5v-a4-m1-cBZ 4v5v-a4-m1-cBK_4v5v-a4-m1-cBL 4v5v-a4-m1-cBL_4v5v-a4-m1-cBM 4v5v-a4-m1-cBM_4v5v-a4-m1-cBN 4v5v-a4-m1-cBN_4v5v-a4-m1-cBO 4v5v-a4-m1-cBO_4v5v-a4-m1-cBP 4v5v-a4-m1-cBP_4v5v-a4-m1-cBW 4v5v-a4-m1-cBW_4v5v-a4-m1-cBY 4v5v-a4-m1-cBY_4v5v-a4-m1-cBZ ALSKVKLNDTLNKDQLLSSSKYTIQRSTGDSIDTPNYDVQKHINKLCGMLLITEDANHKFTGLIGMLYAMSRLGREDTIKILRDAGYHVKANGVDVTTHRQDINGKEMKFEVLTLASLTTEIQINIEIESRKSYKKMLKEMGEVAPEYRHDSPDCGMIILCIAALVITKLAAGDRSGLTAVIRRANNVLKNEMKRYKGLLPKDIANSFYEVFEKHPHFIDVFVHFGIAQSSTRGGSRVEGIFAGLFMNAYGAGQVMLRWGVLAKSVKNIMLGHASVQAEMEQVVEVYEYAQKLGGEAGFYHILNNPKASLLSLTQFPHFSSVVLGNAAGLGIMGEYRGTPRNQDLYDAAKAYAEQLKENGVINYSVLDLT ALSKVKLNDTLNKDQLLSSSKYTIQRSTGDSIDTPNYDVQKHINKLCGMLLITEDANHKFTGLIGMLYAMSRLGREDTIKILRDAGYHVKANGVDVTTHRQDINGKEMKFEVLTLASLTTEIQINIEIESRKSYKKMLKEMGEVAPEYRHDSPDCGMIILCIAALVITKLAAGDRSGLTAVIRRANNVLKNEMKRYKGLLPKDIANSFYEVFEKHPHFIDVFVHFGIAQSSTRGGSRVEGIFAGLFMNAYGAGQVMLRWGVLAKSVKNIMLGHASVQAEMEQVVEVYEYAQKLGGEAGFYHILNNPKASLLSLTQFPHFSSVVLGNAAGLGIMGEYRGTPRNQDLYDAAKAYAEQLKENGVINYSVLDLTAEEL 2wj9-a1-m1-cA_2wj9-a1-m1-cB ArdB Q8VRA1 Q8VRA1 1.62 X-RAY DIFFRACTION 80 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 138 145 TSSACAPETGLQQLVATIVPDEQRISFWPQHFGLIPQWVTLEPRVFGWMDRLCCIWNLYTLNNGGAFMAPEETWVLFNAMNGNRAEMSPEAAGIAACLMTYSHHACRTECYAMTVHYYRLRDYALQHPECSAIMRIID TTSSACAPETGLQQLVATIVPDEQRISFWPQHFGLIPQWVTLEPRVFGWMDRLCENYCGGIWNLYTLNNGGAFMAPEPETWVLFNAMNGNRAEMSPEAAGIAACLMTYSHHACRTECYAMTVHYYRLRDYALQHPECSAIMRIID 2wjd-a1-m1-cA_2wjd-a1-m2-cA Crystal structure of the tyrosine phosphatase Cps4B from Steptococcus pneumoniae TIGR4. Q9AHD4 Q9AHD4 2.799 X-RAY DIFFRACTION 30 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 244 244 GMIDIHSHIVFDVDDGPKSREESKALLAESYRQGVRTIVSTSHRRKGMFETPEEKIAENFLQVREIAKEVASDLVIAYGAEIYYTPDVLDKLEKKRIPTLNDSRYALIEFSMNTPYRDIHSALSKILMLGITPVIAHIERYDALENNEKRVRELIDMGCYTQVNSSHVLKPKLFGERYKFMKKRAQYFLEQDLVHVIASDMHNLDGRPPHMAEAYDLVTQKYGEAKAQELFIDNPRKIVMDQLI GMIDIHSHIVFDVDDGPKSREESKALLAESYRQGVRTIVSTSHRRKGMFETPEEKIAENFLQVREIAKEVASDLVIAYGAEIYYTPDVLDKLEKKRIPTLNDSRYALIEFSMNTPYRDIHSALSKILMLGITPVIAHIERYDALENNEKRVRELIDMGCYTQVNSSHVLKPKLFGERYKFMKKRAQYFLEQDLVHVIASDMHNLDGRPPHMAEAYDLVTQKYGEAKAQELFIDNPRKIVMDQLI 2wk1-a1-m1-cA_2wk1-a1-m2-cA Structure of the O-methyltransferase NovP Q9L9F2 Q9L9F2 1.4 X-RAY DIFFRACTION 63 1.0 242 242 DSSLYLDLMIKVLAGTVYEDPAHRETYREEVRNEGRDWPANAHTMIGIKRLENIRQCVEDVIGNNVPGDLVETGVWRGGACILMRGILRAHDVRDRTVWVADSFQGIPDVGEDGYAGDRKMALHRRNSVLAVSEEEVRRNFRNYDLLDEQVRFLPGWFKDTLPTAPIDTLAVLRMDGDLYESTWDTLTNLYPKVSVGGYVIVDDYMMCPPCKDAVDEYRAKFDIADELITIDRDGVYWQRTR DSSLYLDLMIKVLAGTVYEDPAHRETYREEVRNEGRDWPANAHTMIGIKRLENIRQCVEDVIGNNVPGDLVETGVWRGGACILMRGILRAHDVRDRTVWVADSFQGIPDVGEDGYAGDRKMALHRRNSVLAVSEEEVRRNFRNYDLLDEQVRFLPGWFKDTLPTAPIDTLAVLRMDGDLYESTWDTLTNLYPKVSVGGYVIVDDYMMCPPCKDAVDEYRAKFDIADELITIDRDGVYWQRTR 2wk4-a1-m1-cA_2wk4-a1-m1-cB Dimeric structure of D347G D348G mutant of the sapporovirus RNA dependent RNA polymerase Q69014 Q69014 2.98 X-RAY DIFFRACTION 120 1.0 95342 (Sapporo virus) 95342 (Sapporo virus) 499 502 QWKGLPVVKSGLDVGGMPTGTRYHRSPAWPEEQPGETHAPAPFGSGDKRYTFSQTEMLVNGLKPYTEPTAGVPPQLLSRAVTHVRSYIETIIGTHRSPVLTYHQACELLERTTSCGPFVQGLKGDYWDEEQQQYTGVLANHLEQAWDKANKGIAPRNAYKLALKDELRPIEKNKAGKRRLLWGCDAATTLIATAAFKAVATRLQVVTPMTPVAVGINMDSVQMQVMNDSLKGGVLYCLDYSKWDSTQNPAVTAASLAILERFAEPHPIVSCAIEALSSPAEGYVNDIKFVTRGGLPSGMPFTSVVNSINHMIYVAAAILQAYESHNVPYTGNVFQVETIHTYGGGCMYSVCPATASIFHTVLANLTSYGLKPTAADKSDAIKPTNTPVFLKRTFTQTPHGIRALLDITSITRQFYWLKANRTSDPSSPPAFDRQARSAQLENALAYASQHGPVMFDTVRQIAIKTAQGEGLVLVNTNYDQALATYNAWFIGGTVPDPVG DEFQWKGLPVVKSGLDVGGMPTGTRYHRSPAWPEEQPGETHAPAPFGSGDKRYTFSQTEMLVNGLKPYTEPTAGVPPQLLSRAVTHVRSYIETIIGTHRSPVLTYHQACELLERTTSCGPFVQGLKGDYWDEEQQQYTGVLANHLEQAWDKANKGIAPRNAYKLALKDELRPIEKNKAGKRRLLWGCDAATTLIATAAFKAVATRLQVVTPMTPVAVGINMDSVQMQVMNDSLKGGVLYCLDYSKWDSTQNPAVTAASLAILERFAEPHPIVSCAIEALSSPAEGYVNDIKFVTRGGLPSGMPFTSVVNSINHMIYVAAAILQAYESHNVPYTGNVFQVETIHTYGGGCMYSVCPATASIFHTVLANLTSYGLKPTAADKSDAIKPTNTPVFLKRTFTQTPHGIRALLDITSITRQFYWLKANRTSDPSSPPAFDRQARSAQLENALAYASQHGPVMFDTVRQIAIKTAQGEGLVLVNTNYDQALATYNAWFIGGTVPDPVG 2wkb-a2-m1-cA_2wkb-a2-m1-cC Crystal Structure of Macrophage Migration Inhibitory Factor from Plasmodium berghei 1.78 X-RAY DIFFRACTION 81 1.0 5823 (Plasmodium berghei ANKA) 5823 (Plasmodium berghei ANKA) 105 114 2wkb-a2-m1-cA_2wkb-a2-m1-cB PCELITNISIPDDKAQNTLSEIEDAISNILGKPVAYIMSNYDYQKNLRFSGSNEGYCFVRLTSISNNSLLADKITKILSNHLSVKPRRVYIEFRDNFAFSGSLFG PCELITNISIPDDKAQNTLSEIEDAISNILGKPVAYIMSNYDYQKNLRFSGSNEGYCFVRLTSIGGINRSNNSLLADKITKILSNHLSVKPRRVYIEFRDCSAQNFAFSGSLFG 2wkc-a1-m1-cA_2wkc-a1-m1-cC Crystal structure from a single-stranded DNA binding protein from the lactococcal phage p2 Q09WL7 Q09WL7 2.6 X-RAY DIFFRACTION 38 1.0 254252 (Lactococcus virus P2) 254252 (Lactococcus virus P2) 90 90 GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEKGSNVKVAYGSAFLPDFIQLGDTVTVSGRVQAKESGEYVNYNFVFPTVEKVFIT GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEKGSNVKVAYGSAFLPDFIQLGDTVTVSGRVQAKESGEYVNYNFVFPTVEKVFIT 2wkc-a1-m1-cB_2wkc-a1-m1-cA Crystal structure from a single-stranded DNA binding protein from the lactococcal phage p2 Q09WL7 Q09WL7 2.6 X-RAY DIFFRACTION 98 1.0 254252 (Lactococcus virus P2) 254252 (Lactococcus virus P2) 89 90 GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEKGSNVKVAYGSAFLPDFIQLGDTVTVSGRVQAKESGEYVNYNFVFPTVEKVFI GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEKGSNVKVAYGSAFLPDFIQLGDTVTVSGRVQAKESGEYVNYNFVFPTVEKVFIT 2wkc-a1-m1-cB_2wkc-a1-m1-cC Crystal structure from a single-stranded DNA binding protein from the lactococcal phage p2 Q09WL7 Q09WL7 2.6 X-RAY DIFFRACTION 23 1.0 254252 (Lactococcus virus P2) 254252 (Lactococcus virus P2) 89 90 GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEKGSNVKVAYGSAFLPDFIQLGDTVTVSGRVQAKESGEYVNYNFVFPTVEKVFI GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEKGSNVKVAYGSAFLPDFIQLGDTVTVSGRVQAKESGEYVNYNFVFPTVEKVFIT 2wkd-a1-m1-cA_2wkd-a1-m2-cA Crystal structure of a double Ile-to-Met mutant of protein ORF34 from lactococcus phage p2 Q09WL7 Q09WL7 2.1 X-RAY DIFFRACTION 80 1.0 254252 (Lactococcus virus P2) 254252 (Lactococcus virus P2) 77 77 GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEVKVAYGSAFPDFIQGDTVTVSGRVQAKNYNFVFPTVEKVFI GTIITVTAQANEKNTRTVSTAKGDKKIISVPLFEKEVKVAYGSAFPDFIQGDTVTVSGRVQAKNYNFVFPTVEKVFI 2wkn-a2-m1-cF_2wkn-a2-m1-cH gamma lactamase from Delftia acidovorans A9BPK4 A9BPK4 2.08 X-RAY DIFFRACTION 305 1.0 80866 (Delftia acidovorans) 80866 (Delftia acidovorans) 408 408 2wkn-a1-m1-cA_2wkn-a1-m1-cB 2wkn-a1-m1-cC_2wkn-a1-m1-cD 2wkn-a2-m1-cE_2wkn-a2-m1-cG AETLIKVDLNQSPYDNPQVHNRWHPDIPMAVWVEPGAEFKLETYDWTGGAIKNDDSAEDVRDVDLSTVHFLSGPVGVKGAEPGDLLVVDLLDIGARDDSLWGFNGFFSKQNGGGFLDEHFPLAQKSIWDFHGMFTKSRHIPGVNFAGLIHPGLIGCLPDPKMLASWNERETGLIATDPDRIPGLANPPNATTAHMGQMQGEARDKAAAEGARTVPPREHGGNCDIKDLSRGSRVFFPVYVDGAGLSVGDLHFSQGDGEITFCGAIEMAGWVHMKVSLIKGGMAKYGIKNPIFKPSPMTPNYKDYLIFEGISVDEKGKQHYLDVTVAYRQACLNAIEYLKKFGYSGAQAYSLLGTAPVQGHISGVVDVPNACATLWLPTEIFDFDINPTAEGPQKIITGGVDLPIAQDK AETLIKVDLNQSPYDNPQVHNRWHPDIPMAVWVEPGAEFKLETYDWTGGAIKNDDSAEDVRDVDLSTVHFLSGPVGVKGAEPGDLLVVDLLDIGARDDSLWGFNGFFSKQNGGGFLDEHFPLAQKSIWDFHGMFTKSRHIPGVNFAGLIHPGLIGCLPDPKMLASWNERETGLIATDPDRIPGLANPPNATTAHMGQMQGEARDKAAAEGARTVPPREHGGNCDIKDLSRGSRVFFPVYVDGAGLSVGDLHFSQGDGEITFCGAIEMAGWVHMKVSLIKGGMAKYGIKNPIFKPSPMTPNYKDYLIFEGISVDEKGKQHYLDVTVAYRQACLNAIEYLKKFGYSGAQAYSLLGTAPVQGHISGVVDVPNACATLWLPTEIFDFDINPTAEGPQKIITGGVDLPIAQDK 2wkn-a2-m1-cG_2wkn-a2-m1-cH gamma lactamase from Delftia acidovorans A9BPK4 A9BPK4 2.08 X-RAY DIFFRACTION 56 1.0 80866 (Delftia acidovorans) 80866 (Delftia acidovorans) 408 408 2wkn-a1-m1-cA_2wkn-a1-m1-cD 2wkn-a1-m1-cB_2wkn-a1-m1-cC 2wkn-a2-m1-cE_2wkn-a2-m1-cF AETLIKVDLNQSPYDNPQVHNRWHPDIPMAVWVEPGAEFKLETYDWTGGAIKNDDSAEDVRDVDLSTVHFLSGPVGVKGAEPGDLLVVDLLDIGARDDSLWGFNGFFSKQNGGGFLDEHFPLAQKSIWDFHGMFTKSRHIPGVNFAGLIHPGLIGCLPDPKMLASWNERETGLIATDPDRIPGLANPPNATTAHMGQMQGEARDKAAAEGARTVPPREHGGNCDIKDLSRGSRVFFPVYVDGAGLSVGDLHFSQGDGEITFCGAIEMAGWVHMKVSLIKGGMAKYGIKNPIFKPSPMTPNYKDYLIFEGISVDEKGKQHYLDVTVAYRQACLNAIEYLKKFGYSGAQAYSLLGTAPVQGHISGVVDVPNACATLWLPTEIFDFDINPTAEGPQKIITGGVDLPIAQDK AETLIKVDLNQSPYDNPQVHNRWHPDIPMAVWVEPGAEFKLETYDWTGGAIKNDDSAEDVRDVDLSTVHFLSGPVGVKGAEPGDLLVVDLLDIGARDDSLWGFNGFFSKQNGGGFLDEHFPLAQKSIWDFHGMFTKSRHIPGVNFAGLIHPGLIGCLPDPKMLASWNERETGLIATDPDRIPGLANPPNATTAHMGQMQGEARDKAAAEGARTVPPREHGGNCDIKDLSRGSRVFFPVYVDGAGLSVGDLHFSQGDGEITFCGAIEMAGWVHMKVSLIKGGMAKYGIKNPIFKPSPMTPNYKDYLIFEGISVDEKGKQHYLDVTVAYRQACLNAIEYLKKFGYSGAQAYSLLGTAPVQGHISGVVDVPNACATLWLPTEIFDFDINPTAEGPQKIITGGVDLPIAQDK 2wl3-a1-m4-cD_2wl3-a1-m2-cC crystal structure of catechol 2,3-dioxygenase Q6REQ5 Q6REQ5 2.2 X-RAY DIFFRACTION 20 0.996 186196 (Rhodococcus sp. DK17) 186196 (Rhodococcus sp. DK17) 273 277 2wl3-a1-m1-cD_2wl3-a1-m3-cC 2wl3-a1-m2-cD_2wl3-a1-m1-cC 2wl3-a1-m3-cD_2wl3-a1-m4-cC 2wl3-a2-m1-cB_2wl3-a2-m5-cA 2wl3-a2-m5-cB_2wl3-a2-m7-cA 2wl3-a2-m6-cB_2wl3-a2-m1-cA 2wl3-a2-m7-cB_2wl3-a2-m6-cA 2wl9-a1-m1-cD_2wl9-a1-m3-cC 2wl9-a1-m2-cD_2wl9-a1-m1-cC 2wl9-a1-m3-cD_2wl9-a1-m4-cC 2wl9-a1-m4-cD_2wl9-a1-m2-cC 2wl9-a2-m1-cB_2wl9-a2-m5-cA 2wl9-a2-m5-cB_2wl9-a2-m7-cA 2wl9-a2-m6-cB_2wl9-a2-m1-cA 2wl9-a2-m7-cB_2wl9-a2-m6-cA AKVTELGYLGLSVSNLDAWRDYAAGIGQVVDDGEDDRIYLRDRWHHRIVLHADGSDDLAYIGWRVAGPVELDELAEQLKNAGIPFEVASDADAAERRVLGLVKLHDPGGNPTEIFYGPQVDTSSPFHPGRPFGKFVTEGQGLGHIIIREDDVEEATRFYRLLGLEGAVEYKFAVGTPVFHCNDRHHSLAFGVGPDKRINHLIEYTHLDDLGYAHDLVRQQKIDVTLQIGKHSNDEALTFYCANPSGWLWEPGWGSRPAPAQQEHYLRDIFGHD AKVTELGYLGLSVSNLDAWRDYAAGIGQVVDDGEDDRIYLRDRWHHRIVLHADGSDDLAYIGWRVAGPVELDELAEQLKNAGIPFEVASDADAAERRVLGLVKLHDPGGNPTEIFYGPQVDTSSPFHPGRPFGKFVTEGQGLGHIIIREDDVEEATRFYRLLGLEGAVEYKFALPNGAVGTPVFHCNDRHHSLAFGVGPDKRINHLIEYTHLDDLGYAHDLVRQQKIDVTLQIGKHSNDEALTFYCANPSGWLWEPGWGSRPAPAQQEHYLRDIFGH 2wl3-a1-m4-cD_2wl3-a1-m4-cC crystal structure of catechol 2,3-dioxygenase Q6REQ5 Q6REQ5 2.2 X-RAY DIFFRACTION 36 0.996 186196 (Rhodococcus sp. DK17) 186196 (Rhodococcus sp. DK17) 273 277 2wl3-a1-m1-cD_2wl3-a1-m1-cC 2wl3-a1-m2-cD_2wl3-a1-m2-cC 2wl3-a1-m3-cD_2wl3-a1-m3-cC 2wl3-a2-m1-cB_2wl3-a2-m1-cA 2wl3-a2-m5-cB_2wl3-a2-m5-cA 2wl3-a2-m6-cB_2wl3-a2-m6-cA 2wl3-a2-m7-cB_2wl3-a2-m7-cA 2wl9-a1-m1-cD_2wl9-a1-m1-cC 2wl9-a1-m2-cD_2wl9-a1-m2-cC 2wl9-a1-m3-cD_2wl9-a1-m3-cC 2wl9-a1-m4-cD_2wl9-a1-m4-cC 2wl9-a2-m1-cB_2wl9-a2-m1-cA 2wl9-a2-m5-cB_2wl9-a2-m5-cA 2wl9-a2-m6-cB_2wl9-a2-m6-cA 2wl9-a2-m7-cB_2wl9-a2-m7-cA AKVTELGYLGLSVSNLDAWRDYAAGIGQVVDDGEDDRIYLRDRWHHRIVLHADGSDDLAYIGWRVAGPVELDELAEQLKNAGIPFEVASDADAAERRVLGLVKLHDPGGNPTEIFYGPQVDTSSPFHPGRPFGKFVTEGQGLGHIIIREDDVEEATRFYRLLGLEGAVEYKFAVGTPVFHCNDRHHSLAFGVGPDKRINHLIEYTHLDDLGYAHDLVRQQKIDVTLQIGKHSNDEALTFYCANPSGWLWEPGWGSRPAPAQQEHYLRDIFGHD AKVTELGYLGLSVSNLDAWRDYAAGIGQVVDDGEDDRIYLRDRWHHRIVLHADGSDDLAYIGWRVAGPVELDELAEQLKNAGIPFEVASDADAAERRVLGLVKLHDPGGNPTEIFYGPQVDTSSPFHPGRPFGKFVTEGQGLGHIIIREDDVEEATRFYRLLGLEGAVEYKFALPNGAVGTPVFHCNDRHHSLAFGVGPDKRINHLIEYTHLDDLGYAHDLVRQQKIDVTLQIGKHSNDEALTFYCANPSGWLWEPGWGSRPAPAQQEHYLRDIFGH 2wl7-a1-m2-cA_2wl7-a1-m3-cA Crystal structure of the PSD93 PDZ1 domain Q91XM9 Q91XM9 2.028 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 96 96 2wl7-a1-m1-cA_2wl7-a1-m2-cA 2wl7-a1-m1-cA_2wl7-a1-m3-cA EFEFEEITLERGNSGLGFSIAGGTDNPHIGDDPGIFITKIIPGGAAAEDGRLRVNDCILRVNEVDVSEVSHSKAVEALKEAGSIVRLYVRRRRPIL EFEFEEITLERGNSGLGFSIAGGTDNPHIGDDPGIFITKIIPGGAAAEDGRLRVNDCILRVNEVDVSEVSHSKAVEALKEAGSIVRLYVRRRRPIL 2wl9-a2-m6-cA_2wl9-a2-m7-cA Crystal structure of catechol 2,3-dioxygenase Q6REQ5 Q6REQ5 1.9 X-RAY DIFFRACTION 52 1.0 186196 (Rhodococcus sp. DK17) 186196 (Rhodococcus sp. DK17) 300 300 2wl3-a1-m1-cC_2wl3-a1-m2-cC 2wl3-a1-m1-cC_2wl3-a1-m3-cC 2wl3-a1-m1-cD_2wl3-a1-m2-cD 2wl3-a1-m1-cD_2wl3-a1-m3-cD 2wl3-a1-m2-cC_2wl3-a1-m4-cC 2wl3-a1-m2-cD_2wl3-a1-m4-cD 2wl3-a1-m3-cC_2wl3-a1-m4-cC 2wl3-a1-m3-cD_2wl3-a1-m4-cD 2wl3-a2-m1-cA_2wl3-a2-m5-cA 2wl3-a2-m1-cA_2wl3-a2-m6-cA 2wl3-a2-m1-cB_2wl3-a2-m5-cB 2wl3-a2-m1-cB_2wl3-a2-m6-cB 2wl3-a2-m5-cA_2wl3-a2-m7-cA 2wl3-a2-m5-cB_2wl3-a2-m7-cB 2wl3-a2-m6-cA_2wl3-a2-m7-cA 2wl3-a2-m6-cB_2wl3-a2-m7-cB 2wl9-a1-m1-cC_2wl9-a1-m2-cC 2wl9-a1-m1-cC_2wl9-a1-m3-cC 2wl9-a1-m1-cD_2wl9-a1-m2-cD 2wl9-a1-m1-cD_2wl9-a1-m3-cD 2wl9-a1-m2-cC_2wl9-a1-m4-cC 2wl9-a1-m2-cD_2wl9-a1-m4-cD 2wl9-a1-m3-cC_2wl9-a1-m4-cC 2wl9-a1-m3-cD_2wl9-a1-m4-cD 2wl9-a2-m1-cA_2wl9-a2-m5-cA 2wl9-a2-m1-cA_2wl9-a2-m6-cA 2wl9-a2-m1-cB_2wl9-a2-m5-cB 2wl9-a2-m1-cB_2wl9-a2-m6-cB 2wl9-a2-m5-cA_2wl9-a2-m7-cA 2wl9-a2-m5-cB_2wl9-a2-m7-cB 2wl9-a2-m6-cB_2wl9-a2-m7-cB MAKVTELGYLGLSVSNLDAWRDYAAGIMGMQVVDDGEDDRIYLRMDRWHHRIVLHADGSDDLAYIGWRVAGPVELDELAEQLKNAGIPFEVASDADAAERRVLGLVKLHDPGGNPTEIFYGPQVDTSSPFHPGRPMFGKFVTEGQGLGHIIIREDDVEEATRFYRLLGLEGAVEYKFALPNGAVGTPVFMHCNDRHHSLAFGVGPMDKRINHLMIEYTHLDDLGYAHDLVRQQKIDVTLQIGKHSNDEALTFYCANPSGWLWEPGWGSRPAPAQQEHYLRDIFGHDNEVEGYGLDIPLKG MAKVTELGYLGLSVSNLDAWRDYAAGIMGMQVVDDGEDDRIYLRMDRWHHRIVLHADGSDDLAYIGWRVAGPVELDELAEQLKNAGIPFEVASDADAAERRVLGLVKLHDPGGNPTEIFYGPQVDTSSPFHPGRPMFGKFVTEGQGLGHIIIREDDVEEATRFYRLLGLEGAVEYKFALPNGAVGTPVFMHCNDRHHSLAFGVGPMDKRINHLMIEYTHLDDLGYAHDLVRQQKIDVTLQIGKHSNDEALTFYCANPSGWLWEPGWGSRPAPAQQEHYLRDIFGHDNEVEGYGLDIPLKG 2wle-a1-m1-cA_2wle-a1-m1-cC Crystallographic analysis of the polysialic acid O-acetyltransferase OatWY Q93S40 Q93S40 2.19 X-RAY DIFFRACTION 63 1.0 648194 (Neisseria meningitidis serogroup Y) 648194 (Neisseria meningitidis serogroup Y) 209 211 2wlc-a1-m1-cA_2wlc-a1-m2-cA 2wlc-a1-m1-cA_2wlc-a1-m3-cA 2wlc-a1-m2-cA_2wlc-a1-m3-cA 2wld-a1-m1-cA_2wld-a1-m1-cB 2wld-a1-m1-cA_2wld-a1-m1-cC 2wld-a1-m1-cB_2wld-a1-m1-cC 2wle-a1-m1-cA_2wle-a1-m1-cB 2wle-a1-m1-cB_2wle-a1-m1-cC 2wlf-a1-m1-cA_2wlf-a1-m1-cB 2wlf-a1-m1-cA_2wlf-a1-m1-cC 2wlf-a1-m1-cB_2wlf-a1-m1-cC 2wlg-a1-m1-cB_2wlg-a1-m1-cA 2wlg-a1-m1-cB_2wlg-a1-m1-cC 2wlg-a1-m1-cC_2wlg-a1-m1-cA YSEQGINNTINISTTSLTNATQLTVIGNNNSVYIGNNCKIVSSNIRLKGNNITLFIADDVEIMGLVCSLHSDCSLQIQAKTTMGNGEITIAEKGKISIGKDCMLAHGYEIRNTDMHPIYSLENGERINHGKDVIIGNHVWLGRNVTILKGVCIPNNVVVGSHTVLYKSFKEPNCVIAGSPAKIVKENIVWGRKMYHSTMYDDPTLNEFY MYSEQGINNTINISTTSLTNATQLTVIGNNNSVYIGNNCKIVSSNIRLKGNNITLFIADDVEIMGLVCSLHSDCSLQIQAKTTMGNGEITIAEKGKISIGKDCMLAHGYEIRNTDMHPIYSLENGERINHGKDVIIGNHVWLGRNVTILKGVCIPNNVVVGSHTVLYKSFKEPNCVIAGSPAKIVKENIVWGRKMYHSTMYDDPTLNEFYK 2wlh-a1-m3-cA_2wlh-a1-m4-cA POTASSIUM CHANNEL FROM MAGNETOSPIRILLUM MAGNETOTACTICUM D9N164 D9N164 3.28 X-RAY DIFFRACTION 144 1.0 188 (Magnetospirillum magnetotacticum) 188 (Magnetospirillum magnetotacticum) 283 283 1xl4-a1-m1-cB_1xl4-a1-m1-cA 1xl4-a1-m1-cB_1xl4-a1-m2-cA 1xl4-a1-m2-cB_1xl4-a1-m1-cA 1xl4-a1-m2-cB_1xl4-a1-m2-cA 1xl6-a1-m1-cA_1xl6-a1-m1-cB 1xl6-a1-m1-cA_1xl6-a1-m2-cB 1xl6-a1-m1-cB_1xl6-a1-m2-cA 1xl6-a1-m2-cA_1xl6-a1-m2-cB 2wlh-a1-m1-cA_2wlh-a1-m2-cA 2wlh-a1-m1-cA_2wlh-a1-m3-cA 2wlh-a1-m2-cA_2wlh-a1-m4-cA 2wli-a1-m1-cB_2wli-a1-m1-cA 2wlj-a1-m1-cB_2wlj-a1-m1-cA 2wlj-a1-m1-cB_2wlj-a1-m2-cA 2wlj-a1-m2-cB_2wlj-a1-m1-cA 2wlj-a1-m2-cB_2wlj-a1-m2-cA 2wlk-a1-m1-cA_2wlk-a1-m1-cB 2wlk-a1-m1-cA_2wlk-a1-m2-cB 2wlk-a1-m1-cB_2wlk-a1-m2-cA 2wlk-a1-m2-cA_2wlk-a1-m2-cB 2wlm-a1-m1-cA_2wlm-a1-m1-cB 2wlm-a1-m1-cA_2wlm-a1-m1-cD 2wlm-a1-m1-cB_2wlm-a1-m1-cC 2wlm-a1-m1-cC_2wlm-a1-m1-cD 2wln-a1-m1-cA_2wln-a1-m1-cB 2wln-a1-m1-cA_2wln-a1-m1-cD 2wln-a1-m1-cB_2wln-a1-m1-cC 2wln-a1-m1-cC_2wln-a1-m1-cD 2wln-a2-m1-cE_2wln-a2-m1-cF 2wln-a2-m1-cE_2wln-a2-m1-cH 2wln-a2-m1-cF_2wln-a2-m1-cG 2wln-a2-m1-cG_2wln-a2-m1-cH 2wlo-a1-m1-cB_2wlo-a1-m1-cA 2x6a-a1-m1-cA_2x6a-a1-m2-cA 2x6a-a1-m1-cA_2x6a-a1-m4-cA 2x6a-a1-m2-cA_2x6a-a1-m3-cA 2x6a-a1-m3-cA_2x6a-a1-m4-cA 2x6b-a1-m1-cA_2x6b-a1-m2-cA 2x6b-a1-m1-cA_2x6b-a1-m4-cA 2x6b-a1-m2-cA_2x6b-a1-m3-cA 2x6b-a1-m3-cA_2x6b-a1-m4-cA 2x6c-a1-m1-cA_2x6c-a1-m2-cA 2x6c-a1-m1-cA_2x6c-a1-m3-cA 2x6c-a1-m2-cA_2x6c-a1-m4-cA 2x6c-a1-m3-cA_2x6c-a1-m4-cA 3zrs-a1-m1-cA_3zrs-a1-m2-cA 3zrs-a1-m1-cA_3zrs-a1-m4-cA 3zrs-a1-m2-cA_3zrs-a1-m3-cA 3zrs-a1-m3-cA_3zrs-a1-m4-cA 4lp8-a1-m1-cA_4lp8-a1-m3-cA 4lp8-a1-m1-cA_4lp8-a1-m4-cA 4lp8-a1-m2-cA_4lp8-a1-m3-cA 4lp8-a1-m2-cA_4lp8-a1-m4-cA 6o9t-a1-m1-cA_6o9t-a1-m3-cA 6o9t-a1-m1-cA_6o9t-a1-m4-cA 6o9t-a1-m2-cA_6o9t-a1-m3-cA 6o9t-a1-m2-cA_6o9t-a1-m4-cA 6o9u-a1-m1-cA_6o9u-a1-m3-cA 6o9u-a1-m1-cA_6o9u-a1-m4-cA 6o9u-a1-m2-cA_6o9u-a1-m3-cA 6o9u-a1-m2-cA_6o9u-a1-m4-cA 6o9v-a1-m1-cA_6o9v-a1-m1-cB 6o9v-a1-m1-cA_6o9v-a1-m2-cB 6o9v-a1-m2-cA_6o9v-a1-m1-cB 6o9v-a1-m2-cA_6o9v-a1-m2-cB 7adi-a1-m1-cB_7adi-a1-m1-cA 7adi-a1-m1-cB_7adi-a1-m2-cA 7adi-a1-m2-cB_7adi-a1-m1-cA 7adi-a1-m2-cB_7adi-a1-m2-cA 7n9k-a1-m1-cA_7n9k-a1-m3-cA 7n9k-a1-m1-cA_7n9k-a1-m4-cA 7n9k-a1-m2-cA_7n9k-a1-m3-cA 7n9k-a1-m2-cA_7n9k-a1-m4-cA 7n9l-a1-m1-cA_7n9l-a1-m3-cA 7n9l-a1-m1-cA_7n9l-a1-m4-cA 7n9l-a1-m2-cA_7n9l-a1-m3-cA 7n9l-a1-m2-cA_7n9l-a1-m4-cA PRILNSDGSSNITRLGWLDDHYHDLLTVSWPVFITLITGLYLVTNALFALAYLACGDVIENARPGSFTDAFFFSVQTMATIGYGKLIPIGPLANTLVTLEALCGMLGLAVAASLIYARFTRPTAGVLFSSRMVISDFEGKPTLMMRLANLRIEQIIEADVHLVLVRSEISQEGMVFRRFHDLTLTRSRSPIFSLSWTVMHPIDHHSPIYGETDETLRNSHSEFLVLFTGHHEAFAQNVHARHAYSCDEIIWGGHFVDVFTTLPDGRRALDLGKFHEIAQHHHH PRILNSDGSSNITRLGWLDDHYHDLLTVSWPVFITLITGLYLVTNALFALAYLACGDVIENARPGSFTDAFFFSVQTMATIGYGKLIPIGPLANTLVTLEALCGMLGLAVAASLIYARFTRPTAGVLFSSRMVISDFEGKPTLMMRLANLRIEQIIEADVHLVLVRSEISQEGMVFRRFHDLTLTRSRSPIFSLSWTVMHPIDHHSPIYGETDETLRNSHSEFLVLFTGHHEAFAQNVHARHAYSCDEIIWGGHFVDVFTTLPDGRRALDLGKFHEIAQHHHH 2wlt-a1-m1-cA_2wlt-a1-m4-cA The crystal structure of Helicobacter pylori L-asparaginase at 1.4 A resolution Q9ZLB9 Q9ZLB9 1.4 X-RAY DIFFRACTION 55 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 326 326 2wlt-a1-m2-cA_2wlt-a1-m3-cA 2wt4-a1-m1-cA_2wt4-a1-m4-cA 2wt4-a1-m2-cA_2wt4-a1-m3-cA LPTIALLATGGTIAGSGASLGSYKSGELGVKELLKAIPSLNKIARIQGEQVSNIGSQDMNEEIWFKLAQRAQELLDDSRIQGVVITHGTDTLEESAYFLNLVLHSTKPVVLVGAMRNASSLSADGALNLYEAVSVAVNEKSANKGVLVVMDDTIFSVREVVKTHTTHVSTFKALNSGAIGSVYYGKTRYYMQPLRKHTTESEFSLSQLKTPLPKVDIIYTHAGMTPDLFQASLNSHAKGVVIAGVGNGNVSAGFLKAMQEASQMGVVIVRSSRVGSGGVTSGEIDDKAYGFITSDNLNPQKARVLLQLALTKTNDKAKIQEMFEEY LPTIALLATGGTIAGSGASLGSYKSGELGVKELLKAIPSLNKIARIQGEQVSNIGSQDMNEEIWFKLAQRAQELLDDSRIQGVVITHGTDTLEESAYFLNLVLHSTKPVVLVGAMRNASSLSADGALNLYEAVSVAVNEKSANKGVLVVMDDTIFSVREVVKTHTTHVSTFKALNSGAIGSVYYGKTRYYMQPLRKHTTESEFSLSQLKTPLPKVDIIYTHAGMTPDLFQASLNSHAKGVVIAGVGNGNVSAGFLKAMQEASQMGVVIVRSSRVGSGGVTSGEIDDKAYGFITSDNLNPQKARVLLQLALTKTNDKAKIQEMFEEY 2wlt-a1-m2-cA_2wlt-a1-m4-cA The crystal structure of Helicobacter pylori L-asparaginase at 1.4 A resolution Q9ZLB9 Q9ZLB9 1.4 X-RAY DIFFRACTION 61 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 326 326 2wlt-a1-m1-cA_2wlt-a1-m3-cA 2wt4-a1-m1-cA_2wt4-a1-m3-cA 2wt4-a1-m2-cA_2wt4-a1-m4-cA LPTIALLATGGTIAGSGASLGSYKSGELGVKELLKAIPSLNKIARIQGEQVSNIGSQDMNEEIWFKLAQRAQELLDDSRIQGVVITHGTDTLEESAYFLNLVLHSTKPVVLVGAMRNASSLSADGALNLYEAVSVAVNEKSANKGVLVVMDDTIFSVREVVKTHTTHVSTFKALNSGAIGSVYYGKTRYYMQPLRKHTTESEFSLSQLKTPLPKVDIIYTHAGMTPDLFQASLNSHAKGVVIAGVGNGNVSAGFLKAMQEASQMGVVIVRSSRVGSGGVTSGEIDDKAYGFITSDNLNPQKARVLLQLALTKTNDKAKIQEMFEEY LPTIALLATGGTIAGSGASLGSYKSGELGVKELLKAIPSLNKIARIQGEQVSNIGSQDMNEEIWFKLAQRAQELLDDSRIQGVVITHGTDTLEESAYFLNLVLHSTKPVVLVGAMRNASSLSADGALNLYEAVSVAVNEKSANKGVLVVMDDTIFSVREVVKTHTTHVSTFKALNSGAIGSVYYGKTRYYMQPLRKHTTESEFSLSQLKTPLPKVDIIYTHAGMTPDLFQASLNSHAKGVVIAGVGNGNVSAGFLKAMQEASQMGVVIVRSSRVGSGGVTSGEIDDKAYGFITSDNLNPQKARVLLQLALTKTNDKAKIQEMFEEY 2wlt-a1-m3-cA_2wlt-a1-m4-cA The crystal structure of Helicobacter pylori L-asparaginase at 1.4 A resolution Q9ZLB9 Q9ZLB9 1.4 X-RAY DIFFRACTION 176 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 326 326 2wlt-a1-m1-cA_2wlt-a1-m2-cA 2wt4-a1-m1-cA_2wt4-a1-m2-cA 2wt4-a1-m3-cA_2wt4-a1-m4-cA LPTIALLATGGTIAGSGASLGSYKSGELGVKELLKAIPSLNKIARIQGEQVSNIGSQDMNEEIWFKLAQRAQELLDDSRIQGVVITHGTDTLEESAYFLNLVLHSTKPVVLVGAMRNASSLSADGALNLYEAVSVAVNEKSANKGVLVVMDDTIFSVREVVKTHTTHVSTFKALNSGAIGSVYYGKTRYYMQPLRKHTTESEFSLSQLKTPLPKVDIIYTHAGMTPDLFQASLNSHAKGVVIAGVGNGNVSAGFLKAMQEASQMGVVIVRSSRVGSGGVTSGEIDDKAYGFITSDNLNPQKARVLLQLALTKTNDKAKIQEMFEEY LPTIALLATGGTIAGSGASLGSYKSGELGVKELLKAIPSLNKIARIQGEQVSNIGSQDMNEEIWFKLAQRAQELLDDSRIQGVVITHGTDTLEESAYFLNLVLHSTKPVVLVGAMRNASSLSADGALNLYEAVSVAVNEKSANKGVLVVMDDTIFSVREVVKTHTTHVSTFKALNSGAIGSVYYGKTRYYMQPLRKHTTESEFSLSQLKTPLPKVDIIYTHAGMTPDLFQASLNSHAKGVVIAGVGNGNVSAGFLKAMQEASQMGVVIVRSSRVGSGGVTSGEIDDKAYGFITSDNLNPQKARVLLQLALTKTNDKAKIQEMFEEY 2wlu-a1-m12-cA_2wlu-a1-m9-cA Iron-bound crystal structure of Streptococcus pyogenes Dpr Q99YU7 Q99YU7 1.94 X-RAY DIFFRACTION 64 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 166 166 2wla-a1-m10-cA_2wla-a1-m7-cA 2wla-a1-m11-cA_2wla-a1-m6-cA 2wla-a1-m12-cA_2wla-a1-m3-cA 2wla-a1-m1-cA_2wla-a1-m8-cA 2wla-a1-m2-cA_2wla-a1-m4-cA 2wla-a1-m5-cA_2wla-a1-m9-cA 2wlu-a1-m10-cA_2wlu-a1-m3-cA 2wlu-a1-m11-cA_2wlu-a1-m8-cA 2wlu-a1-m1-cA_2wlu-a1-m6-cA 2wlu-a1-m2-cA_2wlu-a1-m4-cA 2wlu-a1-m5-cA_2wlu-a1-m7-cA 2xgw-a1-m10-cA_2xgw-a1-m11-cA 2xgw-a1-m12-cA_2xgw-a1-m3-cA 2xgw-a1-m1-cA_2xgw-a1-m7-cA 2xgw-a1-m2-cA_2xgw-a1-m6-cA 2xgw-a1-m4-cA_2xgw-a1-m8-cA 2xgw-a1-m5-cA_2xgw-a1-m9-cA TLVENIYASVTHNSKNEKTKAVLNQAVADLSVAASIVHQVHWYMRGPGFLYLHPKMDELLDSLNANLDEVSERLITIGGAPYSTLAEFSKHSKLDEAKGTYDKTVAQHLARLVEVYLYLSSLYQVGLDITDEEGDAGTNDLFTAAKTEAEKTIWMLQAERGQGPAL TLVENIYASVTHNSKNEKTKAVLNQAVADLSVAASIVHQVHWYMRGPGFLYLHPKMDELLDSLNANLDEVSERLITIGGAPYSTLAEFSKHSKLDEAKGTYDKTVAQHLARLVEVYLYLSSLYQVGLDITDEEGDAGTNDLFTAAKTEAEKTIWMLQAERGQGPAL 2wlu-a1-m2-cA_2wlu-a1-m9-cA Iron-bound crystal structure of Streptococcus pyogenes Dpr Q99YU7 Q99YU7 1.94 X-RAY DIFFRACTION 30 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 166 166 2wla-a1-m10-cA_2wla-a1-m3-cA 2wla-a1-m10-cA_2wla-a1-m8-cA 2wla-a1-m11-cA_2wla-a1-m12-cA 2wla-a1-m11-cA_2wla-a1-m4-cA 2wla-a1-m12-cA_2wla-a1-m4-cA 2wla-a1-m1-cA_2wla-a1-m2-cA 2wla-a1-m1-cA_2wla-a1-m5-cA 2wla-a1-m2-cA_2wla-a1-m5-cA 2wla-a1-m3-cA_2wla-a1-m8-cA 2wla-a1-m6-cA_2wla-a1-m7-cA 2wla-a1-m6-cA_2wla-a1-m9-cA 2wla-a1-m7-cA_2wla-a1-m9-cA 2wlu-a1-m10-cA_2wlu-a1-m2-cA 2wlu-a1-m10-cA_2wlu-a1-m9-cA 2wlu-a1-m11-cA_2wlu-a1-m3-cA 2wlu-a1-m11-cA_2wlu-a1-m6-cA 2wlu-a1-m12-cA_2wlu-a1-m7-cA 2wlu-a1-m12-cA_2wlu-a1-m8-cA 2wlu-a1-m1-cA_2wlu-a1-m4-cA 2wlu-a1-m1-cA_2wlu-a1-m5-cA 2wlu-a1-m3-cA_2wlu-a1-m6-cA 2wlu-a1-m4-cA_2wlu-a1-m5-cA 2wlu-a1-m7-cA_2wlu-a1-m8-cA 2xgw-a1-m10-cA_2xgw-a1-m6-cA 2xgw-a1-m10-cA_2xgw-a1-m9-cA 2xgw-a1-m11-cA_2xgw-a1-m12-cA 2xgw-a1-m11-cA_2xgw-a1-m4-cA 2xgw-a1-m12-cA_2xgw-a1-m4-cA 2xgw-a1-m1-cA_2xgw-a1-m5-cA 2xgw-a1-m1-cA_2xgw-a1-m8-cA 2xgw-a1-m2-cA_2xgw-a1-m3-cA 2xgw-a1-m2-cA_2xgw-a1-m7-cA 2xgw-a1-m3-cA_2xgw-a1-m7-cA 2xgw-a1-m5-cA_2xgw-a1-m8-cA 2xgw-a1-m6-cA_2xgw-a1-m9-cA TLVENIYASVTHNSKNEKTKAVLNQAVADLSVAASIVHQVHWYMRGPGFLYLHPKMDELLDSLNANLDEVSERLITIGGAPYSTLAEFSKHSKLDEAKGTYDKTVAQHLARLVEVYLYLSSLYQVGLDITDEEGDAGTNDLFTAAKTEAEKTIWMLQAERGQGPAL TLVENIYASVTHNSKNEKTKAVLNQAVADLSVAASIVHQVHWYMRGPGFLYLHPKMDELLDSLNANLDEVSERLITIGGAPYSTLAEFSKHSKLDEAKGTYDKTVAQHLARLVEVYLYLSSLYQVGLDITDEEGDAGTNDLFTAAKTEAEKTIWMLQAERGQGPAL 2wlu-a1-m7-cA_2wlu-a1-m9-cA Iron-bound crystal structure of Streptococcus pyogenes Dpr Q99YU7 Q99YU7 1.94 X-RAY DIFFRACTION 29 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 166 166 2wla-a1-m10-cA_2wla-a1-m12-cA 2wla-a1-m10-cA_2wla-a1-m6-cA 2wla-a1-m11-cA_2wla-a1-m2-cA 2wla-a1-m11-cA_2wla-a1-m9-cA 2wla-a1-m12-cA_2wla-a1-m6-cA 2wla-a1-m1-cA_2wla-a1-m3-cA 2wla-a1-m1-cA_2wla-a1-m4-cA 2wla-a1-m2-cA_2wla-a1-m9-cA 2wla-a1-m3-cA_2wla-a1-m4-cA 2wla-a1-m5-cA_2wla-a1-m7-cA 2wla-a1-m5-cA_2wla-a1-m8-cA 2wla-a1-m7-cA_2wla-a1-m8-cA 2wlu-a1-m10-cA_2wlu-a1-m11-cA 2wlu-a1-m10-cA_2wlu-a1-m12-cA 2wlu-a1-m11-cA_2wlu-a1-m12-cA 2wlu-a1-m1-cA_2wlu-a1-m2-cA 2wlu-a1-m1-cA_2wlu-a1-m3-cA 2wlu-a1-m2-cA_2wlu-a1-m3-cA 2wlu-a1-m4-cA_2wlu-a1-m7-cA 2wlu-a1-m4-cA_2wlu-a1-m9-cA 2wlu-a1-m5-cA_2wlu-a1-m6-cA 2wlu-a1-m5-cA_2wlu-a1-m8-cA 2wlu-a1-m6-cA_2wlu-a1-m8-cA 2xgw-a1-m10-cA_2xgw-a1-m12-cA 2xgw-a1-m10-cA_2xgw-a1-m2-cA 2xgw-a1-m11-cA_2xgw-a1-m8-cA 2xgw-a1-m11-cA_2xgw-a1-m9-cA 2xgw-a1-m12-cA_2xgw-a1-m2-cA 2xgw-a1-m1-cA_2xgw-a1-m3-cA 2xgw-a1-m1-cA_2xgw-a1-m4-cA 2xgw-a1-m3-cA_2xgw-a1-m4-cA 2xgw-a1-m5-cA_2xgw-a1-m6-cA 2xgw-a1-m5-cA_2xgw-a1-m7-cA 2xgw-a1-m6-cA_2xgw-a1-m7-cA 2xgw-a1-m8-cA_2xgw-a1-m9-cA TLVENIYASVTHNSKNEKTKAVLNQAVADLSVAASIVHQVHWYMRGPGFLYLHPKMDELLDSLNANLDEVSERLITIGGAPYSTLAEFSKHSKLDEAKGTYDKTVAQHLARLVEVYLYLSSLYQVGLDITDEEGDAGTNDLFTAAKTEAEKTIWMLQAERGQGPAL TLVENIYASVTHNSKNEKTKAVLNQAVADLSVAASIVHQVHWYMRGPGFLYLHPKMDELLDSLNANLDEVSERLITIGGAPYSTLAEFSKHSKLDEAKGTYDKTVAQHLARLVEVYLYLSSLYQVGLDITDEEGDAGTNDLFTAAKTEAEKTIWMLQAERGQGPAL 2wlv-a1-m1-cA_2wlv-a1-m1-cB Structure of the N-terminal capsid domain of HIV-2 P04590 P04590 1.25 X-RAY DIFFRACTION 64 0.986 11713 (Human immunodeficiency virus type 2 (ISOLATE D194)) 11713 (Human immunodeficiency virus type 2 (ISOLATE D194)) 144 144 2x82-a1-m1-cA_2x82-a1-m1-cB 2x82-a2-m1-cC_2x82-a2-m1-cD PVQHVGGTYTHIPLSPRTLNAWVKLVEEKKFGAEVVPGFQALSEGCTPYDINQMLNCVGDHQAAMQIIREIINEEAAEWDVQHPIPGPLPAGQLREPRGSDIAGTTSTVEEQIQWMFRPQNPVPVGNIYRRWIQIGLQKCVRMY PVQHVGGTYTHIPLSPRTLNAWVKLVQQKKFGAEVVPGFQALSEGCTPYDINQMLNCVGDHQAAMQIIREIINEEAAEWDVQHPIPGPLPAGQLREPRGSDIAGTTSTVEEQIQWMFRPQNPVPVGNIYRRWIQIGLQKCVRMY 2wmd-a1-m1-cA_2wmd-a1-m2-cA Crystal structure of NmrA-like family domain containing protein 1 in complex with NADP and 2-(4-chloro-phenylamino)-nicotinic acid Q9HBL8 Q9HBL8 2 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 295 KKLVVVFGGTGAQGGSVARTLLEDGTFKVRVVTRNPRKKAAKELRLQGAEVVQGDQDDQVIMELALNGAYATFIVTNYWESCSQEQEVKQGKLLADLARRLGLHYVVYSGLENIKKLTAGRLAAAHFDGKGEVEEYFRDIGVPMTSVRLPCYFENLLSHFLPQKAPDGKSYLLSLPTGDVPMDGMSVSDLGPVVLSLLKMPEKYVGQNIGLSTCRHTAEEYAALLTKHTRKVVHDAKMTPEDYEKLGFPGARDLANMFRFYALRPDRDIELTLRLNPKALTLDQWLEQHKGDFNL KKLVVVFGGTGAQGGSVARTLLEDGTFKVRVVTRNPRKKAAKELRLQGAEVVQGDQDDQVIMELALNGAYATFIVTNYWESCSQEQEVKQGKLLADLARRLGLHYVVYSGLENIKKLTAGRLAAAHFDGKGEVEEYFRDIGVPMTSVRLPCYFENLLSHFLPQKAPDGKSYLLSLPTGDVPMDGMSVSDLGPVVLSLLKMPEKYVGQNIGLSTCRHTAEEYAALLTKHTRKVVHDAKMTPEDYEKLGFPGARDLANMFRFYALRPDRDIELTLRLNPKALTLDQWLEQHKGDFNL 2wmm-a1-m1-cA_2wmm-a1-m1-cB Crystal structure of the hinge domain of MukB P22523 P22523 2.3 X-RAY DIFFRACTION 115 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 162 162 3ibp-a1-m1-cA_3ibp-a1-m2-cA 4mn4-a1-m1-cD_4mn4-a1-m1-cC HMERDEVGAHKNAVDEEIERLSQPGGSEDQRLNALAERFGGVLLSEIYDDVSLEDAPYFSALYGPSRHAIVVPDLSQVTEHLEGLTDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPEVPLFGRAARESRIESLHAEREVLSERFATL HMERDEVGAHKNAVDEEIERLSQPGGSEDQRLNALAERFGGVLLSEIYDDVSLEDAPYFSALYGPSRHAIVVPDLSQVTEHLEGLTDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPEVPLFGRAARESRIESLHAEREVLSERFATL 2wmn-a1-m1-cA_2wmn-a1-m2-cA Structure of the complex between DOCK9 and Cdc42-GDP. Q9BZ29 Q9BZ29 2.391 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 403 403 2wm9-a1-m1-cA_2wm9-a1-m2-cA 2wmo-a1-m1-cA_2wmo-a1-m2-cA STPELRKTWLDSMARIHVKNGDLSEAAMCYVHVTALVAEYLTRKGVFRQGCTAFRVITPNIDEEAHFNEDVLMELLEQCADGLWKAERYELIADIYKLIIPIYEKRRDFERLAHLYDTLHRAYSKVTEVMHSGRRLLGTYFRVAFFGQGFFEDEDGKEYIYKEPKLTPLSEISQRLLKLYSDKFGSENVKMIQDSGKVNPKDLDSKYAYIQVTHVIPFFDEKELQERKTEFERSHNIRRFMFEMPFTQRQGGVEEQCKRRTILTAIHCFPYVKKRIPVMYQHHTDLNPIEVAIDEMSKKVAELRQLCSSAEVDMIKLQLKLQGSVSVQVNAGPLAYARAFLDDPDNKVKLLKEVFRQFVEACGQALAVNERLIKEDQLEYQEEMKANYREMAKELSEIMHEQL STPELRKTWLDSMARIHVKNGDLSEAAMCYVHVTALVAEYLTRKGVFRQGCTAFRVITPNIDEEAHFNEDVLMELLEQCADGLWKAERYELIADIYKLIIPIYEKRRDFERLAHLYDTLHRAYSKVTEVMHSGRRLLGTYFRVAFFGQGFFEDEDGKEYIYKEPKLTPLSEISQRLLKLYSDKFGSENVKMIQDSGKVNPKDLDSKYAYIQVTHVIPFFDEKELQERKTEFERSHNIRRFMFEMPFTQRQGGVEEQCKRRTILTAIHCFPYVKKRIPVMYQHHTDLNPIEVAIDEMSKKVAELRQLCSSAEVDMIKLQLKLQGSVSVQVNAGPLAYARAFLDDPDNKVKLLKEVFRQFVEACGQALAVNERLIKEDQLEYQEEMKANYREMAKELSEIMHEQL 2wn3-a1-m1-cC_2wn3-a1-m1-cB Crystal structure of Discoidin I from Dictyostelium discoideum in complex with the disaccharide GalNAc beta 1-3 galactose, at 1.6 A resolution. P02886 P02886 1.59 X-RAY DIFFRACTION 158 1.0 366501 (Dictyostelium discoideum AX2) 366501 (Dictyostelium discoideum AX2) 252 253 2w94-a1-m1-cB_2w94-a1-m1-cA 2w94-a1-m1-cB_2w94-a1-m1-cC 2w94-a1-m1-cC_2w94-a1-m1-cA 2w95-a1-m1-cB_2w95-a1-m1-cA 2w95-a1-m1-cB_2w95-a1-m1-cC 2w95-a1-m1-cC_2w95-a1-m1-cA 2wn2-a1-m1-cB_2wn2-a1-m1-cA 2wn2-a1-m1-cB_2wn2-a1-m1-cC 2wn2-a1-m1-cC_2wn2-a1-m1-cA 2wn3-a1-m1-cB_2wn3-a1-m1-cA 2wn3-a1-m1-cC_2wn3-a1-m1-cA STQGLVQLLANAQCHLRTSTNYNGVHTQFNSALNYKNNGTNTIDGSEAWCSSIVDTNQYIVAGCEVPRTFMCVALQGRGDADQWVTSYKIRYSLDNVSWFEYRNGAAVTGVTDRNTVVNHFFDTPIRARSIAIHPLTWNGHISLRCEFYTQPVQSSVTQVGADIYTGDNCALNTGSGKREVVVPVKFQFEFATLPKVALNFDQIDCTDATNQTRIGVQPRNITTKGFDCVFYTWNENKVYSLRADYIATALE MSTQGLVQLLANAQCHLRTSTNYNGVHTQFNSALNYKNNGTNTIDGSEAWCSSIVDTNQYIVAGCEVPRTFMCVALQGRGDADQWVTSYKIRYSLDNVSWFEYRNGAAVTGVTDRNTVVNHFFDTPIRARSIAIHPLTWNGHISLRCEFYTQPVQSSVTQVGADIYTGDNCALNTGSGKREVVVPVKFQFEFATLPKVALNFDQIDCTDATNQTRIGVQPRNITTKGFDCVFYTWNENKVYSLRADYIATALE 2wnh-a1-m1-cA_2wnh-a1-m2-cA Crystal Structure Analysis of Klebsiella sp ASR1 Phytase Q84CN9 Q84CN9 1.68 X-RAY DIFFRACTION 81 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 399 399 DPPPRDWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYANGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPTIQLLKQAVCQADKPCPIFDTPWRVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEASPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDRPSAPAVAMVLPK DPPPRDWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYANGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPTIQLLKQAVCQADKPCPIFDTPWRVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEASPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDRPSAPAVAMVLPK 2wnh-a1-m1-cB_2wnh-a1-m2-cB Crystal Structure Analysis of Klebsiella sp ASR1 Phytase Q84CN9 Q84CN9 1.68 X-RAY DIFFRACTION 69 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 400 400 SDPPPRDWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYANGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPTIQLLKQAVCQADKPCPIFDTPWRVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEASPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDRPSAPAVAMVLPK SDPPPRDWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYANGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPTIQLLKQAVCQADKPCPIFDTPWRVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEASPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDRPSAPAVAMVLPK 2wnh-a1-m2-cA_2wnh-a1-m2-cB Crystal Structure Analysis of Klebsiella sp ASR1 Phytase Q84CN9 Q84CN9 1.68 X-RAY DIFFRACTION 90 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 399 400 2wnh-a1-m1-cA_2wnh-a1-m1-cB DPPPRDWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYANGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPTIQLLKQAVCQADKPCPIFDTPWRVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEASPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDRPSAPAVAMVLPK SDPPPRDWQLEKVVELSRHGIRPPTAGNREAIEAATGRPWTEWTTHDGELTGHGYAAVVNKGREEGQHYRQLGLLQAGCPTAESIYVRASPLQRTRATAQALVDGAFPGCGVAIHYANGDADPLFQTDKFAATQTDPARQLAAVKEKAGDLAQRRQALAPTIQLLKQAVCQADKPCPIFDTPWRVEQSKSGKTTISGLSVMANMVETLRLGWSENLPLSQLAWGKIAQASQITALLPLLTENYDLSNDVLYTAQKRGSVLLNAMLDGVKPEASPNVRWLLLVAHDTNIAMVRTLMNFSWQLPGYSRGNIPPGSSLVLERWRDAKSGERYLRVYFQAQGLDDLRRLQTPDAQHPMLRQEWRQPGCRQTDVGTLCPFQAAITALGQRIDRPSAPAVAMVLPK 2wns-a1-m1-cA_2wns-a1-m1-cB Human Orotate phosphoribosyltransferase (OPRTase) domain of Uridine 5' -monophosphate synthase (UMPS) in complex with its substrate orotidine 5'-monophosphate (OMP) P11172 P11172 1.9 X-RAY DIFFRACTION 89 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 197 199 ALGPLVTGLYDVQAFKFGDFVLKSGLSSPIYIDLRGIVSRPRLLSQVADILFQTAQNAGISFDTVCGVPYTALPLATVICSTNQIPMLIRRKETKDYGTKRLVEGTINPGETCLIIEDVVTSGSSVLETVEVLQKEGLKVTDAIVLLDREQGGKDKLQAHGIRLHSVCTLSKMLEILEQQKKVDAETVGRVKRFIQE LGPLVTGLYDVQAFKFGDFVLKSGLSSPIYIDLRGIVSRPRLLSQVADILFQTAQNAGISFDTVCGVPYTALPLATVICSTNQIPMLIRRKETKDYGTKRLVEGTINPGETCLIIEDVVTSGSSVLETVEVLQKEGLKVTDAIVLLDREQGGKDKLQAHGIRLHSVCTLSKMLEILEQQKKVDAETVGRVKRFIQEAHH 2wnt-a1-m1-cA_2wnt-a1-m1-cB Crystal Structure of the Human Ribosomal protein S6 kinase Q15418 Q15418 2.4 X-RAY DIFFRACTION 44 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 281 285 3rny-a3-m1-cA_3rny-a3-m1-cB DGYVVKETIGVGSYSECKRCVHKATNMEYAVKVIDKDPSEEIEILLRYGQHPNIITLKDVYDDGKHVYLVTELMRGGELLDKILRQKFFSEREASFVLHTIGKTVEYLHSQGVVHRDLKPSNILYVDESGNPECLRICDFGFAKQLRAENGLLMTPCYTKRQGYDEGCDIWSLGILLYTMLAGYTPFANGPSDTPEEILTRIGSGKFTLSGGNWNTVSETAKDLVSKMLHVDPHQRLTAKQVLQHPWVTQKDKLPQSQLSHQDLQLVKGAMAATYSALNSS SDGYVVKETIGVGSYSECKRCVHKATNMEYAVKVIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKHVYLVTELMRGGELLDKILRQKFFSEREASFVLHTIGKTVEYLHSQGVVHRDLKPSNILYVDESGNPECLRICDFGFAKQLRAENGLLMTPCYKRQGYDEGCDIWSLGILLYTMLAGYTPFANGPSDTPEEILTRIGSGKFTLSGGNWNTVSETAKDLVSKMLHVDPHQRLTAKQVLQHPWVTQKDKLPQSQLSHQDLQLVKGAMAATYSALNSSK 2wnw-a1-m1-cA_2wnw-a1-m1-cB The crystal structure of SrfJ from salmonella typhimurium Q9KIJ7 Q9KIJ7 2 X-RAY DIFFRACTION 90 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 445 445 MKGRLISSDPYRQQFLVERAVSFSHRQRDCSELISVLPRHALQQIDGFGGSFTEGAGVVFNSMSEKTKAQFLSLYFSAQEHNYTLARMPIQSCDFSLGNYAYVDSSADLQQGRLSFSRDEAHLIPLISGALRLNPHMKLMASPWSPPAFMKTNNDMNGGGKLRRECYADWADIIINYLLEYRRHGINVQALSVQNEPVAVKTWDSCLYSVEEETAFAVQYLRPRLARQGMDEMEIYIWDHDKDGLVDWAELAFADEANYKGINGLAFHWYTGDHFSQIQYLAQCLPDKKLLFSEGCVPMESDAGSQIRHWHTYLHDMIGNFKSGCSGFIDWNLLLNSEGGPNHQGNLCEAPIQYDAQNDVLRRNHSWYGIGHFCRYVRPGARVMLSSSYDNLLEEVGFVNPDGERVLVVYNRDVQERRCRVLDGDKEIALTLPPSGASTLLWRQE MKGRLISSDPYRQQFLVERAVSFSHRQRDCSELISVLPRHALQQIDGFGGSFTEGAGVVFNSMSEKTKAQFLSLYFSAQEHNYTLARMPIQSCDFSLGNYAYVDSSADLQQGRLSFSRDEAHLIPLISGALRLNPHMKLMASPWSPPAFMKTNNDMNGGGKLRRECYADWADIIINYLLEYRRHGINVQALSVQNEPVAVKTWDSCLYSVEEETAFAVQYLRPRLARQGMDEMEIYIWDHDKDGLVDWAELAFADEANYKGINGLAFHWYTGDHFSQIQYLAQCLPDKKLLFSEGCVPMESDAGSQIRHWHTYLHDMIGNFKSGCSGFIDWNLLLNSEGGPNHQGNLCEAPIQYDAQNDVLRRNHSWYGIGHFCRYVRPGARVMLSSSYDNLLEEVGFVNPDGERVLVVYNRDVQERRCRVLDGDKEIALTLPPSGASTLLWRQE 2wnx-a1-m1-cA_2wnx-a1-m2-cA 3b' carbohydrate-binding module from the Cel9V glycoside hydrolase from Clostridium thermocellum A3DJ30 A3DJ30 1.31 X-RAY DIFFRACTION 54 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 157 157 TPDANASISVSYKCGVKDGTKNTIRATINIKNTGTTPVNLSDIKVRYWFTSDGNEQNNFVCDYAAFGTDKVKGIVKKIENSVPGADTYCEISFTEDAGRLAPGGSTGTIPFRIEGAAEYDQTDDYSYNSEMSDDFGDNTKITAYIKDKLKYGVEAAA TPDANASISVSYKCGVKDGTKNTIRATINIKNTGTTPVNLSDIKVRYWFTSDGNEQNNFVCDYAAFGTDKVKGIVKKIENSVPGADTYCEISFTEDAGRLAPGGSTGTIPFRIEGAAEYDQTDDYSYNSEMSDDFGDNTKITAYIKDKLKYGVEAAA 2woo-a4-m1-cA_2woo-a4-m1-cB Nucleotide-free form of S. pombe Get3 Q9P7F8 Q9P7F8 3.006 X-RAY DIFFRACTION 54 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 303 303 2woo-a1-m1-cA_2woo-a1-m1-cB 2woo-a2-m1-cC_2woo-a2-m1-cD 2woo-a3-m1-cE_2woo-a3-m1-cF 2woo-a4-m1-cC_2woo-a4-m1-cD 2woo-a4-m1-cE_2woo-a4-m1-cF PGTLENLLEQTSLKWIFVGGKGGVGKTTTSCSLAIQMSKVRSSVLLISTDPAHNLSDAFGTKFGKDARKVPGFDNLSAMEIDPNLSIQEMTEQALSGMMQDLAFTIPGIDEALAFAEILKQIKSMEFDCVIFDTAPTGHTLRFLNFPTVLEKALGKLGGLSSRFGPMINQMGSIMGQDLFGKMESMRANISEVNKQFKNPDLTTFVCVCISEFLSLYETERMIQELTSYEIDTHNIVVNQLLLDPNTTCPQCMARRKMQQKYLAQIEELYEDFHVVKVPQVPAEVRGTEALKSFSEMLVKPYV PGTLENLLEQTSLKWIFVGGKGGVGKTTTSCSLAIQMSKVRSSVLLISTDPAHNLSDAFGTKFGKDARKVPGFDNLSAMEIDPNLSIQEMTEQALSGMMQDLAFTIPGIDEALAFAEILKQIKSMEFDCVIFDTAPTGHTLRFLNFPTVLEKALGKLGGLSSRFGPMINQMGSIMGQDLFGKMESMRANISEVNKQFKNPDLTTFVCVCISEFLSLYETERMIQELTSYEIDTHNIVVNQLLLDPNTTCPQCMARRKMQQKYLAQIEELYEDFHVVKVPQVPAEVRGTEALKSFSEMLVKPYV 2woo-a4-m1-cB_2woo-a4-m1-cC Nucleotide-free form of S. pombe Get3 Q9P7F8 Q9P7F8 3.006 X-RAY DIFFRACTION 26 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 303 303 2woo-a4-m1-cA_2woo-a4-m1-cD 2woo-a4-m1-cA_2woo-a4-m1-cF 2woo-a4-m1-cB_2woo-a4-m1-cE 2woo-a4-m1-cC_2woo-a4-m1-cE 2woo-a4-m1-cD_2woo-a4-m1-cF PGTLENLLEQTSLKWIFVGGKGGVGKTTTSCSLAIQMSKVRSSVLLISTDPAHNLSDAFGTKFGKDARKVPGFDNLSAMEIDPNLSIQEMTEQALSGMMQDLAFTIPGIDEALAFAEILKQIKSMEFDCVIFDTAPTGHTLRFLNFPTVLEKALGKLGGLSSRFGPMINQMGSIMGQDLFGKMESMRANISEVNKQFKNPDLTTFVCVCISEFLSLYETERMIQELTSYEIDTHNIVVNQLLLDPNTTCPQCMARRKMQQKYLAQIEELYEDFHVVKVPQVPAEVRGTEALKSFSEMLVKPYV PGTLENLLEQTSLKWIFVGGKGGVGKTTTSCSLAIQMSKVRSSVLLISTDPAHNLSDAFGTKFGKDARKVPGFDNLSAMEIDPNLSIQEMTEQALSGMMQDLAFTIPGIDEALAFAEILKQIKSMEFDCVIFDTAPTGHTLRFLNFPTVLEKALGKLGGLSSRFGPMINQMGSIMGQDLFGKMESMRANISEVNKQFKNPDLTTFVCVCISEFLSLYETERMIQELTSYEIDTHNIVVNQLLLDPNTTCPQCMARRKMQQKYLAQIEELYEDFHVVKVPQVPAEVRGTEALKSFSEMLVKPYV 2woo-a4-m1-cD_2woo-a4-m1-cE Nucleotide-free form of S. pombe Get3 Q9P7F8 Q9P7F8 3.006 X-RAY DIFFRACTION 23 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 303 303 2woo-a4-m1-cA_2woo-a4-m1-cC 2woo-a4-m1-cB_2woo-a4-m1-cF PGTLENLLEQTSLKWIFVGGKGGVGKTTTSCSLAIQMSKVRSSVLLISTDPAHNLSDAFGTKFGKDARKVPGFDNLSAMEIDPNLSIQEMTEQALSGMMQDLAFTIPGIDEALAFAEILKQIKSMEFDCVIFDTAPTGHTLRFLNFPTVLEKALGKLGGLSSRFGPMINQMGSIMGQDLFGKMESMRANISEVNKQFKNPDLTTFVCVCISEFLSLYETERMIQELTSYEIDTHNIVVNQLLLDPNTTCPQCMARRKMQQKYLAQIEELYEDFHVVKVPQVPAEVRGTEALKSFSEMLVKPYV PGTLENLLEQTSLKWIFVGGKGGVGKTTTSCSLAIQMSKVRSSVLLISTDPAHNLSDAFGTKFGKDARKVPGFDNLSAMEIDPNLSIQEMTEQALSGMMQDLAFTIPGIDEALAFAEILKQIKSMEFDCVIFDTAPTGHTLRFLNFPTVLEKALGKLGGLSSRFGPMINQMGSIMGQDLFGKMESMRANISEVNKQFKNPDLTTFVCVCISEFLSLYETERMIQELTSYEIDTHNIVVNQLLLDPNTTCPQCMARRKMQQKYLAQIEELYEDFHVVKVPQVPAEVRGTEALKSFSEMLVKPYV 2woz-a1-m1-cA_2woz-a1-m2-cA The novel beta-propeller of the BTB-Kelch protein Krp1 provides the binding site for Lasp-1 that is necessary for pseudopodia extension Q9ER30 Q9ER30 2 X-RAY DIFFRACTION 113 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 307 307 PGYLNDIPRHGMFVKDLILLVNDTAAVAYDPMENECYLTALAEQIPRNHSSIVTQQNQVYVVGGLYVPLQSYFFQLDNVSSEWVGLPPLPSARCLFGLGEVDDKIYVVAGKDLQTEASLDSVLCYDPVAAKWSEVKNLPIKVYGHNVISHNGMIYCLGGKTDDKKCTNRVFIYNPKKGDWKDLAPMKTPRSMFGVAIHKGKIVIAGGVTEDGLSASVEAFDLKTNKWEVMTEFPQERSSISLVSLAGSLYAIGGFAMIQEFAPTEVNDIWKYEDDKKEWAGMLKEIRYASGASCLATRLNLFKLSKL PGYLNDIPRHGMFVKDLILLVNDTAAVAYDPMENECYLTALAEQIPRNHSSIVTQQNQVYVVGGLYVPLQSYFFQLDNVSSEWVGLPPLPSARCLFGLGEVDDKIYVVAGKDLQTEASLDSVLCYDPVAAKWSEVKNLPIKVYGHNVISHNGMIYCLGGKTDDKKCTNRVFIYNPKKGDWKDLAPMKTPRSMFGVAIHKGKIVIAGGVTEDGLSASVEAFDLKTNKWEVMTEFPQERSSISLVSLAGSLYAIGGFAMIQEFAPTEVNDIWKYEDDKKEWAGMLKEIRYASGASCLATRLNLFKLSKL 2wp0-a1-m1-cA_2wp0-a1-m2-cB Crystal structure of a HobA-DnaA (domain I-II) complex from Helicobacter pylori. O25828 O25828 2.67 X-RAY DIFFRACTION 75 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 180 180 2uvp-a1-m1-cB_2uvp-a1-m1-cC 2uvp-a1-m1-cD_2uvp-a1-m1-cA 2wp0-a1-m1-cB_2wp0-a1-m2-cA MKNFYDWIKEFIRDQGEFIAQQSGWLELERSSYAKLIAQTISHVLNGGSLLVSADSSRHWFLNYILSNLNPKDLKERPLLSVIDFNASSFYPKNDANLSLATIEMTYQNPMFWHVGKIENEGLKTILLSKIPSFLWLFEELKEDCLLLKEHDSLLDYKLLQLFKLFENALFSVLYNKVTL MKNFYDWIKEFIRDQGEFIAQQSGWLELERSSYAKLIAQTISHVLNGGSLLVSADSSRHWFLNYILSNLNPKDLKERPLLSVIDFNASSFYPKNDANLSLATIEMTYQNPMFWHVGKIENEGLKTILLSKIPSFLWLFEELKEDCLLLKEHDSLLDYKLLQLFKLFENALFSVLYNKVTL 2wp0-a1-m2-cA_2wp0-a1-m2-cB Crystal structure of a HobA-DnaA (domain I-II) complex from Helicobacter pylori. O25828 O25828 2.67 X-RAY DIFFRACTION 146 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 180 180 2uvp-a1-m1-cA_2uvp-a1-m1-cB 2uvp-a1-m1-cD_2uvp-a1-m1-cC 2wp0-a1-m1-cA_2wp0-a1-m1-cB MKNFYDWIKEFIRDQGEFIAQQSGWLELERSSYAKLIAQTISHVLNGGSLLVSADSSRHWFLNYILSNLNPKDLKERPLLSVIDFNASSFYPKNDANLSLATIEMTYQNPMFWHVGKIENEGLKTILLSKIPSFLWLFEELKEDCLLLKEHDSLLDYKLLQLFKLFENALFSVLYNKVTL MKNFYDWIKEFIRDQGEFIAQQSGWLELERSSYAKLIAQTISHVLNGGSLLVSADSSRHWFLNYILSNLNPKDLKERPLLSVIDFNASSFYPKNDANLSLATIEMTYQNPMFWHVGKIENEGLKTILLSKIPSFLWLFEELKEDCLLLKEHDSLLDYKLLQLFKLFENALFSVLYNKVTL 2wp4-a1-m1-cA_2wp4-a1-m1-cB crystal structure of Rv3119 from Mycobacterium tuberculosis P9WJR3 P9WJR3 2.49 X-RAY DIFFRACTION 87 0.992 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 121 132 YPYCRLTDQPLSVDEVLAAVSGPEQGGIVIFVGNVRDTRLFYEAYPPMVIRTLMSIIGRCEDKAEGVRVAVAHRTGELQIGDAAVVIGASAPHRAEAFDAARMCIELLKQEVPIWKKEFSS ANVVAEGAYPYCRLTDQPLSVDEVLAAVSGPEQGGIVIFVGNVRDHNDVTRLFYEAYPPMVIRTLMSIIGRCEDKAEGVRVAVAHRTGELQIGDAAVVIGASAPHRAEAFDAARMCIELLKQEVPIWKKEFS 2wp7-a1-m1-cA_2wp7-a1-m2-cA Crystal structure of deSUMOylase(DUF862) Q9CQT7 Q9CQT7 1.9 X-RAY DIFFRACTION 79 1.0 10090 (Mus musculus) 10090 (Mus musculus) 158 158 PNLYPVKLYVYDLSKGLARRLSPIMLGKQLEGIWHTSIVVHKDEFFFGSSGISSCTPGGTLLGPPDSVVDVGNTEVTEEIFLEYLSSLGESLFRGEAYNLFEHNCNTFSNEVAQFLTGRKIPSYITDLPSEVLSTPFGQALRPFLDSIQIQPPGGNSV PNLYPVKLYVYDLSKGLARRLSPIMLGKQLEGIWHTSIVVHKDEFFFGSSGISSCTPGGTLLGPPDSVVDVGNTEVTEEIFLEYLSSLGESLFRGEAYNLFEHNCNTFSNEVAQFLTGRKIPSYITDLPSEVLSTPFGQALRPFLDSIQIQPPGGNSV 2wpo-a2-m1-cC_2wpo-a2-m1-cD HCMV protease inhibitor complex P16753 P16753 2.7 X-RAY DIFFRACTION 105 1.0 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 230 230 1id4-a1-m1-cA_1id4-a1-m1-cB 1iec-a1-m1-cA_1iec-a1-m1-cB 1ief-a1-m1-cA_1ief-a1-m1-cB 1ieg-a1-m1-cA_1ieg-a1-m1-cB 1jq7-a1-m1-cA_1jq7-a1-m1-cB 1njt-a1-m1-cA_1njt-a1-m1-cB 1njt-a1-m1-cE_1njt-a1-m1-cA 1nju-a1-m1-cA_1nju-a1-m1-cB 1nju-a2-m1-cC_1nju-a2-m1-cD 1nju-a3-m1-cA_1nju-a3-m1-cB 1nju-a3-m1-cC_1nju-a3-m1-cD 1nkk-a1-m1-cA_1nkk-a1-m1-cB 1nkk-a1-m1-cE_1nkk-a1-m1-cA 1nkk-a1-m1-cF_1nkk-a1-m1-cB 1nkk-a2-m1-cD_1nkk-a2-m1-cC 1nkk-a2-m1-cG_1nkk-a2-m1-cC 1nkk-a2-m1-cH_1nkk-a2-m1-cD 1wpo-a1-m1-cA_1wpo-a1-m1-cB 2wpo-a1-m1-cA_2wpo-a1-m1-cB 7tcz-a1-m1-cA_7tcz-a1-m2-cA DEQQSQAVAPVYVGGFLARYDQSPDEAELLLPRDVVEHWLHAQLSVALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSSRRCDDVEQTTPFKHVALCSVGRRRGTLAVYGRDPEWVMQRFPDLTAADRDGLRAQWQSGDPFRSDSYGLLGNSVDAMYIRERLPKLRYDKQLVGVTERESYVKA DEQQSQAVAPVYVGGFLARYDQSPDEAELLLPRDVVEHWLHAQLSVALPLNINHDDTAVVGHVAAMQSVRDGLFCLGCVTSPRFLEIVRRASEKSELVSRGPVSPLQPDKVVEFLSGSYAGLSLSSRRCDDVEQTTPFKHVALCSVGRRRGTLAVYGRDPEWVMQRFPDLTAADRDGLRAQWQSGDPFRSDSYGLLGNSVDAMYIRERLPKLRYDKQLVGVTERESYVKA 2wpr-a1-m1-cA_2wpr-a1-m1-cB Salmonella enterica SadA 483-523 fused to GCN4 adaptors (SadAK3b-V1, out-of-register fusion) Q8ZL64 Q8ZL64 2.65 X-RAY DIFFRACTION 90 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 97 97 2wpq-a1-m1-cA_2wpq-a1-m1-cB 2wpq-a1-m1-cA_2wpq-a1-m1-cC 2wpq-a1-m1-cB_2wpq-a1-m1-cC 2wpr-a1-m1-cA_2wpr-a1-m1-cC 2wpr-a1-m1-cB_2wpr-a1-m1-cC 2wps-a1-m1-cA_2wps-a1-m1-cB 2wps-a1-m1-cA_2wps-a1-m1-cC 2wps-a1-m1-cB_2wps-a1-m1-cC IEDKIEEILSKIYHIENEIARIKKLIEKVDQNTADITTNTNSINQNTTDIATNTTNINNLSDSITTLMKQIEDKIEEILSKIYHIENEIARIKKLIK IEDKIEEILSKIYHIENEIARIKKLIEKVDQNTADITTNTNSINQNTTDIATNTTNINNLSDSITTLMKQIEDKIEEILSKIYHIENEIARIKKLIK 2wq0-a1-m2-cA_2wq0-a1-m3-cA GCN4 leucine zipper mutant with three IxxNTxx motifs coordinating chloride P03069 P03069 1.12 X-RAY DIFFRACTION 31 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 31 31 2wq0-a1-m1-cA_2wq0-a1-m2-cA 2wq0-a1-m1-cA_2wq0-a1-m3-cA 2wq1-a1-m1-cA_2wq1-a1-m2-cA 2wq1-a1-m1-cA_2wq1-a1-m3-cA 2wq1-a1-m2-cA_2wq1-a1-m3-cA 2wq2-a1-m1-cA_2wq2-a1-m2-cA 2wq2-a1-m1-cA_2wq2-a1-m3-cA 2wq2-a1-m2-cA_2wq2-a1-m3-cA 2wq3-a1-m1-cA_2wq3-a1-m2-cA 2wq3-a1-m1-cA_2wq3-a1-m3-cA 2wq3-a1-m2-cA_2wq3-a1-m3-cA MKQLEDKIEENTSKIYHNTNEIARNTKLVGE MKQLEDKIEENTSKIYHNTNEIARNTKLVGE 2wqd-a1-m1-cA_2wqd-a1-m2-cA Crystal structure of enzyme I of the phosphoenolpyruvate:sugar phosphotransferase system in the dephosphorylated state P51183 P51183 2.4 X-RAY DIFFRACTION 178 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 570 570 SKLIKGIAASDGVAIAKAYLLVEPDLTFDKNEKVTDVEGEVAKFNSAIEASKVELTKIRNNAEVQLGADKAAIFDAHLLVLDDPELIQPIQDKIKNENANAATALTDVTTQFVTIFESMDNEYMKERAADIRDVSKRVLSHILGVELPNPSMIDESVVIVGNDLTPSDTAQLNKEFVQGFATNIGGRTSASAIMSRSLEIPAIVGTKSITQEVKQGDMIIVDGLNGDVIVNPTEDELIAYQDKRERYFADKKELQKLRDADTVTVDGVHAELAANIGTPNDLPGVIENGAQGIGLYRTEFLYMGRDQMPTEEEQFEAYKEVLEAMGGKRVVVRTLDIGGDKELSYLNLPEEMNPFLGYRAIRLSLAQQDIFRPQLRALLRASVYGKLNIMFPMVATINEFREAKAILLEEKENLKNEGHDISDDIELGIMVEIPATAALADVFAKEVDFFSIGTNDLIQYTLAADRMSERVSYLYQPYNPSILRLVKQVIEASHKEGKWTGMCGEMAGDETAIPLLLGLGLDEFSMSATSILKARRQINGLSKNEMTELANRAVDCATQEEVIELVNNYV SKLIKGIAASDGVAIAKAYLLVEPDLTFDKNEKVTDVEGEVAKFNSAIEASKVELTKIRNNAEVQLGADKAAIFDAHLLVLDDPELIQPIQDKIKNENANAATALTDVTTQFVTIFESMDNEYMKERAADIRDVSKRVLSHILGVELPNPSMIDESVVIVGNDLTPSDTAQLNKEFVQGFATNIGGRTSASAIMSRSLEIPAIVGTKSITQEVKQGDMIIVDGLNGDVIVNPTEDELIAYQDKRERYFADKKELQKLRDADTVTVDGVHAELAANIGTPNDLPGVIENGAQGIGLYRTEFLYMGRDQMPTEEEQFEAYKEVLEAMGGKRVVVRTLDIGGDKELSYLNLPEEMNPFLGYRAIRLSLAQQDIFRPQLRALLRASVYGKLNIMFPMVATINEFREAKAILLEEKENLKNEGHDISDDIELGIMVEIPATAALADVFAKEVDFFSIGTNDLIQYTLAADRMSERVSYLYQPYNPSILRLVKQVIEASHKEGKWTGMCGEMAGDETAIPLLLGLGLDEFSMSATSILKARRQINGLSKNEMTELANRAVDCATQEEVIELVNNYV 2wqf-a1-m1-cA_2wqf-a1-m2-cA Crystal Structure of the Nitroreductase CinD from Lactococcus lactis in Complex with FMN Q9CED0 Q9CED0 1.35 X-RAY DIFFRACTION 160 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 189 189 4bn6-a1-m1-cA_4bn6-a1-m2-cA 4bn7-a1-m1-cA_4bn7-a1-m2-cA 4bn8-a1-m1-cA_4bn8-a1-m2-cA 4bn9-a1-m1-cA_4bn9-a1-m2-cA 4bnb-a1-m1-cA_4bnb-a1-m2-cA SFIKSLENRRTIYALGRNVQDEEKVIETIKEAVRFSPTAFNSQTGRLLILTGDAQDKLWDEIVAPELKAAMEAAKLDGFKAAFGTILFFEDQAVVKNLQEQFALYADNFPVWSEQGSGIISVNVWTALAELGLGANLQHYNPLIDEAVAKEWNLPESWKLRGQLVFGSIEAPAGEKTFMDDADRFIVAK SFIKSLENRRTIYALGRNVQDEEKVIETIKEAVRFSPTAFNSQTGRLLILTGDAQDKLWDEIVAPELKAAMEAAKLDGFKAAFGTILFFEDQAVVKNLQEQFALYADNFPVWSEQGSGIISVNVWTALAELGLGANLQHYNPLIDEAVAKEWNLPESWKLRGQLVFGSIEAPAGEKTFMDDADRFIVAK 2wqh-a1-m1-cA_2wqh-a1-m2-cA Crystal structure of CTPR3Y3 2.2 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 104 104 PGNSAEAWYNLGNAYYKQGDYDEAIEYYQKALELYPNNAEAWYNLGNAYYKQGDYDEAIEYYQKALELYPNNAEAWYNLGNAYYKQGDYDEAIEYYQKALELYP PGNSAEAWYNLGNAYYKQGDYDEAIEYYQKALELYPNNAEAWYNLGNAYYKQGDYDEAIEYYQKALELYPNNAEAWYNLGNAYYKQGDYDEAIEYYQKALELYP 2wqj-a1-m1-cL_2wqj-a1-m1-cJ Crystal structure of a truncated variant of the human p73 tetramerization domain O15350 O15350 2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 27 2wqj-a1-m1-cG_2wqj-a1-m1-cI 2wqj-a1-m1-cH_2wqj-a1-m1-cK 2wqj-a2-m1-cB_2wqj-a2-m1-cE 2wqj-a2-m1-cF_2wqj-a2-m1-cC 2wqj-a3-m1-cS_2wqj-a3-m1-cU 2wqj-a3-m1-cT_2wqj-a3-m1-cW 2wqj-a3-m1-cV_2wqj-a3-m1-cX 2wqj-a4-m1-cM_2wqj-a4-m1-cP 2wqj-a4-m1-cO_2wqj-a4-m1-cR 2wqj-a4-m1-cQ_2wqj-a4-m1-cN TYYLQVRGRENFEILMKLKESLELME DTYYLQVRGRENFEILMKLKESLELME 2wqj-a4-m1-cO_2wqj-a4-m1-cP Crystal structure of a truncated variant of the human p73 tetramerization domain O15350 O15350 2 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 28 2wqj-a1-m1-cG_2wqj-a1-m1-cH 2wqj-a1-m1-cJ_2wqj-a1-m1-cI 2wqj-a1-m1-cL_2wqj-a1-m1-cK 2wqj-a2-m1-cB_2wqj-a2-m1-cA 2wqj-a2-m1-cD_2wqj-a2-m1-cC 2wqj-a3-m1-cT_2wqj-a3-m1-cS 2wqj-a3-m1-cU_2wqj-a3-m1-cV 2wqj-a3-m1-cW_2wqj-a3-m1-cX 2wqj-a4-m1-cM_2wqj-a4-m1-cN 2wqj-a4-m1-cQ_2wqj-a4-m1-cR 2wqj-a5-m1-c1_2wqj-a5-m1-c2 DTYYLQVRGRENFEILMKLKESLELME DTYYLQVRGRENFEILMKLKESLELMEL 2wqj-a5-m1-c1_2wqj-a5-m1-cZ Crystal structure of a truncated variant of the human p73 tetramerization domain O15350 O15350 2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 31 TYYLQVRGRENFEILMKLKESLELME DTYYLQVRGRENFEILMKLKESLELMELVPQ 2wqj-a5-m1-c2_2wqj-a5-m1-cZ Crystal structure of a truncated variant of the human p73 tetramerization domain O15350 O15350 2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 31 DTYYLQVRGRENFEILMKLKESLELME DTYYLQVRGRENFEILMKLKESLELMELVPQ 2wqk-a1-m1-cB_2wqk-a1-m2-cB Crystal Structure of Sure Protein from Aquifex aeolicus O67004 O67004 1.5 X-RAY DIFFRACTION 23 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 248 248 2wqk-a1-m1-cA_2wqk-a1-m2-cA PTFLLVNDDGYFSPGINALREALKSLGRVVVVAPDRNLSGVGHSLTFTEPLKMRKIDTDFYTVIDGTPADCVHLGYRVILEEKKPDLVLSGINEGPNLGEDITYSGTVSGAMEGRILGIPSIAFSAFGRENIMFEEIAKVCVDIVKKVLNEGIPEDTYLNVNIPNLRYEEIKGIKVTRQGKRAYKERVFKYIDPYGKPFYWIAAEEFGWHAEEGTDYWAVLNGYVSVTPLHLDLTNYKVMKSIKYLED PTFLLVNDDGYFSPGINALREALKSLGRVVVVAPDRNLSGVGHSLTFTEPLKMRKIDTDFYTVIDGTPADCVHLGYRVILEEKKPDLVLSGINEGPNLGEDITYSGTVSGAMEGRILGIPSIAFSAFGRENIMFEEIAKVCVDIVKKVLNEGIPEDTYLNVNIPNLRYEEIKGIKVTRQGKRAYKERVFKYIDPYGKPFYWIAAEEFGWHAEEGTDYWAVLNGYVSVTPLHLDLTNYKVMKSIKYLED 2wqk-a1-m2-cA_2wqk-a1-m2-cB Crystal Structure of Sure Protein from Aquifex aeolicus O67004 O67004 1.5 X-RAY DIFFRACTION 209 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 248 248 2wqk-a1-m1-cA_2wqk-a1-m1-cB PTFLLVNDDGYFSPGINALREALKSLGRVVVVAPDRNLSGVGHSLTFTEPLKMRKIDTDFYTVIDGTPADCVHLGYRVILEEKKPDLVLSGINEGPNLGEDITYSGTVSGAMEGRILGIPSIAFSAFGRENIMFEEIAKVCVDIVKKVLNEGIPEDTYLNVNIPNLRYEEIKGIKVTRQGKRAYKERVFKYIDPYGKPFYWIAAEEFGWHAEEGTDYWAVLNGYVSVTPLHLDLTNYKVMKSIKYLED PTFLLVNDDGYFSPGINALREALKSLGRVVVVAPDRNLSGVGHSLTFTEPLKMRKIDTDFYTVIDGTPADCVHLGYRVILEEKKPDLVLSGINEGPNLGEDITYSGTVSGAMEGRILGIPSIAFSAFGRENIMFEEIAKVCVDIVKKVLNEGIPEDTYLNVNIPNLRYEEIKGIKVTRQGKRAYKERVFKYIDPYGKPFYWIAAEEFGWHAEEGTDYWAVLNGYVSVTPLHLDLTNYKVMKSIKYLED 2wql-a2-m2-cC_2wql-a2-m3-cD CRYSTAL STRUCTURE OF THE MAJOR CARROT ALLERGEN DAU C 1 O04298 O04298 2.7 X-RAY DIFFRACTION 56 1.0 4039 (Daucus carota) 4039 (Daucus carota) 152 152 2wql-a1-m1-cA_2wql-a1-m3-cB 2wql-a1-m1-cB_2wql-a1-m2-cA 2wql-a1-m2-cB_2wql-a1-m3-cA 2wql-a2-m1-cC_2wql-a2-m2-cD 2wql-a2-m1-cD_2wql-a2-m3-cC AQSHSLEITSSVSAEKIFSGIVLDVDTVIPKAATGAYKSVEVKGDGGAGTVRIITLPEGSPITTMTVRTDAVNKEALSYDSTVIDGDILLGFIESIETHMVVVPTADGGSITKTTAIFHTKGDAVVPEENIKFADAQNTALFKAIEAYLIAN AQSHSLEITSSVSAEKIFSGIVLDVDTVIPKAATGAYKSVEVKGDGGAGTVRIITLPEGSPITTMTVRTDAVNKEALSYDSTVIDGDILLGFIESIETHMVVVPTADGGSITKTTAIFHTKGDAVVPEENIKFADAQNTALFKAIEAYLIAN 2wql-a2-m3-cC_2wql-a2-m3-cD CRYSTAL STRUCTURE OF THE MAJOR CARROT ALLERGEN DAU C 1 O04298 O04298 2.7 X-RAY DIFFRACTION 58 1.0 4039 (Daucus carota) 4039 (Daucus carota) 152 152 2wql-a1-m1-cA_2wql-a1-m1-cB 2wql-a1-m2-cA_2wql-a1-m2-cB 2wql-a1-m3-cA_2wql-a1-m3-cB 2wql-a2-m1-cC_2wql-a2-m1-cD 2wql-a2-m2-cC_2wql-a2-m2-cD AQSHSLEITSSVSAEKIFSGIVLDVDTVIPKAATGAYKSVEVKGDGGAGTVRIITLPEGSPITTMTVRTDAVNKEALSYDSTVIDGDILLGFIESIETHMVVVPTADGGSITKTTAIFHTKGDAVVPEENIKFADAQNTALFKAIEAYLIAN AQSHSLEITSSVSAEKIFSGIVLDVDTVIPKAATGAYKSVEVKGDGGAGTVRIITLPEGSPITTMTVRTDAVNKEALSYDSTVIDGDILLGFIESIETHMVVVPTADGGSITKTTAIFHTKGDAVVPEENIKFADAQNTALFKAIEAYLIAN 2wqt-a1-m3-cK_2wqt-a1-m3-cT Dodecahedral assembly of MhpD P77608 P77608 2.8 X-RAY DIFFRACTION 11 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 262 262 2wqt-a1-m1-cA_2wqt-a1-m2-cO 2wqt-a1-m1-cB_2wqt-a1-m1-cF 2wqt-a1-m1-cC_2wqt-a1-m3-cD 2wqt-a1-m1-cD_2wqt-a1-m2-cC 2wqt-a1-m1-cG_2wqt-a1-m2-cL 2wqt-a1-m1-cH_2wqt-a1-m1-cR 2wqt-a1-m1-cK_2wqt-a1-m1-cT 2wqt-a1-m1-cL_2wqt-a1-m3-cG 2wqt-a1-m1-cO_2wqt-a1-m3-cA 2wqt-a1-m1-cP_2wqt-a1-m3-cS 2wqt-a1-m1-cS_2wqt-a1-m2-cP 2wqt-a1-m2-cA_2wqt-a1-m3-cO 2wqt-a1-m2-cB_2wqt-a1-m2-cF 2wqt-a1-m2-cD_2wqt-a1-m3-cC 2wqt-a1-m2-cG_2wqt-a1-m3-cL 2wqt-a1-m2-cH_2wqt-a1-m2-cR 2wqt-a1-m2-cK_2wqt-a1-m2-cT 2wqt-a1-m2-cS_2wqt-a1-m3-cP 2wqt-a1-m3-cB_2wqt-a1-m3-cF 2wqt-a1-m3-cH_2wqt-a1-m3-cR LMTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSS LMTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSS 2wqt-a1-m3-cL_2wqt-a1-m3-cT Dodecahedral assembly of MhpD P77608 P77608 2.8 X-RAY DIFFRACTION 26 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 262 262 2wqt-a1-m1-cA_2wqt-a1-m2-cC 2wqt-a1-m1-cA_2wqt-a1-m2-cM 2wqt-a1-m1-cB_2wqt-a1-m1-cG 2wqt-a1-m1-cB_2wqt-a1-m2-cO 2wqt-a1-m1-cC_2wqt-a1-m1-cM 2wqt-a1-m1-cC_2wqt-a1-m3-cA 2wqt-a1-m1-cD_2wqt-a1-m2-cD 2wqt-a1-m1-cD_2wqt-a1-m3-cD 2wqt-a1-m1-cE_2wqt-a1-m1-cF 2wqt-a1-m1-cE_2wqt-a1-m1-cN 2wqt-a1-m1-cF_2wqt-a1-m1-cN 2wqt-a1-m1-cG_2wqt-a1-m2-cO 2wqt-a1-m1-cH_2wqt-a1-m1-cS 2wqt-a1-m1-cH_2wqt-a1-m2-cQ 2wqt-a1-m1-cI_2wqt-a1-m1-cK 2wqt-a1-m1-cI_2wqt-a1-m1-cR 2wqt-a1-m1-cJ_2wqt-a1-m2-cL 2wqt-a1-m1-cJ_2wqt-a1-m2-cT 2wqt-a1-m1-cK_2wqt-a1-m1-cR 2wqt-a1-m1-cL_2wqt-a1-m1-cT 2wqt-a1-m1-cL_2wqt-a1-m3-cJ 2wqt-a1-m1-cM_2wqt-a1-m3-cA 2wqt-a1-m1-cO_2wqt-a1-m3-cB 2wqt-a1-m1-cO_2wqt-a1-m3-cG 2wqt-a1-m1-cP_2wqt-a1-m2-cP 2wqt-a1-m1-cP_2wqt-a1-m3-cP 2wqt-a1-m1-cQ_2wqt-a1-m3-cH 2wqt-a1-m1-cQ_2wqt-a1-m3-cS 2wqt-a1-m1-cS_2wqt-a1-m2-cQ 2wqt-a1-m1-cT_2wqt-a1-m3-cJ 2wqt-a1-m2-cA_2wqt-a1-m3-cC 2wqt-a1-m2-cA_2wqt-a1-m3-cM 2wqt-a1-m2-cB_2wqt-a1-m2-cG 2wqt-a1-m2-cB_2wqt-a1-m3-cO 2wqt-a1-m2-cC_2wqt-a1-m2-cM 2wqt-a1-m2-cD_2wqt-a1-m3-cD 2wqt-a1-m2-cE_2wqt-a1-m2-cF 2wqt-a1-m2-cE_2wqt-a1-m2-cN 2wqt-a1-m2-cF_2wqt-a1-m2-cN 2wqt-a1-m2-cG_2wqt-a1-m3-cO 2wqt-a1-m2-cH_2wqt-a1-m2-cS 2wqt-a1-m2-cH_2wqt-a1-m3-cQ 2wqt-a1-m2-cI_2wqt-a1-m2-cK 2wqt-a1-m2-cI_2wqt-a1-m2-cR 2wqt-a1-m2-cJ_2wqt-a1-m3-cL 2wqt-a1-m2-cJ_2wqt-a1-m3-cT 2wqt-a1-m2-cK_2wqt-a1-m2-cR 2wqt-a1-m2-cL_2wqt-a1-m2-cT 2wqt-a1-m2-cP_2wqt-a1-m3-cP 2wqt-a1-m2-cS_2wqt-a1-m3-cQ 2wqt-a1-m3-cB_2wqt-a1-m3-cG 2wqt-a1-m3-cC_2wqt-a1-m3-cM 2wqt-a1-m3-cE_2wqt-a1-m3-cF 2wqt-a1-m3-cE_2wqt-a1-m3-cN 2wqt-a1-m3-cF_2wqt-a1-m3-cN 2wqt-a1-m3-cH_2wqt-a1-m3-cS 2wqt-a1-m3-cI_2wqt-a1-m3-cK 2wqt-a1-m3-cI_2wqt-a1-m3-cR 2wqt-a1-m3-cK_2wqt-a1-m3-cR LMTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSS LMTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSS 2wqt-a1-m3-cR_2wqt-a1-m3-cT Dodecahedral assembly of MhpD P77608 P77608 2.8 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 262 262 2wqt-a1-m1-cA_2wqt-a1-m1-cB 2wqt-a1-m1-cA_2wqt-a1-m1-cD 2wqt-a1-m1-cB_2wqt-a1-m1-cE 2wqt-a1-m1-cC_2wqt-a1-m1-cD 2wqt-a1-m1-cC_2wqt-a1-m1-cE 2wqt-a1-m1-cF_2wqt-a1-m1-cG 2wqt-a1-m1-cF_2wqt-a1-m1-cI 2wqt-a1-m1-cG_2wqt-a1-m1-cJ 2wqt-a1-m1-cH_2wqt-a1-m1-cI 2wqt-a1-m1-cH_2wqt-a1-m1-cJ 2wqt-a1-m1-cK_2wqt-a1-m1-cL 2wqt-a1-m1-cK_2wqt-a1-m1-cN 2wqt-a1-m1-cL_2wqt-a1-m1-cO 2wqt-a1-m1-cM_2wqt-a1-m1-cN 2wqt-a1-m1-cM_2wqt-a1-m1-cO 2wqt-a1-m1-cP_2wqt-a1-m1-cQ 2wqt-a1-m1-cP_2wqt-a1-m1-cS 2wqt-a1-m1-cQ_2wqt-a1-m1-cT 2wqt-a1-m1-cR_2wqt-a1-m1-cS 2wqt-a1-m1-cR_2wqt-a1-m1-cT 2wqt-a1-m2-cA_2wqt-a1-m2-cB 2wqt-a1-m2-cA_2wqt-a1-m2-cD 2wqt-a1-m2-cB_2wqt-a1-m2-cE 2wqt-a1-m2-cC_2wqt-a1-m2-cD 2wqt-a1-m2-cC_2wqt-a1-m2-cE 2wqt-a1-m2-cF_2wqt-a1-m2-cG 2wqt-a1-m2-cF_2wqt-a1-m2-cI 2wqt-a1-m2-cG_2wqt-a1-m2-cJ 2wqt-a1-m2-cH_2wqt-a1-m2-cI 2wqt-a1-m2-cH_2wqt-a1-m2-cJ 2wqt-a1-m2-cK_2wqt-a1-m2-cL 2wqt-a1-m2-cK_2wqt-a1-m2-cN 2wqt-a1-m2-cL_2wqt-a1-m2-cO 2wqt-a1-m2-cM_2wqt-a1-m2-cN 2wqt-a1-m2-cM_2wqt-a1-m2-cO 2wqt-a1-m2-cP_2wqt-a1-m2-cQ 2wqt-a1-m2-cP_2wqt-a1-m2-cS 2wqt-a1-m2-cQ_2wqt-a1-m2-cT 2wqt-a1-m2-cR_2wqt-a1-m2-cS 2wqt-a1-m2-cR_2wqt-a1-m2-cT 2wqt-a1-m3-cA_2wqt-a1-m3-cB 2wqt-a1-m3-cA_2wqt-a1-m3-cD 2wqt-a1-m3-cB_2wqt-a1-m3-cE 2wqt-a1-m3-cC_2wqt-a1-m3-cD 2wqt-a1-m3-cC_2wqt-a1-m3-cE 2wqt-a1-m3-cF_2wqt-a1-m3-cG 2wqt-a1-m3-cF_2wqt-a1-m3-cI 2wqt-a1-m3-cG_2wqt-a1-m3-cJ 2wqt-a1-m3-cH_2wqt-a1-m3-cI 2wqt-a1-m3-cH_2wqt-a1-m3-cJ 2wqt-a1-m3-cK_2wqt-a1-m3-cL 2wqt-a1-m3-cK_2wqt-a1-m3-cN 2wqt-a1-m3-cL_2wqt-a1-m3-cO 2wqt-a1-m3-cM_2wqt-a1-m3-cN 2wqt-a1-m3-cM_2wqt-a1-m3-cO 2wqt-a1-m3-cP_2wqt-a1-m3-cQ 2wqt-a1-m3-cP_2wqt-a1-m3-cS 2wqt-a1-m3-cQ_2wqt-a1-m3-cT 2wqt-a1-m3-cR_2wqt-a1-m3-cS LMTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSS LMTKHTLEQLAADLRRAAEQGEAIAPLRDLIGIDNAEAAYAIQHINVQHDVAQGRRVVGRKVGLTHPKVQQQLGVDQPDFGTLFADMCYGDNEIIPFSRVLQPRIEAEIALVLNRDLPATDITFDELYNAIEWVLPALEVVGSRIRDWSIQFVDTVADNASCGVYVIGGPAQRPAGLDLKNCAMKMTRNNEEVSSGRGSECLGHPLNAAVWLARKMASLGEPLRTGDIILTGALGPMVAVNAGDRFEAHIEGIGSVAATFSS 2wqw-a2-m1-cA_2wqw-a2-m3-cA DOUBLE-DISULFIDE CROSS-LINKED CRYSTAL DIMER of the Listeria monocytogenes InlB internalin domain P0DQD2 P0DQD2 2.24 X-RAY DIFFRACTION 52 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 286 286 2wqw-a1-m1-cB_2wqw-a1-m2-cB ETITVPTPIKQIFSDDAFAETIKDNLKKKSVTDAVTQNELNSIDQIIANNSDIKSVQGIQYLPNVTKLFLNGNKLTDIKPLANLKNLGWLFLDENKVKDLSSLKDLKKLKSLSLEHNGISDINGLVHLPQLESLYLGNNKITDITVLSRLTKLDTLSLEDNQISDIVPLACLTKLQNLYLSKNHISDLRALCGLKNLDVLELFSQEALNKPINHQSNLVVPNTVKNTDGSLVTPEIISDDGDYEKPNVKWHLPEFTNEVSFIFYQPVTIGKAKARFHGRVTQPLKE ETITVPTPIKQIFSDDAFAETIKDNLKKKSVTDAVTQNELNSIDQIIANNSDIKSVQGIQYLPNVTKLFLNGNKLTDIKPLANLKNLGWLFLDENKVKDLSSLKDLKKLKSLSLEHNGISDINGLVHLPQLESLYLGNNKITDITVLSRLTKLDTLSLEDNQISDIVPLACLTKLQNLYLSKNHISDLRALCGLKNLDVLELFSQEALNKPINHQSNLVVPNTVKNTDGSLVTPEIISDDGDYEKPNVKWHLPEFTNEVSFIFYQPVTIGKAKARFHGRVTQPLKE 2wrc-a1-m1-cC_2wrc-a1-m1-cA the structure of influenza H2 human singapore hemagglutinin Q67333 Q67333 2.706 X-RAY DIFFRACTION 121 0.996 11309 (unidentified influenza virus) 11309 (unidentified influenza virus) 467 474 2wr0-a1-m1-cA_2wr0-a1-m1-cB 2wr0-a1-m1-cC_2wr0-a1-m1-cA 2wr0-a1-m1-cC_2wr0-a1-m1-cB 2wr1-a1-m1-cA_2wr1-a1-m1-cB 2wr1-a1-m1-cC_2wr1-a1-m1-cA 2wr1-a1-m1-cC_2wr1-a1-m1-cB 2wr2-a1-m1-cA_2wr2-a1-m1-cB 2wr2-a1-m1-cC_2wr2-a1-m1-cA 2wr2-a1-m1-cC_2wr2-a1-m1-cB 2wr3-a1-m1-cA_2wr3-a1-m1-cB 2wr3-a1-m1-cA_2wr3-a1-m1-cC 2wr3-a1-m1-cB_2wr3-a1-m1-cC 2wr4-a1-m1-cA_2wr4-a1-m1-cB 2wr4-a1-m1-cA_2wr4-a1-m1-cC 2wr4-a1-m1-cB_2wr4-a1-m1-cC 2wr5-a1-m1-cA_2wr5-a1-m1-cB 2wr5-a1-m1-cA_2wr5-a1-m1-cC 2wr5-a1-m1-cB_2wr5-a1-m1-cC 2wr7-a1-m1-cA_2wr7-a1-m1-cB 2wr7-a1-m1-cC_2wr7-a1-m1-cA 2wr7-a1-m1-cC_2wr7-a1-m1-cB 2wrb-a1-m1-cA_2wrb-a1-m1-cB 2wrb-a1-m1-cC_2wrb-a1-m1-cA 2wrb-a1-m1-cC_2wrb-a1-m1-cB 2wrc-a1-m1-cA_2wrc-a1-m1-cB 2wrc-a1-m1-cC_2wrc-a1-m1-cB 2wrd-a1-m1-cA_2wrd-a1-m1-cB 2wrd-a1-m1-cA_2wrd-a1-m1-cC 2wrd-a1-m1-cC_2wrd-a1-m1-cB 2wre-a1-m1-cA_2wre-a1-m1-cB 2wre-a1-m1-cA_2wre-a1-m1-cC 2wre-a1-m1-cC_2wre-a1-m1-cB 2wrf-a1-m1-cD_2wrf-a1-m1-cE 2wrf-a1-m1-cD_2wrf-a1-m1-cF 2wrf-a1-m1-cE_2wrf-a1-m1-cF 2wrf-a2-m1-cA_2wrf-a2-m1-cB 2wrf-a2-m1-cA_2wrf-a2-m1-cC 2wrf-a2-m1-cB_2wrf-a2-m1-cC 2wrf-a3-m1-cG_2wrf-a3-m1-cH 2wrf-a3-m1-cG_2wrf-a3-m1-cI 2wrf-a3-m1-cH_2wrf-a3-m1-cI 3ku3-a1-m1-cA_3ku3-a1-m2-cA 3ku3-a1-m3-cA_3ku3-a1-m1-cA 3ku3-a1-m3-cA_3ku3-a1-m2-cA 3ku5-a1-m1-cA_3ku5-a1-m2-cA 3ku5-a1-m3-cA_3ku5-a1-m1-cA 3ku5-a1-m3-cA_3ku5-a1-m2-cA 3ku6-a1-m1-cA_3ku6-a1-m2-cA 3ku6-a1-m3-cA_3ku6-a1-m1-cA 3ku6-a1-m3-cA_3ku6-a1-m2-cA 3qqb-a1-m1-cA_3qqb-a1-m2-cA 3qqb-a1-m3-cA_3qqb-a1-m1-cA 3qqb-a1-m3-cA_3qqb-a1-m2-cA 3qqe-a1-m1-cA_3qqe-a1-m2-cA 3qqe-a1-m3-cA_3qqe-a1-m1-cA 3qqe-a1-m3-cA_3qqe-a1-m2-cA 3qqo-a1-m1-cA_3qqo-a1-m1-cC 3qqo-a1-m1-cE_3qqo-a1-m1-cA 3qqo-a1-m1-cE_3qqo-a1-m1-cC 4hf5-a1-m1-cA_4hf5-a1-m2-cA 4hf5-a1-m3-cA_4hf5-a1-m1-cA 4hf5-a1-m3-cA_4hf5-a1-m2-cA 4hfu-a1-m1-cA_4hfu-a1-m2-cA 4hfu-a1-m3-cA_4hfu-a1-m1-cA 4hfu-a1-m3-cA_4hfu-a1-m2-cA 4hfu-a2-m1-cA_4hfu-a2-m2-cA 4hfu-a2-m3-cA_4hfu-a2-m1-cA 4hfu-a2-m3-cA_4hfu-a2-m2-cA 4hfu-a2-m4-cA_4hfu-a2-m5-cA 4hfu-a2-m6-cA_4hfu-a2-m4-cA 4hfu-a2-m6-cA_4hfu-a2-m5-cA 4hg4-a1-m1-cB_4hg4-a1-m1-cA 4hg4-a1-m1-cC_4hg4-a1-m1-cA 4hg4-a1-m1-cC_4hg4-a1-m1-cB 4hg4-a2-m1-cF_4hg4-a2-m1-cD 4hg4-a2-m1-cF_4hg4-a2-m1-cE 4hg4-a3-m1-cH_4hg4-a3-m1-cG 4hg4-a3-m1-cI_4hg4-a3-m1-cG 4hlz-a1-m1-cA_4hlz-a1-m1-cC 4hlz-a1-m1-cE_4hlz-a1-m1-cA 4hlz-a1-m1-cE_4hlz-a1-m1-cC 4w8n-a1-m1-cA_4w8n-a1-m1-cC 4w8n-a1-m1-cE_4w8n-a1-m1-cA 4w8n-a1-m1-cE_4w8n-a1-m1-cC 7dkj-a1-m1-cA_7dkj-a1-m1-cE 7dkj-a1-m1-cA_7dkj-a1-m1-cI 7dkj-a1-m1-cE_7dkj-a1-m1-cI 7l0l-a1-m1-cA_7l0l-a1-m1-cC 7l0l-a1-m1-cD_7l0l-a1-m1-cA 7l0l-a1-m1-cD_7l0l-a1-m1-cC ICIGYHANNSTEKVDTILERNVTVTHAKDILEKTHNGKLCKLNGIPPLELGDCSIAGWLLGNPECDRLLSVPEWSYIMEKENPRDGLCYPGSFNDYEELKHLLSSVKHFEKVKILPKDRWTQHTTTGGSRACAVSGNPSFFRNMVWLTEKGSNYPVAKGSYNNTSGEQMLIIWGVHHPNDETEQRTLYQNVGTYVSVGTSTLNKRSTPDIATRPKVNGLGSRMEFSWTLLDMWDTINFESTGNLIAPEYGFKISKRGSSGIMKTEGTLENCETKCQTPLGAINTTLPFHNVHPLTIGECPKYVKSEKLVLATGLRNVPGLFGAIAGFIEGGWQGMIDGWYGYHHSNDQGSGYAADKESTQKAFDGITNKVNSVIEKMNTQFEAVGKEFSNLERRLENLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRMQLRDNVKELGNGCFEFYHKCDDECM IGYHANNSTEKVDTILERNVTVTHAKDILEKTHNGKLCKLNGIPPLELGDCSIAGWLLGNPECDRLLSVPEWSYIMEKENPRDGLCYPGSFNDYEELKHLLSSVKHFEKVKILPKDRWTQHTTTGGSRACAVSGNPSFFRNMVWLTEKGSNYPVAKGSYNNTSGEQMLIIWGVHHPNDETEQRTLYQNVGTYVSVGTSTLNKRSTPDIATRPKVNGLGSRMEFSWTLLDMWDTINFESTGNLIAPEYGFKISKRGSSGIMKTEGTLENCETKCQTPLGAINTTLPFHNVHPLTIGECPKYVKSEKLVLATGLRNVPGLFGAIAGFIEGGWQGMIDGWYGYHHSNDQGSGYAADKESTQKAFDGITNKVNSVIEKMNTQFEAVGKEFSNLERRLENLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRMQLRDNVKELGNGCFEFYHKCDDECMNSVKNGTYD 2wrt-a3-m1-cE_2wrt-a3-m1-cF The 2.4 Angstrom structure of the Fasciola hepatica mu class GST, GST26 P30112 P30112 2.4 X-RAY DIFFRACTION 91 1.0 6192 (Fasciola hepatica) 6192 (Fasciola hepatica) 217 217 2wrt-a1-m1-cA_2wrt-a1-m1-cB 2wrt-a2-m1-cC_2wrt-a2-m1-cD 2wrt-a4-m1-cG_2wrt-a4-m1-cH 2wrt-a5-m1-cI_2wrt-a5-m1-cJ 2wrt-a6-m1-cK_2wrt-a6-m1-cL PAKLGYWKIRGLQQPVRLLLEYLGEEYEEHLYGRDDREKWLGDKFNMGLDLPNLPYYIDDKCKLTQSVAIMRYIADKHGMLGSTPEERARISMIEGAAMDLRMGFVRVCYNPKFEEVKGDYLKELPTTLKMWSNFLGDRHYLTGSSVSHVDFMVYEALDCIRYLAPQCLEDFPKLKEFKSRIEDLPKIKAYMESEKFIKWPLNSWIASFGGGDAAPA PAKLGYWKIRGLQQPVRLLLEYLGEEYEEHLYGRDDREKWLGDKFNMGLDLPNLPYYIDDKCKLTQSVAIMRYIADKHGMLGSTPEERARISMIEGAAMDLRMGFVRVCYNPKFEEVKGDYLKELPTTLKMWSNFLGDRHYLTGSSVSHVDFMVYEALDCIRYLAPQCLEDFPKLKEFKSRIEDLPKIKAYMESEKFIKWPLNSWIASFGGGDAAPA 2wru-a1-m1-cB_2wru-a1-m2-cB Semi-synthetic highly active analogue of human insulin NMeAlaB26-DTI- NH2 P01308 P01308 1.57 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 2ceu-a1-m1-cB_2ceu-a1-m1-cD 2wrw-a1-m1-cB_2wrw-a1-m2-cB 2ws0-a1-m1-cB_2ws0-a1-m2-cB 2ws1-a1-m1-cB_2ws1-a1-m2-cB 2ws4-a1-m1-cB_2ws4-a1-m2-cB 5boq-a2-m1-cD_5boq-a2-m1-cH VNQHLCGSHLVEALYLVCGERGFF VNQHLCGSHLVEALYLVCGERGFF 2wrx-a1-m1-cA_2wrx-a1-m1-cC Semi-synthetic analogue of human insulin NMeAlaB26-insulin at pH 3.0 P01308 P01308 1.5 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 2wrv-a1-m1-cA_2wrv-a1-m2-cA GIVEQCCTSICSLYQLENYCN GIVEQCCTSICSLYQLENYCN 2ws2-a1-m1-cA_2ws2-a1-m1-cB The 2 Angstrom structure of a Nu-class GST from Haemonchus contortus Q9NAW7 Q9NAW7 2.01 X-RAY DIFFRACTION 67 1.0 6289 (Haemonchus contortus) 6289 (Haemonchus contortus) 204 204 MVHYKLTYFNGRGAAEIIRQVFVLAGQDYEDVRLTHEEWPKHKASMPFGQLPVLEVDGKQLPQSVAIVRYLARKFGYAGKSAWEEAVVDSIADQFKDFLNEVRPYFKVLLGMDQGDLKALEKDVFEPARQKFFTIVTKILKENKTGYLVGDSLTFADLYVAEMGFTEHYPKLYDGFPEVKAHAEKVRSNPKLKKWIETRPASKF MVHYKLTYFNGRGAAEIIRQVFVLAGQDYEDVRLTHEEWPKHKASMPFGQLPVLEVDGKQLPQSVAIVRYLARKFGYAGKSAWEEAVVDSIADQFKDFLNEVRPYFKVLLGMDQGDLKALEKDVFEPARQKFFTIVTKILKENKTGYLVGDSLTFADLYVAEMGFTEHYPKLYDGFPEVKAHAEKVRSNPKLKKWIETRPASKF 2ws9-a1-m23-c2_2ws9-a1-m9-c2 Equine Rhinitis A Virus at Low pH B9VV85 B9VV85 3 X-RAY DIFFRACTION 42 1.0 47000 (Equine rhinitis A virus) 47000 (Equine rhinitis A virus) 200 200 2wff-a1-m10-c2_2wff-a1-m5-c2 2wff-a1-m11-c2_2wff-a1-m37-c2 2wff-a1-m12-c2_2wff-a1-m46-c2 2wff-a1-m13-c2_2wff-a1-m44-c2 2wff-a1-m14-c2_2wff-a1-m28-c2 2wff-a1-m15-c2_2wff-a1-m20-c2 2wff-a1-m16-c2_2wff-a1-m27-c2 2wff-a1-m17-c2_2wff-a1-m51-c2 2wff-a1-m18-c2_2wff-a1-m59-c2 2wff-a1-m19-c2_2wff-a1-m38-c2 2wff-a1-m1-c2_2wff-a1-m22-c2 2wff-a1-m21-c2_2wff-a1-m42-c2 2wff-a1-m23-c2_2wff-a1-m9-c2 2wff-a1-m24-c2_2wff-a1-m53-c2 2wff-a1-m25-c2_2wff-a1-m30-c2 2wff-a1-m26-c2_2wff-a1-m52-c2 2wff-a1-m29-c2_2wff-a1-m43-c2 2wff-a1-m2-c2_2wff-a1-m41-c2 2wff-a1-m31-c2_2wff-a1-m57-c2 2wff-a1-m32-c2_2wff-a1-m6-c2 2wff-a1-m33-c2_2wff-a1-m4-c2 2wff-a1-m34-c2_2wff-a1-m48-c2 2wff-a1-m35-c2_2wff-a1-m40-c2 2wff-a1-m36-c2_2wff-a1-m47-c2 2wff-a1-m39-c2_2wff-a1-m58-c2 2wff-a1-m3-c2_2wff-a1-m49-c2 2wff-a1-m45-c2_2wff-a1-m50-c2 2wff-a1-m54-c2_2wff-a1-m8-c2 2wff-a1-m55-c2_2wff-a1-m60-c2 2wff-a1-m56-c2_2wff-a1-m7-c2 2ws9-a1-m10-c2_2ws9-a1-m5-c2 2ws9-a1-m11-c2_2ws9-a1-m37-c2 2ws9-a1-m12-c2_2ws9-a1-m46-c2 2ws9-a1-m13-c2_2ws9-a1-m44-c2 2ws9-a1-m14-c2_2ws9-a1-m28-c2 2ws9-a1-m15-c2_2ws9-a1-m20-c2 2ws9-a1-m16-c2_2ws9-a1-m27-c2 2ws9-a1-m17-c2_2ws9-a1-m51-c2 2ws9-a1-m18-c2_2ws9-a1-m59-c2 2ws9-a1-m19-c2_2ws9-a1-m38-c2 2ws9-a1-m1-c2_2ws9-a1-m22-c2 2ws9-a1-m21-c2_2ws9-a1-m42-c2 2ws9-a1-m24-c2_2ws9-a1-m53-c2 2ws9-a1-m25-c2_2ws9-a1-m30-c2 2ws9-a1-m26-c2_2ws9-a1-m52-c2 2ws9-a1-m29-c2_2ws9-a1-m43-c2 2ws9-a1-m2-c2_2ws9-a1-m41-c2 2ws9-a1-m31-c2_2ws9-a1-m57-c2 2ws9-a1-m32-c2_2ws9-a1-m6-c2 2ws9-a1-m33-c2_2ws9-a1-m4-c2 2ws9-a1-m34-c2_2ws9-a1-m48-c2 2ws9-a1-m35-c2_2ws9-a1-m40-c2 2ws9-a1-m36-c2_2ws9-a1-m47-c2 2ws9-a1-m39-c2_2ws9-a1-m58-c2 2ws9-a1-m3-c2_2ws9-a1-m49-c2 2ws9-a1-m45-c2_2ws9-a1-m50-c2 2ws9-a1-m54-c2_2ws9-a1-m8-c2 2ws9-a1-m55-c2_2ws9-a1-m60-c2 2ws9-a1-m56-c2_2ws9-a1-m7-c2 2xbo-a1-m10-c2_2xbo-a1-m5-c2 2xbo-a1-m11-c2_2xbo-a1-m37-c2 2xbo-a1-m12-c2_2xbo-a1-m46-c2 2xbo-a1-m13-c2_2xbo-a1-m44-c2 2xbo-a1-m14-c2_2xbo-a1-m28-c2 2xbo-a1-m15-c2_2xbo-a1-m20-c2 2xbo-a1-m16-c2_2xbo-a1-m27-c2 2xbo-a1-m17-c2_2xbo-a1-m51-c2 2xbo-a1-m18-c2_2xbo-a1-m59-c2 2xbo-a1-m19-c2_2xbo-a1-m38-c2 2xbo-a1-m1-c2_2xbo-a1-m22-c2 2xbo-a1-m21-c2_2xbo-a1-m42-c2 2xbo-a1-m23-c2_2xbo-a1-m9-c2 2xbo-a1-m24-c2_2xbo-a1-m53-c2 2xbo-a1-m25-c2_2xbo-a1-m30-c2 2xbo-a1-m26-c2_2xbo-a1-m52-c2 2xbo-a1-m29-c2_2xbo-a1-m43-c2 2xbo-a1-m2-c2_2xbo-a1-m41-c2 2xbo-a1-m31-c2_2xbo-a1-m57-c2 2xbo-a1-m32-c2_2xbo-a1-m6-c2 2xbo-a1-m33-c2_2xbo-a1-m4-c2 2xbo-a1-m34-c2_2xbo-a1-m48-c2 2xbo-a1-m35-c2_2xbo-a1-m40-c2 2xbo-a1-m36-c2_2xbo-a1-m47-c2 2xbo-a1-m39-c2_2xbo-a1-m58-c2 2xbo-a1-m3-c2_2xbo-a1-m49-c2 2xbo-a1-m45-c2_2xbo-a1-m50-c2 2xbo-a1-m54-c2_2xbo-a1-m8-c2 2xbo-a1-m55-c2_2xbo-a1-m60-c2 2xbo-a1-m56-c2_2xbo-a1-m7-c2 GTTYCYSKPDGRPPSTVSDPVTRLGPTLSRHYTFKVGEWPHSQSHGHAWICPLPSDKLKKMGSFHEVVKAHHLVKNGWDVVVQVNASFAHSGALCVAAVPEYEHTHEKALKWSELEEPAYTYQQLSVFPHQLLNLRTNSSVHLVMPYIGPGPTTNLTLHNPWTIVILILSELTGPGQTVPVTMSVAPIDAMVNGPLPNPE GTTYCYSKPDGRPPSTVSDPVTRLGPTLSRHYTFKVGEWPHSQSHGHAWICPLPSDKLKKMGSFHEVVKAHHLVKNGWDVVVQVNASFAHSGALCVAAVPEYEHTHEKALKWSELEEPAYTYQQLSVFPHQLLNLRTNSSVHLVMPYIGPGPTTNLTLHNPWTIVILILSELTGPGQTVPVTMSVAPIDAMVNGPLPNPE 2ws9-a1-m7-c3_2ws9-a1-m9-c3 Equine Rhinitis A Virus at Low pH Q91B37 Q91B37 3 X-RAY DIFFRACTION 13 1.0 47000 (Equine rhinitis A virus) 47000 (Equine rhinitis A virus) 226 226 2wff-a1-m10-c3_2wff-a1-m7-c3 2wff-a1-m10-c3_2wff-a1-m8-c3 2wff-a1-m11-c3_2wff-a1-m13-c3 2wff-a1-m11-c3_2wff-a1-m14-c3 2wff-a1-m12-c3_2wff-a1-m14-c3 2wff-a1-m12-c3_2wff-a1-m15-c3 2wff-a1-m13-c3_2wff-a1-m15-c3 2wff-a1-m16-c3_2wff-a1-m18-c3 2wff-a1-m16-c3_2wff-a1-m19-c3 2wff-a1-m17-c3_2wff-a1-m19-c3 2wff-a1-m17-c3_2wff-a1-m20-c3 2wff-a1-m18-c3_2wff-a1-m20-c3 2wff-a1-m1-c3_2wff-a1-m3-c3 2wff-a1-m1-c3_2wff-a1-m4-c3 2wff-a1-m21-c3_2wff-a1-m23-c3 2wff-a1-m21-c3_2wff-a1-m24-c3 2wff-a1-m22-c3_2wff-a1-m24-c3 2wff-a1-m22-c3_2wff-a1-m25-c3 2wff-a1-m23-c3_2wff-a1-m25-c3 2wff-a1-m26-c3_2wff-a1-m28-c3 2wff-a1-m26-c3_2wff-a1-m29-c3 2wff-a1-m27-c3_2wff-a1-m29-c3 2wff-a1-m27-c3_2wff-a1-m30-c3 2wff-a1-m28-c3_2wff-a1-m30-c3 2wff-a1-m2-c3_2wff-a1-m4-c3 2wff-a1-m2-c3_2wff-a1-m5-c3 2wff-a1-m31-c3_2wff-a1-m33-c3 2wff-a1-m31-c3_2wff-a1-m34-c3 2wff-a1-m32-c3_2wff-a1-m34-c3 2wff-a1-m32-c3_2wff-a1-m35-c3 2wff-a1-m33-c3_2wff-a1-m35-c3 2wff-a1-m36-c3_2wff-a1-m38-c3 2wff-a1-m36-c3_2wff-a1-m39-c3 2wff-a1-m37-c3_2wff-a1-m39-c3 2wff-a1-m37-c3_2wff-a1-m40-c3 2wff-a1-m38-c3_2wff-a1-m40-c3 2wff-a1-m3-c3_2wff-a1-m5-c3 2wff-a1-m41-c3_2wff-a1-m43-c3 2wff-a1-m41-c3_2wff-a1-m44-c3 2wff-a1-m42-c3_2wff-a1-m44-c3 2wff-a1-m42-c3_2wff-a1-m45-c3 2wff-a1-m43-c3_2wff-a1-m45-c3 2wff-a1-m46-c3_2wff-a1-m48-c3 2wff-a1-m46-c3_2wff-a1-m49-c3 2wff-a1-m47-c3_2wff-a1-m49-c3 2wff-a1-m47-c3_2wff-a1-m50-c3 2wff-a1-m48-c3_2wff-a1-m50-c3 2wff-a1-m51-c3_2wff-a1-m53-c3 2wff-a1-m51-c3_2wff-a1-m54-c3 2wff-a1-m52-c3_2wff-a1-m54-c3 2wff-a1-m52-c3_2wff-a1-m55-c3 2wff-a1-m53-c3_2wff-a1-m55-c3 2wff-a1-m56-c3_2wff-a1-m58-c3 2wff-a1-m56-c3_2wff-a1-m59-c3 2wff-a1-m57-c3_2wff-a1-m59-c3 2wff-a1-m57-c3_2wff-a1-m60-c3 2wff-a1-m58-c3_2wff-a1-m60-c3 2wff-a1-m6-c3_2wff-a1-m8-c3 2wff-a1-m6-c3_2wff-a1-m9-c3 2wff-a1-m7-c3_2wff-a1-m9-c3 2ws9-a1-m10-c3_2ws9-a1-m7-c3 2ws9-a1-m10-c3_2ws9-a1-m8-c3 2ws9-a1-m11-c3_2ws9-a1-m13-c3 2ws9-a1-m11-c3_2ws9-a1-m14-c3 2ws9-a1-m12-c3_2ws9-a1-m14-c3 2ws9-a1-m12-c3_2ws9-a1-m15-c3 2ws9-a1-m13-c3_2ws9-a1-m15-c3 2ws9-a1-m16-c3_2ws9-a1-m18-c3 2ws9-a1-m16-c3_2ws9-a1-m19-c3 2ws9-a1-m17-c3_2ws9-a1-m19-c3 2ws9-a1-m17-c3_2ws9-a1-m20-c3 2ws9-a1-m18-c3_2ws9-a1-m20-c3 2ws9-a1-m1-c3_2ws9-a1-m3-c3 2ws9-a1-m1-c3_2ws9-a1-m4-c3 2ws9-a1-m21-c3_2ws9-a1-m23-c3 2ws9-a1-m21-c3_2ws9-a1-m24-c3 2ws9-a1-m22-c3_2ws9-a1-m24-c3 2ws9-a1-m22-c3_2ws9-a1-m25-c3 2ws9-a1-m23-c3_2ws9-a1-m25-c3 2ws9-a1-m26-c3_2ws9-a1-m28-c3 2ws9-a1-m26-c3_2ws9-a1-m29-c3 2ws9-a1-m27-c3_2ws9-a1-m29-c3 2ws9-a1-m27-c3_2ws9-a1-m30-c3 2ws9-a1-m28-c3_2ws9-a1-m30-c3 2ws9-a1-m2-c3_2ws9-a1-m4-c3 2ws9-a1-m2-c3_2ws9-a1-m5-c3 2ws9-a1-m31-c3_2ws9-a1-m33-c3 2ws9-a1-m31-c3_2ws9-a1-m34-c3 2ws9-a1-m32-c3_2ws9-a1-m34-c3 2ws9-a1-m32-c3_2ws9-a1-m35-c3 2ws9-a1-m33-c3_2ws9-a1-m35-c3 2ws9-a1-m36-c3_2ws9-a1-m38-c3 2ws9-a1-m36-c3_2ws9-a1-m39-c3 2ws9-a1-m37-c3_2ws9-a1-m39-c3 2ws9-a1-m37-c3_2ws9-a1-m40-c3 2ws9-a1-m38-c3_2ws9-a1-m40-c3 2ws9-a1-m3-c3_2ws9-a1-m5-c3 2ws9-a1-m41-c3_2ws9-a1-m43-c3 2ws9-a1-m41-c3_2ws9-a1-m44-c3 2ws9-a1-m42-c3_2ws9-a1-m44-c3 2ws9-a1-m42-c3_2ws9-a1-m45-c3 2ws9-a1-m43-c3_2ws9-a1-m45-c3 2ws9-a1-m46-c3_2ws9-a1-m48-c3 2ws9-a1-m46-c3_2ws9-a1-m49-c3 2ws9-a1-m47-c3_2ws9-a1-m49-c3 2ws9-a1-m47-c3_2ws9-a1-m50-c3 2ws9-a1-m48-c3_2ws9-a1-m50-c3 2ws9-a1-m51-c3_2ws9-a1-m53-c3 2ws9-a1-m51-c3_2ws9-a1-m54-c3 2ws9-a1-m52-c3_2ws9-a1-m54-c3 2ws9-a1-m52-c3_2ws9-a1-m55-c3 2ws9-a1-m53-c3_2ws9-a1-m55-c3 2ws9-a1-m56-c3_2ws9-a1-m58-c3 2ws9-a1-m56-c3_2ws9-a1-m59-c3 2ws9-a1-m57-c3_2ws9-a1-m59-c3 2ws9-a1-m57-c3_2ws9-a1-m60-c3 2ws9-a1-m58-c3_2ws9-a1-m60-c3 2ws9-a1-m6-c3_2ws9-a1-m8-c3 2ws9-a1-m6-c3_2ws9-a1-m9-c3 2xbo-a1-m10-c3_2xbo-a1-m7-c3 2xbo-a1-m10-c3_2xbo-a1-m8-c3 2xbo-a1-m11-c3_2xbo-a1-m13-c3 2xbo-a1-m11-c3_2xbo-a1-m14-c3 2xbo-a1-m12-c3_2xbo-a1-m14-c3 2xbo-a1-m12-c3_2xbo-a1-m15-c3 2xbo-a1-m13-c3_2xbo-a1-m15-c3 2xbo-a1-m16-c3_2xbo-a1-m18-c3 2xbo-a1-m16-c3_2xbo-a1-m19-c3 2xbo-a1-m17-c3_2xbo-a1-m19-c3 2xbo-a1-m17-c3_2xbo-a1-m20-c3 2xbo-a1-m18-c3_2xbo-a1-m20-c3 2xbo-a1-m1-c3_2xbo-a1-m3-c3 2xbo-a1-m1-c3_2xbo-a1-m4-c3 2xbo-a1-m21-c3_2xbo-a1-m23-c3 2xbo-a1-m21-c3_2xbo-a1-m24-c3 2xbo-a1-m22-c3_2xbo-a1-m24-c3 2xbo-a1-m22-c3_2xbo-a1-m25-c3 2xbo-a1-m23-c3_2xbo-a1-m25-c3 2xbo-a1-m26-c3_2xbo-a1-m28-c3 2xbo-a1-m26-c3_2xbo-a1-m29-c3 2xbo-a1-m27-c3_2xbo-a1-m29-c3 2xbo-a1-m27-c3_2xbo-a1-m30-c3 2xbo-a1-m28-c3_2xbo-a1-m30-c3 2xbo-a1-m2-c3_2xbo-a1-m4-c3 2xbo-a1-m2-c3_2xbo-a1-m5-c3 2xbo-a1-m31-c3_2xbo-a1-m33-c3 2xbo-a1-m31-c3_2xbo-a1-m34-c3 2xbo-a1-m32-c3_2xbo-a1-m34-c3 2xbo-a1-m32-c3_2xbo-a1-m35-c3 2xbo-a1-m33-c3_2xbo-a1-m35-c3 2xbo-a1-m36-c3_2xbo-a1-m38-c3 2xbo-a1-m36-c3_2xbo-a1-m39-c3 2xbo-a1-m37-c3_2xbo-a1-m39-c3 2xbo-a1-m37-c3_2xbo-a1-m40-c3 2xbo-a1-m38-c3_2xbo-a1-m40-c3 2xbo-a1-m3-c3_2xbo-a1-m5-c3 2xbo-a1-m41-c3_2xbo-a1-m43-c3 2xbo-a1-m41-c3_2xbo-a1-m44-c3 2xbo-a1-m42-c3_2xbo-a1-m44-c3 2xbo-a1-m42-c3_2xbo-a1-m45-c3 2xbo-a1-m43-c3_2xbo-a1-m45-c3 2xbo-a1-m46-c3_2xbo-a1-m48-c3 2xbo-a1-m46-c3_2xbo-a1-m49-c3 2xbo-a1-m47-c3_2xbo-a1-m49-c3 2xbo-a1-m47-c3_2xbo-a1-m50-c3 2xbo-a1-m48-c3_2xbo-a1-m50-c3 2xbo-a1-m51-c3_2xbo-a1-m53-c3 2xbo-a1-m51-c3_2xbo-a1-m54-c3 2xbo-a1-m52-c3_2xbo-a1-m54-c3 2xbo-a1-m52-c3_2xbo-a1-m55-c3 2xbo-a1-m53-c3_2xbo-a1-m55-c3 2xbo-a1-m56-c3_2xbo-a1-m58-c3 2xbo-a1-m56-c3_2xbo-a1-m59-c3 2xbo-a1-m57-c3_2xbo-a1-m59-c3 2xbo-a1-m57-c3_2xbo-a1-m60-c3 2xbo-a1-m58-c3_2xbo-a1-m60-c3 2xbo-a1-m6-c3_2xbo-a1-m8-c3 2xbo-a1-m6-c3_2xbo-a1-m9-c3 2xbo-a1-m7-c3_2xbo-a1-m9-c3 4ctf-a1-m1-cD0_4ctf-a1-m1-cD2 4ctf-a1-m1-cD0_4ctf-a1-m1-cD3 4ctf-a1-m1-cD1_4ctf-a1-m1-cD3 4ctf-a1-m1-cD1_4ctf-a1-m1-cDZ 4ctf-a1-m1-cD2_4ctf-a1-m1-cDZ 4ctf-a1-m1-cD4_4ctf-a1-m1-cD6 4ctf-a1-m1-cD4_4ctf-a1-m1-cD7 4ctf-a1-m1-cD5_4ctf-a1-m1-cD7 4ctf-a1-m1-cD5_4ctf-a1-m1-cD8 4ctf-a1-m1-cD6_4ctf-a1-m1-cD8 4ctf-a1-m1-cD9_4ctf-a1-m1-cDb 4ctf-a1-m1-cD9_4ctf-a1-m1-cDc 4ctf-a1-m1-cDa_4ctf-a1-m1-cDc 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4ctg-a1-m1-cCe_4ctg-a1-m1-cCg 4ctg-a1-m1-cCe_4ctg-a1-m1-cCi 4ctg-a1-m1-cCf_4ctg-a1-m1-cCg 4ctg-a1-m1-cCf_4ctg-a1-m1-cCh 4ctg-a1-m1-cCF_4ctg-a1-m1-cCH 4ctg-a1-m1-cCF_4ctg-a1-m1-cCJ 4ctg-a1-m1-cCG_4ctg-a1-m1-cCH 4ctg-a1-m1-cCG_4ctg-a1-m1-cCI 4ctg-a1-m1-cCh_4ctg-a1-m1-cCi 4ctg-a1-m1-cCI_4ctg-a1-m1-cCJ 4ctg-a1-m1-cCj_4ctg-a1-m1-cCl 4ctg-a1-m1-cCj_4ctg-a1-m1-cCn 4ctg-a1-m1-cCk_4ctg-a1-m1-cCl 4ctg-a1-m1-cCk_4ctg-a1-m1-cCm 4ctg-a1-m1-cCK_4ctg-a1-m1-cCM 4ctg-a1-m1-cCK_4ctg-a1-m1-cCO 4ctg-a1-m1-cCL_4ctg-a1-m1-cCM 4ctg-a1-m1-cCL_4ctg-a1-m1-cCN 4ctg-a1-m1-cCm_4ctg-a1-m1-cCn 4ctg-a1-m1-cCN_4ctg-a1-m1-cCO 4ctg-a1-m1-cCo_4ctg-a1-m1-cCq 4ctg-a1-m1-cCo_4ctg-a1-m1-cCs 4ctg-a1-m1-cCp_4ctg-a1-m1-cCq 4ctg-a1-m1-cCp_4ctg-a1-m1-cCr 4ctg-a1-m1-cCP_4ctg-a1-m1-cCR 4ctg-a1-m1-cCP_4ctg-a1-m1-cCT 4ctg-a1-m1-cCQ_4ctg-a1-m1-cCR 4ctg-a1-m1-cCQ_4ctg-a1-m1-cCS 4ctg-a1-m1-cCr_4ctg-a1-m1-cCs 4ctg-a1-m1-cCS_4ctg-a1-m1-cCT 4ctg-a1-m1-cCt_4ctg-a1-m1-cCv 4ctg-a1-m1-cCt_4ctg-a1-m1-cCx 4ctg-a1-m1-cCu_4ctg-a1-m1-cCv 4ctg-a1-m1-cCu_4ctg-a1-m1-cCw 4ctg-a1-m1-cCU_4ctg-a1-m1-cCW 4ctg-a1-m1-cCU_4ctg-a1-m1-cCY 4ctg-a1-m1-cCV_4ctg-a1-m1-cCW 4ctg-a1-m1-cCV_4ctg-a1-m1-cCX 4ctg-a1-m1-cCw_4ctg-a1-m1-cCx 4ctg-a1-m1-cCX_4ctg-a1-m1-cCY 4ctg-a1-m1-cDA_4ctg-a1-m1-cDB APIRVVSVPESDSFMSSVPDNSTPLYPKVVVPPRQVPGRFTNFIDVAKQTYSFCSISGKPYFEVTNTSGDEPLFQMDVSLSAAELHGTYVASLSSFFAQYRGSLNFNFIFTGAAATKAKFLVAFVPPHSAAPKTRDEAMACIHAVWDVGLNSAFSFNVPYSSPADFMAVYSAEATVVNVSGWLQVYALTALTSTDIAVNSKGRVLVAVSAGPDFSLRHPVDLPDKQ APIRVVSVPESDSFMSSVPDNSTPLYPKVVVPPRQVPGRFTNFIDVAKQTYSFCSISGKPYFEVTNTSGDEPLFQMDVSLSAAELHGTYVASLSSFFAQYRGSLNFNFIFTGAAATKAKFLVAFVPPHSAAPKTRDEAMACIHAVWDVGLNSAFSFNVPYSSPADFMAVYSAEATVVNVSGWLQVYALTALTSTDIAVNSKGRVLVAVSAGPDFSLRHPVDLPDKQ 2ws9-a1-m8-c1_2ws9-a1-m9-c1 Equine Rhinitis A Virus at Low pH B9VV85 B9VV85 3 X-RAY DIFFRACTION 115 1.0 47000 (Equine rhinitis A virus) 47000 (Equine rhinitis A virus) 246 246 2wff-a1-m10-c1_2wff-a1-m6-c1 2wff-a1-m10-c1_2wff-a1-m9-c1 2wff-a1-m11-c1_2wff-a1-m12-c1 2wff-a1-m11-c1_2wff-a1-m15-c1 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2xbo-a1-m2-c3_2xbo-a1-m3-c3 2xbo-a1-m31-c3_2xbo-a1-m32-c3 2xbo-a1-m31-c3_2xbo-a1-m35-c3 2xbo-a1-m32-c3_2xbo-a1-m33-c3 2xbo-a1-m33-c3_2xbo-a1-m34-c3 2xbo-a1-m34-c3_2xbo-a1-m35-c3 2xbo-a1-m36-c3_2xbo-a1-m37-c3 2xbo-a1-m36-c3_2xbo-a1-m40-c3 2xbo-a1-m37-c3_2xbo-a1-m38-c3 2xbo-a1-m38-c3_2xbo-a1-m39-c3 2xbo-a1-m39-c3_2xbo-a1-m40-c3 2xbo-a1-m3-c3_2xbo-a1-m4-c3 2xbo-a1-m41-c3_2xbo-a1-m42-c3 2xbo-a1-m41-c3_2xbo-a1-m45-c3 2xbo-a1-m42-c3_2xbo-a1-m43-c3 2xbo-a1-m43-c3_2xbo-a1-m44-c3 2xbo-a1-m44-c3_2xbo-a1-m45-c3 2xbo-a1-m46-c3_2xbo-a1-m47-c3 2xbo-a1-m46-c3_2xbo-a1-m50-c3 2xbo-a1-m47-c3_2xbo-a1-m48-c3 2xbo-a1-m48-c3_2xbo-a1-m49-c3 2xbo-a1-m49-c3_2xbo-a1-m50-c3 2xbo-a1-m4-c3_2xbo-a1-m5-c3 2xbo-a1-m51-c3_2xbo-a1-m52-c3 2xbo-a1-m51-c3_2xbo-a1-m55-c3 2xbo-a1-m52-c3_2xbo-a1-m53-c3 2xbo-a1-m53-c3_2xbo-a1-m54-c3 2xbo-a1-m54-c3_2xbo-a1-m55-c3 2xbo-a1-m56-c3_2xbo-a1-m57-c3 2xbo-a1-m56-c3_2xbo-a1-m60-c3 2xbo-a1-m57-c3_2xbo-a1-m58-c3 2xbo-a1-m58-c3_2xbo-a1-m59-c3 2xbo-a1-m59-c3_2xbo-a1-m60-c3 2xbo-a1-m6-c3_2xbo-a1-m7-c3 2xbo-a1-m7-c3_2xbo-a1-m8-c3 2xbo-a1-m8-c3_2xbo-a1-m9-c3 4ctf-a1-m1-cD0_4ctf-a1-m1-cD1 4ctf-a1-m1-cD0_4ctf-a1-m1-cDZ 4ctf-a1-m1-cD1_4ctf-a1-m1-cD2 4ctf-a1-m1-cD2_4ctf-a1-m1-cD3 4ctf-a1-m1-cD3_4ctf-a1-m1-cDZ 4ctf-a1-m1-cD4_4ctf-a1-m1-cD5 4ctf-a1-m1-cD4_4ctf-a1-m1-cD8 4ctf-a1-m1-cD5_4ctf-a1-m1-cD6 4ctf-a1-m1-cD6_4ctf-a1-m1-cD7 4ctf-a1-m1-cD7_4ctf-a1-m1-cD8 4ctf-a1-m1-cD9_4ctf-a1-m1-cDa 4ctf-a1-m1-cD9_4ctf-a1-m1-cDd 4ctf-a1-m1-cDa_4ctf-a1-m1-cDb 4ctf-a1-m1-cDA_4ctf-a1-m1-cDB 4ctf-a1-m1-cDA_4ctf-a1-m1-cDE 4ctf-a1-m1-cDb_4ctf-a1-m1-cDc 4ctf-a1-m1-cDB_4ctf-a1-m1-cDC 4ctf-a1-m1-cDc_4ctf-a1-m1-cDd 4ctf-a1-m1-cDC_4ctf-a1-m1-cDD 4ctf-a1-m1-cDD_4ctf-a1-m1-cDE 4ctf-a1-m1-cDe_4ctf-a1-m1-cDf 4ctf-a1-m1-cDe_4ctf-a1-m1-cDi 4ctf-a1-m1-cDf_4ctf-a1-m1-cDg 4ctf-a1-m1-cDF_4ctf-a1-m1-cDG 4ctf-a1-m1-cDF_4ctf-a1-m1-cDJ 4ctf-a1-m1-cDg_4ctf-a1-m1-cDh 4ctf-a1-m1-cDG_4ctf-a1-m1-cDH 4ctf-a1-m1-cDh_4ctf-a1-m1-cDi 4ctf-a1-m1-cDH_4ctf-a1-m1-cDI 4ctf-a1-m1-cDI_4ctf-a1-m1-cDJ 4ctf-a1-m1-cDj_4ctf-a1-m1-cDk 4ctf-a1-m1-cDj_4ctf-a1-m1-cDn 4ctf-a1-m1-cDk_4ctf-a1-m1-cDl 4ctf-a1-m1-cDK_4ctf-a1-m1-cDL 4ctf-a1-m1-cDK_4ctf-a1-m1-cDO 4ctf-a1-m1-cDl_4ctf-a1-m1-cDm 4ctf-a1-m1-cDL_4ctf-a1-m1-cDM 4ctf-a1-m1-cDm_4ctf-a1-m1-cDn 4ctf-a1-m1-cDM_4ctf-a1-m1-cDN 4ctf-a1-m1-cDN_4ctf-a1-m1-cDO 4ctf-a1-m1-cDo_4ctf-a1-m1-cDp 4ctf-a1-m1-cDo_4ctf-a1-m1-cDs 4ctf-a1-m1-cDp_4ctf-a1-m1-cDq 4ctf-a1-m1-cDP_4ctf-a1-m1-cDQ 4ctf-a1-m1-cDP_4ctf-a1-m1-cDT 4ctf-a1-m1-cDq_4ctf-a1-m1-cDr 4ctf-a1-m1-cDQ_4ctf-a1-m1-cDR 4ctf-a1-m1-cDr_4ctf-a1-m1-cDs 4ctf-a1-m1-cDR_4ctf-a1-m1-cDS 4ctf-a1-m1-cDS_4ctf-a1-m1-cDT 4ctf-a1-m1-cDU_4ctf-a1-m1-cDV 4ctf-a1-m1-cDU_4ctf-a1-m1-cDY 4ctf-a1-m1-cDV_4ctf-a1-m1-cDW 4ctf-a1-m1-cDW_4ctf-a1-m1-cDX 4ctf-a1-m1-cDX_4ctf-a1-m1-cDY 4ctf-a1-m1-cEA_4ctf-a1-m1-cEB 4ctf-a1-m1-cEA_4ctf-a1-m1-cEE 4ctf-a1-m1-cEB_4ctf-a1-m1-cEC 4ctf-a1-m1-cEC_4ctf-a1-m1-cED 4ctf-a1-m1-cED_4ctf-a1-m1-cEE 4ctg-a1-m1-cC0_4ctg-a1-m1-cC3 4ctg-a1-m1-cC0_4ctg-a1-m1-cCZ 4ctg-a1-m1-cC1_4ctg-a1-m1-cC2 4ctg-a1-m1-cC1_4ctg-a1-m1-cC3 4ctg-a1-m1-cC2_4ctg-a1-m1-cCZ 4ctg-a1-m1-cC4_4ctg-a1-m1-cC5 4ctg-a1-m1-cC4_4ctg-a1-m1-cC7 4ctg-a1-m1-cC5_4ctg-a1-m1-cC8 4ctg-a1-m1-cC6_4ctg-a1-m1-cC7 4ctg-a1-m1-cC6_4ctg-a1-m1-cC8 4ctg-a1-m1-cC9_4ctg-a1-m1-cCc 4ctg-a1-m1-cC9_4ctg-a1-m1-cDA 4ctg-a1-m1-cCA_4ctg-a1-m1-cCB 4ctg-a1-m1-cCA_4ctg-a1-m1-cCD 4ctg-a1-m1-cCB_4ctg-a1-m1-cCE 4ctg-a1-m1-cCC_4ctg-a1-m1-cCD 4ctg-a1-m1-cCC_4ctg-a1-m1-cCE 4ctg-a1-m1-cCc_4ctg-a1-m1-cDB 4ctg-a1-m1-cCd_4ctg-a1-m1-cDA 4ctg-a1-m1-cCd_4ctg-a1-m1-cDB 4ctg-a1-m1-cCe_4ctg-a1-m1-cCf 4ctg-a1-m1-cCe_4ctg-a1-m1-cCh 4ctg-a1-m1-cCF_4ctg-a1-m1-cCG 4ctg-a1-m1-cCf_4ctg-a1-m1-cCi 4ctg-a1-m1-cCF_4ctg-a1-m1-cCI 4ctg-a1-m1-cCg_4ctg-a1-m1-cCh 4ctg-a1-m1-cCg_4ctg-a1-m1-cCi 4ctg-a1-m1-cCG_4ctg-a1-m1-cCJ 4ctg-a1-m1-cCH_4ctg-a1-m1-cCI 4ctg-a1-m1-cCH_4ctg-a1-m1-cCJ 4ctg-a1-m1-cCj_4ctg-a1-m1-cCk 4ctg-a1-m1-cCj_4ctg-a1-m1-cCm 4ctg-a1-m1-cCK_4ctg-a1-m1-cCL 4ctg-a1-m1-cCk_4ctg-a1-m1-cCn 4ctg-a1-m1-cCK_4ctg-a1-m1-cCN 4ctg-a1-m1-cCl_4ctg-a1-m1-cCm 4ctg-a1-m1-cCl_4ctg-a1-m1-cCn 4ctg-a1-m1-cCL_4ctg-a1-m1-cCO 4ctg-a1-m1-cCM_4ctg-a1-m1-cCN 4ctg-a1-m1-cCM_4ctg-a1-m1-cCO 4ctg-a1-m1-cCo_4ctg-a1-m1-cCp 4ctg-a1-m1-cCo_4ctg-a1-m1-cCr 4ctg-a1-m1-cCP_4ctg-a1-m1-cCQ 4ctg-a1-m1-cCp_4ctg-a1-m1-cCs 4ctg-a1-m1-cCP_4ctg-a1-m1-cCS 4ctg-a1-m1-cCq_4ctg-a1-m1-cCr 4ctg-a1-m1-cCq_4ctg-a1-m1-cCs 4ctg-a1-m1-cCQ_4ctg-a1-m1-cCT 4ctg-a1-m1-cCR_4ctg-a1-m1-cCS 4ctg-a1-m1-cCR_4ctg-a1-m1-cCT 4ctg-a1-m1-cCt_4ctg-a1-m1-cCu 4ctg-a1-m1-cCt_4ctg-a1-m1-cCw 4ctg-a1-m1-cCU_4ctg-a1-m1-cCV 4ctg-a1-m1-cCu_4ctg-a1-m1-cCx 4ctg-a1-m1-cCU_4ctg-a1-m1-cCX 4ctg-a1-m1-cCv_4ctg-a1-m1-cCw 4ctg-a1-m1-cCv_4ctg-a1-m1-cCx 4ctg-a1-m1-cCV_4ctg-a1-m1-cCY 4ctg-a1-m1-cCW_4ctg-a1-m1-cCX 4ctg-a1-m1-cCW_4ctg-a1-m1-cCY APIRVVSVPESDSFMSSVPDNSTPLYPKVVVPPRQVPGRFTNFIDVAKQTYSFCSISGKPYFEVTNTSGDEPLFQMDVSLSAAELHGTYVASLSSFFAQYRGSLNFNFIFTGAAATKAKFLVAFVPPHSAAPKTRDEAMACIHAVWDVGLNSAFSFNVPYSSPADFMAVYSAEATVVNVSGWLQVYALTALTSTDIAVNSKGRVLVAVSAGPDFSLRHPVDLPDKQ APIRVVSVPESDSFMSSVPDNSTPLYPKVVVPPRQVPGRFTNFIDVAKQTYSFCSISGKPYFEVTNTSGDEPLFQMDVSLSAAELHGTYVASLSSFFAQYRGSLNFNFIFTGAAATKAKFLVAFVPPHSAAPKTRDEAMACIHAVWDVGLNSAFSFNVPYSSPADFMAVYSAEATVVNVSGWLQVYALTALTSTDIAVNSKGRVLVAVSAGPDFSLRHPVDLPDKQ 2ws9-a1-m8-c4_2ws9-a1-m9-c4 Equine Rhinitis A Virus at Low pH B9VV85 B9VV85 3 X-RAY DIFFRACTION 12 1.0 47000 (Equine rhinitis A virus) 47000 (Equine rhinitis A virus) 21 21 2wff-a1-m10-c4_2wff-a1-m6-c4 2wff-a1-m10-c4_2wff-a1-m9-c4 2wff-a1-m11-c4_2wff-a1-m12-c4 2wff-a1-m11-c4_2wff-a1-m15-c4 2wff-a1-m12-c4_2wff-a1-m13-c4 2wff-a1-m13-c4_2wff-a1-m14-c4 2wff-a1-m14-c4_2wff-a1-m15-c4 2wff-a1-m16-c4_2wff-a1-m17-c4 2wff-a1-m16-c4_2wff-a1-m20-c4 2wff-a1-m17-c4_2wff-a1-m18-c4 2wff-a1-m18-c4_2wff-a1-m19-c4 2wff-a1-m19-c4_2wff-a1-m20-c4 2wff-a1-m1-c4_2wff-a1-m2-c4 2wff-a1-m1-c4_2wff-a1-m5-c4 2wff-a1-m21-c4_2wff-a1-m22-c4 2wff-a1-m21-c4_2wff-a1-m25-c4 2wff-a1-m22-c4_2wff-a1-m23-c4 2wff-a1-m23-c4_2wff-a1-m24-c4 2wff-a1-m24-c4_2wff-a1-m25-c4 2wff-a1-m26-c4_2wff-a1-m27-c4 2wff-a1-m26-c4_2wff-a1-m30-c4 2wff-a1-m27-c4_2wff-a1-m28-c4 2wff-a1-m28-c4_2wff-a1-m29-c4 2wff-a1-m29-c4_2wff-a1-m30-c4 2wff-a1-m2-c4_2wff-a1-m3-c4 2wff-a1-m31-c4_2wff-a1-m32-c4 2wff-a1-m31-c4_2wff-a1-m35-c4 2wff-a1-m32-c4_2wff-a1-m33-c4 2wff-a1-m33-c4_2wff-a1-m34-c4 2wff-a1-m34-c4_2wff-a1-m35-c4 2wff-a1-m36-c4_2wff-a1-m37-c4 2wff-a1-m36-c4_2wff-a1-m40-c4 2wff-a1-m37-c4_2wff-a1-m38-c4 2wff-a1-m38-c4_2wff-a1-m39-c4 2wff-a1-m39-c4_2wff-a1-m40-c4 2wff-a1-m3-c4_2wff-a1-m4-c4 2wff-a1-m41-c4_2wff-a1-m42-c4 2wff-a1-m41-c4_2wff-a1-m45-c4 2wff-a1-m42-c4_2wff-a1-m43-c4 2wff-a1-m43-c4_2wff-a1-m44-c4 2wff-a1-m44-c4_2wff-a1-m45-c4 2wff-a1-m46-c4_2wff-a1-m47-c4 2wff-a1-m46-c4_2wff-a1-m50-c4 2wff-a1-m47-c4_2wff-a1-m48-c4 2wff-a1-m48-c4_2wff-a1-m49-c4 2wff-a1-m49-c4_2wff-a1-m50-c4 2wff-a1-m4-c4_2wff-a1-m5-c4 2wff-a1-m51-c4_2wff-a1-m52-c4 2wff-a1-m51-c4_2wff-a1-m55-c4 2wff-a1-m52-c4_2wff-a1-m53-c4 2wff-a1-m53-c4_2wff-a1-m54-c4 2wff-a1-m54-c4_2wff-a1-m55-c4 2wff-a1-m56-c4_2wff-a1-m57-c4 2wff-a1-m56-c4_2wff-a1-m60-c4 2wff-a1-m57-c4_2wff-a1-m58-c4 2wff-a1-m58-c4_2wff-a1-m59-c4 2wff-a1-m59-c4_2wff-a1-m60-c4 2wff-a1-m6-c4_2wff-a1-m7-c4 2wff-a1-m7-c4_2wff-a1-m8-c4 2wff-a1-m8-c4_2wff-a1-m9-c4 2ws9-a1-m10-c4_2ws9-a1-m6-c4 2ws9-a1-m10-c4_2ws9-a1-m9-c4 2ws9-a1-m11-c4_2ws9-a1-m12-c4 2ws9-a1-m11-c4_2ws9-a1-m15-c4 2ws9-a1-m12-c4_2ws9-a1-m13-c4 2ws9-a1-m13-c4_2ws9-a1-m14-c4 2ws9-a1-m14-c4_2ws9-a1-m15-c4 2ws9-a1-m16-c4_2ws9-a1-m17-c4 2ws9-a1-m16-c4_2ws9-a1-m20-c4 2ws9-a1-m17-c4_2ws9-a1-m18-c4 2ws9-a1-m18-c4_2ws9-a1-m19-c4 2ws9-a1-m19-c4_2ws9-a1-m20-c4 2ws9-a1-m1-c4_2ws9-a1-m2-c4 2ws9-a1-m1-c4_2ws9-a1-m5-c4 2ws9-a1-m21-c4_2ws9-a1-m22-c4 2ws9-a1-m21-c4_2ws9-a1-m25-c4 2ws9-a1-m22-c4_2ws9-a1-m23-c4 2ws9-a1-m23-c4_2ws9-a1-m24-c4 2ws9-a1-m24-c4_2ws9-a1-m25-c4 2ws9-a1-m26-c4_2ws9-a1-m27-c4 2ws9-a1-m26-c4_2ws9-a1-m30-c4 2ws9-a1-m27-c4_2ws9-a1-m28-c4 2ws9-a1-m28-c4_2ws9-a1-m29-c4 2ws9-a1-m29-c4_2ws9-a1-m30-c4 2ws9-a1-m2-c4_2ws9-a1-m3-c4 2ws9-a1-m31-c4_2ws9-a1-m32-c4 2ws9-a1-m31-c4_2ws9-a1-m35-c4 2ws9-a1-m32-c4_2ws9-a1-m33-c4 2ws9-a1-m33-c4_2ws9-a1-m34-c4 2ws9-a1-m34-c4_2ws9-a1-m35-c4 2ws9-a1-m36-c4_2ws9-a1-m37-c4 2ws9-a1-m36-c4_2ws9-a1-m40-c4 2ws9-a1-m37-c4_2ws9-a1-m38-c4 2ws9-a1-m38-c4_2ws9-a1-m39-c4 2ws9-a1-m39-c4_2ws9-a1-m40-c4 2ws9-a1-m3-c4_2ws9-a1-m4-c4 2ws9-a1-m41-c4_2ws9-a1-m42-c4 2ws9-a1-m41-c4_2ws9-a1-m45-c4 2ws9-a1-m42-c4_2ws9-a1-m43-c4 2ws9-a1-m43-c4_2ws9-a1-m44-c4 2ws9-a1-m44-c4_2ws9-a1-m45-c4 2ws9-a1-m46-c4_2ws9-a1-m47-c4 2ws9-a1-m46-c4_2ws9-a1-m50-c4 2ws9-a1-m47-c4_2ws9-a1-m48-c4 2ws9-a1-m48-c4_2ws9-a1-m49-c4 2ws9-a1-m49-c4_2ws9-a1-m50-c4 2ws9-a1-m4-c4_2ws9-a1-m5-c4 2ws9-a1-m51-c4_2ws9-a1-m52-c4 2ws9-a1-m51-c4_2ws9-a1-m55-c4 2ws9-a1-m52-c4_2ws9-a1-m53-c4 2ws9-a1-m53-c4_2ws9-a1-m54-c4 2ws9-a1-m54-c4_2ws9-a1-m55-c4 2ws9-a1-m56-c4_2ws9-a1-m57-c4 2ws9-a1-m56-c4_2ws9-a1-m60-c4 2ws9-a1-m57-c4_2ws9-a1-m58-c4 2ws9-a1-m58-c4_2ws9-a1-m59-c4 2ws9-a1-m59-c4_2ws9-a1-m60-c4 2ws9-a1-m6-c4_2ws9-a1-m7-c4 2ws9-a1-m7-c4_2ws9-a1-m8-c4 2xbo-a1-m10-c4_2xbo-a1-m6-c4 2xbo-a1-m10-c4_2xbo-a1-m9-c4 2xbo-a1-m11-c4_2xbo-a1-m12-c4 2xbo-a1-m11-c4_2xbo-a1-m15-c4 2xbo-a1-m12-c4_2xbo-a1-m13-c4 2xbo-a1-m13-c4_2xbo-a1-m14-c4 2xbo-a1-m14-c4_2xbo-a1-m15-c4 2xbo-a1-m16-c4_2xbo-a1-m17-c4 2xbo-a1-m16-c4_2xbo-a1-m20-c4 2xbo-a1-m17-c4_2xbo-a1-m18-c4 2xbo-a1-m18-c4_2xbo-a1-m19-c4 2xbo-a1-m19-c4_2xbo-a1-m20-c4 2xbo-a1-m1-c4_2xbo-a1-m2-c4 2xbo-a1-m1-c4_2xbo-a1-m5-c4 2xbo-a1-m21-c4_2xbo-a1-m22-c4 2xbo-a1-m21-c4_2xbo-a1-m25-c4 2xbo-a1-m22-c4_2xbo-a1-m23-c4 2xbo-a1-m23-c4_2xbo-a1-m24-c4 2xbo-a1-m24-c4_2xbo-a1-m25-c4 2xbo-a1-m26-c4_2xbo-a1-m27-c4 2xbo-a1-m26-c4_2xbo-a1-m30-c4 2xbo-a1-m27-c4_2xbo-a1-m28-c4 2xbo-a1-m28-c4_2xbo-a1-m29-c4 2xbo-a1-m29-c4_2xbo-a1-m30-c4 2xbo-a1-m2-c4_2xbo-a1-m3-c4 2xbo-a1-m31-c4_2xbo-a1-m32-c4 2xbo-a1-m31-c4_2xbo-a1-m35-c4 2xbo-a1-m32-c4_2xbo-a1-m33-c4 2xbo-a1-m33-c4_2xbo-a1-m34-c4 2xbo-a1-m34-c4_2xbo-a1-m35-c4 2xbo-a1-m36-c4_2xbo-a1-m37-c4 2xbo-a1-m36-c4_2xbo-a1-m40-c4 2xbo-a1-m37-c4_2xbo-a1-m38-c4 2xbo-a1-m38-c4_2xbo-a1-m39-c4 2xbo-a1-m39-c4_2xbo-a1-m40-c4 2xbo-a1-m3-c4_2xbo-a1-m4-c4 2xbo-a1-m41-c4_2xbo-a1-m42-c4 2xbo-a1-m41-c4_2xbo-a1-m45-c4 2xbo-a1-m42-c4_2xbo-a1-m43-c4 2xbo-a1-m43-c4_2xbo-a1-m44-c4 2xbo-a1-m44-c4_2xbo-a1-m45-c4 2xbo-a1-m46-c4_2xbo-a1-m47-c4 2xbo-a1-m46-c4_2xbo-a1-m50-c4 2xbo-a1-m47-c4_2xbo-a1-m48-c4 2xbo-a1-m48-c4_2xbo-a1-m49-c4 2xbo-a1-m49-c4_2xbo-a1-m50-c4 2xbo-a1-m4-c4_2xbo-a1-m5-c4 2xbo-a1-m51-c4_2xbo-a1-m52-c4 2xbo-a1-m51-c4_2xbo-a1-m55-c4 2xbo-a1-m52-c4_2xbo-a1-m53-c4 2xbo-a1-m53-c4_2xbo-a1-m54-c4 2xbo-a1-m54-c4_2xbo-a1-m55-c4 2xbo-a1-m56-c4_2xbo-a1-m57-c4 2xbo-a1-m56-c4_2xbo-a1-m60-c4 2xbo-a1-m57-c4_2xbo-a1-m58-c4 2xbo-a1-m58-c4_2xbo-a1-m59-c4 2xbo-a1-m59-c4_2xbo-a1-m60-c4 2xbo-a1-m6-c4_2xbo-a1-m7-c4 2xbo-a1-m7-c4_2xbo-a1-m8-c4 2xbo-a1-m8-c4_2xbo-a1-m9-c4 4ctf-a1-m1-cF0_4ctf-a1-m1-cF1 4ctf-a1-m1-cF0_4ctf-a1-m1-cFZ 4ctf-a1-m1-cF1_4ctf-a1-m1-cF2 4ctf-a1-m1-cF2_4ctf-a1-m1-cF3 4ctf-a1-m1-cF3_4ctf-a1-m1-cFZ 4ctf-a1-m1-cF4_4ctf-a1-m1-cF5 4ctf-a1-m1-cF4_4ctf-a1-m1-cF8 4ctf-a1-m1-cF5_4ctf-a1-m1-cF6 4ctf-a1-m1-cF6_4ctf-a1-m1-cF7 4ctf-a1-m1-cF7_4ctf-a1-m1-cF8 4ctf-a1-m1-cF9_4ctf-a1-m1-cFa 4ctf-a1-m1-cF9_4ctf-a1-m1-cFd 4ctf-a1-m1-cFa_4ctf-a1-m1-cFb 4ctf-a1-m1-cFA_4ctf-a1-m1-cFB 4ctf-a1-m1-cFA_4ctf-a1-m1-cFE 4ctf-a1-m1-cFb_4ctf-a1-m1-cFc 4ctf-a1-m1-cFB_4ctf-a1-m1-cFC 4ctf-a1-m1-cFc_4ctf-a1-m1-cFd 4ctf-a1-m1-cFC_4ctf-a1-m1-cFD 4ctf-a1-m1-cFD_4ctf-a1-m1-cFE 4ctf-a1-m1-cFe_4ctf-a1-m1-cFf 4ctf-a1-m1-cFe_4ctf-a1-m1-cFi 4ctf-a1-m1-cFf_4ctf-a1-m1-cFg 4ctf-a1-m1-cFF_4ctf-a1-m1-cFG 4ctf-a1-m1-cFF_4ctf-a1-m1-cFJ 4ctf-a1-m1-cFg_4ctf-a1-m1-cFh 4ctf-a1-m1-cFG_4ctf-a1-m1-cFH 4ctf-a1-m1-cFh_4ctf-a1-m1-cFi 4ctf-a1-m1-cFH_4ctf-a1-m1-cFI 4ctf-a1-m1-cFI_4ctf-a1-m1-cFJ 4ctf-a1-m1-cFj_4ctf-a1-m1-cFk 4ctf-a1-m1-cFj_4ctf-a1-m1-cFn 4ctf-a1-m1-cFk_4ctf-a1-m1-cFl 4ctf-a1-m1-cFK_4ctf-a1-m1-cFL 4ctf-a1-m1-cFK_4ctf-a1-m1-cFO 4ctf-a1-m1-cFl_4ctf-a1-m1-cFm 4ctf-a1-m1-cFL_4ctf-a1-m1-cFM 4ctf-a1-m1-cFm_4ctf-a1-m1-cFn 4ctf-a1-m1-cFM_4ctf-a1-m1-cFN 4ctf-a1-m1-cFN_4ctf-a1-m1-cFO 4ctf-a1-m1-cFo_4ctf-a1-m1-cFp 4ctf-a1-m1-cFo_4ctf-a1-m1-cFs 4ctf-a1-m1-cFp_4ctf-a1-m1-cFq 4ctf-a1-m1-cFP_4ctf-a1-m1-cFQ 4ctf-a1-m1-cFP_4ctf-a1-m1-cFT 4ctf-a1-m1-cFq_4ctf-a1-m1-cFr 4ctf-a1-m1-cFQ_4ctf-a1-m1-cFR 4ctf-a1-m1-cFr_4ctf-a1-m1-cFs 4ctf-a1-m1-cFR_4ctf-a1-m1-cFS 4ctf-a1-m1-cFS_4ctf-a1-m1-cFT 4ctf-a1-m1-cFt_4ctf-a1-m1-cFu 4ctf-a1-m1-cFt_4ctf-a1-m1-cFx 4ctf-a1-m1-cFu_4ctf-a1-m1-cFv 4ctf-a1-m1-cFU_4ctf-a1-m1-cFV 4ctf-a1-m1-cFU_4ctf-a1-m1-cFY 4ctf-a1-m1-cFv_4ctf-a1-m1-cFw 4ctf-a1-m1-cFV_4ctf-a1-m1-cFW 4ctf-a1-m1-cFw_4ctf-a1-m1-cFx 4ctf-a1-m1-cFW_4ctf-a1-m1-cFX 4ctf-a1-m1-cFX_4ctf-a1-m1-cFY GNSGSIVQNFYMQQYQNSIDA GNSGSIVQNFYMQQYQNSIDA 2wsb-a1-m1-cA_2wsb-a1-m1-cD Crystal structure of the short-chain dehydrogenase Galactitol- Dehydrogenase (GatDH) of Rhodobacter sphaeroides in complex with NAD C0KTJ6 C0KTJ6 1.25 X-RAY DIFFRACTION 151 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 254 254 2wdz-a1-m1-cA_2wdz-a1-m1-cB 2wdz-a1-m2-cA_2wdz-a1-m2-cB 2wdz-a2-m1-cC_2wdz-a2-m3-cC 2wdz-a2-m1-cD_2wdz-a2-m3-cD 2wsb-a1-m1-cB_2wsb-a1-m1-cC 3lqf-a1-m1-cA_3lqf-a1-m1-cC 3lqf-a1-m1-cB_3lqf-a1-m1-cD MDYRTVFRLDGACAAVTGAGSGIGLEICRAFAASGARLILIDREAAALDRAAQELGAAVAARIVADVTDAEAMTAAAAEAEAVAPVSILVNSAGIARLHDALETDDATWRQVMAVNVDGMFWASRAFGRAMVARGAGAIVNLGSMSGTIVNRPQFASSYMASKGAVHQLTRALAAEWAGRGVRVNALAPGYVATEMTLKMRERPELFETWLDMTPMGRCGEPSEIAAAALFLASPAASYVTGAILAVDGGYTVW MDYRTVFRLDGACAAVTGAGSGIGLEICRAFAASGARLILIDREAAALDRAAQELGAAVAARIVADVTDAEAMTAAAAEAEAVAPVSILVNSAGIARLHDALETDDATWRQVMAVNVDGMFWASRAFGRAMVARGAGAIVNLGSMSGTIVNRPQFASSYMASKGAVHQLTRALAAEWAGRGVRVNALAPGYVATEMTLKMRERPELFETWLDMTPMGRCGEPSEIAAAALFLASPAASYVTGAILAVDGGYTVW 2wsb-a1-m1-cB_2wsb-a1-m1-cD Crystal structure of the short-chain dehydrogenase Galactitol- Dehydrogenase (GatDH) of Rhodobacter sphaeroides in complex with NAD C0KTJ6 C0KTJ6 1.25 X-RAY DIFFRACTION 121 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 254 254 2wdz-a1-m1-cA_2wdz-a1-m2-cB 2wdz-a1-m1-cB_2wdz-a1-m2-cA 2wdz-a2-m1-cC_2wdz-a2-m1-cD 2wdz-a2-m3-cC_2wdz-a2-m3-cD 2wsb-a1-m1-cA_2wsb-a1-m1-cC 3lqf-a1-m1-cA_3lqf-a1-m1-cD 3lqf-a1-m1-cB_3lqf-a1-m1-cC MDYRTVFRLDGACAAVTGAGSGIGLEICRAFAASGARLILIDREAAALDRAAQELGAAVAARIVADVTDAEAMTAAAAEAEAVAPVSILVNSAGIARLHDALETDDATWRQVMAVNVDGMFWASRAFGRAMVARGAGAIVNLGSMSGTIVNRPQFASSYMASKGAVHQLTRALAAEWAGRGVRVNALAPGYVATEMTLKMRERPELFETWLDMTPMGRCGEPSEIAAAALFLASPAASYVTGAILAVDGGYTVW MDYRTVFRLDGACAAVTGAGSGIGLEICRAFAASGARLILIDREAAALDRAAQELGAAVAARIVADVTDAEAMTAAAAEAEAVAPVSILVNSAGIARLHDALETDDATWRQVMAVNVDGMFWASRAFGRAMVARGAGAIVNLGSMSGTIVNRPQFASSYMASKGAVHQLTRALAAEWAGRGVRVNALAPGYVATEMTLKMRERPELFETWLDMTPMGRCGEPSEIAAAALFLASPAASYVTGAILAVDGGYTVW 2wsb-a1-m1-cC_2wsb-a1-m1-cD Crystal structure of the short-chain dehydrogenase Galactitol- Dehydrogenase (GatDH) of Rhodobacter sphaeroides in complex with NAD C0KTJ6 C0KTJ6 1.25 X-RAY DIFFRACTION 14 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 254 254 2wdz-a1-m1-cA_2wdz-a1-m2-cA 2wdz-a1-m1-cB_2wdz-a1-m2-cB 2wdz-a2-m1-cC_2wdz-a2-m3-cD 2wdz-a2-m1-cD_2wdz-a2-m3-cC 2wsb-a1-m1-cA_2wsb-a1-m1-cB 3lqf-a1-m1-cA_3lqf-a1-m1-cB 3lqf-a1-m1-cC_3lqf-a1-m1-cD MDYRTVFRLDGACAAVTGAGSGIGLEICRAFAASGARLILIDREAAALDRAAQELGAAVAARIVADVTDAEAMTAAAAEAEAVAPVSILVNSAGIARLHDALETDDATWRQVMAVNVDGMFWASRAFGRAMVARGAGAIVNLGSMSGTIVNRPQFASSYMASKGAVHQLTRALAAEWAGRGVRVNALAPGYVATEMTLKMRERPELFETWLDMTPMGRCGEPSEIAAAALFLASPAASYVTGAILAVDGGYTVW MDYRTVFRLDGACAAVTGAGSGIGLEICRAFAASGARLILIDREAAALDRAAQELGAAVAARIVADVTDAEAMTAAAAEAEAVAPVSILVNSAGIARLHDALETDDATWRQVMAVNVDGMFWASRAFGRAMVARGAGAIVNLGSMSGTIVNRPQFASSYMASKGAVHQLTRALAAEWAGRGVRVNALAPGYVATEMTLKMRERPELFETWLDMTPMGRCGEPSEIAAAALFLASPAASYVTGAILAVDGGYTVW 2wsh-a1-m1-cB_2wsh-a1-m1-cD Structure of bacteriophage T4 EndoII E118A mutant P07059 P07059 1.9 X-RAY DIFFRACTION 21 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 128 130 2wsh-a1-m1-cC_2wsh-a1-m1-cA HHKEIATEYSFIKYTELELDDNGSIKQLSIPNKYNVIYAIAINDELVYIGKTKNLRKRINYYRTAINRKDKDSTKSALIHSALKEGSKVEFYARQCFNLSTNELGTTIATIDLEAPLFIKLFNPPWNI HHKEIATEYSFIKYTELELDDNGSIKQLSIPNKYNVIYAIAINDELVYIGKTKNLRKRINYYRTAINRKDKTSDSTKSALIHSALKEGSKVEFYARQCFNLSTNELGTTIATIDLEAPLFIKLFNPPWNI 2wsh-a1-m1-cC_2wsh-a1-m1-cD Structure of bacteriophage T4 EndoII E118A mutant P07059 P07059 1.9 X-RAY DIFFRACTION 17 0.992 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 126 130 2wsh-a1-m1-cB_2wsh-a1-m1-cA HHHKEIATEYSFIKYTELELDDNGSIKQLSIPNKYNVIYAIAINDELVYIGKTKNLRKRINYYRTAINRDSTKSALIHSALKEGSKVEFYARQCFNLSTNELGTTIATIDLEAPLFIKLFNPPWNI HHKEIATEYSFIKYTELELDDNGSIKQLSIPNKYNVIYAIAINDELVYIGKTKNLRKRINYYRTAINRKDKTSDSTKSALIHSALKEGSKVEFYARQCFNLSTNELGTTIATIDLEAPLFIKLFNPPWNI 2wsh-a1-m1-cD_2wsh-a1-m1-cA Structure of bacteriophage T4 EndoII E118A mutant P07059 P07059 1.9 X-RAY DIFFRACTION 11 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 130 131 2wsh-a1-m1-cC_2wsh-a1-m1-cB HHKEIATEYSFIKYTELELDDNGSIKQLSIPNKYNVIYAIAINDELVYIGKTKNLRKRINYYRTAINRKDKTSDSTKSALIHSALKEGSKVEFYARQCFNLSTNELGTTIATIDLEAPLFIKLFNPPWNI HHKEIATEYSFIKYTELELDDNGSIKQLSIPNKYNVIYAIAINDELVYIGKTKNLRKRINYYRTAINRKDKTSDSTKSALIHSALKEGSKVEFYARQCFNLSTNELGTTIATIDLEAPLFIKLFNPPWNIQ 2wsm-a1-m1-cB_2wsm-a1-m1-cA Crystal structure of Hydrogenase Maturation Factor HypB From Archaeoglobus Fulgidus O28903 O28903 2.3 X-RAY DIFFRACTION 50 0.989 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 186 203 DLLAENKRLAEKNREALRESGTVAVNIMGAIGSGKTLLIERTIERIGNEVKIGAMLGDAEAISTGKECHLDAHMIYHRLKKFSDCDLLLIENVGNLICPVDFDLGENYRVVMVSVTEGDDVVEKHPEIFRVADLIVINKVALAEAVGADVEKMKADAKLINPRAKIIEMDLKTGKGFEEWIDFLRG LAENKRLAEKNREALRESGTVAVNIMGAIGSGKTLLIERTIERIGNEVKIGAMLGDVVSKADYERVRRFGIKAEAISTGKECHLDAHMIYHRLKKFSDCDLLLIENVGNLICPVDFDLGENYRVVMVSVTEGDDVVEKHPEIFRVADLIVINKVALAEAVGADVEKMKADAKLINPRAKIIEMDLKTGKGFEEWIDFLRGILN 2wst-a2-m1-cE_2wst-a2-m1-cF Head domain of porcine adenovirus type 4 NADC-1 isolate fibre Q83467 Q83467 3.2 X-RAY DIFFRACTION 70 1.0 35267 (Porcine adenovirus 4) 35267 (Porcine adenovirus 4) 176 176 2wst-a1-m1-cA_2wst-a1-m1-cB 2wst-a1-m1-cA_2wst-a1-m1-cC 2wst-a1-m1-cB_2wst-a1-m1-cC 2wst-a2-m1-cD_2wst-a2-m1-cE 2wst-a2-m1-cD_2wst-a2-m1-cF LVYPTLWTGPAPEANVTFSGENSPSGILRLCLSRTGGTVIGTLSVQGSLTNPSTGQTLGMNLYFDADGNVLSESNLVRGSWGMKDQDTLVTPIANGQYLMPNLTAYPRLIQTLTSSYIYTQAHLDHNNSVVDIKIGLNTDLRPTAAYGLSFTMTFTNSPPTSFGTDLVQFGYLGQD LVYPTLWTGPAPEANVTFSGENSPSGILRLCLSRTGGTVIGTLSVQGSLTNPSTGQTLGMNLYFDADGNVLSESNLVRGSWGMKDQDTLVTPIANGQYLMPNLTAYPRLIQTLTSSYIYTQAHLDHNNSVVDIKIGLNTDLRPTAAYGLSFTMTFTNSPPTSFGTDLVQFGYLGQD 2wsw-a1-m2-cA_2wsw-a1-m3-cA Crystal Structure of Carnitine Transporter from Proteus mirabilis B4EY22 B4EY22 2.294 X-RAY DIFFRACTION 42 1.0 584 (Proteus mirabilis) 584 (Proteus mirabilis) 508 508 2wsw-a1-m1-cA_2wsw-a1-m2-cA 2wsw-a1-m1-cA_2wsw-a1-m3-cA 4m8j-a1-m1-cA_4m8j-a1-m2-cA 4m8j-a1-m1-cA_4m8j-a1-m3-cA 4m8j-a1-m2-cA_4m8j-a1-m3-cA AARGSHMKDNKKAGIEPKVFFPPLIIVGILCWLTVRDLDASNEVINAVFSYVTNVWGWAFEWYMVIMFGGWFWLVFGRYAKKRLGDEKPEFSTASWIFMMFASCTSAAVLFWGSIEIYYYISSPPFGMEGYSAPAKEIGLAYSLFHWGPLPWATYSFLSVAFAYFFFVRKMEVIRPSSTLVPLVGEKHVNGLFGTVVDNFYLVALILAMGTSLGLATPLVTECIQYLFGIPHTLQLDAIIISCWILLNAICVAFGLQKGVKIASDVRTYLSFLMLGWVFIVGGASFIVNYFTDSVGTLLMYMPRMLFYTDPIGKGGFPQAWTVFYWAWWVIYAIQMSIFLARISKGRTVRELCLGMVSGLTAGTWLIWTILGGNTLQLIDQNILNIPQLIDQYGVPRAIIETWAALPLSTATMWGFFILCFIATVTLINACSYTLAMSTCRSMKEGADPPLLVRIGWSVLVGIIGIILLALGGLKPIQTAIIAGGCPLFFVNIMVTLSFIKDAKVHWK AARGSHMKDNKKAGIEPKVFFPPLIIVGILCWLTVRDLDASNEVINAVFSYVTNVWGWAFEWYMVIMFGGWFWLVFGRYAKKRLGDEKPEFSTASWIFMMFASCTSAAVLFWGSIEIYYYISSPPFGMEGYSAPAKEIGLAYSLFHWGPLPWATYSFLSVAFAYFFFVRKMEVIRPSSTLVPLVGEKHVNGLFGTVVDNFYLVALILAMGTSLGLATPLVTECIQYLFGIPHTLQLDAIIISCWILLNAICVAFGLQKGVKIASDVRTYLSFLMLGWVFIVGGASFIVNYFTDSVGTLLMYMPRMLFYTDPIGKGGFPQAWTVFYWAWWVIYAIQMSIFLARISKGRTVRELCLGMVSGLTAGTWLIWTILGGNTLQLIDQNILNIPQLIDQYGVPRAIIETWAALPLSTATMWGFFILCFIATVTLINACSYTLAMSTCRSMKEGADPPLLVRIGWSVLVGIIGIILLALGGLKPIQTAIIAGGCPLFFVNIMVTLSFIKDAKVHWK 2wsx-a1-m1-cA_2wsx-a1-m1-cB Crystal Structure of Carnitine Transporter from Escherichia coli P31553 P31553 3.5 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 496 496 2wsx-a1-m1-cA_2wsx-a1-m1-cC 2wsx-a1-m1-cB_2wsx-a1-m1-cC 3hfx-a1-m1-cA_3hfx-a1-m2-cA 3hfx-a1-m1-cA_3hfx-a1-m3-cA 3hfx-a1-m2-cA_3hfx-a1-m3-cA TGIEPKVFFPPLIIVGILCWLTVRDLDAANVVINAVFSYVTNVWGWAFEWYMVVMLFGWFWLVFGPYAKKRLGEEPPEFSTASWIFMMFASCTSAAVLFWGSIEIYYYISTPPFGLEPNSTGAKELGLAYSLFHWGPLPWATYSFLSVAFAYFFFVRKMEVIRPSSTLVPLVGEKHAKGLFGTIVDNFYLVALIFAMGTSLGLATPLVTECMQWLFGIPHTLQLDAIIITCWIILNAICVACGLQKAVRIASDVRSYLSFLMLGWVFIVSGASFIMNYFTDSVGMLLMYLPRMLFYTDPIAKGGFPQGWTVFYWAWWVIYAIQMSIFLARISRGRTVRELCFGMVLGLTASTWILWTVLGSNTLLLIDKNILNIPNLIEQYGVARAIIETWAALPLSTATMWGFFILCFIATVTLVNACSYTLAMSTCREVRDGEDPPLLVRIGWSILVGIIGIVLLALGGLKPIQTAIIAGGCPLFFVNIMVTLSFIKDAKQNWK TGIEPKVFFPPLIIVGILCWLTVRDLDAANVVINAVFSYVTNVWGWAFEWYMVVMLFGWFWLVFGPYAKKRLGEEPPEFSTASWIFMMFASCTSAAVLFWGSIEIYYYISTPPFGLEPNSTGAKELGLAYSLFHWGPLPWATYSFLSVAFAYFFFVRKMEVIRPSSTLVPLVGEKHAKGLFGTIVDNFYLVALIFAMGTSLGLATPLVTECMQWLFGIPHTLQLDAIIITCWIILNAICVACGLQKAVRIASDVRSYLSFLMLGWVFIVSGASFIMNYFTDSVGMLLMYLPRMLFYTDPIAKGGFPQGWTVFYWAWWVIYAIQMSIFLARISRGRTVRELCFGMVLGLTASTWILWTVLGSNTLLLIDKNILNIPNLIEQYGVARAIIETWAALPLSTATMWGFFILCFIATVTLVNACSYTLAMSTCREVRDGEDPPLLVRIGWSILVGIIGIVLLALGGLKPIQTAIIAGGCPLFFVNIMVTLSFIKDAKQNWK 2wt9-a1-m1-cA_2wt9-a1-m1-cB Acinetobacter baumanii nicotinamidase pyrazinamidease B0VA03 B0VA03 1.65 X-RAY DIFFRACTION 60 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 207 208 KQPQNSALVVVDVQNGFTPGGNLAVADADTIIPTINQLAGCFENVVLTQDWHPDNHISFAANHPGKQPFETIELDYGSQVLWPKHCIQGTHDAEFHPDLNIPTAQLIIRKGFHAHIDSYSAFMEADHTTMTGLTGYLKERGIDTVYVVGIATDFCVAWTALDAVKQGFKTLVIEDACKGIDLNGSLEQAWQTMQQQGVVRIQSTDLL KQPQNSALVVVDVQNGFTPGGNLAVADADTIIPTINQLAGCFENVVLTQDWHPDNHISFAANHPGKQPFETIELDYGSQVLWPKHCIQGTHDAEFHPDLNIPTAQLIIRKGFHAHIDSYSAFMEADHTTMTGLTGYLKERGIDTVYVVGIATDFCVAWTALDAVKQGFKTLVIEDACKGIDLNGSLEQAWQTMQQQGVVRIQSTDLLN 2wtg-a1-m1-cA_2wtg-a1-m2-cA High resolution 3D structure of C.elegans globin-like protein GLB-1 P30627 P30627 1.5 X-RAY DIFFRACTION 57 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 158 158 2wth-a1-m1-cA_2wth-a1-m1-cB SMNRQEISDLCVKSLEGRMVGTEAQNIENGNAFYRYFFTNFPDLRVYFKGAEKYTADDVKKSERFDKQGQRILLACHLLANVYTNEEVFKGYVRETINRHRIYKMDPALWMAFFTVFTGYLESVGSLNDQQKAAWMALGKEFNAESQTHLKNSNLPHV SMNRQEISDLCVKSLEGRMVGTEAQNIENGNAFYRYFFTNFPDLRVYFKGAEKYTADDVKKSERFDKQGQRILLACHLLANVYTNEEVFKGYVRETINRHRIYKMDPALWMAFFTVFTGYLESVGSLNDQQKAAWMALGKEFNAESQTHLKNSNLPHV 2wtm-a2-m1-cD_2wtm-a2-m1-cC Est1E from Butyrivibrio proteoclasticus D2YW37 D2YW37 1.6 X-RAY DIFFRACTION 65 0.996 43305 (Butyrivibrio proteoclasticus) 43305 (Butyrivibrio proteoclasticus) 243 250 2wtm-a1-m1-cB_2wtm-a1-m1-cA 2wtn-a1-m1-cA_2wtn-a1-m1-cB SGAMYIDCDGIKLNAYLDMPKNNPEKCPLCIIIHGFTGHSEERHIVAVQETLNEIGVATLRADMYGHDHTLFKWLTNILAVVDYAKKLDFVTDIYMAGHSQGGLSVMLAAAMERDIIKALIPLSPAAMIPEIARTGELLGLKFDPENIPDELDAWDGRKLKGNYVRVAQTIRVEDFVDKYTKPVLIVHGDQDEAVPYEASVAFSKQYKNCKLVTIPGDTHCYDHHLELVTEAVKEFMLEQIAK SGAMYIDCDGIKLNAYLDMPKNNPEKCPLCIIIHGFTGHSEERHIVAVQETLNEIGVATLRADMYGHGKSDGKFEDHTLFKWLTNILAVVDYAKKLDFVTDIYMAGHSQGGLSVMLAAAMERDIIKALIPLSPAAMIPEIARTGELLGLKFDPENIPDELDAWDGRKLKGNYVRVAQTIRVEDFVDKYTKPVLIVHGDQDEAVPYEASVAFSKQYKNCKLVTIPGDTHCYDHHLELVTEAVKEFMLEQIA 2wtp-a1-m1-cB_2wtp-a1-m1-cA Crystal Structure of Cu-form Czce from C. metallidurans CH34 Q1LAJ1 Q1LAJ1 1.5 X-RAY DIFFRACTION 23 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 89 93 2wto-a1-m1-cB_2wto-a1-m1-cA TAQAMAKRHATLYGDPAGQSQASRIIDVKPGMRYVNVDSGETVAFRAGEKIVAWTFAQMVRDTSVDLGLLMPDLPGSAGVRVYIDRSDL STATAQAMAKRHATLYGDPAGQSQASRIIDVKPGMRYVNVDSGETVAFRAGEKIVAWTFAQMVRDTSVDLGLLMPDLPGSAGVRVYIDRSDLF 2wtt-a2-m1-cA_2wtt-a2-m1-cB Structure of the human p73 tetramerization domain (crystal form II) O15350 O15350 2.3 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 41 2kby-a1-m1-cA_2kby-a1-m1-cB 2kby-a1-m1-cC_2kby-a1-m1-cD 2wqi-a1-m1-cB_2wqi-a1-m1-cA 2wtt-a1-m1-cK_2wtt-a1-m1-cL 2wtt-a2-m1-cC_2wtt-a2-m1-cD 5hob-a1-m1-cD_5hob-a1-m1-cC 5hob-a2-m1-cF_5hob-a2-m1-cE EDTYYLQVRGRENFEILKLKESLELELVPQPLVDSYRQQQ EDTYYLQVRGRENFEILKLKESLELELVPQPLVDSYRQQQQ 2wtt-a4-m1-cM_2wtt-a4-m1-cO Structure of the human p73 tetramerization domain (crystal form II) O15350 O15350 2.3 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 39 2kby-a1-m1-cA_2kby-a1-m1-cC 2kby-a1-m1-cB_2kby-a1-m1-cD 2wtt-a1-m1-cJ_2wtt-a1-m1-cL 2wtt-a1-m1-cK_2wtt-a1-m1-cI 2wtt-a3-m1-cF_2wtt-a3-m1-cH 5hob-a1-m1-cD_5hob-a1-m1-cB DTYYLQVRGRENFEILKLKESLELELV DTYYLQVRGRENFEILKLKESLELELVPQPLVDSYRQQQ 2wu8-a1-m1-cA_2wu8-a1-m2-cA Structural studies of phosphoglucose isomerase from Mycobacterium tuberculosis H37Rv P9WN69 P9WN69 2.25 X-RAY DIFFRACTION 484 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 549 549 PDITATPAWDALARHHDQIGNTHLRQFFADDPGRGRELTVSVGDLYIDYSKHRVTRETLALLIDLARTAHLEERRDQMFAGVHINTSEDRAVLHTALRLPRDAELVVDGQDVVTDVHAVLDAMGAFTDRLRSGEWTGATGKRISTVVNIGIGGSDLGPVMVYQALRHYADAGISARFVSNVDPADLIATLADLDPATTLFIVASKTFSTLETLTNATAARRWLTDALGDAAVSRHFVAVSTNKRLVDDFGINTDNMFGFWDWVGGRYSVDSAIGLSLMTVIGRDAFADFLAGFHIIDRHFATAPLESNAPVLLGLIGLWYSNFFGAQSRTVLPYSNDLSRFPAYLQQLTMESNGKSTRADGSPVSADTGEIFWGEPGTNGQHAFYQLLHQGTRLVPADFIGFAQPLDDLPTAEGTGSMHDLLMSNFFAQTQVLAFGKTAEEIAADGTPAHVVAHKVMPGNRPSTSILASRLTPSVLGQLIALYEHQVFTEGVVWGIDSFDQWGVELGKTQAKALLPVITGAGSPPPQSDSSTDGLVRRYRTERGRAGLE PDITATPAWDALARHHDQIGNTHLRQFFADDPGRGRELTVSVGDLYIDYSKHRVTRETLALLIDLARTAHLEERRDQMFAGVHINTSEDRAVLHTALRLPRDAELVVDGQDVVTDVHAVLDAMGAFTDRLRSGEWTGATGKRISTVVNIGIGGSDLGPVMVYQALRHYADAGISARFVSNVDPADLIATLADLDPATTLFIVASKTFSTLETLTNATAARRWLTDALGDAAVSRHFVAVSTNKRLVDDFGINTDNMFGFWDWVGGRYSVDSAIGLSLMTVIGRDAFADFLAGFHIIDRHFATAPLESNAPVLLGLIGLWYSNFFGAQSRTVLPYSNDLSRFPAYLQQLTMESNGKSTRADGSPVSADTGEIFWGEPGTNGQHAFYQLLHQGTRLVPADFIGFAQPLDDLPTAEGTGSMHDLLMSNFFAQTQVLAFGKTAEEIAADGTPAHVVAHKVMPGNRPSTSILASRLTPSVLGQLIALYEHQVFTEGVVWGIDSFDQWGVELGKTQAKALLPVITGAGSPPPQSDSSTDGLVRRYRTERGRAGLE 2wu9-a1-m1-cB_2wu9-a1-m1-cA Crystal structure of peroxisomal KAT2 from Arabidopsis thaliana Q56WD9 Q56WD9 1.5 X-RAY DIFFRACTION 191 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 402 403 LYGDDVVIVAAHRTPLCKSKRGNFKDTYPDDLLAPVLRALIEKTNLNPSEVGDIVVGTVLAPGSQRASECRMAAFYAGFPETVAVRTVNRQCSSGLQAVADVAAAIKAGFYDIGIGAGLESMTTNPMAWEGSVNPAVKKFAQAQNCLLPMGVTSENVAQRFGVSRQEQDQAAVDSHRKAAAATAAGKFKDEIIPVKTKLVDPKTGDEKPITVSVDDGIRPTTTLASLGKLKPVFKKDGTTTAGNSSQVSDGAGAVLLMKRSVAMQKGLPVLGVFRTFAAVGVDPAIMGIGPAVAIPAAVKAAGLELDDIDLFEINEAFASQFVYCRNKLGLDPEKINVNGGAMAIGHPLGATGARCVATLLHEMKRRGKDCRFGVVSMCIGTGMGAAAVFERGDGVDELRNA SLYGDDVVIVAAHRTPLCKSKRGNFKDTYPDDLLAPVLRALIEKTNLNPSEVGDIVVGTVLAPGSQRASECRMAAFYAGFPETVAVRTVNRQCSSGLQAVADVAAAIKAGFYDIGIGAGLESMTTNPMAWEGSVNPAVKKFAQAQNCLLPMGVTSENVAQRFGVSRQEQDQAAVDSHRKAAAATAAGKFKDEIIPVKTKLVDPKTGDEKPITVSVDDGIRPTTTLASLGKLKPVFKKDGTTTAGNSSQVSDGAGAVLLMKRSVAMQKGLPVLGVFRTFAAVGVDPAIMGIGPAVAIPAAVKAAGLELDDIDLFEINEAFASQFVYCRNKLGLDPEKINVNGGAMAIGHPLGATGARCVATLLHEMKRRGKDCRFGVVSMCIGTGMGAAAVFERGDGVDELRNA 2wua-a1-m1-cA_2wua-a1-m1-cB Structure of the peroxisomal 3-ketoacyl-CoA thiolase from Sunflower Q6W6X6 Q6W6X6 1.8 X-RAY DIFFRACTION 197 1.0 4232 (Helianthus annuus) 4232 (Helianthus annuus) 392 394 GDDVVIVAAYRSPLCKAKRGGLKDTYPDDILAPVLKALIEKTNINPAEVGDIVVGSVLGAGSQRASECRMAAFYAGFPETVPVRTVNRQCSSGLQAVADVAAAIKAGFYDIGIGAGLESMTANPMAWEGSVNPKVKTMAQAQDCLLPMGITSENVAQKFSITRQEQDQAAVGSHRKTAAATAAGRFKDEIIPIKTKIVDPKTGDEKPVTISVDDGIRPGTSLADLAKLKPVFRKDGSTTAGTSSQVSDGAGAVLLMKRSIALQKGLPILGVFRTFAAVGVPPSIMGIGPAVAIPAAVKAAGLQIDDIDLFEINEAFASQFVYCQKKLEIDPQKINVNGGAMAIGHPLGATGARCVATLLHEMKRRGRDCRFGVVSMCIGTGMGAAAVFERGD VFGDDVVIVAAYRSPLCKAKRGGLKDTYPDDILAPVLKALIEKTNINPAEVGDIVVGSVLGAGSQRASECRMAAFYAGFPETVPVRTVNRQCSSGLQAVADVAAAIKAGFYDIGIGAGLESMTANPMAWEGSVNPKVKTMAQAQDCLLPMGITSENVAQKFSITRQEQDQAAVGSHRKTAAATAAGRFKDEIIPIKTKIVDPKTGDEKPVTISVDDGIRPGTSLADLAKLKPVFRKDGSTTAGTSSQVSDGAGAVLLMKRSIALQKGLPILGVFRTFAAVGVPPSIMGIGPAVAIPAAVKAAGLQIDDIDLFEINEAFASQFVYCQKKLEIDPQKINVNGGAMAIGHPLGATGARCVATLLHEMKRRGRDCRFGVVSMCIGTGMGAAAVFERGD 2wuh-a1-m1-cD_2wuh-a1-m1-cB Crystal structure of the DDR2 discoidin domain bound to a triple- helical collagen peptide 1.6 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 20 GPGPGPGPRGQGVGFGPGP GPGPGPGPRGQGVGFGPGPG 2wuh-a1-m1-cD_2wuh-a1-m1-cC Crystal structure of the DDR2 discoidin domain bound to a triple- helical collagen peptide 1.6 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 20 2wuh-a1-m1-cB_2wuh-a1-m1-cC GPGPGPGPRGQGVGFGPGP GPGPGPGPRGQGVGFGPGPG 2wui-a1-m1-cA_2wui-a1-m2-cA Crystal Structure of MexZ, a key repressor responsible for antibiotic resistance in Pseudomonas aeruginosa. Q9RG61 Q9RG61 2.9 X-RAY DIFFRACTION 99 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 200 200 SQKTRDGILDAAERVFLEKGVGTTAMADLADAAGVSRGAVYGHYKNKIEVCLAMCDRAFGQIEVPDENARVPALDILLRAGMGFLRQCCEPGSVQRVLEILYLKCERSDENEPLLRRRELLEKQGQRFGLRQIRRAVERGELPARLDVELASIYLQSLWDGICGTLAWTERLRDDPWNRAERMFRAGLDSLRSSPYLLLA SQKTRDGILDAAERVFLEKGVGTTAMADLADAAGVSRGAVYGHYKNKIEVCLAMCDRAFGQIEVPDENARVPALDILLRAGMGFLRQCCEPGSVQRVLEILYLKCERSDENEPLLRRRELLEKQGQRFGLRQIRRAVERGELPARLDVELASIYLQSLWDGICGTLAWTERLRDDPWNRAERMFRAGLDSLRSSPYLLLA 2wuj-a1-m1-cA_2wuj-a1-m1-cB DivIVA N-terminal domain P71021 P71021 1.4 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 50 50 2wuk-a1-m1-cB_2wuk-a1-m1-cA 2wuk-a2-m1-cD_2wuk-a2-m1-cC LTPNDIHNKTFTKSFRGYDEDEVNEFLAQVRKDYEIVLRKKTELEAKVNE LTPNDIHNKTFTKSFRGYDEDEVNEFLAQVRKDYEIVLRKKTELEAKVNE 2wul-a1-m1-cA_2wul-a1-m1-cD CRYSTAL STRUCTURE OF THE HUMAN GLUTAREDOXIN 5 WITH BOUND GLUTATHIONE IN AN FES CLUSTER Q86SX6 Q86SX6 2.4 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 2wul-a1-m1-cB_2wul-a1-m1-cC SAEQLDALVKKDKVVVFLKGTPEQPQCGFSNAVVQILRLHGVRDYAAYNVLDDPELRQGIKDYSNWPTIPQVYLNGEFVGGCDILLQMHQNGDLVEELKKLGIHSALLD SAEQLDALVKKDKVVVFLKGTPEQPQCGFSNAVVQILRLHGVRDYAAYNVLDDPELRQGIKDYSNWPTIPQVYLNGEFVGGCDILLQMHQNGDLVEELKKLGIHSALLD 2wuq-a1-m1-cA_2wuq-a1-m1-cB Crystal structure of BlaB protein from Streptomyces cacaoi P33652 P33652 1.8 X-RAY DIFFRACTION 117 0.989 1898 (Streptomyces cacaoi) 1898 (Streptomyces cacaoi) 277 283 NSESLLRELRDALHEGGLTGSFLVRDLYTGEELGIDPDTELPTASLVKLPLALATLERIRLGEVDGAQQIEVAPGRITTPGPTGLSRFRHPARVAVDDLLYLSTSVSDGTASDALFEITPPAQVEQMVREWGFRDLTVRHSMREHRVPQLDVARANTGTARAFVDLLEALWAPVLTGPALPPEPAARLRELMAANLLRHRLAPDFASDAATWSSKTGTLLNLRHEVGVVEHADGQVFAVAVLTESQVPADSQPGAEALMAQVARRLRDRLREWHHHH VLNSESLLRELRDALHEGGLTGSFLVRDLYTGEELGIDPDTELPTASLVKLPLALATLERIRLGEVDGAQQIEVAPGRITTPGPTGLSRFRHPARVAVDDLLYLSTSVSDGTASDALFEITPPAQVEQMVREWGFRDLTVRHSMRELGTSGRGHRVPQLDVARANTGTARAFVDLLEALWAPVLTGPALPPEPAARLRELMAANLLRHRLAPDFASDAATWSSKTGTLLNLRHEVGVVEHADGQVFAVAVLTESQVPADSQPGAEALMAQVARRLRDRLREWH 2wux-a1-m3-cA_2wux-a1-m9-cA the crystal structure of recombinant baculovirus polyhedra P04871 P04871 1.838 X-RAY DIFFRACTION 28 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 213 213 2wux-a1-m10-cA_2wux-a1-m8-cA 2wux-a1-m11-cA_2wux-a1-m4-cA 2wux-a1-m12-cA_2wux-a1-m5-cA 2wux-a1-m1-cA_2wux-a1-m2-cA 2wux-a1-m6-cA_2wux-a1-m7-cA 2wuy-a1-m10-cA_2wuy-a1-m8-cA 2wuy-a1-m11-cA_2wuy-a1-m4-cA 2wuy-a1-m12-cA_2wuy-a1-m5-cA 2wuy-a1-m1-cA_2wuy-a1-m2-cA 2wuy-a1-m3-cA_2wuy-a1-m9-cA 2wuy-a1-m6-cA_2wuy-a1-m7-cA 3jw6-a1-m10-cA_3jw6-a1-m11-cA 3jw6-a1-m12-cA_3jw6-a1-m9-cA 3jw6-a1-m1-cA_3jw6-a1-m4-cA 3jw6-a1-m2-cA_3jw6-a1-m3-cA 3jw6-a1-m5-cA_3jw6-a1-m8-cA 3jw6-a1-m6-cA_3jw6-a1-m7-cA DYSYRPTIGRTYVYDNKYYKNLDAVIKNAPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTMKLVVGWKGKEFYRETWTRFMEDSFPIVNDQEVMDVFLVVNMRPTRPNRCYKFLAQHALRCDPDYVPHDVIRIVEPSWVGSNNEYRISLAKYTNSFEQFIDRVIWENFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY DYSYRPTIGRTYVYDNKYYKNLDAVIKNAPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTMKLVVGWKGKEFYRETWTRFMEDSFPIVNDQEVMDVFLVVNMRPTRPNRCYKFLAQHALRCDPDYVPHDVIRIVEPSWVGSNNEYRISLAKYTNSFEQFIDRVIWENFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY 2wux-a1-m8-cA_2wux-a1-m9-cA the crystal structure of recombinant baculovirus polyhedra P04871 P04871 1.838 X-RAY DIFFRACTION 103 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 213 213 2wux-a1-m10-cA_2wux-a1-m11-cA 2wux-a1-m10-cA_2wux-a1-m12-cA 2wux-a1-m11-cA_2wux-a1-m12-cA 2wux-a1-m1-cA_2wux-a1-m3-cA 2wux-a1-m1-cA_2wux-a1-m4-cA 2wux-a1-m2-cA_2wux-a1-m5-cA 2wux-a1-m2-cA_2wux-a1-m7-cA 2wux-a1-m3-cA_2wux-a1-m4-cA 2wux-a1-m5-cA_2wux-a1-m7-cA 2wux-a1-m6-cA_2wux-a1-m8-cA 2wux-a1-m6-cA_2wux-a1-m9-cA 2wuy-a1-m10-cA_2wuy-a1-m11-cA 2wuy-a1-m10-cA_2wuy-a1-m12-cA 2wuy-a1-m11-cA_2wuy-a1-m12-cA 2wuy-a1-m1-cA_2wuy-a1-m3-cA 2wuy-a1-m1-cA_2wuy-a1-m4-cA 2wuy-a1-m2-cA_2wuy-a1-m5-cA 2wuy-a1-m2-cA_2wuy-a1-m7-cA 2wuy-a1-m3-cA_2wuy-a1-m4-cA 2wuy-a1-m5-cA_2wuy-a1-m7-cA 2wuy-a1-m6-cA_2wuy-a1-m8-cA 2wuy-a1-m6-cA_2wuy-a1-m9-cA 2wuy-a1-m8-cA_2wuy-a1-m9-cA 3jw6-a1-m10-cA_3jw6-a1-m2-cA 3jw6-a1-m10-cA_3jw6-a1-m6-cA 3jw6-a1-m11-cA_3jw6-a1-m8-cA 3jw6-a1-m12-cA_3jw6-a1-m3-cA 3jw6-a1-m12-cA_3jw6-a1-m5-cA 3jw6-a1-m1-cA_3jw6-a1-m11-cA 3jw6-a1-m1-cA_3jw6-a1-m8-cA 3jw6-a1-m2-cA_3jw6-a1-m6-cA 3jw6-a1-m3-cA_3jw6-a1-m5-cA 3jw6-a1-m4-cA_3jw6-a1-m7-cA 3jw6-a1-m4-cA_3jw6-a1-m9-cA 3jw6-a1-m7-cA_3jw6-a1-m9-cA DYSYRPTIGRTYVYDNKYYKNLDAVIKNAPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTMKLVVGWKGKEFYRETWTRFMEDSFPIVNDQEVMDVFLVVNMRPTRPNRCYKFLAQHALRCDPDYVPHDVIRIVEPSWVGSNNEYRISLAKYTNSFEQFIDRVIWENFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY DYSYRPTIGRTYVYDNKYYKNLDAVIKNAPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTMKLVVGWKGKEFYRETWTRFMEDSFPIVNDQEVMDVFLVVNMRPTRPNRCYKFLAQHALRCDPDYVPHDVIRIVEPSWVGSNNEYRISLAKYTNSFEQFIDRVIWENFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY 2wv0-a1-m1-cB_2wv0-a1-m1-cA Crystal structure of the GntR-HutC family member YvoA from Bacillus subtilis O34817 O34817 2.4 X-RAY DIFFRACTION 113 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 242 243 2wv0-a2-m1-cC_2wv0-a2-m1-cD 2wv0-a3-m1-cE_2wv0-a3-m1-cF 2wv0-a4-m1-cG_2wv0-a4-m2-cG 2wv0-a5-m1-cH_2wv0-a5-m1-cI 2wv0-a6-m1-cJ_2wv0-a6-m3-cJ MNINKQSPIPIYYQIMEQLKTQIKNGELQPDMPLPSEREYAEQFGISRMTVRQALSNLVNEGLLYRLKGRGTFVSKPKMEQALQGLTSFTEDMKSRGMTPGSRLIDYQLIDSTEELAAILGCGHPSSIHKITRVRLANDIPMAIESSHIPFELAGELNESHFQSSIYDHIERYNSIPISRAKQELEPSAATTEEANILGIQKGAPVLLIKRTTYLQNGTAFEHAKSVYRGDRYTFVHYMDRL MNINKQSPIPIYYQIMEQLKTQIKNGELQPDMPLPSEREYAEQFGISRMTVRQALSNLVNEGLLYRLKGRGTFVSKPKMEQALQGLTSFTEDMKSRGMTPGSRLIDYQLIDSTEELAAILGCGHPSSIHKITRVRLANDIPMAIESSHIPFELAGELNESHFQSSIYDHIERYNSIPISRAKQELEPSAATTEEANILGIQKGAPVLLIKRTTYLQNGTAFEHAKSVYRGDRYTFVHYMDRLS 2wv1-a1-m1-cA_2wv1-a1-m1-cB CRYSTAL STRUCTURE OF THE HLYIIR MUTANT PROTEIN WITH RESIDUES 169-186 SUBSTITUTED BY A LINKER CONTAINING TWO THROMBIN SITES Q7X506 Q7X506 2.3 X-RAY DIFFRACTION 91 0.995 1396 (Bacillus cereus) 1396 (Bacillus cereus) 183 183 2fx0-a1-m1-cA_2fx0-a1-m2-cA 2jk3-a1-m1-cB_2jk3-a1-m1-cA SREQTMENILKAAKKKFGERGYEGTSIQEIAKEAKVNVAMASYYFNGKENLYYEVFKKYGLANLPNFLEKNQFNPINALREYLTVFTTHIKENPEIGTLAYEEIIKESARLEKIKPYFIGSFEQLKEILQEGEKQGVFHFFSINHTIHWITSIVLFPKFKKFIDGLVPSGDLVSRIISALTDK SREQTMENILKAAKKKFGERGYEGTSIQEIAKEAKVNVAMASYYFNGKENLYYEVFKKYGLANELPNFLEKNQFNPINALREYLTVFTTHIKENPEIGTLAYEEIIKESARLEKIKPYFIGSFEQLKEILQEGEKQGVFHFFSINHTIHWITSIVLFPKFKKFIDGLVPGDLVSRIISALTDK 2wv6-a1-m1-cL_2wv6-a1-m1-cK Crystal structure of the cholera toxin-like B-subunit from Citrobacter freundii to 1.9 angstrom Q8GAV5 Q8GAV5 1.895 X-RAY DIFFRACTION 59 0.989 546 (Citrobacter freundii) 546 (Citrobacter freundii) 91 94 2wv6-a2-m1-cD_2wv6-a2-m1-cH 2wv6-a2-m1-cE_2wv6-a2-m1-cF 2wv6-a2-m1-cF_2wv6-a2-m1-cG 2wv6-a2-m1-cH_2wv6-a2-m1-cG APQNITELCSEYHNTQIYELNKEIKTYTESLAGEMVIISFANGATFQVEQKRPLERMKDTLRAAYFTGIKVSKLCVWNNKTPNSIAAIELS APQNITELCSEYHNTQIYELNKEIKTYTESLAGYREMVIISFANGATFQVEVPKRPLERMKDTLRAAYFTGIKVSKLCVWNNKTPNSIAAIELS 2wvl-a1-m1-cB_2wvl-a1-m1-cA Mannosyl-3-phosphoglycerate synthase from Thermus thermophilus HB27 in complex with GDP-alpha-D-Mannose and Mg(II) Q72K30 Q72K30 2.806 X-RAY DIFFRACTION 106 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 382 385 2wvk-a1-m1-cB_2wvk-a1-m1-cA 2wvm-a1-m1-cB_2wvm-a1-m1-cA MRLEIPNHTERFGVVRLHEVQRILELDSGRVRDESPAVGLRRLDDADLRDVLEQTAIVVPTRNERLKLLEGVLSGIPHEALILVASNSSPDRFQMERDLLEEFAHLTERPALIFHQKDPALAEALRAGGYPHPIGEDGLVRSGKAEGMILALVFAALSGRRYVGFIDADNYFPGAVWEYVRAYAAGFLMAKTPFAMVRILWRGVVFRRYGRVSERNNRALNQLIGGVSGFETDVVKTANAGEHAMSLGLALRLPLASGYAVEPQELVSLLELYGGVFPLEDEEVLQHGVEIFQIETRNPHLHENKGDEHIRDMLLACLATVYHSKLATEEVRQSVLEELQAAGALAPGEEPPPPVLYPPLSSLDLQAVRKALRGHFSRFRVP MRLEIPNHTERFGVVRLHEVQRILELDSGRVRDESPAVGLRRLDDADLRDVLEQTAIVVPTRNERLKLLEGVLSGIPHEALILVASNSSPDRFQMERDLLEEFAHLTERPALIFHQKDPALAEALRAGGYPHPIGEDGLVRSGKAEGMILALVFAALSGRRYVGFIDADNYFPGAVWEYVRAYAAGFLMAKTPFAMVRILWRYKPGVVFRRYGRVSERNNRALNQLIGGVSGFETDVVKTANAGEHAMSLGLALRLPLASGYAVEPQELVSLLELYGGVFPLEDEEVLQHGVEIFQIETRNPHLHENKGDEHIRDMLLACLATVYHSKLATEEVRQSVLEELQAAGALAPGEEPPPPVLYPPLSSLDLQAVRKALRGHFSRFRVP 2wvq-a1-m1-cB_2wvq-a1-m1-cA Structure of the HET-s N-terminal domain. Mutant D23A, P33H Q03689 Q03689 2 X-RAY DIFFRACTION 39 0.99 207 211 2wvn-a1-m1-cA_2wvn-a1-m2-cA 2wvo-a1-m1-cA_2wvo-a1-m1-cB PRGSNVAGLFNNCVACFEYVQLGRHFGRDYERCQLRLDIAKARLSRWGEAVKINDDPRFHSDAPTDKSVQLAKSIVEEILLLFESAQKTSKRYELVADQQDLVVFEDKDMKPIGRALHRRLNDLVSRRQKKTAWALYDGKSLEKIVDQVARFVDELEKAFPIEAVCHKLAEIEIEEVEDEASLTILKDAAGGIDAAMSDAAAQKIDA GSNVAGLFNNCVACFEYVQLGRHFGRDYERCQLRLDIAKARLSRWGEAVKINDDPRFHSDAPTDKSVQLAKSIVEEILLLFESAQKTSKRYELVADQQDLVVFEDKDMKPIGRALHRRLNDLVSRRQKQTSLAKKTAWALYDGKSLEKIVDQVARFVDELEKAFPIEAVCHKLAEIEIEEVEDEASLTILKDAAGGIDAAMSDAAAQKIDA 2wvr-a1-m2-cA_2wvr-a1-m2-cB Human Cdt1:Geminin complex O75496 O75496 3.3 X-RAY DIFFRACTION 109 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 70 74 1t6f-a1-m1-cA_1t6f-a1-m1-cB 1uii-a1-m1-cA_1uii-a1-m1-cB 2wvr-a1-m1-cA_2wvr-a1-m1-cB KENPSSQYWKEVAEKRRKALYEALKENEKLHKEIEQKDNEIARLKKENKELAEVAEHVQYMAELIERLNG FDLMIKENPSSQYWKEVAEKRRKALYEALKENEKLHKEIEQKDNEIARLKKENKELAEVAEHVQYMAELIERLN 2wvy-a1-m1-cB_2wvy-a1-m1-cC STRUCTURE OF THE FAMILY GH92 INVERTING MANNOSIDASE BT2199 FROM BACTEROIDES THETAIOTAOMICRON VPI-5482 Q8A5N9 Q8A5N9 2.26 X-RAY DIFFRACTION 45 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 729 730 2wvy-a1-m1-cB_2wvy-a1-m1-cA 2wvy-a1-m1-cC_2wvy-a1-m1-cA 2ww2-a1-m1-cA_2ww2-a1-m1-cB 2ww2-a1-m1-cA_2ww2-a1-m1-cC 2ww2-a1-m1-cB_2ww2-a1-m1-cC SKKTVEFVDYVNPLMGTENTYPAVAVPWGMNFWSPQTGENGSGWMYTYTDSLMRGFRQTHQPSPWINDYGTFSIMPLAGELKMSHKERLVPFSHQQEKATPYNYSVTFNNGLQTSLSATSRGAVFEVSFPEKEDQYVVVDAYNGGSSITIEPEKRLVKGATRYNNGGVPDNFANYFMMEFSHPVIEYGTYNGDTLLHHQTDVAADYTCAYLKFDVPAGEKLTIRTASSFISPEQAAINFNREVADADVQLISGKAREQWNNYLGRVEAEGGTDEQLRTFYSCLYRTLLFPREFYEFDSQGNPVYYSPYDGNVHDGYMYTDNGFWDTFRAVHPLFTLLYPEVSERVTQSIINAYNESGFMPEWASPGHRGCMIGNNSVSLLVDAWMKGIQTVDAEKALEAMIHQTQARHAEIASVGRDGFEYYDKLGYVPYPEVPEATAKTLEYAYADWCIARFAESLGKQDIADQYYQKAPNYRNLYYPEHGFMWTKDAKGNWRDRFDATEWGGPFTEGSSWHWTWSVFHDPEGLSELMGGHEPMIARLDSMFVAPNTYNYGTYGFVIHEIAEMVALNMGQYAHGNQPVQHAIYLYDYIGQPWKTQYHLRNVMDKLYNSGSKGYCGDEDNGQTSAWYVFSAMGFYPVCPGMPEYAIGSPLFKKVTLHLPEGKNFVVSAADNAADRPYIRKALLNGQEFTRNYLTHDELKQGGELNLSMDSVPNQQRGTQPADFPYSYSK SKKTVEFVDYVNPLMGTESNTYPAVAVPWGMNFWSPQTGENGSGWMYTYTDSLMRGFRQTHQPSPWINDYGTFSIMPLAGELKMSHKERLVPFSHQQEKATPYNYSVTFNNGLQTSLSATSRGAVFEVSFPEKEDQYVVVDAYNGGSSITIEPEKRLVKGATRYNNGGVPDNFANYFMMEFSHPVIEYGTYNGDTLLHHQTDVAADYTCAYLKFDVPAGEKLTIRTASSFISPEQAAINFNREVADADVQLISGKAREQWNNYLGRVEAEGGTDEQLRTFYSCLYRTLLFPREFYEFDSQGNPVYYSPYDGNVHDGYMYTDNGFWDTFRAVHPLFTLLYPEVSERVTQSIINAYNESGFMPEWASPGHRGCMIGNNSVSLLVDAWMKGIQTVDAEKALEAMIHQTQARHAEIASVGRDGFEYYDKLGYVPYPEVPEATAKTLEYAYADWCIARFAESLGKQDIADQYYQKAPNYRNLYYPEHGFMWTKDAKGNWRDRFDATEWGGPFTEGSSWHWTWSVFHDPEGLSELMGGHEPMIARLDSMFVAPNTYNYGTYGFVIHEIAEMVALNMGQYAHGNQPVQHAIYLYDYIGQPWKTQYHLRNVMDKLYNSGSKGYCGDEDNGQTSAWYVFSAMGFYPVCPGMPEYAIGSPLFKKVTLHLPEGKNFVVSAADNAADRPYIRKALLNGQEFTRNYLTHDELKQGGELNLSMDSVPNQQRGTQPADFPYSYSK 2ww4-a1-m1-cB_2ww4-a1-m1-cA a triclinic crystal form of E. coli 4-diphosphocytidyl-2C-methyl-D- erythritol kinase P62615 P62615 2 X-RAY DIFFRACTION 72 1.0 562 (Escherichia coli) 562 (Escherichia coli) 282 283 MRTQWPSPAKLNLFLYITGQRADGYHTLQTLFQFLDYGDTISIELRDDGDIRLLTPVEGVEHEDNLIVRAARLLMKTAADSGRLPTGSGANISIDKRLPMGGGLGGGSSNAATVLVALNHLWQCGLSMDELAEMGLTLGADVPVFVRGHAAFAEGVGEILTPVDPPEKWYLVAHPGVSIPTPVIFKDPELPRNTPKRSIETLLKCEFSNDCEVIARKRFREVDAVLSWLLEYAPSRLTGTGACVFAEFDTESEARQVLEQAPEWLNGFVAKGVNLSPLHRAM MRTQWPSPAKLNLFLYITGQRADGYHTLQTLFQFLDYGDTISIELRDDGDIRLLTPVEGVEHEDNLIVRAARLLMKTAADSGRLPTGSGANISIDKRLPMGGGLGGGSSNAATVLVALNHLWQCGLSMDELAEMGLTLGADVPVFVRGHAAFAEGVGEILTPVDPPEKWYLVAHPGVSIPTPVIFKDPELPRNTPKRSIETLLKCEFSNDCEVIARKRFREVDAVLSWLLEYAPSRLTGTGACVFAEFDTESEARQVLEQAPEWLNGFVAKGVNLSPLHRAML 2ww6-a1-m1-cA_2ww6-a1-m1-cB foldon containing D-amino acids in turn positions Q76VI8 Q76VI8 0.98 X-RAY DIFFRACTION 36 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 25 25 2ww6-a1-m1-cA_2ww6-a1-m1-cC 2ww6-a1-m1-cB_2ww6-a1-m1-cC 2ww7-a1-m1-cA_2ww7-a1-m1-cB 2ww7-a1-m1-cA_2ww7-a1-m1-cC 2ww7-a1-m1-cB_2ww7-a1-m1-cC 2ww7-a2-m1-cD_2ww7-a2-m1-cE 2ww7-a2-m1-cD_2ww7-a2-m1-cF 2ww7-a2-m1-cE_2ww7-a2-m1-cF GYIPEAPRDQAYVRKGEWVLLSTFL GYIPEAPRDQAYVRKGEWVLLSTFL 2wwi-a1-m1-cA_2wwi-a1-m2-cA Plasmodium falciparum thymidylate kinase in complex with AZTMP and ADP Q8I4S1 Q8I4S1 2.99 X-RAY DIFFRACTION 54 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 208 208 2wwf-a1-m1-cA_2wwf-a1-m2-cA 2wwf-a2-m1-cB_2wwf-a2-m1-cC 2wwg-a1-m1-cA_2wwg-a1-m2-cA 2wwg-a2-m1-cB_2wwg-a2-m1-cC 2wwh-a1-m1-cB_2wwh-a1-m1-cC 2wwh-a2-m1-cA_2wwh-a2-m2-cA 2wwi-a2-m1-cB_2wwi-a2-m1-cC DDKKKGKFIVFEGLDRSGKSTQSKLLVEYLKNNNVEVKHLYFPNRETGIGQIISKYLKMENSMSNETIHLLFSANRWEHMNEIKSLLLKGIWVVCDRYAYSGVAYSSGALNLNKTWCMNPDQGLIKPDVVFYLNVPPNYAQNRSDYGEEIYEKVETQKKIYETYKHFAHEDYWINIDATRKIEDIHNDIVKEVTKIKVEPEEFNFLWS DDKKKGKFIVFEGLDRSGKSTQSKLLVEYLKNNNVEVKHLYFPNRETGIGQIISKYLKMENSMSNETIHLLFSANRWEHMNEIKSLLLKGIWVVCDRYAYSGVAYSSGALNLNKTWCMNPDQGLIKPDVVFYLNVPPNYAQNRSDYGEEIYEKVETQKKIYETYKHFAHEDYWINIDATRKIEDIHNDIVKEVTKIKVEPEEFNFLWS 2wwo-a1-m1-cB_2wwo-a1-m1-cA Yersinia pseudotuberculosis Superoxide Dismutase C Q66ED7 Q66ED7 2.4 X-RAY DIFFRACTION 51 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 157 158 2wwn-a1-m1-cB_2wwn-a1-m1-cA DKASMTVKINESLPQGNGKALGTVTVTETAYGLLFTPHLTGLAPGIHGFHLHEKPSCAPGMKDGKAVPALAAGGHLDPNKTGVHLGPYNDKGHLGDLPGLVVNADGTATYPVLAPRLKSLSEVKQHALMIHAGGDNYSDHPMPLGGGGARMACGVIE NDKASMTVKINESLPQGNGKALGTVTVTETAYGLLFTPHLTGLAPGIHGFHLHEKPSCAPGMKDGKAVPALAAGGHLDPNKTGVHLGPYNDKGHLGDLPGLVVNADGTATYPVLAPRLKSLSEVKQHALMIHAGGDNYSDHPMPLGGGGARMACGVIE 2wws-a1-m10-cA_2wws-a1-m9-cB Physalis Mottle Virus: Natural Empty Capsid P36351 P36351 3.9 X-RAY DIFFRACTION 17 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 161 185 2wws-a1-m11-cA_2wws-a1-m15-cB 2wws-a1-m12-cA_2wws-a1-m11-cB 2wws-a1-m13-cA_2wws-a1-m12-cB 2wws-a1-m14-cA_2wws-a1-m13-cB 2wws-a1-m15-cA_2wws-a1-m14-cB 2wws-a1-m16-cA_2wws-a1-m20-cB 2wws-a1-m17-cA_2wws-a1-m16-cB 2wws-a1-m18-cA_2wws-a1-m17-cB 2wws-a1-m19-cA_2wws-a1-m18-cB 2wws-a1-m1-cA_2wws-a1-m5-cB 2wws-a1-m20-cA_2wws-a1-m19-cB 2wws-a1-m21-cA_2wws-a1-m25-cB 2wws-a1-m22-cA_2wws-a1-m21-cB 2wws-a1-m23-cA_2wws-a1-m22-cB 2wws-a1-m24-cA_2wws-a1-m23-cB 2wws-a1-m25-cA_2wws-a1-m24-cB 2wws-a1-m26-cA_2wws-a1-m30-cB 2wws-a1-m27-cA_2wws-a1-m26-cB 2wws-a1-m28-cA_2wws-a1-m27-cB 2wws-a1-m29-cA_2wws-a1-m28-cB 2wws-a1-m2-cA_2wws-a1-m1-cB 2wws-a1-m30-cA_2wws-a1-m29-cB 2wws-a1-m31-cA_2wws-a1-m35-cB 2wws-a1-m32-cA_2wws-a1-m31-cB 2wws-a1-m33-cA_2wws-a1-m32-cB 2wws-a1-m34-cA_2wws-a1-m33-cB 2wws-a1-m35-cA_2wws-a1-m34-cB 2wws-a1-m36-cA_2wws-a1-m40-cB 2wws-a1-m37-cA_2wws-a1-m36-cB 2wws-a1-m38-cA_2wws-a1-m37-cB 2wws-a1-m39-cA_2wws-a1-m38-cB 2wws-a1-m3-cA_2wws-a1-m2-cB 2wws-a1-m40-cA_2wws-a1-m39-cB 2wws-a1-m41-cA_2wws-a1-m45-cB 2wws-a1-m42-cA_2wws-a1-m41-cB 2wws-a1-m43-cA_2wws-a1-m42-cB 2wws-a1-m44-cA_2wws-a1-m43-cB 2wws-a1-m45-cA_2wws-a1-m44-cB 2wws-a1-m46-cA_2wws-a1-m50-cB 2wws-a1-m47-cA_2wws-a1-m46-cB 2wws-a1-m48-cA_2wws-a1-m47-cB 2wws-a1-m49-cA_2wws-a1-m48-cB 2wws-a1-m4-cA_2wws-a1-m3-cB 2wws-a1-m50-cA_2wws-a1-m49-cB 2wws-a1-m51-cA_2wws-a1-m55-cB 2wws-a1-m52-cA_2wws-a1-m51-cB 2wws-a1-m53-cA_2wws-a1-m52-cB 2wws-a1-m54-cA_2wws-a1-m53-cB 2wws-a1-m55-cA_2wws-a1-m54-cB 2wws-a1-m56-cA_2wws-a1-m60-cB 2wws-a1-m57-cA_2wws-a1-m56-cB 2wws-a1-m58-cA_2wws-a1-m57-cB 2wws-a1-m59-cA_2wws-a1-m58-cB 2wws-a1-m5-cA_2wws-a1-m4-cB 2wws-a1-m60-cA_2wws-a1-m59-cB 2wws-a1-m6-cA_2wws-a1-m10-cB 2wws-a1-m7-cA_2wws-a1-m6-cB 2wws-a1-m8-cA_2wws-a1-m7-cB 2wws-a1-m9-cA_2wws-a1-m8-cB QSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2wws-a1-m54-cB_2wws-a1-m9-cC Physalis Mottle Virus: Natural Empty Capsid P36351 P36351 3.9 X-RAY DIFFRACTION 348 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 185 185 2wws-a1-m10-cC_2wws-a1-m23-cB 2wws-a1-m11-cB_2wws-a1-m38-cC 2wws-a1-m11-cC_2wws-a1-m20-cB 2wws-a1-m12-cB_2wws-a1-m47-cC 2wws-a1-m12-cC_2wws-a1-m37-cB 2wws-a1-m13-cB_2wws-a1-m45-cC 2wws-a1-m13-cC_2wws-a1-m46-cB 2wws-a1-m14-cB_2wws-a1-m29-cC 2wws-a1-m14-cC_2wws-a1-m44-cB 2wws-a1-m15-cB_2wws-a1-m16-cC 2wws-a1-m15-cC_2wws-a1-m28-cB 2wws-a1-m16-cB_2wws-a1-m28-cC 2wws-a1-m17-cB_2wws-a1-m52-cC 2wws-a1-m17-cC_2wws-a1-m27-cB 2wws-a1-m18-cB_2wws-a1-m60-cC 2wws-a1-m18-cC_2wws-a1-m51-cB 2wws-a1-m19-cB_2wws-a1-m39-cC 2wws-a1-m19-cC_2wws-a1-m59-cB 2wws-a1-m1-cB_2wws-a1-m23-cC 2wws-a1-m1-cC_2wws-a1-m10-cB 2wws-a1-m20-cC_2wws-a1-m38-cB 2wws-a1-m21-cB_2wws-a1-m43-cC 2wws-a1-m21-cC_2wws-a1-m30-cB 2wws-a1-m22-cC_2wws-a1-m42-cB 2wws-a1-m24-cB_2wws-a1-m54-cC 2wws-a1-m24-cC_2wws-a1-m9-cB 2wws-a1-m25-cB_2wws-a1-m26-cC 2wws-a1-m25-cC_2wws-a1-m53-cB 2wws-a1-m26-cB_2wws-a1-m53-cC 2wws-a1-m27-cC_2wws-a1-m52-cB 2wws-a1-m29-cB_2wws-a1-m44-cC 2wws-a1-m2-cB_2wws-a1-m42-cC 2wws-a1-m2-cC_2wws-a1-m22-cB 2wws-a1-m30-cC_2wws-a1-m43-cB 2wws-a1-m31-cB_2wws-a1-m58-cC 2wws-a1-m31-cC_2wws-a1-m40-cB 2wws-a1-m32-cB_2wws-a1-m7-cC 2wws-a1-m32-cC_2wws-a1-m57-cB 2wws-a1-m33-cB_2wws-a1-m5-cC 2wws-a1-m33-cC_2wws-a1-m6-cB 2wws-a1-m34-cB_2wws-a1-m49-cC 2wws-a1-m34-cC_2wws-a1-m4-cB 2wws-a1-m35-cB_2wws-a1-m36-cC 2wws-a1-m35-cC_2wws-a1-m48-cB 2wws-a1-m36-cB_2wws-a1-m48-cC 2wws-a1-m37-cC_2wws-a1-m47-cB 2wws-a1-m39-cB_2wws-a1-m59-cC 2wws-a1-m3-cB_2wws-a1-m50-cC 2wws-a1-m3-cC_2wws-a1-m41-cB 2wws-a1-m40-cC_2wws-a1-m58-cB 2wws-a1-m41-cC_2wws-a1-m50-cB 2wws-a1-m45-cB_2wws-a1-m46-cC 2wws-a1-m4-cC_2wws-a1-m49-cB 2wws-a1-m51-cC_2wws-a1-m60-cB 2wws-a1-m55-cB_2wws-a1-m56-cC 2wws-a1-m55-cC_2wws-a1-m8-cB 2wws-a1-m56-cB_2wws-a1-m8-cC 2wws-a1-m57-cC_2wws-a1-m7-cB 2wws-a1-m5-cB_2wws-a1-m6-cC SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2wws-a1-m55-cA_2wws-a1-m9-cC Physalis Mottle Virus: Natural Empty Capsid P36351 P36351 3.9 X-RAY DIFFRACTION 68 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 161 185 2wws-a1-m10-cA_2wws-a1-m24-cC 2wws-a1-m11-cA_2wws-a1-m16-cC 2wws-a1-m12-cA_2wws-a1-m38-cC 2wws-a1-m13-cA_2wws-a1-m47-cC 2wws-a1-m14-cA_2wws-a1-m45-cC 2wws-a1-m15-cA_2wws-a1-m29-cC 2wws-a1-m16-cA_2wws-a1-m11-cC 2wws-a1-m17-cA_2wws-a1-m28-cC 2wws-a1-m18-cA_2wws-a1-m52-cC 2wws-a1-m19-cA_2wws-a1-m60-cC 2wws-a1-m1-cA_2wws-a1-m6-cC 2wws-a1-m20-cA_2wws-a1-m39-cC 2wws-a1-m21-cA_2wws-a1-m26-cC 2wws-a1-m22-cA_2wws-a1-m43-cC 2wws-a1-m23-cA_2wws-a1-m2-cC 2wws-a1-m24-cA_2wws-a1-m10-cC 2wws-a1-m25-cA_2wws-a1-m54-cC 2wws-a1-m26-cA_2wws-a1-m21-cC 2wws-a1-m27-cA_2wws-a1-m53-cC 2wws-a1-m28-cA_2wws-a1-m17-cC 2wws-a1-m29-cA_2wws-a1-m15-cC 2wws-a1-m2-cA_2wws-a1-m23-cC 2wws-a1-m30-cA_2wws-a1-m44-cC 2wws-a1-m31-cA_2wws-a1-m36-cC 2wws-a1-m32-cA_2wws-a1-m58-cC 2wws-a1-m33-cA_2wws-a1-m7-cC 2wws-a1-m34-cA_2wws-a1-m5-cC 2wws-a1-m35-cA_2wws-a1-m49-cC 2wws-a1-m36-cA_2wws-a1-m31-cC 2wws-a1-m37-cA_2wws-a1-m48-cC 2wws-a1-m38-cA_2wws-a1-m12-cC 2wws-a1-m39-cA_2wws-a1-m20-cC 2wws-a1-m3-cA_2wws-a1-m42-cC 2wws-a1-m40-cA_2wws-a1-m59-cC 2wws-a1-m41-cA_2wws-a1-m46-cC 2wws-a1-m42-cA_2wws-a1-m3-cC 2wws-a1-m43-cA_2wws-a1-m22-cC 2wws-a1-m44-cA_2wws-a1-m30-cC 2wws-a1-m45-cA_2wws-a1-m14-cC 2wws-a1-m46-cA_2wws-a1-m41-cC 2wws-a1-m47-cA_2wws-a1-m13-cC 2wws-a1-m48-cA_2wws-a1-m37-cC 2wws-a1-m49-cA_2wws-a1-m35-cC 2wws-a1-m4-cA_2wws-a1-m50-cC 2wws-a1-m50-cA_2wws-a1-m4-cC 2wws-a1-m51-cA_2wws-a1-m56-cC 2wws-a1-m52-cA_2wws-a1-m18-cC 2wws-a1-m53-cA_2wws-a1-m27-cC 2wws-a1-m54-cA_2wws-a1-m25-cC 2wws-a1-m56-cA_2wws-a1-m51-cC 2wws-a1-m57-cA_2wws-a1-m8-cC 2wws-a1-m58-cA_2wws-a1-m32-cC 2wws-a1-m59-cA_2wws-a1-m40-cC 2wws-a1-m5-cA_2wws-a1-m34-cC 2wws-a1-m60-cA_2wws-a1-m19-cC 2wws-a1-m6-cA_2wws-a1-m1-cC 2wws-a1-m7-cA_2wws-a1-m33-cC 2wws-a1-m8-cA_2wws-a1-m57-cC 2wws-a1-m9-cA_2wws-a1-m55-cC QSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2wws-a1-m55-cC_2wws-a1-m9-cC Physalis Mottle Virus: Natural Empty Capsid P36351 P36351 3.9 X-RAY DIFFRACTION 478 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 185 185 2wws-a1-m10-cC_2wws-a1-m24-cC 2wws-a1-m11-cC_2wws-a1-m16-cC 2wws-a1-m12-cC_2wws-a1-m38-cC 2wws-a1-m13-cC_2wws-a1-m47-cC 2wws-a1-m14-cC_2wws-a1-m45-cC 2wws-a1-m15-cC_2wws-a1-m29-cC 2wws-a1-m17-cC_2wws-a1-m28-cC 2wws-a1-m18-cC_2wws-a1-m52-cC 2wws-a1-m19-cC_2wws-a1-m60-cC 2wws-a1-m1-cC_2wws-a1-m6-cC 2wws-a1-m20-cC_2wws-a1-m39-cC 2wws-a1-m21-cC_2wws-a1-m26-cC 2wws-a1-m22-cC_2wws-a1-m43-cC 2wws-a1-m25-cC_2wws-a1-m54-cC 2wws-a1-m27-cC_2wws-a1-m53-cC 2wws-a1-m2-cC_2wws-a1-m23-cC 2wws-a1-m30-cC_2wws-a1-m44-cC 2wws-a1-m31-cC_2wws-a1-m36-cC 2wws-a1-m32-cC_2wws-a1-m58-cC 2wws-a1-m33-cC_2wws-a1-m7-cC 2wws-a1-m34-cC_2wws-a1-m5-cC 2wws-a1-m35-cC_2wws-a1-m49-cC 2wws-a1-m37-cC_2wws-a1-m48-cC 2wws-a1-m3-cC_2wws-a1-m42-cC 2wws-a1-m40-cC_2wws-a1-m59-cC 2wws-a1-m41-cC_2wws-a1-m46-cC 2wws-a1-m4-cC_2wws-a1-m50-cC 2wws-a1-m51-cC_2wws-a1-m56-cC 2wws-a1-m57-cC_2wws-a1-m8-cC SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2wws-a1-m8-cB_2wws-a1-m9-cC Physalis Mottle Virus: Natural Empty Capsid P36351 P36351 3.9 X-RAY DIFFRACTION 16 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 185 185 2wws-a1-m10-cA_2wws-a1-m6-cA 2wws-a1-m10-cA_2wws-a1-m9-cA 2wws-a1-m10-cB_2wws-a1-m6-cC 2wws-a1-m10-cC_2wws-a1-m9-cB 2wws-a1-m11-cA_2wws-a1-m12-cA 2wws-a1-m11-cA_2wws-a1-m15-cA 2wws-a1-m11-cB_2wws-a1-m12-cC 2wws-a1-m11-cC_2wws-a1-m15-cB 2wws-a1-m12-cA_2wws-a1-m13-cA 2wws-a1-m12-cB_2wws-a1-m13-cC 2wws-a1-m13-cA_2wws-a1-m14-cA 2wws-a1-m13-cB_2wws-a1-m14-cC 2wws-a1-m14-cA_2wws-a1-m15-cA 2wws-a1-m14-cB_2wws-a1-m15-cC 2wws-a1-m16-cA_2wws-a1-m17-cA 2wws-a1-m16-cA_2wws-a1-m20-cA 2wws-a1-m16-cB_2wws-a1-m17-cC 2wws-a1-m16-cC_2wws-a1-m20-cB 2wws-a1-m17-cA_2wws-a1-m18-cA 2wws-a1-m17-cB_2wws-a1-m18-cC 2wws-a1-m18-cA_2wws-a1-m19-cA 2wws-a1-m18-cB_2wws-a1-m19-cC 2wws-a1-m19-cA_2wws-a1-m20-cA 2wws-a1-m19-cB_2wws-a1-m20-cC 2wws-a1-m1-cA_2wws-a1-m2-cA 2wws-a1-m1-cA_2wws-a1-m5-cA 2wws-a1-m1-cB_2wws-a1-m2-cC 2wws-a1-m1-cC_2wws-a1-m5-cB 2wws-a1-m21-cA_2wws-a1-m22-cA 2wws-a1-m21-cA_2wws-a1-m25-cA 2wws-a1-m21-cB_2wws-a1-m22-cC 2wws-a1-m21-cC_2wws-a1-m25-cB 2wws-a1-m22-cA_2wws-a1-m23-cA 2wws-a1-m22-cB_2wws-a1-m23-cC 2wws-a1-m23-cA_2wws-a1-m24-cA 2wws-a1-m23-cB_2wws-a1-m24-cC 2wws-a1-m24-cA_2wws-a1-m25-cA 2wws-a1-m24-cB_2wws-a1-m25-cC 2wws-a1-m26-cA_2wws-a1-m27-cA 2wws-a1-m26-cA_2wws-a1-m30-cA 2wws-a1-m26-cB_2wws-a1-m27-cC 2wws-a1-m26-cC_2wws-a1-m30-cB 2wws-a1-m27-cA_2wws-a1-m28-cA 2wws-a1-m27-cB_2wws-a1-m28-cC 2wws-a1-m28-cA_2wws-a1-m29-cA 2wws-a1-m28-cB_2wws-a1-m29-cC 2wws-a1-m29-cA_2wws-a1-m30-cA 2wws-a1-m29-cB_2wws-a1-m30-cC 2wws-a1-m2-cA_2wws-a1-m3-cA 2wws-a1-m2-cB_2wws-a1-m3-cC 2wws-a1-m31-cA_2wws-a1-m32-cA 2wws-a1-m31-cA_2wws-a1-m35-cA 2wws-a1-m31-cB_2wws-a1-m32-cC 2wws-a1-m31-cC_2wws-a1-m35-cB 2wws-a1-m32-cA_2wws-a1-m33-cA 2wws-a1-m32-cB_2wws-a1-m33-cC 2wws-a1-m33-cA_2wws-a1-m34-cA 2wws-a1-m33-cB_2wws-a1-m34-cC 2wws-a1-m34-cA_2wws-a1-m35-cA 2wws-a1-m34-cB_2wws-a1-m35-cC 2wws-a1-m36-cA_2wws-a1-m37-cA 2wws-a1-m36-cA_2wws-a1-m40-cA 2wws-a1-m36-cB_2wws-a1-m37-cC 2wws-a1-m36-cC_2wws-a1-m40-cB 2wws-a1-m37-cA_2wws-a1-m38-cA 2wws-a1-m37-cB_2wws-a1-m38-cC 2wws-a1-m38-cA_2wws-a1-m39-cA 2wws-a1-m38-cB_2wws-a1-m39-cC 2wws-a1-m39-cA_2wws-a1-m40-cA 2wws-a1-m39-cB_2wws-a1-m40-cC 2wws-a1-m3-cA_2wws-a1-m4-cA 2wws-a1-m3-cB_2wws-a1-m4-cC 2wws-a1-m41-cA_2wws-a1-m42-cA 2wws-a1-m41-cA_2wws-a1-m45-cA 2wws-a1-m41-cB_2wws-a1-m42-cC 2wws-a1-m41-cC_2wws-a1-m45-cB 2wws-a1-m42-cA_2wws-a1-m43-cA 2wws-a1-m42-cB_2wws-a1-m43-cC 2wws-a1-m43-cA_2wws-a1-m44-cA 2wws-a1-m43-cB_2wws-a1-m44-cC 2wws-a1-m44-cA_2wws-a1-m45-cA 2wws-a1-m44-cB_2wws-a1-m45-cC 2wws-a1-m46-cA_2wws-a1-m47-cA 2wws-a1-m46-cA_2wws-a1-m50-cA 2wws-a1-m46-cB_2wws-a1-m47-cC 2wws-a1-m46-cC_2wws-a1-m50-cB 2wws-a1-m47-cA_2wws-a1-m48-cA 2wws-a1-m47-cB_2wws-a1-m48-cC 2wws-a1-m48-cA_2wws-a1-m49-cA 2wws-a1-m48-cB_2wws-a1-m49-cC 2wws-a1-m49-cA_2wws-a1-m50-cA 2wws-a1-m49-cB_2wws-a1-m50-cC 2wws-a1-m4-cA_2wws-a1-m5-cA 2wws-a1-m4-cB_2wws-a1-m5-cC 2wws-a1-m51-cA_2wws-a1-m52-cA 2wws-a1-m51-cA_2wws-a1-m55-cA 2wws-a1-m51-cB_2wws-a1-m52-cC 2wws-a1-m51-cC_2wws-a1-m55-cB 2wws-a1-m52-cA_2wws-a1-m53-cA 2wws-a1-m52-cB_2wws-a1-m53-cC 2wws-a1-m53-cA_2wws-a1-m54-cA 2wws-a1-m53-cB_2wws-a1-m54-cC 2wws-a1-m54-cA_2wws-a1-m55-cA 2wws-a1-m54-cB_2wws-a1-m55-cC 2wws-a1-m56-cA_2wws-a1-m57-cA 2wws-a1-m56-cA_2wws-a1-m60-cA 2wws-a1-m56-cB_2wws-a1-m57-cC 2wws-a1-m56-cC_2wws-a1-m60-cB 2wws-a1-m57-cA_2wws-a1-m58-cA 2wws-a1-m57-cB_2wws-a1-m58-cC 2wws-a1-m58-cA_2wws-a1-m59-cA 2wws-a1-m58-cB_2wws-a1-m59-cC 2wws-a1-m59-cA_2wws-a1-m60-cA 2wws-a1-m59-cB_2wws-a1-m60-cC 2wws-a1-m6-cA_2wws-a1-m7-cA 2wws-a1-m6-cB_2wws-a1-m7-cC 2wws-a1-m7-cA_2wws-a1-m8-cA 2wws-a1-m7-cB_2wws-a1-m8-cC 2wws-a1-m8-cA_2wws-a1-m9-cA SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2wws-a1-m9-cB_2wws-a1-m9-cC Physalis Mottle Virus: Natural Empty Capsid P36351 P36351 3.9 X-RAY DIFFRACTION 82 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 185 185 1e57-a1-m10-cA_1e57-a1-m10-cB 1e57-a1-m10-cA_1e57-a1-m10-cC 1e57-a1-m10-cC_1e57-a1-m10-cB 1e57-a1-m11-cA_1e57-a1-m11-cB 1e57-a1-m11-cA_1e57-a1-m11-cC 1e57-a1-m11-cC_1e57-a1-m11-cB 1e57-a1-m12-cA_1e57-a1-m12-cB 1e57-a1-m12-cA_1e57-a1-m12-cC 1e57-a1-m12-cC_1e57-a1-m12-cB 1e57-a1-m13-cA_1e57-a1-m13-cB 1e57-a1-m13-cA_1e57-a1-m13-cC 1e57-a1-m13-cC_1e57-a1-m13-cB 1e57-a1-m14-cA_1e57-a1-m14-cB 1e57-a1-m14-cA_1e57-a1-m14-cC 1e57-a1-m14-cC_1e57-a1-m14-cB 1e57-a1-m15-cA_1e57-a1-m15-cB 1e57-a1-m15-cA_1e57-a1-m15-cC 1e57-a1-m15-cC_1e57-a1-m15-cB 1e57-a1-m16-cA_1e57-a1-m16-cB 1e57-a1-m16-cA_1e57-a1-m16-cC 1e57-a1-m16-cC_1e57-a1-m16-cB 1e57-a1-m17-cA_1e57-a1-m17-cB 1e57-a1-m17-cA_1e57-a1-m17-cC 1e57-a1-m17-cC_1e57-a1-m17-cB 1e57-a1-m18-cA_1e57-a1-m18-cB 1e57-a1-m18-cA_1e57-a1-m18-cC 1e57-a1-m18-cC_1e57-a1-m18-cB 1e57-a1-m19-cA_1e57-a1-m19-cB 1e57-a1-m19-cA_1e57-a1-m19-cC 1e57-a1-m19-cC_1e57-a1-m19-cB 1e57-a1-m1-cA_1e57-a1-m1-cB 1e57-a1-m1-cA_1e57-a1-m1-cC 1e57-a1-m1-cC_1e57-a1-m1-cB 1e57-a1-m20-cA_1e57-a1-m20-cB 1e57-a1-m20-cA_1e57-a1-m20-cC 1e57-a1-m20-cC_1e57-a1-m20-cB 1e57-a1-m21-cA_1e57-a1-m21-cB 1e57-a1-m21-cA_1e57-a1-m21-cC 1e57-a1-m21-cC_1e57-a1-m21-cB 1e57-a1-m22-cA_1e57-a1-m22-cB 1e57-a1-m22-cA_1e57-a1-m22-cC 1e57-a1-m22-cC_1e57-a1-m22-cB 1e57-a1-m23-cA_1e57-a1-m23-cB 1e57-a1-m23-cA_1e57-a1-m23-cC 1e57-a1-m23-cC_1e57-a1-m23-cB 1e57-a1-m24-cA_1e57-a1-m24-cB 1e57-a1-m24-cA_1e57-a1-m24-cC 1e57-a1-m24-cC_1e57-a1-m24-cB 1e57-a1-m25-cA_1e57-a1-m25-cB 1e57-a1-m25-cA_1e57-a1-m25-cC 1e57-a1-m25-cC_1e57-a1-m25-cB 1e57-a1-m26-cA_1e57-a1-m26-cB 1e57-a1-m26-cA_1e57-a1-m26-cC 1e57-a1-m26-cC_1e57-a1-m26-cB 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2xpj-a1-m24-cA_2xpj-a1-m24-cB 2xpj-a1-m24-cA_2xpj-a1-m24-cC 2xpj-a1-m24-cB_2xpj-a1-m24-cC 2xpj-a1-m25-cA_2xpj-a1-m25-cB 2xpj-a1-m25-cA_2xpj-a1-m25-cC 2xpj-a1-m25-cB_2xpj-a1-m25-cC 2xpj-a1-m26-cA_2xpj-a1-m26-cB 2xpj-a1-m26-cA_2xpj-a1-m26-cC 2xpj-a1-m26-cB_2xpj-a1-m26-cC 2xpj-a1-m27-cA_2xpj-a1-m27-cB 2xpj-a1-m27-cA_2xpj-a1-m27-cC 2xpj-a1-m27-cB_2xpj-a1-m27-cC 2xpj-a1-m28-cA_2xpj-a1-m28-cB 2xpj-a1-m28-cA_2xpj-a1-m28-cC 2xpj-a1-m28-cB_2xpj-a1-m28-cC 2xpj-a1-m29-cA_2xpj-a1-m29-cB 2xpj-a1-m29-cA_2xpj-a1-m29-cC 2xpj-a1-m29-cB_2xpj-a1-m29-cC 2xpj-a1-m2-cA_2xpj-a1-m2-cB 2xpj-a1-m2-cA_2xpj-a1-m2-cC 2xpj-a1-m2-cB_2xpj-a1-m2-cC 2xpj-a1-m30-cA_2xpj-a1-m30-cB 2xpj-a1-m30-cA_2xpj-a1-m30-cC 2xpj-a1-m30-cB_2xpj-a1-m30-cC 2xpj-a1-m31-cA_2xpj-a1-m31-cB 2xpj-a1-m31-cA_2xpj-a1-m31-cC 2xpj-a1-m31-cB_2xpj-a1-m31-cC 2xpj-a1-m32-cA_2xpj-a1-m32-cB 2xpj-a1-m32-cA_2xpj-a1-m32-cC 2xpj-a1-m32-cB_2xpj-a1-m32-cC 2xpj-a1-m33-cA_2xpj-a1-m33-cB 2xpj-a1-m33-cA_2xpj-a1-m33-cC 2xpj-a1-m33-cB_2xpj-a1-m33-cC 2xpj-a1-m34-cA_2xpj-a1-m34-cB 2xpj-a1-m34-cA_2xpj-a1-m34-cC 2xpj-a1-m34-cB_2xpj-a1-m34-cC 2xpj-a1-m35-cA_2xpj-a1-m35-cB 2xpj-a1-m35-cA_2xpj-a1-m35-cC 2xpj-a1-m35-cB_2xpj-a1-m35-cC 2xpj-a1-m36-cA_2xpj-a1-m36-cB 2xpj-a1-m36-cA_2xpj-a1-m36-cC 2xpj-a1-m36-cB_2xpj-a1-m36-cC 2xpj-a1-m37-cA_2xpj-a1-m37-cB 2xpj-a1-m37-cA_2xpj-a1-m37-cC 2xpj-a1-m37-cB_2xpj-a1-m37-cC 2xpj-a1-m38-cA_2xpj-a1-m38-cB 2xpj-a1-m38-cA_2xpj-a1-m38-cC 2xpj-a1-m38-cB_2xpj-a1-m38-cC 2xpj-a1-m39-cA_2xpj-a1-m39-cB 2xpj-a1-m39-cA_2xpj-a1-m39-cC 2xpj-a1-m39-cB_2xpj-a1-m39-cC 2xpj-a1-m3-cA_2xpj-a1-m3-cB 2xpj-a1-m3-cA_2xpj-a1-m3-cC 2xpj-a1-m3-cB_2xpj-a1-m3-cC 2xpj-a1-m40-cA_2xpj-a1-m40-cB 2xpj-a1-m40-cA_2xpj-a1-m40-cC 2xpj-a1-m40-cB_2xpj-a1-m40-cC 2xpj-a1-m41-cA_2xpj-a1-m41-cB 2xpj-a1-m41-cA_2xpj-a1-m41-cC 2xpj-a1-m41-cB_2xpj-a1-m41-cC 2xpj-a1-m42-cA_2xpj-a1-m42-cB 2xpj-a1-m42-cA_2xpj-a1-m42-cC 2xpj-a1-m42-cB_2xpj-a1-m42-cC 2xpj-a1-m43-cA_2xpj-a1-m43-cB 2xpj-a1-m43-cA_2xpj-a1-m43-cC 2xpj-a1-m43-cB_2xpj-a1-m43-cC 2xpj-a1-m44-cA_2xpj-a1-m44-cB 2xpj-a1-m44-cA_2xpj-a1-m44-cC 2xpj-a1-m44-cB_2xpj-a1-m44-cC 2xpj-a1-m45-cA_2xpj-a1-m45-cB 2xpj-a1-m45-cA_2xpj-a1-m45-cC 2xpj-a1-m45-cB_2xpj-a1-m45-cC 2xpj-a1-m46-cA_2xpj-a1-m46-cB 2xpj-a1-m46-cA_2xpj-a1-m46-cC 2xpj-a1-m46-cB_2xpj-a1-m46-cC 2xpj-a1-m47-cA_2xpj-a1-m47-cB 2xpj-a1-m47-cA_2xpj-a1-m47-cC 2xpj-a1-m47-cB_2xpj-a1-m47-cC 2xpj-a1-m48-cA_2xpj-a1-m48-cB 2xpj-a1-m48-cA_2xpj-a1-m48-cC 2xpj-a1-m48-cB_2xpj-a1-m48-cC 2xpj-a1-m49-cA_2xpj-a1-m49-cB 2xpj-a1-m49-cA_2xpj-a1-m49-cC 2xpj-a1-m49-cB_2xpj-a1-m49-cC 2xpj-a1-m4-cA_2xpj-a1-m4-cB 2xpj-a1-m4-cA_2xpj-a1-m4-cC 2xpj-a1-m4-cB_2xpj-a1-m4-cC 2xpj-a1-m50-cA_2xpj-a1-m50-cB 2xpj-a1-m50-cA_2xpj-a1-m50-cC 2xpj-a1-m50-cB_2xpj-a1-m50-cC 2xpj-a1-m51-cA_2xpj-a1-m51-cB 2xpj-a1-m51-cA_2xpj-a1-m51-cC 2xpj-a1-m51-cB_2xpj-a1-m51-cC 2xpj-a1-m52-cA_2xpj-a1-m52-cB 2xpj-a1-m52-cA_2xpj-a1-m52-cC 2xpj-a1-m52-cB_2xpj-a1-m52-cC 2xpj-a1-m53-cA_2xpj-a1-m53-cB 2xpj-a1-m53-cA_2xpj-a1-m53-cC 2xpj-a1-m53-cB_2xpj-a1-m53-cC 2xpj-a1-m54-cA_2xpj-a1-m54-cB 2xpj-a1-m54-cA_2xpj-a1-m54-cC 2xpj-a1-m54-cB_2xpj-a1-m54-cC 2xpj-a1-m55-cA_2xpj-a1-m55-cB 2xpj-a1-m55-cA_2xpj-a1-m55-cC 2xpj-a1-m55-cB_2xpj-a1-m55-cC 2xpj-a1-m56-cA_2xpj-a1-m56-cB 2xpj-a1-m56-cA_2xpj-a1-m56-cC 2xpj-a1-m56-cB_2xpj-a1-m56-cC 2xpj-a1-m57-cA_2xpj-a1-m57-cB 2xpj-a1-m57-cA_2xpj-a1-m57-cC 2xpj-a1-m57-cB_2xpj-a1-m57-cC 2xpj-a1-m58-cA_2xpj-a1-m58-cB 2xpj-a1-m58-cA_2xpj-a1-m58-cC 2xpj-a1-m58-cB_2xpj-a1-m58-cC 2xpj-a1-m59-cA_2xpj-a1-m59-cB 2xpj-a1-m59-cA_2xpj-a1-m59-cC 2xpj-a1-m59-cB_2xpj-a1-m59-cC 2xpj-a1-m5-cA_2xpj-a1-m5-cB 2xpj-a1-m5-cA_2xpj-a1-m5-cC 2xpj-a1-m5-cB_2xpj-a1-m5-cC 2xpj-a1-m60-cA_2xpj-a1-m60-cB 2xpj-a1-m60-cA_2xpj-a1-m60-cC 2xpj-a1-m60-cB_2xpj-a1-m60-cC 2xpj-a1-m6-cA_2xpj-a1-m6-cB 2xpj-a1-m6-cA_2xpj-a1-m6-cC 2xpj-a1-m6-cB_2xpj-a1-m6-cC 2xpj-a1-m7-cA_2xpj-a1-m7-cB 2xpj-a1-m7-cA_2xpj-a1-m7-cC 2xpj-a1-m7-cB_2xpj-a1-m7-cC 2xpj-a1-m8-cA_2xpj-a1-m8-cB 2xpj-a1-m8-cA_2xpj-a1-m8-cC 2xpj-a1-m8-cB_2xpj-a1-m8-cC 2xpj-a1-m9-cA_2xpj-a1-m9-cB 2xpj-a1-m9-cA_2xpj-a1-m9-cC 2xpj-a1-m9-cB_2xpj-a1-m9-cC SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2wwu-a1-m1-cA_2wwu-a1-m2-cA Crystal structure of the catalytic domain of PHD finger protein 8 Q9UPP1 Q9UPP1 2.15 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 363 4do0-a1-m1-cA_4do0-a1-m2-cA VKTGSPTFVRELRSRTFDSSDEVILKPTGNQLTVEFLEENSFSVPILVLKKDGLGMTLPSPSFTVRDVEHYVGSDKEIDVIDVTRQADCKMKLGDFVKYYYSGKREKVLNVISLEFSDTRLSNLVETPKIVRKLSWVENLWPEECVFERPNVQKYCLMSVRDSYTDFHIDFGGTSVWYHVLKGEKIFYLIRPTNANLTLFECWSSSSNQNEMFFGDQVDKCYKCSVKQGQTLFIPTGWIHAVLTPVDCLAFGGNFLHSLNIEMQLKAYEIEKRLSTADLFRFPNFETICWYVGKHILDIFRGLRENRRHPASYLVHGGKALNLAFRAWTRKEALPDHEDEIPETVRTVQLIKDLAREIRLVED VKTGSPTFVRELRSRTFDSSDEVILKPTGNQLTVEFLEENSFSVPILVLKKDGLGMTLPSPSFTVRDVEHYVGSDKEIDVIDVTRQADCKMKLGDFVKYYYSGKREKVLNVISLEFSDTRLSNLVETPKIVRKLSWVENLWPEECVFERPNVQKYCLMSVRDSYTDFHIDFGGTSVWYHVLKGEKIFYLIRPTNANLTLFECWSSSSNQNEMFFGDQVDKCYKCSVKQGQTLFIPTGWIHAVLTPVDCLAFGGNFLHSLNIEMQLKAYEIEKRLSTADLFRFPNFETICWYVGKHILDIFRGLRENRRHPASYLVHGGKALNLAFRAWTRKEALPDHEDEIPETVRTVQLIKDLAREIRLVED 2www-a2-m1-cA_2www-a2-m1-cB Crystal Structure of Methylmalonic Acidemia Type A Protein Q8IVH4 Q8IVH4 2.64 X-RAY DIFFRACTION 114 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 298 299 2www-a1-m1-cC_2www-a1-m1-cD TEGLSDKEQRFVDKLYTGLIQGQRACLAEAITLVESTHSRKKELAQVLLQKVLLYHREQEQSNKGKPLAFRVGLSGPPGAGKSTFIEYFGKMLTERGHKLSVLAVDPTELSRDMNAYIRPSTRTTNEAILLCEGAGYDIILIETVGVSEFAVADMVDMFVLLLPPAIEMADLVAVTKSDGDLIVPARRIQAEYVSALKLLRWKPKVIRISARSGEGISEMWDKMKDFQDLMLASGELTAKRRKQQKVWMWNLIQESVLEHFRTHPTVREQIPLLEQKVLIGALSPGLAADFLLKAFKS GLSDKEQRFVDKLYTGLIQGQRACLAEAITLVESTHSRKKELAQVLLQKVLLYHREQEQSNKGKPLAFRVGLSGPPGAGKSTFIEYFGKMLTERGHKLSVLAVDTELSRDMNAYIRPTRTTNEAILLCEGAGYDIILIETVGQSEFAVADMVDMFVLLLPPIIEMADLVAVTKSDGDLIVPARRIQAEYVSALKLLRKRSQVWKPKVIRISARSGEGISEMWDKMKDFQDLMLASGELTAKRRKQQKVWMWNLIQESVLEHFRTHPTVREQIPLLEQKVLIGALSPGLAADFLLKAFKS 2wwy-a1-m1-cA_2wwy-a1-m1-cB Structure of human RECQ-like helicase in complex with a DNA substrate P46063 P46063 2.9 X-RAY DIFFRACTION 51 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 530 530 SSPAAWNKEDFPWSGKVKDILQNVFKLEKFRPLQLETINVTMAGKEVFLVMPTGGGKSLCYQLPALCSDGFTLVICPLISLMEDQLMVLKQLGISATMLNASSSKEHVKWVHAEMVNKNSELKLIYVTPEKIAKSKMFMSRLEKAYEARRFTRIAVDEVHCCSQWGHDFRPDYKALGILKRQFPNASLIGLTATATNHVLTDAQKILCIEKCFTFTASFNRPNLYYEVRQKPSNTEDFIEDIVKLINGRYKGQSGIIYCFSQKDSEQVTVSLQNLGIHAGAYHANLEPEDKTTVHRKWSANEIQVVVATVAFGMGIDKPDVRFVIHHSMSKSMENYYQESGRAGRDDMKADCILYYGFGDIFRISSMVVMENVGQQKLYEMVSYCQNISKCRRVLMAQHFDEVWNSEACNKMCDNCCKDSAFERKNITEYCRDLIKILKQAEELNEKLTPLKLIDSWMGKGAAKLRVAGVVAPTLPREDLEKIIAHFLIQQYLKEDYSFTAYATISYLKIGPKANLLNNEAHAITMQVTK SPAAWNKEDFPWSGKVKDILQNVFKLEKFRPLQLETINVTMAGKEVFLVMPTGGGKSLCYQLPALCSDGFTLVICPLISLMEDQLMVLKQLGISATMLNASSSKEHVKWVHAEMVNKNSELKLIYVTPEKIAKSKMFMSRLEKAYEARRFTRIAVDEVHCCSQWGHDFRPDYKALGILKRQFPNASLIGLTATATNHVLTDAQKILCIEKCFTFTASFNRPNLYYEVRQKPSNTEDFIEDIVKLINGRYKGQSGIIYCFSQKDSEQVTVSLQNLGIHAGAYHANLEPEDKTTVHRKWSANEIQVVVATVAFGMGIDKPDVRFVIHHSMSKSMENYYQESGRAGRDDMKADCILYYGFGDIFRISSMVVMENVGQQKLYEMVSYCQNISKCRRVLMAQHFDEVWNSEACNKMCDNCCKDSAFERKNITEYCRDLIKILKQAEELNEKLTPLKLIDSWMGKGAAKLRVAGVVAPTLPREDLEKIIAHFLIQQYLKEDYSFTAYATISYLKIGPKANLLNNEAHAITMQVTKS 2wx4-a1-m1-cA_2wx4-a1-m1-cC Asymmetric trimer of the Drosophila melanogaster DCP1 C-terminal domain Q9W1H5 Q9W1H5 2.8 X-RAY DIFFRACTION 47 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 38 43 GPHMADLLLNSTQFVQAFTYLIQNDKEFANKLHKAYLN GPHMADLLLNSTQFVQAFTYLIQNDKEFANKLHKAYLNGCSNL 2wx4-a2-m1-cE_2wx4-a2-m1-cD Asymmetric trimer of the Drosophila melanogaster DCP1 C-terminal domain Q9W1H5 Q9W1H5 2.8 X-RAY DIFFRACTION 52 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 43 45 HMADLLLNSTQFVQAFTYLIQNDKEFANKLHKAYLNGCSNLLL GPHMADLLLNSTQFVQAFTYLIQNDKEFANKLHKAYLNGCSNLLL 2wx4-a2-m1-cE_2wx4-a2-m1-cF Asymmetric trimer of the Drosophila melanogaster DCP1 C-terminal domain Q9W1H5 Q9W1H5 2.8 X-RAY DIFFRACTION 49 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 43 45 HMADLLLNSTQFVQAFTYLIQNDKEFANKLHKAYLNGCSNLLL PHMADLLLNSTQFVQAFTYLIQNDKEFANKLHKAYLNGCSNLLLD 2wxy-a1-m1-cC_2wxy-a1-m2-cC Crystal structure of mouse angiotensinogen in the reduced form P11859 P11859 2.1 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 419 419 2wy0-a1-m1-cC_2wy0-a1-m2-cC RVYIHPFHLLYHNKSTLPESTFEPVPIQAKTSPVNEKTLHDQLVLAAEKLEDEDRKRAAQVAMITNFVGFRMYKMLNEAGSGASGAILSPPALFGTLVSFYLGSLDPTASQLQTLLDVPVKEGDCTSRLDGHKVLAALRAVQGLLVTPLLQSIVVGLFTAPGFRLKHSFVQSLALFTPALFPRSLDLSTDPVLATEKINRFIKAVTGWKMNLPLEGVSTDSTLLFNTYVHFQGTMRGFSQLPGVHEFWVDNSISVSVPMISGTGNFQHWSDAQNNFSVTCVPLGERATLLLIQPHCISDLDRVEALIFQDLLTWIENPPPRAIRLTLPQLEIRGSYNLQDLLAEDKLPTLLGAEANLNNIGDTNPRVGEVLNSILLELKAGEEEQPEALDVTLSSPFLFAIYEQDSGTLHFLGRVNNPQ RVYIHPFHLLYHNKSTLPESTFEPVPIQAKTSPVNEKTLHDQLVLAAEKLEDEDRKRAAQVAMITNFVGFRMYKMLNEAGSGASGAILSPPALFGTLVSFYLGSLDPTASQLQTLLDVPVKEGDCTSRLDGHKVLAALRAVQGLLVTPLLQSIVVGLFTAPGFRLKHSFVQSLALFTPALFPRSLDLSTDPVLATEKINRFIKAVTGWKMNLPLEGVSTDSTLLFNTYVHFQGTMRGFSQLPGVHEFWVDNSISVSVPMISGTGNFQHWSDAQNNFSVTCVPLGERATLLLIQPHCISDLDRVEALIFQDLLTWIENPPPRAIRLTLPQLEIRGSYNLQDLLAEDKLPTLLGAEANLNNIGDTNPRVGEVLNSILLELKAGEEEQPEALDVTLSSPFLFAIYEQDSGTLHFLGRVNNPQ 2wy2-a1-m1-cB_2wy2-a1-m1-cC NMR structure of the IIAchitobiose-IIBchitobiose phosphoryl transition state complex of the N,N'-diacetylchitoboise brance of the E. coli phosphotransferase system. P69791 P69791 NOT SOLUTION NMR 33 1.0 562 (Escherichia coli) 562 (Escherichia coli) 103 103 1wcr-a1-m1-cA_1wcr-a1-m1-cB 1wcr-a1-m1-cA_1wcr-a1-m1-cC 1wcr-a1-m1-cB_1wcr-a1-m1-cC 2lrk-a1-m1-cA_2lrk-a1-m1-cB 2lrk-a1-m1-cA_2lrk-a1-m1-cC 2lrk-a1-m1-cB_2lrk-a1-m1-cC 2lrl-a1-m1-cA_2lrl-a1-m1-cB 2lrl-a1-m1-cA_2lrl-a1-m1-cC 2lrl-a1-m1-cB_2lrl-a1-m1-cC 2wwv-a1-m1-cA_2wwv-a1-m1-cB 2wwv-a1-m1-cA_2wwv-a1-m1-cC 2wwv-a1-m1-cB_2wwv-a1-m1-cC 2wy2-a1-m1-cA_2wy2-a1-m1-cB 2wy2-a1-m1-cA_2wy2-a1-m1-cC AEELEEVVMGLIINSGQARSLAYAALKQAKQGDFAAAKAMMDQSRMALNEAHLVQTKLIEGDAGEGKMKVSLVLVHAQLHLMTSMLARELITELIELHEKLKA AEELEEVVMGLIINSGQARSLAYAALKQAKQGDFAAAKAMMDQSRMALNEAHLVQTKLIEGDAGEGKMKVSLVLVHAQLHLMTSMLARELITELIELHEKLKA 2wya-a2-m1-cA_2wya-a2-m1-cD CRYSTAL STRUCTURE OF HUMAN MITOCHONDRIAL 3-HYDROXY-3-METHYLGLUTARYL- COENZYME A SYNTHASE 2 (HMGCS2) P54868 P54868 1.7 X-RAY DIFFRACTION 249 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 460 460 2wya-a1-m1-cB_2wya-a1-m1-cC SMPKDVGILALEVYFPAQYVDQTDLEKYNNVEAGKYTVGLGQTRMGFCSVQEDINSLCLTVVQRLMERIQLPWDSVGRLEVGTETIIDKSKAVKTVLMELFQDSGNTDIEGIDTTNACYGGTASLFNAANWMESSSWDGRYAMVVCGDIAVYPSGNARPTGGAGAVAMLIGPKAPLALERGLRGTHMENVYDFYKPNLASEYPIVDGKLSIQCYLRALDRCYTSYRKKIQNQWKQAGSDRPFTLDDLQYMIFHTPFCKMVQKSLARLMFNDFLSASSDTQTSLYKGLEAFGGLKLEDTYTNKDLDKALLKASQDMFDKKTKASLYLSTHNGNMYTSSLYGCLASLLSHHSAQELAGSRIGAFSYGSGLAASFFSFRVSQDAAPGSPLDKLVSSTSDLPKRLASRKCVSPEEFTEIMNQREQFYHKVNFSPPGDTNSLFPGTWYLERVDEQHRRKYARRPV SMPKDVGILALEVYFPAQYVDQTDLEKYNNVEAGKYTVGLGQTRMGFCSVQEDINSLCLTVVQRLMERIQLPWDSVGRLEVGTETIIDKSKAVKTVLMELFQDSGNTDIEGIDTTNACYGGTASLFNAANWMESSSWDGRYAMVVCGDIAVYPSGNARPTGGAGAVAMLIGPKAPLALERGLRGTHMENVYDFYKPNLASEYPIVDGKLSIQCYLRALDRCYTSYRKKIQNQWKQAGSDRPFTLDDLQYMIFHTPFCKMVQKSLARLMFNDFLSASSDTQTSLYKGLEAFGGLKLEDTYTNKDLDKALLKASQDMFDKKTKASLYLSTHNGNMYTSSLYGCLASLLSHHSAQELAGSRIGAFSYGSGLAASFFSFRVSQDAAPGSPLDKLVSSTSDLPKRLASRKCVSPEEFTEIMNQREQFYHKVNFSPPGDTNSLFPGTWYLERVDEQHRRKYARRPV 2wyh-a1-m1-cB_2wyh-a1-m1-cA Structure of the Streptococcus pyogenes family GH38 alpha-mannosidase Q99YP5 Q99YP5 1.9 X-RAY DIFFRACTION 140 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 891 905 2wyi-a1-m1-cA_2wyi-a1-m1-cB TKKVHIISHSHWDREWYMAYEQHHMRLINLIDDLLEVFQTDPDFHSFHLDGQTIILDDYLKVRPEREPEIRQAIASGKLRIGPFYILQDDFLTSSESNVRNMLIGKEDCDRWGASVPLGYFPDTFGNMGQTPQLMLKAGLQAAAFGRGIRPTGFNNQVDTSEKYSSQFSEISWQGPDNSRILGLLFANWYSNGNEIPTTEAEARLFWDKKLADAERFASTKHLLMMNGCDHQPVQLDVTKAIALANQLYPDYEFVHSCFEDYLADLADDLPENLSTVQGEITSQETDGWYTLANTASARIYLKQANTRVSRQLENITEPLAAMAYEVTSTYPHDQLRYAWKTLMQNHPHDSICGCSVDSVHREMMTRFEKAYEVGHYLAKEAAKQIADAIDTRDFPMDSQPFVLFNTSGHSKTSVAELSLTWKKYHFGQRFPKEVYQEAQEYLARLSQSFQIIDTSGQVRPEAEILGTSIAFDYDLPKRSFREPYFAIKVRLRLPITLPAMSWKTLALKLGVSLYDDSNQCLENGFLKVMIQTDGRLTITDKQSGLIYQDLLRFEDCGDIGNEYISRQPNHDQPFYADQGTIKLNIISNTAQVAELEIQQTFAIPISADKLLQAEMEAVIDITERQARRSQEKAELTLTTLIRMEKNNPRLQFTTRFDNQMTNHRLRVLFPTHLKTDHHLADSIFETVKRPNHPDATFWKNPSNPQHQECFVSLFDGENGVTIGNYGLNEYEILPDTNTIAITLLRSVGEMGDWGYFPTPEAQCLGKHSLSYSFESITKQTQFASYWRAQEGQVPVITTQTNQHEGTLAAEYSYLTGTNDQVALTAFKRRLADNALITRSYNLSNDKTCDFSLSLPNYNAKVTNLLEKDSKQSTPSQLGKAEILTLAWKKQ GLEVLFQGPAMATKKVHIISHSHWDREWYMAYEQHHMRLINLIDDLLEVFQTDPDFHSFHLDGQTIILDDYLKVRPEREPEIRQAIASGKLRIGPFYILQDDFLTSSESNVRNMLIGKEDCDRWGASVPLGYFPDTFGNMGQTPQLMLKAGLQAAAFGRGIRPTGFNNQVDTSEKYSSQFSEISWQGPDNSRILGLLFANWYSNGNEIPTTEAEARLFWDKKLADAERFASTKHLLMMNGCDHQPVQLDVTKAIALANQLYPDYEFVHSCFEDYLADLADDLPENLSTVQGEITSQETDGWYTLANTASARIYLKQANTRVSRQLENITEPLAAMAYEVTSTYPHDQLRYAWKTLMQNHPHDSICGCSVDSVHREMMTRFEKAYEVGHYLAKEAAKQIADAIDTRDFPMDSQPFVLFNTSGHSKTSVAELSLTWKKYHFGQRFPKEVYQEAQEYLARLSQSFQIIDTSGQVRPEAEILGTSIAFDYDLPKRSFREPYFAIKVRLRLPITLPAMSWKTLALKLGNTVSLYDDSNQCLENGFLKVMIQTDGRLTITDKQSGLIYQDLLRFEDCGDIGNEYISRQPNHDQPFYADQGTIKLNIISNTAQVAELEIQQTFAIPISADKLLQAEMEAVIDITERQARRSQEKAELTLTTLIRMEKNNPRLQFTTRFDNQMTNHRLRVLFPTHLKTDHHLADSIFETVKRPNHPDATFWKNPSNPQHQECFVSLFDGENGVTIGNYGLNEYEILPDTNTIAITLLRSVGEMGDWGYFPTPEAQCLGKHSLSYSFESITKQTQFASYWRAQEGQVPVITTQTNQHEGTLAAEYSYLTGTNDQVALTAFKRRLADNALITRSYNLSNDKTCDFSLSLPNYNAKVTNLLEKDSKQSTPSQLGKAEILTLAWKKQ 2wyl-a1-m1-cC_2wyl-a1-m1-cD Apo structure of a metallo-b-lactamase P39300 P39300 2.59 X-RAY DIFFRACTION 202 0.997 562 (Escherichia coli) 562 (Escherichia coli) 291 292 2wyl-a1-m1-cB_2wyl-a1-m1-cE 2wyl-a1-m1-cF_2wyl-a1-m1-cA 2wym-a1-m1-cB_2wym-a1-m1-cE 2wym-a1-m1-cC_2wym-a1-m1-cD 2wym-a1-m1-cF_2wym-a1-m1-cA SKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFDGDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKTSADLRGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRG SKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFGDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKTSADLRGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRGFD 2wyl-a1-m1-cC_2wyl-a1-m1-cF Apo structure of a metallo-b-lactamase P39300 P39300 2.59 X-RAY DIFFRACTION 10 0.997 562 (Escherichia coli) 562 (Escherichia coli) 291 294 2wyl-a1-m1-cB_2wyl-a1-m1-cA 2wyl-a1-m1-cC_2wyl-a1-m1-cE 2wyl-a1-m1-cE_2wyl-a1-m1-cF 2wym-a1-m1-cB_2wym-a1-m1-cA 2wym-a1-m1-cB_2wym-a1-m1-cD 2wym-a1-m1-cC_2wym-a1-m1-cE 2wym-a1-m1-cC_2wym-a1-m1-cF 2wym-a1-m1-cE_2wym-a1-m1-cF SKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFDGDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKTSADLRGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRG SKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGKLQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFDRDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKTSADLRGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRGF 2wyl-a1-m1-cD_2wyl-a1-m1-cF Apo structure of a metallo-b-lactamase P39300 P39300 2.59 X-RAY DIFFRACTION 53 0.993 562 (Escherichia coli) 562 (Escherichia coli) 292 294 2wyl-a1-m1-cC_2wyl-a1-m1-cB 2wyl-a1-m1-cE_2wyl-a1-m1-cA 2wym-a1-m1-cC_2wym-a1-m1-cB 2wym-a1-m1-cD_2wym-a1-m1-cF 2wym-a1-m1-cE_2wym-a1-m1-cA SKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFGDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKTSADLRGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRGFD SKVKSITRESWILSTFPEWGSWLNEEIEQEQVAPGTFAWWLGCTGIWLKSEGGTNVCVDFWCGTGKQSHGKLQPNLRTTPFVLDPFAIRQIDAVLATHDHNDHIDVNVAAAVQNCADDVPFIGPKTCVDLWIGWGVPKERCIVVKPGDVVKVKDIEIHALDAFDRDDRAVNYLFKTPGGSLYHSGDSHYSNYYAKHGNEHQIDVALGSYGENPRGITDKTSADLRGEALNAKVVIPFHHDIWSNFQADPQEIRVLWEKKDRLKYGFKPFIWQVGGKFTWPLDKDNFEYHYPRGF 2wyq-a1-m1-cA_2wyq-a1-m2-cA THE CRYSTAL STRUCTURE OF THE UBIQUITIN-LIKE (UBL) DOMAIN OF HHR23A (HUMAN HOMOLOGUE A OF RAD23) P54725 P54725 1.651 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 MAVTITLKTLQQQTFKIRMEPDETVKVLKEKIEAEKGRDAFPVAGQKLIYAGKILSDDVPIRDYRIDEKNFVVVMVT MAVTITLKTLQQQTFKIRMEPDETVKVLKEKIEAEKGRDAFPVAGQKLIYAGKILSDDVPIRDYRIDEKNFVVVMVT 2wyr-a1-m1-cF_2wyr-a1-m1-cL 3-D structure of PhTET1-12s, dodecamer in the asymmetric unit O58255 O58255 2.245 X-RAY DIFFRACTION 53 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 324 325 2cf4-a1-m10-cA_2cf4-a1-m12-cA 2cf4-a1-m10-cA_2cf4-a1-m8-cA 2cf4-a1-m11-cA_2cf4-a1-m7-cA 2cf4-a1-m11-cA_2cf4-a1-m9-cA 2cf4-a1-m12-cA_2cf4-a1-m8-cA 2cf4-a1-m1-cA_2cf4-a1-m2-cA 2cf4-a1-m1-cA_2cf4-a1-m3-cA 2cf4-a1-m2-cA_2cf4-a1-m3-cA 2cf4-a1-m4-cA_2cf4-a1-m5-cA 2cf4-a1-m4-cA_2cf4-a1-m6-cA 2cf4-a1-m5-cA_2cf4-a1-m6-cA 2cf4-a1-m7-cA_2cf4-a1-m9-cA 2wyr-a1-m1-cA_2wyr-a1-m1-cE 2wyr-a1-m1-cB_2wyr-a1-m1-cC 2wyr-a1-m1-cB_2wyr-a1-m1-cJ 2wyr-a1-m1-cC_2wyr-a1-m1-cJ 2wyr-a1-m1-cD_2wyr-a1-m1-cH 2wyr-a1-m1-cD_2wyr-a1-m1-cI 2wyr-a1-m1-cF_2wyr-a1-m1-cK 2wyr-a1-m1-cG_2wyr-a1-m1-cA 2wyr-a1-m1-cG_2wyr-a1-m1-cE 2wyr-a1-m1-cI_2wyr-a1-m1-cH 2wyr-a1-m1-cK_2wyr-a1-m1-cL SMIEKLKKFTQIPGISGYEERIREEIIREIKDFADYKVDAIGNLIVELGEGEERILFMAHMDEIGLLITGITDEGKLRFRKVGGIDDRLLYGRHVNVVTEKGILDGVIGATPPHLSVIPWYDLVIDIGAESKEEALELVKPLDFAVFKKHFSVLNGKYVSTRGLDDRFGVVALIEAIKDLVDHELEGKVIFAFTVQEEVGLKGAKFLANHYYPQYAFAIDSFACCSPLTGDVKLGKGPVIRAVDNSAIYSRDLARKVWSIAEKNGIEIQIGVTGGGTDASAFQDRSKTLALSVPIKYLHSEVETLHLNDLEKLVKLIEALAFEL MSMIEKLKKFTQIPGISGYEERIREEIIREIKDFADYKVDAIGNLIVELGEGEERILFMAHMDEIGLLITGITDEGKLRFRKVGGIDDRLLYGRHVNVVTEKGILDGVIGATPPHLSVIPWYDLVIDIGAESKEEALELVKPLDFAVFKKHFSVLNGKYVSTRGLDDRFGVVALIEAIKDLVDHELEGKVIFAFTVQEEVGLKGAKFLANHYYPQYAFAIDSFACCSPLTGDVKLGKGPVIRAVDNSAIYSRDLARKVWSIAEKNGIEIQIGVTGGGTDASAFQDRSKTLALSVPIKYLHSEVETLHLNDLEKLVKLIEALAFEL 2wyr-a1-m1-cG_2wyr-a1-m1-cL 3-D structure of PhTET1-12s, dodecamer in the asymmetric unit O58255 O58255 2.245 X-RAY DIFFRACTION 163 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 325 325 2cf4-a1-m10-cA_2cf4-a1-m11-cA 2cf4-a1-m12-cA_2cf4-a1-m5-cA 2cf4-a1-m1-cA_2cf4-a1-m4-cA 2cf4-a1-m2-cA_2cf4-a1-m7-cA 2cf4-a1-m3-cA_2cf4-a1-m8-cA 2cf4-a1-m6-cA_2cf4-a1-m9-cA 2wyr-a1-m1-cA_2wyr-a1-m1-cC 2wyr-a1-m1-cB_2wyr-a1-m1-cK 2wyr-a1-m1-cD_2wyr-a1-m1-cJ 2wyr-a1-m1-cE_2wyr-a1-m1-cH 2wyr-a1-m1-cF_2wyr-a1-m1-cI MSMIEKLKKFTQIPGISGYEERIREEIIREIKDFADYKVDAIGNLIVELGEGEERILFMAHMDEIGLLITGITDEGKLRFRKVGGIDDRLLYGRHVNVVTEKGILDGVIGATPPHLSVIPWYDLVIDIGAESKEEALELVKPLDFAVFKKHFSVLNGKYVSTRGLDDRFGVVALIEAIKDLVDHELEGKVIFAFTVQEEVGLKGAKFLANHYYPQYAFAIDSFACCSPLTGDVKLGKGPVIRAVDNSAIYSRDLARKVWSIAEKNGIEIQIGVTGGGTDASAFQDRSKTLALSVPIKYLHSEVETLHLNDLEKLVKLIEALAFEL MSMIEKLKKFTQIPGISGYEERIREEIIREIKDFADYKVDAIGNLIVELGEGEERILFMAHMDEIGLLITGITDEGKLRFRKVGGIDDRLLYGRHVNVVTEKGILDGVIGATPPHLSVIPWYDLVIDIGAESKEEALELVKPLDFAVFKKHFSVLNGKYVSTRGLDDRFGVVALIEAIKDLVDHELEGKVIFAFTVQEEVGLKGAKFLANHYYPQYAFAIDSFACCSPLTGDVKLGKGPVIRAVDNSAIYSRDLARKVWSIAEKNGIEIQIGVTGGGTDASAFQDRSKTLALSVPIKYLHSEVETLHLNDLEKLVKLIEALAFEL 2wyu-a1-m1-cB_2wyu-a1-m1-cA High resolution structure of Thermus thermophilus enoyl-acyl carrier protein reductase apo-form Q5SLI9 Q5SLI9 1.5 X-RAY DIFFRACTION 136 0.988 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 250 256 1ulu-a1-m1-cA_1ulu-a1-m1-cB 1ulu-a1-m1-cC_1ulu-a1-m1-cD 2wyu-a1-m1-cD_2wyu-a1-m1-cC 2wyv-a1-m1-cB_2wyv-a1-m1-cA 2wyv-a1-m1-cC_2wyv-a1-m1-cD 2wyw-a1-m1-cB_2wyw-a1-m1-cC 2wyw-a1-m1-cD_2wyw-a1-m1-cA 2yw9-a1-m1-cA_2yw9-a1-m1-cC 2yw9-a1-m1-cD_2yw9-a1-m1-cB 2yw9-a2-m1-cE_2yw9-a2-m1-cG 2yw9-a2-m1-cF_2yw9-a2-m1-cH MLTVDLSGKKALVMGVTNQRSLGFAIAAKLKEAGAEVALSYQAERLRPEAEKLAEALGGALLFRADVTQDEELDALFAGVKEAFGGLDYLVHAIAFAPREAMEGRYIDTRRQDWLLALEVSAYSLVAVARRAEPLLREGGGIVTLTYYASEKVVPKYNVMAIAKAALEASVRYLAYELGPKGVRVNAISAGPVRFTKMYDRVAQTAPLRRNITQEEVGNLGLFLLSPLASGITGEVVYVDAGYHIMGMEL MLTVDLSGKKALVMGVTNQRSLGFAIAAKLKEAGAEVALSYQAERLRPEAEKLAEALGGALLFRADVTQDEELDALFAGVKEAFGGLDYLVHAIAFAPREAMEGRYIDTRRQDWLLALEVSAYSLVAVARRAEPLLREGGGIVTLTYYASEKVVPKYNVMAIAKAALEASVRYLAYELGPKGVRVNAISAGPVRTVAARSIPGFTKMYDRVAQTAPLRRNITQEEVGNLGLFLLSPLASGITGEVVYVDAGYHIMG 2wyu-a1-m1-cD_2wyu-a1-m1-cA High resolution structure of Thermus thermophilus enoyl-acyl carrier protein reductase apo-form Q5SLI9 Q5SLI9 1.5 X-RAY DIFFRACTION 28 0.988 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 245 256 1ulu-a1-m1-cA_1ulu-a1-m1-cD 1ulu-a1-m1-cC_1ulu-a1-m1-cB 2wyu-a1-m1-cB_2wyu-a1-m1-cC 2wyv-a1-m1-cB_2wyv-a1-m1-cD 2wyv-a1-m1-cC_2wyv-a1-m1-cA 2wyw-a1-m1-cB_2wyw-a1-m1-cD 2wyw-a1-m1-cC_2wyw-a1-m1-cA 2yw9-a1-m1-cA_2yw9-a1-m1-cD 2yw9-a1-m1-cC_2yw9-a1-m1-cB 2yw9-a2-m1-cE_2yw9-a2-m1-cH 2yw9-a2-m1-cF_2yw9-a2-m1-cG MLTVDLSGKKALVMGVTNQRSLGFAIAAKLKEAGAEVALSYQAERLRPEAEKLAEALGGALLFRADVTQDEELDALFAGVKEAFGGLDYLVHAIAFAPREAMEGRYIDTRRQDWLLALEVSAYSLVAVARRAEPLLREGGGIVTLTYYASEKVVPKYNVMAIAKAALEASVRYLAYELGPKGVRVNAISAGPVYDRVAQTAPLRRNITQEEVGNLGLFLLSPLASGITGEVVYVDAGYHIMGMEL MLTVDLSGKKALVMGVTNQRSLGFAIAAKLKEAGAEVALSYQAERLRPEAEKLAEALGGALLFRADVTQDEELDALFAGVKEAFGGLDYLVHAIAFAPREAMEGRYIDTRRQDWLLALEVSAYSLVAVARRAEPLLREGGGIVTLTYYASEKVVPKYNVMAIAKAALEASVRYLAYELGPKGVRVNAISAGPVRTVAARSIPGFTKMYDRVAQTAPLRRNITQEEVGNLGLFLLSPLASGITGEVVYVDAGYHIMG 2wz1-a1-m1-cB_2wz1-a1-m1-cA STRUCTURE OF THE CATALYTIC DOMAIN OF HUMAN SOLUBLE GUANYLATE CYCLASE 1 BETA 3. Q02153 Q02153 1.63 X-RAY DIFFRACTION 119 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 196 197 VPAKRYDNVTILFSGIVGFNAFCSKHASEGAMKIVNLLNDLYTRFDTLTDSRKNPFVYKVETVGDKYMTVSGLPEPCIHHARSICHLALDMMEIAGQVQVDGESVQITIGIHTGEVVTGVIGQRMPRYCLFGNTVNLTSRTETTGEKGKINVSEYTYRCLMSPENSDPQFHLEHRGPVSMKGKKEPMQVWFLSRKN VPAKRYDNVTILFSGIVGFNAFCSKHASGAMKIVNLLNDLYTRFDTLTDSRKNPFVYKVETVGDKYMTVSGLPEPCIHHARSICHLALDMMEIAGQVQVDGESVQITIGIHTGEVVTGVIGQRMPRYCLFGNTVNLTSRTETTGEKGKINVSEYTYRCLMSPENSDPQFHLEHRGPVSMKGKKEPMQVWFLSRKNTG 2wzi-a1-m1-cB_2wzi-a1-m1-cA BtGH84 D243N in complex with 5F-oxazoline Q89ZI2 Q89ZI2 1.9 X-RAY DIFFRACTION 42 0.997 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 636 640 2xj7-a1-m1-cB_2xj7-a1-m1-cA NVSLQPPPQQLIVQNKTIDLPAVYQLNGGEEANPHAVKVLKELLGMLISIGEKGDKSVRKYSRQIPDHKEGYYLSVNEKEIVLAGNDERGTYYALQTFAQLLKDGKLPEVEIKDYPSVRYRGVVEGFYGTPWSHQARLSQLKFYGKNKMNTYIYGPKDDPYHSAPNWRLPYPDKEAAQLQELVAVANENEVDFVWAIHPGQDIKWNKEDRDLLLAKFEKMYQLGVRSFAVFFDNISGEGTNPQKQAELLNYIDEKFAQVKPDINQLVMCPTEYNKSWSNPNGNYLTTLGDKLNPSIQIMWTGDRVISDITRDGISWINERIKRPAYIWWNFPVSDYVRDHLLLGPVYGNDTTIAKEMSGFVTNPMEHAESSKIAIYSVASYAWNPAKYDTWQTWKDAIRTILPSAAEELECFAMHNSDLGPNGHGYRREESMDIQPAAERFLKAFKEGKNYDKADFETLQYTFERMKESADILLMNTENKPLIVEITPWVHQFKLTAEMGEEVLKMVEGRNESYFLRKYNHVKALQQQMFYIDQTSNQNPYQPGVKTATRVIKPLIDRTFATVVKFFNQKFNAHLDATTDYMPHKMLPLQVKANRVLISPEIELDAIYPGENIQINSAGLQKAPVKFVQFVLTIEK SLQPPPQQLIVQNKTIDLPAVYQLNGGEEANPHAVKVLKELLSKGMLISIGEKGDKSVRKYSRQIPDHKEGYYLSVNEKEIVLAGNDERGTYYALQTFAQLLKDGKLPEVEIKDYPSVRYRGVVEGFYGTPWSHQARLSQLKFYGKNKMNTYIYGPKDDPYHSAPNWRLPYPDKEAAQLQELVAVANENEVDFVWAIHPGQDIKWNKEDRDLLLAKFEKMYQLGVRSFAVFFDNISGEGTNPQKQAELLNYIDEKFAQVKPDINQLVMCPTEYNKSWSNPNGNYLTTLGDKLNPSIQIMWTGDRVISDITRDGISWINERIKRPAYIWWNFPVSDYVRDHLLLGPVYGNDTTIAKEMSGFVTNPMEHAESSKIAIYSVASYAWNPAKYDTWQTWKDAIRTILPSAAEELECFAMHNSDLGPNGHGYRREESMDIQPAAERFLKAFKEGKNYDKADFETLQYTFERMKESADILLMNTENKPLIVEITPWVHQFKLTAEMGEEVLKMVEGRNESYFLRKYNHVKALQQQMFYIDQTSNQNPYQPGVKTATRVIKPLIDRTFATVVKFFNQKFNAHLDATTDYMPHKMLPLQVKANRVLISPEIELDAIYPGENIQINRLSAGLQKAPVKFVRFQFVLTIEK 2wzj-a3-m1-cB_2wzj-a3-m1-cC Catalytic and UBA domain of kinase MARK2/(Par-1) K82R, T208E double mutant O08679 O08679 2.786 X-RAY DIFFRACTION 131 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 310 310 1zmu-a1-m1-cA_1zmu-a1-m1-cB 1zmv-a1-m1-cA_1zmv-a1-m1-cB 1zmw-a1-m1-cA_1zmw-a1-m1-cB 2wzj-a1-m1-cE_2wzj-a1-m1-cD 2wzj-a2-m1-cA_2wzj-a2-m1-cF HIGNYRLLKTIAKVKLARHILTGKEVAVRIIDKTQLNSSSLQKLFREVRIMKVLNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKFIVHRDLKAENLLLDADMNIKIADFGFSNEFTFGNKLDEFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKFLILNPSKRGTLEQIMKDRWMNVGHEDDELKPYVEPLPDYKDPRRTELMVSMGYTREEIQDSLVGQRYNEVMATYLLLGY HIGNYRLLKTIAKVKLARHILTGKEVAVRIIDKTQLNSSSLQKLFREVRIMKVLNHPNIVKLFEVIETEKTLYLVMEYASGGEVFDYLVAHGRMKEKEARAKFRQIVSAVQYCHQKFIVHRDLKAENLLLDADMNIKIADFGFSNEFTFGNKLDEFCGSPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKKFLILNPSKRGTLEQIMKDRWMNVGHEDDELKPYVEPLPDYKDPRRTELMVSMGYTREEIQDSLVGQRYNEVMATYLLLGY 2wzo-a1-m1-cA_2wzo-a1-m2-cA The structure of the FYR domain Q3YBR2 Q3YBR2 1.6 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 GRPVFPIGLGGLTVYSLGEIITDRPGFHDESAIYPVGYCSTRIYASMKCPDQKCLYTCQIKDGGVQPQFEIVPEDDPQNAIVSSSADACHAELLRTISTTMGKLMPNLLPAGADFFGFSHPAIHNLIQSCPGARKCINYQWVKFDV GRPVFPIGLGGLTVYSLGEIITDRPGFHDESAIYPVGYCSTRIYASMKCPDQKCLYTCQIKDGGVQPQFEIVPEDDPQNAIVSSSADACHAELLRTISTTMGKLMPNLLPAGADFFGFSHPAIHNLIQSCPGARKCINYQWVKFDV 2wzp-a1-m1-cE_2wzp-a1-m3-cK Structures of Lactococcal Phage p2 Baseplate Shed Light on a Novel Mechanism of Host Attachment and Activation in Siphoviridae 2.6 X-RAY DIFFRACTION 15 1.0 9844 (Lama glama) 9844 (Lama glama) 122 122 2wzp-a1-m1-cK_2wzp-a1-m2-cE 2wzp-a1-m2-cK_2wzp-a1-m3-cE VQLQESGGGLVQAGGSLRLSCTASRRTGSNWCMGWFRQLAGKEPELVVALNFDYDMTYYADSVKGRFTVSRDSGKNTVYLQMNSLKPEDTAIYYCAARSGGFSSNRELYDGWGQGTQVTVSS VQLQESGGGLVQAGGSLRLSCTASRRTGSNWCMGWFRQLAGKEPELVVALNFDYDMTYYADSVKGRFTVSRDSGKNTVYLQMNSLKPEDTAIYYCAARSGGFSSNRELYDGWGQGTQVTVSS 2wzr-a1-m55-c2_2wzr-a1-m9-c2 The Structure of Foot and Mouth Disease Virus Serotype SAT1 Q6PMU1 Q6PMU1 3 X-RAY DIFFRACTION 46 1.0 12122 (Foot-and-mouth disease virus SAT 1) 12122 (Foot-and-mouth disease virus SAT 1) 207 207 2wzr-a1-m10-c2_2wzr-a1-m24-c2 2wzr-a1-m11-c2_2wzr-a1-m16-c2 2wzr-a1-m12-c2_2wzr-a1-m38-c2 2wzr-a1-m13-c2_2wzr-a1-m47-c2 2wzr-a1-m14-c2_2wzr-a1-m45-c2 2wzr-a1-m15-c2_2wzr-a1-m29-c2 2wzr-a1-m17-c2_2wzr-a1-m28-c2 2wzr-a1-m18-c2_2wzr-a1-m52-c2 2wzr-a1-m19-c2_2wzr-a1-m60-c2 2wzr-a1-m1-c2_2wzr-a1-m6-c2 2wzr-a1-m20-c2_2wzr-a1-m39-c2 2wzr-a1-m21-c2_2wzr-a1-m26-c2 2wzr-a1-m22-c2_2wzr-a1-m43-c2 2wzr-a1-m25-c2_2wzr-a1-m54-c2 2wzr-a1-m27-c2_2wzr-a1-m53-c2 2wzr-a1-m2-c2_2wzr-a1-m23-c2 2wzr-a1-m30-c2_2wzr-a1-m44-c2 2wzr-a1-m31-c2_2wzr-a1-m36-c2 2wzr-a1-m32-c2_2wzr-a1-m58-c2 2wzr-a1-m33-c2_2wzr-a1-m7-c2 2wzr-a1-m34-c2_2wzr-a1-m5-c2 2wzr-a1-m35-c2_2wzr-a1-m49-c2 2wzr-a1-m37-c2_2wzr-a1-m48-c2 2wzr-a1-m3-c2_2wzr-a1-m42-c2 2wzr-a1-m40-c2_2wzr-a1-m59-c2 2wzr-a1-m41-c2_2wzr-a1-m46-c2 2wzr-a1-m4-c2_2wzr-a1-m50-c2 2wzr-a1-m51-c2_2wzr-a1-m56-c2 2wzr-a1-m57-c2_2wzr-a1-m8-c2 RIVTTSHGTTTSTTQSSVGVTYGYALTDKFLPGPNTNGLETRVEQAERFFKHKLFDWTLDQQFGTTYVLELPTDHKGIYGQLVDSHAYIRNGWDVQVSATATQFNGGCLLVAMVPELCKLDDREKYQLTLFPHQFLNPRTNTTAHIQVPYLGVDRHDQGTRHKAWTLVVMVLAPYTNDQTIGSTKAEVYVNIAPTNVYVAGEKPVKQ RIVTTSHGTTTSTTQSSVGVTYGYALTDKFLPGPNTNGLETRVEQAERFFKHKLFDWTLDQQFGTTYVLELPTDHKGIYGQLVDSHAYIRNGWDVQVSATATQFNGGCLLVAMVPELCKLDDREKYQLTLFPHQFLNPRTNTTAHIQVPYLGVDRHDQGTRHKAWTLVVMVLAPYTNDQTIGSTKAEVYVNIAPTNVYVAGEKPVKQ 2wzr-a1-m7-c3_2wzr-a1-m9-c3 The Structure of Foot and Mouth Disease Virus Serotype SAT1 Q6PMU1 Q6PMU1 3 X-RAY DIFFRACTION 15 1.0 12122 (Foot-and-mouth disease virus SAT 1) 12122 (Foot-and-mouth disease virus SAT 1) 221 221 2wzr-a1-m10-c3_2wzr-a1-m7-c3 2wzr-a1-m10-c3_2wzr-a1-m8-c3 2wzr-a1-m11-c3_2wzr-a1-m13-c3 2wzr-a1-m11-c3_2wzr-a1-m14-c3 2wzr-a1-m12-c3_2wzr-a1-m14-c3 2wzr-a1-m12-c3_2wzr-a1-m15-c3 2wzr-a1-m13-c3_2wzr-a1-m15-c3 2wzr-a1-m16-c3_2wzr-a1-m18-c3 2wzr-a1-m16-c3_2wzr-a1-m19-c3 2wzr-a1-m17-c3_2wzr-a1-m19-c3 2wzr-a1-m17-c3_2wzr-a1-m20-c3 2wzr-a1-m18-c3_2wzr-a1-m20-c3 2wzr-a1-m1-c3_2wzr-a1-m3-c3 2wzr-a1-m1-c3_2wzr-a1-m4-c3 2wzr-a1-m21-c3_2wzr-a1-m23-c3 2wzr-a1-m21-c3_2wzr-a1-m24-c3 2wzr-a1-m22-c3_2wzr-a1-m24-c3 2wzr-a1-m22-c3_2wzr-a1-m25-c3 2wzr-a1-m23-c3_2wzr-a1-m25-c3 2wzr-a1-m26-c3_2wzr-a1-m28-c3 2wzr-a1-m26-c3_2wzr-a1-m29-c3 2wzr-a1-m27-c3_2wzr-a1-m29-c3 2wzr-a1-m27-c3_2wzr-a1-m30-c3 2wzr-a1-m28-c3_2wzr-a1-m30-c3 2wzr-a1-m2-c3_2wzr-a1-m4-c3 2wzr-a1-m2-c3_2wzr-a1-m5-c3 2wzr-a1-m31-c3_2wzr-a1-m33-c3 2wzr-a1-m31-c3_2wzr-a1-m34-c3 2wzr-a1-m32-c3_2wzr-a1-m34-c3 2wzr-a1-m32-c3_2wzr-a1-m35-c3 2wzr-a1-m33-c3_2wzr-a1-m35-c3 2wzr-a1-m36-c3_2wzr-a1-m38-c3 2wzr-a1-m36-c3_2wzr-a1-m39-c3 2wzr-a1-m37-c3_2wzr-a1-m39-c3 2wzr-a1-m37-c3_2wzr-a1-m40-c3 2wzr-a1-m38-c3_2wzr-a1-m40-c3 2wzr-a1-m3-c3_2wzr-a1-m5-c3 2wzr-a1-m41-c3_2wzr-a1-m43-c3 2wzr-a1-m41-c3_2wzr-a1-m44-c3 2wzr-a1-m42-c3_2wzr-a1-m44-c3 2wzr-a1-m42-c3_2wzr-a1-m45-c3 2wzr-a1-m43-c3_2wzr-a1-m45-c3 2wzr-a1-m46-c3_2wzr-a1-m48-c3 2wzr-a1-m46-c3_2wzr-a1-m49-c3 2wzr-a1-m47-c3_2wzr-a1-m49-c3 2wzr-a1-m47-c3_2wzr-a1-m50-c3 2wzr-a1-m48-c3_2wzr-a1-m50-c3 2wzr-a1-m51-c3_2wzr-a1-m53-c3 2wzr-a1-m51-c3_2wzr-a1-m54-c3 2wzr-a1-m52-c3_2wzr-a1-m54-c3 2wzr-a1-m52-c3_2wzr-a1-m55-c3 2wzr-a1-m53-c3_2wzr-a1-m55-c3 2wzr-a1-m56-c3_2wzr-a1-m58-c3 2wzr-a1-m56-c3_2wzr-a1-m59-c3 2wzr-a1-m57-c3_2wzr-a1-m59-c3 2wzr-a1-m57-c3_2wzr-a1-m60-c3 2wzr-a1-m58-c3_2wzr-a1-m60-c3 2wzr-a1-m6-c3_2wzr-a1-m8-c3 2wzr-a1-m6-c3_2wzr-a1-m9-c3 GILPVAVSDGYGGFQNTDPKTSDPVYGHVYNPARTLYPGRFTNLLDVAEACPTLLDFNGVPYVQTQSNSGSKVLACFDLAFGHKNMKNTYMSGLAQYFAQYSGTLNLHFMYTGPTNNKAKYMVAYIPPGTHPLPETPEMASHCYHAEWDTGLNSTFTFTVPYFSAADYAYTYADEPEQASVQGWVGVYQITDTHEKDGAVIVTVSAGPDFEFRMPISPSRQ GILPVAVSDGYGGFQNTDPKTSDPVYGHVYNPARTLYPGRFTNLLDVAEACPTLLDFNGVPYVQTQSNSGSKVLACFDLAFGHKNMKNTYMSGLAQYFAQYSGTLNLHFMYTGPTNNKAKYMVAYIPPGTHPLPETPEMASHCYHAEWDTGLNSTFTFTVPYFSAADYAYTYADEPEQASVQGWVGVYQITDTHEKDGAVIVTVSAGPDFEFRMPISPSRQ 2wzr-a1-m8-c1_2wzr-a1-m9-c1 The Structure of Foot and Mouth Disease Virus Serotype SAT1 Q6PMU1 Q6PMU1 3 X-RAY DIFFRACTION 41 1.0 12122 (Foot-and-mouth disease virus SAT 1) 12122 (Foot-and-mouth disease virus SAT 1) 192 192 2wzr-a1-m10-c1_2wzr-a1-m6-c1 2wzr-a1-m10-c1_2wzr-a1-m9-c1 2wzr-a1-m11-c1_2wzr-a1-m12-c1 2wzr-a1-m11-c1_2wzr-a1-m15-c1 2wzr-a1-m12-c1_2wzr-a1-m13-c1 2wzr-a1-m13-c1_2wzr-a1-m14-c1 2wzr-a1-m14-c1_2wzr-a1-m15-c1 2wzr-a1-m16-c1_2wzr-a1-m17-c1 2wzr-a1-m16-c1_2wzr-a1-m20-c1 2wzr-a1-m17-c1_2wzr-a1-m18-c1 2wzr-a1-m18-c1_2wzr-a1-m19-c1 2wzr-a1-m19-c1_2wzr-a1-m20-c1 2wzr-a1-m1-c1_2wzr-a1-m2-c1 2wzr-a1-m1-c1_2wzr-a1-m5-c1 2wzr-a1-m21-c1_2wzr-a1-m22-c1 2wzr-a1-m21-c1_2wzr-a1-m25-c1 2wzr-a1-m22-c1_2wzr-a1-m23-c1 2wzr-a1-m23-c1_2wzr-a1-m24-c1 2wzr-a1-m24-c1_2wzr-a1-m25-c1 2wzr-a1-m26-c1_2wzr-a1-m27-c1 2wzr-a1-m26-c1_2wzr-a1-m30-c1 2wzr-a1-m27-c1_2wzr-a1-m28-c1 2wzr-a1-m28-c1_2wzr-a1-m29-c1 2wzr-a1-m29-c1_2wzr-a1-m30-c1 2wzr-a1-m2-c1_2wzr-a1-m3-c1 2wzr-a1-m31-c1_2wzr-a1-m32-c1 2wzr-a1-m31-c1_2wzr-a1-m35-c1 2wzr-a1-m32-c1_2wzr-a1-m33-c1 2wzr-a1-m33-c1_2wzr-a1-m34-c1 2wzr-a1-m34-c1_2wzr-a1-m35-c1 2wzr-a1-m36-c1_2wzr-a1-m37-c1 2wzr-a1-m36-c1_2wzr-a1-m40-c1 2wzr-a1-m37-c1_2wzr-a1-m38-c1 2wzr-a1-m38-c1_2wzr-a1-m39-c1 2wzr-a1-m39-c1_2wzr-a1-m40-c1 2wzr-a1-m3-c1_2wzr-a1-m4-c1 2wzr-a1-m41-c1_2wzr-a1-m42-c1 2wzr-a1-m41-c1_2wzr-a1-m45-c1 2wzr-a1-m42-c1_2wzr-a1-m43-c1 2wzr-a1-m43-c1_2wzr-a1-m44-c1 2wzr-a1-m44-c1_2wzr-a1-m45-c1 2wzr-a1-m46-c1_2wzr-a1-m47-c1 2wzr-a1-m46-c1_2wzr-a1-m50-c1 2wzr-a1-m47-c1_2wzr-a1-m48-c1 2wzr-a1-m48-c1_2wzr-a1-m49-c1 2wzr-a1-m49-c1_2wzr-a1-m50-c1 2wzr-a1-m4-c1_2wzr-a1-m5-c1 2wzr-a1-m51-c1_2wzr-a1-m52-c1 2wzr-a1-m51-c1_2wzr-a1-m55-c1 2wzr-a1-m52-c1_2wzr-a1-m53-c1 2wzr-a1-m53-c1_2wzr-a1-m54-c1 2wzr-a1-m54-c1_2wzr-a1-m55-c1 2wzr-a1-m56-c1_2wzr-a1-m57-c1 2wzr-a1-m56-c1_2wzr-a1-m60-c1 2wzr-a1-m57-c1_2wzr-a1-m58-c1 2wzr-a1-m58-c1_2wzr-a1-m59-c1 2wzr-a1-m59-c1_2wzr-a1-m60-c1 2wzr-a1-m6-c1_2wzr-a1-m7-c1 2wzr-a1-m7-c1_2wzr-a1-m8-c1 TTSAGEGADPVTTDASAHGGDTRTTRRAHTDVTFLLDRFTLVGKTNDNKLVLDLLSTKEKSLVGALLRAATYYFSDLEVACVGTNAWVGWTPNGSPVLTEVGDNPVVFSRRGTTRFALPYTAPHRVLATVYNGDCKYKPIPTTFNYGMIYTQAEVDVYLRMKRAELYCPRPVLTHYDHNGRDRYKTTLVKPA TTSAGEGADPVTTDASAHGGDTRTTRRAHTDVTFLLDRFTLVGKTNDNKLVLDLLSTKEKSLVGALLRAATYYFSDLEVACVGTNAWVGWTPNGSPVLTEVGDNPVVFSRRGTTRFALPYTAPHRVLATVYNGDCKYKPIPTTFNYGMIYTQAEVDVYLRMKRAELYCPRPVLTHYDHNGRDRYKTTLVKPA 2wzr-a1-m8-c3_2wzr-a1-m9-c3 The Structure of Foot and Mouth Disease Virus Serotype SAT1 Q6PMU1 Q6PMU1 3 X-RAY DIFFRACTION 47 1.0 12122 (Foot-and-mouth disease virus SAT 1) 12122 (Foot-and-mouth disease virus SAT 1) 221 221 2wzr-a1-m10-c3_2wzr-a1-m6-c3 2wzr-a1-m10-c3_2wzr-a1-m9-c3 2wzr-a1-m11-c3_2wzr-a1-m12-c3 2wzr-a1-m11-c3_2wzr-a1-m15-c3 2wzr-a1-m12-c3_2wzr-a1-m13-c3 2wzr-a1-m13-c3_2wzr-a1-m14-c3 2wzr-a1-m14-c3_2wzr-a1-m15-c3 2wzr-a1-m16-c3_2wzr-a1-m17-c3 2wzr-a1-m16-c3_2wzr-a1-m20-c3 2wzr-a1-m17-c3_2wzr-a1-m18-c3 2wzr-a1-m18-c3_2wzr-a1-m19-c3 2wzr-a1-m19-c3_2wzr-a1-m20-c3 2wzr-a1-m1-c3_2wzr-a1-m2-c3 2wzr-a1-m1-c3_2wzr-a1-m5-c3 2wzr-a1-m21-c3_2wzr-a1-m22-c3 2wzr-a1-m21-c3_2wzr-a1-m25-c3 2wzr-a1-m22-c3_2wzr-a1-m23-c3 2wzr-a1-m23-c3_2wzr-a1-m24-c3 2wzr-a1-m24-c3_2wzr-a1-m25-c3 2wzr-a1-m26-c3_2wzr-a1-m27-c3 2wzr-a1-m26-c3_2wzr-a1-m30-c3 2wzr-a1-m27-c3_2wzr-a1-m28-c3 2wzr-a1-m28-c3_2wzr-a1-m29-c3 2wzr-a1-m29-c3_2wzr-a1-m30-c3 2wzr-a1-m2-c3_2wzr-a1-m3-c3 2wzr-a1-m31-c3_2wzr-a1-m32-c3 2wzr-a1-m31-c3_2wzr-a1-m35-c3 2wzr-a1-m32-c3_2wzr-a1-m33-c3 2wzr-a1-m33-c3_2wzr-a1-m34-c3 2wzr-a1-m34-c3_2wzr-a1-m35-c3 2wzr-a1-m36-c3_2wzr-a1-m37-c3 2wzr-a1-m36-c3_2wzr-a1-m40-c3 2wzr-a1-m37-c3_2wzr-a1-m38-c3 2wzr-a1-m38-c3_2wzr-a1-m39-c3 2wzr-a1-m39-c3_2wzr-a1-m40-c3 2wzr-a1-m3-c3_2wzr-a1-m4-c3 2wzr-a1-m41-c3_2wzr-a1-m42-c3 2wzr-a1-m41-c3_2wzr-a1-m45-c3 2wzr-a1-m42-c3_2wzr-a1-m43-c3 2wzr-a1-m43-c3_2wzr-a1-m44-c3 2wzr-a1-m44-c3_2wzr-a1-m45-c3 2wzr-a1-m46-c3_2wzr-a1-m47-c3 2wzr-a1-m46-c3_2wzr-a1-m50-c3 2wzr-a1-m47-c3_2wzr-a1-m48-c3 2wzr-a1-m48-c3_2wzr-a1-m49-c3 2wzr-a1-m49-c3_2wzr-a1-m50-c3 2wzr-a1-m4-c3_2wzr-a1-m5-c3 2wzr-a1-m51-c3_2wzr-a1-m52-c3 2wzr-a1-m51-c3_2wzr-a1-m55-c3 2wzr-a1-m52-c3_2wzr-a1-m53-c3 2wzr-a1-m53-c3_2wzr-a1-m54-c3 2wzr-a1-m54-c3_2wzr-a1-m55-c3 2wzr-a1-m56-c3_2wzr-a1-m57-c3 2wzr-a1-m56-c3_2wzr-a1-m60-c3 2wzr-a1-m57-c3_2wzr-a1-m58-c3 2wzr-a1-m58-c3_2wzr-a1-m59-c3 2wzr-a1-m59-c3_2wzr-a1-m60-c3 2wzr-a1-m6-c3_2wzr-a1-m7-c3 2wzr-a1-m7-c3_2wzr-a1-m8-c3 GILPVAVSDGYGGFQNTDPKTSDPVYGHVYNPARTLYPGRFTNLLDVAEACPTLLDFNGVPYVQTQSNSGSKVLACFDLAFGHKNMKNTYMSGLAQYFAQYSGTLNLHFMYTGPTNNKAKYMVAYIPPGTHPLPETPEMASHCYHAEWDTGLNSTFTFTVPYFSAADYAYTYADEPEQASVQGWVGVYQITDTHEKDGAVIVTVSAGPDFEFRMPISPSRQ GILPVAVSDGYGGFQNTDPKTSDPVYGHVYNPARTLYPGRFTNLLDVAEACPTLLDFNGVPYVQTQSNSGSKVLACFDLAFGHKNMKNTYMSGLAQYFAQYSGTLNLHFMYTGPTNNKAKYMVAYIPPGTHPLPETPEMASHCYHAEWDTGLNSTFTFTVPYFSAADYAYTYADEPEQASVQGWVGVYQITDTHEKDGAVIVTVSAGPDFEFRMPISPSRQ 2wzt-a1-m1-cB_2wzt-a1-m1-cA Crystal structure of a mycobacterium aldo-keto reductase in its apo and liganded form A0QV09 A0QV09 1.9 X-RAY DIFFRACTION 84 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 258 260 IPTVTLNDDNTLPVVGIGVGELSDSEAERSVSAALEAGYRLIDTAAAYGNEAAVGRAIAASGIPRDEIYVTTKLATPDQGFTSSQAAARASLERLGLDYVDLYLIHWPGGDTSKYVDSWGGLMKVKEDGIARSIGVCNFGAEDLETIVSLTYFTPAVNQIELHPLLNQAALREVNAGYNIVTEAYGPLGVGRLLDHPAVTAIAEAHGRTAAQVLLRWSIQLGNVVISRSANPERIASNLDVFGFELTADEMETLNGLD AIPTVTLNDDNTLPVVGIGVGELSDSEAERSVSAALEAGYRLIDTAAAYGNEAAVGRAIAASGIPRDEIYVTTKLATPDQGFTSSQAAARASLERLGLDYVDLYLIHWPGGDTSKYVDSWGGLMKVKEDGIARSIGVCNFGAEDLETIVSLTYFTPAVNQIELHPLLNQAALREVNAGYNIVTEAYGPLGVGRLLDHPAVTAIAEAHGRTAAQVLLRWSIQLGNVVISRSANPERIASNLDVFGFELTADEMETLNGLDD 2wzv-a1-m1-cA_2wzv-a1-m1-cB Crystal structure of the FMN-dependent nitroreductase NfnB from Mycobacterium smegmatis A0R6D0 A0R6D0 1.75 X-RAY DIFFRACTION 265 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 216 217 2wzw-a1-m1-cA_2wzw-a1-m1-cB DLAQAAERLIKGRRAVRAFRPDEVPEETRAVFELAGHAPSNSNTQPWHVEVVSGAARDRLAEALVTAHAEERVTVDFPYREGLFQGVLQERRADFGSRLYAALGIARDQTDLLQGYNTESLRFYGAPHVALFAPNNTEARIAGDGIYAQTLLATAHGIASCPQALLSFYADTVRAELGVENRKLLGISFGYADDTAAVNGVRIPRAGLSETTRFSR VDLAQAAERLIKGRRAVRAFRPDEVPEETRAVFELAGHAPSNSNTQPWHVEVVSGAARDRLAEALVTAHAEERVTVDFPYREGLFQGVLQERRADFGSRLYAALGIARDQTDLLQGYNTESLRFYGAPHVALFAPNNTEARIAGDGIYAQTLLATAHGIASCPQALLSFYADTVRAELGVENRKLLGISFGYADDTAAVNGVRIPRAGLSETTRFSR 2x06-a4-m1-cA_2x06-a4-m1-cB SULFOLACTATE DEHYDROGENASE FROM METHANOCALDOCOCCUS JANNASCHII Q58820 Q58820 2.5 X-RAY DIFFRACTION 212 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 335 335 2x06-a1-m1-cG_2x06-a1-m1-cH 2x06-a2-m1-cE_2x06-a2-m1-cF 2x06-a3-m1-cC_2x06-a3-m1-cD ILKPENEKKLIIDVLKKFGVPEEDAKITADVFVDADLKGFTSHGIGRFPQYITALKLGNINPKPDIKIVKESPATAVIDGDLGLGQVVGKKAELAIKKAKNVGVGVVATRNANHFGIAGYYSELANQDIGITITNTEPAAPFGGKEKILGTNPIAIAFKGNKYKFSLDATASIARGKILEALRKKIKIPEGCAVDKDGKPTTDPAKALEGCILPFGGPKGYGLALAIELSAIGGAEVGTKVKGTANPEERCTKGDLFIAINPEFFGKEEFKRKVDELLDEIKNSEPAEGFEILIPGEIEERNKKRKDGFEIDKNLYNQLKEICNELGLNIEDYIE ILKPENEKKLIIDVLKKFGVPEEDAKITADVFVDADLKGFTSHGIGRFPQYITALKLGNINPKPDIKIVKESPATAVIDGDLGLGQVVGKKAELAIKKAKNVGVGVVATRNANHFGIAGYYSELANQDIGITITNTEPAAPFGGKEKILGTNPIAIAFKGNKYKFSLDATASIARGKILEALRKKIKIPEGCAVDKDGKPTTDPAKALEGCILPFGGPKGYGLALAIELSAIGGAEVGTKVKGTANPEERCTKGDLFIAINPEFFGKEEFKRKVDELLDEIKNSEPAEGFEILIPGEIEERNKKRKDGFEIDKNLYNQLKEICNELGLNIEDYIE 2x0d-a1-m1-cA_2x0d-a1-m1-cB APO structure of WsaF Q7BG50 Q7BG50 2.28 X-RAY DIFFRACTION 106 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 371 371 2x0e-a1-m1-cA_2x0e-a1-m1-cB 2x0f-a1-m1-cA_2x0f-a1-m1-cB FIETSIPEITPFNARTSSIKGKRLNLLVPSINQEHFGGISTALKLFEQFDNKKFKKRIILTDATPNPKDLQSFKSFKYVPEEDKDFALQIVPFNDRYNRTIPVAKHDIFIATAWWTAYAAQRIVSWQSDTYGIPPNKILYIIQDFEPGFYQWSSQYVLAESTYKYRGPQIAVFNSELLKQYFNNKGYNFTDEYFFQPKINTTLKNYINDKRQKEKIILVYGRPSVKRNAFTLIVEALKIFVQKYDRSNEWKIISVGEKHKDIALGKGIHLNSLGKLTLEDYADLLKRSSIGISLISPHPSYPPLEAHFGLRVITNKYENKDLSNWHSNIVSLEQLNPENIAETLVELCSFNESSNFYINEFSFIKEIEEKL FIETSIPEITPFNARTSSIKGKRLNLLVPSINQEHFGGISTALKLFEQFDNKKFKKRIILTDATPNPKDLQSFKSFKYVPEEDKDFALQIVPFNDRYNRTIPVAKHDIFIATAWWTAYAAQRIVSWQSDTYGIPPNKILYIIQDFEPGFYQWSSQYVLAESTYKYRGPQIAVFNSELLKQYFNNKGYNFTDEYFFQPKINTTLKNYINDKRQKEKIILVYGRPSVKRNAFTLIVEALKIFVQKYDRSNEWKIISVGEKHKDIALGKGIHLNSLGKLTLEDYADLLKRSSIGISLISPHPSYPPLEAHFGLRVITNKYENKDLSNWHSNIVSLEQLNPENIAETLVELCSFNESSNFYINEFSFIKEIEEKL 2x0j-a1-m2-cA_2x0j-a1-m1-cA 2.8 A RESOLUTION STRUCTURE OF MALATE DEHYDROGENASE FROM ARCHAEOGLOBUS FULGIDUS IN COMPLEX WITH ETHENO-NAD O08349 O08349 2.786 X-RAY DIFFRACTION 124 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 294 294 2x0i-a1-m2-cA_2x0i-a1-m1-cA MKLGFVGAGRVGSTSAFTCLLNLDVDEIALVDIAEDLAVGEAMDLAHAAAGIDKYPKIVGGADYSLLKGSEIIVVTAGLARKPGMTRLDLAHKNAGIIKDIAKKIVENAPESKILVVTNPMDVMTYIMWKESGKPRNEVFGMGNQLDSQRLKERLYNAGARNIRRAWIIGEHGDSMFVAKSLADFDGEVDWEAVENDVRFVAAEVIKRKGATIFGPAVAIYRMVKAVVEDTGEIIPTSMILQGEYGIENVAVGVPAKLGKNGAEVADIKLSDEEIEKLRNSAKILRERLEELGY MKLGFVGAGRVGSTSAFTCLLNLDVDEIALVDIAEDLAVGEAMDLAHAAAGIDKYPKIVGGADYSLLKGSEIIVVTAGLARKPGMTRLDLAHKNAGIIKDIAKKIVENAPESKILVVTNPMDVMTYIMWKESGKPRNEVFGMGNQLDSQRLKERLYNAGARNIRRAWIIGEHGDSMFVAKSLADFDGEVDWEAVENDVRFVAAEVIKRKGATIFGPAVAIYRMVKAVVEDTGEIIPTSMILQGEYGIENVAVGVPAKLGKNGAEVADIKLSDEEIEKLRNSAKILRERLEELGY 2x0p-a1-m1-cA_2x0p-a1-m2-cA CO-COMPLEX STRUCTURE OF ALCALIGIN BIOSYNTHETASE PROTEIN C (ALCC) WITH ADENOSINE FROM Bordetella bronchiseptica Q7W557 Q7W557 2.1 X-RAY DIFFRACTION 154 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 577 577 2x0o-a1-m1-cA_2x0o-a1-m2-cA 2x0q-a1-m1-cA_2x0q-a1-m2-cA PHPAEIVAHLQPEIWNKVNRLLVRKAISEYAHEWLLEPQRLGPGETPGFERFRLTLADGAQYDFDAQVMAMRHWRIPPESIVKTVAGVPAPLDALQFVIEIRDKLGLPVDRLPIYMDEITSTLHGSAYKHGRTTLGAAALARADYQTIETSMIEGHPSFVANNGRLGFDAEDYHGYAPEAATPVRLMWLAVHKDNAHFSCLSDMDYDSLMSEELGESAVTDFAARLREQGLHPADYYFMPAHPWQWFNKLSLAFAPYVAQRKIVCLGYGEEQYLAQQSIRTFFNISRPGKRYVKTSLSILNMGGLSPYYMAGTPAINEYIHDLISADPWLRANGFRILREVASMGFRNYYYEAAIDTDTPYKKMFSALWRENPLTLIAPGQNLMTMAALLHVDPQGRALLPELIQASGLDAGTWLERYVDAYLTPLIHCFYAHDLVFMPHGENVILVIQDGVPVRAFMKDIAEESSILNPQVRLPQAAQRLAADVPEAYKLLTIFVDVFEGYFRHLTQILVETELMPEHDFWRLVAGRIAAYQQAHPQRLDKYRRYDLFAPDMIHSCLNRLQLANAPNLPNPIACFR PHPAEIVAHLQPEIWNKVNRLLVRKAISEYAHEWLLEPQRLGPGETPGFERFRLTLADGAQYDFDAQVMAMRHWRIPPESIVKTVAGVPAPLDALQFVIEIRDKLGLPVDRLPIYMDEITSTLHGSAYKHGRTTLGAAALARADYQTIETSMIEGHPSFVANNGRLGFDAEDYHGYAPEAATPVRLMWLAVHKDNAHFSCLSDMDYDSLMSEELGESAVTDFAARLREQGLHPADYYFMPAHPWQWFNKLSLAFAPYVAQRKIVCLGYGEEQYLAQQSIRTFFNISRPGKRYVKTSLSILNMGGLSPYYMAGTPAINEYIHDLISADPWLRANGFRILREVASMGFRNYYYEAAIDTDTPYKKMFSALWRENPLTLIAPGQNLMTMAALLHVDPQGRALLPELIQASGLDAGTWLERYVDAYLTPLIHCFYAHDLVFMPHGENVILVIQDGVPVRAFMKDIAEESSILNPQVRLPQAAQRLAADVPEAYKLLTIFVDVFEGYFRHLTQILVETELMPEHDFWRLVAGRIAAYQQAHPQRLDKYRRYDLFAPDMIHSCLNRLQLANAPNLPNPIACFR 2x0s-a1-m1-cA_2x0s-a1-m2-cA 3.0 A RESOLUTION CRYSTAL STRUCTURE OF GLYCOSOMAL PYRUVATE PHOSPHATE DIKINASE FROM TRYPANOSOMA BRUCEI O76283 O76283 2.997 X-RAY DIFFRACTION 151 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 899 899 VAKKWVYYFGGGNADGNKNMKELLGGKGANLAEMVNLGIPVPPGFTITTEACKTYQETETIPQEVADQVRENVSRVEKEMGAKFGDPANPLLFSVRSGAAASMDTVLNLGLNKVTVDAWVRRAPRLERFVYDSYRRFITMYADIVMQVGREDFEEALSRMKERRGTKFDTDLTASDLKELCDGYLELFELKTGCSFPQDPVMQLFAAIKAVFRSWGNPRATIYRRMNNITGLLGTAVNVQAMVFGNINDRSATGVAFSRSPSTGENFFFGEYLVNAQGEDVVAGIRTPQQINHSLSLRWAKAHGVGEEERRKRYPSMEEAMPENYRLLCDVRKRLENHYRDMQDLEFTVQDGRLWLLQCRNGKRTIHAAVRIAIDMVNEGLISREEAVLRIDPYQVDHLMHPNLEPGAEKANKPIGRGLAASPGAAVGQVVFDAESAKEWSGRGKKVIMVRLETSPEDLAGMDAACGILTARGGMTSHAAVVARGMGKCCVSGCGDMVIRGKSFKLNGSVFREGDYITIDGSKGLIYAGKLKLRSPDLKGSFQTILQWCQEMKRLGVRTNADTPADAAKARSFGAEGVGLCRTEHMFFEGSRINFIREMILADSASGRKAALDKLLPIQRADFVGILRAMRGLPVTIRLLDPPLHEFVPHDAAAQFELAQKLGMPAEKVRNRVNALHELNPMLGHRGCRLGITYPEIYNMQVRAIIEAAIAVSEEGSSVIPEIMVPLVGKKEELSLIREEVVKTAEAVITKSGKRVHYTVGTMIEVPRAAVTADSIAQKADFFSFGTNDLTQMGCGFSRDDAGPFLRHYGNLGIYAQDPFQSIDQEGIGELVRIAVTKGRRVKPMLKMGICGEHGGDPATIGFCHKVGLDYVSCSPFRVPVAIVAAAHASIKDRRAAMK VAKKWVYYFGGGNADGNKNMKELLGGKGANLAEMVNLGIPVPPGFTITTEACKTYQETETIPQEVADQVRENVSRVEKEMGAKFGDPANPLLFSVRSGAAASMDTVLNLGLNKVTVDAWVRRAPRLERFVYDSYRRFITMYADIVMQVGREDFEEALSRMKERRGTKFDTDLTASDLKELCDGYLELFELKTGCSFPQDPVMQLFAAIKAVFRSWGNPRATIYRRMNNITGLLGTAVNVQAMVFGNINDRSATGVAFSRSPSTGENFFFGEYLVNAQGEDVVAGIRTPQQINHSLSLRWAKAHGVGEEERRKRYPSMEEAMPENYRLLCDVRKRLENHYRDMQDLEFTVQDGRLWLLQCRNGKRTIHAAVRIAIDMVNEGLISREEAVLRIDPYQVDHLMHPNLEPGAEKANKPIGRGLAASPGAAVGQVVFDAESAKEWSGRGKKVIMVRLETSPEDLAGMDAACGILTARGGMTSHAAVVARGMGKCCVSGCGDMVIRGKSFKLNGSVFREGDYITIDGSKGLIYAGKLKLRSPDLKGSFQTILQWCQEMKRLGVRTNADTPADAAKARSFGAEGVGLCRTEHMFFEGSRINFIREMILADSASGRKAALDKLLPIQRADFVGILRAMRGLPVTIRLLDPPLHEFVPHDAAAQFELAQKLGMPAEKVRNRVNALHELNPMLGHRGCRLGITYPEIYNMQVRAIIEAAIAVSEEGSSVIPEIMVPLVGKKEELSLIREEVVKTAEAVITKSGKRVHYTVGTMIEVPRAAVTADSIAQKADFFSFGTNDLTQMGCGFSRDDAGPFLRHYGNLGIYAQDPFQSIDQEGIGELVRIAVTKGRRVKPMLKMGICGEHGGDPATIGFCHKVGLDYVSCSPFRVPVAIVAAAHASIKDRRAAMK 2x1w-a1-m1-cA_2x1w-a1-m1-cB Crystal Structure of VEGF-C in Complex with Domains 2 and 3 of VEGFR2 P49767 P49767 2.7 X-RAY DIFFRACTION 76 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 2x1w-a2-m1-cC_2x1w-a2-m1-cD 2x1x-a1-m1-cE_2x1x-a1-m2-cE 4bsk-a1-m1-cC_4bsk-a1-m2-cC TEILKSIDNEWRKTQCMPREVAIDVGKEFGVATNTFFKPPCVSVYRCGGCCNSEGLQCMNTSTSYLSKTLFEITVPLSQGPKPVTISFANHTSCRCMS EILKSIDNEWRKTQCMPREVAIDVGKEFGVATNTFFKPPCVSVYRCGGCCNSEGLQCMNTSTSYLSKTLFEITVPLSQGPKPVTISFANHTSCRCMSK 2x24-a1-m1-cA_2x24-a1-m1-cB bovine ACC2 CT domain in complex with inhibitor 2.4 X-RAY DIFFRACTION 401 0.998 9913 (Bos taurus) 9913 (Bos taurus) 654 667 LQAKRFQAQSLGTTYVYDFPEMFRQALFKMWPSPDKYPKDILTYTELVLDPQGQLVEMNRLPGGNEVGMVAFKMTLKTLEYPEGRDIILISNDITFRIGSFGPGEDLLYLRASELARAEGIPRVYLAANSGARIGLAEEIKHMFQVAWVDPEDPHKGIKYLYLTPQDYTRISSLNSVHCKHVEEDGESRYVITDIIGKEEGLGVENLRGSGMIAGETSQDYDEIVTISMVSCRALGIGAYLVRLGQRVIQVENSHIILTGATALNKVLGRDVYTSNNQLGGVQIMHHNGVSHVTVPDDFEGVCTILEWLSYMPKDNRSPVPVVTPKDPIDREIEFQPSRGPYDPRWLLAGRPHPTLKGSWQSGFFDQGSFKEIMVPWAQTVVTGRARLGGIPVGVIAAETRTVELVVPADPANLDSEAKIIQQAGQVWFPDSAYKTAQAIKDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRKYRQPVLIYIPPYAEVRGGSWAVMDTSINPLCIEMYADRESRASVLEPEGTVEIKYQKKDLVKTIRRLDPISKQLKAREDLLLPMYHQVALHFADLHDTAGRMLEKGVIYDILEWKTARSFLYWRLRRLLLESQVKQVQSMLRRWFVETEGAVKAYLWDNNQTVVQWLEAHG LLQAKRFQAQSLGTTYVYDFPEMFRQALFKMWPSPDKYPKDILTYTELVLDPQGQLVEMNRLPGGNEVGMVAFKMTLKTLEYPEGRDIILISNDITFRIGSFGPGEDLLYLRASELARAEGIPRVYLAANSGARIGLAEEIKHMFQVAWVDPEDPHKGIKYLYLTPQDYTRISSLNSVHCKHVEEDGESRYVITDIIGKEEGLGVENLRGSGMIAGETSQDYDEIVTISMVSCRALGIGAYLVRLGQRVIQVENSHIILTGATALNKVLGRDVYTSNNQLGGVQIMHHNGVSHVTVPDDFEGVCTILEWLSYMPKDNRSPVPVVTPKDPIDREIEFQPSRGPYDPRWLLAGRPHPTLKGSWQSGFFDQGSFKEIMVPWAQTVVTGRARLGGIPVGVIAAETRTVELVVPADPANLDSEAKIIQQAGQVWFPDSAYKTAQAIKDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRKYRQPVLIYIPPYAEVRGGSWAVMDTSINPLCIEMYADRESRASVLEPEGTVEIKYQKKDLVKTIRRLDPISKQLKAREDLLLPMYHQVALHFADLHDTAGRMLEKGVIYDILEWKTARSFLYWRLRRLLLESQVKQEVLRACPELSHMHVQSMLRRWFVETEGAVKAYLWDNNQTVVQWLEAH 2x28-a2-m1-cA_2x28-a2-m2-cA cadmium bound structure of SporoSAG Q6RUA7 Q6RUA7 2.15 X-RAY DIFFRACTION 72 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 219 219 TSCETEGSSISFTVEKAGHVVRFNCPSTLEEIKPAYEAGDSTKVCTTADCSNEAALKDVLKSASLAQAEGSSGGNDFTLTVDALPEAETSVFFLCQRTGADKCGVHILVKAAPQAPVCSAQDHTLELQITAANSDTSFVCGGTFNVIKPANAAKVLQDSCETEVDLVSLVPHASRSALEQSGLIKLSVTDLPQQQQKLCYRCEDSSQKACKVLVTVSAS TSCETEGSSISFTVEKAGHVVRFNCPSTLEEIKPAYEAGDSTKVCTTADCSNEAALKDVLKSASLAQAEGSSGGNDFTLTVDALPEAETSVFFLCQRTGADKCGVHILVKAAPQAPVCSAQDHTLELQITAANSDTSFVCGGTFNVIKPANAAKVLQDSCETEVDLVSLVPHASRSALEQSGLIKLSVTDLPQQQQKLCYRCEDSSQKACKVLVTVSAS 2x2a-a1-m1-cB_2x2a-a1-m1-cA Free acetyl-CypA trigonal form P62937 P62937 1.4 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 164 VNPTVFFDIAVDGEPLGRVSFELFADKVPKTAENFRALSTGEKGFGYKGSCFHRIIPGFMCQGGDFTRHNGTGGKSIYGEKFEDENFILKHTGPGILSMANAGPNTNGSQFFICTAKTKWLDGHVVFGKVKEGMNIVEAMERFGSRNGKTSKKITIADCGQLE MVNPTVFFDIAVDGEPLGRVSFELFADKVPKTAENFRALSTGEKGFGYKGSCFHRIIPGFMCQGGDFTRHNGTGGKSIYGEKFEDENFILKHTGPGILSMANAGPNTNGSQFFICTAKTKWLDGHVVFGKVKEGMNIVEAMERFGSRNGKTSKKITIADCGQLE 2x2b-a1-m1-cA_2x2b-a1-m2-cA Crystal structure of malonyl-ACP (acyl carrier protein) from Bacillus subtilis P80643 P80643 2.69 X-RAY DIFFRACTION 37 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 76 76 MADTLERVTKIIVDRLGVDEADVKLEASFKEDLGADSLDVVELVMELEDEFDMEISDEDAEKIATVGDAVNYIQNQ MADTLERVTKIIVDRLGVDEADVKLEASFKEDLGADSLDVVELVMELEDEFDMEISDEDAEKIATVGDAVNYIQNQ 2x2n-a2-m1-cC_2x2n-a2-m1-cA X-ray structure of cyp51 from trypanosoma brucei in complex with posaconazole in two different conformations Q385E8 Q385E8 2.6 X-RAY DIFFRACTION 81 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 441 448 2x2n-a1-m1-cB_2x2n-a1-m1-cD TDPPVYPVTVPILGHIIQFGKSPLGFMQECKRQLKSGIFTINIVGKRVTIVGDPHEHSRFFLPRNEVLSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAANWDKDEGEINLLEDCSTMIINTACQCLFGEDLRKRLDARRFAQLLAKMESSLIPAAVFLPILLKLPLPQSARCHEARTELQKILSEIIIARKAATSDLLSGLLSAVYRDGTPMSLHEVCGMIVAAMFAGQHTSSITTTWSMLHLMHPANVKHLEALRKEIEEFPAQLNYNNVMDEMPFAERCARESIRRDPPLLMLMRKVMADVKVGSYVVPKGDIIACSPLLSHHDEEAFPEPRRWDPERDEKVEGAFIGFGAGVHKCIGQKFGLLQVKTILATAFRSYDFQLLRDEVPDPDYHTMVVGPTASQCRVKYIRRK TDPPVYPVTVPILGHIIQFGKSPLGFMQECKRQLKSGIFTINIVGKRVTIVGDPHEHSRFFLPRNEVLSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAANWDKDEGEINLLEDCSTMIINTACQCLFGEDLRKRLDARRFAQLLAKMESSLIPAAVFLPILLKLPLPQSARCHEARTELQKILSEIIIARKAAAVNKSSTSDLLSGLLSAVYRDGTPMSLHEVCGMIVAAMFAGQHTSSITTTWSMLHLMHPANVKHLEALRKEIEEFPAQLNYNNVMDEMPFAERCARESIRRDPPLLMLMRKVMADVKVGSYVVPKGDIIACSPLLSHHDEEAFPEPRRWDPERDEKVEGAFIGFGAGVHKCIGQKFGLLQVKTILATAFRSYDFQLLRDEVPDPDYHTMVVGPTASQCRVKYIRRKA 2x2s-a1-m1-cC_2x2s-a1-m1-cD Crystal structure of Sclerotinia sclerotiorum agglutinin SSA A7XUK7 A7XUK7 1.6 X-RAY DIFFRACTION 59 1.0 5180 (Sclerotinia sclerotiorum) 5180 (Sclerotinia sclerotiorum) 148 152 2x2s-a2-m1-cA_2x2s-a2-m1-cB 2x2t-a1-m1-cA_2x2t-a1-m2-cA GFKGVGTYEIVPYQAPSLNLNAWEGKLEPGAVVRTYTRGDKPSDNAKWQVALVAGSGDSAEYLIINVHSGYFLTATKENHIVSTPQISPTDPSARWTIKPATEVFTINNKVSELGQLTVKDYSTHSGADVLSASAKTADNQKWYFDAK GFKGVGTYEIVPYQAPSLNLNAWEGKLEPGAVVRTYTRGDKPSDNAKWQVALVAGSGDSAEYLIINVHSGYFLTATKENHIVSTPQISPTDPSARWTIKPATTHQYEVFTINNKVSELGQLTVKDYSTHSGADVLSASAKTADNQKWYFDAK 2x2u-a1-m1-cA_2x2u-a1-m2-cA First two Cadherin-like domains from Human RET P07949 P07949 2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 236 236 LYFSRDAYWEKLYVDQAAGTPLLYVHALRDAPEEVPSFRLGQHLYGTYRTRLHENNWIRIQEDTGLLYLQRSLDHSSWEKLSVRNRGFPLLTVYLKVFLSECQWPGCARVYFSFFNTSFPACSSLKPRELCFPETRPSFRIRENRPPGTFHQFRLLPVQFLCPQISVAYRLLEGEGLPFRSAPDSLEVSTRWALDREQREKYELVAVCTVHREEVVMVPFPVTVYDEDDSAPEFEN LYFSRDAYWEKLYVDQAAGTPLLYVHALRDAPEEVPSFRLGQHLYGTYRTRLHENNWIRIQEDTGLLYLQRSLDHSSWEKLSVRNRGFPLLTVYLKVFLSECQWPGCARVYFSFFNTSFPACSSLKPRELCFPETRPSFRIRENRPPGTFHQFRLLPVQFLCPQISVAYRLLEGEGLPFRSAPDSLEVSTRWALDREQREKYELVAVCTVHREEVVMVPFPVTVYDEDDSAPEFEN 2x2v-a1-m1-cI_2x2v-a1-m1-cJ Structural basis of a novel proton-coordination type in an F1Fo-ATP synthase rotor ring P22483 P22483 2.5 X-RAY DIFFRACTION 139 1.0 398511 (Alkalihalophilus pseudofirmus OF4) 398511 (Alkalihalophilus pseudofirmus OF4) 68 68 2x2v-a1-m1-cA_2x2v-a1-m1-cB 2x2v-a1-m1-cA_2x2v-a1-m1-cM 2x2v-a1-m1-cB_2x2v-a1-m1-cC 2x2v-a1-m1-cC_2x2v-a1-m1-cD 2x2v-a1-m1-cD_2x2v-a1-m1-cE 2x2v-a1-m1-cE_2x2v-a1-m1-cF 2x2v-a1-m1-cF_2x2v-a1-m1-cG 2x2v-a1-m1-cG_2x2v-a1-m1-cH 2x2v-a1-m1-cH_2x2v-a1-m1-cI 2x2v-a1-m1-cJ_2x2v-a1-m1-cK 2x2v-a1-m1-cK_2x2v-a1-m1-cL 2x2v-a1-m1-cL_2x2v-a1-m1-cM 3zo6-a1-m1-cA_3zo6-a1-m1-cB 3zo6-a1-m1-cA_3zo6-a1-m1-cM 3zo6-a1-m1-cB_3zo6-a1-m1-cC 3zo6-a1-m1-cC_3zo6-a1-m1-cD 3zo6-a1-m1-cD_3zo6-a1-m1-cE 3zo6-a1-m1-cE_3zo6-a1-m1-cF 3zo6-a1-m1-cF_3zo6-a1-m1-cH 3zo6-a1-m1-cH_3zo6-a1-m1-cI 3zo6-a1-m1-cI_3zo6-a1-m1-cJ 3zo6-a1-m1-cJ_3zo6-a1-m1-cK 3zo6-a1-m1-cK_3zo6-a1-m1-cL 3zo6-a1-m1-cL_3zo6-a1-m1-cM 4cbj-a1-m1-cA_4cbj-a1-m1-cB 4cbj-a1-m1-cA_4cbj-a1-m1-cM 4cbj-a1-m1-cB_4cbj-a1-m1-cC 4cbj-a1-m1-cC_4cbj-a1-m1-cD 4cbj-a1-m1-cD_4cbj-a1-m1-cE 4cbj-a1-m1-cE_4cbj-a1-m1-cF 4cbj-a1-m1-cF_4cbj-a1-m1-cG 4cbj-a1-m1-cG_4cbj-a1-m1-cH 4cbj-a1-m1-cI_4cbj-a1-m1-cH 4cbj-a1-m1-cI_4cbj-a1-m1-cJ 4cbj-a1-m1-cJ_4cbj-a1-m1-cK 4cbj-a1-m1-cK_4cbj-a1-m1-cL 4cbj-a1-m1-cL_4cbj-a1-m1-cM 4cbk-a1-m1-cA_4cbk-a1-m1-cB 4cbk-a1-m1-cA_4cbk-a1-m1-cM 4cbk-a1-m1-cB_4cbk-a1-m1-cC 4cbk-a1-m1-cC_4cbk-a1-m1-cD 4cbk-a1-m1-cD_4cbk-a1-m1-cE 4cbk-a1-m1-cE_4cbk-a1-m1-cF 4cbk-a1-m1-cF_4cbk-a1-m1-cG 4cbk-a1-m1-cG_4cbk-a1-m1-cH 4cbk-a1-m1-cH_4cbk-a1-m1-cI 4cbk-a1-m1-cI_4cbk-a1-m1-cJ 4cbk-a1-m1-cJ_4cbk-a1-m1-cK 4cbk-a1-m1-cK_4cbk-a1-m1-cL 4cbk-a1-m1-cL_4cbk-a1-m1-cM AFLGAAIAAGLAAVAGAIAVAIIVKATIEGTTRQPELRGTLQTLMFIGVPLAEAVPIIAIVISLLILF AFLGAAIAAGLAAVAGAIAVAIIVKATIEGTTRQPELRGTLQTLMFIGVPLAEAVPIIAIVISLLILF 2x31-a1-m1-cC_2x31-a1-m1-cD Modelling of the complex between subunits BchI and BchD of magnesium chelatase based on single-particle cryo-EM reconstruction at 7.5 ang P26175 P26175 7.5 ELECTRON MICROSCOPY 42 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 187 187 2x31-a1-m1-cA_2x31-a1-m1-cB 2x31-a1-m1-cE_2x31-a1-m1-cF KEMSDRVLIFAVDASGSAAVLSEAKGAVELLLGRAYAARDHVSLITFRGTAAQVLLQPSRSLTQTKRQLQGLPGGGGTPLASGMEMAMVTAKQARSRGMTPTIALLTDGRGNIALDGTANRELAGEQATKVARAIRASGMPAVIIDTAMRPNPALVDLARTMDAHYIALPRATAHKMADVLGAALEA KEMSDRVLIFAVDASGSAAVLSEAKGAVELLLGRAYAARDHVSLITFRGTAAQVLLQPSRSLTQTKRQLQGLPGGGGTPLASGMEMAMVTAKQARSRGMTPTIALLTDGRGNIALDGTANRELAGEQATKVARAIRASGMPAVIIDTAMRPNPALVDLARTMDAHYIALPRATAHKMADVLGAALEA 2x31-a1-m1-cG_2x31-a1-m1-cL Modelling of the complex between subunits BchI and BchD of magnesium chelatase based on single-particle cryo-EM reconstruction at 7.5 ang P26239 P26239 7.5 ELECTRON MICROSCOPY 17 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 321 321 2x31-a1-m1-cH_2x31-a1-m1-cI 2x31-a1-m1-cJ_2x31-a1-m1-cK RPVFPFSAIVGQEDMKLALLLTAVDPGIGGVLVFGDRGTGKSTAVRALAALLPEIEAVEGCPVSSPNVEMIPDWATVLSTNVIRKPTPVVDLPLGVSEDRVVGALDIERAISKGEKAFEPGLLARANRGYLYIDECNLLEDHIVDLLLDVAQSGENVVERDGLSIRHPARFVLVGSGNPEEGDLRPQLLDRFGLSVEVLSPRDVETRVEVIRRRDTYDADPKAFLEEWRPKDMDIRNQILEARERLPKVEAPNTALYDCAALCIALGSDGLRGELTLLRSARALAALEGATAVGRDHLKRVATMALSHRLRVARTVEETLP RPVFPFSAIVGQEDMKLALLLTAVDPGIGGVLVFGDRGTGKSTAVRALAALLPEIEAVEGCPVSSPNVEMIPDWATVLSTNVIRKPTPVVDLPLGVSEDRVVGALDIERAISKGEKAFEPGLLARANRGYLYIDECNLLEDHIVDLLLDVAQSGENVVERDGLSIRHPARFVLVGSGNPEEGDLRPQLLDRFGLSVEVLSPRDVETRVEVIRRRDTYDADPKAFLEEWRPKDMDIRNQILEARERLPKVEAPNTALYDCAALCIALGSDGLRGELTLLRSARALAALEGATAVGRDHLKRVATMALSHRLRVARTVEETLP 2x31-a1-m1-cK_2x31-a1-m1-cL Modelling of the complex between subunits BchI and BchD of magnesium chelatase based on single-particle cryo-EM reconstruction at 7.5 ang P26239 P26239 7.5 ELECTRON MICROSCOPY 79 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 321 321 2x31-a1-m1-cG_2x31-a1-m1-cH 2x31-a1-m1-cI_2x31-a1-m1-cJ RPVFPFSAIVGQEDMKLALLLTAVDPGIGGVLVFGDRGTGKSTAVRALAALLPEIEAVEGCPVSSPNVEMIPDWATVLSTNVIRKPTPVVDLPLGVSEDRVVGALDIERAISKGEKAFEPGLLARANRGYLYIDECNLLEDHIVDLLLDVAQSGENVVERDGLSIRHPARFVLVGSGNPEEGDLRPQLLDRFGLSVEVLSPRDVETRVEVIRRRDTYDADPKAFLEEWRPKDMDIRNQILEARERLPKVEAPNTALYDCAALCIALGSDGLRGELTLLRSARALAALEGATAVGRDHLKRVATMALSHRLRVARTVEETLP RPVFPFSAIVGQEDMKLALLLTAVDPGIGGVLVFGDRGTGKSTAVRALAALLPEIEAVEGCPVSSPNVEMIPDWATVLSTNVIRKPTPVVDLPLGVSEDRVVGALDIERAISKGEKAFEPGLLARANRGYLYIDECNLLEDHIVDLLLDVAQSGENVVERDGLSIRHPARFVLVGSGNPEEGDLRPQLLDRFGLSVEVLSPRDVETRVEVIRRRDTYDADPKAFLEEWRPKDMDIRNQILEARERLPKVEAPNTALYDCAALCIALGSDGLRGELTLLRSARALAALEGATAVGRDHLKRVATMALSHRLRVARTVEETLP 2x3c-a1-m1-cA_2x3c-a1-m2-cA AsaP1 inactive mutant E294Q, an extracellular toxic zinc metalloendopeptidase Q8GMV9 Q8GMV9 1.99 X-RAY DIFFRACTION 108 1.0 113288 (Aeromonas salmonicida subsp. achromogenes) 113288 (Aeromonas salmonicida subsp. achromogenes) 284 284 2x3a-a1-m1-cA_2x3a-a1-m2-cA 2x3b-a1-m1-cB_2x3b-a1-m1-cA GLDAQLTLVDGSTDDVRVNLTLTNTGDKPIRLLKWQLPGSDDAPLFLVERDGQPVSYEGALIKRAAPTDKDFQLLKAGQSLTVQAEVSGLYDMSAQGQYSIRYQESNAITLWVEGVNAGSVSFSGRCTNTQKSDLLTALDAASGISNNASSYLAVDGQRYRSWFGAYSSARWDQAETNFSKIKDAIDNKPLTFDCSCKQSYFAYVYPDQPYKVYLCKSFWTAPVTGSDSRAGTIVHQLSHFNVVAGTDDLGYGQANARNLAKTDPVKALNNADNHEYFAENTPS GLDAQLTLVDGSTDDVRVNLTLTNTGDKPIRLLKWQLPGSDDAPLFLVERDGQPVSYEGALIKRAAPTDKDFQLLKAGQSLTVQAEVSGLYDMSAQGQYSIRYQESNAITLWVEGVNAGSVSFSGRCTNTQKSDLLTALDAASGISNNASSYLAVDGQRYRSWFGAYSSARWDQAETNFSKIKDAIDNKPLTFDCSCKQSYFAYVYPDQPYKVYLCKSFWTAPVTGSDSRAGTIVHQLSHFNVVAGTDDLGYGQANARNLAKTDPVKALNNADNHEYFAENTPS 2x3d-a1-m1-cA_2x3d-a1-m2-cG Crystal Structure of SSo6206 from Sulfolobus solfataricus P2 Q97ZR0 Q97ZR0 2.7 X-RAY DIFFRACTION 25 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 90 90 2x3d-a1-m1-cC_2x3d-a1-m2-cE 2x3d-a1-m1-cD_2x3d-a1-m2-cD 2x3d-a1-m1-cE_2x3d-a1-m2-cC 2x3d-a1-m1-cF_2x3d-a1-m2-cB 2x3d-a1-m1-cG_2x3d-a1-m2-cA 2x3d-a1-m1-cH_2x3d-a1-m2-cH 2x3d-a1-m2-cF_2x3d-a1-m1-cB GMAIRRLVLDVLKPIRGTSIVDLAERISKLDGVEGVNISVTDMDVETMGLMIIIEGTSLNFDDIRKMLEEEGCAIHSIDEVVSGNRIIEG GMAIRRLVLDVLKPIRGTSIVDLAERISKLDGVEGVNISVTDMDVETMGLMIIIEGTSLNFDDIRKMLEEEGCAIHSIDEVVSGNRIIEG 2x3d-a1-m2-cA_2x3d-a1-m2-cB Crystal Structure of SSo6206 from Sulfolobus solfataricus P2 Q97ZR0 Q97ZR0 2.7 X-RAY DIFFRACTION 63 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 90 90 2x3d-a1-m1-cA_2x3d-a1-m1-cB 2x3d-a1-m1-cA_2x3d-a1-m1-cH 2x3d-a1-m1-cB_2x3d-a1-m1-cC 2x3d-a1-m1-cC_2x3d-a1-m1-cD 2x3d-a1-m1-cE_2x3d-a1-m1-cD 2x3d-a1-m1-cF_2x3d-a1-m1-cE 2x3d-a1-m1-cF_2x3d-a1-m1-cG 2x3d-a1-m1-cG_2x3d-a1-m1-cH 2x3d-a1-m2-cA_2x3d-a1-m2-cH 2x3d-a1-m2-cB_2x3d-a1-m2-cC 2x3d-a1-m2-cC_2x3d-a1-m2-cD 2x3d-a1-m2-cE_2x3d-a1-m2-cD 2x3d-a1-m2-cF_2x3d-a1-m2-cE 2x3d-a1-m2-cF_2x3d-a1-m2-cG 2x3d-a1-m2-cG_2x3d-a1-m2-cH GMAIRRLVLDVLKPIRGTSIVDLAERISKLDGVEGVNISVTDMDVETMGLMIIIEGTSLNFDDIRKMLEEEGCAIHSIDEVVSGNRIIEG GMAIRRLVLDVLKPIRGTSIVDLAERISKLDGVEGVNISVTDMDVETMGLMIIIEGTSLNFDDIRKMLEEEGCAIHSIDEVVSGNRIIEG 2x3e-a1-m1-cB_2x3e-a1-m1-cA Crystal structure of 3-oxoacyl-(acyl carrier protein) synthase III, FabH from Pseudomonas aeruginosa PAO1 Q9HYR2 Q9HYR2 1.81 X-RAY DIFFRACTION 239 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 317 325 RAAVVCGLGSYLPEAVLSNDMLAAELDTSDAWISSRTGVRQRHIAGDLGSGDLALRAASAALASAGLERVDAVVLATSTGDFCCPATAPRVAARLGLVGALAFDLSAAATGFVYGLASVGSLISAGLADSALLVGVDTFSHTLDPADRSTRALFGDGAGAVVLRAGDAEEEGALLAFDLGSDGHQFDLLMTPAVSRANYFRMDGKAVFGQAVTQMSDSVRRVLDRVGWQASDLHHLVPHQANTRILAAVADQLDLPVERVVSNIAEVGNTVAASIPLALAHGLRQGILRDGGNMVLTGFGAGLTWGSVALRWPKIVP RAAVVCGLGSYLPEAVLSNDMLAAELDTSDAWISSRTGVRQRHIAGDLGSGDLALRAASAALASAGLERVDAVVLATSTGDFCCPATAPRVAARLGLVGALAFDLSAAATGFVYGLASVGSLISAGLADSALLVGVDTFSHTLDPADRSTRALFGDGAGAVVLRAGDAEEEGALLAFDLGSDGHQFDLLMTPAVSRAERSSGQASNYFRMDGKAVFGQAVTQMSDSVRRVLDRVGWQASDLHHLVPHQANTRILAAVADQLDLPVERVVSNIAEVGNTVAASIPLALAHGLRQGILRDGGNMVLTGFGAGLTWGSVALRWPKIVP 2x3g-a1-m1-cA_2x3g-a1-m2-cA Crystal Structure of the hypothetical protein ORF119 from Sulfolobus islandicus rod-shaped virus 1 Q5TJA9 Q5TJA9 1.8 X-RAY DIFFRACTION 47 1.0 282066 (Sulfolobus islandicus rudivirus 1 variant XX) 282066 (Sulfolobus islandicus rudivirus 1 variant XX) 113 113 GDLKKVLNFHFSYIYTYFITITTNYKYGDTEKIFRKFRSYIYNHDKNSHVFSIKETSNGLHYHILVFTNKKLDYSRVHKHPSHSDIRIELVPKSISDIKNVYKYLKTKKDIKS GDLKKVLNFHFSYIYTYFITITTNYKYGDTEKIFRKFRSYIYNHDKNSHVFSIKETSNGLHYHILVFTNKKLDYSRVHKHPSHSDIRIELVPKSISDIKNVYKYLKTKKDIKS 2x3h-a1-m1-cB_2x3h-a1-m1-cC COLIPHAGE K5A LYASE O09496 O09496 1.6 X-RAY DIFFRACTION 424 1.0 187764 (Vectrevirus K15) 187764 (Vectrevirus K15) 498 498 2x3h-a1-m1-cA_2x3h-a1-m1-cB 2x3h-a1-m1-cA_2x3h-a1-m1-cC PKTEGILHKGQSLYEYLDARVLTSKPFGAAGDATTDDTEVIAASLNSQKAVTISDGVFSSSGINSNYCNLDGRGSGVLSHRSSTGNYLVFNNPRTGRLSNITVESNKATDTTQGQQVSLAGGSDVTVSDVNFSNVKGTGFSLIAYPNDAPPDGLMIKGIRGSYSGYATNKAAGCVLADSSVNSLIDNVIAKNYPQFGAVELKGTASYNIVSNVIGADCQHVTYNGTEGPIAPSNNLIKGVMANNPKYAAVVAGKGSTNLISDVLVDYSTSDARQAHGVTVEGSDNVINNVLMSGCDGTNSLGQRQTATIARFIGTANNNYASVFPSYSATGVITFESGSTRNFVEVKHPGRRNDLLSSASTIDGAATIDGTSNSNVVHAPALGQYIGSMSGRFEWRIKSMSLPSGVLTSADKYRMLGDGAVSLAVGGGTSSQVRLFTSDGTSRTVSLTNGNVRLSTSSTGYLQLGADAMTPDSTGTYALGSASRAWSGGFTQAAFTVT PKTEGILHKGQSLYEYLDARVLTSKPFGAAGDATTDDTEVIAASLNSQKAVTISDGVFSSSGINSNYCNLDGRGSGVLSHRSSTGNYLVFNNPRTGRLSNITVESNKATDTTQGQQVSLAGGSDVTVSDVNFSNVKGTGFSLIAYPNDAPPDGLMIKGIRGSYSGYATNKAAGCVLADSSVNSLIDNVIAKNYPQFGAVELKGTASYNIVSNVIGADCQHVTYNGTEGPIAPSNNLIKGVMANNPKYAAVVAGKGSTNLISDVLVDYSTSDARQAHGVTVEGSDNVINNVLMSGCDGTNSLGQRQTATIARFIGTANNNYASVFPSYSATGVITFESGSTRNFVEVKHPGRRNDLLSSASTIDGAATIDGTSNSNVVHAPALGQYIGSMSGRFEWRIKSMSLPSGVLTSADKYRMLGDGAVSLAVGGGTSSQVRLFTSDGTSRTVSLTNGNVRLSTSSTGYLQLGADAMTPDSTGTYALGSASRAWSGGFTQAAFTVT 2x3j-a1-m1-cB_2x3j-a1-m1-cA CO-COMPLEX STRUCTURE OF ACHROMOBACTIN SYNTHETASE PROTEIN D (ACSD) WITH ATP AND N-CITRYL-ETHYLENEDIAMINE FROM PECTOBACTERIUM CHRYSANTHEMI Q93AT8 Q93AT8 2 X-RAY DIFFRACTION 57 1.0 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 578 586 2x3k-a1-m1-cB_2x3k-a1-m1-cA 3ffe-a1-m1-cA_3ffe-a1-m1-cB RNHDVLSRMISEKAALHGLLNCLIKEFAIPEGYLRYEWPDEMKGIPPGAYFDGADWKGIPMMIGLPDQLQLFVMVDRRDTFGSQHYLSDVYLRQAQGDWQCPDFEPLVARLLAACEHIAGRKNPELYEQILQSQRLVSAIVSHNGRQRADAPLQHYLQSEQGLWFGHPSHPAPKARLWPHLGQEQWAPEFQARAALHQFEVPVDGLHIGANGLTPQQVLDGFADQQPASPGHAIICMHPVQAQLFMQDARVQQLLRDNVIRDLGQSGRVASPTASIRTWFIDDHDYFIKGSLNVRITNCVRKNAWYELESTVLIDRLFRQLLDQHADTLGGLVAAAEPGVVSWSPAAAGELDSHWFREQTGGILRENFCRRTGAERSIMAGTLFARGVDLQPMIQTFLRTHYGEALDDNALLYWFDDYQTRLLRPVLSLFFNHGVVMEPHLQNSVLVHQQGRPQQVLLRDFEGVKLTDDLGIRYIDDDIHPRVRQSLLYSREQGWNRIMYCLFINHLSETILALSQGRPQLAPLMWRRVQQQLRAIQGELKQPSPELDALIAGHPVACKTNLKVRLAAASYVRLPSPW NRNHDVLSRMISEKAALHGLLNCLIKEFAIPEGYLRYEWPDEMKGIPPGAYFDGADWKGIPMMIGLPDQLQLFVMVDRRDTFGSQHYLSDVYLRQAQGDWQCPDFEPLVARLLAACEHIAGRKNPELYEQILQSQRLVSAIVSHNGRQRADAPLQHYLQSEQGLWFGHPSHPAPKARLWPAHLGQEQWAPEFQARAALHQFEVPVDGLHIGANGLTPQQVLDGFADQQPASPGHAIICMHPVQAQLFMQDARVQQLLRDNVIRDLGQSGRVASPTASIRTWFIDDHDYFIKGSLNVRITNCVRKNAWYELESTVLIDRLFRQLLDQHADTLGGLVAAAEPGVVSWSPAAAGELDSHWFREQTGGILRENFCRRTGAERSIMAGTLFARGVDLQPMIQTFLRTHYGEALDDNALLYWFDDYQTRLLRPVLSLFFNHGVVMEPHLQNSVLVHQQGRPQQVLLRDFEGVKLTDDLGIRYIDDDIHPRVRQSLLYSREQGWNRIMYCLFINHLSETILALSQGRPQLAPLMWRRVQQQLRAIQGELKQPSPELDALIAGHPVACKTNLKVRLAAEADRQASYVRLPSPWG 2x3l-a1-m1-cA_2x3l-a1-m1-cB Crystal Structure of the Orn_Lys_Arg decarboxylase family protein SAR0482 from Methicillin-resistant Staphylococcus aureus 2 X-RAY DIFFRACTION 220 0.998 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 420 423 PILNKLESLNQEEAISLHVPGHKNMTIGHLSQLSMTMDKTEIPGLDDLHHPEEVILKSMKQVEKHSDYDGYFLVNGTTSGILSVIQSFSQKKGDILMARNVHKSVLHALDISQQEGHFIETHQSPLTNHYNKVNLHKLVVLTYPNYYGETFNVEEVIKSLHQLNIPVLIDEAHGAHFGLQGFPDSTLNYQADYVVQSFHKTLPALTMGSVLYIHKNAPYRENIIEYLSYFQTSSPSYLIMASLESAAQFYKTYDSTLFFAKRAQLIECLENKGFEMLQVDDPLKLLIKYEGFTGHDIQNWFMNAHIYLELADDYQALAILPLWHHDDTYLFDSLLRKIEDMILPKKSTQLLTTEGNYKPKWCDLKKAKGKVLARHIVPYPPGIPIIFKGETITENMIELVNEYLETGMIVEGIKNNKILV PILNKLESLNQEEAISLHVPGHKNMTIGHLSQLSMTMDKTEIPGLDDLHHPEEVILKSMKQVEKHSDYDGYFLVNGTTSGILSVIQSFSQKKGDILMARNVHKSVLHALDISQQEGHFIETHQSPLTNHYNKVNLHKLVVLTYPNYYGETFNVEEVIKSLHQLNIPVLIDEAHGAHFGLQGFPDSTLNYQADYVVQSFHKTLPALTMGSVLYIHKNAPYRENIIEYLSYFQTSSPSYLIMASLESAAQFYKTYDSTLFFAKRAQLIECLENKGFEMLQVDDPLKLLIKYEGFTGHDIQNWFMNAHIYLELADDYQALAILPLWHHDDTYLFDSLLRKIEDMILPKKSVQLLTTEGNYKPKYVTWCDLKKAKGKVLARHIVPYPPGIPIIFKGETITENMIELVNEYLETGMIVEGIKNNKILV 2x3w-a3-m1-cB_2x3w-a3-m1-cA structure of mouse syndapin I (crystal form 2) Q61644 Q61644 2.64 X-RAY DIFFRACTION 221 0.997 10090 (Mus musculus) 10090 (Mus musculus) 290 291 2x3v-a1-m1-cA_2x3v-a1-m1-cB 2x3v-a2-m1-cC_2x3v-a2-m2-cC 2x3w-a1-m1-cB_2x3w-a1-m1-cA 2x3w-a2-m1-cC_2x3w-a2-m2-cC 2x3x-a1-m1-cC_2x3x-a1-m2-cC 2x3x-a2-m1-cB_2x3x-a2-m1-cA 3hah-a1-m1-cB_3hah-a1-m1-cA 3hai-a1-m1-cA_3hai-a1-m1-cB 3q84-a2-m1-cG_3q84-a2-m1-cH 3qni-a1-m1-cB_3qni-a1-m1-cA TDSFWEVGNYKRTVKRIDDGHRLCNDLMSCVQERAKIEKAYAQQLTDWAKRWRQLIEKGPQYGSLERAWGAMMTEADKVSELHQEVKNSLLNEDLEKVKNWQKDAYHKQIMGGFKETKEAEDGFRKAQKPWAKKMKELEAAKKAYHLACKEERLAMTREMNSKTEQSVTPEQQKKLVDKVDKCRQDVQKTQEKYEKVLEDVGKTTPQYMEGMEQVFEQCQQFEEKRLVFLKEVLLDIKRHLNLAENSSYMHVYRELEQAIRGADAQEDLRWFRSTSGPGMPMNWPQFEEW DSFWEVGNYKRTVKRIDDGHRLCNDLMSCVQERAKIEKAYAQQLTDWAKRWRQLIEKGPQYGSLERAWGAMMTEADKVSELHQEVKNSLLNEDLEKVKNWQKDAYHKQIMGGFKETKEAEDGFRKAQKPWAKKMKELEAAKKAYHLACKEERLAMTREMNSKTEQSVTPEQQKKLVDKVDKCRQDVQKTQEKYEKVLEDVGKTTPQYMEGMEQVFEQCQQFEEKRLVFLKEVLLDIKRHLNLAENSSYMHVYRELEQAIRGADAQEDLRWFRSTSGPGMPMNWPQFEEWNP 2x3y-a2-m1-cH_2x3y-a2-m1-cF Crystal structure of GmhA from Burkholderia pseudomallei Q93UJ2 Q93UJ2 2.4 X-RAY DIFFRACTION 94 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 191 192 2x3y-a1-m1-cB_2x3y-a1-m1-cD 2x3y-a1-m1-cC_2x3y-a1-m1-cA 2x3y-a2-m1-cG_2x3y-a2-m1-cE 2xbl-a1-m1-cB_2xbl-a1-m1-cD 2xbl-a1-m1-cC_2xbl-a1-m1-cA 5ltz-a1-m1-cA_5ltz-a1-m1-cC 5ltz-a1-m1-cB_5ltz-a1-m1-cD 5lu5-a1-m1-cA_5lu5-a1-m1-cC 5lu5-a1-m1-cB_5lu5-a1-m1-cD 5lu6-a1-m1-cB_5lu6-a1-m1-cD 5lu6-a1-m1-cC_5lu6-a1-m1-cA 5lu7-a1-m1-cA_5lu7-a1-m1-cC 5lu7-a1-m1-cB_5lu7-a1-m1-cD RELTYITNSIAEAQRVMAAMLADERLLATVRKVADACIASIAQGGKVLLAGNGGSAADAQHIAGEFVSRFAFDRPGLPAVALTTDTSILTAIGNDYGYEKLFSRQVQALGNEGDVLIGYSTSGKSPNILAAFREAKAKGMTCVGFTGNRGEMRELCDLLLEVPSADTPKIQEGHLVLGHIVCGLVEHSIFG RELTYITNSIAEAQRVMAAMLADERLLATVRKVADACIASIAQGGKVLLAGNGGSAADAQHIAGEFVSRFAFDRPGLPAVALTTDTSILTAIGNDYGYEKLFSRQVQALGNEGDVLIGYSTSGKSPNILAAFREAKAKGMTCVGFTGNRGGEMRELCDLLLEVPSADTPKIQEGHLVLGHIVCGLVEHSIFG 2x40-a1-m1-cA_2x40-a1-m2-cA Structure of beta-glucosidase 3B from Thermotoga neapolitana in complex with glycerol Q0GC07 Q0GC07 2.313 X-RAY DIFFRACTION 91 1.0 309803 (Thermotoga neapolitana DSM 4359) 309803 (Thermotoga neapolitana DSM 4359) 713 713 EKVNEILSQLTLEEKVKLVVGVGLPGLFGNPHSRVAGAAGETHPVPRVGLPAFVLADGPAGLRINPTRENDENTYYTTAFPVEIMLASTWNRELLEEVGKAMGEEVREYGVDVLLAPAMNIHRNPLCGRNFEYYSEDPVLSGEMASSFVKGVQSQGVGACIKHFVANNQETNRMVVDTIVSERALREIYLRGFEIAVKKSKPWSVMSAYNKLNGKYCSQNEWLLKKVLREEWGFEGFVMSDWYAGDNPVEQLKAGNDLIMPGKAYQVNTERRDEIEEIMEALKEGKLSEEVLDECVRNILKVLVNAPSFKNYRYSNKPDLEKHAKVAYEAGAEGVVLLRNEEALPLSENSKIALFGTGQIETIKGGTGSGDTHPRYAISILEGIKERGLNFDEELAKTYEDYIKKMRETEEYKPRIKPKLPENFLSEKEIHKLAKKNDVAVIVISRISGEGYDRKPVKGDFYLSDDETDLIKTVSREFHEQGKKVIVLLNIGSPVEVVSWRDLVDGILLVWQAGQETGRIVADVLTGRINPSGKLPTTFPRDYSDVPSWTFPGEPKDNPQKVVYEEDIYVGYRYYDTFGVEPAYEFGYGLSYTTFEYSDLNVSFDGETLRVQYRIENTGGRAGKEVSQVYIKAPKGKIDKPFQELKAFHKTRLLNPGESEEVVLEIPVRDLASFNGEEWVVEAGEYEVRVGASSRNIKLKGTFSVGEERRFKP EKVNEILSQLTLEEKVKLVVGVGLPGLFGNPHSRVAGAAGETHPVPRVGLPAFVLADGPAGLRINPTRENDENTYYTTAFPVEIMLASTWNRELLEEVGKAMGEEVREYGVDVLLAPAMNIHRNPLCGRNFEYYSEDPVLSGEMASSFVKGVQSQGVGACIKHFVANNQETNRMVVDTIVSERALREIYLRGFEIAVKKSKPWSVMSAYNKLNGKYCSQNEWLLKKVLREEWGFEGFVMSDWYAGDNPVEQLKAGNDLIMPGKAYQVNTERRDEIEEIMEALKEGKLSEEVLDECVRNILKVLVNAPSFKNYRYSNKPDLEKHAKVAYEAGAEGVVLLRNEEALPLSENSKIALFGTGQIETIKGGTGSGDTHPRYAISILEGIKERGLNFDEELAKTYEDYIKKMRETEEYKPRIKPKLPENFLSEKEIHKLAKKNDVAVIVISRISGEGYDRKPVKGDFYLSDDETDLIKTVSREFHEQGKKVIVLLNIGSPVEVVSWRDLVDGILLVWQAGQETGRIVADVLTGRINPSGKLPTTFPRDYSDVPSWTFPGEPKDNPQKVVYEEDIYVGYRYYDTFGVEPAYEFGYGLSYTTFEYSDLNVSFDGETLRVQYRIENTGGRAGKEVSQVYIKAPKGKIDKPFQELKAFHKTRLLNPGESEEVVLEIPVRDLASFNGEEWVVEAGEYEVRVGASSRNIKLKGTFSVGEERRFKP 2x44-a1-m1-cD_2x44-a1-m2-cD Structure of a strand-swapped dimeric form of CTLA-4 P16410 P16410 2.6 X-RAY DIFFRACTION 236 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 MKAMHVAQPAVVLASSRGIASFVCEYASPGKATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVIDPE MKAMHVAQPAVVLASSRGIASFVCEYASPGKATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVIDPE 2x4d-a1-m1-cB_2x4d-a1-m1-cA Crystal structure of human phospholysine phosphohistidine inorganic pyrophosphate phosphatase LHPP Q9H008 Q9H008 1.92 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 270 LLDISGVLYDSGGTAIAGSVEAVFCTNESAASRAELVGQLTAPAPAACQILKERGLRPYLLIHDGVRSEFDNPNCVVIADAGESFSYQNMNNAFQVLMELEKPVLISLGKGRYYAAGLMLDVGPYMKALEYACGIKAEVVGKPSPEFFKSALQAIGVEAHQAVMIGDDIVGDVGGAQRCGMRALQVRTGKFRPSDEHHPEVKADGYVDNLAEA SMAPWGKRLAGVRGVLLDISGVLYDSGAGGGTAIAGSVEAVARLKRSRLKVRFCTNESAASRAELVGQLQRLGFDISEQEVTAPAPAACQILKERGLRPYLLIHDGVRSEFDQIDTSNPNCVVIADAGESFSYQNMNNAFQVLMELEKPVLISLGKGRYYAATSGLMLDVGPYMKALEYACGIKAEVVGKPSPEFFKSALQAIGVEAHQAVMIGDDIVGDVGGAQRCGMRALQVRTGKFRPSDEHHPEVKADGYVDNLAEAVDLLLQHAD 2x4g-a1-m1-cA_2x4g-a1-m2-cA Crystal structure of PA4631, a nucleoside-diphosphate-sugar epimerase from Pseudomonas aeruginosa Q9HVG0 Q9HVG0 2.65 X-RAY DIFFRACTION 60 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 302 302 AHVKYAVLGATGLLGHHAARAIRAAGHDLVLIHRPSSQIQRLAYLEPECRVAEMLDHAGLERALRGLDGVIFSEEVASALGQTNPFYAACLQARVPRILYVGSAYAMPRHPQGLPGHEGLFYDSLPSGKSSYVLCKWALDEQAREQARNGLPVVIGIPGMVLGELDIGPTTGRVITAIGNGEMTHYVAGQRNVIDAAEAGRGLLMALERGRIGERYLLTGHNLEMADLTRRIAELLGQPAPQPMSMAMARALATLGRLEVMAGGQFLDGRKAREELGFFSTTALDDTLLRAIDWFRDNGYFN AHVKYAVLGATGLLGHHAARAIRAAGHDLVLIHRPSSQIQRLAYLEPECRVAEMLDHAGLERALRGLDGVIFSEEVASALGQTNPFYAACLQARVPRILYVGSAYAMPRHPQGLPGHEGLFYDSLPSGKSSYVLCKWALDEQAREQARNGLPVVIGIPGMVLGELDIGPTTGRVITAIGNGEMTHYVAGQRNVIDAAEAGRGLLMALERGRIGERYLLTGHNLEMADLTRRIAELLGQPAPQPMSMAMARALATLGRLEVMAGGQFLDGRKAREELGFFSTTALDDTLLRAIDWFRDNGYFN 2x4h-a1-m1-cB_2x4h-a1-m1-cC Crystal Structure of the hypothetical protein SSo2273 from Sulfolobus solfataricus Q97WF3 Q97WF3 2.3 X-RAY DIFFRACTION 33 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 130 131 NLSRREFSYLLTIKRYNDSGEGAKINRIAKDLKIAPSSVFEEVSHLEEKGLVKKKEDGVWITNNGTRSINYLIKAHRVIEILLVNIGIDKQTACEYSKQFDYLIPEEIIDKLYNYLGKPSYCPHGLEIPL SNLSRREFSYLLTIKRYNDSGEGAKINRIAKDLKIAPSSVFEEVSHLEEKGLVKKKEDGVWITNNGTRSINYLIKAHRVIEILLVNIGIDKQTACEYSKQFDYLIPEEIIDKLYNYLGKPSYCPHGLEIPL 2x4h-a1-m1-cD_2x4h-a1-m1-cB Crystal Structure of the hypothetical protein SSo2273 from Sulfolobus solfataricus Q97WF3 Q97WF3 2.3 X-RAY DIFFRACTION 13 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 129 130 LSRREFSYLLTIKRYNDSGEGAKINRIAKDLKIAPSSVFEEVSHLEEKGLVKKKEDGVWITNNGTRSINYLIKAHRVIEILLVNIGIDKQTACEYSKQFDYLIPEEIIDKLYNYLGKPSYCPHGLEIPL NLSRREFSYLLTIKRYNDSGEGAKINRIAKDLKIAPSSVFEEVSHLEEKGLVKKKEDGVWITNNGTRSINYLIKAHRVIEILLVNIGIDKQTACEYSKQFDYLIPEEIIDKLYNYLGKPSYCPHGLEIPL 2x4h-a1-m1-cD_2x4h-a1-m1-cC Crystal Structure of the hypothetical protein SSo2273 from Sulfolobus solfataricus Q97WF3 Q97WF3 2.3 X-RAY DIFFRACTION 41 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 129 131 2x4h-a1-m1-cA_2x4h-a1-m1-cB LSRREFSYLLTIKRYNDSGEGAKINRIAKDLKIAPSSVFEEVSHLEEKGLVKKKEDGVWITNNGTRSINYLIKAHRVIEILLVNIGIDKQTACEYSKQFDYLIPEEIIDKLYNYLGKPSYCPHGLEIPL SNLSRREFSYLLTIKRYNDSGEGAKINRIAKDLKIAPSSVFEEVSHLEEKGLVKKKEDGVWITNNGTRSINYLIKAHRVIEILLVNIGIDKQTACEYSKQFDYLIPEEIIDKLYNYLGKPSYCPHGLEIPL 2x4j-a1-m2-cA_2x4j-a1-m3-cA Crystal structure of ORF137 from Pyrobaculum spherical virus Q6ZYJ4 Q6ZYJ4 1.62 X-RAY DIFFRACTION 46 1.0 270161 (Pyrobaculum spherical virus) 270161 (Pyrobaculum spherical virus) 109 109 2x4j-a1-m1-cA_2x4j-a1-m2-cA 2x4j-a1-m1-cA_2x4j-a1-m3-cA FFTNKIGCNVSSPLKHVDIVGEIVEEAVYNFLIDAGDKMCVGNKIGVWKVSRKSLYAKVPKGIGVTVYLANGRVQGRLIDIGVYEVLVEEVGDIIYIHKDLVYALCWPK FFTNKIGCNVSSPLKHVDIVGEIVEEAVYNFLIDAGDKMCVGNKIGVWKVSRKSLYAKVPKGIGVTVYLANGRVQGRLIDIGVYEVLVEEVGDIIYIHKDLVYALCWPK 2x4k-a1-m2-cB_2x4k-a1-m3-cB Crystal structure of SAR1376, a putative 4-oxalocrotonate tautomerase from the methicillin-resistant Staphylococcus aureus (MRSA) Q6GH41 Q6GH41 1.1 X-RAY DIFFRACTION 43 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 62 62 2x4k-a1-m1-cA_2x4k-a1-m2-cA 2x4k-a1-m1-cA_2x4k-a1-m3-cA 2x4k-a1-m1-cB_2x4k-a1-m2-cB 2x4k-a1-m1-cB_2x4k-a1-m3-cB 2x4k-a1-m2-cA_2x4k-a1-m3-cA SMMPIVNVKLLEGRSDEQLKNLVSEVTDAVEKTTGANRQAIHVVIEEMKPNHYGVAGVRKSD SMMPIVNVKLLEGRSDEQLKNLVSEVTDAVEKTTGANRQAIHVVIEEMKPNHYGVAGVRKSD 2x4k-a1-m3-cA_2x4k-a1-m3-cB Crystal structure of SAR1376, a putative 4-oxalocrotonate tautomerase from the methicillin-resistant Staphylococcus aureus (MRSA) Q6GH41 Q6GH41 1.1 X-RAY DIFFRACTION 102 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 62 62 2x4k-a1-m1-cA_2x4k-a1-m1-cB 2x4k-a1-m2-cA_2x4k-a1-m2-cB SMMPIVNVKLLEGRSDEQLKNLVSEVTDAVEKTTGANRQAIHVVIEEMKPNHYGVAGVRKSD SMMPIVNVKLLEGRSDEQLKNLVSEVTDAVEKTTGANRQAIHVVIEEMKPNHYGVAGVRKSD 2x53-a1-m2-cM_2x53-a1-m2-cO Structure of the phage p2 baseplate in its activated conformation with Sr Q71AW2 Q71AW2 3.9 X-RAY DIFFRACTION 207 1.0 254252 (Lactococcus virus P2) 254252 (Lactococcus virus P2) 263 263 1zru-a1-m1-cA_1zru-a1-m1-cC 1zru-a1-m1-cB_1zru-a1-m1-cA 1zru-a1-m1-cB_1zru-a1-m1-cC 2bsd-a1-m1-cA_2bsd-a1-m1-cB 2bsd-a1-m1-cA_2bsd-a1-m1-cC 2bsd-a1-m1-cB_2bsd-a1-m1-cC 2bse-a1-m1-cA_2bse-a1-m1-cB 2bse-a1-m1-cA_2bse-a1-m1-cC 2bse-a1-m1-cB_2bse-a1-m1-cC 2wzp-a1-m1-cA_2wzp-a1-m1-cB 2wzp-a1-m1-cA_2wzp-a1-m1-cC 2wzp-a1-m1-cB_2wzp-a1-m1-cC 2wzp-a1-m1-cG_2wzp-a1-m1-cH 2wzp-a1-m1-cG_2wzp-a1-m1-cI 2wzp-a1-m1-cH_2wzp-a1-m1-cI 2wzp-a1-m2-cA_2wzp-a1-m2-cB 2wzp-a1-m2-cA_2wzp-a1-m2-cC 2wzp-a1-m2-cB_2wzp-a1-m2-cC 2wzp-a1-m2-cG_2wzp-a1-m2-cH 2wzp-a1-m2-cG_2wzp-a1-m2-cI 2wzp-a1-m2-cH_2wzp-a1-m2-cI 2wzp-a1-m3-cA_2wzp-a1-m3-cB 2wzp-a1-m3-cA_2wzp-a1-m3-cC 2wzp-a1-m3-cB_2wzp-a1-m3-cC 2wzp-a1-m3-cG_2wzp-a1-m3-cH 2wzp-a1-m3-cG_2wzp-a1-m3-cI 2wzp-a1-m3-cH_2wzp-a1-m3-cI 2x53-a1-m1-cA_2x53-a1-m1-cB 2x53-a1-m1-cA_2x53-a1-m1-cC 2x53-a1-m1-cB_2x53-a1-m1-cC 2x53-a1-m1-cD_2x53-a1-m1-cE 2x53-a1-m1-cD_2x53-a1-m1-cF 2x53-a1-m1-cE_2x53-a1-m1-cF 2x53-a1-m1-cG_2x53-a1-m1-cH 2x53-a1-m1-cG_2x53-a1-m1-cI 2x53-a1-m1-cH_2x53-a1-m1-cI 2x53-a1-m1-cJ_2x53-a1-m1-cK 2x53-a1-m1-cJ_2x53-a1-m1-cL 2x53-a1-m1-cK_2x53-a1-m1-cL 2x53-a1-m1-cM_2x53-a1-m1-cN 2x53-a1-m1-cM_2x53-a1-m1-cO 2x53-a1-m1-cN_2x53-a1-m1-cO 2x53-a1-m1-cP_2x53-a1-m1-cQ 2x53-a1-m1-cP_2x53-a1-m1-cR 2x53-a1-m1-cQ_2x53-a1-m1-cR 2x53-a1-m2-cA_2x53-a1-m2-cB 2x53-a1-m2-cA_2x53-a1-m2-cC 2x53-a1-m2-cB_2x53-a1-m2-cC 2x53-a1-m2-cD_2x53-a1-m2-cE 2x53-a1-m2-cD_2x53-a1-m2-cF 2x53-a1-m2-cE_2x53-a1-m2-cF 2x53-a1-m2-cG_2x53-a1-m2-cH 2x53-a1-m2-cG_2x53-a1-m2-cI 2x53-a1-m2-cH_2x53-a1-m2-cI 2x53-a1-m2-cJ_2x53-a1-m2-cK 2x53-a1-m2-cJ_2x53-a1-m2-cL 2x53-a1-m2-cK_2x53-a1-m2-cL 2x53-a1-m2-cM_2x53-a1-m2-cN 2x53-a1-m2-cN_2x53-a1-m2-cO 2x53-a1-m2-cP_2x53-a1-m2-cQ 2x53-a1-m2-cP_2x53-a1-m2-cR 2x53-a1-m2-cQ_2x53-a1-m2-cR 4v5i-a1-m1-cAA_4v5i-a1-m1-cAB 4v5i-a1-m1-cAA_4v5i-a1-m1-cAC 4v5i-a1-m1-cAB_4v5i-a1-m1-cAC 4v5i-a1-m1-cAD_4v5i-a1-m1-cAE 4v5i-a1-m1-cAD_4v5i-a1-m1-cAF 4v5i-a1-m1-cAE_4v5i-a1-m1-cAF 4v5i-a1-m1-cAG_4v5i-a1-m1-cAH 4v5i-a1-m1-cAG_4v5i-a1-m1-cAI 4v5i-a1-m1-cAH_4v5i-a1-m1-cAI 4v5i-a1-m1-cAJ_4v5i-a1-m1-cAK 4v5i-a1-m1-cAJ_4v5i-a1-m1-cAL 4v5i-a1-m1-cAK_4v5i-a1-m1-cAL 4v5i-a1-m1-cAM_4v5i-a1-m1-cAN 4v5i-a1-m1-cAM_4v5i-a1-m1-cAO 4v5i-a1-m1-cAN_4v5i-a1-m1-cAO 4v5i-a1-m1-cAP_4v5i-a1-m1-cAQ 4v5i-a1-m1-cAP_4v5i-a1-m1-cAR 4v5i-a1-m1-cAQ_4v5i-a1-m1-cAR 4v5i-a2-m1-cBA_4v5i-a2-m1-cBB 4v5i-a2-m1-cBA_4v5i-a2-m1-cBC 4v5i-a2-m1-cBB_4v5i-a2-m1-cBC 4v5i-a2-m1-cBD_4v5i-a2-m1-cBE 4v5i-a2-m1-cBD_4v5i-a2-m1-cBF 4v5i-a2-m1-cBE_4v5i-a2-m1-cBF 4v5i-a2-m1-cBG_4v5i-a2-m1-cBH 4v5i-a2-m1-cBG_4v5i-a2-m1-cBI 4v5i-a2-m1-cBH_4v5i-a2-m1-cBI 4v5i-a2-m1-cBJ_4v5i-a2-m1-cBK 4v5i-a2-m1-cBJ_4v5i-a2-m1-cBL 4v5i-a2-m1-cBK_4v5i-a2-m1-cBL 4v5i-a2-m1-cBM_4v5i-a2-m1-cBN 4v5i-a2-m1-cBM_4v5i-a2-m1-cBO 4v5i-a2-m1-cBN_4v5i-a2-m1-cBO 4v5i-a2-m1-cBP_4v5i-a2-m1-cBQ 4v5i-a2-m1-cBP_4v5i-a2-m1-cBR 4v5i-a2-m1-cBQ_4v5i-a2-m1-cBR 6zig-a1-m1-cA_6zig-a1-m1-cB 6zig-a1-m1-cA_6zig-a1-m1-cC 6zig-a1-m1-cB_6zig-a1-m1-cC 6zig-a1-m1-cD_6zig-a1-m1-cE 6zig-a1-m1-cD_6zig-a1-m1-cF 6zig-a1-m1-cE_6zig-a1-m1-cF 6zig-a1-m1-cG_6zig-a1-m1-cH 6zig-a1-m1-cG_6zig-a1-m1-cI 6zig-a1-m1-cH_6zig-a1-m1-cI 6zig-a1-m1-cJ_6zig-a1-m1-cK 6zig-a1-m1-cJ_6zig-a1-m1-cL 6zig-a1-m1-cK_6zig-a1-m1-cL 6zig-a1-m1-cM_6zig-a1-m1-cN 6zig-a1-m1-cM_6zig-a1-m1-cO 6zig-a1-m1-cN_6zig-a1-m1-cO 6zig-a1-m1-cP_6zig-a1-m1-cQ 6zig-a1-m1-cP_6zig-a1-m1-cR 6zig-a1-m1-cQ_6zig-a1-m1-cR 6zih-a1-m1-cA_6zih-a1-m1-cB 6zih-a1-m1-cA_6zih-a1-m1-cC 6zih-a1-m1-cB_6zih-a1-m1-cC 6zih-a1-m1-cD_6zih-a1-m1-cE 6zih-a1-m1-cD_6zih-a1-m1-cF 6zih-a1-m1-cE_6zih-a1-m1-cF 6zih-a1-m1-cG_6zih-a1-m1-cH 6zih-a1-m1-cG_6zih-a1-m1-cI 6zih-a1-m1-cH_6zih-a1-m1-cI 6zih-a1-m1-cJ_6zih-a1-m1-cK 6zih-a1-m1-cJ_6zih-a1-m1-cL 6zih-a1-m1-cK_6zih-a1-m1-cL 6zih-a1-m1-cM_6zih-a1-m1-cN 6zih-a1-m1-cM_6zih-a1-m1-cO 6zih-a1-m1-cN_6zih-a1-m1-cO 6zih-a1-m1-cP_6zih-a1-m1-cQ 6zih-a1-m1-cP_6zih-a1-m1-cR 6zih-a1-m1-cQ_6zih-a1-m1-cR 6zjj-a1-m1-cA_6zjj-a1-m1-cB 6zjj-a1-m1-cA_6zjj-a1-m1-cC 6zjj-a1-m1-cB_6zjj-a1-m1-cC 6zjj-a1-m1-cD_6zjj-a1-m1-cE 6zjj-a1-m1-cD_6zjj-a1-m1-cF 6zjj-a1-m1-cE_6zjj-a1-m1-cF 6zjj-a1-m1-cG_6zjj-a1-m1-cH 6zjj-a1-m1-cG_6zjj-a1-m1-cI 6zjj-a1-m1-cH_6zjj-a1-m1-cI 6zjj-a1-m1-cJ_6zjj-a1-m1-cK 6zjj-a1-m1-cJ_6zjj-a1-m1-cL 6zjj-a1-m1-cK_6zjj-a1-m1-cL 6zjj-a1-m1-cM_6zjj-a1-m1-cN 6zjj-a1-m1-cM_6zjj-a1-m1-cO 6zjj-a1-m1-cN_6zjj-a1-m1-cO 6zjj-a1-m1-cP_6zjj-a1-m1-cQ 6zjj-a1-m1-cP_6zjj-a1-m1-cR 6zjj-a1-m1-cQ_6zjj-a1-m1-cR TIKNFTFFSPNSTEFPVGSNNDGKLYMMLTGMDYRTIRRKDWSSPLNTALNVQYTNTSIIAGGRYFELLNETVALKGDSVNYIHANIDLTQTANPVSLSAETANNSNGVDINNGSGVLKVCFDIVTTSGTGVTSTKPIVQTSTLDSISVNDMTVSGSIDVPVQTLTVEAGNGLQLQLTKKNNDLVIVRFFGSVSNIQKGWNMSGTWVDRPFRPAAVQSLVGHFAGRDTSFHIDINPNGSITWWGANIDKTPIATRGNGSYFIK TIKNFTFFSPNSTEFPVGSNNDGKLYMMLTGMDYRTIRRKDWSSPLNTALNVQYTNTSIIAGGRYFELLNETVALKGDSVNYIHANIDLTQTANPVSLSAETANNSNGVDINNGSGVLKVCFDIVTTSGTGVTSTKPIVQTSTLDSISVNDMTVSGSIDVPVQTLTVEAGNGLQLQLTKKNNDLVIVRFFGSVSNIQKGWNMSGTWVDRPFRPAAVQSLVGHFAGRDTSFHIDINPNGSITWWGANIDKTPIATRGNGSYFIK 2x57-a1-m2-cA_2x57-a1-m2-cC Crystal structure of the extracellular domain of human Vasoactive intestinal polypeptide receptor 2 P41587 P41587 2.1 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 2x57-a1-m1-cA_2x57-a1-m1-cB 2x57-a1-m1-cA_2x57-a1-m1-cC 2x57-a1-m1-cC_2x57-a1-m1-cB 2x57-a1-m2-cA_2x57-a1-m2-cB 2x57-a1-m2-cC_2x57-a1-m2-cB GVDLGTENLYFQSRFHLEIQEEETKCAELLRSQTEKHKACSGVWDNITCWRPANVGETVTVPCPKVFSNFYSKAGNISKNCTSDGWSETFPDFVDACGYSDP GVDLGTENLYFQSRFHLEIQEEETKCAELLRSQTEKHKACSGVWDNITCWRPANVGETVTVPCPKVFSNFYSKAGNISKNCTSDGWSETFPDFVDACGYSDP 2x57-a1-m2-cC_2x57-a1-m1-cB Crystal structure of the extracellular domain of human Vasoactive intestinal polypeptide receptor 2 P41587 P41587 2.1 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 104 2x57-a1-m1-cA_2x57-a1-m2-cA 2x57-a1-m1-cC_2x57-a1-m2-cB GVDLGTENLYFQSRFHLEIQEEETKCAELLRSQTEKHKACSGVWDNITCWRPANVGETVTVPCPKVFSNFYSKAGNISKNCTSDGWSETFPDFVDACGYSDP SSGVDLGTENLYFQSRFHLEIQEEETKCAELLRSQTEKHKACSGVWDNITCWRPANVGETVTVPCPKVFSNFYSKAGNISKNCTSDGWSETFPDFVDACGYSDP 2x5c-a2-m1-cB_2x5c-a2-m3-cB Crystal structure of hypothetical protein ORF131 from Pyrobaculum Spherical Virus Q6ZYH1 Q6ZYH1 1.8 X-RAY DIFFRACTION 83 1.0 270161 (Pyrobaculum spherical virus) 270161 (Pyrobaculum spherical virus) 101 101 2x5c-a1-m1-cA_2x5c-a1-m2-cA YKQEYDMAADLVRMLRGLGVFMHAKCPRCGAEGSVSIVETKNGYKYLVIRHPDGGTHTVPKTDISAILKELCEVKKDLEYVLKRYKEYEEEGGVKFCAEGR YKQEYDMAADLVRMLRGLGVFMHAKCPRCGAEGSVSIVETKNGYKYLVIRHPDGGTHTVPKTDISAILKELCEVKKDLEYVLKRYKEYEEEGGVKFCAEGR 2x5d-a1-m1-cA_2x5d-a1-m1-cD Crystal Structure of a probable aminotransferase from Pseudomonas aeruginosa Q9HV83 Q9HV83 2.25 X-RAY DIFFRACTION 90 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 371 380 2x5d-a1-m1-cB_2x5d-a1-m1-cC VFNITAELKMAARRRGEDIIDLSMGNPDGPTPPHIVEKLCTVATSRGIPRLRRAISHWYRDRYDVQIDPESEAIVTIGSKEGLAHLMLATLDHGDTILVPNPSYPIHIYGAVIAGAQVRSVPLVPGIDFFNELERAIRESIPKPRMMILGFPSNPTAQCVELDFFERVVALAKQYDVMVVHDLAYADIVYDGWKAPSIMQVPGAKDIAVEFFTLSKSYNMAGWRIGFMVGNPELVSALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIARQYQQRRDVLVKGLREAGWMVENPKASMYVWAKIPEPYAHLGSLEFAKKLLQDAKVSVSPGIGFGDYGDDHVRFALIENRDRLRQAVRGIKAMFRADGL VFNITAELKMAARRRGEDIIDLSMGNPDGPTPPHIVEKLCTVAQREDTHGYSTSRGIPRLRRAISHWYRDRYDVQIDPESEAIVTIGSKEGLAHLMLATLDHGDTILVPNPSYPIHIYGAVIAGAQVRSVPLVPGIDFFNELERAIRESIPKPRMMILGFPSNPTAQCVELDFFERVVALAKQYDVMVVHDLAYADIVYDGWKAPSIMQVPGAKDIAVEFFTLSKSYNMAGWRIGFMVGNPELVSALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIARQYQQRRDVLVKGLREAGWMVENPKASMYVWAKIPEPYAHLGSLEFAKKLLQDAKVSVSPGIGFGDYGDDHVRFALIENRDRLRQAVRGIKAMFRADGL 2x5d-a1-m1-cB_2x5d-a1-m1-cD Crystal Structure of a probable aminotransferase from Pseudomonas aeruginosa Q9HV83 Q9HV83 2.25 X-RAY DIFFRACTION 50 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 367 380 2x5d-a1-m1-cA_2x5d-a1-m1-cC VFNITAELKMAARRRGEDIIDLSMGNPDGPTPPHIVEKLCTVAQSRGIPRLRRAISHWYRDRYDVQIDPESEAIVTIGSKEGLAHLMLATLDHGDTILVPNPSYPIHIYGAVIAGAQVRSVPLVPGIDFFNELERAIRESIPKPRMMILGFPSNPTAQCVELDFFERVVALAKQYDVMVVHDLAYADIVYDGWKAPSIMQVPGAKDIAVEFFTLSKSYNMAGWRIGFMVGNPELVSALARIKSYHDYPLQVAAIAALEGDQQCVRDIARQYQQRRDVLVKGLREAGWMVENPKASMYVWAKIPEPYAHLGSLEFAKKLLQDAKVSVSPGIGFGDYGDDHVRFALIENRDRLRQAVRGIKAMFRADGL VFNITAELKMAARRRGEDIIDLSMGNPDGPTPPHIVEKLCTVAQREDTHGYSTSRGIPRLRRAISHWYRDRYDVQIDPESEAIVTIGSKEGLAHLMLATLDHGDTILVPNPSYPIHIYGAVIAGAQVRSVPLVPGIDFFNELERAIRESIPKPRMMILGFPSNPTAQCVELDFFERVVALAKQYDVMVVHDLAYADIVYDGWKAPSIMQVPGAKDIAVEFFTLSKSYNMAGWRIGFMVGNPELVSALARIKSYHDYGTFTPLQVAAIAALEGDQQCVRDIARQYQQRRDVLVKGLREAGWMVENPKASMYVWAKIPEPYAHLGSLEFAKKLLQDAKVSVSPGIGFGDYGDDHVRFALIENRDRLRQAVRGIKAMFRADGL 2x5f-a1-m1-cA_2x5f-a1-m1-cB Crystal structure of the methicillin-resistant Staphylococcus aureus Sar2028, an aspartate_tyrosine_phenylalanine pyridoxal-5'-phosphate dependent aminotransferase 1.8 X-RAY DIFFRACTION 360 0.998 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 428 428 MNPLAQSLNEQLQQSNATAFAMLSDLGQNMFYPKGILSQSAEAKSTTYNATIGMATNKDGKMFASSLDAMFNDLTPDEIFPYAPPQGIEELRDLWQQKMLRDNPELSIDNMSRPIVTNALTHGLSLVGDLFVNQDDTILLPEHNWGNYKLVFNTRNGANLQTYPIFDKDGHYTTDSLVEALQSYNKDKVIMILNYPNNPTGYTPTHKEVTTIVEAIKALANKGTKVIAVVDDAYYGLFYEDVYTQSLFTALTNLHSNAILPIRLDGATKEFFAWGFRVGFMTFGTSDQTTKEVLEAKVKGLIRSNISSGPLPTQSAVKHVLKNNKQFDKEIEQNIQTLKERYEVTKEVVYADQYHSHWQAYDFNSGYFMAIKVHDVDPEALRKHLIDKYSIGVIALNATDIRIAFSCVEKDDIPHVFDSIAKAIDDLR AMNPLAQSLNEQLQQSNATAFAMLSDLGQNMFYPKGILSQSAEAKSTTYNATIGMATNKDGKMFASSLDAMFNDLTPDEIFPYAPPQGIEELRDLWQQKMLRDNPELSIDNMSRPIVTNALTHGLSLVGDLFVNQDDTILLPEHNWGNYKLVFNTRNGANLQTYPIFDKDGHYTTDSLVEALQSYNKDKVIMILNYPNNPTGYTPTHKEVTTIVEAIKALANKGTKVIAVVDDAYYGLFYEDVYTQSLFTALTNLHSNAILPIRLDGATKEFFAWGFRVGFMTFGTSDQTTKEVLEAKVKGLIRSNISSGPLPTQSAVKHVLKNNKQFDKEIEQNIQTLKERYEVTKEVVYADQYHSHWQAYDFNSGYFMAIKVHDVDPEALRKHLIDKYSIGVIALNATDIRIAFSCVEKDDIPHVFDSIAKAIDDL 2x5g-a1-m1-cA_2x5g-a1-m2-cA Crystal structure of the ORF131L51M mutant from Sulfolobus islandicus rudivirus 1 Q8QL44 Q8QL44 2 X-RAY DIFFRACTION 78 1.0 282066 (Sulfolobus islandicus rudivirus 1 variant XX) 282066 (Sulfolobus islandicus rudivirus 1 variant XX) 90 90 2x5t-a1-m1-cA_2x5t-a1-m2-cA ASLKEIIDELGKQAKEQNKIASRILKIKGIKRIVVQLNAVPKIRYSTIHSQNNFRKQIGITPQDAEDLKLIAEFLEKYSDFLNEYVKFTP ASLKEIIDELGKQAKEQNKIASRILKIKGIKRIVVQLNAVPKIRYSTIHSQNNFRKQIGITPQDAEDLKLIAEFLEKYSDFLNEYVKFTP 2x5h-a1-m1-cA_2x5h-a1-m1-cD Crystal structure of the ORF131 L26M L51M double mutant from Sulfolobus islandicus rudivirus 1 Q8QL44 Q8QL44 1.8 X-RAY DIFFRACTION 153 0.989 282066 (Sulfolobus islandicus rudivirus 1 variant XX) 282066 (Sulfolobus islandicus rudivirus 1 variant XX) 92 94 GMASLKEIIDELGKQAKEQNKIASRIMKIKGIKRIVVQLNAVPQDGKIRYSMTIHSQNNFRKQIGITPQDAEDLKLIAEFLEKYSDFLNEYV MASLKEIIDELGKQAKEQNKIASRIMKIKGIKRIVVQLNAVPQDGKIRYSMTIHSQNNFRKQIGITPQDAEDLKLIAEFLEKYSDFLNEYVKFT 2x5i-a1-m7-cC_2x5i-a1-m9-cC Crystal structure echovirus 7 Q6W9E5 Q6W9E5 3.1 X-RAY DIFFRACTION 12 1.0 46018 (Echovirus E7) 46018 (Echovirus E7) 238 238 2x5i-a1-m10-cC_2x5i-a1-m7-cC 2x5i-a1-m10-cC_2x5i-a1-m8-cC 2x5i-a1-m11-cC_2x5i-a1-m13-cC 2x5i-a1-m11-cC_2x5i-a1-m14-cC 2x5i-a1-m12-cC_2x5i-a1-m14-cC 2x5i-a1-m12-cC_2x5i-a1-m15-cC 2x5i-a1-m13-cC_2x5i-a1-m15-cC 2x5i-a1-m16-cC_2x5i-a1-m18-cC 2x5i-a1-m16-cC_2x5i-a1-m19-cC 2x5i-a1-m17-cC_2x5i-a1-m19-cC 2x5i-a1-m17-cC_2x5i-a1-m20-cC 2x5i-a1-m18-cC_2x5i-a1-m20-cC 2x5i-a1-m1-cC_2x5i-a1-m3-cC 2x5i-a1-m1-cC_2x5i-a1-m4-cC 2x5i-a1-m21-cC_2x5i-a1-m23-cC 2x5i-a1-m21-cC_2x5i-a1-m24-cC 2x5i-a1-m22-cC_2x5i-a1-m24-cC 2x5i-a1-m22-cC_2x5i-a1-m25-cC 2x5i-a1-m23-cC_2x5i-a1-m25-cC 2x5i-a1-m26-cC_2x5i-a1-m28-cC 2x5i-a1-m26-cC_2x5i-a1-m29-cC 2x5i-a1-m27-cC_2x5i-a1-m29-cC 2x5i-a1-m27-cC_2x5i-a1-m30-cC 2x5i-a1-m28-cC_2x5i-a1-m30-cC 2x5i-a1-m2-cC_2x5i-a1-m4-cC 2x5i-a1-m2-cC_2x5i-a1-m5-cC 2x5i-a1-m31-cC_2x5i-a1-m33-cC 2x5i-a1-m31-cC_2x5i-a1-m34-cC 2x5i-a1-m32-cC_2x5i-a1-m34-cC 2x5i-a1-m32-cC_2x5i-a1-m35-cC 2x5i-a1-m33-cC_2x5i-a1-m35-cC 2x5i-a1-m36-cC_2x5i-a1-m38-cC 2x5i-a1-m36-cC_2x5i-a1-m39-cC 2x5i-a1-m37-cC_2x5i-a1-m39-cC 2x5i-a1-m37-cC_2x5i-a1-m40-cC 2x5i-a1-m38-cC_2x5i-a1-m40-cC 2x5i-a1-m3-cC_2x5i-a1-m5-cC 2x5i-a1-m41-cC_2x5i-a1-m43-cC 2x5i-a1-m41-cC_2x5i-a1-m44-cC 2x5i-a1-m42-cC_2x5i-a1-m44-cC 2x5i-a1-m42-cC_2x5i-a1-m45-cC 2x5i-a1-m43-cC_2x5i-a1-m45-cC 2x5i-a1-m46-cC_2x5i-a1-m48-cC 2x5i-a1-m46-cC_2x5i-a1-m49-cC 2x5i-a1-m47-cC_2x5i-a1-m49-cC 2x5i-a1-m47-cC_2x5i-a1-m50-cC 2x5i-a1-m48-cC_2x5i-a1-m50-cC 2x5i-a1-m51-cC_2x5i-a1-m53-cC 2x5i-a1-m51-cC_2x5i-a1-m54-cC 2x5i-a1-m52-cC_2x5i-a1-m54-cC 2x5i-a1-m52-cC_2x5i-a1-m55-cC 2x5i-a1-m53-cC_2x5i-a1-m55-cC 2x5i-a1-m56-cC_2x5i-a1-m58-cC 2x5i-a1-m56-cC_2x5i-a1-m59-cC 2x5i-a1-m57-cC_2x5i-a1-m59-cC 2x5i-a1-m57-cC_2x5i-a1-m60-cC 2x5i-a1-m58-cC_2x5i-a1-m60-cC 2x5i-a1-m6-cC_2x5i-a1-m8-cC 2x5i-a1-m6-cC_2x5i-a1-m9-cC 3iyp-a1-m10-cB_3iyp-a1-m7-cB 3iyp-a1-m10-cB_3iyp-a1-m8-cB 3iyp-a1-m11-cB_3iyp-a1-m13-cB 3iyp-a1-m11-cB_3iyp-a1-m14-cB 3iyp-a1-m12-cB_3iyp-a1-m14-cB 3iyp-a1-m12-cB_3iyp-a1-m15-cB 3iyp-a1-m13-cB_3iyp-a1-m15-cB 3iyp-a1-m16-cB_3iyp-a1-m18-cB 3iyp-a1-m16-cB_3iyp-a1-m19-cB 3iyp-a1-m17-cB_3iyp-a1-m19-cB 3iyp-a1-m17-cB_3iyp-a1-m20-cB 3iyp-a1-m18-cB_3iyp-a1-m20-cB 3iyp-a1-m1-cB_3iyp-a1-m3-cB 3iyp-a1-m1-cB_3iyp-a1-m4-cB 3iyp-a1-m21-cB_3iyp-a1-m23-cB 3iyp-a1-m21-cB_3iyp-a1-m24-cB 3iyp-a1-m22-cB_3iyp-a1-m24-cB 3iyp-a1-m22-cB_3iyp-a1-m25-cB 3iyp-a1-m23-cB_3iyp-a1-m25-cB 3iyp-a1-m26-cB_3iyp-a1-m28-cB 3iyp-a1-m26-cB_3iyp-a1-m29-cB 3iyp-a1-m27-cB_3iyp-a1-m29-cB 3iyp-a1-m27-cB_3iyp-a1-m30-cB 3iyp-a1-m28-cB_3iyp-a1-m30-cB 3iyp-a1-m2-cB_3iyp-a1-m4-cB 3iyp-a1-m2-cB_3iyp-a1-m5-cB 3iyp-a1-m31-cB_3iyp-a1-m33-cB 3iyp-a1-m31-cB_3iyp-a1-m34-cB 3iyp-a1-m32-cB_3iyp-a1-m34-cB 3iyp-a1-m32-cB_3iyp-a1-m35-cB 3iyp-a1-m33-cB_3iyp-a1-m35-cB 3iyp-a1-m36-cB_3iyp-a1-m38-cB 3iyp-a1-m36-cB_3iyp-a1-m39-cB 3iyp-a1-m37-cB_3iyp-a1-m39-cB 3iyp-a1-m37-cB_3iyp-a1-m40-cB 3iyp-a1-m38-cB_3iyp-a1-m40-cB 3iyp-a1-m3-cB_3iyp-a1-m5-cB 3iyp-a1-m41-cB_3iyp-a1-m43-cB 3iyp-a1-m41-cB_3iyp-a1-m44-cB 3iyp-a1-m42-cB_3iyp-a1-m44-cB 3iyp-a1-m42-cB_3iyp-a1-m45-cB 3iyp-a1-m43-cB_3iyp-a1-m45-cB 3iyp-a1-m46-cB_3iyp-a1-m48-cB 3iyp-a1-m46-cB_3iyp-a1-m49-cB 3iyp-a1-m47-cB_3iyp-a1-m49-cB 3iyp-a1-m47-cB_3iyp-a1-m50-cB 3iyp-a1-m48-cB_3iyp-a1-m50-cB 3iyp-a1-m51-cB_3iyp-a1-m53-cB 3iyp-a1-m51-cB_3iyp-a1-m54-cB 3iyp-a1-m52-cB_3iyp-a1-m54-cB 3iyp-a1-m52-cB_3iyp-a1-m55-cB 3iyp-a1-m53-cB_3iyp-a1-m55-cB 3iyp-a1-m56-cB_3iyp-a1-m58-cB 3iyp-a1-m56-cB_3iyp-a1-m59-cB 3iyp-a1-m57-cB_3iyp-a1-m59-cB 3iyp-a1-m57-cB_3iyp-a1-m60-cB 3iyp-a1-m58-cB_3iyp-a1-m60-cB 3iyp-a1-m6-cB_3iyp-a1-m8-cB 3iyp-a1-m6-cB_3iyp-a1-m9-cB 3iyp-a1-m7-cB_3iyp-a1-m9-cB GLPVLNTPGSNQFMTSDDFQSPSAMPQFDVTPHMDIPGEVHNLMEIAEVDSVVPVNNIKANLQSMDAYHIEVNTGNYQGEKIFAFQMQPGLESVFKRTLMGEILNYYAHWSGSIKLTFTFCGSAMATGKLLLAYSPPGADVPATRKQAMLGTHMIWDIGLQSSCVLCIPWISQTHYRLVQQDEYTSAGNVTCWYQTGIVVPPGTPNKCVVLCFASACNDFSVRMLRDTPFIGQTALLQ GLPVLNTPGSNQFMTSDDFQSPSAMPQFDVTPHMDIPGEVHNLMEIAEVDSVVPVNNIKANLQSMDAYHIEVNTGNYQGEKIFAFQMQPGLESVFKRTLMGEILNYYAHWSGSIKLTFTFCGSAMATGKLLLAYSPPGADVPATRKQAMLGTHMIWDIGLQSSCVLCIPWISQTHYRLVQQDEYTSAGNVTCWYQTGIVVPPGTPNKCVVLCFASACNDFSVRMLRDTPFIGQTALLQ 2x5i-a1-m8-cC_2x5i-a1-m9-cC Crystal structure echovirus 7 Q6W9E5 Q6W9E5 3.1 X-RAY DIFFRACTION 54 1.0 46018 (Echovirus E7) 46018 (Echovirus E7) 238 238 1m11-a1-m10-c3_1m11-a1-m6-c3 1m11-a1-m10-c3_1m11-a1-m9-c3 1m11-a1-m11-c3_1m11-a1-m12-c3 1m11-a1-m11-c3_1m11-a1-m15-c3 1m11-a1-m12-c3_1m11-a1-m13-c3 1m11-a1-m13-c3_1m11-a1-m14-c3 1m11-a1-m14-c3_1m11-a1-m15-c3 1m11-a1-m16-c3_1m11-a1-m17-c3 1m11-a1-m16-c3_1m11-a1-m20-c3 1m11-a1-m17-c3_1m11-a1-m18-c3 1m11-a1-m18-c3_1m11-a1-m19-c3 1m11-a1-m19-c3_1m11-a1-m20-c3 1m11-a1-m1-c3_1m11-a1-m2-c3 1m11-a1-m1-c3_1m11-a1-m5-c3 1m11-a1-m21-c3_1m11-a1-m22-c3 1m11-a1-m21-c3_1m11-a1-m25-c3 1m11-a1-m22-c3_1m11-a1-m23-c3 1m11-a1-m23-c3_1m11-a1-m24-c3 1m11-a1-m24-c3_1m11-a1-m25-c3 1m11-a1-m26-c3_1m11-a1-m27-c3 1m11-a1-m26-c3_1m11-a1-m30-c3 1m11-a1-m27-c3_1m11-a1-m28-c3 1m11-a1-m28-c3_1m11-a1-m29-c3 1m11-a1-m29-c3_1m11-a1-m30-c3 1m11-a1-m2-c3_1m11-a1-m3-c3 1m11-a1-m31-c3_1m11-a1-m32-c3 1m11-a1-m31-c3_1m11-a1-m35-c3 1m11-a1-m32-c3_1m11-a1-m33-c3 1m11-a1-m33-c3_1m11-a1-m34-c3 1m11-a1-m34-c3_1m11-a1-m35-c3 1m11-a1-m36-c3_1m11-a1-m37-c3 1m11-a1-m36-c3_1m11-a1-m40-c3 1m11-a1-m37-c3_1m11-a1-m38-c3 1m11-a1-m38-c3_1m11-a1-m39-c3 1m11-a1-m39-c3_1m11-a1-m40-c3 1m11-a1-m3-c3_1m11-a1-m4-c3 1m11-a1-m41-c3_1m11-a1-m42-c3 1m11-a1-m41-c3_1m11-a1-m45-c3 1m11-a1-m42-c3_1m11-a1-m43-c3 1m11-a1-m43-c3_1m11-a1-m44-c3 1m11-a1-m44-c3_1m11-a1-m45-c3 1m11-a1-m46-c3_1m11-a1-m47-c3 1m11-a1-m46-c3_1m11-a1-m50-c3 1m11-a1-m47-c3_1m11-a1-m48-c3 1m11-a1-m48-c3_1m11-a1-m49-c3 1m11-a1-m49-c3_1m11-a1-m50-c3 1m11-a1-m4-c3_1m11-a1-m5-c3 1m11-a1-m51-c3_1m11-a1-m52-c3 1m11-a1-m51-c3_1m11-a1-m55-c3 1m11-a1-m52-c3_1m11-a1-m53-c3 1m11-a1-m53-c3_1m11-a1-m54-c3 1m11-a1-m54-c3_1m11-a1-m55-c3 1m11-a1-m56-c3_1m11-a1-m57-c3 1m11-a1-m56-c3_1m11-a1-m60-c3 1m11-a1-m57-c3_1m11-a1-m58-c3 1m11-a1-m58-c3_1m11-a1-m59-c3 1m11-a1-m59-c3_1m11-a1-m60-c3 1m11-a1-m6-c3_1m11-a1-m7-c3 1m11-a1-m7-c3_1m11-a1-m8-c3 1m11-a1-m8-c3_1m11-a1-m9-c3 2x5i-a1-m10-cC_2x5i-a1-m6-cC 2x5i-a1-m10-cC_2x5i-a1-m9-cC 2x5i-a1-m11-cC_2x5i-a1-m12-cC 2x5i-a1-m11-cC_2x5i-a1-m15-cC 2x5i-a1-m12-cC_2x5i-a1-m13-cC 2x5i-a1-m13-cC_2x5i-a1-m14-cC 2x5i-a1-m14-cC_2x5i-a1-m15-cC 2x5i-a1-m16-cC_2x5i-a1-m17-cC 2x5i-a1-m16-cC_2x5i-a1-m20-cC 2x5i-a1-m17-cC_2x5i-a1-m18-cC 2x5i-a1-m18-cC_2x5i-a1-m19-cC 2x5i-a1-m19-cC_2x5i-a1-m20-cC 2x5i-a1-m1-cC_2x5i-a1-m2-cC 2x5i-a1-m1-cC_2x5i-a1-m5-cC 2x5i-a1-m21-cC_2x5i-a1-m22-cC 2x5i-a1-m21-cC_2x5i-a1-m25-cC 2x5i-a1-m22-cC_2x5i-a1-m23-cC 2x5i-a1-m23-cC_2x5i-a1-m24-cC 2x5i-a1-m24-cC_2x5i-a1-m25-cC 2x5i-a1-m26-cC_2x5i-a1-m27-cC 2x5i-a1-m26-cC_2x5i-a1-m30-cC 2x5i-a1-m27-cC_2x5i-a1-m28-cC 2x5i-a1-m28-cC_2x5i-a1-m29-cC 2x5i-a1-m29-cC_2x5i-a1-m30-cC 2x5i-a1-m2-cC_2x5i-a1-m3-cC 2x5i-a1-m31-cC_2x5i-a1-m32-cC 2x5i-a1-m31-cC_2x5i-a1-m35-cC 2x5i-a1-m32-cC_2x5i-a1-m33-cC 2x5i-a1-m33-cC_2x5i-a1-m34-cC 2x5i-a1-m34-cC_2x5i-a1-m35-cC 2x5i-a1-m36-cC_2x5i-a1-m37-cC 2x5i-a1-m36-cC_2x5i-a1-m40-cC 2x5i-a1-m37-cC_2x5i-a1-m38-cC 2x5i-a1-m38-cC_2x5i-a1-m39-cC 2x5i-a1-m39-cC_2x5i-a1-m40-cC 2x5i-a1-m3-cC_2x5i-a1-m4-cC 2x5i-a1-m41-cC_2x5i-a1-m42-cC 2x5i-a1-m41-cC_2x5i-a1-m45-cC 2x5i-a1-m42-cC_2x5i-a1-m43-cC 2x5i-a1-m43-cC_2x5i-a1-m44-cC 2x5i-a1-m44-cC_2x5i-a1-m45-cC 2x5i-a1-m46-cC_2x5i-a1-m47-cC 2x5i-a1-m46-cC_2x5i-a1-m50-cC 2x5i-a1-m47-cC_2x5i-a1-m48-cC 2x5i-a1-m48-cC_2x5i-a1-m49-cC 2x5i-a1-m49-cC_2x5i-a1-m50-cC 2x5i-a1-m4-cC_2x5i-a1-m5-cC 2x5i-a1-m51-cC_2x5i-a1-m52-cC 2x5i-a1-m51-cC_2x5i-a1-m55-cC 2x5i-a1-m52-cC_2x5i-a1-m53-cC 2x5i-a1-m53-cC_2x5i-a1-m54-cC 2x5i-a1-m54-cC_2x5i-a1-m55-cC 2x5i-a1-m56-cC_2x5i-a1-m57-cC 2x5i-a1-m56-cC_2x5i-a1-m60-cC 2x5i-a1-m57-cC_2x5i-a1-m58-cC 2x5i-a1-m58-cC_2x5i-a1-m59-cC 2x5i-a1-m59-cC_2x5i-a1-m60-cC 2x5i-a1-m6-cC_2x5i-a1-m7-cC 2x5i-a1-m7-cC_2x5i-a1-m8-cC 3iyp-a1-m10-cB_3iyp-a1-m6-cB 3iyp-a1-m10-cB_3iyp-a1-m9-cB 3iyp-a1-m11-cB_3iyp-a1-m12-cB 3iyp-a1-m11-cB_3iyp-a1-m15-cB 3iyp-a1-m12-cB_3iyp-a1-m13-cB 3iyp-a1-m13-cB_3iyp-a1-m14-cB 3iyp-a1-m14-cB_3iyp-a1-m15-cB 3iyp-a1-m16-cB_3iyp-a1-m17-cB 3iyp-a1-m16-cB_3iyp-a1-m20-cB 3iyp-a1-m17-cB_3iyp-a1-m18-cB 3iyp-a1-m18-cB_3iyp-a1-m19-cB 3iyp-a1-m19-cB_3iyp-a1-m20-cB 3iyp-a1-m1-cB_3iyp-a1-m2-cB 3iyp-a1-m1-cB_3iyp-a1-m5-cB 3iyp-a1-m21-cB_3iyp-a1-m22-cB 3iyp-a1-m21-cB_3iyp-a1-m25-cB 3iyp-a1-m22-cB_3iyp-a1-m23-cB 3iyp-a1-m23-cB_3iyp-a1-m24-cB 3iyp-a1-m24-cB_3iyp-a1-m25-cB 3iyp-a1-m26-cB_3iyp-a1-m27-cB 3iyp-a1-m26-cB_3iyp-a1-m30-cB 3iyp-a1-m27-cB_3iyp-a1-m28-cB 3iyp-a1-m28-cB_3iyp-a1-m29-cB 3iyp-a1-m29-cB_3iyp-a1-m30-cB 3iyp-a1-m2-cB_3iyp-a1-m3-cB 3iyp-a1-m31-cB_3iyp-a1-m32-cB 3iyp-a1-m31-cB_3iyp-a1-m35-cB 3iyp-a1-m32-cB_3iyp-a1-m33-cB 3iyp-a1-m33-cB_3iyp-a1-m34-cB 3iyp-a1-m34-cB_3iyp-a1-m35-cB 3iyp-a1-m36-cB_3iyp-a1-m37-cB 3iyp-a1-m36-cB_3iyp-a1-m40-cB 3iyp-a1-m37-cB_3iyp-a1-m38-cB 3iyp-a1-m38-cB_3iyp-a1-m39-cB 3iyp-a1-m39-cB_3iyp-a1-m40-cB 3iyp-a1-m3-cB_3iyp-a1-m4-cB 3iyp-a1-m41-cB_3iyp-a1-m42-cB 3iyp-a1-m41-cB_3iyp-a1-m45-cB 3iyp-a1-m42-cB_3iyp-a1-m43-cB 3iyp-a1-m43-cB_3iyp-a1-m44-cB 3iyp-a1-m44-cB_3iyp-a1-m45-cB 3iyp-a1-m46-cB_3iyp-a1-m47-cB 3iyp-a1-m46-cB_3iyp-a1-m50-cB 3iyp-a1-m47-cB_3iyp-a1-m48-cB 3iyp-a1-m48-cB_3iyp-a1-m49-cB 3iyp-a1-m49-cB_3iyp-a1-m50-cB 3iyp-a1-m4-cB_3iyp-a1-m5-cB 3iyp-a1-m51-cB_3iyp-a1-m52-cB 3iyp-a1-m51-cB_3iyp-a1-m55-cB 3iyp-a1-m52-cB_3iyp-a1-m53-cB 3iyp-a1-m53-cB_3iyp-a1-m54-cB 3iyp-a1-m54-cB_3iyp-a1-m55-cB 3iyp-a1-m56-cB_3iyp-a1-m57-cB 3iyp-a1-m56-cB_3iyp-a1-m60-cB 3iyp-a1-m57-cB_3iyp-a1-m58-cB 3iyp-a1-m58-cB_3iyp-a1-m59-cB 3iyp-a1-m59-cB_3iyp-a1-m60-cB 3iyp-a1-m6-cB_3iyp-a1-m7-cB 3iyp-a1-m7-cB_3iyp-a1-m8-cB 3iyp-a1-m8-cB_3iyp-a1-m9-cB GLPVLNTPGSNQFMTSDDFQSPSAMPQFDVTPHMDIPGEVHNLMEIAEVDSVVPVNNIKANLQSMDAYHIEVNTGNYQGEKIFAFQMQPGLESVFKRTLMGEILNYYAHWSGSIKLTFTFCGSAMATGKLLLAYSPPGADVPATRKQAMLGTHMIWDIGLQSSCVLCIPWISQTHYRLVQQDEYTSAGNVTCWYQTGIVVPPGTPNKCVVLCFASACNDFSVRMLRDTPFIGQTALLQ GLPVLNTPGSNQFMTSDDFQSPSAMPQFDVTPHMDIPGEVHNLMEIAEVDSVVPVNNIKANLQSMDAYHIEVNTGNYQGEKIFAFQMQPGLESVFKRTLMGEILNYYAHWSGSIKLTFTFCGSAMATGKLLLAYSPPGADVPATRKQAMLGTHMIWDIGLQSSCVLCIPWISQTHYRLVQQDEYTSAGNVTCWYQTGIVVPPGTPNKCVVLCFASACNDFSVRMLRDTPFIGQTALLQ 2x5q-a1-m1-cB_2x5q-a1-m1-cA Crystal Structure of Hypothetical protein sso1986 from Sulfolobus solfataricus P2 Q97WX5 Q97WX5 2.05 X-RAY DIFFRACTION 75 0.989 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 180 183 WEEQVFLPITNSISSEDNNQIKIGSSVSIEYNQNGQHVSQIDDKGLHNILVLTGYAIDESTGELVPTFDPCDYVKGILISGKILKGNHFKIIGIPSNKLYIIRKKDVHGNITFSLPITYQVDLRDKVTSFVSLDRDVAKTIVDNVLAKIYAKIYNSLNKEQKDKLYRDVEEIFNYYSIKS WEEQVFLPITNSISSEDNNQIKIGSSVSIEYNQNGQHVSQIDDKGLHNILVLTGYAIDESTGELVPTFDPCDYVKGILISGKILKGNHFKIIGIPSNKLYIIRKKDVHGNITFSLPIKQVDLRDKVTSFVSLDRDVAKTIVDNVLAKIYAKIYNSLNKEQKDKLYRDVEEIFNYYSIKSLKSN 2x5r-a1-m1-cA_2x5r-a1-m2-cA Crystal Structure of the hypothetical protein ORF126 from Pyrobaculum spherical virus Q6ZYF6 Q6ZYF6 2 X-RAY DIFFRACTION 31 1.0 270161 (Pyrobaculum spherical virus) 270161 (Pyrobaculum spherical virus) 124 124 GAMARVGPKIEITHGGKKYTVFSKVTHLVPRTENGEEAEYVVFGPEKEGVISVVVLAPKDLNEEALALRVKWFNDTKPRCVKCGAAYNGKNHFRVVAIRNGTYYLDAVCDKCEPRITWLSAIVI GAMARVGPKIEITHGGKKYTVFSKVTHLVPRTENGEEAEYVVFGPEKEGVISVVVLAPKDLNEEALALRVKWFNDTKPRCVKCGAAYNGKNHFRVVAIRNGTYYLDAVCDKCEPRITWLSAIVI 2x5s-a1-m1-cA_2x5s-a1-m1-cB Crystal structure of T. maritima GDP-mannose pyrophosphorylase in apo state. Q9X0C3 Q9X0C3 2.35 X-RAY DIFFRACTION 117 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 333 333 2x5z-a1-m1-cA_2x5z-a1-m1-cB 2x60-a1-m1-cA_2x60-a1-m1-cB 2x65-a1-m1-cA_2x65-a1-m1-cB VMKALILAGGSGERFWPLSTPETPKQFLKLFGNKSLMRWTFERVLEEMDPKDVIVVTHKDYVERTKKELPELPDENIIAEPMKKNTAPACFIGTKLADDDEPVLVLPADHRIPDTKKFWKTVKKALDALEKYDGLFTFGIVPTRPETGYGYIEIGEELEEGVHKVAQFREKPDLETAKKFVESGRFLWNSGMFLWKAREFIEEVKVCEPSIYENLKDVDPRNFEELKKAYEKVPSISVDYAVMEKSKKVRVVKADFEWSDLGNWSSVREIEGYTEESDEVILVDSDRVFVKTHNKPIAVVGLSDVIVIDTPNGILICKEEYAQKVREVVKKLF VMKALILAGGSGERFWPLSTPETPKQFLKLFGNKSLMRWTFERVLEEMDPKDVIVVTHKDYVERTKKELPELPDENIIAEPMKKNTAPACFIGTKLADDDEPVLVLPADHRIPDTKKFWKTVKKALDALEKYDGLFTFGIVPTRPETGYGYIEIGEELEEGVHKVAQFREKPDLETAKKFVESGRFLWNSGMFLWKAREFIEEVKVCEPSIYENLKDVDPRNFEELKKAYEKVPSISVDYAVMEKSKKVRVVKADFEWSDLGNWSSVREIEGYTEESDEVILVDSDRVFVKTHNKPIAVVGLSDVIVIDTPNGILICKEEYAQKVREVVKKLF 2x5x-a1-m1-cA_2x5x-a1-m2-cA The crystal structure of PhaZ7 at atomic (1.2 Angstrom) resolution reveals details of the active site and suggests a substrate binding mode Q939Q9 Q939Q9 1.2 X-RAY DIFFRACTION 26 1.0 29443 (Paucimonas lemoignei) 29443 (Paucimonas lemoignei) 342 342 2x76-a1-m1-cA_2x76-a1-m2-cA LTCGTNSGFVCKGTQTQYAGGFAPGVGYGGFGGGSCTATKTPVIFIHGNGDNAISFDMPPGNVSGYGTPARSVYAELKARGYNDCEIFGVTYLSSSEQGSAQYNYHSSTKYAIIKTFIDKVKAYTGKSQVDIVAHSMGVSMSLATLQYYNNWTSVRKFINLAGGIRGLYSCYYTGYANAAAPTCGSQNYYNSYTFGFFPEGWYYGVWVSNPWTGSGSTNSMRDMPAKRTAVSFYTLSAGFKDQVGCATASFWAGCDSAAKFASTTSNVKAQINVGAGSNATQADYDWADGMPYNAGGGDTTNGVGHFRTKTNTGAIIQRMLLTTCTGLDCAAEYTTGPKAAY LTCGTNSGFVCKGTQTQYAGGFAPGVGYGGFGGGSCTATKTPVIFIHGNGDNAISFDMPPGNVSGYGTPARSVYAELKARGYNDCEIFGVTYLSSSEQGSAQYNYHSSTKYAIIKTFIDKVKAYTGKSQVDIVAHSMGVSMSLATLQYYNNWTSVRKFINLAGGIRGLYSCYYTGYANAAAPTCGSQNYYNSYTFGFFPEGWYYGVWVSNPWTGSGSTNSMRDMPAKRTAVSFYTLSAGFKDQVGCATASFWAGCDSAAKFASTTSNVKAQINVGAGSNATQADYDWADGMPYNAGGGDTTNGVGHFRTKTNTGAIIQRMLLTTCTGLDCAAEYTTGPKAAY 2x61-a2-m5-cB_2x61-a2-m7-cB Crystal structure of the sialyltransferase CST-II in complex with trisaccharide acceptor and CMP Q9LAK3 Q9LAK3 1.95 X-RAY DIFFRACTION 38 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 243 243 1ro7-a1-m1-cB_1ro7-a1-m1-cA 1ro7-a1-m1-cB_1ro7-a1-m1-cD 1ro7-a1-m1-cC_1ro7-a1-m1-cA 1ro7-a1-m1-cD_1ro7-a1-m1-cC 1ro8-a1-m1-cA_1ro8-a1-m3-cA 1ro8-a1-m1-cA_1ro8-a1-m4-cA 1ro8-a1-m2-cA_1ro8-a1-m3-cA 1ro8-a1-m2-cA_1ro8-a1-m4-cA 1ro8-a2-m1-cB_1ro8-a2-m6-cB 1ro8-a2-m1-cB_1ro8-a2-m7-cB 1ro8-a2-m5-cB_1ro8-a2-m6-cB 1ro8-a2-m5-cB_1ro8-a2-m7-cB 2drj-a1-m1-cA_2drj-a1-m3-cA 2drj-a1-m1-cA_2drj-a1-m4-cA 2drj-a1-m2-cA_2drj-a1-m3-cA 2drj-a1-m2-cA_2drj-a1-m4-cA 2x61-a1-m1-cA_2x61-a1-m2-cA 2x61-a1-m1-cA_2x61-a1-m3-cA 2x61-a1-m2-cA_2x61-a1-m4-cA 2x61-a1-m3-cA_2x61-a1-m4-cA 2x61-a2-m1-cB_2x61-a2-m6-cB 2x61-a2-m1-cB_2x61-a2-m7-cB 2x61-a2-m5-cB_2x61-a2-m6-cB 2x62-a1-m1-cA_2x62-a1-m2-cA 2x62-a1-m1-cA_2x62-a1-m4-cA 2x62-a1-m2-cA_2x62-a1-m3-cA 2x62-a1-m3-cA_2x62-a1-m4-cA 2x62-a2-m1-cB_2x62-a2-m5-cB 2x62-a2-m1-cB_2x62-a2-m6-cB 2x62-a2-m5-cB_2x62-a2-m7-cB 2x62-a2-m6-cB_2x62-a2-m7-cB 2x63-a1-m1-cA_2x63-a1-m2-cA 2x63-a1-m1-cA_2x63-a1-m3-cA 2x63-a1-m2-cA_2x63-a1-m4-cA 2x63-a1-m3-cA_2x63-a1-m4-cA KKVIIAGNGPSLKEIDYSRLPNDFDVFRCNQFYFEDKYYLGKKCKAVFYNPSLFFEQYYTLKHLIQNQEYETELIMCSNYNQAHLENENFVKTFYDYFPDAHLGYDFFKQLKDFNAYFKFHEIYFNQRITSGVYMCAVAIALGYKEIYLSGIDFYQSYAFDTKQKNLLKLAPNSKNTDIKALEFLEKTYKIKLYCLCPNSLLANFIGLAPNLNSNFIIQEKNNYTKDILIPSSEAYGKFSKNI KKVIIAGNGPSLKEIDYSRLPNDFDVFRCNQFYFEDKYYLGKKCKAVFYNPSLFFEQYYTLKHLIQNQEYETELIMCSNYNQAHLENENFVKTFYDYFPDAHLGYDFFKQLKDFNAYFKFHEIYFNQRITSGVYMCAVAIALGYKEIYLSGIDFYQSYAFDTKQKNLLKLAPNSKNTDIKALEFLEKTYKIKLYCLCPNSLLANFIGLAPNLNSNFIIQEKNNYTKDILIPSSEAYGKFSKNI 2x64-a3-m1-cE_2x64-a3-m1-cF GLUTATHIONE-S-TRANSFERASE FROM XYLELLA FASTIDIOSA Q9PE18 Q9PE18 2.3 X-RAY DIFFRACTION 108 1.0 160492 (Xylella fastidiosa 9a5c) 160492 (Xylella fastidiosa 9a5c) 205 206 2x64-a1-m1-cD_2x64-a1-m1-cC 2x64-a2-m1-cA_2x64-a2-m1-cB MKLYIMPGACSLADHILLRWSGSSFDLQFLDHQSMKAPEYLALNPSGAVPALQVGDWVLTQNAAILNYITDIAPAERGLSGDGSLKARAEINRWIAFSNSDVHPMYWALFGGTAYLQDPQMIARSQDNARQKLRVLYQRADAHLKHHNWLANGQRSGADAYLYVTLRWAKKVGVDLSSLDALSAFFERMEADPGVQAALQAEGLI HMKLYIMPGACSLADHILLRWSGSSFDLQFLDHQSMKAPEYLALNPSGAVPALQVGDWVLTQNAAILNYITDIAPAERGLSGDGSLKARAEINRWIAFSNSDVHPMYWALFGGTAYLQDPQMIARSQDNARQKLRVLYQRADAHLKHHNWLANGQRSGADAYLYVTLRWAKKVGVDLSSLDALSAFFERMEADPGVQAALQAEGLI 2x6h-a1-m1-cA_2x6h-a1-m1-cB THE CRYSTAL STRUCTURE OF THE DROSOPHILA CLASS III PI3-KINASE VPS34 Q9W1M7 Q9W1M7 2.9 X-RAY DIFFRACTION 80 0.996 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 543 543 2x6f-a1-m1-cB_2x6f-a1-m1-cA 2x6i-a1-m1-cB_2x6i-a1-m1-cA 2x6j-a1-m1-cA_2x6j-a1-m1-cB 2x6k-a1-m1-cA_2x6k-a1-m1-cB ASIRDQLHTIVYRYPPTYVLSSEEQDLVWKFRFYLSSHKKALTKFLKCINWKLEDEVTQALWMLANWAPMDVEDALELLSPTFTHPQVRKYAVSRLAQAPDEDLLLYLLQLVQALKYEDPRHIVHLHGCIFNLCTFLIQRACTNATLANYFYWYLSIEVEEKQDERAHDMYAMVLKMFLKVLENGNFNLRGIFYNLRKQRRFIDELVKLVKLVAKEPGNRNKKTEKFQKLLAEQDMFKVNFTNFEPIPFPLDPEIYITKIVPMRTSLFKSALMPAKLTFVTSIAHHEYAAIFKHGDDLRQDQLILQMITLMDKLLRRENLDLKLTPYKVLATSSKHGFLQYVDSCTVAEVLAREGNIHNFFRKHHPCDNGPYGISAEVMDTYIKSCAGYCVITYLLGVGDRHLDNLLLTTNGKLFHIDFGYILGRDPKPMPPPMKLSKEMVEAMGGISSEHHHEFRKQCYTAYLHLRRHANVMLNLFSLMVDATVPDIALEPDKAVKKVEENLQLGLTDEEAVQHLQSLLDVSITAVMPALVEQIHRFTQYWR ASIRDQLHTIVYRYPPTYVLSSEEQDLVWKFRFYLSSHKKALTKFLKCINWKLEDEVTQALWMLANWAPMDVEDALELLSPTFTHPQVRKYAVSRLAQAPDEDLLLYLLQLVQALKYEDPRHIVHLHGCINLCTFLIQRACTNATLANYFYWYLSIEVERKQDERAHDMYAMVLKMFLKVLENGNFNLRGIFYNLRKQRRFIDELVKLVKLVAKEPGNRNKKTEKFQKLLAEQDMFKVNFTNFEPIPFPLDPEIYITKIVPMRTSLFKSALMPAKLTFVTSIAHHEYAAIFKHGDDLRQDQLILQMITLMDKLLRRENLDLKLTPYKVLATSSKHGFLQYVDSCTVAEVLAREGNIHNFFRKHHPCDNGPYGISAEVMDTYIKSCAGYCVITYLLGVGDRHLDNLLLTTNGKLFHIDFGYILGRDPKPMPPPMKLSKEMVEAMGGISSEHHHEFRKQCYTAYLHLRRHANVMLNLFSLMVDATVPDIALEPDKAVKKVEENLQLGLTDEEAVQHLQSLLDVSITAVMPALVEQIHRFTQYWRK 2x6p-a1-m1-cB_2x6p-a1-m1-cC Crystal Structure of Coil Ser L19C 2.15 X-RAY DIFFRACTION 24 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 2x6p-a1-m1-cA_2x6p-a1-m1-cB 2x6p-a1-m1-cA_2x6p-a1-m1-cC EWEALEKKLAALESKLQACEKKLEALEHG EWEALEKKLAALESKLQACEKKLEALEHG 2x6s-a3-m1-cB_2x6s-a3-m1-cA Human foamy virus integrase - catalytic core. Magnesium-bound structure. P14350 P14350 2.29 X-RAY DIFFRACTION 73 1.0 11963 (Human spumaretrovirus) 11963 (Human spumaretrovirus) 184 188 2x6n-a1-m1-cB_2x6n-a1-m1-cA 2x6n-a2-m1-cE_2x6n-a2-m1-cF 2x6n-a3-m1-cD_2x6n-a3-m1-cC 2x6s-a1-m1-cF_2x6s-a1-m1-cE 2x6s-a2-m1-cD_2x6s-a2-m1-cC 2x74-a1-m1-cD_2x74-a1-m1-cC 2x74-a2-m1-cB_2x74-a2-m1-cA 2x74-a3-m1-cF_2x74-a3-m1-cE 2x78-a1-m1-cA_2x78-a1-m1-cB 2x78-a2-m1-cC_2x78-a2-m2-cC PQKPFDKFFMDYIGPLPPSQGYLYVLVVVDGMTGFTWLYPTKAPSTSATVKSLNVLTSIAIPRVIHSDQGAAFTSSTFAEWAKERGIHLEFSTPYHPSKVERKNSDMKRLLTKLLVGRPTKWYDLLPVVQLAMNNTYSPVLKYTPHQLLFGIDSNTPFANQDTLDLTREEELSLLQEIRTSLYH PQKPFDKFFMDYIGPLPPSQGYLYVLVVVDGMTGFTWLYPTKAPSTSATVKSLNVLTSIAIPRVIHSDQGAAFTSSTFAEWAKERGIHLEFSTPYHPQSGSKVERKNSDMKRLLTKLLVGRPTKWYDLLPVVQLAMNNTYSPVLKYTPHQLLFGIDSNTPFANQDTLDLTREEELSLLQEIRTSLYHP 2x6v-a1-m1-cB_2x6v-a1-m1-cA Crystal structure of human TBX5 in the DNA-bound and DNA-free form Q99593 Q99593 2.2 X-RAY DIFFRACTION 49 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 172 177 EGIKVFLHERELWLKFHEVGTEMIITKAGRRMFPSYKVKVTGLNPKTKYILLMDIVPADDHRYKFADNKWSVTGKAEPAMPGRLYVHPDSPATGAHWMRQLVSFQKLKLTNNHLDPFGHIILNSMHKYQPRLHIVKADTAFCTHVFPETAFIAVTSYQNHKITQLKIENNPF GIKVFLHERELWLKFHEVGTEMIITKAGRRMFPSYKVKVTGLNPKTKYILLMDIVPADDHRYKFADNKWSVTGKAEPAMPGRLYVHPDSPATGAHWMRQLVSFQKLKLTNNHLDPFGHIILNSMHKYQPRLHIVKADTAFCTHVFPETAFIAVTSYQNHKITQLKIENNPFAKGFRG 2x75-a1-m1-cA_2x75-a1-m4-cA Staphylococcus aureus adenylosuccinate lyase Q7A0G9 Q7A0G9 2.5 X-RAY DIFFRACTION 110 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 427 427 2x75-a1-m2-cA_2x75-a1-m3-cA IERYSREEMSNIWTDQNRYEAWLEVEILACEAWSELGHIPKADVQKIRQNAKVNVERAQEIEQETRHDVVAFTRQVSETLGEERKWVHYGLTSTDVVDTALSFVIKQANDIIEKDLERFIDVLAEKAKNYKYTLMMGRTHGVHAEPTTFGVKMALWYTEMQRNLQRFKQVREEIEVGKMSGAVGTFANIPPEIESYVCKHLGIGTAPVSTQTLQRDRHAYYIATLALIATSLEKFAVEIRNLQKTETREVEEAFAKGQKGSSAMPHKRNPIGSENITGISRVIRGYITTAYENVPLWHERDISHSSAERIMLPDVTIALDYALNRFTNIVDRLTVFEDNMRNNIDKTFGLIFSQRVLLALINKGMVREEAYDKVQPKAMISWETKTPFRELIEQDESITTKEELDECFDPKHHLNQVDTIFERAGLA IERYSREEMSNIWTDQNRYEAWLEVEILACEAWSELGHIPKADVQKIRQNAKVNVERAQEIEQETRHDVVAFTRQVSETLGEERKWVHYGLTSTDVVDTALSFVIKQANDIIEKDLERFIDVLAEKAKNYKYTLMMGRTHGVHAEPTTFGVKMALWYTEMQRNLQRFKQVREEIEVGKMSGAVGTFANIPPEIESYVCKHLGIGTAPVSTQTLQRDRHAYYIATLALIATSLEKFAVEIRNLQKTETREVEEAFAKGQKGSSAMPHKRNPIGSENITGISRVIRGYITTAYENVPLWHERDISHSSAERIMLPDVTIALDYALNRFTNIVDRLTVFEDNMRNNIDKTFGLIFSQRVLLALINKGMVREEAYDKVQPKAMISWETKTPFRELIEQDESITTKEELDECFDPKHHLNQVDTIFERAGLA 2x75-a1-m2-cA_2x75-a1-m4-cA Staphylococcus aureus adenylosuccinate lyase Q7A0G9 Q7A0G9 2.5 X-RAY DIFFRACTION 225 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 427 427 2x75-a1-m1-cA_2x75-a1-m3-cA IERYSREEMSNIWTDQNRYEAWLEVEILACEAWSELGHIPKADVQKIRQNAKVNVERAQEIEQETRHDVVAFTRQVSETLGEERKWVHYGLTSTDVVDTALSFVIKQANDIIEKDLERFIDVLAEKAKNYKYTLMMGRTHGVHAEPTTFGVKMALWYTEMQRNLQRFKQVREEIEVGKMSGAVGTFANIPPEIESYVCKHLGIGTAPVSTQTLQRDRHAYYIATLALIATSLEKFAVEIRNLQKTETREVEEAFAKGQKGSSAMPHKRNPIGSENITGISRVIRGYITTAYENVPLWHERDISHSSAERIMLPDVTIALDYALNRFTNIVDRLTVFEDNMRNNIDKTFGLIFSQRVLLALINKGMVREEAYDKVQPKAMISWETKTPFRELIEQDESITTKEELDECFDPKHHLNQVDTIFERAGLA IERYSREEMSNIWTDQNRYEAWLEVEILACEAWSELGHIPKADVQKIRQNAKVNVERAQEIEQETRHDVVAFTRQVSETLGEERKWVHYGLTSTDVVDTALSFVIKQANDIIEKDLERFIDVLAEKAKNYKYTLMMGRTHGVHAEPTTFGVKMALWYTEMQRNLQRFKQVREEIEVGKMSGAVGTFANIPPEIESYVCKHLGIGTAPVSTQTLQRDRHAYYIATLALIATSLEKFAVEIRNLQKTETREVEEAFAKGQKGSSAMPHKRNPIGSENITGISRVIRGYITTAYENVPLWHERDISHSSAERIMLPDVTIALDYALNRFTNIVDRLTVFEDNMRNNIDKTFGLIFSQRVLLALINKGMVREEAYDKVQPKAMISWETKTPFRELIEQDESITTKEELDECFDPKHHLNQVDTIFERAGLA 2x75-a1-m3-cA_2x75-a1-m4-cA Staphylococcus aureus adenylosuccinate lyase Q7A0G9 Q7A0G9 2.5 X-RAY DIFFRACTION 116 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 427 427 2x75-a1-m1-cA_2x75-a1-m2-cA IERYSREEMSNIWTDQNRYEAWLEVEILACEAWSELGHIPKADVQKIRQNAKVNVERAQEIEQETRHDVVAFTRQVSETLGEERKWVHYGLTSTDVVDTALSFVIKQANDIIEKDLERFIDVLAEKAKNYKYTLMMGRTHGVHAEPTTFGVKMALWYTEMQRNLQRFKQVREEIEVGKMSGAVGTFANIPPEIESYVCKHLGIGTAPVSTQTLQRDRHAYYIATLALIATSLEKFAVEIRNLQKTETREVEEAFAKGQKGSSAMPHKRNPIGSENITGISRVIRGYITTAYENVPLWHERDISHSSAERIMLPDVTIALDYALNRFTNIVDRLTVFEDNMRNNIDKTFGLIFSQRVLLALINKGMVREEAYDKVQPKAMISWETKTPFRELIEQDESITTKEELDECFDPKHHLNQVDTIFERAGLA IERYSREEMSNIWTDQNRYEAWLEVEILACEAWSELGHIPKADVQKIRQNAKVNVERAQEIEQETRHDVVAFTRQVSETLGEERKWVHYGLTSTDVVDTALSFVIKQANDIIEKDLERFIDVLAEKAKNYKYTLMMGRTHGVHAEPTTFGVKMALWYTEMQRNLQRFKQVREEIEVGKMSGAVGTFANIPPEIESYVCKHLGIGTAPVSTQTLQRDRHAYYIATLALIATSLEKFAVEIRNLQKTETREVEEAFAKGQKGSSAMPHKRNPIGSENITGISRVIRGYITTAYENVPLWHERDISHSSAERIMLPDVTIALDYALNRFTNIVDRLTVFEDNMRNNIDKTFGLIFSQRVLLALINKGMVREEAYDKVQPKAMISWETKTPFRELIEQDESITTKEELDECFDPKHHLNQVDTIFERAGLA 2x77-a1-m1-cB_2x77-a1-m1-cA Crystal Structure of Leishmania major ADP ribosylation factor-like 1. Q4QEJ1 Q4QEJ1 2.1 X-RAY DIFFRACTION 11 0.994 5664 (Leishmania major) 5664 (Leishmania major) 166 181 AWLASLKQTLGLLPADRKIRVLMLGLDNAGKTSILYRLHLGDVVTTNLETLQYKNISFEVWDLGGCYFSDTDAVIYVVDSTDRDRMGVAKHELYALLDEDELRKSLLLIFANKQDLPDAASEAEIAEQLGVSSIMNRTWTIVKSSSKTGDGLVEGMDWLVERLREQ WLASLKQTLGLLPADRKIRVLMLGLDNAGKTSILYRLHLGDVVTTVPTVGVNLETLQYKNISFEVWDLGGQTGVRPYWRCYFSDTDAVIYVVDSTDRDRMGVAKHELYALLDEDELRKSLLLIFANKQDLPDAASEAEIAEQLGVSSIMNRTWTIVKSSSKTGDGLVEGMDWLVERLREQG 2x7a-a6-m1-cK_2x7a-a6-m2-cK Structural basis of HIV-1 tethering to membranes by the Bst2-tetherin ectodomain Q10589 Q10589 2.77 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 ATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKL ATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKL 2x7j-a1-m1-cA_2x7j-a1-m1-cD Structure of the menaquinone biosynthesis protein MenD from Bacillus subtilis P23970 P23970 2.35 X-RAY DIFFRACTION 97 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 579 579 2x7j-a1-m1-cC_2x7j-a1-m1-cB TVNPITHYIGSFIDEFALSGITDAVVCPGSRSTPLAVLCAAHPDISVHVQIDERSAGFFALGLAKAKQRPVLLICTSGTAAANFYPAVVEAHYSRVPIIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEESPQMLRYIRTLASRAAGEAQKRPMGPVHVNVPLREPLMPDLSDEPFGRMRTGRHVSVKTGTQSVDRESLSDVAEMLAEAEKGMIVCGELHSDADKENIIALSKALQYPILADPLSNLRNGVHDKSTVIDAYDSFLKDDELKRKLRPDVVIRFGPMPVSKPVFLWLKDDPTIQQIVIDEDGGWRDPTQASAHMIHCNASVFAEEIMAGLTAATRSSEWLEKWQFVNGRFREHLQTISSEDVSFEGNLYRILQHLVPENSSLFVGNSMPIRDVDTFFEKQDRPFRIYSNRGANGIDGVVSSAMGVCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILVNNDGGGIFSFLPQASEKTHFEDLFGTPTGLDFKHAAALYGGTYSCPASWDEFKTAYAPQADKPGLHLIEIKTDRQSRVQLHRDMLNEAVREVKKQWEL TVNPITHYIGSFIDEFALSGITDAVVCPGSRSTPLAVLCAAHPDISVHVQIDERSAGFFALGLAKAKQRPVLLICTSGTAAANFYPAVVEAHYSRVPIIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEESPQMLRYIRTLASRAAGEAQKRPMGPVHVNVPLREPLMPDLSDEPFGRMRTGRHVSVKTGTQSVDRESLSDVAEMLAEAEKGMIVCGELHSDADKENIIALSKALQYPILADPLSNLRNGVHDKSTVIDAYDSFLKDDELKRKLRPDVVIRFGPMPVSKPVFLWLKDDPTIQQIVIDEDGGWRDPTQASAHMIHCNASVFAEEIMAGLTAATRSSEWLEKWQFVNGRFREHLQTISSEDVSFEGNLYRILQHLVPENSSLFVGNSMPIRDVDTFFEKQDRPFRIYSNRGANGIDGVVSSAMGVCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILVNNDGGGIFSFLPQASEKTHFEDLFGTPTGLDFKHAAALYGGTYSCPASWDEFKTAYAPQADKPGLHLIEIKTDRQSRVQLHRDMLNEAVREVKKQWEL 2x7j-a1-m1-cB_2x7j-a1-m1-cD Structure of the menaquinone biosynthesis protein MenD from Bacillus subtilis P23970 P23970 2.35 X-RAY DIFFRACTION 30 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 579 579 2x7j-a1-m1-cC_2x7j-a1-m1-cA TVNPITHYIGSFIDEFALSGITDAVVCPGSRSTPLAVLCAAHPDISVHVQIDERSAGFFALGLAKAKQRPVLLICTSGTAAANFYPAVVEAHYSRVPIIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEESPQMLRYIRTLASRAAGEAQKRPMGPVHVNVPLREPLMPDLSDEPFGRMRTGRHVSVKTGTQSVDRESLSDVAEMLAEAEKGMIVCGELHSDADKENIIALSKALQYPILADPLSNLRNGVHDKSTVIDAYDSFLKDDELKRKLRPDVVIRFGPMPVSKPVFLWLKDDPTIQQIVIDEDGGWRDPTQASAHMIHCNASVFAEEIMAGLTAATRSSEWLEKWQFVNGRFREHLQTISSEDVSFEGNLYRILQHLVPENSSLFVGNSMPIRDVDTFFEKQDRPFRIYSNRGANGIDGVVSSAMGVCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILVNNDGGGIFSFLPQASEKTHFEDLFGTPTGLDFKHAAALYGGTYSCPASWDEFKTAYAPQADKPGLHLIEIKTDRQSRVQLHRDMLNEAVREVKKQWEL TVNPITHYIGSFIDEFALSGITDAVVCPGSRSTPLAVLCAAHPDISVHVQIDERSAGFFALGLAKAKQRPVLLICTSGTAAANFYPAVVEAHYSRVPIIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEESPQMLRYIRTLASRAAGEAQKRPMGPVHVNVPLREPLMPDLSDEPFGRMRTGRHVSVKTGTQSVDRESLSDVAEMLAEAEKGMIVCGELHSDADKENIIALSKALQYPILADPLSNLRNGVHDKSTVIDAYDSFLKDDELKRKLRPDVVIRFGPMPVSKPVFLWLKDDPTIQQIVIDEDGGWRDPTQASAHMIHCNASVFAEEIMAGLTAATRSSEWLEKWQFVNGRFREHLQTISSEDVSFEGNLYRILQHLVPENSSLFVGNSMPIRDVDTFFEKQDRPFRIYSNRGANGIDGVVSSAMGVCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILVNNDGGGIFSFLPQASEKTHFEDLFGTPTGLDFKHAAALYGGTYSCPASWDEFKTAYAPQADKPGLHLIEIKTDRQSRVQLHRDMLNEAVREVKKQWEL 2x7j-a1-m1-cC_2x7j-a1-m1-cD Structure of the menaquinone biosynthesis protein MenD from Bacillus subtilis P23970 P23970 2.35 X-RAY DIFFRACTION 223 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 577 579 2x7j-a1-m1-cA_2x7j-a1-m1-cB TVNPITHYIGSFIDEFALSGITDAVVCPGSRSTPLAVLCAAHPDISVHVQIDERSAGFFALGLAKAKQRPVLLICTSGTAAANFYPAVVEAHYSRVPIIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEESPQMLRYIRTLASRAAGEAQKRPMGPVHVNVPLREPLMPDLSDEPFGRMRTGRHVSVKTGTQSVDRESLSDVAEMLAEAEKGMIVCGELHSDADKENIIALSKALQYPILADPLSNLRNGVHDKSTVIDAYDSFLKDDELKRKLRPDVVIRFGPMPVSKPVFLWLKDDPTIQQIVIDEDGGWRDPTQASAHMIHCNASVFAEEIMAGLTAATRSSEWLEKWQFVNGRFREHLQTISSEDVSFEGNLYRILQHLVPENSSLFVGNSMPIRDVDTFFEKQDRPFRIYSNRGANGIDGVVSSAMGVCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILVNNDGGGIFSFLPQASEKTHFEDLFGTPTGLDFKHAAALYGGTYSCPASWDEFKTAYAPQADKPGLHLIEIKTDRQSRVQLHRDMLNEAVREVKKQW TVNPITHYIGSFIDEFALSGITDAVVCPGSRSTPLAVLCAAHPDISVHVQIDERSAGFFALGLAKAKQRPVLLICTSGTAAANFYPAVVEAHYSRVPIIVLTADRPHELREVGAPQAINQHFLFGNFVKFFTDSALPEESPQMLRYIRTLASRAAGEAQKRPMGPVHVNVPLREPLMPDLSDEPFGRMRTGRHVSVKTGTQSVDRESLSDVAEMLAEAEKGMIVCGELHSDADKENIIALSKALQYPILADPLSNLRNGVHDKSTVIDAYDSFLKDDELKRKLRPDVVIRFGPMPVSKPVFLWLKDDPTIQQIVIDEDGGWRDPTQASAHMIHCNASVFAEEIMAGLTAATRSSEWLEKWQFVNGRFREHLQTISSEDVSFEGNLYRILQHLVPENSSLFVGNSMPIRDVDTFFEKQDRPFRIYSNRGANGIDGVVSSAMGVCEGTKAPVTLVIGDLSFYHDLNGLLAAKKLGIPLTVILVNNDGGGIFSFLPQASEKTHFEDLFGTPTGLDFKHAAALYGGTYSCPASWDEFKTAYAPQADKPGLHLIEIKTDRQSRVQLHRDMLNEAVREVKKQWEL 2x7x-a1-m1-cB_2x7x-a1-m1-cA Fructose binding periplasmic domain of hybrid two component system BT1754 Q8A6X1 Q8A6X1 2.64 X-RAY DIFFRACTION 64 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 300 301 HFRIGVAQCSDDSWRHKMNDEILREAMFYNGVSVEIRSAGDDNSKQAEDVHYFMDEGVDLLIISANEAAPMTPIVEEAYQKGIPVILVDRKILSDKYTAYIGADNYEIGRSVGNYIASSLKGKGNIVELTGLSGSTPAMERHQGFMAAISKFPDIKLIDKADAAWERGPAEIEMDSMLRRHPKIDAVYAHNDRIAPGAYQAAKMAGREKEMIFVGIDALPGKGNGLELVLDSVLDATFIYPTNGDKVLQLAMDILEKKPYPKETVMNTAVVDRTNAHVMQLQTTHISELDKKIETLNGRI HFRIGVAQCSDDSWRHKMNDEILREAMFYNGVSVEIRSAGDDNSKQAEDVHYFMDEGVDLLIISANEAAPMTPIVEEAYQKGIPVILVDRKILSDKYTAYIGADNYEIGRSVGNYIASSLKGKGNIVELTGLSGSTPAMERHQGFMAAISKFPDIKLIDKADAAWERGPAEIEMDSMLRRHPKIDAVYAHNDRIAPGAYQAAKMAGREKEMIFVGIDALPGKGNGLELVLDSVLDATFIYPTNGDKVLQLAMDILEKKPYPKETVMNTAVVDRTNAHVMQLQTTHISELDKKIETLNGRIG 2x7z-a1-m1-cA_2x7z-a1-m2-cA Crystal Structure of the SAP97 PDZ2 I342W C378A mutant protein domain Q12959 Q12959 2 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 GSKPVSEKIMEIKLIKGPKGLGFSIAGGVGNQHWPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVALEEVTHEEAVTALKNTSDFVYLKVAKPTS GSKPVSEKIMEIKLIKGPKGLGFSIAGGVGNQHWPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVALEEVTHEEAVTALKNTSDFVYLKVAKPTS 2x86-a1-m1-cA_2x86-a1-m1-cB AGME bound to ADP-B-mannose P67911 P67911 2.8 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 307 307 1eq2-a1-m1-cA_1eq2-a1-m1-cB 1eq2-a1-m1-cA_1eq2-a1-m1-cE 1eq2-a1-m1-cC_1eq2-a1-m1-cB 1eq2-a1-m1-cC_1eq2-a1-m1-cD 1eq2-a1-m1-cE_1eq2-a1-m1-cD 1eq2-a2-m1-cF_1eq2-a2-m1-cG 1eq2-a2-m1-cH_1eq2-a2-m1-cF 1eq2-a2-m1-cH_1eq2-a2-m1-cI 1eq2-a2-m1-cJ_1eq2-a2-m1-cG 1eq2-a2-m1-cJ_1eq2-a2-m1-cI 2x86-a1-m1-cA_2x86-a1-m1-cE 2x86-a1-m1-cB_2x86-a1-m1-cC 2x86-a1-m1-cC_2x86-a1-m1-cD 2x86-a1-m1-cD_2x86-a1-m1-cE 2x86-a2-m1-cF_2x86-a2-m1-cG 2x86-a2-m1-cF_2x86-a2-m1-cJ 2x86-a2-m1-cG_2x86-a2-m1-cH 2x86-a2-m1-cH_2x86-a2-m1-cI 2x86-a2-m1-cI_2x86-a2-m1-cJ 2x86-a3-m1-cK_2x86-a3-m1-cL 2x86-a3-m1-cK_2x86-a3-m1-cO 2x86-a3-m1-cL_2x86-a3-m1-cM 2x86-a3-m1-cM_2x86-a3-m1-cN 2x86-a3-m1-cN_2x86-a3-m1-cO 2x86-a4-m1-cP_2x86-a4-m1-cQ 2x86-a4-m1-cP_2x86-a4-m1-cT 2x86-a4-m1-cQ_2x86-a4-m1-cR 2x86-a4-m1-cR_2x86-a4-m1-cS 2x86-a4-m1-cS_2x86-a4-m1-cT MIIVTGGAGFIGSNIVKALNDKGITDILVVDNLKDGTKFVNLVDLNIADYMDKEDFLIQIMAGEEFGDVEAIFHEGACSSTTEWDGKYMMDNNYQYSKELLHYCLEREIPFLYASSAATYGGRTSDFIESREYEKPLNVFGYSKFLFDEYVRQILPEANSQIVGFRYFNVYGPREGHKGSMASVAFHLNTQLNNGESPKLFEGSENFKRDFVYVGDVADVNLWFLENGVSGIFNLGTGRAESFQAVADATLAYHKKGQIEYIPFPDKLKGRYQAFTQADLTNLRAAGYDKPFKTVAEGVTEYMAWLN MIIVTGGAGFIGSNIVKALNDKGITDILVVDNLKDGTKFVNLVDLNIADYMDKEDFLIQIMAGEEFGDVEAIFHEGACSSTTEWDGKYMMDNNYQYSKELLHYCLEREIPFLYASSAATYGGRTSDFIESREYEKPLNVFGYSKFLFDEYVRQILPEANSQIVGFRYFNVYGPREGHKGSMASVAFHLNTQLNNGESPKLFEGSENFKRDFVYVGDVADVNLWFLENGVSGIFNLGTGRAESFQAVADATLAYHKKGQIEYIPFPDKLKGRYQAFTQADLTNLRAAGYDKPFKTVAEGVTEYMAWLN 2x8j-a2-m1-cE_2x8j-a2-m1-cF Intracellular subtilisin precursor from B. clausii D0AB41 D0AB41 1.56 X-RAY DIFFRACTION 85 0.99 79880 (Alkalihalobacillus clausii) 79880 (Alkalihalobacillus clausii) 306 306 2wv7-a1-m1-cA_2wv7-a1-m1-cB 2wv7-a2-m1-cC_2wv7-a2-m1-cD 2wv7-a3-m1-cF_2wv7-a3-m1-cE 2wwt-a1-m1-cB_2wwt-a1-m1-cA 2wwt-a2-m1-cE_2wwt-a2-m1-cF 2wwt-a3-m1-cC_2wwt-a3-m1-cD 2x8j-a1-m1-cC_2x8j-a1-m1-cD 2x8j-a3-m1-cA_2x8j-a3-m1-cB 2xrm-a1-m1-cA_2xrm-a1-m2-cA MRKFRLIPYKQVDKVSALSEVPMGVEIVEAPAVWRASAKGAGQIIGVIDTGCQVDHPDLAERIIGGVNLTTDYGGDETNFSDNNGHGTHVAGTVAAAETGSGVVGVAPKADLFIIKALSGDGSGEMGWIAKAIRYAVDWRGPKGEQMRIITMSLGGPTDSEELHDAVKYAVSNNVSVVAAGNEGNEFAYPAAYNEVIAVGAVDFDLRLSDTNEEIDIVAPGVGIKSTYLDSGYAELSGTAMAAPHVAGALALIINLAEDAFKRSLSETEIYAQLVRRATPIGFTAQAEGNGFLTLDLVERITGQFT RKFRLIPYKQVDKVSALSEVPMGVEIVEAPAVWRASAKGAGQIIGVIDTGCQVDHPDLAERIIGGVNLTTDYGGDETNFSDNNGHGTHVAGTVAAAETGSGVVGVAPKADLFIIKALSGDGSGEMGWIAKAIRYAVDWRGPKGEQMRIITMSLGGPTDSEELHDAVKYAVSNNVSVVAAGNNEFAYPAAYNEVIAVGAVDFDLRLSDFTNTNEEIDIVAPGVGIKSTYLDSGYAELSGTAMAAPHVAGALALIINLAEDAFKRSLSETEIYAQLVRRATPIGFTAQAEGNGFLTLDLVERITGQFT 2x8k-a1-m2-cA_2x8k-a1-m4-cC Crystal Structure of SPP1 Dit (gp 19.1) Protein, a Paradigm of Hub Adsorption Apparatus in Gram-positive Infecting Phages. O48459 O48459 2.95 X-RAY DIFFRACTION 36 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 242 243 2x8k-a1-m1-cA_2x8k-a1-m3-cC 2x8k-a1-m1-cB_2x8k-a1-m2-cB 2x8k-a1-m3-cA_2x8k-a1-m1-cC 2x8k-a1-m3-cB_2x8k-a1-m4-cB 2x8k-a1-m4-cA_2x8k-a1-m2-cC KVFTMMYDGQDLTDYFLVQEVRGRSVYSIEMGKRTIAGVDGGVITTESLPARELEVDAIVFGDGTETDLRRRIEYLNFLLHRDTDVPITFSDEPSRTYYGRYEFATEGDGFHKVTLNFYCQDPLKYGPEVTTDVTTASTPVKNTGLAVTNPTIRCVFSTSATEYEMQLLDGSTVVKFLKVVYGFNTGDTLVIDCHERSVTLNGQDIMPALLIQSDWIQLKPQVNTYLKATQPSTIVFTEKFL KVFTMMYDGQDLTDYFLVQEVRGRSVYSIEMGKRTIAGVDGGVITTESLPARELEVDAIVFGDGTETDLRRRIEYLNFLLHRDTDVPITFSDEPSRTYYGRYEFATEGDGGFHKVTLNFYCQDPLKYGPEVTTDVTTASTPVKNTGLAVTNPTIRCVFSTSATEYEMQLLDGSTVVKFLKVVYGFNTGDTLVIDCHERSVTLNGQDIMPALLIQSDWIQLKPQVNTYLKATQPSTIVFTEKFL 2x8k-a2-m4-cA_2x8k-a2-m6-cB Crystal Structure of SPP1 Dit (gp 19.1) Protein, a Paradigm of Hub Adsorption Apparatus in Gram-positive Infecting Phages. O48459 O48459 2.95 X-RAY DIFFRACTION 10 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 242 242 2x8k-a2-m1-cA_2x8k-a2-m5-cB 2x8k-a2-m1-cB_2x8k-a2-m5-cA 2x8k-a2-m1-cC_2x8k-a2-m6-cC 2x8k-a2-m4-cB_2x8k-a2-m6-cA 2x8k-a2-m4-cC_2x8k-a2-m5-cC KVFTMMYDGQDLTDYFLVQEVRGRSVYSIEMGKRTIAGVDGGVITTESLPARELEVDAIVFGDGTETDLRRRIEYLNFLLHRDTDVPITFSDEPSRTYYGRYEFATEGDGFHKVTLNFYCQDPLKYGPEVTTDVTTASTPVKNTGLAVTNPTIRCVFSTSATEYEMQLLDGSTVVKFLKVVYGFNTGDTLVIDCHERSVTLNGQDIMPALLIQSDWIQLKPQVNTYLKATQPSTIVFTEKFL KVFTMMYDGQDLTDYFLVQEVRGRSVYSIEMGKRTIAGVDGGVITTESLPARELEVDAIVFGDGTETDLRRRIEYLNFLLHRDTDVPITFSDEPSRTYYGRYEFATEGDGFHKVTLNFYCQDPLKYGPEVTTDVTTASTPVKNTGLAVTNPTIRCVFSTSATEYEMQLLDGSTVVKFLKVVYGFNTGDTLVIDCHERSVTLNGQDIMPALLIQSDWIQLKPQVNTYLKATQPSTIVFTEKFL 2x8k-a2-m6-cA_2x8k-a2-m6-cC Crystal Structure of SPP1 Dit (gp 19.1) Protein, a Paradigm of Hub Adsorption Apparatus in Gram-positive Infecting Phages. O48459 O48459 2.95 X-RAY DIFFRACTION 88 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 242 243 2x8k-a1-m1-cA_2x8k-a1-m1-cB 2x8k-a1-m1-cA_2x8k-a1-m1-cC 2x8k-a1-m1-cB_2x8k-a1-m4-cC 2x8k-a1-m2-cA_2x8k-a1-m2-cB 2x8k-a1-m2-cA_2x8k-a1-m2-cC 2x8k-a1-m2-cB_2x8k-a1-m3-cC 2x8k-a1-m3-cA_2x8k-a1-m3-cB 2x8k-a1-m3-cA_2x8k-a1-m3-cC 2x8k-a1-m3-cB_2x8k-a1-m2-cC 2x8k-a1-m4-cA_2x8k-a1-m4-cB 2x8k-a1-m4-cA_2x8k-a1-m4-cC 2x8k-a1-m4-cB_2x8k-a1-m1-cC 2x8k-a2-m1-cA_2x8k-a2-m1-cB 2x8k-a2-m1-cA_2x8k-a2-m1-cC 2x8k-a2-m1-cB_2x8k-a2-m4-cC 2x8k-a2-m4-cA_2x8k-a2-m4-cB 2x8k-a2-m4-cA_2x8k-a2-m4-cC 2x8k-a2-m4-cB_2x8k-a2-m1-cC 2x8k-a2-m5-cA_2x8k-a2-m5-cB 2x8k-a2-m5-cA_2x8k-a2-m5-cC 2x8k-a2-m5-cB_2x8k-a2-m6-cC 2x8k-a2-m6-cA_2x8k-a2-m6-cB 2x8k-a2-m6-cB_2x8k-a2-m5-cC KVFTMMYDGQDLTDYFLVQEVRGRSVYSIEMGKRTIAGVDGGVITTESLPARELEVDAIVFGDGTETDLRRRIEYLNFLLHRDTDVPITFSDEPSRTYYGRYEFATEGDGFHKVTLNFYCQDPLKYGPEVTTDVTTASTPVKNTGLAVTNPTIRCVFSTSATEYEMQLLDGSTVVKFLKVVYGFNTGDTLVIDCHERSVTLNGQDIMPALLIQSDWIQLKPQVNTYLKATQPSTIVFTEKFL KVFTMMYDGQDLTDYFLVQEVRGRSVYSIEMGKRTIAGVDGGVITTESLPARELEVDAIVFGDGTETDLRRRIEYLNFLLHRDTDVPITFSDEPSRTYYGRYEFATEGDGGFHKVTLNFYCQDPLKYGPEVTTDVTTASTPVKNTGLAVTNPTIRCVFSTSATEYEMQLLDGSTVVKFLKVVYGFNTGDTLVIDCHERSVTLNGQDIMPALLIQSDWIQLKPQVNTYLKATQPSTIVFTEKFL 2x8u-a1-m1-cA_2x8u-a1-m1-cB Sphingomonas wittichii Serine palmitoyltransferase 2.1 X-RAY DIFFRACTION 279 1.0 392499 (Rhizorhabdus wittichii RW1) 392499 (Rhizorhabdus wittichii RW1) 399 399 ADLLSKFDPLIAEREALLATGVRDPYAIVMDKVLSPTEAMINGRKTILLGTYNYMGMTFDPDVIAAGKQALDEFGSGTTGSRVLNGTYQGHKACEDALKEFYGTEHAIVFSTGYQANLGMISTLAGKGDYIILDADSHASIYDGCWLGDAEIVRFRHNSVEDLDKRLGRLPAEAGKLVVLEGVYSMMGDIAPLQEMVAVSKKHGAMILVDEAHGMGFFGEHGRGVFEEAGVEADVDFVVGTFSKSVGTVGGFCVSNHPKFEVLRLVCRPYVFTASLPPSVVATAATSIRKLMHAGDKRAHLWKNSRRLHQGLRDMGYKLGTETAQSAIIAVILTDMAQAVALWQGLLEAGLYVNTARPPATPAGMFLLRCSLCAEHSDEQVEQILGMFESAGRATGVIP ADLLSKFDPLIAEREALLATGVRDPYAIVMDKVLSPTEAMINGRKTILLGTYNYMGMTFDPDVIAAGKQALDEFGSGTTGSRVLNGTYQGHKACEDALKEFYGTEHAIVFSTGYQANLGMISTLAGKGDYIILDADSHASIYDGCWLGDAEIVRFRHNSVEDLDKRLGRLPAEAGKLVVLEGVYSMMGDIAPLQEMVAVSKKHGAMILVDEAHGMGFFGEHGRGVFEEAGVEADVDFVVGTFSKSVGTVGGFCVSNHPKFEVLRLVCRPYVFTASLPPSVVATAATSIRKLMHAGDKRAHLWKNSRRLHQGLRDMGYKLGTETAQSAIIAVILTDMAQAVALWQGLLEAGLYVNTARPPATPAGMFLLRCSLCAEHSDEQVEQILGMFESAGRATGVIP 2x8w-a1-m1-cA_2x8w-a1-m6-cA The Crystal Structure of Methylglyoxal Synthase from Thermus sp. GH5 Bound to Malonate. B3VH91 B3VH91 1.95 X-RAY DIFFRACTION 87 1.0 405418 (Thermus sp. GH5) 405418 (Thermus sp. GH5) 125 125 2x8w-a1-m2-cA_2x8w-a1-m3-cA 2x8w-a1-m4-cA_2x8w-a1-m5-cA 2xw6-a1-m1-cB_2xw6-a1-m2-cB 2xw6-a1-m1-cC_2xw6-a1-m1-cA 2xw6-a1-m2-cC_2xw6-a1-m2-cA MRALALIAHDAKKEEMVAFCQRHREVLARFPLVATGTTGRRIEEATGLTVEKLLSGPLGGDQQMGARVAEGRILAVIFFRDPLTAQPHEPDVQALLRVCDVHGVPLATNPMAAEALIPWLQSLVG MRALALIAHDAKKEEMVAFCQRHREVLARFPLVATGTTGRRIEEATGLTVEKLLSGPLGGDQQMGARVAEGRILAVIFFRDPLTAQPHEPDVQALLRVCDVHGVPLATNPMAAEALIPWLQSLVG 2x8w-a1-m4-cA_2x8w-a1-m6-cA The Crystal Structure of Methylglyoxal Synthase from Thermus sp. GH5 Bound to Malonate. B3VH91 B3VH91 1.95 X-RAY DIFFRACTION 11 1.0 405418 (Thermus sp. GH5) 405418 (Thermus sp. GH5) 125 125 2x8w-a1-m1-cA_2x8w-a1-m3-cA 2x8w-a1-m1-cA_2x8w-a1-m5-cA 2x8w-a1-m2-cA_2x8w-a1-m4-cA 2x8w-a1-m2-cA_2x8w-a1-m6-cA 2x8w-a1-m3-cA_2x8w-a1-m5-cA MRALALIAHDAKKEEMVAFCQRHREVLARFPLVATGTTGRRIEEATGLTVEKLLSGPLGGDQQMGARVAEGRILAVIFFRDPLTAQPHEPDVQALLRVCDVHGVPLATNPMAAEALIPWLQSLVG MRALALIAHDAKKEEMVAFCQRHREVLARFPLVATGTTGRRIEEATGLTVEKLLSGPLGGDQQMGARVAEGRILAVIFFRDPLTAQPHEPDVQALLRVCDVHGVPLATNPMAAEALIPWLQSLVG 2x8w-a1-m5-cA_2x8w-a1-m6-cA The Crystal Structure of Methylglyoxal Synthase from Thermus sp. GH5 Bound to Malonate. B3VH91 B3VH91 1.95 X-RAY DIFFRACTION 84 1.0 405418 (Thermus sp. GH5) 405418 (Thermus sp. GH5) 125 125 2x8w-a1-m1-cA_2x8w-a1-m2-cA 2x8w-a1-m3-cA_2x8w-a1-m4-cA 2xw6-a1-m1-cA_2xw6-a1-m2-cA 2xw6-a1-m1-cC_2xw6-a1-m2-cB 2xw6-a1-m2-cC_2xw6-a1-m1-cB MRALALIAHDAKKEEMVAFCQRHREVLARFPLVATGTTGRRIEEATGLTVEKLLSGPLGGDQQMGARVAEGRILAVIFFRDPLTAQPHEPDVQALLRVCDVHGVPLATNPMAAEALIPWLQSLVG MRALALIAHDAKKEEMVAFCQRHREVLARFPLVATGTTGRRIEEATGLTVEKLLSGPLGGDQQMGARVAEGRILAVIFFRDPLTAQPHEPDVQALLRVCDVHGVPLATNPMAAEALIPWLQSLVG 2x98-a3-m1-cB_2x98-a3-m5-cA H.SALINARUM ALKALINE PHOSPHATASE B0R9W3 B0R9W3 1.7 X-RAY DIFFRACTION 58 1.0 478009 (Halobacterium salinarum R1) 478009 (Halobacterium salinarum R1) 428 430 2x98-a3-m3-cB_2x98-a3-m4-cA ASPAANAIAYIVDGMGQTQISAARYLNAYKTAPERFPLNVSPAETPTGFDAFSSRGSMTTFPDDPYETTTDSAAAATAFASGVKTYNGAIGGVQTSGGGFQRVDTVLERASAQGYATGLITTTEATHATPAAFAAHVEDRGNQTEIARQYIEETQPDVILGGQRRDFEADASNGGTLVDAARDNGYTIAETAAELDAVDDPPVLGLFSQESHLDYYLDRKNDPENTQPNLDAMVDAGVDLLSGDPDKGFFLLVESGRVDHAGHANYPAQVAEQYEATQVAGQLVEYAETTAEPTFLVSTGDHECGGLTLGRDSPYEVEYDVLAAQKATTSRLRDLLAGVRSADELESIVAAHTGITALTDREVAKLRDAPGSISTILAERAGIAFTTDGHTGTDVPVFAHGPNAARFDAARDNTAVADALAAALGVSL ASPAANAIAYIVDGMGQTQISAARYLNAYKTAPERFPLNVSPAETPTGFDAFSSRGSMTTFPDDPYETTTDSAAAATAFASGVKTYNGAIGGVQTSGGGFQRVDTVLERASAQGYATGLITTTEATHATPAAFAAHVEDRGNQTEIARQYIEETQPDVILGGQRRDFEADASNGGTLVDAARDNGYTIAETAAELDAVDDPPVLGLFSQESHLDYYLDRKNDPENTQPNLDAMVDAGVDLLSSAGDPDKGFFLLVESGRVDHAGHANYPAQVAEQYEATQVAGQLVEYAETTAEPTFLVSTGDHECGGLTLGRDSPYEVEYDVLAAQKATTSRLRDLLAGVRSADELESIVAAHTGITALTDREVAKLRDAPGSISTILAERAGIAFTTDGHTGTDVPVFAHGPNAARFDAARDNTAVADALAAALGVSL 2x98-a3-m4-cA_2x98-a3-m5-cA H.SALINARUM ALKALINE PHOSPHATASE B0R9W3 B0R9W3 1.7 X-RAY DIFFRACTION 204 1.0 478009 (Halobacterium salinarum R1) 478009 (Halobacterium salinarum R1) 430 430 2x98-a1-m1-cA_2x98-a1-m2-cA 2x98-a2-m1-cB_2x98-a2-m3-cB 2x98-a3-m1-cB_2x98-a3-m3-cB ASPAANAIAYIVDGMGQTQISAARYLNAYKTAPERFPLNVSPAETPTGFDAFSSRGSMTTFPDDPYETTTDSAAAATAFASGVKTYNGAIGGVQTSGGGFQRVDTVLERASAQGYATGLITTTEATHATPAAFAAHVEDRGNQTEIARQYIEETQPDVILGGQRRDFEADASNGGTLVDAARDNGYTIAETAAELDAVDDPPVLGLFSQESHLDYYLDRKNDPENTQPNLDAMVDAGVDLLSSAGDPDKGFFLLVESGRVDHAGHANYPAQVAEQYEATQVAGQLVEYAETTAEPTFLVSTGDHECGGLTLGRDSPYEVEYDVLAAQKATTSRLRDLLAGVRSADELESIVAAHTGITALTDREVAKLRDAPGSISTILAERAGIAFTTDGHTGTDVPVFAHGPNAARFDAARDNTAVADALAAALGVSL ASPAANAIAYIVDGMGQTQISAARYLNAYKTAPERFPLNVSPAETPTGFDAFSSRGSMTTFPDDPYETTTDSAAAATAFASGVKTYNGAIGGVQTSGGGFQRVDTVLERASAQGYATGLITTTEATHATPAAFAAHVEDRGNQTEIARQYIEETQPDVILGGQRRDFEADASNGGTLVDAARDNGYTIAETAAELDAVDDPPVLGLFSQESHLDYYLDRKNDPENTQPNLDAMVDAGVDLLSSAGDPDKGFFLLVESGRVDHAGHANYPAQVAEQYEATQVAGQLVEYAETTAEPTFLVSTGDHECGGLTLGRDSPYEVEYDVLAAQKATTSRLRDLLAGVRSADELESIVAAHTGITALTDREVAKLRDAPGSISTILAERAGIAFTTDGHTGTDVPVFAHGPNAARFDAARDNTAVADALAAALGVSL 2x9m-a2-m1-cC_2x9m-a2-m1-cA Hendra virus attachment glycoprotein O89343 O89343 2.9 X-RAY DIFFRACTION 58 1.0 63330 () 63330 () 417 419 2x9m-a1-m1-cD_2x9m-a1-m1-cB QICLQKTTSTILKPRLISYTLPINTREGVCITDPLLAVDNGFFAYSHLEKIGSCTRGIAKQRIIGVGEVLDRGDKVPSMFMTNVWTPPNPSTIHHCSSTYHEDFYYTLCAVSHVGDPILNSTSWTESLSLIRLAVRPKSDSGDYNQKYIAITKVERGKYDKVMPYGPSGIKQGDTLYFPAVGFLPRTEFQYNDSNCPIIHCKYSKAENCRLSMGVNSKSHYILRSGLLKYNLSLGGDIILQFIEIADNRLTIGSPSKIYNSLGQPVFYQASYSWDTMIKLGDVDTVDPLRVQWRNNSVISRPGQSQCPRFNVCPEVCWEGTYNDAFLIDRLNWVSAGVYLNSNQTAENPVFAVFKDNEILYQVPLAEDDTNAQKTITDCFLLENVIWCISLVEIYDTGDSVIRPKLFAVKIPAQCSE PNQICLQKTTSTILKPRLISYTLPINTREGVCITDPLLAVDNGFFAYSHLEKIGSCTRGIAKQRIIGVGEVLDRGDKVPSMFMTNVWTPPNPSTIHHCSSTYHEDFYYTLCAVSHVGDPILNSTSWTESLSLIRLAVRPKSDSGDYNQKYIAITKVERGKYDKVMPYGPSGIKQGDTLYFPAVGFLPRTEFQYNDSNCPIIHCKYSKAENCRLSMGVNSKSHYILRSGLLKYNLSLGGDIILQFIEIADNRLTIGSPSKIYNSLGQPVFYQASYSWDTMIKLGDVDTVDPLRVQWRNNSVISRPGQSQCPRFNVCPEVCWEGTYNDAFLIDRLNWVSAGVYLNSNQTAENPVFAVFKDNEILYQVPLAEDDTNAQKTITDCFLLENVIWCISLVEIYDTGDSVIRPKLFAVKIPAQCSE 2x9q-a3-m1-cB_2x9q-a3-m1-cA Structure of the Mycobacterium tuberculosis protein, Rv2275, demonstrates that cyclodipeptide synthetases are related to type I tRNA-Synthetases. P9WPF9 P9WPF9 2.02 X-RAY DIFFRACTION 72 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 218 227 FQLGRRIPEATAQEGFLVRPFTQQCQIIHTEGDHAVIGVSPGNSYFSRQRLRDLGLWGLTNFDRVDFVYTDVHVAESYEALGDSAIEARRKAVKNIRGVRAKITTTVNELDPAGARLCVRPSEFQSNEAYRELHADLLTRLKDDEDRAVCQDLVRRFLEQVCDYICAEAPLFLDTPAILGVPSSLNCYHQSLPLAELYARGSGLRASRNQGHAIVTPD FQLGRRIPEATAQEGFLVRPFTQQCQIIHTEGDHAVIGVSPGNSYFSRQRLRDLGLWGLTNFDRVDFVYTDVHVAESYEALGDSAIEARRKAVKNIRGVRAKITTTVNELDPAGARLCVRPSEFQSNEAYRELHADLLTRLKDDEDRAVCQDLVRRFLSTKGATATQEQVCDYICAEAPLFLDTPAILGVPSSLNCYHQSLPLAELYARGSGLRASRNQGHAIVTPD 2x9v-a1-m1-cA_2x9v-a1-m1-cD High resolution structure of TbPTR1 with trimetrexate O76290 O76290 1.3 X-RAY DIFFRACTION 38 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 250 250 2yhu-a1-m1-cD_2yhu-a1-m1-cA 3bmn-a1-m1-cA_3bmn-a1-m1-cD 3bmo-a1-m1-cD_3bmo-a1-m1-cA 4clr-a1-m1-cA_4clr-a1-m1-cD 4clr-a1-m1-cC_4clr-a1-m1-cB 4cm1-a1-m1-cB_4cm1-a1-m1-cC 4cm3-a1-m1-cC_4cm3-a1-m1-cB 4cm4-a1-m1-cA_4cm4-a1-m1-cD 4cm8-a1-m1-cA_4cm8-a1-m1-cD 4cmb-a1-m1-cC_4cmb-a1-m1-cB 4cmk-a1-m1-cA_4cmk-a1-m1-cD 4wcd-a1-m1-cC_4wcd-a1-m1-cB 4wcd-a1-m1-cD_4wcd-a1-m1-cA 6gcl-a1-m1-cD_6gcl-a1-m1-cA 6gd0-a1-m1-cC_6gd0-a1-m1-cB 6gd0-a1-m1-cD_6gd0-a1-m1-cA 6gd4-a1-m1-cA_6gd4-a1-m1-cD 6gd4-a1-m1-cB_6gd4-a1-m1-cC 7opj-a1-m1-cD_7opj-a1-m1-cA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVQGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPCMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVQGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPCMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 2xa6-a1-m1-cA_2xa6-a1-m1-cB Structural basis for homodimerization of the Src-associated during mitosis, 68 kD protein (Sam68) Qua1 domain Q07666 Q07666 NOT SOLUTION NMR 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 PENKYLPELMAEKDSLDPSFTHAMQLLTAEIEKIQKG PENKYLPELMAEKDSLDPSFTHAMQLLTAEIEKIQKG 2xat-a1-m2-cA_2xat-a1-m3-cA COMPLEX OF THE HEXAPEPTIDE XENOBIOTIC ACETYLTRANSFERASE WITH CHLORAMPHENICOL AND DESULFO-COENZYME A P26841 P26841 3.2 X-RAY DIFFRACTION 85 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 208 208 1xat-a1-m1-cA_1xat-a1-m2-cA 1xat-a1-m1-cA_1xat-a1-m3-cA 1xat-a1-m2-cA_1xat-a1-m3-cA 2xat-a1-m1-cA_2xat-a1-m2-cA 2xat-a1-m1-cA_2xat-a1-m3-cA NYFESPFRGKLLSEQVSNPNIRVGRYSYYSGYYHGHSFDDCARYLMPDRDDVDKLVIGSFCSIGSGAAFIMAGNQGHRAEWASTFPFHFMHEEPAFAGAVNGYQPAGDTLIGHEVWIGTEAMFMPGVRVGHGAIIGSRALVTGDVEPYAIVGGNPARTIRKRFSDGDIQNLLEMAWWDWPLADIEAAMPLLCTGDIPALYQHWKQRQA NYFESPFRGKLLSEQVSNPNIRVGRYSYYSGYYHGHSFDDCARYLMPDRDDVDKLVIGSFCSIGSGAAFIMAGNQGHRAEWASTFPFHFMHEEPAFAGAVNGYQPAGDTLIGHEVWIGTEAMFMPGVRVGHGAIIGSRALVTGDVEPYAIVGGNPARTIRKRFSDGDIQNLLEMAWWDWPLADIEAAMPLLCTGDIPALYQHWKQRQA 2xb4-a1-m1-cA_2xb4-a1-m4-cA Crystal structures of zinc containing Adenylate kinase from Desulfovibrio gigas C7U112 C7U112 1.8 X-RAY DIFFRACTION 43 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 223 223 2xb4-a1-m2-cA_2xb4-a1-m3-cA MNILIFGPNGSGKGTQGNLVKDKYSLAHIESGGIFREHIGGGTELGKKAKEFIDRGDLVPDDITIPMVLETLESKGKDGWLLDGFPRNTVQAQKLFEALQEKGMKINFVIEILLPREVAKNRIMGRRICKNNPNHPNNIFIDAIKPNGDVCRVCGGALSARADDQDEGAINKRHDIYYNTVDGTLAAAYYYKNMAAKEGFVYIELDGEGSIDSIKDTLLAQLA MNILIFGPNGSGKGTQGNLVKDKYSLAHIESGGIFREHIGGGTELGKKAKEFIDRGDLVPDDITIPMVLETLESKGKDGWLLDGFPRNTVQAQKLFEALQEKGMKINFVIEILLPREVAKNRIMGRRICKNNPNHPNNIFIDAIKPNGDVCRVCGGALSARADDQDEGAINKRHDIYYNTVDGTLAAAYYYKNMAAKEGFVYIELDGEGSIDSIKDTLLAQLA 2xb4-a1-m2-cA_2xb4-a1-m4-cA Crystal structures of zinc containing Adenylate kinase from Desulfovibrio gigas C7U112 C7U112 1.8 X-RAY DIFFRACTION 15 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 223 223 2xb4-a1-m1-cA_2xb4-a1-m3-cA MNILIFGPNGSGKGTQGNLVKDKYSLAHIESGGIFREHIGGGTELGKKAKEFIDRGDLVPDDITIPMVLETLESKGKDGWLLDGFPRNTVQAQKLFEALQEKGMKINFVIEILLPREVAKNRIMGRRICKNNPNHPNNIFIDAIKPNGDVCRVCGGALSARADDQDEGAINKRHDIYYNTVDGTLAAAYYYKNMAAKEGFVYIELDGEGSIDSIKDTLLAQLA MNILIFGPNGSGKGTQGNLVKDKYSLAHIESGGIFREHIGGGTELGKKAKEFIDRGDLVPDDITIPMVLETLESKGKDGWLLDGFPRNTVQAQKLFEALQEKGMKINFVIEILLPREVAKNRIMGRRICKNNPNHPNNIFIDAIKPNGDVCRVCGGALSARADDQDEGAINKRHDIYYNTVDGTLAAAYYYKNMAAKEGFVYIELDGEGSIDSIKDTLLAQLA 2xb4-a1-m3-cA_2xb4-a1-m4-cA Crystal structures of zinc containing Adenylate kinase from Desulfovibrio gigas C7U112 C7U112 1.8 X-RAY DIFFRACTION 61 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 223 223 2xb4-a1-m1-cA_2xb4-a1-m2-cA MNILIFGPNGSGKGTQGNLVKDKYSLAHIESGGIFREHIGGGTELGKKAKEFIDRGDLVPDDITIPMVLETLESKGKDGWLLDGFPRNTVQAQKLFEALQEKGMKINFVIEILLPREVAKNRIMGRRICKNNPNHPNNIFIDAIKPNGDVCRVCGGALSARADDQDEGAINKRHDIYYNTVDGTLAAAYYYKNMAAKEGFVYIELDGEGSIDSIKDTLLAQLA MNILIFGPNGSGKGTQGNLVKDKYSLAHIESGGIFREHIGGGTELGKKAKEFIDRGDLVPDDITIPMVLETLESKGKDGWLLDGFPRNTVQAQKLFEALQEKGMKINFVIEILLPREVAKNRIMGRRICKNNPNHPNNIFIDAIKPNGDVCRVCGGALSARADDQDEGAINKRHDIYYNTVDGTLAAAYYYKNMAAKEGFVYIELDGEGSIDSIKDTLLAQLA 2xbg-a1-m1-cA_2xbg-a1-m2-cA Crystal Structure of YCF48 from Thermosynechococcus elongatus Q8DI95 Q8DI95 1.5 X-RAY DIFFRACTION 78 1.0 146786 (Thermosynechococcus vestitus) 146786 (Thermosynechococcus vestitus) 308 308 AIPALDYNPWEAIQLPTTATILDMSFIDRHHGWLVGVNATLMETRDGGQTWEPRTLVLDHSDYRFNSVSFQGNEGWIVGEPPIMLHTTDGGQSWSQIPLDPKLPGSPRLIKALGNGSAEMITNVGAIYRTKDSGKNWQALVQEAIGVMRNLNRSPSGEYVAVSSRGSFYSTWEPGQTAWEPHNRTTSRRLHNMGFTPDGRLWMIVNGGKIAFSDPDNSENWGELLSPLRRNSVGFLDLAYRTPNEVWLAGGAGALLCSQDGGQTWQQDVDVKKVPSNFYKILFFSPDQGFILGQKGILLRYVTDLTAA AIPALDYNPWEAIQLPTTATILDMSFIDRHHGWLVGVNATLMETRDGGQTWEPRTLVLDHSDYRFNSVSFQGNEGWIVGEPPIMLHTTDGGQSWSQIPLDPKLPGSPRLIKALGNGSAEMITNVGAIYRTKDSGKNWQALVQEAIGVMRNLNRSPSGEYVAVSSRGSFYSTWEPGQTAWEPHNRTTSRRLHNMGFTPDGRLWMIVNGGKIAFSDPDNSENWGELLSPLRRNSVGFLDLAYRTPNEVWLAGGAGALLCSQDGGQTWQQDVDVKKVPSNFYKILFFSPDQGFILGQKGILLRYVTDLTAA 2xbm-a2-m1-cC_2xbm-a2-m1-cA Crystal structure of the dengue virus methyltransferase bound to a 5'- capped octameric RNA C0LMU5 C0LMU5 2.9 X-RAY DIFFRACTION 44 1.0 12637 (Dengue virus) 12637 (Dengue virus) 259 261 2xbm-a1-m1-cB_2xbm-a1-m1-cD QGETLGEKWKKKLNQLSRKEFDLYKKSGITEVDRTEAKEGLKRGETTHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYYCAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGESSPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLSRNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRH GSQGETLGEKWKKKLNQLSRKEFDLYKKSGITEVDRTEAKEGLKRGETTHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYYCAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGESSPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLSRNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRH 2xbn-a1-m1-cA_2xbn-a1-m2-cA Inhibition of the PLP-dependent enzyme serine palmitoyltransferase by cycloserine: evidence for a novel decarboxylative mechanism of inactivation Q93UV0 Q93UV0 1.4 X-RAY DIFFRACTION 313 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 398 398 2jg2-a1-m1-cA_2jg2-a1-m2-cA 2jgt-a1-m1-cB_2jgt-a1-m1-cA 2w8j-a1-m1-cA_2w8j-a1-m2-cA 2w8t-a1-m1-cA_2w8t-a1-m2-cA 2w8u-a1-m1-cA_2w8u-a1-m2-cA 2w8v-a1-m1-cA_2w8v-a1-m2-cA 2w8w-a1-m1-cA_2w8w-a1-m2-cA 4bmk-a1-m1-cB_4bmk-a1-m1-cA RDLLSKFDGLIAERQKLLDSGVTDPFAIVMEQVKSPTEAVIRGKDTILLGTYNYMGMTFDPDVIAAGKEALEKFGSGTNGSRMLNGTFHDHMEVEQALRDFYGTTGAIVFSTGYMANLGIISTLAGKGEYVILDADSHASIYDGCQQGNAEIVRFRHNSVEDLDKRLGRLPKEPAKLVVLEGVYSMLGDIAPLKEMVAVAKKHGAMVLVDEAHSMGFFGPNGRGVYEAQGLEGQIDFVVGTFSKSVGTVGGFVVSNHPKFEAVRLACRPYIFTASLPPSVVATATTSIRKLMTAHEKRERLWSNARALHGGLKAMGFRLGTETCDSAIVAVMLEDQEQAAMMWQALLDGGLYVNMARPPATPAGTFLLRCSICAEHTPAQIQTVLGMFQAAGRAVGVI RDLLSKFDGLIAERQKLLDSGVTDPFAIVMEQVKSPTEAVIRGKDTILLGTYNYMGMTFDPDVIAAGKEALEKFGSGTNGSRMLNGTFHDHMEVEQALRDFYGTTGAIVFSTGYMANLGIISTLAGKGEYVILDADSHASIYDGCQQGNAEIVRFRHNSVEDLDKRLGRLPKEPAKLVVLEGVYSMLGDIAPLKEMVAVAKKHGAMVLVDEAHSMGFFGPNGRGVYEAQGLEGQIDFVVGTFSKSVGTVGGFVVSNHPKFEAVRLACRPYIFTASLPPSVVATATTSIRKLMTAHEKRERLWSNARALHGGLKAMGFRLGTETCDSAIVAVMLEDQEQAAMMWQALLDGGLYVNMARPPATPAGTFLLRCSICAEHTPAQIQTVLGMFQAAGRAVGVI 2xbq-a1-m1-cA_2xbq-a1-m1-cB Crystal structure of reduced Schistosoma mansoni Thioredoxin pre- protein at 1.7 Angstrom Q8T9N5 Q8T9N5 1.67 X-RAY DIFFRACTION 14 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 105 105 SELIELKQDGDLESLLEQHKNKLVVVDFFATWCGPCKTIAPLFKELSEKYDAIFVKVDVDKLEETARKYNISAMPTFIAIKNGEKVGDVVGASIAKVEDMIKKFI SELIELKQDGDLESLLEQHKNKLVVVDFFATWCGPCKTIAPLFKELSEKYDAIFVKVDVDKLEETARKYNISAMPTFIAIKNGEKVGDVVGASIAKVEDMIKKFI 2xbz-a1-m1-cA_2xbz-a1-m2-cB Multiple oligomeric forms of the Pseudomonas aeruginosa RetS sensor domain modulate accessibility to the ligand-binding site Q9HUV7 Q9HUV7 2.65 X-RAY DIFFRACTION 35 0.992 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 135 2xbz-a1-m2-cA_2xbz-a1-m1-cB NQNWRLLRDESAQLRIADVLQRKEQFRPLAKRSFIFPASPQAVWLQVQLPAQKVPSWLWIFAPRVQYLDYYLVQDGQLVRDQHTGESPLPSRSYLFSLPVDGKPTLYVRTSNHPLAWFDQIDEAGLVGL QNWRLLRDESAQLRIADVLQRKEQFRPLAKRSFIFPASPQAVWLQVQLPAQKVPSWLWIFAPRVQYLDYYLVQDGQLVRDQHTGESRPFQERPLPSRSYLFSLPVDGKPTLYVRTSNHPLAWFDQIDEAGLVGLE 2xbz-a1-m1-cB_2xbz-a1-m2-cB Multiple oligomeric forms of the Pseudomonas aeruginosa RetS sensor domain modulate accessibility to the ligand-binding site Q9HUV7 Q9HUV7 2.65 X-RAY DIFFRACTION 356 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 135 135 QNWRLLRDESAQLRIADVLQRKEQFRPLAKRSFIFPASPQAVWLQVQLPAQKVPSWLWIFAPRVQYLDYYLVQDGQLVRDQHTGESRPFQERPLPSRSYLFSLPVDGKPTLYVRTSNHPLAWFDQIDEAGLVGLE QNWRLLRDESAQLRIADVLQRKEQFRPLAKRSFIFPASPQAVWLQVQLPAQKVPSWLWIFAPRVQYLDYYLVQDGQLVRDQHTGESRPFQERPLPSRSYLFSLPVDGKPTLYVRTSNHPLAWFDQIDEAGLVGLE 2xbz-a1-m2-cA_2xbz-a1-m2-cB Multiple oligomeric forms of the Pseudomonas aeruginosa RetS sensor domain modulate accessibility to the ligand-binding site Q9HUV7 Q9HUV7 2.65 X-RAY DIFFRACTION 21 0.992 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 135 2xbz-a1-m1-cA_2xbz-a1-m1-cB NQNWRLLRDESAQLRIADVLQRKEQFRPLAKRSFIFPASPQAVWLQVQLPAQKVPSWLWIFAPRVQYLDYYLVQDGQLVRDQHTGESPLPSRSYLFSLPVDGKPTLYVRTSNHPLAWFDQIDEAGLVGL QNWRLLRDESAQLRIADVLQRKEQFRPLAKRSFIFPASPQAVWLQVQLPAQKVPSWLWIFAPRVQYLDYYLVQDGQLVRDQHTGESRPFQERPLPSRSYLFSLPVDGKPTLYVRTSNHPLAWFDQIDEAGLVGLE 2xc8-a1-m1-cA_2xc8-a1-m1-cB Crystal structure of the gene 22 product of the Bacillus subtilis SPP1 phage O48465 O48465 2.35 X-RAY DIFFRACTION 50 0.992 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 118 124 GIEIVNRKAVWYLTSEIKETETGIEVSAGELHKGDEEVFPVEEVSFDLTPDDTYPVEYLYLHNVQTKKVSWSLCKAYLDGEGYCDYQGNERLIYPVSVTVFPNGTREGTIFLYEKEDR GIEIVNRKAVWYLTSEIKETETGIEVSAGELHKGDEEVFPVEEVSFDLTPDDTYPVEYLYLHNVQTKKVSWSLCKAYLDGEGYCDYQGNERLIYPVSVTVFPNGTREGTIFLYEKEDKPPVIVE 2xcb-a1-m1-cB_2xcb-a1-m1-cA Crystal structure of PcrH in complex with the chaperone binding region of PopD Q9I325 Q9I325 1.85 X-RAY DIFFRACTION 45 0.985 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 132 133 LAMLRGLSEDTLEQLYALGFNQYQAGKWDDAQKIFQALCMLDHYDARYFLGLGACRQSLGLYEQALQSYSYGALMDINEPRFPFHAAECHLQLGDLDGAESGFYSARALAAAQPAHEALAARAGAMLEAVTA MLRGLSEDTLEQLYALGFNQYQAGKWDDAQKIFQALCMLDHYDARYFLGLGACRQSLGLYEQALQSYSYGALMDINEPRFPFHAAECHLQLGDLDGAESGFYSARALAAAQPAHEALAARAGAMLEAVTARKD 2xcb-a2-m1-cB_2xcb-a2-m1-cA Crystal structure of PcrH in complex with the chaperone binding region of PopD Q9I325 Q9I325 1.85 X-RAY DIFFRACTION 29 0.985 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 132 133 2xcc-a1-m1-cB_2xcc-a1-m1-cA LAMLRGLSEDTLEQLYALGFNQYQAGKWDDAQKIFQALCMLDHYDARYFLGLGACRQSLGLYEQALQSYSYGALMDINEPRFPFHAAECHLQLGDLDGAESGFYSARALAAAQPAHEALAARAGAMLEAVTA MLRGLSEDTLEQLYALGFNQYQAGKWDDAQKIFQALCMLDHYDARYFLGLGACRQSLGLYEQALQSYSYGALMDINEPRFPFHAAECHLQLGDLDGAESGFYSARALAAAQPAHEALAARAGAMLEAVTARKD 2xci-a2-m1-cB_2xci-a2-m1-cD Membrane-embedded monofunctional glycosyltransferase WaaA of Aquifex aeolicus, substrate-free form O66663 O66663 2 X-RAY DIFFRACTION 64 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 352 352 2xci-a1-m1-cC_2xci-a1-m1-cA 2xcu-a1-m1-cA_2xcu-a1-m1-cC 2xcu-a2-m1-cB_2xcu-a2-m1-cD MQFEVLKRFFPKESLKNCKGALWVHTASIGEFNTFLPILKELKREHRILLTYFSPRAREYLKTKSDFYDCLHPLPLDNPFSVKRFEELSKPKALIVVEREFWPSLIIFTKVPKILVNAYAKGSLIEKILSKKFDLIIMRTQEDVEKFKTFGAKRVFSCGNLKFICQKGKGIKLKGEFIVAGSIHTGEVEIILKAFKEIKKTYSSLKLILVPRHIENAKIFEKKARDFGFKTSFFENLEGDVILVDRFGILKELYPVGKIAIVGGTFVNIGGHNLLEPTCWGIPVIYGPYTHKVNDLKEFLEKEGAGFEVKNETELVTKLTELLSVKKEIKVEEKSREIKGCYLEKLREFLRG MQFEVLKRFFPKESLKNCKGALWVHTASIGEFNTFLPILKELKREHRILLTYFSPRAREYLKTKSDFYDCLHPLPLDNPFSVKRFEELSKPKALIVVEREFWPSLIIFTKVPKILVNAYAKGSLIEKILSKKFDLIIMRTQEDVEKFKTFGAKRVFSCGNLKFICQKGKGIKLKGEFIVAGSIHTGEVEIILKAFKEIKKTYSSLKLILVPRHIENAKIFEKKARDFGFKTSFFENLEGDVILVDRFGILKELYPVGKIAIVGGTFVNIGGHNLLEPTCWGIPVIYGPYTHKVNDLKEFLEKEGAGFEVKNETELVTKLTELLSVKKEIKVEEKSREIKGCYLEKLREFLRG 2xcj-a1-m1-cA_2xcj-a1-m1-cB Crystal structure of P2 C, the immunity repressor of temperate E. coli phage P2 Q83VS7 Q83VS7 1.8 X-RAY DIFFRACTION 68 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 84 84 2l49-a1-m1-cA_2l49-a1-m1-cB SNTISEKIVLMRKSEYLSRQQLADLTGVPYGTLSYYESGRSTPPTDVMMNILQTPQFTKYTLWFMTNQIAPESGQIAPALAHFG SNTISEKIVLMRKSEYLSRQQLADLTGVPYGTLSYYESGRSTPPTDVMMNILQTPQFTKYTLWFMTNQIAPESGQIAPALAHFG 2xcq-a1-m1-cA_2xcq-a1-m2-cA The 2.98A crystal structure of the catalytic core (B'A' region) of Staphylococcus aureus DNA Gyrase Q99XG5 Q99XG5 2.98 X-RAY DIFFRACTION 341 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 652 652 2xco-a1-m1-cA_2xco-a1-m2-cA VASLPGKLADCSSKSPEECEIFLVEGDSAGGSTKSGRDSRTQAILPLRGKILNVILNNNEIRQMITAFGTGIGGDFDLAKARYHKIVIMTDADVDGAHIRTLLLTFFYRFMRPLIEAGYVYIAQPPLYKLTQGKQKYYVYNDRELDKLKSELNPTSIARYKGLGEMNADQLWETTMNPEHRALLQVKLEDMSVIVARALPDVRDGLKPVHRRILYGLNEQGMTPDKSYKKSARIVGDVMGKYHPHGDSSIYEAMVRMAQDFSYRYPLVDGQGNFGSMDGDGAAAMRYTEARMTKITLELLRDINKDTIDFIDNYDGNEREPSVLPARFPNLLANGASGIAATNIPPHNLTELINGVLSLSKNPDISIAELMEDIEGPDFPTAGLILGKSGIRRAYETGRGSIQMRSRAVIEERGGGRQRIVVTEIPFQVNKARMIEKIAELVRDKKIDGITDLRDETSLRTGVRVVIDVRKDANASVILNNLYKQTPLQTSFGVNMIALVNGRPKLINLKEALVHYLEHQKTVVRRRTQYNLRKAKDRAHILEGLRIALDHIDEIISTIRESDTDKVAMESLQQRFKLSEKQAQAILDMRLRRLTGLERDKIEAEYNELLNYISELETILADEEVLLQLVRDELTEIRDRFGDDRRTEIQLG VASLPGKLADCSSKSPEECEIFLVEGDSAGGSTKSGRDSRTQAILPLRGKILNVILNNNEIRQMITAFGTGIGGDFDLAKARYHKIVIMTDADVDGAHIRTLLLTFFYRFMRPLIEAGYVYIAQPPLYKLTQGKQKYYVYNDRELDKLKSELNPTSIARYKGLGEMNADQLWETTMNPEHRALLQVKLEDMSVIVARALPDVRDGLKPVHRRILYGLNEQGMTPDKSYKKSARIVGDVMGKYHPHGDSSIYEAMVRMAQDFSYRYPLVDGQGNFGSMDGDGAAAMRYTEARMTKITLELLRDINKDTIDFIDNYDGNEREPSVLPARFPNLLANGASGIAATNIPPHNLTELINGVLSLSKNPDISIAELMEDIEGPDFPTAGLILGKSGIRRAYETGRGSIQMRSRAVIEERGGGRQRIVVTEIPFQVNKARMIEKIAELVRDKKIDGITDLRDETSLRTGVRVVIDVRKDANASVILNNLYKQTPLQTSFGVNMIALVNGRPKLINLKEALVHYLEHQKTVVRRRTQYNLRKAKDRAHILEGLRIALDHIDEIISTIRESDTDKVAMESLQQRFKLSEKQAQAILDMRLRRLTGLERDKIEAEYNELLNYISELETILADEEVLLQLVRDELTEIRDRFGDDRRTEIQLG 2xcz-a1-m2-cA_2xcz-a1-m3-cA Crystal Structure of macrophage migration inhibitory factor homologue from Prochlorococcus marinus Q7V867 Q7V867 1.64 X-RAY DIFFRACTION 93 1.0 74547 (Prochlorococcus marinus str. MIT 9313) 74547 (Prochlorococcus marinus str. MIT 9313) 114 114 2xcz-a1-m1-cA_2xcz-a1-m2-cA 2xcz-a1-m1-cA_2xcz-a1-m3-cA PLINIQASVPAVADANSLLQELSSKLAELLGKPEKYVMTSLQCGVPMTFSGNTEPTCYVEVKSIGALDGSRTQEVSELVCGHIEQNLGIPADRIYIGFEDVPARLWGWNGSTFG PLINIQASVPAVADANSLLQELSSKLAELLGKPEKYVMTSLQCGVPMTFSGNTEPTCYVEVKSIGALDGSRTQEVSELVCGHIEQNLGIPADRIYIGFEDVPARLWGWNGSTFG 2xd8-a1-m10-cF_2xd8-a1-m9-cG Capsid structure of the infectious Prochlorococcus Cyanophage P-SSP7 Q58N30 Q58N30 4.6 ELECTRON MICROSCOPY 13 1.0 268748 (Tiamatvirus PSSP7) 268748 (Tiamatvirus PSSP7) 363 363 2xd8-a1-m10-cG_2xd8-a1-m6-cF 2xd8-a1-m11-cF_2xd8-a1-m15-cG 2xd8-a1-m11-cG_2xd8-a1-m12-cF 2xd8-a1-m12-cG_2xd8-a1-m13-cF 2xd8-a1-m13-cG_2xd8-a1-m14-cF 2xd8-a1-m14-cG_2xd8-a1-m15-cF 2xd8-a1-m16-cF_2xd8-a1-m20-cG 2xd8-a1-m16-cG_2xd8-a1-m17-cF 2xd8-a1-m17-cG_2xd8-a1-m18-cF 2xd8-a1-m18-cG_2xd8-a1-m19-cF 2xd8-a1-m19-cG_2xd8-a1-m20-cF 2xd8-a1-m1-cF_2xd8-a1-m5-cG 2xd8-a1-m1-cG_2xd8-a1-m2-cF 2xd8-a1-m21-cF_2xd8-a1-m25-cG 2xd8-a1-m21-cG_2xd8-a1-m22-cF 2xd8-a1-m22-cG_2xd8-a1-m23-cF 2xd8-a1-m23-cG_2xd8-a1-m24-cF 2xd8-a1-m24-cG_2xd8-a1-m25-cF 2xd8-a1-m26-cF_2xd8-a1-m30-cG 2xd8-a1-m26-cG_2xd8-a1-m27-cF 2xd8-a1-m27-cG_2xd8-a1-m28-cF 2xd8-a1-m28-cG_2xd8-a1-m29-cF 2xd8-a1-m29-cG_2xd8-a1-m30-cF 2xd8-a1-m2-cG_2xd8-a1-m3-cF 2xd8-a1-m31-cF_2xd8-a1-m35-cG 2xd8-a1-m31-cG_2xd8-a1-m32-cF 2xd8-a1-m32-cG_2xd8-a1-m33-cF 2xd8-a1-m33-cG_2xd8-a1-m34-cF 2xd8-a1-m34-cG_2xd8-a1-m35-cF 2xd8-a1-m36-cF_2xd8-a1-m40-cG 2xd8-a1-m36-cG_2xd8-a1-m37-cF 2xd8-a1-m37-cG_2xd8-a1-m38-cF 2xd8-a1-m38-cG_2xd8-a1-m39-cF 2xd8-a1-m39-cG_2xd8-a1-m40-cF 2xd8-a1-m3-cG_2xd8-a1-m4-cF 2xd8-a1-m41-cF_2xd8-a1-m45-cG 2xd8-a1-m41-cG_2xd8-a1-m42-cF 2xd8-a1-m42-cG_2xd8-a1-m43-cF 2xd8-a1-m43-cG_2xd8-a1-m44-cF 2xd8-a1-m44-cG_2xd8-a1-m45-cF 2xd8-a1-m46-cF_2xd8-a1-m50-cG 2xd8-a1-m46-cG_2xd8-a1-m47-cF 2xd8-a1-m47-cG_2xd8-a1-m48-cF 2xd8-a1-m48-cG_2xd8-a1-m49-cF 2xd8-a1-m49-cG_2xd8-a1-m50-cF 2xd8-a1-m4-cG_2xd8-a1-m5-cF 2xd8-a1-m51-cF_2xd8-a1-m55-cG 2xd8-a1-m51-cG_2xd8-a1-m52-cF 2xd8-a1-m52-cG_2xd8-a1-m53-cF 2xd8-a1-m53-cG_2xd8-a1-m54-cF 2xd8-a1-m54-cG_2xd8-a1-m55-cF 2xd8-a1-m56-cF_2xd8-a1-m60-cG 2xd8-a1-m56-cG_2xd8-a1-m57-cF 2xd8-a1-m57-cG_2xd8-a1-m58-cF 2xd8-a1-m58-cG_2xd8-a1-m59-cF 2xd8-a1-m59-cG_2xd8-a1-m60-cF 2xd8-a1-m6-cG_2xd8-a1-m7-cF 2xd8-a1-m7-cG_2xd8-a1-m8-cF 2xd8-a1-m8-cG_2xd8-a1-m9-cF MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV 2xd8-a1-m54-cD_2xd8-a1-m9-cD Capsid structure of the infectious Prochlorococcus Cyanophage P-SSP7 Q58N30 Q58N30 4.6 ELECTRON MICROSCOPY 34 1.0 268748 (Tiamatvirus PSSP7) 268748 (Tiamatvirus PSSP7) 363 363 2xd8-a1-m10-cA_2xd8-a1-m6-cF 2xd8-a1-m10-cA_2xd8-a1-m6-cG 2xd8-a1-m10-cB_2xd8-a1-m5-cC 2xd8-a1-m10-cB_2xd8-a1-m6-cE 2xd8-a1-m10-cC_2xd8-a1-m5-cB 2xd8-a1-m10-cD_2xd8-a1-m23-cD 2xd8-a1-m10-cE_2xd8-a1-m23-cC 2xd8-a1-m10-cE_2xd8-a1-m9-cB 2xd8-a1-m10-cF_2xd8-a1-m10-cG 2xd8-a1-m10-cF_2xd8-a1-m9-cA 2xd8-a1-m10-cG_2xd8-a1-m9-cA 2xd8-a1-m11-cA_2xd8-a1-m12-cF 2xd8-a1-m11-cA_2xd8-a1-m12-cG 2xd8-a1-m11-cB_2xd8-a1-m12-cE 2xd8-a1-m11-cB_2xd8-a1-m37-cC 2xd8-a1-m11-cC_2xd8-a1-m37-cB 2xd8-a1-m11-cC_2xd8-a1-m38-cE 2xd8-a1-m11-cD_2xd8-a1-m20-cD 2xd8-a1-m11-cD_2xd8-a1-m38-cD 2xd8-a1-m11-cE_2xd8-a1-m15-cB 2xd8-a1-m11-cE_2xd8-a1-m20-cC 2xd8-a1-m11-cF_2xd8-a1-m11-cG 2xd8-a1-m11-cF_2xd8-a1-m15-cA 2xd8-a1-m11-cG_2xd8-a1-m15-cA 2xd8-a1-m12-cA_2xd8-a1-m13-cF 2xd8-a1-m12-cA_2xd8-a1-m13-cG 2xd8-a1-m12-cB_2xd8-a1-m13-cE 2xd8-a1-m12-cB_2xd8-a1-m46-cC 2xd8-a1-m12-cC_2xd8-a1-m46-cB 2xd8-a1-m12-cC_2xd8-a1-m47-cE 2xd8-a1-m12-cD_2xd8-a1-m37-cD 2xd8-a1-m12-cD_2xd8-a1-m47-cD 2xd8-a1-m12-cE_2xd8-a1-m37-cC 2xd8-a1-m12-cF_2xd8-a1-m12-cG 2xd8-a1-m13-cA_2xd8-a1-m14-cF 2xd8-a1-m13-cA_2xd8-a1-m14-cG 2xd8-a1-m13-cB_2xd8-a1-m14-cE 2xd8-a1-m13-cB_2xd8-a1-m44-cC 2xd8-a1-m13-cC_2xd8-a1-m44-cB 2xd8-a1-m13-cC_2xd8-a1-m45-cE 2xd8-a1-m13-cD_2xd8-a1-m45-cD 2xd8-a1-m13-cD_2xd8-a1-m46-cD 2xd8-a1-m13-cE_2xd8-a1-m46-cC 2xd8-a1-m13-cF_2xd8-a1-m13-cG 2xd8-a1-m14-cA_2xd8-a1-m15-cF 2xd8-a1-m14-cA_2xd8-a1-m15-cG 2xd8-a1-m14-cB_2xd8-a1-m15-cE 2xd8-a1-m14-cB_2xd8-a1-m28-cC 2xd8-a1-m14-cC_2xd8-a1-m28-cB 2xd8-a1-m14-cC_2xd8-a1-m29-cE 2xd8-a1-m14-cD_2xd8-a1-m29-cD 2xd8-a1-m14-cD_2xd8-a1-m44-cD 2xd8-a1-m14-cE_2xd8-a1-m44-cC 2xd8-a1-m14-cF_2xd8-a1-m14-cG 2xd8-a1-m15-cB_2xd8-a1-m20-cC 2xd8-a1-m15-cC_2xd8-a1-m16-cE 2xd8-a1-m15-cC_2xd8-a1-m20-cB 2xd8-a1-m15-cD_2xd8-a1-m16-cD 2xd8-a1-m15-cD_2xd8-a1-m28-cD 2xd8-a1-m15-cE_2xd8-a1-m28-cC 2xd8-a1-m15-cF_2xd8-a1-m15-cG 2xd8-a1-m16-cA_2xd8-a1-m17-cF 2xd8-a1-m16-cA_2xd8-a1-m17-cG 2xd8-a1-m16-cB_2xd8-a1-m17-cE 2xd8-a1-m16-cB_2xd8-a1-m27-cC 2xd8-a1-m16-cC_2xd8-a1-m27-cB 2xd8-a1-m16-cC_2xd8-a1-m28-cE 2xd8-a1-m16-cD_2xd8-a1-m28-cD 2xd8-a1-m16-cE_2xd8-a1-m20-cB 2xd8-a1-m16-cF_2xd8-a1-m16-cG 2xd8-a1-m16-cF_2xd8-a1-m20-cA 2xd8-a1-m16-cG_2xd8-a1-m20-cA 2xd8-a1-m17-cA_2xd8-a1-m18-cF 2xd8-a1-m17-cA_2xd8-a1-m18-cG 2xd8-a1-m17-cB_2xd8-a1-m18-cE 2xd8-a1-m17-cB_2xd8-a1-m51-cC 2xd8-a1-m17-cC_2xd8-a1-m51-cB 2xd8-a1-m17-cC_2xd8-a1-m52-cE 2xd8-a1-m17-cD_2xd8-a1-m27-cD 2xd8-a1-m17-cD_2xd8-a1-m52-cD 2xd8-a1-m17-cE_2xd8-a1-m27-cC 2xd8-a1-m17-cF_2xd8-a1-m17-cG 2xd8-a1-m18-cA_2xd8-a1-m19-cF 2xd8-a1-m18-cA_2xd8-a1-m19-cG 2xd8-a1-m18-cB_2xd8-a1-m19-cE 2xd8-a1-m18-cB_2xd8-a1-m59-cC 2xd8-a1-m18-cC_2xd8-a1-m59-cB 2xd8-a1-m18-cC_2xd8-a1-m60-cE 2xd8-a1-m18-cD_2xd8-a1-m51-cD 2xd8-a1-m18-cD_2xd8-a1-m60-cD 2xd8-a1-m18-cE_2xd8-a1-m51-cC 2xd8-a1-m18-cF_2xd8-a1-m18-cG 2xd8-a1-m19-cA_2xd8-a1-m20-cF 2xd8-a1-m19-cA_2xd8-a1-m20-cG 2xd8-a1-m19-cB_2xd8-a1-m20-cE 2xd8-a1-m19-cB_2xd8-a1-m38-cC 2xd8-a1-m19-cC_2xd8-a1-m38-cB 2xd8-a1-m19-cC_2xd8-a1-m39-cE 2xd8-a1-m19-cD_2xd8-a1-m39-cD 2xd8-a1-m19-cD_2xd8-a1-m59-cD 2xd8-a1-m19-cE_2xd8-a1-m59-cC 2xd8-a1-m19-cF_2xd8-a1-m19-cG 2xd8-a1-m1-cA_2xd8-a1-m2-cF 2xd8-a1-m1-cA_2xd8-a1-m2-cG 2xd8-a1-m1-cB_2xd8-a1-m22-cC 2xd8-a1-m1-cB_2xd8-a1-m2-cE 2xd8-a1-m1-cC_2xd8-a1-m22-cB 2xd8-a1-m1-cC_2xd8-a1-m23-cE 2xd8-a1-m1-cD_2xd8-a1-m10-cD 2xd8-a1-m1-cD_2xd8-a1-m23-cD 2xd8-a1-m1-cE_2xd8-a1-m10-cC 2xd8-a1-m1-cE_2xd8-a1-m5-cB 2xd8-a1-m1-cF_2xd8-a1-m1-cG 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2xd8-a1-m44-cA_2xd8-a1-m45-cF 2xd8-a1-m44-cA_2xd8-a1-m45-cG 2xd8-a1-m44-cB_2xd8-a1-m45-cE 2xd8-a1-m44-cF_2xd8-a1-m44-cG 2xd8-a1-m45-cB_2xd8-a1-m50-cC 2xd8-a1-m45-cC_2xd8-a1-m46-cE 2xd8-a1-m45-cC_2xd8-a1-m50-cB 2xd8-a1-m45-cD_2xd8-a1-m46-cD 2xd8-a1-m45-cF_2xd8-a1-m45-cG 2xd8-a1-m46-cA_2xd8-a1-m47-cF 2xd8-a1-m46-cA_2xd8-a1-m47-cG 2xd8-a1-m46-cB_2xd8-a1-m47-cE 2xd8-a1-m46-cE_2xd8-a1-m50-cB 2xd8-a1-m46-cF_2xd8-a1-m46-cG 2xd8-a1-m46-cF_2xd8-a1-m50-cA 2xd8-a1-m46-cG_2xd8-a1-m50-cA 2xd8-a1-m47-cA_2xd8-a1-m48-cF 2xd8-a1-m47-cA_2xd8-a1-m48-cG 2xd8-a1-m47-cB_2xd8-a1-m48-cE 2xd8-a1-m47-cF_2xd8-a1-m47-cG 2xd8-a1-m48-cA_2xd8-a1-m49-cF 2xd8-a1-m48-cA_2xd8-a1-m49-cG 2xd8-a1-m48-cB_2xd8-a1-m49-cE 2xd8-a1-m48-cF_2xd8-a1-m48-cG 2xd8-a1-m49-cA_2xd8-a1-m50-cF 2xd8-a1-m49-cA_2xd8-a1-m50-cG 2xd8-a1-m49-cB_2xd8-a1-m50-cE 2xd8-a1-m49-cF_2xd8-a1-m49-cG 2xd8-a1-m4-cA_2xd8-a1-m5-cF 2xd8-a1-m4-cA_2xd8-a1-m5-cG 2xd8-a1-m4-cB_2xd8-a1-m5-cE 2xd8-a1-m4-cD_2xd8-a1-m49-cD 2xd8-a1-m4-cE_2xd8-a1-m49-cC 2xd8-a1-m4-cF_2xd8-a1-m4-cG 2xd8-a1-m50-cF_2xd8-a1-m50-cG 2xd8-a1-m51-cA_2xd8-a1-m52-cF 2xd8-a1-m51-cA_2xd8-a1-m52-cG 2xd8-a1-m51-cB_2xd8-a1-m52-cE 2xd8-a1-m51-cD_2xd8-a1-m60-cD 2xd8-a1-m51-cE_2xd8-a1-m55-cB 2xd8-a1-m51-cE_2xd8-a1-m60-cC 2xd8-a1-m51-cF_2xd8-a1-m51-cG 2xd8-a1-m51-cF_2xd8-a1-m55-cA 2xd8-a1-m51-cG_2xd8-a1-m55-cA 2xd8-a1-m52-cA_2xd8-a1-m53-cF 2xd8-a1-m52-cA_2xd8-a1-m53-cG 2xd8-a1-m52-cB_2xd8-a1-m53-cE 2xd8-a1-m52-cF_2xd8-a1-m52-cG 2xd8-a1-m53-cA_2xd8-a1-m54-cF 2xd8-a1-m53-cA_2xd8-a1-m54-cG 2xd8-a1-m53-cB_2xd8-a1-m54-cE 2xd8-a1-m53-cF_2xd8-a1-m53-cG 2xd8-a1-m54-cA_2xd8-a1-m55-cF 2xd8-a1-m54-cA_2xd8-a1-m55-cG 2xd8-a1-m54-cB_2xd8-a1-m55-cE 2xd8-a1-m54-cB_2xd8-a1-m8-cC 2xd8-a1-m54-cC_2xd8-a1-m8-cB 2xd8-a1-m54-cC_2xd8-a1-m9-cE 2xd8-a1-m54-cF_2xd8-a1-m54-cG 2xd8-a1-m55-cB_2xd8-a1-m60-cC 2xd8-a1-m55-cC_2xd8-a1-m56-cE 2xd8-a1-m55-cC_2xd8-a1-m60-cB 2xd8-a1-m55-cD_2xd8-a1-m56-cD 2xd8-a1-m55-cD_2xd8-a1-m8-cD 2xd8-a1-m55-cE_2xd8-a1-m8-cC 2xd8-a1-m55-cF_2xd8-a1-m55-cG 2xd8-a1-m56-cA_2xd8-a1-m57-cF 2xd8-a1-m56-cA_2xd8-a1-m57-cG 2xd8-a1-m56-cB_2xd8-a1-m57-cE 2xd8-a1-m56-cB_2xd8-a1-m7-cC 2xd8-a1-m56-cC_2xd8-a1-m7-cB 2xd8-a1-m56-cC_2xd8-a1-m8-cE 2xd8-a1-m56-cD_2xd8-a1-m8-cD 2xd8-a1-m56-cE_2xd8-a1-m60-cB 2xd8-a1-m56-cF_2xd8-a1-m56-cG 2xd8-a1-m56-cF_2xd8-a1-m60-cA 2xd8-a1-m56-cG_2xd8-a1-m60-cA 2xd8-a1-m57-cA_2xd8-a1-m58-cF 2xd8-a1-m57-cA_2xd8-a1-m58-cG 2xd8-a1-m57-cB_2xd8-a1-m58-cE 2xd8-a1-m57-cD_2xd8-a1-m7-cD 2xd8-a1-m57-cE_2xd8-a1-m7-cC 2xd8-a1-m57-cF_2xd8-a1-m57-cG 2xd8-a1-m58-cA_2xd8-a1-m59-cF 2xd8-a1-m58-cA_2xd8-a1-m59-cG 2xd8-a1-m58-cB_2xd8-a1-m59-cE 2xd8-a1-m58-cF_2xd8-a1-m58-cG 2xd8-a1-m59-cA_2xd8-a1-m60-cF 2xd8-a1-m59-cA_2xd8-a1-m60-cG 2xd8-a1-m59-cB_2xd8-a1-m60-cE 2xd8-a1-m59-cF_2xd8-a1-m59-cG 2xd8-a1-m5-cC_2xd8-a1-m6-cE 2xd8-a1-m5-cD_2xd8-a1-m6-cD 2xd8-a1-m5-cF_2xd8-a1-m5-cG 2xd8-a1-m60-cF_2xd8-a1-m60-cG 2xd8-a1-m6-cA_2xd8-a1-m7-cF 2xd8-a1-m6-cA_2xd8-a1-m7-cG 2xd8-a1-m6-cB_2xd8-a1-m7-cE 2xd8-a1-m6-cF_2xd8-a1-m6-cG 2xd8-a1-m7-cA_2xd8-a1-m8-cF 2xd8-a1-m7-cA_2xd8-a1-m8-cG 2xd8-a1-m7-cB_2xd8-a1-m8-cE 2xd8-a1-m7-cF_2xd8-a1-m7-cG 2xd8-a1-m8-cA_2xd8-a1-m9-cF 2xd8-a1-m8-cA_2xd8-a1-m9-cG 2xd8-a1-m8-cB_2xd8-a1-m9-cE 2xd8-a1-m8-cF_2xd8-a1-m8-cG 2xd8-a1-m9-cF_2xd8-a1-m9-cG MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV 2xd8-a1-m8-cC_2xd8-a1-m9-cE Capsid structure of the infectious Prochlorococcus Cyanophage P-SSP7 Q58N30 Q58N30 4.6 ELECTRON MICROSCOPY 19 1.0 268748 (Tiamatvirus PSSP7) 268748 (Tiamatvirus PSSP7) 363 363 2xd8-a1-m10-cA_2xd8-a1-m6-cA 2xd8-a1-m10-cA_2xd8-a1-m9-cA 2xd8-a1-m10-cB_2xd8-a1-m5-cD 2xd8-a1-m10-cB_2xd8-a1-m6-cG 2xd8-a1-m10-cC_2xd8-a1-m6-cE 2xd8-a1-m10-cD_2xd8-a1-m23-cE 2xd8-a1-m10-cD_2xd8-a1-m5-cB 2xd8-a1-m10-cE_2xd8-a1-m9-cC 2xd8-a1-m10-cG_2xd8-a1-m9-cB 2xd8-a1-m11-cA_2xd8-a1-m12-cA 2xd8-a1-m11-cA_2xd8-a1-m15-cA 2xd8-a1-m11-cB_2xd8-a1-m12-cG 2xd8-a1-m11-cB_2xd8-a1-m37-cD 2xd8-a1-m11-cC_2xd8-a1-m12-cE 2xd8-a1-m11-cD_2xd8-a1-m20-cE 2xd8-a1-m11-cD_2xd8-a1-m37-cB 2xd8-a1-m11-cE_2xd8-a1-m15-cC 2xd8-a1-m11-cE_2xd8-a1-m38-cD 2xd8-a1-m11-cG_2xd8-a1-m15-cB 2xd8-a1-m12-cA_2xd8-a1-m13-cA 2xd8-a1-m12-cB_2xd8-a1-m13-cG 2xd8-a1-m12-cB_2xd8-a1-m46-cD 2xd8-a1-m12-cC_2xd8-a1-m13-cE 2xd8-a1-m12-cD_2xd8-a1-m37-cE 2xd8-a1-m12-cD_2xd8-a1-m46-cB 2xd8-a1-m12-cE_2xd8-a1-m47-cD 2xd8-a1-m13-cA_2xd8-a1-m14-cA 2xd8-a1-m13-cB_2xd8-a1-m14-cG 2xd8-a1-m13-cB_2xd8-a1-m44-cD 2xd8-a1-m13-cC_2xd8-a1-m14-cE 2xd8-a1-m13-cD_2xd8-a1-m44-cB 2xd8-a1-m13-cD_2xd8-a1-m46-cE 2xd8-a1-m13-cE_2xd8-a1-m45-cD 2xd8-a1-m14-cA_2xd8-a1-m15-cA 2xd8-a1-m14-cB_2xd8-a1-m15-cG 2xd8-a1-m14-cB_2xd8-a1-m28-cD 2xd8-a1-m14-cC_2xd8-a1-m15-cE 2xd8-a1-m14-cD_2xd8-a1-m28-cB 2xd8-a1-m14-cD_2xd8-a1-m44-cE 2xd8-a1-m14-cE_2xd8-a1-m29-cD 2xd8-a1-m15-cB_2xd8-a1-m20-cD 2xd8-a1-m15-cD_2xd8-a1-m20-cB 2xd8-a1-m15-cD_2xd8-a1-m28-cE 2xd8-a1-m15-cE_2xd8-a1-m16-cD 2xd8-a1-m16-cA_2xd8-a1-m17-cA 2xd8-a1-m16-cA_2xd8-a1-m20-cA 2xd8-a1-m16-cB_2xd8-a1-m17-cG 2xd8-a1-m16-cB_2xd8-a1-m27-cD 2xd8-a1-m16-cC_2xd8-a1-m17-cE 2xd8-a1-m16-cD_2xd8-a1-m27-cB 2xd8-a1-m16-cE_2xd8-a1-m20-cC 2xd8-a1-m16-cE_2xd8-a1-m28-cD 2xd8-a1-m16-cG_2xd8-a1-m20-cB 2xd8-a1-m17-cA_2xd8-a1-m18-cA 2xd8-a1-m17-cB_2xd8-a1-m18-cG 2xd8-a1-m17-cB_2xd8-a1-m51-cD 2xd8-a1-m17-cC_2xd8-a1-m18-cE 2xd8-a1-m17-cD_2xd8-a1-m27-cE 2xd8-a1-m17-cD_2xd8-a1-m51-cB 2xd8-a1-m17-cE_2xd8-a1-m52-cD 2xd8-a1-m18-cA_2xd8-a1-m19-cA 2xd8-a1-m18-cB_2xd8-a1-m19-cG 2xd8-a1-m18-cB_2xd8-a1-m59-cD 2xd8-a1-m18-cC_2xd8-a1-m19-cE 2xd8-a1-m18-cD_2xd8-a1-m51-cE 2xd8-a1-m18-cD_2xd8-a1-m59-cB 2xd8-a1-m18-cE_2xd8-a1-m60-cD 2xd8-a1-m19-cA_2xd8-a1-m20-cA 2xd8-a1-m19-cB_2xd8-a1-m20-cG 2xd8-a1-m19-cB_2xd8-a1-m38-cD 2xd8-a1-m19-cC_2xd8-a1-m20-cE 2xd8-a1-m19-cD_2xd8-a1-m38-cB 2xd8-a1-m19-cD_2xd8-a1-m59-cE 2xd8-a1-m19-cE_2xd8-a1-m39-cD 2xd8-a1-m1-cA_2xd8-a1-m2-cA 2xd8-a1-m1-cA_2xd8-a1-m5-cA 2xd8-a1-m1-cB_2xd8-a1-m22-cD 2xd8-a1-m1-cB_2xd8-a1-m2-cG 2xd8-a1-m1-cC_2xd8-a1-m2-cE 2xd8-a1-m1-cD_2xd8-a1-m10-cE 2xd8-a1-m1-cD_2xd8-a1-m22-cB 2xd8-a1-m1-cE_2xd8-a1-m23-cD 2xd8-a1-m1-cE_2xd8-a1-m5-cC 2xd8-a1-m1-cG_2xd8-a1-m5-cB 2xd8-a1-m20-cD_2xd8-a1-m38-cE 2xd8-a1-m21-cA_2xd8-a1-m22-cA 2xd8-a1-m21-cA_2xd8-a1-m25-cA 2xd8-a1-m21-cB_2xd8-a1-m22-cG 2xd8-a1-m21-cB_2xd8-a1-m42-cD 2xd8-a1-m21-cC_2xd8-a1-m22-cE 2xd8-a1-m21-cD_2xd8-a1-m30-cE 2xd8-a1-m21-cD_2xd8-a1-m42-cB 2xd8-a1-m21-cE_2xd8-a1-m25-cC 2xd8-a1-m21-cE_2xd8-a1-m43-cD 2xd8-a1-m21-cG_2xd8-a1-m25-cB 2xd8-a1-m22-cA_2xd8-a1-m23-cA 2xd8-a1-m22-cB_2xd8-a1-m23-cG 2xd8-a1-m22-cC_2xd8-a1-m23-cE 2xd8-a1-m22-cD_2xd8-a1-m42-cE 2xd8-a1-m23-cA_2xd8-a1-m24-cA 2xd8-a1-m23-cB_2xd8-a1-m24-cG 2xd8-a1-m23-cB_2xd8-a1-m9-cD 2xd8-a1-m23-cC_2xd8-a1-m24-cE 2xd8-a1-m23-cD_2xd8-a1-m9-cB 2xd8-a1-m24-cA_2xd8-a1-m25-cA 2xd8-a1-m24-cB_2xd8-a1-m25-cG 2xd8-a1-m24-cB_2xd8-a1-m53-cD 2xd8-a1-m24-cC_2xd8-a1-m25-cE 2xd8-a1-m24-cD_2xd8-a1-m53-cB 2xd8-a1-m24-cD_2xd8-a1-m9-cE 2xd8-a1-m24-cE_2xd8-a1-m54-cD 2xd8-a1-m25-cB_2xd8-a1-m30-cD 2xd8-a1-m25-cD_2xd8-a1-m30-cB 2xd8-a1-m25-cD_2xd8-a1-m53-cE 2xd8-a1-m25-cE_2xd8-a1-m26-cD 2xd8-a1-m26-cA_2xd8-a1-m27-cA 2xd8-a1-m26-cA_2xd8-a1-m30-cA 2xd8-a1-m26-cB_2xd8-a1-m27-cG 2xd8-a1-m26-cB_2xd8-a1-m52-cD 2xd8-a1-m26-cC_2xd8-a1-m27-cE 2xd8-a1-m26-cD_2xd8-a1-m52-cB 2xd8-a1-m26-cE_2xd8-a1-m30-cC 2xd8-a1-m26-cE_2xd8-a1-m53-cD 2xd8-a1-m26-cG_2xd8-a1-m30-cB 2xd8-a1-m27-cA_2xd8-a1-m28-cA 2xd8-a1-m27-cB_2xd8-a1-m28-cG 2xd8-a1-m27-cC_2xd8-a1-m28-cE 2xd8-a1-m27-cD_2xd8-a1-m52-cE 2xd8-a1-m28-cA_2xd8-a1-m29-cA 2xd8-a1-m28-cB_2xd8-a1-m29-cG 2xd8-a1-m28-cC_2xd8-a1-m29-cE 2xd8-a1-m29-cA_2xd8-a1-m30-cA 2xd8-a1-m29-cB_2xd8-a1-m30-cG 2xd8-a1-m29-cB_2xd8-a1-m43-cD 2xd8-a1-m29-cC_2xd8-a1-m30-cE 2xd8-a1-m29-cD_2xd8-a1-m43-cB 2xd8-a1-m29-cE_2xd8-a1-m44-cD 2xd8-a1-m2-cA_2xd8-a1-m3-cA 2xd8-a1-m2-cB_2xd8-a1-m3-cG 2xd8-a1-m2-cB_2xd8-a1-m41-cD 2xd8-a1-m2-cC_2xd8-a1-m3-cE 2xd8-a1-m2-cD_2xd8-a1-m22-cE 2xd8-a1-m2-cD_2xd8-a1-m41-cB 2xd8-a1-m2-cE_2xd8-a1-m42-cD 2xd8-a1-m30-cD_2xd8-a1-m43-cE 2xd8-a1-m31-cA_2xd8-a1-m32-cA 2xd8-a1-m31-cA_2xd8-a1-m35-cA 2xd8-a1-m31-cB_2xd8-a1-m32-cG 2xd8-a1-m31-cB_2xd8-a1-m57-cD 2xd8-a1-m31-cC_2xd8-a1-m32-cE 2xd8-a1-m31-cD_2xd8-a1-m40-cE 2xd8-a1-m31-cD_2xd8-a1-m57-cB 2xd8-a1-m31-cE_2xd8-a1-m35-cC 2xd8-a1-m31-cE_2xd8-a1-m58-cD 2xd8-a1-m31-cG_2xd8-a1-m35-cB 2xd8-a1-m32-cA_2xd8-a1-m33-cA 2xd8-a1-m32-cB_2xd8-a1-m33-cG 2xd8-a1-m32-cB_2xd8-a1-m6-cD 2xd8-a1-m32-cC_2xd8-a1-m33-cE 2xd8-a1-m32-cD_2xd8-a1-m57-cE 2xd8-a1-m32-cD_2xd8-a1-m6-cB 2xd8-a1-m32-cE_2xd8-a1-m7-cD 2xd8-a1-m33-cA_2xd8-a1-m34-cA 2xd8-a1-m33-cB_2xd8-a1-m34-cG 2xd8-a1-m33-cB_2xd8-a1-m4-cD 2xd8-a1-m33-cC_2xd8-a1-m34-cE 2xd8-a1-m33-cD_2xd8-a1-m4-cB 2xd8-a1-m33-cD_2xd8-a1-m6-cE 2xd8-a1-m33-cE_2xd8-a1-m5-cD 2xd8-a1-m34-cA_2xd8-a1-m35-cA 2xd8-a1-m34-cB_2xd8-a1-m35-cG 2xd8-a1-m34-cB_2xd8-a1-m48-cD 2xd8-a1-m34-cC_2xd8-a1-m35-cE 2xd8-a1-m34-cD_2xd8-a1-m48-cB 2xd8-a1-m34-cD_2xd8-a1-m4-cE 2xd8-a1-m34-cE_2xd8-a1-m49-cD 2xd8-a1-m35-cB_2xd8-a1-m40-cD 2xd8-a1-m35-cD_2xd8-a1-m40-cB 2xd8-a1-m35-cD_2xd8-a1-m48-cE 2xd8-a1-m35-cE_2xd8-a1-m36-cD 2xd8-a1-m36-cA_2xd8-a1-m37-cA 2xd8-a1-m36-cA_2xd8-a1-m40-cA 2xd8-a1-m36-cB_2xd8-a1-m37-cG 2xd8-a1-m36-cB_2xd8-a1-m47-cD 2xd8-a1-m36-cC_2xd8-a1-m37-cE 2xd8-a1-m36-cD_2xd8-a1-m47-cB 2xd8-a1-m36-cE_2xd8-a1-m40-cC 2xd8-a1-m36-cE_2xd8-a1-m48-cD 2xd8-a1-m36-cG_2xd8-a1-m40-cB 2xd8-a1-m37-cA_2xd8-a1-m38-cA 2xd8-a1-m37-cB_2xd8-a1-m38-cG 2xd8-a1-m37-cC_2xd8-a1-m38-cE 2xd8-a1-m37-cD_2xd8-a1-m47-cE 2xd8-a1-m38-cA_2xd8-a1-m39-cA 2xd8-a1-m38-cB_2xd8-a1-m39-cG 2xd8-a1-m38-cC_2xd8-a1-m39-cE 2xd8-a1-m39-cA_2xd8-a1-m40-cA 2xd8-a1-m39-cB_2xd8-a1-m40-cG 2xd8-a1-m39-cB_2xd8-a1-m58-cD 2xd8-a1-m39-cC_2xd8-a1-m40-cE 2xd8-a1-m39-cD_2xd8-a1-m58-cB 2xd8-a1-m39-cE_2xd8-a1-m59-cD 2xd8-a1-m3-cA_2xd8-a1-m4-cA 2xd8-a1-m3-cB_2xd8-a1-m49-cD 2xd8-a1-m3-cB_2xd8-a1-m4-cG 2xd8-a1-m3-cC_2xd8-a1-m4-cE 2xd8-a1-m3-cD_2xd8-a1-m41-cE 2xd8-a1-m3-cD_2xd8-a1-m49-cB 2xd8-a1-m3-cE_2xd8-a1-m50-cD 2xd8-a1-m40-cD_2xd8-a1-m58-cE 2xd8-a1-m41-cA_2xd8-a1-m42-cA 2xd8-a1-m41-cA_2xd8-a1-m45-cA 2xd8-a1-m41-cB_2xd8-a1-m42-cG 2xd8-a1-m41-cC_2xd8-a1-m42-cE 2xd8-a1-m41-cD_2xd8-a1-m50-cE 2xd8-a1-m41-cE_2xd8-a1-m45-cC 2xd8-a1-m41-cG_2xd8-a1-m45-cB 2xd8-a1-m42-cA_2xd8-a1-m43-cA 2xd8-a1-m42-cB_2xd8-a1-m43-cG 2xd8-a1-m42-cC_2xd8-a1-m43-cE 2xd8-a1-m43-cA_2xd8-a1-m44-cA 2xd8-a1-m43-cB_2xd8-a1-m44-cG 2xd8-a1-m43-cC_2xd8-a1-m44-cE 2xd8-a1-m44-cA_2xd8-a1-m45-cA 2xd8-a1-m44-cB_2xd8-a1-m45-cG 2xd8-a1-m44-cC_2xd8-a1-m45-cE 2xd8-a1-m45-cB_2xd8-a1-m50-cD 2xd8-a1-m45-cD_2xd8-a1-m50-cB 2xd8-a1-m45-cE_2xd8-a1-m46-cD 2xd8-a1-m46-cA_2xd8-a1-m47-cA 2xd8-a1-m46-cA_2xd8-a1-m50-cA 2xd8-a1-m46-cB_2xd8-a1-m47-cG 2xd8-a1-m46-cC_2xd8-a1-m47-cE 2xd8-a1-m46-cE_2xd8-a1-m50-cC 2xd8-a1-m46-cG_2xd8-a1-m50-cB 2xd8-a1-m47-cA_2xd8-a1-m48-cA 2xd8-a1-m47-cB_2xd8-a1-m48-cG 2xd8-a1-m47-cC_2xd8-a1-m48-cE 2xd8-a1-m48-cA_2xd8-a1-m49-cA 2xd8-a1-m48-cB_2xd8-a1-m49-cG 2xd8-a1-m48-cC_2xd8-a1-m49-cE 2xd8-a1-m49-cA_2xd8-a1-m50-cA 2xd8-a1-m49-cB_2xd8-a1-m50-cG 2xd8-a1-m49-cC_2xd8-a1-m50-cE 2xd8-a1-m4-cA_2xd8-a1-m5-cA 2xd8-a1-m4-cB_2xd8-a1-m5-cG 2xd8-a1-m4-cC_2xd8-a1-m5-cE 2xd8-a1-m4-cD_2xd8-a1-m49-cE 2xd8-a1-m51-cA_2xd8-a1-m52-cA 2xd8-a1-m51-cA_2xd8-a1-m55-cA 2xd8-a1-m51-cB_2xd8-a1-m52-cG 2xd8-a1-m51-cC_2xd8-a1-m52-cE 2xd8-a1-m51-cD_2xd8-a1-m60-cE 2xd8-a1-m51-cE_2xd8-a1-m55-cC 2xd8-a1-m51-cG_2xd8-a1-m55-cB 2xd8-a1-m52-cA_2xd8-a1-m53-cA 2xd8-a1-m52-cB_2xd8-a1-m53-cG 2xd8-a1-m52-cC_2xd8-a1-m53-cE 2xd8-a1-m53-cA_2xd8-a1-m54-cA 2xd8-a1-m53-cB_2xd8-a1-m54-cG 2xd8-a1-m53-cC_2xd8-a1-m54-cE 2xd8-a1-m54-cA_2xd8-a1-m55-cA 2xd8-a1-m54-cB_2xd8-a1-m55-cG 2xd8-a1-m54-cB_2xd8-a1-m8-cD 2xd8-a1-m54-cC_2xd8-a1-m55-cE 2xd8-a1-m54-cD_2xd8-a1-m8-cB 2xd8-a1-m54-cE_2xd8-a1-m9-cD 2xd8-a1-m55-cB_2xd8-a1-m60-cD 2xd8-a1-m55-cD_2xd8-a1-m60-cB 2xd8-a1-m55-cD_2xd8-a1-m8-cE 2xd8-a1-m55-cE_2xd8-a1-m56-cD 2xd8-a1-m56-cA_2xd8-a1-m57-cA 2xd8-a1-m56-cA_2xd8-a1-m60-cA 2xd8-a1-m56-cB_2xd8-a1-m57-cG 2xd8-a1-m56-cB_2xd8-a1-m7-cD 2xd8-a1-m56-cC_2xd8-a1-m57-cE 2xd8-a1-m56-cD_2xd8-a1-m7-cB 2xd8-a1-m56-cE_2xd8-a1-m60-cC 2xd8-a1-m56-cE_2xd8-a1-m8-cD 2xd8-a1-m56-cG_2xd8-a1-m60-cB 2xd8-a1-m57-cA_2xd8-a1-m58-cA 2xd8-a1-m57-cB_2xd8-a1-m58-cG 2xd8-a1-m57-cC_2xd8-a1-m58-cE 2xd8-a1-m57-cD_2xd8-a1-m7-cE 2xd8-a1-m58-cA_2xd8-a1-m59-cA 2xd8-a1-m58-cB_2xd8-a1-m59-cG 2xd8-a1-m58-cC_2xd8-a1-m59-cE 2xd8-a1-m59-cA_2xd8-a1-m60-cA 2xd8-a1-m59-cB_2xd8-a1-m60-cG 2xd8-a1-m59-cC_2xd8-a1-m60-cE 2xd8-a1-m5-cE_2xd8-a1-m6-cD 2xd8-a1-m6-cA_2xd8-a1-m7-cA 2xd8-a1-m6-cB_2xd8-a1-m7-cG 2xd8-a1-m6-cC_2xd8-a1-m7-cE 2xd8-a1-m7-cA_2xd8-a1-m8-cA 2xd8-a1-m7-cB_2xd8-a1-m8-cG 2xd8-a1-m7-cC_2xd8-a1-m8-cE 2xd8-a1-m8-cA_2xd8-a1-m9-cA 2xd8-a1-m8-cB_2xd8-a1-m9-cG MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV 2xd8-a1-m8-cG_2xd8-a1-m9-cG Capsid structure of the infectious Prochlorococcus Cyanophage P-SSP7 Q58N30 Q58N30 4.6 ELECTRON MICROSCOPY 211 1.0 268748 (Tiamatvirus PSSP7) 268748 (Tiamatvirus PSSP7) 363 363 2xd8-a1-m10-cG_2xd8-a1-m6-cG 2xd8-a1-m10-cG_2xd8-a1-m9-cG 2xd8-a1-m11-cG_2xd8-a1-m12-cG 2xd8-a1-m11-cG_2xd8-a1-m15-cG 2xd8-a1-m12-cG_2xd8-a1-m13-cG 2xd8-a1-m13-cG_2xd8-a1-m14-cG 2xd8-a1-m14-cG_2xd8-a1-m15-cG 2xd8-a1-m16-cG_2xd8-a1-m17-cG 2xd8-a1-m16-cG_2xd8-a1-m20-cG 2xd8-a1-m17-cG_2xd8-a1-m18-cG 2xd8-a1-m18-cG_2xd8-a1-m19-cG 2xd8-a1-m19-cG_2xd8-a1-m20-cG 2xd8-a1-m1-cG_2xd8-a1-m2-cG 2xd8-a1-m1-cG_2xd8-a1-m5-cG 2xd8-a1-m21-cG_2xd8-a1-m22-cG 2xd8-a1-m21-cG_2xd8-a1-m25-cG 2xd8-a1-m22-cG_2xd8-a1-m23-cG 2xd8-a1-m23-cG_2xd8-a1-m24-cG 2xd8-a1-m24-cG_2xd8-a1-m25-cG 2xd8-a1-m26-cG_2xd8-a1-m27-cG 2xd8-a1-m26-cG_2xd8-a1-m30-cG 2xd8-a1-m27-cG_2xd8-a1-m28-cG 2xd8-a1-m28-cG_2xd8-a1-m29-cG 2xd8-a1-m29-cG_2xd8-a1-m30-cG 2xd8-a1-m2-cG_2xd8-a1-m3-cG 2xd8-a1-m31-cG_2xd8-a1-m32-cG 2xd8-a1-m31-cG_2xd8-a1-m35-cG 2xd8-a1-m32-cG_2xd8-a1-m33-cG 2xd8-a1-m33-cG_2xd8-a1-m34-cG 2xd8-a1-m34-cG_2xd8-a1-m35-cG 2xd8-a1-m36-cG_2xd8-a1-m37-cG 2xd8-a1-m36-cG_2xd8-a1-m40-cG 2xd8-a1-m37-cG_2xd8-a1-m38-cG 2xd8-a1-m38-cG_2xd8-a1-m39-cG 2xd8-a1-m39-cG_2xd8-a1-m40-cG 2xd8-a1-m3-cG_2xd8-a1-m4-cG 2xd8-a1-m41-cG_2xd8-a1-m42-cG 2xd8-a1-m41-cG_2xd8-a1-m45-cG 2xd8-a1-m42-cG_2xd8-a1-m43-cG 2xd8-a1-m43-cG_2xd8-a1-m44-cG 2xd8-a1-m44-cG_2xd8-a1-m45-cG 2xd8-a1-m46-cG_2xd8-a1-m47-cG 2xd8-a1-m46-cG_2xd8-a1-m50-cG 2xd8-a1-m47-cG_2xd8-a1-m48-cG 2xd8-a1-m48-cG_2xd8-a1-m49-cG 2xd8-a1-m49-cG_2xd8-a1-m50-cG 2xd8-a1-m4-cG_2xd8-a1-m5-cG 2xd8-a1-m51-cG_2xd8-a1-m52-cG 2xd8-a1-m51-cG_2xd8-a1-m55-cG 2xd8-a1-m52-cG_2xd8-a1-m53-cG 2xd8-a1-m53-cG_2xd8-a1-m54-cG 2xd8-a1-m54-cG_2xd8-a1-m55-cG 2xd8-a1-m56-cG_2xd8-a1-m57-cG 2xd8-a1-m56-cG_2xd8-a1-m60-cG 2xd8-a1-m57-cG_2xd8-a1-m58-cG 2xd8-a1-m58-cG_2xd8-a1-m59-cG 2xd8-a1-m59-cG_2xd8-a1-m60-cG 2xd8-a1-m6-cG_2xd8-a1-m7-cG 2xd8-a1-m7-cG_2xd8-a1-m8-cG MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV 2xd8-a1-m9-cA_2xd8-a1-m9-cB Capsid structure of the infectious Prochlorococcus Cyanophage P-SSP7 Q58N30 Q58N30 4.6 ELECTRON MICROSCOPY 156 1.0 268748 (Tiamatvirus PSSP7) 268748 (Tiamatvirus PSSP7) 363 363 2xd8-a1-m10-cA_2xd8-a1-m10-cB 2xd8-a1-m10-cA_2xd8-a1-m10-cF 2xd8-a1-m10-cB_2xd8-a1-m10-cC 2xd8-a1-m10-cC_2xd8-a1-m10-cD 2xd8-a1-m10-cD_2xd8-a1-m10-cE 2xd8-a1-m10-cE_2xd8-a1-m10-cF 2xd8-a1-m11-cA_2xd8-a1-m11-cB 2xd8-a1-m11-cA_2xd8-a1-m11-cF 2xd8-a1-m11-cB_2xd8-a1-m11-cC 2xd8-a1-m11-cC_2xd8-a1-m11-cD 2xd8-a1-m11-cD_2xd8-a1-m11-cE 2xd8-a1-m11-cE_2xd8-a1-m11-cF 2xd8-a1-m12-cA_2xd8-a1-m12-cB 2xd8-a1-m12-cA_2xd8-a1-m12-cF 2xd8-a1-m12-cB_2xd8-a1-m12-cC 2xd8-a1-m12-cC_2xd8-a1-m12-cD 2xd8-a1-m12-cD_2xd8-a1-m12-cE 2xd8-a1-m12-cE_2xd8-a1-m12-cF 2xd8-a1-m13-cA_2xd8-a1-m13-cB 2xd8-a1-m13-cA_2xd8-a1-m13-cF 2xd8-a1-m13-cB_2xd8-a1-m13-cC 2xd8-a1-m13-cC_2xd8-a1-m13-cD 2xd8-a1-m13-cD_2xd8-a1-m13-cE 2xd8-a1-m13-cE_2xd8-a1-m13-cF 2xd8-a1-m14-cA_2xd8-a1-m14-cB 2xd8-a1-m14-cA_2xd8-a1-m14-cF 2xd8-a1-m14-cB_2xd8-a1-m14-cC 2xd8-a1-m14-cC_2xd8-a1-m14-cD 2xd8-a1-m14-cD_2xd8-a1-m14-cE 2xd8-a1-m14-cE_2xd8-a1-m14-cF 2xd8-a1-m15-cA_2xd8-a1-m15-cB 2xd8-a1-m15-cA_2xd8-a1-m15-cF 2xd8-a1-m15-cB_2xd8-a1-m15-cC 2xd8-a1-m15-cC_2xd8-a1-m15-cD 2xd8-a1-m15-cD_2xd8-a1-m15-cE 2xd8-a1-m15-cE_2xd8-a1-m15-cF 2xd8-a1-m16-cA_2xd8-a1-m16-cB 2xd8-a1-m16-cA_2xd8-a1-m16-cF 2xd8-a1-m16-cB_2xd8-a1-m16-cC 2xd8-a1-m16-cC_2xd8-a1-m16-cD 2xd8-a1-m16-cD_2xd8-a1-m16-cE 2xd8-a1-m16-cE_2xd8-a1-m16-cF 2xd8-a1-m17-cA_2xd8-a1-m17-cB 2xd8-a1-m17-cA_2xd8-a1-m17-cF 2xd8-a1-m17-cB_2xd8-a1-m17-cC 2xd8-a1-m17-cC_2xd8-a1-m17-cD 2xd8-a1-m17-cD_2xd8-a1-m17-cE 2xd8-a1-m17-cE_2xd8-a1-m17-cF 2xd8-a1-m18-cA_2xd8-a1-m18-cB 2xd8-a1-m18-cA_2xd8-a1-m18-cF 2xd8-a1-m18-cB_2xd8-a1-m18-cC 2xd8-a1-m18-cC_2xd8-a1-m18-cD 2xd8-a1-m18-cD_2xd8-a1-m18-cE 2xd8-a1-m18-cE_2xd8-a1-m18-cF 2xd8-a1-m19-cA_2xd8-a1-m19-cB 2xd8-a1-m19-cA_2xd8-a1-m19-cF 2xd8-a1-m19-cB_2xd8-a1-m19-cC 2xd8-a1-m19-cC_2xd8-a1-m19-cD 2xd8-a1-m19-cD_2xd8-a1-m19-cE 2xd8-a1-m19-cE_2xd8-a1-m19-cF 2xd8-a1-m1-cA_2xd8-a1-m1-cB 2xd8-a1-m1-cA_2xd8-a1-m1-cF 2xd8-a1-m1-cB_2xd8-a1-m1-cC 2xd8-a1-m1-cC_2xd8-a1-m1-cD 2xd8-a1-m1-cD_2xd8-a1-m1-cE 2xd8-a1-m1-cE_2xd8-a1-m1-cF 2xd8-a1-m20-cA_2xd8-a1-m20-cB 2xd8-a1-m20-cA_2xd8-a1-m20-cF 2xd8-a1-m20-cB_2xd8-a1-m20-cC 2xd8-a1-m20-cC_2xd8-a1-m20-cD 2xd8-a1-m20-cD_2xd8-a1-m20-cE 2xd8-a1-m20-cE_2xd8-a1-m20-cF 2xd8-a1-m21-cA_2xd8-a1-m21-cB 2xd8-a1-m21-cA_2xd8-a1-m21-cF 2xd8-a1-m21-cB_2xd8-a1-m21-cC 2xd8-a1-m21-cC_2xd8-a1-m21-cD 2xd8-a1-m21-cD_2xd8-a1-m21-cE 2xd8-a1-m21-cE_2xd8-a1-m21-cF 2xd8-a1-m22-cA_2xd8-a1-m22-cB 2xd8-a1-m22-cA_2xd8-a1-m22-cF 2xd8-a1-m22-cB_2xd8-a1-m22-cC 2xd8-a1-m22-cC_2xd8-a1-m22-cD 2xd8-a1-m22-cD_2xd8-a1-m22-cE 2xd8-a1-m22-cE_2xd8-a1-m22-cF 2xd8-a1-m23-cA_2xd8-a1-m23-cB 2xd8-a1-m23-cA_2xd8-a1-m23-cF 2xd8-a1-m23-cB_2xd8-a1-m23-cC 2xd8-a1-m23-cC_2xd8-a1-m23-cD 2xd8-a1-m23-cD_2xd8-a1-m23-cE 2xd8-a1-m23-cE_2xd8-a1-m23-cF 2xd8-a1-m24-cA_2xd8-a1-m24-cB 2xd8-a1-m24-cA_2xd8-a1-m24-cF 2xd8-a1-m24-cB_2xd8-a1-m24-cC 2xd8-a1-m24-cC_2xd8-a1-m24-cD 2xd8-a1-m24-cD_2xd8-a1-m24-cE 2xd8-a1-m24-cE_2xd8-a1-m24-cF 2xd8-a1-m25-cA_2xd8-a1-m25-cB 2xd8-a1-m25-cA_2xd8-a1-m25-cF 2xd8-a1-m25-cB_2xd8-a1-m25-cC 2xd8-a1-m25-cC_2xd8-a1-m25-cD 2xd8-a1-m25-cD_2xd8-a1-m25-cE 2xd8-a1-m25-cE_2xd8-a1-m25-cF 2xd8-a1-m26-cA_2xd8-a1-m26-cB 2xd8-a1-m26-cA_2xd8-a1-m26-cF 2xd8-a1-m26-cB_2xd8-a1-m26-cC 2xd8-a1-m26-cC_2xd8-a1-m26-cD 2xd8-a1-m26-cD_2xd8-a1-m26-cE 2xd8-a1-m26-cE_2xd8-a1-m26-cF 2xd8-a1-m27-cA_2xd8-a1-m27-cB 2xd8-a1-m27-cA_2xd8-a1-m27-cF 2xd8-a1-m27-cB_2xd8-a1-m27-cC 2xd8-a1-m27-cC_2xd8-a1-m27-cD 2xd8-a1-m27-cD_2xd8-a1-m27-cE 2xd8-a1-m27-cE_2xd8-a1-m27-cF 2xd8-a1-m28-cA_2xd8-a1-m28-cB 2xd8-a1-m28-cA_2xd8-a1-m28-cF 2xd8-a1-m28-cB_2xd8-a1-m28-cC 2xd8-a1-m28-cC_2xd8-a1-m28-cD 2xd8-a1-m28-cD_2xd8-a1-m28-cE 2xd8-a1-m28-cE_2xd8-a1-m28-cF 2xd8-a1-m29-cA_2xd8-a1-m29-cB 2xd8-a1-m29-cA_2xd8-a1-m29-cF 2xd8-a1-m29-cB_2xd8-a1-m29-cC 2xd8-a1-m29-cC_2xd8-a1-m29-cD 2xd8-a1-m29-cD_2xd8-a1-m29-cE 2xd8-a1-m29-cE_2xd8-a1-m29-cF 2xd8-a1-m2-cA_2xd8-a1-m2-cB 2xd8-a1-m2-cA_2xd8-a1-m2-cF 2xd8-a1-m2-cB_2xd8-a1-m2-cC 2xd8-a1-m2-cC_2xd8-a1-m2-cD 2xd8-a1-m2-cD_2xd8-a1-m2-cE 2xd8-a1-m2-cE_2xd8-a1-m2-cF 2xd8-a1-m30-cA_2xd8-a1-m30-cB 2xd8-a1-m30-cA_2xd8-a1-m30-cF 2xd8-a1-m30-cB_2xd8-a1-m30-cC 2xd8-a1-m30-cC_2xd8-a1-m30-cD 2xd8-a1-m30-cD_2xd8-a1-m30-cE 2xd8-a1-m30-cE_2xd8-a1-m30-cF 2xd8-a1-m31-cA_2xd8-a1-m31-cB 2xd8-a1-m31-cA_2xd8-a1-m31-cF 2xd8-a1-m31-cB_2xd8-a1-m31-cC 2xd8-a1-m31-cC_2xd8-a1-m31-cD 2xd8-a1-m31-cD_2xd8-a1-m31-cE 2xd8-a1-m31-cE_2xd8-a1-m31-cF 2xd8-a1-m32-cA_2xd8-a1-m32-cB 2xd8-a1-m32-cA_2xd8-a1-m32-cF 2xd8-a1-m32-cB_2xd8-a1-m32-cC 2xd8-a1-m32-cC_2xd8-a1-m32-cD 2xd8-a1-m32-cD_2xd8-a1-m32-cE 2xd8-a1-m32-cE_2xd8-a1-m32-cF 2xd8-a1-m33-cA_2xd8-a1-m33-cB 2xd8-a1-m33-cA_2xd8-a1-m33-cF 2xd8-a1-m33-cB_2xd8-a1-m33-cC 2xd8-a1-m33-cC_2xd8-a1-m33-cD 2xd8-a1-m33-cD_2xd8-a1-m33-cE 2xd8-a1-m33-cE_2xd8-a1-m33-cF 2xd8-a1-m34-cA_2xd8-a1-m34-cB 2xd8-a1-m34-cA_2xd8-a1-m34-cF 2xd8-a1-m34-cB_2xd8-a1-m34-cC 2xd8-a1-m34-cC_2xd8-a1-m34-cD 2xd8-a1-m34-cD_2xd8-a1-m34-cE 2xd8-a1-m34-cE_2xd8-a1-m34-cF 2xd8-a1-m35-cA_2xd8-a1-m35-cB 2xd8-a1-m35-cA_2xd8-a1-m35-cF 2xd8-a1-m35-cB_2xd8-a1-m35-cC 2xd8-a1-m35-cC_2xd8-a1-m35-cD 2xd8-a1-m35-cD_2xd8-a1-m35-cE 2xd8-a1-m35-cE_2xd8-a1-m35-cF 2xd8-a1-m36-cA_2xd8-a1-m36-cB 2xd8-a1-m36-cA_2xd8-a1-m36-cF 2xd8-a1-m36-cB_2xd8-a1-m36-cC 2xd8-a1-m36-cC_2xd8-a1-m36-cD 2xd8-a1-m36-cD_2xd8-a1-m36-cE 2xd8-a1-m36-cE_2xd8-a1-m36-cF 2xd8-a1-m37-cA_2xd8-a1-m37-cB 2xd8-a1-m37-cA_2xd8-a1-m37-cF 2xd8-a1-m37-cB_2xd8-a1-m37-cC 2xd8-a1-m37-cC_2xd8-a1-m37-cD 2xd8-a1-m37-cD_2xd8-a1-m37-cE 2xd8-a1-m37-cE_2xd8-a1-m37-cF 2xd8-a1-m38-cA_2xd8-a1-m38-cB 2xd8-a1-m38-cA_2xd8-a1-m38-cF 2xd8-a1-m38-cB_2xd8-a1-m38-cC 2xd8-a1-m38-cC_2xd8-a1-m38-cD 2xd8-a1-m38-cD_2xd8-a1-m38-cE 2xd8-a1-m38-cE_2xd8-a1-m38-cF 2xd8-a1-m39-cA_2xd8-a1-m39-cB 2xd8-a1-m39-cA_2xd8-a1-m39-cF 2xd8-a1-m39-cB_2xd8-a1-m39-cC 2xd8-a1-m39-cC_2xd8-a1-m39-cD 2xd8-a1-m39-cD_2xd8-a1-m39-cE 2xd8-a1-m39-cE_2xd8-a1-m39-cF 2xd8-a1-m3-cA_2xd8-a1-m3-cB 2xd8-a1-m3-cA_2xd8-a1-m3-cF 2xd8-a1-m3-cB_2xd8-a1-m3-cC 2xd8-a1-m3-cC_2xd8-a1-m3-cD 2xd8-a1-m3-cD_2xd8-a1-m3-cE 2xd8-a1-m3-cE_2xd8-a1-m3-cF 2xd8-a1-m40-cA_2xd8-a1-m40-cB 2xd8-a1-m40-cA_2xd8-a1-m40-cF 2xd8-a1-m40-cB_2xd8-a1-m40-cC 2xd8-a1-m40-cC_2xd8-a1-m40-cD 2xd8-a1-m40-cD_2xd8-a1-m40-cE 2xd8-a1-m40-cE_2xd8-a1-m40-cF 2xd8-a1-m41-cA_2xd8-a1-m41-cB 2xd8-a1-m41-cA_2xd8-a1-m41-cF 2xd8-a1-m41-cB_2xd8-a1-m41-cC 2xd8-a1-m41-cC_2xd8-a1-m41-cD 2xd8-a1-m41-cD_2xd8-a1-m41-cE 2xd8-a1-m41-cE_2xd8-a1-m41-cF 2xd8-a1-m42-cA_2xd8-a1-m42-cB 2xd8-a1-m42-cA_2xd8-a1-m42-cF 2xd8-a1-m42-cB_2xd8-a1-m42-cC 2xd8-a1-m42-cC_2xd8-a1-m42-cD 2xd8-a1-m42-cD_2xd8-a1-m42-cE 2xd8-a1-m42-cE_2xd8-a1-m42-cF 2xd8-a1-m43-cA_2xd8-a1-m43-cB 2xd8-a1-m43-cA_2xd8-a1-m43-cF 2xd8-a1-m43-cB_2xd8-a1-m43-cC 2xd8-a1-m43-cC_2xd8-a1-m43-cD 2xd8-a1-m43-cD_2xd8-a1-m43-cE 2xd8-a1-m43-cE_2xd8-a1-m43-cF 2xd8-a1-m44-cA_2xd8-a1-m44-cB 2xd8-a1-m44-cA_2xd8-a1-m44-cF 2xd8-a1-m44-cB_2xd8-a1-m44-cC 2xd8-a1-m44-cC_2xd8-a1-m44-cD 2xd8-a1-m44-cD_2xd8-a1-m44-cE 2xd8-a1-m44-cE_2xd8-a1-m44-cF 2xd8-a1-m45-cA_2xd8-a1-m45-cB 2xd8-a1-m45-cA_2xd8-a1-m45-cF 2xd8-a1-m45-cB_2xd8-a1-m45-cC 2xd8-a1-m45-cC_2xd8-a1-m45-cD 2xd8-a1-m45-cD_2xd8-a1-m45-cE 2xd8-a1-m45-cE_2xd8-a1-m45-cF 2xd8-a1-m46-cA_2xd8-a1-m46-cB 2xd8-a1-m46-cA_2xd8-a1-m46-cF 2xd8-a1-m46-cB_2xd8-a1-m46-cC 2xd8-a1-m46-cC_2xd8-a1-m46-cD 2xd8-a1-m46-cD_2xd8-a1-m46-cE 2xd8-a1-m46-cE_2xd8-a1-m46-cF 2xd8-a1-m47-cA_2xd8-a1-m47-cB 2xd8-a1-m47-cA_2xd8-a1-m47-cF 2xd8-a1-m47-cB_2xd8-a1-m47-cC 2xd8-a1-m47-cC_2xd8-a1-m47-cD 2xd8-a1-m47-cD_2xd8-a1-m47-cE 2xd8-a1-m47-cE_2xd8-a1-m47-cF 2xd8-a1-m48-cA_2xd8-a1-m48-cB 2xd8-a1-m48-cA_2xd8-a1-m48-cF 2xd8-a1-m48-cB_2xd8-a1-m48-cC 2xd8-a1-m48-cC_2xd8-a1-m48-cD 2xd8-a1-m48-cD_2xd8-a1-m48-cE 2xd8-a1-m48-cE_2xd8-a1-m48-cF 2xd8-a1-m49-cA_2xd8-a1-m49-cB 2xd8-a1-m49-cA_2xd8-a1-m49-cF 2xd8-a1-m49-cB_2xd8-a1-m49-cC 2xd8-a1-m49-cC_2xd8-a1-m49-cD 2xd8-a1-m49-cD_2xd8-a1-m49-cE 2xd8-a1-m49-cE_2xd8-a1-m49-cF 2xd8-a1-m4-cA_2xd8-a1-m4-cB 2xd8-a1-m4-cA_2xd8-a1-m4-cF 2xd8-a1-m4-cB_2xd8-a1-m4-cC 2xd8-a1-m4-cC_2xd8-a1-m4-cD 2xd8-a1-m4-cD_2xd8-a1-m4-cE 2xd8-a1-m4-cE_2xd8-a1-m4-cF 2xd8-a1-m50-cA_2xd8-a1-m50-cB 2xd8-a1-m50-cA_2xd8-a1-m50-cF 2xd8-a1-m50-cB_2xd8-a1-m50-cC 2xd8-a1-m50-cC_2xd8-a1-m50-cD 2xd8-a1-m50-cD_2xd8-a1-m50-cE 2xd8-a1-m50-cE_2xd8-a1-m50-cF 2xd8-a1-m51-cA_2xd8-a1-m51-cB 2xd8-a1-m51-cA_2xd8-a1-m51-cF 2xd8-a1-m51-cB_2xd8-a1-m51-cC 2xd8-a1-m51-cC_2xd8-a1-m51-cD 2xd8-a1-m51-cD_2xd8-a1-m51-cE 2xd8-a1-m51-cE_2xd8-a1-m51-cF 2xd8-a1-m52-cA_2xd8-a1-m52-cB 2xd8-a1-m52-cA_2xd8-a1-m52-cF 2xd8-a1-m52-cB_2xd8-a1-m52-cC 2xd8-a1-m52-cC_2xd8-a1-m52-cD 2xd8-a1-m52-cD_2xd8-a1-m52-cE 2xd8-a1-m52-cE_2xd8-a1-m52-cF 2xd8-a1-m53-cA_2xd8-a1-m53-cB 2xd8-a1-m53-cA_2xd8-a1-m53-cF 2xd8-a1-m53-cB_2xd8-a1-m53-cC 2xd8-a1-m53-cC_2xd8-a1-m53-cD 2xd8-a1-m53-cD_2xd8-a1-m53-cE 2xd8-a1-m53-cE_2xd8-a1-m53-cF 2xd8-a1-m54-cA_2xd8-a1-m54-cB 2xd8-a1-m54-cA_2xd8-a1-m54-cF 2xd8-a1-m54-cB_2xd8-a1-m54-cC 2xd8-a1-m54-cC_2xd8-a1-m54-cD 2xd8-a1-m54-cD_2xd8-a1-m54-cE 2xd8-a1-m54-cE_2xd8-a1-m54-cF 2xd8-a1-m55-cA_2xd8-a1-m55-cB 2xd8-a1-m55-cA_2xd8-a1-m55-cF 2xd8-a1-m55-cB_2xd8-a1-m55-cC 2xd8-a1-m55-cC_2xd8-a1-m55-cD 2xd8-a1-m55-cD_2xd8-a1-m55-cE 2xd8-a1-m55-cE_2xd8-a1-m55-cF 2xd8-a1-m56-cA_2xd8-a1-m56-cB 2xd8-a1-m56-cA_2xd8-a1-m56-cF 2xd8-a1-m56-cB_2xd8-a1-m56-cC 2xd8-a1-m56-cC_2xd8-a1-m56-cD 2xd8-a1-m56-cD_2xd8-a1-m56-cE 2xd8-a1-m56-cE_2xd8-a1-m56-cF 2xd8-a1-m57-cA_2xd8-a1-m57-cB 2xd8-a1-m57-cA_2xd8-a1-m57-cF 2xd8-a1-m57-cB_2xd8-a1-m57-cC 2xd8-a1-m57-cC_2xd8-a1-m57-cD 2xd8-a1-m57-cD_2xd8-a1-m57-cE 2xd8-a1-m57-cE_2xd8-a1-m57-cF 2xd8-a1-m58-cA_2xd8-a1-m58-cB 2xd8-a1-m58-cA_2xd8-a1-m58-cF 2xd8-a1-m58-cB_2xd8-a1-m58-cC 2xd8-a1-m58-cC_2xd8-a1-m58-cD 2xd8-a1-m58-cD_2xd8-a1-m58-cE 2xd8-a1-m58-cE_2xd8-a1-m58-cF 2xd8-a1-m59-cA_2xd8-a1-m59-cB 2xd8-a1-m59-cA_2xd8-a1-m59-cF 2xd8-a1-m59-cB_2xd8-a1-m59-cC 2xd8-a1-m59-cC_2xd8-a1-m59-cD 2xd8-a1-m59-cD_2xd8-a1-m59-cE 2xd8-a1-m59-cE_2xd8-a1-m59-cF 2xd8-a1-m5-cA_2xd8-a1-m5-cB 2xd8-a1-m5-cA_2xd8-a1-m5-cF 2xd8-a1-m5-cB_2xd8-a1-m5-cC 2xd8-a1-m5-cC_2xd8-a1-m5-cD 2xd8-a1-m5-cD_2xd8-a1-m5-cE 2xd8-a1-m5-cE_2xd8-a1-m5-cF 2xd8-a1-m60-cA_2xd8-a1-m60-cB 2xd8-a1-m60-cA_2xd8-a1-m60-cF 2xd8-a1-m60-cB_2xd8-a1-m60-cC 2xd8-a1-m60-cC_2xd8-a1-m60-cD 2xd8-a1-m60-cD_2xd8-a1-m60-cE 2xd8-a1-m60-cE_2xd8-a1-m60-cF 2xd8-a1-m6-cA_2xd8-a1-m6-cB 2xd8-a1-m6-cA_2xd8-a1-m6-cF 2xd8-a1-m6-cB_2xd8-a1-m6-cC 2xd8-a1-m6-cC_2xd8-a1-m6-cD 2xd8-a1-m6-cD_2xd8-a1-m6-cE 2xd8-a1-m6-cE_2xd8-a1-m6-cF 2xd8-a1-m7-cA_2xd8-a1-m7-cB 2xd8-a1-m7-cA_2xd8-a1-m7-cF 2xd8-a1-m7-cB_2xd8-a1-m7-cC 2xd8-a1-m7-cC_2xd8-a1-m7-cD 2xd8-a1-m7-cD_2xd8-a1-m7-cE 2xd8-a1-m7-cE_2xd8-a1-m7-cF 2xd8-a1-m8-cA_2xd8-a1-m8-cB 2xd8-a1-m8-cA_2xd8-a1-m8-cF 2xd8-a1-m8-cB_2xd8-a1-m8-cC 2xd8-a1-m8-cC_2xd8-a1-m8-cD 2xd8-a1-m8-cD_2xd8-a1-m8-cE 2xd8-a1-m8-cE_2xd8-a1-m8-cF 2xd8-a1-m9-cA_2xd8-a1-m9-cF 2xd8-a1-m9-cB_2xd8-a1-m9-cC 2xd8-a1-m9-cC_2xd8-a1-m9-cD 2xd8-a1-m9-cD_2xd8-a1-m9-cE 2xd8-a1-m9-cE_2xd8-a1-m9-cF MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV MANANQVALGRSNLSTGTGYGGATDKYALYLKLFSGEMFKGFQHETIARDLVTKRTLKNGKSLQFIYTGRMTSSFHTPGTPILGNADKAPPVAEKTIVMDDLLISSAFVYDLDETLAHYELRGEISKKIGYALAEKYDRLIFRSITRGARSASPVSATNFVEPGGTQIRVGSGTNESDAFTASALVNAFYDAAAAMDEKGVSSQGRCAVLNPRQYYALIQDIGSNGLVNRDVQGSALQSGNGVIEIAGIHIYKSMNIPFLGKYGVKYGGTTGETSPGNLGSHIGPTPENANATGGVNNDYGTNAELGAKSCGLIFQKEAAGVVEAIGPQVQVTNGDVSVIYQGDVILGRMAMGADYLNPAAAV 2xda-a1-m2-cA_2xda-a1-m9-cA STRUCTURE OF HELICOBACTER PYLORI TYPE II DEHYDROQUINASE IN COMPLEX WITH INHIBITOR COMPOUND (4R,6R,7S)-2-(2-Cyclopropyl)ethyl-4,6,7- trihydroxy-4,5,6,7-tetrahydrobenzo(b)thiophene-4-carboxylic acid Q48255 Q48255 1.85 X-RAY DIFFRACTION 69 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 150 150 1j2y-a1-m10-cA_1j2y-a1-m12-cA 1j2y-a1-m11-cA_1j2y-a1-m9-cA 1j2y-a1-m1-cA_1j2y-a1-m3-cA 1j2y-a1-m2-cA_1j2y-a1-m4-cA 1j2y-a1-m5-cA_1j2y-a1-m7-cA 1j2y-a1-m6-cA_1j2y-a1-m8-cA 2c4v-a1-m1-cA_2c4v-a1-m2-cA 2c4w-a1-m1-cA_2c4w-a1-m2-cA 2c57-a1-m1-cA_2c57-a1-m1-cG 2c57-a1-m1-cB_2c57-a1-m1-cK 2c57-a1-m1-cC_2c57-a1-m1-cF 2c57-a1-m1-cD_2c57-a1-m1-cJ 2c57-a1-m1-cE_2c57-a1-m1-cH 2c57-a1-m1-cI_2c57-a1-m1-cL 2wks-a1-m1-cA_2wks-a1-m2-cA 2wks-a1-m1-cB_2wks-a1-m1-cC 2wks-a1-m1-cD_2wks-a1-m2-cD 2wks-a1-m1-cE_2wks-a1-m2-cF 2wks-a1-m1-cF_2wks-a1-m2-cE 2wks-a1-m2-cB_2wks-a1-m2-cC 2xb9-a1-m1-cA_2xb9-a1-m2-cA 2xb9-a1-m1-cB_2xb9-a1-m4-cB 2xb9-a1-m1-cC_2xb9-a1-m3-cC 2xb9-a1-m2-cB_2xb9-a1-m3-cB 2xb9-a1-m2-cC_2xb9-a1-m4-cC 2xb9-a1-m3-cA_2xb9-a1-m4-cA 2xd9-a1-m1-cA_2xd9-a1-m2-cA 2xd9-a1-m1-cB_2xd9-a1-m3-cB 2xd9-a1-m1-cC_2xd9-a1-m4-cC 2xd9-a1-m2-cB_2xd9-a1-m4-cB 2xd9-a1-m2-cC_2xd9-a1-m3-cC 2xd9-a1-m3-cA_2xd9-a1-m4-cA 2xda-a1-m10-cA_2xda-a1-m12-cA 2xda-a1-m11-cA_2xda-a1-m7-cA 2xda-a1-m1-cA_2xda-a1-m4-cA 2xda-a1-m3-cA_2xda-a1-m5-cA 2xda-a1-m6-cA_2xda-a1-m8-cA 4b6s-a1-m1-cA_4b6s-a1-m2-cA 4b6s-a1-m1-cB_4b6s-a1-m4-cB 4b6s-a1-m1-cC_4b6s-a1-m3-cC 4b6s-a1-m2-cB_4b6s-a1-m3-cB 4b6s-a1-m2-cC_4b6s-a1-m4-cC 4b6s-a1-m3-cA_4b6s-a1-m4-cA MKILVIQGPNLNMLGHRDPRLYGMVTLDQIHEIMQTFVKQGNLDVELEFFQTNFEGEIIDKIQESVGSDYEGIIINPGAFSHTSIAIADAIMLAGKPVIEVHLTNIQAREEFRKNSYTGAACGGVIMGFGPLGYNMALMAMVNILAEMKA MKILVIQGPNLNMLGHRDPRLYGMVTLDQIHEIMQTFVKQGNLDVELEFFQTNFEGEIIDKIQESVGSDYEGIIINPGAFSHTSIAIADAIMLAGKPVIEVHLTNIQAREEFRKNSYTGAACGGVIMGFGPLGYNMALMAMVNILAEMKA 2xda-a1-m5-cA_2xda-a1-m9-cA STRUCTURE OF HELICOBACTER PYLORI TYPE II DEHYDROQUINASE IN COMPLEX WITH INHIBITOR COMPOUND (4R,6R,7S)-2-(2-Cyclopropyl)ethyl-4,6,7- trihydroxy-4,5,6,7-tetrahydrobenzo(b)thiophene-4-carboxylic acid Q48255 Q48255 1.85 X-RAY DIFFRACTION 51 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 150 150 1j2y-a1-m10-cA_1j2y-a1-m3-cA 1j2y-a1-m10-cA_1j2y-a1-m8-cA 1j2y-a1-m11-cA_1j2y-a1-m4-cA 1j2y-a1-m11-cA_1j2y-a1-m6-cA 1j2y-a1-m12-cA_1j2y-a1-m2-cA 1j2y-a1-m12-cA_1j2y-a1-m7-cA 1j2y-a1-m1-cA_1j2y-a1-m5-cA 1j2y-a1-m1-cA_1j2y-a1-m9-cA 1j2y-a1-m2-cA_1j2y-a1-m7-cA 1j2y-a1-m3-cA_1j2y-a1-m8-cA 1j2y-a1-m4-cA_1j2y-a1-m6-cA 1j2y-a1-m5-cA_1j2y-a1-m9-cA 2c57-a1-m1-cB_2c57-a1-m1-cA 2c57-a1-m1-cB_2c57-a1-m1-cC 2c57-a1-m1-cC_2c57-a1-m1-cA 2c57-a1-m1-cE_2c57-a1-m1-cD 2c57-a1-m1-cE_2c57-a1-m1-cF 2c57-a1-m1-cF_2c57-a1-m1-cD 2c57-a1-m1-cH_2c57-a1-m1-cG 2c57-a1-m1-cH_2c57-a1-m1-cI 2c57-a1-m1-cI_2c57-a1-m1-cG 2c57-a1-m1-cK_2c57-a1-m1-cJ 2c57-a1-m1-cK_2c57-a1-m1-cL 2c57-a1-m1-cL_2c57-a1-m1-cJ 2wks-a1-m1-cA_2wks-a1-m1-cB 2wks-a1-m1-cA_2wks-a1-m1-cE 2wks-a1-m1-cB_2wks-a1-m1-cE 2wks-a1-m1-cC_2wks-a1-m1-cD 2wks-a1-m1-cC_2wks-a1-m1-cF 2wks-a1-m1-cD_2wks-a1-m1-cF 2wks-a1-m2-cA_2wks-a1-m2-cB 2wks-a1-m2-cA_2wks-a1-m2-cE 2wks-a1-m2-cB_2wks-a1-m2-cE 2wks-a1-m2-cC_2wks-a1-m2-cD 2wks-a1-m2-cC_2wks-a1-m2-cF 2wks-a1-m2-cD_2wks-a1-m2-cF 2xb9-a1-m1-cA_2xb9-a1-m1-cB 2xb9-a1-m1-cA_2xb9-a1-m1-cC 2xb9-a1-m1-cB_2xb9-a1-m1-cC 2xb9-a1-m2-cA_2xb9-a1-m2-cB 2xb9-a1-m2-cA_2xb9-a1-m2-cC 2xb9-a1-m2-cB_2xb9-a1-m2-cC 2xb9-a1-m3-cA_2xb9-a1-m3-cB 2xb9-a1-m3-cA_2xb9-a1-m3-cC 2xb9-a1-m3-cB_2xb9-a1-m3-cC 2xb9-a1-m4-cA_2xb9-a1-m4-cB 2xb9-a1-m4-cA_2xb9-a1-m4-cC 2xb9-a1-m4-cB_2xb9-a1-m4-cC 2xd9-a1-m1-cB_2xd9-a1-m1-cA 2xd9-a1-m1-cB_2xd9-a1-m1-cC 2xd9-a1-m1-cC_2xd9-a1-m1-cA 2xd9-a1-m2-cB_2xd9-a1-m2-cA 2xd9-a1-m2-cB_2xd9-a1-m2-cC 2xd9-a1-m2-cC_2xd9-a1-m2-cA 2xd9-a1-m3-cB_2xd9-a1-m3-cA 2xd9-a1-m3-cB_2xd9-a1-m3-cC 2xd9-a1-m3-cC_2xd9-a1-m3-cA 2xd9-a1-m4-cB_2xd9-a1-m4-cA 2xd9-a1-m4-cB_2xd9-a1-m4-cC 2xd9-a1-m4-cC_2xd9-a1-m4-cA 2xda-a1-m10-cA_2xda-a1-m4-cA 2xda-a1-m10-cA_2xda-a1-m7-cA 2xda-a1-m11-cA_2xda-a1-m3-cA 2xda-a1-m11-cA_2xda-a1-m8-cA 2xda-a1-m12-cA_2xda-a1-m2-cA 2xda-a1-m12-cA_2xda-a1-m6-cA 2xda-a1-m1-cA_2xda-a1-m5-cA 2xda-a1-m1-cA_2xda-a1-m9-cA 2xda-a1-m2-cA_2xda-a1-m6-cA 2xda-a1-m3-cA_2xda-a1-m8-cA 2xda-a1-m4-cA_2xda-a1-m7-cA 4b6r-a1-m1-cA_4b6r-a1-m1-cB 4b6r-a1-m1-cA_4b6r-a1-m1-cC 4b6r-a1-m1-cB_4b6r-a1-m1-cC 4b6s-a1-m1-cA_4b6s-a1-m1-cB 4b6s-a1-m1-cC_4b6s-a1-m1-cA 4b6s-a1-m1-cC_4b6s-a1-m1-cB 4b6s-a1-m2-cA_4b6s-a1-m2-cB 4b6s-a1-m2-cC_4b6s-a1-m2-cA 4b6s-a1-m2-cC_4b6s-a1-m2-cB 4b6s-a1-m3-cA_4b6s-a1-m3-cB 4b6s-a1-m3-cC_4b6s-a1-m3-cA 4b6s-a1-m3-cC_4b6s-a1-m3-cB 4b6s-a1-m4-cA_4b6s-a1-m4-cB 4b6s-a1-m4-cC_4b6s-a1-m4-cA 4b6s-a1-m4-cC_4b6s-a1-m4-cB MKILVIQGPNLNMLGHRDPRLYGMVTLDQIHEIMQTFVKQGNLDVELEFFQTNFEGEIIDKIQESVGSDYEGIIINPGAFSHTSIAIADAIMLAGKPVIEVHLTNIQAREEFRKNSYTGAACGGVIMGFGPLGYNMALMAMVNILAEMKA MKILVIQGPNLNMLGHRDPRLYGMVTLDQIHEIMQTFVKQGNLDVELEFFQTNFEGEIIDKIQESVGSDYEGIIINPGAFSHTSIAIADAIMLAGKPVIEVHLTNIQAREEFRKNSYTGAACGGVIMGFGPLGYNMALMAMVNILAEMKA 2xdf-a1-m1-cA_2xdf-a1-m1-cB Solution Structure of the Enzyme I Dimer Complexed with HPr Using Residual Dipolar Couplings and Small Angle X-Ray Scattering P08839 P08839 NOT SOLUTION NMR, SOLUTION SCATTERING 178 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 573 573 MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMRAVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFMDRDALPTEEEQFAAYKAVAEACGSQAVIVRTMDIGGDKELPYMNFPKEENPFLGWRAIRIAMDRREILRDQLRAILRASAFGKLRIMFPMIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDMISHLYQPMSPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIEEKT MISGILASPGIAFGKALLLKEDEIVIDRKKISADQVDQEVERFLSGRAKASAQLETIKTKAGETFGEEKEAIFEGHIMLLEDEELEQEIIALIKDKHMTADAAAHEVIEGQASALEELDDEYLKERAADVRDIGKRLLRNILGLKIIDLSAIQDEVILVAADLTPSETAQLNLKKVLGFITDAGGRTSHTSIMARSLELPAIVGTGSVTSQVKNDDYLILDAVNNQVYVNPTNEVIDKMRAVQEQVASEKAELAKLKDLPAITLDGHQVEVCANIGTVRDVEGAERNGAEGVGLYRTEFLFMDRDALPTEEEQFAAYKAVAEACGSQAVIVRTMDIGGDKELPYMNFPKEENPFLGWRAIRIAMDRREILRDQLRAILRASAFGKLRIMFPMIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRGNDMISHLYQPMSPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIEEKT 2xdg-a1-m1-cA_2xdg-a1-m1-cB Crystal structure of the extracellular domain of human growth hormone releasing hormone receptor. Q02643 Q02643 1.95 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 MLREDESACLQAAEEMPQTTLGCPATWDGLLCWPTAGSGEWVTLPCPDFFSHFSSESGAVKRDCTITGWSEPFPPYPVACPVPLELLAE MLREDESACLQAAEEMPQTTLGCPATWDGLLCWPTAGSGEWVTLPCPDFFSHFSSESGAVKRDCTITGWSEPFPPYPVACPVPLELLAE 2xdj-a2-m1-cF_2xdj-a2-m1-cA Crystal structure of the N-terminal domain of E.coli YbgF P45955 P45955 1.82 X-RAY DIFFRACTION 62 1.0 562 (Escherichia coli) 562 (Escherichia coli) 62 66 2wz7-a1-m1-cC_2wz7-a1-m1-cD 2wz7-a1-m1-cD_2wz7-a1-m1-cE 2wz7-a2-m1-cA_2wz7-a2-m1-cB 2wz7-a2-m1-cF_2wz7-a2-m1-cA 2xdj-a1-m1-cC_2xdj-a1-m1-cD 2xdj-a1-m1-cD_2xdj-a1-m1-cE 2xdj-a2-m1-cA_2xdj-a2-m1-cB SVEDRVTQLERISNAHSQLLTQLQQQLSDNQSDIDSLRGQIQENQYQLNQVVERQKQILLQI GSVEDRVTQLERISNAHSQLLTQLQQQLSDNQSDIDSLRGQIQENQYQLNQVVERQKQILLQIDSL 2xdj-a2-m1-cF_2xdj-a2-m1-cB Crystal structure of the N-terminal domain of E.coli YbgF P45955 P45955 1.82 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 62 67 2wz7-a1-m1-cC_2wz7-a1-m1-cE 2wz7-a2-m1-cF_2wz7-a2-m1-cB 2xdj-a1-m1-cC_2xdj-a1-m1-cE SVEDRVTQLERISNAHSQLLTQLQQQLSDNQSDIDSLRGQIQENQYQLNQVVERQKQILLQI GSVEDRVTQLERISNAHSQLLTQLQQQLSDNQSDIDSLRGQIQENQYQLNQVVERQKQILLQIDSLS 2xdp-a1-m1-cA_2xdp-a1-m2-cA Crystal structure of the tudor domain of human JMJD2C Q9H3R0 Q9H3R0 1.56 X-RAY DIFFRACTION 178 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 EKVISVGQTVITKHRNTRYYSCRVMAVTSQTFYEVMFDDGSFSRDTFPEDIVSRDCLKLGPPAEGEVVQVKWPDGKLYGAKYFGSNIAHMYQVEFEDGSQIAMKREDIYTLDEELPKRV EKVISVGQTVITKHRNTRYYSCRVMAVTSQTFYEVMFDDGSFSRDTFPEDIVSRDCLKLGPPAEGEVVQVKWPDGKLYGAKYFGSNIAHMYQVEFEDGSQIAMKREDIYTLDEELPKRV 2xdq-a1-m1-cB_2xdq-a1-m2-cB Dark Operative Protochlorophyllide Oxidoreductase (ChlN-ChlB)2 Complex Q8DGC6 Q8DGC6 2.4 X-RAY DIFFRACTION 67 1.0 146786 (Thermosynechococcus vestitus) 146786 (Thermosynechococcus vestitus) 440 440 MKLAYWMYAGPAHIGTLRIASSFKNVHGIMHAPLGDDYFNVMRSMLERERDFTPVTASIVDRHVLARGSQEKVVDNIIRKDTEEHPDLIVLTPTCTSSILQEDLQNFVRRASLSTTADVLLADVNHYRVNELQAADRTLEQIVQFYIDKARRQGTLGTSKTPTPSVNIIGITTLGFHNQHDCRELKQLMADLGIQVNLVIPAAATVHDLQRLPQAWFNLVPYREIGGLTAQYLEREFGQPSVRITPMGVVETARCIRAIQGVLNAQGAGVNYEAFIEQQTREVSQAAWFSRSIDCQNLTGKKAVVFGDNTHAAAMTKILSREMGIHVVWAGTYCKYDADWFRAEVAGFCDEVLITDDHTVVGDAIARVEPAAIFGTQMERHVGKRLNIPCGVIAAPIHIQDFPVGYRPFLGYEGTNQLVDLIYNSFTLGMEDHLLEIFGG MKLAYWMYAGPAHIGTLRIASSFKNVHGIMHAPLGDDYFNVMRSMLERERDFTPVTASIVDRHVLARGSQEKVVDNIIRKDTEEHPDLIVLTPTCTSSILQEDLQNFVRRASLSTTADVLLADVNHYRVNELQAADRTLEQIVQFYIDKARRQGTLGTSKTPTPSVNIIGITTLGFHNQHDCRELKQLMADLGIQVNLVIPAAATVHDLQRLPQAWFNLVPYREIGGLTAQYLEREFGQPSVRITPMGVVETARCIRAIQGVLNAQGAGVNYEAFIEQQTREVSQAAWFSRSIDCQNLTGKKAVVFGDNTHAAAMTKILSREMGIHVVWAGTYCKYDADWFRAEVAGFCDEVLITDDHTVVGDAIARVEPAAIFGTQMERHVGKRLNIPCGVIAAPIHIQDFPVGYRPFLGYEGTNQLVDLIYNSFTLGMEDHLLEIFGG 2xdv-a1-m3-cA_2xdv-a1-m6-cA Crystal Structure of the Catalytic Domain of FLJ14393 Q8IUF8 Q8IUF8 2.57 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 374 374 2xdv-a1-m1-cA_2xdv-a1-m4-cA 2xdv-a1-m1-cA_2xdv-a1-m5-cA 2xdv-a1-m2-cA_2xdv-a1-m3-cA 2xdv-a1-m2-cA_2xdv-a1-m6-cA 2xdv-a1-m4-cA_2xdv-a1-m5-cA PSALNFDSPSSLFESLISPIKTETFFKEFWEQKPLLIQRDDPALATYYGSLFKLTDLKSLCKDFDQKRATIQFHQPQRFKDELWRIQEKLECYFGSLVGSNVYITPAGSQGLPPHYDDVEVFILQLEGEKHWRLYHPTVPLAREYSVEAEERIGRPVHEFMLKPGDLLYFPRGTIHQADTPAGLAHSTHVTISTYQNNSWGDFLLDTISGLVFDTAKEDVELRTGIPRQLLLQESTTVATRRLSGFLRTLADRLEGTKELLSSDMKKDFIMHRLPPYSAKLPRLDSVVRLQFKDHIVLTVLPEKMVYIYHSLKNSRETHMMGNHGLRFPLSHLDALKQIWNSPAISVKDLKLTTDEEKESLVLSLWTECLIQVV PSALNFDSPSSLFESLISPIKTETFFKEFWEQKPLLIQRDDPALATYYGSLFKLTDLKSLCKDFDQKRATIQFHQPQRFKDELWRIQEKLECYFGSLVGSNVYITPAGSQGLPPHYDDVEVFILQLEGEKHWRLYHPTVPLAREYSVEAEERIGRPVHEFMLKPGDLLYFPRGTIHQADTPAGLAHSTHVTISTYQNNSWGDFLLDTISGLVFDTAKEDVELRTGIPRQLLLQESTTVATRRLSGFLRTLADRLEGTKELLSSDMKKDFIMHRLPPYSAKLPRLDSVVRLQFKDHIVLTVLPEKMVYIYHSLKNSRETHMMGNHGLRFPLSHLDALKQIWNSPAISVKDLKLTTDEEKESLVLSLWTECLIQVV 2xdv-a2-m1-cA_2xdv-a2-m6-cA Crystal Structure of the Catalytic Domain of FLJ14393 Q8IUF8 Q8IUF8 2.57 X-RAY DIFFRACTION 192 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 374 374 2xdv-a1-m1-cA_2xdv-a1-m6-cA 2xdv-a1-m2-cA_2xdv-a1-m5-cA 2xdv-a1-m3-cA_2xdv-a1-m4-cA 4bu2-a1-m1-cA_4bu2-a1-m2-cA PSALNFDSPSSLFESLISPIKTETFFKEFWEQKPLLIQRDDPALATYYGSLFKLTDLKSLCKDFDQKRATIQFHQPQRFKDELWRIQEKLECYFGSLVGSNVYITPAGSQGLPPHYDDVEVFILQLEGEKHWRLYHPTVPLAREYSVEAEERIGRPVHEFMLKPGDLLYFPRGTIHQADTPAGLAHSTHVTISTYQNNSWGDFLLDTISGLVFDTAKEDVELRTGIPRQLLLQESTTVATRRLSGFLRTLADRLEGTKELLSSDMKKDFIMHRLPPYSAKLPRLDSVVRLQFKDHIVLTVLPEKMVYIYHSLKNSRETHMMGNHGLRFPLSHLDALKQIWNSPAISVKDLKLTTDEEKESLVLSLWTECLIQVV PSALNFDSPSSLFESLISPIKTETFFKEFWEQKPLLIQRDDPALATYYGSLFKLTDLKSLCKDFDQKRATIQFHQPQRFKDELWRIQEKLECYFGSLVGSNVYITPAGSQGLPPHYDDVEVFILQLEGEKHWRLYHPTVPLAREYSVEAEERIGRPVHEFMLKPGDLLYFPRGTIHQADTPAGLAHSTHVTISTYQNNSWGDFLLDTISGLVFDTAKEDVELRTGIPRQLLLQESTTVATRRLSGFLRTLADRLEGTKELLSSDMKKDFIMHRLPPYSAKLPRLDSVVRLQFKDHIVLTVLPEKMVYIYHSLKNSRETHMMGNHGLRFPLSHLDALKQIWNSPAISVKDLKLTTDEEKESLVLSLWTECLIQVV 2xe4-a1-m1-cB_2xe4-a1-m1-cA Structure of Oligopeptidase B from Leishmania major Q4QHU7 1.65 X-RAY DIFFRACTION 10 1.0 1760 (Actinomycetes) 5664 (Leishmania major) 2 721 RV SAQPPIAAKKPHRVTLGYVEGEDRGPNPMNPPRYREDPYFWMRDDDRKDPAVIEHLNKEKVYFQARSADIAQLRDDIYAEHISHINEDDMSAPYVYGKYRYYTREVKGKPYKIYCRVFTDKEPGDVAAEEVIIDVNQVAEGKAFCDVMEVKPAPPEHDLVAFSVDMSGNEVYTIEFKRISDPSQTIADKVSGTNGEIVWGPDHTSLFYVTKDETLRENKVWRHVMGKLQSEDVCLYEEHNPLFSAFMYKAADTNTLCIGSQSPETAEVHLLDLRKGNAHNTLEIVRPREKGVRYDVQMHGTSHLVILTNEGGAVNHKLLIAPRGQPSDWSHVLVDHSEDVFMESIAVRSNYLVVAGRRAGLTRIWTMMADSQDGVFKAGTGLREVVMEEPIFTVHLVESQMLEYEEPTFRMEYSSLATPNTWFDVSPQDHSRTAVKVREVGGGFDAANYKVERRFATAPDQTKIPLSVVYHKDLDMSQPQPCMLYGYGSYGLSMDPQFSIQHLPYCDRGMIFAIAHIRGGSELGRAWYEIGAKYLTKRNTFSDFIAAAEFLVNAKLTTPSQLACEGRSAGGLLMGAVLNMRPDLFKVALAGVPFVDVMTTMCDPSIPLTTGEWEEWGNPNEYKYYDYMLSYSPMDNVRAQEYPNIMVQCGLHDPRVAYWEPAKWVSKLRECKTDNNEILLNIDMESGHFSAKDRYKFWKESAIQQAFVCKHLKSTVRLLVR 2xe5-a2-m1-cB_2xe5-a2-m1-cC Molecular insights into clinically isolated OmpC mutants and their role in multi-drug resistance (OmpC26) Q9K597 Q9K597 2.28 X-RAY DIFFRACTION 149 1.0 562 (Escherichia coli) 562 (Escherichia coli) 343 343 2xe2-a1-m1-cA_2xe2-a1-m1-cB 2xe2-a1-m1-cA_2xe2-a1-m1-cC 2xe2-a1-m1-cB_2xe2-a1-m1-cC 2xe3-a1-m1-cA_2xe3-a1-m2-cA 2xe3-a1-m1-cA_2xe3-a1-m3-cA 2xe3-a1-m2-cA_2xe3-a1-m3-cA 2xe3-a2-m1-cB_2xe3-a2-m2-cB 2xe3-a2-m1-cB_2xe3-a2-m3-cB 2xe3-a2-m2-cB_2xe3-a2-m3-cB 2xe5-a1-m1-cD_2xe5-a1-m1-cE 2xe5-a1-m1-cD_2xe5-a1-m1-cF 2xe5-a1-m1-cE_2xe5-a1-m1-cF 2xe5-a2-m1-cA_2xe5-a2-m1-cB 2xe5-a2-m1-cA_2xe5-a2-m1-cC 2xg6-a1-m1-cD_2xg6-a1-m1-cE 2xg6-a1-m1-cD_2xg6-a1-m1-cF 2xg6-a1-m1-cE_2xg6-a1-m1-cF 2xg6-a2-m1-cA_2xg6-a2-m1-cB 2xg6-a2-m1-cA_2xg6-a2-m1-cC 2xg6-a2-m1-cB_2xg6-a2-m1-cC AEIYNKDGNKLDLYGKVEGLHYFSDNDSKDGDKTYMRLGFKGETQVTDQLTGYGQWEYQIQGNEPESDNSSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYDSDNFMQQRGNGFATYRNTDFFGLVDGLDFAVQYQGKNGSAHGEGMTTNGRDDVFEQNGDGVGGSITYNYEGFGIGAAVSSSKRTWDQNNTGLIGTGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNRFTRDAGINTDDIVALGLVYQF AEIYNKDGNKLDLYGKVEGLHYFSDNDSKDGDKTYMRLGFKGETQVTDQLTGYGQWEYQIQGNEPESDNSSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYDSDNFMQQRGNGFATYRNTDFFGLVDGLDFAVQYQGKNGSAHGEGMTTNGRDDVFEQNGDGVGGSITYNYEGFGIGAAVSSSKRTWDQNNTGLIGTGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNRFTRDAGINTDDIVALGLVYQF 2xec-a3-m2-cB_2xec-a3-m1-cA Nocardia farcinica maleate cis-trans isomerase bound to TRIS Q5YXQ1 Q5YXQ1 2.2 X-RAY DIFFRACTION 13 0.992 247156 (Nocardia farcinica IFM 10152) 247156 (Nocardia farcinica IFM 10152) 245 246 MGIRRIGLVVPSSNVTVETEMPALLSRHPGAEFSFHSTRMRMHTVSPEGLAAMNAQRERCVLEIADAAPEVILYACLVAVMVGGPGEHHRVESAVAEQLATGGSQALVRSSAGALVEGLRALDAQRVALVTPYMRPLAEKVVAYLEAEGFTISDWRALEVADNTEVGCIPGEQVMAAARSLDLSEVDALVISCCVQMPSLPLVETAEREFGIPVLSAATAGAYSILRSLDLPVAVPGAGRLLRQD IRRIGLVVPSSNVTVETEMPALLSRHPGAEFSFHSTRMRMHTVSPEGLAAMNAQRERCVLEIADAAPEVILYACLVAVMVGGPGEHHRVESAVAEQLATGGSQALVRSSAGALVEGLRALDAQRVALVTPYMRPLAEKVVAYLEAEGFTISDWRALEVADNTEVGCIPGEQVMAAARSLDLSEVDALVISCCVQMPSLPLVETAEREFGIPVLSAATAGAYSILRSLDLPVAVPGAGRLLRQDSAV 2xec-a3-m2-cC_2xec-a3-m2-cB Nocardia farcinica maleate cis-trans isomerase bound to TRIS Q5YXQ1 Q5YXQ1 2.2 X-RAY DIFFRACTION 31 1.0 247156 (Nocardia farcinica IFM 10152) 247156 (Nocardia farcinica IFM 10152) 243 245 2xec-a1-m1-cD_2xec-a1-m1-cA 2xec-a2-m1-cC_2xec-a2-m1-cB 2xec-a3-m1-cD_2xec-a3-m1-cA IRRIGLVVPSSNVTVETEMPALLSRHPGAEFSFHSTRMRMHTVSPEGLAAMNAQRERCVLEIADAAPEVILYACLVAVMVGGPGEHHRVESAVAEQLATGGSQALVRSSAGALVEGLRALDAQRVALVTPYMRPLAEKVVAYLEAEGFTISDWRALEVADNTEVGCIPGEQVMAAARSLDLSEVDALVISCCVQMPSLPLVETAEREFGIPVLSAATAGAYSILRSLDLPVAVPGAGRLLRQD MGIRRIGLVVPSSNVTVETEMPALLSRHPGAEFSFHSTRMRMHTVSPEGLAAMNAQRERCVLEIADAAPEVILYACLVAVMVGGPGEHHRVESAVAEQLATGGSQALVRSSAGALVEGLRALDAQRVALVTPYMRPLAEKVVAYLEAEGFTISDWRALEVADNTEVGCIPGEQVMAAARSLDLSEVDALVISCCVQMPSLPLVETAEREFGIPVLSAATAGAYSILRSLDLPVAVPGAGRLLRQD 2xf1-a1-m1-cA_2xf1-a1-m2-cA Crystal structure of Plasmodium falciparum actin depolymerization factor 1 Q8I467 Q8I467 1.96 X-RAY DIFFRACTION 35 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 121 121 GSMISGIRVNDNCVTEFNNMKIRKTCGWIIFVIQNEIIIHSKGASTTLTELVQSIDKNNEIQCAYVVFDAVSKIHFFMYARESSNSRDRMTYASSKQAILKKIEGVNVLTSVIESAQDVAD GSMISGIRVNDNCVTEFNNMKIRKTCGWIIFVIQNEIIIHSKGASTTLTELVQSIDKNNEIQCAYVVFDAVSKIHFFMYARESSNSRDRMTYASSKQAILKKIEGVNVLTSVIESAQDVAD 2xf4-a1-m1-cA_2xf4-a1-m2-cA Crystal structure of Salmonella enterica serovar typhimurium YcbL 2.3 X-RAY DIFFRACTION 36 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 210 210 MNYRIIPVTAFSQNCSLIWCEQTRLAALVDPGGDAEKIKQEVDASGVTLMQILLTHGHLDHVGAASELAQHYGVPVIGPEKEDEFWLQGLPAQSRMFGLDECQPLTPDRWLNDGDRVSVGNVTLQVLHCPGHTPGHVVFFDEQSQLLISGDVIFKGGVGRSDFPRGDHTQLIDAIKRKLLPLGDDVTFIPGHGPLSTLGYERLHNPFLQD MNYRIIPVTAFSQNCSLIWCEQTRLAALVDPGGDAEKIKQEVDASGVTLMQILLTHGHLDHVGAASELAQHYGVPVIGPEKEDEFWLQGLPAQSRMFGLDECQPLTPDRWLNDGDRVSVGNVTLQVLHCPGHTPGHVVFFDEQSQLLISGDVIFKGGVGRSDFPRGDHTQLIDAIKRKLLPLGDDVTFIPGHGPLSTLGYERLHNPFLQD 2xf6-a1-m2-cA_2xf6-a1-m6-cA Crystal structure of Bacillus subtilis SPP1 phage gp23.1, a putative chaperone. O48468 O48468 2.12 X-RAY DIFFRACTION 29 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 50 50 2xf5-a1-m1-cA_2xf5-a1-m1-cC 2xf5-a1-m1-cA_2xf5-a1-m1-cF 2xf5-a1-m1-cD_2xf5-a1-m1-cC 2xf5-a1-m1-cD_2xf5-a1-m1-cE 2xf5-a1-m1-cE_2xf5-a1-m1-cB 2xf5-a1-m1-cF_2xf5-a1-m1-cB 2xf6-a1-m1-cA_2xf6-a1-m3-cA 2xf6-a1-m1-cA_2xf6-a1-m6-cA 2xf6-a1-m2-cA_2xf6-a1-m4-cA 2xf6-a1-m3-cA_2xf6-a1-m5-cA 2xf6-a1-m4-cA_2xf6-a1-m5-cA 2xf7-a1-m1-cA_2xf7-a1-m1-cC 2xf7-a1-m1-cC_2xf7-a1-m1-cD 2xf7-a1-m1-cD_2xf7-a1-m1-cE 2xf7-a1-m1-cE_2xf7-a1-m1-cB 2xf7-a1-m1-cF_2xf7-a1-m1-cB SESLLYGYFLDSWLDGTASEELLRVAVNAGDLTQEEADKIMSYPWGAWND SESLLYGYFLDSWLDGTASEELLRVAVNAGDLTQEEADKIMSYPWGAWND 2xf8-a1-m1-cG_2xf8-a1-m1-cF Structure of the D-Erythrose-4-Phosphate Dehydrogenase from E. coli in complex with a NAD cofactor analog (3-Chloroacetyl adenine pyridine dinucleotide) and sulfate anion P0A9B6 P0A9B6 2.95 X-RAY DIFFRACTION 41 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 324 325 2x5j-a1-m1-cO_2x5j-a1-m1-cR 2x5j-a1-m1-cP_2x5j-a1-m1-cQ 2x5k-a1-m1-cQ_2x5k-a1-m1-cP 2x5k-a1-m1-cR_2x5k-a1-m1-cO 2xf8-a1-m1-cH_2xf8-a1-m1-cE 2xf8-a2-m1-cC_2xf8-a2-m1-cB 2xf8-a2-m1-cD_2xf8-a2-m1-cA 2xf8-a3-m1-cO_2xf8-a3-m1-cN 2xf8-a3-m1-cP_2xf8-a3-m1-cM 2xf8-a4-m1-cK_2xf8-a4-m1-cJ 2xf8-a4-m1-cL_2xf8-a4-m1-cI TVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSAPDLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATV TVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSADLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATVAF 2xf8-a3-m1-cN_2xf8-a3-m1-cM Structure of the D-Erythrose-4-Phosphate Dehydrogenase from E. coli in complex with a NAD cofactor analog (3-Chloroacetyl adenine pyridine dinucleotide) and sulfate anion P0A9B6 P0A9B6 2.95 X-RAY DIFFRACTION 144 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 325 327 2x5j-a1-m1-cO_2x5j-a1-m1-cP 2x5j-a1-m1-cR_2x5j-a1-m1-cQ 2x5k-a1-m1-cO_2x5k-a1-m1-cP 2x5k-a1-m1-cR_2x5k-a1-m1-cQ 2xf8-a1-m1-cE_2xf8-a1-m1-cF 2xf8-a1-m1-cH_2xf8-a1-m1-cG 2xf8-a2-m1-cB_2xf8-a2-m1-cA 2xf8-a2-m1-cD_2xf8-a2-m1-cC 2xf8-a3-m1-cP_2xf8-a3-m1-cO 2xf8-a4-m1-cI_2xf8-a4-m1-cJ 2xf8-a4-m1-cL_2xf8-a4-m1-cK TVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSADLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATVAF TVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSAHPDLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATVAF 2xf8-a3-m1-cP_2xf8-a3-m1-cN Structure of the D-Erythrose-4-Phosphate Dehydrogenase from E. coli in complex with a NAD cofactor analog (3-Chloroacetyl adenine pyridine dinucleotide) and sulfate anion P0A9B6 P0A9B6 2.95 X-RAY DIFFRACTION 28 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 317 325 2x5j-a1-m1-cO_2x5j-a1-m1-cQ 2x5j-a1-m1-cR_2x5j-a1-m1-cP 2x5k-a1-m1-cO_2x5k-a1-m1-cQ 2x5k-a1-m1-cR_2x5k-a1-m1-cP 2xf8-a1-m1-cG_2xf8-a1-m1-cE 2xf8-a1-m1-cH_2xf8-a1-m1-cF 2xf8-a2-m1-cC_2xf8-a2-m1-cA 2xf8-a2-m1-cD_2xf8-a2-m1-cB 2xf8-a3-m1-cO_2xf8-a3-m1-cM 2xf8-a4-m1-cK_2xf8-a4-m1-cI 2xf8-a4-m1-cL_2xf8-a4-m1-cJ TVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSAAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATV TVRVAINGFGRIGRNVVRALYESGRRAEITVVAINELADAAGMAHLLKYDTSHGRFAWEVRQERDQLFVGDDAIRVLHERSLQSLPWRELGVDVVLDCTGVYGSREHGEAHIAAGAKKVLFSHPGSNDLDATVVYGVNQDQLRAEHRIVSNASCTTNCIIPVIKLLDDAYGIESGTVTTIHSADLRRTRAASQSIIPVDTKLAAGITRFFPQFNDRFEAIAVRVPTINVTAIDLSVTVKKPVKANEVNLLLQKAAQGAFHGIVDYTELPLVSVDFNHDPHSAIVDGTQTRVSGAHLIKTLVWCDNEWGFANRMLDTTLAMATVAF 2xfl-a2-m1-cE_2xfl-a2-m1-cG Induced-fit and allosteric effects upon polyene binding revealed by crystal structures of the Dynemicin thioesterase Q84HI7 Q84HI7 2.9 X-RAY DIFFRACTION 27 1.0 47854 (Micromonospora chersina) 47854 (Micromonospora chersina) 136 141 2xem-a1-m1-cB_2xem-a1-m1-cA 2xem-a1-m1-cC_2xem-a1-m1-cD 2xfl-a1-m1-cA_2xfl-a1-m1-cB 2xfl-a1-m1-cC_2xfl-a1-m1-cD 2xfl-a2-m1-cF_2xfl-a2-m1-cH DSYVHRHVVTFDETNLVGNVYFAHYLHWQGHCREHFLADHAPGVMAALADGLALVTVDCHADFYAEGSAFDEVEVRMMLDRLDGHRIAMSFDYVRVAPGPPTLLAQGRQTVACMRRAGHGLEPVEVPAELRRALSR DSYVHRHVVTFDETNLVGNVYFAHYLHWQGHCREHFLADHAPGVMAALADGLALVTVDCHADFYAEGSAFDEVEVRMMLDRLDGHRIAMSFDYVRVAPGPPTLLAQGRQTVACMRRAGHGLEPVEVPAELRRALSRYAVVA 2xfl-a2-m1-cF_2xfl-a2-m1-cG Induced-fit and allosteric effects upon polyene binding revealed by crystal structures of the Dynemicin thioesterase Q84HI7 Q84HI7 2.9 X-RAY DIFFRACTION 27 1.0 47854 (Micromonospora chersina) 47854 (Micromonospora chersina) 138 141 2xem-a1-m1-cA_2xem-a1-m1-cD 2xem-a1-m1-cB_2xem-a1-m1-cC 2xfl-a1-m1-cA_2xfl-a1-m1-cD 2xfl-a1-m1-cC_2xfl-a1-m1-cB 2xfl-a2-m1-cE_2xfl-a2-m1-cH DSYVHRHVVTFDETNLVGNVYFAHYLHWQGHCREHFLADHAPGVMAALADGLALVTVDCHADFYAEGSAFDEVEVRMMLDRLDGHRIAMSFDYVRVAPGPPTLLAQGRQTVACMRRAGHGLEPVEVPAELRRALSRYA DSYVHRHVVTFDETNLVGNVYFAHYLHWQGHCREHFLADHAPGVMAALADGLALVTVDCHADFYAEGSAFDEVEVRMMLDRLDGHRIAMSFDYVRVAPGPPTLLAQGRQTVACMRRAGHGLEPVEVPAELRRALSRYAVVA 2xfl-a2-m1-cG_2xfl-a2-m1-cH Induced-fit and allosteric effects upon polyene binding revealed by crystal structures of the Dynemicin thioesterase Q84HI7 Q84HI7 2.9 X-RAY DIFFRACTION 47 1.0 47854 (Micromonospora chersina) 47854 (Micromonospora chersina) 141 141 2xem-a1-m1-cB_2xem-a1-m1-cD 2xem-a1-m1-cC_2xem-a1-m1-cA 2xfl-a1-m1-cB_2xfl-a1-m1-cD 2xfl-a1-m1-cC_2xfl-a1-m1-cA 2xfl-a2-m1-cE_2xfl-a2-m1-cF DSYVHRHVVTFDETNLVGNVYFAHYLHWQGHCREHFLADHAPGVMAALADGLALVTVDCHADFYAEGSAFDEVEVRMMLDRLDGHRIAMSFDYVRVAPGPPTLLAQGRQTVACMRRAGHGLEPVEVPAELRRALSRYAVVA DSYVHRHVVTFDETNLVGNVYFAHYLHWQGHCREHFLADHAPGVMAALADGLALVTVDCHADFYAEGSAFDEVEVRMMLDRLDGHRIAMSFDYVRVAPGPPTLLAQGRQTVACMRRAGHGLEPVEVPAELRRALSRYAVVA 2xfv-a1-m1-cA_2xfv-a1-m1-cB Structure of the amino-terminal domain from the cell-cycle regulator Swi6 P09959 P09959 1.9 X-RAY DIFFRACTION 55 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 108 108 ALEEVVRYLGPHNEIPLTLTRDSETGHFLLKHFLPILQQYHDTGNINETNPDSFPTDEERNKLLAHYGIAVNTDDRGELWIELEKCLQLLNMLNLFGLFQDAFEFEEP ALEEVVRYLGPHNEIPLTLTRDSETGHFLLKHFLPILQQYHDTGNINETNPDSFPTDEERNKLLAHYGIAVNTDDRGELWIELEKCLQLLNMLNLFGLFQDAFEFEEP 2xg8-a1-m1-cF_2xg8-a1-m2-cF Structural basis of gene regulation by protein PII: The crystal complex of PII and PipX from Synechococcus elongatus PCC 7942 Q7X386 Q7X386 3.2 X-RAY DIFFRACTION 40 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 78 78 SENYLNHPTFGLLYQICSFGDSKELFATLYAQRLFFLVAFDARGTREPIGRNEARMLVDNRLRQLRRQLQQVFKQTFL SENYLNHPTFGLLYQICSFGDSKELFATLYAQRLFFLVAFDARGTREPIGRNEARMLVDNRLRQLRRQLQQVFKQTFL 2xg8-a1-m2-cD_2xg8-a1-m2-cE Structural basis of gene regulation by protein PII: The crystal complex of PII and PipX from Synechococcus elongatus PCC 7942 Q7X386 Q7X386 3.2 X-RAY DIFFRACTION 19 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 87 87 2xg8-a1-m1-cD_2xg8-a1-m1-cE 2xg8-a1-m1-cF_2xg8-a1-m1-cD 2xg8-a1-m1-cF_2xg8-a1-m1-cE 2xg8-a1-m2-cF_2xg8-a1-m2-cD 2xg8-a1-m2-cF_2xg8-a1-m2-cE SENYLNHPTFGLLYQICSFGDSKELFATLYAQRLFFLVAFDARGTRFEPIGRNEARMLVDNRLRQLRRDASLQEYNQLQQVFKQTFL SENYLNHPTFGLLYQICSFGDSKELFATLYAQRLFFLVAFDARGTRFEPIGRNEARMLVDNRLRQLRRDASLQEYNQLQQVFKQTFL 2xgc-a1-m1-cA_2xgc-a1-m2-cA Crystal structure of a designed heterodimeric variant T-A(I)B of the tetracycline repressor P0ACT4 P0ACT4 2.15 X-RAY DIFFRACTION 135 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 1a6i-a1-m1-cA_1a6i-a1-m2-cA 2xgd-a1-m1-cA_2xgd-a1-m2-cA 2xge-a1-m1-cA_2xge-a1-m2-cA 4v2f-a1-m1-cA_4v2f-a1-m2-cA SRLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAVEILARHHDYSLPAAGESWQSFLRNNAMSFRRALLRYRDGAKVHLGTRPDEKQYDTVETQLRFMTENGFSLRDGLYAISWVSHFTLGAVLEQQEHLPPLLREALQIMDSDDGEQAFLHGLESIIRGIEVQLTALLQIV SRLDKSKVINSALELLNEVGIEGLTTRKLAQKLGVEQPTLYWHVKNKRALLDALAVEILARHHDYSLPAAGESWQSFLRNNAMSFRRALLRYRDGAKVHLGTRPDEKQYDTVETQLRFMTENGFSLRDGLYAISWVSHFTLGAVLEQQEHLPPLLREALQIMDSDDGEQAFLHGLESIIRGIEVQLTALLQIV 2xgf-a1-m1-cB_2xgf-a1-m1-cC Structure of the bacteriophage T4 long tail fibre needle-shaped receptor-binding tip P03744 P03744 2.2 X-RAY DIFFRACTION 507 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 216 216 2xgf-a1-m1-cA_2xgf-a1-m1-cB 2xgf-a1-m1-cA_2xgf-a1-m1-cC SSYPIGAPIPWPSDSVPAGFALMEGQTFDKSAYPKLAVAYPSGVIPDMRGQTIKGKPSGRAVLSAEADGVKAHSHSASASSTDLGTKTTSSFDYGTKGTNSTGGHTHSGSGSTSTNGEHSHYIEAWNGTGVGGNKMSSYAISYRAGGSNTNAAGNHSHTFSFGTSSAGDHSHSVGIGAHTHTVAIGSHGHTITVNSTGNTENTVKNIAFNYIVRLA SSYPIGAPIPWPSDSVPAGFALMEGQTFDKSAYPKLAVAYPSGVIPDMRGQTIKGKPSGRAVLSAEADGVKAHSHSASASSTDLGTKTTSSFDYGTKGTNSTGGHTHSGSGSTSTNGEHSHYIEAWNGTGVGGNKMSSYAISYRAGGSNTNAAGNHSHTFSFGTSSAGDHSHSVGIGAHTHTVAIGSHGHTITVNSTGNTENTVKNIAFNYIVRLA 2xgg-a1-m1-cA_2xgg-a1-m1-cB Structure of Toxoplasma gondii Micronemal Protein 2 A_I Domain 2.05 X-RAY DIFFRACTION 71 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 147 148 GTNQLDICFLIDSSGSIGIQNFRLVKQFLHTFLMVLPIGPEEVNNAVVTYSTDVHLQWDLQSPNAVDKQLAAHAVLDMPYKKGSTNTSDGLKACKQILFTGSRPGREHVPKLVIGMTDGESDSDFRTVRAAKEIRELGGIVTVLAVG MGTNQLDICFLIDSSGSIGIQNFRLVKQFLHTFLMVLPIGPEEVNNAVVTYSTDVHLQWDLQSPNAVDKQLAAHAVLDMPYKKGSTNTSDGLKACKQILFTGSRPGREHVPKLVIGMTDGESDSDFRTVRAAKEIRELGGIVTVLAVG 2xgk-a1-m54-cA_2xgk-a1-m9-cA Virus like particle of L172W mutant of Minute Virus of Mice - the immunosuppressive strain P07302 P07302 4.2 X-RAY DIFFRACTION 392 1.0 10795 (Murine minute virus (STRAIN MVMI)) 10795 (Murine minute virus (STRAIN MVMI)) 542 542 1mvm-a1-m10-cA_1mvm-a1-m23-cA 1mvm-a1-m11-cA_1mvm-a1-m20-cA 1mvm-a1-m11-cA_1mvm-a1-m38-cA 1mvm-a1-m12-cA_1mvm-a1-m37-cA 1mvm-a1-m12-cA_1mvm-a1-m47-cA 1mvm-a1-m13-cA_1mvm-a1-m45-cA 1mvm-a1-m13-cA_1mvm-a1-m46-cA 1mvm-a1-m14-cA_1mvm-a1-m29-cA 1mvm-a1-m14-cA_1mvm-a1-m44-cA 1mvm-a1-m15-cA_1mvm-a1-m16-cA 1mvm-a1-m15-cA_1mvm-a1-m28-cA 1mvm-a1-m16-cA_1mvm-a1-m28-cA 1mvm-a1-m17-cA_1mvm-a1-m27-cA 1mvm-a1-m17-cA_1mvm-a1-m52-cA 1mvm-a1-m18-cA_1mvm-a1-m51-cA 1mvm-a1-m18-cA_1mvm-a1-m60-cA 1mvm-a1-m19-cA_1mvm-a1-m39-cA 1mvm-a1-m19-cA_1mvm-a1-m59-cA 1mvm-a1-m1-cA_1mvm-a1-m10-cA 1mvm-a1-m1-cA_1mvm-a1-m23-cA 1mvm-a1-m20-cA_1mvm-a1-m38-cA 1mvm-a1-m21-cA_1mvm-a1-m30-cA 1mvm-a1-m21-cA_1mvm-a1-m43-cA 1mvm-a1-m22-cA_1mvm-a1-m42-cA 1mvm-a1-m24-cA_1mvm-a1-m54-cA 1mvm-a1-m24-cA_1mvm-a1-m9-cA 1mvm-a1-m25-cA_1mvm-a1-m26-cA 1mvm-a1-m25-cA_1mvm-a1-m53-cA 1mvm-a1-m26-cA_1mvm-a1-m53-cA 1mvm-a1-m27-cA_1mvm-a1-m52-cA 1mvm-a1-m29-cA_1mvm-a1-m44-cA 1mvm-a1-m2-cA_1mvm-a1-m22-cA 1mvm-a1-m2-cA_1mvm-a1-m42-cA 1mvm-a1-m30-cA_1mvm-a1-m43-cA 1mvm-a1-m31-cA_1mvm-a1-m40-cA 1mvm-a1-m31-cA_1mvm-a1-m58-cA 1mvm-a1-m32-cA_1mvm-a1-m57-cA 1mvm-a1-m32-cA_1mvm-a1-m7-cA 1mvm-a1-m33-cA_1mvm-a1-m5-cA 1mvm-a1-m33-cA_1mvm-a1-m6-cA 1mvm-a1-m34-cA_1mvm-a1-m49-cA 1mvm-a1-m34-cA_1mvm-a1-m4-cA 1mvm-a1-m35-cA_1mvm-a1-m36-cA 1mvm-a1-m35-cA_1mvm-a1-m48-cA 1mvm-a1-m36-cA_1mvm-a1-m48-cA 1mvm-a1-m37-cA_1mvm-a1-m47-cA 1mvm-a1-m39-cA_1mvm-a1-m59-cA 1mvm-a1-m3-cA_1mvm-a1-m41-cA 1mvm-a1-m3-cA_1mvm-a1-m50-cA 1mvm-a1-m40-cA_1mvm-a1-m58-cA 1mvm-a1-m41-cA_1mvm-a1-m50-cA 1mvm-a1-m45-cA_1mvm-a1-m46-cA 1mvm-a1-m4-cA_1mvm-a1-m49-cA 1mvm-a1-m51-cA_1mvm-a1-m60-cA 1mvm-a1-m54-cA_1mvm-a1-m9-cA 1mvm-a1-m55-cA_1mvm-a1-m56-cA 1mvm-a1-m55-cA_1mvm-a1-m8-cA 1mvm-a1-m56-cA_1mvm-a1-m8-cA 1mvm-a1-m57-cA_1mvm-a1-m7-cA 1mvm-a1-m5-cA_1mvm-a1-m6-cA 1z14-a1-m10-cA_1z14-a1-m23-cA 1z14-a1-m11-cA_1z14-a1-m20-cA 1z14-a1-m11-cA_1z14-a1-m38-cA 1z14-a1-m12-cA_1z14-a1-m37-cA 1z14-a1-m12-cA_1z14-a1-m47-cA 1z14-a1-m13-cA_1z14-a1-m45-cA 1z14-a1-m13-cA_1z14-a1-m46-cA 1z14-a1-m14-cA_1z14-a1-m29-cA 1z14-a1-m14-cA_1z14-a1-m44-cA 1z14-a1-m15-cA_1z14-a1-m16-cA 1z14-a1-m15-cA_1z14-a1-m28-cA 1z14-a1-m16-cA_1z14-a1-m28-cA 1z14-a1-m17-cA_1z14-a1-m27-cA 1z14-a1-m17-cA_1z14-a1-m52-cA 1z14-a1-m18-cA_1z14-a1-m51-cA 1z14-a1-m18-cA_1z14-a1-m60-cA 1z14-a1-m19-cA_1z14-a1-m39-cA 1z14-a1-m19-cA_1z14-a1-m59-cA 1z14-a1-m1-cA_1z14-a1-m10-cA 1z14-a1-m1-cA_1z14-a1-m23-cA 1z14-a1-m20-cA_1z14-a1-m38-cA 1z14-a1-m21-cA_1z14-a1-m30-cA 1z14-a1-m21-cA_1z14-a1-m43-cA 1z14-a1-m22-cA_1z14-a1-m42-cA 1z14-a1-m24-cA_1z14-a1-m54-cA 1z14-a1-m24-cA_1z14-a1-m9-cA 1z14-a1-m25-cA_1z14-a1-m26-cA 1z14-a1-m25-cA_1z14-a1-m53-cA 1z14-a1-m26-cA_1z14-a1-m53-cA 1z14-a1-m27-cA_1z14-a1-m52-cA 1z14-a1-m29-cA_1z14-a1-m44-cA 1z14-a1-m2-cA_1z14-a1-m22-cA 1z14-a1-m2-cA_1z14-a1-m42-cA 1z14-a1-m30-cA_1z14-a1-m43-cA 1z14-a1-m31-cA_1z14-a1-m40-cA 1z14-a1-m31-cA_1z14-a1-m58-cA 1z14-a1-m32-cA_1z14-a1-m57-cA 1z14-a1-m32-cA_1z14-a1-m7-cA 1z14-a1-m33-cA_1z14-a1-m5-cA 1z14-a1-m33-cA_1z14-a1-m6-cA 1z14-a1-m34-cA_1z14-a1-m49-cA 1z14-a1-m34-cA_1z14-a1-m4-cA 1z14-a1-m35-cA_1z14-a1-m36-cA 1z14-a1-m35-cA_1z14-a1-m48-cA 1z14-a1-m36-cA_1z14-a1-m48-cA 1z14-a1-m37-cA_1z14-a1-m47-cA 1z14-a1-m39-cA_1z14-a1-m59-cA 1z14-a1-m3-cA_1z14-a1-m41-cA 1z14-a1-m3-cA_1z14-a1-m50-cA 1z14-a1-m40-cA_1z14-a1-m58-cA 1z14-a1-m41-cA_1z14-a1-m50-cA 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7z5f-a1-m54-cA_7z5f-a1-m7-cA 7z5f-a1-m55-cA_7z5f-a1-m59-cA 7z5f-a1-m56-cA_7z5f-a1-m6-cA 7z5f-a1-m5-cA_7z5f-a1-m9-cA 7z5f-a1-m60-cA_7z5f-a1-m7-cA SYDNQTHYRFLGDGWVEITALATRLVHLNMPKSENYCRIRVHNTTDTSVKGNMAKDDAHEQIWTPWSLVDANAWGVWLQPSDWQYICNTMSQLNLVSLDQEIFNVVLKTVTEQDSGGQAIKIYNNDWTACMMVAVDSNNILPYTPAANSMETLGFYPWKPTIASPYRYYFCVDRDLSVTYENQEGTIEHNVMGTPKGMNSQFFTIENTQQITLLRTGDEFATGTYYFDTNPVKLTHTWQTNRQLGQPPLLSTFPEADTDAGTLTAQGSRHGATQMEVNWVSEAIRTRPAQVGFCQPHNDFEASRAGPFAAPKVPADVTQGMDREANGSVRYSYGKQHGENWAAHGPAPERYTWDETNFGSGRDTRDGFIQSAPLVVPPPLNGILTNANPIGTKNDIHFSNVFNSYGPLTTFSHPSPVYPQGQIWDKELDLEHKPRLHITAPFVCKNNAPGQMLVRLGPNLTDQYDPNGATLSRIVTYGTFFWKGKLTMRAKLRANTTWNPVYQVSVEDNGNSYMSVTKWLPTATGNMQSVPLITRPVARNTY 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7z5e-a1-m47-cA_7z5e-a1-m48-cA 7z5e-a1-m48-cA_7z5e-a1-m49-cA 7z5e-a1-m49-cA_7z5e-a1-m50-cA 7z5e-a1-m4-cA_7z5e-a1-m5-cA 7z5e-a1-m51-cA_7z5e-a1-m52-cA 7z5e-a1-m51-cA_7z5e-a1-m55-cA 7z5e-a1-m52-cA_7z5e-a1-m53-cA 7z5e-a1-m53-cA_7z5e-a1-m54-cA 7z5e-a1-m54-cA_7z5e-a1-m55-cA 7z5e-a1-m56-cA_7z5e-a1-m57-cA 7z5e-a1-m56-cA_7z5e-a1-m60-cA 7z5e-a1-m57-cA_7z5e-a1-m58-cA 7z5e-a1-m58-cA_7z5e-a1-m59-cA 7z5e-a1-m59-cA_7z5e-a1-m60-cA 7z5e-a1-m6-cA_7z5e-a1-m7-cA 7z5e-a1-m7-cA_7z5e-a1-m8-cA 7z5e-a1-m8-cA_7z5e-a1-m9-cA 7z5f-a1-m10-cA_7z5f-a1-m6-cA 7z5f-a1-m10-cA_7z5f-a1-m9-cA 7z5f-a1-m11-cA_7z5f-a1-m12-cA 7z5f-a1-m11-cA_7z5f-a1-m15-cA 7z5f-a1-m12-cA_7z5f-a1-m13-cA 7z5f-a1-m13-cA_7z5f-a1-m14-cA 7z5f-a1-m14-cA_7z5f-a1-m15-cA 7z5f-a1-m16-cA_7z5f-a1-m17-cA 7z5f-a1-m16-cA_7z5f-a1-m20-cA 7z5f-a1-m17-cA_7z5f-a1-m18-cA 7z5f-a1-m18-cA_7z5f-a1-m19-cA 7z5f-a1-m19-cA_7z5f-a1-m20-cA 7z5f-a1-m1-cA_7z5f-a1-m2-cA 7z5f-a1-m1-cA_7z5f-a1-m5-cA 7z5f-a1-m21-cA_7z5f-a1-m22-cA 7z5f-a1-m21-cA_7z5f-a1-m25-cA 7z5f-a1-m22-cA_7z5f-a1-m23-cA 7z5f-a1-m23-cA_7z5f-a1-m24-cA 7z5f-a1-m24-cA_7z5f-a1-m25-cA 7z5f-a1-m26-cA_7z5f-a1-m27-cA 7z5f-a1-m26-cA_7z5f-a1-m30-cA 7z5f-a1-m27-cA_7z5f-a1-m28-cA 7z5f-a1-m28-cA_7z5f-a1-m29-cA 7z5f-a1-m29-cA_7z5f-a1-m30-cA 7z5f-a1-m2-cA_7z5f-a1-m3-cA 7z5f-a1-m31-cA_7z5f-a1-m32-cA 7z5f-a1-m31-cA_7z5f-a1-m35-cA 7z5f-a1-m32-cA_7z5f-a1-m33-cA 7z5f-a1-m33-cA_7z5f-a1-m34-cA 7z5f-a1-m34-cA_7z5f-a1-m35-cA 7z5f-a1-m36-cA_7z5f-a1-m37-cA 7z5f-a1-m36-cA_7z5f-a1-m40-cA 7z5f-a1-m37-cA_7z5f-a1-m38-cA 7z5f-a1-m38-cA_7z5f-a1-m39-cA 7z5f-a1-m39-cA_7z5f-a1-m40-cA 7z5f-a1-m3-cA_7z5f-a1-m4-cA 7z5f-a1-m41-cA_7z5f-a1-m42-cA 7z5f-a1-m41-cA_7z5f-a1-m45-cA 7z5f-a1-m42-cA_7z5f-a1-m43-cA 7z5f-a1-m43-cA_7z5f-a1-m44-cA 7z5f-a1-m44-cA_7z5f-a1-m45-cA 7z5f-a1-m46-cA_7z5f-a1-m47-cA 7z5f-a1-m46-cA_7z5f-a1-m50-cA 7z5f-a1-m47-cA_7z5f-a1-m48-cA 7z5f-a1-m48-cA_7z5f-a1-m49-cA 7z5f-a1-m49-cA_7z5f-a1-m50-cA 7z5f-a1-m4-cA_7z5f-a1-m5-cA 7z5f-a1-m51-cA_7z5f-a1-m52-cA 7z5f-a1-m51-cA_7z5f-a1-m55-cA 7z5f-a1-m52-cA_7z5f-a1-m53-cA 7z5f-a1-m53-cA_7z5f-a1-m54-cA 7z5f-a1-m54-cA_7z5f-a1-m55-cA 7z5f-a1-m56-cA_7z5f-a1-m57-cA 7z5f-a1-m56-cA_7z5f-a1-m60-cA 7z5f-a1-m57-cA_7z5f-a1-m58-cA 7z5f-a1-m58-cA_7z5f-a1-m59-cA 7z5f-a1-m59-cA_7z5f-a1-m60-cA 7z5f-a1-m6-cA_7z5f-a1-m7-cA 7z5f-a1-m7-cA_7z5f-a1-m8-cA 7z5f-a1-m8-cA_7z5f-a1-m9-cA SYDNQTHYRFLGDGWVEITALATRLVHLNMPKSENYCRIRVHNTTDTSVKGNMAKDDAHEQIWTPWSLVDANAWGVWLQPSDWQYICNTMSQLNLVSLDQEIFNVVLKTVTEQDSGGQAIKIYNNDWTACMMVAVDSNNILPYTPAANSMETLGFYPWKPTIASPYRYYFCVDRDLSVTYENQEGTIEHNVMGTPKGMNSQFFTIENTQQITLLRTGDEFATGTYYFDTNPVKLTHTWQTNRQLGQPPLLSTFPEADTDAGTLTAQGSRHGATQMEVNWVSEAIRTRPAQVGFCQPHNDFEASRAGPFAAPKVPADVTQGMDREANGSVRYSYGKQHGENWAAHGPAPERYTWDETNFGSGRDTRDGFIQSAPLVVPPPLNGILTNANPIGTKNDIHFSNVFNSYGPLTTFSHPSPVYPQGQIWDKELDLEHKPRLHITAPFVCKNNAPGQMLVRLGPNLTDQYDPNGATLSRIVTYGTFFWKGKLTMRAKLRANTTWNPVYQVSVEDNGNSYMSVTKWLPTATGNMQSVPLITRPVARNTY SYDNQTHYRFLGDGWVEITALATRLVHLNMPKSENYCRIRVHNTTDTSVKGNMAKDDAHEQIWTPWSLVDANAWGVWLQPSDWQYICNTMSQLNLVSLDQEIFNVVLKTVTEQDSGGQAIKIYNNDWTACMMVAVDSNNILPYTPAANSMETLGFYPWKPTIASPYRYYFCVDRDLSVTYENQEGTIEHNVMGTPKGMNSQFFTIENTQQITLLRTGDEFATGTYYFDTNPVKLTHTWQTNRQLGQPPLLSTFPEADTDAGTLTAQGSRHGATQMEVNWVSEAIRTRPAQVGFCQPHNDFEASRAGPFAAPKVPADVTQGMDREANGSVRYSYGKQHGENWAAHGPAPERYTWDETNFGSGRDTRDGFIQSAPLVVPPPLNGILTNANPIGTKNDIHFSNVFNSYGPLTTFSHPSPVYPQGQIWDKELDLEHKPRLHITAPFVCKNNAPGQMLVRLGPNLTDQYDPNGATLSRIVTYGTFFWKGKLTMRAKLRANTTWNPVYQVSVEDNGNSYMSVTKWLPTATGNMQSVPLITRPVARNTY 2xgt-a1-m1-cA_2xgt-a1-m1-cB Asparaginyl-tRNA synthetase from Brugia malayi complexed with the sulphamoyl analogue of asparaginyl-adenylate 1.9 X-RAY DIFFRACTION 249 1.0 6279 (Brugia malayi) 6279 (Brugia malayi) 427 433 2xti-a1-m1-cB_2xti-a1-m1-cA VKIRDLVKHRNERVCIKGWIHRMRRQGKSLMFFILRDGTGFLQVLLMDKLCQTYDALTVNTECTVEIYGAIKEVPNGHELIADFWKIIGNAPPGGIDNVLNASVDKMLDNRHLVIRGENAAALLRLRAAATRAMREHFYNAGYVEVAPPTLVQTQVEGGSTLFNLDYFGEQSFLTQSSQLYLETCIPTLGDVFCIAQSYRAEKSRTRRHLAEYAHVEAECPFITLDDLMEKIEELVCDTVDRLLADEEAKKLLEHINPKFQPPERPFLRMEYKDAIKWLQEHNVENEFGNTFTYGEDIAEAAERFMTDTINKPILLNRFPSEIKAFYMQRDAQDNTLTESVDLLMPGVGEIVGGSMRIWKFDELSKAFKNVEIDPKPYYWYLDQRLYGTCPHGGYGLGLERFICWLTNTNHIRDVCLYPRFVGRCVP VKIRDLVKHRNERVCIKGWIHRMRRQGKSLMFFILRDGTGFLQVLLMDKLCQTYDALTVNTECTVEIYGAIKEVPEEAPNGHELIADFWKIIGNAPPGGIDNVLNEEASVDKMLDNRHLVIRGENAAALLRLRAAATRAMREHFYNAGYVEVAPPTLVQTQVEGGSTLFNLDYFGEQSFLTQSSQLYLETCIPTLGDVFCIAQSYRAEKSRTRRHLAEYAHVEAECPFITLDDLMEKIEELVCDTVDRLLADEEAKKLLEHINPKFQPPERPFLRMEYKDAIKWLQEHNVENEFGNTFTYGEDIAEAAERFMTDTINKPILLNRFPSEIKAFYMQRDAQDNTLTESVDLLMPGVGEIVGGSMRIWKFDELSKAFKNVEIDPKPYYWYLDQRLYGTCPHGGYGLGLERFICWLTNTNHIRDVCLYPRFVGRCVP 2xgu-a1-m1-cB_2xgu-a1-m1-cA Structure of the N-terminal domain of capsid protein from Rabbit Endogenous Lentivirus (RELIK) 1.502 X-RAY DIFFRACTION 34 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 134 143 PIMLRGGRQEYEPVGPGLIAAWLKQVQEHGLTHPATITYFGVISINFTSVDINMLLNVTPAEKQLVIDKIKEKAIAWDEMHPPPPAAAGPVPLTSDQIRGIGLSPEEAAGPRFADARTLYRTWVLEALQECQRT PIMLRGGRQEYEPVGPGLIAAWLKQVQEHGLTHPATITYFGVISINFTSVDINMLLNVTPGFAAEKQLVIDKIKEKAIAWDEMHPPPPADAAGPVPLTSDQIRGIGLSPEEAAGPRFADARTLYRTWVLEALQECQRTISPLE 2xhf-a1-m1-cB_2xhf-a1-m1-cA Crystal structure of peroxiredoxin 5 from Alvinella pompejana G1K3P1 G1K3P1 1.3 X-RAY DIFFRACTION 43 1.0 6376 (Alvinella pompejana) 6376 (Alvinella pompejana) 154 156 PIKVGDIIPDVLVYEDVPSKSFPIHDVFRGRKGILFSVVGAFVPGSNNHIPEYLSLYDKFKEEGYHTIACIAVNDPFVMAAWGKTVDPEHKIRMLADMHGEFTRALGTELDSSKMLGNNRSRRYAMLIDDNKIRSVSTEPDITGLACLLSIQRQ GSPIKVGDIIPDVLVYEDVPSKSFPIHDVFRGRKGILFSVVGAFVPGSNNHIPEYLSLYDKFKEEGYHTIACIAVNDPFVMAAWGKTVDPEHKIRMLADMHGEFTRALGTELDSSKMLGNNRSRRYAMLIDDNKIRSVSTEPDITGLACLLSIQRQ 2xhy-a2-m1-cB_2xhy-a2-m1-cA Crystal Structure of E.coli BglA Q46829 Q46829 2.3 X-RAY DIFFRACTION 115 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 468 470 2xhy-a1-m1-cD_2xhy-a1-m1-cC KKLTLPKDFLWGGAVAAHQVEGGWNKGGKGPSICDVLTGGAHGVPREITKEVLPGKYYPNHEAVDFYGHYKEDIKLFAEMGFKCFRTSIAWTRIFPKGDEAQPNEEGLKFYDDMFDELLKYNIEPVITLSHFEMPLHLVQQYGSWTNRKVVDFFVRFAEVVFERYKHKVKYWMTFNEINNQRNWRAPLFGYCCSGVVYTEHENPEETMYQVLHHQFVASALAVKAARRINPEMKVGCMLAMVPLYPYSCNPDDVMFAQESMRERYVFTDVQLRGYYPSYVLNEWERRGFNIKMEDGDLDVLREGTCDYLGFSYYMTNAVKAEGGEGSVPNPYVKASDWGWQIDPVGLRYALCELYERYQRPLFIVENGFGAYDKVEEDGSINDDYRIDYLRAHIEEMKKAVTYDGVDLMGYTPWGCIDCVSFTTGQYSKRYGFIYVNKHDDGTGDMSRSRKKSFNWYKEVIASNGEKL KKLTLPKDFLWGGAVAAHQVEGGWNKGGKGPSICDVLTGGAHGVPREITKEVLPGKYYPNHEAVDFYGHYKEDIKLFAEMGFKCFRTSIAWTRIFPKGDEAQPNEEGLKFYDDMFDELLKYNIEPVITLSHFEMPLHLVQQYGSWTNRKVVDFFVRFAEVVFERYKHKVKYWMTFNEINNQRNWRAPLFGYCCSGVVYTEHENPEETMYQVLHHQFVASALAVKAARRINPEMKVGCMLAMVPLYPYSCNPDDVMFAQESMRERYVFTDVQLRGYYPSYVLNEWERRGFNIKMEDGDLDVLREGTCDYLGFSYYMTNAVKAEGGTFEGSVPNPYVKASDWGWQIDPVGLRYALCELYERYQRPLFIVENGFGAYDKVEEDGSINDDYRIDYLRAHIEEMKKAVTYDGVDLMGYTPWGCIDCVSFTTGQYSKRYGFIYVNKHDDGTGDMSRSRKKSFNWYKEVIASNGEKL 2xhz-a1-m1-cA_2xhz-a1-m1-cD Probing the active site of the sugar isomerase domain from E. coli arabinose-5-phosphate isomerase via X-ray crystallography P45395 P45395 2.6 X-RAY DIFFRACTION 55 0.994 562 (Escherichia coli) 562 (Escherichia coli) 173 173 2xhz-a1-m1-cC_2xhz-a1-m1-cB DFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGASGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKARG FDFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGASGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKAR 2xhz-a1-m1-cD_2xhz-a1-m1-cB Probing the active site of the sugar isomerase domain from E. coli arabinose-5-phosphate isomerase via X-ray crystallography P45395 P45395 2.6 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 173 174 2xhz-a1-m1-cA_2xhz-a1-m1-cC FDFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGASGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKAR FDFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGASGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKARG 2xhz-a3-m1-cC_2xhz-a3-m1-cD Probing the active site of the sugar isomerase domain from E. coli arabinose-5-phosphate isomerase via X-ray crystallography P45395 P45395 2.6 X-RAY DIFFRACTION 176 0.994 562 (Escherichia coli) 562 (Escherichia coli) 173 173 2xhz-a1-m1-cA_2xhz-a1-m1-cB 2xhz-a1-m1-cC_2xhz-a1-m1-cD 2xhz-a2-m1-cA_2xhz-a2-m1-cB DFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGASGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKARG FDFQQAGKEVLAIERECLAELDQYINQNFTLACEKMFWCKGKVVVMGMGASGHIGRKMAATFASTGTPSFFVHPGEAAHGDLGMVTPQDVVIAISNSGESSEITALIPVLKRLHVPLICITGRPESSMARAADVHLCVKVAKEACPLGLAPTSSTTATLVMGDALAVALLKAR 2xi5-a1-m2-cA_2xi5-a1-m2-cB N-terminal endonuclease domain of La Crosse virus L-protein A5HC98 A5HC98 2.2 X-RAY DIFFRACTION 56 1.0 11577 (La Crosse virus) 11577 (La Crosse virus) 184 184 2xi5-a1-m1-cA_2xi5-a1-m1-cB 2xi5-a1-m1-cC_2xi5-a1-m2-cC 2xi5-a1-m1-cD_2xi5-a1-m2-cD 2xi7-a1-m1-cA_2xi7-a1-m2-cA 2xi7-a1-m1-cB_2xi7-a1-m1-cC 2xi7-a1-m1-cD_2xi7-a1-m2-cD 2xi7-a1-m2-cB_2xi7-a1-m2-cC GMDYQEYQQFLARINTARDACVAKDIDVDLLMARHDYFGRELCKSLNIEYRNDVPFIDIILDIRPEVDPLTIDAPHITPDNYLYINNVLYIIDYKVSVSNESSVITYDKYYELTRDISDRLSIPIEIVIIRIDPVSRDLHINSDRFKELYPTIVVDINFNQFFDLKQLLYEKFGDDEEFLLKVA GMDYQEYQQFLARINTARDACVAKDIDVDLLMARHDYFGRELCKSLNIEYRNDVPFIDIILDIRPEVDPLTIDAPHITPDNYLYINNVLYIIDYKVSVSNESSVITYDKYYELTRDISDRLSIPIEIVIIRIDPVSRDLHINSDRFKELYPTIVVDINFNQFFDLKQLLYEKFGDDEEFLLKVA 2xi7-a1-m2-cB_2xi7-a1-m2-cD N-terminal endonuclease domain of La Crosse virus L-protein A5HC98 A5HC98 2.2 X-RAY DIFFRACTION 24 1.0 11577 (La Crosse virus) 11577 (La Crosse virus) 183 183 2xi5-a1-m1-cA_2xi5-a1-m2-cD 2xi5-a1-m1-cB_2xi5-a1-m1-cD 2xi5-a1-m1-cC_2xi5-a1-m1-cB 2xi5-a1-m1-cC_2xi5-a1-m2-cA 2xi5-a1-m1-cD_2xi5-a1-m2-cA 2xi5-a1-m2-cB_2xi5-a1-m2-cD 2xi5-a1-m2-cC_2xi5-a1-m1-cA 2xi5-a1-m2-cC_2xi5-a1-m2-cB 2xi7-a1-m1-cB_2xi7-a1-m1-cA 2xi7-a1-m1-cB_2xi7-a1-m1-cD 2xi7-a1-m1-cC_2xi7-a1-m2-cA 2xi7-a1-m1-cC_2xi7-a1-m2-cD 2xi7-a1-m1-cD_2xi7-a1-m2-cC 2xi7-a1-m2-cB_2xi7-a1-m2-cA 2xi7-a1-m2-cC_2xi7-a1-m1-cA GMDYQEYQQFLARINTARDACVAKDIDVDLLMARHDYFGRELCKSLNIEYRNDVPFIDIILDIRPEVDPLTIDAPHITPDNYLYINNVLYIIDYKVSVSNESSVITYDKYYELTRDISDRLSIPIEIVIIRIDPVSRDLHINSDRFKELYPTIVVDINFNQFFDLKQLLYEKFGDDEEFLLKV GMDYQEYQQFLARINTARDACVAKDIDVDLLMARHDYFGRELCKSLNIEYRNDVPFIDIILDIRPEVDPLTIDAPHITPDNYLYINNVLYIIDYKVSVSNESSVITYDKYYELTRDISDRLSIPIEIVIIRIDPVSRDLHINSDRFKELYPTIVVDINFNQFFDLKQLLYEKFGDDEEFLLKV 2xi7-a1-m2-cC_2xi7-a1-m2-cD N-terminal endonuclease domain of La Crosse virus L-protein A5HC98 A5HC98 2.2 X-RAY DIFFRACTION 11 1.0 11577 (La Crosse virus) 11577 (La Crosse virus) 183 183 2xi5-a1-m1-cB_2xi5-a1-m2-cD 2xi5-a1-m1-cC_2xi5-a1-m1-cA 2xi5-a1-m1-cD_2xi5-a1-m2-cB 2xi5-a1-m2-cC_2xi5-a1-m2-cA 2xi7-a1-m1-cB_2xi7-a1-m2-cA 2xi7-a1-m1-cC_2xi7-a1-m1-cD 2xi7-a1-m2-cB_2xi7-a1-m1-cA GMDYQEYQQFLARINTARDACVAKDIDVDLLMARHDYFGRELCKSLNIEYRNDVPFIDIILDIRPEVDPLTIDAPHITPDNYLYINNVLYIIDYKVSVSNESSVITYDKYYELTRDISDRLSIPIEIVIIRIDPVSRDLHINSDRFKELYPTIVVDINFNQFFDLKQLLYEKFGDDEEFLLKV GMDYQEYQQFLARINTARDACVAKDIDVDLLMARHDYFGRELCKSLNIEYRNDVPFIDIILDIRPEVDPLTIDAPHITPDNYLYINNVLYIIDYKVSVSNESSVITYDKYYELTRDISDRLSIPIEIVIIRIDPVSRDLHINSDRFKELYPTIVVDINFNQFFDLKQLLYEKFGDDEEFLLKV 2xig-a1-m1-cA_2xig-a1-m1-cD The structure of the Helicobacter pylori ferric uptake regulator Fur reveals three functional metal binding sites O25671 O25671 1.85 X-RAY DIFFRACTION 20 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 146 148 2xig-a1-m1-cB_2xig-a1-m1-cC MKRLETLESILERLRMSIKKNGNSKQREEVVSVLYRSGTHLSPEEITHSIRQKDKNTSISSVYRILNFLEKENFISVLETSKSGRRYEIAAKEHHDHIICLHCGKIIEFADPEIENRQNEVVKKYQAKLISHDMKMFVWCKECQES MKRLETLESILERLRMSIKKNGLKNSKQREEVVSVLYRSGTHLSPEEITHSIRQKDKNTSISSVYRILNFLEKENFISVLETSKSGRRYEIAAKEHHDHIICLHCGKIIEFADPEIENRQNEVVKKYQAKLISHDMKMFVWCKECQES 2xig-a1-m1-cB_2xig-a1-m1-cD The structure of the Helicobacter pylori ferric uptake regulator Fur reveals three functional metal binding sites O25671 O25671 1.85 X-RAY DIFFRACTION 22 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 148 148 MKRLETLESILERLRMSIKKNGLKNSKQREEVVSVLYRSGTHLSPEEITHSIRQKDKNTSISSVYRILNFLEKENFISVLETSKSGRRYEIAAKEHHDHIICLHCGKIIEFADPEIENRQNEVVKKYQAKLISHDMKMFVWCKECQES MKRLETLESILERLRMSIKKNGLKNSKQREEVVSVLYRSGTHLSPEEITHSIRQKDKNTSISSVYRILNFLEKENFISVLETSKSGRRYEIAAKEHHDHIICLHCGKIIEFADPEIENRQNEVVKKYQAKLISHDMKMFVWCKECQES 2xig-a3-m1-cD_2xig-a3-m1-cC The structure of the Helicobacter pylori ferric uptake regulator Fur reveals three functional metal binding sites O25671 O25671 1.85 X-RAY DIFFRACTION 101 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 148 150 2xig-a1-m1-cA_2xig-a1-m1-cB 2xig-a1-m1-cD_2xig-a1-m1-cC 2xig-a2-m1-cA_2xig-a2-m1-cB MKRLETLESILERLRMSIKKNGLKNSKQREEVVSVLYRSGTHLSPEEITHSIRQKDKNTSISSVYRILNFLEKENFISVLETSKSGRRYEIAAKEHHDHIICLHCGKIIEFADPEIENRQNEVVKKYQAKLISHDMKMFVWCKECQES MKRLETLESILERLRMSIKKNGLKNSKQREEVVSVLYRSGTHLSPEEITHSIRQKDKNTSISSVYRILNFLEKENFISVLETSKSGRRYEIAAKEHHDHIICLHCGKIIEFADPEIENRQNEVVKKYQAKLISHDMKMFVWCKECQESES 2xij-a1-m1-cA_2xij-a1-m2-cA Crystal structure of human methylmalonyl-CoA mutase in complex with adenosylcobalamin P22033 P22033 1.95 X-RAY DIFFRACTION 229 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 710 710 2xiq-a3-m2-cB_2xiq-a3-m1-cA 3bic-a3-m1-cA_3bic-a3-m1-cB QQPLHPEWAALAKKQLKGKNPEDLIWHTPEGISIKPLYSKRDTMDLPEELPGVKPFTRGPYPTMYTFRPWTIRQYAGFSTVEESNKFYKDNIKAGQQGLSVAFDLATHRGYDSDNPRVRGDVGMAGVAIDTVEDTKILFDGIPLEKMSVSMTMNGAVIPVLANFIVTGEEQGVPKEKLTGTIQNDILKEFMVRNTYIFPPEPSMKIIADIFEYTAKHMPKFNSISISGYHMQEAGADAILELAYTLADGLEYSRTGLQAGLTIDEFAPRLSFFWGIGMNFYMEIAKMRAGRRLWAHLIEKMFQPKNSKSLLLRAHCQTSGWSLTEQDPYNNIVRTAIEAMAAVFGGTQSLHTNSFDEALGLPTVKSARIARNTQIIIQEESGIPKVADPWGGSYMMECLTNDVYDAALKLINEIEEMGGMAKAVAEGIPKLRIEECAARRQARIDSGSEVIVGVNKYQLEKEDTVEVLAIDNTSVRNRQIEKLKKIKSSRDQALAERCLAALTECAASGDGNILALAVDASRARCTVGEITDALKKVFGEHKANDRMVSGAYRQEFGESKEITSAIKRVHKFMEREGRRPRLLVAKMGQDGHDRGAKVIATGFADLGFDVDIGPLFQTPREVAQQAVDADVHAVGVSTLAAGHKTLVPELIKELNSLGRPDILVMCGGVIPPQDYEFLFEVGVSNVFGPGTRIPKAAVQVLDDIEKCLEK QQPLHPEWAALAKKQLKGKNPEDLIWHTPEGISIKPLYSKRDTMDLPEELPGVKPFTRGPYPTMYTFRPWTIRQYAGFSTVEESNKFYKDNIKAGQQGLSVAFDLATHRGYDSDNPRVRGDVGMAGVAIDTVEDTKILFDGIPLEKMSVSMTMNGAVIPVLANFIVTGEEQGVPKEKLTGTIQNDILKEFMVRNTYIFPPEPSMKIIADIFEYTAKHMPKFNSISISGYHMQEAGADAILELAYTLADGLEYSRTGLQAGLTIDEFAPRLSFFWGIGMNFYMEIAKMRAGRRLWAHLIEKMFQPKNSKSLLLRAHCQTSGWSLTEQDPYNNIVRTAIEAMAAVFGGTQSLHTNSFDEALGLPTVKSARIARNTQIIIQEESGIPKVADPWGGSYMMECLTNDVYDAALKLINEIEEMGGMAKAVAEGIPKLRIEECAARRQARIDSGSEVIVGVNKYQLEKEDTVEVLAIDNTSVRNRQIEKLKKIKSSRDQALAERCLAALTECAASGDGNILALAVDASRARCTVGEITDALKKVFGEHKANDRMVSGAYRQEFGESKEITSAIKRVHKFMEREGRRPRLLVAKMGQDGHDRGAKVIATGFADLGFDVDIGPLFQTPREVAQQAVDADVHAVGVSTLAAGHKTLVPELIKELNSLGRPDILVMCGGVIPPQDYEFLFEVGVSNVFGPGTRIPKAAVQVLDDIEKCLEK 2xit-a1-m1-cA_2xit-a1-m1-cB Crystal structure of monomeric MipZ A0A0H3CA70 A0A0H3CA70 1.8 X-RAY DIFFRACTION 31 0.989 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 276 278 AETRVIVVGNEKGGAGKSTIAVHLVTALLYGGAKVAVIDLDLRQRTSARFFENRRAWLDNKKIELPEPLALNLSDNDVALAERPEEEQVAGFEAAFARAMAECDFILIDTPGGDSAITRMAHGRADLVVTPMNDSFVDFDMLGTVELTKPSLYSLTVWEGRKQRALSGQRQAMDWVVLRNRLATTEARNRKRLEDRLNALAKRVGFRIGPGLRDRVIYRELFPFGLTIADLSPQVRPVPVSLQHLAARQELRALMHSLGLSAYSGETAVDKLAAAL TRVIVVGNEKGGAGKSTIAVHLVTALLYGGAKVAVIDLDLRQRTSARFFENRRAWLDNKKIELPEPLALNLSDNDVALAERPEEEQVAGFEAAFARAMAECDFILIDTPGGDSAITRMAHGRADLVVTPMNDSFVDFDMLGTVDPVTLELTKPSLYSLTVWEGRKQRALSGQRQAMDWVVLRNRLATTEARNRKRLEDRLNALAKRVGFRIGPGLRDRVIYRELFPFGLTIADLSPQVRPVPVSLQHLAARQELRALMHSLGLSAYSGETVDKLAAAL 2xiw-a1-m1-cA_2xiw-a1-m2-cB Crystal structure of the Sac7d-derived IgG1-binder C3-C24S P13123 P13123 1.5 X-RAY DIFFRACTION 13 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 63 66 2xiw-a1-m2-cA_2xiw-a1-m1-cB VKVKFLLNGEEKEVDTSKIRDVSRQGKNVKFLYNDNGKYGAGNVDEKDAPKELLDLARAEREK VKVKFLLNGEEKEVDTSKIRDVSRQGKNVKFLYNDNGKYGAGNVDEKDAPKELLDLARAEREKKLN 2xiw-a1-m1-cB_2xiw-a1-m2-cB Crystal structure of the Sac7d-derived IgG1-binder C3-C24S P13123 P13123 1.5 X-RAY DIFFRACTION 33 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 66 66 VKVKFLLNGEEKEVDTSKIRDVSRQGKNVKFLYNDNGKYGAGNVDEKDAPKELLDLARAEREKKLN VKVKFLLNGEEKEVDTSKIRDVSRQGKNVKFLYNDNGKYGAGNVDEKDAPKELLDLARAEREKKLN 2xiw-a1-m2-cA_2xiw-a1-m2-cB Crystal structure of the Sac7d-derived IgG1-binder C3-C24S P13123 P13123 1.5 X-RAY DIFFRACTION 41 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 63 66 2xiw-a1-m1-cA_2xiw-a1-m1-cB VKVKFLLNGEEKEVDTSKIRDVSRQGKNVKFLYNDNGKYGAGNVDEKDAPKELLDLARAEREK VKVKFLLNGEEKEVDTSKIRDVSRQGKNVKFLYNDNGKYGAGNVDEKDAPKELLDLARAEREKKLN 2xj3-a1-m1-cB_2xj3-a1-m1-cA High resolution structure of the T55C mutant of CylR2. Q8VL32 Q8VL32 1.23 X-RAY DIFFRACTION 51 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 65 66 1utx-a1-m1-cA_1utx-a1-m1-cB 2gzu-a1-m1-cA_2gzu-a1-m1-cB 2lyj-a1-m1-cA_2lyj-a1-m1-cB 2lyk-a1-m1-cA_2lyk-a1-m1-cB 2xi8-a1-m1-cA_2xi8-a1-m1-cB 2xiu-a1-m1-cB_2xiu-a1-m1-cA MIINNLKLIREKKKISQSELAALLEVSRQTINGIEKNKYNPSLQLALKIAYYLNCPLEDIFQWQP MIINNLKLIREKKKISQSELAALLEVSRQTINGIEKNKYNPSLQLALKIAYYLNCPLEDIFQWQPE 2xj9-a1-m1-cA_2xj9-a1-m1-cB Dimer Structure of the bacterial cell division regulator MipZ Q9A6C9 Q9A6C9 2.8 X-RAY DIFFRACTION 109 0.985 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 265 265 ETRVIVVGNEKGGAGKSTIAVHLVTALLYGGAKVAVIDLALRQRTSARFFENRRAWLDNKKIELPEPLALNLSDNDVALAERPEEEQVAGFEAAFARAMAECDFILIDTPGGDSAITRMAHGRADLVVTPMNDSFVDFDMLGTVDPLELTKPSLYSLTVWEGRKQRALSGQRQAMDWVVLRNRLATTARNRKRLEDRLNALAKRVGFRIGPGLRDRVIYRELFPFGLTIADLSPQVRPVPVSLQHLAARQELRALMHSLGLSAYS ETRVIVVGNEKGGAGKSTIAVHLVTALLYGGAKVAVIDLALRQRTSARFFENRRAWLDNKKIELPEPLALNLSDNDVALAERPEEEQVAGFEAAFARAMAECDFILIDTPGGDSAITRMAHGRADLVVTPMNDSFVDFDMLGTVDPVTLELTKPSLYSLTVWEGRKQRALSGQAMDWVVLRNRLATTEARNRKRLEDRLNALAKRVGFRIGPGLRDRVIYRELFPFGLTIADLSPQPVPVSLQHLAARQELRALMHSLGLSAYSG 2xjm-a1-m1-cA_2xjm-a1-m1-cE Crystal structure of Streptococcus suis Dpr with cobalt P0CB53 P0CB53 2.3 X-RAY DIFFRACTION 27 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 150 150 1umn-a1-m1-cA_1umn-a1-m1-cE 1umn-a1-m1-cA_1umn-a1-m1-cI 1umn-a1-m1-cB_1umn-a1-m1-cG 1umn-a1-m1-cB_1umn-a1-m1-cL 1umn-a1-m1-cC_1umn-a1-m1-cH 1umn-a1-m1-cC_1umn-a1-m1-cJ 1umn-a1-m1-cD_1umn-a1-m1-cK 1umn-a1-m1-cE_1umn-a1-m1-cI 1umn-a1-m1-cF_1umn-a1-m1-cD 1umn-a1-m1-cF_1umn-a1-m1-cK 1umn-a1-m1-cH_1umn-a1-m1-cJ 1umn-a1-m1-cL_1umn-a1-m1-cG 2bw1-a1-m1-cA_2bw1-a1-m1-cE 2bw1-a1-m1-cA_2bw1-a1-m1-cI 2bw1-a1-m1-cB_2bw1-a1-m1-cG 2bw1-a1-m1-cB_2bw1-a1-m1-cL 2bw1-a1-m1-cC_2bw1-a1-m1-cH 2bw1-a1-m1-cC_2bw1-a1-m1-cJ 2bw1-a1-m1-cD_2bw1-a1-m1-cK 2bw1-a1-m1-cE_2bw1-a1-m1-cI 2bw1-a1-m1-cF_2bw1-a1-m1-cD 2bw1-a1-m1-cF_2bw1-a1-m1-cK 2bw1-a1-m1-cH_2bw1-a1-m1-cJ 2bw1-a1-m1-cL_2bw1-a1-m1-cG 2cf7-a1-m1-cB_2cf7-a1-m1-cG 2cf7-a1-m1-cB_2cf7-a1-m1-cL 2cf7-a1-m1-cE_2cf7-a1-m1-cA 2cf7-a1-m1-cE_2cf7-a1-m1-cI 2cf7-a1-m1-cF_2cf7-a1-m1-cD 2cf7-a1-m1-cF_2cf7-a1-m1-cK 2cf7-a1-m1-cH_2cf7-a1-m1-cC 2cf7-a1-m1-cH_2cf7-a1-m1-cJ 2cf7-a1-m1-cI_2cf7-a1-m1-cA 2cf7-a1-m1-cJ_2cf7-a1-m1-cC 2cf7-a1-m1-cK_2cf7-a1-m1-cD 2cf7-a1-m1-cL_2cf7-a1-m1-cG 2ux1-a1-m1-cA_2ux1-a1-m1-cI 2ux1-a1-m1-cB_2ux1-a1-m1-cG 2ux1-a1-m1-cB_2ux1-a1-m1-cL 2ux1-a1-m1-cC_2ux1-a1-m1-cH 2ux1-a1-m1-cC_2ux1-a1-m1-cJ 2ux1-a1-m1-cD_2ux1-a1-m1-cF 2ux1-a1-m1-cD_2ux1-a1-m1-cK 2ux1-a1-m1-cE_2ux1-a1-m1-cA 2ux1-a1-m1-cE_2ux1-a1-m1-cI 2ux1-a1-m1-cF_2ux1-a1-m1-cK 2ux1-a1-m1-cH_2ux1-a1-m1-cJ 2ux1-a1-m1-cL_2ux1-a1-m1-cG 2v15-a1-m1-cA_2v15-a1-m1-cE 2v15-a1-m1-cA_2v15-a1-m1-cI 2v15-a1-m1-cB_2v15-a1-m1-cG 2v15-a1-m1-cB_2v15-a1-m1-cL 2v15-a1-m1-cC_2v15-a1-m1-cH 2v15-a1-m1-cC_2v15-a1-m1-cJ 2v15-a1-m1-cD_2v15-a1-m1-cF 2v15-a1-m1-cD_2v15-a1-m1-cK 2v15-a1-m1-cE_2v15-a1-m1-cI 2v15-a1-m1-cF_2v15-a1-m1-cK 2v15-a1-m1-cH_2v15-a1-m1-cJ 2v15-a1-m1-cL_2v15-a1-m1-cG 2xjm-a1-m1-cA_2xjm-a1-m1-cI 2xjm-a1-m1-cC_2xjm-a1-m1-cH 2xjm-a1-m1-cC_2xjm-a1-m1-cJ 2xjm-a1-m1-cD_2xjm-a1-m1-cK 2xjm-a1-m1-cE_2xjm-a1-m1-cI 2xjm-a1-m1-cF_2xjm-a1-m1-cD 2xjm-a1-m1-cF_2xjm-a1-m1-cK 2xjm-a1-m1-cG_2xjm-a1-m1-cB 2xjm-a1-m1-cG_2xjm-a1-m1-cL 2xjm-a1-m1-cH_2xjm-a1-m1-cJ 2xjm-a1-m1-cL_2xjm-a1-m1-cB 2xjn-a1-m1-cA_2xjn-a1-m1-cE 2xjn-a1-m1-cA_2xjn-a1-m1-cI 2xjn-a1-m1-cB_2xjn-a1-m1-cG 2xjn-a1-m1-cB_2xjn-a1-m1-cL 2xjn-a1-m1-cC_2xjn-a1-m1-cH 2xjn-a1-m1-cC_2xjn-a1-m1-cJ 2xjn-a1-m1-cD_2xjn-a1-m1-cF 2xjn-a1-m1-cD_2xjn-a1-m1-cK 2xjn-a1-m1-cE_2xjn-a1-m1-cI 2xjn-a1-m1-cF_2xjn-a1-m1-cK 2xjn-a1-m1-cG_2xjn-a1-m1-cL 2xjn-a1-m1-cH_2xjn-a1-m1-cJ 2xjo-a1-m1-cA_2xjo-a1-m1-cE 2xjo-a1-m1-cA_2xjo-a1-m1-cI 2xjo-a1-m1-cB_2xjo-a1-m1-cL 2xjo-a1-m1-cC_2xjo-a1-m1-cH 2xjo-a1-m1-cC_2xjo-a1-m1-cJ 2xjo-a1-m1-cD_2xjo-a1-m1-cK 2xjo-a1-m1-cE_2xjo-a1-m1-cI 2xjo-a1-m1-cF_2xjo-a1-m1-cD 2xjo-a1-m1-cF_2xjo-a1-m1-cK 2xjo-a1-m1-cG_2xjo-a1-m1-cB 2xjo-a1-m1-cG_2xjo-a1-m1-cL 2xjo-a1-m1-cH_2xjo-a1-m1-cJ 2xkq-a1-m1-cA_2xkq-a1-m1-cE 2xkq-a1-m1-cB_2xkq-a1-m1-cG 2xkq-a1-m1-cB_2xkq-a1-m1-cL 2xkq-a1-m1-cC_2xkq-a1-m1-cH 2xkq-a1-m1-cC_2xkq-a1-m1-cJ 2xkq-a1-m1-cD_2xkq-a1-m1-cK 2xkq-a1-m1-cF_2xkq-a1-m1-cD 2xkq-a1-m1-cF_2xkq-a1-m1-cK 2xkq-a1-m1-cG_2xkq-a1-m1-cL 2xkq-a1-m1-cH_2xkq-a1-m1-cJ 2xkq-a1-m1-cI_2xkq-a1-m1-cA 2xkq-a1-m1-cI_2xkq-a1-m1-cE ADSKAVLNQAVADLSVAHSILHQVHWYMRGRGFMIWHPKMDEYMEEIDGYLDEMSERLITLGGAPFSTLKEFSENSQLKEVLGDYNVTIEEQLARVVEVFRYLAALFQKGFDVSDEEGDSVTNDIFNVAKASIEKHIWMLQAELGQAPKL ADSKAVLNQAVADLSVAHSILHQVHWYMRGRGFMIWHPKMDEYMEEIDGYLDEMSERLITLGGAPFSTLKEFSENSQLKEVLGDYNVTIEEQLARVVEVFRYLAALFQKGFDVSDEEGDSVTNDIFNVAKASIEKHIWMLQAELGQAPKL 2xjm-a1-m1-cC_2xjm-a1-m1-cE Crystal structure of Streptococcus suis Dpr with cobalt P0CB53 P0CB53 2.3 X-RAY DIFFRACTION 27 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 150 150 1umn-a1-m1-cA_1umn-a1-m1-cH 1umn-a1-m1-cA_1umn-a1-m1-cK 1umn-a1-m1-cB_1umn-a1-m1-cF 1umn-a1-m1-cB_1umn-a1-m1-cJ 1umn-a1-m1-cC_1umn-a1-m1-cE 1umn-a1-m1-cC_1umn-a1-m1-cL 1umn-a1-m1-cD_1umn-a1-m1-cG 1umn-a1-m1-cD_1umn-a1-m1-cI 1umn-a1-m1-cF_1umn-a1-m1-cJ 1umn-a1-m1-cH_1umn-a1-m1-cK 1umn-a1-m1-cI_1umn-a1-m1-cG 1umn-a1-m1-cL_1umn-a1-m1-cE 2bw1-a1-m1-cA_2bw1-a1-m1-cH 2bw1-a1-m1-cA_2bw1-a1-m1-cK 2bw1-a1-m1-cB_2bw1-a1-m1-cF 2bw1-a1-m1-cB_2bw1-a1-m1-cJ 2bw1-a1-m1-cC_2bw1-a1-m1-cE 2bw1-a1-m1-cC_2bw1-a1-m1-cL 2bw1-a1-m1-cD_2bw1-a1-m1-cG 2bw1-a1-m1-cE_2bw1-a1-m1-cL 2bw1-a1-m1-cF_2bw1-a1-m1-cJ 2bw1-a1-m1-cH_2bw1-a1-m1-cK 2bw1-a1-m1-cI_2bw1-a1-m1-cD 2bw1-a1-m1-cI_2bw1-a1-m1-cG 2cf7-a1-m1-cB_2cf7-a1-m1-cF 2cf7-a1-m1-cB_2cf7-a1-m1-cJ 2cf7-a1-m1-cD_2cf7-a1-m1-cG 2cf7-a1-m1-cD_2cf7-a1-m1-cI 2cf7-a1-m1-cE_2cf7-a1-m1-cC 2cf7-a1-m1-cE_2cf7-a1-m1-cL 2cf7-a1-m1-cF_2cf7-a1-m1-cJ 2cf7-a1-m1-cH_2cf7-a1-m1-cA 2cf7-a1-m1-cH_2cf7-a1-m1-cK 2cf7-a1-m1-cI_2cf7-a1-m1-cG 2cf7-a1-m1-cK_2cf7-a1-m1-cA 2cf7-a1-m1-cL_2cf7-a1-m1-cC 2ux1-a1-m1-cA_2ux1-a1-m1-cH 2ux1-a1-m1-cA_2ux1-a1-m1-cK 2ux1-a1-m1-cB_2ux1-a1-m1-cF 2ux1-a1-m1-cB_2ux1-a1-m1-cJ 2ux1-a1-m1-cC_2ux1-a1-m1-cL 2ux1-a1-m1-cD_2ux1-a1-m1-cG 2ux1-a1-m1-cD_2ux1-a1-m1-cI 2ux1-a1-m1-cE_2ux1-a1-m1-cC 2ux1-a1-m1-cE_2ux1-a1-m1-cL 2ux1-a1-m1-cF_2ux1-a1-m1-cJ 2ux1-a1-m1-cH_2ux1-a1-m1-cK 2ux1-a1-m1-cI_2ux1-a1-m1-cG 2v15-a1-m1-cA_2v15-a1-m1-cH 2v15-a1-m1-cA_2v15-a1-m1-cK 2v15-a1-m1-cB_2v15-a1-m1-cF 2v15-a1-m1-cB_2v15-a1-m1-cJ 2v15-a1-m1-cC_2v15-a1-m1-cE 2v15-a1-m1-cC_2v15-a1-m1-cL 2v15-a1-m1-cD_2v15-a1-m1-cG 2v15-a1-m1-cD_2v15-a1-m1-cI 2v15-a1-m1-cE_2v15-a1-m1-cL 2v15-a1-m1-cF_2v15-a1-m1-cJ 2v15-a1-m1-cH_2v15-a1-m1-cK 2v15-a1-m1-cI_2v15-a1-m1-cG 2xjm-a1-m1-cA_2xjm-a1-m1-cH 2xjm-a1-m1-cA_2xjm-a1-m1-cK 2xjm-a1-m1-cC_2xjm-a1-m1-cL 2xjm-a1-m1-cE_2xjm-a1-m1-cL 2xjm-a1-m1-cF_2xjm-a1-m1-cB 2xjm-a1-m1-cF_2xjm-a1-m1-cJ 2xjm-a1-m1-cG_2xjm-a1-m1-cD 2xjm-a1-m1-cG_2xjm-a1-m1-cI 2xjm-a1-m1-cH_2xjm-a1-m1-cK 2xjm-a1-m1-cI_2xjm-a1-m1-cD 2xjm-a1-m1-cJ_2xjm-a1-m1-cB 2xjn-a1-m1-cA_2xjn-a1-m1-cH 2xjn-a1-m1-cA_2xjn-a1-m1-cK 2xjn-a1-m1-cB_2xjn-a1-m1-cF 2xjn-a1-m1-cB_2xjn-a1-m1-cJ 2xjn-a1-m1-cC_2xjn-a1-m1-cE 2xjn-a1-m1-cC_2xjn-a1-m1-cL 2xjn-a1-m1-cD_2xjn-a1-m1-cG 2xjn-a1-m1-cD_2xjn-a1-m1-cI 2xjn-a1-m1-cE_2xjn-a1-m1-cL 2xjn-a1-m1-cF_2xjn-a1-m1-cJ 2xjn-a1-m1-cG_2xjn-a1-m1-cI 2xjn-a1-m1-cH_2xjn-a1-m1-cK 2xjo-a1-m1-cA_2xjo-a1-m1-cH 2xjo-a1-m1-cA_2xjo-a1-m1-cK 2xjo-a1-m1-cB_2xjo-a1-m1-cF 2xjo-a1-m1-cB_2xjo-a1-m1-cJ 2xjo-a1-m1-cC_2xjo-a1-m1-cE 2xjo-a1-m1-cC_2xjo-a1-m1-cL 2xjo-a1-m1-cE_2xjo-a1-m1-cL 2xjo-a1-m1-cF_2xjo-a1-m1-cJ 2xjo-a1-m1-cG_2xjo-a1-m1-cD 2xjo-a1-m1-cG_2xjo-a1-m1-cI 2xjo-a1-m1-cH_2xjo-a1-m1-cK 2xjo-a1-m1-cI_2xjo-a1-m1-cD 2xkq-a1-m1-cA_2xkq-a1-m1-cH 2xkq-a1-m1-cA_2xkq-a1-m1-cK 2xkq-a1-m1-cB_2xkq-a1-m1-cF 2xkq-a1-m1-cB_2xkq-a1-m1-cJ 2xkq-a1-m1-cC_2xkq-a1-m1-cE 2xkq-a1-m1-cC_2xkq-a1-m1-cL 2xkq-a1-m1-cE_2xkq-a1-m1-cL 2xkq-a1-m1-cF_2xkq-a1-m1-cJ 2xkq-a1-m1-cG_2xkq-a1-m1-cD 2xkq-a1-m1-cH_2xkq-a1-m1-cK 2xkq-a1-m1-cI_2xkq-a1-m1-cD 2xkq-a1-m1-cI_2xkq-a1-m1-cG ADSKAVLNQAVADLSVAHSILHQVHWYMRGRGFMIWHPKMDEYMEEIDGYLDEMSERLITLGGAPFSTLKEFSENSQLKEVLGDYNVTIEEQLARVVEVFRYLAALFQKGFDVSDEEGDSVTNDIFNVAKASIEKHIWMLQAELGQAPKL ADSKAVLNQAVADLSVAHSILHQVHWYMRGRGFMIWHPKMDEYMEEIDGYLDEMSERLITLGGAPFSTLKEFSENSQLKEVLGDYNVTIEEQLARVVEVFRYLAALFQKGFDVSDEEGDSVTNDIFNVAKASIEKHIWMLQAELGQAPKL 2xjn-a1-m1-cC_2xjn-a1-m1-cA Crystal structure of Streptococcus suis Dpr with copper P0CB53 P0CB53 2.1 X-RAY DIFFRACTION 61 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 149 150 1umn-a1-m1-cA_1umn-a1-m1-cC 1umn-a1-m1-cB_1umn-a1-m1-cD 1umn-a1-m1-cE_1umn-a1-m1-cG 1umn-a1-m1-cF_1umn-a1-m1-cH 1umn-a1-m1-cK_1umn-a1-m1-cI 1umn-a1-m1-cL_1umn-a1-m1-cJ 2bw1-a1-m1-cA_2bw1-a1-m1-cC 2bw1-a1-m1-cB_2bw1-a1-m1-cD 2bw1-a1-m1-cE_2bw1-a1-m1-cG 2bw1-a1-m1-cF_2bw1-a1-m1-cH 2bw1-a1-m1-cI_2bw1-a1-m1-cK 2bw1-a1-m1-cJ_2bw1-a1-m1-cL 2cf7-a1-m1-cB_2cf7-a1-m1-cD 2cf7-a1-m1-cC_2cf7-a1-m1-cA 2cf7-a1-m1-cE_2cf7-a1-m1-cG 2cf7-a1-m1-cF_2cf7-a1-m1-cH 2cf7-a1-m1-cJ_2cf7-a1-m1-cL 2cf7-a1-m1-cK_2cf7-a1-m1-cI 2ux1-a1-m1-cA_2ux1-a1-m1-cC 2ux1-a1-m1-cB_2ux1-a1-m1-cD 2ux1-a1-m1-cE_2ux1-a1-m1-cG 2ux1-a1-m1-cF_2ux1-a1-m1-cH 2ux1-a1-m1-cJ_2ux1-a1-m1-cL 2ux1-a1-m1-cK_2ux1-a1-m1-cI 2v15-a1-m1-cA_2v15-a1-m1-cC 2v15-a1-m1-cB_2v15-a1-m1-cD 2v15-a1-m1-cE_2v15-a1-m1-cG 2v15-a1-m1-cF_2v15-a1-m1-cH 2v15-a1-m1-cJ_2v15-a1-m1-cL 2v15-a1-m1-cK_2v15-a1-m1-cI 2xjm-a1-m1-cA_2xjm-a1-m1-cC 2xjm-a1-m1-cB_2xjm-a1-m1-cD 2xjm-a1-m1-cE_2xjm-a1-m1-cG 2xjm-a1-m1-cF_2xjm-a1-m1-cH 2xjm-a1-m1-cI_2xjm-a1-m1-cK 2xjm-a1-m1-cJ_2xjm-a1-m1-cL 2xjn-a1-m1-cB_2xjn-a1-m1-cD 2xjn-a1-m1-cE_2xjn-a1-m1-cG 2xjn-a1-m1-cF_2xjn-a1-m1-cH 2xjn-a1-m1-cI_2xjn-a1-m1-cK 2xjn-a1-m1-cJ_2xjn-a1-m1-cL 2xjo-a1-m1-cA_2xjo-a1-m1-cC 2xjo-a1-m1-cB_2xjo-a1-m1-cD 2xjo-a1-m1-cF_2xjo-a1-m1-cH 2xjo-a1-m1-cG_2xjo-a1-m1-cE 2xjo-a1-m1-cI_2xjo-a1-m1-cK 2xjo-a1-m1-cJ_2xjo-a1-m1-cL 2xkq-a1-m1-cB_2xkq-a1-m1-cD 2xkq-a1-m1-cC_2xkq-a1-m1-cA 2xkq-a1-m1-cE_2xkq-a1-m1-cG 2xkq-a1-m1-cF_2xkq-a1-m1-cH 2xkq-a1-m1-cI_2xkq-a1-m1-cK 2xkq-a1-m1-cL_2xkq-a1-m1-cJ DSKAVLNQAVADLSVAHSILHQVHWYMRGRGFMIWHPKMDEYMEEIDGYLDEMSERLITLGGAPFSTLKEFSENSQLKEVLGDYNVTIEEQLARVVEVFRYLAALFQKGFDVSDEEGDSVTNDIFNVAKASIEKHIWMLQAELGQAPKL ADSKAVLNQAVADLSVAHSILHQVHWYMRGRGFMIWHPKMDEYMEEIDGYLDEMSERLITLGGAPFSTLKEFSENSQLKEVLGDYNVTIEEQLARVVEVFRYLAALFQKGFDVSDEEGDSVTNDIFNVAKASIEKHIWMLQAELGQAPKL 2xkj-a1-m1-cE_2xkj-a1-m2-cE CRYSTAL STRUCTURE OF CATALYTIC CORE OF A. BAUMANNII TOPO IV (PARE- PARC FUSION TRUNCATE) B0VP98 B0VP98 2.2 X-RAY DIFFRACTION 291 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 721 721 2xkk-a1-m1-cA_2xkk-a1-m1-cC ERKKIVSGPALPGKLADCVGTREESELFIVEGDSAGGSAKQARDKNFQAIMPIRGKILNTWEVSSDEVLASQEVHDIAIAIGVDPGSDDLSELRYGKICILADADSDGLHIATLLCALFVKHFPALVEEGHLYVAMPPLFRIDIGKDVHYALDDEELETILKNVKGNKNPQITRFKGLGEMNAIQLRETTMDPNTRRLVQLDLDDAHLTAGLLDKLLAKKRAADRKQWLEQKGNLADENRSVAEFTEQAYLNYAMYVIMDRALPHISDGLKPVQRRIVYAMSELGLKSSGKPKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLIEGQGNWGSPDDPKSFAAMRYTEAKLSAYSELLLSELGQGTSEWQDNFDGSLKEPITLPARVPNILLNGTTGIAVGMATDIPPHNLREVVKGTIALIRNPQTSDEKLAEYIPAPDLPTKAEIITPPEELLKIQTTGRGSYRMRAVYTIEKNEIVITELPYQVSGSKVITQIADQMQAKKLPLVVDVRDESDHENPTRLVIVLRSNRIDAEAVMSHLFATTDLESSYRVNLNMIGEDGRPQVKSIRRILLEWIEIRKKTVTRRLQYHLNRIEKRLHILAGLLIAYLDIDTVIRIIREEDQPKPVLMEHFNIDEIQAEAILELKLRHLAKLEEMEIRHEQDELSAKAAIIREQLENPESLKNLIISELKEDAKKFGDERRSPIVARAEAVQI ERKKIVSGPALPGKLADCVGTREESELFIVEGDSAGGSAKQARDKNFQAIMPIRGKILNTWEVSSDEVLASQEVHDIAIAIGVDPGSDDLSELRYGKICILADADSDGLHIATLLCALFVKHFPALVEEGHLYVAMPPLFRIDIGKDVHYALDDEELETILKNVKGNKNPQITRFKGLGEMNAIQLRETTMDPNTRRLVQLDLDDAHLTAGLLDKLLAKKRAADRKQWLEQKGNLADENRSVAEFTEQAYLNYAMYVIMDRALPHISDGLKPVQRRIVYAMSELGLKSSGKPKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLIEGQGNWGSPDDPKSFAAMRYTEAKLSAYSELLLSELGQGTSEWQDNFDGSLKEPITLPARVPNILLNGTTGIAVGMATDIPPHNLREVVKGTIALIRNPQTSDEKLAEYIPAPDLPTKAEIITPPEELLKIQTTGRGSYRMRAVYTIEKNEIVITELPYQVSGSKVITQIADQMQAKKLPLVVDVRDESDHENPTRLVIVLRSNRIDAEAVMSHLFATTDLESSYRVNLNMIGEDGRPQVKSIRRILLEWIEIRKKTVTRRLQYHLNRIEKRLHILAGLLIAYLDIDTVIRIIREEDQPKPVLMEHFNIDEIQAEAILELKLRHLAKLEEMEIRHEQDELSAKAAIIREQLENPESLKNLIISELKEDAKKFGDERRSPIVARAEAVQI 2xkl-a1-m1-cA_2xkl-a1-m2-cA Crystal Structure of Mouse Apolipoprotein M Q9Z1R3 Q9Z1R3 2.5 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 149 149 PEHSQLTALGMDDTETPEPHLGLWYFIAGAASTTEELATFDPVDNIVFNMAAGSAPRQLQLRATIRTKSGVCVPRKWTYRLTEDLFSSSCPGGIMLKETGQGYQRFLLYNRSPHPPEKCVEEFQSLTSCLDFKAFLVTPRNQEACPLSS PEHSQLTALGMDDTETPEPHLGLWYFIAGAASTTEELATFDPVDNIVFNMAAGSAPRQLQLRATIRTKSGVCVPRKWTYRLTEDLFSSSCPGGIMLKETGQGYQRFLLYNRSPHPPEKCVEEFQSLTSCLDFKAFLVTPRNQEACPLSS 2xkp-a2-m1-cD_2xkp-a2-m1-cE NtcA from Synechococcus elongatus: active and inactive P29283 P29283 3.05 X-RAY DIFFRACTION 116 0.986 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 207 211 2xgx-a1-m1-cA_2xgx-a1-m1-cB 2xhk-a1-m1-cA_2xhk-a1-m1-cB 2xko-a1-m1-cA_2xko-a1-m1-cB 2xkp-a1-m1-cA_2xkp-a1-m1-cB ENSLLTMFREIEQFERGKTIFFPGDPAERVYLLVKGAVKLSRVYESGEEITVALLRENSVFGVLSLLTRSDRFYHAVAFTPVQLFSVPIEFMQKALIERPELANVMLQGLSSRILQTEMMIETLAHRDMGSRLVSFLLILCRDFGIPSPDGITIDLKLSHQAIAEAIGSTRVTVTRLLGDLRESKLIAIHKKRITVFNPVALSQQFS NSLLTMFRELKLPLQIEQFERGKTIFFPGDPAERVYLLVKGAVKLSRVYESGEEITVALLRENSVFGVLSLLTGRSDRFYHAVAFTPVQLFSVPIEFMQKALIERPELANVMLQGLSSRILQTEMMIETLAHRDMGSRLVSFLLILCRDFGIPSPDGITIDLKLSHQAIAEAIGSTRVTVTRLLGDLRESKLIAIHKKRITVFNPVALSQQ 2xkp-a3-m1-cC_2xkp-a3-m1-cF NtcA from Synechococcus elongatus: active and inactive P29283 P29283 3.05 X-RAY DIFFRACTION 75 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 196 196 PLQIEQFERGKTIFFPGDPAERVYLLVKGAVKLSRVYESGEEITVALLRENSVFGVLSLLRSDRFYHAVAFTPVQLFSVPIEFMQKALIERPELANVMLQGLSSRILQTEMMIETLAHRDMGSRLVSFLLILCRDFGIPSPDGITIDLKLSHQAIAEAIGSTRVTVTRLLGDLRESKLIAIHKKRITVFNPVALSQ PLQIEQFERGKTIFFPGDPAERVYLLVKGAVKLSRVYESGEEITVALLRENSVFGVLSLLRSDRFYHAVAFTPVQLFSVPIEFMQKALIERPELANVMLQGLSSRILQTEMMIETLAHRDMGSRLVSFLLILCRDFGIPSPDGITIDLKLSHQAIAEAIGSTRVTVTRLLGDLRESKLIAIHKKRITVFNPVALSQ 2xkx-a1-m1-cB_2xkx-a1-m1-cA Single particle analysis of PSD-95 in negative stain P31016 P31016 22.9 ELECTRON MICROSCOPY, SOLUTION SCATTERING 4861 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 718 721 MDCLCIVTAKKYRYQDEDTPPLKHSPAHLPNQANSPPVIVNTDTLEAPGYVNGTEGEMEYEEITLERGNSGLGFSIAGGTDNPHIGDDPSIFITKIIPGGAAAQDGRLRVNDSILFVNEVDVREVTHSAAVEALKEAGSIVRLYVMRRKPPAEKVMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGRLQIGDKILAVNSVGLEDVMHEDAVAALKNTYDVVYLKVAKPSNAYLSDSYAPPDITTSYSQHLDNEISHSSYLGTDYPTAMTPTSPRRYSPVAKDLLGEEDIPREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEAKIHDLREQLMNSSLGSGTASLRSNPKRGFYIRALFDYDKTKDCGFLSQALSFRFGDVLHVIDAGDEEWWQARRVHSDSETDDIGFIPSKRRVERREWSRLKWGSSSGSQGREDSVLSYETVTQMEVHYARPIIILGPTKDRANDDLLSEFPDKFGSCVPHTTRPKREYEIDGRDYHFVSSREKMEKDIRAHKFIEAGQYNSHLYGTSVQSVREVAEQGKHCILDVSANAVRRLQAAHLHPIAIFIRPRSLENVLEINKRITEEQARKAFDRATKLEQEFTECFSAIVEGDSFEEIYHKVKRVIEDLSGPYIWVPARERL MDCLCIVTAKKYRYQDEDTPPLKHSPAHLPNQANSPPVIVNTDTLEAPGYVNGTEGEMEYEEITLERGNSGLGFSIAGGTDNPHIGDDPSIFITKIIPGGAAAQDGRLRVNDSILFVNEVDVREVTHSAAVEALKEAGSIVRLYVMRRKPPAEKVMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGRLQIGDKILAVNSVGLEDVMHEDAVAALKNTYDVVYLKVAKPSNAYLSDSYAPPDITTSYSQHLDNEISHSSYLGTDYPTAMTPTSPRRYSPVAKDLLGEEDIPREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEAKIHDLREQLMNSSLGSGTASLRSNPKRGFYIRALFDYDKTKDCGFLSQALSFRFGDVLHVIDAGDEEWWQARRVHSDSETDDIGFIPSKRRVERREWSRLKAKDWGSSSGSQGREDSVLSYETVTQMEVHYARPIIILGPTKDRANDDLLSEFPDKFGSCVPHTTRPKREYEIDGRDYHFVSSREKMEKDIRAHKFIEAGQYNSHLYGTSVQSVREVAEQGKHCILDVSANAVRRLQAAHLHPIAIFIRPRSLENVLEINKRITEEQARKAFDRATKLEQEFTECFSAIVEGDSFEEIYHKVKRVIEDLSGPYIWVPARERL 2xky-a1-m1-cJ_2xky-a1-m1-cL Single particle analysis of Kir2.1NC_4 in negative stain P35561 P35561 17.2 ELECTRON MICROSCOPY, SOLUTION SCATTERING 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 309 309 2xky-a1-m1-cI_2xky-a1-m1-cK 2xky-a1-m1-cI_2xky-a1-m1-cL 2xky-a1-m1-cJ_2xky-a1-m1-cK MGSVRTNRYSIVSSEEDGMKLATMAVANGFGNGKSKVHTRQQCRSRFVKKDGHCNVQFINVGEKGQRGGRNETLVFSHNAVIAMRDGKLCLMWRVGNLRKSHLVEAHVRAQLLKSRITSEGEYIPLDQIDINVGFDSGIDRIFLVSPITIVHEIDEDSPLYDLSKQDIDNADFEIVVILEGMVEATAMTTQCRSSYLANEILWGHRYEPVLFEEKHYYKVDYSRFHKTYEVPNTPLCSARDLAEKKYILSNANSFCYENEVALTSKEEEEDSENGVPESTSTDSPPGIDLHNQASVPLEPRPLRRESEI MGSVRTNRYSIVSSEEDGMKLATMAVANGFGNGKSKVHTRQQCRSRFVKKDGHCNVQFINVGEKGQRGGRNETLVFSHNAVIAMRDGKLCLMWRVGNLRKSHLVEAHVRAQLLKSRITSEGEYIPLDQIDINVGFDSGIDRIFLVSPITIVHEIDEDSPLYDLSKQDIDNADFEIVVILEGMVEATAMTTQCRSSYLANEILWGHRYEPVLFEEKHYYKVDYSRFHKTYEVPNTPLCSARDLAEKKYILSNANSFCYENEVALTSKEEEEDSENGVPESTSTDSPPGIDLHNQASVPLEPRPLRRESEI 2xlf-a1-m1-cA_2xlf-a1-m1-cB Structure and metal-loading of a soluble periplasm cupro-protein: apo- CucA-closed (SeMet) P73600 P73600 2.3 X-RAY DIFFRACTION 47 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 225 225 2xl7-a1-m1-cA_2xl7-a1-m2-cA 2xl9-a1-m1-cA_2xl9-a1-m1-cB 2xla-a1-m1-cA_2xla-a1-m1-cB 2xla-a2-m1-cD_2xla-a2-m1-cC 2xlf-a2-m1-cC_2xlf-a2-m1-cD 2xlg-a1-m1-cA_2xlg-a1-m2-cA HTFDDIPPKLADPLLIYTPANEIFDIASCSAKDIGFAIAHAQIPPGGGPPHIHYFINEWFWTPEGGIELFHSTKQYPNDELPVVGGAGRGDLYSIQSEPKQLIYSPNHYHGFVNPTDKTLPIVFVWRNEVAPDFPYHDGGREYFQAVGPRITDLNNLPELTNAQRAAFASEAPKYGINQSSYFEYVNTISDKLPAQIAKLKNDKDLERVEVIEAFNRGDKSVTCS HTFDDIPPKLADPLLIYTPANEIFDIASCSAKDIGFAIAHAQIPPGGGPPHIHYFINEWFWTPEGGIELFHSTKQYPNDELPVVGGAGRGDLYSIQSEPKQLIYSPNHYHGFVNPTDKTLPIVFVWRNEVAPDFPYHDGGREYFQAVGPRITDLNNLPELTNAQRAAFASEAPKYGINQSSYFEYVNTISDKLPAQIAKLKNDKDLERVEVIEAFNRGDKSVTCS 2xlq-a2-m1-cA_2xlq-a2-m4-cA Structural and Mechanistic Analysis of the Magnesium-Independent Aromatic Prenyltransferase CloQ from the Clorobiocin Biosynthetic Pathway Q8GHB2 Q8GHB2 2.22 X-RAY DIFFRACTION 29 1.0 149682 (Streptomyces roseochromogenus subsp. oscitans) 149682 (Streptomyces roseochromogenus subsp. oscitans) 316 316 2xlq-a2-m2-cA_2xlq-a2-m3-cA GSHMPALPIDQEFDCERFRADIRATAAAIGAPIAHRLTDTVLEAFRDNFAQGATLWKTTSQPGDQLSYRFFSRLKMDTVSRAIDAGLLDAAHPTLAVVDAWSSLYGGAPVQSGDFDAGRGMAKTWLYFGGLRPAEDILTVPALPASVQARLKDFLALGLAHVRFAAVDWRHHSANVYFRGKGPLDTVQFARIHALSGSTPPAAHVVEEVLAYMPEDYCVAITLDLHSGDIERVCFYALKVPKNALPRIPTRIARFLEVAPSHDVEECNVIGWSFGRSGDYVKAERSYTGNMAEILAGWNCFFHGEEGRDHDLRALH GSHMPALPIDQEFDCERFRADIRATAAAIGAPIAHRLTDTVLEAFRDNFAQGATLWKTTSQPGDQLSYRFFSRLKMDTVSRAIDAGLLDAAHPTLAVVDAWSSLYGGAPVQSGDFDAGRGMAKTWLYFGGLRPAEDILTVPALPASVQARLKDFLALGLAHVRFAAVDWRHHSANVYFRGKGPLDTVQFARIHALSGSTPPAAHVVEEVLAYMPEDYCVAITLDLHSGDIERVCFYALKVPKNALPRIPTRIARFLEVAPSHDVEECNVIGWSFGRSGDYVKAERSYTGNMAEILAGWNCFFHGEEGRDHDLRALH 2xlq-a2-m2-cA_2xlq-a2-m4-cA Structural and Mechanistic Analysis of the Magnesium-Independent Aromatic Prenyltransferase CloQ from the Clorobiocin Biosynthetic Pathway Q8GHB2 Q8GHB2 2.22 X-RAY DIFFRACTION 68 1.0 149682 (Streptomyces roseochromogenus subsp. oscitans) 149682 (Streptomyces roseochromogenus subsp. oscitans) 316 316 2xlq-a2-m1-cA_2xlq-a2-m3-cA GSHMPALPIDQEFDCERFRADIRATAAAIGAPIAHRLTDTVLEAFRDNFAQGATLWKTTSQPGDQLSYRFFSRLKMDTVSRAIDAGLLDAAHPTLAVVDAWSSLYGGAPVQSGDFDAGRGMAKTWLYFGGLRPAEDILTVPALPASVQARLKDFLALGLAHVRFAAVDWRHHSANVYFRGKGPLDTVQFARIHALSGSTPPAAHVVEEVLAYMPEDYCVAITLDLHSGDIERVCFYALKVPKNALPRIPTRIARFLEVAPSHDVEECNVIGWSFGRSGDYVKAERSYTGNMAEILAGWNCFFHGEEGRDHDLRALH GSHMPALPIDQEFDCERFRADIRATAAAIGAPIAHRLTDTVLEAFRDNFAQGATLWKTTSQPGDQLSYRFFSRLKMDTVSRAIDAGLLDAAHPTLAVVDAWSSLYGGAPVQSGDFDAGRGMAKTWLYFGGLRPAEDILTVPALPASVQARLKDFLALGLAHVRFAAVDWRHHSANVYFRGKGPLDTVQFARIHALSGSTPPAAHVVEEVLAYMPEDYCVAITLDLHSGDIERVCFYALKVPKNALPRIPTRIARFLEVAPSHDVEECNVIGWSFGRSGDYVKAERSYTGNMAEILAGWNCFFHGEEGRDHDLRALH 2xlq-a2-m3-cA_2xlq-a2-m4-cA Structural and Mechanistic Analysis of the Magnesium-Independent Aromatic Prenyltransferase CloQ from the Clorobiocin Biosynthetic Pathway Q8GHB2 Q8GHB2 2.22 X-RAY DIFFRACTION 61 1.0 149682 (Streptomyces roseochromogenus subsp. oscitans) 149682 (Streptomyces roseochromogenus subsp. oscitans) 316 316 2xlq-a2-m1-cA_2xlq-a2-m2-cA GSHMPALPIDQEFDCERFRADIRATAAAIGAPIAHRLTDTVLEAFRDNFAQGATLWKTTSQPGDQLSYRFFSRLKMDTVSRAIDAGLLDAAHPTLAVVDAWSSLYGGAPVQSGDFDAGRGMAKTWLYFGGLRPAEDILTVPALPASVQARLKDFLALGLAHVRFAAVDWRHHSANVYFRGKGPLDTVQFARIHALSGSTPPAAHVVEEVLAYMPEDYCVAITLDLHSGDIERVCFYALKVPKNALPRIPTRIARFLEVAPSHDVEECNVIGWSFGRSGDYVKAERSYTGNMAEILAGWNCFFHGEEGRDHDLRALH GSHMPALPIDQEFDCERFRADIRATAAAIGAPIAHRLTDTVLEAFRDNFAQGATLWKTTSQPGDQLSYRFFSRLKMDTVSRAIDAGLLDAAHPTLAVVDAWSSLYGGAPVQSGDFDAGRGMAKTWLYFGGLRPAEDILTVPALPASVQARLKDFLALGLAHVRFAAVDWRHHSANVYFRGKGPLDTVQFARIHALSGSTPPAAHVVEEVLAYMPEDYCVAITLDLHSGDIERVCFYALKVPKNALPRIPTRIARFLEVAPSHDVEECNVIGWSFGRSGDYVKAERSYTGNMAEILAGWNCFFHGEEGRDHDLRALH 2xlt-a2-m1-cA_2xlt-a2-m1-cD Joint-functions of protein residues and NADP(H) in oxygen-activation by flavin-containing monooxygenase: complex with 3-Acetylpyridine adenine dinucleotide phosphate (APADP) Q83XK4 Q83XK4 2.2 X-RAY DIFFRACTION 100 1.0 230105 (Methylophaga aminisulfidivorans) 230105 (Methylophaga aminisulfidivorans) 446 446 2vq7-a1-m1-cA_2vq7-a1-m1-cD 2vq7-a2-m1-cB_2vq7-a2-m1-cC 2vqb-a1-m1-cA_2vqb-a1-m1-cD 2vqb-a2-m1-cB_2vqb-a2-m1-cC 2xlp-a1-m1-cA_2xlp-a1-m1-cD 2xlp-a2-m1-cB_2xlp-a2-m1-cC 2xlr-a1-m1-cB_2xlr-a1-m1-cC 2xlr-a2-m1-cA_2xlr-a2-m1-cD 2xls-a1-m1-cA_2xls-a1-m1-cD 2xls-a2-m1-cB_2xls-a2-m1-cC 2xlt-a1-m1-cB_2xlt-a1-m1-cC 2xlu-a1-m1-cB_2xlu-a1-m1-cC 2xlu-a2-m1-cA_2xlu-a2-m1-cD 2xve-a1-m1-cA_2xve-a1-m1-cB 2xve-a2-m1-cC_2xve-a2-m2-cC 2xvf-a1-m1-cB_2xvf-a1-m1-cA 2xvf-a2-m1-cC_2xvf-a2-m2-cC 2xvh-a1-m1-cA_2xvh-a1-m1-cB 2xvh-a2-m1-cC_2xvh-a2-m2-cC 2xvi-a1-m1-cA_2xvi-a1-m1-cB 2xvi-a2-m1-cC_2xvi-a2-m2-cC 2xvj-a1-m1-cB_2xvj-a1-m1-cA 2xvj-a2-m1-cC_2xvj-a2-m2-cC ATRIAILGAGPSGMAQLRAFQSAQEKGAEIPELVCFEKQADWGGQWNYTWRTGLDENGEPVHSSMYRYLWSNGPKECLEFADYTFDEHFGKPIASYPPREVLWDYIKGRVEKAGVRKYIRFNTAVRHVEFNEDSQTFTVTVQDHTTDTIYSAAFDYVVCCTGHFSTPYVPEFEGFEKFGGRILHAHDFRDALEFKDKTVLLVGSSYSAEDIGSQCYKYGAKKLISCYRTAPMGYKWPENWDERPNLVRVDTENAYFADGSSEKVDAIILCTGYIHHFPFLNDDLRLVTNNRLWPLNLYKGVVWEDNPKFFYIGMQDQWYSFNMFDAQAWYARDVIMGRLPLPSKEEMKADSMAWREKELTLVTAEEMYTYQGDYIQNLIDMTDYPSFDIPATNKTFLEWKHHKKENIMTFRDHSYRSLMTGTMAPKHHTPWIDALDDSLEAYLSDK ATRIAILGAGPSGMAQLRAFQSAQEKGAEIPELVCFEKQADWGGQWNYTWRTGLDENGEPVHSSMYRYLWSNGPKECLEFADYTFDEHFGKPIASYPPREVLWDYIKGRVEKAGVRKYIRFNTAVRHVEFNEDSQTFTVTVQDHTTDTIYSAAFDYVVCCTGHFSTPYVPEFEGFEKFGGRILHAHDFRDALEFKDKTVLLVGSSYSAEDIGSQCYKYGAKKLISCYRTAPMGYKWPENWDERPNLVRVDTENAYFADGSSEKVDAIILCTGYIHHFPFLNDDLRLVTNNRLWPLNLYKGVVWEDNPKFFYIGMQDQWYSFNMFDAQAWYARDVIMGRLPLPSKEEMKADSMAWREKELTLVTAEEMYTYQGDYIQNLIDMTDYPSFDIPATNKTFLEWKHHKKENIMTFRDHSYRSLMTGTMAPKHHTPWIDALDDSLEAYLSDK 2xm8-a1-m1-cA_2xm8-a1-m2-cA Co-crystal structure of a small molecule inhibitor bound to the kinase domain of Chk2 O96017 O96017 3.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 265 VYPKALRDEYIMSKTLGEVKLAFERKTCKKVAIKINVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILTSLMRTLCGYLAPEVLVSVGTAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSEEN VYPKALRDEYIMSKTLGEVKLAFERKTCKKVAIKINVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILTSLMRTLCGYLAPEVLVSVGTAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSEEN 2xma-a1-m1-cA_2xma-a1-m1-cF DEINOCOCCUS RADIODURANS ISDRA2 TRANSPOSASE RIGHT END DNA COMPLEX Q7DF83 Q7DF83 2.3 X-RAY DIFFRACTION 69 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 139 139 2xma-a1-m1-cB_2xma-a1-m1-cE GSHMTYVILPLEMKKGRGYVYQLEYHLIWCVKYRHQVLVGEVADGLKDILRDIAAQNGLEVITMEVMPDHVHLLLSATPQQAIPDFVKALKGASARRMFVAYPQLKEKLWGGNLWNPSYCILTVSENTRAQIQKYIESQ GSHMTYVILPLEMKKGRGYVYQLEYHLIWCVKYRHQVLVGEVADGLKDILRDIAAQNGLEVITMEVMPDHVHLLLSATPQQAIPDFVKALKGASARRMFVAYPQLKEKLWGGNLWNPSYCILTVSENTRAQIQKYIESQ 2xma-a1-m1-cF_2xma-a1-m1-cE DEINOCOCCUS RADIODURANS ISDRA2 TRANSPOSASE RIGHT END DNA COMPLEX Q7DF83 Q7DF83 2.3 X-RAY DIFFRACTION 124 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 139 141 2xm3-a1-m1-cC_2xm3-a1-m1-cD 2xm3-a2-m1-cA_2xm3-a2-m1-cB 2xm3-a3-m1-cE_2xm3-a3-m1-cF 2xma-a1-m1-cB_2xma-a1-m1-cA 2xo6-a1-m1-cD_2xo6-a1-m1-cA 2xqc-a1-m1-cA_2xqc-a1-m1-cD GSHMTYVILPLEMKKGRGYVYQLEYHLIWCVKYRHQVLVGEVADGLKDILRDIAAQNGLEVITMEVMPDHVHLLLSATPQQAIPDFVKALKGASARRMFVAYPQLKEKLWGGNLWNPSYCILTVSENTRAQIQKYIESQ GSHMTYVILPLEMKKGRGYVYQLEYHLIWCVKYRHQVLVGEVADGLKDILRDIAAQNGLEVITMEVMPDHVHLLLSATPQQAIPDFVKALKGASARRMFVAYPQLKEKLWGGNLWNPSYCILTVSENTRAQIQKYIESQHD 2xme-a5-m1-cI_2xme-a5-m1-cJ The X-ray structure of CTP:inositol-1-phosphate cytidylyltransferase from Archaeoglobus fulgidus O29976 O29976 1.89 X-RAY DIFFRACTION 70 0.99 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 199 200 2xme-a1-m1-cB_2xme-a1-m1-cA 2xme-a2-m1-cC_2xme-a2-m1-cD 2xme-a3-m1-cE_2xme-a3-m1-cF 2xme-a4-m1-cH_2xme-a4-m1-cG 2xme-a6-m1-cK_2xme-a6-m1-cL 2xmh-a1-m1-cA_2xmh-a1-m1-cB 2xmh-a2-m1-cC_2xmh-a2-m1-cD 2xmh-a3-m1-cF_2xmh-a3-m1-cE LMKAVILAAGGVPKPLVRVGGCEIILRTMKLLSPHVSEFIIVASRYADDIDAFLKDKGFNYKIVRHDRPEKGNGYSLLVAKNHVEDRFILTMGDHVYSQQFIEKAVRGEGVIADREPRFVDIGEATKIRVEDGRVAKIGKDLREFDCVDTGFFVLDDSIFEHAEKLRDREEIPLSEIVKLARLPVTYVDGELWMDVDTK IKLMKAVILAAGLVPKPLVRVGGCEIILRTMKLLSPHVSEFIIVASRYADDIDAFLKDKGFNYKIVRHDRPEKGNGYSLLVAKNHVEDRFILTMGDHVYSQQFIEKAVRGEGVIADREPRFVDIGEATKIRVEDGRVAKIGKDLREFDCVDTGFFVLDDSIFEHAEKLRDREEIPLSEIVKLARLPVTYVDGELWMDVDT 2xms-a1-m1-cA_2xms-a1-m2-cA Crystal structure of human NDRG2 protein provides insight into its role as a tumor suppressor Q9UN36 Q9UN36 2.15 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 AKTHSVETPYGSVTFTVYGTPYPYRPAILTYHDVGLNYKSCFQPLFQFEDMQEIIQNFVRVHVDAPGMEEGAPVFPLGYQYPSLDQLADMIPCVLQYLNFSTIIGVGVGAGAYILARYALNHPDTVEGLVLINIDPNAKGWMDWAAHKLTGLTSSIPEMILGHLFSQEELSGNSELIQKYRNIITHAPNLDNIELYWNSYNNRRDLNFERGGDITLRCPVMLVVGDQAPHEDAVVECNSKLDPTQTSFLKMADSGGQPQLTQPGKLTEAFKYFLQGMGYMA AKTHSVETPYGSVTFTVYGTPYPYRPAILTYHDVGLNYKSCFQPLFQFEDMQEIIQNFVRVHVDAPGMEEGAPVFPLGYQYPSLDQLADMIPCVLQYLNFSTIIGVGVGAGAYILARYALNHPDTVEGLVLINIDPNAKGWMDWAAHKLTGLTSSIPEMILGHLFSQEELSGNSELIQKYRNIITHAPNLDNIELYWNSYNNRRDLNFERGGDITLRCPVMLVVGDQAPHEDAVVECNSKLDPTQTSFLKMADSGGQPQLTQPGKLTEAFKYFLQGMGYMA 2xmt-a1-m1-cA_2xmt-a1-m1-cB Copper chaperone Atx1 from Synechocystis PCC6803 (Cu1 form) P73213 P73213 1.5 X-RAY DIFFRACTION 39 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 63 63 2xmu-a1-m1-cA_2xmu-a1-m1-cB TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGHEVE TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGHEVE 2xmv-a1-m1-cA_2xmv-a1-m1-cF Copper chaperone Atx1 from Synechocystis PCC6803 (Cu1, trimeric form, His61Tyr mutant) P73213 P73213 1.8 X-RAY DIFFRACTION 22 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 63 63 2xmv-a1-m1-cB_2xmv-a1-m1-cE 2xmv-a1-m1-cC_2xmv-a1-m1-cD TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGYEVE TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGYEVE 2xmv-a1-m1-cE_2xmv-a1-m1-cF Copper chaperone Atx1 from Synechocystis PCC6803 (Cu1, trimeric form, His61Tyr mutant) P73213 P73213 1.8 X-RAY DIFFRACTION 21 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 63 63 2xmv-a1-m1-cA_2xmv-a1-m1-cB 2xmv-a1-m1-cA_2xmv-a1-m1-cC 2xmv-a1-m1-cB_2xmv-a1-m1-cC 2xmv-a1-m1-cD_2xmv-a1-m1-cE 2xmv-a1-m1-cD_2xmv-a1-m1-cF TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGYEVE TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGYEVE 2xn2-a1-m1-cA_2xn2-a1-m4-cA Structure of alpha-galactosidase from Lactobacillus acidophilus NCFM with galactose G1UB44 G1UB44 1.58 X-RAY DIFFRACTION 63 1.0 272621 (Lactobacillus acidophilus NCFM) 272621 (Lactobacillus acidophilus NCFM) 727 727 2xn0-a1-m1-cA_2xn0-a1-m2-cA 2xn0-a1-m1-cB_2xn0-a1-m2-cB 2xn1-a1-m1-cA_2xn1-a1-m1-cC 2xn1-a1-m1-cB_2xn1-a1-m1-cD 2xn2-a1-m2-cA_2xn2-a1-m3-cA NLIKFDDQNKVFHLHNKQISYLLSIEDGGTLSHLYFGGAVKNYNNQLKYPRLDRGFSGNLPESLDRTFSRDSLPKEYSSAGEMDFHTPATIVRNPDGSNALFLAYKSYKIEDGKPDLKGLPHSWTKEDDEAQTLIVTLEDKVSKLEYDLLYTIYRDRPVIVRSVQVHNHGEEAVYLEKVASMQMDYVDKDFEVITLPGAHANERRVQRENIGQGIKVFSSYRGTSSHQMNPFMALVDHDTNEFGEAYGFALAYSGNHKFEVERDQFGQIHVNTGINDYNFKWKLNPNEEFQTPEVLMVYSDQGLNKMSQAFHSLIHERIMRSKFKDQIRPVLVNNWEATYFDFNEDKLKTIVDKAKKLGLEMFVLDDGWFGHRDDDNSSLGDWKVYKKKFPNGLGHFADYVHEQGLKFGLWFEPEMISYESNLYKEHPDYLHVPGRKPCPSRNQYVLELGRKEVRDNIFEQMVKILDSKKIDYIKWDMNRSLSDIYESDLPADQQGEAYHRYVLGYYDLLNKLVTRYPDILFEGCSGGGGRFDVGQAYYTPQIWASDNTDAIERLKIQYGTSLVYPQSMMTSHVSVSPNEQNGRITPFNTRGAVAMWGDLGYELDLTKMSDEESDQVVKQVTEYKKIREVTQFGTLYRLKASASNQCAWMMVDSNKNEAVVTVVNVMAHAQPYCTKTKLAGLDPDKRYKNLETDEVFGGDELMHLGFYDPIERGDFKAKMYHFKAIN NLIKFDDQNKVFHLHNKQISYLLSIEDGGTLSHLYFGGAVKNYNNQLKYPRLDRGFSGNLPESLDRTFSRDSLPKEYSSAGEMDFHTPATIVRNPDGSNALFLAYKSYKIEDGKPDLKGLPHSWTKEDDEAQTLIVTLEDKVSKLEYDLLYTIYRDRPVIVRSVQVHNHGEEAVYLEKVASMQMDYVDKDFEVITLPGAHANERRVQRENIGQGIKVFSSYRGTSSHQMNPFMALVDHDTNEFGEAYGFALAYSGNHKFEVERDQFGQIHVNTGINDYNFKWKLNPNEEFQTPEVLMVYSDQGLNKMSQAFHSLIHERIMRSKFKDQIRPVLVNNWEATYFDFNEDKLKTIVDKAKKLGLEMFVLDDGWFGHRDDDNSSLGDWKVYKKKFPNGLGHFADYVHEQGLKFGLWFEPEMISYESNLYKEHPDYLHVPGRKPCPSRNQYVLELGRKEVRDNIFEQMVKILDSKKIDYIKWDMNRSLSDIYESDLPADQQGEAYHRYVLGYYDLLNKLVTRYPDILFEGCSGGGGRFDVGQAYYTPQIWASDNTDAIERLKIQYGTSLVYPQSMMTSHVSVSPNEQNGRITPFNTRGAVAMWGDLGYELDLTKMSDEESDQVVKQVTEYKKIREVTQFGTLYRLKASASNQCAWMMVDSNKNEAVVTVVNVMAHAQPYCTKTKLAGLDPDKRYKNLETDEVFGGDELMHLGFYDPIERGDFKAKMYHFKAIN 2xn2-a1-m2-cA_2xn2-a1-m4-cA Structure of alpha-galactosidase from Lactobacillus acidophilus NCFM with galactose G1UB44 G1UB44 1.58 X-RAY DIFFRACTION 223 1.0 272621 (Lactobacillus acidophilus NCFM) 272621 (Lactobacillus acidophilus NCFM) 727 727 2xn0-a1-m1-cA_2xn0-a1-m1-cB 2xn0-a1-m2-cA_2xn0-a1-m2-cB 2xn1-a1-m1-cA_2xn1-a1-m1-cB 2xn1-a1-m1-cC_2xn1-a1-m1-cD 2xn2-a1-m1-cA_2xn2-a1-m3-cA NLIKFDDQNKVFHLHNKQISYLLSIEDGGTLSHLYFGGAVKNYNNQLKYPRLDRGFSGNLPESLDRTFSRDSLPKEYSSAGEMDFHTPATIVRNPDGSNALFLAYKSYKIEDGKPDLKGLPHSWTKEDDEAQTLIVTLEDKVSKLEYDLLYTIYRDRPVIVRSVQVHNHGEEAVYLEKVASMQMDYVDKDFEVITLPGAHANERRVQRENIGQGIKVFSSYRGTSSHQMNPFMALVDHDTNEFGEAYGFALAYSGNHKFEVERDQFGQIHVNTGINDYNFKWKLNPNEEFQTPEVLMVYSDQGLNKMSQAFHSLIHERIMRSKFKDQIRPVLVNNWEATYFDFNEDKLKTIVDKAKKLGLEMFVLDDGWFGHRDDDNSSLGDWKVYKKKFPNGLGHFADYVHEQGLKFGLWFEPEMISYESNLYKEHPDYLHVPGRKPCPSRNQYVLELGRKEVRDNIFEQMVKILDSKKIDYIKWDMNRSLSDIYESDLPADQQGEAYHRYVLGYYDLLNKLVTRYPDILFEGCSGGGGRFDVGQAYYTPQIWASDNTDAIERLKIQYGTSLVYPQSMMTSHVSVSPNEQNGRITPFNTRGAVAMWGDLGYELDLTKMSDEESDQVVKQVTEYKKIREVTQFGTLYRLKASASNQCAWMMVDSNKNEAVVTVVNVMAHAQPYCTKTKLAGLDPDKRYKNLETDEVFGGDELMHLGFYDPIERGDFKAKMYHFKAIN NLIKFDDQNKVFHLHNKQISYLLSIEDGGTLSHLYFGGAVKNYNNQLKYPRLDRGFSGNLPESLDRTFSRDSLPKEYSSAGEMDFHTPATIVRNPDGSNALFLAYKSYKIEDGKPDLKGLPHSWTKEDDEAQTLIVTLEDKVSKLEYDLLYTIYRDRPVIVRSVQVHNHGEEAVYLEKVASMQMDYVDKDFEVITLPGAHANERRVQRENIGQGIKVFSSYRGTSSHQMNPFMALVDHDTNEFGEAYGFALAYSGNHKFEVERDQFGQIHVNTGINDYNFKWKLNPNEEFQTPEVLMVYSDQGLNKMSQAFHSLIHERIMRSKFKDQIRPVLVNNWEATYFDFNEDKLKTIVDKAKKLGLEMFVLDDGWFGHRDDDNSSLGDWKVYKKKFPNGLGHFADYVHEQGLKFGLWFEPEMISYESNLYKEHPDYLHVPGRKPCPSRNQYVLELGRKEVRDNIFEQMVKILDSKKIDYIKWDMNRSLSDIYESDLPADQQGEAYHRYVLGYYDLLNKLVTRYPDILFEGCSGGGGRFDVGQAYYTPQIWASDNTDAIERLKIQYGTSLVYPQSMMTSHVSVSPNEQNGRITPFNTRGAVAMWGDLGYELDLTKMSDEESDQVVKQVTEYKKIREVTQFGTLYRLKASASNQCAWMMVDSNKNEAVVTVVNVMAHAQPYCTKTKLAGLDPDKRYKNLETDEVFGGDELMHLGFYDPIERGDFKAKMYHFKAIN 2xn2-a1-m3-cA_2xn2-a1-m4-cA Structure of alpha-galactosidase from Lactobacillus acidophilus NCFM with galactose G1UB44 G1UB44 1.58 X-RAY DIFFRACTION 117 1.0 272621 (Lactobacillus acidophilus NCFM) 272621 (Lactobacillus acidophilus NCFM) 727 727 2xn0-a1-m1-cA_2xn0-a1-m2-cB 2xn0-a1-m1-cB_2xn0-a1-m2-cA 2xn1-a1-m1-cA_2xn1-a1-m1-cD 2xn1-a1-m1-cB_2xn1-a1-m1-cC 2xn2-a1-m1-cA_2xn2-a1-m2-cA NLIKFDDQNKVFHLHNKQISYLLSIEDGGTLSHLYFGGAVKNYNNQLKYPRLDRGFSGNLPESLDRTFSRDSLPKEYSSAGEMDFHTPATIVRNPDGSNALFLAYKSYKIEDGKPDLKGLPHSWTKEDDEAQTLIVTLEDKVSKLEYDLLYTIYRDRPVIVRSVQVHNHGEEAVYLEKVASMQMDYVDKDFEVITLPGAHANERRVQRENIGQGIKVFSSYRGTSSHQMNPFMALVDHDTNEFGEAYGFALAYSGNHKFEVERDQFGQIHVNTGINDYNFKWKLNPNEEFQTPEVLMVYSDQGLNKMSQAFHSLIHERIMRSKFKDQIRPVLVNNWEATYFDFNEDKLKTIVDKAKKLGLEMFVLDDGWFGHRDDDNSSLGDWKVYKKKFPNGLGHFADYVHEQGLKFGLWFEPEMISYESNLYKEHPDYLHVPGRKPCPSRNQYVLELGRKEVRDNIFEQMVKILDSKKIDYIKWDMNRSLSDIYESDLPADQQGEAYHRYVLGYYDLLNKLVTRYPDILFEGCSGGGGRFDVGQAYYTPQIWASDNTDAIERLKIQYGTSLVYPQSMMTSHVSVSPNEQNGRITPFNTRGAVAMWGDLGYELDLTKMSDEESDQVVKQVTEYKKIREVTQFGTLYRLKASASNQCAWMMVDSNKNEAVVTVVNVMAHAQPYCTKTKLAGLDPDKRYKNLETDEVFGGDELMHLGFYDPIERGDFKAKMYHFKAIN NLIKFDDQNKVFHLHNKQISYLLSIEDGGTLSHLYFGGAVKNYNNQLKYPRLDRGFSGNLPESLDRTFSRDSLPKEYSSAGEMDFHTPATIVRNPDGSNALFLAYKSYKIEDGKPDLKGLPHSWTKEDDEAQTLIVTLEDKVSKLEYDLLYTIYRDRPVIVRSVQVHNHGEEAVYLEKVASMQMDYVDKDFEVITLPGAHANERRVQRENIGQGIKVFSSYRGTSSHQMNPFMALVDHDTNEFGEAYGFALAYSGNHKFEVERDQFGQIHVNTGINDYNFKWKLNPNEEFQTPEVLMVYSDQGLNKMSQAFHSLIHERIMRSKFKDQIRPVLVNNWEATYFDFNEDKLKTIVDKAKKLGLEMFVLDDGWFGHRDDDNSSLGDWKVYKKKFPNGLGHFADYVHEQGLKFGLWFEPEMISYESNLYKEHPDYLHVPGRKPCPSRNQYVLELGRKEVRDNIFEQMVKILDSKKIDYIKWDMNRSLSDIYESDLPADQQGEAYHRYVLGYYDLLNKLVTRYPDILFEGCSGGGGRFDVGQAYYTPQIWASDNTDAIERLKIQYGTSLVYPQSMMTSHVSVSPNEQNGRITPFNTRGAVAMWGDLGYELDLTKMSDEESDQVVKQVTEYKKIREVTQFGTLYRLKASASNQCAWMMVDSNKNEAVVTVVNVMAHAQPYCTKTKLAGLDPDKRYKNLETDEVFGGDELMHLGFYDPIERGDFKAKMYHFKAIN 2xnx-a1-m1-cM_2xnx-a1-m1-cN BC1 fragment of streptococcal M1 protein in complex with human fibrinogen 3.3 X-RAY DIFFRACTION 137 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 107 107 RLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKELEAITREQEINRNLLGNAKLELDQLSSEKEQLTIEKAKLEEEKQIS RLEKELEEKKEALELAIDQASRDYHRATALEKELEEKKKALELAIDQASQDYNRANVLEKELEAITREQEINRNLLGNAKLELDQLSSEKEQLTIEKAKLEEEKQIS 2xol-a1-m1-cA_2xol-a1-m1-cB High resolution structure of TtrD from Archaeoglobus fulgidus O30077 O30077 1.35 X-RAY DIFFRACTION 63 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 168 172 GAMTIGRAKVYATLSKIFYHLFYDEAIPKDCREIIEKFGEIDFNLRSVLVRELRGSVLIKDMPQSLAEVYESVMKDFYERYGFQASELHADHIAVELAFMSKLVEREISLAQQMKEEELYKIRAAQHRFIKAHLQPLVKNLPSAPLLNFVRDFVREDAKYLYSSLVGE GAMTIGRAKVYATLSKIFYHLFYDEAIPKDCREIIEKFGEIDFNLRSVLVRELRGSVLIKDMPQSLAEVYESVMKDFYERYGFQASELHADHIAVELAFMSKLVEREISLAQQMKEEELYKIRAAQHRFIKAHLQPLVKNLPSAPLLNFVRDFVREDAKYLYSSLVGEKNEG 2xot-a1-m1-cA_2xot-a1-m1-cB Crystal structure of neuronal leucine rich repeat protein AMIGO-1 Q80ZD8 Q80ZD8 2 X-RAY DIFFRACTION 104 0.994 10090 (Mus musculus) 10090 (Mus musculus) 331 333 RSVVSCPANCLCASNILSCSKQQLPNVPQSLPSYTALLDLSHNNLSRLRAEWTPTRLTNLHSLLLSHNHLNFISSEAFVPVPNLRYLDLSSNHLHTLDEFLFSDLQALEVLLLYNNHIVVVDRNAFEDMAQLQKLYLSQNQISRFPVELIKLPKLMLLDLSSNKLKKLPLTDLQKLPAWVKNGLYLHNNPLECDCKLYQLFSHWQYRQLSSVMDFQEDLYCMHSKKLHNIFSLDFFNCSEYKESAWEAHLGDTLTIRCDTKQQGMTKVWVSPSNEQVLSQGSNGSVSVRNGDLFFKKVQVEDGGVYTCYAMGETFNETLSVELKVYNFTLH VVSCPANCLCASNILSCSKQQLPNVPQSLPSYTALLDLSHNNLSRLRAEWTPTRLTNLHSLLLSHNHLNFISSEAFVPVPNLRYLDLSSNHLHTLDEFLFSDLQALEVLLLYNNHIVVVDRNAFEDMAQLQKLYLSQNQISRFPVELIKDGNKLPKLMLLDLSSNKLKKLPLTDLQKLPAWVKNGLYLHNNPLECDCKLYQLFSHWQYRQLSSVMDFQEDLYCMHSKKLHNIFSLDFFNCSEYKESAWEAHLGDTLTIRCDTKQQGMTKVWVSPSNEQVLSQGSNGSVSVRNGDLFFKKVQVEDGGVYTCYAMGETFNETLSVELKVYNFTLH 2xox-a1-m1-cB_2xox-a1-m2-cB Crystal structure of pteridine reductase (PTR1) from Leishmania donovani Q6QDB5 Q6QDB5 2.5 X-RAY DIFFRACTION 102 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 216 216 2xox-a1-m1-cA_2xox-a1-m2-cA TVPVALVTGAAKRLGSGIAEGLHAEGYAVCLHYHRSAAEANTLAATLNARRPNSAIPVQADLSNVAPVTLFKRCADLVAACYTHWGRCDVLVNNREAMEAAAADLFGSNAMAPYFLIKAFAHRVADTPAEQRGTNYSIVNMVDAMTSQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSAAEVSDVVIFLCSSKAKYVTGTCVKVD TVPVALVTGAAKRLGSGIAEGLHAEGYAVCLHYHRSAAEANTLAATLNARRPNSAIPVQADLSNVAPVTLFKRCADLVAACYTHWGRCDVLVNNREAMEAAAADLFGSNAMAPYFLIKAFAHRVADTPAEQRGTNYSIVNMVDAMTSQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSAAEVSDVVIFLCSSKAKYVTGTCVKVD 2xox-a1-m2-cA_2xox-a1-m2-cB Crystal structure of pteridine reductase (PTR1) from Leishmania donovani Q6QDB5 Q6QDB5 2.5 X-RAY DIFFRACTION 53 0.991 5661 (Leishmania donovani) 5661 (Leishmania donovani) 216 216 2xox-a1-m1-cA_2xox-a1-m1-cB TVPVALVTGAAKRLGSGIAEGLHAEGYAVCLHYHRSAAEANTLAATLNARRPNSAIPVQADLSNVAPVTLFKRCADLVAACYTHWGRCDVLVNNASREAMEAAAADLFGSNAMAPYFLIKAFAHRVADTPAEQRGTNYSIVNMVDAMTSQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLAEVSDVVIFLCSSKAKYVTGTCVKVD TVPVALVTGAAKRLGSGIAEGLHAEGYAVCLHYHRSAAEANTLAATLNARRPNSAIPVQADLSNVAPVTLFKRCADLVAACYTHWGRCDVLVNNREAMEAAAADLFGSNAMAPYFLIKAFAHRVADTPAEQRGTNYSIVNMVDAMTSQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSAAEVSDVVIFLCSSKAKYVTGTCVKVD 2xp1-a1-m1-cA_2xp1-a1-m2-cA Structure of the tandem SH2 domains from Antonospora locustae transcription elongation factor Spt6 E2QR95 E2QR95 2.2 X-RAY DIFFRACTION 42 1.0 278021 (Antonospora locustae) 278021 (Antonospora locustae) 175 175 SHMKYTNPRFYKHPLFKNFNVTESENYLRSSTDDFLIRKGSRHGYCVLVIKFASDVFVHMKIEEHSEHYTCSNKHFEDIDEVISVYVRPILRNLKSIKAHAKYFNSPEDAEKLLSSFDGSKVVYAFYFSRKYPGKLTFAYNNGSILEEYIGVSDMLTYNNSTFKDIDSFVAYRKR SHMKYTNPRFYKHPLFKNFNVTESENYLRSSTDDFLIRKGSRHGYCVLVIKFASDVFVHMKIEEHSEHYTCSNKHFEDIDEVISVYVRPILRNLKSIKAHAKYFNSPEDAEKLLSSFDGSKVVYAFYFSRKYPGKLTFAYNNGSILEEYIGVSDMLTYNNSTFKDIDSFVAYRKR 2xpd-a3-m1-cD_2xpd-a3-m1-cC Reduced Thiol peroxidase (Tpx) from yersinia Pseudotuberculosis A0A0H3B2F9 A0A0H3B2F9 2 X-RAY DIFFRACTION 51 1.0 502800 (Yersinia pseudotuberculosis YPIII) 502800 (Yersinia pseudotuberculosis YPIII) 167 170 2xpd-a1-m1-cA_2xpd-a1-m1-cB 2xpd-a2-m1-cF_2xpd-a2-m1-cE 2xpe-a1-m1-cA_2xpe-a1-m1-cB 2yjh-a1-m1-cA_2yjh-a1-m2-cA 3zrd-a1-m1-cB_3zrd-a1-m1-cA 3zre-a1-m1-cA_3zre-a1-m2-cA MTQTVHFQGNPVSVAGKLPQIGDKAKDFTLVAKDLSDVALSSFAGKRKVLNIFPSIDTGVCAASVRKFNQLAGELENTVVLCISSDLPFAQSRFCGAEGLSNVITLSTLRGADFKQAYGVAITEGPLAGLTARAVVVLDGQDNVIYSELVNEITTEPNYDAALAALK PFTMTQTVHFQGNPVSVAGKLPQIGDKAKDFTLVAKDLSDVALSSFAGKRKVLNIFPSIDTGVCAASVRKFNQLAGELENTVVLCISSDLPFAQSRFCGAEGLSNVITLSTLRGADFKQAYGVAITEGPLAGLTARAVVVLDGQDNVIYSELVNEITTEPNYDAALAALK 2xpi-a1-m1-cD_2xpi-a1-m1-cA Crystal structure of APC/C hetero-tetramer Cut9-Hcn1 P41889 P41889 2.6 X-RAY DIFFRACTION 178 0.998 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 518 520 NSQLSTLTISPMTYLALSREDYLRLWRHDALMQQQYKCAAFVGEKVLDITGNPNDAFWLAQVYCCTGDYARAKCLLTKEDLYNRSSACRYLAAFCLVKLYDWQGALNLLGETNPFRQDGGIKLEASMCYLRGQVYTNLSNFDRAKECYKEALMVDAKCYEAFDQLVSNHLLTADEEWDLVLKLNYSTYSKEDAAFLRSLYMLKLNKTSHEDELRRAEDYLSSINGLEKSSDLLLCKADTLFVRSRFIDVLAITTKILEIDPYNLDVYPLHLASLHESGEKNKLYLISNDLVDRHPEKAVTWLAVGIYYLCVNKISEARRYFSKSSTMDPQFGPAWIGFAHSFAIEGEHDQAISAYTTAARLFTHLPYLFLGMQHMQLGNILLANEYLQSSYALFQYDPLLLNELGVVAFNKSDMQTAINHFQNALLLVKKTQSNEKPWAATWANLGHAYRKLKMYDAAIDALNQGLLLSTNDANVHTAIALVYLHKKIPGLAITHLHESLAISPNEIMASDLLKRALE NSQLSTLTISPMTYLASREDYLRLWRHDALMQQQYKCAAFVGEKVLDITGNPNDAFWLAQVYCCTGDYARAKCLLTKEDLYNRSSACRYLAAFCLVKLYDWQGALNLLGETNPFRMQDGGIKLEASMCYLRGQVYTNLSNFDRAKECYKEALMVDAKCYEAFDQLVSNHLLTADEEWDLVLKLNYSTYSKEDAAFLRSLYMLKLNKTSHEDELRRAEDYLSSINGLEKSSDLLLCKADTLFVRSRFIDVLAITTKILEIDPYNLDVYPLHLASLHESGEKNKLYLISNDLVDRHPEKAVTWLAVGIYYLCVNKISEARRYFSKSSTMDPQFGPAWIGFAHSFAIEGEHDQAISAYTTAARLFQGTHLPYLFLGMQHMQLGNILLANEYLQSSYALFQYDPLLLNELGVVAFNKSDMQTAINHFQNALLLVKKTQSNEKPWAATWANLGHAYRKLKMYDAAIDALNQGLLLSTNDANVHTAIALVYLHKKIPGLAITHLHESLAISPNEIMASDLLKRALE 2xpj-a1-m8-cB_2xpj-a1-m9-cC Crystal structure of Physalis Mottle Virus with intact ordered RNA P36351 P36351 3.4 X-RAY DIFFRACTION 76 1.0 72539 (Physalis mottle virus) 72539 (Physalis mottle virus) 180 185 1e57-a1-m10-cA_1e57-a1-m6-cA 1e57-a1-m10-cA_1e57-a1-m9-cA 1e57-a1-m10-cC_1e57-a1-m24-cB 1e57-a1-m10-cC_1e57-a1-m9-cB 1e57-a1-m11-cA_1e57-a1-m12-cA 1e57-a1-m11-cA_1e57-a1-m15-cA 1e57-a1-m11-cC_1e57-a1-m15-cB 1e57-a1-m11-cC_1e57-a1-m16-cB 1e57-a1-m12-cA_1e57-a1-m13-cA 1e57-a1-m12-cC_1e57-a1-m11-cB 1e57-a1-m12-cC_1e57-a1-m38-cB 1e57-a1-m13-cA_1e57-a1-m14-cA 1e57-a1-m13-cC_1e57-a1-m12-cB 1e57-a1-m13-cC_1e57-a1-m47-cB 1e57-a1-m14-cA_1e57-a1-m15-cA 1e57-a1-m14-cC_1e57-a1-m13-cB 1e57-a1-m14-cC_1e57-a1-m45-cB 1e57-a1-m15-cC_1e57-a1-m14-cB 1e57-a1-m15-cC_1e57-a1-m29-cB 1e57-a1-m16-cA_1e57-a1-m17-cA 1e57-a1-m16-cA_1e57-a1-m20-cA 1e57-a1-m16-cC_1e57-a1-m11-cB 1e57-a1-m16-cC_1e57-a1-m20-cB 1e57-a1-m17-cA_1e57-a1-m18-cA 1e57-a1-m17-cC_1e57-a1-m16-cB 1e57-a1-m17-cC_1e57-a1-m28-cB 1e57-a1-m18-cA_1e57-a1-m19-cA 1e57-a1-m18-cC_1e57-a1-m17-cB 1e57-a1-m18-cC_1e57-a1-m52-cB 1e57-a1-m19-cA_1e57-a1-m20-cA 1e57-a1-m19-cC_1e57-a1-m18-cB 1e57-a1-m19-cC_1e57-a1-m60-cB 1e57-a1-m1-cA_1e57-a1-m2-cA 1e57-a1-m1-cA_1e57-a1-m5-cA 1e57-a1-m1-cC_1e57-a1-m5-cB 1e57-a1-m1-cC_1e57-a1-m6-cB 1e57-a1-m20-cC_1e57-a1-m19-cB 1e57-a1-m20-cC_1e57-a1-m39-cB 1e57-a1-m21-cA_1e57-a1-m22-cA 1e57-a1-m21-cA_1e57-a1-m25-cA 1e57-a1-m21-cC_1e57-a1-m25-cB 1e57-a1-m21-cC_1e57-a1-m26-cB 1e57-a1-m22-cA_1e57-a1-m23-cA 1e57-a1-m22-cC_1e57-a1-m21-cB 1e57-a1-m22-cC_1e57-a1-m43-cB 1e57-a1-m23-cA_1e57-a1-m24-cA 1e57-a1-m23-cC_1e57-a1-m22-cB 1e57-a1-m23-cC_1e57-a1-m2-cB 1e57-a1-m24-cA_1e57-a1-m25-cA 1e57-a1-m24-cC_1e57-a1-m10-cB 1e57-a1-m24-cC_1e57-a1-m23-cB 1e57-a1-m25-cC_1e57-a1-m24-cB 1e57-a1-m25-cC_1e57-a1-m54-cB 1e57-a1-m26-cA_1e57-a1-m27-cA 1e57-a1-m26-cA_1e57-a1-m30-cA 1e57-a1-m26-cC_1e57-a1-m21-cB 1e57-a1-m26-cC_1e57-a1-m30-cB 1e57-a1-m27-cA_1e57-a1-m28-cA 1e57-a1-m27-cC_1e57-a1-m26-cB 1e57-a1-m27-cC_1e57-a1-m53-cB 1e57-a1-m28-cA_1e57-a1-m29-cA 1e57-a1-m28-cC_1e57-a1-m17-cB 1e57-a1-m28-cC_1e57-a1-m27-cB 1e57-a1-m29-cA_1e57-a1-m30-cA 1e57-a1-m29-cC_1e57-a1-m15-cB 1e57-a1-m29-cC_1e57-a1-m28-cB 1e57-a1-m2-cA_1e57-a1-m3-cA 1e57-a1-m2-cC_1e57-a1-m1-cB 1e57-a1-m2-cC_1e57-a1-m23-cB 1e57-a1-m30-cC_1e57-a1-m29-cB 1e57-a1-m30-cC_1e57-a1-m44-cB 1e57-a1-m31-cA_1e57-a1-m32-cA 1e57-a1-m31-cA_1e57-a1-m35-cA 1e57-a1-m31-cC_1e57-a1-m35-cB 1e57-a1-m31-cC_1e57-a1-m36-cB 1e57-a1-m32-cA_1e57-a1-m33-cA 1e57-a1-m32-cC_1e57-a1-m31-cB 1e57-a1-m32-cC_1e57-a1-m58-cB 1e57-a1-m33-cA_1e57-a1-m34-cA 1e57-a1-m33-cC_1e57-a1-m32-cB 1e57-a1-m33-cC_1e57-a1-m7-cB 1e57-a1-m34-cA_1e57-a1-m35-cA 1e57-a1-m34-cC_1e57-a1-m33-cB 1e57-a1-m34-cC_1e57-a1-m5-cB 1e57-a1-m35-cC_1e57-a1-m34-cB 1e57-a1-m35-cC_1e57-a1-m49-cB 1e57-a1-m36-cA_1e57-a1-m37-cA 1e57-a1-m36-cA_1e57-a1-m40-cA 1e57-a1-m36-cC_1e57-a1-m31-cB 1e57-a1-m36-cC_1e57-a1-m40-cB 1e57-a1-m37-cA_1e57-a1-m38-cA 1e57-a1-m37-cC_1e57-a1-m36-cB 1e57-a1-m37-cC_1e57-a1-m48-cB 1e57-a1-m38-cA_1e57-a1-m39-cA 1e57-a1-m38-cC_1e57-a1-m12-cB 1e57-a1-m38-cC_1e57-a1-m37-cB 1e57-a1-m39-cA_1e57-a1-m40-cA 1e57-a1-m39-cC_1e57-a1-m20-cB 1e57-a1-m39-cC_1e57-a1-m38-cB 1e57-a1-m3-cA_1e57-a1-m4-cA 1e57-a1-m3-cC_1e57-a1-m2-cB 1e57-a1-m3-cC_1e57-a1-m42-cB 1e57-a1-m40-cC_1e57-a1-m39-cB 1e57-a1-m40-cC_1e57-a1-m59-cB 1e57-a1-m41-cA_1e57-a1-m42-cA 1e57-a1-m41-cA_1e57-a1-m45-cA 1e57-a1-m41-cC_1e57-a1-m45-cB 1e57-a1-m41-cC_1e57-a1-m46-cB 1e57-a1-m42-cA_1e57-a1-m43-cA 1e57-a1-m42-cC_1e57-a1-m3-cB 1e57-a1-m42-cC_1e57-a1-m41-cB 1e57-a1-m43-cA_1e57-a1-m44-cA 1e57-a1-m43-cC_1e57-a1-m22-cB 1e57-a1-m43-cC_1e57-a1-m42-cB 1e57-a1-m44-cA_1e57-a1-m45-cA 1e57-a1-m44-cC_1e57-a1-m30-cB 1e57-a1-m44-cC_1e57-a1-m43-cB 1e57-a1-m45-cC_1e57-a1-m14-cB 1e57-a1-m45-cC_1e57-a1-m44-cB 1e57-a1-m46-cA_1e57-a1-m47-cA 1e57-a1-m46-cA_1e57-a1-m50-cA 1e57-a1-m46-cC_1e57-a1-m41-cB 1e57-a1-m46-cC_1e57-a1-m50-cB 1e57-a1-m47-cA_1e57-a1-m48-cA 1e57-a1-m47-cC_1e57-a1-m13-cB 1e57-a1-m47-cC_1e57-a1-m46-cB 1e57-a1-m48-cA_1e57-a1-m49-cA 1e57-a1-m48-cC_1e57-a1-m37-cB 1e57-a1-m48-cC_1e57-a1-m47-cB 1e57-a1-m49-cA_1e57-a1-m50-cA 1e57-a1-m49-cC_1e57-a1-m35-cB 1e57-a1-m49-cC_1e57-a1-m48-cB 1e57-a1-m4-cA_1e57-a1-m5-cA 1e57-a1-m4-cC_1e57-a1-m3-cB 1e57-a1-m4-cC_1e57-a1-m50-cB 1e57-a1-m50-cC_1e57-a1-m49-cB 1e57-a1-m50-cC_1e57-a1-m4-cB 1e57-a1-m51-cA_1e57-a1-m52-cA 1e57-a1-m51-cA_1e57-a1-m55-cA 1e57-a1-m51-cC_1e57-a1-m55-cB 1e57-a1-m51-cC_1e57-a1-m56-cB 1e57-a1-m52-cA_1e57-a1-m53-cA 1e57-a1-m52-cC_1e57-a1-m18-cB 1e57-a1-m52-cC_1e57-a1-m51-cB 1e57-a1-m53-cA_1e57-a1-m54-cA 1e57-a1-m53-cC_1e57-a1-m27-cB 1e57-a1-m53-cC_1e57-a1-m52-cB 1e57-a1-m54-cA_1e57-a1-m55-cA 1e57-a1-m54-cC_1e57-a1-m25-cB 1e57-a1-m54-cC_1e57-a1-m53-cB 1e57-a1-m55-cC_1e57-a1-m54-cB 1e57-a1-m55-cC_1e57-a1-m9-cB 1e57-a1-m56-cA_1e57-a1-m57-cA 1e57-a1-m56-cA_1e57-a1-m60-cA 1e57-a1-m56-cC_1e57-a1-m51-cB 1e57-a1-m56-cC_1e57-a1-m60-cB 1e57-a1-m57-cA_1e57-a1-m58-cA 1e57-a1-m57-cC_1e57-a1-m56-cB 1e57-a1-m57-cC_1e57-a1-m8-cB 1e57-a1-m58-cA_1e57-a1-m59-cA 1e57-a1-m58-cC_1e57-a1-m32-cB 1e57-a1-m58-cC_1e57-a1-m57-cB 1e57-a1-m59-cA_1e57-a1-m60-cA 1e57-a1-m59-cC_1e57-a1-m40-cB 1e57-a1-m59-cC_1e57-a1-m58-cB 1e57-a1-m5-cC_1e57-a1-m34-cB 1e57-a1-m5-cC_1e57-a1-m4-cB 1e57-a1-m60-cC_1e57-a1-m19-cB 1e57-a1-m60-cC_1e57-a1-m59-cB 1e57-a1-m6-cA_1e57-a1-m7-cA 1e57-a1-m6-cC_1e57-a1-m10-cB 1e57-a1-m6-cC_1e57-a1-m1-cB 1e57-a1-m7-cA_1e57-a1-m8-cA 1e57-a1-m7-cC_1e57-a1-m33-cB 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2xpj-a1-m43-cB_2xpj-a1-m22-cC 2xpj-a1-m43-cB_2xpj-a1-m44-cC 2xpj-a1-m44-cA_2xpj-a1-m45-cA 2xpj-a1-m44-cB_2xpj-a1-m30-cC 2xpj-a1-m44-cB_2xpj-a1-m45-cC 2xpj-a1-m45-cB_2xpj-a1-m14-cC 2xpj-a1-m45-cB_2xpj-a1-m41-cC 2xpj-a1-m46-cA_2xpj-a1-m47-cA 2xpj-a1-m46-cA_2xpj-a1-m50-cA 2xpj-a1-m46-cB_2xpj-a1-m41-cC 2xpj-a1-m46-cB_2xpj-a1-m47-cC 2xpj-a1-m47-cA_2xpj-a1-m48-cA 2xpj-a1-m47-cB_2xpj-a1-m13-cC 2xpj-a1-m47-cB_2xpj-a1-m48-cC 2xpj-a1-m48-cA_2xpj-a1-m49-cA 2xpj-a1-m48-cB_2xpj-a1-m37-cC 2xpj-a1-m48-cB_2xpj-a1-m49-cC 2xpj-a1-m49-cA_2xpj-a1-m50-cA 2xpj-a1-m49-cB_2xpj-a1-m35-cC 2xpj-a1-m49-cB_2xpj-a1-m50-cC 2xpj-a1-m4-cA_2xpj-a1-m5-cA 2xpj-a1-m4-cB_2xpj-a1-m50-cC 2xpj-a1-m4-cB_2xpj-a1-m5-cC 2xpj-a1-m50-cB_2xpj-a1-m46-cC 2xpj-a1-m50-cB_2xpj-a1-m4-cC 2xpj-a1-m51-cA_2xpj-a1-m52-cA 2xpj-a1-m51-cA_2xpj-a1-m55-cA 2xpj-a1-m51-cB_2xpj-a1-m52-cC 2xpj-a1-m51-cB_2xpj-a1-m56-cC 2xpj-a1-m52-cA_2xpj-a1-m53-cA 2xpj-a1-m52-cB_2xpj-a1-m18-cC 2xpj-a1-m52-cB_2xpj-a1-m53-cC 2xpj-a1-m53-cA_2xpj-a1-m54-cA 2xpj-a1-m53-cB_2xpj-a1-m27-cC 2xpj-a1-m53-cB_2xpj-a1-m54-cC 2xpj-a1-m54-cA_2xpj-a1-m55-cA 2xpj-a1-m54-cB_2xpj-a1-m25-cC 2xpj-a1-m54-cB_2xpj-a1-m55-cC 2xpj-a1-m55-cB_2xpj-a1-m51-cC 2xpj-a1-m55-cB_2xpj-a1-m9-cC 2xpj-a1-m56-cA_2xpj-a1-m57-cA 2xpj-a1-m56-cA_2xpj-a1-m60-cA 2xpj-a1-m56-cB_2xpj-a1-m51-cC 2xpj-a1-m56-cB_2xpj-a1-m57-cC 2xpj-a1-m57-cA_2xpj-a1-m58-cA 2xpj-a1-m57-cB_2xpj-a1-m58-cC 2xpj-a1-m57-cB_2xpj-a1-m8-cC 2xpj-a1-m58-cA_2xpj-a1-m59-cA 2xpj-a1-m58-cB_2xpj-a1-m32-cC 2xpj-a1-m58-cB_2xpj-a1-m59-cC 2xpj-a1-m59-cA_2xpj-a1-m60-cA 2xpj-a1-m59-cB_2xpj-a1-m40-cC 2xpj-a1-m59-cB_2xpj-a1-m60-cC 2xpj-a1-m5-cB_2xpj-a1-m1-cC 2xpj-a1-m5-cB_2xpj-a1-m34-cC 2xpj-a1-m60-cB_2xpj-a1-m19-cC 2xpj-a1-m60-cB_2xpj-a1-m56-cC 2xpj-a1-m6-cA_2xpj-a1-m7-cA 2xpj-a1-m6-cB_2xpj-a1-m1-cC 2xpj-a1-m6-cB_2xpj-a1-m7-cC 2xpj-a1-m7-cA_2xpj-a1-m8-cA 2xpj-a1-m7-cB_2xpj-a1-m33-cC 2xpj-a1-m7-cB_2xpj-a1-m8-cC 2xpj-a1-m8-cA_2xpj-a1-m9-cA 2xpj-a1-m8-cB_2xpj-a1-m57-cC 2xpj-a1-m9-cB_2xpj-a1-m10-cC 2xpj-a1-m9-cB_2xpj-a1-m55-cC SEVVKVKQASIPAPGSILSQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN SEVVKVKQASIPAPGSILSQPNTEQSPAIVLPFQFEATTFGTAETAAQVSLQTADPITKLTAPYRHAQIVECKAILTPTDLAVSNPLTVYLAWVPANSPATPTQILRVYGGQSFVLGGAISAAKTIEVPLNLDSVNRMLKDSVTYTDTPKLLAYSRAPTNPSKIPTASIQISGRIRLSKPMLIAN 2xpl-a1-m1-cA_2xpl-a1-m1-cB Crystal structure of Iws1(Spn1) conserved domain from Encephalitozoon cuniculi Q8SUS7 Q8SUS7 2.25 X-RAY DIFFRACTION 41 1.0 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 142 142 HMDPGTVLEISRSLKKRMQDILKKDNANNLEGRPATGKIENVEEISDILMSKALQESLLDEGILDEIKGWLEPLPDKSMPNIKIRKRLLDVLKTMKIHKEHLVTSGVGKIVYFYSINPKESKEVRASAKALVQKWTNEVFKP HMDPGTVLEISRSLKKRMQDILKKDNANNLEGRPATGKIENVEEISDILMSKALQESLLDEGILDEIKGWLEPLPDKSMPNIKIRKRLLDVLKTMKIHKEHLVTSGVGKIVYFYSINPKESKEVRASAKALVQKWTNEVFKP 2xpu-a2-m1-cA_2xpu-a2-m3-cA TetR(D) in complex with anhydrotetracycline. P0ACT4 P0ACT4 1.55 X-RAY DIFFRACTION 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 202 202 SRLNRESVIDAALELLNETGIDGLTTRKLAQKLGIEQPTLYWHVKNKRALLDALAVEILARHHDYSLPAAGESWQSFLRNNAMSFRRALLRYRDGAKVHLGTRPDEKQYDTVETQLRFMTENGFSLRDGLYAISAVSHFTLGAVLEQQEHTAALTDRENLPPLLREALQIMDSDDGEQAFLHGLESLIRGFEVQLTALLQIV SRLNRESVIDAALELLNETGIDGLTTRKLAQKLGIEQPTLYWHVKNKRALLDALAVEILARHHDYSLPAAGESWQSFLRNNAMSFRRALLRYRDGAKVHLGTRPDEKQYDTVETQLRFMTENGFSLRDGLYAISAVSHFTLGAVLEQQEHTAALTDRENLPPLLREALQIMDSDDGEQAFLHGLESLIRGFEVQLTALLQIV 2xq1-a4-m1-cE_2xq1-a4-m1-cG Crystal structure of peroxisomal catalase from the yeast Hansenula polymorpha P30263 P30263 2.9 X-RAY DIFFRACTION 117 1.0 490 491 2xq1-a1-m1-cM_2xq1-a1-m1-cO 2xq1-a1-m1-cN_2xq1-a1-m1-cP 2xq1-a2-m1-cA_2xq1-a2-m1-cC 2xq1-a2-m1-cB_2xq1-a2-m1-cD 2xq1-a3-m1-cK_2xq1-a3-m1-cI 2xq1-a3-m1-cL_2xq1-a3-m1-cJ 2xq1-a4-m1-cH_2xq1-a4-m1-cF PVFTTSQGCPVSDPFTTQRIPLDSTGYKYAPPIGPLLLQDFKLIDTLSHFDRERIPERVVHAKGAGAYGVFEVTDDITDVCSAKFLDTVGKKTRIFTRFSTVGGEKGSADTARDPRGFATKFYTEDGNLDLVYNNTPIFFIRDPIKFPHFIHTQKRNPATNLKDPNMFWDYLTANDESLHQVMYLFSNRGTPASYRTMNGYSGHTYKWYNSKGEWVYVQVHFIANQGVHNLLDEEAGRLAGEDPDHSTRDLWEAIEKGDYPSWECYIQTMTLEQSKKLPFSVFDLTKVWPHKDFPLRHFGRFTLNENPKNYYAETEQIAFSPSHTVPGMEPSNDPVLQSRLFSYPDTHRHRLGPNYHQIPVNCPLKSGSFNPINRDGPMCVDGNLGGTPNYANAYNCPIQYAVKPDEKYTGEVVPYHWEHTDYDYFQPKMFWKVLGRTPGEQESLVKNVANHVSAADEFIQDRVYEYFSKAEPIIGDLIRKKVQELKRKA PPVFTTSQGCPVSDPFTTQRIPLDSTGYKYAPPIGPLLLQDFKLIDTLSHFDRERIPERVVHAKGAGAYGVFEVTDDITDVCSAKFLDTVGKKTRIFTRFSTVGGEKGSADTARDPRGFATKFYTEDGNLDLVYNNTPIFFIRDPIKFPHFIHTQKRNPATNLKDPNMFWDYLTANDESLHQVMYLFSNRGTPASYRTMNGYSGHTYKWYNSKGEWVYVQVHFIANQGVHNLLDEEAGRLAGEDPDHSTRDLWEAIEKGDYPSWECYIQTMTLEQSKKLPFSVFDLTKVWPHKDFPLRHFGRFTLNENPKNYYAETEQIAFSPSHTVPGMEPSNDPVLQSRLFSYPDTHRHRLGPNYHQIPVNCPLKSGSFNPINRDGPMCVDGNLGGTPNYANAYNCPIQYAVKPDEKYTGEVVPYHWEHTDYDYFQPKMFWKVLGRTPGEQESLVKNVANHVSAADEFIQDRVYEYFSKAEPIIGDLIRKKVQELKRKA 2xq1-a4-m1-cH_2xq1-a4-m1-cE Crystal structure of peroxisomal catalase from the yeast Hansenula polymorpha P30263 P30263 2.9 X-RAY DIFFRACTION 317 1.0 487 490 2xq1-a1-m1-cM_2xq1-a1-m1-cP 2xq1-a1-m1-cN_2xq1-a1-m1-cO 2xq1-a2-m1-cA_2xq1-a2-m1-cD 2xq1-a2-m1-cC_2xq1-a2-m1-cB 2xq1-a3-m1-cK_2xq1-a3-m1-cJ 2xq1-a3-m1-cL_2xq1-a3-m1-cI 2xq1-a4-m1-cG_2xq1-a4-m1-cF VFTTSQGCPVSDPFTTQRIPLDSTGYKYAPPIGPLLLQDFKLIDTLSHFDRERIPERVVHAKGAGAYGVFEVTDDITDVCSAKFLDTVGKKTRIFTRFSTVGGEKGSADTARDPRGFATKFYTEDGNLDLVYNNTPIFFIRDPIKFPHFIHTQKRNPATNLKDPNMFWDYLTANDESLHQVMYLFSNRGTPASYRTMNGYSGHTYKWYNSKGEWVYVQVHFIANQGVHNLLDEEAGRLAGEDPDHSTRDLWEAIEKGDYPSWECYIQTMTLEQSKKLPFSVFDLTKVWPHKDFPLRHFGRFTLNENPKNYYAETEQIAFSPSHTVPGMEPSNDPVLQSRLFSYPDTHRHRLGPNYHQIPVNCPLKSGSFNPINRDGPMCVDGNLGGTPNYANAYNCPIQYKPDEKYTGEVVPYHWEHTDYDYFQPKMFWKVLGRTPGEQESLVKNVANHVSAADEFIQDRVYEYFSKAEPIIGDLIRKKVQELKRKA PVFTTSQGCPVSDPFTTQRIPLDSTGYKYAPPIGPLLLQDFKLIDTLSHFDRERIPERVVHAKGAGAYGVFEVTDDITDVCSAKFLDTVGKKTRIFTRFSTVGGEKGSADTARDPRGFATKFYTEDGNLDLVYNNTPIFFIRDPIKFPHFIHTQKRNPATNLKDPNMFWDYLTANDESLHQVMYLFSNRGTPASYRTMNGYSGHTYKWYNSKGEWVYVQVHFIANQGVHNLLDEEAGRLAGEDPDHSTRDLWEAIEKGDYPSWECYIQTMTLEQSKKLPFSVFDLTKVWPHKDFPLRHFGRFTLNENPKNYYAETEQIAFSPSHTVPGMEPSNDPVLQSRLFSYPDTHRHRLGPNYHQIPVNCPLKSGSFNPINRDGPMCVDGNLGGTPNYANAYNCPIQYAVKPDEKYTGEVVPYHWEHTDYDYFQPKMFWKVLGRTPGEQESLVKNVANHVSAADEFIQDRVYEYFSKAEPIIGDLIRKKVQELKRKA 2xq1-a4-m1-cH_2xq1-a4-m1-cG Crystal structure of peroxisomal catalase from the yeast Hansenula polymorpha P30263 P30263 2.9 X-RAY DIFFRACTION 281 1.0 487 491 2xq1-a1-m1-cM_2xq1-a1-m1-cN 2xq1-a1-m1-cP_2xq1-a1-m1-cO 2xq1-a2-m1-cA_2xq1-a2-m1-cB 2xq1-a2-m1-cC_2xq1-a2-m1-cD 2xq1-a3-m1-cI_2xq1-a3-m1-cJ 2xq1-a3-m1-cL_2xq1-a3-m1-cK 2xq1-a4-m1-cE_2xq1-a4-m1-cF VFTTSQGCPVSDPFTTQRIPLDSTGYKYAPPIGPLLLQDFKLIDTLSHFDRERIPERVVHAKGAGAYGVFEVTDDITDVCSAKFLDTVGKKTRIFTRFSTVGGEKGSADTARDPRGFATKFYTEDGNLDLVYNNTPIFFIRDPIKFPHFIHTQKRNPATNLKDPNMFWDYLTANDESLHQVMYLFSNRGTPASYRTMNGYSGHTYKWYNSKGEWVYVQVHFIANQGVHNLLDEEAGRLAGEDPDHSTRDLWEAIEKGDYPSWECYIQTMTLEQSKKLPFSVFDLTKVWPHKDFPLRHFGRFTLNENPKNYYAETEQIAFSPSHTVPGMEPSNDPVLQSRLFSYPDTHRHRLGPNYHQIPVNCPLKSGSFNPINRDGPMCVDGNLGGTPNYANAYNCPIQYKPDEKYTGEVVPYHWEHTDYDYFQPKMFWKVLGRTPGEQESLVKNVANHVSAADEFIQDRVYEYFSKAEPIIGDLIRKKVQELKRKA PPVFTTSQGCPVSDPFTTQRIPLDSTGYKYAPPIGPLLLQDFKLIDTLSHFDRERIPERVVHAKGAGAYGVFEVTDDITDVCSAKFLDTVGKKTRIFTRFSTVGGEKGSADTARDPRGFATKFYTEDGNLDLVYNNTPIFFIRDPIKFPHFIHTQKRNPATNLKDPNMFWDYLTANDESLHQVMYLFSNRGTPASYRTMNGYSGHTYKWYNSKGEWVYVQVHFIANQGVHNLLDEEAGRLAGEDPDHSTRDLWEAIEKGDYPSWECYIQTMTLEQSKKLPFSVFDLTKVWPHKDFPLRHFGRFTLNENPKNYYAETEQIAFSPSHTVPGMEPSNDPVLQSRLFSYPDTHRHRLGPNYHQIPVNCPLKSGSFNPINRDGPMCVDGNLGGTPNYANAYNCPIQYAVKPDEKYTGEVVPYHWEHTDYDYFQPKMFWKVLGRTPGEQESLVKNVANHVSAADEFIQDRVYEYFSKAEPIIGDLIRKKVQELKRKA 2xqh-a1-m2-cA_2xqh-a1-m3-cA Crystal structure of an immunoglobulin-binding fragment of the trimeric autotransporter adhesin EibD Q9MCI8 Q9MCI8 1.99 X-RAY DIFFRACTION 321 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 258 2xqh-a1-m1-cA_2xqh-a1-m2-cA 2xqh-a1-m1-cA_2xqh-a1-m3-cA SDAKASGEFSVAVGNGARATEKASTAVGSWAAADGKQSTALGVGTYAYANASTALGSVAFVDNTATYGTAAGNRAKVDKDATEGTALGAKATVTNKNSVALGANSVTTRDNEVYIGYKTGTESDKTYGTRVLGGLSDGTRNSDAATVGQLNRKVGGVYDDVKARITVESEKQKKYTDQKTSEVNEKVEARTTVGVDSDGKLTRAEGATKTIAVNDGLVALSGRTDRIDYAVGAIDGRVTRNTQSIEKNSKAIAANTRT SDAKASGEFSVAVGNGARATEKASTAVGSWAAADGKQSTALGVGTYAYANASTALGSVAFVDNTATYGTAAGNRAKVDKDATEGTALGAKATVTNKNSVALGANSVTTRDNEVYIGYKTGTESDKTYGTRVLGGLSDGTRNSDAATVGQLNRKVGGVYDDVKARITVESEKQKKYTDQKTSEVNEKVEARTTVGVDSDGKLTRAEGATKTIAVNDGLVALSGRTDRIDYAVGAIDGRVTRNTQSIEKNSKAIAANTRT 2xql-a1-m1-cG_2xql-a1-m1-cI Fitting of the H2A-H2B histones in the electron microscopy map of the complex Nucleoplasmin:H2A-H2B histones (1:5). P02263 P02263 19.5 ELECTRON MICROSCOPY 17 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 91 91 2xql-a1-m1-cA_2xql-a1-m1-cC 2xql-a1-m1-cA_2xql-a1-m1-cI 2xql-a1-m1-cC_2xql-a1-m1-cE 2xql-a1-m1-cE_2xql-a1-m1-cG KSRSSRAGLQFPVGRVHRLLRKGNYAERVGAGAPVYLAAVLEYLTAEILELAGNAARDNKKTRIIPRHLQLAIRNDEELNKLLGKVTIAQG KSRSSRAGLQFPVGRVHRLLRKGNYAERVGAGAPVYLAAVLEYLTAEILELAGNAARDNKKTRIIPRHLQLAIRNDEELNKLLGKVTIAQG 2xqu-a1-m3-cD_2xqu-a1-m3-cE Microscopic rotary mechanism of ion translocation in the Fo complex of ATP synthases 1.84 X-RAY DIFFRACTION 193 1.0 118562 (Arthrospira platensis) 118562 (Arthrospira platensis) 81 81 2wie-a1-m1-cA_2wie-a1-m1-cB 2wie-a1-m1-cA_2wie-a1-m3-cE 2wie-a1-m1-cB_2wie-a1-m1-cC 2wie-a1-m1-cC_2wie-a1-m1-cD 2wie-a1-m1-cD_2wie-a1-m1-cE 2wie-a1-m1-cE_2wie-a1-m2-cA 2wie-a1-m2-cA_2wie-a1-m2-cB 2wie-a1-m2-cB_2wie-a1-m2-cC 2wie-a1-m2-cC_2wie-a1-m2-cD 2wie-a1-m2-cD_2wie-a1-m2-cE 2wie-a1-m2-cE_2wie-a1-m3-cA 2wie-a1-m3-cA_2wie-a1-m3-cB 2wie-a1-m3-cB_2wie-a1-m3-cC 2wie-a1-m3-cC_2wie-a1-m3-cD 2wie-a1-m3-cD_2wie-a1-m3-cE 2xqs-a1-m1-cA_2xqs-a1-m1-cB 2xqs-a1-m1-cA_2xqs-a1-m3-cE 2xqs-a1-m1-cB_2xqs-a1-m1-cC 2xqs-a1-m1-cC_2xqs-a1-m1-cD 2xqs-a1-m1-cD_2xqs-a1-m1-cE 2xqs-a1-m1-cE_2xqs-a1-m2-cA 2xqs-a1-m2-cA_2xqs-a1-m2-cB 2xqs-a1-m2-cB_2xqs-a1-m2-cC 2xqs-a1-m2-cC_2xqs-a1-m2-cD 2xqs-a1-m2-cD_2xqs-a1-m2-cE 2xqs-a1-m2-cE_2xqs-a1-m3-cA 2xqs-a1-m3-cA_2xqs-a1-m3-cB 2xqs-a1-m3-cB_2xqs-a1-m3-cC 2xqs-a1-m3-cC_2xqs-a1-m3-cD 2xqs-a1-m3-cD_2xqs-a1-m3-cE 2xqt-a1-m1-cA_2xqt-a1-m1-cB 2xqt-a1-m1-cA_2xqt-a1-m3-cE 2xqt-a1-m1-cB_2xqt-a1-m1-cC 2xqt-a1-m1-cC_2xqt-a1-m1-cD 2xqt-a1-m1-cD_2xqt-a1-m1-cE 2xqt-a1-m1-cE_2xqt-a1-m2-cA 2xqt-a1-m2-cA_2xqt-a1-m2-cB 2xqt-a1-m2-cB_2xqt-a1-m2-cC 2xqt-a1-m2-cC_2xqt-a1-m2-cD 2xqt-a1-m2-cD_2xqt-a1-m2-cE 2xqt-a1-m2-cE_2xqt-a1-m3-cA 2xqt-a1-m3-cA_2xqt-a1-m3-cB 2xqt-a1-m3-cB_2xqt-a1-m3-cC 2xqt-a1-m3-cC_2xqt-a1-m3-cD 2xqt-a1-m3-cD_2xqt-a1-m3-cE 2xqu-a1-m1-cA_2xqu-a1-m1-cB 2xqu-a1-m1-cA_2xqu-a1-m3-cE 2xqu-a1-m1-cB_2xqu-a1-m1-cC 2xqu-a1-m1-cC_2xqu-a1-m1-cD 2xqu-a1-m1-cD_2xqu-a1-m1-cE 2xqu-a1-m1-cE_2xqu-a1-m2-cA 2xqu-a1-m2-cA_2xqu-a1-m2-cB 2xqu-a1-m2-cB_2xqu-a1-m2-cC 2xqu-a1-m2-cC_2xqu-a1-m2-cD 2xqu-a1-m2-cD_2xqu-a1-m2-cE 2xqu-a1-m2-cE_2xqu-a1-m3-cA 2xqu-a1-m3-cA_2xqu-a1-m3-cB 2xqu-a1-m3-cB_2xqu-a1-m3-cC 2xqu-a1-m3-cC_2xqu-a1-m3-cD ESNLTTAASVIAAALAVGIGSIGPGLGQGQAAGQAVEGIARQPEAEGKIRGTLLLSLAFMEALTIYGLVVALVLLFANPFV ESNLTTAASVIAAALAVGIGSIGPGLGQGQAAGQAVEGIARQPEAEGKIRGTLLLSLAFMEALTIYGLVVALVLLFANPFV 2xr4-a1-m1-cA_2xr4-a1-m1-cB C-terminal domain of BC2L-C Lectin from Burkholderia cenocepacia B4EH86 B4EH86 1.9 X-RAY DIFFRACTION 101 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 116 116 MERDGTFNLPPHIKFGVTALTHAANDQTIDIYIDDDPKPAATFKGAGAQDQNLGTKVLDSGNGRVRVIVMANGRPSRLGSRQVDIFKKSYFGIIGSEDGADDDYNDGIVFLNWPLG MERDGTFNLPPHIKFGVTALTHAANDQTIDIYIDDDPKPAATFKGAGAQDQNLGTKVLDSGNGRVRVIVMANGRPSRLGSRQVDIFKKSYFGIIGSEDGADDDYNDGIVFLNWPLG 2xr7-a1-m1-cA_2xr7-a1-m2-cA Crystal Structure of Nicotiana tabacum malonyltransferase (NtMat1) complexed with malonyl-coa Q589Y0 Q589Y0 3.1 X-RAY DIFFRACTION 78 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 440 440 ASVIEQCQVVPSPGSATELTLPLTYFDHVWLAFHRRRILFYKLPISRPDFVQTIIPTLKDSLSLTLKYYLPLAGNVACPQDWSGYPELRYVTGNSVSVIFSESDDFNYLIGYHPRNTKDFYHFVPQLAEPKDAPGVQLAPVLAIQVTLFPNHGISIGFTNHHVAGDGATIVKFVRAWALLNKFGGDEQFLANEFIPFYDRSVIKDPNGVGSIWNEKKYKHKSDVVTPPDKVRGTFIITRHDIGKLKNLVLTRRPKLTHVTSFTVTCAYVWTCIIKSEAATGEEIDENGEFFGCAADCRAQFNPPLPPSYFGNALVGYVARTRQVDLAGKEGFTIAVELIGEAIRKRKDEEWILSGSWFKEYDKVDAKRSLSVAGSPKLDLYAADFGWGRPEKLEFVSIDNDDGISSLSKSKDSDGDLEIGLSLSKTRNAFAAFTHGISFL ASVIEQCQVVPSPGSATELTLPLTYFDHVWLAFHRRRILFYKLPISRPDFVQTIIPTLKDSLSLTLKYYLPLAGNVACPQDWSGYPELRYVTGNSVSVIFSESDDFNYLIGYHPRNTKDFYHFVPQLAEPKDAPGVQLAPVLAIQVTLFPNHGISIGFTNHHVAGDGATIVKFVRAWALLNKFGGDEQFLANEFIPFYDRSVIKDPNGVGSIWNEKKYKHKSDVVTPPDKVRGTFIITRHDIGKLKNLVLTRRPKLTHVTSFTVTCAYVWTCIIKSEAATGEEIDENGEFFGCAADCRAQFNPPLPPSYFGNALVGYVARTRQVDLAGKEGFTIAVELIGEAIRKRKDEEWILSGSWFKEYDKVDAKRSLSVAGSPKLDLYAADFGWGRPEKLEFVSIDNDDGISSLSKSKDSDGDLEIGLSLSKTRNAFAAFTHGISFL 2xre-a1-m1-cB_2xre-a1-m1-cA Detection of cobalt in previously unassigned human SENP1 structure Q9P0U3 Q9P0U3 2.45 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 227 2iyc-a1-m1-cA_2iyc-a1-m1-cB EFPEITEEMEKEIKNVFRNGNQDEVLSEAFRLTITRKDIQTLNHLNWLNDEIINFYMNMLMERSKEKGLPSVHAFNTFFFTKLKTAGYQAVKRWTKKVDVFSVDILLVPIHLGVHWCLAVVDFRKKNITYYDSMGGINNEACRILLQYLKQEIDKKRKEFDTNGWQLFSKKSQEIPQQMNGSDCGMFACKYADCITKDRPINFTQQHMPYFRKRMVWEILHRKLL DEFPEITEEMEKEIKNVFRNGNQDEVLSEAFRLTITRKDIQTLNHLNWLNDEIINFYMNMLMERSKEKGLPSVHAFNTFFFTKLKTAGYQAVKRWTKKVDVFSVDILLVPIHLGVHWCLAVVDFRKKNITYYDSMGGINNEACRILLQYLKQESIDKKRKEFDTNGWQLFSKKSQEIPQQMNGSDCGMFACKYADCITKDRPINFTQQHMPYFRKRMVWEILHRKLL 2xre-a2-m1-cB_2xre-a2-m2-cA Detection of cobalt in previously unassigned human SENP1 structure Q9P0U3 Q9P0U3 2.45 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 227 EFPEITEEMEKEIKNVFRNGNQDEVLSEAFRLTITRKDIQTLNHLNWLNDEIINFYMNMLMERSKEKGLPSVHAFNTFFFTKLKTAGYQAVKRWTKKVDVFSVDILLVPIHLGVHWCLAVVDFRKKNITYYDSMGGINNEACRILLQYLKQEIDKKRKEFDTNGWQLFSKKSQEIPQQMNGSDCGMFACKYADCITKDRPINFTQQHMPYFRKRMVWEILHRKLL DEFPEITEEMEKEIKNVFRNGNQDEVLSEAFRLTITRKDIQTLNHLNWLNDEIINFYMNMLMERSKEKGLPSVHAFNTFFFTKLKTAGYQAVKRWTKKVDVFSVDILLVPIHLGVHWCLAVVDFRKKNITYYDSMGGINNEACRILLQYLKQESIDKKRKEFDTNGWQLFSKKSQEIPQQMNGSDCGMFACKYADCITKDRPINFTQQHMPYFRKRMVWEILHRKLL 2xrh-a1-m1-cA_2xrh-a1-m2-cA Crystal structure of the truncated form of HP0721 O25423 O25423 1.5 X-RAY DIFFRACTION 41 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 100 100 AIDPFTMAKDFSKTSDEDLAKMAGVVAPQDIVDYTKELKKRMEKMPEDKRKAFHKQLHEYATKNTDKMTVADFEARQKAVKEALKKGNMEDMDDDFGLRS AIDPFTMAKDFSKTSDEDLAKMAGVVAPQDIVDYTKELKKRMEKMPEDKRKAFHKQLHEYATKNTDKMTVADFEARQKAVKEALKKGNMEDMDDDFGLRS 2xrn-a1-m1-cB_2xrn-a1-m2-cB Crystal structure of TtgV Q93PU6 Q93PU6 2.9 X-RAY DIFFRACTION 46 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 241 241 2xrn-a1-m1-cA_2xrn-a1-m2-cA SIQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR SIQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR 2xrn-a1-m2-cA_2xrn-a1-m2-cB Crystal structure of TtgV Q93PU6 Q93PU6 2.9 X-RAY DIFFRACTION 175 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 239 241 2xrn-a1-m1-cA_2xrn-a1-m1-cB QVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR SIQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR 2xro-a1-m1-cA_2xro-a1-m1-cF Crystal structure of TtgV in complex with its DNA operator Q93PU6 Q93PU6 3.4 X-RAY DIFFRACTION 42 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 239 240 2xro-a1-m1-cE_2xro-a1-m1-cB QVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR IQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR 2xro-a1-m1-cB_2xro-a1-m1-cF Crystal structure of TtgV in complex with its DNA operator Q93PU6 Q93PU6 3.4 X-RAY DIFFRACTION 17 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 240 240 IQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR IQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR 2xro-a1-m1-cE_2xro-a1-m1-cF Crystal structure of TtgV in complex with its DNA operator Q93PU6 Q93PU6 3.4 X-RAY DIFFRACTION 117 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 239 240 2xro-a1-m1-cA_2xro-a1-m1-cB QVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR IQVIARAASIMRALGSHPHGLSLAAIAQLVGLPRSTVQRIINALEEEFLVEALGPAGGFRLGPALGQLINQAQTDILSLVKPYLRSLAEELDESVSLASLAGDKIYVLDRIVSERELRVVFPIGINVPAAATAAGKVLLAALPDETLQAALGEQLPVLTSNTLGRKALVKQLSEVRQSGVASDLDEHIDGVSSFATLLDTYLGYYSLAIVMPSSRASKQSDLIKKALLQSKLNIERAIGR 2xs6-a1-m1-cA_2xs6-a1-m2-cA CRYSTAL STRUCTURE OF THE RHOGAP DOMAIN OF HUMAN PIK3R2 O00459 O00459 2.09 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 LTLPDLPEQFSPPDVAPPLLVKLVEAIERTGLDSESHYRPELPAPRTDWSLSDVDQWDTAALADGIKSFLLALPAPLVTPEASAEARRALREAPVGPALEPPTLPLHRALTLRFLLQHLGRVARRAPALGPAVRALGATFGPLLLRPSPDFPALLVEKLLQEHLEE LTLPDLPEQFSPPDVAPPLLVKLVEAIERTGLDSESHYRPELPAPRTDWSLSDVDQWDTAALADGIKSFLLALPAPLVTPEASAEARRALREAPVGPALEPPTLPLHRALTLRFLLQHLGRVARRAPALGPAVRALGATFGPLLLRPSPDFPALLVEKLLQEHLEE 2xsa-a1-m1-cA_2xsa-a1-m2-cA OgOGA apostructure Q2CEE3 Q2CEE3 2 X-RAY DIFFRACTION 34 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 443 443 MLTGVIEGFYGRDWRRDERATVMDWIAAAGMNTYIYGPKDDVHVRARWRVPYDAAGLARLTELRDAAAARGMVFYVSLAPCLDVTYSDPQDRAALLARVDQLARAGLRNLVLLFDDIPSVLPEADRHRFDSFAEAQADLSNMVLRHLRGAGHVVFCPTEYCGRMAGGDPRGSAYLQRLGSTLDPAIDIFWTGPEIVSEEIVAAHLAAVGEVLRRRPVIWDNFHANDYDIRRVFAGPLGGRSRDILPLVAGWITNPNNEAEANFPAIHTTGAYLADPDYAPERAIAAAVAAWQPRFRLAFGDGAVPSDLVALLCDLFWQPFALGPETTRILSALRAALTVPRPDPSDPAWRAALEDLRDLKRRINKLFTLMTEIENRDLFHTFHNYLWEAQEEVGHLVAYCDWLDEAPPPGAVFPATNFYRRGFGVAVQDILQRDRQGRYHHGV MLTGVIEGFYGRDWRRDERATVMDWIAAAGMNTYIYGPKDDVHVRARWRVPYDAAGLARLTELRDAAAARGMVFYVSLAPCLDVTYSDPQDRAALLARVDQLARAGLRNLVLLFDDIPSVLPEADRHRFDSFAEAQADLSNMVLRHLRGAGHVVFCPTEYCGRMAGGDPRGSAYLQRLGSTLDPAIDIFWTGPEIVSEEIVAAHLAAVGEVLRRRPVIWDNFHANDYDIRRVFAGPLGGRSRDILPLVAGWITNPNNEAEANFPAIHTTGAYLADPDYAPERAIAAAVAAWQPRFRLAFGDGAVPSDLVALLCDLFWQPFALGPETTRILSALRAALTVPRPDPSDPAWRAALEDLRDLKRRINKLFTLMTEIENRDLFHTFHNYLWEAQEEVGHLVAYCDWLDEAPPPGAVFPATNFYRRGFGVAVQDILQRDRQGRYHHGV 2xsj-a1-m1-cA_2xsj-a1-m1-cD Structure of desulforubidin from Desulfomicrobium norvegicum Q93UT1 Q93UT1 2.5 X-RAY DIFFRACTION 36 1.0 52561 (Desulfomicrobium norvegicum) 52561 (Desulfomicrobium norvegicum) 436 436 AKHATPLLDQLQSGPWPSFVADIKEEAERRHSNQDNVEYQIPVDVCDDLLGILELKYSDGTTHWKHGGIVGVFGYGGGVIGRYCDQPQMFPGVAHFHTVRVAQPAGMYYTTDFLKQLCDLWDMRGSGLTNMHGATGDIVLLGTTTPQLEEFYFELTHKMNNDLGGSGSNLRTPASCLGDSRCEWACYDAQELCYQMTQEYQDELHRPAFPYKFKFKFDGCPNGCVASIARSDMSFIGTWRDDIRIDQEAVAAYVGGEIQPNGGAHSGKDWGAFDIQKEVIDLCPTECMWMEDGKLQINNRECTRCMHCLNVMPRALRIGNDRGLSILVGAKAPILDGAQMGSLLVPFIKVEDPYDEIKEIIEGIWEWWMEEGKNRERLGELIKRQGLAKAIAAVGLTPVPQHVMEPRHNPYIFWKEKDVEGGWDRDIADYRKHHQR AKHATPLLDQLQSGPWPSFVADIKEEAERRHSNQDNVEYQIPVDVCDDLLGILELKYSDGTTHWKHGGIVGVFGYGGGVIGRYCDQPQMFPGVAHFHTVRVAQPAGMYYTTDFLKQLCDLWDMRGSGLTNMHGATGDIVLLGTTTPQLEEFYFELTHKMNNDLGGSGSNLRTPASCLGDSRCEWACYDAQELCYQMTQEYQDELHRPAFPYKFKFKFDGCPNGCVASIARSDMSFIGTWRDDIRIDQEAVAAYVGGEIQPNGGAHSGKDWGAFDIQKEVIDLCPTECMWMEDGKLQINNRECTRCMHCLNVMPRALRIGNDRGLSILVGAKAPILDGAQMGSLLVPFIKVEDPYDEIKEIIEGIWEWWMEEGKNRERLGELIKRQGLAKAIAAVGLTPVPQHVMEPRHNPYIFWKEKDVEGGWDRDIADYRKHHQR 2xsj-a1-m1-cB_2xsj-a1-m1-cE Structure of desulforubidin from Desulfomicrobium norvegicum Q93UT0 Q93UT0 2.5 X-RAY DIFFRACTION 28 1.0 52561 (Desulfomicrobium norvegicum) 52561 (Desulfomicrobium norvegicum) 385 385 AFVSSGYNPEKPMENRISDIGPRHASDFFPPVIAKNKGQWLWHEICEPGILMHKAESGDEVYTVRCGGARLMSVGHIREICAIADKFCGGHLRFTTRNNIEFMVTTLDEAKKLKEYLNAQKFEGGSFKFPVGGTGAGITNIVHTQGWVHCHTPATDASGTVKVVLDELFEEFGQMRMPAQVRISMACCLNMCGAVHCSDIAILGYHRKPPVIDHEWLDNLCEIPLAVAACPVGAIRPTKKEIVTEKGETKTVNTVAIKNERCMFCGNCYTMCPSLPLSDQTGDGLVIMAGGKVSNRISNPKFSKVVVAFIPNEPPRWPRLASVIRQIVEAYAADARKYERVGDWAERIGWERFFEKCELDFSIHMIDDFRDPAYYTWRQTTNFKF AFVSSGYNPEKPMENRISDIGPRHASDFFPPVIAKNKGQWLWHEICEPGILMHKAESGDEVYTVRCGGARLMSVGHIREICAIADKFCGGHLRFTTRNNIEFMVTTLDEAKKLKEYLNAQKFEGGSFKFPVGGTGAGITNIVHTQGWVHCHTPATDASGTVKVVLDELFEEFGQMRMPAQVRISMACCLNMCGAVHCSDIAILGYHRKPPVIDHEWLDNLCEIPLAVAACPVGAIRPTKKEIVTEKGETKTVNTVAIKNERCMFCGNCYTMCPSLPLSDQTGDGLVIMAGGKVSNRISNPKFSKVVVAFIPNEPPRWPRLASVIRQIVEAYAADARKYERVGDWAERIGWERFFEKCELDFSIHMIDDFRDPAYYTWRQTTNFKF 2xsq-a1-m1-cA_2xsq-a1-m2-cA Crystal structure of human Nudix motif 16 (NUDT16) in complex with IMP and magnesium Q96DE0 Q96DE0 1.72 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 179 179 3cou-a2-m1-cA_3cou-a2-m2-cA 3mgm-a1-m1-cA_3mgm-a1-m1-cB 5vy2-a1-m1-cB_5vy2-a1-m1-cA 5w6x-a1-m1-cB_5w6x-a1-m1-cA 5w6z-a1-m1-cA_5w6z-a1-m1-cB 5w6z-a2-m1-cE_5w6z-a2-m1-cD 5wji-a1-m1-cB_5wji-a1-m1-cA 6b09-a1-m1-cB_6b09-a1-m1-cA 6co2-a1-m1-cA_6co2-a1-m1-cB 6x7u-a1-m1-cC_6x7u-a1-m1-cA 6x7v-a1-m1-cA_6x7v-a1-m1-cB 6x7v-a2-m1-cC_6x7v-a2-m1-cD ARRLELGEALALGSGWRHVCHALLYAPDPGMLFGRIPLRYAILMQMRFDGRLGFPGGFVDTQDRSLEDGLNRELREELGEAAAAFRVERTDYRSSHVGSGPRVVAHFYAKRLTLEELLAVEAGATRAKDHGLEVLGLVRVPLYTLRDGVGGLPTFLENSFIGSAREQLLEALQDLGLLQ ARRLELGEALALGSGWRHVCHALLYAPDPGMLFGRIPLRYAILMQMRFDGRLGFPGGFVDTQDRSLEDGLNRELREELGEAAAAFRVERTDYRSSHVGSGPRVVAHFYAKRLTLEELLAVEAGATRAKDHGLEVLGLVRVPLYTLRDGVGGLPTFLENSFIGSAREQLLEALQDLGLLQ 2xss-a1-m1-cB_2xss-a1-m2-cB Crystal structure of GAFb from the human phosphodiesterase 5 O76074 O76074 2.5 X-RAY DIFFRACTION 231 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 150 2xss-a1-m1-cA_2xss-a1-m2-cA ETASLEVILKKIAATIISFMQVQKCTIFIVDEDCSDSFSSVFHMECEELEKSSDTREHDANKINYMYAQYVKNTMEPLNIPDVSKDKRFPIRSLLCTPIKNGKKNKVIGVCQLVNKMEEGKVKPFNRNDEQFLEAFVIFCGLGIQNTQMY ETASLEVILKKIAATIISFMQVQKCTIFIVDEDCSDSFSSVFHMECEELEKSSDTREHDANKINYMYAQYVKNTMEPLNIPDVSKDKRFPIRSLLCTPIKNGKKNKVIGVCQLVNKMEEGKVKPFNRNDEQFLEAFVIFCGLGIQNTQMY 2xss-a1-m2-cB_2xss-a1-m2-cA Crystal structure of GAFb from the human phosphodiesterase 5 O76074 O76074 2.5 X-RAY DIFFRACTION 35 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 150 156 2xss-a1-m1-cB_2xss-a1-m1-cA ETASLEVILKKIAATIISFMQVQKCTIFIVDEDCSDSFSSVFHMECEELEKSSDTREHDANKINYMYAQYVKNTMEPLNIPDVSKDKRFPIRSLLCTPIKNGKKNKVIGVCQLVNKMEEGKVKPFNRNDEQFLEAFVIFCGLGIQNTQMY EKGAETASLEVILKKIAATIISFMQVQKCTIFIVDEDCSDSFSSVFHMECEELEKSSDTREHDANKINYMYAQYVKNTMEPLNIPDVSKDKRFPQCIRSLLCTPIKNGKKNKVIGVCQLVNKMENTGKVKPFNRNDEQFLEAFVIFCGLGIQNTQM 2xsu-a1-m1-cA_2xsu-a1-m2-cA Crystal structure of the A72G mutant of Acinetobacter radioresistens catechol 1,2 dioxygenase Q9F103 Q9F103 1.6 X-RAY DIFFRACTION 194 1.0 40216 (Acinetobacter radioresistens) 40216 (Acinetobacter radioresistens) 309 309 2xsr-a1-m1-cA_2xsr-a1-m2-cA 2xsv-a1-m1-cA_2xsv-a1-m2-cA HHHHNRQQIDALVKQMNVDTAKGPVDERIQQVVVRLLGDLFQAIEDLDIQPSEVWKGLEYLTDAGQANELGLLAGGLGLEHYLDLRADEADAKAGITGGTPRTIEGPLYVAGAPESVGFARMDDGSESDKVDTLIIEGTVTDTEGNIIEGAKVEVWHANSLGNYSFFDKSQSDFNLRRTILTDVNGKYVALTTMPVGYGCPPEGTTQALLNKLGRHGNRPSHVHYFVSAPGYRKLTTQFNIEGDEYLWDDFAFATRDGLVATATDVTDEAEIARRELDKPFKHITFNVELVKEAEAAPSSEVERRRASA HHHHNRQQIDALVKQMNVDTAKGPVDERIQQVVVRLLGDLFQAIEDLDIQPSEVWKGLEYLTDAGQANELGLLAGGLGLEHYLDLRADEADAKAGITGGTPRTIEGPLYVAGAPESVGFARMDDGSESDKVDTLIIEGTVTDTEGNIIEGAKVEVWHANSLGNYSFFDKSQSDFNLRRTILTDVNGKYVALTTMPVGYGCPPEGTTQALLNKLGRHGNRPSHVHYFVSAPGYRKLTTQFNIEGDEYLWDDFAFATRDGLVATATDVTDEAEIARRELDKPFKHITFNVELVKEAEAAPSSEVERRRASA 2xsx-a1-m1-cA_2xsx-a1-m1-cB Crystal structure of human beta enolase ENOB P13929 P13929 1.7 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 434 435 MAMQKIFAREILDSRGNPTVEVDLHTAKGRFRAAVPSGASTGIYEALELRDGDKGRYLGKGVLKAVENINSTLGPALLQKKLSVADQEKVDKFMIELDGTENKSKFGANAILGVSLAVCKAGAAEKGVPLYRHIADLAGNPDLILPVPAFNVINGGSHAGNKLAMQEFMILPVGASSFKEAMRIGAEVYHHLKGVIKAKYGKDATNVGDEGGFAPNILENNEALELLKTAIQAAGYPDKVVIGMDVAASEFYRNGKYDLDFKSPDDPARHITGEKLGELYKSFIKNYPVVSIEDPFDQDDWATWTSFLSGVNIQIVGDDLTVTNPKRIAQAVEKKACNCLLLKVNQIGSVTESIQACKLAQSNGWGVMVSHRSGETEDTFIADLVVGLCTGQIKTGAPCRSERLAKYNQLMRIEEALGDKAIFAGRKFRNPKAK SMAMQKIFAREILDSRGNPTVEVDLHTAKGRFRAAVPSGASTGIYEALELRDGDKGRYLGKGVLKAVENINSTLGPALLQKKLSVADQEKVDKFMIELDGTENKSKFGANAILGVSLAVCKAGAAEKGVPLYRHIADLAGNPDLILPVPAFNVINGGSHAGNKLAMQEFMILPVGASSFKEAMRIGAEVYHHLKGVIKAKYGKDATNVGDEGGFAPNILENNEALELLKTAIQAAGYPDKVVIGMDVAASEFYRNGKYDLDFKSPDDPARHITGEKLGELYKSFIKNYPVVSIEDPFDQDDWATWTSFLSGVNIQIVGDDLTVTNPKRIAQAVEKKACNCLLLKVNQIGSVTESIQACKLAQSNGWGVMVSHRSGETEDTFIADLVVGLCTGQIKTGAPCRSERLAKYNQLMRIEEALGDKAIFAGRKFRNPKAK 2xt0-a2-m1-cA_2xt0-a2-m2-cA Dehalogenase DPpA from Plesiocystis pacifica SIR-I A6G7B1 A6G7B1 1.9 X-RAY DIFFRACTION 43 1.0 191768 (Plesiocystis pacifica) 191768 (Plesiocystis pacifica) 297 297 MEFVRTPDDRFADLPDFPYAPHYLEGLPGFEGLRMHYVDEGPRDAEHTFLCLHGEPSWSFLYRKMLPVFTAAGGRVVAPDLFGFGRSDKPTDDAVYTFGFHRRSLLAFLDALQLERVTLVCQDWGGILGLTLPVDRPQLVDRLIVMNTALAVGLSPGKGFESWRDFVANSPDLDVGKLMQRAIPGITDAEVAAYDAPFPGPEFKAGVRRFPAIVPITPDMEGAEIGRQAMSFWSTQWSGPTFMAVGAQDPVLGPEVMGMLRQAIRGCPEPMIVEAGGHFVQEHGEPIARAALAAFGQ MEFVRTPDDRFADLPDFPYAPHYLEGLPGFEGLRMHYVDEGPRDAEHTFLCLHGEPSWSFLYRKMLPVFTAAGGRVVAPDLFGFGRSDKPTDDAVYTFGFHRRSLLAFLDALQLERVTLVCQDWGGILGLTLPVDRPQLVDRLIVMNTALAVGLSPGKGFESWRDFVANSPDLDVGKLMQRAIPGITDAEVAAYDAPFPGPEFKAGVRRFPAIVPITPDMEGAEIGRQAMSFWSTQWSGPTFMAVGAQDPVLGPEVMGMLRQAIRGCPEPMIVEAGGHFVQEHGEPIARAALAAFGQ 2xt2-a1-m1-cB_2xt2-a1-m1-cA Structure of the pentapeptide repeat protein AlbG, a resistance factor for the topoisomerase poison albicidin. Q70C34 Q70C34 1.999 X-RAY DIFFRACTION 74 1.0 29447 (Xanthomonas albilineans) 29447 (Xanthomonas albilineans) 194 197 2xt4-a1-m1-cA_2xt4-a1-m1-cB LESKDYCGESFVSEDRSGQSLESIRFEDCTFRQCNFTEAELNRCKFRECEFVDCNLSLISIPQTSFMEVRFVDCKMLGVNWTSAQWPSVKMEGALSFERCILNDSLFYGLYLAGVKMVECRIHDANFTEADCEDADFTQSDLKGSTFHNTKLTGASFIDAVNYHIDIFHNDIKRARFSLPEAASLLNSLDIELS AKTLESKDYCGESFVSEDRSGQSLESIRFEDCTFRQCNFTEAELNRCKFRECEFVDCNLSLISIPQTSFMEVRFVDCKMLGVNWTSAQWPSVKMEGALSFERCILNDSLFYGLYLAGVKMVECRIHDANFTEADCEDADFTQSDLKGSTFHNTKLTGASFIDAVNYHIDIFHNDIKRARFSLPEAASLLNSLDIELS 2xtd-a1-m2-cB_2xtd-a1-m2-cA Structure of the TBL1 tetramerisation domain O60907 O60907 3.2 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 68 2xtc-a1-m1-cB_2xtc-a1-m1-cA 2xtc-a1-m2-cB_2xtc-a1-m2-cA 2xtd-a1-m1-cB_2xtd-a1-m1-cA 2xte-a1-m1-cA_2xte-a1-m1-cB 2xte-a1-m1-cI_2xte-a1-m1-cJ 2xte-a2-m1-cC_2xte-a2-m1-cD 2xte-a2-m1-cK_2xte-a2-m1-cL 2xte-a3-m1-cE_2xte-a3-m1-cF 2xte-a3-m1-cG_2xte-a3-m1-cH SITSDEVNFLVYRYLQESGFSHSAFTFGIESHISQSNINGTLVPPAALISILQKGLQYVEAEIS MSITSDEVNFLVYRYLQESGFSHSAFTFGIESHISQSNINGTLVPPAALISILQKGLQYVEAEISINE 2xts-a1-m1-cA_2xts-a1-m1-cC Crystal Structure of the Sulfane Dehydrogenase SoxCD from Paracoccus pantotrophus P72178 P72178 1.33 X-RAY DIFFRACTION 302 1.0 82367 (Paracoccus pantotrophus) 82367 (Paracoccus pantotrophus) 389 389 GTPDPLITEIQPWASEFGEAVDAHPYGLPIHFESHVKRQYVEWLTESPVSSINFTPIHALEGTITPQGCAFERHHSGAIELSKQDYRLMINGLVEKPLVFTFEDLLRFPRTTTTAFCECAANGGMEWGGAQLEGCQYTQGMIHNMEYVGVPLSVLLAEAGVKPEGKWLYAEGADASSNGRSFPMEKVMDDVMLAFFANGEALRKEHGYPARLVVPGWEGNMWVKWVRRLGIYDKAVESREETSKYTDLMPDGRARKWTWVMDAKSVITSPSPQVPIRHGKGPLVISGLAWSGNGRITRVDVSLDGGKNWTTARITGQALPKALTRFHLDIDWDGSEMLLQSRAVDETGYVQPTKDALRAIRGRNNVYHNNGIQTWWVKADGEVENVEIA GTPDPLITEIQPWASEFGEAVDAHPYGLPIHFESHVKRQYVEWLTESPVSSINFTPIHALEGTITPQGCAFERHHSGAIELSKQDYRLMINGLVEKPLVFTFEDLLRFPRTTTTAFCECAANGGMEWGGAQLEGCQYTQGMIHNMEYVGVPLSVLLAEAGVKPEGKWLYAEGADASSNGRSFPMEKVMDDVMLAFFANGEALRKEHGYPARLVVPGWEGNMWVKWVRRLGIYDKAVESREETSKYTDLMPDGRARKWTWVMDAKSVITSPSPQVPIRHGKGPLVISGLAWSGNGRITRVDVSLDGGKNWTTARITGQALPKALTRFHLDIDWDGSEMLLQSRAVDETGYVQPTKDALRAIRGRNNVYHNNGIQTWWVKADGEVENVEIA 2xtw-a2-m1-cC_2xtw-a2-m1-cB Structure of QnrB1 (Full length), a plasmid-mediated fluoroquinolone resistance protein Q2I1Y8 Q2I1Y8 2.803 X-RAY DIFFRACTION 56 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 209 215 2xtw-a1-m1-cD_2xtw-a1-m1-cA 2xtx-a1-m1-cA_2xtx-a1-m1-cB 2xty-a1-m1-cB_2xty-a1-m1-cA ALVGEKIDRNRFTGEKIENSTFFNCDFSGADLSGTEFIGCQFYDRESQKGCNFSRAMLKDAIFKSCDLSMADFRNSSALGIEIRHCRAQGADFRGASFMNMITTRTWFCSAYITNTNLSYANFSKVVLEKCELWENRWIGAQVLGATFSGSDLSGGEFSTFDWRAANFTHCDLTNSELGDLDIRGVDLQGVKLDNYQASLLMERLGIAV GSHMALALVGEKIDRNRFTGEKIENSTFFNCDFSGADLSGTEFIGCQFYDRESQKGCNFSRAMLKDAIFKSCDLSMADFRNSSALGIEIRHCRAQGADFRGASFMNMITTRTWFCSAYITNTNLSYANFSKVVLEKCELWENRWIGAQVLGATFSGSDLSGGEFSTFDWRAANFTHCDLTNSELGDLDIRGVDLQGVKLDNYQASLLMERLGIAV 2xu2-a1-m1-cA_2xu2-a1-m4-cA Crystal Structure of the hypothetical protein PA4511 from Pseudomonas aeruginosa Q9HVR0 Q9HVR0 2.3 X-RAY DIFFRACTION 25 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 241 241 2xu2-a1-m2-cA_2xu2-a1-m3-cA RILLNCDMGESFGAWRMGDDVHSMPLVDQANLACGFHAGDPLTMRRAVELAVRHGVSIGAHPAYPDLSGFGRRSLACSAEEVHAMVLYQIGALDAFCRSLGTQVAYVKPHGALYNDLVGDDELLRAVLDACAAYRKGLPLMVLALADNGRELELADEADVPLLFEAFADRAYLPDGRLAPRRLGGAVHHDPQRIIEQALAIARGEAFPDYDGNPLRLTADSLCVHGDNPQSLAVLRRLRAA RILLNCDMGESFGAWRMGDDVHSMPLVDQANLACGFHAGDPLTMRRAVELAVRHGVSIGAHPAYPDLSGFGRRSLACSAEEVHAMVLYQIGALDAFCRSLGTQVAYVKPHGALYNDLVGDDELLRAVLDACAAYRKGLPLMVLALADNGRELELADEADVPLLFEAFADRAYLPDGRLAPRRLGGAVHHDPQRIIEQALAIARGEAFPDYDGNPLRLTADSLCVHGDNPQSLAVLRRLRAA 2xu2-a1-m2-cA_2xu2-a1-m4-cA Crystal Structure of the hypothetical protein PA4511 from Pseudomonas aeruginosa Q9HVR0 Q9HVR0 2.3 X-RAY DIFFRACTION 66 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 241 241 2xu2-a1-m1-cA_2xu2-a1-m3-cA RILLNCDMGESFGAWRMGDDVHSMPLVDQANLACGFHAGDPLTMRRAVELAVRHGVSIGAHPAYPDLSGFGRRSLACSAEEVHAMVLYQIGALDAFCRSLGTQVAYVKPHGALYNDLVGDDELLRAVLDACAAYRKGLPLMVLALADNGRELELADEADVPLLFEAFADRAYLPDGRLAPRRLGGAVHHDPQRIIEQALAIARGEAFPDYDGNPLRLTADSLCVHGDNPQSLAVLRRLRAA RILLNCDMGESFGAWRMGDDVHSMPLVDQANLACGFHAGDPLTMRRAVELAVRHGVSIGAHPAYPDLSGFGRRSLACSAEEVHAMVLYQIGALDAFCRSLGTQVAYVKPHGALYNDLVGDDELLRAVLDACAAYRKGLPLMVLALADNGRELELADEADVPLLFEAFADRAYLPDGRLAPRRLGGAVHHDPQRIIEQALAIARGEAFPDYDGNPLRLTADSLCVHGDNPQSLAVLRRLRAA 2xu2-a1-m3-cA_2xu2-a1-m4-cA Crystal Structure of the hypothetical protein PA4511 from Pseudomonas aeruginosa Q9HVR0 Q9HVR0 2.3 X-RAY DIFFRACTION 37 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 241 241 2xu2-a1-m1-cA_2xu2-a1-m2-cA RILLNCDMGESFGAWRMGDDVHSMPLVDQANLACGFHAGDPLTMRRAVELAVRHGVSIGAHPAYPDLSGFGRRSLACSAEEVHAMVLYQIGALDAFCRSLGTQVAYVKPHGALYNDLVGDDELLRAVLDACAAYRKGLPLMVLALADNGRELELADEADVPLLFEAFADRAYLPDGRLAPRRLGGAVHHDPQRIIEQALAIARGEAFPDYDGNPLRLTADSLCVHGDNPQSLAVLRRLRAA RILLNCDMGESFGAWRMGDDVHSMPLVDQANLACGFHAGDPLTMRRAVELAVRHGVSIGAHPAYPDLSGFGRRSLACSAEEVHAMVLYQIGALDAFCRSLGTQVAYVKPHGALYNDLVGDDELLRAVLDACAAYRKGLPLMVLALADNGRELELADEADVPLLFEAFADRAYLPDGRLAPRRLGGAVHHDPQRIIEQALAIARGEAFPDYDGNPLRLTADSLCVHGDNPQSLAVLRRLRAA 2xu8-a1-m1-cB_2xu8-a1-m1-cC Structure of Pa1645 Q9I380 Q9I380 1.98 X-RAY DIFFRACTION 66 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 116 116 2xu8-a1-m1-cA_2xu8-a1-m1-cB 2xu8-a1-m1-cA_2xu8-a1-m1-cC DWSGPIEQPLWSLPAAPGLSRWLIVHNLSSAAADGLYHVEVLERRQGQQPWQFQRLAAHLALTEQALRASIVAPLKRGGVYPESYQFAYRQWQERQAAGQAPVCRRTVDECLRAPD DWSGPIEQPLWSLPAAPGLSRWLIVHNLSSAAADGLYHVEVLERRQGQQPWQFQRLAAHLALTEQALRASIVAPLKRGGVYPESYQFAYRQWQERQAAGQAPVCRRTVDECLRAPD 2xua-a1-m1-cA_2xua-a1-m1-cH Crystal structure of the enol-lactonase from Burkholderia xenovorans LB400 Q13KT2 Q13KT2 1.9 X-RAY DIFFRACTION 46 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 254 254 PYAAVNGTELHYRIDGERHGNAPWIVLSNSLGTDLSWAPQVAALSKHFRVLRYDTRGHGHSEAPKGPYTIEQLTGDVLGLDTLKIARANFCGLSGGLTGVALAARHADRIERVALCNTAARIGSPEVWVPRAVKARTEGHALADAVLPRWFTADYEREPVVLAIRDVFVHTDKEGYASNCEAIDAADLRPEAPGIKVPALVISGTHDLAATPAQGRELAQAIAGARYVELDASHISNIERADAFTKTVVDFLTE PYAAVNGTELHYRIDGERHGNAPWIVLSNSLGTDLSWAPQVAALSKHFRVLRYDTRGHGHSEAPKGPYTIEQLTGDVLGLDTLKIARANFCGLSGGLTGVALAARHADRIERVALCNTAARIGSPEVWVPRAVKARTEGHALADAVLPRWFTADYEREPVVLAIRDVFVHTDKEGYASNCEAIDAADLRPEAPGIKVPALVISGTHDLAATPAQGRELAQAIAGARYVELDASHISNIERADAFTKTVVDFLTE 2xul-a1-m1-cA_2xul-a1-m1-cC Structure of PII from Synechococcus elongatus in complex with 2- oxoglutarate at high 2-OG concentrations P0A3F4 P0A3F4 2.2 X-RAY DIFFRACTION 82 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 106 107 1qy7-a1-m1-cA_1qy7-a1-m1-cB 1qy7-a1-m1-cA_1qy7-a1-m1-cC 1qy7-a1-m1-cB_1qy7-a1-m1-cC 2jj4-a1-m1-cE_2jj4-a1-m1-cD 2jj4-a1-m1-cE_2jj4-a1-m2-cF 2jj4-a1-m1-cF_2jj4-a1-m2-cD 2jj4-a1-m2-cE_2jj4-a1-m1-cF 2jj4-a1-m2-cE_2jj4-a1-m2-cD 2jj4-a1-m2-cF_2jj4-a1-m1-cD 2v5h-a1-m1-cH_2v5h-a1-m1-cG 2v5h-a1-m1-cH_2v5h-a1-m1-cI 2v5h-a1-m1-cI_2v5h-a1-m1-cG 2v5h-a1-m1-cK_2v5h-a1-m1-cJ 2v5h-a1-m1-cK_2v5h-a1-m1-cL 2v5h-a1-m1-cL_2v5h-a1-m1-cJ 2xbp-a1-m1-cA_2xbp-a1-m2-cA 2xbp-a1-m1-cA_2xbp-a1-m3-cA 2xbp-a1-m2-cA_2xbp-a1-m3-cA 2xg8-a1-m1-cA_2xg8-a1-m1-cB 2xg8-a1-m1-cA_2xg8-a1-m1-cC 2xg8-a1-m1-cB_2xg8-a1-m1-cC 2xg8-a1-m2-cA_2xg8-a1-m2-cB 2xg8-a1-m2-cA_2xg8-a1-m2-cC 2xg8-a1-m2-cB_2xg8-a1-m2-cC 2xul-a1-m1-cA_2xul-a1-m1-cB 2xul-a1-m1-cC_2xul-a1-m1-cB 2xul-a2-m1-cD_2xul-a2-m1-cE 2xul-a2-m1-cD_2xul-a2-m1-cF 2xul-a2-m1-cF_2xul-a2-m1-cE 2xzw-a1-m1-cA_2xzw-a1-m1-cB 2xzw-a1-m1-cA_2xzw-a1-m1-cC 2xzw-a1-m1-cB_2xzw-a1-m1-cC 2xzw-a2-m1-cD_2xzw-a2-m1-cF 2xzw-a2-m1-cE_2xzw-a2-m1-cD 2xzw-a2-m1-cE_2xzw-a2-m1-cF 2xzw-a3-m1-cI_2xzw-a3-m1-cG 2xzw-a3-m1-cI_2xzw-a3-m1-cH 4aff-a1-m1-cA_4aff-a1-m2-cA 4aff-a1-m1-cA_4aff-a1-m3-cA 4aff-a1-m2-cA_4aff-a1-m3-cA 4c3k-a1-m1-cD_4c3k-a1-m1-cF 4c3k-a1-m1-cE_4c3k-a1-m1-cD MKKIEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFGRQKGQTYTVEFLQKLKLEIVVEDAQVDTVIDKIVAAARTGEIGDGKIFVSPVDQTIRIRTGEKNADAIS MKKIEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFGRQKGQTEYTVEFLQKLKLEIVVEDAQVDTVIDKIVAAARTGEIGDGKIFVSPVDQTIRIRTGEKNADAIS 2xus-a1-m2-cB_2xus-a1-m3-cB Crystal Structure of the BRMS1 N-terminal region Q9HCU9 Q9HCU9 1.912 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 2xus-a1-m1-cA_2xus-a1-m2-cA 2xus-a1-m1-cA_2xus-a1-m3-cA 2xus-a1-m1-cB_2xus-a1-m2-cB 2xus-a1-m1-cB_2xus-a1-m3-cB 2xus-a1-m2-cA_2xus-a1-m3-cA EDYERRRSECVSEMLDLEKQFSELKEKLFRERLSQLRLRL EDYERRRSECVSEMLDLEKQFSELKEKLFRERLSQLRLRL 2xuv-a2-m1-cC_2xuv-a2-m1-cD The structure of HdeB P0AET2 P0AET2 1.5 X-RAY DIFFRACTION 76 1.0 562 (Escherichia coli) 562 (Escherichia coli) 62 62 2xuv-a1-m1-cA_2xuv-a1-m1-cB ESADMTCQEFIDLNPAMTPVAWWMLHEETVYGGDTVTLNETDLTQIPVIEYCNPQNLYTFNQ ESADMTCQEFIDLNPAMTPVAWWMLHEETVYGGDTVTLNETDLTQIPVIEYCNPQNLYTFNQ 2xv5-a1-m1-cA_2xv5-a1-m1-cB Human lamin A coil 2B fragment P02545 P02545 2.4 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 GSARERDTSRRLLAEKEREAERARQQQLDEYQELLDIKLALDEIHAYRKLLEG GSARERDTSRRLLAEKEREAERARQQQLDEYQELLDIKLALDEIHAYRKLLEG 2xv7-a1-m1-cA_2xv7-a1-m2-cA Crystal structure of vascular endothelial growth factor D O43915 O43915 2.9 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 PTFYDIETLKVIDEEWQRTQCSPRETAVEVASELGKSTNTFFKPPCVNVFRCGGCCNEESLICMNTSTSYISKQLFEISVPLTSVPELVPVKVANHTGCKCLPT PTFYDIETLKVIDEEWQRTQCSPRETAVEVASELGKSTNTFFKPPCVNVFRCGGCCNEESLICMNTSTSYISKQLFEISVPLTSVPELVPVKVANHTGCKCLPT 2xvo-a3-m1-cD_2xvo-a3-m3-cC SSO1725, a protein involved in the CRISPR/Cas pathway Q97XK8 Q97XK8 2.08 X-RAY DIFFRACTION 64 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 179 180 2xvo-a1-m1-cB_2xvo-a1-m1-cA 2xvo-a2-m2-cD_2xvo-a2-m1-cC EWVFIPVIKDVTYEFKVDNNDNITELYVNGNKLGPASSLEMDFYFDVDVSNNQVRKFNNVFVLFGVIATKDSNKIKMQLTLNPCDFVRGFVFPSDPSQLNNIFASNNKVSVSEKAFAILNRKKEGAVSSTINVYITQNTYTGNTKIEKIQQNTIIIEKNTGIVFKIPNDMLNIFRYSTT VEWVFIPVIKDVTYEFKVDNNDNITELYVNGNKLGPASSLEMDFYFDVDVSNNQVRKFNNVFVLFGVIATKDSNKIKMQLTLNPCDFVRGFVFPSDPSQLNNIFASNNKVSVSEKAFAILNRKKEGAVSSTINVYITQNTYTGNTKIEKIQQNTIIIEKNTGIVFKIPNDMLNIFRYSTT 2xvt-a2-m1-cB_2xvt-a2-m1-cC Structure of the extracellular domain of human RAMP2 O60895 O60895 2.05 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 79 2xvt-a1-m1-cD_2xvt-a1-m1-cF 2xvt-a1-m1-cE_2xvt-a1-m1-cD 2xvt-a1-m1-cE_2xvt-a1-m1-cF 2xvt-a2-m1-cA_2xvt-a2-m1-cB 2xvt-a2-m1-cA_2xvt-a2-m1-cC 3aqe-a7-m1-cA_3aqe-a7-m1-cB 3aqe-a7-m1-cC_3aqe-a7-m1-cA 3aqe-a7-m1-cC_3aqe-a7-m1-cB 3aqe-a8-m1-cD_3aqe-a8-m1-cE 3aqe-a8-m1-cD_3aqe-a8-m1-cF 3aqe-a8-m1-cF_3aqe-a8-m1-cE VKNYETAVQFCWNHYKDQMDPIEKDWCDWAMISRPYSTLRDCLEHFAELFDLGFPNPLAERIIFETHQIHFANCSLVQ VKNYETAVQFCWNHYKDQMDPIEKDWCDWAMISRPYSTLRDCLEHFAELFDLGFPNPLAERIIFETHQIHFANCSLVQP 2xvy-a1-m1-cA_2xvy-a1-m4-cA Cobalt chelatase CbiK (periplasmic) from Desulvobrio vulgaris Hildenborough (co-crystallised with cobalt and SHC) Q72EC8 Q72EC8 1.7 X-RAY DIFFRACTION 64 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 262 262 2xvx-a1-m1-cA_2xvx-a1-m4-cA 2xvx-a1-m2-cA_2xvx-a1-m3-cA 2xvy-a1-m2-cA_2xvy-a1-m3-cA 2xvz-a1-m1-cA_2xvz-a1-m4-cA 2xvz-a1-m2-cA_2xvz-a1-m3-cA QKTGILLVAFGTSVEEARPALDKMGDRVRAAHPDIPVRWAYTAKMIRAKLRAEGIAAPSPAEALAGMAEEGFTHVAVQSLHTIPGEEFHGLLETAHAFQGLPKGLTRVSVGLPLIGTTADAEAVAEALVASLPADRKPGEPVVFMGHGTPHPADICYPGLQYYLWRLDPDLLVGTVEGSPSFDNVMAELDVRKAKRVWLMPLMAVAGDHARNDMAGDEDDSWTSQLARRGIEAKPVLHGTAESDAVAAIWLRHLDDALARLN QKTGILLVAFGTSVEEARPALDKMGDRVRAAHPDIPVRWAYTAKMIRAKLRAEGIAAPSPAEALAGMAEEGFTHVAVQSLHTIPGEEFHGLLETAHAFQGLPKGLTRVSVGLPLIGTTADAEAVAEALVASLPADRKPGEPVVFMGHGTPHPADICYPGLQYYLWRLDPDLLVGTVEGSPSFDNVMAELDVRKAKRVWLMPLMAVAGDHARNDMAGDEDDSWTSQLARRGIEAKPVLHGTAESDAVAAIWLRHLDDALARLN 2xvy-a1-m2-cA_2xvy-a1-m4-cA Cobalt chelatase CbiK (periplasmic) from Desulvobrio vulgaris Hildenborough (co-crystallised with cobalt and SHC) Q72EC8 Q72EC8 1.7 X-RAY DIFFRACTION 62 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 262 262 2xvx-a1-m1-cA_2xvx-a1-m3-cA 2xvx-a1-m2-cA_2xvx-a1-m4-cA 2xvy-a1-m1-cA_2xvy-a1-m3-cA 2xvz-a1-m1-cA_2xvz-a1-m3-cA 2xvz-a1-m2-cA_2xvz-a1-m4-cA QKTGILLVAFGTSVEEARPALDKMGDRVRAAHPDIPVRWAYTAKMIRAKLRAEGIAAPSPAEALAGMAEEGFTHVAVQSLHTIPGEEFHGLLETAHAFQGLPKGLTRVSVGLPLIGTTADAEAVAEALVASLPADRKPGEPVVFMGHGTPHPADICYPGLQYYLWRLDPDLLVGTVEGSPSFDNVMAELDVRKAKRVWLMPLMAVAGDHARNDMAGDEDDSWTSQLARRGIEAKPVLHGTAESDAVAAIWLRHLDDALARLN QKTGILLVAFGTSVEEARPALDKMGDRVRAAHPDIPVRWAYTAKMIRAKLRAEGIAAPSPAEALAGMAEEGFTHVAVQSLHTIPGEEFHGLLETAHAFQGLPKGLTRVSVGLPLIGTTADAEAVAEALVASLPADRKPGEPVVFMGHGTPHPADICYPGLQYYLWRLDPDLLVGTVEGSPSFDNVMAELDVRKAKRVWLMPLMAVAGDHARNDMAGDEDDSWTSQLARRGIEAKPVLHGTAESDAVAAIWLRHLDDALARLN 2xw7-a1-m1-cB_2xw7-a1-m1-cA Structure of Mycobacterium smegmatis putative reductase MS0308 A0QP85 A0QP85 2 X-RAY DIFFRACTION 93 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 174 175 HMVKTVYYTASSLDGYIVDENQSLDWLTSRDITPDGPFGYEQFIETIGVLVMGASTYEWVVEHGDWSYDQPAWVLTHRPEIAAESHPMQVFSGDVAELHPELVAAAGGKDVWVVGGGDVAAQFVAADLIDEIIVSYAPCTLGVGSRVLPMRSEWVLDDCARNGDFVCARWKRPV SHMVKTVYYTASSLDGYIVDENQSLDWLTSRDITPDGPFGYEQFIETIGVLVMGASTYEWVVEHGDWSYDQPAWVLTHRPEIAAESHPMQVFSGDVAELHPELVAAAGGKDVWVVGGGDVAAQFVAADLIDEIIVSYAPCTLGVGSRVLPMRSEWVLDDCARNGDFVCARWKRPV 2xwc-a1-m1-cA_2xwc-a1-m2-cA Crystal structure of the DNA binding domain of human TP73 refined at 1.8 A resolution O15350 O15350 1.82 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 APVIPSNTDYPGPHHFEVTFQQSSTAKSATWTYSPLLKKLYCQIAKTCPIQIKVSTPPPPGTAIRAMPVYKKAEHVTDVVKRCPNHELGRDFNEGQSAPASHLIRVEGNNLSQYVDDPVTGRQSVVVPYEPPQVGTEFTTILYNFMCNSSCVGRRPILIIITLEMRDGQVLGRRSFEGRICACPGRDRKADEDHYREAENLYFQ APVIPSNTDYPGPHHFEVTFQQSSTAKSATWTYSPLLKKLYCQIAKTCPIQIKVSTPPPPGTAIRAMPVYKKAEHVTDVVKRCPNHELGRDFNEGQSAPASHLIRVEGNNLSQYVDDPVTGRQSVVVPYEPPQVGTEFTTILYNFMCNSSCVGRRPILIIITLEMRDGQVLGRRSFEGRICACPGRDRKADEDHYREAENLYFQ 2xwl-a1-m1-cA_2xwl-a1-m1-cB Crystal structure of IspD from Mycobacterium smegmatis in complex with CTP and Mg A0R560 A0R560 1.49 X-RAY DIFFRACTION 135 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 221 222 2xwm-a1-m1-cA_2xwm-a1-m1-cB ATVAVVPAAGSGERLRAGRPKAFVTLGGTPLLEHALSGLRASGVIDRIVIAVPPALTDESKLVFGGEDSVIVSGGVDRTESVALALEAAGDAEFVLVHDAARALTPPALIARVVAALKEGHSAVVPGLAPADTIKAVDANGAVLGTPERAGLRAVQTPQGFHADVLRRAYARATAGGVTDDASLVEQLGTPVQIVDGDPLAFKITTPLDLVLAEAVLAHHH ATVAVVPAAGSGERLRAGRPKAFVTLGGTPLLEHALSGLRASGVIDRIVIAVPPALTDESKLVFGGEDSVIVSGGVDRTESVALALEAAGDAEFVLVHDAARALTPPALIARVVAALKEGHSAVVPGLAPADTIKAVDANGAVLGTPERAGLRAVQTPQGFHADVLRRAYARATAGGVTDDASLVEQLGTPVQIVDGDPLAFKITTPLDLVLAEAVLAHHHH 2xwp-a1-m2-cA_2xwp-a1-m6-cA ANAEROBIC COBALT CHELATASE (CbiK) FROM SALMONELLA TYPHIMURIUM IN COMPLEX WITH METALATED TETRAPYRROLE Q05592 Q05592 1.9 X-RAY DIFFRACTION 69 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 257 257 2xwp-a1-m1-cA_2xwp-a1-m5-cA 2xwp-a1-m3-cA_2xwp-a1-m4-cA KKALLVVSFGTSYHDTCEKNIVACERDLAASCPDRDLFRAFTSGMIIRKLRQRDGIDIDTPLQALQKLAAQGYQDVAIQSLHIINGDEYEKIVREVQLLRPLFTRLTLGVPLLSSHNDYVQLMQALRQQMPSLRQTEKVVFMGHGASHHAFAAYACLDHMMTAQRFPARVGAVESYPEVDILIDSLRDEGVTGVHLMPLMLVAGDHAINDMASDDGDSWKMRFNAAGIPATPWLSGLGENPAIRAMFVAHLHQALNM KKALLVVSFGTSYHDTCEKNIVACERDLAASCPDRDLFRAFTSGMIIRKLRQRDGIDIDTPLQALQKLAAQGYQDVAIQSLHIINGDEYEKIVREVQLLRPLFTRLTLGVPLLSSHNDYVQLMQALRQQMPSLRQTEKVVFMGHGASHHAFAAYACLDHMMTAQRFPARVGAVESYPEVDILIDSLRDEGVTGVHLMPLMLVAGDHAINDMASDDGDSWKMRFNAAGIPATPWLSGLGENPAIRAMFVAHLHQALNM 2xwp-a1-m3-cA_2xwp-a1-m6-cA ANAEROBIC COBALT CHELATASE (CbiK) FROM SALMONELLA TYPHIMURIUM IN COMPLEX WITH METALATED TETRAPYRROLE Q05592 Q05592 1.9 X-RAY DIFFRACTION 18 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 257 257 2xwp-a1-m1-cA_2xwp-a1-m4-cA 2xwp-a1-m2-cA_2xwp-a1-m5-cA KKALLVVSFGTSYHDTCEKNIVACERDLAASCPDRDLFRAFTSGMIIRKLRQRDGIDIDTPLQALQKLAAQGYQDVAIQSLHIINGDEYEKIVREVQLLRPLFTRLTLGVPLLSSHNDYVQLMQALRQQMPSLRQTEKVVFMGHGASHHAFAAYACLDHMMTAQRFPARVGAVESYPEVDILIDSLRDEGVTGVHLMPLMLVAGDHAINDMASDDGDSWKMRFNAAGIPATPWLSGLGENPAIRAMFVAHLHQALNM KKALLVVSFGTSYHDTCEKNIVACERDLAASCPDRDLFRAFTSGMIIRKLRQRDGIDIDTPLQALQKLAAQGYQDVAIQSLHIINGDEYEKIVREVQLLRPLFTRLTLGVPLLSSHNDYVQLMQALRQQMPSLRQTEKVVFMGHGASHHAFAAYACLDHMMTAQRFPARVGAVESYPEVDILIDSLRDEGVTGVHLMPLMLVAGDHAINDMASDDGDSWKMRFNAAGIPATPWLSGLGENPAIRAMFVAHLHQALNM 2xwp-a1-m5-cA_2xwp-a1-m6-cA ANAEROBIC COBALT CHELATASE (CbiK) FROM SALMONELLA TYPHIMURIUM IN COMPLEX WITH METALATED TETRAPYRROLE Q05592 Q05592 1.9 X-RAY DIFFRACTION 25 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 257 257 2xwp-a1-m1-cA_2xwp-a1-m2-cA 2xwp-a1-m1-cA_2xwp-a1-m3-cA 2xwp-a1-m2-cA_2xwp-a1-m3-cA 2xwp-a1-m4-cA_2xwp-a1-m5-cA 2xwp-a1-m4-cA_2xwp-a1-m6-cA KKALLVVSFGTSYHDTCEKNIVACERDLAASCPDRDLFRAFTSGMIIRKLRQRDGIDIDTPLQALQKLAAQGYQDVAIQSLHIINGDEYEKIVREVQLLRPLFTRLTLGVPLLSSHNDYVQLMQALRQQMPSLRQTEKVVFMGHGASHHAFAAYACLDHMMTAQRFPARVGAVESYPEVDILIDSLRDEGVTGVHLMPLMLVAGDHAINDMASDDGDSWKMRFNAAGIPATPWLSGLGENPAIRAMFVAHLHQALNM KKALLVVSFGTSYHDTCEKNIVACERDLAASCPDRDLFRAFTSGMIIRKLRQRDGIDIDTPLQALQKLAAQGYQDVAIQSLHIINGDEYEKIVREVQLLRPLFTRLTLGVPLLSSHNDYVQLMQALRQQMPSLRQTEKVVFMGHGASHHAFAAYACLDHMMTAQRFPARVGAVESYPEVDILIDSLRDEGVTGVHLMPLMLVAGDHAINDMASDDGDSWKMRFNAAGIPATPWLSGLGENPAIRAMFVAHLHQALNM 2xwx-a1-m1-cA_2xwx-a1-m1-cB Vibrio cholerae colonization factor GbpA crystal structure Q9KLD5 Q9KLD5 1.8 X-RAY DIFFRACTION 194 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 385 385 HGYVSAVENGVAEGRVTLCKFAANGTGEKNTHCGAIQYEPQSVEGPDGFPVTGPRDGKIASAESALAAALDEQTADRWVKRPIQAGPQTFEWTFTANHVTKDWKYYITKPNWNPNQPLSRDAFDLNPFCVVEGNMVQPPKRVSHECIVPEREGYQVILAVWDVGDTAASFYNVIDVKFDPDWNPAGQIIPSMDLSIGDTVYTRVFDNDGENPAYRTELKIDSETLTKANQWSYALATKINQTQKQQRAGQLNGDQFVPVYGTNPIYLKEGSGLKSVEIGYQIEAPQPEYSLTVSGLAKEYEIGEQPIQLDLTLEAQGEMSAELTVYNHHQKPLASWSQAMTDGELKSITLELSEAKAGHHMLVSRIKDRDGNLQDQQTLDFMLVE HGYVSAVENGVAEGRVTLCKFAANGTGEKNTHCGAIQYEPQSVEGPDGFPVTGPRDGKIASAESALAAALDEQTADRWVKRPIQAGPQTFEWTFTANHVTKDWKYYITKPNWNPNQPLSRDAFDLNPFCVVEGNMVQPPKRVSHECIVPEREGYQVILAVWDVGDTAASFYNVIDVKFDPDWNPAGQIIPSMDLSIGDTVYTRVFDNDGENPAYRTELKIDSETLTKANQWSYALATKINQTQKQQRAGQLNGDQFVPVYGTNPIYLKEGSGLKSVEIGYQIEAPQPEYSLTVSGLAKEYEIGEQPIQLDLTLEAQGEMSAELTVYNHHQKPLASWSQAMTDGELKSITLELSEAKAGHHMLVSRIKDRDGNLQDQQTLDFMLVE 2xxc-a1-m2-cB_2xxc-a1-m1-cB Crystal structure of a camelid VHH raised against the HIV-1 capsid protein C-terminal domain. 1.67 X-RAY DIFFRACTION 59 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 114 114 AQVQLVESGGGLVQAGGSLRLSCAASGSFFMSNVMAWYRQAPGKARELIAAIRGGDMSTVYDDSVKGRFTITRDDDKNILYLQMNDLKPEDTAMYYCKASGSSWGQGTQVTVSS AQVQLVESGGGLVQAGGSLRLSCAASGSFFMSNVMAWYRQAPGKARELIAAIRGGDMSTVYDDSVKGRFTITRDDDKNILYLQMNDLKPEDTAMYYCKASGSSWGQGTQVTVSS 2xyb-a1-m1-cA_2xyb-a1-m2-cA CRYSTAL STRUCTURE OF A FULLY FUNCTIONAL LACCASE FROM THE LIGNINOLYTIC FUNGUS PYCNOPORUS CINNABARINUS Q9UVQ2 Q9UVQ2 1.75 X-RAY DIFFRACTION 28 1.0 5643 (Trametes cinnabarina) 5643 (Trametes cinnabarina) 497 497 AIGPVADLTLTNAQVSPDGFAREAVVVNGITPAPLITGNKGDRFQLNVIDQLTNHTMLKTSSIHWHGFFQQGTNWADGPAFVNQCPIASGHSFLYDFQVPDQAGTFWYHSHLSTQYCDGLRGPFVVYDPNDPHASLYDIDNDDTVITLADWYHVAAKLGPRFPFGSDSTLINGLGRTTGIAPSDLAVIKVTQGKRYRFRLVSLSCDPNHTFSIDNHTMTIIEADSINTQPLEVDSIQIFAAQRYSFVLDASQPVDNYWIRANPAFGNTGFAGGINSAILRYDGAPEIEPTSVQTTPTKPLNEVDLHPLSPMPVPGSPEPGGVDKPLNLVFNFNGTNFFINDHTFVPPSVPVLLQILSGAQAAQDLVPEGSVFVLPSNSSIEISFPATANAPGFPHPFHLHGHAFAVVRSAGSSVYNYDNPIFRDVVSTGQPGDNVTIRFETNNPGPWFLHCHIDFHLDAGFAVVMAEDTPDTKAANPVPQAWSDLCPIYDALDPSDL AIGPVADLTLTNAQVSPDGFAREAVVVNGITPAPLITGNKGDRFQLNVIDQLTNHTMLKTSSIHWHGFFQQGTNWADGPAFVNQCPIASGHSFLYDFQVPDQAGTFWYHSHLSTQYCDGLRGPFVVYDPNDPHASLYDIDNDDTVITLADWYHVAAKLGPRFPFGSDSTLINGLGRTTGIAPSDLAVIKVTQGKRYRFRLVSLSCDPNHTFSIDNHTMTIIEADSINTQPLEVDSIQIFAAQRYSFVLDASQPVDNYWIRANPAFGNTGFAGGINSAILRYDGAPEIEPTSVQTTPTKPLNEVDLHPLSPMPVPGSPEPGGVDKPLNLVFNFNGTNFFINDHTFVPPSVPVLLQILSGAQAAQDLVPEGSVFVLPSNSSIEISFPATANAPGFPHPFHLHGHAFAVVRSAGSSVYNYDNPIFRDVVSTGQPGDNVTIRFETNNPGPWFLHCHIDFHLDAGFAVVMAEDTPDTKAANPVPQAWSDLCPIYDALDPSDL 2xyl-a1-m1-cA_2xyl-a1-m2-cA CELLULOMONAS FIMI XYLANASE/CELLULASE COMPLEXED WITH 2-DEOXY-2-FLUORO-XYLOBIOSE P07986 P07986 1.9 X-RAY DIFFRACTION 24 1.0 1708 (Cellulomonas fimi) 1708 (Cellulomonas fimi) 312 312 ATTLKEAADGAGRDFGFALDPNRLSEAQYKAIADSEFNLVVAENAMKWDATEPSQNSFSFGAGDRVASYAADTGKELYGHTLVWHSQLPDWAKNLNGSAFESAMVNHVTKVADHFEGKVASWDVVNEAFADGGGRRQDSAFQQKLGNGYIETAFRAARAADPTAKLCINDYNVEGINAKSNSLYDLVKDFKARGVPLDCVGFQSHLIVGQVPGDFRQNLQRFADLGVDVRITELDIRMRTPSDATKLATQAADYKKVVQACMQVTRCQGVTVWGITDKYSWVPDVFPGEGAALVWDASYAKKPAYAAVMEAF ATTLKEAADGAGRDFGFALDPNRLSEAQYKAIADSEFNLVVAENAMKWDATEPSQNSFSFGAGDRVASYAADTGKELYGHTLVWHSQLPDWAKNLNGSAFESAMVNHVTKVADHFEGKVASWDVVNEAFADGGGRRQDSAFQQKLGNGYIETAFRAARAADPTAKLCINDYNVEGINAKSNSLYDLVKDFKARGVPLDCVGFQSHLIVGQVPGDFRQNLQRFADLGVDVRITELDIRMRTPSDATKLATQAADYKKVVQACMQVTRCQGVTVWGITDKYSWVPDVFPGEGAALVWDASYAKKPAYAAVMEAF 2xym-a1-m1-cA_2xym-a1-m2-cA HCV-JFH1 NS5B T385A mutant Q99IB8 Q99IB8 1.774 X-RAY DIFFRACTION 78 1.0 356411 (Hepatitis C virus JFH-1) 356411 (Hepatitis C virus JFH-1) 563 563 SMSYSWTGALITPCSPEEEKLPINPLSNSLLRYHNKVYCTTSKSASQRAKKVTFDRTQVLDAHYDSVLKDIKLAASKVSARLLTLEEACQLTPPHSARSKYGFGAKEVRSLSGRAVNHIKSVWKDLLEDPQTPIPTTIMAKNEVFCVDPAKGGKKPARLIVYPDLGVRVCEKMALYDITQKLPQAVMGASYGFQYSPAQRVEYLLKAWAEKKDPMGFSYDTRCFDSTVTERDIRTEESIYQACSLPEEARTAIHSLTERLYVGGPMFNSKGQTCGYRRCRASGVLTTSMGNTITCYVKALAACKAAGIVAPTMLVCGDDLVVISESQGTEEDERNLRAFTEAMTRYSAPPGDPPRPEYDLELITSCSSNVSVALGPRGRRRYYLARDPTTPLARAAWETVRHSPINSWLGNIIQYAPTIWVRMVLMTHFFSILMVQDTLDQNLNFEMYGSVYSVNPLDLPAIIERLHGLDAFSMHTYSHHELTRVASALRKLGAPPLRVWKSRARAVRASLISRGGKAAVCGRYLFNWAVKTKLKLTPLPEARLLDLSSWFTVGAGGGDIFHS SMSYSWTGALITPCSPEEEKLPINPLSNSLLRYHNKVYCTTSKSASQRAKKVTFDRTQVLDAHYDSVLKDIKLAASKVSARLLTLEEACQLTPPHSARSKYGFGAKEVRSLSGRAVNHIKSVWKDLLEDPQTPIPTTIMAKNEVFCVDPAKGGKKPARLIVYPDLGVRVCEKMALYDITQKLPQAVMGASYGFQYSPAQRVEYLLKAWAEKKDPMGFSYDTRCFDSTVTERDIRTEESIYQACSLPEEARTAIHSLTERLYVGGPMFNSKGQTCGYRRCRASGVLTTSMGNTITCYVKALAACKAAGIVAPTMLVCGDDLVVISESQGTEEDERNLRAFTEAMTRYSAPPGDPPRPEYDLELITSCSSNVSVALGPRGRRRYYLARDPTTPLARAAWETVRHSPINSWLGNIIQYAPTIWVRMVLMTHFFSILMVQDTLDQNLNFEMYGSVYSVNPLDLPAIIERLHGLDAFSMHTYSHHELTRVASALRKLGAPPLRVWKSRARAVRASLISRGGKAAVCGRYLFNWAVKTKLKLTPLPEARLLDLSSWFTVGAGGGDIFHS 2xz2-a1-m1-cA_2xz2-a1-m2-cA Crystal structure of CstF-50 homodimerization domain 1.4 X-RAY DIFFRACTION 85 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 66 66 HMRDEILDPSNLVKNREILYRLMISQLMYDGLEKFAMELSMLVKADQCAPSERLLHVMIAGMQTLS HMRDEILDPSNLVKNREILYRLMISQLMYDGLEKFAMELSMLVKADQCAPSERLLHVMIAGMQTLS 2xz7-a1-m1-cA_2xz7-a1-m2-cA CRYSTAL STRUCTURE OF THE PHOSPHOENOLPYRUVATE-BINDING DOMAIN OF ENZYME I IN COMPLEX WITH PHOSPHOENOLPYRUVATE FROM THE THERMOANAEROBACTER TENGCONGENSIS PEP-SUGAR PHOSPHOTRANSFERASE SYSTEM (PTS) Q8R7R4 Q8R7R4 1.83 X-RAY DIFFRACTION 159 1.0 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 324 324 2bg5-a1-m1-cA_2bg5-a1-m1-cB 2bg5-a2-m1-cC_2bg5-a2-m1-cD 2xz9-a1-m1-cB_2xz9-a1-m1-cA 6vbj-a1-m1-cA_6vbj-a1-m1-cB HMEGLKQLKDLPAETPDGKKVMLAANIGTPKDVASALANGAEGVGLFRTEFLYMDRNSLPSEEEQFEAYKEVVEKMGGRPVTIRTLDIGGDKELPYLDMPKEMNPFLGYRAIRLCLDRPDIFKTQLRAILRASAYGNVQIMYPMISSVEEVRKANSILEEVKAELDREGVKYDKEIKVGIMVEIPSAAVTADILAKEVDFFSIGTNDLTQYTLAVDRMNEHVKEYYQPFHPAILRLVKMVIDAAHKEGKFAAMCGEMAGDPLAAVILLGLGLDEFSMSATSIPEIKNIIRNVEYEKAKEIAEKALNMSEAREIEKMMKDVIKDI HMEGLKQLKDLPAETPDGKKVMLAANIGTPKDVASALANGAEGVGLFRTEFLYMDRNSLPSEEEQFEAYKEVVEKMGGRPVTIRTLDIGGDKELPYLDMPKEMNPFLGYRAIRLCLDRPDIFKTQLRAILRASAYGNVQIMYPMISSVEEVRKANSILEEVKAELDREGVKYDKEIKVGIMVEIPSAAVTADILAKEVDFFSIGTNDLTQYTLAVDRMNEHVKEYYQPFHPAILRLVKMVIDAAHKEGKFAAMCGEMAGDPLAAVILLGLGLDEFSMSATSIPEIKNIIRNVEYEKAKEIAEKALNMSEAREIEKMMKDVIKDI 2xz8-a1-m1-cB_2xz8-a1-m1-cA CRYSTAL STRUCTURE OF THE LFW ECTODOMAIN OF THE PEPTIDOGLYCAN RECOGNITION PROTEIN LF Q8SXQ7 Q8SXQ7 1.94 X-RAY DIFFRACTION 36 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 134 135 VKIVTRPYWLAQPPIVPLTPLKLPIESVRFVATNTPSCFTQAECTFRVRLLQNWHIESNGYKDINYNFVAAGDENIYEARGWDHSCEPPKDADELVVAFIGPSSSNKKIALELIKQGIKLGHISKNYSLIDDLE VKIVTRPYWLAQPPIVPLTPLKLPIESVRFVATNTPSCFTQAECTFRVRLLQNWHIESNGYKDINYNFVAAGDENIYEARGWDHSCEPPKDADELVVAFIGPSSSNKKIALELIKQGIKLGHISKNYSLIDDLEK 2xzp-a1-m2-cA_2xzp-a1-m3-cA Upf1 helicase Q92900 Q92900 2.72 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 621 621 2xzp-a1-m1-cA_2xzp-a1-m2-cA 2xzp-a1-m1-cA_2xzp-a1-m3-cA MRYEDAYQYQNIFGPLVKLEADYDKKLKESQTQDNITVRWDLGLNKKRIAYFTLPKTDSDMRLMQGDEICLRYKGDLAPLWKGIGHVIKVPDNYGDEIAIELRSSVGAPVEVTHNFQVDFVWKSTSFDRMQSALKTFAVDETSVSGYIYHKLLGHEVEDVIIKCQLPKRFTAQGLPDLNHSQVYAVKTVLQRPLSLIQGPPGTGKTVTSATIVYHLARQGNGPVLVCAPSNIAVDQLTEKIHQTGLKVVRLCAKSREAIDSPVSFLALHNQIRNMDSMPELQKLQQLKDETGELSSADEKRYRALKRTAERELLMNADVICCTCVGAGDPRLAKMQFRSILIDESTQATEPECMVPVVLGAKQLILVGDHCQLGPVVMCKKAAKAGLSQSLFERLVVLGIRPIRLQVQYRMHPALSAFPSNIFYEGSLQNGVTAADRVKKGFDFQWPQPDKPMFFYVTQGQEEIASSGTSYLNRTEAANVEKITTKLLKAGAKPDQIGIITPYEGQRSYLVQYMQFSGSLHTKLYQEVEIASVDAFQGREKDFIILSCVRANEHQGIGFLNDPRRLNVALTRARYGVIIVGNPKALSKQPLWNHLLNYYKEQKVLVEGPLNNLRESLMQFS MRYEDAYQYQNIFGPLVKLEADYDKKLKESQTQDNITVRWDLGLNKKRIAYFTLPKTDSDMRLMQGDEICLRYKGDLAPLWKGIGHVIKVPDNYGDEIAIELRSSVGAPVEVTHNFQVDFVWKSTSFDRMQSALKTFAVDETSVSGYIYHKLLGHEVEDVIIKCQLPKRFTAQGLPDLNHSQVYAVKTVLQRPLSLIQGPPGTGKTVTSATIVYHLARQGNGPVLVCAPSNIAVDQLTEKIHQTGLKVVRLCAKSREAIDSPVSFLALHNQIRNMDSMPELQKLQQLKDETGELSSADEKRYRALKRTAERELLMNADVICCTCVGAGDPRLAKMQFRSILIDESTQATEPECMVPVVLGAKQLILVGDHCQLGPVVMCKKAAKAGLSQSLFERLVVLGIRPIRLQVQYRMHPALSAFPSNIFYEGSLQNGVTAADRVKKGFDFQWPQPDKPMFFYVTQGQEEIASSGTSYLNRTEAANVEKITTKLLKAGAKPDQIGIITPYEGQRSYLVQYMQFSGSLHTKLYQEVEIASVDAFQGREKDFIILSCVRANEHQGIGFLNDPRRLNVALTRARYGVIIVGNPKALSKQPLWNHLLNYYKEQKVLVEGPLNNLRESLMQFS 2xzr-a1-m2-cA_2xzr-a1-m3-cA Escherichia coli Immunoglobulin-binding protein EibD 391-438 FUSED TO GCN4 ADAPTORS Q9MCI8 Q9MCI8 2.8 X-RAY DIFFRACTION 102 1.0 120163 (Enterobacteria phage P-EibD) 120163 (Enterobacteria phage P-EibD) 108 108 2xzr-a1-m1-cA_2xzr-a1-m2-cA 2xzr-a1-m1-cA_2xzr-a1-m3-cA KQIEDKIEEILSKIYHIENEIARIKKLIGAIDGRVTRNTQSIEKNSKAIAANTRTLQQHSARLDSQQRQINENHKEMKQIEDKIEEILSKIYHIENEIARIKKLIKLH KQIEDKIEEILSKIYHIENEIARIKKLIGAIDGRVTRNTQSIEKNSKAIAANTRTLQQHSARLDSQQRQINENHKEMKQIEDKIEEILSKIYHIENEIARIKKLIKLH 2xzz-a1-m10-cA_2xzz-a1-m9-cA Crystal structure of the human transglutaminase 1 beta-barrel domain P22735 P22735 2.3 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 2xzz-a1-m11-cA_2xzz-a1-m18-cA 2xzz-a1-m12-cA_2xzz-a1-m13-cA 2xzz-a1-m15-cA_2xzz-a1-m8-cA 2xzz-a1-m16-cA_2xzz-a1-m20-cA 2xzz-a1-m17-cA_2xzz-a1-m21-cA 2xzz-a1-m19-cA_2xzz-a1-m22-cA 2xzz-a1-m1-cA_2xzz-a1-m14-cA 2xzz-a1-m23-cA_2xzz-a1-m5-cA 2xzz-a1-m24-cA_2xzz-a1-m4-cA 2xzz-a1-m2-cA_2xzz-a1-m3-cA 2xzz-a1-m6-cA_2xzz-a1-m7-cA SMLSLTLLGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFVPVRPGPRQLIASLDSPQLSQVHGVIQVDVA SMLSLTLLGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFVPVRPGPRQLIASLDSPQLSQVHGVIQVDVA 2xzz-a1-m24-cA_2xzz-a1-m9-cA Crystal structure of the human transglutaminase 1 beta-barrel domain P22735 P22735 2.3 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 2xzz-a1-m10-cA_2xzz-a1-m14-cA 2xzz-a1-m10-cA_2xzz-a1-m15-cA 2xzz-a1-m11-cA_2xzz-a1-m22-cA 2xzz-a1-m11-cA_2xzz-a1-m4-cA 2xzz-a1-m12-cA_2xzz-a1-m19-cA 2xzz-a1-m12-cA_2xzz-a1-m2-cA 2xzz-a1-m13-cA_2xzz-a1-m14-cA 2xzz-a1-m13-cA_2xzz-a1-m15-cA 2xzz-a1-m16-cA_2xzz-a1-m5-cA 2xzz-a1-m16-cA_2xzz-a1-m7-cA 2xzz-a1-m17-cA_2xzz-a1-m23-cA 2xzz-a1-m17-cA_2xzz-a1-m9-cA 2xzz-a1-m18-cA_2xzz-a1-m5-cA 2xzz-a1-m18-cA_2xzz-a1-m7-cA 2xzz-a1-m19-cA_2xzz-a1-m6-cA 2xzz-a1-m1-cA_2xzz-a1-m22-cA 2xzz-a1-m1-cA_2xzz-a1-m4-cA 2xzz-a1-m20-cA_2xzz-a1-m21-cA 2xzz-a1-m20-cA_2xzz-a1-m3-cA 2xzz-a1-m21-cA_2xzz-a1-m8-cA 2xzz-a1-m23-cA_2xzz-a1-m24-cA 2xzz-a1-m2-cA_2xzz-a1-m6-cA 2xzz-a1-m3-cA_2xzz-a1-m8-cA SMLSLTLLGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFVPVRPGPRQLIASLDSPQLSQVHGVIQVDVA SMLSLTLLGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFVPVRPGPRQLIASLDSPQLSQVHGVIQVDVA 2xzz-a1-m4-cA_2xzz-a1-m9-cA Crystal structure of the human transglutaminase 1 beta-barrel domain P22735 P22735 2.3 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 2xzz-a1-m10-cA_2xzz-a1-m17-cA 2xzz-a1-m10-cA_2xzz-a1-m8-cA 2xzz-a1-m11-cA_2xzz-a1-m24-cA 2xzz-a1-m11-cA_2xzz-a1-m5-cA 2xzz-a1-m12-cA_2xzz-a1-m15-cA 2xzz-a1-m12-cA_2xzz-a1-m3-cA 2xzz-a1-m13-cA_2xzz-a1-m19-cA 2xzz-a1-m14-cA_2xzz-a1-m4-cA 2xzz-a1-m14-cA_2xzz-a1-m9-cA 2xzz-a1-m15-cA_2xzz-a1-m3-cA 2xzz-a1-m16-cA_2xzz-a1-m21-cA 2xzz-a1-m16-cA_2xzz-a1-m23-cA 2xzz-a1-m17-cA_2xzz-a1-m8-cA 2xzz-a1-m18-cA_2xzz-a1-m22-cA 2xzz-a1-m18-cA_2xzz-a1-m6-cA 2xzz-a1-m1-cA_2xzz-a1-m13-cA 2xzz-a1-m1-cA_2xzz-a1-m19-cA 2xzz-a1-m20-cA_2xzz-a1-m7-cA 2xzz-a1-m21-cA_2xzz-a1-m23-cA 2xzz-a1-m22-cA_2xzz-a1-m6-cA 2xzz-a1-m24-cA_2xzz-a1-m5-cA 2xzz-a1-m2-cA_2xzz-a1-m20-cA 2xzz-a1-m2-cA_2xzz-a1-m7-cA SMLSLTLLGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFVPVRPGPRQLIASLDSPQLSQVHGVIQVDVA SMLSLTLLGAAVVGQECEVQIVFKNPLPVTLTNVVFRLEGSGLQRPKILNVGDIGGNETVTLRQSFVPVRPGPRQLIASLDSPQLSQVHGVIQVDVA 2y03-a3-m1-cA_2y03-a3-m1-cB TURKEY BETA1 ADRENERGIC RECEPTOR WITH STABILISING MUTATIONS AND BOUND AGONIST ISOPRENALINE P07700 P07700 2.85 X-RAY DIFFRACTION 31 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 288 298 2vt4-a1-m1-cA_2vt4-a1-m1-cB 2vt4-a2-m1-cC_2vt4-a2-m1-cD 2y00-a3-m1-cA_2y00-a3-m1-cB 2y01-a3-m1-cA_2y01-a3-m1-cB 2y02-a3-m1-cA_2y02-a3-m1-cB 2y04-a3-m1-cA_2y04-a3-m1-cB AELLSQQWEAGMSLLMALVVLLIVAGNVLVIAAIGSTQRLQTLTNLFITSLACADLVVGLLVVPFGATLVVRGTWLWGSFLCELWTSLDVLCVTASIETLCVIAIDRYLAITSPFRYQSLMTRARAKVIICTVWAISALVSFLPIMMHWWRDEDPQALKCYQDPGCCDFVTNRAYAIASSIISFYIPLLIMIFVALRVYREAKEQIRSRVMLMREHKALKTLGIIMGVFTLCWLPFFLVNIVNVFNRDLVPDWLFVAFNWLGYANSAMNPIIYCRSPDFRKAFKRLLA AELLSQQWEAGMSLLMALVVLLIVAGNVLVIAAIGSTQRLQTLTNLFITSLACADLVVGLLVVPFGATLVVRGTWLWGSFLCELWTSLDVLCVTASIETLCVIAIDRYLAITSPFRYQSLMTRARAKVIICTVWAISALVSFLPIMMHWWRDEDPQALKCYQDPGCCDFVTNRAYAIASSIISFYIPLLIMIFVALRVYREAKEQIRKIDRASKRKTSRVMLMREHKALKTLGIIMGVFTLCWLPFFLVNIVNVFNRDLVPDWLFVAFNWLGYANSAMNPIIYCRSPDFRKAFKRLLA 2y0d-a1-m1-cB_2y0d-a1-m1-cD BceC mutation Y10K C9E261 C9E261 2.8 X-RAY DIFFRACTION 24 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 448 453 2y0d-a1-m1-cC_2y0d-a1-m1-cA SMNLTIIGSGKVGLVTGACLADIGHDVFCLDVDQAKIDILNNGGVPIHEPGLKEVIARNRSAGRLRFSTDIEAAVAHGDVQFIAVGTPSADLQYVLAAARNIGRYMTGFKVIVDKSTVPVGTAERVRAAVAEELAKRGGQMFSVVSNPEFLKEGAAVDDFTRPDRIVIGCDDDVPGERARELMKKLYAPFNRNHERTLYMDVRSAEFTKYAANAMLATRISFMNELANLADRFGADIEAVRRGIGSDPRIGYHFLYAGCGYGGSCFPKDVEALIRTADEHGQSLQILKAVSSVNATQKRVLADKIVARFGEDLTGRTFAIWGLAFKPNTDDMREAPSRELIAELLSRGARIAAYDPVAQEEARRVIALDLADHPSWLERLSFVDDEAQAARDADALVIVTEWKIFKSPDFVALGRLWKTPVIFDGRNLYEPETMSEQGIEYHPIGRPG SMNLTIIGSGKVGLVTGACLADIGHDVFCLDVDQAKIDILNNGGVPIHEPGLKEVIARNRSAGRLRFSTDIEAAVAHGDVQFIAVGTPPGSADLQYVLAAARNIGRYMTGFKVIVDKSTVPVGTAERVRAAVAEELAKRGGDQMFSVVSNPEFLKEGAAVDDFTRPDRIVIGCDDDVPGERARELMKKLYAPFNRNHERTLYMDVRSAEFTKYAANAMLATRISFMNELANLADRFGADIEAVRRGIGSDPRIGYHFLYAGCGYGGSCFPKDVEALIRTADEHGQSLQILKAVSSVNATQKRVLADKIVARFGEDLTGRTFAIWGLAFKPNTDDMREAPSRELIAELLSRGARIAAYDPVAQEEARRVIALDLADHPSWLERLSFVDDEAQAARDADALVIVTEWKIFKSPDFVALGRLWKTPVIFDGRNLYEPETMSEQGIEYHPIGRPGSR 2y0e-a2-m1-cB_2y0e-a2-m1-cA BceC and the final step of UGDs reaction C9E261 C9E261 1.75 X-RAY DIFFRACTION 185 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 451 461 2y0c-a1-m1-cB_2y0c-a1-m1-cA 2y0c-a2-m1-cD_2y0c-a2-m1-cC 2y0d-a1-m1-cB_2y0d-a1-m1-cA 2y0d-a1-m1-cC_2y0d-a1-m1-cD 2y0e-a1-m1-cD_2y0e-a1-m1-cC GSMNLTIIGSGYVGLVTGACLADIGHDVFCLDVDQAKIDILNNGGVPIHEPGLKEVIARNRSAGRLRFSTDIEAAVAHGDVQFIAVGTPPADLQYVLAAARNIGRYMTGFKVIVDKSTVPVGTAERVRAAVAEELAKRQMFSVVSNPEFLKEGAAVDDFTRPDRIVIGCDDDVPGERARELMKKLYAPFNRNHERTLYMDVRSAEFTKYAANAMLATRISFMNELANLADRFGADIEAVRRGIGSDPRIGYHFLYAGCGYGGSCFPKDVEALIRTADEHGQSLQILKAVSSVNATQKRVLADKIVARFGEDLTGRTFAIWGLAFKPNTDDMREAPSRELIAELLSRGARIAAYDPVAQEEARRVIALDLADHPSWLERLSFVDDEAQAARDADALVIVTEWKIFKSPDFVALGRLWKTPVIFDGRNLYEPETMSEQGIEYHPIGRPGSRQA GSMNLTIIGSGYVGLVTGACLADIGHDVFCLDVDQAKIDILNNGGVPIHEPGLKEVIARNRSAGRLRFSTDIEAAVAHGDVQFIAVGTPPDEDGSADLQYVLAAARNIGRYMTGFKVIVDKSTVPVGTAERVRAAVAEELAKRGGDQMFSVVSNPEFLKEGAAVDDFTRPDRIVIGCDDDVPGERARELMKKLYAPFNRNHERTLYMDVRSAEFTKYAANAMLATRISFMNELANLADRFGADIEAVRRGIGSDPRIGYHFLYAGCGYGGSCFPKDVEALIRTADEHGQSLQILKAVSSVNATQKRVLADKIVARFGEDLTGRTFAIWGLAFKPNTDDMREAPSRELIAELLSRGARIAAYDPVAQEEARRVIALDLADHPSWLERLSFVDDEAQAARDADALVIVTEWKIFKSPDFVALGRLWKTPVIFDGRNLYEPETMSEQGIEYHPIGRPGSRQAVA 2y0m-a1-m1-cA_2y0m-a1-m4-cA CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN DOSAGE COMPENSATION FACTORS MSL1 AND MOF Q9H7Z6 Q9H7Z6 2.7 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 2y0m-a1-m2-cA_2y0m-a1-m3-cA KYVDKIHIGNYEIDAWYFSPFPEDYGKQPKLWLCEYCLKYMKYEKSYRFHLGQCQWRQPPGKEIYRKSNISVYEVDGKDHKIYCQNLCLLAKLFLDHTLYFDVEPFVFYILTEVDRQGAHIVGYFSKEKESPDGNNVAILTLPPYQRRGYGKFLIAFSYELSKLESTVGSPEKPLSDLGKLSYRSYWSWVLLEILRDFRGTLSIKDLSQMTSITQNDIISTLQSLNMVKYWKGQHVIVTPKLVEEHLKSAQYKKPPITVDSVCLKWAPPK KYVDKIHIGNYEIDAWYFSPFPEDYGKQPKLWLCEYCLKYMKYEKSYRFHLGQCQWRQPPGKEIYRKSNISVYEVDGKDHKIYCQNLCLLAKLFLDHTLYFDVEPFVFYILTEVDRQGAHIVGYFSKEKESPDGNNVAILTLPPYQRRGYGKFLIAFSYELSKLESTVGSPEKPLSDLGKLSYRSYWSWVLLEILRDFRGTLSIKDLSQMTSITQNDIISTLQSLNMVKYWKGQHVIVTPKLVEEHLKSAQYKKPPITVDSVCLKWAPPK 2y0n-a1-m1-cD_2y0n-a1-m1-cB CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN DOSAGE COMPENSATION FACTORS MSL1 AND MSL3 Q8N5Y2 Q8N5Y2 3 X-RAY DIFFRACTION 27 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 164 165 2y0n-a1-m1-cC_2y0n-a1-m1-cA TITIEIPEVLKKQLEDDCYYINRRKRLVKLPCQTNIITILESYVKHFAINAAFPAEKNVDLCKEMVDGLRITFDYTLPLVLLYPYEQAQYKKVTSSEFDQPPPPSYIYGAQHLLRLFVKLPEILGKMSFSEKNLKALLKHFDLFLRFLAEYHDDFFPESAYVAA TITIEIPEVLKKQLEDDCYYINRRKRLVKLPCQTNIITILESYVKHFAINAAFSAAEKNVDLCKEMVDGLRITFDYTLPLVLLYPYEQAQYKKVTSSEFDQPPPPSYIYGAQHLLRLFVKLPEILGKMSFSEKNLKALLKHFDLFLRFLAEYHDDFFPESAYVAA 2y0n-a1-m1-cH_2y0n-a1-m1-cE CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN DOSAGE COMPENSATION FACTORS MSL1 AND MSL3 Q6PDM1 Q6PDM1 3 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 29 39 2y0n-a1-m1-cG_2y0n-a1-m1-cF VTSFFPITPFLPVVAFGRPLPKLAPQNFE PEVTSFFPESLLITPFLPVVAFGRPLPKLAPQNFELPWL 2y0n-a1-m1-cH_2y0n-a1-m1-cF CRYSTAL STRUCTURE OF THE COMPLEX BETWEEN DOSAGE COMPENSATION FACTORS MSL1 AND MSL3 Q6PDM1 Q6PDM1 3 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 29 36 2y0n-a1-m1-cG_2y0n-a1-m1-cE VTSFFPITPFLPVVAFGRPLPKLAPQNFE VTSFFPESLLITPFLPVVAFGRPLPKLAPQNFELPW 2y0o-a1-m1-cA_2y0o-a1-m2-cA The structure of a D-lyxose isomerase from the sigmaB regulon of Bacillus subtilis P96578 P96578 1.229 X-RAY DIFFRACTION 62 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 169 169 GITKEEVNSYYQKAGIVLTDEEVDQIQLDYGLGKERKVGLQLFVYVNTDRYCSKELVLFPGQTCPEHRHPPVDGQEGKQETFRCRYGKVYLYVEGEKTPLPKVLPPQEDREHYTVWHEIELEPGGQYTIPPNTKHWFQAGEEGAVVTESSTSTDKHDIFTDPRILEHHH GITKEEVNSYYQKAGIVLTDEEVDQIQLDYGLGKERKVGLQLFVYVNTDRYCSKELVLFPGQTCPEHRHPPVDGQEGKQETFRCRYGKVYLYVEGEKTPLPKVLPPQEDREHYTVWHEIELEPGGQYTIPPNTKHWFQAGEEGAVVTESSTSTDKHDIFTDPRILEHHH 2y0t-a1-m1-cA_2y0t-a1-m2-cA The mechanisms of HAMP-mediated signaling in transmembrane receptors - the A291F mutant O28769 O28769 1.3 X-RAY DIFFRACTION 20 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 52 52 TITRPIIELSNTFDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAM TITRPIIELSNTFDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAM 2y0t-a1-m2-cB_2y0t-a1-m2-cA The mechanisms of HAMP-mediated signaling in transmembrane receptors - the A291F mutant O28769 O28769 1.3 X-RAY DIFFRACTION 53 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 49 52 2y0t-a1-m1-cB_2y0t-a1-m1-cA ITRPIIELSNTFDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKV TITRPIIELSNTFDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAM 2y1h-a1-m1-cA_2y1h-a1-m1-cB Crystal structure of the human TatD-domain protein 3 (TATDN3) Q17R31 Q17R31 2.5 X-RAY DIFFRACTION 93 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 262 265 MGVGLVDCHCHLSAPDFDRDLDDVLEKAKKANVVALVAVAEHSGEFEKIMQLSERYNGFVLPCLGVHPVQRSVTLKDLDVALPIIENYKDRLLAIGEVGLDFSPRFAGTGEQKEEQRQVLIRQIQLAKRLNLPVNVHSRSAGRPTINLLQEQGAEKVLLHAFDGRPSVAMEGVRAGYFFSIPPSIIRSGQKQKLVKQLPLTSICLETDSPALGPEKQVRNEPWNISISAEYIAQVKGISVEEVIEVTTQNALKLFPKLRHLL GVGLVDCHCHLSAPDFDRDLDDVLEKAKKANVVALVAVAEHSGEFEKIMQLSERYNGFVLPCLGVHPVQGLDQRSVTLKDLDVALPIIENYKDRLLAIGEVGLDFSPRFAGTGEQKEEQRQVLIRQIQLAKRLNLPVNVHSRSAGRPTINLLQEQGAEKVLLHAFDGRPSVAMEGVRAGYFFSIPPSIIRSGQKQKLVKQLPLTSICLETDSPALGPEKQVRNEPWNISISAEYIAQVKGISVEEVIEVTTQNALKLFPKLRHLL 2y1y-a1-m1-cA_2y1y-a1-m2-cA Human alphaB crystallin ACD(residues 71-157) P02511 P02511 2 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 DRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSSSDGVLTVNGPRK DRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSSSDGVLTVNGPRK 2y1z-a1-m1-cA_2y1z-a1-m1-cB Human alphaB Crystallin ACD R120G P02511 P02511 2.5 X-RAY DIFFRACTION 62 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 85 87 EMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHGKYRIPADVDPLTITSSMSSDGVLTVNGPRKQ GAMEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHGKYRIPADVDPLTITSSMSSDGVLTVNGPRK 2y25-a2-m1-cC_2y25-a2-m3-cD Crystal structure of the myomesin domains My11-My13 P52179 P52179 3.5 X-RAY DIFFRACTION 49 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 310 314 2y25-a1-m1-cA_2y25-a1-m2-cB 2y25-a1-m2-cA_2y25-a1-m1-cB 2y25-a2-m3-cC_2y25-a2-m1-cD IDPFTGPHFVEYLSWEVTGECNVLLKCKVANIKKETHIVWYKDEREISVDEKGICTLLITEFSKKDAGIYEVILKDDRGKDKSRLKLVDEAFKELMMEVCKKIALSATDLKIQSTAEGIQLYSFVTYYVEDLKVNWSHNGSAIRYSDRVKTGVTGEQIWLQINEPTPNDKGKYVMELFDGKTGHQKTVDLSGQAYDEAYAEFQRLKQAAIAEKNRARVLGGLPDVVTIQEGKALNLTCNVWGDPPPEVSWLKNEKALASDDHCNLKFEAGRTAYFTINGVSTADSGKYGLVVKNKYGSETSDFTVSVFIP DPFTGPHFVEYLSWEVTGECNVLLKCKVANIKKETHIVWYKDEREISVDEKHDFKDGICTLLITEFSKKDAGIYEVILKDDRGKDKSRLKLVDEAFKELMMEVCKKIALSATDLKIQSTAEGIQLYSFVTYYVEDLKVNWSHNGSAIRYSDRVKTGVTGEQIWLQINEPTPNDKGKYVMELFDGKTGHQKTVDLSGQAYDEAYAEFQRLKQAAIAEKNRARVLGGLPDVVTIQEGKALNLTCNVWGDPPPEVSWLKNEKALASDDHCNLKFEAGRTAYFTINGVSTADSGKYGLVVKNKYGSETSDFTVSVFIP 2y25-a2-m3-cC_2y25-a2-m3-cD Crystal structure of the myomesin domains My11-My13 P52179 P52179 3.5 X-RAY DIFFRACTION 56 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 310 314 2r15-a1-m1-cA_2r15-a1-m1-cB 2y25-a1-m1-cA_2y25-a1-m1-cB 2y25-a1-m2-cA_2y25-a1-m2-cB 2y25-a2-m1-cC_2y25-a2-m1-cD IDPFTGPHFVEYLSWEVTGECNVLLKCKVANIKKETHIVWYKDEREISVDEKGICTLLITEFSKKDAGIYEVILKDDRGKDKSRLKLVDEAFKELMMEVCKKIALSATDLKIQSTAEGIQLYSFVTYYVEDLKVNWSHNGSAIRYSDRVKTGVTGEQIWLQINEPTPNDKGKYVMELFDGKTGHQKTVDLSGQAYDEAYAEFQRLKQAAIAEKNRARVLGGLPDVVTIQEGKALNLTCNVWGDPPPEVSWLKNEKALASDDHCNLKFEAGRTAYFTINGVSTADSGKYGLVVKNKYGSETSDFTVSVFIP DPFTGPHFVEYLSWEVTGECNVLLKCKVANIKKETHIVWYKDEREISVDEKHDFKDGICTLLITEFSKKDAGIYEVILKDDRGKDKSRLKLVDEAFKELMMEVCKKIALSATDLKIQSTAEGIQLYSFVTYYVEDLKVNWSHNGSAIRYSDRVKTGVTGEQIWLQINEPTPNDKGKYVMELFDGKTGHQKTVDLSGQAYDEAYAEFQRLKQAAIAEKNRARVLGGLPDVVTIQEGKALNLTCNVWGDPPPEVSWLKNEKALASDDHCNLKFEAGRTAYFTINGVSTADSGKYGLVVKNKYGSETSDFTVSVFIP 2y27-a1-m1-cA_2y27-a1-m1-cB crystal structure of PaaK1 in complex with ATP from Burkholderia cenocepacia B4E7B5 B4E7B5 1.6 X-RAY DIFFRACTION 85 0.998 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 415 417 2y4n-a1-m1-cB_2y4n-a1-m1-cA LEPIETASRDELTALQLERLKWSLRHAYDHSPVYRRKFDEAGVHPDDLKTLADLSRFPFTTKGDLRDSYPFGFAVPQDRISRIHASSGTTGKPTVVGYTAADIDTWANLVARSIRAAGARRGDKVHVSYGYGLFTGGLGAHYGAERAGLTVIPFGGGQTEKQVQLIQDFRPDIIVTPSYLSIADEIERQGLDPVQSSLRIGIFGAEPWTNDRVAIEQRGIDAVDIYGLSEVGPGVASECVETKDGPTIWEDHFYPEIIDPETGEVLPDGELGELVFTSLTKEALPIIRYRTRDLTRLLPGTARTRREKITGRSDDIVRGVNVFPTQIEEQLLKQRALAPHYQIVLTKEGPLDVLTLNVEPCPETAPDTAAIQVAKQALAYDIKSLIGVTAVINVLPVNGIERSVGKARRVVDKRK PLPLEPIETASRDELTALQLERLKWSLRHAYDHSPVYRRKFDEAGVHPDDLKTLADLSRFPFTTKGDLRDSYPFGFAVPQDRISRIHASSGTTGKPTVVGYTAADIDTWANLVARSIRAAGARRGDKVHVSYGYGLFTGGLGAHYGAERAGLTVIPFGGGQTEKQVQLIQDFRPDIIVTPSYLSIADEIERQGLDPVQSSLRIGIFGAEPWTNDRVAIEQRGIDAVDIYGLSEVGPGVASECVETKDGPTIWEDHFYPEIIDPETGEVLPDGELGELVFTSLTKEALPIIRYRTRDLTRLLPGTARTRREKITGRSDDIVRGVNVFPTQIEEQLLKQRALAPHYQIVLTKEGPLDVLTLNVEPCPETAPDTAAIQVAKQALAYDIKSLIGVTAVINVLPVNGIERSVGKARRVVDKR 2y2j-a1-m1-cA_2y2j-a1-m2-cA PENICILLIN-BINDING PROTEIN 1B (PBP-1B) IN COMPLEX WITH AN ALKYL BORONATE (ZA4) Q7CRA4 Q7CRA4 2.06 X-RAY DIFFRACTION 56 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 470 470 2y2k-a1-m1-cA_2y2k-a1-m2-cA 2y2n-a1-m1-cA_2y2n-a1-m2-cA ISEITYSDGTVIASISRDYLYFTTLAEAQERMYDYLAQRDNVSAKELKNEATQKFYRDLAAKEIENGGYKITTTIDQKIHSAMQSAVADYGYLLDDGTGRVEVGNVLMDNQTGAILGFVGGRNYQENQNNHAFDTKRSPASTTKPLLAYGIAIDQGLMGSETILSNYPTNFANGNPIMYANSKGTGMMTLGEALNYSWNIPAYWTYRMLRENGVDVKGYMEKMGYEIPEYGIESLPMGGGIEVTVAQHTNGYQTLANNGVYHQKHVISKIEAADGRVVYEYQDKPVQVYSKATATIMQGLLREVLSSRVTTTFKSNLTSLNPTLANADWIGKTGTTGQDENMWLMLSTPRLTLGGWIGHDDNHSLSQQAGYSNNSNYMAHLVNAIQQASPSIWGNERFALDPSVVKSEVLKSTGQKPGKVSVEGKEVEVTGSTVTSYWANKSGAPATSYRFAIGGSDADYQNAWSSIVGS ISEITYSDGTVIASISRDYLYFTTLAEAQERMYDYLAQRDNVSAKELKNEATQKFYRDLAAKEIENGGYKITTTIDQKIHSAMQSAVADYGYLLDDGTGRVEVGNVLMDNQTGAILGFVGGRNYQENQNNHAFDTKRSPASTTKPLLAYGIAIDQGLMGSETILSNYPTNFANGNPIMYANSKGTGMMTLGEALNYSWNIPAYWTYRMLRENGVDVKGYMEKMGYEIPEYGIESLPMGGGIEVTVAQHTNGYQTLANNGVYHQKHVISKIEAADGRVVYEYQDKPVQVYSKATATIMQGLLREVLSSRVTTTFKSNLTSLNPTLANADWIGKTGTTGQDENMWLMLSTPRLTLGGWIGHDDNHSLSQQAGYSNNSNYMAHLVNAIQQASPSIWGNERFALDPSVVKSEVLKSTGQKPGKVSVEGKEVEVTGSTVTSYWANKSGAPATSYRFAIGGSDADYQNAWSSIVGS 2y2o-a1-m1-cA_2y2o-a1-m2-cA PENICILLIN-BINDING PROTEIN 1B (PBP-1B) IN COMPLEX WITH AN ALKYL BORONATE (EO9) Q7CRA4 Q7CRA4 1.88 X-RAY DIFFRACTION 44 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 471 471 2xd5-a1-m1-cB_2xd5-a1-m1-cA 2y2g-a1-m1-cA_2y2g-a1-m1-cB 2y2h-a1-m1-cA_2y2h-a1-m1-cB 2y2i-a1-m1-cA_2y2i-a1-m2-cA 2y2l-a1-m1-cA_2y2l-a1-m1-cB 2y2m-a1-m1-cA_2y2m-a1-m2-cA 2y2p-a1-m1-cA_2y2p-a1-m2-cA 2y2q-a1-m1-cA_2y2q-a1-m1-cB ISEITYSDGTVIASISRDYLYFTTLAEAQERMYDYLAQRDNVSAKELKNEATQKFYRDLAAKEIENGGYKITTTIDQKIHSAMQSAVADYGYLLDDGTGRVEVGNVLMDNQTGAILGFVGGRNYQENQNNHAFDTKRSPASTTKPLLAYGIAIDQGLMGSETILSNYPTNFANGNPIMYANSKGTGMMTLGEALNYSWNIPAYWTYRMLRENGVDVKGYMEKMGYEIPEYGIESLPMGGGIEVTVAQHTNGYQTLANNGVYHQKHVISKIEAADGRVVYEYQDKPVQVYSKATATIMQGLLREVLSSRVTTTFKSNLTSLNPTLANADWIGKTGTTGQDENMWLMLSTPRLTLGGWIGHDDNHSLSQQAGYSNNSNYMAHLVNAIQQASPSIWGNERFALDPSVVKSEVLKSTGQKPGKVSVEGKEVEVTGSTVTSYWANKSGAPATSYRFAIGGSDADYQNAWSSIVGSL ISEITYSDGTVIASISRDYLYFTTLAEAQERMYDYLAQRDNVSAKELKNEATQKFYRDLAAKEIENGGYKITTTIDQKIHSAMQSAVADYGYLLDDGTGRVEVGNVLMDNQTGAILGFVGGRNYQENQNNHAFDTKRSPASTTKPLLAYGIAIDQGLMGSETILSNYPTNFANGNPIMYANSKGTGMMTLGEALNYSWNIPAYWTYRMLRENGVDVKGYMEKMGYEIPEYGIESLPMGGGIEVTVAQHTNGYQTLANNGVYHQKHVISKIEAADGRVVYEYQDKPVQVYSKATATIMQGLLREVLSSRVTTTFKSNLTSLNPTLANADWIGKTGTTGQDENMWLMLSTPRLTLGGWIGHDDNHSLSQQAGYSNNSNYMAHLVNAIQQASPSIWGNERFALDPSVVKSEVLKSTGQKPGKVSVEGKEVEVTGSTVTSYWANKSGAPATSYRFAIGGSDADYQNAWSSIVGSL 2y2w-a2-m1-cF_2y2w-a2-m1-cE Elucidation of the substrate specificity and protein structure of AbfB, a family 51 alpha-L-arabinofuranosidase from Bifidobacterium longum. Q8G554 Q8G554 2.5 X-RAY DIFFRACTION 72 0.994 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 518 519 2y2w-a1-m1-cA_2y2w-a1-m1-cD 2y2w-a1-m1-cC_2y2w-a1-m1-cA 2y2w-a1-m1-cC_2y2w-a1-m1-cD 2y2w-a2-m1-cB_2y2w-a2-m1-cE 2y2w-a2-m1-cB_2y2w-a2-m1-cF TPDASIALNADATPVADVPPRLFGSFVEHLGRCVYGGIYEPSHPTADENGFRQDVLDLVKELGVTCVRYPGGNFVSNYNWEDGIGPRENRPMRRDLAWHCTETNEMGIDDFYRWSQKAGTEIMLAVNMGTRGLKAALDELEYVNGAPGTAWADQRVANGIEEPMDIKMWCIGNEMDGPWQVGHMSPEEYAGAVDKVAHAMKLAESGLELVACGSSGAYMPTFGTWEKTVLTKAYENLDFVSCHAYYFDRGHKTRAAASMQDFLASSEDMTKFIATVSDAADQAREANNGTKDIALSFDEWGVWYSDKWNEQEDQWKAEAAQGLHHEPWPKSPHLLEDIYTAADAVVEGSLMITLLKHCDRVRSASRAQLVNVIAPIMAEEHGPAWRQTTFYPFAEAALHARGQAYAPAISSPTIHTEAYGDVPAIDAVVTWDEQARTGLLLAVNRDANTPHTLTIDLSGLPGTLALGKAQLLHEDDPYRTNTAEAPEAVTPQPLDIAMNTGTCTATLPAISWISVEFH NATTPDASIALNADATPVADVPPRLFGSFVEHLGRCVYGGIYEPSHPTADENGFRQDVLDLVKELGVTCVRYPGGNFVSNYNWEDGIGPRENRPMRRDLAWHCTETNEMGIDDFYRWSQKAGTEIMLAVNMGTRGLKAALDELEYVNGAPGTAWADQRVANGIEEPMDIKMWCIGNEMDGPWQVGHMSPEEYAGAVDKVAHAMKLAESGLELVACGSSGAYMPTFGTWEKTVLTKAYENLDFVSCHAYYFDRGHKTRAAASMQDFLASSEDMTKFIATVSDAADQAREANNGTKDIALSFDEWGVWYSDKWNEQEDQWKAEAAQGLHHEPWPKSPHLLEDIYTAADAVVEGSLMITLLKHCDRVRSASRAQLVNVIAPIMAEEHGPAWRQTTFYPFAEAALHARGQAYAPAISSPTIHTEAYGDVPAIDAVVTWDEQARTGLLLAVNRDANTPHTLTIDLSGLPTLALGKAQLLHEDDPYRTNTAEAPEAVTPQPLDIAMNTCTATLPAISWISVEFHG 2y32-a1-m1-cA_2y32-a1-m1-cD Crystal structure of bradavidin Q89IH6 Q89IH6 1.78 X-RAY DIFFRACTION 204 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 137 137 2y32-a1-m1-cB_2y32-a1-m1-cC 4bbo-a1-m1-cC_4bbo-a1-m1-cB 4bbo-a1-m1-cD_4bbo-a1-m1-cA QSVNWTWTNQYGSTLAITSFNSNTGAITGTYTNNAANSCDEGKPQGVTGWLAYGNTGTAISFSVNFLGCGSTTVWTGQLNNATGFQGLWYLSLAEAVAWNGISAGADTFTFSSGDKALLTKSGVDLKAGSEKLSNTK QSVNWTWTNQYGSTLAITSFNSNTGAITGTYTNNAANSCDEGKPQGVTGWLAYGNTGTAISFSVNFLGCGSTTVWTGQLNNATGFQGLWYLSLAEAVAWNGISAGADTFTFSSGDKALLTKSGVDLKAGSEKLSNTK 2y32-a1-m1-cD_2y32-a1-m1-cC Crystal structure of bradavidin Q89IH6 Q89IH6 1.78 X-RAY DIFFRACTION 25 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 137 138 2y32-a1-m1-cA_2y32-a1-m1-cB 4bbo-a1-m1-cA_4bbo-a1-m1-cB 4bbo-a1-m1-cD_4bbo-a1-m1-cC QSVNWTWTNQYGSTLAITSFNSNTGAITGTYTNNAANSCDEGKPQGVTGWLAYGNTGTAISFSVNFLGCGSTTVWTGQLNNATGFQGLWYLSLAEAVAWNGISAGADTFTFSSGDKALLTKSGVDLKAGSEKLSNTK QSVNWTWTNQYGSTLAITSFNSNTGAITGTYTNNAANSCDEGKPQGVTGWLAYGNTGTAISFSVNFLGCGSTTVWTGQLNNATGFQGLWYLSLAEAVAWNGISAGADTFTFSSGDKALLTKSGVDLKAGSEKLSNTKK 2y3j-a1-m1-cA_2y3j-a1-m1-cC Structure of segment AIIGLM from the amyloid-beta peptide (Ab, residues 30-35) P05067 P05067 1.99 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 AIIGLM AIIGLM 2y3j-a1-m1-cB_2y3j-a1-m1-cD Structure of segment AIIGLM from the amyloid-beta peptide (Ab, residues 30-35) P05067 P05067 1.99 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 AIIGLM AIIGLM 2y3j-a2-m1-cE_2y3j-a2-m1-cF Structure of segment AIIGLM from the amyloid-beta peptide (Ab, residues 30-35) P05067 P05067 1.99 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 AIIGLM AIIGLM 2y3j-a2-m1-cE_2y3j-a2-m1-cG Structure of segment AIIGLM from the amyloid-beta peptide (Ab, residues 30-35) P05067 P05067 1.99 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 AIIGLM AIIGLM 2y3j-a2-m1-cF_2y3j-a2-m1-cH Structure of segment AIIGLM from the amyloid-beta peptide (Ab, residues 30-35) P05067 P05067 1.99 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 AIIGLM AIIGLM 2y3k-a1-m1-cA_2y3k-a1-m1-cB Structure of segment MVGGVVIA from the amyloid-beta peptide (Ab, residues 35-42), alternate polymorph 1 P05067 P05067 1.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 MVGGVVIA MVGGVVIA 2y3k-a2-m1-cC_2y3k-a2-m1-cD Structure of segment MVGGVVIA from the amyloid-beta peptide (Ab, residues 35-42), alternate polymorph 1 P05067 P05067 1.9 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 MVGGVVIA MVGGVVIA 2y3k-a3-m1-cE_2y3k-a3-m1-cF Structure of segment MVGGVVIA from the amyloid-beta peptide (Ab, residues 35-42), alternate polymorph 1 P05067 P05067 1.9 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 MVGGVVIA MVGGVVIA 2y3k-a4-m1-cG_2y3k-a4-m1-cH Structure of segment MVGGVVIA from the amyloid-beta peptide (Ab, residues 35-42), alternate polymorph 1 P05067 P05067 1.9 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 MVGGVVIA MVGGVVIA 2y3l-a1-m1-cB_2y3l-a1-m1-cG Structure of segment MVGGVVIA from the amyloid-beta peptide (Ab, residues 35-42), alternate polymorph 2 P05067 P05067 2.1 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 2y3l-a1-m1-cA_2y3l-a1-m1-cC MVGGVVIA MVGGVVIA 2y3m-a1-m1-cA_2y3m-a1-m1-cB Structure of the extra-membranous domain of the secretin HofQ from Actinobacillus actinomycetemcomitans 2.3 X-RAY DIFFRACTION 103 0.985 714 (Aggregatibacter actinomycetemcomitans) 714 (Aggregatibacter actinomycetemcomitans) 135 138 QNPVFSIRLKQAPLVPTLQQLALAHNTNLIIDTVSLQLENVDLDQLFRSVAKIKQLDLWQENGIYYFTKAQLNTATIKLHFAKASEVMKSLTGGSGSLLSPNGSITFDDRSNLLLIQDEPRSVRNIKKLIKELDK NPVFSIRLKQAPLVPTLQQLALAHNTNLIIDDELQGTVSLQLENVDLDQLFRSVAKIKQLDLWQENGIYYFTKQLNTATIKLHFAKASEVMKSLTGGSGSLLSPNGSITFDDRSNLLLIQDEPRSVRNIKKLIKELDK 2y3q-a1-m2-cG_2y3q-a1-m2-cL 1.55A structure of apo bacterioferritin from E. coli P0ABD3 P0ABD3 1.55 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 157 157 1bcf-a1-m1-cA_1bcf-a1-m1-cL 1bcf-a1-m1-cA_1bcf-a1-m2-cL 1bcf-a1-m1-cB_1bcf-a1-m1-cD 1bcf-a1-m1-cB_1bcf-a1-m1-cH 1bcf-a1-m1-cC_1bcf-a1-m1-cK 1bcf-a1-m1-cC_1bcf-a1-m2-cI 1bcf-a1-m1-cD_1bcf-a1-m1-cF 1bcf-a1-m1-cE_1bcf-a1-m1-cJ 1bcf-a1-m1-cE_1bcf-a1-m2-cJ 1bcf-a1-m1-cF_1bcf-a1-m1-cH 1bcf-a1-m1-cG_1bcf-a1-m1-cI 1bcf-a1-m1-cG_1bcf-a1-m2-cK 1bcf-a1-m1-cI_1bcf-a1-m2-cC 1bcf-a1-m1-cJ_1bcf-a1-m2-cE 1bcf-a1-m1-cK_1bcf-a1-m2-cG 1bcf-a1-m1-cL_1bcf-a1-m2-cA 1bcf-a1-m2-cA_1bcf-a1-m2-cL 1bcf-a1-m2-cB_1bcf-a1-m2-cD 1bcf-a1-m2-cB_1bcf-a1-m2-cH 1bcf-a1-m2-cC_1bcf-a1-m2-cK 1bcf-a1-m2-cD_1bcf-a1-m2-cF 1bcf-a1-m2-cE_1bcf-a1-m2-cJ 1bcf-a1-m2-cF_1bcf-a1-m2-cH 1bcf-a1-m2-cG_1bcf-a1-m2-cI 1bfr-a1-m1-cA_1bfr-a1-m1-cL 1bfr-a1-m1-cA_1bfr-a1-m1-cX 1bfr-a1-m1-cB_1bfr-a1-m1-cD 1bfr-a1-m1-cB_1bfr-a1-m1-cH 1bfr-a1-m1-cC_1bfr-a1-m1-cK 1bfr-a1-m1-cC_1bfr-a1-m1-cU 1bfr-a1-m1-cD_1bfr-a1-m1-cF 1bfr-a1-m1-cE_1bfr-a1-m1-cJ 1bfr-a1-m1-cE_1bfr-a1-m1-cV 1bfr-a1-m1-cF_1bfr-a1-m1-cH 1bfr-a1-m1-cG_1bfr-a1-m1-cI 1bfr-a1-m1-cG_1bfr-a1-m1-cW 1bfr-a1-m1-cI_1bfr-a1-m1-cO 1bfr-a1-m1-cJ_1bfr-a1-m1-cQ 1bfr-a1-m1-cK_1bfr-a1-m1-cS 1bfr-a1-m1-cL_1bfr-a1-m1-cM 1bfr-a1-m1-cM_1bfr-a1-m1-cX 1bfr-a1-m1-cN_1bfr-a1-m1-cP 1bfr-a1-m1-cN_1bfr-a1-m1-cT 1bfr-a1-m1-cO_1bfr-a1-m1-cW 1bfr-a1-m1-cP_1bfr-a1-m1-cR 1bfr-a1-m1-cQ_1bfr-a1-m1-cV 1bfr-a1-m1-cR_1bfr-a1-m1-cT 1bfr-a1-m1-cS_1bfr-a1-m1-cU 2htn-a1-m1-cA_2htn-a1-m1-cH 2htn-a1-m1-cA_2htn-a1-m3-cB 2htn-a1-m1-cB_2htn-a1-m2-cA 2htn-a1-m1-cB_2htn-a1-m2-cC 2htn-a1-m1-cC_2htn-a1-m1-cH 2htn-a1-m1-cC_2htn-a1-m3-cB 2htn-a1-m1-cD_2htn-a1-m1-cE 2htn-a1-m1-cD_2htn-a1-m3-cG 2htn-a1-m1-cE_2htn-a1-m3-cF 2htn-a1-m1-cF_2htn-a1-m1-cG 2htn-a1-m1-cF_2htn-a1-m2-cE 2htn-a1-m1-cG_2htn-a1-m2-cD 2htn-a1-m2-cA_2htn-a1-m2-cH 2htn-a1-m2-cB_2htn-a1-m3-cA 2htn-a1-m2-cB_2htn-a1-m3-cC 2htn-a1-m2-cC_2htn-a1-m2-cH 2htn-a1-m2-cD_2htn-a1-m2-cE 2htn-a1-m2-cF_2htn-a1-m2-cG 2htn-a1-m2-cF_2htn-a1-m3-cE 2htn-a1-m2-cG_2htn-a1-m3-cD 2htn-a1-m3-cA_2htn-a1-m3-cH 2htn-a1-m3-cC_2htn-a1-m3-cH 2htn-a1-m3-cD_2htn-a1-m3-cE 2htn-a1-m3-cF_2htn-a1-m3-cG 2vxi-a1-m1-cA_2vxi-a1-m1-cD 2vxi-a1-m1-cA_2vxi-a1-m1-cJ 2vxi-a1-m1-cB_2vxi-a1-m1-cE 2vxi-a1-m1-cB_2vxi-a1-m2-cE 2vxi-a1-m1-cC_2vxi-a1-m1-cF 2vxi-a1-m1-cC_2vxi-a1-m2-cH 2vxi-a1-m1-cD_2vxi-a1-m1-cK 2vxi-a1-m1-cE_2vxi-a1-m2-cB 2vxi-a1-m1-cF_2vxi-a1-m2-cI 2vxi-a1-m1-cG_2vxi-a1-m1-cL 2vxi-a1-m1-cG_2vxi-a1-m2-cL 2vxi-a1-m1-cH_2vxi-a1-m1-cI 2vxi-a1-m1-cH_2vxi-a1-m2-cC 2vxi-a1-m1-cI_2vxi-a1-m2-cF 2vxi-a1-m1-cJ_2vxi-a1-m1-cK 2vxi-a1-m1-cL_2vxi-a1-m2-cG 2vxi-a1-m2-cA_2vxi-a1-m2-cD 2vxi-a1-m2-cA_2vxi-a1-m2-cJ 2vxi-a1-m2-cB_2vxi-a1-m2-cE 2vxi-a1-m2-cC_2vxi-a1-m2-cF 2vxi-a1-m2-cD_2vxi-a1-m2-cK 2vxi-a1-m2-cG_2vxi-a1-m2-cL 2vxi-a1-m2-cH_2vxi-a1-m2-cI 2vxi-a1-m2-cJ_2vxi-a1-m2-cK 2y3q-a1-m1-cA_2y3q-a1-m1-cD 2y3q-a1-m1-cA_2y3q-a1-m1-cJ 2y3q-a1-m1-cB_2y3q-a1-m1-cE 2y3q-a1-m1-cB_2y3q-a1-m2-cE 2y3q-a1-m1-cC_2y3q-a1-m1-cF 2y3q-a1-m1-cC_2y3q-a1-m2-cH 2y3q-a1-m1-cD_2y3q-a1-m1-cK 2y3q-a1-m1-cE_2y3q-a1-m2-cB 2y3q-a1-m1-cF_2y3q-a1-m2-cI 2y3q-a1-m1-cG_2y3q-a1-m1-cL 2y3q-a1-m1-cG_2y3q-a1-m2-cL 2y3q-a1-m1-cH_2y3q-a1-m1-cI 2y3q-a1-m1-cH_2y3q-a1-m2-cC 2y3q-a1-m1-cI_2y3q-a1-m2-cF 2y3q-a1-m1-cJ_2y3q-a1-m1-cK 2y3q-a1-m1-cL_2y3q-a1-m2-cG 2y3q-a1-m2-cA_2y3q-a1-m2-cD 2y3q-a1-m2-cA_2y3q-a1-m2-cJ 2y3q-a1-m2-cB_2y3q-a1-m2-cE 2y3q-a1-m2-cC_2y3q-a1-m2-cF 2y3q-a1-m2-cD_2y3q-a1-m2-cK 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4xku-a1-m1-cL_4xku-a1-m2-cG 4xku-a1-m2-cA_4xku-a1-m2-cD 4xku-a1-m2-cA_4xku-a1-m2-cJ 4xku-a1-m2-cB_4xku-a1-m2-cE 4xku-a1-m2-cD_4xku-a1-m2-cK 4xku-a1-m2-cF_4xku-a1-m1-cI 4xku-a1-m2-cF_4xku-a1-m2-cC 4xku-a1-m2-cG_4xku-a1-m2-cL 4xku-a1-m2-cH_4xku-a1-m2-cI 4xku-a1-m2-cJ_4xku-a1-m2-cK 6p8k-a1-m1-cA_6p8k-a1-m1-cC 6p8k-a1-m1-cA_6p8k-a1-m2-cC 6p8k-a1-m1-cB_6p8k-a1-m1-cG 6p8k-a1-m1-cB_6p8k-a1-m1-cJ 6p8k-a1-m1-cC_6p8k-a1-m2-cA 6p8k-a1-m1-cD_6p8k-a1-m1-cH 6p8k-a1-m1-cD_6p8k-a1-m2-cI 6p8k-a1-m1-cE_6p8k-a1-m1-cI 6p8k-a1-m1-cE_6p8k-a1-m2-cH 6p8k-a1-m1-cF_6p8k-a1-m1-cL 6p8k-a1-m1-cF_6p8k-a1-m2-cL 6p8k-a1-m1-cG_6p8k-a1-m1-cK 6p8k-a1-m1-cH_6p8k-a1-m2-cE 6p8k-a1-m1-cI_6p8k-a1-m2-cD 6p8k-a1-m1-cJ_6p8k-a1-m1-cK 6p8k-a1-m1-cL_6p8k-a1-m2-cF 6p8k-a1-m2-cA_6p8k-a1-m2-cC 6p8k-a1-m2-cB_6p8k-a1-m2-cG 6p8k-a1-m2-cB_6p8k-a1-m2-cJ 6p8k-a1-m2-cD_6p8k-a1-m2-cH 6p8k-a1-m2-cE_6p8k-a1-m2-cI 6p8k-a1-m2-cF_6p8k-a1-m2-cL 6p8k-a1-m2-cG_6p8k-a1-m2-cK 6p8k-a1-m2-cJ_6p8k-a1-m2-cK 6p8l-a1-m1-cA_6p8l-a1-m1-cC 6p8l-a1-m1-cA_6p8l-a1-m2-cC 6p8l-a1-m1-cB_6p8l-a1-m1-cG 6p8l-a1-m1-cB_6p8l-a1-m1-cJ 6p8l-a1-m1-cC_6p8l-a1-m2-cA 6p8l-a1-m1-cD_6p8l-a1-m1-cH 6p8l-a1-m1-cD_6p8l-a1-m2-cI 6p8l-a1-m1-cE_6p8l-a1-m1-cI 6p8l-a1-m1-cE_6p8l-a1-m2-cH 6p8l-a1-m1-cF_6p8l-a1-m1-cL 6p8l-a1-m1-cF_6p8l-a1-m2-cL 6p8l-a1-m1-cG_6p8l-a1-m1-cK 6p8l-a1-m1-cH_6p8l-a1-m2-cE 6p8l-a1-m1-cI_6p8l-a1-m2-cD 6p8l-a1-m1-cJ_6p8l-a1-m1-cK 6p8l-a1-m1-cL_6p8l-a1-m2-cF 6p8l-a1-m2-cA_6p8l-a1-m2-cC 6p8l-a1-m2-cB_6p8l-a1-m2-cG 6p8l-a1-m2-cB_6p8l-a1-m2-cJ 6p8l-a1-m2-cD_6p8l-a1-m2-cH 6p8l-a1-m2-cE_6p8l-a1-m2-cI 6p8l-a1-m2-cF_6p8l-a1-m2-cL 6p8l-a1-m2-cG_6p8l-a1-m2-cK 6p8l-a1-m2-cJ_6p8l-a1-m2-cK MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREE MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREE 2y3q-a1-m2-cJ_2y3q-a1-m2-cL 1.55A structure of apo bacterioferritin from E. coli P0ABD3 P0ABD3 1.55 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 157 157 1bcf-a1-m1-cA_1bcf-a1-m1-cH 1bcf-a1-m1-cA_1bcf-a1-m2-cK 1bcf-a1-m1-cB_1bcf-a1-m1-cC 1bcf-a1-m1-cB_1bcf-a1-m1-cL 1bcf-a1-m1-cC_1bcf-a1-m1-cL 1bcf-a1-m1-cD_1bcf-a1-m1-cE 1bcf-a1-m1-cD_1bcf-a1-m2-cI 1bcf-a1-m1-cE_1bcf-a1-m2-cI 1bcf-a1-m1-cF_1bcf-a1-m1-cG 1bcf-a1-m1-cF_1bcf-a1-m1-cJ 1bcf-a1-m1-cG_1bcf-a1-m1-cJ 1bcf-a1-m1-cH_1bcf-a1-m2-cK 1bcf-a1-m1-cI_1bcf-a1-m2-cD 1bcf-a1-m1-cI_1bcf-a1-m2-cE 1bcf-a1-m1-cK_1bcf-a1-m2-cA 1bcf-a1-m1-cK_1bcf-a1-m2-cH 1bcf-a1-m2-cA_1bcf-a1-m2-cH 1bcf-a1-m2-cB_1bcf-a1-m2-cC 1bcf-a1-m2-cB_1bcf-a1-m2-cL 1bcf-a1-m2-cC_1bcf-a1-m2-cL 1bcf-a1-m2-cD_1bcf-a1-m2-cE 1bcf-a1-m2-cF_1bcf-a1-m2-cG 1bcf-a1-m2-cF_1bcf-a1-m2-cJ 1bcf-a1-m2-cG_1bcf-a1-m2-cJ 1bfr-a1-m1-cA_1bfr-a1-m1-cH 1bfr-a1-m1-cA_1bfr-a1-m1-cW 1bfr-a1-m1-cB_1bfr-a1-m1-cC 1bfr-a1-m1-cB_1bfr-a1-m1-cL 1bfr-a1-m1-cC_1bfr-a1-m1-cL 1bfr-a1-m1-cD_1bfr-a1-m1-cE 1bfr-a1-m1-cD_1bfr-a1-m1-cU 1bfr-a1-m1-cE_1bfr-a1-m1-cU 1bfr-a1-m1-cF_1bfr-a1-m1-cG 1bfr-a1-m1-cF_1bfr-a1-m1-cJ 1bfr-a1-m1-cG_1bfr-a1-m1-cJ 1bfr-a1-m1-cH_1bfr-a1-m1-cW 1bfr-a1-m1-cI_1bfr-a1-m1-cP 1bfr-a1-m1-cI_1bfr-a1-m1-cQ 1bfr-a1-m1-cK_1bfr-a1-m1-cM 1bfr-a1-m1-cK_1bfr-a1-m1-cT 1bfr-a1-m1-cM_1bfr-a1-m1-cT 1bfr-a1-m1-cN_1bfr-a1-m1-cO 1bfr-a1-m1-cN_1bfr-a1-m1-cX 1bfr-a1-m1-cO_1bfr-a1-m1-cX 1bfr-a1-m1-cP_1bfr-a1-m1-cQ 1bfr-a1-m1-cR_1bfr-a1-m1-cS 1bfr-a1-m1-cR_1bfr-a1-m1-cV 1bfr-a1-m1-cS_1bfr-a1-m1-cV 2htn-a1-m1-cA_2htn-a1-m1-cG 2htn-a1-m1-cA_2htn-a1-m2-cC 2htn-a1-m1-cB_2htn-a1-m2-cB 2htn-a1-m1-cB_2htn-a1-m3-cB 2htn-a1-m1-cC_2htn-a1-m3-cA 2htn-a1-m1-cC_2htn-a1-m3-cG 2htn-a1-m1-cD_2htn-a1-m1-cF 2htn-a1-m1-cD_2htn-a1-m1-cH 2htn-a1-m1-cE_2htn-a1-m2-cE 2htn-a1-m1-cE_2htn-a1-m3-cE 2htn-a1-m1-cF_2htn-a1-m1-cH 2htn-a1-m1-cG_2htn-a1-m2-cC 2htn-a1-m2-cA_2htn-a1-m2-cG 2htn-a1-m2-cA_2htn-a1-m3-cC 2htn-a1-m2-cB_2htn-a1-m3-cB 2htn-a1-m2-cD_2htn-a1-m2-cF 2htn-a1-m2-cD_2htn-a1-m2-cH 2htn-a1-m2-cE_2htn-a1-m3-cE 2htn-a1-m2-cF_2htn-a1-m2-cH 2htn-a1-m2-cG_2htn-a1-m3-cC 2htn-a1-m3-cA_2htn-a1-m3-cG 2htn-a1-m3-cD_2htn-a1-m3-cF 2htn-a1-m3-cD_2htn-a1-m3-cH 2htn-a1-m3-cF_2htn-a1-m3-cH 2vxi-a1-m1-cA_2vxi-a1-m1-cI 2vxi-a1-m1-cA_2vxi-a1-m2-cE 2vxi-a1-m1-cB_2vxi-a1-m1-cD 2vxi-a1-m1-cB_2vxi-a1-m1-cF 2vxi-a1-m1-cC_2vxi-a1-m1-cK 2vxi-a1-m1-cC_2vxi-a1-m2-cG 2vxi-a1-m1-cD_2vxi-a1-m1-cF 2vxi-a1-m1-cE_2vxi-a1-m2-cA 2vxi-a1-m1-cE_2vxi-a1-m2-cI 2vxi-a1-m1-cG_2vxi-a1-m2-cC 2vxi-a1-m1-cG_2vxi-a1-m2-cK 2vxi-a1-m1-cH_2vxi-a1-m1-cJ 2vxi-a1-m1-cH_2vxi-a1-m1-cL 2vxi-a1-m1-cI_2vxi-a1-m2-cE 2vxi-a1-m1-cJ_2vxi-a1-m1-cL 2vxi-a1-m1-cK_2vxi-a1-m2-cG 2vxi-a1-m2-cA_2vxi-a1-m2-cI 2vxi-a1-m2-cB_2vxi-a1-m2-cD 2vxi-a1-m2-cB_2vxi-a1-m2-cF 2vxi-a1-m2-cC_2vxi-a1-m2-cK 2vxi-a1-m2-cD_2vxi-a1-m2-cF 2vxi-a1-m2-cH_2vxi-a1-m2-cJ 2vxi-a1-m2-cH_2vxi-a1-m2-cL 2vxi-a1-m2-cJ_2vxi-a1-m2-cL 2y3q-a1-m1-cA_2y3q-a1-m1-cI 2y3q-a1-m1-cA_2y3q-a1-m2-cE 2y3q-a1-m1-cB_2y3q-a1-m1-cD 2y3q-a1-m1-cB_2y3q-a1-m1-cF 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4xkt-a1-m2-cH_4xkt-a1-m2-cJ 4xkt-a1-m2-cH_4xkt-a1-m2-cL 4xkt-a1-m2-cJ_4xkt-a1-m2-cL 4xku-a1-m1-cA_4xku-a1-m1-cI 4xku-a1-m1-cA_4xku-a1-m2-cE 4xku-a1-m1-cB_4xku-a1-m1-cD 4xku-a1-m1-cC_4xku-a1-m1-cK 4xku-a1-m1-cC_4xku-a1-m2-cG 4xku-a1-m1-cE_4xku-a1-m2-cI 4xku-a1-m1-cF_4xku-a1-m1-cB 4xku-a1-m1-cF_4xku-a1-m1-cD 4xku-a1-m1-cG_4xku-a1-m2-cC 4xku-a1-m1-cG_4xku-a1-m2-cK 4xku-a1-m1-cH_4xku-a1-m1-cJ 4xku-a1-m1-cH_4xku-a1-m1-cL 4xku-a1-m1-cI_4xku-a1-m2-cE 4xku-a1-m1-cJ_4xku-a1-m1-cL 4xku-a1-m1-cK_4xku-a1-m2-cG 4xku-a1-m2-cA_4xku-a1-m1-cE 4xku-a1-m2-cA_4xku-a1-m2-cI 4xku-a1-m2-cB_4xku-a1-m2-cD 4xku-a1-m2-cC_4xku-a1-m2-cK 4xku-a1-m2-cF_4xku-a1-m2-cB 4xku-a1-m2-cF_4xku-a1-m2-cD 4xku-a1-m2-cH_4xku-a1-m2-cJ 4xku-a1-m2-cH_4xku-a1-m2-cL 4xku-a1-m2-cJ_4xku-a1-m2-cL 6p8k-a1-m1-cA_6p8k-a1-m1-cJ 6p8k-a1-m1-cA_6p8k-a1-m2-cD 6p8k-a1-m1-cB_6p8k-a1-m1-cC 6p8k-a1-m1-cB_6p8k-a1-m1-cH 6p8k-a1-m1-cC_6p8k-a1-m1-cH 6p8k-a1-m1-cD_6p8k-a1-m2-cA 6p8k-a1-m1-cD_6p8k-a1-m2-cJ 6p8k-a1-m1-cE_6p8k-a1-m2-cG 6p8k-a1-m1-cE_6p8k-a1-m2-cL 6p8k-a1-m1-cF_6p8k-a1-m1-cI 6p8k-a1-m1-cF_6p8k-a1-m1-cK 6p8k-a1-m1-cG_6p8k-a1-m1-cL 6p8k-a1-m1-cG_6p8k-a1-m2-cE 6p8k-a1-m1-cI_6p8k-a1-m1-cK 6p8k-a1-m1-cJ_6p8k-a1-m2-cD 6p8k-a1-m1-cL_6p8k-a1-m2-cE 6p8k-a1-m2-cA_6p8k-a1-m2-cJ 6p8k-a1-m2-cB_6p8k-a1-m2-cC 6p8k-a1-m2-cB_6p8k-a1-m2-cH 6p8k-a1-m2-cC_6p8k-a1-m2-cH 6p8k-a1-m2-cF_6p8k-a1-m2-cI 6p8k-a1-m2-cF_6p8k-a1-m2-cK 6p8k-a1-m2-cG_6p8k-a1-m2-cL 6p8k-a1-m2-cI_6p8k-a1-m2-cK 6p8l-a1-m1-cA_6p8l-a1-m1-cJ 6p8l-a1-m1-cA_6p8l-a1-m2-cD 6p8l-a1-m1-cB_6p8l-a1-m1-cC 6p8l-a1-m1-cB_6p8l-a1-m1-cH 6p8l-a1-m1-cC_6p8l-a1-m1-cH 6p8l-a1-m1-cD_6p8l-a1-m2-cA 6p8l-a1-m1-cD_6p8l-a1-m2-cJ 6p8l-a1-m1-cE_6p8l-a1-m2-cG 6p8l-a1-m1-cE_6p8l-a1-m2-cL 6p8l-a1-m1-cF_6p8l-a1-m1-cI 6p8l-a1-m1-cF_6p8l-a1-m1-cK 6p8l-a1-m1-cG_6p8l-a1-m1-cL 6p8l-a1-m1-cG_6p8l-a1-m2-cE 6p8l-a1-m1-cI_6p8l-a1-m1-cK 6p8l-a1-m1-cJ_6p8l-a1-m2-cD 6p8l-a1-m1-cL_6p8l-a1-m2-cE 6p8l-a1-m2-cA_6p8l-a1-m2-cJ 6p8l-a1-m2-cB_6p8l-a1-m2-cC 6p8l-a1-m2-cB_6p8l-a1-m2-cH 6p8l-a1-m2-cC_6p8l-a1-m2-cH 6p8l-a1-m2-cF_6p8l-a1-m2-cI 6p8l-a1-m2-cF_6p8l-a1-m2-cK 6p8l-a1-m2-cG_6p8l-a1-m2-cL 6p8l-a1-m2-cI_6p8l-a1-m2-cK MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREE MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREE 2y3q-a1-m2-cK_2y3q-a1-m2-cL 1.55A structure of apo bacterioferritin from E. coli P0ABD3 P0ABD3 1.55 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 157 157 1bcf-a1-m1-cA_1bcf-a1-m1-cB 1bcf-a1-m1-cC_1bcf-a1-m1-cD 1bcf-a1-m1-cE_1bcf-a1-m1-cF 1bcf-a1-m1-cG_1bcf-a1-m1-cH 1bcf-a1-m1-cI_1bcf-a1-m1-cJ 1bcf-a1-m1-cK_1bcf-a1-m1-cL 1bcf-a1-m2-cA_1bcf-a1-m2-cB 1bcf-a1-m2-cC_1bcf-a1-m2-cD 1bcf-a1-m2-cE_1bcf-a1-m2-cF 1bcf-a1-m2-cG_1bcf-a1-m2-cH 1bcf-a1-m2-cI_1bcf-a1-m2-cJ 1bcf-a1-m2-cK_1bcf-a1-m2-cL 1bfr-a1-m1-cA_1bfr-a1-m1-cB 1bfr-a1-m1-cC_1bfr-a1-m1-cD 1bfr-a1-m1-cE_1bfr-a1-m1-cF 1bfr-a1-m1-cG_1bfr-a1-m1-cH 1bfr-a1-m1-cI_1bfr-a1-m1-cJ 1bfr-a1-m1-cK_1bfr-a1-m1-cL 1bfr-a1-m1-cM_1bfr-a1-m1-cN 1bfr-a1-m1-cO_1bfr-a1-m1-cP 1bfr-a1-m1-cQ_1bfr-a1-m1-cR 1bfr-a1-m1-cS_1bfr-a1-m1-cT 1bfr-a1-m1-cU_1bfr-a1-m1-cV 1bfr-a1-m1-cW_1bfr-a1-m1-cX 2htn-a1-m1-cA_2htn-a1-m1-cB 2htn-a1-m1-cC_2htn-a1-m1-cD 2htn-a1-m1-cE_2htn-a1-m1-cF 2htn-a1-m1-cG_2htn-a1-m1-cH 2htn-a1-m2-cA_2htn-a1-m2-cB 2htn-a1-m2-cC_2htn-a1-m2-cD 2htn-a1-m2-cE_2htn-a1-m2-cF 2htn-a1-m2-cG_2htn-a1-m2-cH 2htn-a1-m3-cA_2htn-a1-m3-cB 2htn-a1-m3-cC_2htn-a1-m3-cD 2htn-a1-m3-cE_2htn-a1-m3-cF 2htn-a1-m3-cG_2htn-a1-m3-cH 2vxi-a1-m1-cA_2vxi-a1-m1-cB 2vxi-a1-m1-cC_2vxi-a1-m1-cD 2vxi-a1-m1-cE_2vxi-a1-m1-cF 2vxi-a1-m1-cG_2vxi-a1-m1-cH 2vxi-a1-m1-cI_2vxi-a1-m1-cJ 2vxi-a1-m1-cK_2vxi-a1-m1-cL 2vxi-a1-m2-cA_2vxi-a1-m2-cB 2vxi-a1-m2-cC_2vxi-a1-m2-cD 2vxi-a1-m2-cE_2vxi-a1-m2-cF 2vxi-a1-m2-cG_2vxi-a1-m2-cH 2vxi-a1-m2-cI_2vxi-a1-m2-cJ 2vxi-a1-m2-cK_2vxi-a1-m2-cL 2y3q-a1-m1-cA_2y3q-a1-m1-cB 2y3q-a1-m1-cC_2y3q-a1-m1-cD 2y3q-a1-m1-cE_2y3q-a1-m1-cF 2y3q-a1-m1-cG_2y3q-a1-m1-cH 2y3q-a1-m1-cI_2y3q-a1-m1-cJ 2y3q-a1-m1-cK_2y3q-a1-m1-cL 2y3q-a1-m2-cA_2y3q-a1-m2-cB 2y3q-a1-m2-cC_2y3q-a1-m2-cD 2y3q-a1-m2-cE_2y3q-a1-m2-cF 2y3q-a1-m2-cG_2y3q-a1-m2-cH 2y3q-a1-m2-cI_2y3q-a1-m2-cJ 3e1j-a1-m1-cA_3e1j-a1-m1-cB 3e1j-a1-m1-cC_3e1j-a1-m1-cD 3e1j-a1-m1-cE_3e1j-a1-m1-cF 3e1j-a1-m1-cG_3e1j-a1-m1-cH 3e1j-a1-m1-cI_3e1j-a1-m1-cJ 3e1j-a1-m1-cK_3e1j-a1-m1-cL 3e1j-a1-m2-cA_3e1j-a1-m2-cB 3e1j-a1-m2-cC_3e1j-a1-m2-cD 3e1j-a1-m2-cE_3e1j-a1-m2-cF 3e1j-a1-m2-cG_3e1j-a1-m2-cH 3e1j-a1-m2-cI_3e1j-a1-m2-cJ 3e1j-a1-m2-cK_3e1j-a1-m2-cL 3e1l-a1-m1-cA_3e1l-a1-m1-cB 3e1l-a1-m1-cC_3e1l-a1-m1-cD 3e1l-a1-m1-cE_3e1l-a1-m1-cF 3e1l-a1-m1-cG_3e1l-a1-m1-cH 3e1l-a1-m1-cI_3e1l-a1-m1-cJ 3e1l-a1-m1-cK_3e1l-a1-m1-cL 3e1l-a1-m2-cA_3e1l-a1-m2-cB 3e1l-a1-m2-cC_3e1l-a1-m2-cD 3e1l-a1-m2-cE_3e1l-a1-m2-cF 3e1l-a1-m2-cG_3e1l-a1-m2-cH 3e1l-a1-m2-cI_3e1l-a1-m2-cJ 3e1l-a1-m2-cK_3e1l-a1-m2-cL 3e1m-a1-m1-cA_3e1m-a1-m1-cB 3e1m-a1-m1-cC_3e1m-a1-m1-cD 3e1m-a1-m1-cE_3e1m-a1-m1-cF 3e1m-a1-m1-cG_3e1m-a1-m1-cH 3e1m-a1-m1-cI_3e1m-a1-m1-cJ 3e1m-a1-m1-cK_3e1m-a1-m1-cL 3e1m-a1-m2-cA_3e1m-a1-m2-cB 3e1m-a1-m2-cC_3e1m-a1-m2-cD 3e1m-a1-m2-cE_3e1m-a1-m2-cF 3e1m-a1-m2-cG_3e1m-a1-m2-cH 3e1m-a1-m2-cI_3e1m-a1-m2-cJ 3e1m-a1-m2-cK_3e1m-a1-m2-cL 3e1n-a1-m1-cA_3e1n-a1-m1-cB 3e1n-a1-m1-cC_3e1n-a1-m1-cD 3e1n-a1-m1-cE_3e1n-a1-m1-cF 3e1n-a1-m1-cG_3e1n-a1-m1-cH 3e1n-a1-m1-cI_3e1n-a1-m1-cJ 3e1n-a1-m1-cK_3e1n-a1-m1-cL 3e1n-a1-m2-cA_3e1n-a1-m2-cB 3e1n-a1-m2-cC_3e1n-a1-m2-cD 3e1n-a1-m2-cE_3e1n-a1-m2-cF 3e1n-a1-m2-cG_3e1n-a1-m2-cH 3e1n-a1-m2-cI_3e1n-a1-m2-cJ 3e1n-a1-m2-cK_3e1n-a1-m2-cL 3e1o-a1-m1-cA_3e1o-a1-m1-cB 3e1o-a1-m1-cC_3e1o-a1-m1-cD 3e1o-a1-m1-cE_3e1o-a1-m1-cF 3e1o-a1-m1-cG_3e1o-a1-m1-cH 3e1o-a1-m1-cI_3e1o-a1-m1-cJ 3e1o-a1-m1-cK_3e1o-a1-m1-cL 3e1o-a1-m2-cA_3e1o-a1-m2-cB 3e1o-a1-m2-cC_3e1o-a1-m2-cD 3e1o-a1-m2-cE_3e1o-a1-m2-cF 3e1o-a1-m2-cG_3e1o-a1-m2-cH 3e1o-a1-m2-cI_3e1o-a1-m2-cJ 3e1o-a1-m2-cK_3e1o-a1-m2-cL 3e1p-a1-m1-cA_3e1p-a1-m1-cB 3e1p-a1-m1-cC_3e1p-a1-m1-cD 3e1p-a1-m1-cE_3e1p-a1-m1-cF 3e1p-a1-m1-cG_3e1p-a1-m1-cH 3e1p-a1-m1-cI_3e1p-a1-m1-cJ 3e1p-a1-m1-cK_3e1p-a1-m1-cL 3e1p-a1-m2-cA_3e1p-a1-m2-cB 3e1p-a1-m2-cC_3e1p-a1-m2-cD 3e1p-a1-m2-cE_3e1p-a1-m2-cF 3e1p-a1-m2-cG_3e1p-a1-m2-cH 3e1p-a1-m2-cI_3e1p-a1-m2-cJ 3e1p-a1-m2-cK_3e1p-a1-m2-cL 3e1q-a1-m1-cA_3e1q-a1-m1-cB 3e1q-a1-m1-cC_3e1q-a1-m1-cD 3e1q-a1-m1-cE_3e1q-a1-m1-cF 3e1q-a1-m1-cG_3e1q-a1-m1-cH 3e1q-a1-m1-cI_3e1q-a1-m1-cJ 3e1q-a1-m1-cK_3e1q-a1-m1-cL 3e1q-a1-m2-cA_3e1q-a1-m2-cB 3e1q-a1-m2-cC_3e1q-a1-m2-cD 3e1q-a1-m2-cE_3e1q-a1-m2-cF 3e1q-a1-m2-cG_3e1q-a1-m2-cH 3e1q-a1-m2-cI_3e1q-a1-m2-cJ 3e1q-a1-m2-cK_3e1q-a1-m2-cL 3e2c-a1-m1-cA_3e2c-a1-m1-cB 3ghq-a1-m1-cA_3ghq-a1-m1-cB 3ghq-a1-m1-cC_3ghq-a1-m1-cD 3ghq-a1-m1-cE_3ghq-a1-m1-cF 3ghq-a1-m1-cG_3ghq-a1-m1-cH 3ghq-a1-m1-cI_3ghq-a1-m1-cJ 3ghq-a1-m1-cK_3ghq-a1-m1-cL 3ghq-a1-m2-cA_3ghq-a1-m2-cB 3ghq-a1-m2-cC_3ghq-a1-m2-cD 3ghq-a1-m2-cE_3ghq-a1-m2-cF 3ghq-a1-m2-cG_3ghq-a1-m2-cH 3ghq-a1-m2-cI_3ghq-a1-m2-cJ 3ghq-a1-m2-cK_3ghq-a1-m2-cL 4cvp-a1-m1-cA_4cvp-a1-m2-cA 4cvr-a1-m1-cA_4cvr-a1-m2-cA 4cvs-a1-m1-cA_4cvs-a1-m2-cA 4cvt-a1-m1-cA_4cvt-a1-m2-cA 4u3g-a1-m1-cA_4u3g-a1-m1-cB 4u3g-a1-m1-cC_4u3g-a1-m1-cD 4u3g-a1-m1-cE_4u3g-a1-m1-cF 4u3g-a1-m1-cG_4u3g-a1-m1-cH 4u3g-a1-m1-cI_4u3g-a1-m1-cJ 4u3g-a1-m1-cK_4u3g-a1-m1-cL 4u3g-a1-m2-cA_4u3g-a1-m2-cB 4u3g-a1-m2-cC_4u3g-a1-m2-cD 4u3g-a1-m2-cE_4u3g-a1-m2-cF 4u3g-a1-m2-cG_4u3g-a1-m2-cH 4u3g-a1-m2-cI_4u3g-a1-m2-cJ 4u3g-a1-m2-cK_4u3g-a1-m2-cL 4xks-a1-m1-cA_4xks-a1-m1-cB 4xks-a1-m1-cC_4xks-a1-m1-cD 4xks-a1-m1-cE_4xks-a1-m1-cF 4xks-a1-m1-cG_4xks-a1-m1-cH 4xks-a1-m1-cI_4xks-a1-m1-cJ 4xks-a1-m1-cK_4xks-a1-m2-cK 4xks-a1-m1-cL_4xks-a1-m2-cL 4xks-a1-m2-cA_4xks-a1-m2-cB 4xks-a1-m2-cC_4xks-a1-m2-cD 4xks-a1-m2-cE_4xks-a1-m2-cF 4xks-a1-m2-cG_4xks-a1-m2-cH 4xks-a1-m2-cI_4xks-a1-m2-cJ 4xkt-a1-m1-cA_4xkt-a1-m1-cB 4xkt-a1-m1-cC_4xkt-a1-m1-cD 4xkt-a1-m1-cF_4xkt-a1-m1-cE 4xkt-a1-m1-cG_4xkt-a1-m1-cH 4xkt-a1-m1-cI_4xkt-a1-m1-cJ 4xkt-a1-m1-cK_4xkt-a1-m1-cL 4xkt-a1-m2-cA_4xkt-a1-m2-cB 4xkt-a1-m2-cC_4xkt-a1-m2-cD 4xkt-a1-m2-cF_4xkt-a1-m2-cE 4xkt-a1-m2-cG_4xkt-a1-m2-cH 4xkt-a1-m2-cI_4xkt-a1-m2-cJ 4xkt-a1-m2-cK_4xkt-a1-m2-cL 4xku-a1-m1-cA_4xku-a1-m1-cB 4xku-a1-m1-cC_4xku-a1-m1-cD 4xku-a1-m1-cF_4xku-a1-m1-cE 4xku-a1-m1-cG_4xku-a1-m1-cH 4xku-a1-m1-cI_4xku-a1-m1-cJ 4xku-a1-m1-cK_4xku-a1-m1-cL 4xku-a1-m2-cA_4xku-a1-m2-cB 4xku-a1-m2-cC_4xku-a1-m2-cD 4xku-a1-m2-cF_4xku-a1-m2-cE 4xku-a1-m2-cG_4xku-a1-m2-cH 4xku-a1-m2-cI_4xku-a1-m2-cJ 4xku-a1-m2-cK_4xku-a1-m2-cL 6p8k-a1-m1-cA_6p8k-a1-m1-cB 6p8k-a1-m1-cC_6p8k-a1-m1-cD 6p8k-a1-m1-cE_6p8k-a1-m1-cF 6p8k-a1-m1-cG_6p8k-a1-m1-cH 6p8k-a1-m1-cI_6p8k-a1-m1-cJ 6p8k-a1-m1-cK_6p8k-a1-m1-cL 6p8k-a1-m2-cA_6p8k-a1-m2-cB 6p8k-a1-m2-cC_6p8k-a1-m2-cD 6p8k-a1-m2-cE_6p8k-a1-m2-cF 6p8k-a1-m2-cG_6p8k-a1-m2-cH 6p8k-a1-m2-cI_6p8k-a1-m2-cJ 6p8k-a1-m2-cK_6p8k-a1-m2-cL 6p8l-a1-m1-cA_6p8l-a1-m1-cB 6p8l-a1-m1-cC_6p8l-a1-m1-cD 6p8l-a1-m1-cE_6p8l-a1-m1-cF 6p8l-a1-m1-cG_6p8l-a1-m1-cH 6p8l-a1-m1-cI_6p8l-a1-m1-cJ 6p8l-a1-m1-cK_6p8l-a1-m1-cL 6p8l-a1-m2-cA_6p8l-a1-m2-cB 6p8l-a1-m2-cC_6p8l-a1-m2-cD 6p8l-a1-m2-cE_6p8l-a1-m2-cF 6p8l-a1-m2-cG_6p8l-a1-m2-cH 6p8l-a1-m2-cI_6p8l-a1-m2-cJ 6p8l-a1-m2-cK_6p8l-a1-m2-cL MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREE MKGDTKVINYLNKLLGNELVAINQYFLHARMFKNWGLKRLNDVEYHESIDEMKHADRYIERILFLEGLPNLQDLGKLNIGEDVEEMLRSDLALELDGAKNLREAIGYADSVHDYVSRDMMIEILRDEEGHIDWLETELDLIQKMGLQNYLQAQIREE 2y3r-a2-m1-cD_2y3r-a2-m1-cC Structure of the tirandamycin-bound FAD-dependent tirandamycin oxidase TamL in P21 space group D3Y1I2 D3Y1I2 1.79 X-RAY DIFFRACTION 98 0.998 529089 (Streptomyces sp. 307-9) 529089 (Streptomyces sp. 307-9) 491 492 2y08-a1-m1-cA_2y08-a1-m1-cB 2y3r-a1-m1-cB_2y3r-a1-m1-cA 2y3s-a1-m1-cB_2y3s-a1-m1-cA 2y4g-a1-m1-cA_2y4g-a1-m1-cB DSVAPGDIRYEDLRRGENLRFVGDPEEIHLVGSAAEIEQVLSRAVRSGKRVAVRSGGHCYEDFVANSDVRVVMDMSRLSAVGFDEERGAFAVEAGATLGAVYKTLFRVWGVTLPGGACPDVGAGGHILGGGYGPLSRMHGSIVDYLHAVEVVVVDASGDARTVIATREPSDPNHDLWWAHTGGGGGNFGVVVRYWLRTAPPEPGRLLPRPPAEVLLNTTVWPWEGLDEAAFARLVRNHGRWFEQNSGPDSPWCDLYSVLALTRSQSGALAMTTQLDATGPDAEKRLETYLAAVSEGVGVQPHSDTRRLPWLHSTRWPGIAGDGDMTGRAKIKAAYARRSFDDRQIGTLYTRLTSTYDNPAGVVALIAYGGKVNAVPADRTAVAQRDSILKIVYVTTWEDPAQDPVHVRWIRELYRDVYADTGGVPVPGGAADGAYVNYPDVDLADEEWNTSGVPWSELYYKDAYPRLQAVKARWDPRNVFRHALSVRVPPA DSVAPGDIRYEDLRRGENLRFVGDPEEIHLVGSAAEIEQVLSRAVRSGKRVAVRSGGHCYEDFVANSDVRVVMDMSRLSAVGFDEERGAFAVEAGATLGAVYKTLFRVWGVTLPGGACPDVGAGGHILGGGYGPLSRMHGSIVDYLHAVEVVVVDASGDARTVIATREPSDPNHDLWWAHTGGGGGNFGVVVRYWLRTAEPPEPGRLLPRPPAEVLLNTTVWPWEGLDEAAFARLVRNHGRWFEQNSGPDSPWCDLYSVLALTRSQSGALAMTTQLDATGPDAEKRLETYLAAVSEGVGVQPHSDTRRLPWLHSTRWPGIAGDGDMTGRAKIKAAYARRSFDDRQIGTLYTRLTSTDDNPAGVVALIAYGGKVNAVPADRTAVAQRDSILKIVYVTTWEDPAQDPVHVRWIRELYRDVYADTGGVPVPGGAADGAYVNYPDVDLADEEWNTSGVPWSELYYKDAYPRLQAVKARWDPRNVFRHALSVRVPPA 2y43-a1-m1-cA_2y43-a1-m1-cB Rad18 ubiquitin ligase RING domain structure Q9NS91 Q9NS91 1.8 X-RAY DIFFRACTION 66 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 RWPPGLAVMKTIDDLLRCGICFEYFNIAMIIPQCSHNYCSLCIRKFLSYKTQCPTCCVTVTEPDLKNNRILDELVKSLNFARNHLLQF SRWPPGLAVMKTIDDLLRCGICFEYFNIAMIIPQCSHNYCSLCIRKFLSYKTQCPTCCVTVTEPDLKNNRILDELVKSLNFARNHLLQ 2y4o-a1-m1-cB_2y4o-a1-m1-cA Crystal Structure of PaaK2 in complex with phenylacetyl adenylate B4EL89 B4EL89 1.9 X-RAY DIFFRACTION 111 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 432 433 HPAAALEPIETASRDELQALQLERLKWSLRHAYDNVPHYRRTFDAAGVHPDDLKSLADLAKFPFSTKNDLRDNYPFGLFAVPREQVVRVHASSGTTGKPTVVGYTARDIDTWANVTARSIRAAGGRPGDTLHNAFGYGLFTGGLGIHYGAERLGCMVVPMSGGQTEKQVQLIRDFEPKIILVTPSYMLNLIDEMVRQGMDPAESSLKIGIFGAEPWTQALRNEVETRVGIDALDIYGLSEVMGPGVACECVETKDGPVIWEDHFYPEIIDPVTGEVLPDGSQGELVFTSLTKEAMPVIRYRTRDLTALLPPTARAMRRLAKITGRSDDMLIVRGVNVFPSQIEEIVVALPLLSGQFQITLSRDGHMDRLDLAVELRSEAAASVTDGERAALARELQHRIKTMVGVSSGVTVLAAGGIPATATGKARRVIDRR HPAAALEPIETASRDELQALQLERLKWSLRHAYDNVPHYRRTFDAAGVHPDDLKSLADLAKFPFSTKNDLRDNYPFGLFAVPREQVVRVHASSGTTGKPTVVGYTARDIDTWANVTARSIRAAGGRPGDTLHNAFGYGLFTGGLGIHYGAERLGCMVVPMSGGQTEKQVQLIRDFEPKIILVTPSYMLNLIDEMVRQGMDPAESSLKIGIFGAEPWTQALRNEVETRVGIDALDIYGLSEVMGPGVACECVETKDGPVIWEDHFYPEIIDPVTGEVLPDGSQGELVFTSLTKEAMPVIRYRTRDLTALLPPTARAMRRLAKITGRSDDMLIVRGVNVFPSQIEEIVVALPLLSGQFQITLSRDGHMDRLDLAVELRSEAAASVTDGERAALARELQHRIKTMVGVSSGVTVLAAGGIPATATGKARRVIDRRQ 2y4r-a1-m1-cA_2y4r-a1-m1-cB CRYSTAL STRUCTURE OF 4-AMINO-4-DEOXYCHORISMATE LYASE FROM PSEUDOMONAS AERUGINOSA Q9HZN6 Q9HZN6 1.75 X-RAY DIFFRACTION 164 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 270 270 LDWVDGRPAAELSVRDRGLAYGDGLFETLAVRAGTPRLLERHLARLEEGCRRLAIPLDTAALRQELLAFCAALGDGVAKLIVTRGEGLRGYAPPAEASPRRILSGSPRPAYPERHWQQGVRLFACRTRLAEQPLLAGLKHLNRLEQVLARAEWSDAGHAEGLMLDVHERVVEGVFSNLLLVLDGTLVAPDLRRCGVAGVMRAELLERAEGIGVPLAIRDVSMAELATADEVFLCNSQFGIWPVRALDEHVWPVGELTRKLQDQLRDDLDF LDWVDGRPAAELSVRDRGLAYGDGLFETLAVRAGTPRLLERHLARLEEGCRRLAIPLDTAALRQELLAFCAALGDGVAKLIVTRGEGLRGYAPPAEASPRRILSGSPRPAYPERHWQQGVRLFACRTRLAEQPLLAGLKHLNRLEQVLARAEWSDAGHAEGLMLDVHERVVEGVFSNLLLVLDGTLVAPDLRRCGVAGVMRAELLERAEGIGVPLAIRDVSMAELATADEVFLCNSQFGIWPVRALDEHVWPVGELTRKLQDQLRDDLDF 2y4u-a2-m2-cA_2y4u-a2-m3-cA Crystal structure of human P58(IPK) in space group P312 Q13217 Q13217 3.2 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 416 416 2y4u-a2-m1-cA_2y4u-a2-m2-cA 2y4u-a2-m1-cA_2y4u-a2-m3-cA QSADVEKHLELGKKLLAAGQLADALSQFHAAVDGDPDNYIAYYRRATVFLAGKSKAALPDLTKVIQLKDFTAARLQRGHLLLKQGKLDEAEDDFKKVLKSNPSENEEKEAQSQLIKSDEQRLRSQALNAFGSGDYTAAIAFLDKILEVCVWDAELRELRAECFIKEGEPRKAISDLKAASKLKNDNTEAFYKISTLYYQLGDHELSLSEVRECLKLDQDHKRCFAHYKQVKKLNKLIESAEELIRDGRYTDATSKYESVKTEPSIAEYTVRSKERICHCFSKDEKPVEAIRVCSEVLQEPDNVNALKDRAEAYLIEEYDEAIQDYETAQEHNENDQQIREGLEKAQRLLKQSQKRDYYKILGVKRNAKKQEIIKAYRKLALQWHPDNFQNEEEKKKAEKKFIDIAAAKEVLSDPER QSADVEKHLELGKKLLAAGQLADALSQFHAAVDGDPDNYIAYYRRATVFLAGKSKAALPDLTKVIQLKDFTAARLQRGHLLLKQGKLDEAEDDFKKVLKSNPSENEEKEAQSQLIKSDEQRLRSQALNAFGSGDYTAAIAFLDKILEVCVWDAELRELRAECFIKEGEPRKAISDLKAASKLKNDNTEAFYKISTLYYQLGDHELSLSEVRECLKLDQDHKRCFAHYKQVKKLNKLIESAEELIRDGRYTDATSKYESVKTEPSIAEYTVRSKERICHCFSKDEKPVEAIRVCSEVLQEPDNVNALKDRAEAYLIEEYDEAIQDYETAQEHNENDQQIREGLEKAQRLLKQSQKRDYYKILGVKRNAKKQEIIKAYRKLALQWHPDNFQNEEEKKKAEKKFIDIAAAKEVLSDPER 2y4y-a1-m1-cB_2y4y-a1-m2-cB Structure of a domain from the type IV pilus biogenesis lipoprotein PilP, from Pseudomonas aeruginosa G3XCX7 G3XCX7 1.7 X-RAY DIFFRACTION 28 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 76 76 RVKQFLEGFNIETFEMVGTLSNAQGTFALVKGAGGVHRVRVGDYLGRNDGKVVGISEGKIDVIEIVLERPRSLTLK RVKQFLEGFNIETFEMVGTLSNAQGTFALVKGAGGVHRVRVGDYLGRNDGKVVGISEGKIDVIEIVLERPRSLTLK 2y4y-a1-m1-cB_2y4y-a1-m2-cD Structure of a domain from the type IV pilus biogenesis lipoprotein PilP, from Pseudomonas aeruginosa G3XCX7 G3XCX7 1.7 X-RAY DIFFRACTION 30 0.987 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 76 80 2y4y-a1-m2-cB_2y4y-a1-m1-cD RVKQFLEGFNIETFEMVGTLSNAQGTFALVKGAGGVHRVRVGDYLGRNDGKVVGISEGKIDVIEIVLERPRSLTLK KPDRVKQFLEGFNIETFEMVGTLSNAQGTFALVKGAGGVHRVRVGDYLGRNDGKVVGISEGKIDVIEIVPWLERPRSLTL 2y4y-a1-m2-cB_2y4y-a1-m2-cC Structure of a domain from the type IV pilus biogenesis lipoprotein PilP, from Pseudomonas aeruginosa G3XCX7 G3XCX7 1.7 X-RAY DIFFRACTION 16 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 76 79 2y4y-a1-m1-cB_2y4y-a1-m1-cC RVKQFLEGFNIETFEMVGTLSNAQGTFALVKGAGGVHRVRVGDYLGRNDGKVVGISEGKIDVIEIVLERPRSLTLK HMRVKQFLEGFNIETFEMVGTLSNAQGTFALVKGAGGVHRVRVGDYLGRNDGKVVGISEGKIDVIEIVWLERPRSLTLK 2y5d-a1-m1-cA_2y5d-a1-m1-cB Crystal structure of C296A mutant of the box pathway encoded ALDH from Burkholderia xenovorans LB400 Q13WK4 Q13WK4 1.4 X-RAY DIFFRACTION 265 0.994 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 521 527 2vro-a1-m1-cA_2vro-a1-m1-cB 2y51-a1-m1-cB_2y51-a1-m1-cA 2y52-a1-m1-cA_2y52-a1-m1-cB 2y53-a1-m1-cB_2y53-a1-m1-cA HMTELLKNHVAGQWIAGTGAGITLTDPVTGVALVRVSSEGLDLARAFSFAREDGGAALRALTYAQRAARLADIVKLLQAKRGDYYAIATANSGTTRNDSAVDIDGGIFTLSYYAKLGASLGEVHALRDGSAESLSKDRSFSAQHVLSPTRGVALFINAFNFPSWGLWEKAAPALLSGVPVIVKPATATAWLTQRMVADVVDAGILPPGALSIICGSSAGLLDQIRSFDVVSFTGSADTAATLRAHPAFVQRGARLNVEADSLNSAILCADATPDTPAFDLFIKEVVREMTVKSGQKATAIRRAFVPEAALEPVLEALKAKLAKITVGNPRNDAVRMGSLVSREQYENVLAGIAALREEAVLAYDSSAVPLIDADANIAACVAPHLFVVNDPDNATLLHDVEVFGPVASVAPYRVTTDTLPEAHAVALARRGQGSLVASIYSNDDAHLGRLALELADSHGRVHAISPSVQHSQTGHGNVMPMSLHGGPGRAGGGEELGGLRALAFYHRRSAIQAASAAIGTL HMTELLKNHVAGQWIAGTGAGITLTDPVTGVALVRVSSEGLDLARAFSFAREDGGAALRALTYAQRAARLADIVKLLQAKRGDYYAIATANSGTTRNDSAVDIDGGIFTLSYYAKLGASLGEVHALRDGSAESLSKDRSFSAQHVLSPTRGVALFINAFNFPSWGLWEKAAPALLSGVPVIVKPATATAWLTQRMVADVVDAGILPPGALSIICGSSAGLLDQIRSFDVVSFTGSADTAATLRAHPAFVQRGARLNVEADSLNSAILCADATPDTPAFDLFIKEVVREMTVKSGQKATAIRRAFVPEAALEPVLEALKAKLAKITVGNPRNDAVRMGSLVSREQYENVLAGIAALREEAVLAYDSSAVPLIDADANIAACVAPHLFVVNDPDNATLLHDVEVFGPVASVAPYRVTALPEAHAVALARRGQGSLVASIYSNDDAHLGRLALELADSHGRVHAISPSVQHSQTGHGNVMPMSLHGGPGRAGGGEELGGLRALAFYHRRSAIQAASAAIGTLTQATHWPA 2y5i-a3-m1-cE_2y5i-a3-m1-cF S100Z from zebrafish in complex with calcium Q503K9 Q503K9 2.03 X-RAY DIFFRACTION 95 1.0 7955 (Danio rerio) 7955 (Danio rerio) 97 98 2y5i-a1-m1-cB_2y5i-a1-m1-cA 2y5i-a2-m1-cC_2y5i-a2-m1-cD PSKLEGAMDALITVFHNYSGSEGDKYKLSKGELKELLNAELTDFLMSQKDPMLVEKIMNDLDSNKDNEVDFNEFVVLVAALTVACNDFFQEQQKKRS PSKLEGAMDALITVFHNYSGSEGDKYKLSKGELKELLNAELTDFLMSQKDPMLVEKIMNDLDSNKDNEVDFNEFVVLVAALTVACNDFFQEQQKKRSK 2y5p-a5-m1-cB_2y5p-a5-m1-cC B-repeat of Listeria monocytogenes InlB (internalin B) P0DQD2 P0DQD2 1.3 X-RAY DIFFRACTION 38 1.0 1334565 (Listeria monocytogenes EGD) 1334565 (Listeria monocytogenes EGD) 72 73 MVYTVSYDVDGTVIKTKVEAGTRITAPKPPTKQGYVFKGWYTEKNGGHEWNFNTDYMSGNDFTLYAVFKAET AMVYTVSYDVDGTVIKTKVEAGTRITAPKPPTKQGYVFKGWYTEKNGGHEWNFNTDYMSGNDFTLYAVFKAET 2y5p-a5-m1-cD_2y5p-a5-m1-cC B-repeat of Listeria monocytogenes InlB (internalin B) P0DQD2 P0DQD2 1.3 X-RAY DIFFRACTION 49 1.0 1334565 (Listeria monocytogenes EGD) 1334565 (Listeria monocytogenes EGD) 72 73 2y5p-a5-m1-cA_2y5p-a5-m1-cB AMVYTVSYDVDGTVIKTKVEAGTRITAPKPPTKQGYVFKGWYTEKNGGHEWNFNTDYMSGNDFTLYAVFKAE AMVYTVSYDVDGTVIKTKVEAGTRITAPKPPTKQGYVFKGWYTEKNGGHEWNFNTDYMSGNDFTLYAVFKAET 2y5q-a2-m1-cA_2y5q-a2-m2-cA Listeria monocytogenes InlB (internalin B) residues 36-392 P0DQD2 P0DQD2 3.2 X-RAY DIFFRACTION 35 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 289 289 LGSETITVPTPIKQIFSDDAFAETIKDNLKKKSVTDAVTQNELNSIDQIIANNSDIKSVQGIQYLPNVTKLFLNGNKLTDIKPLANLKNLGWLFLDENKVKDLSSLKDLKKLKSLSLEHNGISDINGLVHLPQLESLYLGNNKITDITVLSRLTKLDTLSLEDNQISDIVPLAGLTKLQNLYLSKNHISDLRALAGLKNLDVLELFSQECLNKPINHQSNLVVPNTVKNTDGSLVTPEIISDDGDYEKPNVKWHLPEFTNEVSFIFYQPVTIGKAKARFHGRVTQPLKE LGSETITVPTPIKQIFSDDAFAETIKDNLKKKSVTDAVTQNELNSIDQIIANNSDIKSVQGIQYLPNVTKLFLNGNKLTDIKPLANLKNLGWLFLDENKVKDLSSLKDLKKLKSLSLEHNGISDINGLVHLPQLESLYLGNNKITDITVLSRLTKLDTLSLEDNQISDIVPLAGLTKLQNLYLSKNHISDLRALAGLKNLDVLELFSQECLNKPINHQSNLVVPNTVKNTDGSLVTPEIISDDGDYEKPNVKWHLPEFTNEVSFIFYQPVTIGKAKARFHGRVTQPLKE 2y5s-a1-m1-cA_2y5s-a1-m1-cB Crystal structure of Burkholderia cenocepacia dihydropteroate synthase complexed with 7,8-dihydropteroate. B4E5F5 B4E5F5 1.95 X-RAY DIFFRACTION 119 1.0 95486 (Burkholderia cenocepacia) 95486 (Burkholderia cenocepacia) 280 281 TFLPAPLQCGRFELTFERPLVMGILNATPARDDALRRAERMIAEGADLLDIGGESTRPGAPPVPLDEELARVIPLVEALRPLNVPLSIDTYKPAVMRAALAAGADLINDIWGFRQPGAIDAVRDGNSGLCAMHMLGEPQTMQVGEPDYGDVVTDVRDFLAARAQALRDAGVAAERICVDPGFGFGKAVVDDNYALLAALPDTAPARPDGRAYPILAGMSRKSMLGAVIGGKPPLERVAASVAAALCAVERGAAIVRVHDVAATVDALSVWNAVRAAARQR STFLPAPLQCGRFELTFERPLVMGILNATPARDDALRRAERMIAEGADLLDIGGESTRPGAPPVPLDEELARVIPLVEALRPLNVPLSIDTYKPAVMRAALAAGADLINDIWGFRQPGAIDAVRDGNSGLCAMHMLGEPQTMQVGEPDYGDVVTDVRDFLAARAQALRDAGVAAERICVDPGFGFGKAVVDDNYALLAALPDTAPARPDGRAYPILAGMSRKSMLGAVIGGKPPLERVAASVAAALCAVERGAAIVRVHDVAATVDALSVWNAVRAAARQR 2y5t-a1-m1-cE_2y5t-a1-m1-cF Crystal structure of the pathogenic autoantibody CIIC1 in complex with the triple-helical C1 peptide 2.2 X-RAY DIFFRACTION 52 1.0 10090 (Mus musculus) 10090 (Mus musculus) 20 21 GPGPGPGARGLTGRGDAGPG GPGPGPGARGLTGRGDAGPGP 2y5w-a1-m1-cB_2y5w-a1-m1-cA Crystal structure of Drosophila melanogaster kinesin-1 motor domain dimer P17210 P17210 2.7 X-RAY DIFFRACTION 33 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 330 334 EDSIKVVCRFRPLNDSEEKAGSKFVVKFPNNVEENCISIAGKVYLFDKVFKPNASQEKVYNEAAKSIVTDVLAGYNGTIFAYGQTSSGKTHTMEGVIGDSVKQGIIPRIVNDIFNHIYAMEVNLEFHIKVSYYEIYMDKIRDLLDVSKVNLSVHEDKNRVPYVKGATERFVSSPEDVFEVIEEGKSNRHIAVTNMNEHSSRSHSVFLINVKQENLENQKKLSGKLYLVDLAGSEKNINKSLSALGNVISALADGNKTHIPYRDSKLTRILQESLGGNARTTIVICCSPASFNESETKSTLDFGRRAKTVKNVVCVNEELTAEEWKRRYEK EDSIKVVCRFRPLNDSEEKAGSKFVVKFPNNVEENCISIAGKVYLFDKVFKPNASQEKVYNEAAKSIVTDVLAGYNGTIFAYGQTSSGKTHTMEGVIGDSVKQGIIPRIVNDIFNHIYAMEVNLEFHIKVSYYEIYMDKIRDLLDVSKVNLSVHEDKNRVPYVKGATERFVSSPEDVFEVIEEGKSNRHIAVTNMNEHSSRSHSVFLINVKQENLENQKKLSGKLYLVDLAGSEKVKNINKSLSALGNVISALADGNKTHIPYRDSKLTRILQESLGGNARTTIVICCSPASFNESETKSTLDFGRRAKTVKNVVCVNEELTAEEWKRRYEKEK 2y5y-a1-m1-cA_2y5y-a1-m1-cB Crystal structure of LacY in complex with an affinity inactivator P02920 P02920 3.38 X-RAY DIFFRACTION 11 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 386 394 LKNTNFWMFGLFFFFYFFIMGAYFPFFPIWLHDINHISKSDTGIIFAAISLFSLLFQPLFGLLSDKLGLRKYLLWIITGMLVMFAPFFIFIFGPLLQYNILVGSIVGGIYLGFSFNAGCPAVEAFIEKVSRRSNFEFGRARMFGAVGWALVASIVGIMFTINNQFVFWLGSGMALILAVLLFFAKANHSAFSLKLALELFRQPKLWFLSLYVIGVSSTYDVFDQQFANFFTSFFATGEQGTRVFGYVTTMGELLNASIMFFAPLIINRIGGKNALLLAGTIMSVRIIGSSFATSALEVVILKTLHMFEVPFLLVGSFKYITSQFEVRFSATIYLVAFAFFKQLAMIFMSVLAGNMYESIGFQGAYLVLGLVALGFTLISVFTLSGP LKNTNFWMFGLFFFFYFFIMGAYFPFFPIWLHDINHISKSDTGIIFAAISLFSLLFQPLFGLLSDKLGLRKYLLWIITGMLVMFAPFFIFIFGPLLQYNILVGSIVGGIYLGFSFNAGCPAVEAFIEKVSRRSNFEFGRARMFGAVGWALVASIVGIMFTINNQFVFWLGSGMALILAVLLFFAKTVANAVGANHSAFSLKLALELFRQPKLWFLSLYVIGVSSTYDVFDQQFANFFTSFFATGEQGTRVFGYVTTMGELLNASIMFFAPLIINRIGGKNALLLAGTIMSVRIIGSSFATSALEVVILKTLHMFEVPFLLVGSFKYITSQFEVRFSATIYLVAFAFFKQLAMIFMSVLAGNMYESIGFQGAYLVLGLVALGFTLISVFTLSGPG 2y61-a1-m1-cA_2y61-a1-m2-cA Crystal structure of Leishmanial E65Q-TIM complexed with S-Glycidol phosphate P48499 P48499 0.99 X-RAY DIFFRACTION 137 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 249 249 1amk-a1-m1-cA_1amk-a1-m2-cA 1if2-a1-m1-cA_1if2-a1-m2-cA 1n55-a1-m1-cA_1n55-a1-m2-cA 1qds-a1-m1-cA_1qds-a1-m2-cA 2vxn-a1-m1-cA_2vxn-a1-m2-cA 2y62-a1-m1-cA_2y62-a1-m2-cA 2y63-a1-m1-cA_2y63-a1-m2-cA 7az3-a1-m1-cA_7az3-a1-m2-cA 7qh0-a1-m1-cA_7qh0-a1-m1-cB 7qh0-a2-m1-cC_7qh0-a2-m1-cD AKPQPIAAANWKCNGTTASIEKLVQVFNEHTISHDVQCVVAPTFVHIPLVQAKLRNPKYVISAQNAIAKSGAFTGEVSMPILKDIGVHWVILGHSERRTYYGETDEIVAQKVSEACKQGFMVIACIGETLQQREANQTAKVVLSQTSAIAAKLTKDAWNQVVLAYEPVWAIGTGKVATPEQAQEVHLLLRKWVSENIGTDVAAKLRILYGGSVNAANAATLYAKPDINGFLVGGASLKPEFRDIIDATR AKPQPIAAANWKCNGTTASIEKLVQVFNEHTISHDVQCVVAPTFVHIPLVQAKLRNPKYVISAQNAIAKSGAFTGEVSMPILKDIGVHWVILGHSERRTYYGETDEIVAQKVSEACKQGFMVIACIGETLQQREANQTAKVVLSQTSAIAAKLTKDAWNQVVLAYEPVWAIGTGKVATPEQAQEVHLLLRKWVSENIGTDVAAKLRILYGGSVNAANAATLYAKPDINGFLVGGASLKPEFRDIIDATR 2y65-a1-m1-cA_2y65-a1-m2-cA Crystal structure of Drosophila melanogaster kinesin-1 motor domain dimer-tail complex P17210 P17210 2.2 X-RAY DIFFRACTION 18 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 328 328 2y65-a2-m1-cB_2y65-a2-m2-cB 2y65-a3-m1-cD_2y65-a3-m1-cC PAEDSIKVVCRFRPLNDSEEKAGSKFVVKFPNNVEENCISIAGKVYLFDKVFKPNASQEKVYNEAAKSIVTDVLAGYNGTIFAYGQTSSGKTHTMEGVIGDSVKQGIIPRIVNDIFNHIYAMEVNLEFHIKVSYYEIYMDKIRDLLDVSKVNLSVHEDKNRVPYVKGATERFVSSPEDVFEVIEEGKSNRHIAVTNMNEHSSRSHSVFLINVKQENLENQKKLSGKLYLVDLAGSEKINKSLSALGNVISALADGNKTHIPYRDSKLTRILQESLGGNARTTIVICCSPASFNESETKSTLDFGRRAKTVKNVVCVNEELTAEEWKRR PAEDSIKVVCRFRPLNDSEEKAGSKFVVKFPNNVEENCISIAGKVYLFDKVFKPNASQEKVYNEAAKSIVTDVLAGYNGTIFAYGQTSSGKTHTMEGVIGDSVKQGIIPRIVNDIFNHIYAMEVNLEFHIKVSYYEIYMDKIRDLLDVSKVNLSVHEDKNRVPYVKGATERFVSSPEDVFEVIEEGKSNRHIAVTNMNEHSSRSHSVFLINVKQENLENQKKLSGKLYLVDLAGSEKINKSLSALGNVISALADGNKTHIPYRDSKLTRILQESLGGNARTTIVICCSPASFNESETKSTLDFGRRAKTVKNVVCVNEELTAEEWKRR 2y65-a1-m1-cY_2y65-a1-m2-cY Crystal structure of Drosophila melanogaster kinesin-1 motor domain dimer-tail complex P17210 P17210 2.2 X-RAY DIFFRACTION 49 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 12 12 PQAQIAKPIRSG PQAQIAKPIRSG 2y65-a2-m1-cX_2y65-a2-m2-cX Crystal structure of Drosophila melanogaster kinesin-1 motor domain dimer-tail complex P17210 P17210 2.2 X-RAY DIFFRACTION 55 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 13 13 PQAQIAKPIRSGQ PQAQIAKPIRSGQ 2y6d-a1-m3-cA_2y6d-a1-m4-cA The Discovery of MMP7 Inhibitors Exploiting a Novel Selectivity Trigger P09237 P09237 1.6 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 2y6c-a1-m1-cA_2y6c-a1-m2-cA 2y6c-a1-m1-cA_2y6c-a1-m3-cA 2y6c-a1-m2-cA_2y6c-a1-m4-cA 2y6c-a1-m3-cA_2y6c-a1-m4-cA 2y6d-a1-m1-cA_2y6d-a1-m2-cA 2y6d-a1-m1-cA_2y6d-a1-m3-cA 2y6d-a1-m2-cA_2y6d-a1-m4-cA GYSLFPNSPKWTSKVVTYRIVSYTRDLPHITVDRLVSKALNMWGKEIPLHFRKVVWGTADIMIGFARGAHGDSYPFDGPGNTLAHAFAPGTGLGGDAHFDEDERWTDGSSLGINFLYAATHELGHSLGMGHSSDPNAVMYPTYFKLSQDDIKGIQKLYG GYSLFPNSPKWTSKVVTYRIVSYTRDLPHITVDRLVSKALNMWGKEIPLHFRKVVWGTADIMIGFARGAHGDSYPFDGPGNTLAHAFAPGTGLGGDAHFDEDERWTDGSSLGINFLYAATHELGHSLGMGHSSDPNAVMYPTYFKLSQDDIKGIQKLYG 2y6e-a1-m1-cA_2y6e-a1-m1-cB Structure of the D1D2 domain of USP4, the conserved catalytic domain Q13107 Q13107 2.4 X-RAY DIFFRACTION 54 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 336 338 2y6e-a1-m1-cD_2y6e-a1-m1-cC 2y6e-a1-m1-cE_2y6e-a1-m1-cF IQPGLCGLGNLGNTFMNSALQCLSNTAPLTDYFLKDEYEAEINRDNPLGMKGEIAEAYAELIKQMWSGRDAHVAPRMFKTQVGRFAPQFSGYQQQDSQELLAFLLDGLHEDLNRVKKKPYLELKDANGRPDAVVAKEAWENHRLRNDSVIVDTFHGLFKSTLVCPECAKVSVTFDPFCYLTLPLPLTVALRDCIELFTTMETLGEDPWYCPNCKKHQQATKKFDLWSLPKILVVHLKRFSYNRYWRDKLDTVVEFPIRGLNMSEFVCNLSARPYVYDLIAVSNHYGAMGVGHYTAYAKNKLNGKWYYFDDSNVSLASEDQIVTKAAYVLFYQRRDD HIQPGLCGLGNLGNTFMNSALQCLSNTAPLTDYFLKDEYEAEINRDNPLGMKGEIAEAYAELIKQMWSGRDAHVAPRMFKTQVGRFAPQFSGYQQQDSQELLAFLLDGLHEDLNRVKKKPDANGRPDAVVAKEAWENHRLRNDSVIVDTFHGLFKSTLVCPECAKVSVTFDPFCYLTLPLPLTVALRDCIELFTTMETLGEHDPWYCPNCKKHQQATKKFDLWSLPKILVVHLKRFSYNRYWRDKLDTVVEFPIRGLNMSEFVCNLSARPYVYDLIAVSNHYGAMGVGHYTAYAKNKLNGKWYYFDDSNVSLASEDQIVTKAAYVLFYQRRDDEFYKT 2y6e-a1-m1-cE_2y6e-a1-m1-cA Structure of the D1D2 domain of USP4, the conserved catalytic domain Q13107 Q13107 2.4 X-RAY DIFFRACTION 10 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 318 336 IQPGLCGLGNLGNTFMNSALQCLSNTAPLTDYFLKDEYEAEINRDNPLGMKGEIAEAYAELIKQMWSGRDAHVAPRMFKTQVGRFAPQFSGYQQQDSQELLAFLLDGLHEDLNRVKKKPYGRPDAVVAKEAWENHRLRNDSVIVDTFHGLFKSTLVCPECAKVSVTFDPFCYLTLPLPLTVALRDCIELFTTMEQQATKKFDLWSLPKILVVHLKRFSYNRYWRDKLDTVVEFPIRGLNMSEFVCNLSARPYVYDLIAVSNHYGAMGVGHYTAYAKNKLNGKWYYFDDSNVSLASEDQIVTKAAYVLFYQRRDDEFYK IQPGLCGLGNLGNTFMNSALQCLSNTAPLTDYFLKDEYEAEINRDNPLGMKGEIAEAYAELIKQMWSGRDAHVAPRMFKTQVGRFAPQFSGYQQQDSQELLAFLLDGLHEDLNRVKKKPYLELKDANGRPDAVVAKEAWENHRLRNDSVIVDTFHGLFKSTLVCPECAKVSVTFDPFCYLTLPLPLTVALRDCIELFTTMETLGEDPWYCPNCKKHQQATKKFDLWSLPKILVVHLKRFSYNRYWRDKLDTVVEFPIRGLNMSEFVCNLSARPYVYDLIAVSNHYGAMGVGHYTAYAKNKLNGKWYYFDDSNVSLASEDQIVTKAAYVLFYQRRDD 2y6e-a1-m1-cE_2y6e-a1-m1-cD Structure of the D1D2 domain of USP4, the conserved catalytic domain Q13107 Q13107 2.4 X-RAY DIFFRACTION 15 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 318 327 2y6e-a1-m1-cC_2y6e-a1-m1-cA 2y6e-a1-m1-cD_2y6e-a1-m1-cB 2y6e-a1-m1-cE_2y6e-a1-m1-cB 2y6e-a1-m1-cF_2y6e-a1-m1-cA 2y6e-a1-m1-cF_2y6e-a1-m1-cC IQPGLCGLGNLGNTFMNSALQCLSNTAPLTDYFLKDEYEAEINRDNPLGMKGEIAEAYAELIKQMWSGRDAHVAPRMFKTQVGRFAPQFSGYQQQDSQELLAFLLDGLHEDLNRVKKKPYGRPDAVVAKEAWENHRLRNDSVIVDTFHGLFKSTLVCPECAKVSVTFDPFCYLTLPLPLTVALRDCIELFTTMEQQATKKFDLWSLPKILVVHLKRFSYNRYWRDKLDTVVEFPIRGLNMSEFVCNLSARPYVYDLIAVSNHYGAMGVGHYTAYAKNKLNGKWYYFDDSNVSLASEDQIVTKAAYVLFYQRRDDEFYK IQPGLCGLGNLGNTFMNSALQCLSNTAPLTDYFLKDEYEAEINRDNPLGMKGEIAEAYAELIKQMWSGRDAHVAPRMFKTQVGRFAPQFSGYQQQDSQELLAFLLDGLHEDLNRVKKKPYANGRPDAVVAKEAWENHRLRNDSVIVDTFHGLFKSTLVCPECAVSVTFDPFCYLTLPLPLTTVALRDCIELFTTMETLWYCPNCKKHATKKFDLWSLPKILVVHLKRFSYNRYWRDKLDTVVEFPIRGLNMSEFVCNLSARPYVYDLIAVSNHYGAMGVGHYTAYAKNKLNGKWYYFDDSNVSLASEDQIVTKAAYVLFYQRRDDEF 2y6n-a1-m1-cA_2y6n-a1-m1-cB STRUCTURE OF LINEAR GRAMICIDIN D OBTAINED USING TYPE I CRYSTALS GROWN IN A 8.8 MONOACYLGLYCEROL LIPID CUBIC PHASE. 1.26 X-RAY DIFFRACTION 16 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 2xdc-a1-m1-cA_2xdc-a1-m1-cB 2y5m-a1-m1-cA_2y5m-a1-m1-cB GAAVWWWW GAAVWWWW 2y6n-a3-m1-cE_2y6n-a3-m1-cF STRUCTURE OF LINEAR GRAMICIDIN D OBTAINED USING TYPE I CRYSTALS GROWN IN A 8.8 MONOACYLGLYCEROL LIPID CUBIC PHASE. 1.26 X-RAY DIFFRACTION 16 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 2xdc-a2-m1-cE_2xdc-a2-m1-cF 2xdc-a3-m1-cC_2xdc-a3-m1-cD 2y5m-a2-m1-cC_2y5m-a2-m1-cD 2y5m-a3-m1-cE_2y5m-a3-m1-cF 2y6n-a2-m1-cC_2y6n-a2-m1-cD 3zq8-a1-m1-cA_3zq8-a1-m1-cB GAAVWWWW GAAVWWWW 2y6p-a2-m1-cC_2y6p-a2-m2-cC Evidence for a Two-Metal-Ion-Mechanism in the Kdo- Cytidylyltransferase KdsB O66914 O66914 2.1 X-RAY DIFFRACTION 99 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 229 229 2y6p-a1-m1-cA_2y6p-a1-m1-cB RAVIIPARLGSTRLKEKPLKNLLGKPLIRWVVEGLVKTGERVILATDSERVKEVVEDLCEVFLTPSDLPSGSDRVLYVVRDLDVDLIINYQGDEPFVYEEDIKLIFRELEKGERVVTLARKDKEAYERPEDVKVVLDREGYALYFSRSPIPYFRKNDTFYPLKHVGIYGFRKETLMEFGAMPPSKLEQIEGLEQLRLLENGIKIKVLITENYYHGVDTEEDLKIVEEKL RAVIIPARLGSTRLKEKPLKNLLGKPLIRWVVEGLVKTGERVILATDSERVKEVVEDLCEVFLTPSDLPSGSDRVLYVVRDLDVDLIINYQGDEPFVYEEDIKLIFRELEKGERVVTLARKDKEAYERPEDVKVVLDREGYALYFSRSPIPYFRKNDTFYPLKHVGIYGFRKETLMEFGAMPPSKLEQIEGLEQLRLLENGIKIKVLITENYYHGVDTEEDLKIVEEKL 2y6t-a2-m1-cH_2y6t-a2-m1-cG Molecular Recognition of Chymotrypsin by the Serine Protease Inhibitor Ecotin from Yersinia pestis B1JSA0 B1JSA0 2.74 X-RAY DIFFRACTION 94 1.0 502800 (Yersinia pseudotuberculosis YPIII) 502800 (Yersinia pseudotuberculosis YPIII) 138 140 2y6t-a1-m1-cE_2y6t-a1-m1-cF PLEKIAPYPQAEKGMSRQVIFLEPQKDESRFKVELLIGKTLNVDCNRHMLGGNLETRTLSGWGFDYLVMDKISQPASTMMACPEDSKPQVKFVTANLGDAAMQRYNSRLPIVVYVPQGVEVKYRIWEAGEDIRSAQVK QQPLEKIAPYPQAEKGMSRQVIFLEPQKDESRFKVELLIGKTLNVDCNRHMLGGNLETRTLSGWGFDYLVMDKISQPASTMMACPEDSKPQVKFVTANLGDAAMQRYNSRLPIVVYVPQGVEVKYRIWEAGEDIRSAQVK 2y6v-a1-m1-cA_2y6v-a1-m1-cB Peroxisomal alpha-beta-hydrolase Lpx1 (Yor084w) from Saccharomyces cerevisiae (crystal form I) Q12405 Q12405 2.83 X-RAY DIFFRACTION 141 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 351 358 2y6u-a1-m1-cA_2y6u-a1-m2-cA 2y6v-a2-m1-cC_2y6v-a2-m2-cC QNRFKKETKTSASWPRAPQSTLATDRLELTYDVYTSARRSRTATRLNLVFLHGSGMSKVVWEYYLPRLVAADYAIDKVLLIDQVNHGDSAVRNRGRLGTNFNWIDGARDVLKIATELGSIDSHPALNVVIGHSMGGFQALACDVLQPNLFHLLILIEPVVITRKAIGPPDSPQIPENLYNSLRLKTDHFANESEYVKYMRNGSFFTNAHSQILQNIIDFERTKGPVRTKMEQAQNLLCYMNMQTFAPFLISNVKFVRKRTIHIVGARSNWPPQNQLFLQKTLQNYHLDVIPGGSHLVNVEAPDLVIERINHHIHEFVLTSPLQSSPQLTLEERAVMFDRAFDSFKNEALVK QNRFKKETKTSASWPRAPQSTLATDRLELTYDVYTSAERRRSRTATRLNLVFLHGSGMSKVVWEYYLPRLVAADAEGNYAIDKVLLIDQVNHGDSAVRNRGRLGTNFNWIDGARDVLKIATELGSIDSHPALNVVIGHSMGGFQALACDVLQPNLFHLLILIEPVVITRKAIPPDSPQIPENLYNSLRLKTDHFANESEYVKYMRNGSFFTNAHSQILQNIIDFERTKGPVRTKMEQAQNLLCYMNMQTFAPFLISNVKFVRKRTIHIVGARSNWPPQNQLFLQKTLQNYHLDVIPGGSHLVNVEAPDLVIERINHHIHEFVLTSPLQSSHIPQLTLEERAVMFDRAFDSFKNEALVK 2y6w-a1-m1-cA_2y6w-a1-m1-cB Structure of a Bcl-w dimer Q92843 Q92843 2 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 147 APDTRALVADFVGYKLRQKGYVSGAGPGEGPAADPLHQAMRAAGDEFETRFRRTFSDLAAQLHVTPGSAQQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVGQVQEWMVEYLETRLADWIHSSGGWAEFTALYG APDTRALVADFVGYKLRQKGYVSGAGPGEGPAADPLHQAMRAAGDEFETRFRRTFSDLAAQLHVTPGSAQQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVGQVQEWMVEYLETRLADWIHSSGGWAEFTALYGD 2y70-a2-m1-cA_2y70-a2-m1-cD CRYSTALLOGRAPHIC STRUCTURE OF GM23, MUTANT G89D, AN EXAMPLE OF CATALYTIC MIGRATION FROM TIM TO THIAMIN PHOSPHATE SYNTHASE. P04789 P04789 2.3 X-RAY DIFFRACTION 53 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 245 245 2wsq-a1-m1-cB_2wsq-a1-m1-cC 2wsq-a2-m1-cA_2wsq-a2-m1-cD 2y6z-a1-m1-cA_2y6z-a1-m2-cA 2y70-a1-m1-cB_2y70-a1-m1-cC MSKPQPIAAANWKCNGSQQSLSELIDLFNSTSINHDVQCVVAPSWYMGAQAMTKERLSHPKFVIAAQNAGNADALASLKDFGISWIVLDHSERRAYYGETNEIVADKVAAAVASGFMVIACIGETLQERSSGRTAVVVLTQITAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKVGADVAGELRILYGGSVNGRNARTLYQQRDVNGFLVGGASLKPEFVDIIKATE MSKPQPIAAANWKCNGSQQSLSELIDLFNSTSINHDVQCVVAPSWYMGAQAMTKERLSHPKFVIAAQNAGNADALASLKDFGISWIVLDHSERRAYYGETNEIVADKVAAAVASGFMVIACIGETLQERSSGRTAVVVLTQITAIAKKLKKADWAKVVIAYEPVWAIGTGKVATPQQAQEAHALIRSWVSSKVGADVAGELRILYGGSVNGRNARTLYQQRDVNGFLVGGASLKPEFVDIIKATE 2y74-a1-m1-cA_2y74-a1-m1-cB THE CRYSTAL STRUCTURE OF HUMAN SOLUBLE PRIMARY AMINE OXIDASE AOC3 IN THE OFF-COPPER CONFORMATION Q16853 Q16853 2.95 X-RAY DIFFRACTION 600 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 694 698 1pu4-a1-m1-cB_1pu4-a1-m1-cA 1us1-a1-m1-cB_1us1-a1-m1-cA 2c10-a1-m1-cA_2c10-a1-m1-cB 2c10-a2-m1-cC_2c10-a2-m1-cD 2c11-a1-m1-cA_2c11-a1-m1-cB 2c11-a2-m1-cC_2c11-a2-m1-cD 2y73-a1-m1-cB_2y73-a1-m1-cA 3ala-a1-m1-cA_3ala-a1-m1-cB 3ala-a2-m1-cC_3ala-a2-m1-cD 3ala-a3-m1-cE_3ala-a3-m2-cE 3ala-a4-m1-cF_3ala-a4-m1-cG 4btw-a1-m1-cB_4btw-a1-m1-cA 4btx-a1-m1-cB_4btx-a1-m1-cA 4bty-a1-m1-cB_4bty-a1-m1-cA QLFADLSREELTAVMRFLTQRLGPGLVDAAQARPSDNCVFSVELQLPPKAAALAHLDRGSPPPAREALAIVFFGRQPQPNVSELVVGPLPHPSYMRDVTVERHGGPLPYHRRPVLFQEYLDIDQMIFNRELPQASGLLHHCCFYKRNLVTMTTAPRGLQSGDRATWFGLYYNISGAGFFLHHVGLELLVNHKALDPARWTIQKVFYQGRYYDSLAQLEAQFEAGLVNVVLIPDNGTGGSWSLKSPVPPGPAPPLQFYPQGPRFSVQGSRVASSLWTFSFGLGAFSGPRIFDVRFQGERLVYEISLQEALAIYGGNSPAAMTTRYVDGGFGMGKYTTPLTRGVDCPYLATYVDWHFLLESQAPKTIRDAFCVFEQNQGLPLRRHHSDLYSHYFGGLAETVLVVRSMSTLLNDYVWDTVFHPSGAIEIRFYATGYISSAFLFGATGKYGNQVSEHTLGTVHTHSAHFKVDLDVAGLENWVWAEDMVFVPMAVPWSPEHQLQRLQVTRKLLEMEEQAAFLVGSATPRYLYLASNHSNKWGHPRGYRIQMLSFAGEPLPQNSSMARGFSWERYQLAVTQRKEEEPSSSSVFNQNDPWAPTVDFSDFINNETIAGKDLVAWVTAGFLHIPHAEDIPNTVTVGNGVGFFLRPYNFFDEDPSFYSADSIYFRGDQDAGACEVNPLACLAPDLPAFSHGGFS QSQLFADLSREELTAVMRFLTQRLGPGLVDAAQARPSDNCVFSVELQLPPKAAALAHLDRGSPPPAREALAIVFFGRQPQPNVSELVVGPLPHPSYMRDVTVERHGGPLPYHRRPVLFQEYLDIDQMIFNRELPQASGLLHHCCFYKRNLVTMTTAPRGLQSGDRATWFGLYYNISGAGFFLHHVGLELLVNHKALDPARWTIQKVFYQGRYYDSLAQLEAQFEAGLVNVVLIPDNGTGGSWSLKSPVPPGPAPPLQFYPQGPRFSVQGSRVASSLWTFSFGLGAFSGPRIFDVRFQGERLVYEISLQEALAIYGGNSPAAMTTRYVDGGFGMGKYTTPLTRGVDCPYLATYVDWHFLLESQAPKTIRDAFCVFEQNQGLPLRRHHSDLYSHYFGGLAETVLVVRSMSTLLNDYVWDTVFHPSGAIEIRFYATGYISSAFLFGATGKYGNQVSEHTLGTVHTHSAHFKVDLDVAGLENWVWAEDMVFVPMAVPWSPEHQLQRLQVTRKLLEMEEQAAFLVGSATPRYLYLASNHSNKWGHPRGYRIQMLSFAGEPLPQNSSMARGFSWERYQLAVTQRKEEEPSSSSVFNQNDPWAPTVDFSDFINNETIAGKDLVAWVTAGFLHIPHAEDIPNTVTVGNGVGFFLRPYNFFDEDPSFYSADSIYFRGDQDAGACEVNPLACLPCAPDLPAFSHGGFS 2y75-a1-m1-cC_2y75-a1-m1-cF The Structure of CymR (YrzC) the Global Cysteine Regulator of B. subtilis O34527 O34527 2 X-RAY DIFFRACTION 18 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 127 129 2y75-a1-m1-cA_2y75-a1-m1-cD 2y75-a1-m1-cB_2y75-a1-m1-cE MLKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYTD MLKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYTD 2y75-a2-m1-cD_2y75-a2-m1-cF The Structure of CymR (YrzC) the Global Cysteine Regulator of B. subtilis O34527 O34527 2 X-RAY DIFFRACTION 25 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 128 129 2y75-a1-m1-cA_2y75-a1-m1-cC 2y75-a1-m1-cA_2y75-a1-m1-cE 2y75-a1-m1-cB_2y75-a1-m1-cD 2y75-a1-m1-cB_2y75-a1-m1-cF 2y75-a1-m1-cC_2y75-a1-m1-cE 2y75-a1-m1-cD_2y75-a1-m1-cF 2y75-a2-m1-cB_2y75-a2-m1-cD 2y75-a2-m1-cB_2y75-a2-m1-cF 2y75-a3-m1-cA_2y75-a3-m1-cC 2y75-a3-m1-cA_2y75-a3-m1-cE 2y75-a3-m1-cC_2y75-a3-m1-cE MLKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYT MLKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYTD 2y75-a5-m1-cC_2y75-a5-m1-cD The Structure of CymR (YrzC) the Global Cysteine Regulator of B. subtilis O34527 O34527 2 X-RAY DIFFRACTION 108 0.992 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 127 128 2y75-a1-m1-cA_2y75-a1-m1-cB 2y75-a1-m1-cC_2y75-a1-m1-cD 2y75-a1-m1-cE_2y75-a1-m1-cF 2y75-a4-m1-cA_2y75-a4-m1-cB 2y75-a6-m1-cE_2y75-a6-m1-cF MLKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYTD MLKISTKGRYGLTIMIELAKKHGEGPTSLKSIAQTNNLSEHYLEQLVSPLRNAGLVKSIRGAYGGYVLGSEPDAITAGDIIRVLEGPISPVEVLEDEEPAKRELWIRIRDAVKEVLDSTTLEDLASYT 2y7c-a1-m1-cB_2y7c-a1-m1-cC Atomic model of the Ocr-bound methylase complex from the Type I restriction-modification enzyme EcoKI (M2S1). Based on fitting into EM map 1534. P08957 P08957 18.0 ELECTRON MICROSCOPY 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 529 529 MNNNDLVAKLWKLCDNLRDGGVSYQNYVNELASLLFLKMCKETGQEAEYLPEGYRWDDLKSRIGQEQLQFYRKMLVHLGEDDKKLVQAVFHNVSTTITEPKQITALVSNMDSLDWYNGAHGKSRDDFGDMYEGLLQKNANETKSGAGQYFTPRPLIKTIIHLLKPQPREVVQDPAAGTAGFLIEADRYVKSQTNDLDDLDGDTQDFQIHRAFIGLELVPGTRRLALMNCLLHDIEGNLDHGGAIRLGNTLGSDGENLPKAHIVATNPPFGSAAGTNITRTFVHPTSNKQLCFMQHIIETLHPGGRAAVVVPDNVLFEGGKGTDIRRDLMDKCHLHTILRLPTGIFYAQGVKTNVLFFTKGTVANPNQDKNCTDDVWVYDLRTNMPSFGKRTPFTDEHLQPFERVYGEDPHGLSPRTEGEWSFNAEETEVADSEENKNTDQHLATSRWRKFSREWIRTAKSDSLDISWLKDKDSIDADSLPEPDVLAAEAMGELVQALSELDALMRELGASDEADLQRQLLEEAFGGVKE MNNNDLVAKLWKLCDNLRDGGVSYQNYVNELASLLFLKMCKETGQEAEYLPEGYRWDDLKSRIGQEQLQFYRKMLVHLGEDDKKLVQAVFHNVSTTITEPKQITALVSNMDSLDWYNGAHGKSRDDFGDMYEGLLQKNANETKSGAGQYFTPRPLIKTIIHLLKPQPREVVQDPAAGTAGFLIEADRYVKSQTNDLDDLDGDTQDFQIHRAFIGLELVPGTRRLALMNCLLHDIEGNLDHGGAIRLGNTLGSDGENLPKAHIVATNPPFGSAAGTNITRTFVHPTSNKQLCFMQHIIETLHPGGRAAVVVPDNVLFEGGKGTDIRRDLMDKCHLHTILRLPTGIFYAQGVKTNVLFFTKGTVANPNQDKNCTDDVWVYDLRTNMPSFGKRTPFTDEHLQPFERVYGEDPHGLSPRTEGEWSFNAEETEVADSEENKNTDQHLATSRWRKFSREWIRTAKSDSLDISWLKDKDSIDADSLPEPDVLAAEAMGELVQALSELDALMRELGASDEADLQRQLLEEAFGGVKE 2y7e-a1-m1-cB_2y7e-a1-m2-cB Crystal structure of the 3-keto-5-aminohexanoate cleavage enzyme (Kce) from Candidatus Cloacamonas acidaminovorans (tetragonal form) B0VHH0 B0VHH0 1.28 X-RAY DIFFRACTION 101 1.0 456827 (Candidatus Cloacimonas acidaminovorans) 456827 (Candidatus Cloacimonas acidaminovorans) 278 278 2y7d-a1-m1-cA_2y7d-a1-m1-cB 2y7d-a1-m1-cC_2y7d-a1-m1-cD 2y7e-a1-m1-cA_2y7e-a1-m2-cA 2y7f-a1-m1-cB_2y7f-a1-m1-cA 2y7f-a1-m1-cC_2y7f-a1-m1-cD 2y7g-a1-m1-cA_2y7g-a1-m2-cA 2y7g-a1-m1-cB_2y7g-a1-m2-cB HHHHEPLILTAAITGAETTRADQPNLPITPEEQAKEAKACFEAGARVIHLHIREDDGRPSQRLDRFQEAISAIREVVPEIIIQISTGGAVGESFDKRLAPLALKPEMATLNAGTLNFGDDIFINHPADIIRLAEAFKQYNVVPEVEVYESGMVDAVARLIKKGIITQNPLHIQFVLGVPGGMSGKPKNLMYMMEHLKEEIPTATWAVAGIGRWHIPTSLIAMVTGGHIRCGFEDNIFYHKGVIAESNAQLVARLARIAKEIGRPLATPEQAREILALN HHHHEPLILTAAITGAETTRADQPNLPITPEEQAKEAKACFEAGARVIHLHIREDDGRPSQRLDRFQEAISAIREVVPEIIIQISTGGAVGESFDKRLAPLALKPEMATLNAGTLNFGDDIFINHPADIIRLAEAFKQYNVVPEVEVYESGMVDAVARLIKKGIITQNPLHIQFVLGVPGGMSGKPKNLMYMMEHLKEEIPTATWAVAGIGRWHIPTSLIAMVTGGHIRCGFEDNIFYHKGVIAESNAQLVARLARIAKEIGRPLATPEQAREILALN 2y7f-a1-m1-cB_2y7f-a1-m1-cC Crystal structure of the 3-keto-5-aminohexanoate cleavage enzyme (Kce) from C. Cloacamonas acidaminovorans in complex with the substrate 3- keto-5-aminohexanoate B0VHH0 B0VHH0 1.75 X-RAY DIFFRACTION 56 1.0 456827 (Candidatus Cloacimonas acidaminovorans) 456827 (Candidatus Cloacimonas acidaminovorans) 276 277 2y7d-a1-m1-cA_2y7d-a1-m1-cD 2y7d-a1-m1-cC_2y7d-a1-m1-cB 2y7e-a1-m1-cA_2y7e-a1-m1-cB 2y7e-a1-m2-cA_2y7e-a1-m2-cB 2y7f-a1-m1-cA_2y7f-a1-m1-cD 2y7g-a1-m1-cA_2y7g-a1-m1-cB 2y7g-a1-m2-cA_2y7g-a1-m2-cB HHEPLILTAAITGAETTRADQPNLPITPEEQAKEAKACFEAGARVIHLHIREDDGRPSQRLDRFQEAISAIREVVPEIIIQISTGGAVGESFDKRLAPLALKPEMATLNAGTLNFGDDIFINHPADIIRLAEAFKQYNVVPEVEVYESGMVDAVARLIKKGIITQNPLHIQFVLGVPGGMSGKPKNLMYMMEHLKEEIPTATWAVAGIGRWHIPTSLIAMVTGGHIRCGFEDNIFYHKGVIAESNAQLVARLARIAKEIGRPLATPEQAREILALN HHHEPLILTAAITGAETTRADQPNLPITPEEQAKEAKACFEAGARVIHLHIREDDGRPSQRLDRFQEAISAIREVVPEIIIQISTGGAVGESFDKRLAPLALKPEMATLNAGTLNFGDDIFINHPADIIRLAEAFKQYNVVPEVEVYESGMVDAVARLIKKGIITQNPLHIQFVLGVPGGMSGKPKNLMYMMEHLKEEIPTATWAVAGIGRWHIPTSLIAMVTGGHIRCGFEDNIFYHKGVIAESNAQLVARLARIAKEIGRPLATPEQAREILALN 2y7h-a1-m1-cB_2y7h-a1-m1-cC Atomic model of the DNA-bound methylase complex from the Type I restriction-modification enzyme EcoKI (M2S1). Based on fitting into EM map 1534. P08957 P08957 18.0 ELECTRON MICROSCOPY 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 529 529 MNNNDLVAKLWKLCDNLRDGGVSYQNYVNELASLLFLKMCKETGQEAEYLPEGYRWDDLKSRIGQEQLQFYRKMLVHLGEDDKKLVQAVFHNVSTTITEPKQITALVSNMDSLDWYNGAHGKSRDDFGDMYEGLLQKNANETKSGAGQYFTPRPLIKTIIHLLKPQPREVVQDPAAGTAGFLIEADRYVKSQTNDLDDLDGDTQDFQIHRAFIGLELVPGTRRLALMNCLLHDIEGNLDHGGAIRLGNTLGSDGENLPKAHIVATNPPFGSAAGTNITRTFVHPTSNKQLCFMQHIIETLHPGGRAAVVVPDNVLFEGGKGTDIRRDLMDKCHLHTILRLPTGIFYAQGVKTNVLFFTKGTVANPNQDKNCTDDVWVYDLRTNMPSFGKRTPFTDEHLQPFERVYGEDPHGLSPRTEGEWSFNAEETEVADSEENKNTDQHLATSRWRKFSREWIRTAKSDSLDISWLKDKDSIDADSLPEPDVLAAEAMGELVQALSELDALMRELGASDEADLQRQLLEEAFGGVKE MNNNDLVAKLWKLCDNLRDGGVSYQNYVNELASLLFLKMCKETGQEAEYLPEGYRWDDLKSRIGQEQLQFYRKMLVHLGEDDKKLVQAVFHNVSTTITEPKQITALVSNMDSLDWYNGAHGKSRDDFGDMYEGLLQKNANETKSGAGQYFTPRPLIKTIIHLLKPQPREVVQDPAAGTAGFLIEADRYVKSQTNDLDDLDGDTQDFQIHRAFIGLELVPGTRRLALMNCLLHDIEGNLDHGGAIRLGNTLGSDGENLPKAHIVATNPPFGSAAGTNITRTFVHPTSNKQLCFMQHIIETLHPGGRAAVVVPDNVLFEGGKGTDIRRDLMDKCHLHTILRLPTGIFYAQGVKTNVLFFTKGTVANPNQDKNCTDDVWVYDLRTNMPSFGKRTPFTDEHLQPFERVYGEDPHGLSPRTEGEWSFNAEETEVADSEENKNTDQHLATSRWRKFSREWIRTAKSDSLDISWLKDKDSIDADSLPEPDVLAAEAMGELVQALSELDALMRELGASDEADLQRQLLEEAFGGVKE 2y7i-a1-m1-cB_2y7i-a1-m1-cA Structural basis for high arginine specificity in Salmonella typhimurium periplasmic binding protein STM4351. Q8ZKA9 Q8ZKA9 1.9 X-RAY DIFFRACTION 39 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 224 228 ARTLHFGTSATYAPYEFVDADNKIVGFDIDVANAVCKEMQAECSFTNQSFDSLIPSLRFKKFDAVIAGMDMTPKREQQVSFSQPYYEGLSAVVVTRKGAYHTFADLKGKKVGLENGTTHQRYLQDKQQAITPVAYDSYLNAFTDLKNNRLEGVFGDVAAIGKWLKNNPDYAIMDERASDPDYYGKGLGIAVRKDNDALLQEINAALDKVKASPEYAQMQEKWFT ASVSARTLHFGTSATYAPYEFVDADNKIVGFDIDVANAVCKEMQAECSFTNQSFDSLIPSLRFKKFDAVIAGMDMTPKREQQVSFSQPYYEGLSAVVVTRKGAYHTFADLKGKKVGLENGTTHQRYLQDKQQAITPVAYDSYLNAFTDLKNNRLEGVFGDVAAIGKWLKNNPDYAIMDERASDPDYYGKGLGIAVRKDNDALLQEINAALDKVKASPEYAQMQEKWFT 2y7j-a1-m1-cB_2y7j-a1-m1-cD Structure of human phosphorylase kinase, gamma 2 P15735 P15735 2.5 X-RAY DIFFRACTION 47 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 2y7j-a1-m1-cA_2y7j-a1-m1-cC ELPDWAAAKEFYQKYDPKDVIGRGVSSVVRRCVHRATGHEFAVKIMEVTASPEQLEEVREATRRETHILRQVAGHPHIITLIDSYESSSFMFLVFDLMRKGELFDYLTEKVALSEKETRSIMRSLLEAVSFLHANNIVHRDLKPENILLDDNMQIRLSDFGFSCHLEPGEKLRELCGTPGYLAPEILKCSMDETHPGYGKEVDLWACGVILFTLLAGSPPFWHRRQILMLRMIMEGQYQFSSPEWDDRSSTVKDLISRLLQVDPEARLTAEQALQHPFFER ELPDWAAAKEFYQKYDPKDVIGRGVSSVVRRCVHRATGHEFAVKIMEVRLSPEQLEEVREATRRETHILRQVAGHPHIITLIDSYESSSFMFLVFDLMRKGELFDYLTEKVALSEKETRSIMRSLLEAVSFLHANNIVHRDLKPENILLDDNMQIRLSDFGFSCHLEPGEKLRELCGTPGYLAPEILKCSMDETHPGYGKEVDLWACGVILFTLLAGSPPFWHRRQILMLRMIMEGQYQFSSPEWDDRSSTVKDLISRLLQVDPEARLTAEQALQHPFFER 2y7j-a1-m1-cD_2y7j-a1-m1-cA Structure of human phosphorylase kinase, gamma 2 P15735 P15735 2.5 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 284 2y7j-a1-m1-cB_2y7j-a1-m1-cC ELPDWAAAKEFYQKYDPKDVIGRGVSSVVRRCVHRATGHEFAVKIMEVRLSPEQLEEVREATRRETHILRQVAGHPHIITLIDSYESSSFMFLVFDLMRKGELFDYLTEKVALSEKETRSIMRSLLEAVSFLHANNIVHRDLKPENILLDDNMQIRLSDFGFSCHLEPGEKLRELCGTPGYLAPEILKCSMDETHPGYGKEVDLWACGVILFTLLAGSPPFWHRRQILMLRMIMEGQYQFSSPEWDDRSSTVKDLISRLLQVDPEARLTAEQALQHPFFER ELPDWAAAKEFYQKYDPKDVIGRGVSSVVRRCVHRATGHEFAVKIMEVTAERLSPEQLEEVREATRRETHILRQVAGHPHIITLIDSYESSSFMFLVFDLMRKGELFDYLTEKVALSEKETRSIMRSLLEAVSFLHANNIVHRDLKPENILLDDNMQIRLSDFGFSCHLEPGEKLRELCGTPGYLAPEILKCSMDETHPGYGKEVDLWACGVILFTLLAGSPPFWHRRQILMLRMIMEGQYQFSSPEWDDRSSTVKDLISRLLQVDPEARLTAEQALQHPFFER 2y8e-a3-m1-cA_2y8e-a3-m1-cB Crystal structure of D. melanogaster Rab6 GTPase bound to GMPPNP O18334 O18334 1.39 X-RAY DIFFRACTION 40 0.994 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 165 167 LRKFKLVFLGEQSVGKTSLITRFMYDSFDNTYQATIGIDFLSKTMYLEDRTVRLQLWDTAGQERFRSLIPSYIRDSTVAVVVYDITNTNSFHQTSKWIDDVRTERGSDVIIMLVGNKTDLSDKRQVSTEEGERKAKELNVMFIETSAKAGYNVKQLFRRVAAALP GNPLRKFKLVFLGEQSVGKTSLITRFMYDSFDNTYQATIGIDFLSKTMYLEDRTVRLQLWDTAGQERFRSLIPSYIRDSTVAVVVYDITNTNSFHQTSKWIDDVRTERGSDVIIMLVGNKTDLSDKRQVSTEEGERKAKELNVMFIETSAKAGYNVKQLFRRVAAAL 2y8n-a1-m1-cA_2y8n-a1-m1-cC Crystal structure of glycyl radical enzyme Q38HX4 Q38HX4 1.75 X-RAY DIFFRACTION 129 1.0 1548 (Clostridium scatologenes) 1548 (Clostridium scatologenes) 869 869 DIPEAKESTQKLMDIYYTLKVTADMEAAYWYNRTWWENDGEVIEVRRAKAVAASLSHMTPTILPYEKLVMNKTKNVRGAFPFPWVCASFFNAQAEALMNEVDAPAENEADSVSVVGAGGGNVTESYGNVISIAKKFGMRKEEIPVLVKTSKPWEGISVEELSNKYSKMTPGYDQFKNIMESVICMFDSFAIPQGREVINYYMPLQYGFDGIIKLCDEKIAEVMGEAGDDGDFGMSRGYYYAAMKEITKGLSAWCENYSKRAKYLASIETDSEIKANYEKIEEVMGNIAHKKPANFWEAIQMTLCCHFGVVNEDPQSGLSIGRLGQVLQPFYEKDVEDGIMTDEEVIELLELYRIKITCIECFASAGVSGGVLSGNTFNNLSLGGQNYDGLSAVTPLEYLIVEAGMRNQTPQPTLSVLYDEKTPEDFLMKAASCTKLGLGYPAWMNNQTGMNFMMRNYGPEGMDLHDARAWCLGGCLESAPGCFLPLEYNGKVTMIPGGASPTCGTGVHFIGMPKVLELVLTNGLDKRTGKQVYPPHNKKLDSYETMVNQWKEYMELTTDVVNRCNNIQMDIWRKYNMPAVNSLLKPDCFKKGKHIGTMGARYNSCINFESCGTITFVNSLSSIKKNVFDDSKFTIEEMTDAMLNNFGFKTAYETEVFSPDFRESTDKSTKYEKIFAACVNAPKYGNADKYADEIFKAYHYYIYDMTHKFRSYYGKPLYLCQISVSTHGPQGFVTLATADGRLAGTTYSDGSVSAAAGTDKNGIYAIFESATVYDHSMHQNAQMNLKLHPTAVKGINGTRKLLDLVRAYMRKGGFHVQFNVVDSKTLRDAQLTPEKYRELMVRVAGFTQYWCEIGKPIQDEVIYRTEYDK DIPEAKESTQKLMDIYYTLKVTADMEAAYWYNRTWWENDGEVIEVRRAKAVAASLSHMTPTILPYEKLVMNKTKNVRGAFPFPWVCASFFNAQAEALMNEVDAPAENEADSVSVVGAGGGNVTESYGNVISIAKKFGMRKEEIPVLVKTSKPWEGISVEELSNKYSKMTPGYDQFKNIMESVICMFDSFAIPQGREVINYYMPLQYGFDGIIKLCDEKIAEVMGEAGDDGDFGMSRGYYYAAMKEITKGLSAWCENYSKRAKYLASIETDSEIKANYEKIEEVMGNIAHKKPANFWEAIQMTLCCHFGVVNEDPQSGLSIGRLGQVLQPFYEKDVEDGIMTDEEVIELLELYRIKITCIECFASAGVSGGVLSGNTFNNLSLGGQNYDGLSAVTPLEYLIVEAGMRNQTPQPTLSVLYDEKTPEDFLMKAASCTKLGLGYPAWMNNQTGMNFMMRNYGPEGMDLHDARAWCLGGCLESAPGCFLPLEYNGKVTMIPGGASPTCGTGVHFIGMPKVLELVLTNGLDKRTGKQVYPPHNKKLDSYETMVNQWKEYMELTTDVVNRCNNIQMDIWRKYNMPAVNSLLKPDCFKKGKHIGTMGARYNSCINFESCGTITFVNSLSSIKKNVFDDSKFTIEEMTDAMLNNFGFKTAYETEVFSPDFRESTDKSTKYEKIFAACVNAPKYGNADKYADEIFKAYHYYIYDMTHKFRSYYGKPLYLCQISVSTHGPQGFVTLATADGRLAGTTYSDGSVSAAAGTDKNGIYAIFESATVYDHSMHQNAQMNLKLHPTAVKGINGTRKLLDLVRAYMRKGGFHVQFNVVDSKTLRDAQLTPEKYRELMVRVAGFTQYWCEIGKPIQDEVIYRTEYDK 2y8v-a2-m1-cD_2y8v-a2-m1-cC Structure of chitinase, ChiC, from Aspergillus fumigatus. Q4WEQ6 Q4WEQ6 1.99 X-RAY DIFFRACTION 145 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 278 281 2y8v-a1-m1-cB_2y8v-a1-m1-cA HRRVICYHQTLCPNRGDYVSVLPLVKNNTGVTHIIIAAFHLNEDPGHITLNDDPPDHEMYNPLWAEVPVLKRSGVKVMGMLGGAAQGSYRCLDGDQEKFERYYQPLLAMVRRHQLDGLDLDVEEEMSLPGIIRLIDRLKLDLGDDFIITLAPVAAALLGIGNLSGFDYRQLEQQRGSKISWYNAQFYNGWGLAEDPRMYAAIVAQGWSPQRVVYGLLTNPGNGSQGYVPRERIGPVLAVLVEQFPNFGGVMGWEYFNSIPGEQQSPWQWAAEMSLSMH PEHRRVICYHQTLCPNRGDYVSVLPLVKNNTGVTHIIIAAFHLNEDPGHITLNDDPPDHEMYNPLWAEVPVLKRSGVKVMGMLGGAAQGSYRCLDGDQEKFERYYQPLLAMVRRHQLDGLDLDVEEEMSLPGIIRLIDRLKLDLGDDFIITLAPVAAALLGIGNLSGFDYRQLEQQRGSKISWYNAQFYNGWGLAEDPRMYAAIVAQGWSPQRVVYGLLTNPGNGSQGYVPRERIGPVLAVLVEQFPNFGGVMGWEYFNSIPGEQQSPWQWAAEMSLSMHM 2y96-a1-m1-cB_2y96-a1-m2-cB Structure of human dual-specificity phosphatase 27 Q68J44 Q68J44 2.38 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 2y96-a1-m1-cA_2y96-a1-m2-cA DYCTPGAFELERLFWKGSPQYTHVNEVWPKLYIGDEATALDRYRLQKAGFTHVLNAAHDTGPDYYRDMDIQYHGVEADDLPTFDLSVFFYPAAAFIDRALSDDHSKILVHCVMGRSRSATLVLAYLMIHKDMTLVDAIQQVAKNRCVLPNRGFLKQLRELDKQLV DYCTPGAFELERLFWKGSPQYTHVNEVWPKLYIGDEATALDRYRLQKAGFTHVLNAAHDTGPDYYRDMDIQYHGVEADDLPTFDLSVFFYPAAAFIDRALSDDHSKILVHCVMGRSRSATLVLAYLMIHKDMTLVDAIQQVAKNRCVLPNRGFLKQLRELDKQLV 2y96-a1-m2-cB_2y96-a1-m2-cA Structure of human dual-specificity phosphatase 27 Q68J44 Q68J44 2.38 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 175 2y96-a1-m1-cB_2y96-a1-m1-cA DYCTPGAFELERLFWKGSPQYTHVNEVWPKLYIGDEATALDRYRLQKAGFTHVLNAAHDTGPDYYRDMDIQYHGVEADDLPTFDLSVFFYPAAAFIDRALSDDHSKILVHCVMGRSRSATLVLAYLMIHKDMTLVDAIQQVAKNRCVLPNRGFLKQLRELDKQLV DYCTPGAFELERLFWKGSPQYTHVNEVWPKLYIGDEATALDRYRLQKAGFTHVLNAAHGRWNVDTGPDYYRDMDIQYHGVEADDLPTFDLSVFFYPAAAFIDRALSDDHSKILVHCVMGRSRSATLVLAYLMIHKDMTLVDAIQQVAKNRCVLPNRGFLKQLRELDKQLVQQRRR 2ya4-a1-m1-cA_2ya4-a1-m1-cB Crystal structure of Streptococcus pneumoniae NanA (TIGR4) P62575 P62575 1.8 X-RAY DIFFRACTION 75 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 470 471 2vvz-a1-m1-cA_2vvz-a1-m1-cB 2ya5-a1-m1-cB_2ya5-a1-m1-cA 2ya6-a1-m1-cA_2ya6-a1-m1-cB 2ya7-a1-m1-cB_2ya7-a1-m1-cA 2ya7-a2-m1-cC_2ya7-a2-m1-cD 2ya8-a1-m1-cA_2ya8-a1-m1-cB 5kky-a1-m1-cB_5kky-a1-m1-cA 7a5x-a1-m1-cA_7a5x-a1-m1-cB ALTEKTDIFESGRNGNPNKDGIKSYRIPALLKTDKGTLIAGADERRLHSSDWGDIGMVIRRSEDNGKTWGDRVTITNLRDNPKASDPSIGSPVNIDMVLVQDPETKRIFSIYDMFPEGKGIFGMSSQKEEAYKKIDGKTYQILYREGEKGAYTIRENGTVYTPDGKATDYRVVVDPVKPAYSDKGDLYKGDQLLGNIYFTTNKTSPFRIAKDSYLWMSYSDDDGKTWSAPQDITPMVKADWMKFLGVGPGTGIVLRNGPHKGRILIPVYTTNNVSHLDGSQSSRVIYSDDHGKTWHAGEAVNDNRQVDGQKIHSSTMNNRRAQNTESTVVQLNNGDVKLFMRGLTGDLQVATSKDGGVTWEKDIKRYPQVKDVYVQMSAIHTMHEGKEYIILSNAGGPKRENGMVHLARVEENGELTWLKHNPIQKGEFAYNSLQELGNGEYGILYEHTEKGQNAYTLSFRKFNWEFLSK ALTEKTDIFESGRNGNPNKDGIKSYRIPALLKTDKGTLIAGADERRLHSSDWGDIGMVIRRSEDNGKTWGDRVTITNLRDNPKASDPSIGSPVNIDMVLVQDPETKRIFSIYDMFPEGKGIFGMSSQKEEAYKKIDGKTYQILYREGEKGAYTIRENGTVYTPDGKATDYRVVVDPVKPAYSDKGDLYKGDQLLGNIYFTTNKTSPFRIAKDSYLWMSYSDDDGKTWSAPQDITPMVKADWMKFLGVGPGTGIVLRNGPHKGRILIPVYTTNNVSHLDGSQSSRVIYSDDHGKTWHAGEAVNDNRQVDGQKIHSSTMNNRRAQNTESTVVQLNNGDVKLFMRGLTGDLQVATSKDGGVTWEKDIKRYPQVKDVYVQMSAIHTMHEGKEYIILSNAGGPKRENGMVHLARVEENGELTWLKHNPIQKGEFAYNSLQELGNGEYGILYEHTEKGQNAYTLSFRKFNWEFLSKN 2yac-a1-m1-cA_2yac-a1-m2-cA Crystal structure of Polo-like kinase 1 in complex with NMS-P937 P53350 P53350 2.2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 290 290 2ou7-a2-m1-cA_2ou7-a2-m2-cA 2owb-a2-m1-cA_2owb-a2-m2-cA 2rku-a2-m1-cA_2rku-a2-m2-cA 3fc2-a1-m1-cA_3fc2-a1-m2-cA 3kb7-a1-m1-cA_3kb7-a1-m2-cA 3thb-a2-m1-cA_3thb-a2-m2-cA 4a4l-a1-m1-cA_4a4l-a1-m2-cA 4a4o-a1-m1-cA_4a4o-a1-m2-cA EIPEVLVDPRSRRRYVRGRFLGKGGFAKCFEISDADTKEVFAGKIVPKSLLLKPHQREKMSMEISIHRSLAHQHVVGFHGFFEDNDFVFVVLELCRRRSLLELHKRRKALTEPEARYYLRQIVLGCQYLHRNRVIHRDLKLGNLFLNEDLEVKIGDFGLATKVEYDGERKKTLCGTPNYIAPEVLSKKGHSFEVDVWSIGCIMYTLLVGKPPFETSCLKETYLRIKKNEYSIPKHINPVAASLIQKMLQTDPTARPTINELLNDEFFTSGYIPARLPITCLTIPPRFSIA EIPEVLVDPRSRRRYVRGRFLGKGGFAKCFEISDADTKEVFAGKIVPKSLLLKPHQREKMSMEISIHRSLAHQHVVGFHGFFEDNDFVFVVLELCRRRSLLELHKRRKALTEPEARYYLRQIVLGCQYLHRNRVIHRDLKLGNLFLNEDLEVKIGDFGLATKVEYDGERKKTLCGTPNYIAPEVLSKKGHSFEVDVWSIGCIMYTLLVGKPPFETSCLKETYLRIKKNEYSIPKHINPVAASLIQKMLQTDPTARPTINELLNDEFFTSGYIPARLPITCLTIPPRFSIA 2yad-a2-m1-cD_2yad-a2-m1-cC BRICHOS domain of Surfactant protein C precursor protein P11686 P11686 2.2 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 80 2yad-a1-m1-cA_2yad-a1-m1-cB 2yad-a1-m1-cE_2yad-a1-m1-cB 2yad-a2-m1-cF_2yad-a2-m1-cC 2yad-a2-m1-cF_2yad-a2-m1-cD LVTTATFSIGSTGLVVYDYQQLLIAYKPAPGTCCYIKIAPESIPSLEALTRKVHNFQECFLGAVSTLCGEVPLYYI HLVTTATFSIGSTGLVVYDYQQLLIAYKPAPGTCCYIKIAPESIPSLEALTRKVHNFQECSLQFLGAVSTLCGEVPLYYI 2yal-a1-m1-cB_2yal-a1-m1-cA SinR, Master Regulator of biofilm formation in Bacillus subtilis P06533 P06533 2.27 X-RAY DIFFRACTION 65 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 38 39 GPAIDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQ GPAIDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQK 2yas-a3-m1-cA_2yas-a3-m3-cA HYDROXYNITRILE LYASE FROM HEVEA BRASILIENSIS COMPLEXED WITH RHODANIDE P52704 P52704 1.72 X-RAY DIFFRACTION 21 1.0 3981 (Hevea brasiliensis) 3981 (Hevea brasiliensis) 256 256 3yas-a3-m1-cA_3yas-a3-m3-cA 4yas-a3-m1-cA_4yas-a3-m3-cA 5yas-a3-m1-cA_5yas-a3-m3-cA 7yas-a3-m1-cA_7yas-a3-m3-cA AFAHFVLIHTICHGAWIWHKLKPLLEALGHKVTALDLAASGVDPRQIEEIGSFDEYSEPLLTFLEALPPGEKVILVGESCGGLNIAIAADKYCEKIAAAVFHNSVLPDTEHCPSYVVDKLMEVFPDWKDTTYFTYTKDGKEITGLKLGFTLLRENLYTLCGPEEYELAKMLTRKGSLFQNILAKRPFFTKEGYGSIKKIYVWTDQDEIFLPEFQLWQIENYKPDKVYKVEGGDHKLQLTKTKEIAEILQEVADTYN AFAHFVLIHTICHGAWIWHKLKPLLEALGHKVTALDLAASGVDPRQIEEIGSFDEYSEPLLTFLEALPPGEKVILVGESCGGLNIAIAADKYCEKIAAAVFHNSVLPDTEHCPSYVVDKLMEVFPDWKDTTYFTYTKDGKEITGLKLGFTLLRENLYTLCGPEEYELAKMLTRKGSLFQNILAKRPFFTKEGYGSIKKIYVWTDQDEIFLPEFQLWQIENYKPDKVYKVEGGDHKLQLTKTKEIAEILQEVADTYN 2yb0-a1-m1-cA_2yb0-a1-m1-cB The Crystal Structure of Leishmania major dUTPase in complex deoxyuridine O15826 O15826 2.28 X-RAY DIFFRACTION 83 1.0 5664 (Leishmania major) 5664 (Leishmania major) 258 263 2cje-a1-m1-cA_2cje-a1-m2-cA 2yay-a1-m1-cA_2yay-a1-m2-cA 2yaz-a1-m1-cA_2yaz-a1-m1-cB 2yaz-a2-m1-cD_2yaz-a2-m1-cE 2yb0-a2-m1-cD_2yb0-a2-m1-cE ANIPGAILHSLAELQDGLNAMIDPSWRAVRSLDNWALAITMESTELLDSYPWKWWKNLNATPDLANVRIELVDIFHFSLSGAMQMRSTPDDEIPAASLKPLKEVMTTFLPAKECTSDPYGFVFFPLTDTQNAIASFRNIIQLANAYRFDVIIECIIYAAEDLGFNLVAYYIAKHTLNCIRQLSGYKDGSYVKVNNGVEDNSLLHNCIKDVSLDEVLDADKYVQAWNSIMANVYEAFQIKESDRKDAERWFALAKENRL KRARSANIPGAILHSLAELQDGLNAMIDPSWRAVRSLDNWALAITMESTELLDSYPWKWWKNLNATPDLANVRIELVDIFHFSLSGAMQMRSTPDDEIPAASLKPLKEVMTTFLPAKECTSDPYGFVFFPLTDTQNAIASFRNIIQLANAYRFDVIIECIIYAAEDLGFNLVAYYIAKHTLNCIRQLSGYKDGSYVKVNNGVEDNSLLHNCIKDVSLDEVLDADKYVQAWNSIMANVYEAFQIKESDRKDAERWFALAKENRL 2ybq-a1-m1-cA_2ybq-a1-m2-cA The x-ray structure of the SAM-dependent uroporphyrinogen III methyltransferase NirE from Pseudomonas aeruginosa in complex with SAH and uroporphyrinogen III P95417 P95417 2 X-RAY DIFFRACTION 203 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 242 242 2ybo-a1-m1-cA_2ybo-a1-m2-cA VDFPAGSVALVGAGPGDPGLLTLRAWALLQQAEVVVYDRLVARELIALLPESCQRIYVGPQEEINELLVRLARQQRRVVRLKGGDPFIFGRGAEELERLLEAGVDCQVVPGVTAASGCSTYAGIPLTHRDLAQSCTFVTGHLQLDLDWAGLARGKQTLVFYMGLGNLAEIAARLVEHGLASDTPAALVSQGTQAGQQVTRGALAELPALARRYQLKPPTLIVVGQVVALFAERAMAHPSYLG VDFPAGSVALVGAGPGDPGLLTLRAWALLQQAEVVVYDRLVARELIALLPESCQRIYVGPQEEINELLVRLARQQRRVVRLKGGDPFIFGRGAEELERLLEAGVDCQVVPGVTAASGCSTYAGIPLTHRDLAQSCTFVTGHLQLDLDWAGLARGKQTLVFYMGLGNLAEIAARLVEHGLASDTPAALVSQGTQAGQQVTRGALAELPALARRYQLKPPTLIVVGQVVALFAERAMAHPSYLG 2ycb-a1-m1-cA_2ycb-a1-m1-cB Structure of the archaeal beta-CASP protein with N-terminal KH domains from Methanothermobacter thermautotrophicus O27271 O27271 3.1 X-RAY DIFFRACTION 48 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 634 635 SEMLEEIKRTIMQRLPERVQVAKVEFEGPEVVIYTKNPEIITENGNLIRDIAKDIRKRIIIRSDRSVLMDPEKAIRKIHEIVPEEAKITNISFDDVTCEVIIEARKPGLVIGKYGSTSREIVKNTGWAPKILRTPPISSEIIERIRRTLRKNSKERKKILQQLGNRIHQKPKYDNDWARLTAMGGFREVGRSCLYLQTPNSRVLLDCGVNVAGGDDKNSYPYLNVPEFTLDSLDAVIITHAHLDHSGFLPYLYHYGYDGPVYCTAPTRDLMTLLQLDHIDIAHREDEPLPFNVKHVKKSVKHTITLDYGEVTDIAPDIRLTLHNAGHILGSAMAHLHIGDGQHNMVYTGDFKYEQSRLLEAAANRFPRIETLVMESTYGGHEDVQPSRNRAEKELVKTIYSTLRRGGKILIPVFAVGRAQELMIVLEEYIRTGIIDEVPVYIDGMIWEANAIHTARPEYLSKDLRDQIFHMGHNPFISDIFHKVNGMDERREIVEGEPSIILSTSGMLTGGNSLEYFKWLCEDPDNSLVFVGYQAEGSLGRRIQKGWKEIPLKDEDDKMRVYNVRMNIKTIEGFSGHSDRRQLMEYVKRISPKPEKILLCHGDNYKTLDLASSIYRTYRIETKTPLNLETVRIQ VSEMLEEIKRTIMQRLPERVQVAKVEFEGPEVVIYTKNPEIITENGNLIRDIAKDIRKRIIIRSDRSVLMDPEKAIRKIHEIVPEEAKITNISFDDVTCEVIIEARKPGLVIGKYGSTSREIVKNTGWAPKILRTPPISSEIIERIRRTLRKNSKERKKILQQLGNRIHQKPKYDNDWARLTAMGGFREVGRSCLYLQTPNSRVLLDCGVNVAGGDDKNSYPYLNVPEFTLDSLDAVIITHAHLDHSGFLPYLYHYGYDGPVYCTAPTRDLMTLLQLDHIDIAHREDEPLPFNVKHVKKSVKHTITLDYGEVTDIAPDIRLTLHNAGHILGSAMAHLHIGDGQHNMVYTGDFKYEQSRLLEAAANRFPRIETLVMESTYGGHEDVQPSRNRAEKELVKTIYSTLRRGGKILIPVFAVGRAQELMIVLEEYIRTGIIDEVPVYIDGMIWEANAIHTARPEYLSKDLRDQIFHMGHNPFISDIFHKVNGMDERREIVEGEPSIILSTSGMLTGGNSLEYFKWLCEDPDNSLVFVGYQAEGSLGRRIQKGWKEIPLKDEDDKMRVYNVRMNIKTIEGFSGHSDRRQLMEYVKRISPKPEKILLCHGDNYKTLDLASSIYRTYRIETKTPLNLETVRIQ 2ycd-a1-m1-cA_2ycd-a1-m2-cA Structure of a novel Glutathione Transferase from Agrobacterium tumefaciens. A9CFJ9 A9CFJ9 1.4 X-RAY DIFFRACTION 105 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 213 213 3lq7-a1-m1-cB_3lq7-a1-m1-cA 3lq7-a2-m1-cC_3lq7-a2-m2-cC KPNPTITVFERSPDGGRGLARDMPVRWALEEVGQPYHVRRLSFEAMKEASHLAYQPFGQIPSYEQGDLILFESGAIVMHIAQHHSGLLPEDQLRRARTVAWMFAALNTIEPSILNFTTVWLFERNEPWHEARLARTKEQLLKRLDELSAWLGDREWLEGSFSAADILMICVLRRLESSGILKDYGNLLAYVERGKARPAFKRAFDAQLAVFTA KPNPTITVFERSPDGGRGLARDMPVRWALEEVGQPYHVRRLSFEAMKEASHLAYQPFGQIPSYEQGDLILFESGAIVMHIAQHHSGLLPEDQLRRARTVAWMFAALNTIEPSILNFTTVWLFERNEPWHEARLARTKEQLLKRLDELSAWLGDREWLEGSFSAADILMICVLRRLESSGILKDYGNLLAYVERGKARPAFKRAFDAQLAVFTA 2ycj-a1-m1-cA_2ycj-a1-m2-cA methyltransferase bound with methyltetrahydrofolate Q3ACR9 Q3ACR9 1.96 X-RAY DIFFRACTION 109 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 271 271 2yci-a1-m1-cX_2yci-a1-m2-cX 2yck-a1-m1-cX_2yck-a1-m2-cX GLVPRGSHMFIMIGERINGMFKDIREAILNKDPRPIQEWARRQAEKGAHYLDVNTGPTADDPVRVMEWLVKTIQEVVDLPCCLDSTNPDAIEAGLKVHRGHAMINSTSADQWKMDIFFPMAKKYEAAIIGLTMNEKGVPKDANDRSQLAMELVANADAHGIPMTELYIDPLILPVNVAQEHAVEVLETIRQIKLMANPAPRTVLGLSNVSQKCPDRPLINRTYLVMAMTAGLDAAIMDVDDDALVDAAATAHILLNKEIYCDSYLKTFRQK GLVPRGSHMFIMIGERINGMFKDIREAILNKDPRPIQEWARRQAEKGAHYLDVNTGPTADDPVRVMEWLVKTIQEVVDLPCCLDSTNPDAIEAGLKVHRGHAMINSTSADQWKMDIFFPMAKKYEAAIIGLTMNEKGVPKDANDRSQLAMELVANADAHGIPMTELYIDPLILPVNVAQEHAVEVLETIRQIKLMANPAPRTVLGLSNVSQKCPDRPLINRTYLVMAMTAGLDAAIMDVDDDALVDAAATAHILLNKEIYCDSYLKTFRQK 2ycm-a1-m1-cA_2ycm-a1-m2-cA Inhibitors of herbicidal target IspD P69834 P69834 1.8 X-RAY DIFFRACTION 13 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 213 213 EKSVSVILLAGMPKQYIPLLGQPIALYSFFTFSRMPEVKEIVVVCDPFFRDIFEEYEESIDVDLSFAIPGKERQDSVYSGLQEIDVNSELVCIHDSARPLVNTEDVEKVLKDGSAVGAAVLGVPAKATIKEVNSDSLVVKTLTLWEMQTPQVIKPELLKKGFELVKSEGLEVTDDVSIVEYLKHPVYVSQGSYTNIKVTTPDDLLLAERILSE EKSVSVILLAGMPKQYIPLLGQPIALYSFFTFSRMPEVKEIVVVCDPFFRDIFEEYEESIDVDLSFAIPGKERQDSVYSGLQEIDVNSELVCIHDSARPLVNTEDVEKVLKDGSAVGAAVLGVPAKATIKEVNSDSLVVKTLTLWEMQTPQVIKPELLKKGFELVKSEGLEVTDDVSIVEYLKHPVYVSQGSYTNIKVTTPDDLLLAERILSE 2yd6-a1-m1-cA_2yd6-a1-m2-cA Crystal structure of the N-terminal Ig1-2 module of Human Receptor Protein Tyrosine Phosphatase Delta P23468 P23468 1.35 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 ETPPRFTRTPVDQTGVSGGVASFICQATGDPRPKIVWNKKGKKVSNQRFEVIEFDDGSGSVLRIQPLRTPRDEAIYECVASNNVGEISVSTRLTVLREDQIPRGFPTIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVGRIKQLRSESIGALQIEQSEESDQGKYECVATNSAGTRYSAPANLYVRG ETPPRFTRTPVDQTGVSGGVASFICQATGDPRPKIVWNKKGKKVSNQRFEVIEFDDGSGSVLRIQPLRTPRDEAIYECVASNNVGEISVSTRLTVLREDQIPRGFPTIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVGRIKQLRSESIGALQIEQSEESDQGKYECVATNSAGTRYSAPANLYVRG 2yd9-a1-m1-cA_2yd9-a1-m2-cA Crystal structure of the N-terminal Ig1-3 module of Human Receptor Protein Tyrosine Phosphatase Sigma Q13332 Q13332 2.6 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 EEPPRFIKEPKDQIGVSGGVASFVCQATGDPKPRVTWNSQRFETIEFDESAGAVLRIQPLRTPRDENVYECVAQNSVGEITVHAKLTVLREDQLPSGFPNIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVDPSASNGRIKQLRSGALQIESSEETDQGKYECVATNSAGVRYSSPANLYVRVQNVAPRFSILPMSHEIMPGGNVNITCVAVGSPMPYVKWMQGAEDLTPEDDMPVGRNVLELTDVKDSANYTCVAMSSLGVIEAVAQIT EEPPRFIKEPKDQIGVSGGVASFVCQATGDPKPRVTWNSQRFETIEFDESAGAVLRIQPLRTPRDENVYECVAQNSVGEITVHAKLTVLREDQLPSGFPNIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVDPSASNGRIKQLRSGALQIESSEETDQGKYECVATNSAGVRYSSPANLYVRVQNVAPRFSILPMSHEIMPGGNVNITCVAVGSPMPYVKWMQGAEDLTPEDDMPVGRNVLELTDVKDSANYTCVAMSSLGVIEAVAQIT 2ydx-a3-m1-cD_2ydx-a3-m1-cE Crystal structure of human S-adenosylmethionine synthetase 2, beta subunit Q9NZL9 Q9NZL9 2.8 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 312 312 2ydx-a1-m1-cB_2ydx-a1-m2-cB 2ydx-a2-m1-cA_2ydx-a2-m1-cC MNRRVLVTGATGLLGRAVHKEFQQNNWHAVGCGFRRARPKFEQVNLLDSNAVHHIIHDFQPHVIVHCAAERRPDVVENQPDAASQLNVDASGNLAKEAAAVGAFLIYISSDYVFDGTNPPYREEDIPAPLNLYGKTKLDGEKAVLENNLGAAVLRIPILYGEVEKLEESAVTVMFDKVQFSNKSANMDHWQQRFPTHVKDVATVCRQLAEKRMLDPSIKGTFHWSGNEQMTKYEMACAIADAFNLPSSHLRPITDSPVLGAQRPRNAQLDCSKLETLGIGQRTPFRIGIKESLWPFLIDKRWRQTVFHAENL MNRRVLVTGATGLLGRAVHKEFQQNNWHAVGCGFRRARPKFEQVNLLDSNAVHHIIHDFQPHVIVHCAAERRPDVVENQPDAASQLNVDASGNLAKEAAAVGAFLIYISSDYVFDGTNPPYREEDIPAPLNLYGKTKLDGEKAVLENNLGAAVLRIPILYGEVEKLEESAVTVMFDKVQFSNKSANMDHWQQRFPTHVKDVATVCRQLAEKRMLDPSIKGTFHWSGNEQMTKYEMACAIADAFNLPSSHLRPITDSPVLGAQRPRNAQLDCSKLETLGIGQRTPFRIGIKESLWPFLIDKRWRQTVFHAENL 2yeo-a1-m2-cA_2yeo-a1-m3-cA A39L mutation of scorpion toxin lqh-alpha-it P17728 P17728 1.08 X-RAY DIFFRACTION 16 1.0 6884 (Leiurus quinquestriatus hebraeus) 6884 (Leiurus quinquestriatus hebraeus) 65 65 2yeo-a1-m1-cA_2yeo-a1-m2-cA 2yeo-a1-m1-cA_2yeo-a1-m3-cA MVRDAYIAKNYNCVYECFRDAYCNELCTKNGASSGYCQWLGKYGNACWCYALPDNVPIRVPGKCR MVRDAYIAKNYNCVYECFRDAYCNELCTKNGASSGYCQWLGKYGNACWCYALPDNVPIRVPGKCR 2yeq-a3-m1-cA_2yeq-a3-m1-cB Structure of PhoD P42251 P42251 1.93 X-RAY DIFFRACTION 58 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 522 522 APNFSSYPFTLGVASGDPLSDSVVLWTRLAPDPLNGGGMPKQAVPVKWEVAKDEHFRKIVRKGTEMAKPSLAHSVHVEADGLEPNKVYYYRFKTGHELSPVGKTKTLPAPGANVPQMTFAFASCQQYEHGYYTAYKHMAKEKLDLVFHLGDYIYEYGPNEYVSKTGNVRTHNSAEIITLQDYRNRHAQYRSDANLKAAHAAFPWVVTWDDHEVENNYANKIPEKGQSVEAFVLRRAAAYQAYYEHMPLRISSLPNGPDMQLYRHFTYGNLASFNVLDTRQYRDDQANNDGNKPPSDESRNPNRTLLGKEQEQWLFNNLGSSTAHWNVLAQQIFFAKWNFGTSASPIYSMDSWDGYPAQRERVINFIKSKNLNNVVVLTGDVHASWASNLHVDFEKTSSKIFGAEFVGTSITSGGNGADKRADTDQILKENPHIQFFNDYRGYVRCTVTPHQWKADYRVMPFVTEPGAAISTRASFVYQKDQTGLRKVSSTTIQGGVKQSDEVEEDRFFSHNKAHEKQMIKKR APNFSSYPFTLGVASGDPLSDSVVLWTRLAPDPLNGGGMPKQAVPVKWEVAKDEHFRKIVRKGTEMAKPSLAHSVHVEADGLEPNKVYYYRFKTGHELSPVGKTKTLPAPGANVPQMTFAFASCQQYEHGYYTAYKHMAKEKLDLVFHLGDYIYEYGPNEYVSKTGNVRTHNSAEIITLQDYRNRHAQYRSDANLKAAHAAFPWVVTWDDHEVENNYANKIPEKGQSVEAFVLRRAAAYQAYYEHMPLRISSLPNGPDMQLYRHFTYGNLASFNVLDTRQYRDDQANNDGNKPPSDESRNPNRTLLGKEQEQWLFNNLGSSTAHWNVLAQQIFFAKWNFGTSASPIYSMDSWDGYPAQRERVINFIKSKNLNNVVVLTGDVHASWASNLHVDFEKTSSKIFGAEFVGTSITSGGNGADKRADTDQILKENPHIQFFNDYRGYVRCTVTPHQWKADYRVMPFVTEPGAAISTRASFVYQKDQTGLRKVSSTTIQGGVKQSDEVEEDRFFSHNKAHEKQMIKKR 2yew-a1-m24-cH_2yew-a1-m9-cK Modeling Barmah Forest virus structural proteins P89946 P89946 5.0 ELECTRON MICROSCOPY 27 1.0 11020 (Barmah Forest virus) 11020 (Barmah Forest virus) 425 425 2yew-a1-m10-cB_2yew-a1-m6-cB 2yew-a1-m10-cB_2yew-a1-m9-cB 2yew-a1-m10-cE_2yew-a1-m10-cK 2yew-a1-m10-cH_2yew-a1-m23-cK 2yew-a1-m11-cB_2yew-a1-m12-cB 2yew-a1-m11-cB_2yew-a1-m15-cB 2yew-a1-m11-cE_2yew-a1-m11-cK 2yew-a1-m11-cH_2yew-a1-m20-cK 2yew-a1-m11-cK_2yew-a1-m38-cH 2yew-a1-m12-cB_2yew-a1-m13-cB 2yew-a1-m12-cE_2yew-a1-m12-cK 2yew-a1-m12-cH_2yew-a1-m37-cK 2yew-a1-m12-cK_2yew-a1-m47-cH 2yew-a1-m13-cB_2yew-a1-m14-cB 2yew-a1-m13-cE_2yew-a1-m13-cK 2yew-a1-m13-cH_2yew-a1-m46-cK 2yew-a1-m13-cK_2yew-a1-m45-cH 2yew-a1-m14-cB_2yew-a1-m15-cB 2yew-a1-m14-cE_2yew-a1-m14-cK 2yew-a1-m14-cH_2yew-a1-m44-cK 2yew-a1-m14-cK_2yew-a1-m29-cH 2yew-a1-m15-cE_2yew-a1-m15-cK 2yew-a1-m15-cH_2yew-a1-m28-cK 2yew-a1-m15-cK_2yew-a1-m16-cH 2yew-a1-m16-cB_2yew-a1-m17-cB 2yew-a1-m16-cB_2yew-a1-m20-cB 2yew-a1-m16-cE_2yew-a1-m16-cK 2yew-a1-m16-cK_2yew-a1-m28-cH 2yew-a1-m17-cB_2yew-a1-m18-cB 2yew-a1-m17-cE_2yew-a1-m17-cK 2yew-a1-m17-cH_2yew-a1-m27-cK 2yew-a1-m17-cK_2yew-a1-m52-cH 2yew-a1-m18-cB_2yew-a1-m19-cB 2yew-a1-m18-cE_2yew-a1-m18-cK 2yew-a1-m18-cH_2yew-a1-m51-cK 2yew-a1-m18-cK_2yew-a1-m60-cH 2yew-a1-m19-cB_2yew-a1-m20-cB 2yew-a1-m19-cE_2yew-a1-m19-cK 2yew-a1-m19-cH_2yew-a1-m59-cK 2yew-a1-m19-cK_2yew-a1-m39-cH 2yew-a1-m1-cB_2yew-a1-m2-cB 2yew-a1-m1-cB_2yew-a1-m5-cB 2yew-a1-m1-cE_2yew-a1-m1-cK 2yew-a1-m1-cH_2yew-a1-m10-cK 2yew-a1-m1-cK_2yew-a1-m23-cH 2yew-a1-m20-cE_2yew-a1-m20-cK 2yew-a1-m20-cH_2yew-a1-m38-cK 2yew-a1-m21-cB_2yew-a1-m22-cB 2yew-a1-m21-cB_2yew-a1-m25-cB 2yew-a1-m21-cE_2yew-a1-m21-cK 2yew-a1-m21-cH_2yew-a1-m30-cK 2yew-a1-m21-cK_2yew-a1-m43-cH 2yew-a1-m22-cB_2yew-a1-m23-cB 2yew-a1-m22-cE_2yew-a1-m22-cK 2yew-a1-m22-cH_2yew-a1-m42-cK 2yew-a1-m23-cB_2yew-a1-m24-cB 2yew-a1-m23-cE_2yew-a1-m23-cK 2yew-a1-m24-cB_2yew-a1-m25-cB 2yew-a1-m24-cE_2yew-a1-m24-cK 2yew-a1-m24-cK_2yew-a1-m54-cH 2yew-a1-m25-cE_2yew-a1-m25-cK 2yew-a1-m25-cH_2yew-a1-m53-cK 2yew-a1-m25-cK_2yew-a1-m26-cH 2yew-a1-m26-cB_2yew-a1-m27-cB 2yew-a1-m26-cB_2yew-a1-m30-cB 2yew-a1-m26-cE_2yew-a1-m26-cK 2yew-a1-m26-cK_2yew-a1-m53-cH 2yew-a1-m27-cB_2yew-a1-m28-cB 2yew-a1-m27-cE_2yew-a1-m27-cK 2yew-a1-m27-cH_2yew-a1-m52-cK 2yew-a1-m28-cB_2yew-a1-m29-cB 2yew-a1-m28-cE_2yew-a1-m28-cK 2yew-a1-m29-cB_2yew-a1-m30-cB 2yew-a1-m29-cE_2yew-a1-m29-cK 2yew-a1-m29-cK_2yew-a1-m44-cH 2yew-a1-m2-cB_2yew-a1-m3-cB 2yew-a1-m2-cE_2yew-a1-m2-cK 2yew-a1-m2-cH_2yew-a1-m22-cK 2yew-a1-m2-cK_2yew-a1-m42-cH 2yew-a1-m30-cE_2yew-a1-m30-cK 2yew-a1-m30-cH_2yew-a1-m43-cK 2yew-a1-m31-cB_2yew-a1-m32-cB 2yew-a1-m31-cB_2yew-a1-m35-cB 2yew-a1-m31-cE_2yew-a1-m31-cK 2yew-a1-m31-cH_2yew-a1-m40-cK 2yew-a1-m31-cK_2yew-a1-m58-cH 2yew-a1-m32-cB_2yew-a1-m33-cB 2yew-a1-m32-cE_2yew-a1-m32-cK 2yew-a1-m32-cH_2yew-a1-m57-cK 2yew-a1-m32-cK_2yew-a1-m7-cH 2yew-a1-m33-cB_2yew-a1-m34-cB 2yew-a1-m33-cE_2yew-a1-m33-cK 2yew-a1-m33-cH_2yew-a1-m6-cK 2yew-a1-m33-cK_2yew-a1-m5-cH 2yew-a1-m34-cB_2yew-a1-m35-cB 2yew-a1-m34-cE_2yew-a1-m34-cK 2yew-a1-m34-cH_2yew-a1-m4-cK 2yew-a1-m34-cK_2yew-a1-m49-cH 2yew-a1-m35-cE_2yew-a1-m35-cK 2yew-a1-m35-cH_2yew-a1-m48-cK 2yew-a1-m35-cK_2yew-a1-m36-cH 2yew-a1-m36-cB_2yew-a1-m37-cB 2yew-a1-m36-cB_2yew-a1-m40-cB 2yew-a1-m36-cE_2yew-a1-m36-cK 2yew-a1-m36-cK_2yew-a1-m48-cH 2yew-a1-m37-cB_2yew-a1-m38-cB 2yew-a1-m37-cE_2yew-a1-m37-cK 2yew-a1-m37-cH_2yew-a1-m47-cK 2yew-a1-m38-cB_2yew-a1-m39-cB 2yew-a1-m38-cE_2yew-a1-m38-cK 2yew-a1-m39-cB_2yew-a1-m40-cB 2yew-a1-m39-cE_2yew-a1-m39-cK 2yew-a1-m39-cK_2yew-a1-m59-cH 2yew-a1-m3-cB_2yew-a1-m4-cB 2yew-a1-m3-cE_2yew-a1-m3-cK 2yew-a1-m3-cH_2yew-a1-m41-cK 2yew-a1-m3-cK_2yew-a1-m50-cH 2yew-a1-m40-cE_2yew-a1-m40-cK 2yew-a1-m40-cH_2yew-a1-m58-cK 2yew-a1-m41-cB_2yew-a1-m42-cB 2yew-a1-m41-cB_2yew-a1-m45-cB 2yew-a1-m41-cE_2yew-a1-m41-cK 2yew-a1-m41-cH_2yew-a1-m50-cK 2yew-a1-m42-cB_2yew-a1-m43-cB 2yew-a1-m42-cE_2yew-a1-m42-cK 2yew-a1-m43-cB_2yew-a1-m44-cB 2yew-a1-m43-cE_2yew-a1-m43-cK 2yew-a1-m44-cB_2yew-a1-m45-cB 2yew-a1-m44-cE_2yew-a1-m44-cK 2yew-a1-m45-cE_2yew-a1-m45-cK 2yew-a1-m45-cK_2yew-a1-m46-cH 2yew-a1-m46-cB_2yew-a1-m47-cB 2yew-a1-m46-cB_2yew-a1-m50-cB 2yew-a1-m46-cE_2yew-a1-m46-cK 2yew-a1-m47-cB_2yew-a1-m48-cB 2yew-a1-m47-cE_2yew-a1-m47-cK 2yew-a1-m48-cB_2yew-a1-m49-cB 2yew-a1-m48-cE_2yew-a1-m48-cK 2yew-a1-m49-cB_2yew-a1-m50-cB 2yew-a1-m49-cE_2yew-a1-m49-cK 2yew-a1-m4-cB_2yew-a1-m5-cB 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2yew-a1-m7-cA_2yew-a1-m9-cA Modeling Barmah Forest virus structural proteins P89946 P89946 5.0 ELECTRON MICROSCOPY 21 1.0 11020 (Barmah Forest virus) 11020 (Barmah Forest virus) 171 171 2yew-a1-m10-cA_2yew-a1-m7-cA 2yew-a1-m10-cA_2yew-a1-m8-cA 2yew-a1-m11-cA_2yew-a1-m13-cA 2yew-a1-m11-cA_2yew-a1-m14-cA 2yew-a1-m12-cA_2yew-a1-m14-cA 2yew-a1-m12-cA_2yew-a1-m15-cA 2yew-a1-m13-cA_2yew-a1-m15-cA 2yew-a1-m16-cA_2yew-a1-m18-cA 2yew-a1-m16-cA_2yew-a1-m19-cA 2yew-a1-m17-cA_2yew-a1-m19-cA 2yew-a1-m17-cA_2yew-a1-m20-cA 2yew-a1-m18-cA_2yew-a1-m20-cA 2yew-a1-m1-cA_2yew-a1-m3-cA 2yew-a1-m1-cA_2yew-a1-m4-cA 2yew-a1-m21-cA_2yew-a1-m23-cA 2yew-a1-m21-cA_2yew-a1-m24-cA 2yew-a1-m22-cA_2yew-a1-m24-cA 2yew-a1-m22-cA_2yew-a1-m25-cA 2yew-a1-m23-cA_2yew-a1-m25-cA 2yew-a1-m26-cA_2yew-a1-m28-cA 2yew-a1-m26-cA_2yew-a1-m29-cA 2yew-a1-m27-cA_2yew-a1-m29-cA 2yew-a1-m27-cA_2yew-a1-m30-cA 2yew-a1-m28-cA_2yew-a1-m30-cA 2yew-a1-m2-cA_2yew-a1-m4-cA 2yew-a1-m2-cA_2yew-a1-m5-cA 2yew-a1-m31-cA_2yew-a1-m33-cA 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PTQKKKSKPGKRMRNCMKIENDCIFPVMLDGKVNGYACLVGDKVMKPAHVKGTIDNPELAKLTFKKSSKYDLECAQVPVCMKSDASKFTHEKPEGHYNWHHGAVQFSNGRFTIPTGSGKPGDSGRPIFDNTGKVVAIVLGGANEGARTALSVVTWNKDMVTRITPEESVEW PTQKKKSKPGKRMRNCMKIENDCIFPVMLDGKVNGYACLVGDKVMKPAHVKGTIDNPELAKLTFKKSSKYDLECAQVPVCMKSDASKFTHEKPEGHYNWHHGAVQFSNGRFTIPTGSGKPGDSGRPIFDNTGKVVAIVLGGANEGARTALSVVTWNKDMVTRITPEESVEW 2yew-a1-m8-cA_2yew-a1-m9-cA Modeling Barmah Forest virus structural proteins P89946 P89946 5.0 ELECTRON MICROSCOPY 54 1.0 11020 (Barmah Forest virus) 11020 (Barmah Forest virus) 171 171 2yew-a1-m10-cA_2yew-a1-m6-cA 2yew-a1-m10-cA_2yew-a1-m9-cA 2yew-a1-m10-cD_2yew-a1-m10-cJ 2yew-a1-m10-cG_2yew-a1-m23-cJ 2yew-a1-m11-cA_2yew-a1-m12-cA 2yew-a1-m11-cA_2yew-a1-m15-cA 2yew-a1-m11-cD_2yew-a1-m11-cJ 2yew-a1-m11-cG_2yew-a1-m20-cJ 2yew-a1-m11-cJ_2yew-a1-m38-cG 2yew-a1-m12-cA_2yew-a1-m13-cA 2yew-a1-m12-cD_2yew-a1-m12-cJ 2yew-a1-m12-cG_2yew-a1-m37-cJ 2yew-a1-m12-cJ_2yew-a1-m47-cG 2yew-a1-m13-cA_2yew-a1-m14-cA 2yew-a1-m13-cD_2yew-a1-m13-cJ 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2yew-a1-m3-cA_2yew-a1-m4-cA 2yew-a1-m3-cD_2yew-a1-m3-cJ 2yew-a1-m3-cG_2yew-a1-m41-cJ 2yew-a1-m3-cJ_2yew-a1-m50-cG 2yew-a1-m40-cD_2yew-a1-m40-cJ 2yew-a1-m40-cG_2yew-a1-m58-cJ 2yew-a1-m41-cA_2yew-a1-m42-cA 2yew-a1-m41-cA_2yew-a1-m45-cA 2yew-a1-m41-cD_2yew-a1-m41-cJ 2yew-a1-m41-cG_2yew-a1-m50-cJ 2yew-a1-m42-cA_2yew-a1-m43-cA 2yew-a1-m42-cD_2yew-a1-m42-cJ 2yew-a1-m43-cA_2yew-a1-m44-cA 2yew-a1-m43-cD_2yew-a1-m43-cJ 2yew-a1-m44-cA_2yew-a1-m45-cA 2yew-a1-m44-cD_2yew-a1-m44-cJ 2yew-a1-m45-cD_2yew-a1-m45-cJ 2yew-a1-m45-cJ_2yew-a1-m46-cG 2yew-a1-m46-cA_2yew-a1-m47-cA 2yew-a1-m46-cA_2yew-a1-m50-cA 2yew-a1-m46-cD_2yew-a1-m46-cJ 2yew-a1-m47-cA_2yew-a1-m48-cA 2yew-a1-m47-cD_2yew-a1-m47-cJ 2yew-a1-m48-cA_2yew-a1-m49-cA 2yew-a1-m48-cD_2yew-a1-m48-cJ 2yew-a1-m49-cA_2yew-a1-m50-cA 2yew-a1-m49-cD_2yew-a1-m49-cJ 2yew-a1-m4-cA_2yew-a1-m5-cA 2yew-a1-m4-cD_2yew-a1-m4-cJ 2yew-a1-m4-cG_2yew-a1-m49-cJ 2yew-a1-m50-cD_2yew-a1-m50-cJ 2yew-a1-m51-cA_2yew-a1-m52-cA 2yew-a1-m51-cA_2yew-a1-m55-cA 2yew-a1-m51-cD_2yew-a1-m51-cJ 2yew-a1-m51-cG_2yew-a1-m60-cJ 2yew-a1-m52-cA_2yew-a1-m53-cA 2yew-a1-m52-cD_2yew-a1-m52-cJ 2yew-a1-m53-cA_2yew-a1-m54-cA 2yew-a1-m53-cD_2yew-a1-m53-cJ 2yew-a1-m54-cA_2yew-a1-m55-cA 2yew-a1-m54-cD_2yew-a1-m54-cJ 2yew-a1-m54-cJ_2yew-a1-m9-cG 2yew-a1-m55-cD_2yew-a1-m55-cJ 2yew-a1-m55-cG_2yew-a1-m8-cJ 2yew-a1-m55-cJ_2yew-a1-m56-cG 2yew-a1-m56-cA_2yew-a1-m57-cA 2yew-a1-m56-cA_2yew-a1-m60-cA 2yew-a1-m56-cD_2yew-a1-m56-cJ 2yew-a1-m56-cJ_2yew-a1-m8-cG 2yew-a1-m57-cA_2yew-a1-m58-cA 2yew-a1-m57-cD_2yew-a1-m57-cJ 2yew-a1-m57-cG_2yew-a1-m7-cJ 2yew-a1-m58-cA_2yew-a1-m59-cA 2yew-a1-m58-cD_2yew-a1-m58-cJ 2yew-a1-m59-cA_2yew-a1-m60-cA 2yew-a1-m59-cD_2yew-a1-m59-cJ 2yew-a1-m5-cD_2yew-a1-m5-cJ 2yew-a1-m5-cJ_2yew-a1-m6-cG 2yew-a1-m60-cD_2yew-a1-m60-cJ 2yew-a1-m6-cA_2yew-a1-m7-cA 2yew-a1-m6-cD_2yew-a1-m6-cJ 2yew-a1-m7-cA_2yew-a1-m8-cA 2yew-a1-m7-cD_2yew-a1-m7-cJ 2yew-a1-m8-cD_2yew-a1-m8-cJ 2yew-a1-m9-cD_2yew-a1-m9-cJ PTQKKKSKPGKRMRNCMKIENDCIFPVMLDGKVNGYACLVGDKVMKPAHVKGTIDNPELAKLTFKKSSKYDLECAQVPVCMKSDASKFTHEKPEGHYNWHHGAVQFSNGRFTIPTGSGKPGDSGRPIFDNTGKVVAIVLGGANEGARTALSVVTWNKDMVTRITPEESVEW PTQKKKSKPGKRMRNCMKIENDCIFPVMLDGKVNGYACLVGDKVMKPAHVKGTIDNPELAKLTFKKSSKYDLECAQVPVCMKSDASKFTHEKPEGHYNWHHGAVQFSNGRFTIPTGSGKPGDSGRPIFDNTGKVVAIVLGGANEGARTALSVVTWNKDMVTRITPEESVEW 2yew-a1-m8-cD_2yew-a1-m9-cG Modeling Barmah Forest virus structural proteins P89946 P89946 5.0 ELECTRON MICROSCOPY 36 1.0 11020 (Barmah Forest virus) 11020 (Barmah Forest virus) 171 171 2yew-a1-m10-cD_2yew-a1-m6-cG 2yew-a1-m10-cG_2yew-a1-m9-cD 2yew-a1-m11-cD_2yew-a1-m12-cG 2yew-a1-m11-cG_2yew-a1-m15-cD 2yew-a1-m12-cD_2yew-a1-m13-cG 2yew-a1-m13-cD_2yew-a1-m14-cG 2yew-a1-m14-cD_2yew-a1-m15-cG 2yew-a1-m16-cD_2yew-a1-m17-cG 2yew-a1-m16-cG_2yew-a1-m20-cD 2yew-a1-m17-cD_2yew-a1-m18-cG 2yew-a1-m18-cD_2yew-a1-m19-cG 2yew-a1-m19-cD_2yew-a1-m20-cG 2yew-a1-m1-cD_2yew-a1-m2-cG 2yew-a1-m1-cG_2yew-a1-m5-cD 2yew-a1-m21-cD_2yew-a1-m22-cG 2yew-a1-m21-cG_2yew-a1-m25-cD 2yew-a1-m22-cD_2yew-a1-m23-cG 2yew-a1-m23-cD_2yew-a1-m24-cG 2yew-a1-m24-cD_2yew-a1-m25-cG 2yew-a1-m26-cD_2yew-a1-m27-cG 2yew-a1-m26-cG_2yew-a1-m30-cD 2yew-a1-m27-cD_2yew-a1-m28-cG 2yew-a1-m28-cD_2yew-a1-m29-cG 2yew-a1-m29-cD_2yew-a1-m30-cG 2yew-a1-m2-cD_2yew-a1-m3-cG 2yew-a1-m31-cD_2yew-a1-m32-cG 2yew-a1-m31-cG_2yew-a1-m35-cD 2yew-a1-m32-cD_2yew-a1-m33-cG 2yew-a1-m33-cD_2yew-a1-m34-cG 2yew-a1-m34-cD_2yew-a1-m35-cG 2yew-a1-m36-cD_2yew-a1-m37-cG 2yew-a1-m36-cG_2yew-a1-m40-cD 2yew-a1-m37-cD_2yew-a1-m38-cG 2yew-a1-m38-cD_2yew-a1-m39-cG 2yew-a1-m39-cD_2yew-a1-m40-cG 2yew-a1-m3-cD_2yew-a1-m4-cG 2yew-a1-m41-cD_2yew-a1-m42-cG 2yew-a1-m41-cG_2yew-a1-m45-cD 2yew-a1-m42-cD_2yew-a1-m43-cG 2yew-a1-m43-cD_2yew-a1-m44-cG 2yew-a1-m44-cD_2yew-a1-m45-cG 2yew-a1-m46-cD_2yew-a1-m47-cG 2yew-a1-m46-cG_2yew-a1-m50-cD 2yew-a1-m47-cD_2yew-a1-m48-cG 2yew-a1-m48-cD_2yew-a1-m49-cG 2yew-a1-m49-cD_2yew-a1-m50-cG 2yew-a1-m4-cD_2yew-a1-m5-cG 2yew-a1-m51-cD_2yew-a1-m52-cG 2yew-a1-m51-cG_2yew-a1-m55-cD 2yew-a1-m52-cD_2yew-a1-m53-cG 2yew-a1-m53-cD_2yew-a1-m54-cG 2yew-a1-m54-cD_2yew-a1-m55-cG 2yew-a1-m56-cD_2yew-a1-m57-cG 2yew-a1-m56-cG_2yew-a1-m60-cD 2yew-a1-m57-cD_2yew-a1-m58-cG 2yew-a1-m58-cD_2yew-a1-m59-cG 2yew-a1-m59-cD_2yew-a1-m60-cG 2yew-a1-m6-cD_2yew-a1-m7-cG 2yew-a1-m7-cD_2yew-a1-m8-cG PTQKKKSKPGKRMRNCMKIENDCIFPVMLDGKVNGYACLVGDKVMKPAHVKGTIDNPELAKLTFKKSSKYDLECAQVPVCMKSDASKFTHEKPEGHYNWHHGAVQFSNGRFTIPTGSGKPGDSGRPIFDNTGKVVAIVLGGANEGARTALSVVTWNKDMVTRITPEESVEW PTQKKKSKPGKRMRNCMKIENDCIFPVMLDGKVNGYACLVGDKVMKPAHVKGTIDNPELAKLTFKKSSKYDLECAQVPVCMKSDASKFTHEKPEGHYNWHHGAVQFSNGRFTIPTGSGKPGDSGRPIFDNTGKVVAIVLGGANEGARTALSVVTWNKDMVTRITPEESVEW 2yew-a1-m9-cC_2yew-a1-m9-cF Modeling Barmah Forest virus structural proteins P89946 P89946 5.0 ELECTRON MICROSCOPY 42 1.0 11020 (Barmah Forest virus) 11020 (Barmah Forest virus) 421 421 2yew-a1-m10-cC_2yew-a1-m10-cF 2yew-a1-m10-cC_2yew-a1-m10-cI 2yew-a1-m10-cF_2yew-a1-m10-cI 2yew-a1-m10-cL_2yew-a1-m23-cL 2yew-a1-m11-cC_2yew-a1-m11-cF 2yew-a1-m11-cC_2yew-a1-m11-cI 2yew-a1-m11-cF_2yew-a1-m11-cI 2yew-a1-m11-cL_2yew-a1-m20-cL 2yew-a1-m11-cL_2yew-a1-m38-cL 2yew-a1-m12-cC_2yew-a1-m12-cF 2yew-a1-m12-cC_2yew-a1-m12-cI 2yew-a1-m12-cF_2yew-a1-m12-cI 2yew-a1-m12-cL_2yew-a1-m37-cL 2yew-a1-m12-cL_2yew-a1-m47-cL 2yew-a1-m13-cC_2yew-a1-m13-cF 2yew-a1-m13-cC_2yew-a1-m13-cI 2yew-a1-m13-cF_2yew-a1-m13-cI 2yew-a1-m13-cL_2yew-a1-m45-cL 2yew-a1-m13-cL_2yew-a1-m46-cL 2yew-a1-m14-cC_2yew-a1-m14-cF 2yew-a1-m14-cC_2yew-a1-m14-cI 2yew-a1-m14-cF_2yew-a1-m14-cI 2yew-a1-m14-cL_2yew-a1-m29-cL 2yew-a1-m14-cL_2yew-a1-m44-cL 2yew-a1-m15-cC_2yew-a1-m15-cF 2yew-a1-m15-cC_2yew-a1-m15-cI 2yew-a1-m15-cF_2yew-a1-m15-cI 2yew-a1-m15-cL_2yew-a1-m16-cL 2yew-a1-m15-cL_2yew-a1-m28-cL 2yew-a1-m16-cC_2yew-a1-m16-cF 2yew-a1-m16-cC_2yew-a1-m16-cI 2yew-a1-m16-cF_2yew-a1-m16-cI 2yew-a1-m16-cL_2yew-a1-m28-cL 2yew-a1-m17-cC_2yew-a1-m17-cF 2yew-a1-m17-cC_2yew-a1-m17-cI 2yew-a1-m17-cF_2yew-a1-m17-cI 2yew-a1-m17-cL_2yew-a1-m27-cL 2yew-a1-m17-cL_2yew-a1-m52-cL 2yew-a1-m18-cC_2yew-a1-m18-cF 2yew-a1-m18-cC_2yew-a1-m18-cI 2yew-a1-m18-cF_2yew-a1-m18-cI 2yew-a1-m18-cL_2yew-a1-m51-cL 2yew-a1-m18-cL_2yew-a1-m60-cL 2yew-a1-m19-cC_2yew-a1-m19-cF 2yew-a1-m19-cC_2yew-a1-m19-cI 2yew-a1-m19-cF_2yew-a1-m19-cI 2yew-a1-m19-cL_2yew-a1-m39-cL 2yew-a1-m19-cL_2yew-a1-m59-cL 2yew-a1-m1-cC_2yew-a1-m1-cF 2yew-a1-m1-cC_2yew-a1-m1-cI 2yew-a1-m1-cF_2yew-a1-m1-cI 2yew-a1-m1-cL_2yew-a1-m10-cL 2yew-a1-m1-cL_2yew-a1-m23-cL 2yew-a1-m20-cC_2yew-a1-m20-cF 2yew-a1-m20-cC_2yew-a1-m20-cI 2yew-a1-m20-cF_2yew-a1-m20-cI 2yew-a1-m20-cL_2yew-a1-m38-cL 2yew-a1-m21-cC_2yew-a1-m21-cF 2yew-a1-m21-cC_2yew-a1-m21-cI 2yew-a1-m21-cF_2yew-a1-m21-cI 2yew-a1-m21-cL_2yew-a1-m30-cL 2yew-a1-m21-cL_2yew-a1-m43-cL 2yew-a1-m22-cC_2yew-a1-m22-cF 2yew-a1-m22-cC_2yew-a1-m22-cI 2yew-a1-m22-cF_2yew-a1-m22-cI 2yew-a1-m22-cL_2yew-a1-m42-cL 2yew-a1-m23-cC_2yew-a1-m23-cF 2yew-a1-m23-cC_2yew-a1-m23-cI 2yew-a1-m23-cF_2yew-a1-m23-cI 2yew-a1-m24-cC_2yew-a1-m24-cF 2yew-a1-m24-cC_2yew-a1-m24-cI 2yew-a1-m24-cF_2yew-a1-m24-cI 2yew-a1-m24-cL_2yew-a1-m54-cL 2yew-a1-m24-cL_2yew-a1-m9-cL 2yew-a1-m25-cC_2yew-a1-m25-cF 2yew-a1-m25-cC_2yew-a1-m25-cI 2yew-a1-m25-cF_2yew-a1-m25-cI 2yew-a1-m25-cL_2yew-a1-m26-cL 2yew-a1-m25-cL_2yew-a1-m53-cL 2yew-a1-m26-cC_2yew-a1-m26-cF 2yew-a1-m26-cC_2yew-a1-m26-cI 2yew-a1-m26-cF_2yew-a1-m26-cI 2yew-a1-m26-cL_2yew-a1-m53-cL 2yew-a1-m27-cC_2yew-a1-m27-cF 2yew-a1-m27-cC_2yew-a1-m27-cI 2yew-a1-m27-cF_2yew-a1-m27-cI 2yew-a1-m27-cL_2yew-a1-m52-cL 2yew-a1-m28-cC_2yew-a1-m28-cF 2yew-a1-m28-cC_2yew-a1-m28-cI 2yew-a1-m28-cF_2yew-a1-m28-cI 2yew-a1-m29-cC_2yew-a1-m29-cF 2yew-a1-m29-cC_2yew-a1-m29-cI 2yew-a1-m29-cF_2yew-a1-m29-cI 2yew-a1-m29-cL_2yew-a1-m44-cL 2yew-a1-m2-cC_2yew-a1-m2-cF 2yew-a1-m2-cC_2yew-a1-m2-cI 2yew-a1-m2-cF_2yew-a1-m2-cI 2yew-a1-m2-cL_2yew-a1-m22-cL 2yew-a1-m2-cL_2yew-a1-m42-cL 2yew-a1-m30-cC_2yew-a1-m30-cF 2yew-a1-m30-cC_2yew-a1-m30-cI 2yew-a1-m30-cF_2yew-a1-m30-cI 2yew-a1-m30-cL_2yew-a1-m43-cL 2yew-a1-m31-cC_2yew-a1-m31-cF 2yew-a1-m31-cC_2yew-a1-m31-cI 2yew-a1-m31-cF_2yew-a1-m31-cI 2yew-a1-m31-cL_2yew-a1-m40-cL 2yew-a1-m31-cL_2yew-a1-m58-cL 2yew-a1-m32-cC_2yew-a1-m32-cF 2yew-a1-m32-cC_2yew-a1-m32-cI 2yew-a1-m32-cF_2yew-a1-m32-cI 2yew-a1-m32-cL_2yew-a1-m57-cL 2yew-a1-m32-cL_2yew-a1-m7-cL 2yew-a1-m33-cC_2yew-a1-m33-cF 2yew-a1-m33-cC_2yew-a1-m33-cI 2yew-a1-m33-cF_2yew-a1-m33-cI 2yew-a1-m33-cL_2yew-a1-m5-cL 2yew-a1-m33-cL_2yew-a1-m6-cL 2yew-a1-m34-cC_2yew-a1-m34-cF 2yew-a1-m34-cC_2yew-a1-m34-cI 2yew-a1-m34-cF_2yew-a1-m34-cI 2yew-a1-m34-cL_2yew-a1-m49-cL 2yew-a1-m34-cL_2yew-a1-m4-cL 2yew-a1-m35-cC_2yew-a1-m35-cF 2yew-a1-m35-cC_2yew-a1-m35-cI 2yew-a1-m35-cF_2yew-a1-m35-cI 2yew-a1-m35-cL_2yew-a1-m36-cL 2yew-a1-m35-cL_2yew-a1-m48-cL 2yew-a1-m36-cC_2yew-a1-m36-cF 2yew-a1-m36-cC_2yew-a1-m36-cI 2yew-a1-m36-cF_2yew-a1-m36-cI 2yew-a1-m36-cL_2yew-a1-m48-cL 2yew-a1-m37-cC_2yew-a1-m37-cF 2yew-a1-m37-cC_2yew-a1-m37-cI 2yew-a1-m37-cF_2yew-a1-m37-cI 2yew-a1-m37-cL_2yew-a1-m47-cL 2yew-a1-m38-cC_2yew-a1-m38-cF 2yew-a1-m38-cC_2yew-a1-m38-cI 2yew-a1-m38-cF_2yew-a1-m38-cI 2yew-a1-m39-cC_2yew-a1-m39-cF 2yew-a1-m39-cC_2yew-a1-m39-cI 2yew-a1-m39-cF_2yew-a1-m39-cI 2yew-a1-m39-cL_2yew-a1-m59-cL 2yew-a1-m3-cC_2yew-a1-m3-cF 2yew-a1-m3-cC_2yew-a1-m3-cI 2yew-a1-m3-cF_2yew-a1-m3-cI 2yew-a1-m3-cL_2yew-a1-m41-cL 2yew-a1-m3-cL_2yew-a1-m50-cL 2yew-a1-m40-cC_2yew-a1-m40-cF 2yew-a1-m40-cC_2yew-a1-m40-cI 2yew-a1-m40-cF_2yew-a1-m40-cI 2yew-a1-m40-cL_2yew-a1-m58-cL 2yew-a1-m41-cC_2yew-a1-m41-cF 2yew-a1-m41-cC_2yew-a1-m41-cI 2yew-a1-m41-cF_2yew-a1-m41-cI 2yew-a1-m41-cL_2yew-a1-m50-cL 2yew-a1-m42-cC_2yew-a1-m42-cF 2yew-a1-m42-cC_2yew-a1-m42-cI 2yew-a1-m42-cF_2yew-a1-m42-cI 2yew-a1-m43-cC_2yew-a1-m43-cF 2yew-a1-m43-cC_2yew-a1-m43-cI 2yew-a1-m43-cF_2yew-a1-m43-cI 2yew-a1-m44-cC_2yew-a1-m44-cF 2yew-a1-m44-cC_2yew-a1-m44-cI 2yew-a1-m44-cF_2yew-a1-m44-cI 2yew-a1-m45-cC_2yew-a1-m45-cF 2yew-a1-m45-cC_2yew-a1-m45-cI 2yew-a1-m45-cF_2yew-a1-m45-cI 2yew-a1-m45-cL_2yew-a1-m46-cL 2yew-a1-m46-cC_2yew-a1-m46-cF 2yew-a1-m46-cC_2yew-a1-m46-cI 2yew-a1-m46-cF_2yew-a1-m46-cI 2yew-a1-m47-cC_2yew-a1-m47-cF 2yew-a1-m47-cC_2yew-a1-m47-cI 2yew-a1-m47-cF_2yew-a1-m47-cI 2yew-a1-m48-cC_2yew-a1-m48-cF 2yew-a1-m48-cC_2yew-a1-m48-cI 2yew-a1-m48-cF_2yew-a1-m48-cI 2yew-a1-m49-cC_2yew-a1-m49-cF 2yew-a1-m49-cC_2yew-a1-m49-cI 2yew-a1-m49-cF_2yew-a1-m49-cI 2yew-a1-m4-cC_2yew-a1-m4-cF 2yew-a1-m4-cC_2yew-a1-m4-cI 2yew-a1-m4-cF_2yew-a1-m4-cI 2yew-a1-m4-cL_2yew-a1-m49-cL 2yew-a1-m50-cC_2yew-a1-m50-cF 2yew-a1-m50-cC_2yew-a1-m50-cI 2yew-a1-m50-cF_2yew-a1-m50-cI 2yew-a1-m51-cC_2yew-a1-m51-cF 2yew-a1-m51-cC_2yew-a1-m51-cI 2yew-a1-m51-cF_2yew-a1-m51-cI 2yew-a1-m51-cL_2yew-a1-m60-cL 2yew-a1-m52-cC_2yew-a1-m52-cF 2yew-a1-m52-cC_2yew-a1-m52-cI 2yew-a1-m52-cF_2yew-a1-m52-cI 2yew-a1-m53-cC_2yew-a1-m53-cF 2yew-a1-m53-cC_2yew-a1-m53-cI 2yew-a1-m53-cF_2yew-a1-m53-cI 2yew-a1-m54-cC_2yew-a1-m54-cF 2yew-a1-m54-cC_2yew-a1-m54-cI 2yew-a1-m54-cF_2yew-a1-m54-cI 2yew-a1-m54-cL_2yew-a1-m9-cL 2yew-a1-m55-cC_2yew-a1-m55-cF 2yew-a1-m55-cC_2yew-a1-m55-cI 2yew-a1-m55-cF_2yew-a1-m55-cI 2yew-a1-m55-cL_2yew-a1-m56-cL 2yew-a1-m55-cL_2yew-a1-m8-cL 2yew-a1-m56-cC_2yew-a1-m56-cF 2yew-a1-m56-cC_2yew-a1-m56-cI 2yew-a1-m56-cF_2yew-a1-m56-cI 2yew-a1-m56-cL_2yew-a1-m8-cL 2yew-a1-m57-cC_2yew-a1-m57-cF 2yew-a1-m57-cC_2yew-a1-m57-cI 2yew-a1-m57-cF_2yew-a1-m57-cI 2yew-a1-m57-cL_2yew-a1-m7-cL 2yew-a1-m58-cC_2yew-a1-m58-cF 2yew-a1-m58-cC_2yew-a1-m58-cI 2yew-a1-m58-cF_2yew-a1-m58-cI 2yew-a1-m59-cC_2yew-a1-m59-cF 2yew-a1-m59-cC_2yew-a1-m59-cI 2yew-a1-m59-cF_2yew-a1-m59-cI 2yew-a1-m5-cC_2yew-a1-m5-cF 2yew-a1-m5-cC_2yew-a1-m5-cI 2yew-a1-m5-cF_2yew-a1-m5-cI 2yew-a1-m5-cL_2yew-a1-m6-cL 2yew-a1-m60-cC_2yew-a1-m60-cF 2yew-a1-m60-cC_2yew-a1-m60-cI 2yew-a1-m60-cF_2yew-a1-m60-cI 2yew-a1-m6-cC_2yew-a1-m6-cF 2yew-a1-m6-cC_2yew-a1-m6-cI 2yew-a1-m6-cF_2yew-a1-m6-cI 2yew-a1-m7-cC_2yew-a1-m7-cF 2yew-a1-m7-cC_2yew-a1-m7-cI 2yew-a1-m7-cF_2yew-a1-m7-cI 2yew-a1-m8-cC_2yew-a1-m8-cF 2yew-a1-m8-cC_2yew-a1-m8-cI 2yew-a1-m8-cF_2yew-a1-m8-cI 2yew-a1-m9-cC_2yew-a1-m9-cI 2yew-a1-m9-cF_2yew-a1-m9-cI SVAHFEAYKATRPYIGWCADCGLAGSCPSPVSIEHVWSDADDGVLKIQVSMQIGIAKSNTINHAKIRYMGANGVQEAERSTLSVSTTAPCDILATMGHFILARCRPGSQVEVSLSTDPKLLCRTPFSHKPRFIGNEKSPAPTGHKTRIPCKTYSHQTDLTREEITMHVPPDVPIQGLVSNTGKSYSLDPKTKTIKYKCTCGETVKEGTATNKITLFNCDTAPKCITYAVDNTVWQYNSQYVPRSEVTEVKGKIHVPFPLTDSTCAVSVAPEPQVTYRLGEVEFHFHPMYPTLFSIRSLGKDPSHSQEWIDTPMSKTIQVGAEGVEYVWGNNNPVRLWAQKSSSSSAHGNPISIVSHYYDLYPYWTITVLASLGLLIVISSGFSCFLCSVARTKCLTPYQLAPGAQLPTFIALLCCAKSARA SVAHFEAYKATRPYIGWCADCGLAGSCPSPVSIEHVWSDADDGVLKIQVSMQIGIAKSNTINHAKIRYMGANGVQEAERSTLSVSTTAPCDILATMGHFILARCRPGSQVEVSLSTDPKLLCRTPFSHKPRFIGNEKSPAPTGHKTRIPCKTYSHQTDLTREEITMHVPPDVPIQGLVSNTGKSYSLDPKTKTIKYKCTCGETVKEGTATNKITLFNCDTAPKCITYAVDNTVWQYNSQYVPRSEVTEVKGKIHVPFPLTDSTCAVSVAPEPQVTYRLGEVEFHFHPMYPTLFSIRSLGKDPSHSQEWIDTPMSKTIQVGAEGVEYVWGNNNPVRLWAQKSSSSSAHGNPISIVSHYYDLYPYWTITVLASLGLLIVISSGFSCFLCSVARTKCLTPYQLAPGAQLPTFIALLCCAKSARA 2yew-a1-m9-cH_2yew-a1-m9-cK Modeling Barmah Forest virus structural proteins P89946 P89946 5.0 ELECTRON MICROSCOPY 38 1.0 11020 (Barmah Forest virus) 11020 (Barmah Forest virus) 425 425 2yew-a1-m10-cH_2yew-a1-m10-cK 2yew-a1-m11-cH_2yew-a1-m11-cK 2yew-a1-m12-cH_2yew-a1-m12-cK 2yew-a1-m13-cH_2yew-a1-m13-cK 2yew-a1-m14-cH_2yew-a1-m14-cK 2yew-a1-m15-cH_2yew-a1-m15-cK 2yew-a1-m16-cH_2yew-a1-m16-cK 2yew-a1-m17-cH_2yew-a1-m17-cK 2yew-a1-m18-cH_2yew-a1-m18-cK 2yew-a1-m19-cH_2yew-a1-m19-cK 2yew-a1-m1-cH_2yew-a1-m1-cK 2yew-a1-m20-cH_2yew-a1-m20-cK 2yew-a1-m21-cH_2yew-a1-m21-cK 2yew-a1-m22-cH_2yew-a1-m22-cK 2yew-a1-m23-cH_2yew-a1-m23-cK 2yew-a1-m24-cH_2yew-a1-m24-cK 2yew-a1-m25-cH_2yew-a1-m25-cK 2yew-a1-m26-cH_2yew-a1-m26-cK 2yew-a1-m27-cH_2yew-a1-m27-cK 2yew-a1-m28-cH_2yew-a1-m28-cK 2yew-a1-m29-cH_2yew-a1-m29-cK 2yew-a1-m2-cH_2yew-a1-m2-cK 2yew-a1-m30-cH_2yew-a1-m30-cK 2yew-a1-m31-cH_2yew-a1-m31-cK 2yew-a1-m32-cH_2yew-a1-m32-cK 2yew-a1-m33-cH_2yew-a1-m33-cK 2yew-a1-m34-cH_2yew-a1-m34-cK 2yew-a1-m35-cH_2yew-a1-m35-cK 2yew-a1-m36-cH_2yew-a1-m36-cK 2yew-a1-m37-cH_2yew-a1-m37-cK 2yew-a1-m38-cH_2yew-a1-m38-cK 2yew-a1-m39-cH_2yew-a1-m39-cK 2yew-a1-m3-cH_2yew-a1-m3-cK 2yew-a1-m40-cH_2yew-a1-m40-cK 2yew-a1-m41-cH_2yew-a1-m41-cK 2yew-a1-m42-cH_2yew-a1-m42-cK 2yew-a1-m43-cH_2yew-a1-m43-cK 2yew-a1-m44-cH_2yew-a1-m44-cK 2yew-a1-m45-cH_2yew-a1-m45-cK 2yew-a1-m46-cH_2yew-a1-m46-cK 2yew-a1-m47-cH_2yew-a1-m47-cK 2yew-a1-m48-cH_2yew-a1-m48-cK 2yew-a1-m49-cH_2yew-a1-m49-cK 2yew-a1-m4-cH_2yew-a1-m4-cK 2yew-a1-m50-cH_2yew-a1-m50-cK 2yew-a1-m51-cH_2yew-a1-m51-cK 2yew-a1-m52-cH_2yew-a1-m52-cK 2yew-a1-m53-cH_2yew-a1-m53-cK 2yew-a1-m54-cH_2yew-a1-m54-cK 2yew-a1-m55-cH_2yew-a1-m55-cK 2yew-a1-m56-cH_2yew-a1-m56-cK 2yew-a1-m57-cH_2yew-a1-m57-cK 2yew-a1-m58-cH_2yew-a1-m58-cK 2yew-a1-m59-cH_2yew-a1-m59-cK 2yew-a1-m5-cH_2yew-a1-m5-cK 2yew-a1-m60-cH_2yew-a1-m60-cK 2yew-a1-m6-cH_2yew-a1-m6-cK 2yew-a1-m7-cH_2yew-a1-m7-cK 2yew-a1-m8-cH_2yew-a1-m8-cK YESTTMPNQVGIPFKALIERPGYAGLPLSLVVIKSELVPSLVQDYITCNYKTVVPSPYIKCCGGAECSKNEADYKCSVFTGVYPFMWGGAYCFCDTENSQMSEVYVTRGESCEADAIAYQVTASLKAQVMISIGELNQTVDVFVNGDSPARIQQSKFILGPISSAWSPFDKVIVYRDEVYNEDYAPYGSGQAGRFGDIQSRTVNSTDVYANTNLKLKRPASGNVVPYTQTPSGFSYWKKEKGVPLNRNAPFGCIIKVNPVRAENCVYGNIPISMDIADAFTRIDESPSVSLKACEVQSCTYSSDFGGVASISYTSNKVGKCAISSNSATMKDSVQDVQESGALSLFFATSSVEPNFVVQVCNARITCGKCEPPKDIVPYAAKNDAEFPSISTTAWQWLATTSGPLTILVVAIIVVVVVSIVVCAR YESTTMPNQVGIPFKALIERPGYAGLPLSLVVIKSELVPSLVQDYITCNYKTVVPSPYIKCCGGAECSKNEADYKCSVFTGVYPFMWGGAYCFCDTENSQMSEVYVTRGESCEADAIAYQVTASLKAQVMISIGELNQTVDVFVNGDSPARIQQSKFILGPISSAWSPFDKVIVYRDEVYNEDYAPYGSGQAGRFGDIQSRTVNSTDVYANTNLKLKRPASGNVVPYTQTPSGFSYWKKEKGVPLNRNAPFGCIIKVNPVRAENCVYGNIPISMDIADAFTRIDESPSVSLKACEVQSCTYSSDFGGVASISYTSNKVGKCAISSNSATMKDSVQDVQESGALSLFFATSSVEPNFVVQVCNARITCGKCEPPKDIVPYAAKNDAEFPSISTTAWQWLATTSGPLTILVVAIIVVVVVSIVVCAR 2yf0-a1-m1-cA_2yf0-a1-m2-cA Human Myotubularin related protein 6 (MTMR6) Q9Y217 Q9Y217 2.65 X-RAY DIFFRACTION 153 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 487 487 IRTTKVEQVKLLSLTGTLYLTATHLLFIDSHQKETWILHHHIASVEKLALTTSGCPLVIQCKNFRTVHFIVPRERDCHDIYNSLLQLSKQAKYEDLYAFSYNPKQNDSERLQGWQLIDLAEEYKRMGVPNSHWQLSDANRDYKICETYPRELYVPRIASKPIIVGSSKFRSKGRFPVLSYYHQDKEAAICRCSQPLSGFSARCLEDEHLLQAISKANPVNRYMYVMDTRPKLNAAAGKGYENEDNYSNIRFQFVGIENIHVMRSSLQKLLEVNGTKGLSVNDFYSGLESSGWLRHIKAVMDAAVFLAKAITVENASVLVHCSDGWDRTSQVCSLGSLLLDSYYRTIKGFMVLIEKDWISFGHKFSERCGQLDGDPKEVSPVFTQFLECVWHLTEQFPQAFEFSEAFLLQIHEHIHSCQFGNFLGNCQKEREELKLKEKTYSLWPFLLEDQKKYLNPLYSSEFTVLEPNTVSFNFKFWRNMYHQFDRT IRTTKVEQVKLLSLTGTLYLTATHLLFIDSHQKETWILHHHIASVEKLALTTSGCPLVIQCKNFRTVHFIVPRERDCHDIYNSLLQLSKQAKYEDLYAFSYNPKQNDSERLQGWQLIDLAEEYKRMGVPNSHWQLSDANRDYKICETYPRELYVPRIASKPIIVGSSKFRSKGRFPVLSYYHQDKEAAICRCSQPLSGFSARCLEDEHLLQAISKANPVNRYMYVMDTRPKLNAAAGKGYENEDNYSNIRFQFVGIENIHVMRSSLQKLLEVNGTKGLSVNDFYSGLESSGWLRHIKAVMDAAVFLAKAITVENASVLVHCSDGWDRTSQVCSLGSLLLDSYYRTIKGFMVLIEKDWISFGHKFSERCGQLDGDPKEVSPVFTQFLECVWHLTEQFPQAFEFSEAFLLQIHEHIHSCQFGNFLGNCQKEREELKLKEKTYSLWPFLLEDQKKYLNPLYSSEFTVLEPNTVSFNFKFWRNMYHQFDRT 2yf2-a1-m1-cA_2yf2-a1-m1-cG Crystal structure of the oligomerisation domain of C4b-binding protein from Gallus gallus 2.24 X-RAY DIFFRACTION 59 0.982 9031 (Gallus gallus) 9031 (Gallus gallus) 57 57 2yf2-a1-m1-cD_2yf2-a1-m1-cC 2yf2-a1-m1-cF_2yf2-a1-m1-cG ADVCGEVAYIQSVVSDCHVPTEDVKTLLEIRKLFLEIQKLKVELQGLSKEFLEHILH DVCGEVAYIQSVVSDCHVPTEDVKTLLEIRKLFLEIQKLKVELQGLSKEFLEHILHG 2yfa-a1-m1-cB_2yfa-a1-m1-cA X-ray structure of McpS ligand binding domain in complex with malate Q88E10 Q88E10 1.8 X-RAY DIFFRACTION 74 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 235 236 2yfb-a1-m1-cA_2yfb-a1-m1-cB SHMGDIGQLNKDLTDLRIARLQYMIANGDDTAAANTLAKLDAFSKQQAYLATTFKSPENVKLLGELGDTISAYKLSLNKMRQGYDATRAARVSMDSSAIRADQAMDALSQEVMARPEADSVRLAQYQLISKARQQLLQVRIDVRGYIAENSSANEQAALRQLDAALADTDNLKRQLPSEDARLQQFENAVLAYRDAVRQFRDAVANITTSRAEMTVQGADIVKRSDALYQIQLER GSHMGDIGQLNKDLTDLRIARLQYMIANGDDTAAANTLAKLDAFSKQQAYLATTFKSPENVKLLGELGDTISAYKLSLNKMRQGYDATRAARVSMDSSAIRADQAMDALSQEVMARPEADSVRLAQYQLISKARQQLLQVRIDVRGYIAENSSANEQAALRQLDAALADTDNLKRQLPSEDARLQQFENAVLAYRDAVRQFRDAVANITTSRAEMTVQGADIVKRSDALYQIQLER 2yfh-a1-m1-cD_2yfh-a1-m1-cB Structure of a Chimeric Glutamate Dehydrogenase E7GGS1 E7GGS1 2.695 X-RAY DIFFRACTION 71 1.0 742740 ([Clostridium] symbiosum WAL-14163) 742740 ([Clostridium] symbiosum WAL-14163) 444 447 2yfh-a1-m1-cA_2yfh-a1-m1-cC 2yfh-a1-m1-cA_2yfh-a1-m1-cE 2yfh-a1-m1-cB_2yfh-a1-m1-cF 2yfh-a1-m1-cC_2yfh-a1-m1-cE 2yfh-a1-m1-cD_2yfh-a1-m1-cF SKYVDRVIAEVEKKYADEPEFVQTVEEVLSSLGPVVDAHPEYEEVALLERMVIPERVIEFRVPWEDDNGKVHVNTGYRVQFNGAIGPYKGGLRFAPSVNLSIMKFLGFEQAFKDSLTTLPMGGAKGGSDFDPNGKSDREVMRFCQAFMTELYRHIGPDIDVPAGDLGVGAREIGYMYGQYRKIVGGFYNGVLTGKARSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKAGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMTDIHDGSAAAAERYGLGYNLVAGANIVGFQKIADAMMAQGIAW SKYVDRVIAEVEKKYADEPEFVQTVEEVLSSLGPVVDAHPEYEEVALLERMVIPERVIEFRVPWEDDNGKVHVNTGYRVQFNGAIGPYKGGLRFAPSVNLSIMKFLGFEQAFKDSLTTLPMGGAKGGSDFDPNGKSDREVMRFCQAFMTELYRHIGPDIDVPAGDLGVGAREIGYMYGQYRKIVGGFYNGVLTGKARSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKASRDGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMTDIHDGSAAAAERYGLGYNLVAGANIVGFQKIADAMMAQGIAW 2yfh-a1-m1-cD_2yfh-a1-m1-cE Structure of a Chimeric Glutamate Dehydrogenase E7GGS1 E7GGS1 2.695 X-RAY DIFFRACTION 15 1.0 742740 ([Clostridium] symbiosum WAL-14163) 742740 ([Clostridium] symbiosum WAL-14163) 444 448 2yfh-a1-m1-cA_2yfh-a1-m1-cB 2yfh-a1-m1-cC_2yfh-a1-m1-cF SKYVDRVIAEVEKKYADEPEFVQTVEEVLSSLGPVVDAHPEYEEVALLERMVIPERVIEFRVPWEDDNGKVHVNTGYRVQFNGAIGPYKGGLRFAPSVNLSIMKFLGFEQAFKDSLTTLPMGGAKGGSDFDPNGKSDREVMRFCQAFMTELYRHIGPDIDVPAGDLGVGAREIGYMYGQYRKIVGGFYNGVLTGKARSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKAGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMTDIHDGSAAAAERYGLGYNLVAGANIVGFQKIADAMMAQGIAW MSKYVDRVIAEVEKKYADEPEFVQTVEEVLSSLGPVVDAHPEYEEVALLERMVIPERVIEFRVPWEDDNGKVHVNTGYRVQFNGAIGPYKGGLRFAPSVNLSIMKFLGFEQAFKDSLTTLPMGGAKGGSDFDPNGKSDREVMRFCQAFMTELYRHIGPDIDVPAGDLGVGAREIGYMYGQYRKIVGGFYNGVLTGKARSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKASRDGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMTDIHDGSAAAAERYGLGYNLVAGANIVGFQKIADAMMAQGIAW 2yfh-a1-m1-cF_2yfh-a1-m1-cE Structure of a Chimeric Glutamate Dehydrogenase E7GGS1 E7GGS1 2.695 X-RAY DIFFRACTION 81 1.0 742740 ([Clostridium] symbiosum WAL-14163) 742740 ([Clostridium] symbiosum WAL-14163) 447 448 2yfh-a1-m1-cA_2yfh-a1-m1-cD 2yfh-a1-m1-cB_2yfh-a1-m1-cC SKYVDRVIAEVEKKYADEPEFVQTVEEVLSSLGPVVDAHPEYEEVALLERMVIPERVIEFRVPWEDDNGKVHVNTGYRVQFNGAIGPYKGGLRFAPSVNLSIMKFLGFEQAFKDSLTTLPMGGAKGGSDFDPNGKSDREVMRFCQAFMTELYRHIGPDIDVPAGDLGVGAREIGYMYGQYRKIVGGFYNGVLTGKARSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKASRDGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMTDIHDGSAAAAERYGLGYNLVAGANIVGFQKIADAMMAQGIAW MSKYVDRVIAEVEKKYADEPEFVQTVEEVLSSLGPVVDAHPEYEEVALLERMVIPERVIEFRVPWEDDNGKVHVNTGYRVQFNGAIGPYKGGLRFAPSVNLSIMKFLGFEQAFKDSLTTLPMGGAKGGSDFDPNGKSDREVMRFCQAFMTELYRHIGPDIDVPAGDLGVGAREIGYMYGQYRKIVGGFYNGVLTGKARSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKASRDGRVADYAKEFGLVYLEGQQPWSLPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMTDIHDGSAAAAERYGLGYNLVAGANIVGFQKIADAMMAQGIAW 2yfk-a2-m4-cB_2yfk-a2-m5-cB Crystal structure of a putative transcarbamoylase from Enterococcus faecalis 2.55 X-RAY DIFFRACTION 71 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 386 386 2yfk-a1-m1-cA_2yfk-a1-m2-cA 2yfk-a1-m1-cA_2yfk-a1-m3-cA 2yfk-a1-m2-cA_2yfk-a1-m3-cA 2yfk-a2-m1-cB_2yfk-a2-m4-cB 2yfk-a2-m1-cB_2yfk-a2-m5-cB ETFKEYIEKLDKLEFEKMYENDFFLTWEKTRDELEAVFTVADTLRYLRENNISTKIFDSGLGISLFRDNSTRTRFSFASACNLLGLEVQDLETVRETANMISFMADIIGIRDDMYIGKGNAYMHEVSESVQEGYKDGVLEQRPTLVNLQCDIDHPTQAMADALHLIHEFGGIENLKGKKVAMTWAYSPSYGKPLSVPQGIVGLMTRLGMDVVLAHPEGYEIMPEVEEVAKKNAAEFGGNFTKTNSMAEAFKDADVVYPKSWAPFAAMEKRTELYGNGDQAGIDQLEQELLSQNKKHKDWECTEELMKTTKDGKALYMHCLPADITGVSCEEGEVEASVFDRYRVELYKEASYKPYVIAAMIFLSKVKNPQKTLTDLADKATPREVK ETFKEYIEKLDKLEFEKMYENDFFLTWEKTRDELEAVFTVADTLRYLRENNISTKIFDSGLGISLFRDNSTRTRFSFASACNLLGLEVQDLETVRETANMISFMADIIGIRDDMYIGKGNAYMHEVSESVQEGYKDGVLEQRPTLVNLQCDIDHPTQAMADALHLIHEFGGIENLKGKKVAMTWAYSPSYGKPLSVPQGIVGLMTRLGMDVVLAHPEGYEIMPEVEEVAKKNAAEFGGNFTKTNSMAEAFKDADVVYPKSWAPFAAMEKRTELYGNGDQAGIDQLEQELLSQNKKHKDWECTEELMKTTKDGKALYMHCLPADITGVSCEEGEVEASVFDRYRVELYKEASYKPYVIAAMIFLSKVKNPQKTLTDLADKATPREVK 2yfo-a1-m1-cA_2yfo-a1-m4-cA GALACTOSIDASE DOMAIN OF ALPHA-GALACTOSIDASE-SUCROSE KINASE, AGASK, in complex with galactose G4T4R7 G4T4R7 1.35 X-RAY DIFFRACTION 200 1.0 935582 ([Ruminococcus] gnavus E1) 935582 ([Ruminococcus] gnavus E1) 719 719 2yfn-a1-m1-cA_2yfn-a1-m4-cA 2yfn-a1-m2-cA_2yfn-a1-m3-cA 2yfo-a1-m2-cA_2yfo-a1-m3-cA AIIYNPNKKIFTLHTAHTTYQMQVDPLGYLLHLYYGEKTNSSMDYVLTYADRGFSGNPYAAGMDRTYSLDALPQEYPSLGTGDYRNIALNIKNEKGVESADLLFKSYEIRNGKYRLQGLPAVWADEKEAQTLEIVLADENAQVEVHLLYGVLEENDVITRSVRIKNTGTGQITIEKAAAACLDFVQGEFDVLRFYGKHAMERNLERTPLGHGTIAFGSRRGTSSHQYNPAVILAEKGTTETAGSCYGMLFVYSGNFSCEAEKDQFNQTRLLLGLNEELFSYPLASGETFTVPEVILSYSAEGLSALSQQYHNCIRNHVCRSKYVHMQRPVLINSWEAAYFDFTGDTIVDLAKEAASLGIDMVVMDDGWFGKRNDDNSSLGDWQVNETKLGGSLAELITRVHEQGMKFGIWIEPEMINEDSDLYRAHPDWAIRIQGKKPVRSRNQLLLDFSRKEVRDCVFDQICVVLDQGKIDYVKWDMNRSMADVYAGNLSYDYVLGVYDFMERLCSRYPDLLLEGCSGGGGRFDAGMLYYSPQIWCSDNTDAINRTRIQYGTSFFYPVSAMGAHVSAVPNHQTGRVTSFHTRGVTAMAGTFGYELNPALLSDEEKQQIREQIKTYKKYETLINEGTYWRLSDPFTDEIAAWMSVSEEQDHALVSVVRLMAEANQATVYVRLRGLKPDAVYLEEQSGRQYSGAALMHAGIPLPPFTEEYEAYQFAFTEL AIIYNPNKKIFTLHTAHTTYQMQVDPLGYLLHLYYGEKTNSSMDYVLTYADRGFSGNPYAAGMDRTYSLDALPQEYPSLGTGDYRNIALNIKNEKGVESADLLFKSYEIRNGKYRLQGLPAVWADEKEAQTLEIVLADENAQVEVHLLYGVLEENDVITRSVRIKNTGTGQITIEKAAAACLDFVQGEFDVLRFYGKHAMERNLERTPLGHGTIAFGSRRGTSSHQYNPAVILAEKGTTETAGSCYGMLFVYSGNFSCEAEKDQFNQTRLLLGLNEELFSYPLASGETFTVPEVILSYSAEGLSALSQQYHNCIRNHVCRSKYVHMQRPVLINSWEAAYFDFTGDTIVDLAKEAASLGIDMVVMDDGWFGKRNDDNSSLGDWQVNETKLGGSLAELITRVHEQGMKFGIWIEPEMINEDSDLYRAHPDWAIRIQGKKPVRSRNQLLLDFSRKEVRDCVFDQICVVLDQGKIDYVKWDMNRSMADVYAGNLSYDYVLGVYDFMERLCSRYPDLLLEGCSGGGGRFDAGMLYYSPQIWCSDNTDAINRTRIQYGTSFFYPVSAMGAHVSAVPNHQTGRVTSFHTRGVTAMAGTFGYELNPALLSDEEKQQIREQIKTYKKYETLINEGTYWRLSDPFTDEIAAWMSVSEEQDHALVSVVRLMAEANQATVYVRLRGLKPDAVYLEEQSGRQYSGAALMHAGIPLPPFTEEYEAYQFAFTEL 2yfo-a1-m2-cA_2yfo-a1-m4-cA GALACTOSIDASE DOMAIN OF ALPHA-GALACTOSIDASE-SUCROSE KINASE, AGASK, in complex with galactose G4T4R7 G4T4R7 1.35 X-RAY DIFFRACTION 106 1.0 935582 ([Ruminococcus] gnavus E1) 935582 ([Ruminococcus] gnavus E1) 719 719 2yfn-a1-m1-cA_2yfn-a1-m3-cA 2yfn-a1-m2-cA_2yfn-a1-m4-cA 2yfo-a1-m1-cA_2yfo-a1-m3-cA AIIYNPNKKIFTLHTAHTTYQMQVDPLGYLLHLYYGEKTNSSMDYVLTYADRGFSGNPYAAGMDRTYSLDALPQEYPSLGTGDYRNIALNIKNEKGVESADLLFKSYEIRNGKYRLQGLPAVWADEKEAQTLEIVLADENAQVEVHLLYGVLEENDVITRSVRIKNTGTGQITIEKAAAACLDFVQGEFDVLRFYGKHAMERNLERTPLGHGTIAFGSRRGTSSHQYNPAVILAEKGTTETAGSCYGMLFVYSGNFSCEAEKDQFNQTRLLLGLNEELFSYPLASGETFTVPEVILSYSAEGLSALSQQYHNCIRNHVCRSKYVHMQRPVLINSWEAAYFDFTGDTIVDLAKEAASLGIDMVVMDDGWFGKRNDDNSSLGDWQVNETKLGGSLAELITRVHEQGMKFGIWIEPEMINEDSDLYRAHPDWAIRIQGKKPVRSRNQLLLDFSRKEVRDCVFDQICVVLDQGKIDYVKWDMNRSMADVYAGNLSYDYVLGVYDFMERLCSRYPDLLLEGCSGGGGRFDAGMLYYSPQIWCSDNTDAINRTRIQYGTSFFYPVSAMGAHVSAVPNHQTGRVTSFHTRGVTAMAGTFGYELNPALLSDEEKQQIREQIKTYKKYETLINEGTYWRLSDPFTDEIAAWMSVSEEQDHALVSVVRLMAEANQATVYVRLRGLKPDAVYLEEQSGRQYSGAALMHAGIPLPPFTEEYEAYQFAFTEL AIIYNPNKKIFTLHTAHTTYQMQVDPLGYLLHLYYGEKTNSSMDYVLTYADRGFSGNPYAAGMDRTYSLDALPQEYPSLGTGDYRNIALNIKNEKGVESADLLFKSYEIRNGKYRLQGLPAVWADEKEAQTLEIVLADENAQVEVHLLYGVLEENDVITRSVRIKNTGTGQITIEKAAAACLDFVQGEFDVLRFYGKHAMERNLERTPLGHGTIAFGSRRGTSSHQYNPAVILAEKGTTETAGSCYGMLFVYSGNFSCEAEKDQFNQTRLLLGLNEELFSYPLASGETFTVPEVILSYSAEGLSALSQQYHNCIRNHVCRSKYVHMQRPVLINSWEAAYFDFTGDTIVDLAKEAASLGIDMVVMDDGWFGKRNDDNSSLGDWQVNETKLGGSLAELITRVHEQGMKFGIWIEPEMINEDSDLYRAHPDWAIRIQGKKPVRSRNQLLLDFSRKEVRDCVFDQICVVLDQGKIDYVKWDMNRSMADVYAGNLSYDYVLGVYDFMERLCSRYPDLLLEGCSGGGGRFDAGMLYYSPQIWCSDNTDAINRTRIQYGTSFFYPVSAMGAHVSAVPNHQTGRVTSFHTRGVTAMAGTFGYELNPALLSDEEKQQIREQIKTYKKYETLINEGTYWRLSDPFTDEIAAWMSVSEEQDHALVSVVRLMAEANQATVYVRLRGLKPDAVYLEEQSGRQYSGAALMHAGIPLPPFTEEYEAYQFAFTEL 2yfo-a1-m3-cA_2yfo-a1-m4-cA GALACTOSIDASE DOMAIN OF ALPHA-GALACTOSIDASE-SUCROSE KINASE, AGASK, in complex with galactose G4T4R7 G4T4R7 1.35 X-RAY DIFFRACTION 71 1.0 935582 ([Ruminococcus] gnavus E1) 935582 ([Ruminococcus] gnavus E1) 719 719 2yfn-a1-m1-cA_2yfn-a1-m2-cA 2yfn-a1-m3-cA_2yfn-a1-m4-cA 2yfo-a1-m1-cA_2yfo-a1-m2-cA AIIYNPNKKIFTLHTAHTTYQMQVDPLGYLLHLYYGEKTNSSMDYVLTYADRGFSGNPYAAGMDRTYSLDALPQEYPSLGTGDYRNIALNIKNEKGVESADLLFKSYEIRNGKYRLQGLPAVWADEKEAQTLEIVLADENAQVEVHLLYGVLEENDVITRSVRIKNTGTGQITIEKAAAACLDFVQGEFDVLRFYGKHAMERNLERTPLGHGTIAFGSRRGTSSHQYNPAVILAEKGTTETAGSCYGMLFVYSGNFSCEAEKDQFNQTRLLLGLNEELFSYPLASGETFTVPEVILSYSAEGLSALSQQYHNCIRNHVCRSKYVHMQRPVLINSWEAAYFDFTGDTIVDLAKEAASLGIDMVVMDDGWFGKRNDDNSSLGDWQVNETKLGGSLAELITRVHEQGMKFGIWIEPEMINEDSDLYRAHPDWAIRIQGKKPVRSRNQLLLDFSRKEVRDCVFDQICVVLDQGKIDYVKWDMNRSMADVYAGNLSYDYVLGVYDFMERLCSRYPDLLLEGCSGGGGRFDAGMLYYSPQIWCSDNTDAINRTRIQYGTSFFYPVSAMGAHVSAVPNHQTGRVTSFHTRGVTAMAGTFGYELNPALLSDEEKQQIREQIKTYKKYETLINEGTYWRLSDPFTDEIAAWMSVSEEQDHALVSVVRLMAEANQATVYVRLRGLKPDAVYLEEQSGRQYSGAALMHAGIPLPPFTEEYEAYQFAFTEL AIIYNPNKKIFTLHTAHTTYQMQVDPLGYLLHLYYGEKTNSSMDYVLTYADRGFSGNPYAAGMDRTYSLDALPQEYPSLGTGDYRNIALNIKNEKGVESADLLFKSYEIRNGKYRLQGLPAVWADEKEAQTLEIVLADENAQVEVHLLYGVLEENDVITRSVRIKNTGTGQITIEKAAAACLDFVQGEFDVLRFYGKHAMERNLERTPLGHGTIAFGSRRGTSSHQYNPAVILAEKGTTETAGSCYGMLFVYSGNFSCEAEKDQFNQTRLLLGLNEELFSYPLASGETFTVPEVILSYSAEGLSALSQQYHNCIRNHVCRSKYVHMQRPVLINSWEAAYFDFTGDTIVDLAKEAASLGIDMVVMDDGWFGKRNDDNSSLGDWQVNETKLGGSLAELITRVHEQGMKFGIWIEPEMINEDSDLYRAHPDWAIRIQGKKPVRSRNQLLLDFSRKEVRDCVFDQICVVLDQGKIDYVKWDMNRSMADVYAGNLSYDYVLGVYDFMERLCSRYPDLLLEGCSGGGGRFDAGMLYYSPQIWCSDNTDAINRTRIQYGTSFFYPVSAMGAHVSAVPNHQTGRVTSFHTRGVTAMAGTFGYELNPALLSDEEKQQIREQIKTYKKYETLINEGTYWRLSDPFTDEIAAWMSVSEEQDHALVSVVRLMAEANQATVYVRLRGLKPDAVYLEEQSGRQYSGAALMHAGIPLPPFTEEYEAYQFAFTEL 2yfq-a1-m2-cA_2yfq-a1-m3-cB Crystal structure of Glutamate dehydrogenase from Peptoniphilus asaccharolyticus P28997 P28997 2.94 X-RAY DIFFRACTION 13 1.0 1258 (Peptoniphilus asaccharolyticus) 1258 (Peptoniphilus asaccharolyticus) 395 397 2yfq-a1-m1-cA_2yfq-a1-m2-cB 2yfq-a1-m3-cA_2yfq-a1-m1-cB NPLVAAQEKVRIACEKLGCDPAVYELLKEPQRVIEISIPVKMDDGTVKVFKGWRSAHSSAVGPSKGGVRFHPNVNMDEVKALSLWMTFKGGALGLPYGGGKGGICVDPAELSERELEQLSRGWVRGLYKYLGDRIDIPAPDVNTNGQIMSWFVDEYVKLNGERMDIGTFTGKPVAFGGSEGRNEATGFGVAVVVRESAKRFGIKMEDAKIAVQGFGNVGTFTVKNIERQGGKVCAIAEWDRNEGNYALYNENGIDFKELLAYKEANKTIIVPAALENVITGERAKTINAKLVCEAANGPTTPEGDKVLTERGINLTPDILTNSGGVLVSYYEWVQNQYGYYWTEAEVEEKQEADMMKAIKGVFAVADEYNVTLREAVYMYAIKSIDVAMKLRGWY LNPLVAAQEKVRIACEKLGCDPAVYELLKEPQRVIEISIPVKMDDGTVKVFKGWRSAHSSAVGPSKGGVRFHPNVNMDEVKALSLWMTFKGGALGLPYGGGKGGICVDPAELSERELEQLSRGWVRGLYKYLGDRIDIPAPDVNTNGQIMSWFVDEYVKLNGERMDIGTFTGKPVAFGGSEGRNEATGFGVAVVVRESAKRFGIKMEDAKIAVQGFGNVGTFTVKNIERQGGKVCAIAEWDRNEGNYALYNENGIDFKELLAYKEANKTDIIVPAALENVITGERAKTINAKLVCEAANGPTTPEGDKVLTERGINLTPDILTNSGGVLVSYYEWVQNQYGYYWTEAEVEEKQEADMMKAIKGVFAVADEYNVTLREAVYMYAIKSIDVAMKLRGWY 2yfq-a1-m2-cB_2yfq-a1-m3-cB Crystal structure of Glutamate dehydrogenase from Peptoniphilus asaccharolyticus P28997 P28997 2.94 X-RAY DIFFRACTION 49 1.0 1258 (Peptoniphilus asaccharolyticus) 1258 (Peptoniphilus asaccharolyticus) 397 397 2yfq-a1-m1-cA_2yfq-a1-m2-cA 2yfq-a1-m1-cA_2yfq-a1-m3-cA 2yfq-a1-m1-cB_2yfq-a1-m2-cB 2yfq-a1-m1-cB_2yfq-a1-m3-cB 2yfq-a1-m2-cA_2yfq-a1-m3-cA LNPLVAAQEKVRIACEKLGCDPAVYELLKEPQRVIEISIPVKMDDGTVKVFKGWRSAHSSAVGPSKGGVRFHPNVNMDEVKALSLWMTFKGGALGLPYGGGKGGICVDPAELSERELEQLSRGWVRGLYKYLGDRIDIPAPDVNTNGQIMSWFVDEYVKLNGERMDIGTFTGKPVAFGGSEGRNEATGFGVAVVVRESAKRFGIKMEDAKIAVQGFGNVGTFTVKNIERQGGKVCAIAEWDRNEGNYALYNENGIDFKELLAYKEANKTDIIVPAALENVITGERAKTINAKLVCEAANGPTTPEGDKVLTERGINLTPDILTNSGGVLVSYYEWVQNQYGYYWTEAEVEEKQEADMMKAIKGVFAVADEYNVTLREAVYMYAIKSIDVAMKLRGWY LNPLVAAQEKVRIACEKLGCDPAVYELLKEPQRVIEISIPVKMDDGTVKVFKGWRSAHSSAVGPSKGGVRFHPNVNMDEVKALSLWMTFKGGALGLPYGGGKGGICVDPAELSERELEQLSRGWVRGLYKYLGDRIDIPAPDVNTNGQIMSWFVDEYVKLNGERMDIGTFTGKPVAFGGSEGRNEATGFGVAVVVRESAKRFGIKMEDAKIAVQGFGNVGTFTVKNIERQGGKVCAIAEWDRNEGNYALYNENGIDFKELLAYKEANKTDIIVPAALENVITGERAKTINAKLVCEAANGPTTPEGDKVLTERGINLTPDILTNSGGVLVSYYEWVQNQYGYYWTEAEVEEKQEADMMKAIKGVFAVADEYNVTLREAVYMYAIKSIDVAMKLRGWY 2yfq-a1-m3-cA_2yfq-a1-m3-cB Crystal structure of Glutamate dehydrogenase from Peptoniphilus asaccharolyticus P28997 P28997 2.94 X-RAY DIFFRACTION 76 1.0 1258 (Peptoniphilus asaccharolyticus) 1258 (Peptoniphilus asaccharolyticus) 395 397 2yfq-a1-m1-cA_2yfq-a1-m1-cB 2yfq-a1-m2-cA_2yfq-a1-m2-cB NPLVAAQEKVRIACEKLGCDPAVYELLKEPQRVIEISIPVKMDDGTVKVFKGWRSAHSSAVGPSKGGVRFHPNVNMDEVKALSLWMTFKGGALGLPYGGGKGGICVDPAELSERELEQLSRGWVRGLYKYLGDRIDIPAPDVNTNGQIMSWFVDEYVKLNGERMDIGTFTGKPVAFGGSEGRNEATGFGVAVVVRESAKRFGIKMEDAKIAVQGFGNVGTFTVKNIERQGGKVCAIAEWDRNEGNYALYNENGIDFKELLAYKEANKTIIVPAALENVITGERAKTINAKLVCEAANGPTTPEGDKVLTERGINLTPDILTNSGGVLVSYYEWVQNQYGYYWTEAEVEEKQEADMMKAIKGVFAVADEYNVTLREAVYMYAIKSIDVAMKLRGWY LNPLVAAQEKVRIACEKLGCDPAVYELLKEPQRVIEISIPVKMDDGTVKVFKGWRSAHSSAVGPSKGGVRFHPNVNMDEVKALSLWMTFKGGALGLPYGGGKGGICVDPAELSERELEQLSRGWVRGLYKYLGDRIDIPAPDVNTNGQIMSWFVDEYVKLNGERMDIGTFTGKPVAFGGSEGRNEATGFGVAVVVRESAKRFGIKMEDAKIAVQGFGNVGTFTVKNIERQGGKVCAIAEWDRNEGNYALYNENGIDFKELLAYKEANKTDIIVPAALENVITGERAKTINAKLVCEAANGPTTPEGDKVLTERGINLTPDILTNSGGVLVSYYEWVQNQYGYYWTEAEVEEKQEADMMKAIKGVFAVADEYNVTLREAVYMYAIKSIDVAMKLRGWY 2yfr-a2-m1-cA_2yfr-a2-m2-cA Crystal structure of inulosucrase from Lactobacillus johnsonii NCC533 Q74K42 Q74K42 1.75 X-RAY DIFFRACTION 133 1.0 33959 (Lactobacillus johnsonii) 33959 (Lactobacillus johnsonii) 533 533 2yfs-a2-m1-cA_2yfs-a2-m2-cA KAELKGQVKDIVEESGVDTSKLTNDQINELNKINFSKEAKSGTQLTYNDFKKIAKTLIEQDARYAIPFFNASKIKNMPAAKTLDAQSGKVEDLEIWDSWPVQDAKTGYVSNWNGYQLVIGMMGVPNVNDNHIYLLYNKYGDNDFNHWKNAGPIFGLGTPVIQQWSGSATLNKDGSIQLYYTKVDTSDNNTNHQKLASATVYLNLEKDQDKISIAHVDNDHIVFEGDGYHYQTYDQWKETNKGADNIAMRDAHVIDDDNGNRYLVFEASTGTENYQGDDQIYQWLNYGGTNKDNLGDFFQILSNSDIKDRAKWSNAAIGIIKLNDDVKNPSVAKVYSPLISAPMVSDEIERPDVVKLGNKYYLFAATRLNRGSNDDAWMATNKAVGDNVAMIGYVSDNLTHGYVPLNESGVVLTASVPANWRTATYSYYAVPVEGRDDQLLITSYITNRGEVAGKGMHATWAPSFLLQINPDNTTTVLAKMTNQGDWIWDDSSENPDMMGVLEKDAPNSAALPGEWGKPVDWDLIGGYNLKPHQ KAELKGQVKDIVEESGVDTSKLTNDQINELNKINFSKEAKSGTQLTYNDFKKIAKTLIEQDARYAIPFFNASKIKNMPAAKTLDAQSGKVEDLEIWDSWPVQDAKTGYVSNWNGYQLVIGMMGVPNVNDNHIYLLYNKYGDNDFNHWKNAGPIFGLGTPVIQQWSGSATLNKDGSIQLYYTKVDTSDNNTNHQKLASATVYLNLEKDQDKISIAHVDNDHIVFEGDGYHYQTYDQWKETNKGADNIAMRDAHVIDDDNGNRYLVFEASTGTENYQGDDQIYQWLNYGGTNKDNLGDFFQILSNSDIKDRAKWSNAAIGIIKLNDDVKNPSVAKVYSPLISAPMVSDEIERPDVVKLGNKYYLFAATRLNRGSNDDAWMATNKAVGDNVAMIGYVSDNLTHGYVPLNESGVVLTASVPANWRTATYSYYAVPVEGRDDQLLITSYITNRGEVAGKGMHATWAPSFLLQINPDNTTTVLAKMTNQGDWIWDDSSENPDMMGVLEKDAPNSAALPGEWGKPVDWDLIGGYNLKPHQ 2yft-a2-m1-cA_2yft-a2-m2-cA Crystal structure of inulosucrase from Lactobacillus johnsonii NCC533 in complex with 1-kestose Q74K42 Q74K42 1.85 X-RAY DIFFRACTION 84 1.0 33959 (Lactobacillus johnsonii) 33959 (Lactobacillus johnsonii) 519 519 KAELKGQVKDIVEESGVDTSKLTNDQINELNKINFSKEAKSGTQLTYNDFKKIAKTLIEQDARYAIPFFNASKIKNMPAAKTLDAQSGKVEDLEIWDSWPVQDAKTGYVSNWNGYQLVIGMMGVPNVNDNHIYLLYNKYGDNDFNHWKNAGPIFGLGTPVIQQWSGSATLNKDGSIQLYYTKVDTSDNNTNHQKLASATVYLNLEKDQDKISIAHVDNDHIVFEGDGYHYQTYDQWKETNKGADNIAMRDAHVIDDDNGNRYLVFEASTGTENYQGDDQIYQWLNYGGTNKDNLGDFFQILSNSDIKDRAKWSNAAIGIIKLNDDVKNPSVAKVYSPLISAPMVSDEIERPDVVKLGNKYYLFAATRLNRGSNDDAWMATNKAVGDNVAMIGYVSDNLTHGYVPLNESGVVLTASVPANWRTATYSYYAVPVEGRDDQLLITSYITNRGEVAGKGMHATWAPSFLLQINPDNTTTVLAKMTNQGDWIWDDSSENPDMMGVLEKDAPNSAALPGEWGKPV KAELKGQVKDIVEESGVDTSKLTNDQINELNKINFSKEAKSGTQLTYNDFKKIAKTLIEQDARYAIPFFNASKIKNMPAAKTLDAQSGKVEDLEIWDSWPVQDAKTGYVSNWNGYQLVIGMMGVPNVNDNHIYLLYNKYGDNDFNHWKNAGPIFGLGTPVIQQWSGSATLNKDGSIQLYYTKVDTSDNNTNHQKLASATVYLNLEKDQDKISIAHVDNDHIVFEGDGYHYQTYDQWKETNKGADNIAMRDAHVIDDDNGNRYLVFEASTGTENYQGDDQIYQWLNYGGTNKDNLGDFFQILSNSDIKDRAKWSNAAIGIIKLNDDVKNPSVAKVYSPLISAPMVSDEIERPDVVKLGNKYYLFAATRLNRGSNDDAWMATNKAVGDNVAMIGYVSDNLTHGYVPLNESGVVLTASVPANWRTATYSYYAVPVEGRDDQLLITSYITNRGEVAGKGMHATWAPSFLLQINPDNTTTVLAKMTNQGDWIWDDSSENPDMMGVLEKDAPNSAALPGEWGKPV 2yfw-a2-m1-cC_2yfw-a2-m1-cE Heterotetramer structure of Kluyveromyces lactis Cse4,H4 Q6CTI2 Q6CTI2 2.6 X-RAY DIFFRACTION 10 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 71 88 TDLLISRMPFARLVKEVTDQLRWQSMAIMALQEASEAYLVGLLEHTNLLALHAKRITIMRKDMQLARRIRG ALAEIRKYQRSTDLLISRMPFARLVKEVTDQFTPLRWQSMAIMALQEASEAYLVGLLEHTNLLALHAKRITIMRKDMQLARRIRGQFI 2yfw-a2-m1-cD_2yfw-a2-m1-cF Heterotetramer structure of Kluyveromyces lactis Cse4,H4 Q6CMU6 Q6CMU6 2.6 X-RAY DIFFRACTION 10 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 71 72 2yfw-a1-m1-cB_2yfw-a1-m1-cH DNIQGITKPAIRRLARRGGVKRISGLIYEEVRNVLKTFLESVIRDAVTYTEHAKRKTVTSLDVVYALKRQG RDNIQGITKPAIRRLARRGGVKRISGLIYEEVRNVLKTFLESVIRDAVTYTEHAKRKTVTSLDVVYALKRQG 2yg3-a1-m1-cA_2yg3-a1-m1-cB Structure-based redesign of cofactor binding in Putrescine Oxidase: wild type enzyme B0F9F6 B0F9F6 2 X-RAY DIFFRACTION 117 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 449 450 2yg4-a1-m1-cA_2yg4-a1-m1-cB PTLQRDVAIVGAGPSGLAAATALRKAGLSVAVIEARDRVGGRTWTDTIDGAVLEIGGQWVSPDQTALISLLDELGLKTFERYREGESVYISSAGERTRYTGDSFPTNETTKKEMDRLIDEMDDLAAQIGAEEPWAHPLARDLDTVSFKQWLINQSDDAEARDNIGLFIAGGMLTKPAHSFSALQAVLMAASAGSFSHLVDEDFILDKRVIGGMQQVSIRMAEALGDDVFLNAPVRTVKWNESGATVLADGDIRVEASRVILAVPPNLYSRISYDPPLPRRQHQMHQHQSLGLVIKVHAVYETPFWREDGLSGTGFGASEVVQEVYDNTNHEDDRGTLVAFVSDEKADAMFELSAEERKATILASLARYLGPKAEEPVVYYESDWGSEEWTRGAYAASFDLGGLHRYGADSRTPVGPIHFSCSDIAAEGYQHVDGAVRMGQRTAADIIAR PTLQRDVAIVGAGPSGLAAATALRKAGLSVAVIEARDRVGGRTWTDTIDGAVLEIGGQWVSPDQTALISLLDELGLKTFERYREGESVYISSAGERTRYTGDSFPTNETTKKEMDRLIDEMDDLAAQIGAEEPWAHPLARDLDTVSFKQWLINQSDDAEARDNIGLFIAGGMLTKPAHSFSALQAVLMAASAGSFSHLVDEDFILDKRVIGGMQQVSIRMAEALGDDVFLNAPVRTVKWNESGATVLADGDIRVEASRVILAVPPNLYSRISYDPPLPRRQHQMHQHQSLGLVIKVHAVYETPFWREDGLSGTGFGASEVVQEVYDNTNHEDDRGTLVAFVSDEKADAMFELSAEERKATILASLARYLGPKAEEPVVYYESDWGSEEWTRGAYAASFDLGGLHRYGADSRTPVGPIHFSCSDIAAEGYQHVDGAVRMGQRTAADIIARS 2yg5-a1-m1-cA_2yg5-a1-m2-cA Structure-based redesign of cofactor binding in Putrescine Oxidase: A394C mutant B0F9F6 B0F9F6 1.9 X-RAY DIFFRACTION 22 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 450 450 PTLQRDVAIVGAGPSGLAAATALRKAGLSVAVIEARDRVGGRTWTDTIDGAVLEIGGQWVSPDQTALISLLDELGLKTFERYREGESVYISSAGERTRYTGDSFPTNETTKKEMDRLIDEMDDLAAQIGAEEPWAHPLARDLDTVSFKQWLINQSDDAEARDNIGLFIAGGMLTKPAHSFSALQAVLMAASAGSFSHLVDEDFILDKRVIGGMQQVSIRMAEALGDDVFLNAPVRTVKWNESGATVLADGDIRVEASRVILAVPPNLYSRISYDPPLPRRQHQMHQHQSLGLVIKVHAVYETPFWREDGLSGTGFGASEVVQEVYDNTNHEDDRGTLVAFVSDEKADAMFELSAEERKATILASLARYLGPKAEEPVVYYESDWGSEEWTRGCYAASFDLGGLHRYGADSRTPVGPIHFSCSDIAAEGYQHVDGAVRMGQRTAADIIARS PTLQRDVAIVGAGPSGLAAATALRKAGLSVAVIEARDRVGGRTWTDTIDGAVLEIGGQWVSPDQTALISLLDELGLKTFERYREGESVYISSAGERTRYTGDSFPTNETTKKEMDRLIDEMDDLAAQIGAEEPWAHPLARDLDTVSFKQWLINQSDDAEARDNIGLFIAGGMLTKPAHSFSALQAVLMAASAGSFSHLVDEDFILDKRVIGGMQQVSIRMAEALGDDVFLNAPVRTVKWNESGATVLADGDIRVEASRVILAVPPNLYSRISYDPPLPRRQHQMHQHQSLGLVIKVHAVYETPFWREDGLSGTGFGASEVVQEVYDNTNHEDDRGTLVAFVSDEKADAMFELSAEERKATILASLARYLGPKAEEPVVYYESDWGSEEWTRGCYAASFDLGGLHRYGADSRTPVGPIHFSCSDIAAEGYQHVDGAVRMGQRTAADIIARS 2ygd-a1-m1-cC_2ygd-a1-m1-cW Molecular architectures of the 24meric eye lens chaperone alphaB- crystallin elucidated by a triple hybrid approach P02511 P02511 9.4 ELECTRON MICROSCOPY 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 2ygd-a1-m1-cA_2ygd-a1-m1-cI 2ygd-a1-m1-cA_2ygd-a1-m1-cQ 2ygd-a1-m1-cC_2ygd-a1-m1-cG 2ygd-a1-m1-cE_2ygd-a1-m1-cM 2ygd-a1-m1-cE_2ygd-a1-m1-cU 2ygd-a1-m1-cG_2ygd-a1-m1-cW 2ygd-a1-m1-cI_2ygd-a1-m1-cQ 2ygd-a1-m1-cK_2ygd-a1-m1-cO 2ygd-a1-m1-cK_2ygd-a1-m1-cS 2ygd-a1-m1-cM_2ygd-a1-m1-cU 2ygd-a1-m1-cO_2ygd-a1-m1-cS MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 2ygd-a1-m1-cF_2ygd-a1-m1-cU Molecular architectures of the 24meric eye lens chaperone alphaB- crystallin elucidated by a triple hybrid approach P02511 P02511 9.4 ELECTRON MICROSCOPY 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 2ygd-a1-m1-cA_2ygd-a1-m1-cJ 2ygd-a1-m1-cB_2ygd-a1-m1-cQ 2ygd-a1-m1-cC_2ygd-a1-m1-cX 2ygd-a1-m1-cD_2ygd-a1-m1-cG 2ygd-a1-m1-cE_2ygd-a1-m1-cN 2ygd-a1-m1-cH_2ygd-a1-m1-cW 2ygd-a1-m1-cI_2ygd-a1-m1-cR 2ygd-a1-m1-cK_2ygd-a1-m1-cT 2ygd-a1-m1-cL_2ygd-a1-m1-cO 2ygd-a1-m1-cM_2ygd-a1-m1-cV 2ygd-a1-m1-cP_2ygd-a1-m1-cS MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 2ygd-a1-m1-cF_2ygd-a1-m1-cV Molecular architectures of the 24meric eye lens chaperone alphaB- crystallin elucidated by a triple hybrid approach P02511 P02511 9.4 ELECTRON MICROSCOPY 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 2ygd-a1-m1-cB_2ygd-a1-m1-cJ 2ygd-a1-m1-cB_2ygd-a1-m1-cR 2ygd-a1-m1-cD_2ygd-a1-m1-cH 2ygd-a1-m1-cD_2ygd-a1-m1-cX 2ygd-a1-m1-cF_2ygd-a1-m1-cN 2ygd-a1-m1-cH_2ygd-a1-m1-cX 2ygd-a1-m1-cJ_2ygd-a1-m1-cR 2ygd-a1-m1-cL_2ygd-a1-m1-cP 2ygd-a1-m1-cL_2ygd-a1-m1-cT 2ygd-a1-m1-cN_2ygd-a1-m1-cV 2ygd-a1-m1-cP_2ygd-a1-m1-cT MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 2ygd-a1-m1-cU_2ygd-a1-m1-cX Molecular architectures of the 24meric eye lens chaperone alphaB- crystallin elucidated by a triple hybrid approach P02511 P02511 9.4 ELECTRON MICROSCOPY 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 2klr-a1-m1-cA_2klr-a1-m1-cB 2ygd-a1-m1-cA_2ygd-a1-m1-cD 2ygd-a1-m1-cB_2ygd-a1-m1-cE 2ygd-a1-m1-cC_2ygd-a1-m1-cF 2ygd-a1-m1-cG_2ygd-a1-m1-cJ 2ygd-a1-m1-cH_2ygd-a1-m1-cK 2ygd-a1-m1-cI_2ygd-a1-m1-cL 2ygd-a1-m1-cM_2ygd-a1-m1-cP 2ygd-a1-m1-cN_2ygd-a1-m1-cQ 2ygd-a1-m1-cO_2ygd-a1-m1-cR 2ygd-a1-m1-cS_2ygd-a1-m1-cV 2ygd-a1-m1-cT_2ygd-a1-m1-cW MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 2ygd-a1-m1-cW_2ygd-a1-m1-cX Molecular architectures of the 24meric eye lens chaperone alphaB- crystallin elucidated by a triple hybrid approach P02511 P02511 9.4 ELECTRON MICROSCOPY 212 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 2ygd-a1-m1-cA_2ygd-a1-m1-cB 2ygd-a1-m1-cC_2ygd-a1-m1-cD 2ygd-a1-m1-cE_2ygd-a1-m1-cF 2ygd-a1-m1-cG_2ygd-a1-m1-cH 2ygd-a1-m1-cI_2ygd-a1-m1-cJ 2ygd-a1-m1-cK_2ygd-a1-m1-cL 2ygd-a1-m1-cM_2ygd-a1-m1-cN 2ygd-a1-m1-cO_2ygd-a1-m1-cP 2ygd-a1-m1-cQ_2ygd-a1-m1-cR 2ygd-a1-m1-cS_2ygd-a1-m1-cT 2ygd-a1-m1-cU_2ygd-a1-m1-cV MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 2ygk-a1-m1-cA_2ygk-a1-m1-cB Crystal structure of the NurA nuclease from Sulfolobus solfataricus Q97WH1 Q97WH1 2.5 X-RAY DIFFRACTION 137 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 309 309 IRKIYDKLVEIKNQIYNIANYLKQEIQDKVNEYWNEYVINHTCKFVAIDGGSFGRPRIGIVYAVGAESVIGDNKGVKTLSEDGQIGIFKPGNDAQERISLLEALELSLALRDGSKGDYILDGSLSKKIGNKVDIQQFSDEELKLIRNVDLNGIISIKDERKRDLLLLNQFLVSKIIEEYDGNVLWISKVSRGRDLFGTDYPDITVLELFTEKRGFSKLIIKNIPEIEVLRKEYTTFYTRLDNGKRVIRVDIVGRVDEKIVKEIDRLSGVSIKGYPFPLLKAHDVRFSADREKIIKLVGSKLHKDIEWWP IRKIYDKLVEIKNQIYNIANYLKQEIQDKVNEYWNEYVINHTCKFVAIDGGSFGRPRIGIVYAVGAESVIGDNKGVKTLSEDGQIGIFKPGNDAQERISLLEALELSLALRDGSKGDYILDGSLSKKIGNKVDIQQFSDEELKLIRNVDLNGIISIKDERKRDLLLLNQFLVSKIIEEYDGNVLWISKVSRGRDLFGTDYPDITVLELFTEKRGFSKLIIKNIPEIEVLRKEYTTFYTRLDNGKRVIRVDIVGRVDEKIVKEIDRLSGVSIKGYPFPLLKAHDVRFSADREKIIKLVGSKLHKDIEWWP 2ygn-a1-m1-cA_2ygn-a1-m2-cA WIF domain of human Wnt inhibitory factor 1 in complex with 1,2- dipalmitoylphosphatidylcholine Q9Y5W5 Q9Y5W5 1.85 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 TGSLYLWIDAHQARVLIGFEEDILIVSEGMAPFTHDFRAQQRMPAIPVNIHSMNFTWQAAGQAEYFYEFLSLRSLDGIMADPTVNVPLLGTVPHASVVQVGFPCLGQDGVAAFEVDVIVMNSEGNTILTPQNAIFFKTCQ TGSLYLWIDAHQARVLIGFEEDILIVSEGMAPFTHDFRAQQRMPAIPVNIHSMNFTWQAAGQAEYFYEFLSLRSLDGIMADPTVNVPLLGTVPHASVVQVGFPCLGQDGVAAFEVDVIVMNSEGNTILTPQNAIFFKTCQ 2ygo-a1-m1-cA_2ygo-a1-m2-cA WIF domain-EGF-like domain 1 of human Wnt inhibitory factor 1 in complex with 1,2-dipalmitoylphosphatidylcholine Q9Y5W5 Q9Y5W5 1.85 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 2ygp-a1-m1-cA_2ygp-a1-m2-cA TGSLYLWIDAHQARVLIGFEEDILIVSEGMAPFTHDFRAQQRMPAIPVNIHSMNFTWQAAGQAEYFYEFLSLRSLDGIMADPTVNVPLLGTVPHASVVQVGFPCLGQDGVAAFEVDVIVMNSEGNTILTPQNAIFFKTCQQAECPGGCRNGGFCNERRICECPDGFHGPHCEGT TGSLYLWIDAHQARVLIGFEEDILIVSEGMAPFTHDFRAQQRMPAIPVNIHSMNFTWQAAGQAEYFYEFLSLRSLDGIMADPTVNVPLLGTVPHASVVQVGFPCLGQDGVAAFEVDVIVMNSEGNTILTPQNAIFFKTCQQAECPGGCRNGGFCNERRICECPDGFHGPHCEGT 2ygq-a1-m2-cA_2ygq-a1-m3-cA WIF domain-epidermal growth factor (EGF)-like domains 1-3 of human Wnt inhibitory factor 1 in complex with 1,2- dipalmitoylphosphatidylcholine Q9Y5W5 Q9Y5W5 3.951 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 241 241 2ygq-a1-m1-cA_2ygq-a1-m2-cA 2ygq-a1-m1-cA_2ygq-a1-m3-cA GSLYLWIDAHQARVLIGFEEDILIVSEGKMAPFTHDFRKAQQRMPAIPVNIHSMNFTWQAAGQAEYFYEFLSLRSLDKGIMADPTVNVPLLGTVPHKASVVQVGFPCLGKQDGVAAFEVDVIVMNSEGNTILKTPQNAIFFKTCQQAECPGGCRNGGFCNERRICECPDGFHGPHCEKALCTPRCMNGGLCVTPGFCICPPGFYGVNCDKANCSTTCFNGGTCFYPGKCICPPGLEGEQCE GSLYLWIDAHQARVLIGFEEDILIVSEGKMAPFTHDFRKAQQRMPAIPVNIHSMNFTWQAAGQAEYFYEFLSLRSLDKGIMADPTVNVPLLGTVPHKASVVQVGFPCLGKQDGVAAFEVDVIVMNSEGNTILKTPQNAIFFKTCQQAECPGGCRNGGFCNERRICECPDGFHGPHCEKALCTPRCMNGGLCVTPGFCICPPGFYGVNCDKANCSTTCFNGGTCFYPGKCICPPGLEGEQCE 2ygu-a3-m1-cE_2ygu-a3-m1-cF Crystal structure of fire ant venom allergen, Sol I 2 P35775 P35775 2.6 X-RAY DIFFRACTION 90 1.0 13686 (Solenopsis invicta) 13686 (Solenopsis invicta) 118 119 2ygu-a1-m1-cA_2ygu-a1-m1-cB 2ygu-a2-m1-cD_2ygu-a2-m1-cC 2ygu-a4-m1-cH_2ygu-a4-m1-cG DNKELKIIRKDVAECLRTLPKCGNQPDDPLARVDVWHCAMAKRGVYDNPDPAVIKERSMKMCTKIITDPANVENCKKVASRCVDRETQGPKSNRQKAVNIIGCALRAGVAETTVLARK DNKELKIIRKDVAECLRTLPKCGNQPDDPLARVDVWHCAMAKRGVYDNPDPAVIKERSMKMCTKIITDPANVENCKKVASRCVDRETQGPKSNRQKAVNIIGCALRAGVAETTVLARKK 2ygy-a1-m1-cA_2ygy-a1-m1-cD Structure of wild type E. coli N-acetylneuraminic acid lyase in space group P21 crystal form II P0A6L4 P0A6L4 1.9 X-RAY DIFFRACTION 86 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 299 299 1fdy-a1-m1-cB_1fdy-a1-m1-cC 1fdy-a1-m1-cD_1fdy-a1-m1-cA 1fdz-a1-m1-cA_1fdz-a1-m1-cD 1fdz-a1-m1-cB_1fdz-a1-m1-cC 1hl2-a1-m1-cA_1hl2-a1-m1-cD 1hl2-a1-m1-cB_1hl2-a1-m1-cC 1nal-a1-m1-c1_1nal-a1-m1-c4 1nal-a1-m1-c2_1nal-a1-m1-c3 2wkj-a1-m1-cA_2wkj-a1-m1-cD 2wkj-a1-m1-cB_2wkj-a1-m1-cC 2wnn-a1-m1-cA_2wnn-a1-m1-cD 2wnn-a1-m1-cB_2wnn-a1-m1-cC 2wnq-a1-m1-cB_2wnq-a1-m1-cC 2wnq-a1-m1-cD_2wnq-a1-m1-cA 2wnz-a1-m1-cB_2wnz-a1-m1-cC 2wnz-a1-m1-cD_2wnz-a1-m1-cA 2wo5-a1-m1-cB_2wo5-a1-m1-cC 2wo5-a1-m1-cD_2wo5-a1-m1-cA 2wpb-a1-m1-cB_2wpb-a1-m1-cC 2wpb-a1-m1-cD_2wpb-a1-m1-cA 2xfw-a1-m1-cA_2xfw-a1-m1-cD 2xfw-a1-m1-cB_2xfw-a1-m1-cC 2ygy-a1-m1-cB_2ygy-a1-m1-cC 3lbc-a1-m1-cA_3lbc-a1-m1-cD 3lbc-a1-m1-cC_3lbc-a1-m1-cB 3lbm-a1-m1-cA_3lbm-a1-m1-cD 3lbm-a1-m1-cC_3lbm-a1-m1-cB 3lcf-a1-m1-cA_3lcf-a1-m1-cD 3lcf-a1-m1-cC_3lcf-a1-m1-cB 3lcg-a1-m1-cA_3lcg-a1-m1-cD 3lcg-a1-m1-cC_3lcg-a1-m1-cB 3lch-a1-m1-cA_3lch-a1-m1-cD 3lch-a1-m1-cC_3lch-a1-m1-cB 3lci-a1-m1-cA_3lci-a1-m1-cD 3lci-a1-m1-cC_3lci-a1-m1-cB 3lcl-a1-m1-cA_3lcl-a1-m1-cD 3lcl-a1-m1-cC_3lcl-a1-m1-cB 3lcw-a1-m1-cA_3lcw-a1-m1-cD 3lcw-a1-m1-cB_3lcw-a1-m1-cC 3lcx-a1-m1-cA_3lcx-a1-m1-cD 3lcx-a1-m1-cB_3lcx-a1-m1-cC 4bwl-a1-m1-cB_4bwl-a1-m1-cC 4bwl-a1-m1-cD_4bwl-a1-m1-cA 4uui-a1-m1-cB_4uui-a1-m1-cC 4uui-a1-m1-cD_4uui-a1-m1-cA HHHATNLRGVMAALLTPFDQQQALDKASLRRLVQFNIQQGIDGLYVGGSTGEAFVQSLSEREQVLEIVAEEAKGKIKLIAHVGCVSTAESQQLAASAKRYGFDAVSAVTPFYYPFSFEEHCDHYRAIIDSADGLPMVVYNIPALSGVKLTLDQINTLVTLPGVGALKQTSGDLYQMEQIRREHPDLVLYNGYDEIFASGLLAGADGGIGSTYNIMGWRYQGIVKALKEGDIQTAQKLQTECNKVIDLLIKTGVFRGLKTVLHYMDVVSVPLCRKPFGPVDEKYLPELKALAQQLMQERG HHHATNLRGVMAALLTPFDQQQALDKASLRRLVQFNIQQGIDGLYVGGSTGEAFVQSLSEREQVLEIVAEEAKGKIKLIAHVGCVSTAESQQLAASAKRYGFDAVSAVTPFYYPFSFEEHCDHYRAIIDSADGLPMVVYNIPALSGVKLTLDQINTLVTLPGVGALKQTSGDLYQMEQIRREHPDLVLYNGYDEIFASGLLAGADGGIGSTYNIMGWRYQGIVKALKEGDIQTAQKLQTECNKVIDLLIKTGVFRGLKTVLHYMDVVSVPLCRKPFGPVDEKYLPELKALAQQLMQERG 2yh6-a2-m1-cB_2yh6-a2-m1-cA Structure of the N-terminal domain of BamC from E. coli P0A903 P0A903 1.55 X-RAY DIFFRACTION 88 0.981 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 107 108 2yh6-a1-m1-cC_2yh6-a1-m1-cD GDTASLLVENGNTLWPQVVSVLQAKNYTITQRDDAGQTLTTDWVQWNRLEQYRGRYQISVKPQGYQQAVTVKLLNLEQAGKPVADAASMQRYSTEMMNVISAGLDKS GDTASLLVENNTLWPQVVSVLQAKNYTITQRDDAGQTLTTDWVQWNRLDEDEQYRGRYQISVKPQGYQQAVTVKLLNLEQAGKPVADAASMQRYSTEMMNVISAGLDK 2yh9-a1-m2-cA_2yh9-a1-m2-cB Crystal structure of the dimeric BamE from E. coli P0A937 P0A937 1.8 X-RAY DIFFRACTION 11 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 64 66 2yh9-a1-m1-cA_2yh9-a1-m1-cB VSKIRVGTQQQVAYALGTPLSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKP VSKIRVGTQQQVAYALGTPLSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKPAL 2yh9-a1-m2-cA_2yh9-a1-m2-cC Crystal structure of the dimeric BamE from E. coli P0A937 P0A937 1.8 X-RAY DIFFRACTION 110 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 64 65 2yh9-a1-m1-cA_2yh9-a1-m1-cC 2yh9-a1-m1-cB_2yh9-a1-m2-cB VSKIRVGTQQQVAYALGTPLSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKP VSKIRVGTQQQVAYALGTPLSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKPA 2yh9-a1-m2-cC_2yh9-a1-m2-cB Crystal structure of the dimeric BamE from E. coli P0A937 P0A937 1.8 X-RAY DIFFRACTION 68 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 65 66 2yh9-a1-m1-cA_2yh9-a1-m2-cA 2yh9-a1-m1-cC_2yh9-a1-m1-cB VSKIRVGTQQQVAYALGTPLSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKPA VSKIRVGTQQQVAYALGTPLSDPFGTNTWFYVFRQQPGHEGVTQQTLTLTFNSSGVLTNIDNKPAL 2yhe-a3-m1-cC_2yhe-a3-m1-cE Structure determination of the stereoselective inverting sec- alkylsulfatase Pisa1 from Pseudomonas sp. F8KAY7 F8KAY7 2.7 X-RAY DIFFRACTION 326 1.0 1007495 (Pseudomonas sp. DSM 6611) 1007495 (Pseudomonas sp. DSM 6611) 634 634 2yhe-a1-m1-cD_2yhe-a1-m1-cA 2yhe-a2-m1-cB_2yhe-a2-m1-cF 4av7-a1-m1-cA_4av7-a1-m1-cD 4av7-a2-m1-cC_4av7-a2-m1-cB 4av7-a3-m1-cE_4av7-a3-m1-cF 4axh-a1-m1-cA_4axh-a1-m1-cB ESLDSKPASAITAAKNAEVLKNLPFADREEFEAAKRGLIAPFSGQIKNAEGQVVWDMGAYQFLNDKDAADTVNPSLWRQAQLNNIAGLFEVMPKLYQVRGLDPANMTIIEGDSGLVLIDTLTTAETARAALDLYFQHRPKKPIVAVVYSHSHIDHFGGARGIIDEADVKAGKVKVFAPSGFMEHAVSENILAGTAMARRGQYQSGVMVPRGAQAQVDSGLFKTTATNATNTLVAPNVLIEKPYERHTVDGVELEFQLTLGSEAPSDMNIYLPQFKVLNTADNAPPAMHNLLTPRGAEVRDAKAWAGYIDASLEKYGDRTDVLIQQHNWPVWGGDKVRTYLADQRDMYAFLNNRALNLMNKGLTLHEIAAEVSKLPGELDRKWYLRSYYGALSTNLRAVYQRYLGFYDGNPANLDPFPPVEAGKRYVEAMGGADAVLKQMRAAIDKGDYRWAVQLGNHLVFADPANKDARALQADAMEQLGYQTENALWRNMYMTGAMELRHGVPTYDSRGKSEMGRALTPDMFFDLLAIRLDTDKAVGHDMTLNWVFEDLKQDIALTLRNGVLTQRVGSLNPKADVTVKLTKPTLDQIAARKLDLPTAIKQGTVKLDGDGKKLGEFFGLLDSFSPKFNIVELEH ESLDSKPASAITAAKNAEVLKNLPFADREEFEAAKRGLIAPFSGQIKNAEGQVVWDMGAYQFLNDKDAADTVNPSLWRQAQLNNIAGLFEVMPKLYQVRGLDPANMTIIEGDSGLVLIDTLTTAETARAALDLYFQHRPKKPIVAVVYSHSHIDHFGGARGIIDEADVKAGKVKVFAPSGFMEHAVSENILAGTAMARRGQYQSGVMVPRGAQAQVDSGLFKTTATNATNTLVAPNVLIEKPYERHTVDGVELEFQLTLGSEAPSDMNIYLPQFKVLNTADNAPPAMHNLLTPRGAEVRDAKAWAGYIDASLEKYGDRTDVLIQQHNWPVWGGDKVRTYLADQRDMYAFLNNRALNLMNKGLTLHEIAAEVSKLPGELDRKWYLRSYYGALSTNLRAVYQRYLGFYDGNPANLDPFPPVEAGKRYVEAMGGADAVLKQMRAAIDKGDYRWAVQLGNHLVFADPANKDARALQADAMEQLGYQTENALWRNMYMTGAMELRHGVPTYDSRGKSEMGRALTPDMFFDLLAIRLDTDKAVGHDMTLNWVFEDLKQDIALTLRNGVLTQRVGSLNPKADVTVKLTKPTLDQIAARKLDLPTAIKQGTVKLDGDGKKLGEFFGLLDSFSPKFNIVELEH 2yhn-a1-m1-cA_2yhn-a1-m1-cB The IDOL-UBE2D complex mediates sterol-dependent degradation of the LDL receptor Q8WY64 Q8WY64 3 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 VLQEKLRKLKEAMLCMVCCEEEINSTFCPCGHTVCCESCAAQLQSCPVCRSRVEHVQHVYLPTH VLQEKLRKLKEAMLCMVCCEEEINSTFCPCGHTVCCESCAAQLQSCPVCRSRVEHVQHVYLPTH 2yhw-a1-m1-cA_2yhw-a1-m2-cA High-resolution crystal structures of N-Acetylmannosamine kinase: Insights about substrate specificity, activity and inhibitor modelling. Q9Y223 Q9Y223 1.64 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 308 2yhy-a1-m1-cA_2yhy-a1-m2-cA 2yi1-a1-m1-cA_2yi1-a1-m2-cA 3eo3-a1-m2-cB_3eo3-a1-m1-cA 3eo3-a2-m1-cC_3eo3-a2-m2-cC GTLSALAVDLGGTNLRVAIVSMKGEIVKKYTQFNPKTYEERINLILQMCVEAAAEAVKLNCRILGVGISTGGRVNPREGIVLHSTKLIQEWNSVDLRTPLSDTLHLPVWVDNDGNCAALAERKFGQGKGLENFVTLITGTGIGGGIIHQHELIHGSSFCAAELGHLVVSLGPDCSCGSHGCIEAYASGMALQREAKKLHDEDLLLVEGMSVAVGALHLIQAAKLGNAKAQSILRTAGTALGLGVVNILHTMNPSLVILSGVLASHYIHIVKDVIRQQALSSVQDVDVVVSDLVDPALLGAASMVLDYT GTLSALAVDLGGTNLRVAIVSMKGEIVKKYTQFNPKTYEERINLILQMCVEAAAEAVKLNCRILGVGISTGGRVNPREGIVLHSTKLIQEWNSVDLRTPLSDTLHLPVWVDNDGNCAALAERKFGQGKGLENFVTLITGTGIGGGIIHQHELIHGSSFCAAELGHLVVSLGPDCSCGSHGCIEAYASGMALQREAKKLHDEDLLLVEGMSVAVGALHLIQAAKLGNAKAQSILRTAGTALGLGVVNILHTMNPSLVILSGVLASHYIHIVKDVIRQQALSSVQDVDVVVSDLVDPALLGAASMVLDYT 2yii-a1-m1-cA_2yii-a1-m1-cD Manipulating the regioselectivity of phenylalanine aminomutase: new insights into the reaction mechanism of MIO-dependent enzymes from structure-guided directed evolution Q68G84 Q68G84 2.18 X-RAY DIFFRACTION 56 0.998 29808 (Taxus chinensis) 29808 (Taxus chinensis) 643 644 2yii-a1-m1-cC_2yii-a1-m1-cB 3nz4-a2-m1-cA_3nz4-a2-m2-cB 3nz4-a2-m2-cA_3nz4-a2-m1-cB 4baa-a1-m1-cA_4baa-a1-m1-cD 4baa-a1-m1-cC_4baa-a1-m1-cB 4bab-a1-m1-cA_4bab-a1-m1-cD 4bab-a1-m1-cC_4bab-a1-m1-cB 4c5r-a1-m1-cA_4c5r-a1-m1-cD 4c5r-a1-m1-cB_4c5r-a1-m1-cC 4c5s-a1-m1-cA_4c5s-a1-m1-cD 4c5s-a1-m1-cB_4c5s-a1-m1-cC 4c5u-a1-m1-cB_4c5u-a1-m1-cC 4c5u-a1-m1-cD_4c5u-a1-m1-cA 4c6g-a1-m1-cA_4c6g-a1-m1-cD 4c6g-a1-m1-cC_4c6g-a1-m1-cB 4cq5-a1-m1-cA_4cq5-a1-m1-cD 4cq5-a1-m1-cB_4cq5-a1-m1-cC 4v2q-a1-m1-cA_4v2q-a1-m2-cB 4v2q-a1-m2-cA_4v2q-a1-m1-cB 4v2r-a1-m1-cA_4v2r-a1-m2-cB 4v2r-a1-m2-cA_4v2r-a1-m1-cB SHVKDILGLINAFNEVKKITVDGTTPITVAHVAALARRHDVKVALEAEQCRARVETCSSWVQRKAEDGADIYGVTTGFGACSSRRTNRLSELQESLIRCLLAGVFTKVDELPATATRSAMLLRLNSFTYGCSGIRWEVMEALEKLLNSNVSPKVPLRGSVSDLIPLAYIAGLLIGKPSVIARIGDDVEVPAPEALSRVGLRPFKLQAKEGLALVNGTSFATAVASTVMYDANVLLLLVETLCGMFCEVIFGREEFAHPLIHKVKPHPGQIESAELLEWLLRSSPFQELSREYYSIDKLKKPKQDRYALRSSPQWLAPLVQTIRDATTTVETEVNSANDNPIIDHANDRALHGANFQGSAVGFYMDYVRIAVAGLGKLLFAQFTELMIEYYSNGLPGNLSLGPDLSVDYGLKGLDIAMAAYSSELQYLANPVTTHVHSAEQHNQDINSLALISARKTEEALDILKLMIASHLTAMCQAVDLRQLEEALVKVVENVVSTLADECGLPNDTKARLLYVAKAVPVYTYLESPCDPTLPLLLGLKQSCFDTILALHKDTLVDRLAEFEKRLSDRLENEMTAVRVLYEKVRIQGSKFLPFYRFVREELDTGVMSARREQTPQEDVQKVFDAIADGRITVPLLHCLQGFL SHVKDILGLINAFNEVKKITVDGTTPITVAHVAALARRHDVKVALEAEQCRARVETCSSWVQRKAEDGADIYGVTTGFGACSSRRTNRLSELQESLIRCLLAGVFTKVDELPATATRSAMLLRLNSFTYGCSGIRWEVMEALEKLLNSNVSPKVPLRGSVSDLIPLAYIAGLLIGKPSVIARIGDDVEVPAPEALSRVGLRPFKLQAKEGLALVNGTSFATAVASTVMYDANVLLLLVETLCGMFCEVIFGREEFAHPLIHKVKPHPGQIESAELLEWLLRSSPFQELSREYYSIDKLKKPKQDRYALRSSPQWLAPLVQTIRDATTTVETEVNSANDNPIIDHANDRALHGANFQGSAVGFYMDYVRIAVAGLGKLLFAQFTELMIEYYSNGLPGNLSLGPDLSVDYGLKGLDIAMAAYSSELQYLANPVTTHVHSAEQHNQDINSLALISARKTEEALDILKLMIASHLTAMCQAVDLRQLEEALVKVVENVVSTLADECGLPNDTKARLLYVAKAVPVYTYLESPCDPTLPLLLGLKQSCFDTILALHETDTLVDRLAEFEKRLSDRLENEMTAVRVLYEKVRIQGSKFLPFYRFVREELDTGVMSARREQTPQEDVQKVFDAIADGRITVPLLHCLQGFL 2yii-a1-m1-cD_2yii-a1-m1-cB Manipulating the regioselectivity of phenylalanine aminomutase: new insights into the reaction mechanism of MIO-dependent enzymes from structure-guided directed evolution Q68G84 Q68G84 2.18 X-RAY DIFFRACTION 280 0.998 29808 (Taxus chinensis) 29808 (Taxus chinensis) 644 649 2yii-a1-m1-cA_2yii-a1-m1-cC 3nz4-a2-m1-cA_3nz4-a2-m2-cA 3nz4-a2-m1-cB_3nz4-a2-m2-cB 4baa-a1-m1-cC_4baa-a1-m1-cA 4baa-a1-m1-cD_4baa-a1-m1-cB 4bab-a1-m1-cA_4bab-a1-m1-cC 4bab-a1-m1-cD_4bab-a1-m1-cB 4c5r-a1-m1-cA_4c5r-a1-m1-cC 4c5r-a1-m1-cD_4c5r-a1-m1-cB 4c5s-a1-m1-cA_4c5s-a1-m1-cC 4c5s-a1-m1-cB_4c5s-a1-m1-cD 4c5u-a1-m1-cB_4c5u-a1-m1-cA 4c5u-a1-m1-cD_4c5u-a1-m1-cC 4c6g-a1-m1-cA_4c6g-a1-m1-cC 4c6g-a1-m1-cB_4c6g-a1-m1-cD 4cq5-a1-m1-cA_4cq5-a1-m1-cC 4cq5-a1-m1-cB_4cq5-a1-m1-cD 4v2q-a1-m1-cA_4v2q-a1-m2-cA 4v2q-a1-m1-cB_4v2q-a1-m2-cB 4v2r-a1-m1-cA_4v2r-a1-m2-cA 4v2r-a1-m1-cB_4v2r-a1-m2-cB SHVKDILGLINAFNEVKKITVDGTTPITVAHVAALARRHDVKVALEAEQCRARVETCSSWVQRKAEDGADIYGVTTGFGACSSRRTNRLSELQESLIRCLLAGVFTKVDELPATATRSAMLLRLNSFTYGCSGIRWEVMEALEKLLNSNVSPKVPLRGSVSDLIPLAYIAGLLIGKPSVIARIGDDVEVPAPEALSRVGLRPFKLQAKEGLALVNGTSFATAVASTVMYDANVLLLLVETLCGMFCEVIFGREEFAHPLIHKVKPHPGQIESAELLEWLLRSSPFQELSREYYSIDKLKKPKQDRYALRSSPQWLAPLVQTIRDATTTVETEVNSANDNPIIDHANDRALHGANFQGSAVGFYMDYVRIAVAGLGKLLFAQFTELMIEYYSNGLPGNLSLGPDLSVDYGLKGLDIAMAAYSSELQYLANPVTTHVHSAEQHNQDINSLALISARKTEEALDILKLMIASHLTAMCQAVDLRQLEEALVKVVENVVSTLADECGLPNDTKARLLYVAKAVPVYTYLESPCDPTLPLLLGLKQSCFDTILALHETDTLVDRLAEFEKRLSDRLENEMTAVRVLYEKVRIQGSKFLPFYRFVREELDTGVMSARREQTPQEDVQKVFDAIADGRITVPLLHCLQGFL RSHVKDILGLINAFNEVKKITVDGTTPITVAHVAALARRHDVKVALEAEQCRARVETCSSWVQRKAEDGADIYGVTTGFGACSSRRTNRLSELQESLIRCLLAGVFTVDELPATATRSAMLLRLNSFTYGCSGIRWEVMEALEKLLNSNVSPKVPLRGSVSDLIPLAYIAGLLIGKPSVIARIGDDVEVPAPEALSRVGLRPFKLQAKEGLALVNGTSFATAVASTVMYDANVLLLLVETLCGMFCEVIFGREEFAHPLIHKVKPHPGQIESAELLEWLLRSSPFQELSREYYSIDKLKKPKQDRYALRSSPQWLAPLVQTIRDATTTVETEVNSANDNPIIDHANDRALHGANFQGSAVGFYMDYVRIAVAGLGKLLFAQFTELMIEYYSNGLPGNLSLGPDLSVDYGLKGLDIAMAAYSSELQYLANPVTTHVHSAEQHNQDINSLALISARKTEEALDILKLMIASHLTAMCQAVDLRQLEEALVKVVENVVSTLADECGLPNDTKARLLYVAKAVPVYTYLESPCDPTLPLLLGLKQSCFDTILALHKDGIETDTLVDRLAEFEKRLSDRLENEMTAVRVLYEKKVRIQGSKFLPFYRFVREELDTGVMSARREQTPQEDVQKVFDAIADGRITVPLLHCLQGFL 2yim-a2-m1-cC_2yim-a2-m1-cD The enolisation chemistry of a thioester-dependent racemase: the 1.4 A crystal structure of a complex with a planar reaction intermediate analogue O06543 O06543 1.41 X-RAY DIFFRACTION 508 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 355 355 1x74-a1-m1-cA_1x74-a1-m1-cB 1x74-a2-m1-cC_1x74-a2-m1-cD 2gce-a1-m1-cA_2gce-a1-m1-cB 2gce-a2-m1-cC_2gce-a2-m1-cD 2gci-a1-m1-cA_2gci-a1-m1-cB 2gci-a2-m1-cC_2gci-a2-m1-cD 2gd0-a1-m1-cA_2gd0-a1-m1-cB 2gd0-a2-m1-cC_2gd0-a2-m1-cD 2gd2-a1-m1-cA_2gd2-a1-m1-cB 2gd2-a2-m1-cC_2gd2-a2-m1-cD 2gd6-a1-m1-cA_2gd6-a1-m1-cB 2gd6-a2-m1-cC_2gd6-a2-m1-cD 2yim-a1-m1-cA_2yim-a1-m1-cB AGPLSGLRVVELAGIGPGPHAAMILGDLGADVVRIDRPSISRDAMLRNRRIVTADLKSDQGLELALKLIAKADVLIEGYRPGVTERLGLGPEECAKVNDRLIYARMTGWGQTGPRSQQAGHDINYISLNGILHAIGRGDERPVPPLNLVGDFGGGSMFLLVGILAALWERQSSGKGQVVDAAMVDGSSVLIQMMWAMRATGMWTDTRGANMLDGGAPYYDTYECADGRYVAVGAIEPQFYAAMLAGLGLDAAELPPQNDRARWPELRALLTEAFASHDRDHWGAVFANSDACVTPVLAFGEVHNEPHIIERNTFYEANGGWQPMPAPRFSRTASSQPRPPAATIDIEAVLTDWDG AGPLSGLRVVELAGIGPGPHAAMILGDLGADVVRIDRPSISRDAMLRNRRIVTADLKSDQGLELALKLIAKADVLIEGYRPGVTERLGLGPEECAKVNDRLIYARMTGWGQTGPRSQQAGHDINYISLNGILHAIGRGDERPVPPLNLVGDFGGGSMFLLVGILAALWERQSSGKGQVVDAAMVDGSSVLIQMMWAMRATGMWTDTRGANMLDGGAPYYDTYECADGRYVAVGAIEPQFYAAMLAGLGLDAAELPPQNDRARWPELRALLTEAFASHDRDHWGAVFANSDACVTPVLAFGEVHNEPHIIERNTFYEANGGWQPMPAPRFSRTASSQPRPPAATIDIEAVLTDWDG 2yio-a2-m1-cB_2yio-a2-m3-cB Crystal Structure of Parasite Sarcocystis muris Microneme Protein SML- 2 in complex with 1-Thio-beta-D-Galactose (SPACEGROUP C2221) P81860 P81860 2.43 X-RAY DIFFRACTION 180 1.0 5813 (Sarcocystis muris) 5813 (Sarcocystis muris) 131 131 2yil-a1-m1-cB_2yil-a1-m1-cA 2yil-a2-m1-cD_2yil-a2-m1-cC 2yil-a3-m1-cF_2yil-a3-m1-cE 2yio-a1-m1-cA_2yio-a1-m2-cA 2yip-a1-m1-cA_2yip-a1-m1-cB 2yip-a2-m1-cD_2yip-a2-m1-cC 2yip-a3-m1-cE_2yip-a3-m1-cF QLDVSCFAHDKNIGSRTEQLSVVHVASAQDCMKECQALPTCSHFTYNKNSKKCHLKAGAPEFYTYTGDMTGPRSCEHNCSDACWMDGNNPLAVWDYSGQPPALCWAACMGTPGCDLYTFQGMTCKLYSQTS QLDVSCFAHDKNIGSRTEQLSVVHVASAQDCMKECQALPTCSHFTYNKNSKKCHLKAGAPEFYTYTGDMTGPRSCEHNCSDACWMDGNNPLAVWDYSGQPPALCWAACMGTPGCDLYTFQGMTCKLYSQTS 2yiq-a1-m1-cA_2yiq-a1-m2-cA Structural analysis of checkpoint kinase 2 in complex with inhibitor PV1322 O96017 O96017 1.89 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 280 280 2cn5-a1-m1-cA_2cn5-a1-m2-cA 2cn8-a1-m1-cA_2cn8-a1-m2-cA 2w7x-a1-m1-cA_2w7x-a1-m2-cA 2xbj-a1-m1-cA_2xbj-a1-m2-cA 2xk9-a1-m1-cA_2xk9-a1-m2-cA 2xm9-a1-m1-cA_2xm9-a1-m2-cA 2ycf-a1-m1-cA_2ycf-a1-m2-cA 2ycq-a1-m1-cA_2ycq-a1-m2-cA 2ycr-a1-m1-cA_2ycr-a1-m2-cA 2ycs-a1-m1-cA_2ycs-a1-m2-cA 2yir-a1-m1-cA_2yir-a1-m2-cA 2yit-a1-m1-cA_2yit-a1-m2-cA 4a9r-a1-m1-cA_4a9r-a1-m2-cA 4a9s-a1-m1-cA_4a9s-a1-m2-cA 4a9t-a1-m1-cA_4a9t-a1-m2-cA 4a9u-a1-m1-cA_4a9u-a1-m2-cA 4bdd-a1-m1-cA_4bdd-a1-m2-cA 4bdf-a1-m1-cA_4bdf-a1-m2-cA 4bdg-a1-m1-cA_4bdg-a1-m2-cA 4bdh-a1-m1-cA_4bdh-a1-m2-cA 4bdi-a1-m1-cA_4bdi-a1-m2-cA 4bdj-a1-m1-cA_4bdj-a1-m2-cA 4bdk-a1-m1-cA_4bdk-a1-m2-cA VYPKALRDEYIMSKTLGGEVKLAFERKTCKKVAIKIISKVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILGETSLMRTLCGTPTYLAPEVLVSVGTAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSEENESTALPQ VYPKALRDEYIMSKTLGGEVKLAFERKTCKKVAIKIISKVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILGETSLMRTLCGTPTYLAPEVLVSVGTAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSEENESTALPQ 2yiu-a1-m1-cA_2yiu-a1-m1-cD X-ray structure of the dimeric cytochrome BC1 complex from the soil bacterium paracoccus denitrificans at 2.7 angstrom resolution P05418 P05418 2.7 X-RAY DIFFRACTION 80 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 428 428 GIPHDHYEPKTGFERWLHRRLPIVSLVYDTLMIPTPKNLNWWWIWGIVLAFCLVLQIATGIVLVMHYTPHVDLAFASVEHIMRDVNGGYMLRYLHANGASLFFLAVYIHIFRGLYYGSYKAPREVTWIVGMLIYLMMMGTAFMGYVLPWGQMSFWGATVITGLFGAIPGVGEAIQTWLLGGPAVDNPTLNRFFSLHYLLPFVIAALVVVHIWAFHTTGNNNPTGVEVRRGSKEEAKKDTLPFWPYFVIKDLFALAVVLVVFFAIVGFMPNYLGHPDNYIEANPLVTPAHIVPEWYFLPFYAILRAFTADVWVVMLVNWLSFGIIDAKFFGVIAMFGAILVMALVPWLDTSRVRSGQYRPLFKWWFWLLAVDFVVLMWVGAMPAEGIYPYIALAGSAYWFAYFLIILPLLGIIEKPDAMPQTIEEDFNA GIPHDHYEPKTGFERWLHRRLPIVSLVYDTLMIPTPKNLNWWWIWGIVLAFCLVLQIATGIVLVMHYTPHVDLAFASVEHIMRDVNGGYMLRYLHANGASLFFLAVYIHIFRGLYYGSYKAPREVTWIVGMLIYLMMMGTAFMGYVLPWGQMSFWGATVITGLFGAIPGVGEAIQTWLLGGPAVDNPTLNRFFSLHYLLPFVIAALVVVHIWAFHTTGNNNPTGVEVRRGSKEEAKKDTLPFWPYFVIKDLFALAVVLVVFFAIVGFMPNYLGHPDNYIEANPLVTPAHIVPEWYFLPFYAILRAFTADVWVVMLVNWLSFGIIDAKFFGVIAMFGAILVMALVPWLDTSRVRSGQYRPLFKWWFWLLAVDFVVLMWVGAMPAEGIYPYIALAGSAYWFAYFLIILPLLGIIEKPDAMPQTIEEDFNA 2yiz-a1-m2-cC_2yiz-a1-m3-cD X-ray structure of Mycobacterium tuberculosis Dodecin Q8VK10 Q8VK10 1.7 X-RAY DIFFRACTION 34 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 68 68 2yiz-a1-m1-cA_2yiz-a1-m1-cC 2yiz-a1-m1-cA_2yiz-a1-m2-cD 2yiz-a1-m1-cB_2yiz-a1-m2-cB 2yiz-a1-m1-cB_2yiz-a1-m3-cB 2yiz-a1-m1-cC_2yiz-a1-m2-cD 2yiz-a1-m1-cD_2yiz-a1-m3-cA 2yiz-a1-m1-cD_2yiz-a1-m3-cC 2yiz-a1-m2-cA_2yiz-a1-m2-cC 2yiz-a1-m2-cA_2yiz-a1-m3-cD 2yiz-a1-m2-cB_2yiz-a1-m3-cB 2yiz-a1-m3-cA_2yiz-a1-m3-cC 2yj0-a1-m1-cA_2yj0-a1-m2-cD 2yj0-a1-m1-cA_2yj0-a1-m2-cF 2yj0-a1-m1-cB_2yj0-a1-m1-cC 2yj0-a1-m1-cB_2yj0-a1-m1-cE 2yj0-a1-m1-cC_2yj0-a1-m1-cE 2yj0-a1-m1-cD_2yj0-a1-m1-cF 2yj0-a1-m1-cD_2yj0-a1-m2-cA 2yj0-a1-m1-cF_2yj0-a1-m2-cA 2yj0-a1-m2-cB_2yj0-a1-m2-cC 2yj0-a1-m2-cB_2yj0-a1-m2-cE 2yj0-a1-m2-cC_2yj0-a1-m2-cE 2yj0-a1-m2-cD_2yj0-a1-m2-cF 3oqt-a1-m1-cA_3oqt-a1-m2-cA 3oqt-a1-m1-cA_3oqt-a1-m3-cA 3oqt-a1-m1-cB_3oqt-a1-m2-cC 3oqt-a1-m1-cB_3oqt-a1-m3-cD 3oqt-a1-m1-cC_3oqt-a1-m2-cD 3oqt-a1-m1-cC_3oqt-a1-m3-cB 3oqt-a1-m1-cD_3oqt-a1-m2-cB 3oqt-a1-m1-cD_3oqt-a1-m3-cC 3oqt-a1-m2-cA_3oqt-a1-m3-cA 3oqt-a1-m2-cB_3oqt-a1-m3-cC 3oqt-a1-m2-cC_3oqt-a1-m3-cD 3oqt-a1-m2-cD_3oqt-a1-m3-cB 3oqt-a2-m1-cE_3oqt-a2-m2-cE 3oqt-a2-m1-cE_3oqt-a2-m3-cE 3oqt-a2-m1-cF_3oqt-a2-m2-cH 3oqt-a2-m1-cF_3oqt-a2-m3-cG 3oqt-a2-m1-cG_3oqt-a2-m2-cF 3oqt-a2-m1-cG_3oqt-a2-m3-cH 3oqt-a2-m1-cH_3oqt-a2-m2-cG 3oqt-a2-m1-cH_3oqt-a2-m3-cF 3oqt-a2-m2-cE_3oqt-a2-m3-cE 3oqt-a2-m2-cF_3oqt-a2-m3-cH 3oqt-a2-m2-cG_3oqt-a2-m3-cF 3oqt-a2-m2-cH_3oqt-a2-m3-cG 3oqt-a3-m1-cI_3oqt-a3-m4-cJ 3oqt-a3-m1-cI_3oqt-a3-m5-cL 3oqt-a3-m1-cJ_3oqt-a3-m4-cL 3oqt-a3-m1-cJ_3oqt-a3-m5-cI 3oqt-a3-m1-cK_3oqt-a3-m4-cK 3oqt-a3-m1-cK_3oqt-a3-m5-cK 3oqt-a3-m1-cL_3oqt-a3-m4-cI 3oqt-a3-m1-cL_3oqt-a3-m5-cJ 3oqt-a3-m4-cI_3oqt-a3-m5-cJ 3oqt-a3-m4-cJ_3oqt-a3-m5-cL 3oqt-a3-m4-cK_3oqt-a3-m5-cK 3oqt-a3-m4-cL_3oqt-a3-m5-cI 3oqt-a4-m1-cM_3oqt-a4-m4-cN 3oqt-a4-m1-cM_3oqt-a4-m5-cP 3oqt-a4-m1-cN_3oqt-a4-m4-cP 3oqt-a4-m1-cN_3oqt-a4-m5-cM 3oqt-a4-m1-cO_3oqt-a4-m4-cO 3oqt-a4-m1-cO_3oqt-a4-m5-cO 3oqt-a4-m1-cP_3oqt-a4-m4-cM 3oqt-a4-m1-cP_3oqt-a4-m5-cN 3oqt-a4-m4-cM_3oqt-a4-m5-cN 3oqt-a4-m4-cN_3oqt-a4-m5-cP 3oqt-a4-m4-cO_3oqt-a4-m5-cO 3oqt-a4-m4-cP_3oqt-a4-m5-cM SNHTYRVIEIVGTSPDGVDAAIQGGLARAAQTMRALDWFEVQSIRGHLVDGAVAHFQVTMKVGFRLED SNHTYRVIEIVGTSPDGVDAAIQGGLARAAQTMRALDWFEVQSIRGHLVDGAVAHFQVTMKVGFRLED 2yiz-a1-m3-cB_2yiz-a1-m3-cD X-ray structure of Mycobacterium tuberculosis Dodecin Q8VK10 Q8VK10 1.7 X-RAY DIFFRACTION 36 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 68 68 2yiz-a1-m1-cA_2yiz-a1-m1-cB 2yiz-a1-m1-cA_2yiz-a1-m1-cD 2yiz-a1-m1-cB_2yiz-a1-m1-cD 2yiz-a1-m1-cC_2yiz-a1-m2-cC 2yiz-a1-m1-cC_2yiz-a1-m3-cC 2yiz-a1-m2-cA_2yiz-a1-m2-cB 2yiz-a1-m2-cA_2yiz-a1-m2-cD 2yiz-a1-m2-cB_2yiz-a1-m2-cD 2yiz-a1-m2-cC_2yiz-a1-m3-cC 2yiz-a1-m3-cA_2yiz-a1-m3-cB 2yiz-a1-m3-cA_2yiz-a1-m3-cD 2yj0-a1-m1-cA_2yj0-a1-m1-cD 2yj0-a1-m1-cB_2yj0-a1-m1-cA 2yj0-a1-m1-cB_2yj0-a1-m1-cD 2yj0-a1-m1-cC_2yj0-a1-m2-cE 2yj0-a1-m1-cC_2yj0-a1-m2-cF 2yj0-a1-m1-cE_2yj0-a1-m1-cF 2yj0-a1-m1-cE_2yj0-a1-m2-cC 2yj0-a1-m1-cF_2yj0-a1-m2-cC 2yj0-a1-m2-cA_2yj0-a1-m2-cD 2yj0-a1-m2-cB_2yj0-a1-m2-cA 2yj0-a1-m2-cB_2yj0-a1-m2-cD 2yj0-a1-m2-cE_2yj0-a1-m2-cF 3oqt-a1-m1-cA_3oqt-a1-m2-cC 3oqt-a1-m1-cA_3oqt-a1-m3-cB 3oqt-a1-m1-cB_3oqt-a1-m2-cA 3oqt-a1-m1-cB_3oqt-a1-m3-cC 3oqt-a1-m1-cC_3oqt-a1-m2-cB 3oqt-a1-m1-cC_3oqt-a1-m3-cA 3oqt-a1-m1-cD_3oqt-a1-m2-cD 3oqt-a1-m1-cD_3oqt-a1-m3-cD 3oqt-a1-m2-cA_3oqt-a1-m3-cC 3oqt-a1-m2-cB_3oqt-a1-m3-cA 3oqt-a1-m2-cC_3oqt-a1-m3-cB 3oqt-a1-m2-cD_3oqt-a1-m3-cD 3oqt-a2-m1-cE_3oqt-a2-m2-cH 3oqt-a2-m1-cE_3oqt-a2-m3-cF 3oqt-a2-m1-cF_3oqt-a2-m2-cE 3oqt-a2-m1-cF_3oqt-a2-m3-cH 3oqt-a2-m1-cG_3oqt-a2-m2-cG 3oqt-a2-m1-cG_3oqt-a2-m3-cG 3oqt-a2-m1-cH_3oqt-a2-m2-cF 3oqt-a2-m1-cH_3oqt-a2-m3-cE 3oqt-a2-m2-cE_3oqt-a2-m3-cH 3oqt-a2-m2-cF_3oqt-a2-m3-cE 3oqt-a2-m2-cG_3oqt-a2-m3-cG 3oqt-a2-m2-cH_3oqt-a2-m3-cF 3oqt-a3-m1-cI_3oqt-a3-m4-cI 3oqt-a3-m1-cI_3oqt-a3-m5-cI 3oqt-a3-m1-cJ_3oqt-a3-m4-cK 3oqt-a3-m1-cJ_3oqt-a3-m5-cL 3oqt-a3-m1-cK_3oqt-a3-m4-cL 3oqt-a3-m1-cK_3oqt-a3-m5-cJ 3oqt-a3-m1-cL_3oqt-a3-m4-cJ 3oqt-a3-m1-cL_3oqt-a3-m5-cK 3oqt-a3-m4-cI_3oqt-a3-m5-cI 3oqt-a3-m4-cJ_3oqt-a3-m5-cK 3oqt-a3-m4-cK_3oqt-a3-m5-cL 3oqt-a3-m4-cL_3oqt-a3-m5-cJ 3oqt-a4-m1-cM_3oqt-a4-m4-cM 3oqt-a4-m1-cM_3oqt-a4-m5-cM 3oqt-a4-m1-cN_3oqt-a4-m4-cO 3oqt-a4-m1-cN_3oqt-a4-m5-cP 3oqt-a4-m1-cO_3oqt-a4-m4-cP 3oqt-a4-m1-cO_3oqt-a4-m5-cN 3oqt-a4-m1-cP_3oqt-a4-m4-cN 3oqt-a4-m1-cP_3oqt-a4-m5-cO 3oqt-a4-m4-cM_3oqt-a4-m5-cM 3oqt-a4-m4-cN_3oqt-a4-m5-cO 3oqt-a4-m4-cO_3oqt-a4-m5-cP 3oqt-a4-m4-cP_3oqt-a4-m5-cN SNHTYRVIEIVGTSPDGVDAAIQGGLARAAQTMRALDWFEVQSIRGHLVDGAVAHFQVTMKVGFRLED SNHTYRVIEIVGTSPDGVDAAIQGGLARAAQTMRALDWFEVQSIRGHLVDGAVAHFQVTMKVGFRLED 2yjg-a1-m1-cB_2yjg-a1-m1-cA Structure of the lactate racemase apoprotein from Thermoanaerobacterium thermosaccharolyticum D9TQ02 D9TQ02 1.8 X-RAY DIFFRACTION 39 1.0 580327 (Thermoanaerobacterium thermosaccharolyticum DSM 571) 580327 (Thermoanaerobacterium thermosaccharolyticum DSM 571) 417 418 ANIEIPYGKSKLAFDLPDERIQGILRSKMSEEDIVKRALENPIGTKRLQDLAEGKKNIVIITSDHTRPVPSRITLPLLLDEIRKKNKSANVKILIATGFHRGTTLQEMKAKFGEDLVENEQFVVHDSRNSENMELIGTLPSGGKLEINKLAVEADLLVAEGFIEPHFFAGFSGGRKSILPGIASVQCILANHCSEFIKNPYARTGVLENNPIHRDMIYAAKKANLAFILNVVIDSSHKIVNAFAGHSEKAHLKGCEFVSEIATVNAKPADIVITSNGGYPLDQNIYQSVKGMTAGEAACKDGGVIIIAAECADGHGGEGFYRWFKESKDPQDVMNKILSRGRDETLPDQWEAQILARILINHKVIMVTDSKNYEYVKDMFMTPAKDLGEALKIAESIVNNDSKINVIPDGVSVIVRE ANIEIPYGKSKLAFDLPDERIQGILRSKMSEEDIVKRALENPIGTKRLQDLAEGKKNIVIITSDHTRPVPSRITLPLLLDEIRKKNKSANVKILIATGFHRGTTLQEMKAKFGEDLVENEQFVVHDSRNSENMELIGTLPSGGKLEINKLAVEADLLVAEGFIEPHFFAGFSGGRKSILPGIASVQCILANHCSEFIKNPYARTGVLENNPIHRDMIYAAKKANLAFILNVVIDSSHKIVNAFAGHSEKAHLKGCEFVSEIATVNAKPADIVITSNGGYPLDQNIYQSVKGMTAGEAACKDGGVIIIAAECADGHGGEGFYRWFKESKDPQDVMNKILSRGRDETLPDQWEAQILARILINHKVIMVTDSKNYEYVKDMFMTPAKDLGEALKIAESIVNNDSKINVIPDGVSVIVREK 2yjj-a1-m1-cD_2yjj-a1-m1-cJ Structure of Dps from MICROBACTERIUM ARBORESCENS in the low iron form Q1X6M4 Q1X6M4 2.05 X-RAY DIFFRACTION 94 1.0 33883 (Microbacterium arborescens) 33883 (Microbacterium arborescens) 148 148 2yjj-a1-m1-cA_2yjj-a1-m1-cB 2yjj-a1-m1-cE_2yjj-a1-m1-cF 2yjj-a1-m1-cH_2yjj-a1-m1-cG 2yjj-a1-m1-cI_2yjj-a1-m1-cC 2yjj-a1-m1-cK_2yjj-a1-m1-cL 2yjk-a1-m1-cA_2yjk-a1-m1-cB 2yjk-a1-m1-cE_2yjk-a1-m1-cF 2yjk-a1-m1-cH_2yjk-a1-m1-cG 2yjk-a1-m1-cI_2yjk-a1-m1-cC 2yjk-a1-m1-cJ_2yjk-a1-m1-cD 2yjk-a1-m1-cK_2yjk-a1-m1-cL DPEVAAAAAQFLTPVVHKMQALVVNGKQAHWNVRGSNFIAIHELLDSVVAHAQDYADTAAERIVALGLPIDSRVSTMAEKTSTAVPAGFAQWQDEIKAIVSDIDAALVDLQAAIDGLDEVDLTSQDVAIEIKRGVDKDRWFLLAHLAE DPEVAAAAAQFLTPVVHKMQALVVNGKQAHWNVRGSNFIAIHELLDSVVAHAQDYADTAAERIVALGLPIDSRVSTMAEKTSTAVPAGFAQWQDEIKAIVSDIDAALVDLQAAIDGLDEVDLTSQDVAIEIKRGVDKDRWFLLAHLAE 2yjj-a1-m1-cH_2yjj-a1-m1-cI Structure of Dps from MICROBACTERIUM ARBORESCENS in the low iron form Q1X6M4 Q1X6M4 2.05 X-RAY DIFFRACTION 30 1.0 33883 (Microbacterium arborescens) 33883 (Microbacterium arborescens) 147 148 2yjj-a1-m1-cA_2yjj-a1-m1-cF 2yjj-a1-m1-cC_2yjj-a1-m1-cB 2yjj-a1-m1-cC_2yjj-a1-m1-cK 2yjj-a1-m1-cD_2yjj-a1-m1-cA 2yjj-a1-m1-cD_2yjj-a1-m1-cF 2yjj-a1-m1-cH_2yjj-a1-m1-cE 2yjj-a1-m1-cI_2yjj-a1-m1-cE 2yjj-a1-m1-cJ_2yjj-a1-m1-cG 2yjj-a1-m1-cJ_2yjj-a1-m1-cL 2yjj-a1-m1-cK_2yjj-a1-m1-cB 2yjj-a1-m1-cL_2yjj-a1-m1-cG 2yjk-a1-m1-cA_2yjk-a1-m1-cD 2yjk-a1-m1-cA_2yjk-a1-m1-cF 2yjk-a1-m1-cB_2yjk-a1-m1-cC 2yjk-a1-m1-cB_2yjk-a1-m1-cK 2yjk-a1-m1-cD_2yjk-a1-m1-cF 2yjk-a1-m1-cE_2yjk-a1-m1-cH 2yjk-a1-m1-cI_2yjk-a1-m1-cE 2yjk-a1-m1-cI_2yjk-a1-m1-cH 2yjk-a1-m1-cJ_2yjk-a1-m1-cG 2yjk-a1-m1-cJ_2yjk-a1-m1-cL 2yjk-a1-m1-cK_2yjk-a1-m1-cC 2yjk-a1-m1-cL_2yjk-a1-m1-cG PEVAAAAAQFLTPVVHKMQALVVNGKQAHWNVRGSNFIAIHELLDSVVAHAQDYADTAAERIVALGLPIDSRVSTMAEKTSTAVPAGFAQWQDEIKAIVSDIDAALVDLQAAIDGLDEVDLTSQDVAIEIKRGVDKDRWFLLAHLAE DPEVAAAAAQFLTPVVHKMQALVVNGKQAHWNVRGSNFIAIHELLDSVVAHAQDYADTAAERIVALGLPIDSRVSTMAEKTSTAVPAGFAQWQDEIKAIVSDIDAALVDLQAAIDGLDEVDLTSQDVAIEIKRGVDKDRWFLLAHLAE 2yjj-a1-m1-cH_2yjj-a1-m1-cJ Structure of Dps from MICROBACTERIUM ARBORESCENS in the low iron form Q1X6M4 Q1X6M4 2.05 X-RAY DIFFRACTION 25 1.0 33883 (Microbacterium arborescens) 33883 (Microbacterium arborescens) 147 148 2yjj-a1-m1-cA_2yjj-a1-m1-cC 2yjj-a1-m1-cA_2yjj-a1-m1-cE 2yjj-a1-m1-cC_2yjj-a1-m1-cE 2yjj-a1-m1-cD_2yjj-a1-m1-cB 2yjj-a1-m1-cD_2yjj-a1-m1-cL 2yjj-a1-m1-cH_2yjj-a1-m1-cF 2yjj-a1-m1-cI_2yjj-a1-m1-cG 2yjj-a1-m1-cI_2yjj-a1-m1-cK 2yjj-a1-m1-cJ_2yjj-a1-m1-cF 2yjj-a1-m1-cK_2yjj-a1-m1-cG 2yjj-a1-m1-cL_2yjj-a1-m1-cB 2yjk-a1-m1-cA_2yjk-a1-m1-cC 2yjk-a1-m1-cA_2yjk-a1-m1-cE 2yjk-a1-m1-cB_2yjk-a1-m1-cD 2yjk-a1-m1-cB_2yjk-a1-m1-cL 2yjk-a1-m1-cD_2yjk-a1-m1-cL 2yjk-a1-m1-cE_2yjk-a1-m1-cC 2yjk-a1-m1-cF_2yjk-a1-m1-cH 2yjk-a1-m1-cI_2yjk-a1-m1-cG 2yjk-a1-m1-cI_2yjk-a1-m1-cK 2yjk-a1-m1-cJ_2yjk-a1-m1-cF 2yjk-a1-m1-cJ_2yjk-a1-m1-cH 2yjk-a1-m1-cK_2yjk-a1-m1-cG PEVAAAAAQFLTPVVHKMQALVVNGKQAHWNVRGSNFIAIHELLDSVVAHAQDYADTAAERIVALGLPIDSRVSTMAEKTSTAVPAGFAQWQDEIKAIVSDIDAALVDLQAAIDGLDEVDLTSQDVAIEIKRGVDKDRWFLLAHLAE DPEVAAAAAQFLTPVVHKMQALVVNGKQAHWNVRGSNFIAIHELLDSVVAHAQDYADTAAERIVALGLPIDSRVSTMAEKTSTAVPAGFAQWQDEIKAIVSDIDAALVDLQAAIDGLDEVDLTSQDVAIEIKRGVDKDRWFLLAHLAE 2yjn-a1-m1-cA_2yjn-a1-m2-cA Structure of the glycosyltransferase EryCIII from the erythromycin biosynthetic pathway, in complex with its activating partner, EryCII A4F7P3 A4F7P3 3.091 X-RAY DIFFRACTION 121 1.0 405948 (Saccharopolyspora erythraea NRRL 2338) 405948 (Saccharopolyspora erythraea NRRL 2338) 408 408 SHMRVVFSSMASKSHLFGLVPLAWAFRAAGHEVRVVASPALTEDITAAGLTAVPVGTDVDLVDFMTHAGHDIIDYVRSLDFSERDPATLTWEHLLGMQTVLTPTFYALMSPDTLIEGMVSFCRKWRPDLVIWEPLTFAAPIAAAVTGTPHARLLWGPDITTRARQNFLGLLPDQPEEHREDPLAEWLTWTLEKYGGPAFDEEVVVGQWTIDPAPAAIRLDTGLKTVGMRYVDYNGPSVVPEWLHDEPERRRVCLTLQVSIEELLGAVGDVDAEIIATFDAQQLEGVANIPDNVRTVGFVPMHALLPTCAATVHHGGPGSWHTAAIHGVPQVILPDGWDTGVRAQRTQEFGAGIALPVPELTPDQLRESVKRVLDDPAHRAGAARMRDDMLAEPSPAEVVGICEELAAG SHMRVVFSSMASKSHLFGLVPLAWAFRAAGHEVRVVASPALTEDITAAGLTAVPVGTDVDLVDFMTHAGHDIIDYVRSLDFSERDPATLTWEHLLGMQTVLTPTFYALMSPDTLIEGMVSFCRKWRPDLVIWEPLTFAAPIAAAVTGTPHARLLWGPDITTRARQNFLGLLPDQPEEHREDPLAEWLTWTLEKYGGPAFDEEVVVGQWTIDPAPAAIRLDTGLKTVGMRYVDYNGPSVVPEWLHDEPERRRVCLTLQVSIEELLGAVGDVDAEIIATFDAQQLEGVANIPDNVRTVGFVPMHALLPTCAATVHHGGPGSWHTAAIHGVPQVILPDGWDTGVRAQRTQEFGAGIALPVPELTPDQLRESVKRVLDDPAHRAGAARMRDDMLAEPSPAEVVGICEELAAG 2yjv-a1-m1-cA_2yjv-a1-m1-cB Crystal structure of E. coli regulator of ribonuclease activity A (RraA) bound to fragment of DEAD-box protein RhlB P0A8R0 P0A8R0 2.8 X-RAY DIFFRACTION 39 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 158 158 1q5x-a1-m1-cB_1q5x-a1-m1-cA 1q5x-a1-m1-cC_1q5x-a1-m1-cA 1q5x-a1-m1-cC_1q5x-a1-m1-cB 2yjt-a1-m1-cA_2yjt-a1-m1-cB 2yjt-a1-m1-cA_2yjt-a1-m1-cC 2yjt-a1-m1-cB_2yjt-a1-m1-cC 2yjv-a1-m1-cA_2yjv-a1-m1-cC 2yjv-a1-m1-cB_2yjv-a1-m1-cC 2yjv-a2-m1-cD_2yjv-a2-m1-cE 2yjv-a2-m1-cD_2yjv-a2-m1-cF 2yjv-a2-m1-cF_2yjv-a2-m1-cE 2yjv-a3-m1-cG_2yjv-a3-m1-cH 2yjv-a3-m1-cI_2yjv-a3-m1-cG 2yjv-a3-m1-cI_2yjv-a3-m1-cH 2yjv-a4-m1-cJ_2yjv-a4-m1-cK 2yjv-a4-m1-cL_2yjv-a4-m1-cJ 2yjv-a4-m1-cL_2yjv-a4-m1-cK KYDTSELCDIYQEDVNVVEPLFSNFGGRASFGGQIITVKCFEDNGLLYDLLEQNGRGRVLVVDGGGSVRRALVDAELARLAVQNEWEGLVIYGAVRQVDDLEELDIGIQAMAAIPVGAAGEGIGESDVRVNFGGVTFFSGDHLYADNTGIILSEDPLD KYDTSELCDIYQEDVNVVEPLFSNFGGRASFGGQIITVKCFEDNGLLYDLLEQNGRGRVLVVDGGGSVRRALVDAELARLAVQNEWEGLVIYGAVRQVDDLEELDIGIQAMAAIPVGAAGEGIGESDVRVNFGGVTFFSGDHLYADNTGIILSEDPLD 2yk3-a1-m1-cB_2yk3-a1-m2-cC CRITHIDIA FASCICULATA CYTOCHROME C P00078 P00078 1.55 X-RAY DIFFRACTION 34 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 109 109 2yk3-a1-m1-cA_2yk3-a1-m2-cA 2yk3-a1-m1-cC_2yk3-a1-m2-cB ARAPLPPGDAARGEKLFKGRAAQCHTANQGGANGVGPNLYGLVGRHSGTIEGYAYSKANAESGVVWTPDVLDVYLENPKFMPGTKMSFAGMKKPQERADVIAYLETLKG ARAPLPPGDAARGEKLFKGRAAQCHTANQGGANGVGPNLYGLVGRHSGTIEGYAYSKANAESGVVWTPDVLDVYLENPKFMPGTKMSFAGMKKPQERADVIAYLETLKG 2yk3-a1-m2-cA_2yk3-a1-m2-cC CRITHIDIA FASCICULATA CYTOCHROME C P00078 P00078 1.55 X-RAY DIFFRACTION 25 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 109 109 2yk3-a1-m1-cA_2yk3-a1-m1-cB 2yk3-a1-m1-cA_2yk3-a1-m1-cC 2yk3-a1-m1-cB_2yk3-a1-m1-cC 2yk3-a1-m2-cA_2yk3-a1-m2-cB 2yk3-a1-m2-cB_2yk3-a1-m2-cC ARAPLPPGDAARGEKLFKGRAAQCHTANQGGANGVGPNLYGLVGRHSGTIEGYAYSKANAESGVVWTPDVLDVYLENPKFMPGTKMSFAGMKKPQERADVIAYLETLKG ARAPLPPGDAARGEKLFKGRAAQCHTANQGGANGVGPNLYGLVGRHSGTIEGYAYSKANAESGVVWTPDVLDVYLENPKFMPGTKMSFAGMKKPQERADVIAYLETLKG 2yk6-a1-m1-cA_2yk6-a1-m2-cA Structure of Neisseria LOS-specific sialyltransferase (NST), in complex with CDP. P72097 P72097 2.83 X-RAY DIFFRACTION 250 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 325 325 2yk4-a1-m1-cA_2yk4-a1-m2-cA 2yk5-a1-m1-cA_2yk5-a1-m2-cA 2yk7-a1-m1-cA_2yk7-a1-m2-cA PVNLIFCYTILQMKVAERIMAQHPGERFYVVLMSENRNEKYDYYFNQIKDKAEWAYFFHLPYGLNKSFNFIPTMAELKVKAMLLPKVKRIYLASLEKVSIAAFLSTYPDAEIKTFDDGTINLIQSSSYLGDEFSVNGTIKRNFARMMIGDWSIAKTRNASDEHYTIFKGLKNIMDDGRRKMTYLPLFDASELKAGDETGGTVRILLGSPDKEMKEISEKAAKNFNIQYVAPHPRQTYGLSGVTTLNSPYVIEDYILREIKKNPHTRYEIYTFFSGAALTMKDFPNVHVYALKPASLPEDYWLKPVYALFTQSGIPILTFDDKLVP PVNLIFCYTILQMKVAERIMAQHPGERFYVVLMSENRNEKYDYYFNQIKDKAEWAYFFHLPYGLNKSFNFIPTMAELKVKAMLLPKVKRIYLASLEKVSIAAFLSTYPDAEIKTFDDGTINLIQSSSYLGDEFSVNGTIKRNFARMMIGDWSIAKTRNASDEHYTIFKGLKNIMDDGRRKMTYLPLFDASELKAGDETGGTVRILLGSPDKEMKEISEKAAKNFNIQYVAPHPRQTYGLSGVTTLNSPYVIEDYILREIKKNPHTRYEIYTFFSGAALTMKDFPNVHVYALKPASLPEDYWLKPVYALFTQSGIPILTFDDKLVP 2ykf-a1-m1-cA_2ykf-a1-m2-cA Sensor region of a sensor histidine kinase P9WGL5 P9WGL5 2 X-RAY DIFFRACTION 120 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 263 263 MSTLGDLLAEHTVLPGSAVDHLHAVVGEWQLLADLSFADYLMWVRRDDGVLVCVAQCRPNTGPTVVHTDAVGTVVAANSMPLVAATFSGGHSVEVSPVRFGDQVVAVLTRHQPELAARRRSGHLETAYRLCATDLLRMLAEGTFPDASRSSPRAGDGFIRLDVDGVVSYASPNALSAYHRMGLTTELEGVNLIDATRPLISDPFEAHEVDEHVQDLLAGDGKGMRMEVDAGGATVLLRTLPLVVAGRNVGAAILIRDVTEVKR MSTLGDLLAEHTVLPGSAVDHLHAVVGEWQLLADLSFADYLMWVRRDDGVLVCVAQCRPNTGPTVVHTDAVGTVVAANSMPLVAATFSGGHSVEVSPVRFGDQVVAVLTRHQPELAARRRSGHLETAYRLCATDLLRMLAEGTFPDASRSSPRAGDGFIRLDVDGVVSYASPNALSAYHRMGLTTELEGVNLIDATRPLISDPFEAHEVDEHVQDLLAGDGKGMRMEVDAGGATVLLRTLPLVVAGRNVGAAILIRDVTEVKR 2ykp-a1-m1-cB_2ykp-a1-m1-cA Structure of the human LINE-1 ORF1p trimer Q9UN81 Q9UN81 3.1 X-RAY DIFFRACTION 47 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 200 203 2yko-a1-m1-cB_2yko-a1-m1-cA 2yko-a1-m1-cB_2yko-a1-m1-cC 2yko-a1-m1-cC_2yko-a1-m1-cA 2ykp-a1-m1-cC_2ykp-a1-m1-cA 2ykp-a1-m1-cC_2ykp-a1-m1-cB 2ykq-a1-m1-cA_2ykq-a1-m1-cC 2ykq-a1-m1-cB_2ykq-a1-m1-cA LRSRCDQLEERVSAAEDEINEIKREGKFREKRIKRNEQSLQEIWDYVKRPNLRLIGVPESDVENGTKLENTLQDIIQENFVQIQEIQRTTPRHIIVRFTKVEMKEKMLRAAREKGRVTLKGKPIRLTVDLSAETLQARREWGPIFNILKEKNFQPRISYPAKLSFISEGEIKYFIDKQMLRDFVTTRPALKELLKEALNM RCDQLEERVSAAEDEINEIKREGKFREKRIKRNEQSLQEIWDYVKRPNLRLIGVPESDVENGTKLENTLQDIIQENFPNLVQIQEIQRTPRATPRHIIVRFTKVEMKEKMLRAAREKGRVTLKGKPIRLTVDLSAETLQARREWGPIFNILKEKNFQPRISYPAKLSFISEGEIKYFIDKQMLRDFVTTRPALKELLKEALNM 2ykq-a1-m1-cB_2ykq-a1-m1-cC Structure of the human LINE-1 ORF1p trimer Q9UN81 Q9UN81 3.1 X-RAY DIFFRACTION 51 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 194 196 DQLEERVSAAEDEINEIKREGKFREKRIKRNEQSLQEIWDYVKRPNLRLIGVPESDVENGTKLENTLQDIIQENFPNLVQIQEIQRTTPRHIIVRFTKVEKEKLRAAREKGRVTLKGKPIRLTVDLSAETLQARREWGPIFNILKEKNFQPRISYPAKLSFISEGEIKYFIDKQLRDFVTTRPALKELLKEALN CDQLEERVSAAEDEINEIKREGKFREKRIKRNEQSLQEIWDYVKRPNLRLIGVPESDVENGTKLENTLQDIIQENFPNLARVQIQEIQRTPRHIIVRFTKVEKEKLRAAREKGRVTLKGKPIRLTVDLSAETLQARREWGPIFNILKEKNFQPRISYPAKLSFISEGEIKYFIDKQLRDFVTTRPALKELLKEALN 2yky-a2-m1-cB_2yky-a2-m1-cA Structural Determinants of the Beta-Selectivity of a Bacterial Aminotransferase A3EYF7 A3EYF7 1.69 X-RAY DIFFRACTION 395 1.0 398267 (Mesorhizobium sp. LUK) 398267 (Mesorhizobium sp. LUK) 429 431 2yku-a1-m1-cC_2yku-a1-m2-cC 2yku-a2-m1-cB_2yku-a2-m1-cA 2ykv-a1-m1-cB_2ykv-a1-m1-cA 2ykv-a2-m1-cC_2ykv-a2-m2-cC 2ykx-a1-m1-cB_2ykx-a1-m1-cA 2ykx-a2-m1-cC_2ykx-a2-m2-cC 2yky-a1-m1-cC_2yky-a1-m2-cC 4ao4-a1-m1-cB_4ao4-a1-m1-cA 4ao4-a2-m1-cC_4ao4-a2-m2-cC 6iz9-a1-m1-cB_6iz9-a1-m1-cA TAEKAQAIAAARNTFARDNPVSAGHHERARRSMPGGNTRSILFHRPFPLVIAQGTGSRFQDVDGHAYVNFLGEYTAGLFGHSHPVIRAAVERALAVGLNLSTQTENEALFAEAVCDRFPSIDLVRFTNSGTEANLMALATATAITGRKTVLAFDGGYHGGLLNFASGHAPTNAPYHVVLGVYNDVEGTADLLKRHGHDCAAILVEPMLGAGGCVPAERAFLDLLRAEASRCGALLIFDEVMTSRLSGGGAQEMLGISADLTTLGKYIGGGMSFGAFGGRRDLMERFDPARDGAFAHAGTFNNNILTMSAGHAALTQIYTRQAASDLSASGDRFRANLNRIAVENQAPLQFTGLGSLGTIHFSRAPIRSAGDVRAADQQLKELFFFHMLRKGIYLAPRGMYALSLEIADAGRDAFAEALADFIGEQRALL SDTAEKAQAIAAARNTFARDNPVSAGHHERARRSMPGGNTRSILFHRPFPLVIAQGTGSRFQDVDGHAYVNFLGEYTAGLFGHSHPVIRAAVERALAVGLNLSTQTENEALFAEAVCDRFPSIDLVRFTNSGTEANLMALATATAITGRKTVLAFDGGYHGGLLNFASGHAPTNAPYHVVLGVYNDVEGTADLLKRHGHDCAAILVEPMLGAGGCVPAERAFLDLLRAEASRCGALLIFDEVMTSRLSGGGAQEMLGISADLTTLGKYIGGGMSFGAFGGRRDLMERFDPARDGAFAHAGTFNNNILTMSAGHAALTQIYTRQAASDLSASGDRFRANLNRIAVENQAPLQFTGLGSLGTIHFSRAPIRSAGDVRAADQQLKELFFFHMLRKGIYLAPRGMYALSLEIADAGRDAFAEALADFIGEQRALL 2ylz-a1-m1-cA_2ylz-a1-m2-cA SNAPSHOTS OF ENZYMATIC BAEYER-VILLIGER CATALYSIS: OXYGEN ACTIVATION AND INTERMEDIATE STABILIZATION: Met446Gly MUTANT Q47PU3 Q47PU3 2 X-RAY DIFFRACTION 154 1.0 2021 (Thermobifida fusca) 2021 (Thermobifida fusca) 533 533 RRQPPEEVDVLVVGAGFSGLYALYRLRELGRSVHVIETAGDVGGVWYWNRYPGARCDIESIEYCYSFSEEVLQEWNWTERYASQPEILRYINFVADKFDLRSGITFHTTVTAAAFDEATNTWTVDTNHGDRIRARYLIMASGQLSVPQLPNFPGLKDFAGNLYHTGNWPHEPVDFSGQRVGVIGTGSSGIQVSPQIAKQAAELFVFQRTPHFAVPARNAPLDPEFLADLKKRYAEFREESRNTPGGTHRYQGPKSALEVSDEELVETLERYWQEGGPDILAAYRDILRDRDANERVAEFIRNKIRNTVRDPEVAERLVPKGYPFGTKRLILEIDYYEMFNRDNVHLVDTLSAPIETITPRGVRTSEREYELDSLVLATGFDALTGALFKIDIRGVGNVALKEKWAAGPRTYLGLSTAGFPNLFFIAGPGSPSALSNGLVSIEQHVEWVTDHIAYMFKNGLTRSEAVLEKEDEWVEHVNEIADETLYPMTASWYTGANVPGKPRVFMLYVGGFHRYRQICDEVAAKGYEGFVLT RRQPPEEVDVLVVGAGFSGLYALYRLRELGRSVHVIETAGDVGGVWYWNRYPGARCDIESIEYCYSFSEEVLQEWNWTERYASQPEILRYINFVADKFDLRSGITFHTTVTAAAFDEATNTWTVDTNHGDRIRARYLIMASGQLSVPQLPNFPGLKDFAGNLYHTGNWPHEPVDFSGQRVGVIGTGSSGIQVSPQIAKQAAELFVFQRTPHFAVPARNAPLDPEFLADLKKRYAEFREESRNTPGGTHRYQGPKSALEVSDEELVETLERYWQEGGPDILAAYRDILRDRDANERVAEFIRNKIRNTVRDPEVAERLVPKGYPFGTKRLILEIDYYEMFNRDNVHLVDTLSAPIETITPRGVRTSEREYELDSLVLATGFDALTGALFKIDIRGVGNVALKEKWAAGPRTYLGLSTAGFPNLFFIAGPGSPSALSNGLVSIEQHVEWVTDHIAYMFKNGLTRSEAVLEKEDEWVEHVNEIADETLYPMTASWYTGANVPGKPRVFMLYVGGFHRYRQICDEVAAKGYEGFVLT 2ym9-a5-m1-cD_2ym9-a5-m1-cC SipD from Salmonella typhimurium Q56026 Q56026 3 X-RAY DIFFRACTION 72 0.992 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 124 216 TTISDAEIWDMVSQNDSYLGVYENVVAVYTDFYQAFSSNTVLFPAATEAEARQWLSELNLPNSCLYVVTVDLTPLQKMVENMKTTLQTLTQKYSNANSLYDNLVKVLSSTISSSLETAKSFLQG TISDAEIWDMVSQNISAIGDSYLGVYENVVAVYTDFYQAFSDILSKMGGWLLPGKDGNTVKLDVTSLKNDLNSLVNKYNQINSNTVLFPAQSGSGVKVATEAEARQWLSELNLPNSCLKSYGSGYVVTVDLTPLQKMVQDIDGLGAPGKDSKLEMDNAKYQAWQSGFKAQEENMKTTLQTLTQKYSNANSLYDNLVKVLSSTISSSLETAKSFLQG 2yma-a1-m1-cB_2yma-a1-m1-cA X-ray structure of the Yos9 dimerization domain Q99220 Q99220 2.545 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 132 135 IGSNSIDLITKYEPIFLGSGIYFLRPFNTDERDKLMVTDNAMSNWDEITETYYQKFGNAINKMLSLRLVSLPNGHILQPGDSCVWLAEVVDMKDRFQTTLSLNILNSQRAEIFFNKTFTFNEDNGNFLSYKI SIGSNSIDLITKYEPIFLGSGIYFLRPFNTDERDKLMVTDNAMSNWDEITETYYQKFGNAINKMLSLRLVSLPNGHILQPGDSCVWLAEVVDMKDRFQTTLSLNILNSQRAEIFFNKTFTFNEDNGNFLSYKIGD 2ymj-a1-m1-cA_2ymj-a1-m1-cB Solution structure of the QUA1 dimerization domain of pXqua, the Xenopus ortholog of Quaking. Q32NN2 Q32NN2 NOT SOLUTION NMR 72 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 52 52 GSKEKPKPTPDYLMQLMNDKKLMSSLPNFSGIFTHLERLLDEEISRVRKDMY GSKEKPKPTPDYLMQLMNDKKLMSSLPNFSGIFTHLERLLDEEISRVRKDMY 2ymm-a2-m1-cA_2ymm-a2-m1-cB Sulfate bound L-haloacid dehalogenase from a Rhodobacteraceae family bacterium R4GRT2 R4GRT2 1.64 X-RAY DIFFRACTION 113 1.0 31989 (Paracoccaceae) 31989 (Paracoccaceae) 225 228 2yml-a1-m1-cB_2yml-a1-m1-cA 2ymm-a1-m1-cD_2ymm-a1-m1-cC 2ymp-a1-m1-cA_2ymp-a1-m1-cB 2ymq-a1-m1-cA_2ymq-a1-m1-cB 2yn4-a1-m1-cA_2yn4-a1-m1-cB 4ce6-a1-m1-cB_4ce6-a1-m1-cA 4cf3-a1-m1-cA_4cf3-a1-m1-cB 4cf3-a2-m1-cC_4cf3-a2-m1-cD 4cf4-a1-m1-cA_4cf4-a1-m1-cB 4cf5-a1-m1-cD_4cf5-a1-m1-cC 4cf5-a2-m1-cA_4cf5-a2-m1-cB 4cnq-a1-m1-cA_4cnq-a1-m1-cB SGILVFDVNETLLDLTSLSPLFERVFGDAKVLREWFPELILYSQTLTLTGLYRPFGEIAAAVFEMVAANHQAKVTPDDIAELKTRLTSMPAYPDVAPALTRLQDAGFRLVTLTNSAPSPAPSPLEKAGIASFFEAHLTVHSSQRFKPHPSVYDSTAETLGAKPEELCMIACHIWDTIGAQARGWRGGFVARPHNTPLTLAEVPQPDFIGRDMGELADQLIASLTA PSRSGILVFDVNETLLDLTSLSPLFERVFGDAKVLREWFPELILYSQTLTLTGLYRPFGEIAAAVFEMVAANHQAKVTPDDIAELKTRLTSMPAYPDVAPALTRLQDAGFRLVTLTNSAPSPAPSPLEKAGIASFFEAHLTVHSSQRFKPHPSVYDSTAETLGAKPEELCMIACHIWDTIGAQARGWRGGFVARPHNTPLTLAEVPQPDFIGRDMGELADQLIASLTA 2ymy-a1-m1-cA_2ymy-a1-m1-cB Structure of the murine Nore1-Sarah domain Q5EBH1 Q5EBH1 1.69 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 40 41 SPELQNFLTILEKEEQDKIHQLQKKYNKFRQKLEEALRES GSPELQNFLTILEKEEQDKIHQLQKKYNKFRQKLEEALRES 2ymz-a3-m1-cD_2ymz-a3-m1-cE Crystal structure of chicken Galectin 2 E1C0Z4 E1C0Z4 1.75 X-RAY DIFFRACTION 45 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 130 130 2ymz-a1-m1-cA_2ymz-a1-m1-cB 2ymz-a2-m1-cC_2ymz-a2-m1-cF ARMFEMFNLDWKSGGTMKIKGHISEDAESFAINLGCKSSDLALHFNPRFNESVIVCNSLCSDNWQQEQRDKHFNFYKGSTVKIIVEFLGDKFLVKLPDGHEVEFPNRHGYDKISYLNILGGFKVTSFKVE ARMFEMFNLDWKSGGTMKIKGHISEDAESFAINLGCKSSDLALHFNPRFNESVIVCNSLCSDNWQQEQRDKHFNFYKGSTVKIIVEFLGDKFLVKLPDGHEVEFPNRHGYDKISYLNILGGFKVTSFKVE 2yn3-a1-m1-cA_2yn3-a1-m1-cC Structural insight into the giant calcium-binding adhesin SiiE: implications for the adhesion of Salmonella enterica to polarized epithelial cells Q8ZKG6 Q8ZKG6 2.12 X-RAY DIFFRACTION 134 0.996 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 270 281 TPPNAPVVTYSDIVNDLIIQGTAEAKSQLIITDSEGNTYTLTVPDNGKWSAIPYPSEGKFTITSVDAIGNRSDDVPLDIKEVPVISLSPDSDSGTVGDNITRDKQPTFIIGNLESDVVVVQVDINGTVYNAEKNADGVWFFTPGTPLADGSYTISVIASDAAGNQKNSLPITVTIDSTLTVPEIALAAGEVTNHTQPKFTLQHIDADVTGVTVNVTHNGVTDIYQATQGADGWTFTPPAAWNDGNYTLSVTVVDRAGNSQQSASLAVTVD PPNAPVVTYSDIVNDLIIQGTAEAKSQLIITDSEGNTYTLTVPDNGKWSAIPYPSEGKFTITSVDAIGNRSDDVPLDIKEVPVISLSPDSDSGTVGDNITRDKQPTFIIGNLESDVVVVQVDINGTVYNAEKNADGVWFFTPGTPLADGSYTISVIASDAAGNQKNSLPITVTIDSTLTVPEIALAAGEDNDSDNVTNHTQPKFTLQHIDADVTGVTVNVTHNGVTDIYQATQGADGWTFTPPAAWNDGNYTLSVTVVDRAGNSQQSASLAVTVDSTVTVT 2yn5-a1-m1-cB_2yn5-a1-m2-cB Structural insight into the giant calcium-binding adhesin SiiE: implications for the adhesion of Salmonella enterica to polarized epithelial cells Q8ZKG6 Q8ZKG6 1.85 X-RAY DIFFRACTION 51 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 284 284 2yn5-a1-m1-cA_2yn5-a1-m2-cA TPPNAPVVTYSDIVNDLIIMQGTAEAKSQLIITDSEGNTYTLTVPDNGKWSMAIPYPSEGKFTITSVDAIGNRSDDVPLDIMKEVPVISLSPDSDSGTVGDNITRDKQPTFIIGNLESDVVVVQVDINGTVYNAEKNADGVWFFTPGTPLADGSYTISVIASDAAGNQKNSLPITVTIDSTLTVPEIALAAGEDNGASDSDNVTNHTQPKFTLQHIDADVTGVTVNVTHNGVTDIYQATQGADGWTFTPPAAWNDGNYTLSVTVVDRAGNSQQSASLAVTVDST TPPNAPVVTYSDIVNDLIIMQGTAEAKSQLIITDSEGNTYTLTVPDNGKWSMAIPYPSEGKFTITSVDAIGNRSDDVPLDIMKEVPVISLSPDSDSGTVGDNITRDKQPTFIIGNLESDVVVVQVDINGTVYNAEKNADGVWFFTPGTPLADGSYTISVIASDAAGNQKNSLPITVTIDSTLTVPEIALAAGEDNGASDSDNVTNHTQPKFTLQHIDADVTGVTVNVTHNGVTDIYQATQGADGWTFTPPAAWNDGNYTLSVTVVDRAGNSQQSASLAVTVDST 2yn5-a1-m2-cA_2yn5-a1-m2-cB Structural insight into the giant calcium-binding adhesin SiiE: implications for the adhesion of Salmonella enterica to polarized epithelial cells Q8ZKG6 Q8ZKG6 1.85 X-RAY DIFFRACTION 67 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 283 284 2yn5-a1-m1-cA_2yn5-a1-m1-cB TPPNAPVVTYSDIVNDLIIMQGTAEAKSQLIITDSEGNTYTLTVPDNGKWSMAIPYPSEGKFTITSVDAIGNRSDDVPLDIMKEVPVISLSPDSDSGTVGDNITRDKQPTFIIGNLESDVVVVQVDINGTVYNAEKNADGVWFFTPGTPLADGSYTISVIASDAAGNQKNSLPITVTIDSTLTVPEIALAAGEDNGASDSDNVTNHTQPKFTLQHIDADVTGVTVNVTHNGVTDIYQATQGADGWTFTPPAAWNDGNYTLSVTVVDRAGNSQQSASLAVTVDS TPPNAPVVTYSDIVNDLIIMQGTAEAKSQLIITDSEGNTYTLTVPDNGKWSMAIPYPSEGKFTITSVDAIGNRSDDVPLDIMKEVPVISLSPDSDSGTVGDNITRDKQPTFIIGNLESDVVVVQVDINGTVYNAEKNADGVWFFTPGTPLADGSYTISVIASDAAGNQKNSLPITVTIDSTLTVPEIALAAGEDNGASDSDNVTNHTQPKFTLQHIDADVTGVTVNVTHNGVTDIYQATQGADGWTFTPPAAWNDGNYTLSVTVVDRAGNSQQSASLAVTVDST 2ynb-a1-m1-cB_2ynb-a1-m1-cA Crystal structure of the main protease of coronavirus HKU4 in complex with a Michael acceptor SG85 P0C6T4 P0C6T4 1.96 X-RAY DIFFRACTION 116 1.0 694007 (Tylonycteris bat coronavirus HKU4) 694007 (Tylonycteris bat coronavirus HKU4) 302 306 2yna-a1-m1-cB_2yna-a1-m1-cA 4yo9-a1-m1-cB_4yo9-a1-m1-cA 4yog-a1-m1-cA_4yog-a1-m1-cB 4yoi-a1-m1-cA_4yoi-a1-m1-cB 4yoj-a1-m1-cA_4yoj-a1-m1-cB SGLVKMSAPSGAVENCIVQVTCGSMTLNGLWLDNTVWCPRHIMCPADQLTDPNYDALLISKTNHSFIVQKHIGAQANLRVVAHSMVGVLLKLTVDVANPSTPAYTFSTVKPGASFSVLACYNGKPTGVFTVNLRHNSTIKGSFLCGSCGSVGYTENGGVINFVYMHQMELSNGTHTGSSFDGVMYGAFEDKQTHQLQLTDKYCTINVVAWLYAAVLNGCKWFVKPTRVGIVTYNEWALSNQFTEFVGTQSIDMLAHRTGVSVEQMLAAIQSLHAGFQGKTILGQSTLEDEFTPDDVNMQVMG SGLVKMSAPSGAVENCIVQVTCGSMTLNGLWLDNTVWCPRHIMCPADQLTDPNYDALLISKTNHSFIVQKHIGAQANLRVVAHSMVGVLLKLTVDVANPSTPAYTFSTVKPGASFSVLACYNGKPTGVFTVNLRHNSTIKGSFLCGSCGSVGYTENGGVINFVYMHQMELSNGTHTGSSFDGVMYGAFEDKQTHQLQLTDKYCTINVVAWLYAAVLNGCKWFVKPTRVGIVTYNEWALSNQFTEFVGTQSIDMLAHRTGVSVEQMLAAIQSLHAGFQGKTILGQSTLEDEFTPDDVNMQVMGVVMQ 2ynm-a1-m1-cD_2ynm-a1-m2-cD Structure of the ADPxAlF3-Stabilized Transition State of the Nitrogenase-like Dark-Operative Protochlorophyllide Oxidoreductase Complex from Prochlorococcus marinus with Its Substrate Protochlorophyllide a Q7VD38 Q7VD38 2.1 X-RAY DIFFRACTION 79 1.0 1219 (Prochlorococcus marinus) 1219 (Prochlorococcus marinus) 488 488 MELTLWTYEGPPHIGAMRIATSMKGLHYVLHAPQGDTYADLLFTMIERRGSRPPVTYTTFQARDLGGDTAELVKGHIFEAVERFKPEALLVGESCTAELIQDQPGSLAKGMGLNIPIVSLELPAYSKKENWGASETFYQLIRGLLKEIQSWQEEGRRPRVNLLGPSLLGFRCRDDVLEIQKILGENGIDINVIAPLGASPSDLMRLPKADANVCLYPEIAESTCLWLERNFKTPFTKVVPIGVKATQDFLEELYELLGMEVSNSDQSKLPWYSKSVDSNYLTGKRVFIFGDGTHVLAAARIANEELGFEVVGIGTYSREMARKVRAAATELGLEALITNDYLEVEESIKECAPELVLGTQMERHSAKRLGIPCAVISTPMHVQDVPARYSPQMGWEGANVIFDDWVHPLMMGLEEHLIGMFRHDFEFTDGHQSHLGHLIHWTSEGESELAKIPFFVRGKVRRNTEKYARQAGCREIDGETLLDAKAHF MELTLWTYEGPPHIGAMRIATSMKGLHYVLHAPQGDTYADLLFTMIERRGSRPPVTYTTFQARDLGGDTAELVKGHIFEAVERFKPEALLVGESCTAELIQDQPGSLAKGMGLNIPIVSLELPAYSKKENWGASETFYQLIRGLLKEIQSWQEEGRRPRVNLLGPSLLGFRCRDDVLEIQKILGENGIDINVIAPLGASPSDLMRLPKADANVCLYPEIAESTCLWLERNFKTPFTKVVPIGVKATQDFLEELYELLGMEVSNSDQSKLPWYSKSVDSNYLTGKRVFIFGDGTHVLAAARIANEELGFEVVGIGTYSREMARKVRAAATELGLEALITNDYLEVEESIKECAPELVLGTQMERHSAKRLGIPCAVISTPMHVQDVPARYSPQMGWEGANVIFDDWVHPLMMGLEEHLIGMFRHDFEFTDGHQSHLGHLIHWTSEGESELAKIPFFVRGKVRRNTEKYARQAGCREIDGETLLDAKAHF 2ynm-a1-m2-cA_2ynm-a1-m2-cB Structure of the ADPxAlF3-Stabilized Transition State of the Nitrogenase-like Dark-Operative Protochlorophyllide Oxidoreductase Complex from Prochlorococcus marinus with Its Substrate Protochlorophyllide a Q7VD39 Q7VD39 2.1 X-RAY DIFFRACTION 158 1.0 1219 (Prochlorococcus marinus) 1219 (Prochlorococcus marinus) 267 268 2ynm-a1-m1-cA_2ynm-a1-m1-cB ALVIAVYGKGGIGKSTTSSNLSAAFSKLGKKVLQIGCDPKHDSTFTLTHKMVPTVIDILEEVDFHSEELRPQDFMFEGFNGVQCVESGGPPAGTGCGGYVTGQTVKLLKEHHLLEDTDVVIFDVLGDVVCGGFAAPLQHANYCLIVTANDFDSIFAMNRIVAAINAKAKNYKVRLGGVIANRSAELDQIEKFNEKTGLKTMAHFRNVDAIRRSRLKKCTIFEMDPEEEGVLEVQNEYLSLAKKMIDNVEPLEAEPLKDREIFDLLGF GALVIAVYGKGGIGKSTTSSNLSAAFSKLGKKVLQIGCDPKHDSTFTLTHKMVPTVIDILEEVDFHSEELRPQDFMFEGFNGVQCVESGGPPAGTGCGGYVTGQTVKLLKEHHLLEDTDVVIFDVLGDVVCGGFAAPLQHANYCLIVTANDFDSIFAMNRIVAAINAKAKNYKVRLGGVIANRSAELDQIEKFNEKTGLKTMAHFRNVDAIRRSRLKKCTIFEMDPEEEGVLEVQNEYLSLAKKMIDNVEPLEAEPLKDREIFDLLGF 2ynq-a2-m1-cB_2ynq-a2-m2-cB Crystal Structure of Geobacillus thermodenitrificans EssB extracellular fragment A4IKE6 A4IKE6 2.4 X-RAY DIFFRACTION 72 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 151 151 2ynq-a1-m1-cA_2ynq-a1-m1-cD STAQPKQEAYIQSTELFLQNKYSDVITTLEDYAPEDMPYVIQYELASSYVMTESLTEEQRQTVSNNITLKTDEQYMLYWIYIGRSQSEEALELARTIEDRDLIVYALLKYREQIKGDTDLSGDEKQKKLDEIDQEIKEYERERKESEAQLE STAQPKQEAYIQSTELFLQNKYSDVITTLEDYAPEDMPYVIQYELASSYVMTESLTEEQRQTVSNNITLKTDEQYMLYWIYIGRSQSEEALELARTIEDRDLIVYALLKYREQIKGDTDLSGDEKQKKLDEIDQEIKEYERERKESEAQLE 2ynq-a3-m1-cC_2ynq-a3-m3-cC Crystal Structure of Geobacillus thermodenitrificans EssB extracellular fragment A4IKE6 A4IKE6 2.4 X-RAY DIFFRACTION 28 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 149 149 AQPKQEAYIQSTELFLQNKYSDVITTLEDYAPEDMPYVIQYELASSYVMTESLTEEQRQTVSNNITLKTDEQYMLYWIYIGRSQSEEALELARTIEDRDLIVYALLKYREQIKGDTDLSGDEKQKKLDEIDQEIKEYERERKESEAQLE AQPKQEAYIQSTELFLQNKYSDVITTLEDYAPEDMPYVIQYELASSYVMTESLTEEQRQTVSNNITLKTDEQYMLYWIYIGRSQSEEALELARTIEDRDLIVYALLKYREQIKGDTDLSGDEKQKKLDEIDQEIKEYERERKESEAQLE 2ynq-a5-m3-cC_2ynq-a5-m1-cD Crystal Structure of Geobacillus thermodenitrificans EssB extracellular fragment A4IKE6 A4IKE6 2.4 X-RAY DIFFRACTION 33 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 149 151 2ynq-a4-m1-cA_2ynq-a4-m4-cB AQPKQEAYIQSTELFLQNKYSDVITTLEDYAPEDMPYVIQYELASSYVMTESLTEEQRQTVSNNITLKTDEQYMLYWIYIGRSQSEEALELARTIEDRDLIVYALLKYREQIKGDTDLSGDEKQKKLDEIDQEIKEYERERKESEAQLE TAQPKQEAYIQSTELFLQNKYSDVITTLEDYAPEDMPYVIQYELASSYVMTESLTEEQRQTVSNNITLKTDEQYMLYWIYIGRSQSEEALELARTIEDRDLIVYALLKYREQIKGDTDLSGDEKQKKLDEIDQEIKEYERERKESEAQLEE 2yny-a1-m1-cB_2yny-a1-m1-cC Salmonella enterica SadA 255-302 fused to GCN4 adaptors (SadAK1) P03069 P03069 1.35 X-RAY DIFFRACTION 120 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 104 105 2yny-a1-m1-cB_2yny-a1-m1-cA 2yny-a1-m1-cC_2yny-a1-m1-cA QIEDKIEEILSKIYHIENEIARIKKLIYSLSQSVADRLGGGASVNSDGTVNAPLYEVGTGIYNNVGSALSALNTSMKQIEDKIEEILSKIYHIENEIARIKKLI KQIEDKIEEILSKIYHIENEIARIKKLIYSLSQSVADRLGGGASVNSDGTVNAPLYEVGTGIYNNVGSALSALNTSMKQIEDKIEEILSKIYHIENEIARIKKLI 2ynz-a1-m1-cB_2ynz-a1-m1-cC Salmonella enterica SadA 823-947 fused to a GCN4 adaptor (SadAK5) Q8ZL64 Q8ZL64 1.4 X-RAY DIFFRACTION 165 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 109 109 2ynz-a1-m1-cA_2ynz-a1-m1-cB 2ynz-a1-m1-cA_2ynz-a1-m1-cC QIEDKIEEILSKIYHIENEIARIKKLIYETNQKVDQNTSAIADINTSITNLGTDALSWDDEEGAFSASHGTSGTNKITNVAAGEIASDSTDAVNGSQLYETNMLISQYN QIEDKIEEILSKIYHIENEIARIKKLIYETNQKVDQNTSAIADINTSITNLGTDALSWDDEEGAFSASHGTSGTNKITNVAAGEIASDSTDAVNGSQLYETNMLISQYN 2yo0-a1-m2-cA_2yo0-a1-m3-cA Salmonella enterica SadA 1049-1304 fused to GCN4 adaptors (SadAK9-cfI) P03069 P03069 2.8 X-RAY DIFFRACTION 419 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 276 276 2yo0-a1-m1-cA_2yo0-a1-m2-cA 2yo0-a1-m1-cA_2yo0-a1-m3-cA 2yo1-a1-m1-cA_2yo1-a1-m1-cB 2yo1-a1-m1-cA_2yo1-a1-m1-cC 2yo1-a1-m1-cB_2yo1-a1-m1-cC KYYHANSTEEDSLAVGTDSLAMGAKTIVNADAGIGIGLNTLVMADAINGIAIGSNARANHANSIAMGNGSQTTRGAQTDYTAYNMDTPQNSVGEFSVGSEDGQRQITNVAAGSADTDAVNVGQLKVTDAQVSRNTQSITNLNTQVSNLDTRVTNIENGIGDIVTTGSTKYFKTNTDGADANAQGADSVAIGSGSIAAAENSVALGTNSVADEANTVSVGSSTQQRRITNVAAGVNNTDAVNVAQMKQIEDKIEEILSKIYHIENEIARIKKLIKLH KYYHANSTEEDSLAVGTDSLAMGAKTIVNADAGIGIGLNTLVMADAINGIAIGSNARANHANSIAMGNGSQTTRGAQTDYTAYNMDTPQNSVGEFSVGSEDGQRQITNVAAGSADTDAVNVGQLKVTDAQVSRNTQSITNLNTQVSNLDTRVTNIENGIGDIVTTGSTKYFKTNTDGADANAQGADSVAIGSGSIAAAENSVALGTNSVADEANTVSVGSSTQQRRITNVAAGVNNTDAVNVAQMKQIEDKIEEILSKIYHIENEIARIKKLIKLH 2yo2-a1-m2-cA_2yo2-a1-m3-cA Salmonella enterica SadA 255-358 fused to GCN4 adaptors (SadAK12) P03069 P03069 2 X-RAY DIFFRACTION 223 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 160 160 2yo2-a1-m1-cA_2yo2-a1-m2-cA 2yo2-a1-m1-cA_2yo2-a1-m3-cA QIEDKIEEILSKIYHIENEIARIKKLIYSLSQSVADRLGGGASVNSDGTVNAPLYEVGTGIYNNVGSALSALNTSITNTEASVAGLAEDALLWDESISAFSASHTGNASKITNLAAGTLAADSTDAVNGSQMKQIEDKIEEILSKIYHIENEIARIKKLI QIEDKIEEILSKIYHIENEIARIKKLIYSLSQSVADRLGGGASVNSDGTVNAPLYEVGTGIYNNVGSALSALNTSITNTEASVAGLAEDALLWDESISAFSASHTGNASKITNLAAGTLAADSTDAVNGSQMKQIEDKIEEILSKIYHIENEIARIKKLI 2yo3-a1-m1-cC_2yo3-a1-m1-cB Salmonella enterica SadA 1185-1386 fused to GCN4 adaptors (SadAK14) P03069 P03069 2 X-RAY DIFFRACTION 384 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 257 258 2yo3-a1-m1-cA_2yo3-a1-m1-cB 2yo3-a1-m1-cA_2yo3-a1-m1-cC MKQIEDKIEEILSKIYHIENEIARIKKLIKVTDAQVSRNTQSITNLNTQVSNLDTRVTNIENGIGDIVTTGSTKYFKTNTDGADANAQGADSVAIGSGSIAAAENSVALGTNSVADEANTVSVGSSTQQRRITNVAAGVNNTDAVNVAQLKASEAGSVRYETNADSVNYSVLNLGDGSGGTTRIGNVSAAVNDTDAVNYAQLKRSVEEANTYTDQKMGEMNSKIKGVENKMKQIEDKIEEILSKIYHIENEIARIKK MKQIEDKIEEILSKIYHIENEIARIKKLIKVTDAQVSRNTQSITNLNTQVSNLDTRVTNIENGIGDIVTTGSTKYFKTNTDGADANAQGADSVAIGSGSIAAAENSVALGTNSVADEANTVSVGSSTQQRRITNVAAGVNNTDAVNVAQLKASEAGSVRYETNADGSVNYSVLNLGDGSGGTTRIGNVSAAVNDTDAVNYAQLKRSVEEANTYTDQKMGEMNSKIKGVENKMKQIEDKIEEILSKIYHIENEIARIKK 2yoc-a1-m1-cA_2yoc-a1-m2-cB Crystal structure of PulA from Klebsiella oxytoca P07206 P07206 2.88 X-RAY DIFFRACTION 57 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 1029 1033 2yoc-a1-m2-cA_2yoc-a1-m1-cB DVVVRLPDVAVPGEAVTAVENQAVIHLVDIAGITSSSAADYSSKNLYLWNNETCDALSAPVADWNDVSTTPSGSDKYGPYWVIPLNKESGCINVIVRDGTDKLIDSDLRVAFGDFTDRTVSVIAGNSAVYDSRADAFRAAFGVALAEAHWVDKNTLLWPGGQDKPIVRLYYSHSSKVAADGEGKFTDRYLKLTPTTVSQQVSRFPHLSSYAAFKLPDNANVDELLQGETVAIAAAEDGILISATQVQTAGVLDDAYAEAAEALSYGAQLADGGVTFRVWAPTAQQVDVVVYSADKKVIGSHPTRDSASGAWSWQGGSDLKGAFYRYATVYHPQSRKVEQYEVTDPYAHSLSTNSEYSQVVDLNDSALKPDGWDNLTPHAQKTKADLAKTIHESHIRDLSAWDQTVPAELRGKYLALTAGDSNVQHLKTLSASGVTHVELLPVFDLATVNEFSDKVADIQQPFSRLCEVNSAVKSSEFAGYCDSGSTVEEVLNQLKQSDSQDNPQVQALNTLVAQTDSYNWGYDPFHYTVPEGSYATDPEGTTRIKEFRTIQAIKQDLGNVIDVVYNHTNAAGPTDRTSVLDKIVPWYYQRLNETTGSVESATCCSDSAPEHRFAKLIADSLAVWTTDYKIDGFRFDLGYHPKAQILSAWERIKALNPDIYFFGEGWDSNQSDRFEIASQINLKGTGIGTFSDRLRDSVRGGGPFDSGDALRQNQGIGSGAGVLPNELASLSDDQVRHLADLTRLGAGNLADFVIDKDGAAKKGSEIDYNGAPGGYAADPTEVVNYVSKHDNQTLWDISYKASQEADLATRVRQAVSLATVLGQGIAFDQQGSELLRSKSFTRDSYDSGDWFNRVDYSLQDNNYNVGPRISDDGSNYEVITRVKEVATPGEAELKQTAFYQELTELRKSSPLFTLGDGSAVKRVDFRNTGSDQQAGLLVTVDDGKAGASLDSRLDGLVVAINAAPESRTLNEFAGETLQLSAIQQTAGENSLANGVQIAADGTVTLPAWSVAVLELPQGEAQGAGLPVSS DVVVRLPDVAVPGEAVTAVENQAVIHLVDIAGITSSSAADYSSKNLYLWNNETCDALSAPVADWNDVSTTPSGSDKYGPYWVIPLNKESGCINVIVRDGTDKLIDSDLRVAFGDFTDRTVSVIAGNSAVYDSRADAFRAAFGVALAEAHWVDKNTLLWPGGQDKPIVRLYYSHSSKVAADGEGKFTDRYLKLTPTTVSQQVSRFPHLSSYAAFKLPDNANVDELLQGETVAIAAAEDGILISATQVQTAGVLDDAYAEAAEALSYGAQLADGGVTFRVWAPTAQQVDVVVYSADKKVIGSHPTRDSASGAWSWQGGSDLKGAFYRYATVYHPQSRKVEQYEVTDPYAHSLSTNSEYSQVVDLNDSALKPDGWDNLTPHAQKTKADLAKTIHESHIRDLSAWDQTVPAELRGKYLALTAGDSNVQHLKTLSASGVTHVELLPVFDLATVNEFSDKVADIQQPFSRLCEVNSAVKSSEFAGYCDSGSTVEEVLNQLKQSDSQDNPQVQALNTLVAQTDSYNWGYDPFHYTVPEGSYATDPEGTTRIKEFRTIQAIKQDLGNVIDVVYNHTNAAGPTDRTSVLDKIVPWYYQRLNETTGSVESATCCSDSAPEHRFAKLIADSLAVWTTDYKIDGFRFDLGYHPKAQILSAWERIKALNPDIYFFGEGWDSNQSDRFEIASQINLKGTGIGTFSDRLRDSVRGGGPFDSGDALRQNQGIGSGAGVLPNELASLSDDQVRHLADLTRLGAGNLADFVIDKDGAAKKGSEIDYNGAPGGYAADPTEVVNYVSKHDNQTLWDISYKASQEADLATRVRQAVSLATVLGQGIAFDQQGSELLRSKSFTRDSYDSGDWFNRVDYSLQDNNYNVGPRISDDGSNYEVITRVKEVATPGEAELKQTAFYQELTELRKSSPLFTLGDGSAVKRVDFRNTGSDQQAGLLVTVDDGKAGASLDSRLDGLVVAINAAPESRTLNEFAGETLQLSAIQQTAGENSLANGVQIAADGTVTLPAWSVAVLELPQGEAQGAGLPVSSYYHH 2yoc-a1-m2-cA_2yoc-a1-m2-cB Crystal structure of PulA from Klebsiella oxytoca P07206 P07206 2.88 X-RAY DIFFRACTION 108 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 1029 1033 2yoc-a1-m1-cA_2yoc-a1-m1-cB DVVVRLPDVAVPGEAVTAVENQAVIHLVDIAGITSSSAADYSSKNLYLWNNETCDALSAPVADWNDVSTTPSGSDKYGPYWVIPLNKESGCINVIVRDGTDKLIDSDLRVAFGDFTDRTVSVIAGNSAVYDSRADAFRAAFGVALAEAHWVDKNTLLWPGGQDKPIVRLYYSHSSKVAADGEGKFTDRYLKLTPTTVSQQVSRFPHLSSYAAFKLPDNANVDELLQGETVAIAAAEDGILISATQVQTAGVLDDAYAEAAEALSYGAQLADGGVTFRVWAPTAQQVDVVVYSADKKVIGSHPTRDSASGAWSWQGGSDLKGAFYRYATVYHPQSRKVEQYEVTDPYAHSLSTNSEYSQVVDLNDSALKPDGWDNLTPHAQKTKADLAKTIHESHIRDLSAWDQTVPAELRGKYLALTAGDSNVQHLKTLSASGVTHVELLPVFDLATVNEFSDKVADIQQPFSRLCEVNSAVKSSEFAGYCDSGSTVEEVLNQLKQSDSQDNPQVQALNTLVAQTDSYNWGYDPFHYTVPEGSYATDPEGTTRIKEFRTIQAIKQDLGNVIDVVYNHTNAAGPTDRTSVLDKIVPWYYQRLNETTGSVESATCCSDSAPEHRFAKLIADSLAVWTTDYKIDGFRFDLGYHPKAQILSAWERIKALNPDIYFFGEGWDSNQSDRFEIASQINLKGTGIGTFSDRLRDSVRGGGPFDSGDALRQNQGIGSGAGVLPNELASLSDDQVRHLADLTRLGAGNLADFVIDKDGAAKKGSEIDYNGAPGGYAADPTEVVNYVSKHDNQTLWDISYKASQEADLATRVRQAVSLATVLGQGIAFDQQGSELLRSKSFTRDSYDSGDWFNRVDYSLQDNNYNVGPRISDDGSNYEVITRVKEVATPGEAELKQTAFYQELTELRKSSPLFTLGDGSAVKRVDFRNTGSDQQAGLLVTVDDGKAGASLDSRLDGLVVAINAAPESRTLNEFAGETLQLSAIQQTAGENSLANGVQIAADGTVTLPAWSVAVLELPQGEAQGAGLPVSS DVVVRLPDVAVPGEAVTAVENQAVIHLVDIAGITSSSAADYSSKNLYLWNNETCDALSAPVADWNDVSTTPSGSDKYGPYWVIPLNKESGCINVIVRDGTDKLIDSDLRVAFGDFTDRTVSVIAGNSAVYDSRADAFRAAFGVALAEAHWVDKNTLLWPGGQDKPIVRLYYSHSSKVAADGEGKFTDRYLKLTPTTVSQQVSRFPHLSSYAAFKLPDNANVDELLQGETVAIAAAEDGILISATQVQTAGVLDDAYAEAAEALSYGAQLADGGVTFRVWAPTAQQVDVVVYSADKKVIGSHPTRDSASGAWSWQGGSDLKGAFYRYATVYHPQSRKVEQYEVTDPYAHSLSTNSEYSQVVDLNDSALKPDGWDNLTPHAQKTKADLAKTIHESHIRDLSAWDQTVPAELRGKYLALTAGDSNVQHLKTLSASGVTHVELLPVFDLATVNEFSDKVADIQQPFSRLCEVNSAVKSSEFAGYCDSGSTVEEVLNQLKQSDSQDNPQVQALNTLVAQTDSYNWGYDPFHYTVPEGSYATDPEGTTRIKEFRTIQAIKQDLGNVIDVVYNHTNAAGPTDRTSVLDKIVPWYYQRLNETTGSVESATCCSDSAPEHRFAKLIADSLAVWTTDYKIDGFRFDLGYHPKAQILSAWERIKALNPDIYFFGEGWDSNQSDRFEIASQINLKGTGIGTFSDRLRDSVRGGGPFDSGDALRQNQGIGSGAGVLPNELASLSDDQVRHLADLTRLGAGNLADFVIDKDGAAKKGSEIDYNGAPGGYAADPTEVVNYVSKHDNQTLWDISYKASQEADLATRVRQAVSLATVLGQGIAFDQQGSELLRSKSFTRDSYDSGDWFNRVDYSLQDNNYNVGPRISDDGSNYEVITRVKEVATPGEAELKQTAFYQELTELRKSSPLFTLGDGSAVKRVDFRNTGSDQQAGLLVTVDDGKAGASLDSRLDGLVVAINAAPESRTLNEFAGETLQLSAIQQTAGENSLANGVQIAADGTVTLPAWSVAVLELPQGEAQGAGLPVSSYYHH 2yp1-a2-m1-cD_2yp1-a2-m1-cB Crystallization of a 45 kDa peroxygenase- peroxidase from the mushroom Agrocybe aegerita and structure determination by SAD utilizing only the haem iron B9W4V6 B9W4V6 2.31 X-RAY DIFFRACTION 81 1.0 323 324 2yor-a1-m1-cA_2yor-a1-m1-cB 2yp1-a1-m1-cA_2yp1-a1-m1-cC LPPGPLENSSAKLVNDEAHPWKPLRPGDIRGPCPGLNTLASHGYLPRNGVATPVQIINAVQEGLNFDNQAAVFATYAAHLVDGNLITDLLSIGRKTRLTGPDPPPPASVGGLNEHGTFEGDASMTRGDAFFGNNHDFNETLFEQLVDYSNRFGGGKYNLTVAGELRFKRIQDSIATNPNFSFVDFRFFTAYGETTFPANLFVDGRRDDGQLDMDAARSFFQFSRMPDDFFRAPSPRSGTGVEVVIQAHPMQPGRNVGKINSYTVDPTSSDFSTPCLMYEKFVNITVKSLYPNPTVQLRKALNTNLDFFFQGVAAGCTQVFPYG LPPGPLENSSAKLVNDEAHPWKPLRPGDIRGPCPGLNTLASHGYLPRNGVATPVQIINAVQEGLNFDNQAAVFATYAAHLVDGNLITDLLSIGRKTRLTGPDPPPPASVGGLNEHGTFEGDASMTRGDAFFGNNHDFNETLFEQLVDYSNRFGGGKYNLTVAGELRFKRIQDSIATNPNFSFVDFRFFTAYGETTFPANLFVDGRRDDGQLDMDAARSFFQFSRMPDDFFRAPSPRSGTGVEVVIQAHPMQPGRNVGKINSYTVDPTSSDFSTPCLMYEKFVNITVKSLYPNPTVQLRKALNTNLDFFFQGVAAGCTQVFPYGR 2ypr-a1-m1-cB_2ypr-a1-m1-cA Crystal structure of the DNA binding ETS domain of human protein FEV Q99581 Q99581 2.64 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 96 QIQLWQFLLELLADRANAGCIAWEGGHGEFKLTDPDEVARRWGERKSKPNMNYDKLSRALRYYYDKNIMSKVHGKRYAYRFDFQGLAQACQP KGSGQIQLWQFLLELLADRANAGCIAWEGGHGEFKLTDPDEVARRWGERKSKPNMNYDKLSRALRYYYDKNIMSKVHGKRYAYRFDFQGLAQACQP 2yq1-a1-m1-cD_2yq1-a1-m1-cC MHV-68 LANA (ORF73) C-terminal domain: triclinic crystal form O41974 O41974 2.3 X-RAY DIFFRACTION 140 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 128 131 2yq1-a2-m1-cB_2yq1-a2-m1-cA 4blg-a1-m1-cB_4blg-a1-m1-cA QKPHNPSDPLPKKYQGMRRHLQVTAPRLFDPEGHPPTHFKSAVMFSSTHPYTLNKLHKCIQSKHVLSTPVSCLPLVPGTCVTYYLLSFVEDKKQAKKLKRVVLAYCEKYHSSVEGTIVKAKPYFPLPE QKPHNPSDPLPKKYQGMRRHLQVTAPRLFDPEGHPPTHFKSAVMFSSTHPYTLNKLHKCIQSKHVLSTPVSCLPLVPGTTQQCVTYYLLSFVEDKKQAKKLKRVVLAYCEKYHSSVEGTIVKAKPYFPLPE 2yq2-a1-m1-cB_2yq2-a1-m1-cA Structure of BVDV1 envelope glycoprotein E2, pH8 Q01499 Q01499 2.58 X-RAY DIFFRACTION 126 1.0 11099 (Bovine viral diarrhea virus 1) 11099 (Bovine viral diarrhea virus 1) 330 332 2yq3-a1-m1-cA_2yq3-a1-m1-cB TGCKPEYYYAIAKNDRIGPLGAEGLTTVWKDYSPEMTLEDTMVIASCRDGKFMYLSRCTRETRYLAILHSRALPTSVVFKKLFEGQKQGDTVEMDDDFEFGLCPCDAKPIVRGKYNTTLLNGPAFQMVCPIGWTGTVSCMLANRDTLDTAVVRTYRRSRPFPYRQGCITQKVLGEDLYDCILGGNWTCVTGDQLQYSGGSIESCKWCGFKFQRSEGLPHYPIGKCRLKNETGYRLVDNTSCNREGVAIVPQGTVKCKIGDTTVQVIALDTKLGPMPCKPYEIISSEGPVEKTACTFNYTKTLKNKYFEPRDSYFQQYMLKGEYQYWFDLE TGCKPEYYYAIAKNDRIGPLGAEGLTTVWKDYSPEMTLEDTMVIASCRDGKFMYLSRCTRETRYLAILHSRALPTSVVFKKLFEGQKQGDTVEMDDDFEFGLCPCDAKPIVRGKYNTTLLNGPAFQMVCPIGWTGTVSCMLANRDTLDTAVVRTYRRSRPFPYRQGCITQKVLGEDLYDCILGGNWTCVTGDQLQYSGGSIESCKWCGFKFQRSEGLPHYPIGKCRLKNETGYRLVDNTSCNREGVAIVPQGTVKCKIGDTTVQVIALDTKLGPMPCKPYEIISSEGPVEKTACTFNYTKTLKNKYFEPRDSYFQQYMLKGEYQYWFDLEVT 2yq5-a1-m1-cA_2yq5-a1-m1-cB Crystal Structure of D-isomer specific 2-hydroxyacid dehydrogenase from Lactobacillus delbrueckii ssp. bulgaricus: NAD complexed form Q1GAA2 Q1GAA2 2.75 X-RAY DIFFRACTION 170 0.997 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 328 328 2yq4-a1-m1-cA_2yq4-a1-m1-cB 2yq4-a1-m1-cD_2yq4-a1-m1-cC 2yq5-a1-m1-cD_2yq5-a1-m1-cC TKIAMYNVSPIEVPYIEDWAKKNDVEIKTTDQALTSATVDLAEGCSSVSLKPLGPVDEEVVYQKLSEYGVKCIGLRIVGFNTINFDWTKKLLVTNVPVYSPRAIAEMTVTQAMYLLRKIGEFRYRMDHDHDFTWPSNLISNEIYNLTVGLIGVGHIGSAVAEIFSAMGAKVIAYDVAYNPEFEPFLTYTDFDTVLKEADIVSLHTPLFPSTENMIGEKQLKEMKKSAYLINCARGELVDTGALIKALQDGEIAGAGLDTLAGESSYFGHTGLTDSEIPEDYKTLAKMPNVVITPHSAFYTETSIRNMVQICLTDQLTIAKGGRPRSIV TKIAMYNVSPIEVPYIEDWAKKNDVEIKTTDQALTSATVDLAEGCSSVSLKPLGPVDEEVVYQKLSEYGVKCIGLRIVGFNTINFDWTKLLVTNVPVYSPRAIAEMTVTQAMYLLRKIGEFRYRMDHDHDFTWPSNLISNEIYNLTVGLIGVGHIGSAVAEIFSAMGAKVIAYDVAYNPEFEPFLTYTDFDTVLKEADIVSLHTPLFPSTENMIGEKQLKEMKKSAYLINCARGELVDTGALIKALQDGEIAGAGLDTLAGESSYFGHTGLTDSEIPEDYKTLAKMPNVVITPHSAFYTETSIRNMVQICLTDQLTIAKGGRPRSIVN 2yq5-a1-m1-cD_2yq5-a1-m1-cA Crystal Structure of D-isomer specific 2-hydroxyacid dehydrogenase from Lactobacillus delbrueckii ssp. bulgaricus: NAD complexed form Q1GAA2 Q1GAA2 2.75 X-RAY DIFFRACTION 41 1.0 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 321 328 2yq4-a1-m1-cB_2yq4-a1-m1-cC 2yq4-a1-m1-cD_2yq4-a1-m1-cA 2yq5-a1-m1-cB_2yq5-a1-m1-cC TKIAMYNVSPIEVPYIEDWAKKNDVEIKTTDQALTSATVDLAEGCSSVSLKPLGPVDEEVVYQKLSEYGVKCIGLRINTINFDWTKLLVTNVPVYSPRAIAEMTVTQAMYLLRKIGEFRYRMDHDHDFTWPSNLISNEIYNLTVGLIGVGHIGSAVAEIFSAMGAKVIAYDVAYNPEFEPFLTYTDFDTVLKEADIVSLHTPLFPSTENMIGEKQLKEMKKSAYLINCARGELVDTGALIKALQDGEIAGAGLDTLAGESSYFGHTGLTDSEIPEDYKTLAKMPNVVITPHSAFYTETSIRNMVQICLTDQLTIAKGPRSI TKIAMYNVSPIEVPYIEDWAKKNDVEIKTTDQALTSATVDLAEGCSSVSLKPLGPVDEEVVYQKLSEYGVKCIGLRIVGFNTINFDWTKKLLVTNVPVYSPRAIAEMTVTQAMYLLRKIGEFRYRMDHDHDFTWPSNLISNEIYNLTVGLIGVGHIGSAVAEIFSAMGAKVIAYDVAYNPEFEPFLTYTDFDTVLKEADIVSLHTPLFPSTENMIGEKQLKEMKKSAYLINCARGELVDTGALIKALQDGEIAGAGLDTLAGESSYFGHTGLTDSEIPEDYKTLAKMPNVVITPHSAFYTETSIRNMVQICLTDQLTIAKGGRPRSIV 2yq5-a1-m1-cD_2yq5-a1-m1-cB Crystal Structure of D-isomer specific 2-hydroxyacid dehydrogenase from Lactobacillus delbrueckii ssp. bulgaricus: NAD complexed form Q1GAA2 Q1GAA2 2.75 X-RAY DIFFRACTION 17 1.0 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 1585 (Lactobacillus delbrueckii subsp. bulgaricus) 321 328 2yq4-a1-m1-cA_2yq4-a1-m1-cC 2yq4-a1-m1-cD_2yq4-a1-m1-cB 2yq5-a1-m1-cA_2yq5-a1-m1-cC TKIAMYNVSPIEVPYIEDWAKKNDVEIKTTDQALTSATVDLAEGCSSVSLKPLGPVDEEVVYQKLSEYGVKCIGLRINTINFDWTKLLVTNVPVYSPRAIAEMTVTQAMYLLRKIGEFRYRMDHDHDFTWPSNLISNEIYNLTVGLIGVGHIGSAVAEIFSAMGAKVIAYDVAYNPEFEPFLTYTDFDTVLKEADIVSLHTPLFPSTENMIGEKQLKEMKKSAYLINCARGELVDTGALIKALQDGEIAGAGLDTLAGESSYFGHTGLTDSEIPEDYKTLAKMPNVVITPHSAFYTETSIRNMVQICLTDQLTIAKGPRSI TKIAMYNVSPIEVPYIEDWAKKNDVEIKTTDQALTSATVDLAEGCSSVSLKPLGPVDEEVVYQKLSEYGVKCIGLRIVGFNTINFDWTKLLVTNVPVYSPRAIAEMTVTQAMYLLRKIGEFRYRMDHDHDFTWPSNLISNEIYNLTVGLIGVGHIGSAVAEIFSAMGAKVIAYDVAYNPEFEPFLTYTDFDTVLKEADIVSLHTPLFPSTENMIGEKQLKEMKKSAYLINCARGELVDTGALIKALQDGEIAGAGLDTLAGESSYFGHTGLTDSEIPEDYKTLAKMPNVVITPHSAFYTETSIRNMVQICLTDQLTIAKGGRPRSIVN 2yq8-a1-m1-cA_2yq8-a1-m1-cB Crystal structure of the SeMet-labeled N-terminal domain and peptide substrate binding domain of alpha subunit of prolyl-4 hydroxylase type I from human. P13674 P13674 2.987 X-RAY DIFFRACTION 176 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 221 4bt8-a1-m1-cA_4bt8-a1-m1-cB 4bt9-a1-m1-cA_4bt9-a1-m1-cB 4bta-a1-m1-cB_4bta-a1-m1-cA SIGQTDLIHTEKDLVTSLKDYIKAEEDKLEQIKKWAEKLDRLTSTATKDPEGFVGHPVNAFKLKRLNTEWSELENLVLKDSDGFISNLTIQRQYFPNDEDQVGAAKALLRLQDTYNLDTDTISKGNLPFLTAEDCFELGKVAYTEADYYHTELWEQALRQLDEGEISTIDKVSVLDYLSYAVYQQGDLDKALLLTKKLLELDPEHQRANGNLKYFEYIAK SIGQTDLIHTEKDLVTSLKDYIKAEEDKLEQIKKWAEKLDRLTSTATKDPEGFVGHPVNAFKLKRLNTEWSELENLVLKDSDGFISNLTIQRQYFPNDEDQVGAAKALLRLQDTYNLDTDTISKGNLPSFLTAEDCFELGKVAYTEADYYHTELWEQALRQLDEGEISTIDKVSVLDYLSYAVYQQGDLDKALLLTKKLLELDPEHQRANGNLKYFEYIAK 2yqu-a1-m1-cA_2yqu-a1-m1-cB Crystal structures and evolutionary relationship of two different lipoamide dehydrogenase(E3s) from Thermus thermophilus Q5SLK6 Q5SLK6 1.7 X-RAY DIFFRACTION 256 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 455 455 2eq7-a1-m1-cA_2eq7-a1-m1-cB MYDLLVIGAGPGGYVAAIRAAQLGMKVGVVEKEKALGGTCLRVGCIPSKALLETTERIYEAKKGLLGAKVKGVELDLPALMAHKDKVVQANTQGVEFLFKKNGIARHQGTARFLSERKVLVEETGEELEARYILIATGSAPLIPPWAQVDYERVVTSTEALSFPEVPKRLIVVGGGVIGLELGVVWHRLGAEVIVLEYMDRILPTMDLEVSRAAERVFKKQGLTIRTGVRVTAVVPEAKGARVELEGGEVLEADRVLVAVGRRPYTEGLSLENAGLSTDERGRIPVDEHLRTRVPHIYAIGDVVRGPMLAHKASEEGIAAVEHMVRGFGHVDYQAIPSVVYTHPEIAAVGYTEEELKAQGIPYKVGKFPYSASGRARAMGETEGFIKVLAHAKTDRILGVHGIGARVGDVLAEAALALFFKASAEDLGRAPHAHPSLSEILKEAALAAWERPIHL MYDLLVIGAGPGGYVAAIRAAQLGMKVGVVEKEKALGGTCLRVGCIPSKALLETTERIYEAKKGLLGAKVKGVELDLPALMAHKDKVVQANTQGVEFLFKKNGIARHQGTARFLSERKVLVEETGEELEARYILIATGSAPLIPPWAQVDYERVVTSTEALSFPEVPKRLIVVGGGVIGLELGVVWHRLGAEVIVLEYMDRILPTMDLEVSRAAERVFKKQGLTIRTGVRVTAVVPEAKGARVELEGGEVLEADRVLVAVGRRPYTEGLSLENAGLSTDERGRIPVDEHLRTRVPHIYAIGDVVRGPMLAHKASEEGIAAVEHMVRGFGHVDYQAIPSVVYTHPEIAAVGYTEEELKAQGIPYKVGKFPYSASGRARAMGETEGFIKVLAHAKTDRILGVHGIGARVGDVLAEAALALFFKASAEDLGRAPHAHPSLSEILKEAALAAWERPIHL 2yqy-a4-m1-cB_2yqy-a4-m2-cB Crystal structure of TT2238, a four-helix bundle protein Q5SLJ0 Q5SLJ0 2 X-RAY DIFFRACTION 34 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 125 125 2yqy-a3-m1-cA_2yqy-a3-m2-cA TWDEALKRLEASRKALLALLREADPAWLSAPAWTPLMVAEHVALVEDSTARVLRRLRRLAALSLEEVLALLDRARAFLLEEVAKADPQNPATFPHPFFGELNPLGWLRAAAYHEAHHLKALQASL TWDEALKRLEASRKALLALLREADPAWLSAPAWTPLMVAEHVALVEDSTARVLRRLRRLAALSLEEVLALLDRARAFLLEEVAKADPQNPATFPHPFFGELNPLGWLRAAAYHEAHHLKALQASL 2yr1-a1-m1-cA_2yr1-a1-m1-cB Crystal Structure of 3-dehydroquinate dehydratase from Geobacillus kaustophilus HTA426 Q5KY94 Q5KY94 2 X-RAY DIFFRACTION 77 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 257 257 MNISPKAIKVRNIWIGGTEPCICAPVVGEDDRKVLREAEEVCRKQPDLLEWRADFFRAIDDQERVLATANGLRNIAGEIPILFTIRSEREGGQPIPLNEAEVRRLIEAICRSGAIDLVDYELAYGERIADVRRMTEECSVWLVVSRHYFDGTPRKETLLADMRQAERYGADIAKVAVMPKSPEDVLVLLQATEEARRELAIPLITMAMGGLGAITRLAGWLFGSAVTFAVGNQSSAPGQIPIDDVRTVLSILQTYSR MNISPKAIKVRNIWIGGTEPCICAPVVGEDDRKVLREAEEVCRKQPDLLEWRADFFRAIDDQERVLATANGLRNIAGEIPILFTIRSEREGGQPIPLNEAEVRRLIEAICRSGAIDLVDYELAYGERIADVRRMTEECSVWLVVSRHYFDGTPRKETLLADMRQAERYGADIAKVAVMPKSPEDVLVLLQATEEARRELAIPLITMAMGGLGAITRLAGWLFGSAVTFAVGNQSSAPGQIPIDDVRTVLSILQTYSR 2yr2-a3-m1-cB_2yr2-a3-m3-cA Crystal Structure of the Hypothetical regulator from Sulfolobus tokodaii Q96ZY1 Q96ZY1 2.01 X-RAY DIFFRACTION 18 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 141 142 ENRIQIMSTIAKIYRAMSRELNRRLGELNLSYLDFLVLRATSDGPKTMAYLANRYFVTQSAITASVDKLEEMGLVVRVRDREDRRKILIEITEKGLETFNKGIEIYKKLANEVTGDLSEDEVILVLDKISKILKRIEEISQ NENRIQIMSTIAKIYRAMSRELNRRLGELNLSYLDFLVLRATSDGPKTMAYLANRYFVTQSAITASVDKLEEMGLVVRVRDREDRRKILIEITEKGLETFNKGIEIYKKLANEVTGDLSEDEVILVLDKISKILKRIEEISQ 2yrr-a1-m1-cA_2yrr-a1-m1-cB hypothetical alanine aminotransferase (TTH0173) from Thermus thermophilus HB8 Q5SLX0 Q5SLX0 1.86 X-RAY DIFFRACTION 173 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 352 352 2yri-a1-m1-cA_2yri-a1-m1-cB MLLLTPGPTPIPERVQKALLRPMRGHLDPEVLRVNRAIQERLAALFDPGEGALVAALAGSGSLGMEAGLANLDRGPVLVLVNGAFSQRVAEMAALHGLDPEVLDFPPGEPVDPEAVARALKRRRYRMVALVHGETSTGVLNPAEAIGALAKEAGALFFLDAVTTLGMLPFSMRAMGVDYAFTGSQKCLSAPPGLAPIAASLEARKAFTGKRGWYLDLARVAEHWERGGYHHTTPVLLHYALLEALDLVLEEGVAARERRAREVYAWVLEELKARGFRPYPKASPLPTVLVVRPPEGVDADRLVRALYAEGVAVAGGIGPTRGQVLRLGLMGEGARREAYQAFLKALDRALAL MLLLTPGPTPIPERVQKALLRPMRGHLDPEVLRVNRAIQERLAALFDPGEGALVAALAGSGSLGMEAGLANLDRGPVLVLVNGAFSQRVAEMAALHGLDPEVLDFPPGEPVDPEAVARALKRRRYRMVALVHGETSTGVLNPAEAIGALAKEAGALFFLDAVTTLGMLPFSMRAMGVDYAFTGSQKCLSAPPGLAPIAASLEARKAFTGKRGWYLDLARVAEHWERGGYHHTTPVLLHYALLEALDLVLEEGVAARERRAREVYAWVLEELKARGFRPYPKASPLPTVLVVRPPEGVDADRLVRALYAEGVAVAGGIGPTRGQVLRLGLMGEGARREAYQAFLKALDRALAL 2ysk-a1-m1-cA_2ysk-a1-m2-cA Crystal structure of a hypothetical protein TTHA1432 from Thermus thermophilus Q5SIE2 Q5SIE2 1.9 X-RAY DIFFRACTION 80 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 144 144 SATGLEVFDRTLHKTHAWLKAIMEELGTEDRHKAYLALRAVLHALRDRLTVEEVAQLAAQLPMLVRGLYYEGWDPTGKPLKERHKEAFLAHVAEELKTPSGPAVDPEAATRAVFKVLSREISQGELEDVLGLLPKELRALWPQG SATGLEVFDRTLHKTHAWLKAIMEELGTEDRHKAYLALRAVLHALRDRLTVEEVAQLAAQLPMLVRGLYYEGWDPTGKPLKERHKEAFLAHVAEELKTPSGPAVDPEAATRAVFKVLSREISQGELEDVLGLLPKELRALWPQG 2ysw-a2-m1-cC_2ysw-a2-m2-cC Crystal Structure of the 3-dehydroquinate dehydratase from Aquifex aeolicus VF5 O66440 O66440 2.25 X-RAY DIFFRACTION 58 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 219 219 2ysw-a1-m1-cA_2ysw-a1-m1-cB MLIAVPLDDTNFSENLKKAKEKGADIVELRVDQFSDTSLNYVKEKLEEVHSQGLKTILTIRSPEEGGREVKNREELFEELSPLSDYTDIELSSRGLLVKLYNITKEAGKKLIISYHNFELTPPNWIIREVLREGYRYGGIPKIAVKANSYEDVARLLCISRQVEGEKILISMGDYGKISRLAGYVFGSVITYCSLEKAFAPGQIPLEEMVELRKKFYRL MLIAVPLDDTNFSENLKKAKEKGADIVELRVDQFSDTSLNYVKEKLEEVHSQGLKTILTIRSPEEGGREVKNREELFEELSPLSDYTDIELSSRGLLVKLYNITKEAGKKLIISYHNFELTPPNWIIREVLREGYRYGGIPKIAVKANSYEDVARLLCISRQVEGEKILISMGDYGKISRLAGYVFGSVITYCSLEKAFAPGQIPLEEMVELRKKFYRL 2yut-a1-m1-cA_2yut-a1-m2-cA Crystal Structure of Putative Short-Chain Oxidoreductase TTHB094 from Thermus thermophilus HB8 Q53W68 Q53W68 2.2 X-RAY DIFFRACTION 129 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 200 200 RVLITGATGGLGGAFARALKGHDLLLSGRRAGALAELAREVGARALPADLADELEAKALLEEAGPLDLLVHAVGKAGRASVREDLVEELAAHLLTAAFVLKHARFQKGARAVFFGAYPRYVQVPGFAAYAAAKGALEAYLEAARKELLREGVHLVLVRLPAVATGLWAPLGGPPKGALSPEEAARKVLEGLFPVPALLEV RVLITGATGGLGGAFARALKGHDLLLSGRRAGALAELAREVGARALPADLADELEAKALLEEAGPLDLLVHAVGKAGRASVREDLVEELAAHLLTAAFVLKHARFQKGARAVFFGAYPRYVQVPGFAAYAAAKGALEAYLEAARKELLREGVHLVLVRLPAVATGLWAPLGGPPKGALSPEEAARKVLEGLFPVPALLEV 2yv3-a1-m1-cA_2yv3-a1-m1-cB Crystal Structure of Aspartate Semialdehyde Dehydrogenase from Thermus thermophilus HB8 Q5SKU8 Q5SKU8 2.7 X-RAY DIFFRACTION 163 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 328 328 MRVAVVGATGAVGREILKVLEARNFPLSELRLYASPRSAGVRLAFRGEEIPVEPLPEGPLPVDLVLASAGGGISRAKALVWAEGGALVVDNSSAWRYEPWVPLVVPEVNREKIFQHRGIIANPNCTTAILAMALWPLHRAFQAKRVIVATYQAASGAGAKAMEELLTETHRFLHGEAPKAEAFAHPLPFNVIPHIDAFQENGYTREEMKVVWETHKIFGDDTIRISATAVRVPTLRAHAEAVSVEFARPVTPEAAREVLKEAPGVEVVDEPEAKRYPMPLTASGKWDVEVGRIRKSLAFENGLDFFVVGDQLLKGAALNAVQIAEEWL MRVAVVGATGAVGREILKVLEARNFPLSELRLYASPRSAGVRLAFRGEEIPVEPLPEGPLPVDLVLASAGGGISRAKALVWAEGGALVVDNSSAWRYEPWVPLVVPEVNREKIFQHRGIIANPNCTTAILAMALWPLHRAFQAKRVIVATYQAASGAGAKAMEELLTETHRFLHGEAPKAEAFAHPLPFNVIPHIDAFQENGYTREEMKVVWETHKIFGDDTIRISATAVRVPTLRAHAEAVSVEFARPVTPEAAREVLKEAPGVEVVDEPEAKRYPMPLTASGKWDVEVGRIRKSLAFENGLDFFVVGDQLLKGAALNAVQIAEEWL 2yv9-a1-m1-cB_2yv9-a1-m1-cA Crystal structure of the CLIC homologue EXC-4 from c. elegans Q8WQA4 Q8WQA4 1.6 X-RAY DIFFRACTION 44 0.996 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 266 285 SKPLLELYVKASGIDARRIGADLFCQEFWMELYALYEIGVARVEVKTVNVNSEAFKKNFLGAQPPIMIEEEKELTYTDNREIEGRIFHLAKEFNVPLFEKDPSAEKRIENLYRNFKLFLRAKVEFDKSRVEDLPAQIKVHYNRVCEQLSNIDQLLSERKSRYLLGNSMTEYDCELMPRLHHIRIIGLSLLGFDIPHNFTHLWAYILTAYRTAAFIESCPADQDIIHHYKEQMNLFTNQRETLQSPTKTHTIPEKVLSDIRVKGLAP AMAEAYQIQSNGDPQSKPLLELYVKASGIDARRIGADLFCQEFWMELYALYEIGVARVEVKTVNVNSEAFKKNFLGAQPPIMIEEEKELTYTDNREIEGRIFHLAKEFNVPLFEKDPSAEKRIENLYRNFKLFLRAKVEFDKGKKEPSRVEDLPAQIKVHYNRVCEQLSNIDQLLSERKSRYLLGNSMTEYDCELMPRLHHIRIIGLSLLGFDIPHNFTHLWAYILTAYRTAAFIESCPADQDIIHHYKEQMNLFTNQRETLQSPTKTHTIPEKVLSDIRVKGLA 2yva-a1-m1-cA_2yva-a1-m2-cB Crystal structure of Escherichia coli DiaA P66817 P66817 1.85 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 2yva-a1-m1-cB_2yva-a1-m2-cA 4u6n-a1-m1-cA_4u6n-a1-m2-cA 4u6n-a1-m3-cA_4u6n-a1-m4-cA MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPH MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPH 2yva-a1-m1-cB_2yva-a1-m2-cB Crystal structure of Escherichia coli DiaA P66817 P66817 1.85 X-RAY DIFFRACTION 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 2yva-a1-m1-cA_2yva-a1-m2-cA 4u6n-a1-m1-cA_4u6n-a1-m4-cA 4u6n-a1-m2-cA_4u6n-a1-m3-cA MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPH MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPH 2yva-a1-m2-cA_2yva-a1-m2-cB Crystal structure of Escherichia coli DiaA P66817 P66817 1.85 X-RAY DIFFRACTION 114 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 193 2yva-a1-m1-cA_2yva-a1-m1-cB 4u6n-a1-m1-cA_4u6n-a1-m3-cA 4u6n-a1-m2-cA_4u6n-a1-m4-cA MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPH MQERIKACFTESIQTQIAAAEALPDAISRAAMTLVQSLLNGNKILCCGNGTSAANAQHFAASMINRFETERPSLPAIALNTDNVVLTAIANDRLHDEVYAKQVRALGHAGDVLLAISTRGNSRDIVKAVEAAVTRDMTIVALTGYDGGELAGLLGPQDVEIRIPSHRSARIQEMHMLTVNCLCDLIDNTLFPH 2yve-a1-m1-cB_2yve-a1-m1-cA Crystal structure of the methylene blue-bound form of the multi-drug binding transcriptional repressor CgmR Q8NMG3 Q8NMG3 1.4 X-RAY DIFFRACTION 128 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 172 175 2yvh-a1-m1-cA_2yvh-a1-m1-cB 2yvh-a1-m1-cC_2yvh-a1-m1-cD 2zoy-a1-m1-cB_2zoy-a1-m1-cA 2zoz-a1-m1-cA_2zoz-a1-m1-cB TSKKEMILRTAIDYIGEYSLETLSYDSLAEATGLSKSGLIYHFPSRHALLLGMHELLADDWDKELRDITRDPEDPLERLRAVVVTLAENVSRPELLLLIDAPSHPDFLNAWRTVNHQWIPDTDDLENDAHKRAVYLVQLAADGLFVHDYIHDDVLSKSKRQAMLETILELIP MRTSKKEMILRTAIDYIGEYSLETLSYDSLAEATGLSKSGLIYHFPSRHALLLGMHELLADDWDKELRDITRDPEDPLERLRAVVVTLAENVSRPELLLLIDAPSHPDFLNAWRTVNHQWIPDTDDLENDAHKRAVYLVQLAADGLFVHDYIHDDVLSKSKRQAMLETILELIPS 2yvi-a2-m1-cA_2yvi-a2-m2-cA Crystal structure of a death domain of human ankryn protein P16157 P16157 1.92 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 SLSGTEQAEMKMAVISEHLGLSWAELARELQFSVEDINRIRVENPNSLLEQSVALLNLWVIREGQNANMENLYTALQSIDRGEIVNMLE SLSGTEQAEMKMAVISEHLGLSWAELARELQFSVEDINRIRVENPNSLLEQSVALLNLWVIREGQNANMENLYTALQSIDRGEIVNMLE 2yvk-a2-m1-cC_2yvk-a2-m1-cD Crystal structure of 5-methylthioribose 1-phosphate isomerase product complex from Bacillus subtilis O31662 O31662 2.4 X-RAY DIFFRACTION 183 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 349 349 2yrf-a1-m1-cA_2yrf-a1-m1-cB 2yvk-a1-m1-cA_2yvk-a1-m1-cB MTHSFAVPRSVEWKETAITILNQQKLPDETEYLELTTKEDVFDAIVTLKVRGAPAIGITAAFGLALAAKDIETDNVTEFRRRLEDIKQYLNSSRPTAINLSWALERLSHSVENAISVNEAKTNLVHEAIQIQVEDEETCRLIGQNALQLFKKGDRIMTICNAGSIATSRYGTALAPFYLAKQKDLGLHIYACETRPVLQGSRLTAWELMQGGIDVTLITDSMAAHTMKEKQISAVIVGADRIAKNGDTANKIGTYGLAILANAFDIPFFVAAPLSTFDTKVKCGADIPIEERDPEEVRQISGVRTAPSNVPVFNPAFDITPHDLISGIITEKGIMTGNYEEEIEQLFKG MTHSFAVPRSVEWKETAITILNQQKLPDETEYLELTTKEDVFDAIVTLKVRGAPAIGITAAFGLALAAKDIETDNVTEFRRRLEDIKQYLNSSRPTAINLSWALERLSHSVENAISVNEAKTNLVHEAIQIQVEDEETCRLIGQNALQLFKKGDRIMTICNAGSIATSRYGTALAPFYLAKQKDLGLHIYACETRPVLQGSRLTAWELMQGGIDVTLITDSMAAHTMKEKQISAVIVGADRIAKNGDTANKIGTYGLAILANAFDIPFFVAAPLSTFDTKVKCGADIPIEERDPEEVRQISGVRTAPSNVPVFNPAFDITPHDLISGIITEKGIMTGNYEEEIEQLFKG 2yvl-a1-m1-cB_2yvl-a1-m1-cD Crystal structure of tRNA (m1A58) methyltransferase TrmI from Aquifex aeolicus O66653 O66653 2.2 X-RAY DIFFRACTION 52 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 247 247 2yvl-a1-m1-cA_2yvl-a1-m1-cC NSFKEGEYVLIRFGEKKFLRKLLPKQSLSVKKSVLKFDEVIGKPEGVKINGFEVYRPTLEEIILLGFERKTQIIYPKDSFYIALKLNLNKEKRVLEFGTGSGALLAVLSEVAGEVWTFEAVEEFYKTAQKNLKKFNLGKNVKFFNVDFKDAEVPEGIFHAAFVDVREPWHYLEKVHKSLMEGAPVGFLLPTANQVIKLLESIENYFGNLEVVEILHRHYKTISERFRPEDQMVAHTAYLVFGRKLKT NSFKEGEYVLIRFGEKKFLRKLLPKQSLSVKKSVLKFDEVIGKPEGVKINGFEVYRPTLEEIILLGFERKTQIIYPKDSFYIALKLNLNKEKRVLEFGTGSGALLAVLSEVAGEVWTFEAVEEFYKTAQKNLKKFNLGKNVKFFNVDFKDAEVPEGIFHAAFVDVREPWHYLEKVHKSLMEGAPVGFLLPTANQVIKLLESIENYFGNLEVVEILHRHYKTISERFRPEDQMVAHTAYLVFGRKLKT 2yvl-a1-m1-cC_2yvl-a1-m1-cD Crystal structure of tRNA (m1A58) methyltransferase TrmI from Aquifex aeolicus O66653 O66653 2.2 X-RAY DIFFRACTION 175 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 247 247 2yvl-a1-m1-cA_2yvl-a1-m1-cB NSFKEGEYVLIRFGEKKFLRKLLPKQSLSVKKSVLKFDEVIGKPEGVKINGFEVYRPTLEEIILLGFERKTQIIYPKDSFYIALKLNLNKEKRVLEFGTGSGALLAVLSEVAGEVWTFEAVEEFYKTAQKNLKKFNLGKNVKFFNVDFKDAEVPEGIFHAAFVDVREPWHYLEKVHKSLMEGAPVGFLLPTANQVIKLLESIENYFGNLEVVEILHRHYKTISERFRPEDQMVAHTAYLVFGRKLKT NSFKEGEYVLIRFGEKKFLRKLLPKQSLSVKKSVLKFDEVIGKPEGVKINGFEVYRPTLEEIILLGFERKTQIIYPKDSFYIALKLNLNKEKRVLEFGTGSGALLAVLSEVAGEVWTFEAVEEFYKTAQKNLKKFNLGKNVKFFNVDFKDAEVPEGIFHAAFVDVREPWHYLEKVHKSLMEGAPVGFLLPTANQVIKLLESIENYFGNLEVVEILHRHYKTISERFRPEDQMVAHTAYLVFGRKLKT 2yvp-a1-m1-cA_2yvp-a1-m2-cA Crystal structure of NDX2 in complex with MG2+ and ampcpr from thermus thermophilus HB8 Q5SJY9 Q5SJY9 1.66 X-RAY DIFFRACTION 171 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 182 182 2yvm-a1-m1-cA_2yvm-a1-m2-cA 2yvn-a1-m1-cA_2yvn-a1-m2-cA 2yvo-a1-m1-cA_2yvo-a1-m2-cA MSPWERILLEEILSEPVRLVKERVRTHTGRELTYVYRPGPVAASFVLPVTERGTALLVRQYRHPTGKFLLEVPAGKVDEGETPEAAARRELREEVGAEAETLIPLPSFHPQPSFTAVVFHPFLALKARVVTPPTLEEGELLESLELPLTEVYALLAKGEIQDASTALTLFYAEPHLKRLGLL MSPWERILLEEILSEPVRLVKERVRTHTGRELTYVYRPGPVAASFVLPVTERGTALLVRQYRHPTGKFLLEVPAGKVDEGETPEAAARRELREEVGAEAETLIPLPSFHPQPSFTAVVFHPFLALKARVVTPPTLEEGELLESLELPLTEVYALLAKGEIQDASTALTLFYAEPHLKRLGLL 2yvq-a2-m1-cA_2yvq-a2-m2-cA Crystal structure of MGS domain of carbamoyl-phosphate synthetase from homo sapiens P31327 P31327 1.98 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 SSGHTAFLKAMLSTGFKIPQKGILIGIQQSFRPRFLGVAEQLHNEGFKLFATEATSDWLNANNVPATPVAWPSQELSSIRKLIRDGSIDLVINLPNNNTKFVHDNYVIRRTAVDSGIPLLTNFQVTKLFAEAVQ SSGHTAFLKAMLSTGFKIPQKGILIGIQQSFRPRFLGVAEQLHNEGFKLFATEATSDWLNANNVPATPVAWPSQELSSIRKLIRDGSIDLVINLPNNNTKFVHDNYVIRRTAVDSGIPLLTNFQVTKLFAEAVQ 2yvr-a1-m1-cA_2yvr-a1-m1-cB Crystal structure of MS1043 Q13263 Q13263 1.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 GERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLED GERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLED 2yvs-a1-m1-cA_2yvs-a1-m1-cB Crystal structure of glycolate oxidase subunit GlcE from Thermus thermophilus HB8 Q5SM78 Q5SM78 2 X-RAY DIFFRACTION 99 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 219 219 MEVHAADQYLVAPGEADLLEVHARLAGTGLFPPFPPVELPGGVGGLVARGGFAQTFFFPAEVLGLTFRTPKGRRVRAGGVVVKNVQGYDLVRLFVGSFGLLGRAEEVVLRLRPGRAQAFLRRPFSGSFPRLVPTPRFLFALEDEEGPWLYAYHFGHPKEVERFREAFGGEEARPLDLRPRFPRGLGLGEGPLWDLRFRYQDGGASPPPPPAFLRLARVL MEVHAADQYLVAPGEADLLEVHARLAGTGLFPPFPPVELPGGVGGLVARGGFAQTFFFPAEVLGLTFRTPKGRRVRAGGVVVKNVQGYDLVRLFVGSFGLLGRAEEVVLRLRPGRAQAFLRRPFSGSFPRLVPTPRFLFALEDEEGPWLYAYHFGHPKEVERFREAFGGEEARPLDLRPRFPRGLGLGEGPLWDLRFRYQDGGASPPPPPAFLRLARVL 2yvu-a1-m1-cB_2yvu-a1-m1-cA Crystal structure of APE1195 Q9YCR6 Q9YCR6 2.1 X-RAY DIFFRACTION 45 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 172 179 KCIEKGIVVWLTGLPGSGKTTIATRLADLLQKEGYRVEVLDGDWARTTVSEGAGFTREERLRHLKRIAWIARLLARNGVIVICSFVSPYKQARNMVRRIVEEEGIPFLEIYVKASLEEVIRRDPKGLYKKALKGETDPYEPPENPQLVLDTESNTIEHNVSYLYSLVKAVIE KCIEKGIVVWLTGLPGSGKTTIATRLADLLQKEGYRVEVLDGDWARTTVSEGAGFTREERLRHLKRIAWIARLLARNGVIVICSFVSPYKQARNMVRRIVEEEGIPFLEIYVKASLEEVIRRDPKGLYKKALKGELENFTGITDPYEPPENPQLVLDTESNTIEHNVSYLYSLVKAVIE 2yvy-a1-m1-cA_2yvy-a1-m2-cA Crystal structure of magnesium transporter MgtE cytosolic domain, Mg2+ bound form Q5SMG8 Q5SMG8 2.3 X-RAY DIFFRACTION 65 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 248 248 LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVL LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVL 2yvz-a1-m1-cA_2yvz-a1-m1-cB Crystal structure of magnesium transporter MgtE cytosolic domain, Mg2+-free form Q5SMG8 Q5SMG8 3.9 X-RAY DIFFRACTION 37 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 244 244 LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLTPEYVAVREGTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEINPKVVYVRTDTDQEEVARLADYDFTVLPVVDEEGRLVGIVTVDDVLDVL LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLTPEYVAVREGTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEINPKVVYVRTDTDQEEVARLADYDFTVLPVVDEEGRLVGIVTVDDVLDVL 2yw0-a1-m2-cA_2yw0-a1-m3-cA Crystal structure of hyluranidase trimer at 2.6 A resolution Q9A0M7 Q9A0M7 2.6 X-RAY DIFFRACTION 846 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 332 332 2c3f-a1-m1-cA_2c3f-a1-m2-cA 2c3f-a1-m1-cA_2c3f-a1-m3-cA 2c3f-a1-m2-cA_2c3f-a1-m3-cA 2dp5-a1-m1-cA_2dp5-a1-m2-cA 2dp5-a1-m1-cA_2dp5-a1-m3-cA 2dp5-a1-m2-cA_2dp5-a1-m3-cA 2yvv-a1-m1-cA_2yvv-a1-m2-cA 2yvv-a1-m1-cA_2yvv-a1-m3-cA 2yvv-a1-m2-cA_2yvv-a1-m3-cA 2yw0-a1-m1-cA_2yw0-a1-m2-cA 2yw0-a1-m1-cA_2yw0-a1-m3-cA 2yx2-a1-m1-cA_2yx2-a1-m2-cA 2yx2-a1-m1-cA_2yx2-a1-m3-cA 2yx2-a1-m2-cA_2yx2-a1-m3-cA 3eka-a1-m1-cA_3eka-a1-m2-cA 3eka-a1-m1-cA_3eka-a1-m3-cA 3eka-a1-m2-cA_3eka-a1-m3-cA LRVQFKRMKAAEWARSDVILLESEIGFETDTGFARAGDGHNRFSDLGYISPLDYNLLTNKPNIDGLATKVETAQKLQQKADKETVYTKAESKQELDKKLNLKGGVMTGQLKFKPAATVAYSSSTGGAVNIDLSSTRGAGVVVYSDNDTSDGPLMSLRTGKETFNQSALFVDYKGTTNAVNIAMRQPTTPNFSSALNITSGNENGSAMQLRGSEKALGTLKITHENPSIGADYDKNAAALSIDIVKKTNGAGTAAQGIYINSTSGTTGKLLRIRNLSDDKFYVKSDGGFYAKETSQIDGNLKLKDPTANDHAATKAYVDKAISELKKLILKKH LRVQFKRMKAAEWARSDVILLESEIGFETDTGFARAGDGHNRFSDLGYISPLDYNLLTNKPNIDGLATKVETAQKLQQKADKETVYTKAESKQELDKKLNLKGGVMTGQLKFKPAATVAYSSSTGGAVNIDLSSTRGAGVVVYSDNDTSDGPLMSLRTGKETFNQSALFVDYKGTTNAVNIAMRQPTTPNFSSALNITSGNENGSAMQLRGSEKALGTLKITHENPSIGADYDKNAAALSIDIVKKTNGAGTAAQGIYINSTSGTTGKLLRIRNLSDDKFYVKSDGGFYAKETSQIDGNLKLKDPTANDHAATKAYVDKAISELKKLILKKH 2yw2-a3-m1-cA_2yw2-a3-m2-cB Crystal structure of GAR synthetase from Aquifex aeolicus in complex with ATP O66949 O66949 1.8 X-RAY DIFFRACTION 25 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 423 423 MKVLVVGNGGREHAIAWKVAQSPLVKELYVAKGNAGIWEIAKRVDISPTDVEKLAEFAKNEGVDFTIVGPEAPLVEGIVDEFEKRGLKIFGPNKEAAKLEGSKAFAKTFMKKYGIPTARYEVFTDFEKAKEYVEKVGAPIVVKADGLAAGKGAVVCETVEKAIETLDRFLNKKIFGKSSERVVIEEFLEGEEASYIVMINGDRYVPLPTSQDHKRLLDEDKGPNTGGMGAYSPTPVINEEVEKRIREEIVERVIKGLKEEGIYYRGFLYAGLMITKEGPKVLEFNVRLGDPEAQPILMRVKNDFLETLLNFYEGKDVHIKEDERYALDVVLASRGYPEKPETGKIIHGLDYLKSMEDVVVFHAGTKKEGNFTVTSGGRVLNVCAYGKTLKEAKERAYEAIRYVCFEGMHYRKDIGDKAFKYLS MKVLVVGNGGREHAIAWKVAQSPLVKELYVAKGNAGIWEIAKRVDISPTDVEKLAEFAKNEGVDFTIVGPEAPLVEGIVDEFEKRGLKIFGPNKEAAKLEGSKAFAKTFMKKYGIPTARYEVFTDFEKAKEYVEKVGAPIVVKADGLAAGKGAVVCETVEKAIETLDRFLNKKIFGKSSERVVIEEFLEGEEASYIVMINGDRYVPLPTSQDHKRLLDEDKGPNTGGMGAYSPTPVINEEVEKRIREEIVERVIKGLKEEGIYYRGFLYAGLMITKEGPKVLEFNVRLGDPEAQPILMRVKNDFLETLLNFYEGKDVHIKEDERYALDVVLASRGYPEKPETGKIIHGLDYLKSMEDVVVFHAGTKKEGNFTVTSGGRVLNVCAYGKTLKEAKERAYEAIRYVCFEGMHYRKDIGDKAFKYLS 2yw3-a2-m1-cF_2yw3-a2-m1-cE Crystal Structure Analysis of the 4-hydroxy-2-oxoglutarate aldolase/2-deydro-3-deoxyphosphogluconate aldolase from TTHB1 Q53W90 Q53W90 1.67 X-RAY DIFFRACTION 47 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 199 200 2yw3-a1-m1-cA_2yw3-a1-m1-cB 2yw3-a1-m1-cA_2yw3-a1-m1-cC 2yw3-a1-m1-cB_2yw3-a1-m1-cC 2yw3-a2-m1-cD_2yw3-a2-m1-cE 2yw3-a2-m1-cD_2yw3-a2-m1-cF 2yw4-a1-m1-cA_2yw4-a1-m2-cA 2yw4-a1-m1-cA_2yw4-a1-m3-cA 2yw4-a1-m2-cA_2yw4-a1-m3-cA MDPLAVLAESRLLPLLTVRGGEDLLGLARVLEEEGVGALEITLRTEKGLEALKALRKSGLLLGAGTVRSPKEAEAALEAGAAFLVSPGLLEEVAALAQARGVPYLPGVLTPTEVERALALGLSALKFFPAEPFQGVRVLRAYAEVFPEVRFLPTGGIKEEHLPHYAALPNLLAVGGSWLLQGNLEAVRAKVRAAKALLS GMDPLAVLAESRLLPLLTVRGGEDLLGLARVLEEEGVGALEITLRTEKGLEALKALRKSGLLLGAGTVRSPKEAEAALEAGAAFLVSPGLLEEVAALAQARGVPYLPGVLTPTEVERALALGLSALKFFPAEPFQGVRVLRAYAEVFPEVRFLPTGGIKEEHLPHYAALPNLLAVGGSWLLQGNLEAVRAKVRAAKALLS 2ywa-a2-m1-cC_2ywa-a2-m1-cD Crystal structure of uncharacterized conserved protein from Thermus thermophilus HB8 Q5SM95 Q5SM95 3.2 X-RAY DIFFRACTION 66 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 113 114 1wty-a1-m1-cB_1wty-a1-m1-cC 1wty-a1-m1-cD_1wty-a1-m1-cA 2ywa-a1-m1-cA_2ywa-a1-m1-cB SLARAVERLKAALERPKDEFIRDSAIQRFEFTFELAWKTLKTFLELQGLEARSPRAAIRGAFQVGLLPEDPFWLELELRNLTNHTYDEALAERIYAELPKALERFQELLRRLE ASLARAVERLKAALERPKDEFIRDSAIQRFEFTFELAWKTLKTFLELQGLEARSPRAAIRGAFQVGLLPEDPFWLELELRNLTNHTYDEALAERIYAELPKALERFQELLRRLE 2ywc-a3-m1-cB_2ywc-a3-m1-cD Crystal structure of GMP synthetase from Thermus thermophilus in complex with XMP Q5SI28 Q5SI28 2.2 X-RAY DIFFRACTION 138 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 462 462 2ywb-a3-m1-cB_2ywb-a3-m1-cD 2ywb-a3-m1-cC_2ywb-a3-m1-cA 2ywc-a3-m1-cC_2ywc-a3-m1-cA VLVLDFGSQYTRLIARRLRELRAFSLILPGDAPLEEVLKHRPQALILSGGPRSVFDPDAPRPDPRLFSSGLPLLGICYGQLLAQELGGRVERAGRAEYGKALLTRHEGPLFRGLEGEVQVWSHQDAVTAPPPGWRVVAETEENPVAAIASPDGRAYGVQFHPEVAHTPKGQILENFLELAGVKRDWTPEHVLEELLREVRERAGKDRVLLAVSGGVDSSTLALLLAKAGVDHLAVFVDHGLLRLGEREEVEGALRALGVNLLVVDAKERFLKALKGVEDPEEKRKIIGREFVAAFSQVARERGPFRFLAQGTLYPDVIEFELLEPFRLLFKDEVRELALLLGLPDTLRLRHPFPGPGLAVRVLGEVTEERLEILRRADDIFTSLLREWGLYEKVAQALAVLTPVGYVLALRAVTTEDFTADWARLPLEFLDEAARRITRRVPEIGRVVYDLTSKPPATIEWE VLVLDFGSQYTRLIARRLRELRAFSLILPGDAPLEEVLKHRPQALILSGGPRSVFDPDAPRPDPRLFSSGLPLLGICYGQLLAQELGGRVERAGRAEYGKALLTRHEGPLFRGLEGEVQVWSHQDAVTAPPPGWRVVAETEENPVAAIASPDGRAYGVQFHPEVAHTPKGQILENFLELAGVKRDWTPEHVLEELLREVRERAGKDRVLLAVSGGVDSSTLALLLAKAGVDHLAVFVDHGLLRLGEREEVEGALRALGVNLLVVDAKERFLKALKGVEDPEEKRKIIGREFVAAFSQVARERGPFRFLAQGTLYPDVIFELLEPFRLLFKDEVRELALLLGLPDTLRLRHPFPGPGLAVRVLGEVTEERLEILRRADDIFTSLLREWGLYEKVAQALAVLTPVRGYVLALRAVTTEDFTADWARLPLEFLDEAARRITRRVPEIGRVVYDLTSKPPATIEWE 2ywc-a3-m1-cC_2ywc-a3-m1-cD Crystal structure of GMP synthetase from Thermus thermophilus in complex with XMP Q5SI28 Q5SI28 2.2 X-RAY DIFFRACTION 75 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 462 462 2ywb-a1-m1-cB_2ywb-a1-m1-cA 2ywb-a2-m1-cD_2ywb-a2-m1-cC 2ywb-a3-m1-cB_2ywb-a3-m1-cA 2ywb-a3-m1-cD_2ywb-a3-m1-cC 2ywc-a1-m1-cB_2ywc-a1-m1-cA 2ywc-a2-m1-cC_2ywc-a2-m1-cD 2ywc-a3-m1-cB_2ywc-a3-m1-cA VLVLDFGSQYTRLIARRLRELRAFSLILPGDAPLEEVLKHRPQALILSGGPRSVFDPDAPRPDPRLFSSGLPLLGICYGQLLAQELGGRVERAGRAEYGKALLTRHEGPLFRGLEGEVQVWSHQDAVTAPPPGWRVVAETEENPVAAIASPDGRAYGVQFHPEVAHTPKGQILENFLELAGVKRDWTPEHVLEELLREVRERAGKDRVLLAVSGGVDSSTLALLLAKAGVDHLAVFVDHGLLRLGEREEVEGALRALGVNLLVVDAKERFLKALKGVEDPEEKRKIIGREFVAAFSQVARERGPFRFLAQGTLYPDVIEFELLEPFRLLFKDEVRELALLLGLPDTLRLRHPFPGPGLAVRVLGEVTEERLEILRRADDIFTSLLREWGLYEKVAQALAVLTPVGYVLALRAVTTEDFTADWARLPLEFLDEAARRITRRVPEIGRVVYDLTSKPPATIEWE VLVLDFGSQYTRLIARRLRELRAFSLILPGDAPLEEVLKHRPQALILSGGPRSVFDPDAPRPDPRLFSSGLPLLGICYGQLLAQELGGRVERAGRAEYGKALLTRHEGPLFRGLEGEVQVWSHQDAVTAPPPGWRVVAETEENPVAAIASPDGRAYGVQFHPEVAHTPKGQILENFLELAGVKRDWTPEHVLEELLREVRERAGKDRVLLAVSGGVDSSTLALLLAKAGVDHLAVFVDHGLLRLGEREEVEGALRALGVNLLVVDAKERFLKALKGVEDPEEKRKIIGREFVAAFSQVARERGPFRFLAQGTLYPDVIFELLEPFRLLFKDEVRELALLLGLPDTLRLRHPFPGPGLAVRVLGEVTEERLEILRRADDIFTSLLREWGLYEKVAQALAVLTPVRGYVLALRAVTTEDFTADWARLPLEFLDEAARRITRRVPEIGRVVYDLTSKPPATIEWE 2ywl-a1-m1-cA_2ywl-a1-m1-cB Crystal structure of thioredoxin reductase-related protein TTHA0370 from Thermus thermophilus HB8 Q5SLC3 Q5SLC3 1.6 X-RAY DIFFRACTION 127 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 178 178 2cvj-a2-m1-cA_2cvj-a2-m2-cA WDVIVVGGGPSGLSAALFLARAGLKVLVLDGGRSKVKGVSRVPNYPGLLDEPSGEELLRRLEAHARRYGAEVRPGVVKGVRDGGVFEVETEEGVEKAERLLLCTHKDPTLPSLLGLTRRGAYIDTDEGGRTSYPRVYAAGVARGKVPGHAIISAGDGAYVAVHLVSDLRGEPYKDHAL WDVIVVGGGPSGLSAALFLARAGLKVLVLDGGRSKVKGVSRVPNYPGLLDEPSGEELLRRLEAHARRYGAEVRPGVVKGVRDGGVFEVETEEGVEKAERLLLCTHKDPTLPSLLGLTRRGAYIDTDEGGRTSYPRVYAAGVARGKVPGHAIISAGDGAYVAVHLVSDLRGEPYKDHAL 2ywr-a2-m1-cA_2ywr-a2-m2-cA Crystal structure of GAR transformylase from Aquifex aeolicus O67023 O67023 1.77 X-RAY DIFFRACTION 83 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 213 213 LKIGVLVSGRGSNLQAIIDAIESGKVNASIELVISDNPKAYAIERCKKHNVECKVIQRKEFPSKKEFEERALELKKKGVELVVLAGFRILSHNFLKYFPNKVINIHPSLIPAFQGLHAQKQAVEFGVKFSGCTVHIVDESVDAGPVIVQAVVPVLPEDDENTLADRILKWEHKILPQTVQWFAQDRIIIDGRKVIVKDATYGTLPVNPALEIF LKIGVLVSGRGSNLQAIIDAIESGKVNASIELVISDNPKAYAIERCKKHNVECKVIQRKEFPSKKEFEERALELKKKGVELVVLAGFRILSHNFLKYFPNKVINIHPSLIPAFQGLHAQKQAVEFGVKFSGCTVHIVDESVDAGPVIVQAVVPVLPEDDENTLADRILKWEHKILPQTVQWFAQDRIIIDGRKVIVKDATYGTLPVNPALEIF 2ywv-a1-m1-cA_2ywv-a1-m1-cB Crystal structure of SAICAR synthetase from Geobacillus kaustophilus Q5L3D5 Q5L3D5 1.75 X-RAY DIFFRACTION 25 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 237 237 MPTKQQLLYEGKAKKIYATDEPDVLWVEYKDSATAFNGEKKATIAGKGRLNNEISSLLFLKLREAGIANHFIEKLSPTEQLVRRVTIIPLEVVVRNVVAGSLAKRIGLEEGTPLEAPLVEFYYKNDDLGDPLLLEDHIFILKLASREEVAALKQAALAVNDVLRLHFAERNVRLIDFKLEFGRTADGAILLADEISPDTCRLWDAKTNEKLDKDVFRRDLGSLTDAYEVILQRLGGE MPTKQQLLYEGKAKKIYATDEPDVLWVEYKDSATAFNGEKKATIAGKGRLNNEISSLLFLKLREAGIANHFIEKLSPTEQLVRRVTIIPLEVVVRNVVAGSLAKRIGLEEGTPLEAPLVEFYYKNDDLGDPLLLEDHIFILKLASREEVAALKQAALAVNDVLRLHFAERNVRLIDFKLEFGRTADGAILLADEISPDTCRLWDAKTNEKLDKDVFRRDLGSLTDAYEVILQRLGGE 2ywv-a2-m1-cB_2ywv-a2-m2-cA Crystal structure of SAICAR synthetase from Geobacillus kaustophilus Q5L3D5 Q5L3D5 1.75 X-RAY DIFFRACTION 54 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 237 237 MPTKQQLLYEGKAKKIYATDEPDVLWVEYKDSATAFNGEKKATIAGKGRLNNEISSLLFLKLREAGIANHFIEKLSPTEQLVRRVTIIPLEVVVRNVVAGSLAKRIGLEEGTPLEAPLVEFYYKNDDLGDPLLLEDHIFILKLASREEVAALKQAALAVNDVLRLHFAERNVRLIDFKLEFGRTADGAILLADEISPDTCRLWDAKTNEKLDKDVFRRDLGSLTDAYEVILQRLGGE MPTKQQLLYEGKAKKIYATDEPDVLWVEYKDSATAFNGEKKATIAGKGRLNNEISSLLFLKLREAGIANHFIEKLSPTEQLVRRVTIIPLEVVVRNVVAGSLAKRIGLEEGTPLEAPLVEFYYKNDDLGDPLLLEDHIFILKLASREEVAALKQAALAVNDVLRLHFAERNVRLIDFKLEFGRTADGAILLADEISPDTCRLWDAKTNEKLDKDVFRRDLGSLTDAYEVILQRLGGE 2yww-a1-m1-cA_2yww-a1-m1-cB Crystal structure of aspartate carbamoyltransferase regulatory chain from Methanocaldococcus jannaschii Q58801 Q58801 2 X-RAY DIFFRACTION 47 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 141 142 KVKKITNGTVIDHIDAGKALMVFKVLNVPKETSVMIAINVPSKKKGKKDILKIEGIELKKEDVDKISLISPDVTINIIRNGKVVEKLKPQIPDEIEGTLKCTNPNCITNKEKVRGKFKIESKNPLKIRCYYCEKFLNEVIF KVKKITNGTVIDHIDAGKALMVFKVLNVPKETSVMIAINVPSKKKGKKDILKIEGIELKKEDVDKISLISPDVTINIIRNGKVVEKLKPQIPDEIEGTLKCTNPNCITNKEKVRGKFKIESKNPLKIRCYYCEKFLNEVIFE 2ywx-a1-m2-cA_2ywx-a1-m8-cA Crystal structure of phosphoribosylaminoimidazole carboxylase catalytic subunit from Methanocaldococcus jannaschii Q58033 Q58033 2.31 X-RAY DIFFRACTION 84 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 157 157 2ywx-a1-m1-cA_2ywx-a1-m7-cA 2ywx-a1-m3-cA_2ywx-a1-m5-cA 2ywx-a1-m4-cA_2ywx-a1-m6-cA MICIIMGSESDLKIAEKAVNILKEFGVEFEVRVASAHRTPELVEEIVKNSKADVFIAIAGLAAHLPGVVASLTTKPVIAVPVDAKLDGLDALLSSVQMPPGIPVATVGIDRGENAAILALEILALKDENIAKKLIEYREKMKKKVYASDEKVKEMFK MICIIMGSESDLKIAEKAVNILKEFGVEFEVRVASAHRTPELVEEIVKNSKADVFIAIAGLAAHLPGVVASLTTKPVIAVPVDAKLDGLDALLSSVQMPPGIPVATVGIDRGENAAILALEILALKDENIAKKLIEYREKMKKKVYASDEKVKEMFK 2ywx-a1-m4-cA_2ywx-a1-m8-cA Crystal structure of phosphoribosylaminoimidazole carboxylase catalytic subunit from Methanocaldococcus jannaschii Q58033 Q58033 2.31 X-RAY DIFFRACTION 106 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 157 157 2ywx-a1-m1-cA_2ywx-a1-m6-cA 2ywx-a1-m2-cA_2ywx-a1-m5-cA 2ywx-a1-m3-cA_2ywx-a1-m7-cA MICIIMGSESDLKIAEKAVNILKEFGVEFEVRVASAHRTPELVEEIVKNSKADVFIAIAGLAAHLPGVVASLTTKPVIAVPVDAKLDGLDALLSSVQMPPGIPVATVGIDRGENAAILALEILALKDENIAKKLIEYREKMKKKVYASDEKVKEMFK MICIIMGSESDLKIAEKAVNILKEFGVEFEVRVASAHRTPELVEEIVKNSKADVFIAIAGLAAHLPGVVASLTTKPVIAVPVDAKLDGLDALLSSVQMPPGIPVATVGIDRGENAAILALEILALKDENIAKKLIEYREKMKKKVYASDEKVKEMFK 2ywx-a1-m6-cA_2ywx-a1-m8-cA Crystal structure of phosphoribosylaminoimidazole carboxylase catalytic subunit from Methanocaldococcus jannaschii Q58033 Q58033 2.31 X-RAY DIFFRACTION 45 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 157 157 2ywx-a1-m1-cA_2ywx-a1-m3-cA 2ywx-a1-m1-cA_2ywx-a1-m4-cA 2ywx-a1-m2-cA_2ywx-a1-m3-cA 2ywx-a1-m2-cA_2ywx-a1-m4-cA 2ywx-a1-m5-cA_2ywx-a1-m7-cA 2ywx-a1-m5-cA_2ywx-a1-m8-cA 2ywx-a1-m6-cA_2ywx-a1-m7-cA MICIIMGSESDLKIAEKAVNILKEFGVEFEVRVASAHRTPELVEEIVKNSKADVFIAIAGLAAHLPGVVASLTTKPVIAVPVDAKLDGLDALLSSVQMPPGIPVATVGIDRGENAAILALEILALKDENIAKKLIEYREKMKKKVYASDEKVKEMFK MICIIMGSESDLKIAEKAVNILKEFGVEFEVRVASAHRTPELVEEIVKNSKADVFIAIAGLAAHLPGVVASLTTKPVIAVPVDAKLDGLDALLSSVQMPPGIPVATVGIDRGENAAILALEILALKDENIAKKLIEYREKMKKKVYASDEKVKEMFK 2yx5-a1-m1-cA_2yx5-a1-m4-cA Crystal Structure of Methanocaldococcus jannaschii PurS, One of the Subunits of Formylglycinamide Ribonucleotide Amidotransferase in the Purine Biosynthetic Pathway Q58988 Q58988 2.3 X-RAY DIFFRACTION 90 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 82 82 2yx5-a1-m2-cA_2yx5-a1-m3-cA MYKATVIIKLKKGVLNPEGRTIQRALNFLGFNNVKEVQTYKMIDIIMEENEEKVKEEVEEMCKKLLANPVIHDYEIKVEKIE MYKATVIIKLKKGVLNPEGRTIQRALNFLGFNNVKEVQTYKMIDIIMEENEEKVKEEVEEMCKKLLANPVIHDYEIKVEKIE 2yx5-a1-m2-cA_2yx5-a1-m4-cA Crystal Structure of Methanocaldococcus jannaschii PurS, One of the Subunits of Formylglycinamide Ribonucleotide Amidotransferase in the Purine Biosynthetic Pathway Q58988 Q58988 2.3 X-RAY DIFFRACTION 24 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 82 82 2yx5-a1-m1-cA_2yx5-a1-m3-cA MYKATVIIKLKKGVLNPEGRTIQRALNFLGFNNVKEVQTYKMIDIIMEENEEKVKEEVEEMCKKLLANPVIHDYEIKVEKIE MYKATVIIKLKKGVLNPEGRTIQRALNFLGFNNVKEVQTYKMIDIIMEENEEKVKEEVEEMCKKLLANPVIHDYEIKVEKIE 2yx5-a1-m3-cA_2yx5-a1-m4-cA Crystal Structure of Methanocaldococcus jannaschii PurS, One of the Subunits of Formylglycinamide Ribonucleotide Amidotransferase in the Purine Biosynthetic Pathway Q58988 Q58988 2.3 X-RAY DIFFRACTION 33 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 82 82 2yx5-a1-m1-cA_2yx5-a1-m2-cA MYKATVIIKLKKGVLNPEGRTIQRALNFLGFNNVKEVQTYKMIDIIMEENEEKVKEEVEEMCKKLLANPVIHDYEIKVEKIE MYKATVIIKLKKGVLNPEGRTIQRALNFLGFNNVKEVQTYKMIDIIMEENEEKVKEEVEEMCKKLLANPVIHDYEIKVEKIE 2yx6-a1-m1-cA_2yx6-a1-m2-cA Crystal structure of PH0822 O58552 O58552 2 X-RAY DIFFRACTION 63 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 110 110 2yx6-a2-m1-cB_2yx6-a2-m1-cC 2yx6-a3-m1-cD_2yx6-a3-m3-cD MRVAIPAEDDRGIKSNVSKHFGRSRYFVFVDIEGEDVKNVEVVEVPFGDLPNFIKDHGAKIVLTYGIGRRAIEYFNSLGISVVTGVYGRISDVIKAFIGGKLKIDYDWKE MRVAIPAEDDRGIKSNVSKHFGRSRYFVFVDIEGEDVKNVEVVEVPFGDLPNFIKDHGAKIVLTYGIGRRAIEYFNSLGISVVTGVYGRISDVIKAFIGGKLKIDYDWKE 2yx7-a1-m2-cA_2yx7-a1-m8-cA Crystals structure of T132A mutant of St1022 from sulfolobus tokodaii 7 F9VNT4 F9VNT4 2.05 X-RAY DIFFRACTION 206 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 150 150 2e7w-a1-m1-cA_2e7w-a1-m7-cA 2e7w-a1-m2-cA_2e7w-a1-m8-cA 2e7w-a1-m3-cA_2e7w-a1-m5-cA 2e7w-a1-m4-cA_2e7w-a1-m6-cA 2e7x-a1-m1-cA_2e7x-a1-m7-cA 2e7x-a1-m2-cA_2e7x-a1-m8-cA 2e7x-a1-m3-cA_2e7x-a1-m5-cA 2e7x-a1-m4-cA_2e7x-a1-m6-cA 2efn-a1-m1-cA_2efn-a1-m7-cA 2efn-a1-m2-cA_2efn-a1-m8-cA 2efn-a1-m3-cA_2efn-a1-m5-cA 2efn-a1-m4-cA_2efn-a1-m6-cA 2efo-a1-m1-cA_2efo-a1-m7-cA 2efo-a1-m2-cA_2efo-a1-m8-cA 2efo-a1-m3-cA_2efo-a1-m5-cA 2efo-a1-m4-cA_2efo-a1-m6-cA 2efp-a1-m1-cA_2efp-a1-m7-cA 2efp-a1-m2-cA_2efp-a1-m8-cA 2efp-a1-m3-cA_2efp-a1-m5-cA 2efp-a1-m4-cA_2efp-a1-m6-cA 2efq-a1-m1-cA_2efq-a1-m7-cA 2efq-a1-m2-cA_2efq-a1-m8-cA 2efq-a1-m3-cA_2efq-a1-m5-cA 2efq-a1-m4-cA_2efq-a1-m6-cA 2pmh-a1-m1-cA_2pmh-a1-m7-cA 2pmh-a1-m2-cA_2pmh-a1-m8-cA 2pmh-a1-m3-cA_2pmh-a1-m5-cA 2pmh-a1-m4-cA_2pmh-a1-m6-cA 2pn6-a1-m1-cA_2pn6-a1-m7-cA 2pn6-a1-m2-cA_2pn6-a1-m8-cA 2pn6-a1-m3-cA_2pn6-a1-m5-cA 2pn6-a1-m4-cA_2pn6-a1-m6-cA 2yx4-a1-m1-cA_2yx4-a1-m7-cA 2yx4-a1-m2-cA_2yx4-a1-m8-cA 2yx4-a1-m3-cA_2yx4-a1-m5-cA 2yx4-a1-m4-cA_2yx4-a1-m6-cA 2yx4-a2-m1-cA_2yx4-a2-m7-cA 2yx7-a1-m1-cA_2yx7-a1-m7-cA 2yx7-a1-m3-cA_2yx7-a1-m5-cA 2yx7-a1-m4-cA_2yx7-a1-m6-cA MDEIDLRILKILQYNAKYSLDEIAREIRIPKSTLSYRIKKLEKDGVIKGYYAYINPASLNLDYIVITSVKAKYGKNYHVELGNKLAQIPGVWGVYFVLGDNDFIVMARYKTREEFMEKFLERVMSIPEVERASTQVVVKIIKESPNIVIF MDEIDLRILKILQYNAKYSLDEIAREIRIPKSTLSYRIKKLEKDGVIKGYYAYINPASLNLDYIVITSVKAKYGKNYHVELGNKLAQIPGVWGVYFVLGDNDFIVMARYKTREEFMEKFLERVMSIPEVERASTQVVVKIIKESPNIVIF 2yx7-a1-m4-cA_2yx7-a1-m8-cA Crystals structure of T132A mutant of St1022 from sulfolobus tokodaii 7 F9VNT4 F9VNT4 2.05 X-RAY DIFFRACTION 13 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 150 150 2e7w-a1-m1-cA_2e7w-a1-m6-cA 2e7w-a1-m2-cA_2e7w-a1-m5-cA 2e7w-a1-m3-cA_2e7w-a1-m7-cA 2e7w-a1-m4-cA_2e7w-a1-m8-cA 2e7x-a1-m1-cA_2e7x-a1-m5-cA 2e7x-a1-m2-cA_2e7x-a1-m6-cA 2e7x-a1-m3-cA_2e7x-a1-m8-cA 2e7x-a1-m4-cA_2e7x-a1-m7-cA 2efn-a1-m1-cA_2efn-a1-m6-cA 2efn-a1-m2-cA_2efn-a1-m5-cA 2efn-a1-m3-cA_2efn-a1-m7-cA 2efn-a1-m4-cA_2efn-a1-m8-cA 2efo-a1-m1-cA_2efo-a1-m5-cA 2efo-a1-m2-cA_2efo-a1-m6-cA 2efo-a1-m3-cA_2efo-a1-m8-cA 2efo-a1-m4-cA_2efo-a1-m7-cA 2efp-a1-m1-cA_2efp-a1-m6-cA 2efp-a1-m2-cA_2efp-a1-m5-cA 2efp-a1-m3-cA_2efp-a1-m7-cA 2efp-a1-m4-cA_2efp-a1-m8-cA 2efq-a1-m1-cA_2efq-a1-m5-cA 2efq-a1-m2-cA_2efq-a1-m6-cA 2efq-a1-m3-cA_2efq-a1-m8-cA 2efq-a1-m4-cA_2efq-a1-m7-cA 2pmh-a1-m1-cA_2pmh-a1-m5-cA 2pmh-a1-m2-cA_2pmh-a1-m6-cA 2pmh-a1-m3-cA_2pmh-a1-m8-cA 2pmh-a1-m4-cA_2pmh-a1-m7-cA 2pn6-a1-m1-cA_2pn6-a1-m5-cA 2pn6-a1-m2-cA_2pn6-a1-m6-cA 2pn6-a1-m3-cA_2pn6-a1-m8-cA 2pn6-a1-m4-cA_2pn6-a1-m7-cA 2yx4-a1-m1-cA_2yx4-a1-m5-cA 2yx4-a1-m2-cA_2yx4-a1-m6-cA 2yx4-a1-m3-cA_2yx4-a1-m8-cA 2yx4-a1-m4-cA_2yx4-a1-m7-cA 2yx7-a1-m1-cA_2yx7-a1-m6-cA 2yx7-a1-m2-cA_2yx7-a1-m5-cA 2yx7-a1-m3-cA_2yx7-a1-m7-cA MDEIDLRILKILQYNAKYSLDEIAREIRIPKSTLSYRIKKLEKDGVIKGYYAYINPASLNLDYIVITSVKAKYGKNYHVELGNKLAQIPGVWGVYFVLGDNDFIVMARYKTREEFMEKFLERVMSIPEVERASTQVVVKIIKESPNIVIF MDEIDLRILKILQYNAKYSLDEIAREIRIPKSTLSYRIKKLEKDGVIKGYYAYINPASLNLDYIVITSVKAKYGKNYHVELGNKLAQIPGVWGVYFVLGDNDFIVMARYKTREEFMEKFLERVMSIPEVERASTQVVVKIIKESPNIVIF 2yx7-a1-m6-cA_2yx7-a1-m8-cA Crystals structure of T132A mutant of St1022 from sulfolobus tokodaii 7 F9VNT4 F9VNT4 2.05 X-RAY DIFFRACTION 33 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 150 150 2e7w-a1-m1-cA_2e7w-a1-m3-cA 2e7w-a1-m1-cA_2e7w-a1-m4-cA 2e7w-a1-m2-cA_2e7w-a1-m3-cA 2e7w-a1-m2-cA_2e7w-a1-m4-cA 2e7w-a1-m5-cA_2e7w-a1-m7-cA 2e7w-a1-m5-cA_2e7w-a1-m8-cA 2e7w-a1-m6-cA_2e7w-a1-m7-cA 2e7w-a1-m6-cA_2e7w-a1-m8-cA 2e7x-a1-m1-cA_2e7x-a1-m3-cA 2e7x-a1-m1-cA_2e7x-a1-m4-cA 2e7x-a1-m2-cA_2e7x-a1-m3-cA 2e7x-a1-m2-cA_2e7x-a1-m4-cA 2e7x-a1-m5-cA_2e7x-a1-m7-cA 2e7x-a1-m5-cA_2e7x-a1-m8-cA 2e7x-a1-m6-cA_2e7x-a1-m7-cA 2e7x-a1-m6-cA_2e7x-a1-m8-cA 2efn-a1-m1-cA_2efn-a1-m3-cA 2efn-a1-m1-cA_2efn-a1-m4-cA 2efn-a1-m2-cA_2efn-a1-m3-cA 2efn-a1-m2-cA_2efn-a1-m4-cA 2efn-a1-m5-cA_2efn-a1-m7-cA 2efn-a1-m5-cA_2efn-a1-m8-cA 2efn-a1-m6-cA_2efn-a1-m7-cA 2efn-a1-m6-cA_2efn-a1-m8-cA 2efo-a1-m1-cA_2efo-a1-m3-cA 2efo-a1-m1-cA_2efo-a1-m4-cA 2efo-a1-m2-cA_2efo-a1-m3-cA 2efo-a1-m2-cA_2efo-a1-m4-cA 2efo-a1-m5-cA_2efo-a1-m7-cA 2efo-a1-m5-cA_2efo-a1-m8-cA 2efo-a1-m6-cA_2efo-a1-m7-cA 2efo-a1-m6-cA_2efo-a1-m8-cA 2efp-a1-m1-cA_2efp-a1-m3-cA 2efp-a1-m1-cA_2efp-a1-m4-cA 2efp-a1-m2-cA_2efp-a1-m3-cA 2efp-a1-m2-cA_2efp-a1-m4-cA 2efp-a1-m5-cA_2efp-a1-m7-cA 2efp-a1-m5-cA_2efp-a1-m8-cA 2efp-a1-m6-cA_2efp-a1-m7-cA 2efp-a1-m6-cA_2efp-a1-m8-cA 2efq-a1-m1-cA_2efq-a1-m3-cA 2efq-a1-m1-cA_2efq-a1-m4-cA 2efq-a1-m2-cA_2efq-a1-m3-cA 2efq-a1-m2-cA_2efq-a1-m4-cA 2efq-a1-m5-cA_2efq-a1-m7-cA 2efq-a1-m5-cA_2efq-a1-m8-cA 2efq-a1-m6-cA_2efq-a1-m7-cA 2efq-a1-m6-cA_2efq-a1-m8-cA 2pmh-a1-m1-cA_2pmh-a1-m3-cA 2pmh-a1-m1-cA_2pmh-a1-m4-cA 2pmh-a1-m2-cA_2pmh-a1-m3-cA 2pmh-a1-m2-cA_2pmh-a1-m4-cA 2pmh-a1-m5-cA_2pmh-a1-m7-cA 2pmh-a1-m5-cA_2pmh-a1-m8-cA 2pmh-a1-m6-cA_2pmh-a1-m7-cA 2pmh-a1-m6-cA_2pmh-a1-m8-cA 2pn6-a1-m1-cA_2pn6-a1-m3-cA 2pn6-a1-m1-cA_2pn6-a1-m4-cA 2pn6-a1-m2-cA_2pn6-a1-m3-cA 2pn6-a1-m2-cA_2pn6-a1-m4-cA 2pn6-a1-m5-cA_2pn6-a1-m7-cA 2pn6-a1-m5-cA_2pn6-a1-m8-cA 2pn6-a1-m6-cA_2pn6-a1-m7-cA 2pn6-a1-m6-cA_2pn6-a1-m8-cA 2yx4-a1-m1-cA_2yx4-a1-m3-cA 2yx4-a1-m1-cA_2yx4-a1-m4-cA 2yx4-a1-m2-cA_2yx4-a1-m3-cA 2yx4-a1-m2-cA_2yx4-a1-m4-cA 2yx4-a1-m5-cA_2yx4-a1-m7-cA 2yx4-a1-m5-cA_2yx4-a1-m8-cA 2yx4-a1-m6-cA_2yx4-a1-m7-cA 2yx4-a1-m6-cA_2yx4-a1-m8-cA 2yx7-a1-m1-cA_2yx7-a1-m3-cA 2yx7-a1-m1-cA_2yx7-a1-m4-cA 2yx7-a1-m2-cA_2yx7-a1-m3-cA 2yx7-a1-m2-cA_2yx7-a1-m4-cA 2yx7-a1-m5-cA_2yx7-a1-m7-cA 2yx7-a1-m5-cA_2yx7-a1-m8-cA 2yx7-a1-m6-cA_2yx7-a1-m7-cA MDEIDLRILKILQYNAKYSLDEIAREIRIPKSTLSYRIKKLEKDGVIKGYYAYINPASLNLDYIVITSVKAKYGKNYHVELGNKLAQIPGVWGVYFVLGDNDFIVMARYKTREEFMEKFLERVMSIPEVERASTQVVVKIIKESPNIVIF MDEIDLRILKILQYNAKYSLDEIAREIRIPKSTLSYRIKKLEKDGVIKGYYAYINPASLNLDYIVITSVKAKYGKNYHVELGNKLAQIPGVWGVYFVLGDNDFIVMARYKTREEFMEKFLERVMSIPEVERASTQVVVKIIKESPNIVIF 2yx8-a1-m1-cA_2yx8-a1-m2-cA Crystal structure of the extracellular domain of human RAMP1 O60894 O60894 2.4 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 CQEANYGALLRELCLTQFQVDEAVGETLWCDWGRTIRSYRELADCTWHAEKLGCFWPNAEVDRFFLAVHGRYFRSCPIS CQEANYGALLRELCLTQFQVDEAVGETLWCDWGRTIRSYRELADCTWHAEKLGCFWPNAEVDRFFLAVHGRYFRSCPIS 2yxd-a2-m1-cA_2yxd-a2-m2-cB Crystal Structure of Cobalamin biosynthesis precorrin 8W decarboxylase (cbiT) Q57836 Q57836 2.3 X-RAY DIFFRACTION 15 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 177 177 2yxd-a2-m1-cB_2yxd-a2-m2-cA IPDEEFIRREGVPITKEEIRAVSIGKLNLNKDDVVVDVGCGSGGTVEIAKRCKFVYAIDYLDGAIEVTKQNLAKFNIKNCQIIKGRAEDVLDKLEFNKAFIGGTKNIEKIIEILDKKKINHIVANTIVLENAAKIINEFESRGYNVDAVNVFISYAKKIPSGHFLAKNPITIIKAVR IPDEEFIRREGVPITKEEIRAVSIGKLNLNKDDVVVDVGCGSGGTVEIAKRCKFVYAIDYLDGAIEVTKQNLAKFNIKNCQIIKGRAEDVLDKLEFNKAFIGGTKNIEKIIEILDKKKINHIVANTIVLENAAKIINEFESRGYNVDAVNVFISYAKKIPSGHFLAKNPITIIKAVR 2yxd-a2-m1-cB_2yxd-a2-m2-cB Crystal Structure of Cobalamin biosynthesis precorrin 8W decarboxylase (cbiT) Q57836 Q57836 2.3 X-RAY DIFFRACTION 52 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 177 177 2yxd-a2-m1-cA_2yxd-a2-m2-cA IPDEEFIRREGVPITKEEIRAVSIGKLNLNKDDVVVDVGCGSGGTVEIAKRCKFVYAIDYLDGAIEVTKQNLAKFNIKNCQIIKGRAEDVLDKLEFNKAFIGGTKNIEKIIEILDKKKINHIVANTIVLENAAKIINEFESRGYNVDAVNVFISYAKKIPSGHFLAKNPITIIKAVR IPDEEFIRREGVPITKEEIRAVSIGKLNLNKDDVVVDVGCGSGGTVEIAKRCKFVYAIDYLDGAIEVTKQNLAKFNIKNCQIIKGRAEDVLDKLEFNKAFIGGTKNIEKIIEILDKKKINHIVANTIVLENAAKIINEFESRGYNVDAVNVFISYAKKIPSGHFLAKNPITIIKAVR 2yxd-a2-m2-cA_2yxd-a2-m2-cB Crystal Structure of Cobalamin biosynthesis precorrin 8W decarboxylase (cbiT) Q57836 Q57836 2.3 X-RAY DIFFRACTION 74 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 177 177 2yxd-a1-m1-cA_2yxd-a1-m1-cB 2yxd-a2-m1-cA_2yxd-a2-m1-cB IPDEEFIRREGVPITKEEIRAVSIGKLNLNKDDVVVDVGCGSGGTVEIAKRCKFVYAIDYLDGAIEVTKQNLAKFNIKNCQIIKGRAEDVLDKLEFNKAFIGGTKNIEKIIEILDKKKINHIVANTIVLENAAKIINEFESRGYNVDAVNVFISYAKKIPSGHFLAKNPITIIKAVR IPDEEFIRREGVPITKEEIRAVSIGKLNLNKDDVVVDVGCGSGGTVEIAKRCKFVYAIDYLDGAIEVTKQNLAKFNIKNCQIIKGRAEDVLDKLEFNKAFIGGTKNIEKIIEILDKKKINHIVANTIVLENAAKIINEFESRGYNVDAVNVFISYAKKIPSGHFLAKNPITIIKAVR 2yxe-a1-m1-cB_2yxe-a1-m1-cA Crystal structure of L-isoaspartyl protein carboxyl methyltranferase Q57636 Q57636 2 X-RAY DIFFRACTION 49 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 213 214 DLEEQKKAVIEKLIREGYIKSKRVIDALLKVPREEFLPEHLKEYAYVDTPLEIGYGQTISAIHMVGMMCELLDLKPGMKVLEIGTGCGYHAAVTAEIVGEDGLVVSIERIPELAEKAERTLRKLGYDNVIVIVGDGTLGYEPLAPYDRIYTTAAGPKIPEPLIRQLKDGGKLLMPVGRYLQRLVLAEKRGDEIIIKDCGPVAFVPLVGKEGFQ DLEEQKKAVIEKLIREGYIKSKRVIDALLKVPREEFLPEHLKEYAYVDTPLEIGYGQTISAIHMVGMMCELLDLKPGMKVLEIGTGCGYHAAVTAEIVGEDGLVVSIERIPELAEKAERTLRKLGYDNVIVIVGDGTLGYEPLAPYDRIYTTAAGPKIPEPLIRQLKDGGKLLMPVGRYLQRLVLAEKRGDEIIIKDCGPVAFVPLVGKEGFQG 2yxg-a1-m1-cC_2yxg-a1-m1-cD Crystal structure of Dihyrodipicolinate Synthase (dapA) Q57695 Q57695 2.2 X-RAY DIFFRACTION 115 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 288 288 2yxg-a1-m1-cB_2yxg-a1-m1-cA FKGVYPAIITPFKNKEVDFDGLEENINFLIENGVSGIVAVGTTGESPTLSHEEHKKVIEKVVDVVNGRVQVIAGAGSNCTEEAIELSVFAEDVGADAVLSITPYYNKPTQEGLRKHFGKVAESINLPIVLYNVPSRTAVNLEPKTVKLLAEEYSNISAVKEANPNLSQVSELIHDAKITVLSGNDELTLPIIALGGKGVISVVANIVPKEFVEMVNYALEGDFEKAREIHYKLFPLMKAMFIETNPIPVKTALNMMGRPAGELRLPLCEMSEEHKKILENVLKDLGLI FKGVYPAIITPFKNKEVDFDGLEENINFLIENGVSGIVAVGTTGESPTLSHEEHKKVIEKVVDVVNGRVQVIAGAGSNCTEEAIELSVFAEDVGADAVLSITPYYNKPTQEGLRKHFGKVAESINLPIVLYNVPSRTAVNLEPKTVKLLAEEYSNISAVKEANPNLSQVSELIHDAKITVLSGNDELTLPIIALGGKGVISVVANIVPKEFVEMVNYALEGDFEKAREIHYKLFPLMKAMFIETNPIPVKTALNMMGRPAGELRLPLCEMSEEHKKILENVLKDLGLI 2yxg-a1-m1-cD_2yxg-a1-m1-cA Crystal structure of Dihyrodipicolinate Synthase (dapA) Q57695 Q57695 2.2 X-RAY DIFFRACTION 63 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 288 289 2yxg-a1-m1-cB_2yxg-a1-m1-cC FKGVYPAIITPFKNKEVDFDGLEENINFLIENGVSGIVAVGTTGESPTLSHEEHKKVIEKVVDVVNGRVQVIAGAGSNCTEEAIELSVFAEDVGADAVLSITPYYNKPTQEGLRKHFGKVAESINLPIVLYNVPSRTAVNLEPKTVKLLAEEYSNISAVKEANPNLSQVSELIHDAKITVLSGNDELTLPIIALGGKGVISVVANIVPKEFVEMVNYALEGDFEKAREIHYKLFPLMKAMFIETNPIPVKTALNMMGRPAGELRLPLCEMSEEHKKILENVLKDLGLI MFKGVYPAIITPFKNKEVDFDGLEENINFLIENGVSGIVAVGTTGESPTLSHEEHKKVIEKVVDVVNGRVQVIAGAGSNCTEEAIELSVFAEDVGADAVLSITPYYNKPTQEGLRKHFGKVAESINLPIVLYNVPSRTAVNLEPKTVKLLAEEYSNISAVKEANPNLSQVSELIHDAKITVLSGNDELTLPIIALGGKGVISVVANIVPKEFVEMVNYALEGDFEKAREIHYKLFPLMKAMFIETNPIPVKTALNMMGRPAGELRLPLCEMSEEHKKILENVLKDLGLI 2yxh-a1-m1-cA_2yxh-a1-m1-cB Crystal structure of mazG-related protein from Thermotoga maritima Q9WYJ5 Q9WYJ5 2 X-RAY DIFFRACTION 179 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 112 113 VERLLEIIERSLRKCPWLEKQSIETLLEALASEIEEVAEAVKKNDLANLEEEIGDIYDALLVAAVAQRDYGIDLESAIQKVVEKISHRKPWLFWEEKISLEEAEKIWKERKK VERLLEIIERSLRKCPWLEKQSIETLLEALASEIEEVAEAVKKNDLANLEEEIGDIYDALLVAAVAQRDYGIDLESAIQKVVEKISHRKPWLFWEEKISLEEAEKIWKERKKK 2yxm-a1-m1-cA_2yxm-a1-m2-cA Crystal structure of I-set domain of human Myosin Binding ProteinC Q00872 Q00872 1.51 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 SGSSGAAFAKILDPAYQVDKGGRVRFVVELADPKLEVKWYKNGQEIRPSTKYIFEHKGCQRILFINNCQMTDDSEYYVTAGDEKCSTELFVR SGSSGAAFAKILDPAYQVDKGGRVRFVVELADPKLEVKWYKNGQEIRPSTKYIFEHKGCQRILFINNCQMTDDSEYYVTAGDEKCSTELFVR 2yxo-a1-m1-cB_2yxo-a1-m2-cB Histidinol Phosphate Phosphatase complexed with Sulfate Q5SLG2 Q5SLG2 1.6 X-RAY DIFFRACTION 60 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 265 265 2yxo-a1-m1-cA_2yxo-a1-m2-cA 2yz5-a1-m1-cA_2yz5-a1-m2-cA 2yz5-a1-m1-cB_2yz5-a1-m2-cB 2z4g-a1-m1-cA_2z4g-a1-m2-cA 2z4g-a1-m1-cB_2z4g-a1-m2-cB MVDSHVHTPLCGHAEGHPEAYLEEARAKGLKGVVFTDHSPMPPWYDPESRMRLEALPFYLLALERVRERAQDLYVGIGLEADFHPGTEGFLAQLLRRYPFDYVIGSVHYLGAWPLDHPDHQEEYAWRDLKEVFRAYFQEVEKAARSGLFHAIGHLDLPKKFGHRLPEEALLELAEPALRAVAEAGLFLDVNTAGLRRPAKEVYPAPALLRRARELGIGLVLGSDAHRPEEVGFAFPEVQALLAGLGFREAYYFVEGSPVAYPLSR MVDSHVHTPLCGHAEGHPEAYLEEARAKGLKGVVFTDHSPMPPWYDPESRMRLEALPFYLLALERVRERAQDLYVGIGLEADFHPGTEGFLAQLLRRYPFDYVIGSVHYLGAWPLDHPDHQEEYAWRDLKEVFRAYFQEVEKAARSGLFHAIGHLDLPKKFGHRLPEEALLELAEPALRAVAEAGLFLDVNTAGLRRPAKEVYPAPALLRRARELGIGLVLGSDAHRPEEVGFAFPEVQALLAGLGFREAYYFVEGSPVAYPLSR 2yxo-a1-m2-cA_2yxo-a1-m2-cB Histidinol Phosphate Phosphatase complexed with Sulfate Q5SLG2 Q5SLG2 1.6 X-RAY DIFFRACTION 62 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 263 265 2yxo-a1-m1-cA_2yxo-a1-m1-cB 2yz5-a1-m1-cA_2yz5-a1-m1-cB 2yz5-a1-m2-cA_2yz5-a1-m2-cB 2z4g-a1-m1-cA_2z4g-a1-m1-cB 2z4g-a1-m2-cA_2z4g-a1-m2-cB MVDSHVHTPLCGHAEGHPEAYLEEARAKGLKGVVFTDHSPMPPWYDPESRMRLEALPFYLLALERVRERAQDLYVGIGLEADFHPGTEGFLAQLLRRYPFDYVIGSVHYLGAWPLDHPDHQEEYAWRDLKEVFRAYFQEVEKAARSGLFHAIGHLDLPKKFGHRLPEEALLELAEPALRAVAEAGLFLDVNTAGLRRPAKEVYPAPALLRRARELGIGLVLGSDAHRPEEVGFAFPEVQALLAGLGFREAYYFVEGSPVAYPL MVDSHVHTPLCGHAEGHPEAYLEEARAKGLKGVVFTDHSPMPPWYDPESRMRLEALPFYLLALERVRERAQDLYVGIGLEADFHPGTEGFLAQLLRRYPFDYVIGSVHYLGAWPLDHPDHQEEYAWRDLKEVFRAYFQEVEKAARSGLFHAIGHLDLPKKFGHRLPEEALLELAEPALRAVAEAGLFLDVNTAGLRRPAKEVYPAPALLRRARELGIGLVLGSDAHRPEEVGFAFPEVQALLAGLGFREAYYFVEGSPVAYPLSR 2yxt-a2-m1-cB_2yxt-a2-m2-cB Human Pyridoxal Kinase O00764 O00764 2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 304 304 2yxu-a2-m1-cB_2yxu-a2-m2-cB EECRVLSIQSHVIRGYVGNRAATFPLQVLGFEIDAVNSVQFSNHTGYAHWKGQVLNSDELQELYEGLRLNNMNKYDYVLTGYTRDKSFLAMVVDIVQELKQQNPRLVYVCDPVLGDKWDGEGSMYVPEDLLPVYKEKVVPLADIITPNQFEAELLSGRKIHSQEEALRVMDMLHSMGPDTVVITSSDLPSPQGSNYLIVLGSQRRRNPAGSVVMERIRMDIRKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSTLHHVLQRTIQCAKAQPSPMQLELRMVQSKRDIEDPEIVVQATVL EECRVLSIQSHVIRGYVGNRAATFPLQVLGFEIDAVNSVQFSNHTGYAHWKGQVLNSDELQELYEGLRLNNMNKYDYVLTGYTRDKSFLAMVVDIVQELKQQNPRLVYVCDPVLGDKWDGEGSMYVPEDLLPVYKEKVVPLADIITPNQFEAELLSGRKIHSQEEALRVMDMLHSMGPDTVVITSSDLPSPQGSNYLIVLGSQRRRNPAGSVVMERIRMDIRKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSTLHHVLQRTIQCAKAQPSPMQLELRMVQSKRDIEDPEIVVQATVL 2yxx-a2-m1-cA_2yxx-a2-m2-cA Crystal structure analysis of Diaminopimelate decarboxylate (lysA) Q9X1K5 Q9X1K5 1.7 X-RAY DIFFRACTION 219 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 375 375 DILRKVAEIHGTPTYVYFEETLRKRSRLVKEVFEGVNLLPTFAVKANNNPVLLKILREEGFGDVVTKGELLAAKLAGVPSHTVVWNGNGKSRDQEHFLREDVRIVNVDSFEEEIWRELNPEGVEYFIRVNPEVDAKTHPHISTGLKKHKFGIPLEDLDSFERFRSNIRGLHVHIGSQITRVEPFVEAFSKVVRASERYGFEEINIGGGWGINYSGEELDLSSYREKVVPDLKRFKRVIVEIGRYIVAPSGYLLLRVVLVKRRHNKAFVVVDGGNVLIRPALYSAYHRIFVLGKQGKERADVVGPLCESGDVIAYDRELPEVEPGDIIAVENAGAYGYTSNNYNSTTRPAEVLVRENGRISLIRRRETEDIFKDVV DILRKVAEIHGTPTYVYFEETLRKRSRLVKEVFEGVNLLPTFAVKANNNPVLLKILREEGFGDVVTKGELLAAKLAGVPSHTVVWNGNGKSRDQEHFLREDVRIVNVDSFEEEIWRELNPEGVEYFIRVNPEVDAKTHPHISTGLKKHKFGIPLEDLDSFERFRSNIRGLHVHIGSQITRVEPFVEAFSKVVRASERYGFEEINIGGGWGINYSGEELDLSSYREKVVPDLKRFKRVIVEIGRYIVAPSGYLLLRVVLVKRRHNKAFVVVDGGNVLIRPALYSAYHRIFVLGKQGKERADVVGPLCESGDVIAYDRELPEVEPGDIIAVENAGAYGYTSNNYNSTTRPAEVLVRENGRISLIRRRETEDIFKDVV 2yxz-a2-m1-cD_2yxz-a2-m1-cB Crystal structure of tt0281 from Thermus thermophilus HB8 Q5SL69 Q5SL69 1.9 X-RAY DIFFRACTION 221 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 304 305 2yxz-a1-m1-cA_2yxz-a1-m1-cC RLKDLGERALLARLAPLGYPPEAPLPPGDDAGGVWAEGRAWLLKTDGFLYREVALKGMGPFEVGFRGVAATASDLLAKMGRPLGFTLGLFLPEDLEEGFVLELVRGAAEAAKRLGAFLLGGDTNRGVEVALTVSGYALAEAPLPRKALPGDLLYLAGDRWGRTGAAIRAHYEGRSLEGFPKIREAAFYPLPRLELLALSGLLRGSLDSSDGLAETLWQLADLGVGVEVEALPLYPDVLAFAGSEEAALELVLYGGEEFEAVLVVPQEGAAAVEARAKAKGLPLFRAGRVVAGEGVYLRGAPLPR MRLKDLGERALLARLAPLGYPPEAPLPPGDDAGGVWAEGRAWLLKTDGFLYREVALKGMGPFEVGFRGVAATASDLLAKMGRPLGFTLGLFLPEDLEEGFVLELVRGAAEAAKRLGAFLLGGDTNRGVEVALTVSGYALAEAPLPRKALPGDLLYLAGDRWGRTGAAIRAHYEGRSLEGFPKIREAAFYPLPRLELLALSGLLRGSLDSSDGLAETLWQLADLGVGVEVEALPLYPDVLAFAGSEEAALELVLYGGEEFEAVLVVPQEGAAAVEARAKAKGLPLFRAGRVVAGEGVYLRGAPLPR 2yy0-a3-m2-cA_2yy0-a3-m3-cD Crystal Structure of MS0802, c-Myc-1 binding protein domain from Homo sapiens Q99417 Q99417 2.4 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 38 53 2yy0-a3-m1-cA_2yy0-a3-m2-cD 2yy0-a3-m3-cA_2yy0-a3-m1-cD PENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE NSALDFLKHHLGAATPENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE 2yy0-a3-m2-cD_2yy0-a3-m3-cD Crystal Structure of MS0802, c-Myc-1 binding protein domain from Homo sapiens Q99417 Q99417 2.4 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 2yy0-a3-m1-cD_2yy0-a3-m2-cD 2yy0-a3-m1-cD_2yy0-a3-m3-cD NSALDFLKHHLGAATPENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE NSALDFLKHHLGAATPENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE 2yy0-a3-m3-cC_2yy0-a3-m3-cA Crystal Structure of MS0802, c-Myc-1 binding protein domain from Homo sapiens Q99417 Q99417 2.4 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 38 2yy0-a3-m1-cC_2yy0-a3-m1-cA 2yy0-a3-m2-cC_2yy0-a3-m2-cA ENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE PENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE 2yy0-a3-m3-cC_2yy0-a3-m3-cD Crystal Structure of MS0802, c-Myc-1 binding protein domain from Homo sapiens Q99417 Q99417 2.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 53 2yy0-a1-m1-cA_2yy0-a1-m1-cB 2yy0-a2-m1-cC_2yy0-a2-m1-cD 2yy0-a3-m1-cA_2yy0-a3-m1-cB 2yy0-a3-m1-cC_2yy0-a3-m1-cD 2yy0-a3-m2-cA_2yy0-a3-m2-cB 2yy0-a3-m2-cC_2yy0-a3-m2-cD 2yy0-a3-m3-cA_2yy0-a3-m3-cB ENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE NSALDFLKHHLGAATPENPEIELLRLELAEMKEKYEAIVEENKKLKAKLAQYE 2yy1-a2-m1-cA_2yy1-a2-m2-cA Crystal structure of N-terminal domain of human galectin-9 containing L-acetyllactosamine O00182 O00182 2.17 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 3lsd-a2-m1-cA_3lsd-a2-m2-cA 3lse-a2-m1-cA_3lse-a2-m2-cA QAPYLSPAVPFSGTIQGGLQDGLQITVNGTVLSSSGTRFAVNFQTGFSGNDIAFHFNPRFEDGGYVVCNTRQNGSWGPEERKTHMPFQKGMPFDLCFLVQSSDFKVMVNGILFVQYFHRVPFHRVDTISVNGSVQLSYISF QAPYLSPAVPFSGTIQGGLQDGLQITVNGTVLSSSGTRFAVNFQTGFSGNDIAFHFNPRFEDGGYVVCNTRQNGSWGPEERKTHMPFQKGMPFDLCFLVQSSDFKVMVNGILFVQYFHRVPFHRVDTISVNGSVQLSYISF 2yy5-a2-m1-cC_2yy5-a2-m1-cD Crystal Structure of tryptophanyl-tRNA synthetase from Mycoplasma pneumoniae P75510 P75510 2.55 X-RAY DIFFRACTION 153 1.0 272634 (Mycoplasmoides pneumoniae M129) 272634 (Mycoplasmoides pneumoniae M129) 336 346 2yy5-a1-m1-cA_2yy5-a1-m1-cB MKRALTGIQASGKQHLGNYLGVMQSLIELQEQCQLFVFVADLHSITVDFQPQALKQNNFDLVRTLLAVGLDPQKACLFLQSDLLEHSMMGYLMMVQSNLGELQRMTQFKAKKALNIPTGLLTYPALMAGDILLYQPDIVPVGNDQKQHLELTRDLAQRIQKKFKLKLRLPQFVQNKDTNRIMDLFDPTKKMSKSSKNQNGVIYLDDPKEVVVKKIRQATTDSFNKIRFASKTQPGVTNMLTILKALLKEPVNQSLTNQLGNDLEAYFSTKSYLDLKNALTEATVNLLVNIQRKREQISREQVFNCLQAGKNQAQATARTTLALFYDGFGLGSQNIK MMKRALTGIQASGKQHLGNYLGVMQSLIELQEQCQLFVFVADLHSITVDFQPQALKQNNFDLVRTLLAVGLDPQKACLFLQSDLLEHSMMGYLMMVQSNLGELQRMTQFKAKKAEQTRNPNGTLNIPTGLLTYPALMAGDILLYQPDIVPVGNDQKQHLELTRDLAQRIQKKFKLKLRLPQFVQNKDTNRIMDLFDPTKKMSKSSKNQNGVIYLDDPKEVVVKKIRQATTDSFNKIRFASKTQPGVTNMLTILKALLKEPVNQSLTNQLGNDLEAYFSTKSYLDLKNALTEATVNLLVNIQRKREQISREQVFNCLQAGKNQAQATARTTLALFYDGFGLGSQNIK 2yy7-a1-m1-cA_2yy7-a1-m1-cB Crystal structure of thermolabile L-threonine dehydrogenase from Flavobacterium frigidimaris KUC-1 Q8KZM4 Q8KZM4 2.061 X-RAY DIFFRACTION 47 1.0 262320 (Flavobacterium frigidimaris) 262320 (Flavobacterium frigidimaris) 312 312 MNPKILIIGACGQIGTELTQKLRKLYGTENVIASDIRKLNTDVVNSGPFEVVNALDFNQIEHLVEVHKITDIYLMAALLSATAEKNPAFAWDLNMNSLFHVLNLAKAKKIKKIFWPSSIAVFGPTTPKENTPQYTIMEPSTVYGISKQAGERWCEYYHNIYGVDVRSIRYPGLISWSTPPGGGTTDYAVDIFYKAIADKKYECFLSSETKMPMMYMDDAIDATINIMKAPVEKIKIHSSYNLAAMSFTPTEIANEIKKHIPEFTITYEPDFRQKIADSWPASIDDSQAREDWDWKHTFDLESMTKDMIEHLS MNPKILIIGACGQIGTELTQKLRKLYGTENVIASDIRKLNTDVVNSGPFEVVNALDFNQIEHLVEVHKITDIYLMAALLSATAEKNPAFAWDLNMNSLFHVLNLAKAKKIKKIFWPSSIAVFGPTTPKENTPQYTIMEPSTVYGISKQAGERWCEYYHNIYGVDVRSIRYPGLISWSTPPGGGTTDYAVDIFYKAIADKKYECFLSSETKMPMMYMDDAIDATINIMKAPVEKIKIHSSYNLAAMSFTPTEIANEIKKHIPEFTITYEPDFRQKIADSWPASIDDSQAREDWDWKHTFDLESMTKDMIEHLS 2yy8-a1-m1-cA_2yy8-a1-m1-cB Crystal structure of archaeal tRNA-methylase for position 56 (aTrm56) from Pyrococcus horikoshii, complexed with S-adenosyl-L-methionine O58214 O58214 2.48 X-RAY DIFFRACTION 175 0.994 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 174 174 MIVVLRLGHRPEDKRVTTHVALTARAFGADGIIIASEEDEKVKESVEDVVKRWGGPFFIEFNRNWRKVMKEFTGVKVHLTMYGLHVDDVIEELKEKLKKGEDFMIIVGAEKVPREVYELADYNVAIGNQPHSEVAALAVLLDRLLEGKGLKKEFKGAKIKIVPQARGKKVVEVQ MIVVLRLGHRPERDKRVTTHVALTARAFGADGIIIASEEDEKVKESVEDVVKRWGGPFFIEFNRNWRKVMKEFTGVKVHLTMYGLHVDDVIEELKEKLKKGEDFMIIVGAEKVPREVYELADYNVAIGNQPHSEVAALAVLLDRLLEGKGLKKEFKGAKIKIVPQARGKKVVEV 2yy9-a1-m1-cA_2yy9-a1-m1-cB Crystal structure of BTB domain from mouse HKR3 Q1H9T6 Q1H9T6 2.6 X-RAY DIFFRACTION 72 0.981 10090 (Mus musculus) 10090 (Mus musculus) 106 109 GHSVRVLQELNKQREKGQYCDATLDVGGLVFKAHWSVLACCSHFFQRIYGGSVVLPAGFAEIFGLLLDFFYTGHLALTSGNRDQVLLAAKELRVPEAVELCQSFQP SGHSVRVLQELNKQREKGQYCDATLDVGGLVFKAHWSVLACCSHFFQRIYGDGTGGSVVLPAGFAEIFGLLLDFFYTGHLALTSGNRDQVLLAAKELRVPEAVELCQSF 2yyb-a1-m2-cA_2yyb-a1-m3-cB Crystal structure of TTHA1606 from Thermus thermophilus HB8 Q5SHX4 Q5SHX4 2.6 X-RAY DIFFRACTION 58 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 242 242 2yyb-a1-m1-cA_2yyb-a1-m2-cB 2yyb-a1-m1-cB_2yyb-a1-m3-cA MDRDELVRYLDAYLRIQDFPQDPSLNGLQVEGKRTVRKVGAAVDAGEAIFRKALEEEVDFLIVHHGLFWGKPFPIVGHHKRRLETLFQGGINLYAAHLPLDAHEEVGNNFVLARELGLVDLTPWDVGVKGRFPQPTPLLQVADRLGQLTGMQPLVHQGGLDHVETVILVSGSGTGLLPKVDADLFVTGEPKHSVFHETFERGLNVIYAGHYDTETFGVKALAAHLEARFGLPWVFLDHPTGL MDRDELVRYLDAYLRIQDFPQDPSLNGLQVEGKRTVRKVGAAVDAGEAIFRKALEEEVDFLIVHHGLFWGKPFPIVGHHKRRLETLFQGGINLYAAHLPLDAHEEVGNNFVLARELGLVDLTPWDVGVKGRFPQPTPLLQVADRLGQLTGMQPLVHQGGLDHVETVILVSGSGTGLLPKVDADLFVTGEPKHSVFHETFERGLNVIYAGHYDTETFGVKALAAHLEARFGLPWVFLDHPTGL 2yyb-a2-m1-cA_2yyb-a2-m1-cB Crystal structure of TTHA1606 from Thermus thermophilus HB8 Q5SHX4 Q5SHX4 2.6 X-RAY DIFFRACTION 70 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 242 242 2yyb-a1-m1-cA_2yyb-a1-m1-cB 2yyb-a1-m2-cA_2yyb-a1-m2-cB 2yyb-a1-m3-cA_2yyb-a1-m3-cB MDRDELVRYLDAYLRIQDFPQDPSLNGLQVEGKRTVRKVGAAVDAGEAIFRKALEEEVDFLIVHHGLFWGKPFPIVGHHKRRLETLFQGGINLYAAHLPLDAHEEVGNNFVLARELGLVDLTPWDVGVKGRFPQPTPLLQVADRLGQLTGMQPLVHQGGLDHVETVILVSGSGTGLLPKVDADLFVTGEPKHSVFHETFERGLNVIYAGHYDTETFGVKALAAHLEARFGLPWVFLDHPTGL MDRDELVRYLDAYLRIQDFPQDPSLNGLQVEGKRTVRKVGAAVDAGEAIFRKALEEEVDFLIVHHGLFWGKPFPIVGHHKRRLETLFQGGINLYAAHLPLDAHEEVGNNFVLARELGLVDLTPWDVGVKGRFPQPTPLLQVADRLGQLTGMQPLVHQGGLDHVETVILVSGSGTGLLPKVDADLFVTGEPKHSVFHETFERGLNVIYAGHYDTETFGVKALAAHLEARFGLPWVFLDHPTGL 2yyh-a2-m1-cD_2yyh-a2-m1-cC Crystal structure of Nudix family protein from Aquifex aeolicus O67435 O67435 1.8 X-RAY DIFFRACTION 79 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 133 135 2yyh-a1-m1-cA_2yyh-a1-m1-cB VKTPLLATDVIIRLWDGENFKGIVLIERKYPPVGLALPGGFVEVGERVEEAAAREREETGLEVRLHKLGVYSDPERDPRAHVVSVVWIGDAQGEPKAGSDAKKVKVYRLEEIPLDKLVFDHKKIILDFLKGNY FNVKTPLLATDVIIRLWDGENFKGIVLIERKYPPVGLALPGGFVEVGERVEEAAAREREETGLEVRLHKLGVYSDPERDPRAHVVSVVWIGDAQGEPKAGSDAKKVKVYRLEEIPLDKLVFDHKKIILDFLKGNY 2yyj-a1-m2-cA_2yyj-a1-m4-cA Crystal structure of the oxygenase component (HpaB) of 4-hydroxyphenylacetate 3-monooxygenase complexed with FAD and 4-hydroxyphenylacetate Q5SJP8 Q5SJP8 1.66 X-RAY DIFFRACTION 218 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 476 476 2yyg-a1-m1-cA_2yyg-a1-m3-cA 2yyg-a1-m2-cA_2yyg-a1-m4-cA 2yyi-a1-m1-cA_2yyi-a1-m3-cA 2yyi-a1-m2-cA_2yyi-a1-m4-cA 2yyj-a1-m1-cA_2yyj-a1-m3-cA 2yyk-a1-m1-cA_2yyk-a1-m3-cA 2yyk-a1-m2-cA_2yyk-a1-m4-cA 2yyl-a1-m1-cA_2yyl-a1-m3-cA 2yyl-a1-m2-cA_2yyl-a1-m4-cA 2yym-a1-m1-cA_2yym-a1-m3-cA 2yym-a1-m2-cA_2yym-a1-m4-cA ARTGAEYIEALKTRPPNLWYKGEKVEDPTTHPVFRGIVRTMAALYDLQHDPRYREVLTYEEEGKRHGMSFLIPKTKEDLKRRGQAYKLWADQNLGMMGRSPDYLNAVVMAYAASADYFGEFAENVRNYYRYLRDQDLATTHALTNPQVNRARPPSGQPDPYIPVGVVKQTEKGIVVRGARMTATFPLADEVLIFPSTLLQAGSEKYALAFALPTSTPGLHFVCREALVGGDSPFDHPLSSRVEEMDCLVIFDDVLVPWERVFILGNVELCNNAYAATGALNHMAHQVVALKTAKTEAFLGVAALMAEGIGADVYGHVQEKIAEIIVYLEAMRAFWTRAEEEAKENAYGLLVPDRGALDGARNLYPRLYPRIREILEQIGASGLITLPSEKDFKGPLGPFLEKFLQGAALEAKERVALFRLAWDMTLSGFGARQELYERFFFGDPVRMYQTLYNVYNKEPYKERIRAFLKESLKVFE ARTGAEYIEALKTRPPNLWYKGEKVEDPTTHPVFRGIVRTMAALYDLQHDPRYREVLTYEEEGKRHGMSFLIPKTKEDLKRRGQAYKLWADQNLGMMGRSPDYLNAVVMAYAASADYFGEFAENVRNYYRYLRDQDLATTHALTNPQVNRARPPSGQPDPYIPVGVVKQTEKGIVVRGARMTATFPLADEVLIFPSTLLQAGSEKYALAFALPTSTPGLHFVCREALVGGDSPFDHPLSSRVEEMDCLVIFDDVLVPWERVFILGNVELCNNAYAATGALNHMAHQVVALKTAKTEAFLGVAALMAEGIGADVYGHVQEKIAEIIVYLEAMRAFWTRAEEEAKENAYGLLVPDRGALDGARNLYPRLYPRIREILEQIGASGLITLPSEKDFKGPLGPFLEKFLQGAALEAKERVALFRLAWDMTLSGFGARQELYERFFFGDPVRMYQTLYNVYNKEPYKERIRAFLKESLKVFE 2yyj-a1-m3-cA_2yyj-a1-m4-cA Crystal structure of the oxygenase component (HpaB) of 4-hydroxyphenylacetate 3-monooxygenase complexed with FAD and 4-hydroxyphenylacetate Q5SJP8 Q5SJP8 1.66 X-RAY DIFFRACTION 219 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 476 476 2yyg-a1-m1-cA_2yyg-a1-m2-cA 2yyg-a1-m3-cA_2yyg-a1-m4-cA 2yyi-a1-m1-cA_2yyi-a1-m2-cA 2yyi-a1-m3-cA_2yyi-a1-m4-cA 2yyj-a1-m1-cA_2yyj-a1-m2-cA 2yyk-a1-m1-cA_2yyk-a1-m2-cA 2yyk-a1-m3-cA_2yyk-a1-m4-cA 2yyl-a1-m1-cA_2yyl-a1-m2-cA 2yyl-a1-m3-cA_2yyl-a1-m4-cA 2yym-a1-m1-cA_2yym-a1-m2-cA 2yym-a1-m3-cA_2yym-a1-m4-cA ARTGAEYIEALKTRPPNLWYKGEKVEDPTTHPVFRGIVRTMAALYDLQHDPRYREVLTYEEEGKRHGMSFLIPKTKEDLKRRGQAYKLWADQNLGMMGRSPDYLNAVVMAYAASADYFGEFAENVRNYYRYLRDQDLATTHALTNPQVNRARPPSGQPDPYIPVGVVKQTEKGIVVRGARMTATFPLADEVLIFPSTLLQAGSEKYALAFALPTSTPGLHFVCREALVGGDSPFDHPLSSRVEEMDCLVIFDDVLVPWERVFILGNVELCNNAYAATGALNHMAHQVVALKTAKTEAFLGVAALMAEGIGADVYGHVQEKIAEIIVYLEAMRAFWTRAEEEAKENAYGLLVPDRGALDGARNLYPRLYPRIREILEQIGASGLITLPSEKDFKGPLGPFLEKFLQGAALEAKERVALFRLAWDMTLSGFGARQELYERFFFGDPVRMYQTLYNVYNKEPYKERIRAFLKESLKVFE ARTGAEYIEALKTRPPNLWYKGEKVEDPTTHPVFRGIVRTMAALYDLQHDPRYREVLTYEEEGKRHGMSFLIPKTKEDLKRRGQAYKLWADQNLGMMGRSPDYLNAVVMAYAASADYFGEFAENVRNYYRYLRDQDLATTHALTNPQVNRARPPSGQPDPYIPVGVVKQTEKGIVVRGARMTATFPLADEVLIFPSTLLQAGSEKYALAFALPTSTPGLHFVCREALVGGDSPFDHPLSSRVEEMDCLVIFDDVLVPWERVFILGNVELCNNAYAATGALNHMAHQVVALKTAKTEAFLGVAALMAEGIGADVYGHVQEKIAEIIVYLEAMRAFWTRAEEEAKENAYGLLVPDRGALDGARNLYPRLYPRIREILEQIGASGLITLPSEKDFKGPLGPFLEKFLQGAALEAKERVALFRLAWDMTLSGFGARQELYERFFFGDPVRMYQTLYNVYNKEPYKERIRAFLKESLKVFE 2yyn-a2-m1-cC_2yyn-a2-m1-cD Crystal structure of human bromodomain protein O15164 O15164 2.5 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 2yyn-a1-m1-cA_2yyn-a1-m1-cB KLTPIDKRKCERLLLFLYCHEMSLAFQDPVPLTVPDYYKIIKNPMDLSTIKKRLQEDYSMYSKPEDFVADFRLIFQNCAEFNEPDSEVANAGIKLENYFEELLKNLYPEKRFP KLTPIDKRKCERLLLFLYCHEMSLAFQDPVPLTVPDYYKIIKNPMDLSTIKKRLQEDYSMYSKPEDFVADFRLIFQNCAEFNEPDSEVANAGIKLENYFEELLKNLYPEKRFP 2yyn-a4-m1-cC_2yyn-a4-m3-cD Crystal structure of human bromodomain protein O15164 O15164 2.5 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 2yyn-a3-m1-cA_2yyn-a3-m2-cB KLTPIDKRKCERLLLFLYCHEMSLAFQDPVPLTVPDYYKIIKNPMDLSTIKKRLQEDYSMYSKPEDFVADFRLIFQNCAEFNEPDSEVANAGIKLENYFEELLKNLYPEKRFP KLTPIDKRKCERLLLFLYCHEMSLAFQDPVPLTVPDYYKIIKNPMDLSTIKKRLQEDYSMYSKPEDFVADFRLIFQNCAEFNEPDSEVANAGIKLENYFEELLKNLYPEKRFP 2yyo-a1-m1-cA_2yyo-a1-m2-cA Crystal structure of human SPRY domain Q8NCJ5 Q8NCJ5 2 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 SGFKHILVDGDTLSYHGNSGEVGCYVASRPLTKDSNYFEVSIVDSGVRGTIAVGLVPQYYSLDHQPGWLPDSVAYHADDGKLYNGRAKGRQFGSKCNSGDRIGCGIEPVSFDVQTAQIFFTKNGKRVGSTIPSPDGLFPAVGHSLGEEVRLHLNAEL SGFKHILVDGDTLSYHGNSGEVGCYVASRPLTKDSNYFEVSIVDSGVRGTIAVGLVPQYYSLDHQPGWLPDSVAYHADDGKLYNGRAKGRQFGSKCNSGDRIGCGIEPVSFDVQTAQIFFTKNGKRVGSTIPSPDGLFPAVGHSLGEEVRLHLNAEL 2yyr-a1-m1-cA_2yyr-a1-m1-cB Structural analysis of PHD domain of Pygopus complexed with trimethylated histone H3 peptide Q9D0P5 Q9D0P5 2.5 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 58 58 2dx8-a1-m1-cA_2dx8-a1-m1-cB PVYPCGICTNEVNDDQDAILCEASCQKWFHRICTGTETAYGLLTAEASAVWGCDTCAD PVYPCGICTNEVNDDQDAILCEASCQKWFHRICTGTETAYGLLTAEASAVWGCDTCAD 2yyt-a2-m1-cB_2yyt-a2-m1-cD Crystal structure of uncharacterized conserved protein from Geobacillus kaustophilus Q5L0U0 Q5L0U0 2.3 X-RAY DIFFRACTION 118 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 215 215 2yyt-a1-m1-cA_2yyt-a1-m1-cC 2yyu-a1-m1-cA_2yyu-a1-m1-cB PFIVALDFPSKQEVERFLRPFAGTPLFVKVGMELYYQEGPAIVAFLKEQGHAVFLDLKLHDIPNTVKQAMKGLARVGADLVNVHAAGGRRMMEAAIEGLDAGTPSGRMRPRCIAVTQLTSTDERMLHEELWISRPLVETVAHYAALAKESGLDGVVCSANEAAFIKERCGASFLAVTVTPRKARALGSDYIVIGRSLTRAADPLRTYARLQHEWN PFIVALDFPSKQEVERFLRPFAGTPLFVKVGMELYYQEGPAIVAFLKEQGHAVFLDLKLHDIPNTVKQAMKGLARVGADLVNVHAAGGRRMMEAAIEGLDAGTPSGRMRPRCIAVTQLTSTDERMLHEELWISRPLVETVAHYAALAKESGLDGVVCSANEAAFIKERCGASFLAVTVTPRKARALGSDYIVIGRSLTRAADPLRTYARLQHEWN 2yyv-a1-m1-cA_2yyv-a1-m1-cB Crystal structure of uncharacterized conserved protein from Thermotoga maritima Q9WZQ4 Q9WZQ4 1.65 X-RAY DIFFRACTION 90 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 223 224 2yzo-a1-m1-cA_2yzo-a1-m1-cB VDVVMAPCSPVECRTAVVIDVLRATSTIVTALSNGASGVIPVKTIEEALEKKKEGVLICGERNAQKPKGFNLGNSPLEYRKEKISGKTIVLTTTNGTQVIEKIRSEEIIAASFLNLSAVVEYLKSKEDILLVCAGTNGRFSLEDFLLAGAIVKRLKRNDLGDGAHAAERYFESVENTREEIKKHSSHAKRLISLGFENDIEFCTTEDLFKTVPALVNGVFILK VDVVMAPCSPVECRTAVVIDVLRATSTIVTALSNGASGVIPVKTIEEALEKKKEGVLICGERNAQKPKGFNLGNSPLEYRKEKISGKTIVLTTTNGTQVIEKIRSEEIIAASFLNLSAVVEYLKSKEDILLVCAGTNGRFSLEDFLLAGAIVKRLKRNDLGDGAHAAERYFESVENTREEIKKHSSHAKRLISLGFENDIEFCTTEDLFKTVPALVNGVFILKE 2yyy-a1-m1-cA_2yyy-a1-m1-cB Crystal structure of Glyceraldehyde-3-phosphate dehydrogenase Q58546 Q58546 1.85 X-RAY DIFFRACTION 143 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 342 342 PAKVLINGYGSIGKRVADAVSMQDDMEVIGVTKTKPDFEARLAVEKGYKLFVAIPDNERVKLFEDAGIPVEGTILDIIEDADIVVDGAPKKIGKQNLENIYKPHKVKAILQGGEKAKDVEDNFNALWSYNRCYGKDYVRVVSCNTTGLCRILYAINSIADIKKARIVLVRRAADPNDDKTGPVNAITPNPVTVPSHHGPDVVSVVPEFEGKILTSAVIVPTTLMHMHTLMVEVDGDVSRDDILEAIKKTPRIITVRAEDGFSSTAKIIEYGRDLGRLRYDINELVVWEESINVLENEIFLMQAVHQESIVIPENIDCIRAMLQMEEDNFKSIEKTNKAMGIQ PAKVLINGYGSIGKRVADAVSMQDDMEVIGVTKTKPDFEARLAVEKGYKLFVAIPDNERVKLFEDAGIPVEGTILDIIEDADIVVDGAPKKIGKQNLENIYKPHKVKAILQGGEKAKDVEDNFNALWSYNRCYGKDYVRVVSCNTTGLCRILYAINSIADIKKARIVLVRRAADPNDDKTGPVNAITPNPVTVPSHHGPDVVSVVPEFEGKILTSAVIVPTTLMHMHTLMVEVDGDVSRDDILEAIKKTPRIITVRAEDGFSSTAKIIEYGRDLGRLRYDINELVVWEESINVLENEIFLMQAVHQESIVIPENIDCIRAMLQMEEDNFKSIEKTNKAMGIQ 2yz1-a3-m1-cA_2yz1-a3-m1-cB Crystal structure of the ligand-binding domain of murine SHPS-1/SIRP alpha P97797 P97797 1.4 X-RAY DIFFRACTION 104 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 ELKVTQPEKSVSVAAGDSTVLNCTLTSLLPVGPIKWYRGVGQSRLLIYSFTGEHFPRVTNVSDATKRNNMDFSIRISNVTPEDAGTYYCVKFQKGPSEPDTEIQSGGGTEVYVL ELKVTQPEKSVSVAAGDSTVLNCTLTSLLPVGPIKWYRGVGQSRLLIYSFTGEHFPRVTNVSDATKRNNMDFSIRISNVTPEDAGTYYCVKFQKGPSEPDTEIQSGGGTEVYVL 2yz2-a1-m1-cB_2yz2-a1-m4-cB Crystal structure of the ABC transporter in the cobalt transport system Q9WY65 Q9WY65 2.3 X-RAY DIFFRACTION 11 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 263 263 2yz2-a1-m2-cB_2yz2-a1-m3-cB MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERV MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERV 2yz2-a1-m4-cB_2yz2-a1-m2-cA Crystal structure of the ABC transporter in the cobalt transport system Q9WY65 Q9WY65 2.3 X-RAY DIFFRACTION 21 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 263 266 2yz2-a1-m1-cB_2yz2-a1-m3-cA 2yz2-a1-m2-cB_2yz2-a1-m4-cA 2yz2-a1-m3-cB_2yz2-a1-m1-cA MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERV MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERVCNS 2yz2-a2-m2-cB_2yz2-a2-m1-cA Crystal structure of the ABC transporter in the cobalt transport system Q9WY65 Q9WY65 2.3 X-RAY DIFFRACTION 46 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 263 266 2yz2-a1-m1-cB_2yz2-a1-m2-cA 2yz2-a1-m2-cB_2yz2-a1-m1-cA 2yz2-a1-m3-cB_2yz2-a1-m4-cA 2yz2-a1-m4-cB_2yz2-a1-m3-cA 2yz2-a2-m1-cB_2yz2-a2-m2-cA MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERV MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERVCNS 2yz2-a2-m2-cB_2yz2-a2-m2-cA Crystal structure of the ABC transporter in the cobalt transport system Q9WY65 Q9WY65 2.3 X-RAY DIFFRACTION 52 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 263 266 2yz2-a1-m1-cB_2yz2-a1-m1-cA 2yz2-a1-m2-cB_2yz2-a1-m2-cA 2yz2-a1-m3-cB_2yz2-a1-m3-cA 2yz2-a1-m4-cB_2yz2-a1-m4-cA 2yz2-a2-m1-cB_2yz2-a2-m1-cA MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERV MRIEVVNVSHIFHRGTPLEKKALENVSLVINEGECLLVAGNTGSGKSTLLQIVAGLIEPTSGDVLYDGERKKGYEIRRNIGIAFQYPEDQFFAERVFDEVAFAVKNFYPDRDPVPLVKKAMEFVGLDFDSFKDRVPFFLSGGEKRRVAIASVIVHEPDILILDEPLVGLDREGKTDLLRIVEKWKTLGKTVILISHDIETVINHVDRVVVLEKGKKVFDGTRMEFLEKYDPRFFTSKMLVMRRLVLKGEDPFSMSDDELLERVCNS 2yzh-a1-m1-cC_2yzh-a1-m1-cD Crystal structure of peroxiredoxin-like protein from Aquifex aeolicus O66780 O66780 1.85 X-RAY DIFFRACTION 14 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 170 171 2yzh-a1-m1-cA_2yzh-a1-m1-cB GHMARTVNLKGNPVTLVGPELKVGDRAPEAVVVTKDLQEKIVGGAKDVVQVIITVPSLDTPVCETETKKFNEIMAGMEGVDVTVVSMDLPFAQKRFCESFNIQNVTVASDFRYRDMEKYGVLIGEGALKGILARAVFIIDKEGKVAYVQLVPEITEEPNYDEVVNKVKEL GHMARTVNLKGNPVTLVGPELKVGDRAPEAVVVTKDLQEKIVGGAKDVVQVIITVPSLDTPVCETETKKFNEIMAGMEGVDVTVVSMDLPFAQKRFCESFNIQNVTVASDFRYRDMEKYGVLIGEGALKGILARAVFIIDKEGKVAYVQLVPEITEEPNYDEVVNKVKELI 2yzh-a3-m1-cB_2yzh-a3-m1-cD Crystal structure of peroxiredoxin-like protein from Aquifex aeolicus O66780 O66780 1.85 X-RAY DIFFRACTION 31 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 170 171 2yzh-a1-m1-cA_2yzh-a1-m1-cC 2yzh-a1-m1-cB_2yzh-a1-m1-cD 2yzh-a2-m1-cA_2yzh-a2-m1-cC GHMARTVNLKGNPVTLVGPELKVGDRAPEAVVVTKDLQEKIVGGAKDVVQVIITVPSLDTPVCETETKKFNEIMAGMEGVDVTVVSMDLPFAQKRFCESFNIQNVTVASDFRYRDMEKYGVLIGEGALKGILARAVFIIDKEGKVAYVQLVPEITEEPNYDEVVNKVKEL GHMARTVNLKGNPVTLVGPELKVGDRAPEAVVVTKDLQEKIVGGAKDVVQVIITVPSLDTPVCETETKKFNEIMAGMEGVDVTVVSMDLPFAQKRFCESFNIQNVTVASDFRYRDMEKYGVLIGEGALKGILARAVFIIDKEGKVAYVQLVPEITEEPNYDEVVNKVKELI 2yzh-a5-m1-cB_2yzh-a5-m1-cC Crystal structure of peroxiredoxin-like protein from Aquifex aeolicus O66780 O66780 1.85 X-RAY DIFFRACTION 46 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 170 170 2yzh-a1-m1-cA_2yzh-a1-m1-cD 2yzh-a1-m1-cB_2yzh-a1-m1-cC 2yzh-a4-m1-cA_2yzh-a4-m1-cD GHMARTVNLKGNPVTLVGPELKVGDRAPEAVVVTKDLQEKIVGGAKDVVQVIITVPSLDTPVCETETKKFNEIMAGMEGVDVTVVSMDLPFAQKRFCESFNIQNVTVASDFRYRDMEKYGVLIGEGALKGILARAVFIIDKEGKVAYVQLVPEITEEPNYDEVVNKVKEL GHMARTVNLKGNPVTLVGPELKVGDRAPEAVVVTKDLQEKIVGGAKDVVQVIITVPSLDTPVCETETKKFNEIMAGMEGVDVTVVSMDLPFAQKRFCESFNIQNVTVASDFRYRDMEKYGVLIGEGALKGILARAVFIIDKEGKVAYVQLVPEITEEPNYDEVVNKVKEL 2yzi-a1-m1-cA_2yzi-a1-m1-cB Crystal structure of uncharacterized conserved protein from Pyrococcus horikoshii O57847 O57847 2.25 X-RAY DIFFRACTION 71 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 125 129 DKAPIKVYTKKLLGVKPSTSVQEASRLEFDVGSLVVINDDGNVVGFFTKSDIIRRVIVPGLPYDIPVERITRNLITANVNTPLGEVLRKAEHRIKHILIEEEGKIVGIFTLSDLLEASRRRLETA DKAPIKVYTKKLLGVKPSTSVQEASRLEFDVGSLVVINDDGNVVGFFTKSDIIRRVIVPGLPYDIPVERITRNLITANVNTPLGEVLRKAEHRIKHILIEEEGKIVGIFTLSDLLEASRRRLETAISAE 2yzj-a1-m1-cB_2yzj-a1-m1-cC Crystal structure of dCTP deaminase from Sulfolobus tokodaii F9VNI5 F9VNI5 1.66 X-RAY DIFFRACTION 135 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 156 156 2yzj-a1-m1-cA_2yzj-a1-m1-cB 2yzj-a1-m1-cA_2yzj-a1-m1-cC 2zdc-a1-m1-cA_2zdc-a1-m1-cB 2zdc-a1-m1-cA_2zdc-a1-m1-cC 2zdc-a1-m1-cB_2zdc-a1-m1-cC ILSHQSIKNLLGKVILNYSEENVRENGYDLRICGDKYYELVQGAELPEKKATLREIEFKERAILSANHTYLFESCEEFNPADLAVLITLKSTLARNGFLAPPTVIDAGYKGKVNVAITAVYNSSLKKGATHHLIFLKLDKPTERLYNGKYQGGILI ILSHQSIKNLLGKVILNYSEENVRENGYDLRICGDKYYELVQGAELPEKKATLREIEFKERAILSANHTYLFESCEEFNPADLAVLITLKSTLARNGFLAPPTVIDAGYKGKVNVAITAVYNSSLKKGATHHLIFLKLDKPTERLYNGKYQGGILI 2yzk-a2-m1-cC_2yzk-a2-m1-cD Crystal structure of orotate phosphoribosyltransferase from Aeropyrum pernix Q9Y9D8 Q9Y9D8 1.8 X-RAY DIFFRACTION 94 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 162 173 2yzk-a1-m1-cB_2yzk-a1-m1-cA LAKVLKKRGAVLRGDFVLSSGRRSSVYIDRRLLGDESSYSVALDLLLEVGGQDLARSSAVIGVATGGLPWAALALRLSKPLGYVRSQVEGDPPKGRVVVVDDVATTGTSIAKSIEVLRSNGYTVGTALVLVDRGEGAGELLARGVRLVSVATLKTILEKLGW LAKVLKKRGAVLRGDFVLSSGRRSSVYIDRRLLGDESSYSVALDLLLEVGGQDLARSSAVIGVATGGLPWAALALRLSKPLGYVRPERKGHGTLSQVEGDPPKGRVVVVDDVATTGTSIAKSIEVLRSNGYTVGTALVLVDRGEGAGELLARGVRLVSVATLKTILEKLGWGG 2yzq-a2-m1-cA_2yzq-a2-m2-cA Crystal structure of uncharacterized conserved protein from Pyrococcus horikoshii O59416 O59416 1.63 X-RAY DIFFRACTION 81 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 224 224 MRVKTIMTQNPVTITLPATVRSFPVVNKEGKLVGIISVKRIMLVKRDVPVVKENDTLKKAAKLMLEYDYRRVVVVDSKGKPVGILTVGDIIRRYFAKSEKYKGVEIEPYYQRYVSIVWEGTPLKAALKALLLSNSMALPVVDSEGNLVGIVDETDLLRDSEIVRPNKPVAEIMTRDVIVATPHMTVHEVALKMAKYSIEQLPVIRGEGDLIGLIRDFDLLKVLV MRVKTIMTQNPVTITLPATVRSFPVVNKEGKLVGIISVKRIMLVKRDVPVVKENDTLKKAAKLMLEYDYRRVVVVDSKGKPVGILTVGDIIRRYFAKSEKYKGVEIEPYYQRYVSIVWEGTPLKAALKALLLSNSMALPVVDSEGNLVGIVDETDLLRDSEIVRPNKPVAEIMTRDVIVATPHMTVHEVALKMAKYSIEQLPVIRGEGDLIGLIRDFDLLKVLV 2yzr-a1-m4-cC_2yzr-a1-m4-cA Crystal structure of pyridoxine biosynthesis protein from Methanocaldococcus jannaschii Q58090 Q58090 2.3 X-RAY DIFFRACTION 22 0.997 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 298 307 2yzr-a1-m1-cB_2yzr-a1-m2-cB 2yzr-a1-m1-cC_2yzr-a1-m1-cA 2yzr-a1-m2-cC_2yzr-a1-m2-cA 2yzr-a1-m3-cB_2yzr-a1-m4-cB 2yzr-a1-m3-cC_2yzr-a1-m3-cA MVKHGVVMDVTNVEQAQIAEEAGAVAVMALERVPADIRAGGVARMSDPALIEEIMDAVSIPVMAKCRIGHTTEALVLEAIGVDMIDESEVLTQADPFFHIYKKKFNVPFVCGARNLGEAVRRIWEGAAMIRTKGEAGTGNIVEAVRHMRLMNEAIAQLQRMTDEEVYGVAKFYANRYAELAKTVREGMGLPATVLENEPIYEGFTLAEIIDGLYEVLLEVKKLGRLPVVNFAAGGVATPADAALMMQLGSDGVFVGSGIFKSENPLERARAIVEATYNYDKPDIVAEVSKNLGEAMKG TDLLKKGFAKMVKHGVVMDVTNVEQAQIAEEAGAVAVMALERVPADIRGGVARMSDPALIEEIMDAVSIPVMAKCRIGHTTEALVLEAIGVDMIDESEVLTQADPFFHIYKKKFNVPFVCGARNLGEAVRRIWEGAAMIRTKGEAGTGNIVEAVRHMRLMNEAIAQLQRMTDEEVYGVAKFYANRYAELAKTVREGMGLPATVLENEPIYEGFTLAEIIDGLYEVLLEVKKLGRLPVVNFAAGGVATPADAALMMQLGSDGVFVGSGIFKSENPLERARAIVEATYNYDKPDIVAEVSKNLGEAMKG 2yzr-a1-m4-cC_2yzr-a1-m4-cB Crystal structure of pyridoxine biosynthesis protein from Methanocaldococcus jannaschii Q58090 Q58090 2.3 X-RAY DIFFRACTION 96 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 298 299 2yzr-a1-m1-cB_2yzr-a1-m2-cA 2yzr-a1-m1-cC_2yzr-a1-m1-cB 2yzr-a1-m1-cC_2yzr-a1-m4-cA 2yzr-a1-m2-cB_2yzr-a1-m1-cA 2yzr-a1-m2-cC_2yzr-a1-m2-cB 2yzr-a1-m2-cC_2yzr-a1-m3-cA 2yzr-a1-m3-cB_2yzr-a1-m4-cA 2yzr-a1-m3-cC_2yzr-a1-m2-cA 2yzr-a1-m3-cC_2yzr-a1-m3-cB 2yzr-a1-m4-cB_2yzr-a1-m3-cA 2yzr-a1-m4-cC_2yzr-a1-m1-cA MVKHGVVMDVTNVEQAQIAEEAGAVAVMALERVPADIRAGGVARMSDPALIEEIMDAVSIPVMAKCRIGHTTEALVLEAIGVDMIDESEVLTQADPFFHIYKKKFNVPFVCGARNLGEAVRRIWEGAAMIRTKGEAGTGNIVEAVRHMRLMNEAIAQLQRMTDEEVYGVAKFYANRYAELAKTVREGMGLPATVLENEPIYEGFTLAEIIDGLYEVLLEVKKLGRLPVVNFAAGGVATPADAALMMQLGSDGVFVGSGIFKSENPLERARAIVEATYNYDKPDIVAEVSKNLGEAMKG MVKHGVVMDVTNVEQAQIAEEAGAVAVMALERVPADIRAAGGVARMSDPALIEEIMDAVSIPVMAKCRIGHTTEALVLEAIGVDMIDESEVLTQADPFFHIYKKKFNVPFVCGARNLGEAVRRIWEGAAMIRTKGEAGTGNIVEAVRHMRLMNEAIAQLQRMTDEEVYGVAKFYANRYAELAKTVREGMGLPATVLENEPIYEGFTLAEIIDGLYEVLLEVKKLGRLPVVNFAAGGVATPADAALMMQLGSDGVFVGSGIFKSENPLERARAIVEATYNYDKPDIVAEVSKNLGEAMKG 2yzs-a1-m1-cA_2yzs-a1-m2-cB Crystal structure of uncharacterized conserved protein from Aquifex aeolicus O66692 O66692 2 X-RAY DIFFRACTION 32 0.987 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 306 307 2yzs-a1-m2-cA_2yzs-a1-m1-cB GRVYYINSHGTLSRHENTLRFENAEVKKDIPVEDVEEIFVFAELSLNTKLLNFLASKGIPLHFFNYYGYYTGTFYPRESSVSGHLLIKQVEHYLDAQKRLYLAKSFVIGSILNLEYVYKISADTYLNKVKETNSIPELSVEAEFRKLCYKKLEEVTGWELEPPQNPLNALISFGNSLTYAKVLGEIYKTQLNPTVSYLHEPSRFSLSLDVAEVFKPIFVDNLIIRLIQENKIDKTHFSTELNTFLNEIGRKVFLKAFNELLETTIFYPKLNRKVSHRTLIKLELYKLIKHLLEEEVYLPLNYGGLK RVYYINSHGTLSRHENTLRFENEVKKDIPVEDVEEIFVFAELSLNTKLLNFLASKGIPLHFFNYYGYYTGTFYPRESSGHLLIKQVEHYLDAQKRLYLAKSFVIGSILNLEYVYKISADTYLNKVKETNSIPELSVEAEFRKLCYKKLEEVTGWELEKRTKRPPQNPLNALISFGNSLTYAKVLGEIYKTQLNPTVSYLHEPSRFSLSLDVAEVFKPIFVDNLIIRLIQENKIDKTHFSTELNTFLNEIGRKVFLKAFNELLETTIFYPKLNRKVSHRTLIKLELYKLIKHLLEEEVYLPLNYGGLK 2yzs-a1-m1-cB_2yzs-a1-m2-cB Crystal structure of uncharacterized conserved protein from Aquifex aeolicus O66692 O66692 2 X-RAY DIFFRACTION 42 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 307 307 RVYYINSHGTLSRHENTLRFENEVKKDIPVEDVEEIFVFAELSLNTKLLNFLASKGIPLHFFNYYGYYTGTFYPRESSGHLLIKQVEHYLDAQKRLYLAKSFVIGSILNLEYVYKISADTYLNKVKETNSIPELSVEAEFRKLCYKKLEEVTGWELEKRTKRPPQNPLNALISFGNSLTYAKVLGEIYKTQLNPTVSYLHEPSRFSLSLDVAEVFKPIFVDNLIIRLIQENKIDKTHFSTELNTFLNEIGRKVFLKAFNELLETTIFYPKLNRKVSHRTLIKLELYKLIKHLLEEEVYLPLNYGGLK RVYYINSHGTLSRHENTLRFENEVKKDIPVEDVEEIFVFAELSLNTKLLNFLASKGIPLHFFNYYGYYTGTFYPRESSGHLLIKQVEHYLDAQKRLYLAKSFVIGSILNLEYVYKISADTYLNKVKETNSIPELSVEAEFRKLCYKKLEEVTGWELEKRTKRPPQNPLNALISFGNSLTYAKVLGEIYKTQLNPTVSYLHEPSRFSLSLDVAEVFKPIFVDNLIIRLIQENKIDKTHFSTELNTFLNEIGRKVFLKAFNELLETTIFYPKLNRKVSHRTLIKLELYKLIKHLLEEEVYLPLNYGGLK 2yzs-a1-m2-cA_2yzs-a1-m2-cB Crystal structure of uncharacterized conserved protein from Aquifex aeolicus O66692 O66692 2 X-RAY DIFFRACTION 120 0.987 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 306 307 2yzs-a1-m1-cA_2yzs-a1-m1-cB GRVYYINSHGTLSRHENTLRFENAEVKKDIPVEDVEEIFVFAELSLNTKLLNFLASKGIPLHFFNYYGYYTGTFYPRESSVSGHLLIKQVEHYLDAQKRLYLAKSFVIGSILNLEYVYKISADTYLNKVKETNSIPELSVEAEFRKLCYKKLEEVTGWELEPPQNPLNALISFGNSLTYAKVLGEIYKTQLNPTVSYLHEPSRFSLSLDVAEVFKPIFVDNLIIRLIQENKIDKTHFSTELNTFLNEIGRKVFLKAFNELLETTIFYPKLNRKVSHRTLIKLELYKLIKHLLEEEVYLPLNYGGLK RVYYINSHGTLSRHENTLRFENEVKKDIPVEDVEEIFVFAELSLNTKLLNFLASKGIPLHFFNYYGYYTGTFYPRESSGHLLIKQVEHYLDAQKRLYLAKSFVIGSILNLEYVYKISADTYLNKVKETNSIPELSVEAEFRKLCYKKLEEVTGWELEKRTKRPPQNPLNALISFGNSLTYAKVLGEIYKTQLNPTVSYLHEPSRFSLSLDVAEVFKPIFVDNLIIRLIQENKIDKTHFSTELNTFLNEIGRKVFLKAFNELLETTIFYPKLNRKVSHRTLIKLELYKLIKHLLEEEVYLPLNYGGLK 2yzt-a1-m1-cA_2yzt-a1-m2-cA Crystal structure of uncharacterized conserved protein from Thermus thermophilus HB8 Q5SHH4 Q5SHH4 1.8 X-RAY DIFFRACTION 150 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 66 66 RRRYRVVVERDEEGYFVAHVPELHAHTQAQSFEELLRRLQEAIAVSLEEERAEVVGLEGALEIEAA RRRYRVVVERDEEGYFVAHVPELHAHTQAQSFEELLRRLQEAIAVSLEEERAEVVGLEGALEIEAA 2z00-a2-m1-cA_2z00-a2-m2-cA Crystal structure of dihydroorotase from Thermus thermophilus Q5SK67 Q5SK67 2.42 X-RAY DIFFRACTION 70 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 422 422 ILIRNVRLVDARGERGPADVLIGEGRILSLEGGEAKQVVDGTGCFLAPGFLDLHAHLREPGEEVKEDLFSGLLAAVRGGYTDLVSPNTKPPVDTPEAVRALKEKAKALGLARLHPAAALTEKQEGKTLTPAGLLREAGAVLLTDDGRTNEDAGVLAAGLLAAPLGLPVAVHAEDAGLRRNGVNDGPLADLLGLPGNPPEAEAARIARDLEVLRYALRRSPATPRLHVQHLSTKRGLELVREAKRAGLPVTAEATPHHLTLTEEALRTFDPLFKVAPPLRGEEDREALLEGLLDGTLDAIATDHAPHTLAEKEKDLLRAPFGIPSLEVAFPLLYTELHLKRGFPLQRLVELFTDGPRRVLGLPPLHLEEGAEASLVLLSPKERPVDPSAFASKARYSPWAGWVLGGWPVLTLVAGRIVHEALK ILIRNVRLVDARGERGPADVLIGEGRILSLEGGEAKQVVDGTGCFLAPGFLDLHAHLREPGEEVKEDLFSGLLAAVRGGYTDLVSPNTKPPVDTPEAVRALKEKAKALGLARLHPAAALTEKQEGKTLTPAGLLREAGAVLLTDDGRTNEDAGVLAAGLLAAPLGLPVAVHAEDAGLRRNGVNDGPLADLLGLPGNPPEAEAARIARDLEVLRYALRRSPATPRLHVQHLSTKRGLELVREAKRAGLPVTAEATPHHLTLTEEALRTFDPLFKVAPPLRGEEDREALLEGLLDGTLDAIATDHAPHTLAEKEKDLLRAPFGIPSLEVAFPLLYTELHLKRGFPLQRLVELFTDGPRRVLGLPPLHLEEGAEASLVLLSPKERPVDPSAFASKARYSPWAGWVLGGWPVLTLVAGRIVHEALK 2z01-a2-m1-cA_2z01-a2-m2-cA Crystal structure of phosphoribosylaminoimidazole synthetase from Geobacillus kaustophilus Q5L3D0 Q5L3D0 2.2 X-RAY DIFFRACTION 123 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 313 313 QAVALMKEHVQKTMRPEVLGGGLFDLSALGYRQPVLISGTDGVGTKLKLAFLLDRHDTIGIDCVAMCVNDIIVQGAEPLFFLDYIACGKAVPEKIAAIVKGVADGCVEAGCALIGGETAEEYDLAGFAVGVAEKERLITGETIQAGDALVGLPSSGLHSNGYSLVRRIVFEQAKLSLDEIYEPLDVPLGEELLKPTRIYAKLLRSVRERFTIKGMAHITGGGLIENIPRMLPPGIGARIQLGSWPILPIFDFLREKGSLEEEEMFSVFNMGIGLVLAVSPETAAPLVEWLSERGEPAYIIGEVAKGAGVSFAG QAVALMKEHVQKTMRPEVLGGGLFDLSALGYRQPVLISGTDGVGTKLKLAFLLDRHDTIGIDCVAMCVNDIIVQGAEPLFFLDYIACGKAVPEKIAAIVKGVADGCVEAGCALIGGETAEEYDLAGFAVGVAEKERLITGETIQAGDALVGLPSSGLHSNGYSLVRRIVFEQAKLSLDEIYEPLDVPLGEELLKPTRIYAKLLRSVRERFTIKGMAHITGGGLIENIPRMLPPGIGARIQLGSWPILPIFDFLREKGSLEEEEMFSVFNMGIGLVLAVSPETAAPLVEWLSERGEPAYIIGEVAKGAGVSFAG 2z02-a1-m1-cA_2z02-a1-m1-cB Crystal structure of phosphoribosylaminoimidazolesuccinocarboxamide synthase wit ATP from Methanocaldococcus jannaschii Q58987 Q58987 2.03 X-RAY DIFFRACTION 63 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 242 242 2yzl-a2-m1-cA_2yzl-a2-m2-cA MEIKLEEILKKQPLYSGKAKSIYEIDDDKVLIEFRDDITAGNGAKHDVKQGKGYLNALISSKLFEALEENGVKTHYIKYIEPRYMIAKKVEIIPIEVIVRNIAAGSLCRRYPFEEGKELPFPIVQFDYKNDEYGDPMLNEDIAVALGLATREELNKIKEIALKVNEVLKKLFDEKGIILVDFKIEIGKDREGNLLVADEISPDTMRLWDKETRDVLDKDVFRKDLGDVIAKYRIVAERLGLL MEIKLEEILKKQPLYSGKAKSIYEIDDDKVLIEFRDDITAGNGAKHDVKQGKGYLNALISSKLFEALEENGVKTHYIKYIEPRYMIAKKVEIIPIEVIVRNIAAGSLCRRYPFEEGKELPFPIVQFDYKNDEYGDPMLNEDIAVALGLATREELNKIKEIALKVNEVLKKLFDEKGIILVDFKIEIGKDREGNLLVADEISPDTMRLWDKETRDVLDKDVFRKDLGDVIAKYRIVAERLGLL 2z04-a1-m1-cA_2z04-a1-m1-cB Crystal structure of phosphoribosylaminoimidazole carboxylase ATPase subunit from Aquifex aeolicus O66608 O66608 2.35 X-RAY DIFFRACTION 68 0.997 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 305 321 LTVGILGGGQLGWTILEGRKLGFKFHVLEDKENAPACRVADRCFRTGQISEFVDSCDIITYEFEHIKDEVLEKCESKLIPNPQALYVKKSRIREKLFLKKHGFPVPEFLVIPVVIKAEFIIEEFVKFEAEISCIGVRDREGKTYFYPQPFNKHEEGILIYNYVPYAKLKEAEEITKRLELLDIVGVFTVEFFLLKDGRVLINEFAPRVHNTGHWTLDGAYTSQFENLLRAITEPLGSTELKLPSGVNILGKSYEEIPLKEILSVEGAKLYWYGKEKKPRRKVGHVNVVGRSKEEVVEKVERVFTL LTVGILGGGQLGWTILEGRKLGFKFHVLEDKENAPACRVADRCFRTGQISEFVDSCDIITYEFEHIKDEVLEKCESKLIPNPQALYVKKSRIREKLFLKKHGFPVPEFLVIKRDEIIDVVIKAEKLGYKEESFIIEEFVKFEAEISCIGVRDREGKTYFYPQPFNKHEEGILIYNYVPYAKLKEAEEITKRLELLDIVGVFTVEFFLLKDGRVLINEFAPRVHNTGHWTLDGAYTSQFENLLRAITEPLGSTELKLPSGVNILGKSYEEIPLKEILSVEGAKLYWYGKEKKPRRKVGHVNVVGRSKEEVVEKVERVFTLLK 2z06-a1-m1-cA_2z06-a1-m1-cC Crystal structure of uncharacterized conserved protein from Thermus thermophilus Q5SKL8 Q5SKL8 2.2 X-RAY DIFFRACTION 29 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 252 252 2cv9-a3-m1-cA_2cv9-a3-m2-cB 2cv9-a3-m1-cD_2cv9-a3-m2-cC 2z06-a1-m1-cB_2z06-a1-m1-cD MRVLFIGDVMAEPGLRAVGLHLPDIRDRYDLVIANGENAARGKGLDRRSYRLLREAGVDLVSLGNHAWDHKEVYALLESEPVVRPLNYPPGTPGKGFWRLEVGGESLLFVQVMGRIFMDPLDDPFRALDRLLEEEKADYVLVEVHAEATSEKMALAHYLDGRASAVLGTHTHVPTLDATRLPKGTLYQTDVGMTGTYHSIIGGEVETFLARFLTGRPQPFRAAQGKARFHATELVFEGGRPVAISPYVWEEP MRVLFIGDVMAEPGLRAVGLHLPDIRDRYDLVIANGENAARGKGLDRRSYRLLREAGVDLVSLGNHAWDHKEVYALLESEPVVRPLNYPPGTPGKGFWRLEVGGESLLFVQVMGRIFMDPLDDPFRALDRLLEEEKADYVLVEVHAEATSEKMALAHYLDGRASAVLGTHTHVPTLDATRLPKGTLYQTDVGMTGTYHSIIGGEVETFLARFLTGRPQPFRAAQGKARFHATELVFEGGRPVAISPYVWEEP 2z06-a1-m1-cA_2z06-a1-m1-cD Crystal structure of uncharacterized conserved protein from Thermus thermophilus Q5SKL8 Q5SKL8 2.2 X-RAY DIFFRACTION 17 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 252 252 2cv9-a3-m1-cA_2cv9-a3-m2-cC 2cv9-a3-m1-cD_2cv9-a3-m2-cB 2z06-a1-m1-cB_2z06-a1-m1-cC MRVLFIGDVMAEPGLRAVGLHLPDIRDRYDLVIANGENAARGKGLDRRSYRLLREAGVDLVSLGNHAWDHKEVYALLESEPVVRPLNYPPGTPGKGFWRLEVGGESLLFVQVMGRIFMDPLDDPFRALDRLLEEEKADYVLVEVHAEATSEKMALAHYLDGRASAVLGTHTHVPTLDATRLPKGTLYQTDVGMTGTYHSIIGGEVETFLARFLTGRPQPFRAAQGKARFHATELVFEGGRPVAISPYVWEEP MRVLFIGDVMAEPGLRAVGLHLPDIRDRYDLVIANGENAARGKGLDRRSYRLLREAGVDLVSLGNHAWDHKEVYALLESEPVVRPLNYPPGTPGKGFWRLEVGGESLLFVQVMGRIFMDPLDDPFRALDRLLEEEKADYVLVEVHAEATSEKMALAHYLDGRASAVLGTHTHVPTLDATRLPKGTLYQTDVGMTGTYHSIIGGEVETFLARFLTGRPQPFRAAQGKARFHATELVFEGGRPVAISPYVWEEP 2z06-a1-m1-cC_2z06-a1-m1-cD Crystal structure of uncharacterized conserved protein from Thermus thermophilus Q5SKL8 Q5SKL8 2.2 X-RAY DIFFRACTION 83 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 252 252 2cv9-a1-m1-cA_2cv9-a1-m1-cD 2cv9-a2-m1-cB_2cv9-a2-m1-cC 2cv9-a3-m1-cA_2cv9-a3-m1-cD 2cv9-a3-m2-cB_2cv9-a3-m2-cC 2z06-a1-m1-cA_2z06-a1-m1-cB MRVLFIGDVMAEPGLRAVGLHLPDIRDRYDLVIANGENAARGKGLDRRSYRLLREAGVDLVSLGNHAWDHKEVYALLESEPVVRPLNYPPGTPGKGFWRLEVGGESLLFVQVMGRIFMDPLDDPFRALDRLLEEEKADYVLVEVHAEATSEKMALAHYLDGRASAVLGTHTHVPTLDATRLPKGTLYQTDVGMTGTYHSIIGGEVETFLARFLTGRPQPFRAAQGKARFHATELVFEGGRPVAISPYVWEEP MRVLFIGDVMAEPGLRAVGLHLPDIRDRYDLVIANGENAARGKGLDRRSYRLLREAGVDLVSLGNHAWDHKEVYALLESEPVVRPLNYPPGTPGKGFWRLEVGGESLLFVQVMGRIFMDPLDDPFRALDRLLEEEKADYVLVEVHAEATSEKMALAHYLDGRASAVLGTHTHVPTLDATRLPKGTLYQTDVGMTGTYHSIIGGEVETFLARFLTGRPQPFRAAQGKARFHATELVFEGGRPVAISPYVWEEP 2z08-a1-m2-cA_2z08-a1-m4-cA Crystal structure of uncharacterized conserved protein from Thermus thermophilus HB8 Q5SJV7 Q5SJV7 1.55 X-RAY DIFFRACTION 54 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 123 123 1wjg-a1-m1-cA_1wjg-a1-m2-cA 2z08-a1-m1-cA_2z08-a1-m3-cA 2z09-a1-m1-cA_2z09-a1-m3-cA 2z09-a1-m2-cA_2z09-a1-m4-cA 2z3v-a1-m1-cA_2z3v-a1-m2-cA MFKTILLAYDGSEHARRAAEVAKAEAEAHGARLIVVHAYEPRRRLERAEGVLEEARALTGVPKEDALLLEGVPAEAILQAARAEKADLIVMGTRGLGALGSLFLGSQSQRVVAEAPCPVLLVR MFKTILLAYDGSEHARRAAEVAKAEAEAHGARLIVVHAYEPRRRLERAEGVLEEARALTGVPKEDALLLEGVPAEAILQAARAEKADLIVMGTRGLGALGSLFLGSQSQRVVAEAPCPVLLVR 2z08-a1-m3-cA_2z08-a1-m4-cA Crystal structure of uncharacterized conserved protein from Thermus thermophilus HB8 Q5SJV7 Q5SJV7 1.55 X-RAY DIFFRACTION 35 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 123 123 2z08-a1-m1-cA_2z08-a1-m2-cA 2z09-a1-m1-cA_2z09-a1-m2-cA 2z09-a1-m3-cA_2z09-a1-m4-cA MFKTILLAYDGSEHARRAAEVAKAEAEAHGARLIVVHAYEPRRRLERAEGVLEEARALTGVPKEDALLLEGVPAEAILQAARAEKADLIVMGTRGLGALGSLFLGSQSQRVVAEAPCPVLLVR MFKTILLAYDGSEHARRAAEVAKAEAEAHGARLIVVHAYEPRRRLERAEGVLEEARALTGVPKEDALLLEGVPAEAILQAARAEKADLIVMGTRGLGALGSLFLGSQSQRVVAEAPCPVLLVR 2z0b-a7-m1-cF_2z0b-a7-m1-cA Crystal structure of CBM20 domain of human putative glycerophosphodiester phosphodiesterase 5 (KIAA1434) Q9NPB8 Q9NPB8 2 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 110 PSQVAFEIRGTLLPGEVFAICGSCDALGNWNPQNAVALLPENDTGESLWKATIVLSRGVSVQYRYFKGYFLEPKTCQVIVHKWETHLQPRSITPLESEIIIDDGQF SGPSQVAFEIRGTLLPGEVFAICGSCDALGNWNPQNAVALLPENDTGESLWKATIVLSRGVSVQYRYFKGYFLEPKTCQVIVHKWETHLQPRSITPLESEIIIDDGQFGI 2z0b-a9-m1-cE_2z0b-a9-m1-cD Crystal structure of CBM20 domain of human putative glycerophosphodiester phosphodiesterase 5 (KIAA1434) Q9NPB8 Q9NPB8 2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 115 2z0b-a8-m1-cB_2z0b-a8-m1-cC PSQVAFEIRGTLLPGEVFAICGSCDALGNWNPQNAVALLPENSLWKATIVLSRGVSVQYRYFKGYFLEPKTIGGPCQVIVHKWETHPRSITPLESEIIIDDGQFG GSSGPSQVAFEIRGTLLPGEVFAICGSCDALGNWNPQNAVALLPENDTGSLWKATIVLSRGVSVQYRYFKGYFLEPKTIGGPCQVIVHKWETHLQPRSITPLESEIIIDDGQFGI 2z0f-a1-m1-cA_2z0f-a1-m1-cB Crystal structure of putative phosphoglucomutase from Thermus thermophilus HB8 Q5SLE0 Q5SLE0 2.52 X-RAY DIFFRACTION 45 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 491 495 MEITRLLTLYYEATPDPQNPLEGVRFGTSGHRGSSLKATFTEAHVLAIAQAIAELRPSFGATGPLFLAKDTHALSEPAWATALSVFAAHGIEVRVEADGDYTPTPLVSLAILEHNAHHEAKADGVLLTPNPPEDGGFKYNPPTGGPANARITRAIEERANALLQEGLKGVKRLPLREALARAKPFDYAGLYVEKVAEAVDLEAIRASGLRIGVDPLGGASLRVWERLAESHGLPLEVVLLALKDRFDLAIGNDPDADRHGIVTPRGLMNPNHYLAAALHHLYTTRSWPGAKVGKTAVTSALLDRVAQALGREVYETPVGFKHFVAGLLEGWLGFAGEESAGASFLRFDGRPFSTDKDGILMGLLAAELMAKRGQAPDALYEALAEKLGRPYYARKDLPVSPEAKARLARLSAKEVHPSTLAGEPVLQVLDRATGNGEPLGGIKVVAANAWFAVRPSGTEDVAKVYAESFLGEAHLERVLEEATALLHKALA MEITRLLTLYYEATPDPQNPLEGVRFGTSGHRGSSLKATFTEAHVLAIAQAIAELRPSFGATGPLFLAKDTHALSEPAWATALSVFAAHGIEVRVEADGDYTPTPLVSLAILEHNAHHEAKADGVLLTPSPPEDGGFKYNPPTGGPANARITRAIEERANALLQEGLKGVKRLPLREALARAKPFDYAGLYVEKVAEAVDLEAIRASGLRIGVDPLGGASLRVWERLAESHGLPLEVVNMAGLLALKDRFDLAIGNDPDADRHGIVTPRGLMNPNHYLAAALHHLYTTRSWPGAKVGKTAVTSALLDRVAQALGREVYETPVGFKHFVAGLLEGWLGFAGEESAGASFLRFDGRPFSTDKDGILMGLLAAELMAKRGQAPDALYEALAEKLGRPYYARKDLPVSPEAKARLARLSAKEVHPSTLAGEPVLQVLDRATGNGEPLGGIKVVAANAWFAVRPSGTEDVAKVYAESFLGEAHLERVLEEATALLHKALA 2z0i-a2-m2-cA_2z0i-a2-m4-cA Crystal Structure of 5-aminolevulinic acid dehydratase (ALAD) from Mus musculus P10518 P10518 3.2 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 274 274 2z0i-a2-m1-cA_2z0i-a2-m3-cA 2z0i-a2-m1-cA_2z0i-a2-m4-cA 2z0i-a2-m2-cA_2z0i-a2-m3-cA VLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEELRPLVEAGLRCVLIFGVPSREDSPTIEAVRLLRKTFPSLLVACDVCLLSEESRQRLAEVALAYAKAGCQVVAPSDDGRVEAIKAALLKHGLGNRVSVSYSAKFASCFYGPFRDAAQYQLPPGARGLALRAVARDIQEGADLVKPGLPYLDVREVKDKHPELPLAVYQVSGEFALWHGAQAGAFDLRTAVLETTAFRRAGADIIITYFAPQLLKWLK VLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEELRPLVEAGLRCVLIFGVPSREDSPTIEAVRLLRKTFPSLLVACDVCLLSEESRQRLAEVALAYAKAGCQVVAPSDDGRVEAIKAALLKHGLGNRVSVSYSAKFASCFYGPFRDAAQYQLPPGARGLALRAVARDIQEGADLVKPGLPYLDVREVKDKHPELPLAVYQVSGEFALWHGAQAGAFDLRTAVLETTAFRRAGADIIITYFAPQLLKWLK 2z0i-a2-m4-cB_2z0i-a2-m1-cA Crystal Structure of 5-aminolevulinic acid dehydratase (ALAD) from Mus musculus P10518 P10518 3.2 X-RAY DIFFRACTION 96 1.0 10090 (Mus musculus) 10090 (Mus musculus) 267 274 2z0i-a2-m1-cB_2z0i-a2-m3-cA 2z0i-a2-m2-cB_2z0i-a2-m4-cA 2z0i-a2-m3-cB_2z0i-a2-m2-cA 2z1b-a1-m1-cA_2z1b-a1-m2-cA VLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEELRPLVEAGLRCVLIFGVPSEDSPTIEAVRLLRKTFPSLLVACDVCLSEESRQRLAEVALAYAKAGCQVVAPSDDGRVEAIKAALLKHGLGNRVSVSYSAKFASCFYGPFYQLPPGARGLALRAVARDIQEGADLVKPGLPYLDVREVKDKHPELPLAVYQVSGEFALWHGAQAGAFDLRTAVLETTAFRRAGADIIITYFAPQLLKWLK VLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEELRPLVEAGLRCVLIFGVPSREDSPTIEAVRLLRKTFPSLLVACDVCLLSEESRQRLAEVALAYAKAGCQVVAPSDDGRVEAIKAALLKHGLGNRVSVSYSAKFASCFYGPFRDAAQYQLPPGARGLALRAVARDIQEGADLVKPGLPYLDVREVKDKHPELPLAVYQVSGEFALWHGAQAGAFDLRTAVLETTAFRRAGADIIITYFAPQLLKWLK 2z0i-a2-m4-cB_2z0i-a2-m4-cA Crystal Structure of 5-aminolevulinic acid dehydratase (ALAD) from Mus musculus P10518 P10518 3.2 X-RAY DIFFRACTION 171 1.0 10090 (Mus musculus) 10090 (Mus musculus) 267 274 2z0i-a1-m1-cB_2z0i-a1-m1-cA 2z0i-a2-m1-cB_2z0i-a2-m1-cA 2z0i-a2-m2-cB_2z0i-a2-m2-cA 2z0i-a2-m3-cB_2z0i-a2-m3-cA VLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEELRPLVEAGLRCVLIFGVPSEDSPTIEAVRLLRKTFPSLLVACDVCLSEESRQRLAEVALAYAKAGCQVVAPSDDGRVEAIKAALLKHGLGNRVSVSYSAKFASCFYGPFYQLPPGARGLALRAVARDIQEGADLVKPGLPYLDVREVKDKHPELPLAVYQVSGEFALWHGAQAGAFDLRTAVLETTAFRRAGADIIITYFAPQLLKWLK VLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEELRPLVEAGLRCVLIFGVPSREDSPTIEAVRLLRKTFPSLLVACDVCLLSEESRQRLAEVALAYAKAGCQVVAPSDDGRVEAIKAALLKHGLGNRVSVSYSAKFASCFYGPFRDAAQYQLPPGARGLALRAVARDIQEGADLVKPGLPYLDVREVKDKHPELPLAVYQVSGEFALWHGAQAGAFDLRTAVLETTAFRRAGADIIITYFAPQLLKWLK 2z0j-a1-m1-cA_2z0j-a1-m1-cB Crystal structure of uncharacterized conserved protein from Thermus thermophilus HB8 Q5SID6 Q5SID6 1.5 X-RAY DIFFRACTION 88 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 237 237 2z0j-a2-m1-cC_2z0j-a2-m1-cD 2z0j-a3-m1-cE_2z0j-a3-m1-cF 2z0j-a4-m1-cH_2z0j-a4-m1-cG MRLRVDVIPGEHLAYPDVVLVVDVIRATTTAAAFLEAGAEALYWTPSLESALAFKDEDVVLAGETGGLKPPRFDLGNSPREALSAQVAGRVVVMSTTNGTKAAHAAARTAKHVLLASLYNAHAAARLARELATEEVAILCAGKEGRAGLDDLYTAGVLAEYLGFLGEVEPEDGARVALAVKRAYPDPLEALSLSAAALALKQVGLEADVPFCAQVAKSAAVPVLRGRVGEALIFKRA MRLRVDVIPGEHLAYPDVVLVVDVIRATTTAAAFLEAGAEALYWTPSLESALAFKDEDVVLAGETGGLKPPRFDLGNSPREALSAQVAGRVVVMSTTNGTKAAHAAARTAKHVLLASLYNAHAAARLARELATEEVAILCAGKEGRAGLDDLYTAGVLAEYLGFLGEVEPEDGARVALAVKRAYPDPLEALSLSAAALALKQVGLEADVPFCAQVAKSAAVPVLRGRVGEALIFKRA 2z0l-a7-m1-cE_2z0l-a7-m5-cF Crystal structure of EBV-DNA polymerase accessory protein BMRF1 P03191 P03191 2.9 X-RAY DIFFRACTION 22 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 293 293 2z0l-a6-m1-cA_2z0l-a6-m1-cD 2z0l-a6-m1-cB_2z0l-a6-m1-cC 2z0l-a7-m2-cE_2z0l-a7-m4-cF 2z0l-a8-m1-cG_2z0l-a8-m6-cG 2z0l-a8-m1-cH_2z0l-a8-m6-cH ETTQTLRFKTKALAVLSKCYDHAQTHLKGGVLQVNLLSVNYGGPRLAAVANAGTAGLISFEVSPDAVAEWQNHQSPEEAPAAVSFRNLAYGRTCVLGKELFGSAVEQASLQFYKRPQGGSRPEFVKLTEYDDKVSKSHHTCALPYPPASDRLRNEQIGQVLLPKTASSLQKWARQQGSGGVKVTLNPDLYVTTYTSGEACLTLDYKPLSVGPYEAFTGPVAKAQDVGAVEAHVVCSVAADSLAAALSLCRIPAVSVPILRFYRSGIIAVVAGLLTSAGDLPLDLSVILFNHAS ETTQTLRFKTKALAVLSKCYDHAQTHLKGGVLQVNLLSVNYGGPRLAAVANAGTAGLISFEVSPDAVAEWQNHQSPEEAPAAVSFRNLAYGRTCVLGKELFGSAVEQASLQFYKRPQGGSRPEFVKLTEYDDKVSKSHHTCALPYPPASDRLRNEQIGQVLLPKTASSLQKWARQQGSGGVKVTLNPDLYVTTYTSGEACLTLDYKPLSVGPYEAFTGPVAKAQDVGAVEAHVVCSVAADSLAAALSLCRIPAVSVPILRFYRSGIIAVVAGLLTSAGDLPLDLSVILFNHAS 2z0l-a8-m6-cG_2z0l-a8-m6-cH Crystal structure of EBV-DNA polymerase accessory protein BMRF1 P03191 P03191 2.9 X-RAY DIFFRACTION 81 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 293 293 2z0l-a1-m1-cA_2z0l-a1-m1-cB 2z0l-a2-m1-cC_2z0l-a2-m1-cD 2z0l-a3-m1-cE_2z0l-a3-m2-cE 2z0l-a4-m1-cF_2z0l-a4-m3-cF 2z0l-a5-m1-cG_2z0l-a5-m1-cH 2z0l-a6-m1-cA_2z0l-a6-m1-cB 2z0l-a6-m1-cC_2z0l-a6-m1-cD 2z0l-a7-m1-cE_2z0l-a7-m2-cE 2z0l-a7-m4-cF_2z0l-a7-m5-cF 2z0l-a8-m1-cG_2z0l-a8-m1-cH ETTQTLRFKTKALAVLSKCYDHAQTHLKGGVLQVNLLSVNYGGPRLAAVANAGTAGLISFEVSPDAVAEWQNHQSPEEAPAAVSFRNLAYGRTCVLGKELFGSAVEQASLQFYKRPQGGSRPEFVKLTEYDDKVSKSHHTCALPYPPASDRLRNEQIGQVLLPKTASSLQKWARQQGSGGVKVTLNPDLYVTTYTSGEACLTLDYKPLSVGPYEAFTGPVAKAQDVGAVEAHVVCSVAADSLAAALSLCRIPAVSVPILRFYRSGIIAVVAGLLTSAGDLPLDLSVILFNHAS ETTQTLRFKTKALAVLSKCYDHAQTHLKGGVLQVNLLSVNYGGPRLAAVANAGTAGLISFEVSPDAVAEWQNHQSPEEAPAAVSFRNLAYGRTCVLGKELFGSAVEQASLQFYKRPQGGSRPEFVKLTEYDDKVSKSHHTCALPYPPASDRLRNEQIGQVLLPKTASSLQKWARQQGSGGVKVTLNPDLYVTTYTSGEACLTLDYKPLSVGPYEAFTGPVAKAQDVGAVEAHVVCSVAADSLAAALSLCRIPAVSVPILRFYRSGIIAVVAGLLTSAGDLPLDLSVILFNHAS 2z0n-a1-m1-cA_2z0n-a1-m2-cA Crystal structure of APPL1-BAR domain Q9UKG1 Q9UKG1 1.95 X-RAY DIFFRACTION 165 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 2elb-a1-m1-cA_2elb-a1-m2-cA 2q12-a1-m1-cA_2q12-a1-m2-cA 2q13-a1-m1-cA_2q13-a1-m2-cA 2z0o-a1-m1-cA_2z0o-a1-m2-cA LEDSPQTRSLLGVFEEDATAISNYNQLYQAHRIYDAQNELSAATHLTSKLLKEYEKQEVSSTLQQFSKVIDELSSCHAVLSTQLADAFPITQFKERDLKEILTLKEVFQIASNDHDAAINRYSRLSKKRENDKVKYEVTEDVYTSRKKQHQTHYFCALNTLQYKKKIALLEPLLGYQAQISFFKGSENLNEQLEEFLANIGTSVQNVRREDSDIETQQTIEDLE LEDSPQTRSLLGVFEEDATAISNYNQLYQAHRIYDAQNELSAATHLTSKLLKEYEKQEVSSTLQQFSKVIDELSSCHAVLSTQLADAFPITQFKERDLKEILTLKEVFQIASNDHDAAINRYSRLSKKRENDKVKYEVTEDVYTSRKKQHQTHYFCALNTLQYKKKIALLEPLLGYQAQISFFKGSENLNEQLEEFLANIGTSVQNVRREDSDIETQQTIEDLE 2z0r-a7-m1-cA_2z0r-a7-m1-cB Crystal structure of hypothetical protein TTHA0547 Q5SKU6 Q5SKU6 2.3 X-RAY DIFFRACTION 55 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 94 97 2z0r-a1-m1-cA_2z0r-a1-m1-cB 2z0r-a2-m1-cD_2z0r-a2-m1-cC 2z0r-a3-m1-cE_2z0r-a3-m1-cF 2z0r-a4-m1-cH_2z0r-a4-m1-cG 2z0r-a5-m1-cJ_2z0r-a5-m1-cI 2z0r-a6-m1-cK_2z0r-a6-m1-cL 2z0r-a7-m1-cD_2z0r-a7-m1-cC 2z0r-a7-m1-cE_2z0r-a7-m1-cF 2z0r-a8-m1-cH_2z0r-a8-m1-cG 2z0r-a8-m1-cJ_2z0r-a8-m1-cI 2z0r-a8-m1-cK_2z0r-a8-m1-cL LSGTWYVLEGDPGEHLVVEALGERLSGIWTSRELAEAFLAHHPHLGRVSALESRALKEAYLRALGLQVEAVVDYRPGTHRAQVARVKDLLEEVR DLSGTWYVLEGDPGEHLVVEALGERLSGIWTSRELAEAFLAHHPHLGRVSALESRALKEAYLRALGLQVEAVVDYRPGTHRAQVARVKDLLEEVRRA 2z0r-a7-m1-cA_2z0r-a7-m1-cF Crystal structure of hypothetical protein TTHA0547 Q5SKU6 Q5SKU6 2.3 X-RAY DIFFRACTION 34 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 94 96 2z0r-a7-m1-cC_2z0r-a7-m1-cE 2z0r-a7-m1-cD_2z0r-a7-m1-cB 2z0r-a8-m1-cG_2z0r-a8-m1-cL 2z0r-a8-m1-cH_2z0r-a8-m1-cJ 2z0r-a8-m1-cK_2z0r-a8-m1-cI LSGTWYVLEGDPGEHLVVEALGERLSGIWTSRELAEAFLAHHPHLGRVSALESRALKEAYLRALGLQVEAVVDYRPGTHRAQVARVKDLLEEVR LSGTWYVLEGDPGEHLVVEALGERLSGIWTSRELAEAFLAHHPHLGRVSALESRALKEAYLRALGLQVEAVVDYRPGTHRAQVARVKDLLEEVRRA 2z0u-a3-m1-cA_2z0u-a3-m1-cB Crystal structure of C2 domain of KIBRA protein Q8IX03 Q8IX03 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 6fd0-a1-m1-cB_6fd0-a1-m1-cA GATRIQIALKYDEKNKQFAILIIQLSNLSALLQQQDQKVNIRVAVLPCSESTTCLFRTRPLDASDTLVFNEVFWVSSYPALHQKTLRVDVCTTDRSHLEECLGGAQISLAEVCRSGERSTRWYNLLS GATRIQIALKYDEKNKQFAILIIQLSNLSALLQQQDQKVNIRVAVLPCSESTTCLFRTRPLDASDTLVFNEVFWVSSYPALHQKTLRVDVCTTDRSHLEECLGGAQISLAEVCRSGERSTRWYNLLS 2z0v-a1-m1-cB_2z0v-a1-m1-cA Crystal structure of BAR domain of Endophilin-III Q99963 Q99963 2.49 X-RAY DIFFRACTION 177 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 214 216 DDEFLDERKIDVTNKVVAEILSKTTEYLQPNPAYRAKLGLNTVSKIRGQVKTTGYPQTEGLLGDCLKYGKELGEDSTFGNALIEVGESKLAEVKDSLDINVKQTFIDPLQLLQDKDLKEIGHHLKKLEGRRLDYDYKKKRVGEEVRQAVEKFEESKELAERSFNFLENDVEQVSQLAVFIEAALDYHRQSTEILQELQSKLQRISAASSVPRRE DDEFLDERKIDVTNKVVAEILSKTTEYLQPNPAYRAKLGLNTVSKIRGQVKTTGYPQTEGLLGDCLKYGKELGEDSTFGNALIEVGESKLAEVKDSLDINVKQTFIDPLQLLQDKDLKEIGHHLKKLEGRRLDYDYKKKRVGKIPDEEVRQAVEKFEESKELAERSFNFLENDVEQVSQLAVFIEAALDYHRQSTEILQELQSKLQRISAASSVPR 2z0w-a1-m1-cA_2z0w-a1-m2-cA Crystal structure of the 2nd CAP-Gly domain in human Restin-like protein 2 reveals a swapped-dimer Q8N3C7 Q8N3C7 2.5 X-RAY DIFFRACTION 126 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 LRLGERVLVVGQRLGTIRFFGTTNFAPGYWYGIELEKPHGKNDGSVGGVQYFSCSPRYGIFAPPSRVQRVTD LRLGERVLVVGQRLGTIRFFGTTNFAPGYWYGIELEKPHGKNDGSVGGVQYFSCSPRYGIFAPPSRVQRVTD 2z0z-a1-m1-cA_2z0z-a1-m2-cA Crystal structure of putative acetyltransferase Q5SHD1 Q5SHD1 2 X-RAY DIFFRACTION 57 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 194 194 2z10-a1-m1-cA_2z10-a1-m2-cA 2z11-a1-m1-cA_2z11-a1-m2-cA 2zxv-a1-m1-cA_2zxv-a1-m1-cC 2zxv-a2-m1-cB_2zxv-a2-m1-cD MWAFPERFEGRHVRLEPLALAHLPAFLRHYDPEVYRFLSRAPVAPTEEALRAHLEGLLGEPGRVNWAILFGKEVAGRISVIAPEPEHAKLELGTMLFKPFWGSPANKEAKYLLLRHAFEVLRAERVQFKVDLRNERSQRALEALGAVREGVLRKNRRLPDGAFRDDVVYSVLKEEWPGVKARLEARLYGASGNP MWAFPERFEGRHVRLEPLALAHLPAFLRHYDPEVYRFLSRAPVAPTEEALRAHLEGLLGEPGRVNWAILFGKEVAGRISVIAPEPEHAKLELGTMLFKPFWGSPANKEAKYLLLRHAFEVLRAERVQFKVDLRNERSQRALEALGAVREGVLRKNRRLPDGAFRDDVVYSVLKEEWPGVKARLEARLYGASGNP 2z14-a1-m1-cA_2z14-a1-m2-cA Crystal structure of the N-terminal DUF1126 in human ef-hand domain containing 2 protein Q5JST6 Q5JST6 1.68 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 116 SGWVAFDKQVLSFDAYLEEEVLDKSQTNYRIRYYKIYFYPEDDTIQVNEPELLQGTSIRRHRITLPPPDEDQFYTVYHFNVGTEVVFYGRTFKIYDCDAFTRNFLRKIGVKVNPPV SGWVAFDKQVLSFDAYLEEEVLDKSQTNYRIRYYKIYFYPEDDTIQVNEPELLQGTSIRRHRITLPPPDEDQFYTVYHFNVGTEVVFYGRTFKIYDCDAFTRNFLRKIGVKVNPPV 2z17-a1-m1-cA_2z17-a1-m2-cA Crystal structure of PDZ domain from human Pleckstrin homology, Sec7 O60759 O60759 2.7 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 FSWSQRKLVTVEKQDNETFGFEIQSYRPQNQNACSSEMFTLICKIQEDSPAHCAGLQAGDVLANINGVSTEGFTYKQVVDLIRSSGNLLTIETL FSWSQRKLVTVEKQDNETFGFEIQSYRPQNQNACSSEMFTLICKIQEDSPAHCAGLQAGDVLANINGVSTEGFTYKQVVDLIRSSGNLLTIETL 2z1b-a3-m1-cD_2z1b-a3-m2-cD Crystal Structure of 5-aminolevulinic acid dehydratase (ALAD) from Mus musculs P10518 P10518 3.3 X-RAY DIFFRACTION 112 1.0 10090 (Mus musculus) 10090 (Mus musculus) 296 296 2z1b-a2-m1-cC_2z1b-a2-m1-cB QSVLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEEMLRPLVEAGLRCVLIFGVPSRSEDSPTIEAVRLLRKTFPSLLVACDVCLLSEESRQRLAEVALAYAKAGCQVVAPSDMMDGRVEAIKAALLKHGLGNRVSVMSYSAKFASCFYGPFRDAAQSSPAFGDRRCYQLPPGARGLALRAVARDIQEGADMLMVKPGLPYLDMVREVKDKHPELPLAVYQVSGEFAMLWHGAQAGAFDLRTAVLETMTAFRRAGADIIITYFAPQLLKWLK QSVLHSGYFHPLLRSWQTAASTVSASNLIYPIFVTDVPDDVQPIASLPGVARYGVNQLEEMLRPLVEAGLRCVLIFGVPSRSEDSPTIEAVRLLRKTFPSLLVACDVCLLSEESRQRLAEVALAYAKAGCQVVAPSDMMDGRVEAIKAALLKHGLGNRVSVMSYSAKFASCFYGPFRDAAQSSPAFGDRRCYQLPPGARGLALRAVARDIQEGADMLMVKPGLPYLDMVREVKDKHPELPLAVYQVSGEFAMLWHGAQAGAFDLRTAVLETMTAFRRAGADIIITYFAPQLLKWLK 2z1k-a6-m1-cD_2z1k-a6-m3-cB Crystal Structure of Ttha1563 from Thermus thermophilus HB8 Q5SI17 Q5SI17 2.3 X-RAY DIFFRACTION 134 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 467 467 2z1k-a5-m1-cA_2z1k-a5-m2-cC AWYEGAFFYQIFPDRFFRAGPPGRPAPAGPFEPWEAPPTLRGFKGGTLWGVAEKLPYLLDLGVEAIYLNPVFASTANHRYHTVDYFQVDPILGGNEALRHLLEVAHAHGVRVILDGVFNHTGRGFFAFQHLENGEQSPYRDWYHVKGFPLKAYTAHPNYEAWWGNPELPKLKVETPAVREYLLAVAEHWIRFGVDGWRLDVPNEIPDPTFWREFRQRVKGANPEAYIVGEIWEEADFWLQGDFDAVNYPLARAVLGFVGGEALDRDLAAQTGLGRIEPLQALAFSHRLEDLFGRYRPEVVRAQNLLTSHDTPRLLSLRGSVERARLALALLFLLPGNPTVYYGEEVGAGGKDPENRGGVWEEARWQKDLRETVKRLARLRKEHPALRTAPYLRIYAQDGHLAFARGPYLAVVNASPHPFRQDFPLHGVFPRGGRAVDLLSGEVCTPQGGRLCGPVLPPFSLALWREA AWYEGAFFYQIFPDRFFRAGPPGRPAPAGPFEPWEAPPTLRGFKGGTLWGVAEKLPYLLDLGVEAIYLNPVFASTANHRYHTVDYFQVDPILGGNEALRHLLEVAHAHGVRVILDGVFNHTGRGFFAFQHLENGEQSPYRDWYHVKGFPLKAYTAHPNYEAWWGNPELPKLKVETPAVREYLLAVAEHWIRFGVDGWRLDVPNEIPDPTFWREFRQRVKGANPEAYIVGEIWEEADFWLQGDFDAVNYPLARAVLGFVGGEALDRDLAAQTGLGRIEPLQALAFSHRLEDLFGRYRPEVVRAQNLLTSHDTPRLLSLRGSVERARLALALLFLLPGNPTVYYGEEVGAGGKDPENRGGVWEEARWQKDLRETVKRLARLRKEHPALRTAPYLRIYAQDGHLAFARGPYLAVVNASPHPFRQDFPLHGVFPRGGRAVDLLSGEVCTPQGGRLCGPVLPPFSLALWREA 2z1m-a1-m1-cA_2z1m-a1-m1-cD Crystal Structure of GDP-D-Mannose Dehydratase from Aquifex aeolicus VF5 O67175 O67175 2 X-RAY DIFFRACTION 50 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 338 338 2z95-a1-m1-cD_2z95-a1-m1-cC GKRALITGIRGQDGAYLAKLLLEKGYEVYGADRRSGEFASWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRD GKRALITGIRGQDGAYLAKLLLEKGYEVYGADRRSGEFASWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRD 2z1m-a1-m1-cB_2z1m-a1-m1-cC Crystal Structure of GDP-D-Mannose Dehydratase from Aquifex aeolicus VF5 O67175 O67175 2 X-RAY DIFFRACTION 34 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 332 336 2z95-a1-m1-cB_2z95-a1-m1-cA KRALITGIRGQDGAYLAKLLLEKGYEVYGADSWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRDREVSV GKRALITGIRGQDGAYLAKLLLEKGYEVYGADSWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRDREVSV 2z1m-a1-m1-cC_2z1m-a1-m1-cA Crystal Structure of GDP-D-Mannose Dehydratase from Aquifex aeolicus VF5 O67175 O67175 2 X-RAY DIFFRACTION 13 0.985 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 336 338 2z1m-a1-m1-cB_2z1m-a1-m1-cD 2z95-a1-m1-cB_2z95-a1-m1-cC 2z95-a1-m1-cD_2z95-a1-m1-cA GKRALITGIRGQDGAYLAKLLLEKGYEVYGADSWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRDREVSV GKRALITGIRGQDGAYLAKLLLEKGYEVYGADRRSGEFASWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRD 2z1m-a1-m1-cC_2z1m-a1-m1-cD Crystal Structure of GDP-D-Mannose Dehydratase from Aquifex aeolicus VF5 O67175 O67175 2 X-RAY DIFFRACTION 80 0.985 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 336 338 2z1m-a1-m1-cB_2z1m-a1-m1-cA 2z95-a1-m1-cA_2z95-a1-m1-cC 2z95-a1-m1-cB_2z95-a1-m1-cD GKRALITGIRGQDGAYLAKLLLEKGYEVYGADSWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRDREVSV GKRALITGIRGQDGAYLAKLLLEKGYEVYGADRRSGEFASWRLKELGIENDVKIIHMDLLEFSNIIRTIEKVQPDEVYNLAAQSFVGVSFEQPILTAEVDAIGVLRILEALRTVKPDTKFYQASTSEMFGKVQEIPQTEKTPFYPRSPYAVAKLFGHWITVNYREAYNMFACSGILFNHESPLRGIEFVTRKITYSLARIKYGLQDKLVLGNLNAKRDWGYAPEYVEAMWLMMQQPEPDDYVIATGETHTVREFVEKAAKIAGFDIEWVGEGINEKGIDRNTGKVIVEVSEEFFRPAEVDILVGNPEKAMKKLGWKPRTTFDELVEIMMEADLKRVRD 2z1n-a4-m1-cA_2z1n-a4-m1-cB Crystal structure of APE0912 from Aeropyrum pernix K1 Q9YDK1 Q9YDK1 1.8 X-RAY DIFFRACTION 90 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 237 243 2z1n-a3-m1-cA_2z1n-a3-m1-cB 2z1n-a3-m2-cA_2z1n-a3-m2-cB MDLGIQGKLAVVTAGSSGLGFASALELARNGARLLLFSRNREKLEAAASRIASLVSGAQVDIVAGDIREPGDIDRLFEKARDLGGADILVYSTGGPRPGRFMELGVEDWDESYRLLARSAVWVGRRAAEQMVEKGWGRMVYIGSVTLLRPWQDLALSNIMRLPVIGVVRTLALELAPHGVTVNAVLPSLILTDRVRRIPMGRVGKPEELASVVAFLASEKASFITGAVIPVDGGAHI MDLGIQGKLAVVTAGSSGLGFASALELARNGARLLLFSRNREKLEAAASRIASLVSGAQVDIVAGDIREPGDIDRLFEKARDLGGADILVYSTGGPRPGRFMELGVEDWDESYRLLARSAVWVGRRAAEQMVEKGWGRMVYIGSVTLLRPWQDLALSNIMRLPVIGVVRTLALELAPHGVTVNAVLPSLILTDRVRSLSMASRIPMGRVGKPEELASVVAFLASEKASFITGAVIPVDGGAHI 2z1n-a5-m1-cA_2z1n-a5-m2-cB Crystal structure of APE0912 from Aeropyrum pernix K1 Q9YDK1 Q9YDK1 1.8 X-RAY DIFFRACTION 113 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 237 243 2z1n-a3-m1-cA_2z1n-a3-m2-cB 2z1n-a3-m2-cA_2z1n-a3-m1-cB MDLGIQGKLAVVTAGSSGLGFASALELARNGARLLLFSRNREKLEAAASRIASLVSGAQVDIVAGDIREPGDIDRLFEKARDLGGADILVYSTGGPRPGRFMELGVEDWDESYRLLARSAVWVGRRAAEQMVEKGWGRMVYIGSVTLLRPWQDLALSNIMRLPVIGVVRTLALELAPHGVTVNAVLPSLILTDRVRRIPMGRVGKPEELASVVAFLASEKASFITGAVIPVDGGAHI MDLGIQGKLAVVTAGSSGLGFASALELARNGARLLLFSRNREKLEAAASRIASLVSGAQVDIVAGDIREPGDIDRLFEKARDLGGADILVYSTGGPRPGRFMELGVEDWDESYRLLARSAVWVGRRAAEQMVEKGWGRMVYIGSVTLLRPWQDLALSNIMRLPVIGVVRTLALELAPHGVTVNAVLPSLILTDRVRSLSMASRIPMGRVGKPEELASVVAFLASEKASFITGAVIPVDGGAHI 2z1q-a1-m1-cA_2z1q-a1-m1-cB Crystal structure of acyl CoA dehydrogenase Q5SJW0 Q5SJW0 2.3 X-RAY DIFFRACTION 170 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 546 549 KKLWQKGGGWLLEVPERVYTPEDFDESVKEIARTTRTFVEREVLPLLERMEHGELELNVPLMRKAGELGLLAIDVPEEYGGLDLPKVISTVVAEELSGSGGFSVTYGAHTSIGTLPLVYFGTEEQKRKYLPKLASGEWIAAYCLTEPGSGSDALAAKTRATLSEDGKHYILNGVKQWISNAGFAHLFTVFAKVDGEHFTAFLVERDTPGLSFGPEEKKMGIKASSTRQVILEDVKVPVENVLGEIGKGHKIAFNVLNVGRYKLGAGAVGGAKRALELSAQYATQRVQFGRPIGRFGLIQQKLGEMASRIYAAESAVYRTVGLIDEALLGKKGPEAVMAGIEEYAVEASIIKVLGSEVLDYVVDEGVQIHGGYGYSQEYPIERAYRDARINRIFEGTNEINRLLIPGMLLRREDLELHQVQNLKKLALMVAGLAVQKYGQGVEEEQEVLGAVADILIDAYAAESALLRARRLGGLAPVLARIYLAQALDRAQAGALSVLPRLVEGDEARVVYSAARRLTKREPGDLVALRRQAAEAVLEAGGYPIPR KKLWQKGGGWLLEVPERVYTPEDFDESVKEIARTTRTFVEREVLPLLERMEHGELELNVPLMRKAGELGLLAIDVPEEYGGLDLPKVISTVVAEELSGSGGFSVTYGAHTSIGTLPLVYFGTEEQKRKYLPKLASGEWIAAYCLTEPGSGSDALAAKTRATLSEDGKHYILNGVKQWISNAGFAHLFTVFAKVDGEHFTAFLVERDTPGLSFGPEEKKMGIKASSTRQVILEDVKVPVENVLGEIGKGHKIAFNVLNVGRYKLGAGAVGGAKRALELSAQYATQRVQFGRPIGRFGLIQQKLGEMASRIYAAESAVYRTVGLIDEALLGKKGPEAVMAGIEEYAVEASIIKVLGSEVLDYVVDEGVQIHGGYGYSQEYPIERAYRDARINRIFEGTNEINRLLIPGMLLRRAEPEDLELHQVQNLKKLALMVAGLAVQKYGQGVEEEQEVLGAVADILIDAYAAESALLRARRLGGLAPVLARIYLAQALDRAQAGALSVLPRLVEGDEARVVYSAARRLTKREPGDLVALRRQAAEAVLEAGGYPIPR 2z1u-a1-m1-cA_2z1u-a1-m2-cA Crystal Structure of Hydrogenase Maturation Protein HypE in complex with ATP Q72F88 Q72F88 2 X-RAY DIFFRACTION 241 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 335 335 2z1t-a1-m1-cA_2z1t-a1-m2-cA TLLLDYGSGGRASHRLISDLFLRHFDNPILGTLNDAARLDLTGPLAMSTDSYTVDPIFFPGGDIGTLAVHGTVNDVSMLGARPRYLSCGFILEEGLDMDILERVVASMGKAAREAGVFIVTGDTKVVPRGACDKMFINTTGIGEILVDPAPSGDRARPGDAILISGSMGDHGLTILSQRQGLNFAADVCSDSASLNRVVEKLVLEVGDIHVLRDPTRGGLATTLNEIAGQSQAVCHVLETAVPVRESVRNGCSFLGLDPLYLANEGKLICILPEERAEAALAVLREGPHGEHAARIGSVKSVGELGAARAGQVVMETALGGHRLLSMLEQLPRIC TLLLDYGSGGRASHRLISDLFLRHFDNPILGTLNDAARLDLTGPLAMSTDSYTVDPIFFPGGDIGTLAVHGTVNDVSMLGARPRYLSCGFILEEGLDMDILERVVASMGKAAREAGVFIVTGDTKVVPRGACDKMFINTTGIGEILVDPAPSGDRARPGDAILISGSMGDHGLTILSQRQGLNFAADVCSDSASLNRVVEKLVLEVGDIHVLRDPTRGGLATTLNEIAGQSQAVCHVLETAVPVRESVRNGCSFLGLDPLYLANEGKLICILPEERAEAALAVLREGPHGEHAARIGSVKSVGELGAARAGQVVMETALGGHRLLSMLEQLPRIC 2z2p-a1-m1-cA_2z2p-a1-m1-cB Crystal Structure of catalytically inactive H270A virginiamycin B lyase from Staphylococcus aureus with Quinupristin P17978 P17978 2.8 X-RAY DIFFRACTION 22 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 293 293 2z2p-a1-m1-cC_2z2p-a1-m1-cA 2z2p-a1-m1-cD_2z2p-a1-m1-cB EFKLQELNLTNQDTGPYGITVSDKGKVWITQHKANMISCINLDGKITEYELPNKGAKVMCLTISSDGEVWFTENAANKIGRITKKGIIKEYTLPNPDSAPYGITEGPNGDIWFTEMNGNRIGRITDDGKIREYELPNKGSYPSFITLGSDNALWFTENQNNAIGRITESGDITEFKIPTPASGPVGITKGNDDALWFVEIIGNKIGRITTSGEITEFKIPTPNARPHAITAGAGIDLWFTEWGANKIGRLTSNNIIEEYPIQIKSAEPAGICFDGETIWFAMECDKIGKLTLI EFKLQELNLTNQDTGPYGITVSDKGKVWITQHKANMISCINLDGKITEYELPNKGAKVMCLTISSDGEVWFTENAANKIGRITKKGIIKEYTLPNPDSAPYGITEGPNGDIWFTEMNGNRIGRITDDGKIREYELPNKGSYPSFITLGSDNALWFTENQNNAIGRITESGDITEFKIPTPASGPVGITKGNDDALWFVEIIGNKIGRITTSGEITEFKIPTPNARPHAITAGAGIDLWFTEWGANKIGRLTSNNIIEEYPIQIKSAEPAGICFDGETIWFAMECDKIGKLTLI 2z2w-a1-m1-cA_2z2w-a1-m2-cA Human Wee1 kinase complexed with inhibitor PF0335770 P30291 P30291 2.22 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 260 MKSRYTTEFHELEKIGSGEFGSVFKCVKRLDGCIYAIKRSKKPLAGSVDEQNALREVYAHAVLGQHSHVVRYFSAWAEDDHMLIQNEYCNGGSLADAISENYRIMSYFKEAELKDLLLQVGRGLRYIHSMSLVHMDIKPSNIFISKVMFKIGDLGHVTRISSPQVEEGDSRFLANEVLQENYTHLPKADIFALALTVVAAGAEPLPRNGDQWHEIRQGRLPRIPQVLSQEFTELLKVMIHPDPERRPSAMALVKHSVLLS MKSRYTTEFHELEKIGSGEFGSVFKCVKRLDGCIYAIKRSKKPLAGSVDEQNALREVYAHAVLGQHSHVVRYFSAWAEDDHMLIQNEYCNGGSLADAISENYRIMSYFKEAELKDLLLQVGRGLRYIHSMSLVHMDIKPSNIFISKVMFKIGDLGHVTRISSPQVEEGDSRFLANEVLQENYTHLPKADIFALALTVVAAGAEPLPRNGDQWHEIRQGRLPRIPQVLSQEFTELLKVMIHPDPERRPSAMALVKHSVLLS 2z34-a1-m1-cB_2z34-a1-m1-cA Crystal structure of SpCia1/Asf1 complex with Hip1 O74515 O74515 2.4 X-RAY DIFFRACTION 34 0.993 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 149 155 SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEEIKKVKVDISKVWRSILAEKPRVTRFNIQWD SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMIKKVKVDISKVWRSILAEKPRVTRFNIQWD 2z3b-a2-m3-cG_2z3b-a2-m3-cJ Crystal Structure of Bacillus Subtilis CodW, a non-canonical HslV-like peptidase with an impaired catalytic apparatus P39070 P39070 2.5 X-RAY DIFFRACTION 70 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 180 180 1yyf-a1-m1-cC_1yyf-a1-m6-cC 1yyf-a1-m1-cD_1yyf-a1-m4-cD 1yyf-a1-m2-cC_1yyf-a1-m5-cC 1yyf-a1-m2-cD_1yyf-a1-m6-cD 1yyf-a1-m3-cC_1yyf-a1-m4-cC 1yyf-a1-m3-cD_1yyf-a1-m5-cD 2z3a-a1-m1-cA_2z3a-a1-m1-cG 2z3a-a1-m1-cB_2z3a-a1-m1-cL 2z3a-a1-m1-cC_2z3a-a1-m1-cK 2z3a-a1-m1-cD_2z3a-a1-m1-cJ 2z3a-a1-m1-cE_2z3a-a1-m1-cI 2z3a-a1-m1-cF_2z3a-a1-m1-cH 2z3b-a1-m1-cA_2z3b-a1-m2-cC 2z3b-a1-m1-cB_2z3b-a1-m2-cB 2z3b-a1-m1-cC_2z3b-a1-m2-cA 2z3b-a1-m1-cD_2z3b-a1-m2-cF 2z3b-a1-m1-cE_2z3b-a1-m2-cE 2z3b-a1-m1-cF_2z3b-a1-m2-cD 2z3b-a2-m1-cG_2z3b-a2-m1-cJ 2z3b-a2-m1-cH_2z3b-a2-m1-cL 2z3b-a2-m1-cI_2z3b-a2-m1-cK 2z3b-a2-m3-cH_2z3b-a2-m3-cL 2z3b-a2-m3-cI_2z3b-a2-m3-cK SSFHATTIFAVQHKGRSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEKFEAKLEEYNGNLKRAAVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALAAGRALKKHAGESMSASEIARAALETAGEICVYTNDQIILEELE SSFHATTIFAVQHKGRSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEKFEAKLEEYNGNLKRAAVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALAAGRALKKHAGESMSASEIARAALETAGEICVYTNDQIILEELE 2z3b-a2-m3-cH_2z3b-a2-m3-cI Crystal Structure of Bacillus Subtilis CodW, a non-canonical HslV-like peptidase with an impaired catalytic apparatus P39070 P39070 2.5 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 180 180 1yyf-a1-m1-cC_1yyf-a1-m1-cD 1yyf-a1-m1-cC_1yyf-a1-m2-cD 1yyf-a1-m1-cD_1yyf-a1-m3-cC 1yyf-a1-m2-cC_1yyf-a1-m2-cD 1yyf-a1-m2-cC_1yyf-a1-m3-cD 1yyf-a1-m3-cC_1yyf-a1-m3-cD 1yyf-a1-m4-cC_1yyf-a1-m4-cD 1yyf-a1-m4-cC_1yyf-a1-m5-cD 1yyf-a1-m4-cD_1yyf-a1-m6-cC 1yyf-a1-m5-cC_1yyf-a1-m5-cD 1yyf-a1-m5-cC_1yyf-a1-m6-cD 1yyf-a1-m6-cC_1yyf-a1-m6-cD 2z3a-a1-m1-cA_2z3a-a1-m1-cB 2z3a-a1-m1-cA_2z3a-a1-m1-cF 2z3a-a1-m1-cB_2z3a-a1-m1-cC 2z3a-a1-m1-cC_2z3a-a1-m1-cD 2z3a-a1-m1-cD_2z3a-a1-m1-cE 2z3a-a1-m1-cE_2z3a-a1-m1-cF 2z3a-a1-m1-cG_2z3a-a1-m1-cH 2z3a-a1-m1-cG_2z3a-a1-m1-cL 2z3a-a1-m1-cH_2z3a-a1-m1-cI 2z3a-a1-m1-cI_2z3a-a1-m1-cJ 2z3a-a1-m1-cJ_2z3a-a1-m1-cK 2z3a-a1-m1-cK_2z3a-a1-m1-cL 2z3b-a1-m1-cA_2z3b-a1-m1-cB 2z3b-a1-m1-cA_2z3b-a1-m1-cF 2z3b-a1-m1-cB_2z3b-a1-m1-cC 2z3b-a1-m1-cC_2z3b-a1-m1-cD 2z3b-a1-m1-cD_2z3b-a1-m1-cE 2z3b-a1-m1-cE_2z3b-a1-m1-cF 2z3b-a1-m2-cA_2z3b-a1-m2-cB 2z3b-a1-m2-cA_2z3b-a1-m2-cF 2z3b-a1-m2-cB_2z3b-a1-m2-cC 2z3b-a1-m2-cC_2z3b-a1-m2-cD 2z3b-a1-m2-cD_2z3b-a1-m2-cE 2z3b-a1-m2-cE_2z3b-a1-m2-cF 2z3b-a2-m1-cG_2z3b-a2-m1-cH 2z3b-a2-m1-cG_2z3b-a2-m3-cI 2z3b-a2-m1-cH_2z3b-a2-m1-cI 2z3b-a2-m1-cI_2z3b-a2-m3-cG 2z3b-a2-m1-cJ_2z3b-a2-m1-cL 2z3b-a2-m1-cJ_2z3b-a2-m3-cK 2z3b-a2-m1-cK_2z3b-a2-m1-cL 2z3b-a2-m1-cK_2z3b-a2-m3-cJ 2z3b-a2-m3-cG_2z3b-a2-m3-cH 2z3b-a2-m3-cJ_2z3b-a2-m3-cL 2z3b-a2-m3-cK_2z3b-a2-m3-cL SSFHATTIFAVQHKGRSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEKFEAKLEEYNGNLKRAAVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALAAGRALKKHAGESMSASEIARAALETAGEICVYTNDQIILEELE SSFHATTIFAVQHKGRSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEKFEAKLEEYNGNLKRAAVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALAAGRALKKHAGESMSASEIARAALETAGEICVYTNDQIILEELE 2z3b-a2-m3-cI_2z3b-a2-m3-cL Crystal Structure of Bacillus Subtilis CodW, a non-canonical HslV-like peptidase with an impaired catalytic apparatus P39070 P39070 2.5 X-RAY DIFFRACTION 30 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 180 180 1yyf-a1-m1-cC_1yyf-a1-m4-cD 1yyf-a1-m1-cD_1yyf-a1-m4-cC 1yyf-a1-m2-cC_1yyf-a1-m6-cD 1yyf-a1-m2-cD_1yyf-a1-m6-cC 1yyf-a1-m3-cC_1yyf-a1-m5-cD 1yyf-a1-m3-cD_1yyf-a1-m5-cC 2z3a-a1-m1-cA_2z3a-a1-m1-cH 2z3a-a1-m1-cB_2z3a-a1-m1-cG 2z3a-a1-m1-cC_2z3a-a1-m1-cL 2z3a-a1-m1-cD_2z3a-a1-m1-cK 2z3a-a1-m1-cE_2z3a-a1-m1-cJ 2z3a-a1-m1-cF_2z3a-a1-m1-cI 2z3b-a1-m1-cA_2z3b-a1-m2-cD 2z3b-a1-m1-cB_2z3b-a1-m2-cC 2z3b-a1-m1-cC_2z3b-a1-m2-cB 2z3b-a1-m1-cD_2z3b-a1-m2-cA 2z3b-a1-m1-cE_2z3b-a1-m2-cF 2z3b-a1-m1-cF_2z3b-a1-m2-cE 2z3b-a2-m1-cG_2z3b-a2-m3-cK 2z3b-a2-m1-cH_2z3b-a2-m1-cJ 2z3b-a2-m1-cI_2z3b-a2-m1-cL 2z3b-a2-m1-cK_2z3b-a2-m3-cG 2z3b-a2-m3-cH_2z3b-a2-m3-cJ SSFHATTIFAVQHKGRSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEKFEAKLEEYNGNLKRAAVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALAAGRALKKHAGESMSASEIARAALETAGEICVYTNDQIILEELE SSFHATTIFAVQHKGRSAMSGDGQVTFGQAVVMKHTARKVRKLFNGKVLAGFAGSVADAFTLFEKFEAKLEEYNGNLKRAAVELAKEWRSDKVLRKLEAMLIVMNQDTLLLVSGTGEVIEPDDGILAIGSGGNYALAAGRALKKHAGESMSASEIARAALETAGEICVYTNDQIILEELE 2z3f-a1-m1-cA_2z3f-a1-m1-cD Crystal structure of spCia1/Asf1 complexed with Cac2 peptide O74515 O74515 2.7 X-RAY DIFFRACTION 15 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 160 160 SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN 2z3f-a1-m1-cA_2z3f-a1-m1-cH Crystal structure of spCia1/Asf1 complexed with Cac2 peptide O74515 O74515 2.7 X-RAY DIFFRACTION 26 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 160 160 2z3f-a1-m1-cB_2z3f-a1-m1-cG 2z3f-a1-m1-cD_2z3f-a1-m1-cE 2z3f-a1-m1-cF_2z3f-a1-m1-cC SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN 2z3f-a1-m1-cD_2z3f-a1-m1-cH Crystal structure of spCia1/Asf1 complexed with Cac2 peptide O74515 O74515 2.7 X-RAY DIFFRACTION 38 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 160 160 SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN 2z3f-a1-m1-cF_2z3f-a1-m1-cH Crystal structure of spCia1/Asf1 complexed with Cac2 peptide O74515 O74515 2.7 X-RAY DIFFRACTION 42 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 159 160 2z3f-a1-m1-cA_2z3f-a1-m1-cC 2z3f-a1-m1-cB_2z3f-a1-m1-cD 2z3f-a1-m1-cE_2z3f-a1-m1-cG IVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN SIVNILSVNVLNNPAKFSDPYKFEITFECLEPLKSDLEWKLTYVGSATSQSYDQILDTLLVGPIPIGINKFVFEADPPNIDLLPQLSDVLGVTVILLSCAYEDNEFVRVGYYVNNEMEGLNLQEMDDAEIKKVKVDISKVWRSILAEKPRVTRFNIQWDN 2z3h-a1-m1-cA_2z3h-a1-m1-cC Crystal structure of blasticidin S deaminase (BSD) complexed with deaminohydroxy blasticidin S P0C2P0 P0C2P0 1.5 X-RAY DIFFRACTION 22 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 122 122 1wn5-a1-m1-cA_1wn5-a1-m1-cC 1wn5-a1-m1-cB_1wn5-a1-m1-cD 1wn6-a1-m1-cA_1wn6-a1-m2-cB 1wn6-a1-m1-cB_1wn6-a1-m2-cA 2z3g-a1-m1-cA_2z3g-a1-m1-cC 2z3g-a1-m1-cD_2z3g-a1-m1-cB 2z3h-a1-m1-cD_2z3h-a1-m1-cB 2z3i-a1-m1-cA_2z3i-a1-m1-cC 2z3i-a1-m1-cB_2z3i-a1-m1-cD 2z3j-a1-m1-cC_2z3j-a1-m1-cA 2z3j-a1-m1-cD_2z3j-a1-m1-cB LSQEESTLIERATATINSIPISEDYSVASAALSSDGRIFTGVNVYHFTGGPCAELVVLGTAAAAAAGNLTCIVAIGNENRGILSPCGRCRQVLLDLHPGIKAIVKDSDGQPTAVGIRELLPS LSQEESTLIERATATINSIPISEDYSVASAALSSDGRIFTGVNVYHFTGGPCAELVVLGTAAAAAAGNLTCIVAIGNENRGILSPCGRCRQVLLDLHPGIKAIVKDSDGQPTAVGIRELLPS 2z3h-a1-m1-cD_2z3h-a1-m1-cA Crystal structure of blasticidin S deaminase (BSD) complexed with deaminohydroxy blasticidin S P0C2P0 P0C2P0 1.5 X-RAY DIFFRACTION 99 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 121 122 1wn5-a1-m1-cA_1wn5-a1-m1-cD 1wn5-a1-m1-cB_1wn5-a1-m1-cC 1wn6-a1-m1-cA_1wn6-a1-m1-cB 1wn6-a1-m2-cA_1wn6-a1-m2-cB 2z3g-a1-m1-cC_2z3g-a1-m1-cB 2z3g-a1-m1-cD_2z3g-a1-m1-cA 2z3h-a1-m1-cC_2z3h-a1-m1-cB 2z3i-a1-m1-cA_2z3i-a1-m1-cD 2z3i-a1-m1-cB_2z3i-a1-m1-cC 2z3j-a1-m1-cC_2z3j-a1-m1-cB 2z3j-a1-m1-cD_2z3j-a1-m1-cA LSQEESTLIERATATINSIPISEDYSVASAALSSDGRIFTGVNVYHFTGGPCAELVVLGTAAAAAAGNLTCIVAIGNENRGILSPCGRCRQVLLDLHPGIKAIVKDSDGQPTAVGIRELLP LSQEESTLIERATATINSIPISEDYSVASAALSSDGRIFTGVNVYHFTGGPCAELVVLGTAAAAAAGNLTCIVAIGNENRGILSPCGRCRQVLLDLHPGIKAIVKDSDGQPTAVGIRELLPS 2z3h-a1-m1-cD_2z3h-a1-m1-cC Crystal structure of blasticidin S deaminase (BSD) complexed with deaminohydroxy blasticidin S P0C2P0 P0C2P0 1.5 X-RAY DIFFRACTION 30 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 121 122 1wn5-a1-m1-cA_1wn5-a1-m1-cB 1wn5-a1-m1-cC_1wn5-a1-m1-cD 1wn6-a1-m1-cA_1wn6-a1-m2-cA 1wn6-a1-m1-cB_1wn6-a1-m2-cB 2z3g-a1-m1-cA_2z3g-a1-m1-cB 2z3g-a1-m1-cD_2z3g-a1-m1-cC 2z3h-a1-m1-cA_2z3h-a1-m1-cB 2z3i-a1-m1-cA_2z3i-a1-m1-cB 2z3i-a1-m1-cC_2z3i-a1-m1-cD 2z3j-a1-m1-cA_2z3j-a1-m1-cB 2z3j-a1-m1-cD_2z3j-a1-m1-cC LSQEESTLIERATATINSIPISEDYSVASAALSSDGRIFTGVNVYHFTGGPCAELVVLGTAAAAAAGNLTCIVAIGNENRGILSPCGRCRQVLLDLHPGIKAIVKDSDGQPTAVGIRELLP LSQEESTLIERATATINSIPISEDYSVASAALSSDGRIFTGVNVYHFTGGPCAELVVLGTAAAAAAGNLTCIVAIGNENRGILSPCGRCRQVLLDLHPGIKAIVKDSDGQPTAVGIRELLPS 2z3o-a1-m1-cB_2z3o-a1-m1-cA complex structure of LF-transferase and phenylalanine P0A8P1 P0A8P1 2.4 X-RAY DIFFRACTION 52 1.0 562 (Escherichia coli) 562 (Escherichia coli) 231 232 2z3k-a1-m1-cA_2z3k-a1-m1-cB 2z3l-a1-m1-cA_2z3l-a1-m1-cB 2z3m-a1-m1-cA_2z3m-a1-m1-cB 2z3n-a1-m1-cA_2z3n-a1-m1-cB 2z3p-a1-m1-cB_2z3p-a1-m1-cA RLVQLSRHSIAFPSPEGALREPNGLLALGGDLSPARLLMAYQRGIFPWFSPGDPILWWSPDPRAVLWPESLHISRSMKRFHKRSPYRVTMNYAFGQVIEGCASDREEGTWITRGVVEAYHRLHELGHAHSIEVWREDELVGGMYGVAQGTLFCGESMFSRMENASKTALLVFCEEFIGHGGKLIDCQVLNDHTASLGACEIPRRDYLNYLNQMRLGRLPNNFWVPRCLFSP RLVQLSRHSIAFPSPEGALREPNGLLALGGDLSPARLLMAYQRGIFPWFSPGDPILWWSPDPRAVLWPESLHISRSMKRFHKRSPYRVTMNYAFGQVIEGCASDREEGTWITRGVVEAYHRLHELGHAHSIEVWREDELVGGMYGVAQGTLFCGESMFSRMENASKTALLVFCEEFIGHGGKLIDCQVLNDHTASLGACEIPRRDYLNYLNQMRLGRLPNNFWVPRCLFSPQ 2z3x-a1-m1-cA_2z3x-a1-m1-cB Structure of a Protein-DNA Complex Essential for DNA Protection in Spore of Bacillus Species P02958 P02958 2.1 X-RAY DIFFRACTION 24 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 56 56 AKLLIPQAASAIEQMKLEIASEFGVQLGAETTSRANGSVGGEITKRLVRLAQQNMG AKLLIPQAASAIEQMKLEIASEFGVQLGAETTSRANGSVGGEITKRLVRLAQQNMG 2z3x-a1-m1-cA_2z3x-a1-m1-cC Structure of a Protein-DNA Complex Essential for DNA Protection in Spore of Bacillus Species P02958 P02958 2.1 X-RAY DIFFRACTION 63 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 56 56 AKLLIPQAASAIEQMKLEIASEFGVQLGAETTSRANGSVGGEITKRLVRLAQQNMG AKLLIPQAASAIEQMKLEIASEFGVQLGAETTSRANGSVGGEITKRLVRLAQQNMG 2z3z-a1-m1-cA_2z3z-a1-m2-cA Prolyl tripeptidyl aminopeptidase mutant E636A complexd with an inhibitor Q7MUW6 Q7MUW6 1.95 X-RAY DIFFRACTION 113 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 651 651 2d5l-a1-m1-cA_2d5l-a1-m2-cA 2dcm-a1-m1-cA_2dcm-a1-m2-cA 2eep-a1-m1-cA_2eep-a1-m2-cA 2z3w-a1-m1-cA_2z3w-a1-m2-cA VVGLQWMGDNYVFIEGDDLVFNKTTRFSAADLNALMFPSFRTLDAGRGLVVLFTQGGLVGFDMLARKVTYLFDTNEETASLDFSPVGDRVAYVRNHNLYIARGGKLGEGMSRAIAVTIDGTETLVYGQAVHQREFGIEKGTFWSPKGSCLAFYRMDQSMVKPTPIVDYHPLEAESKPLYYPMAGTPSHHVTVGIYHLATGKTVYLQTGEPKEKFLTNLSWSPDENILYVAEVNRAQNECKVNAYDAETGRFVRTLFVETDKHYVEPLHPLTFLPGSNNQFIWQSRRDGWNHLYLYDTTGRLIRQVTKGEWEVTNFAGFDPKGTRLYFESTEASPLERHFYCIDIKGGKTKDLTPESGMHRTQLSPDGSAIIDIFQSPTVPRKVTVTNIGKGSHTLLEAKAMPEIRTGTIMAADGQTPLYYKLTMPLHFDPAKKYPVIVYVYGGPHAQLVTKTWGGWDIYMAQKGYAVFTVDSRGSANRGAAFEQVIHRRLGQTEMADQMCGVDFLKSQSWVDADRIGVHGWSYGGFMTTNLMLTHGDVFKVGVAGGPVIDWNRYAIMYGERYFDAPQENPEGYDAANLLKRAGDLKGRLMLIHGAIDPVVVWQHSLLFLDACVKARTYPDYYVYPSHEHNVMGPDRVHLYETITRYFTDHL VVGLQWMGDNYVFIEGDDLVFNKTTRFSAADLNALMFPSFRTLDAGRGLVVLFTQGGLVGFDMLARKVTYLFDTNEETASLDFSPVGDRVAYVRNHNLYIARGGKLGEGMSRAIAVTIDGTETLVYGQAVHQREFGIEKGTFWSPKGSCLAFYRMDQSMVKPTPIVDYHPLEAESKPLYYPMAGTPSHHVTVGIYHLATGKTVYLQTGEPKEKFLTNLSWSPDENILYVAEVNRAQNECKVNAYDAETGRFVRTLFVETDKHYVEPLHPLTFLPGSNNQFIWQSRRDGWNHLYLYDTTGRLIRQVTKGEWEVTNFAGFDPKGTRLYFESTEASPLERHFYCIDIKGGKTKDLTPESGMHRTQLSPDGSAIIDIFQSPTVPRKVTVTNIGKGSHTLLEAKAMPEIRTGTIMAADGQTPLYYKLTMPLHFDPAKKYPVIVYVYGGPHAQLVTKTWGGWDIYMAQKGYAVFTVDSRGSANRGAAFEQVIHRRLGQTEMADQMCGVDFLKSQSWVDADRIGVHGWSYGGFMTTNLMLTHGDVFKVGVAGGPVIDWNRYAIMYGERYFDAPQENPEGYDAANLLKRAGDLKGRLMLIHGAIDPVVVWQHSLLFLDACVKARTYPDYYVYPSHEHNVMGPDRVHLYETITRYFTDHL 2z4p-a1-m2-cA_2z4p-a1-m2-cB Crystal structure of FFRP-DM1 O73983 O73983 1.95 X-RAY DIFFRACTION 42 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 75 75 2cvi-a1-m1-cA_2cvi-a1-m1-cB 2e1a-a1-m1-cA_2e1a-a1-m1-cD 2e1a-a1-m1-cB_2e1a-a1-m1-cC 2e1a-a1-m2-cA_2e1a-a1-m2-cD 2e1a-a1-m2-cB_2e1a-a1-m2-cC 2z4p-a1-m1-cA_2z4p-a1-m1-cB 2z4p-a1-m1-cC_2z4p-a1-m1-cD 2z4p-a1-m2-cC_2z4p-a1-m2-cD MVTAFILMVTAAGKEREVMEKLLAMPEVKEAYVVYGEYDLIVKVETDTLKDLDQFITEKIRKMPEIQMTSTMIAI MVTAFILMVTAAGKEREVMEKLLAMPEVKEAYVVYGEYDLIVKVETDTLKDLDQFITEKIRKMPEIQMTSTMIAI 2z4p-a1-m2-cB_2z4p-a1-m2-cC Crystal structure of FFRP-DM1 O73983 O73983 1.95 X-RAY DIFFRACTION 23 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 75 75 2e1a-a1-m1-cA_2e1a-a1-m1-cB 2e1a-a1-m1-cA_2e1a-a1-m2-cB 2e1a-a1-m1-cB_2e1a-a1-m2-cA 2e1a-a1-m1-cC_2e1a-a1-m1-cD 2e1a-a1-m2-cA_2e1a-a1-m2-cB 2e1a-a1-m2-cC_2e1a-a1-m2-cD 2z4p-a1-m1-cA_2z4p-a1-m1-cD 2z4p-a1-m1-cA_2z4p-a1-m2-cD 2z4p-a1-m1-cB_2z4p-a1-m1-cC 2z4p-a1-m1-cD_2z4p-a1-m2-cA 2z4p-a1-m2-cA_2z4p-a1-m2-cD MVTAFILMVTAAGKEREVMEKLLAMPEVKEAYVVYGEYDLIVKVETDTLKDLDQFITEKIRKMPEIQMTSTMIAI MVTAFILMVTAAGKEREVMEKLLAMPEVKEAYVVYGEYDLIVKVETDTLKDLDQFITEKIRKMPEIQMTSTMIAI 2z4p-a1-m2-cB_2z4p-a1-m2-cD Crystal structure of FFRP-DM1 O73983 O73983 1.95 X-RAY DIFFRACTION 10 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 75 75 2e1a-a1-m1-cB_2e1a-a1-m1-cD 2e1a-a1-m2-cB_2e1a-a1-m2-cD 2z4p-a1-m1-cB_2z4p-a1-m1-cD MVTAFILMVTAAGKEREVMEKLLAMPEVKEAYVVYGEYDLIVKVETDTLKDLDQFITEKIRKMPEIQMTSTMIAI MVTAFILMVTAAGKEREVMEKLLAMPEVKEAYVVYGEYDLIVKVETDTLKDLDQFITEKIRKMPEIQMTSTMIAI 2z51-a1-m1-cA_2z51-a1-m2-cA Crystal structure of Arabidopsis CnfU involved in iron-sulfur cluster biosynthesis Q93W20 Q93W20 1.35 X-RAY DIFFRACTION 115 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 154 154 MVPLTEENVESVLDEIRPYLMSDGGNVALHEIDGNVVRVKLQGACGSCPSSTMTMKMGIERRLMEKIPEIVAVEALPDEETGLELNEENIEKVLEEIRPYLIGTADGSLDLVEIEDPIVKIRITGPAAGVMTVRVAVTQKLREKIPSIAAVQLI MVPLTEENVESVLDEIRPYLMSDGGNVALHEIDGNVVRVKLQGACGSCPSSTMTMKMGIERRLMEKIPEIVAVEALPDEETGLELNEENIEKVLEEIRPYLIGTADGSLDLVEIEDPIVKIRITGPAAGVMTVRVAVTQKLREKIPSIAAVQLI 2z5d-a1-m1-cB_2z5d-a1-m1-cA Human ubiquitin-conjugating enzyme E2 H P62256 P62256 2.1 X-RAY DIFFRACTION 30 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 151 152 PGKRRMDTDVIKLIESKHEVTILGGLNEFVVKFYGPQGTPYEGGVWKVRVDLPDKYPFKSPSIGFMNKIFHPNIDEASGTVCLDVINQTWTALYDLTNIFESFLPQLLAYPNPIDPLNGDAAAMYLHRPEEYKQKIKEYIQKYATEEALKE PSPGKRRMDTDVIKLIESKHEVTILGGLNEFVVKFYGPQGTPYEGGVWKVRVDLPDKYPFKSPSIGFMNKIFHPNIDEASGTVCLDVINQTWTALYDLTNIFESFLPQLLAYPNPIDPLNGDAAAMYLHRPEEYKQKIKEYIQKYATEEALK 2z5f-a1-m1-cA_2z5f-a1-m1-cB Human sulfotransferase Sult1b1 in complex with PAP O43704 O43704 2.1 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 PKDILRKDLKLVHGYPMTCAFASNWEKIEQFHSRPDDIVIATYPKSGTTWVSEIIDMILNDGDIEKCKRGFITEKVPMLEMTLPGLRTSGIEQLEKNPSPRIVKTHLPTDLLPKSFWENNCKMIYLARNAKDVSVSYYHFDLMNNLQPFPGTWEEYLEKFLTGKVAYGSWFTHVKNWWKRKEEHPILFLYYEDMKENPKEEIKKIIRFLEKNLNDEILDRIIHHTSFEVMKDNPLVNYTHLPTTVMDHSKSPFMRKGTAGDWKNYFTVAQNEKFDAIYETEMSKTALQFRTEI PKDILRKDLKLVHGYPMTCAFASNWEKIEQFHSRPDDIVIATYPKSGTTWVSEIIDMILNDGDIEKCKRGFITEKVPMLEMTLPGLRTSGIEQLEKNPSPRIVKTHLPTDLLPKSFWENNCKMIYLARNAKDVSVSYYHFDLMNNLQPFPGTWEEYLEKFLTGKVAYGSWFTHVKNWWKRKEEHPILFLYYEDMKENPKEEIKKIIRFLEKNLNDEILDRIIHHTSFEVMKDNPLVNYTHLPTTVMDHSKSPFMRKGTAGDWKNYFTVAQNEKFDAIYETEMSKTALQFRTEI 2z5i-a6-m2-cI_2z5i-a6-m2-cJ Crystal structure of the head-to-tail junction of tropomyosin P03069 P03069 2.1 X-RAY DIFFRACTION 47 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 36 36 2z5i-a5-m1-cI_2z5i-a5-m1-cJ MDAIKKKMQMLKLDKENALDRAEQLENEVARLKKLV MDAIKKKMQMLKLDKENALDRAEQLENEVARLKKLV 2z5w-a1-m2-cA_2z5w-a1-m3-cA tBclA, a recombinant spore surface protein from Bacillus anthracis Q83WA8 Q83WA8 1.35 X-RAY DIFFRACTION 96 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 136 136 1wck-a1-m1-cA_1wck-a1-m2-cA 1wck-a1-m1-cA_1wck-a1-m3-cA 1wck-a1-m2-cA_1wck-a1-m3-cA 2r6q-a1-m1-cA_2r6q-a1-m2-cA 2r6q-a1-m1-cA_2r6q-a1-m3-cA 2r6q-a1-m2-cA_2r6q-a1-m3-cA 2z5w-a1-m1-cA_2z5w-a1-m2-cA 2z5w-a1-m1-cA_2z5w-a1-m3-cA 3twi-a1-m1-cA_3twi-a1-m1-cB 3twi-a1-m1-cA_3twi-a1-m1-cC 3twi-a1-m1-cB_3twi-a1-m1-cC 3tyj-a1-m1-cA_3tyj-a1-m2-cA 3tyj-a1-m1-cA_3tyj-a1-m3-cA 3tyj-a1-m2-cA_3tyj-a1-m3-cA GLGLPAGLYAFNSGGISLDLGINDPVPFNTVGSKFGTAISQLDADTFVISETGFYKITVIANTATASVLGGLTIQVNGVPVPGTGSSLISLGAPIVIQAITQITTTPSLVEVIVTGLGLSLALGTSASIIIEKVAL GLGLPAGLYAFNSGGISLDLGINDPVPFNTVGSKFGTAISQLDADTFVISETGFYKITVIANTATASVLGGLTIQVNGVPVPGTGSSLISLGAPIVIQAITQITTTPSLVEVIVTGLGLSLALGTSASIIIEKVAL 2z5y-a2-m1-cA_2z5y-a2-m4-cA Crystal Structure of Human Monoamine Oxidase A (G110A) with Harmine P21397 P21397 2.17 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 513 513 2z5x-a2-m1-cA_2z5x-a2-m4-cA 2z5x-a2-m2-cA_2z5x-a2-m3-cA 2z5y-a2-m2-cA_2z5y-a2-m3-cA HMFDVVVIGGGISGLSAAKLLTEYGVSVLVLEARDRVGGRTYTIRNEHVDYVDVGGAYVGPTQNRILRLSKELGIETYKVNVSERLVQYVKGKTYPFRAAFPPVWNPIAYLDYNNLWRTIDNMGKEIPTDAPWEAQHADKWDKMTMKELIDKICWTKTARRFAYLFVNINVTSEPHEVSALWFLWYVKQCGGTTRIFSVTNGGQERKFVGGSGQVSERIMDLLGDQVKLNHPVTHVDQSSDNIIIETLNHEHYECKYVINAIPPTLTAKIHFRPELPAERNQLIQRLPMGAVIKCMMYYKEAFWKKKDYCGCMIIEDEDAPISITLDDTKPDGSLPAIMGFILARKADRLAKLHKEIRKKKICELYAKVLGSQEALHPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYGRVIRQPVGRIFFAGTETATKWSGYMEGAVEAGERAAREVLNGLGKVTEKDIWVQEPESKDVPAVEITHTFWERNLPSVSGLLKIIGFSTSVTALGFVLYKYKLL HMFDVVVIGGGISGLSAAKLLTEYGVSVLVLEARDRVGGRTYTIRNEHVDYVDVGGAYVGPTQNRILRLSKELGIETYKVNVSERLVQYVKGKTYPFRAAFPPVWNPIAYLDYNNLWRTIDNMGKEIPTDAPWEAQHADKWDKMTMKELIDKICWTKTARRFAYLFVNINVTSEPHEVSALWFLWYVKQCGGTTRIFSVTNGGQERKFVGGSGQVSERIMDLLGDQVKLNHPVTHVDQSSDNIIIETLNHEHYECKYVINAIPPTLTAKIHFRPELPAERNQLIQRLPMGAVIKCMMYYKEAFWKKKDYCGCMIIEDEDAPISITLDDTKPDGSLPAIMGFILARKADRLAKLHKEIRKKKICELYAKVLGSQEALHPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYGRVIRQPVGRIFFAGTETATKWSGYMEGAVEAGERAAREVLNGLGKVTEKDIWVQEPESKDVPAVEITHTFWERNLPSVSGLLKIIGFSTSVTALGFVLYKYKLL 2z5y-a2-m3-cA_2z5y-a2-m4-cA Crystal Structure of Human Monoamine Oxidase A (G110A) with Harmine P21397 P21397 2.17 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 513 513 2z5x-a2-m1-cA_2z5x-a2-m2-cA 2z5x-a2-m3-cA_2z5x-a2-m4-cA 2z5y-a2-m1-cA_2z5y-a2-m2-cA HMFDVVVIGGGISGLSAAKLLTEYGVSVLVLEARDRVGGRTYTIRNEHVDYVDVGGAYVGPTQNRILRLSKELGIETYKVNVSERLVQYVKGKTYPFRAAFPPVWNPIAYLDYNNLWRTIDNMGKEIPTDAPWEAQHADKWDKMTMKELIDKICWTKTARRFAYLFVNINVTSEPHEVSALWFLWYVKQCGGTTRIFSVTNGGQERKFVGGSGQVSERIMDLLGDQVKLNHPVTHVDQSSDNIIIETLNHEHYECKYVINAIPPTLTAKIHFRPELPAERNQLIQRLPMGAVIKCMMYYKEAFWKKKDYCGCMIIEDEDAPISITLDDTKPDGSLPAIMGFILARKADRLAKLHKEIRKKKICELYAKVLGSQEALHPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYGRVIRQPVGRIFFAGTETATKWSGYMEGAVEAGERAAREVLNGLGKVTEKDIWVQEPESKDVPAVEITHTFWERNLPSVSGLLKIIGFSTSVTALGFVLYKYKLL HMFDVVVIGGGISGLSAAKLLTEYGVSVLVLEARDRVGGRTYTIRNEHVDYVDVGGAYVGPTQNRILRLSKELGIETYKVNVSERLVQYVKGKTYPFRAAFPPVWNPIAYLDYNNLWRTIDNMGKEIPTDAPWEAQHADKWDKMTMKELIDKICWTKTARRFAYLFVNINVTSEPHEVSALWFLWYVKQCGGTTRIFSVTNGGQERKFVGGSGQVSERIMDLLGDQVKLNHPVTHVDQSSDNIIIETLNHEHYECKYVINAIPPTLTAKIHFRPELPAERNQLIQRLPMGAVIKCMMYYKEAFWKKKDYCGCMIIEDEDAPISITLDDTKPDGSLPAIMGFILARKADRLAKLHKEIRKKKICELYAKVLGSQEALHPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYGRVIRQPVGRIFFAGTETATKWSGYMEGAVEAGERAAREVLNGLGKVTEKDIWVQEPESKDVPAVEITHTFWERNLPSVSGLLKIIGFSTSVTALGFVLYKYKLL 2z61-a1-m1-cA_2z61-a1-m2-cA Crystal structure of MJ0684 from Methanococcus jannaschii reveals its similarity in the active site to kynurenine aminotransferases Q58097 Q58097 2.2 X-RAY DIFFRACTION 169 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 368 368 MLSKRLLNFESFEVMDILALAQKLESEGKKVIHLEIGEPDFNTPKPIVDEGIKSLKEGKTHYTDSRGILELREKISELYKDKYKADIIPDNIIITGGSSLGLFFALSSIIDDGDEVLIQNPCYPCYKNFIRFLGAKPVFCDFTVESLEEALSDKTKAIIINSPSNPLGEVIDREIYEFAYENIPYIISDEIYNGLVYEGKCYSAIEFDENLEKTILINGFSLYAMTGWRIGYVISNDEIIEAILKLQQNLFISAPTISQYAALKAFEKETEREINSMIKEFDRRRRLVLKYVKDFGWEVNNPIGAYYVFPNIGEDGREFAYKLLKEKFVALTPGIGFGSKGKNYIRISYANSYENIKEGLERIKEFLN MLSKRLLNFESFEVMDILALAQKLESEGKKVIHLEIGEPDFNTPKPIVDEGIKSLKEGKTHYTDSRGILELREKISELYKDKYKADIIPDNIIITGGSSLGLFFALSSIIDDGDEVLIQNPCYPCYKNFIRFLGAKPVFCDFTVESLEEALSDKTKAIIINSPSNPLGEVIDREIYEFAYENIPYIISDEIYNGLVYEGKCYSAIEFDENLEKTILINGFSLYAMTGWRIGYVISNDEIIEAILKLQQNLFISAPTISQYAALKAFEKETEREINSMIKEFDRRRRLVLKYVKDFGWEVNNPIGAYYVFPNIGEDGREFAYKLLKEKFVALTPGIGFGSKGKNYIRISYANSYENIKEGLERIKEFLN 2z67-a3-m1-cA_2z67-a3-m1-cB Crystal structure of archaeal O-phosphoseryl-tRNA(Sec) selenium transferase (SepSecS) Q6LZM9 Q6LZM9 2.5 X-RAY DIFFRACTION 330 1.0 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 424 424 2z67-a1-m1-cA_2z67-a1-m1-cB 2z67-a1-m1-cC_2z67-a1-m1-cD 2z67-a2-m1-cC_2z67-a2-m1-cD LDFNIEGLIPKNEKRGELVLNEYLKEIEDVFNHRKIPENGIDDEKIKLFLKFLSDTDKDPKSVRIGEREARTYSKIHEELSSGFCHGIGRSGNLVDPQPKASGASIYALTNKILESFFKQLGLNVHAIATPISTGSISLCLSAARKKYGSNVVIYPYASHKSPIKAVSFVGNRLVETVLDGDRVYVPVEDIENAIKKEIELGNRPCVLSTLTFFPPRNSDDIVEIAKICENYDIPHIINGAYAIQNNYYLEKLKKAFKYRVDAVVSSSDKNLLTPIGGGLVYSTDAEFIKEISLSYPGRASATPVVNTLVSLLSGSKNYLELVKNQKNSKKLLDELLNDLSKKTGGKFLDVESPIASCISVNSDPVEIAAKLYNLRVTGPRGIKKTDHFGNCYLGTYTHDYIVNAAIGVRTEDIVNSVSKLEKI LDFNIEGLIPKNEKRGELVLNEYLKEIEDVFNHRKIPENGIDDEKIKLFLKFLSDTDKDPKSVRIGEREARTYSKIHEELSSGFCHGIGRSGNLVDPQPKASGASIYALTNKILESFFKQLGLNVHAIATPISTGSISLCLSAARKKYGSNVVIYPYASHKSPIKAVSFVGNRLVETVLDGDRVYVPVEDIENAIKKEIELGNRPCVLSTLTFFPPRNSDDIVEIAKICENYDIPHIINGAYAIQNNYYLEKLKKAFKYRVDAVVSSSDKNLLTPIGGGLVYSTDAEFIKEISLSYPGRASATPVVNTLVSLLSGSKNYLELVKNQKNSKKLLDELLNDLSKKTGGKFLDVESPIASCISVNSDPVEIAAKLYNLRVTGPRGIKKTDHFGNCYLGTYTHDYIVNAAIGVRTEDIVNSVSKLEKI 2z67-a5-m1-cB_2z67-a5-m1-cC Crystal structure of archaeal O-phosphoseryl-tRNA(Sec) selenium transferase (SepSecS) Q6LZM9 Q6LZM9 2.5 X-RAY DIFFRACTION 93 1.0 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 424 424 2z67-a1-m1-cA_2z67-a1-m1-cD 2z67-a1-m1-cB_2z67-a1-m1-cC 2z67-a4-m1-cA_2z67-a4-m1-cD LDFNIEGLIPKNEKRGELVLNEYLKEIEDVFNHRKIPENGIDDEKIKLFLKFLSDTDKDPKSVRIGEREARTYSKIHEELSSGFCHGIGRSGNLVDPQPKASGASIYALTNKILESFFKQLGLNVHAIATPISTGSISLCLSAARKKYGSNVVIYPYASHKSPIKAVSFVGNRLVETVLDGDRVYVPVEDIENAIKKEIELGNRPCVLSTLTFFPPRNSDDIVEIAKICENYDIPHIINGAYAIQNNYYLEKLKKAFKYRVDAVVSSSDKNLLTPIGGGLVYSTDAEFIKEISLSYPGRASATPVVNTLVSLLSGSKNYLELVKNQKNSKKLLDELLNDLSKKTGGKFLDVESPIASCISVNSDPVEIAAKLYNLRVTGPRGIKKTDHFGNCYLGTYTHDYIVNAAIGVRTEDIVNSVSKLEKI LDFNIEGLIPKNEKRGELVLNEYLKEIEDVFNHRKIPENGIDDEKIKLFLKFLSDTDKDPKSVRIGEREARTYSKIHEELSSGFCHGIGRSGNLVDPQPKASGASIYALTNKILESFFKQLGLNVHAIATPISTGSISLCLSAARKKYGSNVVIYPYASHKSPIKAVSFVGNRLVETVLDGDRVYVPVEDIENAIKKEIELGNRPCVLSTLTFFPPRNSDDIVEIAKICENYDIPHIINGAYAIQNNYYLEKLKKAFKYRVDAVVSSSDKNLLTPIGGGLVYSTDAEFIKEISLSYPGRASATPVVNTLVSLLSGSKNYLELVKNQKNSKKLLDELLNDLSKKTGGKFLDVESPIASCISVNSDPVEIAAKLYNLRVTGPRGIKKTDHFGNCYLGTYTHDYIVNAAIGVRTEDIVNSVSKLEKI 2z69-a2-m1-cC_2z69-a2-m2-cC Crystal Structure of the sensor domain of the transcriptional regulator DNR from Pseudomonas aeruginosa Q51441 Q51441 2.1 X-RAY DIFFRACTION 124 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 138 138 2z69-a1-m1-cA_2z69-a1-m1-cB HQQLLQSHHLFEPLSPVQLQELLASSDLVNLDKGAYVFRQGEPAHAFYYLISGCVKIYRLQEKILEVTNERNTFAEAMMFMDTPNYVATAQAVVPSQLFRFSNKAYLRQLQDNTPLALALLAKLSTRLHQREIETLSL HQQLLQSHHLFEPLSPVQLQELLASSDLVNLDKGAYVFRQGEPAHAFYYLISGCVKIYRLQEKILEVTNERNTFAEAMMFMDTPNYVATAQAVVPSQLFRFSNKAYLRQLQDNTPLALALLAKLSTRLHQREIETLSL 2z6b-a1-m2-cA_2z6b-a1-m3-cA Crystal Structure Analysis of (gp27-gp5)3 conjugated with Fe(III) protoporphyrin P16009 P16009 3.11 X-RAY DIFFRACTION 801 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 573 573 1k28-a1-m1-cA_1k28-a1-m2-cA 1k28-a1-m1-cA_1k28-a1-m3-cA 1k28-a1-m2-cA_1k28-a1-m3-cA 1pdl-a1-m1-cA_1pdl-a1-m1-cB 1pdl-a1-m1-cA_1pdl-a1-m1-cC 1pdl-a1-m1-cB_1pdl-a1-m1-cC 1wth-a1-m1-cA_1wth-a1-m2-cA 1wth-a1-m1-cA_1wth-a1-m3-cA 1wth-a1-m2-cA_1wth-a1-m3-cA 2z6b-a1-m1-cA_2z6b-a1-m2-cA 2z6b-a1-m1-cA_2z6b-a1-m3-cA 3a1m-a1-m1-cD_3a1m-a1-m1-cE 3a1m-a1-m1-cD_3a1m-a1-m1-cF 3a1m-a1-m1-cE_3a1m-a1-m1-cF 4jiv-a1-m1-cA_4jiv-a1-m1-cB 4jiv-a1-m1-cA_4jiv-a1-m1-cC 4jiv-a1-m1-cB_4jiv-a1-m1-cC 4jiw-a1-m1-cA_4jiw-a1-m1-cB 4jiw-a1-m1-cA_4jiw-a1-m1-cC 4jiw-a1-m1-cB_4jiw-a1-m1-cC 4jiw-a2-m1-cE_4jiw-a2-m1-cF 4jiw-a2-m1-cE_4jiw-a2-m1-cG 4jiw-a2-m1-cF_4jiw-a2-m1-cG 4jiw-a3-m1-cI_4jiw-a3-m1-cJ 4jiw-a3-m1-cI_4jiw-a3-m1-cK 4jiw-a3-m1-cJ_4jiw-a3-m1-cK 4jiw-a4-m1-cM_4jiw-a4-m1-cN 4jiw-a4-m1-cM_4jiw-a4-m1-cO 4jiw-a4-m1-cN_4jiw-a4-m1-cO 4jj2-a1-m1-cA_4jj2-a1-m1-cB 4jj2-a1-m1-cA_4jj2-a1-m1-cC 4jj2-a1-m1-cB_4jj2-a1-m1-cC 4ku0-a1-m1-cA_4ku0-a1-m1-cB 4ku0-a1-m1-cA_4ku0-a1-m1-cC 4ku0-a1-m1-cB_4ku0-a1-m1-cC 4osd-a1-m1-cA_4osd-a1-m1-cB 4osd-a1-m1-cA_4osd-a1-m1-cC 4osd-a1-m1-cB_4osd-a1-m1-cC 4osd-a1-m1-cD_4osd-a1-m1-cE 4osd-a1-m1-cD_4osd-a1-m1-cF 4osd-a1-m1-cE_4osd-a1-m1-cF 4osd-a2-m1-cG_4osd-a2-m1-cH 4osd-a2-m1-cI_4osd-a2-m1-cG 4osd-a2-m1-cI_4osd-a2-m1-cH 4osd-a2-m1-cJ_4osd-a2-m1-cK 4osd-a2-m1-cL_4osd-a2-m1-cJ 4osd-a2-m1-cL_4osd-a2-m1-cK 4osd-a3-m1-cM_4osd-a3-m1-cN 4osd-a3-m1-cM_4osd-a3-m1-cO 4osd-a3-m1-cN_4osd-a3-m1-cO 4osd-a3-m1-cP_4osd-a3-m1-cQ 4osd-a3-m1-cP_4osd-a3-m1-cR 4osd-a3-m1-cQ_4osd-a3-m1-cR 5iv5-a1-m1-cYA_5iv5-a1-m1-cYB 5iv5-a1-m1-cYA_5iv5-a1-m1-cYC 5iv5-a1-m1-cYB_5iv5-a1-m1-cYC 6p1z-a1-m1-cA_6p1z-a1-m1-cB 6p1z-a1-m1-cA_6p1z-a1-m1-cC 6p1z-a1-m1-cB_6p1z-a1-m1-cC 6p1z-a2-m1-cE_6p1z-a2-m1-cF 6p1z-a2-m1-cE_6p1z-a2-m1-cG 6p1z-a2-m1-cF_6p1z-a2-m1-cG 6p22-a1-m1-cA_6p22-a1-m1-cB 6p22-a1-m1-cA_6p22-a1-m1-cC 6p22-a1-m1-cB_6p22-a1-m1-cC NCLNWFVGVVEDRMDPLKLGRVRVRVVGLHPPQRAQGDVMGIPTEKLPWMSVIQPITSAAMSGIGGSVTGPVEGTRVYGHFLDKWKTNGIVLGTYGGIVREKPNRLEGFSDPTGQYPRRLGNDTNVLNQGGEVGYDSSSNVIQDSNLDTAINPDDRPLSEIPTDDNPNMSMAEMLRRDEGLRLKVYWDTEGYPTIGIGHLIMKQPVRDMAQINKVLSKQVGREITGNPGSITMEEATTLFERDLADMQRDIKSHSKVGPVWQAVNRSRQMALENMAFQMGVGGVAKFNTMLTAMLAGDWEKAYKAGRDSLWYQQTKGRASRVTMIILTGNLESYGVEVKTPARSLLAMAATVAKSSDPADPPIPNDSRILFKEPVSSYKGEYPYVHTMETESGHIQEFDDTPGQERYRLVHPTGTYEEVSPSGRRTRKTVDNLYDITNADGNFLVAGDKKTNVGGSEIYYNMDNRLHQIDGSNTIFVRGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIGSVD NCLNWFVGVVEDRMDPLKLGRVRVRVVGLHPPQRAQGDVMGIPTEKLPWMSVIQPITSAAMSGIGGSVTGPVEGTRVYGHFLDKWKTNGIVLGTYGGIVREKPNRLEGFSDPTGQYPRRLGNDTNVLNQGGEVGYDSSSNVIQDSNLDTAINPDDRPLSEIPTDDNPNMSMAEMLRRDEGLRLKVYWDTEGYPTIGIGHLIMKQPVRDMAQINKVLSKQVGREITGNPGSITMEEATTLFERDLADMQRDIKSHSKVGPVWQAVNRSRQMALENMAFQMGVGGVAKFNTMLTAMLAGDWEKAYKAGRDSLWYQQTKGRASRVTMIILTGNLESYGVEVKTPARSLLAMAATVAKSSDPADPPIPNDSRILFKEPVSSYKGEYPYVHTMETESGHIQEFDDTPGQERYRLVHPTGTYEEVSPSGRRTRKTVDNLYDITNADGNFLVAGDKKTNVGGSEIYYNMDNRLHQIDGSNTIFVRGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIGSVD 2z6b-a1-m2-cD_2z6b-a1-m3-cD Crystal Structure Analysis of (gp27-gp5)3 conjugated with Fe(III) protoporphyrin P17172 P17172 3.11 X-RAY DIFFRACTION 58 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 368 368 1k28-a1-m1-cD_1k28-a1-m2-cD 1k28-a1-m1-cD_1k28-a1-m3-cD 1k28-a1-m2-cD_1k28-a1-m3-cD 1pdj-a1-m1-cD_1pdj-a1-m1-cE 1pdj-a1-m1-cD_1pdj-a1-m1-cF 1pdj-a1-m1-cE_1pdj-a1-m1-cF 1wth-a1-m1-cD_1wth-a1-m2-cD 1wth-a1-m1-cD_1wth-a1-m3-cD 1wth-a1-m2-cD_1wth-a1-m3-cD 2z6b-a1-m1-cD_2z6b-a1-m2-cD 2z6b-a1-m1-cD_2z6b-a1-m3-cD 5iv5-a1-m1-cYD_5iv5-a1-m1-cYE 5iv5-a1-m1-cYD_5iv5-a1-m1-cYF 5iv5-a1-m1-cYE_5iv5-a1-m1-cYF LQRPGYPNLSVKLFDSYDAWSNNRFVELAATITTLTMRDSLYGRNEGMLQFYDSKNIHTKMDGNEIIQISVANANDINNVKTRIYGCKHFSVSVDSKGDNIIAIELGTIHSIENLKFGRPFFPDAGESIKEMLGVIYQDRTLLTPAINAINAYVPDIPWTSTFENYLSYVREVALAVGSDKFVFVWQDIMGVNMMDYDMMINQEPYPMIVGEPSQELKYPLAYDFVWLTKSNPHKRDPMKNATIYAHSFLDSSIPMITTGKGENSIVVSRSGAYSEMTYRNGYEEAIRLQTMAQYDGYAKCSTIGNFNLTPGVKIIFNDSKNQFKTEFYVDEVIHELSNNNSVTHLYMFTNATKLETIDPVKVKNEFK LQRPGYPNLSVKLFDSYDAWSNNRFVELAATITTLTMRDSLYGRNEGMLQFYDSKNIHTKMDGNEIIQISVANANDINNVKTRIYGCKHFSVSVDSKGDNIIAIELGTIHSIENLKFGRPFFPDAGESIKEMLGVIYQDRTLLTPAINAINAYVPDIPWTSTFENYLSYVREVALAVGSDKFVFVWQDIMGVNMMDYDMMINQEPYPMIVGEPSQELKYPLAYDFVWLTKSNPHKRDPMKNATIYAHSFLDSSIPMITTGKGENSIVVSRSGAYSEMTYRNGYEEAIRLQTMAQYDGYAKCSTIGNFNLTPGVKIIFNDSKNQFKTEFYVDEVIHELSNNNSVTHLYMFTNATKLETIDPVKVKNEFK 2z6c-a1-m1-cA_2z6c-a1-m1-cB Crystal structure of LOV1 domain of phototropin1 from Arabidopsis thaliana O48963 O48963 2.1 X-RAY DIFFRACTION 81 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 121 121 VSEDLKDALSTFQQTFVVSDATKPDYPIMYASAGFFNMTGYTSKEVVGRNCRFLQGSGTDADELAKIRETLAAGNNYCGRILNYKKDGTSFWNLLTIAPIKDESGKVLKFIGMQVEVSKHT VSEDLKDALSTFQQTFVVSDATKPDYPIMYASAGFFNMTGYTSKEVVGRNCRFLQGSGTDADELAKIRETLAAGNNYCGRILNYKKDGTSFWNLLTIAPIKDESGKVLKFIGMQVEVSKHT 2z6d-a1-m1-cB_2z6d-a1-m1-cA Crystal structure of LOV1 domain of phototropin2 from Arabidopsis thaliana P93025 P93025 2 X-RAY DIFFRACTION 72 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 107 118 QTFVVSDATQPHCPIVYASSGFFTMTGYSSKEIVGRNCRFLQGPDTDKNEVAKIRDCVKNGKSYCGRLLNYKKDGTPFWNLLTVTPIKDDQGNTIKFIGMQVEVSKY ELKTALSTLQQTFVVSDATQPHCPIVYASSGFFTMTGYSSKEIVGRNCRFLQGPDTDKNEVAKIRDCVKNGKSYCGRLLNYKKDGTPFWNLLTVTPIKDDQGNTIKFIGMQVEVSKYT 2z6e-a2-m1-cC_2z6e-a2-m1-cD Crystal Structure of Human DAAM1 FH2 Q9Y4D1 Q9Y4D1 2.8 X-RAY DIFFRACTION 294 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 379 390 2j1d-a1-m1-cG_2j1d-a1-m2-cG 2z6e-a1-m1-cA_2z6e-a1-m1-cB KSIPQPTNALKSFNWSKLPENKLEGTVWTEIDDTKVFKILDLEDLERTFSAYQRQQDKVKELSVIDGRRAQNCNILLSRLKLSNDEIKRAILTMDEQEDLPKDMLEQLLKFVPEKSDIDLLEEHKHELDRMAKADRFLFEMSRINHYQQRLQSLYFKKKFAERVAEVKPKVEAIRSGSEEVFRSGALKQLLEVVLAFGNYMNKGQRGNAYGFKISSLNKIADTKSSIDKNITLLHYLITIVENKYPSVLNLNEELRDIPQAAKVNMTELDKEISTLRSGLKAVETELEYQKSQPPQPGDKFVSVVSQFITVASFSFSDVEDLLAEAKDLFTKAVKHFGEEAGKIQPDEFFGIFDQFLQAVSEAKQENENMRKKKEEEER KSIPQPTNALKSFNWSKLPENKLEGTVWTEIDDTKVFKILDLEDLERTFSAYQRQQDLKVKELSVIDGRRAQNCNILLSRLKLSNDEIKRAILTMDEQEDLPKDMLEQLLKFVPEKSDIDLLEEHKHELDRMAKADRFLFEMSRINHYQQRLQSLYFKKKFAERVAEVKPKVEAIRSGSEEVFRSGALKQLLEVVLAFGNYMNKGQRGNAYGFKISSLNKIADTKSSIDKNITLLHYLITIVENKYPSVLNLNEELRDIPQAAKVNMTELDKEISTLRSGLKAVETELEYQKSQPPQPGDKFVSVVSQFITVASFSFSDVEDLLAEAKDLFTKAVKHFGEEAGKIQPDEFFGIFDQFLQAVSEAKQENENMRKKKEEEERRARMEAQLKE 2z6h-a2-m2-cA_2z6h-a2-m4-cA Crystal Structure of Beta-Catenin Armadillo Repeat Region and Its C-Terminal domain P35222 P35222 2.2 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 533 533 2z6h-a2-m1-cA_2z6h-a2-m3-cA 2z6h-a2-m1-cA_2z6h-a2-m4-cA 2z6h-a2-m2-cA_2z6h-a2-m3-cA ATRAIPELTKLLNDEDQVVVNKAAVMVHQLSKKEASRHAIMRSPQMVSAIVRTMQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKMLGSPVDSVLFYAITTLHNLLLHQEGAKMAVRLAGGLQKMVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIMRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGMQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGMEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKMMVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEMAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRRVEGVRMEEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFRMSEDKPQDYKKRLSVELTSSLFRTEPMAWN ATRAIPELTKLLNDEDQVVVNKAAVMVHQLSKKEASRHAIMRSPQMVSAIVRTMQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKMLGSPVDSVLFYAITTLHNLLLHQEGAKMAVRLAGGLQKMVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIMRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGMQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGMEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKMMVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEMAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRRVEGVRMEEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFRMSEDKPQDYKKRLSVELTSSLFRTEPMAWN 2z6i-a1-m1-cA_2z6i-a1-m1-cB Crystal Structure of S. pneumoniae Enoyl-Acyl Carrier Protein Reductase (FabK) Q9FBC5 Q9FBC5 1.7 X-RAY DIFFRACTION 137 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 307 311 2z6j-a1-m1-cA_2z6j-a1-m1-cB KTRITELLKIDYPIFQGGAWVADGDLAGAVSKAGGLGIIGGGNAPKEVVKANIDKIKSLTDKPFGVNILLSPFVEDIVDLVIEEGVKVVTTGAGNPSKYERFHEAGIIVIPVVPSVALAKREKIGADAVIAEGEAGGHIGKLTTTLVRQVATAISIPVIAAGGIADGEGAAAGFLGAEAVQVGTRFVVAKESNAHPNYKEKILKARDIDTTISAQHFGHAVRAIKNQLTRDFELAEKDAFKQDLEIFEQGAGALAKAVVHGDVDGGSVAGQIAGLVSKEETAEEILKDLYYGAAKKIQEEASRWTGV KTRITELLKIDYPIFQGGAWVADGDLAGAVSKAGGLGIIGGGNAPKEVVKANIDKIKSLTDKPFGVNILLSPFVEDIVDLVIEEGVKVVTTGAGNPSKYERFHEAGIIVIPVVPSVALAKREKIGADAVIAEGEAGGHIGKLTTTLVRQVATAISIPVIAAGGIADGEGAAAGFLGAEAVQVGTRFVVAKESNAHPNYKEKILKARDIDTTISAQHFGHAVRAIKNQLTRDFELAEKDAFKQEDPDLEIFEQGAGALAKAVVHGDVDGGSVAGQIAGLVSKEETAEEILKDLYYGAAKKIQEEASRWTGVV 2z6r-a1-m1-cA_2z6r-a1-m1-cB Crystal structure of Lys49 to Arg mutant of Diphthine synthase O58456 O58456 1.5 X-RAY DIFFRACTION 176 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 264 265 1vce-a1-m1-cA_1vce-a1-m1-cB 1wng-a1-m1-cA_1wng-a1-m1-cB 1wng-a2-m1-cA_1wng-a2-m1-cB 1wng-a2-m2-cA_1wng-a2-m2-cB 2dek-a1-m1-cA_2dek-a1-m1-cB 2dek-a2-m1-cA_2dek-a2-m1-cB 2dek-a2-m2-cA_2dek-a2-m2-cB 2dsg-a1-m1-cA_2dsg-a1-m1-cB 2dsg-a2-m1-cA_2dsg-a2-m1-cB 2dsg-a2-m2-cA_2dsg-a2-m2-cB 2dsh-a1-m1-cA_2dsh-a1-m1-cB 2dsh-a2-m1-cA_2dsh-a2-m1-cB 2dsh-a2-m2-cA_2dsh-a2-m2-cB 2dsi-a1-m1-cA_2dsi-a1-m1-cB 2dsi-a2-m1-cA_2dsi-a2-m1-cB 2dsi-a2-m2-cA_2dsi-a2-m2-cB 2dv3-a1-m1-cA_2dv3-a1-m1-cB 2dv4-a1-m1-cA_2dv4-a1-m1-cB 2dv4-a2-m1-cA_2dv4-a2-m1-cB 2dv4-a2-m2-cA_2dv4-a2-m2-cB 2dv5-a1-m1-cA_2dv5-a1-m1-cB 2dv5-a2-m1-cA_2dv5-a2-m1-cB 2dv5-a2-m2-cA_2dv5-a2-m2-cB 2dv7-a1-m1-cA_2dv7-a1-m1-cB 2dxv-a1-m1-cA_2dxv-a1-m1-cB 2dxv-a2-m1-cA_2dxv-a2-m1-cB 2dxv-a2-m2-cA_2dxv-a2-m2-cB 2dxw-a1-m1-cA_2dxw-a1-m1-cB 2dxw-a2-m1-cA_2dxw-a2-m1-cB 2dxw-a2-m2-cA_2dxw-a2-m2-cB 2dxx-a1-m1-cA_2dxx-a1-m1-cB 2dxx-a2-m1-cA_2dxx-a2-m1-cB 2dxx-a2-m2-cA_2dxx-a2-m2-cB 2e07-a1-m1-cA_2e07-a1-m1-cB 2e07-a2-m1-cA_2e07-a2-m1-cB 2e07-a2-m2-cA_2e07-a2-m2-cB 2e08-a1-m1-cA_2e08-a1-m1-cB 2e08-a2-m1-cA_2e08-a2-m1-cB 2e08-a2-m2-cA_2e08-a2-m2-cB 2e15-a1-m1-cA_2e15-a1-m1-cB 2e15-a2-m1-cA_2e15-a2-m1-cB 2e15-a2-m2-cA_2e15-a2-m2-cB 2e16-a1-m1-cA_2e16-a1-m1-cB 2e16-a2-m1-cA_2e16-a2-m1-cB 2e16-a2-m2-cA_2e16-a2-m2-cB 2e17-a1-m1-cA_2e17-a1-m1-cB 2e17-a2-m1-cA_2e17-a2-m1-cB 2e17-a2-m2-cA_2e17-a2-m2-cB 2e4n-a1-m1-cA_2e4n-a1-m1-cB 2e4r-a1-m1-cA_2e4r-a1-m1-cB 2e7r-a1-m1-cA_2e7r-a1-m1-cB 2e7r-a2-m1-cA_2e7r-a2-m1-cB 2e7r-a2-m2-cA_2e7r-a2-m2-cB 2e8h-a1-m1-cA_2e8h-a1-m1-cB 2e8h-a2-m1-cA_2e8h-a2-m1-cB 2e8h-a2-m2-cA_2e8h-a2-m2-cB 2e8q-a1-m1-cA_2e8q-a1-m1-cB 2e8q-a2-m1-cA_2e8q-a2-m1-cB 2e8q-a2-m2-cA_2e8q-a2-m2-cB 2e8r-a1-m1-cA_2e8r-a1-m1-cB 2e8r-a2-m1-cA_2e8r-a2-m1-cB 2e8r-a2-m2-cA_2e8r-a2-m2-cB 2e8s-a1-m1-cA_2e8s-a1-m1-cB 2e8s-a2-m1-cA_2e8s-a2-m1-cB 2e8s-a2-m2-cA_2e8s-a2-m2-cB 2ed3-a1-m1-cA_2ed3-a1-m1-cB 2ed3-a2-m1-cA_2ed3-a2-m1-cB 2ed3-a2-m2-cA_2ed3-a2-m2-cB 2ed5-a1-m1-cA_2ed5-a1-m1-cB 2ed5-a2-m1-cA_2ed5-a2-m1-cB 2ed5-a2-m2-cA_2ed5-a2-m2-cB 2eeq-a1-m1-cA_2eeq-a1-m1-cB 2eeq-a2-m1-cA_2eeq-a2-m1-cB 2eeq-a2-m2-cA_2eeq-a2-m2-cB 2egb-a1-m1-cA_2egb-a1-m1-cB 2egl-a1-m1-cA_2egl-a1-m1-cB 2egl-a2-m1-cA_2egl-a2-m1-cB 2egl-a2-m2-cA_2egl-a2-m2-cB 2egs-a1-m1-cA_2egs-a1-m1-cB 2eh2-a1-m1-cA_2eh2-a1-m1-cB 2eh2-a2-m1-cA_2eh2-a2-m1-cB 2eh2-a2-m2-cA_2eh2-a2-m2-cB 2eh4-a1-m1-cA_2eh4-a1-m1-cB 2eh5-a1-m1-cA_2eh5-a1-m1-cB 2eh5-a2-m1-cA_2eh5-a2-m1-cB 2eh5-a2-m2-cA_2eh5-a2-m2-cB 2ehc-a1-m1-cA_2ehc-a1-m1-cB 2ehc-a2-m1-cA_2ehc-a2-m1-cB 2ehc-a2-m2-cA_2ehc-a2-m2-cB 2ehl-a1-m1-cA_2ehl-a1-m1-cB 2ehl-a3-m1-cA_2ehl-a3-m1-cB 2ehl-a3-m2-cA_2ehl-a3-m2-cB 2ejj-a1-m1-cA_2ejj-a1-m1-cB 2ejk-a1-m1-cA_2ejk-a1-m1-cB 2ejz-a1-m1-cA_2ejz-a1-m1-cB 2ejz-a2-m1-cA_2ejz-a2-m1-cB 2ejz-a2-m2-cA_2ejz-a2-m2-cB 2ek2-a1-m1-cA_2ek2-a1-m1-cB 2ek3-a1-m1-cA_2ek3-a1-m1-cB 2ek4-a1-m1-cA_2ek4-a1-m1-cB 2ek7-a1-m1-cA_2ek7-a1-m1-cB 2eka-a1-m1-cA_2eka-a1-m1-cB 2eka-a2-m1-cA_2eka-a2-m1-cB 2eka-a2-m2-cA_2eka-a2-m2-cB 2el0-a1-m1-cA_2el0-a1-m1-cB 2el1-a1-m1-cA_2el1-a1-m1-cB 2el2-a1-m1-cA_2el2-a1-m1-cB 2el2-a2-m1-cA_2el2-a2-m1-cB 2el2-a2-m2-cA_2el2-a2-m2-cB 2el3-a1-m1-cA_2el3-a1-m1-cB 2eld-a1-m1-cA_2eld-a1-m1-cB 2eld-a2-m1-cA_2eld-a2-m1-cB 2eld-a2-m2-cA_2eld-a2-m2-cB 2ele-a1-m1-cA_2ele-a1-m1-cB 2ele-a2-m1-cA_2ele-a2-m1-cB 2ele-a2-m2-cA_2ele-a2-m2-cB 2emr-a1-m1-cA_2emr-a1-m1-cB 2emu-a1-m1-cA_2emu-a1-m1-cB 2emu-a2-m1-cA_2emu-a2-m1-cB 2emu-a2-m2-cA_2emu-a2-m2-cB 2en5-a1-m1-cA_2en5-a1-m1-cB 2en5-a2-m1-cA_2en5-a2-m1-cB 2en5-a2-m2-cA_2en5-a2-m2-cB 2eni-a1-m1-cA_2eni-a1-m1-cB 2hr8-a1-m1-cA_2hr8-a1-m1-cB 2hr8-a2-m1-cA_2hr8-a2-m1-cB 2hr8-a2-m2-cA_2hr8-a2-m2-cB 2huq-a1-m1-cA_2huq-a1-m1-cB 2huq-a2-m1-cA_2huq-a2-m1-cB 2huq-a2-m2-cA_2huq-a2-m2-cB 2hut-a1-m1-cA_2hut-a1-m1-cB 2huv-a1-m1-cA_2huv-a1-m1-cB 2hux-a1-m1-cA_2hux-a1-m1-cB 2hux-a2-m1-cA_2hux-a2-m1-cB 2hux-a2-m2-cA_2hux-a2-m2-cB 2owf-a1-m1-cA_2owf-a1-m2-cA 2owg-a1-m1-cA_2owg-a1-m1-cB 2owk-a1-m1-cA_2owk-a1-m1-cB 2owk-a2-m1-cA_2owk-a2-m1-cB 2owk-a2-m2-cA_2owk-a2-m2-cB 2owu-a1-m1-cA_2owu-a1-m1-cB 2owu-a2-m1-cA_2owu-a2-m1-cB 2owu-a2-m2-cA_2owu-a2-m2-cB 2owv-a1-m1-cA_2owv-a1-m1-cB 2owv-a2-m1-cA_2owv-a2-m1-cB 2owv-a2-m2-cA_2owv-a2-m2-cB 2p2x-a1-m1-cA_2p2x-a1-m1-cB 2p2x-a2-m1-cA_2p2x-a2-m1-cB 2p2x-a2-m2-cA_2p2x-a2-m2-cB 2p5c-a1-m1-cA_2p5c-a1-m1-cB 2p5f-a1-m1-cA_2p5f-a1-m1-cB 2p5f-a2-m1-cA_2p5f-a2-m1-cB 2p5f-a2-m2-cA_2p5f-a2-m2-cB 2p6d-a1-m1-cA_2p6d-a1-m1-cB 2p6i-a1-m1-cA_2p6i-a1-m1-cB 2p6k-a1-m1-cA_2p6k-a1-m1-cB 2p6l-a1-m1-cA_2p6l-a1-m1-cB 2p6l-a2-m1-cA_2p6l-a2-m1-cB 2p6l-a2-m2-cA_2p6l-a2-m2-cB 2p9d-a1-m1-cA_2p9d-a1-m1-cB 2p9d-a2-m1-cA_2p9d-a2-m1-cB 2p9d-a2-m2-cA_2p9d-a2-m2-cB 2pb4-a1-m1-cA_2pb4-a1-m1-cB 2pb4-a2-m1-cA_2pb4-a2-m1-cB 2pb4-a2-m2-cA_2pb4-a2-m2-cB 2pb5-a1-m1-cA_2pb5-a1-m1-cB 2pb5-a2-m1-cA_2pb5-a2-m1-cB 2pb5-a2-m2-cA_2pb5-a2-m2-cB 2pb6-a1-m1-cA_2pb6-a1-m1-cB 2pb6-a2-m1-cA_2pb6-a2-m1-cB 2pb6-a2-m2-cA_2pb6-a2-m2-cB 2pca-a1-m1-cA_2pca-a1-m1-cB 2pcg-a1-m1-cA_2pcg-a1-m1-cB 2pch-a1-m1-cA_2pch-a1-m1-cB 2pci-a1-m1-cA_2pci-a1-m1-cB 2pck-a1-m1-cA_2pck-a1-m1-cB 2pck-a2-m1-cA_2pck-a2-m1-cB 2pck-a2-m2-cA_2pck-a2-m2-cB 2pcm-a1-m1-cA_2pcm-a1-m1-cB 2pcm-a2-m1-cA_2pcm-a2-m1-cB 2pcm-a2-m2-cA_2pcm-a2-m2-cB VLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQRLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPTSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV MVLYFIGLGLYDERDITVKGLEIAKKCDYVFAEFYTSLMAGTTLGRIQRLIGKEIRVLSREDVELNFENIVLPLAKENDVAFLTPGDPLVATTHAELRIRAKRAGVESYVIHAPSIYSAVGITGLHIYKFGKSATVAYPEGNWFPTSYYDVIKENAERGLHTLLFLDIKAEKRMYMTANEAMELLLKVEDMKKGGVFTDDTLVVVLARAGSLNPTIRAGYVKDLIREDFGDPPHILIVPGKLHIVEAEYLVEIAGAPREILRVNV 2z73-a4-m1-cB_2z73-a4-m2-cB Crystal structure of squid rhodopsin P31356 P31356 2.5 X-RAY DIFFRACTION 24 1.0 6637 (Todarodes pacificus) 6637 (Todarodes pacificus) 347 347 ETWWYNPSIVVHPHWREFDQVPDAVYYSLGIFIGICGIIGCGGNGIVIYLFTKTKSLQTPANMFIINLAFSDFTFSLVNGFPLMTISCFLKKWIFGFAACKVYGFIGGIFGFMSIMTMAMISIDRYNVIGRPMAASKKMSHRRAFIMIIFVWLWSVLWAIGPIFGWGAYTLEGVLCNCSFDYISRDSTTRSNILCMFILGFFGPILIIFFCYFNIVMSVSNHEKEMAAMAKRLNAKELRKAQAGANAEMRLAKISIVIVSQFLLSWSPYAVVALLAQFGPLEWVTPYAAQLPVMFAKASAIHNPMIYSVSHPKFREAISQTFPWVLTCCQFDDKETEDDKDAETEIP ETWWYNPSIVVHPHWREFDQVPDAVYYSLGIFIGICGIIGCGGNGIVIYLFTKTKSLQTPANMFIINLAFSDFTFSLVNGFPLMTISCFLKKWIFGFAACKVYGFIGGIFGFMSIMTMAMISIDRYNVIGRPMAASKKMSHRRAFIMIIFVWLWSVLWAIGPIFGWGAYTLEGVLCNCSFDYISRDSTTRSNILCMFILGFFGPILIIFFCYFNIVMSVSNHEKEMAAMAKRLNAKELRKAQAGANAEMRLAKISIVIVSQFLLSWSPYAVVALLAQFGPLEWVTPYAAQLPVMFAKASAIHNPMIYSVSHPKFREAISQTFPWVLTCCQFDDKETEDDKDAETEIP 2z76-a2-m1-cA_2z76-a2-m2-cB X-ray crystal structure of RV0760c from Mycobacterium tuberculosis at 1.82 Angstrom resolution P71817 P71817 1.82 X-RAY DIFFRACTION 32 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 131 131 2z77-a3-m1-cB_2z77-a3-m1-cC 2z77-a4-m2-cD_2z77-a4-m1-cA QSPALIASQSSWRCVQAHDREGWLALMADDVVIEDPIGKSVTNPDGSGIKGKEAVGAFFDTHIAANRLTVTCEETFPSSSPDEIAHILVLHSEFDGGFTSEVRGVFTYRVNKAGLITNMRGYWNLDMMTFG QSPALIASQSSWRCVQAHDREGWLALMADDVVIEDPIGKSVTNPDGSGIKGKEAVGAFFDTHIAANRLTVTCEETFPSSSPDEIAHILVLHSEFDGGFTSEVRGVFTYRVNKAGLITNMRGYWNLDMMTFG 2z77-a4-m2-cD_2z77-a4-m2-cC X-ray crystal structure of RV0760c from Mycobacterium tuberculosis in complex with estradiol-17beta-hemisuccinate P71817 P71817 2.03 X-RAY DIFFRACTION 85 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 130 133 2a15-a1-m1-cA_2a15-a1-m2-cA 2z76-a1-m1-cA_2z76-a1-m1-cB 2z77-a1-m1-cB_2z77-a1-m1-cA 2z77-a2-m1-cD_2z77-a2-m1-cC 2z77-a3-m1-cB_2z77-a3-m1-cA 2z77-a3-m1-cD_2z77-a3-m1-cC 2z77-a4-m1-cB_2z77-a4-m1-cA 2z7a-a1-m1-cB_2z7a-a1-m1-cA 2z7a-a2-m1-cD_2z7a-a2-m1-cC 2z7a-a3-m1-cB_2z7a-a3-m1-cA 2z7a-a3-m2-cD_2z7a-a3-m2-cC QSPALIASQSSWRCVQAHDREGWLALMADDVVIEDPIGKSVTNPDGSGIKGKEAVGAFFDTHIAANRLTVTCEETFPSSSPDEIAHILVLHSEFDGGFTSEVRGVFTYRVNKAGLITNMRGYWNLDMMTF TQSPALIASQSSWRCVQAHDREGWLALMADDVVIEDPIGKSVTNPDGSGIKGKEAVGAFFDTHIAANRLTVTCEETFPSSSPDEIAHILVLHSEFDGGFTSEVRGVFTYRVNKAGLITNMRGYWNLDMMTFGN 2z7a-a3-m1-cA_2z7a-a3-m2-cC X-ray crystal structure of RV0760c from Mycobacterium tuberculosis at 2.10 Angstrom resolution P71817 P71817 2.1 X-RAY DIFFRACTION 51 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 133 133 TTQSPALIASQSSWRCVQAHDREGWLALMADDVVIEDPIGKSVTNPDGSGIKGKEAVGAFFDTHIAANRLTVTCEETFPSSSPDEIAHILVLHSEFDGGFTSEVRGVFTYRVNKAGLITNMRGYWNLDMMTFG QTTQSPALIASQSSWRCVQAHDREGWLALMADDVVIEDPIGKSVTNPDGSGIKGKEAVGAFFDTHIAANRLTVTCEETFPSSSPDEIAHILVLHSEFGGFTSEVRGVFTYRVNKAGLITNMRGYWNLDMMTFG 2z7b-a1-m2-cA_2z7b-a1-m4-cA Crystal Structure of Mesorhizobium loti 3-hydroxy-2-methylpyridine-4,5-dicarboxylate decarboxylase Q988D0 Q988D0 1.9 X-RAY DIFFRACTION 106 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 233 233 2z7b-a1-m1-cA_2z7b-a1-m3-cA 2z7b-a1-m1-cA_2z7b-a1-m4-cA 2z7b-a1-m2-cA_2z7b-a1-m3-cA SFTRRKVFEELVTATKILLNEGIDTFGHISARDPEDPASFFLAQKLAPSLITVDDIQRFNLDGETSDNRPSYLERYIHSEIYKTRPDVQCVLHTHSPAVLPYCFVDTPLRPVTHGAFIGESVPVYEIRDKHGDETDLFGGSPDVCADIAESLGSQTVVLARHGVVNVGKSVREVVFRAFYLEQEAAALTAGLKIGNVKYLSPGEIKTAGKLVGAQIDRGWNHWSQRLRQAGLA SFTRRKVFEELVTATKILLNEGIDTFGHISARDPEDPASFFLAQKLAPSLITVDDIQRFNLDGETSDNRPSYLERYIHSEIYKTRPDVQCVLHTHSPAVLPYCFVDTPLRPVTHGAFIGESVPVYEIRDKHGDETDLFGGSPDVCADIAESLGSQTVVLARHGVVNVGKSVREVVFRAFYLEQEAAALTAGLKIGNVKYLSPGEIKTAGKLVGAQIDRGWNHWSQRLRQAGLA 2z7c-a2-m1-cC_2z7c-a2-m1-cD Crystal structure of chromatin protein alba from hyperthermophilic archaeon pyrococcus horikoshii O74101 O74101 2.8 X-RAY DIFFRACTION 53 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 89 92 2z7c-a1-m1-cA_2z7c-a1-m1-cB HVVYIGKKPVMNYVLAVITQFHEGAKEVSIKARGRAISRAVDVAEIVRNRFLKDDVDVKEIKIGTEELPTADGRTTNTSTIEIVLARKT TEEHVVYIGKKPVMNYVLAVITQFHEGAKEVSIKARGRAISRAVDVAEIVRNRFLKDDVDVKEIKIGTEELPTADGRTTNTSTIEIVLARKT 2z7e-a2-m1-cA_2z7e-a2-m2-cA Crystal structure of Aquifex aeolicus IscU with bound [2Fe-2S] cluster O67045 O67045 2.3 X-RAY DIFFRACTION 16 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 139 139 MSFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCY MSFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCY 2z7e-a2-m1-cA_2z7e-a2-m2-cB Crystal structure of Aquifex aeolicus IscU with bound [2Fe-2S] cluster O67045 O67045 2.3 X-RAY DIFFRACTION 57 0.986 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 139 140 2z7e-a2-m2-cA_2z7e-a2-m1-cB MSFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCY FEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCYEEE 2z7e-a2-m1-cC_2z7e-a2-m2-cC Crystal structure of Aquifex aeolicus IscU with bound [2Fe-2S] cluster O67045 O67045 2.3 X-RAY DIFFRACTION 17 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 137 137 SFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDC SFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDC 2z7e-a2-m2-cA_2z7e-a2-m2-cB Crystal structure of Aquifex aeolicus IscU with bound [2Fe-2S] cluster O67045 O67045 2.3 X-RAY DIFFRACTION 23 0.986 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 139 140 2z7e-a1-m1-cA_2z7e-a1-m1-cB 2z7e-a2-m1-cA_2z7e-a2-m1-cB MSFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCY FEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCYEEE 2z7e-a2-m2-cC_2z7e-a2-m2-cA Crystal structure of Aquifex aeolicus IscU with bound [2Fe-2S] cluster O67045 O67045 2.3 X-RAY DIFFRACTION 80 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 137 139 2z7e-a1-m1-cC_2z7e-a1-m1-cA 2z7e-a2-m1-cC_2z7e-a2-m1-cA SFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDC MSFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCY 2z7e-a2-m2-cC_2z7e-a2-m2-cB Crystal structure of Aquifex aeolicus IscU with bound [2Fe-2S] cluster O67045 O67045 2.3 X-RAY DIFFRACTION 31 0.993 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 137 140 2z7e-a1-m1-cC_2z7e-a1-m1-cB 2z7e-a2-m1-cC_2z7e-a2-m1-cB SFEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDC FEYNEKVLDHFLNPRNVGVLEDANGVGQCGNPACGAAMLFTIKVNPENDVIEDVRFKTFGCGSAIAVSSMLTEMVKGKPIQYALNLTYKDIFEELGGLPPQKIHCTNLGLETLHVAIKDYLMKQGRVEEASKIPDCYEEE 2z86-a2-m1-cD_2z86-a2-m1-cC Crystal structure of chondroitin polymerase from Escherichia coli strain K4 (K4CP) complexed with UDP-GlcUA and UDP Q8L0V4 Q8L0V4 2.4 X-RAY DIFFRACTION 54 0.987 562 (Escherichia coli) 562 (Escherichia coli) 594 603 2z86-a1-m1-cA_2z86-a1-m1-cB 2z87-a1-m1-cB_2z87-a1-m1-cA AVIDIDAATKIMCSNAKAISLNEVEKNEIISKYREITAKKSERAELKEVEPIPLDWPSDLTLPPLPESTNDYVWAGKRKELIIDGLSIVIPTYNRAKILAITLACLCNQKTIYDYEVIVADDGSKENIEEIVREFESLLNIKYVRQKDYGYQLCAVRNLGLRAAKYNYVAILDCDMAPNPLWVQSYMELLAVDDNVALIGPRKYIDTSKHTYLDFLSQKSLINEIPEIITNNQVAGKVEQNKSVDWRIEHFKNTDNLRLCNTPFRFFSGGNVAFAKKWLFRAGWFDEEFTHWGGEDNEFGYRLYREGCYFRSVEGAMAYHQEPPGTVQLLQQKVPYFYRKKEKIESATLKRVPLVSIYIPAYNCSKYIVRCVESALNQTITDLEVCICDDGSTDDTLRILQEHYANHPRVRFISQKNKGIGSASNTAVRLCRGFYIGQLDSDDFLEPDAVELCLDEFRKDLSLACVYTTNRNIDREGNLISNGYNWPIYSREKLTSAMICHHFRMFTARAWNLTEGFNESISNAVDYDMYLKLSEVGPFKHINKICYNRVLHDIQKENHFKVVNESLSRLGIKKYKYSPLTNLNECRKYTWEKI AVIDIDAATKIMCSNAKAISLNEVEKNEIISKYREITAKKSERAELKEVEPIPLDWPSDLTLPPLPESTNDYVWAGKRKELDDQLIIDGLSIVIPTYNRAKILAITLACLCNQKTIYDYEVIVADDGSKENIEEIVREFESLLNIKYVRQKDYGYQLCAVRNLGLRAAKYNYVAILDCDMAPNPLWVQSYMELLAVDDNVALIGPRKYIDTSKHTYLDFLSQKSLINEIPEIITNQNKSVDWRIEHFKNTDNLRLCNTPFRFFSGGNVAFAKKWLFRAGWFDEEFTHWGGEDNEFGYRLYREGCYFRSVEGAMAYHQEPPGKENITVQLLQQKVPYFYRKKEKIESATLKRVPLVSIYIPAYNCSKYIVRCVESALNQTITDLEVCICDDGSTDDTLRILQEHYANHPRVRFISQKNKGIGSASNTAVRLCRGFYIGQLDSDDFLEPDAVELCLDEFRKDLSLACVYTTNRNIDREGNLISNGYNWPIYSREKLTSAMICHHFRMFTARAWNLTEGFNESISNAVDYDMYLKLSEVGPFKHINKICYNRVLHGENTSIKKLDIQKENHFKVVNESLSRLGIKKYKYSPLTNLNECRKYTWEKI 2z8f-a3-m1-cA_2z8f-a3-m2-cA The galacto-N-biose-/lacto-N-biose I-binding protein (GL-BP) of the ABC transporter from Bifidobacterium longum in complex with lacto-N-tetraose A8W790 A8W790 1.65 X-RAY DIFFRACTION 42 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 401 401 2z8d-a3-m3-cA_2z8d-a3-m4-cA 2z8e-a3-m3-cA_2z8e-a3-m4-cA DDGGVVNITYMHRLPDSEGMTLVNDIVAKWNKQHPDIQVKATKFDGKASDMIKKLETDVKSGEAPDLAQVGYAELPEVFTKGLLQDVTQYAEQYKNDFASGPYSLVQVGGKAYGLPQDTGPLVYFYNKAEFEKLGITEIPQTADEFIAAAKTAAAAGKYIMSYQPDEAGNMISGLAGASGGWYKVKGDSWVVNTETDGSKATADFYQQLLDAKAATTNPRWDPSFDASIKDGSLIGTVAAAWEAPLFMTSSGGTGSGEWQVAQLGDWFGNAGKTGPDGGSAVAVLKNSKHPKEAMEFLDWFNTQVPDLVSQGLVPAATTEDAETPSEWSTFFGGQDIMKEFKTANNNMGDFTYMPGFSAVAAKMNETAAKATDGSGKVADIFSDAQTTSVDTLKNFGLSVS DDGGVVNITYMHRLPDSEGMTLVNDIVAKWNKQHPDIQVKATKFDGKASDMIKKLETDVKSGEAPDLAQVGYAELPEVFTKGLLQDVTQYAEQYKNDFASGPYSLVQVGGKAYGLPQDTGPLVYFYNKAEFEKLGITEIPQTADEFIAAAKTAAAAGKYIMSYQPDEAGNMISGLAGASGGWYKVKGDSWVVNTETDGSKATADFYQQLLDAKAATTNPRWDPSFDASIKDGSLIGTVAAAWEAPLFMTSSGGTGSGEWQVAQLGDWFGNAGKTGPDGGSAVAVLKNSKHPKEAMEFLDWFNTQVPDLVSQGLVPAATTEDAETPSEWSTFFGGQDIMKEFKTANNNMGDFTYMPGFSAVAAKMNETAAKATDGSGKVADIFSDAQTTSVDTLKNFGLSVS 2z8f-a3-m3-cB_2z8f-a3-m4-cB The galacto-N-biose-/lacto-N-biose I-binding protein (GL-BP) of the ABC transporter from Bifidobacterium longum in complex with lacto-N-tetraose A8W790 A8W790 1.65 X-RAY DIFFRACTION 20 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 399 399 2z8d-a3-m1-cB_2z8d-a3-m2-cB 2z8e-a3-m1-cB_2z8e-a3-m2-cB TDDGGVVNITYMHRLPDSEGMTLVNDIVAKWNKQHPDIQVKATKFDGKASDMIKKLETDVKSGEAPDLAQVGYAELPEVFTKGLLQDVTQYAEQYKNDFASGPYSLVQVGGKAYGLPQDTGPLVYFYNKAEFEKLGITEIPQTADEFIAAAKTAAAAGKYIMSYQPDEAGNMISGLAGASGGWYKVKGDSWVVNTETDGSKATADFYQQLLDAKAATTNPRWDPSFDASIKDGSLIGTVAAAWEAPLFMTSSGGTGSGEWQVAQLGDWFGNAGKTGPDGGSAVAVLKNSKHPKEAMEFLDWFNTQVPDLVSQGLVPAATTEDAETPSEWSTFFGGQDIMKEFKTANNNMGDFTYMPGFSAVAAKMNETAAKATGKVADIFSDAQTTSVDTLKNFGLSVS TDDGGVVNITYMHRLPDSEGMTLVNDIVAKWNKQHPDIQVKATKFDGKASDMIKKLETDVKSGEAPDLAQVGYAELPEVFTKGLLQDVTQYAEQYKNDFASGPYSLVQVGGKAYGLPQDTGPLVYFYNKAEFEKLGITEIPQTADEFIAAAKTAAAAGKYIMSYQPDEAGNMISGLAGASGGWYKVKGDSWVVNTETDGSKATADFYQQLLDAKAATTNPRWDPSFDASIKDGSLIGTVAAAWEAPLFMTSSGGTGSGEWQVAQLGDWFGNAGKTGPDGGSAVAVLKNSKHPKEAMEFLDWFNTQVPDLVSQGLVPAATTEDAETPSEWSTFFGGQDIMKEFKTANNNMGDFTYMPGFSAVAAKMNETAAKATGKVADIFSDAQTTSVDTLKNFGLSVS 2z8f-a3-m4-cB_2z8f-a3-m2-cA The galacto-N-biose-/lacto-N-biose I-binding protein (GL-BP) of the ABC transporter from Bifidobacterium longum in complex with lacto-N-tetraose A8W790 A8W790 1.65 X-RAY DIFFRACTION 45 0.997 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 399 401 2z8d-a3-m1-cB_2z8d-a3-m3-cA 2z8d-a3-m2-cB_2z8d-a3-m4-cA 2z8e-a3-m1-cB_2z8e-a3-m3-cA 2z8e-a3-m2-cB_2z8e-a3-m4-cA 2z8f-a3-m3-cB_2z8f-a3-m1-cA TDDGGVVNITYMHRLPDSEGMTLVNDIVAKWNKQHPDIQVKATKFDGKASDMIKKLETDVKSGEAPDLAQVGYAELPEVFTKGLLQDVTQYAEQYKNDFASGPYSLVQVGGKAYGLPQDTGPLVYFYNKAEFEKLGITEIPQTADEFIAAAKTAAAAGKYIMSYQPDEAGNMISGLAGASGGWYKVKGDSWVVNTETDGSKATADFYQQLLDAKAATTNPRWDPSFDASIKDGSLIGTVAAAWEAPLFMTSSGGTGSGEWQVAQLGDWFGNAGKTGPDGGSAVAVLKNSKHPKEAMEFLDWFNTQVPDLVSQGLVPAATTEDAETPSEWSTFFGGQDIMKEFKTANNNMGDFTYMPGFSAVAAKMNETAAKATGKVADIFSDAQTTSVDTLKNFGLSVS DDGGVVNITYMHRLPDSEGMTLVNDIVAKWNKQHPDIQVKATKFDGKASDMIKKLETDVKSGEAPDLAQVGYAELPEVFTKGLLQDVTQYAEQYKNDFASGPYSLVQVGGKAYGLPQDTGPLVYFYNKAEFEKLGITEIPQTADEFIAAAKTAAAAGKYIMSYQPDEAGNMISGLAGASGGWYKVKGDSWVVNTETDGSKATADFYQQLLDAKAATTNPRWDPSFDASIKDGSLIGTVAAAWEAPLFMTSSGGTGSGEWQVAQLGDWFGNAGKTGPDGGSAVAVLKNSKHPKEAMEFLDWFNTQVPDLVSQGLVPAATTEDAETPSEWSTFFGGQDIMKEFKTANNNMGDFTYMPGFSAVAAKMNETAAKATDGSGKVADIFSDAQTTSVDTLKNFGLSVS 2z8n-a3-m1-cA_2z8n-a3-m1-cB Structural basis for the catalytic mechanism of phosphothreonine lyase P0A2M9 P0A2M9 1.8 X-RAY DIFFRACTION 33 1.0 215 215 PSTNKHLKNNFNSLHNQMRKMPVSHFKEALDVPDYSGMRQSGFFAMSQGFQLNNHGYDVFIHARRESPQSQGKFAGDKFHISVLRDMVPQAFQALSGLLFSEDSPVDKWKVTDMEKVVQQARVSLGAQFTLYIKPDQENSQYSASFLHKTRQFIECLESRLSENGVISGQCPESDVHPENWKYLSYRNELRSGRDGGEMQRQALREEPFYRLMTE PSTNKHLKNNFNSLHNQMRKMPVSHFKEALDVPDYSGMRQSGFFAMSQGFQLNNHGYDVFIHARRESPQSQGKFAGDKFHISVLRDMVPQAFQALSGLLFSEDSPVDKWKVTDMEKVVQQARVSLGAQFTLYIKPDQENSQYSASFLHKTRQFIECLESRLSENGVISGQCPESDVHPENWKYLSYRNELRSGRDGGEMQRQALREEPFYRLMTE 2z8r-a3-m1-cA_2z8r-a3-m1-cB Crystal structure of rhamnogalacturonan lyase YesW at 1.40 A resolution O31526 O31526 1.4 X-RAY DIFFRACTION 20 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis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z8u-a1-m1-cA_2z8u-a1-m1-cQ Methanococcus jannaschii TBP Q57930 Q57930 1.9 X-RAY DIFFRACTION 13 0.994 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 169 175 PEIKIVNVVVSTKIGDNIDLEEVAMILENAEGLVCRLSVPKVALLIFRSGKVNCTGAKSKEEAEIAIKKIIKELKDAGIDVIENPEIKIQNMVATADLGIEPNLDDIALMVEGTEYEPEQFPGLVYRLDDPKVVVLIFGSGKVVITGLKSEEDAKRALKKILDTIKEVQ PEIKIVNVVVSTKIGDNIDLEEVAMILENAEYEPEQFPGLVCRLSVPKVALLIFRSGKVNCTGAKSKEEAEIAIKKIIKELKDAGIDVIENPEIKIQNMVATADLGIEPNLDDIALMVEGTEYEPEQFPGLVYRLDDPKVVVLIFGSGKVVITGLKSEEDAKRALKKILDTIKEV 2z8u-a3-m1-cP_2z8u-a3-m1-cQ Methanococcus jannaschii TBP Q57930 Q57930 1.9 X-RAY DIFFRACTION 98 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 173 175 2z8u-a1-m1-cA_2z8u-a1-m1-cB 2z8u-a1-m1-cP_2z8u-a1-m1-cQ 2z8u-a2-m1-cA_2z8u-a2-m1-cB EIKIVNVVVSTKIGDNIDLEEVAMILENAEYEPEQFPGLVCRLSVPKVALLIFRSGKVNCTGAKSKEEAEIAIKKIIKELKDAGIDVIENPEIKIQNMVATADLGIEPNLDDIALMVEGTEYEPEQFPGLVYRLDDPKVVVLIFGSGKVVITGLKSEEDAKRALKKILDTIKE PEIKIVNVVVSTKIGDNIDLEEVAMILENAEYEPEQFPGLVCRLSVPKVALLIFRSGKVNCTGAKSKEEAEIAIKKIIKELKDAGIDVIENPEIKIQNMVATADLGIEPNLDDIALMVEGTEYEPEQFPGLVYRLDDPKVVVLIFGSGKVVITGLKSEEDAKRALKKILDTIKEV 2z99-a1-m1-cA_2z99-a1-m2-cA Crystal Structure of ScpB from Mycobacterium tuberculosis O33209 O33209 2.3 X-RAY DIFFRACTION 86 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 160 160 AELDADELKRVLEALLLVIDTPVTADALAAATEQPVYRVAAKLQLMADELTGRDSGIDLRHTSEGWRMYTRARFAPYVEKLLLDGARTKLTRAALETLAVVAYRQPVTRARVSAVRGVNVDAVMRTLLARGLITEVGTDADTGAVTFATTELFLERLGLT AELDADELKRVLEALLLVIDTPVTADALAAATEQPVYRVAAKLQLMADELTGRDSGIDLRHTSEGWRMYTRARFAPYVEKLLLDGARTKLTRAALETLAVVAYRQPVTRARVSAVRGVNVDAVMRTLLARGLITEVGTDADTGAVTFATTELFLERLGLT 2z9d-a1-m1-cA_2z9d-a1-m1-cB The crystal structure of AzoR (azoreductase) from Escherichia coli: Oxidized AzoR in orthorhombic crystals P41407 P41407 2.1 X-RAY DIFFRACTION 87 1.0 562 (Escherichia coli) 562 (Escherichia coli) 200 200 1tik-a1-m1-cA_1tik-a1-m2-cA 1v4b-a1-m1-cA_1v4b-a1-m2-cA 2d5i-a1-m1-cA_2d5i-a1-m2-cA 2z98-a1-m1-cA_2z98-a1-m2-cA 2z9b-a1-m1-cA_2z9b-a1-m2-cA 2z9c-a1-m1-cA_2z9c-a1-m2-cA SKVLVLKSSILAGYSQSNQLSDYFVEQWREKHSADEITVRDLAANPIPVLDGELVGALRPSDAPLTPRQQEALALSDELIAELKAHDVIVIAAPMYNFNISTQLKNYFDLVARAGVTFRYTENGPEGLVTGKKAIVITSRGGIHKDGPTDLVTPYLSTFLGFIGITDVKFVFAEGIAYGPEMAAKAQSDAKAAIDSIVSA SKVLVLKSSILAGYSQSNQLSDYFVEQWREKHSADEITVRDLAANPIPVLDGELVGALRPSDAPLTPRQQEALALSDELIAELKAHDVIVIAAPMYNFNISTQLKNYFDLVARAGVTFRYTENGPEGLVTGKKAIVITSRGGIHKDGPTDLVTPYLSTFLGFIGITDVKFVFAEGIAYGPEMAAKAQSDAKAAIDSIVSA 2z9h-a1-m1-cC_2z9h-a1-m1-cB Ethanolamine utilization protein, EutN P0AEJ8 P0AEJ8 2.71 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 83 97 2hd3-a1-m1-cA_2hd3-a1-m1-cB 2hd3-a1-m1-cC_2hd3-a1-m1-cB 2hd3-a1-m1-cD_2hd3-a1-m1-cE 2hd3-a1-m1-cF_2hd3-a1-m1-cA 2hd3-a1-m1-cF_2hd3-a1-m1-cE 2hd3-a2-m1-cG_2hd3-a2-m1-cH 2hd3-a2-m1-cI_2hd3-a2-m1-cH 2hd3-a2-m1-cJ_2hd3-a2-m1-cK 2hd3-a2-m1-cL_2hd3-a2-m1-cG 2z9h-a1-m1-cA_2z9h-a1-m1-cB 2z9h-a1-m1-cD_2z9h-a1-m1-cE 2z9h-a1-m1-cF_2z9h-a1-m1-cA 2z9h-a1-m1-cF_2z9h-a1-m1-cE MKLAVVTGQIVCTVRHHGLAHDKLLMVEMIDPQGNPDGQCAVAIDNIGAGTGEWVLLVSGPVDLCVIGIVDEVVSGGQVIFHK MKLAVVTGQIVCTVRHHGLAHDKLLMVEMIDPQGNPDGQCAVAIDNIGAGTGEWVLLVSGSSARQAHKSETSPVDLCVIGIVDEVVSGGQVIFHKLE 2z9i-a1-m1-cB_2z9i-a1-m1-cA Crystal structure of RV0983 from Mycobacterium tuberculosis- Proteolytically active form O53896 O53896 2 X-RAY DIFFRACTION 69 0.985 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 267 282 1y8t-a1-m1-cB_1y8t-a1-m1-cA 2z9i-a1-m1-cD_2z9i-a1-m1-cA 2z9i-a1-m1-cE_2z9i-a1-m1-cB 2z9i-a1-m1-cF_2z9i-a1-m1-cC 2z9i-a1-m1-cG_2z9i-a1-m1-cA 2z9i-a1-m1-cH_2z9i-a1-m1-cB PPGSVEQVAAKVVPSVVLETDSEEGSGIILSAEGLILTNNHVIAAAAPKTTVTFSDGRTAPFTVVGADPTSDIAVVRVQGVSGLTPISLGSSSDLRVGQPVLAIGSPLGLEGTVTTGIVSALNRPVSTNTVLDAIQTDAAINPGNSGGALVNNAQLVGVNSAIATLQSGSIGLGFAIPVDQAKRIADELISTGKASHASLGVQVTNDGAKIVEVVAAANAGVPKGVVVTKVDDRPINSADALVAAVRSKAPGATVALTVQVTLGKAE GSVEQVAAKVVPSVVLETDLEEGSGIILSAEGLILTNNHVIAAAAKPPKTTVTFSDGRTAPFTVVGADPTSDIAVVRVQGVSGLTPISLGSSSDLRVGQPVLAIGSPLGLEGTVTTGIVSALNRPVSTNTVLDAIQTDAAINPGNSGGALVNNAQLVGVNSAIATLQSGSIGLGFAIPVDQAKRIADELISTGKASHASLGVQVTNDKTLGAKIVEVVAGGAAANAGVPKGVVVTKVDDRPINSADALVAAVRSKAPGATVALTFQDPSGGSRTVQVTLGKA 2z9o-a1-m1-cB_2z9o-a1-m1-cA Crystal structure of the dimeric form of RepE in complex with the repE operator DNA P03856 P03856 3.14 X-RAY DIFFRACTION 99 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 218 222 QSNDLTEAAYSLSRDQKRMLYLFVDQIDGICEIHVAKYAEIFGLTSAEASKDIRQALKSFAGKEVVFYRPEEDAGDEKGYESFPWFIKRAHSPSRGLYSVHINPYLIPFFIGLQNRFTQFRLSETKEITNPYAMRLYESLCQYRKPDGSGIVSLKIDWIIERYQLPQSYQRMPDFRRRFLQVCVNEINSRTPMRLSYIEKKKGRQTTHIVFSFRDITS SNDLTEAAYSLSRDQKRMLYLFVDQIRDGICEIHVAKYAEIFGLTSAEASKDIRQALKSFAGKEVVFYRPEEDAGDEKGYESFPWFIKRAHSPSRGLYSVHINPYLIPFFIGLQNRFTQFRLSETKEITNPYAMRLYESLCQYRKPDGSGIVSLKIDWIIERYQLPQSYQRMPDFRRRFLQVCVNEINSRTPMRLSYIEKKKGRQTTHIVFSFRDITSMTTG 2z9w-a1-m1-cA_2z9w-a1-m2-cB Crystal structure of pyridoxamine-pyruvate aminotransferase complexed with pyridoxal Q988B8 Q988B8 1.7 X-RAY DIFFRACTION 82 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 392 392 2z9u-a1-m1-cA_2z9u-a1-m2-cB 2z9u-a1-m1-cB_2z9u-a1-m2-cA 2z9v-a1-m1-cA_2z9v-a1-m2-cB 2z9v-a1-m1-cB_2z9v-a1-m2-cA 2z9w-a1-m1-cB_2z9w-a1-m2-cA 2z9x-a1-m1-cA_2z9x-a1-m2-cB 2z9x-a1-m1-cB_2z9x-a1-m2-cA MRYPEHADPVITLTAGPVNAYPEVLRGLGRTVLYDYDPAFQLLYEKVVDKAQKAMRLSNKPVILHGEPVLGLEAAAASLISPDDVVLNLASGVYGKGFGYWAKRYSPHLLEIEVPYNEAIDPQAVADMLKAHPEITVVSVCHHDTPSGTINPIDAIGALVSAHGAYLIVDAVSSFGGMKTHPEDCKADIYVTGPNKCLGAPPGLTMMGVSERAWAKMKANPLAPRASMLSIVDWENAWSRDKPFPFTPSVSEINGLDVALDLYLNEGPEAVWARHALTAKAMRAGVTAMGLSVWAASDSIASPTTTAVRTPDGVDEKALRQAARARYGVVFSSGRGETLGKLTRIGHMGPTAQPIYAIAALTALGGAMNAAGRKLAIGKGIEAALAVIDADA MRYPEHADPVITLTAGPVNAYPEVLRGLGRTVLYDYDPAFQLLYEKVVDKAQKAMRLSNKPVILHGEPVLGLEAAAASLISPDDVVLNLASGVYGKGFGYWAKRYSPHLLEIEVPYNEAIDPQAVADMLKAHPEITVVSVCHHDTPSGTINPIDAIGALVSAHGAYLIVDAVSSFGGMKTHPEDCKADIYVTGPNKCLGAPPGLTMMGVSERAWAKMKANPLAPRASMLSIVDWENAWSRDKPFPFTPSVSEINGLDVALDLYLNEGPEAVWARHALTAKAMRAGVTAMGLSVWAASDSIASPTTTAVRTPDGVDEKALRQAARARYGVVFSSGRGETLGKLTRIGHMGPTAQPIYAIAALTALGGAMNAAGRKLAIGKGIEAALAVIDADA 2z9w-a1-m2-cA_2z9w-a1-m2-cB Crystal structure of pyridoxamine-pyruvate aminotransferase complexed with pyridoxal Q988B8 Q988B8 1.7 X-RAY DIFFRACTION 183 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 392 392 2z9u-a1-m1-cA_2z9u-a1-m1-cB 2z9u-a1-m2-cA_2z9u-a1-m2-cB 2z9v-a1-m1-cA_2z9v-a1-m1-cB 2z9v-a1-m2-cA_2z9v-a1-m2-cB 2z9w-a1-m1-cA_2z9w-a1-m1-cB 2z9x-a1-m1-cA_2z9x-a1-m1-cB 2z9x-a1-m2-cA_2z9x-a1-m2-cB MRYPEHADPVITLTAGPVNAYPEVLRGLGRTVLYDYDPAFQLLYEKVVDKAQKAMRLSNKPVILHGEPVLGLEAAAASLISPDDVVLNLASGVYGKGFGYWAKRYSPHLLEIEVPYNEAIDPQAVADMLKAHPEITVVSVCHHDTPSGTINPIDAIGALVSAHGAYLIVDAVSSFGGMKTHPEDCKADIYVTGPNKCLGAPPGLTMMGVSERAWAKMKANPLAPRASMLSIVDWENAWSRDKPFPFTPSVSEINGLDVALDLYLNEGPEAVWARHALTAKAMRAGVTAMGLSVWAASDSIASPTTTAVRTPDGVDEKALRQAARARYGVVFSSGRGETLGKLTRIGHMGPTAQPIYAIAALTALGGAMNAAGRKLAIGKGIEAALAVIDADA MRYPEHADPVITLTAGPVNAYPEVLRGLGRTVLYDYDPAFQLLYEKVVDKAQKAMRLSNKPVILHGEPVLGLEAAAASLISPDDVVLNLASGVYGKGFGYWAKRYSPHLLEIEVPYNEAIDPQAVADMLKAHPEITVVSVCHHDTPSGTINPIDAIGALVSAHGAYLIVDAVSSFGGMKTHPEDCKADIYVTGPNKCLGAPPGLTMMGVSERAWAKMKANPLAPRASMLSIVDWENAWSRDKPFPFTPSVSEINGLDVALDLYLNEGPEAVWARHALTAKAMRAGVTAMGLSVWAASDSIASPTTTAVRTPDGVDEKALRQAARARYGVVFSSGRGETLGKLTRIGHMGPTAQPIYAIAALTALGGAMNAAGRKLAIGKGIEAALAVIDADA 2z9x-a1-m1-cB_2z9x-a1-m2-cB Crystal structure of pyridoxamine-pyruvate aminotransferase complexed with pyridoxyl-L-alanine Q988B8 Q988B8 1.94 X-RAY DIFFRACTION 11 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 392 392 2z9u-a1-m1-cA_2z9u-a1-m2-cA 2z9u-a1-m1-cB_2z9u-a1-m2-cB 2z9v-a1-m1-cA_2z9v-a1-m2-cA 2z9v-a1-m1-cB_2z9v-a1-m2-cB 2z9w-a1-m1-cA_2z9w-a1-m2-cA 2z9w-a1-m1-cB_2z9w-a1-m2-cB 2z9x-a1-m1-cA_2z9x-a1-m2-cA MRYPEHADPVITLTAGPVNAYPEVLRGLGRTVLYDYDPAFQLLYEKVVDKAQKAMRLSNKPVILHGEPVLGLEAAAASLISPDDVVLNLASGVYGKGFGYWAKRYSPHLLEIEVPYNEAIDPQAVADMLKAHPEITVVSVCHHDTPSGTINPIDAIGALVSAHGAYLIVDAVSSFGGMKTHPEDCKADIYVTGPNKCLGAPPGLTMMGVSERAWAKMKANPLAPRASMLSIVDWENAWSRDKPFPFTPSVSEINGLDVALDLYLNEGPEAVWARHALTAKAMRAGVTAMGLSVWAASDSIASPTTTAVRTPDGVDEKALRQAARARYGVVFSSGRGETLGKLTRIGHMGPTAQPIYAIAALTALGGAMNAAGRKLAIGKGIEAALAVIDADA MRYPEHADPVITLTAGPVNAYPEVLRGLGRTVLYDYDPAFQLLYEKVVDKAQKAMRLSNKPVILHGEPVLGLEAAAASLISPDDVVLNLASGVYGKGFGYWAKRYSPHLLEIEVPYNEAIDPQAVADMLKAHPEITVVSVCHHDTPSGTINPIDAIGALVSAHGAYLIVDAVSSFGGMKTHPEDCKADIYVTGPNKCLGAPPGLTMMGVSERAWAKMKANPLAPRASMLSIVDWENAWSRDKPFPFTPSVSEINGLDVALDLYLNEGPEAVWARHALTAKAMRAGVTAMGLSVWAASDSIASPTTTAVRTPDGVDEKALRQAARARYGVVFSSGRGETLGKLTRIGHMGPTAQPIYAIAALTALGGAMNAAGRKLAIGKGIEAALAVIDADA 2zag-a6-m1-cC_2zag-a6-m1-cD Crystal structure of the SeMet-substituted soluble domain of STT3 from P. furiosus Q8U4D2 Q8U4D2 3 X-RAY DIFFRACTION 49 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 474 476 2zag-a5-m1-cB_2zag-a5-m1-cA 2zai-a5-m1-cB_2zai-a5-m1-cA 2zai-a6-m1-cC_2zai-a6-m1-cD ETSGWEDALKWLRENTPEYSTATSWWDYGYWIESSLLGQRRASADGGHARDRDHILALFLARDGNISEVDFESWELNYFLVYLNDWAKFNAISYLGGAITRREYNGDESGRGAVTTLLPLPRYGEKYVNLYAKVIVDVSNSSVKVTVGDRECDPLVTFTPSGKTIKGTGTCSDGNAFPYVLHLTPTIGVLAYYKVATANFIKLAFGVPASTIPGFSDKLFSNFEPVYESGNVIVYRFTPFGIYKIEENINGTWKQVYNLTPGKHELKLYISAFGRDIENATLYIYAINNEKIIEKIKIAEISHDYLNEYPIAVNVTLPNATSYRFVLVQKGPIGVLLDAPKVNGEIRSPTNILREGESGEIELKVGVDKDYTADLYLRATFIYLVRKSGKDNEDYDAAFEPQDVFFITKIGENIQLKEGENTVKVRAELPEGVISSYKDELQRKYGDKLIIRGIRVEPVFIAEKEYLLEVSASA ETSGWEDALKWLRENTPEYSTATSWWDYGYWIESSLLGQRRASADGGHARDRDHILALFLARDGNISEVDFESWELNYFLVYLNDWAKFNAISYLGGAITRREYNGDESGRGAVTTLLPLPRYGEKYVNLYAKVIVDVSNSSVKVTVGDRECDPLVTFTPSGKTIKGTGTCSDGNAFPYVLHLTPTIGVLAYYKVATANFIKLAFGVPASTIPGFSDKLFSNFEPVYESGNVIVYRFTPFGIYKIEENINGTWKQVYNLTPGKHELKLYISAFGRDIENATLYIYAINNEKIIEKIKIAEISHDYLNEYPIAVNVTLPNATSYRFVLVQKGPIGVLLDAPKVNGEIRSPTNILREGESGEIELKVGVDKDYTADLYLRATFIYLVRKSGKDNEDYDAAFEPQDVFFITKIGENIQLKEGENTVKVRAELPEGVISSYKDELQRKYGDKLIIRGIRVEPVFIAEKEYLLEVSASAPH 2zah-a1-m10-cA_2zah-a1-m9-cB X-ray structure of Melon necrotic spot virus P19899 P19899 2.81 X-RAY DIFFRACTION 142 1.0 11987 (Melon necrotic spot virus) 11987 (Melon necrotic spot virus) 296 296 2zah-a1-m10-cB_2zah-a1-m6-cA 2zah-a1-m10-cC_2zah-a1-m24-cC 2zah-a1-m11-cA_2zah-a1-m15-cB 2zah-a1-m11-cB_2zah-a1-m12-cA 2zah-a1-m11-cC_2zah-a1-m16-cC 2zah-a1-m12-cB_2zah-a1-m13-cA 2zah-a1-m12-cC_2zah-a1-m38-cC 2zah-a1-m13-cB_2zah-a1-m14-cA 2zah-a1-m13-cC_2zah-a1-m47-cC 2zah-a1-m14-cB_2zah-a1-m15-cA 2zah-a1-m14-cC_2zah-a1-m45-cC 2zah-a1-m15-cC_2zah-a1-m29-cC 2zah-a1-m16-cA_2zah-a1-m20-cB 2zah-a1-m16-cB_2zah-a1-m17-cA 2zah-a1-m17-cB_2zah-a1-m18-cA 2zah-a1-m17-cC_2zah-a1-m28-cC 2zah-a1-m18-cB_2zah-a1-m19-cA 2zah-a1-m18-cC_2zah-a1-m52-cC 2zah-a1-m19-cB_2zah-a1-m20-cA 2zah-a1-m19-cC_2zah-a1-m60-cC 2zah-a1-m1-cA_2zah-a1-m5-cB 2zah-a1-m1-cB_2zah-a1-m2-cA 2zah-a1-m1-cC_2zah-a1-m6-cC 2zah-a1-m20-cC_2zah-a1-m39-cC 2zah-a1-m21-cA_2zah-a1-m25-cB 2zah-a1-m21-cB_2zah-a1-m22-cA 2zah-a1-m21-cC_2zah-a1-m26-cC 2zah-a1-m22-cB_2zah-a1-m23-cA 2zah-a1-m22-cC_2zah-a1-m43-cC 2zah-a1-m23-cB_2zah-a1-m24-cA 2zah-a1-m24-cB_2zah-a1-m25-cA 2zah-a1-m25-cC_2zah-a1-m54-cC 2zah-a1-m26-cA_2zah-a1-m30-cB 2zah-a1-m26-cB_2zah-a1-m27-cA 2zah-a1-m27-cB_2zah-a1-m28-cA 2zah-a1-m27-cC_2zah-a1-m53-cC 2zah-a1-m28-cB_2zah-a1-m29-cA 2zah-a1-m29-cB_2zah-a1-m30-cA 2zah-a1-m2-cB_2zah-a1-m3-cA 2zah-a1-m2-cC_2zah-a1-m23-cC 2zah-a1-m30-cC_2zah-a1-m44-cC 2zah-a1-m31-cA_2zah-a1-m35-cB 2zah-a1-m31-cB_2zah-a1-m32-cA 2zah-a1-m31-cC_2zah-a1-m36-cC 2zah-a1-m32-cB_2zah-a1-m33-cA 2zah-a1-m32-cC_2zah-a1-m58-cC 2zah-a1-m33-cB_2zah-a1-m34-cA 2zah-a1-m33-cC_2zah-a1-m7-cC 2zah-a1-m34-cB_2zah-a1-m35-cA 2zah-a1-m34-cC_2zah-a1-m5-cC 2zah-a1-m35-cC_2zah-a1-m49-cC 2zah-a1-m36-cA_2zah-a1-m40-cB 2zah-a1-m36-cB_2zah-a1-m37-cA 2zah-a1-m37-cB_2zah-a1-m38-cA 2zah-a1-m37-cC_2zah-a1-m48-cC 2zah-a1-m38-cB_2zah-a1-m39-cA 2zah-a1-m39-cB_2zah-a1-m40-cA 2zah-a1-m3-cB_2zah-a1-m4-cA 2zah-a1-m3-cC_2zah-a1-m42-cC 2zah-a1-m40-cC_2zah-a1-m59-cC 2zah-a1-m41-cA_2zah-a1-m45-cB 2zah-a1-m41-cB_2zah-a1-m42-cA 2zah-a1-m41-cC_2zah-a1-m46-cC 2zah-a1-m42-cB_2zah-a1-m43-cA 2zah-a1-m43-cB_2zah-a1-m44-cA 2zah-a1-m44-cB_2zah-a1-m45-cA 2zah-a1-m46-cA_2zah-a1-m50-cB 2zah-a1-m46-cB_2zah-a1-m47-cA 2zah-a1-m47-cB_2zah-a1-m48-cA 2zah-a1-m48-cB_2zah-a1-m49-cA 2zah-a1-m49-cB_2zah-a1-m50-cA 2zah-a1-m4-cB_2zah-a1-m5-cA 2zah-a1-m4-cC_2zah-a1-m50-cC 2zah-a1-m51-cA_2zah-a1-m55-cB 2zah-a1-m51-cB_2zah-a1-m52-cA 2zah-a1-m51-cC_2zah-a1-m56-cC 2zah-a1-m52-cB_2zah-a1-m53-cA 2zah-a1-m53-cB_2zah-a1-m54-cA 2zah-a1-m54-cB_2zah-a1-m55-cA 2zah-a1-m55-cC_2zah-a1-m9-cC 2zah-a1-m56-cA_2zah-a1-m60-cB 2zah-a1-m56-cB_2zah-a1-m57-cA 2zah-a1-m57-cB_2zah-a1-m58-cA 2zah-a1-m57-cC_2zah-a1-m8-cC 2zah-a1-m58-cB_2zah-a1-m59-cA 2zah-a1-m59-cB_2zah-a1-m60-cA 2zah-a1-m6-cB_2zah-a1-m7-cA 2zah-a1-m7-cB_2zah-a1-m8-cA 2zah-a1-m8-cB_2zah-a1-m9-cA SVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA SVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA 2zah-a1-m57-cC_2zah-a1-m9-cC X-ray structure of Melon necrotic spot virus P19899 P19899 2.81 X-RAY DIFFRACTION 72 1.0 11987 (Melon necrotic spot virus) 11987 (Melon necrotic spot virus) 331 331 2zah-a1-m10-cC_2zah-a1-m25-cC 2zah-a1-m10-cC_2zah-a1-m55-cC 2zah-a1-m11-cC_2zah-a1-m17-cC 2zah-a1-m11-cC_2zah-a1-m29-cC 2zah-a1-m12-cC_2zah-a1-m16-cC 2zah-a1-m12-cC_2zah-a1-m39-cC 2zah-a1-m13-cC_2zah-a1-m38-cC 2zah-a1-m13-cC_2zah-a1-m48-cC 2zah-a1-m14-cC_2zah-a1-m41-cC 2zah-a1-m14-cC_2zah-a1-m47-cC 2zah-a1-m15-cC_2zah-a1-m30-cC 2zah-a1-m15-cC_2zah-a1-m45-cC 2zah-a1-m16-cC_2zah-a1-m39-cC 2zah-a1-m17-cC_2zah-a1-m29-cC 2zah-a1-m18-cC_2zah-a1-m28-cC 2zah-a1-m18-cC_2zah-a1-m53-cC 2zah-a1-m19-cC_2zah-a1-m52-cC 2zah-a1-m19-cC_2zah-a1-m56-cC 2zah-a1-m1-cC_2zah-a1-m34-cC 2zah-a1-m1-cC_2zah-a1-m7-cC 2zah-a1-m20-cC_2zah-a1-m40-cC 2zah-a1-m20-cC_2zah-a1-m60-cC 2zah-a1-m21-cC_2zah-a1-m27-cC 2zah-a1-m21-cC_2zah-a1-m54-cC 2zah-a1-m22-cC_2zah-a1-m26-cC 2zah-a1-m22-cC_2zah-a1-m44-cC 2zah-a1-m23-cC_2zah-a1-m3-cC 2zah-a1-m23-cC_2zah-a1-m43-cC 2zah-a1-m24-cC_2zah-a1-m6-cC 2zah-a1-m25-cC_2zah-a1-m55-cC 2zah-a1-m26-cC_2zah-a1-m44-cC 2zah-a1-m27-cC_2zah-a1-m54-cC 2zah-a1-m28-cC_2zah-a1-m53-cC 2zah-a1-m2-cC_2zah-a1-m24-cC 2zah-a1-m2-cC_2zah-a1-m6-cC 2zah-a1-m30-cC_2zah-a1-m45-cC 2zah-a1-m31-cC_2zah-a1-m37-cC 2zah-a1-m31-cC_2zah-a1-m49-cC 2zah-a1-m32-cC_2zah-a1-m36-cC 2zah-a1-m32-cC_2zah-a1-m59-cC 2zah-a1-m33-cC_2zah-a1-m58-cC 2zah-a1-m33-cC_2zah-a1-m8-cC 2zah-a1-m34-cC_2zah-a1-m7-cC 2zah-a1-m35-cC_2zah-a1-m50-cC 2zah-a1-m35-cC_2zah-a1-m5-cC 2zah-a1-m36-cC_2zah-a1-m59-cC 2zah-a1-m37-cC_2zah-a1-m49-cC 2zah-a1-m38-cC_2zah-a1-m48-cC 2zah-a1-m3-cC_2zah-a1-m43-cC 2zah-a1-m40-cC_2zah-a1-m60-cC 2zah-a1-m41-cC_2zah-a1-m47-cC 2zah-a1-m42-cC_2zah-a1-m46-cC 2zah-a1-m4-cC_2zah-a1-m42-cC 2zah-a1-m4-cC_2zah-a1-m46-cC 2zah-a1-m51-cC_2zah-a1-m57-cC 2zah-a1-m51-cC_2zah-a1-m9-cC 2zah-a1-m52-cC_2zah-a1-m56-cC 2zah-a1-m58-cC_2zah-a1-m8-cC 2zah-a1-m5-cC_2zah-a1-m50-cC NISYTEGAKPGAISAPVAISRRVAGMKPRFVRSEGSVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA 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2zah-a1-m15-cA_2zah-a1-m15-cB 2zah-a1-m15-cA_2zah-a1-m15-cC 2zah-a1-m15-cB_2zah-a1-m15-cC 2zah-a1-m16-cA_2zah-a1-m16-cB 2zah-a1-m16-cA_2zah-a1-m16-cC 2zah-a1-m16-cB_2zah-a1-m16-cC 2zah-a1-m17-cA_2zah-a1-m17-cB 2zah-a1-m17-cA_2zah-a1-m17-cC 2zah-a1-m17-cB_2zah-a1-m17-cC 2zah-a1-m18-cA_2zah-a1-m18-cB 2zah-a1-m18-cA_2zah-a1-m18-cC 2zah-a1-m18-cB_2zah-a1-m18-cC 2zah-a1-m19-cA_2zah-a1-m19-cB 2zah-a1-m19-cA_2zah-a1-m19-cC 2zah-a1-m19-cB_2zah-a1-m19-cC 2zah-a1-m1-cA_2zah-a1-m1-cB 2zah-a1-m1-cA_2zah-a1-m1-cC 2zah-a1-m1-cB_2zah-a1-m1-cC 2zah-a1-m20-cA_2zah-a1-m20-cB 2zah-a1-m20-cA_2zah-a1-m20-cC 2zah-a1-m20-cB_2zah-a1-m20-cC 2zah-a1-m21-cA_2zah-a1-m21-cB 2zah-a1-m21-cA_2zah-a1-m21-cC 2zah-a1-m21-cB_2zah-a1-m21-cC 2zah-a1-m22-cA_2zah-a1-m22-cB 2zah-a1-m22-cA_2zah-a1-m22-cC 2zah-a1-m22-cB_2zah-a1-m22-cC 2zah-a1-m23-cA_2zah-a1-m23-cB 2zah-a1-m23-cA_2zah-a1-m23-cC 2zah-a1-m23-cB_2zah-a1-m23-cC 2zah-a1-m24-cA_2zah-a1-m24-cB 2zah-a1-m24-cA_2zah-a1-m24-cC 2zah-a1-m24-cB_2zah-a1-m24-cC 2zah-a1-m25-cA_2zah-a1-m25-cB 2zah-a1-m25-cA_2zah-a1-m25-cC 2zah-a1-m25-cB_2zah-a1-m25-cC 2zah-a1-m26-cA_2zah-a1-m26-cB 2zah-a1-m26-cA_2zah-a1-m26-cC 2zah-a1-m26-cB_2zah-a1-m26-cC 2zah-a1-m27-cA_2zah-a1-m27-cB 2zah-a1-m27-cA_2zah-a1-m27-cC 2zah-a1-m27-cB_2zah-a1-m27-cC 2zah-a1-m28-cA_2zah-a1-m28-cB 2zah-a1-m28-cA_2zah-a1-m28-cC 2zah-a1-m28-cB_2zah-a1-m28-cC 2zah-a1-m29-cA_2zah-a1-m29-cB 2zah-a1-m29-cA_2zah-a1-m29-cC 2zah-a1-m29-cB_2zah-a1-m29-cC 2zah-a1-m2-cA_2zah-a1-m2-cB 2zah-a1-m2-cA_2zah-a1-m2-cC 2zah-a1-m2-cB_2zah-a1-m2-cC 2zah-a1-m30-cA_2zah-a1-m30-cB 2zah-a1-m30-cA_2zah-a1-m30-cC 2zah-a1-m30-cB_2zah-a1-m30-cC 2zah-a1-m31-cA_2zah-a1-m31-cB 2zah-a1-m31-cA_2zah-a1-m31-cC 2zah-a1-m31-cB_2zah-a1-m31-cC 2zah-a1-m32-cA_2zah-a1-m32-cB 2zah-a1-m32-cA_2zah-a1-m32-cC 2zah-a1-m32-cB_2zah-a1-m32-cC 2zah-a1-m33-cA_2zah-a1-m33-cB 2zah-a1-m33-cA_2zah-a1-m33-cC 2zah-a1-m33-cB_2zah-a1-m33-cC 2zah-a1-m34-cA_2zah-a1-m34-cB 2zah-a1-m34-cA_2zah-a1-m34-cC 2zah-a1-m34-cB_2zah-a1-m34-cC 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2zah-a1-m45-cA_2zah-a1-m45-cB 2zah-a1-m45-cA_2zah-a1-m45-cC 2zah-a1-m45-cB_2zah-a1-m45-cC 2zah-a1-m46-cA_2zah-a1-m46-cB 2zah-a1-m46-cA_2zah-a1-m46-cC 2zah-a1-m46-cB_2zah-a1-m46-cC 2zah-a1-m47-cA_2zah-a1-m47-cB 2zah-a1-m47-cA_2zah-a1-m47-cC 2zah-a1-m47-cB_2zah-a1-m47-cC 2zah-a1-m48-cA_2zah-a1-m48-cB 2zah-a1-m48-cA_2zah-a1-m48-cC 2zah-a1-m48-cB_2zah-a1-m48-cC 2zah-a1-m49-cA_2zah-a1-m49-cB 2zah-a1-m49-cA_2zah-a1-m49-cC 2zah-a1-m49-cB_2zah-a1-m49-cC 2zah-a1-m4-cA_2zah-a1-m4-cB 2zah-a1-m4-cA_2zah-a1-m4-cC 2zah-a1-m4-cB_2zah-a1-m4-cC 2zah-a1-m50-cA_2zah-a1-m50-cB 2zah-a1-m50-cA_2zah-a1-m50-cC 2zah-a1-m50-cB_2zah-a1-m50-cC 2zah-a1-m51-cA_2zah-a1-m51-cB 2zah-a1-m51-cA_2zah-a1-m51-cC 2zah-a1-m51-cB_2zah-a1-m51-cC 2zah-a1-m52-cA_2zah-a1-m52-cB 2zah-a1-m52-cA_2zah-a1-m52-cC 2zah-a1-m52-cB_2zah-a1-m52-cC 2zah-a1-m53-cA_2zah-a1-m53-cB 2zah-a1-m53-cA_2zah-a1-m53-cC 2zah-a1-m53-cB_2zah-a1-m53-cC 2zah-a1-m54-cA_2zah-a1-m54-cB 2zah-a1-m54-cA_2zah-a1-m54-cC 2zah-a1-m54-cB_2zah-a1-m54-cC 2zah-a1-m55-cA_2zah-a1-m55-cB 2zah-a1-m55-cA_2zah-a1-m55-cC 2zah-a1-m55-cB_2zah-a1-m55-cC 2zah-a1-m56-cA_2zah-a1-m56-cB 2zah-a1-m56-cA_2zah-a1-m56-cC 2zah-a1-m56-cB_2zah-a1-m56-cC 2zah-a1-m57-cA_2zah-a1-m57-cB 2zah-a1-m57-cA_2zah-a1-m57-cC 2zah-a1-m57-cB_2zah-a1-m57-cC 2zah-a1-m58-cA_2zah-a1-m58-cB 2zah-a1-m58-cA_2zah-a1-m58-cC 2zah-a1-m58-cB_2zah-a1-m58-cC 2zah-a1-m59-cA_2zah-a1-m59-cB 2zah-a1-m59-cA_2zah-a1-m59-cC 2zah-a1-m59-cB_2zah-a1-m59-cC 2zah-a1-m5-cA_2zah-a1-m5-cB 2zah-a1-m5-cA_2zah-a1-m5-cC 2zah-a1-m5-cB_2zah-a1-m5-cC 2zah-a1-m60-cA_2zah-a1-m60-cB 2zah-a1-m60-cA_2zah-a1-m60-cC 2zah-a1-m60-cB_2zah-a1-m60-cC 2zah-a1-m6-cA_2zah-a1-m6-cB 2zah-a1-m6-cA_2zah-a1-m6-cC 2zah-a1-m6-cB_2zah-a1-m6-cC 2zah-a1-m7-cA_2zah-a1-m7-cB 2zah-a1-m7-cA_2zah-a1-m7-cC 2zah-a1-m7-cB_2zah-a1-m7-cC 2zah-a1-m8-cA_2zah-a1-m8-cC 2zah-a1-m8-cB_2zah-a1-m8-cC 2zah-a1-m9-cA_2zah-a1-m9-cB 2zah-a1-m9-cA_2zah-a1-m9-cC 2zah-a1-m9-cB_2zah-a1-m9-cC SVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA SVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA 2zah-a1-m8-cA_2zah-a1-m9-cA X-ray structure of Melon necrotic spot virus P19899 P19899 2.81 X-RAY DIFFRACTION 79 1.0 11987 (Melon necrotic spot virus) 11987 (Melon necrotic spot virus) 296 296 2zah-a1-m10-cA_2zah-a1-m6-cA 2zah-a1-m10-cA_2zah-a1-m9-cA 2zah-a1-m10-cB_2zah-a1-m24-cC 2zah-a1-m10-cB_2zah-a1-m6-cC 2zah-a1-m11-cA_2zah-a1-m12-cA 2zah-a1-m11-cA_2zah-a1-m15-cA 2zah-a1-m11-cB_2zah-a1-m12-cC 2zah-a1-m11-cB_2zah-a1-m16-cC 2zah-a1-m12-cA_2zah-a1-m13-cA 2zah-a1-m12-cB_2zah-a1-m13-cC 2zah-a1-m12-cB_2zah-a1-m38-cC 2zah-a1-m13-cA_2zah-a1-m14-cA 2zah-a1-m13-cB_2zah-a1-m14-cC 2zah-a1-m13-cB_2zah-a1-m47-cC 2zah-a1-m14-cA_2zah-a1-m15-cA 2zah-a1-m14-cB_2zah-a1-m15-cC 2zah-a1-m14-cB_2zah-a1-m45-cC 2zah-a1-m15-cB_2zah-a1-m11-cC 2zah-a1-m15-cB_2zah-a1-m29-cC 2zah-a1-m16-cA_2zah-a1-m17-cA 2zah-a1-m16-cA_2zah-a1-m20-cA 2zah-a1-m16-cB_2zah-a1-m11-cC 2zah-a1-m16-cB_2zah-a1-m17-cC 2zah-a1-m17-cA_2zah-a1-m18-cA 2zah-a1-m17-cB_2zah-a1-m18-cC 2zah-a1-m17-cB_2zah-a1-m28-cC 2zah-a1-m18-cA_2zah-a1-m19-cA 2zah-a1-m18-cB_2zah-a1-m19-cC 2zah-a1-m18-cB_2zah-a1-m52-cC 2zah-a1-m19-cA_2zah-a1-m20-cA 2zah-a1-m19-cB_2zah-a1-m20-cC 2zah-a1-m19-cB_2zah-a1-m60-cC 2zah-a1-m1-cA_2zah-a1-m2-cA 2zah-a1-m1-cA_2zah-a1-m5-cA 2zah-a1-m1-cB_2zah-a1-m2-cC 2zah-a1-m1-cB_2zah-a1-m6-cC 2zah-a1-m20-cB_2zah-a1-m16-cC 2zah-a1-m20-cB_2zah-a1-m39-cC 2zah-a1-m21-cA_2zah-a1-m22-cA 2zah-a1-m21-cA_2zah-a1-m25-cA 2zah-a1-m21-cB_2zah-a1-m22-cC 2zah-a1-m21-cB_2zah-a1-m26-cC 2zah-a1-m22-cA_2zah-a1-m23-cA 2zah-a1-m22-cB_2zah-a1-m23-cC 2zah-a1-m22-cB_2zah-a1-m43-cC 2zah-a1-m23-cA_2zah-a1-m24-cA 2zah-a1-m23-cB_2zah-a1-m24-cC 2zah-a1-m23-cB_2zah-a1-m2-cC 2zah-a1-m24-cA_2zah-a1-m25-cA 2zah-a1-m24-cB_2zah-a1-m10-cC 2zah-a1-m24-cB_2zah-a1-m25-cC 2zah-a1-m25-cB_2zah-a1-m21-cC 2zah-a1-m25-cB_2zah-a1-m54-cC 2zah-a1-m26-cA_2zah-a1-m27-cA 2zah-a1-m26-cA_2zah-a1-m30-cA 2zah-a1-m26-cB_2zah-a1-m21-cC 2zah-a1-m26-cB_2zah-a1-m27-cC 2zah-a1-m27-cA_2zah-a1-m28-cA 2zah-a1-m27-cB_2zah-a1-m28-cC 2zah-a1-m27-cB_2zah-a1-m53-cC 2zah-a1-m28-cA_2zah-a1-m29-cA 2zah-a1-m28-cB_2zah-a1-m17-cC 2zah-a1-m28-cB_2zah-a1-m29-cC 2zah-a1-m29-cA_2zah-a1-m30-cA 2zah-a1-m29-cB_2zah-a1-m15-cC 2zah-a1-m29-cB_2zah-a1-m30-cC 2zah-a1-m2-cA_2zah-a1-m3-cA 2zah-a1-m2-cB_2zah-a1-m23-cC 2zah-a1-m2-cB_2zah-a1-m3-cC 2zah-a1-m30-cB_2zah-a1-m26-cC 2zah-a1-m30-cB_2zah-a1-m44-cC 2zah-a1-m31-cA_2zah-a1-m32-cA 2zah-a1-m31-cA_2zah-a1-m35-cA 2zah-a1-m31-cB_2zah-a1-m32-cC 2zah-a1-m31-cB_2zah-a1-m36-cC 2zah-a1-m32-cA_2zah-a1-m33-cA 2zah-a1-m32-cB_2zah-a1-m33-cC 2zah-a1-m32-cB_2zah-a1-m58-cC 2zah-a1-m33-cA_2zah-a1-m34-cA 2zah-a1-m33-cB_2zah-a1-m34-cC 2zah-a1-m33-cB_2zah-a1-m7-cC 2zah-a1-m34-cA_2zah-a1-m35-cA 2zah-a1-m34-cB_2zah-a1-m35-cC 2zah-a1-m34-cB_2zah-a1-m5-cC 2zah-a1-m35-cB_2zah-a1-m31-cC 2zah-a1-m35-cB_2zah-a1-m49-cC 2zah-a1-m36-cA_2zah-a1-m37-cA 2zah-a1-m36-cA_2zah-a1-m40-cA 2zah-a1-m36-cB_2zah-a1-m31-cC 2zah-a1-m36-cB_2zah-a1-m37-cC 2zah-a1-m37-cA_2zah-a1-m38-cA 2zah-a1-m37-cB_2zah-a1-m38-cC 2zah-a1-m37-cB_2zah-a1-m48-cC 2zah-a1-m38-cA_2zah-a1-m39-cA 2zah-a1-m38-cB_2zah-a1-m12-cC 2zah-a1-m38-cB_2zah-a1-m39-cC 2zah-a1-m39-cA_2zah-a1-m40-cA 2zah-a1-m39-cB_2zah-a1-m20-cC 2zah-a1-m39-cB_2zah-a1-m40-cC 2zah-a1-m3-cA_2zah-a1-m4-cA 2zah-a1-m3-cB_2zah-a1-m42-cC 2zah-a1-m3-cB_2zah-a1-m4-cC 2zah-a1-m40-cB_2zah-a1-m36-cC 2zah-a1-m40-cB_2zah-a1-m59-cC 2zah-a1-m41-cA_2zah-a1-m42-cA 2zah-a1-m41-cA_2zah-a1-m45-cA 2zah-a1-m41-cB_2zah-a1-m42-cC 2zah-a1-m41-cB_2zah-a1-m46-cC 2zah-a1-m42-cA_2zah-a1-m43-cA 2zah-a1-m42-cB_2zah-a1-m3-cC 2zah-a1-m42-cB_2zah-a1-m43-cC 2zah-a1-m43-cA_2zah-a1-m44-cA 2zah-a1-m43-cB_2zah-a1-m22-cC 2zah-a1-m43-cB_2zah-a1-m44-cC 2zah-a1-m44-cA_2zah-a1-m45-cA 2zah-a1-m44-cB_2zah-a1-m30-cC 2zah-a1-m44-cB_2zah-a1-m45-cC 2zah-a1-m45-cB_2zah-a1-m14-cC 2zah-a1-m45-cB_2zah-a1-m41-cC 2zah-a1-m46-cA_2zah-a1-m47-cA 2zah-a1-m46-cA_2zah-a1-m50-cA 2zah-a1-m46-cB_2zah-a1-m41-cC 2zah-a1-m46-cB_2zah-a1-m47-cC 2zah-a1-m47-cA_2zah-a1-m48-cA 2zah-a1-m47-cB_2zah-a1-m13-cC 2zah-a1-m47-cB_2zah-a1-m48-cC 2zah-a1-m48-cA_2zah-a1-m49-cA 2zah-a1-m48-cB_2zah-a1-m37-cC 2zah-a1-m48-cB_2zah-a1-m49-cC 2zah-a1-m49-cA_2zah-a1-m50-cA 2zah-a1-m49-cB_2zah-a1-m35-cC 2zah-a1-m49-cB_2zah-a1-m50-cC 2zah-a1-m4-cA_2zah-a1-m5-cA 2zah-a1-m4-cB_2zah-a1-m50-cC 2zah-a1-m4-cB_2zah-a1-m5-cC 2zah-a1-m50-cB_2zah-a1-m46-cC 2zah-a1-m50-cB_2zah-a1-m4-cC 2zah-a1-m51-cA_2zah-a1-m52-cA 2zah-a1-m51-cA_2zah-a1-m55-cA 2zah-a1-m51-cB_2zah-a1-m52-cC 2zah-a1-m51-cB_2zah-a1-m56-cC 2zah-a1-m52-cA_2zah-a1-m53-cA 2zah-a1-m52-cB_2zah-a1-m18-cC 2zah-a1-m52-cB_2zah-a1-m53-cC 2zah-a1-m53-cA_2zah-a1-m54-cA 2zah-a1-m53-cB_2zah-a1-m27-cC 2zah-a1-m53-cB_2zah-a1-m54-cC 2zah-a1-m54-cA_2zah-a1-m55-cA 2zah-a1-m54-cB_2zah-a1-m25-cC 2zah-a1-m54-cB_2zah-a1-m55-cC 2zah-a1-m55-cB_2zah-a1-m51-cC 2zah-a1-m55-cB_2zah-a1-m9-cC 2zah-a1-m56-cA_2zah-a1-m57-cA 2zah-a1-m56-cA_2zah-a1-m60-cA 2zah-a1-m56-cB_2zah-a1-m51-cC 2zah-a1-m56-cB_2zah-a1-m57-cC 2zah-a1-m57-cA_2zah-a1-m58-cA 2zah-a1-m57-cB_2zah-a1-m58-cC 2zah-a1-m57-cB_2zah-a1-m8-cC 2zah-a1-m58-cA_2zah-a1-m59-cA 2zah-a1-m58-cB_2zah-a1-m32-cC 2zah-a1-m58-cB_2zah-a1-m59-cC 2zah-a1-m59-cA_2zah-a1-m60-cA 2zah-a1-m59-cB_2zah-a1-m40-cC 2zah-a1-m59-cB_2zah-a1-m60-cC 2zah-a1-m5-cB_2zah-a1-m1-cC 2zah-a1-m5-cB_2zah-a1-m34-cC 2zah-a1-m60-cB_2zah-a1-m19-cC 2zah-a1-m60-cB_2zah-a1-m56-cC 2zah-a1-m6-cA_2zah-a1-m7-cA 2zah-a1-m6-cB_2zah-a1-m1-cC 2zah-a1-m6-cB_2zah-a1-m7-cC 2zah-a1-m7-cA_2zah-a1-m8-cA 2zah-a1-m7-cB_2zah-a1-m33-cC 2zah-a1-m7-cB_2zah-a1-m8-cC 2zah-a1-m8-cB_2zah-a1-m57-cC 2zah-a1-m8-cB_2zah-a1-m9-cC 2zah-a1-m9-cB_2zah-a1-m10-cC 2zah-a1-m9-cB_2zah-a1-m55-cC SVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA SVKIVHREFIASVLPSNDLTVNNGDVNIGKYRVNPSNNALFTWLQGQAQLYDMYRFTRLRFTYIPTTGSTSTGRVSILWDRDSQDPLPIDRAAISSYAHYADSAPWAENVLVVPCDNTWRYMNDTNAVDRKLVDFGQFLFATYSGAGATAHGDLYVEYAVEFKDPQPIAGMVCMFDRLVSFSEVGSTIKGVNYIADRDVITTGGNIGVNINIPGTYLVTIVLNATSIGSLTFTGNSKLVGNSLNVTSSGASALTFTLNSTGVPNSSNSSFSVGTVVALTRVRMTITRCSPETAYLA 2zat-a1-m1-cB_2zat-a1-m1-cD Crystal structure of a mammalian reductase Q8WNV7 Q8WNV7 1.5 X-RAY DIFFRACTION 14 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 251 251 2zat-a1-m1-cA_2zat-a1-m1-cC KPLENKVALVTASTDGIGLAIARRLAQDGAHVVVSSRKQENVDRTVATLQGEGLSVTGTVCHVGKAEDRERLVAMAVNLHGGVDILVSNAAVNPFFGNIIDATEEVWDKILHVNVKATVLMTKAVVPEMEKRGGGSVLIVSSVGAYHPFPNLGPYNVSKTALLGLTKNLAVELAPRNIRVNCLAPGLIKTNFSQVLWMDKARKEYMKESLRIRRLGNPEDCAGIVSFLCSEDASYITGETVVVGGGTASRL KPLENKVALVTASTDGIGLAIARRLAQDGAHVVVSSRKQENVDRTVATLQGEGLSVTGTVCHVGKAEDRERLVAMAVNLHGGVDILVSNAAVNPFFGNIIDATEEVWDKILHVNVKATVLMTKAVVPEMEKRGGGSVLIVSSVGAYHPFPNLGPYNVSKTALLGLTKNLAVELAPRNIRVNCLAPGLIKTNFSQVLWMDKARKEYMKESLRIRRLGNPEDCAGIVSFLCSEDASYITGETVVVGGGTASRL 2zat-a3-m1-cB_2zat-a3-m1-cC Crystal structure of a mammalian reductase Q8WNV7 Q8WNV7 1.5 X-RAY DIFFRACTION 82 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 251 251 2zat-a1-m1-cA_2zat-a1-m1-cD 2zat-a1-m1-cB_2zat-a1-m1-cC 2zat-a2-m1-cA_2zat-a2-m1-cD KPLENKVALVTASTDGIGLAIARRLAQDGAHVVVSSRKQENVDRTVATLQGEGLSVTGTVCHVGKAEDRERLVAMAVNLHGGVDILVSNAAVNPFFGNIIDATEEVWDKILHVNVKATVLMTKAVVPEMEKRGGGSVLIVSSVGAYHPFPNLGPYNVSKTALLGLTKNLAVELAPRNIRVNCLAPGLIKTNFSQVLWMDKARKEYMKESLRIRRLGNPEDCAGIVSFLCSEDASYITGETVVVGGGTASRL KPLENKVALVTASTDGIGLAIARRLAQDGAHVVVSSRKQENVDRTVATLQGEGLSVTGTVCHVGKAEDRERLVAMAVNLHGGVDILVSNAAVNPFFGNIIDATEEVWDKILHVNVKATVLMTKAVVPEMEKRGGGSVLIVSSVGAYHPFPNLGPYNVSKTALLGLTKNLAVELAPRNIRVNCLAPGLIKTNFSQVLWMDKARKEYMKESLRIRRLGNPEDCAGIVSFLCSEDASYITGETVVVGGGTASRL 2zat-a5-m1-cA_2zat-a5-m1-cB Crystal structure of a mammalian reductase Q8WNV7 Q8WNV7 1.5 X-RAY DIFFRACTION 97 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 251 251 2zat-a1-m1-cA_2zat-a1-m1-cB 2zat-a1-m1-cC_2zat-a1-m1-cD 2zat-a4-m1-cC_2zat-a4-m1-cD KPLENKVALVTASTDGIGLAIARRLAQDGAHVVVSSRKQENVDRTVATLQGEGLSVTGTVCHVGKAEDRERLVAMAVNLHGGVDILVSNAAVNPFFGNIIDATEEVWDKILHVNVKATVLMTKAVVPEMEKRGGGSVLIVSSVGAYHPFPNLGPYNVSKTALLGLTKNLAVELAPRNIRVNCLAPGLIKTNFSQVLWMDKARKEYMKESLRIRRLGNPEDCAGIVSFLCSEDASYITGETVVVGGGTASRL KPLENKVALVTASTDGIGLAIARRLAQDGAHVVVSSRKQENVDRTVATLQGEGLSVTGTVCHVGKAEDRERLVAMAVNLHGGVDILVSNAAVNPFFGNIIDATEEVWDKILHVNVKATVLMTKAVVPEMEKRGGGSVLIVSSVGAYHPFPNLGPYNVSKTALLGLTKNLAVELAPRNIRVNCLAPGLIKTNFSQVLWMDKARKEYMKESLRIRRLGNPEDCAGIVSFLCSEDASYITGETVVVGGGTASRL 2zau-a1-m1-cB_2zau-a1-m2-cC Crystal structure of an N-terminally truncated selenophosphate synthetase from Aquifex aeolicus O67139 O67139 2 X-RAY DIFFRACTION 47 0.997 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 303 304 2zau-a1-m1-cA_2zau-a1-m2-cA 2zau-a1-m2-cB_2zau-a1-m1-cC GFNIYTDESTLVSIDAGVYEHNGIIWVYTVDIITPVVNDPYLWGAISTANALSDVYAMGGIPVNALAISCFNNCEIFREVIRGALDKLREAKTVLLGGHTIDDKEPKFGLSVAGICPEGKYITQSGAQVGQLLILTKPIGTGILIKGLKEGILKEEDINEAIENMLALNDKARNLMLSLDATACTDVTGFGLLGHAWNICKNSNIGARIFFEKVPYYQLSENLVKKKIYPKGAIENLNFVKNYLKSNLDNWKLILLSDPVTSGGLLFTINKEKLEKIDETAKELEVNYWIIGETIAENVLEVL GFNIYTDESTLVSIGAGVYEHNGIIWVYTVDIITPVVNDPYLWGAISTANALSDVYAMGGIPVNALAISCFNNCIEIFREVIRGALDKLREAKTVLLGGHTIDDKEPKFGLSVAGICPEGKYITQSGAQVGQLLILTKPIGTGILIKGLKEGILKEEDINEAIENMLALNDKARNLMLSLDATACTDVTGFGLLGHAWNICKNSNIGARIFFEKVPYYQLSENLVKKKIYPKGAIENLNFVKNYLKSNLDNWKLILLSDPVTSGGLLFTINKEKLEKIDETAKELEVNYWIIGETIAENVLEVL 2zau-a1-m2-cC_2zau-a1-m1-cA Crystal structure of an N-terminally truncated selenophosphate synthetase from Aquifex aeolicus O67139 O67139 2 X-RAY DIFFRACTION 70 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 304 307 2zau-a1-m1-cB_2zau-a1-m2-cB 2zau-a1-m1-cC_2zau-a1-m2-cA GFNIYTDESTLVSIGAGVYEHNGIIWVYTVDIITPVVNDPYLWGAISTANALSDVYAMGGIPVNALAISCFNNCIEIFREVIRGALDKLREAKTVLLGGHTIDDKEPKFGLSVAGICPEGKYITQSGAQVGQLLILTKPIGTGILIKGLKEGILKEEDINEAIENMLALNDKARNLMLSLDATACTDVTGFGLLGHAWNICKNSNIGARIFFEKVPYYQLSENLVKKKIYPKGAIENLNFVKNYLKSNLDNWKLILLSDPVTSGGLLFTINKEKLEKIDETAKELEVNYWIIGETIAENVLEVL GFNIYTDESTLVSIGDDAGVYEHNGIIWVYTVDIITPVVNDPYLWGAISTANALSDVYAMGGIPVNALAISCFNNCEIEIFREVIRGALDKLREAKTVLLGGHTIDDKEPKFGLSVAGICPEGKYITQSGAQVGQLLILTKPIGTGILIKGLKEGILKEEDINEAIENMLALNDKARNLMLSLDATACTDVTGFGLLGHAWNICKNSNIGARIFFEKVPYYQLSENLVKKKIYPKGAIENLNFVKNYLKSNLDNWKLILLSDPVTSGGLLFTINKEKLEKIDETAKELEVNYWIIGETIAENVLEVL 2zb3-a2-m1-cA_2zb3-a2-m2-cA Crystal structure of mouse 15-ketoprostaglandin delta-13-reductase in complex with NADPH Q8VDQ1 Q8VDQ1 2 X-RAY DIFFRACTION 115 1.0 10090 (Mus musculus) 10090 (Mus musculus) 345 345 IIQRVVLNSRPGKNGNTVAENFRVEEFSLPDALNEGQVQVRTLYLSVDPYMRCKMNEDTGTDYLAPWQLAQVADGGGIGVVEESKHQKLTKGDFVTSFYWPWQTKAILDGNGLEKVDPQLVDGHLSYFLGAIGMPGLTSLIGVQEKGHISAGSNQTMVVSGAAGACGSLAGQIGHLLGCSRVVGICGTQEKCLFLTSELGFDAAVNYKTGNVAEQLREACPGGVDVYFDNVGGDISNAVISQMNENSHIILCGQISQYSNDVPYPPPLPPAVEAIRKERNITRERFTVLNYKDKFEPGILQLSQWFKEGKLKVKETMAKGLENMGVAFQSMMTGGNVGKQIVCIS IIQRVVLNSRPGKNGNTVAENFRVEEFSLPDALNEGQVQVRTLYLSVDPYMRCKMNEDTGTDYLAPWQLAQVADGGGIGVVEESKHQKLTKGDFVTSFYWPWQTKAILDGNGLEKVDPQLVDGHLSYFLGAIGMPGLTSLIGVQEKGHISAGSNQTMVVSGAAGACGSLAGQIGHLLGCSRVVGICGTQEKCLFLTSELGFDAAVNYKTGNVAEQLREACPGGVDVYFDNVGGDISNAVISQMNENSHIILCGQISQYSNDVPYPPPLPPAVEAIRKERNITRERFTVLNYKDKFEPGILQLSQWFKEGKLKVKETMAKGLENMGVAFQSMMTGGNVGKQIVCIS 2zb8-a2-m1-cA_2zb8-a2-m2-cA Crystal structure of human 15-ketoprostaglandin delta-13-reductase in complex with NADP and indomethacin Q8N8N7 Q8N8N7 2 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 342 342 MIVQRVVLNSRPGKNGNPVAENFRMEEVYLPDNINEGQVQVRTLYLSVDPYMRCRMNEDTITPWQLSQVVDGGGIGIIEESKHTNLTKGDFVTSFYWPWQTKVILDGNSLEKVDPQLVDGHLSYFLGAIGMPGLTSLIGIQEKGHITAGSNKTMVVSGAAGACGSVAGQIGHFLGCSRVVGICGTHEKCILLTSELGFDAAINYKKDNVAEQLRESCPAGVDVYFDNVGGNISDTVISQMNENSHIILCGQISQYNKDVPYPPPLSPAIEAIQKERNITRERFLVLNYKDKFEPGILQLSQWFKEGKLKIKETVINGLENMGAAFQSMMTGGNIGKQIVCIS MIVQRVVLNSRPGKNGNPVAENFRMEEVYLPDNINEGQVQVRTLYLSVDPYMRCRMNEDTITPWQLSQVVDGGGIGIIEESKHTNLTKGDFVTSFYWPWQTKVILDGNSLEKVDPQLVDGHLSYFLGAIGMPGLTSLIGIQEKGHITAGSNKTMVVSGAAGACGSVAGQIGHFLGCSRVVGICGTHEKCILLTSELGFDAAINYKKDNVAEQLRESCPAGVDVYFDNVGGNISDTVISQMNENSHIILCGQISQYNKDVPYPPPLSPAIEAIQKERNITRERFLVLNYKDKFEPGILQLSQWFKEGKLKIKETVINGLENMGAAFQSMMTGGNIGKQIVCIS 2zb9-a1-m1-cB_2zb9-a1-m1-cA Crystal structure of TetR family transcription regulator SCO0332 Q9RK47 Q9RK47 2.25 X-RAY DIFFRACTION 159 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 182 188 EEVRAEVLHAVGELLLTEGTAQLTFERVARVSGVSKTTLYKWWPSKGALALDGYFHAVEDTLAFPDTGDVRADLLAQLRAFTHVMTRTPGGRILTELIGAAQTDADLATAYRQLYSAQRRALAAERLRHARELGQIRPDVDVQVLVDQLWGAVYHRLLIPDEPVDDAFVTALVTNLLDGVCP GRRPAEEVRAEVLHAVGELLLTEGTAQLTFERVARVSGVSKTTLYKWWPSKGALALDGYFHAVEDTLAFPDTGDVRADLLAQLRAFTHVMTRTPGGRILTELIGAAQTDADLATAYRQLYSAQRRALAAERLRHARELGQIRPDVDVQVLVDQLWGAVYHRLLIPDEPVDDAFVTALVTNLLDGVCPR 2zbc-a2-m3-cE_2zbc-a2-m3-cH Crystal structure of STS042, a stand-alone RAM module protein, from hyperthermophilic archaeon Sulfolobus tokodaii strain7. Q975W5 Q975W5 1.9 X-RAY DIFFRACTION 65 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 78 78 2zbc-a1-m1-cA_2zbc-a1-m2-cC 2zbc-a1-m1-cB_2zbc-a1-m2-cD 2zbc-a1-m1-cC_2zbc-a1-m2-cA 2zbc-a1-m1-cD_2zbc-a1-m2-cB 2zbc-a2-m1-cE_2zbc-a2-m1-cH 2zbc-a2-m1-cF_2zbc-a2-m1-cG 2zbc-a2-m3-cF_2zbc-a2-m3-cG ASAIVLINTDAGGEDEVFERLKSSEVTEVHVVYGVYDIVVKVEADSDKLKDFVTNTIRKLPKVRSTLTIIVEGKSLVK ASAIVLINTDAGGEDEVFERLKSSEVTEVHVVYGVYDIVVKVEADSDKLKDFVTNTIRKLPKVRSTLTIIVEGKSLVK 2zbc-a2-m3-cF_2zbc-a2-m3-cH Crystal structure of STS042, a stand-alone RAM module protein, from hyperthermophilic archaeon Sulfolobus tokodaii strain7. Q975W5 Q975W5 1.9 X-RAY DIFFRACTION 24 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 78 78 2zbc-a1-m1-cA_2zbc-a1-m1-cC 2zbc-a1-m1-cA_2zbc-a1-m1-cD 2zbc-a1-m1-cB_2zbc-a1-m1-cC 2zbc-a1-m1-cB_2zbc-a1-m1-cD 2zbc-a1-m2-cA_2zbc-a1-m2-cC 2zbc-a1-m2-cA_2zbc-a1-m2-cD 2zbc-a1-m2-cB_2zbc-a1-m2-cC 2zbc-a1-m2-cB_2zbc-a1-m2-cD 2zbc-a2-m1-cE_2zbc-a2-m1-cG 2zbc-a2-m1-cE_2zbc-a2-m3-cH 2zbc-a2-m1-cF_2zbc-a2-m1-cH 2zbc-a2-m1-cF_2zbc-a2-m3-cG 2zbc-a2-m1-cG_2zbc-a2-m3-cF 2zbc-a2-m1-cH_2zbc-a2-m3-cE 2zbc-a2-m3-cE_2zbc-a2-m3-cG ASAIVLINTDAGGEDEVFERLKSSEVTEVHVVYGVYDIVVKVEADSDKLKDFVTNTIRKLPKVRSTLTIIVEGKSLVK ASAIVLINTDAGGEDEVFERLKSSEVTEVHVVYGVYDIVVKVEADSDKLKDFVTNTIRKLPKVRSTLTIIVEGKSLVK 2zbc-a2-m3-cG_2zbc-a2-m3-cH Crystal structure of STS042, a stand-alone RAM module protein, from hyperthermophilic archaeon Sulfolobus tokodaii strain7. Q975W5 Q975W5 1.9 X-RAY DIFFRACTION 10 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 78 78 2zbc-a2-m1-cG_2zbc-a2-m1-cH ASAIVLINTDAGGEDEVFERLKSSEVTEVHVVYGVYDIVVKVEADSDKLKDFVTNTIRKLPKVRSTLTIIVEGKSLVK ASAIVLINTDAGGEDEVFERLKSSEVTEVHVVYGVYDIVVKVEADSDKLKDFVTNTIRKLPKVRSTLTIIVEGKSLVK 2zbk-a2-m1-cE_2zbk-a2-m1-cG Crystal structure of an intact type II DNA topoisomerase: insights into DNA transfer mechanisms O05208 O05208 3.56 X-RAY DIFFRACTION 150 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 347 347 2zbk-a1-m1-cA_2zbk-a1-m1-cC DKEARRKAANILRDKFLNLVEQLKKGEPLVMEIPMLRRNFLDLNEAKRFMQTVLMASIIYDALVSDEYPTIRDLYYRGKHSLLLKSIEENTWDEQKESDSVIVDIEVFTSLLREEMLILSKEKGKVVGNLRIRSGNDVIDLSKTGHGAYAIEPTPDLIDFIDVDAEFVLVVEKDAVFQQLHRAGFWKQYKSILITSAGQPDRATRRFVRRLNEELKLPVYILTDADPYGWYIFSVFRIGSISERLATPDAKFLGVSMGDIFGNSRKKPYLSEAERKNYIIKAKDADIKRAEEIKNYEWFKTKAWQEEINTFLQRKAKLEIEAMASKGLKFLAFQYIPEKITNKDYIA DKEARRKAANILRDKFLNLVEQLKKGEPLVMEIPMLRRNFLDLNEAKRFMQTVLMASIIYDALVSDEYPTIRDLYYRGKHSLLLKSIEENTWDEQKESDSVIVDIEVFTSLLREEMLILSKEKGKVVGNLRIRSGNDVIDLSKTGHGAYAIEPTPDLIDFIDVDAEFVLVVEKDAVFQQLHRAGFWKQYKSILITSAGQPDRATRRFVRRLNEELKLPVYILTDADPYGWYIFSVFRIGSISERLATPDAKFLGVSMGDIFGNSRKKPYLSEAERKNYIIKAKDADIKRAEEIKNYEWFKTKAWQEEINTFLQRKAKLEIEAMASKGLKFLAFQYIPEKITNKDYIA 2zbo-a7-m1-cA_2zbo-a7-m1-cK Crystal structure of low-redox-potential cytochrom c6 from brown alga Hizikia fusiformis at 1.6 A resolution Q76FN8 Q76FN8 1.6 X-RAY DIFFRACTION 23 1.0 86 86 2zbo-a7-m1-cC_2zbo-a7-m1-cG 2zbo-a7-m1-cE_2zbo-a7-m1-cI ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN 2zbo-a7-m1-cC_2zbo-a7-m1-cE Crystal structure of low-redox-potential cytochrom c6 from brown alga Hizikia fusiformis at 1.6 A resolution Q76FN8 Q76FN8 1.6 X-RAY DIFFRACTION 24 1.0 86 86 2zbo-a7-m1-cA_2zbo-a7-m1-cC 2zbo-a7-m1-cA_2zbo-a7-m1-cE ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN 2zbo-a7-m1-cC_2zbo-a7-m1-cK Crystal structure of low-redox-potential cytochrom c6 from brown alga Hizikia fusiformis at 1.6 A resolution Q76FN8 Q76FN8 1.6 X-RAY DIFFRACTION 16 1.0 86 86 2zbo-a7-m1-cA_2zbo-a7-m1-cI 2zbo-a7-m1-cE_2zbo-a7-m1-cG ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN 2zbo-a7-m1-cI_2zbo-a7-m1-cK Crystal structure of low-redox-potential cytochrom c6 from brown alga Hizikia fusiformis at 1.6 A resolution Q76FN8 Q76FN8 1.6 X-RAY DIFFRACTION 14 1.0 86 86 2zbo-a7-m1-cG_2zbo-a7-m1-cI 2zbo-a7-m1-cG_2zbo-a7-m1-cK ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN ADINHGENVFTANCSACHAGGNNVIMPEKTLQKDALSTNQMNSVGAITYQVTNGKNAMPAFGGRLSDDDIEDVASFVLSQSEKSWN 2zbr-a2-m1-cA_2zbr-a2-m2-cA Crystal structure of ribosomal protein L11 methyltransferase from Thermus thermophilus in complex with S-adenosyl-ornithine Q84BQ9 Q84BQ9 1.9 X-RAY DIFFRACTION 44 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 248 248 2zbp-a2-m1-cA_2zbp-a2-m2-cA 2zbq-a2-m1-cA_2zbq-a2-m2-cA MWVYRLKGTLEALDPILPGLFDGGARGLWEREGEVWAFFPAPVDLPYEGVWEEVGDEDWLEAWRRDLKPALAPPFVVLAPWHTWEGAEIPLVIEPGHHETTRLALKALARHLRPGDKVLDLGTGSGVLAIAAEKLGGKALGVDIDPMVLPQAEANAKRNGVRPRFLEGSLEAALPFGPFDLLVANLYAELHAALAPRYREALVPGGRALLTGILKDRAPLVREAMAGAGFRPLEEAAEGEWVLLAYGR MWVYRLKGTLEALDPILPGLFDGGARGLWEREGEVWAFFPAPVDLPYEGVWEEVGDEDWLEAWRRDLKPALAPPFVVLAPWHTWEGAEIPLVIEPGHHETTRLALKALARHLRPGDKVLDLGTGSGVLAIAAEKLGGKALGVDIDPMVLPQAEANAKRNGVRPRFLEGSLEAALPFGPFDLLVANLYAELHAALAPRYREALVPGGRALLTGILKDRAPLVREAMAGAGFRPLEEAAEGEWVLLAYGR 2zbs-a1-m1-cA_2zbs-a1-m2-cA Crystal structure of human estrogen-related receptor gamma ligand binding domain apo form P62508 P62508 1.8 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 227 1kv6-a1-m1-cA_1kv6-a1-m1-cB 1s9p-a1-m1-cA_1s9p-a1-m1-cB 1s9p-a2-m1-cC_1s9p-a2-m1-cD 1s9p-a3-m1-cA_1s9p-a3-m1-cB 1s9p-a3-m2-cC_1s9p-a3-m2-cD 1s9q-a1-m1-cB_1s9q-a1-m1-cA 1s9q-a2-m1-cB_1s9q-a2-m1-cA 1s9q-a2-m2-cB_1s9q-a2-m2-cA 1tfc-a1-m1-cB_1tfc-a1-m1-cA 1vjb-a1-m1-cA_1vjb-a1-m1-cB 2e2r-a1-m1-cA_2e2r-a1-m2-cA 2ewp-a1-m1-cA_2ewp-a1-m1-cB 2ewp-a2-m1-cD_2ewp-a2-m1-cC 2ewp-a3-m1-cE_2ewp-a3-m2-cE 2gp7-a1-m1-cA_2gp7-a1-m1-cB 2gp7-a2-m1-cC_2gp7-a2-m1-cD 2gpo-a1-m1-cA_2gpo-a1-m2-cA 2gpp-a1-m1-cB_2gpp-a1-m1-cA 2gpu-a1-m1-cA_2gpu-a1-m2-cA 2gpv-a1-m1-cD_2gpv-a1-m1-cA 2gpv-a1-m1-cE_2gpv-a1-m1-cB 2gpv-a2-m1-cF_2gpv-a2-m1-cC 2gpv-a2-m2-cF_2gpv-a2-m2-cC 2zas-a1-m1-cA_2zas-a1-m2-cA 2zkc-a1-m1-cA_2zkc-a1-m2-cA 6i61-a1-m1-cA_6i61-a1-m2-cA 6i62-a1-m1-cA_6i62-a1-m2-cA 6i63-a1-m1-cA_6i63-a1-m2-cA 6i64-a1-m1-cA_6i64-a1-m2-cA 6i65-a1-m1-cA_6i65-a1-m2-cA 6i66-a1-m1-cA_6i66-a1-m2-cA 6i67-a1-m1-cA_6i67-a1-m2-cA 6k3n-a1-m1-cA_6k3n-a1-m2-cA KPYNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMHKLFLEMLEAKV KPYNKIVSHLLVAEPEKIYAMPDPTVPDSDIKALTTLCDLADRELVVIIGWAKHIPGFSTLSLADQMSLLQSAWMEILILGVVYRSLSFEDELVYADDYIMDEDQSKLAGLLDLNNAILQLVKKYKSMKLEKEEFVTLKAIALANSDSMHIEDVEAVQKLQDVLHEALQDYEAGQHMEDPRRAGKMLMTLPLLRQTSTKAVQHFYNIKLEGKVPMHKLFLEMLEAKV 2zbt-a1-m3-cB_2zbt-a1-m3-cD Crystal structure of pyridoxine biosynthesis protein from Thermus thermophilus HB8 Q5SKD9 Q5SKD9 1.65 X-RAY DIFFRACTION 71 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 274 274 2zbt-a1-m1-cB_2zbt-a1-m1-cD 2zbt-a1-m1-cB_2zbt-a1-m3-cD 2zbt-a1-m1-cC_2zbt-a1-m1-cA 2zbt-a1-m1-cC_2zbt-a1-m2-cA 2zbt-a1-m1-cD_2zbt-a1-m2-cB 2zbt-a1-m2-cB_2zbt-a1-m2-cD 2zbt-a1-m2-cC_2zbt-a1-m2-cA 2zbt-a1-m2-cC_2zbt-a1-m3-cA 2zbt-a1-m2-cD_2zbt-a1-m3-cB 2zbt-a1-m3-cC_2zbt-a1-m1-cA 2zbt-a1-m3-cC_2zbt-a1-m3-cA MEKGTFQIKTGFAEMFKGGVIMDVTTPEQAVIAEEAGAVAVMALERVPADIRAQGGVARMSDPKIIKEIMAAVSIPVMAKVRIGHFVEAMILEAIGVDFIDESEVLTPADEEHHIDKWKFKVPFVCGARNLGEALRRIAEGAAMIRTKGEAGTGNVVEAVRHARTMWKEIRYVQSLREDELMAYAKEIGAPFELVKWVHDHGRLPVVNFAAGGIATPADAALMMHLGMDGVFVGSGIFKSGDPRKRARAIVRAVAHYNDPEVLAEVSEDLGEPM MEKGTFQIKTGFAEMFKGGVIMDVTTPEQAVIAEEAGAVAVMALERVPADIRAQGGVARMSDPKIIKEIMAAVSIPVMAKVRIGHFVEAMILEAIGVDFIDESEVLTPADEEHHIDKWKFKVPFVCGARNLGEALRRIAEGAAMIRTKGEAGTGNVVEAVRHARTMWKEIRYVQSLREDELMAYAKEIGAPFELVKWVHDHGRLPVVNFAAGGIATPADAALMMHLGMDGVFVGSGIFKSGDPRKRARAIVRAVAHYNDPEVLAEVSEDLGEPM 2zbt-a1-m3-cC_2zbt-a1-m3-cD Crystal structure of pyridoxine biosynthesis protein from Thermus thermophilus HB8 Q5SKD9 Q5SKD9 1.65 X-RAY DIFFRACTION 76 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 270 274 2zbt-a1-m1-cB_2zbt-a1-m1-cA 2zbt-a1-m1-cC_2zbt-a1-m1-cD 2zbt-a1-m2-cB_2zbt-a1-m2-cA 2zbt-a1-m2-cC_2zbt-a1-m2-cD 2zbt-a1-m3-cB_2zbt-a1-m3-cA TFQIKTGFAEMFKGGVIMDVTTPEQAVIAEEAGAVAVMALERVPADIRAQGGVARMSDPKIIKEIMAAVSIPVMAKVRIGHFVEAMILEAIGVDFIDESEVLTPADEEHHIDKWKFKVPFVCGARNLGEALRRIAEGAAMIRTKGEAGTGNVVEAVRHARTMWKEIRYVQSLREDELMAYAKEIGAPFELVKWVHDHGRLPVVNFAAGGIATPADAALMMHLGMDGVFVGSGIFKSGDPRKRARAIVRAVAHYNDPEVLAEVSEDLGEPM MEKGTFQIKTGFAEMFKGGVIMDVTTPEQAVIAEEAGAVAVMALERVPADIRAQGGVARMSDPKIIKEIMAAVSIPVMAKVRIGHFVEAMILEAIGVDFIDESEVLTPADEEHHIDKWKFKVPFVCGARNLGEALRRIAEGAAMIRTKGEAGTGNVVEAVRHARTMWKEIRYVQSLREDELMAYAKEIGAPFELVKWVHDHGRLPVVNFAAGGIATPADAALMMHLGMDGVFVGSGIFKSGDPRKRARAIVRAVAHYNDPEVLAEVSEDLGEPM 2zbt-a1-m3-cD_2zbt-a1-m3-cA Crystal structure of pyridoxine biosynthesis protein from Thermus thermophilus HB8 Q5SKD9 Q5SKD9 1.65 X-RAY DIFFRACTION 20 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 274 276 2zbt-a1-m1-cC_2zbt-a1-m2-cB 2zbt-a1-m1-cD_2zbt-a1-m1-cA 2zbt-a1-m2-cC_2zbt-a1-m3-cB 2zbt-a1-m2-cD_2zbt-a1-m2-cA 2zbt-a1-m3-cC_2zbt-a1-m1-cB MEKGTFQIKTGFAEMFKGGVIMDVTTPEQAVIAEEAGAVAVMALERVPADIRAQGGVARMSDPKIIKEIMAAVSIPVMAKVRIGHFVEAMILEAIGVDFIDESEVLTPADEEHHIDKWKFKVPFVCGARNLGEALRRIAEGAAMIRTKGEAGTGNVVEAVRHARTMWKEIRYVQSLREDELMAYAKEIGAPFELVKWVHDHGRLPVVNFAAGGIATPADAALMMHLGMDGVFVGSGIFKSGDPRKRARAIVRAVAHYNDPEVLAEVSEDLGEPM GGMEKGTFQIKTGFAEMFKGGVIMDVTTPEQAVIAEEAGAVAVMALERVPADIRAQGGVARMSDPKIIKEIMAAVSIPVMAKVRIGHFVEAMILEAIGVDFIDESEVLTPADEEHHIDKWKFKVPFVCGARNLGEALRRIAEGAAMIRTKGEAGTGNVVEAVRHARTMWKEIRYVQSLREDELMAYAKEIGAPFELVKWVHDHGRLPVVNFAAGGIATPADAALMMHLGMDGVFVGSGIFKSGDPRKRARAIVRAVAHYNDPEVLAEVSEDLGEPM 2zbu-a3-m2-cC_2zbu-a3-m3-cC Crystal structure of uncharacterized conserved protein from Thermotoga maritima Q9WZC8 Q9WZC8 2.1 X-RAY DIFFRACTION 83 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 259 259 2zbu-a1-m1-cA_2zbu-a1-m2-cA 2zbu-a1-m1-cA_2zbu-a1-m3-cA 2zbu-a1-m2-cA_2zbu-a1-m3-cA 2zbu-a2-m1-cB_2zbu-a2-m4-cB 2zbu-a2-m1-cB_2zbu-a2-m5-cB 2zbu-a2-m4-cB_2zbu-a2-m5-cB 2zbu-a3-m1-cC_2zbu-a3-m2-cC 2zbu-a3-m1-cC_2zbu-a3-m3-cC 2zbu-a4-m1-cD_2zbu-a4-m6-cD 2zbu-a4-m1-cD_2zbu-a4-m7-cD 2zbu-a4-m6-cD_2zbu-a4-m7-cD 2zbv-a1-m1-cB_2zbv-a1-m1-cA 2zbv-a1-m1-cB_2zbv-a1-m1-cC 2zbv-a1-m1-cC_2zbv-a1-m1-cA IGFLTDWGLKSHYVGVAKAVIKRINPSAEIIDITHEVEPFNVRKASHVLYRASLDFPPSTVFLVVVDYGVGTSRKAIVKTKNDQYFVAPDNGVLTVVAEEYGVAEIREIENRELFYKKNPSFTFHGRDIFAPVAAHLDGLPLERVGDRLLSYEVLKRKPVVENEKVIGEVAIVDTFGNVSTNIPFDLFLKLSVDFDDVVRVRVGRKEFKAAVAKAFGDVDTGELLVHPDSAGFLEIAVNLGDASQVLSVKEGDEIEICR IGFLTDWGLKSHYVGVAKAVIKRINPSAEIIDITHEVEPFNVRKASHVLYRASLDFPPSTVFLVVVDYGVGTSRKAIVKTKNDQYFVAPDNGVLTVVAEEYGVAEIREIENRELFYKKNPSFTFHGRDIFAPVAAHLDGLPLERVGDRLLSYEVLKRKPVVENEKVIGEVAIVDTFGNVSTNIPFDLFLKLSVDFDDVVRVRVGRKEFKAAVAKAFGDVDTGELLVHPDSAGFLEIAVNLGDASQVLSVKEGDEIEICR 2zbw-a1-m1-cA_2zbw-a1-m1-cB Crystal structure of thioredoxin reductase-like protein from Thermus thermophilus HB8 Q5SL28 Q5SL28 2.1 X-RAY DIFFRACTION 147 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 330 331 ADHTDVLIVGAGPTGLFAGFYVGRGLSFRFVDPLPEPGGQLTALYPEKYIYDVAGFPKVYAKDLVKGLVEQVAPFNPVYSLGERAETLEREGDLFKVTTSQGNAYTAKAVIIAAGVGAFEPRRIGAPGEREFEGRGVYYAVKSKAEFQGKRVLIVGGGDSAVDWALNLLDTARRITLIHRRPQFRAHEASVKELKAHEEGRLEVLTPYELRRVEGDERVRWAVVFHNQTQEELALEVDAVLILAGYITKLGPLANWGLALEKNKIKVDTTATSIPGVYACGDIVTYPGKLPLIVLGFGEAAIAANHAAAYANPALKVNPGHSSEKAAPGT AADHTDVLIVGAGPTGLFAGFYVGRGLSFRFVDPLPEPGGQLTALYPEKYIYDVAGFPKVYAKDLVKGLVEQVAPFNPVYSLGERAETLEREGDLFKVTTSQGNAYTAKAVIIAAGVGAFEPRRIGAPGEREFEGRGVYYAVKSKAEFQGKRVLIVGGGDSAVDWALNLLDTARRITLIHRRPQFRAHEASVKELKAHEEGRLEVLTPYELRRVEGDERVRWAVVFHNQTQEELALEVDAVLILAGYITKLGPLANWGLALEKNKIKVDTTATSIPGVYACGDIVTYPGKLPLIVLGFGEAAIAANHAAAYANPALKVNPGHSSEKAAPGT 2zc0-a1-m1-cA_2zc0-a1-m1-cD Crystal structure of an archaeal alanine:glyoxylate aminotransferase Q9C4M4 Q9C4M4 2.3 X-RAY DIFFRACTION 13 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 405 405 2zc0-a1-m1-cB_2zc0-a1-m1-cC MDYTKYLAGRANWIKGSALADVMKKASELQKKGVKLISLAAGDPDPELIPRAVLGEIAKEVLEKEPKSVMYTPANGIPELREELAAFLKKYDHLEVSPENIVITIGGTGALDLLGRVLIDPGDVVITENPSYINTLLAFEQLGAKIEGVPVDNDGMRVDLLEEKIKELKAKGQKVKLIYTIPTGQNPMGVTMSMERRKALLEIASKYDLLIIEDTAYNFMRYEGGDIVPLKALDNEGRVIVAGTLSKVLGTGFRIGWIIAEGEILKKVLMQKQPIDFCAPAISQYIALEYLKRGYFEKYHLEGALLGYKEKRDIMLKALENHLPNAEFTKPIAGMFVMFFLPEGADGISFANELMEREGVVVVPGKPFYTDESGKNAIRLNFSRPSKEEIPIGIKKLAKLYKEKF MDYTKYLAGRANWIKGSALADVMKKASELQKKGVKLISLAAGDPDPELIPRAVLGEIAKEVLEKEPKSVMYTPANGIPELREELAAFLKKYDHLEVSPENIVITIGGTGALDLLGRVLIDPGDVVITENPSYINTLLAFEQLGAKIEGVPVDNDGMRVDLLEEKIKELKAKGQKVKLIYTIPTGQNPMGVTMSMERRKALLEIASKYDLLIIEDTAYNFMRYEGGDIVPLKALDNEGRVIVAGTLSKVLGTGFRIGWIIAEGEILKKVLMQKQPIDFCAPAISQYIALEYLKRGYFEKYHLEGALLGYKEKRDIMLKALENHLPNAEFTKPIAGMFVMFFLPEGADGISFANELMEREGVVVVPGKPFYTDESGKNAIRLNFSRPSKEEIPIGIKKLAKLYKEKF 2zc0-a1-m1-cB_2zc0-a1-m1-cD Crystal structure of an archaeal alanine:glyoxylate aminotransferase Q9C4M4 Q9C4M4 2.3 X-RAY DIFFRACTION 63 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 405 405 2zc0-a1-m1-cA_2zc0-a1-m1-cC MDYTKYLAGRANWIKGSALADVMKKASELQKKGVKLISLAAGDPDPELIPRAVLGEIAKEVLEKEPKSVMYTPANGIPELREELAAFLKKYDHLEVSPENIVITIGGTGALDLLGRVLIDPGDVVITENPSYINTLLAFEQLGAKIEGVPVDNDGMRVDLLEEKIKELKAKGQKVKLIYTIPTGQNPMGVTMSMERRKALLEIASKYDLLIIEDTAYNFMRYEGGDIVPLKALDNEGRVIVAGTLSKVLGTGFRIGWIIAEGEILKKVLMQKQPIDFCAPAISQYIALEYLKRGYFEKYHLEGALLGYKEKRDIMLKALENHLPNAEFTKPIAGMFVMFFLPEGADGISFANELMEREGVVVVPGKPFYTDESGKNAIRLNFSRPSKEEIPIGIKKLAKLYKEKF MDYTKYLAGRANWIKGSALADVMKKASELQKKGVKLISLAAGDPDPELIPRAVLGEIAKEVLEKEPKSVMYTPANGIPELREELAAFLKKYDHLEVSPENIVITIGGTGALDLLGRVLIDPGDVVITENPSYINTLLAFEQLGAKIEGVPVDNDGMRVDLLEEKIKELKAKGQKVKLIYTIPTGQNPMGVTMSMERRKALLEIASKYDLLIIEDTAYNFMRYEGGDIVPLKALDNEGRVIVAGTLSKVLGTGFRIGWIIAEGEILKKVLMQKQPIDFCAPAISQYIALEYLKRGYFEKYHLEGALLGYKEKRDIMLKALENHLPNAEFTKPIAGMFVMFFLPEGADGISFANELMEREGVVVVPGKPFYTDESGKNAIRLNFSRPSKEEIPIGIKKLAKLYKEKF 2zc0-a3-m1-cA_2zc0-a3-m1-cB Crystal structure of an archaeal alanine:glyoxylate aminotransferase Q9C4M4 Q9C4M4 2.3 X-RAY DIFFRACTION 275 1.0 2265 (Thermococcus litoralis) 2265 (Thermococcus litoralis) 405 405 2zc0-a1-m1-cA_2zc0-a1-m1-cB 2zc0-a1-m1-cC_2zc0-a1-m1-cD 2zc0-a2-m1-cC_2zc0-a2-m1-cD MDYTKYLAGRANWIKGSALADVMKKASELQKKGVKLISLAAGDPDPELIPRAVLGEIAKEVLEKEPKSVMYTPANGIPELREELAAFLKKYDHLEVSPENIVITIGGTGALDLLGRVLIDPGDVVITENPSYINTLLAFEQLGAKIEGVPVDNDGMRVDLLEEKIKELKAKGQKVKLIYTIPTGQNPMGVTMSMERRKALLEIASKYDLLIIEDTAYNFMRYEGGDIVPLKALDNEGRVIVAGTLSKVLGTGFRIGWIIAEGEILKKVLMQKQPIDFCAPAISQYIALEYLKRGYFEKYHLEGALLGYKEKRDIMLKALENHLPNAEFTKPIAGMFVMFFLPEGADGISFANELMEREGVVVVPGKPFYTDESGKNAIRLNFSRPSKEEIPIGIKKLAKLYKEKF MDYTKYLAGRANWIKGSALADVMKKASELQKKGVKLISLAAGDPDPELIPRAVLGEIAKEVLEKEPKSVMYTPANGIPELREELAAFLKKYDHLEVSPENIVITIGGTGALDLLGRVLIDPGDVVITENPSYINTLLAFEQLGAKIEGVPVDNDGMRVDLLEEKIKELKAKGQKVKLIYTIPTGQNPMGVTMSMERRKALLEIASKYDLLIIEDTAYNFMRYEGGDIVPLKALDNEGRVIVAGTLSKVLGTGFRIGWIIAEGEILKKVLMQKQPIDFCAPAISQYIALEYLKRGYFEKYHLEGALLGYKEKRDIMLKALENHLPNAEFTKPIAGMFVMFFLPEGADGISFANELMEREGVVVVPGKPFYTDESGKNAIRLNFSRPSKEEIPIGIKKLAKLYKEKF 2zc3-a3-m2-cB_2zc3-a3-m1-cE Penicillin-binding protein 2X (PBP 2X) acyl-enzyme complex (biapenem) from Streptococcus pneumoniae P14677 P14677 2.5 X-RAY DIFFRACTION 19 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 366 367 2zc4-a3-m1-cE_2zc4-a3-m2-cB RTMDGKDVYTTISSPLQSFMETQMDAFQEKVKGKYMTATLVSAKTGEILATTQRPTFDADTKEGITEDFVWRDILYQSNYEPGSTMKVMMLAAAIDNNTFPGGEVFNSSELKIADATIRDWDVNEGLTGGRMMTFSQGFAHSSNVGMTLLEQKMGDATWLDYLNRFKFGVPTRFGLTDEYAGQLPADNIVNIAQSSFGQGISVTQTQMIRAFTAIANDGVMLEPKFISAIYDPNDQTARKSQKEIVGNPVSKDAASLTRTNMVLVGTDPVYGTMYNHSTGKPTVTVPGQNVALKSGTAQIADEKNGGYLVGLTDYIFSAVSMSPAENPDFILYVTVQQPEHYSGIQLGEFANPILERASAMKDSLN RTMDGKDVYTTISSPLQSFMETQMDAFQEKVKGKYMTATLVSAKTGEILATTQRPTFDADTKEGITEDFVWRDILYQSNYEPGSTMKVMMLAAAIDNNTFPGGEVFNSSELKIADATIRDWDVNEGLTGGRMMTFSQGFAHSSNVGMTLLEQKMGDATWLDYLNRFKFGVPTRFGLTDEYAGQLPADNIVNIAQSSFGQGISVTQTQMIRAFTAIANDGVMLEPKFISAIYDPNDQTARKSQKEIVGNPVSKDAASLTRTNMVLVGTDPVYGTMYNHSTGKPTVTVPGQNVALKSGTAQIADEKNGGYLVGLTDYIFSAVSMSPAENPDFILYVTVQQPEHYSGIQLGEFANPILERASAMKDSLNL 2zc8-a1-m2-cA_2zc8-a1-m4-cB Crystal structure of N-Acylamino Acid Racemase from Thermus thermophilus HB8 Q5SJX8 Q5SJX8 1.95 X-RAY DIFFRACTION 72 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 368 368 2zc8-a1-m1-cA_2zc8-a1-m3-cB 2zc8-a1-m1-cB_2zc8-a1-m4-cA 2zc8-a1-m2-cB_2zc8-a1-m3-cA MRIEAAELRILELPLKFRFETSFGVQTKRTILLLRLFGEGLEGLGEGVMERLPLYREETVAGARYLLEEVFLPRVLGRDLPNPEALREALAPFRGNPMAKAVLEMAFFDLWAKALGRPLWQVLGGVRQAVEVGVSLGIQPSVEDTLRVVERHLEEGYRRIKLKIKPGWDYEVLKAVREAFPEATLTADANSAYSLANLAQLKRLDELRLDYIEQPLAYDDLLDHAKLQRELSTPICLDESLTGAEKARKAIELGAGRVFNVKPARLGGHGESLRVHALAESAGIPLWMGGMLEAGVGRAHNLHLATLPGFTKPGDVSSASRYWEEDIVEEALEAKDGLMPVPEGVGIGVHLKLPFVERVTLWQRYMSA MRIEAAELRILELPLKFRFETSFGVQTKRTILLLRLFGEGLEGLGEGVMERLPLYREETVAGARYLLEEVFLPRVLGRDLPNPEALREALAPFRGNPMAKAVLEMAFFDLWAKALGRPLWQVLGGVRQAVEVGVSLGIQPSVEDTLRVVERHLEEGYRRIKLKIKPGWDYEVLKAVREAFPEATLTADANSAYSLANLAQLKRLDELRLDYIEQPLAYDDLLDHAKLQRELSTPICLDESLTGAEKARKAIELGAGRVFNVKPARLGGHGESLRVHALAESAGIPLWMGGMLEAGVGRAHNLHLATLPGFTKPGDVSSASRYWEEDIVEEALEAKDGLMPVPEGVGIGVHLKLPFVERVTLWQRYMSA 2zc8-a1-m2-cB_2zc8-a1-m4-cB Crystal structure of N-Acylamino Acid Racemase from Thermus thermophilus HB8 Q5SJX8 Q5SJX8 1.95 X-RAY DIFFRACTION 21 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 368 368 2zc8-a1-m1-cA_2zc8-a1-m3-cA 2zc8-a1-m1-cA_2zc8-a1-m4-cA 2zc8-a1-m1-cB_2zc8-a1-m3-cB 2zc8-a1-m1-cB_2zc8-a1-m4-cB 2zc8-a1-m2-cA_2zc8-a1-m3-cA 2zc8-a1-m2-cA_2zc8-a1-m4-cA 2zc8-a1-m2-cB_2zc8-a1-m3-cB MRIEAAELRILELPLKFRFETSFGVQTKRTILLLRLFGEGLEGLGEGVMERLPLYREETVAGARYLLEEVFLPRVLGRDLPNPEALREALAPFRGNPMAKAVLEMAFFDLWAKALGRPLWQVLGGVRQAVEVGVSLGIQPSVEDTLRVVERHLEEGYRRIKLKIKPGWDYEVLKAVREAFPEATLTADANSAYSLANLAQLKRLDELRLDYIEQPLAYDDLLDHAKLQRELSTPICLDESLTGAEKARKAIELGAGRVFNVKPARLGGHGESLRVHALAESAGIPLWMGGMLEAGVGRAHNLHLATLPGFTKPGDVSSASRYWEEDIVEEALEAKDGLMPVPEGVGIGVHLKLPFVERVTLWQRYMSA MRIEAAELRILELPLKFRFETSFGVQTKRTILLLRLFGEGLEGLGEGVMERLPLYREETVAGARYLLEEVFLPRVLGRDLPNPEALREALAPFRGNPMAKAVLEMAFFDLWAKALGRPLWQVLGGVRQAVEVGVSLGIQPSVEDTLRVVERHLEEGYRRIKLKIKPGWDYEVLKAVREAFPEATLTADANSAYSLANLAQLKRLDELRLDYIEQPLAYDDLLDHAKLQRELSTPICLDESLTGAEKARKAIELGAGRVFNVKPARLGGHGESLRVHALAESAGIPLWMGGMLEAGVGRAHNLHLATLPGFTKPGDVSSASRYWEEDIVEEALEAKDGLMPVPEGVGIGVHLKLPFVERVTLWQRYMSA 2zc8-a1-m4-cA_2zc8-a1-m4-cB Crystal structure of N-Acylamino Acid Racemase from Thermus thermophilus HB8 Q5SJX8 Q5SJX8 1.95 X-RAY DIFFRACTION 70 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 368 368 2zc8-a1-m1-cA_2zc8-a1-m1-cB 2zc8-a1-m2-cA_2zc8-a1-m2-cB 2zc8-a1-m3-cA_2zc8-a1-m3-cB MRIEAAELRILELPLKFRFETSFGVQTKRTILLLRLFGEGLEGLGEGVMERLPLYREETVAGARYLLEEVFLPRVLGRDLPNPEALREALAPFRGNPMAKAVLEMAFFDLWAKALGRPLWQVLGGVRQAVEVGVSLGIQPSVEDTLRVVERHLEEGYRRIKLKIKPGWDYEVLKAVREAFPEATLTADANSAYSLANLAQLKRLDELRLDYIEQPLAYDDLLDHAKLQRELSTPICLDESLTGAEKARKAIELGAGRVFNVKPARLGGHGESLRVHALAESAGIPLWMGGMLEAGVGRAHNLHLATLPGFTKPGDVSSASRYWEEDIVEEALEAKDGLMPVPEGVGIGVHLKLPFVERVTLWQRYMSA MRIEAAELRILELPLKFRFETSFGVQTKRTILLLRLFGEGLEGLGEGVMERLPLYREETVAGARYLLEEVFLPRVLGRDLPNPEALREALAPFRGNPMAKAVLEMAFFDLWAKALGRPLWQVLGGVRQAVEVGVSLGIQPSVEDTLRVVERHLEEGYRRIKLKIKPGWDYEVLKAVREAFPEATLTADANSAYSLANLAQLKRLDELRLDYIEQPLAYDDLLDHAKLQRELSTPICLDESLTGAEKARKAIELGAGRVFNVKPARLGGHGESLRVHALAESAGIPLWMGGMLEAGVGRAHNLHLATLPGFTKPGDVSSASRYWEEDIVEEALEAKDGLMPVPEGVGIGVHLKLPFVERVTLWQRYMSA 2zci-a2-m1-cD_2zci-a2-m1-cB Structure of a GTP-dependent bacterial PEP-carboxykinase from Corynebacterium glutamicum Q9AEM1 Q9AEM1 2.3 X-RAY DIFFRACTION 96 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 578 584 2zci-a1-m1-cA_2zci-a1-m1-cC TKNKELLNWIADAVELFQPEAVVFVDGSQAEWDRMAEDLVEAGTLIKLNEEKRPNSYLARSNPSDVARVESRTFICSEKEEDAGPTNNWAPPQAMKDEMSKHYAGSMKGRTMYVVPFCMGPISDPDPKLGVQLTDSEYVVMSMRIMTRMGIEALDKIGANGSFVRCLHSVGAPLEPGQEDVAWPCNDTKYITQFPETKEIWSYGSGYGGNAILAKKCYALRIASVMAREEGWMAEHMLILKLINPEGKAYHIAAAFPSACGKTNLAMITPTIPGWTAQVVGDDIAWLKLREDGLYAVNPENGFFGVAPGTNYASNPIAMKTMEPGNTLFTNVALTDDGDIWWEGMDGDAPAHLIDWMGNDWTPESDENAAHPNSRYCVAIDQSPAAAPEFNDWEGVKIDAILFGGRRADTVPLVTQTYDWEHGTMVGALLASTLRHDPMAMLPFIGYNAGEYLQNWIDMGNKGGDKMPSIFLVNWFRRGEDGRFLWPGFGDNSRVLKWVIDRIEGHVGADETVVGHTAKAEDLDLDGLDIEDVKEALTAPAEQWANDVEDNAEYLTFLGPRVPAEVHSQFDALKARIS APTKNKELLNWIADAVELFQPEAVVFVDGSQAEWDRMAEDLVEAGTLIKLNEEKRPNSYLARSNPSDVARVESRTFICSEKEEDAGPTNNWAPPQAMKDEMSKHYAGSMKGRTMYVVPFCMGPISDPDPKLGVQLTDSEYVVMSMRIMTRMGIEALDKIGANGSFVRCLHSVGAPLEPGQEDVAWPCNDTKYITQFPETKEIWSYGSGYGGNAILAKKCYALRIASVMAREEGWMAEHMLILKLINPEGKAYHIAAAFPSACGKTNLAMITPTIPGWTAQVVGDDIAWLKLREDGLYAVNPENGFFGVAPGTNYASNPIAMKTMEPGNTLFTNVALTDDGDIWWEGMDGDAPAHLIDWMGNDWTPESDENAAHPNSRYCVAIDQSPAAAPEFNDWEGVKIDAILFGGRRADTVPLVTQTYDWEHGTMVGALLASGGTLRHDPMAMLPFIGYNAGEYLQNWIDMGNKGGDKMPSIFLVNWFRRGEDGRFLWPGFGDNSRVLKWVIDRIEGHVGADETVVGHTAKAEDLDLDGLDTPIEDVKEALTAPAEQWANDVEDNAEYLTFLGPRVPAEVHSQFDALKARIS 2zcn-a2-m1-cC_2zcn-a2-m1-cD Crystal structure of IcaR, a repressor of the TetR family Q5HKQ1 Q5HKQ1 1.9 X-RAY DIFFRACTION 101 1.0 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 181 184 2zcm-a1-m1-cA_2zcm-a1-m1-cB 2zcn-a1-m1-cA_2zcn-a1-m1-cB MKDKIIDNAITLFSEKGYDGTTLDDISKSVNIKKASLYYHYDNKEEIYRKSVENCFNYFIDFLLRDDNYSIDGLYQFLFKFIFDVDERYIKLYVQLSSAPEALNSEIKHHLQEINTTLHDELIKYYDPTHIALDKEDFINLILLFLETWYFRASFSQKFGIIEDSKNRFKDQVYSLLNVFL MKDKIIDNAITLFSEKGYDGTTLDDISKSVNIKKASLYYHYDNKEEIYRKSVENCFNYFIDFLLRNHDDNYSIDGLYQFLFKFIFDVDERYIKLYVQLSSAPEALNSEIKHHLQEINTTLHDELIKYYDPTHIALDKEDFINLILLFLETWYFRASFSQKFGIIEDSKNRFKDQVYSLLNVFLK 2zcu-a2-m1-cA_2zcu-a2-m2-cA Crystal structure of a new type of NADPH-dependent quinone oxidoreductase (QOR2) from escherichia coli P39315 P39315 1.8 X-RAY DIFFRACTION 46 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 275 275 MIAITGATGQLGHYVIESLMKTVPASQIVAIVRNPAKAQALAAQGITVRQADYGDEAALTSALQGVEKLLLISPQHRNVINAAKAAGVKFIAYTSLLHADTSPLGLADEHIETEKMLADSGIVYTLLRNGWYSENYLASAPAALEHGVFIGAAGDGKIASATRADYAAAAARVISEAGHEGKVYELAGDSAWTLTQLAAELTKQSGKQVTYQNLSEADFAAALKSVGLPDGLADMLADSDVGASKGGLFDDSKTLSKLIGHPTTTLAESVSHLFN MIAITGATGQLGHYVIESLMKTVPASQIVAIVRNPAKAQALAAQGITVRQADYGDEAALTSALQGVEKLLLISPQHRNVINAAKAAGVKFIAYTSLLHADTSPLGLADEHIETEKMLADSGIVYTLLRNGWYSENYLASAPAALEHGVFIGAAGDGKIASATRADYAAAAARVISEAGHEGKVYELAGDSAWTLTQLAAELTKQSGKQVTYQNLSEADFAAALKSVGLPDGLADMLADSDVGASKGGLFDDSKTLSKLIGHPTTTLAESVSHLFN 2zcw-a1-m1-cA_2zcw-a1-m2-cA Crystal Structure of TTHA1359, a Transcriptional Regulator, CRP/FNR family from Thermus thermophilus HB8 Q5SIL0 Q5SIL0 1.5 X-RAY DIFFRACTION 110 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 193 193 ETVSFKAGDVILYPGVPGPRDRAYRVLEGLVRLEAVDEEGNALTLRLVRPGGFFGEEALFGQERIYFAEAATDVRLEPLPENPDPELLKDLAQHLSQGLAEAYRRIERLATQRLKNRAAALLELSETPLAHEEEGKVVLKATHDELAAAVGSVRETVTKVIGELAREGYIRSGYGKIQLLDLKGLKELAESRG ETVSFKAGDVILYPGVPGPRDRAYRVLEGLVRLEAVDEEGNALTLRLVRPGGFFGEEALFGQERIYFAEAATDVRLEPLPENPDPELLKDLAQHLSQGLAEAYRRIERLATQRLKNRAAALLELSETPLAHEEEGKVVLKATHDELAAAVGSVRETVTKVIGELAREGYIRSGYGKIQLLDLKGLKELAESRG 2zcx-a1-m1-cA_2zcx-a1-m2-cA Crystal structure of TetR family transcriptional regulator SCO7815 Q9FBX0 Q9FBX0 2.22 X-RAY DIFFRACTION 133 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 205 205 QAKQQREEAILDAARELGTERGIREITLTDIAATVGMHKSALLRYFETREQIFLKITAEGWKEWSAELCARLRELPGAAPDAVGQVFAATLAARPLFCDLLAQAPLNLERNVSVESVRSFKIATLDEVGRIGAELRRLLGVDETQAVDVIATATSLAGALWQMATPGPHIQTLYRSDPRLAHAVVEVEPRLNRVLGALLRGIADG QAKQQREEAILDAARELGTERGIREITLTDIAATVGMHKSALLRYFETREQIFLKITAEGWKEWSAELCARLRELPGAAPDAVGQVFAATLAARPLFCDLLAQAPLNLERNVSVESVRSFKIATLDEVGRIGAELRRLLGVDETQAVDVIATATSLAGALWQMATPGPHIQTLYRSDPRLAHAVVEVEPRLNRVLGALLRGIADG 2zdi-a1-m1-cA_2zdi-a1-m2-cB Crystal structure of Prefoldin from Pyrococcus horikoshii OT3 O58268 O58268 3 X-RAY DIFFRACTION 35 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 101 106 2zdi-a1-m2-cA_2zdi-a1-m1-cB AMLGQLDTYQQQLQLVIQQKQKVQADLNEAKKALEEIETLPDDAQIYKTVGTLIVKTTKEKAVQELKEKIETLEVRLNALNRQEQKINEKVKELTQKIQAA PPQVQAMLGQLDTYQQQLQLVIQQKQKVQADLNEAKKALEEIETLPDDAQIYKTVGTLIVKTTKEKAVQELKEKIETLEVRLNALNRQEQKINEKVKELTQKIQAA 2zdi-a1-m1-cC_2zdi-a1-m2-cC Crystal structure of Prefoldin from Pyrococcus horikoshii OT3 O58263 O58263 3 X-RAY DIFFRACTION 105 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 148 148 MAQNNKELEKLAYEYQVLQAQAQILAQNLELLNLAKAEVQTVRETLENLKKIEEEKPEILVPIGAGSFLKGVIVDKNNAIVSVGSGYAVERSIDEAISFLEKRLKEYDEAIKKTQGALAELEKRIGEVARKAQEVQQKQSMTSFKVKK MAQNNKELEKLAYEYQVLQAQAQILAQNLELLNLAKAEVQTVRETLENLKKIEEEKPEILVPIGAGSFLKGVIVDKNNAIVSVGSGYAVERSIDEAISFLEKRLKEYDEAIKKTQGALAELEKRIGEVARKAQEVQQKQSMTSFKVKK 2zdo-a2-m1-cC_2zdo-a2-m1-cD Crystal structure of IsdG-N7A in complex with hemin Q7A649 Q7A649 1.8 X-RAY DIFFRACTION 87 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 108 109 2zdo-a1-m1-cA_2zdo-a1-m1-cB TMKFMAEARLTLTKGTAKDIIERFYTRHGIETLEGFDGMFVTQTLEQEDFDEVKILTVWKSKQAFTDWLKSDVFKAAHKHVRSKNEDESSPIINNKVITYDIGYSYMK STMKFMAEARLTLTKGTAKDIIERFYTRHGIETLEGFDGMFVTQTLEQEDFDEVKILTVWKSKQAFTDWLKSDVFKAAHKHVRSKNEDESSPIINNKVITYDIGYSYMK 2zds-a1-m1-cD_2zds-a1-m1-cF Crystal Structure of SCO6571 from Streptomyces coelicolor A3(2) O69946 O69946 2.3 X-RAY DIFFRACTION 28 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 318 318 2zds-a1-m1-cA_2zds-a1-m1-cC 2zds-a1-m1-cA_2zds-a1-m1-cE 2zds-a1-m1-cB_2zds-a1-m1-cD 2zds-a1-m1-cB_2zds-a1-m1-cF 2zds-a1-m1-cE_2zds-a1-m1-cC PRNFTLFTGQWADLPLEEVCRLARDFGYDGLELACWGDHFEVDKALADPSYVDSRHQLLDKYGLKCWAISNHLVGQAVCDAIIDERHEAILPARIWGDGDAEGVRQRAAAEIKDTARAAARLGVDTVIGFTGSAIWHLVAFPPAPESIERGYQDFADRWNPILDVFDAEGVRFAHEVHPSEIAYDYWTTHRALEAVGHRPAFGLNFDPSHFVWQDLDPVGFLWDFRDRIYHVDCKEARKRLDGRNGRLGSHLPWGDPRRGWDFVSAGHGDVPWEDVFRLRSIDYQGPVSVEWEDAGDRLQGAPEALTRLKAFDFEPPS PRNFTLFTGQWADLPLEEVCRLARDFGYDGLELACWGDHFEVDKALADPSYVDSRHQLLDKYGLKCWAISNHLVGQAVCDAIIDERHEAILPARIWGDGDAEGVRQRAAAEIKDTARAAARLGVDTVIGFTGSAIWHLVAFPPAPESIERGYQDFADRWNPILDVFDAEGVRFAHEVHPSEIAYDYWTTHRALEAVGHRPAFGLNFDPSHFVWQDLDPVGFLWDFRDRIYHVDCKEARKRLDGRNGRLGSHLPWGDPRRGWDFVSAGHGDVPWEDVFRLRSIDYQGPVSVEWEDAGDRLQGAPEALTRLKAFDFEPPS 2zds-a1-m1-cE_2zds-a1-m1-cF Crystal Structure of SCO6571 from Streptomyces coelicolor A3(2) O69946 O69946 2.3 X-RAY DIFFRACTION 135 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 317 318 2zds-a1-m1-cA_2zds-a1-m1-cB 2zds-a1-m1-cC_2zds-a1-m1-cD PRNFTLFTGQWADLPLEEVCRLARDFGYDGLELACWGDHFEVDKALADPSYVDSRHQLLDKYGLKCWAISNHLVGQAVCDAIIDERHEAILPARIWGDGDAEGVRQRAAAEIKDTARAAARLGVDTVIGFTGSAIWHLVAFPPAPESIERGYQDFADRWNPILDVFDAEGVRFAHEVHPSEIAYDYWTTHRALEAVGHRPAFGLNFDPSHFVWQDLDPVGFLWDFRDRIYHVDCKEARKRLDGRNGRLGSHLPWGDPRRGWDFVSAGHGDVPWEDVFRLRSIDYQGPVSVEWEDAGDRLQGAPEALTRLKAFDFEPP PRNFTLFTGQWADLPLEEVCRLARDFGYDGLELACWGDHFEVDKALADPSYVDSRHQLLDKYGLKCWAISNHLVGQAVCDAIIDERHEAILPARIWGDGDAEGVRQRAAAEIKDTARAAARLGVDTVIGFTGSAIWHLVAFPPAPESIERGYQDFADRWNPILDVFDAEGVRFAHEVHPSEIAYDYWTTHRALEAVGHRPAFGLNFDPSHFVWQDLDPVGFLWDFRDRIYHVDCKEARKRLDGRNGRLGSHLPWGDPRRGWDFVSAGHGDVPWEDVFRLRSIDYQGPVSVEWEDAGDRLQGAPEALTRLKAFDFEPPS 2ze0-a1-m1-cA_2ze0-a1-m2-cA Alpha-glucosidase GSJ Q33E90 Q33E90 2 X-RAY DIFFRACTION 79 1.0 258999 (Geobacillus sp. HTA-462) 258999 (Geobacillus sp. HTA-462) 531 531 KKTWWKEGVAYQIYPRSFMDANGDGIGDLRGIIEKLDYLVELGVDIVWICPIYRSPNADNGYDISDYYAIMDEFGTMDDFDELLAQAHRRGLKVILDLVINHTSDEHPWFIESRSSRDNPKRDWYIWRDGKDGREPNNWESIFGGSAWQYDERTGQYYLHIFDVKQPDLNWENSEVRQALYEMVNWWLDKGIDGFRIDAISHIKKKPGLPDLPLKYVPSFAGHMNQPGIMEYLRELKEQTFARYDIMTVGEANGVTVDEAEQWVGEENGVFNMIFQFEHLGLWERRASIDVRRLKRTLTKWQKGLENRGWNALFLENHDLPRSVSTWGNDRDYWAESAKALGALYFFMQGTPFIYQGQEIGMTNVRFDDIRDYRDVSALRIIWKTGRDNSRTPMQWSGASNAGFTTGTPWIKVNENYRTINVEAERRDPNSVWSFYRQMIQLRKANELFVYGTYDLLLENHPSIYAYTRTLGRDRALVVVNLSDRPSLYRYDGFRLQSSDLALSNYPVRPHKNATRFKLKPYEARVYIWKE KKTWWKEGVAYQIYPRSFMDANGDGIGDLRGIIEKLDYLVELGVDIVWICPIYRSPNADNGYDISDYYAIMDEFGTMDDFDELLAQAHRRGLKVILDLVINHTSDEHPWFIESRSSRDNPKRDWYIWRDGKDGREPNNWESIFGGSAWQYDERTGQYYLHIFDVKQPDLNWENSEVRQALYEMVNWWLDKGIDGFRIDAISHIKKKPGLPDLPLKYVPSFAGHMNQPGIMEYLRELKEQTFARYDIMTVGEANGVTVDEAEQWVGEENGVFNMIFQFEHLGLWERRASIDVRRLKRTLTKWQKGLENRGWNALFLENHDLPRSVSTWGNDRDYWAESAKALGALYFFMQGTPFIYQGQEIGMTNVRFDDIRDYRDVSALRIIWKTGRDNSRTPMQWSGASNAGFTTGTPWIKVNENYRTINVEAERRDPNSVWSFYRQMIQLRKANELFVYGTYDLLLENHPSIYAYTRTLGRDRALVVVNLSDRPSLYRYDGFRLQSSDLALSNYPVRPHKNATRFKLKPYEARVYIWKE 2ze3-a1-m1-cA_2ze3-a1-m2-cA Crystal Structure of DFA0005 Complexed with alpha-Ketoglutarate: A Novel Member of the ICL/PEPM Superfamily from Alkali-tolerant Deinococcus ficus 1.65 X-RAY DIFFRACTION 192 1.0 317577 (Deinococcus ficus) 317577 (Deinococcus ficus) 275 275 MTHADHARSFHALHQTGFLLPNAWDVASARLLEAAGFTAIGTTSAGIAHARGRTDGQTLTRDEMGREVEAIVRAVAIPVNADIEAGYGHAPEDVRRTVEHFAALGVAGVNLEDATGLTPTELYDLDSQLRRIEAARAAIDASGVPVFLNARTDTFLKGHGATDEERLAETVRRGQAYADAGADGIFVPLALQSQDIRALADALRVPLNVMAFPGSPVPRALLDAGAARVSFGQSLMLATLGLVQRMAAELHAAEQSPLMDSYFLGFGEGHDLFHR MTHADHARSFHALHQTGFLLPNAWDVASARLLEAAGFTAIGTTSAGIAHARGRTDGQTLTRDEMGREVEAIVRAVAIPVNADIEAGYGHAPEDVRRTVEHFAALGVAGVNLEDATGLTPTELYDLDSQLRRIEAARAAIDASGVPVFLNARTDTFLKGHGATDEERLAETVRRGQAYADAGADGIFVPLALQSQDIRALADALRVPLNVMAFPGSPVPRALLDAGAARVSFGQSLMLATLGLVQRMAAELHAAEQSPLMDSYFLGFGEGHDLFHR 2zej-a1-m1-cA_2zej-a1-m1-cB Structure of the ROC domain from the Parkinson's disease-associated leucine-rich repeat kinase 2 reveals a dimeric GTPase Q5S007 Q5S007 2 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 156 KLIVGNTGSGKTTLLQQLKTVGIDVKDWPILVLNVWDFAGREEFYSTHPHFTQRALYLAVYDLSKGQAEVDAKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNF KLIVGNTGSGKTTLLQQLKTQSATVGIDVKDWPILVLNVWDFAGREEFYSTHPHFTQRALYLAVYDLSKGQAEVDAKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFK 2zf5-a2-m2-cO_2zf5-a2-m3-cY Crystal Structure of highly thermostable glycerol kinase from a hyperthermophilic archaeon O93623 O93623 2.4 X-RAY DIFFRACTION 45 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 494 494 2zf5-a2-m1-cO_2zf5-a2-m2-cY 2zf5-a2-m1-cY_2zf5-a2-m3-cO MEKFVLSLDEGTTSARAIIFDRESNIHGIGQYEFPQHYPRPGWVEHNPEEIWDAQLRAIKDAIQSARIEPNQIAAIGVTNQRETTLVWDKDGKPLYNAIVWQCRRTAEMVEEIKREYGTMIKEKTGLVPDAYFSASKLKWLLDNVPGLREKAEKGEVMFGTVDTFLIYRLTGEHVTDYSNASRTMLFNIKKLDWDDELLELFDIPESVLPEVRESSEVYGYTKKELLGAEIPVSGDAGDQQAALFGQAAFEAGMVKATYGTGSFILVNTDKMVLYSDNLLTTIAWGLNGRVSYALEGSIFVTGAAVQWLRDGIKIIKHASETEELATKLESNEGVYFVPAFVGLGAPYWDQFARGIIIGITRGTGREHLARATLEAIAYLTRDVVDEMEKLVQIKELRVDGGATANDFLMQFQADILNRKVIRPVVKETTALGAAYLAGLAVDYWADTREIAELWKAERIFEPKMDEKTRERLYKGWKEAVKRAMGWAKVVDSA MEKFVLSLDEGTTSARAIIFDRESNIHGIGQYEFPQHYPRPGWVEHNPEEIWDAQLRAIKDAIQSARIEPNQIAAIGVTNQRETTLVWDKDGKPLYNAIVWQCRRTAEMVEEIKREYGTMIKEKTGLVPDAYFSASKLKWLLDNVPGLREKAEKGEVMFGTVDTFLIYRLTGEHVTDYSNASRTMLFNIKKLDWDDELLELFDIPESVLPEVRESSEVYGYTKKELLGAEIPVSGDAGDQQAALFGQAAFEAGMVKATYGTGSFILVNTDKMVLYSDNLLTTIAWGLNGRVSYALEGSIFVTGAAVQWLRDGIKIIKHASETEELATKLESNEGVYFVPAFVGLGAPYWDQFARGIIIGITRGTGREHLARATLEAIAYLTRDVVDEMEKLVQIKELRVDGGATANDFLMQFQADILNRKVIRPVVKETTALGAAYLAGLAVDYWADTREIAELWKAERIFEPKMDEKTRERLYKGWKEAVKRAMGWAKVVDSA 2zf5-a2-m3-cO_2zf5-a2-m3-cY Crystal Structure of highly thermostable glycerol kinase from a hyperthermophilic archaeon O93623 O93623 2.4 X-RAY DIFFRACTION 144 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 494 494 2zf5-a1-m1-cO_2zf5-a1-m1-cY 2zf5-a2-m1-cO_2zf5-a2-m1-cY 2zf5-a2-m2-cO_2zf5-a2-m2-cY 6k76-a1-m2-cB_6k76-a1-m1-cA 6k78-a1-m2-cD_6k78-a1-m1-cA 6k78-a2-m3-cC_6k78-a2-m1-cB 6k79-a1-m1-cA_6k79-a1-m2-cB 6k79-a2-m1-cC_6k79-a2-m3-cD MEKFVLSLDEGTTSARAIIFDRESNIHGIGQYEFPQHYPRPGWVEHNPEEIWDAQLRAIKDAIQSARIEPNQIAAIGVTNQRETTLVWDKDGKPLYNAIVWQCRRTAEMVEEIKREYGTMIKEKTGLVPDAYFSASKLKWLLDNVPGLREKAEKGEVMFGTVDTFLIYRLTGEHVTDYSNASRTMLFNIKKLDWDDELLELFDIPESVLPEVRESSEVYGYTKKELLGAEIPVSGDAGDQQAALFGQAAFEAGMVKATYGTGSFILVNTDKMVLYSDNLLTTIAWGLNGRVSYALEGSIFVTGAAVQWLRDGIKIIKHASETEELATKLESNEGVYFVPAFVGLGAPYWDQFARGIIIGITRGTGREHLARATLEAIAYLTRDVVDEMEKLVQIKELRVDGGATANDFLMQFQADILNRKVIRPVVKETTALGAAYLAGLAVDYWADTREIAELWKAERIFEPKMDEKTRERLYKGWKEAVKRAMGWAKVVDSA MEKFVLSLDEGTTSARAIIFDRESNIHGIGQYEFPQHYPRPGWVEHNPEEIWDAQLRAIKDAIQSARIEPNQIAAIGVTNQRETTLVWDKDGKPLYNAIVWQCRRTAEMVEEIKREYGTMIKEKTGLVPDAYFSASKLKWLLDNVPGLREKAEKGEVMFGTVDTFLIYRLTGEHVTDYSNASRTMLFNIKKLDWDDELLELFDIPESVLPEVRESSEVYGYTKKELLGAEIPVSGDAGDQQAALFGQAAFEAGMVKATYGTGSFILVNTDKMVLYSDNLLTTIAWGLNGRVSYALEGSIFVTGAAVQWLRDGIKIIKHASETEELATKLESNEGVYFVPAFVGLGAPYWDQFARGIIIGITRGTGREHLARATLEAIAYLTRDVVDEMEKLVQIKELRVDGGATANDFLMQFQADILNRKVIRPVVKETTALGAAYLAGLAVDYWADTREIAELWKAERIFEPKMDEKTRERLYKGWKEAVKRAMGWAKVVDSA 2zfb-a1-m1-cA_2zfb-a1-m2-cA Crystal structure of parrot hemoglobin (Psittacula krameri) at pH 7.5 P19831 P19831 3 X-RAY DIFFRACTION 14 1.0 9228 (Psittacula krameri) 9228 (Psittacula krameri) 141 141 VLSGTDKTNVKSIFSKIGGQADDYGAEALERMFVTYPQTKTYFPHFDVSPGSAQVKAHGKKVAGGLSEAANHIDDIATSLSKLSDLHAQKLRVDPVNFKLLGQCFLVVVAIHNPSALTPEAHASLDKFLCAVGLVLTAKYR VLSGTDKTNVKSIFSKIGGQADDYGAEALERMFVTYPQTKTYFPHFDVSPGSAQVKAHGKKVAGGLSEAANHIDDIATSLSKLSDLHAQKLRVDPVNFKLLGQCFLVVVAIHNPSALTPEAHASLDKFLCAVGLVLTAKYR 2zfc-a1-m1-cA_2zfc-a1-m1-cC X-ray crystal structure of an engineered N-terminal HIV-1 GP41 trimer with enhanced stability and potency 1.5 X-RAY DIFFRACTION 35 1.0 44 44 2zfc-a1-m1-cA_2zfc-a1-m1-cB 2zfc-a1-m1-cB_2zfc-a1-m1-cC VSGLVQQQNNILRALEATQHAVQALVWGVKQLQARVLALERYIK VSGLVQQQNNILRALEATQHAVQALVWGVKQLQARVLALERYIK 2zfw-a1-m1-cA_2zfw-a1-m1-cB Crystal structure of Pex from Synechococcus sp. (strain PCC 7942) (Anacystis nidulans R2) O66226 O66226 2.9 X-RAY DIFFRACTION 38 1.0 1131 (Synechococcus sp.) 1131 (Synechococcus sp.) 112 112 2e1n-a1-m1-cA_2e1n-a1-m1-cB 2zfw-a2-m1-cD_2zfw-a2-m1-cE MDFEDIYRFFQDPPPHYLSKELAVCYVLAVLRHEDSYGTELIQHLETHWPNYRLSDTVLYTALKFLEDEQIISGYWKKVEGRGRPRRMYQLAQANDDRSRDLAQLWERYLSS MDFEDIYRFFQDPPPHYLSKELAVCYVLAVLRHEDSYGTELIQHLETHWPNYRLSDTVLYTALKFLEDEQIISGYWKKVEGRGRPRRMYQLAQANDDRSRDLAQLWERYLSS 2zg6-a1-m1-cA_2zg6-a1-m1-cB Crystal structure of Hypothetical protein; probable 2-haloalkanoic acid dehalogenase from Sulfolobus tokodaii Q96X90 Q96X90 2.4 X-RAY DIFFRACTION 96 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 198 199 KYKAVLVDFGNTLVGFKPVFYEKVYQVLKDNGYDLDLRKVFRAYAKAGINYLEHVDPKDFLYILGIYPSERLVKELKEADIRDGEAFLYDDTLEFLEGLKSNGYKLALVSNASPRVKTLLEKFDLKKYFDALAPKIFGFALAKVGYPAVHVGDIYELDYIGAKRSYVDPILLDRYDFYPDVRDRVKNLREALQKIEEN KYKAVLVDFGNTLVGFKPVFYEKVYQVLKDNGYDLDLRKVFRAYAKAGINYLEHVDPKDFLYILGIYPSERLVKELKEADIRDGEAFLYDDTLEFLEGLKSNGYKLALVSNASPRVKTLLEKFDLKKYFDALALPKIFGFALAKVGYPAVHVGDIYELDYIGAKRSYVDPILLDRYDFYPDVRDRVKNLREALQKIEEN 2zgd-a2-m1-cA_2zgd-a2-m2-cA Asn-hydroxylation stabilises the ankyrin repeat domain fold 1.9 X-RAY DIFFRACTION 38 1.0 96 96 HHHHHSSGSDLGKKLLEAARAGQDDEVRILMANGADVAAKDKNGSTPLHLAARNGHLEVVKLLLEAGADVAQDKFGKTAFDISIDNGNEDLAEILQ HHHHHSSGSDLGKKLLEAARAGQDDEVRILMANGADVAAKDKNGSTPLHLAARNGHLEVVKLLLEAGADVAQDKFGKTAFDISIDNGNEDLAEILQ 2zgi-a1-m1-cA_2zgi-a1-m1-cC Crystal Structure of Putative 4-amino-4-deoxychorismate lyase Q5SKM2 Q5SKM2 1.93 X-RAY DIFFRACTION 22 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 243 244 RLLNGTPLALALPEAFLYHGASVFTTLRAEGGRPLWLEEHLARLRRHALALGLSYPGDEAFLEDLEALLRAFPKAPCLRLRFTVGEGVRLSEARPYAPLPLSLYREGVRVRLTGYRVHPDLARYKTGNYLPYRLALEEARKEGAFEGLLLDAFGHVVDGSRTSPLLFREGTLYLLEGGLEGITREKVAEAARGLGLRVERGLFRPEGLRGHLLLAGSGVGLLPVRPPPPELLPLIERFLPACY RLLNGTPLALALPEAFLYHGASVFTTLRAEGGRPLWLEEHLARLRRHALALGLSYPGDEAFLEDLEALLRAFPKAPCLRLRFTVGEGVRLSEARPYAPLPLSLYREGVRVRLTGYRVHPDLARYKTGNYLPYRLALEEARKEGAFEGLLLDAFGHVVDGSRTSPLLFREGTLYLLEGGLEGITREKVAEAARGLGLRVERGLFRPEGLRGHLLLAGSGVGLLPVRPPPPELLPLIERFLPACYT 2zgi-a1-m1-cA_2zgi-a1-m1-cD Crystal Structure of Putative 4-amino-4-deoxychorismate lyase Q5SKM2 Q5SKM2 1.93 X-RAY DIFFRACTION 147 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 243 245 2zgi-a1-m1-cB_2zgi-a1-m1-cC RLLNGTPLALALPEAFLYHGASVFTTLRAEGGRPLWLEEHLARLRRHALALGLSYPGDEAFLEDLEALLRAFPKAPCLRLRFTVGEGVRLSEARPYAPLPLSLYREGVRVRLTGYRVHPDLARYKTGNYLPYRLALEEARKEGAFEGLLLDAFGHVVDGSRTSPLLFREGTLYLLEGGLEGITREKVAEAARGLGLRVERGLFRPEGLRGHLLLAGSGVGLLPVRPPPPELLPLIERFLPACY RLLNGTPLALALPEAFLYHGASVFTTLRAEGGRPLWLEEHLARLRRHALALGLSYPGDEAFLEDLEALLRAFPKAPCLRLRFTVGEGVRLSEARPYAPLPLSLYREGVRVRLTGYRVHPDLARYKTGNYLPYRLALEEARKEGAFEGLLLDAFGHVVDGSRTSPLLFREGTLYLLEGGLEGITREKVAEAARGLGLRVERGLFRPEGLRGHLLLAGSGVGLLPVRPPPPELLPLIERFLPACYTE 2zgy-a1-m1-cA_2zgy-a1-m1-cB PARM with GDP P11904 P11904 1.9 X-RAY DIFFRACTION 46 1.0 562 (Escherichia coli) 562 (Escherichia coli) 320 320 2zgz-a1-m1-cA_2zgz-a1-m1-cB MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN 2zhg-a1-m1-cA_2zhg-a1-m2-cA Crystal structure of SoxR in complex with DNA P0ACS2 P0ACS2 2.8 X-RAY DIFFRACTION 76 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 121 121 2zhh-a1-m1-cA_2zhh-a1-m2-cA ALLTPGEVAKRSGVAVSALHFYESKGLITSIRNSGNQRRYKRDVLRYVAIIKIAQRIGIPLATIGEAFGVTLSAKEWKQLSSQWREELDRRIHTLVALRDELDGCIGCGCLSRSDCPLRNP ALLTPGEVAKRSGVAVSALHFYESKGLITSIRNSGNQRRYKRDVLRYVAIIKIAQRIGIPLATIGEAFGVTLSAKEWKQLSSQWREELDRRIHTLVALRDELDGCIGCGCLSRSDCPLRNP 2zhi-a1-m1-cA_2zhi-a1-m2-cA Crystal Structure Analysis of the Sodium-Bound Annexin A4 at 1.58 A resolution P55260 P55260 1.58 X-RAY DIFFRACTION 15 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 315 315 KGGTVKAASGFNATEDAQVLRKAMKGLGTDEDAIIGVLACRNTAQRQEIRTAYKSTIGRDLLEDLKSELSSNFEQVILGMMTPTVLYDVQELRRAMKGAGTDEGCLIEILASRNPEEIRRINQTYQQQYGRSLEEDICSDTSFMFQRVLVSLTAGGRDEGNYLDDALVKQDAQDLYEAGEKRWGTDEVKFLSILCSRNRNHLLHVFDEYKRISQKDIEQSIKSETSGSFEDALLAIVKCMRNKPAYFAERLYKSMKGLGTDDSTLIRVMVSRAEIDMLDIRANFKRLYGKSLYSFIKGDTSGDYRKVLLILCGGD KGGTVKAASGFNATEDAQVLRKAMKGLGTDEDAIIGVLACRNTAQRQEIRTAYKSTIGRDLLEDLKSELSSNFEQVILGMMTPTVLYDVQELRRAMKGAGTDEGCLIEILASRNPEEIRRINQTYQQQYGRSLEEDICSDTSFMFQRVLVSLTAGGRDEGNYLDDALVKQDAQDLYEAGEKRWGTDEVKFLSILCSRNRNHLLHVFDEYKRISQKDIEQSIKSETSGSFEDALLAIVKCMRNKPAYFAERLYKSMKGLGTDDSTLIRVMVSRAEIDMLDIRANFKRLYGKSLYSFIKGDTSGDYRKVLLILCGGD 2zho-a3-m1-cF_2zho-a3-m1-cE Crystal structure of the regulatory subunit of aspartate kinase from Thermus thermophilus (ligand free form) P61489 P61489 2.98 X-RAY DIFFRACTION 150 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 148 150 2dt9-a1-m1-cA_2dt9-a1-m1-cB 2zho-a1-m1-cB_2zho-a1-m1-cA 2zho-a2-m1-cD_2zho-a2-m1-cC AVTGVALDLDHAQIGLIGIPDQPGIAAKVFQALAERGIAVDMIIQGVPSRQQMAFTVKKDFAQEALEALEPVLAEIGGEAILRPDIAKVSIVGVGLASTPEVPAKMFQAVASTGANIEMIATSEVRISVIIPAEYAEAALRAVHQAFE AVTGVALDLDHAQIGLIGIPDQPGIAAKVFQALAERGIAVDMIIQGVPGHSRQQMAFTVKKDFAQEALEALEPVLAEIGGEAILRPDIAKVSIVGVGLASTPEVPAKMFQAVASTGANIEMIATSEVRISVIIPAEYAEAALRAVHQAFE 2zhp-a1-m1-cB_2zhp-a1-m1-cA Crystal structure of bleomycin-binding protein from Streptoalloteichus hindustanus complexed with bleomycin derivative P17493 P17493 1.6 X-RAY DIFFRACTION 134 1.0 2017 (Streptoalloteichus hindustanus) 2017 (Streptoalloteichus hindustanus) 111 120 1byl-a1-m1-cA_1byl-a1-m2-cA 1xrk-a1-m1-cA_1xrk-a1-m1-cB AKLTSAVPVLTARDVAGAVEFWTDRLGFSRDFVEDDFAGVVRDDVTLFISAVQDQVVPDNTLAWVWVRGLDELYAEWSEVVSTPAMTEIGEQGREFALRDPAGNCVHFVAE AKLTSAVPVLTARDVAGAVEFWTDRLGFSRDFVEDDFAGVVRDDVTLFISAVQDQVVPDNTLAWVWVRGLDELYAEWSEVVSTNFRDASGPAMTEIGEQPWGREFALRDPAGNCVHFVAE 2zi0-a2-m1-cB_2zi0-a2-m2-cB Crystal structure of Tav2b/siRNA complex Q8UYT3 Q8UYT3 2.82 X-RAY DIFFRACTION 18 1.0 12315 (Tomato aspermy virus) 12315 (Tomato aspermy virus) 54 54 2zi0-a2-m1-cA_2zi0-a2-m2-cA 3cz3-a1-m1-cB_3cz3-a1-m1-cD 3cz3-a1-m1-cC_3cz3-a1-m1-cA IEIPLHEIIRKLERNQKKQAQRKRHKLNRKERGHKSPSEQRRSELWHARQVELS IEIPLHEIIRKLERNQKKQAQRKRHKLNRKERGHKSPSEQRRSELWHARQVELS 2zi0-a2-m2-cB_2zi0-a2-m1-cA Crystal structure of Tav2b/siRNA complex Q8UYT3 Q8UYT3 2.82 X-RAY DIFFRACTION 16 0.981 12315 (Tomato aspermy virus) 12315 (Tomato aspermy virus) 54 59 2zi0-a2-m1-cB_2zi0-a2-m2-cA 3cz3-a1-m1-cA_3cz3-a1-m1-cD 3cz3-a1-m1-cC_3cz3-a1-m1-cB IEIPLHEIIRKLERNQKKQAQRKRHKLNRKERGHKSPSEQRRSELWHARQVELS EIPLHEIIRKLERNQKKQAQRKRHKLNRKERGHKSPSEQRRSELWHARQVELSAINSDN 2zi8-a1-m2-cB_2zi8-a1-m4-cB Crystal structure of the HsaC extradiol dioxygenase from M. tuberculosis in complex with 3,4-dihydroxy-9,10-seconandrost-1,3,5(10)-triene-9,17-dione (DHSA) P9WNW7 P9WNW7 2.2 X-RAY DIFFRACTION 35 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 298 298 2zi8-a1-m1-cA_2zi8-a1-m3-cA 2zi8-a1-m1-cA_2zi8-a1-m4-cA 2zi8-a1-m1-cB_2zi8-a1-m3-cB 2zi8-a1-m1-cB_2zi8-a1-m4-cB 2zi8-a1-m2-cA_2zi8-a1-m3-cA 2zi8-a1-m2-cA_2zi8-a1-m4-cA 2zi8-a1-m2-cB_2zi8-a1-m3-cB MSIRSLGYLRIEATDMAAWREYGLKVLGMVEGKGAPEGALYLRMDDFPARLVVVPGEHDRLLEAGWECANAEGLQEIRNRLDLEGTPYKEATAAELADRRVDEMIRFADPSGNCLEVFHGTALEHRRVVSPYGHRFVTGEQGMGHVVLSTRDDAEALHFYRDVLGFRLRDSMRLPPQMVGRPADGPPAWLRFFGCNPRHHSLAFLPMPTSSGIVHLMVEVEQADDVGLCLDRALRRKVPMSATLGRHVNDLMLSFYMKTPGGFDIEFGCEGRQVDDRDWIARESTAVSLWGHDFTVGA MSIRSLGYLRIEATDMAAWREYGLKVLGMVEGKGAPEGALYLRMDDFPARLVVVPGEHDRLLEAGWECANAEGLQEIRNRLDLEGTPYKEATAAELADRRVDEMIRFADPSGNCLEVFHGTALEHRRVVSPYGHRFVTGEQGMGHVVLSTRDDAEALHFYRDVLGFRLRDSMRLPPQMVGRPADGPPAWLRFFGCNPRHHSLAFLPMPTSSGIVHLMVEVEQADDVGLCLDRALRRKVPMSATLGRHVNDLMLSFYMKTPGGFDIEFGCEGRQVDDRDWIARESTAVSLWGHDFTVGA 2zi8-a1-m4-cB_2zi8-a1-m1-cA Crystal structure of the HsaC extradiol dioxygenase from M. tuberculosis in complex with 3,4-dihydroxy-9,10-seconandrost-1,3,5(10)-triene-9,17-dione (DHSA) P9WNW7 P9WNW7 2.2 X-RAY DIFFRACTION 15 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 298 299 2zi8-a1-m1-cB_2zi8-a1-m3-cA 2zi8-a1-m2-cB_2zi8-a1-m4-cA 2zi8-a1-m3-cB_2zi8-a1-m2-cA MSIRSLGYLRIEATDMAAWREYGLKVLGMVEGKGAPEGALYLRMDDFPARLVVVPGEHDRLLEAGWECANAEGLQEIRNRLDLEGTPYKEATAAELADRRVDEMIRFADPSGNCLEVFHGTALEHRRVVSPYGHRFVTGEQGMGHVVLSTRDDAEALHFYRDVLGFRLRDSMRLPPQMVGRPADGPPAWLRFFGCNPRHHSLAFLPMPTSSGIVHLMVEVEQADDVGLCLDRALRRKVPMSATLGRHVNDLMLSFYMKTPGGFDIEFGCEGRQVDDRDWIARESTAVSLWGHDFTVGA MSIRSLGYLRIEATDMAAWREYGLKVLGMVEGKGAPEGALYLRMDDFPARLVVVPGEHDRLLEAGWECANAEGLQEIRNRLDLEGTPYKEATAAELADRRVDEMIRFADPSGNCLEVFHGTALEHRRVVSPYGHRFVTGEQGMGHVVLSTRDDAEALHFYRDVLGFRLRDSMRLPPQMVGRPADGPPAWLRFFGCNPRHHSLAFLPMPTSSGIVHLMVEVEQADDVGLCLDRALRRKVPMSATLGRHVNDLMLSFYMKTPGGFDIEFGCEGRQVDDRDWIARESTAVSLWGHDFTVGAR 2zih-a1-m1-cA_2zih-a1-m1-cD Crystal Structure of Yeast Vps74 Q06385 Q06385 2.8 X-RAY DIFFRACTION 62 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 282 283 2zii-a1-m1-cA_2zii-a1-m1-cD INIPTLTLMEEVLLMGLRDREGYLSFWNDSISYALRGCIIIELALRGKIRILDDSARKRFDLSERLIEVIDSSKTGEVLLDETLQLMKNDEPLSISNWIDLLSGETWNLLKINYQLKQVRERLAKGLVDKGVLRTEMKNFFLFDMATHPIADASCKEAIKRRVLSVLVSRNMELSYNEYFPETTSFKIIRTLALICGSYGANVLENVLTTLEYEKRDKAISRAEEIMAQFSQYPFDLEKETELGVSVNLNKEVKEEIENNPGHDLQLEVIAGVFEVFSRMDM INIPTLTLMEEVLLMGLRDREGYLSFWNDSISYALRGCIIIELALRGKIRILDDSARKRFDLSERLIEVIDSSKTGEVLLDETLQLMKNDEPLSISNWIDLLSGETWNLLKINYQLKQVRERLAKGLVDKGVLRTEMKNFFLFDMATHPIADASCKEAIKRRVLSVLVSRNMELSYNEYFPETTSFKIIRTLALICGSYGANVLENVLTTLEYEKRDKAISRAEEIMAQFSQYPFDLEKETELGVSVNLNKEVKEEIENNPGHDLQLEVIAGVFEVFSRMDML 2zih-a1-m1-cB_2zih-a1-m1-cD Crystal Structure of Yeast Vps74 Q06385 Q06385 2.8 X-RAY DIFFRACTION 41 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 281 283 2zih-a1-m1-cC_2zih-a1-m1-cA 2zii-a1-m1-cB_2zii-a1-m1-cD 2zii-a1-m1-cC_2zii-a1-m1-cA INIPTLTLMEEVLLMGLRDREGYLSFWNDSISYALRGCIIIELALRGKIRILDDSARKRFDLSERLIEVIDSSKTGEVLLDETLQLMKNDEPLSISNWIDLLSGETWNLLKINYQLKQVRERLAKGLVDKGVLRTEMKNFFLFDMATHPIADASCKEAIKRRVLSVLVSRNMELSYNEYFPETTSFKIIRTLALICGSYGANVLENVLTTLEYEKRDKAISRAEEIMAQFSQYPFDLEKETELGVSVNLNKEVKEEIENNPGHDLQLEVIAGVFEVFSRMD INIPTLTLMEEVLLMGLRDREGYLSFWNDSISYALRGCIIIELALRGKIRILDDSARKRFDLSERLIEVIDSSKTGEVLLDETLQLMKNDEPLSISNWIDLLSGETWNLLKINYQLKQVRERLAKGLVDKGVLRTEMKNFFLFDMATHPIADASCKEAIKRRVLSVLVSRNMELSYNEYFPETTSFKIIRTLALICGSYGANVLENVLTTLEYEKRDKAISRAEEIMAQFSQYPFDLEKETELGVSVNLNKEVKEEIENNPGHDLQLEVIAGVFEVFSRMDML 2zih-a1-m1-cC_2zih-a1-m1-cD Crystal Structure of Yeast Vps74 Q06385 Q06385 2.8 X-RAY DIFFRACTION 50 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 279 283 2zih-a1-m1-cB_2zih-a1-m1-cA 2zii-a1-m1-cA_2zii-a1-m1-cB 2zii-a1-m1-cC_2zii-a1-m1-cD NIPTLTLMEEVLLMGLRDREGYLSFWNDSISYALRGCIIIELALRGKIRILDDSARKRFDLSERLIEVIDSSKTGEVLLDETLQLMKNDEPLSISNWIDLLSGETWNLLKINYQLKQVRERLAKGLVDKGVLRTEMKNFFLFDMATHPIADASCKEAIKRRVLSVLVSRNMELSYNEYFPETTSFKIIRTLALICGSYGANVLENVLTTLEYEKRDKAISRAEEIMAQFSQYPFDLEKETELGVSVNLNKEVKEEIENNPGHDLQLEVIAGVFEVFSRM INIPTLTLMEEVLLMGLRDREGYLSFWNDSISYALRGCIIIELALRGKIRILDDSARKRFDLSERLIEVIDSSKTGEVLLDETLQLMKNDEPLSISNWIDLLSGETWNLLKINYQLKQVRERLAKGLVDKGVLRTEMKNFFLFDMATHPIADASCKEAIKRRVLSVLVSRNMELSYNEYFPETTSFKIIRTLALICGSYGANVLENVLTTLEYEKRDKAISRAEEIMAQFSQYPFDLEKETELGVSVNLNKEVKEEIENNPGHDLQLEVIAGVFEVFSRMDML 2ziy-a2-m1-cA_2ziy-a2-m2-cA Crystal structure of squid rhodopsin P31356 P31356 3.7 X-RAY DIFFRACTION 49 1.0 6637 (Todarodes pacificus) 6637 (Todarodes pacificus) 370 370 DLRDNETWWYNPSIIVHPHWREFDQVPDAVYYSLGIFIGICGIIGCGGNGIVIYLFTKTKSLQTPANMFIINLAFSDFTFSLVNGFPLMTISCFLKKWIFGFAACKVYGFIGGIFGFMSIMTMAMISIDRYNVIGRPMAASKKMSHRRAFIMIIFVWLWSVLWAIGPIFGWGAYTLEGVLCNCSFDYISRDSTTRSNILCMFILGFFGPILIIFFCYFNIVMSVSNHEKEMAAMAKRLNAKELRKAQAGANAEMRLAKISIVIVSQFLLSWSPYAVVALLAQFGPLEWVTPYAAQLPVMFAKASAIHNPMIYSVSHPKFREAISQTFPWVLTCCQFDDKETEDDKDAETEIPAGESSDAAPSADAAQMKE DLRDNETWWYNPSIIVHPHWREFDQVPDAVYYSLGIFIGICGIIGCGGNGIVIYLFTKTKSLQTPANMFIINLAFSDFTFSLVNGFPLMTISCFLKKWIFGFAACKVYGFIGGIFGFMSIMTMAMISIDRYNVIGRPMAASKKMSHRRAFIMIIFVWLWSVLWAIGPIFGWGAYTLEGVLCNCSFDYISRDSTTRSNILCMFILGFFGPILIIFFCYFNIVMSVSNHEKEMAAMAKRLNAKELRKAQAGANAEMRLAKISIVIVSQFLLSWSPYAVVALLAQFGPLEWVTPYAAQLPVMFAKASAIHNPMIYSVSHPKFREAISQTFPWVLTCCQFDDKETEDDKDAETEIPAGESSDAAPSADAAQMKE 2zj2-a2-m1-cA_2zj2-a2-m2-cA Archaeal DNA helicase Hjm apo state in form 1 O73946 O73946 2.4 X-RAY DIFFRACTION 98 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 653 653 2zj5-a2-m1-cA_2zj5-a2-m2-cA 2zj8-a2-m1-cA_2zj8-a2-m2-cA 2zja-a2-m1-cA_2zja-a2-m2-cA MRVDELRVDERIKSTLKERGIESFYPPQAEALKSGILEGKNALISIPTASGKTLIAEIAMVHRILTQGGKAVYIVPLKALAEEKFQEFQDWEKIGLRVAMATGDYDSKDEWLGKYDIIIATAEKFDSLLRHGSSWIKDVKILVADEIHLIGSRDRGATLEVILAHMLGKAQIIGLSATIGNPEELAEWLNAELIVSDWRPVKLRRGVFYQGFVTWEDGSIDRFSSWEELVYDAIRKKKGALIFVNMRRKAERVALELSKKVKSLLTKPEIRALNELADSLEENPTNEKLAKAIRGGVAFHHAGLGRDERVLVEENFRKGIIKAVVATPTLSTPAFRVIIRDIWRYSDFGMERIPIIEVHQMLGRAGRPKYDEVGEGIIVSTSDDPREVMNHYIFGKPEKLFSQLSNESNLRSQVLALIATFGYSTVEEILKFISNTFYAYQRKDTYSLEEKIRNILYFLLENEFIEISLEDKIRPLSLGIRTAKLYIDPYTAKMFKDKMEEVVKDPNPIGIFHLISLTPDITPFNYSKREFERLEEEYYEFKDRLYFDDPYIERKFFRAFKTALVLLAWINEVPEGEIVEKYSVEPGDIYRIVETAEWLVYSLKEIAKVLGAYEIVDYLETLRVRVKYGIREELIPLMQLPLVGRRRARALYN MRVDELRVDERIKSTLKERGIESFYPPQAEALKSGILEGKNALISIPTASGKTLIAEIAMVHRILTQGGKAVYIVPLKALAEEKFQEFQDWEKIGLRVAMATGDYDSKDEWLGKYDIIIATAEKFDSLLRHGSSWIKDVKILVADEIHLIGSRDRGATLEVILAHMLGKAQIIGLSATIGNPEELAEWLNAELIVSDWRPVKLRRGVFYQGFVTWEDGSIDRFSSWEELVYDAIRKKKGALIFVNMRRKAERVALELSKKVKSLLTKPEIRALNELADSLEENPTNEKLAKAIRGGVAFHHAGLGRDERVLVEENFRKGIIKAVVATPTLSTPAFRVIIRDIWRYSDFGMERIPIIEVHQMLGRAGRPKYDEVGEGIIVSTSDDPREVMNHYIFGKPEKLFSQLSNESNLRSQVLALIATFGYSTVEEILKFISNTFYAYQRKDTYSLEEKIRNILYFLLENEFIEISLEDKIRPLSLGIRTAKLYIDPYTAKMFKDKMEEVVKDPNPIGIFHLISLTPDITPFNYSKREFERLEEEYYEFKDRLYFDDPYIERKFFRAFKTALVLLAWINEVPEGEIVEKYSVEPGDIYRIVETAEWLVYSLKEIAKVLGAYEIVDYLETLRVRVKYGIREELIPLMQLPLVGRRRARALYN 2zjs-a4-m1-cY_2zjs-a4-m2-cY Crystal Structure of SecYE translocon from Thermus thermophilus with a Fab fragment Q5SHQ8 Q5SHQ8 3.2 X-RAY DIFFRACTION 36 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 415 415 MVKAFWSALQIPELRQRVLFTLLVLAAYRLGAFIPTPGVDLDKIQEFLRTAQGGVFGIINLFSGGNFERFSIFALGIMPYITAAIIMQILVTVVPALEKLSKEGEEGRRIINQYTRIGGIALGAFQGFFLATAFLGAEGGRFLLPGWSPGPFFWFVVVVTQVAGIALLLWMAERITEYGIGNGTSLIIFAGIVVEWLPQILRTIGLIRTGEVNLVAFLFFLAFIVLAFAGMAAVQQAERRIPVQYARYGGQATYIPIKLNAAGVIPIIFAAAILQIPIFLAAPFQDNPVLQGIANFFNPTRPSGLFIEVLLVILFTYVYTAVQFDPKRIAESLREYGGFIPGIRPGEPTVKFLEHIVSRLTLWGALFLGLVTLLPQIIQNLTGIHSIAFSGIGLLIVVGVALDTLRQVESQLMLR MVKAFWSALQIPELRQRVLFTLLVLAAYRLGAFIPTPGVDLDKIQEFLRTAQGGVFGIINLFSGGNFERFSIFALGIMPYITAAIIMQILVTVVPALEKLSKEGEEGRRIINQYTRIGGIALGAFQGFFLATAFLGAEGGRFLLPGWSPGPFFWFVVVVTQVAGIALLLWMAERITEYGIGNGTSLIIFAGIVVEWLPQILRTIGLIRTGEVNLVAFLFFLAFIVLAFAGMAAVQQAERRIPVQYARYGGQATYIPIKLNAAGVIPIIFAAAILQIPIFLAAPFQDNPVLQGIANFFNPTRPSGLFIEVLLVILFTYVYTAVQFDPKRIAESLREYGGFIPGIRPGEPTVKFLEHIVSRLTLWGALFLGLVTLLPQIIQNLTGIHSIAFSGIGLLIVVGVALDTLRQVESQLMLR 2zjs-a5-m1-cL_2zjs-a5-m3-cL Crystal Structure of SecYE translocon from Thermus thermophilus with a Fab fragment 3.2 X-RAY DIFFRACTION 24 1.0 10090 (Mus musculus) 10090 (Mus musculus) 214 214 DIQMTQTTSSLSASLGDRVTISCRASQDISNYLNWYQQKPDGTVKLLIYYTSRLHSGVPSRFSGSGSGTDYSLTISNLEQEDIATYFCQQGNTLPWTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DIQMTQTTSSLSASLGDRVTISCRASQDISNYLNWYQQKPDGTVKLLIYYTSRLHSGVPSRFSGSGSGTDYSLTISNLEQEDIATYFCQQGNTLPWTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 2zki-a3-m1-cG_2zki-a3-m3-cH Crystal structure of hypothetical Trp repressor binding protein from Sul folobus tokodaii (ST0872) F9VNA8 F9VNA8 2.9 X-RAY DIFFRACTION 65 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 189 195 2zki-a1-m1-cB_2zki-a1-m1-cC 2zki-a1-m1-cD_2zki-a1-m1-cA 2zki-a2-m1-cE_2zki-a2-m2-cE 2zki-a2-m1-cF_2zki-a2-m2-cF 2zki-a3-m3-cG_2zki-a3-m1-cH CKPNILVLFYGYGSIVELAKEIGKGAEEAGAEVKIRRVRETLPPEFQSRIPDIPEVTLDDMRWADGFAIGSPTRYGNMAGGLKTFLDTTAILWKDNVLYGKPVTFFTEASTVHGGHETTILTMSTYAYHFGMIIVPIGYGIPELFQTTTGGGPYGATHLGKEELDEMERKIARFQGKRITEVAKAIKCC CKPNILVLFYGYGSIVELAKEIGKGAEEAGAEVKIRRVRETLPPEFQSRIPFDKVKDIPEVTLDDMRWADGFAIGSPTRYGNMAGGLKTFLDTTAILWKDNVLYGKPVTFFTEASTVHGGHETTILTMSTYAYHFGMIIVPIGYGIPELFQTTTGGGPYGATHLGSKEELDEMERKIARFQGKRITEVAKAIKCC 2zki-a3-m1-cH_2zki-a3-m3-cH Crystal structure of hypothetical Trp repressor binding protein from Sul folobus tokodaii (ST0872) F9VNA8 F9VNA8 2.9 X-RAY DIFFRACTION 84 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 195 195 2zki-a1-m1-cB_2zki-a1-m1-cA 2zki-a1-m1-cD_2zki-a1-m1-cC 2zki-a2-m1-cF_2zki-a2-m1-cE 2zki-a2-m2-cF_2zki-a2-m2-cE 2zki-a3-m1-cG_2zki-a3-m3-cG CKPNILVLFYGYGSIVELAKEIGKGAEEAGAEVKIRRVRETLPPEFQSRIPFDKVKDIPEVTLDDMRWADGFAIGSPTRYGNMAGGLKTFLDTTAILWKDNVLYGKPVTFFTEASTVHGGHETTILTMSTYAYHFGMIIVPIGYGIPELFQTTTGGGPYGATHLGSKEELDEMERKIARFQGKRITEVAKAIKCC CKPNILVLFYGYGSIVELAKEIGKGAEEAGAEVKIRRVRETLPPEFQSRIPFDKVKDIPEVTLDDMRWADGFAIGSPTRYGNMAGGLKTFLDTTAILWKDNVLYGKPVTFFTEASTVHGGHETTILTMSTYAYHFGMIIVPIGYGIPELFQTTTGGGPYGATHLGSKEELDEMERKIARFQGKRITEVAKAIKCC 2zki-a3-m3-cG_2zki-a3-m3-cH Crystal structure of hypothetical Trp repressor binding protein from Sul folobus tokodaii (ST0872) F9VNA8 F9VNA8 2.9 X-RAY DIFFRACTION 104 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 189 195 2zki-a1-m1-cC_2zki-a1-m1-cA 2zki-a1-m1-cD_2zki-a1-m1-cB 2zki-a2-m1-cF_2zki-a2-m2-cE 2zki-a2-m2-cF_2zki-a2-m1-cE 2zki-a3-m1-cG_2zki-a3-m1-cH CKPNILVLFYGYGSIVELAKEIGKGAEEAGAEVKIRRVRETLPPEFQSRIPDIPEVTLDDMRWADGFAIGSPTRYGNMAGGLKTFLDTTAILWKDNVLYGKPVTFFTEASTVHGGHETTILTMSTYAYHFGMIIVPIGYGIPELFQTTTGGGPYGATHLGKEELDEMERKIARFQGKRITEVAKAIKCC CKPNILVLFYGYGSIVELAKEIGKGAEEAGAEVKIRRVRETLPPEFQSRIPFDKVKDIPEVTLDDMRWADGFAIGSPTRYGNMAGGLKTFLDTTAILWKDNVLYGKPVTFFTEASTVHGGHETTILTMSTYAYHFGMIIVPIGYGIPELFQTTTGGGPYGATHLGSKEELDEMERKIARFQGKRITEVAKAIKCC 2zkj-a2-m1-cA_2zkj-a2-m2-cB Crystal structure of human PDK4-ADP complex Q16654 Q16654 2 X-RAY DIFFRACTION 45 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 355 359 VPREVEHFSRYSPSPLSMKQLLDFGSCERTSFAFLRQELPVRLANILKEIDILPTQLVNTSSVQLVKSWYIQSLMDLVEFHEKSPDDQKALSDFVDTLIKVRNRHHNVVPTMAQGIIEYKDACTVDPVTNQNLQYFLDRFYMNRISTRMLMNQHILIFSSHIGSIDPNCDVVAVVQDAFECSRMLCDQYYLSSPELKLTQVNGKFPDQPIHIVYVPSHLHHMLFELFKNAMRATVEHQENQPSLTPIEVIVVLGKEDLTIKISDRGGGVPLRIIDRLFSYTYSTAPTAPLAGFGYGLPISRLYAKYFQGDLNLYSLSGYGTDAIIYLKALSSESIEKLPVFNKSAFKHYQDDWCI VPREVEHFSRYSPSPLSMKQLLDFGSCERTSFAFLRQELPVRLANILKEIDILPTQLVNTSSVQLVKSWYIQSLMDLVEFHEKSPDDQKALSDFVDTLIKVRNRHHNVVPTMAQGIIEYKDACTPVTNQNLQYFLDRFYMNRISTRMLMNQHILIFSDSQTGNPSHIGSIDPNCDVVAVVQDAFECSRMLCDQYYLSSPELKLTQVNGKFPDQPIHIVYVPSHLHHMLFELFKNAMRATVEHQENQPSLTPIEVIVVLGKEDLTIKISDRGGGVPLRIIDRLFSYTYSTAPTPVMAPLAGFGYGLPISRLYAKYFQGDLNLYSLSGYGTDAIIYLKALSSESIEKLPVFNKSAFKHYDW 2zkl-a1-m1-cA_2zkl-a1-m2-cA Crystal Structure of capsular polysaccharide assembling protein CapF from staphylococcus aureus A0A0H3JP37 A0A0H3JP37 2.61 X-RAY DIFFRACTION 225 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 361 361 3st7-a1-m1-cA_3st7-a1-m2-cA 3vhr-a1-m1-cA_3vhr-a1-m2-cA 4yrd-a1-m1-cA_4yrd-a1-m1-cB MNIVITGAKGFVGKNLKADLTSTTDHHIFEVHRQTKEEELESALLKADFIVHLAGVFSLGNVSYLDHVLDILTRNTKKPAILLSSSIQATQDNPYGESKLQGEQLLREYAEEYGNTVYIYRWPNLFGKWCKPNYNSVIATFCYKIARNEEIQVNDRNVELTLNYVDDIVAEIKRAIEGTPTIENGVPTVPNVFKVTLGEIVDLLYKFKQSRLDRTLPKLDNLFEKDLYSTYLSYLPSTDFSYPLLMNVDDRGSFTEFIKTPDRGQVSVNISKPGITKGNHWHHTKNEKFLVVSGKGVIRFRHVNDDEIIEYYVSGDKLEVVDIPVGYTHNIENLGDTDMVTIMWVNEMFDPNQPDTYFLEV MNIVITGAKGFVGKNLKADLTSTTDHHIFEVHRQTKEEELESALLKADFIVHLAGVFSLGNVSYLDHVLDILTRNTKKPAILLSSSIQATQDNPYGESKLQGEQLLREYAEEYGNTVYIYRWPNLFGKWCKPNYNSVIATFCYKIARNEEIQVNDRNVELTLNYVDDIVAEIKRAIEGTPTIENGVPTVPNVFKVTLGEIVDLLYKFKQSRLDRTLPKLDNLFEKDLYSTYLSYLPSTDFSYPLLMNVDDRGSFTEFIKTPDRGQVSVNISKPGITKGNHWHHTKNEKFLVVSGKGVIRFRHVNDDEIIEYYVSGDKLEVVDIPVGYTHNIENLGDTDMVTIMWVNEMFDPNQPDTYFLEV 2zkt-a2-m2-cA_2zkt-a2-m3-cA Structure of PH0037 protein from Pyrococcus horikoshii O57742 O57742 2.4 X-RAY DIFFRACTION 86 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 330 330 2zkt-a2-m1-cA_2zkt-a2-m2-cA 2zkt-a2-m1-cA_2zkt-a2-m3-cA MVLKRKGLLIILDGLGDRPIKELNGLTPLEYANTPNMDKLAEIGILGQQDPIKPGQPAGSDTAHLSIFGYDPYETYRGRGFFEALGVGLDLSKDDLAFRVNFATLEEEAHERAIQEEVDIGVDFIFKGLVLKGMSKVGDNDLIRGAGTYPNIPMKFTEQWKVKAAGVIAVALVKGVARAVGFDVYTPEGATGEYNTNEMAKAKKAVELLKDYDFVFLHFKPTDAAGHDNKPKLKAELIERADRMIGYILDHVDLEEVVIAITGDHSTPCEVMNHSGDPVPLLIAGGGVRTDDTKRFGEREAMKGGLGRIRGHDIVPIMMDLMNRSEKFGA MVLKRKGLLIILDGLGDRPIKELNGLTPLEYANTPNMDKLAEIGILGQQDPIKPGQPAGSDTAHLSIFGYDPYETYRGRGFFEALGVGLDLSKDDLAFRVNFATLEEEAHERAIQEEVDIGVDFIFKGLVLKGMSKVGDNDLIRGAGTYPNIPMKFTEQWKVKAAGVIAVALVKGVARAVGFDVYTPEGATGEYNTNEMAKAKKAVELLKDYDFVFLHFKPTDAAGHDNKPKLKAELIERADRMIGYILDHVDLEEVVIAITGDHSTPCEVMNHSGDPVPLLIAGGGVRTDDTKRFGEREAMKGGLGRIRGHDIVPIMMDLMNRSEKFGA 2zkt-a3-m2-cB_2zkt-a3-m3-cB Structure of PH0037 protein from Pyrococcus horikoshii O57742 O57742 2.4 X-RAY DIFFRACTION 87 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 381 381 2zkt-a3-m1-cB_2zkt-a3-m2-cB 2zkt-a3-m1-cB_2zkt-a3-m3-cB VLKRKGLLIILDGLGDRPIKELNGLTPLEYANTPNMDKLAEIGILGQQDPIKPGQPAGSDTAHLSIFGYDPYETYRGRGFFEALGVGLDLSKDDLAFRVNFATLENARAIQEEVDIGVDFIFKTGHRAVLVLKGMSRGYKVGDNDPHEAGKPPSKKVAEILEEFVKKAQEVLEKHPINERRRKEGKPIANYLLIRGAGTYPNIPMKFTEQWKVKAAGVIAVALVKGVARAVGFDVYTPEGATGEYNTNEMAKAKKAVELLKDYDFVFLHFKPTDAAGHDNKPKLKAELIERADRMIGYILDHVDLEEVVIAITGDHSTPCEVMNHSGDPVPLLIAGGGVRTDDTKRFGEREAMKGGLGRIRGHDIVPIMMDLMNRSEKFGA VLKRKGLLIILDGLGDRPIKELNGLTPLEYANTPNMDKLAEIGILGQQDPIKPGQPAGSDTAHLSIFGYDPYETYRGRGFFEALGVGLDLSKDDLAFRVNFATLENARAIQEEVDIGVDFIFKTGHRAVLVLKGMSRGYKVGDNDPHEAGKPPSKKVAEILEEFVKKAQEVLEKHPINERRRKEGKPIANYLLIRGAGTYPNIPMKFTEQWKVKAAGVIAVALVKGVARAVGFDVYTPEGATGEYNTNEMAKAKKAVELLKDYDFVFLHFKPTDAAGHDNKPKLKAELIERADRMIGYILDHVDLEEVVIAITGDHSTPCEVMNHSGDPVPLLIAGGGVRTDDTKRFGEREAMKGGLGRIRGHDIVPIMMDLMNRSEKFGA 2zkz-a1-m1-cA_2zkz-a1-m1-cB Crystal structure of the transcriptional repressor PagR of Bacillus anthracis O31178 O31178 2 X-RAY DIFFRACTION 47 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 82 82 2zkz-a2-m1-cC_2zkz-a2-m2-cC 2zkz-a3-m1-cD_2zkz-a3-m2-cD YSLEDDAELLKTAHPRLKIVNELYKHKALNVTQIIQILKLPQSTVSQHLCKRGKVLKRNRQGLEIYYSINNPKVEGIIKLLN YSLEDDAELLKTAHPRLKIVNELYKHKALNVTQIIQILKLPQSTVSQHLCKRGKVLKRNRQGLEIYYSINNPKVEGIIKLLN 2zl4-a1-m1-cG_2zl4-a1-m1-cN Crystal structure of H.pylori ClpP S99A in complex with the peptide AAAA P56156 P56156 2.5 X-RAY DIFFRACTION 69 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 173 173 2zl0-a1-m1-cA_2zl0-a1-m1-cH 2zl0-a1-m1-cB_2zl0-a1-m1-cI 2zl0-a1-m1-cC_2zl0-a1-m1-cJ 2zl0-a1-m1-cD_2zl0-a1-m1-cK 2zl0-a1-m1-cE_2zl0-a1-m1-cL 2zl0-a1-m1-cF_2zl0-a1-m1-cM 2zl0-a1-m1-cG_2zl0-a1-m1-cN 2zl2-a1-m1-cB_2zl2-a1-m1-cI 2zl2-a1-m1-cD_2zl2-a1-m1-cK 2zl2-a1-m1-cE_2zl2-a1-m1-cL 2zl2-a1-m1-cF_2zl2-a1-m1-cM 2zl2-a1-m1-cG_2zl2-a1-m1-cN 2zl2-a1-m1-cH_2zl2-a1-m1-cA 2zl2-a1-m1-cJ_2zl2-a1-m1-cC 2zl3-a1-m1-cA_2zl3-a1-m1-cH 2zl3-a1-m1-cB_2zl3-a1-m1-cI 2zl3-a1-m1-cC_2zl3-a1-m1-cJ 2zl3-a1-m1-cD_2zl3-a1-m1-cK 2zl3-a1-m1-cE_2zl3-a1-m1-cL 2zl3-a1-m1-cF_2zl3-a1-m1-cM 2zl3-a1-m1-cG_2zl3-a1-m1-cN 2zl4-a1-m1-cA_2zl4-a1-m1-cH 2zl4-a1-m1-cB_2zl4-a1-m1-cI 2zl4-a1-m1-cC_2zl4-a1-m1-cJ 2zl4-a1-m1-cD_2zl4-a1-m1-cK 2zl4-a1-m1-cE_2zl4-a1-m1-cL 2zl4-a1-m1-cF_2zl4-a1-m1-cM DIYSRLLKDRIVLLSGEINDSVASSIVAQLLFLEAEDPEKDIGLYINSPGGVITSGLSIYDTMNFIRPDVSTICIGQAAAMGAFLLSCGAKGKRFSLPHSRIMIHQPLGGAQGQASDIEIISNEILRLKGLMNSILAQNSGQSLEQIAKDTDRDFYMSAKEAKEYGLIDKVLQ DIYSRLLKDRIVLLSGEINDSVASSIVAQLLFLEAEDPEKDIGLYINSPGGVITSGLSIYDTMNFIRPDVSTICIGQAAAMGAFLLSCGAKGKRFSLPHSRIMIHQPLGGAQGQASDIEIISNEILRLKGLMNSILAQNSGQSLEQIAKDTDRDFYMSAKEAKEYGLIDKVLQ 2zl4-a1-m1-cM_2zl4-a1-m1-cN Crystal structure of H.pylori ClpP S99A in complex with the peptide AAAA P56156 P56156 2.5 X-RAY DIFFRACTION 77 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 173 173 2zl0-a1-m1-cA_2zl0-a1-m1-cB 2zl0-a1-m1-cA_2zl0-a1-m1-cG 2zl0-a1-m1-cB_2zl0-a1-m1-cC 2zl0-a1-m1-cC_2zl0-a1-m1-cD 2zl0-a1-m1-cD_2zl0-a1-m1-cE 2zl0-a1-m1-cE_2zl0-a1-m1-cF 2zl0-a1-m1-cF_2zl0-a1-m1-cG 2zl0-a1-m1-cH_2zl0-a1-m1-cI 2zl0-a1-m1-cH_2zl0-a1-m1-cN 2zl0-a1-m1-cI_2zl0-a1-m1-cJ 2zl0-a1-m1-cJ_2zl0-a1-m1-cK 2zl0-a1-m1-cK_2zl0-a1-m1-cL 2zl0-a1-m1-cL_2zl0-a1-m1-cM 2zl0-a1-m1-cM_2zl0-a1-m1-cN 2zl2-a1-m1-cB_2zl2-a1-m1-cA 2zl2-a1-m1-cB_2zl2-a1-m1-cC 2zl2-a1-m1-cD_2zl2-a1-m1-cC 2zl2-a1-m1-cD_2zl2-a1-m1-cE 2zl2-a1-m1-cE_2zl2-a1-m1-cF 2zl2-a1-m1-cF_2zl2-a1-m1-cG 2zl2-a1-m1-cG_2zl2-a1-m1-cA 2zl2-a1-m1-cH_2zl2-a1-m1-cI 2zl2-a1-m1-cH_2zl2-a1-m1-cN 2zl2-a1-m1-cI_2zl2-a1-m1-cJ 2zl2-a1-m1-cJ_2zl2-a1-m1-cK 2zl2-a1-m1-cK_2zl2-a1-m1-cL 2zl2-a1-m1-cL_2zl2-a1-m1-cM 2zl2-a1-m1-cM_2zl2-a1-m1-cN 2zl3-a1-m1-cA_2zl3-a1-m1-cB 2zl3-a1-m1-cA_2zl3-a1-m1-cG 2zl3-a1-m1-cB_2zl3-a1-m1-cC 2zl3-a1-m1-cC_2zl3-a1-m1-cD 2zl3-a1-m1-cD_2zl3-a1-m1-cE 2zl3-a1-m1-cE_2zl3-a1-m1-cF 2zl3-a1-m1-cF_2zl3-a1-m1-cG 2zl3-a1-m1-cH_2zl3-a1-m1-cI 2zl3-a1-m1-cH_2zl3-a1-m1-cN 2zl3-a1-m1-cI_2zl3-a1-m1-cJ 2zl3-a1-m1-cJ_2zl3-a1-m1-cK 2zl3-a1-m1-cK_2zl3-a1-m1-cL 2zl3-a1-m1-cL_2zl3-a1-m1-cM 2zl3-a1-m1-cM_2zl3-a1-m1-cN 2zl4-a1-m1-cA_2zl4-a1-m1-cB 2zl4-a1-m1-cA_2zl4-a1-m1-cG 2zl4-a1-m1-cB_2zl4-a1-m1-cC 2zl4-a1-m1-cC_2zl4-a1-m1-cD 2zl4-a1-m1-cD_2zl4-a1-m1-cE 2zl4-a1-m1-cE_2zl4-a1-m1-cF 2zl4-a1-m1-cF_2zl4-a1-m1-cG 2zl4-a1-m1-cH_2zl4-a1-m1-cI 2zl4-a1-m1-cH_2zl4-a1-m1-cN 2zl4-a1-m1-cI_2zl4-a1-m1-cJ 2zl4-a1-m1-cJ_2zl4-a1-m1-cK 2zl4-a1-m1-cK_2zl4-a1-m1-cL 2zl4-a1-m1-cL_2zl4-a1-m1-cM DIYSRLLKDRIVLLSGEINDSVASSIVAQLLFLEAEDPEKDIGLYINSPGGVITSGLSIYDTMNFIRPDVSTICIGQAAAMGAFLLSCGAKGKRFSLPHSRIMIHQPLGGAQGQASDIEIISNEILRLKGLMNSILAQNSGQSLEQIAKDTDRDFYMSAKEAKEYGLIDKVLQ DIYSRLLKDRIVLLSGEINDSVASSIVAQLLFLEAEDPEKDIGLYINSPGGVITSGLSIYDTMNFIRPDVSTICIGQAAAMGAFLLSCGAKGKRFSLPHSRIMIHQPLGGAQGQASDIEIISNEILRLKGLMNSILAQNSGQSLEQIAKDTDRDFYMSAKEAKEYGLIDKVLQ 2zle-a1-m1-cF_2zle-a1-m1-cI Cryo-EM structure of DegP12/OMP P0C0V0 P0C0V0 28.0 ELECTRON MICROSCOPY 609 1.0 562 (Escherichia coli) 562 (Escherichia coli) 396 396 2zle-a1-m1-cC_2zle-a1-m1-cE QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL 2zle-a1-m1-cG_2zle-a1-m1-cM Cryo-EM structure of DegP12/OMP P0C0V0 P0C0V0 28.0 ELECTRON MICROSCOPY 138 1.0 562 (Escherichia coli) 562 (Escherichia coli) 396 396 2zle-a1-m1-cA_2zle-a1-m1-cL 2zle-a1-m1-cB_2zle-a1-m1-cJ 2zle-a1-m1-cH_2zle-a1-m1-cK QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPRNFQQFFGGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNSGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL 2zlt-a1-m1-cA_2zlt-a1-m2-cA Horse methemoglobin high salt, pH 7.0 P01958 P01958 1.9 X-RAY DIFFRACTION 11 1.0 9796 (Equus caballus) 9796 (Equus caballus) 141 141 1ibe-a1-m1-cA_1ibe-a1-m2-cA 1s0h-a1-m1-cA_1s0h-a1-m2-cA 1y8h-a1-m1-cA_1y8h-a1-m1-cC 1y8i-a1-m1-cA_1y8i-a1-m1-cC 1y8k-a1-m1-cA_1y8k-a1-m1-cC 2mhb-a1-m1-cA_2mhb-a1-m2-cA 2zlv-a1-m1-cA_2zlv-a1-m2-cA 2zlw-a1-m1-cA_2zlw-a1-m1-cC 5c6e-a1-m1-cA_5c6e-a1-m2-cA 6r2o-a1-m1-cA_6r2o-a1-m1-cC VLSAADKTNVKAAWSKVGGHAGEYGAEALERMFLGFPTTKTYFPHFDLSHGSAQVKAHGKKVGDALTLAVGHLDDLPGALSDLSNLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSSVSTVLTSKYR VLSAADKTNVKAAWSKVGGHAGEYGAEALERMFLGFPTTKTYFPHFDLSHGSAQVKAHGKKVGDALTLAVGHLDDLPGALSDLSNLHAHKLRVDPVNFKLLSHCLLSTLAVHLPNDFTPAVHASLDKFLSSVSTVLTSKYR 2zm3-a5-m1-cB_2zm3-a5-m6-cC Complex Structure of Insulin-like Growth Factor Receptor and Isoquinolinedione Inhibitor P08069 P08069 2.5 X-RAY DIFFRACTION 10 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 296 296 2zm3-a5-m1-cC_2zm3-a5-m6-cB 2zm3-a5-m4-cD_2zm3-a5-m3-cA 2zm3-a5-m5-cD_2zm3-a5-m2-cA SFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPEAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN SFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN 2zm5-a3-m1-cB_2zm5-a3-m1-cA Crystal structure of tRNA modification enzyme MiaA in the complex with tRNA(Phe) P16384 P16384 2.55 X-RAY DIFFRACTION 26 0.993 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 298 299 2zxu-a3-m1-cB_2zxu-a3-m1-cA 3foz-a1-m1-cB_3foz-a1-m1-cA ASLPKAIFLGPTASGKTALAIELRKILPVELISVDSALIYKGDIGTAKPNAEELLAAPHRLLDIRDPSQAYSAADFRRDALAEADITAAGRIPLLVGGTLYFKALLEGLSPLPSADPEVRARIEQQAAEQGWESLHRQLQEVDPVAAARIHPNDPQRLSRALEVFFISGKTLTELTQTSGDALPYQVHQFAIAPASRELLHQRIEQRFHQLASGFEAEVRALFARGDLHTDLPSIRCVGYRQWSYLEGEISYDEVYRGVCATRQLAKRQITWLRGWEGVHWLDSEKPEQARDEVLQVV LPKAIFLGPTASGKTALAIELRKILPVELISVDSALIYKGDIGTAKPNAEELLAAPHRLLDIRDPSQAYSAADFRRDALAEADITAAGRIPLLVGGTLYFKALLEGLSPLPSADPEVRARIEQQAAEQGWESLHRQLQEVDPVAAARIHPNDPQRLSRALEVFFISGKTLTELTQTSGDALPYQVHQFAIAPASRELLHQRIEQRFHQLASGFEAEVRALFARGDLHTDLPSIRCVGYRQWSYLEGEISYDEVYRGVCATRQLAKRQITWLRGWEGVHWLDSEKPEQARDEVLQVVGAI 2zmf-a1-m1-cB_2zmf-a1-m1-cA Crystal structure of the C-terminal GAF domain of human phosphodiesterase 10A Q9Y233 Q9Y233 2.1 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 172 ELNDFLLDVSKTYFDNIVAIDSLLEHIIYAKNLVNADRCALFQVDHKNKELYSDLFDIGEEKEGKPVFKKTKEIRFSIEKGIAGQVARTGEVLNIPDAYADPRFNREVDLYTGYTTRNILCPIVSRGSVIGVVQVNKISGSAFSKTDENNFKFAVFCALALHCANYH QTELNDFLLDVSKTYFDNIVAIDSLLEHIIYAKNLVNADRCALFQVDHKNKELYSDLFDIGEEKEGKPVFKKTKEIRFSIEKGIAGQVARTGEVLNIPDAYADPRFNREVDLYTGYTTRNILCPIVSRGSVIGVVQVNKISGSAFSKTDENNFKFAVFCALALHCANYHRIR 2zmv-a1-m2-cA_2zmv-a1-m3-cA Crystal structure of Synbindin Q9Y296 Q9Y296 2.8 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 202 2zmv-a1-m1-cA_2zmv-a1-m2-cA 2zmv-a1-m1-cA_2zmv-a1-m3-cA AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEKA AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEKA 2zmv-a1-m2-cA_2zmv-a1-m3-cB Crystal structure of Synbindin Q9Y296 Q9Y296 2.8 X-RAY DIFFRACTION 45 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 202 203 2zmv-a1-m1-cA_2zmv-a1-m2-cB 2zmv-a1-m3-cA_2zmv-a1-m1-cB AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEKA AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSSSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEK 2zmv-a1-m2-cB_2zmv-a1-m3-cB Crystal structure of Synbindin Q9Y296 Q9Y296 2.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 203 203 2zmv-a1-m1-cB_2zmv-a1-m2-cB 2zmv-a1-m1-cB_2zmv-a1-m3-cB AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSSSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEK AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSSSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEK 2zmv-a2-m1-cA_2zmv-a2-m1-cB Crystal structure of Synbindin Q9Y296 Q9Y296 2.8 X-RAY DIFFRACTION 63 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 202 203 2zmv-a1-m1-cA_2zmv-a1-m1-cB 2zmv-a1-m2-cA_2zmv-a1-m2-cB 2zmv-a1-m3-cA_2zmv-a1-m3-cB AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEKA AIFSVYVVNKAGGLIYQLDSYAPRAEAEKTFSYPLDLLLKLHDERVLVAFGQRDGIRVGHAVLAINGMDVNGRYTADGKEVLEYLGNPANYPVSIRFGRPRLTSNEKLMLASMFHSLFAIGSSSGIEMLETDTFKLHCYQTLTGIKFVVLADPRQAGIDSLLRKIYEIYSDFALKNPFYSLEMPIRCELFDQNLKLALEVAEK 2znh-a1-m1-cA_2znh-a1-m1-cB Crystal Structure of a Domain-Swapped Serpin Dimer P01008 P01008 2.8 X-RAY DIFFRACTION 504 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 408 412 HGSPVDICTAKPRDIPMNPMCIYRSPTNRRVWELSKANSRFATTFYQHLADSKNDNDNIFLSPLSISTAFAMTKLGACNDTLQQLMEVFKFDTISEKTSDQIHFFFAKLNCRLYRSKLVSANRLFGDKSLTFNETYQDISELVYGAKLQPLDFKENAEQSRAAINKWVSNKTEGRITDVIPSEAINELTVLVLVNTIYFKGLWKSKFSPENTRKELFYKADGESCSASMMYQEGKFRYRRVAEGTQVLELPFKGDDITMVLILPKPEKSLAKVEKELTPEVLQEWLDELEEMMLVVHMPRFRIEDGFSLKEQLQDMGLVDLFSPEKSKLPGIVAEGRDDLYVSDAFHKAFLEVNEEGSEAAASTAVVIAGRSLNPNRVTFKANRPFLVFIREVPLNTIIFMGRVANPC HGSPVDICTAKPRDIPMNPMCIYRSPEATNRRVWELSKANSRFATTFYQHLADSKNDNDNIFLSPLSISTAFAMTKLGACNDTLQQLMEVFKFDTISEKTSDQIHFFFAKLNCRLYRSSKLVSANRLFGDKSLTFNETYQDISELVYGAKLQPLDFKENAEQSRAAINKWVSNKTEGRITDVIPSEAINELTVLVLVNTIYFKGLWKSKFSPENTRKELFYKADGESCSASMMYQEGKFRYRRVAEGTQVLELPFKGDDITMVLILPKPEKSLAKVEKELTPEVLQEWLDELEEMMLVVHMPRFRIEDGFSLKEQLQDMGLVDLFSPEKSKLPGIVAEGRDDLYVSDAFHKAFLEVNEEGSEAAASTAVVIAGRSLNPNRVTFKANRPFLVFIREVPLNTIIFMGRVANPCV 2znj-a1-m1-cA_2znj-a1-m1-cB Crystal structure of Pyrrolysyl-tRNA synthetase from Desulfitobacterium hafniense B0S4P3 B0S4P3 2.5 X-RAY DIFFRACTION 107 1.0 49338 (Desulfitobacterium hafniense) 49338 (Desulfitobacterium hafniense) 278 279 2zni-a1-m1-cA_2zni-a1-m1-cB 2znj-a2-m1-cC_2znj-a2-m2-cC 3dsq-a1-m1-cA_3dsq-a1-m1-cB SSFWTKVQYQRLKELNASGEQLEMGFSDALSRDRAFQGIEHQLMSQGKRHLEQLRTVKHRPALLELEEKLAKALHQQGFVQVVTPTIITKSALAKMTIGEDHPLFSQVFWLDGKKCLRPMLAPNLYTLWRELERLWDKPIRIFEIGTCYRKESQGAQHLNEFTMLNLTELGTPLEERHQRLEDMARWVLEAAGIREFELVTESSVVYGDTVDVMKGDLELASGAMGPHFLDEKWEIFDPWVGLGFGLERLLMIREGTQHVQSMARSLSYLDGVRLNIN LSSFWTKVQYQRLKELNASGEQLEMGFSDALSRDRAFQGIEHQLMSQGKRHLEQLRTVKHRPALLELEEKLAKALHQQGFVQVVTPTIITKSALAKMTIGEDHPLFSQVFWLDGKKCLRPMLAPNLYTLWRELERLWDKPIRIFEIGTCYRKESQGAQHLNEFTMLNLTELGTPLEERHQRLEDMARWVLEAAGIREFELVTESSVVYGDTVDVMKGDLELASGAMGPHFLDEKWEIFDPWVGLGFGLERLLMIREGTQHVQSMARSLSYLDGVRLNIN 2znm-a5-m1-cA_2znm-a5-m1-cC Oxidoreductase NmDsbA3 from Neisseria meningitidis Q9K0Z4 Q9K0Z4 2.3 X-RAY DIFFRACTION 35 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 181 182 2znm-a5-m1-cA_2znm-a5-m1-cB 2znm-a5-m1-cD_2znm-a5-m1-cB 2znm-a5-m1-cD_2znm-a5-m1-cC LTEGEDYLVLDKPIPQEQSGKIEVLEFFGYFCVHCHHFDPLLLKLGKALPSDAYLRTEHVVWQPELGLARAAAVNLSGLKYQANPAVFKAVYEQKIRLENRSVAGKWALSQKGFDGKKLRAYDSPEAAAAALKQKLTEQYRIDSTPTVIVGGKYRVIFNNGFDGGVHTIKELVAKVREERK LTEGEDYLVLDKPIPQEQSGKIEVLEFFGYFCVHCHHFDPLLLKLGKALPSDAYLRTEHVVWQPELGLARAAAVNLSGLKYQANPAVFKAVYEQKIRLENRSVAGKWALSQKGFDGKKLRAYDSPEAAAAALKQKLTEQYRIDSTPTVIVGGKYRVIFNNGFDGGVHTIKELVAKVREERKR 2znz-a2-m1-cF_2znz-a2-m3-cH Crystal structure of FFRP O59188 O59188 2.39 X-RAY DIFFRACTION 14 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 146 146 2zny-a5-m1-cB_2zny-a5-m1-cC 2zny-a5-m1-cD_2zny-a5-m1-cE 2zny-a5-m1-cF_2zny-a5-m1-cG 2znz-a1-m1-cA_2znz-a1-m2-cA 2znz-a1-m1-cB_2znz-a1-m2-cD 2znz-a1-m1-cC_2znz-a1-m2-cC 2znz-a1-m1-cD_2znz-a1-m2-cB 2znz-a2-m1-cE_2znz-a2-m3-cE 2znz-a2-m1-cG_2znz-a2-m3-cG 2znz-a2-m1-cH_2znz-a2-m3-cF LDEIDKKIIKILQNDGKAPLREISKITGLAESTIHERIRKLRESGVIKKFTAIIDPEALGYSMLAFILVKVKAGKYSEVASNLAKYPEIVEVYETTGDYDMVVKIRTKNSEELNNFLDLIGSIPGVEGTHTMIVLKTHKETTELPI LDEIDKKIIKILQNDGKAPLREISKITGLAESTIHERIRKLRESGVIKKFTAIIDPEALGYSMLAFILVKVKAGKYSEVASNLAKYPEIVEVYETTGDYDMVVKIRTKNSEELNNFLDLIGSIPGVEGTHTMIVLKTHKETTELPI 2znz-a2-m1-cG_2znz-a2-m3-cH Crystal structure of FFRP O59188 O59188 2.39 X-RAY DIFFRACTION 22 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 146 146 2zny-a5-m1-cA_2zny-a5-m1-cC 2zny-a5-m1-cB_2zny-a5-m1-cD 2zny-a5-m1-cC_2zny-a5-m1-cE 2zny-a5-m1-cD_2zny-a5-m1-cF 2zny-a5-m1-cE_2zny-a5-m1-cG 2zny-a5-m1-cF_2zny-a5-m1-cH 2znz-a1-m1-cA_2znz-a1-m2-cB 2znz-a1-m1-cA_2znz-a1-m2-cD 2znz-a1-m1-cB_2znz-a1-m2-cA 2znz-a1-m1-cC_2znz-a1-m2-cB 2znz-a1-m1-cC_2znz-a1-m2-cD 2znz-a1-m1-cD_2znz-a1-m2-cA 2znz-a1-m2-cC_2znz-a1-m1-cB 2znz-a1-m2-cC_2znz-a1-m1-cD 2znz-a2-m1-cE_2znz-a2-m3-cF 2znz-a2-m1-cE_2znz-a2-m3-cH 2znz-a2-m1-cF_2znz-a2-m3-cE 2znz-a2-m1-cF_2znz-a2-m3-cG 2znz-a2-m1-cG_2znz-a2-m3-cF 2znz-a2-m1-cH_2znz-a2-m3-cE 2znz-a2-m1-cH_2znz-a2-m3-cG LDEIDKKIIKILQNDGKAPLREISKITGLAESTIHERIRKLRESGVIKKFTAIIDPEALGYSMLAFILVKVKAGKYSEVASNLAKYPEIVEVYETTGDYDMVVKIRTKNSEELNNFLDLIGSIPGVEGTHTMIVLKTHKETTELPI LDEIDKKIIKILQNDGKAPLREISKITGLAESTIHERIRKLRESGVIKKFTAIIDPEALGYSMLAFILVKVKAGKYSEVASNLAKYPEIVEVYETTGDYDMVVKIRTKNSEELNNFLDLIGSIPGVEGTHTMIVLKTHKETTELPI 2znz-a6-m1-cG_2znz-a6-m1-cH Crystal structure of FFRP O59188 O59188 2.39 X-RAY DIFFRACTION 200 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 146 146 1ri7-a2-m1-cA_1ri7-a2-m2-cA 2cyy-a1-m1-cA_2cyy-a1-m2-cA 2e1c-a1-m1-cA_2e1c-a1-m2-cA 2zny-a1-m1-cA_2zny-a1-m1-cB 2zny-a2-m1-cC_2zny-a2-m1-cD 2zny-a3-m1-cE_2zny-a3-m1-cF 2zny-a4-m1-cG_2zny-a4-m1-cH 2zny-a5-m1-cA_2zny-a5-m1-cB 2zny-a5-m1-cC_2zny-a5-m1-cD 2zny-a5-m1-cE_2zny-a5-m1-cF 2zny-a5-m1-cG_2zny-a5-m1-cH 2znz-a1-m1-cA_2znz-a1-m1-cB 2znz-a1-m1-cC_2znz-a1-m1-cD 2znz-a1-m2-cA_2znz-a1-m2-cB 2znz-a1-m2-cC_2znz-a1-m2-cD 2znz-a2-m1-cE_2znz-a2-m1-cF 2znz-a2-m1-cG_2znz-a2-m1-cH 2znz-a2-m3-cE_2znz-a2-m3-cF 2znz-a2-m3-cG_2znz-a2-m3-cH 2znz-a3-m1-cA_2znz-a3-m1-cB 2znz-a4-m1-cC_2znz-a4-m1-cD 2znz-a5-m1-cE_2znz-a5-m1-cF LDEIDKKIIKILQNDGKAPLREISKITGLAESTIHERIRKLRESGVIKKFTAIIDPEALGYSMLAFILVKVKAGKYSEVASNLAKYPEIVEVYETTGDYDMVVKIRTKNSEELNNFLDLIGSIPGVEGTHTMIVLKTHKETTELPI LDEIDKKIIKILQNDGKAPLREISKITGLAESTIHERIRKLRESGVIKKFTAIIDPEALGYSMLAFILVKVKAGKYSEVASNLAKYPEIVEVYETTGDYDMVVKIRTKNSEELNNFLDLIGSIPGVEGTHTMIVLKTHKETTELPI 2zo2-a4-m1-cB_2zo2-a4-m2-cB Mouse NP95 SRA domain non-specific DNA complex Q8VDF2 Q8VDF2 3.09 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 201 201 HMPANHFGPIPGVPVGTMWRFRVQVSESGVHRPHVAGIHGRSNDGAYSLVLAGGYEDDVDNGNYFTYTGSGGRDGQSSDQKLTNNNRALALNCHSPINEKGAEAEDWRQGKPVRVVRNMKGGKHSKYAPAEGNRYDGIYKVVKYWPERGKSGFLVWRYLLRRDDTEPEPWTREGKDRTRQLGLTMQYPEGYLEALANKEKS HMPANHFGPIPGVPVGTMWRFRVQVSESGVHRPHVAGIHGRSNDGAYSLVLAGGYEDDVDNGNYFTYTGSGGRDGQSSDQKLTNNNRALALNCHSPINEKGAEAEDWRQGKPVRVVRNMKGGKHSKYAPAEGNRYDGIYKVVKYWPERGKSGFLVWRYLLRRDDTEPEPWTREGKDRTRQLGLTMQYPEGYLEALANKEKS 2zo6-a1-m1-cA_2zo6-a1-m2-cA Crystal Structure of Kusabira-Cyan (KCY), a Cyan-Emitting GFP-Like Protein 1.4 X-RAY DIFFRACTION 67 1.0 215 215 2zo7-a1-m1-cA_2zo7-a1-m2-cA MSVIKPEMKMKYFMDGSVNGHEFTVEGEGTGKPYEGKHKITLDVTKGGPLPFAFDLLSTVFNRCLTKYPDDIPDYFKQCFPGGYSWERKFEFEDGGLAIAKAEISLKGNCFEHKSTIEGTFPDSSPIAQNKTLGWEPSTEKMTVRDGSMKGDDAAYLKLVGGGNHKCYFTTTYTAKKKIPNLPQSHFIGHRISSVVNGTKIGVMEDAIAHLYPFN MSVIKPEMKMKYFMDGSVNGHEFTVEGEGTGKPYEGKHKITLDVTKGGPLPFAFDLLSTVFNRCLTKYPDDIPDYFKQCFPGGYSWERKFEFEDGGLAIAKAEISLKGNCFEHKSTIEGTFPDSSPIAQNKTLGWEPSTEKMTVRDGSMKGDDAAYLKLVGGGNHKCYFTTTYTAKKKIPNLPQSHFIGHRISSVVNGTKIGVMEDAIAHLYPFN 2zod-a1-m1-cA_2zod-a1-m1-cB Crystal structure of selenophosphate synthetase from Aquifex aeolicus O67139 O67139 1.98 X-RAY DIFFRACTION 160 0.99 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 315 321 2yye-a1-m1-cA_2yye-a1-m1-cB ELLKLVRGDLQEILKGFNIYTDDAGVYEHNGIIWVYTVDIITPVVNDPYLWGAISTANALSDVYAMGGIPVNALAISCFNNCELDIEIFREVIRGALDKLREAKTVLLGGHTIDDKEPKFGLSVAGICPEGKYITQSGAQVGQLLILTKPIGTGILIKGLKEGILKEEDINEAIENMLALNDKARNLMLSLDATACTDVTGFGLLGHAWNICKNSNIGARIFFEKVPYYQLSENLVKKKIYPKGAIENLNFVKNYLKSNLDNWKLILLSDPVTSGGLLFTINKEKLEKIDETAKELEVNYWIIGETIAENVLEVL ELLKLVRSSLQEILKGFNIYTDESTLVSIAGVYEHNGIIWVYTVDIITPVVNDPYLWGAISTANALSDVYAMGGIPVNALAISCFNNCELDIEIFREVIRGALDKLREAKTVLLGGHTIDDKEPKFGLSVAGICPEGKYITQSGAQVGQLLILTKPIGTGILIKGLKEGILKEEDINEAIENMLALNDKARNLMLSLDATACTDVTGFGLLGHAWNICKNSNIGARIFFEKVPYYQLSENLVKKKIYPKGAIENLNFVKNYLKSNLDNWKLILLSDPVTSGGLLFTINKEKLEKIDETAKELEVNYWIIGETIAENVLEVL 2zog-a1-m1-cA_2zog-a1-m1-cB Crystal structure of mouse carnosinase CN2 complexed with ZN and bestatin Q9D1A2 Q9D1A2 1.7 X-RAY DIFFRACTION 285 1.0 10090 (Mus musculus) 10090 (Mus musculus) 478 478 2zof-a1-m1-cA_2zof-a1-m1-cB SPNSMSALKAVFQYIDENQDRYVKKLAEWVAIQSVSAWPEKRGEIRRMMEVAAADVQRLGGSVELVDIGKQKLPDGSEIPLPPILLGKLGSDPQKKTVCIYGHLDVQPAALEDGWDSEPFTLVEREGKLYGRGSTDDKGPVAGWMNALEAYQKTGQEIPVNLRFCLEGMEESGSEGLDELIFAQKDKFFKDVDYVCISDNYWLGKNKPCITYGLRGICYFFIEVECSDKDLHSGVYGGSVHEAMTDLISLMGCLVDKKGKILIPGINDAVAPVTDEEHALYDHIDFDMEEFAKDVGAETLLHSCKKDILMHRWRYPSLSLHGIEGAFSGSGAKTVIPRKVVGKFSIRLVPDMIPEVVSEQVSSYLSKKFAELQSPNKFKVYMGHGGKPWVSDFNHPHYQAGRRALKTVFGVEPDLTREGGSIPVTLTFQEATGKNVMLLPVGSADDGAHSQNEKLNRLNYIEGTKMLAAYLYEVSQLK SPNSMSALKAVFQYIDENQDRYVKKLAEWVAIQSVSAWPEKRGEIRRMMEVAAADVQRLGGSVELVDIGKQKLPDGSEIPLPPILLGKLGSDPQKKTVCIYGHLDVQPAALEDGWDSEPFTLVEREGKLYGRGSTDDKGPVAGWMNALEAYQKTGQEIPVNLRFCLEGMEESGSEGLDELIFAQKDKFFKDVDYVCISDNYWLGKNKPCITYGLRGICYFFIEVECSDKDLHSGVYGGSVHEAMTDLISLMGCLVDKKGKILIPGINDAVAPVTDEEHALYDHIDFDMEEFAKDVGAETLLHSCKKDILMHRWRYPSLSLHGIEGAFSGSGAKTVIPRKVVGKFSIRLVPDMIPEVVSEQVSSYLSKKFAELQSPNKFKVYMGHGGKPWVSDFNHPHYQAGRRALKTVFGVEPDLTREGGSIPVTLTFQEATGKNVMLLPVGSADDGAHSQNEKLNRLNYIEGTKMLAAYLYEVSQLK 2zom-a1-m1-cB_2zom-a1-m1-cC Crystal structure of CutA1 from Oryza sativa Q109R6 Q109R6 3.02 X-RAY DIFFRACTION 86 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 108 109 2zom-a1-m1-cA_2zom-a1-m1-cB 2zom-a1-m1-cA_2zom-a1-m1-cC TTVPSIVVYVTVPNKEAGKRLAGSIISEKLAACVNIVPGIESVYWWEGKVQTDAEELLIIKTRESLLDALTEHVKANHEYDVPEVIALPIKGGNLKYLEWLKNSTRES STTVPSIVVYVTVPNKEAGKRLAGSIISEKLAACVNIVPGIESVYWWEGKVQTDAEELLIIKTRESLLDALTEHVKANHEYDVPEVIALPIKGGNLKYLEWLKNSTRES 2zoo-a1-m2-cA_2zoo-a1-m3-cA Crystal structure of nitrite reductase from Pseudoalteromonas haloplanktis TAC125 Q3IGF7 Q3IGF7 1.95 X-RAY DIFFRACTION 266 1.0 326442 (Pseudoalteromonas translucida TAC125) 326442 (Pseudoalteromonas translucida TAC125) 438 438 2zoo-a1-m1-cA_2zoo-a1-m2-cA 2zoo-a1-m1-cA_2zoo-a1-m3-cA LKTEQAILTPPPMVPPAINRDHSAKVVINLETREQVGRIADGVEYVFWSFGETVPGSFIRVREGDEIEFNLSNHPSSKMPHNIDLHAVTGPGGGAESSFTAPGHTSTFNFKALNPGLYIYHCATAPVGMHIANGMYGLILVEPKEGLAPVDREYYLVQGDFYTKGEFGEAGLQPFDMAKAIDEDADYVVFNGSVGSTTDENSLTAKVGETVRLYIGNGGPNLVSSFHVIGEIFDTVYVEGGSLKNHNVQTTLIPAGGAAIVEFKVEVPGTFILVDHSIFRAFNKGALAMLKVEGPDDHSIFTGKTAENVYLPEGSAIQSLDNTFTKITANNKDEQIRFGQRVYEANCMACHQANGEGIPGAFPPLAKSDYLNNNPLLGVNAIIKGLSGPIKVNNVNYNGVMPAMNLNDEDIANVITFVLNNWDNAGGKVSAEQVAKQR LKTEQAILTPPPMVPPAINRDHSAKVVINLETREQVGRIADGVEYVFWSFGETVPGSFIRVREGDEIEFNLSNHPSSKMPHNIDLHAVTGPGGGAESSFTAPGHTSTFNFKALNPGLYIYHCATAPVGMHIANGMYGLILVEPKEGLAPVDREYYLVQGDFYTKGEFGEAGLQPFDMAKAIDEDADYVVFNGSVGSTTDENSLTAKVGETVRLYIGNGGPNLVSSFHVIGEIFDTVYVEGGSLKNHNVQTTLIPAGGAAIVEFKVEVPGTFILVDHSIFRAFNKGALAMLKVEGPDDHSIFTGKTAENVYLPEGSAIQSLDNTFTKITANNKDEQIRFGQRVYEANCMACHQANGEGIPGAFPPLAKSDYLNNNPLLGVNAIIKGLSGPIKVNNVNYNGVMPAMNLNDEDIANVITFVLNNWDNAGGKVSAEQVAKQR 2zop-a3-m1-cB_2zop-a3-m2-cF X-ray crystal structure of a CRISPR-associated Cmr5 family protein from Thermus thermophilus HB8 Q53W05 Q53W05 2.1 X-RAY DIFFRACTION 34 0.991 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 110 110 2zop-a3-m1-cC_2zop-a3-m2-cE 2zop-a3-m2-cD_2zop-a3-m1-cA RTRSQVWAQKAYEKVREAAKGEGRGEYRDALKLPVLVRQAGLSQALAFVDSRGKEAHKALGNDLAQVLGYRDLRELAEAAREAELLQYLRLTREVLAAAEWFKRFAQALI RTRSQVWAQKAYEKVREAAKGEGRGEYRDALKLPVLVRQAGLSQALAFVDSRKEAHKALGNDLAQVLGYRDLRELAEAAREAELLQYLRLTREVLAAAEWFKRFAQALIE 2zop-a3-m2-cE_2zop-a3-m2-cF X-ray crystal structure of a CRISPR-associated Cmr5 family protein from Thermus thermophilus HB8 Q53W05 Q53W05 2.1 X-RAY DIFFRACTION 15 0.991 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 110 110 2zop-a1-m1-cC_2zop-a1-m1-cA 2zop-a1-m1-cC_2zop-a1-m1-cB 2zop-a2-m1-cD_2zop-a2-m1-cE 2zop-a2-m1-cD_2zop-a2-m1-cF 2zop-a2-m1-cE_2zop-a2-m1-cF 2zop-a3-m1-cC_2zop-a3-m1-cA 2zop-a3-m1-cC_2zop-a3-m1-cB 2zop-a3-m2-cD_2zop-a3-m2-cE 2zop-a3-m2-cD_2zop-a3-m2-cF RTRSQVWAQKAYEKVREAAKGEGRGEYRDALKLPVLVRQAGLSQALAFVDSRGEAHKALGNDLAQVLGYRDLRELAEAAREAELLQYLRLTREVLAAAEWFKRFAQALIE RTRSQVWAQKAYEKVREAAKGEGRGEYRDALKLPVLVRQAGLSQALAFVDSRKEAHKALGNDLAQVLGYRDLRELAEAAREAELLQYLRLTREVLAAAEWFKRFAQALIE 2zov-a1-m1-cA_2zov-a1-m2-cA Structure of the periplasmic domain of MotB from Salmonella (crystal form I) P55892 P55892 2 X-RAY DIFFRACTION 74 1.0 162 162 KKREQSRLNKLRGDLDQLIESDPKLRALRPHLKIDLVQEGLRIQIIDSQNRPFKTGSAEVEPYRDILRAIAPVLNGIPNRISLAGHTDDFPYANGEKGYSNWELSADRANASRRELVAGGLDNGKVLRVVGAATDAINRRISLLVLNKQAEQAILHENAESQ KKREQSRLNKLRGDLDQLIESDPKLRALRPHLKIDLVQEGLRIQIIDSQNRPFKTGSAEVEPYRDILRAIAPVLNGIPNRISLAGHTDDFPYANGEKGYSNWELSADRANASRRELVAGGLDNGKVLRVVGAATDAINRRISLLVLNKQAEQAILHENAESQ 2zoz-a2-m1-cA_2zoz-a2-m2-cB Crystal structure of the ethidium-bound form of the multi-drug binding transcriptional repressor CgmR Q8NMG3 Q8NMG3 1.95 X-RAY DIFFRACTION 28 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 172 181 TSKKEMILRTAIDYIGEYSLETLSYDSLAEATGLSKSGLIYHFPSRHALLLGMHELLADDWDKELRDITRDPEDPLERLRAVVVTLAENVSRPELLLLIDAPSHPDFLNAWRTVNHQWIPDTDDLENDAHKRAVYLVQLAADGLFVHDYIHDDVLSKSKRQAMLETILELIP MRTSKKEMILRTAIDYIGEYSLETLSYDSLAEATGLSKSGLIYHFPSRHALLLGMHELLADDWDKELRDITRDPEDPLERLRAVVVTLAENVSRPELLLLIDAPSHPDFLNAWRTVNHQWIPDTDDLENDAHKRAVYLVQLAADGLFVHDYIHDDVLSKSKRQAMLETILELIPSELHHHH 2zp7-a3-m1-cE_2zp7-a3-m1-cF Crystal structure of LysN, alpha-aminoadipate aminotransferase (Leucine complex), from Thermus thermophilus HB27 Q72LL6 Q72LL6 2.26 X-RAY DIFFRACTION 286 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 391 391 2egy-a1-m1-cA_2egy-a1-m1-cB 2egy-a2-m1-cD_2egy-a2-m1-cC 2z1y-a1-m1-cA_2z1y-a1-m1-cB 2zp7-a1-m1-cA_2zp7-a1-m1-cC 2zp7-a2-m1-cB_2zp7-a2-m1-cD 2zyj-a1-m1-cA_2zyj-a1-m1-cB 3cbf-a1-m1-cA_3cbf-a1-m1-cB SWSEAFGKGAGRIQASTIRELLKLTQRPGILSFAGGLPAPELFPKEEAAEAAARILREKGEVALQYSPTEGYAPLRAFVAEWIGVRPEEVLITTGSQQALDLVGKVFLDEGSPVLLEAPSYMGAIQAFRLQGPRFLTVPAGEEGPDLDALEEVLKRERPRFLYLIPSFQNPTGGLTPLPARKRLLQMVMERGLVVVEDDAYRELYFGEARLPSLFELAREAGYPGVIYLGSFSKVLSPGLRVAFAVAHPEALQKLVQAKQGADLHTPMLNQMLVHELLKEGFSERLERVRRVYREKAQAMLHALDREVPKEVRYTRPKGGMFVWMELPKGLSAEGLFRRALEENVAFVPGGPFFANGGGENTLRLSYATLDREGIAEGVRRLGRALKGLLA SWSEAFGKGAGRIQASTIRELLKLTQRPGILSFAGGLPAPELFPKEEAAEAAARILREKGEVALQYSPTEGYAPLRAFVAEWIGVRPEEVLITTGSQQALDLVGKVFLDEGSPVLLEAPSYMGAIQAFRLQGPRFLTVPAGEEGPDLDALEEVLKRERPRFLYLIPSFQNPTGGLTPLPARKRLLQMVMERGLVVVEDDAYRELYFGEARLPSLFELAREAGYPGVIYLGSFSKVLSPGLRVAFAVAHPEALQKLVQAKQGADLHTPMLNQMLVHELLKEGFSERLERVRRVYREKAQAMLHALDREVPKEVRYTRPKGGMFVWMELPKGLSAEGLFRRALEENVAFVPGGPFFANGGGENTLRLSYATLDREGIAEGVRRLGRALKGLLA 2zp8-a1-m2-cE_2zp8-a1-m3-cJ The Nature of the TRAP:Anti-TRAP complex O31466 O31466 3.2 X-RAY DIFFRACTION 20 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 53 53 2zp8-a1-m1-cE_2zp8-a1-m2-cJ 2zp8-a1-m1-cG_2zp8-a1-m1-cH 2zp8-a1-m1-cJ_2zp8-a1-m3-cE 2zp8-a1-m2-cG_2zp8-a1-m2-cH 2zp8-a1-m3-cG_2zp8-a1-m3-cH 2zp9-a2-m6-cC_2zp9-a2-m5-cE 2zp9-a2-m7-cC_2zp9-a2-m1-cE 2zp9-a2-m8-cC_2zp9-a2-m4-cE MVIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK MVIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK 2zp8-a1-m3-cI_2zp8-a1-m3-cJ The Nature of the TRAP:Anti-TRAP complex O31466 O31466 3.2 X-RAY DIFFRACTION 35 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 53 53 2bx9-a1-m1-cA_2bx9-a1-m1-cB 2bx9-a1-m1-cA_2bx9-a1-m1-cC 2bx9-a1-m1-cB_2bx9-a1-m1-cC 2bx9-a1-m1-cD_2bx9-a1-m1-cE 2bx9-a1-m1-cD_2bx9-a1-m1-cF 2bx9-a1-m1-cE_2bx9-a1-m1-cF 2bx9-a1-m1-cG_2bx9-a1-m1-cH 2bx9-a1-m1-cG_2bx9-a1-m1-cI 2bx9-a1-m1-cH_2bx9-a1-m1-cI 2bx9-a1-m1-cJ_2bx9-a1-m1-cK 2bx9-a1-m1-cJ_2bx9-a1-m1-cL 2bx9-a1-m1-cK_2bx9-a1-m1-cL 2zp8-a1-m1-cE_2zp8-a1-m1-cF 2zp8-a1-m1-cE_2zp8-a1-m1-cG 2zp8-a1-m1-cF_2zp8-a1-m1-cG 2zp8-a1-m1-cH_2zp8-a1-m1-cI 2zp8-a1-m1-cH_2zp8-a1-m1-cJ 2zp8-a1-m1-cI_2zp8-a1-m1-cJ 2zp8-a1-m2-cE_2zp8-a1-m2-cF 2zp8-a1-m2-cE_2zp8-a1-m2-cG 2zp8-a1-m2-cF_2zp8-a1-m2-cG 2zp8-a1-m2-cH_2zp8-a1-m2-cI 2zp8-a1-m2-cH_2zp8-a1-m2-cJ 2zp8-a1-m2-cI_2zp8-a1-m2-cJ 2zp8-a1-m3-cE_2zp8-a1-m3-cF 2zp8-a1-m3-cE_2zp8-a1-m3-cG 2zp8-a1-m3-cF_2zp8-a1-m3-cG 2zp8-a1-m3-cH_2zp8-a1-m3-cI 2zp8-a1-m3-cH_2zp8-a1-m3-cJ MVIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK MVIATDDLEVACPKCERAGEIEGTPCPACSGKGVILTAQGYTLLDFIQKHLNK 2zp9-a2-m1-cC_2zp9-a2-m8-cE The Nature of the TRAP:Anti-TRAP complex O31466 O31466 3.2 X-RAY DIFFRACTION 15 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 46 49 2zp9-a2-m4-cC_2zp9-a2-m6-cE 2zp9-a2-m5-cC_2zp9-a2-m7-cE MVIATDDLEVACPKCERAGCPACSGKGVILTAQGYTLLDFIQKHLN MVIATDDLEVACPKCERAGGTPCPACSGKGVILTAQGYTLLDFIQKHLN 2zp9-a2-m8-cC_2zp9-a2-m8-cE The Nature of the TRAP:Anti-TRAP complex O31466 O31466 3.2 X-RAY DIFFRACTION 33 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 46 49 2zp9-a1-m1-cJ_2zp9-a1-m1-cH 2zp9-a1-m1-cO_2zp9-a1-m1-cM 2zp9-a1-m2-cJ_2zp9-a1-m2-cH 2zp9-a1-m2-cO_2zp9-a1-m2-cM 2zp9-a1-m3-cJ_2zp9-a1-m3-cH 2zp9-a1-m3-cO_2zp9-a1-m3-cM 2zp9-a2-m1-cC_2zp9-a2-m1-cE 2zp9-a2-m1-cD_2zp9-a2-m1-cC 2zp9-a2-m1-cD_2zp9-a2-m1-cE 2zp9-a2-m4-cC_2zp9-a2-m4-cE 2zp9-a2-m4-cD_2zp9-a2-m4-cC 2zp9-a2-m4-cD_2zp9-a2-m4-cE 2zp9-a2-m5-cC_2zp9-a2-m5-cE 2zp9-a2-m5-cD_2zp9-a2-m5-cC 2zp9-a2-m5-cD_2zp9-a2-m5-cE 2zp9-a2-m6-cC_2zp9-a2-m6-cE 2zp9-a2-m6-cD_2zp9-a2-m6-cC 2zp9-a2-m6-cD_2zp9-a2-m6-cE 2zp9-a2-m7-cC_2zp9-a2-m7-cE 2zp9-a2-m7-cD_2zp9-a2-m7-cC 2zp9-a2-m7-cD_2zp9-a2-m7-cE 2zp9-a2-m8-cD_2zp9-a2-m8-cC 2zp9-a2-m8-cD_2zp9-a2-m8-cE MVIATDDLEVACPKCERAGCPACSGKGVILTAQGYTLLDFIQKHLN MVIATDDLEVACPKCERAGGTPCPACSGKGVILTAQGYTLLDFIQKHLN 2zpb-a2-m1-cB_2zpb-a2-m2-cB nitrosylated Fe-type nitrile hydratase P13449 P13449 1.3 X-RAY DIFFRACTION 75 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 211 211 1ahj-a5-m1-cB_1ahj-a5-m2-cF 1ahj-a6-m1-cD_1ahj-a6-m3-cH 2cyz-a2-m1-cB_2cyz-a2-m2-cB 2cz1-a2-m1-cB_2cz1-a2-m2-cB 2cz6-a2-m1-cB_2cz6-a2-m2-cB 2cz7-a2-m1-cB_2cz7-a2-m2-cB 2qdy-a2-m1-cB_2qdy-a2-m2-cB 2zcf-a1-m1-cB_2zcf-a1-m2-cB 2zpe-a2-m1-cB_2zpe-a2-m2-cB 2zpf-a2-m1-cB_2zpf-a2-m2-cB 2zpg-a2-m1-cB_2zpg-a2-m2-cB MDGVHDLAGVQGFGKVPHTVNADIGPTFHAEWEHLPYSLMFAGVAELGAFSVDEVRYVVERMEPRHYMMTPYYERYVIGVATLMVEKGILTQDELESLAGGPFPLSRPSESEGRPAPVETTTFEVGQRVRVRDEYVPGHIRMPAYCRGRVGTISHRTTEKWPFPDAIGHGRNDAGEEPTYHVKFAAEELFGSDTDGGSVVVDLFEGYLEPA MDGVHDLAGVQGFGKVPHTVNADIGPTFHAEWEHLPYSLMFAGVAELGAFSVDEVRYVVERMEPRHYMMTPYYERYVIGVATLMVEKGILTQDELESLAGGPFPLSRPSESEGRPAPVETTTFEVGQRVRVRDEYVPGHIRMPAYCRGRVGTISHRTTEKWPFPDAIGHGRNDAGEEPTYHVKFAAEELFGSDTDGGSVVVDLFEGYLEPA 2zpl-a4-m1-cA_2zpl-a4-m1-cB Crystal structure analysis of PDZ domain A P0AEH1 P0AEH1 1.7 X-RAY DIFFRACTION 31 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 91 93 VRPVVGEIAANSIAAEAQIAPGTELKAVDGIETPDWDAVRLQVDKIGDESTTITVAPFGSDQRRDVKLDLRHWAFEPDKEDPVSSLGIRPR GSVRPVVGEIAANSIAAEAQIAPGTELKAVDGIETPDWDAVRLQVDKIGDESTTITVAPFGSDQRRDVKLDLRHWAFEPDKEDPVSSLGIRPR 2zpl-a4-m1-cC_2zpl-a4-m1-cB Crystal structure analysis of PDZ domain A P0AEH1 P0AEH1 1.7 X-RAY DIFFRACTION 21 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 88 93 GSVRPVVGEIAANSIAAEAQIAPGTELKAVDGIETPDWDAVRLQVDKIGDESTTITVAPRRDVKLDLRHWAFEPDKEDPVSSLGIRPR GSVRPVVGEIAANSIAAEAQIAPGTELKAVDGIETPDWDAVRLQVDKIGDESTTITVAPFGSDQRRDVKLDLRHWAFEPDKEDPVSSLGIRPR 2zpm-a2-m1-cA_2zpm-a2-m2-cA Crystal structure analysis of PDZ domain B P0AEH1 P0AEH1 0.98 X-RAY DIFFRACTION 35 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 79 79 3id2-a1-m1-cA_3id2-a1-m1-cB PVLENVQPNSAASAGLQAGDRIVVDGQPLTQWVTFVLVRDNPGSLALEIERQGSPLSLTLIPESPGNGAIGFVGIEPVI PVLENVQPNSAASAGLQAGDRIVVDGQPLTQWVTFVLVRDNPGSLALEIERQGSPLSLTLIPESPGNGAIGFVGIEPVI 2zpo-a2-m1-cA_2zpo-a2-m2-cA Crystal Structure of Green Turtle Egg White Ribonuclease P84844 P84844 1.6 X-RAY DIFFRACTION 29 1.0 8469 (Chelonia mydas) 8469 (Chelonia mydas) 119 119 ETRYEKFLRQHVDYPRTAAPDTRTYCNQMMQRRGMTLPVCKFTNTFVHASAASITTICGPGGAPAGGNLRDSTASFALTTCRLQGGSQRPPCNYNGGTSTQRIRIACDGGLPVHYDRAI ETRYEKFLRQHVDYPRTAAPDTRTYCNQMMQRRGMTLPVCKFTNTFVHASAASITTICGPGGAPAGGNLRDSTASFALTTCRLQGGSQRPPCNYNGGTSTQRIRIACDGGLPVHYDRAI 2zq0-a1-m1-cA_2zq0-a1-m1-cB Crystal structure of SusB complexed with acarbose G8JZS4 G8JZS4 1.6 X-RAY DIFFRACTION 72 0.997 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 704 705 2d73-a1-m1-cA_2d73-a1-m1-cB 2jka-a1-m1-cB_2jka-a1-m1-cA 2jke-a1-m1-cA_2jke-a1-m1-cB 3wfa-a1-m1-cB_3wfa-a1-m1-cA MQQKLTSPDNNLVMTFQVDSKGAPTYELTYKNKVVIKPSTLGLELKKEDNKLDSKTNLYDGFEVKDTQTATFDETWQPVWGEEKEIRNHYNELAVTLYQPMNDRSIVIRFRLFNDGLGFRYEFPQQKSLNYFVIKEEHSQFGMNGDHIAFWIPGDYDTQEYDYTISRLSEIRGLMKEAITPNSSQTPFSQTGVQTALMMKTDDGLYINLHEAALVDYSCMHLNLDDKNMVFESWLTPDAKGDKGYMQTPCNTPWRTIIVSDDARNILASRITLNLNEPCKIADAASWVKPVKYIGVWWDMITGKGSWAYTDELTSVKLGETDYSKTKPNGKHSANTANVKRYIDFAAAHGFDAVLVEGWNEGWEDWFGNSKDYVFDFVTPYPDFDVKEIHRYAARKGIKMMMHHETSASVRNYERHMDKAYQFMADNGYNSVKSGYVGNIIPRGEHHYGQWMNNHYLYAVKKAADYKIMVNAHEATRPTGICRTYPNLIGNESARGTEYESFGGNKVYHTTILPFTRLVGGPMDYTPGIFETHCNKMNPANNSQVRSTIARQLALYVTMYSPLQMAADIPENYERFMDAFQFIKDVALDWDETNYLEAEPGEYITIARKAKDTDDWYVGCTAGENGHTSKLVFDFLTPGKQYIATVYADAKDADWKENPQAYTIKKGILTNKSKLNLHAANGGGYAISIKEVKDKSEAKGLKRL SHMQQKLTSPDNNLVMTFQVDSKGAPTYELTYKNKVVIKPSTLGLELKKETKLDSKTNLYDGFEVKDTQTATFDETWQPVWGEEKEIRNHYNELAVTLYQPMNDRSIVIRFRLFNDGLGFRYEFPQQKSLNYFVIKEEHSQFGMNGDHIAFWIPGDYDTQEYDYTISRLSEIRGLMKEAITPNSSQTPFSQTGVQTALMMKTDDGLYINLHEAALVDYSCMHLNLDDKNMVFESWLTPDAKGDKGYMQTPCNTPWRTIIVSDDARNILASRITLNLNEPCKIADAASWVKPVKYIGVWWDMITGKGSWAYTDELTSVKLGETDYSKTKPNGKHSANTANVKRYIDFAAAHGFDAVLVEGWNEGWEDWFGNSKDYVFDFVTPYPDFDVKEIHRYAARKGIKMMMHHETSASVRNYERHMDKAYQFMADNGYNSVKSGYVGNIIPRGEHHYGQWMNNHYLYAVKKAADYKIMVNAHEATRPTGICRTYPNLIGNESARGTEYESFGGNKVYHTTILPFTRLVGGPMDYTPGIFETHCNKMNPANNSQVRSTIARQLALYVTMYSPLQMAADIPENYERFMDAFQFIKDVALDWDETNYLEAEPGEYITIARKAKDTDDWYVGCTAGENGHTSKLVFDFLTPGKQYIATVYADAKDADWKENPQAYTIKKGILTNKSKLNLHAANGGGYAISIKEVKDKSEAKGLKRL 2zqb-a1-m1-cA_2zqb-a1-m1-cC Crystal structure of a psychrotrophic RNaseHI variant with sextuple thermostabilizing mutations Q8EE30 Q8EE30 2.49 X-RAY DIFFRACTION 14 0.993 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 149 151 ELKLIHIFTDGSCLGNPGPGGYGIVMKYKGHTKEMSGGFSLTTNNRMELLAPIVALEALKEPCKIILTSDSQYVRQGIMTWIHGWKKNGWMTSNGTPVKNVDLWKRLDKAAQLHQIDWRWVKGHAENERCHQLARAAAEANPTQIDTGY LKLIHIFTDGSCLGNPGPGGYGIVMKYKGHTKEMSGGFSLTTNNRMELLAPIVALEALKEPCKIILTSDSQYVRQGIMTWIHGWKKNGWMTSNGTPVKNVDLWKRLDKAAQLHQIDWRWVKGHAGHAENERCHQLARAAAEANPTQIDTGY 2zqb-a1-m1-cA_2zqb-a1-m1-cD Crystal structure of a psychrotrophic RNaseHI variant with sextuple thermostabilizing mutations Q8EE30 Q8EE30 2.49 X-RAY DIFFRACTION 11 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 149 152 ELKLIHIFTDGSCLGNPGPGGYGIVMKYKGHTKEMSGGFSLTTNNRMELLAPIVALEALKEPCKIILTSDSQYVRQGIMTWIHGWKKNGWMTSNGTPVKNVDLWKRLDKAAQLHQIDWRWVKGHAENERCHQLARAAAEANPTQIDTGY ELKLIHIFTDGSCLGNPGPGGYGIVMKYKGHTKEMSGGFSLTTNNRMELLAPIVALEALKEPCKIILTSDSQYVRQGIMTWIHGWKKNGWMTSNGTPVKNVDLWKRLDKAAQLHQIDWRWVKGHAGHAENERCHQLARAAAEANPTQIDTGY 2zqb-a1-m1-cC_2zqb-a1-m1-cD Crystal structure of a psychrotrophic RNaseHI variant with sextuple thermostabilizing mutations Q8EE30 Q8EE30 2.49 X-RAY DIFFRACTION 47 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 151 152 2zqb-a1-m1-cB_2zqb-a1-m1-cA LKLIHIFTDGSCLGNPGPGGYGIVMKYKGHTKEMSGGFSLTTNNRMELLAPIVALEALKEPCKIILTSDSQYVRQGIMTWIHGWKKNGWMTSNGTPVKNVDLWKRLDKAAQLHQIDWRWVKGHAGHAENERCHQLARAAAEANPTQIDTGY ELKLIHIFTDGSCLGNPGPGGYGIVMKYKGHTKEMSGGFSLTTNNRMELLAPIVALEALKEPCKIILTSDSQYVRQGIMTWIHGWKKNGWMTSNGTPVKNVDLWKRLDKAAQLHQIDWRWVKGHAGHAENERCHQLARAAAEANPTQIDTGY 2zqm-a2-m2-cA_2zqm-a2-m8-cA Crystal structure of the prefoldin beta subunit from Thermococcus strain KS-1 B0I3E0 B0I3E0 1.9 X-RAY DIFFRACTION 56 1.0 114 114 2zqm-a2-m1-cA_2zqm-a2-m7-cA 2zqm-a2-m3-cA_2zqm-a2-m5-cA 2zqm-a2-m4-cA_2zqm-a2-m6-cA MQNIPPQVQAMLGQLESYQQQLQLVVQQKQKVQLELTEAKKALDEIESLPDDAVVYKTVGTLIVKTTKDKAVAELKEKIETLEVRLNALERQEKKLNEKLKELTAQIQSALRPP MQNIPPQVQAMLGQLESYQQQLQLVVQQKQKVQLELTEAKKALDEIESLPDDAVVYKTVGTLIVKTTKDKAVAELKEKIETLEVRLNALERQEKKLNEKLKELTAQIQSALRPP 2zqm-a2-m3-cA_2zqm-a2-m8-cA Crystal structure of the prefoldin beta subunit from Thermococcus strain KS-1 B0I3E0 B0I3E0 1.9 X-RAY DIFFRACTION 12 1.0 114 114 2zqm-a2-m1-cA_2zqm-a2-m5-cA 2zqm-a2-m2-cA_2zqm-a2-m6-cA 2zqm-a2-m4-cA_2zqm-a2-m7-cA MQNIPPQVQAMLGQLESYQQQLQLVVQQKQKVQLELTEAKKALDEIESLPDDAVVYKTVGTLIVKTTKDKAVAELKEKIETLEVRLNALERQEKKLNEKLKELTAQIQSALRPP MQNIPPQVQAMLGQLESYQQQLQLVVQQKQKVQLELTEAKKALDEIESLPDDAVVYKTVGTLIVKTTKDKAVAELKEKIETLEVRLNALERQEKKLNEKLKELTAQIQSALRPP 2zqm-a2-m6-cA_2zqm-a2-m8-cA Crystal structure of the prefoldin beta subunit from Thermococcus strain KS-1 B0I3E0 B0I3E0 1.9 X-RAY DIFFRACTION 29 1.0 114 114 2zqm-a1-m1-cA_2zqm-a1-m3-cA 2zqm-a1-m1-cA_2zqm-a1-m4-cA 2zqm-a1-m2-cA_2zqm-a1-m3-cA 2zqm-a1-m2-cA_2zqm-a1-m4-cA 2zqm-a2-m1-cA_2zqm-a2-m3-cA 2zqm-a2-m1-cA_2zqm-a2-m4-cA 2zqm-a2-m2-cA_2zqm-a2-m3-cA 2zqm-a2-m2-cA_2zqm-a2-m4-cA 2zqm-a2-m5-cA_2zqm-a2-m7-cA 2zqm-a2-m5-cA_2zqm-a2-m8-cA 2zqm-a2-m6-cA_2zqm-a2-m7-cA MQNIPPQVQAMLGQLESYQQQLQLVVQQKQKVQLELTEAKKALDEIESLPDDAVVYKTVGTLIVKTTKDKAVAELKEKIETLEVRLNALERQEKKLNEKLKELTAQIQSALRPP MQNIPPQVQAMLGQLESYQQQLQLVVQQKQKVQLELTEAKKALDEIESLPDDAVVYKTVGTLIVKTTKDKAVAELKEKIETLEVRLNALERQEKKLNEKLKELTAQIQSALRPP 2zqp-a2-m1-cY_2zqp-a2-m2-cY Crystal Structure of SecYE translocon from Thermus thermophilus Q5SHQ8 Q5SHQ8 6 X-RAY DIFFRACTION 160 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 415 415 MVKAFWSALQIPELRQRVLFTLLVLAAYRLGAFIPTPGVDLDKIQEFLRTAQGGVFGIINLFSGGNFERFSIFALGIMPYITAAIIMQILVTVVPALEKLSKEGEEGRRIINQYTRIGGIALGAFQGFFLATAFLGAEGGRFLLPGWSPGPFFWFVVVVTQVAGIALLLWMAERITEYGIGNGTSLIIFAGIVVEWLPQILRTIGLIRTGEVNLVAFLFFLAFIVLAFAGMAAVQQAERRIPVQYARYGGQATYIPIKLNAAGVIPIIFAAAILQIPIFLAAPFQDNPVLQGIANFFNPTRPSGLFIEVLLVILFTYVYTAVQFDPKRIAESLREYGGFIPGIRPGEPTVKFLEHIVSRLTLWGALFLGLVTLLPQIIQNLTGIHSIAFSGIGLLIVVGVALDTLRQVESQLMLR MVKAFWSALQIPELRQRVLFTLLVLAAYRLGAFIPTPGVDLDKIQEFLRTAQGGVFGIINLFSGGNFERFSIFALGIMPYITAAIIMQILVTVVPALEKLSKEGEEGRRIINQYTRIGGIALGAFQGFFLATAFLGAEGGRFLLPGWSPGPFFWFVVVVTQVAGIALLLWMAERITEYGIGNGTSLIIFAGIVVEWLPQILRTIGLIRTGEVNLVAFLFFLAFIVLAFAGMAAVQQAERRIPVQYARYGGQATYIPIKLNAAGVIPIIFAAAILQIPIFLAAPFQDNPVLQGIANFFNPTRPSGLFIEVLLVILFTYVYTAVQFDPKRIAESLREYGGFIPGIRPGEPTVKFLEHIVSRLTLWGALFLGLVTLLPQIIQNLTGIHSIAFSGIGLLIVVGVALDTLRQVESQLMLR 2zqq-a1-m1-cB_2zqq-a1-m1-cE Crystal structure of human AUH (3-methylglutaconyl-coa hydratase) mixed with (AUUU)24A RNA Q13825 Q13825 2.2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 266 DELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE EDELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE 2zqq-a1-m1-cD_2zqq-a1-m1-cE Crystal structure of human AUH (3-methylglutaconyl-coa hydratase) mixed with (AUUU)24A RNA Q13825 Q13825 2.2 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 266 1hzd-a1-m1-cA_1hzd-a1-m1-cC 1hzd-a1-m1-cB_1hzd-a1-m1-cA 1hzd-a1-m1-cB_1hzd-a1-m1-cC 1hzd-a1-m1-cD_1hzd-a1-m1-cE 1hzd-a1-m1-cD_1hzd-a1-m1-cF 1hzd-a1-m1-cF_1hzd-a1-m1-cE 2zqq-a1-m1-cA_2zqq-a1-m1-cC 2zqq-a1-m1-cB_2zqq-a1-m1-cA 2zqq-a1-m1-cB_2zqq-a1-m1-cC 2zqq-a1-m1-cF_2zqq-a1-m1-cD 2zqq-a1-m1-cF_2zqq-a1-m1-cE 2zqr-a1-m1-cA_2zqr-a1-m1-cC 2zqr-a1-m1-cB_2zqr-a1-m1-cA 2zqr-a1-m1-cB_2zqr-a1-m1-cC 2zqr-a1-m1-cD_2zqr-a1-m1-cE 2zqr-a1-m1-cD_2zqr-a1-m1-cF 2zqr-a1-m1-cF_2zqr-a1-m1-cE EDELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE EDELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE 2zqq-a1-m1-cF_2zqq-a1-m1-cB Crystal structure of human AUH (3-methylglutaconyl-coa hydratase) mixed with (AUUU)24A RNA Q13825 Q13825 2.2 X-RAY DIFFRACTION 23 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 256 265 2zqq-a1-m1-cC_2zqq-a1-m1-cE EDELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGASEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE DELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE 2zqr-a1-m1-cA_2zqr-a1-m1-cE Crystal structure of AUH without RNA Q13825 Q13825 2.5 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 266 EDELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE EDELRVRHLEEENRGIVVLGINRAYGKNSLSKNLIKMLSKAVDALKSDKKVRTIIIRSEVPGIFCAGADLKERAKMSSSEVGPFVSKIRAVINDIANLPVPTIAAIDGLALGGGLELALACDIRVAASSAKMGLVETKLAIIPGGGGTQRLPRAIGMSLAKELIFSARVLDGKEAKAVGLISHVLEQNQEGDAAYRKALDLAREFLPQGPVAMRVAKLAINQGMEVDLVTGLAIEEACYAQTIPTKDRLEGLLAFKEKRPPRYKGE 2zr8-a1-m1-cA_2zr8-a1-m2-cA Crystal Structure of Modified Serine Racemase complexed with Serine O59791 O59791 2.2 X-RAY DIFFRACTION 57 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 319 319 1v71-a1-m1-cA_1v71-a1-m2-cA 1wtc-a2-m1-cA_1wtc-a2-m3-cA 2zpu-a1-m1-cA_2zpu-a1-m2-cA LVLPTYDDVASASERIKKFANKTPVLTSSTVNKEFVAEVFFKCENFQKMGAFKFRGALNALSQLNEAQRKAGVLTFSSGNHAQAIALSAKILGIPAKIIMPLDAPEAKVAATKGYGGQVIMYDRYKDDREKMAKEISEREGLTIIPPYDHPHVLAGQGTAAKELFEEVGPLDALFVCLGGGGLLSGSALAARHFAPNCEVYGVEPEAGNDGQQSFRKGSIVHIDTPKTIADGAQTQHLGNYTFSIIKEKVDDILTVSDEELIDCLKFYAARMKIVVEPTGCLSFAAARAMKEKLKNKRIGIIISGGNVDIERYAHFLSQ LVLPTYDDVASASERIKKFANKTPVLTSSTVNKEFVAEVFFKCENFQKMGAFKFRGALNALSQLNEAQRKAGVLTFSSGNHAQAIALSAKILGIPAKIIMPLDAPEAKVAATKGYGGQVIMYDRYKDDREKMAKEISEREGLTIIPPYDHPHVLAGQGTAAKELFEEVGPLDALFVCLGGGGLLSGSALAARHFAPNCEVYGVEPEAGNDGQQSFRKGSIVHIDTPKTIADGAQTQHLGNYTFSIIKEKVDDILTVSDEELIDCLKFYAARMKIVVEPTGCLSFAAARAMKEKLKNKRIGIIISGGNVDIERYAHFLSQ 2zs0-a1-m2-cA_2zs0-a1-m6-cA Structural Basis for the Heterotropic and Homotropic Interactions of Invertebrate Giant Hemoglobin Q7M419 Q7M419 1.6 X-RAY DIFFRACTION 33 1.0 55676 (Oligobrachia mashikoi) 55676 (Oligobrachia mashikoi) 140 140 2d2m-a1-m1-cA_2d2m-a1-m4-cA 2d2m-a1-m2-cA_2d2m-a1-m6-cA 2d2m-a1-m3-cA_2d2m-a1-m5-cA 2d2n-a1-m1-cA_2d2n-a1-m4-cA 2d2n-a1-m2-cA_2d2n-a1-m6-cA 2d2n-a1-m3-cA_2d2n-a1-m5-cA 2zfo-a1-m1-cA_2zfo-a1-m4-cA 2zfo-a1-m2-cA_2zfo-a1-m6-cA 2zfo-a1-m3-cA_2zfo-a1-m5-cA 2zs0-a1-m1-cA_2zs0-a1-m4-cA 2zs0-a1-m3-cA_2zs0-a1-m5-cA 2zs1-a1-m1-cA_2zs1-a1-m4-cA 2zs1-a1-m2-cA_2zs1-a1-m6-cA 2zs1-a1-m3-cA_2zs1-a1-m5-cA 7e96-a1-m1-cA_7e96-a1-m4-cA 7e96-a1-m2-cA_7e96-a1-m6-cA 7e96-a1-m3-cA_7e96-a1-m5-cA 7e97-a1-m1-cA_7e97-a1-m4-cA 7e97-a1-m2-cA_7e97-a1-m6-cA 7e97-a1-m3-cA_7e97-a1-m5-cA 7e98-a1-m1-cA_7e98-a1-m4-cA 7e98-a1-m2-cA_7e98-a1-m6-cA 7e98-a1-m3-cA_7e98-a1-m5-cA 7e99-a1-m1-cA_7e99-a1-m4-cA 7e99-a1-m2-cA_7e99-a1-m6-cA 7e99-a1-m3-cA_7e99-a1-m5-cA VCNRLEQILVKTQWAQSYGEAENRAAFSRDLFSELFNIQGSSRALFSGVGVDDMNSAAFTAHCLRVTGALNRLISQLDQQATINADLAHLAGQHASRNLDASNFAAMGQAVMSVVPTHLDCFNQHAWGECYERIASGISG VCNRLEQILVKTQWAQSYGEAENRAAFSRDLFSELFNIQGSSRALFSGVGVDDMNSAAFTAHCLRVTGALNRLISQLDQQATINADLAHLAGQHASRNLDASNFAAMGQAVMSVVPTHLDCFNQHAWGECYERIASGISG 2zsc-a1-m1-cA_2zsc-a1-m2-cB Tamavidin2, Novel Avidin-like Biotin-Binding Proteins from an Edible Mushroom B9A0T7 B9A0T7 1.3 X-RAY DIFFRACTION 10 1.0 5321 (Pleurotus cornucopiae) 5321 (Pleurotus cornucopiae) 122 123 2zsc-a1-m2-cA_2zsc-a1-m1-cB SDVQSSLTGTWYNELNSKMELTANKDGTLTGKYLSKVGDVYVPYPLSGRYNLQPPAGQGVALGWAVSWENSKIHSATTWGQFFSESSPVILTQWLLSSSTARGDVWESTLVGNDSFTKTAPT SDVQSSLTGTWYNELNSKMELTANKDGTLTGKYLSKVGDVYVPYPLSGRYNLQPPAGQGVALGWAVSWENSKIHSATTWSGQFFSESSPVILTQWLLSSSTARGDVWESTLVGNDSFTKTAPT 2zsc-a1-m1-cB_2zsc-a1-m2-cB Tamavidin2, Novel Avidin-like Biotin-Binding Proteins from an Edible Mushroom B9A0T7 B9A0T7 1.3 X-RAY DIFFRACTION 189 1.0 5321 (Pleurotus cornucopiae) 5321 (Pleurotus cornucopiae) 123 123 2zsc-a1-m1-cA_2zsc-a1-m2-cA SDVQSSLTGTWYNELNSKMELTANKDGTLTGKYLSKVGDVYVPYPLSGRYNLQPPAGQGVALGWAVSWENSKIHSATTWSGQFFSESSPVILTQWLLSSSTARGDVWESTLVGNDSFTKTAPT SDVQSSLTGTWYNELNSKMELTANKDGTLTGKYLSKVGDVYVPYPLSGRYNLQPPAGQGVALGWAVSWENSKIHSATTWSGQFFSESSPVILTQWLLSSSTARGDVWESTLVGNDSFTKTAPT 2zsc-a1-m2-cA_2zsc-a1-m2-cB Tamavidin2, Novel Avidin-like Biotin-Binding Proteins from an Edible Mushroom B9A0T7 B9A0T7 1.3 X-RAY DIFFRACTION 27 1.0 5321 (Pleurotus cornucopiae) 5321 (Pleurotus cornucopiae) 122 123 2zsc-a1-m1-cA_2zsc-a1-m1-cB SDVQSSLTGTWYNELNSKMELTANKDGTLTGKYLSKVGDVYVPYPLSGRYNLQPPAGQGVALGWAVSWENSKIHSATTWGQFFSESSPVILTQWLLSSSTARGDVWESTLVGNDSFTKTAPT SDVQSSLTGTWYNELNSKMELTANKDGTLTGKYLSKVGDVYVPYPLSGRYNLQPPAGQGVALGWAVSWENSKIHSATTWSGQFFSESSPVILTQWLLSSSTARGDVWESTLVGNDSFTKTAPT 2zsg-a1-m1-cB_2zsg-a1-m1-cA Crystal structure of X-Pro aminopeptidase from Thermotoga maritima MSB8 Q9WXP9 Q9WXP9 1.65 X-RAY DIFFRACTION 84 0.991 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 352 356 DRSERLIGIDAFLIMNIENSARASSVYFSGFTGSFSIILISENTRLLITDSRYTVQAKQETDFEVREVKGGDFIDVLKKTVNDLKIKTIALEEERVSLSLFRRISSAFGDRKFIGIDDEVKQMRMVKDEGEIEKIKQAIEISERAFLETVQQIRAGMTEKEIAALLEYTMRKEGAEGVAFDTIVASGCRSALPHGKASDKVVERGDVIVIDFGATYENYCADITRVVSIGEPSDEVKEVHSIVLEAQERALKIAKAGVTGKLLDSVAREFIREKGYGEFFGHSLGHGIGLEVHEGPAISFRNDSPLPENVVFTVEPGIYLEGKFGIRIEEDVVLKEQGCEILTTLPRSIFVV MDRSERLIQLISEEGIDAFLIMNIENSARASSVYFSGFTGSFSIILISENTRLLITDSRYTVQAKQETDFEVREVDFIDVLKKTVNDLKIKTIALEEERVSLSLFRRISSAFGDRKFIGIDDEVKQMRMVKDEGEIEKIKQAIEISERAFLETVQQIRAGMTEKEIAALLEYTMRKEGAEGVAFDTIVASGCRSALPHGKASDKVVERGDVIVIDFGATYENYCADITRVVSIGEPSDEVKEVHSIVLEAQERALKIAKAGVTGKLLDSVAREFIREKGYGEFFGHSLGHGIGLEVHEGPAISFRNDSPLPENVVFTVEPGIYLEGKFGIRIEEDVVLKEQGCEILTTLPRSIFVV 2zsj-a2-m1-cD_2zsj-a2-m1-cC Crystal structure of threonine synthase from Aquifex aeolicus VF5 O66740 O66740 1.8 X-RAY DIFFRACTION 241 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 348 350 2zsj-a1-m1-cA_2zsj-a1-m1-cB RWQGIIKQYKKYLPVDENTPIVTLYEGNTPLIEADNLARAIGFKGKIYLKYEGLNPTGSFKDRGMTLAISKAVEAGKRAVICASTGNTSASAAAYAARAGLRAYVLLPKGAIGKLSQAMIYGAKVLAIQGTFDDALNIVRKIGENFPVEIVNSVNPYRIEGQKTAAFEICDTLGEAPDYHFIPVGNAGNITAYWKGFKIYYEEGKITKLPRMMGWQAEGAAPIVKGYPIKNPQTIATAIKIGNPYSWKSALKAAQESGGKIDAVSDSEILYAYKLIASTEGVFCEPASAASVAGLIKLVREGFFKGGEVVTCTLTGNGLKDPDTAIKVCEEPITVPPDFDEVVKVLGF RWQGIIKQYKKYLPVDENTPIVTLYEGNTPLIEADNLARAIGFKGKIYLKYEGLNPTGSFKDRGMTLAISKAVEAGKRAVICASTGNTSASAAAYAARAGLRAYVLLPKGAVAIGKLSQAMIYGAKVLAIQGTFDDALNIVRKIGENFPVEIVNSVNPYRIEGQKTAAFEICDTLGEAPDYHFIPVGNAGNITAYWKGFKIYYEEGKITKLPRMMGWQAEGAAPIVKGYPIKNPQTIATAIKIGNPYSWKSALKAAQESGGKIDAVSDSEILYAYKLIASTEGVFCEPASAASVAGLIKLVREGFFKGGEVVTCTLTGNGLKDPDTAIKVCEEPITVPPDFDEVVKVLGF 2zsk-a1-m1-cA_2zsk-a1-m1-cB Crystal structure of PH1733, an aspartate racemase homologue, from Pyrococcus horikoshii OT3 O59384 O59384 2.55 X-RAY DIFFRACTION 96 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 226 226 MKKIGIIGGTTPESTLYYYKKYIEISREKFEKYFYPELIIYSINFKEFFQNPEGWEGRKKILINAAKALERAGAELIAFAANTPHLVFDDVQREVNVPMVSIIDAVAEEILKRGVRKVLLLGTKTTMTADFYIKTLEEKGLEVVVPNDEEKEELNRIIFEELAFGNLKNKEWIVRLIEKYRESEGIEGVILGCTELPLAIKQGDVSVEVFDSAEIHMRKLIELASE MKKIGIIGGTTPESTLYYYKKYIEISREKFEKYFYPELIIYSINFKEFFQNPEGWEGRKKILINAAKALERAGAELIAFAANTPHLVFDDVQREVNVPMVSIIDAVAEEILKRGVRKVLLLGTKTTMTADFYIKTLEEKGLEVVVPNDEEKEELNRIIFEELAFGNLKNKEWIVRLIEKYRESEGIEGVILGCTELPLAIKQGDVSVEVFDSAEIHMRKLIELASE 2zsl-a1-m1-cA_2zsl-a1-m2-cA Crystal structure of glutamate-1-semialdehyde 2,1-aminomutase from Aeropyrum pernix Q9Y9I9 Q9Y9I9 1.7 X-RAY DIFFRACTION 394 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 420 420 2epj-a1-m1-cA_2epj-a1-m2-cA 2zsm-a1-m1-cA_2zsm-a1-m2-cA 2zsm-a2-m1-cB_2zsm-a2-m1-cC GEKSRMLFERTKELFPGGVNSPVRAAVKPYPFYVKRGEGAYLYTVDGARIVDLVLAYGPLILGHKHPRVLEAVEEALARGWLYGAPGEAEVLLAEKILGYVKRGGMIRFVNSGTEATMTAIRLARGYTGRDLILKFDGCYHGSHDAVLVAAGGVPTSAGVPEAVARLTLVTPYNDVEALERVFAEYGDRIAGVIVEPVIANAGVIPPRREFLAALQRLSRESGALLILDEVVTGFRLGLEGAQGYFNIEGDIIVLGKIIGGGFPVGAVAGSREVMSLLTPQGKVFNAGTFNAHPITMAAGLATLKALEEEPVYSVSREAAKALEEAASEVLDRTGLPYTINRVESMMQLFIGVEEVSNAAQARKADKKFYVKLHEEMLRRGVFIAPSNLEAVFTGLPHQGEALEIAVEGLRSSLKTVLGS GEKSRMLFERTKELFPGGVNSPVRAAVKPYPFYVKRGEGAYLYTVDGARIVDLVLAYGPLILGHKHPRVLEAVEEALARGWLYGAPGEAEVLLAEKILGYVKRGGMIRFVNSGTEATMTAIRLARGYTGRDLILKFDGCYHGSHDAVLVAAGGVPTSAGVPEAVARLTLVTPYNDVEALERVFAEYGDRIAGVIVEPVIANAGVIPPRREFLAALQRLSRESGALLILDEVVTGFRLGLEGAQGYFNIEGDIIVLGKIIGGGFPVGAVAGSREVMSLLTPQGKVFNAGTFNAHPITMAAGLATLKALEEEPVYSVSREAAKALEEAASEVLDRTGLPYTINRVESMMQLFIGVEEVSNAAQARKADKKFYVKLHEEMLRRGVFIAPSNLEAVFTGLPHQGEALEIAVEGLRSSLKTVLGS 2ztd-a1-m4-cB_2ztd-a1-m3-cA MtRuvA Form III P9WGW3 P9WGW3 2.4 X-RAY DIFFRACTION 11 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 182 189 2h5x-a1-m1-cC_2h5x-a1-m2-cB 2h5x-a1-m1-cD_2h5x-a1-m2-cA 2h5x-a1-m2-cC_2h5x-a1-m1-cB 2h5x-a1-m2-cD_2h5x-a1-m1-cA 2ztc-a1-m1-cB_2ztc-a1-m2-cA 2ztc-a1-m2-cB_2ztc-a1-m1-cA 2ztd-a1-m1-cB_2ztd-a1-m2-cA 2ztd-a1-m2-cB_2ztd-a1-m1-cA 2ztd-a1-m3-cB_2ztd-a1-m4-cA 2zte-a1-m1-cA_2zte-a1-m7-cA 2zte-a1-m2-cA_2zte-a1-m8-cA 2zte-a1-m3-cA_2zte-a1-m5-cA 2zte-a1-m4-cA_2zte-a1-m6-cA SEFMIASVRGEVLEVALDHVVIEAAGVGYRVNATPATLATLRQGTEARLITAMIVREDSMTLYGFPDGETRDLFLTLLSVSGVGPRLAMAALAVHDAPALRQVLADGNVAALTRVPGIGKRGAERMVLELRDKVVRSPVVEALVGLGFAAKQAEEATDTVLAANHDATTSSALRSALSLLGK MGRGSEFMIASVRGEVLEVALDHVVIEAAGVGYRVNATPATLATLRQGTEARLITAMIVREDSMTLYGFPDGETRDLFLTLLSVSGVGPRLAMAALAVHDAPALRQVLADGNVAALTRVPGIGKRGAERMVLELRDKVGAVRSPVVEALVGLGFAAKQAEEATDTVLAANHDATTSSALRSALSLLGKA 2zte-a2-m2-cA_2zte-a2-m4-cA MtRuvA Form IV P9WGW3 P9WGW3 3.2 X-RAY DIFFRACTION 50 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 133 133 2h5x-a1-m1-cA_2h5x-a1-m1-cB 2h5x-a1-m1-cC_2h5x-a1-m1-cB 2h5x-a1-m1-cC_2h5x-a1-m1-cD 2h5x-a1-m1-cD_2h5x-a1-m1-cA 2h5x-a1-m2-cA_2h5x-a1-m2-cB 2h5x-a1-m2-cC_2h5x-a1-m2-cB 2h5x-a1-m2-cC_2h5x-a1-m2-cD 2h5x-a1-m2-cD_2h5x-a1-m2-cA 2ztc-a1-m1-cB_2ztc-a1-m1-cA 2ztc-a1-m1-cB_2ztc-a1-m1-cD 2ztc-a1-m1-cC_2ztc-a1-m1-cA 2ztc-a1-m1-cC_2ztc-a1-m1-cD 2ztc-a1-m2-cB_2ztc-a1-m2-cA 2ztc-a1-m2-cB_2ztc-a1-m2-cD 2ztc-a1-m2-cC_2ztc-a1-m2-cA 2ztc-a1-m2-cC_2ztc-a1-m2-cD 2ztd-a1-m1-cB_2ztd-a1-m1-cA 2ztd-a1-m1-cB_2ztd-a1-m4-cA 2ztd-a1-m2-cB_2ztd-a1-m2-cA 2ztd-a1-m2-cB_2ztd-a1-m3-cA 2ztd-a1-m3-cB_2ztd-a1-m2-cA 2ztd-a1-m3-cB_2ztd-a1-m3-cA 2ztd-a1-m4-cB_2ztd-a1-m1-cA 2ztd-a1-m4-cB_2ztd-a1-m4-cA 2zte-a1-m1-cA_2zte-a1-m3-cA 2zte-a1-m1-cA_2zte-a1-m4-cA 2zte-a1-m2-cA_2zte-a1-m3-cA 2zte-a1-m2-cA_2zte-a1-m4-cA 2zte-a1-m5-cA_2zte-a1-m7-cA 2zte-a1-m5-cA_2zte-a1-m8-cA 2zte-a1-m6-cA_2zte-a1-m7-cA 2zte-a1-m6-cA_2zte-a1-m8-cA 2zte-a2-m1-cA_2zte-a2-m3-cA 2zte-a2-m1-cA_2zte-a2-m4-cA 2zte-a2-m2-cA_2zte-a2-m3-cA EFMIASVRGEVLEVALDHVVIEAAGVGYRVNATPATLATLRQGTEARLITAMIVREDSMTLYGFPDGETRDLFLTLLSVSGVGPRLAMAALAVHDAPALRQVLADGNVAALTRVPGIGKRGAERMVLELRDKV EFMIASVRGEVLEVALDHVVIEAAGVGYRVNATPATLATLRQGTEARLITAMIVREDSMTLYGFPDGETRDLFLTLLSVSGVGPRLAMAALAVHDAPALRQVLADGNVAALTRVPGIGKRGAERMVLELRDKV 2zti-a1-m1-cA_2zti-a1-m2-cA Structures of dimeric nonstandard nucleotide triphosphate pyrophosphatase from Pyrococcus horikoshii OT3: functional significance of interprotomer conformational changes O59580 O59580 2.6 X-RAY DIFFRACTION 54 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 184 184 2dvo-a1-m1-cA_2dvo-a1-m2-cA 2e5x-a1-m1-cA_2e5x-a1-m2-cA MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNL MKIFFITSNPGKVREVANFLGTFGIEIVQLKHEYPEIQAEKLEDVVDFGISWLKGKVPEPFMIEDSGLFIESLKGFPGVYSSYVYRTIGLEGILKLMEGAEDRRAYFKSVIGFYIDGKAYKFSGVTWGRISNEKRGTHGFGYDPIFIPEGSEKTFAEMTIEEKNALSHRGKALKAFFEWLKVNL 2ztj-a1-m1-cA_2ztj-a1-m2-cA Crystal structure of homocitrate synthase from Thermus thermophilus complexed with alpha-ketoglutarate O87198 O87198 1.8 X-RAY DIFFRACTION 175 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 312 312 2ztk-a1-m1-cA_2ztk-a1-m2-cA 2zyf-a1-m1-cA_2zyf-a1-m2-cA 3a9i-a1-m1-cA_3a9i-a1-m2-cA MREWKIIDSTLREGEQFEKANFSTQDKVEIAKALDEFGIEYIEVTTPVASPQSRKDAEVLASLGLKAKVVTHIQCRLDAAKVAVETGVQGIDLLFGTGRDIPRIIEEAKEVIAYIREAAPHVEVRFSAEDTFRSEEQDLLAVYEAVAPYVDRVGLADTVGVATPRQVYALVREVRRVVGPRVDIEFHGHNDTGCAIANAYEAIEAGATHVDTTILGIGERNGITPLGGFLARMYTLQPEYVRRKYKLEMLPELDRMVARMVGVEIPFNNYITGETAFSHKAGMHLKAIYINPEAYEPYPPEVFGVKRKLIIA MREWKIIDSTLREGEQFEKANFSTQDKVEIAKALDEFGIEYIEVTTPVASPQSRKDAEVLASLGLKAKVVTHIQCRLDAAKVAVETGVQGIDLLFGTGRDIPRIIEEAKEVIAYIREAAPHVEVRFSAEDTFRSEEQDLLAVYEAVAPYVDRVGLADTVGVATPRQVYALVREVRRVVGPRVDIEFHGHNDTGCAIANAYEAIEAGATHVDTTILGIGERNGITPLGGFLARMYTLQPEYVRRKYKLEMLPELDRMVARMVGVEIPFNNYITGETAFSHKAGMHLKAIYINPEAYEPYPPEVFGVKRKLIIA 2ztn-a1-m54-cA_2ztn-a1-m9-cA Hepatitis E virus ORF2 (Genotype 3) Q9YLQ9 Q9YLQ9 3.56 X-RAY DIFFRACTION 111 1.0 472 472 2ztn-a1-m10-cA_2ztn-a1-m23-cA 2ztn-a1-m11-cA_2ztn-a1-m20-cA 2ztn-a1-m11-cA_2ztn-a1-m38-cA 2ztn-a1-m12-cA_2ztn-a1-m37-cA 2ztn-a1-m12-cA_2ztn-a1-m47-cA 2ztn-a1-m13-cA_2ztn-a1-m45-cA 2ztn-a1-m13-cA_2ztn-a1-m46-cA 2ztn-a1-m14-cA_2ztn-a1-m29-cA 2ztn-a1-m14-cA_2ztn-a1-m44-cA 2ztn-a1-m15-cA_2ztn-a1-m16-cA 2ztn-a1-m15-cA_2ztn-a1-m28-cA 2ztn-a1-m16-cA_2ztn-a1-m28-cA 2ztn-a1-m17-cA_2ztn-a1-m27-cA 2ztn-a1-m17-cA_2ztn-a1-m52-cA 2ztn-a1-m18-cA_2ztn-a1-m51-cA 2ztn-a1-m18-cA_2ztn-a1-m60-cA 2ztn-a1-m19-cA_2ztn-a1-m39-cA 2ztn-a1-m19-cA_2ztn-a1-m59-cA 2ztn-a1-m1-cA_2ztn-a1-m10-cA 2ztn-a1-m1-cA_2ztn-a1-m23-cA 2ztn-a1-m20-cA_2ztn-a1-m38-cA 2ztn-a1-m21-cA_2ztn-a1-m30-cA 2ztn-a1-m21-cA_2ztn-a1-m43-cA 2ztn-a1-m22-cA_2ztn-a1-m42-cA 2ztn-a1-m24-cA_2ztn-a1-m54-cA 2ztn-a1-m24-cA_2ztn-a1-m9-cA 2ztn-a1-m25-cA_2ztn-a1-m26-cA 2ztn-a1-m25-cA_2ztn-a1-m53-cA 2ztn-a1-m26-cA_2ztn-a1-m53-cA 2ztn-a1-m27-cA_2ztn-a1-m52-cA 2ztn-a1-m29-cA_2ztn-a1-m44-cA 2ztn-a1-m2-cA_2ztn-a1-m22-cA 2ztn-a1-m2-cA_2ztn-a1-m42-cA 2ztn-a1-m30-cA_2ztn-a1-m43-cA 2ztn-a1-m31-cA_2ztn-a1-m40-cA 2ztn-a1-m31-cA_2ztn-a1-m58-cA 2ztn-a1-m32-cA_2ztn-a1-m57-cA 2ztn-a1-m32-cA_2ztn-a1-m7-cA 2ztn-a1-m33-cA_2ztn-a1-m5-cA 2ztn-a1-m33-cA_2ztn-a1-m6-cA 2ztn-a1-m34-cA_2ztn-a1-m49-cA 2ztn-a1-m34-cA_2ztn-a1-m4-cA 2ztn-a1-m35-cA_2ztn-a1-m36-cA 2ztn-a1-m35-cA_2ztn-a1-m48-cA 2ztn-a1-m36-cA_2ztn-a1-m48-cA 2ztn-a1-m37-cA_2ztn-a1-m47-cA 2ztn-a1-m39-cA_2ztn-a1-m59-cA 2ztn-a1-m3-cA_2ztn-a1-m41-cA 2ztn-a1-m3-cA_2ztn-a1-m50-cA 2ztn-a1-m40-cA_2ztn-a1-m58-cA 2ztn-a1-m41-cA_2ztn-a1-m50-cA 2ztn-a1-m45-cA_2ztn-a1-m46-cA 2ztn-a1-m4-cA_2ztn-a1-m49-cA 2ztn-a1-m51-cA_2ztn-a1-m60-cA 2ztn-a1-m55-cA_2ztn-a1-m56-cA 2ztn-a1-m55-cA_2ztn-a1-m8-cA 2ztn-a1-m56-cA_2ztn-a1-m8-cA 2ztn-a1-m57-cA_2ztn-a1-m7-cA 2ztn-a1-m5-cA_2ztn-a1-m6-cA 2zzq-a1-m10-cA_2zzq-a1-m23-cA 2zzq-a1-m11-cA_2zzq-a1-m20-cA 2zzq-a1-m11-cA_2zzq-a1-m38-cA 2zzq-a1-m12-cA_2zzq-a1-m37-cA 2zzq-a1-m12-cA_2zzq-a1-m47-cA 2zzq-a1-m13-cA_2zzq-a1-m45-cA 2zzq-a1-m13-cA_2zzq-a1-m46-cA 2zzq-a1-m14-cA_2zzq-a1-m29-cA 2zzq-a1-m14-cA_2zzq-a1-m44-cA 2zzq-a1-m15-cA_2zzq-a1-m16-cA 2zzq-a1-m15-cA_2zzq-a1-m28-cA 2zzq-a1-m16-cA_2zzq-a1-m28-cA 2zzq-a1-m17-cA_2zzq-a1-m27-cA 2zzq-a1-m17-cA_2zzq-a1-m52-cA 2zzq-a1-m18-cA_2zzq-a1-m51-cA 2zzq-a1-m18-cA_2zzq-a1-m60-cA 2zzq-a1-m19-cA_2zzq-a1-m39-cA 2zzq-a1-m19-cA_2zzq-a1-m59-cA 2zzq-a1-m1-cA_2zzq-a1-m10-cA 2zzq-a1-m1-cA_2zzq-a1-m23-cA 2zzq-a1-m20-cA_2zzq-a1-m38-cA 2zzq-a1-m21-cA_2zzq-a1-m30-cA 2zzq-a1-m21-cA_2zzq-a1-m43-cA 2zzq-a1-m22-cA_2zzq-a1-m42-cA 2zzq-a1-m24-cA_2zzq-a1-m54-cA 2zzq-a1-m24-cA_2zzq-a1-m9-cA 2zzq-a1-m25-cA_2zzq-a1-m26-cA 2zzq-a1-m25-cA_2zzq-a1-m53-cA 2zzq-a1-m26-cA_2zzq-a1-m53-cA 2zzq-a1-m27-cA_2zzq-a1-m52-cA 2zzq-a1-m29-cA_2zzq-a1-m44-cA 2zzq-a1-m2-cA_2zzq-a1-m22-cA 2zzq-a1-m2-cA_2zzq-a1-m42-cA 2zzq-a1-m30-cA_2zzq-a1-m43-cA 2zzq-a1-m31-cA_2zzq-a1-m40-cA 2zzq-a1-m31-cA_2zzq-a1-m58-cA 2zzq-a1-m32-cA_2zzq-a1-m57-cA 2zzq-a1-m32-cA_2zzq-a1-m7-cA 2zzq-a1-m33-cA_2zzq-a1-m5-cA 2zzq-a1-m33-cA_2zzq-a1-m6-cA 2zzq-a1-m34-cA_2zzq-a1-m49-cA 2zzq-a1-m34-cA_2zzq-a1-m4-cA 2zzq-a1-m35-cA_2zzq-a1-m36-cA 2zzq-a1-m35-cA_2zzq-a1-m48-cA 2zzq-a1-m36-cA_2zzq-a1-m48-cA 2zzq-a1-m37-cA_2zzq-a1-m47-cA 2zzq-a1-m39-cA_2zzq-a1-m59-cA 2zzq-a1-m3-cA_2zzq-a1-m41-cA 2zzq-a1-m3-cA_2zzq-a1-m50-cA 2zzq-a1-m40-cA_2zzq-a1-m58-cA 2zzq-a1-m41-cA_2zzq-a1-m50-cA 2zzq-a1-m45-cA_2zzq-a1-m46-cA 2zzq-a1-m4-cA_2zzq-a1-m49-cA 2zzq-a1-m51-cA_2zzq-a1-m60-cA 2zzq-a1-m54-cA_2zzq-a1-m9-cA 2zzq-a1-m55-cA_2zzq-a1-m56-cA 2zzq-a1-m55-cA_2zzq-a1-m8-cA 2zzq-a1-m56-cA_2zzq-a1-m8-cA 2zzq-a1-m57-cA_2zzq-a1-m7-cA 2zzq-a1-m5-cA_2zzq-a1-m6-cA 3iyo-a1-m10-cA_3iyo-a1-m6-cB 3iyo-a1-m10-cB_3iyo-a1-m9-cA 3iyo-a1-m10-cD_3iyo-a1-m6-cB 3iyo-a1-m11-cA_3iyo-a1-m12-cB 3iyo-a1-m11-cB_3iyo-a1-m15-cA 3iyo-a1-m11-cD_3iyo-a1-m12-cB 3iyo-a1-m12-cA_3iyo-a1-m13-cB 3iyo-a1-m12-cD_3iyo-a1-m13-cB 3iyo-a1-m13-cA_3iyo-a1-m14-cB 3iyo-a1-m13-cD_3iyo-a1-m14-cB 3iyo-a1-m14-cA_3iyo-a1-m15-cB 3iyo-a1-m14-cD_3iyo-a1-m15-cB 3iyo-a1-m15-cD_3iyo-a1-m11-cB 3iyo-a1-m16-cA_3iyo-a1-m17-cB 3iyo-a1-m16-cB_3iyo-a1-m20-cA 3iyo-a1-m16-cD_3iyo-a1-m17-cB 3iyo-a1-m17-cA_3iyo-a1-m18-cB 3iyo-a1-m17-cD_3iyo-a1-m18-cB 3iyo-a1-m18-cA_3iyo-a1-m19-cB 3iyo-a1-m18-cD_3iyo-a1-m19-cB 3iyo-a1-m19-cA_3iyo-a1-m20-cB 3iyo-a1-m19-cD_3iyo-a1-m20-cB 3iyo-a1-m1-cA_3iyo-a1-m2-cB 3iyo-a1-m1-cB_3iyo-a1-m5-cA 3iyo-a1-m1-cD_3iyo-a1-m2-cB 3iyo-a1-m20-cD_3iyo-a1-m16-cB 3iyo-a1-m21-cA_3iyo-a1-m22-cB 3iyo-a1-m21-cB_3iyo-a1-m25-cA 3iyo-a1-m21-cD_3iyo-a1-m22-cB 3iyo-a1-m22-cA_3iyo-a1-m23-cB 3iyo-a1-m22-cD_3iyo-a1-m23-cB 3iyo-a1-m23-cA_3iyo-a1-m24-cB 3iyo-a1-m23-cD_3iyo-a1-m24-cB 3iyo-a1-m24-cA_3iyo-a1-m25-cB 3iyo-a1-m24-cD_3iyo-a1-m25-cB 3iyo-a1-m25-cD_3iyo-a1-m21-cB 3iyo-a1-m26-cA_3iyo-a1-m27-cB 3iyo-a1-m26-cB_3iyo-a1-m30-cA 3iyo-a1-m26-cD_3iyo-a1-m27-cB 3iyo-a1-m27-cA_3iyo-a1-m28-cB 3iyo-a1-m27-cD_3iyo-a1-m28-cB 3iyo-a1-m28-cA_3iyo-a1-m29-cB 3iyo-a1-m28-cD_3iyo-a1-m29-cB 3iyo-a1-m29-cA_3iyo-a1-m30-cB 3iyo-a1-m29-cD_3iyo-a1-m30-cB 3iyo-a1-m2-cA_3iyo-a1-m3-cB 3iyo-a1-m2-cD_3iyo-a1-m3-cB 3iyo-a1-m30-cD_3iyo-a1-m26-cB 3iyo-a1-m31-cA_3iyo-a1-m32-cB 3iyo-a1-m31-cB_3iyo-a1-m35-cA 3iyo-a1-m31-cD_3iyo-a1-m32-cB 3iyo-a1-m32-cA_3iyo-a1-m33-cB 3iyo-a1-m32-cD_3iyo-a1-m33-cB 3iyo-a1-m33-cA_3iyo-a1-m34-cB 3iyo-a1-m33-cD_3iyo-a1-m34-cB 3iyo-a1-m34-cA_3iyo-a1-m35-cB 3iyo-a1-m34-cD_3iyo-a1-m35-cB 3iyo-a1-m35-cD_3iyo-a1-m31-cB 3iyo-a1-m36-cA_3iyo-a1-m37-cB 3iyo-a1-m36-cB_3iyo-a1-m40-cA 3iyo-a1-m36-cD_3iyo-a1-m37-cB 3iyo-a1-m37-cA_3iyo-a1-m38-cB 3iyo-a1-m37-cD_3iyo-a1-m38-cB 3iyo-a1-m38-cA_3iyo-a1-m39-cB 3iyo-a1-m38-cD_3iyo-a1-m39-cB 3iyo-a1-m39-cA_3iyo-a1-m40-cB 3iyo-a1-m39-cD_3iyo-a1-m40-cB 3iyo-a1-m3-cA_3iyo-a1-m4-cB 3iyo-a1-m3-cD_3iyo-a1-m4-cB 3iyo-a1-m40-cD_3iyo-a1-m36-cB 3iyo-a1-m41-cA_3iyo-a1-m42-cB 3iyo-a1-m41-cB_3iyo-a1-m45-cA 3iyo-a1-m41-cD_3iyo-a1-m42-cB 3iyo-a1-m42-cA_3iyo-a1-m43-cB 3iyo-a1-m42-cD_3iyo-a1-m43-cB 3iyo-a1-m43-cA_3iyo-a1-m44-cB 3iyo-a1-m43-cD_3iyo-a1-m44-cB 3iyo-a1-m44-cA_3iyo-a1-m45-cB 3iyo-a1-m44-cD_3iyo-a1-m45-cB 3iyo-a1-m45-cD_3iyo-a1-m41-cB 3iyo-a1-m46-cA_3iyo-a1-m47-cB 3iyo-a1-m46-cB_3iyo-a1-m50-cA 3iyo-a1-m46-cD_3iyo-a1-m47-cB 3iyo-a1-m47-cA_3iyo-a1-m48-cB 3iyo-a1-m47-cD_3iyo-a1-m48-cB 3iyo-a1-m48-cA_3iyo-a1-m49-cB 3iyo-a1-m48-cD_3iyo-a1-m49-cB 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6lb0-a1-m14-cA_6lb0-a1-m29-cA 6lb0-a1-m14-cA_6lb0-a1-m44-cA 6lb0-a1-m15-cA_6lb0-a1-m16-cA 6lb0-a1-m15-cA_6lb0-a1-m28-cA 6lb0-a1-m16-cA_6lb0-a1-m28-cA 6lb0-a1-m17-cA_6lb0-a1-m27-cA 6lb0-a1-m17-cA_6lb0-a1-m52-cA 6lb0-a1-m18-cA_6lb0-a1-m51-cA 6lb0-a1-m18-cA_6lb0-a1-m60-cA 6lb0-a1-m19-cA_6lb0-a1-m39-cA 6lb0-a1-m19-cA_6lb0-a1-m59-cA 6lb0-a1-m1-cA_6lb0-a1-m10-cA 6lb0-a1-m1-cA_6lb0-a1-m23-cA 6lb0-a1-m20-cA_6lb0-a1-m38-cA 6lb0-a1-m21-cA_6lb0-a1-m30-cA 6lb0-a1-m21-cA_6lb0-a1-m43-cA 6lb0-a1-m22-cA_6lb0-a1-m42-cA 6lb0-a1-m24-cA_6lb0-a1-m54-cA 6lb0-a1-m24-cA_6lb0-a1-m9-cA 6lb0-a1-m25-cA_6lb0-a1-m26-cA 6lb0-a1-m25-cA_6lb0-a1-m53-cA 6lb0-a1-m26-cA_6lb0-a1-m53-cA 6lb0-a1-m27-cA_6lb0-a1-m52-cA 6lb0-a1-m29-cA_6lb0-a1-m44-cA 6lb0-a1-m2-cA_6lb0-a1-m22-cA 6lb0-a1-m2-cA_6lb0-a1-m42-cA 6lb0-a1-m30-cA_6lb0-a1-m43-cA 6lb0-a1-m31-cA_6lb0-a1-m40-cA 6lb0-a1-m31-cA_6lb0-a1-m58-cA 6lb0-a1-m32-cA_6lb0-a1-m57-cA 6lb0-a1-m32-cA_6lb0-a1-m7-cA 6lb0-a1-m33-cA_6lb0-a1-m5-cA 6lb0-a1-m33-cA_6lb0-a1-m6-cA 6lb0-a1-m34-cA_6lb0-a1-m49-cA 6lb0-a1-m34-cA_6lb0-a1-m4-cA 6lb0-a1-m35-cA_6lb0-a1-m36-cA 6lb0-a1-m35-cA_6lb0-a1-m48-cA 6lb0-a1-m36-cA_6lb0-a1-m48-cA 6lb0-a1-m37-cA_6lb0-a1-m47-cA 6lb0-a1-m39-cA_6lb0-a1-m59-cA 6lb0-a1-m3-cA_6lb0-a1-m41-cA 6lb0-a1-m3-cA_6lb0-a1-m50-cA 6lb0-a1-m40-cA_6lb0-a1-m58-cA 6lb0-a1-m41-cA_6lb0-a1-m50-cA 6lb0-a1-m45-cA_6lb0-a1-m46-cA 6lb0-a1-m4-cA_6lb0-a1-m49-cA 6lb0-a1-m51-cA_6lb0-a1-m60-cA 6lb0-a1-m54-cA_6lb0-a1-m9-cA 6lb0-a1-m55-cA_6lb0-a1-m56-cA 6lb0-a1-m55-cA_6lb0-a1-m8-cA 6lb0-a1-m56-cA_6lb0-a1-m8-cA 6lb0-a1-m57-cA_6lb0-a1-m7-cA 6lb0-a1-m5-cA_6lb0-a1-m6-cA 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6lb0-a1-m27-cA_6lb0-a1-m53-cA 6lb0-a1-m2-cA_6lb0-a1-m23-cA 6lb0-a1-m30-cA_6lb0-a1-m44-cA 6lb0-a1-m31-cA_6lb0-a1-m36-cA 6lb0-a1-m32-cA_6lb0-a1-m58-cA 6lb0-a1-m33-cA_6lb0-a1-m7-cA 6lb0-a1-m34-cA_6lb0-a1-m5-cA 6lb0-a1-m35-cA_6lb0-a1-m49-cA 6lb0-a1-m37-cA_6lb0-a1-m48-cA 6lb0-a1-m3-cA_6lb0-a1-m42-cA 6lb0-a1-m40-cA_6lb0-a1-m59-cA 6lb0-a1-m41-cA_6lb0-a1-m46-cA 6lb0-a1-m4-cA_6lb0-a1-m50-cA 6lb0-a1-m51-cA_6lb0-a1-m56-cA 6lb0-a1-m55-cA_6lb0-a1-m9-cA 6lb0-a1-m57-cA_6lb0-a1-m8-cA GAILRRQYNLSTSPLTSSVASGTNLVLYAAPLNPLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETTGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYTSTARHRLRRGADGTAELTTTAATRFMKDLHFTGTNGVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGITIPHDIDLGDSRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTTYGSSTNPMYVSDTVTFVNVATGAQAVARSLDWSKVTLDGRPLTTIQQYSKTFYVLPLRGKLSFWEASTTKYNTTASDQILIENAAGHRVAISTYTTSLGAGPTSISAVGVLAPHSA 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2zzq-a1-m26-cA_2zzq-a1-m30-cA 2zzq-a1-m27-cA_2zzq-a1-m28-cA 2zzq-a1-m28-cA_2zzq-a1-m29-cA 2zzq-a1-m29-cA_2zzq-a1-m30-cA 2zzq-a1-m2-cA_2zzq-a1-m3-cA 2zzq-a1-m31-cA_2zzq-a1-m32-cA 2zzq-a1-m31-cA_2zzq-a1-m35-cA 2zzq-a1-m32-cA_2zzq-a1-m33-cA 2zzq-a1-m33-cA_2zzq-a1-m34-cA 2zzq-a1-m34-cA_2zzq-a1-m35-cA 2zzq-a1-m36-cA_2zzq-a1-m37-cA 2zzq-a1-m36-cA_2zzq-a1-m40-cA 2zzq-a1-m37-cA_2zzq-a1-m38-cA 2zzq-a1-m38-cA_2zzq-a1-m39-cA 2zzq-a1-m39-cA_2zzq-a1-m40-cA 2zzq-a1-m3-cA_2zzq-a1-m4-cA 2zzq-a1-m41-cA_2zzq-a1-m42-cA 2zzq-a1-m41-cA_2zzq-a1-m45-cA 2zzq-a1-m42-cA_2zzq-a1-m43-cA 2zzq-a1-m43-cA_2zzq-a1-m44-cA 2zzq-a1-m44-cA_2zzq-a1-m45-cA 2zzq-a1-m46-cA_2zzq-a1-m47-cA 2zzq-a1-m46-cA_2zzq-a1-m50-cA 2zzq-a1-m47-cA_2zzq-a1-m48-cA 2zzq-a1-m48-cA_2zzq-a1-m49-cA 2zzq-a1-m49-cA_2zzq-a1-m50-cA 2zzq-a1-m4-cA_2zzq-a1-m5-cA 2zzq-a1-m51-cA_2zzq-a1-m52-cA 2zzq-a1-m51-cA_2zzq-a1-m55-cA 2zzq-a1-m52-cA_2zzq-a1-m53-cA 2zzq-a1-m53-cA_2zzq-a1-m54-cA 2zzq-a1-m54-cA_2zzq-a1-m55-cA 2zzq-a1-m56-cA_2zzq-a1-m57-cA 2zzq-a1-m56-cA_2zzq-a1-m60-cA 2zzq-a1-m57-cA_2zzq-a1-m58-cA 2zzq-a1-m58-cA_2zzq-a1-m59-cA 2zzq-a1-m59-cA_2zzq-a1-m60-cA 2zzq-a1-m6-cA_2zzq-a1-m7-cA 2zzq-a1-m7-cA_2zzq-a1-m8-cA 2zzq-a1-m8-cA_2zzq-a1-m9-cA 3iyo-a1-m10-cD_3iyo-a1-m10-cB 3iyo-a1-m11-cD_3iyo-a1-m11-cB 3iyo-a1-m12-cD_3iyo-a1-m12-cB 3iyo-a1-m13-cD_3iyo-a1-m13-cB 3iyo-a1-m14-cD_3iyo-a1-m14-cB 3iyo-a1-m15-cD_3iyo-a1-m15-cB 3iyo-a1-m16-cD_3iyo-a1-m16-cB 3iyo-a1-m17-cD_3iyo-a1-m17-cB 3iyo-a1-m18-cD_3iyo-a1-m18-cB 3iyo-a1-m19-cD_3iyo-a1-m19-cB 3iyo-a1-m1-cD_3iyo-a1-m1-cB 3iyo-a1-m20-cD_3iyo-a1-m20-cB 3iyo-a1-m21-cD_3iyo-a1-m21-cB 3iyo-a1-m22-cD_3iyo-a1-m22-cB 3iyo-a1-m23-cD_3iyo-a1-m23-cB 3iyo-a1-m24-cD_3iyo-a1-m24-cB 3iyo-a1-m25-cD_3iyo-a1-m25-cB 3iyo-a1-m26-cD_3iyo-a1-m26-cB 3iyo-a1-m27-cD_3iyo-a1-m27-cB 3iyo-a1-m28-cD_3iyo-a1-m28-cB 3iyo-a1-m29-cD_3iyo-a1-m29-cB 3iyo-a1-m2-cD_3iyo-a1-m2-cB 3iyo-a1-m30-cD_3iyo-a1-m30-cB 3iyo-a1-m31-cD_3iyo-a1-m31-cB 3iyo-a1-m32-cD_3iyo-a1-m32-cB 3iyo-a1-m33-cD_3iyo-a1-m33-cB 3iyo-a1-m34-cD_3iyo-a1-m34-cB 3iyo-a1-m35-cD_3iyo-a1-m35-cB 3iyo-a1-m36-cD_3iyo-a1-m36-cB 3iyo-a1-m37-cD_3iyo-a1-m37-cB 3iyo-a1-m38-cD_3iyo-a1-m38-cB 3iyo-a1-m39-cD_3iyo-a1-m39-cB 3iyo-a1-m3-cD_3iyo-a1-m3-cB 3iyo-a1-m40-cD_3iyo-a1-m40-cB 3iyo-a1-m41-cD_3iyo-a1-m41-cB 3iyo-a1-m42-cD_3iyo-a1-m42-cB 3iyo-a1-m43-cD_3iyo-a1-m43-cB 3iyo-a1-m44-cD_3iyo-a1-m44-cB 3iyo-a1-m45-cD_3iyo-a1-m45-cB 3iyo-a1-m46-cD_3iyo-a1-m46-cB 3iyo-a1-m47-cD_3iyo-a1-m47-cB 3iyo-a1-m48-cD_3iyo-a1-m48-cB 3iyo-a1-m49-cD_3iyo-a1-m49-cB 3iyo-a1-m4-cD_3iyo-a1-m4-cB 3iyo-a1-m50-cD_3iyo-a1-m50-cB 3iyo-a1-m51-cD_3iyo-a1-m51-cB 3iyo-a1-m52-cD_3iyo-a1-m52-cB 3iyo-a1-m53-cD_3iyo-a1-m53-cB 3iyo-a1-m54-cD_3iyo-a1-m54-cB 3iyo-a1-m55-cD_3iyo-a1-m55-cB 3iyo-a1-m56-cD_3iyo-a1-m56-cB 3iyo-a1-m57-cD_3iyo-a1-m57-cB 3iyo-a1-m58-cD_3iyo-a1-m58-cB 3iyo-a1-m59-cD_3iyo-a1-m59-cB 3iyo-a1-m5-cD_3iyo-a1-m5-cB 3iyo-a1-m60-cD_3iyo-a1-m60-cB 3iyo-a1-m6-cD_3iyo-a1-m6-cB 3iyo-a1-m7-cD_3iyo-a1-m7-cB 3iyo-a1-m8-cD_3iyo-a1-m8-cB 3iyo-a1-m9-cD_3iyo-a1-m9-cB 6lat-a1-m10-cA_6lat-a1-m6-cA 6lat-a1-m10-cA_6lat-a1-m9-cA 6lat-a1-m11-cA_6lat-a1-m12-cA 6lat-a1-m11-cA_6lat-a1-m15-cA 6lat-a1-m12-cA_6lat-a1-m13-cA 6lat-a1-m13-cA_6lat-a1-m14-cA 6lat-a1-m14-cA_6lat-a1-m15-cA 6lat-a1-m16-cA_6lat-a1-m17-cA 6lat-a1-m16-cA_6lat-a1-m20-cA 6lat-a1-m17-cA_6lat-a1-m18-cA 6lat-a1-m18-cA_6lat-a1-m19-cA 6lat-a1-m19-cA_6lat-a1-m20-cA 6lat-a1-m1-cA_6lat-a1-m2-cA 6lat-a1-m1-cA_6lat-a1-m5-cA 6lat-a1-m21-cA_6lat-a1-m22-cA 6lat-a1-m21-cA_6lat-a1-m25-cA 6lat-a1-m22-cA_6lat-a1-m23-cA 6lat-a1-m23-cA_6lat-a1-m24-cA 6lat-a1-m24-cA_6lat-a1-m25-cA 6lat-a1-m26-cA_6lat-a1-m27-cA 6lat-a1-m26-cA_6lat-a1-m30-cA 6lat-a1-m27-cA_6lat-a1-m28-cA 6lat-a1-m28-cA_6lat-a1-m29-cA 6lat-a1-m29-cA_6lat-a1-m30-cA 6lat-a1-m2-cA_6lat-a1-m3-cA 6lat-a1-m31-cA_6lat-a1-m32-cA 6lat-a1-m31-cA_6lat-a1-m35-cA 6lat-a1-m32-cA_6lat-a1-m33-cA 6lat-a1-m33-cA_6lat-a1-m34-cA 6lat-a1-m34-cA_6lat-a1-m35-cA 6lat-a1-m36-cA_6lat-a1-m37-cA 6lat-a1-m36-cA_6lat-a1-m40-cA 6lat-a1-m37-cA_6lat-a1-m38-cA 6lat-a1-m38-cA_6lat-a1-m39-cA 6lat-a1-m39-cA_6lat-a1-m40-cA 6lat-a1-m3-cA_6lat-a1-m4-cA 6lat-a1-m41-cA_6lat-a1-m42-cA 6lat-a1-m41-cA_6lat-a1-m45-cA 6lat-a1-m42-cA_6lat-a1-m43-cA 6lat-a1-m43-cA_6lat-a1-m44-cA 6lat-a1-m44-cA_6lat-a1-m45-cA 6lat-a1-m46-cA_6lat-a1-m47-cA 6lat-a1-m46-cA_6lat-a1-m50-cA 6lat-a1-m47-cA_6lat-a1-m48-cA 6lat-a1-m48-cA_6lat-a1-m49-cA 6lat-a1-m49-cA_6lat-a1-m50-cA 6lat-a1-m4-cA_6lat-a1-m5-cA 6lat-a1-m51-cA_6lat-a1-m52-cA 6lat-a1-m51-cA_6lat-a1-m55-cA 6lat-a1-m52-cA_6lat-a1-m53-cA 6lat-a1-m53-cA_6lat-a1-m54-cA 6lat-a1-m54-cA_6lat-a1-m55-cA 6lat-a1-m56-cA_6lat-a1-m57-cA 6lat-a1-m56-cA_6lat-a1-m60-cA 6lat-a1-m57-cA_6lat-a1-m58-cA 6lat-a1-m58-cA_6lat-a1-m59-cA 6lat-a1-m59-cA_6lat-a1-m60-cA 6lat-a1-m6-cA_6lat-a1-m7-cA 6lat-a1-m7-cA_6lat-a1-m8-cA 6lat-a1-m8-cA_6lat-a1-m9-cA 6lb0-a1-m10-cA_6lb0-a1-m6-cA 6lb0-a1-m10-cA_6lb0-a1-m9-cA 6lb0-a1-m11-cA_6lb0-a1-m12-cA 6lb0-a1-m11-cA_6lb0-a1-m15-cA 6lb0-a1-m12-cA_6lb0-a1-m13-cA 6lb0-a1-m13-cA_6lb0-a1-m14-cA 6lb0-a1-m14-cA_6lb0-a1-m15-cA 6lb0-a1-m16-cA_6lb0-a1-m17-cA 6lb0-a1-m16-cA_6lb0-a1-m20-cA 6lb0-a1-m17-cA_6lb0-a1-m18-cA 6lb0-a1-m18-cA_6lb0-a1-m19-cA 6lb0-a1-m19-cA_6lb0-a1-m20-cA 6lb0-a1-m1-cA_6lb0-a1-m2-cA 6lb0-a1-m1-cA_6lb0-a1-m5-cA 6lb0-a1-m21-cA_6lb0-a1-m22-cA 6lb0-a1-m21-cA_6lb0-a1-m25-cA 6lb0-a1-m22-cA_6lb0-a1-m23-cA 6lb0-a1-m23-cA_6lb0-a1-m24-cA 6lb0-a1-m24-cA_6lb0-a1-m25-cA 6lb0-a1-m26-cA_6lb0-a1-m27-cA 6lb0-a1-m26-cA_6lb0-a1-m30-cA 6lb0-a1-m27-cA_6lb0-a1-m28-cA 6lb0-a1-m28-cA_6lb0-a1-m29-cA 6lb0-a1-m29-cA_6lb0-a1-m30-cA 6lb0-a1-m2-cA_6lb0-a1-m3-cA 6lb0-a1-m31-cA_6lb0-a1-m32-cA 6lb0-a1-m31-cA_6lb0-a1-m35-cA 6lb0-a1-m32-cA_6lb0-a1-m33-cA 6lb0-a1-m33-cA_6lb0-a1-m34-cA 6lb0-a1-m34-cA_6lb0-a1-m35-cA 6lb0-a1-m36-cA_6lb0-a1-m37-cA 6lb0-a1-m36-cA_6lb0-a1-m40-cA 6lb0-a1-m37-cA_6lb0-a1-m38-cA 6lb0-a1-m38-cA_6lb0-a1-m39-cA 6lb0-a1-m39-cA_6lb0-a1-m40-cA 6lb0-a1-m3-cA_6lb0-a1-m4-cA 6lb0-a1-m41-cA_6lb0-a1-m42-cA 6lb0-a1-m41-cA_6lb0-a1-m45-cA 6lb0-a1-m42-cA_6lb0-a1-m43-cA 6lb0-a1-m43-cA_6lb0-a1-m44-cA 6lb0-a1-m44-cA_6lb0-a1-m45-cA 6lb0-a1-m46-cA_6lb0-a1-m47-cA 6lb0-a1-m46-cA_6lb0-a1-m50-cA 6lb0-a1-m47-cA_6lb0-a1-m48-cA 6lb0-a1-m48-cA_6lb0-a1-m49-cA 6lb0-a1-m49-cA_6lb0-a1-m50-cA 6lb0-a1-m4-cA_6lb0-a1-m5-cA 6lb0-a1-m51-cA_6lb0-a1-m52-cA 6lb0-a1-m51-cA_6lb0-a1-m55-cA 6lb0-a1-m52-cA_6lb0-a1-m53-cA 6lb0-a1-m53-cA_6lb0-a1-m54-cA 6lb0-a1-m54-cA_6lb0-a1-m55-cA 6lb0-a1-m56-cA_6lb0-a1-m57-cA 6lb0-a1-m56-cA_6lb0-a1-m60-cA 6lb0-a1-m57-cA_6lb0-a1-m58-cA 6lb0-a1-m58-cA_6lb0-a1-m59-cA 6lb0-a1-m59-cA_6lb0-a1-m60-cA 6lb0-a1-m6-cA_6lb0-a1-m7-cA 6lb0-a1-m7-cA_6lb0-a1-m8-cA 6lb0-a1-m8-cA_6lb0-a1-m9-cA GAILRRQYNLSTSPLTSSVASGTNLVLYAAPLNPLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETTGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYTSTARHRLRRGADGTAELTTTAATRFMKDLHFTGTNGVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGITIPHDIDLGDSRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTTYGSSTNPMYVSDTVTFVNVATGAQAVARSLDWSKVTLDGRPLTTIQQYSKTFYVLPLRGKLSFWEASTTKYNTTASDQILIENAAGHRVAISTYTTSLGAGPTSISAVGVLAPHSA GAILRRQYNLSTSPLTSSVASGTNLVLYAAPLNPLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETTGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYTSTARHRLRRGADGTAELTTTAATRFMKDLHFTGTNGVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGITIPHDIDLGDSRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTTYGSSTNPMYVSDTVTFVNVATGAQAVARSLDWSKVTLDGRPLTTIQQYSKTFYVLPLRGKLSFWEASTTKYNTTASDQILIENAAGHRVAISTYTTSLGAGPTSISAVGVLAPHSA 2zts-a1-m2-cA_2zts-a1-m2-cB Crystal structure of KaiC-like protein PH0186 from hyperthermophilic archaea Pyrococcus horikoshii OT3 O57925 O57925 2.07 X-RAY DIFFRACTION 39 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 212 212 2zts-a1-m1-cA_2zts-a1-m1-cB 2zts-a1-m1-cA_2zts-a1-m2-cC 2zts-a1-m1-cB_2zts-a1-m1-cC 2zts-a1-m2-cA_2zts-a1-m1-cC 2zts-a1-m2-cB_2zts-a1-m2-cC PVRRVKSGIPGFDELIEGGFPEGTTVLLTGGTGTGKTTFAAQFIYKGAEEYGEPGVFVTLEERARDLRREASFGWDFEKYEKEGKIAIVDFNVDNFLRYIYRVVKAINAKRLVIDSIPSIALRLEEERKIREVLLKLNTILLEGVTTILTTEAPGKLSRYGIEEFIARGVIVLDLQEKNIELKRYVLIRKRETRHSKKYPFEIGPNGIVVYP PVRRVKSGIPGFDELIEGGFPEGTTVLLTGGTGTGKTTFAAQFIYKGAEEYGEPGVFVTLEERARDLRREASFGWDFEKYEKEGKIAIVDFNVDNFLRYIYRVVKAINAKRLVIDSIPSIALRLEEERKIREVLLKLNTILLEGVTTILTTEAPGKLSRYGIEEFIARGVIVLDLQEKNIELKRYVLIRKRETRHSKKYPFEIGPNGIVVYP 2ztu-a1-m1-cB_2ztu-a1-m1-cA T190A mutant of D-3-hydroxybutyrate dehydrogenase complexed with NAD+ Q5KST5 Q5KST5 2 X-RAY DIFFRACTION 130 0.995 296 (Pseudomonas fragi) 296 (Pseudomonas fragi) 207 235 1wmb-a1-m1-cA_1wmb-a1-m1-cB 1wmb-a1-m2-cA_1wmb-a1-m2-cB 1x1t-a1-m1-cA_1x1t-a1-m3-cA 1x1t-a1-m2-cA_1x1t-a1-m4-cA 2ztl-a1-m1-cA_2ztl-a1-m1-cB 2ztl-a1-m1-cC_2ztl-a1-m1-cD 2ztm-a1-m1-cB_2ztm-a1-m1-cA 2ztm-a1-m1-cD_2ztm-a1-m1-cC 2ztu-a1-m1-cD_2ztu-a1-m1-cC 2ztv-a1-m1-cB_2ztv-a1-m1-cA 2ztv-a1-m1-cD_2ztv-a1-m1-cC VVTGSTSGIGLGIATALAAQGADIVLNGFLYDGADLSKGEAVRGLVDNAVRQMGRIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGVVGFTKVTALETAGQGITANAICPGWVELLSEKQPSLQFVTPEQLGGTAVFLASDAAAQITGTTVSVDGGWTAR MLKGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEIEKVRAGLAAQHGVKVLYDGADLSKGEAVRGLVDNAVRQMGRIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGVVGFTKVTALETAGQGITANAICPGWVRLLSEKQPSLQFVTPEQLGGTAVFLASDAAAQITGTTVSVDGGWTAR 2ztv-a1-m1-cB_2ztv-a1-m1-cD The binary complex of D-3-hydroxybutyrate dehydrogenase with NAD+ Q5KST5 Q5KST5 1.95 X-RAY DIFFRACTION 124 1.0 296 (Pseudomonas fragi) 296 (Pseudomonas fragi) 246 253 1wmb-a1-m1-cA_1wmb-a1-m2-cA 1wmb-a1-m1-cB_1wmb-a1-m2-cB 1x1t-a1-m1-cA_1x1t-a1-m2-cA 1x1t-a1-m3-cA_1x1t-a1-m4-cA 2ztl-a1-m1-cA_2ztl-a1-m1-cC 2ztl-a1-m1-cB_2ztl-a1-m1-cD 2ztm-a1-m1-cB_2ztm-a1-m1-cD 2ztm-a1-m1-cC_2ztm-a1-m1-cA 2ztu-a1-m1-cA_2ztu-a1-m1-cC 2ztu-a1-m1-cB_2ztu-a1-m1-cD 2ztv-a1-m1-cC_2ztv-a1-m1-cA MLKGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEIEKVRAGLAAQHGVKVLYDGADLSKGEAVRGLVDNAVRQMGRIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGVVGFTKVTALETAGQGITANAICPGWVRTPLVEKTAARELLSEKQPSLQFVTPEQLGGTAVFLASDAAAQITGTTVSVDGGWTAR MLKGKVAVVTGSTSGIGLGIATALAAQGADIVLNGFGDAAEIEKVRAGLAAQHGVKVLYDGADLSKGEAVRGLVDNAVRQMGRIDILVNNAGIQHTALIEDFPTEKWDAILALNLSAVFHGTAAALPHMKKQGFGRIINIASAHGLVASANKSAYVAAKHGVVGFTKVTALETAGQGITANAICPGWVRTPLVEKQISVDQETAARELLSEKQPSLQFVTPEQLGGTAVFLASDAAAQITGTTVSVDGGWTAR 2zu2-a1-m1-cA_2zu2-a1-m1-cB complex structure of CoV 229E 3CL protease with EPDTC P0C6U2 P0C6U2 1.8 X-RAY DIFFRACTION 111 1.0 11137 (Human coronavirus 229E) 11137 (Human coronavirus 229E) 300 301 AGLRKMAQPSGFVEKCVVRVCYGNTVLNGLWLGDIVYCPRHVIASNTTSAIDYDHEYSIMRLHNFSIISGTAFLGVVGATMHGVTLKIKVSQTNMHTPRHSFRTLKSGEGFNILACYDGCAQGVFGVNMRTNWTIRGSFINGACGSPGYNLKNGEVEFVYMHQIELGSGSHVGSSFDGVMYGGFEDQPNLQVESANQMLTVNVVAFLYAAILNGCTWWLKGEKLFVEHYNEWAQANGFTAMNGEDAFSILAAKTGVCVERLLHAIQVLNNGFGGKQILGYSSLNDEFSINEVVKQMFGVN AGLRKMAQPSGFVEKCVVRVCYGNTVLNGLWLGDIVYCPRHVIASNTTSAIDYDHEYSIMRLHNFSIISGTAFLGVVGATMHGVTLKIKVSQTNMHTPRHSFRTLKSGEGFNILACYDGCAQGVFGVNMRTNWTIRGSFINGACGSPGYNLKNGEVEFVYMHQIELGSGSHVGSSFDGVMYGGFEDQPNLQVESANQMLTVNVVAFLYAAILNGCTWWLKGEKLFVEHYNEWAQANGFTAMNGEDAFSILAAKTGVCVERLLHAIQVLNNGFGGKQILGYSSLNDEFSINEVVKQMFGVNL 2zu9-a1-m1-cB_2zu9-a1-m1-cA Crystal structure of mannosyl-3-phosphoglycerate synthase from Pyrococcus horikoshii O58689 O58689 2 X-RAY DIFFRACTION 73 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 344 354 2zu7-a1-m1-cB_2zu7-a1-m1-cA 2zu8-a1-m1-cB_2zu8-a1-m1-cA LLEAPVYKEIFGAVTIHEVQKVIKDTTISNIPREKIYDLLGKAVIVPKNEKLHLVDGVLKAIPHKCPIIIVSNSKREGPNRYKLEVDLIRHFYNLTHSKIIIHQKDPGLAKAFKEVGYTDILDENGIRSGKGEGLVGLLLAKAIGAEYVGFVDADNYIPGAVNEYVKDYAAGFLSESEYTVRLHWVSEITNHYLNLLVSEHTAFETTIVTGNAGEHATKLAEILPFSTGYSIEPYEIVYILERFGKWENVEEFKDVFDQGIEIFQIETLNPHFHEDKGKEHVKELLLSLATIYHSKLATDNLRKRILKDLEEPPKPLVRPIKEIPIKEWDIVEGNSETLLRFEL LLEAPVYKEIFGAVTIHEVQKVIKDTTISNIPREKIYDLLGKAVIVPKNEKLHLVDGVLKAIPHKCPIIIVSNSKREGPNRYKLEVDLIRHFYNLTHSKIIIHQKDPGLAKAFKEVGYTDILDENGIRSGKGEGLVGLLLAKAIGAEYVGFVDADNYIPGAVNEYVKDYAAGFLSESEYTVRLHWRVSEITNHYLNLLVSEHTAFETTIVTGNAGEHATKLAEILPFSTGYSIEPYEIVYILERFGKWENVEEFKDVFDQGIEIFQIETLNPHFHEDKGKEHVKELLLSLATIYHSKLATDNLRKRILKDLRDHGILGENEEPPKPLVRPIKEIPIKEWDIVEGNSETLLRFEL 2zua-a2-m2-cC_2zua-a2-m3-cC Crystal structure of nucleoside diphosphate kinase from Haloarcula quadrata Q401C5 Q401C5 2.59 X-RAY DIFFRACTION 58 1.0 182779 (Haloarcula quadrata) 182779 (Haloarcula quadrata) 153 153 2zua-a1-m1-cA_2zua-a1-m2-cA 2zua-a1-m1-cA_2zua-a1-m3-cA 2zua-a1-m1-cD_2zua-a1-m2-cD 2zua-a1-m1-cD_2zua-a1-m3-cD 2zua-a1-m2-cA_2zua-a1-m3-cA 2zua-a1-m2-cD_2zua-a1-m3-cD 2zua-a2-m1-cB_2zua-a2-m2-cB 2zua-a2-m1-cB_2zua-a2-m3-cB 2zua-a2-m1-cC_2zua-a2-m2-cC 2zua-a2-m1-cC_2zua-a2-m3-cC 2zua-a2-m2-cB_2zua-a2-m3-cB SEHERTFVMVKPDGVQRGLIGDIVSRFEDRGLKMVGGKFMQIDQELAEEHYGEHEDKPFFDGLVDFITSGPVFAMVWEGQDATRQVRTMMGETDPAESAPGTIRGDYGLDLGRNVIHGSDHEDEGANEREIELFFDEDELVDWDQIDSSWLYE SEHERTFVMVKPDGVQRGLIGDIVSRFEDRGLKMVGGKFMQIDQELAEEHYGEHEDKPFFDGLVDFITSGPVFAMVWEGQDATRQVRTMMGETDPAESAPGTIRGDYGLDLGRNVIHGSDHEDEGANEREIELFFDEDELVDWDQIDSSWLYE 2zua-a2-m3-cB_2zua-a2-m3-cC Crystal structure of nucleoside diphosphate kinase from Haloarcula quadrata Q401C5 Q401C5 2.59 X-RAY DIFFRACTION 71 1.0 182779 (Haloarcula quadrata) 182779 (Haloarcula quadrata) 152 153 2zua-a1-m1-cA_2zua-a1-m1-cD 2zua-a1-m2-cA_2zua-a1-m2-cD 2zua-a1-m3-cA_2zua-a1-m3-cD 2zua-a2-m1-cB_2zua-a2-m1-cC 2zua-a2-m2-cB_2zua-a2-m2-cC EHERTFVMVKPDGVQRGLIGDIVSRFEDRGLKMVGGKFMQIDQELAEEHYGEHEDKPFFDGLVDFITSGPVFAMVWEGQDATRQVRTMMGETDPAESAPGTIRGDYGLDLGRNVIHGSDHEDEGANEREIELFFDEDELVDWDQIDSSWLYE SEHERTFVMVKPDGVQRGLIGDIVSRFEDRGLKMVGGKFMQIDQELAEEHYGEHEDKPFFDGLVDFITSGPVFAMVWEGQDATRQVRTMMGETDPAESAPGTIRGDYGLDLGRNVIHGSDHEDEGANEREIELFFDEDELVDWDQIDSSWLYE 2zud-a1-m1-cA_2zud-a1-m1-cB Crystal Structure of Left-handed RadA Filament Q55075 Q55075 3.2 X-RAY DIFFRACTION 82 0.997 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 295 297 2zub-a1-m1-cA_2zub-a1-m1-cB 2zuc-a1-m1-cA_2zuc-a1-m1-cB IKTINDLPGISQTVINKLIEAGYSSLETLAVASPQDLSVAAGIPLSTAQKIIKEARDALDIRFKTALEVKKERMNVKKISTGSQALDGLLAGGIETRTMTEFFGEFGSGKTQLCHQLSVNVQLPPEKGGLSGKAVYIDTEGTFRWERIENMAKALGLDIDNVMNNIYYIRAINTDHQIAIVDDLQELVSKDPSIKLIVVDSVTSHFRAEYPGRENLAVRQQKLNKHLHQLTRLAEVYDIAVIITNQVMLYHVPGIRIQLKKSRGNRRIARVVDAPHLPEGEVVFALTEEGIRDAE KTINDLPGISQTVINKLIEAGYSSLETLAVASPQDLSVAAGIPLSTAQKIIKEARDALDIRFKTALEVKKERMNVKKISTGSQALDGLLAGGIETRTMTEFFGEFGSGKTQLCHQLSVNVQLPPEKGGLSGKAVYIDTEGTFRWERIENMAKALGLDIDNVMNNIYYIRAINTDHQIAIVDDLQELVSKDPSIKLIVVDSVTSHFRAEYPGRENLAVRQQKLNKHLHQLTRLAEVYDIAVIITNQVMAHTLYHVPGIRIQLKKSRGNRRIARVVDAPHLPEGEVVFALTEEGIRDAE 2zug-a1-m1-cB_2zug-a1-m1-cA Crystal structure of WSSV ICP11 Q91LD0 Q91LD0 2.72 X-RAY DIFFRACTION 45 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 76 77 ATFQTDADFLLVGDDTSRYEEVKTFDTVEAVRKSDLDDRVYVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPIVPT ATFQTDADFLLVGDDTSRYEEVKTFDTVEAVRKSDLDDRVYVCLKQGSTFVLNGGIEELRLLTGDSTLEIQPIVPTT 2zut-a2-m1-cD_2zut-a2-m1-cC Crystal structure of Galacto-N-biose/Lacto-N-biose I phosphorylase in complex with GalNAc E8MF13 E8MF13 1.9 X-RAY DIFFRACTION 211 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 739 744 2zus-a1-m1-cB_2zus-a1-m1-cA 2zus-a2-m1-cC_2zus-a2-m1-cD 2zut-a1-m1-cB_2zut-a1-m1-cA 2zuu-a1-m1-cB_2zuu-a1-m1-cA 2zuu-a2-m1-cD_2zuu-a2-m1-cC 2zuv-a1-m1-cB_2zuv-a1-m1-cA 2zuw-a1-m1-cB_2zuw-a1-m1-cA 2zuw-a2-m1-cD_2zuw-a2-m1-cC 3wfz-a1-m1-cB_3wfz-a1-m1-cA 3wfz-a2-m1-cD_3wfz-a2-m1-cC STGRFTLPSEENFAEKTKELAELWGADAIRNVLALGKKIYNAYFPTRAHNEWITLHMDETPQVYLLTDRILAESDTVDIPLMESFFAEQLKPNRDADPHKYWEVVDRTTGEVVDSANWTLDADEDTVHVSGVAAWHEYTVSFLAYIIWDPVEMYNHLTNDWGDKEHEIPFDIYHPATRKFVFDTFEQWLKDSPQTDVVRFTTFFYQFTLLFDEKRREKVVDWFGCACTVSPRALDDFEAKYGYRLRPEDFVDGGAYNSAWRVPRKAQRDWIDFLSGFVRENVKQLADMSHAAGKEAMMFLGDQWIGTEPYKDGFDELGLDAVVGSIGDGTTTRMIADIPGVKYTEGRFLPYFFPDTFYEGNDPSIEGLDNWRKARRAILRSPISRMGYGGYLSLAAKFPKFVDTVTHIANEFRDIHDRTGGVAAEGELNVAILNSWGKMRSWMAFTVAHALPNKQTYSYYGILESLSGMRVNVRFISFDDVLAHGIDSDIDVIINGGPVDTAFTGGDVWTNPKLVETVRAWVRGGGAFVGVGEPSSAPRFQTGRFFQLADVIGVDEERYQTLSVDKYFPPVVPDHFITADVPVDPAAREAWEQAGYRIPLSGCGGGQSIKPLGGIDFGEPVLNTYPVNENVTLLRADGGQVQLATNDYGKGRGVYISGLPYSAANARLLERVLFYASHNEDKYAAWSSSNPECEVAHFPEQGLYCVINNTDQPQKTTVTLADGTTEDFDLPDSGIAWRE STGRFTLPSEENFAEKTKELAELWGADAIRNSVLALGKKIYNAYFPTRAHNEWITLHMDETPQVYLLTDRILAESDTVDIPLMESFFAEQLKPNRDADPHKYWEVVDRTTGEVVDSANWTLDADEDTVHVSGVAAWHEYTVSFLAYIIWDPVEMYNHLTNDWGDKEHEIPFDIYHPATRKFVFDTFEQWLKDSPQTDVVRFTTFFYQFTLLFDEKRREKVVDWFGCACTVSPRALDDFEAKYGYRLRPEDFVDGGAYNSAWRVPRKAQRDWIDFLSGFVRENVKQLADMSHAAGKEAMMFLGDQWIGTEPYKDGFDELGLDAVVGSIGDGTTTRMIADIPGVKYTEGRFLPYFFPDTFYEGNDPSIEGLDNWRKARRAILRSPISRMGYGGYLSLAAKFPKFVDTVTHIANEFRDIHDRTGGVAAEGELNVAILNSWGKMRSWMAFTVAHALPNKQTYSYYGILESLSGMRVNVRFISFDDVLAHGIDSDIDVIINGGPVDTAFTGGDVWTNPKLVETVRAWVRGGGAFVGVGEPSSAPRFQTGRFFQLADVIGVDEERYQTLSVDKYFPPVVPDHFITADVPVDPAAREAWEQAGYRIPLSGCGGGQSIKPLGGIDFGEPVLNTYPVNENVTLLRADGGQVQLATNDYGKGRGVYISGLPYSAANARLLERVLFYASHNEDKYAAWSSSNPECEVAHFPEQGLYCVINNTDQPQKTTVTLADGTTEDFDLPDSGIAWREALEH 2zv3-a3-m1-cE_2zv3-a3-m1-cF Crystal structure of project MJ0051 from Methanocaldococcus jannaschii DSM 2661 Q60363 Q60363 2.1 X-RAY DIFFRACTION 71 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 115 115 2zv3-a1-m1-cA_2zv3-a1-m1-cB 2zv3-a2-m1-cC_2zv3-a2-m1-cD 2zv3-a5-m1-cI_2zv3-a5-m2-cI MKMVVVIRNDLGMGKGKMVAQGGHAIIEAFLDAKRKNPRAVDEWLREGQKKVVVKVNSEKELIDIYNKARSEGLPCSIIRDAGHTQLEPGTLTAVAIGPEKDEKIDKITGHLKLL MKMVVVIRNDLGMGKGKMVAQGGHAIIEAFLDAKRKNPRAVDEWLREGQKKVVVKVNSEKELIDIYNKARSEGLPCSIIRDAGHTQLEPGTLTAVAIGPEKDEKIDKITGHLKLL 2zvc-a1-m1-cA_2zvc-a1-m2-cA Form 2 structure (C2221) of TT0207 from Thermus thermophilus HB8 Q53WA6 Q53WA6 2 X-RAY DIFFRACTION 277 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 259 259 2zvb-a1-m1-cA_2zvb-a1-m2-cA GELFLVGMGPGDLPGLTQRAREALEGAEVVIGYSTYVKLLEEMGLLAGKEVVRKGMTEELDRAEEALERALSGQRVALVSGGDPGIYGMAAPVLELMEERGLKRVDGGVGLPGRFAGEEGEVFLAVIPGVTAANAVASLLGSPLAHDTCLISLSDLLTPWPLIERRLHAAGQGDFVVVLYNPQSKRRDWQLRKSAEILLEYRPKETPAALVKSAYRKRQEVALTTLEGLREAEAGMLTTVVIGNRQSRFYEGTFLTPRG GELFLVGMGPGDLPGLTQRAREALEGAEVVIGYSTYVKLLEEMGLLAGKEVVRKGMTEELDRAEEALERALSGQRVALVSGGDPGIYGMAAPVLELMEERGLKRVDGGVGLPGRFAGEEGEVFLAVIPGVTAANAVASLLGSPLAHDTCLISLSDLLTPWPLIERRLHAAGQGDFVVVLYNPQSKRRDWQLRKSAEILLEYRPKETPAALVKSAYRKRQEVALTTLEGLREAEAGMLTTVVIGNRQSRFYEGTFLTPRG 2zvi-a2-m1-cC_2zvi-a2-m1-cD Crystal structure of 2,3-diketo-5-methylthiopentyl-1-phosphate enolase from Bacillus subtilis O31666 O31666 2.3 X-RAY DIFFRACTION 211 0.992 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 385 388 2zvi-a1-m1-cA_2zvi-a1-m1-cB SELLATYLLTEPGADTEKKAEQIATGLTVVKQEQMQKHKGRVIKVEEREKQAVITIAYPEINFSQDIPALLTTVFGKLSLDGKIKLIDLHFSEAFKRALPGPKFGVYGIRKLLGEFERPLLMSIFKGVIGRDLSDIKEQLRQQALGGVDLIKDDEIFFETGLAPFETRIAEGKQILKETYEQTGHKTLYAVNLTGRTADLKDKARRAAELGADALLFNVFAYGLDVMQGLAEDPEIPVPIMAHPAVSGAFTSSPFYGFSHALLLGKLNRYCGADFSLFPSPYGSVALPRADALAIHEECVREDAFNQTFAVPSAGIHPGMVPLLMRDFGIDHIINAGGGVHGHPNGAQGGGRAFRAIIDAVLEAQPIDEKAEQCKDLKLALDKWG SELLATYLLTEPGADTEKKAEQIATGPLVKQEQMQKHKGRVIKVEEREKQAVITIAYPEINFSQDIPALLTTVFGKLSLDGKIKLIDLHFSEAFKRALPGPKFGVYGIRKLLGEFERPLLMSIFKGVIGRDLSDIKEQLRQQALGGVDLIKDDEIFFETGLAPFETRIAEGKQILKETYEQTGHKTLYAVNLTGRTADLKDKARRAAELGADALLFNVFAYGLDVMQGLAEDPEIPVPIMAHPAVSGAFTSSPFYGFSHALLLGKLNRYCGADFSLFPSPYGSVALPRADALAIHEECVREDAFNQTFAVPSAGIHPGMVPLLMRDFGIDHIINAGGGVHGHPNGAQGGGRAFRAIIDAVLEAQPIDEKAEQCKDLKLALDKWGKAEA 2zvr-a1-m1-cA_2zvr-a1-m1-cB Crystal structure of a D-tagatose 3-epimerase-related protein from Thermotoga maritima Q9WYP7 Q9WYP7 2.2 X-RAY DIFFRACTION 36 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 259 262 MKLSLVISTSDFKGDLRKGMELAKRVGYQAVEIAVRDPSIVDWNEVKILSEELNLPICAIGTGQAYLADGLSLTHPNDEIRKKAIERVVKHTEVAGMFGALVIIGLVRGRREGRSYEETEELFIESMKRLLELTEHAKFVIEPLNRYETDFINTIDDALRILRKINSNRVGILADTFHMNIEEVNIPESLKRAGEKLYHFHVADSNRWAPGCGHFDFRSVFNTLKEIGYNRYVSVECLPLPGGMEEAAEIAFKTLKELI HMKLSLVISTSDFKGDLRKGMELAKRVGYQAVEIAVRDPSIVDWNEVKILSEELNLPICAIGTGQAYLADGLSLTHPNDEIRKKAIERVVKHTEVAGMFGALVIIGLVRGRREGRSYEETEELFIESMKRLLELTEHAKFVIEPLNRYETDFINTIDDALRILRKINSNRVGILADTFHMNIEEVNIPESLKRAGEKLYHFHVADSNRWAPGCGHFDFRSVFNTLKEIGYNRYVSVECLPLPGGMEEAAEIAFKTLKELIIK 2zvx-a1-m1-cB_2zvx-a1-m1-cA Structure of a BPTI-[5,55] variant containing Gly/Val at the 14/38th positions P00974 P00974 1.09 X-RAY DIFFRACTION 10 1.0 9913 (Bos taurus) 9913 (Bos taurus) 57 58 2zjx-a1-m1-cB_2zjx-a1-m1-cA RPDFCLEPPYTGPGKARIIRYFYNAKAGLAQTFVYGGVRAKRNNFKSAEDALRTCGG RPDFCLEPPYTGPGKARIIRYFYNAKAGLAQTFVYGGVRAKRNNFKSAEDALRTCGGA 2zvy-a1-m1-cB_2zvy-a1-m1-cA Structure of the periplasmic domain of MotB from Salmonella (crystal form II) P55892 P55892 1.75 X-RAY DIFFRACTION 99 1.0 180 183 2zvz-a1-m1-cB_2zvz-a1-m1-cA 5y3z-a1-m1-cA_5y3z-a1-m1-cB 5y40-a1-m1-cB_5y40-a1-m1-cA 5y40-a2-m1-cC_5y40-a2-m1-cD PNIDELKKRMEQSRLNKLRGDLDQLIESDPKLRALRPHLKIDLVQEGLRIQIIDSQNRPMFKTGSAEVEPYMRDILRAIAPVLNGIPNRISLAGHTDDFPYANGEKGYSNWELSADRANASRRELVAGGLDNGKVLRVVGMAATMRLSDRGPDDAINRRISLLVLNKQAEQAILHHHHHH EKQPNIDELKKRMEQSRLNKLRGDLDQLIESDPKLRALRPHLKIDLVQEGLRIQIIDSQNRPMFKTGSAEVEPYMRDILRAIAPVLNGIPNRISLAGHTDDFPYANGEKGYSNWELSADRANASRRELVAGGLDNGKVLRVVGMAATMRLSDRGPDDAINRRISLLVLNKQAEQAILHHHHHH 2zw2-a1-m1-cA_2zw2-a1-m1-cB Crystal Structure of Formylglycinamide Ribonucleotide Amidotransferase III from SULFOLOBUS TOKODAII (STPURS) F9VNF4 F9VNF4 1.55 X-RAY DIFFRACTION 96 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 85 85 MLYRVELIITNKEGVRDPEGETIQRYVVSRFSDKIIETRAGKYLVFRVNSSSQQEATELVKKLADEMRLYNPIVHKIEIRANRIE MLYRVELIITNKEGVRDPEGETIQRYVVSRFSDKIIETRAGKYLVFRVNSSSQQEATELVKKLADEMRLYNPIVHKIEIRANRIE 2zw3-a1-m2-cC_2zw3-a1-m2-cD Structure of the connexin-26 gap junction channel at 3.5 angstrom resolution P29033 P29033 3.5 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 2zw3-a1-m1-cA_2zw3-a1-m1-cB 2zw3-a1-m1-cA_2zw3-a1-m1-cF 2zw3-a1-m1-cB_2zw3-a1-m1-cC 2zw3-a1-m1-cC_2zw3-a1-m1-cD 2zw3-a1-m1-cD_2zw3-a1-m1-cE 2zw3-a1-m1-cE_2zw3-a1-m1-cF 2zw3-a1-m2-cA_2zw3-a1-m2-cB 2zw3-a1-m2-cA_2zw3-a1-m2-cF 2zw3-a1-m2-cB_2zw3-a1-m2-cC 2zw3-a1-m2-cD_2zw3-a1-m2-cE 2zw3-a1-m2-cE_2zw3-a1-m2-cF 3iz1-a1-m1-cA_3iz1-a1-m1-cB 3iz1-a1-m1-cA_3iz1-a1-m2-cC 3iz1-a1-m1-cB_3iz1-a1-m1-cC 3iz1-a1-m1-cC_3iz1-a1-m2-cA 3iz1-a1-m2-cA_3iz1-a1-m2-cB 3iz1-a1-m2-cB_3iz1-a1-m2-cC 3iz2-a1-m1-cA_3iz2-a1-m1-cB 3iz2-a1-m1-cB_3iz2-a1-m1-cC 3iz2-a1-m2-cA_3iz2-a1-m2-cB 3iz2-a1-m2-cB_3iz2-a1-m2-cC 5er7-a1-m1-cB_5er7-a1-m1-cA 5er7-a1-m1-cB_5er7-a1-m2-cA 5er7-a1-m2-cB_5er7-a1-m2-cA 5er7-a1-m2-cB_5er7-a1-m3-cA 5er7-a1-m3-cB_5er7-a1-m1-cA 5er7-a1-m3-cB_5er7-a1-m3-cA 5er7-a1-m4-cB_5er7-a1-m4-cA 5er7-a1-m4-cB_5er7-a1-m5-cA 5er7-a1-m5-cB_5er7-a1-m5-cA 5er7-a1-m5-cB_5er7-a1-m6-cA 5er7-a1-m6-cB_5er7-a1-m4-cA 5er7-a1-m6-cB_5er7-a1-m6-cA 5era-a1-m1-cB_5era-a1-m1-cA 5era-a1-m1-cB_5era-a1-m2-cA 5era-a1-m2-cB_5era-a1-m2-cA 5era-a1-m2-cB_5era-a1-m3-cA 5era-a1-m3-cB_5era-a1-m1-cA 5era-a1-m3-cB_5era-a1-m3-cA 5era-a1-m4-cB_5era-a1-m4-cA 5era-a1-m4-cB_5era-a1-m5-cA 5era-a1-m5-cB_5era-a1-m5-cA 5era-a1-m5-cB_5era-a1-m6-cA 5era-a1-m6-cB_5era-a1-m4-cA 5era-a1-m6-cB_5era-a1-m6-cA 5era-a2-m1-cB_5era-a2-m1-cA 5era-a2-m1-cB_5era-a2-m2-cA 5era-a2-m2-cB_5era-a2-m2-cA 5era-a2-m2-cB_5era-a2-m3-cA 5era-a2-m3-cB_5era-a2-m1-cA 5era-a2-m3-cB_5era-a2-m3-cA 6uvr-a1-m1-cA_6uvr-a1-m1-cB 6uvr-a1-m1-cA_6uvr-a1-m1-cI 6uvr-a1-m1-cB_6uvr-a1-m1-cC 6uvr-a1-m1-cC_6uvr-a1-m1-cH 6uvr-a1-m1-cD_6uvr-a1-m1-cH 6uvr-a1-m1-cD_6uvr-a1-m1-cI 6uvr-a1-m1-cE_6uvr-a1-m1-cJ 6uvr-a1-m1-cE_6uvr-a1-m1-cL 6uvr-a1-m1-cF_6uvr-a1-m1-cJ 6uvr-a1-m1-cF_6uvr-a1-m1-cK 6uvr-a1-m1-cG_6uvr-a1-m1-cK 6uvr-a1-m1-cG_6uvr-a1-m1-cL 6uvs-a1-m1-cA_6uvs-a1-m1-cB 6uvs-a1-m1-cA_6uvs-a1-m1-cI 6uvs-a1-m1-cB_6uvs-a1-m1-cC 6uvs-a1-m1-cC_6uvs-a1-m1-cH 6uvs-a1-m1-cD_6uvs-a1-m1-cH 6uvs-a1-m1-cD_6uvs-a1-m1-cI 6uvs-a1-m1-cE_6uvs-a1-m1-cJ 6uvs-a1-m1-cE_6uvs-a1-m1-cL 6uvs-a1-m1-cF_6uvs-a1-m1-cJ 6uvs-a1-m1-cF_6uvs-a1-m1-cK 6uvs-a1-m1-cG_6uvs-a1-m1-cK 6uvs-a1-m1-cG_6uvs-a1-m1-cL 6uvt-a1-m1-cA_6uvt-a1-m1-cB 6uvt-a1-m1-cA_6uvt-a1-m1-cI 6uvt-a1-m1-cB_6uvt-a1-m1-cC 6uvt-a1-m1-cC_6uvt-a1-m1-cH 6uvt-a1-m1-cD_6uvt-a1-m1-cH 6uvt-a1-m1-cD_6uvt-a1-m1-cI 6uvt-a1-m1-cE_6uvt-a1-m1-cJ 6uvt-a1-m1-cE_6uvt-a1-m1-cL 6uvt-a1-m1-cF_6uvt-a1-m1-cJ 6uvt-a1-m1-cF_6uvt-a1-m1-cK 6uvt-a1-m1-cG_6uvt-a1-m1-cK 6uvt-a1-m1-cG_6uvt-a1-m1-cL 7qeo-a1-m1-cB_7qeo-a1-m1-cA 7qeq-a1-m1-cA_7qeq-a1-m1-cB 7qeq-a1-m1-cA_7qeq-a1-m1-cF 7qeq-a1-m1-cB_7qeq-a1-m1-cC 7qeq-a1-m1-cC_7qeq-a1-m1-cD 7qeq-a1-m1-cD_7qeq-a1-m1-cE 7qeq-a1-m1-cE_7qeq-a1-m1-cF 7qeq-a1-m1-cG_7qeq-a1-m1-cH 7qeq-a1-m1-cG_7qeq-a1-m1-cL 7qeq-a1-m1-cH_7qeq-a1-m1-cI 7qeq-a1-m1-cI_7qeq-a1-m1-cJ 7qeq-a1-m1-cJ_7qeq-a1-m1-cK 7qeq-a1-m1-cK_7qeq-a1-m1-cL 7qer-a1-m1-cA_7qer-a1-m1-cB 7qer-a1-m1-cA_7qer-a1-m1-cF 7qer-a1-m1-cB_7qer-a1-m1-cC 7qer-a1-m1-cC_7qer-a1-m1-cD 7qer-a1-m1-cD_7qer-a1-m1-cE 7qer-a1-m1-cE_7qer-a1-m1-cF 7qer-a1-m1-cG_7qer-a1-m1-cH 7qer-a1-m1-cG_7qer-a1-m1-cL 7qer-a1-m1-cH_7qer-a1-m1-cI 7qer-a1-m1-cI_7qer-a1-m1-cJ 7qer-a1-m1-cJ_7qer-a1-m1-cK 7qer-a1-m1-cK_7qer-a1-m1-cL 7qet-a1-m1-cA_7qet-a1-m1-cB 7qet-a1-m1-cA_7qet-a1-m1-cF 7qet-a1-m1-cB_7qet-a1-m1-cC 7qet-a1-m1-cC_7qet-a1-m1-cD 7qet-a1-m1-cD_7qet-a1-m1-cE 7qet-a1-m1-cE_7qet-a1-m1-cF 7qet-a1-m1-cG_7qet-a1-m1-cH 7qet-a1-m1-cG_7qet-a1-m1-cL 7qet-a1-m1-cH_7qet-a1-m1-cI 7qet-a1-m1-cI_7qet-a1-m1-cJ 7qet-a1-m1-cJ_7qet-a1-m1-cK 7qet-a1-m1-cK_7qet-a1-m1-cL 7qeu-a1-m1-cA_7qeu-a1-m1-cB 7qev-a1-m1-cB_7qev-a1-m1-cA 7qew-a1-m1-cG_7qew-a1-m1-cH 7qew-a1-m1-cG_7qew-a1-m1-cL 7qew-a1-m1-cH_7qew-a1-m1-cI 7qew-a1-m1-cI_7qew-a1-m1-cJ 7qew-a1-m1-cJ_7qew-a1-m1-cK 7qew-a1-m1-cK_7qew-a1-m1-cL 7qey-a1-m1-cG_7qey-a1-m1-cH 7qey-a1-m1-cG_7qey-a1-m1-cL 7qey-a1-m1-cH_7qey-a1-m1-cI 7qey-a1-m1-cI_7qey-a1-m1-cJ 7qey-a1-m1-cJ_7qey-a1-m1-cK 7qey-a1-m1-cK_7qey-a1-m1-cL DWGTLQTILGGVNKHSTSIGKIWLTVLFIFRIMILVVAAKEVWGDEQADFVCNTLQPGCKNVCYDHYFPISHIRLWALQLIFVSTPALLVAMHVAYRRHEKKRKFIKGKVRIEGSLWWTYTSSIFFRVIFEAAFMYVFYVMYDGFSMQRLVKCNAWPCPNTVDCFVSRPTEKTVFTVFMIAVSGICILLNVTELCYLLIRY DWGTLQTILGGVNKHSTSIGKIWLTVLFIFRIMILVVAAKEVWGDEQADFVCNTLQPGCKNVCYDHYFPISHIRLWALQLIFVSTPALLVAMHVAYRRHEKKRKFIKGKVRIEGSLWWTYTSSIFFRVIFEAAFMYVFYVMYDGFSMQRLVKCNAWPCPNTVDCFVSRPTEKTVFTVFMIAVSGICILLNVTELCYLLIRY 2zw7-a1-m1-cA_2zw7-a1-m1-cB Crystal structure of bleomycin N-acetyltransferase complexed with bleomycin A2 and coenzyme A Q53796 Q53796 2.8 X-RAY DIFFRACTION 188 1.0 29309 (Streptomyces verticillus) 29309 (Streptomyces verticillus) 290 290 2zw4-a1-m1-cA_2zw4-a1-m1-cB 2zw4-a2-m1-cC_2zw4-a2-m1-cD 2zw5-a1-m1-cA_2zw5-a1-m1-cB 2zw6-a1-m1-cB_2zw6-a1-m1-cA TAHLRTARLELTPLDPAADARHLHHAYGDEEVRWWTRPACADPAETERYLTSCAAAPGARLWTIRAPDGTVPGAGLLGGTDVPGLTWLLRRDSWGHGYATEAAAAVVGHALEDGGLDRVEAWIEAGNRRSLAVAARVGLTERARLAQHYPHRPGPHEVVLGKARAEEPLTTLAVITELPVRDVAATLRLVEAALGARTAFAIGDPPEFAEAALTPWSAGPRFRLAAVPGPGPVEPVRLHLDAAGTADSLHRRAVDAGARVDGPPVRRPWGRSEFVITLPEGHELTVSAPV TAHLRTARLELTPLDPAADARHLHHAYGDEEVRWWTRPACADPAETERYLTSCAAAPGARLWTIRAPDGTVPGAGLLGGTDVPGLTWLLRRDSWGHGYATEAAAAVVGHALEDGGLDRVEAWIEAGNRRSLAVAARVGLTERARLAQHYPHRPGPHEVVLGKARAEEPLTTLAVITELPVRDVAATLRLVEAALGARTAFAIGDPPEFAEAALTPWSAGPRFRLAAVPGPGPVEPVRLHLDAAGTADSLHRRAVDAGARVDGPPVRRPWGRSEFVITLPEGHELTVSAPV 2zwk-a1-m2-cB_2zwk-a1-m4-cB Crystal structure of intimin-Tir90 complex Q7DB77 Q7DB77 3.1 X-RAY DIFFRACTION 64 1.0 155864 (Escherichia coli O157:H7 str. EDL933) 155864 (Escherichia coli O157:H7 str. EDL933) 63 63 2zqk-a1-m1-cN_2zqk-a1-m1-cM 2zqk-a2-m1-cD_2zqk-a2-m1-cC 2zqk-a5-m1-cN_2zqk-a5-m1-cM 2zqk-a6-m1-cD_2zqk-a6-m1-cC 2zwk-a1-m1-cB_2zwk-a1-m3-cB 2zwk-a2-m1-cD_2zwk-a2-m5-cD 2zwk-a2-m1-cF_2zwk-a2-m5-cF ATETATRDQLTKEAFQNPDNQKVNIDELGNAIPSGVLKDDVVANIEEQAKAAGEEAKQQAIEN ATETATRDQLTKEAFQNPDNQKVNIDELGNAIPSGVLKDDVVANIEEQAKAAGEEAKQQAIEN 2zwk-a2-m1-cD_2zwk-a2-m5-cF Crystal structure of intimin-Tir90 complex Q7DB77 Q7DB77 3.1 X-RAY DIFFRACTION 38 1.0 155864 (Escherichia coli O157:H7 str. EDL933) 155864 (Escherichia coli O157:H7 str. EDL933) 63 63 2zwk-a1-m1-cB_2zwk-a1-m4-cB 2zwk-a1-m2-cB_2zwk-a1-m3-cB 2zwk-a2-m1-cF_2zwk-a2-m5-cD ATETATRDQLTKEAFQNPDNQKVNIDELGNAIPSGVLKDDVVANIEEQAKAAGEEAKQQAIEN ATETATRDQLTKEAFQNPDNQKVNIDELGNAIPSGVLKDDVVANIEEQAKAAGEEAKQQAIEN 2zwm-a1-m1-cA_2zwm-a1-m1-cB Crystal structure of YycF receiver domain from Bacillus subtilis P37478 P37478 2.04 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 120 120 DKKILVVDDEKPIADILEFNLRKEGYEVHCAHDGNEAVEMVEELQPDLILLDIMLPNKDGVEVCREVRKKYDMPIIMLTAKDSEIDKVIGLEIGADDYVTKPFSTRELLARVKANLRRQL DKKILVVDDEKPIADILEFNLRKEGYEVHCAHDGNEAVEMVEELQPDLILLDIMLPNKDGVEVCREVRKKYDMPIIMLTAKDSEIDKVIGLEIGADDYVTKPFSTRELLARVKANLRRQL 2zws-a2-m1-cA_2zws-a2-m2-cA Crystal Structure Analysis of neutral ceramidase from Pseudomonas aeruginosa Q9I596 Q9I596 1.4 X-RAY DIFFRACTION 55 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 630 630 DDLPYRFGLGKADITGEAAEVGMMGYSSLEQKTAGIHMRQWARAFVIEEAASGRRLVYVNTDLGMIFQAVHLKVLARLKAKYPGVYDENNVMLAATHTHSGPGGFSHYAMYNLSVLGFQEKTFNAIVDGIVRSIERAQARLQPGRLFYGSGELRNASRNRSLLSHLKNPDIAGYEDGIDPQMSVLSFVDANGELAGAISWFPVHSTSMTNANHLISPDNKGYASYHWEHDVSRKSGFVAAFAQTNAGNLSPNLNLKPGSGPFDNEFDNTREIGLRQFAKAYEIAGQAQEEVLGELDSRFRFVDFTRLPIRPEFTDGQPRQLCTAAIGTLEEGNNPFLSALGGLLTGVPPQELVQCQAEKTILADTGNKKPYPWTPTVLPIQMFRIGQLELLGAPAEFTVMAGVRIRRAVQAASEAAGIRHVVFNGYANAYASYVTTREEYAAQEYEGGSTLYGPWTQAAYQQLFVDMAVALRERLPVETSAIAPDLSCCQMNFQTGVVADDPYIGKSFGDVLQQPRESYRIGDKVTVAFVTGHPKNDLRTEKTFLEVVNIGKDGKQTPVTVATDNDWDTQYRWERVGISASKATISWSIPPGTEPGHYYIRHYGNAKNFWTQKISEIGGSTRSFEVLGTT DDLPYRFGLGKADITGEAAEVGMMGYSSLEQKTAGIHMRQWARAFVIEEAASGRRLVYVNTDLGMIFQAVHLKVLARLKAKYPGVYDENNVMLAATHTHSGPGGFSHYAMYNLSVLGFQEKTFNAIVDGIVRSIERAQARLQPGRLFYGSGELRNASRNRSLLSHLKNPDIAGYEDGIDPQMSVLSFVDANGELAGAISWFPVHSTSMTNANHLISPDNKGYASYHWEHDVSRKSGFVAAFAQTNAGNLSPNLNLKPGSGPFDNEFDNTREIGLRQFAKAYEIAGQAQEEVLGELDSRFRFVDFTRLPIRPEFTDGQPRQLCTAAIGTLEEGNNPFLSALGGLLTGVPPQELVQCQAEKTILADTGNKKPYPWTPTVLPIQMFRIGQLELLGAPAEFTVMAGVRIRRAVQAASEAAGIRHVVFNGYANAYASYVTTREEYAAQEYEGGSTLYGPWTQAAYQQLFVDMAVALRERLPVETSAIAPDLSCCQMNFQTGVVADDPYIGKSFGDVLQQPRESYRIGDKVTVAFVTGHPKNDLRTEKTFLEVVNIGKDGKQTPVTVATDNDWDTQYRWERVGISASKATISWSIPPGTEPGHYYIRHYGNAKNFWTQKISEIGGSTRSFEVLGTT 2zx0-a1-m1-cA_2zx0-a1-m1-cB Rhamnose-binding lectin CSL3 P86179 P86179 1.9 X-RAY DIFFRACTION 105 1.0 8018 (Oncorhynchus keta) 8018 (Oncorhynchus keta) 195 195 2zx1-a1-m1-cA_2zx1-a1-m1-cB 2zx2-a1-m1-cA_2zx2-a1-m1-cB 2zx3-a1-m1-cA_2zx3-a1-m1-cB 2zx4-a1-m1-cA_2zx4-a1-m1-cB AISITCEGSDALLQCDGAKIHIKRANYGRRQHDVCSIGRPDNQLTDTNCLSQSSTSKMAERCGGKSECIVPASNFVFGDPCVGTYKYLDTKYSCVQQQETISSIICEGSDSQLLCDRGEIRIQRANYGRRQHDVCSIGRPHQQLKNTNCLSQSTTSKMAERCDGKRQCIVKVSNSVFGDPCVGTYKYLDVAYTCD AISITCEGSDALLQCDGAKIHIKRANYGRRQHDVCSIGRPDNQLTDTNCLSQSSTSKMAERCGGKSECIVPASNFVFGDPCVGTYKYLDTKYSCVQQQETISSIICEGSDSQLLCDRGEIRIQRANYGRRQHDVCSIGRPHQQLKNTNCLSQSTTSKMAERCDGKRQCIVKVSNSVFGDPCVGTYKYLDVAYTCD 2zx6-a1-m2-cA_2zx6-a1-m3-cA alpha-L-fucosidase complexed with inhibitor, F10-1C Q9WYE2 Q9WYE2 2.42 X-RAY DIFFRACTION 34 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 442 442 1hl8-a1-m1-cA_1hl8-a1-m2-cA 1hl8-a1-m1-cA_1hl8-a1-m3-cA 1hl8-a1-m1-cB_1hl8-a1-m2-cB 1hl8-a1-m1-cB_1hl8-a1-m3-cB 1hl8-a1-m2-cA_1hl8-a1-m3-cA 1hl8-a1-m2-cB_1hl8-a1-m3-cB 1hl9-a1-m1-cA_1hl9-a1-m2-cA 1hl9-a1-m1-cA_1hl9-a1-m3-cA 1hl9-a1-m1-cB_1hl9-a1-m2-cB 1hl9-a1-m1-cB_1hl9-a1-m3-cB 1hl9-a1-m2-cA_1hl9-a1-m3-cA 1hl9-a1-m2-cB_1hl9-a1-m3-cB 1odu-a1-m1-cA_1odu-a1-m2-cA 1odu-a1-m1-cA_1odu-a1-m3-cA 1odu-a1-m1-cB_1odu-a1-m2-cB 1odu-a1-m1-cB_1odu-a1-m3-cB 1odu-a1-m2-cA_1odu-a1-m3-cA 1odu-a1-m2-cB_1odu-a1-m3-cB 2wsp-a1-m1-cA_2wsp-a1-m2-cA 2wsp-a1-m1-cA_2wsp-a1-m3-cA 2wsp-a1-m2-cA_2wsp-a1-m3-cA 2wsp-a2-m1-cB_2wsp-a2-m2-cB 2wsp-a2-m1-cB_2wsp-a2-m3-cB 2wsp-a2-m2-cB_2wsp-a2-m3-cB 2zwy-a1-m1-cA_2zwy-a1-m2-cA 2zwy-a1-m1-cA_2zwy-a1-m3-cA 2zwy-a1-m1-cB_2zwy-a1-m2-cB 2zwy-a1-m1-cB_2zwy-a1-m3-cB 2zwy-a1-m2-cA_2zwy-a1-m3-cA 2zwy-a1-m2-cB_2zwy-a1-m3-cB 2zwz-a1-m1-cA_2zwz-a1-m2-cA 2zwz-a1-m1-cA_2zwz-a1-m3-cA 2zwz-a1-m1-cB_2zwz-a1-m2-cB 2zwz-a1-m1-cB_2zwz-a1-m3-cB 2zwz-a1-m2-cA_2zwz-a1-m3-cA 2zwz-a1-m2-cB_2zwz-a1-m3-cB 2zx5-a1-m1-cA_2zx5-a1-m2-cA 2zx5-a1-m1-cA_2zx5-a1-m3-cA 2zx5-a1-m1-cB_2zx5-a1-m2-cB 2zx5-a1-m1-cB_2zx5-a1-m3-cB 2zx5-a1-m2-cA_2zx5-a1-m3-cA 2zx5-a1-m2-cB_2zx5-a1-m3-cB 2zx6-a1-m1-cA_2zx6-a1-m2-cA 2zx6-a1-m1-cA_2zx6-a1-m3-cA 2zx6-a1-m1-cB_2zx6-a1-m2-cB 2zx6-a1-m1-cB_2zx6-a1-m3-cB 2zx6-a1-m2-cB_2zx6-a1-m3-cB 2zx7-a1-m1-cA_2zx7-a1-m2-cA 2zx7-a1-m1-cA_2zx7-a1-m3-cA 2zx7-a1-m1-cB_2zx7-a1-m2-cB 2zx7-a1-m1-cB_2zx7-a1-m3-cB 2zx7-a1-m2-cA_2zx7-a1-m3-cA 2zx7-a1-m2-cB_2zx7-a1-m3-cB 2zx8-a1-m1-cA_2zx8-a1-m2-cA 2zx8-a1-m1-cA_2zx8-a1-m3-cA 2zx8-a1-m1-cB_2zx8-a1-m2-cB 2zx8-a1-m1-cB_2zx8-a1-m3-cB 2zx8-a1-m2-cA_2zx8-a1-m3-cA 2zx8-a1-m2-cB_2zx8-a1-m3-cB 2zx9-a1-m1-cA_2zx9-a1-m2-cA 2zx9-a1-m1-cA_2zx9-a1-m3-cA 2zx9-a1-m1-cB_2zx9-a1-m2-cB 2zx9-a1-m1-cB_2zx9-a1-m3-cB 2zx9-a1-m2-cA_2zx9-a1-m3-cA 2zx9-a1-m2-cB_2zx9-a1-m3-cB 2zxa-a1-m1-cA_2zxa-a1-m2-cA 2zxa-a1-m1-cA_2zxa-a1-m3-cA 2zxa-a1-m1-cB_2zxa-a1-m2-cB 2zxa-a1-m1-cB_2zxa-a1-m3-cB 2zxa-a1-m2-cA_2zxa-a1-m3-cA 2zxa-a1-m2-cB_2zxa-a1-m3-cB 2zxb-a1-m1-cA_2zxb-a1-m2-cA 2zxb-a1-m1-cA_2zxb-a1-m3-cA 2zxb-a1-m1-cB_2zxb-a1-m2-cB 2zxb-a1-m1-cB_2zxb-a1-m3-cB 2zxb-a1-m2-cA_2zxb-a1-m3-cA 2zxb-a1-m2-cB_2zxb-a1-m3-cB 2zxd-a1-m1-cA_2zxd-a1-m2-cA 2zxd-a1-m1-cA_2zxd-a1-m3-cA 2zxd-a1-m1-cB_2zxd-a1-m2-cB 2zxd-a1-m1-cB_2zxd-a1-m3-cB 2zxd-a1-m2-cA_2zxd-a1-m3-cA 2zxd-a1-m2-cB_2zxd-a1-m3-cB RYKPDWESLREHTVPKWFDKAKFGIFIHWGIYSVPGWATPTGELGKVPMDAWFFQNPYAEWYENSLRIKESPTWEYHVKTYGENFEYEKFADLFTAEKWDPQEWADLFKKAGAKYVIPTTKHHDGFCLWGTKYTDFNSVKRGPKRDLVGDLAKAVREAGLRFGVYYSGGLDWRFTTEPIRYPEDLSYIRPNTYEYADYAYKQVMELVDLYLPDVLWNDMGWPEKGKEDLKYLFAYYYNKHPEGSVNDRWGVPHWDFKTAEYHVNYPGDLPGYKWEFTRGIGLSFGYNRNEGPEHMLSVEQLVYTLVDVVSKGGNLLLNVGPKGDGTIPDLQKERLLGLGEWLRKYGDAIYGTSVWERCCAKTEDGTEIRFTRKCNRIFVIFLGIPTGEKIVIEDLNLSAGTVRHFLTGERLSFKNVGKNLEITVPKKLLETDSITLVLEAVE RYKPDWESLREHTVPKWFDKAKFGIFIHWGIYSVPGWATPTGELGKVPMDAWFFQNPYAEWYENSLRIKESPTWEYHVKTYGENFEYEKFADLFTAEKWDPQEWADLFKKAGAKYVIPTTKHHDGFCLWGTKYTDFNSVKRGPKRDLVGDLAKAVREAGLRFGVYYSGGLDWRFTTEPIRYPEDLSYIRPNTYEYADYAYKQVMELVDLYLPDVLWNDMGWPEKGKEDLKYLFAYYYNKHPEGSVNDRWGVPHWDFKTAEYHVNYPGDLPGYKWEFTRGIGLSFGYNRNEGPEHMLSVEQLVYTLVDVVSKGGNLLLNVGPKGDGTIPDLQKERLLGLGEWLRKYGDAIYGTSVWERCCAKTEDGTEIRFTRKCNRIFVIFLGIPTGEKIVIEDLNLSAGTVRHFLTGERLSFKNVGKNLEITVPKKLLETDSITLVLEAVE 2zxd-a1-m3-cA_2zxd-a1-m3-cB alpha-L-fucosidase complexed with inhibitor, iso-6FNJ Q9WYE2 Q9WYE2 2.15 X-RAY DIFFRACTION 42 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 441 441 1hl8-a1-m1-cB_1hl8-a1-m3-cA 1hl8-a1-m2-cB_1hl8-a1-m1-cA 1hl8-a1-m3-cB_1hl8-a1-m2-cA 1hl9-a1-m1-cA_1hl9-a1-m2-cB 1hl9-a1-m2-cA_1hl9-a1-m3-cB 1hl9-a1-m3-cA_1hl9-a1-m1-cB 1odu-a1-m1-cA_1odu-a1-m2-cB 1odu-a1-m2-cA_1odu-a1-m3-cB 1odu-a1-m3-cA_1odu-a1-m1-cB 2zwy-a1-m1-cA_2zwy-a1-m1-cB 2zwy-a1-m2-cA_2zwy-a1-m2-cB 2zwy-a1-m3-cA_2zwy-a1-m3-cB 2zwz-a1-m1-cA_2zwz-a1-m1-cB 2zwz-a1-m2-cA_2zwz-a1-m2-cB 2zwz-a1-m3-cA_2zwz-a1-m3-cB 2zx5-a1-m1-cA_2zx5-a1-m1-cB 2zx5-a1-m2-cA_2zx5-a1-m2-cB 2zx5-a1-m3-cA_2zx5-a1-m3-cB 2zx6-a1-m1-cA_2zx6-a1-m1-cB 2zx6-a1-m2-cA_2zx6-a1-m2-cB 2zx6-a1-m3-cA_2zx6-a1-m3-cB 2zx7-a1-m1-cA_2zx7-a1-m1-cB 2zx7-a1-m2-cA_2zx7-a1-m2-cB 2zx7-a1-m3-cA_2zx7-a1-m3-cB 2zx8-a1-m1-cA_2zx8-a1-m1-cB 2zx8-a1-m2-cA_2zx8-a1-m2-cB 2zx8-a1-m3-cA_2zx8-a1-m3-cB 2zx9-a1-m1-cA_2zx9-a1-m1-cB 2zx9-a1-m2-cA_2zx9-a1-m2-cB 2zx9-a1-m3-cA_2zx9-a1-m3-cB 2zxa-a1-m1-cA_2zxa-a1-m1-cB 2zxa-a1-m2-cA_2zxa-a1-m2-cB 2zxa-a1-m3-cA_2zxa-a1-m3-cB 2zxb-a1-m1-cA_2zxb-a1-m1-cB 2zxb-a1-m2-cA_2zxb-a1-m2-cB 2zxb-a1-m3-cA_2zxb-a1-m3-cB 2zxd-a1-m1-cA_2zxd-a1-m1-cB 2zxd-a1-m2-cA_2zxd-a1-m2-cB RYKPDWESLREHTVPKWFDKAKFGIFIHWGIYSVPGWATPTGELGKVPMDAWFFQNPYAEWYENSLRIKESPTWEYHVKTYGENFEYEKFADLFTAEKWDPQEWADLFKKAGAKYVIPTTKHHDGFCLWGTKYTDFNSVKRGPKRDLVGDLAKAVREAGLRFGVYYSGGLDWRFTTEPIRYPEDLSYIRPNTYEYADYAYKQVMELVDLYLPDVLWNDMGWPEKGKEDLKYLFAYYYNKHPEGSVNDRWGVPHWDFKTAEYHVNYPGDLPGYKWEFTRGIGLSFGYNRNEGPEHMLSVEQLVYTLVDVVSKGGNLLLNVGPKGDGTIPDLQKERLLGLGEWLRKYGDAIYGTSVWERCCAKTEDGTEIRFTRKCNRIFVIFLGIPTGEKIVIEDLNLSAGTVRHFLTGERLSFKNVGKNLEITVPKKLLETDSITLVLEAV RYKPDWESLREHTVPKWFDKAKFGIFIHWGIYSVPGWATPTGELGKVPMDAWFFQNPYAEWYENSLRIKESPTWEYHVKTYGENFEYEKFADLFTAEKWDPQEWADLFKKAGAKYVIPTTKHHDGFCLWGTKYTDFNSVKRGPKRDLVGDLAKAVREAGLRFGVYYSGGLDWRFTTEPIRYPEDLSYIRPNTYEYADYAYKQVMELVDLYLPDVLWNDMGWPEKGKEDLKYLFAYYYNKHPEGSVNDRWGVPHWDFKTAEYHVNYPGDLPGYKWEFTRGIGLSFGYNRNEGPEHMLSVEQLVYTLVDVVSKGGNLLLNVGPKGDGTIPDLQKERLLGLGEWLRKYGDAIYGTSVWERCCAKTEDGTEIRFTRKCNRIFVIFLGIPTGEKIVIEDLNLSAGTVRHFLTGERLSFKNVGKNLEITVPKKLLETDSITLVLEAV 2zxf-a1-m1-cA_2zxf-a1-m2-cA Crystal structure of human glycyl-trna synthetase (GLYRS) in complex with AP4A (cocrystallized with AP4A) P41250 P41250 3.4 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 530 530 2pme-a1-m1-cA_2pme-a1-m2-cA 2pmf-a1-m1-cA_2pmf-a1-m2-cA 2q5h-a1-m1-cA_2q5h-a1-m2-cA 2q5i-a1-m1-cA_2q5i-a1-m2-cA 2zt5-a1-m1-cA_2zt5-a1-m2-cA 2zt6-a1-m1-cA_2zt6-a1-m2-cA 2zt7-a1-m1-cA_2zt7-a1-m2-cA 2zt8-a1-m1-cA_2zt8-a1-m2-cA IVDRAKMEDTLKRRFFYDQAFAIYGGVSGLYDFGPVGCALKNNIIQTWRQHFIQEEQILEIDCTMLTPEPVLKTSGHVDKFADFMVKDVKNGECFRADHLLKAHLQKLMSDKKCSVEKKSEMESVLAQLDNYGQQELADLFVNYNVKSPITGNDLSPPVSFNLMFKTFIGPGGNMPGYLRPETAQGIFLNFKRLLEFNQGKLPFAAAQIGNSFRNEISPRSGLIRVREFTMAEIEHFVDPSEKDHPKFQNVADLHLYLYSAKAQVSGQSARKMRLGDAVEQGVINNTVLGYFIGRIYLYLTKVGISPDKLRFRQHMENEMAHYACDCWDAESKTSYGWIEIVGCADRSCYDLSCHARATKVPLVAEKPYVEEVVPNVIEPSFGLGRIMYTVFEHTFHVREGDEQRTFFSFPAVVAPFKCSVLPLSQNQEFMPFVKELSEALTRHGVSHKVDDSSGSIGRRYARTDEIGVAFGVTIDFDTVNKTPHTATLRDRDSMRQIRAEISELPSIVQDLANGNITWADVEARYPLFE IVDRAKMEDTLKRRFFYDQAFAIYGGVSGLYDFGPVGCALKNNIIQTWRQHFIQEEQILEIDCTMLTPEPVLKTSGHVDKFADFMVKDVKNGECFRADHLLKAHLQKLMSDKKCSVEKKSEMESVLAQLDNYGQQELADLFVNYNVKSPITGNDLSPPVSFNLMFKTFIGPGGNMPGYLRPETAQGIFLNFKRLLEFNQGKLPFAAAQIGNSFRNEISPRSGLIRVREFTMAEIEHFVDPSEKDHPKFQNVADLHLYLYSAKAQVSGQSARKMRLGDAVEQGVINNTVLGYFIGRIYLYLTKVGISPDKLRFRQHMENEMAHYACDCWDAESKTSYGWIEIVGCADRSCYDLSCHARATKVPLVAEKPYVEEVVPNVIEPSFGLGRIMYTVFEHTFHVREGDEQRTFFSFPAVVAPFKCSVLPLSQNQEFMPFVKELSEALTRHGVSHKVDDSSGSIGRRYARTDEIGVAFGVTIDFDTVNKTPHTATLRDRDSMRQIRAEISELPSIVQDLANGNITWADVEARYPLFE 2zxh-a1-m1-cB_2zxh-a1-m1-cA Structure of Aquifex aeolicus GidA in the form I crystal O66962 O66962 3.2 X-RAY DIFFRACTION 114 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 601 603 DEFDVVVIGGGHAGIEAALAAARMGAKTAMFVLNADTIGQMSCNPAIGGIAKGIVVREIDALGGEMGKAIDQTGIQFKMLNTRKGKAVQSPRAQADKKRYREYMKKVCENQENLYIKQEEVVDIIVKNNQVVGVRTNLGVEYKTKAVVVTTGTFLNGVIYIGDKMIPGGRLGEPRSEGLSDFYRRFDFPLIRFKTGTPARLDKRTIDFSALEVAPGDDPPPKFSFWTEPVGSYWFPKGKEQVNCWITYTTPKTHEIIRKNLHRTALYGGLIKGIGPRYCPSIEDKIVKFPDKERHQIFLEPEGLDTIEIYPNGLSTSLPEEVQWEMYRSIPGLENVVLIRPAYAIEYDVVPPTELYPTLETKKIRGLFHAGNFNGTTGYEEAAGQGIVAGINAALRAFGKEPIYLRRDESYIGVMIDDLTTKGVTEPYRLFTSRSEYRLYIRQDNAILRLAKLGRELGLLSEEQYKLVKELEREIEKWKEFYKSERVRSYSVATLMTMNYTLDDVKEKFGYEVPQHPYVKEEVEIQLKYEPYIERERKLNEKLKKLEDTKIPPDIDYDKIPGLTKEAREKLKKFKPITVGQASRIDGITPAAITALLVYLG DEFDVVVIGGGHAGIEAALAAARMGAKTAMFVLNADTIGQMSCNPAIGGIAKGIVVREIDALGGEMGKAIDQTGIQFKMLNTRKGKAVQSPRAQADKKRYREYMKKVCENQENLYIKQEEVVDIIVKNNQVVGVRTNLGVEYKTKAVVVTTGTFLNGVIYIGDKMIPGGRLGEPRSEGLSDFYRRFDFPLIRFKTGTPARLDKRTIDFSALEVAPGDDPPPKFSFWTEPVGSYWFPKGKEQVNCWITYTTPKTHEIIRKNLHRTALYGGLIKGIGPRYCPSIEDKIVKFPDKERHQIFLEPEGLDTIEIYPNGLSTSLPEEVQWEMYRSIPGLENVVLIRPAYAIEYDVVPPTELYPTLETKKIRGLFHAGNFNGTTGYEEAAGQGIVAGINAALRAFGKEPIYLRRDESYIGVMIDDLTTKGVTEPYRLFTSRSEYRLYIRQDNAILRLAKLGRELGLLSEEQYKLVKELEREIEKWKEFYKSERVRSYSVATLMTMNYTLDDVKEKFGYEVPQHPYVKEEVEIQLKYEPYIERERKLNEKLKKLEDTKIPPDIDYDKIPGLTKEAREKLKKFKPITVGQASRIDGITPAAITALLVYLGKL 2zxi-a2-m1-cD_2zxi-a2-m1-cC Structure of Aquifex aeolicus GidA in the form II crystal O66962 O66962 2.3 X-RAY DIFFRACTION 121 0.997 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 603 604 2zxi-a1-m1-cA_2zxi-a1-m1-cB SHMAWVVDEFDVVVIGGGHAGIEAALAAARMGAKTAMFVLNADTIGQMSCNPAIGGIAKGIVVREIDALGGEMGKAIDQTGIQFKMLNTRKGKAVQSPRAQADKKRYREYMKKVCENQENLYIKQEEVVDIIVKNNQVVGVRTNLGVEYKTKAVVVTTGTFLNGVIYIGDKMIPGGRLGEPRSEGLSDFYRRFDFPLIRFKTGTPARLDKRTIDFSALEVAPGDDPPPKFSFWTEPVGSYWFPKGKEQVNCWITYTTPKTHEIIRKNLHRYCPSIEDKIVKFPDKERHQIFLEPEGLDTIEIYPNGLSTSLPEEVQWEMYRSIPGLENVVLIRPAYAIEYDVVPPTELYPTLETKKIRGLFHAGNFNGTTGYEEAAGQGIVAGINAALRAFGKEPIYLRRDESYIGVMIDDLTTKGVTEPYRLFTSRSEYRLYIRQDNAILRLAKLGRELGLLSEEQYKLVKELEREIEKWKEFYKSERVSVAVGGDTRSYSVATLMTMNYTLDDVKEKFGYEVPQHPYVKEEVEIQLKYEPYIERERKLNEKLKKLEDTKIPPDIDYDKIPGLTKEAREKLKKFKPITVGQASRIDGITPAAITALLVYLGK SHMAWVVDEFDVVVIGGGHAGIEAALAAARMGAKTAMFVLNADTIGQMSCNPAIGGIAKGIVVREIDALGGEMGKAIDQTGIQFKMLNTRKGKAVQSPRAQADKKRYREYMKKVCENQENLYIKQEEVVDIIVKNNQVVGVRTNLGVEYKTKAVVVTTGTFLNGVIYIGDKMIPGGRLGEPRSEGLSDFYRRFDFPLIRFKTGTPARLDKRTIDFSALEVAPGDDPPPKFSFWTEPVGSYWFPKGKEQVNCWITYTTPKTHEIIRKNLHRTARYCPSIEDKIVKFPDKERHQIFLEPEGLDTIEIYPNGLSTSLPEEVQWEMYRSIPGLENVVLIRPAYAIEYDVVPPTELYPTLETKKIRGLFHAGNFNGTTGYEEAAGQGIVAGINAALRAFGKEPIYLRRDESYIGVMIDDLTTKGVTEPYRLFTSRSEYRLYIRQDNAILRLAKLGRELGLLSEEQYKLVKELEREIEKWKEFYKSERVSVAVGTRSYSVATLMTMNYTLDDVKEKFGYEVPQHPYVKEEVEIQLKYEPYIERERKLNEKLKKLEDTKIPPDIDYDKIPGLTKEAREKLKKFKPITVGQASRIDGITPAAITALLVYLGK 2zxx-a2-m1-cD_2zxx-a2-m1-cE Crystal structure of Cdt1/geminin complex O88513 O88513 2.8 X-RAY DIFFRACTION 84 0.984 10090 (Mus musculus) 10090 (Mus musculus) 64 77 2zxx-a1-m1-cA_2zxx-a1-m1-cB SQYWKEVAEQRRKALYEALKENEKLHKEIEQKDSEIARLRKENKDLAEVAEHVQYAEVIERLSN TQEAFDLISKENPSSQYWKEVAEQRRKALYEALKENEKLHKEIEQKDSEIARLRKENKDLAEVAEHVQYAEVIERLS 2zxy-a1-m1-cA_2zxy-a1-m2-cA Crystal Structure of Cytochrome c555 from Aquifex aeolicus O67504 O67504 1.15 X-RAY DIFFRACTION 26 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 86 86 ADGKAIFQQKGCGSCHQANVDTVGPSLKKIAQAYAGKEDQLIKFLKGEAPAIVDPAKEAIMKPQLTMLKGLSDAELKALADFILSH ADGKAIFQQKGCGSCHQANVDTVGPSLKKIAQAYAGKEDQLIKFLKGEAPAIVDPAKEAIMKPQLTMLKGLSDAELKALADFILSH 2zy2-a1-m11-cA_2zy2-a1-m9-cA dodecameric L-aspartate beta-decarboxylase Q53IZ1 Q53IZ1 3.3 X-RAY DIFFRACTION 41 1.0 206121 (Pseudomonas sp. ATCC 19121) 206121 (Pseudomonas sp. ATCC 19121) 521 521 2zy2-a1-m10-cA_2zy2-a1-m2-cA 2zy2-a1-m10-cA_2zy2-a1-m6-cA 2zy2-a1-m12-cA_2zy2-a1-m4-cA 2zy2-a1-m12-cA_2zy2-a1-m8-cA 2zy2-a1-m1-cA_2zy2-a1-m11-cA 2zy2-a1-m1-cA_2zy2-a1-m9-cA 2zy2-a1-m2-cA_2zy2-a1-m6-cA 2zy2-a1-m3-cA_2zy2-a1-m5-cA 2zy2-a1-m3-cA_2zy2-a1-m7-cA 2zy2-a1-m4-cA_2zy2-a1-m8-cA 2zy2-a1-m5-cA_2zy2-a1-m7-cA SPFELKDELIKVASGKANRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTVGVGGLAKLDGIEGRFERFIAEHRDQEGVKFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLTVSEQIVRQYIVREMAGGAVPPESVDLFAVEGGTAAMAYIFESLRISGLLKAGDKVAIGMPVFTPYIEIPELAQYDLKEVPIHADPDNGWQYSDAELDKLKDPDVKIFFCVNPSNPPSVKMDQRSLDRVRAIVAEQRPDLLILTDDVYGTFADEFQSLFSVCPRNTLLVYSFSKYFGATGWRLGVIAAHKDNVFDHALSQLPESAKKALDHRYRSLLPDVRSLKFIDRLVADSRVVALNHTAGLSTPQQVQMVLFSLFALMDEADAYKQALKQLIRRREATLYRELGMPPLENPNSVNYYTLIDLQNVTCRLYGEAFSQWAVQQSSTGDMLFRVADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRRLADELYEQYKALGKEK SPFELKDELIKVASGKANRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTVGVGGLAKLDGIEGRFERFIAEHRDQEGVKFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLTVSEQIVRQYIVREMAGGAVPPESVDLFAVEGGTAAMAYIFESLRISGLLKAGDKVAIGMPVFTPYIEIPELAQYDLKEVPIHADPDNGWQYSDAELDKLKDPDVKIFFCVNPSNPPSVKMDQRSLDRVRAIVAEQRPDLLILTDDVYGTFADEFQSLFSVCPRNTLLVYSFSKYFGATGWRLGVIAAHKDNVFDHALSQLPESAKKALDHRYRSLLPDVRSLKFIDRLVADSRVVALNHTAGLSTPQQVQMVLFSLFALMDEADAYKQALKQLIRRREATLYRELGMPPLENPNSVNYYTLIDLQNVTCRLYGEAFSQWAVQQSSTGDMLFRVADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRRLADELYEQYKALGKEK 2zy2-a1-m12-cA_2zy2-a1-m9-cA dodecameric L-aspartate beta-decarboxylase Q53IZ1 Q53IZ1 3.3 X-RAY DIFFRACTION 247 1.0 206121 (Pseudomonas sp. ATCC 19121) 206121 (Pseudomonas sp. ATCC 19121) 521 521 2zy2-a1-m10-cA_2zy2-a1-m4-cA 2zy2-a1-m11-cA_2zy2-a1-m2-cA 2zy2-a1-m1-cA_2zy2-a1-m7-cA 2zy2-a1-m3-cA_2zy2-a1-m6-cA 2zy2-a1-m5-cA_2zy2-a1-m8-cA SPFELKDELIKVASGKANRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTVGVGGLAKLDGIEGRFERFIAEHRDQEGVKFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLTVSEQIVRQYIVREMAGGAVPPESVDLFAVEGGTAAMAYIFESLRISGLLKAGDKVAIGMPVFTPYIEIPELAQYDLKEVPIHADPDNGWQYSDAELDKLKDPDVKIFFCVNPSNPPSVKMDQRSLDRVRAIVAEQRPDLLILTDDVYGTFADEFQSLFSVCPRNTLLVYSFSKYFGATGWRLGVIAAHKDNVFDHALSQLPESAKKALDHRYRSLLPDVRSLKFIDRLVADSRVVALNHTAGLSTPQQVQMVLFSLFALMDEADAYKQALKQLIRRREATLYRELGMPPLENPNSVNYYTLIDLQNVTCRLYGEAFSQWAVQQSSTGDMLFRVADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRRLADELYEQYKALGKEK SPFELKDELIKVASGKANRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTVGVGGLAKLDGIEGRFERFIAEHRDQEGVKFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLTVSEQIVRQYIVREMAGGAVPPESVDLFAVEGGTAAMAYIFESLRISGLLKAGDKVAIGMPVFTPYIEIPELAQYDLKEVPIHADPDNGWQYSDAELDKLKDPDVKIFFCVNPSNPPSVKMDQRSLDRVRAIVAEQRPDLLILTDDVYGTFADEFQSLFSVCPRNTLLVYSFSKYFGATGWRLGVIAAHKDNVFDHALSQLPESAKKALDHRYRSLLPDVRSLKFIDRLVADSRVVALNHTAGLSTPQQVQMVLFSLFALMDEADAYKQALKQLIRRREATLYRELGMPPLENPNSVNYYTLIDLQNVTCRLYGEAFSQWAVQQSSTGDMLFRVADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRRLADELYEQYKALGKEK 2zy2-a1-m8-cA_2zy2-a1-m9-cA dodecameric L-aspartate beta-decarboxylase Q53IZ1 Q53IZ1 3.3 X-RAY DIFFRACTION 25 1.0 206121 (Pseudomonas sp. ATCC 19121) 206121 (Pseudomonas sp. ATCC 19121) 521 521 2zy2-a1-m10-cA_2zy2-a1-m11-cA 2zy2-a1-m10-cA_2zy2-a1-m12-cA 2zy2-a1-m11-cA_2zy2-a1-m12-cA 2zy2-a1-m1-cA_2zy2-a1-m2-cA 2zy2-a1-m1-cA_2zy2-a1-m3-cA 2zy2-a1-m2-cA_2zy2-a1-m3-cA 2zy2-a1-m4-cA_2zy2-a1-m5-cA 2zy2-a1-m4-cA_2zy2-a1-m6-cA 2zy2-a1-m5-cA_2zy2-a1-m6-cA 2zy2-a1-m7-cA_2zy2-a1-m8-cA 2zy2-a1-m7-cA_2zy2-a1-m9-cA SPFELKDELIKVASGKANRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTVGVGGLAKLDGIEGRFERFIAEHRDQEGVKFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLTVSEQIVRQYIVREMAGGAVPPESVDLFAVEGGTAAMAYIFESLRISGLLKAGDKVAIGMPVFTPYIEIPELAQYDLKEVPIHADPDNGWQYSDAELDKLKDPDVKIFFCVNPSNPPSVKMDQRSLDRVRAIVAEQRPDLLILTDDVYGTFADEFQSLFSVCPRNTLLVYSFSKYFGATGWRLGVIAAHKDNVFDHALSQLPESAKKALDHRYRSLLPDVRSLKFIDRLVADSRVVALNHTAGLSTPQQVQMVLFSLFALMDEADAYKQALKQLIRRREATLYRELGMPPLENPNSVNYYTLIDLQNVTCRLYGEAFSQWAVQQSSTGDMLFRVADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRRLADELYEQYKALGKEK SPFELKDELIKVASGKANRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTVGVGGLAKLDGIEGRFERFIAEHRDQEGVKFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLTVSEQIVRQYIVREMAGGAVPPESVDLFAVEGGTAAMAYIFESLRISGLLKAGDKVAIGMPVFTPYIEIPELAQYDLKEVPIHADPDNGWQYSDAELDKLKDPDVKIFFCVNPSNPPSVKMDQRSLDRVRAIVAEQRPDLLILTDDVYGTFADEFQSLFSVCPRNTLLVYSFSKYFGATGWRLGVIAAHKDNVFDHALSQLPESAKKALDHRYRSLLPDVRSLKFIDRLVADSRVVALNHTAGLSTPQQVQMVLFSLFALMDEADAYKQALKQLIRRREATLYRELGMPPLENPNSVNYYTLIDLQNVTCRLYGEAFSQWAVQQSSTGDMLFRVADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRRLADELYEQYKALGKEK 2zy4-a1-m1-cE_2zy4-a1-m2-cE dodecameric L-aspartate beta-decarboxylase Q93QX0 Q93QX0 2 X-RAY DIFFRACTION 259 1.0 32001 (Alcaligenes faecalis subsp. faecalis) 32001 (Alcaligenes faecalis subsp. faecalis) 509 509 2zy3-a1-m1-cA_2zy3-a1-m1-cB 2zy3-a1-m1-cD_2zy3-a1-m1-cC 2zy3-a1-m1-cE_2zy3-a1-m2-cE 2zy3-a1-m1-cF_2zy3-a1-m2-cF 2zy3-a1-m2-cA_2zy3-a1-m2-cB 2zy3-a1-m2-cD_2zy3-a1-m2-cC 2zy4-a1-m1-cB_2zy4-a1-m1-cA 2zy4-a1-m1-cC_2zy4-a1-m1-cD 2zy4-a1-m1-cF_2zy4-a1-m2-cF 2zy4-a1-m2-cB_2zy4-a1-m2-cA 2zy4-a1-m2-cC_2zy4-a1-m2-cD 2zy5-a1-m1-cA_2zy5-a1-m1-cB 2zy5-a1-m1-cD_2zy5-a1-m1-cC 2zy5-a1-m1-cE_2zy5-a1-m2-cE 2zy5-a1-m1-cF_2zy5-a1-m2-cF 2zy5-a1-m2-cA_2zy5-a1-m2-cB 2zy5-a1-m2-cD_2zy5-a1-m2-cC 3fdd-a1-m10-cA_3fdd-a1-m9-cA 3fdd-a1-m11-cA_3fdd-a1-m12-cA 3fdd-a1-m1-cA_3fdd-a1-m2-cA 3fdd-a1-m3-cA_3fdd-a1-m4-cA 3fdd-a1-m5-cA_3fdd-a1-m6-cA 3fdd-a1-m7-cA_3fdd-a1-m8-cA ELIKIASSDGNRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTTVGVGGLAKIDGIEGRFERYIAENRDQEGVRFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLNISEKIVRQYIIREMGADAIPSESVNLFAVEGGTAAMAYIFESLKLNGLLKAGDKVAIGMPVFTPYIEIPELAQYALEEVAINADPSLNWQYPDSELDKLKDPAIKIFFCVNPSNPPSVKMDQRSLERVRNIVAEHRPDLMILTDDVYGTFADDFQSLFAICPENTLLVYSFSKYFGATGWRLGVVAAHQQNVFDLALDKLQESEKVALDHRYRSLLPDVRSLKFIDRLVADSRAVALNHTAGLSTPQQVQMALFSLFALMDEADEYKHTLKQLIRRRETTLYRELGMPPLRDENAVDYYTLIDLQDVTAKLYGEAFSEWAVKQSSTGDMLFRIADETGIVLLPGRGFGSNRPSGRASLANLNEYEYAAIGRALRKMADELYAEYS ELIKIASSDGNRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTTVGVGGLAKIDGIEGRFERYIAENRDQEGVRFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLNISEKIVRQYIIREMGADAIPSESVNLFAVEGGTAAMAYIFESLKLNGLLKAGDKVAIGMPVFTPYIEIPELAQYALEEVAINADPSLNWQYPDSELDKLKDPAIKIFFCVNPSNPPSVKMDQRSLERVRNIVAEHRPDLMILTDDVYGTFADDFQSLFAICPENTLLVYSFSKYFGATGWRLGVVAAHQQNVFDLALDKLQESEKVALDHRYRSLLPDVRSLKFIDRLVADSRAVALNHTAGLSTPQQVQMALFSLFALMDEADEYKHTLKQLIRRRETTLYRELGMPPLRDENAVDYYTLIDLQDVTAKLYGEAFSEWAVKQSSTGDMLFRIADETGIVLLPGRGFGSNRPSGRASLANLNEYEYAAIGRALRKMADELYAEYS 2zy4-a1-m2-cE_2zy4-a1-m1-cC dodecameric L-aspartate beta-decarboxylase Q93QX0 Q93QX0 2 X-RAY DIFFRACTION 27 1.0 32001 (Alcaligenes faecalis subsp. faecalis) 32001 (Alcaligenes faecalis subsp. faecalis) 509 511 2zy3-a1-m1-cA_2zy3-a1-m1-cE 2zy3-a1-m1-cA_2zy3-a1-m2-cC 2zy3-a1-m1-cB_2zy3-a1-m1-cF 2zy3-a1-m1-cD_2zy3-a1-m1-cB 2zy3-a1-m1-cD_2zy3-a1-m1-cF 2zy3-a1-m1-cE_2zy3-a1-m2-cC 2zy3-a1-m2-cA_2zy3-a1-m1-cC 2zy3-a1-m2-cA_2zy3-a1-m2-cE 2zy3-a1-m2-cB_2zy3-a1-m2-cF 2zy3-a1-m2-cD_2zy3-a1-m2-cB 2zy3-a1-m2-cD_2zy3-a1-m2-cF 2zy3-a1-m2-cE_2zy3-a1-m1-cC 2zy4-a1-m1-cB_2zy4-a1-m1-cD 2zy4-a1-m1-cB_2zy4-a1-m1-cF 2zy4-a1-m1-cC_2zy4-a1-m2-cA 2zy4-a1-m1-cD_2zy4-a1-m1-cF 2zy4-a1-m1-cE_2zy4-a1-m1-cA 2zy4-a1-m1-cE_2zy4-a1-m2-cC 2zy4-a1-m2-cB_2zy4-a1-m2-cD 2zy4-a1-m2-cB_2zy4-a1-m2-cF 2zy4-a1-m2-cC_2zy4-a1-m1-cA 2zy4-a1-m2-cD_2zy4-a1-m2-cF 2zy4-a1-m2-cE_2zy4-a1-m2-cA 2zy5-a1-m1-cA_2zy5-a1-m1-cE 2zy5-a1-m1-cA_2zy5-a1-m2-cC 2zy5-a1-m1-cB_2zy5-a1-m1-cF 2zy5-a1-m1-cD_2zy5-a1-m1-cB 2zy5-a1-m1-cD_2zy5-a1-m1-cF 2zy5-a1-m1-cE_2zy5-a1-m2-cC 2zy5-a1-m2-cA_2zy5-a1-m1-cC 2zy5-a1-m2-cA_2zy5-a1-m2-cE 2zy5-a1-m2-cB_2zy5-a1-m2-cF 2zy5-a1-m2-cD_2zy5-a1-m2-cB 2zy5-a1-m2-cD_2zy5-a1-m2-cF 2zy5-a1-m2-cE_2zy5-a1-m1-cC 3fdd-a1-m10-cA_3fdd-a1-m3-cA 3fdd-a1-m10-cA_3fdd-a1-m8-cA 3fdd-a1-m11-cA_3fdd-a1-m4-cA 3fdd-a1-m11-cA_3fdd-a1-m6-cA 3fdd-a1-m12-cA_3fdd-a1-m2-cA 3fdd-a1-m12-cA_3fdd-a1-m7-cA 3fdd-a1-m1-cA_3fdd-a1-m5-cA 3fdd-a1-m1-cA_3fdd-a1-m9-cA 3fdd-a1-m2-cA_3fdd-a1-m7-cA 3fdd-a1-m3-cA_3fdd-a1-m8-cA 3fdd-a1-m4-cA_3fdd-a1-m6-cA 3fdd-a1-m5-cA_3fdd-a1-m9-cA ELIKIASSDGNRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTTVGVGGLAKIDGIEGRFERYIAENRDQEGVRFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLNISEKIVRQYIIREMGADAIPSESVNLFAVEGGTAAMAYIFESLKLNGLLKAGDKVAIGMPVFTPYIEIPELAQYALEEVAINADPSLNWQYPDSELDKLKDPAIKIFFCVNPSNPPSVKMDQRSLERVRNIVAEHRPDLMILTDDVYGTFADDFQSLFAICPENTLLVYSFSKYFGATGWRLGVVAAHQQNVFDLALDKLQESEKVALDHRYRSLLPDVRSLKFIDRLVADSRAVALNHTAGLSTPQQVQMALFSLFALMDEADEYKHTLKQLIRRRETTLYRELGMPPLRDENAVDYYTLIDLQDVTAKLYGEAFSEWAVKQSSTGDMLFRIADETGIVLLPGRGFGSNRPSGRASLANLNEYEYAAIGRALRKMADELYAEYS DELIKIASSDGNRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMTTVGVGGLAKIDGIEGRFERYIAENRDQEGVRFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLNISEKIVRQYIIREMGADAIPSESVNLFAVEGGTAAMAYIFESLKLNGLLKAGDKVAIGMPVFTPYIEIPELAQYALEEVAINADPSLNWQYPDSELDKLKDPAIKIFFCVNPSNPPSVKMDQRSLERVRNIVAEHRPDLMILTDDVYGTFADDFQSLFAICPENTLLVYSFSKYFGATGWRLGVVAAHQQNVFDLALDKLQESEKVALDHRYRSLLPDVRSLKFIDRLVADSRAVALNHTAGLSTPQQVQMALFSLFALMDEADEYKHTLKQLIRRRETTLYRELGMPPLRDENAVDYYTLIDLQDVTAKLYGEAFSEWAVKQSSTGDMLFRIADETGIVLLPGRGFGSNRPSGRASLANLNEYEYAAIGRALRKMADELYAEYSG 2zy9-a1-m1-cA_2zy9-a1-m1-cB Improved crystal structure of magnesium transporter MgtE Q5SMG8 Q5SMG8 2.94 X-RAY DIFFRACTION 333 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 427 429 2yvx-a1-m1-cA_2yvx-a1-m1-cB 2yvx-a2-m1-cC_2yvx-a2-m1-cD 4u9l-a1-m1-cB_4u9l-a1-m1-cA 4u9n-a1-m1-cA_4u9n-a1-m1-cB 4wib-a1-m1-cA_4wib-a1-m1-cB 5x9h-a1-m1-cB_5x9h-a1-m1-cA 6lbh-a1-m1-cA_6lbh-a1-m1-cB 8h5e-a1-m1-cA_8h5e-a1-m1-cB EVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVLEAEATEDIHKLGAVDVPDLVYSEAGPVALWLARVRWLVILILTGMVTSSILQGFESVLEAVTALAFYVPVLLGTGGNTGNQSATLIIRALATRDLDLRDWRRVFLKEMGVGLLLGLTLSFLLVGKVYWDGHPLLLPVVGVSLVLIVFFANLVGAMLPFLLRRLGVDPALVSNPLVATLSDVTGLLIYLSVARLLLEA ALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVLEAEATEDIHKLGAVDVPDLVYSEAGPVALWLARVRWLVILILTGMVTSSILQGFESVLEAVTALAFYVPVLLGTGGNTGNQSATLIIRALATRDLDLRDWRRVFLKEMGVGLLLGLTLSFLLVGKVYWDGHPLLLPVVGVSLVLIVFFANLVGAMLPFLLRRLGVDPALVSNPLVATLSDVTGLLIYLSVARLLLE 2zyd-a1-m1-cA_2zyd-a1-m1-cB Dimeric 6-phosphogluconate dehydrogenase complexed with glucose P00350 P00350 1.5 X-RAY DIFFRACTION 382 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 464 466 2zya-a1-m1-cA_2zya-a1-m1-cB 2zyg-a1-m1-cA_2zyg-a1-m2-cA 2zyg-a2-m1-cB_2zyg-a2-m3-cB 3fwn-a1-m1-cA_3fwn-a1-m1-cB KQQIGVVGMAVMGRNLALNIESRGYTVSIFNRSREKTEEVIAENPGKKLVPYYTVKEFVESLETPRRILLMVKAGAGTDAAIDSLKPYLDKGDIIIDGGNTFFQDTIRRNRELSAEGFNFIGTGVSGGEEGALKGPSIMPGGQKEAYELVAPILTKIAAVAEDGEPCVTYIGADGAGHYVKMVHNGIEYGDMQLIAEAYSLLKGGLNLTNEELAQTFTEWNNGELSSYLIDITKDIFTKKDEDGNYLVDVILDEAANKGTGKWTSQSALDLGEPLSLITESVFARYISSLKDQRVAASKVLSGPQAQPAGDKAEFIEKVRRALYLGKIVSYAQGFSQLRAASEEYNWDLNYGEIAKIFRAGCIIRAQFLQKITDACAENPQIANLLLAPYFKQIADDYQQALRDVVAYAVQNGIPVPTFSAAVAYYDSYRAAVLPANLIQAQRDYFGAHTYKRIDKEGVFHTEW SKQQIGVVGMAVMGRNLALNIESRGYTVSIFNRSREKTEEVIAENPGKKLVPYYTVKEFVESLETPRRILLMVKAGAGTDAAIDSLKPYLDKGDIIIDGGNTFFQDTIRRNRELSAEGFNFIGTGVSGGEEGALKGPSIMPGGQKEAYELVAPILTKIAAVAEDGEPCVTYIGADGAGHYVKMVHNGIEYGDMQLIAEAYSLLKGGLNLTNEELAQTFTEWNNGELSSYLIDITKDIFTKKDEDGNYLVDVILDEAANKGTGKWTSQSALDLGEPLSLITESVFARYISSLKDQRVAASKVLSGPQAQPAGDKAEFIEKVRRALYLGKIVSYAQGFSQLRAASEEYNWDLNYGEIAKIFRAGCIIRAQFLQKITDACAENPQIANLLLAPYFKQIADDYQQALRDVVAYAVQNGIPVPTFSAAVAYYDSYRAAVLPANLIQAQRDYFGAHTYKRIDKEGVFHTEWL 2zyl-a1-m2-cA_2zyl-a1-m3-cA Crystal structure of 3-ketosteroid-9-alpha-hydroxylase (KshA) from M. tuberculosis P71875 P71875 2.3 X-RAY DIFFRACTION 68 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 359 359 2zyl-a1-m1-cA_2zyl-a1-m2-cA 2zyl-a1-m1-cA_2zyl-a1-m3-cA 4qck-a1-m1-cA_4qck-a1-m2-cA 4qck-a1-m1-cA_4qck-a1-m3-cA 4qck-a1-m2-cA_4qck-a1-m3-cA DAGALPTRYARGWHCLGVAKDYLEGKPHGVEAFGTKLVVFADSHGDLKVLDGYCRHMGGDLSEGTVKGDEVACPFHDWRWGGDGRCKLVPYARRTPRMARTRSWTTDVRSGLLFVWHDHEGNPPDPAVRIPEIPEAASDEWTDWRWNRILIEGSNCRDIIDNVTDMAHFFYIHFGLPTYFKNVFEGHIASQYLHNVGRPDVDDLGTSYGEAHLDSEASYFGPSFMINWLHNRYGNYKSESILINCHYPVTQNSFVLQWGVIVEKPKGMSMTDKLSRVFTEGVSKGFLQDVEIWKHKTRIDNPLLVEEDGAVYQLRRWYEQFYVDVADIKPEMVERFEIEVDTKRANEFWNAEVEKNLKS DAGALPTRYARGWHCLGVAKDYLEGKPHGVEAFGTKLVVFADSHGDLKVLDGYCRHMGGDLSEGTVKGDEVACPFHDWRWGGDGRCKLVPYARRTPRMARTRSWTTDVRSGLLFVWHDHEGNPPDPAVRIPEIPEAASDEWTDWRWNRILIEGSNCRDIIDNVTDMAHFFYIHFGLPTYFKNVFEGHIASQYLHNVGRPDVDDLGTSYGEAHLDSEASYFGPSFMINWLHNRYGNYKSESILINCHYPVTQNSFVLQWGVIVEKPKGMSMTDKLSRVFTEGVSKGFLQDVEIWKHKTRIDNPLLVEEDGAVYQLRRWYEQFYVDVADIKPEMVERFEIEVDTKRANEFWNAEVEKNLKS 2zyq-a1-m1-cA_2zyq-a1-m1-cB Crystal structure of the HsaC extradiol dioxygenase from M. tuberculosis P9WNW7 P9WNW7 2 X-RAY DIFFRACTION 32 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 296 296 2zi8-a1-m1-cB_2zi8-a1-m1-cA 2zi8-a1-m2-cB_2zi8-a1-m2-cA 2zi8-a1-m3-cB_2zi8-a1-m3-cA 2zi8-a1-m4-cB_2zi8-a1-m4-cA SIRSLGYLRIEATDMAAWREYGLKVLGMVEGKGAPEGALYLRMDDFPARLVVVPGEHDRLLEAGWECANAEGLQEIRNRLDLEGTPYKEATAAELADRRVDEMIRFADPSGNCLEVFHGTALEHRRVVSPYGHRFVTGEQGMGHVVLSTRDDAEALHFYRDVLGFRLRDSMRLPPQMVGRPADGPPAWLRFFGCNPRHHSLAFLPMPTSSGIVHLMVEVEQADDVGLCLDRALRRKVPMSATLGRHVNDLMLSFYMKTPGGFDIEFGCEGRQVDDRDWIARESTAVSLWGHDFTVG SIRSLGYLRIEATDMAAWREYGLKVLGMVEGKGAPEGALYLRMDDFPARLVVVPGEHDRLLEAGWECANAEGLQEIRNRLDLEGTPYKEATAAELADRRVDEMIRFADPSGNCLEVFHGTALEHRRVVSPYGHRFVTGEQGMGHVVLSTRDDAEALHFYRDVLGFRLRDSMRLPPQMVGRPADGPPAWLRFFGCNPRHHSLAFLPMPTSSGIVHLMVEVEQADDVGLCLDRALRRKVPMSATLGRHVNDLMLSFYMKTPGGFDIEFGCEGRQVDDRDWIARESTAVSLWGHDFTVG 2zyz-a1-m1-cB_2zyz-a1-m1-cD Pyrobaculum aerophilum splicing endonuclease Q8ZVI1 Q8ZVI1 1.7 X-RAY DIFFRACTION 39 1.0 13773 (Pyrobaculum aerophilum) 13773 (Pyrobaculum aerophilum) 183 183 MIGYLRGLAVIVEDVEFARRLYKEGFYGRFLGYDKVKRDEVEKINAPLILGLYEALYLAEKGRLKVMGEDGREVAPEELAALGRERMRNFDEIYKIYKYFRDLGYVVKSGLKFGALFSVYEKGPGIDHAPMVVVFLEPDKGISATDITRGGRLSHSVRKTWTLATVLRQTGEVVLLGFGWARL MIGYLRGLAVIVEDVEFARRLYKEGFYGRFLGYDKVKRDEVEKINAPLILGLYEALYLAEKGRLKVMGEDGREVAPEELAALGRERMRNFDEIYKIYKYFRDLGYVVKSGLKFGALFSVYEKGPGIDHAPMVVVFLEPDKGISATDITRGGRLSHSVRKTWTLATVLRQTGEVVLLGFGWARL 2zz8-a1-m1-cA_2zz8-a1-m1-cB Crystal structure of LipL32, the most abundant surface protein of pathogenic leptospira spp O34094 O34094 2.01 X-RAY DIFFRACTION 90 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 230 230 GLPSLKSSFVLSEDTIPGTNETVKTLLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEMGVRMISPTGEIGEPGDGDLVSDAFKAATPEEKSMPHWFDTWIRVERMSAIMPDQIAKAAKAKPVQGDDTYKEERHNKYNSLTRIKIPNPPKSFDDLKNIDTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEE GLPSLKSSFVLSEDTIPGTNETVKTLLPYGSVINYYGYVKPGQAPDGLVDGNKKAYYLYVWIPAVIAEMGVRMISPTGEIGEPGDGDLVSDAFKAATPEEKSMPHWFDTWIRVERMSAIMPDQIAKAAKAKPVQGDDTYKEERHNKYNSLTRIKIPNPPKSFDDLKNIDTKKLLVRGLYRISFTTYKPGEVKGSFVASVGLLFPPGIPGVSPLIHSNPEELQKQAIAAEE 2zzd-a1-m1-cE_2zzd-a1-m1-cB Recombinant thiocyanate hydrolase, air-oxidized form of holo-enzyme O66186 O66186 1.78 X-RAY DIFFRACTION 71 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 151 153 2dd4-a1-m1-cE_2dd4-a1-m1-cB 2dd4-a1-m1-cK_2dd4-a1-m1-cH 2dd5-a1-m1-cE_2dd5-a1-m1-cB 2dd5-a1-m1-cK_2dd5-a1-m1-cH 2dxb-a1-m1-cE_2dxb-a1-m1-cB 2dxb-a1-m1-cK_2dxb-a1-m1-cH 2dxb-a2-m1-cQ_2dxb-a2-m1-cN 2dxb-a2-m1-cW_2dxb-a2-m1-cT 2dxc-a1-m1-cE_2dxc-a1-m1-cB 2dxc-a1-m1-cK_2dxc-a1-m1-cH 2zzd-a1-m1-cK_2zzd-a1-m1-cH 3vyg-a1-m1-cE_3vyg-a1-m1-cK 3vyg-a1-m1-cH_3vyg-a1-m1-cB SIREEVHRHLGTVALMQPALHQQTHAPAPTEITHTLFRAYTRVPHDVGGEADVPIEYHEKEEEIWELNTFATCECLAWRGVWTAEERRRKQNCDVGQTVYLGMPYYGRWLLTAARILVDKQFVTLTELHNKIVEMRERVASGQGLGEYLPP SSIREEVHRHLGTVALMQPALHQQTHAPAPTEITHTLFRAYTRVPHDVGGEADVPIEYHEKEEEIWELNTFATCECLAWRGVWTAEERRRKQNCDVGQTVYLGMPYYGRWLLTAARILVDKQFVTLTELHNKIVEMRERVASGQGLGEYLPPK 2zzd-a1-m1-cE_2zzd-a1-m1-cK Recombinant thiocyanate hydrolase, air-oxidized form of holo-enzyme O66186 O66186 1.78 X-RAY DIFFRACTION 28 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 151 152 2dd4-a1-m1-cB_2dd4-a1-m1-cH 2dd4-a1-m1-cE_2dd4-a1-m1-cK 2dd5-a1-m1-cB_2dd5-a1-m1-cH 2dd5-a1-m1-cE_2dd5-a1-m1-cK 2dxb-a1-m1-cB_2dxb-a1-m1-cH 2dxb-a1-m1-cE_2dxb-a1-m1-cK 2dxb-a2-m1-cN_2dxb-a2-m1-cT 2dxb-a2-m1-cQ_2dxb-a2-m1-cW 2dxc-a1-m1-cB_2dxc-a1-m1-cH 2dxc-a1-m1-cE_2dxc-a1-m1-cK 2zzd-a1-m1-cB_2zzd-a1-m1-cH 3vyg-a1-m1-cE_3vyg-a1-m1-cB 3vyg-a1-m1-cH_3vyg-a1-m1-cK SIREEVHRHLGTVALMQPALHQQTHAPAPTEITHTLFRAYTRVPHDVGGEADVPIEYHEKEEEIWELNTFATCECLAWRGVWTAEERRRKQNCDVGQTVYLGMPYYGRWLLTAARILVDKQFVTLTELHNKIVEMRERVASGQGLGEYLPP SSIREEVHRHLGTVALMQPALHQQTHAPAPTEITHTLFRAYTRVPHDVGGEADVPIEYHEKEEEIWELNTFATCECLAWRGVWTAEERRRKQNCDVGQTVYLGMPYYGRWLLTAARILVDKQFVTLTELHNKIVEMRERVASGQGLGEYLPP 2zzd-a1-m1-cL_2zzd-a1-m1-cI Recombinant thiocyanate hydrolase, air-oxidized form of holo-enzyme O66188 O66188 1.78 X-RAY DIFFRACTION 19 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 214 215 2dd4-a1-m1-cF_2dd4-a1-m1-cC 2dd4-a1-m1-cL_2dd4-a1-m1-cI 2dd5-a1-m1-cF_2dd5-a1-m1-cC 2dd5-a1-m1-cL_2dd5-a1-m1-cI 2dxb-a1-m1-cF_2dxb-a1-m1-cC 2dxb-a1-m1-cL_2dxb-a1-m1-cI 2dxb-a2-m1-cR_2dxb-a2-m1-cO 2dxb-a2-m1-cX_2dxb-a2-m1-cU 2dxc-a1-m1-cF_2dxc-a1-m1-cC 2dxc-a1-m1-cL_2dxc-a1-m1-cI 2zzd-a1-m1-cC_2zzd-a1-m1-cF 3vyg-a1-m1-cC_3vyg-a1-m1-cI 3vyg-a1-m1-cF_3vyg-a1-m1-cL VSDFEILEMAVRELAIEKGLFSAEDHRVWKDYVHTLGPLPAARLVAKAWLDPEYKKLCIEDGVEASKAVGVNWVTSPPTQFGTPSDYCNLRVLADSPTLKHVVVCTLSYPRPILGQSPEWYRSPNYRRRLVRWPRQVLAEFGLQLPSEVQIRVADSNQKTRYIVMPVRPEGTDGWTEDQLAEIVTRDCLIGVAVPKPGITVNAKRPVLKANRPV EVSDFEILEMAVRELAIEKGLFSAEDHRVWKDYVHTLGPLPAARLVAKAWLDPEYKKLCIEDGVEASKAVGVNWVTSPPTQFGTPSDYCNLRVLADSPTLKHVVVCTLSYPRPILGQSPEWYRSPNYRRRLVRWPRQVLAEFGLQLPSEVQIRVADSNQKTRYIVMPVRPEGTDGWTEDQLAEIVTRDCLIGVAVPKPGITVNAKRPVLKANRPV 2zzv-a1-m1-cA_2zzv-a1-m1-cB Crystal Structure of a Periplasmic Substrate Binding Protein in Complex with Calcium and Lactate Q5SK82 Q5SK82 1.4 X-RAY DIFFRACTION 92 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 330 330 2zzw-a1-m1-cA_2zzw-a1-m1-cB 2zzx-a1-m1-cD_2zzx-a1-m1-cA 2zzx-a2-m1-cC_2zzx-a2-m1-cB RRYRWRIQTAWDAGTVGYSLFQKFTERVKELTDGQLEVQPFPAGAVVGTFDMFDAVKTGVLDGMNPFTLYWAGRMPVTAFLSSYALGLDRPDQWETWFYSLGGLDIARRAFAEQGLFYVGPVQHDLNIIHSKKPIRRFEDFKGVKLRVPGGMIAEVFAAAGASTVLLPGGEVYPALERGVIDAADFVGPAVNYNLGFHQVAKYIIMGPPETPAIHQPVDLMDFTINLNRWRSLPKPLQERFIAAVHEYSWIHYAGIQKANLEAWPKYRQAGVEVIRLSNEDVRKFRRLAIPIWFKWAKMDKYSREAFASQLEYMKGIGYVTDEELKGLSL RRYRWRIQTAWDAGTVGYSLFQKFTERVKELTDGQLEVQPFPAGAVVGTFDMFDAVKTGVLDGMNPFTLYWAGRMPVTAFLSSYALGLDRPDQWETWFYSLGGLDIARRAFAEQGLFYVGPVQHDLNIIHSKKPIRRFEDFKGVKLRVPGGMIAEVFAAAGASTVLLPGGEVYPALERGVIDAADFVGPAVNYNLGFHQVAKYIIMGPPETPAIHQPVDLMDFTINLNRWRSLPKPLQERFIAAVHEYSWIHYAGIQKANLEAWPKYRQAGVEVIRLSNEDVRKFRRLAIPIWFKWAKMDKYSREAFASQLEYMKGIGYVTDEELKGLSL 3a03-a2-m1-cA_3a03-a2-m2-cA Crystal structure of Hox11L1 homeodomain O43763 O43763 1.54 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 FSRSQVLELERRFLRQKYLASAERAALAKALRMTDAQVKTWFQNRRTKWRRQT FSRSQVLELERRFLRQKYLASAERAALAKALRMTDAQVKTWFQNRRTKWRRQT 3a04-a1-m1-cA_3a04-a1-m2-cA Crystal structure of tryptophanyl-tRNA synthetase from hyperthermophilic archaeon, Aeropyrum pernix K1 Q9Y924 Q9Y924 1.97 X-RAY DIFFRACTION 114 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 367 367 3a05-a1-m1-cA_3a05-a1-m2-cA LDPWGAVEIKDYDRLLRTFGIRPFSEVLPLLRKAGMEPSFLMRRGIIFGHRDFDKILEAKARGERVAVLTGFMPSGKFHFGHKLTVDQLIYLQKNGFKVFVAIADAEAFAVRRIGREEAVRIAVEEYIANMIALGLDPKDTEFYFQTNRGTPYFRLIQLFSGKVTAAEMEAIYGELTPAKMMASLTQAADILHVQLDEYGGYRHVVVPVGADQDPHLRLTRDLADRMAGVVELERPASTYHKLQPGLDGRKMSSSRPDSTIFLTDPPEVARNKLFRALTGGRATAEEQRRLGGVPEVCSVYHMDLYHLMPDDGEVKHIYTSCRLGKILCGECKQIAWEKLERFLAEHQSRLEKAKTIAWKLVEPPRF LDPWGAVEIKDYDRLLRTFGIRPFSEVLPLLRKAGMEPSFLMRRGIIFGHRDFDKILEAKARGERVAVLTGFMPSGKFHFGHKLTVDQLIYLQKNGFKVFVAIADAEAFAVRRIGREEAVRIAVEEYIANMIALGLDPKDTEFYFQTNRGTPYFRLIQLFSGKVTAAEMEAIYGELTPAKMMASLTQAADILHVQLDEYGGYRHVVVPVGADQDPHLRLTRDLADRMAGVVELERPASTYHKLQPGLDGRKMSSSRPDSTIFLTDPPEVARNKLFRALTGGRATAEEQRRLGGVPEVCSVYHMDLYHLMPDDGEVKHIYTSCRLGKILCGECKQIAWEKLERFLAEHQSRLEKAKTIAWKLVEPPRF 3a08-a3-m1-cA_3a08-a3-m1-cB Structure of (PPG)4-OOG-(PPG)4, monoclinic, twinned crystal 1.22 X-RAY DIFFRACTION 62 1.0 21 21 2d3h-a1-m1-cA_2d3h-a1-m1-cB 2d3h-a1-m1-cA_2d3h-a1-m1-cC 3a08-a1-m1-cA_3a08-a1-m1-cB 3a19-a1-m1-cA_3a19-a1-m1-cC 3a19-a1-m1-cB_3a19-a1-m1-cA 3a19-a3-m1-cA_3a19-a3-m1-cC 3a19-a3-m1-cB_3a19-a3-m1-cA PPGPPGPPGPPGGPPGPPGPP PPGPPGPPGPPGGPPGPPGPP 3a0a-a3-m1-cB_3a0a-a3-m1-cC Structure of (PPG)4-OPG-(PPG)4, monoclinic, twinned crystal 1.36 X-RAY DIFFRACTION 68 1.0 21 23 3a0a-a1-m1-cB_3a0a-a1-m1-cC 3a0m-a1-m1-cB_3a0m-a1-m1-cC 3abn-a1-m1-cC_3abn-a1-m1-cA 3adm-a2-m1-cE_3adm-a2-m1-cF GPPGPPGPGPPGPPGPPGPPG PPGPPGPPGPGPPGPPGPPGPPG 3a0e-a1-m1-cA_3a0e-a1-m2-cA Crystal Structure of Polygonatum cyrtonema lectin (PCL) complexed with dimannoside Q8L568 Q8L568 2 X-RAY DIFFRACTION 146 1.0 195526 (Polygonatum cyrtonema) 195526 (Polygonatum cyrtonema) 110 110 3a0c-a1-m1-cA_3a0c-a1-m1-cB 3a0c-a2-m1-cC_3a0c-a2-m1-cD 3a0d-a1-m1-cA_3a0d-a1-m2-cA VNSLSSPNSLFTGHSLEVGPSYRLIMQGDCNFVLYDSGKPVWASNTGGLGSGCRLTLHNNGNLVIYDQSNRVIWQTKTNGKEDHYVLVLQQDRNVVIYGPVVWATGSGPA VNSLSSPNSLFTGHSLEVGPSYRLIMQGDCNFVLYDSGKPVWASNTGGLGSGCRLTLHNNGNLVIYDQSNRVIWQTKTNGKEDHYVLVLQQDRNVVIYGPVVWATGSGPA 3a0r-a1-m1-cA_3a0r-a1-m2-cA Crystal structure of histidine kinase ThkA (TM1359) in complex with response regulator protein TrrA (TM1360) Q9X180 Q9X180 3.8 X-RAY DIFFRACTION 72 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 334 334 FSESILESLETAIITLSKDGRITEWNKKAEQLFGLKKENVLGRRLKDLPDFEEIGSVAESVFENKEPVFLNFYKFGERYFNIRFSPFRNAKTQLLEGVIITIDDVTELYKYEEERKRRERLSILGEMTARVAHEIRNPITIIGGFIMRMKKHLDDPETLKKYINIITNELSRLETIVKEILEYSKERVLEFTEFNLNELIREVYVLFEEKIRKMNIDFCFETDNEDLRVEADRTRIKQVLINLVQNAIEATGENGKIKITSEDMYTKVRVSVWNSGPPIPEELKEKIFSPFFTTLGLSICRKIIEDEHGGKIWTENRENGVVFIFEIPKTPEKR FSESILESLETAIITLSKDGRITEWNKKAEQLFGLKKENVLGRRLKDLPDFEEIGSVAESVFENKEPVFLNFYKFGERYFNIRFSPFRNAKTQLLEGVIITIDDVTELYKYEEERKRRERLSILGEMTARVAHEIRNPITIIGGFIMRMKKHLDDPETLKKYINIITNELSRLETIVKEILEYSKERVLEFTEFNLNELIREVYVLFEEKIRKMNIDFCFETDNEDLRVEADRTRIKQVLINLVQNAIEATGENGKIKITSEDMYTKVRVSVWNSGPPIPEELKEKIFSPFFTTLGLSICRKIIEDEHGGKIWTENRENGVVFIFEIPKTPEKR 3a11-a1-m1-cC_3a11-a1-m1-cE Crystal structure of ribose-1,5-bisphosphate isomerase from Thermococcus kodakaraensis KOD1 Q5JFM9 Q5JFM9 2.5 X-RAY DIFFRACTION 35 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 317 317 3a11-a1-m1-cC_3a11-a1-m1-cA 3a11-a1-m1-cD_3a11-a1-m1-cB 3a11-a1-m1-cE_3a11-a1-m1-cA 3a11-a1-m1-cF_3a11-a1-m1-cB 3a11-a1-m1-cF_3a11-a1-m1-cD 3a9c-a1-m1-cA_3a9c-a1-m1-cC 3a9c-a1-m1-cA_3a9c-a1-m1-cE 3a9c-a1-m1-cC_3a9c-a1-m1-cE 3a9c-a1-m1-cD_3a9c-a1-m1-cB 3a9c-a1-m1-cD_3a9c-a1-m1-cF 3a9c-a1-m1-cF_3a9c-a1-m1-cB AVVKEVLEIAEKIKNMEIRGAGKIARSAAYALQLQAEKSKATNVDEFWKEMKQAAKILFETRPTAVSLPNALRYVMHRGKIAYSSGADLEQLRFVIINAAKEFIHNSEKALERIGEFGAKRIEDGDVIMTHCHSKAAISVMKTAWEQGKDIKVIVTETRPKWQGKITAKELASYGIPVIYVVDSAARHYMKMTDKVVMGADSITVNGAVINKIGTALIALTAKEHRVWTMIAAETYKFHPETMLGIEMRDPTEVIPEDELKTWPKNIEVWNPAFDVTPPEYVDVIITERGIIPPYAAIDILREEFGWALKYTEPWED AVVKEVLEIAEKIKNMEIRGAGKIARSAAYALQLQAEKSKATNVDEFWKEMKQAAKILFETRPTAVSLPNALRYVMHRGKIAYSSGADLEQLRFVIINAAKEFIHNSEKALERIGEFGAKRIEDGDVIMTHCHSKAAISVMKTAWEQGKDIKVIVTETRPKWQGKITAKELASYGIPVIYVVDSAARHYMKMTDKVVMGADSITVNGAVINKIGTALIALTAKEHRVWTMIAAETYKFHPETMLGIEMRDPTEVIPEDELKTWPKNIEVWNPAFDVTPPEYVDVIITERGIIPPYAAIDILREEFGWALKYTEPWED 3a12-a1-m1-cA_3a12-a1-m2-cB Crystal structure of Type III Rubisco complexed with 2-CABP O93627 O93627 2.3 X-RAY DIFFRACTION 22 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 436 437 1geh-a1-m1-cA_1geh-a1-m2-cD 1geh-a1-m1-cB_1geh-a1-m2-cC 1geh-a1-m1-cC_1geh-a1-m2-cB 1geh-a1-m1-cD_1geh-a1-m2-cA 1geh-a1-m1-cE_1geh-a1-m2-cE 3a12-a1-m1-cD_3a12-a1-m2-cD 3a12-a1-m1-cE_3a12-a1-m2-cC 3a12-a1-m2-cA_3a12-a1-m1-cB 3a12-a1-m2-cE_3a12-a1-m1-cC 3a12-a2-m1-cF_3a12-a2-m3-cG 3a12-a2-m1-cH_3a12-a2-m3-cJ 3a12-a2-m1-cI_3a12-a2-m3-cI 3a12-a2-m1-cJ_3a12-a2-m3-cH 3a12-a2-m3-cF_3a12-a2-m1-cG 3a13-a1-m1-cA_3a13-a1-m2-cB 3a13-a1-m1-cD_3a13-a1-m2-cD 3a13-a1-m1-cE_3a13-a1-m2-cC 3a13-a1-m2-cA_3a13-a1-m1-cB 3a13-a1-m2-cE_3a13-a1-m1-cC 3a13-a2-m1-cF_3a13-a2-m3-cG 3a13-a2-m1-cG_3a13-a2-m3-cF 3a13-a2-m1-cI_3a13-a2-m3-cI 3a13-a2-m1-cJ_3a13-a2-m3-cH 3a13-a2-m3-cJ_3a13-a2-m1-cH 3kdn-a1-m1-cA_3kdn-a1-m1-cG 3kdn-a1-m1-cB_3kdn-a1-m1-cF 3kdn-a1-m1-cC_3kdn-a1-m1-cJ 3kdn-a1-m1-cE_3kdn-a1-m1-cH 3kdn-a1-m1-cI_3kdn-a1-m1-cD 3kdo-a1-m1-cA_3kdo-a1-m1-cG 3kdo-a1-m1-cD_3kdo-a1-m1-cI 3kdo-a1-m1-cF_3kdo-a1-m1-cB 3kdo-a1-m1-cH_3kdo-a1-m1-cE 3kdo-a1-m1-cJ_3kdo-a1-m1-cC 3wqp-a1-m1-cA_3wqp-a1-m2-cB 3wqp-a1-m1-cC_3wqp-a1-m2-cE 3wqp-a1-m1-cD_3wqp-a1-m2-cD 3wqp-a1-m1-cE_3wqp-a1-m2-cC 3wqp-a1-m2-cA_3wqp-a1-m1-cB 3wqp-a2-m1-cF_3wqp-a2-m3-cG 3wqp-a2-m1-cG_3wqp-a2-m3-cF 3wqp-a2-m1-cH_3wqp-a2-m3-cJ 3wqp-a2-m1-cI_3wqp-a2-m3-cI 3wqp-a2-m1-cJ_3wqp-a2-m3-cH IYDYYVDKGYEPSKKRDIIAVFRVTPAEGYTIEQAAGAVAAESSTGTWTTLYPWYEQERWADLSAKAYDFHDMGDGSWIVRIAYPFHAFEEANLPGLLASIAGNIFGMKRVKGLRLEDLYFPEKLIREFDGPAFGIEGVRKMLEIKDRPIYGVVPKPKVGYSPEEFEKLAYDLLSNGADYMDDENLTSPWYNRFEERAEIMAKIIDKVENETGEKKTWFANITADLLEMEQRLEVLADLGLKHAMVDVVITGWGALRYIRDLAADYGLAIHGHRAMHAAFTRNPYHGISMFVLAKLYRLIGIDQLHVGTAGAGKLEGGKWDVIQNARILRESHYKPDENDVFHLEQKFYSIKAAFPTSSGGLHPGNIQPVIEALGTDIVLQLGGGTLGHPDGPAAGARAVRQAIDAIMQGIPLDEYAKTHKELARALEKWGHVTPV TIYDYYVDKGYEPSKKRDIIAVFRVTPAEGYTIEQAAGAVAAESSTGTWTTLYPWYEQERWADLSAKAYDFHDMGDGSWIVRIAYPFHAFEEANLPGLLASIAGNIFGMKRVKGLRLEDLYFPEKLIREFDGPAFGIEGVRKMLEIKDRPIYGVVPKPKVGYSPEEFEKLAYDLLSNGADYMDDENLTSPWYNRFEERAEIMAKIIDKVENETGEKKTWFANITADLLEMEQRLEVLADLGLKHAMVDVVITGWGALRYIRDLAADYGLAIHGHRAMHAAFTRNPYHGISMFVLAKLYRLIGIDQLHVGTAGAGKLEGGKWDVIQNARILRESHYKPDENDVFHLEQKFYSIKAAFPTSSGGLHPGNIQPVIEALGTDIVLQLGGGTLGHPDGPAAGARAVRQAIDAIMQGIPLDEYAKTHKELARALEKWGHVTPV 3a14-a1-m1-cA_3a14-a1-m1-cB Crystal structure of DXR from Thermotoga maritima, in complex with NADPH Q9WZZ1 Q9WZZ1 2 X-RAY DIFFRACTION 136 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 362 367 3a06-a1-m1-cA_3a06-a1-m1-cB ERTLVILGATGSIGTQTLDVLKKVKGIRLIGISFHSNLELAFKIVKEFNVKNVAITGDVEFEDSSINVWKGSHSIEEMLEALKPDITMVAVSGFSGLRAVLASLEHSKRVCLANKESLVCGGFLVKKKLKEKGTELIPVDSEHSAIFQVMEPEVEKVVLTASGGALRDWKISKIDRARPEDVLARITVDSATMVNKAFEVLEAMELFELPFEKIEVKIHREGLVHGAVVLPDGNVKMVVSPPDMRIPISYALFYPRRVALEPFFLRTISLSFEDPDPEKYPAFFLLKEIKDSYALRTAFNAADEVAVEAFLKGRIRFGGIHRVIEKTLEEFQGYPQPRTLDDVERIHFEAIKKAERVTEWLS ERTLVILGATGSIGTQTLDVLKKVKGIRLIGISFHSNLELAFKIVKEFNVKNVAITGDVEFEDSSINVWKGSHSIEEMLEALKPDITMVAVSGFSGLRAVLASLEHSKRVCLANKESLVCGGFLVKKKLKEKGTELIPVDSEHSAIFQVMEPEVEKVVLTASGGALRDWKISKIDRARPEDVLKMGARITVDSATMVNKAFEVLEAMELFELPFEKIEVKIHREGLVHGAVVLPDGNVKMVVSPPDMRIPISYALFYPRRVALEPFFLRTISLSFEDPDPEKYPAFFLLKEIKDSYALRTAFNAADEVAVEAFLKGRIRFGGIHRVIEKTLEEFQGYPQPRTLDDVERIHFEAIKKAERVTEWLSST 3a15-a2-m1-cC_3a15-a2-m1-cD Crystal Structure of Substrate-Free Form of Aldoxime Dehydratase (OxdRE) Q76K71 Q76K71 1.79 X-RAY DIFFRACTION 56 0.997 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 353 362 3a15-a1-m1-cA_3a15-a1-m1-cB 3a16-a1-m1-cA_3a16-a1-m1-cB 3a16-a2-m1-cC_3a16-a2-m1-cD 3a17-a1-m1-cA_3a17-a1-m1-cB 3a17-a2-m1-cC_3a17-a2-m1-cD 3a17-a3-m1-cE_3a17-a3-m1-cF 3a17-a4-m1-cG_3a17-a4-m1-cH 3a18-a1-m1-cA_3a18-a1-m1-cB 3a18-a2-m1-cD_3a18-a2-m1-cC MESAIGEHLQCPRTLTRRVPDTYTPPFPMWVGRADDALQQVVMGYLGVQFRDEDQRPAALQAMRDIVAGFDLPDGPAHHDLTHHIDNQGYENLIVVGYWKDVSSQHRWSTSTPIASWWESEDRLSDGLGFFREIVAPRAEQFETLYAFQEDLPGVGAVMDGISGEINEHGYWGSMRERFPISQTDWMQASGELRVIAGDPAVGGRVVVRGHDNIALIRSGQDWADAEADERSLYLDEILPTLQSGMDFLRDNGPAVGCYSNRFVRNIDIDGNFLDLSYNIGHWASLDQLERWSESHPTHLRIFTTFFRVAAGLSKLRLYHEVSVFDAADQLYEYINCHPGTGMLRDAVTIAEH SSGLVPRGSHMESAIGEHLQCPRTLTRRVPDTYTPPFPMWVGRADDALQQVVMGYLGVQFRDEDQRPAALQAMRDIVAGFDLPDGPAHHDLTHHIDNQGYENLIVVGYWKDVSSQHRWSTSTPIASWWESEDRLSDGLGFFREIVAPRAEQFETLYAFQEDLPGVGAVMDGISGEINEHGYWGSMRERFPISQTDWMQASGELRVIAGDPAVGGRVVVRGHDNIALIRSGQDWADAEADERSLYLDEILPTLQSGMDFLRDNGPAVGCYSNRFVRNIDIDGNFLDLSYNIGHWASLDQLERWSESHPTHLRIFTTFFRVAAGLSKLRLYHEVSVFDAADQLYEYINCHPGTGMLRDAVTIAE 3a19-a3-m1-cB_3a19-a3-m1-cC Structure of (PPG)4-OOG-(PPG)4_H monoclinic, twinned crystal 1.55 X-RAY DIFFRACTION 66 1.0 22 24 2d3h-a1-m1-cB_2d3h-a1-m1-cC 3a19-a1-m1-cB_3a19-a1-m1-cC PPGPPGPPGPPGGPPGPPGPPG PPGPPGPPGPPGGPPGPPGPPGPP 3a1d-a1-m1-cA_3a1d-a1-m1-cB Crystal structure of the P- and N-domains of CopA, a copper-transporting P-type ATPase, bound with ADP-Mg O29777 O29777 1.85 X-RAY DIFFRACTION 43 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 268 272 3a1c-a1-m1-cA_3a1c-a1-m1-cB 3a1e-a1-m1-cA_3a1e-a1-m1-cB AELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLNGDERELLRLAAIAERRSEHPIAEAIVKKALEHGIELGEPEKVEVIAGEGVVADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAKEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRK GAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLNGDERELLRLAAIAERRSEHPIAEAIVKKALEHGIELGEPEKVEVIAGEGVVADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAKEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRKTMS 3a1h-a1-m1-cA_3a1h-a1-m1-cC Crystal Structure Analysis of the Collagen-like Peptide, (PPG)4-OTG-(PPG)4 1.08 X-RAY DIFFRACTION 72 1.0 22 23 3adm-a1-m1-cA_3adm-a1-m1-cB 3adm-a1-m1-cC_3adm-a1-m1-cA 3adm-a2-m1-cD_3adm-a2-m1-cF GPPGPPGPPGTGPPGPPGPPGP GPPGPPGPPGTGPPGPPGPPGPP 3a1k-a2-m1-cA_3a1k-a2-m2-cA Crystal structure of Rhodococcus sp. N771 Amidase Q7DKE4 Q7DKE4 2.17 X-RAY DIFFRACTION 324 1.0 88735 (Rhodococcus sp. N-771) 88735 (Rhodococcus sp. N-771) 508 508 3a1i-a1-m1-cA_3a1i-a1-m2-cA ATIRPDDKAIDAAARHYGITLDKTARLEWPALIDGALGSYDVVDQLYADEATPPTTSREHAVPSASENPLSAWYVTTSIPPTSDGVLTGRRVAIKDNVTVAGVPMMNGSRTVEGFTPSRDATVVTRLLAAGATVAGKAVCEDLCFSGSSFTPASGPVRNPWDRQREAGGSSGGSAALVANGDVDFAIGGDQGGSIRIPAAFCGVVGHKPTFGLVPYTGAFPIERTIDHLGPITRTVHDAALMLSVIAGRDGNDPRQADSVEAGDYLSTLDSDVDGLRIGIVREGFGHAVSQPEVDDAVRAAAHSLTEIGCTVEEVNIPWHLHAFHIWNVIATDGGAYQMLDGNGYGMNAEGLYDPELMAHFASRRIQHADALSETVKLVALTGHHGITTLGGASYGKARNLVPLARAAYDTALRQFDVLVMPTLPYVASELPAKDVDRATFITKALGMIANTAPFDVTGHPSLSVPAGLVNGLPVGMMITGRHFDDATVLRVGRAFEKLRGAFPTPAE ATIRPDDKAIDAAARHYGITLDKTARLEWPALIDGALGSYDVVDQLYADEATPPTTSREHAVPSASENPLSAWYVTTSIPPTSDGVLTGRRVAIKDNVTVAGVPMMNGSRTVEGFTPSRDATVVTRLLAAGATVAGKAVCEDLCFSGSSFTPASGPVRNPWDRQREAGGSSGGSAALVANGDVDFAIGGDQGGSIRIPAAFCGVVGHKPTFGLVPYTGAFPIERTIDHLGPITRTVHDAALMLSVIAGRDGNDPRQADSVEAGDYLSTLDSDVDGLRIGIVREGFGHAVSQPEVDDAVRAAAHSLTEIGCTVEEVNIPWHLHAFHIWNVIATDGGAYQMLDGNGYGMNAEGLYDPELMAHFASRRIQHADALSETVKLVALTGHHGITTLGGASYGKARNLVPLARAAYDTALRQFDVLVMPTLPYVASELPAKDVDRATFITKALGMIANTAPFDVTGHPSLSVPAGLVNGLPVGMMITGRHFDDATVLRVGRAFEKLRGAFPTPAE 3a1m-a1-m1-cC_3a1m-a1-m1-cA A fusion protein of a beta helix region of gene product 5 and the foldon region of bacteriophage T4 P10104 P10104 2 X-RAY DIFFRACTION 320 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 111 112 3a1m-a1-m1-cA_3a1m-a1-m1-cB 3a1m-a1-m1-cC_3a1m-a1-m1-cB GNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIGSVEGYIPEAPRDGQAYVRKDGEWVFLS EGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIGSVEGYIPEAPRDGQAYVRKDGEWVFLS 3a1m-a1-m1-cF_3a1m-a1-m1-cC A fusion protein of a beta helix region of gene product 5 and the foldon region of bacteriophage T4 P10104 P10104 2 X-RAY DIFFRACTION 43 0.988 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 85 111 3a1m-a1-m1-cD_3a1m-a1-m1-cA 3a1m-a1-m1-cD_3a1m-a1-m1-cB 3a1m-a1-m1-cE_3a1m-a1-m1-cA 3a1m-a1-m1-cE_3a1m-a1-m1-cC 3a1m-a1-m1-cF_3a1m-a1-m1-cB EGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIG GNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIGSVEGYIPEAPRDGQAYVRKDGEWVFLS 3a1y-a1-m1-cD_3a1y-a1-m1-cE The structure of archaeal ribosomal stalk P1/P0 complex O57705 O57705 2.13 X-RAY DIFFRACTION 17 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 58 58 3a1y-a1-m1-cB_3a1y-a1-m1-cC MEYVYAALLLHSVGKEINEENLKAVLQAAGVEPEEARIKALVAALEGVNIDEVIEKAA MEYVYAALLLHSVGKEINEENLKAVLQAAGVEPEEARIKALVAALEGVNIDEVIEKAA 3a1y-a1-m1-cE_3a1y-a1-m1-cF The structure of archaeal ribosomal stalk P1/P0 complex O57705 O57705 2.13 X-RAY DIFFRACTION 49 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 58 58 3a1y-a1-m1-cA_3a1y-a1-m1-cB 3a1y-a1-m1-cC_3a1y-a1-m1-cD MEYVYAALLLHSVGKEINEENLKAVLQAAGVEPEEARIKALVAALEGVNIDEVIEKAA MEYVYAALLLHSVGKEINEENLKAVLQAAGVEPEEARIKALVAALEGVNIDEVIEKAA 3a28-a2-m1-cE_3a28-a2-m1-cH Crystal structure of L-2,3-butanediol dehydrogenase Q9ZNN8 Q9ZNN8 2 X-RAY DIFFRACTION 107 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 257 257 3a28-a1-m1-cA_3a28-a1-m1-cD 3a28-a1-m1-cB_3a28-a1-m1-cC 3a28-a2-m1-cF_3a28-a2-m1-cG SKVAMVTGGAQGIGRGISEKLAADGFDIAVADLPQQEEQAAETIKLIEAADQKAVFVGLDVTDKANFDSAIDEAAEKLGGFDVLVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAASRKFDELGVKGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQAAAQELAPKGHTVNAYAPGIVGTGMWEQIDAELSKINGKPIGENFKEYSSSIALGRPSVPEDVAGLVSFLASENSNYVTGQVMLVDGGMLYN SKVAMVTGGAQGIGRGISEKLAADGFDIAVADLPQQEEQAAETIKLIEAADQKAVFVGLDVTDKANFDSAIDEAAEKLGGFDVLVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAASRKFDELGVKGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQAAAQELAPKGHTVNAYAPGIVGTGMWEQIDAELSKINGKPIGENFKEYSSSIALGRPSVPEDVAGLVSFLASENSNYVTGQVMLVDGGMLYN 3a28-a2-m1-cG_3a28-a2-m1-cH Crystal structure of L-2,3-butanediol dehydrogenase Q9ZNN8 Q9ZNN8 2 X-RAY DIFFRACTION 114 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 257 257 3a28-a1-m1-cA_3a28-a1-m1-cB 3a28-a1-m1-cC_3a28-a1-m1-cD 3a28-a2-m1-cE_3a28-a2-m1-cF SKVAMVTGGAQGIGRGISEKLAADGFDIAVADLPQQEEQAAETIKLIEAADQKAVFVGLDVTDKANFDSAIDEAAEKLGGFDVLVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAASRKFDELGVKGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQAAAQELAPKGHTVNAYAPGIVGTGMWEQIDAELSKINGKPIGENFKEYSSSIALGRPSVPEDVAGLVSFLASENSNYVTGQVMLVDGGMLYN SKVAMVTGGAQGIGRGISEKLAADGFDIAVADLPQQEEQAAETIKLIEAADQKAVFVGLDVTDKANFDSAIDEAAEKLGGFDVLVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAASRKFDELGVKGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQAAAQELAPKGHTVNAYAPGIVGTGMWEQIDAELSKINGKPIGENFKEYSSSIALGRPSVPEDVAGLVSFLASENSNYVTGQVMLVDGGMLYN 3a2a-a2-m1-cC_3a2a-a2-m1-cD The structure of the carboxyl-terminal domain of the human voltage-gated proton channel Hv1 Q96D96 Q96D96 2 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 3a2a-a1-m1-cA_3a2a-a1-m1-cB RQLLRLKQMNVQLAAKIQHLEFSCSEKEQEIERLNKLLRQH RQLLRLKQMNVQLAAKIQHLEFSCSEKEQEIERLNKLLRQH 3a2b-a1-m1-cA_3a2b-a1-m2-cA Crystal Structure of Serine Palmitoyltransferase from Sphingobacterium multivorum with substrate L-serine A7BFV6 A7BFV6 2.3 X-RAY DIFFRACTION 352 1.0 28454 (Sphingobacterium multivorum) 28454 (Sphingobacterium multivorum) 392 392 SKGKLGEKISQFKIVEELKAKGLYAYFRPIQSKQDTEVKIDGRRVLMFGSNSYLGLTTDTRIIKAAQDALEKYGTGCAGSRFLNGTLDIHVELEEKLSAYVGKEAAILFSTGFQSNLGPLSCLMGRNDYILLDERDHASIIDGSRLSFSKVIKYGHNNMEDLRAKLSRLPEDSAKLICTDGIFSMEGDIVNLPELTSIANEFDAAVMVDDAHSLGVIGHKGAGTASHFGLNDDVDLIMGTFSKSLASLGGFVAGDADVIDFLKHNARSVMFSASMTPASVASTLKALEIIQNEPEHIEKLWKNTDYAKAQLLDHGFDLGATESPILPIFIRSNEKTFWVTKMLQDDGVFVNPVVSPAVPAEESLIRFSLMATHTYDQIDEAIEKMVKVFKQA SKGKLGEKISQFKIVEELKAKGLYAYFRPIQSKQDTEVKIDGRRVLMFGSNSYLGLTTDTRIIKAAQDALEKYGTGCAGSRFLNGTLDIHVELEEKLSAYVGKEAAILFSTGFQSNLGPLSCLMGRNDYILLDERDHASIIDGSRLSFSKVIKYGHNNMEDLRAKLSRLPEDSAKLICTDGIFSMEGDIVNLPELTSIANEFDAAVMVDDAHSLGVIGHKGAGTASHFGLNDDVDLIMGTFSKSLASLGGFVAGDADVIDFLKHNARSVMFSASMTPASVASTLKALEIIQNEPEHIEKLWKNTDYAKAQLLDHGFDLGATESPILPIFIRSNEKTFWVTKMLQDDGVFVNPVVSPAVPAEESLIRFSLMATHTYDQIDEAIEKMVKVFKQA 3a2m-a1-m1-cA_3a2m-a1-m1-cB CRYSTAL STRUCTURE OF DBJA (WILD TYPE Type I) P59337 P59337 1.84 X-RAY DIFFRACTION 83 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 298 300 3a2l-a1-m1-cA_3a2l-a1-m1-cB 3a2n-a1-m1-cA_3a2n-a1-m1-cB 3a2n-a2-m1-cE_3a2n-a2-m1-cF 3afi-a1-m1-cA_3afi-a1-m1-cE 3afi-a2-m1-cF_3afi-a2-m1-cB EIRRAPVLGSSMAYRETGAQDAPVVLFLHGNPTSSHIWRNILPLVSPVAHCIAPDLIGFGQSGKPDIAYRFFDHVRYLDAFIEQRGVTSAYLVAQDWGTALAFHLAARRPDFVRGLAFMEFIRPMPTWQDFHHTEVAEEQDHAEAARAVFRKFRTPGEGEAMILEANAFVERVLPGGIVRKLGDEEMAPYRTPFPTPESRRPVLAFPRELPIAGEPADVYEALQSAHAALAASSYPKLLFTGEPGALVSPEFAERFAASLTRCALIRLGAGLHYLQEDHADAIGRSVAGWIAGIEAVR EIEIRRAPVLGSSMAYRETGAQDAPVVLFLHGNPTSSHIWRNILPLVSPVAHCIAPDLIGFGQSGKPDIAYRFFDHVRYLDAFIEQRGVTSAYLVAQDWGTALAFHLAARRPDFVRGLAFMEFIRPMPTWQDFHHTEVAEEQDHAEAARAVFRKFRTPGEGEAMILEANAFVERVLPGGIVRKLGDEEMAPYRTPFPTPESRRPVLAFPRELPIAGEPADVYEALQSAHAALAASSYPKLLFTGEPGALVSPEFAERFAASLTRCALIRLGAGLHYLQEDHADAIGRSVAGWIAGIEAVR 3a2q-a2-m1-cA_3a2q-a2-m2-cA Structure of 6-aminohexanoate cyclic dimer hydrolase complexed with substrate P13398 P13398 1.8 X-RAY DIFFRACTION 124 1.0 482 482 3a2p-a2-m1-cA_3a2p-a2-m2-cA VDLWQDATAQAELVRSGEISRTELLEATIAHVQAVNPEINAVIIPLFEKARRESELASGPFAGVPYLLKDLTVVSQGDINTSSIKGMKESGYRADHDAYFVQRMRAAGFVLLGKTNTPEMGNQVTTEPEAWGATRNPWNLGRSVGGSSGGSGAAVAAALSPVAHGNDAAGAVRIPASVCGVVGLKPTRGRISPGPLVTDSDNVAGAAHEGLFARSVRDIAALLDVVSGHRPGDTFCAPTASRPYAQGISENPGSLRVGVLTHNPVGDFALDPECAAAARGAAAALAALGHDVNDAYPEALGDRSFLKDYSTICDVAIAREIERNGELIGRPLTEDDVEWTSWEMVKRADQVTGRAFAACVDELRYYAGKVERWWEAGWDLLILPTVTRQTPEIGELMLAKGTDLEGRQSAFISGSLQMLAFTVPFNVSGQPAISLPIGMSSDGMPIGVQIVAAYGREDLLLQVAAQLEGALPWVARRPQLLN VDLWQDATAQAELVRSGEISRTELLEATIAHVQAVNPEINAVIIPLFEKARRESELASGPFAGVPYLLKDLTVVSQGDINTSSIKGMKESGYRADHDAYFVQRMRAAGFVLLGKTNTPEMGNQVTTEPEAWGATRNPWNLGRSVGGSSGGSGAAVAAALSPVAHGNDAAGAVRIPASVCGVVGLKPTRGRISPGPLVTDSDNVAGAAHEGLFARSVRDIAALLDVVSGHRPGDTFCAPTASRPYAQGISENPGSLRVGVLTHNPVGDFALDPECAAAARGAAAALAALGHDVNDAYPEALGDRSFLKDYSTICDVAIAREIERNGELIGRPLTEDDVEWTSWEMVKRADQVTGRAFAACVDELRYYAGKVERWWEAGWDLLILPTVTRQTPEIGELMLAKGTDLEGRQSAFISGSLQMLAFTVPFNVSGQPAISLPIGMSSDGMPIGVQIVAAYGREDLLLQVAAQLEGALPWVARRPQLLN 3a2z-a2-m1-cA_3a2z-a2-m2-cA E. coli Gsp amidase Cys59 sulfenic acid P0AES0 P0AES0 1.5 X-RAY DIFFRACTION 80 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 190 190 3a2y-a2-m1-cA_3a2y-a2-m2-cA 3a30-a2-m1-cA_3a30-a2-m2-cA QDAPFGTLLGYAPGGVAIYSSDYSSLDPQEYEDDAVFRSYIDDEYMGHKWQCVEFARRFLFLNYGVVFTDVGMAWEIFSLRFLREVVNDNILPLQAFPNGSPRAPVAGALLIWDKGGEFKDTGHVAIITQLHGNKVRIAEQNVIHSPLPQGQQWTRELEMVVENGCYTLKDTFDDTTILGWMIQTEDTEY QDAPFGTLLGYAPGGVAIYSSDYSSLDPQEYEDDAVFRSYIDDEYMGHKWQCVEFARRFLFLNYGVVFTDVGMAWEIFSLRFLREVVNDNILPLQAFPNGSPRAPVAGALLIWDKGGEFKDTGHVAIITQLHGNKVRIAEQNVIHSPLPQGQQWTRELEMVVENGCYTLKDTFDDTTILGWMIQTEDTEY 3a32-a1-m1-cA_3a32-a1-m2-cA Crystal structure of putative threonyl-tRNA synthetase ThrRS-1 from Aeropyrum pernix Q9YDW0 Q9YDW0 2.3 X-RAY DIFFRACTION 263 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 465 465 3a31-a1-m1-cA_3a31-a1-m2-cA KTHIDYAYELDITVKPDSRVPVFNREFATFTGAGVPLFSLGGGPIRYALAEVLAKFHARRGYYVVETPIIASTELFKVSGHIEFYRNNMYLFDIEGHEFAVKPMNCPYHILLFLNEVAKHRSKLPLPFKVFEFGRVHRYEPSGSIYGLLRVRGFTQDDAHIIVPGGRVIDVVYDVFEEMKLVLERLFKLGVSSETFKVRLSMSDKSLIGKEFMGSKEEWEGAEEALREAASRINEKYGIDIVELEGEAAFYGPKLDFIMMVEESGVSKEWQMGTIQFDFNLPRRFRLYDVVREEFGIEEVYIIHRALLGSIERFLGVYLEHRRGRMPFTLAPIQFAVIAVKTGGEVDREIEDLASSIAKGLLDKGFRVAVKGSSKTGLSSDVRHIESTAKPAVNVFIGAKEVREKVLDVRVFDLESMKRRRLAIAYGDAADAVENLAAVAEELESPVRSLSGQAPRIPADFSFML KTHIDYAYELDITVKPDSRVPVFNREFATFTGAGVPLFSLGGGPIRYALAEVLAKFHARRGYYVVETPIIASTELFKVSGHIEFYRNNMYLFDIEGHEFAVKPMNCPYHILLFLNEVAKHRSKLPLPFKVFEFGRVHRYEPSGSIYGLLRVRGFTQDDAHIIVPGGRVIDVVYDVFEEMKLVLERLFKLGVSSETFKVRLSMSDKSLIGKEFMGSKEEWEGAEEALREAASRINEKYGIDIVELEGEAAFYGPKLDFIMMVEESGVSKEWQMGTIQFDFNLPRRFRLYDVVREEFGIEEVYIIHRALLGSIERFLGVYLEHRRGRMPFTLAPIQFAVIAVKTGGEVDREIEDLASSIAKGLLDKGFRVAVKGSSKTGLSSDVRHIESTAKPAVNVFIGAKEVREKVLDVRVFDLESMKRRRLAIAYGDAADAVENLAAVAEELESPVRSLSGQAPRIPADFSFML 3a3d-a1-m1-cA_3a3d-a1-m1-cB Crystal structure of penicillin binding protein 4 (dacB) from Haemophilus influenzae P45161 P45161 1.6 X-RAY DIFFRACTION 125 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 453 453 3a3e-a1-m1-cB_3a3e-a1-m1-cA 3a3f-a1-m1-cA_3a3f-a1-m1-cB 3a3i-a1-m1-cA_3a3i-a1-m1-cB MINVSDLTQKLPEGSNAGVIAKNINQNQIIADYNGSTFMLPASTQKVFTAVAAKLALGDQFQFETALLSNGKIQNGNLDGNLIVSFTGDPDLTRGQLYSLLAELKKQGIKKINGDLVLDTSVFSSHDRGLGWIWNDLTMCFNSPPAAANIDNNCFYAELDANKNPGEIVKINVPAQFPIQVFGQVYVADSNEAPYCQLDVVVHDNNRYQVKGCLARQYKPFGLSFAVQNTDAYAAAIIQRQLRKLGIEFNGKVLLPQKPQQGQLLAKHLSKPLPDLLKKMMKKSDNQIADSLFRAVAFNYYKRPASFQLGTLAVKSILQKQGIRFGNSILADGSGLSRHNLVAPKTMLSVLEYIAKNEDKLHLMETFPIAGVDGTISGRGGLISPPLVKNVIAKTGSLKGVYNLAGFMTNARGEKVAFVQFINGYSTGDLESKTKRAPLVQFERNLYNELYKY MINVSDLTQKLPEGSNAGVIAKNINQNQIIADYNGSTFMLPASTQKVFTAVAAKLALGDQFQFETALLSNGKIQNGNLDGNLIVSFTGDPDLTRGQLYSLLAELKKQGIKKINGDLVLDTSVFSSHDRGLGWIWNDLTMCFNSPPAAANIDNNCFYAELDANKNPGEIVKINVPAQFPIQVFGQVYVADSNEAPYCQLDVVVHDNNRYQVKGCLARQYKPFGLSFAVQNTDAYAAAIIQRQLRKLGIEFNGKVLLPQKPQQGQLLAKHLSKPLPDLLKKMMKKSDNQIADSLFRAVAFNYYKRPASFQLGTLAVKSILQKQGIRFGNSILADGSGLSRHNLVAPKTMLSVLEYIAKNEDKLHLMETFPIAGVDGTISGRGGLISPPLVKNVIAKTGSLKGVYNLAGFMTNARGEKVAFVQFINGYSTGDLESKTKRAPLVQFERNLYNELYKY 3a43-a3-m2-cA_3a43-a3-m3-cA Crystal structure of HypA Q5JIH3 Q5JIH3 2.3 X-RAY DIFFRACTION 10 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 138 138 3a43-a3-m1-cA_3a43-a3-m2-cA 3a43-a3-m1-cA_3a43-a3-m3-cA HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHFIPEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHFIPEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS 3a43-a3-m2-cB_3a43-a3-m3-cA Crystal structure of HypA Q5JIH3 Q5JIH3 2.3 X-RAY DIFFRACTION 62 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 117 138 3a43-a3-m1-cB_3a43-a3-m2-cA HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHFIPEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS 3a43-a3-m3-cB_3a43-a3-m1-cA Crystal structure of HypA Q5JIH3 Q5JIH3 2.3 X-RAY DIFFRACTION 62 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 117 138 HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHFIPEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS 3a43-a3-m3-cB_3a43-a3-m3-cA Crystal structure of HypA Q5JIH3 Q5JIH3 2.3 X-RAY DIFFRACTION 27 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 117 138 3a43-a3-m1-cB_3a43-a3-m1-cA 3a43-a3-m2-cB_3a43-a3-m2-cA HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHFIPEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEGGS 3a44-a1-m1-cB_3a44-a1-m1-cA Crystal structure of HypA in the dimeric form Q5JIH3 Q5JIH3 3.31 X-RAY DIFFRACTION 256 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 131 137 HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKE HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIKEDIHFIPEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEGG 3a44-a2-m1-cC_3a44-a2-m1-cD Crystal structure of HypA in the dimeric form Q5JIH3 Q5JIH3 3.31 X-RAY DIFFRACTION 234 0.992 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 122 127 HEWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEG EWALADAIVRTVLDYAQREGASRVKAVRVVLGELQDVAEDIVKFAMEQLFAGTIAEGAEIEFVEEEAVFKCRNCNYEWKLKEVKDKFDERIEVVHAFLACPKCGSHDFEVVKGRGVYVAGIKIEKEG 3a4k-a2-m1-cC_3a4k-a2-m1-cD Crystal structural analysis of HindIII restriction endonuclease in complex with cognate DNA and divalent cations at 2.17 angstrom resolution P43870 P43870 2.17 X-RAY DIFFRACTION 168 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 297 298 2e52-a1-m1-cB_2e52-a1-m1-cA 2e52-a2-m1-cD_2e52-a2-m1-cC 3a4k-a1-m1-cA_3a4k-a1-m1-cB 3wvg-a1-m1-cA_3wvg-a1-m1-cB 3wvg-a2-m1-cC_3wvg-a2-m1-cD 3wvh-a1-m1-cA_3wvh-a1-m1-cB 3wvh-a2-m1-cC_3wvh-a2-m1-cD 3wvi-a1-m1-cA_3wvi-a1-m1-cB 3wvi-a2-m1-cC_3wvi-a2-m1-cD 3wvk-a1-m1-cA_3wvk-a1-m1-cB 3wvk-a2-m1-cC_3wvk-a2-m1-cD 3wvp-a1-m1-cA_3wvp-a1-m1-cB 3wvp-a2-m1-cA_3wvp-a2-m1-cB 3wvp-a3-m1-cC_3wvp-a3-m1-cD 3wvp-a4-m1-cC_3wvp-a4-m1-cD KSALEKLLSLIENLTNQEFKQATNSLISFIYKLNRNEVIELVRSIGILPEAIKPSSTQEKLFSKAGDIVLAKAFQLLNLNSKPLEQGNAGDVIALSKEFNYGLVADAKSFRLSRTAKNQKDFKVKALSEWREDKDYAVLTAPFFQYPTTKSQIFKQSLDENVLLFSWEHLAILLQLDLEETNIFSFEQLWNFPKKQSKKTSVSDAENNFMRDFNKYFMDLFKIDKDTLNQLLQKEINFIEERSLIEKEYWKKQINIIKNFTREEAIEALLKDINMSSKIETIDSFIKGIKSNDRLYL KSALEKLLSLIENLTNQEFKQATNSLISFIYKLNRNEVIELVRSIGILPEAIKPSSTQEKLFSKAGDIVLAKAFQLLNLNSKPLEQRGNAGDVIALSKEFNYGLVADAKSFRLSRTAKNQKDFKVKALSEWREDKDYAVLTAPFFQYPTTKSQIFKQSLDENVLLFSWEHLAILLQLDLEETNIFSFEQLWNFPKKQSKKTSVSDAENNFMRDFNKYFMDLFKIDKDTLNQLLQKEINFIEERSLIEKEYWKKQINIIKNFTREEAIEALLKDINMSSKIETIDSFIKGIKSNDRLYL 3a4l-a1-m1-cA_3a4l-a1-m1-cB Crystal structure of archaeal O-phosphoseryl-tRNA(Sec) kinase Q58933 Q58933 1.8 X-RAY DIFFRACTION 65 0.992 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 236 237 3a4m-a1-m1-cA_3a4m-a1-m1-cB 3a4n-a1-m1-cA_3a4n-a1-m1-cB DIMLIILTGLPGVGKSTFSKNLAKILSKNNIDVIVLGSDLIRESFPVWKEKYEEFIKKSTYRLIDSALKNYWVIVDDTNYYNSMRRDLINIAKKYNKNYAIIYLKASLDVLIRRNIERGEKIPNEVIKKMYEKFDEPGKKYKWDEPFLIIDTTKDIDFNEIAKKLIEKSKEIPKFNISDKIDKETRKIVSEYIKSKKLDKDKIKEVVELRKEFLKKIKKVDADRVLKEFKDLLNSY MGDIMLIILTGLPGVGKSTFSKNLAKILSKNNIDVIVLGSDLIRESFPVWKEKYEEFIKKSTYRLIDSALKNYWVIVDDTNYYNSMRRDLINIAKKYNKNYAIIYLKASLDVLIRRNIERGEKIPNEVIKKMYEKFDEPGKKYKWDEPFLIIDTTKDIDFNEIAKKLIEKSKEIPKFNNISDKIDKETRKIVSEYIKSKKLDKDKIKEVVELRKEFLKKIKDADRVLKEFKDLLNSY 3a52-a1-m1-cB_3a52-a1-m1-cA Crystal structure of cold-active alkailne phosphatase from psychrophile Shewanella sp. Q8RQU7 Q8RQU7 2.2 X-RAY DIFFRACTION 178 1.0 177958 (Shewanella sp. AP1) 177958 (Shewanella sp. AP1) 398 400 MGMIIMVGDGMGPAYTSAYRYFQDNPDTEEIEQTVFDRLLVGMASTYPARESGYVTDSAASATALATGFKSYNGAIAVDINKRPLTTIMQMAKARGMSTGVAVTAQVNHATPAAFLTHNESRKNYEAIAADMLKSDADVILGGGRKYFSEALVSQFSAKGYQHITELAQLDSITQPKVLGLFAEVQLPWVIDDTDANTLSKLTQKSLDLLSQNEKGFVLLVEGSLIDWAGHNNDIATAMAEMQGFANAIEVVEQYIRQHPDTLLVVTADHNTGGLSIGANGEYQWDTKLPKGISASPASIATHAIAADDWQAGVNQQLGFDVNSTELQQLTNARMQGKSTLEVALKKIIDTRSYTGWTTSGHTGVDVQVFAMGPAADLFKGNQDNTHIAEKMMSLLPK MGMIIMVGDGMGPAYTSAYRYFQDNPDTEEIEQTVFDRLLVGMASTYPARESGYVTDSAASATALATGFKSYNGAIAVDINKRPLTTIMQMAKARGMSTGVAVTAQVNHATPAAFLTHNESRKNYEAIAADMLKSDADVILGGGRKYFSEALVSQFSAKGYQHITELAQLDSITQPKVLGLFAEVQLPWVIDDTDANTLSKLTQKSLDLLSQNEKGFVLLVEGSLIDWAGHNNDIATAMAEMQGFANAIEVVEQYIRQHPDTLLVVTADHNTGGLSIGANGEYQWDTKLPKGISASPASIATHAIAADDWQAGVNQQLGFDVNSTELQQLTNARMQGKSTLEVALKKIIDTRSYTGWTTSGHTGVDVQVFAMGPAADLFKGNQDNTHIAEKMMSLLPKVN 3a57-a1-m2-cA_3a57-a1-m4-cA Crystal structure of Thermostable Direct Hemolysin P19250 P19250 1.5 X-RAY DIFFRACTION 37 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 154 154 3a57-a1-m1-cA_3a57-a1-m3-cA 3a57-a1-m1-cA_3a57-a1-m4-cA 3a57-a1-m2-cA_3a57-a1-m3-cA GSDEILFVVRDTTFNTNAPVNVEVSDFWTNRNVKRKPYKDVYGQSVFTTSGTKWLTSYMTVNINDKDYTMAAVSGYKHGHSAVFVKSDQVQLQHSYDSVASFVGEDEDSIPSKMYLDETPEYFVNVEAYESGSGNILVMCISNKESFFECKHQQ GSDEILFVVRDTTFNTNAPVNVEVSDFWTNRNVKRKPYKDVYGQSVFTTSGTKWLTSYMTVNINDKDYTMAAVSGYKHGHSAVFVKSDQVQLQHSYDSVASFVGEDEDSIPSKMYLDETPEYFVNVEAYESGSGNILVMCISNKESFFECKHQQ 3a5f-a1-m1-cA_3a5f-a1-m2-cB High-resolution structure of DHDPS from Clostridium botulinum in complex with pyruvate 1.19 X-RAY DIFFRACTION 72 1.0 441770 (Clostridium botulinum A str. ATCC 19397) 441770 (Clostridium botulinum A str. ATCC 19397) 289 290 3a5f-a1-m2-cA_3a5f-a1-m1-cB 3ird-a1-m1-cA_3ird-a1-m3-cA 3ird-a1-m2-cA_3ird-a1-m4-cA SIFKGSGVAIITPFTNTGVDFDKLSELIEWHIKSKTDAIIVCGTTGEATTMTETERKETIKFVIDKVNKRIPVIAGTGSNNTAASIAMSKWAESIGVDGLLVITPYYNKTTQKGLVKHFAVSDAVSTPIIIYNVPGRTGLNITPGTLKELCEDKNIVAVEASGNISQIAQIKALCGDKLDIYSGNDDQIIPILALGGIGVISVLANVIPEDVHNMCELYLNGKVNEALKIQLDSLALTNALFIETNPIPVKTAMNLMNMKVGDLRLPLCEMNENNLEILKKELKAYNLM SIFKGSGVAIITPFTNTGVDFDKLSELIEWHIKSKTDAIIVCGTTGEATTMTETERKETIKFVIDKVNKRIPVIAGTGSNNTAASIAMSKWAESIGVDGLLVITPYYNKTTQKGLVKHFKAVSDAVSTPIIIYNVPGRTGLNITPGTLKELCEDKNIVAVEASGNISQIAQIKALCGDKLDIYSGNDDQIIPILALGGIGVISVLANVIPEDVHNMCELYLNGKVNEALKIQLDSLALTNALFIETNPIPVKTAMNLMNMKVGDLRLPLCEMNENNLEILKKELKAYNLM 3a5f-a1-m2-cA_3a5f-a1-m2-cB High-resolution structure of DHDPS from Clostridium botulinum in complex with pyruvate 1.19 X-RAY DIFFRACTION 122 1.0 441770 (Clostridium botulinum A str. ATCC 19397) 441770 (Clostridium botulinum A str. ATCC 19397) 289 290 3a5f-a1-m1-cA_3a5f-a1-m1-cB 3ird-a1-m1-cA_3ird-a1-m4-cA 3ird-a1-m2-cA_3ird-a1-m3-cA SIFKGSGVAIITPFTNTGVDFDKLSELIEWHIKSKTDAIIVCGTTGEATTMTETERKETIKFVIDKVNKRIPVIAGTGSNNTAASIAMSKWAESIGVDGLLVITPYYNKTTQKGLVKHFAVSDAVSTPIIIYNVPGRTGLNITPGTLKELCEDKNIVAVEASGNISQIAQIKALCGDKLDIYSGNDDQIIPILALGGIGVISVLANVIPEDVHNMCELYLNGKVNEALKIQLDSLALTNALFIETNPIPVKTAMNLMNMKVGDLRLPLCEMNENNLEILKKELKAYNLM SIFKGSGVAIITPFTNTGVDFDKLSELIEWHIKSKTDAIIVCGTTGEATTMTETERKETIKFVIDKVNKRIPVIAGTGSNNTAASIAMSKWAESIGVDGLLVITPYYNKTTQKGLVKHFKAVSDAVSTPIIIYNVPGRTGLNITPGTLKELCEDKNIVAVEASGNISQIAQIKALCGDKLDIYSGNDDQIIPILALGGIGVISVLANVIPEDVHNMCELYLNGKVNEALKIQLDSLALTNALFIETNPIPVKTAMNLMNMKVGDLRLPLCEMNENNLEILKKELKAYNLM 3a5p-a2-m1-cC_3a5p-a2-m1-cD Crystal structure of hemagglutinin O60949 O60949 1.82 X-RAY DIFFRACTION 71 1.0 5791 (Physarum polycephalum) 5791 (Physarum polycephalum) 103 103 3a5p-a1-m1-cA_3a5p-a1-m1-cB VWSVQIVDNAGLGANLALYPSGNSSTVPRYVTVTGYAPITFSEIGPKTVHQSWYITVHNGDDRAFQLGYEGGGVATATFTAGGNVSISTGFGDAQHLTLKKLA VWSVQIVDNAGLGANLALYPSGNSSTVPRYVTVTGYAPITFSEIGPKTVHQSWYITVHNGDDRAFQLGYEGGGVATATFTAGGNVSISTGFGDAQHLTLKKLA 3a5r-a1-m1-cB_3a5r-a1-m1-cA Benzalacetone synthase from Rheum palmatum complexed with 4-coumaroyl-primed monoketide intermediate Q94FV7 Q94FV7 1.6 X-RAY DIFFRACTION 139 1.0 137221 (Rheum palmatum) 137221 (Rheum palmatum) 375 376 3a5q-a1-m1-cB_3a5q-a1-m1-cA 3a5s-a1-m1-cB_3a5s-a1-m1-cA KLATVMAIGTANPPNCYYQADFPDFYFRVTNSDHLINLKQKFKRLCENSRIEKRYLHVTEEILKENPNIAAYEATSLNVRHKMQVKGVAELGKEAALKAIKEWGQPKSKITHLIVCCLAGVDMPGADYQLTKLLDLDPSVKRFMFYHLGCYAGGTVLRLAKDIAENNKGARVLIVCSEMTTTCFRGPSETHLDSMIGQAILGDGAAAVIVGADPDLTVERPIFELVSTAQTIVPESHGAIEGHLLESGLSFHLYKTVPTLISNNIKTCLSDAFTPLNISDWNSLFWIAHPGGPAILDQVTAKVGLEKEKLKVTRQVLKDYGNMSSATVFFIMDEMRKKSLENGQATTGEGLEWGVLFGFGPGITVETVVLRSVPV KLATVMAIGTANPPNCYYQADFPDFYFRVTNSDHLINLKQKFKRLCENSRIEKRYLHVTEEILKENPNIAAYEATSLNVRHKMQVKGVAELGKEAALKAIKEWGQPKSKITHLIVCCLAGVDMPGADYQLTKLLDLDPSVKRFMFYHLGCYAGGTVLRLAKDIAENNKGARVLIVCSEMTTTCFRGPSETHLDSMIGQAILGDGAAAVIVGADPDLTVERPIFELVSTAQTIVPESHGAIEGHLLESGLSFHLYKTVPTLISNNIKTCLSDAFTPLNISDWNSLFWIAHPGGPAILDQVTAKVGLEKEKLKVTRQVLKDYGNMSSATVFFIMDEMRKKSLENGQATTGEGLEWGVLFGFGPGITVETVVLRSVPVI 3a5t-a2-m1-cA_3a5t-a2-m1-cB Crystal structure of MafG-DNA complex O54790 O54790 2.8 X-RAY DIFFRACTION 44 0.989 10090 (Mus musculus) 10090 (Mus musculus) 90 90 3a5t-a1-m1-cA_3a5t-a1-m1-cB HGTSLTDEELVTSVRELNQHLRGLSKEEIIQLKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASKLELDALRSKY GTSLTDEELVTSVRELNQHLRGLSKEEIIQLKQRRRTLKNRGYAASCRVKRVTQKEELEKQKAELQQEVEKLASENASKLELDALRSKYE 3a5u-a1-m1-cA_3a5u-a1-m2-cA Promiscuity and specificity in DNA binding to SSB: Insights from the structure of the Mycobacterium smegmatis SSB-ssDNA complex Q9AFI5 Q9AFI5 2.8 X-RAY DIFFRACTION 108 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 118 118 MAGDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMFDRQSGEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFTREGEKRTVVEVEVDEIGPSLRYATAKVNK MAGDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMFDRQSGEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFTREGEKRTVVEVEVDEIGPSLRYATAKVNK 3a5u-a1-m2-cB_3a5u-a1-m2-cA Promiscuity and specificity in DNA binding to SSB: Insights from the structure of the Mycobacterium smegmatis SSB-ssDNA complex Q9AFI5 Q9AFI5 2.8 X-RAY DIFFRACTION 73 0.991 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 112 118 1ue1-a1-m1-cA_1ue1-a1-m2-cA 1ue5-a1-m1-cA_1ue5-a1-m2-cA 1x3e-a1-m1-cB_1x3e-a1-m2-cB 1x3g-a1-m1-cA_1x3g-a1-m2-cA 3a5u-a1-m1-cB_3a5u-a1-m1-cA 3afp-a1-m1-cB_3afp-a1-m2-cB 7f5y-a1-m2-cA_7f5y-a1-m1-cB MAGDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMGEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFETREKRTVVEVEVDEIGPSLRYATAKVNK MAGDTTITVVGNLTADPELRFTPSGAAVANFTVASTPRMFDRQSGEWKDGEALFLRCNIWREAAENVAESLTRGSRVIVTGRLKQRSFTREGEKRTVVEVEVDEIGPSLRYATAKVNK 3a5v-a1-m2-cA_3a5v-a1-m4-cA Crystal structure of alpha-galactosidase I from Mortierella vinacea 2 X-RAY DIFFRACTION 63 1.0 44442 (Umbelopsis vinacea) 44442 (Umbelopsis vinacea) 397 397 3a5v-a1-m1-cA_3a5v-a1-m3-cA 3a5v-a1-m1-cA_3a5v-a1-m4-cA 3a5v-a1-m2-cA_3a5v-a1-m3-cA ANNGLAITPQMGWNTWNKYGCNVDEQLILDAAKAIASSGLKDLGYNYVIIDDCWQKNERESSKTLLADPTKFPRGIKPLVDDIHNLGLKAGIYSSAGTLTCGGHIASLGYEDIDAKTWAKWGIDYLKYDNCYNQGQSGTPKLSYDRYKAMGNALNKTGRPMLYSLCNWGEDGPWNFASTISNSWRISGDVYDNFNRPDPACPCTTYDCVLAGFRCSVMNIINKAVAVSQKARSGGWNDLDMLEVGNGGMNQEEYRVHYTIWAALKSPLILGNDVTNITNTTKEIIMNKEVIAVNQDSSFSPANRIWVKGDQQLFSGNLANNTQVVILLNAGDSAAKMTATWDDIWVYNLPNVDSSRSIEVRDLWKQKSLGNFSNHITLDVPAHGVRLLKFMDSATSS ANNGLAITPQMGWNTWNKYGCNVDEQLILDAAKAIASSGLKDLGYNYVIIDDCWQKNERESSKTLLADPTKFPRGIKPLVDDIHNLGLKAGIYSSAGTLTCGGHIASLGYEDIDAKTWAKWGIDYLKYDNCYNQGQSGTPKLSYDRYKAMGNALNKTGRPMLYSLCNWGEDGPWNFASTISNSWRISGDVYDNFNRPDPACPCTTYDCVLAGFRCSVMNIINKAVAVSQKARSGGWNDLDMLEVGNGGMNQEEYRVHYTIWAALKSPLILGNDVTNITNTTKEIIMNKEVIAVNQDSSFSPANRIWVKGDQQLFSGNLANNTQVVILLNAGDSAAKMTATWDDIWVYNLPNVDSSRSIEVRDLWKQKSLGNFSNHITLDVPAHGVRLLKFMDSATSS 3a5z-a2-m1-cE_3a5z-a2-m1-cG Crystal structure of Escherichia coli GenX in complex with elongation factor P P0A8N7 P0A8N7 2.5 X-RAY DIFFRACTION 174 0.994 562 (Escherichia coli) 562 (Escherichia coli) 323 323 3a5y-a1-m1-cA_3a5y-a1-m1-cB 3a5y-a2-m1-cD_3a5y-a2-m1-cC 3a5z-a1-m1-cA_3a5z-a1-m1-cC 3g1z-a1-m1-cB_3g1z-a1-m1-cA ETASWQPSASIPNLLKRAAIMAEIRRFFADRGVLEVETPCMSQATVTDIHLVPFETRFVGPGHSQGMNLWLMTSPEYHMKRLLVAGCGPVFQLCRSFRNEEMGRYHNPEFTMLEWYRPHYDMYRLMNEVDDLLQQVLDCPAAESLSYQQAFLRYLEIDPLSADKTQLREVAAKLDLSNVADTEEDRDTLLQLLFTFGVEPNIGKEKPTFVYHFPASQASLAQISTEDHRVAERFEVYYKGIELANGFHELTDAREQQQRFEQDNRKRAARGLPQHPIDQNLIEALKVGMPDCSGVALGVDRLVMLALGAETLAEVIAFSVDRA MSETASWQPSASIPNLLKRAAIMAEIRRFFADRGVLEVETPCMSQATVTDIHLVPFETRFVGPGQGMNLWLMTSPEYHMKRLLVAGCGPVFQLCRSFRNEEMGRYHNPEFTMLEWYRPHYDMYRLMNEVDDLLQQVLDCPAAESLSYQQAFLRYLEIDPLSADKTQLREVAAKLDLSNVADTEEDRDTLLQLLFTFGVEPNIGKEKPTFVYHFPASQASLAQISTEDHRVAERFEVYYKGIELANGFHELTDAREQQQRFEQDNRKRAARGLPQHPIDQNLIEALKVGMPDCSGVALGVDRLVMLALGAETLAEVIAFSVDRA 3a68-a1-m1-cH_3a68-a1-m1-cX Crystal structure of plant ferritin reveals a novel metal binding site that functions as a transit site for metal transfer in ferritin Q948P5 Q948P5 1.8 X-RAY DIFFRACTION 72 1.0 3847 (Glycine max) 3847 (Glycine max) 193 194 3a68-a1-m1-cA_3a68-a1-m1-cX 3a68-a1-m1-cB_3a68-a1-m1-cV 3a68-a1-m1-cC_3a68-a1-m1-cR 3a68-a1-m1-cD_3a68-a1-m1-cI 3a68-a1-m1-cD_3a68-a1-m1-cW 3a68-a1-m1-cE_3a68-a1-m1-cB 3a68-a1-m1-cE_3a68-a1-m1-cV 3a68-a1-m1-cF_3a68-a1-m1-cG 3a68-a1-m1-cF_3a68-a1-m1-cO 3a68-a1-m1-cG_3a68-a1-m1-cO 3a68-a1-m1-cH_3a68-a1-m1-cA 3a68-a1-m1-cI_3a68-a1-m1-cW 3a68-a1-m1-cJ_3a68-a1-m1-cN 3a68-a1-m1-cJ_3a68-a1-m1-cQ 3a68-a1-m1-cK_3a68-a1-m1-cP 3a68-a1-m1-cK_3a68-a1-m1-cU 3a68-a1-m1-cL_3a68-a1-m1-cM 3a68-a1-m1-cL_3a68-a1-m1-cT 3a68-a1-m1-cM_3a68-a1-m1-cT 3a68-a1-m1-cN_3a68-a1-m1-cQ 3a68-a1-m1-cP_3a68-a1-m1-cU 3a68-a1-m1-cS_3a68-a1-m1-cC 3a68-a1-m1-cS_3a68-a1-m1-cR 3a9q-a1-m1-cA_3a9q-a1-m1-cX 3a9q-a1-m1-cC_3a9q-a1-m1-cR 3a9q-a1-m1-cD_3a9q-a1-m1-cW 3a9q-a1-m1-cE_3a9q-a1-m1-cB 3a9q-a1-m1-cE_3a9q-a1-m1-cV 3a9q-a1-m1-cG_3a9q-a1-m1-cF 3a9q-a1-m1-cG_3a9q-a1-m1-cO 3a9q-a1-m1-cH_3a9q-a1-m1-cA 3a9q-a1-m1-cH_3a9q-a1-m1-cX 3a9q-a1-m1-cI_3a9q-a1-m1-cD 3a9q-a1-m1-cI_3a9q-a1-m1-cW 3a9q-a1-m1-cK_3a9q-a1-m1-cP 3a9q-a1-m1-cK_3a9q-a1-m1-cU 3a9q-a1-m1-cL_3a9q-a1-m1-cM 3a9q-a1-m1-cL_3a9q-a1-m1-cT 3a9q-a1-m1-cM_3a9q-a1-m1-cT 3a9q-a1-m1-cN_3a9q-a1-m1-cJ 3a9q-a1-m1-cN_3a9q-a1-m1-cQ 3a9q-a1-m1-cO_3a9q-a1-m1-cF 3a9q-a1-m1-cP_3a9q-a1-m1-cU 3a9q-a1-m1-cQ_3a9q-a1-m1-cJ 3a9q-a1-m1-cS_3a9q-a1-m1-cC 3a9q-a1-m1-cS_3a9q-a1-m1-cR 3a9q-a1-m1-cV_3a9q-a1-m1-cB FEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKRISEYVAQLRRVGKGHGVWHFDQMLLHE IFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKRISEYVAQLRRVGKGHGVWHFDQMLLHE 3a68-a1-m1-cJ_3a68-a1-m1-cX Crystal structure of plant ferritin reveals a novel metal binding site that functions as a transit site for metal transfer in ferritin Q948P5 Q948P5 1.8 X-RAY DIFFRACTION 99 1.0 3847 (Glycine max) 3847 (Glycine max) 194 194 3a68-a1-m1-cA_3a68-a1-m1-cG 3a68-a1-m1-cB_3a68-a1-m1-cF 3a68-a1-m1-cE_3a68-a1-m1-cI 3a68-a1-m1-cH_3a68-a1-m1-cD 3a68-a1-m1-cK_3a68-a1-m1-cW 3a68-a1-m1-cL_3a68-a1-m1-cV 3a68-a1-m1-cM_3a68-a1-m1-cS 3a68-a1-m1-cN_3a68-a1-m1-cR 3a68-a1-m1-cO_3a68-a1-m1-cC 3a68-a1-m1-cP_3a68-a1-m1-cT 3a68-a1-m1-cQ_3a68-a1-m1-cU 3a9q-a1-m1-cB_3a9q-a1-m1-cF 3a9q-a1-m1-cE_3a9q-a1-m1-cI 3a9q-a1-m1-cG_3a9q-a1-m1-cA 3a9q-a1-m1-cH_3a9q-a1-m1-cD 3a9q-a1-m1-cJ_3a9q-a1-m1-cX 3a9q-a1-m1-cK_3a9q-a1-m1-cW 3a9q-a1-m1-cL_3a9q-a1-m1-cV 3a9q-a1-m1-cM_3a9q-a1-m1-cS 3a9q-a1-m1-cN_3a9q-a1-m1-cR 3a9q-a1-m1-cO_3a9q-a1-m1-cC 3a9q-a1-m1-cP_3a9q-a1-m1-cT 3a9q-a1-m1-cQ_3a9q-a1-m1-cU IFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKRISEYVAQLRRVGKGHGVWHFDQMLLHE IFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKRISEYVAQLRRVGKGHGVWHFDQMLLHE 3a68-a1-m1-cQ_3a68-a1-m1-cX Crystal structure of plant ferritin reveals a novel metal binding site that functions as a transit site for metal transfer in ferritin Q948P5 Q948P5 1.8 X-RAY DIFFRACTION 32 1.0 3847 (Glycine max) 3847 (Glycine max) 194 194 3a68-a1-m1-cA_3a68-a1-m1-cJ 3a68-a1-m1-cA_3a68-a1-m1-cO 3a68-a1-m1-cB_3a68-a1-m1-cG 3a68-a1-m1-cB_3a68-a1-m1-cI 3a68-a1-m1-cD_3a68-a1-m1-cK 3a68-a1-m1-cD_3a68-a1-m1-cX 3a68-a1-m1-cE_3a68-a1-m1-cL 3a68-a1-m1-cE_3a68-a1-m1-cW 3a68-a1-m1-cF_3a68-a1-m1-cC 3a68-a1-m1-cF_3a68-a1-m1-cV 3a68-a1-m1-cH_3a68-a1-m1-cG 3a68-a1-m1-cH_3a68-a1-m1-cI 3a68-a1-m1-cJ_3a68-a1-m1-cR 3a68-a1-m1-cK_3a68-a1-m1-cQ 3a68-a1-m1-cL_3a68-a1-m1-cP 3a68-a1-m1-cM_3a68-a1-m1-cC 3a68-a1-m1-cM_3a68-a1-m1-cV 3a68-a1-m1-cN_3a68-a1-m1-cS 3a68-a1-m1-cN_3a68-a1-m1-cU 3a68-a1-m1-cO_3a68-a1-m1-cR 3a68-a1-m1-cP_3a68-a1-m1-cW 3a68-a1-m1-cS_3a68-a1-m1-cT 3a68-a1-m1-cT_3a68-a1-m1-cU 3a9q-a1-m1-cA_3a9q-a1-m1-cJ 3a9q-a1-m1-cC_3a9q-a1-m1-cF 3a9q-a1-m1-cD_3a9q-a1-m1-cX 3a9q-a1-m1-cE_3a9q-a1-m1-cL 3a9q-a1-m1-cE_3a9q-a1-m1-cW 3a9q-a1-m1-cG_3a9q-a1-m1-cB 3a9q-a1-m1-cG_3a9q-a1-m1-cH 3a9q-a1-m1-cH_3a9q-a1-m1-cI 3a9q-a1-m1-cI_3a9q-a1-m1-cB 3a9q-a1-m1-cJ_3a9q-a1-m1-cR 3a9q-a1-m1-cK_3a9q-a1-m1-cD 3a9q-a1-m1-cK_3a9q-a1-m1-cQ 3a9q-a1-m1-cL_3a9q-a1-m1-cP 3a9q-a1-m1-cM_3a9q-a1-m1-cC 3a9q-a1-m1-cM_3a9q-a1-m1-cV 3a9q-a1-m1-cN_3a9q-a1-m1-cS 3a9q-a1-m1-cN_3a9q-a1-m1-cU 3a9q-a1-m1-cO_3a9q-a1-m1-cA 3a9q-a1-m1-cO_3a9q-a1-m1-cR 3a9q-a1-m1-cP_3a9q-a1-m1-cW 3a9q-a1-m1-cQ_3a9q-a1-m1-cX 3a9q-a1-m1-cS_3a9q-a1-m1-cT 3a9q-a1-m1-cU_3a9q-a1-m1-cT 3a9q-a1-m1-cV_3a9q-a1-m1-cF IFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKRISEYVAQLRRVGKGHGVWHFDQMLLHE IFEPFEEVKKELDLVPTVPQASLARQKYVDESESAVNEQINVEYNVSYVYHAMFAYFDRDNVALRGLAKFFKESSEEEREHAEKLMEYQNKRGGKVKLQSIVMPLSDFDHADKGDALHAMELALSLEKLTNEKLLNLHSVATKNGDVQLADFVETEYLGEQVEAIKRISEYVAQLRRVGKGHGVWHFDQMLLHE 3a69-a1-m3-cA_3a69-a1-m9-cA Atomic model of the bacterial flagellar hook based on docking an X-ray derived structure and terminal two alpha-helices into an 7.1 angstrom resolution cryoEM map P0A1J1 P0A1J1 7.1 ELECTRON MICROSCOPY 66 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 347 347 3a69-a1-m10-cA_3a69-a1-m4-cA 3a69-a1-m11-cA_3a69-a1-m5-cA 3a69-a1-m2-cA_3a69-a1-m8-cA SFSQAVSGLNAAATNLDVIGNNIAGLDVAISQNGFFRLVDSNGSVFYSRNGQFKLDENRNLVNMQGMQLTGYPATGTPPTIQQGANPAPITIPNTLMAAKSTTTASMQINLNSTDPVPSKTPFSVSDADSYNKKGTVTVYDSQGNAHDMNVYFVKTKDNEWAVYTHDSSDPAATAPTTASTTLKFNENGILESGGTVNITTGTINGATAATFSLSFLNSMQQNTGANNIVATNQNGYKPGDLVSYQINNDGTVVGNYSNEQEQVLGQIVLANFANNEGLASQGDNVWAATQASGVALLGTAGSGNFGKLTNLSKELVNMIVAQRNYQSNAQTIKTQDQILNTLVNLR SFSQAVSGLNAAATNLDVIGNNIAGLDVAISQNGFFRLVDSNGSVFYSRNGQFKLDENRNLVNMQGMQLTGYPATGTPPTIQQGANPAPITIPNTLMAAKSTTTASMQINLNSTDPVPSKTPFSVSDADSYNKKGTVTVYDSQGNAHDMNVYFVKTKDNEWAVYTHDSSDPAATAPTTASTTLKFNENGILESGGTVNITTGTINGATAATFSLSFLNSMQQNTGANNIVATNQNGYKPGDLVSYQINNDGTVVGNYSNEQEQVLGQIVLANFANNEGLASQGDNVWAATQASGVALLGTAGSGNFGKLTNLSKELVNMIVAQRNYQSNAQTIKTQDQILNTLVNLR 3a69-a1-m4-cA_3a69-a1-m9-cA Atomic model of the bacterial flagellar hook based on docking an X-ray derived structure and terminal two alpha-helices into an 7.1 angstrom resolution cryoEM map P0A1J1 P0A1J1 7.1 ELECTRON MICROSCOPY 43 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 347 347 3a69-a1-m10-cA_3a69-a1-m5-cA 3a69-a1-m1-cA_3a69-a1-m11-cA 3a69-a1-m2-cA_3a69-a1-m7-cA 3a69-a1-m3-cA_3a69-a1-m8-cA SFSQAVSGLNAAATNLDVIGNNIAGLDVAISQNGFFRLVDSNGSVFYSRNGQFKLDENRNLVNMQGMQLTGYPATGTPPTIQQGANPAPITIPNTLMAAKSTTTASMQINLNSTDPVPSKTPFSVSDADSYNKKGTVTVYDSQGNAHDMNVYFVKTKDNEWAVYTHDSSDPAATAPTTASTTLKFNENGILESGGTVNITTGTINGATAATFSLSFLNSMQQNTGANNIVATNQNGYKPGDLVSYQINNDGTVVGNYSNEQEQVLGQIVLANFANNEGLASQGDNVWAATQASGVALLGTAGSGNFGKLTNLSKELVNMIVAQRNYQSNAQTIKTQDQILNTLVNLR SFSQAVSGLNAAATNLDVIGNNIAGLDVAISQNGFFRLVDSNGSVFYSRNGQFKLDENRNLVNMQGMQLTGYPATGTPPTIQQGANPAPITIPNTLMAAKSTTTASMQINLNSTDPVPSKTPFSVSDADSYNKKGTVTVYDSQGNAHDMNVYFVKTKDNEWAVYTHDSSDPAATAPTTASTTLKFNENGILESGGTVNITTGTINGATAATFSLSFLNSMQQNTGANNIVATNQNGYKPGDLVSYQINNDGTVVGNYSNEQEQVLGQIVLANFANNEGLASQGDNVWAATQASGVALLGTAGSGNFGKLTNLSKELVNMIVAQRNYQSNAQTIKTQDQILNTLVNLR 3a6e-a1-m1-cE_3a6e-a1-m1-cF W174F mutant creatininase, type I P83772 P83772 2 X-RAY DIFFRACTION 90 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 257 257 1j2t-a1-m1-cA_1j2t-a1-m1-cB 1j2t-a1-m1-cC_1j2t-a1-m1-cD 1j2t-a1-m1-cE_1j2t-a1-m1-cF 1j2u-a1-m1-cA_1j2u-a1-m1-cB 1j2u-a1-m1-cC_1j2u-a1-m1-cD 1j2u-a1-m1-cE_1j2u-a1-m1-cF 1q3k-a1-m1-cA_1q3k-a1-m1-cF 1q3k-a1-m1-cB_1q3k-a1-m1-cC 1q3k-a1-m1-cD_1q3k-a1-m1-cE 1v7z-a1-m1-cA_1v7z-a1-m1-cB 1v7z-a1-m1-cC_1v7z-a1-m1-cD 1v7z-a1-m1-cE_1v7z-a1-m1-cF 3a6d-a1-m1-cB_3a6d-a1-m1-cA 3a6d-a1-m1-cC_3a6d-a1-m1-cD 3a6d-a1-m1-cE_3a6d-a1-m1-cF 3a6e-a1-m1-cA_3a6e-a1-m1-cB 3a6e-a1-m1-cC_3a6e-a1-m1-cD 3a6f-a1-m1-cB_3a6f-a1-m1-cA 3a6f-a1-m1-cC_3a6f-a1-m1-cD 3a6f-a1-m1-cF_3a6f-a1-m1-cE 3a6g-a1-m1-cB_3a6g-a1-m1-cA 3a6g-a1-m1-cC_3a6g-a1-m1-cD 3a6g-a1-m1-cE_3a6g-a1-m1-cF 3a6h-a1-m1-cB_3a6h-a1-m1-cA 3a6h-a1-m1-cC_3a6h-a1-m1-cD 3a6h-a1-m1-cE_3a6h-a1-m1-cF 3a6j-a1-m1-cB_3a6j-a1-m1-cA 3a6j-a1-m1-cC_3a6j-a1-m1-cD 3a6j-a1-m1-cE_3a6j-a1-m1-cF 3a6k-a1-m1-cB_3a6k-a1-m1-cA 3a6k-a1-m1-cC_3a6k-a1-m1-cD 3a6k-a1-m1-cF_3a6k-a1-m1-cE 3a6l-a1-m1-cA_3a6l-a1-m1-cB 3a6l-a1-m1-cD_3a6l-a1-m1-cC 3a6l-a1-m1-cE_3a6l-a1-m1-cF KSVFVGELTWKEYEARVAAGDCVLMLPVGALEQHGHHMCMNVDVLLPTAVCKRVAERIGALVMPGLQYGYKSQQKSGGGNHFPGTTSLDGATLTGTVQDIIRELARHGARRLVLMNGHYENSMFIVEGIDLALRELRYAGIQDFKVVVLSYWDFVKDPAVIQQLYPEGFLGFDIEHGGVFETSLMLALYPDLVDLDRVVDHPPATFPPYDVFPVDPARTPAPGTLSSAKTASREKGELILEVCVQGIADAIREEFPP KSVFVGELTWKEYEARVAAGDCVLMLPVGALEQHGHHMCMNVDVLLPTAVCKRVAERIGALVMPGLQYGYKSQQKSGGGNHFPGTTSLDGATLTGTVQDIIRELARHGARRLVLMNGHYENSMFIVEGIDLALRELRYAGIQDFKVVVLSYWDFVKDPAVIQQLYPEGFLGFDIEHGGVFETSLMLALYPDLVDLDRVVDHPPATFPPYDVFPVDPARTPAPGTLSSAKTASREKGELILEVCVQGIADAIREEFPP 3a6l-a1-m1-cA_3a6l-a1-m1-cF E122Q mutant creatininase, Zn-Zn type P83772 P83772 2 X-RAY DIFFRACTION 144 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 257 257 1j2t-a1-m1-cA_1j2t-a1-m1-cF 1j2t-a1-m1-cB_1j2t-a1-m1-cC 1j2t-a1-m1-cD_1j2t-a1-m1-cE 1j2u-a1-m1-cA_1j2u-a1-m1-cF 1j2u-a1-m1-cB_1j2u-a1-m1-cC 1j2u-a1-m1-cD_1j2u-a1-m1-cE 1q3k-a1-m1-cA_1q3k-a1-m1-cB 1q3k-a1-m1-cC_1q3k-a1-m1-cD 1q3k-a1-m1-cE_1q3k-a1-m1-cF 1v7z-a1-m1-cA_1v7z-a1-m1-cF 1v7z-a1-m1-cB_1v7z-a1-m1-cC 1v7z-a1-m1-cD_1v7z-a1-m1-cE 3a6d-a1-m1-cA_3a6d-a1-m1-cF 3a6d-a1-m1-cB_3a6d-a1-m1-cC 3a6d-a1-m1-cD_3a6d-a1-m1-cE 3a6e-a1-m1-cA_3a6e-a1-m1-cF 3a6e-a1-m1-cB_3a6e-a1-m1-cC 3a6e-a1-m1-cD_3a6e-a1-m1-cE 3a6f-a1-m1-cB_3a6f-a1-m1-cC 3a6f-a1-m1-cD_3a6f-a1-m1-cE 3a6f-a1-m1-cF_3a6f-a1-m1-cA 3a6g-a1-m1-cA_3a6g-a1-m1-cF 3a6g-a1-m1-cB_3a6g-a1-m1-cC 3a6g-a1-m1-cD_3a6g-a1-m1-cE 3a6h-a1-m1-cA_3a6h-a1-m1-cF 3a6h-a1-m1-cB_3a6h-a1-m1-cC 3a6h-a1-m1-cE_3a6h-a1-m1-cD 3a6j-a1-m1-cB_3a6j-a1-m1-cC 3a6j-a1-m1-cE_3a6j-a1-m1-cD 3a6j-a1-m1-cF_3a6j-a1-m1-cA 3a6k-a1-m1-cC_3a6k-a1-m1-cB 3a6k-a1-m1-cD_3a6k-a1-m1-cE 3a6k-a1-m1-cF_3a6k-a1-m1-cA 3a6l-a1-m1-cB_3a6l-a1-m1-cC 3a6l-a1-m1-cD_3a6l-a1-m1-cE KSVFVGELTWKEYEARVAAGDCVLMLPVGALEQHGHHMCMNVDVLLPTAVCKRVAERIGALVMPGLQYGYKSQQKSGGGNHFPGTTSLDGATLTGTVQDIIRELARHGARRLVLMNGHYQNSMFIVEGIDLALRELRYAGIQDFKVVVLSYWDFVKDPAVIQQLYPEGFLGWDIEHGGVFETSLMLALYPDLVDLDRVVDHPPATFPPYDVFPVDPARTPAPGTLSSAKTASREKGELILEVCVQGIADAIREEFPP KSVFVGELTWKEYEARVAAGDCVLMLPVGALEQHGHHMCMNVDVLLPTAVCKRVAERIGALVMPGLQYGYKSQQKSGGGNHFPGTTSLDGATLTGTVQDIIRELARHGARRLVLMNGHYQNSMFIVEGIDLALRELRYAGIQDFKVVVLSYWDFVKDPAVIQQLYPEGFLGWDIEHGGVFETSLMLALYPDLVDLDRVVDHPPATFPPYDVFPVDPARTPAPGTLSSAKTASREKGELILEVCVQGIADAIREEFPP 3a6m-a1-m1-cB_3a6m-a1-m1-cA Crystal structure of GrpE from Thermus thermophilus HB8 Q56236 Q56236 3.23 X-RAY DIFFRACTION 176 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 164 168 ENTLEKDLEAVGQEAQALEERLKAAEEELKGLKDKYLRLLADFDNYRKRMEEELKAREREGVLKALRALLPVLDDLDRALEFAEASPESIRQGVRAIRDGFFRILAGLGVEEVPGEGEAFDPRYHEAVGLLPGEPGKVAKVFQRGFRMGEALVRPARVAVGEEK RNHENTLEKDLEAVGQEAQALEERLKAAEEELKGLKDKYLRLLADFDNYRKRMEEELKAREREGVLKALRALLPVLDDLDRALEFAEASPESIRQGVRAIRDGFFRILAGLGVEEVPGEGEAFDPRYHEAVGLLPGEPGKVAKVFQRGFRMGEALVRPARVAVGEEKR 3a6r-a2-m1-cC_3a6r-a2-m1-cD E13Q mutant of FMN-binding protein from Desulfovibrio vulgaris (Miyazaki F) Q46604 Q46604 1.2 X-RAY DIFFRACTION 86 1.0 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 122 122 1flm-a1-m1-cA_1flm-a1-m1-cB 1wli-a1-m1-cA_1wli-a1-m1-cB 1wlk-a1-m1-cA_1wlk-a1-m1-cB 1wlk-a2-m1-cC_1wlk-a2-m1-cD 2e83-a1-m1-cA_2e83-a1-m1-cB 3a20-a1-m1-cA_3a20-a1-m1-cB 3a6q-a1-m1-cA_3a6q-a1-m1-cB 3a6r-a1-m1-cA_3a6r-a1-m1-cB 3amf-a1-m1-cA_3amf-a1-m1-cB 3awh-a1-m1-cA_3awh-a1-m1-cB 3vy2-a1-m1-cA_3vy2-a1-m1-cB 3vy5-a1-m1-cA_3vy5-a1-m1-cB 3vya-a1-m1-cA_3vya-a1-m2-cA MLPGTFFEVLKNQGVVAIATQGEDGPHLVNTWNSYLKVLDGNRIVVPVGGMHKTEANVARDERVLMTLGSRKVAGRNGPGTGFLIRGSAAFRTDGPEFEAIARFKWARAALVITVVSAEQTL MLPGTFFEVLKNQGVVAIATQGEDGPHLVNTWNSYLKVLDGNRIVVPVGGMHKTEANVARDERVLMTLGSRKVAGRNGPGTGFLIRGSAAFRTDGPEFEAIARFKWARAALVITVVSAEQTL 3a6s-a3-m1-cB_3a6s-a3-m1-cA Crystal structure of the MutT protein P08337 P08337 1.8 X-RAY DIFFRACTION 62 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 121 125 3a6v-a3-m1-cB_3a6v-a3-m1-cA MKKLQIAVGIIRNENNEIFITRNKLEFPGGKIEMGETPEQAVVRELQEEVGITPQHFSLFEKLEYEFPDRHITLWFWLVERWEGEPWGKEGQPGEWMSLVGLNADDFPPANEPVIAKLKRL MKKLQIAVGIIRNENNEIFITRRAMANKLEFPGGKIEMGETPEQAVVRELQEEVGITPQHFSLFEKLEYEFPDRHITLWFWLVERWEGEPWGKEGQPGEWMSLVGLNADDFPPANEPVIAKLKRL 3a70-a1-m1-cA_3a70-a1-m1-cC Crystal structure of Pseudomonas sp. MIS38 lipase in complex with diethyl phosphate Q9RBY1 Q9RBY1 2.15 X-RAY DIFFRACTION 60 1.0 91465 (Pseudomonas sp. MIS38) 91465 (Pseudomonas sp. MIS38) 608 616 2zvd-a1-m1-cA_2zvd-a1-m1-cC 3a6z-a1-m1-cA_3a6z-a1-m1-cC GVYDYKNFGTADSKALFSDAMAITLYSYHNLDNGFAAGYQHNGFGLGLPATLVTALLGGTDSQGVIPGIPWNPDSEKLALDAVKKAGWTPITASQLGYDGKTDARGTFFGEKAGYTTAQVEILGKYDAQGHLTEIGIAFRGTSGPRENLILDSIGDVINDLLAAFGPKDYAKNYVGEAFGNLLNDVVAFAKANGLSGKDVLVSGHSLGGLAVNSMADLSGGKWGGFFADSNYIAYASPTQSSTDKVLNVGYENDPVFRALDGSTFTGASVGVHDAPKESATDNIVSFNDHYASTAWNLLPFSILNIPTWISHLPTAYGDGMNRIIESKFYDLTSKDSTIIVANLSDPARANTWVQDLNRNAETHKGSTFIIGSDSNDLIQGGSGNDYLEGRAGNDTFRDGGGYNVILGGAGNNTLDLQKSVNTFDFANDGAGNLYVRDANGGISITRDIGSIVTKEPDDVTHSVTASGLKVGSNVTQYDASVKGTNGADTLKAHAGGDWLFGLDGNDHLIGGVGNDVFVGGAGNDLMESGGGADTFLFNGAFGQDRVVGFTSNDKLVFLGVQGVLPNDDFRAHASMVGQDTVLKFGGDSVTLVGVALNSLSADGIVIA GVYDYKNFGTADSKALFSDAMAITLYSYHNLDNGFAAGYQHNGFGLGLPATLVTALLGGTDSQGVIPGIPWNPDSEKLALDAVKKAGWTPITASQLGYDGKTDARGTFFGEKAGYTTAQVEILGKYDAQGHLTEIGIAFRGTSGPRENLILDSIGDVINDLLAAFGPKDYAKNYVGEAFGNLLNDVVAFAKANGLSGKDVLVSGHSLGGLAVNSMADLSGGKWGGFFADSNYIAYASPTQSSTDKVLNVGYENDPVFRALDGSTFTGASVGVHDAPKESATDNIVSFNDHYASTAWNLLPFSILNIPTWISHLPTAYGDGMNRIIESKFYDLTSKDSTIIVANLSDPARANTWVQDLNRNAETHKGSTFIIGSDSNDLIQGGSGNDYLEGRAGNDTFRDGGGYNVILGGAGNNTLDLQKSVNTFDFANDGAGNLYVRDANGGISITRDIGSIVTKEPGFLWGLFKDDVTHSVTASGLKVGSNVTQYDASVKGTNGADTLKAHAGGDWLFGLDGNDHLIGGVGNDVFVGGAGNDLMESGGGADTFLFNGAFGQDRVVGFTSNDKLVFLGVQGVLPNDDFRAHASMVGQDTVLKFGGDSVTLVGVALNSLSADGIVIA 3a74-a2-m1-cC_3a74-a2-m1-cD Lysyl-tRNA synthetase from Bacillus stearothermophilus complexed with Diadenosine Tetraphosphate (AP4A) Q9RHV9 Q9RHV9 1.8 X-RAY DIFFRACTION 271 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 484 484 3a74-a1-m1-cA_3a74-a1-m1-cB 3e9h-a1-m1-cA_3e9h-a1-m1-cB 3e9h-a2-m1-cC_3e9h-a2-m1-cD 3e9i-a1-m1-cA_3e9i-a1-m1-cB 3e9i-a2-m1-cC_3e9i-a2-m1-cD ELNDQLRVRREKLKKIEELGVDPFGKRFERTHKAEELFELYGDLSKEELEEQQIEVAVAGRIMTKRGMGKAGFAHIQDVTGQIQIYVRQDDVGEQQYELFKISDLGDIVGVRGTMFKTKVGELSIKVSSYEFLTKALRPLPEKDIEQRYRQRYLDLIMNPESKKTFITRSLIIQSMRRYLDSHGYLEVETPMMHAVAGGAAARPFITHHNALDMTLYMRIAIELHLKRLIVGGLEKVYEIGRVFRNEGISTRHNPEFTMLELYEAYADFRDIMKLTENLIAHIATEVLGTTKIQYGEHLVDLTPEWRRLHMVDAIKEYVGVDFWRQMSDEEARELAKEHGVEVAPHMTFGHIVNEFFEQKVEDKLIQPTFIYGHPVEISPLAKKNPDDPRFTDRFELFIVGREHANAFTELNDPIDQRQRFEEQLKEREQGNDEAHEMDEDFLEALEYGMPPTGGLGIGVDRLVMLLTNSPSIRDVLLFPQMRH ELNDQLRVRREKLKKIEELGVDPFGKRFERTHKAEELFELYGDLSKEELEEQQIEVAVAGRIMTKRGMGKAGFAHIQDVTGQIQIYVRQDDVGEQQYELFKISDLGDIVGVRGTMFKTKVGELSIKVSSYEFLTKALRPLPEKDIEQRYRQRYLDLIMNPESKKTFITRSLIIQSMRRYLDSHGYLEVETPMMHAVAGGAAARPFITHHNALDMTLYMRIAIELHLKRLIVGGLEKVYEIGRVFRNEGISTRHNPEFTMLELYEAYADFRDIMKLTENLIAHIATEVLGTTKIQYGEHLVDLTPEWRRLHMVDAIKEYVGVDFWRQMSDEEARELAKEHGVEVAPHMTFGHIVNEFFEQKVEDKLIQPTFIYGHPVEISPLAKKNPDDPRFTDRFELFIVGREHANAFTELNDPIDQRQRFEEQLKEREQGNDEAHEMDEDFLEALEYGMPPTGGLGIGVDRLVMLLTNSPSIRDVLLFPQMRH 3a7g-a3-m1-cA_3a7g-a3-m2-cB Human MST3 kinase Q9Y6E0 Q9Y6E0 2 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 290 3a7h-a3-m1-cA_3a7h-a3-m2-cB 4qo9-a3-m1-cA_4qo9-a3-m2-cB GLPGMQNLKADPEELFTKLEKIGKGSFGEVFKGIDNRTQKVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYVTKYYGSYLKDTKLWIIMEYLGGGSALDLLEPGPLDETQIATILREILKGLDYLHSEKKIHRDIKAANVLLSEHGEVKLADFGVAGQLTDTQIKRNFVGTPFWMAPEVIKQSAYDSKADIWSLGITAIELARGEPPHSELHPMKVLFLIPKNNPPTLEGNYSKPLKEFVEACLNKEPSFRPTAKELLKHKFILRNAKKTSYLTELIDRYKRWKAEQ SGLPGMQNLKADPEELFTKLEKIGKGSFGEVFKGIDNRTQKVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSPYVTKYYGSYLKDTKLWIIMEYLGGGSALDLLEPGPLDETQIATILREILKGLDYLHSEKKIHRDIKAANVLLSEHGEVKLADFGVAGQLTDTQIKRNFVGTPFWMAPEVIKQSAYDSKADIWSLGITAIELARGEPPHSELHPMKVLFLIPKNNPPTLEGNYSKPLKEFVEACLNKEPSFRPTAKELLKHKFILRNAKKTSYLTELIDRYKRWKAEQ 3a7m-a1-m1-cA_3a7m-a1-m1-cB Structure of FliT, the flagellar type III chaperone for FliD P0A1N2 P0A1N2 3.2 X-RAY DIFFRACTION 75 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 112 114 TSTVEFINRWQRIALLSQSLLELAQRGEWDLLLQQEVSYLQSIETVEKQTPPGITRSIQDVAGYIKQTLDNEQLLKGLLQQRLDELSSLIGQSTRQKSLNNAYGRLSGLLVP TSTVEFINRWQRIALLSQSLLELAQRGEWDLLLQQEVSYLQSIETVEKQTPPGITRSIQDVAGYIKQTLDNEQLLKGLLQQRLDELSSLIGQSTRQKSLNNAYGRLSGLLVPDA 3a7o-a3-m1-cF_3a7o-a3-m1-cE The crystal structure of the coiled-coil domain of Saccharomyces cerevisiae Atg16 Q03818 Q03818 2.5 X-RAY DIFFRACTION 81 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 58 60 3a7o-a1-m1-cB_3a7o-a1-m1-cA 3a7o-a2-m1-cC_3a7o-a2-m1-cD 3a7p-a1-m1-cB_3a7p-a1-m1-cA DDALLNTLAILQKELKSKEQEIRRLKEVIALKNKNTERLNDELISGTIENNVLQQKLS HDDALLNTLAILQKELKSKEQEIRRLKEVIALKNKNTERLNDELISGTIENNVLQQKLSD 3a8e-a1-m2-cB_3a8e-a1-m2-cC The structure of AxCesD octamer complexed with cellopentaose P37719 P37719 3 X-RAY DIFFRACTION 16 1.0 28448 (Komagataeibacter xylinus) 28448 (Komagataeibacter xylinus) 158 159 3a8e-a1-m1-cA_3a8e-a1-m2-cA 3a8e-a1-m1-cB_3a8e-a1-m1-cC 3a8e-a1-m1-cD_3a8e-a1-m2-cD 3aj1-a1-m1-cA_3aj1-a1-m1-cH 3aj1-a1-m1-cC_3aj1-a1-m1-cB 3aj1-a1-m1-cD_3aj1-a1-m1-cE 3aj1-a1-m1-cF_3aj1-a1-m1-cG 3aj2-a1-m1-cA_3aj2-a1-m2-cA 3aj2-a1-m1-cB_3aj2-a1-m1-cD 3aj2-a1-m1-cC_3aj2-a1-m2-cC 3aj2-a1-m2-cB_3aj2-a1-m2-cD 7zzq-a1-m1-cA_7zzq-a1-m1-cE 7zzq-a1-m1-cC_7zzq-a1-m1-cG 7zzq-a1-m1-cD_7zzq-a1-m1-cB 7zzq-a1-m1-cH_7zzq-a1-m1-cF 7zzq-a1-m1-cI_7zzq-a1-m1-cM 7zzq-a1-m1-cJ_7zzq-a1-m1-cL 7zzq-a1-m1-cK_7zzq-a1-m1-cO 7zzq-a1-m1-cP_7zzq-a1-m1-cN 7zzy-a1-m1-cA_7zzy-a1-m1-cD 7zzy-a1-m1-cB_7zzy-a1-m1-cG 7zzy-a1-m1-cC_7zzy-a1-m1-cF 7zzy-a1-m1-cE_7zzy-a1-m1-cH FEKKPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVDAEDLNAVPRQTIIMYMRVRSSATHHHHH FEKKPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVDAEDLNAVPRQTIIMYMRVRSSATHHHHHH 3a8r-a1-m1-cA_3a8r-a1-m1-cB The structure of the N-terminal regulatory domain of a plant NADPH oxidase Q5ZAJ0 Q5ZAJ0 2.4 X-RAY DIFFRACTION 132 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 166 167 TKSSAAVALKGLQFVTAKVGNDGWAAVEKRFNQLQVDGVLLRSRFGKCIGMDGSDEFAVQMFDSLARKRGIVKQVLTKDELKDFYEQLTDQGFDNRLRTFFDMVDKNADGRLTAEEVKEIIALSASANKLSKIKERADEYTALIMEELDPTNLGYIEMEDLEALLL TKSSAAVALKGLQFVTAKVGNDGWAAVEKRFNQLQVDGVLLRSRFGKCIGMDGSDEFAVQMFDSLARKRGIVKQVLTKDELKDFYEQLTDQGFDNRLRTFFDMVDKNADGRLTAEEVKEIIALSASANKLSKIKERADEYTALIMEELDPTNLGYIEMEDLEALLLQ 3a8u-a1-m2-cX_3a8u-a1-m4-cX Crystal Structure of omega-Amino Acid:Pyruvate Aminotransferase P28269 P28269 1.4 X-RAY DIFFRACTION 46 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 441 441 3a8u-a1-m1-cX_3a8u-a1-m3-cX ASLASQLKLDAHWMPYTANRNFLRDPRLIVAAEGSWLVDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVAKQLSTLDYSPGFQYGHPLSFQLAEKITDLTPGNLNHVFFTDSGSECALTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVNGNRKLFGQPMQDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPLAGSAGVLVPPEGYLKRNREICNQHNILLVFDEVITGFGRTGSMFGADSFGVTPDLMCIAKQVTNGAIPMGAVIASTEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALCLLQKENLVQSVAEVAPHFEKALHGIKGAKNVIDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGEVLNKLL ASLASQLKLDAHWMPYTANRNFLRDPRLIVAAEGSWLVDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVAKQLSTLDYSPGFQYGHPLSFQLAEKITDLTPGNLNHVFFTDSGSECALTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVNGNRKLFGQPMQDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPLAGSAGVLVPPEGYLKRNREICNQHNILLVFDEVITGFGRTGSMFGADSFGVTPDLMCIAKQVTNGAIPMGAVIASTEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALCLLQKENLVQSVAEVAPHFEKALHGIKGAKNVIDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGEVLNKLL 3a8u-a1-m3-cX_3a8u-a1-m4-cX Crystal Structure of omega-Amino Acid:Pyruvate Aminotransferase P28269 P28269 1.4 X-RAY DIFFRACTION 11 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 441 441 3a8u-a1-m1-cX_3a8u-a1-m2-cX ASLASQLKLDAHWMPYTANRNFLRDPRLIVAAEGSWLVDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVAKQLSTLDYSPGFQYGHPLSFQLAEKITDLTPGNLNHVFFTDSGSECALTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVNGNRKLFGQPMQDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPLAGSAGVLVPPEGYLKRNREICNQHNILLVFDEVITGFGRTGSMFGADSFGVTPDLMCIAKQVTNGAIPMGAVIASTEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALCLLQKENLVQSVAEVAPHFEKALHGIKGAKNVIDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGEVLNKLL ASLASQLKLDAHWMPYTANRNFLRDPRLIVAAEGSWLVDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVAKQLSTLDYSPGFQYGHPLSFQLAEKITDLTPGNLNHVFFTDSGSECALTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVNGNRKLFGQPMQDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPLAGSAGVLVPPEGYLKRNREICNQHNILLVFDEVITGFGRTGSMFGADSFGVTPDLMCIAKQVTNGAIPMGAVIASTEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALCLLQKENLVQSVAEVAPHFEKALHGIKGAKNVIDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGEVLNKLL 3a8u-a2-m1-cX_3a8u-a2-m4-cX Crystal Structure of omega-Amino Acid:Pyruvate Aminotransferase P28269 P28269 1.4 X-RAY DIFFRACTION 440 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 441 441 3a8u-a1-m1-cX_3a8u-a1-m4-cX 3a8u-a1-m2-cX_3a8u-a1-m3-cX ASLASQLKLDAHWMPYTANRNFLRDPRLIVAAEGSWLVDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVAKQLSTLDYSPGFQYGHPLSFQLAEKITDLTPGNLNHVFFTDSGSECALTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVNGNRKLFGQPMQDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPLAGSAGVLVPPEGYLKRNREICNQHNILLVFDEVITGFGRTGSMFGADSFGVTPDLMCIAKQVTNGAIPMGAVIASTEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALCLLQKENLVQSVAEVAPHFEKALHGIKGAKNVIDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGEVLNKLL ASLASQLKLDAHWMPYTANRNFLRDPRLIVAAEGSWLVDDKGRKVYDSLSGLWTCGAGHTRKEIQEAVAKQLSTLDYSPGFQYGHPLSFQLAEKITDLTPGNLNHVFFTDSGSECALTAVKMVRAYWRLKGQATKTKMIGRARGYHGVNIAGTSLGGVNGNRKLFGQPMQDVDHLPHTLLASNAYSRGMPKEGGIALADELLKLIELHDASNIAAVFVEPLAGSAGVLVPPEGYLKRNREICNQHNILLVFDEVITGFGRTGSMFGADSFGVTPDLMCIAKQVTNGAIPMGAVIASTEIYQTFMNQPTPEYAVEFPHGYTYSAHPVACAAGLAALCLLQKENLVQSVAEVAPHFEKALHGIKGAKNVIDIRNFGLAGAIQIAPRDGDAIVRPFEAGMALWKAGFYVRFGGDTLQFGPTFNSKPQDLDRLFDAVGEVLNKLL 3a8x-a3-m1-cB_3a8x-a3-m1-cA Crystal Structure of PKCiota kinase domain P41743 P41743 2 X-RAY DIFFRACTION 30 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 329 334 3a8w-a3-m1-cA_3a8w-a3-m1-cB AMDPLGLQDFDLLRVIGRGSYAKVLLVRLKKTDRIYAMKVVKKELVDIDWVQTEKHVFEQASNHPFLVGLHSCFQTESRLFFVIEYVNGGDLMFHMQRQRKLPEEHARFYSAEISLALNYLHERGIIYRDLKLDNVLLDSEGHIKLTDYGMCKEGLRPGDTTSFCGTPNYIAPEILRGEDYGFSVDWWALGVLMFEMMAGRSPFDIVTEDYLFQVILEKQIRIPRSLSVKAASVLKSFLNKDPKERLGCHPQTGFADIQGHPFFRNVDWDMMEQKQVVPPFKPNISGEFGLDNFDSQFTNEPVQLPDDDDIVRKIDQSEFEGFEYINPL MDPLGLQDFDLLRVIGRGSYAKVLLVRLKKTDRIYAMKVVKKELVNDDEDIDWVQTEKHVFEQASNHPFLVGLHSCFQTESRLFFVIEYVNGGDLMFHMQRQRKLPEEHARFYSAEISLALNYLHERGIIYRDLKLDNVLLDSEGHIKLTDYGMCKEGLRPGDTTSFCGTPNYIAPEILRGEDYGFSVDWWALGVLMFEMMAGRSPFDIVGSTEDYLFQVILEKQIRIPRSLSVKAASVLKSFLNKDPKERLGCHPQTGFADIQGHPFFRNVDWDMMEQKQVVPPFKPNISGEFGLDNFDSQFTNEPVQLPDDDDIVRKIDQSEFEGFEYINPL 3a9l-a1-m1-cA_3a9l-a1-m1-cB Structure of Bacteriophage poly-gamma-glutamate hydrolase Q852V1 Q852V1 1.9 X-RAY DIFFRACTION 57 1.0 207656 (Bacillus phage phiNIT1) 207656 (Bacillus phage phiNIT1) 207 207 TDTYPNIEALENAETVGVAYNIEVKRQNPSMIYFSPHAGGIEVGTTELIYRVVELTGGSLYLFQGLLPSGNSRLHVTSTHFDEPMAVCMLSKHTDAVSFHGYKDDYNKNTLVGGLNTELRNLIVSKLNSKGIAAEVATDRFTATDPDNIVNRCASGKGVQLEISSAQRRAFFQNNDWSKANRGNVTQEFLDYAEAIKEAEAEYYGLE TDTYPNIEALENAETVGVAYNIEVKRQNPSMIYFSPHAGGIEVGTTELIYRVVELTGGSLYLFQGLLPSGNSRLHVTSTHFDEPMAVCMLSKHTDAVSFHGYKDDYNKNTLVGGLNTELRNLIVSKLNSKGIAAEVATDRFTATDPDNIVNRCASGKGVQLEISSAQRRAFFQNNDWSKANRGNVTQEFLDYAEAIKEAEAEYYGLE 3a9s-a1-m1-cB_3a9s-a1-m2-cC X-ray Structure of Bacillus pallidus D-Arabinose Isomerase Complex with Glycerol C0SSE7 C0SSE7 1.6 X-RAY DIFFRACTION 73 1.0 33936 (Aeribacillus pallidus) 33936 (Aeribacillus pallidus) 589 589 3a9r-a1-m1-cA_3a9r-a1-m2-cA 3a9r-a1-m1-cB_3a9r-a1-m2-cC 3a9r-a1-m1-cC_3a9r-a1-m2-cB 3a9s-a1-m1-cA_3a9s-a1-m2-cA 3a9s-a1-m1-cC_3a9s-a1-m2-cB 3a9t-a1-m1-cA_3a9t-a1-m2-cA 3a9t-a1-m1-cB_3a9t-a1-m2-cC 3a9t-a1-m1-cC_3a9t-a1-m2-cB AKDPRYVGNLPKIGIRPTIDGRRKGVRESLEETTMNMAKAVAKLLEENVFYYNGQPVECVIADTCIGGVKEAAEAAEKFAREGVGVSITVTPCWCYGTETMDMDPHIPKAVWGFNGTERPGAVYLAAVLAGYNQKGLPAFGIYGKDVQDAGDTNIPEDVKEKLIRFAKAGLAVAMMKGKSYLSIGSVSMGIAGSVVQEDFFQNYLGMRNEYVDMSEFVRRIELGIYDKEEYERALKWVKENCKVGPDNNRDGFKRTEEQKEKDWEISVKMALIARDLMVGNKKLEEMGYGEEALGRNAIVAGFQGQRQWTDYFPNGDFMETILNSSFDWNGKRAPYIFATENDNLNGISMLFGYLLTNTAQIFADVRTYWSPEAVKRVTGYTLEGRAANGIIHLINSGAAALDGTGEQTKDGKPVIKPYYELTDEDIKKCLEATQFRPASTEYFRGGGYSTDFLTKGGMPVTISRLNIVKGLGPVLQIAEGYTVDLPEEVHDVLDKRTDPTWPTTWFVPNLTGEGAFKDVYSVMNNWGANHCSISYGHIGADLITLASILRIPVNMHNVPEEKIFRPDAWSMFGTKDLEGADYRACKKL AKDPRYVGNLPKIGIRPTIDGRRKGVRESLEETTMNMAKAVAKLLEENVFYYNGQPVECVIADTCIGGVKEAAEAAEKFAREGVGVSITVTPCWCYGTETMDMDPHIPKAVWGFNGTERPGAVYLAAVLAGYNQKGLPAFGIYGKDVQDAGDTNIPEDVKEKLIRFAKAGLAVAMMKGKSYLSIGSVSMGIAGSVVQEDFFQNYLGMRNEYVDMSEFVRRIELGIYDKEEYERALKWVKENCKVGPDNNRDGFKRTEEQKEKDWEISVKMALIARDLMVGNKKLEEMGYGEEALGRNAIVAGFQGQRQWTDYFPNGDFMETILNSSFDWNGKRAPYIFATENDNLNGISMLFGYLLTNTAQIFADVRTYWSPEAVKRVTGYTLEGRAANGIIHLINSGAAALDGTGEQTKDGKPVIKPYYELTDEDIKKCLEATQFRPASTEYFRGGGYSTDFLTKGGMPVTISRLNIVKGLGPVLQIAEGYTVDLPEEVHDVLDKRTDPTWPTTWFVPNLTGEGAFKDVYSVMNNWGANHCSISYGHIGADLITLASILRIPVNMHNVPEEKIFRPDAWSMFGTKDLEGADYRACKKL 3a9s-a1-m1-cC_3a9s-a1-m2-cC X-ray Structure of Bacillus pallidus D-Arabinose Isomerase Complex with Glycerol C0SSE7 C0SSE7 1.6 X-RAY DIFFRACTION 90 1.0 33936 (Aeribacillus pallidus) 33936 (Aeribacillus pallidus) 589 589 3a9r-a1-m1-cA_3a9r-a1-m2-cB 3a9r-a1-m1-cB_3a9r-a1-m2-cA 3a9r-a1-m1-cC_3a9r-a1-m2-cC 3a9s-a1-m1-cA_3a9s-a1-m2-cB 3a9s-a1-m1-cB_3a9s-a1-m2-cA 3a9t-a1-m1-cA_3a9t-a1-m2-cB 3a9t-a1-m1-cB_3a9t-a1-m2-cA 3a9t-a1-m1-cC_3a9t-a1-m2-cC AKDPRYVGNLPKIGIRPTIDGRRKGVRESLEETTMNMAKAVAKLLEENVFYYNGQPVECVIADTCIGGVKEAAEAAEKFAREGVGVSITVTPCWCYGTETMDMDPHIPKAVWGFNGTERPGAVYLAAVLAGYNQKGLPAFGIYGKDVQDAGDTNIPEDVKEKLIRFAKAGLAVAMMKGKSYLSIGSVSMGIAGSVVQEDFFQNYLGMRNEYVDMSEFVRRIELGIYDKEEYERALKWVKENCKVGPDNNRDGFKRTEEQKEKDWEISVKMALIARDLMVGNKKLEEMGYGEEALGRNAIVAGFQGQRQWTDYFPNGDFMETILNSSFDWNGKRAPYIFATENDNLNGISMLFGYLLTNTAQIFADVRTYWSPEAVKRVTGYTLEGRAANGIIHLINSGAAALDGTGEQTKDGKPVIKPYYELTDEDIKKCLEATQFRPASTEYFRGGGYSTDFLTKGGMPVTISRLNIVKGLGPVLQIAEGYTVDLPEEVHDVLDKRTDPTWPTTWFVPNLTGEGAFKDVYSVMNNWGANHCSISYGHIGADLITLASILRIPVNMHNVPEEKIFRPDAWSMFGTKDLEGADYRACKKL AKDPRYVGNLPKIGIRPTIDGRRKGVRESLEETTMNMAKAVAKLLEENVFYYNGQPVECVIADTCIGGVKEAAEAAEKFAREGVGVSITVTPCWCYGTETMDMDPHIPKAVWGFNGTERPGAVYLAAVLAGYNQKGLPAFGIYGKDVQDAGDTNIPEDVKEKLIRFAKAGLAVAMMKGKSYLSIGSVSMGIAGSVVQEDFFQNYLGMRNEYVDMSEFVRRIELGIYDKEEYERALKWVKENCKVGPDNNRDGFKRTEEQKEKDWEISVKMALIARDLMVGNKKLEEMGYGEEALGRNAIVAGFQGQRQWTDYFPNGDFMETILNSSFDWNGKRAPYIFATENDNLNGISMLFGYLLTNTAQIFADVRTYWSPEAVKRVTGYTLEGRAANGIIHLINSGAAALDGTGEQTKDGKPVIKPYYELTDEDIKKCLEATQFRPASTEYFRGGGYSTDFLTKGGMPVTISRLNIVKGLGPVLQIAEGYTVDLPEEVHDVLDKRTDPTWPTTWFVPNLTGEGAFKDVYSVMNNWGANHCSISYGHIGADLITLASILRIPVNMHNVPEEKIFRPDAWSMFGTKDLEGADYRACKKL 3a9s-a1-m2-cB_3a9s-a1-m2-cC X-ray Structure of Bacillus pallidus D-Arabinose Isomerase Complex with Glycerol C0SSE7 C0SSE7 1.6 X-RAY DIFFRACTION 147 1.0 33936 (Aeribacillus pallidus) 33936 (Aeribacillus pallidus) 589 589 3a9r-a1-m1-cA_3a9r-a1-m1-cB 3a9r-a1-m1-cA_3a9r-a1-m1-cC 3a9r-a1-m1-cB_3a9r-a1-m1-cC 3a9r-a1-m2-cA_3a9r-a1-m2-cB 3a9r-a1-m2-cA_3a9r-a1-m2-cC 3a9r-a1-m2-cB_3a9r-a1-m2-cC 3a9s-a1-m1-cA_3a9s-a1-m1-cB 3a9s-a1-m1-cA_3a9s-a1-m1-cC 3a9s-a1-m1-cB_3a9s-a1-m1-cC 3a9s-a1-m2-cA_3a9s-a1-m2-cB 3a9s-a1-m2-cA_3a9s-a1-m2-cC 3a9t-a1-m1-cA_3a9t-a1-m1-cB 3a9t-a1-m1-cA_3a9t-a1-m1-cC 3a9t-a1-m1-cB_3a9t-a1-m1-cC 3a9t-a1-m2-cA_3a9t-a1-m2-cB 3a9t-a1-m2-cA_3a9t-a1-m2-cC 3a9t-a1-m2-cB_3a9t-a1-m2-cC AKDPRYVGNLPKIGIRPTIDGRRKGVRESLEETTMNMAKAVAKLLEENVFYYNGQPVECVIADTCIGGVKEAAEAAEKFAREGVGVSITVTPCWCYGTETMDMDPHIPKAVWGFNGTERPGAVYLAAVLAGYNQKGLPAFGIYGKDVQDAGDTNIPEDVKEKLIRFAKAGLAVAMMKGKSYLSIGSVSMGIAGSVVQEDFFQNYLGMRNEYVDMSEFVRRIELGIYDKEEYERALKWVKENCKVGPDNNRDGFKRTEEQKEKDWEISVKMALIARDLMVGNKKLEEMGYGEEALGRNAIVAGFQGQRQWTDYFPNGDFMETILNSSFDWNGKRAPYIFATENDNLNGISMLFGYLLTNTAQIFADVRTYWSPEAVKRVTGYTLEGRAANGIIHLINSGAAALDGTGEQTKDGKPVIKPYYELTDEDIKKCLEATQFRPASTEYFRGGGYSTDFLTKGGMPVTISRLNIVKGLGPVLQIAEGYTVDLPEEVHDVLDKRTDPTWPTTWFVPNLTGEGAFKDVYSVMNNWGANHCSISYGHIGADLITLASILRIPVNMHNVPEEKIFRPDAWSMFGTKDLEGADYRACKKL AKDPRYVGNLPKIGIRPTIDGRRKGVRESLEETTMNMAKAVAKLLEENVFYYNGQPVECVIADTCIGGVKEAAEAAEKFAREGVGVSITVTPCWCYGTETMDMDPHIPKAVWGFNGTERPGAVYLAAVLAGYNQKGLPAFGIYGKDVQDAGDTNIPEDVKEKLIRFAKAGLAVAMMKGKSYLSIGSVSMGIAGSVVQEDFFQNYLGMRNEYVDMSEFVRRIELGIYDKEEYERALKWVKENCKVGPDNNRDGFKRTEEQKEKDWEISVKMALIARDLMVGNKKLEEMGYGEEALGRNAIVAGFQGQRQWTDYFPNGDFMETILNSSFDWNGKRAPYIFATENDNLNGISMLFGYLLTNTAQIFADVRTYWSPEAVKRVTGYTLEGRAANGIIHLINSGAAALDGTGEQTKDGKPVIKPYYELTDEDIKKCLEATQFRPASTEYFRGGGYSTDFLTKGGMPVTISRLNIVKGLGPVLQIAEGYTVDLPEEVHDVLDKRTDPTWPTTWFVPNLTGEGAFKDVYSVMNNWGANHCSISYGHIGADLITLASILRIPVNMHNVPEEKIFRPDAWSMFGTKDLEGADYRACKKL 3a9z-a1-m1-cB_3a9z-a1-m1-cA Crystal structure of ras selenocysteine lyase in complex with selenopropionate Q68FT9 Q68FT9 1.55 X-RAY DIFFRACTION 215 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 399 403 3a9x-a1-m1-cA_3a9x-a1-m1-cB 3a9y-a1-m1-cB_3a9y-a1-m1-cA RKVYMDYNATTPLEPEVIQAVTEAMKEAWGNPSSSYVAGRKAKDIINTARASLAKMIGGKPQDIIFTSGGTESNNLVIHSTVRCFHEQTRPHFITCTVEHDSIRLPLEHLVEDQVAEVTFVPVSKVNGQVEVEDILAAVRPTTCLVTIMLANNETGVIMPISEISRRIKALNQIRAASGLPRVLVHTDAAQALGKRRVDVEDLGVDFLTIVGHKFYGPRIGALYVRGVGKLTPLYPMLFGGGQERNFRPGTENTPMIAGLGKAADLVSENCETYEAHMRDIRDYLEERLEAEFGKRIHLNSRFPGVERLPNTCNFSIQGSQLRGYMVLAQCQTLLASVGASCHSDHEDRPSPVLLSCGIPVDVARNAVRLSVGRSTTRAEVDLIVQDLKQAVNQLEGPV RKVYMDYNATTPLEPEVIQAVTEAMKEAWGNPSSSYVAGRKAKDIINTARASLAKMIGGKPQDIIFTSGGTESNNLVIHSTVRCFHEQQTLQTRPHFITCTVEHDSIRLPLEHLVEDQVAEVTFVPVSKVNGQVEVEDILAAVRPTTCLVTIMLANNETGVIMPISEISRRIKALNQIRAASGLPRVLVHTDAAQALGKRRVDVEDLGVDFLTIVGHKFYGPRIGALYVRGVGKLTPLYPMLFGGGQERNFRPGTENTPMIAGLGKAADLVSENCETYEAHMRDIRDYLEERLEAEFGKRIHLNSRFPGVERLPNTCNFSIQGSQLRGYMVLAQCQTLLASVGASCHSDHEDRPSPVLLSCGIPVDVARNAVRLSVGRSTTRAEVDLIVQDLKQAVNQLEGPV 3ab0-a3-m1-cC_3ab0-a3-m1-cF Crystal structure of complex of the Bacillus anthracis major spore surface protein BclA with ScFv antibody fragment J3QMZ0 J3QMZ0 3.09 X-RAY DIFFRACTION 24 1.0 10090 (Mus musculus) 10090 (Mus musculus) 106 106 SQIVLTQSPAIMSASPGEKVTISCSARSSVSYMYWYQQKSGSSPKPWIYRTSNLASGVPARFSGSGSGTSYSLTISSMEAEDAATYYCQQYHSYPPTFGGGTKLEI SQIVLTQSPAIMSASPGEKVTISCSARSSVSYMYWYQQKSGSSPKPWIYRTSNLASGVPARFSGSGSGTSYSLTISSMEAEDAATYYCQQYHSYPPTFGGGTKLEI 3ab1-a1-m1-cA_3ab1-a1-m1-cB Crystal Structure of Ferredoxin NADP+ Oxidoreductase Q8KCB2 Q8KCB2 2.39 X-RAY DIFFRACTION 101 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 318 336 DMRDLTIIGGGPTGIFAAFQCGMNNISCRIIESMPQLGGQLAALYPEKHIYDVAGFPEVPAIDLVESLWAQAERYNPDVVLNETVTKYTKLDDGTFETRTNTGNVYRSRAVLIAAGLGAFEPRKLPQLGNIDHLTGSSVYYAVKSVEDFKGKRVVIVGGGDSALDWTVGLIKNAASVTLVHRGHEFQGHGKTAHEVERARANGTIDVYLETEVASIEESNGVLTRVHLRSSDGSKWTVEADRLLILIGFKSNLGPLARWDLELYENALVVDSHMKTSVDGLYAAGDIAYYPGKLKIIQTGLSEATMAVRHSLSYIKPG DMRDLTIIGGGPTGIFAAFQCGMNNISCRIIESMPQLGGQLAALYPEKHIYDVAGFPEVPAIDLVESLWAQAERYNPDVVLNETVTKYTKLDDGTFETRTNTGNVYRSRAVLIAAGLGAFEPRKLPQLGNIDHLTGSSVYYAVKSVEDFKGKRVVIVGGGDSALDWTVGLIKNAASVTLVHRGHEFQGHGKTAHEVERARANGTIDVYLETEVASIEESNGVLTRVHLRSSDGSKWTVEADRLLILIGFKSNLGPLARWDLELYENALVVDSHMKTSVDGLYAAGDIAYYPGKLKIIQTGLSEATMAVRHSLSYIKPGEKIRNVFSSVKMAKEKKA 3ab2-a3-m1-cI_3ab2-a3-m1-cK Crystal structure of aspartate kinase from Corynebacterium glutamicum in complex with threonine P26512 P26512 2.59 X-RAY DIFFRACTION 106 0.997 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 377 382 3aaw-a1-m1-cA_3aaw-a1-m1-cC 3ab2-a1-m1-cC_3ab2-a1-m1-cA 3ab2-a2-m1-cE_3ab2-a2-m1-cG 3ab2-a4-m1-cM_3ab2-a4-m1-cO 3ab4-a1-m1-cC_3ab4-a1-m1-cA 3ab4-a2-m1-cG_3ab4-a2-m1-cE 3ab4-a3-m1-cI_3ab4-a3-m1-cK 3ab4-a4-m1-cO_3ab4-a4-m1-cM ALVVQKYGGSSLESAERIRNVAERIVATKKAGNDVVVVCSAMGDTTDELLELAAAVNPVPPAREMDMLLTAGERISNALVAMAIESLGAEAQSFTGSQAGVLPGRVREALDEGKICIVAGFSDTTAVALAAALNADVCEIYSDVDGVYTADPRIVPNAQKLEKLSFEEMLELAAVGSKILVLRSVEYARAFNVPLRVRSSYSNDPGTLIAGSMEDIPVEEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLGG ALVVQKYGGSSLESAERIRNVAERIVATKKAGNDVVVVCSAMGDTTDELLELAAAVNPVPPAREMDMLLTAGERISNALVAMAIESLGAEAQSFTGSQAGVLTVTPGRVREALDEGKICIVAGFRGGSDTTAVALAAALNADVCEIYSDVDGVYTADPRIVPNAQKLEKLSFEEMLELAAVGSKILVLRSVEYARAFNVPLRVRSSYSDPGTLIAGSMEDIPVEEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLGG 3ab2-a4-m1-cP_3ab2-a4-m1-cO Crystal structure of aspartate kinase from Corynebacterium glutamicum in complex with threonine P26512 P26512 2.59 X-RAY DIFFRACTION 192 0.994 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 159 386 2dtj-a1-m1-cB_2dtj-a1-m1-cA 2dtj-a2-m1-cB_2dtj-a2-m1-cA 2dtj-a2-m2-cB_2dtj-a2-m2-cA 3aaw-a1-m1-cB_3aaw-a1-m1-cA 3aaw-a1-m1-cD_3aaw-a1-m1-cC 3ab2-a1-m1-cB_3ab2-a1-m1-cA 3ab2-a1-m1-cD_3ab2-a1-m1-cC 3ab2-a2-m1-cF_3ab2-a2-m1-cE 3ab2-a2-m1-cH_3ab2-a2-m1-cG 3ab2-a3-m1-cJ_3ab2-a3-m1-cI 3ab2-a3-m1-cL_3ab2-a3-m1-cK 3ab2-a4-m1-cN_3ab2-a4-m1-cM 3ab4-a1-m1-cD_3ab4-a1-m1-cC 3ab4-a3-m1-cJ_3ab4-a3-m1-cI MEEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLG ALVVQKYGGSSLESAERIRNVAERIVATKKAGNDVVVVCSAMGDTTDELLELAAAVNPVPPAREMDMLLTAGERISNALVAMAIESLGAEAQSFTGSQAGVLTTPGRVREALDEGKICIVAGFQGRGGSDTTAVALAAALNADVCEIYSDVDGVYTADPRIVPNAQKLEKLSFEEMLELAAVGSKILVLRSVEYARAFNVPLRVRSSYSNDPGTLIAGSMEDIPVEEAVLTGVATDKSEAKVTVLGISDKPGEAAKVFRALADAEINIDMVLQNVSSVEDGTTDITFTCPRSDGRRAMEILKKLQVQGNWTNVLYDDQVGKVSLVGAGMKSHPGVTAEFMEALRDVNVNIELISTSEIRISVLIREDDLDAAARALHEQFQLGGED 3ab8-a1-m1-cB_3ab8-a1-m1-cA Crystal Structure of the Hypothetical Tandem-type Universal Stress Protein TTHA0350 complexed with ATPs. Q5SLE3 Q5SLE3 1.7 X-RAY DIFFRACTION 38 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 260 261 3ab7-a1-m1-cB_3ab7-a1-m1-cA MRILLATDGSPQARGAEALAEWLAYKLSAPLTVLFVVDTRLARIPELPVPVLRTELERALALRGEAVLERVRQSALAAGVAVEAVLEEGVPHEAILRRARAADLLVLGRSGEAHGDGFGGLGSTADRVLRASPVPVLLAPGEPVELEGALLGYDASESAVRALHALAPLARALGLGVRVVSVHEDPARAEAWALEAEAYLRDHGVEASALVLGGDAADHLLRLQGPGDLLALGAPVRRLVFGSTAERVIRNAQGPVLTAR MRILLATDGSPQARGAEALAEWLAYKLSAPLTVLFVVDTRLARIPELLPVPVLRTELERALALRGEAVLERVRQSALAAGVAVEAVLEEGVPHEAILRRARAADLLVLGRSGEAHGDGFGGLGSTADRVLRASPVPVLLAPGEPVELEGALLGYDASESAVRALHALAPLARALGLGVRVVSVHEDPARAEAWALEAEAYLRDHGVEASALVLGGDAADHLLRLQGPGDLLALGAPVRRLVFGSTAERVIRNAQGPVLTAR 3abf-a1-m1-cD_3abf-a1-m1-cC Crystal Structure of a 4-Oxalocrotonate Tautomerase Homologue (TTHB242) Q53WI4 Q53WI4 1.94 X-RAY DIFFRACTION 54 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 62 63 3abf-a1-m1-cB_3abf-a1-m1-cA 3abf-a1-m1-cE_3abf-a1-m1-cF MVVLKVTLLEGRPPEKKRELVRRLTEMASRLLGEPYEEVRVILYEVRRDQWAAGGVLFSDKE MVVLKVTLLEGRPPEKKRELVRRLTEMASRLLGEPYEEVRVILYEVRRDQWAAGGVLFSDKEG 3abf-a1-m1-cE_3abf-a1-m1-cC Crystal Structure of a 4-Oxalocrotonate Tautomerase Homologue (TTHB242) Q53WI4 Q53WI4 1.94 X-RAY DIFFRACTION 42 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 61 63 3abf-a1-m1-cB_3abf-a1-m1-cF 3abf-a1-m1-cC_3abf-a1-m1-cA 3abf-a1-m1-cD_3abf-a1-m1-cB 3abf-a1-m1-cD_3abf-a1-m1-cF 3abf-a1-m1-cE_3abf-a1-m1-cA MVVLKVTLLEGRPPEKKRELVRRLTEMASRLLGEPYEEVRVILYEVRRDQWAAGGVLFSDK MVVLKVTLLEGRPPEKKRELVRRLTEMASRLLGEPYEEVRVILYEVRRDQWAAGGVLFSDKEG 3abh-a1-m1-cA_3abh-a1-m1-cB Crystal structure of the EFC/F-BAR domain of human PACSIN2/Syndapin II (2.0 A) Q9UNF0 Q9UNF0 2 X-RAY DIFFRACTION 221 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 3aco-a1-m1-cA_3aco-a1-m1-cB 3q0k-a1-m1-cA_3q0k-a1-m1-cB 3q0k-a2-m1-cC_3q0k-a2-m1-cD DSFWEVGNYKRTVKRIDDGHRLCSDLNCLHERARIEKAYAQQLTEWARRWRQLVEKGPQYGTVEKAWAFSEAERVSELHLEVKASLNDDFEKIKNWQKEAFHKQGGFKETKEAEDGFRKAQKPWAKKLKEVEAAKKAHHAACKEEKLAISREANSKADPSLNPEQLKKLQDKIEKCKQDVLKTKEKYEKSLKELDQGTPQYENEQVFEQCQQFEEKRLRFFREVLLEVQKHLDLSNVAGYKAIYHDLEQSIRAADAVEDLRWFRANHGPGANWPQFEE DSFWEVGNYKRTVKRIDDGHRLCSDLNCLHERARIEKAYAQQLTEWARRWRQLVEKGPQYGTVEKAWAFSEAERVSELHLEVKASLNDDFEKIKNWQKEAFHKQGGFKETKEAEDGFRKAQKPWAKKLKEVEAAKKAHHAACKEEKLAISREANSKADPSLNPEQLKKLQDKIEKCKQDVLKTKEKYEKSLKELDQGTPQYENEQVFEQCQQFEEKRLRFFREVLLEVQKHLDLSNVAGYKAIYHDLEQSIRAADAVEDLRWFRANHGPGANWPQFEE 3abi-a1-m1-cB_3abi-a1-m1-cA Crystal Structure of L-Lysine Dehydrogenase from Hyperthermophilic Archaeon Pyrococcus horikoshii O59312 O59312 2.44 X-RAY DIFFRACTION 39 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 345 349 HMKVLILGAGNIGRAIAWDLKDEFDVYIGDVNNENLEKVKEFATPLKVDASNFDKLVEVMKEFELVIGALPGFLGFKSIKAAIKSKVDMVDVSFMPENPLELRDEAEKAQVTIVFDAGFAPGLSNILMGRIFQELDLKEGYIYVGGLPKDPKPPLYYKPRDLIEEYTRPARVIRNGKVSKVDPLSEVKKVKIGKFEFEAFISDGLRSMLETINSERLEEWTLRWPGHLEKIKVLRELGFFKPENLDFTLRVIEPLMRYETKDFSIMKVVGKGEEGEMEFFLYDEEDSMFSSMSRVTGFTAAIISRIVAENTCTFGVIPPEILGMREDTFRRIIDELKERGISIEG HMKVLILGAGNIGRAIAWDLKDEFDVYIGDVNNENLEKVKEFATPLKVDASNFDKLVEVMKEFELVIGALPGFLGFKSIKAAIKSKVDMVDVSFMPENPLELRDEAEKAQVTIVFDAGFAPGLSNILMGRIFQELDLKEGYIYVGGLPKDPKPPLYYKITWSPRDLIEEYTRPARVIRNGKVSKVDPLSEVKKVKIGKFEFEAFISDGLRSMLETINSERLEEWTLRWPGHLEKIKVLRELGFFKPENLDFTLRVIEPLMRYETKDFSIMKVVGKGEEGEMEFFLYDEEDSMFSSMSRVTGFTAAIISRIVAENTCTFGVIPPEILGMREDTFRRIIDELKERGISIEG 3abn-a1-m1-cB_3abn-a1-m1-cA Crystal structure of (Pro-Pro-Gly)4-Hyp-Asp-Gly-(Pro-Pro-Gly)4 at 1.02 A 1.02 X-RAY DIFFRACTION 78 1.0 24 26 3a1h-a1-m1-cA_3a1h-a1-m1-cB PGPPGPPGPPGDGPPGPPGPPGPP PPGPPGPPGPPGDGPPGPPGPPGPPG 3abw-a1-m1-cD_3abw-a1-m1-cA Crystal structure of pharaonis halorhodopsin in complex with azide ion 1.9 X-RAY DIFFRACTION 59 1.0 348780 (Natronomonas pharaonis DSM 2160) 348780 (Natronomonas pharaonis DSM 2160) 259 260 3a7k-a1-m1-cA_3a7k-a1-m1-cD 3a7k-a1-m1-cB_3a7k-a1-m1-cA 3a7k-a1-m1-cB_3a7k-a1-m1-cD 3abw-a1-m1-cB_3abw-a1-m1-cA 3abw-a1-m1-cB_3abw-a1-m1-cD 3qbg-a1-m1-cB_3qbg-a1-m1-cA 3qbg-a1-m1-cB_3qbg-a1-m1-cD 3qbg-a1-m1-cD_3qbg-a1-m1-cA 3qbi-a1-m1-cB_3qbi-a1-m1-cA 3qbi-a1-m1-cB_3qbi-a1-m1-cD 3qbi-a1-m1-cD_3qbi-a1-m1-cA 3qbk-a1-m1-cB_3qbk-a1-m1-cA 3qbk-a1-m1-cB_3qbk-a1-m1-cD 3qbk-a1-m1-cD_3qbk-a1-m1-cA 3qbl-a1-m1-cB_3qbl-a1-m1-cA 3qbl-a1-m1-cB_3qbl-a1-m1-cD 3qbl-a1-m1-cD_3qbl-a1-m1-cA 3vvk-a1-m1-cB_3vvk-a1-m1-cA 3vvk-a1-m1-cB_3vvk-a1-m1-cC 3vvk-a1-m1-cC_3vvk-a1-m1-cA 4qry-a1-m1-cB_4qry-a1-m1-cA 4qry-a1-m1-cB_4qry-a1-m1-cC 4qry-a1-m1-cC_4qry-a1-m1-cA 5b0w-a1-m1-cB_5b0w-a1-m1-cA 5b0w-a1-m1-cD_5b0w-a1-m1-cA 5b0w-a1-m1-cD_5b0w-a1-m1-cB 5etz-a1-m1-cB_5etz-a1-m1-cA 5etz-a1-m1-cB_5etz-a1-m1-cD 5etz-a1-m1-cD_5etz-a1-m1-cA EVTQRELFEFVLNDPLLASSLYINIALAGLSILLFVFMTRGLDDPRAKLIAVSTILVPVVSIASYTGLASGLTISVLEMPAGHFAEGSSVMLGGEEVDGVVTMWGRYLTWALSTPMILLALGLLAGSNATKLFTAITFDIAMCVTGLAAALTTSSHLMRWFWYAISCACFIVVLYILLVEWAQDAKAAGTADIFSTLKLLTVVMWLGYPIVWALGVEGVAVLPVGYTSWAYSALDIVAKYIFAFLLLNYLTSNEGVVSG EVTQRELFEFVLNDPLLASSLYINIALAGLSILLFVFMTRGLDDPRAKLIAVSTILVPVVSIASYTGLASGLTISVLEMPAGHFAEGSSVMLGGEEVDGVVTMWGRYLTWALSTPMILLALGLLAGSNATKLFTAITFDIAMCVTGLAAALTTSSHLMRWFWYAISCACFIVVLYILLVEWAQDAKAAGTADIFSTLKLLTVVMWLGYPIVWALGVEGVAVLPVGYTSWAYSALDIVAKYIFAFLLLNYLTSNEGVVSGS 3abz-a1-m1-cB_3abz-a1-m1-cD Crystal structure of Se-Met labeled Beta-glucosidase from Kluyveromyces marxianus D1GCC6 D1GCC6 2.15 X-RAY DIFFRACTION 55 0.996 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 800 823 3abz-a1-m1-cC_3abz-a1-m1-cA 3ac0-a1-m1-cB_3ac0-a1-m1-cD 3ac0-a1-m1-cC_3ac0-a1-m1-cA SKFDVEQLLSELNQDEKISLLSAVDFWHTKKIERLGIPAVRVSDGPNGIRGTKFFDGVPSGCFPNGTGLASTFDRDLLETAGKLAKESIAKNAAVILGPTTNQRGPLGGRGFESFSEDPYLAGATSSVVKGQGEGIAATVKHFVCNDLEDQRFSSNSIVSERALREIYLEPFRLAVKHANPVCITAYNKVNGEHCSQSKKLLIDILRDEWKWDGLSDWFGTYTTAAAIKNGLDIEFPGPTRWRTRALVSHSLNSREQITTEDVDDRVRQVLKIKFVVDNLEKTGIVENGPESTSNNTKETSDLLRKIAADSIVLLKNKNNILPLKKEDNIIVIGPNAKAKTSSGGGSASNSYYVVSPYEGIVNKLGKEVDYTVGAYSHKSIGGLAESSLKPADAENSGLIAKFYSNPVEERSDFHVTKVNRSNVHLFDFKHEKVDYFFVTLTGQYVPQEDGDYIFSLQVYGSGLFYLNDELIIDGTKERTKKLTLKKGQVYNVRVEYGSGPTAGGFQAGVIKAIDDDEEIRNAAELAAKHDKAVLIIGLNGEWETEGYDRENDLPKRTNELVRAVLKANPNTVIVNQSGTPVEFPWLEDANALVQAWYGGNELGNAIADVLYGDVVPNGKLSLSWPFKLQDNPAFLNFKTEFGRVIYGEDIFVGYRYYEKLQRKVAFPFGYGLSYTTFELDISDFKVTDDKIAISVDVKNTGDKFAGSEVVQVYFSALNSKVSRPVKELKGFEKVHLEPGEKKTVNIDLELKDAISYFNEELGKWHVEAGEYLVSVGTSSDDILSVKEFKVEKELYWKGL SKFDVEQLLSELNQDEKISLLSAVDFWHTKKIERLGIPAVRVSDGPNGIRGTKFFDGVPSGCFPNGTGLASTFDRDLLETAGKLAKESIAKNAAVILGPTTNQRGPLGGRGFESFSEDPYLAGATSSVVKGQGEGIAATVKHFVCNDLEDQRFSSNSIVSERALREIYLEPFRLAVKHANPVCITAYNKVNGEHCSQSKKLLIDILRDEWKWDGLSDWFGTYTTAAAIKNGLDIEFPGPTRWRTRALVSHSLNSREQITTEDVDDRVRQVLKIKFVVDNLEKTGIVENGPESTSNNTKETSDLLRKIAADSIVLLKNKNNILPLKKEDNIIVIGPNAKAKTSSGGGSASNSYYVVSPYEGIVNKLGKEVDYTVGAYSHKSIGGLAESSLIDAAKPADAENSGLIAKFYSNPVEEEPFHVTKVNRSNVHLFDFKHEKVDPKNPYFFVTLTGQYVPQEDGDYIFSLQVYGSGLFYLNDELIIDQKHNQERGSFCFGAGTKERTKKLTLKKGQVYNVRVEYGSGPTSGAGGFQAGVIKAIDDDEEIRNAAELAAKHDKAVLIIGLNGEWETEGYDRENDLPKRTNELVRAVLKANPNTVIVNQSGTPVEFPWLEDANALVQAWYGGNELGNAIADVLYGDVVPNGKLSLSWPFKLQDNPAFLNFKTEFGRVIYGEDIFVGYRYYEKLQRKVAFPFGYGLSYTTFELDISDFKVTDDKIAISVDVKNTGDKFAGSEVVQVYFSALNSKVSRPVKELKGFEKVHLEPGEKKTVNIDLELKDAISYFNEELGKWHVEAGEYLVSVGTSSDDILSVKEFKVEKELYWKGL 3abz-a1-m1-cD_3abz-a1-m1-cC Crystal structure of Se-Met labeled Beta-glucosidase from Kluyveromyces marxianus D1GCC6 D1GCC6 2.15 X-RAY DIFFRACTION 57 0.998 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 823 826 3abz-a1-m1-cB_3abz-a1-m1-cA 3ac0-a1-m1-cB_3ac0-a1-m1-cA 3ac0-a1-m1-cD_3ac0-a1-m1-cC SKFDVEQLLSELNQDEKISLLSAVDFWHTKKIERLGIPAVRVSDGPNGIRGTKFFDGVPSGCFPNGTGLASTFDRDLLETAGKLAKESIAKNAAVILGPTTNQRGPLGGRGFESFSEDPYLAGATSSVVKGQGEGIAATVKHFVCNDLEDQRFSSNSIVSERALREIYLEPFRLAVKHANPVCITAYNKVNGEHCSQSKKLLIDILRDEWKWDGLSDWFGTYTTAAAIKNGLDIEFPGPTRWRTRALVSHSLNSREQITTEDVDDRVRQVLKIKFVVDNLEKTGIVENGPESTSNNTKETSDLLRKIAADSIVLLKNKNNILPLKKEDNIIVIGPNAKAKTSSGGGSASNSYYVVSPYEGIVNKLGKEVDYTVGAYSHKSIGGLAESSLIDAAKPADAENSGLIAKFYSNPVEEEPFHVTKVNRSNVHLFDFKHEKVDPKNPYFFVTLTGQYVPQEDGDYIFSLQVYGSGLFYLNDELIIDQKHNQERGSFCFGAGTKERTKKLTLKKGQVYNVRVEYGSGPTSGAGGFQAGVIKAIDDDEEIRNAAELAAKHDKAVLIIGLNGEWETEGYDRENDLPKRTNELVRAVLKANPNTVIVNQSGTPVEFPWLEDANALVQAWYGGNELGNAIADVLYGDVVPNGKLSLSWPFKLQDNPAFLNFKTEFGRVIYGEDIFVGYRYYEKLQRKVAFPFGYGLSYTTFELDISDFKVTDDKIAISVDVKNTGDKFAGSEVVQVYFSALNSKVSRPVKELKGFEKVHLEPGEKKTVNIDLELKDAISYFNEELGKWHVEAGEYLVSVGTSSDDILSVKEFKVEKELYWKGL SKFDVEQLLSELNQDEKISLLSAVDFWHTKKIERLGIPAVRVSDGPNGIRGTKFFDGVPSGCFPNGTGLASTFDRDLLETAGKLAKESIAKNAAVILGPTTNQRGPLGGRGFESFSEDPYLAGATSSVVKGQGEGIAATVKHFVCNDLEDQRFSSNSIVSERALREIYLEPFRLAVKHANPVCITAYNKVNGEHCSQSKKLLIDILRDEWKWDGLSDWFGTYTTAAAIKNGLDIEFPGPTRWRTRALVSHSLNSREQITTEDVDDRVRQVLKIKFVVDNLEKTGIVENGPESTSNNTKETSDLLRKIAADSIVLLKNKNNILPLKKEDNIIVIGPNAKAKTSSGGGSASNSYYVVSPYEGIVNKLGKEVDYTVGAYSHKSIGGLAESSLIDAAKPADAENSGLIAKFYSNPVEERSDDEEPFHVTKVNRSNVHLFDFKHEKVDPKNPYFFVTLTGQYVPQEDGDYIFSLQVYGSGLFYLNDELIIDQKHNQERGSFCFGAGTKERTKKLTLKKGQVYNVRVEYGSGPGAGGFQAGVIKAIDDDEEIRNAAELAAKHDKAVLIIGLNGEWETEGYDRENDLPKRTNELVRAVLKANPNTVIVNQSGTPVEFPWLEDANALVQAWYGGNELGNAIADVLYGDVVPNGKLSLSWPFKLQDNPAFLNFKTEFGRVIYGEDIFVGYRYYEKLQRKVAFPFGYGLSYTTFELDISDFKVTDDKIAISVDVKNTGDKFAGSEVVQVYFSALNSKVSRPVKELKGFEKVHLEPGEKKTVNIDLELKDAISYFNEELGKWHVEAGEYLVSVGTSSDDILSVKEFKVEKELYWKGL 3acd-a1-m1-cA_3acd-a1-m2-cA Crystal structure of hypoxanthine-guanine phosphoribosyltransferase with IMP from Thermus thermophilus HB8 Q5SLS3 Q5SLS3 1.89 X-RAY DIFFRACTION 78 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 164 164 3acb-a1-m1-cA_3acb-a1-m2-cA 3acc-a1-m1-cA_3acc-a1-m2-cA MFTPGNGPVQISAEAIKKRVEELGGEIARDYQGKTPHLICVLNGAFIFMADLVRAIPLPLTMDFIAISELLKDLRLPIHGRDVIVVEDIVDTGLTLSYLLDYLEARKPASVRVAALLSKPSRRQVEVPIHYLGFEIEDAYVYGYGLDRAQFDRNLPFITSIRPE MFTPGNGPVQISAEAIKKRVEELGGEIARDYQGKTPHLICVLNGAFIFMADLVRAIPLPLTMDFIAISELLKDLRLPIHGRDVIVVEDIVDTGLTLSYLLDYLEARKPASVRVAALLSKPSRRQVEVPIHYLGFEIEDAYVYGYGLDRAQFDRNLPFITSIRPE 3act-a1-m1-cA_3act-a1-m1-cB Crystal Structure of Cellvibrio gilvus Cellobiose Phosphorylase Histidine mutant O66264 O66264 1.85 X-RAY DIFFRACTION 184 1.0 593907 (Cellulomonas gilvus ATCC 13127) 593907 (Cellulomonas gilvus ATCC 13127) 822 822 2cqs-a1-m1-cA_2cqs-a1-m1-cB 2cqt-a1-m1-cA_2cqt-a1-m1-cB 3acs-a1-m1-cA_3acs-a1-m1-cB 3afj-a1-m1-cA_3afj-a1-m1-cB 3qfy-a1-m1-cA_3qfy-a1-m1-cB 3qfz-a1-m1-cA_3qfz-a1-m1-cB 3qg0-a1-m1-cA_3qg0-a1-m1-cB MRYGHFDDAAREYVITTPHTPYPWINYLGSEQFFSLLSHQAGGYSFYRDAKMRRLTRYRYNNIPADAGGRYLYVNDGGDVWTPSWLPVKADLDHFEARHGLGYSRITGERNGLKVETLFFVPLGENAEVQKVTVTNTSDAPKTATLFSFVEFCLWNAQDDQTNYQRNLSIGEVEVEQDGPHGSAIYHKTEYRERRDHYAVFGVNTRADGFDTDRDTFVGAYNSLGEASVPRAGKSADSVASGWYPIGSHSVAVTLQPGESRDLVYVLGYLENPDEEKWADDAHQVVNKAPAHALLGRFATSEQVDAALEALNSYWTNLLSTYSVSSTDEKLDRMVNIWNQYQCMVTFNMSRSASFFETGIGRGMGFRDSNQDLLGFVHLIPERARERIIDIASTQFADGSAYHQYQPLTKRGNNDIGSGFNDDPLWLIAGVAAYIKESGDWGILDEPVPFDNEPGSEVPLFEHLTRSFQFTVQNRGPHGLPLIGRADWNDCLNLNCFSTTPGESFQTTENQAGGVAESVFIAAQFVLYGAEYATLAERRGLADVATEARKYVDEVRAAVLEHGWDGQWFLRAYDYYGNPVGTDAKPEGKIWIEPQGFAVMAGIGVGEGPDDADAPAVKALDSVNEMLGTPHGLVLQYPAYTTYQIELGEVSTYPPGYKENGGIFCNNNPWVIIAETVVGRGAQAFDYYKRITPAYREDISDTHKLEPYVYAQMIAGKEAVRAGEAKNSWLTGTAAWNFVAVSQYLLGVRPDYDGLVVDPQIGPDVPSYTVTRVARGATYEITVTNSGAPGARASLTVDGAPVDGRTVPYAPAGSTVRVEVTV MRYGHFDDAAREYVITTPHTPYPWINYLGSEQFFSLLSHQAGGYSFYRDAKMRRLTRYRYNNIPADAGGRYLYVNDGGDVWTPSWLPVKADLDHFEARHGLGYSRITGERNGLKVETLFFVPLGENAEVQKVTVTNTSDAPKTATLFSFVEFCLWNAQDDQTNYQRNLSIGEVEVEQDGPHGSAIYHKTEYRERRDHYAVFGVNTRADGFDTDRDTFVGAYNSLGEASVPRAGKSADSVASGWYPIGSHSVAVTLQPGESRDLVYVLGYLENPDEEKWADDAHQVVNKAPAHALLGRFATSEQVDAALEALNSYWTNLLSTYSVSSTDEKLDRMVNIWNQYQCMVTFNMSRSASFFETGIGRGMGFRDSNQDLLGFVHLIPERARERIIDIASTQFADGSAYHQYQPLTKRGNNDIGSGFNDDPLWLIAGVAAYIKESGDWGILDEPVPFDNEPGSEVPLFEHLTRSFQFTVQNRGPHGLPLIGRADWNDCLNLNCFSTTPGESFQTTENQAGGVAESVFIAAQFVLYGAEYATLAERRGLADVATEARKYVDEVRAAVLEHGWDGQWFLRAYDYYGNPVGTDAKPEGKIWIEPQGFAVMAGIGVGEGPDDADAPAVKALDSVNEMLGTPHGLVLQYPAYTTYQIELGEVSTYPPGYKENGGIFCNNNPWVIIAETVVGRGAQAFDYYKRITPAYREDISDTHKLEPYVYAQMIAGKEAVRAGEAKNSWLTGTAAWNFVAVSQYLLGVRPDYDGLVVDPQIGPDVPSYTVTRVARGATYEITVTNSGAPGARASLTVDGAPVDGRTVPYAPAGSTVRVEVTV 3acz-a1-m1-cD_3acz-a1-m1-cA Crystal structure of Entamoeba histolytica methionine gamma-lyase 1 Q86D28 Q86D28 1.97 X-RAY DIFFRACTION 214 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 383 386 3acz-a1-m1-cB_3acz-a1-m1-cC 3aej-a1-m1-cB_3aej-a1-m1-cC 3aej-a1-m1-cD_3aej-a1-m1-cA 3ael-a1-m1-cB_3ael-a1-m1-cC 3ael-a1-m1-cD_3ael-a1-m1-cA 3aem-a1-m1-cB_3aem-a1-m1-cC 3aem-a1-m1-cD_3aem-a1-m1-cA 3aen-a1-m1-cB_3aen-a1-m1-cC 3aen-a1-m1-cD_3aen-a1-m1-cA 3aeo-a1-m1-cB_3aeo-a1-m1-cC 3aeo-a1-m1-cD_3aeo-a1-m1-cA 3aep-a1-m1-cB_3aep-a1-m1-cC 3aep-a1-m1-cD_3aep-a1-m1-cA DITTTLLHPKGDHVLHSHAYPIFQTSTFCFDSTQQGADLFMGKGEGHIYSRLGNPTVEQFEEMVCSIEGAAGSAAFGSGMGAISSSTLAFLQKGDHLIAGDTLYGCTVSLFTHWLPRFGIEVDLIDTSDVEKVKAAWKPNTKMVYLESPANPTCKVSDIKGIAVVCHERGARLVVDATFTSPCFLKPLELGADIALHSVSYINGHGDVIGGVSSAKTAEDIATIKFYRKDAGSLMAPMDAFLCARGMKTLPIRMQIHMENGLKVAKFLEQHEKIVKVNHPGLESFPGHDIAKKQMTGYGSTFLFEMKSFEAAKKLMEHLKVCTLAVSLGCVDTLIEHPASMTHAAVPENIMRKQGITPELVRISVGIENVDDIIADLKQALEL AQDITTTLLHPKGDHVLHSHAYPIFQTSTFCFDSTQQGADLFMGKGEGHIYSRLGNPTVEQFEEMVCSIEGAAGSAAFGSGMGAISSSTLAFLQKGDHLIAGDTLYGCTVSLFTHWLPRFGIEVDLIDTSDVEKVKAAWKPNTKMVYLESPANPTCKVSDIKGIAVVCHERGARLVVDATFTSPCFLKPLELGADIALHSVSYINGHGDVIGGVSSAKTAEDIATIKFYRKDAGSLMAPMDAFLCARGMKTLPIRMQIHMENGLKVAKFLEQHEKIVKVNHPGLESFPGHDIAKKQMTGYGSTFLFEMKSFEAAKKLMEHLKVCTLAVSLGCVDTLIEHPASMTHAAVPENIMRKQGITPELVRISVGIENVDDIIADLKQALELW 3acz-a1-m1-cD_3acz-a1-m1-cB Crystal structure of Entamoeba histolytica methionine gamma-lyase 1 Q86D28 Q86D28 1.97 X-RAY DIFFRACTION 81 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 383 385 3acz-a1-m1-cA_3acz-a1-m1-cC 3aej-a1-m1-cC_3aej-a1-m1-cA 3aej-a1-m1-cD_3aej-a1-m1-cB 3ael-a1-m1-cA_3ael-a1-m1-cC 3ael-a1-m1-cD_3ael-a1-m1-cB 3aem-a1-m1-cC_3aem-a1-m1-cA 3aem-a1-m1-cD_3aem-a1-m1-cB 3aen-a1-m1-cA_3aen-a1-m1-cC 3aen-a1-m1-cD_3aen-a1-m1-cB 3aeo-a1-m1-cA_3aeo-a1-m1-cC 3aeo-a1-m1-cD_3aeo-a1-m1-cB 3aep-a1-m1-cA_3aep-a1-m1-cC 3aep-a1-m1-cD_3aep-a1-m1-cB DITTTLLHPKGDHVLHSHAYPIFQTSTFCFDSTQQGADLFMGKGEGHIYSRLGNPTVEQFEEMVCSIEGAAGSAAFGSGMGAISSSTLAFLQKGDHLIAGDTLYGCTVSLFTHWLPRFGIEVDLIDTSDVEKVKAAWKPNTKMVYLESPANPTCKVSDIKGIAVVCHERGARLVVDATFTSPCFLKPLELGADIALHSVSYINGHGDVIGGVSSAKTAEDIATIKFYRKDAGSLMAPMDAFLCARGMKTLPIRMQIHMENGLKVAKFLEQHEKIVKVNHPGLESFPGHDIAKKQMTGYGSTFLFEMKSFEAAKKLMEHLKVCTLAVSLGCVDTLIEHPASMTHAAVPENIMRKQGITPELVRISVGIENVDDIIADLKQALEL AQDITTTLLHPKGDHVLHSHAYPIFQTSTFCFDSTQQGADLFMGKGEGHIYSRLGNPTVEQFEEMVCSIEGAAGSAAFGSGMGAISSSTLAFLQKGDHLIAGDTLYGCTVSLFTHWLPRFGIEVDLIDTSDVEKVKAAWKPNTKMVYLESPANPTCKVSDIKGIAVVCHERGARLVVDATFTSPCFLKPLELGADIALHSVSYINGHGDVIGGVSSAKTAEDIATIKFYRKDAGSLMAPMDAFLCARGMKTLPIRMQIHMENGLKVAKFLEQHEKIVKVNHPGLESFPGHDIAKKQMTGYGSTFLFEMKSFEAAKKLMEHLKVCTLAVSLGCVDTLIEHPASMTHAAVPENIMRKQGITPELVRISVGIENVDDIIADLKQALEL 3acz-a1-m1-cD_3acz-a1-m1-cC Crystal structure of Entamoeba histolytica methionine gamma-lyase 1 Q86D28 Q86D28 1.97 X-RAY DIFFRACTION 75 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 383 386 3acz-a1-m1-cB_3acz-a1-m1-cA 3aej-a1-m1-cB_3aej-a1-m1-cA 3aej-a1-m1-cD_3aej-a1-m1-cC 3ael-a1-m1-cB_3ael-a1-m1-cA 3ael-a1-m1-cD_3ael-a1-m1-cC 3aem-a1-m1-cB_3aem-a1-m1-cA 3aem-a1-m1-cD_3aem-a1-m1-cC 3aen-a1-m1-cA_3aen-a1-m1-cB 3aen-a1-m1-cD_3aen-a1-m1-cC 3aeo-a1-m1-cB_3aeo-a1-m1-cA 3aeo-a1-m1-cD_3aeo-a1-m1-cC 3aep-a1-m1-cB_3aep-a1-m1-cA 3aep-a1-m1-cD_3aep-a1-m1-cC DITTTLLHPKGDHVLHSHAYPIFQTSTFCFDSTQQGADLFMGKGEGHIYSRLGNPTVEQFEEMVCSIEGAAGSAAFGSGMGAISSSTLAFLQKGDHLIAGDTLYGCTVSLFTHWLPRFGIEVDLIDTSDVEKVKAAWKPNTKMVYLESPANPTCKVSDIKGIAVVCHERGARLVVDATFTSPCFLKPLELGADIALHSVSYINGHGDVIGGVSSAKTAEDIATIKFYRKDAGSLMAPMDAFLCARGMKTLPIRMQIHMENGLKVAKFLEQHEKIVKVNHPGLESFPGHDIAKKQMTGYGSTFLFEMKSFEAAKKLMEHLKVCTLAVSLGCVDTLIEHPASMTHAAVPENIMRKQGITPELVRISVGIENVDDIIADLKQALEL AQDITTTLLHPKGDHVLHSHAYPIFQTSTFCFDSTQQGADLFMGKGEGHIYSRLGNPTVEQFEEMVCSIEGAAGSAAFGSGMGAISSSTLAFLQKGDHLIAGDTLYGCTVSLFTHWLPRFGIEVDLIDTSDVEKVKAAWKPNTKMVYLESPANPTCKVSDIKGIAVVCHERGARLVVDATFTSPCFLKPLELGADIALHSVSYINGHGDVIGGVSSAKTAEDIATIKFYRKDAGSLMAPMDAFLCARGMKTLPIRMQIHMENGLKVAKFLEQHEKIVKVNHPGLESFPGHDIAKKQMTGYGSTFLFEMKSFEAAKKLMEHLKVCTLAVSLGCVDTLIEHPASMTHAAVPENIMRKQGITPELVRISVGIENVDDIIADLKQALELW 3adb-a1-m1-cB_3adb-a1-m1-cA Crystal structure of O-phosphoseryl-tRNA kinase complexed with selenocysteine tRNA and AMPPNP (crystal type 1) Q58933 Q58933 2.8 X-RAY DIFFRACTION 62 0.983 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 242 246 3adc-a1-m1-cB_3adc-a1-m1-cA 3add-a1-m1-cB_3add-a1-m1-cA 3am1-a1-m1-cA_3am1-a1-m2-cA NHHHHHLIILTGLPGVGKSTFSKNLAKILSKNNIDVIVLGSDLIRESFPVWKEKYEEFIKKSTYRLIDSALKNYWVIVDDTNYYNSRRDLINIAKKYNKNYAIIYLKASLDVLIRRNIERGEKIPNEVIKKYEKFDEPGKKYKWDEPFLIIDTTKDIDFNEIAKKLIEKSKEIPKFKNNNISDKIDKETRKIVSEYIKSKKLDKDKIKEVVELRKEFLKKIKKEEVDADRVLKEFKDLLNSY HHLIILTGLPGVGKSTFSKNLAKILSKNNIDVIVLGSDLIRESFPVWKEKYEEFIKKSTYRLIDSALKNYWVIVDDTNYYNSRRDLINIAKKYNKNYAIIYLKASLDVLIRRNIERGEKIPNEVIKKYEKFDEPGKKYKWDEPFLIIDTTKDIDFNEIAKKLIEKSKEIPKFYVLEENKNKNNNISDKIDKETRKIVSEYIKSKKLDKDKIKEVVELRKEFLKKIKKEEVDADRVLKEFKDLLNSY 3adm-a1-m1-cC_3adm-a1-m1-cB Crystal structure of (Pro-Pro-Gly)4-Hyp-Ser-Gly-(Pro-Pro-Gly)4 1.18 X-RAY DIFFRACTION 79 1.0 25 26 PGPPGPPGPPGSGPPGPPGPPGPPG PPGPPGPPGPPGSGPPGPPGPPGPPG 3ado-a1-m1-cA_3ado-a1-m2-cA Crystal Structure of the Rabbit L-Gulonate 3-Dehydrogenase P14755 P14755 1.7 X-RAY DIFFRACTION 365 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 310 310 3adp-a1-m1-cA_3adp-a1-m2-cA GDVLIVGSGLVGRSWAMLFASGGFRVKLYDIEPRQITGALENIRKEMKSLQQSGSLKGSLSAEEQLSLISSCTNLAEAVEGVVHIQECVPENLDLKRKIFAQLDSIVDDRVVLSSSSSCLLPSKLFTGLAHVKQCIVAHPVNPPYYIPLVELVPHPETSPATVDRTHALMRKIGQSPVRVLKEIDGFVLNRLQYAIISEAWRLVEEGIVSPSDLDLVMSDGLGMRYAFIGPLETMHLNAEGMLSYCDRYSEGMKRVLKSFGSIPEFSGATVEKVNQAMCKKVPADPEHLAARREWRDECLKRLAKLKRQM GDVLIVGSGLVGRSWAMLFASGGFRVKLYDIEPRQITGALENIRKEMKSLQQSGSLKGSLSAEEQLSLISSCTNLAEAVEGVVHIQECVPENLDLKRKIFAQLDSIVDDRVVLSSSSSCLLPSKLFTGLAHVKQCIVAHPVNPPYYIPLVELVPHPETSPATVDRTHALMRKIGQSPVRVLKEIDGFVLNRLQYAIISEAWRLVEEGIVSPSDLDLVMSDGLGMRYAFIGPLETMHLNAEGMLSYCDRYSEGMKRVLKSFGSIPEFSGATVEKVNQAMCKKVPADPEHLAARREWRDECLKRLAKLKRQM 3aei-a2-m2-cB_3aei-a2-m4-cB Crystal structure of the prefoldin beta2 subunit from Thermococcus strain KS-1 B0I3E2 B0I3E2 1.7 X-RAY DIFFRACTION 39 1.0 94 94 3aei-a1-m1-cA_3aei-a1-m3-cA 3aei-a1-m1-cA_3aei-a1-m4-cA 3aei-a1-m2-cA_3aei-a1-m3-cA 3aei-a1-m2-cA_3aei-a1-m4-cA 3aei-a2-m1-cB_3aei-a2-m3-cB 3aei-a2-m1-cB_3aei-a2-m4-cB 3aei-a2-m2-cB_3aei-a2-m3-cB MEAVRAYELQLELQQIRTLRQSLELKMKELEYAEGIITSLKSERRIYRAFSDLLVEITKDEAIEHIERSRLVYKREIEKLKKREKEIMEELSKL MEAVRAYELQLELQQIRTLRQSLELKMKELEYAEGIITSLKSERRIYRAFSDLLVEITKDEAIEHIERSRLVYKREIEKLKKREKEIMEELSKL 3aer-a1-m1-cB_3aer-a1-m1-cD Structure of the light-independent protochlorophyllide reductase catalyzing a key reduction for greening in the dark P26163 P26163 2.8 X-RAY DIFFRACTION 61 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 420 421 3aek-a1-m1-cB_3aek-a1-m1-cD 3aeq-a1-m1-cD_3aeq-a1-m1-cB 3aes-a1-m1-cB_3aes-a1-m1-cD 3aet-a1-m1-cB_3aet-a1-m1-cD 3aeu-a1-m1-cB_3aeu-a1-m1-cD MKLTLWTYEGPPHVGAMRVATAMKDLQLVLHGPQGDTYADLLFTMIERRNARPPVSFSTFEASHMGTDTAILLKDALAAAHARYKPQAMAVALTCTAELLQDDPNGISRALNLPVPVVPLELPSYSRKENYGADETFRALVRALAVPMERTPEVTCNLLGATALGFRHRDDVAEVTKLLATMGIKVNVCAPLGASPDDLRKLGQAHFNVLMYPETGESAARHLERACKQPFTKIVPIGVGATRDFLAEVSKITGLPVVTDESTLRQPWWSASVDSTYLTGKRVFIFGDGTHVIAAARIAAKEVGFEVVGMGCYNREMARPLRTAAAEYGLEALITDDYLEVEKAIEAAAPELILGTQMERNIAKKLGLPCAVISAPVHVQDFPARYAPQMGFEGANVLFDTWVHPLVMGLEEHLLTMFRE MKLTLWTYEGPPHVGAMRVATAMKDLQLVLHGPQGDTYADLLFTMIERRNARPPVSFSTFEASHMGTDTAILLKDALAAAHARYKPQAMAVALTCTAELLQDDPNGISRALNLPVPVVPLELPSYSRKENYGADETFRALVRALAVPMERTPEVTCNLLGATALGFRHRDDVAEVTKLLATMGIKVNVCAPLGASPDDLRKLGQAHFNVLMYPETGESAARHLERACKQPFTKIVPIGVGATRDFLAEVSKITGLPVVTDESTLRQPWWSASVDSTYLTGKRVFIFGDGTHVIAAARIAAKEVGFEVVGMGCYNREMARPLRTAAAEYGLEALITDDYLEVEKAIEAAAPELILGTQMERNIAKKLGLPCAVISAPVHVQDFPARYAPQMGFEGANVLFDTWVHPLVMGLEEHLLTMFRED 3af3-a1-m1-cA_3af3-a1-m2-cA Pantothenate kinase from Mycobacterium tuberculosis (MtPanK) in complex with GMPPCP and Pantothenate P9WPA7 P9WPA7 2.35 X-RAY DIFFRACTION 111 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 307 307 2ges-a1-m1-cA_2ges-a1-m2-cA 2get-a1-m1-cA_2get-a1-m2-cA 2geu-a1-m1-cA_2geu-a1-m2-cA 2gev-a1-m1-cA_2gev-a1-m2-cA 2zs7-a1-m1-cA_2zs7-a1-m2-cA 2zs8-a1-m1-cA_2zs8-a1-m2-cA 2zs9-a1-m1-cA_2zs9-a1-m2-cA 2zsa-a1-m1-cA_2zsa-a1-m2-cA 2zsb-a1-m1-cA_2zsb-a1-m2-cA 2zsd-a1-m1-cA_2zsd-a1-m2-cA 2zse-a1-m1-cA_2zse-a1-m2-cA 2zsf-a1-m1-cA_2zsf-a1-m2-cA 3aez-a1-m1-cA_3aez-a1-m2-cA 3af0-a1-m1-cA_3af0-a1-m2-cA 3af1-a1-m1-cA_3af1-a1-m2-cA 3af2-a1-m1-cA_3af2-a1-m2-cA 3af4-a1-m1-cA_3af4-a1-m2-cA 3avo-a1-m1-cA_3avo-a1-m2-cA 3avp-a1-m1-cA_3avp-a1-m2-cA 3avq-a1-m1-cA_3avq-a1-m2-cA 4bfs-a1-m1-cA_4bfs-a1-m2-cA 4bft-a1-m1-cA_4bft-a1-m1-cB 4bfu-a1-m1-cA_4bfu-a1-m1-cB 4bfv-a1-m1-cA_4bfv-a1-m1-cB 4bfw-a1-m1-cA_4bfw-a1-m1-cB 4bfx-a1-m1-cA_4bfx-a1-m1-cB 4bfy-a1-m1-cA_4bfy-a1-m1-cB 4bfz-a1-m1-cA_4bfz-a1-m1-cB 5xlv-a1-m1-cB_5xlv-a1-m1-cA 5xlw-a1-m1-cB_5xlw-a1-m1-cA EPSPYVEFDRRQWRALRMSTPLALTEEELVGLRGLGEQIDLLEVEEVYLPLARLIHLQVAARQRLFAATAEFLGEPQQNPDRPVPFIIGVAGSVAVGKSTTARVLQALLARWDHHPRVDLVTTDGFLYPNAELQRRNLMHRKGFPESYNRRALMRFVTSVKSGSDYACAPVYSHLHYDIIPGAEQVVRHPDILILEGLNVLQTGPTLMVSDLFDFSLYVDARIEDIEQWYVSRFLAMRTTAFADPESHFHHYAAFSDSQAVVAAREIWRTINRPNLVENILPTRPRATLVLRKDADHSINRLRLRKL EPSPYVEFDRRQWRALRMSTPLALTEEELVGLRGLGEQIDLLEVEEVYLPLARLIHLQVAARQRLFAATAEFLGEPQQNPDRPVPFIIGVAGSVAVGKSTTARVLQALLARWDHHPRVDLVTTDGFLYPNAELQRRNLMHRKGFPESYNRRALMRFVTSVKSGSDYACAPVYSHLHYDIIPGAEQVVRHPDILILEGLNVLQTGPTLMVSDLFDFSLYVDARIEDIEQWYVSRFLAMRTTAFADPESHFHHYAAFSDSQAVVAAREIWRTINRPNLVENILPTRPRATLVLRKDADHSINRLRLRKL 3afe-a1-m1-cD_3afe-a1-m1-cC Crystal structure of the HsaA monooxygenase from M.tuberculosis P9WJA1 P9WJA1 2.5 X-RAY DIFFRACTION 104 0.989 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 379 381 3afe-a1-m1-cB_3afe-a1-m1-cA RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHQGKRVRAAFAGKDDPFAKVRIAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLP RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHQGKRVRAADDPFAKVRIAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV 3aff-a1-m2-cA_3aff-a1-m4-cA Crystal structure of the HsaA monooxygenase from M. tuberculosis P9WJA1 P9WJA1 2 X-RAY DIFFRACTION 64 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 366 366 3afe-a1-m1-cB_3afe-a1-m1-cC 3afe-a1-m1-cD_3afe-a1-m1-cA 3aff-a1-m1-cA_3aff-a1-m3-cA 3aff-a1-m1-cB_3aff-a1-m2-cB 3aff-a1-m3-cB_3aff-a1-m4-cB RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHQIAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHQIAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV 3aff-a1-m4-cB_3aff-a1-m3-cA Crystal structure of the HsaA monooxygenase from M. tuberculosis P9WJA1 P9WJA1 2 X-RAY DIFFRACTION 15 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 364 366 3aff-a1-m1-cB_3aff-a1-m2-cA 3aff-a1-m1-cB_3aff-a1-m3-cA 3aff-a1-m2-cB_3aff-a1-m1-cA 3aff-a1-m2-cB_3aff-a1-m4-cA 3aff-a1-m3-cB_3aff-a1-m1-cA 3aff-a1-m3-cB_3aff-a1-m4-cA 3aff-a1-m4-cB_3aff-a1-m2-cA RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHQIAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV 3aff-a1-m4-cB_3aff-a1-m4-cA Crystal structure of the HsaA monooxygenase from M. tuberculosis P9WJA1 P9WJA1 2 X-RAY DIFFRACTION 73 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 364 366 3aff-a1-m1-cB_3aff-a1-m1-cA 3aff-a1-m2-cB_3aff-a1-m2-cA 3aff-a1-m3-cB_3aff-a1-m3-cA RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV RDAQSVLAAIDNLLPEIRDRAQATEDLRRLPDETVKALDDVGFFTLLQPQQWGGLQCDPALFFEATRRLASVCGSTGWVSSIVGVHNWHLALFDQRAQEEVWGEDPSTRISSSYAPMGAGVVVDGGYLVNGSWNWSSGCDHASWTFVGGPVIKDGRPVDFGSFLIPRSEYEIKDVWYVVGLRGTGSNTLVVKDVFVPRHRFLSYKAMNDHTAGGLATNSAPVYKMPWGTMHPTTISAPIVGMAYGAYAAHVEHQIAEAASDIDAAWRQLIGNVSDEYALLAAGKEIPFELRARARRDQVRATGRSIASIDRLFEASGATALSNEAPIQRFWRDAHAGRVHAANDPERAYVIFGNHEFGLPPGDTMV 3afk-a1-m1-cB_3afk-a1-m1-cA Crystal Structure of Agrocybe aegerita lectin AAL complexed with Thomsen-Friedenreich antigen Q6WY08 Q6WY08 1.95 X-RAY DIFFRACTION 78 1.0 166 167 2zgk-a1-m1-cA_2zgk-a1-m2-cA 2zgl-a1-m1-cA_2zgl-a1-m1-cB 2zgm-a1-m1-cA_2zgm-a1-m1-cB 2zgn-a1-m1-cA_2zgn-a1-m1-cB 2zgo-a1-m1-cB_2zgo-a1-m1-cA 2zgp-a1-m1-cA_2zgp-a1-m1-cB 2zgq-a1-m1-cB_2zgq-a1-m1-cA 2zgr-a1-m1-cA_2zgr-a1-m2-cA 2zgs-a1-m1-cB_2zgs-a1-m1-cA 2zgu-a1-m1-cB_2zgu-a1-m1-cA 3m3c-a1-m1-cA_3m3c-a1-m1-cB 3m3e-a1-m1-cA_3m3e-a1-m1-cB 3m3e-a2-m1-cD_3m3e-a2-m1-cC 3m3o-a1-m1-cA_3m3o-a1-m2-cA 3m3q-a1-m1-cA_3m3q-a1-m1-cB MQGVNIYNISAGTSVDLAAPVTTGDIVTFFSSALNLNAGAGNPNNTTLNLFAENGAYLLHIAFRLQENVIIFNSRQPDGPWLVEQRVSDVANQFAGIDGKAMVTVFDHGDKYQVVINEKTVIQYTKQISGLTSSLSYNATEETSIFSTVVEAVTYTGLALEHHHHH MQGVNIYNISAGTSVDLAAPVTTGDIVTFFSSALNLNAGAGNPNNTTLNLFAENGAYLLHIAFRLQENVIIFNSRQPDGPWLVEQRVSDVANQFAGIDGKAMVTVFDHGDKYQVVINEKTVIQYTKQISGLTSSLSYNATEETSIFSTVVEAVTYTGLALEHHHHHH 3afn-a1-m1-cB_3afn-a1-m1-cD Crystal structure of aldose reductase A1-R complexed with NADP D6RU56 D6RU56 1.63 X-RAY DIFFRACTION 124 1.0 90322 (Sphingomonas sp. A1) 90322 (Sphingomonas sp. A1) 257 257 3afm-a1-m1-cB_3afm-a1-m2-cA 3afm-a1-m2-cB_3afm-a1-m1-cA 3afn-a1-m1-cA_3afn-a1-m1-cC 4w7h-a1-m1-cB_4w7h-a1-m2-cA 4w7h-a1-m2-cB_4w7h-a1-m1-cA FPDLKGKRVLITGSSQGIGLATARLFARAGAKVGLHGRKAPANIDETIASMRADGGDAAFFAADLATSEACQQLVDEFVAKFGGIDVLINNAGGLVGRKPLPEIDDTFYDAVMDANIRSVVMTTKFALPHLAAAAKASGQTSAVISTGSIAGHTGGGPGAGLYGAAKAFLHNVHKNWVDFHTKDGVRFNIVSPGTVDTAFHADKTQDVRDRISNGIPMGRFGTAEEMAPAFLFFASHLASGYITGQVLDINGGQYKH FPDLKGKRVLITGSSQGIGLATARLFARAGAKVGLHGRKAPANIDETIASMRADGGDAAFFAADLATSEACQQLVDEFVAKFGGIDVLINNAGGLVGRKPLPEIDDTFYDAVMDANIRSVVMTTKFALPHLAAAAKASGQTSAVISTGSIAGHTGGGPGAGLYGAAKAFLHNVHKNWVDFHTKDGVRFNIVSPGTVDTAFHADKTQDVRDRISNGIPMGRFGTAEEMAPAFLFFASHLASGYITGQVLDINGGQYKH 3afn-a1-m1-cC_3afn-a1-m1-cD Crystal structure of aldose reductase A1-R complexed with NADP D6RU56 D6RU56 1.63 X-RAY DIFFRACTION 98 1.0 90322 (Sphingomonas sp. A1) 90322 (Sphingomonas sp. A1) 257 257 3afm-a1-m1-cB_3afm-a1-m1-cA 3afm-a1-m2-cB_3afm-a1-m2-cA 3afn-a1-m1-cA_3afn-a1-m1-cB 4w7h-a1-m1-cB_4w7h-a1-m1-cA 4w7h-a1-m2-cB_4w7h-a1-m2-cA FPDLKGKRVLITGSSQGIGLATARLFARAGAKVGLHGRKAPANIDETIASMRADGGDAAFFAADLATSEACQQLVDEFVAKFGGIDVLINNAGGLVGRKPLPEIDDTFYDAVMDANIRSVVMTTKFALPHLAAAAKASGQTSAVISTGSIAGHTGGGPGAGLYGAAKAFLHNVHKNWVDFHTKDGVRFNIVSPGTVDTAFHADKTQDVRDRISNGIPMGRFGTAEEMAPAFLFFASHLASGYITGQVLDINGGQYKH FPDLKGKRVLITGSSQGIGLATARLFARAGAKVGLHGRKAPANIDETIASMRADGGDAAFFAADLATSEACQQLVDEFVAKFGGIDVLINNAGGLVGRKPLPEIDDTFYDAVMDANIRSVVMTTKFALPHLAAAAKASGQTSAVISTGSIAGHTGGGPGAGLYGAAKAFLHNVHKNWVDFHTKDGVRFNIVSPGTVDTAFHADKTQDVRDRISNGIPMGRFGTAEEMAPAFLFFASHLASGYITGQVLDINGGQYKH 3afo-a1-m1-cB_3afo-a1-m2-cB Crystal Structure of Yeast NADH Kinase complexed with NADH Q06892 Q06892 2 X-RAY DIFFRACTION 45 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 341 341 3afo-a1-m1-cA_3afo-a1-m2-cA VKIKPVNNLRSSSSADFVSPPNSKLQSLIWQNPLQNVYITKKPWTPSTREAMVEFITHLHESYPEVNVIVQPDVAEEISQDFKSPLENDPNRPHILYTGPEQDIVNRTDLLVTLGGDGTILHGVSMFGNTQVPPVLAFALGTLGFLSPFDFKEHKKVFQEVISSRAKCLHRTRLECHLKKKDSNSSIVTHAMNDIFLHRGNSPHLTNLDIFIDGEFLTRTTADGVALATPTGSTAYSLSAGGSIVSPLVPAILMTPICPRSLSFRPLILPHSSHIRIKIGSSVVKLSVDGIPQQDLDVGDEIYVINEVKRSGIYCVAKTENDWIRGINELLGFNSSFRLTK VKIKPVNNLRSSSSADFVSPPNSKLQSLIWQNPLQNVYITKKPWTPSTREAMVEFITHLHESYPEVNVIVQPDVAEEISQDFKSPLENDPNRPHILYTGPEQDIVNRTDLLVTLGGDGTILHGVSMFGNTQVPPVLAFALGTLGFLSPFDFKEHKKVFQEVISSRAKCLHRTRLECHLKKKDSNSSIVTHAMNDIFLHRGNSPHLTNLDIFIDGEFLTRTTADGVALATPTGSTAYSLSAGGSIVSPLVPAILMTPICPRSLSFRPLILPHSSHIRIKIGSSVVKLSVDGIPQQDLDVGDEIYVINEVKRSGIYCVAKTENDWIRGINELLGFNSSFRLTK 3afo-a1-m2-cB_3afo-a1-m1-cA Crystal Structure of Yeast NADH Kinase complexed with NADH Q06892 Q06892 2 X-RAY DIFFRACTION 52 0.988 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 341 360 3afo-a1-m1-cB_3afo-a1-m2-cA VKIKPVNNLRSSSSADFVSPPNSKLQSLIWQNPLQNVYITKKPWTPSTREAMVEFITHLHESYPEVNVIVQPDVAEEISQDFKSPLENDPNRPHILYTGPEQDIVNRTDLLVTLGGDGTILHGVSMFGNTQVPPVLAFALGTLGFLSPFDFKEHKKVFQEVISSRAKCLHRTRLECHLKKKDSNSSIVTHAMNDIFLHRGNSPHLTNLDIFIDGEFLTRTTADGVALATPTGSTAYSLSAGGSIVSPLVPAILMTPICPRSLSFRPLILPHSSHIRIKIGSSVVKLSVDGIPQQDLDVGDEIYVINEVKRSGIYCVAKTENDWIRGINELLGFNSSFRLTK LQSGSKFVKIKPVNNLRSSSSADFVSKLQSLIWQNPLQNVYITKKPWTPSTREAMVEFITHLHESYPEVNVIVQPDVAEEISQDFKSPLENDPNRPHILYTGPEQDIVNRTDLLVTLGGDGTILHGVSMFGNTQVPPVLAFALGTLGFLSPFDFKEHKKVFQEVISSRAKCLHRTRLECHLKKKDSNSSIVTHAMNDIFLHRGNSPHLTNLDIFIDGEFLTRTTADGVALATPTGSTAYSLSAGGSIVSPLVPAILMTPICPRSLSFRPLILPHSSHIRIKIGSKLNQKPVNSVVKLSVDGIPQQDLDVGDEIYVINEVGTIYIDGTKRSGIYCVAKTENDWIRGINELLGFNSSFRLTK 3afo-a1-m2-cB_3afo-a1-m2-cA Crystal Structure of Yeast NADH Kinase complexed with NADH Q06892 Q06892 2 X-RAY DIFFRACTION 148 0.988 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 341 360 3afo-a1-m1-cB_3afo-a1-m1-cA VKIKPVNNLRSSSSADFVSPPNSKLQSLIWQNPLQNVYITKKPWTPSTREAMVEFITHLHESYPEVNVIVQPDVAEEISQDFKSPLENDPNRPHILYTGPEQDIVNRTDLLVTLGGDGTILHGVSMFGNTQVPPVLAFALGTLGFLSPFDFKEHKKVFQEVISSRAKCLHRTRLECHLKKKDSNSSIVTHAMNDIFLHRGNSPHLTNLDIFIDGEFLTRTTADGVALATPTGSTAYSLSAGGSIVSPLVPAILMTPICPRSLSFRPLILPHSSHIRIKIGSSVVKLSVDGIPQQDLDVGDEIYVINEVKRSGIYCVAKTENDWIRGINELLGFNSSFRLTK LQSGSKFVKIKPVNNLRSSSSADFVSKLQSLIWQNPLQNVYITKKPWTPSTREAMVEFITHLHESYPEVNVIVQPDVAEEISQDFKSPLENDPNRPHILYTGPEQDIVNRTDLLVTLGGDGTILHGVSMFGNTQVPPVLAFALGTLGFLSPFDFKEHKKVFQEVISSRAKCLHRTRLECHLKKKDSNSSIVTHAMNDIFLHRGNSPHLTNLDIFIDGEFLTRTTADGVALATPTGSTAYSLSAGGSIVSPLVPAILMTPICPRSLSFRPLILPHSSHIRIKIGSKLNQKPVNSVVKLSVDGIPQQDLDVGDEIYVINEVGTIYIDGTKRSGIYCVAKTENDWIRGINELLGFNSSFRLTK 3ag6-a1-m1-cA_3ag6-a1-m1-cB Crystal Structure of Pantothenate Synthetase from Staphylococcus aureus in complex with pantoyl adenylate Q2FV22 Q2FV22 1.85 X-RAY DIFFRACTION 84 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 283 283 2x3f-a1-m1-cA_2x3f-a1-m1-cB 3ag5-a1-m1-cA_3ag5-a1-m1-cB MTKLITTVKEMQHIVKAAKRSGTTIGFIPTMGALHDGHLTMVRESVSTNDITIVSVFVNPLQFGPNEDFDAYPRQIDKDLELVSEVGADIVFHPAVEDMYPGELGIDVKVGPLADVLEGAKRPGHFDGVVTVVNKLFNIVMPDYAYFGKKDAQQLAIVEQMVKDFNHAVEIIGIDIVREADGLAKSSRNVYLTEQERQEAVHLSKSLLLAQALYQDGERQSKVIIDRVTEYLESHISERIEEVAVYSYPQLVEQHEITGRIFISLAVKFSKARLIDNIIIGAE MTKLITTVKEMQHIVKAAKRSGTTIGFIPTMGALHDGHLTMVRESVSTNDITIVSVFVNPLQFGPNEDFDAYPRQIDKDLELVSEVGADIVFHPAVEDMYPGELGIDVKVGPLADVLEGAKRPGHFDGVVTVVNKLFNIVMPDYAYFGKKDAQQLAIVEQMVKDFNHAVEIIGIDIVREADGLAKSSRNVYLTEQERQEAVHLSKSLLLAQALYQDGERQSKVIIDRVTEYLESHISERIEEVAVYSYPQLVEQHEITGRIFISLAVKFSKARLIDNIIIGAE 3agb-a1-m1-cB_3agb-a1-m1-cA F218V mutant of the substrate-free form of red chlorophyll catabolite reductase from Arabidopsis thaliana Q8LDU4 Q8LDU4 2.2 X-RAY DIFFRACTION 65 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 263 271 2zxk-a1-m1-cB_2zxk-a1-m1-cA 2zxl-a1-m1-cB_2zxl-a1-m1-cA 3aga-a1-m1-cB_3aga-a1-m1-cA 3agc-a1-m1-cB_3agc-a1-m1-cA KFMEFPYVSPTRKQLMVDLMSTVENRLQSQLLPCNLPPDVRNFNNPNGSAEASLHIRSGDKSSPIDFVIGSWIHCKIPTGVSLNITSISGFLNSSTKAPNFVVELIQSSSKSLVLILDLPHRKDLVLNPDYLKEYYQDTALDSHRQSLLKLPEVNPYVSPSLFVRSAVSPTASMLKIDAEEEDKLEEILRDHVSPAAKEVLEVWLERCVKEVVGEEERMELERRDKSFRRKSIEDDLDLQFPRMFGEEVSSRVVHAIKEAFGV RRKFMEFPYVSPTRKQLMVDLMSTVENRLQSQLLPCNLPPDVRNFNNPNGSAEASLHIRSGDKSSPIDFVIGSWIHCKIPTGVSLNITSISGFLNSSTKAPNFVVELIQSSSKSLVLILDLPHRKDLVLNPDYLKEYYQDTALDSHRQSLLKLPEVNPYVSPSLFVRSAVSPTASMLKIDAEEEDKLEEILRDHVSPAAKEVLEVWLERCVKEEEEKIVVGEEERMELERRDKSFRRKSIEDDLDLQFPRMFGEEVSSRVVHAIKEAFGVL 3agp-a2-m1-cA_3agp-a2-m2-cA Structure of viral polymerase form I P14647 P14647 2.8 X-RAY DIFFRACTION 53 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 1202 1202 3agq-a2-m1-cA_3agq-a2-m2-cA 3mmp-a3-m1-cA_3mmp-a3-m1-cC AEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIDGNYGIILEVNCQTDFVAKDAGFQAFADKVLDAAVAGKITDVEVLKAQFEEERVALVAKIGENINIRRVAALEGDVLGSYQHGARIGVLVAAKGADEELVKHIAMHVAASKPEFIKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKTVGQLLKEHNAEVTGFIRFEVGEGIEKVETDFAAEVAAMSKQSHMSFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLSGASSRNSLSAQLRRAANTRIEVEGNLALSIANDLLLAYGQSPFNSEAECISFSPRFDGTPDDFRINYLKAEIMSKYDDFSLGIDTEAVAWEKFLAAEAECALTNARLYRPDYSEDFNFSLGESCIHMARRKIAKLIGDVPSVEGMLRHCRFSGGATTTNNRSYGHPSFKFALPQACTPRALKYVLALRASTHFDIRISDISPFNKAVTVPKNSKTDRCIAIEPGWNMFFQLGIGGILRDRLRCWGIDLNDQTINQRRAHEGSVTNNLATVDLSAASDSISLALCELLLPPGWFEVLMDLRSPKGRLPDGSVVTYEKISSMGNGYTFELESLIFASLARSVCEILDLDSSEVTVYGDDIILPSCAVPALREVFKYVGFTTNTKKTFSEGPFRESCGKHYYSGVDVTPFYIRHRIVSPADLILVLNNLYRWATIDGVWDPRAHSVYLKYRKLLPKQLQRNTIPDGYGDGALVGSVLINPFAKNRGWIRYVPVITDHTRDRERAELGSYLYDLFSRCLSESNAIDQLICRSNPTKISRSTGKFDIQYIACSSR AEITASLVKELRERTGAGMMDCKKALTEANGDIELAIENMRKSGAIKAAKKAGNVAADGVIKTKIDGNYGIILEVNCQTDFVAKDAGFQAFADKVLDAAVAGKITDVEVLKAQFEEERVALVAKIGENINIRRVAALEGDVLGSYQHGARIGVLVAAKGADEELVKHIAMHVAASKPEFIKPEDVSAEVVEKEYQVQLDIAMQSGKPKEIAEKMVEGRMKKFTGEVSLTGQPFVMEPSKTVGQLLKEHNAEVTGFIRFEVGEGIEKVETDFAAEVAAMSKQSHMSFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLSGASSRNSLSAQLRRAANTRIEVEGNLALSIANDLLLAYGQSPFNSEAECISFSPRFDGTPDDFRINYLKAEIMSKYDDFSLGIDTEAVAWEKFLAAEAECALTNARLYRPDYSEDFNFSLGESCIHMARRKIAKLIGDVPSVEGMLRHCRFSGGATTTNNRSYGHPSFKFALPQACTPRALKYVLALRASTHFDIRISDISPFNKAVTVPKNSKTDRCIAIEPGWNMFFQLGIGGILRDRLRCWGIDLNDQTINQRRAHEGSVTNNLATVDLSAASDSISLALCELLLPPGWFEVLMDLRSPKGRLPDGSVVTYEKISSMGNGYTFELESLIFASLARSVCEILDLDSSEVTVYGDDIILPSCAVPALREVFKYVGFTTNTKKTFSEGPFRESCGKHYYSGVDVTPFYIRHRIVSPADLILVLNNLYRWATIDGVWDPRAHSVYLKYRKLLPKQLQRNTIPDGYGDGALVGSVLINPFAKNRGWIRYVPVITDHTRDRERAELGSYLYDLFSRCLSESNAIDQLICRSNPTKISRSTGKFDIQYIACSSR 3agr-a1-m1-cA_3agr-a1-m2-cB Crystal structure of nucleoside triphosphate hydrolases from Neospora caninum C9K7J7 C9K7J7 2.8 X-RAY DIFFRACTION 152 1.0 29176 (Neospora caninum) 29176 (Neospora caninum) 591 591 3agr-a1-m1-cB_3agr-a1-m2-cA AETEKHISAGKARLQDLRDAERRCHDAWQAIVVIDGGSSATRTNVFLAKTRSCPRGGRHIDPDSIRLLGAGKRFAGLRGVLESWLDAYAGEDWESRSVDSKRLFQHVPEMEDSARGLMQLLEDDAVRILDEKLTEEQKVQVQAMGVPVLLCSTAGVRDFHDWYREALFVILRFLINHPKPGHGYKFFTNPEWTRPITGAEEGLYAFLALNHLSGRLGEDPARCYVDEYGMKQCRNDLVGVVEVGGASTQIVFPLQDGTALPSSIRAVNLQHERFLPSRFPSADVISVSFMQLGVASSSGLFFKELCSNAEFRHQGICYNPCIFRGFRQACSAGDVEILPDGTIVVDEDVRKNKLKPVATYCSANNPEISFKAMNEIQCRVNKIDPTKSLAERLRIDDCFQIVGTGDFDTCQAQVEELLVSPRFPLPANIEAASSGFESVGQVFKFASTASPMVITGGAMYASISTMQGLGLLPKDFQGDLEQLIAASRTYCSSPVVNNGDGLVIQLPNAEQKLTSMNYDLCKTIALTVSLLQHMEAGEHKPSSISWQKTVVGPDGKPRADLGWHVGAILHRVLFTEEWGRTAYETGFTYNM AETEKHISAGKARLQDLRDAERRCHDAWQAIVVIDGGSSATRTNVFLAKTRSCPRGGRHIDPDSIRLLGAGKRFAGLRGVLESWLDAYAGEDWESRSVDSKRLFQHVPEMEDSARGLMQLLEDDAVRILDEKLTEEQKVQVQAMGVPVLLCSTAGVRDFHDWYREALFVILRFLINHPKPGHGYKFFTNPEWTRPITGAEEGLYAFLALNHLSGRLGEDPARCYVDEYGMKQCRNDLVGVVEVGGASTQIVFPLQDGTALPSSIRAVNLQHERFLPSRFPSADVISVSFMQLGVASSSGLFFKELCSNAEFRHQGICYNPCIFRGFRQACSAGDVEILPDGTIVVDEDVRKNKLKPVATYCSANNPEISFKAMNEIQCRVNKIDPTKSLAERLRIDDCFQIVGTGDFDTCQAQVEELLVSPRFPLPANIEAASSGFESVGQVFKFASTASPMVITGGAMYASISTMQGLGLLPKDFQGDLEQLIAASRTYCSSPVVNNGDGLVIQLPNAEQKLTSMNYDLCKTIALTVSLLQHMEAGEHKPSSISWQKTVVGPDGKPRADLGWHVGAILHRVLFTEEWGRTAYETGFTYNM 3agr-a1-m1-cB_3agr-a1-m2-cB Crystal structure of nucleoside triphosphate hydrolases from Neospora caninum C9K7J7 C9K7J7 2.8 X-RAY DIFFRACTION 46 1.0 29176 (Neospora caninum) 29176 (Neospora caninum) 591 591 3agr-a1-m1-cA_3agr-a1-m2-cA AETEKHISAGKARLQDLRDAERRCHDAWQAIVVIDGGSSATRTNVFLAKTRSCPRGGRHIDPDSIRLLGAGKRFAGLRGVLESWLDAYAGEDWESRSVDSKRLFQHVPEMEDSARGLMQLLEDDAVRILDEKLTEEQKVQVQAMGVPVLLCSTAGVRDFHDWYREALFVILRFLINHPKPGHGYKFFTNPEWTRPITGAEEGLYAFLALNHLSGRLGEDPARCYVDEYGMKQCRNDLVGVVEVGGASTQIVFPLQDGTALPSSIRAVNLQHERFLPSRFPSADVISVSFMQLGVASSSGLFFKELCSNAEFRHQGICYNPCIFRGFRQACSAGDVEILPDGTIVVDEDVRKNKLKPVATYCSANNPEISFKAMNEIQCRVNKIDPTKSLAERLRIDDCFQIVGTGDFDTCQAQVEELLVSPRFPLPANIEAASSGFESVGQVFKFASTASPMVITGGAMYASISTMQGLGLLPKDFQGDLEQLIAASRTYCSSPVVNNGDGLVIQLPNAEQKLTSMNYDLCKTIALTVSLLQHMEAGEHKPSSISWQKTVVGPDGKPRADLGWHVGAILHRVLFTEEWGRTAYETGFTYNM AETEKHISAGKARLQDLRDAERRCHDAWQAIVVIDGGSSATRTNVFLAKTRSCPRGGRHIDPDSIRLLGAGKRFAGLRGVLESWLDAYAGEDWESRSVDSKRLFQHVPEMEDSARGLMQLLEDDAVRILDEKLTEEQKVQVQAMGVPVLLCSTAGVRDFHDWYREALFVILRFLINHPKPGHGYKFFTNPEWTRPITGAEEGLYAFLALNHLSGRLGEDPARCYVDEYGMKQCRNDLVGVVEVGGASTQIVFPLQDGTALPSSIRAVNLQHERFLPSRFPSADVISVSFMQLGVASSSGLFFKELCSNAEFRHQGICYNPCIFRGFRQACSAGDVEILPDGTIVVDEDVRKNKLKPVATYCSANNPEISFKAMNEIQCRVNKIDPTKSLAERLRIDDCFQIVGTGDFDTCQAQVEELLVSPRFPLPANIEAASSGFESVGQVFKFASTASPMVITGGAMYASISTMQGLGLLPKDFQGDLEQLIAASRTYCSSPVVNNGDGLVIQLPNAEQKLTSMNYDLCKTIALTVSLLQHMEAGEHKPSSISWQKTVVGPDGKPRADLGWHVGAILHRVLFTEEWGRTAYETGFTYNM 3agr-a1-m2-cA_3agr-a1-m2-cB Crystal structure of nucleoside triphosphate hydrolases from Neospora caninum C9K7J7 C9K7J7 2.8 X-RAY DIFFRACTION 16 1.0 29176 (Neospora caninum) 29176 (Neospora caninum) 591 591 3agr-a1-m1-cA_3agr-a1-m1-cB AETEKHISAGKARLQDLRDAERRCHDAWQAIVVIDGGSSATRTNVFLAKTRSCPRGGRHIDPDSIRLLGAGKRFAGLRGVLESWLDAYAGEDWESRSVDSKRLFQHVPEMEDSARGLMQLLEDDAVRILDEKLTEEQKVQVQAMGVPVLLCSTAGVRDFHDWYREALFVILRFLINHPKPGHGYKFFTNPEWTRPITGAEEGLYAFLALNHLSGRLGEDPARCYVDEYGMKQCRNDLVGVVEVGGASTQIVFPLQDGTALPSSIRAVNLQHERFLPSRFPSADVISVSFMQLGVASSSGLFFKELCSNAEFRHQGICYNPCIFRGFRQACSAGDVEILPDGTIVVDEDVRKNKLKPVATYCSANNPEISFKAMNEIQCRVNKIDPTKSLAERLRIDDCFQIVGTGDFDTCQAQVEELLVSPRFPLPANIEAASSGFESVGQVFKFASTASPMVITGGAMYASISTMQGLGLLPKDFQGDLEQLIAASRTYCSSPVVNNGDGLVIQLPNAEQKLTSMNYDLCKTIALTVSLLQHMEAGEHKPSSISWQKTVVGPDGKPRADLGWHVGAILHRVLFTEEWGRTAYETGFTYNM AETEKHISAGKARLQDLRDAERRCHDAWQAIVVIDGGSSATRTNVFLAKTRSCPRGGRHIDPDSIRLLGAGKRFAGLRGVLESWLDAYAGEDWESRSVDSKRLFQHVPEMEDSARGLMQLLEDDAVRILDEKLTEEQKVQVQAMGVPVLLCSTAGVRDFHDWYREALFVILRFLINHPKPGHGYKFFTNPEWTRPITGAEEGLYAFLALNHLSGRLGEDPARCYVDEYGMKQCRNDLVGVVEVGGASTQIVFPLQDGTALPSSIRAVNLQHERFLPSRFPSADVISVSFMQLGVASSSGLFFKELCSNAEFRHQGICYNPCIFRGFRQACSAGDVEILPDGTIVVDEDVRKNKLKPVATYCSANNPEISFKAMNEIQCRVNKIDPTKSLAERLRIDDCFQIVGTGDFDTCQAQVEELLVSPRFPLPANIEAASSGFESVGQVFKFASTASPMVITGGAMYASISTMQGLGLLPKDFQGDLEQLIAASRTYCSSPVVNNGDGLVIQLPNAEQKLTSMNYDLCKTIALTVSLLQHMEAGEHKPSSISWQKTVVGPDGKPRADLGWHVGAILHRVLFTEEWGRTAYETGFTYNM 3agv-a1-m1-cA_3agv-a1-m1-cB Crystal structure of a human IgG-aptamer complex P01857 P01857 2.15 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 208 5v4e-a2-m1-cC_5v4e-a2-m1-cD FLFPPKPKDTLMISRTPEVTCVEVKFNWYVDGVEVHNAKTKPREEQYVVSVLTVLHQDWLNGKEYKCKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS 3agy-a1-m1-cA_3agy-a1-m1-cB Crystal structure of human Hsp40 Hdj1 peptide-binding domain complexed with a C-terminal peptide of Hsp70 P25685 P25685 1.85 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 2qld-a1-m1-cA_2qld-a1-m2-cA 3agx-a1-m1-cB_3agx-a1-m1-cA 3agz-a1-m1-cB_3agz-a1-m1-cA THDLRVSLEEIYSGCTKKMKISHKRLNPDGKSIRNEDKILTIEVKKGWKEGTKITFPKEGDQTSNNIPADIVFVLKDKPHNIFKRDGSDVIYPARISLREALCGCTVNVPTLDGRTIPVVFKDVIRPGMRRKVPGEGLPLPKTPEKRGDLIIEFEVIFPERIPQTSRTVLEQVLPI THDLRVSLEEIYSGCTKKMKISHKRLNPDGKSIRNEDKILTIEVKKGWKEGTKITFPKEGDQTSNNIPADIVFVLKDKPHNIFKRDGSDVIYPARISLREALCGCTVNVPTLDGRTIPVVFKDVIRPGMRRKVPGEGLPLPKTPEKRGDLIIEFEVIFPERIPQTSRTVLEQVLPI 3ah7-a1-m1-cA_3ah7-a1-m2-cA Crystal structure of the ISC-like [2Fe-2S] ferredoxin (FdxB) from Pseudomonas putida JCM 20004 Q76CS9 Q76CS9 1.9 X-RAY DIFFRACTION 55 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 109 109 MPLVTFLPHEKFCPEGLTVEVKPGTNILELAHDHHIEMESACGGVKACTTCHCIVRKGFDSLEEADELEEDMLDKAWGLEAQSRLGCQVFVADEDLTIEIPKYSLNHAA MPLVTFLPHEKFCPEGLTVEVKPGTNILELAHDHHIEMESACGGVKACTTCHCIVRKGFDSLEEADELEEDMLDKAWGLEAQSRLGCQVFVADEDLTIEIPKYSLNHAA 3ahc-a1-m1-cA_3ahc-a1-m2-cA Resting form of Phosphoketolase from Bifidobacterium Breve D6PAH1 D6PAH1 1.7 X-RAY DIFFRACTION 389 1.0 1685 (Bifidobacterium breve) 1685 (Bifidobacterium breve) 802 802 3ahd-a1-m1-cA_3ahd-a1-m2-cA 3ahe-a1-m1-cA_3ahe-a1-m2-cA 3ahf-a1-m1-cA_3ahf-a1-m2-cA 3ahg-a1-m1-cA_3ahg-a1-m2-cA 3ahh-a1-m1-cA_3ahh-a1-m2-cA 3ahi-a1-m1-cA_3ahi-a1-m2-cA 3ahj-a1-m1-cA_3ahj-a1-m2-cA VIGTPWQKLDRPVSEEAIEGMDKYWRVTNYMSIGQIYLRSNPLMKEPFTRDDVKHRLVGHWGTTPGLNFLLAHINRLIADHQQNTVFIMGPGHGGPAGTSQSYVDGTYTEYYPNITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAVMNNPSLFVPCIIGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILARISDEELHDFFRGMGYHPYEFVAGFDNEDHMSIHRRFAELFETIFDEICDIKAAAQTDDMTRPFYPMLIFRTPKGWTCPKFIDGKKTEGSWRAHQVPLASARDTEEHFEVLKGWMESYKPEELFNADGSIKDDVTAFMPKGELRIGANPNANGGVIREDLKLPELDQYEVTGVKEYGHGWGQVEAPRALGAYCRDIIKNNPDSFRIFGPDETASNRLNATYEVTDKQWDNGYLSGLVDEHMAVTGQVTEQLSEHQCEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPISSVNLLVSSHVWRQDHNGFSHQDPGVTSLLINKTFNNDHVTNIYFATDANMLLAISEKCFKSTNKINAIFAGKQPAPTWVTLDEARAELEAGAAEWKWASNAENNDEVQVVLASAGDVPTQELMAASDALNKMGIKFKVVNVVDLLKLQSRENNDEALTDEEFTELFTADKPVLFAYHSYAQDVRGLIYDRPNHDNFHVVGYKEQGSTTTPFDMVRVNDMDRYALQAAALKLIDADKYADKIDELNAFRKKAFQFAVDNGYDIPEFTDWVYPDV VIGTPWQKLDRPVSEEAIEGMDKYWRVTNYMSIGQIYLRSNPLMKEPFTRDDVKHRLVGHWGTTPGLNFLLAHINRLIADHQQNTVFIMGPGHGGPAGTSQSYVDGTYTEYYPNITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAVMNNPSLFVPCIIGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILARISDEELHDFFRGMGYHPYEFVAGFDNEDHMSIHRRFAELFETIFDEICDIKAAAQTDDMTRPFYPMLIFRTPKGWTCPKFIDGKKTEGSWRAHQVPLASARDTEEHFEVLKGWMESYKPEELFNADGSIKDDVTAFMPKGELRIGANPNANGGVIREDLKLPELDQYEVTGVKEYGHGWGQVEAPRALGAYCRDIIKNNPDSFRIFGPDETASNRLNATYEVTDKQWDNGYLSGLVDEHMAVTGQVTEQLSEHQCEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPISSVNLLVSSHVWRQDHNGFSHQDPGVTSLLINKTFNNDHVTNIYFATDANMLLAISEKCFKSTNKINAIFAGKQPAPTWVTLDEARAELEAGAAEWKWASNAENNDEVQVVLASAGDVPTQELMAASDALNKMGIKFKVVNVVDLLKLQSRENNDEALTDEEFTELFTADKPVLFAYHSYAQDVRGLIYDRPNHDNFHVVGYKEQGSTTTPFDMVRVNDMDRYALQAAALKLIDADKYADKIDELNAFRKKAFQFAVDNGYDIPEFTDWVYPDV 3ahp-a2-m1-cD_3ahp-a2-m1-cF Crystal structure of stable protein, CutA1, from a psychrotrophic bacterium Shewanella sp. SIB1 E7FH74 E7FH74 2.7 X-RAY DIFFRACTION 78 1.0 117911 (Shewanella sp. SIB1) 117911 (Shewanella sp. SIB1) 106 107 3ahp-a1-m1-cA_3ahp-a1-m1-cB 3ahp-a1-m1-cA_3ahp-a1-m1-cC 3ahp-a1-m1-cB_3ahp-a1-m1-cC 3ahp-a2-m1-cD_3ahp-a2-m1-cE 3ahp-a2-m1-cE_3ahp-a2-m1-cF KPEQLLIFTTCPDADIACRIATALVEAKLAACVQIGQAVESIYQWDNNICQSHEVPMQIKCMTTDYPAIEQLVITMHPYEVPEFIATPIIGGFGPYLQWIKDNSPS YKPEQLLIFTTCPDADIACRIATALVEAKLAACVQIGQAVESIYQWDNNICQSHEVPMQIKCMTTDYPAIEQLVITMHPYEVPEFIATPIIGGFGPYLQWIKDNSPS 3ahu-a1-m1-cA_3ahu-a1-m1-cC Crystal structure of YmaH (Hfq) from Bacillus subtilis in complex with an RNA aptamer. O31796 O31796 2.2 X-RAY DIFFRACTION 53 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 66 66 3ahu-a1-m1-cB_3ahu-a1-m1-cC 3hsb-a1-m1-cA_3hsb-a1-m1-cB 3hsb-a1-m1-cA_3hsb-a1-m1-cF 3hsb-a1-m1-cC_3hsb-a1-m1-cB 3hsb-a1-m1-cC_3hsb-a1-m1-cD 3hsb-a1-m1-cD_3hsb-a1-m1-cE 3hsb-a1-m1-cF_3hsb-a1-m1-cE NIQDQFLNQIRKENTYVTVFLLNGFQLRGQVKGFDNFTVLLESEGKQQLIYKHAISTFAPQKNVQL NIQDQFLNQIRKENTYVTVFLLNGFQLRGQVKGFDNFTVLLESEGKQQLIYKHAISTFAPQKNVQL 3ai3-a1-m1-cA_3ai3-a1-m1-cG The crystal structure of L-Sorbose reductase from Gluconobacter frateurii complexed with NADPH and L-sorbose A4PB64 A4PB64 1.8 X-RAY DIFFRACTION 23 1.0 38308 (Gluconobacter frateurii) 38308 (Gluconobacter frateurii) 263 263 3ai1-a1-m1-cA_3ai1-a1-m2-cB 3ai1-a1-m1-cB_3ai1-a1-m2-cA 3ai2-a1-m1-cA_3ai2-a1-m1-cD 3ai2-a1-m1-cB_3ai2-a1-m1-cC 3ai2-a2-m1-cE_3ai2-a2-m1-cG 3ai2-a2-m1-cF_3ai2-a2-m1-cH 3ai3-a1-m1-cC_3ai3-a1-m1-cE MDMGISGKVAVITGSSSGIGLAIAEGFAKEGAHIVLVARQVDRLHEAARSLKEKFGVRVLEVAVDVATPEGVDAVVESVRSSFGGADILVNNAGTGSNETIMEAADEKWQFYWELLVMAAVRLARGLVPGMRARGGGAIIHNASICAVQPLWYEPIYNVTKAALMMFSKTLATEVIKDNIRVNCINPGLILTPDWIKTAKELTKDNGGDWKGYLQSVADEHAPIKRFASPEELANFFVFLCSERATYSVGSAYFVDGGMLKTL MDMGISGKVAVITGSSSGIGLAIAEGFAKEGAHIVLVARQVDRLHEAARSLKEKFGVRVLEVAVDVATPEGVDAVVESVRSSFGGADILVNNAGTGSNETIMEAADEKWQFYWELLVMAAVRLARGLVPGMRARGGGAIIHNASICAVQPLWYEPIYNVTKAALMMFSKTLATEVIKDNIRVNCINPGLILTPDWIKTAKELTKDNGGDWKGYLQSVADEHAPIKRFASPEELANFFVFLCSERATYSVGSAYFVDGGMLKTL 3ai3-a1-m1-cC_3ai3-a1-m1-cG The crystal structure of L-Sorbose reductase from Gluconobacter frateurii complexed with NADPH and L-sorbose A4PB64 A4PB64 1.8 X-RAY DIFFRACTION 108 1.0 38308 (Gluconobacter frateurii) 38308 (Gluconobacter frateurii) 263 263 3ai1-a1-m1-cA_3ai1-a1-m1-cB 3ai1-a1-m2-cA_3ai1-a1-m2-cB 3ai2-a1-m1-cA_3ai2-a1-m1-cC 3ai2-a1-m1-cB_3ai2-a1-m1-cD 3ai2-a2-m1-cE_3ai2-a2-m1-cH 3ai2-a2-m1-cF_3ai2-a2-m1-cG 3ai3-a1-m1-cA_3ai3-a1-m1-cE MDMGISGKVAVITGSSSGIGLAIAEGFAKEGAHIVLVARQVDRLHEAARSLKEKFGVRVLEVAVDVATPEGVDAVVESVRSSFGGADILVNNAGTGSNETIMEAADEKWQFYWELLVMAAVRLARGLVPGMRARGGGAIIHNASICAVQPLWYEPIYNVTKAALMMFSKTLATEVIKDNIRVNCINPGLILTPDWIKTAKELTKDNGGDWKGYLQSVADEHAPIKRFASPEELANFFVFLCSERATYSVGSAYFVDGGMLKTL MDMGISGKVAVITGSSSGIGLAIAEGFAKEGAHIVLVARQVDRLHEAARSLKEKFGVRVLEVAVDVATPEGVDAVVESVRSSFGGADILVNNAGTGSNETIMEAADEKWQFYWELLVMAAVRLARGLVPGMRARGGGAIIHNASICAVQPLWYEPIYNVTKAALMMFSKTLATEVIKDNIRVNCINPGLILTPDWIKTAKELTKDNGGDWKGYLQSVADEHAPIKRFASPEELANFFVFLCSERATYSVGSAYFVDGGMLKTL 3ai3-a1-m1-cE_3ai3-a1-m1-cG The crystal structure of L-Sorbose reductase from Gluconobacter frateurii complexed with NADPH and L-sorbose A4PB64 A4PB64 1.8 X-RAY DIFFRACTION 92 1.0 38308 (Gluconobacter frateurii) 38308 (Gluconobacter frateurii) 263 263 3ai1-a1-m1-cA_3ai1-a1-m2-cA 3ai1-a1-m1-cB_3ai1-a1-m2-cB 3ai2-a1-m1-cA_3ai2-a1-m1-cB 3ai2-a1-m1-cC_3ai2-a1-m1-cD 3ai2-a2-m1-cE_3ai2-a2-m1-cF 3ai2-a2-m1-cG_3ai2-a2-m1-cH 3ai3-a1-m1-cA_3ai3-a1-m1-cC MDMGISGKVAVITGSSSGIGLAIAEGFAKEGAHIVLVARQVDRLHEAARSLKEKFGVRVLEVAVDVATPEGVDAVVESVRSSFGGADILVNNAGTGSNETIMEAADEKWQFYWELLVMAAVRLARGLVPGMRARGGGAIIHNASICAVQPLWYEPIYNVTKAALMMFSKTLATEVIKDNIRVNCINPGLILTPDWIKTAKELTKDNGGDWKGYLQSVADEHAPIKRFASPEELANFFVFLCSERATYSVGSAYFVDGGMLKTL MDMGISGKVAVITGSSSGIGLAIAEGFAKEGAHIVLVARQVDRLHEAARSLKEKFGVRVLEVAVDVATPEGVDAVVESVRSSFGGADILVNNAGTGSNETIMEAADEKWQFYWELLVMAAVRLARGLVPGMRARGGGAIIHNASICAVQPLWYEPIYNVTKAALMMFSKTLATEVIKDNIRVNCINPGLILTPDWIKTAKELTKDNGGDWKGYLQSVADEHAPIKRFASPEELANFFVFLCSERATYSVGSAYFVDGGMLKTL 3ai6-a1-m1-cB_3ai6-a1-m1-cC Triple-helical structure of (D-Pro-D-Pro-Gly)9 at 1.1 A resolution Q80BK4 Q80BK4 1.1 X-RAY DIFFRACTION 17 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 9 9 3ai6-a1-m1-cA_3ai6-a1-m1-cC GGGGGGGGG GGGGGGGGG 3ai6-a2-m1-cE_3ai6-a2-m1-cD Triple-helical structure of (D-Pro-D-Pro-Gly)9 at 1.1 A resolution Q80BK4 Q80BK4 1.1 X-RAY DIFFRACTION 16 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 8 9 3ai6-a1-m1-cA_3ai6-a1-m1-cB 3ai6-a2-m1-cD_3ai6-a2-m1-cF GGGGGGGG GGGGGGGGG 3ai6-a2-m1-cE_3ai6-a2-m1-cF Triple-helical structure of (D-Pro-D-Pro-Gly)9 at 1.1 A resolution Q80BK4 Q80BK4 1.1 X-RAY DIFFRACTION 16 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 8 9 GGGGGGGG GGGGGGGGG 3ai7-a4-m1-cG_3ai7-a4-m1-cH Crystal Structure of Bifidobacterium Longum Phosphoketolase Q6R2Q7 Q6R2Q7 2.2 X-RAY DIFFRACTION 375 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 813 813 3ai7-a1-m1-cA_3ai7-a1-m1-cB 3ai7-a2-m1-cC_3ai7-a2-m1-cD 3ai7-a3-m1-cE_3ai7-a3-m1-cF 6lxv-a1-m1-cA_6lxv-a1-m1-cB 6lxv-a1-m1-cC_6lxv-a1-m1-cD 6lxv-a1-m1-cE_6lxv-a1-m1-cF 6lxv-a1-m1-cG_6lxv-a1-m1-cH 7c8h-a1-m1-cA_7c8h-a1-m1-cB 7c8h-a1-m1-cC_7c8h-a1-m1-cD 7c8h-a1-m1-cF_7c8h-a1-m1-cE 7c8h-a1-m1-cG_7c8h-a1-m1-cH 7c8i-a1-m1-cA_7c8i-a1-m1-cB 7c8i-a1-m1-cC_7c8i-a1-m1-cD 7c8i-a1-m1-cE_7c8i-a1-m1-cF 7c8i-a1-m1-cG_7c8i-a1-m1-cH TSPVIGTPWKKLNAPVSEEALEGVDKYWRVANYLSIGQIYLRSNPLMKEPFTREDVKHRLVGHWGTTPGLNFLIGHINRFIADHGQNTVIIMGPGHGGPAGTSQSYLDGTYTETFPKITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAIMDNPSLFVPAIVGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILSRISDEELHEFFHGMGYEPYEFVAGFDDEDHMSIHRRFAELWETIWDEICDIKATAQTDNVHRPFYPMLIFRTPKGWTCPKYIDGKKTEGSWRSHQVPLASARDTEAHFEVLKNWLESYKPEELFDANGAVKDDVLAFMPKGELRIGANPNANGGVIRNDLKLPNLEDYEVKEVAEYGHGWGQLEATRTLGAYTRDIIKNNPRDFRIFGPDETASNRLQASYEVTNKQWDAGYISDEVDEHMHVSGQVVEQLSEHQMEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPIASMNLLVSSHVWRQDHNGFSHQDPGVTSVLLNKCFHNDHVIGIYFATDANMLLAIAEKCYKSTNKINAIIAGKQPAATWLTLDEARAELEKGAAAWDWASTAKNNDEAEVVLAAAGDVPTQEIMAASDKLKELGVKFKVVNVADLLSLQSAKENDEALTDEEFADIFTADKPVLFAYHSYAHDVRGLIYDRPNHDNFNVHGYEEEGSTTTPYDMVRVNRIDRYELTAEALRMIDADKYADKIDELEKFRDEAFQFAVDNGYDHPDYTDWVYSGVNTDKKGAV TSPVIGTPWKKLNAPVSEEALEGVDKYWRVANYLSIGQIYLRSNPLMKEPFTREDVKHRLVGHWGTTPGLNFLIGHINRFIADHGQNTVIIMGPGHGGPAGTSQSYLDGTYTETFPKITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAIMDNPSLFVPAIVGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILSRISDEELHEFFHGMGYEPYEFVAGFDDEDHMSIHRRFAELWETIWDEICDIKATAQTDNVHRPFYPMLIFRTPKGWTCPKYIDGKKTEGSWRSHQVPLASARDTEAHFEVLKNWLESYKPEELFDANGAVKDDVLAFMPKGELRIGANPNANGGVIRNDLKLPNLEDYEVKEVAEYGHGWGQLEATRTLGAYTRDIIKNNPRDFRIFGPDETASNRLQASYEVTNKQWDAGYISDEVDEHMHVSGQVVEQLSEHQMEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPIASMNLLVSSHVWRQDHNGFSHQDPGVTSVLLNKCFHNDHVIGIYFATDANMLLAIAEKCYKSTNKINAIIAGKQPAATWLTLDEARAELEKGAAAWDWASTAKNNDEAEVVLAAAGDVPTQEIMAASDKLKELGVKFKVVNVADLLSLQSAKENDEALTDEEFADIFTADKPVLFAYHSYAHDVRGLIYDRPNHDNFNVHGYEEEGSTTTPYDMVRVNRIDRYELTAEALRMIDADKYADKIDELEKFRDEAFQFAVDNGYDHPDYTDWVYSGVNTDKKGAV 3aia-a1-m1-cA_3aia-a1-m1-cB Crystal structure of DUF358 reveals a putative SPOUT-class methltransferase Q59034 Q59034 1.4 X-RAY DIFFRACTION 89 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 200 200 3ai9-a1-m2-cX_3ai9-a1-m1-cX MREFIFKANKTITSSDINLKDLPGSCGRLDLLCRCVSDAFFLSHDIRRDVVFYAVLYGQPNPPVCIKFVGSELKKVSPDERNIAIFIKKALKKFEELDEEQRKDWNQSTPGIYVRRLGFRNLVLEKLEEGKNIYYLHMNGEDVENVDIENPVFIIGDHIGIGEEDERFLDEIKAKRISLSPLELHANHCITIIHNVLDKK MREFIFKANKTITSSDINLKDLPGSCGRLDLLCRCVSDAFFLSHDIRRDVVFYAVLYGQPNPPVCIKFVGSELKKVSPDERNIAIFIKKALKKFEELDEEQRKDWNQSTPGIYVRRLGFRNLVLEKLEEGKNIYYLHMNGEDVENVDIENPVFIIGDHIGIGEEDERFLDEIKAKRISLSPLELHANHCITIIHNVLDKK 3ain-a2-m1-cB_3ain-a2-m1-cC R267G mutant of a HSL-like carboxylesterase from Sulfolobus tokodaii Q976W8 Q976W8 1.65 X-RAY DIFFRACTION 68 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 283 283 3aik-a1-m1-cA_3aik-a1-m1-cD 3aik-a2-m1-cB_3aik-a2-m1-cC 3ail-a1-m1-cA_3ail-a1-m1-cD 3ail-a2-m1-cB_3ail-a2-m1-cC 3aim-a1-m1-cA_3aim-a1-m1-cD 3aim-a2-m1-cB_3aim-a2-m1-cC 3ain-a1-m1-cA_3ain-a1-m1-cD 3aio-a1-m1-cA_3aio-a1-m1-cD 3aio-a2-m1-cB_3aio-a2-m1-cC ASVEEIRSLFKQFSSLTPREEVGKIEDITIPGSETNIKARVYYPKTQGPYGVLVYYHGGGFVLGDIESYDPLCRAITNSCQCVTISVDYRLAPENKFPAAVVDSFDALKWVYNNSEKFNGKYGIAVGGDSAGGNLAAVTAILSKKENIKLKYQVLIYPAVSFDLITKSLYDNGEGFFLTREHIDWFGQQYLRSFADLLDFRFSPILADLNDLPPALIITAEHDPLRDQGEAYANKLLQSGVQVTSVGFNNVIHGFVSFFPFIEQGRDAIGLIGYVLRKVFYGK ASVEEIRSLFKQFSSLTPREEVGKIEDITIPGSETNIKARVYYPKTQGPYGVLVYYHGGGFVLGDIESYDPLCRAITNSCQCVTISVDYRLAPENKFPAAVVDSFDALKWVYNNSEKFNGKYGIAVGGDSAGGNLAAVTAILSKKENIKLKYQVLIYPAVSFDLITKSLYDNGEGFFLTREHIDWFGQQYLRSFADLLDFRFSPILADLNDLPPALIITAEHDPLRDQGEAYANKLLQSGVQVTSVGFNNVIHGFVSFFPFIEQGRDAIGLIGYVLRKVFYGK 3ain-a4-m1-cC_3ain-a4-m1-cD R267G mutant of a HSL-like carboxylesterase from Sulfolobus tokodaii Q976W8 Q976W8 1.65 X-RAY DIFFRACTION 61 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 283 283 3aik-a3-m1-cA_3aik-a3-m1-cB 3aik-a4-m1-cC_3aik-a4-m1-cD 3ail-a3-m1-cA_3ail-a3-m1-cB 3ail-a4-m1-cC_3ail-a4-m1-cD 3aim-a3-m1-cA_3aim-a3-m1-cB 3aim-a4-m1-cC_3aim-a4-m1-cD 3ain-a3-m1-cA_3ain-a3-m1-cB 3aio-a3-m1-cA_3aio-a3-m1-cB 3aio-a4-m1-cC_3aio-a4-m1-cD ASVEEIRSLFKQFSSLTPREEVGKIEDITIPGSETNIKARVYYPKTQGPYGVLVYYHGGGFVLGDIESYDPLCRAITNSCQCVTISVDYRLAPENKFPAAVVDSFDALKWVYNNSEKFNGKYGIAVGGDSAGGNLAAVTAILSKKENIKLKYQVLIYPAVSFDLITKSLYDNGEGFFLTREHIDWFGQQYLRSFADLLDFRFSPILADLNDLPPALIITAEHDPLRDQGEAYANKLLQSGVQVTSVGFNNVIHGFVSFFPFIEQGRDAIGLIGYVLRKVFYGK ASVEEIRSLFKQFSSLTPREEVGKIEDITIPGSETNIKARVYYPKTQGPYGVLVYYHGGGFVLGDIESYDPLCRAITNSCQCVTISVDYRLAPENKFPAAVVDSFDALKWVYNNSEKFNGKYGIAVGGDSAGGNLAAVTAILSKKENIKLKYQVLIYPAVSFDLITKSLYDNGEGFFLTREHIDWFGQQYLRSFADLLDFRFSPILADLNDLPPALIITAEHDPLRDQGEAYANKLLQSGVQVTSVGFNNVIHGFVSFFPFIEQGRDAIGLIGYVLRKVFYGK 3aj2-a1-m1-cC_3aj2-a1-m2-cD The structure of AxCeSD octamer (C-terminal HIS-tag) from Acetobacter xylinum P37719 P37719 2.7 X-RAY DIFFRACTION 29 0.993 28448 (Komagataeibacter xylinus) 28448 (Komagataeibacter xylinus) 145 158 3a8e-a1-m1-cA_3a8e-a1-m1-cC 3a8e-a1-m1-cA_3a8e-a1-m2-cB 3a8e-a1-m1-cD_3a8e-a1-m1-cB 3a8e-a1-m1-cD_3a8e-a1-m2-cC 3a8e-a1-m2-cA_3a8e-a1-m1-cB 3a8e-a1-m2-cA_3a8e-a1-m2-cC 3a8e-a1-m2-cD_3a8e-a1-m1-cC 3a8e-a1-m2-cD_3a8e-a1-m2-cB 3aj1-a1-m1-cA_3aj1-a1-m1-cC 3aj1-a1-m1-cA_3aj1-a1-m1-cG 3aj1-a1-m1-cB_3aj1-a1-m1-cH 3aj1-a1-m1-cC_3aj1-a1-m1-cE 3aj1-a1-m1-cD_3aj1-a1-m1-cB 3aj1-a1-m1-cD_3aj1-a1-m1-cF 3aj1-a1-m1-cF_3aj1-a1-m1-cH 3aj1-a1-m1-cG_3aj1-a1-m1-cE 3aj2-a1-m1-cA_3aj2-a1-m1-cD 3aj2-a1-m1-cA_3aj2-a1-m2-cB 3aj2-a1-m1-cC_3aj2-a1-m1-cB 3aj2-a1-m2-cA_3aj2-a1-m1-cB 3aj2-a1-m2-cA_3aj2-a1-m2-cD 3aj2-a1-m2-cC_3aj2-a1-m1-cD 3aj2-a1-m2-cC_3aj2-a1-m2-cB 7zzq-a1-m1-cA_7zzq-a1-m1-cF 7zzq-a1-m1-cC_7zzq-a1-m1-cB 7zzq-a1-m1-cC_7zzq-a1-m1-cH 7zzq-a1-m1-cE_7zzq-a1-m1-cB 7zzq-a1-m1-cE_7zzq-a1-m1-cH 7zzq-a1-m1-cG_7zzq-a1-m1-cF 7zzq-a1-m1-cI_7zzq-a1-m1-cL 7zzq-a1-m1-cI_7zzq-a1-m1-cN 7zzq-a1-m1-cK_7zzq-a1-m1-cJ 7zzq-a1-m1-cM_7zzq-a1-m1-cJ 7zzq-a1-m1-cO_7zzq-a1-m1-cL 7zzq-a1-m1-cO_7zzq-a1-m1-cN 7zzy-a1-m1-cA_7zzy-a1-m1-cC 7zzy-a1-m1-cA_7zzy-a1-m1-cG 7zzy-a1-m1-cB_7zzy-a1-m1-cD 7zzy-a1-m1-cB_7zzy-a1-m1-cH 7zzy-a1-m1-cC_7zzy-a1-m1-cE 7zzy-a1-m1-cD_7zzy-a1-m1-cF 7zzy-a1-m1-cE_7zzy-a1-m1-cG 7zzy-a1-m1-cF_7zzy-a1-m1-cH FEKKPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVDANAVPRQTIIMYMRV EKKPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVDAEDLNAVPRQTIIMYMRVRSSATHHHHHH 3aj2-a1-m2-cC_3aj2-a1-m2-cD The structure of AxCeSD octamer (C-terminal HIS-tag) from Acetobacter xylinum P37719 P37719 2.7 X-RAY DIFFRACTION 80 0.993 28448 (Komagataeibacter xylinus) 28448 (Komagataeibacter xylinus) 145 158 3a8e-a1-m1-cA_3a8e-a1-m1-cB 3a8e-a1-m1-cD_3a8e-a1-m1-cC 3a8e-a1-m2-cA_3a8e-a1-m2-cB 3a8e-a1-m2-cD_3a8e-a1-m2-cC 3aj1-a1-m1-cA_3aj1-a1-m1-cB 3aj1-a1-m1-cC_3aj1-a1-m1-cD 3aj1-a1-m1-cF_3aj1-a1-m1-cE 3aj1-a1-m1-cG_3aj1-a1-m1-cH 3aj2-a1-m1-cA_3aj2-a1-m1-cB 3aj2-a1-m1-cC_3aj2-a1-m1-cD 3aj2-a1-m2-cA_3aj2-a1-m2-cB 7zzq-a1-m1-cA_7zzq-a1-m1-cB 7zzq-a1-m1-cE_7zzq-a1-m1-cF 7zzq-a1-m1-cG_7zzq-a1-m1-cH 7zzq-a1-m1-cI_7zzq-a1-m1-cJ 7zzq-a1-m1-cK_7zzq-a1-m1-cL 7zzq-a1-m1-cM_7zzq-a1-m1-cN 7zzy-a1-m1-cA_7zzy-a1-m1-cB 7zzy-a1-m1-cC_7zzy-a1-m1-cD 7zzy-a1-m1-cE_7zzy-a1-m1-cF 7zzy-a1-m1-cG_7zzy-a1-m1-cH FEKKPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVDANAVPRQTIIMYMRV EKKPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVDAEDLNAVPRQTIIMYMRVRSSATHHHHHH 3aj6-a3-m1-cA_3aj6-a3-m1-cB HA1 (HA33) mutant F179I of botulinum type C progenitor toxin complexed with N-acetylgalactosamine, bound at site II P0DPR0 P0DPR0 1.48 X-RAY DIFFRACTION 65 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 283 284 1qxm-a1-m1-cA_1qxm-a1-m1-cB 2e4m-a1-m1-cA_2e4m-a1-m1-cB 3ah1-a3-m1-cA_3ah1-a3-m1-cB 3ah2-a3-m1-cA_3ah2-a3-m1-cB 3ah4-a3-m1-cA_3ah4-a3-m1-cB 3aj5-a3-m1-cA_3aj5-a3-m1-cB TNANDLRNNEVFFISPSNNTNKVLDKISQSEVKLWNKLSGANQKWRLIYDTNKQAYKIKVMDNTSLILTWNAPLSSVSVKTDTNGDNQYWYLLQNYISRNVIIRNYMNPNLVLQYNIDDTLMVSTQTSSSNQFFKFSNCIYEALNNRNCKLQTQLNSDRFLSKNLNSQIIVLWQWIDSSRQKWIIEYNETKSAYTLKCQENNRYLTWIQNSNNYVETYQSTDSLIQYWNINYLDNDASKYILYNLQDTNRVLDVYNSQIANGTHVIVDSYHGNTNQQWIINLI QTNANDLRNNEVFFISPSNNTNKVLDKISQSEVKLWNKLSGANQKWRLIYDTNKQAYKIKVMDNTSLILTWNAPLSSVSVKTDTNGDNQYWYLLQNYISRNVIIRNYMNPNLVLQYNIDDTLMVSTQTSSSNQFFKFSNCIYEALNNRNCKLQTQLNSDRFLSKNLNSQIIVLWQWIDSSRQKWIIEYNETKSAYTLKCQENNRYLTWIQNSNNYVETYQSTDSLIQYWNINYLDNDASKYILYNLQDTNRVLDVYNSQIANGTHVIVDSYHGNTNQQWIINLI 3ajf-a2-m1-cC_3ajf-a2-m1-cB Structural insigths into dsRNA binding and RNA silencing suppression by NS3 protein of rice hoja blanca tenuivirus Q67897 Q67897 2 X-RAY DIFFRACTION 78 1.0 480611 (Rice hoja blanca virus - cr) 480611 (Rice hoja blanca virus - cr) 86 89 3ajf-a1-m1-cD_3ajf-a1-m1-cA NIVLTCKDLPIPIDLLSLFFDILNERHPSFDEHFLQIRKPDDPENLSVFLKSAIWLSHKRDLPGHYRLPLTCLVSTYSEYFVELKP GLSNIVLTCKDLPIPIDLLSLFFDILNERHPSFDEHFLQIRKPDDPENLSVFLKSAIWLSHKRDLPGHYRLPLTCLVSTYSEYFVELKP 3ajr-a1-m1-cB_3ajr-a1-m1-cA Crystal structure of L-3-Hydroxynorvaline bound L-Threonine dehydrogenase (Y137F) from Hyperthermophilic Archaeon Thermoplasma volcanium Q97BK3 Q97BK3 1.77 X-RAY DIFFRACTION 58 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 308 314 3a1n-a1-m1-cB_3a1n-a1-m1-cA 3a4v-a1-m1-cB_3a4v-a1-m1-cA 3a9w-a1-m1-cB_3a9w-a1-m1-cA MILVTGSSGQIGTELVPYLAEKYGKKNVIASDIVQRDTGGIKFITLDVSNRDEIDRAVEKYSIDAIFHLAGILSAKGEKDPALAYKVNMNGTYNILEAAKQHRVEKVVIPSTIGVFGPETPKNKVPSITITRPRTMFGVTKIAAELLGQYYYEKFGLDVRSLRYPGIISYKAEPTAGTTDYAVEIFYYAVKREKYKCYLAPNRALPMMYMPDALKALVDLYEADRDKLVLRNGYNVTAYTFTPSELYSKIKERIPEFEIEYKEDFRDKIAATWPESLDSSEASNEWGFSIEYDLDRTIDDMIDHISEK MILVTGSSGQIGTELVPYLAEKYGKKNVIASDIVQRDTGGIKFITLDVSNRDEIDRAVEKYSIDAIFHLAGILSAKGEKDPALAYKVNMNGTYNILEAAKQHRVEKVVIPSTIGVFGPETPKNKVPSITITRPRTMFGVTKIAAELLGQYYYEKFGLDVRSLRYPGIISYKAEPTAGTTDYAVEIFYYAVKREKYKCYLAPNRALPMMYMPDALKALVDLYEADRDKLVLRNGYNVTAYTFTPSELYSKIKERIPEFEIEYKEDFRDKIAATWPESLDSSEASNEWGFSIEYDLDRTIDDMIDHISEKLGIEGK 3ajv-a1-m1-cD_3ajv-a1-m1-cB Splicing endonuclease from Aeropyrum pernix Q9YBF1 Q9YBF1 1.7 X-RAY DIFFRACTION 27 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 178 180 3p1z-a1-m1-cB_3p1z-a1-m1-cD 3p1z-a2-m1-cF_3p1z-a2-m1-cH 3p1z-a3-m1-cJ_3p1z-a3-m1-cL KASGVLIGDSVLVTDVEQARSLYSCGYYGQPLDVEKPRGADFEGPLRLSLIESLYLAEKGVLEVAKPDGSSVGVEDLRTAVRGNPRFSMLYNIYRDLRERGFVVRSGLKFGSDFAVYRLGPGIDAAPFIVHAYSPEDNIDPVEIVRAGRLSHSVRKKFVFAVTRGGDVSYLMIDWFRP PIKASGVLIGDSVLVTDVEQARSLYSCGYYGQPLDVEKPRGADFEGPLRLSLIESLYLAEKGVLEVAKPDGSSVGVEDLRTAVRGNPRFSMLYNIYRDLRERGFVVRSGLKFGSDFAVYRLGPGIDAAPFIVHAYSPEDNIDPVEIVRAGRLSHSVRKKFVFAVTRGGDVSYLMIDWFRP 3ajw-a1-m1-cA_3ajw-a1-m2-cA Structure of FliJ, a soluble component of flagellar type III export apparatus P0A1K1 P0A1K1 2.1 X-RAY DIFFRACTION 77 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 134 134 QHGALETLKDLAEKEVDDAARLLGEMRRGCQQAEEQLKMLIDYQNEYRSNLNMGNGIASNRWINYQQFIQTLEKAIEQHRLQLTQWTQKVDLALKSWREKKQRLQAWQTLQDRQTAAALLAENRMDQKKMDEFA QHGALETLKDLAEKEVDDAARLLGEMRRGCQQAEEQLKMLIDYQNEYRSNLNMGNGIASNRWINYQQFIQTLEKAIEQHRLQLTQWTQKVDLALKSWREKKQRLQAWQTLQDRQTAAALLAENRMDQKKMDEFA 3ajw-a2-m1-cA_3ajw-a2-m3-cA Structure of FliJ, a soluble component of flagellar type III export apparatus P0A1K1 P0A1K1 2.1 X-RAY DIFFRACTION 67 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 134 134 QHGALETLKDLAEKEVDDAARLLGEMRRGCQQAEEQLKMLIDYQNEYRSNLNMGNGIASNRWINYQQFIQTLEKAIEQHRLQLTQWTQKVDLALKSWREKKQRLQAWQTLQDRQTAAALLAENRMDQKKMDEFA QHGALETLKDLAEKEVDDAARLLGEMRRGCQQAEEQLKMLIDYQNEYRSNLNMGNGIASNRWINYQQFIQTLEKAIEQHRLQLTQWTQKVDLALKSWREKKQRLQAWQTLQDRQTAAALLAENRMDQKKMDEFA 3ajx-a2-m1-cC_3ajx-a2-m1-cD Crystal Structure of 3-Hexulose-6-Phosphate Synthase Q9LBW4 Q9LBW4 1.6 X-RAY DIFFRACTION 101 1.0 1777 (Mycobacterium gastri) 1777 (Mycobacterium gastri) 207 207 3ajx-a1-m1-cA_3ajx-a1-m1-cB MKLQVAIDLLSTEAALELAGKVAEYVDIIELGTPLIKAEGLSVITAVKKAHPDKIVFADMKTMDAGELEADIAFKAGADLVTVLGSADDSTIAGAVKAAQAHNKGVVVDLIGIEDKATRAQEVRALGAKFVEMHAGLDEQAKPGFDLNGLLAAGEKARVPFSVAGGVKVATIPAVQKAGAEVAVAGGAIYGAADPAAAAKELRAAIA MKLQVAIDLLSTEAALELAGKVAEYVDIIELGTPLIKAEGLSVITAVKKAHPDKIVFADMKTMDAGELEADIAFKAGADLVTVLGSADDSTIAGAVKAAQAHNKGVVVDLIGIEDKATRAQEVRALGAKFVEMHAGLDEQAKPGFDLNGLLAAGEKARVPFSVAGGVKVATIPAVQKAGAEVAVAGGAIYGAADPAAAAKELRAAIA 3ajy-a1-m1-cA_3ajy-a1-m1-cC Crystal Structure of Ancestral Congerin Con-anc 2.01 X-RAY DIFFRACTION 103 1.0 133 133 GGLEVKNFDFKVGKFLTVGGVINNYAKRFSINVGESTNSLSLHLDHRFNYGADQNTIVLNSMVNSGWETEQRSKNFPFSAGEYFEITITFDTNKFYIELLDGHKLEFPNRYKKEALNFLSLAGDARLTFVKLE GGLEVKNFDFKVGKFLTVGGVINNYAKRFSINVGESTNSLSLHLDHRFNYGADQNTIVLNSMVNSGWETEQRSKNFPFSAGEYFEITITFDTNKFYIELLDGHKLEFPNRYKKEALNFLSLAGDARLTFVKLE 3ajz-a1-m1-cA_3ajz-a1-m2-cA Crystal Structure of Ancestral Congerin Con-anc 1.5 X-RAY DIFFRACTION 43 1.0 132 132 3ak0-a1-m1-cA_3ak0-a1-m1-cB GVEVKNITFKLGMYLTVGGVVNSNANRFSINVGESTDSIALHIDHRFSYGADQNTIVLNSMVDDGWQQEQRSKNFPFTAGEHFQITITFDIDTFYIQLPDGHKVEFPNRHGDEAFNFIYLAGDARLTFVRLE GVEVKNITFKLGMYLTVGGVVNSNANRFSINVGESTDSIALHIDHRFSYGADQNTIVLNSMVDDGWQQEQRSKNFPFTAGEHFQITITFDIDTFYIQLPDGHKVEFPNRHGDEAFNFIYLAGDARLTFVRLE 3ak3-a1-m1-cA_3ak3-a1-m1-cB Superoxide dismutase from Aeropyrum pernix K1, Fe-bound form Q9Y8H8 Q9Y8H8 1.48 X-RAY DIFFRACTION 190 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 210 213 3ak1-a1-m1-cA_3ak1-a1-m1-cB 3ak1-a1-m1-cD_3ak1-a1-m1-cC 3ak2-a1-m1-cB_3ak2-a1-m1-cA 3ak2-a1-m1-cD_3ak2-a1-m1-cC 3ak3-a1-m1-cC_3ak3-a1-m1-cD MVSFKRYELPPLPYNYNALEPYIIEEIMKLHHQKHHNTYVKGANAALEKIEKHLKGEIQIDVRAVMRDFSFNYAGHIMHTIFWPNMAPPGKGGGTPGGRVADLIEKQFGGFEKFKALFSAAAKTVEGVGWGVLAFDPLTEELRILQVEKHNVLMTAGLVPILVIDVWEHAYYLQYKNDRGSYVENWWNVVNWDDVEKRLEQALNNAKPLY MVSFKRYELPPLPYNYNALEPYIIEEIMKLHHQKHHNTYVKGANAALEKIEKHLKGEIQIDVRAVMRDFSFNYAGHIMHTIFWPNMAPPGKGGGTPGGRVADLIEKQFGGFEKFKALFSAAAKTVEGVGWGVLAFDPLTEELRILQVEKHNVLMTAGLVPILVIDVWEHAYYLQYKNDRGSYVENWWNVVNWDDVEKRLEQALNNAKPLYLLP 3ak3-a1-m1-cC_3ak3-a1-m1-cB Superoxide dismutase from Aeropyrum pernix K1, Fe-bound form Q9Y8H8 Q9Y8H8 1.48 X-RAY DIFFRACTION 10 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 210 213 3ak1-a1-m1-cB_3ak1-a1-m1-cC MVSFKRYELPPLPYNYNALEPYIIEEIMKLHHQKHHNTYVKGANAALEKIEKHLKGEIQIDVRAVMRDFSFNYAGHIMHTIFWPNMAPPGKGGGTPGGRVADLIEKQFGGFEKFKALFSAAAKTVEGVGWGVLAFDPLTEELRILQVEKHNVLMTAGLVPILVIDVWEHAYYLQYKNDRGSYVENWWNVVNWDDVEKRLEQALNNAKPLY MVSFKRYELPPLPYNYNALEPYIIEEIMKLHHQKHHNTYVKGANAALEKIEKHLKGEIQIDVRAVMRDFSFNYAGHIMHTIFWPNMAPPGKGGGTPGGRVADLIEKQFGGFEKFKALFSAAAKTVEGVGWGVLAFDPLTEELRILQVEKHNVLMTAGLVPILVIDVWEHAYYLQYKNDRGSYVENWWNVVNWDDVEKRLEQALNNAKPLYLLP 3ak3-a1-m1-cD_3ak3-a1-m1-cB Superoxide dismutase from Aeropyrum pernix K1, Fe-bound form Q9Y8H8 Q9Y8H8 1.48 X-RAY DIFFRACTION 40 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 210 213 3ak1-a1-m1-cA_3ak1-a1-m1-cC 3ak1-a1-m1-cD_3ak1-a1-m1-cB 3ak2-a1-m1-cB_3ak2-a1-m1-cD 3ak2-a1-m1-cC_3ak2-a1-m1-cA 3ak3-a1-m1-cA_3ak3-a1-m1-cC MVSFKRYELPPLPYNYNALEPYIIEEIMKLHHQKHHNTYVKGANAALEKIEKHLKGEIQIDVRAVMRDFSFNYAGHIMHTIFWPNMAPPGKGGGTPGGRVADLIEKQFGGFEKFKALFSAAAKTVEGVGWGVLAFDPLTEELRILQVEKHNVLMTAGLVPILVIDVWEHAYYLQYKNDRGSYVENWWNVVNWDDVEKRLEQALNNAKPLY MVSFKRYELPPLPYNYNALEPYIIEEIMKLHHQKHHNTYVKGANAALEKIEKHLKGEIQIDVRAVMRDFSFNYAGHIMHTIFWPNMAPPGKGGGTPGGRVADLIEKQFGGFEKFKALFSAAAKTVEGVGWGVLAFDPLTEELRILQVEKHNVLMTAGLVPILVIDVWEHAYYLQYKNDRGSYVENWWNVVNWDDVEKRLEQALNNAKPLYLLP 3akj-a1-m1-cA_3akj-a1-m1-cB Crystal structure of A Helicobacter pylori proinflammatory kinase CtkA Q9ZKJ5 Q9ZKJ5 2 X-RAY DIFFRACTION 31 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 275 275 PTIDFTFCEINPNKISLFYNNELYMVKFPPTNGCFSEYVACHIVNSLGLKVQETLLGTYKNKIVVACKDFTTHQYELVDFLSLKNTMIELEKSGKDTNLNDVLYAIDNQHFIEPKVLKCFFWDMFVADTLLGNFDRHNGNWGFLRASNSKEYQIAPIFDCGSCLYPQADDVVCQKVLSNIDELNARIYNFPQSILKDDNDKKINYYDFLTQTNNKDCLDALLRIYPRIDMNKIHSIIDNTPFMSEIHKEFLHTMLDERKSKIIDVAHTRAIELSL PTIDFTFCEINPNKISLFYNNELYMVKFPPTNGCFSEYVACHIVNSLGLKVQETLLGTYKNKIVVACKDFTTHQYELVDFLSLKNTMIELEKSGKDTNLNDVLYAIDNQHFIEPKVLKCFFWDMFVADTLLGNFDRHNGNWGFLRASNSKEYQIAPIFDCGSCLYPQADDVVCQKVLSNIDELNARIYNFPQSILKDDNDKKINYYDFLTQTNNKDCLDALLRIYPRIDMNKIHSIIDNTPFMSEIHKEFLHTMLDERKSKIIDVAHTRAIELSL 3akj-a2-m1-cA_3akj-a2-m2-cB Crystal structure of A Helicobacter pylori proinflammatory kinase CtkA Q9ZKJ5 Q9ZKJ5 2 X-RAY DIFFRACTION 58 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 275 275 PTIDFTFCEINPNKISLFYNNELYMVKFPPTNGCFSEYVACHIVNSLGLKVQETLLGTYKNKIVVACKDFTTHQYELVDFLSLKNTMIELEKSGKDTNLNDVLYAIDNQHFIEPKVLKCFFWDMFVADTLLGNFDRHNGNWGFLRASNSKEYQIAPIFDCGSCLYPQADDVVCQKVLSNIDELNARIYNFPQSILKDDNDKKINYYDFLTQTNNKDCLDALLRIYPRIDMNKIHSIIDNTPFMSEIHKEFLHTMLDERKSKIIDVAHTRAIELSL PTIDFTFCEINPNKISLFYNNELYMVKFPPTNGCFSEYVACHIVNSLGLKVQETLLGTYKNKIVVACKDFTTHQYELVDFLSLKNTMIELEKSGKDTNLNDVLYAIDNQHFIEPKVLKCFFWDMFVADTLLGNFDRHNGNWGFLRASNSKEYQIAPIFDCGSCLYPQADDVVCQKVLSNIDELNARIYNFPQSILKDDNDKKINYYDFLTQTNNKDCLDALLRIYPRIDMNKIHSIIDNTPFMSEIHKEFLHTMLDERKSKIIDVAHTRAIELSL 3akk-a1-m1-cB_3akk-a1-m1-cA Crystal structure of A Helicobacter pylori proinflammatory kinase CtkA Q9ZKJ5 Q9ZKJ5 2.5 X-RAY DIFFRACTION 103 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 288 296 3akk-a2-m1-cC_3akk-a2-m1-cD 3akl-a1-m1-cA_3akl-a1-m1-cB 3akl-a2-m1-cC_3akl-a2-m1-cD PTIDFTFCEINPKKGFGGANGNKISLFYNNELYMVKFPPKPTNGCFSEYVACHIVNSLGLKVQETLLGTYKNKIVVACKDFTTHQYELVDFLSLKNTMIELEKSGKDTNLNDVLYAIDNQHFIEPKVLKCFFWDMFVADTLLGNFDRHNGNWGFLRASNSKEYQIAPIFDCGSCLYPQADDVVCQKVLSNIDELNARIYNFPQSILKDDNDKKINYYDFLTQTNNKDCLDALLRIYPRIDMNKIHSIIDNTPFMSEIHKEFLHTMLDERKSKIIDVAHTRAIELSLQH PTIDFTFCEINPKKGFGGANGNKISLFYNNELYMVKFPPKPSTHKEMSYTNGCFSEYVACHIVNSLGLKVQETLLGTYKNKIVVACKDFTTHQYELVDFLSLKNTMIELEKSGKDTNLNDVLYAIDNQHFIEPKVLKCFFWDMFVADTLLGNFDRHNGNWGFLRASNSKEYQIAPIFDCGSCLYPQADDVVCQKVLSNIDELNARIYNFPQSILKDDNDKKINYYDFLTQTNNKDCLDALLRIYPRIDMNKIHSIIDNTPFMSEIHKEFLHTMLDERKSKIIDVAHTRAIELSLQH 3al1-a1-m1-cA_3al1-a1-m1-cB DESIGNED PEPTIDE ALPHA-1, RACEMIC P1BAR FORM 0.75 X-RAY DIFFRACTION 13 1.0 12 12 ELLKKLLEELKG ELLKKLLEELKG 3al6-a1-m1-cA_3al6-a1-m1-cB Crystal structure of Human TYW5 A2RUC4 A2RUC4 2.8 X-RAY DIFFRACTION 159 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 299 308 3al5-a1-m1-cA_3al5-a1-m1-cB 3al5-a2-m1-cC_3al5-a2-m1-cD HLPVPRLEGVSREQFMQHLYPQRKPLVLEGIDLGPCTSKWTVDYLSQVGGKKEVKIHVQMDKNFVYRTLPFDQLVQRAAEKHKEFFVSEDEKYYLRSLGEDPRKDVADIRKQFPLLKGDIKFPEFFKEEQFFSSVFRISSPGLQLWTHYDVMDNLLIQVTGKKRVVLFSPRDAQYLYLKGTKSEVLNIDNPDLAKYPLFSKARRYECSLEAGDVLFIPALWFHNVISEEFGVGVNIFWKHLPSECYDKTDTYGNKDPTAASRAAQILDRALKTLAELPEEYRDFYARRMVLHIQDKAYS QHLPVPRLEGVSREQFMQHLYPQRKPLVLEGIDLGPCTSKWTVDYLSQVGGKKEVKIHVAAVAQMDFISKNFVYRTLPFDQLVQRAAEEKHKEFFVSEDEKYYLRSLGEDPRKDVADIRKQFPLLKGDIKFPEFFKEEQFFSSVFRISSPGLQLWTHYDVMDNLLIQVTGKKRVVLFSPRDAQYLYLKGTKSEVLNIDNPDLAKYPLFSKARRYECSLEAGDVLFIPALWFHNVISEEFGVGVNIFWKHLPSECYDKTDTYGNKDPTAASRAAQILDRALKTLAELPEEYRDFYARRMVLHIQDKAYS 3al6-a2-m1-cC_3al6-a2-m1-cD Crystal structure of Human TYW5 A2RUC4 A2RUC4 2.8 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 308 LPVPRLEGVSREQFMQHLYPQRKPLVLEGIDLGPCTSKWTVDYLSQVKIHVAAVRTLPFDQLVQRAAEEVSEDEKYYLRSLGEDPDIRKQFPLLKGDIKFPEFFKEEQFFSSVFRISSPGLWTHYDVMDNLLIQVTGKKRVVLFSPRDAQYLYLKGTKSEVNIDNPDLAKYPLFSKARRYECSLEAGDVLFIPALWFHNVISEEFGVGVNIFWKHLPSECYDKTDYGNKDPTAASRAAQILDRALKTLAELPEEYRDFYARRMVLHIQDKAYS QHLPVPRLEGVSREQFMQHLYPQRKPLVLEGIDLGPCTSKWTVDYLSQVGGKKEVKIHVAAVAQMDFISKNFVYRTLPFDQLVQRAAEEKHKEFFVSEDEKYYLRSLGEDPRKDVADIRKQFPLLKGDIKFPEFFKEEQFFSSVFRISSPGLQLWTHYDVMDNLLIQVTGKKRVVLFSPRDAQYLYLKGTKSEVLNIDNPDLAKYPLFSKARRYECSLEAGDVLFIPALWFHNVISEEFGVGVNIFWKHLPSECYDKTDTYGNKDPTAASRAAQILDRALKTLAELPEEYRDFYARRMVLHIQDKAYS 3ale-a2-m1-cD_3ale-a2-m1-cC A type III polyketide synthase that produces diarylheptanoid Q8LIL0 Q8LIL0 2.5 X-RAY DIFFRACTION 154 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 361 364 3ale-a1-m1-cB_3ale-a1-m1-cA 3oit-a1-m1-cA_3oit-a1-m1-cB QRADGLAAVLAIGTANPPNCVTQEEIPDFYFRVTNSDHLTALKDKFKRICQEMGVQRRYLHHTEEMLSAHPEFVDRDAPSLDARLDIAADAVPELAAEAAKKAIAEWGRPAADITHLVVTTNSGAHVPGVDFRLVPLLGLRPSVRRTMLHLNGCFAGCAALRLAKDLAENSRGARVLVVAAELTLMYFTGPCFRTLLVQGLFGDGAAAVIVGADADDVERPLFEIVSAAQTIIPESDHALNMRFTERRLDGVLGRQVPGLIGDNVERCLLDMFGPGWNDLFWAVHPGSSTIMDQVDAALGLEPGKLAASRRVLSDYGNMSGATVIFALDELRRQRKWPELGVMMAFGPGMTVDAMLLHATS QRADGLAAVLAIGTANPPNCVTQEEIPDFYFRVTNSDHLTALKDKFKRICQEMGVQRRYLHHTEEMLSAHPEFVDRDAPSLDARLDIAADAVPELAAEAAKKAIAEWGRPAADITHLVVTTNSGAHVPGVDFRLVPLLGLRPSVRRTMLHLNGCFAGCAALRLAKDLAENSRGARVLVVAAELTLMYFTGPDEGCFRTLLVQGLFGDGAAAVIVGADADDVERPLFEIVSAAQTIIPESDHALNMRFTERRLDGVLGRQVPGLIGDNVERCLLDMFGPGWNDLFWAVHPGSSTIMDQVDAALGLEPGKLAASRRVLSDYGNMSGATVIFALDELRRQRKWPELGVMMAFGPGMTVDAMLLHATS 3alo-a1-m1-cA_3alo-a1-m2-cA Crystal structure of human non-phosphorylated MKK4 kinase domain ternary complex with AMP-PNP and p38 peptide P45985 P45985 2.6 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 289 WDFTAEDLKDLGEIGRGAYGSVNKMVHKPSGQIMAVKRIRSTVDEKEQKQLLMDLDVVMRSSDCPYIVQFYGALFREGDCWICMELMSTSFDKFYKYVYSVLDDVIPEEILGKITLATVKALNHLKENLKIIHRDIKPSNILLDRSGNIKLCDFGISGQLVDSIAKTRDAGCRPYMAPERIDPYDVRSDVWSLGITLYELATGRFPYPKWNSVFDQLTQVVKGDPPQLSNSEEREFSPSFINFVNLCLTKDESKRPKYKELLKHPFILMYEERAVEVACYVCKILDQMP WDFTAEDLKDLGEIGRGAYGSVNKMVHKPSGQIMAVKRIRSTVDEKEQKQLLMDLDVVMRSSDCPYIVQFYGALFREGDCWICMELMSTSFDKFYKYVYSVLDDVIPEEILGKITLATVKALNHLKENLKIIHRDIKPSNILLDRSGNIKLCDFGISGQLVDSIAKTRDAGCRPYMAPERIDPYDVRSDVWSLGITLYELATGRFPYPKWNSVFDQLTQVVKGDPPQLSNSEEREFSPSFINFVNLCLTKDESKRPKYKELLKHPFILMYEERAVEVACYVCKILDQMP 3alq-a1-m1-cA_3alq-a1-m1-cB Crystal structure of TNF-TNFR2 complex P01375 P01375 3 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 2az5-a1-m1-cA_2az5-a1-m1-cB 2e7a-a1-m1-cB_2e7a-a1-m1-cC 2zjc-a1-m1-cA_2zjc-a1-m1-cB 2zjc-a1-m1-cA_2zjc-a1-m1-cC 2zpx-a1-m1-cA_2zpx-a1-m1-cB 2zpx-a1-m1-cA_2zpx-a1-m1-cC 2zpx-a1-m1-cB_2zpx-a1-m1-cC 3alq-a1-m1-cA_3alq-a1-m1-cC 3alq-a1-m1-cB_3alq-a1-m1-cC 3alq-a2-m1-cD_3alq-a2-m1-cE 3alq-a2-m1-cD_3alq-a2-m1-cF 3alq-a2-m1-cE_3alq-a2-m1-cF 5uui-a1-m1-cA_5uui-a1-m2-cA 5uui-a1-m1-cA_5uui-a1-m3-cA 5uui-a1-m2-cA_5uui-a1-m3-cA 6x81-a2-m1-cD_6x81-a2-m1-cF 6x81-a2-m1-cE_6x81-a2-m1-cD 6x81-a2-m1-cE_6x81-a2-m1-cF 6x83-a2-m1-cD_6x83-a2-m1-cF 7kpb-a1-m1-cC_7kpb-a1-m1-cB SDMPVAHVVANPQAEGQLQWLNRRANALLANGVELRDNQLVVPSEGLYLIYSQVLFSGQGCPSTHVLLTHTISRIAVSYQTPVNLLSAIRSPCQANPWYEPIYLGGVFQLEPGDRLSAEINRPDYLDFAESGQVYFGIIAL SDMPVAHVVANPQAEGQLQWLNRRANALLANGVELRDNQLVVPSEGLYLIYSQVLFSGQGCPSTHVLLTHTISRIAVSYQTPVNLLSAIRSPCQANPWYEPIYLGGVFQLEPGDRLSAEINRPDYLDFAESGQVYFGIIAL 3alt-a1-m1-cA_3alt-a1-m1-cB Crystal structure of CEL-IV complexed with Melibiose Q7M4F9 Q7M4F9 2.5 X-RAY DIFFRACTION 52 1.0 40245 (Cucumaria echinata) 40245 (Cucumaria echinata) 156 156 3als-a1-m1-cA_3als-a1-m1-cB 3als-a1-m1-cC_3als-a1-m1-cD 3alt-a1-m1-cC_3alt-a1-m1-cD 3alu-a1-m1-cA_3alu-a1-m1-cB 3alu-a1-m1-cC_3alu-a1-m1-cD LTSCPPLWTGFNGKCFRLFHNHLNFDNAENACRQFGLASCSGDELATGHLASIHSAESQAFLTELVKTSLPDLITGGWAPQVYIGMKVGSTNSDQTWTDGSSVDYDGWVSGEPNNGPNSRGAIAAGDYSRGFWADVYSNNNFKYICQLPCVHYTLE LTSCPPLWTGFNGKCFRLFHNHLNFDNAENACRQFGLASCSGDELATGHLASIHSAESQAFLTELVKTSLPDLITGGWAPQVYIGMKVGSTNSDQTWTDGSSVDYDGWVSGEPNNGPNSRGAIAAGDYSRGFWADVYSNNNFKYICQLPCVHYTLE 3alt-a1-m1-cA_3alt-a1-m1-cC Crystal structure of CEL-IV complexed with Melibiose Q7M4F9 Q7M4F9 2.5 X-RAY DIFFRACTION 83 1.0 40245 (Cucumaria echinata) 40245 (Cucumaria echinata) 156 156 3als-a1-m1-cA_3als-a1-m1-cC 3als-a1-m1-cB_3als-a1-m1-cD 3alt-a1-m1-cB_3alt-a1-m1-cD 3alu-a1-m1-cA_3alu-a1-m1-cC 3alu-a1-m1-cB_3alu-a1-m1-cD LTSCPPLWTGFNGKCFRLFHNHLNFDNAENACRQFGLASCSGDELATGHLASIHSAESQAFLTELVKTSLPDLITGGWAPQVYIGMKVGSTNSDQTWTDGSSVDYDGWVSGEPNNGPNSRGAIAAGDYSRGFWADVYSNNNFKYICQLPCVHYTLE LTSCPPLWTGFNGKCFRLFHNHLNFDNAENACRQFGLASCSGDELATGHLASIHSAESQAFLTELVKTSLPDLITGGWAPQVYIGMKVGSTNSDQTWTDGSSVDYDGWVSGEPNNGPNSRGAIAAGDYSRGFWADVYSNNNFKYICQLPCVHYTLE 3alu-a1-m1-cA_3alu-a1-m1-cD Crystal structure of CEL-IV complexed with Raffinose Q7M4F9 Q7M4F9 1.65 X-RAY DIFFRACTION 12 1.0 40245 (Cucumaria echinata) 40245 (Cucumaria echinata) 157 157 3alu-a1-m1-cB_3alu-a1-m1-cC CLTSCPPLWTGFNGKCFRLFHNHLNFDNAENACRQFGLASCSGDELATGHLASIHSAESQAFLTELVKTSLPDLITGGWAPQVYIGMKVGSTNSDQTWTDGSSVDYDGWVSGEPNNGPNSRGAIAAGDYSRGFWADVYSNNNFKYICQLPCVHYTLE CLTSCPPLWTGFNGKCFRLFHNHLNFDNAENACRQFGLASCSGDELATGHLASIHSAESQAFLTELVKTSLPDLITGGWAPQVYIGMKVGSTNSDQTWTDGSSVDYDGWVSGEPNNGPNSRGAIAAGDYSRGFWADVYSNNNFKYICQLPCVHYTLE 3alw-a2-m1-cA_3alw-a2-m6-cA Crystal structure of the measles virus hemagglutinin bound to its cellular receptor SLAM (Form I, MV-H-SLAM(N102H/R108Y) fusion) Q9GJT3 Q9GJT3 3.55 X-RAY DIFFRACTION 27 1.0 11235 (Measles virus strain Edmonston) 11235 (Measles virus strain Edmonston) 510 510 3alw-a1-m2-cA_3alw-a1-m4-cA 3alw-a2-m2-cA_3alw-a2-m4-cA 3alw-a2-m3-cA_3alw-a2-m5-cA 3alz-a1-m2-cA_3alz-a1-m3-cA 3alz-a2-m1-cA_3alz-a2-m6-cA 3alz-a2-m2-cA_3alz-a2-m3-cA 3alz-a2-m4-cA_3alz-a2-m5-cA CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYLFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSCCPKIVQQLGSDVLLPLTHERINTSMNKSIHIVVTMAKSLENSVENKIVSLDPSEAGPPRYLKDRYRFYLEHLSLAIYESTKKDEGWYFMTLEKNISVQRFCLHLKL CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYLFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSCCPKIVQQLGSDVLLPLTHERINTSMNKSIHIVVTMAKSLENSVENKIVSLDPSEAGPPRYLKDRYRFYLEHLSLAIYESTKKDEGWYFMTLEKNISVQRFCLHLKL 3alx-a1-m1-cA_3alx-a1-m1-cB Crystal structure of the measles virus hemagglutinin bound to its cellular receptor SLAM (MV-H(L482R)-SLAM(N102H/R108Y) fusion) Q9GJT3 Q9GJT3 3.15 X-RAY DIFFRACTION 16 1.0 11234 (Measles morbillivirus) 11234 (Measles morbillivirus) 515 526 CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSNDLSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYRFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSCCPKIVQQLGSDVLLPLTHERINTSMNKSIHIVVTMAKSLENSVENKIVSLDPSEAGPPRYLKDRYRFYLEHLSLAIYESTKKDEGWYFMTLEKNISVQRFCLHLKLYE CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPNLSSKRLSQLSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSNDLSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYRFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSCCPKIVQQLGSDVLLPLTHERINTSMNKSIHIVVTMAKSLENSVENKIVSLDPSEAGPPRYLKDRYRFYLEHLSLAIYESTKKDEGWYFMTLEKNISVQRFCLHLKLYEQ 3alx-a1-m1-cD_3alx-a1-m1-cA Crystal structure of the measles virus hemagglutinin bound to its cellular receptor SLAM (MV-H(L482R)-SLAM(N102H/R108Y) fusion) Q9GJT3 Q9GJT3 3.15 X-RAY DIFFRACTION 50 0.992 11234 (Measles morbillivirus) 11234 (Measles morbillivirus) 504 515 3alx-a1-m1-cC_3alx-a1-m1-cB PTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPQLSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSNDLSNCMVALGELKLAALCHGEDSITIPYSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYRFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADGHITHSGMVGMGVSCMNCPKIVQQLGSDVLLPLTHENKSIHIVVTMAKSLENSVENKIVSLDPSEAGPPRYLKDRYRFYLEHLSLAIYESTKKDEGWYFMTLEKNISVQRFCLHLKLYE CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSNDLSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYRFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSCCPKIVQQLGSDVLLPLTHERINTSMNKSIHIVVTMAKSLENSVENKIVSLDPSEAGPPRYLKDRYRFYLEHLSLAIYESTKKDEGWYFMTLEKNISVQRFCLHLKLYE 3aly-a3-m1-cA_3aly-a3-m1-cB Crystal Structure of RNase HI from Sulfolobus tokodaii with C-terminal deletion F9VN79 F9VN79 1.66 X-RAY DIFFRACTION 56 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 141 141 MIIGYFDGLCEPKNPGGIATFGFVIYLDNRKIEGYGLAEKPFSINSTNNVAEYSGLICLMETMLRLGISSPIIKGDSQLVIKQMNGEYKVKAKRIIPLYEKAIELKKKLNATLIWVPREENKEADRLSRVAYELVRRGKLR MIIGYFDGLCEPKNPGGIATFGFVIYLDNRKIEGYGLAEKPFSINSTNNVAEYSGLICLMETMLRLGISSPIIKGDSQLVIKQMNGEYKVKAKRIIPLYEKAIELKKKLNATLIWVPREENKEADRLSRVAYELVRRGKLR 3alz-a2-m5-cA_3alz-a2-m6-cA Crystal structure of the measles virus hemagglutinin bound to its cellular receptor SLAM (Form I) P08362 P08362 4.515 X-RAY DIFFRACTION 59 1.0 70146 (Measles virus strain Edmonston-B) 70146 (Measles virus strain Edmonston-B) 417 417 2zb5-a1-m1-cA_2zb5-a1-m2-cA 2zb6-a1-m1-cA_2zb6-a1-m2-cA 3alw-a1-m1-cA_3alw-a1-m4-cA 3alw-a1-m2-cA_3alw-a1-m3-cA 3alw-a2-m1-cA_3alw-a2-m4-cA 3alw-a2-m2-cA_3alw-a2-m3-cA 3alw-a2-m5-cA_3alw-a2-m6-cA 3alx-a1-m1-cC_3alx-a1-m1-cA 3alx-a1-m1-cD_3alx-a1-m1-cB 3alz-a1-m1-cA_3alz-a1-m3-cA 3alz-a1-m2-cA_3alz-a1-m4-cA 3alz-a2-m1-cA_3alz-a2-m3-cA 3alz-a2-m2-cA_3alz-a2-m4-cA 3inb-a1-m1-cA_3inb-a1-m1-cB 4gjt-a1-m1-cA_4gjt-a1-m2-cA CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPNLSSKRLSQLSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSNDLSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYLFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSC CSGPTTIRGQFSNMSLSLLDLYLGRGYNVSSIVTMTSQGMYGGTYLVEKPNLSSKRLSQLSMYRVFEVGVIRNPGLGAPVFHMTNYLEQPVSNDLSNCMVALGELKLAALCHGEDSITIPYQGSGKGVSFQLVKLGVWKSPTDMQSWVPLSTDDPVIDRLYLSSHRGVIADNQAKWAVPTTRTDDKLRMETCFQQACKGKIQALCENPEWAPLKDNRIPSYGVLSVDLSLTVELKIKIASGFGPLITHGSGMDLYKSNHNNVYWLTIPPMKNLALGVINTLEWIPRFKVSPYLFTVPIKEAGGDCHAPTYLPAEVDGDVKLSSNLVILPGQDLQYVLATYDTSRVEHAVVYYVYSPSRSFSYFYPFRLPIKGVPIELQVECFTWDQKLWCRHFCVLADSESGGHITHSGMVGMGVSC 3am6-a5-m1-cB_3am6-a5-m1-cD Crystal structure of the proton pumping rhodopsin AR2 from marine alga Acetabularia acetabulum G1K3Q0 G1K3Q0 3.2 X-RAY DIFFRACTION 32 1.0 35845 (Acetabularia acetabulum) 35845 (Acetabularia acetabulum) 224 224 3am6-a5-m1-cA_3am6-a5-m1-cC MADVETETGMIAQWIVFAIMAAAAIAFGVAVHFRPLKSAYYINIAICTIAATAYYAMAVNYQDLTMNGERQVVYARYIDWVLTTPLLLLDLIVMTKMGGVMISWVIGADIFMIVFGILGAFEDEHKFKWVYFIAGCVMQAVLTYGMYNATWKDDKSPEYHSSYVSLLVFLSILWVFYPVVWAFGSGSGVLSVDNEAILMGILDVLAKPLFGMGCLIAHETIFKK MADVETETGMIAQWIVFAIMAAAAIAFGVAVHFRPLKSAYYINIAICTIAATAYYAMAVNYQDLTMNGERQVVYARYIDWVLTTPLLLLDLIVMTKMGGVMISWVIGADIFMIVFGILGAFEDEHKFKWVYFIAGCVMQAVLTYGMYNATWKDDKSPEYHSSYVSLLVFLSILWVFYPVVWAFGSGSGVLSVDNEAILMGILDVLAKPLFGMGCLIAHETIFKK 3ami-a1-m1-cA_3ami-a1-m1-cB The crystal structure of the M16B metallopeptidase subunit from Sphingomonas sp. A1 F2Z284 F2Z284 2.4 X-RAY DIFFRACTION 95 1.0 90322 (Sphingomonas sp. A1) 90322 (Sphingomonas sp. A1) 422 422 3amj-a1-m1-cA_3amj-a1-m1-cC PAASTFETTLPNGLKVVVREDHRAPTLVHMVWYRVGSMDETTGTTGVAHALEHMMFKGTKDVGPGEFSKRVAAMGGRDNAFTTRDYTAYYQQVPSSRLSDVMGLEADRMANLVVDDELFKKEIQVIAEERRWRTDDKPRSKAYEALMAASYVAHPYRVPVIGWMNDIQNMTAQDVRDWYKRWYGPNNATVVVVGDVEHEAVFRLAEQTYGKLARVEAPARKQQGEPQQAGVRRVTVKAPAELPYLALAWHVPAIVDLDKSRDAYALEILAAVLDGYDGARMTRQLVRGNKHAVSAGAGYDSLSRGQQGLFILEGVPSKGVTIAQLETDLRAQVRDIAAKGVTEAELSRVKSQMVAGKVYEQDSLMGQATQIGGLEVLGLSWRDDDRFYQQLRSVTAAEVKAAAARLLTDDTLTVANLVPLPP PAASTFETTLPNGLKVVVREDHRAPTLVHMVWYRVGSMDETTGTTGVAHALEHMMFKGTKDVGPGEFSKRVAAMGGRDNAFTTRDYTAYYQQVPSSRLSDVMGLEADRMANLVVDDELFKKEIQVIAEERRWRTDDKPRSKAYEALMAASYVAHPYRVPVIGWMNDIQNMTAQDVRDWYKRWYGPNNATVVVVGDVEHEAVFRLAEQTYGKLARVEAPARKQQGEPQQAGVRRVTVKAPAELPYLALAWHVPAIVDLDKSRDAYALEILAAVLDGYDGARMTRQLVRGNKHAVSAGAGYDSLSRGQQGLFILEGVPSKGVTIAQLETDLRAQVRDIAAKGVTEAELSRVKSQMVAGKVYEQDSLMGQATQIGGLEVLGLSWRDDDRFYQQLRSVTAAEVKAAAARLLTDDTLTVANLVPLPP 3anj-a2-m1-cA_3anj-a2-m2-cA Crystal structure of unsaturated glucuronyl hydrolase from Streptcoccus agalactiae Q8E372 Q8E372 1.95 X-RAY DIFFRACTION 75 1.0 216495 (Streptococcus agalactiae serogroup III) 216495 (Streptococcus agalactiae serogroup III) 376 376 3ani-a2-m1-cA_3ani-a2-m2-cA 3ank-a2-m1-cA_3ank-a2-m2-cA MKIKPVKVESIENPKRFLNSRLLTKIEVEEAIEKALKQLYINIDYFGEEYPTPATFNNIYKVMDNTEWTNGFWTGCLWLAYEYNQDKKLKNIAHKNVLSFLNRINNRIALDHHDLGFLYTPSCTAEYRINGDVKALEATIKAADKLMERLIIDCLLNIQLLFFAYEQTGDEKYRQVAVNHFYASANNVVRDDSSAFHTFYFDPETGEPLKGVTRQGYSDESSWARGQAWGIYGIPLSYRKMKDYQQIILFKGMTNYFLNRLPEDKVSYWDLIFTDGSGQPRDTSATATAVCGIHEMLKYLPEVDPDKETYKYAMHTMLRSLIEQYSNNELIAGRPLLLHGVYSWHSGKGVDEGNIWGDYYYLEALIRFYKDWELYW MKIKPVKVESIENPKRFLNSRLLTKIEVEEAIEKALKQLYINIDYFGEEYPTPATFNNIYKVMDNTEWTNGFWTGCLWLAYEYNQDKKLKNIAHKNVLSFLNRINNRIALDHHDLGFLYTPSCTAEYRINGDVKALEATIKAADKLMERLIIDCLLNIQLLFFAYEQTGDEKYRQVAVNHFYASANNVVRDDSSAFHTFYFDPETGEPLKGVTRQGYSDESSWARGQAWGIYGIPLSYRKMKDYQQIILFKGMTNYFLNRLPEDKVSYWDLIFTDGSGQPRDTSATATAVCGIHEMLKYLPEVDPDKETYKYAMHTMLRSLIEQYSNNELIAGRPLLLHGVYSWHSGKGVDEGNIWGDYYYLEALIRFYKDWELYW 3ann-a1-m1-cB_3ann-a1-m1-cA Crystal structure of 1-deoxy-D-xylulose 5-phosphate reductoisomerase (DXR) complexed with quinolin-2-ylmethylphosphonic acid P45568 P45568 2 X-RAY DIFFRACTION 131 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 398 400 1jvs-a1-m1-cB_1jvs-a1-m1-cA 1k5h-a1-m1-cA_1k5h-a1-m2-cA 1k5h-a2-m1-cB_1k5h-a2-m1-cC 1onn-a1-m1-cA_1onn-a1-m1-cB 1ono-a1-m1-cA_1ono-a1-m1-cB 1onp-a1-m1-cA_1onp-a1-m1-cB 1q0h-a1-m1-cA_1q0h-a1-m2-cA 1q0l-a1-m1-cA_1q0l-a1-m2-cA 1q0q-a1-m1-cA_1q0q-a1-m1-cB 1t1r-a1-m1-cA_1t1r-a1-m1-cB 1t1s-a1-m1-cA_1t1s-a1-m1-cB 2egh-a1-m1-cB_2egh-a1-m1-cA 3anl-a1-m1-cB_3anl-a1-m1-cA 3anm-a1-m1-cB_3anm-a1-m1-cA 3r0i-a1-m1-cA_3r0i-a1-m1-cB GKQLTILGSTGSIGCSTLDVVRHNPEHFRVVALVAGKNVTRMVEQCLEFSPRYAVMDDEASAKLLKTMLQQQGSRTEVLSGQQAACDMAALEDVDQVMAAIVGAAGLLPTLAAIRAGKTILLANKESLVTCGRLFMDAVKQSKAQLLPVDSEHNAIFQSLPQPIQHNLGYADLEQNGVVSILLTGSGGPFRETPLRDLATMTPDQACRHPNWSMGRKISVDSATMMNKGLEYIEARWLFNASASQMEVLIHPQSVIHSMVRYQDGSVLAQLGEPDMRTPIAHTMAWPNRVNSGVKPLDFCKLSALTFAAPDYDRYPCLKLAMEAFEQGQAATTALNAANEITVAAFLAQQIRFTDIAALNLSVLEKMDMREPQCVDDVLSVDANAREVARKEVMRLAS GKQLTILGSTGSIGCSTLDVVRHNPEHFRVVALVAGKNVTRMVEQCLEFSPRYAVMDDEASAKLLKTMLQQQGSRTEVLSGQQAACDMAALEDVDQVMAAIVGAAGLLPTLAAIRAGKTILLANKESLVTCGRLFMDAVKQSKAQLLPVDSEHNAIFQSLPQPIQHNLGYADLEQNGVVSILLTGSGGPFRETPLRDLATMTPDQACRHPNWSMGRKISVDSATMMNKGLEYIEARWLFNASASQMEVLIHPQSVIHSMVRYQDGSVLAQLGEPDMRTPIAHTMAWPNRVNSGVKPLDFCKLSALTFAAPDYDRYPCLKLAMEAFEQGQAATTALNAANEITVAAFLAQQIRFTDIAALNLSVLEKMDMREPQCVDDVLSVDANAREVARKEVMRLASSA 3ano-a1-m1-cB_3ano-a1-m2-cB Crystal Structure of a Novel Diadenosine 5',5'''-P1,P4-Tetraphosphate Phosphorylase from Mycobacterium tuberculosis H37Rv P9WMK9 P9WMK9 1.894 X-RAY DIFFRACTION 45 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 175 175 3wo5-a1-m1-cB_3wo5-a1-m2-cB RDQLQRLWTPYRMNYLAEAPVKRDPNSSASPAQPFTEIPQLSDEEGLVVARGKLVYAVLNLYPYNPGHLMVVPYRRVSELEDLTDLESAELMAFTQKAIRVIKNVSRPHGFNVGLNLGTSAGGSLAEHLHVHVVPRWGGDANFITIIGGSKVIPQLLRDTRRLLATEWARQPKLV RDQLQRLWTPYRMNYLAEAPVKRDPNSSASPAQPFTEIPQLSDEEGLVVARGKLVYAVLNLYPYNPGHLMVVPYRRVSELEDLTDLESAELMAFTQKAIRVIKNVSRPHGFNVGLNLGTSAGGSLAEHLHVHVVPRWGGDANFITIIGGSKVIPQLLRDTRRLLATEWARQPKLV 3anp-a1-m1-cD_3anp-a1-m1-cC Crystal structure of Thermus thermophilus FadR, a TetR familly transcriptional repressor, in complex with lauroyl-CoA. Q5SM42 Q5SM42 1.95 X-RAY DIFFRACTION 91 0.99 274 (Thermus thermophilus) 274 (Thermus thermophilus) 191 196 3ang-a1-m1-cD_3ang-a1-m1-cC 3ang-a2-m1-cA_3ang-a2-m1-cB 3anp-a2-m1-cB_3anp-a2-m1-cA RRRERIFRAAELFRNRGFQETTATEIAKAAHVSRGTFFNYYPYKEAVLLDYGSQLLAGLREEVRRLLAQGREPVEVLRHLFRVLAEGTAREKDLLLPFYELLNPDPVRARAAFEALPLGDLIAEILKPLREQGVLRQDFSLERGRTLADLYFLSALRWAAYTPGRDLAEELEKNLRLLLEGLVREAPAPGG VREYQKKRRRERIFRAAELFRNRGFQETTATEIAKAAHVSRGTFFNYYPYKEAVLLDYGSQLLAGLREEVRRLLAQGREPVEVLRHLFRVLAEGTAREKDLLLPFYELLNPDPVRARAAFEALPLGDLIAEILKPLREQGVLRQDFSLERGRTLADLYFLSALRWAAYTPGRDLAEELEKNLRLLLEGLVREAPAP 3anu-a1-m1-cA_3anu-a1-m2-cA Crystal structure of D-serine dehydratase from chicken kidney A0A8V1ABE9 A0A8V1ABE9 1.9 X-RAY DIFFRACTION 120 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 367 367 3anv-a1-m1-cA_3anv-a1-m2-cA 3awn-a1-m1-cA_3awn-a1-m2-cA 3awo-a1-m1-cA_3awo-a1-m2-cA MWLGALLDTLPTPALTIDRTTARRNAERMRERCRALGVRLRPHVKTHKTLEGGLLATGGTRRGIAVSTLAEARFFADGGFDDILLAYPVPTARLEECAGLARRLDAFHVLLDRPEALASLRQRPLGHGKRWLVWLKLDCGRAGVRPTDPAALELAQAIANDAPEEVTLVGVYAHCGNTYCSGADTIQAIARTTTNAVLSFVAALRQAGVPCPQASIGSTPSCSHPIPEMSQLTELHPGNYIFYDLQQTQLGSCQPQDVAIRVLTRVIGHYAHRGQLLVDCGWAALSLHGAGGPQGCAAIDGHPELRLVGLTQEHGLLEHQMDFGRFPVGSVLALIPYHACATAAMHPVYYVHEEGKVVALWHPVRGW MWLGALLDTLPTPALTIDRTTARRNAERMRERCRALGVRLRPHVKTHKTLEGGLLATGGTRRGIAVSTLAEARFFADGGFDDILLAYPVPTARLEECAGLARRLDAFHVLLDRPEALASLRQRPLGHGKRWLVWLKLDCGRAGVRPTDPAALELAQAIANDAPEEVTLVGVYAHCGNTYCSGADTIQAIARTTTNAVLSFVAALRQAGVPCPQASIGSTPSCSHPIPEMSQLTELHPGNYIFYDLQQTQLGSCQPQDVAIRVLTRVIGHYAHRGQLLVDCGWAALSLHGAGGPQGCAAIDGHPELRLVGLTQEHGLLEHQMDFGRFPVGSVLALIPYHACATAAMHPVYYVHEEGKVVALWHPVRGW 3aoe-a1-m1-cD_3aoe-a1-m1-cF Crystal structure of hetero-hexameric glutamate dehydrogenase from Thermus thermophilus (Leu bound form) Q72IC0 Q72IC0 2.6 X-RAY DIFFRACTION 46 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 416 417 3aoe-a1-m1-cE_3aoe-a1-m1-cC KAYRPPEDPGLWDTYLEWLERALKVAGVHPTTLEYLAHPKRLVTLSLPVVMDDGKVRIFQGYRVVHDIARGPAKGGVRLDPGVTLGQTAGLAAWMTLKAAVYDLPFGGAAGGIAVDPKGLSPQELERLVRRYTAELVGLIGPDSDILGPDLGADQQVMAWIMDTYSMTVGSTVPGVVTGKPHALGGSEGRDDAAGLGALLVLEALAKRRGLDLRGARVVVQGLGQVGAAVALHAERLGMRVVAVATSMGGMYAPEGLDVAEVLSAYEATGSLPRLDLAPEEVFGLEAEVLVLAAREGALDGDRARQVQAQAVVEVANFGLNPEAEAYLLGKGALVVPDLLSGGGGLLASYLEWVQDLNMFFWSPEEVRERFETRVARVVDAVCRRAERGGLDLRMGALALALERLDEATRLRGVYP LKAYRPPEDPGLWDTYLEWLERALKVAGVHPTTLEYLAHPKRLVTLSLPVVMDDGKVRIFQGYRVVHDIARGPAKGGVRLDPGVTLGQTAGLAAWMTLKAAVYDLPFGGAAGGIAVDPKGLSPQELERLVRRYTAELVGLIGPDSDILGPDLGADQQVMAWIMDTYSMTVGSTVPGVVTGKPHALGGSEGRDDAAGLGALLVLEALAKRRGLDLRGARVVVQGLGQVGAAVALHAERLGMRVVAVATSMGGMYAPEGLDVAEVLSAYEATGSLPRLDLAPEEVFGLEAEVLVLAAREGALDGDRARQVQAQAVVEVANFGLNPEAEAYLLGKGALVVPDLLSGGGGLLASYLEWVQDLNMFFWSPEEVRERFETRVARVVDAVCRRAERGGLDLRMGALALALERLDEATRLRGVYP 3aoe-a1-m1-cE_3aoe-a1-m1-cF Crystal structure of hetero-hexameric glutamate dehydrogenase from Thermus thermophilus (Leu bound form) Q72IC0 Q72IC0 2.6 X-RAY DIFFRACTION 86 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 416 417 3aoe-a1-m1-cD_3aoe-a1-m1-cC KAYRPPEDPGLWDTYLEWLERALKVAGVHPTTLEYLAHPKRLVTLSLPVVMDDGKVRIFQGYRVVHDIARGPAKGGVRLDPGVTLGQTAGLAAWMTLKAAVYDLPFGGAAGGIAVDPKGLSPQELERLVRRYTAELVGLIGPDSDILGPDLGADQQVMAWIMDTYSMTVGSTVPGVVTGKPHALGGSEGRDDAAGLGALLVLEALAKRRGLDLRGARVVVQGLGQVGAAVALHAERLGMRVVAVATSMGGMYAPEGLDVAEVLSAYEATGSLPRLDLAPEEVFGLEAEVLVLAAREGALDGDRARQVQAQAVVEVANFGLNPEAEAYLLGKGALVVPDLLSGGGGLLASYLEWVQDLNMFFWSPEEVRERFETRVARVVDAVCRRAERGGLDLRMGALALALERLDEATRLRGVYP LKAYRPPEDPGLWDTYLEWLERALKVAGVHPTTLEYLAHPKRLVTLSLPVVMDDGKVRIFQGYRVVHDIARGPAKGGVRLDPGVTLGQTAGLAAWMTLKAAVYDLPFGGAAGGIAVDPKGLSPQELERLVRRYTAELVGLIGPDSDILGPDLGADQQVMAWIMDTYSMTVGSTVPGVVTGKPHALGGSEGRDDAAGLGALLVLEALAKRRGLDLRGARVVVQGLGQVGAAVALHAERLGMRVVAVATSMGGMYAPEGLDVAEVLSAYEATGSLPRLDLAPEEVFGLEAEVLVLAAREGALDGDRARQVQAQAVVEVANFGLNPEAEAYLLGKGALVVPDLLSGGGGLLASYLEWVQDLNMFFWSPEEVRERFETRVARVVDAVCRRAERGGLDLRMGALALALERLDEATRLRGVYP 3aog-a2-m1-cG_3aog-a2-m1-cI Crystal structure of glutamate dehydrogenase (GdhB) from Thermus thermophilus (Glu bound form) Q72IC1 Q72IC1 2.1 X-RAY DIFFRACTION 47 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 421 421 3aog-a1-m1-cA_3aog-a1-m1-cC 3aog-a1-m1-cA_3aog-a1-m1-cE 3aog-a1-m1-cB_3aog-a1-m1-cD 3aog-a1-m1-cB_3aog-a1-m1-cF 3aog-a1-m1-cC_3aog-a1-m1-cE 3aog-a1-m1-cD_3aog-a1-m1-cF 3aog-a2-m1-cG_3aog-a2-m1-cH 3aog-a2-m1-cH_3aog-a2-m1-cI 3aog-a2-m1-cJ_3aog-a2-m1-cL 3aog-a2-m1-cK_3aog-a2-m1-cJ 3aog-a2-m1-cK_3aog-a2-m1-cL EPLSYLGKDGGPWEIFTEQVDRVVPYLGRLAPLAESLKRPKRVLIVDVPVRLDDGSVAYFEGYRVHHNTARGPAKGGVRYHPEVTLSEVMALAGWMTIKNAAVGLPYGGGKGGIRVDPRKLSPGELERLTRRYTSEIGILLGPDRDIPAPDVNTGEREMAWMMDTYSMNVGRTVPGVVTGKPIALGGSLGRRDATGRGVFITAAAAAEKIGLQVEGARVAIQGFGNVGNAAARAFHDHGARVVAVQDHTGTVYNEAGIDPYDLLRHVQEFGGVRGYPKAEPLPAADFWGLPVEFLVPAALEKQITEQNAWRIRARIVAEGANGPTTPAADDILLEKGVLVVPDVIANAGGVTVSYFEWVQDFNSYFWTEEEINARLERVLRNAFEAVWQVAQEKKIPLRTAAYVVAATRVLEARALRGLYP EPLSYLGKDGGPWEIFTEQVDRVVPYLGRLAPLAESLKRPKRVLIVDVPVRLDDGSVAYFEGYRVHHNTARGPAKGGVRYHPEVTLSEVMALAGWMTIKNAAVGLPYGGGKGGIRVDPRKLSPGELERLTRRYTSEIGILLGPDRDIPAPDVNTGEREMAWMMDTYSMNVGRTVPGVVTGKPIALGGSLGRRDATGRGVFITAAAAAEKIGLQVEGARVAIQGFGNVGNAAARAFHDHGARVVAVQDHTGTVYNEAGIDPYDLLRHVQEFGGVRGYPKAEPLPAADFWGLPVEFLVPAALEKQITEQNAWRIRARIVAEGANGPTTPAADDILLEKGVLVVPDVIANAGGVTVSYFEWVQDFNSYFWTEEEINARLERVLRNAFEAVWQVAQEKKIPLRTAAYVVAATRVLEARALRGLYP 3aog-a2-m1-cH_3aog-a2-m1-cL Crystal structure of glutamate dehydrogenase (GdhB) from Thermus thermophilus (Glu bound form) Q72IC1 Q72IC1 2.1 X-RAY DIFFRACTION 88 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 421 421 3aoe-a1-m1-cA_3aoe-a1-m1-cB 3aog-a1-m1-cA_3aog-a1-m1-cB 3aog-a1-m1-cC_3aog-a1-m1-cD 3aog-a1-m1-cE_3aog-a1-m1-cF 3aog-a2-m1-cG_3aog-a2-m1-cJ 3aog-a2-m1-cK_3aog-a2-m1-cI EPLSYLGKDGGPWEIFTEQVDRVVPYLGRLAPLAESLKRPKRVLIVDVPVRLDDGSVAYFEGYRVHHNTARGPAKGGVRYHPEVTLSEVMALAGWMTIKNAAVGLPYGGGKGGIRVDPRKLSPGELERLTRRYTSEIGILLGPDRDIPAPDVNTGEREMAWMMDTYSMNVGRTVPGVVTGKPIALGGSLGRRDATGRGVFITAAAAAEKIGLQVEGARVAIQGFGNVGNAAARAFHDHGARVVAVQDHTGTVYNEAGIDPYDLLRHVQEFGGVRGYPKAEPLPAADFWGLPVEFLVPAALEKQITEQNAWRIRARIVAEGANGPTTPAADDILLEKGVLVVPDVIANAGGVTVSYFEWVQDFNSYFWTEEEINARLERVLRNAFEAVWQVAQEKKIPLRTAAYVVAATRVLEARALRGLYP EPLSYLGKDGGPWEIFTEQVDRVVPYLGRLAPLAESLKRPKRVLIVDVPVRLDDGSVAYFEGYRVHHNTARGPAKGGVRYHPEVTLSEVMALAGWMTIKNAAVGLPYGGGKGGIRVDPRKLSPGELERLTRRYTSEIGILLGPDRDIPAPDVNTGEREMAWMMDTYSMNVGRTVPGVVTGKPIALGGSLGRRDATGRGVFITAAAAAEKIGLQVEGARVAIQGFGNVGNAAARAFHDHGARVVAVQDHTGTVYNEAGIDPYDLLRHVQEFGGVRGYPKAEPLPAADFWGLPVEFLVPAALEKQITEQNAWRIRARIVAEGANGPTTPAADDILLEKGVLVVPDVIANAGGVTVSYFEWVQDFNSYFWTEEEINARLERVLRNAFEAVWQVAQEKKIPLRTAAYVVAATRVLEARALRGLYP 3aow-a1-m1-cA_3aow-a1-m1-cC Crystal structure of Pyrococcus horikoshii kynurenine aminotransferase in complex with AKG O57946 O57946 1.56 X-RAY DIFFRACTION 241 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 404 404 1x0m-a2-m1-cA_1x0m-a2-m2-cA 3aov-a1-m1-cA_3aov-a1-m1-cC 3ath-a1-m1-cA_3ath-a1-m1-cC 3av7-a1-m1-cA_3av7-a1-m1-cC 3wx9-a1-m1-cA_3wx9-a1-m1-cC SMLGDVERFFSKKALEMRASEVRELLKLVETSDIISLAGGLPNPKTFPKEIIRDILVEIMEKYADKALQYGTTKGFTPLRETLMKWLGKRYGISQDNDIMITSGSQQALDLIGRVFLNPGDIVVVEAPTYLAALQAFNFYEPQYIQIPLDDEGMKVEILEEKLKELKSQGKKVKVVYTVPTFQNPAGVTMNEDRRKYLLELASEYDFIVVEDDPYGELRYSGNPEKKIKALDNEGRVIYLGTFSKILAPGFRIGWMVGDPGIIRKMEIAKQSTDLCTNVFGQVVAWRYVDGGYLEKHIPEIRKFYKPRRDAMLEALEEFMPEGVKWTKPEGGMFIWVTLPDGIDSKKMLERAIKKGVAYVPGEAFYAHRDVKNTMRLNFTYVDEDKIMEGIKRLAETIKEELKA SMLGDVERFFSKKALEMRASEVRELLKLVETSDIISLAGGLPNPKTFPKEIIRDILVEIMEKYADKALQYGTTKGFTPLRETLMKWLGKRYGISQDNDIMITSGSQQALDLIGRVFLNPGDIVVVEAPTYLAALQAFNFYEPQYIQIPLDDEGMKVEILEEKLKELKSQGKKVKVVYTVPTFQNPAGVTMNEDRRKYLLELASEYDFIVVEDDPYGELRYSGNPEKKIKALDNEGRVIYLGTFSKILAPGFRIGWMVGDPGIIRKMEIAKQSTDLCTNVFGQVVAWRYVDGGYLEKHIPEIRKFYKPRRDAMLEALEEFMPEGVKWTKPEGGMFIWVTLPDGIDSKKMLERAIKKGVAYVPGEAFYAHRDVKNTMRLNFTYVDEDKIMEGIKRLAETIKEELKA 3ap1-a1-m1-cB_3ap1-a1-m1-cA Crystal structure of human tyrosylprotein sulfotransferase-2 complexed with PAP and C4 peptide O60704 O60704 1.9 X-RAY DIFFRACTION 114 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 297 298 3ap2-a1-m1-cB_3ap2-a1-m1-cA 3ap3-a2-m1-cC_3ap3-a2-m1-cD ELVMVEYRYGKAMPLIFVGGVPRSGTTLMRAMLDAHPEVRCGEETRIIPRVLAMRQAWSKSGREKLRLDEAGVTDEVLDAAMQAFILEVIAKHGEPARVLCNKDPFTLKSSVYLSRLFPNSKFLLMVRDGRASVHSMITRKVTIAGFDLSSYRDCLTKWNKAIEVMYAQCMEVGKEKCLPVYYEQLVLHPRRSLKLILDFLGIAWSDAVLHHEDLIGKPGGVSLSKIERSTDQVIKPVNLEALSKWTGHIPGDVVRDMAQIAPMLAQLGYDPYANPPNYGNPDPFVINNTQRVLKGD LVMVVEYRYGKAMPLIFVGGVPRSGTTLMRAMLDAHPEVRCGEETRIIPRVLAMRQAWSKSGREKLRLDEAGVTDEVLDAAMQAFILEVIAKHGEPARVLCNKDPFTLKSSVYLSRLFPNSKFLLMVRDGRASVHSMITRKVTIAGFDLSSYRDCLTKWNKAIEVMYAQCMEVGKEKCLPVYYEQLVLHPRRSLKLILDFLGIAWSDAVLHHEDLIGKPGGVSLSKIERSTDQVIKPVNLEALSKWTGHIPGDVVRDMAQIAPMLAQLGYDPYANPPNYGNPDPFVINNTQRVLKGDY 3apg-a1-m1-cB_3apg-a1-m1-cD Crystal structure of hyperthermophilic beta-glucosidase from pyrococcus furiosus Q51723 Q51723 2.35 X-RAY DIFFRACTION 58 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 471 471 3apg-a1-m1-cA_3apg-a1-m1-cC 3wdp-a1-m1-cP_3wdp-a1-m1-cQ 3wdp-a2-m1-cR_3wdp-a2-m1-cS AKFPKNFMFGYSWSGFQFEMGLPGSEVESDWWVWVHDKENIASGLVSGDLPENGPAYWHLYKQDHDIAEKLGMDCIRGGIEWARIFPKPTFDVKVDVEKDEEGNIISVDVPESTIKELEKIANMEALEHYRKIYSDWKERGKTFILNLYHWPLPLWIHDPIAVRKLGPDRAPAGWLDEKTVVEFVKFAAFVAYHLDDLVDMWSTMNEPNVVYNQGYINLRSGFPPGYLSFEAAEKAKFNLIQAHIGAYDAIKEYSEKSVGVIYAFAWHDPLAEEYKDEVEEIRKKDYEFVTILHSKGKLDWIGVNYYSRLVYGAKDGHLVPLPGYGFMSERGGFAKSGRPASDFGWEMYPEGLENLLKYLNNAYELPMIITENGMADAADRYRPHYLVSHLKAVYNAMKEGADVRGYLHWSLTDNYEWAQGFRMRFGLVYVDFETKKRYLRPSALVFREIATQKEIPEELAHLADLKFVTR AKFPKNFMFGYSWSGFQFEMGLPGSEVESDWWVWVHDKENIASGLVSGDLPENGPAYWHLYKQDHDIAEKLGMDCIRGGIEWARIFPKPTFDVKVDVEKDEEGNIISVDVPESTIKELEKIANMEALEHYRKIYSDWKERGKTFILNLYHWPLPLWIHDPIAVRKLGPDRAPAGWLDEKTVVEFVKFAAFVAYHLDDLVDMWSTMNEPNVVYNQGYINLRSGFPPGYLSFEAAEKAKFNLIQAHIGAYDAIKEYSEKSVGVIYAFAWHDPLAEEYKDEVEEIRKKDYEFVTILHSKGKLDWIGVNYYSRLVYGAKDGHLVPLPGYGFMSERGGFAKSGRPASDFGWEMYPEGLENLLKYLNNAYELPMIITENGMADAADRYRPHYLVSHLKAVYNAMKEGADVRGYLHWSLTDNYEWAQGFRMRFGLVYVDFETKKRYLRPSALVFREIATQKEIPEELAHLADLKFVTR 3apg-a1-m1-cC_3apg-a1-m1-cD Crystal structure of hyperthermophilic beta-glucosidase from pyrococcus furiosus Q51723 Q51723 2.35 X-RAY DIFFRACTION 46 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 471 471 3apg-a1-m1-cA_3apg-a1-m1-cB AKFPKNFMFGYSWSGFQFEMGLPGSEVESDWWVWVHDKENIASGLVSGDLPENGPAYWHLYKQDHDIAEKLGMDCIRGGIEWARIFPKPTFDVKVDVEKDEEGNIISVDVPESTIKELEKIANMEALEHYRKIYSDWKERGKTFILNLYHWPLPLWIHDPIAVRKLGPDRAPAGWLDEKTVVEFVKFAAFVAYHLDDLVDMWSTMNEPNVVYNQGYINLRSGFPPGYLSFEAAEKAKFNLIQAHIGAYDAIKEYSEKSVGVIYAFAWHDPLAEEYKDEVEEIRKKDYEFVTILHSKGKLDWIGVNYYSRLVYGAKDGHLVPLPGYGFMSERGGFAKSGRPASDFGWEMYPEGLENLLKYLNNAYELPMIITENGMADAADRYRPHYLVSHLKAVYNAMKEGADVRGYLHWSLTDNYEWAQGFRMRFGLVYVDFETKKRYLRPSALVFREIATQKEIPEELAHLADLKFVTR AKFPKNFMFGYSWSGFQFEMGLPGSEVESDWWVWVHDKENIASGLVSGDLPENGPAYWHLYKQDHDIAEKLGMDCIRGGIEWARIFPKPTFDVKVDVEKDEEGNIISVDVPESTIKELEKIANMEALEHYRKIYSDWKERGKTFILNLYHWPLPLWIHDPIAVRKLGPDRAPAGWLDEKTVVEFVKFAAFVAYHLDDLVDMWSTMNEPNVVYNQGYINLRSGFPPGYLSFEAAEKAKFNLIQAHIGAYDAIKEYSEKSVGVIYAFAWHDPLAEEYKDEVEEIRKKDYEFVTILHSKGKLDWIGVNYYSRLVYGAKDGHLVPLPGYGFMSERGGFAKSGRPASDFGWEMYPEGLENLLKYLNNAYELPMIITENGMADAADRYRPHYLVSHLKAVYNAMKEGADVRGYLHWSLTDNYEWAQGFRMRFGLVYVDFETKKRYLRPSALVFREIATQKEIPEELAHLADLKFVTR 3apn-a1-m1-cA_3apn-a1-m2-cA Crystal structure of the human wild-type PAD4 protein Q9UM07 Q9UM07 2.7 X-RAY DIFFRACTION 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 563 563 1wd8-a1-m1-cA_1wd8-a1-m2-cA 3apm-a1-m1-cA_3apm-a1-m2-cA 4x8c-a1-m1-cA_4x8c-a1-m2-cA 8god-a1-m1-cA_8god-a1-m2-cA AQGTLIRVTPEQPTHAVCVLGTLTQLDICSSAPCTSFSINASPGVVVDIAHSTWPLDPGVEVTLTMKAASGSTGDQKVQISYYGPKTPPVKALLYLTAVEISLCADITRTGKVKQRTWTWGPCGQGAILLVNCDRDLDSEDLQDMSLMTLSTKTPKDFFTNHTLVLHVARSEMDKVRVFQATRKCSVVLGPKWPSHYLMVPGGKHNMDFYVEALAFPDTDFPGLITLTISLLDTSNLELPEAVVFQDSVVFRVAPWIMTPNTQPPQEVYACSLKSVTTLAMKAKCKLTICQDEMEIGYIQAPHKTLPVVFDSDFGYVTRGGLDSFGNLEVSPPVTVRGKEYPLGRILFGDSCYPSNDSRQMHQALQDFLSAQQVQAPVKLYSDWLSVGHVDEFLSFVPAPDRKGFRLLLASPRSCYKLFQEQQNEGHGEALLFKQQKIKNILSNKTLREHNSFVERCIDWNRELLKRELGLAESDIIDIPQLFKLKEFSKAEAFFPNMVNMLVLGKHLGIPKPFGPVINGRCCLEEKVCSLLEPLGLQCTFINDCGTNVRRKPFSFKWWNMVP AQGTLIRVTPEQPTHAVCVLGTLTQLDICSSAPCTSFSINASPGVVVDIAHSTWPLDPGVEVTLTMKAASGSTGDQKVQISYYGPKTPPVKALLYLTAVEISLCADITRTGKVKQRTWTWGPCGQGAILLVNCDRDLDSEDLQDMSLMTLSTKTPKDFFTNHTLVLHVARSEMDKVRVFQATRKCSVVLGPKWPSHYLMVPGGKHNMDFYVEALAFPDTDFPGLITLTISLLDTSNLELPEAVVFQDSVVFRVAPWIMTPNTQPPQEVYACSLKSVTTLAMKAKCKLTICQDEMEIGYIQAPHKTLPVVFDSDFGYVTRGGLDSFGNLEVSPPVTVRGKEYPLGRILFGDSCYPSNDSRQMHQALQDFLSAQQVQAPVKLYSDWLSVGHVDEFLSFVPAPDRKGFRLLLASPRSCYKLFQEQQNEGHGEALLFKQQKIKNILSNKTLREHNSFVERCIDWNRELLKRELGLAESDIIDIPQLFKLKEFSKAEAFFPNMVNMLVLGKHLGIPKPFGPVINGRCCLEEKVCSLLEPLGLQCTFINDCGTNVRRKPFSFKWWNMVP 3apy-a4-m1-cG_3apy-a4-m1-cH Properties and crystal structure of methylenetetrahydrofolate reductase from Thermus thermophilus HB8 Q5SLG6 Q5SLG6 2.8 X-RAY DIFFRACTION 106 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 291 291 3apy-a1-m1-cA_3apy-a1-m1-cB 3apy-a2-m1-cC_3apy-a2-m1-cD 3apy-a3-m1-cE_3apy-a3-m1-cF 7th5-a1-m1-cB_7th5-a1-m1-cA MKIRDLLKARRGPLFSFEFFPPKDPEGEEALFRTLEELKAFRPAFVSITYGAMGSTRERSVAWAQRIQSLGLNPLAHLTVAGQSRKEVAEVLHRFVESGVENLLALRGDPPRGERVFRPHPEGFRYAAELVALIRERYGDRVSVGGAAYPEGHPESESLEADLRHFKAKVEAGLDFAITQLFFNNAHYFGFLERARRAGIGIPILPGIMPVTSYRQLRRFTEVCGASIPGPLLAKLERHQDDPKAVLEIGVEHAVRQVAELLEAGVEGVHFYTLNKSPATRMVLERLGLRP MKIRDLLKARRGPLFSFEFFPPKDPEGEEALFRTLEELKAFRPAFVSITYGAMGSTRERSVAWAQRIQSLGLNPLAHLTVAGQSRKEVAEVLHRFVESGVENLLALRGDPPRGERVFRPHPEGFRYAAELVALIRERYGDRVSVGGAAYPEGHPESESLEADLRHFKAKVEAGLDFAITQLFFNNAHYFGFLERARRAGIGIPILPGIMPVTSYRQLRRFTEVCGASIPGPLLAKLERHQDDPKAVLEIGVEHAVRQVAELLEAGVEGVHFYTLNKSPATRMVLERLGLRP 3aq0-a4-m1-cG_3aq0-a4-m1-cH Ligand-bound form of Arabidopsis medium/long-chain length prenyl pyrophosphate synthase (surface polar residue mutant) Q5HZ00 Q5HZ00 2.65 X-RAY DIFFRACTION 128 0.99 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 314 324 3apz-a1-m1-cA_3apz-a1-m2-cA 3apz-a2-m1-cB_3apz-a2-m3-cB 3aq0-a1-m1-cB_3aq0-a1-m1-cA 3aq0-a2-m1-cD_3aq0-a2-m1-cC 3aq0-a3-m1-cF_3aq0-a3-m1-cE LDPFSLVADELSLLSNKLREMVLAEVPKLASAAEYFFKRGVQGKQFRSTILLLMATALDVTSELRVRQRGIAEITEMIHVASLLHDDVLVVMGNKMSVLAGDFLLSRACGALAALKNTEVVALLATAVEHLVTGETMEITSSTAARYSMDYYMQKTYYKTASLISNSCKAVAVLTGQTAEVAVLAFEYGRNLGLAFQLIDDILDFTGTSASLGKGSLSDIRHGVITAPILFAMEEFPQLREVVDQVAADPRNVDIALEYLGKSKGIQRARELAMEHANLAAAAIGSLPETDNEDVKRSRRALIDLTHRVITRNK LDPFSLVADELSLLSNKLREMVLAEVPKLASAAEYFFKRGVQGKQFRSTILLLMATALDSELRVRQRGIAEITEMIHVASLLHDDVLDDADTRRGVGSLNVVMGNKMSVLAGDFLLSRACGALAALKNTEVVALLATAVEHLVTGETMEITSSTAARYSMDYYMQKTYYKTASLISNSCKAVAVLTGQTAEVAVLAFEYGRNLGLAFQLIDDILDFTGTSASLGKGSLSDIRHGVITAPILFAMEEFPQLREVVDQVAADPRNVDIALEYLGKSKGIQRARELAMEHANLAAAAIGSLPETDNEDVKRSRRALIDLTHRVITRN 3aq1-a2-m1-cB_3aq1-a2-m2-cB Open state monomer of a group II chaperonin from methanococcoides burtonii Q12UN6 Q12UN6 2.746 X-RAY DIFFRACTION 63 1.0 259564 (Methanococcoides burtonii DSM 6242) 259564 (Methanococcoides burtonii DSM 6242) 402 402 VGDGTTTAAVLSGELLSKAEELIMKGVHSTIISEGYRHAAEKCREILETITIAISPDDEAALIKIAGTAITGKGAEAYKEKLSALTVKAVRSIVEEEEDGLKVNVLENIKIEKRAGGSIDDSELIDGLVIDKERSHPNMPEKVENAKILLLSCPVEFKMMREMAEKVIASGANVVFCQKGIDDMAQYYIEKAGIYAVRRVKKSDLKRLSKVTGATIIQDLDQITTEDVGTAGLVEEKEVRGGKMTYVTGCQNSKAVTVLLHGGTEHVVDSLDHALNDALHVVGVVIEDGKVVVGGGSSEVELSLRLSEYASTLKGREQLAVSKFAEALEVIPVALAENAGLDPIDIMVELRSQHEKGNKNAGLNVYTGEVVDMWENDVIEPLRIKTQAINAAMEATVMILRI VGDGTTTAAVLSGELLSKAEELIMKGVHSTIISEGYRHAAEKCREILETITIAISPDDEAALIKIAGTAITGKGAEAYKEKLSALTVKAVRSIVEEEEDGLKVNVLENIKIEKRAGGSIDDSELIDGLVIDKERSHPNMPEKVENAKILLLSCPVEFKMMREMAEKVIASGANVVFCQKGIDDMAQYYIEKAGIYAVRRVKKSDLKRLSKVTGATIIQDLDQITTEDVGTAGLVEEKEVRGGKMTYVTGCQNSKAVTVLLHGGTEHVVDSLDHALNDALHVVGVVIEDGKVVVGGGSSEVELSLRLSEYASTLKGREQLAVSKFAEALEVIPVALAENAGLDPIDIMVELRSQHEKGNKNAGLNVYTGEVVDMWENDVIEPLRIKTQAINAAMEATVMILRI 3aqd-a2-m1-cM_3aqd-a2-m1-cN Unliganded TRAP Q9X6J6 Q9X6J6 3.2 X-RAY DIFFRACTION 68 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 60 62 6rvv-a1-m1-cAA_6rvv-a1-m1-cAB 6rvv-a1-m1-cAA_6rvv-a1-m1-cAK 6rvv-a1-m1-cAB_6rvv-a1-m1-cAC 6rvv-a1-m1-cAC_6rvv-a1-m1-cAD 6rvv-a1-m1-cAD_6rvv-a1-m1-cAE 6rvv-a1-m1-cAE_6rvv-a1-m1-cAF 6rvv-a1-m1-cAF_6rvv-a1-m1-cAG 6rvv-a1-m1-cAG_6rvv-a1-m1-cAH 6rvv-a1-m1-cAH_6rvv-a1-m1-cAI 6rvv-a1-m1-cAI_6rvv-a1-m1-cAJ 6rvv-a1-m1-cAJ_6rvv-a1-m1-cAK 6rvv-a1-m1-cBA_6rvv-a1-m1-cBB 6rvv-a1-m1-cBA_6rvv-a1-m1-cBK 6rvv-a1-m1-cBB_6rvv-a1-m1-cBC 6rvv-a1-m1-cBC_6rvv-a1-m1-cBD 6rvv-a1-m1-cBD_6rvv-a1-m1-cBE 6rvv-a1-m1-cBE_6rvv-a1-m1-cBF 6rvv-a1-m1-cBF_6rvv-a1-m1-cBG 6rvv-a1-m1-cBG_6rvv-a1-m1-cBH 6rvv-a1-m1-cBH_6rvv-a1-m1-cBI 6rvv-a1-m1-cBI_6rvv-a1-m1-cBJ 6rvv-a1-m1-cBJ_6rvv-a1-m1-cBK 6rvv-a1-m1-cCA_6rvv-a1-m1-cCB 6rvv-a1-m1-cCA_6rvv-a1-m1-cCK 6rvv-a1-m1-cCB_6rvv-a1-m1-cCC 6rvv-a1-m1-cCC_6rvv-a1-m1-cCD 6rvv-a1-m1-cCD_6rvv-a1-m1-cCE 6rvv-a1-m1-cCE_6rvv-a1-m1-cCF 6rvv-a1-m1-cCF_6rvv-a1-m1-cCG 6rvv-a1-m1-cCG_6rvv-a1-m1-cCH 6rvv-a1-m1-cCH_6rvv-a1-m1-cCI 6rvv-a1-m1-cCI_6rvv-a1-m1-cCJ 6rvv-a1-m1-cCJ_6rvv-a1-m1-cCK 6rvv-a1-m1-cDA_6rvv-a1-m1-cDB 6rvv-a1-m1-cDA_6rvv-a1-m1-cDK 6rvv-a1-m1-cDB_6rvv-a1-m1-cDC 6rvv-a1-m1-cDC_6rvv-a1-m1-cDD 6rvv-a1-m1-cDD_6rvv-a1-m1-cDE 6rvv-a1-m1-cDE_6rvv-a1-m1-cDF 6rvv-a1-m1-cDF_6rvv-a1-m1-cDG 6rvv-a1-m1-cDG_6rvv-a1-m1-cDH 6rvv-a1-m1-cDH_6rvv-a1-m1-cDI 6rvv-a1-m1-cDI_6rvv-a1-m1-cDJ 6rvv-a1-m1-cDJ_6rvv-a1-m1-cDK 6rvv-a1-m1-cEA_6rvv-a1-m1-cEB 6rvv-a1-m1-cEA_6rvv-a1-m1-cEK 6rvv-a1-m1-cEB_6rvv-a1-m1-cEC 6rvv-a1-m1-cEC_6rvv-a1-m1-cED 6rvv-a1-m1-cED_6rvv-a1-m1-cEE 6rvv-a1-m1-cEE_6rvv-a1-m1-cEF 6rvv-a1-m1-cEF_6rvv-a1-m1-cEG 6rvv-a1-m1-cEG_6rvv-a1-m1-cEH 6rvv-a1-m1-cEH_6rvv-a1-m1-cEI 6rvv-a1-m1-cEI_6rvv-a1-m1-cEJ 6rvv-a1-m1-cEJ_6rvv-a1-m1-cEK 6rvv-a1-m1-cFA_6rvv-a1-m1-cFB 6rvv-a1-m1-cFA_6rvv-a1-m1-cFK 6rvv-a1-m1-cFB_6rvv-a1-m1-cFC 6rvv-a1-m1-cFC_6rvv-a1-m1-cFD 6rvv-a1-m1-cFD_6rvv-a1-m1-cFE 6rvv-a1-m1-cFE_6rvv-a1-m1-cFF 6rvv-a1-m1-cFF_6rvv-a1-m1-cFG 6rvv-a1-m1-cFG_6rvv-a1-m1-cFH 6rvv-a1-m1-cFH_6rvv-a1-m1-cFI 6rvv-a1-m1-cFI_6rvv-a1-m1-cFJ 6rvv-a1-m1-cFJ_6rvv-a1-m1-cFK 6rvv-a1-m1-cGA_6rvv-a1-m1-cGB 6rvv-a1-m1-cGA_6rvv-a1-m1-cGK 6rvv-a1-m1-cGB_6rvv-a1-m1-cGC 6rvv-a1-m1-cGC_6rvv-a1-m1-cGD 6rvv-a1-m1-cGD_6rvv-a1-m1-cGE 6rvv-a1-m1-cGE_6rvv-a1-m1-cGF 6rvv-a1-m1-cGF_6rvv-a1-m1-cGG 6rvv-a1-m1-cGG_6rvv-a1-m1-cGH 6rvv-a1-m1-cGH_6rvv-a1-m1-cGI 6rvv-a1-m1-cGI_6rvv-a1-m1-cGJ 6rvv-a1-m1-cGJ_6rvv-a1-m1-cGK 6rvv-a1-m1-cHA_6rvv-a1-m1-cHB 6rvv-a1-m1-cHA_6rvv-a1-m1-cHK 6rvv-a1-m1-cHB_6rvv-a1-m1-cHC 6rvv-a1-m1-cHC_6rvv-a1-m1-cHD 6rvv-a1-m1-cHD_6rvv-a1-m1-cHE 6rvv-a1-m1-cHE_6rvv-a1-m1-cHF 6rvv-a1-m1-cHF_6rvv-a1-m1-cHG 6rvv-a1-m1-cHG_6rvv-a1-m1-cHH 6rvv-a1-m1-cHH_6rvv-a1-m1-cHI 6rvv-a1-m1-cHI_6rvv-a1-m1-cHJ 6rvv-a1-m1-cHJ_6rvv-a1-m1-cHK 6rvv-a1-m1-cIA_6rvv-a1-m1-cIB 6rvv-a1-m1-cIA_6rvv-a1-m1-cIK 6rvv-a1-m1-cIB_6rvv-a1-m1-cIC 6rvv-a1-m1-cIC_6rvv-a1-m1-cID 6rvv-a1-m1-cID_6rvv-a1-m1-cIE 6rvv-a1-m1-cIE_6rvv-a1-m1-cIF 6rvv-a1-m1-cIF_6rvv-a1-m1-cIG 6rvv-a1-m1-cIG_6rvv-a1-m1-cIH 6rvv-a1-m1-cIH_6rvv-a1-m1-cII 6rvv-a1-m1-cII_6rvv-a1-m1-cIJ 6rvv-a1-m1-cIJ_6rvv-a1-m1-cIK 6rvv-a1-m1-cJA_6rvv-a1-m1-cJB 6rvv-a1-m1-cJA_6rvv-a1-m1-cJK 6rvv-a1-m1-cJB_6rvv-a1-m1-cJC 6rvv-a1-m1-cJC_6rvv-a1-m1-cJD 6rvv-a1-m1-cJD_6rvv-a1-m1-cJE 6rvv-a1-m1-cJE_6rvv-a1-m1-cJF 6rvv-a1-m1-cJF_6rvv-a1-m1-cJG 6rvv-a1-m1-cJG_6rvv-a1-m1-cJH 6rvv-a1-m1-cJH_6rvv-a1-m1-cJI 6rvv-a1-m1-cJI_6rvv-a1-m1-cJJ 6rvv-a1-m1-cJJ_6rvv-a1-m1-cJK 6rvv-a1-m1-cKA_6rvv-a1-m1-cKB 6rvv-a1-m1-cKA_6rvv-a1-m1-cKK 6rvv-a1-m1-cKB_6rvv-a1-m1-cKC 6rvv-a1-m1-cKC_6rvv-a1-m1-cKD 6rvv-a1-m1-cKD_6rvv-a1-m1-cKE 6rvv-a1-m1-cKE_6rvv-a1-m1-cKF 6rvv-a1-m1-cKF_6rvv-a1-m1-cKG 6rvv-a1-m1-cKG_6rvv-a1-m1-cKH 6rvv-a1-m1-cKH_6rvv-a1-m1-cKI 6rvv-a1-m1-cKI_6rvv-a1-m1-cKJ 6rvv-a1-m1-cKJ_6rvv-a1-m1-cKK 6rvv-a1-m1-cLA_6rvv-a1-m1-cLB 6rvv-a1-m1-cLA_6rvv-a1-m1-cLK 6rvv-a1-m1-cLB_6rvv-a1-m1-cLC 6rvv-a1-m1-cLC_6rvv-a1-m1-cLD 6rvv-a1-m1-cLD_6rvv-a1-m1-cLE 6rvv-a1-m1-cLE_6rvv-a1-m1-cLF 6rvv-a1-m1-cLF_6rvv-a1-m1-cLG 6rvv-a1-m1-cLG_6rvv-a1-m1-cLH 6rvv-a1-m1-cLH_6rvv-a1-m1-cLI 6rvv-a1-m1-cLI_6rvv-a1-m1-cLJ 6rvv-a1-m1-cLJ_6rvv-a1-m1-cLK 6rvv-a1-m1-cMA_6rvv-a1-m1-cMB 6rvv-a1-m1-cMA_6rvv-a1-m1-cMK 6rvv-a1-m1-cMB_6rvv-a1-m1-cMC 6rvv-a1-m1-cMC_6rvv-a1-m1-cMD 6rvv-a1-m1-cMD_6rvv-a1-m1-cME 6rvv-a1-m1-cME_6rvv-a1-m1-cMF 6rvv-a1-m1-cMF_6rvv-a1-m1-cMG 6rvv-a1-m1-cMG_6rvv-a1-m1-cMH 6rvv-a1-m1-cMH_6rvv-a1-m1-cMI 6rvv-a1-m1-cMI_6rvv-a1-m1-cMJ 6rvv-a1-m1-cMJ_6rvv-a1-m1-cMK 6rvv-a1-m1-cNA_6rvv-a1-m1-cNB 6rvv-a1-m1-cNA_6rvv-a1-m1-cNK 6rvv-a1-m1-cNB_6rvv-a1-m1-cNC 6rvv-a1-m1-cNC_6rvv-a1-m1-cND 6rvv-a1-m1-cND_6rvv-a1-m1-cNE 6rvv-a1-m1-cNE_6rvv-a1-m1-cNF 6rvv-a1-m1-cNF_6rvv-a1-m1-cNG 6rvv-a1-m1-cNG_6rvv-a1-m1-cNH 6rvv-a1-m1-cNH_6rvv-a1-m1-cNI 6rvv-a1-m1-cNI_6rvv-a1-m1-cNJ 6rvv-a1-m1-cNJ_6rvv-a1-m1-cNK 6rvv-a1-m1-cOA_6rvv-a1-m1-cOB 6rvv-a1-m1-cOA_6rvv-a1-m1-cOK 6rvv-a1-m1-cOB_6rvv-a1-m1-cOC 6rvv-a1-m1-cOC_6rvv-a1-m1-cOD 6rvv-a1-m1-cOD_6rvv-a1-m1-cOE 6rvv-a1-m1-cOE_6rvv-a1-m1-cOF 6rvv-a1-m1-cOF_6rvv-a1-m1-cOG 6rvv-a1-m1-cOG_6rvv-a1-m1-cOH 6rvv-a1-m1-cOH_6rvv-a1-m1-cOI 6rvv-a1-m1-cOI_6rvv-a1-m1-cOJ 6rvv-a1-m1-cOJ_6rvv-a1-m1-cOK 6rvv-a1-m1-cPA_6rvv-a1-m1-cPB 6rvv-a1-m1-cPA_6rvv-a1-m1-cPK 6rvv-a1-m1-cPB_6rvv-a1-m1-cPC 6rvv-a1-m1-cPC_6rvv-a1-m1-cPD 6rvv-a1-m1-cPD_6rvv-a1-m1-cPE 6rvv-a1-m1-cPE_6rvv-a1-m1-cPF 6rvv-a1-m1-cPF_6rvv-a1-m1-cPG 6rvv-a1-m1-cPG_6rvv-a1-m1-cPH 6rvv-a1-m1-cPH_6rvv-a1-m1-cPI 6rvv-a1-m1-cPI_6rvv-a1-m1-cPJ 6rvv-a1-m1-cPJ_6rvv-a1-m1-cPK 6rvv-a1-m1-cQA_6rvv-a1-m1-cQB 6rvv-a1-m1-cQA_6rvv-a1-m1-cQK 6rvv-a1-m1-cQB_6rvv-a1-m1-cQC 6rvv-a1-m1-cQC_6rvv-a1-m1-cQD 6rvv-a1-m1-cQD_6rvv-a1-m1-cQE 6rvv-a1-m1-cQE_6rvv-a1-m1-cQF 6rvv-a1-m1-cQF_6rvv-a1-m1-cQG 6rvv-a1-m1-cQG_6rvv-a1-m1-cQH 6rvv-a1-m1-cQH_6rvv-a1-m1-cQI 6rvv-a1-m1-cQI_6rvv-a1-m1-cQJ 6rvv-a1-m1-cQJ_6rvv-a1-m1-cQK 6rvv-a1-m1-cRA_6rvv-a1-m1-cRB 6rvv-a1-m1-cRA_6rvv-a1-m1-cRK 6rvv-a1-m1-cRB_6rvv-a1-m1-cRC 6rvv-a1-m1-cRC_6rvv-a1-m1-cRD 6rvv-a1-m1-cRD_6rvv-a1-m1-cRE 6rvv-a1-m1-cRE_6rvv-a1-m1-cRF 6rvv-a1-m1-cRF_6rvv-a1-m1-cRG 6rvv-a1-m1-cRG_6rvv-a1-m1-cRH 6rvv-a1-m1-cRH_6rvv-a1-m1-cRI 6rvv-a1-m1-cRI_6rvv-a1-m1-cRJ 6rvv-a1-m1-cRJ_6rvv-a1-m1-cRK 6rvv-a1-m1-cSA_6rvv-a1-m1-cSB 6rvv-a1-m1-cSA_6rvv-a1-m1-cSK 6rvv-a1-m1-cSB_6rvv-a1-m1-cSC 6rvv-a1-m1-cSC_6rvv-a1-m1-cSD 6rvv-a1-m1-cSD_6rvv-a1-m1-cSE 6rvv-a1-m1-cSE_6rvv-a1-m1-cSF 6rvv-a1-m1-cSF_6rvv-a1-m1-cSG 6rvv-a1-m1-cSG_6rvv-a1-m1-cSH 6rvv-a1-m1-cSH_6rvv-a1-m1-cSI 6rvv-a1-m1-cSI_6rvv-a1-m1-cSJ 6rvv-a1-m1-cSJ_6rvv-a1-m1-cSK 6rvv-a1-m1-cTA_6rvv-a1-m1-cTB 6rvv-a1-m1-cTA_6rvv-a1-m1-cTK 6rvv-a1-m1-cTB_6rvv-a1-m1-cTC 6rvv-a1-m1-cTC_6rvv-a1-m1-cTD 6rvv-a1-m1-cTD_6rvv-a1-m1-cTE 6rvv-a1-m1-cTE_6rvv-a1-m1-cTF 6rvv-a1-m1-cTF_6rvv-a1-m1-cTG 6rvv-a1-m1-cTG_6rvv-a1-m1-cTH 6rvv-a1-m1-cTH_6rvv-a1-m1-cTI 6rvv-a1-m1-cTI_6rvv-a1-m1-cTJ 6rvv-a1-m1-cTJ_6rvv-a1-m1-cTK 6rvv-a1-m1-cUA_6rvv-a1-m1-cUB 6rvv-a1-m1-cUA_6rvv-a1-m1-cUK 6rvv-a1-m1-cUB_6rvv-a1-m1-cUC 6rvv-a1-m1-cUC_6rvv-a1-m1-cUD 6rvv-a1-m1-cUD_6rvv-a1-m1-cUE 6rvv-a1-m1-cUE_6rvv-a1-m1-cUF 6rvv-a1-m1-cUF_6rvv-a1-m1-cUG 6rvv-a1-m1-cUG_6rvv-a1-m1-cUH 6rvv-a1-m1-cUH_6rvv-a1-m1-cUI 6rvv-a1-m1-cUI_6rvv-a1-m1-cUJ 6rvv-a1-m1-cUJ_6rvv-a1-m1-cUK 6rvv-a1-m1-cVA_6rvv-a1-m1-cVB 6rvv-a1-m1-cVA_6rvv-a1-m1-cVK 6rvv-a1-m1-cVB_6rvv-a1-m1-cVC 6rvv-a1-m1-cVC_6rvv-a1-m1-cVD 6rvv-a1-m1-cVD_6rvv-a1-m1-cVE 6rvv-a1-m1-cVE_6rvv-a1-m1-cVF 6rvv-a1-m1-cVF_6rvv-a1-m1-cVG 6rvv-a1-m1-cVG_6rvv-a1-m1-cVH 6rvv-a1-m1-cVH_6rvv-a1-m1-cVI 6rvv-a1-m1-cVI_6rvv-a1-m1-cVJ 6rvv-a1-m1-cVJ_6rvv-a1-m1-cVK 6rvv-a1-m1-cWA_6rvv-a1-m1-cWB 6rvv-a1-m1-cWA_6rvv-a1-m1-cWK 6rvv-a1-m1-cWB_6rvv-a1-m1-cWC 6rvv-a1-m1-cWC_6rvv-a1-m1-cWD 6rvv-a1-m1-cWD_6rvv-a1-m1-cWE 6rvv-a1-m1-cWE_6rvv-a1-m1-cWF 6rvv-a1-m1-cWF_6rvv-a1-m1-cWG 6rvv-a1-m1-cWG_6rvv-a1-m1-cWH 6rvv-a1-m1-cWH_6rvv-a1-m1-cWI 6rvv-a1-m1-cWI_6rvv-a1-m1-cWJ 6rvv-a1-m1-cWJ_6rvv-a1-m1-cWK 6rvv-a1-m1-cXA_6rvv-a1-m1-cXB 6rvv-a1-m1-cXA_6rvv-a1-m1-cXK 6rvv-a1-m1-cXB_6rvv-a1-m1-cXC 6rvv-a1-m1-cXC_6rvv-a1-m1-cXD 6rvv-a1-m1-cXD_6rvv-a1-m1-cXE 6rvv-a1-m1-cXE_6rvv-a1-m1-cXF 6rvv-a1-m1-cXF_6rvv-a1-m1-cXG 6rvv-a1-m1-cXG_6rvv-a1-m1-cXH 6rvv-a1-m1-cXH_6rvv-a1-m1-cXI 6rvv-a1-m1-cXI_6rvv-a1-m1-cXJ 6rvv-a1-m1-cXJ_6rvv-a1-m1-cXK 6rvw-a1-m1-cAA_6rvw-a1-m1-cAB 6rvw-a1-m1-cAA_6rvw-a1-m1-cAK 6rvw-a1-m1-cAB_6rvw-a1-m1-cAC 6rvw-a1-m1-cAC_6rvw-a1-m1-cAD 6rvw-a1-m1-cAD_6rvw-a1-m1-cAE 6rvw-a1-m1-cAE_6rvw-a1-m1-cAF 6rvw-a1-m1-cAF_6rvw-a1-m1-cAG 6rvw-a1-m1-cAG_6rvw-a1-m1-cAH 6rvw-a1-m1-cAH_6rvw-a1-m1-cAI 6rvw-a1-m1-cAI_6rvw-a1-m1-cAJ 6rvw-a1-m1-cAJ_6rvw-a1-m1-cAK 6rvw-a1-m1-cBA_6rvw-a1-m1-cBB 6rvw-a1-m1-cBA_6rvw-a1-m1-cBK 6rvw-a1-m1-cBB_6rvw-a1-m1-cBC 6rvw-a1-m1-cBC_6rvw-a1-m1-cBD 6rvw-a1-m1-cBD_6rvw-a1-m1-cBE 6rvw-a1-m1-cBE_6rvw-a1-m1-cBF 6rvw-a1-m1-cBF_6rvw-a1-m1-cBG 6rvw-a1-m1-cBG_6rvw-a1-m1-cBH 6rvw-a1-m1-cBH_6rvw-a1-m1-cBI 6rvw-a1-m1-cBI_6rvw-a1-m1-cBJ 6rvw-a1-m1-cBJ_6rvw-a1-m1-cBK 6rvw-a1-m1-cCA_6rvw-a1-m1-cCB 6rvw-a1-m1-cCA_6rvw-a1-m1-cCK 6rvw-a1-m1-cCB_6rvw-a1-m1-cCC 6rvw-a1-m1-cCC_6rvw-a1-m1-cCD 6rvw-a1-m1-cCD_6rvw-a1-m1-cCE 6rvw-a1-m1-cCE_6rvw-a1-m1-cCF 6rvw-a1-m1-cCF_6rvw-a1-m1-cCG 6rvw-a1-m1-cCG_6rvw-a1-m1-cCH 6rvw-a1-m1-cCH_6rvw-a1-m1-cCI 6rvw-a1-m1-cCI_6rvw-a1-m1-cCJ 6rvw-a1-m1-cCJ_6rvw-a1-m1-cCK 6rvw-a1-m1-cDA_6rvw-a1-m1-cDB 6rvw-a1-m1-cDA_6rvw-a1-m1-cDK 6rvw-a1-m1-cDB_6rvw-a1-m1-cDC 6rvw-a1-m1-cDC_6rvw-a1-m1-cDD 6rvw-a1-m1-cDD_6rvw-a1-m1-cDE 6rvw-a1-m1-cDE_6rvw-a1-m1-cDF 6rvw-a1-m1-cDF_6rvw-a1-m1-cDG 6rvw-a1-m1-cDG_6rvw-a1-m1-cDH 6rvw-a1-m1-cDH_6rvw-a1-m1-cDI 6rvw-a1-m1-cDI_6rvw-a1-m1-cDJ 6rvw-a1-m1-cDJ_6rvw-a1-m1-cDK 6rvw-a1-m1-cEA_6rvw-a1-m1-cEB 6rvw-a1-m1-cEA_6rvw-a1-m1-cEK 6rvw-a1-m1-cEB_6rvw-a1-m1-cEC 6rvw-a1-m1-cEC_6rvw-a1-m1-cED 6rvw-a1-m1-cED_6rvw-a1-m1-cEE 6rvw-a1-m1-cEE_6rvw-a1-m1-cEF 6rvw-a1-m1-cEF_6rvw-a1-m1-cEG 6rvw-a1-m1-cEG_6rvw-a1-m1-cEH 6rvw-a1-m1-cEH_6rvw-a1-m1-cEI 6rvw-a1-m1-cEI_6rvw-a1-m1-cEJ 6rvw-a1-m1-cEJ_6rvw-a1-m1-cEK 6rvw-a1-m1-cFA_6rvw-a1-m1-cFB 6rvw-a1-m1-cFA_6rvw-a1-m1-cFK 6rvw-a1-m1-cFB_6rvw-a1-m1-cFC 6rvw-a1-m1-cFC_6rvw-a1-m1-cFD 6rvw-a1-m1-cFD_6rvw-a1-m1-cFE 6rvw-a1-m1-cFE_6rvw-a1-m1-cFF 6rvw-a1-m1-cFF_6rvw-a1-m1-cFG 6rvw-a1-m1-cFG_6rvw-a1-m1-cFH 6rvw-a1-m1-cFH_6rvw-a1-m1-cFI 6rvw-a1-m1-cFI_6rvw-a1-m1-cFJ 6rvw-a1-m1-cFJ_6rvw-a1-m1-cFK 6rvw-a1-m1-cGA_6rvw-a1-m1-cGB 6rvw-a1-m1-cGA_6rvw-a1-m1-cGK 6rvw-a1-m1-cGB_6rvw-a1-m1-cGC 6rvw-a1-m1-cGC_6rvw-a1-m1-cGD 6rvw-a1-m1-cGD_6rvw-a1-m1-cGE 6rvw-a1-m1-cGE_6rvw-a1-m1-cGF 6rvw-a1-m1-cGF_6rvw-a1-m1-cGG 6rvw-a1-m1-cGG_6rvw-a1-m1-cGH 6rvw-a1-m1-cGH_6rvw-a1-m1-cGI 6rvw-a1-m1-cGI_6rvw-a1-m1-cGJ 6rvw-a1-m1-cGJ_6rvw-a1-m1-cGK 6rvw-a1-m1-cHA_6rvw-a1-m1-cHB 6rvw-a1-m1-cHA_6rvw-a1-m1-cHK 6rvw-a1-m1-cHB_6rvw-a1-m1-cHC 6rvw-a1-m1-cHC_6rvw-a1-m1-cHD 6rvw-a1-m1-cHD_6rvw-a1-m1-cHE 6rvw-a1-m1-cHE_6rvw-a1-m1-cHF 6rvw-a1-m1-cHF_6rvw-a1-m1-cHG 6rvw-a1-m1-cHG_6rvw-a1-m1-cHH 6rvw-a1-m1-cHH_6rvw-a1-m1-cHI 6rvw-a1-m1-cHI_6rvw-a1-m1-cHJ 6rvw-a1-m1-cHJ_6rvw-a1-m1-cHK 6rvw-a1-m1-cIA_6rvw-a1-m1-cIB 6rvw-a1-m1-cIA_6rvw-a1-m1-cIK 6rvw-a1-m1-cIB_6rvw-a1-m1-cIC 6rvw-a1-m1-cIC_6rvw-a1-m1-cID 6rvw-a1-m1-cID_6rvw-a1-m1-cIE 6rvw-a1-m1-cIE_6rvw-a1-m1-cIF 6rvw-a1-m1-cIF_6rvw-a1-m1-cIG 6rvw-a1-m1-cIG_6rvw-a1-m1-cIH 6rvw-a1-m1-cIH_6rvw-a1-m1-cII 6rvw-a1-m1-cII_6rvw-a1-m1-cIJ 6rvw-a1-m1-cIJ_6rvw-a1-m1-cIK 6rvw-a1-m1-cJA_6rvw-a1-m1-cJB 6rvw-a1-m1-cJA_6rvw-a1-m1-cJK 6rvw-a1-m1-cJB_6rvw-a1-m1-cJC 6rvw-a1-m1-cJC_6rvw-a1-m1-cJD 6rvw-a1-m1-cJD_6rvw-a1-m1-cJE 6rvw-a1-m1-cJE_6rvw-a1-m1-cJF 6rvw-a1-m1-cJF_6rvw-a1-m1-cJG 6rvw-a1-m1-cJG_6rvw-a1-m1-cJH 6rvw-a1-m1-cJH_6rvw-a1-m1-cJI 6rvw-a1-m1-cJI_6rvw-a1-m1-cJJ 6rvw-a1-m1-cJJ_6rvw-a1-m1-cJK 6rvw-a1-m1-cKA_6rvw-a1-m1-cKB 6rvw-a1-m1-cKA_6rvw-a1-m1-cKK 6rvw-a1-m1-cKB_6rvw-a1-m1-cKC 6rvw-a1-m1-cKC_6rvw-a1-m1-cKD 6rvw-a1-m1-cKD_6rvw-a1-m1-cKE 6rvw-a1-m1-cKE_6rvw-a1-m1-cKF 6rvw-a1-m1-cKF_6rvw-a1-m1-cKG 6rvw-a1-m1-cKG_6rvw-a1-m1-cKH 6rvw-a1-m1-cKH_6rvw-a1-m1-cKI 6rvw-a1-m1-cKI_6rvw-a1-m1-cKJ 6rvw-a1-m1-cKJ_6rvw-a1-m1-cKK 6rvw-a1-m1-cLA_6rvw-a1-m1-cLB 6rvw-a1-m1-cLA_6rvw-a1-m1-cLK 6rvw-a1-m1-cLB_6rvw-a1-m1-cLC 6rvw-a1-m1-cLC_6rvw-a1-m1-cLD 6rvw-a1-m1-cLD_6rvw-a1-m1-cLE 6rvw-a1-m1-cLE_6rvw-a1-m1-cLF 6rvw-a1-m1-cLF_6rvw-a1-m1-cLG 6rvw-a1-m1-cLG_6rvw-a1-m1-cLH 6rvw-a1-m1-cLH_6rvw-a1-m1-cLI 6rvw-a1-m1-cLI_6rvw-a1-m1-cLJ 6rvw-a1-m1-cLJ_6rvw-a1-m1-cLK 6rvw-a1-m1-cMA_6rvw-a1-m1-cMB 6rvw-a1-m1-cMA_6rvw-a1-m1-cMK 6rvw-a1-m1-cMB_6rvw-a1-m1-cMC 6rvw-a1-m1-cMC_6rvw-a1-m1-cMD 6rvw-a1-m1-cMD_6rvw-a1-m1-cME 6rvw-a1-m1-cME_6rvw-a1-m1-cMF 6rvw-a1-m1-cMF_6rvw-a1-m1-cMG 6rvw-a1-m1-cMG_6rvw-a1-m1-cMH 6rvw-a1-m1-cMH_6rvw-a1-m1-cMI 6rvw-a1-m1-cMI_6rvw-a1-m1-cMJ 6rvw-a1-m1-cMJ_6rvw-a1-m1-cMK 6rvw-a1-m1-cNA_6rvw-a1-m1-cNB 6rvw-a1-m1-cNA_6rvw-a1-m1-cNK 6rvw-a1-m1-cNB_6rvw-a1-m1-cNC 6rvw-a1-m1-cNC_6rvw-a1-m1-cND 6rvw-a1-m1-cND_6rvw-a1-m1-cNE 6rvw-a1-m1-cNE_6rvw-a1-m1-cNF 6rvw-a1-m1-cNF_6rvw-a1-m1-cNG 6rvw-a1-m1-cNG_6rvw-a1-m1-cNH 6rvw-a1-m1-cNH_6rvw-a1-m1-cNI 6rvw-a1-m1-cNI_6rvw-a1-m1-cNJ 6rvw-a1-m1-cNJ_6rvw-a1-m1-cNK 6rvw-a1-m1-cOA_6rvw-a1-m1-cOB 6rvw-a1-m1-cOA_6rvw-a1-m1-cOK 6rvw-a1-m1-cOB_6rvw-a1-m1-cOC 6rvw-a1-m1-cOC_6rvw-a1-m1-cOD 6rvw-a1-m1-cOD_6rvw-a1-m1-cOE 6rvw-a1-m1-cOE_6rvw-a1-m1-cOF 6rvw-a1-m1-cOF_6rvw-a1-m1-cOG 6rvw-a1-m1-cOG_6rvw-a1-m1-cOH 6rvw-a1-m1-cOH_6rvw-a1-m1-cOI 6rvw-a1-m1-cOI_6rvw-a1-m1-cOJ 6rvw-a1-m1-cOJ_6rvw-a1-m1-cOK 6rvw-a1-m1-cPA_6rvw-a1-m1-cPB 6rvw-a1-m1-cPA_6rvw-a1-m1-cPK 6rvw-a1-m1-cPB_6rvw-a1-m1-cPC 6rvw-a1-m1-cPC_6rvw-a1-m1-cPD 6rvw-a1-m1-cPD_6rvw-a1-m1-cPE 6rvw-a1-m1-cPE_6rvw-a1-m1-cPF 6rvw-a1-m1-cPF_6rvw-a1-m1-cPG 6rvw-a1-m1-cPG_6rvw-a1-m1-cPH 6rvw-a1-m1-cPH_6rvw-a1-m1-cPI 6rvw-a1-m1-cPI_6rvw-a1-m1-cPJ 6rvw-a1-m1-cPJ_6rvw-a1-m1-cPK 6rvw-a1-m1-cQA_6rvw-a1-m1-cQB 6rvw-a1-m1-cQA_6rvw-a1-m1-cQK 6rvw-a1-m1-cQB_6rvw-a1-m1-cQC 6rvw-a1-m1-cQC_6rvw-a1-m1-cQD 6rvw-a1-m1-cQD_6rvw-a1-m1-cQE 6rvw-a1-m1-cQE_6rvw-a1-m1-cQF 6rvw-a1-m1-cQF_6rvw-a1-m1-cQG 6rvw-a1-m1-cQG_6rvw-a1-m1-cQH 6rvw-a1-m1-cQH_6rvw-a1-m1-cQI 6rvw-a1-m1-cQI_6rvw-a1-m1-cQJ 6rvw-a1-m1-cQJ_6rvw-a1-m1-cQK 6rvw-a1-m1-cRA_6rvw-a1-m1-cRB 6rvw-a1-m1-cRA_6rvw-a1-m1-cRK 6rvw-a1-m1-cRB_6rvw-a1-m1-cRC 6rvw-a1-m1-cRC_6rvw-a1-m1-cRD 6rvw-a1-m1-cRD_6rvw-a1-m1-cRE 6rvw-a1-m1-cRE_6rvw-a1-m1-cRF 6rvw-a1-m1-cRF_6rvw-a1-m1-cRG 6rvw-a1-m1-cRG_6rvw-a1-m1-cRH 6rvw-a1-m1-cRH_6rvw-a1-m1-cRI 6rvw-a1-m1-cRI_6rvw-a1-m1-cRJ 6rvw-a1-m1-cRJ_6rvw-a1-m1-cRK 6rvw-a1-m1-cSA_6rvw-a1-m1-cSB 6rvw-a1-m1-cSA_6rvw-a1-m1-cSK 6rvw-a1-m1-cSB_6rvw-a1-m1-cSC 6rvw-a1-m1-cSC_6rvw-a1-m1-cSD 6rvw-a1-m1-cSD_6rvw-a1-m1-cSE 6rvw-a1-m1-cSE_6rvw-a1-m1-cSF 6rvw-a1-m1-cSF_6rvw-a1-m1-cSG 6rvw-a1-m1-cSG_6rvw-a1-m1-cSH 6rvw-a1-m1-cSH_6rvw-a1-m1-cSI 6rvw-a1-m1-cSI_6rvw-a1-m1-cSJ 6rvw-a1-m1-cSJ_6rvw-a1-m1-cSK 6rvw-a1-m1-cTA_6rvw-a1-m1-cTB 6rvw-a1-m1-cTA_6rvw-a1-m1-cTK 6rvw-a1-m1-cTB_6rvw-a1-m1-cTC 6rvw-a1-m1-cTC_6rvw-a1-m1-cTD 6rvw-a1-m1-cTD_6rvw-a1-m1-cTE 6rvw-a1-m1-cTE_6rvw-a1-m1-cTF 6rvw-a1-m1-cTF_6rvw-a1-m1-cTG 6rvw-a1-m1-cTG_6rvw-a1-m1-cTH 6rvw-a1-m1-cTH_6rvw-a1-m1-cTI 6rvw-a1-m1-cTI_6rvw-a1-m1-cTJ 6rvw-a1-m1-cTJ_6rvw-a1-m1-cTK 6rvw-a1-m1-cUA_6rvw-a1-m1-cUB 6rvw-a1-m1-cUA_6rvw-a1-m1-cUK 6rvw-a1-m1-cUB_6rvw-a1-m1-cUC 6rvw-a1-m1-cUC_6rvw-a1-m1-cUD 6rvw-a1-m1-cUD_6rvw-a1-m1-cUE 6rvw-a1-m1-cUE_6rvw-a1-m1-cUF 6rvw-a1-m1-cUF_6rvw-a1-m1-cUG 6rvw-a1-m1-cUG_6rvw-a1-m1-cUH 6rvw-a1-m1-cUH_6rvw-a1-m1-cUI 6rvw-a1-m1-cUI_6rvw-a1-m1-cUJ 6rvw-a1-m1-cUJ_6rvw-a1-m1-cUK 6rvw-a1-m1-cVA_6rvw-a1-m1-cVB 6rvw-a1-m1-cVA_6rvw-a1-m1-cVK 6rvw-a1-m1-cVB_6rvw-a1-m1-cVC 6rvw-a1-m1-cVC_6rvw-a1-m1-cVD 6rvw-a1-m1-cVD_6rvw-a1-m1-cVE 6rvw-a1-m1-cVE_6rvw-a1-m1-cVF 6rvw-a1-m1-cVF_6rvw-a1-m1-cVG 6rvw-a1-m1-cVG_6rvw-a1-m1-cVH 6rvw-a1-m1-cVH_6rvw-a1-m1-cVI 6rvw-a1-m1-cVI_6rvw-a1-m1-cVJ 6rvw-a1-m1-cVJ_6rvw-a1-m1-cVK 6rvw-a1-m1-cWA_6rvw-a1-m1-cWB 6rvw-a1-m1-cWA_6rvw-a1-m1-cWK 6rvw-a1-m1-cWB_6rvw-a1-m1-cWC 6rvw-a1-m1-cWC_6rvw-a1-m1-cWD 6rvw-a1-m1-cWD_6rvw-a1-m1-cWE 6rvw-a1-m1-cWE_6rvw-a1-m1-cWF 6rvw-a1-m1-cWF_6rvw-a1-m1-cWG 6rvw-a1-m1-cWG_6rvw-a1-m1-cWH 6rvw-a1-m1-cWH_6rvw-a1-m1-cWI 6rvw-a1-m1-cWI_6rvw-a1-m1-cWJ 6rvw-a1-m1-cWJ_6rvw-a1-m1-cWK 6rvw-a1-m1-cXA_6rvw-a1-m1-cXB 6rvw-a1-m1-cXA_6rvw-a1-m1-cXK 6rvw-a1-m1-cXB_6rvw-a1-m1-cXC 6rvw-a1-m1-cXC_6rvw-a1-m1-cXD 6rvw-a1-m1-cXD_6rvw-a1-m1-cXE 6rvw-a1-m1-cXE_6rvw-a1-m1-cXF 6rvw-a1-m1-cXF_6rvw-a1-m1-cXG 6rvw-a1-m1-cXG_6rvw-a1-m1-cXH 6rvw-a1-m1-cXH_6rvw-a1-m1-cXI 6rvw-a1-m1-cXI_6rvw-a1-m1-cXJ 6rvw-a1-m1-cXJ_6rvw-a1-m1-cXK SDFVVIKALEDGVNVIGLHHSEKLDKGEVLIAQFTEHTSAIKVRGKAYIQTRHGVIESEG SDFVVIKALEDGVNVIGLTFHHSEKLDKGEVLIAQFTEHTSAIKVRGKAYIQTRHGVIESEG 3aqg-a3-m1-cA_3aqg-a3-m2-cB Crystal structure of human pancreatic secretory protein ZG16b Q96DA0 Q96DA0 2.75 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 138 KMYGPGGGKYFSTTEDYDHEITGLRVSVGLLLVKSVQVKLGDSWDVKLGALGGNTQEVTLQPGEYITKVFVAFQAFLRGMVMYTSKDRYFYFGKLDGQISSAYPSQEGQVLVGIYGQYQLLGIKSIGFEWNYP KMYGPGGGKYFSTTEDYDHEITGLRVSVGLLLVKSVQVKLGDSWDVKLGALGGNTQEVTLQPGEYITKVFVAFQAFLRGMVMYTSKDRYFYFGKLDGQISSAYPSQEGQVLVGIYGQYQLLGIKSIGFEWNYPLTEPP 3aql-a1-m1-cA_3aql-a1-m1-cB Structure of bacterial protein (apo form II) 3 X-RAY DIFFRACTION 51 1.0 536056 (Escherichia coli DH1) 536056 (Escherichia coli DH1) 388 388 3aqm-a1-m1-cA_3aqm-a1-m1-cB 3aqn-a1-m1-cA_3aqn-a1-m1-cB QVTVIPREQHAISRKDISENALKVMYRLNKAGYEAWLVGGGVRDLLLGKKPKDFDVTTNATPEQVRKLFRNCRLVGRRFRLAHVMFGPEIIEVATFRGNIFGSIEEDAQRRDFTINSLYYSVADFTVRDYVGGMKDLKDGVIRLIGNPETRYREDPVRMLRAVRFAAKLGMRISPETAEPIPRLATLLNDIPPAHLFEESLKLLQAGYGYETYKLLCEYHLFQPLFPTITRYFTENGDSPMERIIEQVLKNTDTRIHNDMRVNPAFLFAAMFWYPLLETAQKIAQESGLTYHDAFALAMNDVLDEACRSLAIPKRLTTLTRDIWQLQLRMSRRQGKRAWKLLEHPKFRAAYDLLALRAEVERNAELQRLVKWWGEFQVSAPPDQKGML QVTVIPREQHAISRKDISENALKVMYRLNKAGYEAWLVGGGVRDLLLGKKPKDFDVTTNATPEQVRKLFRNCRLVGRRFRLAHVMFGPEIIEVATFRGNIFGSIEEDAQRRDFTINSLYYSVADFTVRDYVGGMKDLKDGVIRLIGNPETRYREDPVRMLRAVRFAAKLGMRISPETAEPIPRLATLLNDIPPAHLFEESLKLLQAGYGYETYKLLCEYHLFQPLFPTITRYFTENGDSPMERIIEQVLKNTDTRIHNDMRVNPAFLFAAMFWYPLLETAQKIAQESGLTYHDAFALAMNDVLDEACRSLAIPKRLTTLTRDIWQLQLRMSRRQGKRAWKLLEHPKFRAAYDLLALRAEVERNAELQRLVKWWGEFQVSAPPDQKGML 3aqq-a1-m1-cC_3aqq-a1-m1-cB Crystal structure of human CRHSP-24 Q9Y2V2 Q9Y2V2 2.798 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 99 LPTRRTRTFSATVRASQGPVYKGVCKCFCRSKGHGFITPADGGPDIFLHISDVEGEYVPVEGDEVTYKMCSIKNEKLQAVEVVITHLAPGTKHETWS LPTRRTRTFSATVRASQGPVYKGVCKCFCRSKGHGFITPADGGPDIFLHISDVEGEYVPVEGDEVTYKMCSIPPKNEKLQAVEVVITHLAPGTKHETWS 3aqq-a1-m1-cC_3aqq-a1-m1-cD Crystal structure of human CRHSP-24 Q9Y2V2 Q9Y2V2 2.798 X-RAY DIFFRACTION 66 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 97 98 3aqq-a1-m1-cA_3aqq-a1-m1-cB LPTRRTRTFSATVRASQGPVYKGVCKCFCRSKGHGFITPADGGPDIFLHISDVEGEYVPVEGDEVTYKMCSIKNEKLQAVEVVITHLAPGTKHETWS LPTRRTRTFSATVRASQGPVYKGVCKCFCRSKGHGFITPADGGPDIFLHISDVEGEYVPVEGDEVTYKMCSIPPNEKLQAVEVVITHLAPGTKHETWS 3aqq-a1-m1-cD_3aqq-a1-m1-cB Crystal structure of human CRHSP-24 Q9Y2V2 Q9Y2V2 2.798 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 99 LPTRRTRTFSATVRASQGPVYKGVCKCFCRSKGHGFITPADGGPDIFLHISDVEGEYVPVEGDEVTYKMCSIPPNEKLQAVEVVITHLAPGTKHETWS LPTRRTRTFSATVRASQGPVYKGVCKCFCRSKGHGFITPADGGPDIFLHISDVEGEYVPVEGDEVTYKMCSIPPKNEKLQAVEVVITHLAPGTKHETWS 3aqs-a2-m1-cC_3aqs-a2-m1-cD Crystal structure of RolR (NCGL1110) without ligand Q8NR95 Q8NR95 3.6 X-RAY DIFFRACTION 85 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 185 186 3aqs-a1-m1-cA_3aqs-a1-m1-cB 3aqt-a1-m1-cA_3aqt-a1-m1-cB RARLITSARTLMAERGVDNVGIAEITEGANIGTGTFYNYFPDREQLLQAVAEDAFESVGIALDQVLTKLDDPAEVFAGSLRHLVRHSLEDRIWGGFFIQMGAAHPVLMRILGPRARRDLLHGLETGRFTIEDLDLATTCTFGSLIAAIQMALSKDQIFAAAMLRMVGVQAAEAREIASRPLPEIS TRARLITSARTLMAERGVDNVGIAEITEGANIGTGTFYNYFPDREQLLQAVAEDAFESVGIALDQVLTKLDDPAEVFAGSLRHLVRHSLEDRIWGGFFIQMGAAHPVLMRILGPRARRDLLHGLETGRFTIEDLDLATTCTFGSLIAAIQMALSKDQIFAAAMLRMVGVQAAEAREIASRPLPEIS 3asa-a1-m1-cA_3asa-a1-m2-cA Crystal structure of apo-LL-diaminopimelate aminotransferase from Chlamydia trachomatis O84395 O84395 2.05 X-RAY DIFFRACTION 196 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 388 388 3asb-a1-m1-cA_3asb-a1-m2-cA MKRNPHFVSLTKNYLFADLQKRVAQFRLENPQHTVINLSIGDTTQPLNASVAEAFASSIARLSSPTTCRGYGPDFGLPALRQKLSEDFYRGFVDAKEIFISDGAKVDLFRLLSFFGPNQTVAIQDPSYPAYLDIARLTGAKEIIALPCLQENAFFPEFPEDTHIDILCLCSPNNPTGTVLNKDQLRAIVHYAIEHEILILFDAAYSTFISDPSLPKSIFEIPDARFCAIEINSFSKPLGFAGIRLGWTVIPQELTYADGHFVIQDWERFLSTTFNGASIPAQEAGVAGLSILPQLEAIHYYRENSDLLRKALLATGFEVFGGEHAPYLWVKPTQANISDRDLFDFFLREYHIAITPGIGFGRSGSGFVRFSSLGKREDILAACERLQM MKRNPHFVSLTKNYLFADLQKRVAQFRLENPQHTVINLSIGDTTQPLNASVAEAFASSIARLSSPTTCRGYGPDFGLPALRQKLSEDFYRGFVDAKEIFISDGAKVDLFRLLSFFGPNQTVAIQDPSYPAYLDIARLTGAKEIIALPCLQENAFFPEFPEDTHIDILCLCSPNNPTGTVLNKDQLRAIVHYAIEHEILILFDAAYSTFISDPSLPKSIFEIPDARFCAIEINSFSKPLGFAGIRLGWTVIPQELTYADGHFVIQDWERFLSTTFNGASIPAQEAGVAGLSILPQLEAIHYYRENSDLLRKALLATGFEVFGGEHAPYLWVKPTQANISDRDLFDFFLREYHIAITPGIGFGRSGSGFVRFSSLGKREDILAACERLQM 3ast-a1-m1-cB_3ast-a1-m1-cA Crystal structure of P domain Q389N mutant from Norovirus Funabashi258 stain in the complex with Lewis-b Q8JW44 Q8JW44 1.4 X-RAY DIFFRACTION 148 1.0 95340 (Norwalk-like virus) 95340 (Norwalk-like virus) 302 311 3asp-a1-m1-cB_3asp-a1-m1-cA 3asq-a1-m1-cB_3asq-a1-m1-cA 3asr-a1-m1-cB_3asr-a1-m1-cA 3ass-a1-m1-cB_3ass-a1-m1-cA RAFTVPNIPLQTLSNSRFPSLIQGMILSPDASQVVQFQNGRCLIDGQLLGTTPATSGQLFRVRGKINQGARTLNLTEVDGKPFMAFDSPAPVGFPDFGKCDWHMRISKTPNNTSSGDPMRSVSVQTNVQGFVPHLGSIQFDEVFNHPTGDYIGTIEWISNPSTPPGTDINLWEIPDYGSSLSQAANLAPPVFPPGFGEALVYFVSAFPGPNNRSAPNDVPCLLPQEYITHFVSEQAPTMGDAALLHYVDPDTNRNLGEFKLYPGGYLTCVPNGVGAGPQQLPLNGVFLFVSWVSRFYQLKPV TIEQKTRAFTVPNIPLQTLSNSRFPSLIQGMILSPDASQVVQFQNGRCLIDGQLLGTTPATSGQLFRVRGKINQGARTLNLTEVDGKPFMAFDSPAPVGFPDFGKCDWHMRISKTPNNTSSGDPMRSVSVQTNVQGFVPHLGSIQFDEVFNHPTGDYIGTIEWISNPSTPPGTDINLWEIPDYGSSLSQAANLAPPVFPPGFGEALVYFVSAFPGPNNRSAPNDVPCLLPQEYITHFVSEQAPTMGDAALLHYVDPDTNRNLGEFKLYPGGYLTCVPNGVGAGPQQLPLNGVFLFVSWVSRFYQLKPVGTA 3asv-a2-m1-cC_3asv-a2-m1-cF The Closed form of serine dehydrogenase complexed with NADP+ 2.7 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 248 248 3asu-a1-m1-cB_3asu-a1-m2-cA 3asu-a1-m2-cB_3asu-a1-m1-cA 3asv-a1-m1-cA_3asv-a1-m2-cA 3asv-a1-m1-cB_3asv-a1-m2-cB 3asv-a2-m1-cD_3asv-a2-m1-cE MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ 3asv-a2-m1-cD_3asv-a2-m1-cF The Closed form of serine dehydrogenase complexed with NADP+ 2.7 X-RAY DIFFRACTION 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 248 248 3asv-a1-m1-cA_3asv-a1-m2-cB 3asv-a1-m1-cB_3asv-a1-m2-cA 3asv-a2-m1-cC_3asv-a2-m1-cE MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ 3asv-a2-m1-cE_3asv-a2-m1-cF The Closed form of serine dehydrogenase complexed with NADP+ 2.7 X-RAY DIFFRACTION 158 1.0 562 (Escherichia coli) 562 (Escherichia coli) 248 248 3asu-a1-m1-cB_3asu-a1-m1-cA 3asu-a1-m2-cB_3asu-a1-m2-cA 3asv-a1-m1-cA_3asv-a1-m1-cB 3asv-a1-m2-cA_3asv-a1-m2-cB 3asv-a2-m1-cC_3asv-a2-m1-cD MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ MIVLVTGATAGFGECITRRFIQQGHKVIATGRRQERLQELKDELGDNLYIAQLDVRNRAAIEEMLASLPAEWCNIDILVNNAGLALGMEPAHKASVEDWETMIDTNNKGLVYMTRAVLPGMVERNHGHIINIGSTAGSWPYAGGNVYGATKAFVRQFSLNLRTDLHGTAVRVTDIEPGLVGGTEFSNVRFKGDDGKAEKTYQNTVALTPEDVSEAVWWVSTLPAHVNINTLEMMPVTQSYAGLNVHRQ 3at5-a1-m1-cB_3at5-a1-m2-cB Side-necked turtle (Pleurodira, Chelonia, REPTILIA) hemoglobin: cDNA-derived primary structures and X-ray crystal structures of Hb A E5RWQ1 E5RWQ1 2.2 X-RAY DIFFRACTION 20 1.0 227871 (Podocnemis unifilis) 227871 (Podocnemis unifilis) 146 146 SDFTQEERQFIVNLWGRVDVEQIGAEALARLLIVYPWTQRFFSSFGNLSSPSAILHNAKVHAHGKKVLTSFGEAVKNLDQIKQTFAQLSELHSDKLHVDPENFKLLGNILIIVLAAHFGKDFTPASQAAWQKLVSAVAHALALRYH SDFTQEERQFIVNLWGRVDVEQIGAEALARLLIVYPWTQRFFSSFGNLSSPSAILHNAKVHAHGKKVLTSFGEAVKNLDQIKQTFAQLSELHSDKLHVDPENFKLLGNILIIVLAAHFGKDFTPASQAAWQKLVSAVAHALALRYH 3at6-a1-m1-cA_3at6-a1-m2-cA Side-necked turtle (Pleurodira, Chelonia, REPTILIA) hemoglobin: cDNA-derived primary structures and X-ray crystal structures of Hb A E5RWQ0 E5RWQ0 2.35 X-RAY DIFFRACTION 11 1.0 227871 (Podocnemis unifilis) 227871 (Podocnemis unifilis) 141 141 VLSPGDKANVKTVWSKVSGHVEDYGAETLERLFRVYPSTKTYFPHFDLHHDSAQIRTHGKKVLTAIGEAVSHIDDIASALSKLSDLHAQTLRVDPVNFKLLSHSFLVVLAVHAPSLLTPEVHVSLDKFLVAVSNVLTSKYR VLSPGDKANVKTVWSKVSGHVEDYGAETLERLFRVYPSTKTYFPHFDLHHDSAQIRTHGKKVLTAIGEAVSHIDDIASALSKLSDLHAQTLRVDPVNFKLLSHSFLVVLAVHAPSLLTPEVHVSLDKFLVAVSNVLTSKYR 3atf-a1-m2-cA_3atf-a1-m4-cA Crystal Structure of the Kir3.2 Cytoplasmic Domain (Na+-free crystal soaked in 200 mM Cesium chloride) P48542 P48542 2.95 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 193 193 2e4f-a1-m1-cA_2e4f-a1-m3-cA 2e4f-a1-m1-cA_2e4f-a1-m4-cA 2e4f-a1-m2-cA_2e4f-a1-m3-cA 2e4f-a1-m2-cA_2e4f-a1-m4-cA 3agw-a1-m1-cA_3agw-a1-m3-cA 3agw-a1-m1-cA_3agw-a1-m4-cA 3agw-a1-m2-cA_3agw-a1-m3-cA 3agw-a1-m2-cA_3agw-a1-m4-cA 3at8-a1-m1-cA_3at8-a1-m3-cA 3at8-a1-m1-cA_3at8-a1-m4-cA 3at8-a1-m2-cA_3at8-a1-m3-cA 3at8-a1-m2-cA_3at8-a1-m4-cA 3at9-a1-m1-cA_3at9-a1-m3-cA 3at9-a1-m1-cA_3at9-a1-m4-cA 3at9-a1-m2-cA_3at9-a1-m3-cA 3at9-a1-m2-cA_3at9-a1-m4-cA 3ata-a1-m1-cA_3ata-a1-m3-cA 3ata-a1-m1-cA_3ata-a1-m4-cA 3ata-a1-m2-cA_3ata-a1-m3-cA 3ata-a1-m2-cA_3ata-a1-m4-cA 3atb-a1-m1-cA_3atb-a1-m3-cA 3atb-a1-m1-cA_3atb-a1-m4-cA 3atb-a1-m2-cA_3atb-a1-m3-cA 3atb-a1-m2-cA_3atb-a1-m4-cA 3atd-a1-m1-cA_3atd-a1-m3-cA 3atd-a1-m1-cA_3atd-a1-m4-cA 3atd-a1-m2-cA_3atd-a1-m3-cA 3atd-a1-m2-cA_3atd-a1-m4-cA 3ate-a1-m1-cA_3ate-a1-m3-cA 3ate-a1-m1-cA_3ate-a1-m4-cA 3ate-a1-m2-cA_3ate-a1-m3-cA 3ate-a1-m2-cA_3ate-a1-m4-cA 3atf-a1-m1-cA_3atf-a1-m3-cA 3atf-a1-m1-cA_3atf-a1-m4-cA 3atf-a1-m2-cA_3atf-a1-m3-cA 3auw-a1-m1-cB_3auw-a1-m3-cB 3auw-a1-m1-cB_3auw-a1-m4-cB 3auw-a1-m2-cB_3auw-a1-m3-cB 3auw-a1-m2-cB_3auw-a1-m4-cB 3auw-a2-m1-cD_3auw-a2-m6-cD 3auw-a2-m1-cD_3auw-a2-m7-cD 3auw-a2-m5-cD_3auw-a2-m6-cD 3auw-a2-m5-cD_3auw-a2-m7-cD 3sya-a1-m1-cA_3sya-a1-m3-cA 3sya-a1-m1-cA_3sya-a1-m4-cA 3sya-a1-m2-cA_3sya-a1-m3-cA 3sya-a1-m2-cA_3sya-a1-m4-cA 3syc-a1-m1-cA_3syc-a1-m3-cA 3syc-a1-m1-cA_3syc-a1-m4-cA 3syc-a1-m2-cA_3syc-a1-m3-cA 3syc-a1-m2-cA_3syc-a1-m4-cA 3syo-a1-m1-cA_3syo-a1-m3-cA 3syo-a1-m1-cA_3syo-a1-m4-cA 3syo-a1-m2-cA_3syo-a1-m3-cA 3syo-a1-m2-cA_3syo-a1-m4-cA 3syp-a1-m1-cA_3syp-a1-m3-cA 3syp-a1-m1-cA_3syp-a1-m4-cA 3syp-a1-m2-cA_3syp-a1-m3-cA 3syp-a1-m2-cA_3syp-a1-m4-cA 3syq-a1-m1-cA_3syq-a1-m1-cB 3syq-a1-m1-cA_3syq-a1-m2-cB 3syq-a1-m2-cA_3syq-a1-m1-cB 3syq-a1-m2-cA_3syq-a1-m2-cB 3vsq-a1-m1-cA_3vsq-a1-m3-cA 3vsq-a1-m1-cA_3vsq-a1-m4-cA 3vsq-a1-m2-cA_3vsq-a1-m3-cA 3vsq-a1-m2-cA_3vsq-a1-m4-cA 4kfm-a1-m1-cA_4kfm-a1-m3-cA 4kfm-a1-m1-cA_4kfm-a1-m4-cA 4kfm-a1-m2-cA_4kfm-a1-m3-cA 4kfm-a1-m2-cA_4kfm-a1-m4-cA 6xeu-a1-m1-cA_6xeu-a1-m1-cD 6xeu-a1-m1-cA_6xeu-a1-m1-cJ 6xeu-a1-m1-cD_6xeu-a1-m1-cG 6xeu-a1-m1-cG_6xeu-a1-m1-cJ 6xev-a1-m1-cA_6xev-a1-m1-cE 6xev-a1-m1-cA_6xev-a1-m1-cM 6xev-a1-m1-cE_6xev-a1-m1-cI 6xev-a1-m1-cI_6xev-a1-m1-cM 6xis-a1-m1-cA_6xis-a1-m1-cB 6xis-a1-m1-cA_6xis-a1-m1-cD 6xis-a1-m1-cB_6xis-a1-m1-cC 6xis-a1-m1-cC_6xis-a1-m1-cD 6xit-a1-m1-cA_6xit-a1-m1-cB 6xit-a1-m1-cA_6xit-a1-m1-cC 6xit-a1-m1-cB_6xit-a1-m1-cD 6xit-a1-m1-cC_6xit-a1-m1-cD QRYVRKDGKCNVHHGNVRTLVFSTHAVISMRDGKLCLMFRVGDLRNSHIVEASIRAKLIKSKQTSEGEFIPLNQTDINVGYYTGDDRLFLVSPLIISHEINQQSPFWEISKAQLPKEELEIVVILEGMVEATGMTCQARSSYITSEILWGYRFTPVLTLEDGFYEVDYNSFHETYETSTPSLSAKELAELANR QRYVRKDGKCNVHHGNVRTLVFSTHAVISMRDGKLCLMFRVGDLRNSHIVEASIRAKLIKSKQTSEGEFIPLNQTDINVGYYTGDDRLFLVSPLIISHEINQQSPFWEISKAQLPKEELEIVVILEGMVEATGMTCQARSSYITSEILWGYRFTPVLTLEDGFYEVDYNSFHETYETSTPSLSAKELAELANR 3atj-a1-m1-cA_3atj-a1-m1-cB HEME LIGAND MUTANT OF RECOMBINANT HORSERADISH PEROXIDASE IN COMPLEX WITH BENZHYDROXAMIC ACID P00433 P00433 2.2 X-RAY DIFFRACTION 27 1.0 3704 (Armoracia rusticana) 3704 (Armoracia rusticana) 307 307 MQLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDMDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS MQLTPTFYDNSCPNVSNIVRDTIVNELRSDPRIAASILRLHFHDCFVNGCDASILLDNTTSFRTEKDAFGNANSARGFPVIDRMKAAVESACPRTVSCADLLTIAAQQSVTLAGGPSWRVPLGRRDSLQAFLDLANANLPAPFFTLPQLKDSFRNVGLNRSSDLVALSGGHTFGKNQCRFIMDRLYNFSNTGLPDPTLNTTYLQTLRGLCPLNGNLSALVDMDLRTPTIFDNKYYVNLEEQKGLIQSDQELFSSPNATDTIPLVRSFANSTQTFFNAFVEAMDRMGNITPLTGTQGQIRLNCRVVNS 3au0-a1-m1-cA_3au0-a1-m2-cA Structural and biochemical characterization of ClfB:ligand interactions Q7A382 Q7A382 2.45 X-RAY DIFFRACTION 156 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 339 339 PVVNVADAKGTNVNDKVTASNFKLEKTTFDPNQSGNTFMAANFTVTDKVKSGDYFTAKLPDSLTGNGDVDYSNSNNTMPIADIKSTNGDVVAKATYDILTKTYTFVFTDYVNNKENINGQFSLPLFTDRAKAPKSGTYDANINIADEMFNNKITYNYSSPIAGIDKPNGANISSQIIGVDTASGQNTYKQTVFVNPKQRVLGNTWVYIKGYQDKIEESSGKVSATDTKLRIFEVNDTSKLSESYYADPNDSNLKEVTDQFKNRIYYEHPNVASIKFGDITKTYVVLVEGHYDNTGKNLKTQVIQENVDPVTNRDYSIFGWNNENVVRYGGGSADGDSAV PVVNVADAKGTNVNDKVTASNFKLEKTTFDPNQSGNTFMAANFTVTDKVKSGDYFTAKLPDSLTGNGDVDYSNSNNTMPIADIKSTNGDVVAKATYDILTKTYTFVFTDYVNNKENINGQFSLPLFTDRAKAPKSGTYDANINIADEMFNNKITYNYSSPIAGIDKPNGANISSQIIGVDTASGQNTYKQTVFVNPKQRVLGNTWVYIKGYQDKIEESSGKVSATDTKLRIFEVNDTSKLSESYYADPNDSNLKEVTDQFKNRIYYEHPNVASIKFGDITKTYVVLVEGHYDNTGKNLKTQVIQENVDPVTNRDYSIFGWNNENVVRYGGGSADGDSAV 3aud-a4-m1-cA_3aud-a4-m2-cB Simplified BPTI variant with poly Asn amino acid tag (C5N) at the C-terminus 1.943 X-RAY DIFFRACTION 24 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 3aud-a4-m1-cA_3aud-a4-m2-cC 3aud-a4-m1-cB_3aud-a4-m1-cC 3aud-a4-m1-cB_3aud-a4-m2-cA 3aud-a4-m2-cA_3aud-a4-m1-cC 3aud-a4-m2-cB_3aud-a4-m2-cC RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQTFVYGGVRAKRNNFASAADALAACA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQTFVYGGVRAKRNNFASAADALAACA 3aud-a4-m2-cA_3aud-a4-m2-cB Simplified BPTI variant with poly Asn amino acid tag (C5N) at the C-terminus 1.943 X-RAY DIFFRACTION 44 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 3aud-a4-m1-cA_3aud-a4-m1-cB 3aud-a4-m1-cC_3aud-a4-m2-cC RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQTFVYGGVRAKRNNFASAADALAACA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQTFVYGGVRAKRNNFASAADALAACA 3auf-a1-m1-cA_3auf-a1-m2-cA Crystal structure of glycinamide ribonucleotide transformylase 1 from Symbiobacterium toebii E5RXD0 E5RXD0 2.07 X-RAY DIFFRACTION 61 1.0 120580 (Symbiobacterium toebii) 120580 (Symbiobacterium toebii) 212 212 SSGENLYFQGHMIRIGVLISGSGTNLQAILDGCREGRIPGRVAVVISDRADAYGLERARRAGVDALHMDPAAYPSRTAFDAALAERLQAYGVDLVCLAGYMRLVRGPMLTAFPNRILNIHPSLLPAFPGLEAQRQALEHGVKVAGCTVHFVTAGVDEGPIILQAAVPVLEGDTVEDLRRRILAEEHRIYPEAIRLFAEGRLVIEGRRVRILD SSGENLYFQGHMIRIGVLISGSGTNLQAILDGCREGRIPGRVAVVISDRADAYGLERARRAGVDALHMDPAAYPSRTAFDAALAERLQAYGVDLVCLAGYMRLVRGPMLTAFPNRILNIHPSLLPAFPGLEAQRQALEHGVKVAGCTVHFVTAGVDEGPIILQAAVPVLEGDTVEDLRRRILAEEHRIYPEAIRLFAEGRLVIEGRRVRILD 3aup-a1-m1-cD_3aup-a1-m1-cC Crystal structure of Basic 7S globulin from soybean P13917 P13917 1.91 X-RAY DIFFRACTION 122 0.983 3847 (Glycine max) 3847 (Glycine max) 360 372 3aup-a1-m1-cB_3aup-a1-m1-cA PINLVVLPVQNDGSTGLHWANLQKRTPLMQVPVLVDLNGNHLWVNCEQQYSSKTYQAPFCHSTQCSRANTHQCLSCPAASRPGCHKNTCGLMSTNPITQQTGLGELGEDVLAIHATGPLVTVPQFLFSCAPSFLVQKGLPRNTQGVAGLGHAPISLPNQLASHFGLQRQFTTCLSRYPTSKGAIIFGDAPNNMIFHDLAFTPLTITLQGEYNVRVNSIRINQHSVFPSTIVGSTSGGTMISTSTPHMVLQQSVYQAFTQVFAQQLPVKSVAPFGLCFNSAYPSVDLVMDKPNGPVWRISGEDLMVQATCLGVMNGGMQPRAEITLGARQLEENLVVFDLARSRVGFSTSHGVKCADLFNF PINLVVLPVQNDGSTGLHWANLQKRTPLMQVPVLVDLNGNHLWVNCEQQYSSKTYQAPFCHSTQCSRANTHQCLSCPAASRPGCHKNTCGLMSTNPITQQTGLGELGEDVLAIHATLGPLVTVPQFLFSCAPSFLVQKGLPRNTQGVAGLGHAPISLPNQLASHFGLQRQFTTCLSRYPTSKGAIIFGDAPNNMFHDLAFTPLTITLQGEYNVRVNSIRINQHSVFPLSTIVGSTSGGTMISTSTPHMVLQQSVYQAFTQVFAQQLPKQAQVKSVAPFGLCFNSNKINAYPSVDLVMDKPNGPVWRISGEDLMVQAQPGVTCLGVMNGGMQPRAEITLGARQLEENLVVFDLARSRVGFSTSSLHSCADLFN 3auu-a1-m2-cA_3auu-a1-m2-cB Crystal structure of Bacillus megaterium glucose dehydrogenase 4 in complex with D-glucose P39485 P39485 2 X-RAY DIFFRACTION 128 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 262 262 3aus-a1-m1-cA_3aus-a1-m1-cB 3aus-a1-m2-cA_3aus-a1-m2-cB 3aut-a1-m1-cA_3aut-a1-m1-cB 3aut-a1-m2-cA_3aut-a1-m2-cB 3auu-a1-m1-cA_3auu-a1-m1-cB 3ay6-a1-m1-cA_3ay6-a1-m1-cB 3ay6-a1-m1-cC_3ay6-a1-m1-cD 3ay7-a1-m1-cB_3ay7-a1-m1-cA 3ay7-a1-m2-cB_3ay7-a1-m2-cA HMYTDLKDKVVVITGGSTGLGRAMAVRFGQEEAKVVINYYNNEEEALDAKKEVEEAGGQAIIVQGDVTKEEDVVNLVQTAIKEFGTLDVMINNAGVENPVPSHELSLDNWNKVIDTNLTGAFLGSREAIKYFVENDIKGNVINMSSVHEMIPWPLFVHYAASKGGMKLMTETLALEYAPKGIRVNNIGPGAMNTPINAEKFADPVQRADVESMIPMGYIGKPEEVAAVAAFLASSQASYVTGITLFADGGMTKYPSFQAGRG HMYTDLKDKVVVITGGSTGLGRAMAVRFGQEEAKVVINYYNNEEEALDAKKEVEEAGGQAIIVQGDVTKEEDVVNLVQTAIKEFGTLDVMINNAGVENPVPSHELSLDNWNKVIDTNLTGAFLGSREAIKYFVENDIKGNVINMSSVHEMIPWPLFVHYAASKGGMKLMTETLALEYAPKGIRVNNIGPGAMNTPINAEKFADPVQRADVESMIPMGYIGKPEEVAAVAAFLASSQASYVTGITLFADGGMTKYPSFQAGRG 3auv-a8-m1-cF_3auv-a8-m1-cB Predicting Amino Acid Preferences in the Complementarity Determining Regions of an Antibody-Antigen Recognition Interface 2.4 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 225 3auv-a7-m1-cA_3auv-a7-m1-cC 3auv-a7-m1-cA_3auv-a7-m1-cE 3auv-a7-m1-cC_3auv-a7-m1-cE 3auv-a8-m1-cB_3auv-a8-m1-cD 3auv-a8-m1-cF_3auv-a8-m1-cD GDIQMTQSPSSLSASVGDRVTITCRASQDVSTAVAWYQQKPGKAPKLLIYSASFLYSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQHYTTPPTFGCGTKVEIVQLVESGGGLVQPGGSLRLSCAASGFTISDYWIHWVRQAPGKCLEWVAGITPAGGYTYYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARFVFFLPYAMDYWGQGTLVTV GDIQMTQSPSSLSASVGDRVTITCRASQDVSTAVAWYQQKPGKAPKLLIYSASFLYSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQHYTTPPTFGCGTKVEIEVQLVESGGGLVQPGGSLRLSCAASGFTISDYWIHWVRQAPGKCLEWVAGITPAGGYTYYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARFVFFLPYAMDYWGQGTLVTV 3aux-a1-m1-cA_3aux-a1-m2-cA Crystal structure of Rad50 bound to ADP Q58718 Q58718 2.8 X-RAY DIFFRACTION 60 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 348 348 MSMILKEIRMNNFKSHVNSRIKFEKGIVAIIGENGSGKSSIFEAVFFALFGAGSNFNYDTIITKGKKSVYVELDFEVNGNNYKIIREYDSGRGGAKLYKNGKPYATTISAVNKAVNEILGVDRNMFLNSIYIKQGEIAKFLSLKPSEKLETVAKLLGIDEFEKCYQKMGEIVKEYEKRLERIEKEKLTKFVEYLDKVRRIFGRNGFQAYLREKYVPLIQKYLNEAFSEFDLPYSFVELTKDFEVRVHAPNGVLTIDNLSGGEQIAVALSLRLAIANALIGNRVECIILDEPTVYLDENRRAKLAEIFRKVKSIPQMIIITHHRELEDVADVIINVKKDGNVSKVKING MSMILKEIRMNNFKSHVNSRIKFEKGIVAIIGENGSGKSSIFEAVFFALFGAGSNFNYDTIITKGKKSVYVELDFEVNGNNYKIIREYDSGRGGAKLYKNGKPYATTISAVNKAVNEILGVDRNMFLNSIYIKQGEIAKFLSLKPSEKLETVAKLLGIDEFEKCYQKMGEIVKEYEKRLERIEKEKLTKFVEYLDKVRRIFGRNGFQAYLREKYVPLIQKYLNEAFSEFDLPYSFVELTKDFEVRVHAPNGVLTIDNLSGGEQIAVALSLRLAIANALIGNRVECIILDEPTVYLDENRRAKLAEIFRKVKSIPQMIIITHHRELEDVADVIINVKKDGNVSKVKING 3auy-a1-m1-cB_3auy-a1-m1-cA Crystal structure of Rad50 bound to ADP Q58718 Q58718 2.7 X-RAY DIFFRACTION 67 0.994 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 357 366 MSMILKEIRMNNFKSHVNSRIKFEKGIVAIIGENGSGKSSIFEAVFFALFGAGSFNYDTIITKGKKSVYVELDFEVNGNNYKIIREYDSGRGGAKLYKNGKPYATTISAVNKAVNEILGVDRNMFLNSIYIKQGEIAKFLSLKPSEKLETVAKLLGIDEFEKCYQKMGEIVKEYEKRLERIEGELNYNLEKEKEKLTKFVEYLDKVRRIFGRNGFQAYLREKYVPLIQKYLNEAFSEFDLPYSFVELTKDFEVRVHAPNGVLTIDNLSGGEQIAVALSLRLAIANALIGNRVECIILDEPTVYLDENRRAKLAEIFRKVKSIPQMIIITHHRELEDVADVIINVKKDGNVSKVKING MSMILKEIRMNNFKSHVNSRIKFEKGIVAIIGENGSGKSSIFEAVFFALFGAGNFNYDTIITKGKKSVYVELDFEVNGNNYKIIREYDSGRGGAKLYKNGKPYATTISAVNKAVNEILGVDRNMFLNSIYIKQGEIAKFLSLKPSEKLETVAKLLGIDEFEKCYQKMGEIVKEYEKRLERIEGELNSLKARLKEMSNLEKEKEKLTKFVEYLDKVRRIFGRNGFQAYLREKYVPLIQKYLNEAFSEFDLPYSFVELTKDFEVRVHAPNGVLTIDNLSGGEQIAVALSLRLAIANALIGNRVECIILDEPTVYLDENRRAKLAEIFRKVKSIPQMIIITHHRELEDVADVIINVKKDGNVSKVKING 3aw8-a1-m1-cA_3aw8-a1-m1-cB Crystal structure of N5-carboxyaminoimidazole ribonucleotide synthetase from Thermus thermophilus HB8 Q5SKY0 Q5SKY0 2.6 X-RAY DIFFRACTION 62 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 360 360 MIGILGGGQLGRMLALAGYPLGLSFRFLDPSPEACAGQVGELVVGEFLDEGALLRFAEGLALVTYEFENVPVEAARRLEGRLPLYPPAKALEVAQDRLREKTFFQGLGVPTPPFHPVDGPEDLEEGLKRVGLPALLKTRRGQALVRTEEEALEALKALGGRGLILEGFVPFDREVSLLAVRGRTGEVAFYPLVENRHWGGILRLSLAPAPGASEALQKKAEAYALRAMEALDYVGVLALEFFQVGEELLFNEMAPRVHNSGHWTIEGAETSQFENHLRAVLGLPLGSTAPRGQSAMVNLIGEKPPFAEVLKVEGAHLHWYGKAVRPGRKVGHITLRRDGLKALEEGLARLSRLVSELPWE MIGILGGGQLGRMLALAGYPLGLSFRFLDPSPEACAGQVGELVVGEFLDEGALLRFAEGLALVTYEFENVPVEAARRLEGRLPLYPPAKALEVAQDRLREKTFFQGLGVPTPPFHPVDGPEDLEEGLKRVGLPALLKTRRGQALVRTEEEALEALKALGGRGLILEGFVPFDREVSLLAVRGRTGEVAFYPLVENRHWGGILRLSLAPAPGASEALQKKAEAYALRAMEALDYVGVLALEFFQVGEELLFNEMAPRVHNSGHWTIEGAETSQFENHLRAVLGLPLGSTAPRGQSAMVNLIGEKPPFAEVLKVEGAHLHWYGKAVRPGRKVGHITLRRDGLKALEEGLARLSRLVSELPWE 3awd-a1-m1-cA_3awd-a1-m1-cD Crystal structure of gox2181 Q5FNX9 Q5FNX9 1.8 X-RAY DIFFRACTION 141 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 257 257 3awd-a1-m1-cB_3awd-a1-m1-cC MYMEKLRLDNRVAIVTGGAQNIGLACVTALAEAGARVIIADLDEAMATKAVEDLRMEGHDVSSVVMDVTNTESVQNAVRSVHEQEGRVDILVACAGICISEVKAEDMTDGQWLKQVDINLNGMFRSCQAVGRIMLEQKQGVIVAIGSMSGLIVNRPQQQAAYNASKAGVHQYIRSLAAEWAPHGIRANAVAPTYIETTLTRFGMEKPELYDAWIAGTPMGRVGQPDEVASVVQFLASDAASLMTGAIVNVDAGFTVW MYMEKLRLDNRVAIVTGGAQNIGLACVTALAEAGARVIIADLDEAMATKAVEDLRMEGHDVSSVVMDVTNTESVQNAVRSVHEQEGRVDILVACAGICISEVKAEDMTDGQWLKQVDINLNGMFRSCQAVGRIMLEQKQGVIVAIGSMSGLIVNRPQQQAAYNASKAGVHQYIRSLAAEWAPHGIRANAVAPTYIETTLTRFGMEKPELYDAWIAGTPMGRVGQPDEVASVVQFLASDAASLMTGAIVNVDAGFTVW 3awd-a1-m1-cB_3awd-a1-m1-cD Crystal structure of gox2181 Q5FNX9 Q5FNX9 1.8 X-RAY DIFFRACTION 120 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 257 257 3awd-a1-m1-cA_3awd-a1-m1-cC MYMEKLRLDNRVAIVTGGAQNIGLACVTALAEAGARVIIADLDEAMATKAVEDLRMEGHDVSSVVMDVTNTESVQNAVRSVHEQEGRVDILVACAGICISEVKAEDMTDGQWLKQVDINLNGMFRSCQAVGRIMLEQKQGVIVAIGSMSGLIVNRPQQQAAYNASKAGVHQYIRSLAAEWAPHGIRANAVAPTYIETTLTRFGMEKPELYDAWIAGTPMGRVGQPDEVASVVQFLASDAASLMTGAIVNVDAGFTVW MYMEKLRLDNRVAIVTGGAQNIGLACVTALAEAGARVIIADLDEAMATKAVEDLRMEGHDVSSVVMDVTNTESVQNAVRSVHEQEGRVDILVACAGICISEVKAEDMTDGQWLKQVDINLNGMFRSCQAVGRIMLEQKQGVIVAIGSMSGLIVNRPQQQAAYNASKAGVHQYIRSLAAEWAPHGIRANAVAPTYIETTLTRFGMEKPELYDAWIAGTPMGRVGQPDEVASVVQFLASDAASLMTGAIVNVDAGFTVW 3awd-a1-m1-cC_3awd-a1-m1-cD Crystal structure of gox2181 Q5FNX9 Q5FNX9 1.8 X-RAY DIFFRACTION 12 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 257 257 3awd-a1-m1-cA_3awd-a1-m1-cB MYMEKLRLDNRVAIVTGGAQNIGLACVTALAEAGARVIIADLDEAMATKAVEDLRMEGHDVSSVVMDVTNTESVQNAVRSVHEQEGRVDILVACAGICISEVKAEDMTDGQWLKQVDINLNGMFRSCQAVGRIMLEQKQGVIVAIGSMSGLIVNRPQQQAAYNASKAGVHQYIRSLAAEWAPHGIRANAVAPTYIETTLTRFGMEKPELYDAWIAGTPMGRVGQPDEVASVVQFLASDAASLMTGAIVNVDAGFTVW MYMEKLRLDNRVAIVTGGAQNIGLACVTALAEAGARVIIADLDEAMATKAVEDLRMEGHDVSSVVMDVTNTESVQNAVRSVHEQEGRVDILVACAGICISEVKAEDMTDGQWLKQVDINLNGMFRSCQAVGRIMLEQKQGVIVAIGSMSGLIVNRPQQQAAYNASKAGVHQYIRSLAAEWAPHGIRANAVAPTYIETTLTRFGMEKPELYDAWIAGTPMGRVGQPDEVASVVQFLASDAASLMTGAIVNVDAGFTVW 3awk-a1-m1-cA_3awk-a1-m2-cA Crystal structure of the polyketide synthase 1 from huperzia serrata A3E7Z7 A3E7Z7 2 X-RAY DIFFRACTION 154 1.0 355589 (Huperzia serrata) 355589 (Huperzia serrata) 379 379 3awj-a1-m1-cA_3awj-a1-m1-cB VIKPDGPATILAIGTSNPTNIFEQSTYPDFFFDVTNCNDKTELKKKFQRICDKSGIKKRHFHLTDEILRKNPSICKFKEASLDPRQDIAVLEVPKLAKEAAISAIKQWGQPKSKITHLVFATTSGVDMPGADFQLAKLLGLRPTVKRVMLYQQGYAGATVLRVAKDLAENNKGARVLVACSEVTAVTFRAPSETHLDGLVGSALFGDGAAALIVGSDPVPQEEKPLFEIHWAGEAVLPDSDGAINGHLREAGLIFHLLKDVPGLISKNIDKVLAEPLEYVHFPSYNDMFWAVHPGGPAILDQIEAKLGLSTDKMQASRDVLASYGNMSSASVLFVLDQIRKNSEELHLPTTGEGFEWGFVIGFGPGLTVETLLLRSINI VIKPDGPATILAIGTSNPTNIFEQSTYPDFFFDVTNCNDKTELKKKFQRICDKSGIKKRHFHLTDEILRKNPSICKFKEASLDPRQDIAVLEVPKLAKEAAISAIKQWGQPKSKITHLVFATTSGVDMPGADFQLAKLLGLRPTVKRVMLYQQGYAGATVLRVAKDLAENNKGARVLVACSEVTAVTFRAPSETHLDGLVGSALFGDGAAALIVGSDPVPQEEKPLFEIHWAGEAVLPDSDGAINGHLREAGLIFHLLKDVPGLISKNIDKVLAEPLEYVHFPSYNDMFWAVHPGGPAILDQIEAKLGLSTDKMQASRDVLASYGNMSSASVLFVLDQIRKNSEELHLPTTGEGFEWGFVIGFGPGLTVETLLLRSINI 3ax6-a2-m1-cC_3ax6-a2-m1-cD Crystal structure of N5-carboxyaminoimidazole ribonucleotide synthetase from Thermotoga maritima Q9WYS8 Q9WYS8 2.2 X-RAY DIFFRACTION 67 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 349 349 3ax6-a1-m1-cA_3ax6-a1-m1-cB KKIGIIGGGQLGKTLEAKKGFYVIVLDPTPRSPAGQVADEQIVAGFFDSERIEDLVKGSDVTTYDLEHIDVQTLKKLYNEGYKIHPSPYTLEIIQDKFVQKEFLKKNGIPVPEYKLVKDLESDVREFGFPVVQKARKGGVFIIKNEKDLENAIKGETYLEEFVEIEKELAVVARNEKGEIACYPVVEYTVIAPARIEEKYSKIAREIATSVVEALEGVGIFGIEFLTKQGEILVNEIAPRPHNSGHYTIEACVTSQFEQHIRAINLPLGSTELLIPAVVNLLGEEGYYGKPALIGLEEALAIEGLSLHFYGKKETRPYRKGHFTVVDRDVERALEKALRAKKILKVVSE KKIGIIGGGQLGKTLEAKKGFYVIVLDPTPRSPAGQVADEQIVAGFFDSERIEDLVKGSDVTTYDLEHIDVQTLKKLYNEGYKIHPSPYTLEIIQDKFVQKEFLKKNGIPVPEYKLVKDLESDVREFGFPVVQKARKGVFIIKNEKDLENAIKGETYLEEFVEIEKELAVVARNEKGEIACYPVVEYDTVIAPARIEEKYSKIAREIATSVVEALEGVGIFGIEFLTKQGEILVNEIAPRPHNSGHYTIEACVTSQFEQHIRAINLPLGSTELLIPAVVNLLGEEGYYGKPALIGLEEALAIEGLSLHFYGKKETRPYRKGHFTVVDRDVERALEKALRAKKILKVVSE 3axa-a2-m1-cB_3axa-a2-m3-cB Crystal structure of afadin PDZ domain in complex with the C-terminal peptide from nectin-3 Q9JLB9 Q9JLB9 2.78 X-RAY DIFFRACTION 59 1.0 10090 (Mus musculus) 10090 (Mus musculus) 97 97 3axa-a1-m1-cA_3axa-a1-m2-cA PEIITVTLKKQNGMGLSIVAAKGAGQDKLGIYVKSVVKGGAADVDGRLAAGDQLLSVDGRSLVGLSQERAAELMTRTSSVVTLEVAKQGAIRREWYV PEIITVTLKKQNGMGLSIVAAKGAGQDKLGIYVKSVVKGGAADVDGRLAAGDQLLSVDGRSLVGLSQERAAELMTRTSSVVTLEVAKQGAIRREWYV 3axb-a1-m1-cA_3axb-a1-m2-cA Structure of a dye-linked L-proline dehydrogenase from the aerobic hyperthermophilic archaeon, Aeropyrum pernix Q9YCJ0 Q9YCJ0 1.92 X-RAY DIFFRACTION 137 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 418 418 3vqr-a1-m1-cA_3vqr-a1-m1-cB PRFDYVVVGAGVVGLAAAYYLKVWSGGSVLVVDAGHAPGSGDSGRSAAFRTFFSSTNRLVAGSTVRLFEDAQRGGEDLGLVKSGYLFVYDRERWREVEEPLREAGEEGRDYLIIPPEELERRLGNTRVSDGEEAEVLGVGDVEGAVLIRSAGFLDAEKVVDYYYRRASGAGVEFIFGRRVVGVELKPRVELGIEGEPLPWQEARASAAVLSDGTRVEVGEKLVVAAGVWSNRLLNPLGIDTFSRPKKRVFRVSASTEGLRRIREGDLAGAGAPPLIILPKRVLVRPAPREGSFWVQLSDNLGRPFALEEDPQPEEHYYSLAILPILSLYLPQFQDAYPSGGWAGHYDISFDANPVVFEPWESGIVVAAGTSGSGIKSDSIGRVAAAVALGESVELYGGVEPVKWGLEGRRYEQERLVL PRFDYVVVGAGVVGLAAAYYLKVWSGGSVLVVDAGHAPGSGDSGRSAAFRTFFSSTNRLVAGSTVRLFEDAQRGGEDLGLVKSGYLFVYDRERWREVEEPLREAGEEGRDYLIIPPEELERRLGNTRVSDGEEAEVLGVGDVEGAVLIRSAGFLDAEKVVDYYYRRASGAGVEFIFGRRVVGVELKPRVELGIEGEPLPWQEARASAAVLSDGTRVEVGEKLVVAAGVWSNRLLNPLGIDTFSRPKKRVFRVSASTEGLRRIREGDLAGAGAPPLIILPKRVLVRPAPREGSFWVQLSDNLGRPFALEEDPQPEEHYYSLAILPILSLYLPQFQDAYPSGGWAGHYDISFDANPVVFEPWESGIVVAAGTSGSGIKSDSIGRVAAAVALGESVELYGGVEPVKWGLEGRRYEQERLVL 3axg-a2-m1-cE_3axg-a2-m1-cF Structure of 6-aminohexanoate-oligomer hydrolase Q1EPR5 Q1EPR5 2 X-RAY DIFFRACTION 104 1.0 388924 (Agromyces sp. KY5R) 388924 (Agromyces sp. KY5R) 344 344 3axg-a1-m1-cA_3axg-a1-m1-cD 3axg-a1-m1-cB_3axg-a1-m1-cC 3axg-a2-m1-cG_3axg-a2-m1-cH 3axg-a3-m1-cI_3axg-a3-m1-cJ 3axg-a3-m1-cK_3axg-a3-m1-cL 3axg-a4-m1-cM_3axg-a4-m1-cN 3axg-a4-m2-cM_3axg-a4-m2-cN 3axg-a5-m1-cO_3axg-a5-m3-cO 3axg-a5-m2-cO_3axg-a5-m4-cO 5xyg-a1-m1-cA_5xyg-a1-m1-cB 5xyo-a1-m1-cB_5xyo-a1-m1-cA 5xyo-a1-m2-cB_5xyo-a1-m2-cA 5xyp-a1-m1-cB_5xyp-a1-m1-cA 5xyp-a1-m2-cB_5xyp-a1-m2-cA 5xyq-a1-m1-cB_5xyq-a1-m1-cA 5xyq-a1-m2-cB_5xyq-a1-m2-cA 5xys-a1-m1-cA_5xys-a1-m1-cB 5xys-a1-m2-cA_5xys-a1-m2-cB 5xyt-a1-m1-cA_5xyt-a1-m1-cB 5xyt-a1-m2-cA_5xyt-a1-m2-cB 5y0l-a1-m1-cA_5y0l-a1-m1-cB 5y0m-a1-m1-cA_5y0m-a1-m1-cB 5y0m-a1-m2-cA_5y0m-a1-m2-cB 7yu0-a1-m1-cA_7yu0-a1-m1-cB 7yu1-a1-m1-cA_7yu1-a1-m1-cB 7yu2-a1-m1-cA_7yu2-a1-m1-cB VHALTDIDGGIAVDPAPRLAGPPVFGGPGNDAFDLAPVRSTGREMLRFDFPGVSIGAAHYEEGPTGATVIHIPAGARTAVDARGGAVGLSGGYDFNHAICLAGGASYGLEAGAGVSGALLERLEYRTGFAEAQLVSSAVIYDFSARSTAVYPDKALGRAALEFAVPGEFPQGRAGAGMSASAGKVDWDRTEITGQGAAFRRLGDVRILAVVVPNPVGVIMDRAGTVVRGNYDAQTGVRRHPVFDYQEAFAEQVPPTTISAIVTNVRMSPVELNQFAKQVHSSMHRGIQPFHTDMDGDTLFAVTTDEIDLPTTPGSSRGRLSVNATALGAIASEVMWDAVLEAGK VHALTDIDGGIAVDPAPRLAGPPVFGGPGNDAFDLAPVRSTGREMLRFDFPGVSIGAAHYEEGPTGATVIHIPAGARTAVDARGGAVGLSGGYDFNHAICLAGGASYGLEAGAGVSGALLERLEYRTGFAEAQLVSSAVIYDFSARSTAVYPDKALGRAALEFAVPGEFPQGRAGAGMSASAGKVDWDRTEITGQGAAFRRLGDVRILAVVVPNPVGVIMDRAGTVVRGNYDAQTGVRRHPVFDYQEAFAEQVPPTTISAIVTNVRMSPVELNQFAKQVHSSMHRGIQPFHTDMDGDTLFAVTTDEIDLPTTPGSSRGRLSVNATALGAIASEVMWDAVLEAGK 3axg-a3-m1-cJ_3axg-a3-m1-cL Structure of 6-aminohexanoate-oligomer hydrolase Q1EPR5 Q1EPR5 2 X-RAY DIFFRACTION 264 1.0 388924 (Agromyces sp. KY5R) 388924 (Agromyces sp. KY5R) 344 344 3axg-a1-m1-cA_3axg-a1-m1-cB 3axg-a1-m1-cC_3axg-a1-m1-cD 3axg-a2-m1-cE_3axg-a2-m1-cG 3axg-a2-m1-cF_3axg-a2-m1-cH 3axg-a3-m1-cK_3axg-a3-m1-cI 3axg-a4-m1-cM_3axg-a4-m2-cN 3axg-a4-m1-cN_3axg-a4-m2-cM 3axg-a5-m1-cO_3axg-a5-m4-cO 3axg-a5-m2-cO_3axg-a5-m3-cO 5xyo-a1-m1-cA_5xyo-a1-m2-cA 5xyo-a1-m1-cB_5xyo-a1-m2-cB 5xyp-a1-m1-cA_5xyp-a1-m2-cA 5xyp-a1-m1-cB_5xyp-a1-m2-cB 5xyq-a1-m1-cA_5xyq-a1-m2-cA 5xyq-a1-m1-cB_5xyq-a1-m2-cB 5xys-a1-m1-cA_5xys-a1-m2-cA 5xys-a1-m1-cB_5xys-a1-m2-cB 5xyt-a1-m1-cA_5xyt-a1-m2-cA 5xyt-a1-m1-cB_5xyt-a1-m2-cB 5y0m-a1-m1-cA_5y0m-a1-m2-cA 5y0m-a1-m1-cB_5y0m-a1-m2-cB VHALTDIDGGIAVDPAPRLAGPPVFGGPGNDAFDLAPVRSTGREMLRFDFPGVSIGAAHYEEGPTGATVIHIPAGARTAVDARGGAVGLSGGYDFNHAICLAGGASYGLEAGAGVSGALLERLEYRTGFAEAQLVSSAVIYDFSARSTAVYPDKALGRAALEFAVPGEFPQGRAGAGMSASAGKVDWDRTEITGQGAAFRRLGDVRILAVVVPNPVGVIMDRAGTVVRGNYDAQTGVRRHPVFDYQEAFAEQVPPTTISAIVTNVRMSPVELNQFAKQVHSSMHRGIQPFHTDMDGDTLFAVTTDEIDLPTTPGSSRGRLSVNATALGAIASEVMWDAVLEAGK VHALTDIDGGIAVDPAPRLAGPPVFGGPGNDAFDLAPVRSTGREMLRFDFPGVSIGAAHYEEGPTGATVIHIPAGARTAVDARGGAVGLSGGYDFNHAICLAGGASYGLEAGAGVSGALLERLEYRTGFAEAQLVSSAVIYDFSARSTAVYPDKALGRAALEFAVPGEFPQGRAGAGMSASAGKVDWDRTEITGQGAAFRRLGDVRILAVVVPNPVGVIMDRAGTVVRGNYDAQTGVRRHPVFDYQEAFAEQVPPTTISAIVTNVRMSPVELNQFAKQVHSSMHRGIQPFHTDMDGDTLFAVTTDEIDLPTTPGSSRGRLSVNATALGAIASEVMWDAVLEAGK 3axm-a1-m1-cX_3axm-a1-m1-cZ Structure of rice Rubisco in complex with 6PG Q0INY7 Q0INY7 1.65 X-RAY DIFFRACTION 13 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 122 122 1wdd-a1-m1-cS_1wdd-a1-m3-cS 1wdd-a1-m1-cS_1wdd-a1-m4-cS 1wdd-a1-m1-cW_1wdd-a1-m3-cW 1wdd-a1-m1-cW_1wdd-a1-m4-cW 1wdd-a1-m2-cS_1wdd-a1-m3-cS 1wdd-a1-m2-cS_1wdd-a1-m4-cS 1wdd-a1-m2-cW_1wdd-a1-m3-cW 1wdd-a1-m2-cW_1wdd-a1-m4-cW 3axk-a1-m1-cS_3axk-a1-m3-cS 3axk-a1-m1-cS_3axk-a1-m4-cS 3axk-a1-m1-cT_3axk-a1-m3-cT 3axk-a1-m1-cT_3axk-a1-m4-cT 3axk-a1-m2-cS_3axk-a1-m3-cS 3axk-a1-m2-cS_3axk-a1-m4-cS 3axk-a1-m2-cT_3axk-a1-m3-cT 3axk-a1-m2-cT_3axk-a1-m4-cT 3axm-a1-m1-cS_3axm-a1-m1-cU 3axm-a1-m1-cS_3axm-a1-m1-cY 3axm-a1-m1-cT_3axm-a1-m1-cV 3axm-a1-m1-cT_3axm-a1-m1-cZ 3axm-a1-m1-cU_3axm-a1-m1-cW 3axm-a1-m1-cV_3axm-a1-m1-cX 3axm-a1-m1-cW_3axm-a1-m1-cY 6kyi-a1-m1-cS_6kyi-a1-m3-cS 6kyi-a1-m1-cS_6kyi-a1-m4-cS 6kyi-a1-m1-cT_6kyi-a1-m3-cT 6kyi-a1-m1-cT_6kyi-a1-m4-cT 6kyi-a1-m2-cS_6kyi-a1-m3-cS 6kyi-a1-m2-cS_6kyi-a1-m4-cS 6kyi-a1-m2-cT_6kyi-a1-m3-cT 6kyi-a1-m2-cT_6kyi-a1-m4-cT MQVWPIEGIKKFETLSYLPPLTVEDLLKQIEYLLRSKWVPCLEFSKVGFVYRENHRSPGYYDGRYWTMWKLPMFGCTDATQVLKELEEAKKAYPDAFVRIIGFDNVRQVQLISFIAYKPPGC MQVWPIEGIKKFETLSYLPPLTVEDLLKQIEYLLRSKWVPCLEFSKVGFVYRENHRSPGYYDGRYWTMWKLPMFGCTDATQVLKELEEAKKAYPDAFVRIIGFDNVRQVQLISFIAYKPPGC 3axs-a1-m1-cA_3axs-a1-m2-cA Complex structure of tRNA methyltransferase Trm1 from Aquifex aeolicus with sinefungin O67010 O67010 2.162 X-RAY DIFFRACTION 65 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 387 387 3axt-a1-m1-cA_3axt-a1-m2-cA MEIVQEGIAKIIVPEIPKTVSSDMPVFYNPRMRVNRDLAVLGLEYLCKKLGRPVKVADPLSASGIRAIRFLLETSCVEKAYANDISSKAIEIMKENFKLNNIPEDRYEIHGMEANFFLRKEWGFGFDYVDLDPFGTPVPFIESVALSMKRGGILSLTATDTAPLSGTYPKTCMRRYMARPLRNEFKHEVGIRILIKKVIELAAQYDIAMIPIFAYSHLHYFKLFFVKERGVEKVDKLIEQFGYIQYCFNCMNREVVTDLYKFKEKCPHCGSKFHIGGPLWIGKLWDEEFTNFLYEEAQKREEIEKETKRILKLIKEESQLQTVGFYVLSKLAEKVKLPAQPPIRIAVKFFNGVRTHFVGDGFRTNLSFEEVMKKMEELKEKQKEFLE MEIVQEGIAKIIVPEIPKTVSSDMPVFYNPRMRVNRDLAVLGLEYLCKKLGRPVKVADPLSASGIRAIRFLLETSCVEKAYANDISSKAIEIMKENFKLNNIPEDRYEIHGMEANFFLRKEWGFGFDYVDLDPFGTPVPFIESVALSMKRGGILSLTATDTAPLSGTYPKTCMRRYMARPLRNEFKHEVGIRILIKKVIELAAQYDIAMIPIFAYSHLHYFKLFFVKERGVEKVDKLIEQFGYIQYCFNCMNREVVTDLYKFKEKCPHCGSKFHIGGPLWIGKLWDEEFTNFLYEEAQKREEIEKETKRILKLIKEESQLQTVGFYVLSKLAEKVKLPAQPPIRIAVKFFNGVRTHFVGDGFRTNLSFEEVMKKMEELKEKQKEFLE 3axy-a2-m1-cJ_3axy-a2-m1-cI Structure of Florigen Activation Complex Consisting of Rice Florigen Hd3a, 14-3-3 Protein GF14 and Rice FD Homolog OsFD1 Q6ZKC0 Q6ZKC0 2.4 X-RAY DIFFRACTION 48 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 234 235 3axy-a1-m1-cC_3axy-a1-m1-cD SREENVYMAKLAEQAERYEEMVEYMEKVAKTVDVEELTVEERNLLSVAYKNVIGARRASWRIVSSIEQKEEGRGNEEHVTLIKEYRGKIEAELSKICDGILKLLDSHLVPSSTAAESKVFYLKMKGDYHRYLAEFKTGAERKEAAESTMVAYKAAQDIALADLAPTHPIRLGLALNFSVFYYEILNSPDKACNLAKQAFDEAISELDTLGEESYKDSTLIMQLLRDNLTLWTSD MSREENVYMAKLAEQAERYEEMVEYMEKVAKTVDVEELTVEERNLLSVAYKNVIGARRASWRIVSSIEQKEEGRGNEEHVTLIKEYRGKIEAELSKICDGILKLLDSHLVPSSTAAESKVFYLKMKGDYHRYLAEFKTGAERKEAAESTMVAYKAAQDIALADLAPTHPIRLGLALNFSVFYYEILNSPDKACNLAKQAFDEAISELDTLGEESYKDSTLIMQLLRDNLTLWTSD 3ay7-a1-m1-cB_3ay7-a1-m2-cB Crystal structure of Bacillus megaterium glucose dehydrogenase 4 G259A mutant P39485 P39485 1.9 X-RAY DIFFRACTION 119 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 259 259 3aus-a1-m1-cA_3aus-a1-m2-cA 3aus-a1-m1-cB_3aus-a1-m2-cB 3aut-a1-m1-cA_3aut-a1-m2-cA 3aut-a1-m1-cB_3aut-a1-m2-cB 3auu-a1-m1-cA_3auu-a1-m2-cA 3auu-a1-m1-cB_3auu-a1-m2-cB 3ay6-a1-m1-cA_3ay6-a1-m1-cD 3ay6-a1-m1-cC_3ay6-a1-m1-cB 3ay7-a1-m1-cA_3ay7-a1-m2-cA HMYTDLKDKVVVITGGSTGLGRAMAVRFGQEEAKVVINYYNNEEEALDAKKEVEEAGGQAIIVQGDVTKEEDVVNLVQTAIKEFGTLDVMINNAGVENPVPSHELSLDNWNKVIDTNLTGAFLGSREAIKYFVENDIKGNVINMSSVHEMIPWPLFVHYAASKGGMKLMTETLALEYAPKGIRVNNIGPGAMNTPINAEKFADPVQRADVESMIPMGYIGKPEEVAAVAAFLASSQASYVTGITLFADGGMTKYPSFQA HMYTDLKDKVVVITGGSTGLGRAMAVRFGQEEAKVVINYYNNEEEALDAKKEVEEAGGQAIIVQGDVTKEEDVVNLVQTAIKEFGTLDVMINNAGVENPVPSHELSLDNWNKVIDTNLTGAFLGSREAIKYFVENDIKGNVINMSSVHEMIPWPLFVHYAASKGGMKLMTETLALEYAPKGIRVNNIGPGAMNTPINAEKFADPVQRADVESMIPMGYIGKPEEVAAVAAFLASSQASYVTGITLFADGGMTKYPSFQA 3ay7-a1-m2-cB_3ay7-a1-m1-cA Crystal structure of Bacillus megaterium glucose dehydrogenase 4 G259A mutant P39485 P39485 1.9 X-RAY DIFFRACTION 31 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 259 260 3aus-a1-m1-cA_3aus-a1-m2-cB 3aus-a1-m1-cB_3aus-a1-m2-cA 3aut-a1-m1-cA_3aut-a1-m2-cB 3aut-a1-m1-cB_3aut-a1-m2-cA 3auu-a1-m1-cA_3auu-a1-m2-cB 3auu-a1-m1-cB_3auu-a1-m2-cA 3ay6-a1-m1-cB_3ay6-a1-m1-cD 3ay6-a1-m1-cC_3ay6-a1-m1-cA 3ay7-a1-m1-cB_3ay7-a1-m2-cA HMYTDLKDKVVVITGGSTGLGRAMAVRFGQEEAKVVINYYNNEEEALDAKKEVEEAGGQAIIVQGDVTKEEDVVNLVQTAIKEFGTLDVMINNAGVENPVPSHELSLDNWNKVIDTNLTGAFLGSREAIKYFVENDIKGNVINMSSVHEMIPWPLFVHYAASKGGMKLMTETLALEYAPKGIRVNNIGPGAMNTPINAEKFADPVQRADVESMIPMGYIGKPEEVAAVAAFLASSQASYVTGITLFADGGMTKYPSFQA HMYTDLKDKVVVITGGSTGLGRAMAVRFGQEEAKVVINYYNNEEEALDAKKEVEEAGGQAIIVQGDVTKEEDVVNLVQTAIKEFGTLDVMINNAGVENPVPSHELSLDNWNKVIDTNLTGAFLGSREAIKYFVENDIKGNVINMSSVHEMIPWPLFVHYAASKGGMKLMTETLALEYAPKGIRVNNIGPGAMNTPINAEKFADPVQRADVESMIPMGYIGKPEEVAAVAAFLASSQASYVTGITLFADGGMTKYPSFQAA 3ay8-a1-m1-cA_3ay8-a1-m2-cA Glutathione S-transferase unclassified 2 from Bombyx mori Q2F690 Q2F690 2.1 X-RAY DIFFRACTION 82 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 215 215 SSLKLYHFPVSGPSRGALLAARAIGIPIQIEIVNLFKKEQLQESFLKLNPQHCVPTLDDNNFVLWESRAIACYLADKYGKDDQWYPKDLQKRAVVNQRLYFDSASLYVKIRAICFPILFLGETEIKQSLKDDLNSTLSFLNQFLEKTKWVAADHPTIADTSIYASMSSILAVGWDISSFPNIQRWIKDCLLLPGAPENEDGARTFGDAVKKNIKQ SSLKLYHFPVSGPSRGALLAARAIGIPIQIEIVNLFKKEQLQESFLKLNPQHCVPTLDDNNFVLWESRAIACYLADKYGKDDQWYPKDLQKRAVVNQRLYFDSASLYVKIRAICFPILFLGETEIKQSLKDDLNSTLSFLNQFLEKTKWVAADHPTIADTSIYASMSSILAVGWDISSFPNIQRWIKDCLLLPGAPENEDGARTFGDAVKKNIKQ 3ayf-a2-m1-cA_3ayf-a2-m2-cA Crystal structure of nitric oxide reductase B3Y963 B3Y963 2.5 X-RAY DIFFRACTION 136 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 754 754 3ayg-a2-m1-cA_3ayg-a2-m2-cA TTNSFLKSILIFTILISSTVLLVGGYWIFKEMAPRPKEVRSESGEVLMTKETIIGGQAVFQKYGLMDYGTVLGHGSYMGPDYTAEALKVYTEGMQDYKAKADLTDDEKSIIREQVIKEMRKNRYNPVTDVLVLTDAQVYGLEKVRDYYRDVFTNGDGWGLKKGLIKESDMPKANRAWVADSDQIQQIADFFFWTAWLSSTLRIGDEITYTNNWPYYEDAGNTMSFSAVWWSGASVTILILFIGIILYVFYRYQLSMQEAYAEGKFPVIDLRRQPLTPSQVKAGKYFVVVSALFFVQTMFGALLAHYYTEPDSFFGINWIYDILPFNIAKGYHLQLAIFWIATAWLGMGIFIAPLVGGQEPKKQGLLVDLLFWALVVLVGGSMIGQWLGVNGYLGNEWFLLGHQGWEYIELGRIWQIILVVGMLLWLFIVFRGVKRGLKRESDKGGLIHLLFYSAIAVPFFYIFAFFIQPDTNFTMADFWRWWIIHLWVEGIFEVFAVVVIGFLLVQLRLVTKKSTVRALYFQFTILLGSGVIGIGHHYYYNGSPEVWIALGAVFSALEVIPLTLLILEAYEQYKMMRDGGANFPYKATFWFLISTAIWNLVGAGVFGFLINLPAVSYFEHGQFLTPAHGHAAMMGVYGMFAIAVLLYSLRNIVKPEAWNDKWLKFSCWMLNIGLAGMVVITLLPVGILQMKEAFIHGYWASRSPSFLQQDVVQNLLLVRAVPDTIFLIGVVALLVFAIKALFHLRKPTHGEGEE TTNSFLKSILIFTILISSTVLLVGGYWIFKEMAPRPKEVRSESGEVLMTKETIIGGQAVFQKYGLMDYGTVLGHGSYMGPDYTAEALKVYTEGMQDYKAKADLTDDEKSIIREQVIKEMRKNRYNPVTDVLVLTDAQVYGLEKVRDYYRDVFTNGDGWGLKKGLIKESDMPKANRAWVADSDQIQQIADFFFWTAWLSSTLRIGDEITYTNNWPYYEDAGNTMSFSAVWWSGASVTILILFIGIILYVFYRYQLSMQEAYAEGKFPVIDLRRQPLTPSQVKAGKYFVVVSALFFVQTMFGALLAHYYTEPDSFFGINWIYDILPFNIAKGYHLQLAIFWIATAWLGMGIFIAPLVGGQEPKKQGLLVDLLFWALVVLVGGSMIGQWLGVNGYLGNEWFLLGHQGWEYIELGRIWQIILVVGMLLWLFIVFRGVKRGLKRESDKGGLIHLLFYSAIAVPFFYIFAFFIQPDTNFTMADFWRWWIIHLWVEGIFEVFAVVVIGFLLVQLRLVTKKSTVRALYFQFTILLGSGVIGIGHHYYYNGSPEVWIALGAVFSALEVIPLTLLILEAYEQYKMMRDGGANFPYKATFWFLISTAIWNLVGAGVFGFLINLPAVSYFEHGQFLTPAHGHAAMMGVYGMFAIAVLLYSLRNIVKPEAWNDKWLKFSCWMLNIGLAGMVVITLLPVGILQMKEAFIHGYWASRSPSFLQQDVVQNLLLVRAVPDTIFLIGVVALLVFAIKALFHLRKPTHGEGEE 3ayj-a1-m1-cA_3ayj-a1-m1-cB X-ray crystal structures of L-phenylalanine oxidase (deaminating and decaboxylating) from Pseudomonas sp. P501. Structures of the enzyme-ligand complex and catalytic mechanism Q5W9R9 Q5W9R9 1.1 X-RAY DIFFRACTION 284 1.0 266807 (Pseudomonas sp. P-501) 266807 (Pseudomonas sp. P-501) 684 684 2yr4-a1-m1-cB_2yr4-a1-m1-cA 2yr5-a1-m1-cA_2yr5-a1-m1-cB 2yr6-a1-m1-cA_2yr6-a1-m1-cB 3ayi-a1-m1-cA_3ayi-a1-m1-cB 3ayl-a1-m1-cA_3ayl-a1-m1-cB KIATTVGEARLSGINYRHPDSALVSYPVAAAAPLGRLPAGNYRIAIVGGGAGGIAALYELGRLAATLPAGSGIDVQIYEADPDSFLHDRAIKVRGLKAGRVSAALVHNGDPASGDTIYEVGAMRFPEIAGLTWHYASAAFGDAAPIKVFPNPGKVPTEFVFGNRVDRYVGSDPKDWEDPDSPTLKVLGVVAGGLVGNPQGENVAMYPIANVDPAKIAAILNAATPPADALERIQTKYWPEFIAQYDGLTLGAAVREIVTVAFEKGTLPPVDGVLDVDESISYYVELFGRFGFGTGGFKPLYNISLVEMMRLILWDYSNEYTLPVTENVEFIRNLFLKAQNVGAGKLVVQVRQERVANACHSGTASARAQLLSYDSHNAVHSEAYDFVILAVPHDQLTPIVSRSGFEHAASQNLGDAGLGLETHTYNQVYPPLLLSDSSPAANARIVTAIGQLHMARSSKVFATVKTAALDQPWVPQWRGEPIKAVVSDSGLAASYVVPSPIVAPEYSSLLASYTWEDDSTRLRHDFGLYPQNPATETGTADGMYRTMVNRAYRYVKYAGASNAQPWWFYQLLAEARTADRFVFDWTTNKTAGGFKLDMTGDHHQSNLCFRYHTHALAASLDNRFFIASDSYSHLGGWLEGAFMSALNAVAGLIVRANRGDVSALSTEARPLVIGLRPVVKVPAA KIATTVGEARLSGINYRHPDSALVSYPVAAAAPLGRLPAGNYRIAIVGGGAGGIAALYELGRLAATLPAGSGIDVQIYEADPDSFLHDRAIKVRGLKAGRVSAALVHNGDPASGDTIYEVGAMRFPEIAGLTWHYASAAFGDAAPIKVFPNPGKVPTEFVFGNRVDRYVGSDPKDWEDPDSPTLKVLGVVAGGLVGNPQGENVAMYPIANVDPAKIAAILNAATPPADALERIQTKYWPEFIAQYDGLTLGAAVREIVTVAFEKGTLPPVDGVLDVDESISYYVELFGRFGFGTGGFKPLYNISLVEMMRLILWDYSNEYTLPVTENVEFIRNLFLKAQNVGAGKLVVQVRQERVANACHSGTASARAQLLSYDSHNAVHSEAYDFVILAVPHDQLTPIVSRSGFEHAASQNLGDAGLGLETHTYNQVYPPLLLSDSSPAANARIVTAIGQLHMARSSKVFATVKTAALDQPWVPQWRGEPIKAVVSDSGLAASYVVPSPIVAPEYSSLLASYTWEDDSTRLRHDFGLYPQNPATETGTADGMYRTMVNRAYRYVKYAGASNAQPWWFYQLLAEARTADRFVFDWTTNKTAGGFKLDMTGDHHQSNLCFRYHTHALAASLDNRFFIASDSYSHLGGWLEGAFMSALNAVAGLIVRANRGDVSALSTEARPLVIGLRPVVKVPAA 3ayr-a2-m1-cA_3ayr-a2-m2-cA GH5 endoglucanase EglA from a ruminal fungus Q9URH5 Q9URH5 2 X-RAY DIFFRACTION 101 1.0 73428 (Piromyces rhizinflatus) 73428 (Piromyces rhizinflatus) 366 366 3ays-a2-m1-cA_3ays-a2-m2-cA HHVDDDDKIRDISSKELIKEMNFGWNLGNTMDAQCIEYLNYEKDQTASETCWGNPKTTEDMFKVLIDNQFNVFRIPTTWSGHFGEAPDYKIDEKWLKRVHEVVDYPYKNGAFVILNLHHETWNHAFSETLDTAKEILEKIWSQIAEEFKDYDEHLIFEGLNEPRKNDTPVEWTGGDQEGWDAVNAMNAVFLKTVRSAGGNNPKRHLMIPPYAAACNENSFNNFIFPEDDDKVIASVHAYAPYNFALNNGEGAVDKFDAAGKRDLEWNINLMKKRFVDQGIPMILGEYGAMNRDNEEDRATWAEFYMEKVTAMGVPQIWWDNGVFEGTGERFGLLDRKNLKIVYPTIVAALQKGRGLEVNVVHAIEK HHVDDDDKIRDISSKELIKEMNFGWNLGNTMDAQCIEYLNYEKDQTASETCWGNPKTTEDMFKVLIDNQFNVFRIPTTWSGHFGEAPDYKIDEKWLKRVHEVVDYPYKNGAFVILNLHHETWNHAFSETLDTAKEILEKIWSQIAEEFKDYDEHLIFEGLNEPRKNDTPVEWTGGDQEGWDAVNAMNAVFLKTVRSAGGNNPKRHLMIPPYAAACNENSFNNFIFPEDDDKVIASVHAYAPYNFALNNGEGAVDKFDAAGKRDLEWNINLMKKRFVDQGIPMILGEYGAMNRDNEEDRATWAEFYMEKVTAMGVPQIWWDNGVFEGTGERFGLLDRKNLKIVYPTIVAALQKGRGLEVNVVHAIEK 3ayt-a6-m1-cB_3ayt-a6-m1-cD TTHB071 protein from Thermus thermophilus HB8 Q53W91 Q53W91 1.95 X-RAY DIFFRACTION 72 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 240 240 3ayt-a5-m1-cA_3ayt-a5-m1-cC 3ayv-a5-m1-cA_3ayv-a5-m1-cD 3ayv-a6-m1-cC_3ayv-a6-m1-cB MDVRLAFPLSRAEEALPRLQALGLGAEVYLDPALLEEDALFQSLRRRFSGKLSVHLPFWNLDLLSPDPEVRGLTLRRLLFGLDRAAELGADRAVFHSGIPHGRTPEEALERALPLAEALGLVVRRARTLGVRLLLENSHEPHPEALRPVLEAHAGELGFCFDAAHARVFSRTPDPGPWLALAPEHLHLNDTDGVYDRHWNLGRGVLGHGAWLRPYLDRTMVLEVREDPEASLAFLQALAG MDVRLAFPLSRAEEALPRLQALGLGAEVYLDPALLEEDALFQSLRRRFSGKLSVHLPFWNLDLLSPDPEVRGLTLRRLLFGLDRAAELGADRAVFHSGIPHGRTPEEALERALPLAEALGLVVRRARTLGVRLLLENSHEPHPEALRPVLEAHAGELGFCFDAAHARVFSRTPDPGPWLALAPEHLHLNDTDGVYDRHWNLGRGVLGHGAWLRPYLDRTMVLEVREDPEASLAFLQALAG 3ayx-a1-m1-cA_3ayx-a1-m1-cC Membrane-bound respiratory [NiFe] hydrogenase from Hydrogenovibrio marinus in an H2-reduced condition F2Z6J6 F2Z6J6 1.18 X-RAY DIFFRACTION 45 1.0 28885 (Hydrogenovibrio marinus) 28885 (Hydrogenovibrio marinus) 595 595 3ayz-a1-m1-cA_3ayz-a1-m1-cC 5y34-a1-m1-cA_5y34-a1-m1-cC SVLNTPNHYKMDNSGRRVVIDPVTRIEGHMRCEVNVDENNVIQNAVSTGTMWRGLEVILRGRDPRDAWAFVERICGVCTGCHALASVRAVEDALDIKIPHNATLIREIMAKTLQIHDHIVHFYHLHALDWVNPVNALKADPQATSELQKLVSPHHPMSSPGYFKDIQIRIQKFVDSGQLGIFKNGYWSNPAYKLSPEADLMAVTHYLEALDFQKEIVKIHAIFGGKNPHPNYMVGGVPCAINIDGDMAAGAPINMERLNFVKSLIEQGRTFNTNVYVPDVIAIAAFYRDWLYGGGLSATNVMDYGAYPKTPYDKSTDQLPGGAIINGDWGKIHPVDPRDPEQVQEFVTHSWYKYPDETKGLHPWDGITEPNYELGSKTKGSRTNIIEIDESAKYSWIKSPRWRGHAVEVGPLARYILAYAQGVEYVKTQVHTSLNRFNAVCRLLDPNHKDITDLKAFLGSTIGRTLARALESEYCGDMMLDDFNQLISNIKNGDSSTANTDKWDPSSWPEHAKGVGTVAAPRGALAHWIVIEKGKIKNYQCVVPTTWNGSPRDPKGNIGAFEASLMGTPMERPDEPVEVLRTLHSFDPCLACSTH SVLNTPNHYKMDNSGRRVVIDPVTRIEGHMRCEVNVDENNVIQNAVSTGTMWRGLEVILRGRDPRDAWAFVERICGVCTGCHALASVRAVEDALDIKIPHNATLIREIMAKTLQIHDHIVHFYHLHALDWVNPVNALKADPQATSELQKLVSPHHPMSSPGYFKDIQIRIQKFVDSGQLGIFKNGYWSNPAYKLSPEADLMAVTHYLEALDFQKEIVKIHAIFGGKNPHPNYMVGGVPCAINIDGDMAAGAPINMERLNFVKSLIEQGRTFNTNVYVPDVIAIAAFYRDWLYGGGLSATNVMDYGAYPKTPYDKSTDQLPGGAIINGDWGKIHPVDPRDPEQVQEFVTHSWYKYPDETKGLHPWDGITEPNYELGSKTKGSRTNIIEIDESAKYSWIKSPRWRGHAVEVGPLARYILAYAQGVEYVKTQVHTSLNRFNAVCRLLDPNHKDITDLKAFLGSTIGRTLARALESEYCGDMMLDDFNQLISNIKNGDSSTANTDKWDPSSWPEHAKGVGTVAAPRGALAHWIVIEKGKIKNYQCVVPTTWNGSPRDPKGNIGAFEASLMGTPMERPDEPVEVLRTLHSFDPCLACSTH 3ayx-a1-m1-cD_3ayx-a1-m1-cB Membrane-bound respiratory [NiFe] hydrogenase from Hydrogenovibrio marinus in an H2-reduced condition F2Z6J5 F2Z6J5 1.18 X-RAY DIFFRACTION 31 1.0 28885 (Hydrogenovibrio marinus) 28885 (Hydrogenovibrio marinus) 267 273 3ayz-a1-m1-cD_3ayz-a1-m1-cB 5y34-a1-m1-cD_5y34-a1-m1-cB PRTPVIWLHGLECTCCSESFIRSAHPLAKDVVLSMISLDYDDTLMAASGHAAEAILDEIKEKYKGNYILAVEGNPPLNQDGMSCIIGGRPFSEQLKRMADDAKAIISWGSCASWGCVQAAKPNPTQATPVHKFLGGGYDKPIIKVPGCPPIAEVMTGVITYMLTFDRIPELDRQGRPKMFYSQRIHDKCYRRPHFDAGQFVEEWDDEGARKGYCLYKVGCKGPTTYNACSTVRWNGGTSFPIQSGHGCIGCSEDGFWDKGSFYSRDT PRTPVIWLHGLECTCCSESFIRSAHPLAKDVVLSMISLDYDDTLMAASGHAAEAILDEIKEKYKGNYILAVEGNPPLNQDGMSCIIGGRPFSEQLKRMADDAKAIISWGSCASWGCVQAAKPNPTQATPVHKFLGGGYDKPIIKVPGCPPIAEVMTGVITYMLTFDRIPELDRQGRPKMFYSQRIHDKCYRRPHFDAGQFVEEWDDEGARKGYCLYKVGCKGPTTYNACSTVRWNGGTSFPIQSGHGCIGCSEDGFWDKGSFYSRDTEMNAFG 3az9-a3-m1-cN_3az9-a3-m1-cM Beta-Hydroxyacyl-Acyl Carrier Protein Dehydratase (FabZ) from Plasmodium falciparum in complex with NAS91 Q965D7 Q965D7 2.75 X-RAY DIFFRACTION 102 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 145 146 1z6b-a1-m1-cB_1z6b-a1-m1-cA 1z6b-a2-m1-cD_1z6b-a2-m1-cC 1z6b-a3-m1-cE_1z6b-a3-m1-cF 1z6b-a4-m1-cB_1z6b-a4-m1-cA 1z6b-a4-m1-cD_1z6b-a4-m1-cC 1z6b-a4-m1-cE_1z6b-a4-m1-cF 3az8-a1-m1-cB_3az8-a1-m1-cA 3az8-a1-m1-cD_3az8-a1-m1-cC 3az8-a1-m1-cE_3az8-a1-m1-cF 3az8-a2-m1-cH_3az8-a2-m1-cG 3az8-a2-m1-cI_3az8-a2-m1-cJ 3az8-a2-m1-cK_3az8-a2-m1-cL 3az8-a3-m1-cM_3az8-a3-m1-cN 3az8-a3-m1-cO_3az8-a3-m1-cP 3az8-a3-m1-cQ_3az8-a3-m1-cR 3az8-a4-m1-cT_3az8-a4-m1-cS 3az8-a4-m1-cU_3az8-a4-m1-cV 3az8-a4-m1-cW_3az8-a4-m1-cX 3az9-a1-m1-cB_3az9-a1-m1-cA 3az9-a1-m1-cC_3az9-a1-m1-cD 3az9-a1-m1-cE_3az9-a1-m1-cF 3az9-a2-m1-cH_3az9-a2-m1-cG 3az9-a2-m1-cI_3az9-a2-m1-cJ 3az9-a2-m1-cK_3az9-a2-m1-cL 3az9-a3-m1-cO_3az9-a3-m1-cP 3az9-a3-m1-cQ_3az9-a3-m1-cR 3az9-a4-m1-cT_3az9-a4-m1-cS 3az9-a4-m1-cU_3az9-a4-m1-cV 3az9-a4-m1-cX_3az9-a4-m1-cW 3aza-a1-m1-cB_3aza-a1-m1-cA 3aza-a1-m1-cC_3aza-a1-m1-cD 3aza-a1-m1-cE_3aza-a1-m1-cF 3aza-a2-m1-cH_3aza-a2-m1-cG 3aza-a2-m1-cI_3aza-a2-m1-cJ 3aza-a2-m1-cK_3aza-a2-m1-cL 3aza-a3-m1-cN_3aza-a3-m1-cM 3aza-a3-m1-cO_3aza-a3-m1-cP 3aza-a3-m1-cQ_3aza-a3-m1-cR 3aza-a4-m1-cT_3aza-a4-m1-cS 3aza-a4-m1-cV_3aza-a4-m1-cU 3aza-a4-m1-cW_3aza-a4-m1-cX 3azb-a1-m1-cB_3azb-a1-m1-cA 3azb-a1-m1-cD_3azb-a1-m1-cC 3azb-a1-m1-cE_3azb-a1-m1-cF 3azb-a2-m1-cH_3azb-a2-m1-cG 3azb-a2-m1-cJ_3azb-a2-m1-cI 3azb-a2-m1-cK_3azb-a2-m1-cL 3azb-a3-m1-cN_3azb-a3-m1-cM 3azb-a3-m1-cP_3azb-a3-m1-cO 3azb-a3-m1-cQ_3azb-a3-m1-cR 3azb-a4-m1-cT_3azb-a4-m1-cS 3azb-a4-m1-cV_3azb-a4-m1-cU 3azb-a4-m1-cW_3azb-a4-m1-cX TSIDIEDIKKILPHRYPFLLVDKVIYMQPNKTIIGLKQVSTNEPFFNGHFPQKQIMPGVLQIEALAQLAGILCLKSDDSQKNNLFLFAGVDGVRWKKPVLPGDTLTMQANLISFKSSLGIAKLSGVGYVNGKVVINISEMTFALS DTSIDIEDIKKILPHRYPFLLVDKVIYMQPNKTIIGLKQVSTNEPFFNGHFPQKQIMPGVLQIEALAQLAGILCLKSDDSQKNNLFLFAGVDGVRWKKPVLPGDTLTMQANLISFKSSLGIAKLSGVGYVNGKVVINISEMTFALS 3az9-a3-m1-cO_3az9-a3-m1-cR Beta-Hydroxyacyl-Acyl Carrier Protein Dehydratase (FabZ) from Plasmodium falciparum in complex with NAS91 Q965D7 Q965D7 2.75 X-RAY DIFFRACTION 85 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 144 146 1z6b-a4-m1-cB_1z6b-a4-m1-cE 1z6b-a4-m1-cC_1z6b-a4-m1-cF 1z6b-a4-m1-cD_1z6b-a4-m1-cA 3az8-a1-m1-cB_3az8-a1-m1-cE 3az8-a1-m1-cC_3az8-a1-m1-cF 3az8-a1-m1-cD_3az8-a1-m1-cA 3az8-a2-m1-cH_3az8-a2-m1-cK 3az8-a2-m1-cI_3az8-a2-m1-cL 3az8-a2-m1-cJ_3az8-a2-m1-cG 3az8-a3-m1-cM_3az8-a3-m1-cP 3az8-a3-m1-cO_3az8-a3-m1-cR 3az8-a3-m1-cQ_3az8-a3-m1-cN 3az8-a4-m1-cT_3az8-a4-m1-cW 3az8-a4-m1-cU_3az8-a4-m1-cX 3az8-a4-m1-cV_3az8-a4-m1-cS 3az9-a1-m1-cC_3az9-a1-m1-cF 3az9-a1-m1-cD_3az9-a1-m1-cA 3az9-a1-m1-cE_3az9-a1-m1-cB 3az9-a2-m1-cI_3az9-a2-m1-cL 3az9-a2-m1-cJ_3az9-a2-m1-cG 3az9-a2-m1-cK_3az9-a2-m1-cH 3az9-a3-m1-cP_3az9-a3-m1-cM 3az9-a3-m1-cQ_3az9-a3-m1-cN 3az9-a4-m1-cT_3az9-a4-m1-cW 3az9-a4-m1-cV_3az9-a4-m1-cS 3az9-a4-m1-cX_3az9-a4-m1-cU 3aza-a1-m1-cB_3aza-a1-m1-cE 3aza-a1-m1-cC_3aza-a1-m1-cF 3aza-a1-m1-cD_3aza-a1-m1-cA 3aza-a2-m1-cH_3aza-a2-m1-cK 3aza-a2-m1-cI_3aza-a2-m1-cL 3aza-a2-m1-cJ_3aza-a2-m1-cG 3aza-a3-m1-cN_3aza-a3-m1-cQ 3aza-a3-m1-cO_3aza-a3-m1-cR 3aza-a3-m1-cP_3aza-a3-m1-cM 3aza-a4-m1-cT_3aza-a4-m1-cW 3aza-a4-m1-cU_3aza-a4-m1-cX 3aza-a4-m1-cV_3aza-a4-m1-cS 3azb-a1-m1-cB_3azb-a1-m1-cE 3azb-a1-m1-cC_3azb-a1-m1-cF 3azb-a1-m1-cD_3azb-a1-m1-cA 3azb-a2-m1-cH_3azb-a2-m1-cK 3azb-a2-m1-cI_3azb-a2-m1-cL 3azb-a2-m1-cJ_3azb-a2-m1-cG 3azb-a3-m1-cN_3azb-a3-m1-cQ 3azb-a3-m1-cO_3azb-a3-m1-cR 3azb-a3-m1-cP_3azb-a3-m1-cM 3azb-a4-m1-cT_3azb-a4-m1-cW 3azb-a4-m1-cU_3azb-a4-m1-cX 3azb-a4-m1-cV_3azb-a4-m1-cS TSIDIEDIKKILPHRYPFLLVDKVIYMQPNKTIIGLKQVSTNEPFFNGHFPQKQIMPGVLQIEALAQLAGILCLKSDDSQKNNLFLFAGVDGVRWKKPVLPGDTLTMQANLISFKSSLGIAKLSGVGYVNGKVVINISEMTFAL DTSIDIEDIKKILPHRYPFLLVDKVIYMQPNKTIIGLKQVSTNEPFFNGHFPQKQIMPGVLQIEALAQLAGILCLKSDDSQKNNLFLFAGVDGVRWKKPVLPGDTLTMQANLISFKSSLGIAKLSGVGYVNGKVVINISEMTFALS 3azd-a1-m1-cA_3azd-a1-m1-cB Crystal structure of tropomyosin N-terminal fragment at 0.98A resolution P03069 P03069 0.98 X-RAY DIFFRACTION 48 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 30 30 1ihq-a1-m1-cA_1ihq-a1-m1-cB LEAVRRKIRSLQEQNYHLENEVARLKKLVG LEAVRRKIRSLQEQNYHLENEVARLKKLVG 3azq-a2-m1-cD_3azq-a2-m1-cB Crystal structure of puromycin hydrolase S511A mutant complexed with PGG Q2HXD9 2.7 X-RAY DIFFRACTION 16 1.0 1970 (Streptomyces morookaense) 1 661 3azq-a1-m1-cC_3azq-a1-m1-cA P VSTAPYGAWQSPIDAALVASRSGRPACVGAVGDEVWWVAPRPAEAGRATLVRRRADGAEESALPAPWNVRNRVFEYSGFPWAGVPRPAGGPLLVFTHFGDQRLYAFEPDAPGGAVPRPLTPVSAVGGGLRWADPVLLPERGEVWCMAEEFTGEGPSDVRRFLAAVPLDGSAAADRSAVRELSDDAHRFVTGPRLSPDGRQAVWLAWDHPRMPWEGTELKTARVTEDGRFADTRTLLGGPEEAIAQAEWAPDGSLIVATDRTGWWNLHRVDPATGAATQLCRREEEFAGPLWTPGMRWFAPLANGLIAVVHGKGAAVLGILDPESGELVDAAGPWTEWAATLTVSGTRAVGVAASPRTAYEVVELDTVTGRARTIGARHTDPVDPAYYPEPQIRTFTAPDGREIHAHIYPPHSPDFTGPADELPPYVVMAHGGPTSRVPAVLDLDVAYFTSRGIGVADVNYGGSTGYGRAYRERLRGRWGVVDVEDCAAVATALAEEGTADRARLAVRGGAAGGWTAASSLVSTDVYACGTVLYPVLDLLGWADGGTHDFESRYLDFLIGSFEEFPERYRDRAPLTRADRVRVPFLLLQGLEDPVCPPEQCDRFLEAVAGCGVPHAYLSFEGEGHGFRRKETMVRALEAELSLYAQVFGVEVAGVPLLKLGE 3b03-a1-m1-cC_3b03-a1-m1-cD Crystal structure of Sulfolobus shibatae isopentenyl diphosphate isomerase in complex with vIPP. P61615 P61615 2.2 X-RAY DIFFRACTION 99 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 364 364 2zru-a1-m1-cA_2zru-a1-m1-cB 2zru-a1-m1-cA_2zru-a1-m1-cD 2zru-a1-m1-cB_2zru-a1-m1-cC 2zru-a1-m1-cC_2zru-a1-m1-cD 2zrv-a1-m1-cA_2zrv-a1-m1-cB 2zrv-a1-m1-cA_2zrv-a1-m1-cD 2zrv-a1-m1-cB_2zrv-a1-m1-cC 2zrv-a1-m1-cC_2zrv-a1-m1-cD 2zrw-a1-m1-cA_2zrw-a1-m1-cB 2zrw-a1-m1-cA_2zrw-a1-m1-cD 2zrw-a1-m1-cB_2zrw-a1-m1-cC 2zrw-a1-m1-cC_2zrw-a1-m1-cD 2zrx-a1-m1-cA_2zrx-a1-m1-cB 2zrx-a1-m1-cA_2zrx-a1-m1-cD 2zrx-a1-m1-cB_2zrx-a1-m1-cC 2zrx-a1-m1-cC_2zrx-a1-m1-cD 2zry-a1-m1-cA_2zry-a1-m1-cB 2zry-a1-m1-cA_2zry-a1-m1-cD 2zry-a1-m1-cB_2zry-a1-m1-cC 2zry-a1-m1-cC_2zry-a1-m1-cD 2zrz-a1-m1-cA_2zrz-a1-m1-cB 2zrz-a1-m1-cA_2zrz-a1-m1-cD 2zrz-a1-m1-cB_2zrz-a1-m1-cC 2zrz-a1-m1-cC_2zrz-a1-m1-cD 3b03-a1-m1-cA_3b03-a1-m1-cB 3b03-a1-m1-cA_3b03-a1-m1-cD 3b03-a1-m1-cB_3b03-a1-m1-cC 3b04-a1-m1-cA_3b04-a1-m1-cB 3b04-a1-m1-cA_3b04-a1-m1-cD 3b04-a1-m1-cB_3b04-a1-m1-cC 3b04-a1-m1-cC_3b04-a1-m1-cD 3b05-a1-m1-cA_3b05-a1-m1-cB 3b05-a1-m1-cA_3b05-a1-m1-cD 3b05-a1-m1-cB_3b05-a1-m1-cC 3b05-a1-m1-cC_3b05-a1-m1-cD 3b06-a1-m1-cA_3b06-a1-m1-cB 3b06-a1-m1-cA_3b06-a1-m1-cD 3b06-a1-m1-cB_3b06-a1-m1-cC 3b06-a1-m1-cC_3b06-a1-m1-cD 3vkj-a1-m1-cA_3vkj-a1-m1-cB 3vkj-a1-m1-cA_3vkj-a1-m1-cD 3vkj-a1-m1-cB_3vkj-a1-m1-cC 3vkj-a1-m1-cC_3vkj-a1-m1-cD 3vkj-a1-m2-cA_3vkj-a1-m2-cB 3vkj-a1-m2-cA_3vkj-a1-m2-cD 3vkj-a1-m2-cB_3vkj-a1-m2-cC 3vkj-a1-m2-cC_3vkj-a1-m2-cD IVNRKVEHVEIAAFENVDGLSSSTFLNDVILVHQGFPGISFSEINTKTKFFRKEISVPVMVTGMTGGRNELGRINKIIAEVAEKFGIPMGVGSQRVAIEKAEARESFAIVRKVAPTIPIIANLGMPQLVKGYGLKEFQDAIQMIEADAIAVHLNPAQEVFQPEGEPEYQIYALEKLRDISKELSVPIIVKESGNGISMETAKLLYSYGIKNFDTSGQGGTNWIAIEMIRDIRRGNWKAESAKNFLDWGVPTAASIMEVRYSVPDSFLVGSGGIRSGLDAAKAIALGADIAGMALPVLKSAIEGKESLEQFFRKIIFELKAAMMLTGSKDVDALKKTSIVILGKLKEWAEYRGINLSIYEKVRKR IVNRKVEHVEIAAFENVDGLSSSTFLNDVILVHQGFPGISFSEINTKTKFFRKEISVPVMVTGMTGGRNELGRINKIIAEVAEKFGIPMGVGSQRVAIEKAEARESFAIVRKVAPTIPIIANLGMPQLVKGYGLKEFQDAIQMIEADAIAVHLNPAQEVFQPEGEPEYQIYALEKLRDISKELSVPIIVKESGNGISMETAKLLYSYGIKNFDTSGQGGTNWIAIEMIRDIRRGNWKAESAKNFLDWGVPTAASIMEVRYSVPDSFLVGSGGIRSGLDAAKAIALGADIAGMALPVLKSAIEGKESLEQFFRKIIFELKAAMMLTGSKDVDALKKTSIVILGKLKEWAEYRGINLSIYEKVRKR 3b09-a1-m1-cA_3b09-a1-m2-cA Crystal structure of the N-domain of FKBP22 from Shewanella sp. SIB1 Q765B0 Q765B0 1.9 X-RAY DIFFRACTION 170 1.0 117911 (Shewanella sp. SIB1) 117911 (Shewanella sp. SIB1) 62 62 DLFSTEQHASYGVGRQGEQLAANSFEGIDIPAVQAGLADAFAGKESAVSEELQVAFTEISRR DLFSTEQHASYGVGRQGEQLAANSFEGIDIPAVQAGLADAFAGKESAVSEELQVAFTEISRR 3b0f-a1-m1-cA_3b0f-a1-m1-cB Crystal structure of the UBA domain of p62 and its interaction with ubiquitin Q64337 Q64337 1.4 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 43 43 DPRLIESLSQMLSMGFSDEGGWLTRLLQTKNYDIGAALDTIQY DPRLIESLSQMLSMGFSDEGGWLTRLLQTKNYDIGAALDTIQY 3b0s-a2-m1-cD_3b0s-a2-m1-cE Crystal Structure of (Gly-Pro-Hyp)9 Q80BK4 Q80BK4 1.45 X-RAY DIFFRACTION 36 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 18 18 3b0s-a1-m1-cB_3b0s-a1-m1-cC GPGPGPGPGPGPGPGPGP GPGPGPGPGPGPGPGPGP 3b0s-a2-m1-cE_3b0s-a2-m1-cF Crystal Structure of (Gly-Pro-Hyp)9 Q80BK4 Q80BK4 1.45 X-RAY DIFFRACTION 36 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 18 18 3b0s-a1-m1-cA_3b0s-a1-m1-cB 3b0s-a1-m1-cA_3b0s-a1-m1-cC 3b0s-a2-m1-cD_3b0s-a2-m1-cF GPGPGPGPGPGPGPGPGP GPGPGPGPGPGPGPGPGP 3b12-a1-m1-cA_3b12-a1-m1-cB Crystal Structure of the Fluoroacetate Dehalogenase D104 mutant from Burkholderia sp. FA1 in complex with fluoroacetate Q1JU72 Q1JU72 1.2 X-RAY DIFFRACTION 69 1.0 36773 (Burkholderia sp.) 36773 (Burkholderia sp.) 294 294 1y37-a1-m1-cA_1y37-a1-m1-cB MFEGFERRLVDVGDVTINCVVGGSGPALLLLHGFPQNLHMWARVAPLLANEYTVVCADLRGYGGSSKPVGAPDHANYSFRAMASDQRELMRTLGFERFHLVGHARGGRTGHRMALDHPDSVLSLAVLDIIPTYVMFEEVDRFVARAYWHWYFLQQPAPYPEKVIGADPDTFYEGCLFGWGATGADGFDPEQLEEYRKQWRDPAAIHGSCCDYRAGGTIDFELDHGDLGRQVQCPALVFSGSAGLMHSLFEMQVVWAPRLANMRFASLPGGHFFVDRFPDDTARILREFLSDARS MFEGFERRLVDVGDVTINCVVGGSGPALLLLHGFPQNLHMWARVAPLLANEYTVVCADLRGYGGSSKPVGAPDHANYSFRAMASDQRELMRTLGFERFHLVGHARGGRTGHRMALDHPDSVLSLAVLDIIPTYVMFEEVDRFVARAYWHWYFLQQPAPYPEKVIGADPDTFYEGCLFGWGATGADGFDPEQLEEYRKQWRDPAAIHGSCCDYRAGGTIDFELDHGDLGRQVQCPALVFSGSAGLMHSLFEMQVVWAPRLANMRFASLPGGHFFVDRFPDDTARILREFLSDARS 3b1b-a1-m1-cA_3b1b-a1-m1-cB The unique structure of wild type carbonic anhydrase alpha-CA1 from Chlamydomonas reinhardtii P20507 P20507 1.88 X-RAY DIFFRACTION 90 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 310 312 CIYKFGTSPDSKATVSGDHWDHGLNGENWEGKDGAGNAWVCKTGRKQSPINVPQYQVLDGKGSKIANGLQTQWSYPDLMSNGTSVQVINNGHTIQVQWTYNYAGHATIAIPAMHNQTNRIVDVLEMRPNDAADRVTAVPTQFHFHSTSEHLLAGKIYPLELHIVHQVTEKLEACKGGCFSVTGILFQLDNGPDNELLEPIFANMPSREGTFSNLPAGTTIKLGELLPSDRDYVTYEGSLTTPPCSEGLLWHVMTQPQRISFGQWNRYRLAVGLKECNNPDAYTCKAVAFGQNFRNPQYANGRTIKLARYH CIYKFGTSPDSKATVSGDHWDHGLNGENWEGKDGAGNAWVCKTGRKQSPINVPQYQVLDGKGSKIANGLQTQWSYPDLMSNGTSVQVINNGHTIQVQWTYNYAGHATIAIPAMHNQTNRIVDVLEMRPNDAADRVTAVPTQFHFHSTSEHLLAGKIYPLELHIVHQVTEKLEACKGGCFSVTGILFQLDNGPDNELLEPIFANMPSREGTFSNLPAGTTIKLGELLPSDRDYVTYEGSLTTPPCSEGLLWHVMTQPQRISFGQWNRYRLAVGLKECNSTNPDAYTCKAVAFGQNFRNPQYANGRTIKLARYH 3b1d-a2-m1-cC_3b1d-a2-m1-cD Crystal structure of betaC-S lyase from Streptococcus anginosus in complex with L-serine: External aldimine form A6BMJ3 A6BMJ3 1.66 X-RAY DIFFRACTION 196 1.0 1328 (Streptococcus anginosus) 1328 (Streptococcus anginosus) 386 386 3b1c-a1-m1-cB_3b1c-a1-m1-cA 3b1c-a2-m1-cD_3b1c-a2-m1-cC 3b1d-a1-m1-cA_3b1d-a1-m1-cB 3b1e-a1-m1-cA_3b1e-a1-m1-cB 3b1e-a2-m1-cC_3b1e-a2-m1-cD KYNFQTAPNRLSHHTYKWKETETDPQLLPAWIADMDFEVMPEVKQAIHDYAEQLVYGYTYASDELLQAVLDWEKSEHQYSFDKEDIVFVEGVVPAISIAIQAFTKEGEAVLINSPVYPPFARSVRLNNRKLVSNSLKEENGLFQIDFEQLENDIVENDVKLYLLCNPHNPGGRVWEREVLEQIGHLCQKHHVILVSDEIHQDLTLFGHEHVSFNTVSPDFKDFALVLSSATKTFNIAGTKNSYAIIENPTLCAQFKHQQLVNNHHEVSSLGYIATETAYRYGKPWLVALKAVLEENIQFAVEYFAQEAPRLKVMKPQGTYLIWLDFSDYGLTDDALFTLLHDQAKVILNRGSDYGSEGELHARLNIAAPKSLVEEICKRIVCCLPK KYNFQTAPNRLSHHTYKWKETETDPQLLPAWIADMDFEVMPEVKQAIHDYAEQLVYGYTYASDELLQAVLDWEKSEHQYSFDKEDIVFVEGVVPAISIAIQAFTKEGEAVLINSPVYPPFARSVRLNNRKLVSNSLKEENGLFQIDFEQLENDIVENDVKLYLLCNPHNPGGRVWEREVLEQIGHLCQKHHVILVSDEIHQDLTLFGHEHVSFNTVSPDFKDFALVLSSATKTFNIAGTKNSYAIIENPTLCAQFKHQQLVNNHHEVSSLGYIATETAYRYGKPWLVALKAVLEENIQFAVEYFAQEAPRLKVMKPQGTYLIWLDFSDYGLTDDALFTLLHDQAKVILNRGSDYGSEGELHARLNIAAPKSLVEEICKRIVCCLPK 3b1f-a1-m1-cA_3b1f-a1-m2-cA Crystal structure of prephenate dehydrogenase from Streptococcus mutans Q8DUW0 Q8DUW0 2.1 X-RAY DIFFRACTION 201 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 279 279 AAAEEKTIYIAGLGLIGASLALGIKRDHPHYKIVGYNRSDRSRDIALERGIVDEATADFKVFAALADVIILAVPIKKTIDFIKILADLDLKEDVIITDAGSTKYEIVRAAEYYLKDKPVQFVGSHPASGAVAANVNLFENAYYIFSPSCLTKPNTIPALQDLLSGLHARYVEIDAAEHDCVTSQISHFPHIIASSLKQAGDFSESHETKHFAAGGFRDTRIAESEPGWTSILLTNQEAVLDRIENFKQRLDEVSNLIKARDENAIWAFFNQSRQIRKNE AAAEEKTIYIAGLGLIGASLALGIKRDHPHYKIVGYNRSDRSRDIALERGIVDEATADFKVFAALADVIILAVPIKKTIDFIKILADLDLKEDVIITDAGSTKYEIVRAAEYYLKDKPVQFVGSHPASGAVAANVNLFENAYYIFSPSCLTKPNTIPALQDLLSGLHARYVEIDAAEHDCVTSQISHFPHIIASSLKQAGDFSESHETKHFAAGGFRDTRIAESEPGWTSILLTNQEAVLDRIENFKQRLDEVSNLIKARDENAIWAFFNQSRQIRKNE 3b1o-a1-m1-cB_3b1o-a1-m1-cA Structure of Burkholderia thailandensis nucleoside kinase (BthNK) in ligand-free form Q2SZE4 Q2SZE4 2.1 X-RAY DIFFRACTION 107 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 303 313 ATLICGSIAYDNIMTFEGRFREHILPDQVHLINLSFLVPTMRREFGGCAGNIAYALNLLGGDARMMGTLGAVDAQPYLDRMDALGLSREYVRVLPDTYSAQAMITTDLDNNQITAFHPGAMMQSHVNHAGEAKDIKLAIVGPDGFQGMVQHTEELAQAGVPFIFDPGQGLPLFDGATLRRSIELATYIAVNDYEAKLVCDKTGWSEDEIASRVQALIITRGEHGATIRHRDGTEQIPAVRAERVIDPTGCGDAFRGGLLYGIEHGFDWATAGRLASLMGALKIAHQGPQTYAPTRAEIDARFE ATLICGSIAYDNIMTFEGRFREHILPDQVHLINLSFLVPTMRREFGGCAGNIAYALNLLGGDARMMGTLGAVDAQPYLDRMDALGLSREYVRVLPDTYSAQAMITTDLDNNQITAFHPGAMMQSHVNHAGEAKDIKLAIVGPDGFQGMVQHTEELAQAGVPFIFDPGQGLPLFDGATLRRSIELATYIAVNDYEAKLVCDKTGWSEDEIASRVQALIITRGEHGATIRHRDGTEQIPAVRAERVIDPTGCGDAFRGGLLYGIEHGFDWATAGRLASLMGALKIAHQGPQTYAPTRAEIDARFETAFGYRPKGS 3b1r-a2-m1-cB_3b1r-a2-m1-cE Structure of Burkholderia thailandensis nucleoside kinase (BthNK) in complex with AMP-Mg-AMP Q2SZE4 Q2SZE4 2 X-RAY DIFFRACTION 151 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 310 310 3b1n-a1-m1-cA_3b1n-a1-m1-cB 3b1p-a1-m1-cA_3b1p-a1-m2-cA 3b1q-a1-m1-cF_3b1q-a1-m1-cA 3b1q-a2-m1-cD_3b1q-a2-m1-cB 3b1q-a3-m1-cC_3b1q-a3-m1-cE 3b1r-a1-m1-cA_3b1r-a1-m1-cD 3b1r-a3-m1-cC_3b1r-a3-m1-cF ATLICGSIAYDNIMTFEGRFREHILPDQVHLINLSFLVPTMRREFGGCAGNIAYALNLLGGDARMMGTLGAVDAQPYLDRMDALGLSREYVRVLPDTYSAQAMITTDLDNNQITAFHPGAMMQSHVNHAGEAKDIKLAIVGPDGFQGMVQHTEELAQAGVPFIFDPGQGLPLFDGATLRRSIELATYIAVNDYEAKLVCDKTGWSEDEIASRVQALIITRGEHGATIRHRDGTEQIPAVRAERVIDPTGCGDAFRGGLLYGIEHGFDWATAGRLASLMGALKIAHQGPQTYAPTRAEIDARFETAFGYRP ATLICGSIAYDNIMTFEGRFREHILPDQVHLINLSFLVPTMRREFGGCAGNIAYALNLLGGDARMMGTLGAVDAQPYLDRMDALGLSREYVRVLPDTYSAQAMITTDLDNNQITAFHPGAMMQSHVNHAGEAKDIKLAIVGPDGFQGMVQHTEELAQAGVPFIFDPGQGLPLFDGATLRRSIELATYIAVNDYEAKLVCDKTGWSEDEIASRVQALIITRGEHGATIRHRDGTEQIPAVRAERVIDPTGCGDAFRGGLLYGIEHGFDWATAGRLASLMGALKIAHQGPQTYAPTRAEIDARFETAFGYRP 3b20-a1-m2-cA_3b20-a1-m2-cB Crystal structure of Glyceraldehyde-3-Phosphate Dehydrogenase complexed with NADfrom Synechococcus elongatus"" Q9R6W2 Q9R6W2 2.398 X-RAY DIFFRACTION 123 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 338 338 2d2i-a1-m1-cA_2d2i-a1-m1-cB 2d2i-a1-m2-cA_2d2i-a1-m2-cB 2d2i-a2-m1-cO_2d2i-a2-m1-cP 2d2i-a2-m1-cQ_2d2i-a2-m1-cR 2duu-a1-m1-cA_2duu-a1-m1-cB 2duu-a1-m2-cA_2duu-a1-m2-cB 2duu-a2-m1-cO_2duu-a2-m1-cP 2duu-a2-m1-cQ_2duu-a2-m1-cR 2duu-a3-m1-cA_2duu-a3-m1-cB 2duu-a4-m1-cO_2duu-a4-m1-cP 2duu-a5-m1-cQ_2duu-a5-m1-cR 3b1j-a1-m1-cA_3b1j-a1-m2-cA 3b1j-a1-m1-cB_3b1j-a1-m2-cB 3b1k-a1-m1-cA_3b1k-a1-m1-cG 3b1k-a1-m1-cB_3b1k-a1-m1-cH 3b20-a1-m1-cA_3b20-a1-m1-cB 3b20-a2-m1-cO_3b20-a2-m1-cP 3b20-a2-m1-cQ_3b20-a2-m1-cR MTIRVAINGFGRIGRNFLRCWFGRQNTDLEVVAINNTSDARTAAHLLEYDSVLGRFNADISYDENSITVNGKTMKIVCDRNPLNLPWKEWDIDLVIESTGVFVTAEGASKHIQAGAKKVLITAPGKGEGVGTYVIGVNDSEYRHEDFAVISNASCTTNCLAPVAKVLHDNFGIIKGTMTTTHSYTLDQRILDASHRDLRRARAAAVNIVPTTTGAAKAVALVIPELKGKLNGIALRVPTPNVSVVDLVVQVEKPTITEQVNEVLQKASQTTMKGIIKYSDLPLVSSDFRGTDESSIVDSSLTLVMDGDLVKVIAWYDNEWGYSQRVVDLAELAARKWA MTIRVAINGFGRIGRNFLRCWFGRQNTDLEVVAINNTSDARTAAHLLEYDSVLGRFNADISYDENSITVNGKTMKIVCDRNPLNLPWKEWDIDLVIESTGVFVTAEGASKHIQAGAKKVLITAPGKGEGVGTYVIGVNDSEYRHEDFAVISNASCTTNCLAPVAKVLHDNFGIIKGTMTTTHSYTLDQRILDASHRDLRRARAAAVNIVPTTTGAAKAVALVIPELKGKLNGIALRVPTPNVSVVDLVVQVEKPTITEQVNEVLQKASQTTMKGIIKYSDLPLVSSDFRGTDESSIVDSSLTLVMDGDLVKVIAWYDNEWGYSQRVVDLAELAARKWA 3b20-a2-m1-cO_3b20-a2-m1-cR Crystal structure of Glyceraldehyde-3-Phosphate Dehydrogenase complexed with NADfrom Synechococcus elongatus"" Q9R6W2 Q9R6W2 2.398 X-RAY DIFFRACTION 94 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 337 338 2d2i-a1-m1-cA_2d2i-a1-m2-cB 2d2i-a1-m1-cB_2d2i-a1-m2-cA 2d2i-a2-m1-cO_2d2i-a2-m1-cR 2d2i-a2-m1-cP_2d2i-a2-m1-cQ 2duu-a1-m1-cA_2duu-a1-m2-cB 2duu-a1-m1-cB_2duu-a1-m2-cA 2duu-a2-m1-cO_2duu-a2-m1-cR 2duu-a2-m1-cP_2duu-a2-m1-cQ 3b1j-a1-m1-cA_3b1j-a1-m2-cB 3b1j-a1-m1-cB_3b1j-a1-m2-cA 3b1k-a1-m1-cA_3b1k-a1-m1-cH 3b1k-a1-m1-cB_3b1k-a1-m1-cG 3b20-a1-m1-cA_3b20-a1-m2-cB 3b20-a1-m1-cB_3b20-a1-m2-cA 3b20-a2-m1-cP_3b20-a2-m1-cQ TIRVAINGFGRIGRNFLRCWFGRQNTDLEVVAINNTSDARTAAHLLEYDSVLGRFNADISYDENSITVNGKTMKIVCDRNPLNLPWKEWDIDLVIESTGVFVTAEGASKHIQAGAKKVLITAPGKGEGVGTYVIGVNDSEYRHEDFAVISNASCTTNCLAPVAKVLHDNFGIIKGTMTTTHSYTLDQRILDASHRDLRRARAAAVNIVPTTTGAAKAVALVIPELKGKLNGIALRVPTPNVSVVDLVVQVEKPTITEQVNEVLQKASQTTMKGIIKYSDLPLVSSDFRGTDESSIVDSSLTLVMDGDLVKVIAWYDNEWGYSQRVVDLAELAARKWA MTIRVAINGFGRIGRNFLRCWFGRQNTDLEVVAINNTSDARTAAHLLEYDSVLGRFNADISYDENSITVNGKTMKIVCDRNPLNLPWKEWDIDLVIESTGVFVTAEGASKHIQAGAKKVLITAPGKGEGVGTYVIGVNDSEYRHEDFAVISNASCTTNCLAPVAKVLHDNFGIIKGTMTTTHSYTLDQRILDASHRDLRRARAAAVNIVPTTTGAAKAVALVIPELKGKLNGIALRVPTPNVSVVDLVVQVEKPTITEQVNEVLQKASQTTMKGIIKYSDLPLVSSDFRGTDESSIVDSSLTLVMDGDLVKVIAWYDNEWGYSQRVVDLAELAARKWA 3b2c-a2-m1-cD_3b2c-a2-m1-cE Crystal structure of the collagen triple helix model [{PRO-HYP(R)-GLY}4-{HYP(S)-Pro-GLY}2-{PRO-HYP(R)-GLY}4]3 Q80BK4 Q80BK4 1.36 X-RAY DIFFRACTION 45 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 20 20 3b2c-a1-m1-cA_3b2c-a1-m1-cB 3b2c-a1-m1-cB_3b2c-a1-m1-cC 3b2c-a2-m1-cE_3b2c-a2-m1-cF 3b2c-a3-m1-cG_3b2c-a3-m1-cH 3b2c-a3-m1-cH_3b2c-a3-m1-cI PGPGPGPGPGPGPGPGPGPG PGPGPGPGPGPGPGPGPGPG 3b2c-a3-m1-cG_3b2c-a3-m1-cI Crystal structure of the collagen triple helix model [{PRO-HYP(R)-GLY}4-{HYP(S)-Pro-GLY}2-{PRO-HYP(R)-GLY}4]3 Q80BK4 Q80BK4 1.36 X-RAY DIFFRACTION 47 1.0 10381 (Saimiriine gammaherpesvirus 2) 10381 (Saimiriine gammaherpesvirus 2) 20 20 3b2c-a1-m1-cA_3b2c-a1-m1-cC 3b2c-a2-m1-cD_3b2c-a2-m1-cF PGPGPGPGPGPGPGPGPGPG PGPGPGPGPGPGPGPGPGPG 3b2d-a1-m1-cA_3b2d-a1-m1-cB Crystal structure of human RP105/MD-1 complex Q99467 Q99467 2.8 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 601 601 QMCIEKEANKTYNCENLGLSEIPDTLPNTTEFLEFSFNFLPTIHNRTFSRLMNLTFLDLTRCQINWIHEDTFQSHHQLSTLVLTGNPLIFMAETSLNGPKSLKHLFLIQTGISNLEFIPVHNLENLESLYLGSNHISSIKFPKDFPARNLKVLDFQNNAIHYISREDMRSLEQAINLSLNFNGNNVKGIELGAFDSTIFQSLNFGGTPNLSVIFNGLQNSTTQSLWLGTFEDIDDEDISSAMLKGLCEMSVESLNLQEHRFSDISSTTFQCFTQLQELDLTATHLKGLPSGMKGLNLLKKLVLSVNHFDQLCQISAANFPSLTHLYIRGNVKKLHLGVGCLEKLGNLQTLDLSHNDIEASDCCSLQLKNLSHLQTLNLSHNEPLGLQSQAFKECPQLELLDLAFTRLHINAPQSPFQNLHFLQVLNLTYCFLDTSNQHLLAGLPVLRHLNLKGNHFQDGTITKTNLLQTVGSLEVLILSSCGLLSIDQQAFHSLGKMSHVDLSHNSLTCDSIDSLSHLKGIYLNLAANSINIISPRLLPILSQQSTINLSHNPLDCTCSNIHFLTWYKENLHKLEGSEETTCANPPSLRGVKLSDVKLSCG QMCIEKEANKTYNCENLGLSEIPDTLPNTTEFLEFSFNFLPTIHNRTFSRLMNLTFLDLTRCQINWIHEDTFQSHHQLSTLVLTGNPLIFMAETSLNGPKSLKHLFLIQTGISNLEFIPVHNLENLESLYLGSNHISSIKFPKDFPARNLKVLDFQNNAIHYISREDMRSLEQAINLSLNFNGNNVKGIELGAFDSTIFQSLNFGGTPNLSVIFNGLQNSTTQSLWLGTFEDIDDEDISSAMLKGLCEMSVESLNLQEHRFSDISSTTFQCFTQLQELDLTATHLKGLPSGMKGLNLLKKLVLSVNHFDQLCQISAANFPSLTHLYIRGNVKKLHLGVGCLEKLGNLQTLDLSHNDIEASDCCSLQLKNLSHLQTLNLSHNEPLGLQSQAFKECPQLELLDLAFTRLHINAPQSPFQNLHFLQVLNLTYCFLDTSNQHLLAGLPVLRHLNLKGNHFQDGTITKTNLLQTVGSLEVLILSSCGLLSIDQQAFHSLGKMSHVDLSHNSLTCDSIDSLSHLKGIYLNLAANSINIISPRLLPILSQQSTINLSHNPLDCTCSNIHFLTWYKENLHKLEGSEETTCANPPSLRGVKLSDVKLSCG 3b2e-a1-m1-cA_3b2e-a1-m1-cB Crystal structure of S. cerevisiae Get3 in the open conformation in complex with Get1 cytosolic domain Q12154 Q12154 3 X-RAY DIFFRACTION 42 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 307 325 3sjb-a1-m1-cA_3sjb-a1-m1-cB LTVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMNDLADLTGSIPGIDEALSFMEVMKHIKRQEQDEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGGNVDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE TVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMNDMGALADLTGSIPGIDEALSFMEVMKHIKRQEQDEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGAGNVDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 3b32-a2-m1-cA_3b32-a2-m2-cA Crystal Structure of Calcium-Saturated Calmodulin N-Terminal Domain Fragment, Residues 1-75 P0DP29 P0DP29 1.6 X-RAY DIFFRACTION 40 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 74 74 DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARK DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARK 3b33-a1-m1-cA_3b33-a1-m2-cA Crystal structure of the PAS domain of nitrogen regulation protein NR(II) from Vibrio parahaemolyticus Q87TF0 Q87TF0 1.83 X-RAY DIFFRACTION 63 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 105 105 TSLPSAILNNVTATLILDDGLAIRYANPAAELLFSQSAKRIVEQSLSQLIQHASLDLALLTQPLQSGQSITDSDVTFVVDGRPLLEVTVSPITWQRQLLLVERKI TSLPSAILNNVTATLILDDGLAIRYANPAAELLFSQSAKRIVEQSLSQLIQHASLDLALLTQPLQSGQSITDSDVTFVVDGRPLLEVTVSPITWQRQLLLVERKI 3b42-a1-m1-cA_3b42-a1-m1-cB Periplasmic sensor domain of chemotaxis protein GSU0935 Q74EM7 Q74EM7 1.9 X-RAY DIFFRACTION 151 0.992 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 126 129 SSLDLQLKNARNLAGLIIHDIDGYMMKGDSSEVDRFISAVKSKNFIMDLRVFDEQAKEVSPTPSQTPNAKIQQAIAAGRTLEFKETLDGKRTLSLVLPFPNEQRCQSCHDAGAAYLGGLLVTTSIE SLDLQLKNARNLAGLIIHDIDGYMMKGDSSEVDRFISAVKSKNFIMDLRVFDEQAKEVSPTPSQTPNAKIQQAIAAGRTLEFKETLDGKRTLSLVLPFPNEQRCQSCHDAGAAYLGGLLVTTSIEEGYE 3b46-a1-m1-cA_3b46-a1-m1-cB Crystal Structure of Bna3p, a Putative Kynurenine Aminotransferase from Saccharomyces cerevisiae P47039 P47039 2 X-RAY DIFFRACTION 186 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 423 424 PKVVANKYFTSNTAKDVWSLTNEAAAKAANNQGRELINLGQGFFSYSPPQFAIKEAQKALDIPMVNQYSPTRGRPSLINSLIKLYSPIYNTELKAENVTVTTGANEGILSCLMGLLNAGDEVIVFEPFFDQYIPNIELCGGKVVYVPINPPKELDQRNTRGEEWTIDFEQFEKAITSKTKAVIINTPHNPIGKVFTREELTTLGNICVKHNVVIISDEVYEHLYFTDSFTRIATLSPEIGQLTLTVGSAGSFAATGWRIGWVLSLNAELLSYAAKAHTRICFASPSPLQEACANSINDALKIGYFEKMRQEYINKFKIFTSIFDELGLPYTAPEGTYFVLVDFSKVKIPEDYPYPEEILNKGKDFRISHWLINELGVVAIPPTEFYIKEHEKAAENLLRFAVCKDDAYLENAVERLKLLKDYL PKVVANKYFTSNTAKDVWSLTNEAAAKAANNNQGRELINLGQGFFSYSPPQFAIKEAQKALDIPMVNQYSPTRGRPSLINSLIKLYSPIYNTELKAENVTVTTGANEGILSCLMGLLNAGDEVIVFEPFFDQYIPNIELCGGKVVYVPINPPKELDQRNTRGEEWTIDFEQFEKAITSKTKAVIINTPHNPIGKVFTREELTTLGNICVKHNVVIISDEVYEHLYFTDSFTRIATLSPEIGQLTLTVGSAGSFAATGWRIGWVLSLNAELLSYAAKAHTRICFASPSPLQEACANSINDALKIGYFEKMRQEYINKFKIFTSIFDELGLPYTAPEGTYFVLVDFSKVKIPEDYPYPEEILNKGKDFRISHWLINELGVVAIPPTEFYIKEHEKAAENLLRFAVCKDDAYLENAVERLKLLKDYL 3b47-a1-m1-cA_3b47-a1-m2-cA Periplasmic sensor domain of chemotaxis protein GSU0582 Q74FM4 Q74FM4 2 X-RAY DIFFRACTION 179 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 121 121 IMDLQTRNTRGLSTLVVRDIGELMMAGDMAVIERYVADVRGKGAVLDLRIYDAAGRPAAPDGEVQAALTSGATAEKRHKRHVLSFIVPLANEVRCQSCHEQGARFNGAMLLTTSLEEGYAG IMDLQTRNTRGLSTLVVRDIGELMMAGDMAVIERYVADVRGKGAVLDLRIYDAAGRPAAPDGEVQAALTSGATAEKRHKRHVLSFIVPLANEVRCQSCHEQGARFNGAMLLTTSLEEGYAG 3b48-a3-m1-cE_3b48-a3-m1-cF Crystal structure of unknown function protein EF1359 Q835L8 Q835L8 2.21 X-RAY DIFFRACTION 76 0.992 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 124 129 3b48-a1-m1-cA_3b48-a1-m1-cB 3b48-a2-m1-cD_3b48-a2-m1-cC AKADILLVSHSKITDGIKEIEQNSEITIHSLGGTSDGSLGSDPKIIDTINEADSDREFLIFADLGSAVLSSELAFDLEEDQQKHYHLVDAPLVEGAFASAITAGVSDDLTQILAEAQNAGKKGW SNAKADILLVSHSKITDGIKEIEQNASEEITIHSLGGTSDGSLGSDPKIIDTINEADSDREFLIFADLGSAVLSSELAFDLEEDQQKHYHLVDAPLVEGAFASAITAGVSDDLTQILAEAQNAGKKGWN 3b4d-a1-m1-cA_3b4d-a1-m2-cA Crystal Structure of Human PABPN1 RRM Q86U42 Q86U42 2.001 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 80 3b4m-a1-m1-cA_3b4m-a1-m1-cB 3b4m-a2-m1-cD_3b4m-a2-m1-cC 3ucg-a1-m1-cA_3ucg-a1-m2-cA ADARSIYVGNVDYGATAEELEAHFHGCGSVNRVTILCDKFSGHPKGFAYIEFSDKESVRTSLALDESLFRGRQIKVIPKR ADARSIYVGNVDYGATAEELEAHFHGCGSVNRVTILCDKFSGHPKGFAYIEFSDKESVRTSLALDESLFRGRQIKVIPKR 3b4r-a1-m1-cB_3b4r-a1-m1-cA Site-2 Protease from Methanocaldococcus jannaschii Q57837 Q57837 3.3 X-RAY DIFFRACTION 66 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 216 218 YSIRLFKIMGIPIELHITFILFLVVIIGLSIMNNSIFWAVLFILLFVSVVLHELGHSYVAKKYGVKIEKILLLPIGGVAMMDKIPKEGELRIGIAGPLVSFIIGIVLLIVSQFFDININGYPLLYTLSLLNLMLGGFNLIPAFPMDGGRILRAILSKKYGYLKSTKIAANIGKSLALIMLLFGLLSMNIILILVSLFVYFGAEQESRVVEVETIFK YSIRLFKIMGIPIELHITFILFLVVIIGLSIMNNSIFWAVLFILLFVSVVLHELGHSYVAKKYGVKIEKILLLPIGGVAMMDKIPKEGELRIGIAGPLVSFIIGIVLLIVSQFFDININGYPLLYTLSLLNLMLGGFNLIPAFPMDGGRILRAILSKKYGYLKSTKIAANIGKSLALIMLLFGLLSMNIILILVSLFVYFGAEQESRVVEVETIFKNI 3b4s-a1-m2-cA_3b4s-a1-m3-cA Crystal structure of a LuxT domain from Vibrio parahaemolyticus RIMD 2210633 Q87J33 Q87J33 3.1 X-RAY DIFFRACTION 45 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 89 89 3b4s-a1-m1-cA_3b4s-a1-m2-cA 3b4s-a1-m1-cA_3b4s-a1-m3-cA 3b4s-a2-m1-cE_3b4s-a2-m1-cC 3b4s-a2-m1-cE_3b4s-a2-m1-cG 3b4s-a2-m1-cG_3b4s-a2-m1-cC ADGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK ADGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK 3b4s-a1-m2-cB_3b4s-a1-m3-cB Crystal structure of a LuxT domain from Vibrio parahaemolyticus RIMD 2210633 Q87J33 Q87J33 3.1 X-RAY DIFFRACTION 60 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 88 88 3b4s-a1-m1-cB_3b4s-a1-m2-cB 3b4s-a1-m1-cB_3b4s-a1-m3-cB 3b4s-a2-m1-cD_3b4s-a2-m1-cF 3b4s-a2-m1-cD_3b4s-a2-m1-cH 3b4s-a2-m1-cF_3b4s-a2-m1-cH DGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK DGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK 3b4s-a1-m3-cB_3b4s-a1-m2-cA Crystal structure of a LuxT domain from Vibrio parahaemolyticus RIMD 2210633 Q87J33 Q87J33 3.1 X-RAY DIFFRACTION 29 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 88 89 3b4s-a1-m1-cB_3b4s-a1-m3-cA 3b4s-a1-m2-cB_3b4s-a1-m1-cA 3b4s-a2-m1-cD_3b4s-a2-m1-cE 3b4s-a2-m1-cF_3b4s-a2-m1-cG 3b4s-a2-m1-cH_3b4s-a2-m1-cC DGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK ADGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK 3b4s-a1-m3-cB_3b4s-a1-m3-cA Crystal structure of a LuxT domain from Vibrio parahaemolyticus RIMD 2210633 Q87J33 Q87J33 3.1 X-RAY DIFFRACTION 75 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 88 89 3b4s-a1-m1-cB_3b4s-a1-m1-cA 3b4s-a1-m2-cB_3b4s-a1-m2-cA 3b4s-a2-m1-cD_3b4s-a2-m1-cC 3b4s-a2-m1-cF_3b4s-a2-m1-cE 3b4s-a2-m1-cH_3b4s-a2-m1-cG DGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK ADGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK 3b4s-a2-m1-cH_3b4s-a2-m1-cE Crystal structure of a LuxT domain from Vibrio parahaemolyticus RIMD 2210633 Q87J33 Q87J33 3.1 X-RAY DIFFRACTION 10 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 87 88 3b4s-a2-m1-cF_3b4s-a2-m1-cC GRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK DGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK 3b4t-a1-m1-cB_3b4t-a1-m1-cF Crystal structure of Mycobacterium tuberculosis RNase PH, the Mycobacterium tuberculosis Structural Genomics Consortium target Rv1340 P9WGZ7 P9WGZ7 2.1 X-RAY DIFFRACTION 101 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 239 240 3b4t-a1-m1-cC_3b4t-a1-m1-cA 3b4t-a1-m1-cD_3b4t-a1-m1-cE KREDGRLDHELRPVIITRGFTENPAGSVLIEFGHTKVLCTASVTEGVPLGWLTAEYAMLPSATHSRSDRESVRGRLSGRTQEISRLIGRSLRACIDLAALGENTIAIDCDVLQADGGTRTAAITGAYVALADAVTYLSAAGKLSDPRPLSCAIAAVSVGVVDGRIRVDLPYEEDSRAEVDMNVVATDTGTLVEIQGTGEGATFARSTLDKLLDMALGACDTLFAAQRDALALPYPGVLP SKREDGRLDHELRPVIITRGFTENPAGSVLIEFGHTKVLCTASVTEGVPLGWLTAEYAMLPSATHSRSDRESVRGRLSGRTQEISRLIGRSLRACIDLAALGENTIAIDCDVLQADGGTRTAAITGAYVALADAVTYLSAAGKLSDPRPLSCAIAAVSVGVVDGRIRVDLPYEEDSRAEVDMNVVATDTGTLVEIQGTGEGATFARSTLDKLLDMALGACDTLFAAQRDALALPYPGVLP 3b4t-a1-m1-cE_3b4t-a1-m1-cF Crystal structure of Mycobacterium tuberculosis RNase PH, the Mycobacterium tuberculosis Structural Genomics Consortium target Rv1340 P9WGZ7 P9WGZ7 2.1 X-RAY DIFFRACTION 87 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 240 240 3b4t-a1-m1-cB_3b4t-a1-m1-cA 3b4t-a1-m1-cD_3b4t-a1-m1-cC SKREDGRLDHELRPVIITRGFTENPAGSVLIEFGHTKVLCTASVTEGVPLGWLTAEYAMLPSATHSRSDRESVRGRLSGRTQEISRLIGRSLRACIDLAALGENTIAIDCDVLQADGGTRTAAITGAYVALADAVTYLSAAGKLSDPRPLSCAIAAVSVGVVDGRIRVDLPYEEDSRAEVDMNVVATDTGTLVEIQGTGEGATFARSTLDKLLDMALGACDTLFAAQRDALALPYPGVLP SKREDGRLDHELRPVIITRGFTENPAGSVLIEFGHTKVLCTASVTEGVPLGWLTAEYAMLPSATHSRSDRESVRGRLSGRTQEISRLIGRSLRACIDLAALGENTIAIDCDVLQADGGTRTAAITGAYVALADAVTYLSAAGKLSDPRPLSCAIAAVSVGVVDGRIRVDLPYEEDSRAEVDMNVVATDTGTLVEIQGTGEGATFARSTLDKLLDMALGACDTLFAAQRDALALPYPGVLP 3b4u-a1-m1-cA_3b4u-a1-m1-cB Crystal structure of dihydrodipicolinate synthase from Agrobacterium tumefaciens str. C58 A9CHR2 A9CHR2 1.2 X-RAY DIFFRACTION 124 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 287 288 KFGLSAALTTPFKTDGTVDIDAMIAHARRCLSNGCDSVTLFGTTGEGCSVGSRERQAILSSFIAAGIAPSRIVTGVLVDSIEDAADQSAEALNAGARNILLAPPSYFKNVSDDGLFAWFSAVFSKIGKDARDILVYNIPSVTMVTLSVELVGRLKAAFPGIVTGVKDSSGNWSHTERLLKEHGDLAILIGDERDLARGVRLGGQGAISGVANFLTQEVRAMAVDGKDDPRIVDLVVELLKFPVTPAVKVLVSHTTGETIWSDVRAPLVAISPEDRRQIEGAFDALFR QKFGLSAALTTPFKTDGTVDIDAMIAHARRCLSNGCDSVTLFGTTGEGCSVGSRERQAILSSFIAAGIAPSRIVTGVLVDSIEDAADQSAEALNAGARNILLAPPSYFKNVSDDGLFAWFSAVFSKIGKDARDILVYNIPSVTMVTLSVELVGRLKAAFPGIVTGVKDSSGNWSHTERLLKEHGDLAILIGDERDLARGVRLGGQGAISGVANFLTQEVRAMAVDGKDDPRIVDLVVELLKFPVTPAVKVLVSHTTGETIWSDVRAPLVAISPEDRRQIEGAFDALFR 3b4w-a1-m1-cA_3b4w-a1-m2-cA Crystal structure of Mycobacterium tuberculosis aldehyde dehydrogenase complexed with NAD+ P96405 P96405 1.8 X-RAY DIFFRACTION 186 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 483 483 SATEYDKLFIGGKWTKPSTSDVIEVRCPATGEYVGKVPMAAAADVDAAVAAARAAFDNGPWPSTPPHERAAVIAAAVKMLAERKDLFTKLLAAETGQPPTIIETMHWMGSMGAMNYFAGAADKVTWTETRTGSYGQSIVSREPVGVVGAIVAWNVPLFLAVNKIAPALLAGCTIVLKPAAETPLTANALAEVFAEVGLPEGVLSVVPGGIETGQALTSNPDIDMFTFTGSSAVGREVGRRAAEMLKPCTLELGGKSAAIILEDVDLAAAIPMMVFSGVMNAGQGCVNQTRILAPRSRYDEIVAAVTNFVTALPVGPPSDPAAQIGPLISEKQRTRVEGYIAKGIEEGARLVCGGGRPEGLDNGFFIQPTVFADVDNKMTIAQEEIFGPVLAIIPYDTEEDAIAIANDSVYGLAGSVWTTDVPKGIKISQQIRTGTYGINWYAFDPGSPFGGYKNSGIGRENGPEGVEHFTQQKSVLLPMGYTV SATEYDKLFIGGKWTKPSTSDVIEVRCPATGEYVGKVPMAAAADVDAAVAAARAAFDNGPWPSTPPHERAAVIAAAVKMLAERKDLFTKLLAAETGQPPTIIETMHWMGSMGAMNYFAGAADKVTWTETRTGSYGQSIVSREPVGVVGAIVAWNVPLFLAVNKIAPALLAGCTIVLKPAAETPLTANALAEVFAEVGLPEGVLSVVPGGIETGQALTSNPDIDMFTFTGSSAVGREVGRRAAEMLKPCTLELGGKSAAIILEDVDLAAAIPMMVFSGVMNAGQGCVNQTRILAPRSRYDEIVAAVTNFVTALPVGPPSDPAAQIGPLISEKQRTRVEGYIAKGIEEGARLVCGGGRPEGLDNGFFIQPTVFADVDNKMTIAQEEIFGPVLAIIPYDTEEDAIAIANDSVYGLAGSVWTTDVPKGIKISQQIRTGTYGINWYAFDPGSPFGGYKNSGIGRENGPEGVEHFTQQKSVLLPMGYTV 3b54-a1-m2-cB_3b54-a1-m3-cB Saccharomyces cerevisiae nucleoside diphosphate kinase P36010 P36010 3.1 X-RAY DIFFRACTION 52 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 145 145 3b54-a1-m1-cA_3b54-a1-m2-cA 3b54-a1-m1-cA_3b54-a1-m3-cA 3b54-a1-m1-cB_3b54-a1-m2-cB 3b54-a1-m1-cB_3b54-a1-m3-cB 3b54-a1-m2-cA_3b54-a1-m3-cA SSQTERTFIAVKPDGVQRGLVSQILSRFEKKGYKLVAIKLVKADDKLLEQHYAFPKMVSFMKSGPILATVWEGKDVVRQGRTILGATNPLGSAPGTIRGDFGIDLGRNVCHGSDSVDSAEREINLWFKKEELVDWESNQAKWIYE SSQTERTFIAVKPDGVQRGLVSQILSRFEKKGYKLVAIKLVKADDKLLEQHYAFPKMVSFMKSGPILATVWEGKDVVRQGRTILGATNPLGSAPGTIRGDFGIDLGRNVCHGSDSVDSAEREINLWFKKEELVDWESNQAKWIYE 3b54-a1-m3-cA_3b54-a1-m3-cB Saccharomyces cerevisiae nucleoside diphosphate kinase P36010 P36010 3.1 X-RAY DIFFRACTION 74 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 145 145 3b54-a1-m1-cA_3b54-a1-m1-cB 3b54-a1-m2-cA_3b54-a1-m2-cB SSQTERTFIAVKPDGVQRGLVSQILSRFEKKGYKLVAIKLVKADDKLLEQHYAFPKMVSFMKSGPILATVWEGKDVVRQGRTILGATNPLGSAPGTIRGDFGIDLGRNVCHGSDSVDSAEREINLWFKKEELVDWESNQAKWIYE SSQTERTFIAVKPDGVQRGLVSQILSRFEKKGYKLVAIKLVKADDKLLEQHYAFPKMVSFMKSGPILATVWEGKDVVRQGRTILGATNPLGSAPGTIRGDFGIDLGRNVCHGSDSVDSAEREINLWFKKEELVDWESNQAKWIYE 3b57-a1-m1-cA_3b57-a1-m2-cA Crystal structure of the Lin1889 protein (Q92AN1) from Listeria innocua. Northeast Structural Consortium target LkR65 Q92AN1 Q92AN1 3 X-RAY DIFFRACTION 109 1.0 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 176 176 NKEEIILSAKNWHSHFHDWSHIKRVWKLSKEIQSKEGGDLFTIELAALFHDYSDQEATKTLINWETKEIPSELIKKIIRIIQSVSALTIEEKIVQDADRLDAIGAIGIARTFTYGGAHNREIANQNPKNTTLQHFYDKLLLIKDQLNTETAKTIAKEKQKIQDFIQALEKELKVLE NKEEIILSAKNWHSHFHDWSHIKRVWKLSKEIQSKEGGDLFTIELAALFHDYSDQEATKTLINWETKEIPSELIKKIIRIIQSVSALTIEEKIVQDADRLDAIGAIGIARTFTYGGAHNREIANQNPKNTTLQHFYDKLLLIKDQLNTETAKTIAKEKQKIQDFIQALEKELKVLE 3b59-a1-m1-cC_3b59-a1-m1-cF Crystal structure of the Mn(II)-bound glyoxalase from Novosphingobium aromaticivorans Q2GAG3 Q2GAG3 2.53 X-RAY DIFFRACTION 12 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 294 294 3b59-a1-m1-cA_3b59-a1-m1-cD 3b59-a1-m1-cA_3b59-a1-m1-cE 3b59-a1-m1-cB_3b59-a1-m1-cF 3b59-a1-m1-cD_3b59-a1-m1-cE LSRVTEIRYVGYGVKDFDAEKAFYADVWGLEPVGEDANNAWFKAQGADEHHVVQLRRADENRIDVIALAADSRSDVDALRASVEAAGCKVASEPAVLATPGGGYGFRFFSPDGLLFEVSSDVAKGAKRDLARWEGVPVKISHIVLHSPNHQDVKFFTDVLGFKVSDWLGDFCFLRCNSAHHRIAILPGPPCLNHVAYDLSVDDRGAHRLKVKGIDIGWGPGRHTAGNNTFSYFVTPGGFVTEYTSELEEVDFDTHQYKVHVPAPVDQWGIGTGGPQTLPHPHANPGLFQTAEAE LSRVTEIRYVGYGVKDFDAEKAFYADVWGLEPVGEDANNAWFKAQGADEHHVVQLRRADENRIDVIALAADSRSDVDALRASVEAAGCKVASEPAVLATPGGGYGFRFFSPDGLLFEVSSDVAKGAKRDLARWEGVPVKISHIVLHSPNHQDVKFFTDVLGFKVSDWLGDFCFLRCNSAHHRIAILPGPPCLNHVAYDLSVDDRGAHRLKVKGIDIGWGPGRHTAGNNTFSYFVTPGGFVTEYTSELEEVDFDTHQYKVHVPAPVDQWGIGTGGPQTLPHPHANPGLFQTAEAE 3b59-a1-m1-cD_3b59-a1-m1-cF Crystal structure of the Mn(II)-bound glyoxalase from Novosphingobium aromaticivorans Q2GAG3 Q2GAG3 2.53 X-RAY DIFFRACTION 43 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 294 294 3b59-a1-m1-cA_3b59-a1-m1-cC 3b59-a1-m1-cB_3b59-a1-m1-cE LSRVTEIRYVGYGVKDFDAEKAFYADVWGLEPVGEDANNAWFKAQGADEHHVVQLRRADENRIDVIALAADSRSDVDALRASVEAAGCKVASEPAVLATPGGGYGFRFFSPDGLLFEVSSDVAKGAKRDLARWEGVPVKISHIVLHSPNHQDVKFFTDVLGFKVSDWLGDFCFLRCNSAHHRIAILPGPPCLNHVAYDLSVDDRGAHRLKVKGIDIGWGPGRHTAGNNTFSYFVTPGGFVTEYTSELEEVDFDTHQYKVHVPAPVDQWGIGTGGPQTLPHPHANPGLFQTAEAE LSRVTEIRYVGYGVKDFDAEKAFYADVWGLEPVGEDANNAWFKAQGADEHHVVQLRRADENRIDVIALAADSRSDVDALRASVEAAGCKVASEPAVLATPGGGYGFRFFSPDGLLFEVSSDVAKGAKRDLARWEGVPVKISHIVLHSPNHQDVKFFTDVLGFKVSDWLGDFCFLRCNSAHHRIAILPGPPCLNHVAYDLSVDDRGAHRLKVKGIDIGWGPGRHTAGNNTFSYFVTPGGFVTEYTSELEEVDFDTHQYKVHVPAPVDQWGIGTGGPQTLPHPHANPGLFQTAEAE 3b59-a1-m1-cE_3b59-a1-m1-cF Crystal structure of the Mn(II)-bound glyoxalase from Novosphingobium aromaticivorans Q2GAG3 Q2GAG3 2.53 X-RAY DIFFRACTION 28 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 294 294 3b59-a1-m1-cA_3b59-a1-m1-cB 3b59-a1-m1-cC_3b59-a1-m1-cD LSRVTEIRYVGYGVKDFDAEKAFYADVWGLEPVGEDANNAWFKAQGADEHHVVQLRRADENRIDVIALAADSRSDVDALRASVEAAGCKVASEPAVLATPGGGYGFRFFSPDGLLFEVSSDVAKGAKRDLARWEGVPVKISHIVLHSPNHQDVKFFTDVLGFKVSDWLGDFCFLRCNSAHHRIAILPGPPCLNHVAYDLSVDDRGAHRLKVKGIDIGWGPGRHTAGNNTFSYFVTPGGFVTEYTSELEEVDFDTHQYKVHVPAPVDQWGIGTGGPQTLPHPHANPGLFQTAEAE LSRVTEIRYVGYGVKDFDAEKAFYADVWGLEPVGEDANNAWFKAQGADEHHVVQLRRADENRIDVIALAADSRSDVDALRASVEAAGCKVASEPAVLATPGGGYGFRFFSPDGLLFEVSSDVAKGAKRDLARWEGVPVKISHIVLHSPNHQDVKFFTDVLGFKVSDWLGDFCFLRCNSAHHRIAILPGPPCLNHVAYDLSVDDRGAHRLKVKGIDIGWGPGRHTAGNNTFSYFVTPGGFVTEYTSELEEVDFDTHQYKVHVPAPVDQWGIGTGGPQTLPHPHANPGLFQTAEAE 3b5i-a1-m1-cB_3b5i-a1-m1-cA Crystal structure of Indole-3-acetic Acid Methyltransferase Q9FLN8 Q9FLN8 2.75 X-RAY DIFFRACTION 66 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 340 344 AMHARSMLHLLEETLENVHLNSSASPPPFTAVDLGCSSGANTVHIIDFIVKHISKRFDAAGIDPPEFTAFFSDLPSNDFNTLFQLLPPLVSNDGNRSYFVAGVPGSFYRRLFPARTIDFFHSAFSLHWLSQVPESVTDRRSAAYNRGRVFIHGAGEKTTTAYKRQFQADLAEFLRARAAEVKRGGAMFLVCLGRTSVDPTDQGGAGLLFGTHFQDAWDDLVREGLVAAEKRDGFNIPVYAPSLQDFKEVVDANGSFAIDKLVVYKGGSPLVVNEPDDASEVGRAFASSCRSVAGVLVEAHIGEELSNKLFSRVESRATSHAKDVLVNLQFFHIVASLSFT AMHARSMLHLLEETLENVHLNSSASPPPFTAVDLGCSSGANTVHIIDFIVKHISKRFDAAGIDPPEFTAFFSDLPSNDFNTLFQLLPPLVSNTEECDGNRSYFVAGVPGSFYRRLFPARTIDFFHSAFSLHWLSQVPESVTDRRSAAYNRGRVFIHGAGEKTTTAYKRQFQADLAEFLRARAAEVKRGGAMFLVCLGRTSVDPTDQGGAGLLFGTHFQDAWDDLVREGLVAAEKRDGFNIPVYAPSLQDFKEVVDANGSFAIDKLVVYKGGSPLVVNEPDDASEVGRAFASSCRSVAGVLVEAHIGEELSNKLFSRVESRATSHAKDVLVNLQFFHIVASLSFT 3b5k-a1-m1-cA_3b5k-a1-m1-cB Crystal structure of murine interleukin-5 P04401 P04401 2.5 X-RAY DIFFRACTION 179 0.99 10090 (Mus musculus) 10090 (Mus musculus) 105 106 TSTVVKETLTQLSAHRALLTSNETLRLPVPTHKNHQLCIGEIFQGLDILKNQTVRGGTVERLFQNLSLIKKYIDRQKEKCGEERRRTRQFLDYLQEFLGVLSTEW IPTSTVVKETLTQLSAHRALLTSNETLRLPVPTHKNHQLCIGEIFQGLDILKNQTVRGGTVERLFQNLSLIKKYIDRQKEKCGEERRRTRQFLDYLQEFLGVLSTE 3b5m-a2-m1-cC_3b5m-a2-m1-cD Crystal structure of conserved uncharacterized protein from Rhodopirellula baltica Q7UTD8 Q7UTD8 1.21 X-RAY DIFFRACTION 102 1.0 243090 (Rhodopirellula baltica SH 1) 243090 (Rhodopirellula baltica SH 1) 192 195 3b5m-a1-m1-cA_3b5m-a1-m1-cB SLILESLVTTLDEQGRINLAPLGPIVLPPQSPGGLPQFLLRPYEGSTTCDNLLASGNAVIHVIDDALLIAKTAIGKVDASDLVVPIPGLEDTHVRLKRCHRWFAVRVTQRAGTPPRHELTARCLASGLVDPFFGFNRAKHAVIEAAVAATRLHLLPPEEIEEELERARIAIEKTGGEPEREALQLIRRHVRE SLILESLVTTLDEQGRINLAPLGPIVLPPQSPGGLPQFLLRPYEGSTTCDNLLASGNAVIHVIDDALLIAKTAIGKVDASDLVVPIPGLEDTHVRLKRCHRWFAVRVTQRAGTPPRHELTARCLASGLVDPFFGFNRAKHAVIEAAVAATRLHLLPPEEIEEELERARIAIEKTGGEPEREALQLIRRHVRESSI 3b5o-a2-m2-cA_3b5o-a2-m3-cA CRYSTAL STRUCTURE OF A CADD-LIKE PROTEIN OF UNKNOWN FUNCTION (NPUN_F6505) FROM NOSTOC PUNCTIFORME PCC 73102 AT 1.35 A RESOLUTION D0VWS1 D0VWS1 1.35 X-RAY DIFFRACTION 49 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 223 223 3b5o-a2-m1-cA_3b5o-a2-m2-cA 3b5o-a2-m1-cA_3b5o-a2-m3-cA GEFNHLTKQLNQLLAQDYVAFSITENPVVQLSQASFAQIAYVQQYSIFPKELVGFTELARRKALGAGWNGVAQELQENIDEEGSTTGGISHYTLLADGLEEGLGVAVKNTPSVATSKLLRTVLSLFDRQVDYVLGATYAIEATSIPELTLIVKLVEWLHEGAIPKDLQYFFSKHLDAGLRTSVAAYIQPEEFGEFAAGFRAIDAQVWWQELAQEAISSEVVLS GEFNHLTKQLNQLLAQDYVAFSITENPVVQLSQASFAQIAYVQQYSIFPKELVGFTELARRKALGAGWNGVAQELQENIDEEGSTTGGISHYTLLADGLEEGLGVAVKNTPSVATSKLLRTVLSLFDRQVDYVLGATYAIEATSIPELTLIVKLVEWLHEGAIPKDLQYFFSKHLDAGLRTSVAAYIQPEEFGEFAAGFRAIDAQVWWQELAQEAISSEVVLS 3b5x-a1-m1-cA_3b5x-a1-m1-cB Crystal Structure of MsbA from Vibrio cholerae Q9KQW9 Q9KQW9 5.5 X-RAY DIFFRACTION 114 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 572 572 WQTFKRLWTYIRLYKAGLVVSTIALVINAAADTYMISLLKPLLDEGFGNAESNFLRILPFMILGLMFVRGLSGFASSYCLSWVSGNVVMQMRRRLFNHFMHMPVRFFDQESTGGLLSRITYDSEQVAGATSRALVSIVREGASIIGLLTLMFWNSWQLSLVLIVVAPVVAFAISFVSKRFRKISRNMQTAMGHVTSSAEQMLKGHKVVLSYGGQEVERKRFDKVSNSMRQQTMKLVSAQSIADPVIQMIASLALFAVLFLASVDSIRAELTPGTFTVVFSAMFGLMRPLKALTSVTSEFQRGMAACQTLFGLMDLETERDNGKYEAERVNGEVDVKDVTFTYQGKEKPALSHVSFSIPQGKTVALVGRSGSGKSTIANLFTRFYDVDSGSICLDGHDVRDYKLTNLRRHFALVSQNVHLFNDTIANNIAYAAEGEYTREQIEQAARQAHAMEFIENMPQGLDTVIGENGTSLSGGQRQRVAIARALLRDAPVLILDEATSALDTESERAIQAALDELQKNKTVLVIAHRLSTIEQADEILVVDEGEIIERGRHADLLAQDGAYAQLHRIQFG WQTFKRLWTYIRLYKAGLVVSTIALVINAAADTYMISLLKPLLDEGFGNAESNFLRILPFMILGLMFVRGLSGFASSYCLSWVSGNVVMQMRRRLFNHFMHMPVRFFDQESTGGLLSRITYDSEQVAGATSRALVSIVREGASIIGLLTLMFWNSWQLSLVLIVVAPVVAFAISFVSKRFRKISRNMQTAMGHVTSSAEQMLKGHKVVLSYGGQEVERKRFDKVSNSMRQQTMKLVSAQSIADPVIQMIASLALFAVLFLASVDSIRAELTPGTFTVVFSAMFGLMRPLKALTSVTSEFQRGMAACQTLFGLMDLETERDNGKYEAERVNGEVDVKDVTFTYQGKEKPALSHVSFSIPQGKTVALVGRSGSGKSTIANLFTRFYDVDSGSICLDGHDVRDYKLTNLRRHFALVSQNVHLFNDTIANNIAYAAEGEYTREQIEQAARQAHAMEFIENMPQGLDTVIGENGTSLSGGQRQRVAIARALLRDAPVLILDEATSALDTESERAIQAALDELQKNKTVLVIAHRLSTIEQADEILVVDEGEIIERGRHADLLAQDGAYAQLHRIQFG 3b61-a2-m1-cC_3b61-a2-m1-cD EmrE multidrug transporter, apo crystal form P23895 P23895 4.5 X-RAY DIFFRACTION 27 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 107 107 3b61-a1-m1-cA_3b61-a1-m1-cB 3b61-a3-m1-cE_3b61-a3-m1-cF 3b61-a4-m1-cG_3b61-a4-m1-cH YIYLGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWSGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLIINLLSRSTPH YIYLGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWSGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLIINLLSRSTPH 3b62-a1-m1-cB_3b62-a1-m1-cA EmrE multidrug transporter in complex with P4P, P21 crystal form P23895 P23895 4.4 X-RAY DIFFRACTION 45 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 87 95 3b5d-a1-m1-cB_3b5d-a1-m1-cA 3b62-a2-m1-cD_3b62-a2-m1-cC 7mgx-a1-m1-cB_7mgx-a1-m1-cA 7mgx-a2-m1-cF_7mgx-a2-m1-cE 7mh6-a1-m1-cA_7mh6-a1-m1-cB 7ssu-a1-m1-cB_7ssu-a1-m1-cA 7sv9-a1-m1-cB_7sv9-a1-m1-cA 7svx-a1-m1-cB_7svx-a1-m1-cA 7t00-a1-m1-cB_7t00-a1-m1-cA LGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWSGVGIVLISLLSWGFFGQRLDLPAIIGMML LGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWSGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLII 3b63-a1-m1-cG_3b63-a1-m1-cI Actin filament model in the extended form of acromsomal bundle in the Limulus sperm P41340 P41340 9.5 ELECTRON MICROSCOPY 14 0.997 6850 (Limulus polyphemus) 6850 (Limulus polyphemus) 365 365 3b63-a1-m1-cA_3b63-a1-m1-cC AALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGMGQKDSYVGDEAQSKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLTEAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGNTHVVPIYAGFSLPHAILRIDLAGRDLTDYLMKILSERGYSFSTTAEREIVRDIKEKLCYVALDFEQEMQTAAQSSSIEKSYELPDGQVITIGNERFRAPEALFHPSVLGLESAGIDQTTYNSIMKCDVDVRKELYGNIVMSGGTTMFPGIAERMQKEITALAPSSMKVKIIAPPERKYSVWIGGSILASLTTFQQMWISKQEYDESGPSIV AALVIDNGSGMCKAGFAGDDAPRAVFPSIVGRPRHQGIMVGMGQKDSYVGDEAQSKRGILTLRYPIEHGIVTNWDDMEKIWHHTFYNELRVAPEEHPVLLTEAPMNPKSNREKMTQIMFETFNVPAFYVSIQAVLSLYSSGRTTGIVLDSGDGVTHVVPIYAGFSLPHAILRIDLAGRDLTDYLMKILSERGYSFSTTAEREIVRDIKEKLCYVALDFEQEMQTAAQSSSIEKSYELPDGQVITIGNERFRAPEALFHPSVLGLESAGIDQTTYNSIMKCDVDVRKELYGNIVMSGGTTMFPGIAERMQKEITALAPSSMKVKIIAPPERKYSVWIGGSILASLTTFQQMWISKQEYDESGPSIV 3b6a-a4-m1-cH_3b6a-a4-m1-cG Crystal structure of the Streptomyces coelicolor TetR family protein ActR in complex with actinorhodin Q53901 Q53901 3.05 X-RAY DIFFRACTION 109 0.981 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 209 213 2opt-a1-m1-cB_2opt-a1-m1-cA 3b6a-a1-m1-cB_3b6a-a1-m1-cA 3b6a-a2-m1-cD_3b6a-a2-m1-cC 3b6a-a3-m1-cF_3b6a-a3-m1-cE 3b6c-a1-m1-cA_3b6c-a1-m1-cB APLTQDRIVVTALGILDAEGLDALSMRRLAQELKTGHASLYAHVGNRDELLDLVFDIVLTEVEVPEPEPGRWAEQVKEMCRSLRRMFLAHRDLARIAIDRVPLGPNGMVGMERTMNLLRSGGLHDELAAYGGDLLSTFVTAEALEQSSRNPGTAGVFADQLHGYLKSLPATSFPNLVHLAGPITSLDSDRRFELGLEIIIAGLLAGAGE MAPLTQDRIVVTALGILDAEGLDALSMRRLAQELKTGHASLYAHVGNRDELLDLVFDIVLTEVEVPEPEPGRWAEQVKEMCRSLRRMFLAHRDLARIAIDRVPLGPNGMVGMERTMNLLRSGGLHDELAAYGGDLLSTFVTAEALEQSSRQGREQAGVFADQLHGYLKSLPATSFPNLVHLAGPITSLDSDRRFELGLEIIIAGLLAGAGEAA 3b6n-a1-m2-cA_3b6n-a1-m3-cA Crystal structure of 2C-methyl-D-erythritol 2,4-cyclodiphosphate synthase PV003920 from Plasmodium vivax A5KBP6 A5KBP6 2.26 X-RAY DIFFRACTION 70 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 150 150 3b6n-a1-m1-cA_3b6n-a1-m2-cA 3b6n-a1-m1-cA_3b6n-a1-m3-cA GVRIGQGYDIHQIRVGPPEKQSFKRLTIGGVPVETISVLSHSDGDVIFHALVDALLGGMSCSKNSLSFLRYARLLLYKRNYAIANVDIIVIAEVPKISPIREEIVRNISSALGISESQVSLKGKTHEQLGPVGQKKAIECFANALLIRKQ GVRIGQGYDIHQIRVGPPEKQSFKRLTIGGVPVETISVLSHSDGDVIFHALVDALLGGMSCSKNSLSFLRYARLLLYKRNYAIANVDIIVIAEVPKISPIREEIVRNISSALGISESQVSLKGKTHEQLGPVGQKKAIECFANALLIRKQ 3b6u-a1-m1-cA_3b6u-a1-m1-cB Crystal structure of the motor domain of human kinesin family member 3B in complex with ADP O15066 O15066 1.8 X-RAY DIFFRACTION 66 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 323 343 ESVRVVVRCRPMNGKEKAASYDKVVDVDVKLGQVSVKNPKGTAHEMPKTFTFDAVYDWNAKQFELYDETFRPLVDSVLQGFNGTIFAYGQTGTGKTYTMEGIRGDPEKRGVIPNSFDHIFTHISRSQNQQYLVRASYLEIYQEEIRDLLSKDQTKRLELKERPDTGVYVKDLSSFVTKSVKEIEHVMNVGNQNRSVGATNMNEHSSRSHAIFVITIECSEENHIRVGKLNLVDLAGSERLKEATKINLSLSALGNVISALVDGHIPYRDSKLTRLLQDSLGGNAKTVMVANVGPASYNVEETLTTLRYANRAKNIKNKPRVNE YFQSESVRVVVRCRPMNGKEKAASYDKVVDVDVKLGQVSVKNPKGTAHEMPKTFTFDAVYDWNAKQFELYDETFRPLVDSVLQGFNGTIFAYGQTGTGKTYTMEGIRGDPEKRGVIPNSFDHIFTHISRSQNQQYLVRASYLEIYQEEIRDLLSKDQTKRLELKERPDTGVYVKDLSSFVTKSVKEIEHVMNVGNQNRSVGATNMNEHSSRSHAIFVITIECSEVGLDGENHIRVGKLNLVDLAGSERQATKINLSLSALGNVISALVDGKSTHIPYRDSKLTRLLQDSLGGNAKTVMVANVGPASYNVEETLTTLRYANRAKNIKNKPRVNEDPKDALLREF 3b73-a1-m1-cA_3b73-a1-m1-cB Crystal structure of the PhiH1 repressor-like protein from Haloarcula marismortui Q5V043 Q5V043 2.12 X-RAY DIFFRACTION 39 1.0 272569 (Haloarcula marismortui ATCC 43049) 272569 (Haloarcula marismortui ATCC 43049) 86 87 NARQSGSWTIWDDRILEIIHEEGNGSPKELEDRDEIRISKSSVSRRLKKLADHDLLQPLANGVYVITEEGEAYLNGEYDAGKERYI NARQSGSWTIWDDRILEIIHEEGNGSPKELEDRDEIRISKSSVSRRLKKLADHDLLQPLANGVYVITEEGEAYLNGEYDAGKERYIN 3b76-a1-m1-cA_3b76-a1-m1-cB Crystal structure of the third PDZ domain of human ligand-of-numb protein-X (LNX1) in complex with the C-terminal peptide from the coxsackievirus and adenovirus receptor Q8TBB1 Q8TBB1 1.75 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 102 LYFQSMHEKVVNIQKDPGESLGMTVAGGASHREWDLPIYVISVEPGGVISRDGRIKTGDILLNVDGVELTEVSRSEAVALLKRTSSSIVLKALEVKEGSIV NLYFQSMHEKVVNIQKDPGESLGMTVAGGASHREWDLPIYVISVEPGGVISRDGRIKTGDILLNVDGVELTEVSRSEAVALLKRTSSSIVLKALEVKEGSIV 3b77-a1-m4-cB_3b77-a1-m4-cA Crystal structure of a ph domain containing bacterial protein (exig_2160) from exiguobacterium sibiricum 255-15 at 2.42 A resolution B1YJX4 B1YJX4 2.42 X-RAY DIFFRACTION 100 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 181 185 3b77-a1-m1-cB_3b77-a1-m1-cA 3b77-a1-m1-cB_3b77-a1-m1-cC 3b77-a1-m1-cC_3b77-a1-m3-cA 3b77-a1-m2-cB_3b77-a1-m2-cA 3b77-a1-m2-cB_3b77-a1-m2-cC 3b77-a1-m2-cC_3b77-a1-m4-cA 3b77-a1-m3-cB_3b77-a1-m3-cA 3b77-a1-m3-cB_3b77-a1-m3-cC 3b77-a1-m3-cC_3b77-a1-m2-cA 3b77-a1-m4-cB_3b77-a1-m4-cC 3b77-a1-m4-cC_3b77-a1-m1-cA 3b77-a2-m1-cE_3b77-a2-m1-cD 3b77-a2-m1-cE_3b77-a2-m1-cF 3b77-a2-m1-cF_3b77-a2-m6-cD 3b77-a2-m5-cE_3b77-a2-m5-cD 3b77-a2-m5-cE_3b77-a2-m5-cF 3b77-a2-m5-cF_3b77-a2-m7-cD 3b77-a2-m6-cE_3b77-a2-m6-cD 3b77-a2-m6-cE_3b77-a2-m6-cF 3b77-a2-m6-cF_3b77-a2-m5-cD 3b77-a2-m7-cE_3b77-a2-m7-cD 3b77-a2-m7-cE_3b77-a2-m7-cF 3b77-a2-m7-cF_3b77-a2-m1-cD DIGQVIHPDDFDKAAADDYVLHEDGEKIYFLIKSKTDEYCFTNLALVHLDGSKRVLYRYPYAHYPIRHVFETAGTVDLDVEIKFEIGGKHYSIDVDKKQLEHVKDLYKALLAIAEKQYEGQKLEFANSSLNHSVTILGGLRGDNVPQTFKDLSQESFDWLQGHYYKWNQKDFGSFYEKYIN DIGQVIHPDDFDKAAADDYVLHEDGEKIYFLIKSKTDEYCFTNLALVHLDGESASKRVLYRYPYAHYPIRHVFETAGTVDLDVEIKFEIGGKHYSIDVDKKQLEHVKDLYKALLAIAEKQYEGQKLEFANSSLNHSVTILGGLRQGDNVPQTFKDLSQESFDWLQGHYYKWNQKDFGSFYEKYIN 3b7c-a1-m1-cA_3b7c-a1-m2-cA CRYSTAL STRUCTURE OF A NTF-2 LIKE PROTEIN OF UNKNOWN FUNCTION (SO_0125) FROM SHEWANELLA ONEIDENSIS MR-1 AT 1.70 A RESOLUTION Q8EKG8 Q8EKG8 1.7 X-RAY DIFFRACTION 63 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 115 115 PTDDIVQLLKGQEEAWNRGDLDAYQGYWQNEQLLISNGKFRNGWDETLAAYKKNYPDKESLGELKFTIKEIKLSNYAAVVGRWDLKRLKDTPTGVFTLLVEKIDDRWVITDHSSD PTDDIVQLLKGQEEAWNRGDLDAYQGYWQNEQLLISNGKFRNGWDETLAAYKKNYPDKESLGELKFTIKEIKLSNYAAVVGRWDLKRLKDTPTGVFTLLVEKIDDRWVITDHSSD 3b7h-a1-m1-cA_3b7h-a1-m2-cA Crystal structure of the prophage Lp1 protein 11 F9UL97 F9UL97 2 X-RAY DIFFRACTION 60 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 76 76 MKTDGEFVSEHLMELITQQNLTINRVATLAGLNQSTVNAMFEGRSKRPTITTIRKVCGTLGISVHDFFDFPPYNEV MKTDGEFVSEHLMELITQQNLTINRVATLAGLNQSTVNAMFEGRSKRPTITTIRKVCGTLGISVHDFFDFPPYNEV 3b7k-a1-m1-cB_3b7k-a1-m1-cC Human Acyl-coenzyme A thioesterase 12 Q8WYK0 Q8WYK0 2.7 X-RAY DIFFRACTION 84 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 247 255 VVMSQAIQPAHATARGELSAGQLLKWIDTTACLAAEKHAGVSCVTASVDDIQFEETARVGQVITIKAKVTRAFSTSMEISIKVMVQDMLTGIEKLVSVAFSTFVAKPVIHLKPVTLLTEQDHVEHNLAAERRKVRLQHEDGTSVQSIELVLPPHANHHGNTFGGQIMAWMETVATISASRLCWAHPFLKSVDMFKFRGPSTVGDRLVFTAIVNNCVEVGVRVEAFDCQEWAEGRGRHINSAFLIYNA MGEVVMSQAIQPAHATARGELSAGQLLKWIDTTACLAAEKHAGVSCVTASVDDIQFEETARVGQVITIKAKVTRAFSTSMEISIKVMVQDMLTGIEKLVSVAFSTFVAKPVGKEKIHLKPVTLLTEQDHVEHNLAAERRKVRLQHTSVQSIELVLPPHANHHGNTFGGQIMAWMETVATISASRLCWAHPFLKSVDMFKFRGPSTVGDRLVFTAIVNNTFQTCVEVGVRVEAFDCQEWAEGRGRHINSAFLIYNA 3b7m-a5-m1-cA_3b7m-a5-m1-cD Crystal structure of a meso-active thermo-stable cellulase (MT Cel12A) derived by making non-contiguous mutations in the active surface of the Cel12A cellulase of Rhodothermus marinus O33897 O33897 2.1 X-RAY DIFFRACTION 56 1.0 29549 (Rhodothermus marinus) 29549 (Rhodothermus marinus) 216 216 3b7m-a5-m1-cB_3b7m-a5-m1-cC STVELCGQWDTRTVAGGRYTVSNNVWGAETAQCIEVGLETGNFTITRAEHDNGNNVAAYPNIQFAIPQPRRVQELSDVRTSWTLTPITTGRWNAAYDIFFAANPNHVTYSGDAELMIWLNKNGDVMPIGSRVATVELAGATWEVWYADNGAMNVISYVRTTPTTSVTELDLKAFIDDAVARGYIRPEWYLLSVQTGFELFTGGAGLRSADFSVTVQ STVELCGQWDTRTVAGGRYTVSNNVWGAETAQCIEVGLETGNFTITRAEHDNGNNVAAYPNIQFAIPQPRRVQELSDVRTSWTLTPITTGRWNAAYDIFFAANPNHVTYSGDAELMIWLNKNGDVMPIGSRVATVELAGATWEVWYADNGAMNVISYVRTTPTTSVTELDLKAFIDDAVARGYIRPEWYLLSVQTGFELFTGGAGLRSADFSVTVQ 3b7m-a5-m1-cC_3b7m-a5-m1-cD Crystal structure of a meso-active thermo-stable cellulase (MT Cel12A) derived by making non-contiguous mutations in the active surface of the Cel12A cellulase of Rhodothermus marinus O33897 O33897 2.1 X-RAY DIFFRACTION 67 1.0 29549 (Rhodothermus marinus) 29549 (Rhodothermus marinus) 216 216 3b7m-a5-m1-cA_3b7m-a5-m1-cB STVELCGQWDTRTVAGGRYTVSNNVWGAETAQCIEVGLETGNFTITRAEHDNGNNVAAYPNIQFAIPQPRRVQELSDVRTSWTLTPITTGRWNAAYDIFFAANPNHVTYSGDAELMIWLNKNGDVMPIGSRVATVELAGATWEVWYADNGAMNVISYVRTTPTTSVTELDLKAFIDDAVARGYIRPEWYLLSVQTGFELFTGGAGLRSADFSVTVQ STVELCGQWDTRTVAGGRYTVSNNVWGAETAQCIEVGLETGNFTITRAEHDNGNNVAAYPNIQFAIPQPRRVQELSDVRTSWTLTPITTGRWNAAYDIFFAANPNHVTYSGDAELMIWLNKNGDVMPIGSRVATVELAGATWEVWYADNGAMNVISYVRTTPTTSVTELDLKAFIDDAVARGYIRPEWYLLSVQTGFELFTGGAGLRSADFSVTVQ 3b7w-a1-m1-cA_3b7w-a1-m2-cA Crystal structure of human acyl-CoA synthetase medium-chain family member 2A, with L64P mutation Q08AH3 Q08AH3 2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 537 537 LQWGHQEVPAKFNFASDVLDHWADMEKAGKRPPSPALWWVNGKGKELMWNFRELSENSQQAANVLSGACGLQRGDRVAVVLPRVPEWWLVILGCIRAGLIFMPGTIQMKSTDILYRLQMSKAKAIVAGDEVIQEVDTVASECPSLRIKLLVSEKSCDGWLNFKKLLNEASTTHHCVETGSQEASAIYFTSGTSGLPKMAEHSYSSLGLKAKMDAGWTGLQASDIMWTISDTGWILNILCSLMEPWALGACTFVHLLPKFDPLVILKTLSSYPIKSMMGAPIVYRMLLQQDLSSYKFPHLQNCVTVGESLLPETLENWRAQTGLDIRESYGQTETGLTCMVSKTMKIKPGYMGTAASCYDVQIIDDKGNVLPPGTEGDIGIRVKPIRPIGIFSGYVDNPDKTAANIRGDFWLLGDRGIKDEDGYFQFMGRADDIINSSGYRIGPSEVENALMEHPAVVETAVISSPDPVRGEVVKAFVVLASQFLSHDPEQLTKELQQHVKSVTAPYKYPRKIEFVLNLPKTVTGKIQRAKLRDKEWK LQWGHQEVPAKFNFASDVLDHWADMEKAGKRPPSPALWWVNGKGKELMWNFRELSENSQQAANVLSGACGLQRGDRVAVVLPRVPEWWLVILGCIRAGLIFMPGTIQMKSTDILYRLQMSKAKAIVAGDEVIQEVDTVASECPSLRIKLLVSEKSCDGWLNFKKLLNEASTTHHCVETGSQEASAIYFTSGTSGLPKMAEHSYSSLGLKAKMDAGWTGLQASDIMWTISDTGWILNILCSLMEPWALGACTFVHLLPKFDPLVILKTLSSYPIKSMMGAPIVYRMLLQQDLSSYKFPHLQNCVTVGESLLPETLENWRAQTGLDIRESYGQTETGLTCMVSKTMKIKPGYMGTAASCYDVQIIDDKGNVLPPGTEGDIGIRVKPIRPIGIFSGYVDNPDKTAANIRGDFWLLGDRGIKDEDGYFQFMGRADDIINSSGYRIGPSEVENALMEHPAVVETAVISSPDPVRGEVVKAFVVLASQFLSHDPEQLTKELQQHVKSVTAPYKYPRKIEFVLNLPKTVTGKIQRAKLRDKEWK 3b7w-a1-m1-cA_3b7w-a1-m3-cA Crystal structure of human acyl-CoA synthetase medium-chain family member 2A, with L64P mutation Q08AH3 Q08AH3 2 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 537 537 LQWGHQEVPAKFNFASDVLDHWADMEKAGKRPPSPALWWVNGKGKELMWNFRELSENSQQAANVLSGACGLQRGDRVAVVLPRVPEWWLVILGCIRAGLIFMPGTIQMKSTDILYRLQMSKAKAIVAGDEVIQEVDTVASECPSLRIKLLVSEKSCDGWLNFKKLLNEASTTHHCVETGSQEASAIYFTSGTSGLPKMAEHSYSSLGLKAKMDAGWTGLQASDIMWTISDTGWILNILCSLMEPWALGACTFVHLLPKFDPLVILKTLSSYPIKSMMGAPIVYRMLLQQDLSSYKFPHLQNCVTVGESLLPETLENWRAQTGLDIRESYGQTETGLTCMVSKTMKIKPGYMGTAASCYDVQIIDDKGNVLPPGTEGDIGIRVKPIRPIGIFSGYVDNPDKTAANIRGDFWLLGDRGIKDEDGYFQFMGRADDIINSSGYRIGPSEVENALMEHPAVVETAVISSPDPVRGEVVKAFVVLASQFLSHDPEQLTKELQQHVKSVTAPYKYPRKIEFVLNLPKTVTGKIQRAKLRDKEWK LQWGHQEVPAKFNFASDVLDHWADMEKAGKRPPSPALWWVNGKGKELMWNFRELSENSQQAANVLSGACGLQRGDRVAVVLPRVPEWWLVILGCIRAGLIFMPGTIQMKSTDILYRLQMSKAKAIVAGDEVIQEVDTVASECPSLRIKLLVSEKSCDGWLNFKKLLNEASTTHHCVETGSQEASAIYFTSGTSGLPKMAEHSYSSLGLKAKMDAGWTGLQASDIMWTISDTGWILNILCSLMEPWALGACTFVHLLPKFDPLVILKTLSSYPIKSMMGAPIVYRMLLQQDLSSYKFPHLQNCVTVGESLLPETLENWRAQTGLDIRESYGQTETGLTCMVSKTMKIKPGYMGTAASCYDVQIIDDKGNVLPPGTEGDIGIRVKPIRPIGIFSGYVDNPDKTAANIRGDFWLLGDRGIKDEDGYFQFMGRADDIINSSGYRIGPSEVENALMEHPAVVETAVISSPDPVRGEVVKAFVVLASQFLSHDPEQLTKELQQHVKSVTAPYKYPRKIEFVLNLPKTVTGKIQRAKLRDKEWK 3b81-a1-m1-cA_3b81-a1-m2-cA Crystal structure of predicted DNA-binding transcriptional regulator of TetR/AcrR family (NP_350189.1) from Clostridium acetobutylicum at 2.10 A resolution Q97D74 Q97D74 2.1 X-RAY DIFFRACTION 76 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 181 181 INFNNKRTELANKIWDIFIANGYENTTLAFIINKLGISKGALYHYFSSKEECADAAIENRVAFFSNEVLKESEEGLNSIERLKKILLAGIINSPSNKIFHQKLVAIIKYFAPIYADIISQGNEEGVFKVKYPLETAEIILTLSHFYLDEDLFKWKKEDSLKLTAFKETLIKILDADEDTFD INFNNKRTELANKIWDIFIANGYENTTLAFIINKLGISKGALYHYFSSKEECADAAIENRVAFFSNEVLKESEEGLNSIERLKKILLAGIINSPSNKIFHQKLVAIIKYFAPIYADIISQGNEEGVFKVKYPLETAEIILTLSHFYLDEDLFKWKKEDSLKLTAFKETLIKILDADEDTFD 3b83-a1-m1-cC_3b83-a1-m4-cE Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 3b83-a1-m1-cE_3b83-a1-m3-cC 3b83-a1-m2-cC_3b83-a1-m3-cE 3b83-a1-m2-cE_3b83-a1-m4-cC MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH 3b83-a1-m2-cA_3b83-a1-m8-cG Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 99 3b83-a1-m1-cA_3b83-a1-m7-cG 3b83-a1-m3-cA_3b83-a1-m5-cG 3b83-a1-m4-cA_3b83-a1-m6-cG MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEH MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH 3b83-a1-m2-cE_3b83-a1-m8-cG Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 3b83-a1-m1-cE_3b83-a1-m7-cG 3b83-a1-m3-cE_3b83-a1-m5-cG 3b83-a1-m4-cE_3b83-a1-m6-cG MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH 3b83-a1-m4-cC_3b83-a1-m4-cE Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 3b83-a1-m1-cC_3b83-a1-m1-cE 3b83-a1-m2-cC_3b83-a1-m2-cE 3b83-a1-m3-cC_3b83-a1-m3-cE MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH 3b83-a1-m4-cF_3b83-a1-m4-cE Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 99 3b83-a1-m1-cA_3b83-a1-m1-cC 3b83-a1-m1-cF_3b83-a1-m1-cE 3b83-a1-m2-cA_3b83-a1-m2-cC 3b83-a1-m2-cF_3b83-a1-m2-cE 3b83-a1-m3-cA_3b83-a1-m3-cC 3b83-a1-m3-cF_3b83-a1-m3-cE 3b83-a1-m4-cA_3b83-a1-m4-cC LQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSL MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEHHHHH 3b83-a1-m5-cD_3b83-a1-m8-cH Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 94 3b83-a1-m5-cB_3b83-a1-m7-cG 3b83-a1-m6-cB_3b83-a1-m8-cG 3b83-a1-m6-cD_3b83-a1-m7-cH 3b83-a1-m7-cB_3b83-a1-m6-cG 3b83-a1-m7-cD_3b83-a1-m5-cH 3b83-a1-m8-cB_3b83-a1-m5-cG 3b83-a1-m8-cD_3b83-a1-m6-cH LQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGS MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLE 3b83-a1-m8-cB_3b83-a1-m2-cA Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 95 3b83-a1-m5-cB_3b83-a1-m3-cA 3b83-a1-m6-cB_3b83-a1-m4-cA 3b83-a1-m7-cB_3b83-a1-m1-cA LQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSL MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLEH 3b83-a1-m8-cD_3b83-a1-m8-cB Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 92 3b83-a1-m5-cD_3b83-a1-m5-cB 3b83-a1-m6-cD_3b83-a1-m6-cB 3b83-a1-m7-cD_3b83-a1-m7-cB LQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGS LQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSL 3b83-a5-m1-cD_3b83-a5-m1-cH Computer-Based Redesign of a beta Sandwich Protein Suggests that Extensive Negative Design Is Not Required for De Novo beta Sheet Design. 2.4 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 94 3b83-a1-m1-cA_3b83-a1-m1-cE 3b83-a1-m1-cF_3b83-a1-m1-cC 3b83-a1-m2-cA_3b83-a1-m2-cE 3b83-a1-m2-cF_3b83-a1-m2-cC 3b83-a1-m3-cA_3b83-a1-m3-cE 3b83-a1-m3-cF_3b83-a1-m3-cC 3b83-a1-m4-cA_3b83-a1-m4-cE 3b83-a1-m4-cF_3b83-a1-m4-cC 3b83-a1-m5-cB_3b83-a1-m5-cG 3b83-a1-m5-cD_3b83-a1-m5-cH 3b83-a1-m6-cB_3b83-a1-m6-cG 3b83-a1-m6-cD_3b83-a1-m6-cH 3b83-a1-m7-cB_3b83-a1-m7-cG 3b83-a1-m7-cD_3b83-a1-m7-cH 3b83-a1-m8-cB_3b83-a1-m8-cG 3b83-a1-m8-cD_3b83-a1-m8-cH 3b83-a2-m1-cA_3b83-a2-m1-cE 3b83-a3-m1-cB_3b83-a3-m1-cG 3b83-a4-m1-cF_3b83-a4-m1-cC LQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGS MLQPPFNIKVTNITLTTAVVTWQPPILPIEGILVTFGRKNDPSDETTVDLTSSITSLTLTNLEPNTTYEIRIVARNGQQYSPPVSTTFTTGSLE 3b85-a1-m3-cA_3b85-a1-m3-cB Crystal structure of predicted phosphate starvation-induced ATPase PhoH2 from Corynebacterium glutamicum Q8NNB6 Q8NNB6 2.35 X-RAY DIFFRACTION 63 0.994 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 180 180 3b85-a1-m1-cA_3b85-a1-m1-cB 3b85-a1-m1-cA_3b85-a1-m2-cB 3b85-a1-m1-cB_3b85-a1-m3-cA 3b85-a1-m2-cA_3b85-a1-m2-cB 3b85-a1-m2-cA_3b85-a1-m3-cB VIRPKTLGQKHYVDAIDTNTIVFGLGPAGSGKTYLAAKAVQALQSKQVSRIILTRPAVEAGEKLGFLPGDPYLRPLHDALRDVEPEVIPKLEAGIVEVAPLAYRGRTLNDAFVILDEAQNTTPAQKFLTRLGFGSKVVTGDGLRLVRHILRGVDDVHFSELTSSDVVRHQLVGHIVDAYE VIRPKTLGQKHYVDAIDTNTIVFGLGPAGSGKTYLAAKAVQALQSKQVSRIILTRPAVEAGEKLGFLPDPYLRPLHDALRDVEPEVIPKLEAGIVEVAPLAYRGRTLNDAFVILDEAQNTTPAQKFLTRLGFGSKVVTGDSGLRLVRHILRGVDDVHFSELTSSDVVRHQLVGHIVDAYE 3b8f-a1-m1-cA_3b8f-a1-m1-cD Crystal structure of the cytidine deaminase from Bacillus anthracis A0A6H3AIE5 A0A6H3AIE5 1.9 X-RAY DIFFRACTION 78 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 141 142 3b8f-a1-m1-cC_3b8f-a1-m1-cB NIEQQLYDVVKQLIEQRYPNDWGGAAAIRVEDGTIYTSVAPDVINASTELCMETGAILEAHKFQKKVTHSICLARENEHSELKVLSPCGVCQERLFYWGPEVQCAITNAKQDIIFKPLKELQPYHWTEAYHDEMVKEWSTR LNIEQQLYDVVKQLIEQRYPNDWGGAAAIRVEDGTIYTSVAPDVINASTELCMETGAILEAHKFQKKVTHSICLARENEHSELKVLSPCGVCQERLFYWGPEVQCAITNAKQDIIFKPLKELQPYHWTEAYHDEMVKEWSTR 3b8f-a1-m1-cB_3b8f-a1-m1-cD Crystal structure of the cytidine deaminase from Bacillus anthracis A0A6H3AIE5 A0A6H3AIE5 1.9 X-RAY DIFFRACTION 23 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 142 142 3b8f-a1-m1-cC_3b8f-a1-m1-cA LNIEQQLYDVVKQLIEQRYPNDWGGAAAIRVEDGTIYTSVAPDVINASTELCMETGAILEAHKFQKKVTHSICLARENEHSELKVLSPCGVCQERLFYWGPEVQCAITNAKQDIIFKPLKELQPYHWTEAYHDEMVKEWSTR LNIEQQLYDVVKQLIEQRYPNDWGGAAAIRVEDGTIYTSVAPDVINASTELCMETGAILEAHKFQKKVTHSICLARENEHSELKVLSPCGVCQERLFYWGPEVQCAITNAKQDIIFKPLKELQPYHWTEAYHDEMVKEWSTR 3b8f-a1-m1-cC_3b8f-a1-m1-cD Crystal structure of the cytidine deaminase from Bacillus anthracis A0A6H3AIE5 A0A6H3AIE5 1.9 X-RAY DIFFRACTION 69 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 140 142 3b8f-a1-m1-cA_3b8f-a1-m1-cB NIEQQLYDVVKQLIEQRYPNDWGGAAAIRVEDGTIYTSVAPDVINASTELCMETGAILEAHKFQKKVTHSICLARENEHSELKVLSPCGVCQERLFYWGPEVQCAITNAKQDIIFKPLKELQPYHWTEAYHDEMVKEWST LNIEQQLYDVVKQLIEQRYPNDWGGAAAIRVEDGTIYTSVAPDVINASTELCMETGAILEAHKFQKKVTHSICLARENEHSELKVLSPCGVCQERLFYWGPEVQCAITNAKQDIIFKPLKELQPYHWTEAYHDEMVKEWSTR 3b8i-a2-m1-cE_3b8i-a2-m2-cF Crystal Structure of Oxaloacetate Decarboxylase from Pseudomonas Aeruginosa (PA4872) in complex with oxalate and Mg2+. Q9HUU1 Q9HUU1 1.9 X-RAY DIFFRACTION 12 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 283 284 3b8i-a1-m1-cC_3b8i-a1-m1-cB 3b8i-a1-m1-cD_3b8i-a1-m1-cA 3b8i-a2-m2-cE_3b8i-a2-m1-cF ASHHELRAMFRALLDSSRCYHTASVFDPMSARIAADLGFECGILGGSVASLQVLAAPDFALITLSEFVEQATRIGRVARLPVIADADHGYGNALNVMRTVVELERAGIAALTIEDTLLPAQFGRKSTDLICVEEGVGKIRAALEARVDPALTIIARTNAELIDVDAVIQRTLAYQEAGADGICLVGVRDFAHLEAIAEHLHIPLMLVTYGNPQLRDDARLARLGVRVVVNGHAAYFAAIKATYDCLREERGAVASDLTASELSKKYTFPEEYQAWARDYMEVK RASHHELRAMFRALLDSSRCYHTASVFDPMSARIAADLGFECGILGGSVASLQVLAAPDFALITLSEFVEQATRIGRVARLPVIADADHGYGNALNVMRTVVELERAGIAALTIEDTLLPAQFGRKSTDLICVEEGVGKIRAALEARVDPALTIIARTNAELIDVDAVIQRTLAYQEAGADGICLVGVRDFAHLEAIAEHLHIPLMLVTYGNPQLRDDARLARLGVRVVVNGHAAYFAAIKATYDCLREERGAVASDLTASELSKKYTFPEEYQAWARDYMEVK 3b8i-a2-m1-cF_3b8i-a2-m2-cF Crystal Structure of Oxaloacetate Decarboxylase from Pseudomonas Aeruginosa (PA4872) in complex with oxalate and Mg2+. Q9HUU1 Q9HUU1 1.9 X-RAY DIFFRACTION 100 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 284 284 3b8i-a1-m1-cC_3b8i-a1-m1-cA 3b8i-a1-m1-cD_3b8i-a1-m1-cB 3b8i-a2-m1-cE_3b8i-a2-m2-cE RASHHELRAMFRALLDSSRCYHTASVFDPMSARIAADLGFECGILGGSVASLQVLAAPDFALITLSEFVEQATRIGRVARLPVIADADHGYGNALNVMRTVVELERAGIAALTIEDTLLPAQFGRKSTDLICVEEGVGKIRAALEARVDPALTIIARTNAELIDVDAVIQRTLAYQEAGADGICLVGVRDFAHLEAIAEHLHIPLMLVTYGNPQLRDDARLARLGVRVVVNGHAAYFAAIKATYDCLREERGAVASDLTASELSKKYTFPEEYQAWARDYMEVK RASHHELRAMFRALLDSSRCYHTASVFDPMSARIAADLGFECGILGGSVASLQVLAAPDFALITLSEFVEQATRIGRVARLPVIADADHGYGNALNVMRTVVELERAGIAALTIEDTLLPAQFGRKSTDLICVEEGVGKIRAALEARVDPALTIIARTNAELIDVDAVIQRTLAYQEAGADGICLVGVRDFAHLEAIAEHLHIPLMLVTYGNPQLRDDARLARLGVRVVVNGHAAYFAAIKATYDCLREERGAVASDLTASELSKKYTFPEEYQAWARDYMEVK 3b8i-a2-m2-cE_3b8i-a2-m2-cF Crystal Structure of Oxaloacetate Decarboxylase from Pseudomonas Aeruginosa (PA4872) in complex with oxalate and Mg2+. Q9HUU1 Q9HUU1 1.9 X-RAY DIFFRACTION 131 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 283 284 3b8i-a1-m1-cA_3b8i-a1-m1-cB 3b8i-a1-m1-cC_3b8i-a1-m1-cD 3b8i-a2-m1-cE_3b8i-a2-m1-cF ASHHELRAMFRALLDSSRCYHTASVFDPMSARIAADLGFECGILGGSVASLQVLAAPDFALITLSEFVEQATRIGRVARLPVIADADHGYGNALNVMRTVVELERAGIAALTIEDTLLPAQFGRKSTDLICVEEGVGKIRAALEARVDPALTIIARTNAELIDVDAVIQRTLAYQEAGADGICLVGVRDFAHLEAIAEHLHIPLMLVTYGNPQLRDDARLARLGVRVVVNGHAAYFAAIKATYDCLREERGAVASDLTASELSKKYTFPEEYQAWARDYMEVK RASHHELRAMFRALLDSSRCYHTASVFDPMSARIAADLGFECGILGGSVASLQVLAAPDFALITLSEFVEQATRIGRVARLPVIADADHGYGNALNVMRTVVELERAGIAALTIEDTLLPAQFGRKSTDLICVEEGVGKIRAALEARVDPALTIIARTNAELIDVDAVIQRTLAYQEAGADGICLVGVRDFAHLEAIAEHLHIPLMLVTYGNPQLRDDARLARLGVRVVVNGHAAYFAAIKATYDCLREERGAVASDLTASELSKKYTFPEEYQAWARDYMEVK 3b8l-a2-m1-cE_3b8l-a2-m1-cF CRYSTAL STRUCTURE OF A PUTATIVE AROMATIC RING HYDROXYLASE (SARO_3538) FROM NOVOSPHINGOBIUM AROMATICIVORANS DSM AT 1.75 A RESOLUTION A4XEN7 A4XEN7 1.75 X-RAY DIFFRACTION 31 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 137 137 3b8l-a1-m1-cB_3b8l-a1-m1-cA 3b8l-a1-m1-cB_3b8l-a1-m1-cC 3b8l-a1-m1-cC_3b8l-a1-m1-cA 3b8l-a2-m1-cD_3b8l-a2-m1-cE 3b8l-a2-m1-cD_3b8l-a2-m1-cF QCPIEDRLAIQDLIAYAHAVDTVSDIDAVLDVFTEDAVFDLSGIGLTPQVGHAGIREFFTNVFANSHHAHYLTNFAVTGYEGDTASRAYVIGGVGKDGRAVTVNGRYFFEVRRTEKGWKATRYTDFLPLSGTLDNAK QCPIEDRLAIQDLIAYAHAVDTVSDIDAVLDVFTEDAVFDLSGIGLTPQVGHAGIREFFTNVFANSHHAHYLTNFAVTGYEGDTASRAYVIGGVGKDGRAVTVNGRYFFEVRRTEKGWKATRYTDFLPLSGTLDNAK 3b8p-a1-m1-cB_3b8p-a1-m1-cD Fragment of WzzB, Polysaccharide Co-polymerase from Salmonella Typhimurium Q04866 Q04866 3.1 X-RAY DIFFRACTION 44 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 173 184 3b8p-a1-m1-cC_3b8p-a1-m1-cE 3b8p-a1-m1-cD_3b8p-a1-m1-cE KWTSTAIITQPDAAQVATYTNALNVLYGGNAPKISEVQANFISRFSSAFSALSEVLDNQKEREKLTIEQSVKGQALPLSVSYVSTTAEGAQRRLAEYIQQVDEEVAKELEVDLKDNITLQTKTLQESLETQESPAYYQTKQTLLDIKNLKVTADTVHVYRYVKPTLPVRRDSP EKWTSTAIITQPDAAQVATYTNALNVLYGGNAPKISEVQANFISRFSSAFSALSEVLDNQKEREKLTIEQSVKGQALPLSVSYVSTTAEGAQRRLAEYIQQVDEEVAKELEVDLKDNITLQTKTLQESLETQEVVAQEQKDLRSPAYYQTKQTLLDIKNLKVTADTVHVYRYVKPTLPVRRDSP 3b8p-a1-m1-cC_3b8p-a1-m1-cA Fragment of WzzB, Polysaccharide Co-polymerase from Salmonella Typhimurium Q04866 Q04866 3.1 X-RAY DIFFRACTION 41 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 184 206 3b8p-a1-m1-cB_3b8p-a1-m1-cA EKWTSTAIITQPDAAQVATYTNALNVLYGGNAPKISEVQANFISRFSSAFSALSEVLDNQKEREKLTIEQSVKGQALPLSVSYVSTTAEGAQRRLAEYIQQVDEEVAKELEVDLKDNITLQTKTLQESLETQEVVAQEQKDLFSPAYYQTKQTLLDIKNLKVTADTVHVYRYVKPTLPVRRDSP EKWTSTAIITQPDAAQVATYTNALNVLYGGNAPKISEVQANFISRFSSAFSALSEVLDNQKEREKLTIEQSVKGQALPLSVSYVSTTAEGAQRRLAEYIQQVDEEVAKELEVDLKDNITLQTKTLQESLETQEVVAQEQKDLRIKQIEEALRYADEAKITQPLVFSPAYYQTKQTLLDIKNLKVTADTVHVYRYVKPTLPVRRDSP 3b90-a3-m1-cB_3b90-a3-m2-cA Crystal Structure of the Catalytic Domain of Pectate Lyase PelI from Erwinia chrysanthemi O50325 O50325 2.11 X-RAY DIFFRACTION 49 1.0 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 226 226 SECKPGATFENRTVDCGGVTIGTSCPNDSDKQKPLIILKNATVKNLRISASGGADGIHCDSGNCTIENVIWEDICEDAATNNGKTMTIVGGIAHNAKDGYGGKPDKVLQHNSKNSTTVVKGNFTLTGEHGKLWRSCGDCSNNGGPRFLTVTSATVNGTIDSIAGVNRNYGDVATISGLKIKNYKEGKPPVCEEFKGVVKGQGSTEKYGEKWDTTNCKVSRSGVSKL SECKPGATFENRTVDCGGVTIGTSCPNDSDKQKPLIILKNATVKNLRISASGGADGIHCDSGNCTIENVIWEDICEDAATNNGKTMTIVGGIAHNAKDGYGGKPDKVLQHNSKNSTTVVKGNFTLTGEHGKLWRSCGDCSNNGGPRFLTVTSATVNGTIDSIAGVNRNYGDVATISGLKIKNYKEGKPPVCEEFKGVVKGQGSTEKYGEKWDTTNCKVSRSGVSKL 3b90-a4-m1-cA_3b90-a4-m3-cB Crystal Structure of the Catalytic Domain of Pectate Lyase PelI from Erwinia chrysanthemi O50325 O50325 2.11 X-RAY DIFFRACTION 62 1.0 556 (Dickeya chrysanthemi) 556 (Dickeya chrysanthemi) 226 226 SECKPGATFENRTVDCGGVTIGTSCPNDSDKQKPLIILKNATVKNLRISASGGADGIHCDSGNCTIENVIWEDICEDAATNNGKTMTIVGGIAHNAKDGYGGKPDKVLQHNSKNSTTVVKGNFTLTGEHGKLWRSCGDCSNNGGPRFLTVTSATVNGTIDSIAGVNRNYGDVATISGLKIKNYKEGKPPVCEEFKGVVKGQGSTEKYGEKWDTTNCKVSRSGVSKL SECKPGATFENRTVDCGGVTIGTSCPNDSDKQKPLIILKNATVKNLRISASGGADGIHCDSGNCTIENVIWEDICEDAATNNGKTMTIVGGIAHNAKDGYGGKPDKVLQHNSKNSTTVVKGNFTLTGEHGKLWRSCGDCSNNGGPRFLTVTSATVNGTIDSIAGVNRNYGDVATISGLKIKNYKEGKPPVCEEFKGVVKGQGSTEKYGEKWDTTNCKVSRSGVSKL 3b94-a1-m1-cA_3b94-a1-m1-cB Crystal structure of human GITRL Q9UNG2 Q9UNG2 2.5 X-RAY DIFFRACTION 41 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 102 113 EPCMAKFGPLPSKWQMASSEPPCVNKVSDWKLEILQNGLYLIYGQVAFEVRLYKNKDMIQTLTNKQNVGGTYELHVGDTIDLIFNLKNNTYWGIILLANPQF PCMAKFGPLPSKWQMASSEPPCVNKVSDWKLEILQNGLYLIYGQVAPNDVAPFEVRLYKNKDMIQTLTNKSKIQNVGGTYELHVGDTIDLIFNSEVLKNNTYWGIILLANPQF 3b97-a2-m1-cD_3b97-a2-m1-cC Crystal Structure of human Enolase 1 P06733 P06733 2.2 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 431 433 2psn-a1-m1-cA_2psn-a1-m1-cB 2psn-a2-m1-cD_2psn-a2-m1-cC 3b97-a1-m1-cA_3b97-a1-m1-cB SILKIHAREIFDSRGNPTVEVDLFTSKGLFRAAVPSGASTGIYEALELRDNDKTRYMGKGVSKAVEHINKTIAPALVSKKLNVTEQEKIDKLMIEMDGTENKSKFGANAILGVSLAVCKAGAVEKGVPLYRHIADLAGNSEVILPVPAFNVINGGSHAGNKLAMQEFMILPVGAANFREAMRIGAEVYHNLKNVIKEKYGKDATNVGDEGGFAPNILENKEGLELLKTAIGKAGYTDKVVIGMDVAASEFFRSGKYDLDFKSPDDPSRYISPDQLADLYKSFIKDYPVVSIEDPFDQDDWGAWQKFTASAGIQVVGDDLTVTNPKRIAKAVNEKSCNCLLLKVNQIGSVTESLQACKLAQANGWGVMVSHRSGETEDTFIADLVVGLCTGQIKTGAPCRSERLAKYNQLLRIEEELGSKAKFAGRNFRNPL SILKIHAREIFDSRGNPTVEVDLFTSKGLFRAAVPSGASTGIYEALELRDNDKTRYMGKGVSKAVEHINKTIAPALVSKKLNVTEQEKIDKLMIEMDGTENKSKFGANAILGVSLAVCKAGAVEKGVPLYRHIADLAGNSEVILPVPAFNVINGGSHAGNKLAMQEFMILPVGAANFREAMRIGAEVYHNLKNVIKEKYGKDATNVGDEGGFAPNILENKEGLELLKTAIGKAGYTDKVVIGMDVAASEFFRSGKYDLDFKSPDDPSRYISPDQLADLYKSFIKDYPVVSIEDPFDQDDWGAWQKFTASAGIQVVGDDLTVTNPKRIAKAVNEKSCNCLLLKVNQIGSVTESLQACKLAQANGWGVMVSHRSGETEDTFIADLVVGLCTGQIKTGAPCRSERLAKYNQLLRIEEELGSKAKFAGRNFRNPLAK 3b9c-a3-m1-cC_3b9c-a3-m1-cD Crystal Structure of Human GRP CRD Q3ZCW2 Q3ZCW2 1.9 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 3b9c-a1-m1-cA_3b9c-a1-m1-cB 3b9c-a1-m1-cC_3b9c-a1-m1-cD 3b9c-a2-m1-cA_3b9c-a2-m1-cB PFCGHIKGGMRPGKKVLVMGIVDLNPESFAISLTCGDSEDPPADVAIELKAVFTDRQLLRNSCISGERGEEQSAIPYFPFIPDQPFRVEILCEYPRFRVFVDGHQLFDFYHRIQTLSAIDTIKINGDLQITKLG PFCGHIKGGMRPGKKVLVMGIVDLNPESFAISLTCGDSEDPPADVAIELKAVFTDRQLLRNSCISGERGEEQSAIPYFPFIPDQPFRVEILCEYPRFRVFVDGHQLFDFYHRIQTLSAIDTIKINGDLQITKLG 3b9o-a3-m1-cA_3b9o-a3-m1-cB long-chain alkane monooxygenase (LadA) in complex with coenzyme FMN A4IU28 A4IU28 1.9 X-RAY DIFFRACTION 219 1.0 33940 (Geobacillus thermodenitrificans) 33940 (Geobacillus thermodenitrificans) 433 433 3b9n-a3-m1-cA_3b9n-a3-m1-cB KKIHINAFEMNCVGHIAHGLWRHPENQRHRYTDLNYWTELAQLLEKGKFDALFLADVVGIYDVYRQSRDTAVREAVQIPVNDPLMLISAMAYVTKHLAFAVTFSTTYEHPYGHARRMSTLDHLTKGRIAWNVVTSHLPSADKNFGIKKILEHDERYDLADEYLEVCYKLWEGSWEDNAVIRDIENNIYTDPSKVHEINHSGKYFEVPGPHLCEPSPQRTPVIYQAGMSERGREFAAKHAECVFLGGKDVETLKFFVDDIRKRAKKYGRNPDHIKMFAGICVIVGKTHDEAMEKLNSFQKYWSLEGHLAHYGGGTGYDLSKYSSNDYIGSISVGEIINNMSKLDGKWFKLSVGTPKKVADEMQYLVEEAGIDGFNLVQYVSPGTFVDFIELVVPELQKRGLYRVDYEEGTYREKLFGKGNYRLPDDHIAARYRN KKIHINAFEMNCVGHIAHGLWRHPENQRHRYTDLNYWTELAQLLEKGKFDALFLADVVGIYDVYRQSRDTAVREAVQIPVNDPLMLISAMAYVTKHLAFAVTFSTTYEHPYGHARRMSTLDHLTKGRIAWNVVTSHLPSADKNFGIKKILEHDERYDLADEYLEVCYKLWEGSWEDNAVIRDIENNIYTDPSKVHEINHSGKYFEVPGPHLCEPSPQRTPVIYQAGMSERGREFAAKHAECVFLGGKDVETLKFFVDDIRKRAKKYGRNPDHIKMFAGICVIVGKTHDEAMEKLNSFQKYWSLEGHLAHYGGGTGYDLSKYSSNDYIGSISVGEIINNMSKLDGKWFKLSVGTPKKVADEMQYLVEEAGIDGFNLVQYVSPGTFVDFIELVVPELQKRGLYRVDYEEGTYREKLFGKGNYRLPDDHIAARYRN 3b9t-a2-m1-cD_3b9t-a2-m1-cC Crystal structure of predicted acetamidase/formamidase (YP_546212.1) from Methylobacillus flagellatus KT at 1.58 A resolution Q1GZG6 Q1GZG6 1.58 X-RAY DIFFRACTION 198 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 408 409 3b9t-a1-m1-cB_3b9t-a1-m1-cA GLTSGHATHYYIPASDKTVSWGFFSKSLKPVVELESGDFATIETLTHHSNDDASLVKGDPGAESVFYWDSKRKNVDRRGGPDHKLGAGGGGVHILTGPVAIKGAEPGDVLEVRIVDVALRPSANPEFKGKTFGSNVAANWGFHYNELIEEPKKREVVTIYELDATGERNWARAFYNYRWTPQKDPFGVVHPIVDYPGVPVDHSTISKNYNVLKNIRVPVRPHFGTGLAPKEADLVNSVPPSHFGGNIDNWRIGKGATYYPVSVAGGLFSVGDPHASQGDSECGTAIECSLTGTFQFILHKKADLPGTPLADLQYPLLETQDEWVLHGFSYANYLAELGPDAQNSIFSKSSLDLALKDAFRKRHFLQTQNLTEDEAVSLSIGVDFGITQVVDGNWGVHAVVKKGIFPGR GLTSGHATHYYIPASDKTVSWGFFSKSLKPVVELESGDFATIETLTHHSNDDASLVKGDPGAESVFYWDSKRKNVDRRGGPDHKLGAGGGGVHILTGPVAIKGAEPGDVLEVRIVDVALRPSANPEFKGKTFGSNVAANWGFHYNELIEEPKKREVVTIYELDATGERNWARAFYNYRWTPQKDPFGVVHPIVDYPGVPVDHSTISKNYNVLKNIRVPVRPHFGTGLAPKEADLVNSVPPSHFGGNIDNWRIGKGATYYPVSVAGGLFSVGDPHASQGDSECGTAIECSLTGTFQFILHKKADLPGTPLADLQYPLLETQDEWVLHGFSYANYLAELGPDAQNSIFSKSSLDLALKDAFRKRHFLQTQNLTEDEAVSLSIGVDFGITQVVDGNWGVHAVVKKGIFPGRD 3b9w-a1-m2-cA_3b9w-a1-m3-cA The 1.3 A resolution structure of Nitrosomonas europaea Rh50 and mechanistic implications for NH3 transport by Rhesus family proteins Q82X47 Q82X47 1.3 X-RAY DIFFRACTION 134 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 362 362 3b9w-a1-m1-cA_3b9w-a1-m2-cA 3b9w-a1-m1-cA_3b9w-a1-m3-cA 3b9y-a1-m1-cA_3b9y-a1-m2-cA 3b9y-a1-m1-cA_3b9y-a1-m3-cA 3b9y-a1-m2-cA_3b9y-a1-m3-cA 3b9z-a1-m1-cA_3b9z-a1-m2-cA 3b9z-a1-m1-cA_3b9z-a1-m3-cA 3b9z-a1-m2-cA_3b9z-a1-m3-cA 3bhs-a1-m1-cA_3bhs-a1-m2-cA 3bhs-a1-m1-cA_3bhs-a1-m3-cA 3bhs-a1-m2-cA_3bhs-a1-m3-cA INEARLVAQYNYSINILAMLLVGFGFLMVFVRRYGFSATTGTYLVVATGLPLYILLRANGIFGHALTPHSVDAVIYAEFAVATGLIAMGAVLGRLRVFQYALLALFIVPVYLLNEWLVLDNASGLTEGFQDSAGSIAIHAFGAYFGLGVSIALTTAAQRAQPIESDATSDRFSMLGSMVLWLFWPSFATAIVPFEQMPQTIVNTLLALCGATLATYFLSALFHKGKASIVDMANAALAGGVAIGSVCNIVGPVGAFVIGLLGGAISVVGFVFIQPMLESKAKTIDTCGVHNLHGLPGLLGGFSAILIVPGIAVAQLTGIGITLALALIGGVIAGALIKLTGTTKQAYEDSHEFIHLAGPEDE INEARLVAQYNYSINILAMLLVGFGFLMVFVRRYGFSATTGTYLVVATGLPLYILLRANGIFGHALTPHSVDAVIYAEFAVATGLIAMGAVLGRLRVFQYALLALFIVPVYLLNEWLVLDNASGLTEGFQDSAGSIAIHAFGAYFGLGVSIALTTAAQRAQPIESDATSDRFSMLGSMVLWLFWPSFATAIVPFEQMPQTIVNTLLALCGATLATYFLSALFHKGKASIVDMANAALAGGVAIGSVCNIVGPVGAFVIGLLGGAISVVGFVFIQPMLESKAKTIDTCGVHNLHGLPGLLGGFSAILIVPGIAVAQLTGIGITLALALIGGVIAGALIKLTGTTKQAYEDSHEFIHLAGPEDE 3b9x-a1-m1-cB_3b9x-a1-m1-cA Crystal structure of the E. coli pyrimidine nucleoside hydrolase YeiK in complex with inosine P33022 P33022 2.3 X-RAY DIFFRACTION 67 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 303 309 1q8f-a1-m1-cA_1q8f-a1-m1-cB 1q8f-a1-m1-cC_1q8f-a1-m1-cD 3b9x-a1-m1-cC_3b9x-a1-m1-cD 3mkm-a1-m1-cB_3mkm-a1-m1-cA 3mkm-a1-m1-cC_3mkm-a1-m1-cD 3mkn-a1-m1-cC_3mkn-a1-m1-cD KRKIILDCDPGHDDAIAIMMAAKHPAIDLLGITIVAGNQTLDKTLINGLNVCQKLEINVPVYAGMPQPIMRQQIVADTGLDGPVFEPLTRQAESTHAVKYIIDTLMASDGDITLVPVGPLSNIAVAMRMQPAILPKIREIVLMGGAYGTGNFTPSAEFNIFADPEAARVVFTSGVPLVMMGLDLTNQTVCTPDVIARMERAGGPAGELFSDIMNFTLKTQFENYGLAGGPVHDATCIGYLINPDGIKTQEMYVEVDVNSGPCYGRTVCDELGVLGKPANTKVGITIDTDWFWGLVEECVRGYI KRKIILDCDPGHDDAIAIMMAAKHPAIDLLGITIVAGNQTLDKTLINGLNVCQKLEINVPVYAGMPQPIMRQQIVADNIHGDTGLDGPVFEPLTRQAESTHAVKYIIDTLMASDGDITLVPVGPLSNIAVAMRMQPAILPKIREIVLMGGAYGTGNFTPSAEFNIFADPEAARVVFTSGVPLVMMGLDLTNQTVCTPDVIARMERAGGPAGELFSDIMNFTLKTQFENYGLAGGPVHDATCIGYLINPDGIKTQEMYVEVDVNSGPCYGRTVCDELGVLGKPANTKVGITIDTDWFWGLVEECVRGYIK 3b9x-a1-m1-cC_3b9x-a1-m1-cA Crystal structure of the E. coli pyrimidine nucleoside hydrolase YeiK in complex with inosine P33022 P33022 2.3 X-RAY DIFFRACTION 69 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 309 1q8f-a1-m1-cA_1q8f-a1-m1-cC 1q8f-a1-m1-cB_1q8f-a1-m1-cD 3b9x-a1-m1-cB_3b9x-a1-m1-cD 3mkm-a1-m1-cB_3mkm-a1-m1-cD 3mkm-a1-m1-cC_3mkm-a1-m1-cA 3mkn-a1-m1-cB_3mkn-a1-m1-cD 3mkn-a1-m1-cC_3mkn-a1-m1-cA KRKIILDCDPGHDDAIAIMMAAKHPAIDLLGITIVAGNQTLDKTLINGLNVCQKLEINVPVYAGMPQPIMRQQIVATGLDGPVFEPLTRQAESTHAVKYIIDTLMASDGDITLVPVGPLSNIAVAMRMQPAILPKIREIVLMGGAYGTGNFTPSAEFNIFADPEAARVVFTSGVPLVMMGLDLTNQTVCTPDVIARMERAGGPAGELFSDPVHDATCIGYLINPDGIKTQEMYVEVDVNSGPCYGRTVCDELGVLGKPANTKVGITIDTDWFWGLVEECVRGY KRKIILDCDPGHDDAIAIMMAAKHPAIDLLGITIVAGNQTLDKTLINGLNVCQKLEINVPVYAGMPQPIMRQQIVADNIHGDTGLDGPVFEPLTRQAESTHAVKYIIDTLMASDGDITLVPVGPLSNIAVAMRMQPAILPKIREIVLMGGAYGTGNFTPSAEFNIFADPEAARVVFTSGVPLVMMGLDLTNQTVCTPDVIARMERAGGPAGELFSDIMNFTLKTQFENYGLAGGPVHDATCIGYLINPDGIKTQEMYVEVDVNSGPCYGRTVCDELGVLGKPANTKVGITIDTDWFWGLVEECVRGYIK 3ba1-a1-m1-cA_3ba1-a1-m2-cA Structure of hydroxyphenylpyruvate reductase from coleus blumei Q65CJ7 Q65CJ7 1.47 X-RAY DIFFRACTION 172 1.0 4142 (Coleus scutellarioides) 4142 (Coleus scutellarioides) 312 312 3baz-a1-m1-cA_3baz-a1-m2-cA EAIGVLMMCPMSTYLEQELDKRFKLFRYWTQPAQRDFLALQAESIRAVVGNSNAGADAELIDALPKLEIVSSFSVGLDKVDLIKCEEKGVRVTNTPDVLTDDVADLAIGLILAVLRRICECDKYVRRGAWKFGDFKLTTKFSGKRVGIIGLGRIGLAVAERAEAFDCPISYFSRSKKPNTNYTYYGSVVELASNSDILVVACPLTPETTHIINREVIDALGPKGVLINIGRGPHVDEPELVSALVEGRLGGAGLDVFEREPEVPEKLFGLENVVLLPHVGSGTVETRKVMADLVVGNLEAHFSGKPLLTPVV EAIGVLMMCPMSTYLEQELDKRFKLFRYWTQPAQRDFLALQAESIRAVVGNSNAGADAELIDALPKLEIVSSFSVGLDKVDLIKCEEKGVRVTNTPDVLTDDVADLAIGLILAVLRRICECDKYVRRGAWKFGDFKLTTKFSGKRVGIIGLGRIGLAVAERAEAFDCPISYFSRSKKPNTNYTYYGSVVELASNSDILVVACPLTPETTHIINREVIDALGPKGVLINIGRGPHVDEPELVSALVEGRLGGAGLDVFEREPEVPEKLFGLENVVLLPHVGSGTVETRKVMADLVVGNLEAHFSGKPLLTPVV 3ba3-a1-m1-cA_3ba3-a1-m1-cB Crystal structure of Pyridoxamine 5'-phosphate oxidase-like protein (NP_783940.1) from Lactobacillus plantarum at 1.55 A resolution F9USS0 F9USS0 1.55 X-RAY DIFFRACTION 84 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 141 142 DISLLKQVVQSTNKIALSTAVNNEADVKIVNFVWYEAQPDTLYFSSVKTSPALKVYDQNPDIAFITIPNDGTAGNPYLRAQHVKLQRSTKTTDLLPQYLETVPNYQQVWDAIGSTLVVFELKLTDLFVDAGVGGEKQTLTF DISLLKQVVQSTNKIALSTAVNNEADVKIVNFVWYEAQPDTLYFSSVKTSPALKVYDQNPDIAFITIPNDGTAGNPYLRAQHVKLQRSTKTTDLLPQYLETVPNYQQVWDAIGSTLVVFELKLTDLFVDAGVGGEKQTLTFN 3bac-a1-m1-cA_3bac-a1-m2-cA Structural Basis for the Inhibition of Bacterial NAD+ Dependent DNA Ligase P43813 P43813 3 X-RAY DIFFRACTION 176 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 255 255 GFSQIRHEIPMLSLDNAFSDAEFNAFVKRIEDRLILLPKPLTFCCEPKLDGLAVSILYVNGELTQAATRGDGTTGEDITANIRTIRNVPLQLLTDNPPARLEVRGEVFMPHAGFERLNKYALEHNEKTFANPRNAAAGSLRQLDPNITSKRPLVLNAYGIGIAEGVGLPTTHYARLQWLKSIGIPVNPEIRLCNGADEVLDFYQDIQNKRSSLGYDIDGTVLKINDIALQNELGFISKAPRWAIAYKFPAQEELT GFSQIRHEIPMLSLDNAFSDAEFNAFVKRIEDRLILLPKPLTFCCEPKLDGLAVSILYVNGELTQAATRGDGTTGEDITANIRTIRNVPLQLLTDNPPARLEVRGEVFMPHAGFERLNKYALEHNEKTFANPRNAAAGSLRQLDPNITSKRPLVLNAYGIGIAEGVGLPTTHYARLQWLKSIGIPVNPEIRLCNGADEVLDFYQDIQNKRSSLGYDIDGTVLKINDIALQNELGFISKAPRWAIAYKFPAQEELT 3bal-a1-m1-cA_3bal-a1-m1-cD Crystal Structure of an Acetylacetone Dioxygenase from Acinetobacter johnsonii Q8GNT2 Q8GNT2 1.95 X-RAY DIFFRACTION 70 1.0 40214 (Acinetobacter johnsonii) 40214 (Acinetobacter johnsonii) 149 149 3bal-a1-m1-cB_3bal-a1-m1-cC MDYCNKKHTAEEYVKISDNNYVPFPEAFSDGGITWQLLHSSPETSSWTAIFNCPAGSSFASHIHAGPGEYFLTKGKMEVRGGEQEGGSTAYAPSYGFESSGALHGKTFFPVESQFYMTFLGPLNFIDDNGKVIASIGWAEAQGAWLATK MDYCNKKHTAEEYVKISDNNYVPFPEAFSDGGITWQLLHSSPETSSWTAIFNCPAGSSFASHIHAGPGEYFLTKGKMEVRGGEQEGGSTAYAPSYGFESSGALHGKTFFPVESQFYMTFLGPLNFIDDNGKVIASIGWAEAQGAWLATK 3bal-a1-m1-cB_3bal-a1-m1-cD Crystal Structure of an Acetylacetone Dioxygenase from Acinetobacter johnsonii Q8GNT2 Q8GNT2 1.95 X-RAY DIFFRACTION 67 1.0 40214 (Acinetobacter johnsonii) 40214 (Acinetobacter johnsonii) 149 149 3bal-a1-m1-cA_3bal-a1-m1-cC MDYCNKKHTAEEYVKISDNNYVPFPEAFSDGGITWQLLHSSPETSSWTAIFNCPAGSSFASHIHAGPGEYFLTKGKMEVRGGEQEGGSTAYAPSYGFESSGALHGKTFFPVESQFYMTFLGPLNFIDDNGKVIASIGWAEAQGAWLATK MDYCNKKHTAEEYVKISDNNYVPFPEAFSDGGITWQLLHSSPETSSWTAIFNCPAGSSFASHIHAGPGEYFLTKGKMEVRGGEQEGGSTAYAPSYGFESSGALHGKTFFPVESQFYMTFLGPLNFIDDNGKVIASIGWAEAQGAWLATK 3bal-a1-m1-cC_3bal-a1-m1-cD Crystal Structure of an Acetylacetone Dioxygenase from Acinetobacter johnsonii Q8GNT2 Q8GNT2 1.95 X-RAY DIFFRACTION 97 1.0 40214 (Acinetobacter johnsonii) 40214 (Acinetobacter johnsonii) 149 149 3bal-a1-m1-cA_3bal-a1-m1-cB MDYCNKKHTAEEYVKISDNNYVPFPEAFSDGGITWQLLHSSPETSSWTAIFNCPAGSSFASHIHAGPGEYFLTKGKMEVRGGEQEGGSTAYAPSYGFESSGALHGKTFFPVESQFYMTFLGPLNFIDDNGKVIASIGWAEAQGAWLATK MDYCNKKHTAEEYVKISDNNYVPFPEAFSDGGITWQLLHSSPETSSWTAIFNCPAGSSFASHIHAGPGEYFLTKGKMEVRGGEQEGGSTAYAPSYGFESSGALHGKTFFPVESQFYMTFLGPLNFIDDNGKVIASIGWAEAQGAWLATK 3bar-a1-m1-cB_3bar-a1-m1-cA Crystal structure of Plasmodium falciparum orotidine 5'-phosphate decarboxylase covalently modified by 6-azido-UMP Q8IJH3 Q8IJH3 1.9 X-RAY DIFFRACTION 171 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 322 323 2f84-a1-m1-cA_2f84-a1-m2-cA 2q8l-a1-m1-cA_2q8l-a1-m2-cA 2q8z-a1-m1-cB_2q8z-a1-m1-cA 2qaf-a1-m1-cB_2qaf-a1-m1-cA 2za1-a1-m1-cB_2za1-a1-m1-cA 2za2-a1-m1-cA_2za2-a1-m1-cB 2za3-a1-m1-cA_2za3-a1-m1-cB 2zcg-a1-m1-cB_2zcg-a1-m1-cA 3bpw-a1-m1-cB_3bpw-a1-m1-cA 3mwa-a1-m1-cB_3mwa-a1-m1-cA 3n2m-a1-m1-cB_3n2m-a1-m1-cA 3n34-a1-m1-cB_3n34-a1-m1-cA 3n3m-a1-m1-cB_3n3m-a1-m1-cA 3s9y-a1-m1-cB_3s9y-a1-m1-cA 3s9y-a2-m1-cD_3s9y-a2-m1-cC 3vi2-a1-m1-cA_3vi2-a1-m1-cB 6dsq-a1-m1-cA_6dsq-a1-m1-cB 6dsr-a1-m1-cB_6dsr-a1-m1-cA 6dss-a1-m1-cB_6dss-a1-m1-cA SMGFKVKLEKRRNAINTCLCIGLDPDEKDIENFMKNEKENNYNNIKKNLKEKYINNVSIKKDILLKAPDNIIREEKSEEFFYFFNHFCFYIINETNKYALTFKMNFAFYIPYGSVGIDVLKNVFDYLYELNIPTILDMKINDIGNTVKNYRKFIFEYLKSDSCTVNIYMGTNMLKDICYDEEKNKYYSAFVLVKTTNPDSAIFQKNLSLDNKQAYVIMAQEALNMSSYLNLEQNNEFIGFVVGANSYDEMNYIRTYFPNCYILSPGIGAQNGDLHKTLTNGYHKSYEKILINIGRAITKNPYPQKAAQMYYDQINAILKQNM GSMGFKVKLEKRRNAINTCLCIGLDPDEKDIENFMKNEKENNYNNIKKNLKEKYINNVSIKKDILLKAPDNIIREEKSEEFFYFFNHFCFYIINETNKYALTFKMNFAFYIPYGSVGIDVLKNVFDYLYELNIPTILDMKINDIGNTVKNYRKFIFEYLKSDSCTVNIYMGTNMLKDICYDEEKNKYYSAFVLVKTTNPDSAIFQKNLSLDNKQAYVIMAQEALNMSSYLNLEQNNEFIGFVVGANSYDEMNYIRTYFPNCYILSPGIGAQNGDLHKTLTNGYHKSYEKILINIGRAITKNPYPQKAAQMYYDQINAILKQNM 3bas-a1-m1-cA_3bas-a1-m1-cB Crystal structure of the N-terminal region of the scallop myosin rod, monoclinic (C2) form P03069 P03069 2.3 X-RAY DIFFRACTION 110 0.988 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 80 87 1nkn-a1-m1-cA_1nkn-a1-m1-cB 1nkn-a2-m1-cC_1nkn-a2-m1-cD 3bat-a1-m1-cA_3bat-a1-m1-cB 3bat-a2-m1-cD_3bat-a2-m1-cC ARQEEEMKEQLKQMDKMKEDLAKTERIKKELEEQNVTLLEQKNDLFGSMKQLEDKVEELLSKNYHLENEVARLKKLVGER SHMPLLSIARQEEEMKEQLKQMDKMKEDLAKTERIKKELEEQNVTLLEQKNDLFGSMKQLEDKVEELLSKNYHLENEVARLKKLVGE 3bb1-a4-m1-cH_3bb1-a4-m1-cG Crystal structure of Toc34 from Pisum sativum in complex with Mg2+ and GMPPNP Q41009 Q41009 2.8 X-RAY DIFFRACTION 66 0.988 3888 (Pisum sativum) 3888 (Pisum sativum) 248 251 1h65-a1-m1-cA_1h65-a1-m2-cA 1h65-a2-m1-cB_1h65-a2-m1-cC 3bb1-a1-m1-cB_3bb1-a1-m1-cA 3bb1-a2-m1-cC_3bb1-a2-m1-cD 3bb1-a3-m1-cF_3bb1-a3-m1-cE VRGWSGINTFAPATQTKLLELLGNLKQEDVNSLTILVMGKGGVGKSSTVNSIIGERVVSISPFQSEGPRPVMVSRSRAGFTLNIIDTPGLIEGGYINDMALNIIKSFLLDKTIDVLLYVDRLDAYRVDNLDKLVAKAITDSFGKGIWNKAIVALTHAQFSPPDGLPYDEFFSKRSEALLQVVRSGASLKKDSDIPVVLIENSGRCNKNDSDEKVLPNGIAWIPHLVQTITEVALNKSESIFVDKNLID ASQQQTVRGWSGINTFAPATQTKLLELLGNLKQEDVNSLTILVMGKGGVGKSSTVNSIIGERVVSISPFQSEGPRPVMVSRSRAGFTLNIIDTPGLIEGGYINDMALNIIKSFLLDKTIDVLLYVDRLDAYRVDNLDKLVAKAITDSFGKGIWNKAIVALTHAQFSPPDGLPYDEFFSKRSEALLQVVRSGASLSDIPVVLIENSGRCNKNDSDEKVLPNGIAWIPHLVQTITEVALNKSESIFVDKNLID 3bb5-a1-m1-cA_3bb5-a1-m1-cB CRYSTAL STRUCTURE OF A DIMERIC FERREDOXIN-LIKE PROTEIN OF UNKNOWN FUNCTION (JANN_3925) FROM JANNASCHIA SP. CCS1 AT 2.30 A RESOLUTION Q28KC0 Q28KC0 2.3 X-RAY DIFFRACTION 84 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 97 97 3bb5-a2-m1-cC_3bb5-a2-m1-cD 3bb5-a3-m1-cF_3bb5-a3-m1-cE GLYHLVLEPEGEGADRIEAAILDGLAPELPGLTEFRHGPNRDFEQKSERYPYGFLCTFTDKAALDAYAVHPTHQRAGGLVASCRNGADGILVVDLEV GLYHLVLEPEGEGADRIEAAILDGLAPELPGLTEFRHGPNRDFEQKSERYPYGFLCTFTDKAALDAYAVHPTHQRAGGLVASCRNGADGILVVDLEV 3bb6-a1-m1-cD_3bb6-a1-m1-cA Crystal structure of the P64488 protein from E.coli (strain K12). Northeast Structural Genomics Consortium target ER596 P64488 P64488 2.3 X-RAY DIFFRACTION 39 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 100 105 3bb6-a1-m1-cB_3bb6-a1-m1-cC LQIPQNYIHTRSTPFWNKQTAPAGIFERHLDKGTRPGVYPRLSVHGAVKYLGYADEHSAEPDQVILIEAGQFAVFPPEKWHNIEATDDTYFNIDFFVAPE LQIPQNYIHTRSTPFWNKQTAPAGIFERHLDKGTRPGVYPRLSVHGAVKYLGYADEHSAEPDQVILIEAGQFAVFPPEKWHNIEATDDTYFNIDFFVAPEVLEGA 3bb6-a3-m1-cD_3bb6-a3-m1-cB Crystal structure of the P64488 protein from E.coli (strain K12). Northeast Structural Genomics Consortium target ER596 P64488 P64488 2.3 X-RAY DIFFRACTION 44 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 100 107 3bb6-a1-m1-cA_3bb6-a1-m1-cC 3bb6-a1-m1-cD_3bb6-a1-m1-cB 3bb6-a2-m1-cA_3bb6-a2-m1-cC LQIPQNYIHTRSTPFWNKQTAPAGIFERHLDKGTRPGVYPRLSVHGAVKYLGYADEHSAEPDQVILIEAGQFAVFPPEKWHNIEATDDTYFNIDFFVAPE LQIPQNYIHTRSTPFWNKQTAPAGIFERHLDKGTRPGVYPRLSVHGAVKYLGYADEHSAEPDQVILIEAGQFAVFPPEKWHNIEATDDTYFNIDFFVAPEVLEGAQQ 3bb8-a1-m1-cA_3bb8-a1-m1-cB E1 Dehydrase H220K Mutant Q57323 Q57323 2.35 X-RAY DIFFRACTION 265 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 420 420 3bcx-a1-m1-cB_3bcx-a1-m1-cA SQEELRQQIAELVAQYAETAMAPKPFEAGKSVVPPSGKVIGTKELQLMVEASLDGWLTTGRFNDAFEKKLGEYLGVPYVLTTTSGSSANLLALTALTSPKLGVRALKPGDEVITVAAGFPTTVNPTIQNGLIPVFVDVDIPTYNVNASLIEAAVSDKTKAIMIAHTLGNLFDLAEVRRVADKYNLWLIEDCCDALGSTYDGKMAGTFGDIGTVSFYPAKHITMGEGGAVFTQSAELKSIIESFRDWGRDCQLGSLPFGYDHKYTYSHLGYNLKITDMQAACGLAQLERIEEFVEKRKANFKYLKDALQSCADFIELPEATENSDPSWFGFPITLKEDSGVSRIDLVKFLDEAKVGTRLLFAGNLTRQPYFHDVKYRVVGELTNTDRIMNQTFWIGIYPGLTHDHLDYVVSKFEEFFGLNF SQEELRQQIAELVAQYAETAMAPKPFEAGKSVVPPSGKVIGTKELQLMVEASLDGWLTTGRFNDAFEKKLGEYLGVPYVLTTTSGSSANLLALTALTSPKLGVRALKPGDEVITVAAGFPTTVNPTIQNGLIPVFVDVDIPTYNVNASLIEAAVSDKTKAIMIAHTLGNLFDLAEVRRVADKYNLWLIEDCCDALGSTYDGKMAGTFGDIGTVSFYPAKHITMGEGGAVFTQSAELKSIIESFRDWGRDCQLGSLPFGYDHKYTYSHLGYNLKITDMQAACGLAQLERIEEFVEKRKANFKYLKDALQSCADFIELPEATENSDPSWFGFPITLKEDSGVSRIDLVKFLDEAKVGTRLLFAGNLTRQPYFHDVKYRVVGELTNTDRIMNQTFWIGIYPGLTHDHLDYVVSKFEEFFGLNF 3bb9-a3-m1-cF_3bb9-a3-m1-cE Crystal structure of a putative ketosteroid isomerase (sfri_1973) from shewanella frigidimarina ncimb 400 at 1.80 A resolution Q082J6 Q082J6 1.8 X-RAY DIFFRACTION 63 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 115 120 3bb9-a1-m1-cA_3bb9-a1-m1-cB 3bb9-a2-m1-cC_3bb9-a2-m1-cD DSAAGNVVKQFHAALQGNEAIVRQSLAANVQIYEGGKVERSLTEYANHHLADAYLKGLTITPKEHQITITGDIAISTSISHAQGEYKGKSIDSTETLVLIKQADGRWKITHVHWS AFIGVDSAAGNVVKQFHAALQGNEAIVRQSLAANVQIYEGGKVERSLTEYANHHLADAYLKGLTITPKEHQITITGDIAISTSISHAQGEYKGKSIDSTETLVLIKQADGRWKITHVHWS 3bbd-a1-m1-cA_3bbd-a1-m1-cB M. jannaschii Nep1 complexed with S-adenosyl-homocysteine Q57977 Q57977 2.15 X-RAY DIFFRACTION 70 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 198 198 3bbe-a1-m1-cA_3bbe-a1-m1-cB 3bbh-a1-m1-cA_3bbh-a1-m1-cB TYNIILAKSALELIPEEIKNKIRKSRVYKYDILDSNYHYKAEKLKDKERGRPDIIHISLLNILDSPINHEKKLNIYIHTYDDKVLKINPETRLPRNYFRFLGVEKVLKGERNHLIKEEKTLEDLLNEINAKKIAITKTGKLTHPKLLKEYDTFIIGGFPYGKLKINKEKVFGDIKEISIYNKGLAWTVCGIICYSLSF TYNIILAKSALELIPEEIKNKIRKSRVYKYDILDSNYHYKAEKLKDKERGRPDIIHISLLNILDSPINHEKKLNIYIHTYDDKVLKINPETRLPRNYFRFLGVEKVLKGERNHLIKEEKTLEDLLNEINAKKIAITKTGKLTHPKLLKEYDTFIIGGFPYGKLKINKEKVFGDIKEISIYNKGLAWTVCGIICYSLSF 3bbf-a1-m1-cB_3bbf-a1-m1-cE Crystal structure of the NM23-H2 transcription factor complex with GDP P22392 P22392 1.7 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 151 1nsk-a1-m1-cL_1nsk-a1-m1-cR 1nsk-a1-m1-cN_1nsk-a1-m1-cU 1nsk-a1-m1-cO_1nsk-a1-m1-cT 1nue-a1-m1-cA_1nue-a1-m1-cD 1nue-a1-m1-cB_1nue-a1-m1-cE 1nue-a1-m1-cC_1nue-a1-m1-cF 3bbb-a1-m1-cA_3bbb-a1-m1-cD 3bbb-a1-m1-cC_3bbb-a1-m1-cF 3bbb-a1-m1-cE_3bbb-a1-m1-cB 3bbc-a1-m1-cA_3bbc-a1-m1-cD 3bbc-a1-m1-cB_3bbc-a1-m1-cE 3bbc-a1-m1-cC_3bbc-a1-m1-cF 3bbf-a1-m1-cA_3bbf-a1-m1-cD 3bbf-a1-m1-cC_3bbf-a1-m1-cF 7kpf-a1-m1-cD_7kpf-a1-m1-cB 7kpf-a1-m1-cE_7kpf-a1-m1-cA 7kpf-a1-m1-cF_7kpf-a1-m1-cC ANLERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVAMKFLRASEEHLKQHYIDLKDRPFFPGLVKYMNSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVKSAEKEISLWFKPEELVDYKSCAHDWVYE ANLERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVAMKFLRASEEHLKQHYIDLKDRPFFPGLVKYMNSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVKSAEKEISLWFKPEELVDYKSCAHDWVYE 3bbj-a1-m1-cB_3bbj-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE II (TFU_2367) FROM THERMOBIFIDA FUSCA YX AT 2.45 A RESOLUTION Q47MC2 Q47MC2 2.16 X-RAY DIFFRACTION 162 0.989 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 262 265 GVPTRFDSATEVVRVGENRYAVELDPGYLIGTANGGYLTVLQRSALAESDHLHAVSSSYHFHRPASSGPAEIETRVLKRGRTVTTVQTTLFQEGRTILTGTLATATLDPHAEPRYAAPQPAIPPQHQCRRVDPDDGFLARVDVDFSPDSYAALARERTVTTPELCGYVDLSARDGGSAKDPLAFLPLAVDALPPIVSLLVDWSWAPTVELTWHLRAIPEPGPLAFRSTCALVSDGWFDENVDLWDARGRLVAQSRQLARVGR TRFDSATEVVRVGENRYAVELDPGYLIGTANGGYLTVLQRSALAESDHLHAVSSSYHFHRPASSGPAEIETRVLKRGRTVTTVQTTLFQEGRTILTGTLATATLDPHAEPRYAAPQPAIPPQHQCRRVDPRQSHLPDDGFLARVDVDFSPDSYAALARERTVTTPELCGYVDLSARDGGSAKDPLAFLPLAVDALPPIVSLLVDWSWAPTVELTWHLRAIPEPGPLAFRSTCALVSDGWFDENVDLWDARGRLVAQSRQLARVGR 3bbl-a2-m3-cA_3bbl-a2-m6-cA Crystal structure of a regulatory protein of LacI family from Chloroflexus aggregans B8GD81 B8GD81 2.35 X-RAY DIFFRACTION 75 1.0 326427 (Chloroflexus aggregans DSM 9485) 326427 (Chloroflexus aggregans DSM 9485) 273 273 3bbl-a1-m1-cA_3bbl-a1-m2-cA 3bbl-a2-m1-cA_3bbl-a2-m2-cA 3bbl-a2-m4-cA_3bbl-a2-m5-cA LSFIGYSWTQTEPGQVNHILDQFLSSVREAGAVNYFVLPFPFSEDRSQIDIYRDLIRSGNVDGFVLSSINYNDPRVQFLLKQKFPFVAFGRSNPDWDFAWVDIDGTAGTRQAVEYLIGRGHRRIAILAWPEDSRVGNDRLQGYLEAQTAQLPIETGYILRGEGTFEVGRATLHLLDLSPERRPTAITLNDTAIGAAAARERGLTIGTDLAIIGFDDAPVQYLFPPLSSVRQPIAEAGRKCIELLVAIVEGREPEQKHILLQPSLIIRASEGHH LSFIGYSWTQTEPGQVNHILDQFLSSVREAGAVNYFVLPFPFSEDRSQIDIYRDLIRSGNVDGFVLSSINYNDPRVQFLLKQKFPFVAFGRSNPDWDFAWVDIDGTAGTRQAVEYLIGRGHRRIAILAWPEDSRVGNDRLQGYLEAQTAQLPIETGYILRGEGTFEVGRATLHLLDLSPERRPTAITLNDTAIGAAAARERGLTIGTDLAIIGFDDAPVQYLFPPLSSVRQPIAEAGRKCIELLVAIVEGREPEQKHILLQPSLIIRASEGHH 3bbl-a2-m5-cA_3bbl-a2-m6-cA Crystal structure of a regulatory protein of LacI family from Chloroflexus aggregans B8GD81 B8GD81 2.35 X-RAY DIFFRACTION 30 1.0 326427 (Chloroflexus aggregans DSM 9485) 326427 (Chloroflexus aggregans DSM 9485) 273 273 3bbl-a2-m1-cA_3bbl-a2-m3-cA 3bbl-a2-m1-cA_3bbl-a2-m4-cA 3bbl-a2-m2-cA_3bbl-a2-m5-cA 3bbl-a2-m2-cA_3bbl-a2-m6-cA 3bbl-a2-m3-cA_3bbl-a2-m4-cA LSFIGYSWTQTEPGQVNHILDQFLSSVREAGAVNYFVLPFPFSEDRSQIDIYRDLIRSGNVDGFVLSSINYNDPRVQFLLKQKFPFVAFGRSNPDWDFAWVDIDGTAGTRQAVEYLIGRGHRRIAILAWPEDSRVGNDRLQGYLEAQTAQLPIETGYILRGEGTFEVGRATLHLLDLSPERRPTAITLNDTAIGAAAARERGLTIGTDLAIIGFDDAPVQYLFPPLSSVRQPIAEAGRKCIELLVAIVEGREPEQKHILLQPSLIIRASEGHH LSFIGYSWTQTEPGQVNHILDQFLSSVREAGAVNYFVLPFPFSEDRSQIDIYRDLIRSGNVDGFVLSSINYNDPRVQFLLKQKFPFVAFGRSNPDWDFAWVDIDGTAGTRQAVEYLIGRGHRRIAILAWPEDSRVGNDRLQGYLEAQTAQLPIETGYILRGEGTFEVGRATLHLLDLSPERRPTAITLNDTAIGAAAARERGLTIGTDLAIIGFDDAPVQYLFPPLSSVRQPIAEAGRKCIELLVAIVEGREPEQKHILLQPSLIIRASEGHH 3bbp-a3-m1-cE_3bbp-a3-m1-cD Rab6-GTP:GCC185 Rab binding domain complex Q8IWJ2 Q8IWJ2 3 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 38 3bbp-a1-m1-cE_3bbp-a1-m1-cD 3bbp-a2-m1-cF_3bbp-a2-m2-cF SADHLNGLLRETEATNAILMEQIKLLKSEIRRLERNQ KSADHLNGLLRETEATNAILMEQIKLLKSEIRRLERNQ 3bby-a1-m1-cA_3bby-a1-m2-cA Crystal structure of glutathione S-transferase (NP_416804.1) from Escherichia coli K12 at 1.85 A resolution P77544 P77544 1.85 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 188 188 KPAITLWSDAHFFSPYVLSAWVALQEKGLSFHIKTIDRVPLLQIDDFELSESSAIAEYLEDRFAPPTWERIYPLDLENRARARQIQAWLRSDLPIREERPTDVVFAGAKKAPLTAEGKASAEKLFAAEHLLVLGQPNLFGEWCIADTDLALINRLVLHGDEVPERLVDYATFQWQRASVQRFIALSAK KPAITLWSDAHFFSPYVLSAWVALQEKGLSFHIKTIDRVPLLQIDDFELSESSAIAEYLEDRFAPPTWERIYPLDLENRARARQIQAWLRSDLPIREERPTDVVFAGAKKAPLTAEGKASAEKLFAAEHLLVLGQPNLFGEWCIADTDLALINRLVLHGDEVPERLVDYATFQWQRASVQRFIALSAK 3bbz-a3-m1-cA_3bbz-a3-m2-cB Structure of the nucleocapsid-binding domain from the mumps virus phosphoprotein Q9J4L6 Q9J4L6 2.1 X-RAY DIFFRACTION 37 1.0 48 48 GQKVMITKMITDSVANPQMKQAFEQRLAKASTEDALNDIKRDIIRSAI GQKVMITKMITDSVANPQMKQAFEQRLAKASTEDALNDIKRDIIRSAI 3bcg-a1-m1-cA_3bcg-a1-m1-cB Conformational changes of the AcrR regulator reveal a mechanism of induction P0ACS9 P0ACS9 2.48 X-RAY DIFFRACTION 147 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 207 207 2qop-a1-m1-cA_2qop-a1-m2-cA KQEAQETRQHILDVALRLFSQQGVSSTSLGEIAKAAGVTRGAIYWHFKDKSDLFSEIWELSESNIGELELEYQAKFPGDPLSVLREILIHVLESTVTEERRRLLMEIIFHKCEFVGEMAVVQQAQRNLCLESYDRIEQTLKHCIEAKMLPADLMTRRAAIIMRGYISGLMENWLFAPQSFDLKKEARDYVAILLEMYLLCPTLRNPA KQEAQETRQHILDVALRLFSQQGVSSTSLGEIAKAAGVTRGAIYWHFKDKSDLFSEIWELSESNIGELELEYQAKFPGDPLSVLREILIHVLESTVTEERRRLLMEIIFHKCEFVGEMAVVQQAQRNLCLESYDRIEQTLKHCIEAKMLPADLMTRRAAIIMRGYISGLMENWLFAPQSFDLKKEARDYVAILLEMYLLCPTLRNPA 3bcm-a2-m1-cA_3bcm-a2-m2-cB Crystal Structure of The Unswapped Form of P19A/L28Q/N67D BS-RNase P00669 P00669 2.25 X-RAY DIFFRACTION 50 1.0 9913 (Bos taurus) 9913 (Bos taurus) 119 119 KESAAAKFERQHMDSGSSNYCNQMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGSSNYCNQMMCCRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 3bcp-a3-m1-cA_3bcp-a3-m1-cD Crystal Structure of The Swapped non covalent form of P19A/L28Q/N67D BS-RNase P00669 P00669 2.57 X-RAY DIFFRACTION 10 1.0 9913 (Bos taurus) 9913 (Bos taurus) 122 122 KESAAAKFERQHMDSGNSASSSSNYCNQMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSASSSSNYCNQMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 3bcp-a3-m1-cB_3bcp-a3-m1-cD Crystal Structure of The Swapped non covalent form of P19A/L28Q/N67D BS-RNase P00669 P00669 2.57 X-RAY DIFFRACTION 55 1.0 9913 (Bos taurus) 9913 (Bos taurus) 122 122 3bcp-a3-m1-cA_3bcp-a3-m1-cC KESAAAKFERQHMDSGNSASSSSNYCNQMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSASSSSNYCNQMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 3bcp-a3-m1-cC_3bcp-a3-m1-cD Crystal Structure of The Swapped non covalent form of P19A/L28Q/N67D BS-RNase P00669 P00669 2.57 X-RAY DIFFRACTION 122 1.0 9913 (Bos taurus) 9913 (Bos taurus) 122 122 3bcp-a1-m1-cA_3bcp-a1-m1-cB 3bcp-a2-m1-cC_3bcp-a2-m1-cD 3bcp-a3-m1-cA_3bcp-a3-m1-cB KESAAAKFERQHMDSGNSASSSSNYCNQMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSGNSASSSSNYCNQMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKDGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 3bcq-a1-m1-cA_3bcq-a1-m1-cC Crystal structure of oxy-hemoglobin from Brycon cephalus A1YZP4 A1YZP4 2.4 X-RAY DIFFRACTION 12 1.0 126311 (Brycon cephalus) 126311 (Brycon cephalus) 142 142 SLSDKDKDSIKAFWAKISPKAEDIGADALARMLTVYPQTKTYFSHWKDLSPGSAPVKKHGKTVMGSVAEAVSKIDDLTNGLLTLSELHAFQLRVDPANFKILSHNLLVVLAQQFPNDFTPEVHVSMDKFLSLLSWSLSEKYR SLSDKDKDSIKAFWAKISPKAEDIGADALARMLTVYPQTKTYFSHWKDLSPGSAPVKKHGKTVMGSVAEAVSKIDDLTNGLLTLSELHAFQLRVDPANFKILSHNLLVVLAQQFPNDFTPEVHVSMDKFLSLLSWSLSEKYR 3bcq-a1-m1-cB_3bcq-a1-m1-cD Crystal structure of oxy-hemoglobin from Brycon cephalus D0VWS2 D0VWS2 2.4 X-RAY DIFFRACTION 16 1.0 126311 (Brycon cephalus) 126311 (Brycon cephalus) 146 146 VEWSTAERSAIAGLWGKISVDEIGPQALSRLLIVYPWTQRHFAAFGNLSSPAAINGNPKVAHHGKVVMGGLERAIKNMDNIKAAYSSLSVMHSEKLHVDPDNFRLLADCITVCVAMKFGPSAFTPDVQEAWQKFLAVVVAALSRYH VEWSTAERSAIAGLWGKISVDEIGPQALSRLLIVYPWTQRHFAAFGNLSSPAAINGNPKVAHHGKVVMGGLERAIKNMDNIKAAYSSLSVMHSEKLHVDPDNFRLLADCITVCVAMKFGPSAFTPDVQEAWQKFLAVVVAALSRYH 3bct-a2-m1-cA_3bct-a2-m2-cA THE ARMADILLO REPEAT REGION FROM MURINE BETA-CATENIN Q02248 Q02248 2.1 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 444 444 QVSAIVRTQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKLGSPVDSVLFYAITTLHNLLLHQEGAKAVRLAGGLQKVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRGVREEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFR QVSAIVRTQNTNDVETARCTAGTLHNLSHHREGLLAIFKSGGIPALVKLGSPVDSVLFYAITTLHNLLLHQEGAKAVRLAGGLQKVALLNKTNVKFLAITTDCLQILAYGNQESKLIILASGGPQALVNIRTYTYEKLLWTTSRVLKVLSVCSSNKPAIVEAGGQALGLHLTDPSQRLVQNCLWTLRNLSDAATKQEGEGLLGTLVQLLGSDDINVVTCAAGILSNLTCNNYKNKVCQVGGIEALVRTVLRAGDREDITEPAICALRHLTSRHQEAEAQNAVRLHYGLPVVVKLLHPPSHWPLIKATVGLIRNLALCPANHAPLREQGAIPRLVQLLVRAHQDTQRGVREEIVEGCTGALHILARDVHNRIVIRGLNTIPLFVQLLYSPIENIQRVAAGVLCELAQDKEAAEAIEAEGATAPLTELLHSRNEGVATYAAAVLFR 3bcv-a1-m1-cA_3bcv-a1-m1-cB Crystal structure of a putative glycosyltransferase from Bacteroides fragilis Q5LBM4 Q5LBM4 2.35 X-RAY DIFFRACTION 78 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 192 192 LIPKVSVIVPIYNVEKYLDQCVQALLAQTLSDIEIILIDDESPDNCPKICDDYAAQYPNIKVIHKKNAGLGACNSGLDVATGEYVAFCDSDDYVDSDYTYNVAQKYTCDAVFTFKLYKNKNEIHTLLKDLIASDPYAREERAIQVSAKVVLYRRNLIEKKHLRFVSERILPSEDLIFNVDVLANSNIVCVLP LIPKVSVIVPIYNVEKYLDQCVQALLAQTLSDIEIILIDDESPDNCPKICDDYAAQYPNIKVIHKKNAGLGACNSGLDVATGEYVAFCDSDDYVDSDYTYNVAQKYTCDAVFTFKLYKNKNEIHTLLKDLIASDPYAREERAIQVSAKVVLYRRNLIEKKHLRFVSERILPSEDLIFNVDVLANSNIVCVLP 3bcw-a1-m1-cA_3bcw-a1-m1-cB Crystal structure of a duf861 family protein with a rmlc-like cupin fold (bb1179) from bordetella bronchiseptica rb50 at 1.60 A resolution A0A0H3LK92 A0A0H3LK92 1.6 X-RAY DIFFRACTION 117 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 116 117 HDKSRLVRIDTGPINPVAGKPSRPIAGDASFRTVTAFEGGQGKVESGVWESTSGSFQSNTTGYIEYCHIIEGEARLVDPDGTVHAVKAGDAFIPEGYTGRWEVDRHVKKIYFVTHL QHDKSRLVRIDTGPINPVAGKPSRPIAGDASFRTVTAFEGGQGKVESGVWESTSGSFQSNTTGYIEYCHIIEGEARLVDPDGTVHAVKAGDAFIPEGYTGRWEVDRHVKKIYFVTHL 3bd1-a2-m1-cB_3bd1-a2-m1-cA Structure of the Cro protein from putative prophage element Xfaso 1 in Xylella fastidiosa strain Ann-1 1.4 X-RAY DIFFRACTION 22 1.0 155920 (Xylella fastidiosa subsp. sandyi Ann-1) 155920 (Xylella fastidiosa subsp. sandyi Ann-1) 63 65 MNAIDIAINKLGSVSALAASLGVRQSAISNWRARGRVPAERCIDIERVTNGAVICRELRPDVF MNAIDIAINKLGSVSALAASLGVRQSAISNWRARGRVPAERCIDIERVTNGAVICRELRPDVFGA 3bd1-a2-m1-cC_3bd1-a2-m1-cA Structure of the Cro protein from putative prophage element Xfaso 1 in Xylella fastidiosa strain Ann-1 1.4 X-RAY DIFFRACTION 36 1.0 155920 (Xylella fastidiosa subsp. sandyi Ann-1) 155920 (Xylella fastidiosa subsp. sandyi Ann-1) 64 65 MNAIDIAINKLGSVSALAASLGVRQSAISNWRARGRVPAERCIDIERVTNGAVICRELRPDVFG MNAIDIAINKLGSVSALAASLGVRQSAISNWRARGRVPAERCIDIERVTNGAVICRELRPDVFGA 3bd3-a3-m1-cA_3bd3-a3-m1-cB Crystal structure of single domain VL of an anti-DNA binding antibody 3D8 scFv and its active site revealed by complex structures of a small molecule and metals 1.6 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 112 112 LVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIK LVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIK 3bd5-a3-m1-cA_3bd5-a3-m1-cB Crystal structure of single domain VL of an anti-DNA binding antibody 3D8 scFv and its active site revealed by complex structures of a small molecule and metals 2 X-RAY DIFFRACTION 43 1.0 10090 (Mus musculus) 10090 (Mus musculus) 112 112 3bd4-a3-m1-cB_3bd4-a3-m1-cA LVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIK LVMSQSPSSLAVSAGEKVTMSCKSSQSLFNSRTRKNYLAWYQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVQAEDLAVYYCKQSYYHMYTFGSGTKLEIK 3bdd-a2-m1-cD_3bdd-a2-m1-cC CRYSTAL STRUCTURE OF A PUTATIVE MULTIPLE ANTIBIOTIC-RESISTANCE REPRESSOR (SSU05_1136) FROM STREPTOCOCCUS SUIS 89/1591 AT 2.20 A RESOLUTION 2.2 X-RAY DIFFRACTION 149 1.0 286604 (Streptococcus suis 89/1591) 286604 (Streptococcus suis 89/1591) 130 138 3bdd-a1-m1-cB_3bdd-a1-m1-cA QEEDLLYRLKVADETISNLFEKQLGISLTRYSILQTLLKDAPLHQLALQERLQIDRAAVTRHLKLLEESGYIIRKVLVWPTEQAREALITNPSAHHQAIKTSNQILTVEESEQFLATLDKLLIGLQNLPI QEEDLLYRLKVADETISNLFEKQLGISLTRYSILQTLLKDAPLHQLALQERLQIDRAAVTRHLKLLEESGYIIRKRNPDNQREVLVWPTEQAREALITNPSAHHQAIKTSNQILTVEESEQFLATLDKLLIGLQNLPI 3bde-a2-m1-cB_3bde-a2-m3-cB Crystal structure of a dabb family protein with a ferredoxin-like fold (mll5499) from mesorhizobium loti maff303099 at 1.79 A resolution Q98BN1 Q98BN1 1.79 X-RAY DIFFRACTION 69 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 97 97 3bde-a1-m1-cA_3bde-a1-m2-cA GIRHTVVFTLKHASHSLEEKRFLVDAKKILSAIRGVTHFEQLRQISPKIDYHFGFSEFADQAAYTRYNDHPDHVAFVRDRWVPEVEKFLEIDYVPLG GIRHTVVFTLKHASHSLEEKRFLVDAKKILSAIRGVTHFEQLRQISPKIDYHFGFSEFADQAAYTRYNDHPDHVAFVRDRWVPEVEKFLEIDYVPLG 3bdk-a1-m1-cA_3bdk-a1-m1-cB Crystal Structure of Streptococcus suis mannonate dehydratase complexed with substrate analogue A4VVI4 A4VVI4 2.5 X-RAY DIFFRACTION 175 0.983 1307 (Streptococcus suis) 1307 (Streptococcus suis) 349 349 3ban-a1-m1-cA_3ban-a1-m1-cB 3dbn-a1-m1-cA_3dbn-a1-m1-cB 3fvm-a1-m1-cA_3fvm-a1-m1-cB SHMKMSFRWYGKKDPVTLEEIKAIPGMQGIVTAVYDVPVGQAWPLENILELKKMVEEAGLEITVIESIPVHEDIKQGKPNRDALIENYKTSIRNVGAAGIPVVCYNFMPVFDWTRSDLHHPLPDGSTSLAFLKSDLAGVDPSKEEMKAIIENYRQNISEEDLWANLEYFIKAILPTAEEAGVKMAIHPDDPPYGIFGLPRIITGQEAVERFLNLYDSEHNGITMCVGSYASDPKNDVLAMTEYALKRNRINFMHTRNVTAGAWGFQETAHLSQAGDIDMNAVVKLLVDYDWQGSLRPDHGRRIWGDQTKTPGYGLYDRALGATYFNGLYEANMRAAGKTPDFGIKAKTV GSHMKMSFRWYGKKDPVTLEEIKAIPGMQGIVTAVYDVPVGQAWPLENILELKKMVEEAGLEITVIESIPVHEDIKQGKPNRDALIENYKTSIRNVGAAGIPVVCYNFMPVFDWTRSDLHHPLPDGSTSLAFLKSDLAGVDPVAIIENYRQNISEEDLWANLEYFIKAILPTAEEAGVKMAIHPDDPPYGIFGLPRIITGQEAVERFLNLYDSEHNGITMCVGSYASDPKNDVLAMTEYALKRNRINFMHTRNVTAGAWGFQETAHLSQAGDIDMNAVVKLLVDYDWQGSLRPDHGRRIWGDQTKTPGYGLYDRALGATYFNGLYEANMRAAGKTPDFGIKAKTVGTKE 3bdl-a2-m1-cA_3bdl-a2-m2-cA Crystal structure of a truncated human Tudor-SN Q7KZF4 Q7KZF4 1.9 X-RAY DIFFRACTION 289 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 537 537 MDKQFVAKVMQVLNADAIVVKLNSGDYKTIHLSSIRPPRLEGENTQDKNKKLRPLYDIPYMFEAREFLRKKLIGKKVNVTVDYIRPASPATETVPAFSERTCATVTIGGINIAEALVSKGLATVIRYRQDDDQRSSHYDELLAAEARAIKNGKGLHSKKEVPIHRVADISGDTQKAKQFLPFLQRAGRSEAVVEYVFSGSRLKLYLPKETCLITFLLAGIECPRGARNLPGLVQEGEPFSEEATLFTKELVLQREVEVEVESMDKAGNFIGWLHIDGANLSVLLVEHALSKVHFTAERSSYYKSLLSAEEAAKQKKEKVWAMPVLEEKERSASYKPVFVTEITDDLHFYVQDVETGTQLEKLMENMRNDIASHPPVEGSYAPRRGEFCIAKFVDGEWYRARVEKVESPAKIHVFYIDYGNREVLPSTRLGTLSPAFSTRVLPAQATEYAFAFIQVPQDDDARTDAVDSVVRDIQNTQCLLNVEHLSAGCPHVTLQFADSKGDVGLGLVKEGLVMVEVRKEKQFQKVITEYLNAQESA MDKQFVAKVMQVLNADAIVVKLNSGDYKTIHLSSIRPPRLEGENTQDKNKKLRPLYDIPYMFEAREFLRKKLIGKKVNVTVDYIRPASPATETVPAFSERTCATVTIGGINIAEALVSKGLATVIRYRQDDDQRSSHYDELLAAEARAIKNGKGLHSKKEVPIHRVADISGDTQKAKQFLPFLQRAGRSEAVVEYVFSGSRLKLYLPKETCLITFLLAGIECPRGARNLPGLVQEGEPFSEEATLFTKELVLQREVEVEVESMDKAGNFIGWLHIDGANLSVLLVEHALSKVHFTAERSSYYKSLLSAEEAAKQKKEKVWAMPVLEEKERSASYKPVFVTEITDDLHFYVQDVETGTQLEKLMENMRNDIASHPPVEGSYAPRRGEFCIAKFVDGEWYRARVEKVESPAKIHVFYIDYGNREVLPSTRLGTLSPAFSTRVLPAQATEYAFAFIQVPQDDDARTDAVDSVVRDIQNTQCLLNVEHLSAGCPHVTLQFADSKGDVGLGLVKEGLVMVEVRKEKQFQKVITEYLNAQESA 3bdn-a1-m1-cA_3bdn-a1-m1-cB Crystal Structure of the Lambda Repressor P03034 P03034 3.909 X-RAY DIFFRACTION 153 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 234 234 1f39-a1-m1-cA_1f39-a1-m1-cB 1f39-a1-m2-cA_1f39-a1-m2-cB 1kca-a1-m1-cA_1kca-a1-m1-cB 1kca-a1-m1-cC_1kca-a1-m1-cD 1kca-a1-m1-cE_1kca-a1-m1-cF 1kca-a1-m1-cG_1kca-a1-m1-cH 1kca-a2-m1-cA_1kca-a2-m1-cB 1kca-a2-m1-cC_1kca-a2-m1-cD 1kca-a2-m1-cE_1kca-a2-m1-cF 1kca-a2-m1-cG_1kca-a2-m1-cH 1kca-a2-m2-cA_1kca-a2-m2-cB 1kca-a2-m2-cC_1kca-a2-m2-cD 1kca-a2-m2-cE_1kca-a2-m2-cF 1kca-a2-m2-cG_1kca-a2-m2-cH STKKKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVSMQPSLRSEYEYPVFSHVQAGMFSPELRTFTKGDAERWVSTTKKASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRGSGQVFLQPLNPQYPMIPESCSVVGKVIASQWPEETFG STKKKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVSMQPSLRSEYEYPVFSHVQAGMFSPELRTFTKGDAERWVSTTKKASDSAFWLEVEGNSMTAPTGSKPSFPDGMLILVDPEQAVEPGDFCIARLGGDEFTFKKLIRGSGQVFLQPLNPQYPMIPESCSVVGKVIASQWPEETFG 3bdr-a1-m1-cA_3bdr-a1-m2-cA Crystal structure of fatty acid-binding protein-like Ycf58 from Thermosynecoccus elongatus. Northeast Structural Genomics Consortium target TeR13. Q8DI91 Q8DI91 2.8 X-RAY DIFFRACTION 66 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 150 150 GDIRDFFAQSAGRWFSQRTSHHLAFKQTESGKSQLTIELLSVDDPAVIALCQQYDDPAWAVCGARVSWDGTHEGSTVLVPIDQGSREGKLLREGRFSGSDGALTLITEYETIYSEERLWFASPNLRLRTSILKRFGGFSASFCSEIRLGV GDIRDFFAQSAGRWFSQRTSHHLAFKQTESGKSQLTIELLSVDDPAVIALCQQYDDPAWAVCGARVSWDGTHEGSTVLVPIDQGSREGKLLREGRFSGSDGALTLITEYETIYSEERLWFASPNLRLRTSILKRFGGFSASFCSEIRLGV 3bdu-a1-m1-cA_3bdu-a1-m1-cE Crystal structure of protein Q6D8G1 at the resolution 1.9 A. Northeast Structural Genomics Consortium target EwR22A. Q6D8G1 Q6D8G1 1.9 X-RAY DIFFRACTION 30 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 51 51 3bdu-a1-m1-cB_3bdu-a1-m1-cD 3bdu-a1-m1-cB_3bdu-a1-m1-cG 3bdu-a1-m1-cC_3bdu-a1-m1-cA 3bdu-a1-m1-cC_3bdu-a1-m1-cG 3bdu-a1-m1-cD_3bdu-a1-m1-cF 3bdu-a1-m1-cF_3bdu-a1-m1-cE SSNYVLHTNDGRTIVAEGKPKVDDETGISYTDAYGQQQQINRDNVKEAKGK SSNYVLHTNDGRTIVAEGKPKVDDETGISYTDAYGQQQQINRDNVKEAKGK 3bdx-a1-m1-cA_3bdx-a1-m1-cC Crystal structure of the unstable and highly fibrillogenic Pro7Ser mutant of the Recombinant variable domain 6AJL2 Q96JD1 Q96JD1 2.3 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 NFMLTQSHSVSESPGKTVTISCTRSSGSIASNYVQWYQQRPGSSPTTVIYEDNQRPSGVPDRFSGSIDSSSNSASLTISGLKTEDEADYYCQSYDSSNHVVFGGGTKLTVL NFMLTQSHSVSESPGKTVTISCTRSSGSIASNYVQWYQQRPGSSPTTVIYEDNQRPSGVPDRFSGSIDSSSNSASLTISGLKTEDEADYYCQSYDSSNHVVFGGGTKLTVL 3be3-a2-m1-cA_3be3-a2-m2-cB Crystal structure of a protein belonging to pfam DUF1653 from Bordetella bronchiseptica A0A0H3LS10 A0A0H3LS10 2.04 X-RAY DIFFRACTION 50 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 75 76 3be3-a1-m1-cA_3be3-a1-m2-cB 3be3-a2-m2-cA_3be3-a2-m1-cB QDFRPGVYRHYKGDHYLALGLARADETDEVVVVYTRLYARAGLPSTRLLRIWNETVDTGAGPQPRFAYVGHVTPE AQDFRPGVYRHYKGDHYLALGLARADETDEVVVVYTRLYARAGLPSTRLLRIWNETVDTGAGPQPRFAYVGHVTPE 3be3-a2-m1-cB_3be3-a2-m2-cB Crystal structure of a protein belonging to pfam DUF1653 from Bordetella bronchiseptica A0A0H3LS10 A0A0H3LS10 2.04 X-RAY DIFFRACTION 56 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 76 76 3be3-a2-m1-cA_3be3-a2-m2-cA AQDFRPGVYRHYKGDHYLALGLARADETDEVVVVYTRLYARAGLPSTRLLRIWNETVDTGAGPQPRFAYVGHVTPE AQDFRPGVYRHYKGDHYLALGLARADETDEVVVVYTRLYARAGLPSTRLLRIWNETVDTGAGPQPRFAYVGHVTPE 3be3-a2-m2-cA_3be3-a2-m2-cB Crystal structure of a protein belonging to pfam DUF1653 from Bordetella bronchiseptica A0A0H3LS10 A0A0H3LS10 2.04 X-RAY DIFFRACTION 25 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 75 76 3be3-a2-m1-cA_3be3-a2-m1-cB QDFRPGVYRHYKGDHYLALGLARADETDEVVVVYTRLYARAGLPSTRLLRIWNETVDTGAGPQPRFAYVGHVTPE AQDFRPGVYRHYKGDHYLALGLARADETDEVVVVYTRLYARAGLPSTRLLRIWNETVDTGAGPQPRFAYVGHVTPE 3be5-a1-m1-cA_3be5-a1-m1-cB Crystal structure of FitE (crystal form 1), a group III periplasmic siderophore binding protein Q8XBR1 Q8XBR1 2.2 X-RAY DIFFRACTION 143 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 289 289 3be5-a2-m1-cC_3be5-a2-m1-cD 3be6-a1-m1-cB_3be6-a1-m1-cA 3be6-a2-m1-cD_3be6-a2-m1-cC EPVQVFTDDLGRKVTVPAHPKRIVSLHDLDITIPLIELGVPPVASHGRTRPDGSHFIRSGALLTGVDFDNSSIAFIGTADIDIEAIVAAKPDLIITEPTRNTPIERLEKIAPTVSIDHLKGGAPEIYRKLAELTGTQSQLAILERRYQAQINALKATLDSQKITVSVIQANQGKINVHSYHSLGRVLRDAGFRFPPLIESIPEGGRDVSAERLPELDADFVFATWRGDTGGKPQDELATEKVPGWCQFLTACRSGRYVLISREEAISNSFASLGLAAQIQSQIAGRPLP EPVQVFTDDLGRKVTVPAHPKRIVSLHDLDITIPLIELGVPPVASHGRTRPDGSHFIRSGALLTGVDFDNSSIAFIGTADIDIEAIVAAKPDLIITEPTRNTPIERLEKIAPTVSIDHLKGGAPEIYRKLAELTGTQSQLAILERRYQAQINALKATLDSQKITVSVIQANQGKINVHSYHSLGRVLRDAGFRFPPLIESIPEGGRDVSAERLPELDADFVFATWRGDTGGKPQDELATEKVPGWCQFLTACRSGRYVLISREEAISNSFASLGLAAQIQSQIAGRPLP 3be7-a1-m1-cC_3be7-a1-m1-cH Crystal structure of Zn-dependent arginine carboxypeptidase 2.3 X-RAY DIFFRACTION 77 1.0 32644 (unidentified) 32644 (unidentified) 394 395 3be7-a1-m1-cB_3be7-a1-m1-cA 3be7-a1-m1-cE_3be7-a1-m1-cF 3be7-a1-m1-cG_3be7-a1-m1-cD 3dug-a1-m1-cA_3dug-a1-m1-cB 3dug-a1-m1-cD_3dug-a1-m1-cG 3dug-a1-m1-cE_3dug-a1-m1-cF 3dug-a1-m1-cH_3dug-a1-m1-cC DFLIKSKGYLDIQTGEIIKADLLIRNGKIAEIGKINTKDATVISIPDLILIPGLMDSHVHIVGNDSKGEESIADSSHMGTVWGVVNAEKTLMAGFTTVRNVGAANYADVSVRDAIERGVINGPTMLVSGPALGITGGHCDHNLLPPEFNYSSEGVVDSPWEARKMVRKNRKYGADLIKFCATGGVMSRNTDVNAKQFTLEEMKAIVDEAHNHGMKVAAHAHGLIGIKAAIKAGVDSVEHASFIDDETIDMAIKNNTVLSMDIFVSDYILGEGAKAGIREESLNKERLVGKKQRENFMNAHRRGAIITFGTDAGIFDHGDNAKQFAYMVEWGMTPLEAIQASTIKTATLFGIENIGQIKEGFDADIVGVIENPLANIRTLEEVAFVMKEGKVYKR EDFLIKSKGYLDIQTGEIIKADLLIRNGKIAEIGKINTKDATVISIPDLILIPGLMDSHVHIVGNDSKGEESIADSSHMGTVWGVVNAEKTLMAGFTTVRNVGAANYADVSVRDAIERGVINGPTMLVSGPALGITGGHCDHNLLPPEFNYSSEGVVDSPWEARKMVRKNRKYGADLIKFCATGGVMSRNTDVNAKQFTLEEMKAIVDEAHNHGMKVAAHAHGLIGIKAAIKAGVDSVEHASFIDDETIDMAIKNNTVLSMDIFVSDYILGEGAKAGIREESLNKERLVGKKQRENFMNAHRRGAIITFGTDAGIFDHGDNAKQFAYMVEWGMTPLEAIQASTIKTATLFGIENIGQIKEGFDADIVGVIENPLANIRTLEEVAFVMKEGKVYKR 3be8-a1-m1-cB_3be8-a1-m1-cA Crystal structure of the synaptic protein neuroligin 4 Q8N0W4 Q8N0W4 2.2 X-RAY DIFFRACTION 52 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 534 543 AAQYPVVNTNYGKIRGLRTPLPNEILGPVEQYLGVPYASPPTGERRFQPPEPPSSWTGIRNTTQFAAVCPQHLDERSLLHDMLPIWFTANLDTLMTYVQDQNEDCLYLNIYVPTESKKPVMVYIHGGSYMEGTGNMIDGSILASYGNVIVITINYRLGILGFLSTGDQAAKGNYGLLDQIQALRWIEENVGAFGGDPKRVTIFGSGAGASCVSLLTLSHYSEGLFQKAIIQSGTALSSWAVNYQPAKYTRILADKVGCNMLDTTDMVECLRNKNYKELIQQTITPATYHIAFGPVIDGDVIPDDPQILMEQGEFLNYDIMLGVNQGEGLKFVDGIVDNEDGVTPNDFDFSVSNFVDNLYGYPEGKDTLRETIKFMYTDWADKENPETRRKTLVALFTDHQWVAPAVATADLHAQYGSPTYFYAFYHHCQSEMKPSWADSAHGDEVPYVFGIPMIGPTELFSCNFSKNDVMLSAVVMTYWTNFAKTGDPNQPVEVAWSRYNPKDQLYLHIGLKPRVRDHYRATKVAFWLELVPHL DDDKLAAAQYPVVNTNYGKIRGLRTPLPNEILGPVEQYLGVPYASPPTGERRFQPPEPPSSWTGIRNTTQFAAVCPQHLDERSLLHDMLPIWFTANLDTLMTYVQDQNEDCLYLNIYVPTEDDISKKPVMVYIHGGSYMEGTGNMIDGSILASYGNVIVITINYRLGILGFLSTGDQAAKGNYGLLDQIQALRWIEENVGAFGGDPKRVTIFGSGAGASCVSLLTLSHYSEGLFQKAIIQSGTALSSWAVNYQPAKYTRILADKVGCNMLDTTDMVECLRNKNYKELIQQTITPATYHIAFGPVIDGDVIPDDPQILMEQGEFLNYDIMLGVNQGEGLKFVDGIVDNEDGVTPNDFDFSVSNFVDNLYGYPEGKDTLRETIKFMYTDWADKENPETRRKTLVALFTDHQWVAPAVATADLHAQYGSPTYFYAFYHHCQSEMKPSWADSAHGDEVPYVFGIPMIGPTELFSCNFSKNDVMLSAVVMTYWTNFAKTGDPNQPVPVAWSRYNPKDQLYLHIGLKPRVRDHYRATKVAFWLELVPHL 3bed-a2-m1-cA_3bed-a2-m2-cA Mannose/sorbose specific IIA subunit of phosphotransferase system from Enterococcus faecalis Q838I6 Q838I6 1.45 X-RAY DIFFRACTION 28 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 121 121 PKLILSHGRAEETLASTQIVGELADAAIVSTAEDGLSGTQAKLAAILKEAGNVPTLVLADLGGTPCNVAAGTYPQLRVVAGLNLAAIEAAVSPVENVDELAAYLTQIGQSAVTTIDLPELT PKLILSHGRAEETLASTQIVGELADAAIVSTAEDGLSGTQAKLAAILKEAGNVPTLVLADLGGTPCNVAAGTYPQLRVVAGLNLAAIEAAVSPVENVDELAAYLTQIGQSAVTTIDLPELT 3bed-a2-m1-cB_3bed-a2-m2-cB Mannose/sorbose specific IIA subunit of phosphotransferase system from Enterococcus faecalis Q838I6 Q838I6 1.45 X-RAY DIFFRACTION 12 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 118 118 PKLILSHGRAEETLASTQIVGELADAAIVSTAEDGLSGTQAKLAAILKEAGNVPTLVLADLGGTPCNVAAGTYPQLRVVAGLNLAAIEAAVSPVENVDELAAYLTQIGQSAVTTIDLP PKLILSHGRAEETLASTQIVGELADAAIVSTAEDGLSGTQAKLAAILKEAGNVPTLVLADLGGTPCNVAAGTYPQLRVVAGLNLAAIEAAVSPVENVDELAAYLTQIGQSAVTTIDLP 3bed-a2-m2-cB_3bed-a2-m2-cA Mannose/sorbose specific IIA subunit of phosphotransferase system from Enterococcus faecalis Q838I6 Q838I6 1.45 X-RAY DIFFRACTION 111 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 118 121 3bed-a1-m1-cB_3bed-a1-m1-cA 3bed-a2-m1-cB_3bed-a2-m1-cA PKLILSHGRAEETLASTQIVGELADAAIVSTAEDGLSGTQAKLAAILKEAGNVPTLVLADLGGTPCNVAAGTYPQLRVVAGLNLAAIEAAVSPVENVDELAAYLTQIGQSAVTTIDLP PKLILSHGRAEETLASTQIVGELADAAIVSTAEDGLSGTQAKLAAILKEAGNVPTLVLADLGGTPCNVAAGTYPQLRVVAGLNLAAIEAAVSPVENVDELAAYLTQIGQSAVTTIDLPELT 3bem-a1-m1-cA_3bem-a1-m1-cB Crystal structure of putative nitroreductase ydfN (2632848) from Bacillus subtilis at 1.65 A resolution P96692 P96692 1.65 X-RAY DIFFRACTION 165 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 197 200 HAEFTHLVNERRSASNFLSGHPITKEDLNEFELVALAPSAFNLQHTKYVTVLDQDVKEKLKQAANGQYKVVSSSAVLLVLGDKQAYQQAADIYEGLKVLGILNKQEYDHVQDTVSFYENRGEQFKRDEAIRNASLSAFLSAAAAGWDTCPIGFDAEAVKRILNIDDQFEVVITIGKEKTESRRPRGYRKPVNEFVEY HHHHAEFTHLVNERRSASNFLSGHPITKEDLNEFELVALAPSAFNLQHTKYVTVLDQDVKEKLKQAANGQYKVVSSSAVLLVLGDKQAYQQAADIYEGLKVLGILNKQEYDHVQDTVSFYENRGEQFKRDEAIRNASLSAFLSAAAAGWDTCPIGFDAEAVKRILNIDDQFEVVITIGKEKTESRRPRGYRKPVNEFVEY 3bes-a1-m1-cR_3bes-a1-m4-cR Structure of a Poxvirus ifngbp/ifng Complex Q66793 Q66793 2.2 X-RAY DIFFRACTION 25 1.0 12643 (Ectromelia virus) 12643 (Ectromelia virus) 250 250 3bes-a1-m2-cR_3bes-a1-m3-cR TITSYKFESVNFDSKIEWTGNGLYNISLRNYGIKTWQTMYTNVPEGTYDISGFPNNDFVSFWVKFEQGDYKVDKYCTGLCIEVKIGPPTVTLTEYDDHINLYIEHPYATRGSKKIPIYKRNDMCDIYLLYTANFTFGDSEEPVIYDIDDYDCTSTGCSIDFATTEKVCVMAQGATEGLLDKITPWSSEVCLTPKKNVYTCAIRSKEDVPNFKEKMTRVIKRKFNKQSHSYLTKFLGSTSNDITTFLSMLD TITSYKFESVNFDSKIEWTGNGLYNISLRNYGIKTWQTMYTNVPEGTYDISGFPNNDFVSFWVKFEQGDYKVDKYCTGLCIEVKIGPPTVTLTEYDDHINLYIEHPYATRGSKKIPIYKRNDMCDIYLLYTANFTFGDSEEPVIYDIDDYDCTSTGCSIDFATTEKVCVMAQGATEGLLDKITPWSSEVCLTPKKNVYTCAIRSKEDVPNFKEKMTRVIKRKFNKQSHSYLTKFLGSTSNDITTFLSMLD 3bes-a1-m2-cR_3bes-a1-m4-cR Structure of a Poxvirus ifngbp/ifng Complex Q66793 Q66793 2.2 X-RAY DIFFRACTION 132 1.0 12643 (Ectromelia virus) 12643 (Ectromelia virus) 250 250 3bes-a1-m1-cR_3bes-a1-m3-cR TITSYKFESVNFDSKIEWTGNGLYNISLRNYGIKTWQTMYTNVPEGTYDISGFPNNDFVSFWVKFEQGDYKVDKYCTGLCIEVKIGPPTVTLTEYDDHINLYIEHPYATRGSKKIPIYKRNDMCDIYLLYTANFTFGDSEEPVIYDIDDYDCTSTGCSIDFATTEKVCVMAQGATEGLLDKITPWSSEVCLTPKKNVYTCAIRSKEDVPNFKEKMTRVIKRKFNKQSHSYLTKFLGSTSNDITTFLSMLD TITSYKFESVNFDSKIEWTGNGLYNISLRNYGIKTWQTMYTNVPEGTYDISGFPNNDFVSFWVKFEQGDYKVDKYCTGLCIEVKIGPPTVTLTEYDDHINLYIEHPYATRGSKKIPIYKRNDMCDIYLLYTANFTFGDSEEPVIYDIDDYDCTSTGCSIDFATTEKVCVMAQGATEGLLDKITPWSSEVCLTPKKNVYTCAIRSKEDVPNFKEKMTRVIKRKFNKQSHSYLTKFLGSTSNDITTFLSMLD 3bes-a2-m1-cR_3bes-a2-m2-cR Structure of a Poxvirus ifngbp/ifng Complex Q66793 Q66793 2.2 X-RAY DIFFRACTION 22 1.0 12643 (Ectromelia virus) 12643 (Ectromelia virus) 250 250 3bes-a1-m1-cR_3bes-a1-m2-cR 3bes-a1-m3-cR_3bes-a1-m4-cR TITSYKFESVNFDSKIEWTGNGLYNISLRNYGIKTWQTMYTNVPEGTYDISGFPNNDFVSFWVKFEQGDYKVDKYCTGLCIEVKIGPPTVTLTEYDDHINLYIEHPYATRGSKKIPIYKRNDMCDIYLLYTANFTFGDSEEPVIYDIDDYDCTSTGCSIDFATTEKVCVMAQGATEGLLDKITPWSSEVCLTPKKNVYTCAIRSKEDVPNFKEKMTRVIKRKFNKQSHSYLTKFLGSTSNDITTFLSMLD TITSYKFESVNFDSKIEWTGNGLYNISLRNYGIKTWQTMYTNVPEGTYDISGFPNNDFVSFWVKFEQGDYKVDKYCTGLCIEVKIGPPTVTLTEYDDHINLYIEHPYATRGSKKIPIYKRNDMCDIYLLYTANFTFGDSEEPVIYDIDDYDCTSTGCSIDFATTEKVCVMAQGATEGLLDKITPWSSEVCLTPKKNVYTCAIRSKEDVPNFKEKMTRVIKRKFNKQSHSYLTKFLGSTSNDITTFLSMLD 3beu-a1-m1-cB_3beu-a1-m1-cA Na+-Dependent Allostery Mediates Coagulation Factor Protease Active Site Selectivity P00775 P00775 1.05 X-RAY DIFFRACTION 30 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 224 224 VVGGTRAAQGEFPFMVRLSMGCGGALYAQDIVLTAAHCVSGSGNNTSITATGGVVDLQSSSAVKVRSTKVLQAPGFTKETYGKDWALIKLAQPINQPTLKIATTTAYNQGTFTVAGWGANREGGSQQRYLLKANVPFVSDAACRSSSSFILVANEMICAGYDTKQEDTCQGDSGGPMFRKDNADEWVQVGIVSWGEGCARKGKYGVYTEVSTFASAIASAARTL VVGGTRAAQGEFPFMVRLSMGCGGALYAQDIVLTAAHCVSGSGNNTSITATGGVVDLQSSSAVKVRSTKVLQAPGFTKETYGKDWALIKLAQPINQPTLKIATTTAYNQGTFTVAGWGANREGGSQQRYLLKANVPFVSDAACRSSSSFILVANEMICAGYDTKQEDTCQGDSGGPMFRKDNADEWVQVGIVSWGEGCARKGKYGVYTEVSTFASAIASAARTL 3bex-a3-m1-cE_3bex-a3-m1-cF Type III pantothenate kinase from Thermotoga maritima complexed with pantothenate Q9WZY5 Q9WZY5 1.51 X-RAY DIFFRACTION 176 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 248 248 2gtd-a1-m1-cA_2gtd-a1-m1-cB 2gtd-a2-m1-cC_2gtd-a2-m1-cD 2gtd-a3-m1-cE_2gtd-a3-m1-cF 2gtd-a4-m1-cA_2gtd-a4-m1-cB 2gtd-a4-m1-cC_2gtd-a4-m1-cD 2gtd-a4-m1-cE_2gtd-a4-m1-cF 3bex-a1-m1-cA_3bex-a1-m1-cB 3bex-a2-m1-cC_3bex-a2-m1-cD 3bf1-a1-m1-cA_3bf1-a1-m1-cB 3bf1-a2-m1-cC_3bf1-a2-m1-cD 3bf1-a3-m1-cE_3bf1-a3-m1-cF 3bf3-a1-m1-cA_3bf3-a1-m1-cB 3bf3-a2-m1-cC_3bf3-a2-m1-cD 3bf3-a3-m1-cE_3bf3-a3-m1-cF MDPMYLLVDVGNTHSVFSITEDGKTFRRWRLSTGVFQTEDELFSHLHPLLGDAMREIKGIGVASVVPTQNTVIERFSQKYFHISPIWVKAKNGCVKWNVKNPSEVGADRVANVVAFVKEYGKNGIIIDMGTATTVDLVVNGSYEGGAILPGFFMMVHSLFRGTAKLPLVEVKPADFVVGKDTEENIRLGVVNGSVYALEGIIGRIKEVYGDLPVVLTGGQSKIVKDMIKHEIFDEDLTIKGVYHFCFG MDPMYLLVDVGNTHSVFSITEDGKTFRRWRLSTGVFQTEDELFSHLHPLLGDAMREIKGIGVASVVPTQNTVIERFSQKYFHISPIWVKAKNGCVKWNVKNPSEVGADRVANVVAFVKEYGKNGIIIDMGTATTVDLVVNGSYEGGAILPGFFMMVHSLFRGTAKLPLVEVKPADFVVGKDTEENIRLGVVNGSVYALEGIIGRIKEVYGDLPVVLTGGQSKIVKDMIKHEIFDEDLTIKGVYHFCFG 3bey-a1-m1-cB_3bey-a1-m1-cF Crystal structure of the protein O27018 from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT217 O27018 O27018 2.4 X-RAY DIFFRACTION 38 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 88 91 3bey-a1-m1-cA_3bey-a1-m1-cD 3bey-a1-m1-cE_3bey-a1-m1-cC DRFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIF GADRFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR 3bey-a1-m1-cC_3bey-a1-m1-cF Crystal structure of the protein O27018 from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT217 O27018 O27018 2.4 X-RAY DIFFRACTION 94 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 91 91 3bey-a1-m1-cA_3bey-a1-m1-cB 3bey-a1-m1-cE_3bey-a1-m1-cD GADRFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR GADRFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR 3bey-a1-m1-cE_3bey-a1-m1-cA Crystal structure of the protein O27018 from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT217 O27018 O27018 2.4 X-RAY DIFFRACTION 16 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 86 88 3bey-a1-m1-cA_3bey-a1-m1-cF 3bey-a1-m1-cB_3bey-a1-m1-cC 3bey-a1-m1-cB_3bey-a1-m1-cD 3bey-a1-m1-cC_3bey-a1-m1-cD 3bey-a1-m1-cE_3bey-a1-m1-cF LEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR RFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR 3bey-a1-m1-cF_3bey-a1-m1-cD Crystal structure of the protein O27018 from Methanobacterium thermoautotrophicum. Northeast Structural Genomics Consortium target TT217 O27018 O27018 2.4 X-RAY DIFFRACTION 141 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 91 93 3bey-a1-m1-cA_3bey-a1-m1-cC 3bey-a1-m1-cE_3bey-a1-m1-cB GADRFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR KTGADRFLEELPEVAESFKNFREAVRSEGKLTEREKLLISVACSVAVRCDACTRRHAEEALEAGITEGELAEAAAVAALIRAGSANTASAIFR 3bez-a1-m1-cA_3bez-a1-m1-cB Crystal structure of Escherichia coli Signal peptide peptidase (SppA), SeMet crystals P08395 P08395 2.76 X-RAY DIFFRACTION 105 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 465 465 3bez-a1-m1-cA_3bez-a1-m1-cC 3bez-a1-m1-cB_3bez-a1-m1-cD 3bez-a1-m1-cC_3bez-a1-m1-cD 3bf0-a1-m1-cA_3bf0-a1-m1-cB 3bf0-a1-m1-cA_3bf0-a1-m1-cC 3bf0-a1-m1-cB_3bf0-a1-m1-cD 3bf0-a1-m1-cD_3bf0-a1-m1-cC RGALLLDISGVIVDKPQENSLFDIVNTIRQAKDDRNITGIVDLKNFAGGDQPSQYIGKALKEFRDSGKPVYAVGENYSQGQYYLASFANKIWLSPQGVVDLHGFATNGLYYKSLLDKLKVSTHVFRVGTYKSAVEPFIRDDSPAAREADSRWIGELWQNYLNTVAANRQIPAEQVFPGAQGLLEGLTKTGGDTAKYALENKLVDALASSAEIEKALTKEFGWSKTDKNYRAISYYDYALKTPADTGDSIGVVFANGAIDGEETQGNVGGDTTAAQIRDARLDPKVKAIVLRVNSPGGSVTASEVIRAELAAARAAGKPVVVSGGAASGGYWISTPANYIVANPSTLTGSIGIFGVITTVENSLDSIGVHTDGVSTSPLADVSITRALPPEAQLQLSIENGYKRFITLVADARHSTPEQIDKIAQGHVWTGQDAKANGLVDSLGDFDDAVAKAAELAKVKQWHLEY RGALLLDISGVIVDKPQENSLFDIVNTIRQAKDDRNITGIVDLKNFAGGDQPSQYIGKALKEFRDSGKPVYAVGENYSQGQYYLASFANKIWLSPQGVVDLHGFATNGLYYKSLLDKLKVSTHVFRVGTYKSAVEPFIRDDSPAAREADSRWIGELWQNYLNTVAANRQIPAEQVFPGAQGLLEGLTKTGGDTAKYALENKLVDALASSAEIEKALTKEFGWSKTDKNYRAISYYDYALKTPADTGDSIGVVFANGAIDGEETQGNVGGDTTAAQIRDARLDPKVKAIVLRVNSPGGSVTASEVIRAELAAARAAGKPVVVSGGAASGGYWISTPANYIVANPSTLTGSIGIFGVITTVENSLDSIGVHTDGVSTSPLADVSITRALPPEAQLQLSIENGYKRFITLVADARHSTPEQIDKIAQGHVWTGQDAKANGLVDSLGDFDDAVAKAAELAKVKQWHLEY 3bf2-a1-m1-cA_3bf2-a1-m2-cA Crystal structure of the A1KSW9_NEIMF protein from Neisseria meningitidis. Northeast Structural Genomics Consortium target MR36a A1KSW9 A1KSW9 2.6 X-RAY DIFFRACTION 69 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 122 122 LTYRSWHIEGGQALQFPLETALYQASGRVDDAAGAQTLRIDSVSQNKETYTVTAVINEYLLILTVEAQVLKRGEPVGKPTVSVRRVLAYADLGKQEEEAALWAERQDAAEQIVRRLTFLKAE LTYRSWHIEGGQALQFPLETALYQASGRVDDAAGAQTLRIDSVSQNKETYTVTAVINEYLLILTVEAQVLKRGEPVGKPTVSVRRVLAYADLGKQEEEAALWAERQDAAEQIVRRLTFLKAE 3bf4-a1-m1-cB_3bf4-a1-m1-cA Crystal structure of an ethd-like protein (reut_b5694) from ralstonia eutropha jmp134 at 2.10 A resolution Q46P95 Q46P95 2.1 X-RAY DIFFRACTION 108 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 105 109 FQGIKVNVYPYTEGARFDHAYYCDRHPVKARLGSACAYYTVEKGLAGSASGAPPAFVACAFICDSAENFYAAYYHGAEILGDIANYTDIAPVLQISEVVVERSDR ENLYFQGIKVNVYPYTEGARFDHAYYCDRHPVKARLGSACAYYTVEKGLAGSASGAPPAFVACAFICDSAENFYAAYYHGAEILGDIANYTDIAPVLQISEVVVERSDR 3bf5-a1-m1-cB_3bf5-a1-m1-cA Crystal structure of putative ribokinase (10640157) from Thermoplasma acidophilum at 1.91 A resolution Q9HJT3 Q9HJT3 1.91 X-RAY DIFFRACTION 72 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 266 271 RFLAYFGHLNIDVLISVDSIPREGSVNVKDLRPRFGGTAGNFAIVAQKFRIPFDLYSAVGKTHREYLAIESGINTGHVEKFEDESGPICYIATDGKKQVSFHQGAAAWAPQLADEYEYVHFSTGPNYLDAKSIRSKIIFDPSQEIHKYSKDELKKFHEISYSIFNDHEYRVFRETGLSSPKVTTIVTNGERGSSLFDGKKYDFPAIPSSGDTVGAGDSFRAGLYLALYNRRSIEKGIYGTIIAHHVIDDGIELNEDLERETENYRR GRFLAYFGHLNIDVLISVDSIPREGSVNVKDLRPRFGGTAGNFAIVAQKFRIPFDLYSAVGKTHREYLAIESGINTGHVEKFEDESGPICYIATDGKKQVSFHQGAAAWAPQLADEYEYVHFSTGPNYLDAKSIRSKIIFDPSQEIHKYSKDELKKFHEISYSIFNDHEYRVFRETGLSSPKVTTIVTNGERGSSLFDGKKYDFPAIPSSGDTVGAGDSFRAGLYLALYNRRSIEKGIYGTIIAHHVIDDGIENFSLNEDLERETENYRRF 3bfb-a2-m1-cA_3bfb-a2-m2-cA Crystal structure of a pheromone binding protein from Apis mellifera in complex with the 9-keto-2(E)-decenoic acid Q9U9J6 Q9U9J6 2.15 X-RAY DIFFRACTION 14 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 117 117 DWVPPEVFDLVAEDKARCMSEHGTTQAQIDDVDKGNLVNEPSITCYMYCLLEAFSLVDDEANVDEDIMLGLLPDQLQERAQSVMGKCLPTSGSDNCNKIYNLAKCVQESAPDVWFVI DWVPPEVFDLVAEDKARCMSEHGTTQAQIDDVDKGNLVNEPSITCYMYCLLEAFSLVDDEANVDEDIMLGLLPDQLQERAQSVMGKCLPTSGSDNCNKIYNLAKCVQESAPDVWFVI 3bfj-a2-m1-cM_3bfj-a2-m1-cT Crystal structure analysis of 1,3-propanediol oxidoreductase Q7WRJ3 Q7WRJ3 2.7 X-RAY DIFFRACTION 32 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 382 382 3bfj-a1-m1-cA_3bfj-a1-m1-cB 3bfj-a1-m1-cA_3bfj-a1-m1-cF 3bfj-a1-m1-cB_3bfj-a1-m1-cQ 3bfj-a1-m1-cC_3bfj-a1-m1-cD 3bfj-a1-m1-cC_3bfj-a1-m1-cJ 3bfj-a1-m1-cD_3bfj-a1-m1-cO 3bfj-a1-m1-cF_3bfj-a1-m1-cN 3bfj-a1-m1-cJ_3bfj-a1-m1-cP 3bfj-a1-m1-cN_3bfj-a1-m1-cQ 3bfj-a1-m1-cO_3bfj-a1-m1-cP 3bfj-a2-m1-cE_3bfj-a2-m1-cG 3bfj-a2-m1-cE_3bfj-a2-m1-cK 3bfj-a2-m1-cG_3bfj-a2-m1-cT 3bfj-a2-m1-cH_3bfj-a2-m1-cI 3bfj-a2-m1-cH_3bfj-a2-m1-cL 3bfj-a2-m1-cI_3bfj-a2-m1-cR 3bfj-a2-m1-cK_3bfj-a2-m1-cM 3bfj-a2-m1-cL_3bfj-a2-m1-cS 3bfj-a2-m1-cR_3bfj-a2-m1-cS RMFDYLVPNVNFFGPNAISVVGERCQLLGGKKALLVTDKGLRKDGAVDKTLHYLREAGIEVAIFDGVEPNPKDTNVRDGLAVFRREQCDIIVTVGGGSPHDCGKGIGIAATHEGDLYQYAGIETLTNPLPPIVAVNTTAGTASEVTRHCVLTNTETKVKFVIVSWRNLPSVSINDPLLMIGKPAALTAATGMDALTHAVEAYISKDANPVTDAAAMQAIRLIARNLRQAVALGSNLQAREYMAYASLLAGMAFNNANLGYVHAMAHQLGGLYDMPHGVANAVLLPHVARYNLIANPEKFADIAELMGENITGLSTLDAAEKAIAAITRLSMDIGIPQHLRDLGVKETDFPYMAEMALKDGNAFSNPRKGNEQEIAAIFRQAF RMFDYLVPNVNFFGPNAISVVGERCQLLGGKKALLVTDKGLRKDGAVDKTLHYLREAGIEVAIFDGVEPNPKDTNVRDGLAVFRREQCDIIVTVGGGSPHDCGKGIGIAATHEGDLYQYAGIETLTNPLPPIVAVNTTAGTASEVTRHCVLTNTETKVKFVIVSWRNLPSVSINDPLLMIGKPAALTAATGMDALTHAVEAYISKDANPVTDAAAMQAIRLIARNLRQAVALGSNLQAREYMAYASLLAGMAFNNANLGYVHAMAHQLGGLYDMPHGVANAVLLPHVARYNLIANPEKFADIAELMGENITGLSTLDAAEKAIAAITRLSMDIGIPQHLRDLGVKETDFPYMAEMALKDGNAFSNPRKGNEQEIAAIFRQAF 3bfj-a9-m1-cE_3bfj-a9-m1-cI Crystal structure analysis of 1,3-propanediol oxidoreductase Q7WRJ3 Q7WRJ3 2.7 X-RAY DIFFRACTION 109 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 382 382 3bfj-a10-m1-cA_3bfj-a10-m1-cD 3bfj-a11-m1-cC_3bfj-a11-m1-cF 3bfj-a12-m1-cS_3bfj-a12-m1-cT 3bfj-a1-m1-cA_3bfj-a1-m1-cD 3bfj-a1-m1-cB_3bfj-a1-m1-cO 3bfj-a1-m1-cC_3bfj-a1-m1-cF 3bfj-a1-m1-cJ_3bfj-a1-m1-cN 3bfj-a1-m1-cP_3bfj-a1-m1-cQ 3bfj-a2-m1-cE_3bfj-a2-m1-cI 3bfj-a2-m1-cG_3bfj-a2-m1-cR 3bfj-a2-m1-cH_3bfj-a2-m1-cK 3bfj-a2-m1-cL_3bfj-a2-m1-cM 3bfj-a2-m1-cS_3bfj-a2-m1-cT 3bfj-a3-m1-cH_3bfj-a3-m1-cK 3bfj-a4-m1-cJ_3bfj-a4-m1-cN 3bfj-a5-m1-cP_3bfj-a5-m1-cQ 3bfj-a6-m1-cB_3bfj-a6-m1-cO 3bfj-a7-m1-cL_3bfj-a7-m1-cM 3bfj-a8-m1-cG_3bfj-a8-m1-cR RMFDYLVPNVNFFGPNAISVVGERCQLLGGKKALLVTDKGLRKDGAVDKTLHYLREAGIEVAIFDGVEPNPKDTNVRDGLAVFRREQCDIIVTVGGGSPHDCGKGIGIAATHEGDLYQYAGIETLTNPLPPIVAVNTTAGTASEVTRHCVLTNTETKVKFVIVSWRNLPSVSINDPLLMIGKPAALTAATGMDALTHAVEAYISKDANPVTDAAAMQAIRLIARNLRQAVALGSNLQAREYMAYASLLAGMAFNNANLGYVHAMAHQLGGLYDMPHGVANAVLLPHVARYNLIANPEKFADIAELMGENITGLSTLDAAEKAIAAITRLSMDIGIPQHLRDLGVKETDFPYMAEMALKDGNAFSNPRKGNEQEIAAIFRQAF RMFDYLVPNVNFFGPNAISVVGERCQLLGGKKALLVTDKGLRKDGAVDKTLHYLREAGIEVAIFDGVEPNPKDTNVRDGLAVFRREQCDIIVTVGGGSPHDCGKGIGIAATHEGDLYQYAGIETLTNPLPPIVAVNTTAGTASEVTRHCVLTNTETKVKFVIVSWRNLPSVSINDPLLMIGKPAALTAATGMDALTHAVEAYISKDANPVTDAAAMQAIRLIARNLRQAVALGSNLQAREYMAYASLLAGMAFNNANLGYVHAMAHQLGGLYDMPHGVANAVLLPHVARYNLIANPEKFADIAELMGENITGLSTLDAAEKAIAAITRLSMDIGIPQHLRDLGVKETDFPYMAEMALKDGNAFSNPRKGNEQEIAAIFRQAF 3bfm-a1-m1-cA_3bfm-a1-m2-cA Crystal structure of a biotin protein ligase-like protein of unknown function (tm1040_0394) from silicibacter sp. tm1040 at 1.70 A resolution Q1GJN9 Q1GJN9 1.7 X-RAY DIFFRACTION 44 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 225 225 TITFPPLTGEAAGPGQDPFDLACQKAELGVDAGLVVYELGTDVLRAALVLAPEVPLAKAALPVCGVGFQNALGALAPPEVAVHLDWNGALRINGARCGRLRIAASTDDPDTQPDWLVVGLDLPLWPEGDGGETPDETALYAEGCADVAAPRLLESWARHCLHWINRWDEGELETIHGEWRGLAHGGEARTEAGRSGTFLGVDEDFGLLRDETTTHLIPLTTVLVQ TITFPPLTGEAAGPGQDPFDLACQKAELGVDAGLVVYELGTDVLRAALVLAPEVPLAKAALPVCGVGFQNALGALAPPEVAVHLDWNGALRINGARCGRLRIAASTDDPDTQPDWLVVGLDLPLWPEGDGGETPDETALYAEGCADVAAPRLLESWARHCLHWINRWDEGELETIHGEWRGLAHGGEARTEAGRSGTFLGVDEDFGLLRDETTTHLIPLTTVLVQ 3bg1-a1-m1-cA_3bg1-a1-m1-cE Architecture of a Coat for the Nuclear Pore Membrane P55735 P55735 3 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 285 3bg0-a1-m1-cA_3bg0-a1-m1-cE DMIHDAQMDYYGTRLATCSSDRSVKIFDVRNGGQILIADLRGHEGPVWQVAWAHPMYGNILASCSYDRKVIIWREENGTWEKSHEHAGHDSSVNSVCWAPHDYGLILACGSSDGAISLLTYTGEGQWEVKKINNAHTIGCNAVSWAPAVVPPSGQKPNYIKRFASGGCDNLIKLWKEEEDGQWKEEQKLEAHSDWVRDVAWAPSIGLPTSTIASCSQDGRVFIWTCDDASSNTWSPKLLHKFNDVVWHVSWSITANILAVSGGDNKVTLWKESVDGQWVCISDVN DMIHDAQMDYYGTRLATCSSDRSVKIFDVRNGGQILIADLRGHEGPVWQVAWAHPMYGNILASCSYDRKVIIWREENGTWEKSHEHAGHDSSVNSVCWAPHDYGLILACGSSDGAISLLTYTGEGQWEVKKINNAHTIGCNAVSWAPAVVPPSGQKPNYIKRFASGGCDNLIKLWKEEEDGQWKEEQKLEAHSDWVRDVAWAPSIGLPTSTIASCSQDGRVFIWTCDDASSNTWSPKLLHKFNDVVWHVSWSITANILAVSGGDNKVTLWKESVDGQWVCISDVN 3bg1-a3-m1-cG_3bg1-a3-m1-cF Architecture of a Coat for the Nuclear Pore Membrane P49687 P49687 3 X-RAY DIFFRACTION 82 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 420 423 3bg0-a1-m1-cC_3bg0-a1-m1-cB 3bg0-a1-m1-cG_3bg0-a1-m1-cF 3bg0-a2-m1-cC_3bg0-a2-m1-cB 3bg0-a3-m1-cG_3bg0-a3-m1-cF 3bg1-a1-m1-cC_3bg1-a1-m1-cB 3bg1-a1-m1-cG_3bg1-a1-m1-cF 3bg1-a2-m1-cC_3bg1-a2-m1-cB DEIDNAKLIMKERRFTASYTFAKFSTGSMLLTKDISGVSIKRLPTELQRKFLFDDVYLDKEIEKVTIEARKSNPYPQISESSLLFKDALDYMEKTSSDYNLWKLSSILFDPVSYPYKTDNDQVKMALLKKERHCRLTSWIVSQIGPEIEEKIRNSSNEIEQIFLYLLLNDVVRASKLAIESKNGHLSVLISYLGSNDPRIRDLAELQLQKWSTGGCSIDKNISKIYKLLSGSPFEGLFSLKELESEFSWLCLLNLTLCYGQIDEYSLESLVQSHLDKFSLPYDDPIGVIFQLYAANENTEKLYKEVRQRTNALDVQFCWYLIQTLRFNGTRVFSKETSDEATFAFAAQLEFAQLHGHSLFVSCFLNDDKAAEDTIKRLVMREITLLRASTNDHILNRLKIPSQLIFNAQALKDRYEGNYL DEIDNAKLIMKERRFTASYTFAKFSTGSMLLTKDIVGKSGVSIKRLPTELQRKFLFDDVYLDKEIEKVTIEARKSNPYPQISESSLLFKDALDYMEKTSSDYNLWKLSSILFDPVSYPYKTDNDQVKMALLKKERHCRLTSWIVSQIGPEIEEKIRNSSNEIEQIFLYLLLNDVVRASKLAIESKNGHLSVLISYLGSNDPRIRDLAELQLQKWSTGGCSIDKNISKIYKLLSGSPFEGLFSLKELESEFSWLCLLNLTLCYGQIDEYSLESLVQSHLDKFSLPYDDPIGVIFQLYAANENTEKLYKEVRQRTNALDVQFCWYLIQTLRFNGTRVFSKETSDEATFAFAAQLEFAQLHGHSLFVSCFLNDDKAAEDTIKRLVMREITLLRASTNDHILNRLKIPSQLIFNAQALKDRYEGNYL 3bga-a1-m1-cB_3bga-a1-m1-cA Crystal structure of beta-galactosidase from Bacteroides thetaiotaomicron VPI-5482 Q8A799 Q8A799 2.1 X-RAY DIFFRACTION 33 0.996 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 980 983 LKQPLPEWQSQYAVGLNKLAPHTYVWPYADASDIGKPGGYEQSPYYSLNGKWKFNWVKNPDNRPKDFYQPSYYTGGWADINVPGNWERQGYGTAIYVNETYEFDDKFNFKKNPPLVPFAENEVGSYRRTFKVPADWKGRRVVLCCEGVISFYYVWVNGKLLGYNQGSKTAAEWDITDVLSEGENVVALEVYRWSSGAYLECQDWRLSGIERDVYLYSTPKQYIADYKVSASLDKEKYKEGIFNLEVTVEGPSATASSIAYTLKDASGKAVLQDAINIKSRGLSNFIAFDEKKIAEVKAWNAEHPNLYTLVLELKDAQGKVTELTGCEVGFRTSEIKDGRFCINGVPVLVKGTNRHEHSQLGRTVSKELEQDIRLKQHNINVRNSHYPTHPYWYQLCDRYGLYIDEANIESHGGYGPASLAKDSTWLTAHDRTHRYERSKNHPAIVIWSQGNEAGNGINFERTYDWLKSVEKGRPVQYERAELNYNTDIYCRYRSVDEIKAYVGKKDIYRPFILCEYLHAGNSCGGKEYWEVFENEPAQGGCIWDWVDQNFREIDKDGKWYWTYGGDYGPEGIPSFGNFCGNGLVNAVREPHPHLLEVKKIYQNIKATLSDRKNLKVCIKNWYDFSNLNEYILRWNVKGEDGTVLAEGTKEVDCEPHATVDVTLGAVKLPNTVREAYLNLSWSRKEATPLVDTDWEVAYDQFVLAGNKNTTAYRPQKAGETAFVVDKNTGALSSLTLDGKELLAAPITLSLFRPATDNDNRDRNGARLWRKAGLNNLTQKVVSLKEEKTSATVRAEILNGKGQKVGADFVYALDKNGALKVRTTFQPDTAIVKSARLGLTFRADAYNQVSYLGRGDHETYIDRNQSGRIGLYDTTVERFHYYATPQSTANRTDVRWAKLTDQAGEGVFESNRPFQFSIIPFSDVLLEKAHHINELERDGITIHLDAEQAGVGTATCGPGVLPQYLVPVKKQSFEFTLYPVK LPEWQSQYAVGLNKLAPHTYVWPYADASDIGKPGGYEQSPYYSLNGKWKFNWVKNPDNRPKDFYQPSYYTGGWADINVPGNWERQGYGTAIYVNETYEFDDKFNFKKNPPLVPFAENEVGSYRRTFKVPADWKGRRVVLCCEGVISFYYVWVNGKLLGYNQGSKTAAEWDITDVLSEGENVVALEVYRWSSGAYLECQDWRLSGIERDVYLYSTPKQYIADYKVSASLDKEKYKEGIFNLEVTVEGPSATASSIAYTLKDASGKAVLQDAINIKSRGLSNFIAFDEKKIAEVKAWNAEHPNLYTLVLELKDAQGKVTELTGCEVGFRTSEIKDGRFCINGVPVLVKGTNRHEHSQLGRTVSKELEQDIRLKQHNINVRNSHYPTHPYWYQLCDRYGLYIDEANIESHGGYGPASLAKDSTWLTAHDRTHRYERSKNHPAIVIWSQGNEAGNGINFERTYDWLKSVEKGRPVQYERAELNYNTDIYCRYRSVDEIKAYVGKKDIYRPFILCEYLHAGNSCGGKEYWEVFENEPAQGGCIWDWVDQNFREIDKDGKWYWTYGGDYGPEGIPSFGNFCGNGLVNAVREPHPHLLEVKKIYQNIKATLSDRKNLKVCIKNWYDFSNLNEYILRWNVKGEDGTVLAEGTKEVDCEPHATVDVTLGAVKLPNTVREAYLNLSWSRKEATPLVDTDWEVAYDQFVLAGNKNTTAYRPQKAGETAFVVDKNTGALSSLTLDGKELLAAPITLSLFRPATDNDNRDRNGARLWRKAGLNNLTQKVVSLKEEKTSATVRAEILNGKGQKVGADFVYALDKNGALKVRTTFQPDTAIVKSARLGLTFRADAYNQVSYLGRGDHETYIDRNQSGRIGLYDTTVERFHYYATPQSTANRTDVRWAKLTDQAGEGVFESNRPFQFSIIPFSDVLLEKAHHINELERDGITIHLDAEQAGVGTATCGPGVLPQYLVPVKKQSFEFTLYPVKEGHHHHH 3bge-a1-m2-cB_3bge-a1-m4-cB Crystal structure of the C-terminal fragment of AAA+ATPase from Haemophilus influenzae Q4QL22 Q4QL22 1.85 X-RAY DIFFRACTION 143 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 163 163 3bge-a1-m1-cA_3bge-a1-m3-cA 3bge-a1-m1-cA_3bge-a1-m4-cA 3bge-a1-m1-cB_3bge-a1-m3-cB 3bge-a1-m1-cB_3bge-a1-m4-cB 3bge-a1-m2-cA_3bge-a1-m3-cA 3bge-a1-m2-cA_3bge-a1-m4-cA 3bge-a1-m2-cB_3bge-a1-m3-cB GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLMKENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLMKENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR 3bge-a1-m3-cA_3bge-a1-m4-cB Crystal structure of the C-terminal fragment of AAA+ATPase from Haemophilus influenzae Q4QL22 Q4QL22 1.85 X-RAY DIFFRACTION 16 0.988 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 163 163 3bge-a1-m1-cA_3bge-a1-m2-cB 3bge-a1-m1-cB_3bge-a1-m2-cA 3bge-a1-m3-cB_3bge-a1-m4-cA GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLAGENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLMKENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR 3bge-a1-m3-cB_3bge-a1-m4-cB Crystal structure of the C-terminal fragment of AAA+ATPase from Haemophilus influenzae Q4QL22 Q4QL22 1.85 X-RAY DIFFRACTION 18 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 163 163 3bge-a1-m1-cB_3bge-a1-m2-cB GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLMKENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLMKENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR 3bge-a1-m4-cA_3bge-a1-m4-cB Crystal structure of the C-terminal fragment of AAA+ATPase from Haemophilus influenzae Q4QL22 Q4QL22 1.85 X-RAY DIFFRACTION 32 0.988 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 163 163 3bge-a1-m1-cA_3bge-a1-m1-cB 3bge-a1-m2-cA_3bge-a1-m2-cB 3bge-a1-m3-cA_3bge-a1-m3-cB GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLAGENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR GDRFYDLISALHKSVRGSAPDAALYWYARILTAGGDPLYVARRLLAIASEDVGNADPRAMQVALAAWDCFTRVGAYEGERAIAQAIIYLSVAPKSNAVYTAFNTAKQQAKDLPDYDVPPHLRNAPTNLMKENYFPPELKDTQYYFPTNRGMEIQIKEKLERLR 3bgk-a1-m2-cA_3bgk-a1-m4-cA The crystal structure of hypothetic protein SMU.573 from Streptococcus mutans Q8DVC0 Q8DVC0 2.5 X-RAY DIFFRACTION 90 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 267 267 3bgk-a1-m1-cA_3bgk-a1-m3-cA 3bgk-a1-m1-cA_3bgk-a1-m4-cA 3bgk-a1-m2-cA_3bgk-a1-m3-cA IIDDLLTKKIIKPRPLNSHKGTFGRVLLIGGNYPYGGAIIAALACVNSGAGLVTVATHKDNITALHSHLPEAAFDVEKDRLSEQITAADVVLGPGLAEDDLAQTTFDVVWQAIEPKQTLIIDGSAINLLAKRKAIWPTKQIILTPHQKEWERLSGLTIPEQIEAATQTALAHFPKETILVAKSHQTKIYQGQKIGHIQVGGPYQATGGGDTLAGIAGFVAQFHTDRFEVAAAAVFLHSYIADQLSKEAYVVLPTRISAEITRVKESE IIDDLLTKKIIKPRPLNSHKGTFGRVLLIGGNYPYGGAIIAALACVNSGAGLVTVATHKDNITALHSHLPEAAFDVEKDRLSEQITAADVVLGPGLAEDDLAQTTFDVVWQAIEPKQTLIIDGSAINLLAKRKAIWPTKQIILTPHQKEWERLSGLTIPEQIEAATQTALAHFPKETILVAKSHQTKIYQGQKIGHIQVGGPYQATGGGDTLAGIAGFVAQFHTDRFEVAAAAVFLHSYIADQLSKEAYVVLPTRISAEITRVKESE 3bgu-a2-m1-cB_3bgu-a2-m3-cB Crystal structure of a dimeric ferredoxin-like protein of unknown function (tfu_0763) from thermobifida fusca yx at 1.50 A resolution Q47RW6 Q47RW6 1.5 X-RAY DIFFRACTION 91 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 102 102 3bgu-a1-m1-cA_3bgu-a1-m2-cA ENLYFQGGIRHIALFRWNDTVTPDQVEQVITALSKLPAAIPELKNYAFGADLGLAAGNYDFAVVADLDGEDGFRAYQDHPDHRAALAIIAPLADRVAVQFAL ENLYFQGGIRHIALFRWNDTVTPDQVEQVITALSKLPAAIPELKNYAFGADLGLAAGNYDFAVVADLDGEDGFRAYQDHPDHRAALAIIAPLADRVAVQFAL 3bgw-a2-m1-cD_3bgw-a2-m1-cE The Structure Of A DnaB-Like Replicative Helicase And Its Interactions With Primase Q38152 Q38152 3.91 X-RAY DIFFRACTION 127 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 409 419 3bgw-a1-m1-cA_3bgw-a1-m1-cF 3bgw-a1-m1-cB_3bgw-a1-m1-cC 3bgw-a1-m1-cD_3bgw-a1-m1-cE 3bgw-a3-m1-cB_3bgw-a3-m1-cC NEYAEQAVLGSILTEPELIKECPLTPEHFSPGKHFNIYFTMQDLDRKGQSVDFTSIAARVGEKLPQLGGFGYLTELAASVASTTTFKQHCQTVSEYFQKRKAISIAQQIIENVNVKPIQEAVSELMEIEIDEALVTVYEEIESADGNITGVPSGFTELDRMTYGYKRRNFVLIAARPSMGKTAFALKQAKNMSDNDDVVNLHSLEMGKKENIKRLIVTAGSINAQKIKAARRDFASEDWGKLSMAIGEISNSNINIFDKAGQSVNYIWSKTRQTKRKNPGKRVIVMIDYLQLLEPAKANDSRTNQISQISRDLKKMARELDVVVIALSQLSRQVEQRQDKRPMLSDLRESGQLEQDADIIEFLYRDDYYDKESESKNIVEVIIAKHRDGPVGTVSLAFIKEYGNFVNLE NEYAEQAVLGSILTEPELIKECPLTPEHFSPGKHFNIYFTMQDLDRKGQSVDFTSIAARVGEKLPQLGGFGYLTELAASVASTTTFKQHCQTVSEYFQKRKAISIAQQIIENVNVKPIQEAVSELMEIEASGTDDDDGSIDEALVTVYEEIESADGNITGVPSGFTELDRMTYGYKRRNFVLIAARPSMGKTAFALKQAKNMSDNDDVVNLHSLEMGKKENIKRLIVTAGSINAQKIKAARRDFASEDWGKLSMAIGEISNSNINIFDKAGQSVNYIWSKTRQTKRKNPGKRVIVMIDYLQLLEPAKANDSRTNQISQISRDLKKMARELDVVVIALSQLSRQVEQRQDKRPMLSDLRESGQLEQDADIIEFLYRDDYYDKESESKNIVEVIIAKHRDGPVGTVSLAFIKEYGNFVNLE 3bgw-a2-m1-cE_3bgw-a2-m1-cF The Structure Of A DnaB-Like Replicative Helicase And Its Interactions With Primase Q38152 Q38152 3.91 X-RAY DIFFRACTION 134 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 419 419 3bgw-a1-m1-cA_3bgw-a1-m1-cB 3bgw-a1-m1-cD_3bgw-a1-m1-cC 3bgw-a1-m1-cE_3bgw-a1-m1-cF 3bgw-a3-m1-cA_3bgw-a3-m1-cB NEYAEQAVLGSILTEPELIKECPLTPEHFSPGKHFNIYFTMQDLDRKGQSVDFTSIAARVGEKLPQLGGFGYLTELAASVASTTTFKQHCQTVSEYFQKRKAISIAQQIIENVNVKPIQEAVSELMEIEASGTDDDDGSIDEALVTVYEEIESADGNITGVPSGFTELDRMTYGYKRRNFVLIAARPSMGKTAFALKQAKNMSDNDDVVNLHSLEMGKKENIKRLIVTAGSINAQKIKAARRDFASEDWGKLSMAIGEISNSNINIFDKAGQSVNYIWSKTRQTKRKNPGKRVIVMIDYLQLLEPAKANDSRTNQISQISRDLKKMARELDVVVIALSQLSRQVEQRQDKRPMLSDLRESGQLEQDADIIEFLYRDDYYDKESESKNIVEVIIAKHRDGPVGTVSLAFIKEYGNFVNLE NEYAEQAVLGSILTEPELIKECPLTPEHFSPGKHFNIYFTMQDLDRKGQSVDFTSIAARVGEKLPQLGGFGYLTELAASVASTTTFKQHCQTVSEYFQKRKAISIAQQIIENVNVKPIQEAVSELMEIEASGTDDDDGSIDEALVTVYEEIESADGNITGVPSGFTELDRMTYGYKRRNFVLIAARPSMGKTAFALKQAKNMSDNDDVVNLHSLEMGKKENIKRLIVTAGSINAQKIKAARRDFASEDWGKLSMAIGEISNSNINIFDKAGQSVNYIWSKTRQTKRKNPGKRVIVMIDYLQLLEPAKANDSRTNQISQISRDLKKMARELDVVVIALSQLSRQVEQRQDKRPMLSDLRESGQLEQDADIIEFLYRDDYYDKESESKNIVEVIIAKHRDGPVGTVSLAFIKEYGNFVNLE 3bh1-a1-m1-cB_3bh1-a1-m1-cD Crystal structure of protein DIP2346 from Corynebacterium diphtheriae Q6NEC9 Q6NEC9 2.51 X-RAY DIFFRACTION 59 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 486 487 3bh1-a1-m1-cC_3bh1-a1-m1-cA TIGFDREKYIEMQSQHIRERREALGGKLYLEMGGKLFDDMHASRVLPGFTPDNKIAMLDRIKDEVEILVCINAKDLERHKIRADLGISYEEDVLRLVDVFRDRGFLVEHVVLTQLENDNRLALAFIERLQRLGIKVSRHRVIPGYPTDMDRIVSDEGFGLNEYAETTRDLVVVTAPGPGSGKLATCLSQVYHEHKRGVAAGYAKFETFPIWNLPLEHPVNLAYEAATVDLNDANVIDHFHLAAYGEQTVNYNRDVEAFPLLKTLLERLMGESPYQSPTDMGVNMAGNCISDDAACRHASEQEIIRRYFKALVEEARTGKDSTQSDRAAVVMAKAGIKASQRVVVEPARQVEERTSLPGCAIELVDGSIITGATSDLLGCSSSMLLNALKHLAGIDDAIHLLSPESIEPIQTLKTVHLGSSNPRLHTDEVLIALSVSAATDSNAQKALDQLKNLRGCDVHTTTILGSVDEGIFRNLGVLVTSDPKFQ NTIGFDREKYIEMQSQHIRERREALGGKLYLEMGGKLFDDMHASRVLPGFTPDNKIAMLDRIKDEVEILVCINAKDLERHKIRADLGISYEEDVLRLVDVFRDRGFLVEHVVLTQLENDNRLALAFIERLQRLGIKVSRHRVIPGYPTDMDRIVSDEGFGLNEYAETTRDLVVVTAPGPGSGKLATCLSQVYHEHKRGVAAGYAKFETFPIWNLPLEHPVNLAYEAATVDLNDANVIDHFHLAAYGEQTVNYNRDVEAFPLLKTLLERLMGESPYQSPTDMGVNMAGNCISDDAACRHASEQEIIRRYFKALVEEARTGKDSTQSDRAAVVMAKAGIKASQRVVVEPARQVEERTSLPGCAIELVDGSIITGATSDLLGCSSSMLLNALKHLAGIDDAIHLLSPESIEPIQTLKTVHLGSSNPRLHTDEVLIALSVSAATDSNAQKALDQLKNLRGCDVHTTTILGSVDEGIFRNLGVLVTSDPKFQ 3bh1-a1-m1-cC_3bh1-a1-m1-cB Crystal structure of protein DIP2346 from Corynebacterium diphtheriae Q6NEC9 Q6NEC9 2.51 X-RAY DIFFRACTION 16 0.996 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 483 486 TIGFDREKYIEMQSQHIRERREALGGKLYLEMGGKLFDDMHASRVLPGFTPDNKIAMLDRIKDEVEILVCINAKDLERHKIRAISYEEDVLRLVDVFRDRGFLVEHVVLTQNDNRLALAFIERLQRLGIKVSRHRVIPGYPTDMDRIVSDEGFGLNEYAETTRDLVVVTAPGPGSGKLATCLSQVYHEHKRGVAAGYAKFETFPIWNLPLEHPVNLAYEAATVDLNDANVIDHFHLAAYGEQTVNYNRDVEAFPLLKTLLERLMGESPYQSPTDMGVNMAGNCISDDAACRHASEQEIIRRYFKALVEEARTGKDSTQSDRAAVVMAKAGIKASQRVVVEPARQVEERTSLPGCAIELVDGSIITGATSDLLGCSSSMLLNALKHLAGIDDAIHLLSPESIEPIQTLKTVHLGSSNPRLHTDEVLIALSVSAATDSNAQKALDQLKNLRGCDVHTTTILGSVDEGIFRNLGVLVTSDPKFQKN TIGFDREKYIEMQSQHIRERREALGGKLYLEMGGKLFDDMHASRVLPGFTPDNKIAMLDRIKDEVEILVCINAKDLERHKIRADLGISYEEDVLRLVDVFRDRGFLVEHVVLTQLENDNRLALAFIERLQRLGIKVSRHRVIPGYPTDMDRIVSDEGFGLNEYAETTRDLVVVTAPGPGSGKLATCLSQVYHEHKRGVAAGYAKFETFPIWNLPLEHPVNLAYEAATVDLNDANVIDHFHLAAYGEQTVNYNRDVEAFPLLKTLLERLMGESPYQSPTDMGVNMAGNCISDDAACRHASEQEIIRRYFKALVEEARTGKDSTQSDRAAVVMAKAGIKASQRVVVEPARQVEERTSLPGCAIELVDGSIITGATSDLLGCSSSMLLNALKHLAGIDDAIHLLSPESIEPIQTLKTVHLGSSNPRLHTDEVLIALSVSAATDSNAQKALDQLKNLRGCDVHTTTILGSVDEGIFRNLGVLVTSDPKFQ 3bh1-a1-m1-cC_3bh1-a1-m1-cD Crystal structure of protein DIP2346 from Corynebacterium diphtheriae Q6NEC9 Q6NEC9 2.51 X-RAY DIFFRACTION 38 0.996 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 483 487 3bh1-a1-m1-cA_3bh1-a1-m1-cB TIGFDREKYIEMQSQHIRERREALGGKLYLEMGGKLFDDMHASRVLPGFTPDNKIAMLDRIKDEVEILVCINAKDLERHKIRAISYEEDVLRLVDVFRDRGFLVEHVVLTQNDNRLALAFIERLQRLGIKVSRHRVIPGYPTDMDRIVSDEGFGLNEYAETTRDLVVVTAPGPGSGKLATCLSQVYHEHKRGVAAGYAKFETFPIWNLPLEHPVNLAYEAATVDLNDANVIDHFHLAAYGEQTVNYNRDVEAFPLLKTLLERLMGESPYQSPTDMGVNMAGNCISDDAACRHASEQEIIRRYFKALVEEARTGKDSTQSDRAAVVMAKAGIKASQRVVVEPARQVEERTSLPGCAIELVDGSIITGATSDLLGCSSSMLLNALKHLAGIDDAIHLLSPESIEPIQTLKTVHLGSSNPRLHTDEVLIALSVSAATDSNAQKALDQLKNLRGCDVHTTTILGSVDEGIFRNLGVLVTSDPKFQKN NTIGFDREKYIEMQSQHIRERREALGGKLYLEMGGKLFDDMHASRVLPGFTPDNKIAMLDRIKDEVEILVCINAKDLERHKIRADLGISYEEDVLRLVDVFRDRGFLVEHVVLTQLENDNRLALAFIERLQRLGIKVSRHRVIPGYPTDMDRIVSDEGFGLNEYAETTRDLVVVTAPGPGSGKLATCLSQVYHEHKRGVAAGYAKFETFPIWNLPLEHPVNLAYEAATVDLNDANVIDHFHLAAYGEQTVNYNRDVEAFPLLKTLLERLMGESPYQSPTDMGVNMAGNCISDDAACRHASEQEIIRRYFKALVEEARTGKDSTQSDRAAVVMAKAGIKASQRVVVEPARQVEERTSLPGCAIELVDGSIITGATSDLLGCSSSMLLNALKHLAGIDDAIHLLSPESIEPIQTLKTVHLGSSNPRLHTDEVLIALSVSAATDSNAQKALDQLKNLRGCDVHTTTILGSVDEGIFRNLGVLVTSDPKFQ 3bh2-a1-m2-cB_3bh2-a1-m3-cD Structural Studies of Acetoacetate Decarboxylase P23670 P23670 2.4 X-RAY DIFFRACTION 160 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 244 244 3bh2-a1-m1-cA_3bh2-a1-m1-cC 3bh2-a1-m1-cB_3bh2-a1-m2-cD 3bh2-a1-m1-cD_3bh2-a1-m3-cB 3bh2-a1-m2-cA_3bh2-a1-m2-cC 3bh2-a1-m3-cA_3bh2-a1-m3-cC MVKDEVIKQISTPLTSPAFPRGPYKFHNREYFNIVYRTDMDALRKVVPEPLEIDEPLVRFEIMAMHDTSGLGCYTESGQAIPVSFNGVKGDYLHMMYLDNEPAIAVGRELSAYPKKLGYPKLFVDSDTLVGTLDYGKLRVATATMGYKHKALDANEAKDQICRPNYMLKIIPNYDGSPRICELINAKITDVTVHEAWTGPTRLQLFDHAMAPLNDLPVKEIVSSSHILADIILPRAEVIYDYLK MVKDEVIKQISTPLTSPAFPRGPYKFHNREYFNIVYRTDMDALRKVVPEPLEIDEPLVRFEIMAMHDTSGLGCYTESGQAIPVSFNGVKGDYLHMMYLDNEPAIAVGRELSAYPKKLGYPKLFVDSDTLVGTLDYGKLRVATATMGYKHKALDANEAKDQICRPNYMLKIIPNYDGSPRICELINAKITDVTVHEAWTGPTRLQLFDHAMAPLNDLPVKEIVSSSHILADIILPRAEVIYDYLK 3bh2-a1-m2-cD_3bh2-a1-m3-cD Structural Studies of Acetoacetate Decarboxylase P23670 P23670 2.4 X-RAY DIFFRACTION 35 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 244 244 3bh2-a1-m1-cA_3bh2-a1-m3-cB 3bh2-a1-m1-cA_3bh2-a1-m3-cC 3bh2-a1-m1-cB_3bh2-a1-m1-cC 3bh2-a1-m1-cB_3bh2-a1-m2-cA 3bh2-a1-m1-cC_3bh2-a1-m2-cA 3bh2-a1-m1-cD_3bh2-a1-m2-cD 3bh2-a1-m1-cD_3bh2-a1-m3-cD 3bh2-a1-m2-cB_3bh2-a1-m2-cC 3bh2-a1-m2-cB_3bh2-a1-m3-cA 3bh2-a1-m2-cC_3bh2-a1-m3-cA 3bh2-a1-m3-cB_3bh2-a1-m3-cC MVKDEVIKQISTPLTSPAFPRGPYKFHNREYFNIVYRTDMDALRKVVPEPLEIDEPLVRFEIMAMHDTSGLGCYTESGQAIPVSFNGVKGDYLHMMYLDNEPAIAVGRELSAYPKKLGYPKLFVDSDTLVGTLDYGKLRVATATMGYKHKALDANEAKDQICRPNYMLKIIPNYDGSPRICELINAKITDVTVHEAWTGPTRLQLFDHAMAPLNDLPVKEIVSSSHILADIILPRAEVIYDYLK MVKDEVIKQISTPLTSPAFPRGPYKFHNREYFNIVYRTDMDALRKVVPEPLEIDEPLVRFEIMAMHDTSGLGCYTESGQAIPVSFNGVKGDYLHMMYLDNEPAIAVGRELSAYPKKLGYPKLFVDSDTLVGTLDYGKLRVATATMGYKHKALDANEAKDQICRPNYMLKIIPNYDGSPRICELINAKITDVTVHEAWTGPTRLQLFDHAMAPLNDLPVKEIVSSSHILADIILPRAEVIYDYLK 3bh2-a1-m3-cB_3bh2-a1-m3-cD Structural Studies of Acetoacetate Decarboxylase P23670 P23670 2.4 X-RAY DIFFRACTION 37 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 244 244 3bh2-a1-m1-cA_3bh2-a1-m1-cB 3bh2-a1-m1-cA_3bh2-a1-m1-cD 3bh2-a1-m1-cB_3bh2-a1-m1-cD 3bh2-a1-m1-cC_3bh2-a1-m2-cC 3bh2-a1-m1-cC_3bh2-a1-m3-cC 3bh2-a1-m2-cA_3bh2-a1-m2-cB 3bh2-a1-m2-cA_3bh2-a1-m2-cD 3bh2-a1-m2-cB_3bh2-a1-m2-cD 3bh2-a1-m2-cC_3bh2-a1-m3-cC 3bh2-a1-m3-cA_3bh2-a1-m3-cB 3bh2-a1-m3-cA_3bh2-a1-m3-cD MVKDEVIKQISTPLTSPAFPRGPYKFHNREYFNIVYRTDMDALRKVVPEPLEIDEPLVRFEIMAMHDTSGLGCYTESGQAIPVSFNGVKGDYLHMMYLDNEPAIAVGRELSAYPKKLGYPKLFVDSDTLVGTLDYGKLRVATATMGYKHKALDANEAKDQICRPNYMLKIIPNYDGSPRICELINAKITDVTVHEAWTGPTRLQLFDHAMAPLNDLPVKEIVSSSHILADIILPRAEVIYDYLK MVKDEVIKQISTPLTSPAFPRGPYKFHNREYFNIVYRTDMDALRKVVPEPLEIDEPLVRFEIMAMHDTSGLGCYTESGQAIPVSFNGVKGDYLHMMYLDNEPAIAVGRELSAYPKKLGYPKLFVDSDTLVGTLDYGKLRVATATMGYKHKALDANEAKDQICRPNYMLKIIPNYDGSPRICELINAKITDVTVHEAWTGPTRLQLFDHAMAPLNDLPVKEIVSSSHILADIILPRAEVIYDYLK 3bh3-a1-m1-cC_3bh3-a1-m3-cD Crystal structure of acetoacetate decarboxylase from Chromobacterium violaceum in complex with acetyl acetone Schiff base intermediate Q7NSA6 Q7NSA6 2.1 X-RAY DIFFRACTION 183 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 244 245 3bgt-a1-m1-cA_3bgt-a1-m1-cB 3bgt-a1-m1-cC_3bgt-a1-m3-cD 3bgt-a1-m2-cA_3bgt-a1-m2-cB 3bgt-a1-m2-cC_3bgt-a1-m1-cD 3bgt-a1-m3-cA_3bgt-a1-m3-cB 3bgt-a1-m3-cC_3bgt-a1-m2-cD 3bgt-a2-m1-cA_3bgt-a2-m1-cB 3bgt-a3-m1-cC_3bgt-a3-m3-cD 3bh3-a1-m1-cA_3bh3-a1-m1-cB 3bh3-a1-m2-cA_3bh3-a1-m2-cB 3bh3-a1-m2-cC_3bh3-a1-m1-cD 3bh3-a1-m3-cA_3bh3-a1-m3-cB 3bh3-a1-m3-cC_3bh3-a1-m2-cD MKQQEVRQRAFAMPLTSPAFPPGPYRFVNREYMIITYRTDPAAIEAVLPEPLQMAEPVVRYEFIRMPDSTGFGDYSESGQVIPVTFRGERGSYTLAMFLDDQPPLAGGRELWGFPKKAGKPRLEVHQDTLVGSLDFGPVRIATGTMGYKYEALDRSALLASLAEPNFLLKIIPHVDGSPRICELVRYHTTDVAIKGAWSAPGSLELHPHALAPVAALPVLEVLSARHFVCDLTLDLGTVVFDYL MKQQEVRQRAFAMPLTSPAFPPGPYRFVNREYMIITYRTDPAAIEAVLPEPLQMAEPVVRYEFIRMPDSTGFGDYSESGQVIPVTFRGERGSYTLAMFLDDQPPLAGGRELWGFPKKAGKPRLEVHQDTLVGSLDFGPVRIATGTMGYKYEALDRSALLASLAEPNFLLKIIPHVDGSPRICELVRYHTTDVAIKGAWSAPGSLELHPHALAPVAALPVLEVLSARHFVCDLTLDLGTVVFDYLR 3bh3-a1-m2-cD_3bh3-a1-m3-cD Crystal structure of acetoacetate decarboxylase from Chromobacterium violaceum in complex with acetyl acetone Schiff base intermediate Q7NSA6 Q7NSA6 2.1 X-RAY DIFFRACTION 35 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 245 245 3bgt-a1-m1-cA_3bgt-a1-m2-cB 3bgt-a1-m1-cA_3bgt-a1-m2-cC 3bgt-a1-m1-cB_3bgt-a1-m1-cC 3bgt-a1-m1-cB_3bgt-a1-m3-cA 3bgt-a1-m1-cC_3bgt-a1-m3-cA 3bgt-a1-m1-cD_3bgt-a1-m2-cD 3bgt-a1-m1-cD_3bgt-a1-m3-cD 3bgt-a1-m2-cA_3bgt-a1-m3-cB 3bgt-a1-m2-cA_3bgt-a1-m3-cC 3bgt-a1-m2-cB_3bgt-a1-m2-cC 3bgt-a1-m2-cD_3bgt-a1-m3-cD 3bgt-a1-m3-cB_3bgt-a1-m3-cC 3bh3-a1-m1-cA_3bh3-a1-m2-cB 3bh3-a1-m1-cA_3bh3-a1-m2-cC 3bh3-a1-m1-cB_3bh3-a1-m1-cC 3bh3-a1-m1-cB_3bh3-a1-m3-cA 3bh3-a1-m1-cC_3bh3-a1-m3-cA 3bh3-a1-m1-cD_3bh3-a1-m2-cD 3bh3-a1-m1-cD_3bh3-a1-m3-cD 3bh3-a1-m2-cA_3bh3-a1-m3-cB 3bh3-a1-m2-cA_3bh3-a1-m3-cC 3bh3-a1-m2-cB_3bh3-a1-m2-cC 3bh3-a1-m3-cB_3bh3-a1-m3-cC MKQQEVRQRAFAMPLTSPAFPPGPYRFVNREYMIITYRTDPAAIEAVLPEPLQMAEPVVRYEFIRMPDSTGFGDYSESGQVIPVTFRGERGSYTLAMFLDDQPPLAGGRELWGFPKKAGKPRLEVHQDTLVGSLDFGPVRIATGTMGYKYEALDRSALLASLAEPNFLLKIIPHVDGSPRICELVRYHTTDVAIKGAWSAPGSLELHPHALAPVAALPVLEVLSARHFVCDLTLDLGTVVFDYLR MKQQEVRQRAFAMPLTSPAFPPGPYRFVNREYMIITYRTDPAAIEAVLPEPLQMAEPVVRYEFIRMPDSTGFGDYSESGQVIPVTFRGERGSYTLAMFLDDQPPLAGGRELWGFPKKAGKPRLEVHQDTLVGSLDFGPVRIATGTMGYKYEALDRSALLASLAEPNFLLKIIPHVDGSPRICELVRYHTTDVAIKGAWSAPGSLELHPHALAPVAALPVLEVLSARHFVCDLTLDLGTVVFDYLR 3bh3-a1-m3-cC_3bh3-a1-m3-cD Crystal structure of acetoacetate decarboxylase from Chromobacterium violaceum in complex with acetyl acetone Schiff base intermediate Q7NSA6 Q7NSA6 2.1 X-RAY DIFFRACTION 37 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 244 245 3bgt-a1-m1-cA_3bgt-a1-m1-cC 3bgt-a1-m1-cA_3bgt-a1-m1-cD 3bgt-a1-m1-cB_3bgt-a1-m2-cB 3bgt-a1-m1-cB_3bgt-a1-m3-cB 3bgt-a1-m1-cC_3bgt-a1-m1-cD 3bgt-a1-m2-cA_3bgt-a1-m2-cC 3bgt-a1-m2-cA_3bgt-a1-m2-cD 3bgt-a1-m2-cB_3bgt-a1-m3-cB 3bgt-a1-m2-cC_3bgt-a1-m2-cD 3bgt-a1-m3-cA_3bgt-a1-m3-cC 3bgt-a1-m3-cA_3bgt-a1-m3-cD 3bgt-a1-m3-cC_3bgt-a1-m3-cD 3bh3-a1-m1-cA_3bh3-a1-m1-cC 3bh3-a1-m1-cA_3bh3-a1-m1-cD 3bh3-a1-m1-cB_3bh3-a1-m2-cB 3bh3-a1-m1-cB_3bh3-a1-m3-cB 3bh3-a1-m1-cC_3bh3-a1-m1-cD 3bh3-a1-m2-cA_3bh3-a1-m2-cC 3bh3-a1-m2-cA_3bh3-a1-m2-cD 3bh3-a1-m2-cB_3bh3-a1-m3-cB 3bh3-a1-m2-cC_3bh3-a1-m2-cD 3bh3-a1-m3-cA_3bh3-a1-m3-cC 3bh3-a1-m3-cA_3bh3-a1-m3-cD MKQQEVRQRAFAMPLTSPAFPPGPYRFVNREYMIITYRTDPAAIEAVLPEPLQMAEPVVRYEFIRMPDSTGFGDYSESGQVIPVTFRGERGSYTLAMFLDDQPPLAGGRELWGFPKKAGKPRLEVHQDTLVGSLDFGPVRIATGTMGYKYEALDRSALLASLAEPNFLLKIIPHVDGSPRICELVRYHTTDVAIKGAWSAPGSLELHPHALAPVAALPVLEVLSARHFVCDLTLDLGTVVFDYL MKQQEVRQRAFAMPLTSPAFPPGPYRFVNREYMIITYRTDPAAIEAVLPEPLQMAEPVVRYEFIRMPDSTGFGDYSESGQVIPVTFRGERGSYTLAMFLDDQPPLAGGRELWGFPKKAGKPRLEVHQDTLVGSLDFGPVRIATGTMGYKYEALDRSALLASLAEPNFLLKIIPHVDGSPRICELVRYHTTDVAIKGAWSAPGSLELHPHALAPVAALPVLEVLSARHFVCDLTLDLGTVVFDYLR 3bh9-a2-m1-cA_3bh9-a2-m2-cA Crystal Structure of RTY Phosphopeptide Bound to Human Class I MHC HLA-A2 P04439 P04439 1.7 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 275 GSHSMRYFFTSVSRPGRGEPRFIAVGYVDDTQFVRFDSDAASQRMEPRAPWIEQEGPEYWDGETRKVKAHSQTHRVDLGTLRGYYNQSEAGSHTVQRMYGCDVGSDWRFLRGYHQYAYDGKDYIALKEDLRSWTAADMAAQTTKHKWEAAHVAEQLRAYLEGTCVEWLRRYLENGKETLQRTDAPKTHMTHHAVSDHEATLRCWALSFYPAEITLTWQRDGEDQTQDTELVETRPAGDGTFQKWAAVVVPSGQEQRYTCHVQHEGLPKPLTLRWE GSHSMRYFFTSVSRPGRGEPRFIAVGYVDDTQFVRFDSDAASQRMEPRAPWIEQEGPEYWDGETRKVKAHSQTHRVDLGTLRGYYNQSEAGSHTVQRMYGCDVGSDWRFLRGYHQYAYDGKDYIALKEDLRSWTAADMAAQTTKHKWEAAHVAEQLRAYLEGTCVEWLRRYLENGKETLQRTDAPKTHMTHHAVSDHEATLRCWALSFYPAEITLTWQRDGEDQTQDTELVETRPAGDGTFQKWAAVVVPSGQEQRYTCHVQHEGLPKPLTLRWE 3bhg-a1-m1-cA_3bhg-a1-m4-cA Crystal structure of adenylosuccinate lyase from Legionella pneumophila Q5ZXD1 Q5ZXD1 1.9 X-RAY DIFFRACTION 288 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 437 437 3bhg-a1-m2-cA_3bhg-a1-m3-cA LTALNAISPIDGRYVNKTRALSPYFSEFALTYYRLVEIKWFESLAANDTIPEVPALDNKARKFLSDLISNFNESEAEKIKEFEKQTNHDVKAVEYYLQDKFQENEQLKSCVAFIHFACTSEDINNLAYALIKQAIAQVIQPTIAEIGSITLLGKQHADVALSRTHGQPATPTTGKELVNFVARLKRPQQQLAEVLIPAKFNGAVGNYNAHVAAYPEVDWRKHCANFVTSLGLSFNAYTTQIEPHDGIAEVSQIVRINNILLDYTQDIWSYISLGYFKQKTSSTPHKVNPIDFENAEGNLGLSNALFIHFANKLTQSRQRDLSDSTVLRNLGVAFSYSLIAYHSVAKGNDKLQINKSALQKDLSENWEVLAEAIQTVRRYNEPNAYEQLKELTRGQIDAENLKKFIKTLSIPEEAKAELKLTPETYTGLATQLVKAFS LTALNAISPIDGRYVNKTRALSPYFSEFALTYYRLVEIKWFESLAANDTIPEVPALDNKARKFLSDLISNFNESEAEKIKEFEKQTNHDVKAVEYYLQDKFQENEQLKSCVAFIHFACTSEDINNLAYALIKQAIAQVIQPTIAEIGSITLLGKQHADVALSRTHGQPATPTTGKELVNFVARLKRPQQQLAEVLIPAKFNGAVGNYNAHVAAYPEVDWRKHCANFVTSLGLSFNAYTTQIEPHDGIAEVSQIVRINNILLDYTQDIWSYISLGYFKQKTSSTPHKVNPIDFENAEGNLGLSNALFIHFANKLTQSRQRDLSDSTVLRNLGVAFSYSLIAYHSVAKGNDKLQINKSALQKDLSENWEVLAEAIQTVRRYNEPNAYEQLKELTRGQIDAENLKKFIKTLSIPEEAKAELKLTPETYTGLATQLVKAFS 3bhg-a1-m2-cA_3bhg-a1-m4-cA Crystal structure of adenylosuccinate lyase from Legionella pneumophila Q5ZXD1 Q5ZXD1 1.9 X-RAY DIFFRACTION 36 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 437 437 3bhg-a1-m1-cA_3bhg-a1-m3-cA LTALNAISPIDGRYVNKTRALSPYFSEFALTYYRLVEIKWFESLAANDTIPEVPALDNKARKFLSDLISNFNESEAEKIKEFEKQTNHDVKAVEYYLQDKFQENEQLKSCVAFIHFACTSEDINNLAYALIKQAIAQVIQPTIAEIGSITLLGKQHADVALSRTHGQPATPTTGKELVNFVARLKRPQQQLAEVLIPAKFNGAVGNYNAHVAAYPEVDWRKHCANFVTSLGLSFNAYTTQIEPHDGIAEVSQIVRINNILLDYTQDIWSYISLGYFKQKTSSTPHKVNPIDFENAEGNLGLSNALFIHFANKLTQSRQRDLSDSTVLRNLGVAFSYSLIAYHSVAKGNDKLQINKSALQKDLSENWEVLAEAIQTVRRYNEPNAYEQLKELTRGQIDAENLKKFIKTLSIPEEAKAELKLTPETYTGLATQLVKAFS LTALNAISPIDGRYVNKTRALSPYFSEFALTYYRLVEIKWFESLAANDTIPEVPALDNKARKFLSDLISNFNESEAEKIKEFEKQTNHDVKAVEYYLQDKFQENEQLKSCVAFIHFACTSEDINNLAYALIKQAIAQVIQPTIAEIGSITLLGKQHADVALSRTHGQPATPTTGKELVNFVARLKRPQQQLAEVLIPAKFNGAVGNYNAHVAAYPEVDWRKHCANFVTSLGLSFNAYTTQIEPHDGIAEVSQIVRINNILLDYTQDIWSYISLGYFKQKTSSTPHKVNPIDFENAEGNLGLSNALFIHFANKLTQSRQRDLSDSTVLRNLGVAFSYSLIAYHSVAKGNDKLQINKSALQKDLSENWEVLAEAIQTVRRYNEPNAYEQLKELTRGQIDAENLKKFIKTLSIPEEAKAELKLTPETYTGLATQLVKAFS 3bhg-a1-m3-cA_3bhg-a1-m4-cA Crystal structure of adenylosuccinate lyase from Legionella pneumophila Q5ZXD1 Q5ZXD1 1.9 X-RAY DIFFRACTION 172 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 437 437 3bhg-a1-m1-cA_3bhg-a1-m2-cA LTALNAISPIDGRYVNKTRALSPYFSEFALTYYRLVEIKWFESLAANDTIPEVPALDNKARKFLSDLISNFNESEAEKIKEFEKQTNHDVKAVEYYLQDKFQENEQLKSCVAFIHFACTSEDINNLAYALIKQAIAQVIQPTIAEIGSITLLGKQHADVALSRTHGQPATPTTGKELVNFVARLKRPQQQLAEVLIPAKFNGAVGNYNAHVAAYPEVDWRKHCANFVTSLGLSFNAYTTQIEPHDGIAEVSQIVRINNILLDYTQDIWSYISLGYFKQKTSSTPHKVNPIDFENAEGNLGLSNALFIHFANKLTQSRQRDLSDSTVLRNLGVAFSYSLIAYHSVAKGNDKLQINKSALQKDLSENWEVLAEAIQTVRRYNEPNAYEQLKELTRGQIDAENLKKFIKTLSIPEEAKAELKLTPETYTGLATQLVKAFS LTALNAISPIDGRYVNKTRALSPYFSEFALTYYRLVEIKWFESLAANDTIPEVPALDNKARKFLSDLISNFNESEAEKIKEFEKQTNHDVKAVEYYLQDKFQENEQLKSCVAFIHFACTSEDINNLAYALIKQAIAQVIQPTIAEIGSITLLGKQHADVALSRTHGQPATPTTGKELVNFVARLKRPQQQLAEVLIPAKFNGAVGNYNAHVAAYPEVDWRKHCANFVTSLGLSFNAYTTQIEPHDGIAEVSQIVRINNILLDYTQDIWSYISLGYFKQKTSSTPHKVNPIDFENAEGNLGLSNALFIHFANKLTQSRQRDLSDSTVLRNLGVAFSYSLIAYHSVAKGNDKLQINKSALQKDLSENWEVLAEAIQTVRRYNEPNAYEQLKELTRGQIDAENLKKFIKTLSIPEEAKAELKLTPETYTGLATQLVKAFS 3bhn-a1-m1-cA_3bhn-a1-m2-cA Crystal structure of a dj-1/pfpi-like protein (shew_2856) from shewanella loihica pv-4 at 1.76 A resolution A3QGX4 A3QGX4 1.76 X-RAY DIFFRACTION 97 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 208 208 YKVGIVLFDDFTDVDFFLNDLLGRTSDSWTVRILGTKPEHHSQLGTVKTDGHVSEVKEQDVVLITSGYRGIPAALQDENFSALKLDPSRQLIGSICAGSFVLHELGLLKGKKLTTNPDAKAVLQGGGDVQDLPLVIEGNIATAGGCLSLLYLVGWLAERLFDSVKRKQIQNQLIPAGQEIFETLISETIQSAESAYEYRSACESDAES YKVGIVLFDDFTDVDFFLNDLLGRTSDSWTVRILGTKPEHHSQLGTVKTDGHVSEVKEQDVVLITSGYRGIPAALQDENFSALKLDPSRQLIGSICAGSFVLHELGLLKGKKLTTNPDAKAVLQGGGDVQDLPLVIEGNIATAGGCLSLLYLVGWLAERLFDSVKRKQIQNQLIPAGQEIFETLISETIQSAESAYEYRSACESDAES 3bhp-a4-m1-cA_3bhp-a4-m1-cC Crystal structure of UPF0291 protein ynzC from Bacillus subtilis at resolution 2.0 A. Northeast Structural Genomics Consortium target SR384 O31818 O31818 2.01 X-RAY DIFFRACTION 31 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 50 52 3bhp-a4-m1-cB_3bhp-a4-m1-cA 3bhp-a4-m1-cB_3bhp-a4-m1-cC ISNAKIARINELAAKAKAGVITEEEKAEQQKLRQEYLKGFRSSKNTLKSV ISNAKIARINELAAKAKAGVITEEEKAEQQKLRQEYLKGFRSSKNTLKSVLE 3bhq-a1-m1-cA_3bhq-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE TETR-FAMILY TRANSCRIPTIONAL REGULATOR (MLR_4833) FROM MESORHIZOBIUM LOTI MAFF303099 AT 1.54 A RESOLUTION Q98D70 Q98D70 1.54 X-RAY DIFFRACTION 81 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 194 194 ETRSARKDREIIQAATAAFISKGYDGTSEEIATKAGASKQTVYKHFTDKETLFGEVVLSTASQVNDIIESVTTLLSEAIFEGGLQQLARRLIAVLDEELLKLRRLIIANADRPQLGRAWYEKGFERLASTASCFQKLTNRGLIQTGDPYLAASHLFGLLWIPNEAFTGSNRRSKAELERHADASVEAFLAVYGV ETRSARKDREIIQAATAAFISKGYDGTSEEIATKAGASKQTVYKHFTDKETLFGEVVLSTASQVNDIIESVTTLLSEAIFEGGLQQLARRLIAVLDEELLKLRRLIIANADRPQLGRAWYEKGFERLASTASCFQKLTNRGLIQTGDPYLAASHLFGLLWIPNEAFTGSNRRSKAELERHADASVEAFLAVYGV 3bid-a4-m1-cH_3bid-a4-m1-cG Crystal structure of the NMB1088 protein from Neisseria meningitidis. Northeast Structural Genomics Consortium target MR91 Q7DDI1 Q7DDI1 2.7 X-RAY DIFFRACTION 88 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 56 59 3bid-a1-m1-cB_3bid-a1-m1-cA 3bid-a2-m1-cD_3bid-a2-m1-cC 3bid-a3-m1-cF_3bid-a3-m1-cE YFEIYKDAKGEYRWRLKAANHEIIAQGEGYTSKQNCQHAVDLLKSTTAATPVKEVL YFEIYKDAKGEYRWRLKAANHEIIAQGEGYTSKQNCQHAVDLLKSTTAATPVKEVLEHH 3bif-a1-m1-cA_3bif-a1-m2-cA 6-PHOSPHOFRUCTO-2-KINASE/FRUCTOSE-2,6-BISPHOSPHATASE EMPTY 6-PF-2K ACTIVE SITE P25114 P25114 2.3 X-RAY DIFFRACTION 24 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 432 432 CPTLIVMVGLPARGKTYISKKLTRYLNFIGVPTREFNVGQYRRDMVKTYKSFEFFLPDNEEGLKIRKQCALAALNDVRKFLSEEGGHVAVFDATNTTRERRAMIFNFGEQNGYKTFFVESICVDPEVIAANIVQVKLGSPDYVNRDSDEATEDFMRRIECYENSYESLDEEQDRDLSYIKIMDVGQSYVVNRVADHIQSRIVYYLMNIHVTPRSIYLCRHGESELNLKGRIGGDPGLSPRGREFSKHLAQFISDQNIKDLKVFTSQMKRTIQTAEALSVPYEQFKVLNEIDAGVCEEMTYEEIQDHYPLEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKAAEELPYLKCPLHTVLKLTPVAYGCKVESIFLNVAAVNTHRDRPQNVDISRPSEEALVTVPAHQ CPTLIVMVGLPARGKTYISKKLTRYLNFIGVPTREFNVGQYRRDMVKTYKSFEFFLPDNEEGLKIRKQCALAALNDVRKFLSEEGGHVAVFDATNTTRERRAMIFNFGEQNGYKTFFVESICVDPEVIAANIVQVKLGSPDYVNRDSDEATEDFMRRIECYENSYESLDEEQDRDLSYIKIMDVGQSYVVNRVADHIQSRIVYYLMNIHVTPRSIYLCRHGESELNLKGRIGGDPGLSPRGREFSKHLAQFISDQNIKDLKVFTSQMKRTIQTAEALSVPYEQFKVLNEIDAGVCEEMTYEEIQDHYPLEFALRDQDKYRYRYPKGESYEDLVQRLEPVIMELERQENVLVICHQAVMRCLLAYFLDKAAEELPYLKCPLHTVLKLTPVAYGCKVESIFLNVAAVNTHRDRPQNVDISRPSEEALVTVPAHQ 3bii-a1-m1-cE_3bii-a1-m2-cE Crystal Structure of Activated MPT Synthase P30749 P30749 2.5 X-RAY DIFFRACTION 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 142 142 1fm0-a2-m1-cE_1fm0-a2-m2-cE 1fma-a2-m1-cE_1fma-a2-m2-cE 1nvi-a1-m1-cE_1nvi-a1-m2-cE 1nvj-a1-m1-cA_1nvj-a1-m1-cB 1nvj-a2-m1-cC_1nvj-a2-m1-cD 1nvj-a3-m1-cE_1nvj-a3-m1-cF AETKIVVGPQPFSVGEEYPWLAERDEDGAVVTFTGKVRVNALTLEHYPGMTEKALAEIVDEARNRWPLGRVTVIHRIGELWPGDEIVFVGVTSAHRSSAFEAGQFIMDYLKTRAPFWKREATPEGDRWVEARESDQQAAKRW AETKIVVGPQPFSVGEEYPWLAERDEDGAVVTFTGKVRVNALTLEHYPGMTEKALAEIVDEARNRWPLGRVTVIHRIGELWPGDEIVFVGVTSAHRSSAFEAGQFIMDYLKTRAPFWKREATPEGDRWVEARESDQQAAKRW 3bij-a1-m2-cB_3bij-a1-m4-cB Crystal structure of protein GSU0716 from Geobacter sulfurreducens. Northeast Structural Genomics target GsR13 Q74F93 Q74F93 2.5 X-RAY DIFFRACTION 41 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 255 255 3bij-a1-m1-cA_3bij-a1-m3-cA 3bij-a1-m1-cA_3bij-a1-m4-cA 3bij-a1-m1-cB_3bij-a1-m3-cB 3bij-a1-m1-cB_3bij-a1-m4-cB 3bij-a1-m2-cA_3bij-a1-m3-cA 3bij-a1-m2-cA_3bij-a1-m4-cA 3bij-a1-m2-cB_3bij-a1-m3-cB 3bij-a2-m1-cC_3bij-a2-m3-cC 3bij-a2-m1-cC_3bij-a2-m4-cC 3bij-a2-m2-cC_3bij-a2-m3-cC 3bij-a2-m2-cC_3bij-a2-m4-cC 3bij-a2-m5-cC_3bij-a2-m7-cC 3bij-a2-m5-cC_3bij-a2-m8-cC 3bij-a2-m6-cC_3bij-a2-m7-cC 3bij-a2-m6-cC_3bij-a2-m8-cC PKGIALALGLNAVDPKHYGGWAGKLNACEADAEDAAIAAERGFAVTTLTKAATRAKVIDAIGKAAKALGKGDIFLSYSGHGGQVPDTSNDEPDGVDETWCLFDGELIDDELYALLGKFAAGVRVLVFSDSCHSGTVVKAYYNIRYRAPQSVARTYRANREFYDTIQQKTKKVDLADVKASILLISGCQDNQLSQDGAFNGAFTGQLLRVWKNGLYKGSYRSFHKAIVRRPPDQTPNFFTAGTPDPAFLKQRPFTV PKGIALALGLNAVDPKHYGGWAGKLNACEADAEDAAIAAERGFAVTTLTKAATRAKVIDAIGKAAKALGKGDIFLSYSGHGGQVPDTSNDEPDGVDETWCLFDGELIDDELYALLGKFAAGVRVLVFSDSCHSGTVVKAYYNIRYRAPQSVARTYRANREFYDTIQQKTKKVDLADVKASILLISGCQDNQLSQDGAFNGAFTGQLLRVWKNGLYKGSYRSFHKAIVRRPPDQTPNFFTAGTPDPAFLKQRPFTV 3bij-a2-m1-cC_3bij-a2-m8-cC Crystal structure of protein GSU0716 from Geobacter sulfurreducens. Northeast Structural Genomics target GsR13 Q74F93 Q74F93 2.5 X-RAY DIFFRACTION 15 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 257 257 3bij-a2-m2-cC_3bij-a2-m7-cC 3bij-a2-m3-cC_3bij-a2-m6-cC 3bij-a2-m4-cC_3bij-a2-m5-cC PKGIALALGLNAVDPKHYGGWAGKLNACEADAEDAAIAAERGFAVTTLTKAATRAKVIDAIGKAAKALGKGDIFLSYSGHGGQVPDTSNDEPDGVDETWCLFDGELIDDELYALLGKFAAGVRVLVFSDSCHSGTVVKAYYNIRYRAPQSVARTYRANREFYDTIQQKTKKVDLADVKASILLISGCQDNQLSQDGAFNGAFTGQLLRVWKNGLYKGSYRSFHKAIVRRPPDQTPNFFTAGTPDPAFLKQRPFTVLE PKGIALALGLNAVDPKHYGGWAGKLNACEADAEDAAIAAERGFAVTTLTKAATRAKVIDAIGKAAKALGKGDIFLSYSGHGGQVPDTSNDEPDGVDETWCLFDGELIDDELYALLGKFAAGVRVLVFSDSCHSGTVVKAYYNIRYRAPQSVARTYRANREFYDTIQQKTKKVDLADVKASILLISGCQDNQLSQDGAFNGAFTGQLLRVWKNGLYKGSYRSFHKAIVRRPPDQTPNFFTAGTPDPAFLKQRPFTVLE 3bij-a2-m4-cC_3bij-a2-m8-cC Crystal structure of protein GSU0716 from Geobacter sulfurreducens. Northeast Structural Genomics target GsR13 Q74F93 Q74F93 2.5 X-RAY DIFFRACTION 71 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 257 257 3bij-a1-m1-cB_3bij-a1-m1-cA 3bij-a1-m2-cB_3bij-a1-m2-cA 3bij-a1-m3-cB_3bij-a1-m3-cA 3bij-a1-m4-cB_3bij-a1-m4-cA 3bij-a2-m1-cC_3bij-a2-m6-cC 3bij-a2-m2-cC_3bij-a2-m5-cC 3bij-a2-m3-cC_3bij-a2-m7-cC PKGIALALGLNAVDPKHYGGWAGKLNACEADAEDAAIAAERGFAVTTLTKAATRAKVIDAIGKAAKALGKGDIFLSYSGHGGQVPDTSNDEPDGVDETWCLFDGELIDDELYALLGKFAAGVRVLVFSDSCHSGTVVKAYYNIRYRAPQSVARTYRANREFYDTIQQKTKKVDLADVKASILLISGCQDNQLSQDGAFNGAFTGQLLRVWKNGLYKGSYRSFHKAIVRRPPDQTPNFFTAGTPDPAFLKQRPFTVLE PKGIALALGLNAVDPKHYGGWAGKLNACEADAEDAAIAAERGFAVTTLTKAATRAKVIDAIGKAAKALGKGDIFLSYSGHGGQVPDTSNDEPDGVDETWCLFDGELIDDELYALLGKFAAGVRVLVFSDSCHSGTVVKAYYNIRYRAPQSVARTYRANREFYDTIQQKTKKVDLADVKASILLISGCQDNQLSQDGAFNGAFTGQLLRVWKNGLYKGSYRSFHKAIVRRPPDQTPNFFTAGTPDPAFLKQRPFTVLE 3bil-a1-m1-cA_3bil-a1-m1-cB Crystal structure of a probable LacI family transcriptional regulator from Corynebacterium glutamicum Q8NQQ9 Q8NQQ9 2.5 X-RAY DIFFRACTION 87 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 257 257 TIGVIVPSLINHYFAAMVTEIQSTASKAGLATIITNSNEDATTMSGSLEFLTSHGVDGIICVPNEECANQLEDLQKQMPVVLVDRELPGDTIPTATSNPQPGIAAAVELLAHNNALPIGYLSGPMDTSTGRERLEDFKAACANSKIGEQLVFLGGYEQSVGFEGATKLLDQGAKTLFAGDSMMTIGVIEACHKAGLVIGKDVSVIGFDTHPLFALQPHPLTVIDQNVEQLAQRAVSILTELTTIPTALIHRESIINS TIGVIVPSLINHYFAAMVTEIQSTASKAGLATIITNSNEDATTMSGSLEFLTSHGVDGIICVPNEECANQLEDLQKQMPVVLVDRELPGDTIPTATSNPQPGIAAAVELLAHNNALPIGYLSGPMDTSTGRERLEDFKAACANSKIGEQLVFLGGYEQSVGFEGATKLLDQGAKTLFAGDSMMTIGVIEACHKAGLVIGKDVSVIGFDTHPLFALQPHPLTVIDQNVEQLAQRAVSILTELTTIPTALIHRESIINS 3bio-a2-m2-cB_3bio-a2-m3-cB Crystal structure of oxidoreductase (Gfo/Idh/MocA family member) from Porphyromonas gingivalis W83 Q7MW40 Q7MW40 1.8 X-RAY DIFFRACTION 40 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 281 281 3bio-a2-m1-cA_3bio-a2-m2-cA 3bio-a2-m1-cA_3bio-a2-m3-cA 3bio-a2-m1-cB_3bio-a2-m2-cB 3bio-a2-m1-cB_3bio-a2-m3-cB 3bio-a2-m2-cA_3bio-a2-m3-cA KKIRAAIVGYGNIGRYALQALREAPDFEIAGIVRRNPAQPFRVVSDIEQLESVDVALVCSPSREVERTALEILKKGICTADSFDIHDGILALRRSLGDAAGKSGAAAVIASGWDPGSDSVVRTLQAIVPKGITYTNFGPGSGHTVAVKAIDGVKAALSTIPLGTGVHRRVYVELLPGHNLEEVSAAIKADEYFVHDETHVIQVDEVDALIDGHGVRVRKGVSGSTQNQRSFDEINNPALTGQVLVCAARAARQQPGAYTLQEIPVIDLLPGDREQWIGKLC KKIRAAIVGYGNIGRYALQALREAPDFEIAGIVRRNPAQPFRVVSDIEQLESVDVALVCSPSREVERTALEILKKGICTADSFDIHDGILALRRSLGDAAGKSGAAAVIASGWDPGSDSVVRTLQAIVPKGITYTNFGPGSGHTVAVKAIDGVKAALSTIPLGTGVHRRVYVELLPGHNLEEVSAAIKADEYFVHDETHVIQVDEVDALIDGHGVRVRKGVSGSTQNQRSFDEINNPALTGQVLVCAARAARQQPGAYTLQEIPVIDLLPGDREQWIGKLC 3bio-a2-m3-cA_3bio-a2-m3-cB Crystal structure of oxidoreductase (Gfo/Idh/MocA family member) from Porphyromonas gingivalis W83 Q7MW40 Q7MW40 1.8 X-RAY DIFFRACTION 213 0.993 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 280 281 3bio-a1-m1-cA_3bio-a1-m1-cB 3bio-a2-m1-cA_3bio-a2-m1-cB 3bio-a2-m2-cA_3bio-a2-m2-cB KKIRAAIVGYGNIGRYALQALREAPDFEIAGIVRRELQPFRVVSDIEQLESVDVALVCSPSREVERTALEILKKGICTADSFDIHDGILALRRSLGDAAGKSGAAAVIASGWDPGSDSVVRTLQAIVPKGITYTNFGPGSGHTVAVKAIDGVKAALSTIPLGTGVHRRVYVELLPGHNLEEVSAAIKADEYFVHDETHVIQVDEVDALIDGHGVRVRKGVSGSTQNQRSFDEINNPALTGQVLVCAARAARQQPGAYTLQEIPVIDLLPGDREQWIGKLC KKIRAAIVGYGNIGRYALQALREAPDFEIAGIVRRNPAQPFRVVSDIEQLESVDVALVCSPSREVERTALEILKKGICTADSFDIHDGILALRRSLGDAAGKSGAAAVIASGWDPGSDSVVRTLQAIVPKGITYTNFGPGSGHTVAVKAIDGVKAALSTIPLGTGVHRRVYVELLPGHNLEEVSAAIKADEYFVHDETHVIQVDEVDALIDGHGVRVRKGVSGSTQNQRSFDEINNPALTGQVLVCAARAARQQPGAYTLQEIPVIDLLPGDREQWIGKLC 3biw-a1-m1-cA_3biw-a1-m1-cD Crystal structure of the Neuroligin-1/Neurexin-1beta synaptic adhesion complex Q62765 Q62765 3.5 X-RAY DIFFRACTION 45 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 533 533 3b3q-a1-m1-cA_3b3q-a1-m1-cB 3biw-a2-m1-cB_3biw-a2-m1-cC 3bix-a1-m1-cA_3bix-a1-m2-cC 3bix-a2-m1-cB_3bix-a2-m1-cD 3vkf-a1-m1-cB_3vkf-a1-m1-cA 5oj6-a1-m1-cA_5oj6-a1-m2-cA 5ojk-a1-m1-cA_5ojk-a1-m1-cB DPLVTTNFGKIRGIKKELNNEILGPVIQFLGVPYAAPPTGEHRFQPPEPPSPWSDIRNATQFAPVCPQNIIDGRLPEVMLPVWFTNNLDVVSSYVQDQSEDCLYLNIYVPTIRDSGGPKPVMVYIHGGSYMEGTGNLYDGSVLASYGNVIVITVNYRLGVLGFLSTGDQAAKGNYGLLDLIQALRWTSENIGFFGGDPLRITVFGSGAGGSCVNLLTLSHYSEKGLFQRAIAQSGTALSSWAVSFQPAKYARILATKVGCNVSDTVELVECLQKKPYKELVDQDVQPARYHIAFGPVIDGDVIPDDPQILMEQGEFLNYDIMLGVNQGEGLKFVENIVDSDDGVSASDFDFAVSNFVDNLYGVLRETIKFMYTDWADRHNPETRRKTLLALFTDHQWVAPAVATADLHSNFGSPTYFYAFYHHCQTDQVPAWADAAHGDEVPYVLGIPMIGPTELFPCNFSKNDVMLSAVVMTYWTNFAKTGDPNQPVEVAWTRYSQKDQLYLHIGLKPRVKEHYRANKVNLWLELVPHLHNL DPLVTTNFGKIRGIKKELNNEILGPVIQFLGVPYAAPPTGEHRFQPPEPPSPWSDIRNATQFAPVCPQNIIDGRLPEVMLPVWFTNNLDVVSSYVQDQSEDCLYLNIYVPTIRDSGGPKPVMVYIHGGSYMEGTGNLYDGSVLASYGNVIVITVNYRLGVLGFLSTGDQAAKGNYGLLDLIQALRWTSENIGFFGGDPLRITVFGSGAGGSCVNLLTLSHYSEKGLFQRAIAQSGTALSSWAVSFQPAKYARILATKVGCNVSDTVELVECLQKKPYKELVDQDVQPARYHIAFGPVIDGDVIPDDPQILMEQGEFLNYDIMLGVNQGEGLKFVENIVDSDDGVSASDFDFAVSNFVDNLYGVLRETIKFMYTDWADRHNPETRRKTLLALFTDHQWVAPAVATADLHSNFGSPTYFYAFYHHCQTDQVPAWADAAHGDEVPYVLGIPMIGPTELFPCNFSKNDVMLSAVVMTYWTNFAKTGDPNQPVEVAWTRYSQKDQLYLHIGLKPRVKEHYRANKVNLWLELVPHLHNL 3bj1-a1-m1-cB_3bj1-a1-m1-cD met-Perch Hemoglobin at pH 5.7 D0VWV3 D0VWV3 1.9 X-RAY DIFFRACTION 26 1.0 8167 (Perca flavescens) 8167 (Perca flavescens) 145 145 1xq5-a1-m1-cB_1xq5-a1-m1-cD 3bj2-a1-m1-cB_3bj2-a1-m1-cD 3bj3-a1-m1-cB_3bj3-a1-m1-cD VVWTDFERATIADIFSKLDYEAVGGATLARCLIVYPWTQRYFGNFGNLNAAAIMGNPMIAKHGTTILHGLDRAVKNMDNIKATYAELSVLHSEKLHVDPDNFKLLSDCLTIVVAAQLGKAFSGEVQAAFQKFLSVVVSALGKQYH VVWTDFERATIADIFSKLDYEAVGGATLARCLIVYPWTQRYFGNFGNLNAAAIMGNPMIAKHGTTILHGLDRAVKNMDNIKATYAELSVLHSEKLHVDPDNFKLLSDCLTIVVAAQLGKAFSGEVQAAFQKFLSVVVSALGKQYH 3bj4-a1-m2-cA_3bj4-a1-m2-cB The KCNQ1 (Kv7.1) C-terminus, a multi-tiered scaffold for subunit assembly and protein interaction P51787 P51787 2 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 38 3bj4-a1-m1-cA_3bj4-a1-m1-cB 3bj4-a1-m1-cA_3bj4-a1-m2-cB 3bj4-a1-m2-cA_3bj4-a1-m1-cB SNTIGARLNRVEDKVTQLDQRLALITDMLHQLLSLHG GSNTIGARLNRVEDKVTQLDQRLALITDMLHQLLSLHG 3bj6-a1-m1-cB_3bj6-a1-m1-cA Crystal structure of MarR family transcription regulator SP03579 Q5LMI4 Q5LMI4 2.01 X-RAY DIFFRACTION 164 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 148 149 NATHETDQLYQAVQATRPLLRNITAAVERGTLREGVTVGQRAILEGLSLTPGATAPQLGAALQKRQYISRILQEVQRAGLIERRTNPEHARSHRYWLTPRGEAIITAIRADEAKLALFSEGFSSVELTAYHKVQLALTRFFADLAKEA SNATHETDQLYQAVQATRPLLRNITAAVERGTLREGVTVGQRAILEGLSLTPGATAPQLGAALQKRQYISRILQEVQRAGLIERRTNPEHARSHRYWLTPRGEAIITAIRADEAKLALFSEGFSSVELTAYHKVQLALTRFFADLAKEA 3bja-a1-m1-cA_3bja-a1-m2-cA Crystal structure of putative MarR-like transcription regulator (NP_978771.1) from Bacillus cereus ATCC 10987 at 2.38 A resolution Q738D3 Q738D3 2.38 X-RAY DIFFRACTION 127 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 132 132 GNNRELYGNIRDVYHLLQKNLDKAIEQYDISYVQFGVIQVLAKSGKVSSKLIENGCVPSNTTIQRKRDGYVTEKNPNDQRETLVYLTKKGEETKKQVDVQYSDFLKENCGCFTKEEEGILEDLLLKWKKHLN GNNRELYGNIRDVYHLLQKNLDKAIEQYDISYVQFGVIQVLAKSGKVSSKLIENGCVPSNTTIQRKRDGYVTEKNPNDQRETLVYLTKKGEETKKQVDVQYSDFLKENCGCFTKEEEGILEDLLLKWKKHLN 3bjb-a3-m1-cE_3bjb-a3-m1-cF Crystal structure of a TetR transcriptional regulator from Rhodococcus sp. RHA1 Q0S4E5 Q0S4E5 2.5 X-RAY DIFFRACTION 80 0.994 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 176 176 3bjb-a1-m1-cA_3bjb-a1-m1-cB SEEQRARHVRLEAAIELATEKELARVQHEVAKRAGVAIGTLYRYFPSKTHLFVAVVDQIDRGVPPGESPQDAVYNVLVRATRGLLRRPALSTAIQSTSTANVASVPDAGKVDRAFRQILDAAGIEHPTEEDLTALRLLVQLWFGVIQSCLNGRVSIPDAESDIRRACDLLLVNLSH EEQRARHVRLEAAIELATEKELARVQHEVAKRAGVAIGTLYRYFPSKTHLFVAVVDQIDRGVGPPGESPQDAVYNVLVRATRGLLRRPALSTAIQSTSTANVASVPDAGKVDRAFRQILDAAGIEHPTEEDLTALRLLVQLWFGVIQSCLNGRVSIPDAESDIRRACDLLLVNLSH 3bjd-a2-m1-cC_3bjd-a2-m2-cC Crystal structure of putative 3-oxoacyl-(acyl-carrier-protein) synthase from Pseudomonas aeruginosa Q9HY91 Q9HY91 1.85 X-RAY DIFFRACTION 110 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 320 320 3bjd-a1-m1-cA_3bjd-a1-m1-cB NTRNFSLPQLQNLPIEEARIVADALAVHATSRQIDSAASKLAALAEAGLKGDRQAYAAYQQLLYVLSLSDDVATAQTRRWLARAIYRVEERFPAADLSRALSEEDFQKRLEQEIAAQSRERHPSQYVFSGSASRAQLQVFLRHQWFRTFRLYRDAADLLVNLTDVDEAAALARYLYGELGEEDEKGSHPRLLAKLLEAIGLEADFQAVSTPEEIAYLNNRARAFRHAEVGWGLAVFYITELVVNHEKLYRALLQAGLSEDQAEYYKVHISLVPPRAKREWQLIARRIPDVQFQNAFLTSLSQHFRVERAYYDAIWEEQSV NTRNFSLPQLQNLPIEEARIVADALAVHATSRQIDSAASKLAALAEAGLKGDRQAYAAYQQLLYVLSLSDDVATAQTRRWLARAIYRVEERFPAADLSRALSEEDFQKRLEQEIAAQSRERHPSQYVFSGSASRAQLQVFLRHQWFRTFRLYRDAADLLVNLTDVDEAAALARYLYGELGEEDEKGSHPRLLAKLLEAIGLEADFQAVSTPEEIAYLNNRARAFRHAEVGWGLAVFYITELVVNHEKLYRALLQAGLSEDQAEYYKVHISLVPPRAKREWQLIARRIPDVQFQNAFLTSLSQHFRVERAYYDAIWEEQSV 3bje-a1-m1-cA_3bje-a1-m1-cB Crystal structure of Trypanosoma brucei nucleoside phosphorylase shows uridine phosphorylase activity Q57VZ2 Q57VZ2 1.44 X-RAY DIFFRACTION 212 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 327 327 DLPIGKDGTTLHLKCKSDELADRIIFVGDPGRVDVISGYFDKDSIRASRDHREIRFATGTYKGTPVTVISTGMGVDNIEIVLNEIHALKEYDMERGQWRHRKGDADAPSAGPFFDPSTMKIIRLGTCGSPAESVPPLALAVTRHAIGMDNTSLYYSAGTRETSKDQQEIRRIVREQTGLRAIDIYTSMAHPNITKSICAACDAHNAATGSEADKQQYVIGTTATASGFYGCQGRRVGRFMKHLTVPNMVEELGSLKFNLSNGVEVVTNIEMETSAICYLSDMLGYQAGAACVVVSKRVGEKKMFLGDQLDAAMKRCIKIILEALVSA DLPIGKDGTTLHLKCKSDELADRIIFVGDPGRVDVISGYFDKDSIRASRDHREIRFATGTYKGTPVTVISTGMGVDNIEIVLNEIHALKEYDMERGQWRHRKGDADAPSAGPFFDPSTMKIIRLGTCGSPAESVPPLALAVTRHAIGMDNTSLYYSAGTRETSKDQQEIRRIVREQTGLRAIDIYTSMAHPNITKSICAACDAHNAATGSEADKQQYVIGTTATASGFYGCQGRRVGRFMKHLTVPNMVEELGSLKFNLSNGVEVVTNIEMETSAICYLSDMLGYQAGAACVVVSKRVGEKKMFLGDQLDAAMKRCIKIILEALVSA 3bjq-a1-m1-cD_3bjq-a1-m1-cE CRYSTAL STRUCTURE OF A PHAGE-RELATED PROTEIN (BB3626) FROM BORDETELLA BRONCHISEPTICA RB50 AT 2.05 A RESOLUTION A0A0H3LS71 A0A0H3LS71 2.05 X-RAY DIFFRACTION 69 0.99 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 297 299 3bjq-a1-m1-cA_3bjq-a1-m1-cD 3bjq-a1-m1-cB_3bjq-a1-m1-cE 3bjq-a1-m1-cC_3bjq-a1-m1-cA 3bjq-a1-m1-cC_3bjq-a1-m1-cB 3bjq-a1-m1-cF_3bjq-a1-m1-cJ 3bjq-a1-m1-cG_3bjq-a1-m1-cF 3bjq-a1-m1-cH_3bjq-a1-m1-cI 3bjq-a1-m1-cH_3bjq-a1-m1-cJ 3bjq-a1-m1-cI_3bjq-a1-m1-cG QARVVDPILSTHARGYRQSTLIGKKLFPVAPVAQYGGKILTFGKEAFRLYNTKRTKRIDFGYEGDPYSIVPSALEAKVPRELRDASQVPGIDLGARSVNTVLRIALAHEHECAQIALDPAKYNADHKVKLVGSARWTSPDSDPTKDVETAKEAIADSIGEPNRLLSRKALSACKYHPKLIERVKYTRAESITIDLKALWEVEEIVVGTARVATGANDSFGDVWGPDVWLGYVSDNPDPSVEEPSFGYTYQIEGHPLVEVPYWDNNAKSWIYGVSDDNTPALSGLAGYLIEDAGLPAA QARVVDPILSTHARGYRQSTLIGKKLFPVAPVAQYGGKILTFGKEAFRLYNTKRAPGANTKRIDFGYEGDPYSIVPSALEAKVPRELRDASQVPGIDLGARSVNTVLRIALAHEHECAQIALDPAKYNADHKVKLVGSARWTSPDSDPTKDVETAKEAIADSIGEPNRLLSRKALSACKYHPKLIERVKYTRAESITIDLKALWEVEEIVVGTARVATDSFGDVWGPDVWLGYVSDNPDPSVEEPSFGYTYQIEGHPLVEVPYWDNNAKSWIYGVSDDNTPALSGLAGYLIEDAGLPAA 3bjq-a1-m1-cG_3bjq-a1-m1-cB CRYSTAL STRUCTURE OF A PHAGE-RELATED PROTEIN (BB3626) FROM BORDETELLA BRONCHISEPTICA RB50 AT 2.05 A RESOLUTION A0A0H3LS71 A0A0H3LS71 2.05 X-RAY DIFFRACTION 25 0.997 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 289 297 3bjq-a1-m1-cA_3bjq-a1-m1-cJ 3bjq-a1-m1-cC_3bjq-a1-m1-cF 3bjq-a1-m1-cH_3bjq-a1-m1-cD 3bjq-a1-m1-cI_3bjq-a1-m1-cE QARVVDPILSTHARGYRQSTLIGKKLFPVAPVAQYGGKILTFGKEAFRLYNTKRTKRIDFGYEGDPYSIVPSALEAKVPRELRDASQVPGIDLGARSVNTVLRIALAHEHECAQIALDPAKYNADHKVKLVGSARWTSPDSDPTKDVETAKEAIADSIGEPNRLLSRKALSACKYHPKLIERVSITIDLKALWEVEEIVVGTARVATGDSFGDVWGPDVWLGYVSDNPDPSVEEPSFGYTYQIEGHPLVEVPYWDNNAKSWIYGVSDDNTPALSGLAGYLIEDAGLPAA QARVVDPILSTHARGYRQSTLIGKKLFPVAPVAQYGGKILTFGKEAFRLYNTKRNTKRIDFGYEGDPYSIVPSALEAKVPRELRDASQVPGIDLGARSVNTVLRIALAHEHECAQIALDPAKYNADHKVKLVGSARWTSPDSDPTKDVETAKEAIADSIGEPNRLLSRKALSACKYHPKLIERVKYTRAESITIDLKALWEVEEIVVGTARVATGANDSFGDVWGPDVWLGYVSDNPDPSVEEPSFGYTYQIEGHPLVEVPYWDNNAKSWIYGVSDDNTPALSGLAGYLIEDAGLPA 3bjr-a1-m1-cA_3bjr-a1-m2-cA Crystal structure of a putative carboxylesterase (lp_1002) from lactobacillus plantarum wcfs1 at 2.09 A resolution F9UMI7 F9UMI7 2.09 X-RAY DIFFRACTION 65 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 241 241 FQGQVIKQKLTATCAQLTGYLHTNLPAIIIVPGGSYTHIPVAQAESLAAFAGHGYQAFYLEYTLLTDQQPLGLAPVLDLGRAVNLLRQHAAEWHIDPQQITPAGFSVGGHIVALYNDYWATRVATELNVTPALKPNNVVLGYPVISPLLGFTWTPTPNELAADQHVNSDNQPTFIWTTADDPIVPATNTLAYATALATAKIPYELHVFKHGPHGLALANAQTAWKVAHWLTLALEWLADNR FQGQVIKQKLTATCAQLTGYLHTNLPAIIIVPGGSYTHIPVAQAESLAAFAGHGYQAFYLEYTLLTDQQPLGLAPVLDLGRAVNLLRQHAAEWHIDPQQITPAGFSVGGHIVALYNDYWATRVATELNVTPALKPNNVVLGYPVISPLLGFTWTPTPNELAADQHVNSDNQPTFIWTTADDPIVPATNTLAYATALATAKIPYELHVFKHGPHGLALANAQTAWKVAHWLTLALEWLADNR 3bjs-a1-m2-cA_3bjs-a1-m4-cB Crystal structure of a member of enolase superfamily from Polaromonas sp. JS666 Q120Q7 Q120Q7 2.7 X-RAY DIFFRACTION 95 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 370 376 3bjs-a1-m1-cA_3bjs-a1-m3-cB 3bjs-a1-m3-cA_3bjs-a1-m2-cB 3bjs-a1-m4-cA_3bjs-a1-m1-cB MKITKINAIPLSYRLPTVTMGVGSTIKRDAIIIRVETSEGITGYGEAHPGRSPGAITSLIHNTIAPMLIGMKATDCVGAWQRVHRMQLSSHGLGAGAALAISGIDMALWDIRGKAANMPLYELLGGSKRRIPAYAGGIALGYQPKESLAEEAQEYIARGYKALKLRIGDAARVDIERVRHVRKVLGDEVDILTDANTAYTMADARRVLPVLAEIQAGWLEEPFACNDFASYREVAKITPLVPIAAGENHYTRFEFGQMLDAGAVQVWQPDLSKCGGITEGIRIAAMASAYRIPINAHSSATGLNHAATIHFLAATENAGYFEACVSKFNPFRDMFGTFEIGADGCVEPPDAPGLGIEVDESIFEKYPAVD MKITKINAIPLSYRLPTVTMGVGSTIKRDAIIIRVETSEGITGYGEAHPGRSPGAITSLIHNTIAPMLIGMKATDCVGAWQRVHRMQLSSHGLGAGAALAISGIDMALWDIRGKAANMPLYELLGGSKRRIPAYAGGIALGYQPKESLAEEAQEYIARGYKALKLRIGDAARVDIERVRHVRKVLGDEVDILTDANTAYTMADARRVLPVLAEIQAGWLEEPFACNDFASYREVAKITPLVPIAAGENHYTRFEFGQMLDAGAVQVWQPDLSKCGGITEGIRIAAMASAYRIPINAHSSATGLNHAATIHFLAATENAGYFEACVSKFNPFRDMFGTFEIGADGCVEPPDAPGLGIEVDESIFEKYPAVDGPGYVV 3bjs-a1-m2-cB_3bjs-a1-m4-cB Crystal structure of a member of enolase superfamily from Polaromonas sp. JS666 Q120Q7 Q120Q7 2.7 X-RAY DIFFRACTION 27 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 376 376 3bjs-a1-m1-cA_3bjs-a1-m3-cA 3bjs-a1-m1-cA_3bjs-a1-m4-cA 3bjs-a1-m1-cB_3bjs-a1-m3-cB 3bjs-a1-m1-cB_3bjs-a1-m4-cB 3bjs-a1-m2-cA_3bjs-a1-m3-cA 3bjs-a1-m2-cA_3bjs-a1-m4-cA 3bjs-a1-m2-cB_3bjs-a1-m3-cB MKITKINAIPLSYRLPTVTMGVGSTIKRDAIIIRVETSEGITGYGEAHPGRSPGAITSLIHNTIAPMLIGMKATDCVGAWQRVHRMQLSSHGLGAGAALAISGIDMALWDIRGKAANMPLYELLGGSKRRIPAYAGGIALGYQPKESLAEEAQEYIARGYKALKLRIGDAARVDIERVRHVRKVLGDEVDILTDANTAYTMADARRVLPVLAEIQAGWLEEPFACNDFASYREVAKITPLVPIAAGENHYTRFEFGQMLDAGAVQVWQPDLSKCGGITEGIRIAAMASAYRIPINAHSSATGLNHAATIHFLAATENAGYFEACVSKFNPFRDMFGTFEIGADGCVEPPDAPGLGIEVDESIFEKYPAVDGPGYVV MKITKINAIPLSYRLPTVTMGVGSTIKRDAIIIRVETSEGITGYGEAHPGRSPGAITSLIHNTIAPMLIGMKATDCVGAWQRVHRMQLSSHGLGAGAALAISGIDMALWDIRGKAANMPLYELLGGSKRRIPAYAGGIALGYQPKESLAEEAQEYIARGYKALKLRIGDAARVDIERVRHVRKVLGDEVDILTDANTAYTMADARRVLPVLAEIQAGWLEEPFACNDFASYREVAKITPLVPIAAGENHYTRFEFGQMLDAGAVQVWQPDLSKCGGITEGIRIAAMASAYRIPINAHSSATGLNHAATIHFLAATENAGYFEACVSKFNPFRDMFGTFEIGADGCVEPPDAPGLGIEVDESIFEKYPAVDGPGYVV 3bjs-a1-m4-cA_3bjs-a1-m4-cB Crystal structure of a member of enolase superfamily from Polaromonas sp. JS666 Q120Q7 Q120Q7 2.7 X-RAY DIFFRACTION 150 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 370 376 3bjs-a1-m1-cA_3bjs-a1-m1-cB 3bjs-a1-m2-cA_3bjs-a1-m2-cB 3bjs-a1-m3-cA_3bjs-a1-m3-cB MKITKINAIPLSYRLPTVTMGVGSTIKRDAIIIRVETSEGITGYGEAHPGRSPGAITSLIHNTIAPMLIGMKATDCVGAWQRVHRMQLSSHGLGAGAALAISGIDMALWDIRGKAANMPLYELLGGSKRRIPAYAGGIALGYQPKESLAEEAQEYIARGYKALKLRIGDAARVDIERVRHVRKVLGDEVDILTDANTAYTMADARRVLPVLAEIQAGWLEEPFACNDFASYREVAKITPLVPIAAGENHYTRFEFGQMLDAGAVQVWQPDLSKCGGITEGIRIAAMASAYRIPINAHSSATGLNHAATIHFLAATENAGYFEACVSKFNPFRDMFGTFEIGADGCVEPPDAPGLGIEVDESIFEKYPAVD MKITKINAIPLSYRLPTVTMGVGSTIKRDAIIIRVETSEGITGYGEAHPGRSPGAITSLIHNTIAPMLIGMKATDCVGAWQRVHRMQLSSHGLGAGAALAISGIDMALWDIRGKAANMPLYELLGGSKRRIPAYAGGIALGYQPKESLAEEAQEYIARGYKALKLRIGDAARVDIERVRHVRKVLGDEVDILTDANTAYTMADARRVLPVLAEIQAGWLEEPFACNDFASYREVAKITPLVPIAAGENHYTRFEFGQMLDAGAVQVWQPDLSKCGGITEGIRIAAMASAYRIPINAHSSATGLNHAATIHFLAATENAGYFEACVSKFNPFRDMFGTFEIGADGCVEPPDAPGLGIEVDESIFEKYPAVDGPGYVV 3bjv-a1-m1-cA_3bjv-a1-m2-cA The Crystal Structure of a putative PTS IIA(PtxA) from Streptococcus mutans Q93DA9 Q93DA9 2.4 X-RAY DIFFRACTION 55 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 156 156 MNLAQAFKENHSIRLGLTAKDWKEAVKLSVTPLIESGAVKPEYYNAIIESTESYGPYYILMPGMAMPHARPEAGVQRDAFSLVTLTEPVTFTDGKEVQVLLALAATSSKIHTSVAIPQIIALFELDHSIERLVNCKTPEEVLAMVEESKSSPYLEG MNLAQAFKENHSIRLGLTAKDWKEAVKLSVTPLIESGAVKPEYYNAIIESTESYGPYYILMPGMAMPHARPEAGVQRDAFSLVTLTEPVTFTDGKEVQVLLALAATSSKIHTSVAIPQIIALFELDHSIERLVNCKTPEEVLAMVEESKSSPYLEG 3bjw-a1-m1-cA_3bjw-a1-m1-cG Crystal Structure of ecarpholin S complexed with suramin P48650 P48650 2.3 X-RAY DIFFRACTION 46 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 122 122 3bjw-a1-m1-cC_3bjw-a1-m1-cD SVVELGKMIIQETGKSPFPSYTSYGCFCGGGERGPPLDATDRCCLAHSCCYDTLPDCSPKTDRYKYKRENGEIICENSTSCKKRICECDKAVAVCLRKNLNTYNKKYTYYPNFWCKGDIEKC SVVELGKMIIQETGKSPFPSYTSYGCFCGGGERGPPLDATDRCCLAHSCCYDTLPDCSPKTDRYKYKRENGEIICENSTSCKKRICECDKAVAVCLRKNLNTYNKKYTYYPNFWCKGDIEKC 3bjw-a1-m1-cG_3bjw-a1-m1-cH Crystal Structure of ecarpholin S complexed with suramin P48650 P48650 2.3 X-RAY DIFFRACTION 15 1.0 40353 (Echis carinatus) 40353 (Echis carinatus) 122 122 3bjw-a1-m1-cA_3bjw-a1-m1-cF 3bjw-a1-m1-cB_3bjw-a1-m1-cC 3bjw-a1-m1-cD_3bjw-a1-m1-cE SVVELGKMIIQETGKSPFPSYTSYGCFCGGGERGPPLDATDRCCLAHSCCYDTLPDCSPKTDRYKYKRENGEIICENSTSCKKRICECDKAVAVCLRKNLNTYNKKYTYYPNFWCKGDIEKC SVVELGKMIIQETGKSPFPSYTSYGCFCGGGERGPPLDATDRCCLAHSCCYDTLPDCSPKTDRYKYKRENGEIICENSTSCKKRICECDKAVAVCLRKNLNTYNKKYTYYPNFWCKGDIEKC 3bjx-a2-m1-cC_3bjx-a2-m1-cD Structure of a Group I haloacid dehalogenase from Pseudomonas putida strain PP3 Q8GJ84 Q8GJ84 2.3 X-RAY DIFFRACTION 79 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 288 302 3bjx-a1-m1-cB_3bjx-a1-m1-cA TNPAYFPQLSQLDVSGEESTYEDIRLTLRVPWVAFGCRVLATFPGYLPLAWRRSAEALITRYAEQAADELRERSLLNIGPLPNLKERLYAAGFDDGEIEKVRRVLYAFNYGNPKYLLLITALSESQRPVGGAEVSSELRASIPKGHPKGDPLLPLVDATKASTEVQGLLKRVADLHYHHGPASDFQALANWPKVLQIVTDEVLAPVARTEQYDAKSRELVTRARELVRGLPGSAGVQRSELSLTPNELAGLTGVLFYQRFIADITISIIHITECLDGAEAASKSPFPI HHHHSSGLVPRGSHTNPAYFPQLSQLDVSGEESTYEDIRLTLRVPWVAFGCRVLATFPGYLPLAWRRSAEALITRYAEQAADELRERSLLNIGPLPNLKERLYAAGFDDGEIEKVRRVLYAFNYGNPKYLLLITALSESQRPVGGAEVSSELRASIPKGHPKGDPLLPLVDATKASTEVQGLLKRVADLHYHHGPASDFQALANWPKVLQIVTDEVLAPVARTEQYDAKSRELVTRARELVRGLPGSAGVQRSELSLTPNELAGLTGVLFYQRFIADITISIIHITECLDGAEAASKSPFPI 3bk6-a1-m1-cB_3bk6-a1-m1-cC Crystal structure of a core domain of stomatin from Pyrococcus horikoshii O59180 O59180 3.2 X-RAY DIFFRACTION 52 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 142 160 3bk6-a1-m1-cB_3bk6-a1-m1-cA 3bk6-a1-m1-cC_3bk6-a1-m1-cA MIFEKAVIVDLRTQVLDVPVQETITKDNVPVRVNAVVYFRVVDPVKAVTQVKNYIMATSQISQTTLRSVIGQAHLDELLSERDKLNMQLQRIIDEATDPWGIKVTAVEIKDVELPAGMQKAMARQAEAERERRARITLAEAE MIFEKAVIVDLRTQVLDVPVQETITKDNVPVRVNAVVYFRVVDPVKAVTQVKNYIMATSQISQTTLRSVIGQAHLDELLSERDKLNMQLQRIIDEATDPWGIKVTAVEIKDVELPAGMQKAMARQAEAERERRARITLAEAERQAAEKLREAAEIISEHP 3bkf-a1-m2-cA_3bkf-a1-m4-cA Zinc-bound C-terminal Domain of NikR P0A6Z6 P0A6Z6 1.9 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 66 66 1q5v-a1-m1-cA_1q5v-a1-m1-cC 3bkf-a1-m1-cA_3bkf-a1-m3-cA 3bku-a1-m1-cA_3bku-a1-m1-cC GTQGFAVLSYVYEHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPK GTQGFAVLSYVYEHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPK 3bkf-a2-m1-cA_3bkf-a2-m2-cA Zinc-bound C-terminal Domain of NikR P0A6Z6 P0A6Z6 1.9 X-RAY DIFFRACTION 44 1.0 562 (Escherichia coli) 562 (Escherichia coli) 66 66 1q5v-a1-m1-cA_1q5v-a1-m1-cB 1q5v-a1-m1-cC_1q5v-a1-m1-cD 3bkf-a1-m1-cA_3bkf-a1-m2-cA 3bkf-a1-m3-cA_3bkf-a1-m4-cA GTQGFAVLSYVYEHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPK GTQGFAVLSYVYEHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPK 3bkn-a1-m1-cL_3bkn-a1-m2-cL The structure of Mycobacterial bacterioferritin A0QY79 A0QY79 2.72 X-RAY DIFFRACTION 55 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 161 161 3bkn-a1-m1-cA_3bkn-a1-m1-cB 3bkn-a1-m1-cC_3bkn-a1-m1-cD 3bkn-a1-m1-cE_3bkn-a1-m1-cF 3bkn-a1-m1-cG_3bkn-a1-m1-cH 3bkn-a1-m1-cI_3bkn-a1-m1-cJ 3bkn-a1-m1-cK_3bkn-a1-m2-cK 3bkn-a1-m2-cA_3bkn-a1-m2-cB 3bkn-a1-m2-cC_3bkn-a1-m2-cD 3bkn-a1-m2-cE_3bkn-a1-m2-cF 3bkn-a1-m2-cG_3bkn-a1-m2-cH 3bkn-a1-m2-cI_3bkn-a1-m2-cJ MQGDPDVLKLLNEQLTSELTAINQYFLHSKMQDNWGFTELAEHTRAESFEEMRHAETITDRILLLDGLPNYQRLFSLRVGQTLREQFEADLAIEYEVLERLKPGIVLCREKQDATSARLLEQILADEETHIDYLETQLQLMDKLGDALYAAQCVSRPPGSA MQGDPDVLKLLNEQLTSELTAINQYFLHSKMQDNWGFTELAEHTRAESFEEMRHAETITDRILLLDGLPNYQRLFSLRVGQTLREQFEADLAIEYEVLERLKPGIVLCREKQDATSARLLEQILADEETHIDYLETQLQLMDKLGDALYAAQCVSRPPGSA 3bkn-a1-m2-cI_3bkn-a1-m2-cL The structure of Mycobacterial bacterioferritin A0QY79 A0QY79 2.72 X-RAY DIFFRACTION 24 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 161 161 3bkn-a1-m1-cA_3bkn-a1-m1-cD 3bkn-a1-m1-cA_3bkn-a1-m1-cK 3bkn-a1-m1-cB_3bkn-a1-m1-cG 3bkn-a1-m1-cB_3bkn-a1-m2-cE 3bkn-a1-m1-cC_3bkn-a1-m1-cF 3bkn-a1-m1-cC_3bkn-a1-m1-cJ 3bkn-a1-m1-cD_3bkn-a1-m1-cK 3bkn-a1-m1-cE_3bkn-a1-m2-cB 3bkn-a1-m1-cE_3bkn-a1-m2-cG 3bkn-a1-m1-cF_3bkn-a1-m1-cJ 3bkn-a1-m1-cG_3bkn-a1-m2-cE 3bkn-a1-m1-cH_3bkn-a1-m1-cI 3bkn-a1-m1-cH_3bkn-a1-m1-cL 3bkn-a1-m1-cI_3bkn-a1-m1-cL 3bkn-a1-m2-cA_3bkn-a1-m2-cD 3bkn-a1-m2-cA_3bkn-a1-m2-cK 3bkn-a1-m2-cB_3bkn-a1-m2-cG 3bkn-a1-m2-cC_3bkn-a1-m2-cF 3bkn-a1-m2-cC_3bkn-a1-m2-cJ 3bkn-a1-m2-cD_3bkn-a1-m2-cK 3bkn-a1-m2-cF_3bkn-a1-m2-cJ 3bkn-a1-m2-cH_3bkn-a1-m2-cI 3bkn-a1-m2-cH_3bkn-a1-m2-cL MQGDPDVLKLLNEQLTSELTAINQYFLHSKMQDNWGFTELAEHTRAESFEEMRHAETITDRILLLDGLPNYQRLFSLRVGQTLREQFEADLAIEYEVLERLKPGIVLCREKQDATSARLLEQILADEETHIDYLETQLQLMDKLGDALYAAQCVSRPPGSA MQGDPDVLKLLNEQLTSELTAINQYFLHSKMQDNWGFTELAEHTRAESFEEMRHAETITDRILLLDGLPNYQRLFSLRVGQTLREQFEADLAIEYEVLERLKPGIVLCREKQDATSARLLEQILADEETHIDYLETQLQLMDKLGDALYAAQCVSRPPGSA 3bkn-a1-m2-cJ_3bkn-a1-m2-cL The structure of Mycobacterial bacterioferritin A0QY79 A0QY79 2.72 X-RAY DIFFRACTION 49 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 161 161 3bkn-a1-m1-cA_3bkn-a1-m1-cC 3bkn-a1-m1-cA_3bkn-a1-m1-cG 3bkn-a1-m1-cB_3bkn-a1-m1-cK 3bkn-a1-m1-cB_3bkn-a1-m2-cF 3bkn-a1-m1-cC_3bkn-a1-m1-cI 3bkn-a1-m1-cD_3bkn-a1-m1-cF 3bkn-a1-m1-cD_3bkn-a1-m2-cK 3bkn-a1-m1-cE_3bkn-a1-m1-cJ 3bkn-a1-m1-cE_3bkn-a1-m2-cH 3bkn-a1-m1-cF_3bkn-a1-m2-cB 3bkn-a1-m1-cG_3bkn-a1-m1-cI 3bkn-a1-m1-cH_3bkn-a1-m2-cE 3bkn-a1-m1-cH_3bkn-a1-m2-cL 3bkn-a1-m1-cJ_3bkn-a1-m1-cL 3bkn-a1-m1-cK_3bkn-a1-m2-cD 3bkn-a1-m1-cL_3bkn-a1-m2-cH 3bkn-a1-m2-cA_3bkn-a1-m2-cC 3bkn-a1-m2-cA_3bkn-a1-m2-cG 3bkn-a1-m2-cB_3bkn-a1-m2-cK 3bkn-a1-m2-cC_3bkn-a1-m2-cI 3bkn-a1-m2-cD_3bkn-a1-m2-cF 3bkn-a1-m2-cE_3bkn-a1-m2-cJ 3bkn-a1-m2-cG_3bkn-a1-m2-cI MQGDPDVLKLLNEQLTSELTAINQYFLHSKMQDNWGFTELAEHTRAESFEEMRHAETITDRILLLDGLPNYQRLFSLRVGQTLREQFEADLAIEYEVLERLKPGIVLCREKQDATSARLLEQILADEETHIDYLETQLQLMDKLGDALYAAQCVSRPPGSA MQGDPDVLKLLNEQLTSELTAINQYFLHSKMQDNWGFTELAEHTRAESFEEMRHAETITDRILLLDGLPNYQRLFSLRVGQTLREQFEADLAIEYEVLERLKPGIVLCREKQDATSARLLEQILADEETHIDYLETQLQLMDKLGDALYAAQCVSRPPGSA 3bkw-a1-m1-cB_3bkw-a1-m1-cA Crystal structure of S-adenosylmethionine dependent methyltransferase (NP_104914.1) from Mesorhizobium loti at 1.60 A resolution Q98F67 Q98F67 1.6 X-RAY DIFFRACTION 110 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 212 215 GLDGAAEWPALRALPEVGGLRIVDLGCGFGWFCRWAHEHGASYVLGLDLSEKLARARAAGPDTGITYERADLDKLHLPQDSFDLAYSSLALHYVEDVARLFRTVHQALSPGGHFVFSTEHPIYAPARPGWAIGRRTWPIDRYLVEGPRKTDWLAKGVVKHHRTVGTTLNALIRSGFAIEHVEEFCPTDAQITARPELAEELDRPFLLVSARR GLDGAAEWPALRALPEVGGLRIVDLGCGFGWFCRWAHEHGASYVLGLDLSEKLARARAAGPDTGITYERADLDKLHLPQDSFDLAYSSLALHYVEDVARLFRTVHQALSPGGHFVFSTEHPIYAPARPGWAIDAEGRRTWPIDRYLVEGPRKTDWLAKGVVKHHRTVGTTLNALIRSGFAIEHVEEFCPTDAQITARPELAEELDRPFLLVSARR 3bkx-a1-m1-cA_3bkx-a1-m1-cB Crystal structure of cyclopropane-fatty-acyl-phospholipid synthase-like protein (YP_807781.1) from Lactobacillus casei ATCC 334 at 1.85 A resolution Q034N3 Q034N3 1.85 X-RAY DIFFRACTION 84 1.0 321967 (Lacticaseibacillus paracasei ATCC 334) 321967 (Lacticaseibacillus paracasei ATCC 334) 268 268 EKRLDYITDLALGPTANARTIQRRQTAHRLAIAEAWQVKPGEKILEIGCGQGDLSAVLADQVGSSGHVTGIDIASPDYGAPLTLGQAWNHLLAGPLGDRLTVHFNTNLSDDLGPIADQHFDRVVLAHSLWYFASANALALLFKNAAVCDHVDVAEWSQPTALDQIGHLQAAIQGLLYAIAPSDVANIRTLITPDTLAQIAHDNTWTYTAGTIVEDPTLDDAHWEIATTNALLTELKLSTDLRDRVKPLLEASHNGTASLATFTGRITF EKRLDYITDLALGPTANARTIQRRQTAHRLAIAEAWQVKPGEKILEIGCGQGDLSAVLADQVGSSGHVTGIDIASPDYGAPLTLGQAWNHLLAGPLGDRLTVHFNTNLSDDLGPIADQHFDRVVLAHSLWYFASANALALLFKNAAVCDHVDVAEWSQPTALDQIGHLQAAIQGLLYAIAPSDVANIRTLITPDTLAQIAHDNTWTYTAGTIVEDPTLDDAHWEIATTNALLTELKLSTDLRDRVKPLLEASHNGTASLATFTGRITF 3bl2-a3-m1-cA_3bl2-a3-m2-cB Crystal Structure of M11, the BCL-2 Homolog of Murine Gamma-herpesvirus 68, Complexed with Mouse Beclin1 (residues 106-124) P89884 P89884 2.3 X-RAY DIFFRACTION 43 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 131 131 KSGTYWATLITAFLKTVSKVEELDCVDSAVLVDVSKIITLTQEFRRHYDSVYRADYGPALKNWKRDLSKLFTSLFVDVINSGRIVGFFDVGRYVCEEVLCPGSWTEDHELLNDCMTHFFIENNLMNHFPLE KSGTYWATLITAFLKTVSKVEELDCVDSAVLVDVSKIITLTQEFRRHYDSVYRADYGPALKNWKRDLSKLFTSLFVDVINSGRIVGFFDVGRYVCEEVLCPGSWTEDHELLNDCMTHFFIENNLMNHFPLE 3bl4-a1-m1-cB_3bl4-a1-m1-cA Crystal structure of a protein with unknown function (arth_0117) from arthrobacter sp. fb24 at 2.20 A resolution A0JR48 A0JR48 2.2 X-RAY DIFFRACTION 190 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 109 117 GLTLGGDGILRLTWPRGAAITAADAERALRVNQLCGDDRHPLVDATTADVSRGARAVFGRPCQASRIALLGSSPVDRVLANFFLGINAVPCPTKFFTSERDALTWLALT DSEVGTEAGLTLGGDGILRLTWPRGAAITAADAERALRVNQLCGDDRHPLVDATTADVSRGARAVFGRPCQASRIALLGSSPVDRVLANFFLGINAVPCPTKFFTSERDALTWLALT 3bl6-a1-m1-cA_3bl6-a1-m2-cA Crystal structure of Staphylococcus aureus 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase in complex with formycin A Q99TQ0 Q99TQ0 1.7 X-RAY DIFFRACTION 121 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 230 230 4gmh-a1-m1-cA_4gmh-a1-m2-cA AMMIGIIGAMEEEVTILKNKLTQLSEISVAHVKFYTGILKDREVVITQSGIGKVNAAISTTLLINKFKPDVIINTGSAGALDESLNVGDVLISDDVKYHDADATAFGYEYGQIPQMPVAFQSSKPLIEKVSQVVQQQQLTAKVGLIVSGDSFIGSVEQRQKIKKAFPNAMAVEMEATAIAQTCYQFNVPFVVVRAVSDLANGEAEMSFEAFLEKAAVSSSQTVEALVSQL AMMIGIIGAMEEEVTILKNKLTQLSEISVAHVKFYTGILKDREVVITQSGIGKVNAAISTTLLINKFKPDVIINTGSAGALDESLNVGDVLISDDVKYHDADATAFGYEYGQIPQMPVAFQSSKPLIEKVSQVVQQQQLTAKVGLIVSGDSFIGSVEQRQKIKKAFPNAMAVEMEATAIAQTCYQFNVPFVVVRAVSDLANGEAEMSFEAFLEKAAVSSSQTVEALVSQL 3blc-a3-m1-cA_3blc-a3-m2-cA Crystal structure of the periplasmic domain of the Escherichia Coli YIDC P25714 P25714 2.5 X-RAY DIFFRACTION 162 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 276 276 QGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVPRGS QGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVPRGS 3blc-a3-m1-cB_3blc-a3-m2-cB Crystal structure of the periplasmic domain of the Escherichia Coli YIDC P25714 P25714 2.5 X-RAY DIFFRACTION 24 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 274 274 GQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVP GQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVP 3blc-a3-m2-cB_3blc-a3-m1-cA Crystal structure of the periplasmic domain of the Escherichia Coli YIDC P25714 P25714 2.5 X-RAY DIFFRACTION 14 0.996 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 274 276 3blc-a3-m1-cB_3blc-a3-m2-cA GQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVP QGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVPRGS 3blc-a3-m2-cB_3blc-a3-m2-cA Crystal structure of the periplasmic domain of the Escherichia Coli YIDC P25714 P25714 2.5 X-RAY DIFFRACTION 42 0.996 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 274 276 3blc-a3-m1-cB_3blc-a3-m1-cA GQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVP QGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPPHLTFRGAAYSTPDAAYAAYAFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDYGWLWFISQPLLVPRGS 3ble-a1-m1-cA_3ble-a1-m2-cA Crystal structure of the catalytic domain of LiCMS in complexed with malonate Q8F3Q1 Q8F3Q1 2 X-RAY DIFFRACTION 153 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 307 307 3blf-a1-m1-cA_3blf-a1-m2-cA 3bli-a1-m1-cA_3bli-a1-m2-cA RLEILDVTLRDGEQTRGVSFSTSEKLNIAKFLLQKLNVDRVEIASARVSKGELETVQKIMEWAATEQLTERIEILGFVDGNKTVDWIKDSGAKVLNLLTKGSLHHLEKQLGKTPKEFFTDVSFVIEYAIKSGLKINVYLEDWSNGFRNSPDYVKSLVEHLSKEHIERIFLPDTLGVLSPEETFQGVDSLIQKYPDIHFEFHGHNDYDLSVANSLQAIRAGVKGLHASINGLGERAGNTPLEALVTTIHDKSNSKTNINEIAITEASRLVEVFSGKRISANRPIVGEDVFTQNLYANPILPERFGRKR RLEILDVTLRDGEQTRGVSFSTSEKLNIAKFLLQKLNVDRVEIASARVSKGELETVQKIMEWAATEQLTERIEILGFVDGNKTVDWIKDSGAKVLNLLTKGSLHHLEKQLGKTPKEFFTDVSFVIEYAIKSGLKINVYLEDWSNGFRNSPDYVKSLVEHLSKEHIERIFLPDTLGVLSPEETFQGVDSLIQKYPDIHFEFHGHNDYDLSVANSLQAIRAGVKGLHASINGLGERAGNTPLEALVTTIHDKSNSKTNINEIAITEASRLVEVFSGKRISANRPIVGEDVFTQNLYANPILPERFGRKR 3bln-a1-m1-cA_3bln-a1-m2-cA Crystal structure of acetyltransferase GNAT family (NP_981174.1) from Bacillus cereus ATCC 10987 at 1.31 A resolution Q72YY9 Q72YY9 1.31 X-RAY DIFFRACTION 42 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 139 139 GKNVTKASIDDLDSIVHIDIDVIGNDSRRNYIKHSIDEGRCVIVKEDNSISGFLTYDTNFFDCTFLSLIIVSPTKRRRGYASSLLSYLSHSPTQKIFSSTNESNESQKVFNANGFIRSGIVENLDEGDPEIIFYTKKLR GKNVTKASIDDLDSIVHIDIDVIGNDSRRNYIKHSIDEGRCVIVKEDNSISGFLTYDTNFFDCTFLSLIIVSPTKRRRGYASSLLSYLSHSPTQKIFSSTNESNESQKVFNANGFIRSGIVENLDEGDPEIIFYTKKLR 3blw-a2-m1-cI_3blw-a2-m1-cM Yeast Isocitrate Dehydrogenase with Citrate and AMP Bound in the Regulatory Subunits P28834 P28834 4.3 X-RAY DIFFRACTION 43 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 329 339 3blv-a1-m1-cA_3blv-a1-m1-cE 3blv-a1-m1-cG_3blv-a1-m1-cC 3blw-a1-m1-cA_3blw-a1-m1-cE 3blw-a1-m1-cG_3blw-a1-m1-cC 3blw-a2-m1-cO_3blw-a2-m1-cK 3blx-a1-m1-cA_3blx-a1-m1-cE 3blx-a1-m1-cG_3blx-a1-m1-cC 3blx-a2-m1-cI_3blx-a2-m1-cM 3blx-a2-m1-cO_3blx-a2-m1-cK GRFTVTLIPGDGVGKEITDSVRTIFEAENIPIDWETINIKEGVYEAVESLKRNKIGLKGLWHTPADQTGHGSLNVALRKQLDIYANVALFKSLKGVKTRIPDIDLIVIRENTEGEFSGLEHESVPGVVESLKVMTRPKTERIARFAFDFAKKYNRKSVTAVHKANIMKLGDGLFRNIITEIGQKEYPDIDVSSIIVDNASMQAVAKPHQFDVLVTPSMYGTILGNIGAALIGGPGLVAGANFGRDYAVFEPGSRHVGLDIKGQNVANPTAMILSSTLMLNHLGLNEYATRISKAVHETIAEGKHTTRDIGGSSSTTDFTNEIINKLSTM AERTLPKKYGGRFTVTLIPGDGVGKEITDSVRTIFEAENIPIDWETINIKEGVYEAVESLKRNKIGLKGLWHTPADQTGHGSLNVALRKQLDIYANVALFKSLKGVKTRIPDIDLIVIRENTEGEFSGLEHESVPGVVESLKVMTRPKTERIARFAFDFAKKYNRKSVTAVHKANIMKLGDGLFRNIITEIGQKEYPDIDVSSIIVDNASMQAVAKPHQFDVLVTPSMYGTILGNIGAALIGGPGLVAGANFGRDYAVFEPGSRHVGLDIKGQNVANPTAMILSSTLMLNHLGLNEYATRISKAVHETIAEGKHTTRDIGGSSSTTDFTNEIINKLSTM 3blx-a6-m1-cP_3blx-a6-m1-cN Yeast Isocitrate Dehydrogenase (Apo Form) P28241 P28241 2.7 X-RAY DIFFRACTION 13 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 326 345 3blx-a1-m1-cD_3blx-a1-m1-cB 3blx-a1-m1-cF_3blx-a1-m1-cH 3blx-a2-m1-cJ_3blx-a2-m1-cL 3blx-a2-m1-cP_3blx-a2-m1-cN 3blx-a3-m1-cD_3blx-a3-m1-cB 3blx-a4-m1-cF_3blx-a4-m1-cH 3blx-a5-m1-cJ_3blx-a5-m1-cL TVSFIEGDGIGPEISKSVKKIFSAANVPIEWESCDVSPIFVNGLTTIPDPAVQSITKNLVALKGPLATRSLNLTLRKTFGLFANVRPAKSIEGFKTTYENVDLVLIRENTEGEYSGIEHIVCPGVVQSIKLITRDASERVIRYAFEYARAIGRPRVIVVHKSTIQRLADGLFVNVAKELSKEYPDLTLETELIDNSVLKVVTNPSAYTDAVSVCPNLYGDILSDLNSGLSAGSLGLTPSANIGHKISIFEAVHGSAPDIAGQDKANPTALLLSSVMMLNHMGLTNHADQIQNAVLSTIASGPENRTGDLAGTATTSSFTEAVIKRL QPSIGRYTGKPNPSTGKYTVSFIEGDGIGPEISKSVKKIFSAANVPIEWESCDVSPIFVNGLTTIPDPAVQSITKNLVALKGPLATPRSLNLTLRKTFGLFANVRPAKSIEGFKTTYENVDLVLIRENTEGEYSGIEHIVCPGVVQSIKLITRDASERVIRYAFEYARAIGRPRVIVVHKSTIQRLADGLFVNVAKELSKEYPDLTLETELIDNSVLKVVTNPSAYTDAVSVCPNLYGDILSDLNSGLSAGSLGLTPSANIGHKISIFEAVHGSAPDIAGQDKANPTALLLSSVMMLNHMGLTNHADQIQNAVLSTIASGPENRTGDLAGTATTSSFTEAVIKRL 3blz-a3-m1-cI_3blz-a3-m1-cL Crystal structure of a ntf2-like protein of unknown function (sbal_0622) from shewanella baltica os155 at 1.75 A resolution A3D088 A3D088 1.75 X-RAY DIFFRACTION 48 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 122 122 3blz-a1-m1-cA_3blz-a1-m1-cD 3blz-a1-m1-cB_3blz-a1-m1-cC 3blz-a2-m1-cF_3blz-a2-m1-cG 3blz-a2-m1-cH_3blz-a2-m1-cE 3blz-a3-m1-cK_3blz-a3-m1-cJ NTTYVQEYHAIVEVLSKYNEGGKKADSTIRPAFSSQATIFGVDVDNKLTGGPIQGLFDVIDNVFHPSPEAKAAIARIDIVGTAASARIDTDDISGFRFTDFFNLLKVEGKWTVVSKIYHTHP NTTYVQEYHAIVEVLSKYNEGGKKADSTIRPAFSSQATIFGVDVDNKLTGGPIQGLFDVIDNVFHPSPEAKAAIARIDIVGTAASARIDTDDISGFRFTDFFNLLKVEGKWTVVSKIYHTHP 3blz-a3-m1-cK_3blz-a3-m1-cL Crystal structure of a ntf2-like protein of unknown function (sbal_0622) from shewanella baltica os155 at 1.75 A resolution A3D088 A3D088 1.75 X-RAY DIFFRACTION 117 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 122 122 3blz-a1-m1-cA_3blz-a1-m1-cB 3blz-a1-m1-cC_3blz-a1-m1-cD 3blz-a2-m1-cF_3blz-a2-m1-cE 3blz-a2-m1-cH_3blz-a2-m1-cG 3blz-a3-m1-cI_3blz-a3-m1-cJ NTTYVQEYHAIVEVLSKYNEGGKKADSTIRPAFSSQATIFGVDVDNKLTGGPIQGLFDVIDNVFHPSPEAKAAIARIDIVGTAASARIDTDDISGFRFTDFFNLLKVEGKWTVVSKIYHTHP NTTYVQEYHAIVEVLSKYNEGGKKADSTIRPAFSSQATIFGVDVDNKLTGGPIQGLFDVIDNVFHPSPEAKAAIARIDIVGTAASARIDTDDISGFRFTDFFNLLKVEGKWTVVSKIYHTHP 3bm1-a1-m1-cA_3bm1-a1-m1-cB Crystal structure of a minimal nitroreductase ydjA from Escherichia coli K12 with and without FMN cofactor P0ACY1 P0ACY1 2 X-RAY DIFFRACTION 172 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 177 177 MDALELLINRRSASRLAEPAPTGEQLQNILRAGMRAPDHKSMQPWHFFVIEGEGRERFSAVLEQGAIAAGSDDKAIDKARNAPFRAPLIITVVAKCEENHKVPRWEQEMSAGCAVMAMQMAAVAQGFGGIWRSGALTESPVVREAFGCREQDKIVGFLYLGTPQLNVPDPTPFVTYF MDALELLINRRSASRLAEPAPTGEQLQNILRAGMRAPDHKSMQPWHFFVIEGEGRERFSAVLEQGAIAAGSDDKAIDKARNAPFRAPLIITVVAKCEENHKVPRWEQEMSAGCAVMAMQMAAVAQGFGGIWRSGALTESPVVREAFGCREQDKIVGFLYLGTPQLKVPDPTPFVTYF 3bm3-a1-m1-cB_3bm3-a1-m1-cA Restriction endonuclease PspGI-substrate DNA complex O93646 O93646 1.7 X-RAY DIFFRACTION 105 1.0 83521 (Pyrococcus sp. GI-H) 83521 (Pyrococcus sp. GI-H) 256 257 RNLVIDITKKPTQNIPPTNEIIEEAITELNVDELLDRLFEKDESGEVITPSRIAKLEEKAFEIYKEYEKQVREAYLSAGYSREKLEQSFQQARFSRGGKAFEIIFTKLLNKFGIRYEHDRVIKIYDYITEGEKPAFIIPSVRTFLNDPSSAILITVKRKVRERWREAVGEAQILRNKFGDEINFWFVGFDEEFTIYSAIALDNGIDRVYVIDGRYDSLIEEIKRISDPNFNEDKYIQKIRRFSDIFDDIIQFLNKH VRNLVIDITKKPTQNIPPTNEIIEEAITELNVDELLDRLFEKDESGEVITPSRIAKLEEKAFEIYKEYEKQVREAYLSAGYSREKLEQSFQQARFSRGGKAFEIIFTKLLNKFGIRYEHDRVIKIYDYITEGEKPAFIIPSVRTFLNDPSSAILITVKRKVRERWREAVGEAQILRNKFGDEINFWFVGFDEEFTIYSAIALDNGIDRVYVIDGRYDSLIEEIKRISDPNFNEDKYIQKIRRFSDIFDDIIQFLNKH 3bm7-a1-m1-cA_3bm7-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE ANTIBIOTIC BIOSYNTHESIS MONOOXYGENASE (CC_2132) FROM CAULOBACTER CRESCENTUS CB15 AT 1.35 A RESOLUTION Q9A6G2 Q9A6G2 1.35 X-RAY DIFFRACTION 75 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 102 102 HHHENLYFQGIGVVATLKVQPAKAAEFEKVFLDLAAKVKANEPGCLVYQLTRSKTEEGVYKVLELYASDALKHHGGTDYFKAAGAAGPTAGAPVIEYLDAVE HHHENLYFQGIGVVATLKVQPAKAAEFEKVFLDLAAKVKANEPGCLVYQLTRSKTEEGVYKVLELYASDALKHHGGTDYFKAAGAAGPTAGAPVIEYLDAVE 3bma-a1-m1-cE_3bma-a1-m1-cA Crystal structure of D-alanyl-lipoteichoic acid synthetase from Streptococcus pneumoniae R6 Q8DN13 Q8DN13 2.24 X-RAY DIFFRACTION 10 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 390 392 MHHNLGAEKRSAVATTIDSFKERSQKVRALSDPNVRFVPFFGSSEWLRFDGAHPAVLAEKYNRSYRPYLLGQGGAASLNQYFGMQQMLPQLENKQVVYVISPQWFSKNGYDPAAFQQYFNGDQLTSFLKHQSGDQASQYAATRLLQQFPNVAMKDLVQKLASKEELSTADNEMIELLARFNERQASFFGQFSRGYVNYDKHVAKYLKILPDQFSYQAIEDVVKADAEKNTSNNEMGMENYFYNEQIKKDLKKLKDSQKSFTYLKSPEYNDLQLVLTQFSKSKVNPIFIIPPVNKKWMDYAGLREDMYQQTVQKIRYQLESQGFTNIADFSKDGGEPFFMKDTIHLGWLGWLAFDKAVDPFLSNPTPAPTYHLNERFFSKDWATYDGDVKE MHHNLGAEKRSAVATTIDSFKERSQKVRALSDPNVRFVPFFGSSEWLRFDGAHPAVLAEKYNRSYRPYLLGQGGAASLNQYFGMQQMLPQLENKQVVYVISPQWFSKNGYDPAAFQQYFNGDQLTSFLKHQSGDQASQYAATRLLQQFPNVAMKDLVQKLASKEELSTADNEMIELLARFNERQASFFGQFSVRGYVNYDKHVAKYLKILPDQFSYQAIEDVVKADAEKNTSNNEMGMENYFYNEQIKKDLKKLKDSQKSFTYLKSPEYNDLQLVLTQFSKSKVNPIFIIPPVNKKWMDYAGLREDMYQQTVQKIRYQLESQGFTNIADFSKDGGEPFFMKDTIHLGWLGWLAFDKAVDPFLSNPTPAPTYHLNERFFSKDWATYDGDVKEF 3bma-a1-m1-cE_3bma-a1-m1-cB Crystal structure of D-alanyl-lipoteichoic acid synthetase from Streptococcus pneumoniae R6 Q8DN13 Q8DN13 2.24 X-RAY DIFFRACTION 18 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 390 393 3bma-a1-m1-cA_3bma-a1-m1-cC 3bma-a1-m2-cD_3bma-a1-m1-cB 3bma-a1-m2-cD_3bma-a1-m1-cE 3bma-a1-m2-cF_3bma-a1-m1-cA 3bma-a1-m2-cF_3bma-a1-m1-cC MHHNLGAEKRSAVATTIDSFKERSQKVRALSDPNVRFVPFFGSSEWLRFDGAHPAVLAEKYNRSYRPYLLGQGGAASLNQYFGMQQMLPQLENKQVVYVISPQWFSKNGYDPAAFQQYFNGDQLTSFLKHQSGDQASQYAATRLLQQFPNVAMKDLVQKLASKEELSTADNEMIELLARFNERQASFFGQFSRGYVNYDKHVAKYLKILPDQFSYQAIEDVVKADAEKNTSNNEMGMENYFYNEQIKKDLKKLKDSQKSFTYLKSPEYNDLQLVLTQFSKSKVNPIFIIPPVNKKWMDYAGLREDMYQQTVQKIRYQLESQGFTNIADFSKDGGEPFFMKDTIHLGWLGWLAFDKAVDPFLSNPTPAPTYHLNERFFSKDWATYDGDVKE MHHNLGAEKRSAVATTIDSFKERSQKVRALSDPNVRFVPFFGSSEWLRFDGAHPAVLAEKYNRSYRPYLLGQGGAASLNQYFGMQQMLPQLENKQVVYVISPQWFSKNGYDPAAFQQYFNGDQLTSFLKHQSGDQASQYAATRLLQQFPNVAMKDLVQKLASKEELSTADNEMIELLARFNERQASFFGQFSVRGYVNYDKHVAKYLKILPDQFSYQAIEDVVKADAEKNTSNNEMGMENYFYNEQIKKDLKKLKDSQKSFTYLKSPEYNDLQLVLTQFSKSKVNPIFIIPPVNKKWMDYAGLREDMYQQTVQKIRYQLESQGFTNIADFSKDGGEPFFMKDTIHLGWLGWLAFDKAVDPFLSNPTPAPTYHLNERFFSKDWATYDGDVKEFQ 3bma-a1-m1-cE_3bma-a1-m1-cC Crystal structure of D-alanyl-lipoteichoic acid synthetase from Streptococcus pneumoniae R6 Q8DN13 Q8DN13 2.24 X-RAY DIFFRACTION 32 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 390 394 3bma-a1-m1-cA_3bma-a1-m1-cB 3bma-a1-m2-cF_3bma-a1-m2-cD MHHNLGAEKRSAVATTIDSFKERSQKVRALSDPNVRFVPFFGSSEWLRFDGAHPAVLAEKYNRSYRPYLLGQGGAASLNQYFGMQQMLPQLENKQVVYVISPQWFSKNGYDPAAFQQYFNGDQLTSFLKHQSGDQASQYAATRLLQQFPNVAMKDLVQKLASKEELSTADNEMIELLARFNERQASFFGQFSRGYVNYDKHVAKYLKILPDQFSYQAIEDVVKADAEKNTSNNEMGMENYFYNEQIKKDLKKLKDSQKSFTYLKSPEYNDLQLVLTQFSKSKVNPIFIIPPVNKKWMDYAGLREDMYQQTVQKIRYQLESQGFTNIADFSKDGGEPFFMKDTIHLGWLGWLAFDKAVDPFLSNPTPAPTYHLNERFFSKDWATYDGDVKE MHHNLGAEKRSAVATTIDSFKERSQKVRALSDPNVRFVPFFGSSEWLRFDGAHPAVLAEKYNRSYRPYLLGQGGAASLNQYFGMQQMLPQLENKQVVYVISPQWFSKNGYDPAAFQQYFNGDQLTSFLKHQSGDQASQYAATRLLQQFPNVAMKDLVQKLASKEELSTADNEMIELLARFNERQASFFGQFSVRGYVNYDKHVAKYLKILPDQFSYQAIEDVVKADAEKNTSNNEMGMENYFYNEQIKKDLKKLKDSQKSFTYLKSPEYNDLQLVLTQFSKSKVNPIFIIPPVNKKWMDYAGLREDMYQQTVQKIRYQLESQGFTNIADFSKDGGEPFFMKDTIHLGWLGWLAFDKAVDPFLSNPTPAPTYHLNERFFSKDWATYDGDVKEFQE 3bmo-a1-m1-cC_3bmo-a1-m1-cA Structure of Pteridine Reductase 1 (PTR1) from Trypanosoma brucei in ternary complex with cofactor (NADP+) and inhibitor (Compound AX4) O76290 O76290 1.6 X-RAY DIFFRACTION 134 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 252 255 2x9v-a1-m1-cC_2x9v-a1-m1-cA 2yhu-a1-m1-cA_2yhu-a1-m1-cC 3bmn-a1-m1-cA_3bmn-a1-m1-cC 4clr-a1-m1-cA_4clr-a1-m1-cC 4clr-a1-m1-cD_4clr-a1-m1-cB 4cm1-a1-m1-cB_4cm1-a1-m1-cD 4cm3-a1-m1-cB_4cm3-a1-m1-cD 4cm4-a1-m1-cA_4cm4-a1-m1-cC 4cm8-a1-m1-cC_4cm8-a1-m1-cA 4cmb-a1-m1-cD_4cmb-a1-m1-cB 4cmk-a1-m1-cA_4cmk-a1-m1-cC 4wcd-a1-m1-cC_4wcd-a1-m1-cA 4wcd-a1-m1-cD_4wcd-a1-m1-cB 6gcl-a1-m1-cC_6gcl-a1-m1-cA 6gd0-a1-m1-cC_6gd0-a1-m1-cA 6gd0-a1-m1-cD_6gd0-a1-m1-cB 6gd4-a1-m1-cA_6gd4-a1-m1-cC 6gd4-a1-m1-cB_6gd4-a1-m1-cD 7opj-a1-m1-cC_7opj-a1-m1-cA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVQGKTVETQVAELIGTNAIAPFLLTMSFAQRQKSSNLSIVNLCDAMVDQPCMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVQGKTVETQVAELIGTNAIAPFLLTMSFAQRQKGTTSSNLSIVNLCDAMVDQPCMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 3bmz-a1-m1-cA_3bmz-a1-m1-cB Violacein biosynthetic enzyme VioE Q7NSZ5 Q7NSZ5 1.21 X-RAY DIFFRACTION 143 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 185 190 2zf3-a1-m1-cB_2zf3-a1-m1-cA 2zf3-a2-m1-cC_2zf3-a2-m1-cD 2zf3-a3-m1-cF_2zf3-a3-m1-cE 2zf4-a1-m1-cB_2zf4-a1-m1-cA 2zf4-a3-m1-cE_2zf4-a3-m1-cF EPPLLPARWSSAYVSYWSPMLPDDQLTSGYCWFDYERDICRIDGLFNPWSERDTGYRLWMSEVGNAASGRTWKQKVAYGRERTALGEQLCERPLDDETGPFAELFLPRDVLRRLGARHIGRRVVLGREADGWRYQRPGKGPSTLYLDAASGTPLRMVTGDEASRASLRDFPNVSEAEIPDAVFAA EPPLLPARWSSAYVSYWSPMLPDDQLTSGYCWFDYERDICRIDGLFNPWSERDTGYRLWMSEVGNAASGRTWKQKVAYGRERTALGEQLCERPLDDETGPFAELFLPRDVLRRLGARHIGRRVVLGREADGWRYQRPGKGPSTLYLDAASGTPLRMVTGDEASRASLRDFPNVSEAEIPDAVFAAKRLEH 3bn7-a1-m1-cA_3bn7-a1-m2-cA CRYSTAL STRUCTURE OF A DIMERIC FERREDOXIN-LIKE PROTEIN (CC_2267) FROM CAULOBACTER CRESCENTUS CB15 AT 1.64 A RESOLUTION Q9A628 Q9A628 1.64 X-RAY DIFFRACTION 94 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 99 99 GLFHQVFFWLKNPGDKADRDKLIAGLKALKAIDVIQQLHVGVPAATEKRDVVDNSYDVSELVFKSVEDQKRYRDHPLLQKFVADCSHLWSKVVVYDSSV GLFHQVFFWLKNPGDKADRDKLIAGLKALKAIDVIQQLHVGVPAATEKRDVVDNSYDVSELVFKSVEDQKRYRDHPLLQKFVADCSHLWSKVVVYDSSV 3bn8-a2-m1-cB_3bn8-a2-m2-cB Crystal structure of a putative sterol carrier protein type 2 (af1534) from archaeoglobus fulgidus dsm 4304 at 2.11 A resolution O28738 O28738 2.11 X-RAY DIFFRACTION 69 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 105 105 3bn8-a1-m1-cA_3bn8-a1-m2-cA 3cnu-a1-m1-cA_3cnu-a1-m2-cA SEAKELIKKCDLQNSNEEIQKEAGWSGVVQYKLDGYYFYVEYKSDGTCEFKEGVHSSPTFTVVAPPDFWLAVLKGQEDPVSGFGKYRIEGNIEAQRLAGVIKKFQ SEAKELIKKCDLQNSNEEIQKEAGWSGVVQYKLDGYYFYVEYKSDGTCEFKEGVHSSPTFTVVAPPDFWLAVLKGQEDPVSGFGKYRIEGNIEAQRLAGVIKKFQ 3bni-a1-m1-cB_3bni-a1-m1-cA Crystal structure of TetR-family transcriptional regulator from Streptomyces coelicolor Q8CK21 Q8CK21 2.3 X-RAY DIFFRACTION 65 0.994 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 171 174 ERLTRILDACADLLDEVGYDALSTRAVALRADVPIGSVYRFFGNKRQMADALAQRNLERYAERVTERLTEAGDGGWRGALDTVLDEYLAMKRTAPGFSLIDFGHRVAERLTELLSGYLGRRPDDDLRRVFLVAVETADTLVQLAFRVAPDGDEKIIEEARELLRAYLGRVL RSAERLTRILDACADLLDEVGYDALSTRAVALRADVPIGSVYRFFGNKRQMADALAQRNLERYAERVTERLTEAGDGGWRGALDTVLDEYLAMKRTAPGFSLIDFGRVAERLTELLSGYLGRRPDDDLRRVFLVAVETADTLVQLAFRVAPDGDEKIIEEARELLRAYLGRVLD 3bnj-a1-m1-cA_3bnj-a1-m2-cA W. succinogenes NrfA Y218F Sulfite Complex Q9S1E5 Q9S1E5 1.3 X-RAY DIFFRACTION 84 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 471 471 1fs7-a1-m1-cA_1fs7-a1-m2-cA 1fs8-a1-m1-cA_1fs8-a1-m2-cA 1fs8-a2-m1-cA_1fs8-a2-m2-cA 1fs8-a2-m3-cA_1fs8-a2-m4-cA 1fs9-a1-m1-cA_1fs9-a1-m2-cA 2e80-a1-m1-cA_2e80-a1-m2-cA 2e81-a1-m1-cA_2e81-a1-m2-cA 3bnf-a1-m1-cA_3bnf-a1-m2-cA 3bng-a1-m1-cA_3bng-a1-m2-cA 3bnh-a1-m1-cA_3bnh-a1-m2-cA KTAHSQGIEGKAMSEEWARYYPRQFDSWKKTKESDNITDMLKEKPALVVAWAGYPFSKDYNAPRGHYYALQDNINTLRTGAPVDGKTGPLPSACWTCKSPDVPRIIEQDGELEYFTGKWAKYGDEIVNTIGCYNCHDDKSAELKSKVPYLDRGLSAAGFKTFAESTHQEKRSLVCAQCHVEFYFKKTEWKDDKGVDKTAMVVTLPWSKGISTEQMEAYYDEINFADWTHGISKTPMLKAQHPDWELYKTGIHGQKGVSCADCHMPYTQEGAVKYSDHKVGNPLDNMDKSCMNCHRESEQKLKDIVKQKFERKEFLQDIAFDNIGKAHLETGKAMELGATDAELKEIRTHIRHAQWRADMAIAGHGSFFHAPEEVLRLLASGNEEAQKARIKLVKVLAKYGAIDYVAPDFETKEKAQKLAKVDMEAFIAEKLKFKQTLEQEWKKQAIAKGRLNPESLKGVDEKSSYYDKTKK KTAHSQGIEGKAMSEEWARYYPRQFDSWKKTKESDNITDMLKEKPALVVAWAGYPFSKDYNAPRGHYYALQDNINTLRTGAPVDGKTGPLPSACWTCKSPDVPRIIEQDGELEYFTGKWAKYGDEIVNTIGCYNCHDDKSAELKSKVPYLDRGLSAAGFKTFAESTHQEKRSLVCAQCHVEFYFKKTEWKDDKGVDKTAMVVTLPWSKGISTEQMEAYYDEINFADWTHGISKTPMLKAQHPDWELYKTGIHGQKGVSCADCHMPYTQEGAVKYSDHKVGNPLDNMDKSCMNCHRESEQKLKDIVKQKFERKEFLQDIAFDNIGKAHLETGKAMELGATDAELKEIRTHIRHAQWRADMAIAGHGSFFHAPEEVLRLLASGNEEAQKARIKLVKVLAKYGAIDYVAPDFETKEKAQKLAKVDMEAFIAEKLKFKQTLEQEWKKQAIAKGRLNPESLKGVDEKSSYYDKTKK 3bnk-a1-m1-cA_3bnk-a1-m1-cB X-ray crystal structure of Flavoredoxin from Methanosarcina acetivorans Q8TTU7 Q8TTU7 2.05 X-RAY DIFFRACTION 325 1.0 2214 (Methanosarcina acetivorans) 2214 (Methanosarcina acetivorans) 186 187 AEKIKINNNVFIYPMPVTLLGANVKGKANLMALGWVSRVNANPPMLGVGVNKSHYTPEGIAENGSFSVNFPYSGMVKKTDYCGLVSGEKVDKSGLFEVFYGELKTAPMIKECTLNLECRVVETLEFPTNYFFVGEIIAAYSEEQYLIQGKPDIKKMDPLLLTMPDNSYWTVGDYAGAALKTGKSLM AEKIKINNNVFIYPMPVTLLGANVKGKANLMALGWVSRVNANPPMLGVGVNKSHYTPEGIAENGSFSVNFPYSGMVKKTDYCGLVSGEKVDKSGLFEVFYGELKTAPMIKECTLNLECRVVETLEFPTNYFFVGEIIAAYSEEQYLIQGKPDIKKMDPLLLTMPDNSYWTVGDYAGAALKTGKSLME 3bnu-a1-m1-cA_3bnu-a1-m1-cB Crystal structure of polyamine oxidase FMS1 from Saccharomyces cerevisiae in complex with bis-(3S,3'S)-methylated spermine P50264 P50264 2.2 X-RAY DIFFRACTION 71 0.99 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 497 499 1rsg-a1-m1-cA_1rsg-a1-m1-cB 1xpq-a1-m1-cB_1xpq-a1-m1-cA 1xpq-a2-m1-cD_1xpq-a2-m1-cC 1yy5-a1-m1-cB_1yy5-a1-m1-cA 1z6l-a1-m1-cB_1z6l-a1-m1-cA 3bi2-a1-m1-cA_3bi2-a1-m1-cB 3bi4-a1-m1-cB_3bi4-a1-m1-cA 3bi5-a1-m1-cA_3bi5-a1-m1-cB 3bnm-a1-m1-cA_3bnm-a1-m1-cB 3cn8-a1-m1-cA_3cn8-a1-m1-cB 3cnd-a1-m1-cA_3cnd-a1-m1-cB 3cnp-a1-m1-cA_3cnp-a1-m1-cB 3cns-a1-m1-cB_3cns-a1-m1-cA 3cnt-a1-m1-cB_3cnt-a1-m1-cA 4ech-a1-m1-cB_4ech-a1-m1-cA 4gdp-a1-m1-cA_4gdp-a1-m1-cB 4gdp-a2-m1-cC_4gdp-a2-m1-cD SPAKKKVIIIGAGIAGLKAASTLHQNGIQDCLVLEARDRVGGRLQTVTGYQGRKYDIGASWHHDTLTNPLFLEEAQLSLNDGRTRFVFDDDNFIYIDEERGRVDHDKELLLEIVDNEMSKFAELEFHQHLGVSDCSFFQLVMKYLLQRRQFLTNDQIRYLPQLCRYLELWHGLDWKLLSAKDTYFGHQGRNAFALNYDSVVQRIAQSFPQNWLKLSCEVKSITREPSKNVTVNCEDGTVYNADYVIITVPQSVLNLSVQPEKNLRGRIEFQPPLKPVIQDAFDKIHFGALGKVIFEFEECCWSNESSKIVTLANSTNEFVEIVRNAENLDELDSMLERETSVTCWSQPLFFVNLSKSTGVASFMMLMQAPLTNHIESIREDKERLFSFFQPVLNKIMKCLDSEDVIDGMRANKPVLRNIIVSNWTRDPYSRGAYSACFPGDDPVDMVVAMSNGQDSRIRFAGEHTIMDGAGCAYGAWESGRREATRISDLLKLEHHH KKKVIIIGAGIAGLKAASTLHQNGIQDCLVLEARDRVGGRLQTVTGYQGRKYDIGASWHHDTLTNPLFLEEAQLSLNDGRTRFVFDDDNFIYIDEERGRVDHDKELLLEIVDNEMSKFAELEFHQHLGVSDCSFFQLVMKYLLQRRQFLTNDQIRYLPQLCRYLELWHGLDWKLLSAKDTYFGHQGRNAFALNYDSVVQRIAQSFPQNWLKLSCEVKSITREPSKNVTVNCEDGTVYNADYVIITVPQSVLNLSVQPEKNLRGRIEFQPPLKPVIQDAFDKIHFGALGKVIFEFEECCWSNESSKIVTLANSTNEFVEIVRNAENLDELDSMLERETSVTCWSQPLFFVNLSKSTGVASFMMLMQAPLTNHIESIREDKERLFSFFQPVLNKIMKCLDSEDVIDGMRPIENIANANKPVLRNIIVSNWTRDPYSRGAYSACFPGDDPVDMVVAMSNGQDSRIRFAGEHTIMDGAGCAYGAWESGRREATRISDLLKLEH 3bnv-a2-m1-cC_3bnv-a2-m1-cD Crystal structure of Cj0977, a sigma28-regulated virulence protein from Campylobacter jejuni. Q0R4E3 Q0R4E3 2.6 X-RAY DIFFRACTION 113 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 140 141 3bnv-a1-m1-cB_3bnv-a1-m1-cA 3bnv-a3-m1-cF_3bnv-a3-m1-cE 3bnv-a4-m1-cG_3bnv-a4-m1-cH LEEYASAEDISRVRAELLTCPELNTSLAGTIIEIDKNYAKSILITTSEVADDQGLIFDAFIFAAANYVAQASINKEFSVIIGSKCFFYAPLKLGDVLELEAHALFDETSKKRDVKVVGHVKEIKFEGTIQVVSTDEHIFK QLEEYASAEDISRVRAELLTCPELNTSLAGTIIEIDKNYAKSILITTSEVADDQGLIFDAFIFAAANYVAQASINKEFSVIIGSKCFFYAPLKLGDVLELEAHALFDETSKKRDVKVVGHVKEIKFEGTIQVVSTDEHIFK 3bnw-a3-m2-cB_3bnw-a3-m1-cA Crystal structure of riboflavin kinase from Trypanosoma brucei Q38DG4 Q38DG4 2.4 X-RAY DIFFRACTION 102 0.981 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 157 160 GSFQPFFLRGKVVHGSQLGFPTANIGLDKDVMECLQPYKNLVVYGWGTVSQVPGKERESFGPYPFAASIGFEKTLTVEPYFLHEFGWDFYGAVVKIIVLGEIRSMGSFHSLQALVDTIKSDVQFTRDMLQKPQLQEFSRHSLFESPSSTIPYFEDLP HMRQTGSFQPFFLRGKVVHSQLGFPTANIGLDKDVMECLQPYKNLVVYGWGTVSQVPGKERESFGPYPFAASIGFNTLTVEPYFLHEFGWDFYGAVVKIIVLGEIRSMGSFHSLQALVDTIKSDVQFTRDMLQKPQLQEFSRHSLFESPSSTIPYFEDLP 3boa-a1-m1-cA_3boa-a1-m2-cA Crystal structure of yeast protein disulfide isomerase. P17967 P17967 3.7 X-RAY DIFFRACTION 147 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 490 490 QEAVAPEDSAVVKLATDSFNEYIQSHDLVLAEFFAPWCGHCKNMAPEYVKAAETLVEKNITLAQIDCTENQDLCMEHNIPGFPSLKIFKNSDVNNSIDYEGPRTAEAIVQFMIKQSQPAVAVVADLPAYLANETFVTPVIVQSGKIDADFNATFYSMANKHFNDYDFVSAENADDDFKLSIYLPSAMDEPVVYNGKKADIADADVFEKWLQVEALPYFGEIDGSVFAQYVESGLPLGYLFYNDEEELEEYKPLFTELAKKNRGLMNFVSIDARKFGRHAGNLNMKEQFPLFAIHDMTEDLKYGLPQLSEEAFDELSDKIVLESKAIESLVKDFLKGDASPIVKSQEIFENQDSSVFQLVGKNHDEIVNDPKKDVLVLYYAPWCGHCKRLAPTYQELADTYANATSDVLIAKLDHTENDVRGVVIEGYPTIVLYPGGKKSESVVYQGSRSLDSLFDFIKENGHFDVDGKALYEEAQEKAAEEADADAELAD QEAVAPEDSAVVKLATDSFNEYIQSHDLVLAEFFAPWCGHCKNMAPEYVKAAETLVEKNITLAQIDCTENQDLCMEHNIPGFPSLKIFKNSDVNNSIDYEGPRTAEAIVQFMIKQSQPAVAVVADLPAYLANETFVTPVIVQSGKIDADFNATFYSMANKHFNDYDFVSAENADDDFKLSIYLPSAMDEPVVYNGKKADIADADVFEKWLQVEALPYFGEIDGSVFAQYVESGLPLGYLFYNDEEELEEYKPLFTELAKKNRGLMNFVSIDARKFGRHAGNLNMKEQFPLFAIHDMTEDLKYGLPQLSEEAFDELSDKIVLESKAIESLVKDFLKGDASPIVKSQEIFENQDSSVFQLVGKNHDEIVNDPKKDVLVLYYAPWCGHCKRLAPTYQELADTYANATSDVLIAKLDHTENDVRGVVIEGYPTIVLYPGGKKSESVVYQGSRSLDSLFDFIKENGHFDVDGKALYEEAQEKAAEEADADAELAD 3bof-a1-m1-cB_3bof-a1-m1-cA Cobalamin-dependent methionine synthase (1-566) from Thermotoga maritima complexed with Zn2+ and Homocysteine Q9WYA5 Q9WYA5 1.7 X-RAY DIFFRACTION 78 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 556 560 3bol-a1-m1-cB_3bol-a1-m1-cA MRNRREVSKLLSERVLLLDGAYGTEFMKYGYDDLPEELNIKAPDVVLKVHRSYIESGSDVILTNTFGATRMKLRKHGLEDKLDPIVRNAVRIARRAAGEKLVFGDIGPTGELPYPLGSTLFEEFYENFRETVEIMVEEGVDGIIFETFSDILELKAAVLAAREVSRDVFLIAHMTFDEKGRSLTGTDPANFAITFDELDIDALGINCSLGPEEILPIFQELSQYTDKFLVVEPNAGKPIKTVYPLKPHDFAVHIDSYYELGVNIFGGCCGTTPEHVKLFRKVLGNRKPLQRKKKRIFAVSSPSKLVTFDHFVVIGERINPAGRKKLWAEMQKGNEEIVIKEAKTQVEKGAEVLDVNFGIESQIDVRYVEKIVQTLPYVSNVPLSLDIQNVDLTERALRAYPGRSLFNSAKVDEEELEMKINLLKKYGGTLIVLLMGKDVPKSFEERKEYFEKALKILERHDFSDRVIFDPGVLPLGAEGKPVEVLKTIEFISSKGFNTTVGLSNLSFGLPDRSYYNTAFLVLGISKGLSSAIMNPLDETLMKTLNATLVILEKKEL MRNRREVSKLLSERVLLLDGAYGTEFMKYGYDDLPEELNIKAPDVVLKVHRSYIESGSDVILTNTFGATRMKLRKHGLEDKLDPIVRNAVRIARRAAGEKLVFGDIGPTGELPYPLGSTLFEEFYENFRETVEIMVEEGVDGIIFETFSDILELKAAVLAAREVSRDVFLIAHMTFDEKGRSLTGTDPANFAITFDELDIDALGINCSLGPEEILPIFQELSQYTDKFLVVEPNAGKPIVENGKTVYPLKPHDFAVHIDSYYELGVNIFGGCCGTTPEHVKLFRKVLGNRKPLQRKKKRIFAVSSPSKLVTFDHFVVIGERINPAGRKKLWAEMQKGNEEIVIKEAKTQVEKGAEVLDVNFGIESQIDVRYVEKIVQTLPYVSNVPLSLDIQNVDLTERALRAYPGRSLFNSAKVDEEELEMKINLLKKYGGTLIVLLMGKDVPKSFEERKEYFEKALKILERHDFSDRVIFDPGVLPLGAEGKPVEVLKTIEFISSKGFNTTVGLSNLSFGLPDRSYYNTAFLVLGISKGLSSAIMNPLDETLMKTLNATLVILEKKEL 3boq-a1-m1-cA_3boq-a1-m1-cB Crystal structure of MarR family transcriptional regulator from Silicibacter pomeroyi Q5LLB8 Q5LLB8 2.39 X-RAY DIFFRACTION 125 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 131 133 KSDRQQNQTRLWLNILRLHGLVFGDLNRQLLDETGLSLAKFDAAQLARNPDGLSGKLSGALKVTNGNVSGLVNRLIKDGVVKAFSAKLTDAGLTTFKQASEAHNRILAELLRAVSDQDVEASAALRGILES KSDRQQNQTRLWLNILRLHGLVFGDLNRQLLDETGLSLAKFDAAQLARNPDGLSGKLSGALKVTNGNVSGLVNRLIKDGVVKASFSAKLTDAGLTTFKQASEAHNRILAELLRAVSDQDVEASAALRGILESQ 3bos-a1-m1-cA_3bos-a1-m1-cB Crystal structure of a putative dna replication regulator HDA (SAMA_1916) from Shewanella amazonensis sb2b at 1.75 A resolution A1S6W5 A1S6W5 1.75 X-RAY DIFFRACTION 124 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 220 223 LQLSLPVHLPDDETFTSYYPGNDELIGALKSAASGDGVQAIYLWGPVKSGRTHLIHAACARANELERRSFYIPLGIHASISTALLEGLEQFDLICIDDVDAVAGHPLWEEAIFDLYNRVAEQKRGSLIVSASASPEAGFVLPDLVSRHWGLTYQLQPDDEKLAALQRRAARGLQLPEDVGRFLLNRARDLRTLFDVLDRLDKASVHQRKLTIPFVKELRL PLQLSLPVHLPDDETFTSYYPAAGNDELIGALKSAASGDGVQAIYLWGPVKSGRTHLIHAACARANELERRSFYIPLGIHASISTALLEGLEQFDLICIDDVDAVAGHPLWEEAIFDLYNRVAEQKRGSLIVSASASPEAGFVLPDLVSRHWGLTYQLQPDDEKLAALQRRAARGLQLPEDVGRFLLNRARDLRTLFDVLDRLDKASVHQRKLTIPFVKELRL 3boy-a1-m2-cA_3boy-a1-m2-cC Crystal structure of the HutP antitermination complex bound to the HUT mRNA P10943 P10943 1.7 X-RAY DIFFRACTION 32 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 147 147 1vea-a1-m1-cA_1vea-a1-m2-cA 1vea-a1-m1-cA_1vea-a1-m3-cA 1vea-a1-m2-cA_1vea-a1-m3-cA 1wmq-a1-m1-cA_1wmq-a1-m2-cA 1wmq-a1-m1-cA_1wmq-a1-m3-cA 1wmq-a1-m1-cB_1wmq-a1-m2-cB 1wmq-a1-m1-cB_1wmq-a1-m3-cB 1wmq-a1-m2-cA_1wmq-a1-m3-cA 1wmq-a1-m2-cB_1wmq-a1-m3-cB 1wps-a1-m1-cA_1wps-a1-m2-cA 1wps-a1-m1-cA_1wps-a1-m3-cA 1wps-a1-m2-cA_1wps-a1-m3-cA 1wpt-a1-m1-cA_1wpt-a1-m2-cA 1wpt-a1-m1-cA_1wpt-a1-m3-cA 1wpt-a1-m2-cA_1wpt-a1-m3-cA 1wpu-a1-m1-cA_1wpu-a1-m2-cA 1wpu-a1-m1-cA_1wpu-a1-m3-cA 1wpu-a1-m1-cB_1wpu-a1-m2-cB 1wpu-a1-m1-cB_1wpu-a1-m3-cB 1wpu-a1-m2-cA_1wpu-a1-m3-cA 1wpu-a1-m2-cB_1wpu-a1-m3-cB 1wpv-a1-m1-cA_1wpv-a1-m1-cB 1wpv-a1-m1-cA_1wpv-a1-m1-cC 1wpv-a1-m1-cB_1wpv-a1-m1-cC 1wpv-a1-m2-cA_1wpv-a1-m2-cB 1wpv-a1-m2-cA_1wpv-a1-m2-cC 1wpv-a1-m2-cB_1wpv-a1-m2-cC 1wrn-a1-m1-cA_1wrn-a1-m1-cB 1wrn-a1-m1-cC_1wrn-a1-m1-cA 1wrn-a1-m1-cC_1wrn-a1-m1-cB 1wrn-a1-m2-cA_1wrn-a1-m2-cB 1wrn-a1-m2-cC_1wrn-a1-m2-cA 1wrn-a1-m2-cC_1wrn-a1-m2-cB 1wro-a1-m1-cA_1wro-a1-m1-cB 1wro-a1-m1-cA_1wro-a1-m1-cC 1wro-a1-m1-cB_1wro-a1-m1-cC 1wro-a1-m2-cA_1wro-a1-m2-cB 1wro-a1-m2-cA_1wro-a1-m2-cC 1wro-a1-m2-cB_1wro-a1-m2-cC 1wrq-a1-m1-cA_1wrq-a1-m2-cA 1wrq-a1-m1-cA_1wrq-a1-m3-cA 1wrq-a1-m1-cB_1wrq-a1-m2-cB 1wrq-a1-m1-cB_1wrq-a1-m3-cB 1wrq-a1-m2-cA_1wrq-a1-m3-cA 1wrq-a1-m2-cB_1wrq-a1-m3-cB 3boy-a1-m1-cA_3boy-a1-m1-cB 3boy-a1-m1-cA_3boy-a1-m1-cC 3boy-a1-m1-cB_3boy-a1-m1-cC 3boy-a1-m2-cA_3boy-a1-m2-cB 3boy-a1-m2-cB_3boy-a1-m2-cC 4h4l-a1-m1-cA_4h4l-a1-m1-cB 4h4l-a1-m1-cC_4h4l-a1-m1-cA 4h4l-a1-m1-cC_4h4l-a1-m1-cB 4h4l-a1-m1-cJ_4h4l-a1-m1-cK 4h4l-a1-m1-cJ_4h4l-a1-m1-cL 4h4l-a1-m1-cL_4h4l-a1-m1-cK 4h4l-a2-m1-cD_4h4l-a2-m1-cE 4h4l-a2-m1-cD_4h4l-a2-m1-cF 4h4l-a2-m1-cE_4h4l-a2-m1-cF 4h4l-a2-m1-cG_4h4l-a2-m1-cH 4h4l-a2-m1-cI_4h4l-a2-m1-cG 4h4l-a2-m1-cI_4h4l-a2-m1-cH TLHKERRIGRLSVLLLLNEAEESTQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI TLHKERRIGRLSVLLLLNEAEESTQVEELERDGWKVCLGKVGSMDAHKVIAAIETASKKSGVIQSEGYRESHALYHATMEALHGVTRGEMLLGSLLRTVGLRFAVLRGNPYESEAEGDWIAVSLYGTIGAPIKGLEHETFGVGINHI 3bp1-a1-m1-cB_3bp1-a1-m1-cC Crystal structure of putative 7-cyano-7-deazaguanine reductase QueF from Vibrio cholerae O1 biovar eltor Q9KTK0 Q9KTK0 1.53 X-RAY DIFFRACTION 65 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 250 250 3rj4-a1-m1-cB_3rj4-a1-m2-cB NQYDPSLLQPVPRSLNRNDLHLSATLPFQGCDIWTLYELSWLNQKGLPQVAIGEVSIPATSANLIESKSFKLYLNSYNQTRFASWDEVQTRLVHDLSACAGETVTVNVKSLNEYTAEPIVTQGECIDDQDIEIANYEFDDALLQGAAQGEEVSEVLHSHLLKSNQPDWGSVEIAYHGAKNREALLRYLVSFREHNEFHEQCVERIFTDIRYCQPQSLTVYARYTRRGGLDINPFRSSHQSAPNHNQRARQ NQYDPSLLQPVPRSLNRNDLHLSATLPFQGCDIWTLYELSWLNQKGLPQVAIGEVSIPATSANLIESKSFKLYLNSYNQTRFASWDEVQTRLVHDLSACAGETVTVNVKSLNEYTAEPIVTQGECIDDQDIEIANYEFDDALLQGAAQGEEVSEVLHSHLLKSNQPDWGSVEIAYHGAKNREALLRYLVSFREHNEFHEQCVERIFTDIRYCQPQSLTVYARYTRRGGLDINPFRSSHQSAPNHNQRARQ 3bp1-a1-m1-cB_3bp1-a1-m1-cD Crystal structure of putative 7-cyano-7-deazaguanine reductase QueF from Vibrio cholerae O1 biovar eltor Q9KTK0 Q9KTK0 1.53 X-RAY DIFFRACTION 15 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 250 252 3bp1-a1-m1-cC_3bp1-a1-m1-cA 3rj4-a1-m1-cB_3rj4-a1-m2-cA 3rj4-a1-m2-cB_3rj4-a1-m1-cA NQYDPSLLQPVPRSLNRNDLHLSATLPFQGCDIWTLYELSWLNQKGLPQVAIGEVSIPATSANLIESKSFKLYLNSYNQTRFASWDEVQTRLVHDLSACAGETVTVNVKSLNEYTAEPIVTQGECIDDQDIEIANYEFDDALLQGAAQGEEVSEVLHSHLLKSNQPDWGSVEIAYHGAKNREALLRYLVSFREHNEFHEQCVERIFTDIRYCQPQSLTVYARYTRRGGLDINPFRSSHQSAPNHNQRARQ YANQYDPSLLQPVPRSLNRNDLHLSATLPFQGCDIWTLYELSWLNQKGLPQVAIGEVSIPATSANLIESKSFKLYLNSYNQTRFASWDEVQTRLVHDLSACAGETVTVNVKSLNEYTAEPIVTQGECIDDQDIEIANYEFDDALLQGAAQGEEVSEVLHSHLLKSNQPDWGSVEIAYHGAKNREALLRYLVSFREHNEFHEQCVERIFTDIRYCQPQSLTVYARYTRRGGLDINPFRSSHQSAPNHNQRARQ 3bp9-a4-m1-cV_3bp9-a4-m1-cX Structure of B-tropic MLV capsid N-terminal domain P03336 P03336 2.6 X-RAY DIFFRACTION 33 0.992 11786 (Murine leukemia virus) 11786 (Murine leukemia virus) 119 124 3bp9-a3-m1-cO_3bp9-a3-m1-cP 3bp9-a4-m1-cV_3bp9-a4-m1-cU PLRLGGNGQLQYWPFSSSDLYNWKNNNPSFSEDPGKLTALIESVLTTHQPTWDDCQQLLGTLLTGEEKQRVLLEARKAVEVDAAFPLERPDWDYTTTEGRNHLVLYRQLLLAGLQNAGR PLRLGNGQLQYWPFSSSDLYNWKNNNPSFSEDPGKLTALIESVLTTHQPTWDDCQQLLGTLLTGEEKQRVLLEARKAVRQLPNEVDAAFPLERPDWDYTTTEGRNHLVLYRQLLLAGLQNAGRS 3bpd-a2-m1-cN_3bpd-a2-m1-cM Crystal structure of an uncharacterized protein (O28723_ARCFU) from Archaeoglobus fulgidus O28723 O28723 2.8 X-RAY DIFFRACTION 68 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 89 90 3bpd-a1-m1-cA_3bpd-a1-m1-cB 3bpd-a1-m1-cA_3bpd-a1-m1-cG 3bpd-a1-m1-cB_3bpd-a1-m1-cC 3bpd-a1-m1-cC_3bpd-a1-m1-cD 3bpd-a1-m1-cD_3bpd-a1-m1-cE 3bpd-a1-m1-cE_3bpd-a1-m1-cF 3bpd-a1-m1-cG_3bpd-a1-m1-cF 3bpd-a2-m1-cI_3bpd-a2-m1-cH 3bpd-a2-m1-cI_3bpd-a2-m1-cJ 3bpd-a2-m1-cJ_3bpd-a2-m1-cK 3bpd-a2-m1-cK_3bpd-a2-m1-cL 3bpd-a2-m1-cL_3bpd-a2-m1-cM 3bpd-a2-m1-cN_3bpd-a2-m1-cH LKGLRRLVLDVLKPHEPKTIVFALKLSELENVDGVNIHLSEIDQATENIKITILGNNLDYEQIKGVIEDGGVIHSVDEVVAGKIIVESV SLKGLRRLVLDVLKPHEPKTIVFALKLSELENVDGVNIHLSEIDQATENIKITILGNNLDYEQIKGVIEDGGVIHSVDEVVAGKIIVESV 3bpj-a2-m1-cD_3bpj-a2-m1-cB Crystal structure of human translation initiation factor 3, subunit 1 alpha O75822 O75822 1.85 X-RAY DIFFRACTION 156 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 69 71 3bpj-a1-m1-cA_3bpj-a1-m1-cC 6zvj-a1-m1-cG_6zvj-a1-m1-cJ GIDAMNPSSRDDFTEFGKLLKDKITQYEKSLYYASFLEVLVRDVCISLEIDDLKKITNSLTVLCSEKQK AVYGIDAMNPSSRDDFTEFGKLLKDKITQYEKSLYYASFLEVLVRDVCISLEIDDLKKITNSLTVLCSEKQ 3bpk-a1-m1-cA_3bpk-a1-m1-cB Crystal structure of nitrilotriacetate monooxygenase component B from Bacillus cereus Q814U7 Q814U7 1.56 X-RAY DIFFRACTION 304 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 194 200 ALSINPNEQTEKDNYKLLTGSIIPRPVAFVTSVTKEGVLNGAPYSYFNIVAANPPLISVSVQRKAGERKDTSRNAIEKGEFVVHISDESYVAAINETAANESEIELAKLTPIESEVISVPGVKEANIRECVLERAIPLGGTEDSPACDLLIGRVVRFHVAEHLYEKGRIHAEGLKPISRLAGHNYAKLGEQFEL SNALSINPNEQTEKDNYKLLTGSIIPRPVAFVTSVTKEGVLNGAPYSYFNIVAANPPLISVSVQRKAGERKDTSRNAIEKGEFVVHISDESYVAAINETAANLPPNESEIELAKLTPIESEVISVPGVKEANIRECVLERAIPLGGTEDSPACDLLIGRVVRFHVAEHLYEKGRIHAEGLKPISRLAGHNYAKLGEQFEL 3bpp-a1-m1-cA_3bpp-a1-m2-cA 1510-N membrane protease K138A mutant specific for a stomatin homolog from Pyrococcus horikoshii O59179 O59179 2.3 X-RAY DIFFRACTION 32 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 216 216 AKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADAMMNIVQRIQQSKIPVIIYVYPPGASAASAGTYIALGSHLIAMAPGTSIGACRPILGYSQNGSIIEAPPAITNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGMKTKIPVNGRYVTLNFTNVEVRYLAPSFKDKLISYIT AKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADAMMNIVQRIQQSKIPVIIYVYPPGASAASAGTYIALGSHLIAMAPGTSIGACRPILGYSQNGSIIEAPPAITNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGMKTKIPVNGRYVTLNFTNVEVRYLAPSFKDKLISYIT 3bpq-a1-m1-cC_3bpq-a1-m1-cA Crystal Structure of RelB-RelE antitoxin-toxin complex from Methanococcus jannaschii P0CL56 P0CL56 2.2 X-RAY DIFFRACTION 25 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 39 41 KFFISRKEYEKIEEILDIGLAKAMEETKDDELLTYDEIK KKFFISRKEYEKIEEILDIGLAKAMEETKDDELLTYDEIKE 3bpv-a1-m1-cA_3bpv-a1-m2-cA Crystal Structure of MarR O26413 O26413 1.4 X-RAY DIFFRACTION 134 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 137 137 3bpx-a1-m1-cB_3bpx-a1-m1-cA IPLKGLLSIILRSHRVFIGRELGHLNLTDAQVACLLRIHREPGIKQDELATFFHVDKGTIARTLRRLEESGFIEREQDPENRRRYILEVTRRGEEIIPLILKVEERWEDLLFRDFTEDERKLFRKMCRRLAEEAVRM IPLKGLLSIILRSHRVFIGRELGHLNLTDAQVACLLRIHREPGIKQDELATFFHVDKGTIARTLRRLEESGFIEREQDPENRRRYILEVTRRGEEIIPLILKVEERWEDLLFRDFTEDERKLFRKMCRRLAEEAVRM 3bq7-a1-m3-cB_3bq7-a1-m3-cA SAM domain of Diacylglycerol Kinase delta1 (E35G) Q16760 Q16760 2.9 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 68 3bq7-a1-m1-cB_3bq7-a1-m1-cA 3bq7-a1-m1-cB_3bq7-a1-m3-cA 3bq7-a1-m2-cB_3bq7-a1-m2-cA 3bq7-a1-m3-cB_3bq7-a1-m2-cA 3bq7-a2-m1-cF_3bq7-a2-m1-cC 3bq7-a2-m1-cF_3bq7-a2-m5-cC 3bq7-a2-m4-cF_3bq7-a2-m4-cC 3bq7-a2-m5-cF_3bq7-a2-m4-cC 3bq7-a2-m5-cF_3bq7-a2-m5-cC 3bq7-a3-m1-cD_3bq7-a3-m1-cE 3bq7-a3-m1-cD_3bq7-a3-m6-cE 3bq7-a3-m1-cE_3bq7-a3-m7-cD 3bq7-a3-m6-cD_3bq7-a3-m6-cE 3bq7-a3-m7-cD_3bq7-a3-m7-cE PVHLWGTEEVAAWLEHLSLCEYKDIFTRHDIRGSGLLHLERRDLKDLGVTKVGHMKRILCGIKELSR RPVHLWGTEEVAAWLEHLSLCEYKDIFTRHDIRGSGLLHLERRDLKDLGVTKVGHMKRILCGIKELSR 3bq8-a1-m1-cB_3bq8-a1-m1-cA Crystal Structure of the E.coli PhoQ Sensor Domain P23837 P23837 2.5 X-RAY DIFFRACTION 36 0.992 562 (Escherichia coli) 562 (Escherichia coli) 128 137 DKTTFRLLRGESNLFYTLAKWENNKLHVELPPTTLIYDENGQLLWAQRDVPWLKIQPDWLKSNGFHEIEADVNDTSLLLSGSIQQQLQEVREDDDDAETHSVAVNVYPATSRPKLTIVVVDTIPVELK DKTTFRLLRGESNLFYTLAKWENNKLHVELPENIDKQSPTTLIYDENGQLLWAQRDVPWLKIQPDWLKSNGFHEIEADVNDTSLLLSHSIQQQLQEVREDDDDAETHSVAVNVYPATSRPKLTIVVVDTIPVELKSS 3bq9-a1-m1-cA_3bq9-a1-m2-cB Crystal structure of predicted nucleotide-binding protein from Idiomarina baltica OS145 1.8 X-RAY DIFFRACTION 26 1.0 314276 (Idiomarina baltica OS145) 314276 (Idiomarina baltica OS145) 446 446 3bq9-a1-m1-cB_3bq9-a1-m2-cA SLASISPQGSMSLLSQLEIERLKASSNSQLYKLFRNCCLAVLNAGSSADIYDSYKDFEVNIIRRERGIKLELIEPPEEAFVDGEVIVGIRELLESVLRDILFTGERYSETDLEHADSATLTHVVFDILRNARTLRPQEEPNMVVCWGGHSINEIEYKYTKDVGYHIGLRGLNICTGCGPGAMKGPMKGATIGHAKQRVEGGRYLGLTEPGIIAAEPPNPIVNELVILPDIEKRLEAFVRCAHGIVIFPGGAGTAEELLYLLGILMHPDNQRQSLPVILTGPASSRDYFEALDEFIGATIGDEARQLYKIIIDDPAAVAQHMHAGMAAVKQYRRDSGDAYYFNWTLKINEEFQRPFSPTHENVAALNLHPDQPKERLAADLRRAFSAIVAGNVKDEGIRQIRKNGVFTIHGEQSLMKRLDELLRAFVEQGRMKLPGSVYNPCYKVIT SLASISPQGSMSLLSQLEIERLKASSNSQLYKLFRNCCLAVLNAGSSADIYDSYKDFEVNIIRRERGIKLELIEPPEEAFVDGEVIVGIRELLESVLRDILFTGERYSETDLEHADSATLTHVVFDILRNARTLRPQEEPNMVVCWGGHSINEIEYKYTKDVGYHIGLRGLNICTGCGPGAMKGPMKGATIGHAKQRVEGGRYLGLTEPGIIAAEPPNPIVNELVILPDIEKRLEAFVRCAHGIVIFPGGAGTAEELLYLLGILMHPDNQRQSLPVILTGPASSRDYFEALDEFIGATIGDEARQLYKIIIDDPAAVAQHMHAGMAAVKQYRRDSGDAYYFNWTLKINEEFQRPFSPTHENVAALNLHPDQPKERLAADLRRAFSAIVAGNVKDEGIRQIRKNGVFTIHGEQSLMKRLDELLRAFVEQGRMKLPGSVYNPCYKVIT 3bq9-a1-m2-cA_3bq9-a1-m2-cB Crystal structure of predicted nucleotide-binding protein from Idiomarina baltica OS145 1.8 X-RAY DIFFRACTION 52 1.0 314276 (Idiomarina baltica OS145) 314276 (Idiomarina baltica OS145) 446 446 3bq9-a1-m1-cA_3bq9-a1-m1-cB SLASISPQGSMSLLSQLEIERLKASSNSQLYKLFRNCCLAVLNAGSSADIYDSYKDFEVNIIRRERGIKLELIEPPEEAFVDGEVIVGIRELLESVLRDILFTGERYSETDLEHADSATLTHVVFDILRNARTLRPQEEPNMVVCWGGHSINEIEYKYTKDVGYHIGLRGLNICTGCGPGAMKGPMKGATIGHAKQRVEGGRYLGLTEPGIIAAEPPNPIVNELVILPDIEKRLEAFVRCAHGIVIFPGGAGTAEELLYLLGILMHPDNQRQSLPVILTGPASSRDYFEALDEFIGATIGDEARQLYKIIIDDPAAVAQHMHAGMAAVKQYRRDSGDAYYFNWTLKINEEFQRPFSPTHENVAALNLHPDQPKERLAADLRRAFSAIVAGNVKDEGIRQIRKNGVFTIHGEQSLMKRLDELLRAFVEQGRMKLPGSVYNPCYKVIT SLASISPQGSMSLLSQLEIERLKASSNSQLYKLFRNCCLAVLNAGSSADIYDSYKDFEVNIIRRERGIKLELIEPPEEAFVDGEVIVGIRELLESVLRDILFTGERYSETDLEHADSATLTHVVFDILRNARTLRPQEEPNMVVCWGGHSINEIEYKYTKDVGYHIGLRGLNICTGCGPGAMKGPMKGATIGHAKQRVEGGRYLGLTEPGIIAAEPPNPIVNELVILPDIEKRLEAFVRCAHGIVIFPGGAGTAEELLYLLGILMHPDNQRQSLPVILTGPASSRDYFEALDEFIGATIGDEARQLYKIIIDDPAAVAQHMHAGMAAVKQYRRDSGDAYYFNWTLKINEEFQRPFSPTHENVAALNLHPDQPKERLAADLRRAFSAIVAGNVKDEGIRQIRKNGVFTIHGEQSLMKRLDELLRAFVEQGRMKLPGSVYNPCYKVIT 3bqt-a1-m1-cB_3bqt-a1-m1-cA Crystal structure of a protein of unknown function from Listeria monocytogenes, tetragonal form 2.9 X-RAY DIFFRACTION 18 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 80 81 LSELPNIGKVLEQDLIKAGIKTPVELKDVGSKEAFLRIWENDSSVCSELYALEGAVQGIRWHGLDEAKKIELKKFHQSLE NLSELPNIGKVLEQDLIKAGIKTPVELKDVGSKEAFLRIWENDSSVCSELYALEGAVQGIRWHGLDEAKKIELKKFHQSLE 3bqx-a1-m1-cA_3bqx-a1-m2-cA High resolution crystal structure of a glyoxalase-related enzyme from Fulvimarina pelagi Q0G7J9 Q0G7J9 1.4 X-RAY DIFFRACTION 192 1.0 314231 (Fulvimarina pelagi HTCC2506) 314231 (Fulvimarina pelagi HTCC2506) 136 136 LQQVAVITLGIGDLEASARFYGEGFGWAPVFRNPEIIFYQNGFVLATWLVQNLQEDVGVAVTSRPGSALAHNVRAETEVAPLERLVAAGGQLLRPADAPPHGGLRGYVADPDGHIWEIAFNPVWPIGADGSVTFAA LQQVAVITLGIGDLEASARFYGEGFGWAPVFRNPEIIFYQNGFVLATWLVQNLQEDVGVAVTSRPGSALAHNVRAETEVAPLERLVAAGGQLLRPADAPPHGGLRGYVADPDGHIWEIAFNPVWPIGADGSVTFAA 3bqy-a1-m1-cA_3bqy-a1-m2-cA Crystal structure of a possible TetR family transcriptional regulator from Streptomyces coelicolor A3(2). Q9S1P1 Q9S1P1 1.95 X-RAY DIFFRACTION 230 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 201 201 DRARTVQTALDLLNESGLDTLTRRLAQADVQAGALYRYFAAKQDLLTAAEHVDGVADAAGATGDGDWSERTARLARALRAALLAHRDGARVFAGTHATGPNTLRFADGLVGVLREAGFGDGDAARALYSVANFTVGHTLEEQAALTPGGGGPLDEATLREAVAAGTYPHLAATLPVLTSTDFTAHFEFGLRLLLDGLRAVR DRARTVQTALDLLNESGLDTLTRRLAQADVQAGALYRYFAAKQDLLTAAEHVDGVADAAGATGDGDWSERTARLARALRAALLAHRDGARVFAGTHATGPNTLRFADGLVGVLREAGFGDGDAARALYSVANFTVGHTLEEQAALTPGGGGPLDEATLREAVAAGTYPHLAATLPVLTSTDFTAHFEFGLRLLLDGLRAVR 3brc-a2-m1-cA_3brc-a2-m2-cB Crystal structure of a conserved protein of unknown function from Methanobacterium thermoautotrophicum O27213 O27213 1.6 X-RAY DIFFRACTION 44 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 148 149 3brc-a2-m2-cA_3brc-a2-m1-cB LEDLIGKAYLESAEDRRRGDRSEEVEAIRKYIRSARRTVVPNWNAEKVDAINDVLRSFNLREAEHLQFNTNWADLTRPAVTKALALDISGADLVIARGRLGVPGSGSLLVIDSRGRLLSAASPPHVIHSEVREAVRSETHALERIGFK LEDLIGKAYLESAEDRRRGDRSEEVEAIRKYIRSARRTVVPNWNAEKVDAINDVLRSFNLREAEHLQFNTNWADLTRPAVTKALALDISGADLVIARGRLGVPGSGSLLVIDSRGRLLSAASPPHVIHSEVREAVRSETHALERIGFKR 3brc-a2-m1-cB_3brc-a2-m2-cB Crystal structure of a conserved protein of unknown function from Methanobacterium thermoautotrophicum O27213 O27213 1.6 X-RAY DIFFRACTION 16 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 149 149 3brc-a2-m1-cA_3brc-a2-m2-cA LEDLIGKAYLESAEDRRRGDRSEEVEAIRKYIRSARRTVVPNWNAEKVDAINDVLRSFNLREAEHLQFNTNWADLTRPAVTKALALDISGADLVIARGRLGVPGSGSLLVIDSRGRLLSAASPPHVIHSEVREAVRSETHALERIGFKR LEDLIGKAYLESAEDRRRGDRSEEVEAIRKYIRSARRTVVPNWNAEKVDAINDVLRSFNLREAEHLQFNTNWADLTRPAVTKALALDISGADLVIARGRLGVPGSGSLLVIDSRGRLLSAASPPHVIHSEVREAVRSETHALERIGFKR 3brc-a2-m2-cA_3brc-a2-m2-cB Crystal structure of a conserved protein of unknown function from Methanobacterium thermoautotrophicum O27213 O27213 1.6 X-RAY DIFFRACTION 155 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 148 149 3brc-a1-m1-cA_3brc-a1-m1-cB 3brc-a2-m1-cA_3brc-a2-m1-cB LEDLIGKAYLESAEDRRRGDRSEEVEAIRKYIRSARRTVVPNWNAEKVDAINDVLRSFNLREAEHLQFNTNWADLTRPAVTKALALDISGADLVIARGRLGVPGSGSLLVIDSRGRLLSAASPPHVIHSEVREAVRSETHALERIGFK LEDLIGKAYLESAEDRRRGDRSEEVEAIRKYIRSARRTVVPNWNAEKVDAINDVLRSFNLREAEHLQFNTNWADLTRPAVTKALALDISGADLVIARGRLGVPGSGSLLVIDSRGRLLSAASPPHVIHSEVREAVRSETHALERIGFKR 3bre-a2-m1-cA_3bre-a2-m2-cA Crystal Structure of P.aeruginosa PA3702 Q9HXT9 Q9HXT9 2.4 X-RAY DIFFRACTION 41 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 322 322 AVMVLLVDDQAMIGEAVRRSLASEAGIDFHFCSDPQQAVAVANQIKPTVILQDLVMPGVDGLTLLAAYRGNPATRDIPIIVLSTKEEPTVKSAAFAAGANDYLVKLPDAIELVARIRYHSRSYIALQQRDEAYRALRESQQQLLETNLVLQRLMNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQ AVMVLLVDDQAMIGEAVRRSLASEAGIDFHFCSDPQQAVAVANQIKPTVILQDLVMPGVDGLTLLAAYRGNPATRDIPIIVLSTKEEPTVKSAAFAAGANDYLVKLPDAIELVARIRYHSRSYIALQQRDEAYRALRESQQQLLETNLVLQRLMNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQ 3bre-a2-m1-cA_3bre-a2-m2-cB Crystal Structure of P.aeruginosa PA3702 Q9HXT9 Q9HXT9 2.4 X-RAY DIFFRACTION 33 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 322 328 3bre-a2-m2-cA_3bre-a2-m1-cB AVMVLLVDDQAMIGEAVRRSLASEAGIDFHFCSDPQQAVAVANQIKPTVILQDLVMPGVDGLTLLAAYRGNPATRDIPIIVLSTKEEPTVKSAAFAAGANDYLVKLPDAIELVARIRYHSRSYIALQQRDEAYRALRESQQQLLETNLVLQRLMNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQ APLDGAVMVLLVDDQAMIGEAVRRSLASEAGIDFHFCSDPQQAVAVANQIKPTVILQDLVMPGVDGLTLLAAYRGNPATRDIPIIVLSTKEEPTVKSAAFAAGANDYLVKLPDAIELVARIRYHSRSYIALQQRDEAYRALRESQQQLLETNLVLQRLMNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQP 3bre-a2-m2-cA_3bre-a2-m2-cB Crystal Structure of P.aeruginosa PA3702 Q9HXT9 Q9HXT9 2.4 X-RAY DIFFRACTION 71 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 322 328 3bre-a1-m1-cA_3bre-a1-m1-cB 3bre-a2-m1-cA_3bre-a2-m1-cB AVMVLLVDDQAMIGEAVRRSLASEAGIDFHFCSDPQQAVAVANQIKPTVILQDLVMPGVDGLTLLAAYRGNPATRDIPIIVLSTKEEPTVKSAAFAAGANDYLVKLPDAIELVARIRYHSRSYIALQQRDEAYRALRESQQQLLETNLVLQRLMNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQ APLDGAVMVLLVDDQAMIGEAVRRSLASEAGIDFHFCSDPQQAVAVANQIKPTVILQDLVMPGVDGLTLLAAYRGNPATRDIPIIVLSTKEEPTVKSAAFAAGANDYLVKLPDAIELVARIRYHSRSYIALQQRDEAYRALRESQQQLLETNLVLQRLMNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQP 3brj-a2-m1-cC_3brj-a2-m1-cD Crystal structure of mannitol operon repressor (MtlR) from Vibrio parahaemolyticus RIMD 2210633 Q87SQ4 Q87SQ4 2.75 X-RAY DIFFRACTION 49 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 161 166 3brj-a1-m1-cA_3brj-a1-m1-cB NESEIIERLNSAPSVRGFFIATVDVFNESIDGLIQRIFRKDNFAVQSVVGPLLQDSGPLGDLSVRLKLLFGLGVLPDDIYHDIEDIIKLKNHLNSDASDYEFTDPNILEPIKKLHLVKKGVQLEVNDIDLEFYQLQLQRQQQIIKSGLSLAIVEICNELGK INESEIIERLNSAPSVRGFFIATVDVFNESIDGLIQRIFRKDNFAVQSVVGPLLQDSGPLGDLSVRLKLLFGLGVLPDDIYHDIEDIIKLKNHLNSDASDYEFTDPNILEPIKKLHLVKKGVQLEVNEPDDDIDLEFYQLQLQRQQQIIKSGLSLAIVEICNELGK 3bro-a2-m1-cD_3bro-a2-m1-cC Crystal structure of the transcription regulator MarR from Oenococcus oeni PSU-1 Q04CY6 Q04CY6 2.04 X-RAY DIFFRACTION 87 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 128 129 3bro-a1-m1-cA_3bro-a1-m1-cB DLGRLLKIASNQSTRFDIFAKKYDLTGTQTIIDYLSRNKNKEVLQRDLESEFSIKSSTATVLLQREIKKLLYRKVSGKDSRQKCLKLTKKANKLETIILSYDSDQSQTSGLNKEEVVFLEKILKRIES DLGRLLKIASNQSTRFDIFAKKYDLTGTQTIIDYLSRNKNKEVLQRDLESEFSIKSSTATVLLQREIKKLLYRKVSGKDSRQKCLKLTKKANKLETIILSYDSDQSQTSGLNKEEVVFLEKILKRIESD 3bru-a1-m1-cB_3bru-a1-m1-cA Crystal structure of regulatory protein TetR from Rhodobacter sphaeroides Q3J6K8 Q3J6K8 2.3 X-RAY DIFFRACTION 124 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 186 188 SLAHQSLIRAGLEHLTEKGYSSVGVDEILKAARVPKGSFYHYFRNKADFGLALIEAYDTYFARLLDQAFLDGSLAPLARLRLFTRAEEGARHGFRRGCLVGNLGQEGALPDDFRAALIGVLETWQRRTAQLFREAQACGELSADHDPDALAEAFWIGWEGAILRAKLELRPDPLHSFTRTFGRHFV DASLAHQSLIRAGLEHLTEKGYSSVGVDEILKAARVPKGSFYHYFRNKADFGLALIEAYDTYFARLLDQAFLDGSLAPLARLRLFTRAEEGARHGFRRGCLVGNLGQEGALPDDFRAALIGVLETWQRRTAQLFREAQACGELSADHDPDALAEAFWIGWEGAILRAKLELRPDPLHSFTRTFGRHFV 3brv-a1-m1-cB_3brv-a1-m1-cD NEMO/IKKb association domain structure Q9Y6K9 Q9Y6K9 2.2 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 62 3brt-a1-m1-cB_3brt-a1-m1-cD ETLQRCLEENQELRDAIRQSNQILRERCEELLHFQASQREEKEFLMCKFQEARKLVERLGL ETLQRCLEENQELRDAIRQSNQILRERCEELLHFQASQREEKEFLMCKFQEARKLVERLGLE 3brx-a2-m1-cA_3brx-a2-m2-cA Crystal Structure of calcium-bound cotton annexin Gh1 P93157 P93157 2.5 X-RAY DIFFRACTION 86 1.0 3635 (Gossypium hirsutum) 3635 (Gossypium hirsutum) 317 317 HHATLTVPTTVPSVSEDCEQLRKAFSGWGTNEGLIIDILGHRNAEQRNLIRKTYAETYGEDLLKALDKELSNDFERLVLLWALDPAERDALLANEATKRWTSSNQVLMEIACTRSANQLLHARQAYHARYKKSLEEDVAHHTTGDFHKLLLPLVSSYRYEGEEVNMTLAKTEAKLLHEKISNKAYSDDDVIRVLATRSKAQINATLNHYKNEYGNDINKDLKADPKDEFLALLRSTVKCLVYPEKYFEKVLRLAINRRGTDEGALTRVVCTRAEVDLKVIADEYQRRNSVPLTRAIVKDTHGDYEKLLLVLAGHVEN HHATLTVPTTVPSVSEDCEQLRKAFSGWGTNEGLIIDILGHRNAEQRNLIRKTYAETYGEDLLKALDKELSNDFERLVLLWALDPAERDALLANEATKRWTSSNQVLMEIACTRSANQLLHARQAYHARYKKSLEEDVAHHTTGDFHKLLLPLVSSYRYEGEEVNMTLAKTEAKLLHEKISNKAYSDDDVIRVLATRSKAQINATLNHYKNEYGNDINKDLKADPKDEFLALLRSTVKCLVYPEKYFEKVLRLAINRRGTDEGALTRVVCTRAEVDLKVIADEYQRRNSVPLTRAIVKDTHGDYEKLLLVLAGHVEN 3bs3-a1-m1-cA_3bs3-a1-m2-cA Crystal structure of a putative DNA-binding protein from Bacteroides fragilis Q5LGD2 Q5LGD2 1.65 X-RAY DIFFRACTION 25 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 58 58 LNRIKVVLAEKQRTNRWLAEQGKSENTISRWCSNKSQPSLDLVKVAELLNVDPRQLIN LNRIKVVLAEKQRTNRWLAEQGKSENTISRWCSNKSQPSLDLVKVAELLNVDPRQLIN 3bs6-a3-m1-cA_3bs6-a3-m4-cB 1.8 Angstrom crystal structure of the periplasmic domain of the membrane insertase YidC P25714 P25714 1.8 X-RAY DIFFRACTION 20 0.992 562 (Escherichia coli) 562 (Escherichia coli) 254 256 3bs6-a3-m2-cA_3bs6-a3-m3-cB KLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPTFRGAAYSTPDEKYEKYKFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVD GQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLFRGAAYSTPDEKYEKYKFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDH 3bs6-a3-m2-cA_3bs6-a3-m4-cB 1.8 Angstrom crystal structure of the periplasmic domain of the membrane insertase YidC P25714 P25714 1.8 X-RAY DIFFRACTION 43 0.992 562 (Escherichia coli) 562 (Escherichia coli) 254 256 3bs6-a3-m1-cA_3bs6-a3-m3-cB KLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLPTFRGAAYSTPDEKYEKYKFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVD GQGKLISVKTDVLDLTINTRGGDVEQALLPAYPKELNSTQPFQLLETSPQFIYQAQSGLTGRDGPDNPANGPRPLYNVEKDAYVLAEGQNELQVPTYTDAAGNTFTKTFVLKRGDYAVNVNYNVQNAGEKPLEISSFGQLKQSITLFRGAAYSTPDEKYEKYKFDTIADNENLNISSKGGWVALQQYFATAWIPHNDGTNNFYTANLGNGIAAIGYKSQPVLVQPGQTGANSTLWVGPEIQDKAAVAPHLDLTVDH 3bs8-a1-m1-cA_3bs8-a1-m2-cA Crystal structure of Glutamate 1-Semialdehyde Aminotransferase complexed with pyridoxamine-5'-phosphate From Bacillus subtilis P30949 P30949 2.3 X-RAY DIFFRACTION 433 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 430 430 MRSYEKSKTAFKEAQKLMPGGVNSPVRAFKSVDMDPIFMERGKGSKIFDIDGNEYIDYVLSWGPLILGHTNDRVVESLKKVAEYGTSFGAPTEVENELAKLVIDRVPSVEIVRMVSSGTEATMSALRLARGYTGRNKILKFEGCYHGHGDSLLIKAGSGVATLGLPDSPGVPEGIAKNTITVPYNDLESVKLAFQQFGEDIAGVIVEPVAGNMGVVPPQEGFLQGLRDITEQYGSLLIFDEVMTGFRVDYNCAQGYFGVTPDLTCLGKVIGGGLPVGAYGGKAEIMEQIAPSGPIYQAGTLSGNPLAMTAGLETLKQLTPDSYKNFIKKGDRLEEGISKAAEAHGIPHTFNRAGSMIGFFFTNEPVINYETAKASDLKLFASYYKGMANEGVFLPPSQFEGLFLSTAHTDEDIENTIQAAEKVFAEISRR MRSYEKSKTAFKEAQKLMPGGVNSPVRAFKSVDMDPIFMERGKGSKIFDIDGNEYIDYVLSWGPLILGHTNDRVVESLKKVAEYGTSFGAPTEVENELAKLVIDRVPSVEIVRMVSSGTEATMSALRLARGYTGRNKILKFEGCYHGHGDSLLIKAGSGVATLGLPDSPGVPEGIAKNTITVPYNDLESVKLAFQQFGEDIAGVIVEPVAGNMGVVPPQEGFLQGLRDITEQYGSLLIFDEVMTGFRVDYNCAQGYFGVTPDLTCLGKVIGGGLPVGAYGGKAEIMEQIAPSGPIYQAGTLSGNPLAMTAGLETLKQLTPDSYKNFIKKGDRLEEGISKAAEAHGIPHTFNRAGSMIGFFFTNEPVINYETAKASDLKLFASYYKGMANEGVFLPPSQFEGLFLSTAHTDEDIENTIQAAEKVFAEISRR 3bs9-a3-m1-cA_3bs9-a3-m1-cB X-ray structure of human TIA-1 RRM2 P31483 P31483 1.95 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 HFHVFVGDLSPEITTAAIAAAFAPFGRISDARVVKDMATGKSKGYGFVSFFNKWDAENAIQQMGGQWLGGRQIRTNWAT HFHVFVGDLSPEITTAAIAAAFAPFGRISDARVVKDMATGKSKGYGFVSFFNKWDAENAIQQMGGQWLGGRQIRTNWAT 3bsf-a1-m1-cA_3bsf-a1-m1-cB Crystal Structure of the MTA/SAH nucleosidase Q7XA67 Q7XA67 2.9 X-RAY DIFFRACTION 112 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 244 244 RPISTIVFIVAMQKEAQPLINRLRLVEEVNTPFPKEVTWIMFKGMYKDLNINIVCPGKDSTLGVESVGTVPASLVTYASILAIQPDLIINAGTAGGFKAKGACISDVYVVSTVAFHDRRIPVPVLDIYGVGMRNTFPTPNLIKELNLKVGRLSTGDSMDMSPHDEESITANDATVKDMEGAAVAYVADIFKVPTILIKGVTDIVDGNRPTSEEFLENLAAVTAKLDESLTKVIDFISGKCLSDL RPISTIVFIVAMQKEAQPLINRLRLVEEVNTPFPKEVTWIMFKGMYKDLNINIVCPGKDSTLGVESVGTVPASLVTYASILAIQPDLIINAGTAGGFKAKGACISDVYVVSTVAFHDRRIPVPVLDIYGVGMRNTFPTPNLIKELNLKVGRLSTGDSMDMSPHDEESITANDATVKDMEGAAVAYVADIFKVPTILIKGVTDIVDGNRPTSEEFLENLAAVTAKLDESLTKVIDFISGKCLSDL 3bt3-a1-m1-cA_3bt3-a1-m1-cB Crystal structure of a glyoxalase-related enzyme from Clostridium phytofermentans A9KJQ6 A9KJQ6 2.5 X-RAY DIFFRACTION 130 1.0 357809 (Lachnoclostridium phytofermentans ISDg) 357809 (Lachnoclostridium phytofermentans ISDg) 129 129 ERGYVVRENGPVYFTKDMDKTVKWFEEILGWSGDIVARDDEGFGDYGCVFDYPSEVAVAHPFRGFHLFKGEPIKGVAGFMMIEGIDALHKYVKENGWDQISDIYTQPWGARECSITTTDGCILRFFESI ERGYVVRENGPVYFTKDMDKTVKWFEEILGWSGDIVARDDEGFGDYGCVFDYPSEVAVAHPFRGFHLFKGEPIKGVAGFMMIEGIDALHKYVKENGWDQISDIYTQPWGARECSITTTDGCILRFFESI 3bt4-a2-m1-cA_3bt4-a2-m2-cA Crystal Structure Analysis of AmFPI-1, fungal protease inhibitor from Antheraea mylitta B0JFB8 B0JFB8 2.1 X-RAY DIFFRACTION 44 1.0 34739 (Antheraea mylitta) 34739 (Antheraea mylitta) 85 85 DLICGTNYCKDHPCTSPIARASCRSPATYRANHSGKCACCPACVTLLRERAACKTYSKEIGETPSAVCQEPLKCLNGVCTKVTPR DLICGTNYCKDHPCTSPIARASCRSPATYRANHSGKCACCPACVTLLRERAACKTYSKEIGETPSAVCQEPLKCLNGVCTKVTPR 3btk-a2-m1-cI_3btk-a2-m4-cI THE CRYSTAL STRUCTURES OF THE COMPLEXES BETWEEN BOVINE BETA-TRYPSIN AND TEN P1 VARIANTS OF BPTI P00974 P00974 1.85 X-RAY DIFFRACTION 16 1.0 9913 (Bos taurus) 9913 (Bos taurus) 56 56 1p2j-a2-m1-cI_1p2j-a2-m4-cI 1p2j-a2-m2-cI_1p2j-a2-m3-cI 1p2n-a4-m1-cB_1p2n-a4-m1-cD 1t7c-a4-m1-cB_1t7c-a4-m1-cD 1t8l-a4-m1-cB_1t8l-a4-m1-cD 1t8m-a4-m1-cB_1t8m-a4-m1-cD 1t8n-a4-m1-cB_1t8n-a4-m1-cD 1t8o-a4-m1-cB_1t8o-a4-m1-cD 1tpa-a2-m1-cI_1tpa-a2-m4-cI 1tpa-a2-m2-cI_1tpa-a2-m3-cI 2fi3-a2-m1-cI_2fi3-a2-m4-cI 2fi3-a2-m2-cI_2fi3-a2-m3-cI 2fi3-a4-m1-cI_2fi3-a4-m4-cI 2fi3-a5-m2-cI_2fi3-a5-m3-cI 2fi3-a6-m6-cI_2fi3-a6-m7-cI 2fi4-a2-m1-cI_2fi4-a2-m4-cI 2fi4-a2-m2-cI_2fi4-a2-m3-cI 2fi4-a4-m1-cI_2fi4-a4-m4-cI 2fi4-a5-m2-cI_2fi4-a5-m3-cI 2fi4-a6-m6-cI_2fi4-a6-m7-cI 2fi5-a2-m1-cI_2fi5-a2-m4-cI 2fi5-a2-m2-cI_2fi5-a2-m3-cI 2fi5-a4-m1-cI_2fi5-a4-m4-cI 2fi5-a5-m2-cI_2fi5-a5-m3-cI 2fi5-a6-m6-cI_2fi5-a6-m7-cI 2ftl-a2-m1-cI_2ftl-a2-m4-cI 2ftl-a2-m2-cI_2ftl-a2-m3-cI 2ftl-a4-m1-cI_2ftl-a4-m4-cI 2ftl-a5-m2-cI_2ftl-a5-m3-cI 2ftm-a2-m1-cB_2ftm-a2-m4-cB 2ftm-a2-m2-cB_2ftm-a2-m3-cB 2ftm-a4-m1-cB_2ftm-a4-m4-cB 2ftm-a5-m2-cB_2ftm-a5-m3-cB 2ptc-a2-m1-cI_2ptc-a2-m4-cI 2ptc-a2-m2-cI_2ptc-a2-m3-cI 2ra3-a2-m2-cC_2ra3-a2-m1-cI 2ra3-a2-m3-cC_2ra3-a2-m4-cI 2tgp-a2-m1-cI_2tgp-a2-m4-cI 2tgp-a2-m2-cI_2tgp-a2-m3-cI 2tgp-a4-m1-cI_2tgp-a4-m4-cI 3btd-a2-m1-cI_3btd-a2-m4-cI 3btd-a2-m2-cI_3btd-a2-m3-cI 3bte-a2-m1-cI_3bte-a2-m4-cI 3bte-a2-m2-cI_3bte-a2-m3-cI 3btf-a2-m1-cI_3btf-a2-m4-cI 3btf-a2-m2-cI_3btf-a2-m3-cI 3btg-a2-m1-cI_3btg-a2-m4-cI 3btg-a2-m2-cI_3btg-a2-m3-cI 3bth-a2-m1-cI_3bth-a2-m4-cI 3bth-a2-m2-cI_3bth-a2-m3-cI 3btk-a2-m2-cI_3btk-a2-m3-cI 3btm-a2-m1-cI_3btm-a2-m4-cI 3btm-a2-m2-cI_3btm-a2-m3-cI 3btq-a2-m1-cI_3btq-a2-m4-cI 3btq-a2-m2-cI_3btq-a2-m3-cI 3btt-a2-m1-cI_3btt-a2-m4-cI 3btt-a2-m2-cI_3btt-a2-m3-cI 3btw-a2-m1-cI_3btw-a2-m4-cI 3btw-a2-m2-cI_3btw-a2-m3-cI 3tpi-a2-m1-cI_3tpi-a2-m4-cI 3tpi-a2-m2-cI_3tpi-a2-m3-cI 4tpi-a2-m1-cI_4tpi-a2-m4-cI 4tpi-a2-m2-cI_4tpi-a2-m3-cI 7qiq-a1-m1-cD_7qiq-a1-m1-cH 7qir-a1-m1-cD_7qir-a1-m1-cH 7qis-a1-m1-cD_7qis-a1-m1-cH 7qit-a1-m1-cD_7qit-a1-m1-cH DFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCGGA DFCLEPPYTGPCKARIIRYFYNAKAGLCQTFVYGGCRAKRNNFKSAEDCMRTCGGA 3btn-a3-m1-cB_3btn-a3-m1-cA Crystal structure of antizyme inhibitor, an ornithine decarboxylase homologous protein O35484 O35484 2.05 X-RAY DIFFRACTION 75 1.0 10090 (Mus musculus) 10090 (Mus musculus) 390 394 ANYSVGLLDEGTNLGNVIDNYVYEHTLTGKNAFFVGDLGKIVKKHSQWQTVVAQIKPFYTVKCNSTPAVLEILAALGTGFACSSKNEMALVQELGVSPENIIFTSPCKQVSQIKYAAKVGVNIMTCDNEIELKKIARNHPNAKVLLHIATEDMKFGTTLKNCRHLLECAKELDVQIIGVKFHVSSACKEYQVYVHALSDARCVFDMAGEFGFTMNMLDIGGGFTGTEIQLEEVNHVISPLLDIYFPEGSGIQIISEPGSYYVSSAFTLAVNIIAKKVAFVYYMNDGVYGSFASKLTIPEVHKPLFTSSLWGPSCDELDQIVESCLLPELNVGDWLIFDNMGADSFHEPSAFNDFQRPAIYFMMSFSDWYEMQDAGITSDAMMKNFFFAPS ANYSVGLLDEGTNLGNVIDNYVYEHTLTGKNAFFVGDLGKIVKKHSQWQTVVAQIKPFYTVKCNSTPAVLEILAALGTGFACSSKNEMALVQELGVSPENIIFTSPCKQVSQIKYAAKVGVNIMTCDNEIELKKIARNHPNAKVLLHIATEDMKFGTTLKNCRHLLECAKELDVQIIGVKFHVSSACKEYQVYVHALSDARCVFDMAGEFGFTMNMLDIGGGFTGTEIQLEEVNHVISPLLDIYFPEGSGIQIISEPGSYYVSSAFTLAVNIIAKKVVAFVYYMNDGVYGSFASKLSTIPEVHKKPLFTSSLWGPSCDELDQIVESCLLPELNVGDWLIFDNMGADSFHEPSAFNDFQRPAIYFMMSFSDWYEMQDAGITSDAMMKNFFFAPSC 3bu2-a1-m1-cA_3bu2-a1-m1-cD Crystal structure of a tRNA-binding protein from Staphylococcus saprophyticus subsp. saprophyticus. Northeast Structural Genomics Consortium target SyR77 Q49YH3 Q49YH3 2.7 X-RAY DIFFRACTION 51 1.0 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 189 189 3bu2-a1-m1-cB_3bu2-a1-m1-cC NLFYNKEAVGDVAFLQINPTEGEYNYVTQGDVVEIQNDGEVVGYNIFNASNKATLTHIKLTETLVQAFQKAIEAAGFTYKLDADFTPKFVVGYVETKDKHPDADKLSVLSVDVATEKLQIVCGAPNVEAGQKVVVAKVGAVPSGVIKDAELRGVASSGICSKELGLPNAPQEKGIVLSDDYTVGQSFFE NLFYNKEAVGDVAFLQINPTEGEYNYVTQGDVVEIQNDGEVVGYNIFNASNKATLTHIKLTETLVQAFQKAIEAAGFTYKLDADFTPKFVVGYVETKDKHPDADKLSVLSVDVATEKLQIVCGAPNVEAGQKVVVAKVGAVPSGVIKDAELRGVASSGICSKELGLPNAPQEKGIVLSDDYTVGQSFFE 3bu2-a1-m1-cC_3bu2-a1-m1-cD Crystal structure of a tRNA-binding protein from Staphylococcus saprophyticus subsp. saprophyticus. Northeast Structural Genomics Consortium target SyR77 Q49YH3 Q49YH3 2.7 X-RAY DIFFRACTION 135 1.0 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 189 189 3bu2-a1-m1-cA_3bu2-a1-m1-cB NLFYNKEAVGDVAFLQINPTEGEYNYVTQGDVVEIQNDGEVVGYNIFNASNKATLTHIKLTETLVQAFQKAIEAAGFTYKLDADFTPKFVVGYVETKDKHPDADKLSVLSVDVATEKLQIVCGAPNVEAGQKVVVAKVGAVPSGVIKDAELRGVASSGICSKELGLPNAPQEKGIVLSDDYTVGQSFFE NLFYNKEAVGDVAFLQINPTEGEYNYVTQGDVVEIQNDGEVVGYNIFNASNKATLTHIKLTETLVQAFQKAIEAAGFTYKLDADFTPKFVVGYVETKDKHPDADKLSVLSVDVATEKLQIVCGAPNVEAGQKVVVAKVGAVPSGVIKDAELRGVASSGICSKELGLPNAPQEKGIVLSDDYTVGQSFFE 3bu7-a1-m1-cA_3bu7-a1-m2-cB Crystal Structure and Biochemical Characterization of GDOsp, a Gentisate 1,2-Dioxygenase from Silicibacter Pomeroyi Q5LLB1 Q5LLB1 2.8 X-RAY DIFFRACTION 210 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 355 358 3bu7-a1-m2-cA_3bu7-a1-m1-cB RDTPELEAYYDDLAKIETGALWTVANDIEPWEPTPKSAPVHWKWSDLRREVLRAIDLVRPEDAGRRVVYLRNPQRKDVSAACGWLFSGIQTMKAGERAGAHRHAASALRFIMEGSGAYTIVDGHKVELGANDFVLTPNGTWHEHGILESGTECIWQDGLDIPLTNCLEANFYEVHPNDYQTTDIPLNDSPLTYGGPALLPQLDKWDKPYSPLLKYSWEPTYEALLNYAKASDGSPYDGLILRYTNPQTGGHPMLTMGASMQMLRPGEHTKAHRHTGNVIYNVAKGQGYSIVGGKRFDWSEHDIFCVPAWTWHEHCNTQERDDACLFSFNDFPVMEKLGFWAEQALEDNGGHQIVA RVRDTPELEAYYDDLAKIETGALWTVANDIEPWEPTPKSAPVHWKWSDLRREVLRAIDLVRPEDAGRRVVYLRNPQRKDVSAACGWLFSGIQTMKAGERAGAHRHAASALRFIMEGSGAYTIVDGHKVELGANDFVLTPNGTWHEHGILESGTECIWQDGLDIPLTNCLEANFYEVHPNDYQTTDIPLNDSPLTYGGPALLPQLDKWDKPYSPLLKYSWEPTYEALLNYAKASDGSPYDGLILRYTNPQTGGHPMLTMGASMQMLRPGEHTKAHRHTGNVIYNVAKGQGYSIVGGKRFDWSEHDIFCVPAWTWHEHCNTQERDDACLFSFNDFPVMEKLGFWAEQALEDNGGHQIVAD 3bu7-a1-m2-cA_3bu7-a1-m2-cB Crystal Structure and Biochemical Characterization of GDOsp, a Gentisate 1,2-Dioxygenase from Silicibacter Pomeroyi Q5LLB1 Q5LLB1 2.8 X-RAY DIFFRACTION 138 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 355 358 3bu7-a1-m1-cA_3bu7-a1-m1-cB RDTPELEAYYDDLAKIETGALWTVANDIEPWEPTPKSAPVHWKWSDLRREVLRAIDLVRPEDAGRRVVYLRNPQRKDVSAACGWLFSGIQTMKAGERAGAHRHAASALRFIMEGSGAYTIVDGHKVELGANDFVLTPNGTWHEHGILESGTECIWQDGLDIPLTNCLEANFYEVHPNDYQTTDIPLNDSPLTYGGPALLPQLDKWDKPYSPLLKYSWEPTYEALLNYAKASDGSPYDGLILRYTNPQTGGHPMLTMGASMQMLRPGEHTKAHRHTGNVIYNVAKGQGYSIVGGKRFDWSEHDIFCVPAWTWHEHCNTQERDDACLFSFNDFPVMEKLGFWAEQALEDNGGHQIVA RVRDTPELEAYYDDLAKIETGALWTVANDIEPWEPTPKSAPVHWKWSDLRREVLRAIDLVRPEDAGRRVVYLRNPQRKDVSAACGWLFSGIQTMKAGERAGAHRHAASALRFIMEGSGAYTIVDGHKVELGANDFVLTPNGTWHEHGILESGTECIWQDGLDIPLTNCLEANFYEVHPNDYQTTDIPLNDSPLTYGGPALLPQLDKWDKPYSPLLKYSWEPTYEALLNYAKASDGSPYDGLILRYTNPQTGGHPMLTMGASMQMLRPGEHTKAHRHTGNVIYNVAKGQGYSIVGGKRFDWSEHDIFCVPAWTWHEHCNTQERDDACLFSFNDFPVMEKLGFWAEQALEDNGGHQIVAD 3bu8-a1-m2-cA_3bu8-a1-m2-cB Crystal Structure of TRF2 TRFH domain and TIN2 peptide complex Q15554 Q15554 2.15 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 207 3bu8-a1-m1-cA_3bu8-a1-m1-cB GEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALKSE AGEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALKSESA 3bu8-a2-m1-cA_3bu8-a2-m3-cB Crystal Structure of TRF2 TRFH domain and TIN2 peptide complex Q15554 Q15554 2.15 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 207 3bua-a1-m1-cA_3bua-a1-m1-cB 3bua-a1-m1-cC_3bua-a1-m1-cD 4m7c-a1-m1-cA_4m7c-a1-m1-cB 4rqi-a1-m1-cB_4rqi-a1-m1-cA 4rqi-a2-m1-cC_4rqi-a2-m1-cD GEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALKSE AGEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALKSESA 3bua-a1-m1-cA_3bua-a1-m1-cD Crystal Structure of TRF2 TRFH domain and APOLLO peptide complex Q15554 Q15554 2.5 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 202 GEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALK GEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALK 3bua-a1-m1-cB_3bua-a1-m1-cC Crystal Structure of TRF2 TRFH domain and APOLLO peptide complex Q15554 Q15554 2.5 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 202 GEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALK GEARLEEAVNRWVLKFYFHEALRAFRGSRYGDFRQIRDIMQALLVRPLGKEHTVSRLLRVMQCLSRIEEGENLDCSFDMEAELTPLESAINVLEMIKTEFTLTEAVVESSRKLVKEAAVIICIKNKEFEKASKILKKHMSKDPTTQKLRNDLLNIIREKNLAHPVIQNFSYETFQQKMLRFLESHLDDAEPYLLTMAKKALK 3bue-a1-m1-cA_3bue-a1-m1-cF Crystal structure of the C-terminal domain hexamer of ArgR from Mycobacterium tuberculosis P9WPY9 P9WPY9 2.15 X-RAY DIFFRACTION 18 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 78 78 3bue-a1-m1-cB_3bue-a1-m1-cE 3bue-a1-m1-cC_3bue-a1-m1-cD 3fhz-a1-m1-cA_3fhz-a1-m1-cF GTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR GTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3but-a1-m1-cA_3but-a1-m2-cA Crystal structure of protein Af_0446 from Archaeoglobus fulgidus O29803 O29803 1.91 X-RAY DIFFRACTION 42 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 123 123 SLESVKAWGVVTDSQTEIVALAKVRNEDVVPIVVSGYHYTIENGVKVADGYENSPVTVKPASATTLKFSLRLNNSFLREWWVTHIANGEKTKIRVAIKPTIEIGRDVEVPVFLRESEFTTKLL SLESVKAWGVVTDSQTEIVALAKVRNEDVVPIVVSGYHYTIENGVKVADGYENSPVTVKPASATTLKFSLRLNNSFLREWWVTHIANGEKTKIRVAIKPTIEIGRDVEVPVFLRESEFTTKLL 3bv6-a1-m1-cA_3bv6-a1-m1-cF Crystal structure of uncharacterized metallo protein from Vibrio cholerae with beta-lactamase like fold Q9KMS2 Q9KMS2 1.8 X-RAY DIFFRACTION 312 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 353 354 3bv6-a1-m1-cC_3bv6-a1-m1-cB 3bv6-a1-m1-cD_3bv6-a1-m1-cE KVNEITRESWILSTFPEWGTWLNEEIEQTVVEPNTFSMWWLGCTGIWLKSAGNTNLSIDFWCGTGKKTQKNRLMNTQHQMMRMGGVEALQPNLRTSIFPLDPFAIKEIDAVLASHDHADHIDVNVAAAVLQNCGEHVKFIGPQACVDLWLGWGVPQERCIVAKVGDVLEIGDVKIRVLDSFDRTALVTLPKGVSSYDKAILDGMDERAVNYLIETSGGSVYHSGDSHYSNYYAKHGNDYQIDVALLSYGENPRGVTDKMTSSDVLRAAESLDCQVVVPFHHDIWANFQNDPREIEVLWNMKKDRLQYQFAPFFWQVGGKYTYPTDKGRMHYQHFRGFQDIFKNEPELPYKAFL SKVNEITRESWILSTFPEWGTWLNEEIEQTVVEPNTFSMWWLGCTGIWLKSAGNTNLSIDFWCGTGKKTQKNRLMNTQHQMMRMGGVEALQPNLRTSIFPLDPFAIKEIDAVLASHDHADHIDVNVAAAVLQNCGEHVKFIGPQACVDLWLGWGVPQERCIVAKVGDVLEIGDVKIRVLDSFDRTALVTLPKGVSSYDKAILDGMDERAVNYLIETSGGSVYHSGDSHYSNYYAKHGNDYQIDVALLSYGENPRGVTDKMTSSDVLRAAESLDCQVVVPFHHDIWANFQNDPREIEVLWNMKKDRLQYQFAPFFWQVGGKYTYPTDKGRMHYQHFRGFQDIFKNEPELPYKAFL 3bv6-a1-m1-cD_3bv6-a1-m1-cF Crystal structure of uncharacterized metallo protein from Vibrio cholerae with beta-lactamase like fold Q9KMS2 Q9KMS2 1.8 X-RAY DIFFRACTION 41 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 354 354 3bv6-a1-m1-cA_3bv6-a1-m1-cC 3bv6-a1-m1-cA_3bv6-a1-m1-cE 3bv6-a1-m1-cB_3bv6-a1-m1-cD 3bv6-a1-m1-cB_3bv6-a1-m1-cF 3bv6-a1-m1-cC_3bv6-a1-m1-cE SKVNEITRESWILSTFPEWGTWLNEEIEQTVVEPNTFSMWWLGCTGIWLKSAGNTNLSIDFWCGTGKKTQKNRLMNTQHQMMRMGGVEALQPNLRTSIFPLDPFAIKEIDAVLASHDHADHIDVNVAAAVLQNCGEHVKFIGPQACVDLWLGWGVPQERCIVAKVGDVLEIGDVKIRVLDSFDRTALVTLPKGVSSYDKAILDGMDERAVNYLIETSGGSVYHSGDSHYSNYYAKHGNDYQIDVALLSYGENPRGVTDKMTSSDVLRAAESLDCQVVVPFHHDIWANFQNDPREIEVLWNMKKDRLQYQFAPFFWQVGGKYTYPTDKGRMHYQHFRGFQDIFKNEPELPYKAFL SKVNEITRESWILSTFPEWGTWLNEEIEQTVVEPNTFSMWWLGCTGIWLKSAGNTNLSIDFWCGTGKKTQKNRLMNTQHQMMRMGGVEALQPNLRTSIFPLDPFAIKEIDAVLASHDHADHIDVNVAAAVLQNCGEHVKFIGPQACVDLWLGWGVPQERCIVAKVGDVLEIGDVKIRVLDSFDRTALVTLPKGVSSYDKAILDGMDERAVNYLIETSGGSVYHSGDSHYSNYYAKHGNDYQIDVALLSYGENPRGVTDKMTSSDVLRAAESLDCQVVVPFHHDIWANFQNDPREIEVLWNMKKDRLQYQFAPFFWQVGGKYTYPTDKGRMHYQHFRGFQDIFKNEPELPYKAFL 3bv6-a1-m1-cE_3bv6-a1-m1-cF Crystal structure of uncharacterized metallo protein from Vibrio cholerae with beta-lactamase like fold Q9KMS2 Q9KMS2 1.8 X-RAY DIFFRACTION 72 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 354 354 3bv6-a1-m1-cA_3bv6-a1-m1-cB 3bv6-a1-m1-cC_3bv6-a1-m1-cD SKVNEITRESWILSTFPEWGTWLNEEIEQTVVEPNTFSMWWLGCTGIWLKSAGNTNLSIDFWCGTGKKTQKNRLMNTQHQMMRMGGVEALQPNLRTSIFPLDPFAIKEIDAVLASHDHADHIDVNVAAAVLQNCGEHVKFIGPQACVDLWLGWGVPQERCIVAKVGDVLEIGDVKIRVLDSFDRTALVTLPKGVSSYDKAILDGMDERAVNYLIETSGGSVYHSGDSHYSNYYAKHGNDYQIDVALLSYGENPRGVTDKMTSSDVLRAAESLDCQVVVPFHHDIWANFQNDPREIEVLWNMKKDRLQYQFAPFFWQVGGKYTYPTDKGRMHYQHFRGFQDIFKNEPELPYKAFL SKVNEITRESWILSTFPEWGTWLNEEIEQTVVEPNTFSMWWLGCTGIWLKSAGNTNLSIDFWCGTGKKTQKNRLMNTQHQMMRMGGVEALQPNLRTSIFPLDPFAIKEIDAVLASHDHADHIDVNVAAAVLQNCGEHVKFIGPQACVDLWLGWGVPQERCIVAKVGDVLEIGDVKIRVLDSFDRTALVTLPKGVSSYDKAILDGMDERAVNYLIETSGGSVYHSGDSHYSNYYAKHGNDYQIDVALLSYGENPRGVTDKMTSSDVLRAAESLDCQVVVPFHHDIWANFQNDPREIEVLWNMKKDRLQYQFAPFFWQVGGKYTYPTDKGRMHYQHFRGFQDIFKNEPELPYKAFL 3bv8-a2-m1-cA_3bv8-a2-m6-cA Crystal structure of the N-terminal domain of tetrahydrodipicolinate acetyltransferase from Staphylococcus aureus Q7A2S0 Q7A2S0 1.75 X-RAY DIFFRACTION 50 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 84 84 3bv8-a2-m2-cA_3bv8-a2-m5-cA 3bv8-a2-m3-cA_3bv8-a2-m4-cA ALTAEEIIQYISDAKKFTPIKVYLNGNFEGITYPESFKVFGSEQSKVIFCEADDWKPFYEAYGSQFEDIEIEDRRNSAIPLKDL ALTAEEIIQYISDAKKFTPIKVYLNGNFEGITYPESFKVFGSEQSKVIFCEADDWKPFYEAYGSQFEDIEIEDRRNSAIPLKDL 3bv8-a2-m3-cA_3bv8-a2-m6-cA Crystal structure of the N-terminal domain of tetrahydrodipicolinate acetyltransferase from Staphylococcus aureus Q7A2S0 Q7A2S0 1.75 X-RAY DIFFRACTION 58 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 84 84 3bv8-a2-m1-cA_3bv8-a2-m5-cA 3bv8-a2-m2-cA_3bv8-a2-m4-cA ALTAEEIIQYISDAKKFTPIKVYLNGNFEGITYPESFKVFGSEQSKVIFCEADDWKPFYEAYGSQFEDIEIEDRRNSAIPLKDL ALTAEEIIQYISDAKKFTPIKVYLNGNFEGITYPESFKVFGSEQSKVIFCEADDWKPFYEAYGSQFEDIEIEDRRNSAIPLKDL 3bv8-a2-m5-cA_3bv8-a2-m6-cA Crystal structure of the N-terminal domain of tetrahydrodipicolinate acetyltransferase from Staphylococcus aureus Q7A2S0 Q7A2S0 1.75 X-RAY DIFFRACTION 26 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 84 84 3bv8-a2-m1-cA_3bv8-a2-m2-cA 3bv8-a2-m1-cA_3bv8-a2-m3-cA 3bv8-a2-m2-cA_3bv8-a2-m3-cA 3bv8-a2-m4-cA_3bv8-a2-m5-cA 3bv8-a2-m4-cA_3bv8-a2-m6-cA ALTAEEIIQYISDAKKFTPIKVYLNGNFEGITYPESFKVFGSEQSKVIFCEADDWKPFYEAYGSQFEDIEIEDRRNSAIPLKDL ALTAEEIIQYISDAKKFTPIKVYLNGNFEGITYPESFKVFGSEQSKVIFCEADDWKPFYEAYGSQFEDIEIEDRRNSAIPLKDL 3bvc-a1-m1-cA_3bvc-a1-m2-cB Crystal structure of uncharacterized protein Ism_01780 from Roseovarius nubinhibens ISM A3SHZ8 A3SHZ8 2.75 X-RAY DIFFRACTION 153 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 203 203 3bvc-a1-m1-cB_3bvc-a1-m2-cA SLSLFVTRLYHAPLSDHGPAIDAEEMESSCYAIAEDDEAGQGWCEENGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFDLDGRALELEDLWINILPEGGSHASHIHPHSVISGTTYVSMPGGTSALKLEDPRHAMMMAAPARRKTARDELRQFIYVTPAVGDVLLWESWLRHEVPMNMSEDDRISVSFNYRWA SLSLFVTRLYHAPLSDHGPAIDAEEMESSCYAIAEDDEAGQGWCEENGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFDLDGRALELEDLWINILPEGGSHASHIHPHSVISGTTYVSMPGGTSALKLEDPRHAMMMAAPARRKTARDELRQFIYVTPAVGDVLLWESWLRHEVPMNMSEDDRISVSFNYRWA 3bvc-a1-m1-cB_3bvc-a1-m2-cB Crystal structure of uncharacterized protein Ism_01780 from Roseovarius nubinhibens ISM A3SHZ8 A3SHZ8 2.75 X-RAY DIFFRACTION 41 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 203 203 3bvc-a1-m1-cA_3bvc-a1-m2-cA SLSLFVTRLYHAPLSDHGPAIDAEEMESSCYAIAEDDEAGQGWCEENGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFDLDGRALELEDLWINILPEGGSHASHIHPHSVISGTTYVSMPGGTSALKLEDPRHAMMMAAPARRKTARDELRQFIYVTPAVGDVLLWESWLRHEVPMNMSEDDRISVSFNYRWA SLSLFVTRLYHAPLSDHGPAIDAEEMESSCYAIAEDDEAGQGWCEENGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFDLDGRALELEDLWINILPEGGSHASHIHPHSVISGTTYVSMPGGTSALKLEDPRHAMMMAAPARRKTARDELRQFIYVTPAVGDVLLWESWLRHEVPMNMSEDDRISVSFNYRWA 3bvc-a1-m2-cA_3bvc-a1-m2-cB Crystal structure of uncharacterized protein Ism_01780 from Roseovarius nubinhibens ISM A3SHZ8 A3SHZ8 2.75 X-RAY DIFFRACTION 15 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 203 203 3bvc-a1-m1-cA_3bvc-a1-m1-cB SLSLFVTRLYHAPLSDHGPAIDAEEMESSCYAIAEDDEAGQGWCEENGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFDLDGRALELEDLWINILPEGGSHASHIHPHSVISGTTYVSMPGGTSALKLEDPRHAMMMAAPARRKTARDELRQFIYVTPAVGDVLLWESWLRHEVPMNMSEDDRISVSFNYRWA SLSLFVTRLYHAPLSDHGPAIDAEEMESSCYAIAEDDEAGQGWCEENGYPGYTSYASLTDLPWRFPIFADLVKSLDAHVAAFAEDLEFDLDGRALELEDLWINILPEGGSHASHIHPHSVISGTTYVSMPGGTSALKLEDPRHAMMMAAPARRKTARDELRQFIYVTPAVGDVLLWESWLRHEVPMNMSEDDRISVSFNYRWA 3bvk-a1-m4-cA_3bvk-a1-m4-cF Structural basis for the iron uptake mechanism of Helicobacter pylori ferritin Q9ZLI1 Q9ZLI1 1.5 X-RAY DIFFRACTION 91 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 172 172 3bve-a1-m1-cA_3bve-a1-m1-cF 3bve-a1-m1-cC_3bve-a1-m1-cD 3bve-a1-m1-cE_3bve-a1-m1-cB 3bve-a1-m2-cA_3bve-a1-m2-cF 3bve-a1-m2-cC_3bve-a1-m2-cD 3bve-a1-m2-cE_3bve-a1-m2-cB 3bve-a1-m3-cA_3bve-a1-m3-cF 3bve-a1-m3-cC_3bve-a1-m3-cD 3bve-a1-m3-cE_3bve-a1-m3-cB 3bve-a1-m4-cA_3bve-a1-m4-cF 3bve-a1-m4-cC_3bve-a1-m4-cD 3bve-a1-m4-cE_3bve-a1-m4-cB 3bvf-a1-m1-cA_3bvf-a1-m1-cF 3bvf-a1-m1-cB_3bvf-a1-m1-cE 3bvf-a1-m1-cC_3bvf-a1-m1-cD 3bvf-a1-m2-cA_3bvf-a1-m2-cF 3bvf-a1-m2-cB_3bvf-a1-m2-cE 3bvf-a1-m2-cC_3bvf-a1-m2-cD 3bvf-a1-m3-cA_3bvf-a1-m3-cF 3bvf-a1-m3-cB_3bvf-a1-m3-cE 3bvf-a1-m3-cC_3bvf-a1-m3-cD 3bvf-a1-m4-cA_3bvf-a1-m4-cF 3bvf-a1-m4-cB_3bvf-a1-m4-cE 3bvf-a1-m4-cC_3bvf-a1-m4-cD 3bvi-a1-m1-cA_3bvi-a1-m1-cF 3bvi-a1-m1-cB_3bvi-a1-m1-cE 3bvi-a1-m1-cC_3bvi-a1-m1-cD 3bvi-a1-m2-cA_3bvi-a1-m2-cF 3bvi-a1-m2-cB_3bvi-a1-m2-cE 3bvi-a1-m2-cC_3bvi-a1-m2-cD 3bvi-a1-m3-cA_3bvi-a1-m3-cF 3bvi-a1-m3-cB_3bvi-a1-m3-cE 3bvi-a1-m3-cC_3bvi-a1-m3-cD 3bvi-a1-m4-cA_3bvi-a1-m4-cF 3bvi-a1-m4-cB_3bvi-a1-m4-cE 3bvi-a1-m4-cC_3bvi-a1-m4-cD 3bvk-a1-m1-cA_3bvk-a1-m1-cF 3bvk-a1-m1-cB_3bvk-a1-m1-cE 3bvk-a1-m1-cC_3bvk-a1-m1-cD 3bvk-a1-m2-cA_3bvk-a1-m2-cF 3bvk-a1-m2-cB_3bvk-a1-m2-cE 3bvk-a1-m2-cC_3bvk-a1-m2-cD 3bvk-a1-m3-cA_3bvk-a1-m3-cF 3bvk-a1-m3-cB_3bvk-a1-m3-cE 3bvk-a1-m3-cC_3bvk-a1-m3-cD 3bvk-a1-m4-cB_3bvk-a1-m4-cE 3bvk-a1-m4-cC_3bvk-a1-m4-cD 3bvl-a1-m1-cA_3bvl-a1-m1-cF 3bvl-a1-m1-cB_3bvl-a1-m1-cE 3bvl-a1-m1-cC_3bvl-a1-m1-cD 3bvl-a1-m2-cA_3bvl-a1-m2-cF 3bvl-a1-m2-cB_3bvl-a1-m2-cE 3bvl-a1-m2-cC_3bvl-a1-m2-cD 3bvl-a1-m3-cA_3bvl-a1-m3-cF 3bvl-a1-m3-cB_3bvl-a1-m3-cE 3bvl-a1-m3-cC_3bvl-a1-m3-cD 3bvl-a1-m4-cA_3bvl-a1-m4-cF 3bvl-a1-m4-cB_3bvl-a1-m4-cE 3bvl-a1-m4-cC_3bvl-a1-m4-cD 3egm-a1-m1-cA_3egm-a1-m1-cF 3egm-a1-m1-cB_3egm-a1-m1-cE 3egm-a1-m1-cC_3egm-a1-m1-cD 3egm-a1-m2-cA_3egm-a1-m2-cF 3egm-a1-m2-cB_3egm-a1-m2-cE 3egm-a1-m2-cC_3egm-a1-m2-cD 3egm-a1-m3-cA_3egm-a1-m3-cF 3egm-a1-m3-cB_3egm-a1-m3-cE 3egm-a1-m3-cC_3egm-a1-m3-cD 3egm-a1-m4-cA_3egm-a1-m4-cF 3egm-a1-m4-cB_3egm-a1-m4-cE 3egm-a1-m4-cC_3egm-a1-m4-cD 5c6f-a1-m1-cA_5c6f-a1-m1-cF 5c6f-a1-m1-cB_5c6f-a1-m1-cE 5c6f-a1-m1-cC_5c6f-a1-m1-cD 5c6f-a1-m2-cA_5c6f-a1-m2-cF 5c6f-a1-m2-cB_5c6f-a1-m2-cE 5c6f-a1-m2-cC_5c6f-a1-m2-cD 5c6f-a1-m4-cA_5c6f-a1-m4-cF 5c6f-a1-m4-cB_5c6f-a1-m4-cE 5c6f-a1-m4-cC_5c6f-a1-m4-cD 5c6f-a1-m6-cA_5c6f-a1-m6-cF 5c6f-a1-m6-cB_5c6f-a1-m6-cE 5c6f-a1-m6-cC_5c6f-a1-m6-cD 5c6f-a2-m1-cG_5c6f-a2-m1-cL 5c6f-a2-m1-cH_5c6f-a2-m1-cK 5c6f-a2-m1-cI_5c6f-a2-m1-cJ 5c6f-a2-m3-cG_5c6f-a2-m3-cL 5c6f-a2-m3-cH_5c6f-a2-m3-cK 5c6f-a2-m3-cI_5c6f-a2-m3-cJ 5c6f-a2-m5-cG_5c6f-a2-m5-cL 5c6f-a2-m5-cH_5c6f-a2-m5-cK 5c6f-a2-m5-cI_5c6f-a2-m5-cJ 5c6f-a2-m7-cG_5c6f-a2-m7-cL 5c6f-a2-m7-cH_5c6f-a2-m7-cK 5c6f-a2-m7-cI_5c6f-a2-m7-cJ 5u1a-a1-m1-cB_5u1a-a1-m1-cE 5u1a-a1-m1-cC_5u1a-a1-m1-cD 5u1a-a1-m1-cF_5u1a-a1-m1-cA 5u1a-a1-m2-cB_5u1a-a1-m2-cE 5u1a-a1-m2-cC_5u1a-a1-m2-cD 5u1a-a1-m2-cF_5u1a-a1-m2-cA 5u1a-a1-m4-cB_5u1a-a1-m4-cE 5u1a-a1-m4-cC_5u1a-a1-m4-cD 5u1a-a1-m4-cF_5u1a-a1-m4-cA 5u1a-a1-m6-cB_5u1a-a1-m6-cE 5u1a-a1-m6-cC_5u1a-a1-m6-cD 5u1a-a1-m6-cF_5u1a-a1-m6-cA 5u1a-a2-m1-cH_5u1a-a2-m1-cK 5u1a-a2-m1-cJ_5u1a-a2-m1-cI 5u1a-a2-m1-cL_5u1a-a2-m1-cG 5u1a-a2-m3-cH_5u1a-a2-m3-cK 5u1a-a2-m3-cJ_5u1a-a2-m3-cI 5u1a-a2-m3-cL_5u1a-a2-m3-cG 5u1a-a2-m5-cH_5u1a-a2-m5-cK 5u1a-a2-m5-cJ_5u1a-a2-m5-cI 5u1a-a2-m5-cL_5u1a-a2-m5-cG 5u1a-a2-m7-cH_5u1a-a2-m7-cK 5u1a-a2-m7-cJ_5u1a-a2-m7-cI 5u1a-a2-m7-cL_5u1a-a2-m7-cG 5u1b-a1-m1-cB_5u1b-a1-m1-cA 5u1b-a1-m1-cC_5u1b-a1-m1-cD 5u1b-a1-m1-cE_5u1b-a1-m1-cF 5u1b-a1-m1-cG_5u1b-a1-m1-cH 5u1b-a1-m2-cB_5u1b-a1-m2-cA 5u1b-a1-m2-cC_5u1b-a1-m2-cD 5u1b-a1-m2-cE_5u1b-a1-m2-cF 5u1b-a1-m2-cG_5u1b-a1-m2-cH 5u1b-a1-m3-cB_5u1b-a1-m3-cA 5u1b-a1-m3-cC_5u1b-a1-m3-cD 5u1b-a1-m3-cE_5u1b-a1-m3-cF 5u1b-a1-m3-cG_5u1b-a1-m3-cH HHSQDPMLSKDIIKLLNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLFLFDHAAEEYEHAKKLIIFLNENNVPVQLTSISAPEHKFEGLTQIFQKAYEHEQHISESINNIVDHAIKSKDHATFNFLQWYVAEQHEEEVLFKDILDKIELIGNENHGLYLADQYVKGIAKSRK HHSQDPMLSKDIIKLLNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLFLFDHAAEEYEHAKKLIIFLNENNVPVQLTSISAPEHKFEGLTQIFQKAYEHEQHISESINNIVDHAIKSKDHATFNFLQWYVAEQHEEEVLFKDILDKIELIGNENHGLYLADQYVKGIAKSRK 3bvl-a1-m2-cB_3bvl-a1-m4-cE Structural basis for the iron uptake mechanism of Helicobacter pylori ferritin Q9ZLI1 Q9ZLI1 1.8 X-RAY DIFFRACTION 41 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 172 172 3bve-a1-m1-cA_3bve-a1-m1-cC 3bve-a1-m1-cA_3bve-a1-m3-cF 3bve-a1-m1-cB_3bve-a1-m4-cD 3bve-a1-m1-cC_3bve-a1-m3-cF 3bve-a1-m1-cD_3bve-a1-m3-cB 3bve-a1-m1-cE_3bve-a1-m1-cD 3bve-a1-m1-cE_3bve-a1-m3-cB 3bve-a1-m1-cF_3bve-a1-m4-cA 3bve-a1-m1-cF_3bve-a1-m4-cC 3bve-a1-m2-cA_3bve-a1-m2-cC 3bve-a1-m2-cA_3bve-a1-m4-cF 3bve-a1-m2-cB_3bve-a1-m3-cD 3bve-a1-m2-cC_3bve-a1-m4-cF 3bve-a1-m2-cD_3bve-a1-m4-cB 3bve-a1-m2-cE_3bve-a1-m2-cD 3bve-a1-m2-cE_3bve-a1-m4-cB 3bve-a1-m2-cF_3bve-a1-m3-cA 3bve-a1-m2-cF_3bve-a1-m3-cC 3bve-a1-m3-cA_3bve-a1-m3-cC 3bve-a1-m3-cE_3bve-a1-m2-cB 3bve-a1-m3-cE_3bve-a1-m3-cD 3bve-a1-m4-cA_3bve-a1-m4-cC 3bve-a1-m4-cE_3bve-a1-m1-cB 3bve-a1-m4-cE_3bve-a1-m4-cD 3bvf-a1-m1-cA_3bvf-a1-m1-cC 3bvf-a1-m1-cA_3bvf-a1-m4-cF 3bvf-a1-m1-cB_3bvf-a1-m3-cD 3bvf-a1-m1-cB_3bvf-a1-m3-cE 3bvf-a1-m1-cC_3bvf-a1-m4-cF 3bvf-a1-m1-cD_3bvf-a1-m1-cE 3bvf-a1-m1-cD_3bvf-a1-m4-cB 3bvf-a1-m1-cE_3bvf-a1-m4-cB 3bvf-a1-m1-cF_3bvf-a1-m3-cA 3bvf-a1-m1-cF_3bvf-a1-m3-cC 3bvf-a1-m2-cA_3bvf-a1-m2-cC 3bvf-a1-m2-cA_3bvf-a1-m3-cF 3bvf-a1-m2-cB_3bvf-a1-m4-cD 3bvf-a1-m2-cB_3bvf-a1-m4-cE 3bvf-a1-m2-cC_3bvf-a1-m3-cF 3bvf-a1-m2-cD_3bvf-a1-m2-cE 3bvf-a1-m2-cD_3bvf-a1-m3-cB 3bvf-a1-m2-cE_3bvf-a1-m3-cB 3bvf-a1-m2-cF_3bvf-a1-m4-cA 3bvf-a1-m2-cF_3bvf-a1-m4-cC 3bvf-a1-m3-cA_3bvf-a1-m3-cC 3bvf-a1-m3-cD_3bvf-a1-m3-cE 3bvf-a1-m4-cA_3bvf-a1-m4-cC 3bvf-a1-m4-cD_3bvf-a1-m4-cE 3bvi-a1-m1-cA_3bvi-a1-m1-cC 3bvi-a1-m1-cA_3bvi-a1-m4-cF 3bvi-a1-m1-cB_3bvi-a1-m3-cD 3bvi-a1-m1-cB_3bvi-a1-m3-cE 3bvi-a1-m1-cC_3bvi-a1-m4-cF 3bvi-a1-m1-cD_3bvi-a1-m1-cE 3bvi-a1-m1-cD_3bvi-a1-m4-cB 3bvi-a1-m1-cE_3bvi-a1-m4-cB 3bvi-a1-m2-cA_3bvi-a1-m2-cC 3bvi-a1-m2-cA_3bvi-a1-m3-cF 3bvi-a1-m2-cB_3bvi-a1-m4-cD 3bvi-a1-m2-cB_3bvi-a1-m4-cE 3bvi-a1-m2-cC_3bvi-a1-m3-cF 3bvi-a1-m2-cD_3bvi-a1-m2-cE 3bvi-a1-m2-cD_3bvi-a1-m3-cB 3bvi-a1-m2-cE_3bvi-a1-m3-cB 3bvi-a1-m3-cA_3bvi-a1-m1-cF 3bvi-a1-m3-cA_3bvi-a1-m3-cC 3bvi-a1-m3-cC_3bvi-a1-m1-cF 3bvi-a1-m3-cD_3bvi-a1-m3-cE 3bvi-a1-m4-cA_3bvi-a1-m2-cF 3bvi-a1-m4-cA_3bvi-a1-m4-cC 3bvi-a1-m4-cC_3bvi-a1-m2-cF 3bvi-a1-m4-cD_3bvi-a1-m4-cE 3bvk-a1-m1-cA_3bvk-a1-m1-cC 3bvk-a1-m1-cA_3bvk-a1-m4-cF 3bvk-a1-m1-cB_3bvk-a1-m3-cD 3bvk-a1-m1-cB_3bvk-a1-m3-cE 3bvk-a1-m1-cC_3bvk-a1-m4-cF 3bvk-a1-m1-cD_3bvk-a1-m1-cE 3bvk-a1-m1-cD_3bvk-a1-m4-cB 3bvk-a1-m1-cE_3bvk-a1-m4-cB 3bvk-a1-m1-cF_3bvk-a1-m3-cA 3bvk-a1-m1-cF_3bvk-a1-m3-cC 3bvk-a1-m2-cA_3bvk-a1-m2-cC 3bvk-a1-m2-cA_3bvk-a1-m3-cF 3bvk-a1-m2-cB_3bvk-a1-m4-cD 3bvk-a1-m2-cB_3bvk-a1-m4-cE 3bvk-a1-m2-cC_3bvk-a1-m3-cF 3bvk-a1-m2-cD_3bvk-a1-m2-cE 3bvk-a1-m2-cD_3bvk-a1-m3-cB 3bvk-a1-m2-cE_3bvk-a1-m3-cB 3bvk-a1-m2-cF_3bvk-a1-m4-cA 3bvk-a1-m2-cF_3bvk-a1-m4-cC 3bvk-a1-m3-cA_3bvk-a1-m3-cC 3bvk-a1-m3-cD_3bvk-a1-m3-cE 3bvk-a1-m4-cA_3bvk-a1-m4-cC 3bvk-a1-m4-cD_3bvk-a1-m4-cE 3bvl-a1-m1-cA_3bvl-a1-m1-cC 3bvl-a1-m1-cA_3bvl-a1-m4-cF 3bvl-a1-m1-cB_3bvl-a1-m3-cD 3bvl-a1-m1-cB_3bvl-a1-m3-cE 3bvl-a1-m1-cC_3bvl-a1-m4-cF 3bvl-a1-m1-cD_3bvl-a1-m1-cE 3bvl-a1-m1-cD_3bvl-a1-m4-cB 3bvl-a1-m1-cE_3bvl-a1-m4-cB 3bvl-a1-m2-cA_3bvl-a1-m2-cC 3bvl-a1-m2-cA_3bvl-a1-m3-cF 3bvl-a1-m2-cB_3bvl-a1-m4-cD 3bvl-a1-m2-cC_3bvl-a1-m3-cF 3bvl-a1-m2-cD_3bvl-a1-m2-cE 3bvl-a1-m2-cD_3bvl-a1-m3-cB 3bvl-a1-m2-cE_3bvl-a1-m3-cB 3bvl-a1-m3-cA_3bvl-a1-m1-cF 3bvl-a1-m3-cA_3bvl-a1-m3-cC 3bvl-a1-m3-cC_3bvl-a1-m1-cF 3bvl-a1-m3-cD_3bvl-a1-m3-cE 3bvl-a1-m4-cA_3bvl-a1-m2-cF 3bvl-a1-m4-cA_3bvl-a1-m4-cC 3bvl-a1-m4-cC_3bvl-a1-m2-cF 3bvl-a1-m4-cD_3bvl-a1-m4-cE 3egm-a1-m1-cA_3egm-a1-m1-cC 3egm-a1-m1-cA_3egm-a1-m4-cF 3egm-a1-m1-cB_3egm-a1-m3-cD 3egm-a1-m1-cB_3egm-a1-m3-cE 3egm-a1-m1-cC_3egm-a1-m4-cF 3egm-a1-m1-cD_3egm-a1-m1-cE 3egm-a1-m1-cD_3egm-a1-m4-cB 3egm-a1-m1-cE_3egm-a1-m4-cB 3egm-a1-m1-cF_3egm-a1-m3-cA 3egm-a1-m1-cF_3egm-a1-m3-cC 3egm-a1-m2-cA_3egm-a1-m2-cC 3egm-a1-m2-cA_3egm-a1-m3-cF 3egm-a1-m2-cB_3egm-a1-m4-cD 3egm-a1-m2-cB_3egm-a1-m4-cE 3egm-a1-m2-cC_3egm-a1-m3-cF 3egm-a1-m2-cD_3egm-a1-m2-cE 3egm-a1-m2-cD_3egm-a1-m3-cB 3egm-a1-m2-cE_3egm-a1-m3-cB 3egm-a1-m2-cF_3egm-a1-m4-cA 3egm-a1-m2-cF_3egm-a1-m4-cC 3egm-a1-m3-cA_3egm-a1-m3-cC 3egm-a1-m3-cD_3egm-a1-m3-cE 3egm-a1-m4-cA_3egm-a1-m4-cC 3egm-a1-m4-cD_3egm-a1-m4-cE 5c6f-a1-m1-cA_5c6f-a1-m1-cC 5c6f-a1-m1-cA_5c6f-a1-m6-cF 5c6f-a1-m1-cB_5c6f-a1-m4-cD 5c6f-a1-m1-cB_5c6f-a1-m4-cE 5c6f-a1-m1-cC_5c6f-a1-m6-cF 5c6f-a1-m1-cD_5c6f-a1-m1-cE 5c6f-a1-m1-cD_5c6f-a1-m6-cB 5c6f-a1-m1-cE_5c6f-a1-m6-cB 5c6f-a1-m1-cF_5c6f-a1-m4-cA 5c6f-a1-m1-cF_5c6f-a1-m4-cC 5c6f-a1-m2-cA_5c6f-a1-m2-cC 5c6f-a1-m2-cA_5c6f-a1-m4-cF 5c6f-a1-m2-cB_5c6f-a1-m6-cD 5c6f-a1-m2-cB_5c6f-a1-m6-cE 5c6f-a1-m2-cC_5c6f-a1-m4-cF 5c6f-a1-m2-cD_5c6f-a1-m2-cE 5c6f-a1-m2-cD_5c6f-a1-m4-cB 5c6f-a1-m2-cE_5c6f-a1-m4-cB 5c6f-a1-m2-cF_5c6f-a1-m6-cA 5c6f-a1-m2-cF_5c6f-a1-m6-cC 5c6f-a1-m4-cA_5c6f-a1-m4-cC 5c6f-a1-m4-cD_5c6f-a1-m4-cE 5c6f-a1-m6-cA_5c6f-a1-m6-cC 5c6f-a1-m6-cD_5c6f-a1-m6-cE 5c6f-a2-m1-cG_5c6f-a2-m1-cJ 5c6f-a2-m1-cG_5c6f-a2-m7-cL 5c6f-a2-m1-cH_5c6f-a2-m1-cI 5c6f-a2-m1-cH_5c6f-a2-m7-cK 5c6f-a2-m1-cI_5c6f-a2-m7-cK 5c6f-a2-m1-cJ_5c6f-a2-m7-cL 5c6f-a2-m1-cK_5c6f-a2-m5-cH 5c6f-a2-m1-cK_5c6f-a2-m5-cI 5c6f-a2-m1-cL_5c6f-a2-m5-cG 5c6f-a2-m1-cL_5c6f-a2-m5-cJ 5c6f-a2-m3-cG_5c6f-a2-m3-cJ 5c6f-a2-m3-cG_5c6f-a2-m5-cL 5c6f-a2-m3-cH_5c6f-a2-m3-cI 5c6f-a2-m3-cH_5c6f-a2-m5-cK 5c6f-a2-m3-cI_5c6f-a2-m5-cK 5c6f-a2-m3-cJ_5c6f-a2-m5-cL 5c6f-a2-m3-cK_5c6f-a2-m7-cH 5c6f-a2-m3-cK_5c6f-a2-m7-cI 5c6f-a2-m3-cL_5c6f-a2-m7-cG 5c6f-a2-m3-cL_5c6f-a2-m7-cJ 5c6f-a2-m5-cG_5c6f-a2-m5-cJ 5c6f-a2-m5-cH_5c6f-a2-m5-cI 5c6f-a2-m7-cG_5c6f-a2-m7-cJ 5c6f-a2-m7-cH_5c6f-a2-m7-cI 5u1a-a1-m1-cB_5u1a-a1-m6-cD 5u1a-a1-m1-cB_5u1a-a1-m6-cE 5u1a-a1-m1-cC_5u1a-a1-m1-cA 5u1a-a1-m1-cC_5u1a-a1-m4-cF 5u1a-a1-m1-cD_5u1a-a1-m1-cE 5u1a-a1-m1-cF_5u1a-a1-m6-cA 5u1a-a1-m1-cF_5u1a-a1-m6-cC 5u1a-a1-m2-cB_5u1a-a1-m4-cD 5u1a-a1-m2-cB_5u1a-a1-m4-cE 5u1a-a1-m2-cC_5u1a-a1-m2-cA 5u1a-a1-m2-cC_5u1a-a1-m6-cF 5u1a-a1-m2-cD_5u1a-a1-m2-cE 5u1a-a1-m2-cF_5u1a-a1-m4-cA 5u1a-a1-m2-cF_5u1a-a1-m4-cC 5u1a-a1-m4-cB_5u1a-a1-m1-cD 5u1a-a1-m4-cB_5u1a-a1-m1-cE 5u1a-a1-m4-cC_5u1a-a1-m4-cA 5u1a-a1-m4-cD_5u1a-a1-m4-cE 5u1a-a1-m4-cF_5u1a-a1-m1-cA 5u1a-a1-m6-cB_5u1a-a1-m2-cD 5u1a-a1-m6-cB_5u1a-a1-m2-cE 5u1a-a1-m6-cC_5u1a-a1-m6-cA 5u1a-a1-m6-cD_5u1a-a1-m6-cE 5u1a-a1-m6-cF_5u1a-a1-m2-cA 5u1a-a2-m1-cH_5u1a-a2-m7-cJ 5u1a-a2-m1-cH_5u1a-a2-m7-cK 5u1a-a2-m1-cI_5u1a-a2-m1-cG 5u1a-a2-m1-cJ_5u1a-a2-m1-cK 5u1a-a2-m1-cL_5u1a-a2-m7-cG 5u1a-a2-m1-cL_5u1a-a2-m7-cI 5u1a-a2-m3-cH_5u1a-a2-m5-cJ 5u1a-a2-m3-cH_5u1a-a2-m5-cK 5u1a-a2-m3-cI_5u1a-a2-m3-cG 5u1a-a2-m3-cJ_5u1a-a2-m3-cK 5u1a-a2-m3-cL_5u1a-a2-m5-cG 5u1a-a2-m3-cL_5u1a-a2-m5-cI 5u1a-a2-m5-cH_5u1a-a2-m1-cJ 5u1a-a2-m5-cH_5u1a-a2-m1-cK 5u1a-a2-m5-cI_5u1a-a2-m5-cG 5u1a-a2-m5-cJ_5u1a-a2-m5-cK 5u1a-a2-m5-cL_5u1a-a2-m1-cG 5u1a-a2-m5-cL_5u1a-a2-m1-cI 5u1a-a2-m7-cH_5u1a-a2-m3-cJ 5u1a-a2-m7-cH_5u1a-a2-m3-cK 5u1a-a2-m7-cI_5u1a-a2-m7-cG 5u1a-a2-m7-cJ_5u1a-a2-m7-cK 5u1a-a2-m7-cL_5u1a-a2-m3-cG 5u1a-a2-m7-cL_5u1a-a2-m3-cI 5u1b-a1-m1-cA_5u1b-a1-m1-cH 5u1b-a1-m1-cB_5u1b-a1-m1-cD 5u1b-a1-m1-cB_5u1b-a1-m2-cG 5u1b-a1-m1-cC_5u1b-a1-m2-cC 5u1b-a1-m1-cC_5u1b-a1-m3-cC 5u1b-a1-m1-cD_5u1b-a1-m2-cG 5u1b-a1-m1-cE_5u1b-a1-m2-cE 5u1b-a1-m1-cE_5u1b-a1-m3-cE 5u1b-a1-m1-cF_5u1b-a1-m1-cA 5u1b-a1-m1-cF_5u1b-a1-m1-cH 5u1b-a1-m1-cG_5u1b-a1-m3-cB 5u1b-a1-m1-cG_5u1b-a1-m3-cD 5u1b-a1-m2-cA_5u1b-a1-m2-cH 5u1b-a1-m2-cB_5u1b-a1-m2-cD 5u1b-a1-m2-cB_5u1b-a1-m3-cG 5u1b-a1-m2-cC_5u1b-a1-m3-cC 5u1b-a1-m2-cD_5u1b-a1-m3-cG 5u1b-a1-m2-cE_5u1b-a1-m3-cE 5u1b-a1-m2-cF_5u1b-a1-m2-cA 5u1b-a1-m2-cF_5u1b-a1-m2-cH 5u1b-a1-m3-cA_5u1b-a1-m3-cH 5u1b-a1-m3-cB_5u1b-a1-m3-cD 5u1b-a1-m3-cF_5u1b-a1-m3-cA 5u1b-a1-m3-cF_5u1b-a1-m3-cH HHSQDPMLSKDIIKLLNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLFLFDHAAEEYEHAKKLIIFLNENNVPVQLTSISAPEHKFEGLTQIFQKAYEHEQHISESINNIVDHAIKSKDHATFNFLQWYVAEQHEEEVLFKDILDKIELIGNENHGLYLADQYVKGIAKSRK HHSQDPMLSKDIIKLLNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLFLFDHAAEEYEHAKKLIIFLNENNVPVQLTSISAPEHKFEGLTQIFQKAYEHEQHISESINNIVDHAIKSKDHATFNFLQWYVAEQHEEEVLFKDILDKIELIGNENHGLYLADQYVKGIAKSRK 3bvp-a1-m1-cB_3bvp-a1-m2-cB Crystal Structure of the N-terminal Catalytic Domain of TP901-1 Integrase Q38184 Q38184 2.1 X-RAY DIFFRACTION 24 1.0 35345 (Lactococcus phage TP901-1) 35345 (Lactococcus phage TP901-1) 130 130 3bvp-a1-m1-cA_3bvp-a1-m2-cA KKVAIYTRVSTGFSIDEQIDRLTKYAEAMGWQVSDTYTDAGFSGAKLERPAMQRLINDIENKAFDTVLVYKLDRLSRSVRDTLYLVKDVFTKNKIDFISLNESIDTSSAMGSLFLTILSAINEFERELEY KKVAIYTRVSTGFSIDEQIDRLTKYAEAMGWQVSDTYTDAGFSGAKLERPAMQRLINDIENKAFDTVLVYKLDRLSRSVRDTLYLVKDVFTKNKIDFISLNESIDTSSAMGSLFLTILSAINEFERELEY 3bvp-a1-m2-cB_3bvp-a1-m1-cA Crystal Structure of the N-terminal Catalytic Domain of TP901-1 Integrase Q38184 Q38184 2.1 X-RAY DIFFRACTION 36 1.0 35345 (Lactococcus phage TP901-1) 35345 (Lactococcus phage TP901-1) 130 136 3bvp-a1-m1-cB_3bvp-a1-m2-cA KKVAIYTRVSTGFSIDEQIDRLTKYAEAMGWQVSDTYTDAGFSGAKLERPAMQRLINDIENKAFDTVLVYKLDRLSRSVRDTLYLVKDVFTKNKIDFISLNESIDTSSAMGSLFLTILSAINEFERELEY KKVAIYTRVSTTNQAEEGFSIDEQIDRLTKYAEAMGWQVSDTYTDAGFSGAKLERPAMQRLINDIENKAFDTVLVYKLDRLSRSVRDTLYLVKDVFTKNKIDFISLNESIDTSSAMGSLFLTILSAINEFERELEY 3bvp-a1-m2-cB_3bvp-a1-m2-cA Crystal Structure of the N-terminal Catalytic Domain of TP901-1 Integrase Q38184 Q38184 2.1 X-RAY DIFFRACTION 44 1.0 35345 (Lactococcus phage TP901-1) 35345 (Lactococcus phage TP901-1) 130 136 3bvp-a1-m1-cB_3bvp-a1-m1-cA KKVAIYTRVSTGFSIDEQIDRLTKYAEAMGWQVSDTYTDAGFSGAKLERPAMQRLINDIENKAFDTVLVYKLDRLSRSVRDTLYLVKDVFTKNKIDFISLNESIDTSSAMGSLFLTILSAINEFERELEY KKVAIYTRVSTTNQAEEGFSIDEQIDRLTKYAEAMGWQVSDTYTDAGFSGAKLERPAMQRLINDIENKAFDTVLVYKLDRLSRSVRDTLYLVKDVFTKNKIDFISLNESIDTSSAMGSLFLTILSAINEFERELEY 3bw1-a1-m4-cA_3bw1-a1-m4-cB Crystal structure of homomeric yeast Lsm3 exhibiting novel octameric ring organisation P57743 P57743 2.5 X-RAY DIFFRACTION 60 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 86 86 3bw1-a1-m1-cA_3bw1-a1-m1-cB 3bw1-a1-m1-cA_3bw1-a1-m3-cB 3bw1-a1-m1-cB_3bw1-a1-m4-cA 3bw1-a1-m2-cA_3bw1-a1-m2-cB 3bw1-a1-m2-cA_3bw1-a1-m4-cB 3bw1-a1-m2-cB_3bw1-a1-m3-cA 3bw1-a1-m3-cA_3bw1-a1-m3-cB HHMETPLDLLKLNLDERVYIKLRGARTLVGTLQAFDSHCNIVLSDAVETIYQLNNEELSESERRCEMVFIRGDTVTLISTPSAVEI HHMETPLDLLKLNLDERVYIKLRGARTLVGTLQAFDSHCNIVLSDAVETIYQLNNEELSESERRCEMVFIRGDTVTLISTPSAVEI 3bw2-a1-m1-cA_3bw2-a1-m2-cA Crystal structures and site-directed mutagenesis study of nitroalkane oxidase from Streptomyces ansochromogenes Q9FDD4 Q9FDD4 2.1 X-RAY DIFFRACTION 132 1.0 115647 (Streptomyces ansochromogenes) 115647 (Streptomyces ansochromogenes) 347 347 3bw3-a1-m1-cA_3bw3-a1-m2-cA 3bw4-a1-m1-cA_3bw4-a1-m2-cA SALTDLFPLPIVQAPMAGGVSVPQLAAAVCEAGGLGFLAAGYKTADGMYQEIKRLRGLTGRPFGVNVFMPQPELGAVEVYAHQLAGEAAWYETELGDPDGGRDDGYDAKLAVLLDDPVPVVSFHFGVPDREVIARLRRAGTLTLVTATTPEEARAVEAAGADAVIAQGVEAGGHQGTHRDSSEDDGAGIGLLSLLAQVREAVDIPVVAAGGIMRGGQIAAVLAAGADAAQLGTAFLATDESGAPGPHKRALTDPLFARTRLTRAFTGRPARSLVNRFLREHGPYAPAAYPDVHHLTSPLRKAAAKAGDAQGMALWAGQGHRMARELPAGRLVEVLAAELAEARTALS SALTDLFPLPIVQAPMAGGVSVPQLAAAVCEAGGLGFLAAGYKTADGMYQEIKRLRGLTGRPFGVNVFMPQPELGAVEVYAHQLAGEAAWYETELGDPDGGRDDGYDAKLAVLLDDPVPVVSFHFGVPDREVIARLRRAGTLTLVTATTPEEARAVEAAGADAVIAQGVEAGGHQGTHRDSSEDDGAGIGLLSLLAQVREAVDIPVVAAGGIMRGGQIAAVLAAGADAAQLGTAFLATDESGAPGPHKRALTDPLFARTRLTRAFTGRPARSLVNRFLREHGPYAPAAYPDVHHLTSPLRKAAAKAGDAQGMALWAGQGHRMARELPAGRLVEVLAAELAEARTALS 3bwg-a2-m1-cC_3bwg-a2-m2-cC The crystal structure of possible transcriptional regulator YydK from Bacillus subtilis subsp. subtilis str. 168 Q45591 Q45591 2.09 X-RAY DIFFRACTION 120 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 222 222 3bwg-a1-m1-cA_3bwg-a1-m1-cB KYQQIATEIETYIEEHQLQQGDKLPVLETLAQFEVSKSTITKSLELLEQKGAIFQVRGSGIFVRKHKRKGYISLLSLEDFNVTSKVIELDVRKPTPEAAENLNIGDEDIYYVKRVRYINGQTLCYEESYYTKSIVTYLNNEIVSHSIFHYIREGLGLKIGFSDLFLHVGQLNEEEAEYLGLEAGLPKLYIESIFHLTNGQPFDYSKISYNYEQSQFVVQANS KYQQIATEIETYIEEHQLQQGDKLPVLETLAQFEVSKSTITKSLELLEQKGAIFQVRGSGIFVRKHKRKGYISLLSLEDFNVTSKVIELDVRKPTPEAAENLNIGDEDIYYVKRVRYINGQTLCYEESYYTKSIVTYLNNEIVSHSIFHYIREGLGLKIGFSDLFLHVGQLNEEEAEYLGLEAGLPKLYIESIFHLTNGQPFDYSKISYNYEQSQFVVQANS 3bwk-a1-m1-cD_3bwk-a1-m1-cA Crystal Structure of Falcipain-3 with Its inhibitor, K11017 Q9NAW4 Q9NAW4 2.42 X-RAY DIFFRACTION 44 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 231 242 3bwk-a1-m1-cC_3bwk-a1-m1-cB YEANYEDVIKKYKPADAKLDRIAYDWRLHGGVTPVKDQALCGSCWAFSSVGSVESQYAIRKKALFLFSEQELVDCSVKNNGCYGGYITNAFDDMIDLGGLCSQDDYPYVSNLPETCNLKRCNERYTIKSYVSIPDDKFKEALRYLGPISISIAASDDFAFYRGGFYDGECGAAPNHAVILVGYGMKKFYYYIIKNSWGSDWGEGGYINLETDENGYKKTCSIGTEAYVPLL YEANYEDVIKKYKPADAKLDRIAYDWRLHGGVTPVKDQALCGSCWAFSSVGSVESQYAIRKKALFLFSEQELVDCSVKNNGCYGGYITNAFDDMIDLGGLCSQDDYPYVSNLPETCNLKRCNERYTIKSYVSIPDDKFKEALRYLGPISISIAASDDFAFYRGGFYDGECGAAPNHAVILVGYGMKDIYNEDTGRMEKFYYYIIKNSWGSDWGEGGYINLETDENGYKKTCSIGTEAYVPLL 3bwk-a1-m1-cD_3bwk-a1-m1-cB Crystal Structure of Falcipain-3 with Its inhibitor, K11017 Q9NAW4 Q9NAW4 2.42 X-RAY DIFFRACTION 34 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 231 242 3bpm-a1-m1-cD_3bpm-a1-m1-cA 3bpm-a2-m1-cC_3bpm-a2-m1-cB 3bwk-a1-m1-cC_3bwk-a1-m1-cA YEANYEDVIKKYKPADAKLDRIAYDWRLHGGVTPVKDQALCGSCWAFSSVGSVESQYAIRKKALFLFSEQELVDCSVKNNGCYGGYITNAFDDMIDLGGLCSQDDYPYVSNLPETCNLKRCNERYTIKSYVSIPDDKFKEALRYLGPISISIAASDDFAFYRGGFYDGECGAAPNHAVILVGYGMKKFYYYIIKNSWGSDWGEGGYINLETDENGYKKTCSIGTEAYVPLL YEANYEDVIKKYKPADAKLDRIAYDWRLHGGVTPVKDQALCGSCWAFSSVGSVESQYAIRKKALFLFSEQELVDCSVKNNGCYGGYITNAFDDMIDLGGLCSQDDYPYVSNLPETCNLKRCNERYTIKSYVSIPDDKFKEALRYLGPISISIAASDDFAFYRGGFYDGECGAAPNHAVILVGYGMKDIYNEDTGRMEKFYYYIIKNSWGSDWGEGGYINLETDENGYKKTCSIGTEAYVPLL 3bwl-a2-m1-cC_3bwl-a2-m1-cD Crystal structure of PAS domain of HTR-like protein from Haloarcula marismortui Q5V5P7 Q5V5P7 1.73 X-RAY DIFFRACTION 84 1.0 272569 (Haloarcula marismortui ATCC 43049) 272569 (Haloarcula marismortui ATCC 43049) 111 118 3bwl-a1-m1-cB_3bwl-a1-m1-cA LEETSSRLEALFENSPDIDVLDADGTICEVNQRFCAELGYDESEVLGRSIWEFDLFDAEDVQTQLSGFSVDERRKFEGLYERRDGSTSVEVHLLRFNLEGEDRFLAISRDI RKRREKRLEETSSRLEALFENSPDIDVLDADGTICEVNQRFCAELGYDESEVLGRSIWEFDLFDAEDVQTQLSGFSVDERRKFEGLYERRDGSTSVEVHLLRFNLEGEDRFLAISRDI 3bwn-a1-m1-cA_3bwn-a1-m1-cB L-tryptophan aminotransferase Q9S7N2 Q9S7N2 2.25 X-RAY DIFFRACTION 197 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 362 369 3bwn-a2-m1-cD_3bwn-a2-m1-cC 3bwn-a3-m1-cF_3bwn-a3-m1-cE 3bwo-a1-m1-cA_3bwo-a1-m1-cB 3bwo-a2-m1-cC_3bwo-a2-m1-cD 3bwo-a3-m1-cE_3bwo-a3-m1-cF IPMSDFVVNLDHGDPTAYEEYWRKMGDRCTVTIRGCDLMSYFSDMTNLCWFLEPELEDAIKDLHGVVGNAATEDRYIVVGTGSTQLCQAAVHALSSLARSQPVSVVAAAPFYSTYVEETTYVRSGMYKWEGDAWGFDKKGPYIELVTSPNNPDGTIRETVVDEAKVIHDFAYYWPHYTPITRRQDHDIMLFTFSKITGHAGSRIGWALVKDKEVAKKMVEYIIVNSIGVSKESQVRTAKILNVLKETCKSESESENFFKYGREMMKNRWEKLREVVKESDAFTLPKYPEAFCNYFGKSLESYPAFAWLGTKEETDLVSELRRHKVMSRAGERCGSDKKHVRVSMLSREDVFNVFLERLANMK NIPMSDFVVNLDHGDPTAYEEYWRKMGDRCTVTIRGCDLMSYFSDMTNLCWFLEPELEDAIKDLHGVVGNAATEDRYIVVGTGSTQLCQAAVHALSSLARSQPVSVVAAAPFYSTYVEETTYVRSGMYKWEGDAWGFDKKGPYIELVTSPNNPDGTIRETVVNRPDDDEAKVIHDFAYYWPHYTPITRRQDHDIMLFTFSKITGHAGSRIGWALVKDKEVAKKMVEYIIVNSIGVSKESQVRTAKILNVLKETCKSESESENFFKYGREMMKNRWEKLREVVKESDAFTLPKYPEAFCNYFGKSLESYPAFAWLGTKEETDLVSELRRHKVMSRAGERCGSDKKHVRVSMLSREDVFNVFLERLANMKL 3bws-a3-m1-cA_3bws-a3-m1-cB Crystal structure of the leptospiral antigen Lp49 Q72U69 Q72U69 1.99 X-RAY DIFFRACTION 28 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 402 402 GTEIVKFSIHPYKGTVIRLGEEILPFKVLEMDKNIALVEAIPVYKDEKEIELKLSSPGFQNSSYRIRKPEELNEKLIALDKEGITHRFISRFKTGFQPKSVRFIDNTRLAIPLLEDEGDVLDINSGQTVRLSPPEKYKKKLGFVETISIPEHNELWVSQQANAVHVFDLKTLAYKATVDLTGKWSKILLYDPIRDLVYCSNWISEDISVIDRKTKLEIRKTDKIGLPRGLLLSKDGKELYIAQFSASNQESGGGRLGIYSDKEKLIDTIGPPGNKRHIVSGNTENKIYVSDCCSKIEVYDLKEKKVQKSIPVFDKPNTIALSPDGKYLYVSCRGPNHPTEGYLKKGLVLGKVYVIDTTTDTVKEFWEAGNQPTGLDVSPDNRYLVISDFLDHQIRVYRRDGF GTEIVKFSIHPYKGTVIRLGEEILPFKVLEMDKNIALVEAIPVYKDEKEIELKLSSPGFQNSSYRIRKPEELNEKLIALDKEGITHRFISRFKTGFQPKSVRFIDNTRLAIPLLEDEGDVLDINSGQTVRLSPPEKYKKKLGFVETISIPEHNELWVSQQANAVHVFDLKTLAYKATVDLTGKWSKILLYDPIRDLVYCSNWISEDISVIDRKTKLEIRKTDKIGLPRGLLLSKDGKELYIAQFSASNQESGGGRLGIYSDKEKLIDTIGPPGNKRHIVSGNTENKIYVSDCCSKIEVYDLKEKKVQKSIPVFDKPNTIALSPDGKYLYVSCRGPNHPTEGYLKKGLVLGKVYVIDTTTDTVKEFWEAGNQPTGLDVSPDNRYLVISDFLDHQIRVYRRDGF 3bwv-a1-m1-cA_3bwv-a1-m1-cB Crystal structure of deoxyribonucleotidase-like protein (NP_764060.1) from Staphylococcus epidermidis ATCC 12228 at 1.55 A resolution Q8CTG7 Q8CTG7 1.55 X-RAY DIFFRACTION 53 0.994 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 162 162 TRQRIAIDDEVLADTLGAVVKAVNERADLNIKESLNGKKLGLVDILKEPGFFRNLDVPHAQEVVKQLNEHYDIYIATAAVPTSFHDKYEWLLEYFPFLDPQHFVFCGRKNIILADYLIDDNPKQLEIFEGKSIFTASHNVYEHRFERVSGWRDVKNYFNSIE RQRIAIDDEVLADTLGAVVKAVNERADLNIKESLNGKKLGLVDILKEPGFFRNLDVPHAQEVVKQLNEHYDIYIATAADVPTSFHDKYEWLLEYFPFLDPQHFVFCGRKNIILADYLIDDNPKQLEIFEGKSIFTASHNVYEHRFERVSGWRDVKNYFNSIE 3bx1-a3-m1-cA_3bx1-a3-m2-cA Complex between the Barley alpha-Amylase/Subtilisin Inhibitor and the subtilisin Savinase P29600 P29600 1.85 X-RAY DIFFRACTION 35 1.0 1467 (Lederbergia lenta) 1467 (Lederbergia lenta) 269 269 AQSVPWGISRVQAPAAHNRGLTGSGVKVAVLDTGISTHPDLNIRGGASFVPGEPSTQDGNGHGTHVAGTIAALNNSIGVLGVAPSAELYAVKVLGASGSGSVSSIAQGLEWAGNNGMHVANLSLGSPSPSATLEQAVNSATSRGVLVVAASGNSGAGSISYPARYANAMAVGATDQNNNRASFSQYGAGLDIVAPGVNVQSTYPGSTYASLNGTSMATPHVAGAAALVKQKNPSWSNVQIRNHLKNTATSLGSTNLYGSGLVNAEAATR AQSVPWGISRVQAPAAHNRGLTGSGVKVAVLDTGISTHPDLNIRGGASFVPGEPSTQDGNGHGTHVAGTIAALNNSIGVLGVAPSAELYAVKVLGASGSGSVSSIAQGLEWAGNNGMHVANLSLGSPSPSATLEQAVNSATSRGVLVVAASGNSGAGSISYPARYANAMAVGATDQNNNRASFSQYGAGLDIVAPGVNVQSTYPGSTYASLNGTSMATPHVAGAAALVKQKNPSWSNVQIRNHLKNTATSLGSTNLYGSGLVNAEAATR 3bx1-a3-m1-cC_3bx1-a3-m2-cC Complex between the Barley alpha-Amylase/Subtilisin Inhibitor and the subtilisin Savinase P07596 P07596 1.85 X-RAY DIFFRACTION 66 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 181 181 ADPPPVHDTDGHELRADANYYVLSANRAHGGGLTMAPGHGRHCPLFVSQDPNGQHDGFPVRITPYGVAPSDKIIRLSTDVRISFRAYTTCLQSTEWHIDSELAAGRRHVITGPVKDPSPSGRENAFRIEKYSGAEVHEYKLMSCGDWCQDLGVFRDLKGGAWFLGATEPYHVVVFKKAPPA ADPPPVHDTDGHELRADANYYVLSANRAHGGGLTMAPGHGRHCPLFVSQDPNGQHDGFPVRITPYGVAPSDKIIRLSTDVRISFRAYTTCLQSTEWHIDSELAAGRRHVITGPVKDPSPSGRENAFRIEKYSGAEVHEYKLMSCGDWCQDLGVFRDLKGGAWFLGATEPYHVVVFKKAPPA 3bx1-a3-m2-cC_3bx1-a3-m2-cD Complex between the Barley alpha-Amylase/Subtilisin Inhibitor and the subtilisin Savinase P07596 P07596 1.85 X-RAY DIFFRACTION 50 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 181 181 3bx1-a3-m1-cC_3bx1-a3-m1-cD ADPPPVHDTDGHELRADANYYVLSANRAHGGGLTMAPGHGRHCPLFVSQDPNGQHDGFPVRITPYGVAPSDKIIRLSTDVRISFRAYTTCLQSTEWHIDSELAAGRRHVITGPVKDPSPSGRENAFRIEKYSGAEVHEYKLMSCGDWCQDLGVFRDLKGGAWFLGATEPYHVVVFKKAPPA ADPPPVHDTDGHELRADANYYVLSANRAHGGGLTMAPGHGRHCPLFVSQDPNGQHDGFPVRITPYGVAPSDKIIRLSTDVRISFRAYTTCLQSTEWHIDSELAAGRRHVITGPVKDPSPSGRENAFRIEKYSGAEVHEYKLMSCGDWCQDLGVFRDLKGGAWFLGATEPYHVVVFKKAPPA 3bx4-a1-m1-cA_3bx4-a1-m1-cC Crystal structure of the snake venom toxin aggretin Q9I841 Q9I841 1.7 X-RAY DIFFRACTION 50 1.0 8717 (Calloselasma rhodostoma) 8717 (Calloselasma rhodostoma) 132 134 2vrp-a2-m1-cA_2vrp-a2-m3-cA DCDFGWSPYDQHCYQAFNEQKTWDEAEKFCRAQENGAHLASIESNGEADFVSWLISQKDELADEDYVWIGLRAQNKEQQCSSEWSDGSSVSYENLIDLHTKKCGALEKLTGFRKWVNYYCEQMHAFVCKLLP EDCDFGWSPYDQHCYQAFNEQKTWDEAEKFCRAQENGAHLASIESNGEADFVSWLISQKDELADEDYVWIGLRAQNKEQQCSSEWSDGSSVSYENLIDLHTKKCGALEKLTGFRKWVNYYCEQMHAFVCKLLPY 3bxg-a1-m1-cA_3bxg-a1-m1-cB Crystal structure of effector binding domain of central glycolytic gene regulator (CggR) from Bacillus subtilis in complex with glucose-6-phosphate O32253 O32253 1.8 X-RAY DIFFRACTION 46 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 247 253 2okg-a2-m1-cA_2okg-a2-m2-cB 3bxe-a1-m1-cA_3bxe-a1-m1-cB 3bxf-a1-m1-cB_3bxf-a1-m1-cA 3bxh-a1-m1-cA_3bxh-a1-m1-cB GLTLLEKTLKERLNLKDAIIVSGDSDQSPWVKKEMGRAAVACMKKRFSGKNIVAVTGGTTIEAVAEMMTPDSKNRELLFVPARGGLGEDVKNQANTICAHMAEKASGTYRLLFVPGQLSQGAYSSIIEEPSVKEVLNTIKSASMLVHGIGEAKTMAQRRNTPLEDLKKIDDNDAVTEAFGYYFNADGEVVHKVHSVGMQLDDIDAIPDIIAVAGGSSKAEAIEAYFKKPRNTVLVTDEGAAKKLLRD SNAKDVLGLTLLEKTLKERLNLKDAIIVSGDSDQSPWVKKEMGRAAVACMKKRFSGKNIVAVTGGTTIEAVAEMMTPDSKNRELLFVPARGGLGEDVKNQANTICAHMAEKASGTYRLLFVPGQLSQGAYSSIIEEPSVKEVLNTIKSASMLVHGIGEAKTMAQRRNTPLEDLKKIDDNDAVTEAFGYYFNADGEVVHKVHSVGMQLDDIDAIPDIIAVAGGSSKAEAIEAYFKKPRNTVLVTDEGAAKKLLR 3bxl-a2-m1-cA_3bxl-a2-m2-cA Crystal structure of the R-type calcium channeL (CaV2.3) IQ domain and CA2+calmodulin complex P0DP29 P0DP29 2.3 X-RAY DIFFRACTION 16 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 145 145 QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA 3bxo-a1-m1-cA_3bxo-a1-m1-cB Crystal Structure of Streptomyces venezuelae DesVI Q9ZGH6 Q9ZGH6 2 X-RAY DIFFRACTION 84 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 236 236 YEVDHADVYDLFYLGRGKDYAAEASDIADLVRSRTPEASSLLDVACGTGTHLEHFTKEFGDTAGLELSEDMLTHARKRLPDATLHQGDMRDFRLGRKFSAVVSMFSSVGYLKTTEELGAAVASFAEHLEPGGVVVVEPWWFPETFADGWVSADVVRRDGRTVARVSHSVREGNATRMEVHFTVADPGKGVRHFSDVHLITLFHQAEYEAAFTAAGLRVEYLEGGPSGRGLFVGVPA YEVDHADVYDLFYLGRGKDYAAEASDIADLVRSRTPEASSLLDVACGTGTHLEHFTKEFGDTAGLELSEDMLTHARKRLPDATLHQGDMRDFRLGRKFSAVVSMFSSVGYLKTTEELGAAVASFAEHLEPGGVVVVEPWWFPETFADGWVSADVVRRDGRTVARVSHSVREGNATRMEVHFTVADPGKGVRHFSDVHLITLFHQAEYEAAFTAAGLRVEYLEGGPSGRGLFVGVPA 3bxu-a1-m1-cA_3bxu-a1-m1-cB PpcB, A Cytochrome c7 from Geobacter sulfurreducens Q74G83 Q74G83 1.35 X-RAY DIFFRACTION 37 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 71 71 ADTMTFTAKNGNVTFDHKKHQTIVPDCAVCHGKTPGKIEGFGKEMAHGKSCKGCHEEMKKGPTKCGECHKK ADTMTFTAKNGNVTFDHKKHQTIVPDCAVCHGKTPGKIEGFGKEMAHGKSCKGCHEEMKKGPTKCGECHKK 3bxv-a1-m15-cA_3bxv-a1-m9-cA Crystal structure studies on sulfur oxygenase reductase from Acidianus tengchongensis Q977W3 Q977W3 2.7 X-RAY DIFFRACTION 100 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 308 308 3bxv-a1-m10-cA_3bxv-a1-m14-cA 3bxv-a1-m10-cA_3bxv-a1-m16-cA 3bxv-a1-m11-cA_3bxv-a1-m13-cA 3bxv-a1-m11-cA_3bxv-a1-m15-cA 3bxv-a1-m12-cA_3bxv-a1-m14-cA 3bxv-a1-m12-cA_3bxv-a1-m16-cA 3bxv-a1-m13-cA_3bxv-a1-m9-cA 3bxv-a1-m17-cA_3bxv-a1-m6-cA 3bxv-a1-m17-cA_3bxv-a1-m8-cA 3bxv-a1-m18-cA_3bxv-a1-m5-cA 3bxv-a1-m18-cA_3bxv-a1-m7-cA 3bxv-a1-m19-cA_3bxv-a1-m6-cA 3bxv-a1-m19-cA_3bxv-a1-m8-cA 3bxv-a1-m1-cA_3bxv-a1-m21-cA 3bxv-a1-m1-cA_3bxv-a1-m23-cA 3bxv-a1-m20-cA_3bxv-a1-m5-cA 3bxv-a1-m20-cA_3bxv-a1-m7-cA 3bxv-a1-m21-cA_3bxv-a1-m3-cA 3bxv-a1-m22-cA_3bxv-a1-m4-cA 3bxv-a1-m23-cA_3bxv-a1-m3-cA 3bxv-a1-m24-cA_3bxv-a1-m4-cA 3bxv-a1-m2-cA_3bxv-a1-m22-cA 3bxv-a1-m2-cA_3bxv-a1-m24-cA MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEEQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQAPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEEQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQAPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE 3bxv-a1-m24-cA_3bxv-a1-m9-cA Crystal structure studies on sulfur oxygenase reductase from Acidianus tengchongensis Q977W3 Q977W3 2.7 X-RAY DIFFRACTION 145 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 308 308 3bxv-a1-m10-cA_3bxv-a1-m22-cA 3bxv-a1-m11-cA_3bxv-a1-m23-cA 3bxv-a1-m12-cA_3bxv-a1-m21-cA 3bxv-a1-m13-cA_3bxv-a1-m7-cA 3bxv-a1-m14-cA_3bxv-a1-m5-cA 3bxv-a1-m15-cA_3bxv-a1-m8-cA 3bxv-a1-m16-cA_3bxv-a1-m6-cA 3bxv-a1-m17-cA_3bxv-a1-m2-cA 3bxv-a1-m18-cA_3bxv-a1-m4-cA 3bxv-a1-m1-cA_3bxv-a1-m19-cA 3bxv-a1-m20-cA_3bxv-a1-m3-cA MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEEQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQAPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEEQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQAPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE 3bxv-a1-m7-cA_3bxv-a1-m9-cA Crystal structure studies on sulfur oxygenase reductase from Acidianus tengchongensis Q977W3 Q977W3 2.7 X-RAY DIFFRACTION 26 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 308 308 3bxv-a1-m10-cA_3bxv-a1-m2-cA 3bxv-a1-m10-cA_3bxv-a1-m6-cA 3bxv-a1-m11-cA_3bxv-a1-m8-cA 3bxv-a1-m12-cA_3bxv-a1-m3-cA 3bxv-a1-m12-cA_3bxv-a1-m5-cA 3bxv-a1-m13-cA_3bxv-a1-m20-cA 3bxv-a1-m13-cA_3bxv-a1-m23-cA 3bxv-a1-m14-cA_3bxv-a1-m18-cA 3bxv-a1-m14-cA_3bxv-a1-m22-cA 3bxv-a1-m15-cA_3bxv-a1-m17-cA 3bxv-a1-m15-cA_3bxv-a1-m24-cA 3bxv-a1-m16-cA_3bxv-a1-m19-cA 3bxv-a1-m16-cA_3bxv-a1-m21-cA 3bxv-a1-m17-cA_3bxv-a1-m24-cA 3bxv-a1-m18-cA_3bxv-a1-m22-cA 3bxv-a1-m19-cA_3bxv-a1-m21-cA 3bxv-a1-m1-cA_3bxv-a1-m11-cA 3bxv-a1-m1-cA_3bxv-a1-m8-cA 3bxv-a1-m20-cA_3bxv-a1-m23-cA 3bxv-a1-m2-cA_3bxv-a1-m6-cA 3bxv-a1-m3-cA_3bxv-a1-m5-cA 3bxv-a1-m4-cA_3bxv-a1-m7-cA 3bxv-a1-m4-cA_3bxv-a1-m9-cA MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEEQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQAPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE MPKPYIAINMADLKNEPKTFEMFSAVGPKVCMVTARHPGFVGFQNHVQIGVLPFGERFGGAKMDMTKESSTVRVLQYTMWKDWKDHEEMHRQNWSYLFRLCYSCASQMVWGPWEPIYEIKYADMPINTEMTDFTAVVGKKFAEGKPLEIPVISQPYGKRVVAFGEHTVIPGKEEQFEDAIIKTLEMFKRAPGFLGAMLLKEIGVSGIGSFQFGSKGFHQLLESPGSLEPDPNNVMYQAPEAKPTPPQYIVHVEWANLDALQFGMGRVLLSPEYREVHDEALDTLIYGPYIRIINPVMEGTFWREYLNE 3bxw-a1-m1-cA_3bxw-a1-m1-cB Crystal Structure of Stabilin-1 Interacting Chitinase-Like Protein, SI-CLP Q9BWS9 Q9BWS9 2.7 X-RAY DIFFRACTION 56 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 360 360 TLLEKSQFSDKPVQDRGLVVTDLKAESVVLEHRSYCSAKARDRHFAGDVLGYVTPWNSHGYDVTKVFGSKFTQISPVWLQLKRRGREMFEVTGLHDVDQGWMRAVRKHAKGLHIVPRLLFEDWTYDDFRNVLDSEDEIEELSKTVVQVAKNQHFDGFVVEVWNQLLSQRVGLIHMLTHLAEALHQARLLALLVIPPAITPGTDQLGMFTHKEFEQLAPVLDGFSLMTYDYSTAHQPGPNAPLSWVRACVQVLDPKSKWRSKILLGLNFYGMDYATSKDAREPVVGARYIQTLKDHRPRMVWDSQASEHFFEYKKSRSGRHVVFYPTLKSLQVRLELARELGVGVSIWELGQGLDYFYDLL TLLEKSQFSDKPVQDRGLVVTDLKAESVVLEHRSYCSAKARDRHFAGDVLGYVTPWNSHGYDVTKVFGSKFTQISPVWLQLKRRGREMFEVTGLHDVDQGWMRAVRKHAKGLHIVPRLLFEDWTYDDFRNVLDSEDEIEELSKTVVQVAKNQHFDGFVVEVWNQLLSKRVGLIHMLTHLAEALHQARLLALLVIPPAITPGTDQLGMFTHKEFEQLAPVLDGFSLMTYDYSTAHQPGPNAPLSWVRACVQVLDPKSKWRSKILLGLNFYGMDYATSKDAREPVVGARYIQTLKDHRPRMVWDSQASEHFFEYKKSRSGRHVVFYPTLKSLQVRLELARELGVGVSIWELGQGLDYFYDLL 3bxx-a3-m1-cE_3bxx-a3-m1-cF Binding of two substrate analogue molecules to dihydroflavonol 4-reductase alters the functional geometry of the catalytic site P51110 P51110 2.9 X-RAY DIFFRACTION 91 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 324 324 3bxx-a1-m1-cA_3bxx-a1-m1-cD 3bxx-a2-m1-cB_3bxx-a2-m1-cC ETVCVTGASGFIGSWLVMRLLERGYTVRATVRDPTNVKKVKHLLDLPKAETHLTLWKADLADEGSFDEAIKGCTGVFHVATPMDFESKDPENEVIKPTIEGMLGIMKSCAAAKTVRRLVFTSSAGTVNIQEHQLPVYDESCWSDMEFCRAKKMTAWMYFVSKTLAEQAAWKYAKENNIDFITIIPTLVVGPFIMSSMPPSLITALSPITGNEAHYSIIRQGQFVHLDDLCNAHIYLFENPKAEGRYICSSHDCIILDLAKMLREKYPEYNIPTEFKGVDENLKSVCFSSKKLTDLGFEFKYSLEDMFTGAVDTCRAKGLLPPSH ETVCVTGASGFIGSWLVMRLLERGYTVRATVRDPTNVKKVKHLLDLPKAETHLTLWKADLADEGSFDEAIKGCTGVFHVATPMDFESKDPENEVIKPTIEGMLGIMKSCAAAKTVRRLVFTSSAGTVNIQEHQLPVYDESCWSDMEFCRAKKMTAWMYFVSKTLAEQAAWKYAKENNIDFITIIPTLVVGPFIMSSMPPSLITALSPITGNEAHYSIIRQGQFVHLDDLCNAHIYLFENPKAEGRYICSSHDCIILDLAKMLREKYPEYNIPTEFKGVDENLKSVCFSSKKLTDLGFEFKYSLEDMFTGAVDTCRAKGLLPPSH 3bxz-a1-m1-cA_3bxz-a1-m1-cB Crystal structure of the isolated DEAD motor domains from Escherichia coli SecA P10408 P10408 3 X-RAY DIFFRACTION 51 1.0 562 (Escherichia coli) 562 (Escherichia coli) 438 440 GSRNDRTLRRMRKVVNIINAMEPEMEKLSDEELKGKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNERCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGLTVGINLPGMPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIILASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDLPDLVYMTEAEKIQAIIEDIKERTAKGQPVLVGTISIEKSELVSNELTKAGIKHNVLNAKFHANEAAIVAQAGYPAAVTIATNMAGRGTDIVLGGSWQAEVAALENPTAEQIEKIKADWQVRHDAVLEAGGLHIIGTERHESRRIDNQLRGRSGRQGDAGSSRFYLSMEDAL GSRNDRTLRRMRKVVNIINAMEPEMEKLSDEELKGKTAEFRARLEKGEVLENLIPEAFAVVREASKRVFGMRHFDVQLLGGMVLNERCIAEMRTGEGKTLTATLPAYLNALTGKGVHVVTVNDYLAQRDAENNRPLFEFLGLTVGINLPGMPAPAKREAYAADITYGTNNEYGFDYLRDNMAFSPEERVQRKLHYALVDEVDSILIDEARTPLIILASITFQNYFRLYEKLAGMTGTADTEAFEFSSIYKLDTVVVPTNRPMIRKDLPDLVYMTEAEKIQAIIEDIKERTAKGQPVLVGTISIEKSELVSNELTKAGIKHNVLNAKFHANEAAIVAQAGYPAAVTIATNMAGRGTDIVLGGSWQAEVAALENPTAEQIEKIKADWQVRHDAVLEAGGLHIIGTERHESRRIDNQLRGRSGRQGDAGSSRFYLSMEDALMR 3by5-a1-m1-cA_3by5-a1-m2-cA Crystal structure of cobalamin biosynthesis protein chiG from Agrobacterium tumefaciens str. C58 A9CHC6 A9CHC6 2.52 X-RAY DIFFRACTION 47 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 121 121 VTVAGIGCRKGAASDAIIAAVRAAERAFGVTVDYLATAPLKADEAGLAEAAKGLSLSLEIVAQERLEAVAAETTFSQASLDHSGSPSVSEAAALAAAGAGARLVAPRLVVGDVTVAIATSD VTVAGIGCRKGAASDAIIAAVRAAERAFGVTVDYLATAPLKADEAGLAEAAKGLSLSLEIVAQERLEAVAAETTFSQASLDHSGSPSVSEAAALAAAGAGARLVAPRLVVGDVTVAIATSD 3by6-a1-m1-cA_3by6-a1-m1-cD Crystal structure of a transcriptional regulator from Oenococcus oeni Q04D30 Q04D30 2.2 X-RAY DIFFRACTION 98 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 119 121 3by6-a2-m1-cB_3by6-a2-m2-cE 3by6-a3-m1-cC_3by6-a3-m3-cC QAMAITQKRPVYLQLVDRIKNEVATDVLSANDQLPSVRETALQEKINPNTVAKAYKELEAQKVIRTIPGKGTFITGNTASVKNSNQNRLLADLSQVIAELIKSGVKGERIKKIVNDILG QAMAITQKRPVYLQLVDRIKNEVATDVLSANDQLPSVRETALQEKINPNTVAKAYKELEAQKVIRTIPGKGTFITGNTASVKNSNQNRLLADLSQVIAELIKSGVKGERIKKIVNDILGGK 3by7-a1-m1-cB_3by7-a1-m1-cD CRYSTAL STRUCTURE OF A PROTEIN STRUCTURALLY SIMILAR TO SM/LSM-LIKE RNA-BINDING PROTEINS (JCVI_PEP_1096686650277) FROM UNCULTURED MARINE ORGANISM AT 2.60 A RESOLUTION 2.6 X-RAY DIFFRACTION 40 1.0 360281 (uncultured marine organism) 360281 (uncultured marine organism) 79 84 3by7-a1-m1-cA_3by7-a1-m1-cB 3by7-a1-m1-cA_3by7-a1-m1-cC 3by7-a1-m1-cE_3by7-a1-m1-cC 3by7-a1-m1-cE_3by7-a1-m1-cD 7eq9-a1-m1-cA_7eq9-a1-m1-cB 7eq9-a1-m1-cA_7eq9-a1-m1-cE 7eq9-a1-m1-cAA_7eq9-a1-m1-cBA 7eq9-a1-m1-cAA_7eq9-a1-m1-cEA 7eq9-a1-m1-cAB_7eq9-a1-m1-cBB 7eq9-a1-m1-cAB_7eq9-a1-m1-cZA 7eq9-a1-m1-cB_7eq9-a1-m1-cC 7eq9-a1-m1-cBA_7eq9-a1-m1-cCA 7eq9-a1-m1-cBB_7eq9-a1-m1-cCB 7eq9-a1-m1-cC_7eq9-a1-m1-cD 7eq9-a1-m1-cCA_7eq9-a1-m1-cDA 7eq9-a1-m1-cCB_7eq9-a1-m1-cDB 7eq9-a1-m1-cD_7eq9-a1-m1-cE 7eq9-a1-m1-cDA_7eq9-a1-m1-cEA 7eq9-a1-m1-cDB_7eq9-a1-m1-cZA 7eq9-a1-m1-cEB_7eq9-a1-m1-cFB 7eq9-a1-m1-cEB_7eq9-a1-m1-cIB 7eq9-a1-m1-cF_7eq9-a1-m1-cG 7eq9-a1-m1-cF_7eq9-a1-m1-cJ 7eq9-a1-m1-cFA_7eq9-a1-m1-cGA 7eq9-a1-m1-cFA_7eq9-a1-m1-cJA 7eq9-a1-m1-cFB_7eq9-a1-m1-cGB 7eq9-a1-m1-cG_7eq9-a1-m1-cH 7eq9-a1-m1-cGA_7eq9-a1-m1-cHA 7eq9-a1-m1-cGB_7eq9-a1-m1-cHB 7eq9-a1-m1-cH_7eq9-a1-m1-cI 7eq9-a1-m1-cHA_7eq9-a1-m1-cIA 7eq9-a1-m1-cHB_7eq9-a1-m1-cIB 7eq9-a1-m1-cI_7eq9-a1-m1-cJ 7eq9-a1-m1-cIA_7eq9-a1-m1-cJA 7eq9-a1-m1-cK_7eq9-a1-m1-cL 7eq9-a1-m1-cK_7eq9-a1-m1-cO 7eq9-a1-m1-cKA_7eq9-a1-m1-cLA 7eq9-a1-m1-cKA_7eq9-a1-m1-cOA 7eq9-a1-m1-cL_7eq9-a1-m1-cM 7eq9-a1-m1-cLA_7eq9-a1-m1-cMA 7eq9-a1-m1-cM_7eq9-a1-m1-cN 7eq9-a1-m1-cMA_7eq9-a1-m1-cNA 7eq9-a1-m1-cN_7eq9-a1-m1-cO 7eq9-a1-m1-cNA_7eq9-a1-m1-cOA 7eq9-a1-m1-cP_7eq9-a1-m1-cQ 7eq9-a1-m1-cP_7eq9-a1-m1-cT 7eq9-a1-m1-cPA_7eq9-a1-m1-cQA 7eq9-a1-m1-cPA_7eq9-a1-m1-cTA 7eq9-a1-m1-cQ_7eq9-a1-m1-cR 7eq9-a1-m1-cQA_7eq9-a1-m1-cRA 7eq9-a1-m1-cR_7eq9-a1-m1-cS 7eq9-a1-m1-cRA_7eq9-a1-m1-cSA 7eq9-a1-m1-cS_7eq9-a1-m1-cT 7eq9-a1-m1-cSA_7eq9-a1-m1-cTA 7eq9-a1-m1-cUA_7eq9-a1-m1-cVA 7eq9-a1-m1-cUA_7eq9-a1-m1-cYA 7eq9-a1-m1-cV_7eq9-a1-m1-cW 7eq9-a1-m1-cV_7eq9-a1-m1-cZ 7eq9-a1-m1-cVA_7eq9-a1-m1-cWA 7eq9-a1-m1-cW_7eq9-a1-m1-cX 7eq9-a1-m1-cWA_7eq9-a1-m1-cXA 7eq9-a1-m1-cX_7eq9-a1-m1-cY 7eq9-a1-m1-cXA_7eq9-a1-m1-cYA 7eq9-a1-m1-cY_7eq9-a1-m1-cZ 7xm1-a1-m1-cA_7xm1-a1-m1-cHA 7xm1-a1-m1-cA_7xm1-a1-m1-cY 7xm1-a1-m1-cAA_7xm1-a1-m1-cCB 7xm1-a1-m1-cAA_7xm1-a1-m1-cRA 7xm1-a1-m1-cAB_7xm1-a1-m1-cCA 7xm1-a1-m1-cAB_7xm1-a1-m1-cIB 7xm1-a1-m1-cB_7xm1-a1-m1-cJ 7xm1-a1-m1-cB_7xm1-a1-m1-cRA 7xm1-a1-m1-cBA_7xm1-a1-m1-cR 7xm1-a1-m1-cBA_7xm1-a1-m1-cZ 7xm1-a1-m1-cBB_7xm1-a1-m1-cQ 7xm1-a1-m1-cBB_7xm1-a1-m1-cV 7xm1-a1-m1-cC_7xm1-a1-m1-cUA 7xm1-a1-m1-cC_7xm1-a1-m1-cW 7xm1-a1-m1-cCA_7xm1-a1-m1-cK 7xm1-a1-m1-cCB_7xm1-a1-m1-cJ 7xm1-a1-m1-cD_7xm1-a1-m1-cJA 7xm1-a1-m1-cD_7xm1-a1-m1-cPA 7xm1-a1-m1-cDA_7xm1-a1-m1-cP 7xm1-a1-m1-cDA_7xm1-a1-m1-cTA 7xm1-a1-m1-cDB_7xm1-a1-m1-cFB 7xm1-a1-m1-cDB_7xm1-a1-m1-cY 7xm1-a1-m1-cE_7xm1-a1-m1-cG 7xm1-a1-m1-cE_7xm1-a1-m1-cXA 7xm1-a1-m1-cEA_7xm1-a1-m1-cN 7xm1-a1-m1-cEA_7xm1-a1-m1-cW 7xm1-a1-m1-cEB_7xm1-a1-m1-cI 7xm1-a1-m1-cEB_7xm1-a1-m1-cR 7xm1-a1-m1-cF_7xm1-a1-m1-cIA 7xm1-a1-m1-cF_7xm1-a1-m1-cX 7xm1-a1-m1-cFA_7xm1-a1-m1-cHB 7xm1-a1-m1-cFA_7xm1-a1-m1-cWA 7xm1-a1-m1-cFB_7xm1-a1-m1-cHA 7xm1-a1-m1-cG_7xm1-a1-m1-cGB 7xm1-a1-m1-cGA_7xm1-a1-m1-cH 7xm1-a1-m1-cGA_7xm1-a1-m1-cOA 7xm1-a1-m1-cGB_7xm1-a1-m1-cKA 7xm1-a1-m1-cH_7xm1-a1-m1-cZA 7xm1-a1-m1-cHB_7xm1-a1-m1-cT 7xm1-a1-m1-cI_7xm1-a1-m1-cZ 7xm1-a1-m1-cIA_7xm1-a1-m1-cYA 7xm1-a1-m1-cIB_7xm1-a1-m1-cNA 7xm1-a1-m1-cJA_7xm1-a1-m1-cLA 7xm1-a1-m1-cK_7xm1-a1-m1-cNA 7xm1-a1-m1-cKA_7xm1-a1-m1-cXA 7xm1-a1-m1-cL_7xm1-a1-m1-cT 7xm1-a1-m1-cL_7xm1-a1-m1-cWA 7xm1-a1-m1-cLA_7xm1-a1-m1-cM 7xm1-a1-m1-cM_7xm1-a1-m1-cPA 7xm1-a1-m1-cMA_7xm1-a1-m1-cP 7xm1-a1-m1-cMA_7xm1-a1-m1-cVA 7xm1-a1-m1-cN_7xm1-a1-m1-cUA 7xm1-a1-m1-cO_7xm1-a1-m1-cQ 7xm1-a1-m1-cO_7xm1-a1-m1-cSA 7xm1-a1-m1-cOA_7xm1-a1-m1-cS 7xm1-a1-m1-cQA_7xm1-a1-m1-cX 7xm1-a1-m1-cQA_7xm1-a1-m1-cYA 7xm1-a1-m1-cS_7xm1-a1-m1-cZA 7xm1-a1-m1-cSA_7xm1-a1-m1-cV 7xm1-a1-m1-cTA_7xm1-a1-m1-cVA KNIKIRLVTGEDIIGNISESQGLITIKKAFVIIPQPVQLVLSPWQPYTDDKEIVIDDSKVITITSPKDDIIKSYESHTS KNIKIRLVTGEDIIGNISESQGLITIKKAFVIIPQGKPVQLVLSPWQPYTDDKEIVIDDSKVITITSPKDDIIKSYESHTSEII 3by8-a2-m1-cA_3by8-a2-m2-cA Crystal Structure of the E.coli DcuS Sensor Domain P0AEC8 P0AEC8 1.45 X-RAY DIFFRACTION 59 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 133 133 DMTRDGLANKALAVARTLADSPEIRQGLQKKPQESGIQAIAEAVRKRNDLLFIVVTDMQSLRYSHPEAQRIGQPFKGDDILKALNGEENVAINRGFLAQALRVFTPIYDENHKQIGVVAIGLELSRVTQQIND DMTRDGLANKALAVARTLADSPEIRQGLQKKPQESGIQAIAEAVRKRNDLLFIVVTDMQSLRYSHPEAQRIGQPFKGDDILKALNGEENVAINRGFLAQALRVFTPIYDENHKQIGVVAIGLELSRVTQQIND 3byb-a1-m1-cA_3byb-a1-m1-cB Crystal structure of Textilinin-1, a Kunitz-type serine protease inhibitor from the Australian Common Brown snake venom Q90WA1 Q90WA1 1.63 X-RAY DIFFRACTION 12 0.983 169397 (Pseudonaja textilis textilis) 169397 (Pseudonaja textilis textilis) 58 58 KDRPDFCELPADTGPCRVRFPSFYYNPDEKKCLEFIYGGCEGNANNFITKEECESTCA DRPDFCELPADTGPCRVRFPSFYYNPDEKKCLEFIYGGCEGNANNFITKEECESTCAA 3byb-a1-m1-cA_3byb-a1-m1-cC Crystal structure of Textilinin-1, a Kunitz-type serine protease inhibitor from the Australian Common Brown snake venom Q90WA1 Q90WA1 1.63 X-RAY DIFFRACTION 54 1.0 169397 (Pseudonaja textilis textilis) 169397 (Pseudonaja textilis textilis) 58 58 KDRPDFCELPADTGPCRVRFPSFYYNPDEKKCLEFIYGGCEGNANNFITKEECESTCA KDRPDFCELPADTGPCRVRFPSFYYNPDEKKCLEFIYGGCEGNANNFITKEECESTCA 3byb-a1-m1-cB_3byb-a1-m1-cC Crystal structure of Textilinin-1, a Kunitz-type serine protease inhibitor from the Australian Common Brown snake venom Q90WA1 Q90WA1 1.63 X-RAY DIFFRACTION 10 0.983 169397 (Pseudonaja textilis textilis) 169397 (Pseudonaja textilis textilis) 58 58 DRPDFCELPADTGPCRVRFPSFYYNPDEKKCLEFIYGGCEGNANNFITKEECESTCAA KDRPDFCELPADTGPCRVRFPSFYYNPDEKKCLEFIYGGCEGNANNFITKEECESTCA 3byi-a5-m1-cD_3byi-a5-m1-cA Crystal structure of human Rho GTPase activating protein 15 (ARHGAP15) Q53QZ3 Q53QZ3 2.25 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 211 3byi-a5-m1-cC_3byi-a5-m1-cB PSLKTLQEKGLIKDQIFGSHLHKVCERENSTVPWFVKQCIEAVEKRGLDVDGIYRVSGNLATIQKLRFIVNQEEKLNLDDSQWEDIHVVTGALKMFFRELPEPLFPYSFFEQFVEAIKKQDNNTRIEAVKSLVQKLPPPNRDTMKVLFGHLTKIVAKASKNLMSTQSLGIVFGPTLLRAENETGNMAIHMVYQNQIAELMLSEYSKIFG MRPSLKTLQEKGLIKDQIFGSHLHKVCERENSTVPWFVKQCIEAVEKRGLDVDGIYRVSGNLATIQKLRFIVNQEEKLNLDDSQWEDIHVVTGALKMFFRELPEPLFPYSFFEQFVEAIKKQDNNTRIEAVKSLVQKLPPPNRDTMKVLFGHLTKIVAKASKNLMSTQSLGIVFGPTLLRAENETGNMAIHMVYQNQIAELMLSEYSKIFG 3byi-a5-m1-cD_3byi-a5-m1-cB Crystal structure of human Rho GTPase activating protein 15 (ARHGAP15) Q53QZ3 Q53QZ3 2.25 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 211 3byi-a5-m1-cC_3byi-a5-m1-cA PSLKTLQEKGLIKDQIFGSHLHKVCERENSTVPWFVKQCIEAVEKRGLDVDGIYRVSGNLATIQKLRFIVNQEEKLNLDDSQWEDIHVVTGALKMFFRELPEPLFPYSFFEQFVEAIKKQDNNTRIEAVKSLVQKLPPPNRDTMKVLFGHLTKIVAKASKNLMSTQSLGIVFGPTLLRAENETGNMAIHMVYQNQIAELMLSEYSKIFG MRPSLKTLQEKGLIKDQIFGSHLHKVCERENSTVPWFVKQCIEAVEKRGLDVDGIYRVSGNLATIQKLRFIVNQEEKLNLDDSQWEDIHVVTGALKMFFRELPEPLFPYSFFEQFVEAIKKQDNNTRIEAVKSLVQKLPPPNRDTMKVLFGHLTKIVAKASKNLMSTQSLGIVFGPTLLRAENETGNMAIHMVYQNQIAELMLSEYSKIFG 3byi-a5-m1-cD_3byi-a5-m1-cC Crystal structure of human Rho GTPase activating protein 15 (ARHGAP15) Q53QZ3 Q53QZ3 2.25 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 210 3byi-a5-m1-cA_3byi-a5-m1-cB PSLKTLQEKGLIKDQIFGSHLHKVCERENSTVPWFVKQCIEAVEKRGLDVDGIYRVSGNLATIQKLRFIVNQEEKLNLDDSQWEDIHVVTGALKMFFRELPEPLFPYSFFEQFVEAIKKQDNNTRIEAVKSLVQKLPPPNRDTMKVLFGHLTKIVAKASKNLMSTQSLGIVFGPTLLRAENETGNMAIHMVYQNQIAELMLSEYSKIFG PSLKTLQEKGLIKDQIFGSHLHKVCERENSTVPWFVKQCIEAVEKRGLDVDGIYRVSGNLATIQKLRFIVNQEEKLNLDDSQWEDIHVVTGALKMFFRELPEPLFPYSFFEQFVEAIKKQDNNTRIEAVKSLVQKLPPPNRDTMKVLFGHLTKIVAKASKNLMSTQSLGIVFGPTLLRAENETGNMAIHMVYQNQIAELMLSEYSKIFGS 3byp-a1-m1-cA_3byp-a1-m1-cB Mode of Action of a Putative Zinc Transporter CzrB Q8VLX7 Q8VLX7 1.7 X-RAY DIFFRACTION 41 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 82 82 GLPPEEVERIRAFLQERIRGRALEVHDLKTRRAGPRSFLEFHLVVRGDTPVEEAHRLCDELERALAQAFPGLQATIHVEPEG GLPPEEVERIRAFLQERIRGRALEVHDLKTRRAGPRSFLEFHLVVRGDTPVEEAHRLCDELERALAQAFPGLQATIHVEPEG 3byq-a1-m1-cC_3byq-a1-m2-cC Crystal structure of a duf1185 family protein (bb2672) from bordetella bronchiseptica rb50 at 1.70 A resolution A0A0H3LTD0 A0A0H3LTD0 1.7 X-RAY DIFFRACTION 52 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 183 183 3byq-a1-m1-cA_3byq-a1-m1-cB 3byq-a1-m2-cA_3byq-a1-m2-cB SLIEIRKRTLIVETTYHENGPAPAQPLKLAASCAVIRNPYAGRYEPDLPFAELRSLGTLLATELVDTLGKDNIEVYSKAAIVGVDGEEHGAVWHEAGGWARSVLGEPKAVPAVKAVATAGYRVPVHYIHASYVRSHFNSIEIGIQDAPRPREILFALVGTGARVHARLGGLTKEAVSVHDGQR SLIEIRKRTLIVETTYHENGPAPAQPLKLAASCAVIRNPYAGRYEPDLPFAELRSLGTLLATELVDTLGKDNIEVYSKAAIVGVDGEEHGAVWHEAGGWARSVLGEPKAVPAVKAVATAGYRVPVHYIHASYVRSHFNSIEIGIQDAPRPREILFALVGTGARVHARLGGLTKEAVSVHDGQR 3byq-a1-m2-cA_3byq-a1-m2-cC Crystal structure of a duf1185 family protein (bb2672) from bordetella bronchiseptica rb50 at 1.70 A resolution A0A0H3LTD0 A0A0H3LTD0 1.7 X-RAY DIFFRACTION 17 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 183 183 3byq-a1-m1-cA_3byq-a1-m1-cC 3byq-a1-m1-cA_3byq-a1-m2-cB 3byq-a1-m1-cB_3byq-a1-m2-cA 3byq-a1-m1-cB_3byq-a1-m2-cC 3byq-a1-m1-cC_3byq-a1-m2-cB SLIEIRKRTLIVETTYHENGPAPAQPLKLAASCAVIRNPYAGRYEPDLPFAELRSLGTLLATELVDTLGKDNIEVYSKAAIVGVDGEEHGAVWHEAGGWARSVLGEPKAVPAVKAVATAGYRVPVHYIHASYVRSHFNSIEIGIQDAPRPREILFALVGTGARVHARLGGLTKEAVSVHDGQR SLIEIRKRTLIVETTYHENGPAPAQPLKLAASCAVIRNPYAGRYEPDLPFAELRSLGTLLATELVDTLGKDNIEVYSKAAIVGVDGEEHGAVWHEAGGWARSVLGEPKAVPAVKAVATAGYRVPVHYIHASYVRSHFNSIEIGIQDAPRPREILFALVGTGARVHARLGGLTKEAVSVHDGQR 3byq-a1-m2-cB_3byq-a1-m2-cC Crystal structure of a duf1185 family protein (bb2672) from bordetella bronchiseptica rb50 at 1.70 A resolution A0A0H3LTD0 A0A0H3LTD0 1.7 X-RAY DIFFRACTION 93 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 183 183 3byq-a1-m1-cA_3byq-a1-m2-cA 3byq-a1-m1-cB_3byq-a1-m1-cC SLIEIRKRTLIVETTYHENGPAPAQPLKLAASCAVIRNPYAGRYEPDLPFAELRSLGTLLATELVDTLGKDNIEVYSKAAIVGVDGEEHGAVWHEAGGWARSVLGEPKAVPAVKAVATAGYRVPVHYIHASYVRSHFNSIEIGIQDAPRPREILFALVGTGARVHARLGGLTKEAVSVHDGQR SLIEIRKRTLIVETTYHENGPAPAQPLKLAASCAVIRNPYAGRYEPDLPFAELRSLGTLLATELVDTLGKDNIEVYSKAAIVGVDGEEHGAVWHEAGGWARSVLGEPKAVPAVKAVATAGYRVPVHYIHASYVRSHFNSIEIGIQDAPRPREILFALVGTGARVHARLGGLTKEAVSVHDGQR 3byr-a1-m1-cA_3byr-a1-m2-cA Mode of Action of a Putative Zinc Transporter CzrB (Zn form) Q8VLX7 Q8VLX7 1.8 X-RAY DIFFRACTION 62 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 89 89 MDEGLPPEEVERIRAFLQERIRGRALEVHDLKTRRAGPRSFLEFHLVVRGDTPVEEAHRLCDELERALAQAFPGLQATIHVEPEGERKR MDEGLPPEEVERIRAFLQERIRGRALEVHDLKTRRAGPRSFLEFHLVVRGDTPVEEAHRLCDELERALAQAFPGLQATIHVEPEGERKR 3byw-a4-m1-cH_3byw-a4-m1-cG Crystal structure of an extracellular domain of arabinofuranosyltransferase from Corynebacterium diphtheriae Q6NK78 Q6NK78 2.35 X-RAY DIFFRACTION 144 0.994 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 156 157 3byw-a1-m1-cA_3byw-a1-m1-cB 3byw-a2-m1-cD_3byw-a2-m1-cC 3byw-a3-m1-cE_3byw-a3-m1-cF VQSSVSWPQNGSLNSVSAPLSYTPISFDAKIPVASVDKLRKDQDLILGTLPANSEDAGARGLFVRANDDGLQITSHGELVLDLSKRELAQLPADATIAISATEDETTAGIEGDDSTTETVERDVRPIIGIYTELESNAAADLLNAGLNAHVEINSR QSSVSWPQNGSLNSVSAPLSYTPISFDAKIPVASVDKLRKDQDLILGTLPANSEDAGARGLFVRANDDGLQITSHGELVLDLSKRELAQLPADATIAISATEDETTAGIEGDDSTTETVERDVRPIIGIYTELESNAAADLLNAGLNAHVEINSRFT 3bz7-a2-m1-cA_3bz7-a2-m2-cA Crystal Structures of (S)-(-)-Blebbistatin Analogs bound to Dictyostelium discoideum myosin II P08799 P08799 2 X-RAY DIFFRACTION 32 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 703 703 3bz8-a2-m1-cA_3bz8-a2-m2-cA 3bz9-a2-m1-cA_3bz9-a2-m2-cA NPIHDRTSDYHKYLKVKQGDSDLFKLTVSDKRYIWYNPDPKERDSYECGEIVSETSDSFTFKTVDQDRQVKKDDANQRNPIKFDGVEDMSELSYLNEPAVFHNLRVRYNQDLIYTYSGLFLVAVNPFKRIPIYTQEMVDIFKGRRRNEVAPHIFAISDVAYRSMLDDRQNQSLLITGESGAGKTENTKKVIQYLASVAGRVLEQQILQANPILEAFGNAKTTRNNNSSRFGKFIEIQFNSAGFISGASIQSYLLEKSRVVFQSETERNYHIFYQLLAGATAEEKKALHLAGPESFNYLNQSGCVDIKGVSDSEEFKITRQAMDIVGFSQEEQMSIFKIIAGILHLGNIKFEKGAGEGAVLKDKTALNAASTVFGVNPSVLEKALMEPRILAGRDLVAQHLNVEKSSSSRDALVKALYGRLFLWLVKKINNVLCQERKAYFIGVLDISGFEIFKVNSFEQLCINYTNEKLQQFFNHHMFKLEQEEYLKEKINWTFIDFGLDSQATIDLIDGRQPPGILALLDEQSVFPNATDNTLITKLHSHFSKKNAKYEEPRFSKTEFGVTHYAGQVMYEIQDWLEKNKDPLQQDLELCFKDSSDNVVTKLFNDPNIASRAKKGANFITVAAQYKEQLASLMATLETTNPHFVRCIIPNNKQLPAKLEDKVVLDQLRCNGVLEGIRITRKGFPNRIIYFVQYRFGITKIFFR NPIHDRTSDYHKYLKVKQGDSDLFKLTVSDKRYIWYNPDPKERDSYECGEIVSETSDSFTFKTVDQDRQVKKDDANQRNPIKFDGVEDMSELSYLNEPAVFHNLRVRYNQDLIYTYSGLFLVAVNPFKRIPIYTQEMVDIFKGRRRNEVAPHIFAISDVAYRSMLDDRQNQSLLITGESGAGKTENTKKVIQYLASVAGRVLEQQILQANPILEAFGNAKTTRNNNSSRFGKFIEIQFNSAGFISGASIQSYLLEKSRVVFQSETERNYHIFYQLLAGATAEEKKALHLAGPESFNYLNQSGCVDIKGVSDSEEFKITRQAMDIVGFSQEEQMSIFKIIAGILHLGNIKFEKGAGEGAVLKDKTALNAASTVFGVNPSVLEKALMEPRILAGRDLVAQHLNVEKSSSSRDALVKALYGRLFLWLVKKINNVLCQERKAYFIGVLDISGFEIFKVNSFEQLCINYTNEKLQQFFNHHMFKLEQEEYLKEKINWTFIDFGLDSQATIDLIDGRQPPGILALLDEQSVFPNATDNTLITKLHSHFSKKNAKYEEPRFSKTEFGVTHYAGQVMYEIQDWLEKNKDPLQQDLELCFKDSSDNVVTKLFNDPNIASRAKKGANFITVAAQYKEQLASLMATLETTNPHFVRCIIPNNKQLPAKLEDKVVLDQLRCNGVLEGIRITRKGFPNRIIYFVQYRFGITKIFFR 3bzg-a2-m1-cA_3bzg-a2-m2-cA UVDE pH4.4 Q746K1 Q746K1 1.91 X-RAY DIFFRACTION 68 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 277 277 3bzj-a2-m1-cA_3bzj-a2-m2-cA 3c0l-a2-m1-cA_3c0l-a2-m2-cA 3c0q-a2-m1-cA_3c0q-a2-m2-cA MIRLGYPCENLTLGATTNRTLRLAHLTEERVREKAAENLRDLERILRFNADHGFALFRIGQHLIPFASHPLFPYDWEGAYEEELARLGALARAFGQRLSMHPGQYVNPGSPDPEVVERSLAELRYSARLLSLLGAEDGVLVLHLGGAYGEKGKALRRFVENLRGEEEVLRYLALENDERLWNVEEVLKAAEALGVPVVVDTLHHALNPGRLPLEEALRLAFPTWRGRPKVHLASQDPKKRPGAHAFRVTREDWERLLSALPGPADVMVEAKGKEQGL MIRLGYPCENLTLGATTNRTLRLAHLTEERVREKAAENLRDLERILRFNADHGFALFRIGQHLIPFASHPLFPYDWEGAYEEELARLGALARAFGQRLSMHPGQYVNPGSPDPEVVERSLAELRYSARLLSLLGAEDGVLVLHLGGAYGEKGKALRRFVENLRGEEEVLRYLALENDERLWNVEEVLKAAEALGVPVVVDTLHHALNPGRLPLEEALRLAFPTWRGRPKVHLASQDPKKRPGAHAFRVTREDWERLLSALPGPADVMVEAKGKEQGL 3bzh-a1-m1-cA_3bzh-a1-m2-cA Crystal structure of human ubiquitin-conjugating enzyme E2 E1 P51965 P51965 1.6 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 161 QTEKETNKNSKLLSTSAKRIQKELADITLDPPPNCSAGPKGDNIYEWRSTILGPPGSVYEGGVFFLDITFTPEYPFKPPKVTFRTRIYHCNINSQGVICLDILKDNWSPALTISKVLLSICSLLTDCNPADPLVGSIATQYMTNRAEHDRMARQWTKRYAT QTEKETNKNSKLLSTSAKRIQKELADITLDPPPNCSAGPKGDNIYEWRSTILGPPGSVYEGGVFFLDITFTPEYPFKPPKVTFRTRIYHCNINSQGVICLDILKDNWSPALTISKVLLSICSLLTDCNPADPLVGSIATQYMTNRAEHDRMARQWTKRYAT 3bzl-a3-m1-cC_3bzl-a3-m1-cD Crystal structural of native EscU C-terminal domain Q9AJ26 Q9AJ26 1.71 X-RAY DIFFRACTION 25 1.0 562 (Escherichia coli) 562 (Escherichia coli) 81 82 PTHIAICLYYKLGETPLPLVIETGKDAKALQIIKLAELYDIPVIEDIPLARSLYKNIHKGQYITEDFFEPVAQLIRIAIDL PTHIAICLYYKLGETPLPLVIETGKDAKALQIIKLAELYDIPVIEDIPLARSLYKNIHKGQYITEDFFEPVAQLIRIAIDLD 3bzo-a2-m3-cB_3bzo-a2-m4-cB Crystal structural of native EscU C-terminal domain Q9AJ26 Q9AJ26 1.5 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 82 82 3bzo-a2-m1-cB_3bzo-a2-m2-cB 3bzp-a2-m1-cA_3bzp-a2-m2-cA 3bzp-a2-m3-cA_3bzp-a2-m4-cA 3bzp-a3-m1-cA_3bzp-a3-m2-cA 3bzt-a2-m1-cA_3bzt-a2-m2-cA 3bzx-a2-m1-cB_3bzx-a2-m2-cB 3bzx-a2-m3-cB_3bzx-a2-m4-cB 3bzx-a4-m1-cB_3bzx-a4-m2-cB 3bzy-a2-m1-cB_3bzy-a2-m2-cB 3bzy-a2-m3-cB_3bzy-a2-m4-cB 3bzy-a4-m1-cB_3bzy-a4-m2-cB THIAICLYYKLGETPLPLVIETGKDAKALQIIKLAELYDIPVIEDIPLARSLYKNIHKGQYITEDFFEPVAQLIRIAIDLDY THIAICLYYKLGETPLPLVIETGKDAKALQIIKLAELYDIPVIEDIPLARSLYKNIHKGQYITEDFFEPVAQLIRIAIDLDY 3bzo-a4-m1-cB_3bzo-a4-m3-cB Crystal structural of native EscU C-terminal domain Q9AJ26 Q9AJ26 1.5 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 82 82 3bzo-a2-m1-cB_3bzo-a2-m3-cB 3bzo-a2-m2-cB_3bzo-a2-m4-cB 3bzo-a3-m1-cB_3bzo-a3-m3-cB 3bzo-a3-m5-cB_3bzo-a3-m6-cB 3bzp-a2-m1-cA_3bzp-a2-m3-cA 3bzp-a2-m2-cA_3bzp-a2-m4-cA 3bzx-a2-m1-cB_3bzx-a2-m3-cB 3bzx-a2-m2-cB_3bzx-a2-m4-cB 3bzx-a3-m1-cB_3bzx-a3-m3-cB 3bzy-a2-m1-cB_3bzy-a2-m3-cB 3bzy-a2-m2-cB_3bzy-a2-m4-cB 3bzy-a3-m1-cB_3bzy-a3-m3-cB THIAICLYYKLGETPLPLVIETGKDAKALQIIKLAELYDIPVIEDIPLARSLYKNIHKGQYITEDFFEPVAQLIRIAIDLDY THIAICLYYKLGETPLPLVIETGKDAKALQIIKLAELYDIPVIEDIPLARSLYKNIHKGQYITEDFFEPVAQLIRIAIDLDY 3bzq-a1-m2-cA_3bzq-a1-m3-cA High resolution crystal structure of Nitrogen Regulatory Protein (Rv2919c) of Mycobacterium tuberculosis P9WN31 P9WN31 1.4 X-RAY DIFFRACTION 73 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 99 99 3bzq-a1-m1-cA_3bzq-a1-m2-cA 3bzq-a1-m1-cA_3bzq-a1-m3-cA 3lf0-a1-m1-cA_3lf0-a1-m1-cB 3lf0-a1-m1-cA_3lf0-a1-m1-cC GHMKLITAIVKPFTLDDVKTSLEDAGVLGMTVSEIQGYGRDFVPKVRIEVVVDDSIVDKVVDSIVRAARTGKIGDGKVWVSPVDTIVRVRTGERGHDAL GHMKLITAIVKPFTLDDVKTSLEDAGVLGMTVSEIQGYGRDFVPKVRIEVVVDDSIVDKVVDSIVRAARTGKIGDGKVWVSPVDTIVRVRTGERGHDAL 3bzw-a1-m1-cC_3bzw-a1-m1-cE Crystal structure of a putative lipase from Bacteroides thetaiotaomicron Q8A3J3 Q8A3J3 1.87 X-RAY DIFFRACTION 15 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 239 239 IQHPWQGKKVGYIGDSITDPNCYGDNIKKYWDFLKEWLGITPFVYGISGRQWDDVPRQAEKLKKEHGGEVDAILVFGTNDYNSSVPIGEWFTEQEEQVLSAHGEKKVTRKKRTPVTQDTYRGRINIGITQLKKLFPDKQIVLLTPLHRSLANFGDKNVQPDESYQNGCGEYIDAYVQAIKEAGNIWGIPVIDFNAVTGNPVEEQLIYFYDAGYDRLHPDTKGQERARTLYQLLALPVAF IQHPWQGKKVGYIGDSITDPNCYGDNIKKYWDFLKEWLGITPFVYGISGRQWDDVPRQAEKLKKEHGGEVDAILVFGTNDYNSSVPIGEWFTEQEEQVLSAHGEKKVTRKKRTPVTQDTYRGRINIGITQLKKLFPDKQIVLLTPLHRSLANFGDKNVQPDESYQNGCGEYIDAYVQAIKEAGNIWGIPVIDFNAVTGNPVEEQLIYFYDAGYDRLHPDTKGQERARTLYQLLALPVAF 3bzw-a3-m1-cD_3bzw-a3-m1-cE Crystal structure of a putative lipase from Bacteroides thetaiotaomicron Q8A3J3 Q8A3J3 1.87 X-RAY DIFFRACTION 103 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 239 239 3bzw-a1-m1-cB_3bzw-a1-m1-cA 3bzw-a1-m1-cB_3bzw-a1-m1-cC 3bzw-a1-m1-cC_3bzw-a1-m1-cA 3bzw-a1-m1-cD_3bzw-a1-m1-cE 3bzw-a1-m1-cF_3bzw-a1-m1-cD 3bzw-a1-m1-cF_3bzw-a1-m1-cE 3bzw-a2-m1-cB_3bzw-a2-m1-cA 3bzw-a2-m1-cB_3bzw-a2-m1-cC 3bzw-a2-m1-cC_3bzw-a2-m1-cA 3bzw-a3-m1-cF_3bzw-a3-m1-cD 3bzw-a3-m1-cF_3bzw-a3-m1-cE IQHPWQGKKVGYIGDSITDPNCYGDNIKKYWDFLKEWLGITPFVYGISGRQWDDVPRQAEKLKKEHGGEVDAILVFGTNDYNSSVPIGEWFTEQEEQVLSAHGEKKVTRKKRTPVTQDTYRGRINIGITQLKKLFPDKQIVLLTPLHRSLANFGDKNVQPDESYQNGCGEYIDAYVQAIKEAGNIWGIPVIDFNAVTGNPVEEQLIYFYDAGYDRLHPDTKGQERARTLYQLLALPVAF IQHPWQGKKVGYIGDSITDPNCYGDNIKKYWDFLKEWLGITPFVYGISGRQWDDVPRQAEKLKKEHGGEVDAILVFGTNDYNSSVPIGEWFTEQEEQVLSAHGEKKVTRKKRTPVTQDTYRGRINIGITQLKKLFPDKQIVLLTPLHRSLANFGDKNVQPDESYQNGCGEYIDAYVQAIKEAGNIWGIPVIDFNAVTGNPVEEQLIYFYDAGYDRLHPDTKGQERARTLYQLLALPVAF 3c02-a1-m2-cA_3c02-a1-m4-cA X-ray structure of the aquaglyceroporin from Plasmodium falciparum Q8WPZ6 Q8WPZ6 2.05 X-RAY DIFFRACTION 109 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 242 242 3c02-a1-m1-cA_3c02-a1-m3-cA 3c02-a1-m1-cA_3c02-a1-m4-cA 3c02-a1-m2-cA_3c02-a1-m3-cA SYVREFIGEFLGTFVLMFLGEGATANFHTTGLSGDWYKLCLGWGLAVFFGILVSAKLSGAHLNLAVSIGLSSINKFDLKKIPVYFFAQLLGAFVGTSTVYGLYHGFISNSKIPQFAWETSRNPSISLTGAFFNELILTGILLLVILVVVDENICGKFHILKLSSVVGLIILCIGITFGGNTGFALNPSRDLGSRFLSLIAYGKDTFTKDNFYFWVPLVAPCVGSVVFCQFYDKVICPLVDLA SYVREFIGEFLGTFVLMFLGEGATANFHTTGLSGDWYKLCLGWGLAVFFGILVSAKLSGAHLNLAVSIGLSSINKFDLKKIPVYFFAQLLGAFVGTSTVYGLYHGFISNSKIPQFAWETSRNPSISLTGAFFNELILTGILLLVILVVVDENICGKFHILKLSSVVGLIILCIGITFGGNTGFALNPSRDLGSRFLSLIAYGKDTFTKDNFYFWVPLVAPCVGSVVFCQFYDKVICPLVDLA 3c07-a1-m1-cB_3c07-a1-m1-cA Crystal structure of a TetR family transcriptional regulator from Streptomyces coelicolor A3(2) Q9KZ96 Q9KZ96 2.7 X-RAY DIFFRACTION 73 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 210 216 KSEQTRALILETARLFQERGYDRTTRAIAQEAGVSVGNAYYYFAGKEHLIQGFYDRIAAEHRAAVREVLARETDLEARLAGVLKVWLDIATPYHEFAVQFFKNAADPDSPLSPFSPESEHARVEAIGIHRAVLAGAKTKVPEELRDILPELWLSQGLVLYWIFDRTEGRERSYRLAERGARLTARGVVLARFRVLRPLVREVHELFTDFL SKSEQTRALILETARLFQERGYDRTTRAIAQEAGVSVGNAYYYFAGKEHLIQGFYDRIAAEHRAAVREVLARETDLEARLAGVLKVWLDIATPYHEFAVQFFKNAADPDSPLSPFSPESEHARVEAIGIHRAVLAGAKTKVPEELRDILPELWLSQGLVLYWIFDRTEGRERSYRLAERGARLTARGVVLARFRVLRPLVREVHELFTDFLPGTKV 3c0b-a2-m1-cD_3c0b-a2-m1-cC Crystal structure of the conserved archaeal protein Q6M145. Northeast Structural Genomics Consortium target MrR63 Q6M145 Q6M145 2.4 X-RAY DIFFRACTION 91 1.0 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 308 312 3c0b-a1-m1-cA_3c0b-a1-m2-cB 3cet-a1-m1-cA_3cet-a1-m1-cB ILGIDIGGANTKITELHENGEFKVHHLYFPDKLAEVLKTYSNDVSHVALVTEGVDNILNAAESAFGSNISVFDSNGNFISLESAKTNNKVSASNWCGTAKWVSKNIEENCILVDGSTTTDIIPIVEGKVVAEKTDLERLNHELLYVGTLRTPISHLGNTISFKGVDTNVSSEYFAITADISVVLEKVTTEEYTCDTPDGKGTDKRSSLVRISKVLCSDLDQISEIDAENIAKNYYELWKELILENVENVAEKYGSKKVVITGLGENILKDALADFEVISVAERYGKDVSLATPSFAVAELLKNELLEH ILGIDIGGANTKITELHENGEFKVHHLYFPDKLAEVLKTYSNDVSHVALVTTAEEGVDNILNAAESAFGSNISVFDSNGNFISLESAKTNNKVSASNWCGTAKWVSKNIEENCILVDGSTTTDIIPIVEGKVVAEKTDLERLNHELLYVGTLRTPISHLGNTISFKGVDTNVSSEYFAITADISVVLEKVTTEEYTCDTPDGKGTDKRSSLVRISKVLCSDLDQISEIDAENIAKNYYELWKELILENVENVAEKYGSKKVVITGLGENILKDALADFEVISVAERYGKDVSLATPSFAVAELLKNELLEHH 3c0f-a1-m1-cB_3c0f-a1-m2-cB Crystal Structure of a novel non-Pfam protein AF1514 from Archeoglobus fulgidus DSM 4304 solved by S-SAD using a Cr X-ray source O28758 O28758 1.8 X-RAY DIFFRACTION 24 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 80 80 IMDEIVNLQKEVSLEEAERYANIASYGDGILLSVHDSTGYRAPEVYCCGEKPWEVYACNRGANLISVNQFEFYFRIEVEG IMDEIVNLQKEVSLEEAERYANIASYGDGILLSVHDSTGYRAPEVYCCGEKPWEVYACNRGANLISVNQFEFYFRIEVEG 3c0k-a1-m1-cA_3c0k-a1-m1-cB Crystal Structure of a ribosomal RNA methyltranferase P75876 P75876 2 X-RAY DIFFRACTION 82 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 386 386 SVRLVLAKGREKSLLRRHPWVFSGAVAREGKASLGETIDIVDHQGKWLARGAYSPASQIRARVWTFDPSESIDIAFFSRRLQQAQKWRDWLAQKDGLDSYRLIAGESDGLPGITIDRFGNFLVLQLLSAGAEYQRAALISALQTLYPECSIYDRSDVAVRKKEGELTQGPVTGELPPALLPIEEHGKLLVDIQHGHKTGYYLDQRDSRLATRRYVENKRVLNCFSYTGGFAVSALGGCSQVVSVDTSQEALDIARQNVELNKLDLSKAEFVRDDVFKLLRTYRDRGEKFDVIVDPPKFVENKSQLGACRGYKDINLAIQLLNEGGILLTFSCSGLTSDLFQKIIADAAIDAGRDVQFIEQFRQAADHPVIATYPEGLYLKGFACRV SVRLVLAKGREKSLLRRHPWVFSGAVAREGKASLGETIDIVDHQGKWLARGAYSPASQIRARVWTFDPSESIDIAFFSRRLQQAQKWRDWLAQKDGLDSYRLIAGESDGLPGITIDRFGNFLVLQLLSAGAEYQRAALISALQTLYPECSIYDRSDVAVRKKEGELTQGPVTGELPPALLPIEEHGKLLVDIQHGHKTGYYLDQRDSRLATRRYVENKRVLNCFSYTGGFAVSALGGCSQVVSVDTSQEALDIARQNVELNKLDLSKAEFVRDDVFKLLRTYRDRGEKFDVIVDPPKFVENKSQLGACRGYKDINLAIQLLNEGGILLTFSCSGLTSDLFQKIIADAAIDAGRDVQFIEQFRQAADHPVIATYPEGLYLKGFACRV 3c0m-a1-m1-cA_3c0m-a1-m1-cB Crystal structure of the proaerolysin mutant Y221G P09167 P09167 2.88 X-RAY DIFFRACTION 108 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 449 449 1pre-a1-m1-cA_1pre-a1-m1-cB 1z52-a1-m1-cB_1z52-a1-m1-cA 3c0o-a1-m1-cA_3c0o-a1-m1-cB 3g4o-a1-m1-cA_3g4o-a1-m1-cB EPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRGDTATNWSKTNTYGLSEKVTTKNKFKWPLVGETELSIEIAANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLLRLEIPLDAQELSGLGFNNVSLSVTPAA EPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRGDTATNWSKTNTYGLSEKVTTKNKFKWPLVGETELSIEIAANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLLRLEIPLDAQELSGLGFNNVSLSVTPAA 3c0u-a1-m1-cA_3c0u-a1-m1-cB Crystal structure of E.coli yaeQ protein P0AA97 P0AA97 2.7 X-RAY DIFFRACTION 36 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 174 177 GHALKATIYKATVNVADLDRNQFLDASLTLARHPSETQERLRLLAWLKYADERLQFTRDDEPEAWLRNDHLGIDLWIELGLPDERRIKKACTQAAEVALFTYNSRAAQIWWQQNQSKCVQFANLSVWYLDDEQLAKVSAFADRTTLQATIQDGVIWLSDDKNNLEVNLTAWQQP GHALKATIYKATVNVADLDRNQFLDASLTLARHPSETQERLRLLAWLKYADERLQFTRGLCDDEPEAWLRNDHLGIDLWIELGLPDERRIKKACTQAAEVALFTYNSRAAQIWWQQNQSKCVQFANLSVWYLDDEQLAKVSAFADRTTLQATIQDGVIWLSDDKNNLEVNLTAWQQP 3c0v-a5-m1-cB_3c0v-a5-m1-cC Crystal structure of cytokinin-specific binding protein in complex with cytokinin and Ta6Br12 A0A1S3THR8 A0A1S3THR8 1.8 X-RAY DIFFRACTION 55 1.0 3916 (Vigna radiata var. radiata) 3916 (Vigna radiata var. radiata) 151 151 MVKEFNTQTELSVRLEALWAVLSKDFITVVPKVLPHIVKDVQLIEGDGGVGTILIFNFLPEVSPSYQREEITEFDESSHEIGLQVIEGGYLSQGLSYYKTTFKLSEIEEDKTLVNVKISYDHDSDIEEKVTPTKTSQSTLMYLRRLERYLS MVKEFNTQTELSVRLEALWAVLSKDFITVVPKVLPHIVKDVQLIEGDGGVGTILIFNFLPEVSPSYQREEITEFDESSHEIGLQVIEGGYLSQGLSYYKTTFKLSEIEEDKTLVNVKISYDHDSDIEEKVTPTKTSQSTLMYLRRLERYLS 3c12-a1-m1-cA_3c12-a1-m2-cA Crystal Structure of FlgD from Xanthomonas campestris: Insights into the Hook Capping Essential for Flagellar Assembly Q8P9B5 Q8P9B5 2.51 X-RAY DIFFRACTION 50 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 138 138 DQVLKGAALVGHNVLVPSAQVAIDATGSAKGVVAATSAGFVNFEITDANGTFVKQLSVPASAAGEVSFAWDGTDANGNRMAAGKYGITATQTDTAGAKSKLATYVDAPVDSVTIGSDGLYLNLTGLGTSPLANVLRVS DQVLKGAALVGHNVLVPSAQVAIDATGSAKGVVAATSAGFVNFEITDANGTFVKQLSVPASAAGEVSFAWDGTDANGNRMAAGKYGITATQTDTAGAKSKLATYVDAPVDSVTIGSDGLYLNLTGLGTSPLANVLRVS 3c17-a1-m1-cA_3c17-a1-m1-cB Hexagonal Crystal Structure of Precursor E. coli Isoaspartyl Peptidase/l-Asparaginase (ECAIII) with Active-site T179A mutation P37595 P37595 1.95 X-RAY DIFFRACTION 118 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 305 306 1jn9-a1-m1-cB_1jn9-a1-m1-cD 1k2x-a1-m1-cB_1k2x-a1-m1-cD 1t3m-a1-m1-cB_1t3m-a1-m1-cD 2zak-a1-m1-cB_2zak-a1-m1-cA 2zal-a1-m1-cB_2zal-a1-m1-cD 7qq8-a1-m1-cBBB_7qq8-a1-m1-cDDD 7qsf-a1-m1-cBBB_7qsf-a1-m1-cDDD 7qtc-a1-m1-cDDD_7qtc-a1-m1-cBBB 7qvr-a1-m1-cBBB_7qvr-a1-m1-cDDD 7qy6-a1-m1-cBBB_7qy6-a1-m1-cDDD 7qym-a1-m1-cBBB_7qym-a1-m1-cDDD 7qyx-a1-m1-cBBB_7qyx-a1-m1-cDDD 7r1g-a1-m1-cBBB_7r1g-a1-m1-cDDD 7r5c-a1-m1-cBBB_7r5c-a1-m1-cDDD 8bi3-a1-m1-cDDD_8bi3-a1-m1-cBBB 8bkf-a1-m1-cBBB_8bkf-a1-m1-cDDD 8bp9-a1-m1-cDDD_8bp9-a1-m1-cBBB 8bqo-a1-m1-cBBB_8bqo-a1-m1-cDDD 8c0i-a1-m1-cDDD_8c0i-a1-m1-cBBB 8c23-a1-m1-cBBB_8c23-a1-m1-cDDD 8c23-a2-m1-cHHH_8c23-a2-m1-cFFF GKAVIAIHGGAGAISRAQMSLQQELRYIEALSAIVETGQKMLEAGESALDVVTEAVRLLEECPLFNAGIGAVFTRDETHELDACVMDGNTLKAGAVAGVSHLRNPVLAARLVMEQSPHVMMIGEGAENFAFARGMERVSPEIFSTSLRYEQLLAARKEGAPLDEKQKMGAVGAVALDLDGNLAAATSTGGMTNKLPGRVGDSPLVGAGCYANNASVAVSCTGTGEVFIRALAAYDIAALMDYGGLSLAEACERVVMEKLPALGGSGGLIAIDHEGNVALPFNTEGMYRAWGYAGDTPTTGIYREK GKAVIAIHGGAGAISRAQMSLQQELRYIEALSAIVETGQKMLEAGESALDVVTEAVRLLEECPLFNAGIGAVFTRDETHELDACVMDGNTLKAGAVAGVSHLRNPVLAARLVMEQSPHVMMIGEGAENFAFARGMERVSPEIFSTSLRYEQLLAARKEGAGAPLDEKQKMGAVGAVALDLDGNLAAATSTGGMTNKLPGRVGDSPLVGAGCYANNASVAVSCTGTGEVFIRALAAYDIAALMDYGGLSLAEACERVVMEKLPALGGSGGLIAIDHEGNVALPFNTEGMYRAWGYAGDTPTTGIYRE 3c18-a2-m1-cC_3c18-a2-m2-cC Crystal structure of nucleotidyltransferase-like protein (ZP_00538802.1) from Exiguobacterium sibiricum 255-15 at 1.90 A resolution B1YK61 B1YK61 1.9 X-RAY DIFFRACTION 111 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 285 285 3c18-a1-m1-cB_3c18-a1-m1-cA GEQATRTIYSEYAAYPETQGIIAVEKRQPRDSLTDQFDVLLLVITRDPSVEWTVKHYRLNTLRVSLHLVHEQVLSRWLILNANRRAVHWVSEGTIIFERNDYLTDLKKQLRNFPETERCLQSLSFAKLLRRFQDGRNLFSRGNYYDAYTHVHHALHHLARLSVLEKGAHPEVVVWEQARLDDPDVYKLYEQLLLSEETLEQRIHLALIGLEHLLQSKVLSGGKYLFEVRERDRPWTHELEESRLTELKVDLGSLVDFFIRKGLIRISYQRTKGLGVELVTYEPVV GEQATRTIYSEYAAYPETQGIIAVEKRQPRDSLTDQFDVLLLVITRDPSVEWTVKHYRLNTLRVSLHLVHEQVLSRWLILNANRRAVHWVSEGTIIFERNDYLTDLKKQLRNFPETERCLQSLSFAKLLRRFQDGRNLFSRGNYYDAYTHVHHALHHLARLSVLEKGAHPEVVVWEQARLDDPDVYKLYEQLLLSEETLEQRIHLALIGLEHLLQSKVLSGGKYLFEVRERDRPWTHELEESRLTELKVDLGSLVDFFIRKGLIRISYQRTKGLGVELVTYEPVV 3c19-a1-m2-cA_3c19-a1-m3-cA Crystal structure of protein MK0293 from Methanopyrus kandleri AV19 Q8TYK3 Q8TYK3 2.5 X-RAY DIFFRACTION 94 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 177 177 3c19-a1-m1-cA_3c19-a1-m2-cA 3c19-a1-m1-cA_3c19-a1-m3-cA SLGLDYEPSHLMFLVTVLDDRDGEVLGDAIQKLIEREEVLACHAVPCVTKKNRPGHVLVVLVDGGEDPDRVAEDVARDIMVLTGSTGVDRFDADGVYSVPSRFEDVRVVYGEREWRVSVKIAETEEGEVVTVKAEFDECREIGEETGIPPREVKAMVEAAARVGGWVDLKEREIKVQ SLGLDYEPSHLMFLVTVLDDRDGEVLGDAIQKLIEREEVLACHAVPCVTKKNRPGHVLVVLVDGGEDPDRVAEDVARDIMVLTGSTGVDRFDADGVYSVPSRFEDVRVVYGEREWRVSVKIAETEEGEVVTVKAEFDECREIGEETGIPPREVKAMVEAAARVGGWVDLKEREIKVQ 3c1d-a3-m1-cA_3c1d-a3-m1-cB X-ray crystal structure of RecX P66000 P66000 1.8 X-RAY DIFFRACTION 95 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 143 154 GPAYARLLDRAVRILAVRDHSEQELRRKLAAPATAEDYERVIAWCHEHGYLDDSRFVARFIASRSRKGYGPARIRQELNQKGISREATEKAMREADIDWAALARDQATRKYGEPLPTVFSEKVKIQRFLLYRGYLMEDIQDIW GPAYARLLDRAVRILAVRDHSEQELRRKLAAPIMGKNGPEEIDATAEDYERVIAWCHEHGYLDDSRFVARFIASRSRKGYGPARIRQELNQKGISREATEKAMREADIDWAALARDQATRKYGEPLPTVFSEKVKIQRFLLYRGYLMEDIQDIW 3c1l-a1-m1-cE_3c1l-a1-m1-cF Crystal structure of an antioxidant defense protein (mlr4105) from mesorhizobium loti maff303099 at 2.00 A resolution Q98ES4 Q98ES4 2 X-RAY DIFFRACTION 114 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 173 173 3c1l-a1-m1-cA_3c1l-a1-m1-cB 3c1l-a1-m1-cD_3c1l-a1-m1-cC 3c1l-a2-m1-cH_3c1l-a2-m1-cG 3c1l-a2-m1-cI_3c1l-a2-m1-cJ 3c1l-a2-m1-cK_3c1l-a2-m1-cL KISALDGELSEPTKAYFAKCEEKLGLVPNVLKAYAFDDKKLRAFTDIYNDLLGESGLSKLDREIAVAVSSINHCYYCLTAHGAAVRQLSGDPALGELVNFRAADLSPRQTALEFAVKLTEEPAKIVEADRAALRKAGFSDRDIWDIASTAAFFNSNRVAAAIDRPNDEYHAAR KISALDGELSEPTKAYFAKCEEKLGLVPNVLKAYAFDDKKLRAFTDIYNDLLGESGLSKLDREIAVAVSSINHCYYCLTAHGAAVRQLSGDPALGELVNFRAADLSPRQTALEFAVKLTEEPAKIVEADRAALRKAGFSDRDIWDIASTAAFFNSNRVAAAIDRPNDEYHAAR 3c1l-a2-m1-cH_3c1l-a2-m1-cL Crystal structure of an antioxidant defense protein (mlr4105) from mesorhizobium loti maff303099 at 2.00 A resolution Q98ES4 Q98ES4 2 X-RAY DIFFRACTION 36 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 172 173 3c1l-a1-m1-cA_3c1l-a1-m1-cC 3c1l-a1-m1-cD_3c1l-a1-m1-cE 3c1l-a1-m1-cF_3c1l-a1-m1-cB 3c1l-a2-m1-cI_3c1l-a2-m1-cG 3c1l-a2-m1-cK_3c1l-a2-m1-cJ KISALDELSEPTKAYFAKCEEKLGLVPNVLKAYAFDDKKLRAFTDIYNDLLGESGLSKLDREIAVAVSSINHCYYCLTAHGAAVRQLSGDPALGELVNFRAADLSPRQTALEFAVKLTEEPAKIVEADRAALRKAGFSDRDIWDIASTAAFFNSNRVAAAIDRPNDEYHAAR GKISALDELSEPTKAYFAKCEEKLGLVPNVLKAYAFDDKKLRAFTDIYNDLLGESGLSKLDREIAVAVSSINHCYYCLTAHGAAVRQLSGDPALGELVNFRAADLSPRQTALEFAVKLTEEPAKIVEADRAALRKAGFSDRDIWDIASTAAFFNSNRVAAAIDRPNDEYHAAR 3c1m-a1-m1-cB_3c1m-a1-m1-cD Cyrstal Structure of threonine-sensitive aspartokinase from Methanococcus jannaschii with MgAMP-PNP and L-aspartate Q57991 Q57991 2.3 X-RAY DIFFRACTION 33 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 465 466 2hmf-a1-m1-cA_2hmf-a1-m1-cC 2hmf-a1-m1-cB_2hmf-a1-m1-cD 3c1m-a1-m1-cA_3c1m-a1-m1-cC TTVMKFGGTSVGSGERIRHVAKIVTKRKKEDDDVVVVVSAMSEVTNALVEISQQALDVRDIAKVGDFIKFIREKHYKAIEEAIKSEEIKEEVKKIIDSRIEELEKVLIGVAYLGELTPKSRDYILSFGERLSSPILSGAIRDLGEKSIALEGGEAGIITDNNFGSARVKRLEVKERLLPLLKEGIIPVVTGFIGTTEEGYITTLGRGGSDYSAALIGYGLDADIIEIWTDVSGVYTTDPRLVPTARRIPKLSYIEAMELAYFGAKVLHPRTIEPAMEKGIPILVKNTFEPESEGTLITNDMEMSDSIVKAISTIKNVALINIFGAGMVGVSGTAARIFKALGEEEVNVILISQGSSETNISLVVSEEDVDKALKALKREFGDSFLNNNLIRDVSVDKDVCVISVVGAGMRGAKGIAGKIFTAVSESGANIKMIAQGSSEVNISFVIDEKDLLNCVRKLHEKFIEK TTVMKFGGTSVGSGERIRHVAKIVTKRKKEDDDVVVVVSAMSEVTNALVEISQQALDVRDIAKVGDFIKFIREKHYKAIEEAIKSEEIKEEVKKIIDSRIEELEKVLIGVAYLGELTPKSRDYILSFGERLSSPILSGAIRDLGEKSIALEGGEAGIITDNNFGSARVKRLEVKERLLPLLKEGIIPVVTGFIGTTEEGYITTLGRGGSDYSAALIGYGLDADIIEIWTDVSGVYTTDPRLVPTARRIPKLSYIEAMELAYFGAKVLHPRTIEPAMEKGIPILVKNTFEPESEGTLITNDMEMSDSIVKAISTIKNVALINIFGAGMVGVSGTAARIFKALGEEEVNVILISQGSSETNISLVVSEEDVDKALKALKREFGDKSFLNNNLIRDVSVDKDVCVISVVGAGMRGAKGIAGKIFTAVSESGANIKMIAQGSSEVNISFVIDEKDLLNCVRKLHEKFIEK 3c1n-a1-m1-cD_3c1n-a1-m1-cA Crystal Structure of Allosteric Inhibition Threonine-sensitive Aspartokinase from Methanococcus jannaschii with L-threonine Q57991 Q57991 2.72 X-RAY DIFFRACTION 30 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 452 458 3c1n-a1-m1-cC_3c1n-a1-m1-cB TVMKFGGTSVGSGERIRHVAKIVTKRKKEDVVVVSAMSEVTNALVEISQQALDVRDIAKVGDFIKFIREKHYKAIEEAISEEIKEEVKKIIDSRIEELEKVLIGVAYLGELTPKSRDYILSFGERLSSPILSGAIRDLGEKSIALEGGEAGIITDNNFGSARVKRLEVKERLLPLLKEGIIPVVTGFIGTTEEGYITTLGRGGSDYSAALIGYGLDADIIEIWTDVSGVYTTDPRLVPTARRIPKLSYIEAMELAYFGAKVLHPRTIEPAMEKGIPILVKNTFEPESEGTLITNDSIVKAISTIKNVALINIFGAGMVGVSGTAARIFKALGEEEVNVILISQGSSETNISLVVSEEDVDKALKALKREFGDLNNNLIRDVSVDKDVCVISVVGAGMRGAKGIAGKIFTAVSESGANIKMIAQGSSEVNISFVIDEKDLLNCVRKLHEKFIE TTVMKFGGTSVGSGERIRHVAKIVTKRKKEDDDVVVVVSAMSEVTNALVEISQQALDVRDIAKVGDFIKFIREKHYKAIEEAISEEIKEEVKKIIDSRIEELEKVLIGVAYLGELTPKSRDYILSFGERLSSPILSGAIRDLGEKSIALEGGEAGIITDNNFGSARVKRLEVKERLLPLLKEGIIPVVTGFIGTTEEGYITTLGRGGSDYSAALIGYGLDADIIEIWTDVSGVYTTDPRLVPTARRIPKLSYIEAMELAYFGAKVLHPRTIEPAMEKGIPILVKNTFEPESEGTLITNDMDSIVKAISTIKNVALINIFGAGMVGVSGTAARIFKALGEEEVNVILISQGSSETNISLVVSEEDVDKALKALKREFGDLNNNLIRDVSVDKDVCVISVVGAGMRGAKGIAGKIFTAVSESGANIKMIAQGSSEVNISFVIDEKDLLNCVRKLHEKFIE 3c1o-a2-m1-cA_3c1o-a2-m2-cA The multiple phenylpropene synthases in both Clarkia breweri and Petunia hybrida represent two distinct lineages D0VWT0 D0VWT0 1.8 X-RAY DIFFRACTION 47 1.0 36903 (Clarkia breweri) 36903 (Clarkia breweri) 314 314 MEKIIIYGGTGYIGKFMVRASLSFSHPTFIYARPLTPDSTPSSVQLREEFRSMGVTIIEGEMEEHEKMVSVLKQVDIVISALPFPMISSQIHIINAIKAAGNIKRFLPSDFGCEEDRIKPLPPFESVLEKKRIIRRAIEAAALPYTYVSANCFGAYFVNYLLHPSPHPNRNDDIVIYGTGETKFVLNYEEDIAKYTIKVACDPRCCNRIVIYRPPKNIISQNELISLWEAKSGLSFKKVHMPDEQLVRLSQELPQPQNIPVSILHSIFVKGDLMSYEMRKDDIEASNLYPELEFTSIDGLLDLFISGRAPPPTL MEKIIIYGGTGYIGKFMVRASLSFSHPTFIYARPLTPDSTPSSVQLREEFRSMGVTIIEGEMEEHEKMVSVLKQVDIVISALPFPMISSQIHIINAIKAAGNIKRFLPSDFGCEEDRIKPLPPFESVLEKKRIIRRAIEAAALPYTYVSANCFGAYFVNYLLHPSPHPNRNDDIVIYGTGETKFVLNYEEDIAKYTIKVACDPRCCNRIVIYRPPKNIISQNELISLWEAKSGLSFKKVHMPDEQLVRLSQELPQPQNIPVSILHSIFVKGDLMSYEMRKDDIEASNLYPELEFTSIDGLLDLFISGRAPPPTL 3c1t-a2-m3-cD_3c1t-a2-m1-cB Binding of two substrate analogue molecules to dihydroflavonol 4-reductase alters the functional geometry of the catalytic site P51110 P51110 2.252 X-RAY DIFFRACTION 44 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 321 326 3c1t-a1-m1-cA_3c1t-a1-m2-cC ETVCVTGASGFIGSWLVMRLLERGYTVRATVRDPTNVKKVKHLLDLPKAETHLTLWKADLADEGSFDEAIKGCTGVFHVATPMSKDPENEVIKPTIEGMLGIMKSCAAAKTVRRLVFTSSAGTVNIQEHQLPVYDESCWSDMEFCRAKKMTAWMYFVSKTLAEQAAWKYAKENNIDFITIIPTLVVGPFIMSSMPPSLITALSPITGNEAHYSIIRQGQFVHLDDLCNAHIYLFENPKAEGRYICSSHDCIILDLAKMLREKYPEYNIPTEFKGVDENLKSVCFSSKKLTDLGFEFKYSLEDMFTGAVDTCRAKGLLPPSH MGSQSETVCVTGASGFIGSWLVMRLLERGYTVRATVRDPTNVKKVKHLLDLPKAETHLTLWKADLADEGSFDEAIKGCTGVFHVATPMSKDPENEVIKPTIEGMLGIMKSCAAAKTVRRLVFTSSAGTVNIQEHQLPVYDESCWSDMEFCRAKKMTAWMYFVSKTLAEQAAWKYAKENNIDFITIIPTLVVGPFIMSSMPPSLITALSPITGNEAHYSIIRQGQFVHLDDLCNAHIYLFENPKAEGRYICSSHDCIILDLAKMLREKYPEYNIPTEFKGVDENLKSVCFSSKKLTDLGFEFKYSLEDMFTGAVDTCRAKGLLPPSH 3c24-a1-m1-cB_3c24-a1-m1-cA Crystal structure of a putative oxidoreductase (YP_511008.1) from Jannaschia sp. CCS1 at 1.62 A resolution Q28MS9 Q28MS9 1.62 X-RAY DIFFRACTION 289 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 263 266 VGPKTVAILGAGGKGARITRKIHDSAHHLAAIEIAPEGRDRLQGGIPLTDGDGWIDEADVVVLALPDNIIEKVAEDIVPRVRPGTIVLILDAAAPYAGVPERADITYFIGHPCHPPLFNDETDPAARTDYHGGIAKQAIVCALQGPEEHYAIGADICETWSPVTRTHRVTTEQLAILEPGLSEVAPFVETVHAVDECADRYGIDRQAALDFIGHLNVEIAWFGYSPKVAALRLEFAKDIVVKEDWREALNPAKVKQAAELIAG KNDVGPKTVAILGAGGKGARITRKIHDSAHHLAAIEIAPEGRDRLQGGIPLTDGDGWIDEADVVVLALPDNIIEKVAEDIVPRVRPGTIVLILDAAAPYAGVPERADITYFIGHPCHPPLFNDETDPAARTDYHGGIAKQAIVCALQGPEEHYAIGADICETWSPVTRTHRVTTEQLAILEPGLSEVAPFVETVHAVDECADRYGIDRQAALDFIGHLNVEIAWFGYSPKVAALRLEFAKDIVVKEDWREALNPAKVKQAAELIAG 3c25-a1-m1-cB_3c25-a1-m1-cA Crystal Structure of NotI Restriction Endonuclease Bound to Cognate DNA Q2I6W2 Q2I6W2 2.5 X-RAY DIFFRACTION 206 1.0 1823 (Nocardia otitidiscaviarum) 1823 (Nocardia otitidiscaviarum) 353 354 3bvq-a1-m1-cA_3bvq-a1-m1-cB ANFIAEFFGHRVYPEVVSTEAARNDQATGTCPFLTAAKLVETSCVKAETSRGVCVVNTAVDNERYDWLVCPNRALDPLFMSAASRKLFGYGPTEPLQFIAAPTLADQAVRDGIREWLDRGVHVVAYFQEKLGGELSISKTDSSPEFSFDWTLAEVESIYPVPKIKRYGVLEIQTMDFHGSYKHAVGAIDIALVEGIDFHGWLPTPAGRAALSKKMEGPNLSNVFKRTFYQMAYKFALSGHQRCAGTGFAIPQSVWKSWLRHLANPTLIDNGDGTFSLGDTRNDSENAWIFVFELDPDTDASPRPLAPHLEIRVNVDTLIDLALRESPRAALGPSGPVATFTDKVEARMLRFWP ANFIAEFFGHRVYPEVVSTEAARNDQATGTCPFLTAAKLVETSCVKAETSRGVCVVNTAVDNERYDWLVCPNRALDPLFMSAASRKLFGYGPTEPLQFIAAPTLADQAVRDGIREWLDRGVHVVAYFQEKLGGELSISKTDSSPEFSFDWTLAEVESIYPVPKIKRYGVLEIQTMDFHGSYKHAVGAIDIALVEGIDFHGWLPTPAGRAALSKKMEGPNLSNVFKRTFYQMAYKFALSGHQRCAGTGFAIPQSVWKSWLRHLANPTLIDNGDGTFSLGDTRNDSENAWIFVFELDPDTDASPRPLAPHLEIRVNVDTLIDLALRESPRAALGPSGPVATFTDKVEARMLRFWPK 3c26-a1-m1-cA_3c26-a1-m2-cA Crystal structure of a putative acetyltransferase (NP_394282.1) from Thermoplasma acidophilum at 2.00 A resolution Q9HJZ0 Q9HJZ0 2 X-RAY DIFFRACTION 65 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 250 250 IVFDRGSPSDIDEIKTFTSNTWKVGYYTDLYSKLADTGTDDYVDKVIERWVNDGSVYVLRVSGRPVATIHEKLPDGSVLGGLRVHPEYRGSRLGSIQETIQFLRGKTERLRSAVYSWNEPSLRLVHRLGFHQVEEYPIYTFQGGSALKPVNERYAGRWRCFFIDWKYCSDDPDIIHEEYSNNLIVDGSTFVYFDIYEGGIDLFVNDSDDASSFIEKYRSNGRITFYVRKALANGLPYVPASSLTVWEYRY IVFDRGSPSDIDEIKTFTSNTWKVGYYTDLYSKLADTGTDDYVDKVIERWVNDGSVYVLRVSGRPVATIHEKLPDGSVLGGLRVHPEYRGSRLGSIQETIQFLRGKTERLRSAVYSWNEPSLRLVHRLGFHQVEEYPIYTFQGGSALKPVNERYAGRWRCFFIDWKYCSDDPDIIHEEYSNNLIVDGSTFVYFDIYEGGIDLFVNDSDDASSFIEKYRSNGRITFYVRKALANGLPYVPASSLTVWEYRY 3c2o-a1-m3-cA_3c2o-a1-m6-cA Crystal structure of the quinolinate phosphoribosyl transferase (BNA6) from Sachharomyces cerevisiae complexed with quinolinate P43619 P43619 2.3 X-RAY DIFFRACTION 68 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 265 265 3c2e-a1-m1-cA_3c2e-a1-m4-cA 3c2e-a1-m2-cA_3c2e-a1-m5-cA 3c2e-a1-m3-cA_3c2e-a1-m6-cA 3c2f-a1-m1-cA_3c2f-a1-m4-cA 3c2f-a1-m2-cA_3c2f-a1-m5-cA 3c2f-a1-m3-cA_3c2f-a1-m6-cA 3c2o-a1-m1-cA_3c2o-a1-m4-cA 3c2o-a1-m2-cA_3c2o-a1-m5-cA 3c2r-a1-m1-cA_3c2r-a1-m2-cB 3c2r-a1-m1-cB_3c2r-a1-m3-cA 3c2r-a1-m2-cA_3c2r-a1-m3-cB 3c2v-a1-m1-cA_3c2v-a1-m4-cA 3c2v-a1-m2-cA_3c2v-a1-m5-cA 3c2v-a1-m3-cA_3c2v-a1-m6-cA PVYEHLLPVNGAWRQDVTNWLSEDVPSFDFGGYVVGSDLKEANLYCKQDGMLCGVPFAQEVFNQCELQVEWLFKEGSFLEPSKNDSGKIVVAKITGPAKNILLAERTALNILSRSSGIATASHKIISLARSTGYKGTIAGTRKTTPGLRRLEKYSMLVGGCDTHRYDLSSMVMLKDNHIWATGSITNAVKNARAVCGFAVKIEVECLSEDEATEAIEAGADVIMLDNHFLLECSGGLNLCDDIDIYSTSSIHQGTPVIDFSLKLA PVYEHLLPVNGAWRQDVTNWLSEDVPSFDFGGYVVGSDLKEANLYCKQDGMLCGVPFAQEVFNQCELQVEWLFKEGSFLEPSKNDSGKIVVAKITGPAKNILLAERTALNILSRSSGIATASHKIISLARSTGYKGTIAGTRKTTPGLRRLEKYSMLVGGCDTHRYDLSSMVMLKDNHIWATGSITNAVKNARAVCGFAVKIEVECLSEDEATEAIEAGADVIMLDNHFLLECSGGLNLCDDIDIYSTSSIHQGTPVIDFSLKLA 3c2o-a1-m4-cA_3c2o-a1-m6-cA Crystal structure of the quinolinate phosphoribosyl transferase (BNA6) from Sachharomyces cerevisiae complexed with quinolinate P43619 P43619 2.3 X-RAY DIFFRACTION 55 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 265 265 3c2e-a1-m1-cA_3c2e-a1-m3-cA 3c2e-a1-m1-cA_3c2e-a1-m5-cA 3c2e-a1-m2-cA_3c2e-a1-m4-cA 3c2e-a1-m2-cA_3c2e-a1-m6-cA 3c2e-a1-m3-cA_3c2e-a1-m5-cA 3c2e-a1-m4-cA_3c2e-a1-m6-cA 3c2f-a1-m1-cA_3c2f-a1-m3-cA 3c2f-a1-m1-cA_3c2f-a1-m5-cA 3c2f-a1-m2-cA_3c2f-a1-m4-cA 3c2f-a1-m2-cA_3c2f-a1-m6-cA 3c2f-a1-m3-cA_3c2f-a1-m5-cA 3c2f-a1-m4-cA_3c2f-a1-m6-cA 3c2o-a1-m1-cA_3c2o-a1-m3-cA 3c2o-a1-m1-cA_3c2o-a1-m5-cA 3c2o-a1-m2-cA_3c2o-a1-m4-cA 3c2o-a1-m2-cA_3c2o-a1-m6-cA 3c2o-a1-m3-cA_3c2o-a1-m5-cA 3c2r-a1-m1-cA_3c2r-a1-m2-cA 3c2r-a1-m1-cA_3c2r-a1-m3-cA 3c2r-a1-m1-cB_3c2r-a1-m2-cB 3c2r-a1-m1-cB_3c2r-a1-m3-cB 3c2r-a1-m2-cA_3c2r-a1-m3-cA 3c2r-a1-m2-cB_3c2r-a1-m3-cB 3c2v-a1-m1-cA_3c2v-a1-m3-cA 3c2v-a1-m1-cA_3c2v-a1-m5-cA 3c2v-a1-m2-cA_3c2v-a1-m4-cA 3c2v-a1-m2-cA_3c2v-a1-m6-cA 3c2v-a1-m3-cA_3c2v-a1-m5-cA 3c2v-a1-m4-cA_3c2v-a1-m6-cA PVYEHLLPVNGAWRQDVTNWLSEDVPSFDFGGYVVGSDLKEANLYCKQDGMLCGVPFAQEVFNQCELQVEWLFKEGSFLEPSKNDSGKIVVAKITGPAKNILLAERTALNILSRSSGIATASHKIISLARSTGYKGTIAGTRKTTPGLRRLEKYSMLVGGCDTHRYDLSSMVMLKDNHIWATGSITNAVKNARAVCGFAVKIEVECLSEDEATEAIEAGADVIMLDNHFLLECSGGLNLCDDIDIYSTSSIHQGTPVIDFSLKLA PVYEHLLPVNGAWRQDVTNWLSEDVPSFDFGGYVVGSDLKEANLYCKQDGMLCGVPFAQEVFNQCELQVEWLFKEGSFLEPSKNDSGKIVVAKITGPAKNILLAERTALNILSRSSGIATASHKIISLARSTGYKGTIAGTRKTTPGLRRLEKYSMLVGGCDTHRYDLSSMVMLKDNHIWATGSITNAVKNARAVCGFAVKIEVECLSEDEATEAIEAGADVIMLDNHFLLECSGGLNLCDDIDIYSTSSIHQGTPVIDFSLKLA 3c2o-a1-m5-cA_3c2o-a1-m6-cA Crystal structure of the quinolinate phosphoribosyl transferase (BNA6) from Sachharomyces cerevisiae complexed with quinolinate P43619 P43619 2.3 X-RAY DIFFRACTION 168 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 265 265 3c2e-a1-m1-cA_3c2e-a1-m2-cA 3c2e-a1-m3-cA_3c2e-a1-m4-cA 3c2e-a1-m5-cA_3c2e-a1-m6-cA 3c2f-a1-m1-cA_3c2f-a1-m2-cA 3c2f-a1-m3-cA_3c2f-a1-m4-cA 3c2f-a1-m5-cA_3c2f-a1-m6-cA 3c2o-a1-m1-cA_3c2o-a1-m2-cA 3c2o-a1-m3-cA_3c2o-a1-m4-cA 3c2r-a1-m1-cA_3c2r-a1-m1-cB 3c2r-a1-m2-cA_3c2r-a1-m2-cB 3c2r-a1-m3-cA_3c2r-a1-m3-cB 3c2v-a1-m1-cA_3c2v-a1-m2-cA 3c2v-a1-m3-cA_3c2v-a1-m4-cA 3c2v-a1-m5-cA_3c2v-a1-m6-cA PVYEHLLPVNGAWRQDVTNWLSEDVPSFDFGGYVVGSDLKEANLYCKQDGMLCGVPFAQEVFNQCELQVEWLFKEGSFLEPSKNDSGKIVVAKITGPAKNILLAERTALNILSRSSGIATASHKIISLARSTGYKGTIAGTRKTTPGLRRLEKYSMLVGGCDTHRYDLSSMVMLKDNHIWATGSITNAVKNARAVCGFAVKIEVECLSEDEATEAIEAGADVIMLDNHFLLECSGGLNLCDDIDIYSTSSIHQGTPVIDFSLKLA PVYEHLLPVNGAWRQDVTNWLSEDVPSFDFGGYVVGSDLKEANLYCKQDGMLCGVPFAQEVFNQCELQVEWLFKEGSFLEPSKNDSGKIVVAKITGPAKNILLAERTALNILSRSSGIATASHKIISLARSTGYKGTIAGTRKTTPGLRRLEKYSMLVGGCDTHRYDLSSMVMLKDNHIWATGSITNAVKNARAVCGFAVKIEVECLSEDEATEAIEAGADVIMLDNHFLLECSGGLNLCDDIDIYSTSSIHQGTPVIDFSLKLA 3c2q-a1-m1-cA_3c2q-a1-m2-cB Crystal structure of conserved putative LOR/SDH protein from Methanococcus maripaludis S2 Q6LXX7 Q6LXX7 2 X-RAY DIFFRACTION 132 0.984 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 316 323 3c2q-a1-m2-cA_3c2q-a1-m1-cB ANIPEIENANLKPALKDSVLPDGFYSTTNHPTHVKVNDEWIEVANPKDAVIVVYPEEKRAETKVIRKVKKGDFVLIGHNGIRVPPESEVSSEKPKEAIIKRIAKEHEIREEYKKTGTGGIAIVGGPAIIHTGGGPALAKVELGYIQAILAGNALATHDIESALYGTSLGVNIKTAKPVTGGHKHHIYAINAINDAGNIKNAVESGVLKEGIYQCIKNNIPYVLAGSIRDDGPIPDVITDSVAQDKRTTVDKKVILSTLLHSVATGNLPSYIKTVCVDIQPSTVTKLDRGTSQAIGVVTDVGVFLVLLLKELERLEL IENANLKPALKDSVLPDGFYSTTNHPTHVKVNDEWIEVANPKDAVIVVYPEEKRAETKVIRKVKKGDFVLIGHNGIRVPPEKSREAGQLFEFNSEVSSEKPKEAIIKRIAKEHEIREEYKKTGTGGIAIVGGPAIIHTGGGPALAKVELGYIQAILAGNALATHDIESALYGTSLGVNIKTAKPVTGGHKHHIYAINAINDAGNIKNAVESGVLKEGIYQCIKNNIPYVLAGSIRDDGPIPDVITDSVAQDKRTTVDKKVILSTLLHSVATGNLPSYIKTVCVDIQPSTVTKLDRGTSQAIGVVTDVGVFLVLLLKELERLEL 3c2q-a1-m1-cB_3c2q-a1-m2-cB Crystal structure of conserved putative LOR/SDH protein from Methanococcus maripaludis S2 Q6LXX7 Q6LXX7 2 X-RAY DIFFRACTION 51 1.0 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 323 323 3c2q-a1-m1-cA_3c2q-a1-m2-cA IENANLKPALKDSVLPDGFYSTTNHPTHVKVNDEWIEVANPKDAVIVVYPEEKRAETKVIRKVKKGDFVLIGHNGIRVPPEKSREAGQLFEFNSEVSSEKPKEAIIKRIAKEHEIREEYKKTGTGGIAIVGGPAIIHTGGGPALAKVELGYIQAILAGNALATHDIESALYGTSLGVNIKTAKPVTGGHKHHIYAINAINDAGNIKNAVESGVLKEGIYQCIKNNIPYVLAGSIRDDGPIPDVITDSVAQDKRTTVDKKVILSTLLHSVATGNLPSYIKTVCVDIQPSTVTKLDRGTSQAIGVVTDVGVFLVLLLKELERLEL IENANLKPALKDSVLPDGFYSTTNHPTHVKVNDEWIEVANPKDAVIVVYPEEKRAETKVIRKVKKGDFVLIGHNGIRVPPEKSREAGQLFEFNSEVSSEKPKEAIIKRIAKEHEIREEYKKTGTGGIAIVGGPAIIHTGGGPALAKVELGYIQAILAGNALATHDIESALYGTSLGVNIKTAKPVTGGHKHHIYAINAINDAGNIKNAVESGVLKEGIYQCIKNNIPYVLAGSIRDDGPIPDVITDSVAQDKRTTVDKKVILSTLLHSVATGNLPSYIKTVCVDIQPSTVTKLDRGTSQAIGVVTDVGVFLVLLLKELERLEL 3c2q-a1-m2-cA_3c2q-a1-m2-cB Crystal structure of conserved putative LOR/SDH protein from Methanococcus maripaludis S2 Q6LXX7 Q6LXX7 2 X-RAY DIFFRACTION 111 0.984 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 316 323 3c2q-a1-m1-cA_3c2q-a1-m1-cB ANIPEIENANLKPALKDSVLPDGFYSTTNHPTHVKVNDEWIEVANPKDAVIVVYPEEKRAETKVIRKVKKGDFVLIGHNGIRVPPESEVSSEKPKEAIIKRIAKEHEIREEYKKTGTGGIAIVGGPAIIHTGGGPALAKVELGYIQAILAGNALATHDIESALYGTSLGVNIKTAKPVTGGHKHHIYAINAINDAGNIKNAVESGVLKEGIYQCIKNNIPYVLAGSIRDDGPIPDVITDSVAQDKRTTVDKKVILSTLLHSVATGNLPSYIKTVCVDIQPSTVTKLDRGTSQAIGVVTDVGVFLVLLLKELERLEL IENANLKPALKDSVLPDGFYSTTNHPTHVKVNDEWIEVANPKDAVIVVYPEEKRAETKVIRKVKKGDFVLIGHNGIRVPPEKSREAGQLFEFNSEVSSEKPKEAIIKRIAKEHEIREEYKKTGTGGIAIVGGPAIIHTGGGPALAKVELGYIQAILAGNALATHDIESALYGTSLGVNIKTAKPVTGGHKHHIYAINAINDAGNIKNAVESGVLKEGIYQCIKNNIPYVLAGSIRDDGPIPDVITDSVAQDKRTTVDKKVILSTLLHSVATGNLPSYIKTVCVDIQPSTVTKLDRGTSQAIGVVTDVGVFLVLLLKELERLEL 3c2t-a2-m4-cB_3c2t-a2-m5-cB Evolution of chlorella virus dUTPase Q5I3E5 Q5I3E5 3 X-RAY DIFFRACTION 106 1.0 46019 (Paramecium bursaria Chlorella virus IL3A) 46019 (Paramecium bursaria Chlorella virus IL3A) 124 124 3c2t-a1-m1-cA_3c2t-a1-m2-cA 3c2t-a1-m1-cA_3c2t-a1-m3-cA 3c2t-a1-m2-cA_3c2t-a1-m3-cA 3c2t-a2-m1-cB_3c2t-a2-m4-cB 3c2t-a2-m1-cB_3c2t-a2-m5-cB 3c3i-a1-m1-cA_3c3i-a1-m2-cA 3c3i-a1-m1-cA_3c3i-a1-m3-cA 3c3i-a1-m2-cA_3c3i-a1-m3-cA 3c3i-a2-m1-cB_3c3i-a2-m1-cC 3c3i-a2-m1-cD_3c3i-a2-m1-cB 3c3i-a2-m1-cD_3c3i-a2-m1-cC 3ca9-a1-m1-cA_3ca9-a1-m2-cA 3ca9-a1-m1-cA_3ca9-a1-m3-cA 3ca9-a1-m2-cA_3ca9-a1-m3-cA 3ca9-a2-m1-cB_3ca9-a2-m4-cB 3ca9-a2-m1-cB_3ca9-a2-m5-cB 3ca9-a2-m4-cB_3ca9-a2-m5-cB MSSLLVKKLVESATTPMRGSEGAAGYDISSVEDVVVPAMGRIAVSTGISIRVPDGTYGRIAPRSGLAYKYGIDVLAGVIDEDYTGEVKVILYNTTERDYIIKKGDRIAQLILEQIVTPGVAVVL MSSLLVKKLVESATTPMRGSEGAAGYDISSVEDVVVPAMGRIAVSTGISIRVPDGTYGRIAPRSGLAYKYGIDVLAGVIDEDYTGEVKVILYNTTERDYIIKKGDRIAQLILEQIVTPGVAVVL 3c2u-a1-m1-cB_3c2u-a1-m1-cD Structure of the two subsite D-xylosidase from Selenomonas ruminantium in complex with 1,3-bis[tris(hydroxymethyl)methylamino]propane O52575 O52575 1.3 X-RAY DIFFRACTION 56 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 537 537 3c2u-a1-m1-cC_3c2u-a1-m1-cA MNIQNPVLKGFNPDPSIVRAGDDYYIATSTFEWFPGVQIHHSKDLVHWHLVAHPLSTTEFLDMKGNPDSGGIWAPDLSYADGKFWLIYTDVKVVDGMWKDCHNYLTTAEDIKGPWSKPILLNGAGFDASLFHDPSGKKYLVNMYWDQRVYHHNFYGIALQEYSVAEEKLIGKPEIIYKGTDIAYTEGPHLYYINDMYYLMTAEGGTTYQHSETIARSKTIHGPYEIQPDYPLLSAWKEVHNPLQKCGHASLVETQNGQWYLAHLTGRPLPAPAGFPSREREQHAFCPLGRETAIQKIEWQDGWPVVVGGQQGSLEVEAPDLPQQEWAPTYEERDDFDKDTLNINFQTLRIPFSEHLGSLTARPGFLRLYGRESLQSKFTQAHIARRWQSFNFDAGTSVEFSPNSFQQMAGLTCYYNTENWSSIHVTWNEEKGRIIDLVTADNGTFSMPLAGAEIPIPDEVKTVHFKVSVRGRIYQYAYSFDGETFHTLPIELPSWKLSDDYVRGGGFFTGAFVGINAIDITGTALPADFDYFTYKEL MNIQNPVLKGFNPDPSIVRAGDDYYIATSTFEWFPGVQIHHSKDLVHWHLVAHPLSTTEFLDMKGNPDSGGIWAPDLSYADGKFWLIYTDVKVVDGMWKDCHNYLTTAEDIKGPWSKPILLNGAGFDASLFHDPSGKKYLVNMYWDQRVYHHNFYGIALQEYSVAEEKLIGKPEIIYKGTDIAYTEGPHLYYINDMYYLMTAEGGTTYQHSETIARSKTIHGPYEIQPDYPLLSAWKEVHNPLQKCGHASLVETQNGQWYLAHLTGRPLPAPAGFPSREREQHAFCPLGRETAIQKIEWQDGWPVVVGGQQGSLEVEAPDLPQQEWAPTYEERDDFDKDTLNINFQTLRIPFSEHLGSLTARPGFLRLYGRESLQSKFTQAHIARRWQSFNFDAGTSVEFSPNSFQQMAGLTCYYNTENWSSIHVTWNEEKGRIIDLVTADNGTFSMPLAGAEIPIPDEVKTVHFKVSVRGRIYQYAYSFDGETFHTLPIELPSWKLSDDYVRGGGFFTGAFVGINAIDITGTALPADFDYFTYKEL 3c2u-a3-m1-cC_3c2u-a3-m1-cD Structure of the two subsite D-xylosidase from Selenomonas ruminantium in complex with 1,3-bis[tris(hydroxymethyl)methylamino]propane O52575 O52575 1.3 X-RAY DIFFRACTION 126 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 537 537 3c2u-a1-m1-cB_3c2u-a1-m1-cA 3c2u-a1-m1-cC_3c2u-a1-m1-cD 3c2u-a2-m1-cB_3c2u-a2-m1-cA MNIQNPVLKGFNPDPSIVRAGDDYYIATSTFEWFPGVQIHHSKDLVHWHLVAHPLSTTEFLDMKGNPDSGGIWAPDLSYADGKFWLIYTDVKVVDGMWKDCHNYLTTAEDIKGPWSKPILLNGAGFDASLFHDPSGKKYLVNMYWDQRVYHHNFYGIALQEYSVAEEKLIGKPEIIYKGTDIAYTEGPHLYYINDMYYLMTAEGGTTYQHSETIARSKTIHGPYEIQPDYPLLSAWKEVHNPLQKCGHASLVETQNGQWYLAHLTGRPLPAPAGFPSREREQHAFCPLGRETAIQKIEWQDGWPVVVGGQQGSLEVEAPDLPQQEWAPTYEERDDFDKDTLNINFQTLRIPFSEHLGSLTARPGFLRLYGRESLQSKFTQAHIARRWQSFNFDAGTSVEFSPNSFQQMAGLTCYYNTENWSSIHVTWNEEKGRIIDLVTADNGTFSMPLAGAEIPIPDEVKTVHFKVSVRGRIYQYAYSFDGETFHTLPIELPSWKLSDDYVRGGGFFTGAFVGINAIDITGTALPADFDYFTYKEL MNIQNPVLKGFNPDPSIVRAGDDYYIATSTFEWFPGVQIHHSKDLVHWHLVAHPLSTTEFLDMKGNPDSGGIWAPDLSYADGKFWLIYTDVKVVDGMWKDCHNYLTTAEDIKGPWSKPILLNGAGFDASLFHDPSGKKYLVNMYWDQRVYHHNFYGIALQEYSVAEEKLIGKPEIIYKGTDIAYTEGPHLYYINDMYYLMTAEGGTTYQHSETIARSKTIHGPYEIQPDYPLLSAWKEVHNPLQKCGHASLVETQNGQWYLAHLTGRPLPAPAGFPSREREQHAFCPLGRETAIQKIEWQDGWPVVVGGQQGSLEVEAPDLPQQEWAPTYEERDDFDKDTLNINFQTLRIPFSEHLGSLTARPGFLRLYGRESLQSKFTQAHIARRWQSFNFDAGTSVEFSPNSFQQMAGLTCYYNTENWSSIHVTWNEEKGRIIDLVTADNGTFSMPLAGAEIPIPDEVKTVHFKVSVRGRIYQYAYSFDGETFHTLPIELPSWKLSDDYVRGGGFFTGAFVGINAIDITGTALPADFDYFTYKEL 3c3d-a2-m1-cC_3c3d-a2-m1-cD Crystal structure of 2-phospho-(S)-lactate transferase from Methanosarcina mazei in complex with Fo and phosphate. Northeast Structural Genomics Consortium target MaR46 Q8PVT6 Q8PVT6 2.5 X-RAY DIFFRACTION 61 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 298 298 3c3d-a1-m1-cA_3c3d-a1-m1-cB 3c3e-a1-m1-cA_3c3e-a1-m1-cB 3c3e-a2-m1-cC_3c3e-a2-m1-cD 3cgw-a1-m1-cA_3cgw-a1-m2-cA IIFSGGTGTPKLLDGLKEILPEEELTVVVNTAEDLWVSGNLISPDLDTVLYLFSDQIDRKRWWGIENDTFGTYERKELGIEEGLKLGDRDRATHIIRSNIIRDGASLTDSTVKLSSLFGIKANILPSDDPVSTYIETAEGIHFQDFWIGKRGEPDVRGVDIRGVSEASISPKVLEAFEKEENILIGPSNPITSIGPIISLPGRELLKKKKVVAVSPIIGNAPVSGPAGKLPACGIEVSSGVAEYYQDFLDVFVFDERDRADEFAFERLGCHASRADTLTSTEKSKELAEIVVQAFLEH IIFSGGTGTPKLLDGLKEILPEEELTVVVNTAEDLWVSGNLISPDLDTVLYLFSDQIDRKRWWGIENDTFGTYERKELGIEEGLKLGDRDRATHIIRSNIIRDGASLTDSTVKLSSLFGIKANILPSDDPVSTYIETAEGIHFQDFWIGKRGEPDVRGVDIRGVSEASISPKVLEAFEKEENILIGPSNPITSIGPIISLPGRELLKKKKVVAVSPIIGNAPVSGPAGKLPACGIEVSSGVAEYYQDFLDVFVFDERDRADEFAFERLGCHASRADTLTSTEKSKELAEIVVQAFLEH 3c3f-a1-m1-cC_3c3f-a1-m1-cD alpha/beta-Peptide helix bundles: The GCN4-pLI side chain sequence on an (alpha-alpha-alpha-beta) backbone 2 X-RAY DIFFRACTION 24 1.0 23 23 3c3f-a1-m1-cA_3c3f-a1-m1-cB 3c3f-a1-m1-cA_3c3f-a1-m1-cD 3c3f-a1-m1-cB_3c3f-a1-m1-cC RMQIEKLEILSLYHENEARIKLL RMQIEKLEILSLYHENEARIKLL 3c3h-a1-m2-cA_3c3h-a1-m4-cA alpha/beta-Peptide helix bundles: A GCN4-pLI analogue with an (alpha-alpha-beta) backbone and cyclic beta residues 2.2 X-RAY DIFFRACTION 16 1.0 22 22 3c3h-a1-m1-cA_3c3h-a1-m3-cA 3c3h-a1-m1-cA_3c3h-a1-m4-cA 3c3h-a1-m2-cA_3c3h-a1-m3-cA MKIEKLEISKYHENLAIKLLER MKIEKLEISKYHENLAIKLLER 3c3j-a3-m1-cE_3c3j-a3-m1-cF Crystal structure of tagatose-6-phosphate ketose/aldose isomerase from Escherichia coli P42907 P42907 1.8 X-RAY DIFFRACTION 161 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 360 360 3c3j-a1-m1-cB_3c3j-a1-m1-cA 3c3j-a2-m1-cC_3c3j-a2-m1-cD NYTPAAAATGTWTEEEIRHQPRAWIRSLTNIDALRSALNNFLEPLLRKENLRIILTGAGTSAFIGDIIAPWLASHTGKNFSAVPTTDLVTNPDYLNPAHPLLLISFGRSGNSPESVAAVELANQFVPECYHLPITCNEAGALYQNAINSDNAFALLPAETHDRGFATSSITTASCLAVFAPETINSQTFRDVADRCQAILTSLGDFSEGVFGYAPWKRIVYLGSGGLQGAARESALKVLELTAGKLAAFYDSPTGFRHGPKSLVDDETLVVVFVSSHPYTRQYDLDLLAELRRDNQARVIAIAAESSDIVAAGPHIILPPSRHFIDVEQAFCFLYAQTFALQSLHGNTPDTPGVIIHPWQ YTPAAAATGTWTEEEIRHQPRAWIRSLTNIDALRSALNNFLEPLLRKENLRIILTGAGTSAFIGDIIAPWLASHTGKNFSAVPTTDLVTNPDYLNPAHPLLLISFGRSGNSPESVAAVELANQFVPECYHLPITCNEAGALYQNAINSDNAFALLPAETHDRGFATSSITTASCLAVFAPETINSQTFRDVADRCQAILTSLGDFSEGVFGYAPWKRIVYLGSGGLQGAARESALKVLELTAGKLAAFYDSPTGFRHGPKSLVDDETLVVVFVSSHPYTRQYDLDLLAELRRDNQARVIAIAAESSDIVAAGPHIILPPSRHFIDVEQAFCFLYAQTFALQSLHGNTPDTPGVIIHPWQA 3c3k-a1-m1-cA_3c3k-a1-m1-cB Crystal structure of an uncharacterized protein from Actinobacillus succinogenes A6VL88 A6VL88 1.99 X-RAY DIFFRACTION 82 1.0 339671 (Actinobacillus succinogenes 130Z) 339671 (Actinobacillus succinogenes 130Z) 267 272 KTGMLLVMVSNIANPFCAAVVKGIEKTAEKNGYRILLCNTESDLARSRSCLTLLSGKMVDGVITMDALSELPELQNIIGAFPWVQCAEYDPLSTVSSVSIDDVAASEYVVDQLVKSGKKRIALINHDLAYQYAQHRESGYLNRLKFHGLDYSRISYAENLDYMAGKLATFSLLKSAVKPDAIFAISDVLAAGAIQALTESGLSIPQDVAVVGFDGVDISQITVPALTTVQQPSEQIGMKAVSLLLEQIHSDVHHLLPWKFVRRQSSE KTGMLLVMVSNIANPFCAAVVKGIEKTAEKNGYRILLCNTESDLARSRSCLTLLSGKMVDGVITMDALSELPELQNIIGAFPWVQCAEYDPLSTVSSVSIDDVAASEYVVDQLVKSGKKRIALINHDLAYQYAQHRESGYLNRLKFHGLDYSRISYAENLDYMAGKLATFSLLKSAVKPDAIFAISDVLAAGAIQALTESGLSIPQDVAVVGFDGVDISQITVPALTTVQQPSEQIGMKAVSLLLEQIHSDVLAKTVHHLLPWKFVRRQSSE 3c3m-a1-m1-cA_3c3m-a1-m2-cA Crystal structure of the N-terminal domain of response regulator receiver protein from Methanoculleus marisnigri JR1 A3CS79 A3CS79 1.7 X-RAY DIFFRACTION 77 1.0 368407 (Methanoculleus marisnigri JR1) 368407 (Methanoculleus marisnigri JR1) 117 117 SLYTILVVDDSPIVDVFVTLERGGYRPITAFSGEECLEALNATPPDLVLLDIEPDGWETLERIKTDPATRDIPVLLTAKPLTPEEANEYGSYIEDYILKPTTHHQLYEAIEHVLARR SLYTILVVDDSPIVDVFVTLERGGYRPITAFSGEECLEALNATPPDLVLLDIEPDGWETLERIKTDPATRDIPVLLTAKPLTPEEANEYGSYIEDYILKPTTHHQLYEAIEHVLARR 3c3n-a1-m1-cC_3c3n-a1-m1-cD Crystal structure of dihydroorotate dehydrogenase from Trypanosoma cruzi strain Y Q4D3W2 Q4D3W2 2.2 X-RAY DIFFRACTION 56 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 311 311 3c3n-a1-m1-cA_3c3n-a1-m1-cB CLKLNLLDHVFANPFMNAAGVLCSTEEDLRCMTASSSGALVSKSCTSAPRDGNPEPRYMAVPLGSINSMGLPNLGFDFYLKYASDLHDYSKKPLFLSISGLSVEENVAMVRRLAPVAQEKGVLLELNLSCPNVPGKPQVAYDFEAMRTYLQQVSLAYGLPFGVKMPPYFDIAHFDTAAAVLNEFPLVKFVTCVNSVGNGLVIDAESESVVIKPKQGFGGLGGKYILPTALANVNAFYRRCPDKLVFGCGGVYSGEDAFLHILAGASMVQVGTALQEEGPGIFTRLEDELLEIMARKGYRTLEEFRGRVKTI CLKLNLLDHVFANPFMNAAGVLCSTEEDLRCMTASSSGALVSKSCTSAPRDGNPEPRYMAVPLGSINSMGLPNLGFDFYLKYASDLHDYSKKPLFLSISGLSVEENVAMVRRLAPVAQEKGVLLELNLSCPNVPGKPQVAYDFEAMRTYLQQVSLAYGLPFGVKMPPYFDIAHFDTAAAVLNEFPLVKFVTCVNSVGNGLVIDAESESVVIKPKQGFGGLGGKYILPTALANVNAFYRRCPDKLVFGCGGVYSGEDAFLHILAGASMVQVGTALQEEGPGIFTRLEDELLEIMARKGYRTLEEFRGRVKTI 3c3p-a2-m1-cC_3c3p-a2-m2-cC Crystal structure of a methyltransferase (NP_951602.1) from Geobacter sulfurreducens at 1.90 A resolution Q74FR2 Q74FR2 1.9 X-RAY DIFFRACTION 87 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 190 190 3c3p-a1-m1-cB_3c3p-a1-m1-cA IPIVDSRIGAYLDGLLPEADPVVAAEQIARERNIPIVDRQTGRLLYLLARIKQPQLVVVPGDGLGCASWWFARAISISSRVVIDPDRDNVEHARRLHDNGLIDRVELQVGDPLGIAAGQRDIDILFDCDVFNGADVLERNRCLAKNALLIAVNALRRGLREFNHHLSRRRDFFTTIVPVGNGVLLGYRLS IPIVDSRIGAYLDGLLPEADPVVAAEQIARERNIPIVDRQTGRLLYLLARIKQPQLVVVPGDGLGCASWWFARAISISSRVVIDPDRDNVEHARRLHDNGLIDRVELQVGDPLGIAAGQRDIDILFDCDVFNGADVLERNRCLAKNALLIAVNALRRGLREFNHHLSRRRDFFTTIVPVGNGVLLGYRLS 3c3v-a1-m3-cA_3c3v-a1-m6-cA Crystal structure of peanut major allergen ara h 3 B5TYU1 B5TYU1 1.73 X-RAY DIFFRACTION 29 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 398 398 3c3v-a1-m1-cA_3c3v-a1-m5-cA 3c3v-a1-m2-cA_3c3v-a1-m4-cA ISFRQQPEENACQFQRLNAQRPDNRIESEGGYIETWNPNNQEFECAGVALSRLVLRRNALRRPFYSNAPQEIFIQQGRGYFGLIFPGCPSTYEEPAQQQQQDSHQKVHRFNEGDLIAVPTGVAFWLYNDHDTDVVAVSLTDTNNNDNQLDQFPRRFNLAGNHEQEFLRYQQGNIFSGFTPEFLAQAFQVDDRQIVQNLRGENESEEQGAIVTVRGGLRILSPGIEETICTATVKKNIGRNRSPDIYNPQAGSLKTANELNLLILRWLGLSAEYGNLYRNALFVPHYNTNAHSIIYALRGRAHVQVVDSNGNRVYDEELQEGHVLVVPQNFAVAGKSQSDNFEYVAFKTDSRPSIANLAGENSVIDNLPEEVVANSYGLPREQARQLKNNNPFKFFVPP ISFRQQPEENACQFQRLNAQRPDNRIESEGGYIETWNPNNQEFECAGVALSRLVLRRNALRRPFYSNAPQEIFIQQGRGYFGLIFPGCPSTYEEPAQQQQQDSHQKVHRFNEGDLIAVPTGVAFWLYNDHDTDVVAVSLTDTNNNDNQLDQFPRRFNLAGNHEQEFLRYQQGNIFSGFTPEFLAQAFQVDDRQIVQNLRGENESEEQGAIVTVRGGLRILSPGIEETICTATVKKNIGRNRSPDIYNPQAGSLKTANELNLLILRWLGLSAEYGNLYRNALFVPHYNTNAHSIIYALRGRAHVQVVDSNGNRVYDEELQEGHVLVVPQNFAVAGKSQSDNFEYVAFKTDSRPSIANLAGENSVIDNLPEEVVANSYGLPREQARQLKNNNPFKFFVPP 3c3v-a2-m2-cA_3c3v-a2-m3-cA Crystal structure of peanut major allergen ara h 3 B5TYU1 B5TYU1 1.73 X-RAY DIFFRACTION 216 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 398 398 3c3v-a1-m1-cA_3c3v-a1-m2-cA 3c3v-a1-m1-cA_3c3v-a1-m3-cA 3c3v-a1-m2-cA_3c3v-a1-m3-cA 3c3v-a1-m4-cA_3c3v-a1-m5-cA 3c3v-a1-m4-cA_3c3v-a1-m6-cA 3c3v-a1-m5-cA_3c3v-a1-m6-cA 3c3v-a2-m1-cA_3c3v-a2-m2-cA 3c3v-a2-m1-cA_3c3v-a2-m3-cA ISFRQQPEENACQFQRLNAQRPDNRIESEGGYIETWNPNNQEFECAGVALSRLVLRRNALRRPFYSNAPQEIFIQQGRGYFGLIFPGCPSTYEEPAQQQQQDSHQKVHRFNEGDLIAVPTGVAFWLYNDHDTDVVAVSLTDTNNNDNQLDQFPRRFNLAGNHEQEFLRYQQGNIFSGFTPEFLAQAFQVDDRQIVQNLRGENESEEQGAIVTVRGGLRILSPGIEETICTATVKKNIGRNRSPDIYNPQAGSLKTANELNLLILRWLGLSAEYGNLYRNALFVPHYNTNAHSIIYALRGRAHVQVVDSNGNRVYDEELQEGHVLVVPQNFAVAGKSQSDNFEYVAFKTDSRPSIANLAGENSVIDNLPEEVVANSYGLPREQARQLKNNNPFKFFVPP ISFRQQPEENACQFQRLNAQRPDNRIESEGGYIETWNPNNQEFECAGVALSRLVLRRNALRRPFYSNAPQEIFIQQGRGYFGLIFPGCPSTYEEPAQQQQQDSHQKVHRFNEGDLIAVPTGVAFWLYNDHDTDVVAVSLTDTNNNDNQLDQFPRRFNLAGNHEQEFLRYQQGNIFSGFTPEFLAQAFQVDDRQIVQNLRGENESEEQGAIVTVRGGLRILSPGIEETICTATVKKNIGRNRSPDIYNPQAGSLKTANELNLLILRWLGLSAEYGNLYRNALFVPHYNTNAHSIIYALRGRAHVQVVDSNGNRVYDEELQEGHVLVVPQNFAVAGKSQSDNFEYVAFKTDSRPSIANLAGENSVIDNLPEEVVANSYGLPREQARQLKNNNPFKFFVPP 3c3v-a3-m1-cA_3c3v-a3-m6-cA Crystal structure of peanut major allergen ara h 3 B5TYU1 B5TYU1 1.73 X-RAY DIFFRACTION 159 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 398 398 3c3v-a1-m1-cA_3c3v-a1-m6-cA 3c3v-a1-m2-cA_3c3v-a1-m5-cA 3c3v-a1-m3-cA_3c3v-a1-m4-cA ISFRQQPEENACQFQRLNAQRPDNRIESEGGYIETWNPNNQEFECAGVALSRLVLRRNALRRPFYSNAPQEIFIQQGRGYFGLIFPGCPSTYEEPAQQQQQDSHQKVHRFNEGDLIAVPTGVAFWLYNDHDTDVVAVSLTDTNNNDNQLDQFPRRFNLAGNHEQEFLRYQQGNIFSGFTPEFLAQAFQVDDRQIVQNLRGENESEEQGAIVTVRGGLRILSPGIEETICTATVKKNIGRNRSPDIYNPQAGSLKTANELNLLILRWLGLSAEYGNLYRNALFVPHYNTNAHSIIYALRGRAHVQVVDSNGNRVYDEELQEGHVLVVPQNFAVAGKSQSDNFEYVAFKTDSRPSIANLAGENSVIDNLPEEVVANSYGLPREQARQLKNNNPFKFFVPP ISFRQQPEENACQFQRLNAQRPDNRIESEGGYIETWNPNNQEFECAGVALSRLVLRRNALRRPFYSNAPQEIFIQQGRGYFGLIFPGCPSTYEEPAQQQQQDSHQKVHRFNEGDLIAVPTGVAFWLYNDHDTDVVAVSLTDTNNNDNQLDQFPRRFNLAGNHEQEFLRYQQGNIFSGFTPEFLAQAFQVDDRQIVQNLRGENESEEQGAIVTVRGGLRILSPGIEETICTATVKKNIGRNRSPDIYNPQAGSLKTANELNLLILRWLGLSAEYGNLYRNALFVPHYNTNAHSIIYALRGRAHVQVVDSNGNRVYDEELQEGHVLVVPQNFAVAGKSQSDNFEYVAFKTDSRPSIANLAGENSVIDNLPEEVVANSYGLPREQARQLKNNNPFKFFVPP 3c3w-a1-m1-cB_3c3w-a1-m1-cA Crystal Structure of the Mycobacterium tuberculosis Hypoxic Response Regulator DosR P9WMF9 P9WMF9 2.2 X-RAY DIFFRACTION 114 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 210 211 MVKVFLVDDHEVVRRGLVDLLGADPELDVVGEAGSVAEAMARVPAARPDVAVLDVRLPDGNGIELCRDLLSRMPDLRCLILTSYTSDEAMLDAILAGASGYVVKDIKGMELARAVKDVGAGRSLLDNRAAAALMAKLRGAAEKQDPLSGLTDQERTLLGLLSEGLTNKQIADRMFLAEKTVKNYVSRLLAKLGMERRTQAAVFATELKRS MVKVFLVDDHEVVRRGLVDLLGADPELDVVGEAGSVAEAMARVPAARPDVAVLDVRLPDGNGIELCRDLLSRMPDLRCLILTSYTSDEAMLDAILAGASGYVVKDIKGMELARAVKDVGAGRSLLDNRAAAALMAKLRGAAEKQDPLSGLTDQERTLLGLLSEGLTNKQIADRMFLAEKTVKNYVSRLLAKLGMERRTQAAVFATELKRSR 3c3y-a1-m1-cA_3c3y-a1-m1-cB Crystal Structure of PFOMT, Phenylpropanoid and Flavonoid O-methyltransferase from M. crystallinum Q6YI95 Q6YI95 1.371 X-RAY DIFFRACTION 123 1.0 3544 (Mesembryanthemum crystallinum) 3544 (Mesembryanthemum crystallinum) 225 225 GLLQSEELCQYILRTSVYPREAGFLKELREANESHPDSYMSTSPLAGQLMSFVLKLVNAKKTIEVGVFTGYSLLLTALSIPDDGKITAIDFDREAYEIGLPFIRKAGVEHKINFIESDAMLALDNLLQGQESEGSYDFGFVDADKPNYIKYHERLMKLVKVGGIVAYDNTLWGGTVAQPESEVPDFMKENREAVIELNKLLAADPRIEIVHLPLGDGITFCRRLY GLLQSEELCQYILRTSVYPREAGFLKELREANESHPDSYMSTSPLAGQLMSFVLKLVNAKKTIEVGVFTGYSLLLTALSIPDDGKITAIDFDREAYEIGLPFIRKAGVEHKINFIESDAMLALDNLLQGQESEGSYDFGFVDADKPNYIKYHERLMKLVKVGGIVAYDNTLWGGTVAQPESEVPDFMKENREAVIELNKLLAADPRIEIVHLPLGDGITFCRRLY 3c48-a1-m1-cB_3c48-a1-m1-cA Structure of the retaining glycosyltransferase MshA: The first step in mycothiol biosynthesis. Organism: Corynebacterium glutamicum- APO (OPEN) structure. Q8NTA6 Q8NTA6 2.1 X-RAY DIFFRACTION 126 0.99 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 396 399 MRVAMISMHTSPLQQGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVKTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPSTYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANENVDGETHHG SHMRVAMISMHTSPLQQGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVKNSYDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGTERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPSDTYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANENVDGETHHG 3c4f-a3-m1-cA_3c4f-a3-m2-cA FGFR TYROSINE KINASE DOMAIN IN COMPLEX WITH 3-(3-methoxybenzyl)-7-azaindole P11362 P11362 2.07 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 290 290 3gql-a4-m1-cB_3gql-a4-m1-cA ELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQE ELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQE 3c4n-a1-m1-cA_3c4n-a1-m1-cB Crystal structure of DR_0571 protein from Deinococcus radiodurans in complex with ADP. Northeast Structural Genomics Consortium Target DrR125 Q9RWU4 Q9RWU4 2.4 X-RAY DIFFRACTION 32 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 357 357 EEAFDIVVIGAGRGAACAFYLRQLAPGRSLLLVEEGGLPNEEGATILAPGVWTAQDIPAGQEAQAEWTREQLLGALGSGKTLEVEDRPLLHLLPAGEGSGLTPTLDALADFPEALALLDPARLPVARVDPRALTYRPGSLALLAAQQAIGQGAGLLLNTRAELVPGGVRLHRLTVVHETRQIRAGVIIVAAGAAGPALVEQGLGLHTRHGRAYRQFPRLDLLSGAQTPVLRASGLTLRPQNGGYTLVPAIHHRDPHGYHPAGGSLTGVPTGLRRELLEDLVGLDAVPALAGEGLELGRSSADVPGAWLALPGGRPDAPPQAEELAPGLHLLLGGPLADTLGLAAAHELAQRVSASLE EEAFDIVVIGAGRGAACAFYLRQLAPGRSLLLVEEGGLPNEEGATILAPGVWTAQDIPAGQEAQAEWTREQLLGALGSGKTLEVEDRPLLHLLPAGEGSGLTPTLDALADFPEALALLDPARLPVARVDPRALTYRPGSLALLAAQQAIGQGAGLLLNTRAELVPGGVRLHRLTVVHETRQIRAGVIIVAAGAAGPALVEQGLGLHTRHGRAYRQFPRLDLLSGAQTPVLRASGLTLRPQNGGYTLVPAIHHRDPHGYHPAGGSLTGVPTGLRRELLEDLVGLDAVPALAGEGLELGRSSADVPGAWLALPGGRPDAPPQAEELAPGLHLLLGGPLADTLGLAAAHELAQRVSASLE 3c4r-a1-m1-cA_3c4r-a1-m1-cD Crystal structure of an uncharacterized protein encoded by cryptic prophage A0A0H2V6G8 A0A0H2V6G8 2.3 X-RAY DIFFRACTION 13 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 119 121 3c4r-a1-m1-cB_3c4r-a1-m1-cC KIKHEHIRANAWAHPDGEKVPAAEITRAYFELGTFPELYDDSHPEALARNTQKIFRWVEKDTPDAVEKIQALLPAIEKSPPLLVARRSHSSAYFRELVETRERLVRDADDFVAVAIAGF KIKHEHIRANAWAHPDGEKVPAAEITRAYFELGTFPELYDDSHPEALARNTQKIFRWVEKDTPDAVEKIQALLPAIEKSPPLLVARRSHSSAYFRELVETRERLVRDADDFVAVAIAGFNQ 3c4r-a1-m1-cB_3c4r-a1-m1-cD Crystal structure of an uncharacterized protein encoded by cryptic prophage A0A0H2V6G8 A0A0H2V6G8 2.3 X-RAY DIFFRACTION 55 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 119 121 3c4r-a1-m1-cA_3c4r-a1-m1-cC KIKHEHIRANAWAHPDGEKVPAAEITRAYFELGTFPELYDDSHPEALARNTQKIFRWVEKDTPDAVEKIQALLPAIEKSPPLLVARRSHSSAYFRELVETRERLVRDADDFVAVAIAGF KIKHEHIRANAWAHPDGEKVPAAEITRAYFELGTFPELYDDSHPEALARNTQKIFRWVEKDTPDAVEKIQALLPAIEKSPPLLVARRSHSSAYFRELVETRERLVRDADDFVAVAIAGFNQ 3c4r-a1-m1-cC_3c4r-a1-m1-cD Crystal structure of an uncharacterized protein encoded by cryptic prophage A0A0H2V6G8 A0A0H2V6G8 2.3 X-RAY DIFFRACTION 37 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 121 121 3c4r-a1-m1-cA_3c4r-a1-m1-cB KIKHEHIRANAWAHPDGEKVPAAEITRAYFELGTFPELYDDSHPEALARNTQKIFRWVEKDTPDAVEKIQALLPAIEKSPPLLVARRSHSSAYFRELVETRERLVRDADDFVAVAIAGFNQ KIKHEHIRANAWAHPDGEKVPAAEITRAYFELGTFPELYDDSHPEALARNTQKIFRWVEKDTPDAVEKIQALLPAIEKSPPLLVARRSHSSAYFRELVETRERLVRDADDFVAVAIAGFNQ 3c4v-a3-m5-cA_3c4v-a3-m8-cB Structure of the retaining glycosyltransferase MshA:The first step in mycothiol biosynthesis. Organism: Corynebacterium glutamicum : Complex with UDP and 1L-INS-1-P. Q8NTA6 Q8NTA6 2.6 X-RAY DIFFRACTION 18 0.997 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 393 393 3c4q-a3-m1-cA_3c4q-a3-m2-cB 3c4q-a3-m1-cA_3c4q-a3-m3-cB 3c4q-a3-m1-cB_3c4q-a3-m2-cA 3c4q-a3-m1-cB_3c4q-a3-m3-cA 3c4q-a3-m2-cA_3c4q-a3-m6-cB 3c4q-a3-m2-cB_3c4q-a3-m6-cA 3c4q-a3-m3-cA_3c4q-a3-m5-cB 3c4q-a3-m3-cB_3c4q-a3-m5-cA 3c4q-a3-m4-cA_3c4q-a3-m7-cB 3c4q-a3-m4-cA_3c4q-a3-m8-cB 3c4q-a3-m4-cB_3c4q-a3-m7-cA 3c4q-a3-m4-cB_3c4q-a3-m8-cA 3c4q-a3-m5-cA_3c4q-a3-m8-cB 3c4q-a3-m5-cB_3c4q-a3-m8-cA 3c4q-a3-m6-cA_3c4q-a3-m7-cB 3c4q-a3-m6-cB_3c4q-a3-m7-cA 3c4v-a3-m1-cA_3c4v-a3-m2-cB 3c4v-a3-m1-cA_3c4v-a3-m3-cB 3c4v-a3-m1-cB_3c4v-a3-m2-cA 3c4v-a3-m1-cB_3c4v-a3-m3-cA 3c4v-a3-m2-cA_3c4v-a3-m6-cB 3c4v-a3-m2-cB_3c4v-a3-m6-cA 3c4v-a3-m3-cA_3c4v-a3-m5-cB 3c4v-a3-m3-cB_3c4v-a3-m5-cA 3c4v-a3-m4-cA_3c4v-a3-m7-cB 3c4v-a3-m4-cA_3c4v-a3-m8-cB 3c4v-a3-m4-cB_3c4v-a3-m7-cA 3c4v-a3-m4-cB_3c4v-a3-m8-cA 3c4v-a3-m5-cB_3c4v-a3-m8-cA 3c4v-a3-m6-cA_3c4v-a3-m7-cB 3c4v-a3-m6-cB_3c4v-a3-m7-cA MRVAMISMHTSPLQQPGTGDSGGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPTYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANE MRVAMISMHTSPLQQPGTGDSGGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVSDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANE 3c4v-a3-m5-cB_3c4v-a3-m8-cB Structure of the retaining glycosyltransferase MshA:The first step in mycothiol biosynthesis. Organism: Corynebacterium glutamicum : Complex with UDP and 1L-INS-1-P. Q8NTA6 Q8NTA6 2.6 X-RAY DIFFRACTION 88 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 393 393 3c4q-a1-m1-cA_3c4q-a1-m2-cA 3c4q-a2-m1-cB_3c4q-a2-m3-cB 3c4q-a3-m1-cA_3c4q-a3-m2-cA 3c4q-a3-m1-cB_3c4q-a3-m3-cB 3c4q-a3-m2-cB_3c4q-a3-m6-cB 3c4q-a3-m3-cA_3c4q-a3-m5-cA 3c4q-a3-m4-cA_3c4q-a3-m8-cA 3c4q-a3-m4-cB_3c4q-a3-m7-cB 3c4q-a3-m5-cB_3c4q-a3-m8-cB 3c4q-a3-m6-cA_3c4q-a3-m7-cA 3c4v-a1-m1-cA_3c4v-a1-m2-cA 3c4v-a2-m1-cB_3c4v-a2-m3-cB 3c4v-a3-m1-cA_3c4v-a3-m2-cA 3c4v-a3-m1-cB_3c4v-a3-m3-cB 3c4v-a3-m2-cB_3c4v-a3-m6-cB 3c4v-a3-m3-cA_3c4v-a3-m5-cA 3c4v-a3-m4-cA_3c4v-a3-m8-cA 3c4v-a3-m4-cB_3c4v-a3-m7-cB 3c4v-a3-m6-cA_3c4v-a3-m7-cA MRVAMISMHTSPLQQPGTGDSGGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVSDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANE MRVAMISMHTSPLQQPGTGDSGGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVSDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANE 3c4v-a3-m8-cA_3c4v-a3-m8-cB Structure of the retaining glycosyltransferase MshA:The first step in mycothiol biosynthesis. Organism: Corynebacterium glutamicum : Complex with UDP and 1L-INS-1-P. Q8NTA6 Q8NTA6 2.6 X-RAY DIFFRACTION 46 0.997 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 393 393 3c4q-a3-m1-cA_3c4q-a3-m1-cB 3c4q-a3-m2-cA_3c4q-a3-m2-cB 3c4q-a3-m3-cA_3c4q-a3-m3-cB 3c4q-a3-m4-cA_3c4q-a3-m4-cB 3c4q-a3-m5-cA_3c4q-a3-m5-cB 3c4q-a3-m6-cA_3c4q-a3-m6-cB 3c4q-a3-m7-cA_3c4q-a3-m7-cB 3c4q-a3-m8-cA_3c4q-a3-m8-cB 3c4v-a3-m1-cA_3c4v-a3-m1-cB 3c4v-a3-m2-cA_3c4v-a3-m2-cB 3c4v-a3-m3-cA_3c4v-a3-m3-cB 3c4v-a3-m4-cA_3c4v-a3-m4-cB 3c4v-a3-m5-cA_3c4v-a3-m5-cB 3c4v-a3-m6-cA_3c4v-a3-m6-cB 3c4v-a3-m7-cA_3c4v-a3-m7-cB MRVAMISMHTSPLQQPGTGDSGGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPTYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANE MRVAMISMHTSPLQQPGTGDSGGMNVYILSTATELAKQGIEVDIYTRATRPSQGEIVRVAENLRVINIAAGPYEGLSKEELPTQLAAFTGGMLSFTRREKVTYDLIHSHYWLSGQVGWLLRDLWRIPLIHTAHTLAAVSDTPESEARRICEQQLVDNADVLAVNTQEEMQDLMHHYDADPDRISVVSPGADVELYSPGNDRATERSRRELGIPLHTKVVAFVGRLQPFKGPQVLIKAVAALFDRDPDRNLRVIICGGPYRHMAEELGVEKRIRFLDPRPPSELVAVYRAADIVAVPSFNESFGLVAMEAQASGTPVIAARVGGLPIAVAEGETGLLVDGHSPHAWADALATLLDDDETRIRMGEDAVEHARTFSWAATAAQLSSLYNDAIANE 3c57-a1-m1-cB_3c57-a1-m1-cA Crystal Structure of the Mycobacterium tuberculosis Hypoxic Response Regulator DosR C-terminal Domain Crystal Form II P9WMF9 P9WMF9 1.7 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 49 51 TDQERTLLGLLSEGLTNKQIADRMFLAEKTVKNYVSRLLAKLGMERRTQ GLTDQERTLLGLLSEGLTNKQIADRMFLAEKTVKNYVSRLLAKLGMERRTQ 3c5j-a2-m1-cA_3c5j-a2-m2-cA Crystal structure of HLA DR52c P01903 P01903 1.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 178 EEHVIIQAEFYLNPDQSGEFMFDFDGDEIFHVDMAKKETVWRLEEFGRFASFEAQGALANIAVDKANLEIMTKRSNYTPITNVPPEVTVLTNSPVELREPNVLICFIDKFTPPVVNVTWLRNGKPVTTGVSETVFLPREDHLFRKFHYLPFLPSTEDVYDCRVEHWGLDEPLLKHWEF EEHVIIQAEFYLNPDQSGEFMFDFDGDEIFHVDMAKKETVWRLEEFGRFASFEAQGALANIAVDKANLEIMTKRSNYTPITNVPPEVTVLTNSPVELREPNVLICFIDKFTPPVVNVTWLRNGKPVTTGVSETVFLPREDHLFRKFHYLPFLPSTEDVYDCRVEHWGLDEPLLKHWEF 3c5j-a2-m1-cB_3c5j-a2-m2-cB Crystal structure of HLA DR52c B8YAC7 B8YAC7 1.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 182 RPRFLELLKSECHFFNGTERVRFLERYFHNQEEFVRFDSDVGEYRAVTELGRPVAESWNSQKDLLEQKRGQVDNYCRHNYGVVESFTVQRRVHPQVTVYPAKHHNLLVCSVSGFYPGSIEVRWFRNGQEEKTGVVSTGLIHNGDWTFQTLVMLETVPRSGEVYTCQVEHPSVTSPLTVEWRA RPRFLELLKSECHFFNGTERVRFLERYFHNQEEFVRFDSDVGEYRAVTELGRPVAESWNSQKDLLEQKRGQVDNYCRHNYGVVESFTVQRRVHPQVTVYPAKHHNLLVCSVSGFYPGSIEVRWFRNGQEEKTGVVSTGLIHNGDWTFQTLVMLETVPRSGEVYTCQVEHPSVTSPLTVEWRA 3c5o-a1-m1-cA_3c5o-a1-m1-cD Crystal structure of the conserved protein of unknown function RPA1785 from Rhodopseudomonas palustris P61167 P61167 2.2 X-RAY DIFFRACTION 19 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 148 151 TPTLETKYVFTITARIGDVTSAGEIGTGVRRIIPILGGEVKGEGISGQVLPFGADFQIIRPNELIELEAKYAFETDDGAVVYVENVGIRFGPVELLRKGEPVDPKVIYFRTRPRFETGHPNYQWLQYLFVGSAARHADRVVIDVHQVL TPTLETKYVFTITARIGDVTSAGEIGTGVRRIIPILGGEVKGEGISGQVLPFGADFQIIRPNELIELEAKYAFETDDGAVVYVENVGIRFGPVELLRKLKRGEPVDPKVIYFRTRPRFETGHPNYQWLQYLFVGSAARHADRVVIDVHQVL 3c5o-a1-m1-cC_3c5o-a1-m1-cD Crystal structure of the conserved protein of unknown function RPA1785 from Rhodopseudomonas palustris P61167 P61167 2.2 X-RAY DIFFRACTION 71 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 147 151 3c5o-a1-m1-cA_3c5o-a1-m1-cB TPTLETKYVFTITARIGDVTSAGGVRRIIPILGGEVKGEGISGQVLPFGADFQIIRPNELIELEAKYAFETDDGAVVYVENVGIRFGPVELLRKLKRGEPVDPKVIYFRTRPRFETGHPNYQWLQYLFVGSAARHADRVVIDVHQVL TPTLETKYVFTITARIGDVTSAGEIGTGVRRIIPILGGEVKGEGISGQVLPFGADFQIIRPNELIELEAKYAFETDDGAVVYVENVGIRFGPVELLRKLKRGEPVDPKVIYFRTRPRFETGHPNYQWLQYLFVGSAARHADRVVIDVHQVL 3c5o-a1-m1-cD_3c5o-a1-m1-cB Crystal structure of the conserved protein of unknown function RPA1785 from Rhodopseudomonas palustris P61167 P61167 2.2 X-RAY DIFFRACTION 63 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 151 152 3c5o-a1-m1-cC_3c5o-a1-m1-cA TPTLETKYVFTITARIGDVTSAGEIGTGVRRIIPILGGEVKGEGISGQVLPFGADFQIIRPNELIELEAKYAFETDDGAVVYVENVGIRFGPVELLRKLKRGEPVDPKVIYFRTRPRFETGHPNYQWLQYLFVGSAARHADRVVIDVHQVL HTPTLETKYVFTITARIGDVTSAGEIGTGVRRIIPILGGEVKGEGISGQVLPFGADFQIIRPNELIELEAKYAFETDDGAVVYVENVGIRFGPVELLRKLKRGEPVDPKVIYFRTRPRFETGHPNYQWLQYLFVGSAARHADRVVIDVHQVL 3c5p-a2-m1-cB_3c5p-a2-m4-cC Crystal structure of BAS0735, a protein of unknown function from Bacillus anthracis str. Sterne A0A4Y1WDA8 A0A4Y1WDA8 2.9 X-RAY DIFFRACTION 16 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 187 187 3c5p-a1-m1-cA_3c5p-a1-m1-cD 3c5p-a1-m1-cE_3c5p-a1-m2-cF 3c5p-a2-m1-cC_3c5p-a2-m4-cB TNIIKIRASVFIPSWTEAKDETGQVIQFEGDSREFTPHAVNTRSRVEQEVVVDFYKQEVFSYANTGITTEKVISPDGSVNKRTGKASTENIVCTDIVWNSGGVQFKSASASNPLNVYAPPVDYVLNVCVKKDGSIDVQGEHDGFPCFEFYKQVDFGPFEKIYTHDFRETGDTAAALGGNDYSFTKRL TNIIKIRASVFIPSWTEAKDETGQVIQFEGDSREFTPHAVNTRSRVEQEVVVDFYKQEVFSYANTGITTEKVISPDGSVNKRTGKASTENIVCTDIVWNSGGVQFKSASASNPLNVYAPPVDYVLNVCVKKDGSIDVQGEHDGFPCFEFYKQVDFGPFEKIYTHDFRETGDTAAALGGNDYSFTKRL 3c5p-a2-m4-cB_3c5p-a2-m4-cC Crystal structure of BAS0735, a protein of unknown function from Bacillus anthracis str. Sterne A0A4Y1WDA8 A0A4Y1WDA8 2.9 X-RAY DIFFRACTION 34 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 187 187 3c5p-a1-m1-cA_3c5p-a1-m2-cF 3c5p-a1-m1-cD_3c5p-a1-m1-cE 3c5p-a2-m1-cB_3c5p-a2-m1-cC TNIIKIRASVFIPSWTEAKDETGQVIQFEGDSREFTPHAVNTRSRVEQEVVVDFYKQEVFSYANTGITTEKVISPDGSVNKRTGKASTENIVCTDIVWNSGGVQFKSASASNPLNVYAPPVDYVLNVCVKKDGSIDVQGEHDGFPCFEFYKQVDFGPFEKIYTHDFRETGDTAAALGGNDYSFTKRL TNIIKIRASVFIPSWTEAKDETGQVIQFEGDSREFTPHAVNTRSRVEQEVVVDFYKQEVFSYANTGITTEKVISPDGSVNKRTGKASTENIVCTDIVWNSGGVQFKSASASNPLNVYAPPVDYVLNVCVKKDGSIDVQGEHDGFPCFEFYKQVDFGPFEKIYTHDFRETGDTAAALGGNDYSFTKRL 3c5r-a3-m2-cB_3c5r-a3-m1-cA Crystal Structure of the BARD1 Ankyrin Repeat Domain and Its Functional Consequences Q99728 Q99728 2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 125 PFTNHRGETLLHIASIKGDIPSVEYLLQNGSDPNVKDHAGWTPLHEACNHGHLKVVELLLQHKALVNTTGYQNDSPLHDAAKNGHVDIVKLLLSYGASRNAVNIFGLRPVDYTDDESMKSLLLL PFTNHRGETLLHIASIKGDIPSVEYLLQNGSDPNVKDHAGWTPLHEACNHGHLKVVELLLQHKALVNTTGYQNDSPLHDAAKNGHVDIVKLLLSYGASRNAVNIFGLRPVDYTDDESMKSLLLLP 3c5u-a1-m1-cA_3c5u-a1-m2-cA P38 ALPHA map kinase complexed with a benzothiazole based inhibitor Q16539 Q16539 2.8 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 338 338 ERPTFYRQELNKTIWEVPERYQNLSPVGSGAYGSVCAAFDTKTGLRVAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPARSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGLVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLTGRTLFPGTDHIDQLKLILRLVGTPGAELLKKISSESARNYIQSLTQMPKMNFANVFIGANPLAVDLLEKMLVLDSDKRITAAQALAHAYFAQYHDPDDEPVADPYDQSFESRDLLIDEWKSLTYDEVISFVPPP ERPTFYRQELNKTIWEVPERYQNLSPVGSGAYGSVCAAFDTKTGLRVAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPARSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGLVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLTGRTLFPGTDHIDQLKLILRLVGTPGAELLKKISSESARNYIQSLTQMPKMNFANVFIGANPLAVDLLEKMLVLDSDKRITAAQALAHAYFAQYHDPDDEPVADPYDQSFESRDLLIDEWKSLTYDEVISFVPPP 3c5y-a3-m1-cI_3c5y-a3-m1-cK Crystal structure of a putative ribose 5-phosphate isomerase (saro_3514) from novosphingobium aromaticivorans dsm at 1.81 A resolution A4XEL3 A4XEL3 1.81 X-RAY DIFFRACTION 29 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 202 202 3c5y-a1-m1-cA_3c5y-a1-m1-cD 3c5y-a1-m1-cB_3c5y-a1-m1-cC 3c5y-a2-m1-cG_3c5y-a2-m1-cF 3c5y-a2-m1-cH_3c5y-a2-m1-cE 3c5y-a3-m1-cJ_3c5y-a3-m1-cL 3c5y-a4-m1-cO_3c5y-a4-m1-cM 3c5y-a4-m1-cP_3c5y-a4-m1-cN GKIALIIENSQAAKNAVVHEALTTVAEPLGHKVFNYGYTAEDKASLTYVNGLLAGILLNSGAADFVVTGGTGGSLAANAPGVFCGLVIDPTDAFLFGQINDGNAISPYSKGFGWAAELNLQDVYRKLFDGERGLGYPRERAEIRKNRGILRELKDASCRDLTVLKTVDQDLLRAAIAGEKFAELFYPNCKDDAIANYLRSLD GKIALIIENSQAAKNAVVHEALTTVAEPLGHKVFNYGYTAEDKASLTYVNGLLAGILLNSGAADFVVTGGTGGSLAANAPGVFCGLVIDPTDAFLFGQINDGNAISPYSKGFGWAAELNLQDVYRKLFDGERGLGYPRERAEIRKNRGILRELKDASCRDLTVLKTVDQDLLRAAIAGEKFAELFYPNCKDDAIANYLRSLD 3c5y-a4-m1-cO_3c5y-a4-m1-cP Crystal structure of a putative ribose 5-phosphate isomerase (saro_3514) from novosphingobium aromaticivorans dsm at 1.81 A resolution A4XEL3 A4XEL3 1.81 X-RAY DIFFRACTION 105 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 201 201 3c5y-a1-m1-cA_3c5y-a1-m1-cB 3c5y-a1-m1-cD_3c5y-a1-m1-cC 3c5y-a2-m1-cF_3c5y-a2-m1-cE 3c5y-a2-m1-cG_3c5y-a2-m1-cH 3c5y-a3-m1-cI_3c5y-a3-m1-cJ 3c5y-a3-m1-cK_3c5y-a3-m1-cL 3c5y-a4-m1-cM_3c5y-a4-m1-cN GKIALIIENSQAAKNAVVHEALTTVAEPLGHKVFNYGYTAEDKASLTYVNGLLAGILLNSGAADFVVTGGTGGSLAANAPGVFCGLVIDPTDAFLFGQINDGNAISPYSKGFGWAAELNLQDVYRKLFDGERGLGYPRERAEIRKNRGILRELKDASCRDLTVLKTVDQDLLRAAIAGEKFAELFYPNCKDDAIANYLRSL GKIALIIENSQAAKNAVVHEALTTVAEPLGHKVFNYGYTAEDKASLTYVNGLLAGILLNSGAADFVVTGGTGGSLAANAPGVFCGLVIDPTDAFLFGQINDGNAISPYSKGFGWAAELNLQDVYRKLFDGERGLGYPRERAEIRKNRGILRELKDASCRDLTVLKTVDQDLLRAAIAGEKFAELFYPNCKDDAIANYLRSL 3c5y-a4-m1-cP_3c5y-a4-m1-cM Crystal structure of a putative ribose 5-phosphate isomerase (saro_3514) from novosphingobium aromaticivorans dsm at 1.81 A resolution A4XEL3 A4XEL3 1.81 X-RAY DIFFRACTION 35 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 201 202 3c5y-a1-m1-cA_3c5y-a1-m1-cC 3c5y-a1-m1-cD_3c5y-a1-m1-cB 3c5y-a2-m1-cF_3c5y-a2-m1-cH 3c5y-a2-m1-cG_3c5y-a2-m1-cE 3c5y-a3-m1-cI_3c5y-a3-m1-cL 3c5y-a3-m1-cJ_3c5y-a3-m1-cK 3c5y-a4-m1-cO_3c5y-a4-m1-cN GKIALIIENSQAAKNAVVHEALTTVAEPLGHKVFNYGYTAEDKASLTYVNGLLAGILLNSGAADFVVTGGTGGSLAANAPGVFCGLVIDPTDAFLFGQINDGNAISPYSKGFGWAAELNLQDVYRKLFDGERGLGYPRERAEIRKNRGILRELKDASCRDLTVLKTVDQDLLRAAIAGEKFAELFYPNCKDDAIANYLRSL GKIALIIENSQAAKNAVVHEALTTVAEPLGHKVFNYGYTAEDKASLTYVNGLLAGILLNSGAADFVVTGGTGGSLAANAPGVFCGLVIDPTDAFLFGQINDGNAISPYSKGFGWAAELNLQDVYRKLFDGERGLGYPRERAEIRKNRGILRELKDASCRDLTVLKTVDQDLLRAAIAGEKFAELFYPNCKDDAIANYLRSLD 3c5z-a1-m1-cD_3c5z-a1-m1-cH Crystal structure of mouse MHC class II I-Ab/3K peptide complexed with mouse TCR B3K506 P14483 P14483 2.55 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 202 202 1iao-a1-m2-cB_1iao-a1-m1-cB FEAQKAKANKAVDGERHFVYQFMGECYFTNGTQRIRYVTRYIYNREEYVRYDSDVGEHRAVTELGRPDAEYWNSQPEILERTRAELDTVCRHNYEGPETHTSLRRLEQPNVVISLSRTEALNHHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPRRGEVYTCHVEHPSLKSPITVEWKA FEAQKAKANKAVDGERHFVYQFMGECYFTNGTQRIRYVTRYIYNREEYVRYDSDVGEHRAVTELGRPDAEYWNSQPEILERTRAELDTVCRHNYEGPETHTSLRRLEQPNVVISLSRTEALNHHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPRRGEVYTCHVEHPSLKSPITVEWKA 3c64-a1-m1-cA_3c64-a1-m2-cA The MC179 portion of the Cysteine-rich Interdomain Region (CIDR) of a Plasmodium falciparum Erythrocyte Membrane Protein-1 (PfEMP1) Q25733 Q25733 2.4 X-RAY DIFFRACTION 118 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 152 152 DKIMSYNAFFWMWVHDMLIDSIKWRDEHGCNKKCICFQKWVEQKKTEWGKIKDHFRKQKDIPKDWTHDDFLQTLLMKDLLLEIIQDTYGDANEIKRIEALLEQAGVGGIDFAALAGLYTKGFVAEKDTTIDKLLQHEQKEADKCLKTHTDDT DKIMSYNAFFWMWVHDMLIDSIKWRDEHGCNKKCICFQKWVEQKKTEWGKIKDHFRKQKDIPKDWTHDDFLQTLLMKDLLLEIIQDTYGDANEIKRIEALLEQAGVGGIDFAALAGLYTKGFVAEKDTTIDKLLQHEQKEADKCLKTHTDDT 3c6c-a1-m2-cA_3c6c-a1-m4-cA Crystal structure of a putative 3-keto-5-aminohexanoate cleavage enzyme (reut_c6226) from ralstonia eutropha jmp134 at 1.72 A resolution Q46MU0 Q46MU0 1.72 X-RAY DIFFRACTION 118 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 285 285 3c6c-a1-m1-cA_3c6c-a1-m3-cA SRKVILTCAVTGNAPFNPKHPSPITPAQIADACVEAAKAGASVAHIHVRDPKTGGGSRDPVLFKEVVDRVRSSGTDIVLNLTCGLGAFLLPDPEDESKALPESDVVPVAERVKHLEDCLPEIASLDITTGNQVEGKLEFVYLNTTRTLRAARRFQELGIKPELEVFSPGDILFGKQLIEEGLIDGVPLFQVLGVLWGAPASTETIYQRNLIPANAQWAAFGIGRDQPAQAALLGGNVRVGLEDNLYLSRGVFATNGQLVERARTVIEHLGSVATPDEARDIGLSR SRKVILTCAVTGNAPFNPKHPSPITPAQIADACVEAAKAGASVAHIHVRDPKTGGGSRDPVLFKEVVDRVRSSGTDIVLNLTCGLGAFLLPDPEDESKALPESDVVPVAERVKHLEDCLPEIASLDITTGNQVEGKLEFVYLNTTRTLRAARRFQELGIKPELEVFSPGDILFGKQLIEEGLIDGVPLFQVLGVLWGAPASTETIYQRNLIPANAQWAAFGIGRDQPAQAALLGGNVRVGLEDNLYLSRGVFATNGQLVERARTVIEHLGSVATPDEARDIGLSR 3c6c-a1-m3-cA_3c6c-a1-m4-cA Crystal structure of a putative 3-keto-5-aminohexanoate cleavage enzyme (reut_c6226) from ralstonia eutropha jmp134 at 1.72 A resolution Q46MU0 Q46MU0 1.72 X-RAY DIFFRACTION 42 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 285 285 3c6c-a1-m1-cA_3c6c-a1-m2-cA SRKVILTCAVTGNAPFNPKHPSPITPAQIADACVEAAKAGASVAHIHVRDPKTGGGSRDPVLFKEVVDRVRSSGTDIVLNLTCGLGAFLLPDPEDESKALPESDVVPVAERVKHLEDCLPEIASLDITTGNQVEGKLEFVYLNTTRTLRAARRFQELGIKPELEVFSPGDILFGKQLIEEGLIDGVPLFQVLGVLWGAPASTETIYQRNLIPANAQWAAFGIGRDQPAQAALLGGNVRVGLEDNLYLSRGVFATNGQLVERARTVIEHLGSVATPDEARDIGLSR SRKVILTCAVTGNAPFNPKHPSPITPAQIADACVEAAKAGASVAHIHVRDPKTGGGSRDPVLFKEVVDRVRSSGTDIVLNLTCGLGAFLLPDPEDESKALPESDVVPVAERVKHLEDCLPEIASLDITTGNQVEGKLEFVYLNTTRTLRAARRFQELGIKPELEVFSPGDILFGKQLIEEGLIDGVPLFQVLGVLWGAPASTETIYQRNLIPANAQWAAFGIGRDQPAQAALLGGNVRVGLEDNLYLSRGVFATNGQLVERARTVIEHLGSVATPDEARDIGLSR 3c6f-a1-m1-cB_3c6f-a1-m1-cD Crystal structure of protein Bsu07140 from Bacillus subtilis O31533 O31533 2.5 X-RAY DIFFRACTION 58 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 137 138 3c6f-a1-m1-cA_3c6f-a1-m1-cC PNIVIRKGELQYKVMKKNKIDINQLQSMLRQAGSFSIQEVEYAIMETNGMVSVLPKSDFDKPTNKDMQIPSKSVSLPITLIIDGEIVRDNLKEAGVDEQWLKQEMKKKNIDKTEDVLFAEWHKNKPLYTVTYEQSRS PNIVIRKGELQYKVMKKNKIDINQLQSMLRQAGSFSIQEVEYAIMETNGMVSVLPKSDFDKPTNKDMQIPSKSVSLPITLIIDGEIVRDNLKEAGVDEQWLKQEMKKKNIDKTEDVLFAEWHKNKPLYTVTYEQSRST 3c6f-a1-m1-cC_3c6f-a1-m1-cD Crystal structure of protein Bsu07140 from Bacillus subtilis O31533 O31533 2.5 X-RAY DIFFRACTION 57 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 137 138 3c6f-a1-m1-cA_3c6f-a1-m1-cB 3c6f-a1-m1-cA_3c6f-a1-m1-cD 3c6f-a1-m1-cB_3c6f-a1-m1-cC PNIVIRKGELQYKVMKKNKIDINQLQSMLRQAGSFSIQEVEYAIMETNGMVSVLPKSDFDKPTNKDMQIPSKSVSLPITLIIDGEIVRDNLKEAGVDEQWLKQEMKKKNIDKTEDVLFAEWHKNKPLYTVTYEQSRS PNIVIRKGELQYKVMKKNKIDINQLQSMLRQAGSFSIQEVEYAIMETNGMVSVLPKSDFDKPTNKDMQIPSKSVSLPITLIIDGEIVRDNLKEAGVDEQWLKQEMKKKNIDKTEDVLFAEWHKNKPLYTVTYEQSRST 3c6k-a2-m1-cC_3c6k-a2-m1-cD Crystal structure of human spermine synthase in complex with spermidine and 5-methylthioadenosine P52788 P52788 1.95 X-RAY DIFFRACTION 148 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 346 348 3c6k-a1-m1-cA_3c6k-a1-m1-cB 3c6m-a1-m1-cA_3c6m-a1-m1-cB GSRHSTLDFMLDGETILKGLQSIFQEQGMAESVHTWQDHGYLATYTNKNGSFANLRIYPHGLVLLDLQSYDQGKEEIDSILNKVEERMKELSQGRVKRLPPIVRGGAIDRYWPTADGRLVEYDIDEVVYDEDSPYQNIKILHSKQFGNILILSGDVNLAESDLAYTRAIMGSGKEDYTGKDVLILGGGDGGILCEIVKLKPKMVTMVEIDQMVIDGCKKYMRKLDNLKGDCYQVLIEDCIPVLKRYAKEGREFDYVINDLTAVPISTSPSTWEFLRLILDLSMKVLKQDGKYFTQGNCVNLTEALSLYEEQLGRLYCPVEFSKEIVCVPSYLELWVFYTVWKKAKP GSRHSTLDFMLDGETILKGLQSIFQEQGMAESVHTWQDHGYLATYTNKNGSFANLRIYPHGLVLLDLQSYDGDAQGKEEIDSILNKVEERMKELGRVKRLPPIVRGGAIDRYWPTADGRLVEYDIDEVVYDEDSPYQNIKILHSKQFGNILILSGDVNLAESDLAYTRAIMGSGKEDYTGKDVLILGGGDGGILCEIVKLKPKMVTMVEIDQMVIDGCKKYMRKDVLDNLKGDCYQVLIEDCIPVLKRYAKEGREFDYVINDLTAVPISTSPSTWEFLRLILDLSMKVLKQDGKYFTQGNCVNLTEALSLYEEQLGRLYCPVEFSKEIVCVPSYLELWVFYTVWKKAK 3c6l-a1-m1-cD_3c6l-a1-m1-cH Crystal structure of mouse MHC class II I-Ab/3K peptide complexed with mouse TCR 2W20 P14483 P14483 3.4 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 192 192 FEAQKAKANKAVRHFVYQFMGECYFTNGTQRIRYVTRYIYNREEYVRYDSDVGEHRAVTELGRPDAEYWNSQPEILERTRAELDTVCRHNYEGPETHTSLRRLEQPNVVISLSHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPRRGEVYTCHVEHPSLKSPITVEWKA FEAQKAKANKAVRHFVYQFMGECYFTNGTQRIRYVTRYIYNREEYVRYDSDVGEHRAVTELGRPDAEYWNSQPEILERTRAELDTVCRHNYEGPETHTSLRRLEQPNVVISLSHNTLVCSVTDFYPAKIKVRWFRNGQEETVGVSSTQLIRNGDWTFQVLVMLEMTPRRGEVYTCHVEHPSLKSPITVEWKA 3c6v-a1-m1-cA_3c6v-a1-m1-cC Crystal structure of AU4130/APC7354, a probable enzyme from the thermophilic fungus Aspergillus fumigatus Q4WF74 Q4WF74 1.9 X-RAY DIFFRACTION 99 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 140 140 3c6v-a1-m1-cA_3c6v-a1-m1-cB 3c6v-a1-m1-cC_3c6v-a1-m1-cB FQGPRWLIQHSPNTLTPEEKSHLAQQITQAYVGFGLPAFYVQVHFIEQPAGTSFIGGEQHPNFVALTIYHLARTTSDEQRQGFLKRIDAFLTPFEPKGIDWEYFVTEAPRDLWKINGLAPPAAGSEEEKVWVRENRPVRF FQGPRWLIQHSPNTLTPEEKSHLAQQITQAYVGFGLPAFYVQVHFIEQPAGTSFIGGEQHPNFVALTIYHLARTTSDEQRQGFLKRIDAFLTPFEPKGIDWEYFVTEAPRDLWKINGLAPPAAGSEEEKVWVRENRPVRF 3c70-a1-m1-cA_3c70-a1-m2-cA HNL from Hevea brasiliensis to atomic resolution P52704 P52704 1.05 X-RAY DIFFRACTION 53 1.0 3981 (Hevea brasiliensis) 3981 (Hevea brasiliensis) 256 256 1qj4-a1-m1-cA_1qj4-a1-m2-cA 1sc9-a1-m1-cA_1sc9-a1-m2-cA 1sci-a1-m1-cA_1sci-a1-m2-cA 1sck-a1-m1-cA_1sck-a1-m2-cA 1scq-a1-m1-cA_1scq-a1-m2-cA 1yas-a1-m1-cA_1yas-a1-m2-cA 1yb6-a1-m1-cA_1yb6-a1-m2-cA 1yb7-a1-m1-cA_1yb7-a1-m2-cA 2g4l-a1-m1-cA_2g4l-a1-m2-cA 2yas-a2-m1-cA_2yas-a2-m2-cA 3c6x-a1-m1-cA_3c6x-a1-m2-cA 3c6y-a1-m1-cA_3c6y-a1-m2-cA 3c6z-a1-m1-cA_3c6z-a1-m2-cA 3yas-a2-m1-cA_3yas-a2-m2-cA 4yas-a2-m1-cA_4yas-a2-m2-cA 5yas-a2-m1-cA_5yas-a2-m2-cA 7yas-a2-m1-cA_7yas-a2-m2-cA AFAHFVLIHTICHGAWIWHKLKPLLEALGHKVTALDLAASGVDPRQIEEIGSFDEYSEPLLTFLEALPPGEKVILVGESCGGLNIAIAADKYCEKIAAAVFHNSVLPDTEHCPSYVVDKLMEVFPDWKDTTYFTYTKDGKEITGLKLGFTLLRENLYTLCGPEEYELAKMLTRKGSLFQNILAKRPFFTKEGYGSIKKIYVWTDQDEIFLPEFQLWQIENYKPDKVYKVEGGDHKLQLTKTKEIAEILQEVADTYN AFAHFVLIHTICHGAWIWHKLKPLLEALGHKVTALDLAASGVDPRQIEEIGSFDEYSEPLLTFLEALPPGEKVILVGESCGGLNIAIAADKYCEKIAAAVFHNSVLPDTEHCPSYVVDKLMEVFPDWKDTTYFTYTKDGKEITGLKLGFTLLRENLYTLCGPEEYELAKMLTRKGSLFQNILAKRPFFTKEGYGSIKKIYVWTDQDEIFLPEFQLWQIENYKPDKVYKVEGGDHKLQLTKTKEIAEILQEVADTYN 3c75-a1-m1-cH_3c75-a1-m1-cJ Paracoccus versutus methylamine dehydrogenase in complex with amicyanin P23006 P23006 2.5 X-RAY DIFFRACTION 32 1.0 34007 (Paracoccus versutus) 34007 (Paracoccus versutus) 375 375 QTEGQRGAAEAAAALAAGEADEPVILEAPAPDARRVYIQDPAHFAAITQQFVIDGSTGRILGMTDGGFLPHPVAAEDGSFFAQASTVFERIARGKRTDYVEVFDPVTFLPIADIELPDAPRFLVGTYQWMNALTPDNKNLLFYQFSPAPAVGVVDLEGKTFDRMLDVPDCYHIFPASPTVFYMNCRDGSLARVDFADGETKVTNTEVFHTEDELLINHPAFSLRSGRLVWPTYTGKIFQADLTAEGATFRAPIEALTEAERADDWRPGGWQQTAYHRQSDRIYLLVDQRDEWKHKAASRFVVVLNAETGERINKIELGHEIDSINVSQDAEPLLYALSAGTQTLHIYDAATGEELRSVDQLGRGPQIITTHDMDS QTEGQRGAAEAAAALAAGEADEPVILEAPAPDARRVYIQDPAHFAAITQQFVIDGSTGRILGMTDGGFLPHPVAAEDGSFFAQASTVFERIARGKRTDYVEVFDPVTFLPIADIELPDAPRFLVGTYQWMNALTPDNKNLLFYQFSPAPAVGVVDLEGKTFDRMLDVPDCYHIFPASPTVFYMNCRDGSLARVDFADGETKVTNTEVFHTEDELLINHPAFSLRSGRLVWPTYTGKIFQADLTAEGATFRAPIEALTEAERADDWRPGGWQQTAYHRQSDRIYLLVDQRDEWKHKAASRFVVVLNAETGERINKIELGHEIDSINVSQDAEPLLYALSAGTQTLHIYDAATGEELRSVDQLGRGPQIITTHDMDS 3c7j-a1-m2-cB_3c7j-a1-m1-cA Crystal structure of transcriptional regulator (GntR family member) from Pseudomonas syringae pv. tomato str. DC3000 Q19AK4 Q19AK4 2.1 X-RAY DIFFRACTION 37 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 222 232 3c7j-a1-m1-cB_3c7j-a1-m2-cA SNARKSDREAFLSSVLGNEQPPAHLARTVIEEKLRNAIIDGSLPSGTALRQQELATLFGVSRPVREALRQLEAQSLLRVETHKGAVVAPLITEDAVDAYALRILLESEALRLSIPLLDADDLAAAASYIEQLEVETDFGQIGRLNRFHLSLYAKTHNKRLRLVEEGLNEEERFLRFNLSSSQDDHWQLLRLAEQKAVEPCVEALQYHLNRGVQAVTQYLQSQ SNARKSDREAFLSSVLGNEQPPAHLARTVIEEKLRNAIIDGSLPSGTALRQQELATLFGVSRPVREALRQLEAQSLLRVETHKGAVVAPLITEDAVDAYALRILLESEALRLSIPLLDADDLAAAASYIEQLEVETDFGQIGRLNRFHLSLYAKTHNKRLRLVEEGLNEEERFLRFNLSSGLGKLSQDDHWQLLRLAEQKAVEPCVEALQYHLNRGVQAVTQYLQSQKAGNV 3c7j-a1-m2-cB_3c7j-a1-m2-cA Crystal structure of transcriptional regulator (GntR family member) from Pseudomonas syringae pv. tomato str. DC3000 Q19AK4 Q19AK4 2.1 X-RAY DIFFRACTION 43 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 222 232 3c7j-a1-m1-cB_3c7j-a1-m1-cA SNARKSDREAFLSSVLGNEQPPAHLARTVIEEKLRNAIIDGSLPSGTALRQQELATLFGVSRPVREALRQLEAQSLLRVETHKGAVVAPLITEDAVDAYALRILLESEALRLSIPLLDADDLAAAASYIEQLEVETDFGQIGRLNRFHLSLYAKTHNKRLRLVEEGLNEEERFLRFNLSSSQDDHWQLLRLAEQKAVEPCVEALQYHLNRGVQAVTQYLQSQ SNARKSDREAFLSSVLGNEQPPAHLARTVIEEKLRNAIIDGSLPSGTALRQQELATLFGVSRPVREALRQLEAQSLLRVETHKGAVVAPLITEDAVDAYALRILLESEALRLSIPLLDADDLAAAASYIEQLEVETDFGQIGRLNRFHLSLYAKTHNKRLRLVEEGLNEEERFLRFNLSSGLGKLSQDDHWQLLRLAEQKAVEPCVEALQYHLNRGVQAVTQYLQSQKAGNV 3c7t-a3-m1-cB_3c7t-a3-m1-cD Crystal structure of the ecdysone phosphate phosphatase, EPPase, from Bombix mori in complex with tungstate Q7YTB0 Q7YTB0 1.76 X-RAY DIFFRACTION 75 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 259 259 3c7t-a3-m1-cA_3c7t-a3-m1-cC RRWVFALRHGERVDLTYGPWVPHCFENDTYVRKDLNLPLKLAHRAGGKGGYVKDTPLTRLGWFQAQLVGEGMRMAGVSIKHVYASPALRCVETAQGFLDGLRADPSVKIKVEPGLFEFKNWHMPKGIDFMTPIELCKAGLNVDMTYKPYVEMDASAETMDEFFKRGEVAMQAAVNDTEKDGGNVIFIGHAITLDQMVGALHRLRDDMEDVQPYEIGRNLLKVPYCALGAMRGKPWDVVSPPCPPSINSSSGRFDWRILI RRWVFALRHGERVDLTYGPWVPHCFENDTYVRKDLNLPLKLAHRAGGKGGYVKDTPLTRLGWFQAQLVGEGMRMAGVSIKHVYASPALRCVETAQGFLDGLRADPSVKIKVEPGLFEFKNWHMPKGIDFMTPIELCKAGLNVDMTYKPYVEMDASAETMDEFFKRGEVAMQAAVNDTEKDGGNVIFIGHAITLDQMVGALHRLRDDMEDVQPYEIGRNLLKVPYCALGAMRGKPWDVVSPPCPPSINSSSGRFDWRILI 3c7t-a3-m1-cC_3c7t-a3-m1-cD Crystal structure of the ecdysone phosphate phosphatase, EPPase, from Bombix mori in complex with tungstate Q7YTB0 Q7YTB0 1.76 X-RAY DIFFRACTION 154 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 259 259 3c7t-a1-m1-cA_3c7t-a1-m1-cB 3c7t-a2-m1-cC_3c7t-a2-m1-cD 3c7t-a3-m1-cA_3c7t-a3-m1-cB RRWVFALRHGERVDLTYGPWVPHCFENDTYVRKDLNLPLKLAHRAGGKGGYVKDTPLTRLGWFQAQLVGEGMRMAGVSIKHVYASPALRCVETAQGFLDGLRADPSVKIKVEPGLFEFKNWHMPKGIDFMTPIELCKAGLNVDMTYKPYVEMDASAETMDEFFKRGEVAMQAAVNDTEKDGGNVIFIGHAITLDQMVGALHRLRDDMEDVQPYEIGRNLLKVPYCALGAMRGKPWDVVSPPCPPSINSSSGRFDWRILI RRWVFALRHGERVDLTYGPWVPHCFENDTYVRKDLNLPLKLAHRAGGKGGYVKDTPLTRLGWFQAQLVGEGMRMAGVSIKHVYASPALRCVETAQGFLDGLRADPSVKIKVEPGLFEFKNWHMPKGIDFMTPIELCKAGLNVDMTYKPYVEMDASAETMDEFFKRGEVAMQAAVNDTEKDGGNVIFIGHAITLDQMVGALHRLRDDMEDVQPYEIGRNLLKVPYCALGAMRGKPWDVVSPPCPPSINSSSGRFDWRILI 3c7x-a2-m1-cA_3c7x-a2-m2-cA Hemopexin-like domain of matrix metalloproteinase 14 P50281 P50281 1.7 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 PNICDGNFDTVAMLRGEMFVFKERWFWRVRNNQVMDGYPMPIGQFWRGLPASINTAYERKDGKFVFFKGDKHWVFDEASLEPGYPKHIKELGRGLPTDKIDAALFWMPNGKTYFFRGNKYYRFNEELRAVDSEYPKNIKVWEGIPESPRGSFMGSDEVFTYFYKGNKYWKFNNQKLKVEPGYPKSALRDWMGCPSG PNICDGNFDTVAMLRGEMFVFKERWFWRVRNNQVMDGYPMPIGQFWRGLPASINTAYERKDGKFVFFKGDKHWVFDEASLEPGYPKHIKELGRGLPTDKIDAALFWMPNGKTYFFRGNKYYRFNEELRAVDSEYPKNIKVWEGIPESPRGSFMGSDEVFTYFYKGNKYWKFNNQKLKVEPGYPKSALRDWMGCPSG 3c7x-a3-m1-cA_3c7x-a3-m3-cA Hemopexin-like domain of matrix metalloproteinase 14 P50281 P50281 1.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 PNICDGNFDTVAMLRGEMFVFKERWFWRVRNNQVMDGYPMPIGQFWRGLPASINTAYERKDGKFVFFKGDKHWVFDEASLEPGYPKHIKELGRGLPTDKIDAALFWMPNGKTYFFRGNKYYRFNEELRAVDSEYPKNIKVWEGIPESPRGSFMGSDEVFTYFYKGNKYWKFNNQKLKVEPGYPKSALRDWMGCPSG PNICDGNFDTVAMLRGEMFVFKERWFWRVRNNQVMDGYPMPIGQFWRGLPASINTAYERKDGKFVFFKGDKHWVFDEASLEPGYPKHIKELGRGLPTDKIDAALFWMPNGKTYFFRGNKYYRFNEELRAVDSEYPKNIKVWEGIPESPRGSFMGSDEVFTYFYKGNKYWKFNNQKLKVEPGYPKSALRDWMGCPSG 3c85-a1-m1-cC_3c85-a1-m1-cA Crystal structure of TrkA domain of putative glutathione-regulated potassium-efflux KefB from Vibrio parahaemolyticus Q87RG9 Q87RG9 1.9 X-RAY DIFFRACTION 184 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 144 148 LINPGHAQVLILGGRIGTGAYDELRARYGKISLGIEIREEAAQQHRSEGRNVISGDATDPDFWERILDTGHVKLVLLAPHHQGNQTALEQLQRRNYKGQIAAIAEYPDQLEGLLESGVDAAFNIYSEAGSGFARHVCKQLEPQF QLINPGHAQVLILGGRIGTGAYDELRARYGKISLGIEIREEAAQQHRSEGRNVISGDATDPDFWERILDTGHVKLVLLAPHHQGNQTALEQLQRRNYKGQIAAIAEYPDQLEGLLESGVDAAFNIYSEAGSGFARHVCKQLEPQFTSI 3c8c-a1-m1-cA_3c8c-a1-m1-cB Crystal structure of Mcp_N and cache domains of methyl-accepting chemotaxis protein from Vibrio cholerae Q9KL26 Q9KL26 1.5 X-RAY DIFFRACTION 37 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 238 238 5ave-a1-m1-cA_5ave-a1-m2-cA 5avf-a1-m1-cA_5avf-a1-m1-cB 6iov-a1-m2-cB_6iov-a1-m1-cA SLRSVSDSVDEIVDGVSKTTAEVINGRKSIAQYATSLIENNPEPDNVRTIISQPLIKNTFLLVGFGLEKDGSNINNDPSWNPGPTWDPRVRPWYKDAKNAGKLVITAPYADSASGEILVSVATPVKDSATGQFLGSIFYDVSLAELAELVNEVKLFDAGYVFIVSEDGTTIAHPKKEFNGKPSEFLGESKINVDTHQVIINGKPYAVSFSDVEGEDWYVGVVIDEEIAYAALDELRRS SLRSVSDSVDEIVDGVSKTTAEVINGRKSIAQYATSLIENNPEPDNVRTIISQPLIKNTFLLVGFGLEKDGSNINNDPSWNPGPTWDPRVRPWYKDAKNAGKLVITAPYADSASGEILVSVATPVKDSATGQFLGSIFYDVSLAELAELVNEVKLFDAGYVFIVSEDGTTIAHPKKEFNGKPSEFLGESKINVDTHQVIINGKPYAVSFSDVEGEDWYVGVVIDEEIAYAALDELRRS 3c8e-a1-m1-cB_3c8e-a1-m1-cA Crystal Structure Analysis of yghU from E. Coli Q46845 Q46845 1.5 X-RAY DIFFRACTION 184 1.0 562 (Escherichia coli) 562 (Escherichia coli) 283 284 YQPAKVWTWDKSAGGAFANINRPVSGPTHEKTLPVGKHPLQLYSLGTPNGQKVTIMLEELLALGVTGAEYDAWLIRIGDGDQFSSGFVEVNPNSKIPALRDHTHNPPIRVFESGSILLYLAEKFGYFLPQDLAKRTETMNWLFWLQGAAPFLGGGFGHFYHYAPVKIEYAINRFTMEAKRLLDVLDKQLAQHKFVAGDEYTIADMAIWPWFGNVVLGGVYDAAEFLDAGSYKHVQRWAKEVGERPAVKRGRIVNRTNGPLNEQLHERHDASDFETNTEDKRQG TYQPAKVWTWDKSAGGAFANINRPVSGPTHEKTLPVGKHPLQLYSLGTPNGQKVTIMLEELLALGVTGAEYDAWLIRIGDGDQFSSGFVEVNPNSKIPALRDHTHNPPIRVFESGSILLYLAEKFGYFLPQDLAKRTETMNWLFWLQGAAPFLGGGFGHFYHYAPVKIEYAINRFTMEAKRLLDVLDKQLAQHKFVAGDEYTIADMAIWPWFGNVVLGGVYDAAEFLDAGSYKHVQRWAKEVGERPAVKRGRIVNRTNGPLNEQLHERHDASDFETNTEDKRQG 3c8g-a3-m1-cD_3c8g-a3-m3-cD Crystal structure of a possible transciptional regulator YggD from Shigella flexneri 2a str. 2457T Q83Q96 Q83Q96 2.5 X-RAY DIFFRACTION 64 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 153 153 3c8g-a1-m1-cA_3c8g-a1-m2-cA ATLTEDDVLEQLDAQDNLFSFTAHSILLQGIRQFLPSLFVDNDEEIVEYAVPLLAQSGPLDDIDVALRLIYALGDKWLYADITHFSQYWHYLNEQDETPGFADDITWDFISNVNSITRNATLYDALKAFAEARFSGVKTALTLAVTTTLKELT ATLTEDDVLEQLDAQDNLFSFTAHSILLQGIRQFLPSLFVDNDEEIVEYAVPLLAQSGPLDDIDVALRLIYALGDKWLYADITHFSQYWHYLNEQDETPGFADDITWDFISNVNSITRNATLYDALKAFAEARFSGVKTALTLAVTTTLKELT 3c8h-a6-m1-cC_3c8h-a6-m1-cD Crystal structure of the enterobactin esterase FES from Shigella flexneri in the presence of 2,3-Di-hydroxy-N-benzoyl-serine A0A0H2VTI6 A0A0H2VTI6 2.48 X-RAY DIFFRACTION 72 0.997 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 376 376 3c87-a3-m1-cB_3c87-a3-m1-cA 3c8d-a5-m1-cA_3c8d-a5-m1-cB 3c8d-a6-m1-cD_3c8d-a6-m1-cC 3c8h-a5-m1-cA_3c8h-a5-m1-cB VGSESWWQSKHGPEWQRLNDEFEVTFWWRDPQGSEEYSTIKRVWVYITGVTQPQSQRIAGTDVWQWTTQLNANWRGSYCFIPTERDDIFSAPSPDRLELREGWRKLLPQAIADPLNPQSWKGGLGHAVSALEPQAPLQPGWDCPQAPEIPAKEIIWKSERLKNSRRVWIFTTGDVERPLAVLLDGEFWAQSPVWPVLTSLTHRQQLPPAVYVLIDAIDTTHRAHELPCNADFWLAVQQELLPLVKVIAPFSDRADRTVVAGQSFGGLSALYAGLHWPERFGCVLSQSGSYWWPHRGGQQEGVLLEKLKAGEVSAEGLRIVLEAGIREPIRANQALYAQLHPIKESIFWRQVDGGHDALCWRGGLQGLIDLWQPLFH VGSESWWQSKHGPEWQRLNDEFEVTFWWRDPQGSEEYSTIKRVWVYITGVTDPQSQRIAGTDVWQWTTQLNANWRGSYCFIPTERDDIFSAPSPDRLELREGWRKLLPQAIADPLNPQSWKGGLGHAVSALEPQAPLQPGWDCPQAPEIPAKEIIWKSERLKNSRRVWIFTTGDVERPLAVLLDGEFWAQSPVWPVLTSLTHRQQLPPAVYVLIDAIDTTHRAHELPCNADFWLAVQQELLPLVKVIAPFSDRADRTVVAGQSFGGLSALYAGLHWPERFGCVLSQSGSYWWPHRGGQQEGVLLEKLKAGEVSAEGLRIVLEAGIREPIRANQALYAQLHPIKESIFWRQVDGGHDALCWRGGLQGLIDLWQPLFH 3c8i-a1-m1-cA_3c8i-a1-m2-cA Crystal structure of a putative membrane protein from Corynebacterium diphtheriae Q6NIK4 Q6NIK4 1.95 X-RAY DIFFRACTION 18 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 127 127 DLVPAMIAEVNPRDMVVMALVNTNVDPTLPPRWALATRNITAIPGIEGDTRKVGTRIPAVAVTGQRSVGNQDSWDQISPMPIAWATPDSSVIARAESTIPSEQWTTLSKNLNKLDQVRETKFDLLEL DLVPAMIAEVNPRDMVVMALVNTNVDPTLPPRWALATRNITAIPGIEGDTRKVGTRIPAVAVTGQRSVGNQDSWDQISPMPIAWATPDSSVIARAESTIPSEQWTTLSKNLNKLDQVRETKFDLLEL 3c8i-a1-m1-cA_3c8i-a1-m2-cB Crystal structure of a putative membrane protein from Corynebacterium diphtheriae Q6NIK4 Q6NIK4 1.95 X-RAY DIFFRACTION 36 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 127 129 3c8i-a1-m2-cA_3c8i-a1-m1-cB DLVPAMIAEVNPRDMVVMALVNTNVDPTLPPRWALATRNITAIPGIEGDTRKVGTRIPAVAVTGQRSVGNQDSWDQISPMPIAWATPDSSVIARAESTIPSEQWTTLSKNLNKLDQVRETKFDLLEL NYDLVPAMIAEVNPRDMVVMALVNTNVDPTLPPRWALATRNITAIPGIEGDTRKVGTRIPAVAVTGQRSVGNQDSWDQISPMPIAWATPDSSVIARAESTIPSEQWTTLSKNLNKLDQVRETKFDLLEL 3c8i-a1-m2-cA_3c8i-a1-m2-cB Crystal structure of a putative membrane protein from Corynebacterium diphtheriae Q6NIK4 Q6NIK4 1.95 X-RAY DIFFRACTION 37 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 127 129 3c8i-a1-m1-cA_3c8i-a1-m1-cB DLVPAMIAEVNPRDMVVMALVNTNVDPTLPPRWALATRNITAIPGIEGDTRKVGTRIPAVAVTGQRSVGNQDSWDQISPMPIAWATPDSSVIARAESTIPSEQWTTLSKNLNKLDQVRETKFDLLEL NYDLVPAMIAEVNPRDMVVMALVNTNVDPTLPPRWALATRNITAIPGIEGDTRKVGTRIPAVAVTGQRSVGNQDSWDQISPMPIAWATPDSSVIARAESTIPSEQWTTLSKNLNKLDQVRETKFDLLEL 3c8j-a2-m1-cC_3c8j-a2-m1-cD The crystal structure of natural killer cell receptor Ly49C Q64329 Q64329 2.6 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 126 130 1p1z-a1-m1-cD_1p1z-a1-m2-cD 1p4l-a1-m1-cD_1p4l-a1-m2-cD 3c8j-a1-m1-cB_3c8j-a1-m1-cA 5j6g-a3-m1-cG_5j6g-a3-m1-cH GRGVKYWFCYSTKCYYFIMNKTTWSGCKANCQHYGVPILKIEDEDELKFLQRHVIPGNYWIGLSYDKKKKEWAWIDNGPSKLDMKIKKMNFKSRGCVFLSKARIEDIDCNIPYYCICGKKLDKFPD SRDTGRGVKYWFCYSTKCYYFIMNKTTWSGCKANCQHYGVPILKIEDEDELKFLQRHVIPGNYWIGLSYDKKKKEWAWIDNGPSKLDMKIKKMNFKSRGCVFLSKARIEDIDCNIPYYCICGKKLDKFPD 3c8l-a1-m1-cB_3c8l-a1-m2-cB Crystal structure of a ftsz-like protein of unknown function (npun_r1471) from nostoc punctiforme pcc 73102 at 1.22 A resolution 1.22 X-RAY DIFFRACTION 55 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 113 113 3c8l-a1-m1-cA_3c8l-a1-m2-cA GARKRLIIEGGIDQHGQEPTIAASRAVRNAIAHNALPGVWEVAGLSHPNEIIEVQVAVPYPEQVREEEVLAVLPFGRKTLTVESGGIVQGRAIPELNDKNDELIAIAAVTVLI GARKRLIIEGGIDQHGQEPTIAASRAVRNAIAHNALPGVWEVAGLSHPNEIIEVQVAVPYPEQVREEEVLAVLPFGRKTLTVESGGIVQGRAIPELNDKNDELIAIAAVTVLI 3c8l-a1-m2-cB_3c8l-a1-m1-cA Crystal structure of a ftsz-like protein of unknown function (npun_r1471) from nostoc punctiforme pcc 73102 at 1.22 A resolution 1.22 X-RAY DIFFRACTION 35 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 113 115 3c8l-a1-m1-cB_3c8l-a1-m2-cA GARKRLIIEGGIDQHGQEPTIAASRAVRNAIAHNALPGVWEVAGLSHPNEIIEVQVAVPYPEQVREEEVLAVLPFGRKTLTVESGGIVQGRAIPELNDKNDELIAIAAVTVLI GARKRLIIEGGIDQHGQEPTIAASRAVRNAIAHNALPGVWEVAGLSHPNEIIEVQVAVPYPEQVREEEVLAVLPFGRKTLTVESGGIVQGRAIPELNDKNDELIAIAAVTVLIEN 3c8l-a1-m2-cB_3c8l-a1-m2-cA Crystal structure of a ftsz-like protein of unknown function (npun_r1471) from nostoc punctiforme pcc 73102 at 1.22 A resolution 1.22 X-RAY DIFFRACTION 26 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 113 115 3c8l-a1-m1-cB_3c8l-a1-m1-cA GARKRLIIEGGIDQHGQEPTIAASRAVRNAIAHNALPGVWEVAGLSHPNEIIEVQVAVPYPEQVREEEVLAVLPFGRKTLTVESGGIVQGRAIPELNDKNDELIAIAAVTVLI GARKRLIIEGGIDQHGQEPTIAASRAVRNAIAHNALPGVWEVAGLSHPNEIIEVQVAVPYPEQVREEEVLAVLPFGRKTLTVESGGIVQGRAIPELNDKNDELIAIAAVTVLIEN 3c8m-a1-m1-cA_3c8m-a1-m2-cA Crystal structure of homoserine dehydrogenase from Thermoplasma volcanium Q97BR6 Q97BR6 1.9 X-RAY DIFFRACTION 104 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 320 320 3jsa-a1-m1-cA_3jsa-a1-m2-cA KTINLSIFGLGNVGLNLLRIIRSFNEENRLGLKFNVVFVADSLHSYYNERIDIGKVISYKEKGSLDSLEYESISASEALARDFDIVVDATPASADGKKELAFYKETFENGKDVVTANKSGLANFWPEIEYARSNNRRIRYEATVAGGVPLFSFIDYSVLPSRIKKFRGIVSLTINYFIRELANKREFDDVLSEATKLGIVEKNYKDDLTGLDAARKSVILCNHLYGSSYRLSDVFYEGILQDRSFGKNERLVTETGIVNGKPSAESRIKSLDSNDYLLTLGKGSLGYQLQTDTNGTLNVSDLYDGPYETAGAVNDLVILS KTINLSIFGLGNVGLNLLRIIRSFNEENRLGLKFNVVFVADSLHSYYNERIDIGKVISYKEKGSLDSLEYESISASEALARDFDIVVDATPASADGKKELAFYKETFENGKDVVTANKSGLANFWPEIEYARSNNRRIRYEATVAGGVPLFSFIDYSVLPSRIKKFRGIVSLTINYFIRELANKREFDDVLSEATKLGIVEKNYKDDLTGLDAARKSVILCNHLYGSSYRLSDVFYEGILQDRSFGKNERLVTETGIVNGKPSAESRIKSLDSNDYLLTLGKGSLGYQLQTDTNGTLNVSDLYDGPYETAGAVNDLVILS 3c8n-a2-m1-cD_3c8n-a2-m1-cC Crystal structure of apo-FGD1 from Mycobacterium tuberculosis P9WNE1 P9WNE1 1.9 X-RAY DIFFRACTION 160 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 322 324 3b4y-a1-m1-cA_3b4y-a1-m1-cB 3c8n-a1-m1-cB_3c8n-a1-m1-cA ELKLGYKASAEQFAPRELVELAVAAEAHGDSATVSDHFQPWRHQGGHAPFSLSWTAVGERTNRLLLGTSVLTPTFRYNPAVIAQAFATGCLYPNRVFLGVGTGEALNEIATGYGAWPEFKERFARLRESVGLRQLWSDRVDFDGDYYRLKGASIYDVPDGGVPVYIAAGGPAVAKYAGRAGDGFICTSGKGEELYTEKLPAVREGAAAADRSVDGIDKIEIKISYDPDPELANNTRFWAPLSLTAEQKHSIDDPIEEKAADALPIEQIAKRWIVASDPDEAVEKVGQYVTWGLNHLVFHAPGHDQRRFLELFQSDLAPRLRR ELKLGYKASAEQFAPRELVELAVAAEAHGDSATVSDHFQPWRHQGGHAPFSLSWTAVGERTNRLLLGTSVLTPTFRYNPAVIAQAFATGCLYPNRVFLGVGTGEALNEIATGYEGAWPEFKERFARLRESVGLRQLWSGDRVDFDGDYYRLKGASIYDVPDGGVPVYIAAGGPAVAKYAGRAGDGFICTSGKGEELYTEKLPAVREGAAAADRSVDGIDKIEIKISYDPDPELANNTRFWAPLSLTAEQKHSIDDPIEEKAADALPIEQIAKRWIVASDPDEAVEKVGQYVTWGLNHLVFHAPGHDQRRFLELFQSDLAPRLRR 3c8o-a1-m2-cB_3c8o-a1-m3-cB The Crystal Structure of RraA from PAO1 Q9I2W7 Q9I2W7 1.9 X-RAY DIFFRACTION 38 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 161 161 3c8o-a1-m1-cB_3c8o-a1-m2-cB 3c8o-a1-m1-cB_3c8o-a1-m3-cB MHYVTPDLCDAYPELVQVVEPMFSNFGGRDSFGGEIVTIKCFEDNSLVKEQVDKDGKGKVLVVDGGGSLRRALLGDMLAEKAAKNGWEGIVVYGCIRDVDVIAQTDLGVQALASHPLKTDKRGIGDLNVAVTFGGVTFRPGEFVYADNNGIIVSPQALKMP MHYVTPDLCDAYPELVQVVEPMFSNFGGRDSFGGEIVTIKCFEDNSLVKEQVDKDGKGKVLVVDGGGSLRRALLGDMLAEKAAKNGWEGIVVYGCIRDVDVIAQTDLGVQALASHPLKTDKRGIGDLNVAVTFGGVTFRPGEFVYADNNGIIVSPQALKMP 3c8p-a1-m1-cA_3c8p-a1-m1-cB X-ray structure of Viscotoxin A1 from Viscum album L. D0VWT3 D0VWT3 1.25 X-RAY DIFFRACTION 13 1.0 3972 (Viscum album) 3972 (Viscum album) 46 46 KSCCPSTTGRNIYNTCRLTGSSRETCAKLSGCKIISASTCPSNYPK KSCCPSTTGRNIYNTCRLTGSSRETCAKLSGCKIISASTCPSNYPK 3c8t-a1-m1-cA_3c8t-a1-m4-cA Crystal structure of fumarate lyase from Mesorhizobium sp. BNC1 Q11C84 Q11C84 2.2 X-RAY DIFFRACTION 114 1.0 266779 (Chelativorans sp. BNC1) 266779 (Chelativorans sp. BNC1) 423 423 3c8t-a1-m2-cA_3c8t-a1-m3-cA PLYGRSFADDKMRELFSAQSFISRCVETEVALARAQARLGIIPEDAAAGITAAARTFAPEMERLRDDTEIVGYPILPLVEQLSAHAGEAGKYLHWGATTQDIMDTATVLQIRDGLALISRRIESVRKALAALARNHRDTPMAGRTHLQHALPVTFGYKAAVWLSAFDRHAARLEEISPRVLVVEFSGASGTLASLGTRGLDVQRELARELNLGVPSITWHSARDAVAETVQFLALVSGSLGKLAMDISIMMTTELGEVAEPNPVSCELILAGARIVRNHATSMLDAMIHDFERATGPWHLEWSAVPEGFAVASGILYQAEFMLGGLQVFPDRMRENLDHSRGLIVAEAVMMALAPHTGRKEAHDIVYLGCRRAVEDKTGLFEVLRTMPEVAKPLGEEALRDLTDPRNYLGSAGAMVDNVLGGR PLYGRSFADDKMRELFSAQSFISRCVETEVALARAQARLGIIPEDAAAGITAAARTFAPEMERLRDDTEIVGYPILPLVEQLSAHAGEAGKYLHWGATTQDIMDTATVLQIRDGLALISRRIESVRKALAALARNHRDTPMAGRTHLQHALPVTFGYKAAVWLSAFDRHAARLEEISPRVLVVEFSGASGTLASLGTRGLDVQRELARELNLGVPSITWHSARDAVAETVQFLALVSGSLGKLAMDISIMMTTELGEVAEPNPVSCELILAGARIVRNHATSMLDAMIHDFERATGPWHLEWSAVPEGFAVASGILYQAEFMLGGLQVFPDRMRENLDHSRGLIVAEAVMMALAPHTGRKEAHDIVYLGCRRAVEDKTGLFEVLRTMPEVAKPLGEEALRDLTDPRNYLGSAGAMVDNVLGGR 3c8t-a1-m2-cA_3c8t-a1-m4-cA Crystal structure of fumarate lyase from Mesorhizobium sp. BNC1 Q11C84 Q11C84 2.2 X-RAY DIFFRACTION 53 1.0 266779 (Chelativorans sp. BNC1) 266779 (Chelativorans sp. BNC1) 423 423 3c8t-a1-m1-cA_3c8t-a1-m3-cA PLYGRSFADDKMRELFSAQSFISRCVETEVALARAQARLGIIPEDAAAGITAAARTFAPEMERLRDDTEIVGYPILPLVEQLSAHAGEAGKYLHWGATTQDIMDTATVLQIRDGLALISRRIESVRKALAALARNHRDTPMAGRTHLQHALPVTFGYKAAVWLSAFDRHAARLEEISPRVLVVEFSGASGTLASLGTRGLDVQRELARELNLGVPSITWHSARDAVAETVQFLALVSGSLGKLAMDISIMMTTELGEVAEPNPVSCELILAGARIVRNHATSMLDAMIHDFERATGPWHLEWSAVPEGFAVASGILYQAEFMLGGLQVFPDRMRENLDHSRGLIVAEAVMMALAPHTGRKEAHDIVYLGCRRAVEDKTGLFEVLRTMPEVAKPLGEEALRDLTDPRNYLGSAGAMVDNVLGGR PLYGRSFADDKMRELFSAQSFISRCVETEVALARAQARLGIIPEDAAAGITAAARTFAPEMERLRDDTEIVGYPILPLVEQLSAHAGEAGKYLHWGATTQDIMDTATVLQIRDGLALISRRIESVRKALAALARNHRDTPMAGRTHLQHALPVTFGYKAAVWLSAFDRHAARLEEISPRVLVVEFSGASGTLASLGTRGLDVQRELARELNLGVPSITWHSARDAVAETVQFLALVSGSLGKLAMDISIMMTTELGEVAEPNPVSCELILAGARIVRNHATSMLDAMIHDFERATGPWHLEWSAVPEGFAVASGILYQAEFMLGGLQVFPDRMRENLDHSRGLIVAEAVMMALAPHTGRKEAHDIVYLGCRRAVEDKTGLFEVLRTMPEVAKPLGEEALRDLTDPRNYLGSAGAMVDNVLGGR 3c8t-a1-m3-cA_3c8t-a1-m4-cA Crystal structure of fumarate lyase from Mesorhizobium sp. BNC1 Q11C84 Q11C84 2.2 X-RAY DIFFRACTION 292 1.0 266779 (Chelativorans sp. BNC1) 266779 (Chelativorans sp. BNC1) 423 423 3c8t-a1-m1-cA_3c8t-a1-m2-cA PLYGRSFADDKMRELFSAQSFISRCVETEVALARAQARLGIIPEDAAAGITAAARTFAPEMERLRDDTEIVGYPILPLVEQLSAHAGEAGKYLHWGATTQDIMDTATVLQIRDGLALISRRIESVRKALAALARNHRDTPMAGRTHLQHALPVTFGYKAAVWLSAFDRHAARLEEISPRVLVVEFSGASGTLASLGTRGLDVQRELARELNLGVPSITWHSARDAVAETVQFLALVSGSLGKLAMDISIMMTTELGEVAEPNPVSCELILAGARIVRNHATSMLDAMIHDFERATGPWHLEWSAVPEGFAVASGILYQAEFMLGGLQVFPDRMRENLDHSRGLIVAEAVMMALAPHTGRKEAHDIVYLGCRRAVEDKTGLFEVLRTMPEVAKPLGEEALRDLTDPRNYLGSAGAMVDNVLGGR PLYGRSFADDKMRELFSAQSFISRCVETEVALARAQARLGIIPEDAAAGITAAARTFAPEMERLRDDTEIVGYPILPLVEQLSAHAGEAGKYLHWGATTQDIMDTATVLQIRDGLALISRRIESVRKALAALARNHRDTPMAGRTHLQHALPVTFGYKAAVWLSAFDRHAARLEEISPRVLVVEFSGASGTLASLGTRGLDVQRELARELNLGVPSITWHSARDAVAETVQFLALVSGSLGKLAMDISIMMTTELGEVAEPNPVSCELILAGARIVRNHATSMLDAMIHDFERATGPWHLEWSAVPEGFAVASGILYQAEFMLGGLQVFPDRMRENLDHSRGLIVAEAVMMALAPHTGRKEAHDIVYLGCRRAVEDKTGLFEVLRTMPEVAKPLGEEALRDLTDPRNYLGSAGAMVDNVLGGR 3c8v-a2-m1-cD_3c8v-a2-m1-cC Crystal structure of putative acetyltransferase (YP_390128.1) from Desulfovibrio desulfuricans G20 at 2.28 A resolution Q30V63 Q30V63 2.28 X-RAY DIFFRACTION 71 0.993 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 454 455 3c8v-a1-m1-cA_3c8v-a1-m1-cB GTQLELLLERIIDRVNVNLRHQKFDVGDYVRRQTPHLHYSKFYAFYGLSADDPVHFHFKNSSLAGSYLLGRVNVLHSALYKSDIRGDELKRKGQHFVCDGKIPLHDDEVITIKDSFLNKTLVHSNSHDPESPEEFTIRNTVAPYANIHGSLTEGSFIGSFATVDLSTIHNSVVRYFSYVQTGELVGKCVEPGQIWIKSGDELEFHYSFDKAILDKYISQEAGSCPTGVLEFVEVRQEDFEEVFSASGASVSGYAVIKGDTVIGENVLVSQRAYLDNAWGKGSNAQENCYIINSRLERNCVTAHGGKIINAHLGDIFTGFNSFLQGSESSPLKIGDGCVVPHTIIDLEEPLEIPAGHLVWGYIRNKADLAAHSISFEEFAKVDGEVTGRTFRGKGGPFLDSFKKRIKRILSENGAFFDGSEGTGHAQKNFTFNIIQPYQDGDPRGYPTILIQPNN GTQLELLLERIIDRVNVNLRHQKFDVGDYVRRQTPHLHYSKFYAFYGLSADDPVHFHFKNSSLAGSYLLGRVNVLHSALYKSDIRGDELKRKGQHFVKIPLHDDEVITIKDSFLNKTLVHSNSHDPESPEEFTIRNTVAPYANIHGSLTEGSFIGSFATVDLSTIHNSVVRYFSYVQTGELVGKCVEPGQIWIKSGDELEFHYSFDKAILDKYISQEAGSCPTGVLEFVEVRQEDFEEVFASGHSASGASVSGYAVIKGDTVIGENVLVSQRAYLDNAWGKGSNAQENCYIINSRLERNCVTAHGGKIINAHLGDIFTGFNSFLQGSESSPLKIGDGCVVPHTIIDLEEPLEIPAGHLVWGYIRNKADLAAHSISFEEFAKVDGEVTGRTFRGKGGPFLDSFKKRIKRILSENGAFFDGSEGTGHAQKNFTFNIIQPYQDGDPRGYPTILIQPNN 3c8w-a1-m1-cB_3c8w-a1-m3-cD Crystal structure of acetoacetate decarboxylase (ADC) (YP_094708.1) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 1.60 A resolution Q5ZXQ9 Q5ZXQ9 1.6 X-RAY DIFFRACTION 189 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 243 244 3c8w-a1-m1-cC_3c8w-a1-m1-cA 3c8w-a1-m2-cB_3c8w-a1-m1-cD 3c8w-a1-m2-cC_3c8w-a1-m2-cA 3c8w-a1-m3-cB_3c8w-a1-m2-cD 3c8w-a1-m3-cC_3c8w-a1-m3-cA SANSLEGVIDNEFSPAPRWLNTYPAGPYRFINREFFIIAYETDPDLLQAILPPDELLEPVVKFEFIRPDSTGFGDYTESGQVVPVRYKGEEGGFTISFLDCHAPIAGGREIWGFPKLAKPKLFVEEDTLIGILKYGSIDIAIATGYKHRPLDAEKVLESVKKPVFLLKNIPNVDGTPLVNQLTKTYLTDITVKGAWTGPGSLELHPHALAPISNLYIKKIVSVSHFITDLTLPYGKVVADYLA LSANSLEGVIDNEFSPAPRWLNTYPAGPYRFINREFFIIAYETDPDLLQAILPPDELLEPVVKFEFIRPDSTGFGDYTESGQVVPVRYKGEEGGFTISFLDCHAPIAGGREIWGFPKLAKPKLFVEEDTLIGILKYGSIDIAIATGYKHRPLDAEKVLESVKKPVFLLKNIPNVDGTPLVNQLTKTYLTDITVKGAWTGPGSLELHPHALAPISNLYIKKIVSVSHFITDLTLPYGKVVADYLA 3c8w-a1-m3-cB_3c8w-a1-m3-cD Crystal structure of acetoacetate decarboxylase (ADC) (YP_094708.1) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 1.60 A resolution Q5ZXQ9 Q5ZXQ9 1.6 X-RAY DIFFRACTION 65 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 243 244 3c8w-a1-m1-cA_3c8w-a1-m1-cD 3c8w-a1-m1-cB_3c8w-a1-m1-cA 3c8w-a1-m1-cB_3c8w-a1-m1-cD 3c8w-a1-m1-cC_3c8w-a1-m2-cC 3c8w-a1-m1-cC_3c8w-a1-m3-cC 3c8w-a1-m2-cA_3c8w-a1-m2-cD 3c8w-a1-m2-cB_3c8w-a1-m2-cA 3c8w-a1-m2-cB_3c8w-a1-m2-cD 3c8w-a1-m2-cC_3c8w-a1-m3-cC 3c8w-a1-m3-cA_3c8w-a1-m3-cD 3c8w-a1-m3-cB_3c8w-a1-m3-cA SANSLEGVIDNEFSPAPRWLNTYPAGPYRFINREFFIIAYETDPDLLQAILPPDELLEPVVKFEFIRPDSTGFGDYTESGQVVPVRYKGEEGGFTISFLDCHAPIAGGREIWGFPKLAKPKLFVEEDTLIGILKYGSIDIAIATGYKHRPLDAEKVLESVKKPVFLLKNIPNVDGTPLVNQLTKTYLTDITVKGAWTGPGSLELHPHALAPISNLYIKKIVSVSHFITDLTLPYGKVVADYLA LSANSLEGVIDNEFSPAPRWLNTYPAGPYRFINREFFIIAYETDPDLLQAILPPDELLEPVVKFEFIRPDSTGFGDYTESGQVVPVRYKGEEGGFTISFLDCHAPIAGGREIWGFPKLAKPKLFVEEDTLIGILKYGSIDIAIATGYKHRPLDAEKVLESVKKPVFLLKNIPNVDGTPLVNQLTKTYLTDITVKGAWTGPGSLELHPHALAPISNLYIKKIVSVSHFITDLTLPYGKVVADYLA 3c8w-a1-m3-cC_3c8w-a1-m3-cD Crystal structure of acetoacetate decarboxylase (ADC) (YP_094708.1) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 1.60 A resolution Q5ZXQ9 Q5ZXQ9 1.6 X-RAY DIFFRACTION 34 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 243 244 3c8w-a1-m1-cA_3c8w-a1-m3-cD 3c8w-a1-m1-cB_3c8w-a1-m2-cB 3c8w-a1-m1-cB_3c8w-a1-m3-cB 3c8w-a1-m1-cC_3c8w-a1-m1-cD 3c8w-a1-m1-cC_3c8w-a1-m2-cA 3c8w-a1-m1-cD_3c8w-a1-m2-cA 3c8w-a1-m2-cB_3c8w-a1-m3-cB 3c8w-a1-m2-cC_3c8w-a1-m2-cD 3c8w-a1-m2-cC_3c8w-a1-m3-cA 3c8w-a1-m2-cD_3c8w-a1-m3-cA 3c8w-a1-m3-cC_3c8w-a1-m1-cA SANSLEGVIDNEFSPAPRWLNTYPAGPYRFINREFFIIAYETDPDLLQAILPPDELLEPVVKFEFIRPDSTGFGDYTESGQVVPVRYKGEEGGFTISFLDCHAPIAGGREIWGFPKLAKPKLFVEEDTLIGILKYGSIDIAIATGYKHRPLDAEKVLESVKKPVFLLKNIPNVDGTPLVNQLTKTYLTDITVKGAWTGPGSLELHPHALAPISNLYIKKIVSVSHFITDLTLPYGKVVADYLA LSANSLEGVIDNEFSPAPRWLNTYPAGPYRFINREFFIIAYETDPDLLQAILPPDELLEPVVKFEFIRPDSTGFGDYTESGQVVPVRYKGEEGGFTISFLDCHAPIAGGREIWGFPKLAKPKLFVEEDTLIGILKYGSIDIAIATGYKHRPLDAEKVLESVKKPVFLLKNIPNVDGTPLVNQLTKTYLTDITVKGAWTGPGSLELHPHALAPISNLYIKKIVSVSHFITDLTLPYGKVVADYLA 3c8x-a1-m1-cA_3c8x-a1-m2-cA Crystal structure of the ligand binding domain of human Ephrin A2 (Epha2) receptor protein kinase P29317 P29317 1.95 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 KEVVLLDFAAALGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKK KEVVLLDFAAALGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKK 3c97-a1-m1-cA_3c97-a1-m2-cA Crystal structure of the response regulator receiver domain of a signal transduction histidine kinase from Aspergillus oryzae Q2U940 Q2U940 1.7 X-RAY DIFFRACTION 228 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 120 120 PLSVLIAEDNDICRLVAAKALEKCTNDITVVTNGLQALQAYQNRQFDVIIMDIQMPVMDGLEAVSEIRNYERTHNTKRASIIAITADTIDDDRPGAELDEYVSKPLNPNQLRDVVLTCHS PLSVLIAEDNDICRLVAAKALEKCTNDITVVTNGLQALQAYQNRQFDVIIMDIQMPVMDGLEAVSEIRNYERTHNTKRASIIAITADTIDDDRPGAELDEYVSKPLNPNQLRDVVLTCHS 3c99-a2-m1-cA_3c99-a2-m2-cA Structural Basis of Histone H4 Recognition by p55 Q24572 Q24572 2.9 X-RAY DIFFRACTION 86 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 380 380 SFDDAVEERVINEEYKIWKKNTPFLYDLVMTHALEWPSLTAQWLPDVTKQDGKDYSVHRLILGTHTSDEQNHLLIASVQLPSEDFGSVCGKIEIEIKINHEGEVNRARYMPQNACVIATKTPSSDVLVFDYTKHPCQPDLRLRGHQKEGYGLSWNPNLNGYLLSASDDHTICLWDINATPKEHRVIDAKNIFTGHTAVVEDVAWHLLHESLFGSVADDQKLMIWDTRNNNTSKPSHTVDAHTAEVNCLSFNPYSEFILATGSADKTVALWDLRNLKLKLHSFESHKDEIFQVQWSPHNETILASSGTDRRLHVWDLSKIGEEQSTEDAEDGPPELLFIHGGHTAKISDFSWNPNEPWIICSVSEDNIMQVWQMAENVYND SFDDAVEERVINEEYKIWKKNTPFLYDLVMTHALEWPSLTAQWLPDVTKQDGKDYSVHRLILGTHTSDEQNHLLIASVQLPSEDFGSVCGKIEIEIKINHEGEVNRARYMPQNACVIATKTPSSDVLVFDYTKHPCQPDLRLRGHQKEGYGLSWNPNLNGYLLSASDDHTICLWDINATPKEHRVIDAKNIFTGHTAVVEDVAWHLLHESLFGSVADDQKLMIWDTRNNNTSKPSHTVDAHTAEVNCLSFNPYSEFILATGSADKTVALWDLRNLKLKLHSFESHKDEIFQVQWSPHNETILASSGTDRRLHVWDLSKIGEEQSTEDAEDGPPELLFIHGGHTAKISDFSWNPNEPWIICSVSEDNIMQVWQMAENVYND 3c9e-a1-m1-cA_3c9e-a1-m2-cA Crystal structure of the cathepsin K : chondroitin sulfate complex. P43235 P43235 1.8 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 3h7d-a3-m1-cA_3h7d-a3-m2-cA 6qbs-a1-m1-cA_6qbs-a1-m1-cB APDSVDYRKKGYVTPVKNQGQCGSCWAFSSVGALEGQLKKKTGKLLNLSPQNLVDCVSENDGCGGGYMTNAFQYVQKNRGIDSEDAYPYVGQEESCMYNPTGKAAKCRGYREIPEGNEKALKRAVARVGPVSVAIDASLTSFQFYSKGVYYDESCNSDNLNHAVLAVGYGIQKGNKHWIIKNSWGENWGNKGYILMARNKNNACGIANLASFPKM APDSVDYRKKGYVTPVKNQGQCGSCWAFSSVGALEGQLKKKTGKLLNLSPQNLVDCVSENDGCGGGYMTNAFQYVQKNRGIDSEDAYPYVGQEESCMYNPTGKAAKCRGYREIPEGNEKALKRAVARVGPVSVAIDASLTSFQFYSKGVYYDESCNSDNLNHAVLAVGYGIQKGNKHWIIKNSWGENWGNKGYILMARNKNNACGIANLASFPKM 3c9f-a3-m1-cA_3c9f-a3-m2-cB Crystal structure of 5'-nucleotidase from Candida albicans SC5314 Q5A5Q7 Q5A5Q7 1.9 X-RAY DIFFRACTION 120 0.994 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 531 540 SFPHRNLTWNDINFVHTTDTHGWYSGHINQPLYHANWGDFISFTTHMRRIAHSRNQDLLLIDSGDRHDGNGLSDITSPNGLKSTPIFIKQDYDLLTIGNHELYLWENSKQEYETVVNHFQDKYVCSNVDIRLDNGLFVPLGLKYKYFTTPIRGIRVMAFGFLFDFKRFNSGTRVTPMAETIHEPWFQEALKHEVDLIIIVGHTPISHNWGEFYQVHQYLRQFFPDTIIQYFGGHSHIRDFTVFDSLSTGLQSGRYCETVGWTSVNLDKADLNLPVRQRFSRSYIDFNTDSFKYHTNLDKEFDTAKGKLVSKLIRETRKELKLDTLIGYVKTNYYVDYVPIDHPKSIFNLLALKILKTLPKSKHEERITIINTGSIRYDLYKGPYTIDSKFIVSPFENIWVNITVPKSVATKVAAKLNDYISASRLKPPHQYDLQVQQEKLPKGYVTHDDFGADGDDTLHRAVVNFPVPNVIQSVEINDEVDSPVNLVFYSFITPNIIWALKELNFSTEQVPTPYSDIYLGTLLNEFVANNE SFPHRNLTWNDINFVHTTDTHGWYSGHINQPLYHANWGDFISFTTHMRRIAHSRNQDLLLIDSGDRHDGNGLSDITSPNGLKSTPIFIKQDYDLLTIGNHELYLWENSKQEYETVVNHFQDKYVCSNVDIRLDNGLFVPLGLKYKYFTTPIRGIRVMAFGFLFDFKRFNSGTRVTPMAETIHEPWFQEALKHEVDLIIIVGHTPISHNWGEFYQVHQYLRQFFPDTIIQYFGGHSHIRDFTVFDSLSTGLQSGRYCETVGWTSVNLDKADLNLPVRQRFSRSYIDFNTDSFKYHTNLDKEFDTAKGKLVSKLIRETRKELKLDTLIGYVKTNYYVDYVPIDHPKSIFNLLALKILKTLPKSKHEERITIINTGSIRYDLYKGPYTIDSKFIVSPFENIWVNITVPKSVATKVAAKLNDISASRLKPPHQYDLQVQLSTSPHQAHFEMQEKLPKGYVTHDDFGADGDDTLHRAVVNFPVPNVIQSVEINDEVDSPVNLVFYSFITPNIIWALKELNFSTEQVPTPYSDIYLGTLLNEFVAN 3c9g-a1-m1-cB_3c9g-a1-m1-cA Crystal structure of uncharacterized UPF0201 protein AF_135 O28876 O28876 2.3 X-RAY DIFFRACTION 46 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 128 130 VEIEIRTKIHPTESEDKVLKAIRNIFPDAEIEISEEGEVYGRAYSLDRFRELLRKQRILDTARSEILKGRNGKEVTIYLNKQTATVSRINFCDENAVSPIKVTFRLNNIPFSRFLDYIAPETKDGRPV KNVEIEIRTKIHPTESEDKVLKAIRNIFPDAEIEISEEGEVYGRAYSLDRFRELLRKQRILDTARSEILKGRNGKEVTIYLNKQTATVSRINFCDENAVSPIKVTFRLNNIPFSRFLDYIAPETKDGRPV 3c9k-a1-m8-cB_3c9k-a1-m9-cF Model of Histone Octamer Tubular Crystals P0C1H5 P0C1H5 20.0 ELECTRON MICROSCOPY 21 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 90 90 3c9k-a1-m10-cB_3c9k-a1-m11-cF 3c9k-a1-m10-cF_3c9k-a1-m9-cB 3c9k-a1-m12-cB_3c9k-a1-m13-cF 3c9k-a1-m12-cF_3c9k-a1-m22-cB 3c9k-a1-m13-cB_3c9k-a1-m14-cF 3c9k-a1-m14-cB_3c9k-a1-m15-cF 3c9k-a1-m15-cB_3c9k-a1-m16-cF 3c9k-a1-m16-cB_3c9k-a1-m17-cF 3c9k-a1-m17-cB_3c9k-a1-m18-cF 3c9k-a1-m18-cB_3c9k-a1-m19-cF 3c9k-a1-m19-cB_3c9k-a1-m20-cF 3c9k-a1-m1-cB_3c9k-a1-m46-cF 3c9k-a1-m1-cF_3c9k-a1-m11-cB 3c9k-a1-m20-cB_3c9k-a1-m21-cF 3c9k-a1-m21-cB_3c9k-a1-m22-cF 3c9k-a1-m23-cB_3c9k-a1-m24-cF 3c9k-a1-m23-cF_3c9k-a1-m33-cB 3c9k-a1-m24-cB_3c9k-a1-m25-cF 3c9k-a1-m25-cB_3c9k-a1-m26-cF 3c9k-a1-m26-cB_3c9k-a1-m27-cF 3c9k-a1-m27-cB_3c9k-a1-m28-cF 3c9k-a1-m28-cB_3c9k-a1-m29-cF 3c9k-a1-m29-cB_3c9k-a1-m30-cF 3c9k-a1-m2-cB_3c9k-a1-m3-cF 3c9k-a1-m30-cB_3c9k-a1-m31-cF 3c9k-a1-m31-cB_3c9k-a1-m32-cF 3c9k-a1-m32-cB_3c9k-a1-m33-cF 3c9k-a1-m34-cB_3c9k-a1-m35-cF 3c9k-a1-m34-cF_3c9k-a1-m44-cB 3c9k-a1-m35-cB_3c9k-a1-m36-cF 3c9k-a1-m36-cB_3c9k-a1-m37-cF 3c9k-a1-m37-cB_3c9k-a1-m38-cF 3c9k-a1-m38-cB_3c9k-a1-m39-cF 3c9k-a1-m39-cB_3c9k-a1-m40-cF 3c9k-a1-m3-cB_3c9k-a1-m4-cF 3c9k-a1-m40-cB_3c9k-a1-m41-cF 3c9k-a1-m41-cB_3c9k-a1-m42-cF 3c9k-a1-m42-cB_3c9k-a1-m43-cF 3c9k-a1-m43-cB_3c9k-a1-m44-cF 3c9k-a1-m46-cB_3c9k-a1-m47-cF 3c9k-a1-m47-cB_3c9k-a1-m48-cF 3c9k-a1-m48-cB_3c9k-a1-m49-cF 3c9k-a1-m49-cB_3c9k-a1-m50-cF 3c9k-a1-m4-cB_3c9k-a1-m5-cF 3c9k-a1-m50-cB_3c9k-a1-m51-cF 3c9k-a1-m51-cB_3c9k-a1-m52-cF 3c9k-a1-m52-cB_3c9k-a1-m53-cF 3c9k-a1-m53-cB_3c9k-a1-m54-cF 3c9k-a1-m54-cB_3c9k-a1-m55-cF 3c9k-a1-m56-cB_3c9k-a1-m57-cF 3c9k-a1-m56-cF_3c9k-a1-m66-cB 3c9k-a1-m57-cB_3c9k-a1-m58-cF 3c9k-a1-m58-cB_3c9k-a1-m59-cF 3c9k-a1-m59-cB_3c9k-a1-m60-cF 3c9k-a1-m5-cB_3c9k-a1-m6-cF 3c9k-a1-m60-cB_3c9k-a1-m61-cF 3c9k-a1-m61-cB_3c9k-a1-m62-cF 3c9k-a1-m62-cB_3c9k-a1-m63-cF 3c9k-a1-m63-cB_3c9k-a1-m64-cF 3c9k-a1-m64-cB_3c9k-a1-m65-cF 3c9k-a1-m65-cB_3c9k-a1-m66-cF 3c9k-a1-m67-cB_3c9k-a1-m68-cF 3c9k-a1-m67-cF_3c9k-a1-m77-cB 3c9k-a1-m68-cB_3c9k-a1-m69-cF 3c9k-a1-m69-cB_3c9k-a1-m70-cF 3c9k-a1-m6-cB_3c9k-a1-m7-cF 3c9k-a1-m70-cB_3c9k-a1-m71-cF 3c9k-a1-m71-cB_3c9k-a1-m72-cF 3c9k-a1-m72-cB_3c9k-a1-m73-cF 3c9k-a1-m73-cB_3c9k-a1-m74-cF 3c9k-a1-m74-cB_3c9k-a1-m75-cF 3c9k-a1-m75-cB_3c9k-a1-m76-cF 3c9k-a1-m76-cB_3c9k-a1-m77-cF 3c9k-a1-m78-cB_3c9k-a1-m79-cF 3c9k-a1-m78-cF_3c9k-a1-m88-cB 3c9k-a1-m79-cB_3c9k-a1-m80-cF 3c9k-a1-m7-cB_3c9k-a1-m8-cF 3c9k-a1-m80-cB_3c9k-a1-m81-cF 3c9k-a1-m81-cB_3c9k-a1-m82-cF 3c9k-a1-m82-cB_3c9k-a1-m83-cF 3c9k-a1-m83-cB_3c9k-a1-m84-cF 3c9k-a1-m84-cB_3c9k-a1-m85-cF 3c9k-a1-m85-cB_3c9k-a1-m86-cF 3c9k-a1-m86-cB_3c9k-a1-m87-cF 3c9k-a1-m87-cB_3c9k-a1-m88-cF SYSIYVYKVLKQVHPDTGISSKAMSIMNSFVNDIFERIAGEASRLAHYNKRSTITSREIQTAVRLLLPGELAKHAVSEGTKAVTKYTSSK SYSIYVYKVLKQVHPDTGISSKAMSIMNSFVNDIFERIAGEASRLAHYNKRSTITSREIQTAVRLLLPGELAKHAVSEGTKAVTKYTSSK 3c9u-a1-m1-cA_3c9u-a1-m1-cB AaThiL complexed with ADP and TPP O67883 O67883 1.48 X-RAY DIFFRACTION 212 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 308 312 1vqv-a1-m1-cA_1vqv-a1-m1-cB 3c9r-a1-m1-cB_3c9r-a1-m1-cA 3c9s-a1-m1-cB_3c9s-a1-m1-cA 3c9t-a1-m1-cA_3c9t-a1-m1-cB FTMRLKELGEFGLIDLIKKTLESKVIGDDTAPVEYCSKKLLLTTDVLNEGVHFLRSYIPEAVGWKAISVNVSDVIANGGLPKWALISLNLPEDLEVSYVERFYIGVKRACEFYKCEVVGGNISKSEKIGISVFLVGETERFVGRDGARLGDSVFVSGTLGDSRAGLELLLMEKEEYEPFELALIQRHLRPTARIDYVKHIQKYANASMDISDGLVADANHLAQRSGVKIEILSEKLPLSNELKMYCEKYGKNPIEYALFGGEDYQLLFTHPKERWNPFLDMTEIGRVEEGEGVFVDGKKVEPKGWKHF FQGSFTMRLKELGEFGLIDLIKKTLESKVIGDDTAPVEYCSKKLLLTTDVLNEGVHFLRSYIPEAVGWKAISVNVSDVIANGGLPKWALISLNLPEDLEVSYVERFYIGVKRACEFYKCEVVGGNISKSEKIGISVFLVGETERFVGRDGARLGDSVFVSGTLGDSRAGLELLLMEKEEYEPFELALIQRHLRPTARIDYVKHIQKYANASMDISDGLVADANHLAQRSGVKIEILSEKLPLSNELKMYCEKYGKNPIEYALFGGEDYQLLFTHPKERWNPFLDMTEIGRVEEGEGVFVDGKKVEPKGWKHF 3ca6-a2-m1-cA_3ca6-a2-m2-cA Sambucus nigra agglutinin II (SNA-II)- tetragonal crystal form- complexed to Tn antigen P33183 P33183 1.4 X-RAY DIFFRACTION 23 1.0 4202 (Sambucus nigra) 4202 (Sambucus nigra) 257 257 3ca3-a3-m1-cA_3ca3-a3-m3-cA 3ca5-a2-m1-cA_3ca5-a2-m2-cA TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP 3ca6-a3-m1-cA_3ca6-a3-m3-cA Sambucus nigra agglutinin II (SNA-II)- tetragonal crystal form- complexed to Tn antigen P33183 P33183 1.4 X-RAY DIFFRACTION 46 1.0 4202 (Sambucus nigra) 4202 (Sambucus nigra) 257 257 3ca3-a2-m1-cA_3ca3-a2-m2-cA 3ca5-a3-m1-cA_3ca5-a3-m3-cA TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP 3ca6-a4-m1-cA_3ca6-a4-m4-cA Sambucus nigra agglutinin II (SNA-II)- tetragonal crystal form- complexed to Tn antigen P33183 P33183 1.4 X-RAY DIFFRACTION 54 1.0 4202 (Sambucus nigra) 4202 (Sambucus nigra) 257 257 3ca3-a5-m1-cA_3ca3-a5-m6-cA 3ca3-a5-m4-cA_3ca3-a5-m5-cA 3ca5-a4-m1-cA_3ca5-a4-m5-cA 3ca5-a4-m4-cA_3ca5-a4-m6-cA 3cah-a2-m1-cA_3cah-a2-m3-cA 3cah-a2-m2-cA_3cah-a2-m4-cA 3cah-a3-m1-cA_3cah-a3-m3-cA TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP 3cad-a4-m1-cB_3cad-a4-m3-cB Crystal structure of Natural Killer Cell Receptor, Ly49G Q60654 Q60654 2.6 X-RAY DIFFRACTION 43 1.0 10090 (Mus musculus) 10090 (Mus musculus) 125 125 3cad-a3-m1-cA_3cad-a3-m2-cA GFEKYWFCYGIKCYYFDMDRKTWSGCKQTCQISSLSLLKIDNEDELKFLQNLAPSDISWIGFSYDNKKKDWAWIDNGPSKLALNTTKYNIRDGLCMSLSKTRLDNGDCGKSYICICGKRLDKFPH GFEKYWFCYGIKCYYFDMDRKTWSGCKQTCQISSLSLLKIDNEDELKFLQNLAPSDISWIGFSYDNKKKDWAWIDNGPSKLALNTTKYNIRDGLCMSLSKTRLDNGDCGKSYICICGKRLDKFPH 3cae-a1-m1-cB_3cae-a1-m1-cJ Structure of NNQQNY as an insert in T7 endonuclease I P00641 P00641 3 X-RAY DIFFRACTION 32 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 132 132 3cae-a1-m1-cA_3cae-a1-m1-cC 3cae-a1-m1-cF_3cae-a1-m1-cH 3cae-a1-m1-cG_3cae-a1-m1-cI MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK 3cae-a1-m1-cE_3cae-a1-m1-cG Structure of NNQQNY as an insert in T7 endonuclease I P00641 P00641 3 X-RAY DIFFRACTION 24 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 132 132 3cae-a1-m1-cA_3cae-a1-m1-cI 3cae-a1-m1-cB_3cae-a1-m1-cD 3cae-a1-m1-cC_3cae-a1-m1-cE 3cae-a1-m1-cD_3cae-a1-m1-cF 3cae-a1-m1-cH_3cae-a1-m1-cJ MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK 3cae-a1-m1-cF_3cae-a1-m1-cG Structure of NNQQNY as an insert in T7 endonuclease I P00641 P00641 3 X-RAY DIFFRACTION 25 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 132 132 3cae-a1-m1-cA_3cae-a1-m1-cJ 3cae-a1-m1-cB_3cae-a1-m1-cC 3cae-a1-m1-cD_3cae-a1-m1-cE 3cae-a1-m1-cH_3cae-a1-m1-cI MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK 3cae-a1-m1-cG_3cae-a1-m1-cH Structure of NNQQNY as an insert in T7 endonuclease I P00641 P00641 3 X-RAY DIFFRACTION 217 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 132 132 3cae-a1-m1-cA_3cae-a1-m1-cB 3cae-a1-m1-cC_3cae-a1-m1-cD 3cae-a1-m1-cE_3cae-a1-m1-cF MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK 3cae-a1-m1-cI_3cae-a1-m1-cJ Structure of NNQQNY as an insert in T7 endonuclease I P00641 P00641 3 X-RAY DIFFRACTION 205 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 132 132 MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK MGLEDKVSKQLESKGIKFEYEEWKVPYSNNQQNYSSHTYTPDFLLPNGIFVETKGLWESDDRKKHLLIREQHPELDIRIVFSSSRTKLYKGSPTSYGEFCEKHGIKFADKLIPAEWIKEPKKEVPFDRLKRK 3cag-a2-m1-cB_3cag-a2-m1-cC Crystal structure of the oligomerization domain hexamer of the arginine repressor protein from Mycobacterium tuberculosis in complex with 9 arginines. P9WPY9 P9WPY9 1.9 X-RAY DIFFRACTION 31 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 79 79 2zfz-a1-m1-cB_2zfz-a1-m1-cC 2zfz-a1-m1-cF_2zfz-a1-m1-cE 2zfz-a2-m1-cB_2zfz-a2-m1-cC 2zfz-a3-m1-cF_2zfz-a3-m1-cE 3bue-a1-m1-cA_3bue-a1-m1-cC 3bue-a1-m1-cF_3bue-a1-m1-cD 3bue-a2-m1-cA_3bue-a2-m1-cC 3bue-a3-m1-cF_3bue-a3-m1-cD 3cag-a1-m1-cB_3cag-a1-m1-cC 3cag-a1-m1-cF_3cag-a1-m1-cE 3cag-a3-m1-cF_3cag-a3-m1-cE 3laj-a1-m1-cA_3laj-a1-m1-cB 3laj-a1-m1-cA_3laj-a1-m1-cC 3laj-a1-m1-cB_3laj-a1-m1-cC 3lap-a1-m1-cA_3lap-a1-m1-cB 3lap-a1-m1-cA_3lap-a1-m1-cC 3lap-a1-m1-cB_3lap-a1-m1-cC GGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR GGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3cah-a2-m1-cA_3cah-a2-m4-cA Sambucus nigra aggutinin II. tetragonal crystal form- complexed to fucose P33183 P33183 1.55 X-RAY DIFFRACTION 49 1.0 4202 (Sambucus nigra) 4202 (Sambucus nigra) 257 257 3ca3-a4-m1-cA_3ca3-a4-m4-cA 3ca3-a5-m1-cA_3ca3-a5-m4-cA 3ca3-a5-m5-cA_3ca3-a5-m6-cA 3ca5-a4-m1-cA_3ca5-a4-m6-cA 3ca5-a4-m4-cA_3ca5-a4-m5-cA 3cah-a2-m2-cA_3cah-a2-m3-cA TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP TSFTRNIVGRDGLCVDVRNGYDTDGTPLQLWPCGTQRNQRWTFDSDDTIRSMGKCMTANGLNNGSNIVIFNCSTAAENAIKWEVPIDGSIINPSSGLVMTAPRAASRTILLLEDNIYAASQGWTVTNNVKPIVASIVGYKEMCLQSNGENNGVWMEDCEATSLQQQWALYGDRTIRVNSTRGLCVTTNGYNSKDLIIILKCQGLPSQRWFFNSDGAIVNPKSRLVMDVRASNVSLREIIIFPATGNPNQQWVTQVLP 3cai-a1-m1-cA_3cai-a1-m1-cB Crystal structure of Mycobacterium tuberculosis Rv3778c protein P9WQ67 P9WQ67 1.8 X-RAY DIFFRACTION 154 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 396 396 YDVARVRGLHPSLGDGWVHFDAPAGMLIPDSVATTVSTAFRRSGASTVGAHPSARRSAAVLDAAREAVADLVNADPGGVVLGADRAVLLSLLAEASSSRAGLGYEVIVSRLDDEANIAPWLRAAHRYGAKVKWAEVDIETGELPTWQWESLISKSTRLVAVNSASGTLGGVTDLRAMTKLVHDVGALVVVDHSAAAPYRLLDIRETDADVVTVNAHAWGGPPIGAMVFRDPSVMNSFGSVSTNPYATGPARLEIGVHQFGLLAGVVASIEYLAALDESARGSRRERLAVSMQSADAYLNRVFDYLMVSLRSLPLVMLIGRPEAQIPVVSFAVHKVPADRVVQRLADNGILAIANTGSRVLDVLGVNDVGGAVTVGLAHYSTMAEVDQLVRALASLG YDVARVRGLHPSLGDGWVHFDAPAGMLIPDSVATTVSTAFRRSGASTVGAHPSARRSAAVLDAAREAVADLVNADPGGVVLGADRAVLLSLLAEASSSRAGLGYEVIVSRLDDEANIAPWLRAAHRYGAKVKWAEVDIETGELPTWQWESLISKSTRLVAVNSASGTLGGVTDLRAMTKLVHDVGALVVVDHSAAAPYRLLDIRETDADVVTVNAHAWGGPPIGAMVFRDPSVMNSFGSVSTNPYATGPARLEIGVHQFGLLAGVVASIEYLAALDESARGSRRERLAVSMQSADAYLNRVFDYLMVSLRSLPLVMLIGRPEAQIPVVSFAVHKVPADRVVQRLADNGILAIANTGSRVLDVLGVNDVGGAVTVGLAHYSTMAEVDQLVRALASLG 3cam-a1-m1-cA_3cam-a1-m1-cB Crystal structure of the cold shock domain protein from Neisseria meningitidis Q9JZZ4 Q9JZZ4 2.6 X-RAY DIFFRACTION 182 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 65 65 ATGIVKWFNDAKGFGFITPDEGGEDLFAHFSAINEGFKTLKEGQRVSFDVTTGPKGKQAANIQAA ATGIVKWFNDAKGFGFITPDEGGEDLFAHFSAINEGFKTLKEGQRVSFDVTTGPKGKQAANIQAA 3can-a1-m1-cA_3can-a1-m2-cA Crystal structure of a domain of pyruvate-formate lyase-activating enzyme from Bacteroides vulgatus ATCC 8482 A6L094 A6L094 1.8 X-RAY DIFFRACTION 80 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 158 158 GGGVTFCGGEPLLHPEFLIDILKRCGQQGIHRAVDTTLLARKETVDEVRNCELLLIDLKSDSTVHQTFCDVPNELILKNIRRVAEADFPYYIRIPLIEGVNADEKNIKLSAEFLASLPRHPEIINLLPYHDKQTPSEEVQQQCIQILTDYGLKATIGG GGGVTFCGGEPLLHPEFLIDILKRCGQQGIHRAVDTTLLARKETVDEVRNCELLLIDLKSDSTVHQTFCDVPNELILKNIRRVAEADFPYYIRIPLIEGVNADEKNIKLSAEFLASLPRHPEIINLLPYHDKQTPSEEVQQQCIQILTDYGLKATIGG 3caw-a1-m1-cA_3caw-a1-m1-cB Crystal structure of o-succinylbenzoate synthase from Bdellovibrio bacteriovorus liganded with Mg Q6MQC7 Q6MQC7 1.87 X-RAY DIFFRACTION 41 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 316 316 KISYSPYTLKPVAREGVLLKVEWNDGLYGFADLHPWPELGDLSLEEQLSDLRMGRMTTQIEQSIWLARRDALLRKEKKHVFDGGEKIKNNYLLSHFQDLKPGFLDGLKNEGYNTVKVKMGRDLQKEADMLTHIAASGMRMRLDFNALGSWQTFEKFMVNLPLTVRPLIEYVEDPFPFDFHAWGEARKLAKIALDNQYDKVPWGKIASAPFDVIVIKPAKTDVDKAVAQCQKWNLKLAVTSYMDHPVGVVHAVGVAMELKDKYGDMILESGCLTHRLYQMDSFAAELSTQGPYLLKNKGTGVGFDKLLEALTWYQLK KISYSPYTLKPVAREGVLLKVEWNDGLYGFADLHPWPELGDLSLEEQLSDLRMGRMTTQIEQSIWLARRDALLRKEKKHVFDGGEKIKNNYLLSHFQDLKPGFLDGLKNEGYNTVKVKMGRDLQKEADMLTHIAASGMRMRLDFNALGSWQTFEKFMVNLPLTVRPLIEYVEDPFPFDFHAWGEARKLAKIALDNQYDKVPWGKIASAPFDVIVIKPAKTDVDKAVAQCQKWNLKLAVTSYMDHPVGVVHAVGVAMELKDKYGDMILESGCLTHRLYQMDSFAAELSTQGPYLLKNKGTGVGFDKLLEALTWYQLK 3cax-a1-m1-cA_3cax-a1-m2-cA Crystal structure of uncharacterized protein PF0695 Q8U2Y3 Q8U2Y3 2.43 X-RAY DIFFRACTION 271 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 355 355 LPEGHPLKTLYQENKEIMKDAEMLNLYAKTLATTKDERMREEILGVLEEIVSSLRMVGFTHYNREEMLIFPYIERRGLTVIATVLWTKHDEIRAMIKQLAELLRKREEMPWEEFVEKFKAKAGEVAFALSDMVFRENNIFYPTLKALLSEGEWKAIKMQEDEIGYYKVKPPEWDPGEDVKPLHPWEINPELNVEQLLTLPKEVQQALRGQPLEFDKTQLKREEDIDLGTGYLNIEELKAIFEALPVDVTFIDKDDRVRFFSPGERIFTRTPSVLGRPVQLCHPPKSVYVVNKILKAFKEGRKKEATFWLRLREKYVYIKYVPLFNEKGEYIGTLEMTMDIAPYKKIEGEKRLLDW LPEGHPLKTLYQENKEIMKDAEMLNLYAKTLATTKDERMREEILGVLEEIVSSLRMVGFTHYNREEMLIFPYIERRGLTVIATVLWTKHDEIRAMIKQLAELLRKREEMPWEEFVEKFKAKAGEVAFALSDMVFRENNIFYPTLKALLSEGEWKAIKMQEDEIGYYKVKPPEWDPGEDVKPLHPWEINPELNVEQLLTLPKEVQQALRGQPLEFDKTQLKREEDIDLGTGYLNIEELKAIFEALPVDVTFIDKDDRVRFFSPGERIFTRTPSVLGRPVQLCHPPKSVYVVNKILKAFKEGRKKEATFWLRLREKYVYIKYVPLFNEKGEYIGTLEMTMDIAPYKKIEGEKRLLDW 3cay-a2-m2-cI_3cay-a2-m2-cJ Crystal structure of Lipopeptide Detergent (LPD-12) 1.2 X-RAY DIFFRACTION 40 1.0 23 23 3cay-a1-m1-cA_3cay-a1-m1-cB 3cay-a1-m1-cC_3cay-a1-m1-cD 3cay-a1-m1-cE_3cay-a1-m1-cF 3cay-a1-m1-cG_3cay-a1-m1-cH 3cay-a2-m1-cI_3cay-a2-m1-cJ 3cay-a2-m1-cK_3cay-a2-m1-cL 3cay-a2-m2-cK_3cay-a2-m2-cL 3cba-a1-m1-cA_3cba-a1-m1-cB 3cba-a1-m1-cC_3cba-a1-m1-cD 3cba-a1-m1-cE_3cba-a1-m1-cF 3cba-a1-m1-cG_3cba-a1-m1-cH 3cba-a2-m1-cI_3cba-a2-m1-cJ 3cba-a2-m1-cK_3cba-a2-m1-cL 3cba-a2-m2-cI_3cba-a2-m2-cJ 3cba-a2-m2-cK_3cba-a2-m2-cL AAEAAEKAAKYAAEAAEKAAKAA AAEAAEKAAKYAAEAAEKAAKAA 3caz-a1-m1-cA_3caz-a1-m1-cB Crystal structure of a BAR protein from Galdieria sulphuraria D0VWT4 D0VWT4 3.344 X-RAY DIFFRACTION 157 1.0 130081 (Galdieria sulphuraria) 130081 (Galdieria sulphuraria) 202 207 SSNEVEHWTSLKEVEKVLDSVEPKLTSSGTKWRVVAQHIKDICSDLNQIFNKEDPRYEVVQAGASAAHDFDVRYLDIHKHGREIARLLEKIQKYRQEIEEIKKEYKETDKYRERYDHYKVKLDNLEKKNKDQERIERNQQKFKDAEAAYSSVCADLIQKETVWKKHVSIFAEAASAVWSTQLQYAKALEAAANPIVPYLQQE SSNEVEHWTSLKEVEKVLDSVEPKLTSSGTKWRVVAQHIKDICSDLNQIFNKEDPRYEVVQAGASAAHDFDVRYLDIHKHGREIARLLEKIQKYRQEIEEIKKEYKETDKYRERYDHYKVKLDNLEKKNKDQERIERNQQKFKDAEAAYSSVCADLIQKETVWKKHVSIFAEAASAVWSTQLQYAKALEAAANPIVPYLQQEEQEEE 3cb0-a1-m1-cC_3cb0-a1-m1-cA CobR Q8YHT7 Q8YHT7 1.6 X-RAY DIFFRACTION 183 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 162 166 3cb0-a2-m1-cD_3cb0-a2-m1-cB 4ira-a1-m1-cA_4ira-a1-m2-cA STVESKAYRDAMSHYAGAVQIVTTAGAAGRRGLTLTAACSVSDNPPTILICLQKIHEENRIFIENGVFAINTLAGPHQQLADAFSGRIGLTQDERFELAAWEILATGAPVLKGALAAFDCRVVSVQDHSTHHVLFGEVVGLSSHAEEEALIYLNRRYHKLEL ISSVSTVESKAYRDAMSHYAGAVQIVTTAGAAGRRGLTLTAACSVSDNPPTILICLQKIHEENRIFIENGVFAINTLAGPHQQLADAFSGRIGLTQDERFELAAWEILATGAPVLKGALAAFDCRVVSVQDHSTHHVLFGEVVGLSSHAEEEALIYLNRRYHKLEL 3cb3-a3-m2-cD_3cb3-a3-m2-cA Crystal structure of L-Talarate dehydratase from Polaromonas sp. JS666 complexed with Mg and L-glucarate Q12GE3 Q12GE3 2 X-RAY DIFFRACTION 125 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 358 373 2og9-a1-m1-cA_2og9-a1-m1-cB 2og9-a1-m2-cA_2og9-a1-m2-cB 2og9-a1-m3-cA_2og9-a1-m3-cB 2og9-a1-m4-cA_2og9-a1-m4-cB 3cb3-a1-m1-cD_3cb3-a1-m1-cA 3cb3-a2-m1-cC_3cb3-a2-m1-cB 3cb3-a3-m1-cC_3cb3-a3-m1-cB 3cb3-a3-m1-cD_3cb3-a3-m1-cA 3cb3-a3-m2-cC_3cb3-a3-m2-cB SDRITWVRISSCYLPLPMTEIAILFAEIETAGGHQGLGFSYSKRAGGPGQFAHAREIAPALIGEDPSDIAKLWDKLCWAGASAGRSGLSTQAIGAFDVALWDLKAKRAGLSLAKLLGSYRDSVRCYNTSGGFLHTPIDQLMVNASASIERGIGGIKLKVGQPDGALDIARVTAVRKHLGDAVPLMVDANQQWDRPTAQRMCRIFEPFNLVWIEEPLDAYDHEGHAALALQFDTPIATGEMLTSAAEHGDLIRHRAADYLMPDAPRVGGITPFLKIASLAEHAGLMLAPHFAMELHVHLAAAYPREPWVEHFEWLEPLFNERIEIRDGRMLVPTRPGLGLTLSGQVKAWTREEAQVGTR SDRITWVRISSCYLPLATPISDAKVLTGRQKPMTEIAILFAEIETAGGHQGLGFSYSKRAGGPGQFAHAREIAPALIGEDPSDIAKLWDKLCWAGASAGRSGLSTQAIGAFDVALWDLKAKRAGLSLAKLLGSYRDSVRCYNTSGGFLHTPIDQLMVNASASIERGIGGIKLKVGQPDGALDIARVTAVRKHLGDAVPLMVDANQQWDRPTAQRMCRIFEPFNLVWIEEPLDAYDHEGHAALALQFDTPIATGEMLTSAAEHGDLIRHRAADYLMPDAPRVGGITPFLKIASLAEHAGLMLAPHFAMELHVHLAAAYPREPWVEHFEWLEPLFNERIEIRDGRMLVPTRPGLGLTLSGQVKAWTREEAQVGTR 3cb6-a2-m1-cA_3cb6-a2-m2-cA Crystal Structure of the S. pombe Peptidase Homology Domain of FACT complex subunit Spt16 (form B) O94267 O94267 1.84 X-RAY DIFFRACTION 57 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 441 441 GAMAEYEIDEITFHKRLGILLTSWKNEEDGKTLFQDCDSILVTVGAHDDTNPYQKSTALHTWLLGYEFPSTLILLEKHRITILTSVNKANMLTKLAETKGAAADVNILKRTKDAEENKKLFEKIIEYIRATNKKVGVFPKDKTQGKFINEWDSIFEPVKSEFNLVDASLGLAKCLAIKDEQELANIKGASRVSVAVMSKYFVDELSTYIDQGKKITHSKFSDQMESLIDNEAFFQTKSLKLGDIDLDQLEWCYTPIIQSGGSYDLKPSAITDDRNLHGDVVLCSLGFRYKSYCSNVGRTYLFDPDSEQQKNYSFLVALQKKLFEYCRDGAVIGDIYTKILGLIRAKRPDLEPNFVRNLGAGIGIEFRESSLLVNAKNPRVLQAGMTLNLSIGFGNLINPHPKNSQSKEYALLLIDTIQITRSDPIVFTDSPKAQGDISYFF GAMAEYEIDEITFHKRLGILLTSWKNEEDGKTLFQDCDSILVTVGAHDDTNPYQKSTALHTWLLGYEFPSTLILLEKHRITILTSVNKANMLTKLAETKGAAADVNILKRTKDAEENKKLFEKIIEYIRATNKKVGVFPKDKTQGKFINEWDSIFEPVKSEFNLVDASLGLAKCLAIKDEQELANIKGASRVSVAVMSKYFVDELSTYIDQGKKITHSKFSDQMESLIDNEAFFQTKSLKLGDIDLDQLEWCYTPIIQSGGSYDLKPSAITDDRNLHGDVVLCSLGFRYKSYCSNVGRTYLFDPDSEQQKNYSFLVALQKKLFEYCRDGAVIGDIYTKILGLIRAKRPDLEPNFVRNLGAGIGIEFRESSLLVNAKNPRVLQAGMTLNLSIGFGNLINPHPKNSQSKEYALLLIDTIQITRSDPIVFTDSPKAQGDISYFF 3cbg-a1-m1-cA_3cbg-a1-m2-cA Functional and Structural Characterization of a Cationdependent O-Methyltransferase from the Cyanobacterium Synechocystis Sp. Strain PCC 6803 Q55813 Q55813 2 X-RAY DIFFRACTION 123 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 218 218 KGITGFDPSLYSYLQSISADDSFYLAQLRRETAHLPGAPMQISPEQAQFLGLLISLTGAKQVLEIGVFRGYSALAMALQLPPDGQIIACDQDPNATAIAKKYWQKAGVAEKISLRLGPALATLEQLTQGKPLPEFDLIFIDADKRNYPRYYEIGLNLLRRGGLMVIDNVLWHGKVTEVDPQEAQTQVLQQFNRDLAQDERVRISVIPLGDGMTLALKK KGITGFDPSLYSYLQSISADDSFYLAQLRRETAHLPGAPMQISPEQAQFLGLLISLTGAKQVLEIGVFRGYSALAMALQLPPDGQIIACDQDPNATAIAKKYWQKAGVAEKISLRLGPALATLEQLTQGKPLPEFDLIFIDADKRNYPRYYEIGLNLLRRGGLMVIDNVLWHGKVTEVDPQEAQTQVLQQFNRDLAQDERVRISVIPLGDGMTLALKK 3cbj-a2-m1-cB_3cbj-a2-m2-cB Chagasin-Cathepsin B complex Q966X9 Q966X9 1.8 X-RAY DIFFRACTION 15 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 109 109 SHKVTKAHNGATLTVAVGELVEIQLPSNPTTGFAWYFEGGTKESPNESMFTVENKYFPPDSKLLGAGGTEHFHVTVKAAGTHAVNLTYMRPWTGPSHDSERFTVYLKAN SHKVTKAHNGATLTVAVGELVEIQLPSNPTTGFAWYFEGGTKESPNESMFTVENKYFPPDSKLLGAGGTEHFHVTVKAAGTHAVNLTYMRPWTGPSHDSERFTVYLKAN 3cbr-a1-m1-cB_3cbr-a1-m2-cA Crystal structure of human Transthyretin (TTR) at pH3.5 P02766 P02766 1.7 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 114 PLMVKVLDAVRGSPAINVAVHVFRKADTWEPFASGKTSESGELHGLTTEEEFVEGIYKVEIDTPFHEHAEVVFTANRRYTIAALLSPYSYSTTAVVT PLMVKVLDAVRGSPAINVAVHVFRKAADDTWEPFASGKTSESGELHGLTTEEEFVEGIYKVEIDTKSYWKALGISPFHEHAEVVFTANDSGPRRYTIAALLSPYSYSTTAVVTN 3cbr-a1-m1-cB_3cbr-a1-m2-cB Crystal structure of human Transthyretin (TTR) at pH3.5 P02766 P02766 1.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 PLMVKVLDAVRGSPAINVAVHVFRKADTWEPFASGKTSESGELHGLTTEEEFVEGIYKVEIDTPFHEHAEVVFTANRRYTIAALLSPYSYSTTAVVT PLMVKVLDAVRGSPAINVAVHVFRKADTWEPFASGKTSESGELHGLTTEEEFVEGIYKVEIDTPFHEHAEVVFTANRRYTIAALLSPYSYSTTAVVT 3cbu-a1-m1-cA_3cbu-a1-m1-cB Crystal structure of a putative glutathione s-transferase (reut_a1011) from ralstonia eutropha jmp134 at 2.05 A resolution Q473P3 Q473P3 2.05 X-RAY DIFFRACTION 81 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 207 209 LKLCGFAASNYYNKVKLALLEKNVPFEEVLAWIGETDTTATPAGKVPYITESGSLCESEVINEYLEAAYPQTPLLPRDPQAGKVREIVTFLELYLELTARELYPEAFFGGKVSDNVKERQLKLLSRYVPAFAKLAKFSPYVAGDTFTLADCAAAVHLPLVSSCTKIIYGKDLLADLPVKEYLKTLSERPSVQKVNADRKANTELLSR LKLCGFAASNYYNKVKLALLEKNVPFEEVLAWIGETDTTATPAGKVPYITESGSLCESEVINEYLEAAYPQTPLLPRDPQAGKVREIVTFLELYLELTARELYPEAFFGGKVSDNVKERQLKLLSRYVPAFAKLAKFSPYVAGDTFTLADCAAAVHLPLVSSCTKIIYGKDLLADLPVKEYLKTLSERPSVQKVNADRKANTELLSRNK 3cbx-a1-m1-cB_3cbx-a1-m1-cA The Dvl2 PDZ Domain in Complex with the C1 Inhibitory Peptide O14641 O14641 1.7 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 105 SHMNIITVTLNMEKYNFLGISIVGQSGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKSGGGWKWYGWF GSHMNIITVTLNMEKYNFLGISIVGQSNERGDGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKSGGGWKWYGWF 3cby-a1-m1-cB_3cby-a1-m1-cA The Dvl2 PDZ Domain in Complex with the N1 Inhibitory Peptide O14641 O14641 1.5 X-RAY DIFFRACTION 92 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 98 101 NIITVTLNMEKYNFLGISIVGQSDGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKSGWKDYGWIDGK SHMNIITVTLNMEKYNFLGISIVGQGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKSGGGWKDYGWIDGK 3cc0-a1-m1-cC_3cc0-a1-m1-cA The Dvl2 PDZ Domain in Complex with the N3 Inhibitory Peptide O14641 O14641 1.75 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 106 3cc0-a1-m1-cB_3cc0-a1-m1-cA NIITVTLNMEKYFLGISIVGQSNERGDGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPIVLTVAKSGEIVLWSDIP HMNIITVTLNMEKYNFLGISIVGQSNERGDGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKSGGGGEIVLWSDIP 3cc0-a1-m1-cC_3cc0-a1-m1-cB The Dvl2 PDZ Domain in Complex with the N3 Inhibitory Peptide O14641 O14641 1.75 X-RAY DIFFRACTION 55 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 98 103 NIITVTLNMEKYFLGISIVGQSNERGDGGIYIGSIMKGGAVAADGRIEPGDMLLQVNDMNFENMSNDDAVRVLRDIVHKPIVLTVAKSGEIVLWSDIP GSHMNIITVTLNMEKYFLGISIVGQSNERGDGGIYIGSIMKGGAVAADGRIEPGDMLLQVNMNFENMSNDDAVRVLRDIVHKPGPIVLTVAKSGEIVLWSDIP 3cc1-a1-m1-cA_3cc1-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE ALPHA-N-ACETYLGALACTOSAMINIDASE (BH1870) FROM BACILLUS HALODURANS C-125 AT 2.00 A RESOLUTION Q9KBQ5 Q9KBQ5 2 X-RAY DIFFRACTION 16 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 415 415 GEVNRLSALTPPGWNSWDCYGASVTEEEVLGNAEYANHLKKYGWEYIVVDIQWYEPTANSSAYNPFAPLCDEYGRLLPATNRFPSAKNGAGFKPLSDAIHDLGLKFGIHIRGIPRQAVYENSPVLGSTKTAREIAHTNSICPWNTDYGVDPTKEGAQSYYNSLFELYAQWGVDFVKVDDIAASRLYDTHLEEIKIQRAIQACGRPVLSLSPGPAPIKYAHHFKTNANWRITDDFWDDWSLLYQFERCEVWEKHIGTGHWPDCGLPLGHIGIRSVDGPGGDRWTRFTKDEQLTNLWAICHSPLFGGELRDNDEWTLSLLTNEGILSINQKSVLNRFVYREEDKVAWAANGRNGEAYVALFNLHDQQKTLQFRLDVGIETVQLFNVWDRSFLQSLAPSESFQIELKPHQSLKLSPDR GEVNRLSALTPPGWNSWDCYGASVTEEEVLGNAEYANHLKKYGWEYIVVDIQWYEPTANSSAYNPFAPLCDEYGRLLPATNRFPSAKNGAGFKPLSDAIHDLGLKFGIHIRGIPRQAVYENSPVLGSTKTAREIAHTNSICPWNTDYGVDPTKEGAQSYYNSLFELYAQWGVDFVKVDDIAASRLYDTHLEEIKIQRAIQACGRPVLSLSPGPAPIKYAHHFKTNANWRITDDFWDDWSLLYQFERCEVWEKHIGTGHWPDCGLPLGHIGIRSVDGPGGDRWTRFTKDEQLTNLWAICHSPLFGGELRDNDEWTLSLLTNEGILSINQKSVLNRFVYREEDKVAWAANGRNGEAYVALFNLHDQQKTLQFRLDVGIETVQLFNVWDRSFLQSLAPSESFQIELKPHQSLKLSPDR 3cc1-a1-m2-cB_3cc1-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE ALPHA-N-ACETYLGALACTOSAMINIDASE (BH1870) FROM BACILLUS HALODURANS C-125 AT 2.00 A RESOLUTION Q9KBQ5 Q9KBQ5 2 X-RAY DIFFRACTION 57 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 400 415 3cc1-a1-m1-cB_3cc1-a1-m2-cA GEVNRLSALTPPGWNSWDCYGASVTEEEVLGNAEYANHLKKYGWEYIVVDIQWYEPTANNPFAPLCDEYGRLLPATNRFPSAKNGAGFKPLSDAIHDLGLKFGIHIRGIPRQAVYENSPVLGSTKTAREIAHTNSICPWNTDYGVDPTKEGAQSYYNSLFELYAQWGVDFVKVDDIAASRLYDTHLEEIKIQRAIQACGRPVLSLSPGPAPIKWRITDDFWDDWSLLYQFERCEVWEKHIGTGHWPDCGLPLGHIGIRSVDGPGGDRWTRFTKDEQLTNLWAICHSPLFGGELRDNDEWTLSLLTNEGILSINQKSVLNRFVYREEDKVAWAANGRNGEAYVALFNLHDQQKTLQFRLDVGIETVQLFNVWDRSFLQSLAPSESFQIELKPHQSLKLSPD GEVNRLSALTPPGWNSWDCYGASVTEEEVLGNAEYANHLKKYGWEYIVVDIQWYEPTANSSAYNPFAPLCDEYGRLLPATNRFPSAKNGAGFKPLSDAIHDLGLKFGIHIRGIPRQAVYENSPVLGSTKTAREIAHTNSICPWNTDYGVDPTKEGAQSYYNSLFELYAQWGVDFVKVDDIAASRLYDTHLEEIKIQRAIQACGRPVLSLSPGPAPIKYAHHFKTNANWRITDDFWDDWSLLYQFERCEVWEKHIGTGHWPDCGLPLGHIGIRSVDGPGGDRWTRFTKDEQLTNLWAICHSPLFGGELRDNDEWTLSLLTNEGILSINQKSVLNRFVYREEDKVAWAANGRNGEAYVALFNLHDQQKTLQFRLDVGIETVQLFNVWDRSFLQSLAPSESFQIELKPHQSLKLSPDR 3cc1-a1-m2-cB_3cc1-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE ALPHA-N-ACETYLGALACTOSAMINIDASE (BH1870) FROM BACILLUS HALODURANS C-125 AT 2.00 A RESOLUTION Q9KBQ5 Q9KBQ5 2 X-RAY DIFFRACTION 112 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 400 415 3cc1-a1-m1-cB_3cc1-a1-m1-cA GEVNRLSALTPPGWNSWDCYGASVTEEEVLGNAEYANHLKKYGWEYIVVDIQWYEPTANNPFAPLCDEYGRLLPATNRFPSAKNGAGFKPLSDAIHDLGLKFGIHIRGIPRQAVYENSPVLGSTKTAREIAHTNSICPWNTDYGVDPTKEGAQSYYNSLFELYAQWGVDFVKVDDIAASRLYDTHLEEIKIQRAIQACGRPVLSLSPGPAPIKWRITDDFWDDWSLLYQFERCEVWEKHIGTGHWPDCGLPLGHIGIRSVDGPGGDRWTRFTKDEQLTNLWAICHSPLFGGELRDNDEWTLSLLTNEGILSINQKSVLNRFVYREEDKVAWAANGRNGEAYVALFNLHDQQKTLQFRLDVGIETVQLFNVWDRSFLQSLAPSESFQIELKPHQSLKLSPD GEVNRLSALTPPGWNSWDCYGASVTEEEVLGNAEYANHLKKYGWEYIVVDIQWYEPTANSSAYNPFAPLCDEYGRLLPATNRFPSAKNGAGFKPLSDAIHDLGLKFGIHIRGIPRQAVYENSPVLGSTKTAREIAHTNSICPWNTDYGVDPTKEGAQSYYNSLFELYAQWGVDFVKVDDIAASRLYDTHLEEIKIQRAIQACGRPVLSLSPGPAPIKYAHHFKTNANWRITDDFWDDWSLLYQFERCEVWEKHIGTGHWPDCGLPLGHIGIRSVDGPGGDRWTRFTKDEQLTNLWAICHSPLFGGELRDNDEWTLSLLTNEGILSINQKSVLNRFVYREEDKVAWAANGRNGEAYVALFNLHDQQKTLQFRLDVGIETVQLFNVWDRSFLQSLAPSESFQIELKPHQSLKLSPDR 3cc8-a1-m1-cA_3cc8-a1-m2-cA Crystal structure of a putative methyltransferase (bce_1332) from bacillus cereus atcc 10987 at 1.64 A resolution Q73BT6 Q73BT6 1.64 X-RAY DIFFRACTION 90 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 205 205 AVNPNLLKHIKKEWKEVLDIGCSSGALGAAIKENGTRVSGIEAFPEAAEQAKEKLDHVVLGDIETDPYEEEQFDCVIFGDVLEHLFDPWAVIEKVKPYIKQNGVILASIPNVSHISVLAPLLAGNWTYTEYGLLDKTHIRFFTFNELRFLKAGYSISKVDRVYVDHKYEPLIEELYGICKKYRLGSGFAETVVFQYIIEAEKSQL AVNPNLLKHIKKEWKEVLDIGCSSGALGAAIKENGTRVSGIEAFPEAAEQAKEKLDHVVLGDIETDPYEEEQFDCVIFGDVLEHLFDPWAVIEKVKPYIKQNGVILASIPNVSHISVLAPLLAGNWTYTEYGLLDKTHIRFFTFNELRFLKAGYSISKVDRVYVDHKYEPLIEELYGICKKYRLGSGFAETVVFQYIIEAEKSQL 3ccd-a1-m1-cA_3ccd-a1-m1-cB 1.0 A Structure of Post-Succinimide His15Asp HPr P0AA04 P0AA04 1 X-RAY DIFFRACTION 13 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 85 MFEQEVTITAPNGLDTRPAAQFVKEAKGFTSEITVTSNGKSASAKSLFKLQTLGLTQGTVVTISAEGEDEQKAVEHLVKLMAELE MFEQEVTITAPNGLDTRPAAQFVKEAKGFTSEITVTSNGKSASAKSLFKLQTLGLTQGTVVTISAEGEDEQKAVEHLVKLMAELE 3ccg-a1-m1-cA_3ccg-a1-m2-cA Crystal structure of predicted HD superfamily hydrolase involved in NAD metabolism (NP_347894.1) from Clostridium acetobutylicum at 1.50 A resolution Q97JL1 Q97JL1 1.5 X-RAY DIFFRACTION 34 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 184 184 GWSYDKITDYLNNLGEKRYKHSLGVDTAVRLAGIYNEDTEKARIAGLVHDCAKKLPGEKIIEICTNEGYELGDEDIRNSYLLHGLAGRILAKKVIGIDDEDVLNAIEFHTTGRPNSLLEKIIYIADYIEPGREFKGVDELRKAADEDLNKALLSFDNTIKFVIDKGGFLHHNTIEARNYLISRK GWSYDKITDYLNNLGEKRYKHSLGVDTAVRLAGIYNEDTEKARIAGLVHDCAKKLPGEKIIEICTNEGYELGDEDIRNSYLLHGLAGRILAKKVIGIDDEDVLNAIEFHTTGRPNSLLEKIIYIADYIEPGREFKGVDELRKAADEDLNKALLSFDNTIKFVIDKGGFLHHNTIEARNYLISRK 3cck-a1-m1-cA_3cck-a1-m1-cB Human CD69 Q07108 Q07108 1.8 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 118 1e87-a1-m1-cA_1e87-a1-m2-cA 1e8i-a1-m1-cA_1e8i-a1-m1-cB 3hup-a1-m1-cB_3hup-a1-m1-cA SSCSEDWVGYQRKCYFISTVKRSWTSAQNACSEHGATLAVIDSEKDMNFLKRYAGREEHWVGLKKEPGHPWKWSNGKEFNNWFNVTGSDKCVFLKNTEVSSMECEKNLYWICNKPYK VSSCSEDWVGYQRKCYFISTVKRSWTSAQNACSEHGATLAVIDSEKDMNFLKRYAGREEHWVGLKKEPGHPWKWSNGKEFNNWFNVTGSDKCVFLKNTEVSSMECEKNLYWICNKPYK 3ccy-a1-m1-cA_3ccy-a1-m2-cA Crystal structure of a TetR-family transcriptional regulator from Bordetella parapertussis 12822 Q7W6R8 Q7W6R8 2.01 X-RAY DIFFRACTION 97 1.0 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 186 186 YENIRDTIIERAAAFARQGYSETSIGDIARACECSKSRLYHYFDSKEAVLRDLTTHVDSLLERCRQVLYGSNEPKTRFLQIVKLFLEIYATSRDRHVVLTCLDALPEDQRKALIAKQRELIAYVRDALLQLRPDAANRTLAHVDTLFFGINWTYTWYKADGSVSPDALAERTVQLFLDGYLNLLSA YENIRDTIIERAAAFARQGYSETSIGDIARACECSKSRLYHYFDSKEAVLRDLTTHVDSLLERCRQVLYGSNEPKTRFLQIVKLFLEIYATSRDRHVVLTCLDALPEDQRKALIAKQRELIAYVRDALLQLRPDAANRTLAHVDTLFFGINWTYTWYKADGSVSPDALAERTVQLFLDGYLNLLSA 3cdd-a2-m1-cE_3cdd-a2-m1-cF Crystal structure of prophage MuSo2, 43 kDa tail protein from Shewanella oneidensis Q8EDP4 Q8EDP4 2.1 X-RAY DIFFRACTION 77 0.984 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 316 319 3cdd-a1-m1-cB_3cdd-a1-m1-cA 3cdd-a2-m1-cE_3cdd-a2-m1-cD 3cdd-a2-m1-cF_3cdd-a2-m1-cD GHSEEIVLKAGGKIYQGWTKIGITRSLEASGAFDLETYKFLGNDAQYKAFIEPIKQGQACTVDIGGERVITGYVDDWVPSYDESTITISVSGRDKTADLVDCSIDYPSGQFNNQTLTQIADIVCKPFGIKVIVNTDVGEPFQRIQIEQGETPHELLARLAKQRGVLLTSDTFGNLVITRASKTKAGVSLILGDNVKAARGRFSWRQRFSKFTIKDVTDSEIGRYRPLIIVNEEVTTAEGAAKRGQWERQRSIGKSNAEYTVTGWRIPQTGKLWNINTLVPVIDEIGLDEELIASILFSEDDAGRLAVISVVRPDAD EEIVLKAGGKIYQGWTKIGITRSLEASGAFDLETYKFNDAQYKAFIEPIKQGQACTVDIGGERVITGYVDDWVPSYDESTITISVSGRDKTADLVDCSIDYPSGQFNNQTLTQIADIVCKPFGIKVIVNTDVGEPFQRIQIEQGETPHELLARLAKQRGVLLTSDTFGNLVITRASKTKAGVSLILGDNVKAARGRFSWRQRFSKFTIKAAGIKADVTDSEIGRYRPLIIVNEEVTTAEGAAKRGQWERQRSIGKSNAEYTVTGWRIPQTGKLWNINTLVPVIDEIGLDEELIASILFSEDDAGRLAVISVVRPDADIP 3cdh-a2-m1-cA_3cdh-a2-m2-cB Crystal structure of the MarR family transcriptional regulator SPO1453 from Silicibacter pomeroyi DSS-3 Q5LTG1 Q5LTG1 2.69 X-RAY DIFFRACTION 30 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 129 131 3cdh-a2-m2-cA_3cdh-a2-m1-cB DTFVSGYLLYLLAASSEEASAQFHDHIRAQGLRVPEWRVLACLVDNDAITRLAKLSLEQSRTRIVDQDARGLVTRVARVRVRLTDDGRALAESLVASARAHETRLLSALADTDAARIKGVLRTLLDVLD DTFVSGYLLYLLAASSEEASAQFHDHIRAQGLRVPEWRVLACLVDNDAITRLAKLSLEQSRTRIVDQDARGLVTRVADARVRVRLTDDGRALAESLVASARAHETRLLSALADTDAARIKGVLRTLLDVLD 3cdh-a2-m2-cA_3cdh-a2-m2-cB Crystal structure of the MarR family transcriptional regulator SPO1453 from Silicibacter pomeroyi DSS-3 Q5LTG1 Q5LTG1 2.69 X-RAY DIFFRACTION 157 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 129 131 3cdh-a1-m1-cA_3cdh-a1-m1-cB 3cdh-a2-m1-cA_3cdh-a2-m1-cB DTFVSGYLLYLLAASSEEASAQFHDHIRAQGLRVPEWRVLACLVDNDAITRLAKLSLEQSRTRIVDQDARGLVTRVARVRVRLTDDGRALAESLVASARAHETRLLSALADTDAARIKGVLRTLLDVLD DTFVSGYLLYLLAASSEEASAQFHDHIRAQGLRVPEWRVLACLVDNDAITRLAKLSLEQSRTRIVDQDARGLVTRVADARVRVRLTDDGRALAESLVASARAHETRLLSALADTDAARIKGVLRTLLDVLD 3cdk-a1-m1-cA_3cdk-a1-m1-cC Crystal structure of the co-expressed succinyl-CoA transferase A and B complex from Bacillus subtilis P42315 P42315 2.59 X-RAY DIFFRACTION 49 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 229 229 GKVLSSSKEAAKLIHDGDTLIAGGFGLCGIPEQLILSIRDQGVKDLTVVSNNCGVDDWGLGLLLANKQIKKMIASYVGENKIFERQFLSGELEVELVPQGTLAERIRAGGAGIPGFYTATGVGTSIAEGKEHKTFGGRTYVLERGITGDVAIVKAWKADTMGNLIFRKTARNFNPIAAMAGKITIAEAEEIVEAGELDPDHIHTPGIYVQHVVLGASQEKRIEKRTVQQ MGKVLSSSKEAAKLIHDGDTLIAGGFGLCGIPEQLILSIRDQGVKDLTVVSNNCGVDDWGLGLLLANKQIKKMIASYVGENKIFERQFLSGELEVELVPQGTLAERIRAGGAGIPGFYTATGVGTSIAEGKEHKTFGGRTYVLERGITGDVAIVKAWKADTMGNLIFRKTARNFNPIAAMAGKITIAEAEEIVEAGELDPDHIHTPGIYVQHVVLGASQEKRIEKRTVQ 3cdx-a1-m1-cC_3cdx-a1-m1-cF Crystal structure of succinylglutamatedesuccinylase/aspartoacylase from Rhodobacter sphaeroides Q3HKK3 Q3HKK3 2.1 X-RAY DIFFRACTION 133 0.997 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 325 328 3cdx-a1-m1-cB_3cdx-a1-m1-cA 3cdx-a1-m1-cD_3cdx-a1-m1-cE SRIACDIDFDRDGRQAGYARAPLSRNNSGWGTVEIPITVVKNGSGPTVLLTGGVHGDEYEGQIAISDLARRLRPEEVQGRVIMLPAVNMPAIQSDTRLSPVDGRDINRCFPGDPRGTFSQMLAHFLDSVILPMADISVDMHTAGHSYDSTPSTNMHYLADPALRARTLAAAEAFGAPHNVVSTFTSCVERRGIVSLGTELGGWGRVNIEGVRIGKRGILNVLKHMGVIEGTPETAQRGGAAGTRHMMVREADAYVMAPRTGLFEPTHYVGEEVRTGETAGWIHFVEDVDTAPLELLYRRDGIVWFGAGPGRVTRGDAVAVVMEDY SRIACDIDFDRDGRQAGYARAPLSRNNSGWGTVEIPITVVKNGSGPTVLLTGGVHGDEYEGQIAISDLARRLRPEEVQGRVIMLPAVNMPAIQSDTRLSPVDGRDINRCFPGDPRGTFSQMLAHFLDSVILPMADISVDMHTAGHSYDSTPSTNMHYLDPALRARTLAAAEAFGAPHNVVSTFTSCVERRGIVSLGTELGGWGRVNIEGVRIGKRGILNVLKHMGVIEGTPETAQRGGAAGTRHMMVREADAYVMAPRTGLFEPTHYVGEEVRTGETAGWIHFVEDVDTAPLELLYRRDGIVWFGAGPGRVTRGDAVAVVMEDYNDTW 3cdx-a1-m1-cD_3cdx-a1-m1-cC Crystal structure of succinylglutamatedesuccinylase/aspartoacylase from Rhodobacter sphaeroides Q3HKK3 Q3HKK3 2.1 X-RAY DIFFRACTION 38 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 322 325 3cdx-a1-m1-cC_3cdx-a1-m1-cB 3cdx-a1-m1-cD_3cdx-a1-m1-cB 3cdx-a1-m1-cE_3cdx-a1-m1-cA 3cdx-a1-m1-cE_3cdx-a1-m1-cF 3cdx-a1-m1-cF_3cdx-a1-m1-cA SRIACDIDFDRDGRQAGYARAPLSRNNSGWGTVEIPITVVKNGSGPTVLLTGGVHGDEYEGQIAISDLARRLRPEEVQGRVIMLPAVNMPAIQSDTRLSPVDGRDINRCFPGDPRGTFSQMLAHFLDSVILPMADISVDMHTAGHSYDSTPSTNMHDPALRARTLAAAEAFGAPHNVVSTFTSCVERRGIVSLGTELGGWGRVNIEGVRIGKRGILNVLKHMGVIEGTPETAQRGGAAGTRHMMVREADAYVMAPRTGLFEPTHYVGEEVRTGETAGWIHFVEDVDTAPLELLYRRDGIVWFGAGPGRVTRGDAVAVVMEDY SRIACDIDFDRDGRQAGYARAPLSRNNSGWGTVEIPITVVKNGSGPTVLLTGGVHGDEYEGQIAISDLARRLRPEEVQGRVIMLPAVNMPAIQSDTRLSPVDGRDINRCFPGDPRGTFSQMLAHFLDSVILPMADISVDMHTAGHSYDSTPSTNMHYLADPALRARTLAAAEAFGAPHNVVSTFTSCVERRGIVSLGTELGGWGRVNIEGVRIGKRGILNVLKHMGVIEGTPETAQRGGAAGTRHMMVREADAYVMAPRTGLFEPTHYVGEEVRTGETAGWIHFVEDVDTAPLELLYRRDGIVWFGAGPGRVTRGDAVAVVMEDY 3ce1-a1-m1-cA_3ce1-a1-m2-cA Crystal Structure of the Cu/Zn Superoxide Dismutase from Cryptococcus liquefaciens Strain N6 A0ZPR9 A0ZPR9 1.2 X-RAY DIFFRACTION 67 1.0 104408 (Naganishia liquefaciens) 104408 (Naganishia liquefaciens) 150 150 IKAIAVLKGDSPVQGVITFTQEGPVTVSGEIKNMDANAQRGFHVHQFGDNSNGCTSAGPHFNPTGTNHGDRTAEVRHVGDLGNVKTDASGVAKVQISDSQLSLVGPHSIIGRTIVIHAGEDDLGKTDHPESLKTGNAGARSACGVIGIAA IKAIAVLKGDSPVQGVITFTQEGPVTVSGEIKNMDANAQRGFHVHQFGDNSNGCTSAGPHFNPTGTNHGDRTAEVRHVGDLGNVKTDASGVAKVQISDSQLSLVGPHSIIGRTIVIHAGEDDLGKTDHPESLKTGNAGARSACGVIGIAA 3ce6-a1-m1-cD_3ce6-a1-m1-cA Crystal structure of Mycobacterium tuberculosis S-adenosyl-L-homocysteine hydrolase in ternary complex with NAD and adenosine P9WGV3 P9WGV3 1.6 X-RAY DIFFRACTION 31 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 484 486 2ziz-a1-m1-cA_2ziz-a1-m1-cD 2ziz-a1-m1-cB_2ziz-a1-m1-cC 2zj0-a1-m1-cB_2zj0-a1-m1-cC 2zj0-a1-m1-cD_2zj0-a1-m1-cA 2zj1-a1-m1-cA_2zj1-a1-m1-cD 2zj1-a1-m1-cB_2zj1-a1-m1-cC 3ce6-a1-m1-cB_3ce6-a1-m1-cC 3dhy-a1-m1-cB_3dhy-a1-m1-cC 3dhy-a1-m1-cD_3dhy-a1-m1-cA LTPDVRNGIDFKIADLSLADFGRKELRIAEHEMPGLMSLRREYAEVQPLKGARISGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDHAAAAVVVGPHGTPDEPKGVPVFAWKGETLEEYWWAAEQMLTWPDPDKPANMILDDGGDATMLVLRGMQYEKAGVVPPAEEDDPAEWKVFLNLLRTRFETDKDKWTKIAESVKGVTEETTTGVLRLYQFAAAGDLAFPAINVNDSVTKSKFDNKYGTRHSLIDGINRGTDALIGGKKVLICGYGDVGKGCAEAMKGQGARVSVTEIDPINALQAMMEGFDVVTVEEAIGDADIVVTATGNKDIIMLEHIKAMKDHAILGNIGHFDNEIDMAGLERSGATRVNVKPQVDLWTFGDTGRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKNDEYDNEVYRLPKHLDEKVARIHVEALGGHLTKLTKEQAEYLGVDVEPYKPDHYRY SLTPDVRNGIDFKIADLSLADFGRKELRIAEHEMPGLMSLRREYAEVQPLKGARISGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDHAAAAVVVGPHGTPDEPKGVPVFAWKGETLEEYWWAAEQMLTWPDPDKPANMILDDGGDATMLVLRGMQYEKAGVVPPAEEDDPAEWKVFLNLLRTRFETDKDKWTKIAESVKGVTEETTTGVLRLYQFAAAGDLAFPAINVNDSVTKSKFDNKYGTRHSLIDGINRGTDALIGGKKVLICGYGDVGKGCAEAMKGQGARVSVTEIDPINALQAMMEGFDVVTVEEAIGDADIVVTATGNKDIIMLEHIKAMKDHAILGNIGHFDNEIDMAGLERSGATRVNVKPQVDLWTFGDTGRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKNDEYDNEVYRLPKHLDEKVARIHVEALGGHLTKLTKEQAEYLGVDVEGPYKPDHYRY 3ce6-a1-m1-cD_3ce6-a1-m1-cB Crystal structure of Mycobacterium tuberculosis S-adenosyl-L-homocysteine hydrolase in ternary complex with NAD and adenosine P9WGV3 P9WGV3 1.6 X-RAY DIFFRACTION 105 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 484 485 2ziz-a1-m1-cA_2ziz-a1-m1-cC 2ziz-a1-m1-cB_2ziz-a1-m1-cD 2zj0-a1-m1-cB_2zj0-a1-m1-cD 2zj0-a1-m1-cC_2zj0-a1-m1-cA 2zj1-a1-m1-cA_2zj1-a1-m1-cC 2zj1-a1-m1-cB_2zj1-a1-m1-cD 3ce6-a1-m1-cC_3ce6-a1-m1-cA 3dhy-a1-m1-cB_3dhy-a1-m1-cD 3dhy-a1-m1-cC_3dhy-a1-m1-cA LTPDVRNGIDFKIADLSLADFGRKELRIAEHEMPGLMSLRREYAEVQPLKGARISGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDHAAAAVVVGPHGTPDEPKGVPVFAWKGETLEEYWWAAEQMLTWPDPDKPANMILDDGGDATMLVLRGMQYEKAGVVPPAEEDDPAEWKVFLNLLRTRFETDKDKWTKIAESVKGVTEETTTGVLRLYQFAAAGDLAFPAINVNDSVTKSKFDNKYGTRHSLIDGINRGTDALIGGKKVLICGYGDVGKGCAEAMKGQGARVSVTEIDPINALQAMMEGFDVVTVEEAIGDADIVVTATGNKDIIMLEHIKAMKDHAILGNIGHFDNEIDMAGLERSGATRVNVKPQVDLWTFGDTGRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKNDEYDNEVYRLPKHLDEKVARIHVEALGGHLTKLTKEQAEYLGVDVEPYKPDHYRY LTPDVRNGIDFKIADLSLADFGRKELRIAEHEMPGLMSLRREYAEVQPLKGARISGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDHAAAAVVVGPHGTPDEPKGVPVFAWKGETLEEYWWAAEQMLTWPDPDKPANMILDDGGDATMLVLRGMQYEKAGVVPPAEEDDPAEWKVFLNLLRTRFETDKDKWTKIAESVKGVTEETTTGVLRLYQFAAAGDLAFPAINVNDSVTKSKFDNKYGTRHSLIDGINRGTDALIGGKKVLICGYGDVGKGCAEAMKGQGARVSVTEIDPINALQAMMEGFDVVTVEEAIGDADIVVTATGNKDIIMLEHIKAMKDHAILGNIGHFDNEIDMAGLERSGATRVNVKPQVDLWTFGDTGRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKNDEYDNEVYRLPKHLDEKVARIHVEALGGHLTKLTKEQAEYLGVDVEGPYKPDHYRY 3ce6-a1-m1-cD_3ce6-a1-m1-cC Crystal structure of Mycobacterium tuberculosis S-adenosyl-L-homocysteine hydrolase in ternary complex with NAD and adenosine P9WGV3 P9WGV3 1.6 X-RAY DIFFRACTION 155 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 484 485 2ziz-a1-m1-cA_2ziz-a1-m1-cB 2ziz-a1-m1-cC_2ziz-a1-m1-cD 2zj0-a1-m1-cB_2zj0-a1-m1-cA 2zj0-a1-m1-cC_2zj0-a1-m1-cD 2zj1-a1-m1-cA_2zj1-a1-m1-cB 2zj1-a1-m1-cC_2zj1-a1-m1-cD 3ce6-a1-m1-cB_3ce6-a1-m1-cA 3dhy-a1-m1-cB_3dhy-a1-m1-cA 3dhy-a1-m1-cC_3dhy-a1-m1-cD LTPDVRNGIDFKIADLSLADFGRKELRIAEHEMPGLMSLRREYAEVQPLKGARISGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDHAAAAVVVGPHGTPDEPKGVPVFAWKGETLEEYWWAAEQMLTWPDPDKPANMILDDGGDATMLVLRGMQYEKAGVVPPAEEDDPAEWKVFLNLLRTRFETDKDKWTKIAESVKGVTEETTTGVLRLYQFAAAGDLAFPAINVNDSVTKSKFDNKYGTRHSLIDGINRGTDALIGGKKVLICGYGDVGKGCAEAMKGQGARVSVTEIDPINALQAMMEGFDVVTVEEAIGDADIVVTATGNKDIIMLEHIKAMKDHAILGNIGHFDNEIDMAGLERSGATRVNVKPQVDLWTFGDTGRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKNDEYDNEVYRLPKHLDEKVARIHVEALGGHLTKLTKEQAEYLGVDVEPYKPDHYRY LTPDVRNGIDFKIADLSLADFGRKELRIAEHEMPGLMSLRREYAEVQPLKGARISGSLHMTVQTAVLIETLTALGAEVRWASCNIFSTQDHAAAAVVVGPHGTPDEPKGVPVFAWKGETLEEYWWAAEQMLTWPDPDKPANMILDDGGDATMLVLRGMQYEKAGVVPPAEEDDPAEWKVFLNLLRTRFETDKDKWTKIAESVKGVTEETTTGVLRLYQFAAAGDLAFPAINVNDSVTKSKFDNKYGTRHSLIDGINRGTDALIGGKKVLICGYGDVGKGCAEAMKGQGARVSVTEIDPINALQAMMEGFDVVTVEEAIGDADIVVTATGNKDIIMLEHIKAMKDHAILGNIGHFDNEIDMAGLERSGATRVNVKPQVDLWTFGDTGRSIIVLSEGRLLNLGNATGHPSFVMSNSFANQTIAQIELWTKNDEYDNEVYRLPKHLDEKVARIHVEALGGHLTKLTKEQAEYLGVDVEGPYKPDHYRY 3ce8-a1-m2-cA_3ce8-a1-m3-cA Crystal structure of a duf3240 family protein (sbal_0098) from shewanella baltica os155 at 2.40 A resolution A3CYS0 A3CYS0 2.4 X-RAY DIFFRACTION 63 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 87 87 3ce8-a1-m1-cA_3ce8-a1-m2-cA 3ce8-a1-m1-cA_3ce8-a1-m3-cA STEQLLVLIAQNDIKDDIVDTLIELEFLSGFSLGNICGFSREGYREFCKFEIHPAAQQAALLTALALVCKHNPCRYWIPIYQNGTLS STEQLLVLIAQNDIKDDIVDTLIELEFLSGFSLGNICGFSREGYREFCKFEIHPAAQQAALLTALALVCKHNPCRYWIPIYQNGTLS 3ce9-a1-m1-cA_3ce9-a1-m1-cD Crystal structure of glycerol dehydrogenase (NP_348253.1) from Clostridium acetobutylicum at 2.37 A resolution Q97IL4 Q97IL4 2.37 X-RAY DIFFRACTION 60 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 343 343 3ce9-a1-m1-cB_3ce9-a1-m1-cC SHRIAIPLILEVGNNKIYNIGQIIKKGNFKRVSLYFGEGIYELFGETIEKSIKSSNIEIEAVETVKNIDFDEIGTNAFKIPAEVDALIGIGGGKAIDAVKYAFLRKLPFISVPTSTSNDGFSSPVASLLINGKRTSVPAKTPDGIVVDIDVIKGSPEKFIYSGIGDLVSNITALYDWKFEEENHKSIIDDFAVISKKSVNSFVRTDFKSIKDEVFLKELVDSLTNGIAEIAGNSSPASGAEHLISHALDKFLPNPQLHGIQVGVATYISKVHKHREERIKKILSDTGFFNYVKGLNKKSDFKRAISEAHLIKPARYTYLHVEKNCETAKEIVDTDEILRNILV SHRIAIPLILEVGNNKIYNIGQIIKKGNFKRVSLYFGEGIYELFGETIEKSIKSSNIEIEAVETVKNIDFDEIGTNAFKIPAEVDALIGIGGGKAIDAVKYAFLRKLPFISVPTSTSNDGFSSPVASLLINGKRTSVPAKTPDGIVVDIDVIKGSPEKFIYSGIGDLVSNITALYDWKFEEENHKSIIDDFAVISKKSVNSFVRTDFKSIKDEVFLKELVDSLTNGIAEIAGNSSPASGAEHLISHALDKFLPNPQLHGIQVGVATYISKVHKHREERIKKILSDTGFFNYVKGLNKKSDFKRAISEAHLIKPARYTYLHVEKNCETAKEIVDTDEILRNILV 3ce9-a1-m1-cC_3ce9-a1-m1-cD Crystal structure of glycerol dehydrogenase (NP_348253.1) from Clostridium acetobutylicum at 2.37 A resolution Q97IL4 Q97IL4 2.37 X-RAY DIFFRACTION 35 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 343 343 3ce9-a1-m1-cB_3ce9-a1-m1-cA SHRIAIPLILEVGNNKIYNIGQIIKKGNFKRVSLYFGEGIYELFGETIEKSIKSSNIEIEAVETVKNIDFDEIGTNAFKIPAEVDALIGIGGGKAIDAVKYAFLRKLPFISVPTSTSNDGFSSPVASLLINGKRTSVPAKTPDGIVVDIDVIKGSPEKFIYSGIGDLVSNITALYDWKFEEENHKSIIDDFAVISKKSVNSFVRTDFKSIKDEVFLKELVDSLTNGIAEIAGNSSPASGAEHLISHALDKFLPNPQLHGIQVGVATYISKVHKHREERIKKILSDTGFFNYVKGLNKKSDFKRAISEAHLIKPARYTYLHVEKNCETAKEIVDTDEILRNILV SHRIAIPLILEVGNNKIYNIGQIIKKGNFKRVSLYFGEGIYELFGETIEKSIKSSNIEIEAVETVKNIDFDEIGTNAFKIPAEVDALIGIGGGKAIDAVKYAFLRKLPFISVPTSTSNDGFSSPVASLLINGKRTSVPAKTPDGIVVDIDVIKGSPEKFIYSGIGDLVSNITALYDWKFEEENHKSIIDDFAVISKKSVNSFVRTDFKSIKDEVFLKELVDSLTNGIAEIAGNSSPASGAEHLISHALDKFLPNPQLHGIQVGVATYISKVHKHREERIKKILSDTGFFNYVKGLNKKSDFKRAISEAHLIKPARYTYLHVEKNCETAKEIVDTDEILRNILV 3cea-a1-m1-cC_3cea-a1-m1-cD Crystal structure of myo-inositol 2-dehydrogenase (NP_786804.1) from Lactobacillus plantarum at 2.40 A resolution F9ULF9 F9ULF9 2.4 X-RAY DIFFRACTION 54 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 329 329 3cea-a1-m1-cA_3cea-a1-m1-cB KPLRAAIIGLGRLGERHARHLVNKIQGVKLVAACALDSNQLEWAKNELGVETTYTNYKDIDTENIDAIFIVAPTPFHPETIYANAGLNVFCEKPLGLDFNEVDEAKVIKSHPNQIFQSGFRRYDDSYRYAKKIVDNGDIGKIIYRGYGIDPISGESFTKFATEADSGGIFVDNIHDIDLIRWFTGQDPVQAYGLTSNIAAPQLADIGEFETGVAQLKSDGVIATLIGGRHAAHGNQVELEVGSNGWVRIGEHPDLNRVTVFNDQGVVRPSLQSFGERFDTAFTDEVQDFVNNVIVGKQPEVTVDDGIKALKIAKACQQSANIGKLVDIQ KPLRAAIIGLGRLGERHARHLVNKIQGVKLVAACALDSNQLEWAKNELGVETTYTNYKDIDTENIDAIFIVAPTPFHPETIYANAGLNVFCEKPLGLDFNEVDEAKVIKSHPNQIFQSGFRRYDDSYRYAKKIVDNGDIGKIIYRGYGIDPISGESFTKFATEADSGGIFVDNIHDIDLIRWFTGQDPVQAYGLTSNIAAPQLADIGEFETGVAQLKSDGVIATLIGGRHAAHGNQVELEVGSNGWVRIGEHPDLNRVTVFNDQGVVRPSLQSFGERFDTAFTDEVQDFVNNVIVGKQPEVTVDDGIKALKIAKACQQSANIGKLVDIQ 3cea-a1-m1-cD_3cea-a1-m1-cA Crystal structure of myo-inositol 2-dehydrogenase (NP_786804.1) from Lactobacillus plantarum at 2.40 A resolution F9ULF9 F9ULF9 2.4 X-RAY DIFFRACTION 99 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 329 332 3cea-a1-m1-cC_3cea-a1-m1-cB KPLRAAIIGLGRLGERHARHLVNKIQGVKLVAACALDSNQLEWAKNELGVETTYTNYKDIDTENIDAIFIVAPTPFHPETIYANAGLNVFCEKPLGLDFNEVDEAKVIKSHPNQIFQSGFRRYDDSYRYAKKIVDNGDIGKIIYRGYGIDPISGESFTKFATEADSGGIFVDNIHDIDLIRWFTGQDPVQAYGLTSNIAAPQLADIGEFETGVAQLKSDGVIATLIGGRHAAHGNQVELEVGSNGWVRIGEHPDLNRVTVFNDQGVVRPSLQSFGERFDTAFTDEVQDFVNNVIVGKQPEVTVDDGIKALKIAKACQQSANIGKLVDIQ TRKPLRAAIIGLGRLGERHARHLVNKIQGVKLVAACALDSNQLEWAKNELGVETTYTNYKDIDTENIDAIFIVAPTPFHPETIYANAGLNVFCEKPLGLDFNEVDEAKVIKSHPNQIFQSGFRRYDDSYRYAKKIVDNGDIGKIIYRGYGIDPISGESFTKFATEADSGGIFVDNIHDIDLIRWFTGQDPVQAYGLTSNIAAPQLADIGEFETGVAQLKSDGVIATLIGGRHAAHGNQVELEVGSNGWVRIGEHPDLNRVTVFNDQGVVRPSLQSFGERFDTAFTDEVQDFVNNVIVGKQPEVTVDDGIKALKIAKACQQSANIGKLVDIQL 3cea-a1-m1-cD_3cea-a1-m1-cB Crystal structure of myo-inositol 2-dehydrogenase (NP_786804.1) from Lactobacillus plantarum at 2.40 A resolution F9ULF9 F9ULF9 2.4 X-RAY DIFFRACTION 72 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 329 332 3cea-a1-m1-cC_3cea-a1-m1-cA KPLRAAIIGLGRLGERHARHLVNKIQGVKLVAACALDSNQLEWAKNELGVETTYTNYKDIDTENIDAIFIVAPTPFHPETIYANAGLNVFCEKPLGLDFNEVDEAKVIKSHPNQIFQSGFRRYDDSYRYAKKIVDNGDIGKIIYRGYGIDPISGESFTKFATEADSGGIFVDNIHDIDLIRWFTGQDPVQAYGLTSNIAAPQLADIGEFETGVAQLKSDGVIATLIGGRHAAHGNQVELEVGSNGWVRIGEHPDLNRVTVFNDQGVVRPSLQSFGERFDTAFTDEVQDFVNNVIVGKQPEVTVDDGIKALKIAKACQQSANIGKLVDIQ TRKPLRAAIIGLGRLGERHARHLVNKIQGVKLVAACALDSNQLEWAKNELGVETTYTNYKDIDTENIDAIFIVAPTPFHPETIYANAGLNVFCEKPLGLDFNEVDEAKVIKSHPNQIFQSGFRRYDDSYRYAKKIVDNGDIGKIIYRGYGIDPISGESFTKFATEADSGGIFVDNIHDIDLIRWFTGQDPVQAYGLTSNIAAPQLADIGEFETGVAQLKSDGVIATLIGGRHAAHGNQVELEVGSNGWVRIGEHPDLNRVTVFNDQGVVRPSLQSFGERFDTAFTDEVQDFVNNVIVGKQPEVTVDDGIKALKIAKACQQSANIGKLVDIQL 3cei-a1-m1-cB_3cei-a1-m1-cA Crystal Structure of Superoxide Dismutase from Helicobacter pylori P43312 P43312 2.4 X-RAY DIFFRACTION 48 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 210 213 MFTLRELPFAKDSMGDFLSPVAFDFHHGKHHQTYVNNLNNLIKGTDFEKSSLFAILTKSSGGVFNNAAQIYNHDFYWDCLSPKATALSDELKGALEKDFGSLEKFKEDFIKSATTLFGSGWNWAAYNLDTQKIEIIQTSNAQTPVTDKKVPLLVVDVWEHAYYIDHKNARPVYLEKFYGHINWHFVSQCYEWAKKEGLGSVDYYINELVH MFTLRELPFAKDSMGDFLSPVAFDFHHGKHHQTYVNNLNNLIKGTDFEKSSLFAILTKSSGGVFNNAAQIYNHDFYWDCLSPKATALSDELKGALEKDFGSLEKFKEDFIKSATTLFGSGWNWAAYNLDTQKIEIIQTSNAQTPVTDKKVPLLVVDVWEHAYYIDHKNARPVYLEKFYGHINWHFVSQCYEWAKKEGLGSVDYYINELVHKKL 3ces-a2-m1-cD_3ces-a2-m1-cC Crystal Structure of E.coli MnmG (GidA), a Highly-Conserved tRNA Modifying Enzyme P0A6U3 P0A6U3 2.412 X-RAY DIFFRACTION 58 0.988 562 (Escherichia coli) 562 (Escherichia coli) 507 516 3ces-a1-m1-cB_3ces-a1-m1-cA 3cp2-a1-m1-cA_3cp2-a1-m2-cA 3g05-a1-m1-cB_3g05-a1-m1-cA HMFYPDPFDVIIIGGGHAGTEAAMAAARMGQQTLLLTHNIDTLGQMSCNPAIGGIGKGHLVKEVDALGGLMAKAIDQAGIQFRILNASKGPAVRATRAQADRVLYRQAVRTALENQPNLMIFQQAVEDLIVENDRVVGAVTQMGLKFRAKAVVLTVGTFLDGKISIPLSRRLRELPLRVGRLKTGTPPRIDARTIDFSVLAQQHGDNPMPVFSFMGNASQHPQQVPCYITHTNEKTHDVIRSNLSIEDKVMRNQHQIFLEPEGLTSNEIYPNGISTSLPFDVQMQIVRSMQGMENAKIVRPGYAIEYDFFDPRDLKPTLESKFIQGLFFAGQINGTTGYEEAAAQGLLAGLNAARLSADKEGWAPARSQAYLGVLVDDLCTLGTKEPYRMFTSRAEYRLMLREDNADLRLTEIGRELGLVDDERWARFNEKLENIERERQRLKSTWPSAEAAAEVNAHLTAPLSSGEDLLRRPEMTYEKLTTLTPFAPALTDEQAAEQVEIQVKYEG MFYPDPFDVIIIGGGHAGTEAAMAAARMGQQTLLLTHNIDTLGQMSCNPAIGGIGKGHLVKEVDALGGLMAKAIDQAGIQFRILNASKGPAVRATRAQADRVLYRQAVRTALENQPNLMIFQQAVEDLIVENDRVVGAVTQMGLKFRAKAVVLTVGTFLDGKIHIGSIPLSRRLRELPLRVGRLKTGTPPRIDARTIDFSVLAQQHGDNPMPVFSFMGNASQHPQQVPCYITHTNEKTHDVIRSNLDRSPSIEDKVMRFADRNQHQIFLEPEGLTSNEIYPNGISTSLPFDVQMQIVRSMQGMENAKIVRPGYAIEYDFFDPRDLKPTLESKFIQGLFFAGQINGTTGYEEAAAQGLLAGLNAARLSADKEGWAPARSQAYLGVLVDDLCTLGTKEPYRMFTSRAEYRLMLREDNADLRLTEIGRELGLVDDERWARFNEKLENIERERQRLKSTWVTPSAAAEVNHLTAPLSSGEDLLRRPEMTYEKLTTLTPFAPALTDEQAAEQVEIQVKYEG 3cew-a2-m1-cC_3cew-a2-m1-cD Crystal structure of a cupin protein (BF4112) from Bacteroides fragilis. Northeast Structural Genomics Consortium target BfR205 A0A380YRY7 A0A380YRY7 2.31 X-RAY DIFFRACTION 222 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 115 115 3cew-a1-m1-cA_3cew-a1-m1-cB KNYQKSVAQDARVELHDSLALTGAEVSINHLPAGAGVPFVHSHKQNEEIYGILSGKGFITIDGEKIELQAGDWLRIAPDGKRQISAASDSPIGFLCIQVKAGSLEGYTTDGVVQL KNYQKSVAQDARVELHDSLALTGAEVSINHLPAGAGVPFVHSHKQNEEIYGILSGKGFITIDGEKIELQAGDWLRIAPDGKRQISAASDSPIGFLCIQVKAGSLEGYTTDGVVQL 3cex-a2-m1-cB_3cex-a2-m3-cB Crystal structure of the conserved protein of locus EF_3021 from Enterococcus faecalis Q82ZN0 Q82ZN0 2 X-RAY DIFFRACTION 78 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 165 165 3cex-a1-m1-cA_3cex-a1-m2-cA AKVTQLSSETLDRAHERFEETLAQTVAEANTPAPLIKSVTWLWHTARELDLQISALNHSDPLWLSQHWTEKFALDLPDETEDWHHTPEEAAKVVVAEKQLLSDYLAASVALTKSYLDQIKEEQLSDVIDKNWTPPVTRQVRLVSAIDDAVHSGQAVYTRRLVIGK AKVTQLSSETLDRAHERFEETLAQTVAEANTPAPLIKSVTWLWHTARELDLQISALNHSDPLWLSQHWTEKFALDLPDETEDWHHTPEEAAKVVVAEKQLLSDYLAASVALTKSYLDQIKEEQLSDVIDKNWTPPVTRQVRLVSAIDDAVHSGQAVYTRRLVIGK 3cf4-a1-m1-cA_3cf4-a1-m2-cA Structure of the CODH component of the M. barkeri ACDS complex Q46G04 Q46G04 2 X-RAY DIFFRACTION 291 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 766 766 NAGPTLFPGLEGYRDDWNFKLLDRYEPVITPMCDQCCYCTYGPCDLSGNKRGACGIDMKGHNGREFFLRVITGTACHAAHGRHLLDHLIEKYGEDLPLTLGQSNVLTPNITISTGLSPKTLGEVKPAMEYVEEQLTQLLATVHAGQESAEIDYDSKALFSGSLDHVGMEISDIVQVAAYDFPKADPEAPLVEIGMGTIDKSKPFLCVIGHNVAGVTYMMDYMEDNNLTDKMEIAGLCCTAIDLTRYKEADRRPPYAKVIGSMSKELKVIRSGMPDVIVVDEQCVRGDIVPEAQKLKIPVIASNPKIMYGLPNRTDADVDETMEELKSGKIPGCVMLDYDKLGELCVRLTMEMAPIRDAAGITALPTDEELVNMVAKCADCGACLLACPEEIDIPEAMGFAKKGDFSYFEEIHDTCIGCRRCEQVCKKEIPILNVIEKIAQKQIAEEKGLMRAGRGQVSDAEIRAEGLNLVMGTTPGIIAIIGCPNYAGGTKDVYYIAEEFLKRNFIVVTTGCGAMDIGMFKDADGKTLYERFPGGFQCGGLANIGSCVSNAHITGAAEKVAAIFAQRTLEGNLAEIGDYILNRVGACGLAWGAFSQKASSIGTGCNIFGIPAVLGPHSSKYRRALIAKTYEEDKWKVYDARNGQEMPIPPAPEFLLTTAETWQEAIPMMAKACIRPSDNSMGRAIKLTHWMELHKKYLGGKEPEDWWKFVRTEADLPLATREALLKELEKEHGWEIDWKRKKIISGPKIKFDVSAQPTNLKRLCKE NAGPTLFPGLEGYRDDWNFKLLDRYEPVITPMCDQCCYCTYGPCDLSGNKRGACGIDMKGHNGREFFLRVITGTACHAAHGRHLLDHLIEKYGEDLPLTLGQSNVLTPNITISTGLSPKTLGEVKPAMEYVEEQLTQLLATVHAGQESAEIDYDSKALFSGSLDHVGMEISDIVQVAAYDFPKADPEAPLVEIGMGTIDKSKPFLCVIGHNVAGVTYMMDYMEDNNLTDKMEIAGLCCTAIDLTRYKEADRRPPYAKVIGSMSKELKVIRSGMPDVIVVDEQCVRGDIVPEAQKLKIPVIASNPKIMYGLPNRTDADVDETMEELKSGKIPGCVMLDYDKLGELCVRLTMEMAPIRDAAGITALPTDEELVNMVAKCADCGACLLACPEEIDIPEAMGFAKKGDFSYFEEIHDTCIGCRRCEQVCKKEIPILNVIEKIAQKQIAEEKGLMRAGRGQVSDAEIRAEGLNLVMGTTPGIIAIIGCPNYAGGTKDVYYIAEEFLKRNFIVVTTGCGAMDIGMFKDADGKTLYERFPGGFQCGGLANIGSCVSNAHITGAAEKVAAIFAQRTLEGNLAEIGDYILNRVGACGLAWGAFSQKASSIGTGCNIFGIPAVLGPHSSKYRRALIAKTYEEDKWKVYDARNGQEMPIPPAPEFLLTTAETWQEAIPMMAKACIRPSDNSMGRAIKLTHWMELHKKYLGGKEPEDWWKFVRTEADLPLATREALLKELEKEHGWEIDWKRKKIISGPKIKFDVSAQPTNLKRLCKE 3cf4-a1-m1-cG_3cf4-a1-m2-cG Structure of the CODH component of the M. barkeri ACDS complex Q46G05 Q46G05 2 X-RAY DIFFRACTION 16 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 169 169 VDTTKNTKLFTSYGVNTSKAVSPEMAAKIISKAKRPLLMVGTLALDPELLDRVVKISKAANIPIAATGSSLAVLADKDVDAKYINAHMLGFYLTDPKWPGLDGNGNYDMIITIGFKKFYINQVLSAAKNFSNLKTIAIERGYIQNATMSFGNLSKADHYAALDELINAL VDTTKNTKLFTSYGVNTSKAVSPEMAAKIISKAKRPLLMVGTLALDPELLDRVVKISKAANIPIAATGSSLAVLADKDVDAKYINAHMLGFYLTDPKWPGLDGNGNYDMIITIGFKKFYINQVLSAAKNFSNLKTIAIERGYIQNATMSFGNLSKADHYAALDELINAL 3cf9-a1-m1-cC_3cf9-a1-m1-cD Crystal structure of (3R)-Hydroxyacyl-Acyl Carrier Protein Dehydratase (FabZ) from Helicobacter pylori in complex with apigenin Q5G940 Q5G940 2.6 X-RAY DIFFRACTION 91 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 150 152 2gll-a1-m1-cB_2gll-a1-m1-cA 2gll-a1-m1-cC_2gll-a1-m1-cD 2gll-a1-m1-cF_2gll-a1-m1-cE 2glm-a1-m1-cB_2glm-a1-m1-cA 2glm-a1-m1-cC_2glm-a1-m1-cD 2glm-a1-m1-cF_2glm-a1-m1-cE 2glp-a1-m1-cB_2glp-a1-m1-cA 2glp-a1-m1-cC_2glp-a1-m1-cD 2glp-a1-m1-cF_2glp-a1-m1-cE 2glv-a1-m1-cB_2glv-a1-m1-cA 2glv-a1-m1-cD_2glv-a1-m1-cC 2glv-a1-m1-cE_2glv-a1-m1-cF 2glv-a2-m1-cH_2glv-a2-m1-cG 2glv-a2-m1-cI_2glv-a2-m1-cJ 2glv-a2-m1-cL_2glv-a2-m1-cK 3b7j-a1-m1-cB_3b7j-a1-m1-cA 3b7j-a1-m1-cC_3b7j-a1-m1-cD 3b7j-a1-m1-cF_3b7j-a1-m1-cE 3cf8-a1-m1-cB_3cf8-a1-m1-cA 3cf8-a1-m1-cC_3cf8-a1-m1-cD 3cf8-a1-m1-cF_3cf8-a1-m1-cE 3cf9-a1-m1-cB_3cf9-a1-m1-cA 3cf9-a1-m1-cF_3cf9-a1-m1-cE 3d04-a1-m1-cB_3d04-a1-m1-cA 3d04-a1-m1-cC_3d04-a1-m1-cD 3d04-a1-m1-cF_3d04-a1-m1-cE 3doy-a1-m1-cB_3doy-a1-m1-cA 3doy-a1-m1-cC_3doy-a1-m1-cD 3doy-a1-m1-cF_3doy-a1-m1-cE 3doz-a1-m1-cB_3doz-a1-m1-cA 3doz-a1-m1-cD_3doz-a1-m1-cC 3doz-a1-m1-cF_3doz-a1-m1-cE 3dp0-a1-m1-cB_3dp0-a1-m1-cA 3dp0-a1-m1-cC_3dp0-a1-m1-cD 3dp0-a1-m1-cF_3dp0-a1-m1-cE 3dp1-a1-m1-cB_3dp1-a1-m1-cA 3dp1-a1-m1-cD_3dp1-a1-m1-cC 3dp1-a1-m1-cF_3dp1-a1-m1-cE 3dp2-a1-m1-cB_3dp2-a1-m1-cA 3dp2-a1-m1-cC_3dp2-a1-m1-cD 3dp2-a1-m1-cF_3dp2-a1-m1-cE 3dp3-a1-m1-cB_3dp3-a1-m1-cA 3dp3-a1-m1-cC_3dp3-a1-m1-cD 3dp3-a1-m1-cF_3dp3-a1-m1-cE 3ed0-a1-m1-cB_3ed0-a1-m1-cA 3ed0-a1-m1-cC_3ed0-a1-m1-cD 3ed0-a1-m1-cF_3ed0-a1-m1-cE 4zjb-a1-m1-cA_4zjb-a1-m1-cB 6ihc-a1-m1-cA_6ihc-a1-m1-cB 6ihc-a1-m1-cC_6ihc-a1-m1-cD 6ihc-a1-m1-cE_6ihc-a1-m1-cF SQFFIEHILQILPHRYPMLLVDRITELQANQKIVAYKNITFNEDVFNGHFPNKPIFPGVLIVEGMAQSGGFLAFTSLWGFDPEIAKTKIVYFMTIDKVKFRIPVTPGDRLEYHLEVLKHKGMIWQVGGTAQVDGKVVAEAELKAMIAERE LQSQFFIEHILQILPHRYPMLLVDRITELQANQKIVAYKNITFNEDVFNGHFPNKPIFPGVLIVEGMAQSGGFLAFTSLWGFDPEIAKTKIVYFMTIDKVKFRIPVTPGDRLEYHLEVLKHKGMIWQVGGTAQVDGKVVAEAELKAMIAERE 3cfh-a1-m1-cB_3cfh-a1-m1-cH Photoswitchable red fluorescent protein psRFP, off-state Q9GZ28 Q9GZ28 1.75 X-RAY DIFFRACTION 66 1.0 6108 (Anemonia sulcata) 6108 (Anemonia sulcata) 164 164 3cfa-a1-m1-cA_3cfa-a1-m1-cG 3cfa-a1-m1-cB_3cfa-a1-m1-cH 3cff-a1-m1-cA_3cff-a1-m1-cG 3cff-a1-m1-cB_3cff-a1-m1-cH 3cfh-a1-m1-cA_3cfh-a1-m1-cG SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDLVYKVKILGNNFPADGPVMQNKAGGWEPGCEILYEVDGVLCGQSLMALKCPGGRHLNCRLHTTYRSKKPASALKMPEFHFEDHRIEVKEVQKGKHYEQYEAAVARYDAAPSKLGHH SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDLVYKVKILGNNFPADGPVMQNKAGGWEPGCEILYEVDGVLCGQSLMALKCPGGRHLNCRLHTTYRSKKPASALKMPEFHFEDHRIEVKEVQKGKHYEQYEAAVARYDAAPSKLGHH 3cfh-a1-m1-cG_3cfh-a1-m1-cH Photoswitchable red fluorescent protein psRFP, off-state Q9GZ28 Q9GZ28 1.75 X-RAY DIFFRACTION 83 1.0 6108 (Anemonia sulcata) 6108 (Anemonia sulcata) 164 164 3cfa-a1-m1-cB_3cfa-a1-m1-cA 3cfa-a1-m1-cG_3cfa-a1-m1-cH 3cff-a1-m1-cA_3cff-a1-m1-cB 3cff-a1-m1-cG_3cff-a1-m1-cH 3cfh-a1-m1-cA_3cfh-a1-m1-cB SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDLVYKVKILGNNFPADGPVMQNKAGGWEPGCEILYEVDGVLCGQSLMALKCPGGRHLNCRLHTTYRSKKPASALKMPEFHFEDHRIEVKEVQKGKHYEQYEAAVARYDAAPSKLGHH SKTFIKYVSGIPDYFKQSFPEGFTWERTTTYEDGGFLTAHQDTSLDGDLVYKVKILGNNFPADGPVMQNKAGGWEPGCEILYEVDGVLCGQSLMALKCPGGRHLNCRLHTTYRSKKPASALKMPEFHFEDHRIEVKEVQKGKHYEQYEAAVARYDAAPSKLGHH 3cg0-a1-m1-cA_3cg0-a1-m2-cD Crystal structure of signal receiver domain of modulated diguanylate cyclase from Desulfovibrio desulfuricans G20, an example of alternate folding Q311G8 Q311G8 2.15 X-RAY DIFFRACTION 35 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 126 126 3cg0-a1-m1-cB_3cg0-a1-m1-cC DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE 3cg0-a2-m1-cA_3cg0-a2-m1-cD Crystal structure of signal receiver domain of modulated diguanylate cyclase from Desulfovibrio desulfuricans G20, an example of alternate folding Q311G8 Q311G8 2.15 X-RAY DIFFRACTION 12 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 126 126 DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE 3cg0-a2-m1-cB_3cg0-a2-m1-cA Crystal structure of signal receiver domain of modulated diguanylate cyclase from Desulfovibrio desulfuricans G20, an example of alternate folding Q311G8 Q311G8 2.15 X-RAY DIFFRACTION 195 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 125 126 3cg0-a1-m1-cB_3cg0-a1-m1-cA LPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE 3cg0-a2-m1-cB_3cg0-a2-m1-cC Crystal structure of signal receiver domain of modulated diguanylate cyclase from Desulfovibrio desulfuricans G20, an example of alternate folding Q311G8 Q311G8 2.15 X-RAY DIFFRACTION 17 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 125 126 LPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE 3cg0-a2-m1-cB_3cg0-a2-m1-cD Crystal structure of signal receiver domain of modulated diguanylate cyclase from Desulfovibrio desulfuricans G20, an example of alternate folding Q311G8 Q311G8 2.15 X-RAY DIFFRACTION 11 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 125 126 LPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE 3cg0-a2-m1-cC_3cg0-a2-m1-cD Crystal structure of signal receiver domain of modulated diguanylate cyclase from Desulfovibrio desulfuricans G20, an example of alternate folding Q311G8 Q311G8 2.15 X-RAY DIFFRACTION 46 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 126 126 DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE DLPGVLIVEDGRLAAATLRIQLESLGYDVLGVFDNGEEAVRCAPDLRPDIALVDIMLCGALDGVETAARLAAGCNLPIIFITSSQDVETFQRAKRVNPFGYLAKPVAADTLHRSIEMAIHKKKLEE 3cg6-a2-m4-cB_3cg6-a2-m3-cA Crystal structure of Gadd45 gamma Q9Z111 Q9Z111 1.7 X-RAY DIFFRACTION 26 0.992 10090 (Mus musculus) 10090 (Mus musculus) 128 131 2wal-a1-m1-cB_2wal-a1-m2-cA 2wal-a1-m2-cB_2wal-a1-m1-cA 3cg6-a1-m2-cB_3cg6-a1-m1-cA 3cg6-a2-m2-cB_3cg6-a2-m1-cA RMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAADEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVGDLHCILISNPKDPALEKLSLFCEESRSFNDWVPSITLPE TARMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAADEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVDLHCILISNPNWKDPALEKLSLFCEESRSFNDWVPSITLPE 3cg6-a3-m1-cA_3cg6-a3-m3-cA Crystal structure of Gadd45 gamma Q9Z111 Q9Z111 1.7 X-RAY DIFFRACTION 97 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 2wal-a1-m1-cB_2wal-a1-m1-cA 2wal-a1-m2-cB_2wal-a1-m2-cA 3cg6-a2-m1-cA_3cg6-a2-m3-cA TARMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAADEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVDLHCILISNPNWKDPALEKLSLFCEESRSFNDWVPSITLPE TARMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAADEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVDLHCILISNPNWKDPALEKLSLFCEESRSFNDWVPSITLPE 3cg6-a4-m1-cB_3cg6-a4-m5-cB Crystal structure of Gadd45 gamma Q9Z111 Q9Z111 1.7 X-RAY DIFFRACTION 70 1.0 10090 (Mus musculus) 10090 (Mus musculus) 128 128 3cg6-a2-m2-cB_3cg6-a2-m4-cB RMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAADEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVGDLHCILISNPKDPALEKLSLFCEESRSFNDWVPSITLPE RMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAADEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVGDLHCILISNPKDPALEKLSLFCEESRSFNDWVPSITLPE 3cgb-a1-m1-cA_3cgb-a1-m1-cB Pyridine Nucleotide Complexes with Bacillus anthracis Coenzyme A-Disulfide Reductase: A Structural Analysis of Dual NAD(P)H Specificity A0A6L7HMK7 A0A6L7HMK7 1.9 X-RAY DIFFRACTION 174 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 431 431 3cgc-a1-m1-cA_3cgc-a1-m1-cB 3cgd-a1-m1-cA_3cgd-a1-m1-cB 3cge-a1-m1-cA_3cge-a1-m1-cB NYVIIGGDAAGSAAQIVRNDENANVVTLEKGEIYSYAQCGLPYVISGAIASTEKLIARNVKTFRDKYGIDAKVRHEVTKVDTEKKIVYAEHTKTKDVFEFSYDRLLIATGVRPVPEWEGRDLQGVHLLKTIPDAERILKTLETNKVEDVTIIGGGAIGLEAETFVELGKKVRIERNDHIGTIYDGDAEYIYKEADKHHIEILTNENVKAFKGNERVEAVETDKGTYKADLVLVSVGVKPNTDFLEGTNIRTNHKGAIEVNAYQTNVQDVYAAGDCATHYHVIKEIHDHIPIGTTANKQGRLAGLNLDKRRAFKGTLGTGIIKFNLTLARTGLNEKEAKGLHIPYKTVKVDSTNAGYYPNAKPLYLKLLYRSDTKQLLGGQVIGEEGVDKRIDVIAALFNKSIHDLEDVDLSYAPPYNSVWDPIQQAARRAE NYVIIGGDAAGSAAQIVRNDENANVVTLEKGEIYSYAQCGLPYVISGAIASTEKLIARNVKTFRDKYGIDAKVRHEVTKVDTEKKIVYAEHTKTKDVFEFSYDRLLIATGVRPVPEWEGRDLQGVHLLKTIPDAERILKTLETNKVEDVTIIGGGAIGLEAETFVELGKKVRIERNDHIGTIYDGDAEYIYKEADKHHIEILTNENVKAFKGNERVEAVETDKGTYKADLVLVSVGVKPNTDFLEGTNIRTNHKGAIEVNAYQTNVQDVYAAGDCATHYHVIKEIHDHIPIGTTANKQGRLAGLNLDKRRAFKGTLGTGIIKFNLTLARTGLNEKEAKGLHIPYKTVKVDSTNAGYYPNAKPLYLKLLYRSDTKQLLGGQVIGEEGVDKRIDVIAALFNKSIHDLEDVDLSYAPPYNSVWDPIQQAARRAE 3cgh-a1-m1-cA_3cgh-a1-m2-cA Crystal structure of a susd homolog (bt_3984) from bacteroides thetaiotaomicron vpi-5482 at 1.70 A resolution Q8A0N7 Q8A0N7 1.7 X-RAY DIFFRACTION 66 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 498 498 PYEAPDLSADGYALGSANNLAGCVVSPDVNTAQFTDCLLGGPLGGYFADSNAGFTETISNFNPKDDWSRVFLKSDKIIPTLYSNLTQVKLVSQNTNDPVPYAIAQVIKVAAHRVTDAFGPIPYSQIGANGEIATPYDSQEVTYNTFFDELNAAIATLNENSNEQLVPTADYIYKGDVKKWIRFANSLKLRLAIRIAYANPVKAQQAEEAVNPANGGVIESNADNATWNYFETSQNPIYVATRYNQVQTSDHGGVPCLTGGDTHAAADIICYNGYKDNRREKFFTKSEWAGQDYVGRRGIVIPELKTTGHKYSGVNIAPTSPLYWNAAEVAFLRAEGQAVFNFSGGTAESFYNQGIRLSFEQWGADGVEDYLKDDVNKPTAYTDPAGTNTYQNALSNITIKWNDSADKEEKQERIIVQKWIANWQLGNEAWADFRRTGYPKLIPVKENKSGGVVDSEKGARRPYPLDEFVSNKANVEYAIANYLHGADNATDVWWASKK PYEAPDLSADGYALGSANNLAGCVVSPDVNTAQFTDCLLGGPLGGYFADSNAGFTETISNFNPKDDWSRVFLKSDKIIPTLYSNLTQVKLVSQNTNDPVPYAIAQVIKVAAHRVTDAFGPIPYSQIGANGEIATPYDSQEVTYNTFFDELNAAIATLNENSNEQLVPTADYIYKGDVKKWIRFANSLKLRLAIRIAYANPVKAQQAEEAVNPANGGVIESNADNATWNYFETSQNPIYVATRYNQVQTSDHGGVPCLTGGDTHAAADIICYNGYKDNRREKFFTKSEWAGQDYVGRRGIVIPELKTTGHKYSGVNIAPTSPLYWNAAEVAFLRAEGQAVFNFSGGTAESFYNQGIRLSFEQWGADGVEDYLKDDVNKPTAYTDPAGTNTYQNALSNITIKWNDSADKEEKQERIIVQKWIANWQLGNEAWADFRRTGYPKLIPVKENKSGGVVDSEKGARRPYPLDEFVSNKANVEYAIANYLHGADNATDVWWASKK 3cgi-a3-m3-cA_3cgi-a3-m3-cB Crystal structure of the PduU shell protein from the Pdu microcompartment P0A1D1 P0A1D1 1.8 X-RAY DIFFRACTION 93 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 112 112 3cgi-a1-m1-cA_3cgi-a1-m1-cB 3cgi-a1-m1-cA_3cgi-a1-m3-cB 3cgi-a1-m1-cB_3cgi-a1-m2-cA 3cgi-a1-m2-cA_3cgi-a1-m2-cB 3cgi-a1-m2-cB_3cgi-a1-m3-cA 3cgi-a1-m3-cA_3cgi-a1-m3-cB 3cgi-a2-m1-cD_3cgi-a2-m1-cC 3cgi-a2-m1-cD_3cgi-a2-m3-cC 3cgi-a2-m2-cD_3cgi-a2-m1-cC 3cgi-a2-m2-cD_3cgi-a2-m2-cC 3cgi-a2-m3-cD_3cgi-a2-m2-cC 3cgi-a2-m3-cD_3cgi-a2-m3-cC 3cgi-a3-m1-cA_3cgi-a3-m1-cB 3cgi-a3-m1-cA_3cgi-a3-m3-cB 3cgi-a3-m1-cB_3cgi-a3-m2-cA 3cgi-a3-m1-cD_3cgi-a3-m1-cC 3cgi-a3-m1-cD_3cgi-a3-m3-cC 3cgi-a3-m2-cA_3cgi-a3-m2-cB 3cgi-a3-m2-cB_3cgi-a3-m3-cA 3cgi-a3-m2-cD_3cgi-a3-m1-cC 3cgi-a3-m2-cD_3cgi-a3-m2-cC 3cgi-a3-m3-cD_3cgi-a3-m2-cC 3cgi-a3-m3-cD_3cgi-a3-m3-cC TDRMIQEYVPGKQVTLAHLIANPGKDLFKKLGLQDAVSAIGILTITPSEASIIACDIATKSGAVEIGFLDRFTGAVVLTGDVSAVEYALKQVTRTLGEMMQFTTCSITRTLE TDRMIQEYVPGKQVTLAHLIANPGKDLFKKLGLQDAVSAIGILTITPSEASIIACDIATKSGAVEIGFLDRFTGAVVLTGDVSAVEYALKQVTRTLGEMMQFTTCSITRTLE 3cgi-a3-m3-cA_3cgi-a3-m3-cD Crystal structure of the PduU shell protein from the Pdu microcompartment P0A1D1 P0A1D1 1.8 X-RAY DIFFRACTION 16 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 112 117 3cgi-a3-m1-cA_3cgi-a3-m1-cD 3cgi-a3-m1-cB_3cgi-a3-m1-cC 3cgi-a3-m2-cA_3cgi-a3-m2-cD 3cgi-a3-m2-cB_3cgi-a3-m2-cC 3cgi-a3-m3-cB_3cgi-a3-m3-cC TDRMIQEYVPGKQVTLAHLIANPGKDLFKKLGLQDAVSAIGILTITPSEASIIACDIATKSGAVEIGFLDRFTGAVVLTGDVSAVEYALKQVTRTLGEMMQFTTCSITRTLE TTDRMIQEYVPGKQVTLAHLIANPGKDLFKKLGLQDAVSAIGILTITPSEASIIACDIATKSGAVEIGFLDRFTGAVVLTGDVSAVEYALKQVTRTLGEMMQFTTCSITRTLEHHHH 3cgl-a1-m1-cD_3cgl-a1-m1-cC Crystal Structure and Raman Studies of dsFP483, a Cyan Fluorescent Protein from Discosoma striata Q9U6Y7 Q9U6Y7 2.09 X-RAY DIFFRACTION 76 1.0 105400 (Discosoma striata) 105400 (Discosoma striata) 219 220 3cgl-a1-m1-cB_3cgl-a1-m1-cA VIKEEMLIDLHLEGTFNGHYFEIKGKGKGQPNEGTNTVTLEVTKGGPLPFGWHILCPQFNKAFVHHPDNIHDYLKLSFPEGYTWERSMHFEDGGLCCITNDISLTGNCFYYDIKFTGLNFPPNGPVVQKKTTGWEPSTERLYPRDGVLIGDIHHALTVEGGGHYACDIKTVYRAKKAALKMPGYHYVDTKLVIWNNDKEFMKVEEHEIAVARHHPFYEP SVIKEEMLIDLHLEGTFNGHYFEIKGKGKGQPNEGTNTVTLEVTKGGPLPFGWHILCPQFNKAFVHHPDNIHDYLKLSFPEGYTWERSMHFEDGGLCCITNDISLTGNCFYYDIKFTGLNFPPNGPVVQKKTTGWEPSTERLYPRDGVLIGDIHHALTVEGGGHYACDIKTVYRAKKAALKMPGYHYVDTKLVIWNNDKEFMKVEEHEIAVARHHPFYEP 3cgl-a2-m1-cE_3cgl-a2-m2-cE Crystal Structure and Raman Studies of dsFP483, a Cyan Fluorescent Protein from Discosoma striata Q9U6Y7 Q9U6Y7 2.09 X-RAY DIFFRACTION 71 1.0 105400 (Discosoma striata) 105400 (Discosoma striata) 214 214 3cgl-a1-m1-cB_3cgl-a1-m1-cD 3cgl-a1-m1-cC_3cgl-a1-m1-cA VIKEEMLIDLHLEGTFHYFEIKGKGKGQPNEGTNTVTLEVTKGGPLPFGWHILCPQFNKAFVHHPDNIHDYLKLSFPEGYTWERSMHFEDGGLCCITNDISLTGNCFYYDIKFTGLNFPPNGPVVQKKTTGWEPSTERLYPRDGVLIGDIHHALTVEGGGHYACDIKTVYRAKKAAKMPGYHYVDTKLVIWNNDKEFMKVEEHEIAVARHHPFY VIKEEMLIDLHLEGTFHYFEIKGKGKGQPNEGTNTVTLEVTKGGPLPFGWHILCPQFNKAFVHHPDNIHDYLKLSFPEGYTWERSMHFEDGGLCCITNDISLTGNCFYYDIKFTGLNFPPNGPVVQKKTTGWEPSTERLYPRDGVLIGDIHHALTVEGGGHYACDIKTVYRAKKAAKMPGYHYVDTKLVIWNNDKEFMKVEEHEIAVARHHPFY 3cgm-a2-m3-cA_3cgm-a2-m6-cA Crystal structure of thermophilic SlyD Q5SLE7 Q5SLE7 2.41 X-RAY DIFFRACTION 81 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 157 157 3cgm-a2-m1-cA_3cgm-a2-m4-cA 3cgm-a2-m2-cA_3cgm-a2-m5-cA MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPSGHHHHH MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPSGHHHHH 3cgm-a2-m4-cA_3cgm-a2-m6-cA Crystal structure of thermophilic SlyD Q5SLE7 Q5SLE7 2.41 X-RAY DIFFRACTION 21 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 157 157 3cgm-a2-m1-cA_3cgm-a2-m3-cA 3cgm-a2-m1-cA_3cgm-a2-m5-cA 3cgm-a2-m2-cA_3cgm-a2-m4-cA 3cgm-a2-m2-cA_3cgm-a2-m6-cA 3cgm-a2-m3-cA_3cgm-a2-m5-cA 3luo-a2-m1-cA_3luo-a2-m2-cA 3luo-a2-m1-cA_3luo-a2-m3-cA 3luo-a2-m2-cA_3luo-a2-m3-cA MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPSGHHHHH MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPSGHHHHH 3cgm-a2-m5-cA_3cgm-a2-m6-cA Crystal structure of thermophilic SlyD Q5SLE7 Q5SLE7 2.41 X-RAY DIFFRACTION 21 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 157 157 3cgm-a2-m1-cA_3cgm-a2-m2-cA 3cgm-a2-m3-cA_3cgm-a2-m4-cA MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPSGHHHHH MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPSGHHHHH 3cgn-a2-m1-cA_3cgn-a2-m2-cA Crystal Structure of thermophilic SlyD Q5SLE7 Q5SLE7 2.7 X-RAY DIFFRACTION 35 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 151 151 MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPS MKVGQDKVVTIRYTLQVEGEVLDQGELSYLHGHRNLIPGLEEALEGREEGEAFQAHVPAEKAYGPHDPEGVQVVPLSAFPEDAEVVPGAQFYAQDMEGNPMPLTVVAVEGEEVTVDFNHPLAGKDLDFQVEVVKVREATPEELLHGHAHPS 3cgu-a1-m1-cB_3cgu-a1-m1-cA Crystal Structure of unliganded Argos Q00805 Q00805 2.51 X-RAY DIFFRACTION 95 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 205 207 VRILYQVGDSEEDLPVCAPNAVCSKIDLYETPWIERQCRCPDGRTCPSSLGVEDGHTIADKTRHYKMCQPVHKLPVCKHFRDYTWTLTTAAELNVTEQIVHCRCPRNSVTYLTKREPIGNDSPGYRYLFACSPLTRLRCQRKQPCKLFTVRKRQEFLDEVNINSLCQCPKGHRCPSHHTQSGVIAGESFLEDNIQTYSGYCMAND RDVRILYQVGDSEEDLPVCAPNAVCSKIDLYETPWIERQCRCPDGRTCPSSLGVEDGHTIADKTRHYKMCQPVHKLPVCKHFRDYTWTLTTAAELNVTEQIVHCRCPRNSVTYLTKREPIGNDSPGYRYLFACSPLTRLRCQRKQPCKLFTVRKRQEFLDEVNINSLCQCPKGHRCPSHHTQSGVIAGESFLEDNIQTYSGYCMAND 3cgu-a2-m2-cB_3cgu-a2-m1-cA Crystal Structure of unliganded Argos Q00805 Q00805 2.51 X-RAY DIFFRACTION 62 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 205 207 VRILYQVGDSEEDLPVCAPNAVCSKIDLYETPWIERQCRCPDGRTCPSSLGVEDGHTIADKTRHYKMCQPVHKLPVCKHFRDYTWTLTTAAELNVTEQIVHCRCPRNSVTYLTKREPIGNDSPGYRYLFACSPLTRLRCQRKQPCKLFTVRKRQEFLDEVNINSLCQCPKGHRCPSHHTQSGVIAGESFLEDNIQTYSGYCMAND RDVRILYQVGDSEEDLPVCAPNAVCSKIDLYETPWIERQCRCPDGRTCPSSLGVEDGHTIADKTRHYKMCQPVHKLPVCKHFRDYTWTLTTAAELNVTEQIVHCRCPRNSVTYLTKREPIGNDSPGYRYLFACSPLTRLRCQRKQPCKLFTVRKRQEFLDEVNINSLCQCPKGHRCPSHHTQSGVIAGESFLEDNIQTYSGYCMAND 3ch5-a1-m1-cA_3ch5-a1-m4-cA The crystal structure of the RanGDP-Nup153ZnF2 complex P62826 P62826 2.1 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 193 3ch5-a1-m2-cA_3ch5-a1-m3-cA PQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSINLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQ PQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSINLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQ 3ch5-a1-m2-cA_3ch5-a1-m4-cA The crystal structure of the RanGDP-Nup153ZnF2 complex P62826 P62826 2.1 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 193 3ch5-a1-m1-cA_3ch5-a1-m3-cA PQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSINLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQ PQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSINLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQ 3ch5-a2-m1-cA_3ch5-a2-m2-cA The crystal structure of the RanGDP-Nup153ZnF2 complex P62826 P62826 2.1 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 193 3ch5-a1-m1-cA_3ch5-a1-m2-cA 3ch5-a1-m3-cA_3ch5-a1-m4-cA PQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSINLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQ PQVQFKLVLVGDGGTGKTTFVKRHLTGEFEKKYVATLGVEVHPLVFHTNRGPIKFNVWDTAGQEKFGGLRDGYYIQAQCAIIMFDVTSRVTYKNVPNWHRDLVRVCENIPIVLCGNKVDIKDRKVKAKSINLQYYDISAKSNYNFEKPFLWLARKLIGDPNLEFVAMPALAPPEVVMDPALAAQYEHDLEVAQ 3chn-a1-m1-cA_3chn-a1-m1-cC Solution structure of human secretory IgA1 P01876 P01876 0 SOLUTION SCATTERING 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 3chn-a1-m1-cB_3chn-a1-m1-cC Solution structure of human secretory IgA1 P01876 P01876 0 SOLUTION SCATTERING 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 3chn-a1-m1-cC_3chn-a1-m1-cD Solution structure of human secretory IgA1 P01876 P01876 0 SOLUTION SCATTERING 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 2qtj-a1-m1-cA_2qtj-a1-m1-cB 2qtj-a2-m1-cC_2qtj-a2-m1-cD 3chn-a1-m1-cA_3chn-a1-m1-cB QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLCSTQPDGNVVIACLVQGFFPQEPLSVTWSESGQGVTARNFPPSQDASGDLYTTSSQLTLPATQCLAGKSVTCHVKHYTNPSQDVTVPCPVPSTPPTPSPSTPPTPSPSCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 3chn-a1-m1-cJ_3chn-a1-m1-cS Solution structure of human secretory IgA1 P01833 P01833 0 SOLUTION SCATTERING 267 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 585 PRSPTVVKGVAGSSVAVLCPYNRKESKSIKYWCLWEGAQNGRCPLLVDSEGWVKAQYEGRLSLLEEPGNGTFTVILNQLTSRDAGFYWCLTNGDTLWRTTVEIKII KSPIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQGARGGCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVSQGPGLLNDTKVYTVDLGRTVTINCPFKTENAQKRKSLYKQIGLYPVLVIDSSGYVNPNYTGRIRLDIQGTGQLLFSVVINQLRLSDAGQYLCQAGDDSNSNKKNADLQVLKPEPELVYEDLRGSVTFHCALGPEVANVAKFLCRQSSGENCDVVVNTLGKRAPAFEGRILLNPQDKDGSFSVVITGLRKEDAGRYLCGAHSDGQLQEGSPIQAWQLFVNEESTIPRSPTVVKGVAGSSVAVLCPYNRKESKSIKYWCLWEGAQNGRCPLLVDSEGWVKAQYEGRLSLLEEPGNGTFTVILNQLTSRDAGFYWCLTNGDTLWRTTVEIKIIEGEPNLKVPGNVTAVLGETLKVPCHFPCKFSSYEKYWCKWNNTGCQALPSQDEGPSKAFVNCDENSRLVSLTLNLVTRADEGWYWCGVKQGHFYGETAAVYVAVEERKAAGSRDVSLAKADAAPDEKVLDSGFREIENKAIQDPR 3cht-a1-m1-cB_3cht-a1-m1-cA Crystal Structure of Di-iron AurF with partially bound Ligand Q70KH9 Q70KH9 2 X-RAY DIFFRACTION 64 1.0 66431 (Streptomyces thioluteus) 66431 (Streptomyces thioluteus) 300 301 2jcd-a1-m1-cB_2jcd-a1-m1-cA 3chh-a1-m1-cB_3chh-a1-m1-cA 3chi-a1-m1-cA_3chi-a1-m1-cB 3chu-a1-m1-cA_3chu-a1-m1-cB GSATLGRLVRAWPRRAAVVNKADILDEWADYDTLVPDYPLEIVPFAEHPLFLAAEPHQRQRVLTGMWIGYNERVIATEQLIAEPAFDLVMHGVFPGSDDPLIRKSVQQAIVDESFHTYMHMLAIDRTRELRKISERPPQPELVTYRRLRRVLADMPEQWERDIAVLVWGAVAETCINALLALLARDATIQPMHSLITTLHLRDETAHGSIVVEVVRELYARMNEQQRRALVRCLPIALEAFAEQDLSALLLELNAAGIRGAEEIVGDLRLVRDFSGARKMVEQLGLDDAVDFDFPERPDW GSATLGRLVRAWPRRAAVVNKADILDEWADYDTLVPDYPLEIVPFAEHPLFLAAEPHQRQRVLTGMWIGYNERVIATEQLIAEPAFDLVMHGVFPGSDDPLIRKSVQQAIVDESFHTYMHMLAIDRTRELRKISERPPQPELVTYRRLRRVLADMPEQWERDIAVLVWGAVAETCINALLALLARDATIQPMHSLITTLHLRDETAHGSIVVEVVRELYARMNEQQRRALVRCLPIALEAFAEQDLSALLLELNAAGIRGAEEIVGDLRLVRDFSGARKMVEQLGLDDAVDFDFPERPDWS 3chv-a1-m1-cA_3chv-a1-m2-cA CRYSTAL STRUCTURE OF a prokaryotic domain of unknown function (DUF849) member (SPOA0042) FROM SILICIBACTER POMEROYI DSS-3 AT 1.45 A RESOLUTION Q6SJB6 Q6SJB6 1.45 X-RAY DIFFRACTION 75 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 270 270 ANKPCIICVAITGSVPTKADNPAVPITVSEQVESTQEAFEAGAAIAHCHVRNDDGTPSSDPDRFARLTEGLHTHCPGIVQFSTGGRSGAGQARGGLPLKPDASLSVGSNNFPSRVYENPPDLVDWLAAQRSYRVTPEIEAFDLSHILRAIDHGRGLLYGKLYVQFVGVKNAPADREVFDFYVRRTRAPQAEWCAAGIGANQLTVNEWAIAAGGHTRTGLEDNIRLDRQTLAPSNAALVRRSVELCDKYQRPVASWQQAREILGLPAAARN ANKPCIICVAITGSVPTKADNPAVPITVSEQVESTQEAFEAGAAIAHCHVRNDDGTPSSDPDRFARLTEGLHTHCPGIVQFSTGGRSGAGQARGGLPLKPDASLSVGSNNFPSRVYENPPDLVDWLAAQRSYRVTPEIEAFDLSHILRAIDHGRGLLYGKLYVQFVGVKNAPADREVFDFYVRRTRAPQAEWCAAGIGANQLTVNEWAIAAGGHTRTGLEDNIRLDRQTLAPSNAALVRRSVELCDKYQRPVASWQQAREILGLPAAARN 3chx-a1-m1-cE_3chx-a1-m1-cI Crystal structure of Methylosinus trichosporium OB3b particulate methane monooxygenase (pMMO) Q9KX50 Q9KX50 3.9 X-RAY DIFFRACTION 32 1.0 426 (Methylosinus trichosporium) 426 (Methylosinus trichosporium) 362 362 3chx-a1-m1-cA_3chx-a1-m1-cE 3chx-a1-m1-cA_3chx-a1-m1-cI HGEKSQQAFLRMRTLNWYDVKWSKTSLNVNESMVLSGKVHVFSAWPQAVANPKSSFLNAGEPGPVLVRTAQFIGEQFAPRSVSLEVGKDYAFSIDLKARRAGRWHVHAQINVEGGGPIIGPGQWIEIKGDMADFKDPVTLLDGTTVDLETYGIDRIYAWHFPWMIAAAAWILYWFFKKGIIASYLRISEGKDEEQIGDDDRRVGAIVLAVTILATIIGYAVTNSTFPRTIPLQAGLQKPLTPIIVTAELKGGVYKVPGRELTIQVKVGEYTAAGLRFLNPDVFTTKDYLLADRGLSTDPTPLAPGETKTIEVKVQDARWDIERLSDLAYDTDSQIGGLLMFFSPSGKRYATEIGGPVIPKFV HGEKSQQAFLRMRTLNWYDVKWSKTSLNVNESMVLSGKVHVFSAWPQAVANPKSSFLNAGEPGPVLVRTAQFIGEQFAPRSVSLEVGKDYAFSIDLKARRAGRWHVHAQINVEGGGPIIGPGQWIEIKGDMADFKDPVTLLDGTTVDLETYGIDRIYAWHFPWMIAAAAWILYWFFKKGIIASYLRISEGKDEEQIGDDDRRVGAIVLAVTILATIIGYAVTNSTFPRTIPLQAGLQKPLTPIIVTAELKGGVYKVPGRELTIQVKVGEYTAAGLRFLNPDVFTTKDYLLADRGLSTDPTPLAPGETKTIEVKVQDARWDIERLSDLAYDTDSQIGGLLMFFSPSGKRYATEIGGPVIPKFV 3chx-a1-m1-cF_3chx-a1-m1-cJ Crystal structure of Methylosinus trichosporium OB3b particulate methane monooxygenase (pMMO) Q50541 Q50541 3.9 X-RAY DIFFRACTION 25 1.0 426 (Methylosinus trichosporium) 426 (Methylosinus trichosporium) 238 238 3chx-a1-m1-cB_3chx-a1-m1-cF 3chx-a1-m1-cB_3chx-a1-m1-cJ PFHSVAEAAGCVKTTDWMFLTLLFLAVLGGYHIHFMLTAGDWDFWVDWKDRRMWPTVVPILGVTFAAAAQAFFWENFKLPFGATFAVSGLLIGEWINRYCNFWGWTYFPISLVFPSALVVPALWLDIIMLLSGSYVITAVVGSLGWGLLFYPNNWPAIAALHQATEQHGQLMSLADLVGFHFVRTSMPEYIRMVERGTLRTFGKEVVPVAAFFSGFVSMMVYFLWWFVGKWYSTTKVI PFHSVAEAAGCVKTTDWMFLTLLFLAVLGGYHIHFMLTAGDWDFWVDWKDRRMWPTVVPILGVTFAAAAQAFFWENFKLPFGATFAVSGLLIGEWINRYCNFWGWTYFPISLVFPSALVVPALWLDIIMLLSGSYVITAVVGSLGWGLLFYPNNWPAIAALHQATEQHGQLMSLADLVGFHFVRTSMPEYIRMVERGTLRTFGKEVVPVAAFFSGFVSMMVYFLWWFVGKWYSTTKVI 3ci6-a1-m1-cA_3ci6-a1-m1-cB Crystal structure of the GAF domain from Acinetobacter phosphoenolpyruvate-protein phosphotransferase Q6FEW8 Q6FEW8 1.55 X-RAY DIFFRACTION 99 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 151 159 SNQLDTLRRIVQEINSSVSLHDSLDIVNQVADAKVDVCSIYLLDERNQRYLLASKGLNPESVGHVSLQLSEGLVGLVGQREEIVNLENASKHERFIYNSFLGVPVYRRKVGVLVVQNKQPQDFSEAAESFLVTLCAQLSGVIAHAHAVGNI SNQLDTLRRIVQEINSSVSLHDSLDIVNQVADAKVDVCSIYLLDERNQRYLLASKGLNPESVGHVSLQLSEGLVGLVGQREEIVNLENASKHERFAYLPGEEIYNSFLGVPVYRRKVGVLVVQNKQPQDFSEAAESFLVTLCAQLSGVIAHAHAVGNID 3ci7-a1-m1-cB_3ci7-a1-m1-cC Crystal structure of a simplified BPTI containing 20 alanines 1.4 X-RAY DIFFRACTION 10 1.0 56 58 RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACAAA 3ci7-a1-m1-cB_3ci7-a1-m1-cD Crystal structure of a simplified BPTI containing 20 alanines 1.4 X-RAY DIFFRACTION 24 1.0 56 57 3ci7-a1-m1-cA_3ci7-a1-m1-cC RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACAA 3ci7-a1-m1-cD_3ci7-a1-m1-cA Crystal structure of a simplified BPTI containing 20 alanines 1.4 X-RAY DIFFRACTION 30 1.0 57 58 RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACAA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACAAA 3ci7-a1-m1-cD_3ci7-a1-m1-cC Crystal structure of a simplified BPTI containing 20 alanines 1.4 X-RAY DIFFRACTION 16 1.0 57 58 3ci7-a1-m1-cB_3ci7-a1-m1-cA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACAA RPAFCLEPPYAGPGKARIIRYFYNAAAGAAQAFVYGGARAKRNNFASAADALAACAAA 3ci9-a1-m2-cB_3ci9-a1-m3-cB Crystal Structure of the human HSBP1 O75506 O75506 1.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 3ci9-a1-m1-cA_3ci9-a1-m2-cA 3ci9-a1-m1-cA_3ci9-a1-m3-cA 3ci9-a1-m1-cB_3ci9-a1-m2-cB 3ci9-a1-m1-cB_3ci9-a1-m3-cB 3ci9-a1-m2-cA_3ci9-a1-m3-cA VQDLTSVVQTLLQQMQDKFQTISDQIIGRIDDMSSRIDDLEKNIA VQDLTSVVQTLLQQMQDKFQTISDQIIGRIDDMSSRIDDLEKNIA 3cih-a1-m1-cA_3cih-a1-m2-cA Crystal structure of a putative alpha-rhamnosidase from Bacteroides thetaiotaomicron Q8A916 Q8A916 2.33 X-RAY DIFFRACTION 187 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 690 690 QTWIWYPGDYEIWLGNQNNRRTERGAFFPPFWKTDSHYVVVEFSKVLNLSEPEEVFIAAEGTYNVKLDGKLQFGPETLLLPAGKHSLNIKVWNQATPPTIYVKGKTVNSDSSWRVTYEDKEWIDESGKASDTSATIYDAGCWNFDGATQRPSQFSLREPQQPVAKTEQPEGGILYDFGKETFGFITLKNLSGKGKIDLYYGESPEEAKDKAYCETLDKLLLEPGQITDLAIRSTSPLHHSDNEYTLENSKAFRYVYITHEPEVQIGEVSQYEYLPEEYRGNFRCNDEELNCIWEVGAYTHLTTREFFIDGIKRDRWVWSGDAIQSYLNYYLFFDSESVKRTIWLLRGKDPVTSHSNTIDYTFYWFLSVYDYYYSGDRHFVNQLYPRQTDYVLGRTNKNGVEGSGDWVFVDWADGYLDKKGELSFEQVLFCRSLETALCADLVGDKDGQQKYEKLASALKAKLEPTFWNNQKQAFVHNCVDGRQSDAVTRYANFSVFFDYLNADKQQAIKQSVLLNDEILKITTPYRFYELEALCALGEQETVKEKAYWGGLKAGATSFWEKYNPEESGTQHLAYGRPYGKSLCHAWGASPIYLLGKYYLGVKPTKEGYKEFAVSPVLGGLKWEGTVPTPNGDIHVYDNKTIKVKATEGKGYLTIQSRRQPKANGTVEKVSEGVWRLWIDSPEERIVTYRL QTWIWYPGDYEIWLGNQNNRRTERGAFFPPFWKTDSHYVVVEFSKVLNLSEPEEVFIAAEGTYNVKLDGKLQFGPETLLLPAGKHSLNIKVWNQATPPTIYVKGKTVNSDSSWRVTYEDKEWIDESGKASDTSATIYDAGCWNFDGATQRPSQFSLREPQQPVAKTEQPEGGILYDFGKETFGFITLKNLSGKGKIDLYYGESPEEAKDKAYCETLDKLLLEPGQITDLAIRSTSPLHHSDNEYTLENSKAFRYVYITHEPEVQIGEVSQYEYLPEEYRGNFRCNDEELNCIWEVGAYTHLTTREFFIDGIKRDRWVWSGDAIQSYLNYYLFFDSESVKRTIWLLRGKDPVTSHSNTIDYTFYWFLSVYDYYYSGDRHFVNQLYPRQTDYVLGRTNKNGVEGSGDWVFVDWADGYLDKKGELSFEQVLFCRSLETALCADLVGDKDGQQKYEKLASALKAKLEPTFWNNQKQAFVHNCVDGRQSDAVTRYANFSVFFDYLNADKQQAIKQSVLLNDEILKITTPYRFYELEALCALGEQETVKEKAYWGGLKAGATSFWEKYNPEESGTQHLAYGRPYGKSLCHAWGASPIYLLGKYYLGVKPTKEGYKEFAVSPVLGGLKWEGTVPTPNGDIHVYDNKTIKVKATEGKGYLTIQSRRQPKANGTVEKVSEGVWRLWIDSPEERIVTYRL 3cin-a1-m2-cA_3cin-a1-m4-cA CRYSTAL STRUCTURE OF A MYO-INOSITOL-1-PHOSPHATE SYNTHASE-RELATED PROTEIN (TM_1419) FROM THERMOTOGA MARITIMA MSB8 AT 1.70 A RESOLUTION Q9X1D6 Q9X1D6 1.7 X-RAY DIFFRACTION 170 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 382 382 3cin-a1-m1-cA_3cin-a1-m3-cA HMVKVLILGQGYVASTFVAGLEKLRKGEIEPYGVPLARELPIGFEDIKIVGSYDVDRAKIGKKLSEVVKQYWNDVDSLTSDPEIRKGVHLGSVRNLPIEAEGLEDSMTLKEAVDTLVKEWTELDPDVIVNTCTTEAFVPFGNKEDLLKAIENNDKERLTATQVYAYAAALYANKRGGAAFVNVIPTFIANDPAFVELAKENNLVVFGDDGATGATPFTADVLSHLAQRNRYVKDVAQFNIGGNMDFLALTDDGKNKSKEFTKSSIVKDILGYDAPHYIKPTGYLEPLGDKKFIAIHIEYVSFNGATDELMINGRINDSPALGGLLVDLVRLGKIALDRKEFGTVYPVNAFYMKNPGPAEEKNIPRIIAYEKMRIWAGLKPKW HMVKVLILGQGYVASTFVAGLEKLRKGEIEPYGVPLARELPIGFEDIKIVGSYDVDRAKIGKKLSEVVKQYWNDVDSLTSDPEIRKGVHLGSVRNLPIEAEGLEDSMTLKEAVDTLVKEWTELDPDVIVNTCTTEAFVPFGNKEDLLKAIENNDKERLTATQVYAYAAALYANKRGGAAFVNVIPTFIANDPAFVELAKENNLVVFGDDGATGATPFTADVLSHLAQRNRYVKDVAQFNIGGNMDFLALTDDGKNKSKEFTKSSIVKDILGYDAPHYIKPTGYLEPLGDKKFIAIHIEYVSFNGATDELMINGRINDSPALGGLLVDLVRLGKIALDRKEFGTVYPVNAFYMKNPGPAEEKNIPRIIAYEKMRIWAGLKPKW 3cin-a1-m3-cA_3cin-a1-m4-cA CRYSTAL STRUCTURE OF A MYO-INOSITOL-1-PHOSPHATE SYNTHASE-RELATED PROTEIN (TM_1419) FROM THERMOTOGA MARITIMA MSB8 AT 1.70 A RESOLUTION Q9X1D6 Q9X1D6 1.7 X-RAY DIFFRACTION 60 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 382 382 3cin-a1-m1-cA_3cin-a1-m2-cA HMVKVLILGQGYVASTFVAGLEKLRKGEIEPYGVPLARELPIGFEDIKIVGSYDVDRAKIGKKLSEVVKQYWNDVDSLTSDPEIRKGVHLGSVRNLPIEAEGLEDSMTLKEAVDTLVKEWTELDPDVIVNTCTTEAFVPFGNKEDLLKAIENNDKERLTATQVYAYAAALYANKRGGAAFVNVIPTFIANDPAFVELAKENNLVVFGDDGATGATPFTADVLSHLAQRNRYVKDVAQFNIGGNMDFLALTDDGKNKSKEFTKSSIVKDILGYDAPHYIKPTGYLEPLGDKKFIAIHIEYVSFNGATDELMINGRINDSPALGGLLVDLVRLGKIALDRKEFGTVYPVNAFYMKNPGPAEEKNIPRIIAYEKMRIWAGLKPKW HMVKVLILGQGYVASTFVAGLEKLRKGEIEPYGVPLARELPIGFEDIKIVGSYDVDRAKIGKKLSEVVKQYWNDVDSLTSDPEIRKGVHLGSVRNLPIEAEGLEDSMTLKEAVDTLVKEWTELDPDVIVNTCTTEAFVPFGNKEDLLKAIENNDKERLTATQVYAYAAALYANKRGGAAFVNVIPTFIANDPAFVELAKENNLVVFGDDGATGATPFTADVLSHLAQRNRYVKDVAQFNIGGNMDFLALTDDGKNKSKEFTKSSIVKDILGYDAPHYIKPTGYLEPLGDKKFIAIHIEYVSFNGATDELMINGRINDSPALGGLLVDLVRLGKIALDRKEFGTVYPVNAFYMKNPGPAEEKNIPRIIAYEKMRIWAGLKPKW 3cio-a1-m1-cA_3cio-a1-m1-cD The kinase domain of Escherichia coli tyrosine kinase ETK P38134 P38134 2.5 X-RAY DIFFRACTION 58 0.988 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 255 255 GVEAPEQLEEHGISVYATIPMSEWLDKRQQRHRTKNIPFLAVDNPADSAVEAVRALRTSLHFAMMETENNILMITGATPDSGKTFVSSTLAAVIAQSDQKVLFIDADLRRGYSHNLFTVSNEHGLSEYLAGKDELNKVIQHFGKGGFDVITRGQVPPNPSELLMRDRMRQLLEWANDHYDLVIVDTPPMLAVSDAAVVGRSVGTSLLVARFGLNTAKEVSLSMQRLEQAGVNIKGAILNGVIKRASTAYSYGYNY GVEAPEQLEEHGISVYATIPMSEWLDKRTRLQRHRTKNIPFLAVDNPADSAVEAVRALRTSLHFAMMETENNILMITGATPDSGKTFVSSTLAAVIAQSDQKVLFIDADLRRGYSHNLFTVSNEHGLSEYLAGKDELNKVIQHFGKGGFDVITRGQVPPNPSELLMRDRMRQLLEWANDHYDLVIVDTPPMLAVSDAAVVGRSVGTSLLVARFGLNTAKEVSLSMQRLEQAGVNIKGAILNGVIKRASTAYSYGY 3cis-a3-m1-cF_3cis-a3-m1-cE The Crystal Structure of Rv2623 from Mycobacterium tuberculosis P9WFD7 P9WFD7 2.9 X-RAY DIFFRACTION 84 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 277 291 3cis-a1-m1-cA_3cis-a1-m1-cB 3cis-a2-m1-cD_3cis-a2-m1-cC 3cis-a4-m1-cH_3cis-a4-m1-cG SLGIIVGIDDSPAAQVAVRWAARDAELRKIPLTLVHAVLPPGVLRWQQDHGRHLIDDALKVVEQASLRAGPPTVHSEIVPAAAVPTLVDMSKDAVLMVVGCLGSGRWPGRLLGSVSSGLLRHAHCPVVIIHDEDSVMPHPQQAPVLVGVDGSSASELATAIAFDEASRRNVDLVALHAWSDVDVSEWPGIDWPATQSMAEQVLAERLAGWQERYPNVAITRVVVRDQPARQLVQRSEEAQLVVVGSRGRGGYAGMLVGSVGETVAQLARTPVIVARE NSSLGIIVGIDDSPAAQVAVRWAARDAELRKIPLTLVHAVSPEVATWLEVPLPPGVLRWQQDHGRHLIDDALKVVEQASLRAGPPTVHSEIVPAAAVPTLVDMSKDAVLMVVGCLGSGRWPGRLLGSVSSGLLRHAHCPVVIIHDEDSVMPHPQQAPVLVGVDGSSASELATAIAFDEASRRNVDLVALHAWSDVDVSEWPGIDWPATQSMAEQVLAERLAGWQERYPNVAITRVVVRDQPARQLVQRSEEAQLVVVGSRGRGGYAGMLVGSVGETVAQLARTPVIVARES 3cit-a1-m1-cA_3cit-a1-m2-cA Crystal structure of the GAF domain of a putative sensor histidine kinase from Pseudomonas syringae pv. tomato Q884G2 Q884G2 1.9 X-RAY DIFFRACTION 20 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 153 153 NAYRQSQSRAARLRLLVDTGQELIQLPPEARKCVLQRACAFVADHGLLLEWGNGVQTTARHGSKERLSTLETTADPLAIGPQWLERPGTHLPCVLLLPLRGADEGSFGTLVLANSVAISAPDGEDIESLQLLATLLAAHLENNRLLEALVARD NAYRQSQSRAARLRLLVDTGQELIQLPPEARKCVLQRACAFVADHGLLLEWGNGVQTTARHGSKERLSTLETTADPLAIGPQWLERPGTHLPCVLLLPLRGADEGSFGTLVLANSVAISAPDGEDIESLQLLATLLAAHLENNRLLEALVARD 3cit-a1-m2-cB_3cit-a1-m1-cA Crystal structure of the GAF domain of a putative sensor histidine kinase from Pseudomonas syringae pv. tomato Q884G2 Q884G2 1.9 X-RAY DIFFRACTION 43 0.993 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 148 153 3cit-a1-m1-cB_3cit-a1-m2-cA NAYRQSQSRAARLRLLVDTGQELIQLPPEARKCVLQRACAFVADHGLLLEWGANGVQTTARHGSKERLSTLADPLAIGPQWLERPGTHLPCVLLLPLRGADEGSFGTLVLANSVAISAPDGEDIESLQLLATLLAAHLENNRLLEALV NAYRQSQSRAARLRLLVDTGQELIQLPPEARKCVLQRACAFVADHGLLLEWGNGVQTTARHGSKERLSTLETTADPLAIGPQWLERPGTHLPCVLLLPLRGADEGSFGTLVLANSVAISAPDGEDIESLQLLATLLAAHLENNRLLEALVARD 3cit-a1-m2-cB_3cit-a1-m2-cA Crystal structure of the GAF domain of a putative sensor histidine kinase from Pseudomonas syringae pv. tomato Q884G2 Q884G2 1.9 X-RAY DIFFRACTION 90 0.993 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 148 153 3cit-a1-m1-cB_3cit-a1-m1-cA NAYRQSQSRAARLRLLVDTGQELIQLPPEARKCVLQRACAFVADHGLLLEWGANGVQTTARHGSKERLSTLADPLAIGPQWLERPGTHLPCVLLLPLRGADEGSFGTLVLANSVAISAPDGEDIESLQLLATLLAAHLENNRLLEALV NAYRQSQSRAARLRLLVDTGQELIQLPPEARKCVLQRACAFVADHGLLLEWGNGVQTTARHGSKERLSTLETTADPLAIGPQWLERPGTHLPCVLLLPLRGADEGSFGTLVLANSVAISAPDGEDIESLQLLATLLAAHLENNRLLEALVARD 3ciy-a1-m1-cA_3ciy-a1-m1-cB Mouse Toll-like receptor 3 ectodomain complexed with double-stranded RNA Q99MB1 Q99MB1 3.41 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 661 668 7da7-a1-m1-cA_7da7-a1-m1-cB 7wm4-a1-m1-cC_7wm4-a1-m1-cD 7wm4-a1-m1-cE_7wm4-a1-m1-cF CTVRYNVADCSHLKLTHIPDDLPSNITVLNLTHNQLRRLPPTNFTRYSQLAILDAGFNSISKLEPELCQILPLLKVLNLQHNELSQISDQTFVFCTNLTELDLMSNSIHKIKSNPFKNQKNLIKLDLSHNGLSSTKLGTGVQLENLQELLLAKNKILALRSEELEFLGNSSLRKLDLSSNPLKEFSPGCFQTIGKLFALLLNNAQLNPHLTEKLCWELSNTSIQNLSLANNQLLATSESTFSGLKWTNLTQLDLSYNNLHDVGNGSFSYLPSLRYLSLEYNNIQRLSPRSFYGLSNLRYLSLKRAFTKSHPNIDDFSFQWLKYLEYLNMDDNNIPSTKSNTFTGLVSLKYLSLSKTFTSLQTLTNETFVSLAHSPLLTLNLTKNHISKIANGTFSWLGQLRILDLGLNEIEQKLSGQEWRGLRNIFEIYLSYNKYLQLSTSSFALVPSLQRLMLRRVALKNVDISPSPFRPLRNLTILDLSNNNIANINEDLLEGLENLEILDFQHNNLARLWNPGGPVNFLKGLSHLHILNLESNGLDEIPVGVFKNLFELKSINLGLNNLNKLEPFIFDDQTSLRSLNLQKNLITSVEKDVFGPPFQNLNSLDMRFNPFDCTCESISWFVNWINQTHTNISELSTHYLCNTPHHYYGFPLKLFDTSSCK QCTVRYNVADCSHLKLTHIPDDLPSNITVLNLTHNQLRRLPPTNFTRYSQLAILDAGFNSISKLEPELCQILPLLKVLNLQHNELSQISDQTFVFCTNLTELDLMSNSIHKIKSNPFKNQKNLIKLDLSHNGLSSTKLGTGVQLENLQELLLAKNKILALRSEELEFLGNSSLRKLDLSSNPLKEFSPGCFQTIGKLFALLLNNAQLNPHLTEKLCWELSNTSIQNLSLANNQLLATSESTFSGLKWTNLTQLDLSYNNLHDVGNGSFSYLPSLRYLSLEYNNIQRLSPRSFYGLSNLRYLSLKRAFTKQSVSLASHPNIDDFSFQWLKYLEYLNMDDNNIPSTKSNTFTGLVSLKYLSLSKTFTSLQTLTNETFVSLAHSPLLTLNLTKNHISKIANGTFSWLGQLRILDLGLNEIEQKLSGQEWRGLRNIFEIYLSYNKYLQLSTSSFALVPSLQRLMLRRVALKNVDISPSPFRPLRNLTILDLSNNNIANINEDLLEGLENLEILDFQHNNLARLWNPGGPVNFLKGLSHLHILNLESNGLDEIPVGVFKNLFELKSINLGLNNLNKLEPFIFDDQTSLRSLNLQKNLITSVEKDVFGPPFQNLNSLDMRFNPFDCTCESISWFVNWINQTHTNISELSTHYLCNTPHHYYGFPLKLFDTSSCK 3ciz-a3-m1-cA_3ciz-a3-m2-cB Crystal structure of hepatitis c virus rna-dependent rna polymerase ns5b in complex with small molecule fragments P26663 P26663 1.87 X-RAY DIFFRACTION 22 1.0 31647 (Hepatitis C virus subtype 1b) 31647 (Hepatitis C virus subtype 1b) 562 563 1c2p-a1-m1-cA_1c2p-a1-m1-cB HHMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQPEGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPIPAASRLDLSGWFVAGYSGGDIYHS HHMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQPEGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPIPAASRLDLSGWFVAGYSGGDIYHSL 3cj8-a1-m1-cB_3cj8-a1-m1-cC Crystal structure of 2,3,4,5-tetrahydropyridine-2-carboxylate N-succinyltransferase from Enterococcus faecalis V583 Q836H8 Q836H8 1.95 X-RAY DIFFRACTION 95 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 213 214 3cj8-a1-m1-cA_3cj8-a1-m1-cC 3cj8-a1-m1-cB_3cj8-a1-m1-cA NADAYEIIQYIGDAKKQTLVKVTLKGQLKEVTFPETIKVFNNCKTGTLFGDWADVKPFLEANKEKIEDYVVENDARNSAIPFLDLKDINARIEPGALIREKVEIGDQAVIGAILNIGAVVGAGTIDGAVLGGRATVGKHCHIGAGTVLAGVIEPPSAAPVVIENEVVIGANAVVLEGVRVGEGAVVAAGAVVVEDVPAHTVVAGVPAKVIKQI NADAYEIIQYIGDAKKQTLVKVTLKGQLKEVTFPETIKVFNNCKTGTLFGDWADVKPFLEANKEKIEDYVVENDARNSAIPFLDLKDINARIEPGALIREKVEIGDQAVIGAILNIGAVVGAGTIDGAVLGGRATVGKHCHIGAGTVLAGVIEPPSAAPVVIENEVVIGANAVVLEGVRVGEGAVVAAGAVVVEDVPAHTVVAGVPAKVIKQID 3cjd-a1-m1-cA_3cjd-a1-m1-cB Crystal structure of putative TetR transcriptional regulator (YP_510936.1) from Jannaschia sp. CCS1 at 1.79 A resolution Q28N01 Q28N01 1.79 X-RAY DIFFRACTION 111 0.989 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 177 177 KAALREKLIDLAEAQIEAEGLASLRARELARQADCAVGAIYTHFQDLNALTLEVNGRTFARLGAAVGDDHPNERLIASHAYLAFAREHPKLWRALFDVERSDGPVPQWYGHAAQLFSYITTPLAKIFPESDDAELDLTRTLFSSVHGIVLLGLENRISGVPGEQLKTIRLLLEQVGR AALREKLIDLAEAQIEAEGLASLRARELARQADCAVGAIYTHFQDLNALTLEVNGRTFARLGAAVGAVDHPNERLIASHAYLAFAREHPKLWRALFDVERSDGPVPQWYGHAAQLFSYITTPLAKIFPESDDAELDLTRTLFSSVHGIVLLGLENRISGVPGEQLKTIRLLLEQVGR 3cje-a1-m1-cA_3cje-a1-m2-cA Crystal structure of an osmc-like hydroperoxide resistance protein (jann_2040) from jannaschia sp. ccs1 at 1.70 A resolution Q28QQ5 Q28QQ5 1.7 X-RAY DIFFRACTION 244 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 147 147 RAEVVFTCNGKAVGKRNELDVAVKPFEERFALATDEGASAPPPLALFIAGLTGCVTQIRAFAKRLKVTVTDLDVECRVVWDWAKAGPVYETGPKSFEIDIILHSPDPIEAQQALIEAAKKGCFLEQTLGQANTIRHRLKVGDTFIDA RAEVVFTCNGKAVGKRNELDVAVKPFEERFALATDEGASAPPPLALFIAGLTGCVTQIRAFAKRLKVTVTDLDVECRVVWDWAKAGPVYETGPKSFEIDIILHSPDPIEAQQALIEAAKKGCFLEQTLGQANTIRHRLKVGDTFIDA 3cjl-a1-m1-cB_3cjl-a1-m1-cA Crystal structure of a protein of unknown function (eca1910) from pectobacterium atrosepticum scri1043 at 2.20 A resolution Q6D5X8 Q6D5X8 2.2 X-RAY DIFFRACTION 128 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 79 80 GNIYQITVEEKAEHQRTLSFEFSLHDDLFKLLEKVDGKDTPEQTQAFVGLKLFGEVQQRKHPLFKEFSAPFRAFNLKKQ GGNIYQITVEEKAEHQRTLSFEFSLHDDLFKLLEKVDGKDTPEQTQAFVGLKLFGEVQQRKHPLFKEFSAPFRAFNLKKQ 3cjn-a1-m1-cA_3cjn-a1-m2-cA Crystal structure of transcriptional regulator, MarR family, from Silicibacter pomeroyi Q5LTF6 Q5LTF6 1.95 X-RAY DIFFRACTION 124 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 139 139 RELAEIGLEGYAPYLNRIGRYNANLRKETALGLSTAKRALAILSAKDGLPIGTLGIFAVVEQSTLSRALDGLQADGLVRREVDDQRSSRVYLTPAGRAVYDRLWPHRASHDRFQGITPQERQAFLATLNKLANIRVHEI RELAEIGLEGYAPYLNRIGRYNANLRKETALGLSTAKRALAILSAKDGLPIGTLGIFAVVEQSTLSRALDGLQADGLVRREVDDQRSSRVYLTPAGRAVYDRLWPHRASHDRFQGITPQERQAFLATLNKLANIRVHEI 3cjp-a1-m1-cA_3cjp-a1-m1-cB Crystal structure of an uncharacterized amidohydrolase CAC3332 from Clostridium acetobutylicum Q97DY3 Q97DY3 1.85 X-RAY DIFFRACTION 80 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 262 262 LIIDGHTHVILPVEKHIKIMDEAGVDKTILFSTSIHPETAVNLRDVKKEMKKLNDVVNGKTNSMIDVRRNSIKELTNVIQAYPSRYVGFGNVPVGLSENDTNSYIEENIVNNKLVGIGELTPASGQIKSLKPIFKYSMDSGSLPIWIHAFNPLVLQDIKEIAELCKAFPKVPVILGHMGGSNWMTAVELAKEIQNLYLDTSAYFSTFVLKIVINELPLKCIFGTDMPFGDLQLSIEAIKKMSNDSYVANAVLGDNISRLLNI LIIDGHTHVILPVEKHIKIMDEAGVDKTILFSTSIHPETAVNLRDVKKEMKKLNDVVNGKTNSMIDVRRNSIKELTNVIQAYPSRYVGFGNVPVGLSENDTNSYIEENIVNNKLVGIGELTPASGQIKSLKPIFKYSMDSGSLPIWIHAFNPLVLQDIKEIAELCKAFPKVPVILGHMGGSNWMTAVELAKEIQNLYLDTSAYFSTFVLKIVINELPLKCIFGTDMPFGDLQLSIEAIKKMSNDSYVANAVLGDNISRLLNI 3cjw-a2-m1-cA_3cjw-a2-m2-cA Crystal structure of the human COUP-TFII ligand binding domain P24468 P24468 1.48 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 207 GSNSHSYLSGYISLLLRAEPYPTMGIENICELAARMLFSAVEWARNIPFFPDLQITDQVALLRLTWSELFVLNAAQCSMPLHVAPVAFMDHIRIFQEQVEKLKALHVDSAEYSCLKAIVLFTSDACGLSDVAHVESLQEKSQCALEEYVRSQYPNQPTRFGKLLLRLPSLRTVSSSVIEQLFFVRLVGKTPIETLIRDMLLSGSSFN GSNSHSYLSGYISLLLRAEPYPTMGIENICELAARMLFSAVEWARNIPFFPDLQITDQVALLRLTWSELFVLNAAQCSMPLHVAPVAFMDHIRIFQEQVEKLKALHVDSAEYSCLKAIVLFTSDACGLSDVAHVESLQEKSQCALEEYVRSQYPNQPTRFGKLLLRLPSLRTVSSSVIEQLFFVRLVGKTPIETLIRDMLLSGSSFN 3cjx-a11-m1-cC_3cjx-a11-m1-cH Crystal structure of a protein of unknown function with a cupin-like fold (reut_b4571) from ralstonia eutropha jmp134 at 2.60 A resolution Q46SG3 Q46SG3 2.6 X-RAY DIFFRACTION 55 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 153 153 3cjx-a11-m1-cG_3cjx-a11-m1-cD EKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA EKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA 3cjx-a11-m1-cG_3cjx-a11-m1-cC Crystal structure of a protein of unknown function with a cupin-like fold (reut_b4571) from ralstonia eutropha jmp134 at 2.60 A resolution Q46SG3 Q46SG3 2.6 X-RAY DIFFRACTION 32 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 152 153 KLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA EKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA 3cjx-a9-m1-cC_3cjx-a9-m1-cA Crystal structure of a protein of unknown function with a cupin-like fold (reut_b4571) from ralstonia eutropha jmp134 at 2.60 A resolution Q46SG3 Q46SG3 2.6 X-RAY DIFFRACTION 70 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 153 157 3cjx-a10-m1-cF_3cjx-a10-m1-cG 3cjx-a10-m1-cH_3cjx-a10-m1-cE 3cjx-a11-m1-cB_3cjx-a11-m1-cD 3cjx-a11-m1-cC_3cjx-a11-m1-cA 3cjx-a11-m1-cF_3cjx-a11-m1-cG 3cjx-a11-m1-cH_3cjx-a11-m1-cE 3cjx-a9-m1-cB_3cjx-a9-m1-cD EKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA ITHQEKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA 3cjx-a9-m1-cC_3cjx-a9-m1-cD Crystal structure of a protein of unknown function with a cupin-like fold (reut_b4571) from ralstonia eutropha jmp134 at 2.60 A resolution Q46SG3 Q46SG3 2.6 X-RAY DIFFRACTION 88 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 153 154 3cjx-a10-m1-cF_3cjx-a10-m1-cE 3cjx-a10-m1-cG_3cjx-a10-m1-cH 3cjx-a11-m1-cB_3cjx-a11-m1-cA 3cjx-a11-m1-cC_3cjx-a11-m1-cD 3cjx-a11-m1-cF_3cjx-a11-m1-cE 3cjx-a11-m1-cG_3cjx-a11-m1-cH 3cjx-a9-m1-cB_3cjx-a9-m1-cA EKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA QEKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA 3cjx-a9-m1-cD_3cjx-a9-m1-cA Crystal structure of a protein of unknown function with a cupin-like fold (reut_b4571) from ralstonia eutropha jmp134 at 2.60 A resolution Q46SG3 Q46SG3 2.6 X-RAY DIFFRACTION 56 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 154 157 3cjx-a10-m1-cF_3cjx-a10-m1-cH 3cjx-a10-m1-cG_3cjx-a10-m1-cE 3cjx-a11-m1-cB_3cjx-a11-m1-cC 3cjx-a11-m1-cD_3cjx-a11-m1-cA 3cjx-a11-m1-cF_3cjx-a11-m1-cH 3cjx-a11-m1-cG_3cjx-a11-m1-cE 3cjx-a9-m1-cB_3cjx-a9-m1-cC QEKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA ITHQEKLLTVDTTAHPFLKALGGHEGTDIFPLFDPYNGLVRASFAPGLTLPLHFHTGTVHYTISGCWYYTEYPGQKQTAGCYLYEPGGSIHQFNTPRDNEGQTEVIFLSGCNVNFTQDGTYLGLSDAGVIKNWVDRAIREQDNGLRYIAAAVPTYAA 3cjy-a1-m1-cA_3cjy-a1-m2-cA Crystal structure of putative thioesterase (YP_496845.1) from Novosphingobium aromaticivorans DSM 12444 at 1.70 A resolution Q2G812 Q2G812 1.7 X-RAY DIFFRACTION 188 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 249 249 AFPALVRQDDARYAITVGPDLAVGPPGHAYLFGGASALALDVAAETVGRPVVQGSLQFVSFTPLGSVLDLTVEVLQSGRTLAQARVAGTVDGRLVFHSGISLGREGFSARQWALAPPVPQPDNCPPCTTLPAQDDNARYLEGIEVREAGGPEVPSGRTRLWLRRKDGAPLDAASLAFADFLPIALGRATGCSGNSLDNSLRITGAAAPGWCLCDIIPSSASGFAQGQVTLWDQSGRLLATGAQSLLLKG AFPALVRQDDARYAITVGPDLAVGPPGHAYLFGGASALALDVAAETVGRPVVQGSLQFVSFTPLGSVLDLTVEVLQSGRTLAQARVAGTVDGRLVFHSGISLGREGFSARQWALAPPVPQPDNCPPCTTLPAQDDNARYLEGIEVREAGGPEVPSGRTRLWLRRKDGAPLDAASLAFADFLPIALGRATGCSGNSLDNSLRITGAAAPGWCLCDIIPSSASGFAQGQVTLWDQSGRLLATGAQSLLLKG 3ck1-a1-m1-cA_3ck1-a1-m2-cB CRYSTAL STRUCTURE OF a putative thioesterase (REUT_A2179) FROM RALSTONIA EUTROPHA JMP134 AT 1.74 A RESOLUTION Q46Z90 Q46Z90 1.74 X-RAY DIFFRACTION 24 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 138 138 3ck1-a1-m1-cB_3ck1-a1-m2-cA GTAVFRNTVLVRFKHCDAAGIVFYPRYFELNDFIEDWFAQALDWPFDAHGAGQAGVPTADLHCRFVAPSRLGETLTRELRVVKLGQSSFTVQVRFGPDSGLRLEVTQRLVCVDTDKIAPRPLPDPVRQAATYVDETLA GTAVFRNTVLVRFKHCDAAGIVFYPRYFELNDFIEDWFAQALDWPFDAHGAGQAGVPTADLHCRFVAPSRLGETLTRELRVVKLGQSSFTVQVRFGPDSGLRLEVTQRLVCVDTDKIAPRPLPDPVRQAATYVDETLA 3ck1-a1-m1-cB_3ck1-a1-m2-cB CRYSTAL STRUCTURE OF a putative thioesterase (REUT_A2179) FROM RALSTONIA EUTROPHA JMP134 AT 1.74 A RESOLUTION Q46Z90 Q46Z90 1.74 X-RAY DIFFRACTION 38 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 138 138 3ck1-a1-m1-cA_3ck1-a1-m2-cA GTAVFRNTVLVRFKHCDAAGIVFYPRYFELNDFIEDWFAQALDWPFDAHGAGQAGVPTADLHCRFVAPSRLGETLTRELRVVKLGQSSFTVQVRFGPDSGLRLEVTQRLVCVDTDKIAPRPLPDPVRQAATYVDETLA GTAVFRNTVLVRFKHCDAAGIVFYPRYFELNDFIEDWFAQALDWPFDAHGAGQAGVPTADLHCRFVAPSRLGETLTRELRVVKLGQSSFTVQVRFGPDSGLRLEVTQRLVCVDTDKIAPRPLPDPVRQAATYVDETLA 3ck1-a1-m2-cA_3ck1-a1-m2-cB CRYSTAL STRUCTURE OF a putative thioesterase (REUT_A2179) FROM RALSTONIA EUTROPHA JMP134 AT 1.74 A RESOLUTION Q46Z90 Q46Z90 1.74 X-RAY DIFFRACTION 69 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 138 138 3ck1-a1-m1-cA_3ck1-a1-m1-cB GTAVFRNTVLVRFKHCDAAGIVFYPRYFELNDFIEDWFAQALDWPFDAHGAGQAGVPTADLHCRFVAPSRLGETLTRELRVVKLGQSSFTVQVRFGPDSGLRLEVTQRLVCVDTDKIAPRPLPDPVRQAATYVDETLA GTAVFRNTVLVRFKHCDAAGIVFYPRYFELNDFIEDWFAQALDWPFDAHGAGQAGVPTADLHCRFVAPSRLGETLTRELRVVKLGQSSFTVQVRFGPDSGLRLEVTQRLVCVDTDKIAPRPLPDPVRQAATYVDETLA 3ck4-a3-m1-cI_3ck4-a3-m1-cL A heterospecific leucine zipper tetramer P03069 P03069 1.7 X-RAY DIFFRACTION 30 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 31 31 3ck4-a2-m1-cH_3ck4-a2-m1-cE 3crp-a1-m1-cA_3crp-a1-m1-cD MKVKQLVDKVEELLSKNYHLVNEVARLVKLV MKVKQLVDKVEELLSKNYHLVNEVARLVKLV 3ck6-a1-m1-cA_3ck6-a1-m1-cB Crystal structure of ZntB cytoplasmic domain from Vibrio parahaemolyticus RIMD 2210633 Q87M69 Q87M69 1.9 X-RAY DIFFRACTION 52 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 237 237 3ck6-a1-m1-cA_3ck6-a1-m1-cE 3ck6-a1-m1-cC_3ck6-a1-m1-cB 3ck6-a1-m1-cC_3ck6-a1-m1-cD 3ck6-a1-m1-cD_3ck6-a1-m1-cE GFIEHWDFSTPATQETTTAEHIQPNHWYHCERLHPDIRGWLEDNHVPRATVDHLLADESRPSFHPLDDDNFLILRGINNENASPEDLSIRILYFQGALISTRKIPSRAIEIRQALAEHKGPKSLASLLNQIIEGLNGKIDLYLDTIEETLNEFDVNDESTYNHIAAQKALISIKRFIRPQQYAIRDLIESESELVTSRPHQYRFAHNNITRINETIEFYLGEVALFQDEIKHNRDEK GFIEHWDFSTPATQETTTAEHIQPNHWYHCERLHPDIRGWLEDNHVPRATVDHLLADESRPSFHPLDDDNFLILRGINNENASPEDLSIRILYFQGALISTRKIPSRAIEIRQALAEHKGPKSLASLLNQIIEGLNGKIDLYLDTIEETLNEFDVNDESTYNHIAAQKALISIKRFIRPQQYAIRDLIESESELVTSRPHQYRFAHNNITRINETIEFYLGEVALFQDEIKHNRDEK 3ckh-a3-m2-cB_3ckh-a3-m1-cA Crystal structure of Eph A4 receptor P54764 P54764 2.8 X-RAY DIFFRACTION 64 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 167 170 NEVTLLDSRSVQGELGWIASPLEGGWEEVSITPIRTYQVCNVMEPSQNNWLRTDWITREGAQRVYIEIKFTLRDCNSLPGVMGTCKETFNLYYYESDNDKERFIRENQFVKIDTIAADESFTQVDDRIMKLNTEIRDVGPLSKKGFYLAFQDVGACIALVSVRVFYK NEVTLLDSRSVQGELGWIASPLEGGWEEVSIDEKNIRTYQVCNVMEPSQNNWLRTDWITREGAQRVYIEIKFTLRDCNSLPGVMGTCKETFNLYYYESDNDKERFIRENQFVKIDTIAADESFTQVDIGRIMKLNTEIRDVGPLSKKGFYLAFQDVGACIALVSVRVFYK 3ckj-a1-m1-cA_3ckj-a1-m2-cA Crystal Structure of a Mycobacterial Protein Q73WU1 Q73WU1 1.8 X-RAY DIFFRACTION 148 1.0 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 300 300 3ckn-a1-m1-cA_3ckn-a1-m2-cA 3cko-a1-m1-cA_3cko-a1-m2-cA 3ckq-a1-m1-cA_3ckq-a1-m2-cA 3ckv-a1-m1-cA_3ckv-a1-m2-cA GLRDTRPGDTWLADRSWNRPGWTVAELEAAKAGRTISVVLPALDEEDTIGSVIDSISPLVDGLVDELIVLDSGSTDDTEIRAVAAGARVVSREQALPEVPIRPGKGEALWRSLAASRGDIVVFVDSDLINPHPMFVPWLVGPLLTGDGVHLVKSFYRRPGRVTELVARPLLAALRPELGCILQPLGGEYAATRELLTSVPFAPGYGVEIGLLVDTFDRLGLDAIAQVNLGVREHRNRPLAELGAMSRQVIATLLSRCGIPDSGVGLTQFVADGPEGQSYTQHTWPVSLADRPPMQAIRPR GLRDTRPGDTWLADRSWNRPGWTVAELEAAKAGRTISVVLPALDEEDTIGSVIDSISPLVDGLVDELIVLDSGSTDDTEIRAVAAGARVVSREQALPEVPIRPGKGEALWRSLAASRGDIVVFVDSDLINPHPMFVPWLVGPLLTGDGVHLVKSFYRRPGRVTELVARPLLAALRPELGCILQPLGGEYAATRELLTSVPFAPGYGVEIGLLVDTFDRLGLDAIAQVNLGVREHRNRPLAELGAMSRQVIATLLSRCGIPDSGVGLTQFVADGPEGQSYTQHTWPVSLADRPPMQAIRPR 3cky-a1-m1-cC_3cky-a1-m1-cA Structural and Kinetic Properties of a beta-hydroxyacid dehydrogenase involved in nicotinate fermentation Q0QLF5 Q0QLF5 2.3 X-RAY DIFFRACTION 48 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 296 297 IKIGFIGLGAMGKPMAINLLKEGVTVYAFDLMEANVAAVVAQGAQACENNQKVAAASDIIFTSLPNAGIVETVMNGPGGVLSACKAGTVIVDMSSVSPSSTLKMAKVAAEKGIDYVDAPVSGGTKGAEAGTLTIMVGASEAVFEKIQPVLSVIGKDIYHVGDTGAGDAVKIVNNLLLGCNMASLAEALVLGVKCGLKPETMQEIIGKSSGRSYAMEAKMEKFIMSGDFAGGFAMDLQHKDLGLALEAGKEGNVPLPMTAMATQIFEGGRAMGLGREDMSAVIKVWEQMTGVSVSGG SIKIGFIGLGAMGKPMAINLLKEGVTVYAFDLMEANVAAVVAQGAQACENNQKVAAASDIIFTSLPNAGIVETVMNGPGGVLSACKAGTVIVDMSSVSPSSTLKMAKVAAEKGIDYVDAPVSGGTKGAEAGTLTIMVGASEAVFEKIQPVLSVIGKDIYHVGDTGAGDAVKIVNNLLLGCNMASLAEALVLGVKCGLKPETMQEIIGKSSGRSYAMEAKMEKFIMSGDFAGGFAMDLQHKDLGLALEAGKEGNVPLPMTAMATQIFEGGRAMGLGREDMSAVIKVWEQMTGVSVSGG 3cky-a1-m1-cD_3cky-a1-m1-cC Structural and Kinetic Properties of a beta-hydroxyacid dehydrogenase involved in nicotinate fermentation Q0QLF5 Q0QLF5 2.3 X-RAY DIFFRACTION 22 0.983 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 240 296 3cky-a1-m1-cB_3cky-a1-m1-cA FIGLGAQKVAAASDIIFTSLPNAGIVETVMNTVIVDMSSVSPSSTLKMAKVAAEKGIDYVDAPVSGGTKGAEAGTLTIMVGASEAVFEKIQPVLSVIGKDIYHVGDTGAGDAVKIVNNLLLGCNMASLAEALVLGVKCGLKPETMQEIIGKSSGRSYAMEAKMEKFIMSGDFAGGFAMDLQHKDLGLALEAGKEGNVPLPMTAMATQIFEGGRAMGLGREDMSAVIKVWEQMTGVSVSGG IKIGFIGLGAMGKPMAINLLKEGVTVYAFDLMEANVAAVVAQGAQACENNQKVAAASDIIFTSLPNAGIVETVMNGPGGVLSACKAGTVIVDMSSVSPSSTLKMAKVAAEKGIDYVDAPVSGGTKGAEAGTLTIMVGASEAVFEKIQPVLSVIGKDIYHVGDTGAGDAVKIVNNLLLGCNMASLAEALVLGVKCGLKPETMQEIIGKSSGRSYAMEAKMEKFIMSGDFAGGFAMDLQHKDLGLALEAGKEGNVPLPMTAMATQIFEGGRAMGLGREDMSAVIKVWEQMTGVSVSGG 3cky-a3-m1-cB_3cky-a3-m1-cC Structural and Kinetic Properties of a beta-hydroxyacid dehydrogenase involved in nicotinate fermentation Q0QLF5 Q0QLF5 2.3 X-RAY DIFFRACTION 246 0.997 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 296 296 3cky-a1-m1-cB_3cky-a1-m1-cC 3cky-a1-m1-cD_3cky-a1-m1-cA 3cky-a2-m1-cD_3cky-a2-m1-cA SIKIGFIGLGAMGKPMAINLLKEGVTVYAFDLMEANVAAVVAQGAQACENNQKVAAASDIIFTSLPNAGIVETVMNGPGGVLSACKAGTVIVDMSSVSPSSTLKMAKVAAEKGIDYVDAPVSGGTKGAEAGTLTIMVGASEAVFEKIQPVLSVIGKDIYHVGDTGAGDAVKIVNNLLLGCNMASLAEALVLGVKCGLKPETMQEIIGKSSGRSYAMEAKMEKFIMSGDFAGGFAMDLQHKDLGLALEAGKEGNVPLPMTAMATQIFEGGRAMGLGREDMSAVIKVWEQMTGVSVSG IKIGFIGLGAMGKPMAINLLKEGVTVYAFDLMEANVAAVVAQGAQACENNQKVAAASDIIFTSLPNAGIVETVMNGPGGVLSACKAGTVIVDMSSVSPSSTLKMAKVAAEKGIDYVDAPVSGGTKGAEAGTLTIMVGASEAVFEKIQPVLSVIGKDIYHVGDTGAGDAVKIVNNLLLGCNMASLAEALVLGVKCGLKPETMQEIIGKSSGRSYAMEAKMEKFIMSGDFAGGFAMDLQHKDLGLALEAGKEGNVPLPMTAMATQIFEGGRAMGLGREDMSAVIKVWEQMTGVSVSGG 3cl5-a1-m1-cA_3cl5-a1-m2-cA Structure of coronavirus hemagglutinin-esterase in complex with 4,9-O-diacetyl sialic acid P15776 P15776 1.8 X-RAY DIFFRACTION 84 1.0 11128 (Bovine coronavirus) 11128 (Bovine coronavirus) 358 358 3cl4-a1-m1-cA_3cl4-a1-m2-cA FDNPPTNVVSHLNGDWFLFGDARSDCNHVVNTNPRNYSYMDLNPALCDSGKISSKAGNSIFRSFHFTDFYNYTGEGQQIIFYEGVNFTPYHAFKCTTSGSNDIWMQNKGLFYTQVYKNMAVYRSLTFVNVPYVYNGSAQSTALCKSGSLVLNNPAYIAREANFGDYYYKVEADFYLSGCDEYIVPLCIFNGKFLSNTKYYDDSQYYFNKDTGVIYGLNSTETITTGFDFNCHYLVLPSGNYLAISNELLLTVPTKAICLNKRKDFTPVQVVDSRWNNARQSDNMTAVACQPPYCYFRNSTTNYVGVYDINHGDAGFTSILSGLLYDSPCFSQQGVFRYDNVSSVWPLYSYGRCPTAAD FDNPPTNVVSHLNGDWFLFGDARSDCNHVVNTNPRNYSYMDLNPALCDSGKISSKAGNSIFRSFHFTDFYNYTGEGQQIIFYEGVNFTPYHAFKCTTSGSNDIWMQNKGLFYTQVYKNMAVYRSLTFVNVPYVYNGSAQSTALCKSGSLVLNNPAYIAREANFGDYYYKVEADFYLSGCDEYIVPLCIFNGKFLSNTKYYDDSQYYFNKDTGVIYGLNSTETITTGFDFNCHYLVLPSGNYLAISNELLLTVPTKAICLNKRKDFTPVQVVDSRWNNARQSDNMTAVACQPPYCYFRNSTTNYVGVYDINHGDAGFTSILSGLLYDSPCFSQQGVFRYDNVSSVWPLYSYGRCPTAAD 3cl6-a2-m5-cB_3cl6-a2-m7-cB Crystal structure of Puue Allantoinase Q3KFK7 Q3KFK7 1.58 X-RAY DIFFRACTION 120 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 302 302 3cl6-a1-m1-cA_3cl6-a1-m3-cA 3cl6-a1-m1-cA_3cl6-a1-m4-cA 3cl6-a1-m2-cA_3cl6-a1-m3-cA 3cl6-a1-m2-cA_3cl6-a1-m4-cA 3cl6-a2-m1-cB_3cl6-a2-m6-cB 3cl6-a2-m1-cB_3cl6-a2-m7-cB 3cl6-a2-m5-cB_3cl6-a2-m6-cB 3cl7-a1-m1-cA_3cl7-a1-m3-cA 3cl7-a1-m1-cA_3cl7-a1-m4-cA 3cl7-a1-m2-cA_3cl7-a1-m3-cA 3cl7-a1-m2-cA_3cl7-a1-m4-cA 3cl7-a2-m1-cB_3cl7-a2-m6-cB 3cl7-a2-m1-cB_3cl7-a2-m7-cB 3cl7-a2-m5-cB_3cl7-a2-m6-cB 3cl7-a2-m5-cB_3cl7-a2-m7-cB 3cl8-a1-m1-cA_3cl8-a1-m3-cA 3cl8-a1-m1-cA_3cl8-a1-m4-cA 3cl8-a1-m2-cA_3cl8-a1-m3-cA 3cl8-a1-m2-cA_3cl8-a1-m4-cA 3cl8-a2-m1-cB_3cl8-a2-m6-cB 3cl8-a2-m1-cB_3cl8-a2-m7-cB 3cl8-a2-m5-cB_3cl8-a2-m6-cB 3cl8-a2-m5-cB_3cl8-a2-m7-cB VDYPRDLIGYGSNPPHPHWPGKARIALSFVLNYEEGGERNILHGDKESEAFLSEMVSAQPLQGERNMSMESLYEYGSRAGVWRILKLFKAFDIPLTIFAVAMAAQRHPDVIRAMVAAGHEICSHGYRWIDYQYMDEAQEREHMLEAIRILTELTGERPLGWYTGRTGPNTRRLVMEEGGFLYDCDTYDDDLPYWEPNNPTGKPHLVIPYTLDTNDMRFTQVQGFNKGDDFFEYLKDAFDVLYAEGAEAPKMLSIGLHCRLIGRPARLAALQRFIEYAKSHEQVWFTRRVDIARHWHATHPYT VDYPRDLIGYGSNPPHPHWPGKARIALSFVLNYEEGGERNILHGDKESEAFLSEMVSAQPLQGERNMSMESLYEYGSRAGVWRILKLFKAFDIPLTIFAVAMAAQRHPDVIRAMVAAGHEICSHGYRWIDYQYMDEAQEREHMLEAIRILTELTGERPLGWYTGRTGPNTRRLVMEEGGFLYDCDTYDDDLPYWEPNNPTGKPHLVIPYTLDTNDMRFTQVQGFNKGDDFFEYLKDAFDVLYAEGAEAPKMLSIGLHCRLIGRPARLAALQRFIEYAKSHEQVWFTRRVDIARHWHATHPYT 3cl9-a3-m1-cA_3cl9-a3-m4-cA Structure of bifunctional TcDHFR-TS in complex with MTX Q27793 Q27793 3.3 X-RAY DIFFRACTION 53 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 505 505 2h2q-a1-m1-cB_2h2q-a1-m1-cA 3cl9-a3-m2-cA_3cl9-a3-m3-cA SLFKIRMPETVAEGTRLALRAFSLVVAVDERGGIGDGRSIPWNVPEDMKFFRDVTTKLRGKNVKPSPAKRNAVVMGRKTWDSIPPKFRPLPGRLNVVLSSTLTTQHLLDNLHADSIVAVNGGLEQALQLLASPNYTPSIETVYCIGGGSVYAEALRPPCVHLLQAIYRTTIRASESSCSVFFRVPESGTEAAAGIEWQRETISEELTSANGNETKYYFEKLIPRNREEEQYLSLVDRIIREGNVKHDRTGVGTLSIFGAQMRFSLRNNRLPLLTTKRVFWRGVCEELLWFLRGETYAKKLSDKGVHIWDDNGSRAFLDSRGLTEYEEMDLGPVYGFQWRHFGAAYTHHDANYDGQGVDQIKAIVETLKTNPDDRRMLFTAWNPSALPRMALPPCHLLAQFYVSNGELSCMLYQRSCDMGLGVPFNIASYALLTILIAKATGLRPGELVHTLGDAHVYSNHVEPCNEQLKRVPRAFPYLVFRREREFLEDYEEGDMEVIDYAPYPP SLFKIRMPETVAEGTRLALRAFSLVVAVDERGGIGDGRSIPWNVPEDMKFFRDVTTKLRGKNVKPSPAKRNAVVMGRKTWDSIPPKFRPLPGRLNVVLSSTLTTQHLLDNLHADSIVAVNGGLEQALQLLASPNYTPSIETVYCIGGGSVYAEALRPPCVHLLQAIYRTTIRASESSCSVFFRVPESGTEAAAGIEWQRETISEELTSANGNETKYYFEKLIPRNREEEQYLSLVDRIIREGNVKHDRTGVGTLSIFGAQMRFSLRNNRLPLLTTKRVFWRGVCEELLWFLRGETYAKKLSDKGVHIWDDNGSRAFLDSRGLTEYEEMDLGPVYGFQWRHFGAAYTHHDANYDGQGVDQIKAIVETLKTNPDDRRMLFTAWNPSALPRMALPPCHLLAQFYVSNGELSCMLYQRSCDMGLGVPFNIASYALLTILIAKATGLRPGELVHTLGDAHVYSNHVEPCNEQLKRVPRAFPYLVFRREREFLEDYEEGDMEVIDYAPYPP 3cl9-a3-m2-cA_3cl9-a3-m4-cA Structure of bifunctional TcDHFR-TS in complex with MTX Q27793 Q27793 3.3 X-RAY DIFFRACTION 35 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 505 505 3cl9-a2-m1-cA_3cl9-a2-m3-cA 3cl9-a3-m1-cA_3cl9-a3-m3-cA SLFKIRMPETVAEGTRLALRAFSLVVAVDERGGIGDGRSIPWNVPEDMKFFRDVTTKLRGKNVKPSPAKRNAVVMGRKTWDSIPPKFRPLPGRLNVVLSSTLTTQHLLDNLHADSIVAVNGGLEQALQLLASPNYTPSIETVYCIGGGSVYAEALRPPCVHLLQAIYRTTIRASESSCSVFFRVPESGTEAAAGIEWQRETISEELTSANGNETKYYFEKLIPRNREEEQYLSLVDRIIREGNVKHDRTGVGTLSIFGAQMRFSLRNNRLPLLTTKRVFWRGVCEELLWFLRGETYAKKLSDKGVHIWDDNGSRAFLDSRGLTEYEEMDLGPVYGFQWRHFGAAYTHHDANYDGQGVDQIKAIVETLKTNPDDRRMLFTAWNPSALPRMALPPCHLLAQFYVSNGELSCMLYQRSCDMGLGVPFNIASYALLTILIAKATGLRPGELVHTLGDAHVYSNHVEPCNEQLKRVPRAFPYLVFRREREFLEDYEEGDMEVIDYAPYPP SLFKIRMPETVAEGTRLALRAFSLVVAVDERGGIGDGRSIPWNVPEDMKFFRDVTTKLRGKNVKPSPAKRNAVVMGRKTWDSIPPKFRPLPGRLNVVLSSTLTTQHLLDNLHADSIVAVNGGLEQALQLLASPNYTPSIETVYCIGGGSVYAEALRPPCVHLLQAIYRTTIRASESSCSVFFRVPESGTEAAAGIEWQRETISEELTSANGNETKYYFEKLIPRNREEEQYLSLVDRIIREGNVKHDRTGVGTLSIFGAQMRFSLRNNRLPLLTTKRVFWRGVCEELLWFLRGETYAKKLSDKGVHIWDDNGSRAFLDSRGLTEYEEMDLGPVYGFQWRHFGAAYTHHDANYDGQGVDQIKAIVETLKTNPDDRRMLFTAWNPSALPRMALPPCHLLAQFYVSNGELSCMLYQRSCDMGLGVPFNIASYALLTILIAKATGLRPGELVHTLGDAHVYSNHVEPCNEQLKRVPRAFPYLVFRREREFLEDYEEGDMEVIDYAPYPP 3clh-a1-m1-cA_3clh-a1-m1-cB Crystal structure of 3-dehydroquinate synthase (DHQS)from Helicobacter pylori P56081 P56081 2.4 X-RAY DIFFRACTION 46 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 308 308 ILIPLKEKNYKVFLGELPEIKLKQKALIISDSIVAGLHLPYLLERLKALEVRVCVIESGEKYKNFHSLERILNNAFEMQLNRHSLMIALGGGVISDMVGFASSIYFRGIDFINIPTTLLAQVDASVGGKTGINTPYGKNLIGSFHQPKAVYMDLAFLKTLEKREFQAGVAEIIKMAVCFDKNLVERLETKDLKDCLEEVIFQSVNIKAQVVRAGLNYGHTFGHAIEKETDYERFLHGEAIAIGMRMANDLALSLGMLTLKEYERIENLLKKFDLIFHYKFILPKGVGAFEVASHIPKETIIKVLEKWH ILIPLKEKNYKVFLGELPEIKLKQKALIISDSIVAGLHLPYLLERLKALEVRVCVIESGEKYKNFHSLERILNNAFEMQLNRHSLMIALGGGVISDMVGFASSIYFRGIDFINIPTTLLAQVDASVGGKTGINTPYGKNLIGSFHQPKAVYMDLAFLKTLEKREFQAGVAEIIKMAVCFDKNLVERLETKDLKDCLEEVIFQSVNIKAQVVRAGLNYGHTFGHAIEKETDYERFLHGEAIAIGMRMANDLALSLGMLTLKEYERIENLLKKFDLIFHYKFILPKGVGAFEVASHIPKETIIKVLEKWH 3clo-a2-m1-cC_3clo-a2-m2-cC Crystal structure of putative transcriptional regulator containing a LuxR DNA binding domain (NP_811094.1) from Bacteroides thetaiotaomicron VPI-5482 at 2.04 A resolution Q8A5Q7 Q8A5Q7 2.04 X-RAY DIFFRACTION 63 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 248 248 3clo-a1-m1-cA_3clo-a1-m1-cB GDVLQKEIDEVYATHPTAHEALDGIVEQHQQFVRSLTEVNGGCAVISDLSNRKSYVTVHPWANFLGLTPEEAALSVIDSDEDCIYRRIHPEDLVEKRLEYKFFQKTFSSPGERLKYRGRCRLRNEKGVYQYIDNLVQIQNTPAGNVWLIFCLYSLSADQRPEQGIYATITQERGEVETLSLSEEHRNILSEREKEILRCIRKGLSSKEIAATLYISVNTVNRHRQNILEKLSVGNSIEACRAAELKLL GDVLQKEIDEVYATHPTAHEALDGIVEQHQQFVRSLTEVNGGCAVISDLSNRKSYVTVHPWANFLGLTPEEAALSVIDSDEDCIYRRIHPEDLVEKRLEYKFFQKTFSSPGERLKYRGRCRLRNEKGVYQYIDNLVQIQNTPAGNVWLIFCLYSLSADQRPEQGIYATITQERGEVETLSLSEEHRNILSEREKEILRCIRKGLSSKEIAATLYISVNTVNRHRQNILEKLSVGNSIEACRAAELKLL 3clq-a2-m1-cD_3clq-a2-m1-cC Crystal structure of a conserved protein of unknown function from Enterococcus faecalis V583 Q82ZN9 Q82ZN9 2.5 X-RAY DIFFRACTION 63 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 399 401 3clq-a1-m1-cA_3clq-a1-m1-cB APTLYEKIQQANEEAVTRIIQSKPILVGFDKAINVPDTETTILHAGPPITYENCGPKGAVQGALVFEGLAKDLADADRVARSGAITFSPCHEHDAVGSAGVTSPNYVHIIKNETYGNTAFTNLSEQLAKVLRFGANDQSVVDRLIWRDVLGPLLHDATFCPEGIDLRLLSQALHGDECHNRNVAGSTLLVQALTPYVQTDFSREQLKEVFEFLGSSDYFSGPTWGAAKCALDAGHNVENSTIVTTCRNGVEFGIRVSGIGGNHWFTGPAQRVIGPFAGYTQEDAGLDGDSAITETYGVGGFAAAAPAIVPLVGGTVAEALNYSKELEITTKENPNVTIPVLDFGIPTGIDVLKVLETGLPVINTAIAHKEPGIGIGAGLTNPPANVFNEALKALVATIN SNAPTLYEKIQQANEEAVTRIIQSKPILVGFDKAINVPDTETTILHAGPPITYENCGPKGAVQGALVFEGLAKDLADADRVARSGAITFSPCHEHDAVGSAGVTSPNYVHIIKNETYGNTAFTNLSEQLAKVLRFGANDQSVVDRLIWRDVLGPLLHDATFCPEGIDLRLLSQALHGDECHNRNVAGSTLLVQALTPYVQTDFSREQLKEVFEFLGSSDYFSGPTWGAAKCALDAGHNVENSTIVTTCRNGVEFGIRVSGIGGNHWFTGPAQRVIGPFAGYTQEDAGLDGDSAITETYGVGGFAAAAPAIVPLVGGTVAEALNYSKELEITTKENPNVTIPVLDFGIPTGIDVLKVLETGLPVINTAIAHKEPGIGIGAGLTNPPANVFNEALKALVATIN 3clv-a1-m1-cA_3clv-a1-m2-cA Crystal Structure of Rab5a from plasmodium falciparum, PFB0500c O96193 O96193 1.89 X-RAY DIFFRACTION 41 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 175 175 GMEKKSSYKTVLLGESSVGKSSIVLRLTKDTFHENTNTTIGASFCTYVVNLNDNYNENLCNIKFDIWDTAGQERYASIVPLYYRGATCAIVVFDISNSNTLDRAKTWVNQLKISSNYIIILVANKIDKNFQVDILEVQKYAQDNNLLFIQTSAKTGTNIKNIFYMLAEEIYKNII GMEKKSSYKTVLLGESSVGKSSIVLRLTKDTFHENTNTTIGASFCTYVVNLNDNYNENLCNIKFDIWDTAGQERYASIVPLYYRGATCAIVVFDISNSNTLDRAKTWVNQLKISSNYIIILVANKIDKNFQVDILEVQKYAQDNNLLFIQTSAKTGTNIKNIFYMLAEEIYKNII 3cm1-a1-m1-cB_3cm1-a1-m1-cC Crystal structure of SsgA-like sporulation-specific cell division protein (YP_290167.1) from Thermobifida fusca YX-ER1 at 2.60 A resolution Q47N25 Q47N25 2.6 X-RAY DIFFRACTION 58 0.992 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 119 124 SSSGTSITCEVGLQLIPVPLVARLDYSVDDPYAIRAAFHVPVEWIFARELLTVGIIRETGEGDVRIWPSQDGERVNIALSRFHAQVAPLSEFLHRTYELVPAGQESDYIDIDAEIAEHL SSSGTSITCEVGLQLIRAPVPLVARLDYSVDDPYAIRAAFHVGDEPVEWIFARELLTVGIIRETGEGDVRIWPSQDERVNIALSSRFHAQVAPLSEFLHRTYELVPAGQESDYIDIDAEIAEHL 3cm1-a1-m1-cC_3cm1-a1-m1-cA Crystal structure of SsgA-like sporulation-specific cell division protein (YP_290167.1) from Thermobifida fusca YX-ER1 at 2.60 A resolution Q47N25 Q47N25 2.6 X-RAY DIFFRACTION 60 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 124 135 3cm1-a1-m1-cB_3cm1-a1-m1-cA SSSGTSITCEVGLQLIRAPVPLVARLDYSVDDPYAIRAAFHVGDEPVEWIFARELLTVGIIRETGEGDVRIWPSQDERVNIALSSRFHAQVAPLSEFLHRTYELVPAGQESDYIDIDAEIAEHL SSSGTSITCEVGLQLIVPDRAPVPLVARLDYSVDDPYAIRAAFHVGDDEPVEWIFARELLTVGIIRETGEGDVRIWPSQDGKERVNIALSSPFGQARFHAQVAPLSEFLHRTYELVPAGQESDYIDIDAEIAEHL 3cm2-a5-m1-cE_3cm2-a5-m1-cG Crystal Structure of XIAP BIR3 domain in complex with a Smac-mimetic compound, Smac010 P98170 P98170 2.5 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 2opz-a1-m1-cA_2opz-a1-m1-cC 2opz-a2-m1-cB_2opz-a2-m1-cD 3clx-a5-m1-cC_3clx-a5-m1-cA 3clx-a6-m1-cB_3clx-a6-m2-cD 3cm2-a1-m1-cD_3cm2-a1-m2-cF 3cm2-a2-m1-cA_3cm2-a2-m3-cJ 3cm2-a3-m1-cH_3cm2-a3-m1-cB 3cm2-a4-m1-cC_3cm2-a4-m1-cI 3cm7-a1-m1-cD_3cm7-a1-m1-cB 3cm7-a2-m1-cA_3cm7-a2-m2-cC 3eyl-a1-m1-cA_3eyl-a1-m1-cB TNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLVRT TNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLVRT 3cm5-a1-m1-cA_3cm5-a1-m1-cB Crystal structure of Cell-Death Related Nuclease 4 (CRN-4) bound with Mn Q10905 Q10905 2.81 X-RAY DIFFRACTION 61 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 294 294 3cg7-a1-m1-cB_3cg7-a1-m1-cA 3cm6-a1-m1-cA_3cm6-a1-m1-cB 5dk5-a1-m1-cA_5dk5-a1-m1-cB HCPFDTLLILDFETTSDAANQDYPCEVIQFAIVAYDVPNDKIREDISFNKYVKPVLNRTLTKNCVDFTGIPQRSIDTADTFDVVYEQFQQWLITLGLEEGKFAFVCDSRQDLWRIAQYQMKLSNIQMPAFFRQYINLYKIFTNEMDRMGPKELSATTNIGKMNEYYDLPTIGRAHDAMDDCLNIATILQRMINMGAKVTVNELLTCCASWRRQPLVYNKEWRSSFMDAGKIFERVLPLVVTTIRAGDFRLEMYGVCRYCRKGMDVCGTSHQQTPHDLYKNEEDPIHFAKIAGYY HCPFDTLLILDFETTSDAANQDYPCEVIQFAIVAYDVPNDKIREDISFNKYVKPVLNRTLTKNCVDFTGIPQRSIDTADTFDVVYEQFQQWLITLGLEEGKFAFVCDSRQDLWRIAQYQMKLSNIQMPAFFRQYINLYKIFTNEMDRMGPKELSATTNIGKMNEYYDLPTIGRAHDAMDDCLNIATILQRMINMGAKVTVNELLTCCASWRRQPLVYNKEWRSSFMDAGKIFERVLPLVVTTIRAGDFRLEMYGVCRYCRKGMDVCGTSHQQTPHDLYKNEEDPIHFAKIAGYY 3cm9-a1-m1-cA_3cm9-a1-m1-cD Solution Structure of Human SIgA2 0 SOLUTION SCATTERING 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 462 QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 3cm9-a1-m1-cB_3cm9-a1-m1-cD Solution Structure of Human SIgA2 0 SOLUTION SCATTERING 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 462 QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 3cm9-a1-m1-cC_3cm9-a1-m1-cD Solution Structure of Human SIgA2 0 SOLUTION SCATTERING 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 462 3cm9-a1-m1-cA_3cm9-a1-m1-cB QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY QVKLLEQSGAEVKKPGASVKVSCKASGYSFTSYGLHWVRQAPGQRLEWMGWISAGTGNTKYSQKFRGRVTFTRDTSATTAYMGLSSLRPEDTAVYYCARDPYGGGKSEFDYWGQGTLVTVSSASPTSPKVFPLSLDSTPQDGNVVVACLVQGFFPQEPLSVTWSESGQNVTARNFPPSQDASGDLYTTSSQLTLPATQCPDGKSVTCHVKHYTNPSQDVTVPCPVPPPPPCCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 3cm9-a1-m1-cJ_3cm9-a1-m1-cS Solution Structure of Human SIgA2 P01833 P01833 0 SOLUTION SCATTERING 121 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 585 PRSPTVVKGVAGSSVAVLCPYNRKESKSIKYWCLWEGAQNGRCPLLVDSEGWVKAQYEGRLSLLEEPGNGTFTVILNQLTSRDAGFYWCLTNGDTLWRTTVEIKII KSPIFGPEEVNSVEGNSVSITCYYPPTSVNRHTRKYWCRQGARGGCITLISSEGYVSSKYAGRANLTNFPENGTFVVNIAQLSQDDSGRYKCGLGINSRGLSFDVSLEVSQGPGLLNDTKVYTVDLGRTVTINCPFKTENAQKRKSLYKQIGLYPVLVIDSSGYVNPNYTGRIRLDIQGTGQLLFSVVINQLRLSDAGQYLCQAGDDSNSNKKNADLQVLKPEPELVYEDLRGSVTFHCALGPEVANVAKFLCRQSSGENCDVVVNTLGKRAPAFEGRILLNPQDKDGSFSVVITGLRKEDAGRYLCGAHSDGQLQEGSPIQAWQLFVNEESTIPRSPTVVKGVAGSSVAVLCPYNRKESKSIKYWCLWEGAQNGRCPLLVDSEGWVKAQYEGRLSLLEEPGNGTFTVILNQLTSRDAGFYWCLTNGDTLWRTTVEIKIIEGEPNLKVPGNVTAVLGETLKVPCHFPCKFSSYEKYWCKWNNTGCQALPSQDEGPSKAFVNCDENSRLVSLTLNLVTRADEGWYWCGVKQGHFYGETAAVYVAVEERKAAGSRDVSLAKADAAPDEKVLDSGFREIENKAIQDPR 3cmb-a1-m1-cA_3cmb-a1-m1-cD Crystal structure of acetoacetate decarboxylase (YP_001047042.1) from Methanoculleus marisnigri JR1 at 1.60 A resolution A3CUL0 A3CUL0 1.6 X-RAY DIFFRACTION 179 1.0 368407 (Methanoculleus marisnigri JR1) 368407 (Methanoculleus marisnigri JR1) 258 258 3cmb-a1-m1-cB_3cmb-a1-m1-cC GFRPQDDFTYLPVHFGGGKFDPETLVTQKATALSLSFETERDLLENYIPEGFELLAPEVQVAFNKFTEINWLHGGQYNLINVAAPVRFHGKKDELDGAYTLVVWENKTAPILGGREQTGIPKIYADIEDLHIVRPHFATTVSYEGNTFLNDFEATGSITGRDLDALKSQFLTNTLGWRYIPKVGAPGAELSQFVLYPQGEVETAEVGKGSLKWTELTPQSPAQYYIVNSLASLPIKRVTQAVLVEGRAILRAGARVIE GFRPQDDFTYLPVHFGGGKFDPETLVTQKATALSLSFETERDLLENYIPEGFELLAPEVQVAFNKFTEINWLHGGQYNLINVAAPVRFHGKKDELDGAYTLVVWENKTAPILGGREQTGIPKIYADIEDLHIVRPHFATTVSYEGNTFLNDFEATGSITGRDLDALKSQFLTNTLGWRYIPKVGAPGAELSQFVLYPQGEVETAEVGKGSLKWTELTPQSPAQYYIVNSLASLPIKRVTQAVLVEGRAILRAGARVIE 3cmb-a1-m1-cD_3cmb-a1-m1-cB Crystal structure of acetoacetate decarboxylase (YP_001047042.1) from Methanoculleus marisnigri JR1 at 1.60 A resolution A3CUL0 A3CUL0 1.6 X-RAY DIFFRACTION 29 1.0 368407 (Methanoculleus marisnigri JR1) 368407 (Methanoculleus marisnigri JR1) 258 259 3cmb-a1-m1-cA_3cmb-a1-m1-cC GFRPQDDFTYLPVHFGGGKFDPETLVTQKATALSLSFETERDLLENYIPEGFELLAPEVQVAFNKFTEINWLHGGQYNLINVAAPVRFHGKKDELDGAYTLVVWENKTAPILGGREQTGIPKIYADIEDLHIVRPHFATTVSYEGNTFLNDFEATGSITGRDLDALKSQFLTNTLGWRYIPKVGAPGAELSQFVLYPQGEVETAEVGKGSLKWTELTPQSPAQYYIVNSLASLPIKRVTQAVLVEGRAILRAGARVIE QGFRPQDDFTYLPVHFGGGKFDPETLVTQKATALSLSFETERDLLENYIPEGFELLAPEVQVAFNKFTEINWLHGGQYNLINVAAPVRFHGKKDELDGAYTLVVWENKTAPILGGREQTGIPKIYADIEDLHIVRPHFATTVSYEGNTFLNDFEATGSITGRDLDALKSQFLTNTLGWRYIPKVGAPGAELSQFVLYPQGEVETAEVGKGSLKWTELTPQSPAQYYIVNSLASLPIKRVTQAVLVEGRAILRAGARVIE 3cmb-a1-m1-cD_3cmb-a1-m1-cC Crystal structure of acetoacetate decarboxylase (YP_001047042.1) from Methanoculleus marisnigri JR1 at 1.60 A resolution A3CUL0 A3CUL0 1.6 X-RAY DIFFRACTION 27 1.0 368407 (Methanoculleus marisnigri JR1) 368407 (Methanoculleus marisnigri JR1) 258 259 3cmb-a1-m1-cA_3cmb-a1-m1-cB GFRPQDDFTYLPVHFGGGKFDPETLVTQKATALSLSFETERDLLENYIPEGFELLAPEVQVAFNKFTEINWLHGGQYNLINVAAPVRFHGKKDELDGAYTLVVWENKTAPILGGREQTGIPKIYADIEDLHIVRPHFATTVSYEGNTFLNDFEATGSITGRDLDALKSQFLTNTLGWRYIPKVGAPGAELSQFVLYPQGEVETAEVGKGSLKWTELTPQSPAQYYIVNSLASLPIKRVTQAVLVEGRAILRAGARVIE QGFRPQDDFTYLPVHFGGGKFDPETLVTQKATALSLSFETERDLLENYIPEGFELLAPEVQVAFNKFTEINWLHGGQYNLINVAAPVRFHGKKDELDGAYTLVVWENKTAPILGGREQTGIPKIYADIEDLHIVRPHFATTVSYEGNTFLNDFEATGSITGRDLDALKSQFLTNTLGWRYIPKVGAPGAELSQFVLYPQGEVETAEVGKGSLKWTELTPQSPAQYYIVNSLASLPIKRVTQAVLVEGRAILRAGARVIE 3cmc-a1-m1-cR_3cmc-a1-m1-cP Thioacylenzyme intermediate of Bacillus stearothermophilus phosphorylating GAPDH P00362 P00362 1.77 X-RAY DIFFRACTION 23 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 334 334 1dbv-a1-m1-cO_1dbv-a1-m1-cQ 1dbv-a1-m1-cR_1dbv-a1-m1-cP 1gd1-a1-m1-cO_1gd1-a1-m1-cQ 1gd1-a1-m1-cR_1gd1-a1-m1-cP 1npt-a1-m1-cO_1npt-a1-m1-cQ 1npt-a1-m1-cR_1npt-a1-m1-cP 1nq5-a1-m1-cO_1nq5-a1-m1-cQ 1nq5-a1-m2-cQ_1nq5-a1-m2-cO 1nq5-a2-m1-cC_1nq5-a2-m1-cA 1nq5-a3-m1-cA_1nq5-a3-m1-cC 1nq5-a3-m3-cC_1nq5-a3-m3-cA 1nqa-a1-m1-cO_1nqa-a1-m1-cQ 1nqa-a1-m1-cR_1nqa-a1-m1-cP 1nqo-a1-m1-cO_1nqo-a1-m1-cQ 1nqo-a1-m2-cQ_1nqo-a1-m2-cO 1nqo-a2-m1-cC_1nqo-a2-m1-cA 1nqo-a3-m1-cA_1nqo-a3-m1-cC 1nqo-a3-m3-cC_1nqo-a3-m3-cA 2dbv-a1-m1-cO_2dbv-a1-m1-cQ 2dbv-a1-m1-cR_2dbv-a1-m1-cP 2gd1-a1-m1-cO_2gd1-a1-m1-cQ 2gd1-a1-m1-cR_2gd1-a1-m1-cP 3cmc-a1-m1-cO_3cmc-a1-m1-cQ 3dbv-a1-m1-cO_3dbv-a1-m1-cQ 3dbv-a1-m1-cR_3dbv-a1-m1-cP 4dbv-a1-m1-cO_4dbv-a1-m1-cQ 4dbv-a1-m1-cR_4dbv-a1-m1-cP AVKVGINGFGRIGRNVFRAALKNPDIEVVAVNDLTDANTLAHLLKYDSVHGRLDAEVSVNGNNLVVNGKEIIVKAERDPENLAWGEIGVDIVVESTGRFTKREDAAKHLEAGAKKVIISAPAKNEDITIVMGVNQDKYDPKAHHVISNASCTTNCLAPFAKVLHEQFGIVRGMMTTVHSYTNDQRILDLPHKDLRRARAAAESIIPTTTGAAKAVALVLPELKGKLNGMAMRVPTPNVSVVDLVAELEKEVTVEEVNAALKAAAEGELKGILAYSEEPLVSRDYNGSTVSSTIDALSTMVIDGKMVKVVSWYDNETGYSHRVVDLAAYIASKGL AVKVGINGFGRIGRNVFRAALKNPDIEVVAVNDLTDANTLAHLLKYDSVHGRLDAEVSVNGNNLVVNGKEIIVKAERDPENLAWGEIGVDIVVESTGRFTKREDAAKHLEAGAKKVIISAPAKNEDITIVMGVNQDKYDPKAHHVISNASCTTNCLAPFAKVLHEQFGIVRGMMTTVHSYTNDQRILDLPHKDLRRARAAAESIIPTTTGAAKAVALVLPELKGKLNGMAMRVPTPNVSVVDLVAELEKEVTVEEVNAALKAAAEGELKGILAYSEEPLVSRDYNGSTVSSTIDALSTMVIDGKMVKVVSWYDNETGYSHRVVDLAAYIASKGL 3cmc-a1-m1-cR_3cmc-a1-m1-cQ Thioacylenzyme intermediate of Bacillus stearothermophilus phosphorylating GAPDH P00362 P00362 1.77 X-RAY DIFFRACTION 142 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 334 334 1dbv-a1-m1-cO_1dbv-a1-m1-cP 1dbv-a1-m1-cR_1dbv-a1-m1-cQ 1gd1-a1-m1-cO_1gd1-a1-m1-cP 1gd1-a1-m1-cR_1gd1-a1-m1-cQ 1npt-a1-m1-cO_1npt-a1-m1-cP 1npt-a1-m1-cR_1npt-a1-m1-cQ 1nq5-a1-m1-cO_1nq5-a1-m2-cO 1nq5-a1-m2-cQ_1nq5-a1-m1-cQ 1nq5-a3-m1-cC_1nq5-a3-m3-cA 1nq5-a3-m3-cC_1nq5-a3-m1-cA 1nqa-a1-m1-cO_1nqa-a1-m1-cP 1nqa-a1-m1-cR_1nqa-a1-m1-cQ 1nqo-a1-m1-cO_1nqo-a1-m2-cO 1nqo-a1-m2-cQ_1nqo-a1-m1-cQ 1nqo-a3-m1-cC_1nqo-a3-m3-cA 1nqo-a3-m3-cC_1nqo-a3-m1-cA 2dbv-a1-m1-cO_2dbv-a1-m1-cP 2dbv-a1-m1-cR_2dbv-a1-m1-cQ 2gd1-a1-m1-cO_2gd1-a1-m1-cP 2gd1-a1-m1-cR_2gd1-a1-m1-cQ 3cmc-a1-m1-cO_3cmc-a1-m1-cP 3dbv-a1-m1-cO_3dbv-a1-m1-cP 3dbv-a1-m1-cR_3dbv-a1-m1-cQ 4dbv-a1-m1-cO_4dbv-a1-m1-cP 4dbv-a1-m1-cR_4dbv-a1-m1-cQ AVKVGINGFGRIGRNVFRAALKNPDIEVVAVNDLTDANTLAHLLKYDSVHGRLDAEVSVNGNNLVVNGKEIIVKAERDPENLAWGEIGVDIVVESTGRFTKREDAAKHLEAGAKKVIISAPAKNEDITIVMGVNQDKYDPKAHHVISNASCTTNCLAPFAKVLHEQFGIVRGMMTTVHSYTNDQRILDLPHKDLRRARAAAESIIPTTTGAAKAVALVLPELKGKLNGMAMRVPTPNVSVVDLVAELEKEVTVEEVNAALKAAAEGELKGILAYSEEPLVSRDYNGSTVSSTIDALSTMVIDGKMVKVVSWYDNETGYSHRVVDLAAYIASKGL AVKVGINGFGRIGRNVFRAALKNPDIEVVAVNDLTDANTLAHLLKYDSVHGRLDAEVSVNGNNLVVNGKEIIVKAERDPENLAWGEIGVDIVVESTGRFTKREDAAKHLEAGAKKVIISAPAKNEDITIVMGVNQDKYDPKAHHVISNASCTTNCLAPFAKVLHEQFGIVRGMMTTVHSYTNDQRILDLPHKDLRRARAAAESIIPTTTGAAKAVALVLPELKGKLNGMAMRVPTPNVSVVDLVAELEKEVTVEEVNAALKAAAEGELKGILAYSEEPLVSRDYNGSTVSSTIDALSTMVIDGKMVKVVSWYDNETGYSHRVVDLAAYIASKGL 3cmo-a3-m1-cX_3cmo-a3-m1-cL HIV neutralizing monoclonal antibody YZ18 2.3 X-RAY DIFFRACTION 35 1.0 209 210 IVMTQSSSSLSASLGDRVTISCRASQDISNYLNWYQQKPDGTVELLIYYTSRLQSGVPSRFSGSGSGSDYSLTISNLVPEDIATYYCQQYSKLFTFGSGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR DIVMTQSSSSLSASLGDRVTISCRASQDISNYLNWYQQKPDGTVELLIYYTSRLQSGVPSRFSGSGSGSDYSLTISNLVPEDIATYYCQQYSKLFTFGSGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNR 3cmy-a1-m1-cA_3cmy-a1-m2-cA Structure of a homeodomain in complex with DNA P23760 P23760 1.95 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 GQRRSRTTFTAEQLEELERAFERTHYPDIYTREELAQRAKLTEARVQVWFSNRRARWRKQ GQRRSRTTFTAEQLEELERAFERTHYPDIYTREELAQRAKLTEARVQVWFSNRRARWRKQ 3cnc-a2-m1-cE_3cnc-a2-m1-cF Crystal Structure of Ad16 fiber knob Q67711 Q67711 2.4 X-RAY DIFFRACTION 65 1.0 31544 (Human adenovirus 16) 31544 (Human adenovirus 16) 196 196 3cnc-a1-m1-cA_3cnc-a1-m1-cB 3cnc-a1-m1-cA_3cnc-a1-m1-cC 3cnc-a1-m1-cB_3cnc-a1-m1-cC 3cnc-a2-m1-cD_3cnc-a2-m1-cE 3cnc-a2-m1-cD_3cnc-a2-m1-cF IENNTLWTGAKPSANCVIKEGEDSPDCKLTLVLVKNGGLINGYITLMGASEYTNTLFKNNQVTIDVNLAFDNTGQIITYLSSLKSNLNFKDNQNMATGTITSAKGFMPSTTAYPFITYATETLNEDYIYGECYYKSTNGTLFPLKVTVTLNRRMLASGMAYAMNFSWSLNAEEAPETTEVTLITSPFFFSYIREDD IENNTLWTGAKPSANCVIKEGEDSPDCKLTLVLVKNGGLINGYITLMGASEYTNTLFKNNQVTIDVNLAFDNTGQIITYLSSLKSNLNFKDNQNMATGTITSAKGFMPSTTAYPFITYATETLNEDYIYGECYYKSTNGTLFPLKVTVTLNRRMLASGMAYAMNFSWSLNAEEAPETTEVTLITSPFFFSYIREDD 3cne-a2-m1-cB_3cne-a2-m1-cC Crystal structure of the putative protease I from Bacteroides thetaiotaomicron Q8A8A4 Q8A8A4 1.99 X-RAY DIFFRACTION 61 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 166 167 3cne-a1-m1-cA_3cne-a1-m1-cD 4d1y-a1-m1-cA_4d1y-a1-m1-cB KKVAVLAVNPVNGCGLFQYLEAFFENGISYKVFAVSDTKEIKTNSGVLIVDDVIANLKGHEDEFDALVFSCGDAVPVFQQYANQPYNVDLEVIKTFGEKGKIGHCAGAFDFTGITKGKKVAVHPLAKPAIQNGIATDEKSEIDGNFFTAQDENTIWTLPKVIEALK AKKVAVLAVNPVNGCGLFQYLEAFFENGISYKVFAVSDTKEIKTNSGVLIVDDVIANLKGHEDEFDALVFSCGDAVPVFQQYANQPYNVDLEVIKTFGEKGKIGHCAGAFDFTGITKGKKVAVHPLAKPAIQNGIATDEKSEIDGNFFTAQDENTIWTLPKVIEALK 3cnf-a1-m10-cA_3cnf-a1-m9-cB 3.88 Angstrom structure of cytoplasmic polyhedrosis virus by cryo-electron microscopy Q6TS43 Q6TS43 3.88 ELECTRON MICROSCOPY 41 0.996 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 920 924 3cnf-a1-m11-cA_3cnf-a1-m15-cB 3cnf-a1-m12-cA_3cnf-a1-m11-cB 3cnf-a1-m13-cA_3cnf-a1-m12-cB 3cnf-a1-m14-cA_3cnf-a1-m13-cB 3cnf-a1-m15-cA_3cnf-a1-m14-cB 3cnf-a1-m16-cA_3cnf-a1-m20-cB 3cnf-a1-m17-cA_3cnf-a1-m16-cB 3cnf-a1-m18-cA_3cnf-a1-m17-cB 3cnf-a1-m19-cA_3cnf-a1-m18-cB 3cnf-a1-m1-cA_3cnf-a1-m5-cB 3cnf-a1-m20-cA_3cnf-a1-m19-cB 3cnf-a1-m21-cA_3cnf-a1-m25-cB 3cnf-a1-m22-cA_3cnf-a1-m21-cB 3cnf-a1-m23-cA_3cnf-a1-m22-cB 3cnf-a1-m24-cA_3cnf-a1-m23-cB 3cnf-a1-m25-cA_3cnf-a1-m24-cB 3cnf-a1-m26-cA_3cnf-a1-m30-cB 3cnf-a1-m27-cA_3cnf-a1-m26-cB 3cnf-a1-m28-cA_3cnf-a1-m27-cB 3cnf-a1-m29-cA_3cnf-a1-m28-cB 3cnf-a1-m2-cA_3cnf-a1-m1-cB 3cnf-a1-m30-cA_3cnf-a1-m29-cB 3cnf-a1-m31-cA_3cnf-a1-m35-cB 3cnf-a1-m32-cA_3cnf-a1-m31-cB 3cnf-a1-m33-cA_3cnf-a1-m32-cB 3cnf-a1-m34-cA_3cnf-a1-m33-cB 3cnf-a1-m35-cA_3cnf-a1-m34-cB 3cnf-a1-m36-cA_3cnf-a1-m40-cB 3cnf-a1-m37-cA_3cnf-a1-m36-cB 3cnf-a1-m38-cA_3cnf-a1-m37-cB 3cnf-a1-m39-cA_3cnf-a1-m38-cB 3cnf-a1-m3-cA_3cnf-a1-m2-cB 3cnf-a1-m40-cA_3cnf-a1-m39-cB 3cnf-a1-m41-cA_3cnf-a1-m45-cB 3cnf-a1-m42-cA_3cnf-a1-m41-cB 3cnf-a1-m43-cA_3cnf-a1-m42-cB 3cnf-a1-m44-cA_3cnf-a1-m43-cB 3cnf-a1-m45-cA_3cnf-a1-m44-cB 3cnf-a1-m46-cA_3cnf-a1-m50-cB 3cnf-a1-m47-cA_3cnf-a1-m46-cB 3cnf-a1-m48-cA_3cnf-a1-m47-cB 3cnf-a1-m49-cA_3cnf-a1-m48-cB 3cnf-a1-m4-cA_3cnf-a1-m3-cB 3cnf-a1-m50-cA_3cnf-a1-m49-cB 3cnf-a1-m51-cA_3cnf-a1-m55-cB 3cnf-a1-m52-cA_3cnf-a1-m51-cB 3cnf-a1-m53-cA_3cnf-a1-m52-cB 3cnf-a1-m54-cA_3cnf-a1-m53-cB 3cnf-a1-m55-cA_3cnf-a1-m54-cB 3cnf-a1-m56-cA_3cnf-a1-m60-cB 3cnf-a1-m57-cA_3cnf-a1-m56-cB 3cnf-a1-m58-cA_3cnf-a1-m57-cB 3cnf-a1-m59-cA_3cnf-a1-m58-cB 3cnf-a1-m5-cA_3cnf-a1-m4-cB 3cnf-a1-m60-cA_3cnf-a1-m59-cB 3cnf-a1-m6-cA_3cnf-a1-m10-cB 3cnf-a1-m7-cA_3cnf-a1-m6-cB 3cnf-a1-m8-cA_3cnf-a1-m7-cB 3cnf-a1-m9-cA_3cnf-a1-m8-cB FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLRLVIVGETTTPMSNTLSTVVNNVLRTTYHGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEPPASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPRMDTGTLSRNGDLLYSPVANGQVG 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polyhedrosis virus by cryo-electron microscopy Q6TS43 Q6TS43 3.88 ELECTRON MICROSCOPY 21 0.996 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 920 924 3cnf-a1-m10-cA_3cnf-a1-m23-cB 3cnf-a1-m11-cA_3cnf-a1-m20-cB 3cnf-a1-m12-cA_3cnf-a1-m37-cB 3cnf-a1-m13-cA_3cnf-a1-m46-cB 3cnf-a1-m14-cA_3cnf-a1-m44-cB 3cnf-a1-m15-cA_3cnf-a1-m28-cB 3cnf-a1-m16-cA_3cnf-a1-m15-cB 3cnf-a1-m17-cA_3cnf-a1-m27-cB 3cnf-a1-m18-cA_3cnf-a1-m51-cB 3cnf-a1-m19-cA_3cnf-a1-m59-cB 3cnf-a1-m1-cA_3cnf-a1-m10-cB 3cnf-a1-m20-cA_3cnf-a1-m38-cB 3cnf-a1-m21-cA_3cnf-a1-m30-cB 3cnf-a1-m22-cA_3cnf-a1-m42-cB 3cnf-a1-m23-cA_3cnf-a1-m1-cB 3cnf-a1-m25-cA_3cnf-a1-m53-cB 3cnf-a1-m26-cA_3cnf-a1-m25-cB 3cnf-a1-m27-cA_3cnf-a1-m52-cB 3cnf-a1-m28-cA_3cnf-a1-m16-cB 3cnf-a1-m29-cA_3cnf-a1-m14-cB 3cnf-a1-m2-cA_3cnf-a1-m22-cB 3cnf-a1-m30-cA_3cnf-a1-m43-cB 3cnf-a1-m31-cA_3cnf-a1-m40-cB 3cnf-a1-m32-cA_3cnf-a1-m57-cB 3cnf-a1-m33-cA_3cnf-a1-m6-cB 3cnf-a1-m34-cA_3cnf-a1-m4-cB 3cnf-a1-m35-cA_3cnf-a1-m48-cB 3cnf-a1-m36-cA_3cnf-a1-m35-cB 3cnf-a1-m37-cA_3cnf-a1-m47-cB 3cnf-a1-m38-cA_3cnf-a1-m11-cB 3cnf-a1-m39-cA_3cnf-a1-m19-cB 3cnf-a1-m3-cA_3cnf-a1-m41-cB 3cnf-a1-m40-cA_3cnf-a1-m58-cB 3cnf-a1-m41-cA_3cnf-a1-m50-cB 3cnf-a1-m42-cA_3cnf-a1-m2-cB 3cnf-a1-m43-cA_3cnf-a1-m21-cB 3cnf-a1-m44-cA_3cnf-a1-m29-cB 3cnf-a1-m45-cA_3cnf-a1-m13-cB 3cnf-a1-m46-cA_3cnf-a1-m45-cB 3cnf-a1-m47-cA_3cnf-a1-m12-cB 3cnf-a1-m48-cA_3cnf-a1-m36-cB 3cnf-a1-m49-cA_3cnf-a1-m34-cB 3cnf-a1-m4-cA_3cnf-a1-m49-cB 3cnf-a1-m50-cA_3cnf-a1-m3-cB 3cnf-a1-m51-cA_3cnf-a1-m60-cB 3cnf-a1-m52-cA_3cnf-a1-m17-cB 3cnf-a1-m53-cA_3cnf-a1-m26-cB 3cnf-a1-m54-cA_3cnf-a1-m24-cB 3cnf-a1-m55-cA_3cnf-a1-m8-cB 3cnf-a1-m56-cA_3cnf-a1-m55-cB 3cnf-a1-m57-cA_3cnf-a1-m7-cB 3cnf-a1-m58-cA_3cnf-a1-m31-cB 3cnf-a1-m59-cA_3cnf-a1-m39-cB 3cnf-a1-m5-cA_3cnf-a1-m33-cB 3cnf-a1-m60-cA_3cnf-a1-m18-cB 3cnf-a1-m6-cA_3cnf-a1-m5-cB 3cnf-a1-m7-cA_3cnf-a1-m32-cB 3cnf-a1-m8-cA_3cnf-a1-m56-cB 3cnf-a1-m9-cA_3cnf-a1-m54-cB FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLRLVIVGETTTPMSNTLSTVVNNVLRTTYHGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEPPASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPRMDTGTLSRNGDLLYSPVANGQVG 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polyhedrosis virus by cryo-electron microscopy Q6TS43 Q6TS43 3.88 ELECTRON MICROSCOPY 23 1.0 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 924 924 3cnf-a1-m10-cB_3cnf-a1-m23-cB 3cnf-a1-m11-cB_3cnf-a1-m20-cB 3cnf-a1-m11-cB_3cnf-a1-m38-cB 3cnf-a1-m12-cB_3cnf-a1-m37-cB 3cnf-a1-m12-cB_3cnf-a1-m47-cB 3cnf-a1-m13-cB_3cnf-a1-m45-cB 3cnf-a1-m13-cB_3cnf-a1-m46-cB 3cnf-a1-m14-cB_3cnf-a1-m29-cB 3cnf-a1-m14-cB_3cnf-a1-m44-cB 3cnf-a1-m15-cB_3cnf-a1-m16-cB 3cnf-a1-m15-cB_3cnf-a1-m28-cB 3cnf-a1-m16-cB_3cnf-a1-m28-cB 3cnf-a1-m17-cB_3cnf-a1-m27-cB 3cnf-a1-m17-cB_3cnf-a1-m52-cB 3cnf-a1-m18-cB_3cnf-a1-m51-cB 3cnf-a1-m18-cB_3cnf-a1-m60-cB 3cnf-a1-m19-cB_3cnf-a1-m39-cB 3cnf-a1-m19-cB_3cnf-a1-m59-cB 3cnf-a1-m1-cB_3cnf-a1-m10-cB 3cnf-a1-m1-cB_3cnf-a1-m23-cB 3cnf-a1-m20-cB_3cnf-a1-m38-cB 3cnf-a1-m21-cB_3cnf-a1-m30-cB 3cnf-a1-m21-cB_3cnf-a1-m43-cB 3cnf-a1-m22-cB_3cnf-a1-m42-cB 3cnf-a1-m24-cB_3cnf-a1-m54-cB 3cnf-a1-m24-cB_3cnf-a1-m9-cB 3cnf-a1-m25-cB_3cnf-a1-m26-cB 3cnf-a1-m25-cB_3cnf-a1-m53-cB 3cnf-a1-m26-cB_3cnf-a1-m53-cB 3cnf-a1-m27-cB_3cnf-a1-m52-cB 3cnf-a1-m29-cB_3cnf-a1-m44-cB 3cnf-a1-m2-cB_3cnf-a1-m22-cB 3cnf-a1-m2-cB_3cnf-a1-m42-cB 3cnf-a1-m30-cB_3cnf-a1-m43-cB 3cnf-a1-m31-cB_3cnf-a1-m40-cB 3cnf-a1-m31-cB_3cnf-a1-m58-cB 3cnf-a1-m32-cB_3cnf-a1-m57-cB 3cnf-a1-m32-cB_3cnf-a1-m7-cB 3cnf-a1-m33-cB_3cnf-a1-m5-cB 3cnf-a1-m33-cB_3cnf-a1-m6-cB 3cnf-a1-m34-cB_3cnf-a1-m49-cB 3cnf-a1-m34-cB_3cnf-a1-m4-cB 3cnf-a1-m35-cB_3cnf-a1-m36-cB 3cnf-a1-m35-cB_3cnf-a1-m48-cB 3cnf-a1-m36-cB_3cnf-a1-m48-cB 3cnf-a1-m37-cB_3cnf-a1-m47-cB 3cnf-a1-m39-cB_3cnf-a1-m59-cB 3cnf-a1-m3-cB_3cnf-a1-m41-cB 3cnf-a1-m3-cB_3cnf-a1-m50-cB 3cnf-a1-m40-cB_3cnf-a1-m58-cB 3cnf-a1-m41-cB_3cnf-a1-m50-cB 3cnf-a1-m45-cB_3cnf-a1-m46-cB 3cnf-a1-m4-cB_3cnf-a1-m49-cB 3cnf-a1-m51-cB_3cnf-a1-m60-cB 3cnf-a1-m55-cB_3cnf-a1-m56-cB 3cnf-a1-m55-cB_3cnf-a1-m8-cB 3cnf-a1-m56-cB_3cnf-a1-m8-cB 3cnf-a1-m57-cB_3cnf-a1-m7-cB 3cnf-a1-m5-cB_3cnf-a1-m6-cB FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLDNRLVIVGETTTPMSNTLSTVVNNVLRTTYHNNVGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGYVAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPREMDTGTLSRNGDLLYSPVANGQ 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polyhedrosis virus by cryo-electron microscopy Q6TS43 Q6TS43 3.88 ELECTRON MICROSCOPY 19 1.0 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 920 920 3cnf-a1-m10-cA_3cnf-a1-m6-cA 3cnf-a1-m10-cA_3cnf-a1-m9-cA 3cnf-a1-m11-cA_3cnf-a1-m12-cA 3cnf-a1-m11-cA_3cnf-a1-m15-cA 3cnf-a1-m12-cA_3cnf-a1-m13-cA 3cnf-a1-m13-cA_3cnf-a1-m14-cA 3cnf-a1-m14-cA_3cnf-a1-m15-cA 3cnf-a1-m16-cA_3cnf-a1-m17-cA 3cnf-a1-m16-cA_3cnf-a1-m20-cA 3cnf-a1-m17-cA_3cnf-a1-m18-cA 3cnf-a1-m18-cA_3cnf-a1-m19-cA 3cnf-a1-m19-cA_3cnf-a1-m20-cA 3cnf-a1-m1-cA_3cnf-a1-m2-cA 3cnf-a1-m1-cA_3cnf-a1-m5-cA 3cnf-a1-m21-cA_3cnf-a1-m22-cA 3cnf-a1-m21-cA_3cnf-a1-m25-cA 3cnf-a1-m22-cA_3cnf-a1-m23-cA 3cnf-a1-m23-cA_3cnf-a1-m24-cA 3cnf-a1-m24-cA_3cnf-a1-m25-cA 3cnf-a1-m26-cA_3cnf-a1-m27-cA 3cnf-a1-m26-cA_3cnf-a1-m30-cA 3cnf-a1-m27-cA_3cnf-a1-m28-cA 3cnf-a1-m28-cA_3cnf-a1-m29-cA 3cnf-a1-m29-cA_3cnf-a1-m30-cA 3cnf-a1-m2-cA_3cnf-a1-m3-cA 3cnf-a1-m31-cA_3cnf-a1-m32-cA 3cnf-a1-m31-cA_3cnf-a1-m35-cA 3cnf-a1-m32-cA_3cnf-a1-m33-cA 3cnf-a1-m33-cA_3cnf-a1-m34-cA 3cnf-a1-m34-cA_3cnf-a1-m35-cA 3cnf-a1-m36-cA_3cnf-a1-m37-cA 3cnf-a1-m36-cA_3cnf-a1-m40-cA 3cnf-a1-m37-cA_3cnf-a1-m38-cA 3cnf-a1-m38-cA_3cnf-a1-m39-cA 3cnf-a1-m39-cA_3cnf-a1-m40-cA 3cnf-a1-m3-cA_3cnf-a1-m4-cA 3cnf-a1-m41-cA_3cnf-a1-m42-cA 3cnf-a1-m41-cA_3cnf-a1-m45-cA 3cnf-a1-m42-cA_3cnf-a1-m43-cA 3cnf-a1-m43-cA_3cnf-a1-m44-cA 3cnf-a1-m44-cA_3cnf-a1-m45-cA 3cnf-a1-m46-cA_3cnf-a1-m47-cA 3cnf-a1-m46-cA_3cnf-a1-m50-cA 3cnf-a1-m47-cA_3cnf-a1-m48-cA 3cnf-a1-m48-cA_3cnf-a1-m49-cA 3cnf-a1-m49-cA_3cnf-a1-m50-cA 3cnf-a1-m4-cA_3cnf-a1-m5-cA 3cnf-a1-m51-cA_3cnf-a1-m52-cA 3cnf-a1-m51-cA_3cnf-a1-m55-cA 3cnf-a1-m52-cA_3cnf-a1-m53-cA 3cnf-a1-m53-cA_3cnf-a1-m54-cA 3cnf-a1-m54-cA_3cnf-a1-m55-cA 3cnf-a1-m56-cA_3cnf-a1-m57-cA 3cnf-a1-m56-cA_3cnf-a1-m60-cA 3cnf-a1-m57-cA_3cnf-a1-m58-cA 3cnf-a1-m58-cA_3cnf-a1-m59-cA 3cnf-a1-m59-cA_3cnf-a1-m60-cA 3cnf-a1-m6-cA_3cnf-a1-m7-cA 3cnf-a1-m7-cA_3cnf-a1-m8-cA FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLRLVIVGETTTPMSNTLSTVVNNVLRTTYHGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEPPASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPRMDTGTLSRNGDLLYSPVANGQVG FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLRLVIVGETTTPMSNTLSTVVNNVLRTTYHGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEPPASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPRMDTGTLSRNGDLLYSPVANGQVG 3cnf-a1-m9-cA_3cnf-a1-m9-cB 3.88 Angstrom structure of cytoplasmic polyhedrosis virus by cryo-electron microscopy Q6TS43 Q6TS43 3.88 ELECTRON MICROSCOPY 50 0.996 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 920 924 3cnf-a1-m10-cA_3cnf-a1-m10-cB 3cnf-a1-m11-cA_3cnf-a1-m11-cB 3cnf-a1-m12-cA_3cnf-a1-m12-cB 3cnf-a1-m13-cA_3cnf-a1-m13-cB 3cnf-a1-m14-cA_3cnf-a1-m14-cB 3cnf-a1-m15-cA_3cnf-a1-m15-cB 3cnf-a1-m16-cA_3cnf-a1-m16-cB 3cnf-a1-m17-cA_3cnf-a1-m17-cB 3cnf-a1-m18-cA_3cnf-a1-m18-cB 3cnf-a1-m19-cA_3cnf-a1-m19-cB 3cnf-a1-m1-cA_3cnf-a1-m1-cB 3cnf-a1-m20-cA_3cnf-a1-m20-cB 3cnf-a1-m21-cA_3cnf-a1-m21-cB 3cnf-a1-m22-cA_3cnf-a1-m22-cB 3cnf-a1-m23-cA_3cnf-a1-m23-cB 3cnf-a1-m24-cA_3cnf-a1-m24-cB 3cnf-a1-m25-cA_3cnf-a1-m25-cB 3cnf-a1-m26-cA_3cnf-a1-m26-cB 3cnf-a1-m27-cA_3cnf-a1-m27-cB 3cnf-a1-m28-cA_3cnf-a1-m28-cB 3cnf-a1-m29-cA_3cnf-a1-m29-cB 3cnf-a1-m2-cA_3cnf-a1-m2-cB 3cnf-a1-m30-cA_3cnf-a1-m30-cB 3cnf-a1-m31-cA_3cnf-a1-m31-cB 3cnf-a1-m32-cA_3cnf-a1-m32-cB 3cnf-a1-m33-cA_3cnf-a1-m33-cB 3cnf-a1-m34-cA_3cnf-a1-m34-cB 3cnf-a1-m35-cA_3cnf-a1-m35-cB 3cnf-a1-m36-cA_3cnf-a1-m36-cB 3cnf-a1-m37-cA_3cnf-a1-m37-cB 3cnf-a1-m38-cA_3cnf-a1-m38-cB 3cnf-a1-m39-cA_3cnf-a1-m39-cB 3cnf-a1-m3-cA_3cnf-a1-m3-cB 3cnf-a1-m40-cA_3cnf-a1-m40-cB 3cnf-a1-m41-cA_3cnf-a1-m41-cB 3cnf-a1-m42-cA_3cnf-a1-m42-cB 3cnf-a1-m43-cA_3cnf-a1-m43-cB 3cnf-a1-m44-cA_3cnf-a1-m44-cB 3cnf-a1-m45-cA_3cnf-a1-m45-cB 3cnf-a1-m46-cA_3cnf-a1-m46-cB 3cnf-a1-m47-cA_3cnf-a1-m47-cB 3cnf-a1-m48-cA_3cnf-a1-m48-cB 3cnf-a1-m49-cA_3cnf-a1-m49-cB 3cnf-a1-m4-cA_3cnf-a1-m4-cB 3cnf-a1-m50-cA_3cnf-a1-m50-cB 3cnf-a1-m51-cA_3cnf-a1-m51-cB 3cnf-a1-m52-cA_3cnf-a1-m52-cB 3cnf-a1-m53-cA_3cnf-a1-m53-cB 3cnf-a1-m54-cA_3cnf-a1-m54-cB 3cnf-a1-m55-cA_3cnf-a1-m55-cB 3cnf-a1-m56-cA_3cnf-a1-m56-cB 3cnf-a1-m57-cA_3cnf-a1-m57-cB 3cnf-a1-m58-cA_3cnf-a1-m58-cB 3cnf-a1-m59-cA_3cnf-a1-m59-cB 3cnf-a1-m5-cA_3cnf-a1-m5-cB 3cnf-a1-m60-cA_3cnf-a1-m60-cB 3cnf-a1-m6-cA_3cnf-a1-m6-cB 3cnf-a1-m7-cA_3cnf-a1-m7-cB 3cnf-a1-m8-cA_3cnf-a1-m8-cB FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLRLVIVGETTTPMSNTLSTVVNNVLRTTYHGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEPPASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPRMDTGTLSRNGDLLYSPVANGQVG FTKKDKLRASEADDRIVGPTVNLFKYGAAVVNIDLNRDFFDTATGIDLTKGIPLVQDLLVPIGVTAGAEQSAEYVSGLLMVLDNRLVIVGETTTPMSNTLSTVVNNVLRTTYHNNVGVNPALLRDFTQVNWLNRDITNMLQQAGTKYGLGLTETRLDYVRLVKTIVGHALNIDHFAASVLNINLRALMEANVTADDRIKALQAHSMISTQFHGPNQGALRPELAFDHDHIIRCLMLAAANYPRLEGIIVQINTGYVASANVIRPVSEKRYFPENLEQNQSAARLVSAVKARASEADISSIHLAIAREVSPMFNVHELKKIAESFEDPSSIVVVLEFILFALFFPTEFNRIKGDIQNVLLLFFSRWYPVEYGIFVQRGATYTINAAGEFEFSGRNEKWDQALYLSEHFPALFSDVPLAGANTIIAIMRLFTPQGFLRTDDLAIAANFPRASRNPQTYIPYTNQRGTVTNEFASRFRTIVATLANVVNERAVQDDMQKATRSCTKQWLRHLETQFDNIAVAHTDHLSVVYATMSNFMLNFTNNFATHVAVVLYQSGVINGPASTYLRENEVLVVMPDYYDVVSRFANANLQMNNNRYHESVLEIADIFDQADFIQTSDAVRQLRALMPTLSTSQIRHAIERIAQITDVDSTDYGKLTLRFLGTLTRSLKMQNAQIRRIRPDGTVLRYDDQIDIEAFRWSRYFLDELQLRRLSVGLRLITNPRIARRFNGVRIMYLTDDDPDPDFVPDVPEGYVAVQYAHRLFSSSLANKRNRVTYTHPPTGMAYPSPTGRPHVHMTINERAGMSKLVADNIIASVIKSNWVVDILDIEYTAEVMTPSEGYTQHVDAESIMTAPKGKLFHLQFMDGLLRPEASGEDMRLIYPLQPISVARSMRAIVNHNEVDRPREMDTGTLSRNGDLLYSPVANGQ 3cng-a2-m1-cD_3cng-a2-m1-cC Crystal structure of NUDIX hydrolase from Nitrosomonas europaea Q82VD6 Q82VD6 2 X-RAY DIFFRACTION 94 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 173 174 3cng-a1-m1-cB_3cng-a1-m1-cA KFCSQCGGEVILRIPEGDTLPRYICPKCHTIHYQNPKVIVGCIPEWENKVLLCKRAIAPYRGKWTLPAGFENNETLVQGAARETLEEANARVEIRELYAVYSLPHISQVYLFRAKLLDLDFFPGIESLEVRLFGEQEIPWNDIAFRVIHDPLKRYEERHHGQPAFHLGIINKP KFCSQCGGEVILRIPEGDTLPRYICPKCHTIHYQNPKVIVGCIPEWENKVLLCKRAIAPYRGKWTLPAGFENNETLVQGAARETLEEANARVEIRELYAVYSLPHISQVYLFRAKLLDLDFFPGIESLEVRLFGEQEIPWNDIAFRVIHDPLKRYEERHHGQPAFHLGIINKPQ 3cni-a1-m1-cA_3cni-a1-m2-cA Crystal structure of a domain of a putative ABC type-2 transporter from Thermotoga maritima MSB8 Q9WZ13 Q9WZ13 2.3 X-RAY DIFFRACTION 78 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 143 143 QKVAIVREDTGTIAELAEKALGNVDIVYAGSDLKEAEEAVKKEKAPAIIVIPKGFSQSLESGEKARLEIVWYLRGTGLSEAVSTGTISSLIESLKVQLASFLLNDPKKAQLLFDPLEIVQHTYLRGSLFKNHSPEAINVFYSQ QKVAIVREDTGTIAELAEKALGNVDIVYAGSDLKEAEEAVKKEKAPAIIVIPKGFSQSLESGEKARLEIVWYLRGTGLSEAVSTGTISSLIESLKVQLASFLLNDPKKAQLLFDPLEIVQHTYLRGSLFKNHSPEAINVFYSQ 3cnk-a1-m1-cA_3cnk-a1-m1-cB Crystal Structure of the dimerization domain of human filamin A P21333 P21333 1.65 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 KVVAKGLGLSKAYVGQKSSFTVDCSKAGNNMLLVGVHGPRTPCEEILVKHVGSRLYSVSYLLKDKGEYTLVVKWGHEHIPGSPYRVVVP KVVAKGLGLSKAYVGQKSSFTVDCSKAGNNMLLVGVHGPRTPCEEILVKHVGSRLYSVSYLLKDKGEYTLVVKWGHEHIPGSPYRVVVP 3cnv-a1-m1-cA_3cnv-a1-m1-cD Crystal structure of the ligand-binding domain of a putative GntR-family transcriptional regulator from Bordetella bronchiseptica A0A0H3LYW6 A0A0H3LYW6 2 X-RAY DIFFRACTION 13 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 152 153 3cnv-a1-m1-cB_3cnv-a1-m1-cC VRYRFLRLAPDEAESRILECRRLRAPAEIARALELRAGETVVTIRRQLSNHPTVIDDLWLPGTHFRGLTLELLTASKAPLYGLFESEFGVSVRADEKLRAVAASPEIAPLLGVEPGRPLLQVDRISYTYGDRPEVRRGLYLTDHYHYRNSLN VRYRFLRLAPDERAESRILECRRLRAPAEIARALELRAGETVVTIRRQLSNHPTVIDDLWLPGTHFRGLTLELLTASKAPLYGLFESEFGVSVRADEKLRAVAASPEIAPLLGVEPGRPLLQVDRISYTYGDRPEVRRGLYLTDHYHYRNSLN 3cnv-a1-m1-cD_3cnv-a1-m1-cB Crystal structure of the ligand-binding domain of a putative GntR-family transcriptional regulator from Bordetella bronchiseptica A0A0H3LYW6 A0A0H3LYW6 2 X-RAY DIFFRACTION 43 0.993 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 153 155 3cnv-a1-m1-cA_3cnv-a1-m1-cC VRYRFLRLAPDERAESRILECRRLRAPAEIARALELRAGETVVTIRRQLSNHPTVIDDLWLPGTHFRGLTLELLTASKAPLYGLFESEFGVSVRADEKLRAVAASPEIAPLLGVEPGRPLLQVDRISYTYGDRPEVRRGLYLTDHYHYRNSLN VRYRFLRLAPDEEGEAESRILECRRLRAPAEIARALELRAGETVVTIRRQLSNHPTVIDDLWLPGTHFRGLTLELLTASKAPLYGLFESEFGVSVRADEKLRAVAASPEIAPLLGVEPGRPLLQVDRISYTYGDRPEVRRGLYLTDHYHYRNSLN 3cnv-a1-m1-cD_3cnv-a1-m1-cC Crystal structure of the ligand-binding domain of a putative GntR-family transcriptional regulator from Bordetella bronchiseptica A0A0H3LYW6 A0A0H3LYW6 2 X-RAY DIFFRACTION 90 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 153 158 3cnv-a1-m1-cA_3cnv-a1-m1-cB VRYRFLRLAPDERAESRILECRRLRAPAEIARALELRAGETVVTIRRQLSNHPTVIDDLWLPGTHFRGLTLELLTASKAPLYGLFESEFGVSVRADEKLRAVAASPEIAPLLGVEPGRPLLQVDRISYTYGDRPEVRRGLYLTDHYHYRNSLN VRYRFLRLAPDEEGEGGRAESRILECRRLRAPAEIARALELRAGETVVTIRRQLSNHPTVIDDLWLPGTHFRGLTLELLTASKAPLYGLFESEFGVSVRADEKLRAVAASPEIAPLLGVEPGRPLLQVDRISYTYGDRPEVRRGLYLTDHYHYRNSLN 3cnx-a2-m1-cC_3cnx-a2-m2-cC CRYSTAL STRUCTURE OF A PUTATIVE DEHYDRATASE FROM THE NTF2-LIKE FAMILY (SAV_4671) FROM STREPTOMYCES AVERMITILIS AT 2.10 A RESOLUTION Q82EE4 Q82EE4 2.1 X-RAY DIFFRACTION 156 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 146 146 3cnx-a1-m1-cA_3cnx-a1-m1-cB TPDTDVEQVGLANTAFYEAERGDFETLSSLWLTPADLGVDPADAGVVSCVHPGWPVLSGRGEVLRSYALIANTEYIQFFLTDVHVSVTGDTALVTCTENILSGGPPPDDSDELGPLVGQLVVATNVFRRTPDGWKLWSHHASPVLA TPDTDVEQVGLANTAFYEAERGDFETLSSLWLTPADLGVDPADAGVVSCVHPGWPVLSGRGEVLRSYALIANTEYIQFFLTDVHVSVTGDTALVTCTENILSGGPPPDDSDELGPLVGQLVVATNVFRRTPDGWKLWSHHASPVLA 3co5-a1-m1-cB_3co5-a1-m1-cA Crystal structure of sigma-54 interaction domain of putative transcriptional response regulator from Neisseria gonorrhoeae Q5F5Q1 Q5F5Q1 2.4 X-RAY DIFFRACTION 114 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 129 131 NSAAIQENREVEAAAKRTSPVFLTGEAGSPFETVARYFHKNGTPWVSPARVEYLIDPELLQKAEGGVLYVGDIAQYSRNIQTGITFIIGKAERCRVRVIASCSYAAGSDSCEEKLAGLFSESVVRIPPL GNSAAIQENREVEAAAKRTSPVFLTGEAGSPFETVARYFHKNGTPWVSPARVEYLIDPELLQKAEGGVLYVGDIAQYSRNIQTGITFIIGKAERCRVRVIASCSYAAGSDSCEEKLAGLFSESVVRIPPLS 3col-a1-m1-cB_3col-a1-m1-cA Crystal structure of putative transcription regulator from Lactobacillus plantarum F9USK4 F9USK4 2.1 X-RAY DIFFRACTION 92 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 171 177 KQVKIQDAVAAIILAEGPAGVSTTKVAKRVGIAQSNVYLYFKNKQALIDSVYARETNRILSTTDLDRLSDSTIDVTTRIRLYVQQVYDYSLANPDSLTIIQQIKALNPNNIVANLLTAAIDAKVIKQLPVSLHGVVFSTIHTHTTNISKGRYAQDQYTFGDIFQIWDAKQD NKQVKIQDAVAAIILAEGPAGVSTTKVAKRVGIAQSNVYLYFKNKQALIDSVYARETNRILSTTDLDRLSDSTIDVTTRIRLYVQQVYDYSLANPDSLTIIQQIKALNGQDADPNNIVANLLTAAIDAKVIKQLPVSLHGVVFSTIHTHTTNISKGRYAQDQYTFGDIFQIWDAKQD 3coq-a1-m1-cA_3coq-a1-m1-cB Structural Basis for Dimerization in DNA Recognition by Gal4 P04386 P04386 2.4 X-RAY DIFFRACTION 67 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 89 89 1d66-a1-m1-cA_1d66-a1-m1-cB 7uik-a1-m1-cT_7uik-a1-m1-cU 7uio-a1-m1-cGA_7uio-a1-m1-cGB EQACDICRLKKLKCSKEKPKCAKCLKNNWECRYSPKTKRSPLTRAHLTEVESRLERLEQLFLLIFPREDLDMILKMDSLQDIKALLTGL EQACDICRLKKLKCSKEKPKCAKCLKNNWECRYSPKTKRSPLTRAHLTEVESRLERLEQLFLLIFPREDLDMILKMDSLQDIKALLTGL 3cos-a2-m1-cC_3cos-a2-m1-cD Crystal structure of human class II alcohol dehydrogenase (ADH4) in complex with NAD and Zn P08319 P08319 2.1 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 379 381 3cos-a1-m1-cA_3cos-a1-m1-cB GTKGKVIKCKAAIAWEAGKPLCIEEVEVAPPKAHEVRIQIIATSLCHTDATVIDSKFEGLAFPVIVGHEAAGIVESIGPGVTNVKPGDKVIPLYAPLCRKCKFCLSPLTNLCGKISNLKSPASDQQLMEDKTSRFTCKGKPVYHFFGTSTFSQYTVVSDINLAKIDDDANLERVCLLGCGFSTGYGAAINNAKVTPGSTCAVFGLGGVGLSAVMGCKAAGASRIIGIDINSEKFVKAKALGATDCLNPRDLHKPIQEVIIELTKGGVDFALDCAGGSETMKAALDCTTAGWGSCTFIGVAAGSKGLTVFPEELIIGRTINGTFFGGWKSVDSIPKLVTDYKNKKFNLDALVTHTLPFDKISEAFDLMNQGKSIRTILIF SMGTKGKVIKCKAAIAWEAGKPLCIEEVEVAPPKAHEVRIQIIATSLCHTDATVIDSKFEGLAFPVIVGHEAAGIVESIGPGVTNVKPGDKVIPLYAPLCRKCKFCLSPLTNLCGKISNLKSPASDQQLMEDKTSRFTCKGKPVYHFFGTSTFSQYTVVSDINLAKIDDDANLERVCLLGCGFSTGYGAAINNAKVTPGSTCAVFGLGGVGLSAVMGCKAAGASRIIGIDINSEKFVKAKALGATDCLNPRDLHKPIQEVIIELTKGGVDFALDCAGGSETMKAALDCTTAGWGSCTFIGVAAGSKGLTVFPEELIIGRTINGTFFGGWKSVDSIPKLVTDYKNKKFNLDALVTHTLPFDKISEAFDLMNQGKSIRTILIF 3cp1-a1-m2-cA_3cp1-a1-m3-cA Structure of a longer thermalstable core domain of HIV-1 gp41 containing the enfuvirtide resistance mutation N43D Q53I19 Q53I19 2 X-RAY DIFFRACTION 72 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 73 73 3cp1-a1-m1-cA_3cp1-a1-m2-cA 3cp1-a1-m1-cA_3cp1-a1-m3-cA 3cyo-a1-m1-cA_3cyo-a1-m2-cA 3cyo-a1-m1-cA_3cyo-a1-m3-cA 3cyo-a1-m2-cA_3cyo-a1-m3-cA TVQARQLLSGIVQQQNDLLRAIEAQQHLLQLTVWGIKQLMEWDREINNYTSLIHSLIEESQNQQEKNEQELLE TVQARQLLSGIVQQQNDLLRAIEAQQHLLQLTVWGIKQLMEWDREINNYTSLIHSLIEESQNQQEKNEQELLE 3cp3-a1-m1-cA_3cp3-a1-m2-cA Crystal structure of conserved protein of unknown function DIP1874 from Corynebacterium diphtheriae Q6NFL3 Q6NFL3 2 X-RAY DIFFRACTION 71 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 127 127 DPITILDSSDSLSRLSSESVGRLVVHRKDDLDIFPVNFVLDYSAEQPRVYFRTATKLFSVNLNSDVLFEVDRFDEGWSVVLKGNAYVVRDTEEARHADTLGLKPWLPTLKYNFVRIDVREVSGRAFV DPITILDSSDSLSRLSSESVGRLVVHRKDDLDIFPVNFVLDYSAEQPRVYFRTATKLFSVNLNSDVLFEVDRFDEGWSVVLKGNAYVVRDTEEARHADTLGLKPWLPTLKYNFVRIDVREVSGRAFV 3cp7-a1-m1-cA_3cp7-a1-m1-cB Crystal structure of a thermostable serine protease AL20 from extremophilic microoganism D0VWT7 D0VWT7 1.39 X-RAY DIFFRACTION 79 1.0 269144 (Nesterenkonia aethiopica) 269144 (Nesterenkonia aethiopica) 216 216 PADSPHIGKVFFSTNQGDFVCSANIVASANQSTVATAGHCLHDGNGGQFARNFVFAPAYDYGESEHGVWAAEELVTSAEWANRGDFEHDYAFAVLETKGGTTVQQQVGTASPIAFNQPRGQYYSAYGYPAAAPFNGQELHSCHGTATNDPMGSSTQGIPCNMTGGSSGGPWFLGNGTGGAQNSTNSYGYTFLPNVMFGPYFGSGAQQNYNYASTTN PADSPHIGKVFFSTNQGDFVCSANIVASANQSTVATAGHCLHDGNGGQFARNFVFAPAYDYGESEHGVWAAEELVTSAEWANRGDFEHDYAFAVLETKGGTTVQQQVGTASPIAFNQPRGQYYSAYGYPAAAPFNGQELHSCHGTATNDPMGSSTQGIPCNMTGGSSGGPWFLGNGTGGAQNSTNSYGYTFLPNVMFGPYFGSGAQQNYNYASTTN 3cp8-a2-m1-cD_3cp8-a2-m1-cC Crystal structure of GidA from Chlorobium tepidum Q8KA85 Q8KA85 3.2 X-RAY DIFFRACTION 99 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 552 611 3cp8-a1-m1-cA_3cp8-a1-m1-cB HMYDVIVVGAGHAGCEAALAVARGGLHCLLITSDLSAVARMSCNPAIGGVAKGQITREIDALGGEMGKAIDATGIQFRMLNRSKGPAMHSPRAQADKTQYSLYMRRIVEHEPNIDLLQDTVIGVSANSGKFSSVTVRSGRAIQAKAAILACGTFLNGLIHIGMDHFPGGRSTAEPPVEGLTESLASLGFSFGRLKTGTPPRIDSRSVDYTIVTEQPGDVDPVPFSFSSTSVANRNLVSCYLTKTTEKTHDILRTGFDRSPLFTGCPSIEDKISRFPDKSSHHIFLEPEGTDTVEMYVNGFSTSLPEDIQIAGLRSIPGLEEAKMIRPGYAIEYDFFHPWQIRSTMETRPVENLFFAGQINGTSGYEEAAAQGLMAGINAVRKILGKELIVLGRDQAYIGVLIDDLITKETKEPYRMFTSSAEHRLILRHDNADLRLRKIGYDCNLVSSDDLHRTESIIKRVQHCLEVMKTAKVTPAEINTLLMNKGLQELKTPARALSLIKRPGISLQDILEHSLSVRSAAEELCNDPRVAEQVQIEIKYEGYIKREQLVAD HMYDVIVVGAGHAGCEAALAVARGGLHCLLITSDLSAVARMSCNPAIGGVAKGQITREIDALGGEMGKAIDATGIQFRMLNRSKGPAMHSPRAQADKTQYSLYMRRIVEHEPNIDLLQDTVIGVSANSGKFSSVTVRSGRAIQAKAAILACGTFLNGLIHIGMDHFPGGRSTAEPPVEGLTESLASLGFSFGRLKTGTPPRIDSRSVDYTIVTEQPGDVDPVPFSFSSTSVANRNLVSCYLTKTTEKTHDILRTGFDRSPLFTGCPSIEDKISRFPDKSSHHIFLEPEGTDTVEMYVNGFSTSLPEDIQIAGLRSIPGLEEAKMIRPGYAIEYDFFHPWQIRSTMETRPVENLFFAGQINGTSGYEEAAAQGLMAGINAVRKILGKELIVLGRDQAYIGVLIDDLITKETKEPYRMFTSSAEHRLILRHDNADLRLRKIGYDCNLVSSDDLHRTESIIKRVQHCLEVMKTAKVTPAEINTLLMNKGLQELKTPARALSLIKRPGISLQDILEHSLSVRSAAEELCNDPRVAEQVQIEIKYEGYIKREQLVADRIARLDSLHIPDNFNYDSLNSLSSEGREKLLKHRPATIGQASRILGVSPSDVSILMIRL 3cpq-a1-m1-cA_3cpq-a1-m1-cB Crystal Structure of L30e a ribosomal protein from Methanocaldococcus jannaschii DSM2661 (MJ1044) P54061 P54061 1.9 X-RAY DIFFRACTION 28 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 99 101 MDVNKAIRTAVDTGKVILGSKRTIKFVKHGEGKLVVLAGNIPKDLEEDVKYYAKLSNIPVYQHKITSLELGAVCGKPFPVAALLVLDEGLSNIMELVEK MDVNKAIRTAVDTGKVILGSKRTIKFVKHGEGKLVVLAGNIPKDLEEDVKYYAKLSNIPVYQHKITSLELGAVCGKPFPVAALLVLDEGLSNIMELVEKKE 3cpr-a1-m1-cA_3cpr-a1-m2-cB The crystal structure of Corynebacterium glutamicum dihydrodipicolinate synthase to 2.2 A resolution P19808 P19808 2.2 X-RAY DIFFRACTION 68 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 301 301 3cpr-a1-m1-cB_3cpr-a1-m2-cA ITSTGLTAKTGVEHFGTVGVAMVTPFTESGDIDIAAGREVAAYLVDKGLDSLVLAGTTGESPTTTAAEKLELLKAVREEVGDRAKLIAGVGTNNTRTSVELAEAAASAGADGLLVVTPYYSKPSQEGLLAHFGAIAAATEVPICLYDIPGRSGIPIESDTMRRLSELPTILAVDAKGDLVAATSLIKETGLAWYSGDDPLNLVWLALGGSGFISVIGHAAPTALRELYTSFEEGDLVRAREINAKLSPLVAAQGRLGGVSLAKAALRLQGINVGDPRLPIMAPNEQELEALREDMKKAGVL ITSTGLTAKTGVEHFGTVGVAMVTPFTESGDIDIAAGREVAAYLVDKGLDSLVLAGTTGESPTTTAAEKLELLKAVREEVGDRAKLIAGVGTNNTRTSVELAEAAASAGADGLLVVTPYYSKPSQEGLLAHFGAIAAATEVPICLYDIPGRSGIPIESDTMRRLSELPTILAVDAKGDLVAATSLIKETGLAWYSGDDPLNLVWLALGGSGFISVIGHAAPTALRELYTSFEEGDLVRAREINAKLSPLVAAQGRLGGVSLAKAALRLQGINVGDPRLPIMAPNEQELEALREDMKKAGVL 3cpr-a1-m2-cA_3cpr-a1-m2-cB The crystal structure of Corynebacterium glutamicum dihydrodipicolinate synthase to 2.2 A resolution P19808 P19808 2.2 X-RAY DIFFRACTION 110 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 301 301 3cpr-a1-m1-cA_3cpr-a1-m1-cB ITSTGLTAKTGVEHFGTVGVAMVTPFTESGDIDIAAGREVAAYLVDKGLDSLVLAGTTGESPTTTAAEKLELLKAVREEVGDRAKLIAGVGTNNTRTSVELAEAAASAGADGLLVVTPYYSKPSQEGLLAHFGAIAAATEVPICLYDIPGRSGIPIESDTMRRLSELPTILAVDAKGDLVAATSLIKETGLAWYSGDDPLNLVWLALGGSGFISVIGHAAPTALRELYTSFEEGDLVRAREINAKLSPLVAAQGRLGGVSLAKAALRLQGINVGDPRLPIMAPNEQELEALREDMKKAGVL ITSTGLTAKTGVEHFGTVGVAMVTPFTESGDIDIAAGREVAAYLVDKGLDSLVLAGTTGESPTTTAAEKLELLKAVREEVGDRAKLIAGVGTNNTRTSVELAEAAASAGADGLLVVTPYYSKPSQEGLLAHFGAIAAATEVPICLYDIPGRSGIPIESDTMRRLSELPTILAVDAKGDLVAATSLIKETGLAWYSGDDPLNLVWLALGGSGFISVIGHAAPTALRELYTSFEEGDLVRAREINAKLSPLVAAQGRLGGVSLAKAALRLQGINVGDPRLPIMAPNEQELEALREDMKKAGVL 3cpx-a1-m1-cC_3cpx-a1-m1-cB Crystal structure of putative M42 glutamyl aminopeptidase (YP_676701.1) from Cytophaga hutchinsonii ATCC 33406 at 2.39 A resolution 2.39 X-RAY DIFFRACTION 67 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 302 304 3cpx-a1-m1-cA_3cpx-a1-m1-cB 3cpx-a1-m1-cA_3cpx-a1-m1-cC ENLYFQGQLLKELCSIHAPSGNEEPLKDFILEYIRSNAGSWSYQPVIYADNDLQDCIVLVFGNPRTAVFAHDSIGFTVSYNNHLHPIGSPSAKEGYRLVGKDSNGDIEGVLKIVDEEWLETDRLIDRGTEVTFKPDFREEGDFILTPYLDDRLGVWTALELAKTLEHGIIAFTCWEEHGGGSVAYLARWIYETFHVKQSLICDITWVTEGVEAGKGVAISRDRIPRKKYVNRIIELARQTDIPFQLEVEGAGASDGRELQLSPYPWDWCFIGAPEKDAHTPNECVHKKDIESVGLYKYLEKL HHENLYFQGQLLKELCSIHAPSGNEEPLKDFILEYIRSNAGSWSYQPVIYADNDLQDCIVLVFGNPRTAVFAHDSIGFTVSYNNHLHPIGSPSAKEGYRLVGKDSNGDIEGVLKIVDEEWLETDRLIDRGTEVTFKPDFREEGDFILTPYLDDRLGVWTALELAKTLEHGIIAFTCWEEHGGGSVAYLARWIYETFHVKQSLICDITWVTEGVEAGKGVAISRDRIPRKKYVNRIIELARQTDIPFQLEVEGAGASDGRELQLSPYPWDWCFIGAPEKDAHTPNECVHKKDIESVGLYKYLEKL 3cq0-a1-m1-cB_3cq0-a1-m1-cA Crystal Structure of TAL2_YEAST P53228 P53228 1.9 X-RAY DIFFRACTION 49 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 323 325 ATSSLEQLKKAGTHVVADSGDFEAISKYEPQDSTTNPSLILAASKLEKYARFIDAAVEYGRKHGKTDHEKIENAMDKILVEFGTQILKVVPGRVSTEVDARLSFDKKATVKKALHIIKLYKDAGVPKERVLIKIASTWEGIQAARELEVKHGIHCNMTLLFSFTQAVACAEANVTLISPFVGRIMDFYKAYTAETDPGVLSVKKIYSYYKRHGYATEVMAASFRNLDELKALAGIDNMTLPLNLLEQLYESTDPIENKLNSESAKEEGVEKVSFINDEPHFRYVLNEDQMATEKLSDGIRKFSADIEALYKLVEEKMLEHHHH ATSSLEQLKKAGTHVVADSGDFEAISKYEPQDSTTNPSLILAASKLEKYARFIDAAVEYGRKHGKTDHEKIENAMDKILVEFGTQILKVVPGRVSTEVDARLSFDKKATVKKALHIIKLYKDAGVPKERVLIKIASTWEGIQAARELEVKHGIHCNMTLLFSFTQAVACAEANVTLISPFVGRIMDFYKALDYTAETDPGVLSVKKIYSYYKRHGYATEVMAASFRNLDELKALAGIDNMTLPLNLLEQLYESTDPIENKLNSESAKEEGVEKVSFINDEPHFRYVLNEDQMATEKLSDGIRKFSADIEALYKLVEEKMLEHHHH 3cq5-a2-m1-cC_3cq5-a2-m2-cC Histidinol-phosphate aminotransferase from Corynebacterium glutamicum in complex with PMP Q9KJU4 Q9KJU4 1.8 X-RAY DIFFRACTION 258 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 364 364 3cq4-a1-m1-cB_3cq4-a1-m1-cA 3cq5-a1-m1-cA_3cq5-a1-m1-cB 3cq6-a1-m1-cA_3cq6-a1-m1-cC 3cq6-a2-m1-cE_3cq6-a2-m2-cE KITLSDLPLREELRGEHAYGAPQLNVDIRLNTNENPYPPSEALVADLVATVDKIATELNRYPERDAVELRDELAAYITKQTGVAVTRDNLWAANGSNEILQQLLQAFGGPGRTALGFQPSYSMHPILAKGTHTEFIAVSRGADFRIDMDVALEEIRAKQPDIVFVTTPNNPTGDVTSLDDVERIINVAPGIVIVDEAYAEFSPSPSATTLLEKYPTKLVVSRTMSKAFDFAGGRLGYFVANPAFIDAVMLVRLPYHLSALSQAAAIVALRHSADTLGTVEKLSVERVRVAARLEELGYAVVPSESNFVFFGDFSDQHAAWQAFLDRGVLIRDVGIAGHLRTTIGVPEENDAFLDAAAEIIKLNL KITLSDLPLREELRGEHAYGAPQLNVDIRLNTNENPYPPSEALVADLVATVDKIATELNRYPERDAVELRDELAAYITKQTGVAVTRDNLWAANGSNEILQQLLQAFGGPGRTALGFQPSYSMHPILAKGTHTEFIAVSRGADFRIDMDVALEEIRAKQPDIVFVTTPNNPTGDVTSLDDVERIINVAPGIVIVDEAYAEFSPSPSATTLLEKYPTKLVVSRTMSKAFDFAGGRLGYFVANPAFIDAVMLVRLPYHLSALSQAAAIVALRHSADTLGTVEKLSVERVRVAARLEELGYAVVPSESNFVFFGDFSDQHAAWQAFLDRGVLIRDVGIAGHLRTTIGVPEENDAFLDAAAEIIKLNL 3cq9-a2-m1-cD_3cq9-a2-m1-cC Crystal structure of the lp_1622 protein from Lactobacillus plantarum. Northeast Structural Genomics Consortium target LpR114 F9UNZ6 F9UNZ6 2.2 X-RAY DIFFRACTION 104 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 199 209 3cq9-a1-m1-cA_3cq9-a1-m1-cB ATIVNLLVGGPTANYPADLTTIPGPWVGADRGALRLVKRGIQPVVVGDFVKDALVGAIVVKPDQDHTDTQLAIKSIFEQLQPDEVHLYGATGGRLDHLLANWLVLDPVFRQWAPQIKLIDKQNSVRFFLPGDYQITKEADKRYLAFVPLPHLTLPDEKYQLDAAYNAYPISWASNEFSGNTGHFSFDAGVLAVIQSRDD ATIVNLLVGGPTANYPADLTTIPGPWVGADRGALRLVKRGIQPVVVGDFDSIDAAELQTVKDALVGAIVVKPDQDHTDTQLAIKSIFEQLQPDEVHLYGATGGRLDHLLANWLVLDPVFRQWAPQIKLIDKQNSVRFFLPGDYQITKEADKRYLAFVPLPHLTLPDEKYQLDAAYNAYPISWASNEFSGNTGHFSFDAGVLAVIQSRDD 3cqb-a2-m1-cA_3cqb-a2-m2-cA Crystal structure of heat shock protein HtpX domain from Vibrio parahaemolyticus RIMD 2210633 Q87QN1 Q87QN1 1.86 X-RAY DIFFRACTION 61 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 96 96 NASKGALRSVGGVIESPRNETEHWLLETVGRQAQQAGIGPTVAIYDSADINAFATGAKDSLVAVSTGLLHNTRDEAEAVLAHEVSHIANGDVTTLQ NASKGALRSVGGVIESPRNETEHWLLETVGRQAQQAGIGPTVAIYDSADINAFATGAKDSLVAVSTGLLHNTRDEAEAVLAHEVSHIANGDVTTLQ 3cqh-a1-m1-cB_3cqh-a1-m1-cA Crystal Structure of L-xylulose-5-phosphate 3-epimerase UlaE from the Anaerobic L-ascorbate Utilization Pathway of Escherichia coli Q8XDI5 Q8XDI5 2.08 X-RAY DIFFRACTION 87 1.0 562 (Escherichia coli) 562 (Escherichia coli) 243 247 IPLGIYEKALPAECWLERLQLAKTLGFDFVESVDETDERLSRLDWSREQRLALVNAIVETGVRVPSCLSAHRRFPLGSEDDAVRAQGLEIRKAIQFAQDVGIRVIQLAGYDVYYQEANNETRRRFRDGLKESVEASRAQVTLAEILNNPWFQLYPDIGNLSAVQELQAGIGHIVAVHVKDTKPGVFKNVPFGEGVVDFERCFETLKQSGYCGPYLIEWSETAEDPAAEVAKARDWVKARAKAG QIPLGIYEKALPAGECWLERLQLAKTLGFDFVESVDETDERLSRLDWSREQRLALVNAIVETGVRVPSCLSAHRRFPLGSEDDAVRAQGLEIRKAIQFAQDVGIRVIQLAGYDVYYQEANNETRRRFRDGLKESVEASRAQVTLAEILNNPWFQLYPDIGNLSAWVQELQAGIGHIVAVHVKDTKPGVFKNVPFGEGVVDFERCFETLKQSGYCGPYLIEWSETAEDPAAEVAKARDWVKARAKAGV 3cqj-a1-m1-cB_3cqj-a1-m1-cA Crystal Structure of L-xylulose-5-phosphate 3-epimerase UlaE (form B) complex with Zn2+ Q8XDI5 Q8XDI5 2.04 X-RAY DIFFRACTION 92 1.0 562 (Escherichia coli) 562 (Escherichia coli) 275 276 3cqi-a1-m1-cB_3cqi-a1-m1-cA 3cqk-a1-m1-cA_3cqk-a1-m1-cB QIPLGIYEKALPAGCWLERLQLAKTLGFDFVEMSVDETDERLSRLDWSREQRLALVNAIVETGVRVPSMCLSAHRRFPLGSEDDAVRAQGLEIMRKAIQFAQDVGIRVIQLAGYDVYYQEANNETRRRFRDGLKESVEMASRAQVTLAMEIMDYPLMNSISKALGYAHYLNNPWFQLYPDIGNLSAWDNDVQMELQAGIGHIVAVHVKDTKPGVFKNVPFGEGVVDFERCFETLKQSGYCGPYLIEMWSETAEDPAAEVAKARDWVKARMAKAGM QIPLGIYEKALPAGECWLERLQLAKTLGFDFVEMSVDETDERLSRLDWSREQRLALVNAIVETGVRVPSMCLSAHRRFPLGSEDDAVRAQGLEIMRKAIQFAQDVGIRVIQLAGYDVYYQEANNETRRRFRDGLKESVEMASRAQVTLAMEIMDYPLMNSISKALGYAHYLNNPWFQLYPDIGNLSAWDNDVQMELQAGIGHIVAVHVKDTKPGVFKNVPFGEGVVDFERCFETLKQSGYCGPYLIEMWSETAEDPAAEVAKARDWVKARMAKAGM 3cqo-a1-m1-cB_3cqo-a1-m1-cC Crystal structure of a f-lectin (fucolectin) from morone saxatilis (striped bass) serum Q2LK81 Q2LK81 2.32 X-RAY DIFFRACTION 78 1.0 34816 (Morone saxatilis) 34816 (Morone saxatilis) 293 293 3cqo-a1-m1-cA_3cqo-a1-m1-cB 3cqo-a1-m1-cA_3cqo-a1-m1-cC YNYKNVALRGKATQSARYLHTHGAAYNAIDGNRNSDFEAGSCTHTVEQTNPWWRVDLLEPYIVTSITITNRGDCCPERLNGVEIHIGNSLQENGVANPRVGVISHIPAGISHTISFTERVEGRYVTVLLPGTNKVLTLCEVEVHGYRAPTGENLALKGKATQSSLFESGIAYNAIDGNQANNWEMASCTHTKNTMDPWWRMDLSQTHRVFSVKVTNRDSFEKRINGAEIRIGDSLDNNGNHNPRCAVITSIPAGASTEFQCNGMDGRYVNIVIPGREEYLTLCEVEVYGSVLD YNYKNVALRGKATQSARYLHTHGAAYNAIDGNRNSDFEAGSCTHTVEQTNPWWRVDLLEPYIVTSITITNRGDCCPERLNGVEIHIGNSLQENGVANPRVGVISHIPAGISHTISFTERVEGRYVTVLLPGTNKVLTLCEVEVHGYRAPTGENLALKGKATQSSLFESGIAYNAIDGNQANNWEMASCTHTKNTMDPWWRMDLSQTHRVFSVKVTNRDSFEKRINGAEIRIGDSLDNNGNHNPRCAVITSIPAGASTEFQCNGMDGRYVNIVIPGREEYLTLCEVEVYGSVLD 3cqq-a1-m1-cB_3cqq-a1-m1-cA Human SOD1 G85R Variant, Structure II P00441 P00441 1.9 X-RAY DIFFRACTION 66 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 126 134 ATKAVCVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFHVHEFGDNTAGCTSAGPHFNPLHVGDLRNVTADKDGVADVSIEDSVISLSGDHIIGRTLVVHEKADNAGSRLACGVIGIAQ TKAVCVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFHVHEFGDNTAGCTSAGPHFNPLSRKHGGRHVGDLRNVTADKDGVADVSIEDSVISLSGDHIIGRTLVVHEKADDLNAGSRLACGVIGIAQ 3cqr-a3-m1-cB_3cqr-a3-m2-cB Crystal Structure of the Lipocalin domain of Violaxanthin de-epoxidase (VDE) at pH5 Q39249 Q39249 2 X-RAY DIFFRACTION 24 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 170 170 3cqr-a3-m1-cA_3cqr-a3-m2-cA FPAPDPSVLVQNFNISDFNGKWYITSGLNPTFDAFDCQLHEFHTEGDNKLVGNISWRIKTLDSGFFTRSAVQKFVQDPNQPGVLYNHDNEYLHYQDDWYILSSKIENKPEDYIFVYYRGRNDAWDGYGGAVVYTRSSVLPNSIIPELEKAAKSIGRDFSTFIRTDNTCGP FPAPDPSVLVQNFNISDFNGKWYITSGLNPTFDAFDCQLHEFHTEGDNKLVGNISWRIKTLDSGFFTRSAVQKFVQDPNQPGVLYNHDNEYLHYQDDWYILSSKIENKPEDYIFVYYRGRNDAWDGYGGAVVYTRSSVLPNSIIPELEKAAKSIGRDFSTFIRTDNTCGP 3cqr-a3-m2-cB_3cqr-a3-m1-cA Crystal Structure of the Lipocalin domain of Violaxanthin de-epoxidase (VDE) at pH5 Q39249 Q39249 2 X-RAY DIFFRACTION 117 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 170 171 3cqr-a2-m1-cB_3cqr-a2-m2-cA 3cqr-a3-m1-cB_3cqr-a3-m2-cA FPAPDPSVLVQNFNISDFNGKWYITSGLNPTFDAFDCQLHEFHTEGDNKLVGNISWRIKTLDSGFFTRSAVQKFVQDPNQPGVLYNHDNEYLHYQDDWYILSSKIENKPEDYIFVYYRGRNDAWDGYGGAVVYTRSSVLPNSIIPELEKAAKSIGRDFSTFIRTDNTCGP EFPAPDPSVLVQNFNISDFNGKWYITSGLNPTFDAFDCQLHEFHTEGDNKLVGNISWRIKTLDSGFFTRSAVQKFVQDPNQPGVLYNHDNEYLHYQDDWYILSSKIENKPEDYIFVYYRGRNDAWDGYGGAVVYTRSSVLPNSIIPELEKAAKSIGRDFSTFIRTDNTCGP 3cqr-a3-m2-cB_3cqr-a3-m2-cA Crystal Structure of the Lipocalin domain of Violaxanthin de-epoxidase (VDE) at pH5 Q39249 Q39249 2 X-RAY DIFFRACTION 92 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 170 171 3cqr-a1-m1-cB_3cqr-a1-m1-cA 3cqr-a3-m1-cB_3cqr-a3-m1-cA FPAPDPSVLVQNFNISDFNGKWYITSGLNPTFDAFDCQLHEFHTEGDNKLVGNISWRIKTLDSGFFTRSAVQKFVQDPNQPGVLYNHDNEYLHYQDDWYILSSKIENKPEDYIFVYYRGRNDAWDGYGGAVVYTRSSVLPNSIIPELEKAAKSIGRDFSTFIRTDNTCGP EFPAPDPSVLVQNFNISDFNGKWYITSGLNPTFDAFDCQLHEFHTEGDNKLVGNISWRIKTLDSGFFTRSAVQKFVQDPNQPGVLYNHDNEYLHYQDDWYILSSKIENKPEDYIFVYYRGRNDAWDGYGGAVVYTRSSVLPNSIIPELEKAAKSIGRDFSTFIRTDNTCGP 3cqy-a3-m2-cB_3cqy-a3-m1-cA Crystal structure of a functionally unknown protein (SO_1313) from Shewanella oneidensis MR-1 Q8EHB5 Q8EHB5 2.3 X-RAY DIFFRACTION 22 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 363 364 3cqy-a3-m1-cB_3cqy-a3-m2-cA NKAYYIGLSGTSDGVDAVLVDFAGEQPQLIGTHTETIPTHLLKGLQRLCLPGTDEINRLGRLDRSVGKLFALAVNNLLAKTKIAKDEIIAIGSHGQTVRHPNLEVGFTLQIGDPNTIATETGIDVIADFRRKDIALGGQGAPLVPAFHQQTFAQVGKKRVILNIGGIANITYLPGNSEEVLGFDTGPGNTLIDAWVQQVKNESYDKNGAWAASGKTDPQLLAQLLSHPYFSLAYPKSTGRELFNQAWLEQQLSAFNQLNEEDIQSTLLDLTCHSIAQDILKLAQEGELFVCGGGAFNAELQRLAALLPGYRIDTTSALGVDPKWAEGIAFAWLARYQLGLPANLPAVTGASREAILGGRFSAK GNKAYYIGLSGTSDGVDAVLVDFAGEQPQLIGTHTETIPTHLLKGLQRLCLPGTDEINRLGRLDRSVGKLFALAVNNLLAKTKIAKDEIIAIGSHGQTVRHPNLEVGFTLQIGDPNTIATETGIDVIADFRRKDIALGGQGAPLVPAFHQQTFAQVGKKRVILNIGGIANITYLPGNSEEVLGFDTGPGNTLIDAWVQQVKNESYDKNGAWAASGKTDPQLLAQLLSHPYFSLAYPKSTGRELFNQAWLEQQLSAFNQLNEEDIQSTLLDLTCHSIAQDILKLAQEGELFVCGGGAFNAELQRLAALLPGYRIDTTSALGVDPKWAEGIAFAWLARYQLGLPANLPAVTGASREAILGGRFSAK 3cqy-a3-m2-cB_3cqy-a3-m2-cA Crystal structure of a functionally unknown protein (SO_1313) from Shewanella oneidensis MR-1 Q8EHB5 Q8EHB5 2.3 X-RAY DIFFRACTION 127 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 363 364 3cqy-a3-m1-cB_3cqy-a3-m1-cA NKAYYIGLSGTSDGVDAVLVDFAGEQPQLIGTHTETIPTHLLKGLQRLCLPGTDEINRLGRLDRSVGKLFALAVNNLLAKTKIAKDEIIAIGSHGQTVRHPNLEVGFTLQIGDPNTIATETGIDVIADFRRKDIALGGQGAPLVPAFHQQTFAQVGKKRVILNIGGIANITYLPGNSEEVLGFDTGPGNTLIDAWVQQVKNESYDKNGAWAASGKTDPQLLAQLLSHPYFSLAYPKSTGRELFNQAWLEQQLSAFNQLNEEDIQSTLLDLTCHSIAQDILKLAQEGELFVCGGGAFNAELQRLAALLPGYRIDTTSALGVDPKWAEGIAFAWLARYQLGLPANLPAVTGASREAILGGRFSAK GNKAYYIGLSGTSDGVDAVLVDFAGEQPQLIGTHTETIPTHLLKGLQRLCLPGTDEINRLGRLDRSVGKLFALAVNNLLAKTKIAKDEIIAIGSHGQTVRHPNLEVGFTLQIGDPNTIATETGIDVIADFRRKDIALGGQGAPLVPAFHQQTFAQVGKKRVILNIGGIANITYLPGNSEEVLGFDTGPGNTLIDAWVQQVKNESYDKNGAWAASGKTDPQLLAQLLSHPYFSLAYPKSTGRELFNQAWLEQQLSAFNQLNEEDIQSTLLDLTCHSIAQDILKLAQEGELFVCGGGAFNAELQRLAALLPGYRIDTTSALGVDPKWAEGIAFAWLARYQLGLPANLPAVTGASREAILGGRFSAK 3cr8-a1-m1-cA_3cr8-a1-m2-cC Hexameric APS kinase from Thiobacillus denitrificans Q3SM86 Q3SM86 2.95 X-RAY DIFFRACTION 112 0.99 36861 (Thiobacillus denitrificans) 36861 (Thiobacillus denitrificans) 493 493 3cr8-a1-m1-cB_3cr8-a1-m2-cB 3cr8-a1-m1-cC_3cr8-a1-m2-cA NQLIEPYGGTLVNLIDPEKREALKHEALSLPSLDLDWQQQCELEMLMTGAYSPLTGFMTRAQCARVESAQQLDDGSFWPSPITLTSRDRALADRRPGERLALRDGEGYMLAILTLSDVWKDGERWHLAGEVEGAALPPHPDFVSLRATPAELRALFVRRGWRRIIAWQARQPMHRAQYEFCLKSAIENEANLLLHPQVGGDITEAPAYFGLVRSFLAIRDRFPAATTQLSLLPAPPPEASGRALLLRAIVARNFGCSLLIADPSVAERAEKIGVRLIAYPRMVYVEDRAEHLPEAEAPQGARLLTLSGEEFQRRMRAGLKIPEWYSFPEVLAELHRQTPPRERQGFTVFFTGLSGAGKSTLARALAARLMEMGGRCVTLLDGDIVRRHLSSELGFSKAHRDVNVRRIGFVASEITKNRGIAICAPIAPYRQTRRDVRAMIEAVGGFVEIHVATDPYEVPETPELAIDTTGLAIDEAVQQILLKLEHEGYLRLE LIEPYGGTLVNLIDPEKREALKHEALSLPSLDLDWQQQCELEMLMTGAYSPLTGFMTRAQCARVESAQQLDDGSFWPSPITLTSRDRALADRRPGERLALRDGEGYMLAILTLSDVWKDGERWHLAGEVEGAALPPHPDFVSLRATPAELRALFVRRGWRRIIAWQARQPMHRAQYEFCLKSAIENEANLLLHPQVGGDITEAPAYFGLVRSFLAIRDRFPAATTQLSLLPAPPPEASGRALLLRAIVARNFGCSLLIAGGDPSVAERAEKIGVRLIAYPRMVYVEDRAEHLPEAEAPQGARLLTLSGEEFQRRMRAGLKIPEWYSFPEVLAELHRQTPPRERQGFTVFFTGLSGAGKSTLARALAARLMEMGGRCVTLLDGDIVRRHLSSELGFSKAHRDVNVRRIGFVASEITKNRGIAICAPIAPYRQTRRDVRAMIEAVGGFVEIHVATPIEYEVPETPELAIDTTGLAIDEAVQQILLKLEHEGYLRL 3cr8-a1-m2-cB_3cr8-a1-m2-cC Hexameric APS kinase from Thiobacillus denitrificans Q3SM86 Q3SM86 2.95 X-RAY DIFFRACTION 40 0.99 36861 (Thiobacillus denitrificans) 36861 (Thiobacillus denitrificans) 493 493 3cr8-a1-m1-cA_3cr8-a1-m1-cB 3cr8-a1-m1-cA_3cr8-a1-m1-cC 3cr8-a1-m1-cB_3cr8-a1-m1-cC 3cr8-a1-m2-cA_3cr8-a1-m2-cB 3cr8-a1-m2-cA_3cr8-a1-m2-cC QLIEPYGGTLVNLIDPEKREALKHEALSLPSLDLDWQQQCELEMLMTGAYSPLTGFMTRAQCARVESAQQLDDGSFWPSPITLTSRDRALADRRPGERLALRDGEGYMLAILTLSDVWKDGERWHLAGEVEGAALPPHPDFVSLRATPAELRALFVRRGWRRIIAWQARQPMHRAQYEFCLKSAIENEANLLLHPQVGGDITEAPAYFGLVRSFLAIRDRFPAATTQLSLLPAPPPEASGRALLLRAIVARNFGCSLLIAGRVDPSVAERAEKIGVRLIAYPRMVYVEDRAEHLPEAEAPQGARLLTLSGEEFQRRMRAGLKIPEWYSFPEVLAELHRQTPPRERQGFTVFFTGLSGAGKSTLARALAARLMEMGGRCVTLLDGDIVRRHLSSELGFSKAHRDVNVRRIGFVASEITKNRGIAICAPIAPYRQTRRDVRAMIEAVGGFVEIHVATDPYEVPETPELAIDTTGLAIDEAVQQILLKLEHEGYLR LIEPYGGTLVNLIDPEKREALKHEALSLPSLDLDWQQQCELEMLMTGAYSPLTGFMTRAQCARVESAQQLDDGSFWPSPITLTSRDRALADRRPGERLALRDGEGYMLAILTLSDVWKDGERWHLAGEVEGAALPPHPDFVSLRATPAELRALFVRRGWRRIIAWQARQPMHRAQYEFCLKSAIENEANLLLHPQVGGDITEAPAYFGLVRSFLAIRDRFPAATTQLSLLPAPPPEASGRALLLRAIVARNFGCSLLIAGGDPSVAERAEKIGVRLIAYPRMVYVEDRAEHLPEAEAPQGARLLTLSGEEFQRRMRAGLKIPEWYSFPEVLAELHRQTPPRERQGFTVFFTGLSGAGKSTLARALAARLMEMGGRCVTLLDGDIVRRHLSSELGFSKAHRDVNVRRIGFVASEITKNRGIAICAPIAPYRQTRRDVRAMIEAVGGFVEIHVATPIEYEVPETPELAIDTTGLAIDEAVQQILLKLEHEGYLRL 3cre-a1-m1-cA_3cre-a1-m1-cB Electron Microscopy model of the Saf Pilus- Type A Q8ZRK4 Q8ZRK4 17.0 ELECTRON MICROSCOPY 89 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 123 144 3cre-a1-m1-cC_3cre-a1-m1-cB DLTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGYQP GSFLPNSEQQKSVDIVFSSPQDLTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGYQP 3crf-a1-m1-cA_3crf-a1-m1-cB Electron Microscopy model of the Saf Pilus- Type B Q8ZRK4 Q8ZRK4 17.0 ELECTRON MICROSCOPY 103 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 123 144 3crf-a1-m1-cC_3crf-a1-m1-cB DLTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGYQP GSFLPNSEQQKSVDIVFSSPQDLTVSLIPVSGLKAGKNAPSAKIAKLVVNSTTLKEFGVRGISNNVVDSTGTAWRVAGKNTGKEIGVGLSSDSLRRSDSTEKWNGVNWMTFNSNDTLDIVLTGPAQNVTADTYPITLDVVGYQP 3crj-a2-m1-cC_3crj-a2-m1-cD Crystal structure of a TetR transcription regulator from Haloarcula marismortui ATCC 43049 Q5V649 Q5V649 2.6 X-RAY DIFFRACTION 104 1.0 272569 (Haloarcula marismortui ATCC 43049) 272569 (Haloarcula marismortui ATCC 43049) 174 184 3crj-a1-m1-cB_3crj-a1-m1-cA DQTEEIQATYRALRDLTIQRIADEYSTAAVHYYYDTKDDLLAAFLDYLLERFVDSIHDVETTDPEARLNLLLDELLVKPQENPDLSVALLERSQAPYKEAFSDRFRQNDEYVRYLKAVINHGIDEGVFTDVDAEHVTRSLLTIIDGARTRAVLDDTEELETARQTASEYADALQ TFSDQTEEIQATYRALREHGYADLTIQRIADEYGKSTAAVHYYYDTKDDLLAAFLDYLLERFVDSIHDVETTDPEARLNLLLDELLVKPQENPDLSVALLERSQAPYKEAFSDRFRQNDEYVRYLKAVINHGIDEGVFTDVDAEHVTRSLLTIIDGARTRAVLDDTEELETARQTASEYADALQ 3crn-a1-m1-cB_3crn-a1-m1-cA Crystal structure of response regulator receiver domain protein (CheY-like) from Methanospirillum hungatei JF-1 Q2FNF5 Q2FNF5 1.58 X-RAY DIFFRACTION 37 0.992 323259 (Methanospirillum hungatei JF-1) 323259 (Methanospirillum hungatei JF-1) 120 124 SLKRILIVDDDTAILDSTKQILEFEGYEVEIAATAGEGLAKIENEFFNLALFIKLPDEGTELLEKAHKLRPGKKIVTGYASLENSVFSLNAGADAYIKPVNPRDLLEKIKEKLDEQEKEG LKRILIVDDDTAILDSTKQILEFEGYEVEIAATAGEGLAKIENEFFNLALFIKLPDEGTELLEKAHKLRPGKKIVTGYASLENSVFSLNAGADAYIKPVNPRDLLEKIKEKLDEQEKEGHHHHH 3cro-a1-m1-cR_3cro-a1-m1-cL THE PHAGE 434 CRO/OR1 COMPLEX AT 2.5 ANGSTROMS RESOLUTION P03036 P03036 2.5 X-RAY DIFFRACTION 13 1.0 10712 (Phage 434) 10712 (Phage 434) 64 66 MQTLSERLKKRRIALKMTQTELATKAGVKQQSIQLIEAGVTKRPRFLFEIAMALNCDPVWLQYG MQTLSERLKKRRIALKMTQTELATKAGVKQQSIQLIEAGVTKRPRFLFEIAMALNCDPVWLQYGTK 3crp-a2-m1-cE_3crp-a2-m4-cE A heterospecific leucine zipper tetramer P03069 P03069 1.7 X-RAY DIFFRACTION 51 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 29 29 2b1f-a1-m1-cD_2b1f-a1-m1-cC 3ck4-a1-m1-cB_3ck4-a1-m1-cC 3ck4-a2-m1-cG_3ck4-a2-m1-cF 3ck4-a3-m1-cK_3ck4-a3-m1-cJ 3crp-a1-m1-cC_3crp-a1-m1-cB 3crp-a2-m2-cE_3crp-a2-m3-cE VKQLEDAVEELLSANYHLENAVARLKKLV VKQLEDAVEELLSANYHLENAVARLKKLV 3crp-a2-m3-cE_3crp-a2-m4-cE A heterospecific leucine zipper tetramer P03069 P03069 1.7 X-RAY DIFFRACTION 40 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 29 29 2b1f-a1-m1-cC_2b1f-a1-m1-cB 2b1f-a1-m1-cD_2b1f-a1-m1-cA 2b22-a1-m1-cA_2b22-a1-m4-cA 2b22-a1-m2-cA_2b22-a1-m3-cA 3crp-a2-m1-cE_3crp-a2-m2-cE VKQLEDAVEELLSANYHLENAVARLKKLV VKQLEDAVEELLSANYHLENAVARLKKLV 3cry-a1-m1-cA_3cry-a1-m1-cB Gamma-glutamyl cyclotransferase O75223 O75223 1.7 X-RAY DIFFRACTION 53 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 169 169 2pn7-a1-m1-cA_2pn7-a1-m1-cB 2rbh-a1-m1-cA_2rbh-a1-m1-cB EESFLYFAYGSNLLTERIHLRNPSAAFFCVARLQDFKLDFGNSQGKTSQTWHGGIATIFQSPGDEVWGVVWKMNKSNLNSLDEQQGVKSGMYVVIEVKVATQEGKEITCRSYLMTNYESAPPSPQYKKIICMGAKENGLPLEYQEKLKAIEPNDYTGKVSEEIEDIIKK ESFLYFAYGSNLLTERIHLRNPSAAFFCVARLQDFKLDFGNSQGKTSQTWHGGIATIFQSPGDEVWGVVWKMNKSNLNSLDEQQGVKSGMYVVIEVKVATQEGKEITCRSYLMTNYESAPPSPQYKKIICMGAKENGLPLEYQEKLKAIEPNDYTGKVSEEIEDIIKKG 3cs3-a1-m1-cA_3cs3-a1-m2-cA Crystal structure of sugar-binding transcriptional regulator (LacI family) from Enterococcus faecalis Q835X8 Q835X8 2.4 X-RAY DIFFRACTION 62 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 266 266 KRRQTNIIGVYLADYGGSFYGELLEGIKKGLALFDYEMIVCSGKKSHLFIPEKMVDGAIILDWTFPTKEIEKFAERGHSIVVLDRTTEHRNIRQVLLDNRGGATQAIEQFVNVGSKKVLLLSGPEKGYDSQERLAVSTRELTRFGIPYEIIQGDFTEPSGYAAAKKILSQPQTEPVDVFAFNDEMAIGVYKYVAETNYQMGKDIRIIGFDNSELGAFVQPRLATIAYSKHRWGMVAAEKIIHLMRGEAAESEHIYTRFIEGESFPS KRRQTNIIGVYLADYGGSFYGELLEGIKKGLALFDYEMIVCSGKKSHLFIPEKMVDGAIILDWTFPTKEIEKFAERGHSIVVLDRTTEHRNIRQVLLDNRGGATQAIEQFVNVGSKKVLLLSGPEKGYDSQERLAVSTRELTRFGIPYEIIQGDFTEPSGYAAAKKILSQPQTEPVDVFAFNDEMAIGVYKYVAETNYQMGKDIRIIGFDNSELGAFVQPRLATIAYSKHRWGMVAAEKIIHLMRGEAAESEHIYTRFIEGESFPS 3cs5-a2-m1-cC_3cs5-a2-m1-cD NblA protein from Synechococcus elongatus PCC 7942 P35087 P35087 2.2 X-RAY DIFFRACTION 78 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 48 48 3cs5-a1-m1-cA_3cs5-a1-m1-cB VEQQFDLQKYRQQVRDISREDLEDLFIEVVRQKMAHENIFKGMIRQGS VEQQFDLQKYRQQVRDISREDLEDLFIEVVRQKMAHENIFKGMIRQGS 3csm-a2-m1-cA_3csm-a2-m2-cA STRUCTURE OF YEAST CHORISMATE MUTASE WITH BOUND TRP AND AN ENDOOXABICYCLIC INHIBITOR P32178 P32178 3 X-RAY DIFFRACTION 81 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 252 252 1csm-a1-m1-cA_1csm-a1-m1-cB 2csm-a1-m1-cA_2csm-a1-m2-cA 3csm-a3-m1-cB_3csm-a3-m3-cB 4csm-a2-m1-cB_4csm-a2-m2-cB 4csm-a3-m1-cA_4csm-a3-m3-cA 5csm-a1-m1-cA_5csm-a1-m2-cA MDFTKPETVLNLQNIRDELVRMEDSIIFKFIERSHFATCPSVYEANHPGLEIPNFKGSFLDWALSNLEIAHSRIRRFESPDETPFFPDKIQKSFLPSINYPQILAPYAPEVNYNDKIKKVYIEKIIPLISKRDGDDKNNFGSVATRDIECLQSLSRRIHFGKFVAEAKFQSDIPLYTKLIKSKDVEGIMKNITNSAVEEKILERLTKKAEVYGVDPTERRITPEYLVKIYKEIVIPITKEVEVEYLLRRLEE MDFTKPETVLNLQNIRDELVRMEDSIIFKFIERSHFATCPSVYEANHPGLEIPNFKGSFLDWALSNLEIAHSRIRRFESPDETPFFPDKIQKSFLPSINYPQILAPYAPEVNYNDKIKKVYIEKIIPLISKRDGDDKNNFGSVATRDIECLQSLSRRIHFGKFVAEAKFQSDIPLYTKLIKSKDVEGIMKNITNSAVEEKILERLTKKAEVYGVDPTERRITPEYLVKIYKEIVIPITKEVEVEYLLRRLEE 3csv-a1-m1-cA_3csv-a1-m2-cA Crystal structure of a putative aminoglycoside phosphotransferase (YP_614837.1) from Silicibacter sp. TM1040 at 2.15 A resolution Q1GCP1 Q1GCP1 2.15 X-RAY DIFFRACTION 49 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 316 316 SREDEIRDFLATHGYADWNRTPRYQRLRSPTGAKAVLDWSPEEGGDTQPFVDLAQYLRNLDISAPEIYAEEHARGLLLIEDLGDALFTEVINNDPAQEPLYRAAVDLLIHLHDAQTPELARLDPETLSETRLAFSEYRYAILGDAAEDNRKRFEHRFAQILSAQLEGDVFVHRDFHAQNLLWLPEREGLARVGVIDFQDAKLGHRAYDLVSLLQDARRDVPAQVEAQIDHYIQATGVDESHFRSAYAVIAVQRNRILGIFARLSQRFGKRHYIEFVPRVWAHFERGLAHPALASAAEEILNALPAPAPEVLERLRA SREDEIRDFLATHGYADWNRTPRYQRLRSPTGAKAVLDWSPEEGGDTQPFVDLAQYLRNLDISAPEIYAEEHARGLLLIEDLGDALFTEVINNDPAQEPLYRAAVDLLIHLHDAQTPELARLDPETLSETRLAFSEYRYAILGDAAEDNRKRFEHRFAQILSAQLEGDVFVHRDFHAQNLLWLPEREGLARVGVIDFQDAKLGHRAYDLVSLLQDARRDVPAQVEAQIDHYIQATGVDESHFRSAYAVIAVQRNRILGIFARLSQRFGKRHYIEFVPRVWAHFERGLAHPALASAAEEILNALPAPAPEVLERLRA 3csw-a2-m3-cD_3csw-a2-m1-cC Crystal structure of a putative branched-chain amino acid aminotransferase (TM0831) from Thermotoga maritima at 2.15 A resolution P74921 P74921 2.15 X-RAY DIFFRACTION 35 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 272 273 3csw-a1-m1-cA_3csw-a1-m2-cB 3csw-a1-m1-cB_3csw-a1-m2-cA 3csw-a2-m1-cD_3csw-a2-m3-cC HVLIWWRGKFRRADEISLDFSLFEKSLQGAVYETLRTYSRAPFAAYKHYTRLKRSADFFNLPLSLSFDEFTKVLKAGADEFKQEVRIKVYLFPDSGEVLFVFSPLNIPDLETGVEVKISNVRRIPDLSTPPALKITGRTDIVLARREIVDCYDVILLGLNGQVCEGSFSNVFLVKEGKLITPSLDSGILDGITRENVIKLAKSLEIPVEERVVWVWELFEADEFLTHTSAGVVPVRRLNEHSFFEEEPGPVTATLENFEPFVLNLEENWVGI HHVLIWWRGKFRRADEISLDFSLFEKSLQGAVYETLRTYSRAPFAAYKHYTRLKRSADFFNLPLSLSFDEFTKVLKAGADEFKQEVRIKVYLFPDSGEVLFVFSPLNIPDLETGVEVKISNVRRIPDLSTPPALKITGRTDIVLARREIVDCYDVILLGLNGQVCEGSFSNVFLVKEGKLITPSLDSGILDGITRENVIKLAKSLEIPVEERVVWVWELFEADEFLTHTSAGVVPVRRLNEHSFFEEEPGPVTATLENFEPFVLNLEENWVGI 3csw-a2-m3-cD_3csw-a2-m3-cC Crystal structure of a putative branched-chain amino acid aminotransferase (TM0831) from Thermotoga maritima at 2.15 A resolution P74921 P74921 2.15 X-RAY DIFFRACTION 128 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 272 273 3csw-a1-m1-cA_3csw-a1-m1-cB 3csw-a1-m2-cA_3csw-a1-m2-cB 3csw-a2-m1-cD_3csw-a2-m1-cC HVLIWWRGKFRRADEISLDFSLFEKSLQGAVYETLRTYSRAPFAAYKHYTRLKRSADFFNLPLSLSFDEFTKVLKAGADEFKQEVRIKVYLFPDSGEVLFVFSPLNIPDLETGVEVKISNVRRIPDLSTPPALKITGRTDIVLARREIVDCYDVILLGLNGQVCEGSFSNVFLVKEGKLITPSLDSGILDGITRENVIKLAKSLEIPVEERVVWVWELFEADEFLTHTSAGVVPVRRLNEHSFFEEEPGPVTATLENFEPFVLNLEENWVGI HHVLIWWRGKFRRADEISLDFSLFEKSLQGAVYETLRTYSRAPFAAYKHYTRLKRSADFFNLPLSLSFDEFTKVLKAGADEFKQEVRIKVYLFPDSGEVLFVFSPLNIPDLETGVEVKISNVRRIPDLSTPPALKITGRTDIVLARREIVDCYDVILLGLNGQVCEGSFSNVFLVKEGKLITPSLDSGILDGITRENVIKLAKSLEIPVEERVVWVWELFEADEFLTHTSAGVVPVRRLNEHSFFEEEPGPVTATLENFEPFVLNLEENWVGI 3csx-a1-m1-cA_3csx-a1-m1-cB Structural characterization of a protein in the DUF683 family- crystal structure of cce_0567 from the cyanobacterium Cyanothece 51142. A1KYE3 A1KYE3 1.84 X-RAY DIFFRACTION 12 1.0 43989 (Crocosphaera subtropica ATCC 51142) 43989 (Crocosphaera subtropica ATCC 51142) 61 71 ADLKKKVRKLNSKAGQMKMDLHDLAEGLPTDYENLVETAEKTYEIFRELDQLKKKLNIWEE TDNNPTPEAVADLKKKVRKLNSKAGQMKMDLHDLAEGLPTDYENLVETAEKTYEIFRELDQLKKKLNIWEE 3csx-a2-m2-cA_3csx-a2-m1-cB Structural characterization of a protein in the DUF683 family- crystal structure of cce_0567 from the cyanobacterium Cyanothece 51142. A1KYE3 A1KYE3 1.84 X-RAY DIFFRACTION 72 1.0 43989 (Crocosphaera subtropica ATCC 51142) 43989 (Crocosphaera subtropica ATCC 51142) 61 71 ADLKKKVRKLNSKAGQMKMDLHDLAEGLPTDYENLVETAEKTYEIFRELDQLKKKLNIWEE TDNNPTPEAVADLKKKVRKLNSKAGQMKMDLHDLAEGLPTDYENLVETAEKTYEIFRELDQLKKKLNIWEE 3ct4-a3-m1-cC_3ct4-a3-m4-cC Structure of Dha-kinase subunit DhaK from L. Lactis Q9CIV8 Q9CIV8 2.498 X-RAY DIFFRACTION 17 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 318 318 EKIINQPQDVVSEMLDGLTYAYGDLIEKVPDFEIIQRKSPKSGKVALVSGGGSGHEPAHAGFVGEGMLSAAVCGAIFTSPTPDQIYEAIKSADEGAGVLLIIKNYLGDVMNFEMAREMAEMEEIKVEQIIVDDDIAVENSLYTQGRRGVAGTVLVHKILGAAAHQEASLDEIKDLADKVVKNIKTIGLALSAATVPDNEIEYGVGIHSEPGYRREKMKTSYELATELVGKLKEEFKFEAGQKYGILVNGMGATPLMEQFIFMNDVAKLLTEENIEILFKKVGNYMTSIDMAGLSLTMIKLEDDQWLKNLNEDVKTISW EKIINQPQDVVSEMLDGLTYAYGDLIEKVPDFEIIQRKSPKSGKVALVSGGGSGHEPAHAGFVGEGMLSAAVCGAIFTSPTPDQIYEAIKSADEGAGVLLIIKNYLGDVMNFEMAREMAEMEEIKVEQIIVDDDIAVENSLYTQGRRGVAGTVLVHKILGAAAHQEASLDEIKDLADKVVKNIKTIGLALSAATVPDNEIEYGVGIHSEPGYRREKMKTSYELATELVGKLKEEFKFEAGQKYGILVNGMGATPLMEQFIFMNDVAKLLTEENIEILFKKVGNYMTSIDMAGLSLTMIKLEDDQWLKNLNEDVKTISW 3ct4-a4-m3-cB_3ct4-a4-m3-cC Structure of Dha-kinase subunit DhaK from L. Lactis Q9CIV8 Q9CIV8 2.498 X-RAY DIFFRACTION 30 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 318 318 3ct4-a1-m1-cA_3ct4-a1-m2-cA 3ct4-a4-m1-cB_3ct4-a4-m1-cC EKIINQPQDVVSEMLDGLTYAYGDLIEKVPDFEIIQRKSPKSGKVALVSGGGSGHEPAHAGFVGEGMLSAAVCGAIFTSPTPDQIYEAIKSADEGAGVLLIIKNYLGDVMNFEMAREMAEMEEIKVEQIIVDDDIAVENSLYTQGRRGVAGTVLVHKILGAAAHQEASLDEIKDLADKVVKNIKTIGLALSAATVPDNEIEYGVGIHSEPGYRREKMKTSYELATELVGKLKEEFKFEAGQKYGILVNGMGATPLMEQFIFMNDVAKLLTEENIEILFKKVGNYMTSIDMAGLSLTMIKLEDDQWLKNLNEDVKTISW EKIINQPQDVVSEMLDGLTYAYGDLIEKVPDFEIIQRKSPKSGKVALVSGGGSGHEPAHAGFVGEGMLSAAVCGAIFTSPTPDQIYEAIKSADEGAGVLLIIKNYLGDVMNFEMAREMAEMEEIKVEQIIVDDDIAVENSLYTQGRRGVAGTVLVHKILGAAAHQEASLDEIKDLADKVVKNIKTIGLALSAATVPDNEIEYGVGIHSEPGYRREKMKTSYELATELVGKLKEEFKFEAGQKYGILVNGMGATPLMEQFIFMNDVAKLLTEENIEILFKKVGNYMTSIDMAGLSLTMIKLEDDQWLKNLNEDVKTISW 3ct4-a4-m3-cC_3ct4-a4-m6-cA Structure of Dha-kinase subunit DhaK from L. Lactis Q9CIV8 Q9CIV8 2.498 X-RAY DIFFRACTION 162 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 318 318 3ct4-a2-m1-cB_3ct4-a2-m3-cB 3ct4-a4-m1-cB_3ct4-a4-m3-cB 3ct4-a4-m1-cC_3ct4-a4-m5-cA EKIINQPQDVVSEMLDGLTYAYGDLIEKVPDFEIIQRKSPKSGKVALVSGGGSGHEPAHAGFVGEGMLSAAVCGAIFTSPTPDQIYEAIKSADEGAGVLLIIKNYLGDVMNFEMAREMAEMEEIKVEQIIVDDDIAVENSLYTQGRRGVAGTVLVHKILGAAAHQEASLDEIKDLADKVVKNIKTIGLALSAATVPDNEIEYGVGIHSEPGYRREKMKTSYELATELVGKLKEEFKFEAGQKYGILVNGMGATPLMEQFIFMNDVAKLLTEENIEILFKKVGNYMTSIDMAGLSLTMIKLEDDQWLKNLNEDVKTISW EKIINQPQDVVSEMLDGLTYAYGDLIEKVPDFEIIQRKSPKSGKVALVSGGGSGHEPAHAGFVGEGMLSAAVCGAIFTSPTPDQIYEAIKSADEGAGVLLIIKNYLGDVMNFEMAREMAEMEEIKVEQIIVDDDIAVENSLYTQGRRGVAGTVLVHKILGAAAHQEASLDEIKDLADKVVKNIKTIGLALSAATVPDNEIEYGVGIHSEPGYRREKMKTSYELATELVGKLKEEFKFEAGQKYGILVNGMGATPLMEQFIFMNDVAKLLTEENIEILFKKVGNYMTSIDMAGLSLTMIKLEDDQWLKNLNEDVKTISW 3ct6-a1-m1-cB_3ct6-a1-m1-cA Crystal structure of DhaM of L. lactis Q9CIV6 Q9CIV6 1.1 X-RAY DIFFRACTION 91 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 128 130 3cr3-a1-m1-cC_3cr3-a1-m1-cD MTYGIVIVSHSPEIASGLKKLIREVAKNISLTAIGGLENGEIGTSFDRVMNAIEENEADNLLTFFDLGSARMNLDLVSEMTDKELTIFNVPLIEGAYTASALLEAGATFEAIKEQLEKMLIEKRSHHH MTYGIVIVSHSPEIASGLKKLIREVAKNISLTAIGGLENGEIGTSFDRVMNAIEENEADNLLTFFDLGSARMNLDLVSEMTDKELTIFNVPLIEGAYTASALLEAGATFEAIKEQLEKMLIEKRSHHHHH 3ct8-a1-m1-cA_3ct8-a1-m2-cA Crystal structure of a putative glyoxalase (NP_243026.1) from Bacillus halodurans at 2.10 A resolution Q9KAX6 Q9KAX6 2.1 X-RAY DIFFRACTION 155 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 132 132 NLYFQGLHHVEINVDHLEESIAFWDWLLGELGYEDYQSWSRGKSYKHGKTYLVFVQTEDRFQTPTFHRKRTGLNHLAFHAASREKVDELTQKLKERGDPILYEDRHPFAGGPNHYAVFCEDPNRIKVEIVAP NLYFQGLHHVEINVDHLEESIAFWDWLLGELGYEDYQSWSRGKSYKHGKTYLVFVQTEDRFQTPTFHRKRTGLNHLAFHAASREKVDELTQKLKERGDPILYEDRHPFAGGPNHYAVFCEDPNRIKVEIVAP 3ct9-a1-m1-cA_3ct9-a1-m1-cB Crystal structure of a putative zinc peptidase (NP_812461.1) from Bacteroides thetaiotaomicron VPI-5482 at 2.31 A resolution Q8A1V9 Q8A1V9 2.31 X-RAY DIFFRACTION 103 0.994 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 337 338 YDIPTTAEAVSLLKSLISIPSISREETQAADFLQNYIEAEGQTGRKGNNVWCLSPFDLKKPTILLNSHIDTVKPVFTPREENGKLYGLGSNDAGASVVSLLQVFLQLCRTSQNYNLIYLASCEEEVSGKEGIESVLPGLPPVSFAIVGEPTEQPAIAEKGLVLDVTATGKAGHAARDEGDNAIYKVLNDIAWFRDYRFEKESPLLGPVKSVTVINAGTQHNVVPDKCTFVVDIRSNELYSNEDLFAEIRKHIACDAKARSFRLNSSRIDEKHPFVQKAVKGRIPFGSPTLSDQALSFASVKIGPGRSSRSHTAEEYILKEIEEAIGIYLDLLDGLKL YDIPTTAEAVSLLKSLISIPSISREETQAADFLQNYIEAEGQTGRKGNNVWCLSPFDKPTILLNSHIDTVKPVKDPFTPREENGKLYGLGSNDAGASVVSLLQVFLQLCRTSQNYNLIYLASCEEEVSGKEGIESVLPGLPPVSFAIVGEPTEQPAIAEKGLVLDVTATGKAGHAARDEGDNAIYKVLNDIAWFRDYRFEKESPLLGPVKSVTVINAGTQHNVVPDKCTFVVDIRSNELYSNEDLFAEIRKHIACDAKARSFRLNSSRIDEKHPFVQKAVKGRIPFGSPTLSDQALSFASVKIGPGRSSRSHTAEEYILKEIEEAIGIYLDLLDGLKL 3cta-a1-m1-cA_3cta-a1-m2-cA Crystal structure of riboflavin kinase from Thermoplasma acidophilum Q9HJA6 Q9HJA6 2.2 X-RAY DIFFRACTION 52 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 187 187 DQYYRAIKKIKEAAEASNRAYLTSSKLADMLGISQQSASRIIIDLEKNGYITRTVTKRGQILNITEKGLDVLYTEFADLSRILAIKNNVVITGTVTSQYIIQFQEKLGIIPYLNIKVDQASLPELRKIRGFRGIHIEGFKTRTFGSVKAFPAKIQNIPCFVIMPERTVYTDVIEIISDDRVSVEVYT DQYYRAIKKIKEAAEASNRAYLTSSKLADMLGISQQSASRIIIDLEKNGYITRTVTKRGQILNITEKGLDVLYTEFADLSRILAIKNNVVITGTVTSQYIIQFQEKLGIIPYLNIKVDQASLPELRKIRGFRGIHIEGFKTRTFGSVKAFPAKIQNIPCFVIMPERTVYTDVIEIISDDRVSVEVYT 3ctd-a1-m2-cA_3ctd-a1-m2-cB Crystal structure of a putative AAA family ATPase from Prochlorococcus marinus subsp. pastoris Q7V3J8 Q7V3J8 2.5 X-RAY DIFFRACTION 148 0.993 59919 (Prochlorococcus marinus subsp. pastoris str. CCMP1986) 59919 (Prochlorococcus marinus subsp. pastoris str. CCMP1986) 150 158 3ctd-a1-m1-cA_3ctd-a1-m1-cB 3ctd-a1-m1-cA_3ctd-a1-m2-cB 3ctd-a1-m2-cA_3ctd-a1-m1-cB NHFDVISAFIKSIRGSDPDATLYWLANMVEAGEDPNFIFRRLLISACEDIGLADPNAIVVVQSCCDAFDRVGFPEGLFFLSQASLYLAISPKSNSTKSIFKAMEAIKLVPNHLKNNASNYLNPHNYLQQEYLPTDLIKFWKPKGWEKNKY HFDVISAFIKSIRGSDPDATLYWLANMVEAGEDPNFIFRRLLISACEDIGLADPNAIVVVQSCCDAFDRVGFPEGLFFLSQASLYLAISPKSNSTKSIFKAMEAIKSLVPNHLKNNASNYLNPHNYQGKWLQQEYLPTDLQGIKFWKPKGWEKNKYED 3ctl-a1-m1-cE_3ctl-a1-m1-cF Crystal structure of D-Allulose 6-Phosphate 3-Epimerase from Escherichia coli K12 complexed with D-glucitol 6-phosphate and magnesium P32719 P32719 2.2 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 219 219 3ct7-a1-m1-cA_3ct7-a1-m1-cC 3ct7-a1-m1-cA_3ct7-a1-m1-cE 3ct7-a1-m1-cB_3ct7-a1-m1-cD 3ct7-a1-m1-cB_3ct7-a1-m1-cF 3ct7-a1-m1-cC_3ct7-a1-m1-cE 3ct7-a1-m1-cD_3ct7-a1-m1-cF 3ctl-a1-m1-cA_3ctl-a1-m1-cE 3ctl-a1-m1-cA_3ctl-a1-m1-cF 3ctl-a1-m1-cB_3ctl-a1-m1-cC 3ctl-a1-m1-cB_3ctl-a1-m1-cD 3ctl-a1-m1-cC_3ctl-a1-m1-cD MKISPSLMCMDLLKFKEQIEFIDSHADYFHIDIMDGHFVPNLTLSPFFVSQVKKLATKPLDCHLMVTRPQDYIAQLARAGADFITLHPETINGQAFRLIDEIRRHDMKVGLILNPETPVEAMKYYIHKADKITVMTVDPGFAGQPFIPEMLDKLAELKAWREREGLEYEIEVDGSCNQATYEKLMAAGADVFIVGTSGLFNHAENIDEAWRIMTAQILA MKISPSLMCMDLLKFKEQIEFIDSHADYFHIDIMDGHFVPNLTLSPFFVSQVKKLATKPLDCHLMVTRPQDYIAQLARAGADFITLHPETINGQAFRLIDEIRRHDMKVGLILNPETPVEAMKYYIHKADKITVMTVDPGFAGQPFIPEMLDKLAELKAWREREGLEYEIEVDGSCNQATYEKLMAAGADVFIVGTSGLFNHAENIDEAWRIMTAQILA 3ctl-a4-m1-cA_3ctl-a4-m1-cC Crystal structure of D-Allulose 6-Phosphate 3-Epimerase from Escherichia coli K12 complexed with D-glucitol 6-phosphate and magnesium P32719 P32719 2.2 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 219 219 3ct7-a1-m1-cA_3ct7-a1-m1-cF 3ct7-a1-m1-cB_3ct7-a1-m1-cE 3ct7-a1-m1-cC_3ct7-a1-m1-cD 3ct7-a2-m1-cB_3ct7-a2-m1-cE 3ct7-a3-m1-cA_3ct7-a3-m1-cF 3ct7-a4-m1-cC_3ct7-a4-m1-cD 3ctl-a1-m1-cA_3ctl-a1-m1-cC 3ctl-a1-m1-cB_3ctl-a1-m1-cE 3ctl-a1-m1-cD_3ctl-a1-m1-cF 3ctl-a2-m1-cD_3ctl-a2-m1-cF 3ctl-a3-m1-cB_3ctl-a3-m1-cE MKISPSLMCMDLLKFKEQIEFIDSHADYFHIDIMDGHFVPNLTLSPFFVSQVKKLATKPLDCHLMVTRPQDYIAQLARAGADFITLHPETINGQAFRLIDEIRRHDMKVGLILNPETPVEAMKYYIHKADKITVMTVDPGFAGQPFIPEMLDKLAELKAWREREGLEYEIEVDGSCNQATYEKLMAAGADVFIVGTSGLFNHAENIDEAWRIMTAQILA MKISPSLMCMDLLKFKEQIEFIDSHADYFHIDIMDGHFVPNLTLSPFFVSQVKKLATKPLDCHLMVTRPQDYIAQLARAGADFITLHPETINGQAFRLIDEIRRHDMKVGLILNPETPVEAMKYYIHKADKITVMTVDPGFAGQPFIPEMLDKLAELKAWREREGLEYEIEVDGSCNQATYEKLMAAGADVFIVGTSGLFNHAENIDEAWRIMTAQILA 3ctm-a2-m1-cF_3ctm-a2-m1-cH Crystal Structure of a Carbonyl Reductase from Candida Parapsilosis with anti-Prelog Stereo-specificity B2KJ46 B2KJ46 2.69 X-RAY DIFFRACTION 23 0.996 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 268 269 3ctm-a1-m1-cC_3ctm-a1-m1-cB EIESYNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPENKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCPL EIESYNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCPLE 3cto-a5-m1-cD_3cto-a5-m5-cC Crystal Structure of M. tuberculosis YefM antitoxin P9WF25 P9WF25 2.5 X-RAY DIFFRACTION 17 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 65 86 3cto-a3-m3-cD_3cto-a3-m1-cC SISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAV MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELREM 3cto-a6-m5-cA_3cto-a6-m1-cB Crystal Structure of M. tuberculosis YefM antitoxin P9WF25 P9WF25 2.5 X-RAY DIFFRACTION 11 0.985 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 68 83 3cto-a13-m5-cA_3cto-a13-m1-cB 3cto-a3-m1-cA_3cto-a3-m3-cB MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVAR SISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELR 3cto-a7-m1-cA_3cto-a7-m1-cB Crystal Structure of M. tuberculosis YefM antitoxin P9WF25 P9WF25 2.5 X-RAY DIFFRACTION 90 0.985 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 68 83 3cto-a10-m1-cA_3cto-a10-m1-cB 3cto-a1-m1-cA_3cto-a1-m1-cB 3cto-a1-m1-cD_3cto-a1-m1-cC 3cto-a4-m1-cA_3cto-a4-m1-cB 3cto-a4-m1-cD_3cto-a4-m1-cC 3cto-a5-m1-cA_3cto-a5-m1-cB 3cto-a6-m1-cD_3cto-a6-m1-cC 3cto-a9-m1-cD_3cto-a9-m1-cC 3d55-a1-m1-cA_3d55-a1-m1-cB 3d55-a3-m1-cA_3d55-a3-m1-cB MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVAR SISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELR 3cto-a7-m1-cD_3cto-a7-m1-cA Crystal Structure of M. tuberculosis YefM antitoxin P9WF25 P9WF25 2.5 X-RAY DIFFRACTION 10 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 65 68 3cto-a1-m1-cB_3cto-a1-m1-cC 3cto-a1-m1-cD_3cto-a1-m1-cA 3cto-a4-m1-cB_3cto-a4-m1-cC 3cto-a4-m1-cD_3cto-a4-m1-cA 3cto-a5-m1-cD_3cto-a5-m1-cA 3cto-a6-m1-cB_3cto-a6-m1-cC 3d55-a1-m1-cB_3d55-a1-m1-cC 3d55-a3-m1-cB_3d55-a3-m1-cC SISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAV MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVAR 3ctp-a1-m1-cA_3ctp-a1-m1-cB Crystal structure of periplasmic binding protein/LacI transcriptional regulator from Alkaliphilus metalliredigens QYMF complexed with D-xylulofuranose A6TKU5 A6TKU5 1.41 X-RAY DIFFRACTION 88 1.0 293826 (Alkaliphilus metalliredigens QYMF) 293826 (Alkaliphilus metalliredigens QYMF) 266 266 SKTIGLMVPNISNPFFNQMASVIEEYAKNKGYTLFLCNTDDDKEKEKTYLEVLQSHRVAGIIASRSQCEDEYANIDIPVVAFENHILDNIITISSDNYNGGRMAFDHLYEKGCRKILHIKGPEVFEATELRYKGFLDGARAKDLEIDFIEFQHDFQVKMLEEDINSMKDIVNYDGIFVFNDIAAATVMRALKKRGVSIPQEVQIIGFDNSFIGELLYPSLTTINQPIEALAYTIIELLIKIINGEGVLIEDYIMEVKLIERETTIS SKTIGLMVPNISNPFFNQMASVIEEYAKNKGYTLFLCNTDDDKEKEKTYLEVLQSHRVAGIIASRSQCEDEYANIDIPVVAFENHILDNIITISSDNYNGGRMAFDHLYEKGCRKILHIKGPEVFEATELRYKGFLDGARAKDLEIDFIEFQHDFQVKMLEEDINSMKDIVNYDGIFVFNDIAAATVMRALKKRGVSIPQEVQIIGFDNSFIGELLYPSLTTINQPIEALAYTIIELLIKIINGEGVLIEDYIMEVKLIERETTIS 3ctr-a2-m1-cA_3ctr-a2-m4-cA Crystal structure of the RRM-domain of the poly(A)-specific ribonuclease PARN bound to m7GTP O95453 O95453 2.1 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 3ctr-a2-m2-cA_3ctr-a2-m3-cA GPLGSDHVLHVTFPKEWKTSDLYQLFSAFGNIQISWIDDTSAFVSLSQPEQVKIAVNTSKYAESYRIQTYAEYMG GPLGSDHVLHVTFPKEWKTSDLYQLFSAFGNIQISWIDDTSAFVSLSQPEQVKIAVNTSKYAESYRIQTYAEYMG 3ctr-a2-m2-cA_3ctr-a2-m4-cA Crystal structure of the RRM-domain of the poly(A)-specific ribonuclease PARN bound to m7GTP O95453 O95453 2.1 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 3ctr-a2-m1-cA_3ctr-a2-m3-cA GPLGSDHVLHVTFPKEWKTSDLYQLFSAFGNIQISWIDDTSAFVSLSQPEQVKIAVNTSKYAESYRIQTYAEYMG GPLGSDHVLHVTFPKEWKTSDLYQLFSAFGNIQISWIDDTSAFVSLSQPEQVKIAVNTSKYAESYRIQTYAEYMG 3ctr-a2-m3-cA_3ctr-a2-m4-cA Crystal structure of the RRM-domain of the poly(A)-specific ribonuclease PARN bound to m7GTP O95453 O95453 2.1 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 3ctr-a2-m1-cA_3ctr-a2-m2-cA GPLGSDHVLHVTFPKEWKTSDLYQLFSAFGNIQISWIDDTSAFVSLSQPEQVKIAVNTSKYAESYRIQTYAEYMG GPLGSDHVLHVTFPKEWKTSDLYQLFSAFGNIQISWIDDTSAFVSLSQPEQVKIAVNTSKYAESYRIQTYAEYMG 3ctv-a1-m1-cA_3ctv-a1-m2-cA Crystal structure of central domain of 3-hydroxyacyl-CoA dehydrogenase from Archaeoglobus fulgidus O28011 O28011 2.46 X-RAY DIFFRACTION 58 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 90 90 KINPDFTFVEINEAVKLVEGVATPQDIDTAIKLGLNRPFGPFELAKQFGAEQIAKRLEELAKQFGKKIFEPAKTLKEGKLEELLKAGKAE KINPDFTFVEINEAVKLVEGVATPQDIDTAIKLGLNRPFGPFELAKQFGAEQIAKRLEELAKQFGKKIFEPAKTLKEGKLEELLKAGKAE 3cty-a1-m1-cA_3cty-a1-m1-cB Crystal structure of T. acidophilum thioredoxin reductase Q9HJI4 Q9HJI4 2.35 X-RAY DIFFRACTION 110 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 304 305 ERDFDVVIVGAGAAGFSAAVYAARSGFSVAILDKAVAGGLTAEAPLVENYLGFKSIVGSELAKLFADHAANYAKIREGVEVRSIKKTQGGFDIETNDDTYHAKYVIITTGTTHKHLGVKGESEYFGKGTSYCSTCDGYLFKGKRVVTIGGGNSGAIAAISMSEYVKNVTIIEYMPKYMCENAYVQEIKKRNIPYIMNAQVTEIVGDGKKVTGVKYKDRTTGEEKLIETDGVFIYVGLIPQTSFLKDSGVKLDERGYIVVDSRQRTSVPGVYAAGDVTSGNFAQIASAVGDGCKAALSLYSDSIS KERDFDVVIVGAGAAGFSAAVYAARSGFSVAILDKAVAGGLTAEAPLVENYLGFKSIVGSELAKLFADHAANYAKIREGVEVRSIKKTQGGFDIETNDDTYHAKYVIITTGTTHKHLGVKGESEYFGKGTSYCSTCDGYLFKGKRVVTIGGGNSGAIAAISMSEYVKNVTIIEYMPKYMCENAYVQEIKKRNIPYIMNAQVTEIVGDGKKVTGVKYKDRTTGEEKLIETDGVFIYVGLIPQTSFLKDSGVKLDERGYIVVDSRQRTSVPGVYAAGDVTSGNFAQIASAVGDGCKAALSLYSDSIS 3ctz-a1-m1-cA_3ctz-a1-m2-cA Structure of human cytosolic X-prolyl aminopeptidase Q9NQW7 Q9NQW7 1.6 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 617 617 PKVTSELLRQLRQAMRNSEYVTEPIQAYIIPSGDAHQSEYIAPCDCRRAFVSGFDGSAGTAIITEEHAAMWTDGRYFLQAAKQMDSNWTLMKMGLKDTPTQEDWLVSVLPEGSRVGVDPLIIPTDYWKKMAKVLRSAGHHLIPVKENLVDKIWTDRPERPCKPLLTLGLDYTGISWKDKVADLRLKMAERNVMWFVVTALDEIAWLFNLRGSDVEHNPVFFSYAIIGLETIMLFIDGDRIDAPSVKEHLLLDLGLEAEYRIQVHPYKSILSELKALCADLSPREKVWVSDKASYAVSETIPKDHRCCMPYTPICIAKAVKNSAESEGMRRAHIKDAVALCELFNWLEKEVPKGGVTEISAADKAEEFRRQQADFVDLSFPTISSTGPTGAIIHYAPVPETNRTLSLDEVYLIDSGAQYKDGTTDVTRTMHFETPTAYEKECFTYVLKGHIAVSAAVFPTGTKGHLLDSFARSALWDSGLDYLHGTGHGVGSFLNVHEGPCGISYKTFSDEPLEAGMIVTDEPGYYEDGAFGIRIENVVLVVPVKTKYNFNNRGSLTLEPLTLVPIQTKMIDVDSLTDKECDWLNNYHLTCRDVIGKELQKQGRQEALEWLIRETQPI PKVTSELLRQLRQAMRNSEYVTEPIQAYIIPSGDAHQSEYIAPCDCRRAFVSGFDGSAGTAIITEEHAAMWTDGRYFLQAAKQMDSNWTLMKMGLKDTPTQEDWLVSVLPEGSRVGVDPLIIPTDYWKKMAKVLRSAGHHLIPVKENLVDKIWTDRPERPCKPLLTLGLDYTGISWKDKVADLRLKMAERNVMWFVVTALDEIAWLFNLRGSDVEHNPVFFSYAIIGLETIMLFIDGDRIDAPSVKEHLLLDLGLEAEYRIQVHPYKSILSELKALCADLSPREKVWVSDKASYAVSETIPKDHRCCMPYTPICIAKAVKNSAESEGMRRAHIKDAVALCELFNWLEKEVPKGGVTEISAADKAEEFRRQQADFVDLSFPTISSTGPTGAIIHYAPVPETNRTLSLDEVYLIDSGAQYKDGTTDVTRTMHFETPTAYEKECFTYVLKGHIAVSAAVFPTGTKGHLLDSFARSALWDSGLDYLHGTGHGVGSFLNVHEGPCGISYKTFSDEPLEAGMIVTDEPGYYEDGAFGIRIENVVLVVPVKTKYNFNNRGSLTLEPLTLVPIQTKMIDVDSLTDKECDWLNNYHLTCRDVIGKELQKQGRQEALEWLIRETQPI 3cu0-a1-m1-cB_3cu0-a1-m1-cA human beta 1,3-glucuronyltransferase I (GlcAT-I) in complex with UDP and GAL-GAL(6-SO4)-XYL(2-PO4)-O-SER O94766 O94766 1.9 X-RAY DIFFRACTION 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 247 250 1fgg-a1-m1-cB_1fgg-a1-m1-cA 1kws-a1-m1-cB_1kws-a1-m1-cA MTIYVVTPTYARLVQKAELVRLSQTLSLVPRLHWLLVEDAEGPTPLVSGLLAASGLLFTHLVVLTPPRGVEQRNKALDWLRGRGGAVGGEKDPPPPGTQGVVYFADDDNTYSRELFEEMRWTRGVSVWPVGLVGGLRFEGPQVQDGRVVGFHTAWEPSRPFPVDMAGFAVALPLLLDKPNAQFDSTAPRGHLESSLLSHLVDPKDLEPRAANCTRVLVWHTRTEKPKMKQEEQLQRQGRGSDPAIEV MTIYVVTPTYARLVQKAELVRLSQTLSLVPRLHWLLVEDAEGPTPLVSGLLAASGLLFTHLVVLTPWVHPRGVEQRNKALDWLRGRGGAVGGEKDPPPPGTQGVVYFADDDNTYSRELFEEMRWTRGVSVWPVGLVGGLRFEGPQVQDGRVVGFHTAWEPSRPFPVDMAGFAVALPLLLDKPNAQFDSTAPRGHLESSLLSHLVDPKDLEPRAANCTRVLVWHTRTEKPKMKQEEQLQRQGRGSDPAIEV 3cu2-a1-m1-cA_3cu2-a1-m1-cB Crystal structure of ribulose-5-phosphate 3-epimerase (YP_718263.1) from Haemophilus somnus 129PT at 1.91 A resolution Q0I165 Q0I165 1.91 X-RAY DIFFRACTION 63 1.0 205914 (Histophilus somni 129PT) 205914 (Histophilus somni 129PT) 232 232 SKLSLIQQLKQQKLSVGILSANWLQLNEEVTTLLENQINVLHFDIADGQFSSLFTVGAIGIKYFPTHCFKDVHLVRNQLEVAKAVVANGANLVTLQLEQYHDFALTIEWLAKQKTTYANQVYPVLIGACLCPETPISELEPYLDQIDVIQLLTLDPRNGTKYPSELILDRVIQVEKRLGNRRVEKLINIDGSTLELAKYFKQGTHQIDWLVSGSALFSGELKTNLKVWKSSI SKLSLIQQLKQQKLSVGILSANWLQLNEEVTTLLENQINVLHFDIADGQFSSLFTVGAIGIKYFPTHCFKDVHLVRNQLEVAKAVVANGANLVTLQLEQYHDFALTIEWLAKQKTTYANQVYPVLIGACLCPETPISELEPYLDQIDVIQLLTLDPRNGTKYPSELILDRVIQVEKRLGNRRVEKLINIDGSTLELAKYFKQGTHQIDWLVSGSALFSGELKTNLKVWKSSI 3cu3-a1-m1-cA_3cu3-a1-m2-cA Crystal structure of a domain of unknown function with a cystatin-like fold (npun_r1993) from nostoc punctiforme pcc 73102 at 2.00 A resolution D0VWT9 D0VWT9 2 X-RAY DIFFRACTION 142 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 160 160 TTTADESAIRAFHRQIDAWNRGSGEGFAAPFSETADFITFEGTHLKGRKEIAAFHQQAFDTVVKGTRLEGEVDFVRFVNSQLALLVVIRVILPGQTETSASRDSLPLYVVTKGDEGWQIEGLLNTRKLTLERQFFLDDFDSLSAEAQRQVTDLVASLKQS TTTADESAIRAFHRQIDAWNRGSGEGFAAPFSETADFITFEGTHLKGRKEIAAFHQQAFDTVVKGTRLEGEVDFVRFVNSQLALLVVIRVILPGQTETSASRDSLPLYVVTKGDEGWQIEGLLNTRKLTLERQFFLDDFDSLSAEAQRQVTDLVASLKQS 3cu5-a1-m1-cA_3cu5-a1-m1-cB Crystal structure of a two component transcriptional regulator AraC from Clostridium phytofermentans ISDg A9KIW7 A9KIW7 2.6 X-RAY DIFFRACTION 49 0.992 357809 (Lachnoclostridium phytofermentans ISDg) 357809 (Lachnoclostridium phytofermentans ISDg) 124 129 SLRILIVDDEKLTRDGLIANINWKALSFDQIDQADDGINAIQIALKHPPNVLLTDVRMPRMDGIELVDNILKLYPDCSVIFMSGYSDKEYLRAIRYVEKPIDPSEIMDALKQSIQTVLQHQAQQ SLRILIVDDEKLTRDGLIANINWKALSFDQIDQADDGINAIQIALKHPPNVLLTDVRMPRMDGIELVDNILKLYPDCSVIFMSGYSDKEYLKAAIKFRAIRYVEKPIDPSEIMDALKQSIQTVLQHQAQ 3cu7-a3-m1-cB_3cu7-a3-m1-cA Human Complement Component 5 P01031 P01031 3.105 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1481 1625 EQTYVISAPKIFRVGASENIVIQVYGYTEAFDATISIKSYPDKKFSYSSGHVHLSSENKFQNSAILTIQPKQLPGGQNPVSYVYLEVVSKHFSKSKRMPITYDNGFLFIHTDKPVYTPDQSVKVRVYSLNDDLKPAKRETVLTFIDPEGSEVDMVEEIDHIGIISFPDFKIPSNPRYGMWTIKAKYKEDFSTTGTAYFEVKEYVLPHFSVSIEPEYNFIGYKNFKNFEITIKARYFYNKVVTEADVYITFGIREDLKDDQKEMMQTAMQNTMLINGIAQVTFDSETAVKELSYYSLEDLNNKYLYIAVTVIESTGGFSEEAEIPGIKYVLSPYKLNLVATPLFLKPGIPYPIKVQVKDSLDQLVGGVPVTLNAQTIDVNQETSDLDPSKSVTRVDDGVASFVLNLPSGVTVLEFNVKTDAPDLPEENQAREGYRAIAYSSLSQSYLYIDWTDNHKALLVGEHLNIIVTPKSPYIDKITHYNYLILSKGKIIHFGTREKFSDASYQSINIPVTQNMVPSSRLLVYYIVTGEQTAELVSDSVWLNIEEKCGNQLQVHLSPDADAYSPGQTVSLNMATGMDSWVALAAVDSAVYGVQRGAKKPLERVFQFLEKSDLGCGAGGGLNNANVFHLAGLTFLTNANADDSQENDEPCKEILLQKKIEEIAAKYKHSVVKKCCYDGACVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANISLGRLHMKTLLPVSKPEIRSYFPESWLWEVHLVPRRKQLQFALPDSLTTWEIQGIGISNTGICVADTVKAKVFKDVFLEMNIPYSVVRGEQIQLKGTVYNYRTSGMQFCVKMSAVEGICTSESPKCVRQKVEGSSSHLVTFTVLPLEIGLHNINFSLETWFGKEILVKTLRVVPEGVKRESYSGVTLDPRGIYGTISRRKEFPYRIPLDLVPKTEIKRILSVKGLLVGEILSAVLSQEGINILTHLPKGSAEAELMSVVPVFYVFHYLETGNHWNIFHSDPLIEKQKLKKKLKEGMLSIMSYRNADYSYSVWKGGSASTWLTAFALRVLGQVNKYVEQNQNSICNSLLWLVENYQLDNGSFKENSQYQPIKLQGTLPVEARENSLYLTAFTVIGIRKAFDICPLVKIDTALIKADNFLLENTLPAQSTFTLAISAYALSLGDKTHPQFRSIVSALKREALVKGNPPIYRFWKDNLQHKDSSVPNTGTARMVETTAYALLTSLNLKDINYVNPVIKWLSEEQRYGGGFYSTQDTINAIEGLTEYSLLVKQLRLSMDIDVSYKHKGALHNYKMTDKNFLGRPVEVLLNDDLIVSTGFGSGLATVHVTTVVHKTSTSEEVCSFYLKIDTQDIYKRIVACASYKPSREESSSGSSHAVMDISLPTGISANEEDLKALVEGVDQLFTDYQIKDGHVILQLNSIPSSDFLCVRFRIFELFEVGFLSPATFTVYEYHRPDKQCTMFYSTSNIKIQKVCEGAACKCVEADC EQTYVISAPKIFRVGASENIVIQVYGYTEAFDATISIKSYPDKKFSYSSGHVHLSSENKFQNSAILTIQPKQLPGGQNPVSYVYLEVVSKHFSKSKRMPITYDNGFLFIHTDKPVYTPDQSVKVRVYSLNDDLKPAKRETVLTFIDPEGSEVDMVEEIDHIGIISFPDFKIPSNPRYGMWTIKAKYKEDFSTTGTAYFEVKEYVLPHFSVSIEPEYNFIGYKNFKNFEITIKARYFYNKVVTEADVYITFGIREDLKDDQKEMMQTAMQNTMLINGIAQVTFDSETAVKELSYYSLEDLNNKYLYIAVTVIESTGGFSEEAEIPGIKYVLSPYKLNLVATPLFLKPGIPYPIKVQVKDSLDQLVGGVPVTLNAQTIDVNQETSDLDPSKSVTRVDDGVASFVLNLPSGVTVLEFNVKTDAPDLPEENQAREGYRAIAYSSLSQSYLYIDWTDNHKALLVGEHLNIIVTPKSPYIDKITHYNYLILSKGKIIHFGTREKFSDASYQSINIPVTQNMVPSSRLLVYYIVTGEQTAELVSDSVWLNIEEKCGNQLQVHLSPDADAYSPGQTVSLNMATGMDSWVALAAVDSAVYGVQRGAKKPLERVFQFLEKSDLGCGAGGGLNNANVFHLAGLTFLTNANADDSQENDEPCKEILLQKKIEEIAAKYKHSVVKKCCYDGACVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANISLGRLHMKTLLPVSKPEIRSYFPESWLWEVHLVPRRKQLQFALPDSLTTWEIQGIGISNTGICVADTVKAKVFKDVFLEMNIPYSVVRGEQIQLKGTVYNYRTSGMQFCVKMSAVEGICTSESPKCVRQKVEGSSSHLVTFTVLPLEIGLHNINFSLETWFGKEILVKTLRVVPEGVKRESYSGVTLDPRGIYGTISRRKEFPYRIPLDLVPKTEIKRILSVKGLLVGEILSAVLSQEGINILTHLPKGSAEAELMSVVPVFYVFHYLETGNHWNIFHSDPLIEKQKLKKKLKEGMLSIMSYRNADYSYSVWKGGSASTWLTAFALRVLGQVNKYVEQNQNSICNSLLWLVENYQLDNGSFKENSQYQPIKLQGTLPVEARENSLYLTAFTVIGIRKAFDICPLVKIDTALIKADNFLLENTLPAQSTFTLAISAYALSLGDKTHPQFRSIVSALKREALVKGNPPIYRFWKDNLQHKDSSVPNTGTARMVETTAYALLTSLNLKDINYVNPVIKWLSEEQRYGGGFYSTQDTINAIEGLTEYSLLVKQLRLSMDIDVSYKHKGALHNYKMTDKNFLGRPVEVLLNDDLIVSTGFGSGLATVHVTTVVHKTSTSEEVCSFYLKIDTQDIYKRIVACASYKPSREESSSGSSHAVMDISLPTGISANEEDLKALVEGVDQLFTDYQIKDGHVILQLNSIPSSDFLCVRFRIFELFEVGFLSPATFTVYEYHRPDKQCTMFYSTSNIKIQKVCEGAACKCVEADCGQMQEELDLTISAETRKQTACKPEIAYAYKVSITSITVENVFVKYKATLLDIYKTGEAVAEKDSEITFIKKVTCTNAELVKGRQYLIMGKEALQIKYNFSFRYIYPLDSLTWIEYWPRDTTCSSCQAFLANLDEFAEDIFLNGC 3cu9-a2-m1-cA_3cu9-a2-m2-cA High resolution crystal structure of 1,5-alpha-L-arabinanase from Geobacillus Stearothermophilus B3EYM8 B3EYM8 1.06 X-RAY DIFFRACTION 72 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 314 314 3d5y-a2-m1-cA_3d5y-a2-m2-cA 3d60-a2-m1-cA_3d60-a2-m2-cA 3d61-a2-m1-cA_3d61-a2-m2-cA VHFHPFGNVNFYEMDWSLKGDLWAHDPVIAKEGSRWYVFHTGSGIQIKTSEDGVHWENMGWVFPSLPDWYKQYVPEKDEDHLWAPDICFYNGIYYLYYSVSTFGKNTSVIGLATNQTLDPRDPDYEWKDMGPVIHSTASDNYNAIDPNVVFDQEGQPWLSFGSFWSGIQLIQLDTETMKPAAQAELLTIASRGEEPNAIEAPFIVCRNGYYYLFVSFDFCCRGIESTYKIAVGRSKDITGPYVDKNGVSMMQGGGTILDEGNDRWIGPGHCAVYFSGVSAILVNHAYDALKNGEPTLQIRPLYWDDEGWPYLSV VHFHPFGNVNFYEMDWSLKGDLWAHDPVIAKEGSRWYVFHTGSGIQIKTSEDGVHWENMGWVFPSLPDWYKQYVPEKDEDHLWAPDICFYNGIYYLYYSVSTFGKNTSVIGLATNQTLDPRDPDYEWKDMGPVIHSTASDNYNAIDPNVVFDQEGQPWLSFGSFWSGIQLIQLDTETMKPAAQAELLTIASRGEEPNAIEAPFIVCRNGYYYLFVSFDFCCRGIESTYKIAVGRSKDITGPYVDKNGVSMMQGGGTILDEGNDRWIGPGHCAVYFSGVSAILVNHAYDALKNGEPTLQIRPLYWDDEGWPYLSV 3cuo-a2-m1-cD_3cuo-a2-m1-cC Crystal structure of the predicted DNA-binding transcriptional regulator from E. coli P77295 P77295 2 X-RAY DIFFRACTION 94 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 94 95 3cuo-a1-m1-cA_3cuo-a1-m1-cB ELAQLQASAEQAAALLKAMSHPKRLLILCMLSGSPGTSAGELTRITGLSASATSQHLARMRDEGLIDSQRDAQRILYSIKNEAVNAIIATLKNV ELAQLQASAEQAAALLKAMSHPKRLLILCMLSGSPGTSAGELTRITGLSASATSQHLARMRDEGLIDSQRDAQRILYSIKNEAVNAIIATLKNVY 3cve-a1-m1-cD_3cve-a1-m1-cA Crystal Structure of the carboxy terminus of Homer1 Q9Z214 Q9Z214 1.75 X-RAY DIFFRACTION 27 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 66 3cve-a1-m1-cB_3cve-a1-m1-cC LQEVEIRNKDLEGQLSEEQRLEKSQSEQDAFRSNLKTLLEILDGKIFELTELRDNLAKLL HNSHKLQEVEIRNKDLEGQLSEEQRLEKSQSEQDAFRSNLKTLLEILDGKIFELTELRDNLAKLLE 3cve-a1-m1-cD_3cve-a1-m1-cB Crystal Structure of the carboxy terminus of Homer1 Q9Z214 Q9Z214 1.75 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 64 3cve-a1-m1-cC_3cve-a1-m1-cA LQEVEIRNKDLEGQLSEEQRLEKSQSEQDAFRSNLKTLLEILDGKIFELTELRDNLAKLL SHKLQEVEIRNKDLEGQLSEEQRLEKSQSEQDAFRSNLKTLLEILDGKIFELTELRDNLAKLLE 3cve-a3-m1-cD_3cve-a3-m1-cC Crystal Structure of the carboxy terminus of Homer1 Q9Z214 Q9Z214 1.75 X-RAY DIFFRACTION 36 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 64 3cve-a1-m1-cB_3cve-a1-m1-cA 3cve-a1-m1-cD_3cve-a1-m1-cC 3cve-a2-m1-cB_3cve-a2-m1-cA LQEVEIRNKDLEGQLSEEQRLEKSQSEQDAFRSNLKTLLEILDGKIFELTELRDNLAKLL SHKLQEVEIRNKDLEGQLSEEQRLEKSQSEQDAFRSNLKTLLEILDGKIFELTELRDNLAKLLE 3cvf-a1-m1-cA_3cvf-a1-m1-cD Crystal Structure of the carboxy terminus of Homer3 Q9NSC5 Q9NSC5 2.9 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 71 3cvf-a1-m1-cB_3cvf-a1-m1-cC ETQQKVQDLETRNAELEHQLRAERSLEEARAERERARAEVGRAAQLLDVSLFELSELREGLARLAEAAP REETQQKVQDLETRNAELEHQLRAERSLEEARAERERARAEVGRAAQLLDVSLFELSELREGLARLAEAAP 3cvf-a1-m1-cB_3cvf-a1-m1-cD Crystal Structure of the carboxy terminus of Homer3 Q9NSC5 Q9NSC5 2.9 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 71 3cvf-a1-m1-cA_3cvf-a1-m1-cC ETQQKVQDLETRNAELEHQLRAERSLEEARAERERARAEVGRAAQLLDVSLFELSELREGLARLAEAAP REETQQKVQDLETRNAELEHQLRAERSLEEARAERERARAEVGRAAQLLDVSLFELSELREGLARLAEAAP 3cvf-a3-m1-cA_3cvf-a3-m1-cB Crystal Structure of the carboxy terminus of Homer3 Q9NSC5 Q9NSC5 2.9 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 3cvf-a1-m1-cA_3cvf-a1-m1-cB 3cvf-a1-m1-cD_3cvf-a1-m1-cC 3cvf-a2-m1-cD_3cvf-a2-m1-cC ETQQKVQDLETRNAELEHQLRAERSLEEARAERERARAEVGRAAQLLDVSLFELSELREGLARLAEAAP ETQQKVQDLETRNAELEHQLRAERSLEEARAERERARAEVGRAAQLLDVSLFELSELREGLARLAEAAP 3cvg-a5-m1-cC_3cvg-a5-m1-cD Crystal structure of a periplasmic putative metal binding protein J3KFC8 J3KFC8 1.97 X-RAY DIFFRACTION 22 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 202 263 3cvg-a5-m1-cA_3cvg-a5-m1-cB ITYSPVAERISIKHGISESPSYYAFRDHFLIGPPSNPAKLSGDSDIADFSKHDAAEAGNTKPPVRFLSRYDKSATNIKEAELWLSIGQVPWATAYSTWYHQYITFPIQALTAAILLREYTITDYGTYLSIPRGLRDQVIYKKGTNDADDPLLNPAHLLVGARAKNAEAKEFAKWLVSKEGGQKVIEGFKKDGQQLYSPAPYR VYDGPVQLRIGNGGAGQSGLVKELADAFIKSKVDSGFKVAWYKSDTTVTINYLKDGIVDVGITYSPVAERISIKHGISESPSYYAFRDHFLIGPPSNPAKLSGDSDIADFSKHDAAEAGNTKPPVRFLSRYDKSATNIKEAELWLSIGQVPWATAYSTWYHQYITFPIQALTAAILLREYTITDYGTYLSIPRGLRDQVIYKKGTNDADDPLLNPAHLLVGARAKNAEAKEFAKWLVSKEGGQKVIEGFKKDGQQLYSPAPYR 3cvg-a5-m1-cD_3cvg-a5-m1-cB Crystal structure of a periplasmic putative metal binding protein J3KFC8 J3KFC8 1.97 X-RAY DIFFRACTION 71 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 263 265 3cvg-a5-m1-cC_3cvg-a5-m1-cA VYDGPVQLRIGNGGAGQSGLVKELADAFIKSKVDSGFKVAWYKSDTTVTINYLKDGIVDVGITYSPVAERISIKHGISESPSYYAFRDHFLIGPPSNPAKLSGDSDIADFSKHDAAEAGNTKPPVRFLSRYDKSATNIKEAELWLSIGQVPWATAYSTWYHQYITFPIQALTAAILLREYTITDYGTYLSIPRGLRDQVIYKKGTNDADDPLLNPAHLLVGARAKNAEAKEFAKWLVSKEGGQKVIEGFKKDGQQLYSPAPYR EDVYDGPVQLRIGNGGAGQSGLVKELADAFIKSKVDSGFKVAWYKSDTTVTINYLKDGIVDVGITYSPVAERISIKHGISESPSYYAFRDHFLIGPPSNPAKLSGDSDIADFSKHDAAEAGNTKPPVRFLSRYDKSATNIKEAELWLSIGQVPWATAYSTWYHQYITFPIQALTAAILLREYTITDYGTYLSIPRGLRDQVIYKKGTNDADDPLLNPAHLLVGARAKNAEAKEFAKWLVSKEGGQKVIEGFKKDGQQLYSPAPYR 3cvj-a2-m1-cC_3cvj-a2-m1-cD Crystal structure of a putative phosphoheptose isomerase (bh3325) from bacillus halodurans c-125 at 2.00 A resolution Q9K7N6 Q9K7N6 2 X-RAY DIFFRACTION 230 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 234 234 3cvj-a1-m1-cA_3cvj-a1-m1-cB TSSFTDYCKFFNRILSEVQETQEQAIIKGAHLVSEAVNGGRFYVFGSGHSHIAEEIYNRAGGLALVTAILPPELLHERPNKSTYLERIEGLSKSYLKLHQVTNKDVIIISNSGRNTVPVEAIESRNIGAKVIATSKHSQKVTSRHKSGKKLYEYADVVLDNGAPVGDAGFQIANSEIYSGATSDSIGCFLAQALIVETLHLLVQQGFEPPVFKSSNVDGADLYNDKIFNEYVKW TSSFTDYCKFFNRILSEVQETQEQAIIKGAHLVSEAVNGGRFYVFGSGHSHIAEEIYNRAGGLALVTAILPPELLHERPNKSTYLERIEGLSKSYLKLHQVTNKDVIIISNSGRNTVPVEAIESRNIGAKVIATSKHSQKVTSRHKSGKKLYEYADVVLDNGAPVGDAGFQIANSEIYSGATSDSIGCFLAQALIVETLHLLVQQGFEPPVFKSSNVDGADLYNDKIFNEYVKW 3cvo-a2-m1-cC_3cvo-a2-m1-cD Crystal structure of a methyltransferase-like protein (spo2022) from silicibacter pomeroyi dss-3 at 1.80 A resolution Q5LRV1 Q5LRV1 1.8 X-RAY DIFFRACTION 48 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 186 186 3cvo-a1-m1-cA_3cvo-a1-m1-cB QRPELTPPAEAEALRAYEEAEVILEYGSGGSTVVAAELPGKHVTSVESDRAWARKAWLAANPPAEGTEVNIVWTDIGPTGDWGHPVSDAKWRSYPDYPLAVWRTEGFRHPDVVLVDGRFRVGCALATAFSITRPVTLLFDDYSQRRWQHQVEEFLGAPLIGRLAAFQVEPQPIPPGSLQLIRTTSP QRPELTPPAEAEALRAYEEAEVILEYGSGGSTVVAAELPGKHVTSVESDRAWARKAWLAANPPAEGTEVNIVWTDIGPTGDWGHPVSDAKWRSYPDYPLAVWRTEGFRHPDVVLVDGRFRVGCALATAFSITRPVTLLFDDYSQRRWQHQVEEFLGAPLIGRLAAFQVEPQPIPPGSLQLIRTTSP 3cvr-a2-m1-cA_3cvr-a2-m2-cA Crystal structure of the full length IpaH3 Q83RJ4 Q83RJ4 2.8 X-RAY DIFFRACTION 69 1.0 198214 (Shigella flexneri 2a str. 301) 198214 (Shigella flexneri 2a str. 301) 469 469 TYADYFSAWDKWEKQALPGENRNEAVSLLKECLINQFSELQLNRLNLSSLPDNLPPQITVLEITQNALISLPELPASLEYLDACDNRLSTLPELPASLKHLDVDNNQLTLPELPALLEYINADNNQLTLPELPTSLEVLSVRNNQLTFLPELPESLEALDVSTNLLESLPAVPTEIFFRCRENRITHIPENILSLDPTCTIILEDNPLSSRIRESLSQQTAQPDPRIYFSPLADAVTAWFPDVSQIWHAFEHEEHANTFSAFLDRLSDTVSARNTSGFREQVAAWLEKLSASAELRQQSFAVAADATESCEDRVALTWNNLRKTLLVHQASEGLFDNDTGALLSLGREFRLEILEDIARDKVRTLHFVDEIEVYLAFQTLAEKLQLSTAVKERFYGVSGVTANDLRTAEAVRSREENEFTDWFSLWGPWHAVLKRTEADRWALAEEQKYRETEQQIYRQLTDEVLALRL TYADYFSAWDKWEKQALPGENRNEAVSLLKECLINQFSELQLNRLNLSSLPDNLPPQITVLEITQNALISLPELPASLEYLDACDNRLSTLPELPASLKHLDVDNNQLTLPELPALLEYINADNNQLTLPELPTSLEVLSVRNNQLTFLPELPESLEALDVSTNLLESLPAVPTEIFFRCRENRITHIPENILSLDPTCTIILEDNPLSSRIRESLSQQTAQPDPRIYFSPLADAVTAWFPDVSQIWHAFEHEEHANTFSAFLDRLSDTVSARNTSGFREQVAAWLEKLSASAELRQQSFAVAADATESCEDRVALTWNNLRKTLLVHQASEGLFDNDTGALLSLGREFRLEILEDIARDKVRTLHFVDEIEVYLAFQTLAEKLQLSTAVKERFYGVSGVTANDLRTAEAVRSREENEFTDWFSLWGPWHAVLKRTEADRWALAEEQKYRETEQQIYRQLTDEVLALRL 3cwc-a1-m1-cA_3cwc-a1-m1-cB Crystal structure of putative glycerate kinase 2 from Salmonella typhimurium LT2 Q8ZME0 Q8ZME0 2.23 X-RAY DIFFRACTION 73 0.997 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 362 367 AKIVIAPDSYKESLSALEVATAIEQGFREIWPDADYLKLPLADGGEGTVEAVEATAGRIVHVEVTGPLGHRVNAFYGLSGDARSAFIEAAASGLEQVPPAQRDPLKTTSWGTGELIRHALDAGVEHIIIGIGGSATNDGGAGVQALGARLRDAQGNDIAQGGIGLETLASIDISGLDKRLSACHIEVACDVTNPLTGKEGASAVFGPQKGATPEIERLDTALTRYAHLIARDLHVDVLDLAGGGAAGGGAALYAFCGAQLRRGIEIVTDALHLEACLADADLVITGEGRIDSGKVPIGVANIAKRYNKPVIGIAGSLTHGLDAVFSVIYTICTLEDALKNASENVRTARNVAATLKAGQQLR NAKIVIAPDSYKESLSALEVATAIEQGFREIWPDADYLKLPLADGGEGTVEAVEATAGRIVHVEVTGPLGHRVNAFYGLSGDARSAFIEAAASGLEQVPPAQRDPLKTTSWGTGELIRHALDAGVEHIIIGIGGSATNDGGAGVQALGARLRDAQGNDIAQGGIGLETLASIDISGLDKRLSACHIEVACDVTNPLTGKEGASAVFGPQKGATPEIERLDTALTRYAHLIARDLHVDVLDLAGGGAAGGGAALYAFCGAQLRRGIEIVTDALHLEACLADADLVITGEGRIDSQTIHGKVPIGVANIAKRYNKPVIGIAGSLTAHGLDAVFSVIYTICTLEDALKNASENVRTARNVAATLKAGQQL 3cwf-a1-m1-cA_3cwf-a1-m1-cB Crystal structure of PAS domain of two-component sensor histidine kinase P23545 P23545 2.2 X-RAY DIFFRACTION 33 0.991 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 108 108 TSDQRKAEEHIEKEAKYLASLLDAGNLNNQANEKIIKDAGGALDVSASVIDTDGKVLYGSNGRSADSQKVQALVSGHEGILSTDNKLYYGLSLRSEGEKTGYVLLSAS TSDQRKAEEHIEKEAKYLASLLDAGNLNNQANEKIIKDAGGALDVSASVIDTDGKVLYGSNGRSADSQKVQALVSGHEGILSTTNKLYYGLSLRSEGEKTGYVLLSAS 3cwo-a1-m1-cX_3cwo-a1-m2-cX A beta/alpha-barrel built by the combination of fragments from different folds Q9X0C6 Q9X0C6 3.1 X-RAY DIFFRACTION 38 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 236 236 GKRVLIVDDATNGREAVEKYKELKPDIVTMDITMPEMNGIDAIKEIMKIDPNAKIIVCSAMGQQAMVIEAIKAGAKDFIVNTAAVENPSLITQIAQTFGSQAVVVAIDAKRVDGEFMVFTYSGKKNTGILLRDWVVEVEKRGAGEILLTSIDRDGTKSGYDTEMIRFVRPLTTLPIIASGGAGKMEHFLEAFLAGADAALAASVFHFREIDVRELKEYLKKHGVNVRLEGLLEHHH GKRVLIVDDATNGREAVEKYKELKPDIVTMDITMPEMNGIDAIKEIMKIDPNAKIIVCSAMGQQAMVIEAIKAGAKDFIVNTAAVENPSLITQIAQTFGSQAVVVAIDAKRVDGEFMVFTYSGKKNTGILLRDWVVEVEKRGAGEILLTSIDRDGTKSGYDTEMIRFVRPLTTLPIIASGGAGKMEHFLEAFLAGADAALAASVFHFREIDVRELKEYLKKHGVNVRLEGLLEHHH 3cwq-a1-m1-cB_3cwq-a1-m1-cA Crystal structure of chromosome partitioning protein (ParA) in complex with ADP from Synechocystis sp. Northeast Structural Genomics Consortium Target SgR89 Q6YRW8 Q6YRW8 2.47 X-RAY DIFFRACTION 69 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 195 204 IITVASFKGGVGKTTTAVHLSAYLALQGETLLIDGDPNRSATGWGKRGSLPFKVVDERQAAKYAPKYQNIVIDTQARDLEALADGCDLLVIPSTPDALALDALLTIETLQKLGNNRFRILLTIIPPYPSKDGDEARQLLTTAGLPLFKRGIKRYSAFQKASLNGVVVSEVSDSKAGIAWSDYKATGKEIVEEILT IITVASFKGGVGKTTTAVHLSAYLALQGETLLIDGDPNRSATGWGKRGSLPFKVVDERQAAKYAPKYQNIVIDTQARPEDEDLEALADGCDLLVIPSTPDALALDALLTIETLQKLGNNRFRILLTIIPPYPSKDGDEARQLLTTAGLPLFKRGIKRYSAFQKASLNGVVVSEVSDSKAGIAWSDYKATGKEIVEEILTLEHHH 3cwr-a1-m2-cB_3cwr-a1-m1-cA Crystal structure of transcriptional regulator of TetR family (YP_425770.1) from Rhodospirillum rubrum ATCC 11170 at 1.50 A resolution Q2RWL2 Q2RWL2 1.5 X-RAY DIFFRACTION 97 0.995 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 187 190 VPDAVVRESIVGAAQRLLSSGGAAATEGVASEAGIAKKTLYRFASGRADLIGLLVESWIAPIFPEADPQDAAAALERIVYDIAQAVLSREAVSLFRLASDADLRNRFLPAYNANGIERSRRELARWLDQQASAGRLPLPIPAERVADLLLSAVIAEPLRQITLGLREPLPAWDIAPRVADAVRLIAP PAVPDAVVRESIVGAAQRLLSSGGAAATEGVASEAGIAKKTLYRFASGRADLIGLLVESWIAPIFPGFEADPQDAAAALERIVYDIAQAVLSREAVSLFRLASDADLRNRFLPAYNANGIERSRRELARWLDQQASAGRLPLPIPAERVADLLLSAVIAEPLRQITLGLREPLPAWDIAPRVADAVRLIA 3cwt-a1-m1-cB_3cwt-a1-m1-cC Crystal Structure of an AlkA Host/Guest Complex 2'-fluoro-2'-deoxyinosine:Adenine Base Pair P04395 P04395 2.3 X-RAY DIFFRACTION 96 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 281 282 3cvs-a1-m1-cA_3cvs-a1-m1-cD 3cvs-a1-m1-cB_3cvs-a1-m1-cC 3cvt-a1-m1-cA_3cvt-a1-m1-cD 3cvt-a1-m1-cB_3cvt-a1-m1-cC 3cw7-a1-m1-cA_3cw7-a1-m1-cD 3cw7-a1-m1-cB_3cw7-a1-m1-cC 3cwa-a1-m1-cA_3cwa-a1-m1-cD 3cwa-a1-m1-cB_3cwa-a1-m1-cC 3cws-a1-m1-cC_3cws-a1-m1-cB 3cws-a1-m1-cD_3cws-a1-m1-cA 3cwt-a1-m1-cD_3cwt-a1-m1-cA 3cwu-a1-m1-cA_3cwu-a1-m1-cD 3cwu-a1-m1-cB_3cwu-a1-m1-cC 3d4v-a1-m1-cC_3d4v-a1-m1-cB 3d4v-a1-m1-cD_3d4v-a1-m1-cA MYTLNWQPPYDWSWMLGFLAARAVSSVETVADSYYARSLAVGEYRGVVTAIPDIARHTLHINLSAGLEPVAAECLAKMSRLFDLQCNPQIVNGALGRLGAARPGLRLPGCVDAFEQGVRAILGQLVSVAMAAKLTARVAQLYGERLDDFPEYICFPTPQRLAAADPQALKALGMPLKRAEALIHLANAALEGTLPMTIPGDVEQAMKTLQTFPGIGRWTANYFALRGWQAKDVFLPDDYLIKQRFPGMTPAQIRRYAERWKPWRSYALLHIWYTEGWQPDE MYTLNWQPPYDWSWMLGFLAARAVSSVETVADSYYARSLAVGEYRGVVTAIPDIARHTLHINLSAGLEPVAAECLAKMSRLFDLQCNPQIVNGALGRLGAARPGLRLPGCVDAFEQGVRAILGQLVSVAMAAKLTARVAQLYGERLDDFPEYICFPTPQRLAAADPQALKALGMPLKRAEALIHLANAALEGTLPMTIPGDVEQAMKTLQTFPGIGRWTANYFALRGWQAKDVFLPDDYLIKQRFPGMTPAQIRRYAERWKPWRSYALLHIWYTEGWQPDEA 3cwx-a1-m1-cA_3cwx-a1-m1-cB Crystal structure of cagd from helicobacter pylori pathogenicity island P94837 P94837 2.3 X-RAY DIFFRACTION 51 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 122 122 3cwx-a2-m1-cC_3cwx-a2-m2-cC 3cwy-a1-m1-cA_3cwy-a1-m2-cA EVNPDIIKDEVFDFVIVNRVLKKIKDLKHYDPIEKIFEGLNVEIQINPEVKDFFTFKSISTTNKQRCFLSLRGETREILCDNKLYNLLAVFNSYDPNDLLKHISTVESLKKIFYTITCEAVY EVNPDIIKDEVFDFVIVNRVLKKIKDLKHYDPIEKIFEGLNVEIQINPEVKDFFTFKSISTTNKQRCFLSLRGETREILCDNKLYNLLAVFNSYDPNDLLKHISTVESLKKIFYTITCEAVY 3cxj-a1-m1-cB_3cxj-a1-m1-cC Crystal structure of an uncharacterized protein from Methanothermobacter thermautotrophicus O27461 O27461 2.8 X-RAY DIFFRACTION 31 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 138 138 3cxj-a1-m1-cA_3cxj-a1-m1-cB 3cxj-a1-m1-cA_3cxj-a1-m1-cD 3cxj-a1-m1-cC_3cxj-a1-m1-cD LSQEIKKWLDEEGFLREVPDENARFHYVVNYPEDHVIDIIQPAGKDDILIACATSVSPEHQAGIRALSEKRTEFIWKVRFTLNRFGVDFQLDHPENVLNSYLVTDEIFFDGLSKDRLISSIKNVFRAKLQVWIQERFG LSQEIKKWLDEEGFLREVPDENARFHYVVNYPEDHVIDIIQPAGKDDILIACATSVSPEHQAGIRALSEKRTEFIWKVRFTLNRFGVDFQLDHPENVLNSYLVTDEIFFDGLSKDRLISSIKNVFRAKLQVWIQERFG 3cxk-a1-m1-cA_3cxk-a1-m1-cB 1.7 A Crystal structure of methionine-R-sulfoxide reductase from Burkholderia pseudomallei: crystallization in a microfluidic crystal card. Q3JRF0 Q3JRF0 1.7 X-RAY DIFFRACTION 38 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 131 131 YPYPKDDAELRRRLTPMQYEVTQHAATEPPFTGEYTDTEDAGIYHCVVCGTALFESGAKYHSGCGWPSYFKPIDGEVIDEKMDYTHGMTRVEVRCNQCGAHLGHVFEDGPRDKTGLRYCINSAALNFEAKP YPYPKDDAELRRRLTPMQYEVTQHAATEPPFTGEYTDTEDAGIYHCVVCGTALFESGAKYHSGCGWPSYFKPIDGEVIDEKMDYTHGMTRVEVRCNQCGAHLGHVFEDGPRDKTGLRYCINSAALNFEAKP 3cxp-a1-m1-cA_3cxp-a1-m2-cA Crystal structure of human glucosamine 6-phosphate N-acetyltransferase 1 mutant E156A Q96EK6 Q96EK6 2.01 X-RAY DIFFRACTION 192 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 2huz-a1-m1-cA_2huz-a1-m1-cB 2o28-a1-m1-cB_2o28-a1-m1-cA 3cxq-a1-m1-cA_3cxq-a1-m2-cA 3cxs-a1-m1-cA_3cxs-a1-m2-cA MKPDETPMFDPSLLKEVDWSQNTATFSPAISPTHPGEGLVLRPLCTADLNRGFFKVLGQLTETGVVSPEQFMKSFEHMKKSGDYYVTVVEDVTLGQIVATATLIIEHKFIHSCAKRGRVEDVVVSDECRGKQLGKLLLSTLTLLSKKLNCYKITLACLPQNVGFYKKFGYTVSEENYMCRRFLK MKPDETPMFDPSLLKEVDWSQNTATFSPAISPTHPGEGLVLRPLCTADLNRGFFKVLGQLTETGVVSPEQFMKSFEHMKKSGDYYVTVVEDVTLGQIVATATLIIEHKFIHSCAKRGRVEDVVVSDECRGKQLGKLLLSTLTLLSKKLNCYKITLACLPQNVGFYKKFGYTVSEENYMCRRFLK 3cxz-a1-m1-cA_3cxz-a1-m2-cA Crystal structure of cytochrome P450 CYP121 R386L mutant from M. tuberculosis P9WPP7 P9WPP7 1.08 X-RAY DIFFRACTION 88 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 394 394 3cxv-a1-m1-cA_3cxv-a1-m2-cA 3cxx-a1-m1-cA_3cxx-a1-m2-cA 3cxy-a1-m1-cA_3cxy-a1-m2-cA 3cy0-a1-m1-cA_3cy0-a1-m2-cA 3cy1-a1-m1-cA_3cy1-a1-m2-cA 3g5f-a2-m1-cA_3g5f-a2-m2-cA 3g5h-a2-m1-cA_3g5h-a2-m2-cA 4g44-a2-m1-cA_4g44-a2-m2-cA 4g45-a2-m1-cA_4g45-a2-m2-cA 4g46-a2-m1-cA_4g46-a2-m2-cA 4g47-a2-m1-cA_4g47-a2-m2-cA 4g48-a2-m1-cA_4g48-a2-m2-cA 4ict-a1-m1-cA_4ict-a1-m2-cA 4ips-a2-m1-cA_4ips-a2-m2-cA 4ipw-a2-m1-cA_4ipw-a2-m2-cA 4iq7-a3-m1-cA_4iq7-a3-m3-cA 4iq9-a2-m1-cA_4iq9-a2-m2-cA ATVLLEVPFSARGDRIPDAVAELRTREPIRKVRTITGAEAWLVSSYALCTQVLEDRRFSMKETAAAGAPRLNALTVPPEVVNNMGNIADAGLRKAVMKAITPKAPGLEQFLRDTANSLLDNLITEGAPADLRNDFADPLATALHCKVLGIPQEDGPKLFRSLSIAFMSSADPIPAAKINWDRDIEYMAGILENPNITTGLMGELSRLRKDPAYSHVSDELFATIGVTFFGAGVISTGSFLTTALISLIQRPQLRNLLHEKPELIPAGVEELLRINLSFADGLPRLATADIQVGDVLVRKGELVLVLLEGANFDPEHFPNPGSIELDRPNPTSHLAFGRGQHFCPGSALGRRHAQIGIEALLKKMPGVDLAVPIDQLVWRTRFQLRIPERLPVLW ATVLLEVPFSARGDRIPDAVAELRTREPIRKVRTITGAEAWLVSSYALCTQVLEDRRFSMKETAAAGAPRLNALTVPPEVVNNMGNIADAGLRKAVMKAITPKAPGLEQFLRDTANSLLDNLITEGAPADLRNDFADPLATALHCKVLGIPQEDGPKLFRSLSIAFMSSADPIPAAKINWDRDIEYMAGILENPNITTGLMGELSRLRKDPAYSHVSDELFATIGVTFFGAGVISTGSFLTTALISLIQRPQLRNLLHEKPELIPAGVEELLRINLSFADGLPRLATADIQVGDVLVRKGELVLVLLEGANFDPEHFPNPGSIELDRPNPTSHLAFGRGQHFCPGSALGRRHAQIGIEALLKKMPGVDLAVPIDQLVWRTRFQLRIPERLPVLW 3cyj-a1-m1-cB_3cyj-a1-m2-cD Crystal structure of a mandelate racemase/muconate lactonizing enzyme-like protein from Rubrobacter xylanophilus Q1ASJ4 Q1ASJ4 2.3 X-RAY DIFFRACTION 87 1.0 266117 (Rubrobacter xylanophilus DSM 9941) 266117 (Rubrobacter xylanophilus DSM 9941) 359 359 3cyj-a1-m1-cA_3cyj-a1-m1-cC 3cyj-a1-m1-cD_3cyj-a1-m2-cB 3cyj-a1-m2-cA_3cyj-a1-m2-cC PRVERLEVSAYTVPTDYPESDGTLQWDSTTMILVEAHGGGRKGLGYTYGDVSVGRFVESKLAGVAEGSDALSPPAVWARMQAAIRNAGRPGVGAMAVSAVDIALWDLKARLLGLPLADALPRFHAEVPVYGSGGFTSYPLRRLQEQLGGWAAAGIPRVKMKVGREPEKDPERVRAAREAIGESVELMVDANGAYTRKQALYWAGAFAREAGISYLEEPVSSEDREGLRLLRDRGPGGVAIAAGEYEWTLPQLHDLAGCVDILQADVTRCGGITGLLRVDGICRGHQIPFSAHCAPAVSAHACCAVESLLHLEYFHDHARVERLLFDGTLDPEGGSLRPDPDRPGLGLELKRSEAGKYAA PRVERLEVSAYTVPTDYPESDGTLQWDSTTMILVEAHGGGRKGLGYTYGDVSVGRFVESKLAGVAEGSDALSPPAVWARMQAAIRNAGRPGVGAMAVSAVDIALWDLKARLLGLPLADALPRFHAEVPVYGSGGFTSYPLRRLQEQLGGWAAAGIPRVKMKVGREPEKDPERVRAAREAIGESVELMVDANGAYTRKQALYWAGAFAREAGISYLEEPVSSEDREGLRLLRDRGPGGVAIAAGEYEWTLPQLHDLAGCVDILQADVTRCGGITGLLRVDGICRGHQIPFSAHCAPAVSAHACCAVESLLHLEYFHDHARVERLLFDGTLDPEGGSLRPDPDRPGLGLELKRSEAGKYAA 3cyj-a1-m2-cA_3cyj-a1-m2-cD Crystal structure of a mandelate racemase/muconate lactonizing enzyme-like protein from Rubrobacter xylanophilus Q1ASJ4 Q1ASJ4 2.3 X-RAY DIFFRACTION 31 1.0 266117 (Rubrobacter xylanophilus DSM 9941) 266117 (Rubrobacter xylanophilus DSM 9941) 359 359 3cyj-a1-m1-cA_3cyj-a1-m1-cD 3cyj-a1-m1-cA_3cyj-a1-m2-cD 3cyj-a1-m1-cB_3cyj-a1-m1-cC 3cyj-a1-m1-cB_3cyj-a1-m2-cC 3cyj-a1-m1-cC_3cyj-a1-m2-cB 3cyj-a1-m1-cD_3cyj-a1-m2-cA 3cyj-a1-m2-cB_3cyj-a1-m2-cC PRVERLEVSAYTVPTDYPESDGTLQWDSTTMILVEAHGGGRKGLGYTYGDVSVGRFVESKLAGVAEGSDALSPPAVWARMQAAIRNAGRPGVGAMAVSAVDIALWDLKARLLGLPLADALPRFHAEVPVYGSGGFTSYPLRRLQEQLGGWAAAGIPRVKMKVGREPEKDPERVRAAREAIGESVELMVDANGAYTRKQALYWAGAFAREAGISYLEEPVSSEDREGLRLLRDRGPGGVAIAAGEYEWTLPQLHDLAGCVDILQADVTRCGGITGLLRVDGICRGHQIPFSAHCAPAVSAHACCAVESLLHLEYFHDHARVERLLFDGTLDPEGGSLRPDPDRPGLGLELKRSEAGKYAA PRVERLEVSAYTVPTDYPESDGTLQWDSTTMILVEAHGGGRKGLGYTYGDVSVGRFVESKLAGVAEGSDALSPPAVWARMQAAIRNAGRPGVGAMAVSAVDIALWDLKARLLGLPLADALPRFHAEVPVYGSGGFTSYPLRRLQEQLGGWAAAGIPRVKMKVGREPEKDPERVRAAREAIGESVELMVDANGAYTRKQALYWAGAFAREAGISYLEEPVSSEDREGLRLLRDRGPGGVAIAAGEYEWTLPQLHDLAGCVDILQADVTRCGGITGLLRVDGICRGHQIPFSAHCAPAVSAHACCAVESLLHLEYFHDHARVERLLFDGTLDPEGGSLRPDPDRPGLGLELKRSEAGKYAA 3cyj-a1-m2-cC_3cyj-a1-m2-cD Crystal structure of a mandelate racemase/muconate lactonizing enzyme-like protein from Rubrobacter xylanophilus Q1ASJ4 Q1ASJ4 2.3 X-RAY DIFFRACTION 93 1.0 266117 (Rubrobacter xylanophilus DSM 9941) 266117 (Rubrobacter xylanophilus DSM 9941) 359 359 3cyj-a1-m1-cA_3cyj-a1-m1-cB 3cyj-a1-m1-cC_3cyj-a1-m1-cD 3cyj-a1-m2-cA_3cyj-a1-m2-cB PRVERLEVSAYTVPTDYPESDGTLQWDSTTMILVEAHGGGRKGLGYTYGDVSVGRFVESKLAGVAEGSDALSPPAVWARMQAAIRNAGRPGVGAMAVSAVDIALWDLKARLLGLPLADALPRFHAEVPVYGSGGFTSYPLRRLQEQLGGWAAAGIPRVKMKVGREPEKDPERVRAAREAIGESVELMVDANGAYTRKQALYWAGAFAREAGISYLEEPVSSEDREGLRLLRDRGPGGVAIAAGEYEWTLPQLHDLAGCVDILQADVTRCGGITGLLRVDGICRGHQIPFSAHCAPAVSAHACCAVESLLHLEYFHDHARVERLLFDGTLDPEGGSLRPDPDRPGLGLELKRSEAGKYAA PRVERLEVSAYTVPTDYPESDGTLQWDSTTMILVEAHGGGRKGLGYTYGDVSVGRFVESKLAGVAEGSDALSPPAVWARMQAAIRNAGRPGVGAMAVSAVDIALWDLKARLLGLPLADALPRFHAEVPVYGSGGFTSYPLRRLQEQLGGWAAAGIPRVKMKVGREPEKDPERVRAAREAIGESVELMVDANGAYTRKQALYWAGAFAREAGISYLEEPVSSEDREGLRLLRDRGPGGVAIAAGEYEWTLPQLHDLAGCVDILQADVTRCGGITGLLRVDGICRGHQIPFSAHCAPAVSAHACCAVESLLHLEYFHDHARVERLLFDGTLDPEGGSLRPDPDRPGLGLELKRSEAGKYAA 3cyn-a4-m1-cB_3cyn-a4-m1-cC The structure of human GPX8 Q8TED1 Q8TED1 2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 176 3cyn-a4-m1-cA_3cyn-a4-m1-cC 3cyn-a4-m1-cB_3cyn-a4-m1-cA NLYFQSMINSFYAFEVKDAKGRTVSLEKYKGKVSLVVNVASDCQLTDRNYLGLKELHKEFGPSHFSVLAFPCNQFGESEPRPSKEVESFARKNYGVTFPIFHKIKILGSEGEPAFRFLVDSSKKEPRWNFWKYLVNPEGQVVKFWRPEEPIEVIRPDIAALVRQVIIKKKEDL GTENLYFQSMINSFYAFEVKDAKGRTVSLEKYKGKVSLVVNVASDCQLTDRNYLGLKELHKEFGPSHFSVLAFPCNQFGESEPRPSKEVESFARKNYGVTFPIFHKIKILGSEGEPAFRFLVDSSKKEPRWNFWKYLVNPEGQVVKFWRPEEPIEVIRPDIAALVRQVIIKKKEDL 3cyq-a11-m1-cO_3cyq-a11-m1-cN The crystal structure of the complex of the C-terminal domain of Helicobacter pylori MotB (residues 125-256) with N-acetylmuramic acid P56427 P56427 2.3 X-RAY DIFFRACTION 54 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 132 134 3cyp-a3-m1-cB_3cyp-a3-m1-cE 3cyp-a3-m1-cD_3cyp-a3-m1-cC 3cyq-a10-m1-cD_3cyq-a10-m1-cC 3cyq-a10-m1-cE_3cyq-a10-m1-cB 3cyq-a11-m1-cP_3cyq-a11-m1-cM 3cyq-a12-m1-cH_3cyq-a12-m1-cG 3cyq-a12-m1-cI_3cyq-a12-m1-cF 3cyq-a9-m1-cK_3cyq-a9-m1-cJ 3cyq-a9-m1-cL_3cyq-a9-m1-cA 3imp-a7-m1-cA_3imp-a7-m1-cH 3imp-a7-m1-cD_3imp-a7-m1-cC 3imp-a7-m1-cE_3imp-a7-m1-cB 3imp-a7-m1-cG_3imp-a7-m1-cF 3imp-a7-m1-cI_3imp-a7-m1-cL 3imp-a7-m1-cK_3imp-a7-m1-cJ GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNPH 3cyq-a6-m1-cH_3cyq-a6-m1-cI The crystal structure of the complex of the C-terminal domain of Helicobacter pylori MotB (residues 125-256) with N-acetylmuramic acid P56427 P56427 2.3 X-RAY DIFFRACTION 38 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 132 132 3cyp-a1-m1-cB_3cyp-a1-m1-cC 3cyp-a2-m1-cD_3cyp-a2-m1-cE 3cyp-a3-m1-cB_3cyp-a3-m1-cC 3cyp-a3-m1-cD_3cyp-a3-m1-cE 3cyq-a10-m1-cB_3cyq-a10-m1-cC 3cyq-a10-m1-cD_3cyq-a10-m1-cE 3cyq-a11-m1-cM_3cyq-a11-m1-cN 3cyq-a11-m1-cO_3cyq-a11-m1-cP 3cyq-a12-m1-cF_3cyq-a12-m1-cG 3cyq-a12-m1-cH_3cyq-a12-m1-cI 3cyq-a1-m1-cB_3cyq-a1-m1-cC 3cyq-a2-m1-cD_3cyq-a2-m1-cE 3cyq-a3-m1-cA_3cyq-a3-m1-cJ 3cyq-a4-m1-cM_3cyq-a4-m1-cN 3cyq-a5-m1-cO_3cyq-a5-m1-cP 3cyq-a7-m1-cF_3cyq-a7-m1-cG 3cyq-a8-m1-cK_3cyq-a8-m1-cL 3cyq-a9-m1-cA_3cyq-a9-m1-cJ 3cyq-a9-m1-cK_3cyq-a9-m1-cL 3imp-a1-m1-cB_3imp-a1-m1-cC 3imp-a2-m1-cD_3imp-a2-m1-cE 3imp-a3-m1-cA_3imp-a3-m1-cF 3imp-a4-m1-cG_3imp-a4-m1-cH 3imp-a5-m1-cI_3imp-a5-m1-cJ 3imp-a6-m1-cK_3imp-a6-m1-cL 3imp-a7-m1-cA_3imp-a7-m1-cF 3imp-a7-m1-cB_3imp-a7-m1-cC 3imp-a7-m1-cD_3imp-a7-m1-cE 3imp-a7-m1-cG_3imp-a7-m1-cH 3imp-a7-m1-cI_3imp-a7-m1-cJ 3imp-a7-m1-cK_3imp-a7-m1-cL GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN 3cyv-a1-m1-cA_3cyv-a1-m2-cA Crystal structure of uroporphyrinogen decarboxylase from Shigella flexineri: new insights into its catalytic mechanism Q83PB7 Q83PB7 2.8 X-RAY DIFFRACTION 77 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 352 352 ELKNDRYLRALLRQPVDVTPVWMMRQAGRYLPEYKATRAQAGDFMSLCKNAELACEVTLQPLRRYPLDAAILFSDILTVPDAMGLGLYFEAGEGPRFTSPVTCKADVDKLPIPDPEDELGYVMNAVRTIRHELKGEVPLIGFSGSPWTLATYMVEGGSSKAFTVIKKMMYADPQALHALLDKLAKSVTLYLNAQIKAGAQAVMIFDTWGGVLTGRDYQQFSLYYMHKIVDGLLRENDGRRVPVTLFTKGGGQWLEAMAETGCDALGLDWTTDIADARRRVGNKVALQGNMDPSMLYAPPARIEEEVATILAGFGHGEGHVFNLGHGIHQDVPPEHAGVFVEAVHRLSEQYHR ELKNDRYLRALLRQPVDVTPVWMMRQAGRYLPEYKATRAQAGDFMSLCKNAELACEVTLQPLRRYPLDAAILFSDILTVPDAMGLGLYFEAGEGPRFTSPVTCKADVDKLPIPDPEDELGYVMNAVRTIRHELKGEVPLIGFSGSPWTLATYMVEGGSSKAFTVIKKMMYADPQALHALLDKLAKSVTLYLNAQIKAGAQAVMIFDTWGGVLTGRDYQQFSLYYMHKIVDGLLRENDGRRVPVTLFTKGGGQWLEAMAETGCDALGLDWTTDIADARRRVGNKVALQGNMDPSMLYAPPARIEEEVATILAGFGHGEGHVFNLGHGIHQDVPPEHAGVFVEAVHRLSEQYHR 3cz1-a1-m1-cB_3cz1-a1-m1-cA Dimeric crystal structure of a pheromone binding protein from Apis mellifera in complex with the n-butyl benzene sulfonamide at pH 7.0 Q9U9J6 Q9U9J6 1.5 X-RAY DIFFRACTION 92 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 115 117 3cyz-a1-m1-cB_3cyz-a1-m1-cA 3cz0-a1-m1-cB_3cz0-a1-m1-cA 3cz2-a1-m1-cB_3cz2-a1-m1-cA VPPEVFDLVAEDKARCMSEHGTTQAQIDDVDKGNLVNEPSITCYMYCLLEAFSLVDDEANVDEDIMLGLLPDQLQERAQSVMGKCLPTSGSDNCNKIYNLAKCVQESAPDVWFVI DWVPPEVFDLVAEDKARCMSEHGTTQAQIDDVDKGNLVNEPSITCYMYCLLEAFSLVDDEANVDEDIMLGLLPDQLQERAQSVMGKCLPTSGSDNCNKIYNLAKCVQESAPDVWFVI 3cz6-a3-m1-cA_3cz6-a3-m2-cB Crystal Structure of the Rap1 C-terminus P11938 P11938 1.85 X-RAY DIFFRACTION 72 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 146 146 RSDFSNEDIYDNIDPDTISFPPKIATTDLFLPLFFHFGSTRQFDKLHEVISGDYEPSQAEKLVQDLCDETGIRKNFSTSILTCLSGDLVFPRYFLNFKDNVNPPPNVPGIWTHDDDESLKSNDQEQIRKLVKKHGTGRERKRFFEK RSDFSNEDIYDNIDPDTISFPPKIATTDLFLPLFFHFGSTRQFDKLHEVISGDYEPSQAEKLVQDLCDETGIRKNFSTSILTCLSGDLVFPRYFLNFKDNVNPPPNVPGIWTHDDDESLKSNDQEQIRKLVKKHGTGRERKRFFEK 3cz8-a1-m1-cB_3cz8-a1-m1-cA Crystal structure of putative sporulation-specific glycosylase ydhD from Bacillus subtilis O05495 O05495 2.2 X-RAY DIFFRACTION 125 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 298 302 SNYIAGTLSFYVLRNPDLDSSSISIFEYHIAPNGDIANQLNDAAAIETTWQRRVTPLATITNLTSGGFSTEIVHQVLNNPTARTNLVNNIYDLVSTRGYGGVTIDFEQVSAADRDLFTGFLRQLRDRLQAGGYVLTIAVPAKTSDNIPWLRGYDYGGIGAVVNYMFIMAYDWHHAGSEPGPVAPITEIRRTIEFTIAQVPSRKIIIGVPLYGYDWIIPYQPGTVASAISNQNAIERAMRYQAPIQYSAEYQSPFFRYSDQQGRTHEVWFEGVRSMSRKMQIVREYRLQAIGAWQLTLA SNYIAGTLSFYVLRNPDLDYAPYSSSISIFEYHIAPNGDIANQLNDAAAIETTWQRRVTPLATITNLTSGGFSTEIVHQVLNNPTARTNLVNNIYDLVSTRGYGGVTIDFEQVSAADRDLFTGFLRQLRDRLQAGGYVLTIAVPAKTSDNIPWLRGYDYGGIGAVVNYMFIMAYDWHHAGSEPGPVAPITEIRRTIEFTIAQVPSRKIIIGVPLYGYDWIIPYQPGTVASAISNQNAIERAMRYQAPIQYSAEYQSPFFRYSDQQGRTHEVWFEGVRSMSRKMQIVREYRLQAIGAWQLTLA 3czp-a1-m1-cB_3czp-a1-m1-cA Crystal structure of putative polyphosphate kinase 2 from Pseudomonas aeruginosa PA01 Q9HYF1 Q9HYF1 2 X-RAY DIFFRACTION 98 0.998 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 452 460 FESAEVGHSIDKDTYEKAVIELREALLEAQFELKQQARFPVIILINGIEGAGKGETVKLLNEWDPRLIEVQSFLRPSDEELERPPQWRFWRRLPPKGRTGIFFGNWYSQLYARVEGHIKEAKLDQAIDAAERFERLCDEGALLFKFWFHLSKKQLKERLVYDRFVHYGERVLRRTSRDYAPWYVVEGADERYRALTVGRILLEGLQAALATKDNRGLLDSLDLGQYLDKDAYKEQLAAEQARLAGLIRDKRFRQHSLVAVFEGNDAAGKGGAIRRVTDALDPRQYHIVPIAAPTEEERAQPYLWRFWRHIPARRQFTIFDRSWYGRVLVERIEGFCAPADWLRAYGEINDFEEQLSEYGIIVVKFWLAIDKQTQERFKEREKTPYKRYKITEEDWRNRDKWDQYVDAVGDVDRTSTEIAPWTLVEANDKRFARVKVLRTINDAIEAAYKKDK FESAEVGHSIDKDTYEKAVIELREALLEAQFELKQQARFPVIILINGIEGAGKGETVKLLNEWDPRLIEVQSFLRPSDEELERPPQWRFWRRLPPKGRTGIFFGNWYSQLYARVEGHIKEAKLDQAIDAAERFERLCDEGALLFKFWFHLSKKQLKERLSPLDWKQSEVYDRFVHYGERVLRRTSRDYAPWYVVEGADERYRALTVGRILLEGLQAALATDNRGLLDSLDLGQYLDKDAYKEQLAAEQARLAGLIRDKRFRQHSLVAVFEGNDAAGKGGAIRRVTDALDPRQYHIVPIAAPTEEERAQPYLWRFWRHIPARRQFTIFDRSWYGRVLVERIEGFCAPADWLRAYGEINDFEEQLSEYGIIVVKFWLAIDKQTQERFKEREKTPYKRYKITEEDWRNRDKWDQYVDAVGDVDRTSTEIAPWTLVEANDKRFARVKVLRTINDAIEAAYKKDK 3czx-a2-m1-cD_3czx-a2-m1-cC The crystal structure of the putative N-acetylmuramoyl-L-alanine amidase from Neisseria meningitidis Q9JZE9 Q9JZE9 1.6 X-RAY DIFFRACTION 34 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 177 178 3czx-a1-m1-cA_3czx-a1-m1-cB SKIICLTAGHSNTDPGAVNGSDREADLAQDRNIVASILRNDYGLTVKTDGTGKGNPLRDAVKLIRGSDVAIEFHTNAAANKTATGIEALSTPKNKRWCQVLGKAVAKKTGWKLRGEDGFKPDNAGQHSRLAYAQAGGIVFEPFFISNDTDLALFKTTKWGICRAIADAIAELGAAKV ASKIICLTAGHSNTDPGAVNGSDREADLAQDRNIVASILRNDYGLTVKTDGTGKGNPLRDAVKLIRGSDVAIEFHTNAAANKTATGIEALSTPKNKRWCQVLGKAVAKKTGWKLRGEDGFKPDNAGQHSRLAYAQAGGIVFEPFFISNDTDLALFKTTKWGICRAIADAIAELGAAKV 3czz-a1-m1-cA_3czz-a1-m1-cB Crystal structure of Cyanovirin-N domain B mutant P81180 P81180 1.36 X-RAY DIFFRACTION 50 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIAAVDGSLKWQGSNFIEACRNTQLAGSSELAAECKTAAGQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIAAVDGSLKWQGSNFIEACRNTQLAGSSELAAECKTAAGQFVSTKINLDDHIANIDGTLKYE 3d00-a1-m1-cA_3d00-a1-m2-cA Crystal structure of a tungsten formylmethanofuran dehydrogenase subunit e (fmde)-like protein (syn_00638) from syntrophus aciditrophicus at 1.90 A resolution Q2LQ23 Q2LQ23 1.9 X-RAY DIFFRACTION 154 1.0 56780 (Syntrophus aciditrophicus SB) 56780 (Syntrophus aciditrophicus SB) 180 180 TARNILSYSYEEYVEKITAFHGYPAPGVLIGGFVDLAVKNLPEGILYDAICETRTCLPDAVQLLTPCTFGNGWLTVLPGLFAVSLYDKFTGEGVRVFLDVEKGPWQEIRNWFLKLKSERLFKEIREAGPDILELRNVKLKPGFLEKKHKGKIVLCPQCREAYPAQDGELCLSCQGGSPYL TARNILSYSYEEYVEKITAFHGYPAPGVLIGGFVDLAVKNLPEGILYDAICETRTCLPDAVQLLTPCTFGNGWLTVLPGLFAVSLYDKFTGEGVRVFLDVEKGPWQEIRNWFLKLKSERLFKEIREAGPDILELRNVKLKPGFLEKKHKGKIVLCPQCREAYPAQDGELCLSCQGGSPYL 3d01-a3-m1-cJ_3d01-a3-m1-cF Crystal structure of the protein Atu1372 with unknown function from Agrobacterium tumefaciens A9CJ63 A9CJ63 1.7 X-RAY DIFFRACTION 87 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 154 155 3d01-a1-m1-cA_3d01-a1-m1-cI 3d01-a1-m1-cK_3d01-a1-m1-cA 3d01-a1-m1-cK_3d01-a1-m1-cI 3d01-a2-m1-cE_3d01-a2-m1-cG 3d01-a2-m1-cE_3d01-a2-m1-cL 3d01-a2-m1-cG_3d01-a2-m1-cL 3d01-a3-m1-cC_3d01-a3-m1-cF 3d01-a3-m1-cC_3d01-a3-m1-cJ 3d01-a4-m1-cB_3d01-a4-m1-cH 3d01-a4-m1-cD_3d01-a4-m1-cB 3d01-a4-m1-cD_3d01-a4-m1-cH ENLYFQGSDVIEGRLKELGFTLPVANYVPFTISGNLLYVSGQLPESGKIAVTGLVGRDVDVASAQRAAELCAVNILAQVKAALNGDLSKIRRVIKLNGFVASVPEFVEQHLVINGASNLIATVLGEPGRHARAAVGASLPFNASVEIDAIVEID TENLYFQGSDVIEGRLKELGFTLPVANYVPFTISGNLLYVSGQLPESGKIAVTGLVGRDVDVASAQRAAELCAVNILAQVKAALNGDLSKIRRVIKLNGFVASVPEFVEQHLVINGASNLIATVLGEPGRHARAAVGASLPFNASVEIDAIVEID 3d03-a1-m1-cA_3d03-a1-m1-cF 1.9A structure of Glycerophoshphodiesterase (GpdQ) from Enterobacter aerogenes Q6XBH1 Q6XBH1 1.9 X-RAY DIFFRACTION 52 1.0 548 (Klebsiella aerogenes) 548 (Klebsiella aerogenes) 274 274 2dxl-a1-m1-cA_2dxl-a1-m3-cB 2dxl-a1-m1-cB_2dxl-a1-m2-cA 2dxl-a1-m2-cB_2dxl-a1-m3-cA 2dxn-a1-m1-cA_2dxn-a1-m3-cB 2dxn-a1-m1-cB_2dxn-a1-m2-cA 2dxn-a1-m2-cB_2dxn-a1-m3-cA 2zo9-a1-m1-cB_2zo9-a1-m2-cC 2zo9-a1-m1-cC_2zo9-a1-m3-cB 2zo9-a1-m2-cB_2zo9-a1-m3-cC 2zoa-a1-m1-cA_2zoa-a1-m2-cB 2zoa-a1-m1-cB_2zoa-a1-m3-cA 2zoa-a1-m2-cA_2zoa-a1-m3-cB 3d03-a1-m1-cB_3d03-a1-m1-cD 3d03-a1-m1-cC_3d03-a1-m1-cE MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPEEYQVARQILGSLNYPLYLIPGNHDDKALFLEYLQPLCPQLGSDANNMRCAVDDFATRLLFIDSSRAGTSKGWLTDETISWLEAQLFEGGDKPATIFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTLPGTVHQVPYCHADTDPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPTEER MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPEEYQVARQILGSLNYPLYLIPGNHDDKALFLEYLQPLCPQLGSDANNMRCAVDDFATRLLFIDSSRAGTSKGWLTDETISWLEAQLFEGGDKPATIFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTLPGTVHQVPYCHADTDPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPTEER 3d03-a1-m1-cD_3d03-a1-m1-cE 1.9A structure of Glycerophoshphodiesterase (GpdQ) from Enterobacter aerogenes Q6XBH1 Q6XBH1 1.9 X-RAY DIFFRACTION 16 1.0 548 (Klebsiella aerogenes) 548 (Klebsiella aerogenes) 271 271 2dxl-a1-m1-cA_2dxl-a1-m2-cA 2dxl-a1-m1-cA_2dxl-a1-m3-cA 2dxl-a1-m1-cB_2dxl-a1-m2-cB 2dxl-a1-m1-cB_2dxl-a1-m3-cB 2dxl-a1-m2-cA_2dxl-a1-m3-cA 2dxl-a1-m2-cB_2dxl-a1-m3-cB 2dxn-a1-m1-cA_2dxn-a1-m2-cA 2dxn-a1-m1-cA_2dxn-a1-m3-cA 2dxn-a1-m1-cB_2dxn-a1-m2-cB 2dxn-a1-m1-cB_2dxn-a1-m3-cB 2dxn-a1-m2-cA_2dxn-a1-m3-cA 2dxn-a1-m2-cB_2dxn-a1-m3-cB 2zo9-a1-m1-cB_2zo9-a1-m2-cB 2zo9-a1-m1-cB_2zo9-a1-m3-cB 2zo9-a1-m1-cC_2zo9-a1-m2-cC 2zo9-a1-m1-cC_2zo9-a1-m3-cC 2zo9-a1-m2-cB_2zo9-a1-m3-cB 2zo9-a1-m2-cC_2zo9-a1-m3-cC 2zoa-a1-m1-cA_2zoa-a1-m2-cA 2zoa-a1-m1-cA_2zoa-a1-m3-cA 2zoa-a1-m1-cB_2zoa-a1-m2-cB 2zoa-a1-m1-cB_2zoa-a1-m3-cB 2zoa-a1-m2-cA_2zoa-a1-m3-cA 2zoa-a1-m2-cB_2zoa-a1-m3-cB 3d03-a1-m1-cB_3d03-a1-m1-cC 3d03-a1-m1-cB_3d03-a1-m1-cF 3d03-a1-m1-cC_3d03-a1-m1-cF 3d03-a1-m1-cD_3d03-a1-m1-cA 3d03-a1-m1-cE_3d03-a1-m1-cA MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPEEYQVARQILGSLNYPLYLIPGNHDDKALFLEYLQPLCPQLGSDANNMRCAVDDFATRLLFIDSSRAGTSKGWLTDETISWLEAQLFEGGDKPATIFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTLPGTVHQVPYCHADTDPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPT MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPEEYQVARQILGSLNYPLYLIPGNHDDKALFLEYLQPLCPQLGSDANNMRCAVDDFATRLLFIDSSRAGTSKGWLTDETISWLEAQLFEGGDKPATIFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTLPGTVHQVPYCHADTDPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPT 3d03-a4-m1-cC_3d03-a4-m1-cD 1.9A structure of Glycerophoshphodiesterase (GpdQ) from Enterobacter aerogenes Q6XBH1 Q6XBH1 1.9 X-RAY DIFFRACTION 183 1.0 548 (Klebsiella aerogenes) 548 (Klebsiella aerogenes) 271 271 2dxl-a1-m1-cA_2dxl-a1-m1-cB 2dxl-a1-m2-cA_2dxl-a1-m2-cB 2dxl-a1-m3-cA_2dxl-a1-m3-cB 2dxn-a1-m1-cA_2dxn-a1-m1-cB 2dxn-a1-m2-cA_2dxn-a1-m2-cB 2dxn-a1-m3-cA_2dxn-a1-m3-cB 2zo9-a1-m1-cB_2zo9-a1-m1-cC 2zo9-a1-m2-cB_2zo9-a1-m2-cC 2zo9-a1-m3-cB_2zo9-a1-m3-cC 2zo9-a2-m1-cB_2zo9-a2-m1-cC 2zoa-a1-m1-cA_2zoa-a1-m1-cB 2zoa-a1-m2-cA_2zoa-a1-m2-cB 2zoa-a1-m3-cA_2zoa-a1-m3-cB 2zoa-a2-m1-cA_2zoa-a2-m1-cB 3d03-a1-m1-cB_3d03-a1-m1-cA 3d03-a1-m1-cC_3d03-a1-m1-cD 3d03-a1-m1-cE_3d03-a1-m1-cF 3d03-a2-m1-cB_3d03-a2-m1-cA 3d03-a3-m1-cE_3d03-a3-m1-cF MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPEEYQVARQILGSLNYPLYLIPGNHDDKALFLEYLQPLCPQLGSDANNMRCAVDDFATRLLFIDSSRAGTSKGWLTDETISWLEAQLFEGGDKPATIFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTLPGTVHQVPYCHADTDPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPT MLLAHISDTHFRSRGEKLYGFIDVNAANADVVSQLNALRERPDAVVVSGDIVNCGRPEEYQVARQILGSLNYPLYLIPGNHDDKALFLEYLQPLCPQLGSDANNMRCAVDDFATRLLFIDSSRAGTSKGWLTDETISWLEAQLFEGGDKPATIFMHHPPLPLGNAQMDPIACENGHRLLALVERFPSLTRIFCGHNHSLTMTQYRQALISTLPGTVHQVPYCHADTDPYYDLSPASCLMHRQVGEQWVSYQHSLAHYAGPWLYDENISCPT 3d0c-a1-m1-cB_3d0c-a1-m1-cA Crystal structure of dihydrodipicolinate synthase from Oceanobacillus iheyensis at 1.9 A resolution Q8EMJ7 Q8EMJ7 1.9 X-RAY DIFFRACTION 130 1.0 221109 (Oceanobacillus iheyensis HTE831) 221109 (Oceanobacillus iheyensis HTE831) 297 299 DYGEFSKRFSTISGINIVPFLEGTREIDWKGLDDNVEFLLQNGIEVIVPNGNTGEFYALTIEEAKQVATRVTELVNGRATVVAGIGYSVDTAIELGKSAIDSGADCVIHQPVHPYITDAGAVEYYRNIIEALDAPSIIYFKDAHLSDDVIKELAPLDKLVGIKYAINDIQRVTQVRAVPKSSNVAFICGTAEKWAPFFYHAGAVGFTSGLVNVFPQKSFALLEALEEGNQEKIWDVWEDVVPFEDLRAKHNNGNNVVIIKEAEQLGLRAGVTREPVNPLSPNDRLELEELLKSWNTQ LDYGEFSKRFSTISGINIVPFLEGTREIDWKGLDDNVEFLLQNGIEVIVPNGNTGEFYALTIEEAKQVATRVTELVNGRATVVAGIGYSVDTAIELGKSAIDSGADCVIHQPVHPYITDAGAVEYYRNIIEALDAPSIIYFKDAHLSDDVIKELAPLDKLVGIKYAINDIQRVTQVRAVPKSSNVAFICGTAEKWAPFFYHAGAVGFTSGLVNVFPQKSFALLEALEEGNQEKIWDVWEDVVPFEDLRAKHNNGNNVVIIKEAEQLGLRAGVTREPVNPLSPNDRLELEELLKSWNTQE 3d0e-a1-m1-cA_3d0e-a1-m1-cB Crystal structure of human Akt2 in complex with GSK690693 P31751 P31751 2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 322 322 KVTMNDFDYLKLLGKGTFGKVILVREKATGRYYAMKILRKEVIIAKDEVAHTVTESRVLQNTRHPFLTALKYAFQTHDRLCFVMEYANGGELFFHLSRERVFTEERARFYGAEIVSALEYLHSRDVVYRDIKLENLMLDKDGHIKITDFGLCKEGISDGATMKFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHERLFELILMEEIRFPRTLSPEAKSLLAGLLKKDPKQRLGGGPSDAKEVMEHRFFLSINWQDVVQKKLLPPFKPQVTSEVDTRYFDDEFTAQSITIPPDQRTHFPQFDYSASIR KVTMNDFDYLKLLGKGTFGKVILVREKATGRYYAMKILRKEVIIAKDEVAHTVTESRVLQNTRHPFLTALKYAFQTHDRLCFVMEYANGGELFFHLSRERVFTEERARFYGAEIVSALEYLHSRDVVYRDIKLENLMLDKDGHIKITDFGLCKEGISDGATMKFCGTPEYLAPEVLEDNDYGRAVDWWGLGVVMYEMMCGRLPFYNQDHERLFELILMEEIRFPRTLSPEAKSLLAGLLKKDPKQRLGGGPSDAKEVMEHRFFLSINWQDVVQKKLLPPFKPQVTSEVDTRYFDDEFTAQSITIPPDQRTHFPQFDYSASIR 3d0f-a1-m1-cA_3d0f-a1-m1-cB Structure of the BIG_1156.2 domain of putative penicillin-binding protein MrcA from Nitrosomonas europaea ATCC 19718 Q81ZZ3 Q81ZZ3 1.64 X-RAY DIFFRACTION 125 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 104 104 NAYRGPEAFLKLPKDLKDREALQDIQDIGNSDDILAAVVLSATPGAVEAFRKNGETIRITGDGLKAAHRFLSNDPKIGEKRIRPGALIRVKKTEKGSWQIVQLP NAYRGPEAFLKLPKDLKDREALQDIQDIGNSDDILAAVVLSATPGAVEAFRKNGETIRITGDGLKAAHRFLSNDPKIGEKRIRPGALIRVKKTEKGSWQIVQLP 3d0j-a1-m1-cA_3d0j-a1-m2-cA Crystal structure of conserved protein of unknown function CA_C3497 from Clostridium acetobutylicum ATCC 824 Q97DI0 Q97DI0 1.53 X-RAY DIFFRACTION 113 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 133 133 AKPDIYENNREGILCVYKNEKWLVCIKNWKPDNDIEGIAHLEIHHSTDEQFILSAGKAILITAEKENDKFNIELTLEKGKVYNVPAECWFYSITQKDTKYVQDSNCSDNSDFCDLSKEEIEYIQTNARKLFEK AKPDIYENNREGILCVYKNEKWLVCIKNWKPDNDIEGIAHLEIHHSTDEQFILSAGKAILITAEKENDKFNIELTLEKGKVYNVPAECWFYSITQKDTKYVQDSNCSDNSDFCDLSKEEIEYIQTNARKLFEK 3d0q-a1-m1-cA_3d0q-a1-m1-cB Crystal structure of calG3 from Micromonospora echinospora determined in space group I222 Q8KND7 Q8KND7 2.79 X-RAY DIFFRACTION 151 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 369 369 3d0r-a1-m1-cA_3d0r-a1-m1-cB 3oti-a3-m1-cA_3oti-a3-m1-cB HRVLFVSSPGIGHLFPLIQLAWGFRTAGHDVLIAVAEHADRAAAAGLEVVDVAPDYSAVKVFEQVAKDNPRFAETVATRPAIDLEEWGVQIAAVNRPLVDGTALVDDYRPDLVVYEQGATVGLLAADRAGVPAVQRNQSAWRTRGHRSIASFLTDLDKHQVSLPEPVATIESFPPSLLLEAEPEGWFRWVPYGGGAVLGDRLPPVPARPEVAITGTIELQAFGIGAVEPIIAAAGEVDADFVLALGDLDISPLGTLPRNVRAVGWTPLHTLLRTCTAVVHHGGGGTVTAIDAGIPQLLAPDPRDQFQHTAREAVSRRGIGLVSTSDKVDADLLRRLIGDESLRTAAREVREEVALPTPAETVRRIVERI HRVLFVSSPGIGHLFPLIQLAWGFRTAGHDVLIAVAEHADRAAAAGLEVVDVAPDYSAVKVFEQVAKDNPRFAETVATRPAIDLEEWGVQIAAVNRPLVDGTALVDDYRPDLVVYEQGATVGLLAADRAGVPAVQRNQSAWRTRGHRSIASFLTDLDKHQVSLPEPVATIESFPPSLLLEAEPEGWFRWVPYGGGAVLGDRLPPVPARPEVAITGTIELQAFGIGAVEPIIAAAGEVDADFVLALGDLDISPLGTLPRNVRAVGWTPLHTLLRTCTAVVHHGGGGTVTAIDAGIPQLLAPDPRDQFQHTAREAVSRRGIGLVSTSDKVDADLLRRLIGDESLRTAAREVREEVALPTPAETVRRIVERI 3d0t-a2-m1-cA_3d0t-a2-m1-cB Structure of the BNB domain of the Hsp70 cochaperone Bag2 Q91YN9 Q91YN9 2.55 X-RAY DIFFRACTION 119 0.987 10090 (Mus musculus) 10090 (Mus musculus) 77 77 3cqx-a1-m1-cC_3cqx-a1-m1-cD 3d0t-a1-m1-cC_3d0t-a1-m1-cD SEESLKHATRIIDEVVSKFLDDLGNAKSHLMSLYSACSVDQKFQSIVIGCALEDQKKIKRRLETLLRNIDNSDKAIK GSEESLKHATRIIDEVVSKFLDDLGNAKSHLMSLYSACSDQKFQSIVIGCALEDQKKIKRRLETLLRNIDNSDKAIK 3d0w-a2-m1-cD_3d0w-a2-m1-cB Crystal structure of YflH protein from Bacillus subtilis. Northeast Structural Genomics Consortium target SR326 O34306 O34306 2 X-RAY DIFFRACTION 71 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 84 85 3d0w-a1-m1-cC_3d0w-a1-m1-cA TIKEDILKDFEEFKGYLKKQVNRGKKLGLDDGKLVKSAAILGDYLAKHEEPQNGEELLQELWSVADEDEKEHLAQLLVKLVDKQ GTIKEDILKDFEEFKGYLKKQVNRGKKLGLDDGKLVKSAAILGDYLAKHEEPQNGEELLQELWSVADEDEKEHLAQLLVKLVDKQ 3d12-a1-m1-cB_3d12-a1-m2-cE Crystal Structures of Nipah Virus G Attachment Glycoprotein in Complex with its Receptor Ephrin-B3 O35393 O35393 3.005 X-RAY DIFFRACTION 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 141 141 SLEPVYWNSANKRFQAEGGYVLYPQIGDRLDLLCPRARPPGPHSSPSYEFYKLYLVEGAQGRRCEAPPAPNLLLTCDRPDLDLRFTIKFQEYSPNLWGHEFRSHHDYYIIATSDGTREGLESLQGGVCLTRGMKVLLRVGQ SLEPVYWNSANKRFQAEGGYVLYPQIGDRLDLLCPRARPPGPHSSPSYEFYKLYLVEGAQGRRCEAPPAPNLLLTCDRPDLDLRFTIKFQEYSPNLWGHEFRSHHDYYIIATSDGTREGLESLQGGVCLTRGMKVLLRVGQ 3d19-a1-m1-cE_3d19-a1-m1-cF Crystal structure of a conserved metalloprotein from Bacillus cereus 2.3 X-RAY DIFFRACTION 26 1.0 269801 (Bacillus cereus G9241) 269801 (Bacillus cereus G9241) 257 257 3d19-a1-m1-cC_3d19-a1-m1-cA 3d19-a1-m1-cC_3d19-a1-m1-cD 3d19-a1-m1-cD_3d19-a1-m1-cA 3d19-a1-m1-cE_3d19-a1-m1-cB 3d19-a1-m1-cF_3d19-a1-m1-cB MFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTAPLLDQFLDQNRVSVASLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHL MFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTAPLLDQFLDQNRVSVASLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHL 3d19-a1-m1-cF_3d19-a1-m1-cC Crystal structure of a conserved metalloprotein from Bacillus cereus 2.3 X-RAY DIFFRACTION 70 1.0 269801 (Bacillus cereus G9241) 269801 (Bacillus cereus G9241) 257 258 3d19-a1-m1-cB_3d19-a1-m1-cA 3d19-a1-m1-cE_3d19-a1-m1-cD MFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTAPLLDQFLDQNRVSVASLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHL MFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTAPLLDQFLDQNRVSVASLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHLT 3d19-a1-m1-cF_3d19-a1-m1-cD Crystal structure of a conserved metalloprotein from Bacillus cereus 2.3 X-RAY DIFFRACTION 36 1.0 269801 (Bacillus cereus G9241) 269801 (Bacillus cereus G9241) 257 260 3d19-a1-m1-cC_3d19-a1-m1-cB 3d19-a1-m1-cE_3d19-a1-m1-cA MFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTAPLLDQFLDQNRVSVASLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHL SVMFVERSLNEIRFWSRIMKEHSFFLRLGFRCEDTQLIEEANQFYRLFEHIEQIAHSYTNETDPEQIKRFNAEVQQAATNIWGFKRKILGLILTCKLPGQNNFPLLVDHTSREADYFRKRLIQLNEGKLDALPDAIIKENVFFLRIMADHAKFIGHLLDPSERKLVDTARNFSNDFDELMYQAIDLESMKPQSQTAPLLDQFLDQNRVSVASLRDFKKTARDLIEQCKIKSIIHPLLADHVFREADRFLEIIDMYDVHLT 3d1c-a1-m1-cA_3d1c-a1-m2-cA Crystal structure of Flavin-containing Putative Monooxygenase (NP_373108.1) from STAPHYLOCOCCUS AUREUS MU50 at 2.40 A resolution A0A0H3JN45 A0A0H3JN45 2.4 X-RAY DIFFRACTION 114 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 350 350 QHHKVAIIGAGAAGIGAITLKDFGITDVIILEKGTVGHSFKHWPKSTRTITPSFTSNGFGPDNAISDTSPAFTFNEEHISGETYAEYLQVVANHYELNIFENTVVTNISADDAYYTIATTTETYHADYIFVATGDYNFPKKPFKYGIHYSEIEDFDNFNKGQYVVIGGNESGFDAAYQLAKNGSDIALYTSPSVRLSPYTRQRLGNVIKQGARIENVHYTVKDIDFNNGQYHISFDSGQSVHTPHEPILATGFDATKNPIVQQLFVTTNQDIKLTTHDESTRYPNIFIGATVENDNAKLCYIYKFRARFAVLAHLLTQREGLPAKQEVIENYQKNQYLDDYSCCEVSCTC QHHKVAIIGAGAAGIGAITLKDFGITDVIILEKGTVGHSFKHWPKSTRTITPSFTSNGFGPDNAISDTSPAFTFNEEHISGETYAEYLQVVANHYELNIFENTVVTNISADDAYYTIATTTETYHADYIFVATGDYNFPKKPFKYGIHYSEIEDFDNFNKGQYVVIGGNESGFDAAYQLAKNGSDIALYTSPSVRLSPYTRQRLGNVIKQGARIENVHYTVKDIDFNNGQYHISFDSGQSVHTPHEPILATGFDATKNPIVQQLFVTTNQDIKLTTHDESTRYPNIFIGATVENDNAKLCYIYKFRARFAVLAHLLTQREGLPAKQEVIENYQKNQYLDDYSCCEVSCTC 3d1d-a2-m1-cE_3d1d-a2-m1-cF Hexagonal crystal structure of Tas3 C-terminal alpha motif O94687 O94687 2.6 X-RAY DIFFRACTION 32 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 109 109 3d1b-a1-m2-cC_3d1b-a1-m1-cA 3d1d-a1-m1-cB_3d1d-a1-m1-cC 3d1d-a3-m1-cA_3d1d-a3-m2-cD NDLYINWLKSLSFFQTNSSCAEALVKVIPHYHNKLIDFSQVLQLVFSASEKFPIQENQPLPEQLMFLSNLEKQTPFAKAVGSSIYKLVTGKNLSLDFASQILKEASILE NDLYINWLKSLSFFQTNSSCAEALVKVIPHYHNKLIDFSQVLQLVFSASEKFPIQENQPLPEQLMFLSNLEKQTPFAKAVGSSIYKLVTGKNLSLDFASQILKEASILE 3d1k-a1-m1-cA_3d1k-a1-m2-cA R/T intermediate quaternary structure of an antarctic fish hemoglobin in an alpha(CO)-beta(pentacoordinate) state P45718 P45718 1.25 X-RAY DIFFRACTION 11 1.0 35730 (Trematomus newnesi) 35730 (Trematomus newnesi) 142 142 3gkv-a1-m1-cA_3gkv-a1-m2-cA 4iro-a1-m1-cA_4iro-a1-m1-cC 4odc-a1-m1-cA_4odc-a1-m2-cA SLSDKDKAAVRALWSKIGKSSDAIGNDALSRMIVVYPQTKIYFSHWPDVTPGSPNIKAHGKKVMGGIALAVSKIDDLKTGLMELSEQHAYKLRVDPSNFKILNHCILVVISTMFPKEFTPEAHVSLDKFLSGVALALAERYR SLSDKDKAAVRALWSKIGKSSDAIGNDALSRMIVVYPQTKIYFSHWPDVTPGSPNIKAHGKKVMGGIALAVSKIDDLKTGLMELSEQHAYKLRVDPSNFKILNHCILVVISTMFPKEFTPEAHVSLDKFLSGVALALAERYR 3d1l-a1-m1-cA_3d1l-a1-m1-cB Crystal structure of putative NADP oxidoreductase BF3122 from Bacteroides fragilis Q5LAQ6 Q5LAQ6 2.19 X-RAY DIFFRACTION 251 0.996 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 250 252 SIEDTPIVLIGAGNLATNLAKALYRKGFRIVQVYSRTEESARELAQKVEAEYTTDLAEVNPYAKLYIVSLKDSAFAELLQGIVEGKREEALVHTAGSIPNVWEGHVPHYGVFYPQTFREVDFKEIPFFIEASSTEDAAFLKAIASTLSNRVYDADSEQRKSLHLAAVFTCNFTNHYALAAELLKKYNLPFDVLPLIDETARKVHELEPKTAQTGPAIRYDENVIGNHLRLADDPAQRLYELLSRSIHERQ SIEDTPIVLIGAGNLATNLAKALYRKGFRIVQVYSRTEESARELAQKVEAEYTTDLAEVNPYAKLYIVSLKDSAFAELLQGIVEGKREEALVHTAGSIPNVWEGHVPHYGVFYPQTFSKQREVDFKEIPFFIEASSTEDAAFLKAIASTLSNRVYDADSEQRKSLHLAAVFTCNFTNHYALAAELLKKYNLPFDVLPLIDETARKVHELEPKTAQTGPAIRYDENVIGNHLRLADDPAQRLYELLSRSIHER 3d1n-a1-m1-cL_3d1n-a1-m1-cK Structure of human Brn-5 transcription factor in complex with corticotrophin-releasing hormone gene promoter Q14863 Q14863 2.51 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 146 NEEIREFAKNFKIRRLSLGLTQTQVGQATATEGPAYSQSAISRFEKLDITPKSAQKLKPVLEKWLNEAELRNQEGQQNLEFVGGEPSKKRKRRTSFTPQAIEALNAYFEKNPLPTGQEITEAKELNYDREVVRVWFSNRRQ NEEIREFAKNFKIRRLSLGLTQTQVGQATATEGPAYSQSAISRFEKLDITPKSAQKLKPVLEKWLNEAELRNQEGQQNLEFVGGEPSKKRKRRTSFTPQAIEALNAYFEKNPLPTGQEITEAKELNYDREVVRVWFSNRRQTLKNT 3d23-a1-m1-cC_3d23-a1-m1-cB Main protease of HCoV-HKU1 P0C6U3 P0C6U3 2.5 X-RAY DIFFRACTION 24 1.0 443239 (Human coronavirus HKU1 (isolate N1)) 443239 (Human coronavirus HKU1 (isolate N1)) 298 301 GIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICSSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNPYTPKYTFGNVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVKDYVQTVNVIAWLYAAILNNCAWFVQNDVCSTEDFNVWAMANGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQLAG SSGIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICSSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNPYTPKYTFGNVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVKDYVQTVNVIAWLYAAILNNCAWFVQNDVCSTEDFNVWAMANGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQLAGV 3d23-a1-m1-cD_3d23-a1-m1-cB Main protease of HCoV-HKU1 P0C6U3 P0C6U3 2.5 X-RAY DIFFRACTION 26 1.0 443239 (Human coronavirus HKU1 (isolate N1)) 443239 (Human coronavirus HKU1 (isolate N1)) 299 301 SGIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICSSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNPYTPKYTFGNVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVKDYVQTVNVIAWLYAAILNNCAWFVQNDVCSTEDFNVWAMANGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQLAG SSGIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICSSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNPYTPKYTFGNVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVKDYVQTVNVIAWLYAAILNNCAWFVQNDVCSTEDFNVWAMANGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQLAGV 3d23-a3-m1-cC_3d23-a3-m1-cA Main protease of HCoV-HKU1 P0C6U3 P0C6U3 2.5 X-RAY DIFFRACTION 110 0.99 443239 (Human coronavirus HKU1 (isolate N1)) 443239 (Human coronavirus HKU1 (isolate N1)) 298 299 3d23-a1-m1-cC_3d23-a1-m1-cA 3d23-a2-m2-cD_3d23-a2-m1-cB GIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICSSSNMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNPYTPKYTFGNVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVKDYVQTVNVIAWLYAAILNNCAWFVQNDVCSTEDFNVWAMANGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQLAG ASSGIVKMVSPTSKIEPCIVSVTYGSMTLNGLWLDDKVYCPRHVICSMNEPDYSALLCRVTLGDFTIMSGRMSLTVVSYQMQGCQLVLTVSLQNPYTPKYTFGNVKPGETFTVLAAYNGRPQGAFHVTMRSSYTIKGSFLCGSCGSVGYVLTGDSVKFVYMHQLELSTGCHTGTDFTGNFYGPYRDAQVVQLPVKDYVQTVNVIAWLYAAILNNCAWFVQNDVCSTEDFNVWAMANGFSQVKADLVLDALASMTGVSIETLLAAIKRLYMGFQGRQILGSCTFEDELAPSDVYQQLAGV 3d2c-a13-m2-cB_3d2c-a13-m2-cH Structure of 4D3, a thermostable mutant of Bacillus subtilis lipase obtained through directed evolution P37957 P37957 2.18 X-RAY DIFFRACTION 30 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 179 179 3d2c-a13-m1-cA_3d2c-a13-m1-cB 3d2c-a13-m1-cA_3d2c-a13-m1-cE 3d2c-a13-m1-cB_3d2c-a13-m1-cH 3d2c-a13-m1-cC_3d2c-a13-m1-cD 3d2c-a13-m1-cC_3d2c-a13-m1-cL 3d2c-a13-m1-cD_3d2c-a13-m1-cG 3d2c-a13-m1-cE_3d2c-a13-m1-cH 3d2c-a13-m1-cF_3d2c-a13-m1-cJ 3d2c-a13-m1-cF_3d2c-a13-m2-cI 3d2c-a13-m1-cG_3d2c-a13-m1-cL 3d2c-a13-m1-cI_3d2c-a13-m1-cK 3d2c-a13-m1-cI_3d2c-a13-m2-cF 3d2c-a13-m1-cJ_3d2c-a13-m2-cK 3d2c-a13-m1-cK_3d2c-a13-m2-cJ 3d2c-a13-m2-cA_3d2c-a13-m2-cB 3d2c-a13-m2-cA_3d2c-a13-m2-cE 3d2c-a13-m2-cC_3d2c-a13-m2-cD 3d2c-a13-m2-cC_3d2c-a13-m2-cL 3d2c-a13-m2-cD_3d2c-a13-m2-cG 3d2c-a13-m2-cE_3d2c-a13-m2-cH 3d2c-a13-m2-cF_3d2c-a13-m2-cJ 3d2c-a13-m2-cG_3d2c-a13-m2-cL 3d2c-a13-m2-cI_3d2c-a13-m2-cK HNPVVMVHGIGGSSSNFEGIKSYLVSQGWSRDKLYAVDFWDKTGTNYNNGPVLSRFVQKVLDETGAKKVDIVAHSMGGANTLYYIKYLDGGNKVANVVTLGGANRLTTDKAPPGTDPNQKILYTSIYSSDDMIVMNYLSRLDGARNVQIHGVGHMGLLYSSQVYSLIKEGLNGGGQNTN HNPVVMVHGIGGSSSNFEGIKSYLVSQGWSRDKLYAVDFWDKTGTNYNNGPVLSRFVQKVLDETGAKKVDIVAHSMGGANTLYYIKYLDGGNKVANVVTLGGANRLTTDKAPPGTDPNQKILYTSIYSSDDMIVMNYLSRLDGARNVQIHGVGHMGLLYSSQVYSLIKEGLNGGGQNTN 3d2c-a13-m2-cD_3d2c-a13-m2-cK Structure of 4D3, a thermostable mutant of Bacillus subtilis lipase obtained through directed evolution P37957 P37957 2.18 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 179 179 3d2c-a13-m1-cA_3d2c-a13-m1-cD 3d2c-a13-m1-cA_3d2c-a13-m1-cK 3d2c-a13-m1-cB_3d2c-a13-m1-cI 3d2c-a13-m1-cB_3d2c-a13-m2-cH 3d2c-a13-m1-cC_3d2c-a13-m1-cE 3d2c-a13-m1-cC_3d2c-a13-m1-cF 3d2c-a13-m1-cD_3d2c-a13-m1-cK 3d2c-a13-m1-cE_3d2c-a13-m1-cF 3d2c-a13-m1-cG_3d2c-a13-m2-cJ 3d2c-a13-m1-cG_3d2c-a13-m2-cL 3d2c-a13-m1-cH_3d2c-a13-m2-cB 3d2c-a13-m1-cH_3d2c-a13-m2-cI 3d2c-a13-m1-cI_3d2c-a13-m2-cH 3d2c-a13-m1-cJ_3d2c-a13-m1-cL 3d2c-a13-m1-cJ_3d2c-a13-m2-cG 3d2c-a13-m1-cL_3d2c-a13-m2-cG 3d2c-a13-m2-cA_3d2c-a13-m2-cD 3d2c-a13-m2-cA_3d2c-a13-m2-cK 3d2c-a13-m2-cB_3d2c-a13-m2-cI 3d2c-a13-m2-cC_3d2c-a13-m2-cE 3d2c-a13-m2-cC_3d2c-a13-m2-cF 3d2c-a13-m2-cE_3d2c-a13-m2-cF 3d2c-a13-m2-cJ_3d2c-a13-m2-cL HNPVVMVHGIGGSSSNFEGIKSYLVSQGWSRDKLYAVDFWDKTGTNYNNGPVLSRFVQKVLDETGAKKVDIVAHSMGGANTLYYIKYLDGGNKVANVVTLGGANRLTTDKAPPGTDPNQKILYTSIYSSDDMIVMNYLSRLDGARNVQIHGVGHMGLLYSSQVYSLIKEGLNGGGQNTN HNPVVMVHGIGGSSSNFEGIKSYLVSQGWSRDKLYAVDFWDKTGTNYNNGPVLSRFVQKVLDETGAKKVDIVAHSMGGANTLYYIKYLDGGNKVANVVTLGGANRLTTDKAPPGTDPNQKILYTSIYSSDDMIVMNYLSRLDGARNVQIHGVGHMGLLYSSQVYSLIKEGLNGGGQNTN 3d2m-a1-m1-cA_3d2m-a1-m6-cA Crystal structure of N-acetylglutamate synthase from Neisseria gonorrhoeae complexed with coenzyme A and L-glutamate Q5FAK7 Q5FAK7 2.21 X-RAY DIFFRACTION 72 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 424 424 2r8v-a1-m1-cA_2r8v-a1-m4-cA 2r8v-a1-m2-cA_2r8v-a1-m5-cA 2r8v-a1-m3-cA_2r8v-a1-m6-cA 2r98-a1-m1-cA_2r98-a1-m4-cA 2r98-a1-m2-cA_2r98-a1-m5-cA 2r98-a1-m3-cA_2r98-a1-m6-cA 3b8g-a1-m1-cA_3b8g-a1-m4-cA 3b8g-a1-m2-cA_3b8g-a1-m5-cA 3b8g-a1-m3-cA_3b8g-a1-m6-cA 3d2m-a1-m2-cA_3d2m-a1-m5-cA 3d2m-a1-m3-cA_3d2m-a1-m4-cA 4i49-a1-m1-cA_4i49-a1-m4-cA 4i49-a1-m2-cA_4i49-a1-m6-cA 4i49-a1-m3-cA_4i49-a1-m5-cA DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLEEQGILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRSNGRNSHILVRRLHR DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLEEQGILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRSNGRNSHILVRRLHR 3d2m-a1-m2-cA_3d2m-a1-m6-cA Crystal structure of N-acetylglutamate synthase from Neisseria gonorrhoeae complexed with coenzyme A and L-glutamate Q5FAK7 Q5FAK7 2.21 X-RAY DIFFRACTION 104 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 424 424 2r8v-a1-m1-cA_2r8v-a1-m2-cA 2r8v-a1-m3-cA_2r8v-a1-m4-cA 2r8v-a1-m5-cA_2r8v-a1-m6-cA 2r98-a1-m1-cA_2r98-a1-m2-cA 2r98-a1-m3-cA_2r98-a1-m4-cA 2r98-a1-m5-cA_2r98-a1-m6-cA 3b8g-a1-m1-cA_3b8g-a1-m2-cA 3b8g-a1-m3-cA_3b8g-a1-m4-cA 3b8g-a1-m5-cA_3b8g-a1-m6-cA 3d2m-a1-m1-cA_3d2m-a1-m4-cA 3d2m-a1-m3-cA_3d2m-a1-m5-cA 4i49-a1-m1-cA_4i49-a1-m6-cA 4i49-a1-m2-cA_4i49-a1-m5-cA 4i49-a1-m3-cA_4i49-a1-m4-cA DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLEEQGILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRSNGRNSHILVRRLHR DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLEEQGILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRSNGRNSHILVRRLHR 3d2m-a1-m5-cA_3d2m-a1-m6-cA Crystal structure of N-acetylglutamate synthase from Neisseria gonorrhoeae complexed with coenzyme A and L-glutamate Q5FAK7 Q5FAK7 2.21 X-RAY DIFFRACTION 25 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 424 424 2r8v-a1-m1-cA_2r8v-a1-m3-cA 2r8v-a1-m1-cA_2r8v-a1-m5-cA 2r8v-a1-m2-cA_2r8v-a1-m4-cA 2r8v-a1-m2-cA_2r8v-a1-m6-cA 2r8v-a1-m3-cA_2r8v-a1-m5-cA 2r8v-a1-m4-cA_2r8v-a1-m6-cA 2r98-a1-m1-cA_2r98-a1-m3-cA 2r98-a1-m1-cA_2r98-a1-m5-cA 2r98-a1-m2-cA_2r98-a1-m4-cA 2r98-a1-m2-cA_2r98-a1-m6-cA 2r98-a1-m3-cA_2r98-a1-m5-cA 2r98-a1-m4-cA_2r98-a1-m6-cA 3b8g-a1-m1-cA_3b8g-a1-m3-cA 3b8g-a1-m1-cA_3b8g-a1-m5-cA 3b8g-a1-m2-cA_3b8g-a1-m4-cA 3b8g-a1-m2-cA_3b8g-a1-m6-cA 3b8g-a1-m3-cA_3b8g-a1-m5-cA 3b8g-a1-m4-cA_3b8g-a1-m6-cA 3d2m-a1-m1-cA_3d2m-a1-m2-cA 3d2m-a1-m1-cA_3d2m-a1-m3-cA 3d2m-a1-m2-cA_3d2m-a1-m3-cA 3d2m-a1-m4-cA_3d2m-a1-m5-cA 3d2m-a1-m4-cA_3d2m-a1-m6-cA 4i49-a1-m1-cA_4i49-a1-m2-cA 4i49-a1-m1-cA_4i49-a1-m3-cA 4i49-a1-m2-cA_4i49-a1-m3-cA 4i49-a1-m4-cA_4i49-a1-m5-cA 4i49-a1-m4-cA_4i49-a1-m6-cA 4i49-a1-m5-cA_4i49-a1-m6-cA DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLEEQGILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRSNGRNSHILVRRLHR DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLEEQGILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRSNGRNSHILVRRLHR 3d2p-a1-m2-cA_3d2p-a1-m3-cB Crystal structure of N-acetylglutamate synthase from Neisseria gonorrhoeae complexed with coenzyme A and L-arginine Q5FAK7 Q5FAK7 2.56 X-RAY DIFFRACTION 120 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 424 424 3d2p-a1-m1-cA_3d2p-a1-m2-cB 3d2p-a1-m1-cB_3d2p-a1-m3-cA DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSVSGFARAPSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRNSHILVRRLHR DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSVSGFARAPSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRNSHILVRRLHR 3d2p-a1-m2-cB_3d2p-a1-m3-cB Crystal structure of N-acetylglutamate synthase from Neisseria gonorrhoeae complexed with coenzyme A and L-arginine Q5FAK7 Q5FAK7 2.56 X-RAY DIFFRACTION 37 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 424 424 3d2p-a1-m1-cA_3d2p-a1-m2-cA 3d2p-a1-m1-cA_3d2p-a1-m3-cA 3d2p-a1-m1-cB_3d2p-a1-m2-cB 3d2p-a1-m1-cB_3d2p-a1-m3-cB 3d2p-a1-m2-cA_3d2p-a1-m3-cA DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSVSGFARAPSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRNSHILVRRLHR DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSVSGFARAPSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRNSHILVRRLHR 3d2p-a1-m3-cA_3d2p-a1-m3-cB Crystal structure of N-acetylglutamate synthase from Neisseria gonorrhoeae complexed with coenzyme A and L-arginine Q5FAK7 Q5FAK7 2.56 X-RAY DIFFRACTION 119 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 424 424 3d2p-a1-m1-cA_3d2p-a1-m1-cB 3d2p-a1-m2-cA_3d2p-a1-m2-cB DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSVSGFARAPSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRNSHILVRRLHR DSFVAHFREAAPYIRQMRGTTLVAGIDGRLLEGGTLNKLAADIGLLSQLGIRLVLIHGAYHFLDRLAAAQGRTPHYCRGLRVTDETSLGQAQQFAGTVRSRFEAALCGSVSGFARAPSVPLVSGNFLTARPIGVIDGTDMEYAGVIRKTDTAALRFQLDAGNIVWMPPLGHSYGGKTFNLDMVQAAASVAVSLQAEKLVYLTLSDGISRPDGTLAETLSAQEAQSLAEHAASETRRLISSAVAALEGGVHRVQILNGAADGSLLQELFTRNGIGTSIAKEAFVSIRQAHSGDIPHIAALIRPLILLHRSREYLENHISEFSILEHDGNLYGCAALKTFAEADCGEIACLAVSPQAQDGGYGERLLAHIIDKARGIGISRLFALSTNTGEWFAERGFQTASEDELPETRRKDYRNSHILVRRLHR 3d2w-a2-m1-cA_3d2w-a2-m2-cA Crystal structure of mouse TDP-43 RRM2 domain in complex with DNA Q921F2 Q921F2 1.65 X-RAY DIFFRACTION 24 1.0 10090 (Mus musculus) 10090 (Mus musculus) 72 72 3d2w-a1-m1-cA_3d2w-a1-m2-cA GSKVFVGRCTEDMTAEELQQFFCQYGEVVDVFIPKPFRAFAFVTFADDKVAQSLCGEDLIIKGISVHISNAE GSKVFVGRCTEDMTAEELQQFFCQYGEVVDVFIPKPFRAFAFVTFADDKVAQSLCGEDLIIKGISVHISNAE 3d2y-a2-m1-cA_3d2y-a2-m2-cA Complex of the N-acetylmuramyl-L-alanine amidase AmiD from E.coli with the substrate anhydro-N-acetylmuramic acid-L-Ala-D-gamma-Glu-L-Lys P75820 P75820 1.75 X-RAY DIFFRACTION 184 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 257 257 2bh7-a1-m1-cA_2bh7-a1-m2-cA 2wkx-a1-m1-cA_2wkx-a1-m2-cA 3d2y-a1-m1-cB_3d2y-a1-m1-cA 3d2y-a2-m1-cB_3d2y-a2-m1-cA 3d2y-a2-m2-cB_3d2y-a2-m2-cA 3d2z-a1-m1-cB_3d2z-a1-m1-cA 3d2z-a2-m1-cA_3d2z-a2-m2-cA 3d2z-a2-m1-cB_3d2z-a2-m1-cA 3d2z-a2-m2-cB_3d2z-a2-m2-cA EKGIVEKEGYQLDTRRQAQAAYPRIKVLVIHYTADDFDSSLATLTDKQVSSHYLVPAVPPRYNGKPRIWQLVPEQELAWHAGISAWRGATRLNDTSIGIELENRGWQKSAGVKYFAPFEPAQIQALIPLAKDIIARYHIKPENVVAHADIAPQRKDDPGPLFPWQQLAQQGIGAWPDAQRVNFYLAGRAPHTPVDTASLLELLARYGYDVKPDMTPREQRRVIMAFQMHFRPTLYNGEADAETQAIAEALLEKYGQD EKGIVEKEGYQLDTRRQAQAAYPRIKVLVIHYTADDFDSSLATLTDKQVSSHYLVPAVPPRYNGKPRIWQLVPEQELAWHAGISAWRGATRLNDTSIGIELENRGWQKSAGVKYFAPFEPAQIQALIPLAKDIIARYHIKPENVVAHADIAPQRKDDPGPLFPWQQLAQQGIGAWPDAQRVNFYLAGRAPHTPVDTASLLELLARYGYDVKPDMTPREQRRVIMAFQMHFRPTLYNGEADAETQAIAEALLEKYGQD 3d31-a1-m1-cA_3d31-a1-m1-cB ModBC from Methanosarcina acetivorans Q8TTZ3 Q8TTZ3 3 X-RAY DIFFRACTION 106 1.0 188937 (Methanosarcina acetivorans C2A) 188937 (Methanosarcina acetivorans C2A) 348 348 MIEIESLSRKWKNFSLDNLSLKVESGEYFVILGPTGAGKTLFLELIAGFHVPDSGRILLDGKDVTDLSPEKHDIAFVYQNYSLFPHMNVKKNLEFGMRMKKIKDPKRVLDTARDLKIEHLLDRNPLTLSGGEQQRVALARALVTNPKILLLDEPLSALDPRTQENAREMLSVLHKKNKLTVLHITHDQTEARIMADRIAVVMDGKLIQVGKPEEIFEKPVEGRVASFVGFENVLKGRVISAEQGLLRIRVGEVVIDAAGDMEVGDQVYAFLRPENIALSKSSTQSSIRNSLQGRVTEAWVLGALVRVKVDCGVPLNVLITRRSAEEMELSPGVQIYARFKASSVHVLR MIEIESLSRKWKNFSLDNLSLKVESGEYFVILGPTGAGKTLFLELIAGFHVPDSGRILLDGKDVTDLSPEKHDIAFVYQNYSLFPHMNVKKNLEFGMRMKKIKDPKRVLDTARDLKIEHLLDRNPLTLSGGEQQRVALARALVTNPKILLLDEPLSALDPRTQENAREMLSVLHKKNKLTVLHITHDQTEARIMADRIAVVMDGKLIQVGKPEEIFEKPVEGRVASFVGFENVLKGRVISAEQGLLRIRVGEVVIDAAGDMEVGDQVYAFLRPENIALSKSSTQSSIRNSLQGRVTEAWVLGALVRVKVDCGVPLNVLITRRSAEEMELSPGVQIYARFKASSVHVLR 3d31-a1-m1-cC_3d31-a1-m1-cD ModBC from Methanosarcina acetivorans Q8TTZ4 Q8TTZ4 3 X-RAY DIFFRACTION 254 1.0 188937 (Methanosarcina acetivorans C2A) 188937 (Methanosarcina acetivorans C2A) 248 248 PLTFVFSFLLLVLFLFIFLTLSNMIFEQITEDFSGLVKAAGNRSVISSIFLSLYAGFLATLLALLLGAPTGYILARFDFPGKRLVESIIDVPVVVPHTVAGIALLTVFGSRGLIGEPLESYIQFRDALPGIVVAMLFVSMPYLANSAREGFKSVDPRLENAARSLGAPLWKAFFFVTLPLSARYLLIGSVMTWARAISEFGAVVILAYYPMVGPTLIYDRFISYGLSASRPIAVLLILVTLSIFLVIR PLTFVFSFLLLVLFLFIFLTLSNMIFEQITEDFSGLVKAAGNRSVISSIFLSLYAGFLATLLALLLGAPTGYILARFDFPGKRLVESIIDVPVVVPHTVAGIALLTVFGSRGLIGEPLESYIQFRDALPGIVVAMLFVSMPYLANSAREGFKSVDPRLENAARSLGAPLWKAFFFVTLPLSARYLLIGSVMTWARAISEFGAVVILAYYPMVGPTLIYDRFISYGLSASRPIAVLLILVTLSIFLVIR 3d34-a1-m1-cA_3d34-a1-m1-cB Structure of the F-spondin domain of mindin Q9BUD6 Q9BUD6 1.8 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 215 ICSARAPAKYSITFTGKWSQTAFPKQYPLFRPPAQWSSLLGAAHSSDYSMWRKNQYVSNGLRDFAERGEAWALMKEIEAAGEALQSVHEVFSAPAVPSGTGQTSAELEVQRRHSLVSFVVRIVPSPDWFVGVDSLDLCDGDRWREQAALDLYPYDAGTDSGFTFSSPNFATIPQDTVTEITSSSPSHPANSFYYPRLKALPPIARVTLLRL ICSARAPAKYSITFTGKWSQTAFPKQYPLFRPPAQWSSLLGAAHSSDYSMWRKNQYVSNGLRDFAERGEAWALMKEIEAAGEALQSVHEVFSAPAVPSGTGQTSAELEVQRRHSLVSFVVRIVPSPDWFVGVDSLDLCDGDRWREQAALDLYPYDAGTDSGFTFSSPNFATIPQDTVTEITSSSPSHPANSFYYPRLKALPPIARVTLLRLRQSP 3d36-a1-m1-cA_3d36-a1-m1-cB How to Switch Off a Histidine Kinase: Crystal Structure of Geobacillus stearothermophilus KinB with the Inhibitor Sda 2.03 X-RAY DIFFRACTION 119 1.0 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 217 221 GPHMVIRLAASISHEIRNPLTAARGFIQLIEEQPLAADKRRQYARIAIEELDRAEAIITDYLTFAKPAPETPEKLNVKLEIERVIDILRPLANMSCVDIQATLAPFSVIGEREKFRQCLLNVMKNAIEAMPNGGTLQVYVSIDNGRVLIRIADTGVGMTKEQLERLGEPYFTTKGVKGTGLGMMVVYRIIESMNGTIRIESEIHKGTTVSIYLPLAS GPHMVIRAEKHLAASISHEIRNPLTAARGFIQLIEEQPLAADKRRQYARIAIEELDRAEAIITDYLTFAKPAPETPEKLNVKLEIERVIDILRPLANMSCVDIQATLAPFSVIGEREKFRQCLLNVMKNAIEAMPNGGTLQVYVSIDNGRVLIRIADTGVGMTKEQLERLGEPYFTTKGVKGTGLGMMVVYRIIESMNGTIRIESEIHKGTTVSIYLPLAS 3d37-a1-m2-cB_3d37-a1-m3-cB The crystal structure of the tail protein from Neisseria meningitidis MC58 Q9JZC8 Q9JZC8 2.1 X-RAY DIFFRACTION 54 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 316 316 3d37-a1-m1-cA_3d37-a1-m2-cA 3d37-a1-m1-cA_3d37-a1-m3-cA 3d37-a1-m1-cB_3d37-a1-m2-cB 3d37-a1-m1-cB_3d37-a1-m3-cB 3d37-a1-m2-cA_3d37-a1-m3-cA YGYAVSVRVGGKEHRHWERYDIDSDFLIPADSFDFVIPDLSGESCEVVIDGQIVMTGIIGSQRHGKSKGSRELSLSGRDLAGFLVDCSAPQLNVKGMTVLDAAKKLAAPWPQIKAVVLKAENNPALGKIDIEPGETVWQALTHIANSVGLHPWLEPDGTLVVGGADYSSPPVATLCWSRTDSRCNIERMDIEWDTDNRFSEVTFLLKWVYKDPTMTLHRPKTVVVDNLAALQKQAKKQLADWRLEGFTLTITVGGHKTRDGVLWQPGLRVHVIDDEHGIDAVFFLMGRRFMLSRMDGTQTELRLKEDGIWTPDAYP YGYAVSVRVGGKEHRHWERYDIDSDFLIPADSFDFVIPDLSGESCEVVIDGQIVMTGIIGSQRHGKSKGSRELSLSGRDLAGFLVDCSAPQLNVKGMTVLDAAKKLAAPWPQIKAVVLKAENNPALGKIDIEPGETVWQALTHIANSVGLHPWLEPDGTLVVGGADYSSPPVATLCWSRTDSRCNIERMDIEWDTDNRFSEVTFLLKWVYKDPTMTLHRPKTVVVDNLAALQKQAKKQLADWRLEGFTLTITVGGHKTRDGVLWQPGLRVHVIDDEHGIDAVFFLMGRRFMLSRMDGTQTELRLKEDGIWTPDAYP 3d37-a1-m3-cB_3d37-a1-m2-cA The crystal structure of the tail protein from Neisseria meningitidis MC58 Q9JZC8 Q9JZC8 2.1 X-RAY DIFFRACTION 23 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 316 326 3d37-a1-m1-cB_3d37-a1-m3-cA 3d37-a1-m2-cB_3d37-a1-m1-cA YGYAVSVRVGGKEHRHWERYDIDSDFLIPADSFDFVIPDLSGESCEVVIDGQIVMTGIIGSQRHGKSKGSRELSLSGRDLAGFLVDCSAPQLNVKGMTVLDAAKKLAAPWPQIKAVVLKAENNPALGKIDIEPGETVWQALTHIANSVGLHPWLEPDGTLVVGGADYSSPPVATLCWSRTDSRCNIERMDIEWDTDNRFSEVTFLLKWVYKDPTMTLHRPKTVVVDNLAALQKQAKKQLADWRLEGFTLTITVGGHKTRDGVLWQPGLRVHVIDDEHGIDAVFFLMGRRFMLSRMDGTQTELRLKEDGIWTPDAYP YGYAVSVRVGGKEHRHWERYDIDSDFLIPADSFDFVIGRPDLSGESCEVVIDGQIVMTGIIGSQRHGKSKGSRELSLSGRDLAGFLVDCSAPQLNVKGMTVLDAAKKLAAPWPQIKAVVLKAENNPALGKIDIEPGETVWQALTHIANSVGLHPWLEPDGTLVVGGADYSSPPVATLCWSRTDSRCNIERMDIEWDTDNRFSEVTFLAQSHGHDLKWVYKDPTMTLHRPKTVVVSDNLAALQKQAKKQLADWRLEGFTLTITVGGHKTRDGVLWQPGLRVHVIDDEHGIDAVFFLMGRRFMLSRMDGTQTELRLKEDGIWTPDAYP 3d37-a1-m3-cB_3d37-a1-m3-cA The crystal structure of the tail protein from Neisseria meningitidis MC58 Q9JZC8 Q9JZC8 2.1 X-RAY DIFFRACTION 38 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 316 326 3d37-a1-m1-cB_3d37-a1-m1-cA 3d37-a1-m2-cB_3d37-a1-m2-cA YGYAVSVRVGGKEHRHWERYDIDSDFLIPADSFDFVIPDLSGESCEVVIDGQIVMTGIIGSQRHGKSKGSRELSLSGRDLAGFLVDCSAPQLNVKGMTVLDAAKKLAAPWPQIKAVVLKAENNPALGKIDIEPGETVWQALTHIANSVGLHPWLEPDGTLVVGGADYSSPPVATLCWSRTDSRCNIERMDIEWDTDNRFSEVTFLLKWVYKDPTMTLHRPKTVVVDNLAALQKQAKKQLADWRLEGFTLTITVGGHKTRDGVLWQPGLRVHVIDDEHGIDAVFFLMGRRFMLSRMDGTQTELRLKEDGIWTPDAYP YGYAVSVRVGGKEHRHWERYDIDSDFLIPADSFDFVIGRPDLSGESCEVVIDGQIVMTGIIGSQRHGKSKGSRELSLSGRDLAGFLVDCSAPQLNVKGMTVLDAAKKLAAPWPQIKAVVLKAENNPALGKIDIEPGETVWQALTHIANSVGLHPWLEPDGTLVVGGADYSSPPVATLCWSRTDSRCNIERMDIEWDTDNRFSEVTFLAQSHGHDLKWVYKDPTMTLHRPKTVVVSDNLAALQKQAKKQLADWRLEGFTLTITVGGHKTRDGVLWQPGLRVHVIDDEHGIDAVFFLMGRRFMLSRMDGTQTELRLKEDGIWTPDAYP 3d3f-a1-m1-cA_3d3f-a1-m1-cB Crystal Structure of Yvgn and cofactor NADPH from Bacillus subtilis O32210 O32210 2.4 X-RAY DIFFRACTION 26 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 275 275 PTSLKDTVKLHNGVEMPWFGLGVFKVENGNEATESVKAAIKNGYRSIDTAAIYKNEEGVGIGIKESGVAREELFITSKVWNEDQGYETTLAAFEKSLERLQLDYLDLYLIHWPGKDKYKDTWRALEKLYKDGKIRAIGVSNFQVHHLEELLKDAEIKPMVNQVEFHPRLTQKELRDYCKGQGIQLEAWSPLMQGQLLDNEVLTQIAEKHNKSVAQVILRWDLQHGVVTIPKSIKEHRIIENADIFDFELSQEDMDKIDALNKDERVGPNPDELLF PTSLKDTVKLHNGVEMPWFGLGVFKVENGNEATESVKAAIKNGYRSIDTAAIYKNEEGVGIGIKESGVAREELFITSKVWNEDQGYETTLAAFEKSLERLQLDYLDLYLIHWPGKDKYKDTWRALEKLYKDGKIRAIGVSNFQVHHLEELLKDAEIKPMVNQVEFHPRLTQKELRDYCKGQGIQLEAWSPLMQGQLLDNEVLTQIAEKHNKSVAQVILRWDLQHGVVTIPKSIKEHRIIENADIFDFELSQEDMDKIDALNKDERVGPNPDELLF 3d3h-a1-m1-cA_3d3h-a1-m2-cA Crystal structure of a complex of the peptidoglycan glycosyltransferase domain from Aquifex aeolicus and neryl moenomycin A O66874 O66874 2.31 X-RAY DIFFRACTION 54 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 174 174 2oqo-a1-m1-cA_2oqo-a1-m2-cA 3nb6-a1-m1-cA_3nb6-a1-m2-cA 3nb7-a1-m1-cA_3nb7-a1-m2-cA QKRFYVSIDKIPEHVINAFVATEDRNFWHHFGIDPVAIVRAAIQGGSTITQQLAKNLFLTRERTLERKIKEALLAIKIERTFDKKKIMELYLNQIYLGSGAYGVEAAAQVYFGKHVWELSLDEAALLAALPKAPAKYNPFYHPERALQRRNLVLKRMLEEGYITPEQYEEAVNK QKRFYVSIDKIPEHVINAFVATEDRNFWHHFGIDPVAIVRAAIQGGSTITQQLAKNLFLTRERTLERKIKEALLAIKIERTFDKKKIMELYLNQIYLGSGAYGVEAAAQVYFGKHVWELSLDEAALLAALPKAPAKYNPFYHPERALQRRNLVLKRMLEEGYITPEQYEEAVNK 3d3i-a1-m1-cA_3d3i-a1-m1-cB Crystal structural of Escherichia coli K12 YgjK, a glucosidase belonging to glycoside hydrolase family 63 P42592 P42592 1.78 X-RAY DIFFRACTION 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 743 743 ADNYKNVINRTGAPQYKDYDYDDHQRFNPFFDLGAWHGHLLPDGPNTGGFPGVALLTEEYINFASNFDRLTVWQDGKKVDFTLEAYSIPGALVQKLTAKDVQVETLRFATPRTSLLETKITSNKPLDLVWDGELLEKLEAKEGKPLSDKTIAGEYPDYQRKISATRDGLKVTFGKVRATWDLLTSGESEYQVHKSLPVQTEINGNRFTSKAHINGSTTLYTTYSHLLTAQEVSKEQQIRDILARPAFYLTASQQRWEEYLKKGLTNPDATPEQTRVAVKAIETLNGNWRSPGGAVKFNTVTPSVTGRWFSGNQTWPWDTWKQAFAAHFNPDIAKENIRAVFSWQIQPGDSVRPQDVGFVPDLIAWNLSPERGGDGGNWNERNTKPSLAAWSVEVYNVTQDKTWVAEYPKLVAYHDWWLRNRDHNGNGVPEYGATRDKAHNTESGELFTVKKGDKEETQSGLNNYARVVEKGQYDSLEIPAQVAASWESGRDDAAVFGFIDKEQLDKYVANGGKRSDWTVKFAENRSQDGTLLGYSLLQESVDQASYYSDNHYLAEATILGKPEEAKRYRQLAQQLADYINTCFDPTTQFYYDVRIEDKPLANGCAGKPIVERGKGPEGWSPLFNGAATQANADAVVKVLDPKEFNTFVPLGTAALTNPAFGADIYWRGRVWVDQFWFGLKGERYGYRDDALKLADTFFRHAKGLTADGPIQENYNPLTGAQQGAPNFSWSAAHLYLYNDFFRK ADNYKNVINRTGAPQYKDYDYDDHQRFNPFFDLGAWHGHLLPDGPNTGGFPGVALLTEEYINFASNFDRLTVWQDGKKVDFTLEAYSIPGALVQKLTAKDVQVETLRFATPRTSLLETKITSNKPLDLVWDGELLEKLEAKEGKPLSDKTIAGEYPDYQRKISATRDGLKVTFGKVRATWDLLTSGESEYQVHKSLPVQTEINGNRFTSKAHINGSTTLYTTYSHLLTAQEVSKEQQIRDILARPAFYLTASQQRWEEYLKKGLTNPDATPEQTRVAVKAIETLNGNWRSPGGAVKFNTVTPSVTGRWFSGNQTWPWDTWKQAFAAHFNPDIAKENIRAVFSWQIQPGDSVRPQDVGFVPDLIAWNLSPERGGDGGNWNERNTKPSLAAWSVEVYNVTQDKTWVAEYPKLVAYHDWWLRNRDHNGNGVPEYGATRDKAHNTESGELFTVKKGDKEETQSGLNNYARVVEKGQYDSLEIPAQVAASWESGRDDAAVFGFIDKEQLDKYVANGGKRSDWTVKFAENRSQDGTLLGYSLLQESVDQASYYSDNHYLAEATILGKPEEAKRYRQLAQQLADYINTCFDPTTQFYYDVRIEDKPLANGCAGKPIVERGKGPEGWSPLFNGAATQANADAVVKVLDPKEFNTFVPLGTAALTNPAFGADIYWRGRVWVDQFWFGLKGERYGYRDDALKLADTFFRHAKGLTADGPIQENYNPLTGAQQGAPNFSWSAAHLYLYNDFFRK 3d3k-a3-m1-cD_3d3k-a3-m3-cD Crystal structure of human Edc3p Q96F86 Q96F86 2.2 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 3d3j-a1-m1-cA_3d3j-a1-m2-cA 3d3k-a1-m1-cA_3d3k-a1-m1-cB 3d3k-a2-m1-cC_3d3k-a2-m2-cC YRRIIVPSKEFCTDSGLVVPSISYELHKKLLSVAEKHGLTLERRLEMTGVCASQMALTLLGGPQRPTVALLCGPHVKGAQGISCGRHLANHDVQVILFLPNFVKMLESITNELSLFSKTQGQQVSSLKDLPTSPVDLVINCLDCPENVFLRDQPWYKAAVAWANQNRAPVLSIDPPVHIDAKWSLALGLPLPLGEHAGRIYLCDIGIPQQVFQEVGINYHSPFGCKFVIPLHS YRRIIVPSKEFCTDSGLVVPSISYELHKKLLSVAEKHGLTLERRLEMTGVCASQMALTLLGGPQRPTVALLCGPHVKGAQGISCGRHLANHDVQVILFLPNFVKMLESITNELSLFSKTQGQQVSSLKDLPTSPVDLVINCLDCPENVFLRDQPWYKAAVAWANQNRAPVLSIDPPVHIDAKWSLALGLPLPLGEHAGRIYLCDIGIPQQVFQEVGINYHSPFGCKFVIPLHS 3d3r-a2-m1-cB_3d3r-a2-m2-cB Crystal structure of the hydrogenase assembly chaperone HypC/HupF family protein from Shewanella oneidensis MR-1 Q8EF93 Q8EF93 1.85 X-RAY DIFFRACTION 10 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 77 77 3d3r-a2-m1-cA_3d3r-a2-m2-cA YFQGCLSIPSQVVAVDNERQSVTVDTLGVRRDVSSHLTEPLAIGDYVLIHIGFVNKIDRNDALQSLELYQEIVSKLE YFQGCLSIPSQVVAVDNERQSVTVDTLGVRRDVSSHLTEPLAIGDYVLIHIGFVNKIDRNDALQSLELYQEIVSKLE 3d3r-a2-m2-cB_3d3r-a2-m1-cA Crystal structure of the hydrogenase assembly chaperone HypC/HupF family protein from Shewanella oneidensis MR-1 Q8EF93 Q8EF93 1.85 X-RAY DIFFRACTION 49 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 77 80 3d3r-a2-m1-cB_3d3r-a2-m2-cA YFQGCLSIPSQVVAVDNERQSVTVDTLGVRRDVSSHLTEPLAIGDYVLIHIGFVNKIDRNDALQSLELYQEIVSKLE ENLYFQGCLSIPSQVVAVDNERQSVTVDTLGVRRDVSSHLTEPLAIGDYVLIHIGFVNKIDRNDALQSLELYQEIVSKLE 3d3r-a2-m2-cB_3d3r-a2-m2-cA Crystal structure of the hydrogenase assembly chaperone HypC/HupF family protein from Shewanella oneidensis MR-1 Q8EF93 Q8EF93 1.85 X-RAY DIFFRACTION 104 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 77 80 3d3r-a1-m1-cB_3d3r-a1-m1-cA 3d3r-a2-m1-cB_3d3r-a2-m1-cA YFQGCLSIPSQVVAVDNERQSVTVDTLGVRRDVSSHLTEPLAIGDYVLIHIGFVNKIDRNDALQSLELYQEIVSKLE ENLYFQGCLSIPSQVVAVDNERQSVTVDTLGVRRDVSSHLTEPLAIGDYVLIHIGFVNKIDRNDALQSLELYQEIVSKLE 3d3s-a2-m1-cD_3d3s-a2-m1-cC Crystal structure of L-2,4-diaminobutyric acid acetyltransferase from Bordetella parapertussis Q7W980 Q7W980 1.87 X-RAY DIFFRACTION 48 0.986 257311 (Bordetella parapertussis 12822) 257311 (Bordetella parapertussis 12822) 143 147 3d3s-a1-m1-cB_3d3s-a1-m1-cA RYHLRPPRRNDGAAIHQLVSECPPLDLNSLYAYLLLCEHHAHTCVVAESPGGRIDGFVSAYLLPTRPDVLFVWQVAVHSRARGHRLGRALGHILERQECRHVRHLETTVQASRRTFAGLAGERGAHVSEQPFDELLRIGPFTH LRYHLRPPRRNDGAAIHQLVSECPPLDLNSLYAYLLLCEHHAHTCVVAESPGGRIDGFVSAYLLPTRPDVLFVWQVAVHSRARGHRLGRALGHILERQECRHVRHLETTVGPDNQASRRTFAGLAGERGAHVSEQPFFDELLRIGPF 3d3w-a2-m2-cA_3d3w-a2-m1-cB Structure of L-Xylulose Reductase with bound coenzyme, phosphate and hydroxide. Q7Z4W1 Q7Z4W1 1.87 X-RAY DIFFRACTION 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 244 1pr9-a2-m1-cA_1pr9-a2-m2-cB 1pr9-a2-m1-cB_1pr9-a2-m2-cA 1wnt-a1-m1-cA_1wnt-a1-m1-cD 1wnt-a1-m1-cB_1wnt-a1-m1-cC 3d3w-a1-m1-cA_3d3w-a1-m2-cB 3d3w-a1-m2-cA_3d3w-a1-m1-cB MELFLAGRRVLVTGAGKGIGRGTVQALHATGARVVAVSRTQADLDSLVRECPGIEPVCVDLGDWEATERALGSVGPVDLLVNNAAVALLQPFLEVTKEAFDRSFEVNLRAVIQVSQIVARGLIARGVPGAIVNVSSQSQRAVTNHSVYCSTKGALDMLTKVMALELGPHKIRVNAVNPTVVMTSMGQATWSDPHKAKTMLNRIPLGKFAEVEHVVNAILFLLSDRSGMTTGSTLPVEGGFWAC MELFLAGRRVLVTGAGKGIGRGTVQALHATGARVVAVSRTQADLDSLVRECPGIEPVCVDLGDWEATERALGSVGPVDLLVNNAAVALLQPFLEVTKEAFDRSFEVNLRAVIQVSQIVARGLIARGVPGAIVNVSSQCSQRAVTNHSVYCSTKGALDMLTKVMALELGPHKIRVNAVNPTVVMTSMGQATWSDPHKAKTMLNRIPLGKFAEVEHVVNAILFLLSDRSGMTTGSTLPVEGGFWAC 3d3w-a4-m1-cB_3d3w-a4-m2-cB Structure of L-Xylulose Reductase with bound coenzyme, phosphate and hydroxide. Q7Z4W1 Q7Z4W1 1.87 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 1pr9-a2-m1-cA_1pr9-a2-m2-cA 1pr9-a2-m1-cB_1pr9-a2-m2-cB 1wnt-a1-m1-cA_1wnt-a1-m1-cC 1wnt-a1-m1-cB_1wnt-a1-m1-cD 3d3w-a1-m1-cA_3d3w-a1-m2-cA 3d3w-a1-m1-cB_3d3w-a1-m2-cB 3d3w-a3-m1-cA_3d3w-a3-m2-cA MELFLAGRRVLVTGAGKGIGRGTVQALHATGARVVAVSRTQADLDSLVRECPGIEPVCVDLGDWEATERALGSVGPVDLLVNNAAVALLQPFLEVTKEAFDRSFEVNLRAVIQVSQIVARGLIARGVPGAIVNVSSQCSQRAVTNHSVYCSTKGALDMLTKVMALELGPHKIRVNAVNPTVVMTSMGQATWSDPHKAKTMLNRIPLGKFAEVEHVVNAILFLLSDRSGMTTGSTLPVEGGFWAC MELFLAGRRVLVTGAGKGIGRGTVQALHATGARVVAVSRTQADLDSLVRECPGIEPVCVDLGDWEATERALGSVGPVDLLVNNAAVALLQPFLEVTKEAFDRSFEVNLRAVIQVSQIVARGLIARGVPGAIVNVSSQCSQRAVTNHSVYCSTKGALDMLTKVMALELGPHKIRVNAVNPTVVMTSMGQATWSDPHKAKTMLNRIPLGKFAEVEHVVNAILFLLSDRSGMTTGSTLPVEGGFWAC 3d47-a5-m1-cC_3d47-a5-m1-cH Crystal structure of L-rhamnonate dehydratase from Salmonella typhimurium complexed with Mg and D-malate Q8ZNF9 Q8ZNF9 1.8 X-RAY DIFFRACTION 124 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 405 405 2gsh-a1-m1-cA_2gsh-a1-m3-cA 2gsh-a1-m1-cB_2gsh-a1-m4-cB 2gsh-a1-m2-cA_2gsh-a1-m4-cA 2gsh-a1-m2-cB_2gsh-a1-m3-cB 2i5q-a2-m1-cA_2i5q-a2-m4-cB 2i5q-a2-m2-cA_2i5q-a2-m3-cB 2i5q-a2-m3-cA_2i5q-a2-m1-cB 2i5q-a2-m4-cA_2i5q-a2-m2-cB 2p3z-a1-m1-cA_2p3z-a1-m4-cB 2p3z-a1-m1-cB_2p3z-a1-m3-cA 2p3z-a1-m2-cA_2p3z-a1-m3-cB 2p3z-a1-m2-cB_2p3z-a1-m4-cA 3box-a2-m1-cA_3box-a2-m4-cB 3box-a2-m1-cB_3box-a2-m3-cA 3box-a2-m2-cA_3box-a2-m3-cB 3box-a2-m2-cB_3box-a2-m4-cA 3cxo-a2-m1-cA_3cxo-a2-m3-cB 3cxo-a2-m1-cB_3cxo-a2-m4-cA 3cxo-a2-m2-cA_3cxo-a2-m4-cB 3cxo-a2-m2-cB_3cxo-a2-m3-cA 3d46-a5-m1-cA_3d46-a5-m1-cE 3d46-a5-m1-cB_3d46-a5-m1-cG 3d46-a5-m1-cC_3d46-a5-m1-cH 3d46-a5-m1-cD_3d46-a5-m1-cF 3d47-a5-m1-cA_3d47-a5-m1-cE 3d47-a5-m1-cB_3d47-a5-m1-cG 3d47-a5-m1-cD_3d47-a5-m1-cF MENIMTLPKIKHVRAWFIGGATAEKGAGGGDYHDQGGNHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLIVEVEAENRQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLGATMYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPFNLKWIEECLPPQQYEGYRELKRNAPAGMMVTSGEHHGTLQSFRTLAETGIDIMQPDVGWCGGLTTLVEIAALAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTLRPQFDPILLDEPVPVNGRIHKSVLDKPGFGVELNRDCHLKRPYSH MENIMTLPKIKHVRAWFIGGATAEKGAGGGDYHDQGGNHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLIVEVEAENRQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLGATMYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPFNLKWIEECLPPQQYEGYRELKRNAPAGMMVTSGEHHGTLQSFRTLAETGIDIMQPDVGWCGGLTTLVEIAALAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTLRPQFDPILLDEPVPVNGRIHKSVLDKPGFGVELNRDCHLKRPYSH 3d47-a5-m1-cD_3d47-a5-m1-cH Crystal structure of L-rhamnonate dehydratase from Salmonella typhimurium complexed with Mg and D-malate Q8ZNF9 Q8ZNF9 1.8 X-RAY DIFFRACTION 24 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 405 405 2gsh-a1-m1-cA_2gsh-a1-m3-cB 2gsh-a1-m1-cA_2gsh-a1-m4-cB 2gsh-a1-m1-cB_2gsh-a1-m3-cA 2gsh-a1-m1-cB_2gsh-a1-m4-cA 2gsh-a1-m2-cA_2gsh-a1-m3-cB 2gsh-a1-m2-cA_2gsh-a1-m4-cB 2gsh-a1-m2-cB_2gsh-a1-m3-cA 2gsh-a1-m2-cB_2gsh-a1-m4-cA 2i5q-a2-m1-cA_2i5q-a2-m3-cA 2i5q-a2-m1-cA_2i5q-a2-m4-cA 2i5q-a2-m1-cB_2i5q-a2-m3-cB 2i5q-a2-m1-cB_2i5q-a2-m4-cB 2i5q-a2-m2-cA_2i5q-a2-m3-cA 2i5q-a2-m2-cA_2i5q-a2-m4-cA 2i5q-a2-m2-cB_2i5q-a2-m3-cB 2i5q-a2-m2-cB_2i5q-a2-m4-cB 2p3z-a1-m1-cA_2p3z-a1-m3-cA 2p3z-a1-m1-cA_2p3z-a1-m4-cA 2p3z-a1-m1-cB_2p3z-a1-m3-cB 2p3z-a1-m1-cB_2p3z-a1-m4-cB 2p3z-a1-m2-cA_2p3z-a1-m3-cA 2p3z-a1-m2-cA_2p3z-a1-m4-cA 2p3z-a1-m2-cB_2p3z-a1-m3-cB 2p3z-a1-m2-cB_2p3z-a1-m4-cB 3box-a2-m1-cA_3box-a2-m3-cA 3box-a2-m1-cA_3box-a2-m4-cA 3box-a2-m1-cB_3box-a2-m3-cB 3box-a2-m1-cB_3box-a2-m4-cB 3box-a2-m2-cA_3box-a2-m3-cA 3box-a2-m2-cA_3box-a2-m4-cA 3box-a2-m2-cB_3box-a2-m3-cB 3box-a2-m2-cB_3box-a2-m4-cB 3cxo-a2-m1-cA_3cxo-a2-m3-cA 3cxo-a2-m1-cA_3cxo-a2-m4-cA 3cxo-a2-m1-cB_3cxo-a2-m3-cB 3cxo-a2-m1-cB_3cxo-a2-m4-cB 3cxo-a2-m2-cA_3cxo-a2-m3-cA 3cxo-a2-m2-cA_3cxo-a2-m4-cA 3cxo-a2-m2-cB_3cxo-a2-m3-cB 3cxo-a2-m2-cB_3cxo-a2-m4-cB 3d46-a5-m1-cA_3d46-a5-m1-cF 3d46-a5-m1-cA_3d46-a5-m1-cG 3d46-a5-m1-cB_3d46-a5-m1-cE 3d46-a5-m1-cB_3d46-a5-m1-cH 3d46-a5-m1-cC_3d46-a5-m1-cF 3d46-a5-m1-cC_3d46-a5-m1-cG 3d46-a5-m1-cD_3d46-a5-m1-cE 3d46-a5-m1-cD_3d46-a5-m1-cH 3d47-a5-m1-cA_3d47-a5-m1-cF 3d47-a5-m1-cA_3d47-a5-m1-cG 3d47-a5-m1-cB_3d47-a5-m1-cE 3d47-a5-m1-cB_3d47-a5-m1-cH 3d47-a5-m1-cC_3d47-a5-m1-cF 3d47-a5-m1-cC_3d47-a5-m1-cG 3d47-a5-m1-cD_3d47-a5-m1-cE MENIMTLPKIKHVRAWFIGGATAEKGAGGGDYHDQGGNHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLIVEVEAENRQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLGATMYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPFNLKWIEECLPPQQYEGYRELKRNAPAGMMVTSGEHHGTLQSFRTLAETGIDIMQPDVGWCGGLTTLVEIAALAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTLRPQFDPILLDEPVPVNGRIHKSVLDKPGFGVELNRDCHLKRPYSH MENIMTLPKIKHVRAWFIGGATAEKGAGGGDYHDQGGNHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLIVEVEAENRQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLGATMYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPFNLKWIEECLPPQQYEGYRELKRNAPAGMMVTSGEHHGTLQSFRTLAETGIDIMQPDVGWCGGLTTLVEIAALAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTLRPQFDPILLDEPVPVNGRIHKSVLDKPGFGVELNRDCHLKRPYSH 3d47-a5-m1-cG_3d47-a5-m1-cH Crystal structure of L-rhamnonate dehydratase from Salmonella typhimurium complexed with Mg and D-malate Q8ZNF9 Q8ZNF9 1.8 X-RAY DIFFRACTION 143 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 405 405 2gsh-a1-m1-cA_2gsh-a1-m1-cB 2gsh-a1-m2-cA_2gsh-a1-m2-cB 2gsh-a1-m3-cA_2gsh-a1-m3-cB 2gsh-a1-m4-cA_2gsh-a1-m4-cB 2i5q-a1-m1-cA_2i5q-a1-m1-cB 2i5q-a2-m1-cA_2i5q-a2-m1-cB 2i5q-a2-m2-cA_2i5q-a2-m2-cB 2i5q-a2-m3-cA_2i5q-a2-m3-cB 2i5q-a2-m4-cA_2i5q-a2-m4-cB 2p3z-a1-m1-cA_2p3z-a1-m1-cB 2p3z-a1-m2-cA_2p3z-a1-m2-cB 2p3z-a1-m3-cA_2p3z-a1-m3-cB 2p3z-a1-m4-cA_2p3z-a1-m4-cB 3box-a1-m1-cA_3box-a1-m1-cB 3box-a2-m1-cA_3box-a2-m1-cB 3box-a2-m2-cA_3box-a2-m2-cB 3box-a2-m3-cA_3box-a2-m3-cB 3box-a2-m4-cA_3box-a2-m4-cB 3cxo-a1-m1-cA_3cxo-a1-m1-cB 3cxo-a2-m1-cA_3cxo-a2-m1-cB 3cxo-a2-m2-cA_3cxo-a2-m2-cB 3cxo-a2-m3-cA_3cxo-a2-m3-cB 3cxo-a2-m4-cA_3cxo-a2-m4-cB 3d46-a1-m1-cA_3d46-a1-m1-cB 3d46-a2-m1-cC_3d46-a2-m1-cD 3d46-a3-m1-cE_3d46-a3-m1-cF 3d46-a4-m1-cG_3d46-a4-m1-cH 3d46-a5-m1-cA_3d46-a5-m1-cB 3d46-a5-m1-cC_3d46-a5-m1-cD 3d46-a5-m1-cE_3d46-a5-m1-cF 3d46-a5-m1-cG_3d46-a5-m1-cH 3d47-a1-m1-cA_3d47-a1-m1-cB 3d47-a2-m1-cC_3d47-a2-m1-cD 3d47-a3-m1-cE_3d47-a3-m1-cF 3d47-a4-m1-cG_3d47-a4-m1-cH 3d47-a5-m1-cA_3d47-a5-m1-cB 3d47-a5-m1-cC_3d47-a5-m1-cD 3d47-a5-m1-cE_3d47-a5-m1-cF MENIMTLPKIKHVRAWFIGGATAEKGAGGGDYHDQGGNHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLIVEVEAENRQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLGATMYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPFNLKWIEECLPPQQYEGYRELKRNAPAGMMVTSGEHHGTLQSFRTLAETGIDIMQPDVGWCGGLTTLVEIAALAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTLRPQFDPILLDEPVPVNGRIHKSVLDKPGFGVELNRDCHLKRPYSH MENIMTLPKIKHVRAWFIGGATAEKGAGGGDYHDQGGNHWIDDHIATPMSKYRDYEQSRQSFGINVLGTLIVEVEAENRQTGFAVSTAGEMGCFIVEKHLNRFIEGKCVSDIKLIHDQMLGATMYYSGSGGLVMNTISCVDLALWDLFGKVVGLPVYKLLGGAVRDEIQFYATGARPDLAKEMGFIGGKMPTHWGPHDGDAGIRKDAAMVADMREKCGPDFWLMLDCWMSQDVNYATKLAHACAPFNLKWIEECLPPQQYEGYRELKRNAPAGMMVTSGEHHGTLQSFRTLAETGIDIMQPDVGWCGGLTTLVEIAALAKSRGQLVVPHGSSVYSHHAVITFTNTPFSEFLMTSPDCSTLRPQFDPILLDEPVPVNGRIHKSVLDKPGFGVELNRDCHLKRPYSH 3d4j-a1-m1-cB_3d4j-a1-m1-cA Crystal structure of Human mevalonate diphosphate decarboxylase P53602 P53602 2.4 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 368 374 AVTCTAPVNIAVIKYWGKRDEELVLPINSSLSVTLHQDQLKTTTTAVISKDFTEDRIWLNGREEDVGQPRLQACLREIRCLACKVHVASVNNFPTLASSAAGYACLAYTLARVYGVESDLSEVARRGSGSACRSLYGGFVEWQMGEQADGKDSIARQVAPESHWPELRVLILVVSAEKKLTGSTVGMRASVETSPLLRFRAESVVPARMAEMARCIRERDFPSFAQLTMKDSNQFHATCLDTFPPISYLNAISWRIIHLVHRFNAHHGDTKVAYTFDAGPNAVIFTLDDTVAEFVAAVWHGFPPGSNGDTFLKGLQVRPAPLSAELQAALAMEPTPGGVKYIIVTQVGPGPQILDDPCAHLLGPDGLP AAVTCTAPVNIAVIKYWGKRDEELVLPINSSLSVTLHQDQLKTTTTAVISKDFTEDRIWLNGREEDVGQPRLQACLREIRCLARSCKVHVASVNNFPTAAGLASSAAGYACLAYTLARVYGVESDLSEVARRGSGSACRSLYGGFVEWQMGEQADGKDSIARQVAPESHWPELRVLILVVSAEKKLTGSTVGMRASVETSPLLRFRAESVVPARMAEMARCIRERDFPSFAQLTMKDSNQFHATCLDTFPPISYLNAISWRIIHLVHRFNAHHGDTKVAYTFDAGPNAVIFTLDDTVAEFVAAVWHGFPPGSNGDTFLKGLQVRPAPLSAELQAALAMEPTPGGVKYIIVTQVGPGPQILDDPCAHLLGPDGLP 3d4o-a3-m1-cD_3d4o-a3-m1-cB Crystal structure of dipicolinate synthase subunit A (NP_243269.1) from BACILLUS HALODURANS at 2.10 A resolution Q9KA87 Q9KA87 2.1 X-RAY DIFFRACTION 62 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 279 280 3d4o-a1-m1-cA_3d4o-a1-m1-cC 3d4o-a2-m1-cD_3d4o-a2-m1-cB 3d4o-a3-m1-cA_3d4o-a3-m1-cC GLTGKHVVIIGGDARQLEIIRKLSTFDAKISLVGFDQLDGFIGVTKRIDEVDWNTVDAILLPISGTNEAGKVDTIFSNESIVLTEEIEKTPNHCVVYSGISNTYLNQCKKTNRTLVKLERDDIAIYNSIPTAEGTIAIQHTDFTIHGANVAVLGLGRVGSVARKFAALGAKVKVGARESDLLARIAEGEPFHISKAAQELRDVDVCINTIPALVVTANVLAEPSHTFVIDLASKPGGTDFRYAEKRGIKALLVPGLPGIVAPKTAGRILADVLVKLLAE GLTGKHVVIIGGDARQLEIIRKLSTFDAKISLVGFDQLDGFIGVTKRIDEVDWNTVDAILLPISGTNEAGKVDTIFSNESIVLTEEIEKTPNHCVVYSGISNTYLNQCKKTNRTLVKLERDDIAIYNSIPTAEGTIAIQHTDFTIHGANVAVLGLGRVGSVARKFAALGAKVKVGARESDLLARIAEGEPFHISKAAQELRDVDVCINTIPALVVTANVLAEPSHTFVIDLASKPGGTDFRYAEKRGIKALLVPGLPGIVAPKTAGRILADVLVKLLAEP 3d4o-a3-m1-cD_3d4o-a3-m1-cC Crystal structure of dipicolinate synthase subunit A (NP_243269.1) from BACILLUS HALODURANS at 2.10 A resolution Q9KA87 Q9KA87 2.1 X-RAY DIFFRACTION 42 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 279 280 3d4o-a3-m1-cA_3d4o-a3-m1-cB GLTGKHVVIIGGDARQLEIIRKLSTFDAKISLVGFDQLDGFIGVTKRIDEVDWNTVDAILLPISGTNEAGKVDTIFSNESIVLTEEIEKTPNHCVVYSGISNTYLNQCKKTNRTLVKLERDDIAIYNSIPTAEGTIAIQHTDFTIHGANVAVLGLGRVGSVARKFAALGAKVKVGARESDLLARIAEGEPFHISKAAQELRDVDVCINTIPALVVTANVLAEPSHTFVIDLASKPGGTDFRYAEKRGIKALLVPGLPGIVAPKTAGRILADVLVKLLAE GLTGKHVVIIGGDARQLEIIRKLSTFDAKISLVGFDQLDDGFIGVTKRIDEVDWNTVDAILLPISGTNEAGKVDTIFSNESIVLTEEIEKTPNHCVVYSGISNTYLNQCKKTNRTLVKLERDDIAIYNSIPTAEGTIAIQHTDFTIHGANVAVLGLGRVGSVARKFAALGAKVKVGARESDLLARIAEGEPFHISKAAQELRDVDVCINTIPALVVTANVLAEPSHTFVIDLASKPGGTDFRYAEKRGIKALLVPGLPGIVAPKTAGRILADVLVKLLAE 3d4p-a1-m1-cA_3d4p-a1-m2-cB Crystal structure of Lactate Dehydrogenase from Staphylococcus Aureus complexed with NAD and pyruvate Q5HJD7 Q5HJD7 1.8 X-RAY DIFFRACTION 49 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 307 310 3d0o-a1-m1-cA_3d0o-a1-m2-cB 3d0o-a1-m2-cA_3d0o-a1-m1-cB 3d4p-a1-m2-cA_3d4p-a1-m1-cB 3h3j-a1-m1-cA_3h3j-a1-m2-cA 3h3j-a1-m1-cB_3h3j-a1-m2-cB FKGNKVVLIGNGAVGSSYAFSLVNQSIVDELVIIDLDTEKVRGDVMDLKHATPYSPTTVRVKAGEYSDCHDADLVVICAGAAQKPTRLDLVSKNLKIFKSIVGEVMASKFDGIFLVATNPVDILAYATWKFSGLPKERVIGSGTILDSARFRLLLSEAFDVAPRSVDAQIIGEHGDTELPVWSHANIAGQPLKTLLEQRPEGKAQIEQIFVQTRDAAYDIIQAKGATYYGVAMGLARITEAIFRNEDAVLTVSALLEGEYEEEDVYIGVPAVINRNGIRNVVEIPLNDEEQSKFAHSAKTLKDIMAE FKGNKVVLIGNGAVGSSYAFSLVNQSIVDELVIIDLDTEKVRGDVMDLKHATPYSPTTVRVKAGEYSDCHDADLVVICAGAAQKPGETRLDLVSKNLKIFKSIVGEVMASKFDGIFLVATNPVDILAYATWKFSGLPKERVIGSGTILDSARFRLLLSEAFDVAPRSVDAQIIGEHGDTELPVWSHANIAGQPLKTLLEQRPEGKAQIEQIFVQTRDAAYDIIQAKGATYYGVAMGLARITEAIFRNEDAVLTVSALLEGEYEEEDVYIGVPAVINRNGIRNVVEIPLNDEEQSKFAHSAKTLKDIMAEA 3d4p-a1-m2-cA_3d4p-a1-m2-cB Crystal structure of Lactate Dehydrogenase from Staphylococcus Aureus complexed with NAD and pyruvate Q5HJD7 Q5HJD7 1.8 X-RAY DIFFRACTION 72 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 307 310 3d0o-a1-m1-cA_3d0o-a1-m1-cB 3d0o-a1-m2-cA_3d0o-a1-m2-cB 3d4p-a1-m1-cA_3d4p-a1-m1-cB 3h3j-a1-m1-cA_3h3j-a1-m1-cB 3h3j-a1-m2-cA_3h3j-a1-m2-cB FKGNKVVLIGNGAVGSSYAFSLVNQSIVDELVIIDLDTEKVRGDVMDLKHATPYSPTTVRVKAGEYSDCHDADLVVICAGAAQKPTRLDLVSKNLKIFKSIVGEVMASKFDGIFLVATNPVDILAYATWKFSGLPKERVIGSGTILDSARFRLLLSEAFDVAPRSVDAQIIGEHGDTELPVWSHANIAGQPLKTLLEQRPEGKAQIEQIFVQTRDAAYDIIQAKGATYYGVAMGLARITEAIFRNEDAVLTVSALLEGEYEEEDVYIGVPAVINRNGIRNVVEIPLNDEEQSKFAHSAKTLKDIMAE FKGNKVVLIGNGAVGSSYAFSLVNQSIVDELVIIDLDTEKVRGDVMDLKHATPYSPTTVRVKAGEYSDCHDADLVVICAGAAQKPGETRLDLVSKNLKIFKSIVGEVMASKFDGIFLVATNPVDILAYATWKFSGLPKERVIGSGTILDSARFRLLLSEAFDVAPRSVDAQIIGEHGDTELPVWSHANIAGQPLKTLLEQRPEGKAQIEQIFVQTRDAAYDIIQAKGATYYGVAMGLARITEAIFRNEDAVLTVSALLEGEYEEEDVYIGVPAVINRNGIRNVVEIPLNDEEQSKFAHSAKTLKDIMAEA 3d4p-a3-m1-cB_3d4p-a3-m2-cB Crystal structure of Lactate Dehydrogenase from Staphylococcus Aureus complexed with NAD and pyruvate Q5HJD7 Q5HJD7 1.8 X-RAY DIFFRACTION 146 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 310 310 3d0o-a1-m1-cA_3d0o-a1-m2-cA 3d0o-a1-m1-cB_3d0o-a1-m2-cB 3d0o-a2-m1-cA_3d0o-a2-m2-cA 3d0o-a3-m1-cB_3d0o-a3-m2-cB 3d4p-a1-m1-cA_3d4p-a1-m2-cA 3d4p-a1-m1-cB_3d4p-a1-m2-cB 3d4p-a2-m1-cA_3d4p-a2-m2-cA 3h3j-a1-m1-cA_3h3j-a1-m2-cB 3h3j-a1-m2-cA_3h3j-a1-m1-cB FKGNKVVLIGNGAVGSSYAFSLVNQSIVDELVIIDLDTEKVRGDVMDLKHATPYSPTTVRVKAGEYSDCHDADLVVICAGAAQKPGETRLDLVSKNLKIFKSIVGEVMASKFDGIFLVATNPVDILAYATWKFSGLPKERVIGSGTILDSARFRLLLSEAFDVAPRSVDAQIIGEHGDTELPVWSHANIAGQPLKTLLEQRPEGKAQIEQIFVQTRDAAYDIIQAKGATYYGVAMGLARITEAIFRNEDAVLTVSALLEGEYEEEDVYIGVPAVINRNGIRNVVEIPLNDEEQSKFAHSAKTLKDIMAEA FKGNKVVLIGNGAVGSSYAFSLVNQSIVDELVIIDLDTEKVRGDVMDLKHATPYSPTTVRVKAGEYSDCHDADLVVICAGAAQKPGETRLDLVSKNLKIFKSIVGEVMASKFDGIFLVATNPVDILAYATWKFSGLPKERVIGSGTILDSARFRLLLSEAFDVAPRSVDAQIIGEHGDTELPVWSHANIAGQPLKTLLEQRPEGKAQIEQIFVQTRDAAYDIIQAKGATYYGVAMGLARITEAIFRNEDAVLTVSALLEGEYEEEDVYIGVPAVINRNGIRNVVEIPLNDEEQSKFAHSAKTLKDIMAEA 3d4r-a3-m1-cB_3d4r-a3-m1-cA CRYSTAL STRUCTURE OF a DUF2118 family protein (MMP0046) FROM METHANOCOCCUS MARIPALUDIS AT 2.20 A RESOLUTION Q6M171 Q6M171 2.2 X-RAY DIFFRACTION 80 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 152 153 3d4r-a1-m1-cE_3d4r-a1-m1-cF 3d4r-a2-m1-cC_3d4r-a2-m1-cD ENLYFQGKIPKIYVEGELNDGDRVAIEKDGNAIIFLEKDEEYSGNGKLLYQVIYDDLAKYSLDTLKKDVLIQYPDKHTLTYLKAGTKLISVPAEGYKVYPIDFGFRVLKGYRLATLESKKGDLRYVNSPVSGTVIFNEIPSERANYVFYLEE HENLYFQGKIPKIYVEGELNDGDRVAIEKDGNAIIFLEKDEEYSGNGKLLYQVIYDDLAKYSLDTLKKDVLIQYPDKHTLTYLKAGTKLISVPAEGYKVYPIDFGFRVLKGYRLATLESKKGDLRYVNSPVSGTVIFNEIPSERANYVFYLEE 3d53-a1-m1-cA_3d53-a1-m1-cB 2.2 A crystal structure of inorganic pyrophosphatase from Rickettsia prowazekii Q9ZCW5 Q9ZCW5 2.2 X-RAY DIFFRACTION 48 1.0 272947 (Rickettsia prowazekii str. Madrid E) 272947 (Rickettsia prowazekii str. Madrid E) 170 170 3d53-a1-m1-cE_3d53-a1-m1-cD 3d53-a1-m1-cF_3d53-a1-m1-cC 3emj-a1-m1-cB_3emj-a1-m1-cA 3emj-a1-m1-cE_3emj-a1-m1-cD 3emj-a1-m1-cF_3emj-a1-m1-cC 3emj-a2-m1-cG_3emj-a2-m1-cJ 3emj-a2-m1-cI_3emj-a2-m1-cK 3emj-a2-m1-cL_3emj-a2-m1-cH FIKKIKAKANNNEINVIIEIPMNSGPIKYEFDKESGALFVDRFMQTTMSYPCNYGFIPDTLSNDGDPVDVLVVAHHPVVPGSVIKCRAIGVLMMEDESGLDEKIIAVPTSKLDITFDHIKELDDLCEMLKKRIVHFFEHYKDLEKGKWVKVTGWGDKVKAETLIKEGIDR FIKKIKAKANNNEINVIIEIPMNSGPIKYEFDKESGALFVDRFMQTTMSYPCNYGFIPDTLSNDGDPVDVLVVAHHPVVPGSVIKCRAIGVLMMEDESGLDEKIIAVPTSKLDITFDHIKELDDLCEMLKKRIVHFFEHYKDLEKGKWVKVTGWGDKVKAETLIKEGIDR 3d53-a1-m1-cB_3d53-a1-m1-cD 2.2 A crystal structure of inorganic pyrophosphatase from Rickettsia prowazekii Q9ZCW5 Q9ZCW5 2.2 X-RAY DIFFRACTION 55 1.0 272947 (Rickettsia prowazekii str. Madrid E) 272947 (Rickettsia prowazekii str. Madrid E) 170 171 3d53-a1-m1-cA_3d53-a1-m1-cC 3d53-a1-m1-cE_3d53-a1-m1-cA 3d53-a1-m1-cE_3d53-a1-m1-cC 3d53-a1-m1-cF_3d53-a1-m1-cB 3d53-a1-m1-cF_3d53-a1-m1-cD 3emj-a1-m1-cA_3emj-a1-m1-cC 3emj-a1-m1-cB_3emj-a1-m1-cD 3emj-a1-m1-cE_3emj-a1-m1-cA 3emj-a1-m1-cE_3emj-a1-m1-cC 3emj-a1-m1-cF_3emj-a1-m1-cB 3emj-a1-m1-cF_3emj-a1-m1-cD 3emj-a2-m1-cG_3emj-a2-m1-cH 3emj-a2-m1-cI_3emj-a2-m1-cG 3emj-a2-m1-cI_3emj-a2-m1-cH 3emj-a2-m1-cJ_3emj-a2-m1-cK 3emj-a2-m1-cL_3emj-a2-m1-cJ 3emj-a2-m1-cL_3emj-a2-m1-cK FIKKIKAKANNNEINVIIEIPMNSGPIKYEFDKESGALFVDRFMQTTMSYPCNYGFIPDTLSNDGDPVDVLVVAHHPVVPGSVIKCRAIGVLMMEDESGLDEKIIAVPTSKLDITFDHIKELDDLCEMLKKRIVHFFEHYKDLEKGKWVKVTGWGDKVKAETLIKEGIDR FIKKIKAKANNNEINVIIEIPMNSGPIKYEFDKESGALFVDRFMQTTMSYPCNYGFIPDTLSNDGDPVDVLVVAHHPVVPGSVIKCRAIGVLMMEDESGLDEKIIAVPTSKLDITFDHIKELDDLCEMLKKRIVHFFEHYKDLEKGKWVKVTGWGDKVKAETLIKEGIDRN 3d54-a3-m1-cB_3d54-a3-m1-cC Structure of PurLQS from Thermotoga maritima Q9X0X1 Q9X0X1 3.5 X-RAY DIFFRACTION 103 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 82 82 1vq3-a1-m1-cB_1vq3-a1-m1-cA 1vq3-a1-m1-cD_1vq3-a1-m1-cC 1vq3-a2-m1-cD_1vq3-a2-m1-cC 1vq3-a3-m1-cB_1vq3-a3-m1-cA 3d54-a1-m1-cJ_3d54-a1-m1-cK 3d54-a2-m1-cF_3d54-a2-m1-cG MPLFKFAIDVQYRSNVRDPRGETIERVLREEKGLPVKKLRLGKSIHLEVEAENKEKAYEIVKKACEELLVNPVVEEYEVREL MPLFKFAIDVQYRSNVRDPRGETIERVLREEKGLPVKKLRLGKSIHLEVEAENKEKAYEIVKKACEELLVNPVVEEYEVREL 3d55-a4-m1-cA_3d55-a4-m1-cC Crystal structure of M. tuberculosis YefM antitoxin P9WF25 P9WF25 2.13 X-RAY DIFFRACTION 94 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 68 86 3cto-a11-m1-cA_3cto-a11-m1-cC 3cto-a12-m1-cD_3cto-a12-m1-cB 3cto-a13-m1-cD_3cto-a13-m1-cB 3cto-a1-m1-cA_3cto-a1-m1-cC 3cto-a1-m1-cD_3cto-a1-m1-cB 3cto-a3-m1-cA_3cto-a3-m1-cC 3cto-a3-m3-cD_3cto-a3-m3-cB 3cto-a4-m1-cA_3cto-a4-m1-cC 3cto-a4-m1-cD_3cto-a4-m1-cB 3cto-a5-m1-cD_3cto-a5-m1-cB 3cto-a6-m1-cD_3cto-a6-m1-cB 3cto-a7-m1-cD_3cto-a7-m1-cB 3d55-a1-m1-cA_3d55-a1-m1-cC 3d55-a2-m1-cA_3d55-a2-m1-cC 3d55-a3-m1-cA_3d55-a3-m1-cC MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVAR MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELREM 3d55-a4-m2-cB_3d55-a4-m1-cC Crystal structure of M. tuberculosis YefM antitoxin P9WF25 P9WF25 2.13 X-RAY DIFFRACTION 40 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 84 86 3cto-a3-m3-cB_3cto-a3-m1-cC 3cto-a5-m1-cB_3cto-a5-m5-cC 3d55-a2-m2-cB_3d55-a2-m1-cC MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELR MSISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELREM 3d57-a1-m1-cA_3d57-a1-m1-cB TR Variant D355R P10828 P10828 2.2 X-RAY DIFFRACTION 37 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 245 248 2pin-a1-m1-cA_2pin-a1-m1-cB HKPEPTDEEWELIKTVTEAHVATNAQGSHWKQKRKFLPEDIGQAPGGKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFRLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFE KPEPTDEEWELIKTVTEAHVATNAQGSHWKQKRKFLPEDIGQAPIAPEGGKVDLEAFSHFTKIITPAITRVVDFAKKLPMFCELPCEDQIILLKGCCMEIMSLRAAVRYDPESETLTLNGEMAVTRGQLKNGGLGVVSDAIFRLGMSLSSFNLDDTEVALLQAVLLMSSDRPGLACVERIEKYQDSFLLAFEHYINYRKHHVTHFWPKLLMKVTDLRMIGACHASRFLHMKVECPTELFPPLFLEVFE 3d5n-a4-m1-cE_3d5n-a4-m1-cD Crystal structure of the Q97W15_SULSO protein from Sulfolobus solfataricus. NESG target SsR125. Q97W15 Q97W15 2.8 X-RAY DIFFRACTION 49 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 167 173 3d5n-a1-m1-cG_3d5n-a1-m1-cF 3d5n-a2-m1-cI_3d5n-a2-m1-cH 3d5n-a3-m1-cB_3d5n-a3-m1-cA NIGVIILAAGEDKLLAKIDNTPIIRTIRIYGDLEKIIIVGKYVNELPLLDQIVIYNPFWNEGISTSLKLGLRFFKDYDAVLVALGDPFVTKEDVNKIINTFKPNCKAVIPTHKGERGNPVLISKSLFNEIEKLRGDVGARVILNKIKIEELCFIECSEGVLIDIDKK NIGVIILAAGEGKRFGGDKLLAKIDNTPIIRTIRIYGDLEKIIIVGKYVNELPLLDQIVIYNPFWNEGISTSLKLGLRFFKDYDAVLVALGDPFVTKEDVNKIINTFKPNCKAVIPTHKGERGNPVLISKSLFNEIEKLRGDVGARVILNKIKIEELCFIECSEGVLIDIDKK 3d5p-a1-m1-cA_3d5p-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE GLUCAN SYNTHESIS REGULATOR OF SMI1/KNR4 FAMILY (BF1740) FROM BACTEROIDES FRAGILIS NCTC 9343 AT 1.45 A RESOLUTION Q5LEL2 Q5LEL2 1.45 X-RAY DIFFRACTION 86 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 131 131 GEVIESKWYKKDGASSASIDDVEKLLNTTLPKQYKSFLLWSNGGEGKLGDNYIYIWAIEDVIAYNHDYGIQKYLQKEYWAFGDGDIGYILHLSDNSIYRVDLGDLDITSIKYIAPSFDDFLGKAIYLNFNK GEVIESKWYKKDGASSASIDDVEKLLNTTLPKQYKSFLLWSNGGEGKLGDNYIYIWAIEDVIAYNHDYGIQKYLQKEYWAFGDGDIGYILHLSDNSIYRVDLGDLDITSIKYIAPSFDDFLGKAIYLNFNK 3d5t-a2-m1-cD_3d5t-a2-m1-cC Crystal structure of malate dehydrogenase from Burkholderia pseudomallei Q3JKE9 Q3JKE9 2.51 X-RAY DIFFRACTION 119 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 321 323 3d5t-a1-m1-cA_3d5t-a1-m1-cB KPAKRVAVTGAAGQIAYSLLFRIANGDLLGKDQPVILQLLDLPQAQAAVKGVVMELDDCAFPLLAGVVITDDPKVAFKDADVALLVGARPRSMERKDLLSANAEIFTVQGAALNEVASRDVKVLVVGNPANTNAYIAMKSAPDLPKKNFTAMLRLDHNRALSQLAAKSGKPVASIEKLAVWGNHSPTMYPDFRFATAEGESLLKLINDDVWNRDTFIPTVGKRGAAIIEARGLSSAASAANAAIDHVRDWVLGTNGKWVTMGIPSDGSYGIPEDIIYGVPVICENGEYKRVEGLEIDAFSREKMDGTLAELLEERDGVAHL KPAKRVAVTGAAGQIAYSLLFRIANGDLLGKDQPVILQLLDLPQAQAAVKGVVMELDDCAFPLLAGVVITDDPKVAFKDADVALLVGARPRSKGMERKDLLSANAEIFTVQGAALNEVASRDVKVLVVGNPANTNAYIAMKSAPDLPKKNFTAMLRLDHNRALSQLAAKSGKPVASIEKLAVWGNHSPTMYPDFRFATAEGESLLKLINDDVWNRDTFIPTVGKRGAAIIEARGLSSAASAANAAIDHVRDWVLGTNGKWVTMGIPSDGSYGIPEDIIYGVPVICENGEYKRVEGLEIDAFSREKMDGTLAELLEERDGVAHL 3d63-a1-m1-cA_3d63-a1-m2-cB Crystal structure of inorganic pyrophosphatase from Burkholderia pseudomallei Q3JUV5 Q3JUV5 2.3 X-RAY DIFFRACTION 48 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 173 173 3d63-a1-m1-cA_3d63-a1-m3-cC 3d63-a1-m2-cB_3d63-a1-m3-cC FSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK FSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK 3d64-a1-m1-cB_3d64-a1-m2-cB Crystal structure of S-adenosyl-L-homocysteine hydrolase from Burkholderia pseudomallei Q3JY79 Q3JY79 2.3 X-RAY DIFFRACTION 30 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 462 462 3d64-a1-m1-cA_3d64-a1-m2-cA 3glq-a1-m1-cA_3glq-a1-m2-cB 3glq-a1-m1-cB_3glq-a1-m2-cA QDYVVADIALAGWGRKELNIAETEMPGLVQIRDEYKAQQPLKGARIAGSLHMTIQTGVLIETLKALGADVRWASCNIFSTQDHAAAAIVEAGTPVFAFKGESLDEYWEFSHRIFEWPNGEFANMILDDGGDATLLLILGSKAEKDRSVIARPTNEEEVALFKSIERHLEIDGSWYSKRLAHIKGVTEETTTGVHRLYQMEKDGRLPFPAFNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKIAVVAGYGDVGKGCAQSLRGLGATVWVTEIDPICALQAAMEGYRVVTMEYAADKADIFVTATGNYHVINHDHMKAMRHNAIVCNIGHFDSEIDVASTRQYQWENIKPQVDHIIFPDGKRVILLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQIELFTRGGEYANKVYVLPKHLDEKVARLHLARIGAQLSELSDDQAAYIGVSKAGPFKPDHYRY QDYVVADIALAGWGRKELNIAETEMPGLVQIRDEYKAQQPLKGARIAGSLHMTIQTGVLIETLKALGADVRWASCNIFSTQDHAAAAIVEAGTPVFAFKGESLDEYWEFSHRIFEWPNGEFANMILDDGGDATLLLILGSKAEKDRSVIARPTNEEEVALFKSIERHLEIDGSWYSKRLAHIKGVTEETTTGVHRLYQMEKDGRLPFPAFNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKIAVVAGYGDVGKGCAQSLRGLGATVWVTEIDPICALQAAMEGYRVVTMEYAADKADIFVTATGNYHVINHDHMKAMRHNAIVCNIGHFDSEIDVASTRQYQWENIKPQVDHIIFPDGKRVILLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQIELFTRGGEYANKVYVLPKHLDEKVARLHLARIGAQLSELSDDQAAYIGVSKAGPFKPDHYRY 3d6a-a3-m1-cA_3d6a-a3-m1-cD Crystal structure of the 2H-phosphatase domain of Sts-2 in complex with tungstate. Q3V3E1 Q3V3E1 2.25 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 266 266 3d6a-a3-m1-cB_3d6a-a3-m1-cC SRRGILVIRHGERVDQVFGKSWLQQCTTADGKYYRPDLNFPRSLPRRSNGIKDFENDPPLSSCGIFQARLAGEALLDSGVRVTAVFASPALRCVQTAKHILEELKLEKKLKIRVEPGIFEWMKWEASKATLTFLTLEELKEANFNVDLDYRPALPRCSLMPAESYDQYVERCAVSMGQIINTCPQDMGITLIVSHSSALDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENREDGKWDLVNPPVKTLTHGANSVFNWRNWIS SRRGILVIRHGERVDQVFGKSWLQQCTTADGKYYRPDLNFPRSLPRRSNGIKDFENDPPLSSCGIFQARLAGEALLDSGVRVTAVFASPALRCVQTAKHILEELKLEKKLKIRVEPGIFEWMKWEASKATLTFLTLEELKEANFNVDLDYRPALPRCSLMPAESYDQYVERCAVSMGQIINTCPQDMGITLIVSHSSALDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENREDGKWDLVNPPVKTLTHGANSVFNWRNWIS 3d6a-a3-m1-cB_3d6a-a3-m1-cD Crystal structure of the 2H-phosphatase domain of Sts-2 in complex with tungstate. Q3V3E1 Q3V3E1 2.25 X-RAY DIFFRACTION 144 1.0 10090 (Mus musculus) 10090 (Mus musculus) 264 266 3d4i-a1-m1-cC_3d4i-a1-m1-cA 3d4i-a2-m1-cB_3d4i-a2-m1-cD 3d6a-a1-m1-cC_3d6a-a1-m1-cA 3d6a-a2-m1-cB_3d6a-a2-m1-cD 3d6a-a3-m1-cC_3d6a-a3-m1-cA 3db1-a1-m1-cC_3db1-a1-m1-cA 3db1-a2-m1-cB_3db1-a2-m1-cD RRGILVIRHGERVDQVFGKSWLQQCTTADGKYYRPDLNFPRSLPRRSNGIKDFENDPPLSSCGIFQARLAGEALLDSGVRVTAVFASPALRCVQTAKHILEELKLEKKLKIRVEPGIFEWMKWEASKATLTFLTLEELKEANFNVDLDYRPALPRCSLMPAESYDQYVERCAVSMGQIINTCPQDMGITLIVSHSSALDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENREDGKWDLVNPPVKTLTHGANSVFNWRNWI SRRGILVIRHGERVDQVFGKSWLQQCTTADGKYYRPDLNFPRSLPRRSNGIKDFENDPPLSSCGIFQARLAGEALLDSGVRVTAVFASPALRCVQTAKHILEELKLEKKLKIRVEPGIFEWMKWEASKATLTFLTLEELKEANFNVDLDYRPALPRCSLMPAESYDQYVERCAVSMGQIINTCPQDMGITLIVSHSSALDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENREDGKWDLVNPPVKTLTHGANSVFNWRNWIS 3d6b-a1-m1-cB_3d6b-a1-m1-cA 2.2 A crystal structure of glutaryl-CoA dehydrogenase from Burkholderia pseudomallei Q3JP94 Q3JP94 2.21 X-RAY DIFFRACTION 164 0.986 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 365 374 3d6b-a1-m1-cD_3d6b-a1-m1-cC 3eom-a1-m1-cB_3eom-a1-m1-cA 3eom-a1-m1-cC_3eom-a1-m1-cD 3eon-a1-m1-cB_3eon-a1-m1-cA 3eon-a1-m1-cD_3eon-a1-m1-cC 3gnc-a1-m1-cB_3gnc-a1-m1-cA 3gnc-a1-m1-cD_3gnc-a1-m1-cC 3ii9-a1-m1-cB_3ii9-a1-m1-cA 3ii9-a1-m1-cD_3ii9-a1-m1-cC ATFHWDDPLLLDQQLADDERMVRDAAHAYAQGKLAPRVTEAFRHETTDAAIFREMGEIGLLGPTIPEQYGGPGLDYVSYGLIAREVERVDSGYRSMMSVQSSLVMVPIFEFGSDAQKEKYLPKLATGEWIGCFGLTEPMVTRARKVPGGYSLSGSKMWITNSPIADVFVVWAKLDEDEIRGFILEKGCKGLSAPAIHGKVGLRASITGEIVLDEAFVPEENILPHVKGLRGPFTCLNSARYGIAWGALGAAESCWHIARQYVLDRLAANQLIQKKLADMQTEITLGLQGVLRLGRMKDEGTAAVEITSIMKRNSCGKALDIARLARDMLGGVARHLVNLEVVNTYEGTHDIHALILGRAQTGIQA ATFHWDDPLLLDQQLADDERMVRDAAHAYAQGKLAPRVTEAFRHETTDAAIFREMGEIGLLGPTIPEQYGGPGLDYVSYGLIAREVERVDSGYRSMMSVQSSLVMVPIFEFGSDAQKEKYLPKLATGEWIGCFGLTEPMVTRARKVPGGYSLSGSKMWITNSPIADVFVVWAKLDEDEIRGFILEKGCKGLSAPAIHGKVGLRASITGEIVLDEAFVPEENILPHVKGLRGPFTCLNSARYGIAWGALGAAESCWHIARQYVLDRKQFGRPLAANQLIQKKLADMQTEITLGLQGVLRLGRMKDEGTAAVEITSIMKRNSCGKALDIARLARDMLGGNGISDEFGVARHLVNLEVVNTYIHALILGRAQTGIQA 3d6b-a1-m1-cB_3d6b-a1-m1-cD 2.2 A crystal structure of glutaryl-CoA dehydrogenase from Burkholderia pseudomallei Q3JP94 Q3JP94 2.21 X-RAY DIFFRACTION 45 0.992 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 365 372 3eom-a1-m1-cB_3eom-a1-m1-cD 3eom-a1-m1-cC_3eom-a1-m1-cA 3eon-a1-m1-cB_3eon-a1-m1-cD 3eon-a1-m1-cC_3eon-a1-m1-cA 3gnc-a1-m1-cA_3gnc-a1-m1-cC 3gnc-a1-m1-cB_3gnc-a1-m1-cD 3ii9-a1-m1-cA_3ii9-a1-m1-cC 3ii9-a1-m1-cB_3ii9-a1-m1-cD ATFHWDDPLLLDQQLADDERMVRDAAHAYAQGKLAPRVTEAFRHETTDAAIFREMGEIGLLGPTIPEQYGGPGLDYVSYGLIAREVERVDSGYRSMMSVQSSLVMVPIFEFGSDAQKEKYLPKLATGEWIGCFGLTEPMVTRARKVPGGYSLSGSKMWITNSPIADVFVVWAKLDEDEIRGFILEKGCKGLSAPAIHGKVGLRASITGEIVLDEAFVPEENILPHVKGLRGPFTCLNSARYGIAWGALGAAESCWHIARQYVLDRLAANQLIQKKLADMQTEITLGLQGVLRLGRMKDEGTAAVEITSIMKRNSCGKALDIARLARDMLGGVARHLVNLEVVNTYEGTHDIHALILGRAQTGIQA AATFHWDDPLLLDQQLADDERMVRDAAHAYAQGKLAPRVTEAFRHETTDAAIFREMGEIGLLGPTIPEQYGGPGLDYVSYGLIAREVERVDSGYRSMMSVQSSLVMVPIFEFGSDAQKEKYLPKLATGEWIGCFGLTEPSMVTRARKVPGGYSLSGSKMWITNSPIADVFVVWAKLDDEIRGFILEKGCKGLSAPAIHGKVGLRASITGEIVLDEAFVPEENILPHVKGLRGPFTCLNSARYGIAWGALGAAESCWHIARQYVLDRKQFGRPLAANQLIQKKLADMQTEITLGLQGVLRLGRMKDEGTAAVEITSIMKRNSCGKALDIARLARDMLGGNGVARHLVNLEVVNTYEHDIHALILGRAQTGIQA 3d6k-a2-m1-cA_3d6k-a2-m1-cB The crystal structure of a putative aminotransferase from Corynebacterium diphtheriae Q6NJY4 Q6NJY4 2 X-RAY DIFFRACTION 145 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 395 399 3d6k-a1-m1-cD_3d6k-a1-m1-cC REEVTAKYAELKAKNLSLDLTRGKPSAEQLDLSNDLLSLPGGDFRTKDGVDCRNYGGLLGIADIRELWAEALGLPADLVVAQDGSSLNIFDLISWSYTWGNNDSSRPWSAEEKVKWLCPVPGYDRHFTITEHFGFEINVPTDEGPDGVVRELVKDPQVKGWTVPVFGNPTGVTFSEQTCRELAESTAAPDFRIVWDNAYALHTLSDEFPIVHNVIEFAQAAGNPNRFWFSSTSKITHAGSGVSFFASSKENIEWYASHANVRGIGPNKLNQLAHAQFFGDVAGLKAHLKHAASLAPKFERVLEILDSRLSEYGVAKWTSPTGGYFISVDVVPGTASRVVELAKEAGIALTGAGSSFPLHNDPNNENIRLAPSLPPVAELEVADGFATCVLAALEV LAQVREEVTAKYAELKAKNLSLDLTRGKPSAEQLDLSNDLLSLPGGDFRTKDGVDCRNYGGLLGIADIRELWAEALGLPADLVVAQDGSSLNIFDLISWSYTWGNNDSSRPWSAEEKVKWLCPVPGYDRHFTITEHFGFEINVPTDEGPDGVVRELVKDPQVKGWTVPVFGNPTGVTFSEQTCRELAESTAAPDFRIVWDNAYALHTLSDEFPIVHNVIEFAQAAGNPNRFWFSSTSKITHAGSGVSFFASSKENIEWYASHANVRGIGPNKLNQLAHAQFFGDVAGLKAHLKHAASLAPKFERVLEILDSRLSEYGVAKWTSPTGGYFISVDVVPGTASRVVELAKEAGIALTGAGSSFPLHNDPNNENIRLAPSLPPVAELEVADGFATCVLAALEV 3d6l-a1-m1-cA_3d6l-a1-m6-cA Crystal structure of Cj0915, a hexameric hotdog fold thioesterase of Campylobacter jejuni Q0P9Y4 Q0P9Y4 2.59 X-RAY DIFFRACTION 40 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 133 133 3d6l-a1-m2-cA_3d6l-a1-m5-cA 3d6l-a1-m3-cA_3d6l-a1-m4-cA RDMGEPKLKIVAMPSDTNPAGNIFGGWILSQIDLAGAIAARELSPERVVTISMDKVVFKEPVFIGDIISCYSKVVNVGNTSISVEVEVTAQRVDSQGCTSCINVTSALVTYVSVTRDGKKNPISEELKRIHGF RDMGEPKLKIVAMPSDTNPAGNIFGGWILSQIDLAGAIAARELSPERVVTISMDKVVFKEPVFIGDIISCYSKVVNVGNTSISVEVEVTAQRVDSQGCTSCINVTSALVTYVSVTRDGKKNPISEELKRIHGF 3d6l-a1-m2-cA_3d6l-a1-m6-cA Crystal structure of Cj0915, a hexameric hotdog fold thioesterase of Campylobacter jejuni Q0P9Y4 Q0P9Y4 2.59 X-RAY DIFFRACTION 66 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 133 133 3d6l-a1-m1-cA_3d6l-a1-m4-cA 3d6l-a1-m3-cA_3d6l-a1-m5-cA RDMGEPKLKIVAMPSDTNPAGNIFGGWILSQIDLAGAIAARELSPERVVTISMDKVVFKEPVFIGDIISCYSKVVNVGNTSISVEVEVTAQRVDSQGCTSCINVTSALVTYVSVTRDGKKNPISEELKRIHGF RDMGEPKLKIVAMPSDTNPAGNIFGGWILSQIDLAGAIAARELSPERVVTISMDKVVFKEPVFIGDIISCYSKVVNVGNTSISVEVEVTAQRVDSQGCTSCINVTSALVTYVSVTRDGKKNPISEELKRIHGF 3d6l-a1-m5-cA_3d6l-a1-m6-cA Crystal structure of Cj0915, a hexameric hotdog fold thioesterase of Campylobacter jejuni Q0P9Y4 Q0P9Y4 2.59 X-RAY DIFFRACTION 17 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 133 133 3d6l-a1-m1-cA_3d6l-a1-m2-cA 3d6l-a1-m1-cA_3d6l-a1-m3-cA 3d6l-a1-m2-cA_3d6l-a1-m3-cA 3d6l-a1-m4-cA_3d6l-a1-m5-cA 3d6l-a1-m4-cA_3d6l-a1-m6-cA RDMGEPKLKIVAMPSDTNPAGNIFGGWILSQIDLAGAIAARELSPERVVTISMDKVVFKEPVFIGDIISCYSKVVNVGNTSISVEVEVTAQRVDSQGCTSCINVTSALVTYVSVTRDGKKNPISEELKRIHGF RDMGEPKLKIVAMPSDTNPAGNIFGGWILSQIDLAGAIAARELSPERVVTISMDKVVFKEPVFIGDIISCYSKVVNVGNTSISVEVEVTAQRVDSQGCTSCINVTSALVTYVSVTRDGKKNPISEELKRIHGF 3d6m-a1-m1-cA_3d6m-a1-m2-cA Crystal structure of human caspase-1 with a naturally-occurring Lys319->Arg substitution in complex with 3-[2-(2-benzyloxycarbonylamino-3-methyl-butyrylamino)-propionylamino]-4-oxo-pentanoic acid (z-VAD-FMK) P29466 P29466 1.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 1bmq-a2-m1-cA_1bmq-a2-m2-cA 1ibc-a1-m1-cA_1ibc-a1-m2-cA 1ice-a1-m1-cA_1ice-a1-m2-cA 1rwk-a1-m1-cA_1rwk-a1-m2-cA 1rwm-a1-m1-cA_1rwm-a1-m2-cA 1rwn-a1-m1-cA_1rwn-a1-m2-cA 1rwo-a1-m1-cA_1rwo-a1-m2-cA 1rwp-a1-m1-cA_1rwp-a1-m2-cA 1rwv-a1-m1-cA_1rwv-a1-m2-cA 1rww-a1-m1-cA_1rww-a1-m2-cA 1rwx-a1-m1-cA_1rwx-a1-m2-cA 1sc3-a1-m1-cA_1sc3-a1-m2-cA 2fqq-a1-m1-cA_2fqq-a1-m2-cA 2h48-a1-m1-cA_2h48-a1-m2-cA 2h4w-a1-m1-cA_2h4w-a1-m2-cA 2h51-a1-m1-cA_2h51-a1-m2-cA 2h54-a1-m1-cA_2h54-a1-m2-cA 2hbq-a1-m1-cA_2hbq-a1-m2-cA 2hbr-a1-m1-cA_2hbr-a1-m2-cA 2hby-a1-m1-cA_2hby-a1-m2-cA 3d6f-a1-m1-cA_3d6f-a1-m2-cA 3ns7-a2-m1-cA_3ns7-a2-m2-cA 6f6r-a1-m1-cA_6f6r-a1-m2-cA TSSGSEGNVKLCSLEEAQRIWKQKSAEIYPIMDKSSRTRLALIICNEEFDSIPRRTGAEVDITGMTMLLQNLGYSVDVKKNLTASDMTTELEAFAHRPEHKTSDSTFLVFMSHGIREGICGKKHSEQVPDILQLNAIFNMLNTKNCPSLKDKPKVIIIQACRGDSPGVVWFKD TSSGSEGNVKLCSLEEAQRIWKQKSAEIYPIMDKSSRTRLALIICNEEFDSIPRRTGAEVDITGMTMLLQNLGYSVDVKKNLTASDMTTELEAFAHRPEHKTSDSTFLVFMSHGIREGICGKKHSEQVPDILQLNAIFNMLNTKNCPSLKDKPKVIIIQACRGDSPGVVWFKD 3d6r-a1-m2-cA_3d6r-a1-m2-cB Structure of an avian influenza A virus NS1 protein effector domain P69270 P69270 1.997 X-RAY DIFFRACTION 29 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 114 127 3d6r-a1-m1-cA_3d6r-a1-m1-cB 3oa9-a1-m1-cA_3oa9-a1-m1-cB YITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFA SSPAPRYITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFAQKRYMAR 3d6r-a2-m1-cA_3d6r-a2-m5-cB Structure of an avian influenza A virus NS1 protein effector domain P69270 P69270 1.997 X-RAY DIFFRACTION 58 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 114 127 3d6r-a2-m3-cA_3d6r-a2-m4-cB YITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFA SSPAPRYITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFAQKRYMAR 3d6r-a2-m4-cB_3d6r-a2-m5-cB Structure of an avian influenza A virus NS1 protein effector domain P69270 P69270 1.997 X-RAY DIFFRACTION 41 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 127 127 SSPAPRYITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFAQKRYMAR SSPAPRYITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFAQKRYMAR 3d6r-a3-m1-cA_3d6r-a3-m2-cB Structure of an avian influenza A virus NS1 protein effector domain P69270 P69270 1.997 X-RAY DIFFRACTION 35 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 114 127 3d6r-a1-m1-cA_3d6r-a1-m2-cB 3d6r-a1-m2-cA_3d6r-a1-m1-cB YITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFA SSPAPRYITDMSIEEISREWYMLMPRQKITGGLMVKMDQAIMDKRITLKANFSVLFDQLETLVSLRAFTDDGAIVAEISPIPSMPGHSTEDVKNAIGILIGGLEWNDNSIRASENIQRFAQKRYMAR 3d6t-a2-m1-cB_3d6t-a2-m2-cB Structure of the ROC domain from the Parkinson's disease-associated leucine-rich repeat kinase 2 reveals a dimeric GTPase Q5S007 Q5S007 2.43 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 120 KLIVGNTGSGKTTLLQLGIDVKDWPLVLVWDFAGREEFYSTHPHFTQRALYLAVYDLSKGQAEVDAKPWLFNIKARASSSPVILVGTHLDVSDKILLGFPAIRDYHFVNATEESLRKTII KLIVGNTGSGKTTLLQLGIDVKDWPLVLVWDFAGREEFYSTHPHFTQRALYLAVYDLSKGQAEVDAKPWLFNIKARASSSPVILVGTHLDVSDKILLGFPAIRDYHFVNATEESLRKTII 3d6w-a1-m2-cA_3d6w-a1-m4-cB LytTr DNA-binding domain of putative methyl-accepting/DNA response regulator from Bacillus cereus. Q73A38 Q73A38 2.4 X-RAY DIFFRACTION 42 0.991 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 107 107 3d6w-a1-m1-cA_3d6w-a1-m3-cB 3d6w-a1-m1-cA_3d6w-a1-m4-cB 3d6w-a1-m2-cA_3d6w-a1-m3-cB GKSVVTLKTTDGWIPVPFSKVYLEAKDKKTYVNAEELTGTHKYSLQEFEYLLPKDSFIRCHRSFIVNVNHIKAIYPDTHSTFLLSDNGERVPVSQSYASYFRKLLGF KSVVTLKTTDGWIPVPFSKVYLEAKDKKTYVNAEELTGTHKYSLQEFEYLLPKDSFIRCHRSFIVNVNHIKAIYPDTHSTFLLSDNGERVPVSQSYASYFRKLLGFG 3d6x-a1-m1-cA_3d6x-a1-m1-cF Crystal structure of Campylobacter jejuni FabZ A1VXZ7 A1VXZ7 2.59 X-RAY DIFFRACTION 85 1.0 354242 (Campylobacter jejuni subsp. jejuni 81-176) 354242 (Campylobacter jejuni subsp. jejuni 81-176) 130 131 3d6x-a1-m1-cC_3d6x-a1-m1-cB 3d6x-a1-m1-cD_3d6x-a1-m1-cE IDVQIQEILPHRYPFLLVDKITELKVKEVVLGYKNISISDHVFGHFPGHPIYPGVLILEGAQTGGVLAFESKSKVVYFTGIDGAKFRNPVRPGDRLDYESVVKNRGNWIFKGQAFVDGNLVAEAELKAIV IDVQIQEILPHRYPFLLVDKITELKVKEVVLGYKNISISDHVFGHFPGHPIYPGVLILEGAQTGGVLAFESEKSKVVYFTGIDGAKFRNPVRPGDRLDYESVVKNRGNWIFKGQAFVDGNLVAEAELKAIV 3d6x-a1-m1-cF_3d6x-a1-m1-cE Crystal structure of Campylobacter jejuni FabZ A1VXZ7 A1VXZ7 2.59 X-RAY DIFFRACTION 77 1.0 354242 (Campylobacter jejuni subsp. jejuni 81-176) 354242 (Campylobacter jejuni subsp. jejuni 81-176) 131 132 3d6x-a1-m1-cA_3d6x-a1-m1-cB 3d6x-a1-m1-cC_3d6x-a1-m1-cD IDVQIQEILPHRYPFLLVDKITELKVKEVVLGYKNISISDHVFGHFPGHPIYPGVLILEGAQTGGVLAFESEKSKVVYFTGIDGAKFRNPVRPGDRLDYESVVKNRGNWIFKGQAFVDGNLVAEAELKAIV IDVQIQEILPHRYPFLLVDKITELKVKEVVLGYKNISISDHVFGHFPGHPIYPGVLILEGAQTGGVLAFESEKSKVVYFTGIDGAKFRNPVRPGDRLDYESVVKNRGNWIFKGQAFVDGNLVAEAELKAIVD 3d72-a1-m1-cA_3d72-a1-m1-cB 1.65 Angstrom crystal structure of the Cys71Val variant in the fungal photoreceptor VVD Q1K5Y8 Q1K5Y8 1.65 X-RAY DIFFRACTION 42 1.0 367110 (Neurospora crassa OR74A) 367110 (Neurospora crassa OR74A) 149 149 3hji-a3-m1-cB_3hji-a3-m1-cA 3is2-a1-m1-cA_3is2-a1-m1-cB MHTLYAPGGYDIMGYLIQIMNRPNPQVELGPVDTSVALILCDLKQKDTPIVYASEAFLYMTGYSNAEVLGRNCRFLQSPDGMVKPKSTRKYVDSNTINTMRKAIDRNAEVQVEVVNFKKNGQRFVNFLTMIPVRDETGEYRYSMGFQCE MHTLYAPGGYDIMGYLIQIMNRPNPQVELGPVDTSVALILCDLKQKDTPIVYASEAFLYMTGYSNAEVLGRNCRFLQSPDGMVKPKSTRKYVDSNTINTMRKAIDRNAEVQVEVVNFKKNGQRFVNFLTMIPVRDETGEYRYSMGFQCE 3d73-a1-m1-cA_3d73-a1-m1-cB Crystal structure of a pheromone binding protein mutant D35A, from Apis mellifera, at pH 7.0 Q9U9J6 Q9U9J6 2.03 X-RAY DIFFRACTION 34 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 119 119 3d74-a1-m1-cA_3d74-a1-m1-cB 3d78-a1-m1-cA_3d78-a1-m1-cB APDWVPPEVFDLVAEDKARCMSEHGTTQAQIDDVAKGNLVNEPSITCYMYCLLEAFSLVDDEANVDEDIMLGLLPDQLQERAQSVMGKCLPTSGSDNCNKIYNLAKCVQESAPDVWFVI APDWVPPEVFDLVAEDKARCMSEHGTTQAQIDDVAKGNLVNEPSITCYMYCLLEAFSLVDDEANVDEDIMLGLLPDQLQERAQSVMGKCLPTSGSDNCNKIYNLAKCVQESAPDVWFVI 3d7a-a1-m1-cB_3d7a-a1-m1-cA Crystal structure of DUF54 family protein PH1010 from hyperthermophilic archaea Pyrococcus horikoshii OT3 O58738 O58738 1.9 X-RAY DIFFRACTION 56 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 134 137 FEEVEVEAYVYPTEDIRKVKKAMLNLIPGLQFEAFDKGEYVILVGRTKDKRALQRLYELFRGQQILDTARMMLEEGYFGEEIIIKVHKQVAYVGKVNFNEDSPLGPITITIRTKEPQKLMKWLAPRTKDGVPIE MTMFEEVEVEAYVYPTEDIRKVKKAMLNLIPGLQFEAFDKGEYVILVGRTKDKRALQRLYELFRGQQILDTARMMLEEGYFGEEIIIKVHKQVAYVGKVNFNEDSPLGPITITIRTKEPQKLMKWLAPRTKDGVPIE 3d7i-a1-m1-cA_3d7i-a1-m2-cB Crystal structure of carboxymuconolactone decarboxylase family protein possibly involved in oxygen detoxification (1591455) from METHANOCOCCUS JANNASCHII at 1.75 A resolution Q58152 Q58152 1.75 X-RAY DIFFRACTION 12 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 92 93 3d7i-a1-m1-cC_3d7i-a1-m2-cC 3d7i-a1-m2-cA_3d7i-a1-m1-cB GEGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL FGEGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL 3d7i-a1-m2-cC_3d7i-a1-m1-cA Crystal structure of carboxymuconolactone decarboxylase family protein possibly involved in oxygen detoxification (1591455) from METHANOCOCCUS JANNASCHII at 1.75 A resolution Q58152 Q58152 1.75 X-RAY DIFFRACTION 20 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 91 92 3d7i-a1-m1-cA_3d7i-a1-m1-cB 3d7i-a1-m1-cC_3d7i-a1-m2-cA 3d7i-a1-m1-cC_3d7i-a1-m2-cB 3d7i-a1-m2-cA_3d7i-a1-m2-cB 3d7i-a1-m2-cC_3d7i-a1-m1-cB EGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL GEGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL 3d7i-a1-m2-cC_3d7i-a1-m2-cA Crystal structure of carboxymuconolactone decarboxylase family protein possibly involved in oxygen detoxification (1591455) from METHANOCOCCUS JANNASCHII at 1.75 A resolution Q58152 Q58152 1.75 X-RAY DIFFRACTION 19 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 91 92 3d7i-a1-m1-cB_3d7i-a1-m2-cB 3d7i-a1-m1-cC_3d7i-a1-m1-cA EGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL GEGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL 3d7i-a1-m2-cC_3d7i-a1-m2-cB Crystal structure of carboxymuconolactone decarboxylase family protein possibly involved in oxygen detoxification (1591455) from METHANOCOCCUS JANNASCHII at 1.75 A resolution Q58152 Q58152 1.75 X-RAY DIFFRACTION 92 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 91 93 3d7i-a1-m1-cA_3d7i-a1-m2-cA 3d7i-a1-m1-cC_3d7i-a1-m1-cB EGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL FGEGKVVAAAYPDLYDIIVKLNDTVFTGKTLDYKTQKLIAIGIVASRCDEVAIEKQKSAKELGITKEEIADVLRVVLLTSGPAFTKAKILEKL 3d7j-a1-m1-cC_3d7j-a1-m1-cF SCO6650, a 6-pyruvoyltetrahydropterin synthase homolog from Streptomyces coelicolor O86696 O86696 1.45 X-RAY DIFFRACTION 64 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 133 133 3d7j-a1-m1-cA_3d7j-a1-m1-cD 3d7j-a1-m1-cB_3d7j-a1-m1-cE GSHFSITVRDHIIAHSFRGDVFGPAQRLHGATFLVDATFRREQLDEDNIVVDIGLATQELGAVVGALNYRNLDNEPDFAGVNTSTEFLAKVIADRLAERVHKGALGEGARGLAGLTVTLHESHVAWASYERAL GSHFSITVRDHIIAHSFRGDVFGPAQRLHGATFLVDATFRREQLDEDNIVVDIGLATQELGAVVGALNYRNLDNEPDFAGVNTSTEFLAKVIADRLAERVHKGALGEGARGLAGLTVTLHESHVAWASYERAL 3d7j-a1-m1-cD_3d7j-a1-m1-cE SCO6650, a 6-pyruvoyltetrahydropterin synthase homolog from Streptomyces coelicolor O86696 O86696 1.45 X-RAY DIFFRACTION 55 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 132 132 3d7j-a1-m1-cA_3d7j-a1-m1-cB 3d7j-a1-m1-cA_3d7j-a1-m1-cF 3d7j-a1-m1-cB_3d7j-a1-m1-cF 3d7j-a1-m1-cD_3d7j-a1-m1-cC 3d7j-a1-m1-cE_3d7j-a1-m1-cC SHFSITVRDHIIAHSFRGDVFGPAQRLHGATFLVDATFRREQLDEDNIVVDIGLATQELGAVVGALNYRNLDNEPDFAGVNTSTEFLAKVIADRLAERVHKGALGEGARGLAGLTVTLHESHVAWASYERAL SHFSITVRDHIIAHSFRGDVFGPAQRLHGATFLVDATFRREQLDEDNIVVDIGLATQELGAVVGALNYRNLDNEPDFAGVNTSTEFLAKVIADRLAERVHKGALGEGARGLAGLTVTLHESHVAWASYERAL 3d7l-a5-m1-cI_3d7l-a5-m2-cI The crystal structure of the protein lin1944 from Listeria innocua . Q92AH8 Q92AH8 2.06 X-RAY DIFFRACTION 99 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 194 194 3d7l-a1-m1-cC_3d7l-a1-m1-cD 3d7l-a2-m1-cF_3d7l-a2-m1-cE 3d7l-a3-m1-cG_3d7l-a3-m1-cH 3d7l-a4-m1-cB_3d7l-a4-m1-cA AKILLIGASGTLGSAVKERLEKKAEVITAGRHSGDVTVDITNIDSIKKYEQVGKVDAIVSATGSATFSPLTELTPEKNAVTISSKLGGQINLVLLGIDSLNDKGSFTLTTGIEDPIVQGASAAANGAVTAFAKSAAIEPRGIRINTVSPNVLEESWDKLEPFFEGFLPVPAAKVARAFEKSVFGAQTGESYQVY AKILLIGASGTLGSAVKERLEKKAEVITAGRHSGDVTVDITNIDSIKKYEQVGKVDAIVSATGSATFSPLTELTPEKNAVTISSKLGGQINLVLLGIDSLNDKGSFTLTTGIEDPIVQGASAAANGAVTAFAKSAAIEPRGIRINTVSPNVLEESWDKLEPFFEGFLPVPAAKVARAFEKSVFGAQTGESYQVY 3d7n-a1-m1-cA_3d7n-a1-m4-cA The crystal structure of the flavodoxin, WrbA-like protein from Agrobacterium tumefaciens A9CG77 A9CG77 2.3 X-RAY DIFFRACTION 64 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 153 153 3d7n-a1-m2-cA_3d7n-a1-m3-cA SSNTVVVYHSGYGHTHRAEAVAEGAEATLHAIDAEGNLSEDGWAALDAADAIIFGTPTYGGPSWQFKKFADASSKPWFSAKWQDKVFGGFTNSASLNGDKLNTLQYLVLLAGQHGGLWVSLGYIAPAQSESVGDLETARLYGARVANVARQHK SSNTVVVYHSGYGHTHRAEAVAEGAEATLHAIDAEGNLSEDGWAALDAADAIIFGTPTYGGPSWQFKKFADASSKPWFSAKWQDKVFGGFTNSASLNGDKLNTLQYLVLLAGQHGGLWVSLGYIAPAQSESVGDLETARLYGARVANVARQHK 3d7n-a1-m2-cA_3d7n-a1-m4-cA The crystal structure of the flavodoxin, WrbA-like protein from Agrobacterium tumefaciens A9CG77 A9CG77 2.3 X-RAY DIFFRACTION 47 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 153 153 3d7n-a1-m1-cA_3d7n-a1-m3-cA SSNTVVVYHSGYGHTHRAEAVAEGAEATLHAIDAEGNLSEDGWAALDAADAIIFGTPTYGGPSWQFKKFADASSKPWFSAKWQDKVFGGFTNSASLNGDKLNTLQYLVLLAGQHGGLWVSLGYIAPAQSESVGDLETARLYGARVANVARQHK SSNTVVVYHSGYGHTHRAEAVAEGAEATLHAIDAEGNLSEDGWAALDAADAIIFGTPTYGGPSWQFKKFADASSKPWFSAKWQDKVFGGFTNSASLNGDKLNTLQYLVLLAGQHGGLWVSLGYIAPAQSESVGDLETARLYGARVANVARQHK 3d7n-a1-m3-cA_3d7n-a1-m4-cA The crystal structure of the flavodoxin, WrbA-like protein from Agrobacterium tumefaciens A9CG77 A9CG77 2.3 X-RAY DIFFRACTION 23 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 153 153 3d7n-a1-m1-cA_3d7n-a1-m2-cA SSNTVVVYHSGYGHTHRAEAVAEGAEATLHAIDAEGNLSEDGWAALDAADAIIFGTPTYGGPSWQFKKFADASSKPWFSAKWQDKVFGGFTNSASLNGDKLNTLQYLVLLAGQHGGLWVSLGYIAPAQSESVGDLETARLYGARVANVARQHK SSNTVVVYHSGYGHTHRAEAVAEGAEATLHAIDAEGNLSEDGWAALDAADAIIFGTPTYGGPSWQFKKFADASSKPWFSAKWQDKVFGGFTNSASLNGDKLNTLQYLVLLAGQHGGLWVSLGYIAPAQSESVGDLETARLYGARVANVARQHK 3d7q-a2-m1-cA_3d7q-a2-m2-cA Crystal structure of a xisi-like protein (npun_ar114) from nostoc punctiforme pcc 73102 at 2.30 A resolution B2JAN5 B2JAN5 2.3 X-RAY DIFFRACTION 61 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 104 104 3d7q-a1-m1-cB_3d7q-a1-m2-cB GDKLNEYRTKVRQLLTKHLQYKGDVEVEQIFDEEHDHYQIISVGWNNQHRIYGPIHLDIKNNKIWIQQNTTEADIALELEGIDKQDIVIGFHTPKRQLSGFAVE GDKLNEYRTKVRQLLTKHLQYKGDVEVEQIFDEEHDHYQIISVGWNNQHRIYGPIHLDIKNNKIWIQQNTTEADIALELEGIDKQDIVIGFHTPKRQLSGFAVE 3d82-a2-m1-cA_3d82-a2-m2-cA Crystal structure of a cupin-2 domain containing protein (sfri_3543) from shewanella frigidimarina ncimb 400 at 2.05 A resolution Q07X94 Q07X94 2.05 X-RAY DIFFRACTION 60 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 96 96 3d82-a1-m1-cD_3d82-a1-m1-cE 3d82-a3-m1-cB_3d82-a3-m1-cC GQTKVINFNDKFSLFNQHWSPRVIAENDYQFKLVKVEGEFVWHEHADTDEVFIVEGTLQIAFRDQNITLQAGEYVIPKGVEHKPAKEECKIIIEPR GQTKVINFNDKFSLFNQHWSPRVIAENDYQFKLVKVEGEFVWHEHADTDEVFIVEGTLQIAFRDQNITLQAGEYVIPKGVEHKPAKEECKIIIEPR 3d8d-a3-m1-cB_3d8d-a3-m2-cA Crystal structure of the human Fe65-PTB1 domain O00213 O00213 2.2 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 GIKCFAVRSLGWVEMTEEELAPGRSSVAVNNCIRQLSYHKNNLHDPMSGGWGEGKDLLLQLEDETLKLVEPQSQALLHAQPIISIRVWGVGRDSERDFAYVARDKLTQMLKCHVFRCEAPAKNIATSLHEICSKIMAEL GIKCFAVRSLGWVEMTEEELAPGRSSVAVNNCIRQLSYHKNNLHDPMSGGWGEGKDLLLQLEDETLKLVEPQSQALLHAQPIISIRVWGVGRDSERDFAYVARDKLTQMLKCHVFRCEAPAKNIATSLHEICSKIMAEL 3d8d-a5-m1-cB_3d8d-a5-m4-cA Crystal structure of the human Fe65-PTB1 domain O00213 O00213 2.2 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 3d8d-a4-m1-cB_3d8d-a4-m3-cA GIKCFAVRSLGWVEMTEEELAPGRSSVAVNNCIRQLSYHKNNLHDPMSGGWGEGKDLLLQLEDETLKLVEPQSQALLHAQPIISIRVWGVGRDSERDFAYVARDKLTQMLKCHVFRCEAPAKNIATSLHEICSKIMAEL GIKCFAVRSLGWVEMTEEELAPGRSSVAVNNCIRQLSYHKNNLHDPMSGGWGEGKDLLLQLEDETLKLVEPQSQALLHAQPIISIRVWGVGRDSERDFAYVARDKLTQMLKCHVFRCEAPAKNIATSLHEICSKIMAEL 3d8h-a1-m1-cA_3d8h-a1-m1-cB Crystal structure of phosphoglycerate mutase from Cryptosporidium parvum, cgd7_4270 Q5CXZ9 Q5CXZ9 2.01 X-RAY DIFFRACTION 32 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 229 235 TYKLTLIRHGESEWNKENRFTGWTDVSLSEQGVSEAIEAGRMLLEKGFKFDVVYTSVLKRAIMTTWTVLKELGNINCPIINHWRLNERHYGALQGLNKSETASKFGEDQVKIWRRSFDVPPPVLEKSDPRWPGNELIYKGICPSCLPTTECLKDTVERVKPYFEDVIAPSIMSGKSVLVSAHGNSLRALLYLLEGMTPEQILEVNIPTACPLVLELDDYLKVTKKYYLI PRGSTYKLTLIRHGESEWNKENRFTGWTDVSLSEQGVSEAIEAGRMLLEKGFKFDVVYTSVLKRAIMTTWTVLKELGNINCPIINHWRLNERHYGALQGLNKSETASKFGEDQVKIWRRSFDVPPPVLEKSDPRWPGNELIYKGICPSCLPTTECLKDTVERVKPYFEDVIAPSIMSGKSVLVSAHGNSLRALLYLLEGMTPEQILEVNIPTACPLVLELDDYLKVTKKYYLIEE 3d8k-a1-m1-cB_3d8k-a1-m1-cC Crystal structure of a phosphatase from a toxoplasma gondii A4GX63 A4GX63 2.71 X-RAY DIFFRACTION 25 0.994 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 339 341 SLRHLYIEEGRTVCASATSRNRRPTSESSDDVVVVEGLRGRPETRVHAFDGFQGRHSAWLAQNVNYLNDLRDVNEEEITRQFERDGDLRAANLPGGSSALIIFVRYEKKPTEARVVGRQIVPEGEFTSVAEALGGPLPVVANFRRDPRAAKGIYTIHVASLGNSRCVLKSGRTAIHLSTPHTASSHKERHRVQAAGGVFTTVNGELLLGGVVPTRAFGSFDFKKGGQGKLQQDLVSAVPDVTTFFAYPGDDIVAGTAGAFAHHAAIAAAIALYPVSPETVLDAAKAVVNAKRRKVTKNISTFVRHLPESRTRSQKLEGTSGENGEEDFSIDRTNELTQA SLRHLYIEEGRTVCASATSRNRRPTSESSDDVVVVEGLRGRPETRVHAFDGFQGRHSAWLAQNVNYLNDLRDVNEEEITRQFERDGDLRAANLPGGSSALIIFVRYEKKPTEARVVGRQIVPEGAEFTSVAEALGGPLPVVANFRRDPRAAKGIYTIHVASLGNSRCVLKSGRTAIHLSTPHTASSHKERHRVQAAGGVFTTVNGELLLGGVVPTRAFGSFDFKKQGKLQQDLVSAVPDVTTFFAYPGDDIVAGTAGAFAHFRSHAAIAAAIALYPVSPETVLDAAKAVVNAKRRKVTKNISTFVRHLPESRTRSQKLEGTSGENGEEDFSIDRTNELTQA 3d8k-a1-m1-cD_3d8k-a1-m1-cA Crystal structure of a phosphatase from a toxoplasma gondii A4GX63 A4GX63 2.71 X-RAY DIFFRACTION 20 0.994 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 336 337 SLRHLYIEEGRTVCASATSRNRRPTSESSDDVVVVEGLRGRPETRVHAFDGFQGRHSAWLAQNVNYLNDLRDVNEEEITRQFERDGDLRAANLPGGSSALIIFVRYEKKPTEARVVGRQIVPEGEFTSVAEALGGPLPVVANFRRDPRAAKGIYTIHVASLGNSRCVLKSGRTAIHLSTPHTASSHKERHRVQAAGGVFTTVNGELLLGGVVPTRAFGSFDFKKGKLQQDLVSAVPDVTTFFAYPGDDIVAGTAGAFAHFRSHAAIAAAIALYPVSPETVLDAAKAVVNAKRRKNISTFVRHLPESRTRSQKLEGTSGENGEEDFSIDRTNELTQA SLRHLYIEEGRTVCASATSRNRRPTSESDDVVVVEGLRGRPETRVHAFDGFQGRHSAWLAQNVNYLNDLRDVNEEEITRQFERDGDLRAANLPGGSSALIIFVRYEKKPTEARVVGRQIVPEGFTSVAEALGGPLPVVANFRRDPRAAKGIYTIHVASLGNSRCVLKSGRTAIHLSTPHTASSHKERHRVQAAGGVFTTVNGELLLGGVVPTRAFGSFDFKKGKLQQDLVSAVPDVTTFFAYPGDDIVAGTAGAFAHFRSHAAIAAAIALYPVSPETVLDAAKAVVNAKRRKVTKNISTFVRHLPESRTRSQKLEGTSGENGEEDFSIDRTNELTQA 3d8k-a1-m1-cD_3d8k-a1-m1-cC Crystal structure of a phosphatase from a toxoplasma gondii A4GX63 A4GX63 2.71 X-RAY DIFFRACTION 19 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 336 341 3d8k-a1-m1-cA_3d8k-a1-m1-cB SLRHLYIEEGRTVCASATSRNRRPTSESSDDVVVVEGLRGRPETRVHAFDGFQGRHSAWLAQNVNYLNDLRDVNEEEITRQFERDGDLRAANLPGGSSALIIFVRYEKKPTEARVVGRQIVPEGEFTSVAEALGGPLPVVANFRRDPRAAKGIYTIHVASLGNSRCVLKSGRTAIHLSTPHTASSHKERHRVQAAGGVFTTVNGELLLGGVVPTRAFGSFDFKKGKLQQDLVSAVPDVTTFFAYPGDDIVAGTAGAFAHFRSHAAIAAAIALYPVSPETVLDAAKAVVNAKRRKNISTFVRHLPESRTRSQKLEGTSGENGEEDFSIDRTNELTQA SLRHLYIEEGRTVCASATSRNRRPTSESSDDVVVVEGLRGRPETRVHAFDGFQGRHSAWLAQNVNYLNDLRDVNEEEITRQFERDGDLRAANLPGGSSALIIFVRYEKKPTEARVVGRQIVPEGAEFTSVAEALGGPLPVVANFRRDPRAAKGIYTIHVASLGNSRCVLKSGRTAIHLSTPHTASSHKERHRVQAAGGVFTTVNGELLLGGVVPTRAFGSFDFKKQGKLQQDLVSAVPDVTTFFAYPGDDIVAGTAGAFAHFRSHAAIAAAIALYPVSPETVLDAAKAVVNAKRRKVTKNISTFVRHLPESRTRSQKLEGTSGENGEEDFSIDRTNELTQA 3d8l-a1-m1-cC_3d8l-a1-m1-cB Crystal structure of ORF12 from the lactococcus lactis bacteriophage p2 D3WAD0 D3WAD0 2.9 X-RAY DIFFRACTION 29 1.0 254252 (Lactococcus virus P2) 254252 (Lactococcus virus P2) 88 91 QLSTARKFKMITGKDLFQQQKAMDTELKKEDGEITDLMEFVQYGLYLALFQDNIVKAKSDFSDFRSSFEFDTDGKGLKELVELWQKEI GAKQLSTARKFKMITGKDLFQQQKAMDTELKKEDGEITDLMEFVQYGLYLALFQDNIVKAKSDFSDFRSSFEFDTDGKGLKELVELWQKEI 3d8m-a1-m2-cA_3d8m-a1-m3-cA Crystal structure of a chimeric receptor binding protein from lactococcal phages subspecies TP901-1 and p2 Q9G096 Q9G096 3.35 X-RAY DIFFRACTION 169 1.0 35345 (Lactococcus phage TP901-1) 35345 (Lactococcus phage TP901-1) 149 149 3d8m-a1-m1-cA_3d8m-a1-m2-cA 3d8m-a1-m1-cA_3d8m-a1-m3-cA 3da0-a1-m1-cA_3da0-a1-m1-cB 3da0-a1-m1-cA_3da0-a1-m1-cC 3da0-a1-m1-cC_3da0-a1-m1-cB TINDDLEAINSELTSGGNVVHKTGDETIAGKKTFTGNVEVNGSLTLPVQTLTVEAGNGLQLQLTKKNNDLVIVRFFGSVSNIQKGWNMSGTWVDRPFRPAAVQSLVGHFAGRDTSFHIDINPNGSITWWGANIDKTPIATRGNGSYFIK TINDDLEAINSELTSGGNVVHKTGDETIAGKKTFTGNVEVNGSLTLPVQTLTVEAGNGLQLQLTKKNNDLVIVRFFGSVSNIQKGWNMSGTWVDRPFRPAAVQSLVGHFAGRDTSFHIDINPNGSITWWGANIDKTPIATRGNGSYFIK 3d8u-a1-m1-cA_3d8u-a1-m1-cB The crystal structure of a PurR family transcriptional regulator from Vibrio parahaemolyticus RIMD 2210633 Q87JL7 Q87JL7 2.88 X-RAY DIFFRACTION 86 0.992 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 260 266 YSIALIIPSLFEKACAHFLPSFQQALNKAGYQLLLGYSDYSIEQEEKLLSTFLESRPAGVVLFGSEHSQRTHQLLEASNTPVLEIAELSSKASYLNIGVDHFEVGKACTRHLIEQGFKNVGFIGARGNHSTLQRQLHGWQSAIENYLTPDHFLTTHEAPSSQLGAEGLAKLLLRDSSLNALVCSHEEIAIGALFECHRRVLKVPTDIAIICLEGSSGEHAYPSLTSAEFDYERGTKAAEKLLHAIKGESGFKLKRRASTA YSIALIIPSLFEKACAHFLPSFQQALNKAGYQLLLGYSDYSIEQEEKLLSTFLESRPAGVVLFGSEHSQRTHQLLEASNTPVLEIAELSSKASYLNIGVDHFEVGKACTRHLIEQGFKNVGFIGARGNHSTLQRQLHGWQSAIENYLTPDHFLTTHEAPSSQLGAEGLAKLLLRDSSLNALVCSHEEIAIGALFECHRRVLKVPTDIAIICLEGSSGEHAYPSLTSAEFDYERGTKAAEKLLHAIKEPEEPTSGFKLKRRASTAIN 3d94-a1-m1-cA_3d94-a1-m2-cA Crystal structure of the insulin-like growth factor-1 receptor kinase in complex with PQIP P08069 P08069 2.3 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 VYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLLELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN VYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCVAEDFTVKIGDFGMTRDIYETDYYRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLLELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN 3d9r-a2-m1-cD_3d9r-a2-m1-cC Crystal structure of ketosteroid isomerase-like protein (YP_049581.1) from ERWINIA CAROTOVORA ATROSEPTICA SCRI1043 at 2.40 A resolution Q6D750 Q6D750 2.4 X-RAY DIFFRACTION 78 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 128 131 3d9r-a1-m1-cA_3d9r-a1-m1-cB FNEELAVIEAAAIAYLTAFNRADIPAVIATYTDDGVLGPGRPAAVGKDELAEVYLSVFETVGFDAYEIKEVVQTSADWAFVRSATEGTETNKATGVVTPAAYQELFLLRKSATGSWQTARYCTSKISP SKIFNEELAVIEAAAIAYLTAFNRADIPAVIATYTDDGVLGPGRPAAVGKDELAEVYLSVFETVGFDAYEIKEVVQTSADWAFVRSATEGTETNKATGVVTPAAYQELFLLRKSATGSWQTARYCTSKISP 3d9w-a6-m1-cD_3d9w-a6-m1-cC Crystal Structure Analysis of Nocardia farcinica Arylamine N-acetyltransferase Q5YYQ3 Q5YYQ3 2.7 X-RAY DIFFRACTION 82 1.0 37329 (Nocardia farcinica) 37329 (Nocardia farcinica) 281 282 3d9w-a5-m1-cB_3d9w-a5-m1-cA DDPAYHWNGAELDLDAYLARIGFAGERAPTLATLRELVYRHTTAIPFENLEAVLGRPVRLDLATLQDKLVHSRRGGYCYENAGLFAAALERLGFGVTGHTGRVTMGAGGLRPATHALLRVTTADDDRVWMCDVGFGRGPLRPYELRPQPDEFTLGDWRFRLERRTGELGTDLWVLHQFGRDGWVDRYTFTTAPQYRIDFEVGNHFVSTSPRSPFTTRPFLQRFHSDRHHVLDGLTLITERPDGSADIRALTPGELPEVINELFDIELPGPDLDALTTGSWL DDPAYHWNGAELDLDAYLARIGFAGERAPTLATLRELVYRHTTAIPFENLEAVLGRPVRLDLATLQDKLVHSRRGGYCYENAGLFAAALERLGFGVTGHTGRVTMGAGGLRPATHALLRVTTADDDRVWMCDVGFGRGPLRPYELRPQPDEFTLGDWRFRLERRTGELGTDLWVLHQFGRDGWVDRYTFTTAPQYRIDFEVGNHFVSTSPRSPFTTRPFLQRFHSDRHHVLDGLTLITERPDGSADIRALTPGELPEVINELFDIELPGPDLDALTTGSWLE 3d9x-a1-m1-cA_3d9x-a1-m1-cC Structure of the head of the Bartonella adhesin BadA Q5MWV9 Q5MWV9 1.13 X-RAY DIFFRACTION 226 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 114 114 3d9x-a1-m1-cB_3d9x-a1-m1-cA 3d9x-a1-m1-cB_3d9x-a1-m1-cC GGWNLTVNNDNNTVVSSGGALDLSSGSKNLKIVKDGKKNNVTFDVARDLTLKSIKLDGVTLNETGLFIANGPQITASGINAGSQKITGVAEGTDANDAVNFGQLKKIETEVKEQ GGWNLTVNNDNNTVVSSGGALDLSSGSKNLKIVKDGKKNNVTFDVARDLTLKSIKLDGVTLNETGLFIANGPQITASGINAGSQKITGVAEGTDANDAVNFGQLKKIETEVKEQ 3da3-a3-m1-cA_3da3-a3-m1-cB Crystal Structure of Colicin M, A Novel Phosphatase Specifically Imported by Escherichia Coli P05820 P05820 2.5 X-RAY DIFFRACTION 98 1.0 562 (Escherichia coli) 562 (Escherichia coli) 270 270 ETLTVHAPSPSTNLPSYGNGAFSLSAPHVPGAGPLLVQVVYSFFQSPNMCLQALTQLEDYIKKHGASNPLTLQIISTNIGYFCNADRNLVLHPGISVYDAYHFAKPAPSQYDYRSMNMKQMSGNVTTPIVALAHYLWGNGAERSVNIANIGLKISPMKINQIKDIIKSGVVGTFPVSTKFTHATGDYNVITGAYLGNITLKTEGTLTISANGSWTYNGVVRSYDDKYDFNASTHRGIIGESLTRLGAMFSGKEYQILLPGEIHIKESGKR ETLTVHAPSPSTNLPSYGNGAFSLSAPHVPGAGPLLVQVVYSFFQSPNMCLQALTQLEDYIKKHGASNPLTLQIISTNIGYFCNADRNLVLHPGISVYDAYHFAKPAPSQYDYRSMNMKQMSGNVTTPIVALAHYLWGNGAERSVNIANIGLKISPMKINQIKDIIKSGVVGTFPVSTKFTHATGDYNVITGAYLGNITLKTEGTLTISANGSWTYNGVVRSYDDKYDFNASTHRGIIGESLTRLGAMFSGKEYQILLPGEIHIKESGKR 3da5-a1-m1-cA_3da5-a1-m1-cB Crystal Structure of Piwi/Argonaute/Zwille(PAZ) domain from Thermococcus thioreducens D0VWU1 D0VWU1 1.94 X-RAY DIFFRACTION 32 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 121 121 KKTLWELVGRNKDALRDFLKEHRGTILLRDIASEHKVVYKPIFKRYNGDPDLIEDNSNDVEHWYDYHLERYWNTPELKKEFYKKFGPVDLNQPIILAKPLRQHNRGDLVHLLPQFVVPVYN KKTLWELVGRNKDALRDFLKEHRGTILLRDIASEHKVVYKPIFKRYNGDPDLIEDNSNDVEHWYDYHLERYWNTPELKKEFYKKFGPVDLNQPIILAKPLRQHNRGDLVHLLPQFVVPVYN 3da8-a1-m2-cB_3da8-a1-m1-cA Crystal structure of PurN from Mycobacterium tuberculosis P9WHM5 P9WHM5 1.3 X-RAY DIFFRACTION 56 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 205 213 3dcj-a2-m2-cB_3dcj-a2-m1-cA PLRVPPSAPARLVVLASGTGSLLRSLLDAAVGDYPARVVAVGVDRECRAAEIAAEASVPVFTVRLADHPSRDAWDVAITAATAAHEPDLVVSAGFMRILGPQFLSRFYGRTLNTHPALLPAFPGTHGVADALAYGVKVTGATVHLVDADTGPILAQQPVPVLDGDDEETLHERIKVTERRLLVAAVAALATHGVTVVGRTATMGR EPLRVPPSAPARLVVLASGTGSLLRSLLDAAVGDYPARVVAVGVDRECRAAEIAAEASVPVFTVRLADHPSRDAWDVAITAATAAHEPDLVVSAGFMRILGPQFLSRFYGRTLNTHPALLPAFPGTHGVADALAYGVKVTGATVHLVDAGTDTGPILAQQPVPVLDGDDEETLHERIKVTERRLLVAAVAALATHGVTVVGRTATMGRKVTIG 3dah-a2-m2-cA_3dah-a2-m2-cB 2.3 A crystal structure of ribose-phosphate pyrophosphokinase from Burkholderia pseudomallei Q63XL8 Q63XL8 2.3 X-RAY DIFFRACTION 63 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 290 294 3dah-a1-m1-cA_3dah-a1-m1-cB 3dah-a2-m1-cA_3dah-a2-m1-cB 3dah-a2-m1-cC_3dah-a2-m2-cC DGLMVFTGNANPALAQEVVKILGIPLGKAMVSRFSDGEIQVEIQENVRGKDVFVLQSTCAPTNDNLMELMIMVDALKRASAGRITAAIPYFGYARQDRRPRSARVAISAKVVANMLEIAGVERIITMDLHADQIQGFFDIPVDNIYATPILLGDLRKQNYPDLLVVSPDVGGVVRARALAKQLNCDLAIEGRTCVIMDDMVDTAGTLCKAAQVLKERGAKQVFAYATHPVLSGGAADRIAASALDELVVTDTIPLSAESLACPKIRALSSAGLLAETFSRIRRGDSVMSL DGLMVFTGNANPALAQEVVKILGIPLGKAMVSRFSDGEIQVEIQENVRGKDVFVLQSTCAPTNDNLMELMIMVDALKRASAGRITAAIPYFGYARQDRRPRSARVAISAKVVANMLEIAGVERIITMDLHADQIQGFFDIPVDNIYATPILLGDLRKQNYPDLLVVSPDVGGVVRARALAKQLNCDLAIGEVEGRTCVIMDDMVDTAGTLCKAAQVLKERGAKQVFAYATHPVLSGGAADRIAASALDELVVTDTIPLSAESLACPKIRALSSAGLLAETFSRIRRGDSVMSLF 3dah-a2-m2-cA_3dah-a2-m2-cC 2.3 A crystal structure of ribose-phosphate pyrophosphokinase from Burkholderia pseudomallei Q63XL8 Q63XL8 2.3 X-RAY DIFFRACTION 18 0.99 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 290 300 3dah-a1-m1-cA_3dah-a1-m1-cC 3dah-a2-m1-cA_3dah-a2-m1-cC 3dah-a2-m1-cA_3dah-a2-m2-cB 3dah-a2-m1-cB_3dah-a2-m2-cC 3dah-a2-m2-cA_3dah-a2-m1-cB 3dah-a2-m2-cB_3dah-a2-m1-cC DGLMVFTGNANPALAQEVVKILGIPLGKAMVSRFSDGEIQVEIQENVRGKDVFVLQSTCAPTNDNLMELMIMVDALKRASAGRITAAIPYFGYARQDRRPRSARVAISAKVVANMLEIAGVERIITMDLHADQIQGFFDIPVDNIYATPILLGDLRKQNYPDLLVVSPDVGGVVRARALAKQLNCDLAIEGRTCVIMDDMVDTAGTLCKAAQVLKERGAKQVFAYATHPVLSGGAADRIAASALDELVVTDTIPLSAESLACPKIRALSSAGLLAETFSRIRRGDSVMSL GLMVFTGNANPALAQEVVKILGIPLGKAMVSRFSDGEIQVEIQENVRGKDVFVLQSTCAPTNDNLMELMIMVDALKRASAGRITAAIPYFGYARQDRRPRSARVAISAKVVANMLEIAGVERIITMDLHADQIQGFFDIPVDNIYATPILLGDLRKQNYPDLLVVSPDVGGVVRARALAKQLNCDLAIIDKRRVMNIIGEVEGRTCVIMDDMVDTAGTLCKAAQVLKERGAKQVFAYATHPVLSGGAADRIAASALDELVVTDTIPLSAESLACPKIRALSSAGLLAETFSRIRRGDSVM 3dah-a2-m2-cB_3dah-a2-m2-cC 2.3 A crystal structure of ribose-phosphate pyrophosphokinase from Burkholderia pseudomallei Q63XL8 Q63XL8 2.3 X-RAY DIFFRACTION 128 0.986 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 294 300 3dah-a1-m1-cB_3dah-a1-m1-cC 3dah-a2-m1-cA_3dah-a2-m2-cA 3dah-a2-m1-cB_3dah-a2-m1-cC DGLMVFTGNANPALAQEVVKILGIPLGKAMVSRFSDGEIQVEIQENVRGKDVFVLQSTCAPTNDNLMELMIMVDALKRASAGRITAAIPYFGYARQDRRPRSARVAISAKVVANMLEIAGVERIITMDLHADQIQGFFDIPVDNIYATPILLGDLRKQNYPDLLVVSPDVGGVVRARALAKQLNCDLAIGEVEGRTCVIMDDMVDTAGTLCKAAQVLKERGAKQVFAYATHPVLSGGAADRIAASALDELVVTDTIPLSAESLACPKIRALSSAGLLAETFSRIRRGDSVMSLF GLMVFTGNANPALAQEVVKILGIPLGKAMVSRFSDGEIQVEIQENVRGKDVFVLQSTCAPTNDNLMELMIMVDALKRASAGRITAAIPYFGYARQDRRPRSARVAISAKVVANMLEIAGVERIITMDLHADQIQGFFDIPVDNIYATPILLGDLRKQNYPDLLVVSPDVGGVVRARALAKQLNCDLAIIDKRRVMNIIGEVEGRTCVIMDDMVDTAGTLCKAAQVLKERGAKQVFAYATHPVLSGGAADRIAASALDELVVTDTIPLSAESLACPKIRALSSAGLLAETFSRIRRGDSVM 3dak-a1-m1-cB_3dak-a1-m1-cA Crystal Structure of Domain-Swapped OSR1 kinase domain O95747 O95747 2.25 X-RAY DIFFRACTION 32 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 278 279 SALPWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGVQDKEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQKAK SALPWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGVGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGVQDKEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQKAK 3dak-a3-m1-cB_3dak-a3-m1-cC Crystal Structure of Domain-Swapped OSR1 kinase domain O95747 O95747 2.25 X-RAY DIFFRACTION 141 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 278 281 3dak-a1-m1-cA_3dak-a1-m1-cD 3dak-a1-m1-cB_3dak-a1-m1-cC 3dak-a2-m1-cA_3dak-a2-m1-cD SALPWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGVQDKEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQKAK ALPWSINRDDYELQEVIGSGATAVVQAAYCAPKKEKVAIKRINLEKCQTSMDELLKEIQAMSQCHHPNIVSYYTSFVVKDELWLVMKLLSGGSVLDIIKHIVAKGEHKSGVLDESTIATILREVLEGLEYLHKNGQIHRDVKAGNILLGEDGSVQIADFGVSAFLATGGDTFVGTPCWMAPEVMEQVRGYDFKADIWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPSLETGVQDKEMLKKYGKSFRKMISLCLQKDPEKRPTAAELLRHKFFQKAK 3dal-a1-m2-cB_3dal-a1-m1-cA Methyltransferase domain of human PR domain-containing protein 1 O75626 O75626 1.65 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 179 ADMTLWTEAEFEEKCTYIVNDHPVQAEASLPRNLLFKYATSEEVIGVMSKEYIPKGTRFGPLIGEIYTNDTVPNRKYFWRIYSRGELHHFIDGFNEEKSNWMRYVNPAHSPREQNLAACQNGMNIYFYTIKPIPANQELLVWYCRDFAERLHYPYPGELTMMNLTQ SSGLVPRGSKADMTLWTEAEFEEKCTYIVNDHPWDVQAEASLPRNLLFKYATNSEEVIGVMSKEYIPKGTRFGPLIGEIYTNDTVPNRKYFWRIYSRGELHHFIDGFNEEKSNWMRYVNPAHSPREQNLAACQNGMNIYFYTIKPIPANQELLVWYCRDFAERLHYPYPGELTMMNLTQ 3daq-a2-m1-cC_3daq-a2-m1-cD Crystal structure of dihydrodipicolinate synthase from methicillin-resistant Staphylococcus aureus Q6GH13 Q6GH13 1.45 X-RAY DIFFRACTION 117 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 292 292 3daq-a1-m1-cA_3daq-a1-m1-cB 3di0-a1-m1-cA_3di0-a1-m1-cB 3di1-a1-m1-cA_3di1-a1-m1-cB THLFEGVGVALTTPFTNNKVNLEALKAHVNFLLENNAQAIIVNGTTAESPTLTTDEKELILKTVIDLVDKRVPVIAGTGTNDTEKSIQASIQAKALGADAIMLITPYYNKTNQRGLVKHFEAIADAVKLPVVLYNVPSRTNMTIEPETVEILSQHPYIVALKDATNDFEYLEEVKKRIDTNSFALYSGNDDNVVEYYQRGGQGVISVIANVIPKEFQALYDAQQSGLDIQDQFKPIGTLLSALSVDINPIPIKALTSYLGFGNYELRLPLVSLEDTDTKVLREAYDTFKAGE THLFEGVGVALTTPFTNNKVNLEALKAHVNFLLENNAQAIIVNGTTAESPTLTTDEKELILKTVIDLVDKRVPVIAGTGTNDTEKSIQASIQAKALGADAIMLITPYYNKTNQRGLVKHFEAIADAVKLPVVLYNVPSRTNMTIEPETVEILSQHPYIVALKDATNDFEYLEEVKKRIDTNSFALYSGNDDNVVEYYQRGGQGVISVIANVIPKEFQALYDAQQSGLDIQDQFKPIGTLLSALSVDINPIPIKALTSYLGFGNYELRLPLVSLEDTDTKVLREAYDTFKAGE 3db0-a1-m1-cB_3db0-a1-m2-cB Crystal structure of Putative Pyridoxamine 5'-phosphate oxidase (NP_472219.1) from LISTERIA INNOCUA at 2.00 A resolution Q926Z8 Q926Z8 2 X-RAY DIFFRACTION 47 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 123 123 ELEDKILAILEQHQVGVLTSVQGDFPHARYTFLHDGLTLYTPSGKELPKTEEVRRNPHVCVLIGYDSPGSAFLEINGLASLEEDESIKERIWENISKDWFQGEDSPSFVVIKIVPEQIRILNS ELEDKILAILEQHQVGVLTSVQGDFPHARYTFLHDGLTLYTPSGKELPKTEEVRRNPHVCVLIGYDSPGSAFLEINGLASLEEDESIKERIWENISKDWFQGEDSPSFVVIKIVPEQIRILNS 3db0-a2-m1-cA_3db0-a2-m3-cB Crystal structure of Putative Pyridoxamine 5'-phosphate oxidase (NP_472219.1) from LISTERIA INNOCUA at 2.00 A resolution Q926Z8 Q926Z8 2 X-RAY DIFFRACTION 29 0.982 1642 (Listeria innocua) 1642 (Listeria innocua) 114 123 3db0-a2-m3-cA_3db0-a2-m1-cB ENELEDKILAILEQHQVGVLTSVQGDFPHARYTFLHDGLTLYTPSPKTEEVRRNPHVCVLIGYDSPGSAFLEINGLASLEEDESIKERIWENISKDWFQFVVIKIVPEQIRILN ELEDKILAILEQHQVGVLTSVQGDFPHARYTFLHDGLTLYTPSGKELPKTEEVRRNPHVCVLIGYDSPGSAFLEINGLASLEEDESIKERIWENISKDWFQGEDSPSFVVIKIVPEQIRILNS 3db0-a3-m1-cA_3db0-a3-m1-cB Crystal structure of Putative Pyridoxamine 5'-phosphate oxidase (NP_472219.1) from LISTERIA INNOCUA at 2.00 A resolution Q926Z8 Q926Z8 2 X-RAY DIFFRACTION 67 0.982 1642 (Listeria innocua) 1642 (Listeria innocua) 114 123 3db0-a1-m1-cA_3db0-a1-m1-cB 3db0-a1-m2-cA_3db0-a1-m2-cB 3db0-a2-m1-cA_3db0-a2-m1-cB 3db0-a2-m3-cA_3db0-a2-m3-cB ENELEDKILAILEQHQVGVLTSVQGDFPHARYTFLHDGLTLYTPSPKTEEVRRNPHVCVLIGYDSPGSAFLEINGLASLEEDESIKERIWENISKDWFQFVVIKIVPEQIRILN ELEDKILAILEQHQVGVLTSVQGDFPHARYTFLHDGLTLYTPSGKELPKTEEVRRNPHVCVLIGYDSPGSAFLEINGLASLEEDESIKERIWENISKDWFQGEDSPSFVVIKIVPEQIRILNS 3db2-a2-m1-cB_3db2-a2-m1-cA Crystal structure of a putative nadph-dependent oxidoreductase (dhaf_2064) from desulfitobacterium hafniense dcb-2 at 1.70 A resolution B8FRW3 B8FRW3 1.7 X-RAY DIFFRACTION 129 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 337 340 3db2-a1-m1-cC_3db2-a1-m2-cC YNPVGVAAIGLGRWAYVADAYTKSEKLKLVTCYSRTEDKREKFGKRYNCAGDATEALLAREDVEVIITVPNDKHAEVIEQCARSGKHIYVEKPISVSLDHAQRIDQVIKETGVKFLCGHSSRRLGALRKKEIDTKEIGEVSSIEAVFSNERGLELKKGNWRGEPATAPGGPLTQLGVHQIDNLQFLLGPVARVFNFGKPYTEVENITVNQTLLEFEDGKQAYLGTNWACPGVFSINVYGTKANLFYQLDFSWWSNSDVTDEHSTLIKREFAILRDVKVDFESVDHLRVEVEEVADVIRNGGETEIGAEASLRNLAVVLAAVKSVHEKRPVEIAEIIG YNPVGVAAIGLGRWAYVADAYTKSEKLKLVTCYSRTEDKREKFGKRYNCAGDATEALLAREDVEVIITVPNDKHAEVIEQCARSGKHIYVEKPISVSLDHAQRIDQVIKETGVKFLCGHSSRRLGALRKKEIDTKEIGEVSSIEAVFSNERGLELKKGNWRGEPATAPGGPLTQLGVHQIDNLQFLLGPVARVFNFGKPYTEVENITVNQTLLEFEDGKQAYLGTNWACPGVFSINVYGTKANLFYQLDFSWWSNSDVTDEHSTLIKREFASNRILRDVKVDFESVDHLRVEVEEVADVIRNGGETEIGAEASLRNLAVVLAAVKSVHEKRPVEIAEIIG 3db7-a1-m1-cA_3db7-a1-m2-cA Crystal structure of a putative calcium-regulated periplasmic protein (bt0923) from bacteroides thetaiotaomicron at 1.40 A resolution Q8A994 Q8A994 1.4 X-RAY DIFFRACTION 57 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 125 125 GADDDKPIQVTQPQLAQQFIKQHFSDSKVALAKESDFLYKSYEVIFTNGNKVEFDKKGNWEEVDCKHTSVPVAIIPAAIQKYVTTNYPDAKVLKIERDKKDYEVKLSNRTELKFDLKFNLIDIDN GADDDKPIQVTQPQLAQQFIKQHFSDSKVALAKESDFLYKSYEVIFTNGNKVEFDKKGNWEEVDCKHTSVPVAIIPAAIQKYVTTNYPDAKVLKIERDKKDYEVKLSNRTELKFDLKFNLIDIDN 3db9-a1-m1-cA_3db9-a1-m2-cA Crystal structure of UPF0317 protein Atu3911 from Agrobacterium tumefaciens. NorthEast Strcutural Genomics target AtR186 Q8U919 Q8U919 2.8 X-RAY DIFFRACTION 73 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 235 235 TDAEAARKARATYRDGLVAPTSGIAPGFTQANMIVLPRDWAFDFLLYAQRNPKPCPVLDVSDPGSPTTLLAPGADLRTDLPLYRIWRDGKLAEETADATSAWAERDDLVAFLIGTPMVEAGISNVPMYLTNRPCRPAGRLKGNMVVSMRPIPASRVADAATISGRPVHVGAPEQIGISDLSKPDFGDAVRIEPGEVPVFWACGVTPQAAVMASGVPFAITHAPGHMFITDIPDTA TDAEAARKARATYRDGLVAPTSGIAPGFTQANMIVLPRDWAFDFLLYAQRNPKPCPVLDVSDPGSPTTLLAPGADLRTDLPLYRIWRDGKLAEETADATSAWAERDDLVAFLIGTPMVEAGISNVPMYLTNRPCRPAGRLKGNMVVSMRPIPASRVADAATISGRPVHVGAPEQIGISDLSKPDFGDAVRIEPGEVPVFWACGVTPQAAVMASGVPFAITHAPGHMFITDIPDTA 3dba-a1-m1-cA_3dba-a1-m2-cA Crystal structure of the cGMP-bound GAF a domain from the photoreceptor phosphodiesterase 6C P52731 P52731 2.57 X-RAY DIFFRACTION 63 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 171 171 RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR 3dba-a1-m1-cA_3dba-a1-m2-cB Crystal structure of the cGMP-bound GAF a domain from the photoreceptor phosphodiesterase 6C P52731 P52731 2.57 X-RAY DIFFRACTION 37 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 171 171 3dba-a1-m1-cB_3dba-a1-m2-cA RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR 3dba-a1-m2-cA_3dba-a1-m2-cB Crystal structure of the cGMP-bound GAF a domain from the photoreceptor phosphodiesterase 6C P52731 P52731 2.57 X-RAY DIFFRACTION 44 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 171 171 3dba-a1-m1-cA_3dba-a1-m1-cB RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR 3dbi-a1-m1-cC_3dbi-a1-m1-cA CRYSTAL STRUCTURE OF SUGAR-BINDING TRANSCRIPTIONAL REGULATOR (LACI FAMILY) FROM ESCHERICHIA COLI COMPLEXED WITH PHOSPHATE P24242 P24242 2.45 X-RAY DIFFRACTION 95 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 268 269 3brq-a1-m1-cA_3brq-a1-m1-cB 3dbi-a2-m1-cB_3dbi-a2-m2-cB STQTLGLVVTNTLYHGIYFSELLFHAARAEEKGRQLLLADGKHSAEEERQAIQYLLDLRCDAIIYPRFLSVDEIDDIIDAHSQPIVLNRRLRKNSSHSVWCDHKQTSFNAVAELINAGHQEIAFLTGSDSPTSIERLAGYKDALAQHGIALNEKLIANGKWTPASGAEGVELLERGAKFSALVASNDDAIGAKALHERGVAVPEQVSVIGFDDIAIAPYTVPALSSVKIPVTEIQEIIGRLIFLDGGDFSPPKTFSGKLIRRDSLIAP STQTLGLVVTNTLYHGIYFSELLFHAARAEEKGRQLLLADGKHSAEEERQAIQYLLDLRCDAIIYPRFLSVDEIDDIIDAHSQPIVLNRRLRKNSSHSVWCDHKQTSFNAVAELINAGHQEIAFLTGSDSPTSIERLAGYKDALAQHGIALNEKLIANGKWTPASGAEGVELLERGAKFSALVASNDDAIGAKALHERGVAVPEQVSVIGFDDIAIAPYTVPALSSVKIPVTEIQEIIGRLIFLDGGDFSPPKTFSGKLIRRDSLIAPS 3dbp-a1-m1-cA_3dbp-a1-m1-cB Crystal Structure of Human Orotidine 5'-Monophosphate Decarboxylase Complexed with 6-NH2-UMP P11172 P11172 1.5 X-RAY DIFFRACTION 158 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 257 2eaw-a1-m1-cA_2eaw-a1-m1-cB 2jgy-a1-m1-cB_2jgy-a1-m1-cA 2p1f-a1-m1-cA_2p1f-a1-m2-cA 2qcc-a1-m1-cA_2qcc-a1-m1-cB 2qcd-a1-m1-cA_2qcd-a1-m1-cB 2qce-a1-m1-cA_2qce-a1-m2-cA 2qcf-a1-m1-cA_2qcf-a1-m2-cA 2qcg-a1-m1-cA_2qcg-a1-m1-cB 2qch-a1-m1-cA_2qch-a1-m1-cB 2qcl-a1-m1-cA_2qcl-a1-m1-cB 2qcm-a1-m1-cA_2qcm-a1-m2-cA 2qcn-a1-m1-cA_2qcn-a1-m1-cB 2v30-a1-m1-cB_2v30-a1-m1-cA 3bgg-a1-m1-cA_3bgg-a1-m2-cA 3bgj-a1-m1-cA_3bgj-a1-m1-cB 3bk0-a1-m1-cA_3bk0-a1-m1-cB 3bvj-a1-m1-cA_3bvj-a1-m1-cB 3ewu-a1-m1-cA_3ewu-a1-m1-cB 3eww-a1-m1-cA_3eww-a1-m1-cB 3ewx-a1-m1-cA_3ewx-a1-m2-cA 3ewy-a1-m1-cA_3ewy-a1-m2-cA 3ewz-a1-m1-cA_3ewz-a1-m1-cB 3ewz-a2-m1-cD_3ewz-a2-m1-cC 3ex1-a1-m1-cA_3ex1-a1-m1-cB 3ex2-a1-m1-cA_3ex2-a1-m1-cB 3ex3-a1-m1-cA_3ex3-a1-m1-cB 3ex4-a1-m1-cA_3ex4-a1-m2-cA 3ex6-a1-m1-cA_3ex6-a1-m1-cB 3g3d-a1-m1-cA_3g3d-a1-m1-cB 3g3m-a1-m1-cA_3g3m-a1-m2-cA 3l0k-a1-m1-cB_3l0k-a1-m1-cA 3l0n-a1-m1-cA_3l0n-a1-m1-cB 3mi2-a1-m1-cA_3mi2-a1-m1-cB 3mo7-a1-m1-cA_3mo7-a1-m2-cA 3mw7-a1-m1-cB_3mw7-a1-m1-cA 4hib-a1-m1-cA_4hib-a1-m1-cB 4hkp-a1-m1-cA_4hkp-a1-m1-cB 6yvk-a1-m1-cA_6yvk-a1-m2-cA 6yvl-a1-m1-cA_6yvl-a1-m2-cA 6yvm-a1-m1-cA_6yvm-a1-m2-cA 6yvn-a1-m1-cA_6yvn-a1-m2-cA 6yvo-a1-m1-cA_6yvo-a1-m2-cA 6ywt-a1-m1-cA_6ywt-a1-m2-cA 6zwy-a1-m1-cA_6zwy-a1-m2-cA 6zwz-a1-m1-cA_6zwz-a1-m2-cA 6zx0-a1-m1-cA_6zx0-a1-m2-cA 6zx1-a1-m1-cA_6zx1-a1-m2-cA 6zx2-a1-m1-cA_6zx2-a1-m2-cA 6zx3-a1-m1-cA_6zx3-a1-m2-cA 7am9-a1-m1-cA_7am9-a1-m2-cA 7asq-a1-m1-cA_7asq-a1-m2-cA 7oqf-a1-m1-cA_7oqf-a1-m1-cB 7oqi-a1-m1-cA_7oqi-a1-m1-cB 7oqk-a1-m1-cA_7oqk-a1-m1-cB 7oqm-a1-m1-cA_7oqm-a1-m1-cB 7oqn-a1-m1-cA_7oqn-a1-m1-cB 7otu-a1-m1-cA_7otu-a1-m2-cA 7ouz-a1-m1-cA_7ouz-a1-m2-cA 7ov0-a1-m1-cA_7ov0-a1-m2-cA 7q1h-a1-m1-cA_7q1h-a1-m2-cA KELSFGARAELPRIHPVASKLLRLMQKKETNLCLSADVSLARELLQLADALGPSICMLKTHVDILNDFTLDVMKELITLAKCHEFLIFEDRKFADIGNTVKKQYEGGIFKIASWADLVNAHVVPGSGVVKGLQEVGLPLHRGCLLIAEMSSTGSLATGDYTRAAVRMAEEHSEFVVGFISGSRVSMKPEFLHLTPGVQLEAGGDNLGQQYNSPQEVIGKRGSDIIIVGRGIISAADRLEAAEMYRKAAWEAYLSRLG KELSFGARAELPRIHPVASKLLRLMQKKETNLCLSADVSLARELLQLADALGPSICMLKTHVDILNDFTLDVMKELITLAKCHEFLIFEDRKFADIGNTVKKQYEGGIFKIASWADLVNAHVVPGSGVVKGLQEVGLPLHRGCLLIAEMSSTGSLATGDYTRAAVRMAEEHSEFVVGFISGSRVSMKPEFLHLTPGVQLEAGGDNLGQQYNSPQEVIGKRGSDIIIVGRGIISAADRLEAAEMYRKAAWEAYLSRLG 3dby-a8-m5-cD_3dby-a8-m4-cC Crystal structure of uncharacterized protein from Bacillus cereus G9241 (CSAP Target) 2.1 X-RAY DIFFRACTION 63 1.0 269801 (Bacillus cereus G9241) 269801 (Bacillus cereus G9241) 266 267 3dby-a10-m1-cS_3dby-a10-m2-cT 3dby-a10-m2-cS_3dby-a10-m3-cT 3dby-a10-m3-cS_3dby-a10-m1-cT 3dby-a1-m1-cR_3dby-a1-m2-cQ 3dby-a1-m2-cR_3dby-a1-m3-cQ 3dby-a1-m3-cR_3dby-a1-m1-cQ 3dby-a2-m1-cE_3dby-a2-m5-cF 3dby-a2-m4-cE_3dby-a2-m1-cF 3dby-a2-m5-cE_3dby-a2-m4-cF 3dby-a3-m1-cG_3dby-a3-m7-cH 3dby-a3-m6-cG_3dby-a3-m1-cH 3dby-a3-m7-cG_3dby-a3-m6-cH 3dby-a4-m1-cK_3dby-a4-m6-cL 3dby-a4-m6-cK_3dby-a4-m7-cL 3dby-a4-m7-cK_3dby-a4-m1-cL 3dby-a5-m1-cM_3dby-a5-m7-cN 3dby-a5-m1-cN_3dby-a5-m6-cM 3dby-a5-m6-cN_3dby-a5-m7-cM 3dby-a6-m1-cA_3dby-a6-m2-cB 3dby-a6-m2-cA_3dby-a6-m3-cB 3dby-a6-m3-cA_3dby-a6-m1-cB 3dby-a7-m1-cI_3dby-a7-m4-cJ 3dby-a7-m4-cI_3dby-a7-m5-cJ 3dby-a7-m5-cI_3dby-a7-m1-cJ 3dby-a8-m1-cD_3dby-a8-m5-cC 3dby-a8-m4-cD_3dby-a8-m1-cC 3dby-a9-m1-cO_3dby-a9-m3-cP 3dby-a9-m2-cO_3dby-a9-m1-cP 3dby-a9-m3-cO_3dby-a9-m2-cP ERNYEESALFEHQFWLKVLTDHAQFLLDALAPKEKEDIKKATYFVETFTNLLNKVRNVNLMAFSKEAEQAAKEIRAFKLNIIQKQLEGKITIHFTPTFINHMVNEVEEYIAVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEQFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEVLSVLSARMADHMAREECYYLLKLAQSSGLEMPKCNPLEGHHHHHH LERNYEESALFEHQFWLKVLTDHAQFLLDALAPKEKEDIKKATYFVETFTNLLNKVRNVNLMAFSKEAEQAAKEIRAFKLNIIQKQLEGKITIHFTPTFINHMVNEVEEYIAVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEQFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEVLSVLSARMADHMAREECYYLLKLAQSSGLEMPKCNPLEGHHHHHH 3dby-a8-m5-cD_3dby-a8-m5-cC Crystal structure of uncharacterized protein from Bacillus cereus G9241 (CSAP Target) 2.1 X-RAY DIFFRACTION 83 1.0 269801 (Bacillus cereus G9241) 269801 (Bacillus cereus G9241) 266 267 3dby-a10-m1-cS_3dby-a10-m1-cT 3dby-a10-m2-cS_3dby-a10-m2-cT 3dby-a10-m3-cS_3dby-a10-m3-cT 3dby-a1-m1-cR_3dby-a1-m1-cQ 3dby-a1-m2-cR_3dby-a1-m2-cQ 3dby-a1-m3-cR_3dby-a1-m3-cQ 3dby-a2-m1-cE_3dby-a2-m1-cF 3dby-a2-m4-cE_3dby-a2-m4-cF 3dby-a2-m5-cE_3dby-a2-m5-cF 3dby-a3-m1-cG_3dby-a3-m1-cH 3dby-a3-m6-cG_3dby-a3-m6-cH 3dby-a3-m7-cG_3dby-a3-m7-cH 3dby-a4-m1-cK_3dby-a4-m1-cL 3dby-a4-m6-cK_3dby-a4-m6-cL 3dby-a4-m7-cK_3dby-a4-m7-cL 3dby-a5-m1-cM_3dby-a5-m1-cN 3dby-a5-m6-cM_3dby-a5-m6-cN 3dby-a5-m7-cM_3dby-a5-m7-cN 3dby-a6-m1-cA_3dby-a6-m1-cB 3dby-a6-m2-cA_3dby-a6-m2-cB 3dby-a6-m3-cA_3dby-a6-m3-cB 3dby-a7-m1-cI_3dby-a7-m1-cJ 3dby-a7-m4-cI_3dby-a7-m4-cJ 3dby-a7-m5-cI_3dby-a7-m5-cJ 3dby-a8-m1-cD_3dby-a8-m1-cC 3dby-a8-m4-cD_3dby-a8-m4-cC 3dby-a9-m1-cO_3dby-a9-m1-cP 3dby-a9-m2-cO_3dby-a9-m2-cP 3dby-a9-m3-cO_3dby-a9-m3-cP ERNYEESALFEHQFWLKVLTDHAQFLLDALAPKEKEDIKKATYFVETFTNLLNKVRNVNLMAFSKEAEQAAKEIRAFKLNIIQKQLEGKITIHFTPTFINHMVNEVEEYIAVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEQFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEVLSVLSARMADHMAREECYYLLKLAQSSGLEMPKCNPLEGHHHHHH LERNYEESALFEHQFWLKVLTDHAQFLLDALAPKEKEDIKKATYFVETFTNLLNKVRNVNLMAFSKEAEQAAKEIRAFKLNIIQKQLEGKITIHFTPTFINHMVNEVEEYIAVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEQFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEVLSVLSARMADHMAREECYYLLKLAQSSGLEMPKCNPLEGHHHHHH 3dby-a9-m2-cP_3dby-a9-m3-cP Crystal structure of uncharacterized protein from Bacillus cereus G9241 (CSAP Target) 2.1 X-RAY DIFFRACTION 26 1.0 269801 (Bacillus cereus G9241) 269801 (Bacillus cereus G9241) 266 266 3dby-a10-m1-cS_3dby-a10-m2-cS 3dby-a10-m1-cS_3dby-a10-m3-cS 3dby-a10-m1-cT_3dby-a10-m2-cT 3dby-a10-m1-cT_3dby-a10-m3-cT 3dby-a10-m2-cS_3dby-a10-m3-cS 3dby-a10-m2-cT_3dby-a10-m3-cT 3dby-a1-m1-cQ_3dby-a1-m2-cQ 3dby-a1-m1-cQ_3dby-a1-m3-cQ 3dby-a1-m1-cR_3dby-a1-m2-cR 3dby-a1-m1-cR_3dby-a1-m3-cR 3dby-a1-m2-cQ_3dby-a1-m3-cQ 3dby-a1-m2-cR_3dby-a1-m3-cR 3dby-a2-m1-cE_3dby-a2-m4-cE 3dby-a2-m1-cE_3dby-a2-m5-cE 3dby-a2-m1-cF_3dby-a2-m4-cF 3dby-a2-m1-cF_3dby-a2-m5-cF 3dby-a2-m4-cE_3dby-a2-m5-cE 3dby-a2-m4-cF_3dby-a2-m5-cF 3dby-a3-m1-cG_3dby-a3-m6-cG 3dby-a3-m1-cG_3dby-a3-m7-cG 3dby-a3-m1-cH_3dby-a3-m6-cH 3dby-a3-m1-cH_3dby-a3-m7-cH 3dby-a3-m6-cG_3dby-a3-m7-cG 3dby-a3-m6-cH_3dby-a3-m7-cH 3dby-a4-m1-cK_3dby-a4-m6-cK 3dby-a4-m1-cK_3dby-a4-m7-cK 3dby-a4-m1-cL_3dby-a4-m6-cL 3dby-a4-m1-cL_3dby-a4-m7-cL 3dby-a4-m6-cK_3dby-a4-m7-cK 3dby-a4-m6-cL_3dby-a4-m7-cL 3dby-a5-m1-cM_3dby-a5-m6-cM 3dby-a5-m1-cM_3dby-a5-m7-cM 3dby-a5-m1-cN_3dby-a5-m6-cN 3dby-a5-m1-cN_3dby-a5-m7-cN 3dby-a5-m6-cM_3dby-a5-m7-cM 3dby-a5-m6-cN_3dby-a5-m7-cN 3dby-a6-m1-cA_3dby-a6-m2-cA 3dby-a6-m1-cA_3dby-a6-m3-cA 3dby-a6-m1-cB_3dby-a6-m2-cB 3dby-a6-m1-cB_3dby-a6-m3-cB 3dby-a6-m2-cA_3dby-a6-m3-cA 3dby-a6-m2-cB_3dby-a6-m3-cB 3dby-a7-m1-cI_3dby-a7-m4-cI 3dby-a7-m1-cI_3dby-a7-m5-cI 3dby-a7-m1-cJ_3dby-a7-m4-cJ 3dby-a7-m1-cJ_3dby-a7-m5-cJ 3dby-a7-m4-cI_3dby-a7-m5-cI 3dby-a7-m4-cJ_3dby-a7-m5-cJ 3dby-a8-m1-cC_3dby-a8-m4-cC 3dby-a8-m1-cC_3dby-a8-m5-cC 3dby-a8-m1-cD_3dby-a8-m4-cD 3dby-a8-m1-cD_3dby-a8-m5-cD 3dby-a8-m4-cC_3dby-a8-m5-cC 3dby-a8-m4-cD_3dby-a8-m5-cD 3dby-a9-m1-cO_3dby-a9-m2-cO 3dby-a9-m1-cO_3dby-a9-m3-cO 3dby-a9-m1-cP_3dby-a9-m2-cP 3dby-a9-m1-cP_3dby-a9-m3-cP 3dby-a9-m2-cO_3dby-a9-m3-cO ERNYEESALFEHQFWLKVLTDHAQFLLDALAPKEKEDIKKATYFVETFTNLLNKVRNVNLMAFSKEAEQAAKEIRAFKLNIIQKQLEGKITIHFTPTFINHMVNEVEEYIAVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEQFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEVLSVLSARMADHMAREECYYLLKLAQSSGLEMPKCNPLEGHHHHHH ERNYEESALFEHQFWLKVLTDHAQFLLDALAPKEKEDIKKATYFVETFTNLLNKVRNVNLMAFSKEAEQAAKEIRAFKLNIIQKQLEGKITIHFTPTFINHMVNEVEEYIAVLEFLKKGEVPPVFHELHYHLVWLTDAAGHAGSISGGLDLVEKRLKEKSEEFTKHFEQFYLKAVEMTGYLRTELHHFPALKKFTKDVSLELKLFSHFLHEVEELELSNEVLSVLSARMADHMAREECYYLLKLAQSSGLEMPKCNPLEGHHHHHH 3dc5-a1-m1-cC_3dc5-a1-m2-cC Crystal Structure of a manganese superoxide dismutases from Caenorhabditis elegans P41977 P41977 1.7 X-RAY DIFFRACTION 47 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 195 195 3dc5-a1-m1-cA_3dc5-a1-m2-cA 4x9q-a1-m1-cA_4x9q-a1-m2-cA 4x9q-a1-m1-cC_4x9q-a1-m2-cC 6elk-a1-m1-cA_6elk-a1-m2-cA 6elk-a1-m1-cC_6elk-a1-m2-cC 6qzm-a1-m1-cA_6qzm-a1-m2-cA 6qzm-a1-m1-cC_6qzm-a1-m2-cC 6qzn-a1-m1-cA_6qzn-a1-m2-cA 6qzn-a1-m1-cC_6qzn-a1-m2-cC 6s0d-a1-m1-cA_6s0d-a1-m2-cA 6s0d-a1-m1-cC_6s0d-a1-m2-cC MKHTLPDLPFDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNLKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSKELMDTIKRDFGSLDNLQKRLSDITIAVQGSGWGWLGYCKKDKILKIATCANQDPLEGMVPLFGIDVWEHAYYLQYKNVRPDYVHAIWKIANWKNISERFANARQ MKHTLPDLPFDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNLKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSKELMDTIKRDFGSLDNLQKRLSDITIAVQGSGWGWLGYCKKDKILKIATCANQDPLEGMVPLFGIDVWEHAYYLQYKNVRPDYVHAIWKIANWKNISERFANARQ 3dc5-a1-m2-cA_3dc5-a1-m2-cC Crystal Structure of a manganese superoxide dismutases from Caenorhabditis elegans P41977 P41977 1.7 X-RAY DIFFRACTION 48 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 194 195 3dc5-a1-m1-cA_3dc5-a1-m1-cC 4x9q-a1-m1-cA_4x9q-a1-m1-cC 4x9q-a1-m2-cA_4x9q-a1-m2-cC 5ag2-a1-m1-cA_5ag2-a1-m1-cC 6elk-a1-m1-cA_6elk-a1-m1-cC 6elk-a1-m2-cA_6elk-a1-m2-cC 6qzm-a1-m1-cA_6qzm-a1-m1-cC 6qzm-a1-m2-cA_6qzm-a1-m2-cC 6qzn-a1-m1-cA_6qzn-a1-m1-cC 6qzn-a1-m2-cA_6qzn-a1-m2-cC 6s0d-a1-m1-cA_6s0d-a1-m1-cC 6s0d-a1-m2-cA_6s0d-a1-m2-cC KHTLPDLPFDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNLKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSKELMDTIKRDFGSLDNLQKRLSDITIAVQGSGWGWLGYCKKDKILKIATCANQDPLEGMVPLFGIDVWEHAYYLQYKNVRPDYVHAIWKIANWKNISERFANARQ MKHTLPDLPFDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNLKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSKELMDTIKRDFGSLDNLQKRLSDITIAVQGSGWGWLGYCKKDKILKIATCANQDPLEGMVPLFGIDVWEHAYYLQYKNVRPDYVHAIWKIANWKNISERFANARQ 3dc6-a1-m1-cC_3dc6-a1-m2-cC Crystal Structure of a manganese superoxide dismutases from Caenorhabditis elegans P31161 P31161 1.8 X-RAY DIFFRACTION 47 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 198 198 3dc6-a1-m1-cA_3dc6-a1-m2-cA MKHSLPDLPYDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNVKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSAELLTAIKSDFGSLDNLQKQLSASTVAVQGSGWGWLGYCPKGKILKVATCANQDPLEATTGLVPLFGIDVWEHAYYLQYKNVRPDYVNAIWKIANWKNVSERFAKAQQ MKHSLPDLPYDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNVKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSAELLTAIKSDFGSLDNLQKQLSASTVAVQGSGWGWLGYCPKGKILKVATCANQDPLEATTGLVPLFGIDVWEHAYYLQYKNVRPDYVNAIWKIANWKNVSERFAKAQQ 3dc6-a1-m2-cA_3dc6-a1-m2-cC Crystal Structure of a manganese superoxide dismutases from Caenorhabditis elegans P31161 P31161 1.8 X-RAY DIFFRACTION 76 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 197 198 3dc6-a1-m1-cA_3dc6-a1-m1-cC KHSLPDLPYDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNVKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSAELLTAIKSDFGSLDNLQKQLSASTVAVQGSGWGWLGYCPKGKILKVATCANQDPLEATTGLVPLFGIDVWEHAYYLQYKNVRPDYVNAIWKIANWKNVSERFAKAQQ MKHSLPDLPYDYADLEPVISHEIMQLHHQKHHATYVNNLNQIEEKLHEAVSKGNVKEAIALQPALKFNGGGHINHSIFWTNLAKDGGEPSAELLTAIKSDFGSLDNLQKQLSASTVAVQGSGWGWLGYCPKGKILKVATCANQDPLEATTGLVPLFGIDVWEHAYYLQYKNVRPDYVNAIWKIANWKNVSERFAKAQQ 3dc7-a1-m1-cC_3dc7-a1-m1-cB Crystal structure of the protein Q88SR8 from Lactobacillus plantarum. Northeast Structural Genomics consortium target LpR109. 2.12 X-RAY DIFFRACTION 58 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 202 203 3dc7-a1-m1-cB_3dc7-a1-m1-cA 3dc7-a1-m1-cC_3dc7-a1-m1-cA HVSFKRPAWLGDSITANNGLATVHYHDILAADWDVERSDNLGISGSTIGSRYDAAVRYQAIPEDADFIAVFGGVNDYGRDQPLGQYGDCDTTFYGALLLTGLQTNWPTVPKLFISAIHIGSDFGGSFSAVTNGLGYRQSDYEAAIAQTADYGVPHLSLYRDAGTFAIPAQAAIYSVDTLHPNNAGHRVIARKLQSFLDSHFL HVSFKRPAWLGDSITANNGLATVHYHDILAADWDVERSDNLGISGSTIGSRYDAAVRYQAIPEDADFIAVFGGVNDYGRDQPLGQYGDCDTTFYGALLLTGLQTNWPTVPKLFISAIHIGSDFGGSFSAVTNGLGYRQSDYEAAIAQTADYGVPHLSLYRDAGTFAIPAQAAIYSVDTLHPNNAGHRVIARKLQSFLDSHFLE 3dc8-a1-m2-cB_3dc8-a1-m1-cA Crystal structure of dihydropyrimidinase from Sinorhizobium meliloti Q0PQZ5 Q0PQZ5 1.85 X-RAY DIFFRACTION 131 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 474 482 3dc8-a1-m1-cB_3dc8-a1-m2-cA STVIKGGTIVTADLTYKADVKVEGGRIVEIGPNLSGAETLDATGCYVMPGGIDPHTHLEMPFMGTYSSDDFESGTRAALAGGTTMVVDFALPSGQSLLEALTMWDNKSTRANCDYSFHMAITWWGEQVFNEMETIVKDKGINTFHFMAYKGALMVDDDEMFSSFQRCAALGALPLVHAENGDVVAQLQAKLLAEGNSGPEAHAYSRPAEVEGEAANRAIMIADMAGCPVYIVHTSCEQAHEAIRRARAKGMRVFGEPLIQHLTLDETEYFDKDWDHAARRVMSPPFRNKLHQDSLWAGLASGSLQVVATDHCAFTTEQKRFGVGDFTRIPNGTGGLEDRMPMLWTYGVATGRITMNEFVAVTSTNIAKILNIYPKKGAILVGADADLVVWDPKRSKTISAKTQQSAIDYNVFEGKTVTGLPRFTLTRGVVSIEEGTVKTQEGHGEFVRRDPFPAVSTALSTWKEVTAPRAVQRS STVIKGGTIVTADLTYKADVKVEGGRIVEIGPNLSGAETLDATGCYVMPGGIDPHTHLEMPFMGTYSSDDFESGTRAALAGGTTMVVDFALPSGQSLLEALTMWDNKSTRANCDYSFHMAITWWGEQVFNEMETIVKDKGINTFHFMAYKGALMVDDDEMFSSFQRCAALGALPLVHAENGDVVAQLQAKLLAEGNSGPEAHAYSRPAEVEGEAANRAIMIADMAGCPVYIVHTSCEQAHEAIRRARAKGMRVFGEPLIQHLTLDETEYFDKDWDHAARRVMSPPFRNKLHQDSLWAGLASGSLQVVATDHCAFTTEQKRFGVGDFTRIPNGTGGLEDRMPMLWTYGVATGRITMNEFVAVTSTNIAKILNIYPKKGAILVGADADLVVWDPKRSKTISAKTQQSAIDYNVFEGKTVTGLPRFTLTRGVVSIEEGTVKTQEGHGEFVRRDPFPAVSTALSTWKEVTAPRAVQRSGIPASGVH 3dc8-a1-m2-cB_3dc8-a1-m2-cA Crystal structure of dihydropyrimidinase from Sinorhizobium meliloti Q0PQZ5 Q0PQZ5 1.85 X-RAY DIFFRACTION 81 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 474 482 3dc8-a1-m1-cB_3dc8-a1-m1-cA STVIKGGTIVTADLTYKADVKVEGGRIVEIGPNLSGAETLDATGCYVMPGGIDPHTHLEMPFMGTYSSDDFESGTRAALAGGTTMVVDFALPSGQSLLEALTMWDNKSTRANCDYSFHMAITWWGEQVFNEMETIVKDKGINTFHFMAYKGALMVDDDEMFSSFQRCAALGALPLVHAENGDVVAQLQAKLLAEGNSGPEAHAYSRPAEVEGEAANRAIMIADMAGCPVYIVHTSCEQAHEAIRRARAKGMRVFGEPLIQHLTLDETEYFDKDWDHAARRVMSPPFRNKLHQDSLWAGLASGSLQVVATDHCAFTTEQKRFGVGDFTRIPNGTGGLEDRMPMLWTYGVATGRITMNEFVAVTSTNIAKILNIYPKKGAILVGADADLVVWDPKRSKTISAKTQQSAIDYNVFEGKTVTGLPRFTLTRGVVSIEEGTVKTQEGHGEFVRRDPFPAVSTALSTWKEVTAPRAVQRS STVIKGGTIVTADLTYKADVKVEGGRIVEIGPNLSGAETLDATGCYVMPGGIDPHTHLEMPFMGTYSSDDFESGTRAALAGGTTMVVDFALPSGQSLLEALTMWDNKSTRANCDYSFHMAITWWGEQVFNEMETIVKDKGINTFHFMAYKGALMVDDDEMFSSFQRCAALGALPLVHAENGDVVAQLQAKLLAEGNSGPEAHAYSRPAEVEGEAANRAIMIADMAGCPVYIVHTSCEQAHEAIRRARAKGMRVFGEPLIQHLTLDETEYFDKDWDHAARRVMSPPFRNKLHQDSLWAGLASGSLQVVATDHCAFTTEQKRFGVGDFTRIPNGTGGLEDRMPMLWTYGVATGRITMNEFVAVTSTNIAKILNIYPKKGAILVGADADLVVWDPKRSKTISAKTQQSAIDYNVFEGKTVTGLPRFTLTRGVVSIEEGTVKTQEGHGEFVRRDPFPAVSTALSTWKEVTAPRAVQRSGIPASGVH 3dcf-a1-m1-cB_3dcf-a1-m1-cA Crystal structure of transcriptional regulator of the TetR/AcrR family (YP_290855.1) from THERMOBIFIDA FUSCA YX-ER1 at 2.50 A resolution Q47L40 Q47L40 2.5 X-RAY DIFFRACTION 115 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 181 183 NDRRTQIIKVATELFREKGYYATSLDDIADRIGFTKPAIYYYFKSKEDVLFAIVNSIVDEALERFHAIAAGPGSPGERIHALLVEHTRTILRNLDANTLFYNLSPERERERKREREYTEIQRLYAEGVATGELLDVDPTVATATLLGAAIWTYRWYDPEGRLSADEVVEQITRLLLNGYRR NDRRTQIIKVATELFREKGYYATSLDDIADRIGFTKPAIYYYFKSKEDVLFAIVNSIVDEALERFHAIAAGPGSPGERIHALLVEHTRTILRNLDANTLFYNLSPERERERKREREYTEIQRLYAEGVATGELLDVDPTVATATLLGAAIWTYRWYDPEGRLSADEVVEQITRLLLNGYRRPA 3dci-a1-m1-cB_3dci-a1-m2-cC The Structure of a putative arylesterase from Agrobacterium tumefaciens str. C58 A9CF87 A9CF87 2 X-RAY DIFFRACTION 62 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 203 203 3dci-a1-m1-cA_3dci-a1-m2-cA 3dci-a1-m1-cC_3dci-a1-m2-cB KTVLAFGDSLTWGADPATGLRHPVEHRWPDVLEAELAGKAKVHPEGLGGRTTCYDDHAGPACRNGARALEVALSCHPLDLVIILGTNDIKPVHGGRAEAAVSGRRLAQIVETFIYKPREAVPKLLIVAPPPCVAGPGGEPAGGRDIEQSRLAPLYRKLAAELGHHFFDAGSVASASPVDGVHLDASATAAIGRALAAPVRDIL KTVLAFGDSLTWGADPATGLRHPVEHRWPDVLEAELAGKAKVHPEGLGGRTTCYDDHAGPACRNGARALEVALSCHPLDLVIILGTNDIKPVHGGRAEAAVSGRRLAQIVETFIYKPREAVPKLLIVAPPPCVAGPGGEPAGGRDIEQSRLAPLYRKLAAELGHHFFDAGSVASASPVDGVHLDASATAAIGRALAAPVRDIL 3dci-a1-m2-cB_3dci-a1-m2-cC The Structure of a putative arylesterase from Agrobacterium tumefaciens str. C58 A9CF87 A9CF87 2 X-RAY DIFFRACTION 39 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 203 203 3dci-a1-m1-cA_3dci-a1-m1-cB 3dci-a1-m1-cA_3dci-a1-m1-cC 3dci-a1-m1-cB_3dci-a1-m1-cC 3dci-a1-m2-cA_3dci-a1-m2-cB 3dci-a1-m2-cA_3dci-a1-m2-cC KTVLAFGDSLTWGADPATGLRHPVEHRWPDVLEAELAGKAKVHPEGLGGRTTCYDDHAGPACRNGARALEVALSCHPLDLVIILGTNDIKPVHGGRAEAAVSGRRLAQIVETFIYKPREAVPKLLIVAPPPCVAGPGGEPAGGRDIEQSRLAPLYRKLAAELGHHFFDAGSVASASPVDGVHLDASATAAIGRALAAPVRDIL KTVLAFGDSLTWGADPATGLRHPVEHRWPDVLEAELAGKAKVHPEGLGGRTTCYDDHAGPACRNGARALEVALSCHPLDLVIILGTNDIKPVHGGRAEAAVSGRRLAQIVETFIYKPREAVPKLLIVAPPPCVAGPGGEPAGGRDIEQSRLAPLYRKLAAELGHHFFDAGSVASASPVDGVHLDASATAAIGRALAAPVRDIL 3dcj-a1-m1-cB_3dcj-a1-m1-cA Crystal structure of glycinamide formyltransferase (PurN) from Mycobacterium tuberculosis in complex with 5-methyl-5,6,7,8-tetrahydrofolic acid derivative P9WHM5 P9WHM5 2.2 X-RAY DIFFRACTION 27 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 205 206 PLRVPPSAPARLVVLASGTGSLLRSLLDAAVGDYPARVVAVGVDRECRAAEIAAEASVPVFTVRLADHPSRDAWDVAITAATAAHEPDLVVSAGFMRILGPQFLSRFYGRTLNTHPALLPAFPGTHGVADALAYGVKVTGATVHLVDAGTDTGPILAQQPVPVLDGDDEETLHERIKVTERRLLVAAVAALATHGVTVVGRTATM EPLRVPPSAPARLVVLASGTGSLLRSLLDAAVGDYPARVVAVGVDRECRAAEIAAEASVPVFTVRLADHPSRDAWDVAITAATAAHEPDLVVSAGFMRILGPQFLSRFYGRTLNTHPALLPAFPGTHGVADALAYGVKVTGATVHLVDAGTDTGPILAQQPVPVLDGDDEETLHERIKVTERRLLVAAVAALATHGVTVVGRTATM 3dcl-a1-m1-cB_3dcl-a1-m2-cE Crystal structure of TM1086 Q9X0H2 Q9X0H2 2.25 X-RAY DIFFRACTION 97 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 270 271 3dcl-a1-m1-cC_3dcl-a1-m2-cC 3dcl-a1-m1-cD_3dcl-a1-m2-cA 3dcl-a1-m2-cB_3dcl-a1-m1-cE 3dcl-a1-m2-cD_3dcl-a1-m1-cA 3n99-a1-m1-cD_3n99-a1-m1-cG 3n99-a1-m1-cH_3n99-a1-m1-cE 3n99-a1-m1-cI_3n99-a1-m1-cC 3n99-a1-m1-cJ_3n99-a1-m1-cA 3n99-a1-m1-cK_3n99-a1-m1-cB 3n99-a2-m1-cL_3n99-a2-m1-cV 3n99-a2-m1-cP_3n99-a2-m1-cT 3n99-a2-m1-cS_3n99-a2-m1-cO 3n99-a2-m1-cU_3n99-a2-m1-cN 3n99-a2-m1-cX_3n99-a2-m1-cM 3n99-a3-m1-ca_3n99-a3-m1-cj 3n99-a3-m1-cb_3n99-a3-m1-ck 3n99-a3-m1-cc_3n99-a3-m1-ci 3n99-a3-m1-cd_3n99-a3-m1-cg 3n99-a3-m1-ch_3n99-a3-m1-ce HRTNKDRLVRISVVGEIAPAKRSPYSVTTEGTVRVIPVLGGITYNVKVGDSAYGWAGDHVEPGVSVARRKEEEIPLTLSCIGNEVIVSGDAKGSRGFVTGKHGGVNHVLVHFEEEVLGKLVGDKILIKAWGQGLKLLDHPDVKVNIDPDLFEKLGIQEKNGKIHVPVVAKIPAHGSGIGASSSASTDYDIASNPEDLGVADLKLGDIVAIQDHDNSYGVGKYRKGAVSIGVVVHSACVSAGHGPGVVVITGDESKILPEEVERANISDYL HRTNKDRLVRISVVGEIAPAKRSPYSVTTEGTVRVIPVLGGITYNVKVGDSAYGWAGDHVEPGVSVARRKEEEIPLTLSCIGNEVIVSGDAKGSRGFVTGKHGGVNHVLVHFEEEVLGKLVGDKILIKAWGQGLKLLDHPDVKVNIDPDLFEKLGIQEKNGKIHVPVVAKIPAHGSGIGASSSASTDYDIASNPEDLGVADLKLGDIVAIQDHDNSYGVGKYRKGAVSIGVVVHSACVSAGHGPGVVVITGDESKILPEEVERANISDYLV 3dcl-a1-m1-cC_3dcl-a1-m2-cE Crystal structure of TM1086 Q9X0H2 Q9X0H2 2.25 X-RAY DIFFRACTION 13 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 269 271 3dcl-a1-m1-cA_3dcl-a1-m2-cA 3dcl-a1-m1-cB_3dcl-a1-m2-cD 3dcl-a1-m2-cB_3dcl-a1-m1-cD 3dcl-a1-m2-cC_3dcl-a1-m1-cE 3n99-a1-m1-cA_3n99-a1-m1-cG 3n99-a1-m1-cH_3n99-a1-m1-cD 3n99-a1-m1-cI_3n99-a1-m1-cE 3n99-a1-m1-cJ_3n99-a1-m1-cB 3n99-a1-m1-cK_3n99-a1-m1-cC 3n99-a2-m1-cM_3n99-a2-m1-cV 3n99-a2-m1-cO_3n99-a2-m1-cT 3n99-a2-m1-cS_3n99-a2-m1-cL 3n99-a2-m1-cU_3n99-a2-m1-cP 3n99-a2-m1-cX_3n99-a2-m1-cN 3n99-a3-m1-ca_3n99-a3-m1-cg 3n99-a3-m1-cb_3n99-a3-m1-cj 3n99-a3-m1-cc_3n99-a3-m1-ck 3n99-a3-m1-ch_3n99-a3-m1-cd 3n99-a3-m1-ci_3n99-a3-m1-ce HRTNKDRLVRISVVGEIAPAKRSPYSVTTEGTVRVIPVLGGITYNVKVGDSAYGWAGDHVEPGVSVARRKEEEIPLTLSCIGNEVIVSGDAKGSRGFVTGKHGGVNHVLVHFEEEVLGKLVGDKILIKAWGQGLKLLDHPDVKVNIDPDLFEKLGIQEKNGKIHVPVVAKIPAHGSGIGASSSASTDYDIASNPEDLGVADLKLGDIVAIQDHDNSYGVGKYRKGAVSIGVVVHSACVSAGHGPGVVVITGDESKILPEEVERANISDY HRTNKDRLVRISVVGEIAPAKRSPYSVTTEGTVRVIPVLGGITYNVKVGDSAYGWAGDHVEPGVSVARRKEEEIPLTLSCIGNEVIVSGDAKGSRGFVTGKHGGVNHVLVHFEEEVLGKLVGDKILIKAWGQGLKLLDHPDVKVNIDPDLFEKLGIQEKNGKIHVPVVAKIPAHGSGIGASSSASTDYDIASNPEDLGVADLKLGDIVAIQDHDNSYGVGKYRKGAVSIGVVVHSACVSAGHGPGVVVITGDESKILPEEVERANISDYLV 3dcl-a1-m2-cD_3dcl-a1-m2-cE Crystal structure of TM1086 Q9X0H2 Q9X0H2 2.25 X-RAY DIFFRACTION 81 0.996 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 271 271 3dcl-a1-m1-cB_3dcl-a1-m1-cA 3dcl-a1-m1-cC_3dcl-a1-m1-cB 3dcl-a1-m1-cC_3dcl-a1-m1-cE 3dcl-a1-m1-cD_3dcl-a1-m1-cA 3dcl-a1-m1-cD_3dcl-a1-m1-cE 3dcl-a1-m2-cB_3dcl-a1-m2-cA 3dcl-a1-m2-cC_3dcl-a1-m2-cB 3dcl-a1-m2-cC_3dcl-a1-m2-cE 3dcl-a1-m2-cD_3dcl-a1-m2-cA 3n99-a1-m1-cA_3n99-a1-m1-cB 3n99-a1-m1-cA_3n99-a1-m1-cD 3n99-a1-m1-cB_3n99-a1-m1-cC 3n99-a1-m1-cC_3n99-a1-m1-cE 3n99-a1-m1-cD_3n99-a1-m1-cE 3n99-a1-m1-cH_3n99-a1-m1-cG 3n99-a1-m1-cH_3n99-a1-m1-cI 3n99-a1-m1-cI_3n99-a1-m1-cK 3n99-a1-m1-cJ_3n99-a1-m1-cG 3n99-a1-m1-cJ_3n99-a1-m1-cK 3n99-a2-m1-cL_3n99-a2-m1-cM 3n99-a2-m1-cL_3n99-a2-m1-cO 3n99-a2-m1-cM_3n99-a2-m1-cN 3n99-a2-m1-cN_3n99-a2-m1-cP 3n99-a2-m1-cO_3n99-a2-m1-cP 3n99-a2-m1-cS_3n99-a2-m1-cT 3n99-a2-m1-cS_3n99-a2-m1-cV 3n99-a2-m1-cU_3n99-a2-m1-cT 3n99-a2-m1-cU_3n99-a2-m1-cX 3n99-a2-m1-cX_3n99-a2-m1-cV 3n99-a3-m1-ca_3n99-a3-m1-cb 3n99-a3-m1-ca_3n99-a3-m1-cd 3n99-a3-m1-cb_3n99-a3-m1-cc 3n99-a3-m1-cc_3n99-a3-m1-ce 3n99-a3-m1-cd_3n99-a3-m1-ce 3n99-a3-m1-ch_3n99-a3-m1-cg 3n99-a3-m1-ch_3n99-a3-m1-ci 3n99-a3-m1-ci_3n99-a3-m1-ck 3n99-a3-m1-cj_3n99-a3-m1-cg 3n99-a3-m1-cj_3n99-a3-m1-ck GHRTNKDRLVRISVVGEIAPAKRSPYSVTTEGTVRVIPVLGGITYNVKVGDSAYGWAGDHVEPGVSVARRKEEEIPLTLSCIGNEVIVSGDAKGSRGFVTGKHGGVNHVLVHFEEEVLGKLVGDKILIKAWGQGLKLLDHPDVKVNIDPDLFEKLGIQEKNGKIHVPVVAKIPAHGSGIGASSSASTDYDIASNPEDLGVADLKLGDIVAIQDHDNSYGVGKYRKGAVSIGVVVHSACVSAGHGPGVVVITGDESKILPEEVERANISDYL HRTNKDRLVRISVVGEIAPAKRSPYSVTTEGTVRVIPVLGGITYNVKVGDSAYGWAGDHVEPGVSVARRKEEEIPLTLSCIGNEVIVSGDAKGSRGFVTGKHGGVNHVLVHFEEEVLGKLVGDKILIKAWGQGLKLLDHPDVKVNIDPDLFEKLGIQEKNGKIHVPVVAKIPAHGSGIGASSSASTDYDIASNPEDLGVADLKLGDIVAIQDHDNSYGVGKYRKGAVSIGVVVHSACVSAGHGPGVVVITGDESKILPEEVERANISDYLV 3dcm-a1-m1-cX_3dcm-a1-m2-cX Crystal structure of the Thermotoga maritima SPOUT family RNA-methyltransferase protein Tm1570 in complex with S-adenosyl-L-methionine Q9X1Q6 Q9X1Q6 2 X-RAY DIFFRACTION 104 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 188 188 MLEKVYVALIHYPIKGKDGSIISTAVTNLDVHDIARTARTYNLKGYYIVTNLRAQQDMVSKMLKFWREGFGSRYNPSRAESLKLVKLKSYLEDVLEDIESVEGERPLIFFTSAKKRENDISFEEGRRIIIETEKPVLILLGTGWGLPDEILEISDYVLEPIRAQSDFNHLSVRAAAAIIIDRLIGENY MLEKVYVALIHYPIKGKDGSIISTAVTNLDVHDIARTARTYNLKGYYIVTNLRAQQDMVSKMLKFWREGFGSRYNPSRAESLKLVKLKSYLEDVLEDIESVEGERPLIFFTSAKKRENDISFEEGRRIIIETEKPVLILLGTGWGLPDEILEISDYVLEPIRAQSDFNHLSVRAAAAIIIDRLIGENY 3dcx-a1-m1-cE_3dcx-a1-m1-cD Crystal structure of a duf1696 family protein with a pleckstrin-homology domain (shew_0819) from shewanella loihica pv-4 at 2.00 A resolution A3QB43 A3QB43 2 X-RAY DIFFRACTION 63 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 100 110 3dcx-a1-m1-cB_3dcx-a1-m1-cA 3dcx-a1-m1-cB_3dcx-a1-m1-cC 3dcx-a1-m1-cD_3dcx-a1-m1-cC 3dcx-a1-m1-cE_3dcx-a1-m1-cA EVNLDELAQELGPIGDNEQLALAYRVIRDFVFTNKRLILIDKGKKVSYHSVPYKAITHFEVETDAELKLWISGQKDPLVKELKKGTDVVGIQKTIANFSL AEVNLDELAQELGPIGDNEQLALAYRVIRDFVFTNKRLILIDKQGVTGKKVSYHSVPYKAITHFEVETAGTFDDAELKLWISGQKDPLVKELKKGTDVVGIQKTIANFSL 3dd4-a2-m1-cA_3dd4-a2-m2-cA Structural Basis of KChIP4a Modulation of Kv4.3 Slow Inactivation Q6PHZ8 Q6PHZ8 3 X-RAY DIFFRACTION 110 1.0 10090 (Mus musculus) 10090 (Mus musculus) 214 214 MNLEGLEMIAVLIVIVLFVKLLEQFGLIEDSVEDELEMATVRHRPEALELLEAQSKFTKKELQILYRGFKNECPSGVVNEETFKEIYSQFFPQGDSTTYAHFLFNAFDTDHNGAVSFEDFIKGLSILLRGTVQEKLNWAFNLYDINKDGYITKEEMLDIMKAIYDMMGPRQHVETFFQKMDKNKDGVVTIDEFIESCQKDENIMRSMQLFENVI MNLEGLEMIAVLIVIVLFVKLLEQFGLIEDSVEDELEMATVRHRPEALELLEAQSKFTKKELQILYRGFKNECPSGVVNEETFKEIYSQFFPQGDSTTYAHFLFNAFDTDHNGAVSFEDFIKGLSILLRGTVQEKLNWAFNLYDINKDGYITKEEMLDIMKAIYDMMGPRQHVETFFQKMDKNKDGVVTIDEFIESCQKDENIMRSMQLFENVI 3dd5-a10-m5-cE_3dd5-a10-m6-cH Glomerella cingulata E600-cutinase complex P11373 P11373 2.6 X-RAY DIFFRACTION 21 1.0 193 193 3dd5-a10-m4-cG_3dd5-a10-m1-cD 3dd5-a9-m1-cF_3dd5-a9-m1-cA 3dd5-a9-m3-cC_3dd5-a9-m2-cB SSTRNELETGSSSACPKVIYIFARASTEPGNMGISAGPIVADALERIYGANDVWVQGVGGPYLADLASNFLPDGTSSAAINEARRLFTLANTKCPNAAIVSGGYSQGTAVMAGSISGLSTTIKNQIKGVVLFGYTKNLQNLGRIPNFETSKTEVYCDIADAVCYGTLFILPAHFLYQTDAAVAAPRFLQARIG SSTRNELETGSSSACPKVIYIFARASTEPGNMGISAGPIVADALERIYGANDVWVQGVGGPYLADLASNFLPDGTSSAAINEARRLFTLANTKCPNAAIVSGGYSQGTAVMAGSISGLSTTIKNQIKGVVLFGYTKNLQNLGRIPNFETSKTEVYCDIADAVCYGTLFILPAHFLYQTDAAVAAPRFLQARIG 3dd5-a9-m1-cF_3dd5-a9-m3-cC Glomerella cingulata E600-cutinase complex P11373 P11373 2.6 X-RAY DIFFRACTION 54 1.0 193 193 3dd5-a10-m4-cG_3dd5-a10-m6-cH 3dd5-a10-m5-cE_3dd5-a10-m1-cD 3dd5-a11-m1-cA_3dd5-a11-m2-cB 3dd5-a12-m1-cC_3dd5-a12-m7-cF 3dd5-a13-m5-cE_3dd5-a13-m1-cD 3dd5-a14-m1-cG_3dd5-a14-m2-cH 3dd5-a9-m1-cA_3dd5-a9-m2-cB SSTRNELETGSSSACPKVIYIFARASTEPGNMGISAGPIVADALERIYGANDVWVQGVGGPYLADLASNFLPDGTSSAAINEARRLFTLANTKCPNAAIVSGGYSQGTAVMAGSISGLSTTIKNQIKGVVLFGYTKNLQNLGRIPNFETSKTEVYCDIADAVCYGTLFILPAHFLYQTDAAVAAPRFLQARIG SSTRNELETGSSSACPKVIYIFARASTEPGNMGISAGPIVADALERIYGANDVWVQGVGGPYLADLASNFLPDGTSSAAINEARRLFTLANTKCPNAAIVSGGYSQGTAVMAGSISGLSTTIKNQIKGVVLFGYTKNLQNLGRIPNFETSKTEVYCDIADAVCYGTLFILPAHFLYQTDAAVAAPRFLQARIG 3dd5-a9-m3-cC_3dd5-a9-m1-cA Glomerella cingulata E600-cutinase complex P11373 P11373 2.6 X-RAY DIFFRACTION 22 1.0 193 194 3dd5-a10-m6-cH_3dd5-a10-m1-cD SSTRNELETGSSSACPKVIYIFARASTEPGNMGISAGPIVADALERIYGANDVWVQGVGGPYLADLASNFLPDGTSSAAINEARRLFTLANTKCPNAAIVSGGYSQGTAVMAGSISGLSTTIKNQIKGVVLFGYTKNLQNLGRIPNFETSKTEVYCDIADAVCYGTLFILPAHFLYQTDAAVAAPRFLQARIG QSSTRNELETGSSSACPKVIYIFARASTEPGNMGISAGPIVADALERIYGANDVWVQGVGGPYLADLASNFLPDGTSSAAINEARRLFTLANTKCPNAAIVSGGYSQGTAVMAGSISGLSTTIKNQIKGVVLFGYTKNLQNLGRIPNFETSKTEVYCDIADAVCYGTLFILPAHFLYQTDAAVAAPRFLQARIG 3dd6-a1-m1-cA_3dd6-a1-m6-cA Crystal structure of Rph, an exoribonuclease from Bacillus anthracis at 1.7 A resolution Q81LA9 Q81LA9 1.702 X-RAY DIFFRACTION 90 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 244 244 3dd6-a1-m2-cA_3dd6-a1-m5-cA 3dd6-a1-m3-cA_3dd6-a1-m4-cA MRVDGREKTELRHIHIHTNYLKHPEGSVLIEVGDTKVICSATIEERVPPFMRGEGKGWVTAEYAMIPRATEQRTIRESSGKVTGRTMEIQRLIGRALRAVVDLEALGERTVWIDCDVIQADGGTRTASITGAYVAMVLAFEKLLQAEKVSKIPVKDYLAATSVGIVEEQGVVLDLNYAEDSKADVDMNVIMTGKGQFVEVQGTGEEATFSRAQLNELLDAAEQGIFQLIDIQKEALGDIVSHIE MRVDGREKTELRHIHIHTNYLKHPEGSVLIEVGDTKVICSATIEERVPPFMRGEGKGWVTAEYAMIPRATEQRTIRESSGKVTGRTMEIQRLIGRALRAVVDLEALGERTVWIDCDVIQADGGTRTASITGAYVAMVLAFEKLLQAEKVSKIPVKDYLAATSVGIVEEQGVVLDLNYAEDSKADVDMNVIMTGKGQFVEVQGTGEEATFSRAQLNELLDAAEQGIFQLIDIQKEALGDIVSHIE 3dd6-a1-m2-cA_3dd6-a1-m6-cA Crystal structure of Rph, an exoribonuclease from Bacillus anthracis at 1.7 A resolution Q81LA9 Q81LA9 1.702 X-RAY DIFFRACTION 94 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 244 244 3dd6-a1-m1-cA_3dd6-a1-m4-cA 3dd6-a1-m3-cA_3dd6-a1-m5-cA MRVDGREKTELRHIHIHTNYLKHPEGSVLIEVGDTKVICSATIEERVPPFMRGEGKGWVTAEYAMIPRATEQRTIRESSGKVTGRTMEIQRLIGRALRAVVDLEALGERTVWIDCDVIQADGGTRTASITGAYVAMVLAFEKLLQAEKVSKIPVKDYLAATSVGIVEEQGVVLDLNYAEDSKADVDMNVIMTGKGQFVEVQGTGEEATFSRAQLNELLDAAEQGIFQLIDIQKEALGDIVSHIE MRVDGREKTELRHIHIHTNYLKHPEGSVLIEVGDTKVICSATIEERVPPFMRGEGKGWVTAEYAMIPRATEQRTIRESSGKVTGRTMEIQRLIGRALRAVVDLEALGERTVWIDCDVIQADGGTRTASITGAYVAMVLAFEKLLQAEKVSKIPVKDYLAATSVGIVEEQGVVLDLNYAEDSKADVDMNVIMTGKGQFVEVQGTGEEATFSRAQLNELLDAAEQGIFQLIDIQKEALGDIVSHIE 3dd9-a3-m1-cF_3dd9-a3-m1-cE Structure of DocH66Y dimer Q06259 Q06259 2.45 X-RAY DIFFRACTION 188 0.991 10678 (Punavirus P1) 10678 (Punavirus P1) 110 113 3dd9-a1-m1-cA_3dd9-a1-m1-cB 3dd9-a2-m1-cC_3dd9-a2-m1-cD 3dd9-a4-m1-cG_3dd9-a4-m1-cH MRHISPEELIALHDAPGRAEAIIGRVQARVAYEEITDLFEVSATYLVATARGYIFNDANKRTALNSALLFLRRNGVQVFDSPELADLTVGAATGEISVSSVADTLRRLYG MRHISPEELIALHDANISGRAEAIIGRVQARVAYEEITDLFEVSATYLVATARGYIFNDANKRTALNSALLFLRRNGVQVFDSPELADLTVGAATGEISVSSVADTLRRLYGS 3ddc-a1-m1-cB_3ddc-a1-m2-cB Crystal Structure of NORE1A in Complex with RAS Q5EBH1 Q5EBH1 1.8 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 133 133 PPTIQEIKQKIDSYNSREKHCLGMKLSEDGTYTGFIKVHLKLRRPVTVPSFYLPLDAIKQMHISSTTTVSEVIQGLLDKFMVVDNPQKFALFKRIHKDGQVLFQKLSIADYPLYLRLLAGPDTDVLSFVLKEN PPTIQEIKQKIDSYNSREKHCLGMKLSEDGTYTGFIKVHLKLRRPVTVPSFYLPLDAIKQMHISSTTTVSEVIQGLLDKFMVVDNPQKFALFKRIHKDGQVLFQKLSIADYPLYLRLLAGPDTDVLSFVLKEN 3dde-a1-m1-cB_3dde-a1-m2-cB Crystal structure of a domain of unknown function with a heme oxygenase-like fold (sden_3740) from shewanella denitrificans os217 at 2.30 A resolution Q12HR3 Q12HR3 2.3 X-RAY DIFFRACTION 40 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 224 224 3dde-a1-m1-cA_3dde-a1-m2-cA SIIDLTKLEQKVATWDSILTNSPFIHEVLDGKATKALYAIYTETYHYTKHNAKNQALVGIGKDLPGKYLSFCFHHAHEEAGHELALSDIASIGFDREDVLSSKPLPATETLIAYLYWISATGNPVQRLGYSYWAENVYGYIDPVLKAIQSTLDLTPQSKFFIAHSKIDAKHAEEVNELHEVCKTQEDVDSVVAVENSLVLTARILDDVWKEYQLFQSGASDRYA SIIDLTKLEQKVATWDSILTNSPFIHEVLDGKATKALYAIYTETYHYTKHNAKNQALVGIGKDLPGKYLSFCFHHAHEEAGHELALSDIASIGFDREDVLSSKPLPATETLIAYLYWISATGNPVQRLGYSYWAENVYGYIDPVLKAIQSTLDLTPQSKFFIAHSKIDAKHAEEVNELHEVCKTQEDVDSVVAVENSLVLTARILDDVWKEYQLFQSGASDRYA 3dde-a1-m2-cB_3dde-a1-m2-cA Crystal structure of a domain of unknown function with a heme oxygenase-like fold (sden_3740) from shewanella denitrificans os217 at 2.30 A resolution Q12HR3 Q12HR3 2.3 X-RAY DIFFRACTION 48 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 224 225 3dde-a1-m1-cB_3dde-a1-m1-cA SIIDLTKLEQKVATWDSILTNSPFIHEVLDGKATKALYAIYTETYHYTKHNAKNQALVGIGKDLPGKYLSFCFHHAHEEAGHELALSDIASIGFDREDVLSSKPLPATETLIAYLYWISATGNPVQRLGYSYWAENVYGYIDPVLKAIQSTLDLTPQSKFFIAHSKIDAKHAEEVNELHEVCKTQEDVDSVVAVENSLVLTARILDDVWKEYQLFQSGASDRYA SIIDLTKLEQKVATWDSILTNSPFIHEVLDGKATKALYAIYTETYHYTKHNAKNQALVGIGKDLPGKYLSFCFHHAHEEAGHELALSDIASIGFDREDVLSSKPLPATETLIAYLYWISATGNPVQRLGYSYWAENVYGYIDPVLKAIQSTLDLTPQSKFFIAHSKIDAKHAEEVNELHEVCKTQEDVDSVVAVENSLVLTARILDDVWKEYQLFQSGASDRYAF 3ddh-a1-m1-cB_3ddh-a1-m1-cA The structure of a putative haloacid dehalogenase-like family hydrolase from Bacteroides thetaiotaomicron VPI-5482 Q8A5Q8 Q8A5Q8 2 X-RAY DIFFRACTION 93 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 217 222 KELIKVIAFDADDTLWSNEPFFQEVEKQYTDLLKPYGTSKEISAALFQTENNLQILGYGAKAFTISVETALQISNGKIAADIIRQIVDLGKSLLKPIELLPGVKETLKTLKETGKYKLVVATKGDLLDQENKLERSGLSPYFDHIEVSDKTEKEYLRLLSILQIAPSELLVGNSFKSDIQPVLSLGGYGVHIPFEETFAHERLKQVKRLDDLLSLLG AKELIKVIAFDADDTLWSNEPFFQEVEKQYTDLLKPYGTSKEISAALFQTENNLQILGYGAKAFTISVETALQISNGKIAADIIRQIVDLGKSLLKPIELLPGVKETLKTLKETGKYKLVVATKGDLLDQENKLERSGLSPYFDHIEVSDKTEKEYLRLLSILQIAPSELLVGNSFKSDIQPVLSLGGYGVHIPFEVWKHETFAHERLKQVKRLDDLLSLLG 3ddm-a3-m1-cD_3ddm-a3-m3-cA CRYSTAL STRUCTURE OF MANDELATE RACEMASE/MUCONATE LACTONIZING ENZYME FROM Bordetella bronchiseptica RB50 A0A0H3LM82 A0A0H3LM82 2.6 X-RAY DIFFRACTION 96 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 363 363 3ddm-a1-m1-cA_3ddm-a1-m2-cD 3ddm-a2-m1-cB_3ddm-a2-m1-cC ASITPARVRAHVFRYPVHDRPAVLVEVEDSDGAVGWGEVWCNFPACGAEHRARLVETVLAPLLTARAFADPAQAFAHLEARTAVLAIQTGEPGPLAQAIAGLDIALCDLAARRAGQPLWAWLGGSGDRIGVYASGINPENPEDVVARKAAEGYRAFKLKVGFDDARDVRNALHVRELLGAATPLMADANQGWDLPRARQMAQRLGPAQLDWLEEPLRADRPAAEWAELAQAAPMPLAGGENIAGVAAFETALAARSLRVMQPDLAKWGGFSGCLPVARAVVAAGLRYCPHYLGAGIGLQASAHLLAAVPGLASPGLLGVDANDNPLRSLLSPALATLHEGRITLGGAPGLGVTPDLAALRAAC ASITPARVRAHVFRYPVHDRPAVLVEVEDSDGAVGWGEVWCNFPACGAEHRARLVETVLAPLLTARAFADPAQAFAHLEARTAVLAIQTGEPGPLAQAIAGLDIALCDLAARRAGQPLWAWLGGSGDRIGVYASGINPENPEDVVARKAAEGYRAFKLKVGFDDARDVRNALHVRELLGAATPLMADANQGWDLPRARQMAQRLGPAQLDWLEEPLRADRPAAEWAELAQAAPMPLAGGENIAGVAAFETALAARSLRVMQPDLAKWGGFSGCLPVARAVVAAGLRYCPHYLGAGIGLQASAHLLAAVPGLASPGLLGVDANDNPLRSLLSPALATLHEGRITLGGAPGLGVTPDLAALRAAC 3ddt-a2-m1-cC_3ddt-a2-m2-cC Crystal structure of the B2 box from MuRF1 in dimeric state Q969Q1 Q969Q1 1.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 3ddt-a1-m1-cB_3ddt-a1-m1-cA GSHPMCKEHEDEKINIYCLTCEVPTCSMCKVFGIHKACEVAPLQ GSHPMCKEHEDEKINIYCLTCEVPTCSMCKVFGIHKACEVAPLQ 3ddv-a1-m2-cC_3ddv-a1-m1-cA The crystal structure of the transcriptional regulator (GntR family) from Enterococcus faecalis V583 Q835P8 Q835P8 2.65 X-RAY DIFFRACTION 63 0.992 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 120 121 QNRVPSSRTVSYFVAKPSSSEMEKLQLGPEDSILRMERIRFADDIPICFEVASIPYSLVGHSNQTISAVQASEQIAEYLEIKRGDAILRVRQVSYFENGLPFEYVRTQYAGSRFEFYLEK NRVPSSRTVSYFVAKPSSSEMEKLQLGPEDSILRMERIRFADDIPICFEVASIPYSLVKIGHSNQTISAVQASEQIAEYLEIKRGDAILRVRQVSYFENGLPFEYVRTQYAGSRFEFYLEK 3dec-a1-m1-cA_3dec-a1-m2-cA Crystal structure of a glycosyl hydrolases family 2 protein from Bacteroides thetaiotaomicron Q8A2X6 Q8A2X6 2.8 X-RAY DIFFRACTION 38 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 969 969 QPEWQSQYAVGLNKLDPHTYVWPYADASEVEKGTFEQSPYYSLNGQWKFHWVKNPDTRPKDFYKPSYYTGGWADIKVPGNWERQGYGTAIYVNETYEFDDKFNFKKNPPLVPYKENEVGSYRRTFKVPAGWEGRRVVLCCEGVISFYYVWVNGEFLGYNQGSKTAAEWDITDKLTDGENTIALEVYRWSSGAYLECQDWRLSGIERDVYLYSTPEQYIADYKVTSLLEKEHYKEGIFELEVAVGGTTSSIAYTLKDASDKTVLEGSRKNLIVFDEQRLPDVRRWNAEHPELYTLLLELKDAGGKVTEITGTKVGFRTSEIKNGRFCINGVPVLVKGVNRHEHSQLGRTVSKELEQDIRLKQHNINTVRNSHYPAHPYWYQLCDRYGLYVIDEANIESHGGPASLAKDSTWLPAHIDRTRRYERSKNHPSVVIWSLGNEAGNGINFERTYDWLKSVEKNRPVQYERAEENYNTDIYCRYRSVDVIRNYVVRKDIYRPFILCEYLHAGNSCGGKEYWEVFENEPAQGGCIWDWVDQSFREVDKDGKWYWTYGGDYGPKDVPSFGNFCCNGLVNAVREPHPHLLEVKKIYQNIKSTLIDKKNLTVRVKNWFDFSDLNEYILHWKVTGDDGTVLAEGNKEVACEPHATVELTLGAVQLPKTIREAYLDLGWTRKKSTPLVDTAWEIAYDQFVLPASGKVWNGKPSEAGKTTFEVDENTGALKSLCLDGEELLASPVTISLFRPATDNDNRDRGAKLWRKAGLHTLTQKVVSLKESKTSATAQVNILNVTGKKVGDATLEYTLNHNGSLKVQTTFQPDTTWVKSIARLGLTFENDTYGNVTYLGRGEHETYIDRNQSGKIGIYTTTPEKFHYYVIPQSTGNRTDVRWVKLADDSGKGCWIESDSPFQFSALPFSDLLLEKALHINDLERNGRITVHLDAKQAGVGTATCGPGVLPPYLVPLGKQTFTFTIYPVK QPEWQSQYAVGLNKLDPHTYVWPYADASEVEKGTFEQSPYYSLNGQWKFHWVKNPDTRPKDFYKPSYYTGGWADIKVPGNWERQGYGTAIYVNETYEFDDKFNFKKNPPLVPYKENEVGSYRRTFKVPAGWEGRRVVLCCEGVISFYYVWVNGEFLGYNQGSKTAAEWDITDKLTDGENTIALEVYRWSSGAYLECQDWRLSGIERDVYLYSTPEQYIADYKVTSLLEKEHYKEGIFELEVAVGGTTSSIAYTLKDASDKTVLEGSRKNLIVFDEQRLPDVRRWNAEHPELYTLLLELKDAGGKVTEITGTKVGFRTSEIKNGRFCINGVPVLVKGVNRHEHSQLGRTVSKELEQDIRLKQHNINTVRNSHYPAHPYWYQLCDRYGLYVIDEANIESHGGPASLAKDSTWLPAHIDRTRRYERSKNHPSVVIWSLGNEAGNGINFERTYDWLKSVEKNRPVQYERAEENYNTDIYCRYRSVDVIRNYVVRKDIYRPFILCEYLHAGNSCGGKEYWEVFENEPAQGGCIWDWVDQSFREVDKDGKWYWTYGGDYGPKDVPSFGNFCCNGLVNAVREPHPHLLEVKKIYQNIKSTLIDKKNLTVRVKNWFDFSDLNEYILHWKVTGDDGTVLAEGNKEVACEPHATVELTLGAVQLPKTIREAYLDLGWTRKKSTPLVDTAWEIAYDQFVLPASGKVWNGKPSEAGKTTFEVDENTGALKSLCLDGEELLASPVTISLFRPATDNDNRDRGAKLWRKAGLHTLTQKVVSLKESKTSATAQVNILNVTGKKVGDATLEYTLNHNGSLKVQTTFQPDTTWVKSIARLGLTFENDTYGNVTYLGRGEHETYIDRNQSGKIGIYTTTPEKFHYYVIPQSTGNRTDVRWVKLADDSGKGCWIESDSPFQFSALPFSDLLLEKALHINDLERNGRITVHLDAKQAGVGTATCGPGVLPPYLVPLGKQTFTFTIYPVK 3ded-a2-m1-cD_3ded-a2-m1-cC C-terminal domain of Probable hemolysin from Chromobacterium violaceum Q7P1I2 Q7P1I2 2.14 X-RAY DIFFRACTION 41 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 83 88 3ded-a1-m1-cB_3ded-a1-m1-cA 3ded-a3-m1-cF_3ded-a3-m1-cE DEIVQREDGSWLVDGVSLDRFREFFELEAPLPGEAGGNIHTLAGVLYQLGRVPSVTDRFEWNGFSFEVVDDRTRVDKILVQRH DGEEDEIVQREDGSWLVDGVSLDRFREFFELEAPLPGEAGGNIHTLAGVLYQLGRVPSVTDRFEWNGFSFEVVDDRTRVDKILVQRHH 3dee-a1-m1-cA_3dee-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE REGULATORY PROTEIN INVOLVED IN TRANSCRIPTION (NGO1945) FROM NEISSERIA GONORRHOEAE FA 1090 AT 2.25 A RESOLUTION Q5F5I0 Q5F5I0 2.1 X-RAY DIFFRACTION 44 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 194 194 LNVYIRLIRNNIHSFIDRCYTETRQYFDSKEWSRLKEGFVRDARAQTPYFQEIPGEFLQYCQSLPLSDGILALDFEYTQLLAEVAQIPDIPDIHYSNDSKYTPSPAAFIRQYRYDVTHDLQEAETALLIWRNAEDDVYQTLDGFDLLEIGSSALSFDTLAQTLVEFPKADNWKNILLGKWSGWIEQRIIIPSLS LNVYIRLIRNNIHSFIDRCYTETRQYFDSKEWSRLKEGFVRDARAQTPYFQEIPGEFLQYCQSLPLSDGILALDFEYTQLLAEVAQIPDIPDIHYSNDSKYTPSPAAFIRQYRYDVTHDLQEAETALLIWRNAEDDVYQTLDGFDLLEIGSSALSFDTLAQTLVEFPKADNWKNILLGKWSGWIEQRIIIPSLS 3dem-a1-m1-cB_3dem-a1-m1-cA CUB1-EGF-CUB2 domain of HUMAN MASP-1/3 P48740 P48740 2.3 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 267 4aqb-a1-m1-cA_4aqb-a1-m2-cA 5ckq-a1-m1-cA_5ckq-a1-m2-cA NMFGQIQSPGYPDSYPSDSEVTWNITVPDGFRIKLYFMHFNLESSYLCEYDYVKVETEDQVLATFCGRETTDQTPGQEVVLSPGSFMSITFRSDFSNEERFTGFDAHYMAVDVDECKELSCDHYCHNYIGGYYCSCRFGYILHTDNRTCRVECSDNLFTQRTGVITSPDFPNPYPKSSECLYTIELEEGFMVNLQFEDIFDIEDHPEVPCPYDYIKIKVGPKVLGPFCGEKAPEPISTQSHSVLILFHSDNSGENRGWRLSYRAA NMFGQIQSPGYPDSYPSDSEVTWNITVPDGFRIKLYFMHFNLESSYLCEYDYVKVETEDQVLATFCGRETTDTEQTPGQEVVLSPGSFMSITFRSDFSNEERFTGFDAHYMAVDVDECKELSCDHYCHNYIGGYYCSCRFGYILHTDNRTCRVECSDNLFTQRTGVITSPDFPNPYPKSSECLYTIELEEGFMVNLQFEDIFDIEDHPEVPCPYDYIKIKVGPKVLGPFCGEKAPEPISTQSHSVLILFHSDNSGENRGWRLSYRAA 3der-a3-m1-cC_3der-a3-m2-cD Crystal structure of dipeptide epimerase from Thermotoga maritima complexed with L-Ala-L-Lys dipeptide Q9WXM1 Q9WXM1 1.9 X-RAY DIFFRACTION 85 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 341 341 2zad-a1-m1-cA_2zad-a1-m1-cB 2zad-a1-m2-cA_2zad-a1-m2-cB 2zad-a1-m3-cA_2zad-a1-m3-cB 2zad-a1-m4-cA_2zad-a1-m4-cB 2zad-a2-m1-cC_2zad-a2-m1-cD 2zad-a2-m5-cC_2zad-a2-m5-cD 2zad-a2-m6-cC_2zad-a2-m6-cD 2zad-a2-m7-cC_2zad-a2-m7-cD 3deq-a1-m1-cA_3deq-a1-m1-cB 3deq-a2-m1-cC_3deq-a2-m2-cD 3deq-a3-m1-cA_3deq-a3-m1-cB 3deq-a3-m1-cC_3deq-a3-m2-cD 3deq-a3-m1-cD_3deq-a3-m2-cC 3deq-a3-m2-cA_3deq-a3-m2-cB 3der-a1-m1-cA_3der-a1-m1-cB 3der-a2-m1-cC_3der-a2-m2-cD 3der-a3-m1-cA_3der-a3-m1-cB 3der-a3-m1-cD_3der-a3-m2-cC 3der-a3-m2-cA_3der-a3-m2-cB 3des-a1-m1-cA_3des-a1-m1-cB 3des-a2-m1-cC_3des-a2-m2-cD 3des-a3-m1-cA_3des-a3-m1-cB 3des-a3-m1-cC_3des-a3-m2-cD 3des-a3-m1-cD_3des-a3-m2-cC 3des-a3-m2-cA_3des-a3-m2-cB 3dfy-a1-m1-cB_3dfy-a1-m1-cA 3dfy-a1-m1-cD_3dfy-a1-m1-cC 3dfy-a1-m1-cE_3dfy-a1-m1-cF 3dfy-a1-m1-cG_3dfy-a1-m1-cH 3dfy-a2-m1-cJ_3dfy-a2-m1-cI 3dfy-a2-m1-cK_3dfy-a2-m1-cL 3dfy-a2-m1-cN_3dfy-a2-m1-cM 3dfy-a2-m1-cO_3dfy-a2-m1-cP RIVNVKLSLKRYEYEKPFHITGSVSSESRNVEVEIVLESGVKGYGEASPSFRVNGERVEALLAIENAVREMITGIDVRNYARIFEITDRLFGFPSLKAAVQFATLDALSQELGTQVCYLLGGKRDEIETDKTVGIDTVENRVKEAKKIFEEGFRVIKIKVGENLKEDIEAVEEIAKVTRGAKYIVDANMGYTQKEAVEFARAVYQKGIDIAVYEQPVRREDIEGLKFVRFHSPFPVAADESARTKFDVMRLVKEEAVDYVNIKLMKSGISDALAIVEIAESSGLKLMIGCMGESSLGINQSVHFALGTGAFEFHDLDSHLMLKEEVFRGKFIQDGPRMRVK RIVNVKLSLKRYEYEKPFHITGSVSSESRNVEVEIVLESGVKGYGEASPSFRVNGERVEALLAIENAVREMITGIDVRNYARIFEITDRLFGFPSLKAAVQFATLDALSQELGTQVCYLLGGKRDEIETDKTVGIDTVENRVKEAKKIFEEGFRVIKIKVGENLKEDIEAVEEIAKVTRGAKYIVDANMGYTQKEAVEFARAVYQKGIDIAVYEQPVRREDIEGLKFVRFHSPFPVAADESARTKFDVMRLVKEEAVDYVNIKLMKSGISDALAIVEIAESSGLKLMIGCMGESSLGINQSVHFALGTGAFEFHDLDSHLMLKEEVFRGKFIQDGPRMRVK 3der-a3-m2-cA_3der-a3-m2-cD Crystal structure of dipeptide epimerase from Thermotoga maritima complexed with L-Ala-L-Lys dipeptide Q9WXM1 Q9WXM1 1.9 X-RAY DIFFRACTION 45 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 341 341 2zad-a1-m1-cA_2zad-a1-m3-cB 2zad-a1-m1-cB_2zad-a1-m4-cA 2zad-a1-m2-cA_2zad-a1-m4-cB 2zad-a1-m2-cB_2zad-a1-m3-cA 2zad-a2-m1-cC_2zad-a2-m6-cD 2zad-a2-m1-cD_2zad-a2-m7-cC 2zad-a2-m5-cC_2zad-a2-m7-cD 2zad-a2-m5-cD_2zad-a2-m6-cC 3deq-a3-m1-cA_3deq-a3-m1-cD 3deq-a3-m1-cB_3deq-a3-m1-cC 3deq-a3-m2-cA_3deq-a3-m2-cD 3deq-a3-m2-cB_3deq-a3-m2-cC 3der-a3-m1-cA_3der-a3-m1-cD 3der-a3-m1-cB_3der-a3-m1-cC 3der-a3-m2-cB_3der-a3-m2-cC 3des-a3-m1-cA_3des-a3-m1-cD 3des-a3-m1-cB_3des-a3-m1-cC 3des-a3-m2-cA_3des-a3-m2-cD 3des-a3-m2-cB_3des-a3-m2-cC 3dfy-a1-m1-cB_3dfy-a1-m1-cD 3dfy-a1-m1-cE_3dfy-a1-m1-cC 3dfy-a1-m1-cG_3dfy-a1-m1-cA 3dfy-a1-m1-cH_3dfy-a1-m1-cF 3dfy-a2-m1-cJ_3dfy-a2-m1-cN 3dfy-a2-m1-cK_3dfy-a2-m1-cM 3dfy-a2-m1-cL_3dfy-a2-m1-cP 3dfy-a2-m1-cO_3dfy-a2-m1-cI RIVNVKLSLKRYEYEKPFHITGSVSSESRNVEVEIVLESGVKGYGEASPSFRVNGERVEALLAIENAVREMITGIDVRNYARIFEITDRLFGFPSLKAAVQFATLDALSQELGTQVCYLLGGKRDEIETDKTVGIDTVENRVKEAKKIFEEGFRVIKIKVGENLKEDIEAVEEIAKVTRGAKYIVDANMGYTQKEAVEFARAVYQKGIDIAVYEQPVRREDIEGLKFVRFHSPFPVAADESARTKFDVMRLVKEEAVDYVNIKLMKSGISDALAIVEIAESSGLKLMIGCMGESSLGINQSVHFALGTGAFEFHDLDSHLMLKEEVFRGKFIQDGPRMRVK RIVNVKLSLKRYEYEKPFHITGSVSSESRNVEVEIVLESGVKGYGEASPSFRVNGERVEALLAIENAVREMITGIDVRNYARIFEITDRLFGFPSLKAAVQFATLDALSQELGTQVCYLLGGKRDEIETDKTVGIDTVENRVKEAKKIFEEGFRVIKIKVGENLKEDIEAVEEIAKVTRGAKYIVDANMGYTQKEAVEFARAVYQKGIDIAVYEQPVRREDIEGLKFVRFHSPFPVAADESARTKFDVMRLVKEEAVDYVNIKLMKSGISDALAIVEIAESSGLKLMIGCMGESSLGINQSVHFALGTGAFEFHDLDSHLMLKEEVFRGKFIQDGPRMRVK 3der-a3-m2-cB_3der-a3-m2-cD Crystal structure of dipeptide epimerase from Thermotoga maritima complexed with L-Ala-L-Lys dipeptide Q9WXM1 Q9WXM1 1.9 X-RAY DIFFRACTION 19 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 341 341 2zad-a1-m1-cA_2zad-a1-m3-cA 2zad-a1-m1-cA_2zad-a1-m4-cA 2zad-a1-m1-cB_2zad-a1-m3-cB 2zad-a1-m1-cB_2zad-a1-m4-cB 2zad-a1-m2-cA_2zad-a1-m3-cA 2zad-a1-m2-cA_2zad-a1-m4-cA 2zad-a1-m2-cB_2zad-a1-m3-cB 2zad-a1-m2-cB_2zad-a1-m4-cB 2zad-a2-m1-cC_2zad-a2-m6-cC 2zad-a2-m1-cC_2zad-a2-m7-cC 2zad-a2-m1-cD_2zad-a2-m6-cD 2zad-a2-m1-cD_2zad-a2-m7-cD 2zad-a2-m5-cC_2zad-a2-m6-cC 2zad-a2-m5-cC_2zad-a2-m7-cC 2zad-a2-m5-cD_2zad-a2-m6-cD 2zad-a2-m5-cD_2zad-a2-m7-cD 3deq-a3-m1-cA_3deq-a3-m1-cC 3deq-a3-m1-cA_3deq-a3-m2-cC 3deq-a3-m1-cB_3deq-a3-m1-cD 3deq-a3-m1-cB_3deq-a3-m2-cD 3deq-a3-m1-cC_3deq-a3-m2-cA 3deq-a3-m1-cD_3deq-a3-m2-cB 3deq-a3-m2-cA_3deq-a3-m2-cC 3deq-a3-m2-cB_3deq-a3-m2-cD 3der-a3-m1-cA_3der-a3-m1-cC 3der-a3-m1-cA_3der-a3-m2-cC 3der-a3-m1-cB_3der-a3-m1-cD 3der-a3-m1-cB_3der-a3-m2-cD 3der-a3-m1-cC_3der-a3-m2-cA 3der-a3-m1-cD_3der-a3-m2-cB 3der-a3-m2-cA_3der-a3-m2-cC 3des-a3-m1-cA_3des-a3-m1-cC 3des-a3-m1-cA_3des-a3-m2-cC 3des-a3-m1-cB_3des-a3-m1-cD 3des-a3-m1-cB_3des-a3-m2-cD 3des-a3-m1-cC_3des-a3-m2-cA 3des-a3-m1-cD_3des-a3-m2-cB 3des-a3-m2-cA_3des-a3-m2-cC 3des-a3-m2-cB_3des-a3-m2-cD 3dfy-a1-m1-cB_3dfy-a1-m1-cC 3dfy-a1-m1-cD_3dfy-a1-m1-cA 3dfy-a1-m1-cE_3dfy-a1-m1-cD 3dfy-a1-m1-cE_3dfy-a1-m1-cH 3dfy-a1-m1-cF_3dfy-a1-m1-cC 3dfy-a1-m1-cG_3dfy-a1-m1-cB 3dfy-a1-m1-cG_3dfy-a1-m1-cF 3dfy-a1-m1-cH_3dfy-a1-m1-cA 3dfy-a2-m1-cJ_3dfy-a2-m1-cM 3dfy-a2-m1-cJ_3dfy-a2-m1-cO 3dfy-a2-m1-cK_3dfy-a2-m1-cN 3dfy-a2-m1-cK_3dfy-a2-m1-cP 3dfy-a2-m1-cL_3dfy-a2-m1-cM 3dfy-a2-m1-cL_3dfy-a2-m1-cO 3dfy-a2-m1-cN_3dfy-a2-m1-cI 3dfy-a2-m1-cP_3dfy-a2-m1-cI RIVNVKLSLKRYEYEKPFHITGSVSSESRNVEVEIVLESGVKGYGEASPSFRVNGERVEALLAIENAVREMITGIDVRNYARIFEITDRLFGFPSLKAAVQFATLDALSQELGTQVCYLLGGKRDEIETDKTVGIDTVENRVKEAKKIFEEGFRVIKIKVGENLKEDIEAVEEIAKVTRGAKYIVDANMGYTQKEAVEFARAVYQKGIDIAVYEQPVRREDIEGLKFVRFHSPFPVAADESARTKFDVMRLVKEEAVDYVNIKLMKSGISDALAIVEIAESSGLKLMIGCMGESSLGINQSVHFALGTGAFEFHDLDSHLMLKEEVFRGKFIQDGPRMRVK RIVNVKLSLKRYEYEKPFHITGSVSSESRNVEVEIVLESGVKGYGEASPSFRVNGERVEALLAIENAVREMITGIDVRNYARIFEITDRLFGFPSLKAAVQFATLDALSQELGTQVCYLLGGKRDEIETDKTVGIDTVENRVKEAKKIFEEGFRVIKIKVGENLKEDIEAVEEIAKVTRGAKYIVDANMGYTQKEAVEFARAVYQKGIDIAVYEQPVRREDIEGLKFVRFHSPFPVAADESARTKFDVMRLVKEEAVDYVNIKLMKSGISDALAIVEIAESSGLKLMIGCMGESSLGINQSVHFALGTGAFEFHDLDSHLMLKEEVFRGKFIQDGPRMRVK 3deu-a2-m1-cB_3deu-a2-m3-cB Crystal structure of transcription regulatory protein slyA from Salmonella typhimurium in complex with salicylate ligands P40676 P40676 2.3 X-RAY DIFFRACTION 138 1.0 130 130 3deu-a1-m1-cA_3deu-a1-m2-cA 3q5f-a1-m1-cB_3q5f-a1-m1-cA LESPLGSDLARLVRIWRALIDHRLKPLELTQTHWVTLHNIHQLPPDQSQIQLAKAIGIEQPSLVRTLDQLEDKGLISRRIKLTEKAEPLIAEMEEVIHKTRGEILAGISSEEIELLIKLIAKLEHNIMEL LESPLGSDLARLVRIWRALIDHRLKPLELTQTHWVTLHNIHQLPPDQSQIQLAKAIGIEQPSLVRTLDQLEDKGLISRRIKLTEKAEPLIAEMEEVIHKTRGEILAGISSEEIELLIKLIAKLEHNIMEL 3dev-a1-m1-cA_3dev-a1-m1-cB Crystal structure of SH1221 protein from Staphylococcus haemolyticus, Northeast Structural Genomics Consortium Target ShR87 Q4L745 Q4L745 3.1 X-RAY DIFFRACTION 94 1.0 279808 (Staphylococcus haemolyticus JCSC1435) 279808 (Staphylococcus haemolyticus JCSC1435) 310 310 VEIFNEIQRVKEAETIIIHRHVRPDPDAYGSQLGLKLYLERKFPEKNIYATGEAEPSLSFIGDLDEIDDSVYSDALVIVCDTANAPRIDDQRYLNGQSLIKIDHHPATDQYGDVNFVNTEASSTSEIIFDFISHFNDLSIIDEHVARVLYLGIVGDTGRFLFSNTSPHTEVASQLLAYPFNHNAELNKSEKDPKLPFQGYVLQNFELSDSHEYCQIKITNDVLKQFDIQPNEASQFVNTVADISGLKIWFGVDEGDQIRCRIRSKGITINDVANQFGGGGHPNASGVSVYSWDEFEELAQALRQKLLEHH VEIFNEIQRVKEAETIIIHRHVRPDPDAYGSQLGLKLYLERKFPEKNIYATGEAEPSLSFIGDLDEIDDSVYSDALVIVCDTANAPRIDDQRYLNGQSLIKIDHHPATDQYGDVNFVNTEASSTSEIIFDFISHFNDLSIIDEHVARVLYLGIVGDTGRFLFSNTSPHTEVASQLLAYPFNHNAELNKSEKDPKLPFQGYVLQNFELSDSHEYCQIKITNDVLKQFDIQPNEASQFVNTVADISGLKIWFGVDEGDQIRCRIRSKGITINDVANQFGGGGHPNASGVSVYSWDEFEELAQALRQKLLEHH 3dew-a1-m1-cA_3dew-a1-m2-cA The structure of a putative TetR family transcriptional regulator from Geobacter sulfurreducens PCA. Q74GS0 Q74GS0 1.75 X-RAY DIFFRACTION 197 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 186 186 DCRSRLEVATELFAQKGFYGVSIRELAQAAGASISISYHFGGKEGLYAAVLQEQFACFGQLDDIRGQAGDPLAVTAYLRWTIQRHRNNPQLLRFYTSELTNPTPCFAAIVSPAIASVIRLLAESIEAGTRGLFRRDLHAVNSALALAGVNYFFLSTLATEGLTSHSPDQDEELIRQYVAIFTRGIA DCRSRLEVATELFAQKGFYGVSIRELAQAAGASISISYHFGGKEGLYAAVLQEQFACFGQLDDIRGQAGDPLAVTAYLRWTIQRHRNNPQLLRFYTSELTNPTPCFAAIVSPAIASVIRLLAESIEAGTRGLFRRDLHAVNSALALAGVNYFFLSTLATEGLTSHSPDQDEELIRQYVAIFTRGIA 3dex-a4-m1-cG_3dex-a4-m1-cH Crystal structure of SAV_2001 protein from Streptomyces avermitilis, Northeast Structural Genomics Consortium Target SvR107. Q82LK9 Q82LK9 2.7 X-RAY DIFFRACTION 54 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 77 83 3dex-a2-m1-cC_3dex-a2-m1-cD 3dex-a3-m1-cE_3dex-a3-m1-cF THRVQIEYCTQCRWLPRAAWLAQELLTTFETELTELALKPGTGGVFVVRVDDEVVWDRREQGFPEPTAVKRLVRDRV PHTHRVQIEYCTQCRWLPRAAWLAQELLTTFETELTELALKPGTGGVFVVRVDDEVVWDRREQGFPEPTAVKRLVRDRVAPEK 3dez-a1-m1-cB_3dez-a1-m1-cA Crystal structure of Orotate phosphoribosyltransferase from Streptococcus mutans Q8DTV2 Q8DTV2 2.4 X-RAY DIFFRACTION 95 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 194 206 MTLAKDIARDLLDIKAVYLKPEEPFTKSPIYTDNRITLSYPETRTLIENGFVETIKEAFPEVEVIAGTATAGIPHGAIIADKMNLPLAYIRSQIEGRVTKGQKMVIIEDLISTGGSVLDAVAAAQREGADVLGVVAIFTYELPKATANFEKASVKLVTLSNYSELIKVAKVQGYIDADGLTLLKKFKENQETWQ MGRGSMTLAKDIARDLLDIKAVYLKPEEPFTWIKSPIYTDNRITLSYPETRTLIENGFVETIKEAFPEVEVIAGTATAGIPHGAIIADKMNLPLAYIRSKPKNQIEGRVTKGQKMVIIEDLISTGGSVLDAVAAAQREGADVLGVVAIFTYELPKATANFEKASVKLVTLSNYSELIKVAKVQGYIDADGLTLLKKFKENQETWQD 3df6-a2-m1-cD_3df6-a2-m1-cB The thermo- and acido-stable ORF-99 from the archaeal virus AFV1 Q70LE8 Q70LE8 2.05 X-RAY DIFFRACTION 36 1.0 235266 (Captovirus AFV1) 235266 (Captovirus AFV1) 96 97 3df6-a1-m1-cA_3df6-a1-m1-cC 3djw-a1-m1-cA_3djw-a1-m1-cB DTHEFHKLLIKVVDLFLEDRIKEFEKLNTTLDELEFEELIGKPDSSNSAENNGIFIDEYSYDASENAKKLFVEYVRQPEFKYTVLSIKGVNDWVRE GDTHEFHKLLIKVVDLFLEDRIKEFEKLNTTLDELEFEELIGKPDSSNSAENNGIFIDEYSYDASENAKKLFVEYVRQPEFKYTVLSIKGVNDWVRE 3df8-a1-m1-cA_3df8-a1-m2-cA The crystal structure of a possible HxlR family transcriptional factor from Thermoplasma volcanium GSS1 Q978X0 Q978X0 1.65 X-RAY DIFFRACTION 135 1.0 50339 (Thermoplasma volcanium) 50339 (Thermoplasma volcanium) 105 105 SNALRYGDTEICIDPSESVLHLLGKKYTLIISVLGNGSTRQNFNDIRSSIPGISSTILSRRIKDLIDSGLVERRSGQITTYALTEKGNVRNSLPLLQYISVLDRN SNALRYGDTEICIDPSESVLHLLGKKYTLIISVLGNGSTRQNFNDIRSSIPGISSTILSRRIKDLIDSGLVERRSGQITTYALTEKGNVRNSLPLLQYISVLDRN 3dfe-a2-m1-cA_3dfe-a2-m1-cB Crystal structure of a Putative Pii-Like Signaling Protein (YP_323533.1) from ANABAENA VARIABILIS ATCC 29413 at 2.35 A resolution Q3M8P8 Q3M8P8 2.35 X-RAY DIFFRACTION 55 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 81 81 3dfe-a1-m1-cE_3dfe-a1-m1-cD 3dfe-a1-m1-cF_3dfe-a1-m1-cD 3dfe-a1-m1-cF_3dfe-a1-m1-cE 3dfe-a2-m1-cC_3dfe-a2-m1-cA 3dfe-a2-m1-cC_3dfe-a2-m1-cB SKRANKLVIVTEKVLLKKVAKIIEEAGATGYTVVDTGGSNVKFEVLTENREAEKIADQVAIKFFTDYAGIIYICEAEVLYG SKRANKLVIVTEKVLLKKVAKIIEEAGATGYTVVDTGGSNVKFEVLTENREAEKIADQVAIKFFTDYAGIIYICEAEVLYG 3dfh-a3-m1-cA_3dfh-a3-m10-cB crystal structure of putative mandelate racemase / muconate lactonizing enzyme from Vibrionales bacterium SWAT-3 A5KUH4 A5KUH4 2.2 X-RAY DIFFRACTION 103 1.0 391574 (Vibrionales bacterium SWAT-3) 391574 (Vibrionales bacterium SWAT-3) 359 359 3dfh-a1-m1-cC_3dfh-a1-m7-cC 3dfh-a1-m2-cC_3dfh-a1-m8-cC 3dfh-a1-m3-cC_3dfh-a1-m5-cC 3dfh-a1-m4-cC_3dfh-a1-m6-cC 3dfh-a2-m10-cA_3dfh-a2-m9-cB 3dfh-a2-m11-cB_3dfh-a2-m9-cA 3dfh-a2-m1-cA_3dfh-a2-m10-cB 3dfh-a2-m1-cB_3dfh-a2-m11-cA 3dfh-a4-m1-cC_3dfh-a4-m7-cC 3r25-a1-m1-cA_3r25-a1-m1-cB 3r25-a2-m1-cC_3r25-a2-m1-cD 3r25-a3-m1-cE_3r25-a3-m1-cF 3r25-a4-m1-cG_3r25-a4-m1-cH 3r25-a7-m1-cA_3r25-a7-m1-cB 3r25-a7-m1-cC_3r25-a7-m1-cD 3r25-a7-m1-cE_3r25-a7-m1-cF 3r25-a7-m1-cG_3r25-a7-m1-cH 3sbf-a1-m1-cA_3sbf-a1-m1-cD 3sbf-a2-m1-cB_3sbf-a2-m1-cC 3sbf-a7-m1-cA_3sbf-a7-m1-cD 3sbf-a7-m1-cB_3sbf-a7-m1-cC 3sbf-a7-m2-cA_3sbf-a7-m2-cD 3sbf-a7-m2-cB_3sbf-a7-m2-cC SLKETIISDIHCIITKPDRHNLITVVVETNEGVTGFGCATFQQRPLAVKTMVDEYLKPILIGKNANNIEDLWQMMMVNAYWRNGPVINNAISGVDMALWDIKAKLAGMPLHQLFGGKSRDAIPVYTHATSDTMEGIYDLVEGFLEKGYKHIRCQLGFDQDQYMDNTLTMFKSLREKYGNQFHILHDVHERLFPNQAIQFAKEVEQYKPYFIEDILPPNQTEWLDNIRSQSSVSLGLGELFNNPEEWKSLIANRRIDFIRCHVSQIGGITPALKLGHLCQNFGVRIAWHCPPDMTPIGAAVNTHLNVHLHNAAIQEHVEYNGNTHKVFPNAAEPINGYLYASEIAGIGVEIDREAAAEFP SLKETIISDIHCIITKPDRHNLITVVVETNEGVTGFGCATFQQRPLAVKTMVDEYLKPILIGKNANNIEDLWQMMMVNAYWRNGPVINNAISGVDMALWDIKAKLAGMPLHQLFGGKSRDAIPVYTHATSDTMEGIYDLVEGFLEKGYKHIRCQLGFDQDQYMDNTLTMFKSLREKYGNQFHILHDVHERLFPNQAIQFAKEVEQYKPYFIEDILPPNQTEWLDNIRSQSSVSLGLGELFNNPEEWKSLIANRRIDFIRCHVSQIGGITPALKLGHLCQNFGVRIAWHCPPDMTPIGAAVNTHLNVHLHNAAIQEHVEYNGNTHKVFPNAAEPINGYLYASEIAGIGVEIDREAAAEFP 3dfh-a6-m1-cC_3dfh-a6-m6-cC crystal structure of putative mandelate racemase / muconate lactonizing enzyme from Vibrionales bacterium SWAT-3 A5KUH4 A5KUH4 2.2 X-RAY DIFFRACTION 93 1.0 391574 (Vibrionales bacterium SWAT-3) 391574 (Vibrionales bacterium SWAT-3) 359 359 3dfh-a1-m1-cC_3dfh-a1-m6-cC 3dfh-a1-m2-cC_3dfh-a1-m5-cC 3dfh-a1-m3-cC_3dfh-a1-m7-cC 3dfh-a1-m4-cC_3dfh-a1-m8-cC 3dfh-a2-m10-cA_3dfh-a2-m10-cB 3dfh-a2-m11-cA_3dfh-a2-m11-cB 3dfh-a2-m1-cA_3dfh-a2-m1-cB 3dfh-a2-m9-cA_3dfh-a2-m9-cB 3dfh-a5-m1-cA_3dfh-a5-m1-cB 3r25-a7-m1-cA_3r25-a7-m1-cG 3r25-a7-m1-cC_3r25-a7-m1-cB 3r25-a7-m1-cD_3r25-a7-m1-cF 3r25-a7-m1-cE_3r25-a7-m1-cH 3sbf-a3-m1-cA_3sbf-a3-m1-cC 3sbf-a4-m1-cB_3sbf-a4-m2-cD 3sbf-a7-m1-cA_3sbf-a7-m1-cC 3sbf-a7-m1-cB_3sbf-a7-m2-cD 3sbf-a7-m2-cA_3sbf-a7-m2-cC 3sbf-a7-m2-cB_3sbf-a7-m1-cD SLKETIISDIHCIITKPDRHNLITVVVETNEGVTGFGCATFQQRPLAVKTMVDEYLKPILIGKNANNIEDLWQMMMVNAYWRNGPVINNAISGVDMALWDIKAKLAGMPLHQLFGGKSRDAIPVYTHATSDTMEGIYDLVEGFLEKGYKHIRCQLGFDQDQYMDNTLTMFKSLREKYGNQFHILHDVHERLFPNQAIQFAKEVEQYKPYFIEDILPPNQTEWLDNIRSQSSVSLGLGELFNNPEEWKSLIANRRIDFIRCHVSQIGGITPALKLGHLCQNFGVRIAWHCPPDMTPIGAAVNTHLNVHLHNAAIQEHVEYNGNTHKVFPNAAEPINGYLYASEIAGIGVEIDREAAAEFP SLKETIISDIHCIITKPDRHNLITVVVETNEGVTGFGCATFQQRPLAVKTMVDEYLKPILIGKNANNIEDLWQMMMVNAYWRNGPVINNAISGVDMALWDIKAKLAGMPLHQLFGGKSRDAIPVYTHATSDTMEGIYDLVEGFLEKGYKHIRCQLGFDQDQYMDNTLTMFKSLREKYGNQFHILHDVHERLFPNQAIQFAKEVEQYKPYFIEDILPPNQTEWLDNIRSQSSVSLGLGELFNNPEEWKSLIANRRIDFIRCHVSQIGGITPALKLGHLCQNFGVRIAWHCPPDMTPIGAAVNTHLNVHLHNAAIQEHVEYNGNTHKVFPNAAEPINGYLYASEIAGIGVEIDREAAAEFP 3dfu-a1-m1-cB_3dfu-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE ROSSMANN-LIKE DEHYDROGENASE (CGL2689) FROM CORYNEBACTERIUM GLUTAMICUM AT 2.07 A RESOLUTION Q8NM90 Q8NM90 2.07 X-RAY DIFFRACTION 224 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 222 223 QAPRLRVGIFDDGSSTVNAEKLDSVGHYVTVLHAPEDIRDFELVVIDAHGVEGYVEKLSAFARRGQFLHTSLTHGITVDPLETSGGIVSAHPIGQDRWVASALDELGETIVGLLVGELGGSIVEIADDKRAQLAAALTYAGFLSTLQRDASYFLDEFLGDPDVTSDIVDSAQQFQALPSLDEVIAQYDSINNPGRQRLFRDLARRQAEISRAQDIELWAIQK QAPRLRVGIFDDGSSTVNAEKLDSVGHYVTVLHAPEDIRDFELVVIDAHGVEGYVEKLSAFARRGQFLHTSLTHGITVDPLETSGGIVSAHPIGQDRWVASALDELGETIVGLLVGELGGSIVEIADDKRAQLAAALTYAGFLSTLQRDASYFLDEFLGDPDVTSDIVDSAQQFQALPSLDEVIAQYDSINNPGRQRLFRDLARRQAEISRAQDIELWAIQKE 3dfz-a1-m1-cA_3dfz-a1-m1-cB SirC, precorrin-2 dehydrogenase P61818 P61818 2.3 X-RAY DIFFRACTION 184 0.99 1404 (Priestia megaterium) 1404 (Priestia megaterium) 196 199 MYTVMLDLKGRSVLVVGGGTIATRRIKGFLQEGAAITVVAPTVSAEINEWEAKGQLRVKRKKVGEEDLLNVFFIVVATNDQAVNKFVKQHIKNDQLVNMDGNIQIPAQFSRGRLSLAISTDGASPLLTKRIKEDLSSNYDESYTQYTQFLYECRVLIHRLNVSKSRKHELLTEIIDDQYRLSLVKQREFLQQIEKY MYTVMLDLKGRSVLVVGGGTIATRRIKGFLQEGAAITVVAPTVSAEINEWEAKGQLRVKRKKVGEEDLLNVFFIVVATNDQAVNKFVKIKNDQLVNMASSFSDGNIQIPAQFSRGRLSLAISTDGASPLLTKRIKEDLSSNYDESYTQYTQFLYECRVLIHRLNVSKSRKHELLTEIIDDQYRLSLVKQREFLQQIEKY 3dg1-a1-m5-cA_3dg1-a1-m6-cA Segment SSTNVG derived from IAPP P10997 P10997 1.66 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3dg1-a1-m1-cA_3dg1-a1-m2-cA 3dg1-a1-m2-cA_3dg1-a1-m3-cA 3dg1-a1-m4-cA_3dg1-a1-m5-cA SSTNVG SSTNVG 3dg6-a1-m1-cA_3dg6-a1-m2-cA Crystal structure of muconate lactonizing enzyme from Mucobacterium Smegmatis complexed with muconolactone A0QTN8 A0QTN8 1.6 X-RAY DIFFRACTION 87 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 366 366 3dg3-a2-m1-cA_3dg3-a2-m3-cA 3dg7-a1-m1-cA_3dg7-a1-m1-cB 3dg7-a2-m1-cC_3dg7-a2-m1-cD MKIVAIGAIPFSIPYTKPLRFASGEVHAAEHVLVRVHTDDGIVGVAEAPPRPFTYGETQTGIVAVIEQYFAPALIGLTLTEREVAHTRMARTVGNPTAKAAIDMAMWDALGQSLRLSVSEMLGGYTDRMRVSHMLGFDDPVKMVAEAERIRETYGINTFKVKVGRRPVQLDTAVVRALRERFGDAIELYVDGNRGWSAAESLRAMREMADLDLLFAEELCPADDVLSRRRLVGQLDMPFIADESVPTPADVTREVLGGSATAISIKTARTGFTGSTRVHHLAEGLGLDMVMGNQIDGQIGTACTVSFGTAFERTSRHAGELSNFLDMSDDLLTVPLQISDGQLHRRPGPGLGIEIDPDKLAHYRTD MKIVAIGAIPFSIPYTKPLRFASGEVHAAEHVLVRVHTDDGIVGVAEAPPRPFTYGETQTGIVAVIEQYFAPALIGLTLTEREVAHTRMARTVGNPTAKAAIDMAMWDALGQSLRLSVSEMLGGYTDRMRVSHMLGFDDPVKMVAEAERIRETYGINTFKVKVGRRPVQLDTAVVRALRERFGDAIELYVDGNRGWSAAESLRAMREMADLDLLFAEELCPADDVLSRRRLVGQLDMPFIADESVPTPADVTREVLGGSATAISIKTARTGFTGSTRVHHLAEGLGLDMVMGNQIDGQIGTACTVSFGTAFERTSRHAGELSNFLDMSDDLLTVPLQISDGQLHRRPGPGLGIEIDPDKLAHYRTD 3dg6-a2-m1-cA_3dg6-a2-m3-cA Crystal structure of muconate lactonizing enzyme from Mucobacterium Smegmatis complexed with muconolactone A0QTN8 A0QTN8 1.6 X-RAY DIFFRACTION 81 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 366 366 3dg3-a1-m1-cA_3dg3-a1-m2-cA MKIVAIGAIPFSIPYTKPLRFASGEVHAAEHVLVRVHTDDGIVGVAEAPPRPFTYGETQTGIVAVIEQYFAPALIGLTLTEREVAHTRMARTVGNPTAKAAIDMAMWDALGQSLRLSVSEMLGGYTDRMRVSHMLGFDDPVKMVAEAERIRETYGINTFKVKVGRRPVQLDTAVVRALRERFGDAIELYVDGNRGWSAAESLRAMREMADLDLLFAEELCPADDVLSRRRLVGQLDMPFIADESVPTPADVTREVLGGSATAISIKTARTGFTGSTRVHHLAEGLGLDMVMGNQIDGQIGTACTVSFGTAFERTSRHAGELSNFLDMSDDLLTVPLQISDGQLHRRPGPGLGIEIDPDKLAHYRTD MKIVAIGAIPFSIPYTKPLRFASGEVHAAEHVLVRVHTDDGIVGVAEAPPRPFTYGETQTGIVAVIEQYFAPALIGLTLTEREVAHTRMARTVGNPTAKAAIDMAMWDALGQSLRLSVSEMLGGYTDRMRVSHMLGFDDPVKMVAEAERIRETYGINTFKVKVGRRPVQLDTAVVRALRERFGDAIELYVDGNRGWSAAESLRAMREMADLDLLFAEELCPADDVLSRRRLVGQLDMPFIADESVPTPADVTREVLGGSATAISIKTARTGFTGSTRVHHLAEGLGLDMVMGNQIDGQIGTACTVSFGTAFERTSRHAGELSNFLDMSDDLLTVPLQISDGQLHRRPGPGLGIEIDPDKLAHYRTD 3dgb-a1-m2-cA_3dgb-a1-m8-cA Crystal structure of muconate lactonizing enzyme from Pseudomonas Fluorescens complexed with muconolactone Q4K9X1 Q4K9X1 1.7 X-RAY DIFFRACTION 83 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 371 371 3ct2-a2-m1-cA_3ct2-a2-m1-cB 3ct2-a2-m2-cA_3ct2-a2-m2-cB 3ct2-a2-m3-cA_3ct2-a2-m3-cB 3ct2-a2-m4-cA_3ct2-a2-m4-cB 3dgb-a1-m1-cA_3dgb-a1-m7-cA 3dgb-a1-m3-cA_3dgb-a1-m5-cA 3dgb-a1-m4-cA_3dgb-a1-m6-cA 3fj4-a1-m1-cA_3fj4-a1-m1-cB 3fj4-a2-m1-cA_3fj4-a2-m1-cB 3fj4-a2-m2-cA_3fj4-a2-m2-cB 3fj4-a2-m3-cA_3fj4-a2-m3-cB 3fj4-a2-m4-cA_3fj4-a2-m4-cB HASAIESIETIIVDLPTIRPHKLAMHTMQNQTLVLIRLRCADGIEGLGESTTIGGLAYGNESPDSIKTNIDRFVAPLLIGQDASNINAAMLRLEQSIRGNTFAKSGIESALLDAQGKRLGLPVSELLGGRVRDALPVAWTLASGDTAKDIAEAQKMLDLRRHRIFKLKIGAGEVDRDLAHVIAIKKALGDSASVRVDVNQAWDEAVALRACRILGGNGIDLIEQPISRNNRAGMVRLNASSPAPIMADESIECVEDAFNLAREGAASVFALKIAKNGGPRATLRTAAIAEAAGIGLYGGTMLEGGIGTLASAHAFLTLNKLSWDTELFGPLLLTEDILAEPPVYRDFHLHVSKAPGLGLSLDEERLAFFRR HASAIESIETIIVDLPTIRPHKLAMHTMQNQTLVLIRLRCADGIEGLGESTTIGGLAYGNESPDSIKTNIDRFVAPLLIGQDASNINAAMLRLEQSIRGNTFAKSGIESALLDAQGKRLGLPVSELLGGRVRDALPVAWTLASGDTAKDIAEAQKMLDLRRHRIFKLKIGAGEVDRDLAHVIAIKKALGDSASVRVDVNQAWDEAVALRACRILGGNGIDLIEQPISRNNRAGMVRLNASSPAPIMADESIECVEDAFNLAREGAASVFALKIAKNGGPRATLRTAAIAEAAGIGLYGGTMLEGGIGTLASAHAFLTLNKLSWDTELFGPLLLTEDILAEPPVYRDFHLHVSKAPGLGLSLDEERLAFFRR 3dgb-a2-m1-cA_3dgb-a2-m5-cA Crystal structure of muconate lactonizing enzyme from Pseudomonas Fluorescens complexed with muconolactone Q4K9X1 Q4K9X1 1.7 X-RAY DIFFRACTION 80 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 371 371 3ct2-a1-m1-cA_3ct2-a1-m2-cB 3ct2-a2-m1-cA_3ct2-a2-m2-cB 3ct2-a2-m1-cB_3ct2-a2-m4-cA 3ct2-a2-m2-cA_3ct2-a2-m3-cB 3ct2-a2-m3-cA_3ct2-a2-m4-cB 3dgb-a1-m1-cA_3dgb-a1-m5-cA 3dgb-a1-m2-cA_3dgb-a1-m6-cA 3dgb-a1-m3-cA_3dgb-a1-m8-cA 3dgb-a1-m4-cA_3dgb-a1-m7-cA 3fj4-a2-m1-cA_3fj4-a2-m3-cB 3fj4-a2-m1-cB_3fj4-a2-m4-cA 3fj4-a2-m2-cA_3fj4-a2-m4-cB 3fj4-a2-m2-cB_3fj4-a2-m3-cA HASAIESIETIIVDLPTIRPHKLAMHTMQNQTLVLIRLRCADGIEGLGESTTIGGLAYGNESPDSIKTNIDRFVAPLLIGQDASNINAAMLRLEQSIRGNTFAKSGIESALLDAQGKRLGLPVSELLGGRVRDALPVAWTLASGDTAKDIAEAQKMLDLRRHRIFKLKIGAGEVDRDLAHVIAIKKALGDSASVRVDVNQAWDEAVALRACRILGGNGIDLIEQPISRNNRAGMVRLNASSPAPIMADESIECVEDAFNLAREGAASVFALKIAKNGGPRATLRTAAIAEAAGIGLYGGTMLEGGIGTLASAHAFLTLNKLSWDTELFGPLLLTEDILAEPPVYRDFHLHVSKAPGLGLSLDEERLAFFRR HASAIESIETIIVDLPTIRPHKLAMHTMQNQTLVLIRLRCADGIEGLGESTTIGGLAYGNESPDSIKTNIDRFVAPLLIGQDASNINAAMLRLEQSIRGNTFAKSGIESALLDAQGKRLGLPVSELLGGRVRDALPVAWTLASGDTAKDIAEAQKMLDLRRHRIFKLKIGAGEVDRDLAHVIAIKKALGDSASVRVDVNQAWDEAVALRACRILGGNGIDLIEQPISRNNRAGMVRLNASSPAPIMADESIECVEDAFNLAREGAASVFALKIAKNGGPRATLRTAAIAEAAGIGLYGGTMLEGGIGTLASAHAFLTLNKLSWDTELFGPLLLTEDILAEPPVYRDFHLHVSKAPGLGLSLDEERLAFFRR 3dgg-a3-m1-cB_3dgg-a3-m1-cD Crystal structure of FabOX108 2.3 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 215 EVKLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDDTNYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCAREDYYGSRWGYWGQGTTLTVSSAKTTPPSVYPLAPSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR EVKLQQSGPELVKPGASVKMSCKASGYTFTSYVMHWVKQKPGQGLEWIGYINPYNDDTNYNEKFKGKATLTSDKSSSTAYMELSSLTSEDSAVYYCAREDYYGSRWGYWGQGTTLTVSSAKTTPPSVYPLAPGSSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPRD 3dgg-a3-m1-cC_3dgg-a3-m1-cA Crystal structure of FabOX108 2.3 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 217 DIVLTQSPASLAVSLGQRATISCRASKSVSTSGYSYMHWYQQKPGQPPKLLIYLASNLESGVPARFSGSGSGTDFTLNIHPVEEEDAATYYCQHSRELLTFGAGTKLELKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN DIVLTQSPASLAVSLGQRATISCRASKSVSTSGYSYMHWYQQKPGQPPKLLIYLASNLESGVPARFSGSGSGTDFTLNIHPVEEEDAATYYCQHSRELLTFGAGTKLELKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 3dgh-a1-m1-cA_3dgh-a1-m2-cA Crystal Structure of Drosophila Thioredoxin Reductase, C-terminal 8-residue truncation P91938 P91938 1.745 X-RAY DIFFRACTION 16 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 477 477 SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKRSGLD SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKRSGLD 3dgh-a1-m1-cB_3dgh-a1-m2-cB Crystal Structure of Drosophila Thioredoxin Reductase, C-terminal 8-residue truncation P91938 P91938 1.745 X-RAY DIFFRACTION 21 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 473 473 SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKR SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKR 3dgh-a1-m2-cB_3dgh-a1-m1-cA Crystal Structure of Drosophila Thioredoxin Reductase, C-terminal 8-residue truncation P91938 P91938 1.745 X-RAY DIFFRACTION 30 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 473 477 3dgh-a1-m1-cB_3dgh-a1-m2-cA SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKR SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKRSGLD 3dgh-a2-m1-cB_3dgh-a2-m1-cA Crystal Structure of Drosophila Thioredoxin Reductase, C-terminal 8-residue truncation P91938 P91938 1.745 X-RAY DIFFRACTION 267 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 473 477 2nvk-a1-m1-cX_2nvk-a1-m2-cX 3dgh-a1-m1-cB_3dgh-a1-m1-cA 3dgh-a1-m2-cB_3dgh-a1-m2-cA 3dh9-a1-m1-cA_3dh9-a1-m1-cB SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKR SYDYDLIVIGGGSAGLACAKEAVLNGARVACLDFVKPTPTLGTKWGVGGTCVNVGCIPKKLMHQASLLGEAVHEAAAYGWNVDDKIKPDWHKLVQSVQNHIKSVNWVTRVDLRDKKVEYINGLGSFVDSHTLLAKLKSGERTITAQTFVIAVGGRPRYPDIPGAVEYGITSDDLFSLDREPGKTLVVGAGYIGLECAGFLKGLGYEPTVMVRSIVLRGFDQQMAELVAASMEERGIPFLRKTVPLSVEKQDDGKLLVKYKNVETGEESEDVYDTVLWAIGRKGLVDDLNLPNAGVTVQKDKIPVDSQEATNVANIYAVGDIIYGKPELTPVAVLAGRLLARRLYGGSTQRMDYKDVATTVFTPLEYACVGLSEEDAVKQFGADEIEVFHGYYKPTEFFIPQKSVRYCYLKAVAERHGDQRVYGLHYIGPVAGEVIQGFAAALKSGLTINTLINTVGIHPTTAEEFTRLAITKRSGLD 3dgj-a1-m1-cA_3dgj-a1-m3-cA NNFGAIL segment from Islet Amyloid Polypeptide (IAPP or amylin) 1.8 X-RAY DIFFRACTION 22 1.0 7 7 3dgj-a1-m1-cA_3dgj-a1-m2-cA NNFGAIL NNFGAIL 3dgo-a1-m1-cA_3dgo-a1-m2-cA A non-biological ATP binding protein with a Tyr-Phe mutation in the ligand binding domain 2.5 X-RAY DIFFRACTION 45 1.0 32644 (unidentified) 32644 (unidentified) 69 69 1uw1-a1-m1-cA_1uw1-a1-m2-cA 2p05-a1-m1-cA_2p05-a1-m2-cA 2p09-a1-m1-cA_2p09-a1-m2-cA 3lt8-a1-m1-cA_3lt8-a1-m2-cA 3lt9-a1-m1-cA_3lt9-a1-m2-cA 3lta-a1-m1-cA_3lta-a1-m2-cA 3ltb-a1-m1-cA_3ltb-a1-m2-cA 3ltc-a1-m1-cA_3ltc-a1-m2-cA 3ltd-a1-m1-cA_3ltd-a1-m2-cA DDDDKKTNWLKRIYRVRPCVKCKVAPRDWKVKNKHLRIFNMCKTCFNNSIDIGDDTYHGHVDWLMYADS DDDDKKTNWLKRIYRVRPCVKCKVAPRDWKVKNKHLRIFNMCKTCFNNSIDIGDDTYHGHVDWLMYADS 3dgv-a1-m1-cB_3dgv-a1-m1-cA Crystal structure of thrombin activatable fibrinolysis inhibitor (TAFI) Q2KIG3 Q2KIG3 2.5 X-RAY DIFFRACTION 41 1.0 9913 (Bos taurus) 9913 (Bos taurus) 401 401 FQRGQVLSALPRTSRQVQILQNVTTTYKIVLWQPVAAEYIVKGYEVHFFVNASDVSNVKAHLNASRIPFRVLVENVEDLIRQQTSNDTISPRASSSYYEQYHSLNEIYSWIEVMTERYPDMVEKIHIGSSYEKYPLYVLKVSKKEQRAKNAMWIDCGIHAREWISPAFCLWFVGSVTYYYGKEKMHTNLLKHMDFYIMPVVNVDGYDYTWKKDRMWRKNRSLHEKNACVGTDLNRNFASKHWCGEGASSSSCSEIYCGTYPESEPEVKAVADFLRRNIKHIKAYISMHSYSQKIVFPYSYSRSRSKDHEELSLVAREAVFAMENIHRNIRYTHGSGSESLYLAPGGSDDWIYDLGIKYSFTFELRDKGKYGFLLPESYIRPTCSEALVAVAKIASHVVKNV FQRGQVLSALPRTSRQVQILQNVTTTYKIVLWQPVAAEYIVKGYEVHFFVNASDVSNVKAHLNASRIPFRVLVENVEDLIRQQTSNDTISPRASSSYYEQYHSLNEIYSWIEVMTERYPDMVEKIHIGSSYEKYPLYVLKVSKKEQRAKNAMWIDCGIHAREWISPAFCLWFVGSVTYYYGKEKMHTNLLKHMDFYIMPVVNVDGYDYTWKKDRMWRKNRSLHEKNACVGTDLNRNFASKHWCGEGASSSSCSEIYCGTYPESEPEVKAVADFLRRNIKHIKAYISMHSYSQKIVFPYSYSRSRSKDHEELSLVAREAVFAMENIHRNIRYTHGSGSESLYLAPGGSDDWIYDLGIKYSFTFELRDKGKYGFLLPESYIRPTCSEALVAVAKIASHVVKNV 3dgz-a1-m1-cA_3dgz-a1-m2-cA Crystal Structure of Mouse Mitochondrial Thioredoxin Reductase, C-terminal 3-residue truncation Q9JLT4 Q9JLT4 2.25 X-RAY DIFFRACTION 277 1.0 10090 (Mus musculus) 10090 (Mus musculus) 482 482 1zdl-a1-m1-cA_1zdl-a1-m2-cA 1zkq-a1-m1-cA_1zkq-a1-m2-cA QQSFDLLVIGGGSGGLACAKEAAQLGKKVAVADYVEPSPRGTKWGLGGTCVNVGCIPKKLMHQAALLGGMIRDAHHYGWEVAQPVQHNWKTMAEAVQNHVKSLNWGHRVQLQDRKVKYFNIKASFVDEHTVRGVDKGGKATLLSAEHIVIATGGRPRYPTQVKGALEYGITSDDIFWLKESPGKTLVVGASYVALECAGFLTGIGLDTTVMMRSIPLRGFDQQMSSLVTEHMESHGTQFLKGCVPSHIKKLPTNQLQVTWEDHASGKEDTGTFDTVLWAIGRVPETRTLNLEKAGISTNPKNQKIIVDAQEATSVPHIYAIGDVAEGRPELTPTAIKAGKLLAQRLFGKSSTLMDYSNVPTTVFTPLEYGCVGLSEEEAVALHGQEHVEVYHAYYKPLEFTVADRDASQCYIKMVCMREPPQLVLGLHFLGPNAGEVTQGFALGIKCGASYAQVMQTVGIHPTCSEEVVKLHISKRSGLEPT QQSFDLLVIGGGSGGLACAKEAAQLGKKVAVADYVEPSPRGTKWGLGGTCVNVGCIPKKLMHQAALLGGMIRDAHHYGWEVAQPVQHNWKTMAEAVQNHVKSLNWGHRVQLQDRKVKYFNIKASFVDEHTVRGVDKGGKATLLSAEHIVIATGGRPRYPTQVKGALEYGITSDDIFWLKESPGKTLVVGASYVALECAGFLTGIGLDTTVMMRSIPLRGFDQQMSSLVTEHMESHGTQFLKGCVPSHIKKLPTNQLQVTWEDHASGKEDTGTFDTVLWAIGRVPETRTLNLEKAGISTNPKNQKIIVDAQEATSVPHIYAIGDVAEGRPELTPTAIKAGKLLAQRLFGKSSTLMDYSNVPTTVFTPLEYGCVGLSEEEAVALHGQEHVEVYHAYYKPLEFTVADRDASQCYIKMVCMREPPQLVLGLHFLGPNAGEVTQGFALGIKCGASYAQVMQTVGIHPTCSEEVVKLHISKRSGLEPT 3dh1-a2-m1-cB_3dh1-a2-m1-cC Crystal structure of human tRNA-specific adenosine-34 deaminase subunit ADAT2 Q7Z6V5 Q7Z6V5 2.8 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 3dh1-a1-m1-cD_3dh1-a1-m1-cA NLYFQSMEETEKWMEEAMHMAKEALENTEVPVGCLMVYNNEVVGKGRNEVNQTKNATRHAEMVAIDQVLDWCRQSGKSPSEVFEHTVLYVTVEPCIMCAAALRLMKIPLVVYGCQNERFGGCGSVLNIASADLPNTGRPFQCIPGYRAEEAVEMLKTFYK NLYFQSMEETEKWMEEAMHMAKEALENTEVPVGCLMVYNNEVVGKGRNEVNQTKNATRHAEMVAIDQVLDWCRQSGKSPSEVFEHTVLYVTVEPCIMCAAALRLMKIPLVVYGCQNERFGGCGSVLNIASADLPNTGRPFQCIPGYRAEEAVEMLKTFYK 3dh4-a1-m1-cA_3dh4-a1-m2-cD Crystal Structure of Sodium/Sugar symporter with bound Galactose from vibrio parahaemolyticus P96169 P96169 2.7 X-RAY DIFFRACTION 60 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 512 512 XXXXXXXXXXXXXXXXXAGKSLPWWAVGASLIAANISAEQFIGMSGSGYSIGLAIASYEWMSAITLIIVGKYFLPIFIEKGIYTIPEFVEKRFNKKLKTILAVFWISLYIFVNLTSVLYLGGLALETILGIPLMYSILGLALFALVYSIVVWTDVIQVFFLVLGGFMTTYMAVSFIGGTDGWFAGVSKMVDAAPGHFEMILDQSNPQYMNLPGIAVLIGGLWVANLYYWGFNQYIIQRTLAAKSVSEAQKGIVFAAFLKLIVPFLVVLPGIAAYVITSDPQLMASLGDIAATNLPSAANADKAYPWLTQFLPVGVKGVVFAALAAAIVSSLASMLNSTATIFTMDIYKEYISPDSGDHKLVNVGRTAAVVALIIACLIAPMLGGIGQAFQYIQEYTGLVSPGILAVFLLGLFWKKTTSKGAIIGVVASIPFALFLKFMPLSMPFMDQMLYTLLFTMVVIAFTSLSTSINDDDPKGISVTSSMFVTDRSFNIAAYGIMIVLAVLYTLFWVLYK XXXXXXXXXXXXXXXXXAGKSLPWWAVGASLIAANISAEQFIGMSGSGYSIGLAIASYEWMSAITLIIVGKYFLPIFIEKGIYTIPEFVEKRFNKKLKTILAVFWISLYIFVNLTSVLYLGGLALETILGIPLMYSILGLALFALVYSIVVWTDVIQVFFLVLGGFMTTYMAVSFIGGTDGWFAGVSKMVDAAPGHFEMILDQSNPQYMNLPGIAVLIGGLWVANLYYWGFNQYIIQRTLAAKSVSEAQKGIVFAAFLKLIVPFLVVLPGIAAYVITSDPQLMASLGDIAATNLPSAANADKAYPWLTQFLPVGVKGVVFAALAAAIVSSLASMLNSTATIFTMDIYKEYISPDSGDHKLVNVGRTAAVVALIIACLIAPMLGGIGQAFQYIQEYTGLVSPGILAVFLLGLFWKKTTSKGAIIGVVASIPFALFLKFMPLSMPFMDQMLYTLLFTMVVIAFTSLSTSINDDDPKGISVTSSMFVTDRSFNIAAYGIMIVLAVLYTLFWVLYK 3dh4-a3-m1-cC_3dh4-a3-m1-cD Crystal Structure of Sodium/Sugar symporter with bound Galactose from vibrio parahaemolyticus P96169 P96169 2.7 X-RAY DIFFRACTION 70 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 512 512 3dh4-a1-m1-cA_3dh4-a1-m1-cB 3dh4-a1-m2-cC_3dh4-a1-m2-cD 3dh4-a2-m1-cA_3dh4-a2-m1-cB XXXXXXXXXXXXXXXXXAGKSLPWWAVGASLIAANISAEQFIGMSGSGYSIGLAIASYEWMSAITLIIVGKYFLPIFIEKGIYTIPEFVEKRFNKKLKTILAVFWISLYIFVNLTSVLYLGGLALETILGIPLMYSILGLALFALVYSIVVWTDVIQVFFLVLGGFMTTYMAVSFIGGTDGWFAGVSKMVDAAPGHFEMILDQSNPQYMNLPGIAVLIGGLWVANLYYWGFNQYIIQRTLAAKSVSEAQKGIVFAAFLKLIVPFLVVLPGIAAYVITSDPQLMASLGDIAATNLPSAANADKAYPWLTQFLPVGVKGVVFAALAAAIVSSLASMLNSTATIFTMDIYKEYISPDSGDHKLVNVGRTAAVVALIIACLIAPMLGGIGQAFQYIQEYTGLVSPGILAVFLLGLFWKKTTSKGAIIGVVASIPFALFLKFMPLSMPFMDQMLYTLLFTMVVIAFTSLSTSINDDDPKGISVTSSMFVTDRSFNIAAYGIMIVLAVLYTLFWVLYK XXXXXXXXXXXXXXXXXAGKSLPWWAVGASLIAANISAEQFIGMSGSGYSIGLAIASYEWMSAITLIIVGKYFLPIFIEKGIYTIPEFVEKRFNKKLKTILAVFWISLYIFVNLTSVLYLGGLALETILGIPLMYSILGLALFALVYSIVVWTDVIQVFFLVLGGFMTTYMAVSFIGGTDGWFAGVSKMVDAAPGHFEMILDQSNPQYMNLPGIAVLIGGLWVANLYYWGFNQYIIQRTLAAKSVSEAQKGIVFAAFLKLIVPFLVVLPGIAAYVITSDPQLMASLGDIAATNLPSAANADKAYPWLTQFLPVGVKGVVFAALAAAIVSSLASMLNSTATIFTMDIYKEYISPDSGDHKLVNVGRTAAVVALIIACLIAPMLGGIGQAFQYIQEYTGLVSPGILAVFLLGLFWKKTTSKGAIIGVVASIPFALFLKFMPLSMPFMDQMLYTLLFTMVVIAFTSLSTSINDDDPKGISVTSSMFVTDRSFNIAAYGIMIVLAVLYTLFWVLYK 3dhg-a3-m1-cA_3dhg-a3-m1-cD Crystal Structure of Toluene 4-Monoxygenase Hydroxylase Q00456 Q00456 1.85 X-RAY DIFFRACTION 17 1.0 300 (Pseudomonas mendocina) 300 (Pseudomonas mendocina) 491 492 3rmk-a1-m1-cD_3rmk-a1-m1-cA AMHPRKDWYELTRATNWTPSYVTEEQLFPERMSGHMGIPLEKWESYDEPYKTSYPEYVSIQREKDAGAYSVKAALERAKIYENSDPGWISTLKSHYGAIAVGEYAAVTGEGRMARFSKAPGNRNMATFGMMDELRHGQLQLFFPHEYCKKDRQFDWAWRAYHSNEWAAIAAKHFFDDIITGRDAISVAIMLTFSFETGFTNMQFLGLAADAAEAGDYTFANLISSIQTDESRHAQQGGPALQLLIENGKREEAQKKVDMAIWRAWRLFAVLTGPVMDYYTPLEDRSQSFKEFMYEWIIGQFERSLIDLGLDKPWYWDLFLKDIDELHHSYHMGVWYWRTTAWWNPAAGVTPEERDWLEEKYPGWNKRWGRCWDVITENVLNDRMDLVSPETLPSVCNMSQIPLVGVPGDDWNIEVFSLEHNGRLYHFGSEVDRWVFQQDPVQYQNHMNIVDRFLAGQIQPMTLEGALKYMGFQSIEEMGKDAHDFAWADKC AMHPRKDWYELTRATNWTPSYVTEEQLFPERMSGHMGIPLEKWESYDEPYKTSYPEYVSIQREKDAGAYSVKAALERAKIYENSDPGWISTLKSHYGAIAVGEYAAVTGEGRMARFSKAPGNRNMATFGMMDELRHGQLQLFFPHEYCKKDRQFDWAWRAYHSNEWAAIAAKHFFDDIITGRDAISVAIMLTFSFETGFTNMQFLGLAADAAEAGDYTFANLISSIQTDESRHAQQGGPALQLLIENGKREEAQKKVDMAIWRAWRLFAVLTGPVMDYYTPLEDRSQSFKEFMYEWIIGQFERSLIDLGLDKPWYWDLFLKDIDELHHSYHMGVWYWRTTAWWNPAAGVTPEERDWLEEKYPGWNKRWGRCWDVITENVLNDRMDLVSPETLPSVCNMSQIPLVGVPGDDWNIEVFSLEHNGRLYHFGSEVDRWVFQQDPVQYQNHMNIVDRFLAGQIQPMTLEGALKYMGFQSIEEMGKDAHDFAWADKCK 3dhi-a1-m1-cA_3dhi-a1-m2-cA Crystal Structure of Reduced Toluene 4-Monoxygenase Hydroxylase Complexed with Effector Protein Q00456 Q00456 1.68 X-RAY DIFFRACTION 27 1.0 300 (Pseudomonas mendocina) 300 (Pseudomonas mendocina) 498 498 3dhh-a1-m1-cA_3dhh-a1-m2-cA AMHPRKDWYELTRATNWTPSYVTEEQLFPERMSGHMGIPLEKWESYDEPYKTSYPEYVSIQREKDAGAYSVKAALERAKIYENSDPGWISTLKSHYGAIAVGEYAAVTGEGRMARFSKAPGNRNMATFGMMDELRHGQLQLFFPHEYCKKDRQFDWAWRAYHSNEWAAIAAKHFFDDIITGRDAISVAIMLTFSFETGFTNMQFLGLAADAAEAGDYTFANLISSIQTDESRHAQQGGPALQLLIENGKREEAQKKVDMAIWRAWRLFAVLTGPVMDYYTPLEDRSQSFKEFMYEWIIGQFERSLIDLGLDKPWYWDLFLKDIDELHHSYHMGVWYWRTTAWWNPAAGVTPEERDWLEEKYPGWNKRWGRCWDVITENVLNDRMDLVSPETLPSVCNMSQIPLVGVPGDDWNIEVFSLEHNGRLYHFGSEVDRWVFQQDPVQYQNHMNIVDRFLAGQIQPMTLEGALKYMGFQSIEEMGKDAHDFAWADKCKPAMKKS AMHPRKDWYELTRATNWTPSYVTEEQLFPERMSGHMGIPLEKWESYDEPYKTSYPEYVSIQREKDAGAYSVKAALERAKIYENSDPGWISTLKSHYGAIAVGEYAAVTGEGRMARFSKAPGNRNMATFGMMDELRHGQLQLFFPHEYCKKDRQFDWAWRAYHSNEWAAIAAKHFFDDIITGRDAISVAIMLTFSFETGFTNMQFLGLAADAAEAGDYTFANLISSIQTDESRHAQQGGPALQLLIENGKREEAQKKVDMAIWRAWRLFAVLTGPVMDYYTPLEDRSQSFKEFMYEWIIGQFERSLIDLGLDKPWYWDLFLKDIDELHHSYHMGVWYWRTTAWWNPAAGVTPEERDWLEEKYPGWNKRWGRCWDVITENVLNDRMDLVSPETLPSVCNMSQIPLVGVPGDDWNIEVFSLEHNGRLYHFGSEVDRWVFQQDPVQYQNHMNIVDRFLAGQIQPMTLEGALKYMGFQSIEEMGKDAHDFAWADKCKPAMKKS 3di4-a1-m1-cB_3di4-a1-m1-cA Crystal structure of a duf1989 family protein (spo0365) from silicibacter pomeroyi dss-3 at 1.60 A resolution Q5LXE3 Q5LXE3 1.6 X-RAY DIFFRACTION 246 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 268 275 APLDADARRAVKPVICYPNDSLPRPDLALYRAARASARKTGEVLVPPREGRCFEVKAGQFFRISSVEGPQVGDLNLHNLHDLTERFFSGKTRALHGTHVTTGERLWSNLPYLRPATIIEDTLGWYGIDQYGGSVHDVIGTRCDPYTGNLLAGGHYHHCCHSNLTRALADHTGLPLHEAELVHDVLNVFCTGFTRDTGQYFKASPVRPGDYLEFFAEIDLLGNLSACPGGDCSSEASCHPLLVEIFAPAEGLGDWPSPSVNGYDRSHGR GTDAPADAPLDADARRAVKPVICYPNDSLPRPDLALYRAARASARKTGEVLVPPREGRCFEVKAGQFFRISSVEGPQVGDLNLHNLHDLTERFFSGKTRALHGTHVTTGERLWSNLPYLRPATIIEDTLGWYGIDQYGGSVHDVIGTRCDPYTGNLLAGGHYHHCCHSNLTRALADHTGLPLHEAELVHDVLNVFCTGFTRDTGQYFKASPVRPGDYLEFFAEIDLLGNLSACPGGDCSSEASCHPLLVEIFAPAEGLGDWPSPSVNGYDRSHGR 3die-a1-m1-cA_3die-a1-m1-cB Domain swapping of Staphylococcus Aureus thioredoxin W28A mutant P0A0K6 P0A0K6 1.85 X-RAY DIFFRACTION 317 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 106 106 SHMAIVKVTDADFDSKVESGVQLVDFWATACGPCKMIAPVLEELAADYEGKADILKLDVDENPSTAAKYEVMSIPTLIVFKDGQPVDKVVGFQPKENLAEVLDKHL SHMAIVKVTDADFDSKVESGVQLVDFWATACGPCKMIAPVLEELAADYEGKADILKLDVDENPSTAAKYEVMSIPTLIVFKDGQPVDKVVGFQPKENLAEVLDKHL 3dih-a2-m1-cA_3dih-a2-m2-cA Crystal structure of ammodytin L P17935 P17935 2.6 X-RAY DIFFRACTION 52 1.0 8705 (Vipera ammodytes ammodytes) 8705 (Vipera ammodytes ammodytes) 122 122 SVIEFGKMIQEETDKNPLTSYSFYGCHCGLGNKGKPKDATDRCCFVHSCCYAKLSDCSPKTNRYEYHRENGAIVCGSSTPCKKQICECDRAAAICFRENLKTYNKKYKVYLRFKCKGVSEKC SVIEFGKMIQEETDKNPLTSYSFYGCHCGLGNKGKPKDATDRCCFVHSCCYAKLSDCSPKTNRYEYHRENGAIVCGSSTPCKKQICECDRAAAICFRENLKTYNKKYKVYLRFKCKGVSEKC 3dip-a1-m2-cB_3dip-a1-m4-cB Crystal structure of an enolase protein from the environmental genome shotgun sequencing of the Sargasso Sea 2.5 X-RAY DIFFRACTION 46 1.0 32644 (unidentified) 32644 (unidentified) 365 365 3dip-a1-m1-cA_3dip-a1-m3-cA 3dip-a1-m1-cA_3dip-a1-m4-cA 3dip-a1-m1-cB_3dip-a1-m3-cB 3dip-a1-m1-cB_3dip-a1-m4-cB 3dip-a1-m2-cA_3dip-a1-m3-cA 3dip-a1-m2-cA_3dip-a1-m4-cA 3dip-a1-m2-cB_3dip-a1-m3-cB LPRITALRTIRLPERPKLIWVEVETEDGLTGLGETFRGAQAVEAVLHEQTAPAIIGRAAENITSISSELLNPYVGFGSSSAEVRAASAVDIALWDLAGQRAGVPLHVALGGAARDRVPVYATFMRDAGVLAESLVAEGYAAMKIWPFDDFASITPHHISLTDLKDGLEPFRKIRAAVGQRIEIMCELHSLWGTHAAARICNALADYGVLWVEDPIAKMDNIPAVADLRRQTRAPICGGENLAGTRRFHEMLCADAIDFVMLDLTWCGGLSEGRKIAALAETHARPLAPHTGPVALMAGLHLALHAPTAIFQEVVRASWYADLVDHLPVIQEGIALAPTRPGLGTALLPHVRKIAGAVVRESGKPR LPRITALRTIRLPERPKLIWVEVETEDGLTGLGETFRGAQAVEAVLHEQTAPAIIGRAAENITSISSELLNPYVGFGSSSAEVRAASAVDIALWDLAGQRAGVPLHVALGGAARDRVPVYATFMRDAGVLAESLVAEGYAAMKIWPFDDFASITPHHISLTDLKDGLEPFRKIRAAVGQRIEIMCELHSLWGTHAAARICNALADYGVLWVEDPIAKMDNIPAVADLRRQTRAPICGGENLAGTRRFHEMLCADAIDFVMLDLTWCGGLSEGRKIAALAETHARPLAPHTGPVALMAGLHLALHAPTAIFQEVVRASWYADLVDHLPVIQEGIALAPTRPGLGTALLPHVRKIAGAVVRESGKPR 3dip-a1-m4-cB_3dip-a1-m1-cA Crystal structure of an enolase protein from the environmental genome shotgun sequencing of the Sargasso Sea 2.5 X-RAY DIFFRACTION 81 0.992 32644 (unidentified) 32644 (unidentified) 365 371 3dip-a1-m1-cB_3dip-a1-m3-cA 3dip-a1-m2-cB_3dip-a1-m4-cA 3dip-a1-m3-cB_3dip-a1-m2-cA LPRITALRTIRLPERPKLIWVEVETEDGLTGLGETFRGAQAVEAVLHEQTAPAIIGRAAENITSISSELLNPYVGFGSSSAEVRAASAVDIALWDLAGQRAGVPLHVALGGAARDRVPVYATFMRDAGVLAESLVAEGYAAMKIWPFDDFASITPHHISLTDLKDGLEPFRKIRAAVGQRIEIMCELHSLWGTHAAARICNALADYGVLWVEDPIAKMDNIPAVADLRRQTRAPICGGENLAGTRRFHEMLCADAIDFVMLDLTWCGGLSEGRKIAALAETHARPLAPHTGPVALMAGLHLALHAPTAIFQEVVRASWYADLVDHLPVIQEGIALAPTRPGLGTALLPHVRKIAGAVVRESGKPR LPRITALRTIRLPERPKLIWVEVETEDGLTGLGETFRGAQAVEAVLHEQTAPAIIGRAAENITSISSELLNPYVGFGSSSAEVRAASAVDIALWDLAGQRAGVPLHVALGGAARDRVPVYATCAGYDFDAGVLAESLVAEGYAAMKIWPFDDFASITPHHISLTDLKDGLEPFRKIRAAVGQRIEIMCELHSLWGTHAAARICNALADYGVLWVEDPIAKMDNIPAVADLRRQTRAPICGGENLAGTRRFHEMLCADAIDFVMLDLTWCGGLSEGRKIAALAETHARPLAPHTGPVALMAGLHLALHAPTAIFQEVVRASLATWYADLVDHLPVIQEGIALAPTRPGLGTALLPHVRKIAGAVVRESGKPR 3dip-a1-m4-cB_3dip-a1-m4-cA Crystal structure of an enolase protein from the environmental genome shotgun sequencing of the Sargasso Sea 2.5 X-RAY DIFFRACTION 109 0.992 32644 (unidentified) 32644 (unidentified) 365 371 3dip-a1-m1-cB_3dip-a1-m1-cA 3dip-a1-m2-cB_3dip-a1-m2-cA 3dip-a1-m3-cB_3dip-a1-m3-cA LPRITALRTIRLPERPKLIWVEVETEDGLTGLGETFRGAQAVEAVLHEQTAPAIIGRAAENITSISSELLNPYVGFGSSSAEVRAASAVDIALWDLAGQRAGVPLHVALGGAARDRVPVYATFMRDAGVLAESLVAEGYAAMKIWPFDDFASITPHHISLTDLKDGLEPFRKIRAAVGQRIEIMCELHSLWGTHAAARICNALADYGVLWVEDPIAKMDNIPAVADLRRQTRAPICGGENLAGTRRFHEMLCADAIDFVMLDLTWCGGLSEGRKIAALAETHARPLAPHTGPVALMAGLHLALHAPTAIFQEVVRASWYADLVDHLPVIQEGIALAPTRPGLGTALLPHVRKIAGAVVRESGKPR LPRITALRTIRLPERPKLIWVEVETEDGLTGLGETFRGAQAVEAVLHEQTAPAIIGRAAENITSISSELLNPYVGFGSSSAEVRAASAVDIALWDLAGQRAGVPLHVALGGAARDRVPVYATCAGYDFDAGVLAESLVAEGYAAMKIWPFDDFASITPHHISLTDLKDGLEPFRKIRAAVGQRIEIMCELHSLWGTHAAARICNALADYGVLWVEDPIAKMDNIPAVADLRRQTRAPICGGENLAGTRRFHEMLCADAIDFVMLDLTWCGGLSEGRKIAALAETHARPLAPHTGPVALMAGLHLALHAPTAIFQEVVRASLATWYADLVDHLPVIQEGIALAPTRPGLGTALLPHVRKIAGAVVRESGKPR 3dj1-a3-m5-cB_3dj1-a3-m6-cB crystal structure of TIP-1 wild type Q9DBG9 Q9DBG9 1.8 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 110 110 3dj1-a3-m1-cA_3dj1-a3-m2-cA 3dj1-a3-m1-cA_3dj1-a3-m3-cA 3dj1-a3-m2-cA_3dj1-a3-m3-cA 3dj1-a3-m4-cB_3dj1-a3-m5-cB 3dj1-a3-m4-cB_3dj1-a3-m6-cB TAVVQRVEIHKLRQGENLILGFSIGGGIDQDPSQNPFSDKGIYVTRVSEGGPAEIAGLQIGDKIMQVNGWDMTMVTHDQARKRLTKRSEEVVRLLVTRQSLQKAVQQSML TAVVQRVEIHKLRQGENLILGFSIGGGIDQDPSQNPFSDKGIYVTRVSEGGPAEIAGLQIGDKIMQVNGWDMTMVTHDQARKRLTKRSEEVVRLLVTRQSLQKAVQQSML 3dj1-a3-m6-cB_3dj1-a3-m1-cA crystal structure of TIP-1 wild type Q9DBG9 Q9DBG9 1.8 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 110 115 3dj1-a3-m4-cB_3dj1-a3-m2-cA 3dj1-a3-m5-cB_3dj1-a3-m3-cA TAVVQRVEIHKLRQGENLILGFSIGGGIDQDPSQNPFSDKGIYVTRVSEGGPAEIAGLQIGDKIMQVNGWDMTMVTHDQARKRLTKRSEEVVRLLVTRQSLQKAVQQSML VTAVVQRVEIHKLRQGENLILGFSIGGGIDQDPSQNPFSEDKTDKGIYVTRVSEGGPAEIAGLQIGDKIMQVNGWDMTMVTHDQARKRLTKRSEEVVRLLVTRQSLQKAVQQSML 3djb-a1-m1-cA_3djb-a1-m1-cB Crystal structure of a HD-superfamily hydrolase (BT9727_1981) from Bacillus thuringiensis, Northeast Structural Genomics Consortium Target BuR114 Q6HJG6 Q6HJG6 2.9 X-RAY DIFFRACTION 85 1.0 180856 ([Bacillus thuringiensis] serovar konkukian) 180856 ([Bacillus thuringiensis] serovar konkukian) 180 180 TKQEKIEKTITFVKHILEKDASGHDWYHIRRVHKAISLSEQEGGNRFIIEAALLHDVADLNESEEAGKKVSDWLEELHVEEEESKHVLHIIANSIEGKLVQDADRLDALGAIGIARTFAYGGAKGRLYDPTIPPRDPSLNHFYEKLLKLKDLNTNAAKQEAEVRHRYEQFIEQFKEWNAQ TKQEKIEKTITFVKHILEKDASGHDWYHIRRVHKAISLSEQEGGNRFIIEAALLHDVADLNESEEAGKKVSDWLEELHVEEEESKHVLHIIANSIEGKLVQDADRLDALGAIGIARTFAYGGAKGRLYDPTIPPRDPSLNHFYEKLLKLKDLNTNAAKQEAEVRHRYEQFIEQFKEWNAQ 3djc-a1-m1-cJ_3djc-a1-m1-cI CRYSTAL STRUCTURE OF PANTOTHENATE KINASE FROM LEGIONELLA PNEUMOPHILA Q5ZX22 Q5ZX22 2.4 X-RAY DIFFRACTION 186 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 250 255 3djc-a1-m1-cH_3djc-a1-m1-cG 3djc-a1-m1-cK_3djc-a1-m1-cL 3djc-a2-m1-cA_3djc-a2-m1-cB 3djc-a2-m1-cD_3djc-a2-m1-cC 3djc-a2-m1-cF_3djc-a2-m1-cE LILCIDVGNSHIYGGVFDGDEIKLRFRHTSKVSTSDELGIFLKSVLRENNCSPETIRKIAICSVVPQVDYSLRSACVKYFSIDPFLLQAGVKTGLNIKYRNPVEVGADRIANAIAATHSFPNQNIIVIDFGTATTFCAISHKKAYLGGAILPGLRLSADALSKNTVEIIKTESVVGRSTIESIQSGVYYGVLGACKELIQRIHHEAFNGDQILILATGGFASLFDKQGLYDHLVPDLVLQGIRLAAMMNT LILCIDVGNSHIYGGVFDGDEIKLRFRHTSKVSTSDELGIFLKSVLRENNCSPETIRKIAICSVVPQVDYSLRSACVKYFSIDPFLLQAGVKTGLNIKYRNPVEVGADRIANAIAATHSFPNQNIIVIDFGTATTFCAISHKKAYLGGAILPGLRLSADALSKNTAKLPSVEIIKTESVVGRSTIESIQSGVYYGVLGACKELIQRIHHEAFNGDQILILATGGFASLFDKQGLYDHLVPDLVLQGIRLAAMMNT 3djc-a2-m1-cB_3djc-a2-m1-cC CRYSTAL STRUCTURE OF PANTOTHENATE KINASE FROM LEGIONELLA PNEUMOPHILA Q5ZX22 Q5ZX22 2.4 X-RAY DIFFRACTION 26 0.996 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 256 256 3djc-a1-m1-cH_3djc-a1-m1-cI 3djc-a1-m1-cJ_3djc-a1-m1-cG 3djc-a1-m1-cJ_3djc-a1-m1-cK 3djc-a1-m1-cK_3djc-a1-m1-cG 3djc-a1-m1-cL_3djc-a1-m1-cH 3djc-a1-m1-cL_3djc-a1-m1-cI 3djc-a2-m1-cD_3djc-a2-m1-cA 3djc-a2-m1-cE_3djc-a2-m1-cA 3djc-a2-m1-cE_3djc-a2-m1-cD 3djc-a2-m1-cF_3djc-a2-m1-cB 3djc-a2-m1-cF_3djc-a2-m1-cC SLILCIDVGNSHIYGGVFDGDEIKLRFRHTSKVSTSDELGIFLKSVLRENNCSPETIRKIAICSVVPQVDYSLRSACVKYFSIDPFLLQAGVKTGLNIKYRNPVEVGADRIANAIAATHSFPNQNIIVIDFGTATTFCAISHKKAYLGGAILPGLRLSADALSKNTAKLPSVEIIKTESVVGRSTIESIQSGVYYGVLGACKELIQRIHHEAFNGDQILILATGGFASLFDKQGLYDHLVPDLVLQGIRLAAMMNT LILCIDVGNSHIYGGVFDGDEIKLRFRHTSKVSTSDELGIFLKSVLRENNCSPETIRKIAICSVVPQVDYSLRSACVKYFSIDPFLLQAGVKTGLNIKYRNPVEVGADRIANAIAATHSFPNQNIIVIDFGTATTFCAISHKKAYLGGAILPGLRLSADALSKNTAKLPSVEIIKTESVVGRSTIESIQSGVYYGVLGACKELIQRIHHEAFNGDQILILATGGFASLFDKQGLYDHLVPDLVLQGIRLAAMMNTA 3djl-a1-m1-cA_3djl-a1-m4-cA Crystal structure of alkylation response protein E. coli AidB P33224 P33224 1.7 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 538 538 3djl-a1-m2-cA_3djl-a1-m3-cA 3u33-a1-m1-cB_3u33-a1-m1-cC 3u33-a1-m1-cD_3u33-a1-m1-cA 3u33-a2-m1-cE_3u33-a2-m1-cH 3u33-a2-m1-cF_3u33-a2-m1-cG 3u33-a3-m1-cI_3u33-a3-m1-cL 3u33-a3-m1-cJ_3u33-a3-m1-cK WQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVC WQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVC 3djl-a1-m2-cA_3djl-a1-m4-cA Crystal structure of alkylation response protein E. coli AidB P33224 P33224 1.7 X-RAY DIFFRACTION 40 1.0 562 (Escherichia coli) 562 (Escherichia coli) 538 538 3djl-a1-m1-cA_3djl-a1-m3-cA 3u33-a1-m1-cB_3u33-a1-m1-cD 3u33-a1-m1-cC_3u33-a1-m1-cA 3u33-a2-m1-cE_3u33-a2-m1-cG 3u33-a2-m1-cF_3u33-a2-m1-cH 3u33-a3-m1-cI_3u33-a3-m1-cK 3u33-a3-m1-cL_3u33-a3-m1-cJ WQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVC WQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVC 3djl-a1-m3-cA_3djl-a1-m4-cA Crystal structure of alkylation response protein E. coli AidB P33224 P33224 1.7 X-RAY DIFFRACTION 194 1.0 562 (Escherichia coli) 562 (Escherichia coli) 538 538 3djl-a1-m1-cA_3djl-a1-m2-cA 3u33-a1-m1-cB_3u33-a1-m1-cA 3u33-a1-m1-cC_3u33-a1-m1-cD 3u33-a2-m1-cE_3u33-a2-m1-cF 3u33-a2-m1-cG_3u33-a2-m1-cH 3u33-a3-m1-cI_3u33-a3-m1-cJ 3u33-a3-m1-cL_3u33-a3-m1-cK WQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVC WQTHTVFNQPIPLNNSNLYLSDGALCEAVTREGAGWDSDFLASIGQQLGTAESLELGRLANVNPPELLRYDAQGRRLDDVRFHPAWHLLMQALCTNRVHNLAWEEDARSGAFVARAARFMLHAQVEAGSLCPITMTFAATPLLLQMLPAPFQDWTTPLLSDRYDSHLLPGGQKRGLLIGMGMTEKQGGSDVMSNTTRAERLEDGSYRLVGHKWFFSVPQSDAHLVLAQTAGGLSCFFVPRFLPDGQRNAIRLERLKDKLGNRSNASCEVEFQDAIGWLLGLEGEGIRLILKMGGMTRFDCALGSHAMMRRAFSLAIYHAHQRHVFGNPLIQQPLMRHVLSRMALQLEGQTALLFRLARAWDRRADAKEALWARLFTPAAKFVICKRGMPFVAEAMEVLGGIGYCEESELPRLYREMPVNSIWEGSGNIMCLDVLRVLNKQAGVYDLLSEAFVEVKGQDRYFDRAVRRLQQQLRKPAEELGREITHQLFLLGCGAQMLKYASPPMAQAWCQVMLDTRGGVRLSEQIQNDLLLRATGGVC 3dkh-a2-m1-cA_3dkh-a2-m2-cB L559A mutant of Melanocarpus albomyces laccase Q70KY3 Q70KY3 2.4 X-RAY DIFFRACTION 38 1.0 204285 (Melanocarpus albomyces) 204285 (Melanocarpus albomyces) 558 558 PTCNTPSNRACWSDGFDINTDYEVSTPDTGVTQSYVFNLTEVDNWMGPDGVVKEKVMLINGNIMGPNIVANWGDTVEVTVINNLVTNGTSIHWHGIHQKDTNLHDGANGVTECPIPPKGGQRTYRWRARQYGTSWYHSHFSAQYGNGVVGTIQINGPASLPYDIDLGVFPITDYYYRAADDLVHFTQNNAPPFSDNVLINGTAVNPNTGEGQYANVTLTPGKRHRLRILNTSTENHFQVSLVNHTMTVIAADMVPVNAMTVDSLFLAVGQRYDVVIDASRAPDNYWFNVTFGGQAACGGSLNPHPAAIFHYAGAPGGLPTDEGTPPVDHQCLDTLDVRPVVPRSVPVNSFVKRPDNTLPVALDLTGTPLFVWKVNGSDINVDWGKPIIDYILTGNTSYPVSDNIVQVDAVDQWTYWLIENDPEGPFSLPHPMHLHGHDFLVLGRSPDVPAASQQRFVFDPAVDLARLNGDNPPRRDTTMLPAGGWLLLAFRTDNPGAWLFHCHIAWHVSGGLSVDFLERPADLRQRISQEDEDDFNRVCDEWRAYWPTNPYPKIDSGA PTCNTPSNRACWSDGFDINTDYEVSTPDTGVTQSYVFNLTEVDNWMGPDGVVKEKVMLINGNIMGPNIVANWGDTVEVTVINNLVTNGTSIHWHGIHQKDTNLHDGANGVTECPIPPKGGQRTYRWRARQYGTSWYHSHFSAQYGNGVVGTIQINGPASLPYDIDLGVFPITDYYYRAADDLVHFTQNNAPPFSDNVLINGTAVNPNTGEGQYANVTLTPGKRHRLRILNTSTENHFQVSLVNHTMTVIAADMVPVNAMTVDSLFLAVGQRYDVVIDASRAPDNYWFNVTFGGQAACGGSLNPHPAAIFHYAGAPGGLPTDEGTPPVDHQCLDTLDVRPVVPRSVPVNSFVKRPDNTLPVALDLTGTPLFVWKVNGSDINVDWGKPIIDYILTGNTSYPVSDNIVQVDAVDQWTYWLIENDPEGPFSLPHPMHLHGHDFLVLGRSPDVPAASQQRFVFDPAVDLARLNGDNPPRRDTTMLPAGGWLLLAFRTDNPGAWLFHCHIAWHVSGGLSVDFLERPADLRQRISQEDEDDFNRVCDEWRAYWPTNPYPKIDSGA 3dkq-a1-m1-cB_3dkq-a1-m2-cB Crystal structure of Putative Oxygenase (YP_001051978.1) from SHEWANELLA BALTICA OS155 at 2.26 A resolution A3D8P6 A3D8P6 2.26 X-RAY DIFFRACTION 10 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 203 203 NLYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL NLYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL 3dkq-a1-m2-cB_3dkq-a1-m2-cA Crystal structure of Putative Oxygenase (YP_001051978.1) from SHEWANELLA BALTICA OS155 at 2.26 A resolution A3D8P6 A3D8P6 2.26 X-RAY DIFFRACTION 48 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 203 224 3dkq-a1-m1-cB_3dkq-a1-m1-cA 3dkq-a1-m1-cC_3dkq-a1-m2-cC NLYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL NLYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGNQTSGAATTRKRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDNAIRSTPDGIRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL 3dkq-a1-m2-cB_3dkq-a1-m2-cC Crystal structure of Putative Oxygenase (YP_001051978.1) from SHEWANELLA BALTICA OS155 at 2.26 A resolution A3D8P6 A3D8P6 2.26 X-RAY DIFFRACTION 33 0.995 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 203 216 3dkq-a1-m1-cB_3dkq-a1-m1-cC 3dkq-a1-m1-cC_3dkq-a1-m2-cA 3dkq-a1-m2-cC_3dkq-a1-m1-cA NLYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL LYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGNQRKRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDNAIRSTPDGIRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL 3dkq-a1-m2-cC_3dkq-a1-m2-cA Crystal structure of Putative Oxygenase (YP_001051978.1) from SHEWANELLA BALTICA OS155 at 2.26 A resolution A3D8P6 A3D8P6 2.26 X-RAY DIFFRACTION 26 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 216 224 3dkq-a1-m1-cC_3dkq-a1-m1-cA LYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGNQRKRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDNAIRSTPDGIRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL NLYFQGLIEIPNVFSKQEVSHLREQLDARRWIDGNQTSGAATTRKRNQQLDKDDPVAVALGQQIDRLLAHPQFVSAALPLQFYPPLFNRYQGGETFGYHIDNAIRSTPDGIRTDLSATLFLSEPENYQGGELVIQDTYGQQSIKLSAGSLVLYPSSSLHQVTPVLSGERTAAFWLQSVRDEGQRRLLFQLDQSIQSLTAQTAAEQELFNLSGVYHNLLRRWSEL 3dkw-a2-m1-cC_3dkw-a2-m1-cD Crystal Structure of DNR from Pseudomonas aeruginosa. Q51441 Q51441 3.6 X-RAY DIFFRACTION 114 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 227 227 3dkw-a1-m1-cA_3dkw-a1-m1-cB 3dkw-a3-m1-cE_3dkw-a3-m1-cF 3dkw-a4-m1-cG_3dkw-a4-m1-cH 3dkw-a5-m1-cI_3dkw-a5-m1-cJ MEFQRVHQQLLQSHHLFEPLSPVQLQELLASSDLVNLDKGAYVFRQGEPAHAFYYLISGCVKIYRLTPEGQEKILEVTNERNTFAEAMMFMDTPNYVATAQAVVPSQLFRFSNKAYLRQLQDNTPLALALLAKLSTRLHQRIDEIETLSLKNATHRVVRYLLTLAAHAPGENCRVEIPVAKQLVAGHLSIQPETFSRIMHRLGDEGIIHLDGREISILDRERLECFE MEFQRVHQQLLQSHHLFEPLSPVQLQELLASSDLVNLDKGAYVFRQGEPAHAFYYLISGCVKIYRLTPEGQEKILEVTNERNTFAEAMMFMDTPNYVATAQAVVPSQLFRFSNKAYLRQLQDNTPLALALLAKLSTRLHQRIDEIETLSLKNATHRVVRYLLTLAAHAPGENCRVEIPVAKQLVAGHLSIQPETFSRIMHRLGDEGIIHLDGREISILDRERLECFE 3dkx-a1-m2-cC_3dkx-a1-m1-cA Crystal Structure of the replication initiator protein encoded on plasmid pMV158 (RepB), trigonal form, to 2.7 Ang resolution P13921 P13921 2.7 X-RAY DIFFRACTION 41 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 201 202 3dkx-a1-m1-cC_3dkx-a1-m2-cA 3dky-a1-m1-cB_3dky-a1-m1-cC 3dky-a1-m1-cE_3dky-a1-m1-cD 3dky-a1-m1-cF_3dky-a1-m1-cA 4u87-a1-m1-cA_4u87-a1-m2-cC 4u87-a1-m2-cA_4u87-a1-m1-cC KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKRG 3dkx-a1-m2-cC_3dkx-a1-m2-cB Crystal Structure of the replication initiator protein encoded on plasmid pMV158 (RepB), trigonal form, to 2.7 Ang resolution P13921 P13921 2.7 X-RAY DIFFRACTION 73 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 201 202 3dkx-a1-m1-cA_3dkx-a1-m1-cB 3dkx-a1-m1-cC_3dkx-a1-m1-cB 3dkx-a1-m2-cA_3dkx-a1-m2-cB 3dky-a1-m1-cA_3dky-a1-m1-cB 3dky-a1-m1-cD_3dky-a1-m1-cC 3dky-a1-m1-cE_3dky-a1-m1-cF 4u87-a1-m1-cA_4u87-a1-m1-cB 4u87-a1-m1-cB_4u87-a1-m1-cC 4u87-a1-m2-cA_4u87-a1-m2-cB 4u87-a1-m2-cB_4u87-a1-m2-cC 8amv-a1-m1-cA_8amv-a1-m1-cF KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKRG 3dkz-a1-m1-cB_3dkz-a1-m2-cB Crystal structure of the Q7W9W5_BORPA protein from Bordetella parapertussis. Northeast Structural Genomics Consortium target BpR208C. Q7W9W5 Q7W9W5 2.4 X-RAY DIFFRACTION 84 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 120 120 3dkz-a1-m1-cA_3dkz-a1-m2-cA TDFFGLTIPFQLLGVVPEHSGNGTARTRLPARADLVNSRGDIHGGTLSVLDFTLGAAIRGDTPEVGVATIDNTSFSPGRGDLVIETRCLRRGASIAFCEGEIRDSAGELVAKATATFKII TDFFGLTIPFQLLGVVPEHSGNGTARTRLPARADLVNSRGDIHGGTLSVLDFTLGAAIRGDTPEVGVATIDNTSFSPGRGDLVIETRCLRRGASIAFCEGEIRDSAGELVAKATATFKII 3dkz-a1-m2-cB_3dkz-a1-m1-cA Crystal structure of the Q7W9W5_BORPA protein from Bordetella parapertussis. Northeast Structural Genomics Consortium target BpR208C. Q7W9W5 Q7W9W5 2.4 X-RAY DIFFRACTION 26 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 120 121 3dkz-a1-m1-cB_3dkz-a1-m2-cA TDFFGLTIPFQLLGVVPEHSGNGTARTRLPARADLVNSRGDIHGGTLSVLDFTLGAAIRGDTPEVGVATIDNTSFSPGRGDLVIETRCLRRGASIAFCEGEIRDSAGELVAKATATFKII TDFFGLTIPFQLLGVVPEHSGNGTARTRLPARADLVNSRGDIHGGTLSVLDFTLGAAIRGDTPEVGVATIDNTSFSPGRGDLVIETRCLRRGASIAFCEGEIRDSAGELVAKATATFKIIQ 3dkz-a1-m2-cB_3dkz-a1-m2-cA Crystal structure of the Q7W9W5_BORPA protein from Bordetella parapertussis. Northeast Structural Genomics Consortium target BpR208C. Q7W9W5 Q7W9W5 2.4 X-RAY DIFFRACTION 17 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 120 121 3dkz-a1-m1-cB_3dkz-a1-m1-cA TDFFGLTIPFQLLGVVPEHSGNGTARTRLPARADLVNSRGDIHGGTLSVLDFTLGAAIRGDTPEVGVATIDNTSFSPGRGDLVIETRCLRRGASIAFCEGEIRDSAGELVAKATATFKII TDFFGLTIPFQLLGVVPEHSGNGTARTRLPARADLVNSRGDIHGGTLSVLDFTLGAAIRGDTPEVGVATIDNTSFSPGRGDLVIETRCLRRGASIAFCEGEIRDSAGELVAKATATFKIIQ 3dl3-a3-m1-cB_3dl3-a3-m1-cE Crystal structure of the tellurite resistance protein TehB. Northeast Structural Genomics Consortium target VfR98 . Q5E3X2 Q5E3X2 2.3 X-RAY DIFFRACTION 47 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 95 108 3dl3-a1-m1-cD_3dl3-a1-m2-cF 3dl3-a2-m3-cH_3dl3-a2-m1-cA 3dl3-a4-m1-cG_3dl3-a4-m1-cI LRIPKNWTIQRSTPFFTKDNVPEALLTHHNTAVDVFGQICVEGVVTYYGFANSEATEPEIKVVINAGQFATSPPQYWHRIELSDDAQFNINFWSD SHLRIPKNWTIQRSTPFFTKDNVPEALLTHHNTAVDVFGQICVEGVVTYYGFANSEATEPEIKVVINAGQFATSPPQYWHRIELSDDAQFNINFWSDQDKSGKKFNTK 3dli-a1-m1-cB_3dli-a1-m1-cC Crystal structure of a SAM dependent methyltransferase from Archaeoglobus fulgidus O30190 O30190 2.46 X-RAY DIFFRACTION 60 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 221 221 3dli-a1-m1-cA_3dli-a1-m1-cB 3dli-a1-m1-cA_3dli-a1-m1-cC DYYFLFEEKFRGSRELVKARLRRYIPYFKGCRRVLDIGCGRGEFLELCKEEGIESIGVDINEDMIKFCEGKFNVVKSDAIEYLKSLPDKYLDGVMISHFVEHLDPERLFELLSLCYSKMKYSSYIVIESPNPTSLYSLINFYIDPTHKKPVHPETLKFILEYLGFRDVKIEFFEECEELTKLAKIDSNTVSEEVIRVINENIEKLNRILFGPQDYAIIAKK DYYFLFEEKFRGSRELVKARLRRYIPYFKGCRRVLDIGCGRGEFLELCKEEGIESIGVDINEDMIKFCEGKFNVVKSDAIEYLKSLPDKYLDGVMISHFVEHLDPERLFELLSLCYSKMKYSSYIVIESPNPTSLYSLINFYIDPTHKKPVHPETLKFILEYLGFRDVKIEFFEECEELTKLAKIDSNTVSEEVIRVINENIEKLNRILFGPQDYAIIAKK 3dlj-a3-m1-cB_3dlj-a3-m1-cA Crystal structure of human carnosine dipeptidase 1 Q96KN2 Q96KN2 2.26 X-RAY DIFFRACTION 304 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 467 471 LLEKVFQYIDLHQDEFVQTLKEWVAIESDSVQPVPRFRQELFRMMAVAADTLQRLGARVASVDMGPQQLQSLPIPPVILAELGSDPTKGTVCFYGHLDVQPADRGDGWLTDPYVLTEVDGKLYGRGATDNKGPVLAWINAVSAFRALEQDLPVNIKFIIEGMEEAGSVALEELVEKEKDRFFSGVDYIVISDNLWISKPAITYGTRGNSYFMVEVKCRDQDFHSGTFGGILHEPMADLVALLGSLVDSSGHILVPGIYDEVVPLTEEEINTYKAIHLDLEEYRNSSRVEKFLFDTKEEILMHLWRYPSLSIHGIEGAFDEPGTKTVIPGRVIGKFSIRLVPHMNVSAVEKQVTRHLEDVFSKRNSSNKMVVSMTLGLHPWIANIDDTQYLAAKRAIRTVFTEPDMIRDGSTIPIAKMFQEIVHKSVVLIPLGAVDDGEHSQNEKINRWNYIEGTKLFAAFFLEMAQL PPPALLEKVFQYIDLHQDEFVQTLKEWVAIESDSVQPVPRFRQELFRMMAVAADTLQRLGARVASVDMGPQQLGQSLPIPPVILAELGSDPTKGTVCFYGHLDVQPADRGDGWLTDPYVLTEVDGKLYGRGATDNKGPVLAWINAVSAFRALEQDLPVNIKFIIEGMEEAGSVALEELVEKEKDRFFSGVDYIVISDNLWISKPAITYGTRGNSYFMVEVKCRDQDFHSGTFGGILHEPMADLVALLGSLVDSSGHILVPGIYDEVVPLTEEEINTYKAIHLDLEEYRNSSRVEKFLFDTKEEILMHLWRYPSLSIHGIEGAFDEPGTKTVIPGRVIGKFSIRLVPHMNVSAVEKQVTRHLEDVFSKRNSSNKMVVSMTLGLHPWIANIDDTQYLAAKRAIRTVFGTEPDMIRDGSTIPIAKMFQEIVHVVLIPLGAVDDGEHSQNEKINRWNYIEGTKLFAAFFLEMAQL 3dlr-a1-m1-cA_3dlr-a1-m2-cA Crystal structure of the catalytic core domain from PFV integrase P14350 P14350 2.2 X-RAY DIFFRACTION 41 1.0 11963 (Human spumaretrovirus) 11963 (Human spumaretrovirus) 154 154 QKPFDKFFIDYIGPLPPSQGYLYVLVVVDGTGFTWLYPTKAPSTSATVKSLNVLTSIAIPKVIHSDQGAAFTSSTFAEWAKERGIHLEFSVERKNSDIKRLLTKLLVGRPTKWYDLLPVVQLALNNTYSPVLKYTPHQLLFGSLLQEIRTSLYH QKPFDKFFIDYIGPLPPSQGYLYVLVVVDGTGFTWLYPTKAPSTSATVKSLNVLTSIAIPKVIHSDQGAAFTSSTFAEWAKERGIHLEFSVERKNSDIKRLLTKLLVGRPTKWYDLLPVVQLALNNTYSPVLKYTPHQLLFGSLLQEIRTSLYH 3dls-a8-m3-cF_3dls-a8-m2-cE Crystal structure of human PAS kinase bound to ADP Q96RG2 Q96RG2 2.3 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 282 3dls-a7-m1-cB_3dls-a7-m1-cA 3dls-a7-m1-cB_3dls-a7-m1-cC 3dls-a7-m1-cC_3dls-a7-m1-cA 3dls-a8-m2-cE_3dls-a8-m1-cD 3dls-a8-m3-cF_3dls-a8-m1-cD AVELEGLAACEGEYSQKYSTMSPLGSGAFGFVWTAVDKEKNKEVVVKFIKKEKVWIEDPKLGKVTLEIAILSRVEHANIIKVLDIFENQGFFQLVMEKHGSGLDLFAFIDRHPRLDEPLASYIFRQLVSAVGYLRLKDIIHRDIKDENIVIAEDFTIKLIDFGSAAYLERGKLFYTFCGTIEYCAPEVLMGNPYRGPELEMWSLGVTLYTLVFEENPFCELEETVEAAIHPPYLVSKELMSLVSGLLQPVPERRTTLEKLVTDPWVTQPVNLADYTWEEVF AVELEGLAACEGEYSQKYSTMSPLGSGAFGFVWTAVDKEKNKEVVVKFIKKEKVWIEDPKLGKVTLEIAILSRVEHANIIKVLDIFENQGFFQLVMEKHGSGLDLFAFIDRHPRLDEPLASYIFRQLVSAVGYLRLKDIIHRDIKDENIVIAEDFTIKLIDFGSAAYLERGKLFYTFCGTIEYCAPEVLMGNPYRGPELEMWSLGVTLYTLVFEENPFCELEETVEAAIHPPYLVSKELMSLVSGLLQPVPERRTTLEKLVTDPWVTQPVNLADYTWEEVFR 3dlu-a1-m1-cD_3dlu-a1-m1-cA Structures of SRP54 and SRP19, the two proteins assembling the ribonucleic core of the Signal Recognition Particle from the archaeon Pyrococcus furiosus. Q8TZT9 Q8TZT9 1.8 X-RAY DIFFRACTION 32 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 87 95 3dlu-a1-m1-cC_3dlu-a1-m1-cB GRFVVWPSELDSRLSRKYGRIVPRSIAVESPRVEEIVRAAEELKFKVIRVEEDKLLRTFGMIVLESPYGKSKSLKLIAQKIREFRRR GRFVVWPSELDSRLSRKYGRIVPRSIAVESPRVEEIVRAAEELKFKVIRVEEDKLNPELRTFGMIVLESPYGKSKSLKLIAQKIREFRRRSAGTL 3dlu-a1-m1-cD_3dlu-a1-m1-cC Structures of SRP54 and SRP19, the two proteins assembling the ribonucleic core of the Signal Recognition Particle from the archaeon Pyrococcus furiosus. Q8TZT9 Q8TZT9 1.8 X-RAY DIFFRACTION 43 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 87 88 3dlu-a1-m1-cB_3dlu-a1-m1-cA GRFVVWPSELDSRLSRKYGRIVPRSIAVESPRVEEIVRAAEELKFKVIRVEEDKLLRTFGMIVLESPYGKSKSLKLIAQKIREFRRR GRFVVWPSELDSRLSRKYGRIVPRSIAVESPRVEEIVRAAEELKFKVIRVEEDKLNLRTFGMIVLESPYGKSKSLKLIAQKIREFRRR 3dm1-a5-m1-cA_3dm1-a5-m1-cG Crystal structure of the complex of human chromobox homolog 3 (CBX3) with peptide Q13185 Q13185 2.4 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 53 EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQ EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQK 3dm1-a5-m1-cC_3dm1-a5-m1-cE Crystal structure of the complex of human chromobox homolog 3 (CBX3) with peptide Q13185 Q13185 2.4 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 53 EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQ EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQK 3dm1-a5-m1-cC_3dm1-a5-m1-cG Crystal structure of the complex of human chromobox homolog 3 (CBX3) with peptide Q13185 Q13185 2.4 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 53 3dm1-a5-m1-cA_3dm1-a5-m1-cE EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQ EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQK 3dm1-a5-m1-cE_3dm1-a5-m1-cG Crystal structure of the complex of human chromobox homolog 3 (CBX3) with peptide Q13185 Q13185 2.4 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 3dm1-a5-m1-cA_3dm1-a5-m1-cC EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQK EFVVEKVLDRRVVNGKVEYFLKWKGFTDADNTWEPEENLDCPELIEAFLNSQK 3dm3-a1-m1-cA_3dm3-a1-m2-cA Crystal structure of a domain of a Replication factor A protein, from Methanocaldococcus jannaschii. NorthEast Structural Genomics target MjR118E Q58559 Q58559 2.4 X-RAY DIFFRACTION 31 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 98 98 DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE 3dm3-a1-m1-cA_3dm3-a1-m2-cB Crystal structure of a domain of a Replication factor A protein, from Methanocaldococcus jannaschii. NorthEast Structural Genomics target MjR118E Q58559 Q58559 2.4 X-RAY DIFFRACTION 56 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 98 98 3dm3-a1-m1-cB_3dm3-a1-m2-cA DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE 3dm3-a2-m1-cA_3dm3-a2-m1-cB Crystal structure of a domain of a Replication factor A protein, from Methanocaldococcus jannaschii. NorthEast Structural Genomics target MjR118E Q58559 Q58559 2.4 X-RAY DIFFRACTION 20 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 98 98 3dm3-a1-m1-cA_3dm3-a1-m1-cB 3dm3-a1-m2-cA_3dm3-a1-m2-cB DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE 3dm3-a2-m1-cA_3dm3-a2-m1-cC Crystal structure of a domain of a Replication factor A protein, from Methanocaldococcus jannaschii. NorthEast Structural Genomics target MjR118E Q58559 Q58559 2.4 X-RAY DIFFRACTION 30 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 98 98 DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE DTYNIGELSPGMTATFEGEVISALPIKEFKRADGSIGKLKSFIVRDETGSIRVTLWDNLTDIDVGRGDYVRVRGYIREGYYGGLECTANYVEILKKGE 3dm5-a1-m2-cB_3dm5-a1-m1-cA Structures of SRP54 and SRP19, the two proteins assembling the ribonucleic core of the Signal Recognition Particle from the archaeon Pyrococcus furiosus. Q8U070 Q8U070 2.51 X-RAY DIFFRACTION 29 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 413 416 3dm5-a1-m1-cB_3dm5-a1-m2-cA MVLDNLGKALANTLKKIARASSVDEALIKELVRDIQRALIQADVNVRLVLQLTREIQRRALEEKPPAGISKKEHIIKIVYEELTKFLGTEAKPIEIKEKPTILLMVGIQGSGKTTTVAKLARYFQKRGYKVGVVCSDTWRPGAYHQLRQLLDRYHIEVFGNPQEKDAIKLAKEGVDYFKSKGVDIIIVDTAGRHKEDKALIEMKQISNVIHPHEVILVIDGTIGQQAYNQALAFKEATPIGSIIVTKLDGSAKGGGALSAVAATGAPIKFIGTGEKIDDIEPFDPPRFVSRLLGLGDIQGLLEKFKELEKEVEIKEEDIERFLRGKFTLKDMYAQLEAMRKMGPSIGEERLKKFKVIMDSMTEEELLNPEIINYSRIKRIARGSGTSTKDVKELLDQYRQMKKLFKSMNKRQL MVLDNLGKALANTLKKIARASSVDEALIKELVRDIQRALIQADVNVRLVLQLTREIQRRALEEKPPAGISKKEHIIKIVYEELTKFLGTEAKPIEIKEKPTILLMVGIQGSGKTTTVAKLARYFQKRGYKVGVVCSDTWRPGAYHQLRQLLDRYHIEVFGNPQEKDAIKLAKEGVDYFKSKGVDIIIVDTAGRHKEDKALIEEMKQISNVIHPHEVILVIDGTIGQQAYNQALAFKEATPIGSIIVTKLDGSAKGGGALSAVAATGAPIKFIGTGEKIDDIEPFDPPRFVSRLLGLGDIQGLLEKFKELEKEVEIKEEDIERFLRGKFTLKDMYAQLEAMRKMGPISIGEERLKKFKVIMDSMTEEELLNPEIINYSRIKRIARGSGTSTKDVKELLDQYRQMKKLFKSMNKRQLS 3dm5-a1-m2-cB_3dm5-a1-m2-cA Structures of SRP54 and SRP19, the two proteins assembling the ribonucleic core of the Signal Recognition Particle from the archaeon Pyrococcus furiosus. Q8U070 Q8U070 2.51 X-RAY DIFFRACTION 32 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 413 416 3dm5-a1-m1-cB_3dm5-a1-m1-cA MVLDNLGKALANTLKKIARASSVDEALIKELVRDIQRALIQADVNVRLVLQLTREIQRRALEEKPPAGISKKEHIIKIVYEELTKFLGTEAKPIEIKEKPTILLMVGIQGSGKTTTVAKLARYFQKRGYKVGVVCSDTWRPGAYHQLRQLLDRYHIEVFGNPQEKDAIKLAKEGVDYFKSKGVDIIIVDTAGRHKEDKALIEMKQISNVIHPHEVILVIDGTIGQQAYNQALAFKEATPIGSIIVTKLDGSAKGGGALSAVAATGAPIKFIGTGEKIDDIEPFDPPRFVSRLLGLGDIQGLLEKFKELEKEVEIKEEDIERFLRGKFTLKDMYAQLEAMRKMGPSIGEERLKKFKVIMDSMTEEELLNPEIINYSRIKRIARGSGTSTKDVKELLDQYRQMKKLFKSMNKRQL MVLDNLGKALANTLKKIARASSVDEALIKELVRDIQRALIQADVNVRLVLQLTREIQRRALEEKPPAGISKKEHIIKIVYEELTKFLGTEAKPIEIKEKPTILLMVGIQGSGKTTTVAKLARYFQKRGYKVGVVCSDTWRPGAYHQLRQLLDRYHIEVFGNPQEKDAIKLAKEGVDYFKSKGVDIIIVDTAGRHKEDKALIEEMKQISNVIHPHEVILVIDGTIGQQAYNQALAFKEATPIGSIIVTKLDGSAKGGGALSAVAATGAPIKFIGTGEKIDDIEPFDPPRFVSRLLGLGDIQGLLEKFKELEKEVEIKEEDIERFLRGKFTLKDMYAQLEAMRKMGPISIGEERLKKFKVIMDSMTEEELLNPEIINYSRIKRIARGSGTSTKDVKELLDQYRQMKKLFKSMNKRQLS 3dm5-a3-m1-cB_3dm5-a3-m2-cB Structures of SRP54 and SRP19, the two proteins assembling the ribonucleic core of the Signal Recognition Particle from the archaeon Pyrococcus furiosus. Q8U070 Q8U070 2.51 X-RAY DIFFRACTION 156 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 413 413 3dm5-a1-m1-cA_3dm5-a1-m2-cA 3dm5-a1-m1-cB_3dm5-a1-m2-cB 3dm5-a2-m1-cA_3dm5-a2-m2-cA MVLDNLGKALANTLKKIARASSVDEALIKELVRDIQRALIQADVNVRLVLQLTREIQRRALEEKPPAGISKKEHIIKIVYEELTKFLGTEAKPIEIKEKPTILLMVGIQGSGKTTTVAKLARYFQKRGYKVGVVCSDTWRPGAYHQLRQLLDRYHIEVFGNPQEKDAIKLAKEGVDYFKSKGVDIIIVDTAGRHKEDKALIEMKQISNVIHPHEVILVIDGTIGQQAYNQALAFKEATPIGSIIVTKLDGSAKGGGALSAVAATGAPIKFIGTGEKIDDIEPFDPPRFVSRLLGLGDIQGLLEKFKELEKEVEIKEEDIERFLRGKFTLKDMYAQLEAMRKMGPSIGEERLKKFKVIMDSMTEEELLNPEIINYSRIKRIARGSGTSTKDVKELLDQYRQMKKLFKSMNKRQL MVLDNLGKALANTLKKIARASSVDEALIKELVRDIQRALIQADVNVRLVLQLTREIQRRALEEKPPAGISKKEHIIKIVYEELTKFLGTEAKPIEIKEKPTILLMVGIQGSGKTTTVAKLARYFQKRGYKVGVVCSDTWRPGAYHQLRQLLDRYHIEVFGNPQEKDAIKLAKEGVDYFKSKGVDIIIVDTAGRHKEDKALIEMKQISNVIHPHEVILVIDGTIGQQAYNQALAFKEATPIGSIIVTKLDGSAKGGGALSAVAATGAPIKFIGTGEKIDDIEPFDPPRFVSRLLGLGDIQGLLEKFKELEKEVEIKEEDIERFLRGKFTLKDMYAQLEAMRKMGPSIGEERLKKFKVIMDSMTEEELLNPEIINYSRIKRIARGSGTSTKDVKELLDQYRQMKKLFKSMNKRQL 3dm8-a1-m1-cA_3dm8-a1-m2-cA Crystal Structure of Putative Isomerase from Rhodopseudomonas palustris Q6N1Q6 Q6N1Q6 1.8 X-RAY DIFFRACTION 78 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 135 135 MTEHSLWRFSRALHRALNDRQTEELATIIDDNIDWAIYGPIDMFPFFGARQGKAAVLEVCRQIADSVRIYRYHRESVMLGIDSAASMVRYSLTAAGTNRPISVRMALFTQFQNGRLTNLRMVLDTFDLVEQALGR MTEHSLWRFSRALHRALNDRQTEELATIIDDNIDWAIYGPIDMFPFFGARQGKAAVLEVCRQIADSVRIYRYHRESVMLGIDSAASMVRYSLTAAGTNRPISVRMALFTQFQNGRLTNLRMVLDTFDLVEQALGR 3dm9-a1-m2-cB_3dm9-a1-m6-cB Structures and Conformations in Solution of the Signal Recognition Particle Receptor from the archaeon Pyrococcus furiosus Q8U051 Q8U051 2.2 X-RAY DIFFRACTION 44 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 301 301 3dm9-a1-m1-cB_3dm9-a1-m4-cB 3dm9-a1-m3-cB_3dm9-a1-m5-cB SFGKLREKLKSFVKRVEEEVEKETVEIKEKDVDKALDELEIDLLEADVALEVVDALREKIKQKLVGKKVRIGTDKGKIIEEAVKEAVSEILETSRRIDLIEEIRKAEKPYVIFVGFNGSGKTTTIAKLANWLKNHGFSVVIAASDTFRAGAIEQLEEHAKRIGVKVIKHSYGADPAAVAYDAIQHAKARGIDVVLIDTAGRSETNRNLDEKKIARVTKPNLVIFVGDALAGNAIVEQARQFNEAVKIDGIILTKLDADARGGAALSISYVIDAPILFVGVGQGYDDLRPFEKEWFLERIFG SFGKLREKLKSFVKRVEEEVEKETVEIKEKDVDKALDELEIDLLEADVALEVVDALREKIKQKLVGKKVRIGTDKGKIIEEAVKEAVSEILETSRRIDLIEEIRKAEKPYVIFVGFNGSGKTTTIAKLANWLKNHGFSVVIAASDTFRAGAIEQLEEHAKRIGVKVIKHSYGADPAAVAYDAIQHAKARGIDVVLIDTAGRSETNRNLDEKKIARVTKPNLVIFVGDALAGNAIVEQARQFNEAVKIDGIILTKLDADARGGAALSISYVIDAPILFVGVGQGYDDLRPFEKEWFLERIFG 3dm9-a1-m5-cB_3dm9-a1-m6-cB Structures and Conformations in Solution of the Signal Recognition Particle Receptor from the archaeon Pyrococcus furiosus Q8U051 Q8U051 2.2 X-RAY DIFFRACTION 30 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 301 301 3dm9-a1-m1-cB_3dm9-a1-m2-cB 3dm9-a1-m1-cB_3dm9-a1-m3-cB 3dm9-a1-m2-cB_3dm9-a1-m3-cB 3dm9-a1-m4-cB_3dm9-a1-m5-cB 3dm9-a1-m4-cB_3dm9-a1-m6-cB 3dmd-a1-m1-cA_3dmd-a1-m1-cC 3dmd-a1-m1-cA_3dmd-a1-m2-cB 3dmd-a1-m1-cC_3dmd-a1-m2-cB 3dmd-a1-m4-cA_3dmd-a1-m1-cB 3dmd-a1-m4-cA_3dmd-a1-m4-cC 3dmd-a1-m4-cC_3dmd-a1-m1-cB SFGKLREKLKSFVKRVEEEVEKETVEIKEKDVDKALDELEIDLLEADVALEVVDALREKIKQKLVGKKVRIGTDKGKIIEEAVKEAVSEILETSRRIDLIEEIRKAEKPYVIFVGFNGSGKTTTIAKLANWLKNHGFSVVIAASDTFRAGAIEQLEEHAKRIGVKVIKHSYGADPAAVAYDAIQHAKARGIDVVLIDTAGRSETNRNLDEKKIARVTKPNLVIFVGDALAGNAIVEQARQFNEAVKIDGIILTKLDADARGGAALSISYVIDAPILFVGVGQGYDDLRPFEKEWFLERIFG SFGKLREKLKSFVKRVEEEVEKETVEIKEKDVDKALDELEIDLLEADVALEVVDALREKIKQKLVGKKVRIGTDKGKIIEEAVKEAVSEILETSRRIDLIEEIRKAEKPYVIFVGFNGSGKTTTIAKLANWLKNHGFSVVIAASDTFRAGAIEQLEEHAKRIGVKVIKHSYGADPAAVAYDAIQHAKARGIDVVLIDTAGRSETNRNLDEKKIARVTKPNLVIFVGDALAGNAIVEQARQFNEAVKIDGIILTKLDADARGGAALSISYVIDAPILFVGVGQGYDDLRPFEKEWFLERIFG 3dmb-a1-m2-cC_3dmb-a1-m1-cA Crystal structure of a putative general stress family protein (xcc2264) from xanthomonas campestris pv. campestris at 2.30 A resolution Q8P8H7 Q8P8H7 2.3 X-RAY DIFFRACTION 106 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 131 142 3dmb-a1-m1-cB_3dmb-a1-m2-cB 3dmb-a1-m1-cC_3dmb-a1-m2-cA PKELQDKFWKALKSDRTVLGARPTAQIEGDSGGPIWFFTSKDNALIALGQGRRVIGAFSSKGHDLFASISGSLREDTDPAVVDRLWNPYVAAWYEGGKDDPKLALLRLDADHAQIWLNGSSLLAGIKVLLG GADPKELQDKFWKALKSDRTVLGLDGVEDGHARPTAQIEGDSGGPIWFFTSKDNALIALGQGRRVIGAFSSKGHDLFASISGSLREDTDPAVVDRLWNPYVAAWYEGGKDDPKLALLRLDADHAQIWLNGSSLLAGIKVLLG 3dmb-a1-m2-cC_3dmb-a1-m2-cA Crystal structure of a putative general stress family protein (xcc2264) from xanthomonas campestris pv. campestris at 2.30 A resolution Q8P8H7 Q8P8H7 2.3 X-RAY DIFFRACTION 11 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 131 142 3dmb-a1-m1-cB_3dmb-a1-m2-cA 3dmb-a1-m1-cC_3dmb-a1-m1-cA 3dmb-a1-m1-cC_3dmb-a1-m2-cB 3dmb-a1-m2-cB_3dmb-a1-m1-cA 3dmb-a1-m2-cC_3dmb-a1-m1-cB PKELQDKFWKALKSDRTVLGARPTAQIEGDSGGPIWFFTSKDNALIALGQGRRVIGAFSSKGHDLFASISGSLREDTDPAVVDRLWNPYVAAWYEGGKDDPKLALLRLDADHAQIWLNGSSLLAGIKVLLG GADPKELQDKFWKALKSDRTVLGLDGVEDGHARPTAQIEGDSGGPIWFFTSKDNALIALGQGRRVIGAFSSKGHDLFASISGSLREDTDPAVVDRLWNPYVAAWYEGGKDDPKLALLRLDADHAQIWLNGSSLLAGIKVLLG 3dmc-a1-m1-cA_3dmc-a1-m1-cB CRYSTAL STRUCTURE OF A NTF2-LIKE PROTEIN (AVA_2261) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.65 A RESOLUTION Q3MAV7 Q3MAV7 1.65 X-RAY DIFFRACTION 104 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 130 130 GTHYSDNTLKVAHQGFEFFTQGLATGEWQKFLDLTEDFTFWFPGEFHGLNVGKERAKEFFTYVSESFHTGIQISSLDRVTSNETTVVFEFRDEGLFLGKPYKNRVAVSFDVRGDKICSYREYFGSDGKSN GTHYSDNTLKVAHQGFEFFTQGLATGEWQKFLDLTEDFTFWFPGEFHGLNVGKERAKEFFTYVSESFHTGIQISSLDRVTSNETTVVFEFRDEGLFLGKPYKNRVAVSFDVRGDKICSYREYFGSDGKSN 3dmd-a1-m4-cA_3dmd-a1-m2-cB Structures and Conformations in Solution of the Signal Recognition Particle Receptor from the archaeon Pyrococcus furiosus Q8U051 Q8U051 2.21 X-RAY DIFFRACTION 14 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 310 320 3dmd-a1-m1-cA_3dmd-a1-m1-cB 3dmd-a1-m1-cC_3dmd-a1-m4-cC MFGKLREKLKSFVKRVEEEVEKEEEEVELTVEIKEKDVDKALDELEIDLLEADVALEVVDALREKIKQKLVGKKVRIGTDKGKIIEEAVKEAVSEILETSRRIDLIEEIRKAEKPYVIMFVGFNGSGKTTTIAKLANWLKNHGFSVVIAASDTFRAGAIEQLEEHAKRIGVKVIKHSYGADPAAVAYDAIQHAKARGIDVVLIDTAGRSETNRNLMDEMKKIARVTKPNLVIFVGDALAGNAIVEQARQFNEAVKIDGIILTKLDADARGGAALSISYVIDAPILFVGVGQGYDDLRPFEKEWFLERIFG ASMFGKLREKLKSFVKRVEEEVEKEEEEVEKKGLLDRILTVEIKEKDVDKALDELEIDLLEADVALEVVDALREKIKQKLVGKKVRIGTDKGKIIEEAVKEAVSEILETSRRIDLIEEIRKAEKPYVIMFVGFNGSGKTTTIAKLANWLKNHGFSVVIAASDTFRAGAIEQLEEHAKRIGVKVIKHSYGADPAAVAYDAIQHAKARGIDVVLIDTAGRSETNRNLMDEMKKIARVTKPNLVIFVGDALAGNAIVEQARQFNEAVKIDGIILTKLDADARGGAALSISYVIDAPILFVGVGQGYDDLRPFEKEWFLERIFG 3dme-a1-m1-cA_3dme-a1-m1-cB Crystal structure of conserved exported protein from Bordetella pertussis. NorthEast Structural Genomics target BeR141 Q7VU70 Q7VU70 1.7 X-RAY DIFFRACTION 103 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 366 366 TDIDCIVIGAGVVGLAIARALAAGGHEVLVAEAAEGIGTGTSSRNSEVIHAGIYYPADSLKARLCVRGKHLLYEYCAARGVPHQRLGKLIVATSDAEASQLDSIARRAGANGVDDLQHIDGAAARRLEPALHCTAALVSPSTGIVDSHALMLAYQGDAESDGAQLVFHTPLIAGRVRPEGGFELDFGGAEPMTLSCRVLINAAGLHAPGLARRIEGIPRDSIPPEYLCKGSYFTLAGRAPFSRLIYPVPQHAGLGVHLTLDLGGQAKFGPDTEWIATEDYTLDPRRADVFYAAVRSYWPALPDGALAPGYTGIRPKISGPHEPAADFAIAGPASHGVAGLVNLYGIESPGLTASLAIAEETLARLA TDIDCIVIGAGVVGLAIARALAAGGHEVLVAEAAEGIGTGTSSRNSEVIHAGIYYPADSLKARLCVRGKHLLYEYCAARGVPHQRLGKLIVATSDAEASQLDSIARRAGANGVDDLQHIDGAAARRLEPALHCTAALVSPSTGIVDSHALMLAYQGDAESDGAQLVFHTPLIAGRVRPEGGFELDFGGAEPMTLSCRVLINAAGLHAPGLARRIEGIPRDSIPPEYLCKGSYFTLAGRAPFSRLIYPVPQHAGLGVHLTLDLGGQAKFGPDTEWIATEDYTLDPRRADVFYAAVRSYWPALPDGALAPGYTGIRPKISGPHEPAADFAIAGPASHGVAGLVNLYGIESPGLTASLAIAEETLARLA 3dmo-a1-m1-cA_3dmo-a1-m1-cD 1.6 A crystal structure of cytidine deaminase from Burkholderia pseudomallei Q3JJN0 Q3JJN0 1.6 X-RAY DIFFRACTION 47 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 133 133 3dmo-a1-m1-cB_3dmo-a1-m1-cC HHHMTHHALIEAAKAAREKAYAPYSNFKVGAALVTNDGKVFHGCNVENASYGLCNCAERTALFSALAAGYRPGEFAAIAVVGETHGPIAPCGACRQVMIELGKPTLEVVLTNMQGDVRVTSAGDLLPDAFYLA HHHMTHHALIEAAKAAREKAYAPYSNFKVGAALVTNDGKVFHGCNVENASYGLCNCAERTALFSALAAGYRPGEFAAIAVVGETHGPIAPCGACRQVMIELGKPTLEVVLTNMQGDVRVTSAGDLLPDAFYLA 3dmo-a1-m1-cB_3dmo-a1-m1-cD 1.6 A crystal structure of cytidine deaminase from Burkholderia pseudomallei Q3JJN0 Q3JJN0 1.6 X-RAY DIFFRACTION 41 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 127 133 3dmo-a1-m1-cC_3dmo-a1-m1-cA MTHHALIEAAKAAREKAYAPYSNFKVGAALVTNDGKVFHGCNVENASYGLCNCAERTALFSALAAGYRPGEFAAIAVVGETHGPIAPCGACRQVMIELGKPTLEVVLTNMQGDVRVTSAGDLLPDAF HHHMTHHALIEAAKAAREKAYAPYSNFKVGAALVTNDGKVFHGCNVENASYGLCNCAERTALFSALAAGYRPGEFAAIAVVGETHGPIAPCGACRQVMIELGKPTLEVVLTNMQGDVRVTSAGDLLPDAFYLA 3dmo-a1-m1-cC_3dmo-a1-m1-cD 1.6 A crystal structure of cytidine deaminase from Burkholderia pseudomallei Q3JJN0 Q3JJN0 1.6 X-RAY DIFFRACTION 89 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 127 133 3dmo-a1-m1-cB_3dmo-a1-m1-cA MTHHALIEAAKAAREKAYAPYSNFKVGAALVTNDGKVFHGCNVENASYGLCNCAERTALFSALAAGYRPGEFAAIAVVGETHGPIAPCGACRQVMIELGKPTLEVVLTNMQGDVRVTSAGDLLPDAF HHHMTHHALIEAAKAAREKAYAPYSNFKVGAALVTNDGKVFHGCNVENASYGLCNCAERTALFSALAAGYRPGEFAAIAVVGETHGPIAPCGACRQVMIELGKPTLEVVLTNMQGDVRVTSAGDLLPDAFYLA 3dmp-a2-m1-cC_3dmp-a2-m3-cD 2.6 A crystal structure of uracil phosphoribosyltransferase from Burkholderia pseudomallei Q63VS8 Q63VS8 2.6 X-RAY DIFFRACTION 137 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 213 214 3dmp-a1-m1-cA_3dmp-a1-m2-cB 3dmp-a1-m1-cB_3dmp-a1-m2-cA 3dmp-a2-m3-cC_3dmp-a2-m1-cD SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDHRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG 3dmp-a3-m1-cC_3dmp-a3-m1-cA 2.6 A crystal structure of uracil phosphoribosyltransferase from Burkholderia pseudomallei Q63VS8 Q63VS8 2.6 X-RAY DIFFRACTION 13 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 213 214 SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDHRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG 3dmp-a3-m1-cC_3dmp-a3-m1-cB 2.6 A crystal structure of uracil phosphoribosyltransferase from Burkholderia pseudomallei Q63VS8 Q63VS8 2.6 X-RAY DIFFRACTION 17 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 213 214 SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDHRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG 3dmp-a3-m1-cC_3dmp-a3-m1-cD 2.6 A crystal structure of uracil phosphoribosyltransferase from Burkholderia pseudomallei Q63VS8 Q63VS8 2.6 X-RAY DIFFRACTION 51 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 213 214 3dmp-a1-m1-cA_3dmp-a1-m1-cB 3dmp-a1-m2-cA_3dmp-a1-m2-cB 3dmp-a2-m1-cC_3dmp-a2-m1-cD 3dmp-a2-m3-cC_3dmp-a2-m3-cD 3dmp-a3-m1-cA_3dmp-a3-m1-cB SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG SMKQDSRFPNLFILDHPLIQHKLTHMRDKDTSTRTFRELLREITLLMGYEITRNLPITTKRVETPLVEIDAPVIAGKKLAIVPVLRAGVGMSDGLLELIPSARVGHIGVYRADDHRPVEYLVRLPDLEDRIFILCDPMVATGYSAAHAIDVLKRRGVPGERLMFLALVAAPEGVQVFQDAHPDVKLYVASLDSHLDDHAYIVPGLGDAGDRLFG 3dms-a1-m1-cA_3dms-a1-m2-cA 1.65A crystal structure of isocitrate dehydrogenase from Burkholderia pseudomallei Q3JV82 Q3JV82 1.65 X-RAY DIFFRACTION 243 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 413 413 YQHIKVPEGGDKITVNKDFSLNVSDQPIIPYIEGDGTGFDITPVMIKVVDAAVEKAYGGKKKIHWMEIYAGEKATKVYGPDVWLPEETLQVLKEYVVSIKGPLTTPVRSLNVALRQELDLYVCLRPIQYFKGVPSPVREPEKTNMVIFRENSEDIYAGIEWAAESEQAKKVIKFLQEEMGVKKIRFPQTSGIGIKPVSKEGTERLVRKAIQYAIDNDRKSVTLVHKGNIMKFTEGAFRDAGYALAQKEFGAELIDGGPWMKFKNPKTGNEIVVKDSIADAFLQQILLRPAEYDVIATLNLNGDYISDALAAQVGGIGIAPGANLSDSVAMFEATHGTAPKYAGKDYVNPGSEILSAEMMLRHLGWTEAADVIISAMEKSIKQKRVTYDFARLMEGATQVSCSGFGQVLIENME YQHIKVPEGGDKITVNKDFSLNVSDQPIIPYIEGDGTGFDITPVMIKVVDAAVEKAYGGKKKIHWMEIYAGEKATKVYGPDVWLPEETLQVLKEYVVSIKGPLTTPVRSLNVALRQELDLYVCLRPIQYFKGVPSPVREPEKTNMVIFRENSEDIYAGIEWAAESEQAKKVIKFLQEEMGVKKIRFPQTSGIGIKPVSKEGTERLVRKAIQYAIDNDRKSVTLVHKGNIMKFTEGAFRDAGYALAQKEFGAELIDGGPWMKFKNPKTGNEIVVKDSIADAFLQQILLRPAEYDVIATLNLNGDYISDALAAQVGGIGIAPGANLSDSVAMFEATHGTAPKYAGKDYVNPGSEILSAEMMLRHLGWTEAADVIISAMEKSIKQKRVTYDFARLMEGATQVSCSGFGQVLIENME 3dmy-a1-m1-cB_3dmy-a1-m1-cA Crystal Structure of a predicated acyl-CoA synthetase from E.coli Q47208 Q47208 2.07 X-RAY DIFFRACTION 154 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 436 437 ALTQVRRWDSACQKLPDANLALISVAGEYAAELANQALDRNLNVFSDNVTLEDEIQLKTRAREKGLLVGPDCGTSIAGTPLAFANVPEGNIGVIGASGTGIQELCSQIALAGEGITHAIGLGGRDLSREVGGISALTALELSADEKSEVLAFVSKPPAEAVRLKIVNAKATGKPTVALFLGYTPAVARDENVWFASSLDEAARLACLLSRVTARRNAIAPVSSGFICGLYTGGTLAAEAAGLLAGHLGVEAHQHGLDADSHQIIDLGDDFYTVGRPHPIDPTLRNQLIADLGAKPQVRVLLLDVVIGFGATADPAASLVSAWQKACAARLDNQPLYAIATVTGTERDPQCRSQQIATLEDAGIAVVSSLPEATLLAAALIHPLHTPSLLENVAVINIGLRSFALELQSASKPVVHYQWSPVAGGNKKLARLLERLQ ALTQVRRWDSACQKLPDANLALISVAGEYAAELANQALDRNLNVFSDNVTLEDEIQLKTRAREKGLLVGPDCGTSIAGTPLAFANVPEGNIGVIGASGTGIQELCSQIALAGEGITHAIGLGGRDLSREVGGISALTALELSADEKSEVLAFVSKPPAEAVRLKIVNAKATGKPTVALFLGYTPAVARDENVWFASSLDEAARLACLLSRVTARRNAIAPVSSGFICGLYTGGTLAAEAAGLLAGHLGVETHQHGLDADSHQIIDLGDDFYTVGRPHPIDPTLRNQLIADLGAKPQVRVLLLDVVIGFGATADPAASLVSAWQKACAARLDNQPLYAIATVTGTERDPQCRSQQIATLEDAGIAVVSSLPEATLLAAALIHPLSHTPSLLENVAVINIGLRSFALELQSASKPVVHYQWSPVAGGNKKLARLLERLQ 3dn7-a1-m1-cA_3dn7-a1-m1-cB Cyclic nucleotide binding regulatory protein from Cytophaga hutchinsonii. 1.8 X-RAY DIFFRACTION 93 0.993 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 143 145 HTALINHIRKFIFLTDEDAGTLSAFFQLKKVRKKETLLKTGEICRINYFVVKGCLRLFFIDEKGIEQTTQFAIENWWLSDYAFQKQQPADFYIQSVENCELLSITYTEQENLFERIPALERYFRLVYQKSFAAAQLRSKFQHY SNAHTALINHIRKFIFLTDEDAGTLSAFFQLKKVRKKETLLKTGEICRINYFVVKGCLRLFFIDEKGIEQTTQFAIENWWLSDYAFQKQQPADFYIQSVENCELLSITYTEQENLFERIPALERYFRLVYQKSFAAAQLRSKFQH 3dnc-a1-m2-cA_3dnc-a1-m6-cA Carboxysome shell protein, CcmK2 C-terminal deletion mutant, with a closer spacing between hexamers P72761 P72761 2.05 X-RAY DIFFRACTION 78 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 90 90 2a1b-a1-m1-cA_2a1b-a1-m1-cB 2a1b-a1-m1-cA_2a1b-a1-m1-cF 2a1b-a1-m1-cB_2a1b-a1-m1-cC 2a1b-a1-m1-cC_2a1b-a1-m1-cD 2a1b-a1-m1-cD_2a1b-a1-m1-cE 2a1b-a1-m1-cE_2a1b-a1-m1-cF 2a1b-a2-m1-cG_2a1b-a2-m1-cH 2a1b-a2-m1-cG_2a1b-a2-m1-cL 2a1b-a2-m1-cH_2a1b-a2-m1-cI 2a1b-a2-m1-cI_2a1b-a2-m1-cJ 2a1b-a2-m1-cJ_2a1b-a2-m1-cK 2a1b-a2-m1-cK_2a1b-a2-m1-cL 3bn4-a1-m1-cA_3bn4-a1-m1-cF 3bn4-a1-m1-cB_3bn4-a1-m1-cA 3bn4-a1-m1-cB_3bn4-a1-m1-cC 3bn4-a1-m1-cD_3bn4-a1-m1-cC 3bn4-a1-m1-cD_3bn4-a1-m1-cE 3bn4-a1-m1-cE_3bn4-a1-m1-cF 3cim-a1-m1-cB_3cim-a1-m1-cC 3cim-a1-m1-cB_3cim-a1-m2-cC 3cim-a1-m2-cB_3cim-a1-m2-cC 3cim-a1-m2-cB_3cim-a1-m3-cC 3cim-a1-m3-cB_3cim-a1-m1-cC 3cim-a1-m3-cB_3cim-a1-m3-cC 3cim-a2-m1-cA_3cim-a2-m7-cA 3cim-a2-m1-cA_3cim-a2-m8-cA 3cim-a2-m4-cA_3cim-a2-m6-cA 3cim-a2-m4-cA_3cim-a2-m8-cA 3cim-a2-m5-cA_3cim-a2-m6-cA 3cim-a2-m5-cA_3cim-a2-m7-cA 3dn9-a1-m1-cA_3dn9-a1-m1-cB 3dn9-a1-m1-cA_3dn9-a1-m1-cF 3dn9-a1-m1-cC_3dn9-a1-m1-cB 3dn9-a1-m1-cC_3dn9-a1-m1-cD 3dn9-a1-m1-cE_3dn9-a1-m1-cD 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6owg-a1-m1-cAK_6owg-a1-m1-cAL 6owg-a1-m1-cAK_6owg-a1-m1-cg 6owg-a1-m1-cAL_6owg-a1-m1-cD6 6owg-a1-m1-cAM_6owg-a1-m1-cEP 6owg-a1-m1-cAM_6owg-a1-m1-cq 6owg-a1-m1-cAO_6owg-a1-m1-cAP 6owg-a1-m1-cAO_6owg-a1-m1-cBA 6owg-a1-m1-cAP_6owg-a1-m1-cEM 6owg-a1-m1-cAQ_6owg-a1-m1-cD4 6owg-a1-m1-cAQ_6owg-a1-m1-cv 6owg-a1-m1-cAS_6owg-a1-m1-cAT 6owg-a1-m1-cAS_6owg-a1-m1-cD2 6owg-a1-m1-cAT_6owg-a1-m1-cBE 6owg-a1-m1-cAU_6owg-a1-m1-cDK 6owg-a1-m1-cAU_6owg-a1-m1-cDX 6owg-a1-m1-cAW_6owg-a1-m1-cAX 6owg-a1-m1-cAW_6owg-a1-m1-cDI 6owg-a1-m1-cAY_6owg-a1-m1-cBT 6owg-a1-m1-cB0_6owg-a1-m1-cB1 6owg-a1-m1-cB0_6owg-a1-m1-cCM 6owg-a1-m1-cB1_6owg-a1-m1-co 6owg-a1-m1-cB2_6owg-a1-m1-cET 6owg-a1-m1-cB4_6owg-a1-m1-cB5 6owg-a1-m1-cB5_6owg-a1-m1-cCQ 6owg-a1-m1-cB6_6owg-a1-m1-cM 6owg-a1-m1-cB6_6owg-a1-m1-cZ 6owg-a1-m1-cB8_6owg-a1-m1-cB9 6owg-a1-m1-cB8_6owg-a1-m1-cK 6owg-a1-m1-cB9_6owg-a1-m1-cE2 6owg-a1-m1-cBA_6owg-a1-m1-cD1 6owg-a1-m1-cBC_6owg-a1-m1-cBD 6owg-a1-m1-cBC_6owg-a1-m1-cBY 6owg-a1-m1-cBD_6owg-a1-m1-cDY 6owg-a1-m1-cBE_6owg-a1-m1-cDG 6owg-a1-m1-cBG_6owg-a1-m1-cBH 6owg-a1-m1-cBG_6owg-a1-m1-cDE 6owg-a1-m1-cBH_6owg-a1-m1-cG 6owg-a1-m1-cBI_6owg-a1-m1-cC9 6owg-a1-m1-cBI_6owg-a1-m1-cCW 6owg-a1-m1-cBK_6owg-a1-m1-cBL 6owg-a1-m1-cBK_6owg-a1-m1-cCU 6owg-a1-m1-cBM_6owg-a1-m1-cBO 6owg-a1-m1-cBM_6owg-a1-m1-cV 6owg-a1-m1-cBO_6owg-a1-m1-cBP 6owg-a1-m1-cBP_6owg-a1-m1-ck 6owg-a1-m1-cBQ_6owg-a1-m1-cN 6owg-a1-m1-cBQ_6owg-a1-m1-cY 6owg-a1-m1-cBS_6owg-a1-m1-cBT 6owg-a1-m1-cBS_6owg-a1-m1-cW 6owg-a1-m1-cBW_6owg-a1-m1-cBX 6owg-a1-m1-cBX_6owg-a1-m1-cCU 6owg-a1-m1-cBY_6owg-a1-m1-cDD 6owg-a1-m1-cC0_6owg-a1-m1-cC1 6owg-a1-m1-cC0_6owg-a1-m1-cCY 6owg-a1-m1-cC1_6owg-a1-m1-cEI 6owg-a1-m1-cC2_6owg-a1-m1-cDL 6owg-a1-m1-cC2_6owg-a1-m1-cDW 6owg-a1-m1-cC4_6owg-a1-m1-cC5 6owg-a1-m1-cC4_6owg-a1-m1-cDU 6owg-a1-m1-cC5_6owg-a1-m1-cCA 6owg-a1-m1-cC6_6owg-a1-m1-cCG 6owg-a1-m1-cC6_6owg-a1-m1-cE1 6owg-a1-m1-cc_6owg-a1-m1-ce 6owg-a1-m1-cC_6owg-a1-m1-cEO 6owg-a1-m1-cC_6owg-a1-m1-cr 6owg-a1-m1-cC8_6owg-a1-m1-cC9 6owg-a1-m1-cC8_6owg-a1-m1-cCE 6owg-a1-m1-cCA_6owg-a1-m1-cCC 6owg-a1-m1-cCC_6owg-a1-m1-cCD 6owg-a1-m1-cCD_6owg-a1-m1-cDU 6owg-a1-m1-cCE_6owg-a1-m1-cCX 6owg-a1-m1-cCG_6owg-a1-m1-cCH 6owg-a1-m1-cCH_6owg-a1-m1-cEY 6owg-a1-m1-cCI_6owg-a1-m1-cE4 6owg-a1-m1-cCI_6owg-a1-m1-cED 6owg-a1-m1-cCK_6owg-a1-m1-cCL 6owg-a1-m1-cCK_6owg-a1-m1-cE2 6owg-a1-m1-cCL_6owg-a1-m1-cK 6owg-a1-m1-cCO_6owg-a1-m1-cCP 6owg-a1-m1-cCO_6owg-a1-m1-cDA 6owg-a1-m1-cCQ_6owg-a1-m1-cI 6owg-a1-m1-cCS_6owg-a1-m1-cCT 6owg-a1-m1-cCS_6owg-a1-m1-cG 6owg-a1-m1-cCT_6owg-a1-m1-cDE 6owg-a1-m1-cCW_6owg-a1-m1-cCX 6owg-a1-m1-cCY_6owg-a1-m1-cDT 6owg-a1-m1-cD0_6owg-a1-m1-cD1 6owg-a1-m1-cD0_6owg-a1-m1-cEM 6owg-a1-m1-cD2_6owg-a1-m1-cDH 6owg-a1-m1-cD4_6owg-a1-m1-cD5 6owg-a1-m1-cD5_6owg-a1-m1-cEQ 6owg-a1-m1-cD6_6owg-a1-m1-cy 6owg-a1-m1-cD8_6owg-a1-m1-cD9 6owg-a1-m1-cD8_6owg-a1-m1-cw 6owg-a1-m1-cD9_6owg-a1-m1-cDQ 6owg-a1-m1-cDA_6owg-a1-m1-cF 6owg-a1-m1-cDC_6owg-a1-m1-cDD 6owg-a1-m1-cDC_6owg-a1-m1-cDY 6owg-a1-m1-cDG_6owg-a1-m1-cDH 6owg-a1-m1-cDK_6owg-a1-m1-cDL 6owg-a1-m1-cDM_6owg-a1-m1-cDO 6owg-a1-m1-cDM_6owg-a1-m1-cEH 6owg-a1-m1-cDO_6owg-a1-m1-cDP 6owg-a1-m1-cDP_6owg-a1-m1-cE6 6owg-a1-m1-cDQ_6owg-a1-m1-cEK 6owg-a1-m1-cDS_6owg-a1-m1-cDT 6owg-a1-m1-cDS_6owg-a1-m1-cEI 6owg-a1-m1-cDW_6owg-a1-m1-cDX 6owg-a1-m1-cE0_6owg-a1-m1-cE1 6owg-a1-m1-cE0_6owg-a1-m1-cEY 6owg-a1-m1-cE4_6owg-a1-m1-cE5 6owg-a1-m1-cE5_6owg-a1-m1-cEA 6owg-a1-m1-cE6_6owg-a1-m1-cEG 6owg-a1-m1-ce_6owg-a1-m1-cf 6owg-a1-m1-cE_6owg-a1-m1-cF 6owg-a1-m1-cEA_6owg-a1-m1-cEC 6owg-a1-m1-cEC_6owg-a1-m1-cED 6owg-a1-m1-cEE_6owg-a1-m1-cEX 6owg-a1-m1-cEG_6owg-a1-m1-cEH 6owg-a1-m1-cEK_6owg-a1-m1-cEL 6owg-a1-m1-cEL_6owg-a1-m1-cw 6owg-a1-m1-cEO_6owg-a1-m1-cEP 6owg-a1-m1-cEQ_6owg-a1-m1-cu 6owg-a1-m1-cES_6owg-a1-m1-cET 6owg-a1-m1-cES_6owg-a1-m1-cs 6owg-a1-m1-cEU_6owg-a1-m1-ca 6owg-a1-m1-cEU_6owg-a1-m1-cn 6owg-a1-m1-cEW_6owg-a1-m1-cEX 6owg-a1-m1-cg_6owg-a1-m1-cz 6owg-a1-m1-ci_6owg-a1-m1-cj 6owg-a1-m1-cI_6owg-a1-m1-cJ 6owg-a1-m1-cm_6owg-a1-m1-cn 6owg-a1-m1-cM_6owg-a1-m1-cN 6owg-a1-m1-cO_6owg-a1-m1-cj 6owg-a1-m1-cO_6owg-a1-m1-cQ 6owg-a1-m1-cq_6owg-a1-m1-cr 6owg-a1-m1-cQ_6owg-a1-m1-cR 6owg-a1-m1-cS_6owg-a1-m1-cb 6owg-a1-m1-cS_6owg-a1-m1-cm 6owg-a1-m1-cU_6owg-a1-m1-ck 6owg-a1-m1-cu_6owg-a1-m1-cv 6owg-a1-m1-cU_6owg-a1-m1-cV 6owg-a1-m1-cy_6owg-a1-m1-cz 6owg-a1-m1-cY_6owg-a1-m1-cZ IAVGMIETRGFPAVVEAADSMVKAARVTLVGYEKIGSGRVTVIVRGDVSEVQASVSAGIEAANRVNGGEVLSTHIIARPHENLEYVLPIL IAVGMIETRGFPAVVEAADSMVKAARVTLVGYEKIGSGRVTVIVRGDVSEVQASVSAGIEAANRVNGGEVLSTHIIARPHENLEYVLPIL 3dnf-a1-m1-cA_3dnf-a1-m1-cB Structure of (E)-4-Hydroxy-3-methyl-but-2-enyl Diphosphate Reductase, the Terminal Enzyme of the Non-Mevalonate Pathway O67625 O67625 1.65 X-RAY DIFFRACTION 58 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 281 282 MVDIIIAEHAGFCFGVKRAVKLAEESLKESQGKVYTLGPIIHNPQEVNRLKNLGVFPSQGEEFKEGDTVIIRSHGIPPEKEEALRKKGLKVIDATCPYVKAVHEAVCQLTREGYFVVLVGEKNHPEVIGTLGYLRACNGKGIVVETLEDIGEALKHERVGIVAQTTQNEEFFKEVVGEIALWVKEVKVINTICNATSLRQESVKKLAPEVDVMIIIGGKNSGNTRRLYYISKELNPNTYHIETAEELQPEWFRGVKRVGISAGASTPDWIIEQVKSRIQEI MVDIIIAEHAGFCFGVKRAVKLAEESLKESQGKVYTLGPIIHNPQEVNRLKNLGVFPSQGEEFKEGDTVIIRSHGIPPEKEEALRKKGLKVIDATCPYVKAVHEAVCQLTREGYFVVLVGEKNHPEVIGTLGYLRACNGKGIVVETLEDIGEALKHERVGIVAQTTQNEEFFKEVVGEIALWVKEVKVINTICNATSLRQESVKKLAPEVDVMIIIGGKNSGNTRRLYYISKELNPNTYHIETAEELQPEWFRGVKRVGISAGASTPDWIIEQVKSRIQEIC 3dnh-a1-m1-cB_3dnh-a1-m1-cA The crystal structure of the protein Atu2129 (unknown function) from Agrobacterium tumefaciens str. C58 A9CI98 A9CI98 1.94 X-RAY DIFFRACTION 188 0.987 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 231 232 APPVITPRGAPFEAVRVARDVLHTSRTAALATLDPVSGYPYTTATNIGIEPDGTPFFFAAGLTLHARNETDARISVTLAPFGKGDALTLPRLTLVGRADRIGPDEVPLAIARYIARYPKAKLYLSLPDTRLYRLRTEGVQINGNITPADLRTDLSGAEELAAAESEATRLNAIKGEASRLAVLAGAKTGRWKITSIDPDGIDLASASDLARLWFAERVETLKQFEKALAQL VAPPVITPRFEAVRVARDVLHTSRTAALATLDPVSGYPYTTATNIGIEPDGTPFFFAAGLTLHARNETDARISVTLAPFGKGDALTLPRLTLVGRADRIGPDEVPLAIARYIARYPKAKLYLSLPDTRLYRLRTEGVQINGSNITPADLRTDLSGAEELAAAESEATRLNAIKGEASRLAVLAGAKTGRWKITSIDPDGIDLASASDLARLWFAERVETLKQFEKALAQLLK 3dni-a1-m1-cA_3dni-a1-m2-cA CRYSTALLOGRAPHIC REFINEMENT AND STRUCTURE OF DNASE I AT 2 ANGSTROMS RESOLUTION P00639 P00639 2 X-RAY DIFFRACTION 26 1.0 9913 (Bos taurus) 9913 (Bos taurus) 258 258 LKIAAFNIRTFGETKMSNATLASYIVRIVRRYDIVLIQEVRDSHLVAVGKLLDYLNQDDPNTYHYVVSEPLGRNSYKERYLFLFRPNKVSVLDTYQYDDGCCGNDSFSREPAVVKFSSHSTKVKEFAIVALHSAPSDAVAEINSLYDVYLDVQQKWHLNDVMLMGDFNADCSYVTSSQWSSIRLRTSSTFQWLIPDSADTTATSTNCAYDRIVVAGSLLQSSVVPGSAAPFDFQAAYGLSNEMALAISDHYPVEVTLT LKIAAFNIRTFGETKMSNATLASYIVRIVRRYDIVLIQEVRDSHLVAVGKLLDYLNQDDPNTYHYVVSEPLGRNSYKERYLFLFRPNKVSVLDTYQYDDGCCGNDSFSREPAVVKFSSHSTKVKEFAIVALHSAPSDAVAEINSLYDVYLDVQQKWHLNDVMLMGDFNADCSYVTSSQWSSIRLRTSSTFQWLIPDSADTTATSTNCAYDRIVVAGSLLQSSVVPGSAAPFDFQAAYGLSNEMALAISDHYPVEVTLT 3dnm-a5-m3-cA_3dnm-a5-m4-cA Crystal Structure Hormone-Sensitive Lipase from a Metagenome Library Q0GMU1 Q0GMU1 2.8 X-RAY DIFFRACTION 49 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 297 297 3dnm-a5-m1-cD_3dnm-a5-m2-cD 3dnm-a6-m1-cB_3dnm-a6-m5-cB 3dnm-a6-m1-cC_3dnm-a6-m5-cC DTKMDPRDFLQLLKINAEKAEKNLPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARIS DTKMDPRDFLQLLKINAEKAEKNLPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARIS 3dnm-a6-m5-cC_3dnm-a6-m1-cB Crystal Structure Hormone-Sensitive Lipase from a Metagenome Library Q0GMU1 Q0GMU1 2.8 X-RAY DIFFRACTION 16 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 291 296 3dnm-a5-m1-cD_3dnm-a5-m4-cA 3dnm-a5-m2-cD_3dnm-a5-m3-cA 3dnm-a6-m1-cC_3dnm-a6-m5-cB TKMDPRDFLQLLKINAEKAPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARI DTKMDPRDFLQLLKINAEKAEKNLPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARI 3dnm-a6-m5-cC_3dnm-a6-m5-cB Crystal Structure Hormone-Sensitive Lipase from a Metagenome Library Q0GMU1 Q0GMU1 2.8 X-RAY DIFFRACTION 14 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 291 296 3dnm-a5-m1-cD_3dnm-a5-m3-cA 3dnm-a5-m2-cD_3dnm-a5-m4-cA 3dnm-a6-m1-cC_3dnm-a6-m1-cB TKMDPRDFLQLLKINAEKAPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARI DTKMDPRDFLQLLKINAEKAEKNLPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARI 3dnp-a1-m1-cA_3dnp-a1-m2-cA Crystal structure of Stress response protein yhaX from Bacillus subtilis O07539 O07539 1.85 X-RAY DIFFRACTION 33 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 268 268 KQLLALNIDGALLRSNGKIHQATKDAIEYVKKKGIYVTLVTNRHFRSAQKIAKSLKLDAKLITHSGAYIAEKIDAPFFEKRISDDHTFNIVQVLESYQCNIRLLHEKYSIGNKKKVNSNLLGKALIHPSDPIFYPVQFVESLSDLLDEPVSAPVIEVYTEHDIQHDITETITKAFPAVDVIRVNDEKLNIVPKGVSKEAGLALVASELGLSDDVVAIGHQYDDLPIELAGLGVAGNAVPEIKRKADWVTRSNDEQGVAYKEYFRQQRK KQLLALNIDGALLRSNGKIHQATKDAIEYVKKKGIYVTLVTNRHFRSAQKIAKSLKLDAKLITHSGAYIAEKIDAPFFEKRISDDHTFNIVQVLESYQCNIRLLHEKYSIGNKKKVNSNLLGKALIHPSDPIFYPVQFVESLSDLLDEPVSAPVIEVYTEHDIQHDITETITKAFPAVDVIRVNDEKLNIVPKGVSKEAGLALVASELGLSDDVVAIGHQYDDLPIELAGLGVAGNAVPEIKRKADWVTRSNDEQGVAYKEYFRQQRK 3dns-a1-m2-cB_3dns-a1-m1-cA The N-terminal domain of Ribosomal-protein-alanine acetyltransferase from Clostridium acetobutylicum ATCC 824 Q97MP0 Q97MP0 2.1 X-RAY DIFFRACTION 47 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 125 126 LKGKYTKIEKVNGVEREYLITDKYGITIGRIFIVDLNKDNRFCFRKIYKQGKSINTYIKEILSVFEFLFKSNDINKVNIIVDEEVSTQPFVELGFAFEGIINKSIIEKNVLKDEFLFGDYKNYNS ALKGKYTKIEKVNGVEREYLITDKYGITIGRIFIVDLNKDNRFCFRKIYKQGKSINTYIKEILSVFEFLFKSNDINKVNIIVDEEVSTQPFVELGFAFEGIINKSIIEKNVLKDEFLFGDYKNYNS 3dns-a2-m1-cB_3dns-a2-m1-cA The N-terminal domain of Ribosomal-protein-alanine acetyltransferase from Clostridium acetobutylicum ATCC 824 Q97MP0 Q97MP0 2.1 X-RAY DIFFRACTION 69 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 125 126 LKGKYTKIEKVNGVEREYLITDKYGITIGRIFIVDLNKDNRFCFRKIYKQGKSINTYIKEILSVFEFLFKSNDINKVNIIVDEEVSTQPFVELGFAFEGIINKSIIEKNVLKDEFLFGDYKNYNS ALKGKYTKIEKVNGVEREYLITDKYGITIGRIFIVDLNKDNRFCFRKIYKQGKSINTYIKEILSVFEFLFKSNDINKVNIIVDEEVSTQPFVELGFAFEGIINKSIIEKNVLKDEFLFGDYKNYNS 3dnx-a1-m1-cA_3dnx-a1-m2-cA SPO1766 protein of unknown function from Silicibacter pomeroyi. Q5LSK1 Q5LSK1 1.94 X-RAY DIFFRACTION 86 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 143 143 LDLQPGQRLARGVARHLRAHGFVSVEEFVPARGLRVDVGLGPKGEIWVIECKSSRADFQADAKWQGYLEWCDRYFWAVDEFPAELLPAESGLLIADAYDAEIVRAPEQKLAPARRKVLIQKFATHAARRLQALRDPEGHGIFE LDLQPGQRLARGVARHLRAHGFVSVEEFVPARGLRVDVGLGPKGEIWVIECKSSRADFQADAKWQGYLEWCDRYFWAVDEFPAELLPAESGLLIADAYDAEIVRAPEQKLAPARRKVLIQKFATHAARRLQALRDPEGHGIFE 3do5-a1-m1-cA_3do5-a1-m2-cA Crystal structure of Putative Homoserine Dehydrogenase (NP_069768.1) from ARCHAEOGLOBUS FULGIDUS at 2.20 A resolution O29327 O29327 2.2 X-RAY DIFFRACTION 128 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 311 311 IKIAIVGFGTVGQGVAELLIRKREEIEKAIGEFKVTAVADSKSSISGDFSLVEALRKRETGLRDDAKAIEVVRSADYDVLIEASVTREGVNYIREALKRGKHVVTSNKGPLVAEFHGLSLAERNGVRLYEATVGGAPVVKLAKRYLALCEIESVKGIFNGTCNYILSREEERLPYEHILKEAQELGYAEADPSYDVEGIDAALKLVIIANTIGVKASYEDVEVTGITQITPEAFQVAAEKGYTIRLIAEVSREKLKVSPRLVPFHHPLAIKGTNAAFKTDTAGSIFVAGRGAGKEETASAILSDLYEIYAG IKIAIVGFGTVGQGVAELLIRKREEIEKAIGEFKVTAVADSKSSISGDFSLVEALRKRETGLRDDAKAIEVVRSADYDVLIEASVTREGVNYIREALKRGKHVVTSNKGPLVAEFHGLSLAERNGVRLYEATVGGAPVVKLAKRYLALCEIESVKGIFNGTCNYILSREEERLPYEHILKEAQELGYAEADPSYDVEGIDAALKLVIIANTIGVKASYEDVEVTGITQITPEAFQVAAEKGYTIRLIAEVSREKLKVSPRLVPFHHPLAIKGTNAAFKTDTAGSIFVAGRGAGKEETASAILSDLYEIYAG 3do6-a1-m1-cA_3do6-a1-m2-cB Crystal structure of Putative Formyltetrahydrofolate Synthetase (TM1766) from THERMOTOGA MARITIMA at 1.85 A resolution Q9X287 Q9X287 1.85 X-RAY DIFFRACTION 36 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 530 530 3do6-a1-m1-cB_3do6-a1-m2-cA GKPIKEIADQLELKDDILYPYGHYIAKIDHRFLKSLENHEDGKLILVTAVTPTPAGEGKTTTSIGLSSLNRIGKKSIVTLREPSLGPTLGLKGGATGGGRSRVLPSDEINLHFTGDHAVASAHNLLAAVLDSHIKHGNELKIDITRVFWKRTDNDRALRSIVIGLGGSANGFPREDSFIITAASEVAILALSENKDLKERLGKIIVALDADRKIVRISDLGIQGAAVLLKDAINPNLVQTTEGTPALIHCGPFANIAHGTNSIIATKAKLSEYTVTEAGFGADLGAEKFIDFVSRVGGFYPNAAVLVATVRALKYHGGANLKNIHEENLEALKEGFKNLRVHVENLRKFNLPVVVALNRFSTDTEKEIAYVVKECEKLGVRVAVSEVFKKGSEGGVELAKAVAEAAKDVEPAYLYENDPVEKKIEILAKEIYRAGRVEFSDTAKNALKFIKKHGFDELPVIVAKTPKSISHDPSLRGAPEGYTFVVSDLFVSAGAGFVVALSGDINLPGLPKKPNALNDVDDSGNIVGVS GKPIKEIADQLELKDDILYPYGHYIAKIDHRFLKSLENHEDGKLILVTAVTPTPAGEGKTTTSIGLSSLNRIGKKSIVTLREPSLGPTLGLKGGATGGGRSRVLPSDEINLHFTGDHAVASAHNLLAAVLDSHIKHGNELKIDITRVFWKRTDNDRALRSIVIGLGGSANGFPREDSFIITAASEVAILALSENKDLKERLGKIIVALDADRKIVRISDLGIQGAAVLLKDAINPNLVQTTEGTPALIHCGPFANIAHGTNSIIATKAKLSEYTVTEAGFGADLGAEKFIDFVSRVGGFYPNAAVLVATVRALKYHGGANLKNIHEENLEALKEGFKNLRVHVENLRKFNLPVVVALNRFSTDTEKEIAYVVKECEKLGVRVAVSEVFKKGSEGGVELAKAVAEAAKDVEPAYLYENDPVEKKIEILAKEIYRAGRVEFSDTAKNALKFIKKHGFDELPVIVAKTPKSISHDPSLRGAPEGYTFVVSDLFVSAGAGFVVALSGDINLPGLPKKPNALNDVDDSGNIVGVS 3do6-a1-m2-cA_3do6-a1-m2-cB Crystal structure of Putative Formyltetrahydrofolate Synthetase (TM1766) from THERMOTOGA MARITIMA at 1.85 A resolution Q9X287 Q9X287 1.85 X-RAY DIFFRACTION 189 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 530 530 3do6-a1-m1-cA_3do6-a1-m1-cB GKPIKEIADQLELKDDILYPYGHYIAKIDHRFLKSLENHEDGKLILVTAVTPTPAGEGKTTTSIGLSSLNRIGKKSIVTLREPSLGPTLGLKGGATGGGRSRVLPSDEINLHFTGDHAVASAHNLLAAVLDSHIKHGNELKIDITRVFWKRTDNDRALRSIVIGLGGSANGFPREDSFIITAASEVAILALSENKDLKERLGKIIVALDADRKIVRISDLGIQGAAVLLKDAINPNLVQTTEGTPALIHCGPFANIAHGTNSIIATKAKLSEYTVTEAGFGADLGAEKFIDFVSRVGGFYPNAAVLVATVRALKYHGGANLKNIHEENLEALKEGFKNLRVHVENLRKFNLPVVVALNRFSTDTEKEIAYVVKECEKLGVRVAVSEVFKKGSEGGVELAKAVAEAAKDVEPAYLYENDPVEKKIEILAKEIYRAGRVEFSDTAKNALKFIKKHGFDELPVIVAKTPKSISHDPSLRGAPEGYTFVVSDLFVSAGAGFVVALSGDINLPGLPKKPNALNDVDDSGNIVGVS GKPIKEIADQLELKDDILYPYGHYIAKIDHRFLKSLENHEDGKLILVTAVTPTPAGEGKTTTSIGLSSLNRIGKKSIVTLREPSLGPTLGLKGGATGGGRSRVLPSDEINLHFTGDHAVASAHNLLAAVLDSHIKHGNELKIDITRVFWKRTDNDRALRSIVIGLGGSANGFPREDSFIITAASEVAILALSENKDLKERLGKIIVALDADRKIVRISDLGIQGAAVLLKDAINPNLVQTTEGTPALIHCGPFANIAHGTNSIIATKAKLSEYTVTEAGFGADLGAEKFIDFVSRVGGFYPNAAVLVATVRALKYHGGANLKNIHEENLEALKEGFKNLRVHVENLRKFNLPVVVALNRFSTDTEKEIAYVVKECEKLGVRVAVSEVFKKGSEGGVELAKAVAEAAKDVEPAYLYENDPVEKKIEILAKEIYRAGRVEFSDTAKNALKFIKKHGFDELPVIVAKTPKSISHDPSLRGAPEGYTFVVSDLFVSAGAGFVVALSGDINLPGLPKKPNALNDVDDSGNIVGVS 3do8-a1-m1-cB_3do8-a1-m1-cA The crystal structure of the protein with unknown function from Archaeoglobus fulgidus O28077 O28077 1.6 X-RAY DIFFRACTION 69 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 123 135 KVALGGTFEPLHEGHKKLIDVAIKLGGRDITIGVTSDRMARARIRSVLPFAIRAENVKRYVMRKYGFEPEIVKITNPYGKTLDVDFEYLVVSPETYEMALKINQKREELGKRKITIVKVDWMM MKVALGGTFEPLHEGHKKLIDVAIKLGGRDITIGVTSDRMARARIRSVLPFAIRAENVKRYVMRKYGFEPEIVKITNPYGKTLDVDFEYLVVSPETYEMALKINQKREELGKRKITIVKVDWMMSSTRIKRGEID 3doc-a1-m1-cD_3doc-a1-m1-cA Crystal Structure of TrkA glyceraldehyde-3-phosphate dehydrogenase from Brucella melitensis Q2YRE0 Q2YRE0 2.4 X-RAY DIFFRACTION 24 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 334 335 3doc-a1-m1-cB_3doc-a1-m1-cC AVRVAINGFGRIGRNILRAIVESGRTDIQVVAINDLGPVETNAHLLRYDSVHGRFPKEVEVAGDTIDVGYGPIKVHAVRNPAELPWKEENVDIALECTGIFTSRDKAALHLEAGAKRVIVSAPADGADLTVVYGVNNDKLTKDHLVISNASCTTNCLAPVAQVLNDTIGIEKGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGVAIRVPTPNVSVVDLTFIAKRETTVEEVNNAIREAANGRLKGILGYTDEKLVSHDFNHDSHSSVFHTDQTKVMDGTMVRILSWYDNEWGFSSRMSDTAVALGKLI MAVRVAINGFGRIGRNILRAIVESGRTDIQVVAINDLGPVETNAHLLRYDSVHGRFPKEVEVAGDTIDVGYGPIKVHAVRNPAELPWKEENVDIALECTGIFTSRDKAALHLEAGAKRVIVSAPADGADLTVVYGVNNDKLTKDHLVISNASCTTNCLAPVAQVLNDTIGIEKGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGVAIRVPTPNVSVVDLTFIAKRETTVEEVNNAIREAANGRLKGILGYTDEKLVSHDFNHDSHSSVFHTDQTKVMDGTMVRILSWYDNEWGFSSRMSDTAVALGKLI 3doc-a3-m1-cD_3doc-a3-m1-cB Crystal Structure of TrkA glyceraldehyde-3-phosphate dehydrogenase from Brucella melitensis Q2YRE0 Q2YRE0 2.4 X-RAY DIFFRACTION 120 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 334 335 3doc-a1-m1-cA_3doc-a1-m1-cC 3doc-a1-m1-cD_3doc-a1-m1-cB 3doc-a2-m1-cA_3doc-a2-m1-cC AVRVAINGFGRIGRNILRAIVESGRTDIQVVAINDLGPVETNAHLLRYDSVHGRFPKEVEVAGDTIDVGYGPIKVHAVRNPAELPWKEENVDIALECTGIFTSRDKAALHLEAGAKRVIVSAPADGADLTVVYGVNNDKLTKDHLVISNASCTTNCLAPVAQVLNDTIGIEKGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGVAIRVPTPNVSVVDLTFIAKRETTVEEVNNAIREAANGRLKGILGYTDEKLVSHDFNHDSHSSVFHTDQTKVMDGTMVRILSWYDNEWGFSSRMSDTAVALGKLI MAVRVAINGFGRIGRNILRAIVESGRTDIQVVAINDLGPVETNAHLLRYDSVHGRFPKEVEVAGDTIDVGYGPIKVHAVRNPAELPWKEENVDIALECTGIFTSRDKAALHLEAGAKRVIVSAPADGADLTVVYGVNNDKLTKDHLVISNASCTTNCLAPVAQVLNDTIGIEKGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGVAIRVPTPNVSVVDLTFIAKRETTVEEVNNAIREAANGRLKGILGYTDEKLVSHDFNHDSHSSVFHTDQTKVMDGTMVRILSWYDNEWGFSSRMSDTAVALGKLI 3doc-a5-m1-cA_3doc-a5-m1-cB Crystal Structure of TrkA glyceraldehyde-3-phosphate dehydrogenase from Brucella melitensis Q2YRE0 Q2YRE0 2.4 X-RAY DIFFRACTION 103 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 335 335 3doc-a1-m1-cA_3doc-a1-m1-cB 3doc-a1-m1-cD_3doc-a1-m1-cC 3doc-a4-m1-cD_3doc-a4-m1-cC MAVRVAINGFGRIGRNILRAIVESGRTDIQVVAINDLGPVETNAHLLRYDSVHGRFPKEVEVAGDTIDVGYGPIKVHAVRNPAELPWKEENVDIALECTGIFTSRDKAALHLEAGAKRVIVSAPADGADLTVVYGVNNDKLTKDHLVISNASCTTNCLAPVAQVLNDTIGIEKGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGVAIRVPTPNVSVVDLTFIAKRETTVEEVNNAIREAANGRLKGILGYTDEKLVSHDFNHDSHSSVFHTDQTKVMDGTMVRILSWYDNEWGFSSRMSDTAVALGKLI MAVRVAINGFGRIGRNILRAIVESGRTDIQVVAINDLGPVETNAHLLRYDSVHGRFPKEVEVAGDTIDVGYGPIKVHAVRNPAELPWKEENVDIALECTGIFTSRDKAALHLEAGAKRVIVSAPADGADLTVVYGVNNDKLTKDHLVISNASCTTNCLAPVAQVLNDTIGIEKGFMTTIHSYTGDQPTLDTMHKDLYRARAAALSMIPTSTGAAKAVGLVLPELKGKLDGVAIRVPTPNVSVVDLTFIAKRETTVEEVNNAIREAANGRLKGILGYTDEKLVSHDFNHDSHSSVFHTDQTKVMDGTMVRILSWYDNEWGFSSRMSDTAVALGKLI 3doh-a1-m2-cB_3doh-a1-m3-cB Crystal Structure of a Thermostable Esterase Q9WXP0 Q9WXP0 2.6 X-RAY DIFFRACTION 36 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 373 373 3doh-a1-m1-cA_3doh-a1-m2-cA 3doh-a1-m1-cA_3doh-a1-m3-cA 3doh-a1-m1-cB_3doh-a1-m2-cB 3doh-a1-m1-cB_3doh-a1-m3-cB 3doh-a1-m2-cA_3doh-a1-m3-cA 3doi-a1-m1-cA_3doi-a1-m2-cA 3doi-a1-m1-cA_3doi-a1-m3-cA 3doi-a1-m1-cB_3doi-a1-m2-cB 3doi-a1-m1-cB_3doi-a1-m3-cB 3doi-a1-m2-cA_3doi-a1-m3-cA 3doi-a1-m2-cB_3doi-a1-m3-cB VKSVTLITKVFPEGEKVCAVVIEYPVEIDGQKLSPDQFSVKVKTGDTYSSRTITKVYANNSGGLSFSIFNNRGKYVVLELSTEDLHSNTIVFGPNFLNTRMKLDYIVSQLVPIFDVDGNEVEPFTSKQTDEKHLIIDDFLAFTFKDPETGVEIPYRLFVPKDVNPDRKYPLVVFLHGAGERGTDNYLQVAGNRGAVVWAQPRYQVVHPCFVLAPQCPPNSSWSTLFTDNPFNPEKPLLAVIKIIRKLLDEYNIDENRIYITGLSMGGYGTWTAIMEFPELFAAAIPICGGGDVSKVERIKDIPIWVFHAEDDPVVPVENSRVLVKKLAEIGGKVRYTEYEKGFMEKHGWDPHGSWIPTYENQEAIEWLFEQSR VKSVTLITKVFPEGEKVCAVVIEYPVEIDGQKLSPDQFSVKVKTGDTYSSRTITKVYANNSGGLSFSIFNNRGKYVVLELSTEDLHSNTIVFGPNFLNTRMKLDYIVSQLVPIFDVDGNEVEPFTSKQTDEKHLIIDDFLAFTFKDPETGVEIPYRLFVPKDVNPDRKYPLVVFLHGAGERGTDNYLQVAGNRGAVVWAQPRYQVVHPCFVLAPQCPPNSSWSTLFTDNPFNPEKPLLAVIKIIRKLLDEYNIDENRIYITGLSMGGYGTWTAIMEFPELFAAAIPICGGGDVSKVERIKDIPIWVFHAEDDPVVPVENSRVLVKKLAEIGGKVRYTEYEKGFMEKHGWDPHGSWIPTYENQEAIEWLFEQSR 3doh-a1-m3-cB_3doh-a1-m3-cA Crystal Structure of a Thermostable Esterase Q9WXP0 Q9WXP0 2.6 X-RAY DIFFRACTION 42 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 373 375 3doh-a1-m1-cB_3doh-a1-m1-cA 3doh-a1-m2-cB_3doh-a1-m2-cA 3doi-a1-m1-cB_3doi-a1-m1-cA 3doi-a1-m2-cB_3doi-a1-m2-cA 3doi-a1-m3-cB_3doi-a1-m3-cA VKSVTLITKVFPEGEKVCAVVIEYPVEIDGQKLSPDQFSVKVKTGDTYSSRTITKVYANNSGGLSFSIFNNRGKYVVLELSTEDLHSNTIVFGPNFLNTRMKLDYIVSQLVPIFDVDGNEVEPFTSKQTDEKHLIIDDFLAFTFKDPETGVEIPYRLFVPKDVNPDRKYPLVVFLHGAGERGTDNYLQVAGNRGAVVWAQPRYQVVHPCFVLAPQCPPNSSWSTLFTDNPFNPEKPLLAVIKIIRKLLDEYNIDENRIYITGLSMGGYGTWTAIMEFPELFAAAIPICGGGDVSKVERIKDIPIWVFHAEDDPVVPVENSRVLVKKLAEIGGKVRYTEYEKGFMEKHGWDPHGSWIPTYENQEAIEWLFEQSR VKSVTLITKVFPEGEKVCAVVIEYPVEIDGQKLSPDQFSVKVKTGDTYSSRTITKVYANNSGGLSFSIFNNRGKYVVLELSTEDLHSNTIVFGPNFLNTRMKLDYIVSQLVPIFDVDGNEVEPFTSKQTDEKHLIIDDFLAFTFKDPETGVEIPYRLFVPKDVNPDRKYPLVVFLHGAGERGTDNYLQVAGNRGAVVWAQPRYQVVHPCFVLAPQCPPNSSWSTLFTDRENPFNPEKPLLAVIKIIRKLLDEYNIDENRIYITGLSMGGYGTWTAIMEFPELFAAAIPICGGGDVSKVERIKDIPIWVFHAEDDPVVPVENSRVLVKKLAEIGGKVRYTEYEKGFMEKHGWDPHGSWIPTYENQEAIEWLFEQSR 3doj-a1-m2-cA_3doj-a1-m4-cA Structure of Glyoxylate reductase 1 from Arabidopsis (AtGLYR1) Q9LSV0 Q9LSV0 2.101 X-RAY DIFFRACTION 222 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 292 292 3doj-a1-m1-cA_3doj-a1-m3-cA GSHMMEVGFLGLGIMGKAMSMNLLKNGFKVTVWNRTLSKCDELVEHGASVCESPAEVIKKCKYTIAMLSDPCAALSVVFDKGGVLEQICEGKGYIDMSTVDAETSLKINEAITGKGGRFVEGPVSGSKKPAEDGQLIILAAGDKALFEESIPAFDVLGKRSFYLGQVGNGAKMKLIVNMIMGSMMNAFSEGLVLADKSGLSSDTLLDILDLGAMTNPMFKGKGPSMNKSSYPPAFPLKHQQKDMRLALALGDENAVSMPVAAAANEAFKKARSLGLGDLDFSAVIEAVKFSR GSHMMEVGFLGLGIMGKAMSMNLLKNGFKVTVWNRTLSKCDELVEHGASVCESPAEVIKKCKYTIAMLSDPCAALSVVFDKGGVLEQICEGKGYIDMSTVDAETSLKINEAITGKGGRFVEGPVSGSKKPAEDGQLIILAAGDKALFEESIPAFDVLGKRSFYLGQVGNGAKMKLIVNMIMGSMMNAFSEGLVLADKSGLSSDTLLDILDLGAMTNPMFKGKGPSMNKSSYPPAFPLKHQQKDMRLALALGDENAVSMPVAAAANEAFKKARSLGLGDLDFSAVIEAVKFSR 3doj-a1-m3-cA_3doj-a1-m4-cA Structure of Glyoxylate reductase 1 from Arabidopsis (AtGLYR1) Q9LSV0 Q9LSV0 2.101 X-RAY DIFFRACTION 47 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 292 292 3doj-a1-m1-cA_3doj-a1-m2-cA GSHMMEVGFLGLGIMGKAMSMNLLKNGFKVTVWNRTLSKCDELVEHGASVCESPAEVIKKCKYTIAMLSDPCAALSVVFDKGGVLEQICEGKGYIDMSTVDAETSLKINEAITGKGGRFVEGPVSGSKKPAEDGQLIILAAGDKALFEESIPAFDVLGKRSFYLGQVGNGAKMKLIVNMIMGSMMNAFSEGLVLADKSGLSSDTLLDILDLGAMTNPMFKGKGPSMNKSSYPPAFPLKHQQKDMRLALALGDENAVSMPVAAAANEAFKKARSLGLGDLDFSAVIEAVKFSR GSHMMEVGFLGLGIMGKAMSMNLLKNGFKVTVWNRTLSKCDELVEHGASVCESPAEVIKKCKYTIAMLSDPCAALSVVFDKGGVLEQICEGKGYIDMSTVDAETSLKINEAITGKGGRFVEGPVSGSKKPAEDGQLIILAAGDKALFEESIPAFDVLGKRSFYLGQVGNGAKMKLIVNMIMGSMMNAFSEGLVLADKSGLSSDTLLDILDLGAMTNPMFKGKGPSMNKSSYPPAFPLKHQQKDMRLALALGDENAVSMPVAAAANEAFKKARSLGLGDLDFSAVIEAVKFSR 3dor-a1-m1-cA_3dor-a1-m1-cB Crystal Structure of mature CPAF O84866 O84866 2.2 X-RAY DIFFRACTION 141 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 522 527 3dja-a1-m1-cA_3dja-a1-m1-cB 3dpm-a1-m1-cA_3dpm-a1-m1-cB SLVCKNALQDLSFLEHLLQVKYAPKTWKEQYLGWDLVQSSVSAQQKLRTQENPSTSFCQQVLADFIGGLNDFHAGVTFFAIESAYLPYTVQKSSDGRFYFVDIMTFSSEIRVGDELLEVDGAPVQDVLATLYGSNHKGTAAEESAALRTLFSRMASLGHKVPSGRTTLKIRRPFGTTREVRVKWRYVPEGVGDLATIAPSIRAPQLGYNIGSTDGFLPVIGPVIWESEGLFRAYISSVTDGDGKSHKVGFLRIPTYSWQDMEDFDPSGPPPWEEFAKIIQVFSSNTEALIIDQTNNPGGSVLYLYALLSMLTDRPLELPKHRMILTQDEVVDALDWLTLLENVDTNVESRLALGDNMEGYTVDLQVAEYLKSFGRQVLNCWSKGDIELSTPIPLFGFEKIHPHPRVQYSKPICVLINEQDFSCADFFPVVLKDNDRALIVGTRTAGAGGFVFNVQFPNRTGIKTCSLTGSLAVREHGAFIENIGVEPHIDLPFTANDIRYKGYSEYLDKVKKLVCQLINNDG SLVCKNALQDLSFLEHLLQVKYAPKTWKEQYLGWDLVQSSVSAQQKLRTQENPSTSFCQQVLADFIGGLNDFHAGVTFFAIESAYLPYTVQKSSDGRFYFVDIMTFSSEIRVGDELLEVDGAPVQDVLATLYGSNHKGTAAEESAALRTLFSRMASLGHKVPSGRTTLKIRRPFGTTREVRVKWRYVPEGVGDLATIAPSIRAPQLGYNIGSTDGFLPVIGPVIWESEGLFRAYISSVTDGDGKSHKVGFLRIPTYSWQDMEDFDPSGPPPWEEFAKIIQVFSSNTEALIIDQTNNPGGSVLYLYALLSMLTDRPLELPKHRMILTQDEVVDALDWLTLLENVDTNVESRLALGDNMEGYTVDLQVAEYLKSFGRQVLNCWSKGDIELSTPIPLFGFEKIHPHPRVQYSKPICVLINEQDFSCADFFPVVLKDNDRALIVGTRTAGAGGFVFNVQFPNRTGIKTCSLTGSLAVREHGAFIENIGVEPHIDLPFTANDIRYKGYSEYLDKVKKLVCQLINNDGTIILA 3dor-a2-m1-cA_3dor-a2-m2-cB Crystal Structure of mature CPAF O84866 O84866 2.2 X-RAY DIFFRACTION 65 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 522 527 SLVCKNALQDLSFLEHLLQVKYAPKTWKEQYLGWDLVQSSVSAQQKLRTQENPSTSFCQQVLADFIGGLNDFHAGVTFFAIESAYLPYTVQKSSDGRFYFVDIMTFSSEIRVGDELLEVDGAPVQDVLATLYGSNHKGTAAEESAALRTLFSRMASLGHKVPSGRTTLKIRRPFGTTREVRVKWRYVPEGVGDLATIAPSIRAPQLGYNIGSTDGFLPVIGPVIWESEGLFRAYISSVTDGDGKSHKVGFLRIPTYSWQDMEDFDPSGPPPWEEFAKIIQVFSSNTEALIIDQTNNPGGSVLYLYALLSMLTDRPLELPKHRMILTQDEVVDALDWLTLLENVDTNVESRLALGDNMEGYTVDLQVAEYLKSFGRQVLNCWSKGDIELSTPIPLFGFEKIHPHPRVQYSKPICVLINEQDFSCADFFPVVLKDNDRALIVGTRTAGAGGFVFNVQFPNRTGIKTCSLTGSLAVREHGAFIENIGVEPHIDLPFTANDIRYKGYSEYLDKVKKLVCQLINNDG SLVCKNALQDLSFLEHLLQVKYAPKTWKEQYLGWDLVQSSVSAQQKLRTQENPSTSFCQQVLADFIGGLNDFHAGVTFFAIESAYLPYTVQKSSDGRFYFVDIMTFSSEIRVGDELLEVDGAPVQDVLATLYGSNHKGTAAEESAALRTLFSRMASLGHKVPSGRTTLKIRRPFGTTREVRVKWRYVPEGVGDLATIAPSIRAPQLGYNIGSTDGFLPVIGPVIWESEGLFRAYISSVTDGDGKSHKVGFLRIPTYSWQDMEDFDPSGPPPWEEFAKIIQVFSSNTEALIIDQTNNPGGSVLYLYALLSMLTDRPLELPKHRMILTQDEVVDALDWLTLLENVDTNVESRLALGDNMEGYTVDLQVAEYLKSFGRQVLNCWSKGDIELSTPIPLFGFEKIHPHPRVQYSKPICVLINEQDFSCADFFPVVLKDNDRALIVGTRTAGAGGFVFNVQFPNRTGIKTCSLTGSLAVREHGAFIENIGVEPHIDLPFTANDIRYKGYSEYLDKVKKLVCQLINNDGTIILA 3dp7-a1-m1-cB_3dp7-a1-m1-cA CRYSTAL STRUCTURE OF SAM-dependent methyltransferase from Bacteroides vulgatus ATCC 8482 A6KZ44 A6KZ44 2.33 X-RAY DIFFRACTION 278 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 350 351 TKEQCTAAEAQRLAQEIAFGPVVFQVSRLMLKFGIFQLLSGKREGYTLQEISGRTGLTRYAAQVLLEASLTIGTILLEEDRYVLAKAGWFLLNDKMARVNMEFNHDVNYQGLFHLEEALLNGRPEGLKVFGEWPTIYEGLSQLPEQVQKSWFGFDHFYSDQSFGKALEIVFSHHPKRLLDIGGNTGKWATQCVQYNKEVEVTIVDLPQQLEMMRKQTAGLSGSERIHGHGANLLDRDVPFPTGFDAVWMSQFLDCFSEEEVISILTRVAQSIGKDSKVYIMETLWDRQRYETASYCLTQISLYFTAMANGNSKMFHSDDLIRCIENAGLEVEEIQDNIGLGHSILQCRLK YTKEQCTAAEAQRLAQEIAFGPVVFQVSRLMLKFGIFQLLSGKREGYTLQEISGRTGLTRYAAQVLLEASLTIGTILLEEDRYVLAKAGWFLLNDKMARVNMEFNHDVNYQGLFHLEEALLNGRPEGLKVFGEWPTIYEGLSQLPEQVQKSWFGFDHFYSDQSFGKALEIVFSHHPKRLLDIGGNTGKWATQCVQYNKEVEVTIVDLPQQLEMMRKQTAGLSGSERIHGHGANLLDRDVPFPTGFDAVWMSQFLDCFSEEEVISILTRVAQSIGKDSKVYIMETLWDRQRYETASYCLTQISLYFTAMANGNSKMFHSDDLIRCIENAGLEVEEIQDNIGLGHSILQCRLK 3dpb-a1-m1-cC_3dpb-a1-m1-cB Crystal structure of the complex of the Caf1M chaperone with the mini-fiber of two Caf1 subunits (Caf1:Caf1), carrying the Ala9Val, Ala11Val, and Leu13Val mutations in the Gd donor strand P26948 P26948 2.2 X-RAY DIFFRACTION 85 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 128 149 1p5u-a1-m1-cC_1p5u-a1-m1-cB 1z9s-a1-m1-cC_1z9s-a1-m1-cB 3dos-a1-m1-cC_3dos-a1-m1-cB 3dos-a2-m1-cF_3dos-a2-m1-cE 3dsn-a2-m1-cF_3dsn-a2-m1-cE ITLTYKEGAPITIMDNGNIDTELLVGTLTLGGYKTGTTSTSVNFTDAAGDPMYLTFTSQDGNNHQFTTKVIGKDSRDFDISPKVNGENLDVVLATGSQDFFVRSIGSKGGKLAAGKYTDAVTVTVSNQ ADLTASTTVTVTVVEPARITLTYKEGAPITIMDNGNIDTELLVGTLTLGGYKTGTTSTSVNFTDAAGDPMYLTFTSQDGNNHQFTTKVIGKDSRDFDISPKVNGENLVGDDVVLATGSQDFFVRSIGSKGGKLAAGKYTDAVTVTVSNQ 3dpi-a1-m1-cB_3dpi-a1-m2-cA Crystal Structure of NAD+ synthetase from Burkholderia Pseudomallei Q3JL79 Q3JL79 2.2 X-RAY DIFFRACTION 38 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 230 269 DQAARRRAIAAELHVSPTFDARDEAERRIGFVADYLRTAGLRACVLGISGGIDSSTAGRLAQLAVERLRASGYDARFVAMRLPYGAQEADARRALAFVRADETLTVDVKPAADAMLAALAAGGLAYLDHAQQDFVLGNIKARERMIAQYAVAGARNGVVIGTDHAAESVMGADVLPLAGLTKRRVRALARMLGADEPAYGITYEQIDDFLEGKPMDDAVAETVLRFYDAT SMSRPDQAARRRAIAAELHVSPTFDARDEAERRIGFVADYLRTAGLRACVLGISGGIDSSTAGRLAQLAVERLRASGYDARFVAMRLPYGAEADARRALAFVRADETLTVDVKPAADAMLAALAAGGLAYLDHAQQDFVLGNIKARERMIAQYAVAGARNGVVIGTDHAAESVMGFFTKFGDGGADVLPLAGLTKRRVRALARMLGADEPLVLKTPTADLETLRPQRPHAYGITYEQIDDFLEGKPMDDAVAETVLRFYDATRHKRALP 3dpi-a1-m2-cB_3dpi-a1-m1-cA Crystal Structure of NAD+ synthetase from Burkholderia Pseudomallei Q3JL79 Q3JL79 2.2 X-RAY DIFFRACTION 38 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 230 269 DQAARRRAIAAELHVSPTFDARDEAERRIGFVADYLRTAGLRACVLGISGGIDSSTAGRLAQLAVERLRASGYDARFVAMRLPYGAQEADARRALAFVRADETLTVDVKPAADAMLAALAAGGLAYLDHAQQDFVLGNIKARERMIAQYAVAGARNGVVIGTDHAAESVMGADVLPLAGLTKRRVRALARMLGADEPAYGITYEQIDDFLEGKPMDDAVAETVLRFYDAT SMSRPDQAARRRAIAAELHVSPTFDARDEAERRIGFVADYLRTAGLRACVLGISGGIDSSTAGRLAQLAVERLRASGYDARFVAMRLPYGAEADARRALAFVRADETLTVDVKPAADAMLAALAAGGLAYLDHAQQDFVLGNIKARERMIAQYAVAGARNGVVIGTDHAAESVMGFFTKFGDGGADVLPLAGLTKRRVRALARMLGADEPLVLKTPTADLETLRPQRPHAYGITYEQIDDFLEGKPMDDAVAETVLRFYDATRHKRALP 3dpi-a2-m1-cB_3dpi-a2-m1-cA Crystal Structure of NAD+ synthetase from Burkholderia Pseudomallei Q3JL79 Q3JL79 2.2 X-RAY DIFFRACTION 122 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 230 269 3dpi-a1-m1-cB_3dpi-a1-m1-cA 3dpi-a1-m2-cB_3dpi-a1-m2-cA DQAARRRAIAAELHVSPTFDARDEAERRIGFVADYLRTAGLRACVLGISGGIDSSTAGRLAQLAVERLRASGYDARFVAMRLPYGAQEADARRALAFVRADETLTVDVKPAADAMLAALAAGGLAYLDHAQQDFVLGNIKARERMIAQYAVAGARNGVVIGTDHAAESVMGADVLPLAGLTKRRVRALARMLGADEPAYGITYEQIDDFLEGKPMDDAVAETVLRFYDAT SMSRPDQAARRRAIAAELHVSPTFDARDEAERRIGFVADYLRTAGLRACVLGISGGIDSSTAGRLAQLAVERLRASGYDARFVAMRLPYGAEADARRALAFVRADETLTVDVKPAADAMLAALAAGGLAYLDHAQQDFVLGNIKARERMIAQYAVAGARNGVVIGTDHAAESVMGFFTKFGDGGADVLPLAGLTKRRVRALARMLGADEPLVLKTPTADLETLRPQRPHAYGITYEQIDDFLEGKPMDDAVAETVLRFYDATRHKRALP 3dpj-a4-m1-cB_3dpj-a4-m1-cA The crystal structure of a TetR transcription regulator from Silicibacter pomeroyi DSS Q5LS67 Q5LS67 1.9 X-RAY DIFFRACTION 103 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 184 187 3dpj-a1-m1-cF_3dpj-a1-m1-cE 3dpj-a2-m1-cH_3dpj-a2-m1-cG 3dpj-a3-m1-cD_3dpj-a3-m1-cC VQAQTRDQIVAAADELFYRQGFAQTSFVDISAAVGISRGNFYYHFKTKDEILAEVIRLRLARTAQLADWQGTGDSPRARIASFIDLINRAKITRYGCPVGSLCTELSKLDHAAQGQANGLFTLFRDWLQRQFAEAGCTTEAPALAHLLARSQGAATLAQSFHDEGFLRSEVADHRWLDNTLPTT SNAVQAQTRDQIVAAADELFYRQGFAQTSFVDISAAVGISRGNFYYHFKTKDEILAEVIRLRLARTAQLADWQGTGDSPRARIASFIDLINRAKITRYGCPVGSLCTELSKLDHAAQGQANGLFTLFRDWLQRQFAEAGCTTEAPALAHLLARSQGAATLAQSFHDEGFLRSEVADHRWLDNTLPTT 3dpt-a1-m1-cA_3dpt-a1-m1-cB COR domain of Rab family protein (Roco) Q8KC98 Q8KC98 2.9 X-RAY DIFFRACTION 60 0.99 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 298 299 SWIKVKEKLVEATTAQRYLNRTEVEKICNDSGITDPGERKTLLGYLNNLGIVLYFEALDLSEIYVLDPHWVTIGVYRIINSSKTKNGHLNTSALGYILNEEQIRKFTYTLLEQRYLLDIMKQFELCYDEGKGLFIIPSNLPTQIDNEPEITEGEPLRFIMKYDYLPSTIIPRLMIAMQHQILDRMQWRYGMVLKSQDHEGALAKVVAETKDSTITIAIQGEPRCKREYLSIIWYEIKKINANFTNLDVKEFIPLPGHPDELVEYKELLGLEKMGRDEYVSGKLEKVFSVSKMLDSVIS APSWIKVKEKLVEATTAQRYLNRTEVEKICNDSGITDPGERKTLLGYLNNLGIVLYFEALDLSEIYVLDPHWVTIGVYRIINSSKTKNGHLNTSALGYILNEEKFTYTLLEQRYLLDIMKQFELCYDEGKGLFIIPSNLPTQIDNEPEITEGEPLRFIMKYDYLPSTIIPRLMIAMQHQILDRMQWRYGMVLKSQDHEGALAKVVAETKDSTITIAIQGEPRCKREYLSIIWYEIKKINANFTNLDVKEFIPLPGHPDELVEYKELLGLEKMGRDEYVSGKLEKVFSVSKMLDSVISKE 3dqg-a2-m1-cC_3dqg-a2-m1-cD Peptide-binding domain of heat shock 70 kDa protein F, mitochondrial precursor, from Caenorhabditis elegans. P11141 P11141 1.72 X-RAY DIFFRACTION 148 0.986 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 138 147 3dqg-a1-m1-cA_3dqg-a1-m1-cB DVTPLSLGIETLGGIMTKLITRNTTIPTKKSQVFSTAADGQTQVQIKVFQGEREMATSNKLLGQFSLVGIPPAPRGVPQVEVTFDIDANGIVNVSARDRGTGKEQQIVIQSNMIKEAEKNAAEDAKRKELVEVINQAE SNADVTPLSLGIETLGGIMTKLITRNTTIPTKKSQVFSTAADGQTQVQIKVFQGEREMATSNKLLGQFSLVGIPPAPRGVPQVEVTFDIDANGIVNVSARDRGTGKEQQIVIQSGLSKDQIENMIKEAEKNAAEDAKRKELVEVINQ 3dqp-a1-m1-cA_3dqp-a1-m2-cA Crystal structure of the oxidoreductase ylbE from Lactococcus lactis, Northeast Structural Genomics Consortium Target KR121. Q9CGI7 Q9CGI7 1.4 X-RAY DIFFRACTION 43 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 213 213 KIFIVGSTGRVGKSLLKSLSTTDYQIYAGARKVEQVPQYNNVKAVHFDVDWTPEEAKQLHGDAIINVSGSGGKSLLKVDLYGAVKLQAAEKAEVKRFILLSTIFSLQPEKWIGAGFDALKDYYIAKHFADLYLTKETNLDYTIIQPGALTEEEATGLIDINDEVSASNTIGDVADTIKELVTDHSIGKVISHNGKTAIKEALESLLEHHHHHH KIFIVGSTGRVGKSLLKSLSTTDYQIYAGARKVEQVPQYNNVKAVHFDVDWTPEEAKQLHGDAIINVSGSGGKSLLKVDLYGAVKLQAAEKAEVKRFILLSTIFSLQPEKWIGAGFDALKDYYIAKHFADLYLTKETNLDYTIIQPGALTEEEATGLIDINDEVSASNTIGDVADTIKELVTDHSIGKVISHNGKTAIKEALESLLEHHHHHH 3dqq-a1-m1-cA_3dqq-a1-m2-cA The crystal structure of the putative tRNA synthase from Salmonella typhimurium LT2 Q8ZMG5 Q8ZMG5 2.7 X-RAY DIFFRACTION 97 1.0 419 419 GMLKIGVIADDFTGATDIASFLVENGMPTVQINDVPTGTQPEGCDAVVISLKTRSCPAQEAIKQSLAALVWLKKQGCQQVYFKYCSTFDSTAEGNIGPVTDALMVALDTSFTVISPALPVNGRTVYQGYLFVMNHLLAESGMRHHPINPMTDSYLPRLMEAQAQGRCGVIPAQTLDEGVAATRAALSRLQQEGYRYAVLDALNERHLEIQGEVLRDAPLVTGGSGLAMGLARQWAKHGVSRSAGYPLSGRAVVLSGSCSQMTNQQVAFYRQHAPTRDVDVARCLSSETREAYAEALAQWVLSQDSELAPMISATASTQALAAIQQQYGATEASHAVEALFSLLAARLAEGGITRFIVAGGETSGVVTQSLGITGFHIGPCISPGVPWVNALHAPVSLALKSGNFGDESFFIRAQREFQV GMLKIGVIADDFTGATDIASFLVENGMPTVQINDVPTGTQPEGCDAVVISLKTRSCPAQEAIKQSLAALVWLKKQGCQQVYFKYCSTFDSTAEGNIGPVTDALMVALDTSFTVISPALPVNGRTVYQGYLFVMNHLLAESGMRHHPINPMTDSYLPRLMEAQAQGRCGVIPAQTLDEGVAATRAALSRLQQEGYRYAVLDALNERHLEIQGEVLRDAPLVTGGSGLAMGLARQWAKHGVSRSAGYPLSGRAVVLSGSCSQMTNQQVAFYRQHAPTRDVDVARCLSSETREAYAEALAQWVLSQDSELAPMISATASTQALAAIQQQYGATEASHAVEALFSLLAARLAEGGITRFIVAGGETSGVVTQSLGITGFHIGPCISPGVPWVNALHAPVSLALKSGNFGDESFFIRAQREFQV 3dqv-a3-m1-cY_3dqv-a3-m2-cR Structural Insights into NEDD8 Activation of Cullin-RING Ligases: Conformational Control of Conjugation P62877 P62877 3 X-RAY DIFFRACTION 17 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 84 85 KKRFEVKKWNAVALWAWDIVVDNCAICRNHICIECQANQASATSEECTVAWGVCNHAFHFHCISRWLKTRQVCPLDNREWEFQK KRFEVKKWNAVALWAWDIVVDNCAICRNHIDLCIECQANQASATSEECTVAWGVCNHAFHFHCISRWLKTRQVCPLDNREWEFQK 3dqv-a3-m2-cC_3dqv-a3-m1-cD Structural Insights into NEDD8 Activation of Cullin-RING Ligases: Conformational Control of Conjugation Q93034 Q93034 3 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 365 ESKCPEELANYCDLLRKTPLSKKLTSEEIEAKLKEVLKKLKYVQNKDVFRYHKAHLTRRLILDISADSEIEENVEWLREVGPADYVNKLARFQDIKVSEDLNQAFKEHKALPADSVNIKILNAGAWSRSSEKVFVSLPTELEDLIPEVEEFYKKNHSGRKLHWHHLSNGIITFKNEVGQYDLEVTTFQLAVLFAWNQRPREKISFENLKLATELPDAELRRTLWSLVAFPKLKRQVLLYEPQVNSPKDFTEGTLFSVNQEFSLIKNAKVQKRGKINLIGRLQLTTERREEENEGIVQLRILRTQEAIIQIKRKKISNAQLQTELVEILKNFLPQKKIKEQIEWLIEHKYIRRDESDINTFIYA ESKCPEELANYCDLLRKTPLSKKLTSEEIEAKLKEVLKKLKYVQNKDVFRYHKAHLTRRLILDISADSEIEENVEWLREVGPADYVNKLARFQDIKVSEDLNQAFKEHKNNALPADSVNIKILNAGAWSRSSEKVFVSLPTELEDLIPEVEEFYKKNHSGRKLHWHHLSNGIITFKNEVGQYDLEVTTFQLAVLFAWNQRPREKISFENLKLATELPDAELRRTLWSLVAFPKLKRQVLLYEPQVNSPKDFTEGTLFSVNQEFSLIKNAKVQKRGKINLIGRLQLTTERREEENEGIVQLRILRTQEAIIQIKRKKISNAQLQTELVEILKNFLPQKKIKEQIEWLIEHKYIRRDESDINTFIYA 3dr2-a1-m1-cB_3dr2-a1-m1-cA Structural and Functional Analyses of XC5397 from Xanthomonas campestris: A Gluconolactonase Important in Glucose Secondary Metabolic Pathways B0RN69 B0RN69 1.67 X-RAY DIFFRACTION 57 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 297 299 CRVRPAGPAVPADCDPPRITHAALAARLGDARLLTLYDQATWSEGPAWWEAQRTLVWSDLVGRRVLGWREDGTVDVLLDATAFTNGNAVDAQQRLVHCEHGRRAITRSDADGQAHLLVGRYAGKRLNSPNDLIVARDGAIWFTDPPFGLRKPSQGCPADPELAHHSVYRLPPDGSPLQRMADLDHPNGLAFSPDEQTLYVSQTPGSVEITAFAWRDGALHDRRHFASVPDGLPDGFCVDRGGWLWSSSGTGVCVFDSDGQLLGHIPTPGTASNCTFDQAQQRLFITGGPCLWMLPLP HCRVRPAGPAVPADCDPPRITHAALAARLGDARLLTLYDQATWSEGPAWWEAQRTLVWSDLVGRRVLGWREDGTVDVLLDATAFTNGNAVDAQQRLVHCEHGRRAITRSDADGQAHLLVGRYAGKRLNSPNDLIVARDGAIWFTDPPFGLRKPSQGCPADPELAHHSVYRLPPDGSPLQRMADLDHPNGLAFSPDEQTLYVSQTPEGSVEITAFAWRDGALHDRRHFASVPDGLPDGFCVDRGGWLWSSSGTGVCVFDSDGQLLGHIPTPGTASNCTFDQAQQRLFITGGPCLWMLPLP 3dr3-a1-m1-cA_3dr3-a1-m4-cA Structure of IDP00107, a potential N-acetyl-gamma-glutamylphosphate reductase from Shigella flexneri P59310 P59310 2 X-RAY DIFFRACTION 30 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 335 335 3dr3-a1-m2-cA_3dr3-a1-m3-cA AMLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVELPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQALQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI AMLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVELPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQALQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI 3dr3-a2-m1-cA_3dr3-a2-m2-cA Structure of IDP00107, a potential N-acetyl-gamma-glutamylphosphate reductase from Shigella flexneri P59310 P59310 2 X-RAY DIFFRACTION 95 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 335 335 3dr3-a1-m1-cA_3dr3-a1-m2-cA 3dr3-a1-m3-cA_3dr3-a1-m4-cA AMLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVELPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQALQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI AMLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVELPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQALQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI 3dr3-a3-m1-cA_3dr3-a3-m3-cA Structure of IDP00107, a potential N-acetyl-gamma-glutamylphosphate reductase from Shigella flexneri P59310 P59310 2 X-RAY DIFFRACTION 49 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 335 335 3dr3-a1-m1-cA_3dr3-a1-m3-cA 3dr3-a1-m2-cA_3dr3-a1-m4-cA AMLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVELPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQALQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI AMLNTLIVGASGYAGAELVTYVNRHPHMNITALTVSAQSNDAGKLISDLHPQLKGIVELPLQPMSDISEFSPGVDVVFLATAHEVSHDLAPQFLEAGCVVFDLSGAFRVNDATFYEKYYGFTHQYPELLEQAAYGLAEWCGNKLKEANLIAVPGCYPTAAQLALKPLIDADLLDLNQWPVINATSGVSGAGRKAAISNSFCEVSLQPYGVFTHRHQPEIATHLGADVIFTPHLGNFPRGILETITCRLKSGVTQAQVAQALQQAYAHKPLVRLYDKGVPALKNVVGLPFCDIGFAVQGEHLIIVATEDNLLKGAAAQAVQCANIRFGYAETQSLI 3dr4-a2-m1-cD_3dr4-a2-m1-cC GDP-perosamine synthase K186A mutant from Caulobacter crescentus with bound sugar ligand Q9A9H3 Q9A9H3 1.6 X-RAY DIFFRACTION 150 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 367 368 3bn1-a1-m1-cA_3bn1-a1-m1-cB 3bn1-a2-m1-cD_3bn1-a2-m1-cC 3dr4-a1-m1-cA_3dr4-a1-m1-cB 3dr7-a1-m1-cB_3dr7-a1-m1-cA 3dr7-a2-m1-cC_3dr7-a2-m1-cD PRISVAAPRLDGNERDYVLECMDTTWISSVGRFIVEFEKAFADYCGVKHAIACNNGTTALHLALVAMGIGPGDEVIVPSLTYIASANSVTYCGATPVLVDNDPRTFNLDAAKLEALITPRTKAIMPVHLYGQICDMDPILEVARRHNLLVIEDAAEAVGATYRGKKSGSLGDCATFSFFGNAIITTGEGGMITTNDDDLAAKMRLLRGQGMDPNRRYWFPIVGFNYRMTNIQAAIGLAQLERVDEHLAARERVVGWYEQKLARLGNRVTKPHVALTGRHVFWMYTVRLGEGLSTTRDQVIKDLDALGIESRPVFHPMHIMPPYAHLATDDLKIAEACGVDGLNLPTHAGLTEADIDRVIAALDQVLV LPRISVAAPRLDGNERDYVLECMDTTWISSVGRFIVEFEKAFADYCGVKHAIACNNGTTALHLALVAMGIGPGDEVIVPSLTYIASANSVTYCGATPVLVDNDPRTFNLDAAKLEALITPRTKAIMPVHLYGQICDMDPILEVARRHNLLVIEDAAEAVGATYRGKKSGSLGDCATFSFFGNAIITTGEGGMITTNDDDLAAKMRLLRGQGMDPNRRYWFPIVGFNYRMTNIQAAIGLAQLERVDEHLAARERVVGWYEQKLARLGNRVTKPHVALTGRHVFWMYTVRLGEGLSTTRDQVIKDLDALGIESRPVFHPMHIMPPYAHLATDDLKIAEACGVDGLNLPTHAGLTEADIDRVIAALDQVLV 3dr5-a1-m1-cA_3dr5-a1-m2-cA Crystal structure of the Q8NRD3_CORGL protein from Corynebacterium glutamicum. Northeast Structural Genomics Consortium target CgR117. Q8NRD3 Q8NRD3 2.25 X-RAY DIFFRACTION 155 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 213 213 NAFEYLRTYVESTTETDAAVARAREDAAEFGLPAPDETGQLLTTLAATTNGNGSTGAIAITPAAGLVGLYILNGLADNTTLTCIDPESEHQRQAKALFREAGYSPSRVRFLLSRPLDVSRLANDSYQLVFGQVSPDLKALVDAAWPLLRRGGALVLADALLDGTIADQTRKDRDTQAARDADEYIRSIEGAHVARLPLGAGLTVVTKALEHHH NAFEYLRTYVESTTETDAAVARAREDAAEFGLPAPDETGQLLTTLAATTNGNGSTGAIAITPAAGLVGLYILNGLADNTTLTCIDPESEHQRQAKALFREAGYSPSRVRFLLSRPLDVSRLANDSYQLVFGQVSPDLKALVDAAWPLLRRGGALVLADALLDGTIADQTRKDRDTQAARDADEYIRSIEGAHVARLPLGAGLTVVTKALEHHH 3dr6-a1-m1-cC_3dr6-a1-m2-cC Structure of yncA, a putative ACETYLTRANSFERASE from Salmonella typhimurium Q8ZPD3 Q8ZPD3 1.75 X-RAY DIFFRACTION 97 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 166 166 3dr6-a2-m1-cB_3dr6-a2-m1-cA 3dr8-a1-m1-cA_3dr8-a1-m1-cB TIRFADKADCAAITEIYNHAVLHTAAIWNDRTVDTDNRLAWYEARQLLGYPVLVSEENGVVTGYASFGDWRSFDGFRYTVEHSVYVHPAHQGKGLGRKLLSRLIDEARRCGKHVVAGIESQNAASIRLHHSLGFTVTAQPQVGVKFGRWLDLTFQLQLDEHAAPDA TIRFADKADCAAITEIYNHAVLHTAAIWNDRTVDTDNRLAWYEARQLLGYPVLVSEENGVVTGYASFGDWRSFDGFRYTVEHSVYVHPAHQGKGLGRKLLSRLIDEARRCGKHVVAGIESQNAASIRLHHSLGFTVTAQPQVGVKFGRWLDLTFQLQLDEHAAPDA 3drb-a1-m1-cA_3drb-a1-m1-cB Crystal structure of Human Brain-type Creatine Kinase P12277 P12277 2 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 3b6r-a1-m1-cA_3b6r-a1-m1-cB 3dre-a1-m1-cB_3dre-a1-m1-cA SHNALKLRFPAEDEFPDLSAHNNHMAKVLTPELYAELRAKSTPSGFTLDDVIQTGVDNPGHPYIMTVGCVAGDEESYEVFKDLFDPIIEDRHGGYKPSDEHKTDLNPDNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLAVEALSSLDGDLAGRYYALKSMTEAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWVNEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKDYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFSEVLKRLRLQKRGTGGVDTAAVGGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEQRLEQGQAIDDLMPAQK SHNALKLRFPAEDEFPDLSAHNNHMAKVLTPELYAELRAKSTPSGFTLDDVIQTGVDNPGHPYIMTVGCVAGDEESYEVFKDLFDPIIEDRHGGYKPSDEHKTDLNPDNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLAVEALSSLDGDLAGRYYALKSMTEAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWVNEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKDYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFSEVLKRLRLQKRGTGGVDTAAVGGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEQRLEQGQAIDDLMPAQK 3drw-a1-m1-cB_3drw-a1-m1-cA Crystal Structure of a Phosphofructokinase from Pyrococcus horikoshii OT3 with AMP O59355 O59355 1.9 X-RAY DIFFRACTION 60 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 450 460 MIPEHLSIYTAYNANIAAIVKLNQETIQNLINAFDPDEVKRRIEEYPREINEPIDFVARLVHTLKLGKPAAVPLVNEKMNEWFDKTFRYEEERLGGQAGIIANTLAGLKIRKVIAYTPFLPKRLAELFKKGVLYPVVENGELQFKPIQEAYREGDPLKINRIFEFRKGLKFKLGDETIEIPNSGRFIVSARFESISRIETREDIKPFLGEIGKEVDGAIFSGYQGLRTKYSDGKDANYYLRRAKEDIIEFKEKDVKIHVEFASVQDRKLRKKIITNILPFVDSVGIDEAEIAQILSVLGYRELADRIFTYNRLEDSILGGMIILDELNFEILQVHTTYYLMYITHRDNPLSEEELAKSLEFGTTLAAARASLGDIRGPDDYKVGLKVPFNERSEYVKLRFEEAKSRLRMREYKVVVIPTRLVQNPVLTVGLGDTISAGAFLTYLEFLKRH SGRENLYFQGMIPEHLSIYTAYNANIAAIVKLNQETIQNLINAFDPDEVKRRIEEYPREINEPIDFVARLVHTLKLGKPAAVPLVNEKMNEWFDKTFRYEEERLGGQAGIIANTLAGLKIRKVIAYTPFLPKRLAELFKKGVLYPVVENGELQFKPIQEAYREGDPLKINRIFEFRKGLKFKLGDETIEIPNSGRFIVSARFESISRIETREDIKPFLGEIGKEVDGAIFSGYQGLRTKYSDGKDANYYLRRAKEDIIEFKEKDVKIHVEFASVQDRKLRKKIITNILPFVDSVGIDEAEIAQILSVLGYRELADRIFTYNRLEDSILGGMIILDELNFEILQVHTTYYLMYITHRDNPLSEEELAKSLEFGTTLAAARASLGDIRGPDDYKVGLKVPFNERSEYVKLRFEEAKSRLRMREYKVVVIPTRLVQNPVLTVGLGDTISAGAFLTYLEFLKRH 3drz-a1-m1-cD_3drz-a1-m1-cE X-ray crystal structure of the N-terminal BTB domain of human KCTD5 protein Q9NXV2 Q9NXV2 1.9 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 97 3drx-a1-m1-cA_3drx-a1-m1-cB 3drx-a1-m1-cA_3drx-a1-m1-cE 3drx-a1-m1-cB_3drx-a1-m1-cC 3drx-a1-m1-cC_3drx-a1-m1-cD 3drx-a1-m1-cE_3drx-a1-m1-cD 3dry-a1-m1-cB_3dry-a1-m1-cA 3dry-a1-m1-cB_3dry-a1-m1-cC 3dry-a1-m1-cD_3dry-a1-m1-cC 3dry-a1-m1-cE_3dry-a1-m1-cA 3dry-a1-m1-cE_3dry-a1-m1-cD 3drz-a1-m1-cA_3drz-a1-m1-cB 3drz-a1-m1-cC_3drz-a1-m1-cB 3drz-a1-m1-cD_3drz-a1-m1-cC 3drz-a1-m1-cE_3drz-a1-m1-cA SKWVRLNVGGTYFLTTRQTLCRDPKSFLYRLCDKDETGAYLIDRDPTYFGPVLNYLRHGKLVINKDLAEEGVLEEAEFYNITSLIKLVKDKIRER SKWVRLNVGGTYFLTTRQTLCRDPKSFLYRLCDSDKDETGAYLIDRDPTYFGPVLNYLRHGKLVINKDLAEEGVLEEAEFYNITSLIKLVKDKIRER 3dsb-a1-m1-cA_3dsb-a1-m1-cB The crystal structure of a possible acetyltransferase from Clostridium difficile 630 Q185U9 Q185U9 1.48 X-RAY DIFFRACTION 165 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 146 146 ELIEIREARDDLDTIAKFNYNLAKETEGKELDDVLTKGVKALLLDERKGKYHVYTVFDKVVAQIYTYEWSDWRNGNFLWIQSVYVDKEYRRKGIFNYLFNYIKNICDKDENIVGRLYVEKENINAKATYESLNYECDYNYEYEVIH ELIEIREARDDLDTIAKFNYNLAKETEGKELDDVLTKGVKALLLDERKGKYHVYTVFDKVVAQIYTYEWSDWRNGNFLWIQSVYVDKEYRRKGIFNYLFNYIKNICDKDENIVGRLYVEKENINAKATYESLNYECDYNYEYEVIH 3dsh-a1-m1-cA_3dsh-a1-m2-cA Crystal structure of dimeric interferon regulatory factor 5 (IRF-5) transactivation domain Q13568 Q13568 2 X-RAY DIFFRACTION 158 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 236 236 EQLLPDLLISPHMLPLTDLEIKFQYRGRPPRALTISNPHGCRLFYSQLEATQEQVELFGPISLEQVRFPSPEDIPSDKQRFYTNQLLDVLDRGLILQLQGQDLYAIRLCQCKVFWSGPCASAHDSCPNPIQREVKTKLFSLEHFLNELILFQKGQTNTPPPFEIFFCFGEEWPDRKPREKKLITVQVVPVAARLLLEMFSGELSWSADDIRLQISNPDLKDRMVEQFKELHHIWQS EQLLPDLLISPHMLPLTDLEIKFQYRGRPPRALTISNPHGCRLFYSQLEATQEQVELFGPISLEQVRFPSPEDIPSDKQRFYTNQLLDVLDRGLILQLQGQDLYAIRLCQCKVFWSGPCASAHDSCPNPIQREVKTKLFSLEHFLNELILFQKGQTNTPPPFEIFFCFGEEWPDRKPREKKLITVQVVPVAARLLLEMFSGELSWSADDIRLQISNPDLKDRMVEQFKELHHIWQS 3dsl-a1-m1-cB_3dsl-a1-m1-cA The Three-dimensional Structure of Bothropasin, the Main Hemorrhagic Factor from Bothrops jararaca venom. O93523 O93523 2.7 X-RAY DIFFRACTION 70 1.0 8724 (Bothrops jararaca) 8724 (Bothrops jararaca) 412 416 KYNPFRYVELFIVVDQGMVTKNNGDLDKIKARMYELANIVNEILRYLYMHAALVGLEIWSNGDKITVKPDVDYTLNSFAEWRKTDLLTRKKHDNAQLLTAIDFNGPTIGYAYIGSMCHPKRSVAIVEDYSPINLVVAVIMAHEMGHNLGIHHDTDFCSCGDYPCIMGPTISNEPSKFFSNCSYIQCWDFIMKENPQCILNEPLGTDIVSPPVCGNELLEVGEECDCGTPENCQNECCDAATCKLKSGSQCGHGDCCEQCKFSKSGTECRASMSECDPAEHCTGQSSECPADVFHKNGQPCLDNYGYCYNGNCPIMYHQCYALFGADVYEAEDSCFKDNQKGNYYGYCRKENGKKIPCAPEDVKCGRLYCKDNSPGQNNPCKMFYSNDDEHKGMVLPGTKCADGKVCSNGHCV QKYNPFRYVELFIVVDQGMVTKNNGDLDKIKARMYELANIVNEILRYLYMHAALVGLEIWSNGDKITVKPDVDYTLNSFAEWRKTDLLTRKKHDNAQLLTAIDFNGPTIGYAYIGSMCHPKRSVAIVEDYSPINLVVAVIMAHEMGHNLGIHHDTDFCSCGDYPCIMGPTISNEPSKFFSNCSYIQCWDFIMKENPQCILNEPLGTDIVSPPVCGNELLEVGEECDCGTPENCQNECCDAATCKLKSGSQCGHGDCCEQCKFSKSGTECRASMSECDPAEHCTGQSSECPADVFHKNGQPCLDNYGYCYNGNCPIMYHQCYALFGADVYEAEDSCFKDNQKGNYYGYCRKENGKKIPCAPEDVKCGRLYCKDNSPGQNNPCKMFYSNDDEHKGMVLPGTKCADGKVCSNGHCVDVA 3dtb-a3-m1-cB_3dtb-a3-m1-cA The structure of rat cytosolic PEPCK in complex with phosphoglycolate and GDP P07379 P07379 1.3 X-RAY DIFFRACTION 18 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 612 620 3dt4-a3-m1-cA_3dt4-a3-m1-cC 3dt7-a3-m1-cB_3dt7-a3-m1-cA PQLHNGLDFSAKVIQGSLDSLPQEVRKFVEGNAQLCQPEYIHICDGSEEEYGRLLAHMQEEGVIRKLKKYDNCWLALTDPRDVARIESKTVIITQEQRDTVPIPKSGQSQLGRWMSEEDFEKAFNARFPGCMKGRTMYVIPFSMGPLGSPLAKIGIELTDSPYVVASMRIMTRMGTSVLEALGDGEFIKCLHSVGCPLPLKKPLVNNWACNPELTLIAHLPDRREIISFGSGYGGNSLLGKKCFALRIASRLAKEEGWLAEHMLILGITNPEGKKKYLAAAFPSACGKTNLAMMNPTLPGWKVECVGDDIAWMKFDAQGNLRAINPENGFFGVAPGTSVKTNPNAIKTIQKNTIFTNVAETSDGGVYWEGIDEPLAPGVTITSWKNKEWRPQDEEPCAHPNSRFCTPASQCPIIDPAWESPEGVPIEGIIFGGRRPAGVPLVYEALSWQHGVFVGAAMRSEAKVIMHDPFAMRPFFGYNFGKYLAHWLSMAHRPAAKLPKIFHVNWFRKDKNGKFLWPGFGENSRVLEWMFGRIEGEDSAKLTPIGYVPKEDALNLKGLGDVNVEELFGISKEFWEKEVEEIDKYLEDQVNADLPYEIERELRALKQRISQM PQLHNGLDFSAKVIQGSLDSLPQEVRKFVEGNAQLCQPEYIHICDGSEEEYGRLLAHMQEEGVIRKLKKYDNCWLALTDPRDVARIESKTVIITQEQRDTVPIPKSGQSQLGRWMSEEDFEKAFNARFPGCMKGRTMYVIPFSMGPLGSPLAKIGIELTDSPYVVASMRIMTRMGTSVLEALGDGEFIKCLHSVGCPLPLKKPLVNNWACNPELTLIAHLPDRREIISFGSGYGGNSLLGKKCFALRIASRLAKEEGWLAEHMLILGITNPEGKKKYLAAAFPSACGKTNLAMMNPTLPGWKVECVGDDIAWMKFDAQGNLRAINPENGFFGVAPGTSVKTNPNAIKTIQKNTIFTNVAETSDGGVYWEGIDEPLAPGVTITSWKNKEWRPQDEEPCAHPNSRFCTPASQCPIIDPAWESPEGVPIEGIIFGGRRPAGVPLVYEALSWQHGVFVGAAMRSEATAAAEHKGKVIMHDPFAMRPFFGYNFGKYLAHWLSMAHRPAAKLPKIFHVNWFRKDKNGKFLWPGFGENSRVLEWMFGRIEGEDSAKLTPIGYVPKEDALNLKGLGDVNVEELFGISKEFWEKEVEEIDKYLEDQVNADLPYEIERELRALKQRISQM 3dtd-a1-m1-cA_3dtd-a1-m1-cL Crystal structure of invasion associated protein b from bartonella henselae A0A0H3LVG3 A0A0H3LVG3 2.35 X-RAY DIFFRACTION 21 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 142 145 3dtd-a1-m1-cA_3dtd-a1-m1-cB 3dtd-a1-m1-cF_3dtd-a1-m1-cI 3dtd-a1-m1-cF_3dtd-a1-m1-cJ 3dtd-a1-m1-cI_3dtd-a1-m1-cJ 3dtd-a1-m1-cK_3dtd-a1-m1-cH 3dtd-a1-m1-cL_3dtd-a1-m1-cB 3dtd-a1-m2-cD_3dtd-a1-m2-cC 3dtd-a1-m2-cE_3dtd-a1-m1-cH 3dtd-a1-m2-cE_3dtd-a1-m1-cK 3dtd-a1-m2-cG_3dtd-a1-m2-cC 3dtd-a1-m2-cG_3dtd-a1-m2-cD SLTETYGLWSINCGIQKVCFMHRQEVNDQNRVVVAMSVVLNADGVVSGNLTVPFGILVSKPVRLQVDEGKAVIETGIRTCVPAGCIVPIVFDKNYVAALRAGKHLKLAMTIAAPGEPPLNDLFVQLNGFSNALNRLIALQKE SLTETYGLWSINCGIQEGKKVCFMHRQEVNDQNRVVVAMSVVLNADGVVSGNLTVPFGILVSKPVRLQVDEGKAVIETGIRTCVPAGCIVPIVFDKNYVAALRAGKHLKLAMTIAAPGEPPLNDLFVQLNGFSNALNRLIALQKE 3dtd-a3-m1-cK_3dtd-a3-m1-cL Crystal structure of invasion associated protein b from bartonella henselae A0A0H3LVG3 A0A0H3LVG3 2.35 X-RAY DIFFRACTION 42 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 145 145 3dtd-a1-m1-cA_3dtd-a1-m2-cD 3dtd-a1-m1-cF_3dtd-a1-m2-cG 3dtd-a1-m1-cI_3dtd-a1-m1-cH 3dtd-a1-m1-cJ_3dtd-a1-m1-cB 3dtd-a1-m1-cK_3dtd-a1-m1-cL 3dtd-a1-m2-cE_3dtd-a1-m2-cC 3dtd-a2-m1-cF_3dtd-a2-m4-cG 3dtd-a4-m1-cI_3dtd-a4-m1-cH 3dtd-a5-m5-cA_3dtd-a5-m1-cD 3dtd-a6-m1-cE_3dtd-a6-m1-cC 3dtd-a7-m1-cJ_3dtd-a7-m1-cB SLTETYGLWSINCGIQEGKKVCFMHRQEVNDQNRVVVAMSVVLNADGVVSGNLTVPFGILVSKPVRLQVDEGKAVIETGIRTCVPAGCIVPIVFDKNYVAALRAGKHLKLAMTIAAPGEPPLNDLFVQLNGFSNALNRLIALQKE SLTETYGLWSINCGIQEGKKVCFMHRQEVNDQNRVVVAMSVVLNADGVVSGNLTVPFGILVSKPVRLQVDEGKAVIETGIRTCVPAGCIVPIVFDKNYVAALRAGKHLKLAMTIAAPGEPPLNDLFVQLNGFSNALNRLIALQKE 3dte-a2-m1-cA_3dte-a2-m2-cA Crystal structure of the IRRE protein, a central regulator of DNA damage repair in deinococcaceae C1CZ84 C1CZ84 2.6 X-RAY DIFFRACTION 41 1.0 310783 (Deinococcus deserti) 310783 (Deinococcus deserti) 241 241 PTALAAAKARRELAASYGAGLPGRDTHSLHGLDGITLTFPGQRDGAYDPEHHVILINSQVRPERQRFTLAHEISHALLLGDDDLLSDLHDEYEGDRLEQVIETLCNVGAAALLPAELIDDLLTRFGPTGRALAELARRADVSATSALYALAERTAPPVIYAVCALSRAKELTVRASSASAGVKYSLSAGTPVPDDHPAALALDTRLPLAQDSYVPFRSGRRPAYVDAFPERQRVLVSFALP PTALAAAKARRELAASYGAGLPGRDTHSLHGLDGITLTFPGQRDGAYDPEHHVILINSQVRPERQRFTLAHEISHALLLGDDDLLSDLHDEYEGDRLEQVIETLCNVGAAALLPAELIDDLLTRFGPTGRALAELARRADVSATSALYALAERTAPPVIYAVCALSRAKELTVRASSASAGVKYSLSAGTPVPDDHPAALALDTRLPLAQDSYVPFRSGRRPAYVDAFPERQRVLVSFALP 3dtn-a1-m1-cB_3dtn-a1-m1-cA Crystal structure of putative Methyltransferase-MM_2633 from Methanosarcina mazei . Q8PTS9 Q8PTS9 2.09 X-RAY DIFFRACTION 60 0.981 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 213 220 SGKYDEQRRKFIPCFDDFYGVSVSIASVDTENPDILDLGAGTGLLSAFLMEKYPEATFTLVDMSEKMLEIAKNRFRGNLKVKYIEADYSKYDFEEKYDMVVSALSIHHLEDEDKKELYKRSYSILKESGIFINADLVHGETAFIENLNKTIWRQYVENSGLTEEEIAAGYERSKLDKDIEMNQQLNWLKEAGFRDVSCIYKYYQFAVMFGRKT LSEIKRKFDAVSGKYDEQRRKFIPCFDDFYGVSVSIASVDTENPDILDLGAGTGLLSAFLMEKYPEATFTLVDMSEKMLEIAKNRFRGNLKVKYIEADYSKYDFEEKYDMVVSALSIHHLEDEDKKELYKRSYSILKESGIFINADLVHGETAFIENLNKTIWRQYVENSGLTEEEIAAGYLDKDIEMNQQLNWLKEAGFRDVSCIYKYYQFAVMFGRKT 3dto-a2-m1-cC_3dto-a2-m1-cD Crystal structure of the metal-dependent HD domain-containing hydrolase BH2835 from Bacillus halodurans, Northeast Structural Genomics Consortium Target BhR130. Q9K916 Q9K916 3.3 X-RAY DIFFRACTION 80 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 181 181 3dto-a1-m1-cA_3dto-a1-m1-cB NEQAILQSAEAWVKKQLDEDWYHIRRVTLAKAIGEQEKVDVFVVQIAALFHDLIDETAKQQLIDWEAAGVPSQKIDHTDIINTIATREAVVQDADRLDALGAIGIARTFAYSGNKGQPIYDPELPIRTVEEYRHGKSTAINHFYEKLFKLKDLNTETGKQLAKERHVFEQFIERFLSEWNG NEQAILQSAEAWVKKQLDEDWYHIRRVTLAKAIGEQEKVDVFVVQIAALFHDLIDETAKQQLIDWEAAGVPSQKIDHTDIINTIATREAVVQDADRLDALGAIGIARTFAYSGNKGQPIYDPELPIRTVEEYRHGKSTAINHFYEKLFKLKDLNTETGKQLAKERHVFEQFIERFLSEWNG 3dtt-a1-m1-cA_3dtt-a1-m1-cB Crystal structure of a putative f420 dependent nadp-reductase (arth_0613) from arthrobacter sp. fb24 at 1.70 A resolution A0JSJ2 A0JSJ2 1.7 X-RAY DIFFRACTION 103 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 214 216 GKIAVLGTGTVGRTAGALADLGHEVTIGTRDPKATLARAPPFSQWLPEHPHVHLAAFADVAAGAELVVNATEGASSIAALTAAGAENLAGKILVDIANPLDFSHGPPTLNPVNTDSLGEQIQRTFPEAKVVKTLNTNASLVDPGRAAGGDHSVFVSGNDAAAKAEVATLLKSLGHQDVIDLGDITTARGAELLPVWIRLWGALGTANFNFKIAR GKIAVLGTGTVGRTAGALADLGHEVTIGTRDPKATLARAEPPPFSQWLPEHPHVHLAAFADVAAGAELVVNATEGASSIAALTAAGAENLAGKILVDIANPLDFSHGPPTLNPVNTDSLGEQIQRTFPEAKVVKTLNTNASLVDPGRAAGGDHSVFVSGNDAAAKAEVATLLKSLGHQDVIDLGDITTARGAELLPVWIRLWGALGTANFNFKIAR 3dtv-a5-m1-cA_3dtv-a5-m4-cC Crystal structure of arylmalonate decarboxylase Q05115 Q05115 2.1 X-RAY DIFFRACTION 25 0.991 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 217 227 PTIGMIVPPAAGLVPADGARLYPDLPFIASGLGEGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGCRSLDTATLVDLCVRAFEAAPDSDGILLSCGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFDES PTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSCGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFDES 3dtv-a5-m2-cB_3dtv-a5-m3-cD Crystal structure of arylmalonate decarboxylase Q05115 Q05115 2.1 X-RAY DIFFRACTION 51 0.996 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 233 235 STPTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGSVTPEGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSCGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFD STPTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGSVTPEGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGCRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFDES 3dtv-a5-m4-cC_3dtv-a5-m2-cB Crystal structure of arylmalonate decarboxylase Q05115 Q05115 2.1 X-RAY DIFFRACTION 56 0.991 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 227 233 3dtv-a5-m1-cA_3dtv-a5-m3-cD 3eis-a5-m1-cB_3eis-a5-m2-cC PTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSCGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFDES STPTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGSVTPEGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSCGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFD 3dtv-a5-m4-cC_3dtv-a5-m3-cD Crystal structure of arylmalonate decarboxylase Q05115 Q05115 2.1 X-RAY DIFFRACTION 110 0.996 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 227 235 PTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSCGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFDES STPTIGMIVPPAAGLVPADGARLYPDLPFIASGLGLGSVTPEGYDAVIESVVDHARRLQKQGAAVVSLMGTSLSFYRGAAFNAALTVAMREATGLPCTTMSTAVLNGLRALGVRRVALATAYIDDVNERLAAFLAEESLVPTGCRSLGITGVEAMARVDTATLVDLCVRAFEAAPDSDGILLSGGLLTLDAIPEVERRLGVPVVSSSPAGFWDAVRLAGGGAKARPGYGRLFDES 3dtx-a1-m1-cA_3dtx-a1-m2-cA Crystal structure of HLA-B*2705 complexed with the double citrullinated vasoactive intestinal peptide type 1 receptor (VIPR) peptide (residues 400-408) P01889 P01889 2.1 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 276 276 7tud-a1-m1-cQ_7tud-a1-m1-cA GSHSMRYFHTSVSRPGRGEPRFITVGYVDDTLFVRFDSDAASPREEPRAPWIEQEGPEYWDRETQICKAKAQTDREDLRTLLRYYNQSEAGSHTLQNMYGCDVGPDGRLLRGYHQDAYDGKDYIALNEDLSSWTAADTAAQITQRKWEAARVAEQLRAYLEGECVEWLRRYLENGKETLQRADPPKTHVTHHPISDHEATLRCWALGFYPAEITLTWQRDGEDQTQDTELVETRPAGDRTFQKWAAVVVPSGEEQRYTCHVQHEGLPKPLTLRWEP GSHSMRYFHTSVSRPGRGEPRFITVGYVDDTLFVRFDSDAASPREEPRAPWIEQEGPEYWDRETQICKAKAQTDREDLRTLLRYYNQSEAGSHTLQNMYGCDVGPDGRLLRGYHQDAYDGKDYIALNEDLSSWTAADTAAQITQRKWEAARVAEQLRAYLEGECVEWLRRYLENGKETLQRADPPKTHVTHHPISDHEATLRCWALGFYPAEITLTWQRDGEDQTQDTELVETRPAGDRTFQKWAAVVVPSGEEQRYTCHVQHEGLPKPLTLRWEP 3dty-a1-m1-cA_3dty-a1-m1-cE Crystal structure of an Oxidoreductase from Pseudomonas syringae Q880Y1 Q880Y1 2.04 X-RAY DIFFRACTION 60 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 361 361 3dty-a1-m1-cD_3dty-a1-m1-cB RRIPQPIRWAVGGGSQSQIGYIHRCAALRDNTFVLVAGAFDIDPIRGSAFGEQLGVDSERCYADYLSFEQEARRADGIQAVSIATPNGTHYSITKAALEAGLHVVCEKPLCFTVEQAENLRELSHKHNRIVGVTYGYAGHQLIEQAREIAAGELGDVRVHQFAHGFHSAGPSYVLGDVGTHPLYLSEVLPDLKIKRLCSRQSFVASRAPLEDNAYTLEYEGGAGVWSSAVNAGSHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPAQILERGGYLHPNALIDDRIGGGHPEGLFEAWANLYYRFALADATDRSDTQALSAVRYPGIDAGVEGVRWVERCVLSADNDSIWVAYEGHHHHHH RRIPQPIRWAVGGGSQSQIGYIHRCAALRDNTFVLVAGAFDIDPIRGSAFGEQLGVDSERCYADYLSFEQEARRADGIQAVSIATPNGTHYSITKAALEAGLHVVCEKPLCFTVEQAENLRELSHKHNRIVGVTYGYAGHQLIEQAREIAAGELGDVRVHQFAHGFHSAGPSYVLGDVGTHPLYLSEVLPDLKIKRLCSRQSFVASRAPLEDNAYTLEYEGGAGVWSSAVNAGSHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPAQILERGGYLHPNALIDDRIGGGHPEGLFEAWANLYYRFALADATDRSDTQALSAVRYPGIDAGVEGVRWVERCVLSADNDSIWVAYEGHHHHHH 3dty-a1-m1-cB_3dty-a1-m1-cE Crystal structure of an Oxidoreductase from Pseudomonas syringae Q880Y1 Q880Y1 2.04 X-RAY DIFFRACTION 27 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 351 361 3dty-a1-m1-cD_3dty-a1-m1-cA IPQPIRWAVGGGSQSQIGYIHRCAALRDNTFVLVAGAFDIDPIRGSAFGEQLGVDSERCYADYLSFEQEARRADGIQAVSIATPNGTHYSITKAALEAGLHVVCEKPLCFTVEQAENLRELSHKHNRIVGVTYGYAGHQLIEQAREIAAGELGDVRVHQFAHGFHSAGPSYVLGDVGTHPLYLSEVLPDLKIKRLCSRQSFVASRAPLEDNAYTLEYEGGAGVWSSAVNAGSHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPAQILERGGYLHPNALIDDRIGGGHPEGLFEAWANLYYRFALADATDRSDTQALSAVRYPGIDAGVEGVRWVERCVLSADNDSIWVAY RRIPQPIRWAVGGGSQSQIGYIHRCAALRDNTFVLVAGAFDIDPIRGSAFGEQLGVDSERCYADYLSFEQEARRADGIQAVSIATPNGTHYSITKAALEAGLHVVCEKPLCFTVEQAENLRELSHKHNRIVGVTYGYAGHQLIEQAREIAAGELGDVRVHQFAHGFHSAGPSYVLGDVGTHPLYLSEVLPDLKIKRLCSRQSFVASRAPLEDNAYTLEYEGGAGVWSSAVNAGSHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPAQILERGGYLHPNALIDDRIGGGHPEGLFEAWANLYYRFALADATDRSDTQALSAVRYPGIDAGVEGVRWVERCVLSADNDSIWVAYEGHHHHHH 3dty-a1-m1-cD_3dty-a1-m1-cE Crystal structure of an Oxidoreductase from Pseudomonas syringae Q880Y1 Q880Y1 2.04 X-RAY DIFFRACTION 86 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 349 361 3dty-a1-m1-cB_3dty-a1-m1-cA IPQPIRWAVGGGSSQIGYIHRCAALRDNTFVLVAGAFDIDPIRGSAFGEQLGVDSERCYADYLSFEQEARRADGIQAVSIATPNGTHYSITKAALEAGLHVVCEKPLCFTVEQAENLRELSHKHNRIVGVTYGYAGHQLIEQAREIAAGELGDVRVHQFAHGFHSAGPSYVLGDVGTHPLYLSEVLPDLKIKRLCSRQSFVASRAPLEDNAYTLEYEGGAGVWSSAVNAGSHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPAQILERGGYLHPNALIDDRIGGGHPEGLFEAWANLYYRFALADATDRSDALSAVRYPGIDAGVEGVRWVERCVLSADNDSIWVAYE RRIPQPIRWAVGGGSQSQIGYIHRCAALRDNTFVLVAGAFDIDPIRGSAFGEQLGVDSERCYADYLSFEQEARRADGIQAVSIATPNGTHYSITKAALEAGLHVVCEKPLCFTVEQAENLRELSHKHNRIVGVTYGYAGHQLIEQAREIAAGELGDVRVHQFAHGFHSAGPSYVLGDVGTHPLYLSEVLPDLKIKRLCSRQSFVASRAPLEDNAYTLEYEGGAGVWSSAVNAGSHGQKIRVIGSRASLEWWDERPNQLSFEVQGQPAQILERGGYLHPNALIDDRIGGGHPEGLFEAWANLYYRFALADATDRSDTQALSAVRYPGIDAGVEGVRWVERCVLSADNDSIWVAYEGHHHHHH 3dtz-a1-m1-cD_3dtz-a1-m1-cE Crystal structure of Putative Chlorite dismutase TA0507 Q9HKT8 Q9HKT8 1.81 X-RAY DIFFRACTION 98 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 215 215 3dtz-a1-m1-cA_3dtz-a1-m1-cB 3dtz-a1-m1-cA_3dtz-a1-m1-cE 3dtz-a1-m1-cC_3dtz-a1-m1-cB 3dtz-a1-m1-cC_3dtz-a1-m1-cD TEIYTSVLSYRLLEGKAYSDADTRSLDRRSIDEFFSANPGYINFHIYRSYRTDSDVIFWYSSRNPDLILAKERVQASRPIAVSSFSSISIYDESPYNANKKLEDSLRLPPLRYFVAYPSKTPDWYLLDFDTRKEIHEHIKALNHPDEKGIRSYTTYSFGIGDQEFVVLYEIPDIAAWSRVTEKLREARARKWIIKETPILLGRLVDAGDIAGFLL TEIYTSVLSYRLLEGKAYSDADTRSLDRRSIDEFFSANPGYINFHIYRSYRTDSDVIFWYSSRNPDLILAKERVQASRPIAVSSFSSISIYDESPYNANKKLEDSLRLPPLRYFVAYPSKTPDWYLLDFDTRKEIHEHIKALNHPDEKGIRSYTTYSFGIGDQEFVVLYEIPDIAAWSRVTEKLREARARKWIIKETPILLGRLVDAGDIAGFLL 3du4-a1-m1-cA_3du4-a1-m1-cB Crystal structure of 7-keto-8-aminopelargonic acid bound 7,8-diaminopelargonic acid synthase in bacillus subtilis P53555 P53555 2.2 X-RAY DIFFRACTION 428 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 447 447 3dod-a1-m1-cB_3dod-a1-m1-cA 3drd-a1-m1-cB_3drd-a1-m1-cA 6wnn-a1-m1-cB_6wnn-a1-m1-cA MTHDLIEKSKKHLWLPFTQMKDYDENPLIIESGTGIKVKDINGKEYYDGFSSVWLNVHGHRKKELDDAIKKQLGKIAHSTLLGMTNVPATQLAETLIDISPKKLTRVFYSDSGAEAMEIALKMAFQYWKNIGKPEKQKFIAMKNGYHGDTIGAVSVGSIELFHHVYGPLMFESYKAPIPYVYRSESGDPDECRDQLRELAQLLEEHHEEIAALSIESMVQGASGMIVMPEGYLAGVRELCTTYDVLMIVDEVATGFGRTGKMFACEHENVQPDLMAAGKGITGGYLPIAVTFATEDIYKAFYDDYENLKTFFHGHSYTGNQLGCAVALENLALFESENIVEQVAEKSKKLHFLLQDLHALPHVGDIRQLGFMCGAELVRSKETKEPYPADRRIGYKVSLKMRELGMLTRPLGDVIAFLPPLASTAEELSEMVAIMKQAIHEVTSLED MTHDLIEKSKKHLWLPFTQMKDYDENPLIIESGTGIKVKDINGKEYYDGFSSVWLNVHGHRKKELDDAIKKQLGKIAHSTLLGMTNVPATQLAETLIDISPKKLTRVFYSDSGAEAMEIALKMAFQYWKNIGKPEKQKFIAMKNGYHGDTIGAVSVGSIELFHHVYGPLMFESYKAPIPYVYRSESGDPDECRDQLRELAQLLEEHHEEIAALSIESMVQGASGMIVMPEGYLAGVRELCTTYDVLMIVDEVATGFGRTGKMFACEHENVQPDLMAAGKGITGGYLPIAVTFATEDIYKAFYDDYENLKTFFHGHSYTGNQLGCAVALENLALFESENIVEQVAEKSKKLHFLLQDLHALPHVGDIRQLGFMCGAELVRSKETKEPYPADRRIGYKVSLKMRELGMLTRPLGDVIAFLPPLASTAEELSEMVAIMKQAIHEVTSLED 3dug-a1-m1-cA_3dug-a1-m1-cG Crystal structure of zn-dependent arginine carboxypeptidase complexed with zinc 2.62 X-RAY DIFFRACTION 36 1.0 32644 (unidentified) 32644 (unidentified) 393 393 3be7-a1-m1-cB_3be7-a1-m1-cD 3be7-a1-m1-cB_3be7-a1-m1-cH 3be7-a1-m1-cC_3be7-a1-m1-cA 3be7-a1-m1-cC_3be7-a1-m1-cF 3be7-a1-m1-cE_3be7-a1-m1-cD 3be7-a1-m1-cE_3be7-a1-m1-cH 3be7-a1-m1-cG_3be7-a1-m1-cA 3be7-a1-m1-cG_3be7-a1-m1-cF 3dug-a1-m1-cA_3dug-a1-m1-cC 3dug-a1-m1-cB_3dug-a1-m1-cD 3dug-a1-m1-cB_3dug-a1-m1-cH 3dug-a1-m1-cC_3dug-a1-m1-cF 3dug-a1-m1-cD_3dug-a1-m1-cE 3dug-a1-m1-cE_3dug-a1-m1-cH 3dug-a1-m1-cG_3dug-a1-m1-cF DFLIKSKGYLDIQTGEIIKADLLIRNGKIAEIGKINTKDATVISIPDLILIPGLMDSHVHIVGNDSKGEESIADSSHMGTVWGVVNAEKTLMAGFTTVRNVGAANYADVSVRDAIERGVINGPTMLVSGPALGITGGHCDHNLLPPEFNYSSEGVVDSPWEARKMVRKNRKYGADLIFCATGGVMSRNTDVNAKQFTLEEMKAIVDEAHNHGMKVAAHAHGLIGIKAAIKAGVDSVEHASFIDDETIDMAIKNNTVLSMDIFVSDYILGEGAKAGIREESLNKERLVGKKQRENFMNAHRRGAIITFGTDAGIFDHGDNAKQFAYMVEWGMTPLEAIQASTIKTATLFGIENIGQIKEGFDADIVGVIENPLANIRTLEEVAFVMKEGKVYKR DFLIKSKGYLDIQTGEIIKADLLIRNGKIAEIGKINTKDATVISIPDLILIPGLMDSHVHIVGNDSKGEESIADSSHMGTVWGVVNAEKTLMAGFTTVRNVGAANYADVSVRDAIERGVINGPTMLVSGPALGITGGHCDHNLLPPEFNYSSEGVVDSPWEARKMVRKNRKYGADLIFCATGGVMSRNTDVNAKQFTLEEMKAIVDEAHNHGMKVAAHAHGLIGIKAAIKAGVDSVEHASFIDDETIDMAIKNNTVLSMDIFVSDYILGEGAKAGIREESLNKERLVGKKQRENFMNAHRRGAIITFGTDAGIFDHGDNAKQFAYMVEWGMTPLEAIQASTIKTATLFGIENIGQIKEGFDADIVGVIENPLANIRTLEEVAFVMKEGKVYKR 3dug-a1-m1-cE_3dug-a1-m1-cG Crystal structure of zn-dependent arginine carboxypeptidase complexed with zinc 2.62 X-RAY DIFFRACTION 41 1.0 32644 (unidentified) 32644 (unidentified) 393 393 3be7-a1-m1-cC_3be7-a1-m1-cB 3be7-a1-m1-cD_3be7-a1-m1-cA 3be7-a1-m1-cE_3be7-a1-m1-cG 3be7-a1-m1-cF_3be7-a1-m1-cH 3dug-a1-m1-cA_3dug-a1-m1-cD 3dug-a1-m1-cB_3dug-a1-m1-cC 3dug-a1-m1-cH_3dug-a1-m1-cF DFLIKSKGYLDIQTGEIIKADLLIRNGKIAEIGKINTKDATVISIPDLILIPGLMDSHVHIVGNDSKGEESIADSSHMGTVWGVVNAEKTLMAGFTTVRNVGAANYADVSVRDAIERGVINGPTMLVSGPALGITGGHCDHNLLPPEFNYSSEGVVDSPWEARKMVRKNRKYGADLIFCATGGVMSRNTDVNAKQFTLEEMKAIVDEAHNHGMKVAAHAHGLIGIKAAIKAGVDSVEHASFIDDETIDMAIKNNTVLSMDIFVSDYILGEGAKAGIREESLNKERLVGKKQRENFMNAHRRGAIITFGTDAGIFDHGDNAKQFAYMVEWGMTPLEAIQASTIKTATLFGIENIGQIKEGFDADIVGVIENPLANIRTLEEVAFVMKEGKVYKR DFLIKSKGYLDIQTGEIIKADLLIRNGKIAEIGKINTKDATVISIPDLILIPGLMDSHVHIVGNDSKGEESIADSSHMGTVWGVVNAEKTLMAGFTTVRNVGAANYADVSVRDAIERGVINGPTMLVSGPALGITGGHCDHNLLPPEFNYSSEGVVDSPWEARKMVRKNRKYGADLIFCATGGVMSRNTDVNAKQFTLEEMKAIVDEAHNHGMKVAAHAHGLIGIKAAIKAGVDSVEHASFIDDETIDMAIKNNTVLSMDIFVSDYILGEGAKAGIREESLNKERLVGKKQRENFMNAHRRGAIITFGTDAGIFDHGDNAKQFAYMVEWGMTPLEAIQASTIKTATLFGIENIGQIKEGFDADIVGVIENPLANIRTLEEVAFVMKEGKVYKR 3dui-a1-m1-cA_3dui-a1-m1-cB Crystal structure of the oxidized CG-1B: an adhesion/growth-regulatory lectin from chicken P07583 P07583 2.1 X-RAY DIFFRACTION 52 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 132 132 QGPVCTNLGLKPGQRLTVKGIIAPNAKSFVMNLGKDSTHLGLHFNPRFDAHGDVNLIVCNSKKMEEWGTEQRETVFPFQKGAPIEITFSINPSDLTVHLPGHQFSFPNRLGLSVFDYFDTHGDFTLRSVSWE QGPVCTNLGLKPGQRLTVKGIIAPNAKSFVMNLGKDSTHLGLHFNPRFDAHGDVNLIVCNSKKMEEWGTEQRETVFPFQKGAPIEITFSINPSDLTVHLPGHQFSFPNRLGLSVFDYFDTHGDFTLRSVSWE 3duk-a2-m1-cF_3duk-a2-m2-cF CRYSTAL STRUCTURE OF A NTF2-LIKE PROTEIN OF UNKNOWN FUNCTION (MFLA_0564) FROM METHYLOBACILLUS FLAGELLATUS KT AT 2.200 A RESOLUTION Q1H3V3 Q1H3V3 2.2 X-RAY DIFFRACTION 39 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 122 122 3duk-a1-m1-cA_3duk-a1-m1-cC 3duk-a1-m1-cB_3duk-a1-m1-cD 3duk-a2-m1-cE_3duk-a2-m2-cE GSVKVSVDDIDGITEVLNVYNAAESGTGEESAAFHKDATIFGYVGDKLAFNGPIKDLYDWHNSNGPAKNVQSRITNIDIVGTVAHARVEAENWTNFKFSDLFLLLKLDGKWTIVNKVFHLHA GSVKVSVDDIDGITEVLNVYNAAESGTGEESAAFHKDATIFGYVGDKLAFNGPIKDLYDWHNSNGPAKNVQSRITNIDIVGTVAHARVEAENWTNFKFSDLFLLLKLDGKWTIVNKVFHLHA 3duk-a2-m2-cE_3duk-a2-m2-cF CRYSTAL STRUCTURE OF A NTF2-LIKE PROTEIN OF UNKNOWN FUNCTION (MFLA_0564) FROM METHYLOBACILLUS FLAGELLATUS KT AT 2.200 A RESOLUTION Q1H3V3 Q1H3V3 2.2 X-RAY DIFFRACTION 97 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 122 122 3duk-a1-m1-cA_3duk-a1-m1-cD 3duk-a1-m1-cB_3duk-a1-m1-cC 3duk-a2-m1-cE_3duk-a2-m1-cF GSVKVSVDDIDGITEVLNVYNAAESGTGEESAAFHKDATIFGYVGDKLAFNGPIKDLYDWHNSNGPAKNVQSRITNIDIVGTVAHARVEAENWTNFKFSDLFLLLKLDGKWTIVNKVFHLHA GSVKVSVDDIDGITEVLNVYNAAESGTGEESAAFHKDATIFGYVGDKLAFNGPIKDLYDWHNSNGPAKNVQSRITNIDIVGTVAHARVEAENWTNFKFSDLFLLLKLDGKWTIVNKVFHLHA 3dup-a1-m1-cB_3dup-a1-m1-cA Crystal structure of mutt/nudix family hydrolase from rhodospirillum rubrum atcc 11170 Q2RXX6 Q2RXX6 1.8 X-RAY DIFFRACTION 76 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 277 279 LSFLKHVQDCNTHDLSNFVRFVIEGRRVGWVRKALAQRLKAHGRVFDVTRDAVLLSASLRTPQSRTRAVADVVDRLADEGVVPAPRGELYRVNQSWGEPTLLLDRAVVPTFGVRAYGVHLNGYVGAGADLHLWIGRRSPDKSVAPGKLDNVAGGQPADLSLRQNLIKECAEEADLPEALARQAIPVGAITYCESPAGIKPDTLFLYDLALPEDFRPHNTDGEADFLWPAAKVVEAVRTTEAFKFNVNLTVIDFAIRHGLIDPDNEPDYQEILAGLRG SLSFLKHVQDCNTHDLSNFVRFVIEGRRVGWVRKALAQRLKAHGRVFDVTRDAVLLSASLRTPQSRTRAVADVVDRLADEGVVPAPRGELYRVNQSWGEPTLLLDRAVVPTFGVRAYGVHLNGYVGAGADLHLWIGRRSPDKSVAPGKLDNVAGGQPADLSLRQNLIKECAEEADLPEALARQAIPVGAITYCESPAGIKPDTLFLYDLALPEDFRPHNTDGEADFLWPAAKVVEAVRTTEAFKFNVNLTVIDFAIRHGLIDPDNEPDYQEILAGLRGR 3duw-a1-m1-cA_3duw-a1-m1-cB Crystal Structural Analysis of the O-methyltransferase from Bacillus cereus in complex SAH Q739U3 Q739U3 1.2 X-RAY DIFFRACTION 117 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 218 218 3dul-a1-m1-cA_3dul-a1-m1-cB IETWTAVDQYVSDVLIPKDSTLEEVLQVNAAANLPAHDVSPTQGKFLQLLVQIQGARNILEIGTLGGYSTIWLARGLSSGGRVVTLEASEKHADIARSNIERANLNDRVEVRTGLALDSLQQIENEKYEPFDFIFIDADKQNNPAYFEWALKLSRPGTVIIGDNVVREGEVIDNTSNDPRVQGIRRFYELIAAEPRVSATALQTVGSKGYDGFIAVVK IETWTAVDQYVSDVLIPKDSTLEEVLQVNAAANLPAHDVSPTQGKFLQLLVQIQGARNILEIGTLGGYSTIWLARGLSSGGRVVTLEASEKHADIARSNIERANLNDRVEVRTGLALDSLQQIENEKYEPFDFIFIDADKQNNPAYFEWALKLSRPGTVIIGDNVVREGEVIDNTSNDPRVQGIRRFYELIAAEPRVSATALQTVGSKGYDGFIAVVK 3duz-a1-m2-cA_3duz-a1-m3-cA Crystal structure of the postfusion form of baculovirus fusion protein GP64 P17501 P17501 2.95 X-RAY DIFFRACTION 286 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 418 418 3duz-a1-m1-cA_3duz-a1-m2-cA 3duz-a1-m1-cA_3duz-a1-m3-cA EHCNAQMKTGPYKIKNLDITPPKETLQKDVEITIVETDYNENVIIGYKGYYQAYAYNGGSLDPNTRVEETMKTLNVGKEDLLMWSIRQQCEVGEELIDRWGSDSDDCFRDNEGRGQWVKGKELVKRQNNNHFAHHTCNKSWRCGISTSKMYSRLECQDDTDECQVYILDAEGNPINVTVDTVLHRDGVSMILKQKSTFTTRQIKAACLLIKDDKNNPESVTREHCLIDNDIYDLSKNTWNCKFNRCIKRKRAKYTEGDTATKGDLMHIQEELMYENDLLKMNIELMHAHINKLNNMLHDLIVSVAKVDERLIGNLMNNSVSSTFLSDDTFLLMPCTNPPAHTSNCYNNSIYKEGRWSSQCIDFSNYKELAIDDDVEFWIPTIGNTTYHDSWKDASGWSFIAQQKSNLITTMENTKFGG EHCNAQMKTGPYKIKNLDITPPKETLQKDVEITIVETDYNENVIIGYKGYYQAYAYNGGSLDPNTRVEETMKTLNVGKEDLLMWSIRQQCEVGEELIDRWGSDSDDCFRDNEGRGQWVKGKELVKRQNNNHFAHHTCNKSWRCGISTSKMYSRLECQDDTDECQVYILDAEGNPINVTVDTVLHRDGVSMILKQKSTFTTRQIKAACLLIKDDKNNPESVTREHCLIDNDIYDLSKNTWNCKFNRCIKRKRAKYTEGDTATKGDLMHIQEELMYENDLLKMNIELMHAHINKLNNMLHDLIVSVAKVDERLIGNLMNNSVSSTFLSDDTFLLMPCTNPPAHTSNCYNNSIYKEGRWSSQCIDFSNYKELAIDDDVEFWIPTIGNTTYHDSWKDASGWSFIAQQKSNLITTMENTKFGG 3dv3-a1-m1-cA_3dv3-a1-m2-cA MEK1 with PF-04622664 Bound Q02750 Q02750 2.3 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 1s9j-a1-m1-cA_1s9j-a1-m2-cA 2p55-a1-m1-cA_2p55-a1-m2-cA 3e8n-a2-m1-cA_3e8n-a2-m2-cA 3eqb-a1-m1-cA_3eqb-a1-m2-cA 3mbl-a1-m1-cA_3mbl-a1-m2-cA 4ark-a1-m1-cA_4ark-a1-m2-cA 4lmn-a2-m1-cA_4lmn-a2-m2-cA MELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLN MELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLN 3dv8-a1-m1-cA_3dv8-a1-m2-cA Crystal structure of a putative transcriptional regulator of the crp/fnr family (eubrec_1222) from eubacterium rectale atcc 33656 at 2.55 A resolution A5ZWV4 A5ZWV4 2.55 X-RAY DIFFRACTION 83 1.0 515619 ([Eubacterium] rectale ATCC 33656) 515619 ([Eubacterium] rectale ATCC 33656) 207 207 ENYFPLWNDLNTAQKKLISDNLITQHVKKGTIIHNGNDCTGLLLVKSGQLRTYILSDEGREITLYRLFDDCLLSASCIRSIQFEVTIEAEKDTDLWIIPAEIYKGIKDSAPVANYTNELATRFSDVWLIEQIWKSLDKRVASFLLEETSIEGTNELKITHETIANHLGSHREVITRLRYFQVEGLVKLSRGKITILDSKRLETLQRS ENYFPLWNDLNTAQKKLISDNLITQHVKKGTIIHNGNDCTGLLLVKSGQLRTYILSDEGREITLYRLFDDCLLSASCIRSIQFEVTIEAEKDTDLWIIPAEIYKGIKDSAPVANYTNELATRFSDVWLIEQIWKSLDKRVASFLLEETSIEGTNELKITHETIANHLGSHREVITRLRYFQVEGLVKLSRGKITILDSKRLETLQRS 3dvl-a1-m1-cE_3dvl-a1-m1-cF Crystal Structure of Full Length Circadian Clock Protein KaiC with Correct Geometry at Phosphorylation Sites Q79PF4 Q79PF4 2.8 X-RAY DIFFRACTION 188 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 490 504 2gbl-a1-m1-cE_2gbl-a1-m1-cF 3jzm-a1-m1-cE_3jzm-a1-m1-cF 3k0a-a1-m1-cE_3k0a-a1-m1-cF 3k0c-a1-m1-cE_3k0c-a1-m1-cF 3k0e-a1-m1-cE_3k0e-a1-m1-cF 3k0f-a1-m1-cE_3k0f-a1-m1-cF 3s1a-a1-m1-cE_3s1a-a1-m1-cF 4dug-a1-m1-cE_4dug-a1-m1-cF 4ijm-a1-m1-cE_4ijm-a1-m1-cF 4tl6-a1-m1-cC_4tl6-a1-m2-cA 4tl6-a1-m2-cC_4tl6-a1-m1-cA 4tl7-a1-m1-cA_4tl7-a1-m1-cB 4tl7-a1-m1-cA_4tl7-a1-m1-cF 4tl7-a1-m1-cB_4tl7-a1-m1-cC 4tl7-a1-m1-cC_4tl7-a1-m1-cD 4tl7-a1-m1-cD_4tl7-a1-m1-cE 4tl7-a1-m1-cE_4tl7-a1-m1-cF 4tl8-a1-m1-cB_4tl8-a1-m1-cC 4tl9-a1-m1-cB_4tl9-a1-m1-cA 4tl9-a1-m1-cB_4tl9-a1-m1-cC 4tl9-a1-m1-cF_4tl9-a1-m1-cA 4tl9-a1-m1-cF_4tl9-a1-m1-cE 4tla-a1-m1-cB_4tla-a1-m1-cC 4tla-a1-m1-cC_4tla-a1-m1-cD 4tla-a1-m1-cF_4tla-a1-m1-cE 4tlb-a1-m1-cB_4tlb-a1-m1-cA 4tlb-a1-m1-cC_4tlb-a1-m1-cD 4tlb-a1-m1-cF_4tlb-a1-m1-cA 4tlc-a1-m1-cB_4tlc-a1-m1-cA 4tlc-a1-m1-cF_4tlc-a1-m1-cA 4tlc-a1-m1-cF_4tlc-a1-m1-cE 4tld-a1-m1-cA_4tld-a1-m1-cB 4tld-a1-m1-cB_4tld-a1-m1-cC 4tld-a1-m1-cC_4tld-a1-m1-cD 4tld-a1-m1-cE_4tld-a1-m1-cD 4tld-a1-m1-cF_4tld-a1-m1-cA 4tle-a1-m1-cB_4tle-a1-m1-cA 4tle-a1-m1-cB_4tle-a1-m1-cC 4tle-a1-m1-cF_4tle-a1-m1-cA 5n8y-a1-m1-cA_5n8y-a1-m1-cB 5n8y-a1-m1-cA_5n8y-a1-m1-cF 5n8y-a1-m1-cB_5n8y-a1-m1-cC 5n8y-a1-m1-cC_5n8y-a1-m1-cD 5n8y-a1-m1-cD_5n8y-a1-m1-cE 5n8y-a1-m1-cE_5n8y-a1-m1-cF 5yz8-a1-m1-cD_5yz8-a1-m1-cE 7s65-a1-m1-cA_7s65-a1-m1-cB 7s65-a1-m1-cA_7s65-a1-m1-cF 7s65-a1-m1-cB_7s65-a1-m1-cC 7s65-a1-m1-cD_7s65-a1-m1-cC 7s65-a1-m1-cD_7s65-a1-m1-cE 7s65-a1-m1-cE_7s65-a1-m1-cF 7s66-a1-m1-cA_7s66-a1-m1-cB 7s66-a1-m1-cA_7s66-a1-m1-cF 7s66-a1-m1-cB_7s66-a1-m1-cC 7s66-a1-m1-cC_7s66-a1-m1-cD 7s66-a1-m1-cD_7s66-a1-m1-cE 7s66-a1-m1-cE_7s66-a1-m1-cF 7s67-a1-m1-cA_7s67-a1-m1-cB 7s67-a1-m1-cA_7s67-a1-m1-cF 7s67-a1-m1-cB_7s67-a1-m1-cC 7s67-a1-m1-cC_7s67-a1-m1-cD 7s67-a1-m1-cD_7s67-a1-m1-cE 7s67-a1-m1-cE_7s67-a1-m1-cF 7x1y-a1-m1-cA_7x1y-a1-m1-cB 7x1y-a1-m1-cA_7x1y-a1-m1-cF 7x1y-a1-m1-cB_7x1y-a1-m1-cC 7x1y-a1-m1-cC_7x1y-a1-m1-cD 7x1y-a1-m1-cD_7x1y-a1-m1-cE 7x1y-a1-m1-cE_7x1y-a1-m1-cF 7x1z-a1-m1-cA_7x1z-a1-m1-cB 7x1z-a1-m1-cA_7x1z-a1-m1-cF 7x1z-a1-m1-cB_7x1z-a1-m1-cC 7x1z-a1-m1-cC_7x1z-a1-m1-cD 7x1z-a1-m1-cD_7x1z-a1-m1-cE 7x1z-a1-m1-cE_7x1z-a1-m1-cF EHQAIAKMRTMIEGFDDISHGGLPIGRSTLVSGTSGTGKTLFSIQFLYNGIIEFDEPGVFVTFEETPQDIIKNARSFGWDLAKLVDEGKLFILDASPDPEGQEVVGGFDLSALIERINYAIQKYRARRVSIDSVTSVFQQYDASSVVRRELFRLVARLKQIGATTVMTTERIEEYGPIARYGVEEFVSDNVVILRNVLEGERRRRTLEILKLRGTSHMKGEYPFTITDHGINIFPLGAMRLTQRSSNVRVSSGVVRLDEMCGGGFFKDSIILATGATGTGKTLLVSRFVENACANKERAILFAYEESRAQLLRNAYSWGMDFEEMERQNLLKIVCAYPESAGLEDHLQIIKSEINDFKPARIAIDSLSALARGVSNNAFRQFVIGVTGYAKQEEITGLFTNTSDQFMGAHSITDSHIITDTIILLQYVEIRGEMSRAINVFKMRGSWHDKAIREFMISDKGPDIKDSFRNFERIISGSPTRITVDEKSEL EHQAIAKMRTMIEGFDDISHGGLPIGRSTLVSGTSGTGKTLFSIQFLYNGIIEFDEPGVFVTFEETPQDIIKNARSFGWDLAKLVDEGKLFILDASPDPEGQEVVGGFDLSALIERINYAIQKYRARRVSIDSVTSVFQQYDASSVVRRELFRLVARLKQIGATTVMTTERIEEYGPIARYGVEEFVSDNVVILRNVLEGERRRRTLEILKLRGTSHMKGEYPFTITDHGINIFPLGAMRLTQRSSNVRVSSGVVRLDEMCGGGFFKDSIILATGATGTGKTLLVSRFVENACANKERAILFAYEESRAQLLRNAYSWGMDFEEMERQNLLKIVCAYPESAGLEDHLQIIKSEINDFKPARIAIDSLSALARGVSNNAFRQFVIGVTGYAKQEEITGLFTNTSDQFMGAHSITDSHIITDTIILLQYVEIRGEMSRAINVFKMRGSWHDKAIREFMISDKGPDIKDSFRNFERIISGSPTRITVDEKSELSRIVRGVQEKGPES 3dwc-a2-m1-cD_3dwc-a2-m1-cC Trypanosoma Cruzi Metallocarboxypeptidase 1 Q6ZXC0 Q6ZXC0 2.1 X-RAY DIFFRACTION 95 0.998 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 482 500 3dwc-a1-m1-cA_3dwc-a1-m1-cB GSMKPYKELERVFTKLYRYGHMLLLADWDSHTMMPKGSDARGAAMAELQLHMHDTITAPKIRALIEEAEKSVGDLEKLQRANLREMRRAWELENLLPEEFVERKTVLTLPTLKELIALFREEGKLRAGNSGKHPYEALVDIYEPGMTLQRLDEIFGNVRSWLPELLKEVQEKQKALGETVLEPKGPFPVSKQEALCRFFMDVWKFDFDGGRLDVSAHPFCGNSKEDVRITTKYTETEFVTSLLGVIHETGHAKYEQNCGPKGFETQPVCMARSLGVHEGQSLFAEMQIGRSGAFMEFLAPRLVEYFGDQPAFTSSNMKRVIQRVSPGLIRIDADELCYPLHVMLRYEIERDLMDGNIEAEEVPRVWNEKMKSYLGLETLGNDKEGCLQDVHWSGGMFGYFPTYSLGAMVAAQLMSCVRRELGEEVVDDCIRKGDLGKILAKQNEKIWQHGSSLTTDELLRQATGETLNPEHYRRHLERRYRD SMKPYKELERVFTKLYRYGHMLLLADWDSHTMMPKGSDARGAAMAELQLHMHDTITAPKIRALIEEAEKSVGDLEKLQRANLREMRRAWELENLLPEEFVERKTVLTTKAHQVWKTCREKNDFAGFLPTLKELIALFREEGKLRAGNSGKHPYEALVDIYEPGMTLQRLDEIFGNVRSWLPELLKEVQEKQKALGETVLEPKGPFPVSKQEALCRFFMDVWKFDFDGGRLDVSAHPFCGNSKEDVRITTKYTETEFVTSLLGVIHETGHAKYEQNCGPKGFETQPVCMARSLGVHEGQSLFAEMQIGRSGAFMEFLAPRLVEYFGDQPAFTSSNMKRVIQRVSPGLIRIDADELCYPLHVMLRYEIERDLMDGNIEAEEVPRVWNEKMKSYLGLETLGNDKEGCLQDVHWSGGMFGYFPTYSLGAMVAAQLMSCVRRELGEEVVDDCIRKGDLGKILAKQNEKIWQHGSSLTTDELLRQATGETLNPEHYRRHLERRYRD 3dwf-a1-m1-cA_3dwf-a1-m1-cC Crystal Structure of the Guinea Pig 11beta-Hydroxysteroid Dehydrogenase Type 1 Mutant F278E Q6QLL4 Q6QLL4 2.2 X-RAY DIFFRACTION 11 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 271 274 EKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNERW NEKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNEKLRW 3dwf-a1-m1-cA_3dwf-a1-m1-cD Crystal Structure of the Guinea Pig 11beta-Hydroxysteroid Dehydrogenase Type 1 Mutant F278E Q6QLL4 Q6QLL4 2.2 X-RAY DIFFRACTION 42 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 271 275 EKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNERW EKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNEKLYGRW 3dwf-a1-m1-cB_3dwf-a1-m1-cD Crystal Structure of the Guinea Pig 11beta-Hydroxysteroid Dehydrogenase Type 1 Mutant F278E Q6QLL4 Q6QLL4 2.2 X-RAY DIFFRACTION 12 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 275 275 EKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNEKLYGRW EKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNEKLYGRW 3dwf-a1-m1-cC_3dwf-a1-m1-cB Crystal Structure of the Guinea Pig 11beta-Hydroxysteroid Dehydrogenase Type 1 Mutant F278E Q6QLL4 Q6QLL4 2.2 X-RAY DIFFRACTION 13 0.996 10141 (Cavia porcellus) 10141 (Cavia porcellus) 274 275 NEKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNEKLRW EKFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEELSAAEYNWDNVLSNEKLYGRW 3dwq-a1-m1-cD_3dwq-a1-m1-cC Crystal structure of the A-subunit of the AB5 toxin from E. coli with Neu5Gc-2,3Gal-1,3GlcNAc Q3ZTX8 Q3ZTX8 2.1 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 117 120 3dwa-a1-m1-cA_3dwa-a1-m1-cC 3dwa-a1-m1-cB_3dwa-a1-m1-cD 3dwa-a1-m1-cD_3dwa-a1-m1-cC 3dwa-a1-m1-cE_3dwa-a1-m1-cA 3dwa-a1-m1-cE_3dwa-a1-m1-cB 3dwp-a1-m1-cA_3dwp-a1-m1-cC 3dwp-a1-m1-cA_3dwp-a1-m1-cE 3dwp-a1-m1-cB_3dwp-a1-m1-cD 3dwp-a1-m1-cD_3dwp-a1-m1-cC 3dwp-a1-m1-cE_3dwp-a1-m1-cB 3dwq-a1-m1-cA_3dwq-a1-m1-cC 3dwq-a1-m1-cA_3dwq-a1-m1-cE 3dwq-a1-m1-cB_3dwq-a1-m1-cD 3dwq-a1-m1-cE_3dwq-a1-m1-cB 4bwg-a1-m1-cB_4bwg-a1-m1-cD 4bwg-a1-m1-cB_4bwg-a1-m1-cF 4bwg-a1-m1-cE_4bwg-a1-m1-cC 4bwg-a1-m1-cF_4bwg-a1-m1-cC 4bwg-a2-m1-cH_4bwg-a2-m1-cL 4bwg-a2-m1-cJ_4bwg-a2-m1-cH 4bwg-a2-m1-cJ_4bwg-a2-m1-cK 4bwg-a2-m1-cK_4bwg-a2-m1-cI 4bwg-a2-m1-cL_4bwg-a2-m1-cI EWTGDARDGMFSGVVITQFHTGQIDNKPYFCIEGKQSAGSSISACSMKNSSVWGASFSTLYNQALYFYTTGQPVRIYYEPGVWTYPPFVKALTSNALVGLSTCTTSTECFGPDRKKN EWTGDARDGMFSGVVITQFHTGQIDNKPYFCIEGKQSAGSSISACSMKNSSVWGASFSTLYNQALYFYTTGQPVRIYYEPGVWTYPPFVKALTSNALVGLSTCTTSTECFGPDRKKNSLE 3dx5-a1-m1-cA_3dx5-a1-m2-cA Crystal structure of the probable 3-DHS dehydratase AsbF involved in the petrobactin synthesis from Bacillus anthracis Q81RQ4 Q81RQ4 2.12 X-RAY DIFFRACTION 82 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 267 267 KYSLCTISFRHQLISFTDIVQFAYENGFEGIELWGTHAQNLYQEYETTERELNCLKDKTLEITISDYLDISLSADFEKTIEKCEQLAILANWFKTNKIRTFAGQKGSADFSQQERQEYVNRIRICELFAQHNYVLLETHPNTLTDTLPSTLELLGEVDHPNLKINLDFLHIWESGADPVDSFQQLRPWIQHYHFKNISSADYLHVFEPNNVYAAAGNRTGVPLFEGIVNYDEIIQEVRDTDHFASLEWFGHNAKDILKAEKVLTNRN KYSLCTISFRHQLISFTDIVQFAYENGFEGIELWGTHAQNLYQEYETTERELNCLKDKTLEITISDYLDISLSADFEKTIEKCEQLAILANWFKTNKIRTFAGQKGSADFSQQERQEYVNRIRICELFAQHNYVLLETHPNTLTDTLPSTLELLGEVDHPNLKINLDFLHIWESGADPVDSFQQLRPWIQHYHFKNISSADYLHVFEPNNVYAAAGNRTGVPLFEGIVNYDEIIQEVRDTDHFASLEWFGHNAKDILKAEKVLTNRN 3dxb-a5-m1-cA_3dxb-a5-m1-cD Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 10 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 214 216 PMSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA HHPMSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxb-a5-m1-cB_3dxb-a5-m1-cC Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 57 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 211 211 3dxb-a5-m1-cE_3dxb-a5-m1-cF 6lur-a1-m1-cH_6lur-a1-m1-cD DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxb-a5-m1-cB_3dxb-a5-m1-cG Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 10 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 211 211 3dxb-a5-m1-cE_3dxb-a5-m1-cC 3dxb-a5-m1-cF_3dxb-a5-m1-cH 6lur-a1-m1-cA_6lur-a1-m1-cH 6lur-a1-m1-cB_6lur-a1-m1-cE 6lur-a1-m1-cC_6lur-a1-m1-cD 6lur-a1-m1-cF_6lur-a1-m1-cG DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxb-a5-m1-cE_3dxb-a5-m1-cG Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 55 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 210 211 3dxb-a5-m1-cC_3dxb-a5-m1-cH 6lur-a1-m1-cA_6lur-a1-m1-cC 6lur-a1-m1-cB_6lur-a1-m1-cD 6lur-a1-m1-cB_6lur-a1-m1-cF 6lur-a1-m1-cC_6lur-a1-m1-cE KIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxb-a5-m1-cF_3dxb-a5-m1-cA Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 107 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 211 214 3dxb-a1-m1-cF_3dxb-a1-m1-cA 3dxb-a2-m1-cB_3dxb-a2-m1-cD 3dxb-a5-m1-cB_3dxb-a5-m1-cD 6lur-a1-m1-cG_6lur-a1-m1-cH DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA PMSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxb-a5-m1-cF_3dxb-a5-m1-cD Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 51 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 211 216 3dxb-a5-m1-cB_3dxb-a5-m1-cA 6lur-a1-m1-cE_6lur-a1-m1-cG DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA HHPMSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxb-a5-m1-cG_3dxb-a5-m1-cD Structure of the UHM domain of Puf60 fused to thioredoxin Q9UHX1 Q9UHX1 2.2 X-RAY DIFFRACTION 65 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 211 216 3dxb-a5-m1-cH_3dxb-a5-m1-cA 6lur-a1-m1-cA_6lur-a1-m1-cG 6lur-a1-m1-cF_6lur-a1-m1-cH DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA HHPMSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 3dxi-a1-m1-cA_3dxi-a1-m1-cB Crystal structure of the N-terminal domain of a putative aldolase (BVU_2661) from Bacteroides vulgatus A6L3P9 A6L3P9 2.04 X-RAY DIFFRACTION 78 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 286 286 LKILDCTLRDGGYYTNWDFNSKIVDAYILANELPIDYLEVGYRNKPSKEYGKFGYTPVSVLKHLRNISTKKIAILNEKNTTPEDLNHLLLPIIGLVDIRIAIDPQNIDRAIVLAKAIKTGFEVGFNVYSKWAENGFLSKLKAIDKIADLFCVDSFGGITPKEVKNLLKEVRKYTHVPVGFHGHDNLQLGLINSITAIDDGIDFIDATITGGRGAGNLKELLLTYLNKHHGLNVDFNVLGNIITTFTPLLEKYQWGTNLPYLSGANNIPQKEVDWVTYSFNSIIRAL LKILDCTLRDGGYYTNWDFNSKIVDAYILANELPIDYLEVGYRNKPSKEYGKFGYTPVSVLKHLRNISTKKIAILNEKNTTPEDLNHLLLPIIGLVDIRIAIDPQNIDRAIVLAKAIKTGFEVGFNVYSKWAENGFLSKLKAIDKIADLFCVDSFGGITPKEVKNLLKEVRKYTHVPVGFHGHDNLQLGLINSITAIDDGIDFIDATITGGRGAGNLKELLLTYLNKHHGLNVDFNVLGNIITTFTPLLEKYQWGTNLPYLSGANNIPQKEVDWVTYSFNSIIRAL 3dxo-a1-m1-cA_3dxo-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE ISOMERASE OF THE SNOAL-LIKE FAMILY (ATU_0744) FROM AGROBACTERIUM TUMEFACIENS STR. C58 AT 2.70 A RESOLUTION Q7D0S4 Q7D0S4 2.7 X-RAY DIFFRACTION 31 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 114 115 TQHLTIAQTYLAAWNEEDNERRRHLVGQAWAENTRYVDPLQGEGQQGIAAIEAARQKFPGYRFVLAGTPDGHGNFTRFSWRLISPDGDDVAGGTDVVSLNTEGRIDNVVGFLDG TQHLTIAQTYLAAWNEEDNERRRHLVGQAWAENTRYVDPLQGEGQQGIAAIEAARQKFPGYRFVLAGTPDGHGNFTRFSWRLISPDGDDVAGGTDVVSLNTEGRIDNVVGFLDGA 3dxp-a1-m1-cA_3dxp-a1-m2-cA Crystal structure of a putative aminoglycoside phosphotransferase (reut_a1007) from ralstonia eutropha jmp134 at 2.32 A resolution Q473P7 Q473P7 2.32 X-RAY DIFFRACTION 56 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 312 312 RFDTEALEAWRQHVEGFAGPLSVEQFKGQSNPTFKLVTPGQTYVRAKPGAIEREYRVDALAGTDVPVAKYALCEDESVIGRAFYIEFVSGRVLWDQSLPGSPAERTAIYDENRVIAAHTVDYQAIGLGDYGKPGNYFQRQIERWTKQYKLSETESIPADSLDWLPQHIPQEDADLTSIVHGDYRLDNLFHPTEPRVLAVLDWELSTLGHPGDFGYHCSWHIAPGQFRGIAGLDHAALGIPDEASYRKLYEQRTGRPITGDWNFYLAFSFRIAGILQGIKRVVDGTASSAQALDAGKRARPAEGWEYAKKAKQ RFDTEALEAWRQHVEGFAGPLSVEQFKGQSNPTFKLVTPGQTYVRAKPGAIEREYRVDALAGTDVPVAKYALCEDESVIGRAFYIEFVSGRVLWDQSLPGSPAERTAIYDENRVIAAHTVDYQAIGLGDYGKPGNYFQRQIERWTKQYKLSETESIPADSLDWLPQHIPQEDADLTSIVHGDYRLDNLFHPTEPRVLAVLDWELSTLGHPGDFGYHCSWHIAPGQFRGIAGLDHAALGIPDEASYRKLYEQRTGRPITGDWNFYLAFSFRIAGILQGIKRVVDGTASSAQALDAGKRARPAEGWEYAKKAKQ 3dxr-a2-m2-cB_3dxr-a2-m6-cB Crystal structure of the yeast inter-membrane space chaperone assembly TIM9.10 P87108 P87108 2.5 X-RAY DIFFRACTION 15 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 69 69 3dxr-a2-m1-cB_3dxr-a2-m4-cB 3dxr-a2-m3-cB_3dxr-a2-m5-cB SQQKIQAAEAELDLVTDMFNKLVNNCYKKCINTSYSEGELNKNESSCLDRCVAKYFETNVQVGENMQKM SQQKIQAAEAELDLVTDMFNKLVNNCYKKCINTSYSEGELNKNESSCLDRCVAKYFETNVQVGENMQKM 3dxv-a1-m1-cA_3dxv-a1-m1-cB The crystal structure of alpha-amino-epsilon-caprolactam racemase from Achromobacter obae Q7M181 Q7M181 2.21 X-RAY DIFFRACTION 406 1.0 37486 (Achromobacter obae) 37486 (Achromobacter obae) 421 434 2zuk-a1-m1-cA_2zuk-a1-m1-cB 3dxw-a1-m1-cA_3dxw-a1-m1-cB KALYDRDGAAIGNLQKLRFFPLAISGGRGARLIEENGRELIDLSGAWGAASLGYGHPAIVAAVSAAAANPAGATILSASNAPAVTLAERLLASFPGEGTHKIWFGHSGSDANEAAYRAIVKATGRSGVIAFAGAYHGCTVGSMAFGLILLPYPDPYRPYRNDPTGDAILTLLTEKLAAVPAGSIGAAFIEPIQSDGGLIVPPDGFLRKFADICRAHGILVVCDEVKVGLARSGRLHCFEHEGFVPDILVLGKGLGGGLPLSAVIAPAEILDCASAFAMQTLHGNPISAAAGLAVLETIDRDDLPAMAERKGRLLRDGLSELAKRHPLIGDIRGRGLACGMELVCDRQSREPARAETAKLIYRAYQLGLVVYYVGMNGNVLEFTPPLTITETDIHKALDLLDRAFSELSAVSNEEIAQFAGW KALYDRDGAAIGNLQKLRFFPLAISGGRGARLIEENGRELIDLSGAWGAASLGYGHPAIVAAVSAAAANPAGATILSASNAPAVTLAERLLASFPGEGTHKIWFGHSGSDANEAAYRAIVKATGRSGVIAFAGAYHGCTVGSMAFSGHSVQADAAKADGLILLPYPDPYRPYRNDPTGDAILTLLTEKLAAVPAGSIGAAFIEPIQSDGGLIVPPDGFLRKFADICRAHGILVVCDEVKVGLARSGRLHCFEHEGFVPDILVLGKGLGGGLPLSAVIAPAEILDCASAFAMQTLHGNPISAAAGLAVLETIDRDDLPAMAERKGRLLRDGLSELAKRHPLIGDIRGRGLACGMELVCDRQSREPARAETAKLIYRAYQLGLVVYYVGMNGNVLEFTPPLTITETDIHKALDLLDRAFSELSAVSNEEIAQFAGW 3dyd-a1-m1-cB_3dyd-a1-m1-cA Human Tyrosine Aminotransferase P17735 P17735 2.3 X-RAY DIFFRACTION 174 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 387 388 3pdx-a1-m1-cA_3pdx-a1-m2-cA WSVRPSDVKPNPNKTMISLSIGDPTVFGNLPTDPEVTQAMKDALDSGKYNGYAPSIGFLSSREEIASYYHCPEAPLEAKDVILTSGCSQAIDLCLAVLANPGQNILVPRPGFSLYKTLAESMGIEVKLYNLLPEKSWEIDLKQLEYLIDEKTACLIVNNPSNPCGSVFSKRHLQKILAVAARQCVPILADEIYGDMVFSDCKYEPLATLSTDVPILSCGGLAKRWLVPGWRLGWILIHDRRDIFGNEIRDGLVKLSQRILGPCTIVQGALKSILCRTPGEFYHNTLSFLKSNADLCYGALAAIPGLRPVRPSGAMYLMVGIEMEHFPEFENDVEFTERLVAEQSVHCLPATCFEYPNFIRVVITVPEVMMLEACSRIQEFCEQHYHC WSVRPSDKVKPNPNKTMISLSIGDPTVFGNLPTDPEVTQAMKDALDSGKYNGYAPSIGFLSSREEIASYYHCPEAPLEAKDVILTSGCSQAIDLCLAVLANPGQNILVPRPGFSLYKTLAESMGIEVKLYNLLPEKSWEIDLKQLEYLIDEKTACLIVNNPSNPCGSVFSKRHLQKILAVAARQCVPILADEIYGDMVFSDCKYEPLATLSTDVPILSCGGLAKRWLVPGWRLGWILIHDRRDIFGNEIRDGLVKLSQRILGPCTIVQGALKSILCRTPGEFYHNTLSFLKSNADLCYGALAAIPGLRPVRPSGAMYLMVGIEMEHFPEFENDVEFTERLVAEQSVHCLPATCFEYPNFIRVVITVPEVMMLEACSRIQEFCEQHYHC 3dyh-a1-m1-cA_3dyh-a1-m1-cB T. Brucei Farnesyl Diphosphate Synthase Complexed with Bisphosphonate BPH-721 Q86C09 Q86C09 1.94 X-RAY DIFFRACTION 168 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 358 359 2ewg-a2-m1-cA_2ewg-a2-m4-cB 2ewg-a2-m2-cA_2ewg-a2-m3-cB 2i19-a1-m1-cB_2i19-a1-m1-cA 2ogd-a1-m1-cA_2ogd-a1-m1-cB 2p1c-a1-m1-cA_2p1c-a1-m1-cB 3dyf-a1-m1-cA_3dyf-a1-m1-cB 3dyg-a1-m1-cA_3dyg-a1-m1-cB 3efq-a1-m1-cA_3efq-a1-m1-cB 3egt-a1-m1-cA_3egt-a1-m1-cB 4rxd-a1-m1-cA_4rxd-a1-m1-cC 4rxd-a2-m1-cB_4rxd-a2-m2-cB 4rxe-a1-m1-cA_4rxe-a1-m1-cB 4ryp-a1-m1-cA_4ryp-a1-m2-cA 4ryp-a2-m1-cB_4ryp-a2-m2-cB 5ael-a1-m1-cA_5ael-a1-m1-cB 5afx-a1-m1-cA_5afx-a1-m1-cB 5ahu-a1-m1-cB_5ahu-a1-m1-cD 5qtd-a1-m1-cA_5qtd-a1-m2-cA 5qte-a1-m1-cA_5qte-a1-m2-cA 5qtf-a1-m1-cA_5qtf-a1-m2-cA 5qtg-a1-m1-cA_5qtg-a1-m2-cA 5qth-a1-m1-cA_5qth-a1-m2-cA 5qti-a1-m1-cA_5qti-a1-m2-cA 5qtj-a1-m1-cA_5qtj-a1-m2-cA 5qtk-a1-m1-cA_5qtk-a1-m2-cA 6r37-a1-m1-cA_6r37-a1-m2-cA 6r38-a1-m1-cA_6r38-a1-m2-cA 6sii-a1-m1-cA_6sii-a1-m2-cA MPMQMFMQVYDEIQMFLLEELELKFDMDPNRVRYLRKMMDTTCLGGKYNRGLTVIDVAESLLSLDGARRKRVLHDACVCGWMIEFLQAHYLVEDDIMDNSVTRRGKPCWYRHPDVTVQCAINDGLLLKSWTHMMAMHFFADRPFLQDLLCRFNRVDYTTAVGQLYDVTSMFDSNKLDPDVSQPTTTDFAEFTLSNYKRIVKYKTAYYTYLLPLVMGLIVSEALPTVDMGVTEELAMLMGEYFQVQDDVMDCFTPPERLGKVGTDIQDAKCSWLAVTFLAKASSAQVAEFKANYGSGDSEKVATVRRLYEEADLQGDYVAYEAAVAEQVKELIEKLRLCSPGFAASVETLWGKTYKRQK MPMQMFMQVYDEIQMFLLEELELKFDMDPNRVRYLRKMMDTTCLGGKYNRGLTVIDVAESLLSLDDGARRKRVLHDACVCGWMIEFLQAHYLVEDDIMDNSVTRRGKPCWYRHPDVTVQCAINDGLLLKSWTHMMAMHFFADRPFLQDLLCRFNRVDYTTAVGQLYDVTSMFDSNKLDPDVSQPTTTDFAEFTLSNYKRIVKYKTAYYTYLLPLVMGLIVSEALPTVDMGVTEELAMLMGEYFQVQDDVMDCFTPPERLGKVGTDIQDAKCSWLAVTFLAKASSAQVAEFKANYGSGDSEKVATVRRLYEEADLQGDYVAYEAAVAEQVKELIEKLRLCSPGFAASVETLWGKTYKRQK 3dz1-a1-m1-cA_3dz1-a1-m4-cA Crystal structure of Dihydrodipicolinate Synthase from Rhodopseudomonas palustris at 1.87A resolution Q6N4Z3 Q6N4Z3 1.87 X-RAY DIFFRACTION 20 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 291 291 3dz1-a1-m2-cA_3dz1-a1-m3-cA SLKLTPEAAGTFAIAPTPFHDDGKIDDVSIDRLTDFYAEVGCEGVTVLGILGEAPKLDAAEAEAVATRFIKRAKSQVIVGVSAPGFAARRLARLSDAGAAGVIAPPPSLRTDEQITTYFRQATEAIGDDVPWVLQDYPLTLSVVTPKVIRQIVDSASCVLKHEDWPGLEKITTLRGFQKDGSLRPLSILCGNGGLFLDFEERGADGATGYCFPDLVDVVKLSKAGQRDLAHNLFDAHLPLIRYEHQQGVGLSVRKYVLKKRGLLSSSAQRKPGASLTDTAREEVDYLLSRL SLKLTPEAAGTFAIAPTPFHDDGKIDDVSIDRLTDFYAEVGCEGVTVLGILGEAPKLDAAEAEAVATRFIKRAKSQVIVGVSAPGFAARRLARLSDAGAAGVIAPPPSLRTDEQITTYFRQATEAIGDDVPWVLQDYPLTLSVVTPKVIRQIVDSASCVLKHEDWPGLEKITTLRGFQKDGSLRPLSILCGNGGLFLDFEERGADGATGYCFPDLVDVVKLSKAGQRDLAHNLFDAHLPLIRYEHQQGVGLSVRKYVLKKRGLLSSSAQRKPGASLTDTAREEVDYLLSRL 3dz1-a1-m2-cA_3dz1-a1-m4-cA Crystal structure of Dihydrodipicolinate Synthase from Rhodopseudomonas palustris at 1.87A resolution Q6N4Z3 Q6N4Z3 1.87 X-RAY DIFFRACTION 45 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 291 291 3dz1-a1-m1-cA_3dz1-a1-m3-cA SLKLTPEAAGTFAIAPTPFHDDGKIDDVSIDRLTDFYAEVGCEGVTVLGILGEAPKLDAAEAEAVATRFIKRAKSQVIVGVSAPGFAARRLARLSDAGAAGVIAPPPSLRTDEQITTYFRQATEAIGDDVPWVLQDYPLTLSVVTPKVIRQIVDSASCVLKHEDWPGLEKITTLRGFQKDGSLRPLSILCGNGGLFLDFEERGADGATGYCFPDLVDVVKLSKAGQRDLAHNLFDAHLPLIRYEHQQGVGLSVRKYVLKKRGLLSSSAQRKPGASLTDTAREEVDYLLSRL SLKLTPEAAGTFAIAPTPFHDDGKIDDVSIDRLTDFYAEVGCEGVTVLGILGEAPKLDAAEAEAVATRFIKRAKSQVIVGVSAPGFAARRLARLSDAGAAGVIAPPPSLRTDEQITTYFRQATEAIGDDVPWVLQDYPLTLSVVTPKVIRQIVDSASCVLKHEDWPGLEKITTLRGFQKDGSLRPLSILCGNGGLFLDFEERGADGATGYCFPDLVDVVKLSKAGQRDLAHNLFDAHLPLIRYEHQQGVGLSVRKYVLKKRGLLSSSAQRKPGASLTDTAREEVDYLLSRL 3dz1-a1-m3-cA_3dz1-a1-m4-cA Crystal structure of Dihydrodipicolinate Synthase from Rhodopseudomonas palustris at 1.87A resolution Q6N4Z3 Q6N4Z3 1.87 X-RAY DIFFRACTION 63 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 291 291 3dz1-a1-m1-cA_3dz1-a1-m2-cA SLKLTPEAAGTFAIAPTPFHDDGKIDDVSIDRLTDFYAEVGCEGVTVLGILGEAPKLDAAEAEAVATRFIKRAKSQVIVGVSAPGFAARRLARLSDAGAAGVIAPPPSLRTDEQITTYFRQATEAIGDDVPWVLQDYPLTLSVVTPKVIRQIVDSASCVLKHEDWPGLEKITTLRGFQKDGSLRPLSILCGNGGLFLDFEERGADGATGYCFPDLVDVVKLSKAGQRDLAHNLFDAHLPLIRYEHQQGVGLSVRKYVLKKRGLLSSSAQRKPGASLTDTAREEVDYLLSRL SLKLTPEAAGTFAIAPTPFHDDGKIDDVSIDRLTDFYAEVGCEGVTVLGILGEAPKLDAAEAEAVATRFIKRAKSQVIVGVSAPGFAARRLARLSDAGAAGVIAPPPSLRTDEQITTYFRQATEAIGDDVPWVLQDYPLTLSVVTPKVIRQIVDSASCVLKHEDWPGLEKITTLRGFQKDGSLRPLSILCGNGGLFLDFEERGADGATGYCFPDLVDVVKLSKAGQRDLAHNLFDAHLPLIRYEHQQGVGLSVRKYVLKKRGLLSSSAQRKPGASLTDTAREEVDYLLSRL 3dz8-a1-m1-cA_3dz8-a1-m2-cA Crystal structure of human Rab3B GTPase bound with GDP P20337 P20337 1.9 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 178 RENLYFQGNFDYMFKLLIIGNSSVGKTSFLFRYADDTFTPAFVSTVGIDFKVKTVYRHEKRVKLQIWDTAGQERYRTITTAYYRGAMGFILMYDITNEESFNAVQDWATQIKTYSWDNAQVILVGNKCDMEEERVVPTEKGQLLAEQLGFDFFEASAKENISVRQAFERLVDAICDKM RENLYFQGNFDYMFKLLIIGNSSVGKTSFLFRYADDTFTPAFVSTVGIDFKVKTVYRHEKRVKLQIWDTAGQERYRTITTAYYRGAMGFILMYDITNEESFNAVQDWATQIKTYSWDNAQVILVGNKCDMEEERVVPTEKGQLLAEQLGFDFFEASAKENISVRQAFERLVDAICDKM 3dza-a1-m1-cC_3dza-a1-m1-cD Crystal structure of a putative membrane protein of unknown function (yfdx) from klebsiella pneumoniae subsp. at 1.65 A resolution A6TE93 A6TE93 1.65 X-RAY DIFFRACTION 166 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 171 172 3dza-a1-m1-cA_3dza-a1-m1-cB ATTQVQKEAADVLQVAVQGANARDIQFARLALFHGQPDSAKKLTDDAAALLAADDASWAKFVKTDAKAKIADRYVIINASIALSEDYVATPEKESAIQSANEKLAKGDQKGAIDTLRLAGIGVIENQYLPLNQTRKAVAQSQELLKAGKYYEANLVLKGAEEGIVVDSELV AATTQVQKEAADVLQVAVQGANARDIQFARLALFHGQPDSAKKLTDDAAALLAADDASWAKFVKTDAKAKIADRYVIINASIALSEDYVATPEKESAIQSANEKLAKGDQKGAIDTLRLAGIGVIENQYLPLNQTRKAVAQSQELLKAGKYYEANLVLKGAEEGIVVDSELV 3dza-a1-m1-cD_3dza-a1-m1-cA Crystal structure of a putative membrane protein of unknown function (yfdx) from klebsiella pneumoniae subsp. at 1.65 A resolution A6TE93 A6TE93 1.65 X-RAY DIFFRACTION 88 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 172 176 3dza-a1-m1-cC_3dza-a1-m1-cB AATTQVQKEAADVLQVAVQGANARDIQFARLALFHGQPDSAKKLTDDAAALLAADDASWAKFVKTDAKAKIADRYVIINASIALSEDYVATPEKESAIQSANEKLAKGDQKGAIDTLRLAGIGVIENQYLPLNQTRKAVAQSQELLKAGKYYEANLVLKGAEEGIVVDSELV APAAAATTQVQKEAADVLQVAVQGANARDIQFARLALFHGQPDSAKKLTDDAAALLAADDASWAKFVKTDAKAKIADRYVIINASIALSEDYVATPEKESAIQSANEKLAKGDQKGAIDTLRLAGIGVIENQYLPLNQTRKAVAQSQELLKAGKYYEANLVLKGAEEGIVVDSELV 3dzb-a1-m1-cB_3dzb-a1-m1-cA Crystal structure of Prephenate dehydrogenase from Streptococcus thermophilus Q5M554 Q5M554 2.46 X-RAY DIFFRACTION 237 0.996 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 270 281 KTIYIAGLGLIGGSLALGIKRDHPDYEILGYNRSDYSRNIALERGIVDRATGDFKEFAPLADVIILAVPIKQTAYLKELADLDLKDNVIITDAGSTKREIVEAAERYLTGKNVQFVGSHPAGSHAADVTLFENAYYIFTPTSLTKETTIPELKDILSGLKSRYVEIDAAEHDRVTSQISHFPHLLASGLEQAADYAQAHETNHFAAGGFRDTRIAESEPGWASILTNGPAVLDRIEDFKKRLDHVADLIKAEDESAIWEFFDNGRKKRKE KTIYIAGLGLIGGSLALGIKRDHPDYEILGYNRSDYSRNIALERGIVDRATGDFKEFAPLADVIILAVPIKQTAYLKELADLDLKDNVIITDAGSTKREIVEAAERYLTGKNVQFVGSHPAGSAADVTLFENAYYIFTPTSLTKETTIPELKDILSGLKSRYVEIDAAEHDRVTSQISHFPHLLASGLEQAADYAQAHETNHFAAGGFRDTRIAESEPGWASILTNGPAVLDRIEDFKKRLDHVADLIKAEDESAIWEFFDNGRKKRKEEIHKKGGVESAF 3dzc-a1-m1-cA_3dzc-a1-m1-cB 2.35 Angstrom resolution structure of WecB (VC0917), a UDP-N-acetylglucosamine 2-epimerase from Vibrio cholerae. Q9KTI5 Q9KTI5 2.35 X-RAY DIFFRACTION 69 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 373 373 AMKKVLIVFGTRPEAIKMAPLVQQLCQDNRFVAKVCVTGQHREMLDQVLELFSITPDFDLNIMEPGQTLNGVTSKILLGMQQVLSSEQPDVVLVHGDTATTFAASLAAYYQQIPVGHVEAGLRTGNIYSPWPEEGNRKLTAALTQYHFAPTDTSRANLLQENYNAENIFVTGNTVIDALLAVREKIHTDMDLQATLESQFPMLDASKKLILVTGHRRESFGGGFERICQALITTAEQHPECQILYPVHLNPNVREPVNKLLKGVSNIVLIEPQQYLPFVYLMDRAHIILTDSGGIQEEAPSLGKPVLVMRETTERPEAVAAGTVKLVGTNQQQICDALSLLLTDPQAYQAMSQAHNPYGDGKACQRIADILAK AMKKVLIVFGTRPEAIKMAPLVQQLCQDNRFVAKVCVTGQHREMLDQVLELFSITPDFDLNIMEPGQTLNGVTSKILLGMQQVLSSEQPDVVLVHGDTATTFAASLAAYYQQIPVGHVEAGLRTGNIYSPWPEEGNRKLTAALTQYHFAPTDTSRANLLQENYNAENIFVTGNTVIDALLAVREKIHTDMDLQATLESQFPMLDASKKLILVTGHRRESFGGGFERICQALITTAEQHPECQILYPVHLNPNVREPVNKLLKGVSNIVLIEPQQYLPFVYLMDRAHIILTDSGGIQEEAPSLGKPVLVMRETTERPEAVAAGTVKLVGTNQQQICDALSLLLTDPQAYQAMSQAHNPYGDGKACQRIADILAK 3dzd-a1-m1-cA_3dzd-a1-m1-cB Crystal structure of sigma54 activator NTRC4 in the inactive state O66551 O66551 2.4 X-RAY DIFFRACTION 104 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 366 366 KRVLVVDDEESITSSLSAILEEEGYHPDTAKTLREAEKKIKELFFPVIVLDVWPDGDGVNFIDFIKENSPDSVVIVITGHGSVDTAVKAIKKGAYEFLEKPFSVERFLLTIKHAFEEYSKKAPPQEEIEFVGEHPKILEIKRLIPKIAKSKAPVLITGESGTGKEIVARLIHRYSGRKGAFVDLNCASIPQELAESELFGHEKGAFTGALTRKKGKLELADQGTLFLDEVGELDQRVQAKLLRVLETGSFTRLGGNQKIEVDIRVISATNKNLEEEIKKGNFREDLYYRLSVFQIYLPPLRERGKDVILLAEYFLKKFAKEYKKNCFELSEETKEYLKQEWKGNVRELKNLIERAVILCEGEVIKP KRVLVVDDEESITSSLSAILEEEGYHPDTAKTLREAEKKIKELFFPVIVLDVWPDGDGVNFIDFIKENSPDSVVIVITGHGSVDTAVKAIKKGAYEFLEKPFSVERFLLTIKHAFEEYSKKAPPQEEIEFVGEHPKILEIKRLIPKIAKSKAPVLITGESGTGKEIVARLIHRYSGRKGAFVDLNCASIPQELAESELFGHEKGAFTGALTRKKGKLELADQGTLFLDEVGELDQRVQAKLLRVLETGSFTRLGGNQKIEVDIRVISATNKNLEEEIKKGNFREDLYYRLSVFQIYLPPLRERGKDVILLAEYFLKKFAKEYKKNCFELSEETKEYLKQEWKGNVRELKNLIERAVILCEGEVIKP 3dzm-a4-m1-cA_3dzm-a4-m2-cA Crystal structure of a major outer membrane protein from Thermus thermophilus HB27 Q72JD8 Q72JD8 2.801 X-RAY DIFFRACTION 19 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 208 208 HAAKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPSGLGLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF HAAKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPSGLGLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF 3dzm-a4-m1-cC_3dzm-a4-m2-cC Crystal structure of a major outer membrane protein from Thermus thermophilus HB27 Q72JD8 Q72JD8 2.801 X-RAY DIFFRACTION 45 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 202 202 AKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF AKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF 3dzm-a5-m1-cB_3dzm-a5-m1-cA Crystal structure of a major outer membrane protein from Thermus thermophilus HB27 Q72JD8 Q72JD8 2.801 X-RAY DIFFRACTION 39 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 204 208 3dzm-a4-m1-cB_3dzm-a4-m1-cA 3dzm-a4-m2-cB_3dzm-a4-m2-cA HAAKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF HAAKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPSGLGLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF 3dzm-a5-m1-cC_3dzm-a5-m1-cA Crystal structure of a major outer membrane protein from Thermus thermophilus HB27 Q72JD8 Q72JD8 2.801 X-RAY DIFFRACTION 51 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 202 208 3dzm-a4-m1-cC_3dzm-a4-m1-cA 3dzm-a4-m2-cC_3dzm-a4-m2-cA AKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF HAAKFSVEAGAGFYGGFGGQLAVVAEDLAPGLPLGVRLGVGFATSDALDDGYDLGGGTTWGDVKEAGKFSEWGQNVTLSLDVLYKPSGLGLPVEVAPYFGVRYNFFSGGYTDPEDNLTIKAQTISSNQLGLGLGVRAAYPLMPNLSLVGDLGVDYYFQACFTRVEEDDSGNKSQSSVCPGDSGYEDVNKFVTQPEWVLKLRLGAAYRF 3dzv-a2-m2-cB_3dzv-a2-m3-cB Crystal structure of 4-methyl-5-(beta-hydroxyethyl)thiazole kinase (NP_816404.1) from ENTEROCOCCUS FAECALIS V583 at 2.57 A resolution Q830K4 Q830K4 2.57 X-RAY DIFFRACTION 67 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 258 258 3dzv-a1-m1-cA_3dzv-a1-m2-cA 3dzv-a1-m1-cA_3dzv-a1-m3-cA 3dzv-a1-m2-cA_3dzv-a1-m3-cA 3dzv-a2-m1-cB_3dzv-a2-m2-cB 3dzv-a2-m1-cB_3dzv-a2-m3-cB KTSVKFETIFPLTTAPLIQCITNEITCESANALLYIDAKPIADDPREFPQFQQTSALVLNLGHLSQEREQSLLAASDYARQVNKLTVVDLVGYGASDIRNEVGEKLVHNQPTVVKGNLSERTFCQLVSHPLDQSEEAIEELIQALRQQTQKFPQTVFLATGIQDVLVSQEQVIVLQNGVPELDCFTGTGDLVGALVAALLGEGNAPTAAVAAVSYFNLCGEKAKTKSQGLADFRQNTLNQLSLLKEKDWFEAVKGRVL KTSVKFETIFPLTTAPLIQCITNEITCESANALLYIDAKPIADDPREFPQFQQTSALVLNLGHLSQEREQSLLAASDYARQVNKLTVVDLVGYGASDIRNEVGEKLVHNQPTVVKGNLSERTFCQLVSHPLDQSEEAIEELIQALRQQTQKFPQTVFLATGIQDVLVSQEQVIVLQNGVPELDCFTGTGDLVGALVAALLGEGNAPTAAVAAVSYFNLCGEKAKTKSQGLADFRQNTLNQLSLLKEKDWFEAVKGRVL 3dzw-a1-m1-cA_3dzw-a1-m4-cB Structure of Narcissus pseudonarcissus lectin complex with Mannobiose at 1.7 A resolution, form II C0HM45 C0HM45 1.7 X-RAY DIFFRACTION 32 1.0 39639 (Narcissus pseudonarcissus) 39639 (Narcissus pseudonarcissus) 109 109 1npl-a1-m1-cA_1npl-a1-m4-cA 1npl-a1-m2-cA_1npl-a1-m3-cA 3dzw-a1-m2-cA_3dzw-a1-m3-cB DNILYSGETLSPGEFLNNGRYVFIMQEDCNLVLYDVDKPIWATNTGGLDRRCHLSMQSDGNLVVYSPRNNPIWASNTGGENGNYVCVLQKDRNVVIYGTARWATGTNIH DNILYSGETLSPGEFLNNGRYVFIMQEDCNLVLYDVDKPIWATNTGGLDRRCHLSMQSDGNLVVYSPRNNPIWASNTGGENGNYVCVLQKDRNVVIYGTARWATGTNIH 3dzw-a3-m1-cB_3dzw-a3-m5-cB Structure of Narcissus pseudonarcissus lectin complex with Mannobiose at 1.7 A resolution, form II C0HM45 C0HM45 1.7 X-RAY DIFFRACTION 110 1.0 39639 (Narcissus pseudonarcissus) 39639 (Narcissus pseudonarcissus) 109 109 1npl-a1-m1-cA_1npl-a1-m3-cA 1npl-a1-m2-cA_1npl-a1-m4-cA 1npl-a2-m1-cA_1npl-a2-m3-cA 3dzw-a1-m1-cA_3dzw-a1-m2-cA 3dzw-a1-m3-cB_3dzw-a1-m4-cB 3dzw-a2-m1-cA_3dzw-a2-m2-cA DNILYSGETLSPGEFLNNGRYVFIMQEDCNLVLYDVDKPIWATNTGGLDRRCHLSMQSDGNLVVYSPRNNPIWASNTGGENGNYVCVLQKDRNVVIYGTARWATGTNIH DNILYSGETLSPGEFLNNGRYVFIMQEDCNLVLYDVDKPIWATNTGGLDRRCHLSMQSDGNLVVYSPRNNPIWASNTGGENGNYVCVLQKDRNVVIYGTARWATGTNIH 3dzz-a1-m1-cB_3dzz-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE PLP-DEPENDENT AMINOTRANSFERASE (LBUL_1103) FROM LACTOBACILLUS DELBRUECKII SUBSP. AT 1.61 A RESOLUTION 1.61 X-RAY DIFFRACTION 171 1.0 321956 (Lactobacillus delbrueckii subsp. bulgaricus ATCC BAA-365) 321956 (Lactobacillus delbrueckii subsp. bulgaricus ATCC BAA-365) 374 375 KQYDFTHVPKRQGNSIKWGVLKEKELPWIAEDFKIAPEIASEEKLKVAAFGYESVPAEYYKAVADWEEIEHRARPKEDWCVFASGVVPAISAVRQFTSPGDQILVQEPVYNFYSVIEGNGRRVISSDLIYENSKYSVNWADLEEKLATPSVRVFCNPHNPIGYAWSEEEVKRIAELCAKHQVLLISDEIHGDLVLTDEDITPAFTVDWDAKNWVVSLISPSTFNLAALHAACAIIPNPDLRARAEESFFLAGIGEPNLLAIPAAIAAYEEGHDWLRELKQVLRDNFAYAREFLAKEVPEVKVLDSNASYLAWVDISALGNAEDFCKYLREKTGLIISAGNGYRGNGHEFVRINLACPKELVIDGQRLKQGVLNL KQYDFTHVPKRQGNSIKWGVLKEKELPWIAEDFKIAPEIASEEKLKVAAFGYESVPAEYYKAVADWEEIEHRARPKEDWCVFASGVVPAISAVRQFTSPGDQILVQEPVYNFYSVIEGNGRRVISSDLIYENSKYSVNWADLEEKLATPSVRVFCNPHNPIGYAWSEEEVKRIAELCAKHQVLLISDEIHGDLVLTDEDITPAFTVDWDAKNWVVSLISPSTFNLAALHAACAIIPNPDLRARAEESFFLAGIGEPNLLAIPAAIAAYEEGHDWLRELKQVLRDNFAYAREFLAKEVPEVKVLDSNASYLAWVDISALGNAEDFCKYLREKTGLIISAGNGYRGNGHEFVRINLACPKELVIDGQRLKQGVLNLN 3e02-a1-m2-cA_3e02-a1-m4-cA Crystal structure of a duf849 family protein (bxe_c0271) from burkholderia xenovorans lb400 at 1.90 A resolution Q13I95 Q13I95 1.9 X-RAY DIFFRACTION 37 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 298 298 3e02-a1-m1-cA_3e02-a1-m3-cA KQSKKIIITCAVTGSIHTPTSPYLPITPEEIVKEGVAAAEAGAALHLHARDPLNGRPSQDPDLFRFLPQLKERTDAILNITTGGGLGSLDERLAPARAARPEVASNGSLNFNISQAAAKFDTFKFDWERPYLAGTRDFILSNTFSQIERGTELGASGTRFEFECYDVGHLYNLAHFVDRKLVEPPFFLQCVFGILGGIGADPENLLHRTIADRLFGQDYYLSVLAAGRHQPFVTSAILGGNVRVGLEDSLYSGKGQLATSNAEQVRKIRRIIEELSLDIATPDEARALKTKGANETSF KQSKKIIITCAVTGSIHTPTSPYLPITPEEIVKEGVAAAEAGAALHLHARDPLNGRPSQDPDLFRFLPQLKERTDAILNITTGGGLGSLDERLAPARAARPEVASNGSLNFNISQAAAKFDTFKFDWERPYLAGTRDFILSNTFSQIERGTELGASGTRFEFECYDVGHLYNLAHFVDRKLVEPPFFLQCVFGILGGIGADPENLLHRTIADRLFGQDYYLSVLAAGRHQPFVTSAILGGNVRVGLEDSLYSGKGQLATSNAEQVRKIRRIIEELSLDIATPDEARALKTKGANETSF 3e02-a1-m3-cA_3e02-a1-m4-cA Crystal structure of a duf849 family protein (bxe_c0271) from burkholderia xenovorans lb400 at 1.90 A resolution Q13I95 Q13I95 1.9 X-RAY DIFFRACTION 114 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 298 298 3e02-a1-m1-cA_3e02-a1-m2-cA KQSKKIIITCAVTGSIHTPTSPYLPITPEEIVKEGVAAAEAGAALHLHARDPLNGRPSQDPDLFRFLPQLKERTDAILNITTGGGLGSLDERLAPARAARPEVASNGSLNFNISQAAAKFDTFKFDWERPYLAGTRDFILSNTFSQIERGTELGASGTRFEFECYDVGHLYNLAHFVDRKLVEPPFFLQCVFGILGGIGADPENLLHRTIADRLFGQDYYLSVLAAGRHQPFVTSAILGGNVRVGLEDSLYSGKGQLATSNAEQVRKIRRIIEELSLDIATPDEARALKTKGANETSF KQSKKIIITCAVTGSIHTPTSPYLPITPEEIVKEGVAAAEAGAALHLHARDPLNGRPSQDPDLFRFLPQLKERTDAILNITTGGGLGSLDERLAPARAARPEVASNGSLNFNISQAAAKFDTFKFDWERPYLAGTRDFILSNTFSQIERGTELGASGTRFEFECYDVGHLYNLAHFVDRKLVEPPFFLQCVFGILGGIGADPENLLHRTIADRLFGQDYYLSVLAAGRHQPFVTSAILGGNVRVGLEDSLYSGKGQLATSNAEQVRKIRRIIEELSLDIATPDEARALKTKGANETSF 3e03-a3-m4-cA_3e03-a3-m1-cC Crystal structure of a putative dehydrogenase from Xanthomonas campestris Q8P5Q1 Q8P5Q1 1.69 X-RAY DIFFRACTION 105 0.992 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 262 266 3e03-a1-m1-cA_3e03-a1-m2-cC 3e03-a2-m1-cB_3e03-a2-m3-cB SLTLSGKTLFITGASRGIGLAIALRAARDGANVAIAAKSAVANPKLPGTIHSAAAAVNAAGGQGLALKCDIREEDQVRAAVAATVDTFGGIDILVNNASAIWLRGTLDTPKRFDLQQVNARGSFVCAQACLPHLLQAPNPHILTLAPPPSLNPAWWGAHTGYTLAKGSLVTLGLAAEFGPQGVAINALWPRTVIATGVDAAACRRPEIADAAHAVLTREAAGFHGQFLIDDEVLAQAGITDLSGYAVDPQRALLPDLFLEEG LTLSGKTLFITGASRGIGLAIALRAARDGANVAIAAKSAVANPKLPGTIHSAAAAVNAAGGQGLALKCDIREEDQVRAAVAATVDTFGGIDILVNNASAIWLRGTLDTPKRFDLQQVNARGSFVCAQACLPHLLQAPNPHILTLAPPPSLNPAWWGAHTGYTLAKGSLVTLGLAAEFGPQGVAINALWPRTVIATDAINLPGVDAAACRRPEIADAAHAVLTREAAGFHGQFLIDDEVLAQAGITDLSGYAVDPQRALLPDLFLEE 3e05-a2-m1-cC_3e05-a2-m1-cH CRYSTAL STRUCTURE OF Precorrin-6y C5,15-methyltransferase FROM Geobacter metallireducens GS-15 Q39YF0 Q39YF0 1.8 X-RAY DIFFRACTION 14 0.995 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 190 191 3e05-a1-m1-cA_3e05-a1-m1-cE 3e05-a1-m1-cG_3e05-a1-m1-cD 3e05-a2-m1-cF_3e05-a2-m1-cB AQYPVIGIDDDEFATAKKLITKQEVRAVTLSKLRLQDDLVMWDIGAGSASVSIEASNLMPNGRIFALERNPQYLGFIRDNLKKFVARNVTLVEAFAPEGLDDLPDPDRVFIGGSGGMLEEIIDAVDRRLKSEGVIVLNAVTLDTLTKAVEFLEDHGYMVEVACVNVAKTKGTEYKMFESHNPVYIITAWK LAQYPVIGIDDDEFATAKKLITKQEVRAVTLSKLRLQDDLVMWDIGAGSASVSIEASNLMPNGRIFALERNPQYLGFIRDNLKKFVARNVTLVEAFAPEGLDDLPDPDRVFIGGSGGMLEEIIDAVDRRLKSEGVIVLNAVTLDTLTKAVEFLEDHGYMVEVACVNVAKTKGEYKMFESHNPVYIITAWKS 3e05-a2-m1-cF_3e05-a2-m1-cH CRYSTAL STRUCTURE OF Precorrin-6y C5,15-methyltransferase FROM Geobacter metallireducens GS-15 Q39YF0 Q39YF0 1.8 X-RAY DIFFRACTION 111 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 187 191 3e05-a1-m1-cA_3e05-a1-m1-cD 3e05-a1-m1-cG_3e05-a1-m1-cE 3e05-a2-m1-cC_3e05-a2-m1-cB QYPVIGIDDDEFATAKKLITKQEVRAVTLSKLRLQDDLVMWDIGAGSASVSIEASNLMPNGRIFALERNPQYLGFIRDNLKKFVARNVTLVEAFAPEGLDDLPDPDRVFIGGSGGMLEEIIDAVDRRLKSEGVIVLNAVTLDTLTKAVEFLEDHGYMVEVACVNVAKTKGKMFESHNPVYIITAWKS LAQYPVIGIDDDEFATAKKLITKQEVRAVTLSKLRLQDDLVMWDIGAGSASVSIEASNLMPNGRIFALERNPQYLGFIRDNLKKFVARNVTLVEAFAPEGLDDLPDPDRVFIGGSGGMLEEIIDAVDRRLKSEGVIVLNAVTLDTLTKAVEFLEDHGYMVEVACVNVAKTKGEYKMFESHNPVYIITAWKS 3e05-a2-m1-cH_3e05-a2-m1-cB CRYSTAL STRUCTURE OF Precorrin-6y C5,15-methyltransferase FROM Geobacter metallireducens GS-15 Q39YF0 Q39YF0 1.8 X-RAY DIFFRACTION 49 0.995 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 191 192 3e05-a1-m1-cA_3e05-a1-m1-cG 3e05-a1-m1-cE_3e05-a1-m1-cD 3e05-a2-m1-cF_3e05-a2-m1-cC LAQYPVIGIDDDEFATAKKLITKQEVRAVTLSKLRLQDDLVMWDIGAGSASVSIEASNLMPNGRIFALERNPQYLGFIRDNLKKFVARNVTLVEAFAPEGLDDLPDPDRVFIGGSGGMLEEIIDAVDRRLKSEGVIVLNAVTLDTLTKAVEFLEDHGYMVEVACVNVAKTKGEYKMFESHNPVYIITAWKS AQYPVIGIDDDEFATAKKLITKQEVRAVTLSKLRLQDDLVMWDIGAGSASVSIEASNLMPNGRIFALERNPQYLGFIRDNLKKFVARNVTLVEAFAPEGLDDLPDPDRVFIGGSGGMLEEIIDAVDRRLKSEGVIVLNAVTLDTLTKAVEFLEDHGYMVEVACVNVAKTKGLTEYKMFESHNPVYIITAWKS 3e0k-a1-m1-cA_3e0k-a1-m2-cA Crystal structure of C-termianl domain of N-acetylglutamate synthase from Vibrio parahaemolyticus Q87M87 Q87M87 2.52 X-RAY DIFFRACTION 194 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 144 144 AEQVRQAGIDDIGGILELIHPLEEQGILRRSREQLEQEIGKFTIIEKDGLIIGCAALYPYSEERKAEACVAIHPDYRDGNRGLLLLNYKHRSKSENINQIFVLTTHSLHWFREQGFYEVGVDYLPGAKQGLYNFRKSKILALDL AEQVRQAGIDDIGGILELIHPLEEQGILRRSREQLEQEIGKFTIIEKDGLIIGCAALYPYSEERKAEACVAIHPDYRDGNRGLLLLNYKHRSKSENINQIFVLTTHSLHWFREQGFYEVGVDYLPGAKQGLYNFRKSKILALDL 3e0m-a1-m1-cA_3e0m-a1-m1-cD Crystal structure of fusion protein of MsrA and MsrB P0A3Q9 P0A3Q9 2.4 X-RAY DIFFRACTION 32 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 312 313 3e0m-a1-m1-cB_3e0m-a1-m1-cC MAEIYLAGGCFWGLEEYFSRISGVLETSVGYANGQVETTNYQLLKETDHAETVQVIYDEKEVSLREILLYYFRVIDPLSINQQGNDRGRQYRTGIYYQDEADLPAIYTVVQEQERMLGRKIAVEVEQLRHYILAEDYHQDYLRKNPSGYCHIDVTDADKPLIDAANYEKPSQEVLKASLSEESYRVTQEAATEAPFTNAYDQTFEEGIYVDITTGEPLFFAKDKFASGCGWPSFSRPLSKELIHYYKDLSHGMERIEVRSRSGSAHLGHVFTDGPRELGGLRYCINSASLRFVAKDEMEKAGYGYLLPYLNK HMAEIYLAGGCFWGLEEYFSRISGVLETSVGYANGQVETTNYQLLKETDHAETVQVIYDEKEVSLREILLYYFRVIDPLSINQQGNDRGRQYRTGIYYQDEADLPAIYTVVQEQERMLGRKIAVEVEQLRHYILAEDYHQDYLRKNPSGYCHIDVTDADKPLIDAANYEKPSQEVLKASLSEESYRVTQEAATEAPFTNAYDQTFEEGIYVDITTGEPLFFAKDKFASGCGWPSFSRPLSKELIHYYKDLSHGMERIEVRSRSGSAHLGHVFTDGPRELGGLRYCINSASLRFVAKDEMEKAGYGYLLPYLNK 3e0m-a1-m1-cB_3e0m-a1-m1-cD Crystal structure of fusion protein of MsrA and MsrB P0A3Q9 P0A3Q9 2.4 X-RAY DIFFRACTION 23 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 312 313 MAEIYLAGGCFWGLEEYFSRISGVLETSVGYANGQVETTNYQLLKETDHAETVQVIYDEKEVSLREILLYYFRVIDPLSINQQGNDRGRQYRTGIYYQDEADLPAIYTVVQEQERMLGRKIAVEVEQLRHYILAEDYHQDYLRKNPSGYCHIDVTDADKPLIDAANYEKPSQEVLKASLSEESYRVTQEAATEAPFTNAYDQTFEEGIYVDITTGEPLFFAKDKFASGCGWPSFSRPLSKELIHYYKDLSHGMERIEVRSRSGSAHLGHVFTDGPRELGGLRYCINSASLRFVAKDEMEKAGYGYLLPYLNK HMAEIYLAGGCFWGLEEYFSRISGVLETSVGYANGQVETTNYQLLKETDHAETVQVIYDEKEVSLREILLYYFRVIDPLSINQQGNDRGRQYRTGIYYQDEADLPAIYTVVQEQERMLGRKIAVEVEQLRHYILAEDYHQDYLRKNPSGYCHIDVTDADKPLIDAANYEKPSQEVLKASLSEESYRVTQEAATEAPFTNAYDQTFEEGIYVDITTGEPLFFAKDKFASGCGWPSFSRPLSKELIHYYKDLSHGMERIEVRSRSGSAHLGHVFTDGPRELGGLRYCINSASLRFVAKDEMEKAGYGYLLPYLNK 3e0m-a1-m1-cC_3e0m-a1-m1-cD Crystal structure of fusion protein of MsrA and MsrB P0A3Q9 P0A3Q9 2.4 X-RAY DIFFRACTION 39 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 313 313 3e0m-a1-m1-cA_3e0m-a1-m1-cB HMAEIYLAGGCFWGLEEYFSRISGVLETSVGYANGQVETTNYQLLKETDHAETVQVIYDEKEVSLREILLYYFRVIDPLSINQQGNDRGRQYRTGIYYQDEADLPAIYTVVQEQERMLGRKIAVEVEQLRHYILAEDYHQDYLRKNPSGYCHIDVTDADKPLIDAANYEKPSQEVLKASLSEESYRVTQEAATEAPFTNAYDQTFEEGIYVDITTGEPLFFAKDKFASGCGWPSFSRPLSKELIHYYKDLSHGMERIEVRSRSGSAHLGHVFTDGPRELGGLRYCINSASLRFVAKDEMEKAGYGYLLPYLNK HMAEIYLAGGCFWGLEEYFSRISGVLETSVGYANGQVETTNYQLLKETDHAETVQVIYDEKEVSLREILLYYFRVIDPLSINQQGNDRGRQYRTGIYYQDEADLPAIYTVVQEQERMLGRKIAVEVEQLRHYILAEDYHQDYLRKNPSGYCHIDVTDADKPLIDAANYEKPSQEVLKASLSEESYRVTQEAATEAPFTNAYDQTFEEGIYVDITTGEPLFFAKDKFASGCGWPSFSRPLSKELIHYYKDLSHGMERIEVRSRSGSAHLGHVFTDGPRELGGLRYCINSASLRFVAKDEMEKAGYGYLLPYLNK 3e0o-a1-m1-cA_3e0o-a1-m1-cB Crystal structure of MsrB P54155 P54155 2.6 X-RAY DIFFRACTION 36 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 142 142 MMAYNKEEKIKSLNRMQYEVTQNNGTEPPFQNEYWDHKEEGLYVDIVSGKPLFTSKDKFDSQCGWPSFTKPIEEEVEEKLDTSHGMIRTEVRSRTADSHLGHVFNDGPGPNGLRYCINSAALRFVPKHKLKEEGYESYLHLF MMAYNKEEKIKSLNRMQYEVTQNNGTEPPFQNEYWDHKEEGLYVDIVSGKPLFTSKDKFDSQCGWPSFTKPIEEEVEEKLDTSHGMIRTEVRSRTADSHLGHVFNDGPGPNGLRYCINSAALRFVPKHKLKEEGYESYLHLF 3e0o-a1-m1-cC_3e0o-a1-m1-cE Crystal structure of MsrB P54155 P54155 2.6 X-RAY DIFFRACTION 19 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 139 141 YNKEEKIKSLNRMQYEVTQNNGTEPPFQNEYWDHKEEGLYVDIVSGKPLFTSKDKFDSQCGWPSFTKPIEEEVEEKLDTSHGMIRTEVRSRTADSHLGHVFNDGPGPNGLRYCINSAALRFVPKHKLKEEGYESYLHLF MAYNKEEKIKSLNRMQYEVTQNNGTEPPFQNEYWDHKEEGLYVDIVSGKPLFTSKDKFDSQCGWPSFTKPIEEEVEEKLDTSHGMIRTEVRSRTADSHLGHVFNDGPGPNGLRYCINSAALRFVPKHKLKEEGYESYLHLF 3e0o-a1-m1-cC_3e0o-a1-m1-cF Crystal structure of MsrB P54155 P54155 2.6 X-RAY DIFFRACTION 25 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 139 141 3e0o-a1-m1-cD_3e0o-a1-m1-cA YNKEEKIKSLNRMQYEVTQNNGTEPPFQNEYWDHKEEGLYVDIVSGKPLFTSKDKFDSQCGWPSFTKPIEEEVEEKLDTSHGMIRTEVRSRTADSHLGHVFNDGPGPNGLRYCINSAALRFVPKHKLKEEGYESYLHLF MAYNKEEKIKSLNRMQYEVTQNNGTEPPFQNEYWDHKEEGLYVDIVSGKPLFTSKDKFDSQCGWPSFTKPIEEEVEEKLDTSHGMIRTEVRSRTADSHLGHVFNDGPGPNGLRYCINSAALRFVPKHKLKEEGYESYLHLF 3e0y-a1-m1-cB_3e0y-a1-m1-cA The crystal structure of a conserved domain from a protein of Geobacter sulfurreducens PCA Q74E48 Q74E48 3.1 X-RAY DIFFRACTION 64 0.993 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 150 153 EHLEIISLEEISLVSSDFDLPEVLQHVTAKVATQLKVSVCNIYLREGDEVVLAATHGFDPAFIGKIRIKIGDGITGSVARDGQYISLSRASQKYNSLSFPIGDKKEVYGVINLNTTSIRSFHEDEIYFVSIIANLILTAIKLRQQVASSR HLEIISLEEISLVSSDFDLPEVLQHVTAKVATQLKVSVCNIYLREGDEVVLAATHGFDPAFIGKIRIKIGDGITGSVARDGQYISLSRASQDPRYKYNSLSFPIGDKKEVYGVINLNTTSIRSFHEDEIYFVSIIANLILTAIKLRQQVASSR 3e10-a1-m1-cA_3e10-a1-m1-cB Crystal structure of Putative NADH Oxidase (NP_348178.1) from CLOSTRIDIUM ACETOBUTYLICUM at 1.40 A resolution Q97IT9 Q97IT9 1.4 X-RAY DIFFRACTION 134 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 161 161 DIINNRRSIRNYKGKKVEKEKIEKLLRAAQAPSAGNQQPWEFIVLEDRENIDKLSNFSKYANSLKTAPLAIVLLADEEKKISEWEQDAAAAENILLEAAYLDLGAVWLGAQPIEERVKNLKEFNLKSNIKPFCVISVGYPENSENKFIDRFDAKRIHIEKY DIINNRRSIRNYKGKKVEKEKIEKLLRAAQAPSAGNQQPWEFIVLEDRENIDKLSNFSKYANSLKTAPLAIVLLADEEKKISEWEQDAAAAENILLEAAYLDLGAVWLGAQPIEERVKNLKEFNLKSNIKPFCVISVGYPENSENKFIDRFDAKRIHIEKY 3e15-a2-m1-cD_3e15-a2-m2-cC 6-phosphogluconolactonase from Plasmodium vivax A5K3M1 A5K3M1 2 X-RAY DIFFRACTION 66 0.997 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 287 287 3e15-a1-m1-cA_3e15-a1-m1-cB DCQALAKSLEQNHLHNVKYLEAKDLTDFNQKSAYYICHQIAEKQLSKEGGHVVIGLSGGKTPIDVYKNIALVKDIKIDTSKLIFFIIDERYKRDDHKFSNYNNIKFLFESLKINEKEQLYRPDTSKNIVECVRDYNEKIKNVKKYTKVDIAILGGSDFHIASLFPNIFFNIYNNYQNSYIYDESSIKVANDTSDNDNLDLLKEYVYFTTTNNFDVRKRITVSLDLLGNASSKIFLLNSTDKLDLWKNLLKSYVDVNYCLYPAVYLIDSNTTVVTCGYTNYPQLEDIY DCQALAKSLEQNHLHNVKYLEAKDLTDFNQKSAYYICHQIAEKQLSKEGGHVVIGLSGGKTPIDVYKNIALVKDIKIDTSKLIFFIIDERYKRDDHKFSNYNNIKFLFESLKINEKEQLYRPDTSKNIVECVRDYNEKIKNVKKYTKVDIAILGGSDFHIASLFPNIFFNIYNNYQNSYIYDESSIKVANTSDNDNLDLLKEYVYFTTTNNFDVRKRITVSLDLLGNASSKIFLLNSTDKLDLWKNLLKSYVDVNYCLYPAVYLIDSNTTVVTCGYTNYPQLEDIYV 3e17-a1-m1-cB_3e17-a1-m1-cA Crystal structure of the second PDZ domain from human Zona Occludens-2 Q9UDY2 Q9UDY2 1.75 X-RAY DIFFRACTION 208 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 80 2osg-a1-m1-cA_2osg-a1-m1-cB MIGVLLMKSRANEEYGLRLGSQIFVKEMTRTGLATKDGNLHEGDIILKINGTVTENMSLTDARKLIEKSRGKLQLVVLR MIGVLLMKSRANEEYGLRLGSQIFVKEMTRTGLATKDGNLHEGDIILKINGTVTENMSLTDARKLIEKSRGKLQLVVLRD 3e19-a3-m1-cA_3e19-a3-m3-cA Crystal Structure of Iron Uptake Regulatory Protein (FeoA) Solved by Sulfur SAD in a Monoclinic Space Group D0VWU5 D0VWU5 2 X-RAY DIFFRACTION 25 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 74 74 3e19-a2-m1-cA_3e19-a2-m3-cA LMVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESMGPIIISVGGVRFAIGKGLAGRVMVRKL LMVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESMGPIIISVGGVRFAIGKGLAGRVMVRKL 3e19-a4-m1-cA_3e19-a4-m1-cB Crystal Structure of Iron Uptake Regulatory Protein (FeoA) Solved by Sulfur SAD in a Monoclinic Space Group D0VWU5 D0VWU5 2 X-RAY DIFFRACTION 49 0.986 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 74 75 3e19-a1-m1-cA_3e19-a1-m1-cB 3e19-a1-m1-cD_3e19-a1-m2-cC 3e19-a1-m2-cA_3e19-a1-m2-cB 3e19-a1-m2-cD_3e19-a1-m1-cC 3e19-a2-m1-cA_3e19-a2-m1-cB 3e19-a2-m3-cA_3e19-a2-m3-cB 3e19-a3-m1-cD_3e19-a3-m2-cC 3e19-a3-m3-cD_3e19-a3-m4-cC LMVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESMGPIIISVGGVRFAIGKGLAGRVMVRKL MVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESHPMGPIIISVGGVRFAIGKGLAGRVMVRKL 3e19-a4-m1-cB_3e19-a4-m1-cC Crystal Structure of Iron Uptake Regulatory Protein (FeoA) Solved by Sulfur SAD in a Monoclinic Space Group D0VWU5 D0VWU5 2 X-RAY DIFFRACTION 58 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 75 77 3e19-a1-m1-cB_3e19-a1-m1-cC 3e19-a1-m2-cB_3e19-a1-m2-cC 3e19-a2-m1-cB_3e19-a2-m1-cC 3e19-a2-m3-cB_3e19-a2-m3-cC 3e19-a3-m2-cB_3e19-a3-m2-cC 3e19-a3-m4-cB_3e19-a3-m4-cC MVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESHPMGPIIISVGGVRFAIGKGLAGRVMVRKL MLMVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESHPMGPIIISVGGVRFAIGKGLAGRVMVRKL 3e19-a4-m1-cD_3e19-a4-m1-cB Crystal Structure of Iron Uptake Regulatory Protein (FeoA) Solved by Sulfur SAD in a Monoclinic Space Group D0VWU5 D0VWU5 2 X-RAY DIFFRACTION 10 0.986 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 73 75 3e19-a1-m1-cD_3e19-a1-m1-cB 3e19-a1-m2-cD_3e19-a1-m2-cB 3e19-a2-m1-cD_3e19-a2-m1-cB 3e19-a2-m3-cD_3e19-a2-m3-cB LMVVPLSEMGPGDKGIVVNILNARQKLVSMGLTPGATIQVLESHPMGPIIISVGGVRFAIGKGLAGRVMVRKL MVVPLSEMGPGDKGIVVNILGGHNARQKLVSMGLTPGATIQVLESHPMGPIIISVGGVRFAIGKGLAGRVMVRKL 3e1e-a1-m1-cA_3e1e-a1-m1-cH Crystal structure of a Thioesterase family protein from Silicibacter pomeroyi. NorthEast Structural Genomics target SiR180A Q5LMG0 Q5LMG0 2 X-RAY DIFFRACTION 92 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 136 141 3e1e-a1-m1-cB_3e1e-a1-m1-cF 3e1e-a2-m1-cD_3e1e-a2-m1-cC 3e1e-a2-m1-cE_3e1e-a2-m1-cG GYAQKVRDSFARQPVMATLGARIDTLLPGRVELCMPYDRALTQQHGFLHAGIVSTVLDSACGYAAFSLMEEEAAVLTVEFKVNFLNPAEGERFAFRAEVVKPGRTLTVATATAYAFRDGEERAIATMTATLMALIG EPRFAGYAQKVRDSFARQPVMATLGARIDTLLPGRVELCMPYDRALTQQHGFLHAGIVSTVLDSACGYAAFSLMEEEAAVLTVEFKVNFLNPAEGERFAFRAEVVKPGRTLTVATATAYAFRDGEERAIATMTATLMALIG 3e1e-a1-m1-cB_3e1e-a1-m1-cH Crystal structure of a Thioesterase family protein from Silicibacter pomeroyi. NorthEast Structural Genomics target SiR180A Q5LMG0 Q5LMG0 2 X-RAY DIFFRACTION 15 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 140 141 3e1e-a1-m1-cA_3e1e-a1-m1-cF 3e1e-a2-m1-cC_3e1e-a2-m1-cE 3e1e-a2-m1-cD_3e1e-a2-m1-cG PRFAGYAQKVRDSFARQPVMATLGARIDTLLPGRVELCMPYDRALTQQHGFLHAGIVSTVLDSACGYAAFSLMEEEAAVLTVEFKVNFLNPAEGERFAFRAEVVKPGRTLTVATATAYAFRDGEERAIATMTATLMALIG EPRFAGYAQKVRDSFARQPVMATLGARIDTLLPGRVELCMPYDRALTQQHGFLHAGIVSTVLDSACGYAAFSLMEEEAAVLTVEFKVNFLNPAEGERFAFRAEVVKPGRTLTVATATAYAFRDGEERAIATMTATLMALIG 3e1e-a1-m1-cF_3e1e-a1-m1-cH Crystal structure of a Thioesterase family protein from Silicibacter pomeroyi. NorthEast Structural Genomics target SiR180A Q5LMG0 Q5LMG0 2 X-RAY DIFFRACTION 29 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 141 141 3e1e-a1-m1-cA_3e1e-a1-m1-cB 3e1e-a2-m1-cC_3e1e-a2-m1-cG 3e1e-a2-m1-cD_3e1e-a2-m1-cE EPRFAGYAQKVRDSFARQPVMATLGARIDTLLPGRVELCMPYDRALTQQHGFLHAGIVSTVLDSACGYAAFSLMEEEAAVLTVEFKVNFLNPAEGERFAFRAEVVKPGRTLTVATATAYAFRDGEERAIATMTATLMALIG EPRFAGYAQKVRDSFARQPVMATLGARIDTLLPGRVELCMPYDRALTQQHGFLHAGIVSTVLDSACGYAAFSLMEEEAAVLTVEFKVNFLNPAEGERFAFRAEVVKPGRTLTVATATAYAFRDGEERAIATMTATLMALIG 3e29-a1-m1-cD_3e29-a1-m1-cA X-Ray structure of the protein Q7WE92_BORBR from thioesterase superfamily. Northeast Structural Genomics Consortium Target BoR214A. A0A0H3M079 A0A0H3M079 2.4 X-RAY DIFFRACTION 33 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 127 128 3e29-a1-m1-cC_3e29-a1-m1-cB STALEASRFVNRSPFNRWLGSVLEAGEQGIVLGIKWREELISSPEIRSTHGGILATLVDAAGDYAVALKTGHPVPTDHVDYHRVATPGDLRAEGQVIHFGKRFATAHARVLDDGNLVASGRALYLIR SSTALEASRFVNRSPFNRWLGSVLEAGEQGIVLGIKWREELISSPEIRSTHGGILATLVDAAGDYAVALKTGHPVPTDHVDYHRVATPGDLRAEGQVIHFGKRFATAHARVLDDGNLVASGRALYLIR 3e29-a1-m1-cD_3e29-a1-m1-cC X-Ray structure of the protein Q7WE92_BORBR from thioesterase superfamily. Northeast Structural Genomics Consortium Target BoR214A. A0A0H3M079 A0A0H3M079 2.4 X-RAY DIFFRACTION 83 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 127 128 3e29-a1-m1-cA_3e29-a1-m1-cB STALEASRFVNRSPFNRWLGSVLEAGEQGIVLGIKWREELISSPEIRSTHGGILATLVDAAGDYAVALKTGHPVPTDHVDYHRVATPGDLRAEGQVIHFGKRFATAHARVLDDGNLVASGRALYLIR SSTALEASRFVNRSPFNRWLGSVLEAGEQGIVLGIKWREELISSPEIRSTHGGILATLVDAAGDYAVALKTGHPVPTDHVDYHRVATPGDLRAEGQVIHFGKRFATAHARVLDDGNLVASGRALYLIR 3e2i-a1-m2-cA_3e2i-a1-m4-cA Crystal structure of Thymidine Kinase from S. aureus Q0H0G9 Q0H0G9 2.01 X-RAY DIFFRACTION 58 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 170 170 3e2i-a1-m1-cA_3e2i-a1-m3-cA SGWIECITGSFSGKSEELIRRLRRGIYAKQKVVVFKPASHNGNAIEAINISKASEITHDLTNVDVIGIDEVQFFDDEIVSIVEKLSADGHRVIVAGLDDFRGEPFEPPKLAVSEQVTKLQAVCAVCGSSSSRTQRLINGKPAKIDDPIILVGANESYEPRCRAHHIVAPS SGWIECITGSFSGKSEELIRRLRRGIYAKQKVVVFKPASHNGNAIEAINISKASEITHDLTNVDVIGIDEVQFFDDEIVSIVEKLSADGHRVIVAGLDDFRGEPFEPPKLAVSEQVTKLQAVCAVCGSSSSRTQRLINGKPAKIDDPIILVGANESYEPRCRAHHIVAPS 3e2i-a1-m3-cA_3e2i-a1-m4-cA Crystal structure of Thymidine Kinase from S. aureus Q0H0G9 Q0H0G9 2.01 X-RAY DIFFRACTION 63 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 170 170 3e2i-a1-m1-cA_3e2i-a1-m2-cA SGWIECITGSFSGKSEELIRRLRRGIYAKQKVVVFKPASHNGNAIEAINISKASEITHDLTNVDVIGIDEVQFFDDEIVSIVEKLSADGHRVIVAGLDDFRGEPFEPPKLAVSEQVTKLQAVCAVCGSSSSRTQRLINGKPAKIDDPIILVGANESYEPRCRAHHIVAPS SGWIECITGSFSGKSEELIRRLRRGIYAKQKVVVFKPASHNGNAIEAINISKASEITHDLTNVDVIGIDEVQFFDDEIVSIVEKLSADGHRVIVAGLDDFRGEPFEPPKLAVSEQVTKLQAVCAVCGSSSSRTQRLINGKPAKIDDPIILVGANESYEPRCRAHHIVAPS 3e2p-a6-m1-cN_3e2p-a6-m1-cK Catalytic subunit of M. Jannaschii aspartate transcarbamoylase in an orthorhombic crystal form Q58976 Q58976 3 X-RAY DIFFRACTION 29 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 304 305 2rgw-a1-m1-cA_2rgw-a1-m1-cE 2rgw-a1-m1-cB_2rgw-a1-m1-cD 2rgw-a1-m1-cC_2rgw-a1-m1-cF 3e2p-a5-m1-cA_3e2p-a5-m1-cE 3e2p-a5-m1-cB_3e2p-a5-m1-cD 3e2p-a5-m1-cC_3e2p-a5-m1-cF 3e2p-a6-m1-cI_3e2p-a6-m1-cM 3e2p-a6-m1-cJ_3e2p-a6-m1-cL 4ekn-a2-m1-cB_4ekn-a2-m6-cB 4ekn-a2-m2-cB_4ekn-a2-m5-cB 4ekn-a2-m3-cB_4ekn-a2-m4-cB MKHLISMKDIGKEEILEILDEARKMEELLNTKRPLKLLEGKILATVFYEPSTRTRLSFETAMKRLGGEVITMTDLKSSSVAKGESLIDTIRVISGYADIIVLRHPSEGAARLASEYSQVPIINAGDGSNQHPTQTLLDLYTIMREIGRIDGIKIAFVGDLKYGRTVHSLVYALSLFENVEMYFVSPKELRLPKDIIEDLKAKNIKFYEKESLDDLDDDIDVLYVTRIQKERFPDPNEYEKVKGSYKIKREYVEGKKFIIMHPLPRVDEIDYDVDDLPQAKYFKQSFYGIPVRMAILKKLIEDNE MKHLISMKDIGKEEILEILDEARKMEELLNTKRPLKLLEGKILATVFYEPSTRTRLSFETAMKRLGGEVITMTDLKSSSVAKGESLIDTIRVISGYADIIVLRHPSEGAARLASEYSQVPIINAGDGSNQHPTQTLLDLYTIMREIGRIDGIKIAFVGDLKYGRTVHSLVYALSLFENVEMYFVSPKELRLPKDIIEDLKAKNIKFYEKESLDDLDDDIDVLYVTRIQKERFPDPNEYEKVKGSYKIKREYVEGKKFIIMHPLPRVDEIDYDVDDLPQAKYFKQSFYGIPVRMAILKKLIEDNEG 3e2p-a6-m1-cN_3e2p-a6-m1-cM Catalytic subunit of M. Jannaschii aspartate transcarbamoylase in an orthorhombic crystal form Q58976 Q58976 3 X-RAY DIFFRACTION 49 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 304 305 2rgw-a1-m1-cA_2rgw-a1-m1-cB 2rgw-a1-m1-cA_2rgw-a1-m1-cC 2rgw-a1-m1-cB_2rgw-a1-m1-cC 2rgw-a1-m1-cD_2rgw-a1-m1-cE 2rgw-a1-m1-cD_2rgw-a1-m1-cF 2rgw-a1-m1-cE_2rgw-a1-m1-cF 2rgw-a2-m1-cA_2rgw-a2-m1-cB 2rgw-a2-m1-cA_2rgw-a2-m1-cC 2rgw-a2-m1-cB_2rgw-a2-m1-cC 2rgw-a3-m1-cD_2rgw-a3-m1-cE 2rgw-a3-m1-cD_2rgw-a3-m1-cF 2rgw-a3-m1-cE_2rgw-a3-m1-cF 3e2p-a1-m1-cA_3e2p-a1-m1-cC 3e2p-a1-m1-cB_3e2p-a1-m1-cA 3e2p-a1-m1-cB_3e2p-a1-m1-cC 3e2p-a2-m1-cD_3e2p-a2-m1-cE 3e2p-a2-m1-cD_3e2p-a2-m1-cF 3e2p-a2-m1-cE_3e2p-a2-m1-cF 3e2p-a3-m1-cI_3e2p-a3-m1-cJ 3e2p-a3-m1-cI_3e2p-a3-m1-cK 3e2p-a3-m1-cJ_3e2p-a3-m1-cK 3e2p-a4-m1-cL_3e2p-a4-m1-cM 3e2p-a4-m1-cN_3e2p-a4-m1-cL 3e2p-a4-m1-cN_3e2p-a4-m1-cM 3e2p-a5-m1-cA_3e2p-a5-m1-cC 3e2p-a5-m1-cB_3e2p-a5-m1-cA 3e2p-a5-m1-cB_3e2p-a5-m1-cC 3e2p-a5-m1-cD_3e2p-a5-m1-cE 3e2p-a5-m1-cD_3e2p-a5-m1-cF 3e2p-a5-m1-cE_3e2p-a5-m1-cF 3e2p-a6-m1-cI_3e2p-a6-m1-cJ 3e2p-a6-m1-cI_3e2p-a6-m1-cK 3e2p-a6-m1-cJ_3e2p-a6-m1-cK 3e2p-a6-m1-cL_3e2p-a6-m1-cM 3e2p-a6-m1-cN_3e2p-a6-m1-cL 4ekn-a1-m1-cB_4ekn-a1-m2-cB 4ekn-a1-m1-cB_4ekn-a1-m3-cB 4ekn-a1-m2-cB_4ekn-a1-m3-cB 4ekn-a2-m1-cB_4ekn-a2-m2-cB 4ekn-a2-m1-cB_4ekn-a2-m3-cB 4ekn-a2-m2-cB_4ekn-a2-m3-cB 4ekn-a2-m4-cB_4ekn-a2-m5-cB 4ekn-a2-m4-cB_4ekn-a2-m6-cB 4ekn-a2-m5-cB_4ekn-a2-m6-cB MKHLISMKDIGKEEILEILDEARKMEELLNTKRPLKLLEGKILATVFYEPSTRTRLSFETAMKRLGGEVITMTDLKSSSVAKGESLIDTIRVISGYADIIVLRHPSEGAARLASEYSQVPIINAGDGSNQHPTQTLLDLYTIMREIGRIDGIKIAFVGDLKYGRTVHSLVYALSLFENVEMYFVSPKELRLPKDIIEDLKAKNIKFYEKESLDDLDDDIDVLYVTRIQKERFPDPNEYEKVKGSYKIKREYVEGKKFIIMHPLPRVDEIDYDVDDLPQAKYFKQSFYGIPVRMAILKKLIEDNE MKHLISMKDIGKEEILEILDEARKMEELLNTKRPLKLLEGKILATVFYEPSTRTRLSFETAMKRLGGEVITMTDLKSSSVAKGESLIDTIRVISGYADIIVLRHPSEGAARLASEYSQVPIINAGDGSNQHPTQTLLDLYTIMREIGRIDGIKIAFVGDLKYGRTVHSLVYALSLFENVEMYFVSPKELRLPKDIIEDLKAKNIKFYEKESLDDLDDDIDVLYVTRIQKERFPDPNEYEKVKGSYKIKREYVEGKKFIIMHPLPRVDEIDYDVDDLPQAKYFKQSFYGIPVRMAILKKLIEDNEG 3e2t-a2-m1-cA_3e2t-a2-m2-cA The catalytic domain of chicken tryptophan hydroxylase 1 with bound tryptophan P70080 P70080 1.9 X-RAY DIFFRACTION 48 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 307 307 NIPWYPKKISDLDKCANRVLMYGSDLDADHPGFKDNVYRKRRKYFADLAMNYKHGDPIPEIEFTEEEIKTWGTVYRELNKLYPTHACREYLKNLPLLTKYCGYREDNIPQLEDVSRFLKERTGFTIRPVAGYLSPRDFLAGLAFRVFHCTQYVRHSSDPLYTPEPDTCHELLGHVPLLAEPSFAQFSQEIGLASLGASDEAVQKLATCYFFTVEFGLCKQEGQLRVYGAGLLSSISELKHSLSGSAKVKPFDPKVTCKQECLITTFQEVYFVSESFEEAKEKMREFAKTIKRPFGVKYNPYTQSVQI NIPWYPKKISDLDKCANRVLMYGSDLDADHPGFKDNVYRKRRKYFADLAMNYKHGDPIPEIEFTEEEIKTWGTVYRELNKLYPTHACREYLKNLPLLTKYCGYREDNIPQLEDVSRFLKERTGFTIRPVAGYLSPRDFLAGLAFRVFHCTQYVRHSSDPLYTPEPDTCHELLGHVPLLAEPSFAQFSQEIGLASLGASDEAVQKLATCYFFTVEFGLCKQEGQLRVYGAGLLSSISELKHSLSGSAKVKPFDPKVTCKQECLITTFQEVYFVSESFEEAKEKMREFAKTIKRPFGVKYNPYTQSVQI 3e2u-a5-m1-cB_3e2u-a5-m1-cC Crystal structure of the zink-knuckle 2 domain of human CLIP-170 in complex with CAP-Gly domain of human dynactin-1 (p150-GLUED) Q14203 Q14203 2.6 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 3e2u-a5-m1-cA_3e2u-a5-m1-cD 3e2u-a5-m1-cB_3e2u-a5-m1-cD PLRVGSRVEVIGKGHRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQVF PLRVGSRVEVIGKGHRGTVAYVGATLFATGKWVGVILDEAKGKNDGTVQGRKYFTCDEGHGIFVRQSQIQVF 3e35-a1-m2-cA_3e35-a1-m3-cA Actinobacteria-specific protein of unknown function, SCO1997 Q9S2K6 Q9S2K6 2.2 X-RAY DIFFRACTION 77 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 266 266 3e35-a1-m1-cA_3e35-a1-m2-cA 3e35-a1-m1-cA_3e35-a1-m3-cA DPQDLYTWEPKGLAVVDALAQESAGLVLYHFDGYIDAGETGDQIVDQVLDSLPHQVVARFDHDRLVDYRARRPLLTFKRDTWSDYEEPTIEVRLVQDATGAPFLFLSGPEPDVEWERFAAAVGQIVERLGVRLSVSFHGIPGVPHTRPVGITPHGSRTDLVPFEEAQVPGSAEALVEYRLAQAGHDVLGVAAHVPHYVARSAYPDAALTVLEAITAATGLVLPGIAHSLRTDAHRTQTEIDRQIQEGDEELIALVQGLEHQYDAAA DPQDLYTWEPKGLAVVDALAQESAGLVLYHFDGYIDAGETGDQIVDQVLDSLPHQVVARFDHDRLVDYRARRPLLTFKRDTWSDYEEPTIEVRLVQDATGAPFLFLSGPEPDVEWERFAAAVGQIVERLGVRLSVSFHGIPGVPHTRPVGITPHGSRTDLVPFEEAQVPGSAEALVEYRLAQAGHDVLGVAAHVPHYVARSAYPDAALTVLEAITAATGLVLPGIAHSLRTDAHRTQTEIDRQIQEGDEELIALVQGLEHQYDAAA 3e38-a1-m1-cA_3e38-a1-m2-cB CRYSTAL STRUCTURE OF A TWO-DOMAIN PROTEIN CONTAINING PREDICTED PHP-LIKE METAL-DEPENDENT PHOSPHOESTERASE (BVU_3505) FROM BACTEROIDES VULGATUS ATCC 8482 AT 2.20 A RESOLUTION A6L615 A6L615 2.2 X-RAY DIFFRACTION 25 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 334 335 3e38-a1-m2-cA_3e38-a1-m1-cB AQRRNEIQVPDLDGYTTLKCDFHHSVFSDGLVWPTVRVDEAYRDGLDAISLTEHIEYRPHKQDVVSDHNRSFDLCREQAEKLGILLIKGSEITRAAPGHFNAIFLSDSNPLEQKDYKDAFREAKKQGAFFWNHPGWDSQQPDTTKWWPEHTALYQEGCHGIEVANGHLYPEAIQWCLDKNLTIGTSDIHQPIQTDYDFEKGEHRTTFVFAKERSLQGIREALDNRRTAAYFHELLIGREDLLRPFFEKCVKIEEVSRNEQGVTLSITNVTDLVLKLKKTAHDTLLVYFRDTLKPHTRYTVRIGFKQGIKGGDVNFEVTNFIVAPDKGLKYTISL GAQRRNEIQVPDLDGYTTLKCDFHHSVFSDGLVWPTVRVDEAYRDGLDAISLTEHIEYRPHKQDVVSDHNRSFDLCREQAEKLGILLIKGSEITRAAPGHFNAIFLSDSNPLEQKDYKDAFREAKKQGAFFWNHPGWDSQQPDTTKWWPEHTALYQEGCHGIEVANGHLYPEAIQWCLDKNLTIGTSDIHQPIQTDYDFEKGEHRTTFVFAKERSLQGIREALDNRRTAAYFHELLIGREDLLRPFFEKCVKIEEVSRNEQGVTLSITNVTDLVLKLKKTAHDTLLVYFRDTLKPHTRYTVRIGFKQGIKGGDVNFEVTNFIVAPDKGLKYTISL 3e38-a1-m1-cB_3e38-a1-m2-cB CRYSTAL STRUCTURE OF A TWO-DOMAIN PROTEIN CONTAINING PREDICTED PHP-LIKE METAL-DEPENDENT PHOSPHOESTERASE (BVU_3505) FROM BACTEROIDES VULGATUS ATCC 8482 AT 2.20 A RESOLUTION A6L615 A6L615 2.2 X-RAY DIFFRACTION 30 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 335 335 3e38-a1-m1-cA_3e38-a1-m2-cA GAQRRNEIQVPDLDGYTTLKCDFHHSVFSDGLVWPTVRVDEAYRDGLDAISLTEHIEYRPHKQDVVSDHNRSFDLCREQAEKLGILLIKGSEITRAAPGHFNAIFLSDSNPLEQKDYKDAFREAKKQGAFFWNHPGWDSQQPDTTKWWPEHTALYQEGCHGIEVANGHLYPEAIQWCLDKNLTIGTSDIHQPIQTDYDFEKGEHRTTFVFAKERSLQGIREALDNRRTAAYFHELLIGREDLLRPFFEKCVKIEEVSRNEQGVTLSITNVTDLVLKLKKTAHDTLLVYFRDTLKPHTRYTVRIGFKQGIKGGDVNFEVTNFIVAPDKGLKYTISL GAQRRNEIQVPDLDGYTTLKCDFHHSVFSDGLVWPTVRVDEAYRDGLDAISLTEHIEYRPHKQDVVSDHNRSFDLCREQAEKLGILLIKGSEITRAAPGHFNAIFLSDSNPLEQKDYKDAFREAKKQGAFFWNHPGWDSQQPDTTKWWPEHTALYQEGCHGIEVANGHLYPEAIQWCLDKNLTIGTSDIHQPIQTDYDFEKGEHRTTFVFAKERSLQGIREALDNRRTAAYFHELLIGREDLLRPFFEKCVKIEEVSRNEQGVTLSITNVTDLVLKLKKTAHDTLLVYFRDTLKPHTRYTVRIGFKQGIKGGDVNFEVTNFIVAPDKGLKYTISL 3e38-a1-m2-cA_3e38-a1-m2-cB CRYSTAL STRUCTURE OF A TWO-DOMAIN PROTEIN CONTAINING PREDICTED PHP-LIKE METAL-DEPENDENT PHOSPHOESTERASE (BVU_3505) FROM BACTEROIDES VULGATUS ATCC 8482 AT 2.20 A RESOLUTION A6L615 A6L615 2.2 X-RAY DIFFRACTION 56 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 334 335 3e38-a1-m1-cA_3e38-a1-m1-cB AQRRNEIQVPDLDGYTTLKCDFHHSVFSDGLVWPTVRVDEAYRDGLDAISLTEHIEYRPHKQDVVSDHNRSFDLCREQAEKLGILLIKGSEITRAAPGHFNAIFLSDSNPLEQKDYKDAFREAKKQGAFFWNHPGWDSQQPDTTKWWPEHTALYQEGCHGIEVANGHLYPEAIQWCLDKNLTIGTSDIHQPIQTDYDFEKGEHRTTFVFAKERSLQGIREALDNRRTAAYFHELLIGREDLLRPFFEKCVKIEEVSRNEQGVTLSITNVTDLVLKLKKTAHDTLLVYFRDTLKPHTRYTVRIGFKQGIKGGDVNFEVTNFIVAPDKGLKYTISL GAQRRNEIQVPDLDGYTTLKCDFHHSVFSDGLVWPTVRVDEAYRDGLDAISLTEHIEYRPHKQDVVSDHNRSFDLCREQAEKLGILLIKGSEITRAAPGHFNAIFLSDSNPLEQKDYKDAFREAKKQGAFFWNHPGWDSQQPDTTKWWPEHTALYQEGCHGIEVANGHLYPEAIQWCLDKNLTIGTSDIHQPIQTDYDFEKGEHRTTFVFAKERSLQGIREALDNRRTAAYFHELLIGREDLLRPFFEKCVKIEEVSRNEQGVTLSITNVTDLVLKLKKTAHDTLLVYFRDTLKPHTRYTVRIGFKQGIKGGDVNFEVTNFIVAPDKGLKYTISL 3e39-a1-m1-cB_3e39-a1-m1-cA Crystal structure of a putative nitroreductase in complex with fmn (dde_0787) from desulfovibrio desulfuricans subsp. at 1.70 A resolution Q314Q8 Q314Q8 1.7 X-RAY DIFFRACTION 182 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 170 173 TENPVLQAIRQRRSIRRYTDEAVSDEAVRLILEAGIWAPSGLNNQPCRFLVIRADDPRCDILAAHTRYGHIVRGAKVIILVFLDREAYNEVKDHQAAGAAVQNLLAAHALQLGAVWLGEIINQAATLLPALALDPARLSFEAAIAAGHPAQNGSSSRRPLAELLLEEPFP TENPVLQAIRQRRSIRRYTDEAVSDEAVRLILEAGIWAPSGLNNQPCRFLVIRADDPRCDILAAHTRYGHIVRGAKVIILVFLDREAYNEVKDHQAAGAAVQNLLAAHALQLGAVWLGEIINQAATLLPALALDPARLSFEAAIAAGHPAQNGSSSRRPLAELLLEEPFPQPE 3e3b-a2-m1-cX_3e3b-a2-m2-cX Crystal structure of catalytic subunit of human protein kinase CK2alpha prime with a potent indazole-derivative inhibitor P19784 P19784 3.2 X-RAY DIFFRACTION 140 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 MPGPAAGSRARVYAEVNSLRSREYWDYEAHVPSWGNQDDYQLVRKLGRGKYSEVFEAINITNNERVVVKILKPVKKKKIKREVKILENLRGGTNIIKLIDTVKDPVSKTPALVFEYINNTDFKQLYQILTDFDIRFYMYELLKALDYCHSKGIMHRDVKPHNVMIDHQQKKLRLIDWGLAEFYHPAQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRREPFFHGQDNYDQLVRIAKVLGTEELYGYLKKYHIDLDPHFNDILGQHSRKRWENFIHSENRHLVSPEALDLLDKLLRYDHQQRLTAKEAMEHPYFYPVVKEQSQ MPGPAAGSRARVYAEVNSLRSREYWDYEAHVPSWGNQDDYQLVRKLGRGKYSEVFEAINITNNERVVVKILKPVKKKKIKREVKILENLRGGTNIIKLIDTVKDPVSKTPALVFEYINNTDFKQLYQILTDFDIRFYMYELLKALDYCHSKGIMHRDVKPHNVMIDHQQKKLRLIDWGLAEFYHPAQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRREPFFHGQDNYDQLVRIAKVLGTEELYGYLKKYHIDLDPHFNDILGQHSRKRWENFIHSENRHLVSPEALDLLDKLLRYDHQQRLTAKEAMEHPYFYPVVKEQSQ 3e3m-a2-m1-cC_3e3m-a2-m1-cD Crystal structure of a LacI family transcriptional regulator from Silicibacter pomeroyi Q5LKY7 Q5LKY7 1.6 X-RAY DIFFRACTION 100 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 270 270 3e3m-a1-m1-cA_3e3m-a1-m1-cB GFVGLLLPSLNNLHFAQTAQSLTDVLEQGGLQLLLGYTAYSPEREEQLVETMLRRRPEAMVLSYDGHTEQTIRLLQRASIPIVEIWEKPAHPIGHTVGFSNERAAYDMTNALLARGFRKIVFLGEKDDDWTRGAARRAGFKRAMREAGLNPDQEIRLGAPPLSIEDGVAAAELILQEYPDTDCIFCVSDMPAFGLLSRLKSIGVAVPEQVSVVGFGNFEVSRFASPEISTVRVDPIAIGRETGSLILRLLDAQHITLPPVLEFRPSLKNE GFVGLLLPSLNNLHFAQTAQSLTDVLEQGGLQLLLGYTAYSPEREEQLVETMLRRRPEAMVLSYDGHTEQTIRLLQRASIPIVEIWEKPAHPIGHTVGFSNERAAYDMTNALLARGFRKIVFLGEKDDDWTRGAARRAGFKRAMREAGLNPDQEIRLGAPPLSIEDGVAAAELILQEYPDTDCIFCVSDMPAFGLLSRLKSIGVAVPEQVSVVGFGNFEVSRFASPEISTVRVDPIAIGRETGSLILRLLDAQHITLPPVLEFRPSLKNE 3e3p-a1-m1-cA_3e3p-a1-m1-cB Glycogen synthase kinase from Leishmania major Q4QE15 Q4QE15 2 X-RAY DIFFRACTION 82 0.997 5664 (Leishmania major) 5664 (Leishmania major) 337 337 AAADERSRKEMDRFQVEVQLGKEKSTGMSVAIKKVIQDPRFRNRELQIMQDLAVLHHPNIVQLQSYFYTLGERDRRDIYLNVVMEYVPDTLHRCCRNYYRRQVAPPPILIKVFLFQLIRSIGCLHLPSVNVCHRDIKPHNVLVNEADGTLKLCDFGSAKKLSPSEPNVAYICSRYYRAPELIFGNQHYTTAVDIWSVGCIFAEMMLGEPIFRGDNSAGQLHEIVRVLGCPSREVLRKLNPSHTDVDLYNSKGIPWSNVFSDHSLKDAKEAYDLLSALLQYLPEERMKPYEALCHPYFDELHDPATKLPNNKDLPEDLFRFLPNEIEVMSEAQKAKLV AAADERSRKEMDRFQVTVQLGKEKSTGMSVAIKKVIQDPRFRNRELQIMQDLAVLHHPNIVQLQSYFYTLGERDRRDIYLNVVMEYVPDTLHRCCRNYYRRQVAPPPILIKVFLFQLIRSIGCLHLPSVNVCHRDIKPHNVLVNEADGTLKLCDFGSAKKLSPSEPNVAYICSRYYRAPELIFGNQHYTTAVDIWSVGCIFAEMMLGEPIFRGDNSAGQLHEIVRVLGCPSREVLRKLNPSHTDVDLYNSKGIPWSNVFSDHSLKDAKEAYDLLSALLQYLPEERMKPYEALCHPYFDELHDPATKLPNNKDLPEDLFRFLPNEIEVMSEAQKAKLV 3e3x-a1-m1-cA_3e3x-a1-m2-cA The C-terminal part of BipA protein from Vibrio parahaemolyticus RIMD 2210633 Q9L5X8 Q9L5X8 1.95 X-RAY DIFFRACTION 13 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 267 267 VDEPTVTTFQVNTSPFAGEGFVTSRNILERLEKELVHNVALRVEQTDDPDKFRVSGRGELHLSILIENRREGFELAVSRPEVIIEEDGQLEPFETVTIDVEEHQGGIENIGLRGELDAPDGKGRVRDFIPSRGLIGFQTEFTLTSGSGLLYHTFDHYGPHGGNIGQRVNGVLIANAAGKALTNALFNLQERGRLFIGHGVEVYEGVIGIHSRDNDLTVNALKAQVLTPPIVTLEQALEFIDDDELVEVTPESIRIRKFLTESDRRAS VDEPTVTTFQVNTSPFAGEGFVTSRNILERLEKELVHNVALRVEQTDDPDKFRVSGRGELHLSILIENRREGFELAVSRPEVIIEEDGQLEPFETVTIDVEEHQGGIENIGLRGELDAPDGKGRVRDFIPSRGLIGFQTEFTLTSGSGLLYHTFDHYGPHGGNIGQRVNGVLIANAAGKALTNALFNLQERGRLFIGHGVEVYEGVIGIHSRDNDLTVNALKAQVLTPPIVTLEQALEFIDDDELVEVTPESIRIRKFLTESDRRAS 3e48-a1-m1-cA_3e48-a1-m1-cB Crystal structure of a nucleoside-diphosphate-sugar epimerase (SAV0421) from Staphylococcus aureus, Northeast Structural Genomics Consortium Target ZR319 A0A0H3JTC8 A0A0H3JTC8 1.6 X-RAY DIFFRACTION 80 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 266 276 NILTGATGHLGTHITNQAIANHIDHFHIGVRNVEKVPDDWRGKVSVRQLDYFNQESVEAFKGDTVVFIPSIIHPSFKRIPEVENLVYAAKQSGVAHIIFIGYYADQHNNPFHSPYFGYASRLLSTSGIDYTYVRAYDPLKPYLPELNHKLIYPAGDGRINYITRNDIARGVIAIIKNPDTWGKRYLLSGYSYDKELAAILSEASGTEIKYEPVSLETFAEYDEPKGFGALLASYHAGARGLLDQESNDFKQLVNDQPQTLQSFLQE NILTGATGHLGTHITNQAIANHIDHFHIGVRNVEKVPDDWRGKVSVRQLDYFNQESVEAFKGDTVVFIPSIIHPSFKRIPEVENLVYAAKQSGVAHIIFIGYYADQHNNPFHSPYFGYASRLLSTSGIDYTYVRAYDPLKPYLPELNHKLIYPAGDGRINYITRNDIARGVIAIIKNPDTWGKRYLLSGYSYDKELAAILSEASGTEIKYEPVSLETFAEYDEPKGFGALLASYHAGARGLLDQESNDFKQLVNDQPQTLQSFLQENILEHHHHHH 3e49-a1-m1-cA_3e49-a1-m1-cD Crystal structure of a prokaryotic domain of unknown function (duf849) with a tim barrel fold (bxe_c0966) from burkholderia xenovorans lb400 at 1.75 A resolution Q13GE9 Q13GE9 1.75 X-RAY DIFFRACTION 72 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 299 299 3e49-a1-m1-cB_3e49-a1-m1-cC SRKVIITCAVTGAIHTPSSPYLPVTPDEVAQASIGAAEAGAAVIHLHARDPRDGRPTQDPAAFAEFLPRIKSNTDAVINLTTGGSPHTVEERLRPATHYPELASLNGSNFGLYPLERFKEFAHGWEREHLERSRDLVFKNTFADIEFILKTCGGNGTRFEFECYDTSHLYNLAHFVDRKLATPPFFVQTVFGLLGGIGPHPEDLAHRRTADRLFGADYVWSILGAGRHQIPLASIGAAQGANVRVGLEDSLWIAPGELAETNAAQVRKIRQVIEGLSLEVASPAEARTLGLKGPQNVNF SRKVIITCAVTGAIHTPSSPYLPVTPDEVAQASIGAAEAGAAVIHLHARDPRDGRPTQDPAAFAEFLPRIKSNTDAVINLTTGGSPHTVEERLRPATHYPELASLNGSNFGLYPLERFKEFAHGWEREHLERSRDLVFKNTFADIEFILKTCGGNGTRFEFECYDTSHLYNLAHFVDRKLATPPFFVQTVFGLLGGIGPHPEDLAHRRTADRLFGADYVWSILGAGRHQIPLASIGAAQGANVRVGLEDSLWIAPGELAETNAAQVRKIRQVIEGLSLEVASPAEARTLGLKGPQNVNF 3e49-a1-m1-cC_3e49-a1-m1-cD Crystal structure of a prokaryotic domain of unknown function (duf849) with a tim barrel fold (bxe_c0966) from burkholderia xenovorans lb400 at 1.75 A resolution Q13GE9 Q13GE9 1.75 X-RAY DIFFRACTION 111 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 299 299 3e49-a1-m1-cA_3e49-a1-m1-cB SRKVIITCAVTGAIHTPSSPYLPVTPDEVAQASIGAAEAGAAVIHLHARDPRDGRPTQDPAAFAEFLPRIKSNTDAVINLTTGGSPHTVEERLRPATHYPELASLNGSNFGLYPLERFKEFAHGWEREHLERSRDLVFKNTFADIEFILKTCGGNGTRFEFECYDTSHLYNLAHFVDRKLATPPFFVQTVFGLLGGIGPHPEDLAHRRTADRLFGADYVWSILGAGRHQIPLASIGAAQGANVRVGLEDSLWIAPGELAETNAAQVRKIRQVIEGLSLEVASPAEARTLGLKGPQNVNF SRKVIITCAVTGAIHTPSSPYLPVTPDEVAQASIGAAEAGAAVIHLHARDPRDGRPTQDPAAFAEFLPRIKSNTDAVINLTTGGSPHTVEERLRPATHYPELASLNGSNFGLYPLERFKEFAHGWEREHLERSRDLVFKNTFADIEFILKTCGGNGTRFEFECYDTSHLYNLAHFVDRKLATPPFFVQTVFGLLGGIGPHPEDLAHRRTADRLFGADYVWSILGAGRHQIPLASIGAAQGANVRVGLEDSLWIAPGELAETNAAQVRKIRQVIEGLSLEVASPAEARTLGLKGPQNVNF 3e4c-a1-m1-cB_3e4c-a1-m1-cA Procaspase-1 zymogen domain crystal structure P29466 P29466 2.05 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 271 1bmq-a2-m1-cB_1bmq-a2-m2-cB 1ibc-a1-m1-cB_1ibc-a1-m2-cB 1ice-a1-m1-cB_1ice-a1-m2-cB 1rwk-a1-m1-cB_1rwk-a1-m2-cB 1rwm-a1-m1-cB_1rwm-a1-m2-cB 1rwn-a1-m1-cB_1rwn-a1-m2-cB 1rwo-a1-m1-cB_1rwo-a1-m2-cB 1rwp-a1-m1-cB_1rwp-a1-m2-cB 1rwv-a1-m1-cB_1rwv-a1-m2-cB 1rww-a1-m1-cB_1rww-a1-m2-cB 1rwx-a1-m1-cB_1rwx-a1-m2-cB 1sc3-a1-m1-cB_1sc3-a1-m2-cB 1sc4-a1-m1-cB_1sc4-a1-m2-cB 2fqq-a1-m1-cB_2fqq-a1-m2-cB 2h48-a1-m1-cB_2h48-a1-m2-cB 2h4w-a1-m1-cB_2h4w-a1-m2-cB 2h4y-a1-m1-cB_2h4y-a1-m2-cB 2h51-a1-m1-cB_2h51-a1-m2-cB 2h54-a1-m1-cB_2h54-a1-m2-cB 2hbq-a1-m1-cB_2hbq-a1-m2-cB 2hbr-a1-m1-cB_2hbr-a1-m2-cB 2hby-a1-m1-cB_2hby-a1-m2-cB 2hbz-a1-m1-cB_2hbz-a1-m2-cB 3d6f-a1-m1-cB_3d6f-a1-m2-cB 3d6h-a1-m1-cB_3d6h-a1-m2-cB 3d6m-a1-m1-cB_3d6m-a1-m2-cB 3ns7-a2-m1-cB_3ns7-a2-m2-cB 6f6r-a1-m1-cB_6f6r-a1-m2-cB GSEGNVKLCSLEEAQRIWKQKSAEIYPIMDKSSRTRLALIICNEEFDSIPRRTGAEVDITGMTMLLQNLGYSVDVKKNLTASDMTTELEAFAHRPEHKTSDSTFLVFMSHGIREGICGKKHSEQVPDILQLNAIFNMLNTKNCPSLKDKPKVIIIQAARLPTTEEFEDDAIKKAHIEKDFIAFCSSTPDNVSWRHPTMGSVFIGRLIEHMQEYACSCDVEEIFRKVRFSFEQPDGRAQMPTTERVTLTRCFYLFPGH SSGSEGNVKLCSLEEAQRIWKQKSAEIYPIMDKSSRTRLALIICNEEFDSIPRRTGAEVDITGMTMLLQNLGYSVDVKKNLTASDMTTELEAFAHRPEHKTSDSTFLVFMSHGIREGICGKKHSEQVPDILQLNAIFNMLNTKNCPSLKDKPKVIIIQAARGDSPGVVWFKDSLPTTEEFEDDAIKKAHIEKDFIAFCSSTPDNVSWRHPTMGSVFIGRLIEHMQEYACSCDVEEIFRKVRFSFEQPDGRAQMPTTERVTLTRCFYLFPGH 3e4d-a3-m1-cF_3e4d-a3-m1-cE Structural and Kinetic Study of an S-Formylglutathione Hydrolase from Agrobacterium tumefaciens A9CJ11 A9CJ11 2.01 X-RAY DIFFRACTION 53 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 265 266 3e4d-a1-m1-cA_3e4d-a1-m1-cB 3e4d-a2-m1-cD_3e4d-a2-m1-cC NIISQNTAFGGQGVFSHQSETLKSETFAVYVPPKAIHEPCPVVWYLSGLTCTHANVEKGEYRRASELGLVVVCPDTSPRGNDVPDELTNWQGKGAGFYLDATEEPWSEHYQYSYVTEELPALIGQHFRADSRQSIFGHSGGHGATIALKNPERFKSCSAFAPIVAPSSADWSEPALEKYLGADRAAWRRYDACSLVEDGARFPEFLIDQGKADSFLEKGLRPWLFEEAIKGTDIGLTLRHDRYDHSYYFISTFDDHLKWHAERLG GNIISQNTAFGGQGVFSHQSETLKSETFAVYVPPKAIHEPCPVVWYLSGLTCTHANVEKGEYRRASELGLVVVCPDTSPRGNDVPDELTNWQGKGAGFYLDATEEPWSEHYQYSYVTEELPALIGQHFRADSRQSIFGHSGGHGATIALKNPERFKSCSAFAPIVAPSSADWSEPALEKYLGADRAAWRRYDACSLVEDGARFPEFLIDQGKADSFLEKGLRPWLFEEAIKGTDIGLTLRHDRYDHSYYFISTFDDHLKWHAERLG 3e4h-a2-m2-cA_3e4h-a2-m6-cA Crystal structure of the cyclotide varv F P58451 P58451 1.8 X-RAY DIFFRACTION 12 1.0 97415 (Viola arvensis) 97415 (Viola arvensis) 29 29 3e4h-a2-m1-cA_3e4h-a2-m4-cA 3e4h-a2-m3-cA_3e4h-a2-m5-cA CGETCTLGTCYTAGCSCSWPVCTRNGVPI CGETCTLGTCYTAGCSCSWPVCTRNGVPI 3e4h-a2-m5-cA_3e4h-a2-m6-cA Crystal structure of the cyclotide varv F P58451 P58451 1.8 X-RAY DIFFRACTION 13 1.0 97415 (Viola arvensis) 97415 (Viola arvensis) 29 29 3e4h-a2-m1-cA_3e4h-a2-m2-cA 3e4h-a2-m1-cA_3e4h-a2-m3-cA 3e4h-a2-m2-cA_3e4h-a2-m3-cA 3e4h-a2-m4-cA_3e4h-a2-m5-cA 3e4h-a2-m4-cA_3e4h-a2-m6-cA CGETCTLGTCYTAGCSCSWPVCTRNGVPI CGETCTLGTCYTAGCSCSWPVCTRNGVPI 3e4o-a2-m1-cB_3e4o-a2-m3-cB Crystal structure of succinate bound state DctB P13633 P13633 2.3 X-RAY DIFFRACTION 49 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 250 250 3e4o-a1-m1-cA_3e4o-a1-m2-cA AGLAGQSRIDASLKASLLRAVVERQRALPLVLADDAAIRGALLSPDRPSLDRINRKLEALATSAEAAVIYLIDRSGVAVAASNWQEPTSFVGNDYAFRDYFRLAVRDGAEHFAGTVSKRPGLYISRRVDGPGGPLGVIVAKLEFDGVEADWQASGKPAYVTDRRGIVLITSLPSWRFTTKPIAEDRLAPIRESLQFGDAPLLPLPFRKIEARPDGSSTLDALLPGDSTAAFLRVETVPSTNWRLEQLSPL AGLAGQSRIDASLKASLLRAVVERQRALPLVLADDAAIRGALLSPDRPSLDRINRKLEALATSAEAAVIYLIDRSGVAVAASNWQEPTSFVGNDYAFRDYFRLAVRDGAEHFAGTVSKRPGLYISRRVDGPGGPLGVIVAKLEFDGVEADWQASGKPAYVTDRRGIVLITSLPSWRFTTKPIAEDRLAPIRESLQFGDAPLLPLPFRKIEARPDGSSTLDALLPGDSTAAFLRVETVPSTNWRLEQLSPL 3e4p-a1-m1-cB_3e4p-a1-m1-cA Crystal structure of malonate occupied DctB P13633 P13633 2.3 X-RAY DIFFRACTION 70 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 253 254 2zbb-a1-m1-cA_2zbb-a1-m1-cB 2zbb-a2-m1-cC_2zbb-a2-m1-cD 3e4q-a1-m1-cA_3e4q-a1-m1-cB GLAGQSRIDASLKASLLRAVVERQRALPLVLADDAAIRGALLSPDRPSLDRINRKLEALATSAEAAVIYLIDRSGVAVAASNWQEPTSFVGNDYAFRDYFRLAVRDGMAEHFAMGTVSKRPGLYISRRVDGPGGPLGVIVAKLEFDGVEADWQASGKPAYVTDRRGIVLITSLPSWRFMTTKPIAEDRLAPIRESLQFGDAPLLPLPFRKIEARPDGSSTLDALLPGDSTAAFLRVETMVPSTNWRLEQLSPL AGLAGQSRIDASLKASLLRAVVERQRALPLVLADDAAIRGALLSPDRPSLDRINRKLEALATSAEAAVIYLIDRSGVAVAASNWQEPTSFVGNDYAFRDYFRLAVRDGMAEHFAMGTVSKRPGLYISRRVDGPGGPLGVIVAKLEFDGVEADWQASGKPAYVTDRRGIVLITSLPSWRFMTTKPIAEDRLAPIRESLQFGDAPLLPLPFRKIEARPDGSSTLDALLPGDSTAAFLRVETMVPSTNWRLEQLSPL 3e4v-a1-m1-cA_3e4v-a1-m1-cB Crystal structure of NADH:FMN oxidoreductase like protein in complex with FMN (YP_544701.1) from METHYLOBACILLUS FLAGELLATUS KT at 1.40 A resolution Q1H3S7 Q1H3S7 1.4 X-RAY DIFFRACTION 141 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 173 173 NELPPENAYRILESGPIVLVSTRGADGRANLTGFHQHEPPLVGAIIGPWDYSHQALSETGECVLAVPTVDLAETVVDIGNCSGDALDKFGHFGLTPVPAQTVDAPLVRQCWANLECRVVDDGWARRYNLWVLEVQRIWIDTARKETRLIHHQGDGRFSVDGDTLDLGERTKWR NELPPENAYRILESGPIVLVSTRGADGRANLTGFHQHEPPLVGAIIGPWDYSHQALSETGECVLAVPTVDLAETVVDIGNCSGDALDKFGHFGLTPVPAQTVDAPLVRQCWANLECRVVDDGWARRYNLWVLEVQRIWIDTARKETRLIHHQGDGRFSVDGDTLDLGERTKWR 3e54-a1-m1-cA_3e54-a1-m1-cB Archaeal Intron-encoded Homing Endonuclease I-Vdi141I Complexed With DNA Q6L703 Q6L703 2.5 X-RAY DIFFRACTION 70 1.0 164451 (Vulcanisaeta distributa) 164451 (Vulcanisaeta distributa) 159 159 EEDFKEGYILGFIEAEGSFSVSIKFQRDVFGGVRLDPVFSITQKNREVLEAIKEHLGIGRIMEKAGQPNTYVYVVDNFNELVKLINFLNKYADFMIVKKRQFLMFREIANGLVNGEHLHINGLKRLVKLAYELTKESEKGYRKYDLNHVLSIIDKWDLG EEDFKEGYILGFIEAEGSFSVSIKFQRDVFGGVRLDPVFSITQKNREVLEAIKEHLGIGRIMEKAGQPNTYVYVVDNFNELVKLINFLNKYADFMIVKKRQFLMFREIANGLVNGEHLHINGLKRLVKLAYELTKESEKGYRKYDLNHVLSIIDKWDLG 3e56-a1-m1-cA_3e56-a1-m2-cA The 2.0 Angstrom Resolution Crystal Structure of NpR1517, a Putative Heterocyst Differentiation Inhibitor from Nostoc punctiforme B2IZS7 B2IZS7 2.01 X-RAY DIFFRACTION 148 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 75 75 LEVGVYECEIHLKFRLIEEKSLLSDREQLLQVLLDALTEGSDDFLETLQASVKAQEVSEFKASPQMRRQLMRLRN LEVGVYECEIHLKFRLIEEKSLLSDREQLLQVLLDALTEGSDDFLETLQASVKAQEVSEFKASPQMRRQLMRLRN 3e57-a1-m1-cA_3e57-a1-m1-cB Crystal structure of Tm1382, a putative Nudix hydrolase Q9X1A2 Q9X1A2 1.89 X-RAY DIFFRACTION 48 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 180 183 ERILVVKTEDFLKEFGEFEGFMRVNFEDFLNFLDQYGFFRERDEAEYDETTKQVIPYVVIMDGDRVLITKRYSLGIGGHVREGDGATPREAFLKGLEREVNEEVDVSLRELEFLGLINSSTTEVSRVHLGALFLGRGKFFSVKEKDLFEWELIKLEELEKFSGVMEGWSKISAAVLLNLF ERILVVKTEDFLKEFGEFEGFMRVNFEDFLNFLDQYGFFRERDEAEYDETTKQVIPYVVIMDGDRVLITKRHNLYSLGIGGHVREGDGATPREAFLKGLEREVNEEVDVSLRELEFLGLINSSTTEVSRVHLGALFLGRGKFFSVKEKDLFEWELIKLEELEKFSGVMEGWSKISAAVLLNLF 3e58-a1-m1-cB_3e58-a1-m1-cA Crystal structure of putative beta-phosphoglucomutase from Streptococcus thermophilus Q5M5S4 Q5M5S4 1.86 X-RAY DIFFRACTION 41 0.99 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 205 208 NAVEAIIFDDGVLFDTEKYYYDRRASFLGQKGISIDHLPPSFFIQVWENILRDEYDKWDVSTLQEEYNTYKQNNPLPYKELIFPDVLKVLNEVKSQGLEIGLASSSVKADIFRALEENRLQGFFDIVLSGEEFKESKPNPEIYLTALKQLNVQASRALIIEDSEKGIAAGVAADVEVWAIRDNEFGDQSAAKGLLDSLTDVLDLI VEAIIFDDGVLFDTEKYYYDRRASFLGQKGISIDHLPPSFFIGGNTKQVWENILRDEYDKWDVSTLQEEYNTYKQNNPLPYKELIFPDVLKVLNEVKSQGLEIGLASSSVKADIFRALEENRLQGFFDIVLSGEEFKESKPNPEIYLTALKQLNVQASRALIIEDSEKGIAAGVAADVEVWAIRDNEFGDQSAAKGLLDSLTDVLDLI 3e5d-a1-m1-cA_3e5d-a1-m2-cA Crystal structure of a putative glyoxalase i (lmof2365_0426) from listeria monocytogenes str. 4b f2365 at 2.70 A resolution 2.7 X-RAY DIFFRACTION 150 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 122 122 KIEHVALWTTNLEQKQFYVTYFGATANDLYENKTKGFNSYFLSFEDGARLEISRTDVTGKTTGENLGWAHIAISTGTKEAVDELTEKLRQDGFAIAGEPRTGDGYYESVVLDPEGNRIEITW KIEHVALWTTNLEQKQFYVTYFGATANDLYENKTKGFNSYFLSFEDGARLEISRTDVTGKTTGENLGWAHIAISTGTKEAVDELTEKLRQDGFAIAGEPRTGDGYYESVVLDPEGNRIEITW 3e5h-a1-m1-cA_3e5h-a1-m2-cA Crystal Structure of Rab28 GTPase in the Active (GppNHp-bound) Form P51157 P51157 1.499 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 177 GSHMRQLKIVVLGDGASGKTSLTTCFAQETFGKQYKQTIGLDFFLRRITLPGNLNVTLQIWDIGGQTIGGKMLDKYIYGAQGVLLVYDITNYQSFENLEDWYTVVKKVSEESETQPLVALVGNKIDLEHMRTIKPEKHLRFCQENGFSSHFVSAKTGDSVFLCFQKVAAEILGIKLN GSHMRQLKIVVLGDGASGKTSLTTCFAQETFGKQYKQTIGLDFFLRRITLPGNLNVTLQIWDIGGQTIGGKMLDKYIYGAQGVLLVYDITNYQSFENLEDWYTVVKKVSEESETQPLVALVGNKIDLEHMRTIKPEKHLRFCQENGFSSHFVSAKTGDSVFLCFQKVAAEILGIKLN 3e5j-a2-m1-cA_3e5j-a2-m2-cA Crystal structure of CYP105P1 wild-type ligand-free form Q93H81 Q93H81 1.95 X-RAY DIFFRACTION 57 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 390 390 3e5l-a2-m1-cA_3e5l-a2-m2-cA DAPTVPKARSCPFLPPDGIADIRAAAPVTRATFTSGHEAWLVTGYEEVRALLRDSSFSVQVPHALHTQDGVVGRGSLLWQDEPEHTSDRKLLAKEFTVRRMQALRPNIQRIVDEHLDAIEARGGPVDLVKTFANAVPSMVISDLFGVPVERRAEFQDIAEAMMRVDQDAAATEAAGMRLGGLLYQLVQERRANPGDDLISALITTEDPDGVVDDMFLMNAAGTLLIAAHDTTACMIGLGTALLLDSPDQLALLREDPSLVGNAVEELLRYLTIGQFGGERVATRDVELGGVRIAKGEQVVAHVLAADFDPAFVEEPERFDITRRPAPHLAFGFGAHQCIGQQLARIELQIVFETLFRRLPGLRLAKPVEELRFRHDIVFYGVHELPVTWH DAPTVPKARSCPFLPPDGIADIRAAAPVTRATFTSGHEAWLVTGYEEVRALLRDSSFSVQVPHALHTQDGVVGRGSLLWQDEPEHTSDRKLLAKEFTVRRMQALRPNIQRIVDEHLDAIEARGGPVDLVKTFANAVPSMVISDLFGVPVERRAEFQDIAEAMMRVDQDAAATEAAGMRLGGLLYQLVQERRANPGDDLISALITTEDPDGVVDDMFLMNAAGTLLIAAHDTTACMIGLGTALLLDSPDQLALLREDPSLVGNAVEELLRYLTIGQFGGERVATRDVELGGVRIAKGEQVVAHVLAADFDPAFVEEPERFDITRRPAPHLAFGFGAHQCIGQQLARIELQIVFETLFRRLPGLRLAKPVEELRFRHDIVFYGVHELPVTWH 3e5k-a2-m1-cA_3e5k-a2-m2-cA Crystal structure of CYP105P1 wild-type 4-phenylimidazole complex Q93H81 Q93H81 2.6 X-RAY DIFFRACTION 52 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 382 382 PTVPKARSCPFLPPDGIADIRAAAPVTRATFTSGHEAWLVTGYEEVRALLRDSSFSVQVPHKPGRGSLLWQDEPEHTSDRKLLAKEFTVRRMQALRPNIQRIVDEHLDAIEARGGPVDLVKTFANAVPSMVISDLFGVPVERRAEFQDIAEAMMRVDQDAAATEAAGMRLGGLLYQLVQERRANPGDDLISALITTEDPDGVVDDMFLMNAAGTLLIAAHDTTACMIGLGTALLLDSPDQLALLREDPSLVGNAVEELLRYLTIGQFGGERVATRDVELGGVRIAKGEQVVAHVLAADFDPAFVEEPERFDITRRPAPHLAFGFGAHQCIGQQLARIELQIVFETLFRRLPGLRLAKPVEELRFRHDIVFYGVHELPVTWHH PTVPKARSCPFLPPDGIADIRAAAPVTRATFTSGHEAWLVTGYEEVRALLRDSSFSVQVPHKPGRGSLLWQDEPEHTSDRKLLAKEFTVRRMQALRPNIQRIVDEHLDAIEARGGPVDLVKTFANAVPSMVISDLFGVPVERRAEFQDIAEAMMRVDQDAAATEAAGMRLGGLLYQLVQERRANPGDDLISALITTEDPDGVVDDMFLMNAAGTLLIAAHDTTACMIGLGTALLLDSPDQLALLREDPSLVGNAVEELLRYLTIGQFGGERVATRDVELGGVRIAKGEQVVAHVLAADFDPAFVEEPERFDITRRPAPHLAFGFGAHQCIGQQLARIELQIVFETLFRRLPGLRLAKPVEELRFRHDIVFYGVHELPVTWHH 3e5q-a2-m1-cD_3e5q-a2-m1-cC Unbound Oxidised CprK B8FW11 B8FW11 3.2 X-RAY DIFFRACTION 139 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 201 203 3e5q-a1-m1-cB_3e5q-a1-m1-cA 3e5q-a3-m1-cE_3e5q-a3-m1-cF 3e6b-a1-m1-cA_3e6b-a1-m1-cB FFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLACLKRENILDKKKNKIIVYNLGELKHLS NFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLACLKRENILDKKKNKIIVYNLGELKHLS 3e5w-a2-m1-cB_3e5w-a2-m1-cC Crystal Structure Analysis of FP611 Q8ISF8 Q8ISF8 1.71 X-RAY DIFFRACTION 85 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 226 226 1uis-a1-m1-cA_1uis-a1-m1-cB 3e5t-a1-m1-cA_3e5t-a1-m2-cA 3e5v-a1-m1-cA_3e5v-a1-m2-cA 3e5w-a1-m1-cA_3e5w-a1-m1-cD SLIKENMRMMVVMEGSVNGYQFKCTGEGDGNPYMGTQTMRIKVVEGGPLPFAFDILATSFSKTFIKHTKGIPDFFKQSFPEGFTWERVTRYEDGGVFTVMQDTSLEDGCLVYHAKVTGVNFPSNGAVMQKKTKGWEPSTEMLYPADGGLRGYCQMALNVDGGGYLFCSFETTYRSKKTDENFKMPGFHFVDHRLERLEESDKEMFVVQHEHAVAKFCDLPSKLGRL SLIKENMRMMVVMEGSVNGYQFKCTGEGDGNPYMGTQTMRIKVVEGGPLPFAFDILATSFSKTFIKHTKGIPDFFKQSFPEGFTWERVTRYEDGGVFTVMQDTSLEDGCLVYHAKVTGVNFPSNGAVMQKKTKGWEPSTEMLYPADGGLRGYCQMALNVDGGGYLFCSFETTYRSKKTDENFKMPGFHFVDHRLERLEESDKEMFVVQHEHAVAKFCDLPSKLGRL 3e60-a1-m1-cA_3e60-a1-m1-cB Crystal structure of 3-oxoacyl-(acyl carrier protein) synthase II from Bartonella henselae A0A0H3LW83 A0A0H3LW83 1.95 X-RAY DIFFRACTION 271 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 420 420 MRRVVITGLGLVSPLAGDVEYSWKRLLEGKSGVRRITEFDVSDLSCQIAARIPVGDGTNGTYNADLHMESKEQRKVDAFIVYAIAAADQALADAEWFPKSDEDQICTGVLIGSGIGGIEGIVEAGYTLRDKGPRRISPFFIPGRLINLASGYVSIKYGLRGPNHSVVTACSTGAHAIGDAARLIALGDADVMLAGGTESPINRISLAGFSACRALSTCRNDDPERASRPYDVDRDGFVMGEGAAIVVLEELEHAKKRGARIYAEIIGYGLSGDAYHITAPSESGEGAQRSMMAALKRAQVNVSELDYINAHGTSTMADVIELAAVERVLGYYAPQVSMSSTKSSIGHLLGAAGAAEAIFCVLAIRDNIAPATLNLENPSIETKIDLVPHKPRERKIDTVLSNSFGFGGTNASLVMRRFSE MRRVVITGLGLVSPLAGDVEYSWKRLLEGKSGVRRITEFDVSDLSCQIAARIPVGDGTNGTYNADLHMESKEQRKVDAFIVYAIAAADQALADAEWFPKSDEDQICTGVLIGSGIGGIEGIVEAGYTLRDKGPRRISPFFIPGRLINLASGYVSIKYGLRGPNHSVVTACSTGAHAIGDAARLIALGDADVMLAGGTESPINRISLAGFSACRALSTCRNDDPERASRPYDVDRDGFVMGEGAAIVVLEELEHAKKRGARIYAEIIGYGLSGDAYHITAPSESGEGAQRSMMAALKRAQVNVSELDYINAHGTSTMADVIELAAVERVLGYYAPQVSMSSTKSSIGHLLGAAGAAEAIFCVLAIRDNIAPATLNLENPSIETKIDLVPHKPRERKIDTVLSNSFGFGGTNASLVMRRFSE 3e61-a1-m1-cA_3e61-a1-m2-cA Crystal structure of a putative transcriptional repressor of ribose operon from Staphylococcus saprophyticus subsp. saprophyticus Q49XF6 Q49XF6 2 X-RAY DIFFRACTION 61 1.0 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 239 239 LIGLLLPDMSNPFFTLIARGVEDVALAHGYQVLIGNSDNDIKKAQGYLATFVSHNCTGMISTAFNENIIENTLTDHIPFVFIDRINHFKGGQLQAEVVRKGKGKNVLIVHENLLIDAFHQRVQGIKYILDQDYKMLEATLLDNDKKFIDLIKELSIDSIICSNDLLAINVLGIVQRYHFKVPAEIQIIGYDNIPFSEMTYPQITTIDQSAYHLGEIAVSQLLALTVKHRGSTRHHHHHH LIGLLLPDMSNPFFTLIARGVEDVALAHGYQVLIGNSDNDIKKAQGYLATFVSHNCTGMISTAFNENIIENTLTDHIPFVFIDRINHFKGGQLQAEVVRKGKGKNVLIVHENLLIDAFHQRVQGIKYILDQDYKMLEATLLDNDKKFIDLIKELSIDSIICSNDLLAINVLGIVQRYHFKVPAEIQIIGYDNIPFSEMTYPQITTIDQSAYHLGEIAVSQLLALTVKHRGSTRHHHHHH 3e6c-a1-m1-cC_3e6c-a1-m2-cC CprK OCPA DNA Complex B8FW11 B8FW11 1.8 X-RAY DIFFRACTION 139 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 225 225 3e5u-a1-m1-cC_3e5u-a1-m1-cD 3e5u-a2-m1-cA_3e5u-a2-m1-cB 3e5x-a1-m1-cA_3e5x-a1-m1-cB 3e5x-a2-m1-cC_3e5x-a2-m1-cD DFCGAIIPDNFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAEMNTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLASLKRENILDKKKNKIIVYNLGELKHLSEQTSYYS DFCGAIIPDNFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVAEMNTYNPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLASLKRENILDKKKNKIIVYNLGELKHLSEQTSYYS 3e6d-a1-m1-cA_3e6d-a1-m1-cB Crystal Structure of CprK C200S B8FW11 B8FW11 2 X-RAY DIFFRACTION 119 0.995 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 202 203 NFFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLASLKRENILDKKKNKIIVYNLGELKHLS FFPIEKLRNYTQMGLIRDFAKGSAVIMPGEEITSMIFLVEGKIKLDIIFEDGSEKLLYYAGGNSLIGKLYPTGNNIYATAMEPTRTCWFSEKSLRTVFRTDEDMIFEIFKNYLTKVAYYARQVPTIRILRLFYELCSSQGKRVGDTYEITMPLSQKSIGEITGVHHVTVSRVLASLKRENILDKKKNKIIVYNLGELKHLSEQ 3e6e-a2-m1-cB_3e6e-a2-m2-cB Crystal structure of Alanine racemase from E.faecalis complex with cycloserine Q837J0 Q837J0 2.5 X-RAY DIFFRACTION 226 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 370 370 3e5p-a1-m1-cA_3e5p-a1-m1-cC 3e5p-a2-m1-cB_3e5p-a2-m2-cB 3e6e-a1-m1-cA_3e6e-a1-m1-cC VVGWHRPTRLHIDTQAITENVQKECQRLPEGTALFAVVKANGYGHGAVESAKAAKKGGATGFCVALLDEAIELREAGVQDPILILSVVDLAYVPLLIQYDLSVTVATQEWLEAALQQLTPESNTPLRVHLKVDTGMGRIGFLTPEETKQAVRFVQSHKEFLWEGIFTHFSTADEIDTSYFEKQAGRFKAVLAVLEELPRYVHVSNSATALWHPDVPGNMIRYGVAMYGLNPSGNKLAPSYALKPALRLTSELIHVKRLAAGEGIGYGETYVTEAEEWIGTVPIGYADGWLRHLQGFTVLVNGKRCEIVGRVCMDQCMIRLAEEVPVGPVVTLVGKDGNEENTLQMVAEKLETIHYEVACTFSQRIPREYN VVGWHRPTRLHIDTQAITENVQKECQRLPEGTALFAVVKANGYGHGAVESAKAAKKGGATGFCVALLDEAIELREAGVQDPILILSVVDLAYVPLLIQYDLSVTVATQEWLEAALQQLTPESNTPLRVHLKVDTGMGRIGFLTPEETKQAVRFVQSHKEFLWEGIFTHFSTADEIDTSYFEKQAGRFKAVLAVLEELPRYVHVSNSATALWHPDVPGNMIRYGVAMYGLNPSGNKLAPSYALKPALRLTSELIHVKRLAAGEGIGYGETYVTEAEEWIGTVPIGYADGWLRHLQGFTVLVNGKRCEIVGRVCMDQCMIRLAEEVPVGPVVTLVGKDGNEENTLQMVAEKLETIHYEVACTFSQRIPREYN 3e6g-a1-m1-cB_3e6g-a1-m1-cC Crystal structure of XometC, a cystathionine c-lyase-like protein from Xanthomonas oryzae pv.oryzae Q5H4T8 Q5H4T8 2.8 X-RAY DIFFRACTION 84 1.0 64187 (Xanthomonas oryzae pv. oryzae) 64187 (Xanthomonas oryzae pv. oryzae) 336 368 ALSLATLAIHGGTHNPTRFAYERCVAALEGGTRAFAFASGMAATSTVMELLDAGSHVVAMDDLYGGTFRLFERVRRRTAGLDFSFVDLTDPAAFKAAIRADTKMVWIETPTNPMLKLVDIAAIAVIARKHGLLTVVDNTFASPMLQRPLSLGADLVVHSATKYLNGHSDMVGGIAVVGDNAELAEQMAFLQNSIGGVQGPFDSFLALRGLKTLPLRMRAHCENALALAQWLETHPAIEKVIYPGLASHPQHVLAKRQMSGFGGIVSIVLKGGFDAAKRFCEKTELFTLAESLGGVESLVNHPAVMTHEQLGISDALVRLSVGIEDLGDLRGDLERA ALSLATLAIHGGQSPDPSTGAVMPPIYATSTYAQSSTHNPTRFAYERCVAALEGGTRAFAFASGMAATSTVMELLDAGSHVVAMDDLYGGTFRLFERVRRRTAGLDFSFVDLTDPAAFKAAIRADTKMVWIETPTNPMLKLVDIAAIAVIARKHGLLTVVDNTFASPMLQRPLSLGADLVVHSATKYLNGHSDMVGGIAVVGDNAELAEQMAFLQNSIGGVQGPFDSFLALRGLKTLPLRMRAHCENALALAQWLETHPAIEKVIYPGLASHPQHVLAKRQMSGFGGIVSIVLKGGFDAAKRFCEKTELFTLAESLGGVESLVNHPAVMTHASIPVARREQLGISDALVRLSVGIEDLGDLRGDLERA 3e6m-a4-m1-cH_3e6m-a4-m1-cG The crystal structure of a MarR family transcriptional regulator from Silicibacter pomeroyi DSS. Q5LLB9 Q5LLB9 2.2 X-RAY DIFFRACTION 187 0.993 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 146 147 3e6m-a1-m1-cA_3e6m-a1-m1-cB 3e6m-a2-m1-cC_3e6m-a2-m1-cD 3e6m-a3-m1-cF_3e6m-a3-m1-cE PSFPYGSPGELNSFLPYLLTRITHIWSSELNQALASEKLPTPKLRLLSSLSAYGELTVGQLATLGVEQSTTSRTVDQLVDEGLAARSISDQRKRTVVLTRKGKKKLAEISPLINDFHAELVGNVDPDKLQTCIEVLGEILKGKTDY PKPSFPYGSPGELNSFLPYLLTRITHIWSSELNQALASEKLPTPKLRLLSSLSAYGELTVGQLATLGVEQSTTSRTVDQLVDEGLAARSISQRKRTVVLTRKGKKKLAEISPLINDFHAELVGNVDPDKLQTCIEVLGEILKGKTDY 3e6r-a1-m4-cA_3e6r-a1-m4-cF Crystal structure of apo-ferritin from Pseudo-nitzschia multiseries B6DMH6 B6DMH6 2.4 X-RAY DIFFRACTION 31 1.0 37319 (Pseudo-nitzschia multiseries) 37319 (Pseudo-nitzschia multiseries) 159 159 3e6r-a1-m1-cA_3e6r-a1-m1-cF 3e6r-a1-m1-cB_3e6r-a1-m1-cA 3e6r-a1-m1-cB_3e6r-a1-m1-cF 3e6r-a1-m1-cC_3e6r-a1-m1-cD 3e6r-a1-m1-cC_3e6r-a1-m1-cE 3e6r-a1-m1-cE_3e6r-a1-m1-cD 3e6r-a1-m2-cA_3e6r-a1-m2-cF 3e6r-a1-m2-cB_3e6r-a1-m2-cA 3e6r-a1-m2-cB_3e6r-a1-m2-cF 3e6r-a1-m2-cC_3e6r-a1-m2-cD 3e6r-a1-m2-cC_3e6r-a1-m2-cE 3e6r-a1-m2-cE_3e6r-a1-m2-cD 3e6r-a1-m3-cA_3e6r-a1-m3-cF 3e6r-a1-m3-cB_3e6r-a1-m3-cA 3e6r-a1-m3-cB_3e6r-a1-m3-cF 3e6r-a1-m3-cC_3e6r-a1-m3-cD 3e6r-a1-m3-cC_3e6r-a1-m3-cE 3e6r-a1-m3-cE_3e6r-a1-m3-cD 3e6r-a1-m4-cB_3e6r-a1-m4-cA 3e6r-a1-m4-cB_3e6r-a1-m4-cF 3e6r-a1-m4-cC_3e6r-a1-m4-cD 3e6r-a1-m4-cC_3e6r-a1-m4-cE 3e6r-a1-m4-cE_3e6r-a1-m4-cD 3e6s-a1-m1-cA_3e6s-a1-m1-cF 3e6s-a1-m1-cB_3e6s-a1-m1-cA 3e6s-a1-m1-cB_3e6s-a1-m1-cF 3e6s-a1-m1-cC_3e6s-a1-m1-cD 3e6s-a1-m1-cC_3e6s-a1-m1-cE 3e6s-a1-m1-cE_3e6s-a1-m1-cD 3e6s-a1-m2-cA_3e6s-a1-m2-cF 3e6s-a1-m2-cB_3e6s-a1-m2-cA 3e6s-a1-m2-cB_3e6s-a1-m2-cF 3e6s-a1-m2-cC_3e6s-a1-m2-cD 3e6s-a1-m2-cC_3e6s-a1-m2-cE 3e6s-a1-m2-cE_3e6s-a1-m2-cD 3e6s-a1-m3-cA_3e6s-a1-m3-cF 3e6s-a1-m3-cB_3e6s-a1-m3-cA 3e6s-a1-m3-cB_3e6s-a1-m3-cF 3e6s-a1-m3-cC_3e6s-a1-m3-cD 3e6s-a1-m3-cC_3e6s-a1-m3-cE 3e6s-a1-m3-cE_3e6s-a1-m3-cD 3e6s-a1-m4-cA_3e6s-a1-m4-cF 3e6s-a1-m4-cB_3e6s-a1-m4-cA 3e6s-a1-m4-cB_3e6s-a1-m4-cF 3e6s-a1-m4-cC_3e6s-a1-m4-cD 3e6s-a1-m4-cC_3e6s-a1-m4-cE 3e6s-a1-m4-cE_3e6s-a1-m4-cD 4ism-a1-m1-cA_4ism-a1-m1-cF 4ism-a1-m1-cB_4ism-a1-m2-cB 4ism-a1-m1-cB_4ism-a1-m3-cB 4ism-a1-m1-cC_4ism-a1-m1-cA 4ism-a1-m1-cC_4ism-a1-m1-cF 4ism-a1-m1-cE_4ism-a1-m1-cD 4ism-a1-m1-cE_4ism-a1-m2-cH 4ism-a1-m1-cG_4ism-a1-m2-cG 4ism-a1-m1-cG_4ism-a1-m3-cG 4ism-a1-m1-cH_4ism-a1-m3-cD 4ism-a1-m1-cH_4ism-a1-m3-cE 4ism-a1-m2-cA_4ism-a1-m2-cF 4ism-a1-m2-cB_4ism-a1-m3-cB 4ism-a1-m2-cC_4ism-a1-m2-cA 4ism-a1-m2-cC_4ism-a1-m2-cF 4ism-a1-m2-cE_4ism-a1-m2-cD 4ism-a1-m2-cE_4ism-a1-m3-cH 4ism-a1-m2-cG_4ism-a1-m3-cG 4ism-a1-m2-cH_4ism-a1-m1-cD 4ism-a1-m3-cA_4ism-a1-m3-cF 4ism-a1-m3-cC_4ism-a1-m3-cA 4ism-a1-m3-cC_4ism-a1-m3-cF 4ism-a1-m3-cE_4ism-a1-m3-cD 4ism-a1-m3-cH_4ism-a1-m2-cD 4isp-a1-m1-cA_4isp-a1-m1-cC 4isp-a1-m1-cB_4isp-a1-m2-cB 4isp-a1-m1-cB_4isp-a1-m3-cB 4isp-a1-m1-cD_4isp-a1-m1-cE 4isp-a1-m1-cD_4isp-a1-m3-cH 4isp-a1-m1-cE_4isp-a1-m3-cH 4isp-a1-m1-cF_4isp-a1-m1-cA 4isp-a1-m1-cF_4isp-a1-m1-cC 4isp-a1-m1-cG_4isp-a1-m2-cG 4isp-a1-m1-cG_4isp-a1-m3-cG 4isp-a1-m1-cH_4isp-a1-m2-cD 4isp-a1-m1-cH_4isp-a1-m2-cE 4isp-a1-m2-cA_4isp-a1-m2-cC 4isp-a1-m2-cB_4isp-a1-m3-cB 4isp-a1-m2-cD_4isp-a1-m2-cE 4isp-a1-m2-cF_4isp-a1-m2-cA 4isp-a1-m2-cF_4isp-a1-m2-cC 4isp-a1-m2-cG_4isp-a1-m3-cG 4isp-a1-m2-cH_4isp-a1-m3-cD 4isp-a1-m2-cH_4isp-a1-m3-cE 4isp-a1-m3-cA_4isp-a1-m3-cC 4isp-a1-m3-cD_4isp-a1-m3-cE 4isp-a1-m3-cF_4isp-a1-m3-cA 4isp-a1-m3-cF_4isp-a1-m3-cC 4itt-a1-m1-cB_4itt-a1-m2-cB 4itt-a1-m1-cB_4itt-a1-m3-cB 4itt-a1-m1-cC_4itt-a1-m1-cA 4itt-a1-m1-cD_4itt-a1-m1-cE 4itt-a1-m1-cD_4itt-a1-m2-cH 4itt-a1-m1-cE_4itt-a1-m2-cH 4itt-a1-m1-cF_4itt-a1-m1-cA 4itt-a1-m1-cF_4itt-a1-m1-cC 4itt-a1-m1-cG_4itt-a1-m2-cG 4itt-a1-m1-cG_4itt-a1-m3-cG 4itt-a1-m1-cH_4itt-a1-m3-cD 4itt-a1-m1-cH_4itt-a1-m3-cE 4itt-a1-m2-cB_4itt-a1-m3-cB 4itt-a1-m2-cC_4itt-a1-m2-cA 4itt-a1-m2-cD_4itt-a1-m2-cE 4itt-a1-m2-cD_4itt-a1-m3-cH 4itt-a1-m2-cE_4itt-a1-m3-cH 4itt-a1-m2-cF_4itt-a1-m2-cA 4itt-a1-m2-cF_4itt-a1-m2-cC 4itt-a1-m2-cG_4itt-a1-m3-cG 4itt-a1-m3-cC_4itt-a1-m3-cA 4itt-a1-m3-cD_4itt-a1-m3-cE 4itt-a1-m3-cF_4itt-a1-m3-cA 4itt-a1-m3-cF_4itt-a1-m3-cC 4itw-a1-m1-cA_4itw-a1-m1-cC 4itw-a1-m1-cA_4itw-a1-m1-cF 4itw-a1-m1-cB_4itw-a1-m2-cB 4itw-a1-m1-cB_4itw-a1-m3-cB 4itw-a1-m1-cC_4itw-a1-m1-cF 4itw-a1-m1-cD_4itw-a1-m3-cH 4itw-a1-m1-cE_4itw-a1-m1-cD 4itw-a1-m1-cE_4itw-a1-m3-cH 4itw-a1-m1-cG_4itw-a1-m2-cG 4itw-a1-m1-cG_4itw-a1-m3-cG 4itw-a1-m1-cH_4itw-a1-m2-cD 4itw-a1-m2-cA_4itw-a1-m2-cC 4itw-a1-m2-cA_4itw-a1-m2-cF 4itw-a1-m2-cB_4itw-a1-m3-cB 4itw-a1-m2-cC_4itw-a1-m2-cF 4itw-a1-m2-cE_4itw-a1-m1-cH 4itw-a1-m2-cE_4itw-a1-m2-cD 4itw-a1-m2-cG_4itw-a1-m3-cG 4itw-a1-m2-cH_4itw-a1-m3-cD 4itw-a1-m3-cA_4itw-a1-m3-cC 4itw-a1-m3-cA_4itw-a1-m3-cF 4itw-a1-m3-cC_4itw-a1-m3-cF 4itw-a1-m3-cE_4itw-a1-m2-cH 4itw-a1-m3-cE_4itw-a1-m3-cD 4iwj-a1-m1-cB_4iwj-a1-m2-cB 4iwj-a1-m1-cB_4iwj-a1-m3-cB 4iwj-a1-m1-cC_4iwj-a1-m1-cA 4iwj-a1-m1-cC_4iwj-a1-m1-cF 4iwj-a1-m1-cD_4iwj-a1-m1-cE 4iwj-a1-m1-cD_4iwj-a1-m2-cH 4iwj-a1-m1-cE_4iwj-a1-m2-cH 4iwj-a1-m1-cF_4iwj-a1-m1-cA 4iwj-a1-m1-cG_4iwj-a1-m2-cG 4iwj-a1-m1-cG_4iwj-a1-m3-cG 4iwj-a1-m1-cH_4iwj-a1-m3-cD 4iwj-a1-m1-cH_4iwj-a1-m3-cE 4iwj-a1-m2-cB_4iwj-a1-m3-cB 4iwj-a1-m2-cC_4iwj-a1-m2-cA 4iwj-a1-m2-cC_4iwj-a1-m2-cF 4iwj-a1-m2-cD_4iwj-a1-m2-cE 4iwj-a1-m2-cD_4iwj-a1-m3-cH 4iwj-a1-m2-cE_4iwj-a1-m3-cH 4iwj-a1-m2-cF_4iwj-a1-m2-cA 4iwj-a1-m2-cG_4iwj-a1-m3-cG 4iwj-a1-m3-cC_4iwj-a1-m3-cA 4iwj-a1-m3-cC_4iwj-a1-m3-cF 4iwj-a1-m3-cD_4iwj-a1-m3-cE 4iwj-a1-m3-cF_4iwj-a1-m3-cA 4iwk-a1-m1-cA_4iwk-a1-m1-cF 4iwk-a1-m1-cB_4iwk-a1-m1-cA 4iwk-a1-m1-cB_4iwk-a1-m1-cF 4iwk-a1-m1-cC_4iwk-a1-m1-cD 4iwk-a1-m1-cC_4iwk-a1-m1-cE 4iwk-a1-m1-cE_4iwk-a1-m1-cD 4iwk-a1-m2-cA_4iwk-a1-m2-cF 4iwk-a1-m2-cB_4iwk-a1-m2-cA 4iwk-a1-m2-cB_4iwk-a1-m2-cF 4iwk-a1-m2-cC_4iwk-a1-m2-cD 4iwk-a1-m2-cC_4iwk-a1-m2-cE 4iwk-a1-m2-cE_4iwk-a1-m2-cD 4iwk-a1-m3-cA_4iwk-a1-m3-cF 4iwk-a1-m3-cB_4iwk-a1-m3-cA 4iwk-a1-m3-cB_4iwk-a1-m3-cF 4iwk-a1-m3-cC_4iwk-a1-m3-cD 4iwk-a1-m3-cC_4iwk-a1-m3-cE 4iwk-a1-m3-cE_4iwk-a1-m3-cD 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structure of ferritin soaked with iron from Pseudo-nitzschia multiseries B6DMH6 B6DMH6 1.95 X-RAY DIFFRACTION 34 1.0 37319 (Pseudo-nitzschia multiseries) 37319 (Pseudo-nitzschia multiseries) 159 159 3e6r-a1-m1-cA_3e6r-a1-m1-cD 3e6r-a1-m1-cB_3e6r-a1-m1-cC 3e6r-a1-m1-cB_3e6r-a1-m3-cA 3e6r-a1-m1-cC_3e6r-a1-m3-cD 3e6r-a1-m1-cE_3e6r-a1-m3-cE 3e6r-a1-m1-cE_3e6r-a1-m4-cE 3e6r-a1-m1-cF_3e6r-a1-m3-cF 3e6r-a1-m1-cF_3e6r-a1-m4-cF 3e6r-a1-m2-cA_3e6r-a1-m2-cD 3e6r-a1-m2-cB_3e6r-a1-m2-cC 3e6r-a1-m2-cB_3e6r-a1-m4-cA 3e6r-a1-m2-cC_3e6r-a1-m4-cD 3e6r-a1-m2-cE_3e6r-a1-m3-cE 3e6r-a1-m2-cE_3e6r-a1-m4-cE 3e6r-a1-m2-cF_3e6r-a1-m3-cF 3e6r-a1-m2-cF_3e6r-a1-m4-cF 3e6r-a1-m3-cA_3e6r-a1-m3-cD 3e6r-a1-m3-cB_3e6r-a1-m2-cA 3e6r-a1-m3-cB_3e6r-a1-m3-cC 3e6r-a1-m3-cC_3e6r-a1-m2-cD 3e6r-a1-m4-cA_3e6r-a1-m4-cD 3e6r-a1-m4-cB_3e6r-a1-m1-cA 3e6r-a1-m4-cB_3e6r-a1-m4-cC 3e6r-a1-m4-cC_3e6r-a1-m1-cD 3e6s-a1-m1-cA_3e6s-a1-m1-cD 3e6s-a1-m1-cB_3e6s-a1-m1-cC 3e6s-a1-m1-cB_3e6s-a1-m3-cA 3e6s-a1-m1-cC_3e6s-a1-m3-cD 3e6s-a1-m1-cE_3e6s-a1-m3-cE 3e6s-a1-m1-cE_3e6s-a1-m4-cE 3e6s-a1-m1-cF_3e6s-a1-m3-cF 3e6s-a1-m1-cF_3e6s-a1-m4-cF 3e6s-a1-m2-cA_3e6s-a1-m2-cD 3e6s-a1-m2-cB_3e6s-a1-m2-cC 3e6s-a1-m2-cB_3e6s-a1-m4-cA 3e6s-a1-m2-cC_3e6s-a1-m4-cD 3e6s-a1-m2-cE_3e6s-a1-m3-cE 3e6s-a1-m2-cE_3e6s-a1-m4-cE 3e6s-a1-m2-cF_3e6s-a1-m3-cF 3e6s-a1-m3-cA_3e6s-a1-m3-cD 3e6s-a1-m3-cB_3e6s-a1-m2-cA 3e6s-a1-m3-cB_3e6s-a1-m3-cC 3e6s-a1-m3-cC_3e6s-a1-m2-cD 3e6s-a1-m4-cA_3e6s-a1-m4-cD 3e6s-a1-m4-cB_3e6s-a1-m1-cA 3e6s-a1-m4-cB_3e6s-a1-m4-cC 3e6s-a1-m4-cC_3e6s-a1-m1-cD 4ism-a1-m1-cA_4ism-a1-m1-cD 4ism-a1-m1-cA_4ism-a1-m1-cH 4ism-a1-m1-cC_4ism-a1-m1-cB 4ism-a1-m1-cC_4ism-a1-m3-cE 4ism-a1-m1-cD_4ism-a1-m1-cG 4ism-a1-m1-cE_4ism-a1-m1-cF 4ism-a1-m1-cF_4ism-a1-m2-cB 4ism-a1-m1-cH_4ism-a1-m1-cG 4ism-a1-m2-cA_4ism-a1-m2-cD 4ism-a1-m2-cA_4ism-a1-m2-cH 4ism-a1-m2-cC_4ism-a1-m1-cE 4ism-a1-m2-cC_4ism-a1-m2-cB 4ism-a1-m2-cD_4ism-a1-m2-cG 4ism-a1-m2-cE_4ism-a1-m2-cF 4ism-a1-m2-cF_4ism-a1-m3-cB 4ism-a1-m2-cH_4ism-a1-m2-cG 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4ixk-a1-m2-cC_4ixk-a1-m3-cE 4ixk-a1-m2-cE_4ixk-a1-m2-cF 4ixk-a1-m2-cF_4ixk-a1-m1-cB 4ixk-a1-m2-cG_4ixk-a1-m2-cD 4ixk-a1-m2-cG_4ixk-a1-m2-cH 4ixk-a1-m3-cA_4ixk-a1-m3-cD 4ixk-a1-m3-cA_4ixk-a1-m3-cH 4ixk-a1-m3-cC_4ixk-a1-m3-cB 4ixk-a1-m3-cE_4ixk-a1-m3-cF 4ixk-a1-m3-cF_4ixk-a1-m2-cB 4ixk-a1-m3-cG_4ixk-a1-m3-cD 4ixk-a1-m3-cG_4ixk-a1-m3-cH 4zkh-a1-m1-cA_4zkh-a1-m1-cD 4zkh-a1-m1-cA_4zkh-a1-m1-cH 4zkh-a1-m1-cB_4zkh-a1-m3-cF 4zkh-a1-m1-cC_4zkh-a1-m1-cB 4zkh-a1-m1-cC_4zkh-a1-m3-cE 4zkh-a1-m1-cE_4zkh-a1-m1-cF 4zkh-a1-m1-cF_4zkh-a1-m2-cB 4zkh-a1-m1-cG_4zkh-a1-m1-cD 4zkh-a1-m1-cG_4zkh-a1-m1-cH 4zkh-a1-m2-cA_4zkh-a1-m2-cD 4zkh-a1-m2-cA_4zkh-a1-m2-cH 4zkh-a1-m2-cC_4zkh-a1-m1-cE 4zkh-a1-m2-cC_4zkh-a1-m2-cB 4zkh-a1-m2-cE_4zkh-a1-m2-cF 4zkh-a1-m2-cF_4zkh-a1-m3-cB 4zkh-a1-m2-cG_4zkh-a1-m2-cD 4zkh-a1-m2-cG_4zkh-a1-m2-cH 4zkh-a1-m3-cA_4zkh-a1-m3-cD 4zkh-a1-m3-cA_4zkh-a1-m3-cH 4zkh-a1-m3-cC_4zkh-a1-m2-cE 4zkh-a1-m3-cC_4zkh-a1-m3-cB 4zkh-a1-m3-cE_4zkh-a1-m3-cF 4zkh-a1-m3-cG_4zkh-a1-m3-cD 4zkh-a1-m3-cG_4zkh-a1-m3-cH 4zkw-a1-m1-cA_4zkw-a1-m1-cD 4zkw-a1-m1-cA_4zkw-a1-m1-cH 4zkw-a1-m1-cC_4zkw-a1-m1-cB 4zkw-a1-m1-cC_4zkw-a1-m3-cE 4zkw-a1-m1-cD_4zkw-a1-m1-cG 4zkw-a1-m1-cE_4zkw-a1-m1-cF 4zkw-a1-m1-cE_4zkw-a1-m2-cC 4zkw-a1-m1-cF_4zkw-a1-m2-cB 4zkw-a1-m1-cG_4zkw-a1-m1-cH 4zkw-a1-m2-cA_4zkw-a1-m2-cD 4zkw-a1-m2-cA_4zkw-a1-m2-cH 4zkw-a1-m2-cC_4zkw-a1-m2-cB 4zkw-a1-m2-cD_4zkw-a1-m2-cG 4zkw-a1-m2-cE_4zkw-a1-m2-cF 4zkw-a1-m2-cE_4zkw-a1-m3-cC 4zkw-a1-m2-cF_4zkw-a1-m3-cB 4zkw-a1-m2-cG_4zkw-a1-m2-cH 4zkw-a1-m3-cA_4zkw-a1-m3-cD 4zkw-a1-m3-cA_4zkw-a1-m3-cH 4zkw-a1-m3-cC_4zkw-a1-m3-cB 4zkw-a1-m3-cD_4zkw-a1-m3-cG 4zkw-a1-m3-cE_4zkw-a1-m3-cF 4zkw-a1-m3-cF_4zkw-a1-m1-cB 4zkw-a1-m3-cG_4zkw-a1-m3-cH 4zkx-a1-m1-cA_4zkx-a1-m1-cD 4zkx-a1-m1-cA_4zkx-a1-m1-cH 4zkx-a1-m1-cC_4zkx-a1-m1-cB 4zkx-a1-m1-cC_4zkx-a1-m3-cE 4zkx-a1-m1-cD_4zkx-a1-m1-cG 4zkx-a1-m1-cE_4zkx-a1-m1-cF 4zkx-a1-m1-cE_4zkx-a1-m2-cC 4zkx-a1-m1-cF_4zkx-a1-m2-cB 4zkx-a1-m1-cG_4zkx-a1-m1-cH 4zkx-a1-m2-cA_4zkx-a1-m2-cD 4zkx-a1-m2-cA_4zkx-a1-m2-cH 4zkx-a1-m2-cC_4zkx-a1-m2-cB 4zkx-a1-m2-cD_4zkx-a1-m2-cG 4zkx-a1-m2-cE_4zkx-a1-m2-cF 4zkx-a1-m2-cE_4zkx-a1-m3-cC 4zkx-a1-m2-cF_4zkx-a1-m3-cB 4zkx-a1-m2-cG_4zkx-a1-m2-cH 4zkx-a1-m3-cA_4zkx-a1-m3-cD 4zkx-a1-m3-cA_4zkx-a1-m3-cH 4zkx-a1-m3-cC_4zkx-a1-m3-cB 4zkx-a1-m3-cD_4zkx-a1-m3-cG 4zkx-a1-m3-cE_4zkx-a1-m3-cF 4zkx-a1-m3-cF_4zkx-a1-m1-cB 4zkx-a1-m3-cG_4zkx-a1-m3-cH 4zl5-a1-m1-cA_4zl5-a1-m1-cE 4zl5-a1-m1-cA_4zl5-a1-m4-cD 4zl5-a1-m1-cB_4zl5-a1-m3-cB 4zl5-a1-m1-cB_4zl5-a1-m4-cB 4zl5-a1-m1-cC_4zl5-a1-m1-cE 4zl5-a1-m1-cC_4zl5-a1-m4-cD 4zl5-a1-m1-cD_4zl5-a1-m3-cA 4zl5-a1-m1-cF_4zl5-a1-m3-cF 4zl5-a1-m1-cF_4zl5-a1-m4-cF 4zl5-a1-m2-cA_4zl5-a1-m2-cE 4zl5-a1-m2-cA_4zl5-a1-m3-cD 4zl5-a1-m2-cB_4zl5-a1-m3-cB 4zl5-a1-m2-cB_4zl5-a1-m4-cB 4zl5-a1-m2-cC_4zl5-a1-m2-cE 4zl5-a1-m2-cC_4zl5-a1-m3-cD 4zl5-a1-m2-cD_4zl5-a1-m4-cA 4zl5-a1-m2-cF_4zl5-a1-m3-cF 4zl5-a1-m2-cF_4zl5-a1-m4-cF 4zl5-a1-m3-cA_4zl5-a1-m3-cE 4zl5-a1-m3-cC_4zl5-a1-m1-cD 4zl5-a1-m3-cC_4zl5-a1-m3-cE 4zl5-a1-m4-cA_4zl5-a1-m4-cE 4zl5-a1-m4-cC_4zl5-a1-m2-cD 4zl5-a1-m4-cC_4zl5-a1-m4-cE 4zl6-a1-m1-cA_4zl6-a1-m1-cE 4zl6-a1-m1-cA_4zl6-a1-m4-cD 4zl6-a1-m1-cB_4zl6-a1-m3-cB 4zl6-a1-m1-cB_4zl6-a1-m4-cB 4zl6-a1-m1-cC_4zl6-a1-m1-cE 4zl6-a1-m1-cC_4zl6-a1-m4-cD 4zl6-a1-m1-cD_4zl6-a1-m3-cC 4zl6-a1-m1-cF_4zl6-a1-m3-cF 4zl6-a1-m1-cF_4zl6-a1-m4-cF 4zl6-a1-m2-cA_4zl6-a1-m2-cE 4zl6-a1-m2-cA_4zl6-a1-m3-cD 4zl6-a1-m2-cB_4zl6-a1-m3-cB 4zl6-a1-m2-cB_4zl6-a1-m4-cB 4zl6-a1-m2-cC_4zl6-a1-m2-cE 4zl6-a1-m2-cC_4zl6-a1-m3-cD 4zl6-a1-m2-cD_4zl6-a1-m4-cC 4zl6-a1-m2-cF_4zl6-a1-m3-cF 4zl6-a1-m2-cF_4zl6-a1-m4-cF 4zl6-a1-m3-cA_4zl6-a1-m1-cD 4zl6-a1-m3-cA_4zl6-a1-m3-cE 4zl6-a1-m3-cC_4zl6-a1-m3-cE 4zl6-a1-m4-cA_4zl6-a1-m2-cD 4zl6-a1-m4-cA_4zl6-a1-m4-cE 4zl6-a1-m4-cC_4zl6-a1-m4-cE 4zlw-a1-m1-cA_4zlw-a1-m1-cD 4zlw-a1-m1-cA_4zlw-a1-m1-cH 4zlw-a1-m1-cC_4zlw-a1-m1-cB 4zlw-a1-m1-cC_4zlw-a1-m2-cE 4zlw-a1-m1-cD_4zlw-a1-m1-cG 4zlw-a1-m1-cF_4zlw-a1-m1-cE 4zlw-a1-m1-cF_4zlw-a1-m3-cB 4zlw-a1-m1-cG_4zlw-a1-m1-cH 4zlw-a1-m2-cA_4zlw-a1-m2-cD 4zlw-a1-m2-cA_4zlw-a1-m2-cH 4zlw-a1-m2-cC_4zlw-a1-m2-cB 4zlw-a1-m2-cC_4zlw-a1-m3-cE 4zlw-a1-m2-cD_4zlw-a1-m2-cG 4zlw-a1-m2-cF_4zlw-a1-m1-cB 4zlw-a1-m2-cF_4zlw-a1-m2-cE 4zlw-a1-m2-cG_4zlw-a1-m2-cH 4zlw-a1-m3-cA_4zlw-a1-m3-cD 4zlw-a1-m3-cA_4zlw-a1-m3-cH 4zlw-a1-m3-cC_4zlw-a1-m1-cE 4zlw-a1-m3-cC_4zlw-a1-m3-cB 4zlw-a1-m3-cD_4zlw-a1-m3-cG 4zlw-a1-m3-cF_4zlw-a1-m2-cB 4zlw-a1-m3-cF_4zlw-a1-m3-cE 4zlw-a1-m3-cG_4zlw-a1-m3-cH 4zmc-a1-m1-cA_4zmc-a1-m1-cD 4zmc-a1-m1-cB_4zmc-a1-m3-cF 4zmc-a1-m1-cC_4zmc-a1-m1-cB 4zmc-a1-m1-cC_4zmc-a1-m3-cE 4zmc-a1-m1-cD_4zmc-a1-m1-cG 4zmc-a1-m1-cE_4zmc-a1-m1-cF 4zmc-a1-m1-cF_4zmc-a1-m2-cB 4zmc-a1-m1-cH_4zmc-a1-m1-cA 4zmc-a1-m1-cH_4zmc-a1-m1-cG 4zmc-a1-m2-cA_4zmc-a1-m2-cD 4zmc-a1-m2-cC_4zmc-a1-m1-cE 4zmc-a1-m2-cC_4zmc-a1-m2-cB 4zmc-a1-m2-cD_4zmc-a1-m2-cG 4zmc-a1-m2-cE_4zmc-a1-m2-cF 4zmc-a1-m2-cF_4zmc-a1-m3-cB 4zmc-a1-m2-cH_4zmc-a1-m2-cA 4zmc-a1-m2-cH_4zmc-a1-m2-cG 4zmc-a1-m3-cA_4zmc-a1-m3-cD 4zmc-a1-m3-cC_4zmc-a1-m2-cE 4zmc-a1-m3-cC_4zmc-a1-m3-cB 4zmc-a1-m3-cD_4zmc-a1-m3-cG 4zmc-a1-m3-cE_4zmc-a1-m3-cF 4zmc-a1-m3-cH_4zmc-a1-m3-cA 4zmc-a1-m3-cH_4zmc-a1-m3-cG SEELLDLFNRQVTQEFTASQVYLSASIWFDQNDWEGMAAYMLAESAEEREHGLGFVDFANKRNIPIELQAVPAPVSCAEWSSPEDVWQSILELEQANTRSLLNLAEAASTCHDFAVMAFLNPFHLQQVNEEDKIGSILAKVTDENRTPGLLRSLDVVSF SEELLDLFNRQVTQEFTASQVYLSASIWFDQNDWEGMAAYMLAESAEEREHGLGFVDFANKRNIPIELQAVPAPVSCAEWSSPEDVWQSILELEQANTRSLLNLAEAASTCHDFAVMAFLNPFHLQQVNEEDKIGSILAKVTDENRTPGLLRSLDVVSF 3e74-a1-m1-cA_3e74-a1-m1-cD Crystal structure of E. coli allantoinase with iron ions at the metal center P77671 P77671 2.1 X-RAY DIFFRACTION 41 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 416 416 3e74-a1-m1-cC_3e74-a1-m1-cB SFDLIIKNGTVILENEARVVDIAVKGGKIAAIGQDLGDAKEVDASGLVVSPGVDAHTHIGYETGTRAAAKGGITTIEPLNQLPATVDRASIELKFDAAKGKLTIDAAQLGGLVSYNIDRLHELDEVGVVGFCFVRDVNDWQFFKGAQKLGELGQPVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVEEVTRARQEGQDITCESCPHYFVLDTDQFEEIGTLAKCSPPIRDLENQKGWEKLFNGEIDCLVSDHSPCPPEKAGNIKAWGGIAGLQSCDVFDEAVQKRGSLPFGKLATNAADIFGLQQKGRIAPGKDADFVFIQPNSSYVLTNDDLEYRHKVSPYVGRTIGARITKTILRGDVIYDIEQGFPVAPKGQFILKH SFDLIIKNGTVILENEARVVDIAVKGGKIAAIGQDLGDAKEVDASGLVVSPGVDAHTHIGYETGTRAAAKGGITTIEPLNQLPATVDRASIELKFDAAKGKLTIDAAQLGGLVSYNIDRLHELDEVGVVGFCFVRDVNDWQFFKGAQKLGELGQPVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVEEVTRARQEGQDITCESCPHYFVLDTDQFEEIGTLAKCSPPIRDLENQKGWEKLFNGEIDCLVSDHSPCPPEKAGNIKAWGGIAGLQSCDVFDEAVQKRGSLPFGKLATNAADIFGLQQKGRIAPGKDADFVFIQPNSSYVLTNDDLEYRHKVSPYVGRTIGARITKTILRGDVIYDIEQGFPVAPKGQFILKH 3e74-a1-m1-cC_3e74-a1-m1-cD Crystal structure of E. coli allantoinase with iron ions at the metal center P77671 P77671 2.1 X-RAY DIFFRACTION 64 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 415 416 3e74-a1-m1-cA_3e74-a1-m1-cB SFDLIIKNGTVILENEARVVDIAVKGGKIAAIGQDLGDAKEVDASGLVVSPGVDAHTHIYETGTRAAAKGGITTIEPLNQLPATVDRASIELKFDAAKGKLTIDAAQLGGLVSYNIDRLHELDEVGVVGFCFVRDVNDWQFFKGAQKLGELGQPVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVEEVTRARQEGQDITCESCPHYFVLDTDQFEEIGTLAKCSPPIRDLENQKGWEKLFNGEIDCLVSDHSPCPPEKAGNIKAWGGIAGLQSCDVFDEAVQKRGSLPFGKLATNAADIFGLQQKGRIAPGKDADFVFIQPNSSYVLTNDDLEYRHKVSPYVGRTIGARITKTILRGDVIYDIEQGFPVAPKGQFILKH SFDLIIKNGTVILENEARVVDIAVKGGKIAAIGQDLGDAKEVDASGLVVSPGVDAHTHIGYETGTRAAAKGGITTIEPLNQLPATVDRASIELKFDAAKGKLTIDAAQLGGLVSYNIDRLHELDEVGVVGFCFVRDVNDWQFFKGAQKLGELGQPVLVHCENALICDELGEEAKREGRVTAHDYVASRPVFTEVEAIRRVLYLAKVAGCRLHVCHVSSPEGVEEVTRARQEGQDITCESCPHYFVLDTDQFEEIGTLAKCSPPIRDLENQKGWEKLFNGEIDCLVSDHSPCPPEKAGNIKAWGGIAGLQSCDVFDEAVQKRGSLPFGKLATNAADIFGLQQKGRIAPGKDADFVFIQPNSSYVLTNDDLEYRHKVSPYVGRTIGARITKTILRGDVIYDIEQGFPVAPKGQFILKH 3e7d-a2-m1-cC_3e7d-a2-m1-cD Crystal Structure of Precorrin-8X Methyl Mutase CbiC/CobH from Brucella melitensis Q2YRF5 Q2YRF5 1.8 X-RAY DIFFRACTION 106 1.0 235 (Brucella abortus) 235 (Brucella abortus) 203 204 3e7d-a1-m1-cA_3e7d-a1-m1-cB YIRDGQAIYDRSFAIIRAEADLRHIPADLEKLAVRVIHACGMVDVANDLAFSEGAGKAGRNALLAGAPILCDARMVAEGITRSRLPADNRVIYTLSDPSVPELAKKIGNTRSAAALDLWLPHIEGSIVAIGNAPTALFRLFELLDAGAPKPALIIGMPVGFVGAAESKDELAANSRGVPYVIVRGRRGGSAMTAAAVNALASE YIRDGQAIYDRSFAIIRAEADLRHIPADLEKLAVRVIHACGMVDVANDLAFSEGAGKAGRNALLAGAPILCDARMVAEGITRSRLPADNRVIYTLSDPSVPELAKKIGNTRSAAALDLWLPHIEGSIVAIGNAPTALFRLFELLDAGAPKPALIIGMPVGFVGAAESKDELAANSRGVPYVIVRGRRGGSAMTAAAVNALASER 3e7g-a2-m1-cD_3e7g-a2-m1-cC Structure of human INOSOX with inhibitor AR-C95791 P35228 P35228 2.2 X-RAY DIFFRACTION 199 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 421 423 1nsi-a1-m1-cA_1nsi-a1-m1-cB 1nsi-a2-m1-cC_1nsi-a2-m1-cD 2nsi-a1-m1-cA_2nsi-a1-m1-cB 2nsi-a2-m1-cC_2nsi-a2-m1-cD 3e7g-a1-m1-cA_3e7g-a1-m1-cB 3ej8-a1-m1-cA_3ej8-a1-m1-cB 3ej8-a2-m1-cC_3ej8-a2-m1-cD 4cx7-a1-m1-cA_4cx7-a1-m1-cB 4cx7-a1-m1-cC_4cx7-a1-m1-cD 4nos-a1-m1-cA_4nos-a1-m1-cB 4nos-a2-m1-cC_4nos-a2-m1-cD RHVRIKNWGSGMTFQDTLHHKAKGILTCRSKSCLGSIMTPKSLTRGPRDKPTPPDELLPQAIEFVNQYYGSFKEAKIEEHLARVEAVTKEIETTGTYQLTGDELIFATKQAWRNAPRCIGRIQWSNLQVFDARSCSTAREMFEHICRHVRYSTNNGNIRSAITVFPQRSDGKHDFRVWNAQLIRYAGYQMPDGSIRGDPANVEFTQLCIDLGWKPKYGRFDVVPLVLQANGRDPELFEIPPDLVLEVAMEHPKYEWFRELELKWYALPAVANMLLEVGGLEFPGCPFNGWYMGTEIGVRDFCDVQRYNILEEVGRRMGLETHKLASLWKDQAVVEINIAVLHSFQKQNVTIMDHHSAAESFMKYMQNEYRSRGGCPADWIWLVPPMSGSITPVFHQEMLNYVLSPFYYYQVEAWKTHVWQD RHVRIKNWGSGMTFQDTLHHKAKGILTCRSKSCLGSIMTPKSLTRGPRDKPTPPDELLPQAIEFVNQYYGSFKEAKIEEHLARVEAVTKEIETTGTYQLTGDELIFATKQAWRNAPRCIGRIQWSNLQVFDARSCSTAREMFEHICRHVRYSTNNGNIRSAITVFPQRSDGKHDFRVWNAQLIRYAGYQMPDGSIRGDPANVEFTQLCIDLGWKPKYGRFDVVPLVLQANGRDPELFEIPPDLVLEVAMEHPKYEWFRELELKWYALPAVANMLLEVGGLEFPGCPFNGWYMGTEIGVRDFCDVQRYNILEEVGRRMGLETHKLASLWKDQAVVEINIAVLHSFQKQNVTIMDHHSAAESFMKYMQNEYRSRGGCPADWIWLVPPMSGSITPVFHQEMLNYVLSPFYYYQVEAWKTHVWQDEK 3e7h-a1-m1-cB_3e7h-a1-m2-cB The crystal structure of the beta subunit of the DNA-directed RNA polymerase from Vibrio cholerae O1 biovar eltor Q9KV30 Q9KV30 1.7 X-RAY DIFFRACTION 48 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 101 101 3e7h-a1-m1-cA_3e7h-a1-m2-cA AVNFEVKDQTLMMELVPERLRGETATFDIEADGKVYVEKGRRVTARHIRQLEKDGVNFIEVPVEYIVGKVSAKDYVNEATGELIITANQEISLEALANLSQ AVNFEVKDQTLMMELVPERLRGETATFDIEADGKVYVEKGRRVTARHIRQLEKDGVNFIEVPVEYIVGKVSAKDYVNEATGELIITANQEISLEALANLSQ 3e7h-a1-m2-cB_3e7h-a1-m1-cA The crystal structure of the beta subunit of the DNA-directed RNA polymerase from Vibrio cholerae O1 biovar eltor Q9KV30 Q9KV30 1.7 X-RAY DIFFRACTION 67 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 101 102 3e7h-a1-m1-cB_3e7h-a1-m2-cA AVNFEVKDQTLMMELVPERLRGETATFDIEADGKVYVEKGRRVTARHIRQLEKDGVNFIEVPVEYIVGKVSAKDYVNEATGELIITANQEISLEALANLSQ AVNFEVKDQTLMMELVPERLRGETATFDIEADGKVYVEKGRRVTARHIRQLEKDGVNFIEVPVEYIVGKVSAKDYVNEATGELIITANQEISLEALANLSQA 3e7h-a1-m2-cB_3e7h-a1-m2-cA The crystal structure of the beta subunit of the DNA-directed RNA polymerase from Vibrio cholerae O1 biovar eltor Q9KV30 Q9KV30 1.7 X-RAY DIFFRACTION 17 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 101 102 3e7h-a1-m1-cB_3e7h-a1-m1-cA AVNFEVKDQTLMMELVPERLRGETATFDIEADGKVYVEKGRRVTARHIRQLEKDGVNFIEVPVEYIVGKVSAKDYVNEATGELIITANQEISLEALANLSQ AVNFEVKDQTLMMELVPERLRGETATFDIEADGKVYVEKGRRVTARHIRQLEKDGVNFIEVPVEYIVGKVSAKDYVNEATGELIITANQEISLEALANLSQA 3e7j-a1-m1-cA_3e7j-a1-m1-cB HeparinaseII H202A/Y257A double mutant complexed with a heparan sulfate tetrasaccharide substrate C6XZB6 C6XZB6 2.1 X-RAY DIFFRACTION 77 1.0 984 (Pedobacter heparinus) 984 (Pedobacter heparinus) 743 743 2fuq-a1-m1-cA_2fuq-a1-m1-cB 2fut-a1-m1-cA_2fut-a1-m1-cB DVVWKDVDGVSMPIPPKTHPRLYLREQQVPDLKNRMNDPKLKKVWADMIKMQEDWKPADIPEVKDFRFYFNQKGLTVRVELMALNYLMTKDPKVGREAITSIIDTLETATFKPAGDISRGIGLFMVTGAIVYDWCYDQLKPEEKTRFVKAFVRLAKMLECGYPPVKDKSIVGAASEWMIMRDLLSVGIAIYDEFPEMYNLAAGRFFKEHLVARNWFYPSHNYHQGMSALNVRFTNDLFALWILDRMGAGNVFNPGQQFILYDAIYKRRPDGQILAGGDVDYSRKKPKYYTMPALLAGSYYKDEYLNYEFLKDPNVEPHCKLFEFLWRDTQLGSRKPDDLPLSRYSGSPFGWMIARTGWGPESVIAEMKVNEYSFLNHQHQDAGAFQIYYKGPLAIDAGSYTGSSGGYNSPHNKNFFKRTIAHNSLLIYDPKETFSSSGYGGSDHTDFAANDGGQRLPGKGWIAPRDLKEMLAGDFRTGKILAQGFGPDNQTPDYTYLKGDITAAYSAKVKEVKRSFLFLNLKDAKVPAAMIVFDKVVASNPDFKKFWLLHSIEQPEIKGNQITIKRTKNGDSGMLVNTALLPDAANSNITSIGGKGKDFWVFGTNYTNDPKPGTDEALERGEWRVEITPKKAAAEDYYLNVIQIADNTQQKLHEVKRIDGDKVVGVQLADRIVTFSKTSETVDRPFGFSVVGKGTFKFVMTDLLPGTWQVLKDGKILYPALSAKGDDGALYFEGTEGTYRFLR DVVWKDVDGVSMPIPPKTHPRLYLREQQVPDLKNRMNDPKLKKVWADMIKMQEDWKPADIPEVKDFRFYFNQKGLTVRVELMALNYLMTKDPKVGREAITSIIDTLETATFKPAGDISRGIGLFMVTGAIVYDWCYDQLKPEEKTRFVKAFVRLAKMLECGYPPVKDKSIVGAASEWMIMRDLLSVGIAIYDEFPEMYNLAAGRFFKEHLVARNWFYPSHNYHQGMSALNVRFTNDLFALWILDRMGAGNVFNPGQQFILYDAIYKRRPDGQILAGGDVDYSRKKPKYYTMPALLAGSYYKDEYLNYEFLKDPNVEPHCKLFEFLWRDTQLGSRKPDDLPLSRYSGSPFGWMIARTGWGPESVIAEMKVNEYSFLNHQHQDAGAFQIYYKGPLAIDAGSYTGSSGGYNSPHNKNFFKRTIAHNSLLIYDPKETFSSSGYGGSDHTDFAANDGGQRLPGKGWIAPRDLKEMLAGDFRTGKILAQGFGPDNQTPDYTYLKGDITAAYSAKVKEVKRSFLFLNLKDAKVPAAMIVFDKVVASNPDFKKFWLLHSIEQPEIKGNQITIKRTKNGDSGMLVNTALLPDAANSNITSIGGKGKDFWVFGTNYTNDPKPGTDEALERGEWRVEITPKKAAAEDYYLNVIQIADNTQQKLHEVKRIDGDKVVGVQLADRIVTFSKTSETVDRPFGFSVVGKGTFKFVMTDLLPGTWQVLKDGKILYPALSAKGDDGALYFEGTEGTYRFLR 3e7k-a1-m1-cC_3e7k-a1-m1-cD Crystal Structure of an antiparallel coiled-coil tetramerization domain from TRPM7 channels Q925B3 Q925B3 2.01 X-RAY DIFFRACTION 74 0.981 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 53 53 3e7k-a1-m1-cA_3e7k-a1-m1-cB 3e7k-a2-m1-cF_3e7k-a2-m1-cE 3e7k-a2-m1-cG_3e7k-a2-m1-cH GSRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKT SRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKTL 3e7k-a2-m1-cG_3e7k-a2-m1-cE Crystal Structure of an antiparallel coiled-coil tetramerization domain from TRPM7 channels Q925B3 Q925B3 2.01 X-RAY DIFFRACTION 12 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 52 55 3e7k-a1-m1-cC_3e7k-a1-m1-cA SRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKT AGSRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKTL 3e7k-a2-m1-cG_3e7k-a2-m1-cF Crystal Structure of an antiparallel coiled-coil tetramerization domain from TRPM7 channels Q925B3 Q925B3 2.01 X-RAY DIFFRACTION 69 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 52 54 3e7k-a1-m1-cC_3e7k-a1-m1-cB 3e7k-a1-m1-cD_3e7k-a1-m1-cA 3e7k-a2-m1-cE_3e7k-a2-m1-cH SRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKT GSRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQIGHLQDLSALTVDTLKTL 3e7l-a1-m1-cB_3e7l-a1-m1-cA Crystal structure of sigma54 activator NtrC4's DNA binding domain O66551 O66551 2.252 X-RAY DIFFRACTION 48 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 54 60 3e7l-a2-m1-cC_3e7l-a2-m1-cD 4fth-a1-m1-cB_4fth-a1-m1-cA SYLLKIKELKEAKKEFEKIFIEEKLREYDYDLKRTAEEIGIDLSNLYRKIKSLN SYLLKIKELKEAKKEFEKIFIEEKLREYDYDLKRTAEEIGIDLSNLYRKIKSLNIRVKSS 3e7n-a2-m1-cG_3e7n-a2-m1-cO Crystal structure of d-ribose high-affinity transport system from salmonella typhimurium lt2 Q8ZKW0 Q8ZKW0 2.45 X-RAY DIFFRACTION 80 1.0 135 136 3e7n-a1-m1-cA_3e7n-a1-m2-cA 3e7n-a1-m1-cC_3e7n-a1-m2-cD 3e7n-a1-m1-cD_3e7n-a1-m2-cC 3e7n-a1-m1-cE_3e7n-a1-m2-cB 3e7n-a1-m2-cE_3e7n-a1-m1-cB 3e7n-a2-m1-cF_3e7n-a2-m1-cK 3e7n-a2-m1-cH_3e7n-a2-m1-cN 3e7n-a2-m1-cI_3e7n-a2-m1-cM 3e7n-a2-m1-cL_3e7n-a2-m1-cJ NAKKGTVLNSEISSVISRLGHTDTLVVCDAGLPIPNSTARIDALTQGVPSFQVVDVVTREQVEAAILATEIKQQNPQLHETLLTHLEQLQQHQGNTIKISYTTHEQFKKLTADSQAVIRSGECSPYANVILCAGV NAKKGTVLNSEISSVISRLGHTDTLVVCDAGLPIPNSTARIDALTQGVPSFQVVDVVTREQVEAAILATEIKQQNPQLHETLLTHLEQLQQHQGNTIKISYTTHEQFKKLTADSQAVIRSGECSPYANVILCAGVT 3e7n-a2-m1-cH_3e7n-a2-m1-cO Crystal structure of d-ribose high-affinity transport system from salmonella typhimurium lt2 Q8ZKW0 Q8ZKW0 2.45 X-RAY DIFFRACTION 47 1.0 136 136 3e7n-a1-m1-cA_3e7n-a1-m2-cB 3e7n-a1-m1-cD_3e7n-a1-m2-cD 3e7n-a1-m1-cE_3e7n-a1-m2-cC 3e7n-a1-m2-cA_3e7n-a1-m1-cB 3e7n-a1-m2-cE_3e7n-a1-m1-cC 3e7n-a2-m1-cG_3e7n-a2-m1-cK 3e7n-a2-m1-cI_3e7n-a2-m1-cN 3e7n-a2-m1-cJ_3e7n-a2-m1-cM 3e7n-a2-m1-cL_3e7n-a2-m1-cF NAKKGTVLNSEISSVISRLGHTDTLVVCDAGLPIPNSTARIDALTQGVPSFQVVDVVTREQVEAAILATEIKQQNPQLHETLLTHLEQLQQHQGNTIKISYTTHEQFKKLTADSQAVIRSGECSPYANVILCAGVT NAKKGTVLNSEISSVISRLGHTDTLVVCDAGLPIPNSTARIDALTQGVPSFQVVDVVTREQVEAAILATEIKQQNPQLHETLLTHLEQLQQHQGNTIKISYTTHEQFKKLTADSQAVIRSGECSPYANVILCAGVT 3e7n-a2-m1-cN_3e7n-a2-m1-cO Crystal structure of d-ribose high-affinity transport system from salmonella typhimurium lt2 Q8ZKW0 Q8ZKW0 2.45 X-RAY DIFFRACTION 12 1.0 136 136 3e7n-a1-m1-cA_3e7n-a1-m1-cB 3e7n-a1-m1-cA_3e7n-a1-m1-cE 3e7n-a1-m1-cB_3e7n-a1-m1-cC 3e7n-a1-m1-cC_3e7n-a1-m1-cD 3e7n-a1-m1-cE_3e7n-a1-m1-cD 3e7n-a1-m2-cA_3e7n-a1-m2-cB 3e7n-a1-m2-cA_3e7n-a1-m2-cE 3e7n-a1-m2-cB_3e7n-a1-m2-cC 3e7n-a1-m2-cC_3e7n-a1-m2-cD 3e7n-a1-m2-cE_3e7n-a1-m2-cD 3e7n-a2-m1-cF_3e7n-a2-m1-cJ 3e7n-a2-m1-cG_3e7n-a2-m1-cF 3e7n-a2-m1-cG_3e7n-a2-m1-cH 3e7n-a2-m1-cH_3e7n-a2-m1-cI 3e7n-a2-m1-cI_3e7n-a2-m1-cJ 3e7n-a2-m1-cK_3e7n-a2-m1-cO 3e7n-a2-m1-cL_3e7n-a2-m1-cK 3e7n-a2-m1-cL_3e7n-a2-m1-cM 3e7n-a2-m1-cM_3e7n-a2-m1-cN NAKKGTVLNSEISSVISRLGHTDTLVVCDAGLPIPNSTARIDALTQGVPSFQVVDVVTREQVEAAILATEIKQQNPQLHETLLTHLEQLQQHQGNTIKISYTTHEQFKKLTADSQAVIRSGECSPYANVILCAGVT NAKKGTVLNSEISSVISRLGHTDTLVVCDAGLPIPNSTARIDALTQGVPSFQVVDVVTREQVEAAILATEIKQQNPQLHETLLTHLEQLQQHQGNTIKISYTTHEQFKKLTADSQAVIRSGECSPYANVILCAGVT 3e7o-a1-m2-cB_3e7o-a1-m1-cA Crystal Structure of JNK2 P45984 P45984 2.14 X-RAY DIFFRACTION 37 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 326 342 SQFYSVQVADSTFTVLKRYQQLKPIGSGIVCAAFDTVLGINVAVKKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGTRYYRAPEVILGMGYKENVDIWSVGCIMGELVKGSVIFQGTDHIDQWNKVIEQLGTPSAEFMAALQPTVRNYVENRPAYPGIAFEELFPDWIFPSESERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAAPPPQIREHAIEEWKELIYKEVMD QFYSVQVADSTFTVLKRYQQLKPIGSGAQGIVCAAFDTVLGINVAVKKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTASTNFMMTPYVVTRYYRAPEVILGMGYKENVDIWSVGCIMGELVKGSVIFQGTDHIDQWNKVIEQLGTPSAEFMAALQPTVRNYVENRPAYPGIAFEELFPDWIFPSERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAEAEAPPPQIHAIEEWKELIYKEVM 3e7p-a1-m1-cA_3e7p-a1-m2-cA CRYSTAL STRUCTURE OF of putative methyltransferase from Bacteroides vulgatus ATCC 8482 A6L5C0 A6L5C0 1.9 X-RAY DIFFRACTION 66 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 253 253 NTILGFDVNLICDFFLNTERQGPGSPEVTLKALSFIDNLTNKSLIADLGCGTGGQTMILAQHVPGKITGIDFFPGFIERFNKNAEKLNLQNRVKGIVGSMDDLSFEKDSLDLIWSEGAIYNIGFERGLKEWRNYLKPGGYLAVSESVWFTDQRPAEIHDFWMSAYTEIDTVPNKVAQIQKAGYIPVATFILPENCWIEHYFAPQAKAEEIFRRKHAGSRIVEELITSNHHEAELYSKYKAYYGYAFFICKKGF NTILGFDVNLICDFFLNTERQGPGSPEVTLKALSFIDNLTNKSLIADLGCGTGGQTMILAQHVPGKITGIDFFPGFIERFNKNAEKLNLQNRVKGIVGSMDDLSFEKDSLDLIWSEGAIYNIGFERGLKEWRNYLKPGGYLAVSESVWFTDQRPAEIHDFWMSAYTEIDTVPNKVAQIQKAGYIPVATFILPENCWIEHYFAPQAKAEEIFRRKHAGSRIVEELITSNHHEAELYSKYKAYYGYAFFICKKGF 3e7q-a1-m1-cA_3e7q-a1-m1-cB The crystal structure of the putative transcriptional regulator from Pseudomonas aeruginosa PAO1 Q9HUI1 Q9HUI1 2.2 X-RAY DIFFRACTION 154 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 208 210 NQEVRFSRLEPEQRKALLIEATLACLKRHGFQGASVRKICAEAGVSVGLINHHYDGKDALVAEAYLAVTGRVMRLLRGAIDTAPGGARPRLSAFFEASFSAELLDPQLLDAWLAFWGAVGSIEAIGRVHDHSYGEYRALLVGVLRQLAEEGGWADFDAELAAISLSALLDGLWLESGLNPATFTPRQGVQICEAWVDGLEAGAHRRFR MNQEVRFSRLEPEQRKALLIEATLACLKRHGFQGASVRKICAEAGVSVGLINHHYDGKDALVAEAYLAVTGRVMRLLRGAIDTAPGGARPRLSAFFEASFSAELLDPQLLDAWLAFWGAVGSIEAIGRVHDHSYGEYRALLVGVLRQLAEEGGWADFDAELAAISLSALLDGLWLESGLNPATFTPRQGVQICEAWVDGLEAGAHRRFRR 3e81-a2-m1-cA_3e81-a2-m2-cD Structure-function Analysis of 2-Keto-3-deoxy-D-glycero-D-galacto-nononate-9-phosphate (KDN) Phosphatase Defines a New Clad Within the Type C0 HAD Subfamily Q8A712 Q8A712 1.629 X-RAY DIFFRACTION 13 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 164 164 3e81-a2-m1-cB_3e81-a2-m2-cB 3e81-a2-m1-cD_3e81-a2-m2-cA 3e84-a2-m1-cC_3e84-a2-m2-cC MKEIKLILTDIDGVWTDGGMFYDQTGNEWKKFNTSDSAGIFWAHNKGIPVGILTGEKTEIVRRRAEKLKVDYLFQGVVDKLSAAEELCNELGINLEQVAYIGDDLNDAKLLKRVGIAGVPASAPFYIRRLSTIFLEKRGGEGVFREFVEKVLGINLEDFIAVIQ MKEIKLILTDIDGVWTDGGMFYDQTGNEWKKFNTSDSAGIFWAHNKGIPVGILTGEKTEIVRRRAEKLKVDYLFQGVVDKLSAAEELCNELGINLEQVAYIGDDLNDAKLLKRVGIAGVPASAPFYIRRLSTIFLEKRGGEGVFREFVEKVLGINLEDFIAVIQ 3e82-a2-m1-cE_3e82-a2-m1-cD Crystal structure of a putative oxidoreductase from Klebsiella pneumoniae A6T882 A6T882 2.04 X-RAY DIFFRACTION 126 0.994 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 339 345 3e82-a1-m1-cA_3e82-a1-m1-cB NNTINIALIGYGFVGKTFHAPLIRSVPGLNLAFVASRDEEKVKRDLPDVTVIASPEAAVQHPDVDLVVIASPNATHAPLARLALNAGKHVVVDKPFTLDQEARELIALAEEKQRLLSVFHNRRWDSDYLGIRQVIEQGTLGAVKHFESHFDRFRPESGLWFDLGPHLIDQALQLFGLPQSVQGNIATLRDGAEINDWAHVVLNYPAHKVILHCSLVAGGSSRFTVHGDKGSVIKARADQQESQLLAGVVPGSADWGQDDDPLVIYDASLQAHAQATPQGDQRQYYLIRDALKGQIANPVPPVEALAVAVLEAAVRSAESGVQTLDLSDDERNTLREGHH TINIALIGYGFVGKTFHAPLIRSVPGLNLAFVASRDEEKVKRDLPDVTVIASPEAAVQHPDVDLVVIASPNATHAPLARLALNAGKHVVVDKPFTLDQEARELIALAEEKQRLLSVFHNRRWDSDYLGIRQVIEQGTLGAVKHFESHFDRFRPEVRVRWREGSGLWFDLGPHLIDQALQLFGLPQSVQGNIATLRDGAEINDWAHVVLNYPAHKVILHCSLVAGGSSRFTVHGDKGSVIKARADQQESQLLAGVVPGSADWGQDDDPLVIYDASLQAHAQATPQGDQRQYYLIRDALKGQIANPVPPVEALAVAVLEAAVRSAESGVQTLDLSDDERNTLREGHH 3e8j-a1-m1-cA_3e8j-a1-m1-cB Coproporphyrinogen III oxidase from Leishmania naiffi D0VWU6 D0VWU6 2.27 X-RAY DIFFRACTION 82 0.993 5678 (Leishmania naiffi) 5678 (Leishmania naiffi) 285 286 LPVEAVKEFLLKLQDDICHAIEAEDEQATFMEDKWTREGGGGGRTRVIANGAVIEKGGVNFSHVYGKGCNYQAMGVSLVIHPKNPHVPTSHANVRLFVAEKEGKEPVWWFGGGFDLTPYYAVEEDCYYFHHVAQELCRPFGADVYERFKAWCDEYFFIPHRNEARGIGGLFFDDLNEWPFEKCFAFMQAVGKGFIDAYIPIVNRRKNTPYTEQQVEFQEFRRGRYAEFNLVIDRGTKFGLQSGGRTESILMSLPPRARWGYNWHPEPGTPEARLTEYFLTKKQWV MSLPVEAVKEFLLKLQDDICHAIEAEDEQATFMEDKWTREGGGGGRTRVIANGAVIEKGGVNFSHVYGKGGCNYQAMGVSLVIHPKNPHVPTSHANVRLFVAEGKEPVWWFGGGFDLTPYYAVEEDCYYFHHVAQELCRPFGADVYERFKAWCDEYFFIPHRNEARGIGGLFFDDLNEWPFEKCFAFMQAVGKGFIDAYIPIVNRRKNTPYTEQQVEFQEFRRGRYAEFNLVIDRGTKFGLQSGGRTESILMSLPPRARWGYNWHPEPGTPEARLTEYFLTKKQWV 3e8m-a2-m1-cC_3e8m-a2-m2-cD Structure-function Analysis of 2-Keto-3-deoxy-D-glycero-D-galacto-nononate-9-phosphate (KDN) Phosphatase Defines a New Clad Within the Type C0 HAD Subfamily Q8A712 Q8A712 1.1 X-RAY DIFFRACTION 12 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 164 164 3e81-a2-m1-cA_3e81-a2-m2-cB 3e81-a2-m1-cB_3e81-a2-m2-cA 3e81-a2-m1-cC_3e81-a2-m2-cD 3e81-a2-m1-cD_3e81-a2-m2-cC 3e84-a2-m1-cA_3e84-a2-m2-cB 3e84-a2-m1-cB_3e84-a2-m2-cA 3e84-a2-m1-cC_3e84-a2-m2-cD 3e84-a2-m1-cD_3e84-a2-m2-cC 3e8m-a2-m1-cA_3e8m-a2-m2-cB 3e8m-a2-m1-cB_3e8m-a2-m2-cA 3e8m-a2-m1-cD_3e8m-a2-m2-cC MKEIKLILTDIDGVWTDGGMFYDQTGNEWKKFNTSDSAGIFWAHNKGIPVGILTGEKTEIVRRRAEKLKVDYLFQGVVDKLSAAEELCNELGINLEQVAYIGDDLNDAKLLKRVGIAGVPASAPFYIRRLSTIFLEKRGGEGVFREFVEKVLGINLEDFIAVIQ MKEIKLILTDIDGVWTDGGMFYDQTGNEWKKFNTSDSAGIFWAHNKGIPVGILTGEKTEIVRRRAEKLKVDYLFQGVVDKLSAAEELCNELGINLEQVAYIGDDLNDAKLLKRVGIAGVPASAPFYIRRLSTIFLEKRGGEGVFREFVEKVLGINLEDFIAVIQ 3e8m-a2-m2-cA_3e8m-a2-m2-cC Structure-function Analysis of 2-Keto-3-deoxy-D-glycero-D-galacto-nononate-9-phosphate (KDN) Phosphatase Defines a New Clad Within the Type C0 HAD Subfamily Q8A712 Q8A712 1.1 X-RAY DIFFRACTION 55 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 164 164 3e81-a1-m1-cA_3e81-a1-m1-cB 3e81-a1-m1-cA_3e81-a1-m1-cC 3e81-a1-m1-cB_3e81-a1-m1-cD 3e81-a1-m1-cC_3e81-a1-m1-cD 3e81-a2-m1-cA_3e81-a2-m1-cB 3e81-a2-m1-cA_3e81-a2-m1-cC 3e81-a2-m1-cB_3e81-a2-m1-cD 3e81-a2-m1-cC_3e81-a2-m1-cD 3e81-a2-m2-cA_3e81-a2-m2-cB 3e81-a2-m2-cA_3e81-a2-m2-cC 3e81-a2-m2-cB_3e81-a2-m2-cD 3e81-a2-m2-cC_3e81-a2-m2-cD 3e84-a1-m1-cA_3e84-a1-m1-cB 3e84-a1-m1-cA_3e84-a1-m1-cC 3e84-a1-m1-cB_3e84-a1-m1-cD 3e84-a1-m1-cC_3e84-a1-m1-cD 3e84-a2-m1-cA_3e84-a2-m1-cB 3e84-a2-m1-cA_3e84-a2-m1-cC 3e84-a2-m1-cB_3e84-a2-m1-cD 3e84-a2-m1-cC_3e84-a2-m1-cD 3e84-a2-m2-cA_3e84-a2-m2-cB 3e84-a2-m2-cA_3e84-a2-m2-cC 3e84-a2-m2-cB_3e84-a2-m2-cD 3e84-a2-m2-cC_3e84-a2-m2-cD 3e8m-a1-m1-cA_3e8m-a1-m1-cB 3e8m-a1-m1-cA_3e8m-a1-m1-cC 3e8m-a1-m1-cB_3e8m-a1-m1-cD 3e8m-a1-m1-cC_3e8m-a1-m1-cD 3e8m-a2-m1-cA_3e8m-a2-m1-cB 3e8m-a2-m1-cA_3e8m-a2-m1-cC 3e8m-a2-m1-cB_3e8m-a2-m1-cD 3e8m-a2-m1-cC_3e8m-a2-m1-cD 3e8m-a2-m2-cA_3e8m-a2-m2-cB 3e8m-a2-m2-cB_3e8m-a2-m2-cD 3e8m-a2-m2-cC_3e8m-a2-m2-cD 4hgo-a1-m1-cA_4hgo-a1-m1-cB 4hgo-a1-m1-cA_4hgo-a1-m1-cC 4hgo-a1-m1-cD_4hgo-a1-m1-cB 4hgo-a1-m1-cD_4hgo-a1-m1-cC 4hgq-a1-m1-cA_4hgq-a1-m1-cB 4hgq-a1-m1-cA_4hgq-a1-m1-cC 4hgq-a1-m1-cB_4hgq-a1-m1-cD 4hgq-a1-m1-cC_4hgq-a1-m1-cD 4hgq-a2-m1-cE_4hgq-a2-m1-cF 4hgq-a2-m1-cE_4hgq-a2-m1-cG 4hgq-a2-m1-cF_4hgq-a2-m1-cH 4hgq-a2-m1-cG_4hgq-a2-m1-cH 4hgr-a1-m1-cA_4hgr-a1-m1-cB 4hgr-a1-m1-cB_4hgr-a1-m1-cD 4hgr-a1-m1-cC_4hgr-a1-m1-cA 4hgr-a1-m1-cC_4hgr-a1-m1-cD 4hgr-a2-m1-cF_4hgr-a2-m1-cE 4hgr-a2-m1-cF_4hgr-a2-m1-cH 4hgr-a2-m1-cG_4hgr-a2-m1-cE 4hgr-a2-m1-cH_4hgr-a2-m1-cG MKEIKLILTDIDGVWTDGGMFYDQTGNEWKKFNTSDSAGIFWAHNKGIPVGILTGEKTEIVRRRAEKLKVDYLFQGVVDKLSAAEELCNELGINLEQVAYIGDDLNDAKLLKRVGIAGVPASAPFYIRRLSTIFLEKRGGEGVFREFVEKVLGINLEDFIAVIQ MKEIKLILTDIDGVWTDGGMFYDQTGNEWKKFNTSDSAGIFWAHNKGIPVGILTGEKTEIVRRRAEKLKVDYLFQGVVDKLSAAEELCNELGINLEQVAYIGDDLNDAKLLKRVGIAGVPASAPFYIRRLSTIFLEKRGGEGVFREFVEKVLGINLEDFIAVIQ 3e8o-a1-m1-cB_3e8o-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE ANTIBIOTIC BIOSYNTHESIS MONOOXYGENASE (DR_2100) FROM DEINOCOCCUS RADIODURANS AT 1.40 A RESOLUTION Q9RSM4 Q9RSM4 1.4 X-RAY DIFFRACTION 107 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 98 99 4npo-a1-m1-cA_4npo-a1-m1-cB VISHGTLSASAEHAAHLRQLLVHIAQATRQEDGCLLYLVSEDLSQPGHFLITEHWDNLGAHTHLALPGVTQAIDALKHLNVTDLKITAYEAGEAINIG TVISHGTLSASAEHAAHLRQLLVHIAQATRQEDGCLLYLVSEDLSQPGHFLITEHWDNLGAHTHLALPGVTQAIDALKHLNVTDLKITAYEAGEAINIG 3e8p-a1-m1-cA_3e8p-a1-m1-cD Crystal structure of the protein Q8E9M7 from Shewanella oneidensis related to thioesterase superfamily. Northeast Structural Genomics Consortium target SoR246. Q8E9M7 Q8E9M7 2.3 X-RAY DIFFRACTION 23 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 149 149 3e8p-a1-m1-cB_3e8p-a1-m1-cC SNPIQAEVLKRVAEVFDQHVPFHNLLGLDIKRYDIDGVEVAINKPELIGNIHQQILHGGVTATVLDVVGGLTAFAGLVASRDDWTIEELQQRLQTLGTIDRVDYLRPGRGQIFTGTGSVIRAGNRVSVCRELHNEQGTHIAFGTGTYVG SNPIQAEVLKRVAEVFDQHVPFHNLLGLDIKRYDIDGVEVAINKPELIGNIHQQILHGGVTATVLDVVGGLTAFAGLVASRDDWTIEELQQRLQTLGTIDRVDYLRPGRGQIFTGTGSVIRAGNRVSVCRELHNEQGTHIAFGTGTYVG 3e8p-a1-m1-cB_3e8p-a1-m1-cD Crystal structure of the protein Q8E9M7 from Shewanella oneidensis related to thioesterase superfamily. Northeast Structural Genomics Consortium target SoR246. Q8E9M7 Q8E9M7 2.3 X-RAY DIFFRACTION 98 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 149 149 3e8p-a1-m1-cA_3e8p-a1-m1-cC SNPIQAEVLKRVAEVFDQHVPFHNLLGLDIKRYDIDGVEVAINKPELIGNIHQQILHGGVTATVLDVVGGLTAFAGLVASRDDWTIEELQQRLQTLGTIDRVDYLRPGRGQIFTGTGSVIRAGNRVSVCRELHNEQGTHIAFGTGTYVG SNPIQAEVLKRVAEVFDQHVPFHNLLGLDIKRYDIDGVEVAINKPELIGNIHQQILHGGVTATVLDVVGGLTAFAGLVASRDDWTIEELQQRLQTLGTIDRVDYLRPGRGQIFTGTGSVIRAGNRVSVCRELHNEQGTHIAFGTGTYVG 3e8p-a1-m1-cC_3e8p-a1-m1-cD Crystal structure of the protein Q8E9M7 from Shewanella oneidensis related to thioesterase superfamily. Northeast Structural Genomics Consortium target SoR246. Q8E9M7 Q8E9M7 2.3 X-RAY DIFFRACTION 29 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 149 149 3e8p-a1-m1-cA_3e8p-a1-m1-cB SNPIQAEVLKRVAEVFDQHVPFHNLLGLDIKRYDIDGVEVAINKPELIGNIHQQILHGGVTATVLDVVGGLTAFAGLVASRDDWTIEELQQRLQTLGTIDRVDYLRPGRGQIFTGTGSVIRAGNRVSVCRELHNEQGTHIAFGTGTYVG SNPIQAEVLKRVAEVFDQHVPFHNLLGLDIKRYDIDGVEVAINKPELIGNIHQQILHGGVTATVLDVVGGLTAFAGLVASRDDWTIEELQQRLQTLGTIDRVDYLRPGRGQIFTGTGSVIRAGNRVSVCRELHNEQGTHIAFGTGTYVG 3e8s-a1-m1-cA_3e8s-a1-m2-cA Crystal structure of Putative SAM Dependent Methyltransferase in Complex with SAH (NP_744700.1) from PSEUDOMONAS PUTIDA KT2440 at 2.10 A resolution Q88JU2 Q88JU2 2.1 X-RAY DIFFRACTION 41 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 216 216 NPEDALLDSWHQNAQAWIDAVRHGAIESRRQVTDQAILLAILGRQPERVLDLGCGEGWLLRALADRGIEAVGVDGDRTLVDAARAAGAGEVHLASYAQLAEAKVPVGKDYDLICANFALLHQDIIELLSARTLLVPGGALVIQTLHPWSVADGDYQDGWREESFAGFAGDWQPPWYFRTLASWLNALDAGLRLVSLQEPQHPQSAVPQSLLVAERH NPEDALLDSWHQNAQAWIDAVRHGAIESRRQVTDQAILLAILGRQPERVLDLGCGEGWLLRALADRGIEAVGVDGDRTLVDAARAAGAGEVHLASYAQLAEAKVPVGKDYDLICANFALLHQDIIELLSARTLLVPGGALVIQTLHPWSVADGDYQDGWREESFAGFAGDWQPPWYFRTLASWLNALDAGLRLVSLQEPQHPQSAVPQSLLVAERH 3e8u-a1-m2-cH_3e8u-a1-m1-cH Crystal structure and thermodynamic analysis of diagnostic Fab 106.3 complexed with BNP 5-13 (C10A) reveal basis of selective molecular recognition 2.1 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 QIQLVQSGPELRKPGETVKISCKGSGYTFTHYGINWVKQTPSKDLKWMGWINTHTGEPIYADDFKGRFAFSLETSANTAYLQINNLNNGDMGTYFCTRSHRFGLDYWGQGTSVTVSSAKTTPPSVYPLAPGSAASMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKILD QIQLVQSGPELRKPGETVKISCKGSGYTFTHYGINWVKQTPSKDLKWMGWINTHTGEPIYADDFKGRFAFSLETSANTAYLQINNLNNGDMGTYFCTRSHRFGLDYWGQGTSVTVSSAKTTPPSVYPLAPGSAASMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKILD 3e8u-a1-m2-cL_3e8u-a1-m1-cL Crystal structure and thermodynamic analysis of diagnostic Fab 106.3 complexed with BNP 5-13 (C10A) reveal basis of selective molecular recognition 2.1 X-RAY DIFFRACTION 49 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 DNVLTQSPPSLAVSLGQRATISCKASQSVDYNGDSYLNWYQQKPGQPPKFLIYAASNLESGIPARFSGSGSGTDFNLNIHPVEEEDAATYYCQQSNEDPFTFGSGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN DNVLTQSPPSLAVSLGQRATISCKASQSVDYNGDSYLNWYQQKPGQPPKFLIYAASNLESGIPARFSGSGSGTDFNLNIHPVEEEDAATYYCQQSNEDPFTFGSGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN 3e8x-a1-m1-cA_3e8x-a1-m2-cA Putative NAD-dependent epimerase/dehydratase from Bacillus halodurans. Q9KCP9 Q9KCP9 2.1 X-RAY DIFFRACTION 51 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 209 209 GRVLVVGANGKVARYLLSELKNKGHEPVAVRNEEQGPELRERGASDIVVANLEEDFSHAFASIDAVVFAAGSGPHTGADKTILIDLWGAIKTIQEAEKRGIKRFIVSSVGTVDPDQGPNRHYLVAKRLADDELKRSSLDYTIVRPGPLSNEESTGKVTVSPHFSEITRSITRHDVAKVIAELVDQQHTIGKTFEVLNGDTPIAKVVEQL GRVLVVGANGKVARYLLSELKNKGHEPVAVRNEEQGPELRERGASDIVVANLEEDFSHAFASIDAVVFAAGSGPHTGADKTILIDLWGAIKTIQEAEKRGIKRFIVSSVGTVDPDQGPNRHYLVAKRLADDELKRSSLDYTIVRPGPLSNEESTGKVTVSPHFSEITRSITRHDVAKVIAELVDQQHTIGKTFEVLNGDTPIAKVVEQL 3e90-a3-m1-cD_3e90-a3-m1-cB West Nile vi rus NS2B-NS3protease in complexed with inhibitor Naph-KKR-H P06935 P06935 2.45 X-RAY DIFFRACTION 18 1.0 11082 (West Nile virus) 11082 (West Nile virus) 167 173 GGVLWYKKGDTTTGVYRIMTRGLLGSYQAGAGVMVEGVFHTLWHTTKGAALMSGEGRLDPYWGSVKEDRLCYGGPWKLQHKWNGQDEVQMIVVEPGKNVKNVRTKPGVFKTPEGEIGAVTLDFPTGTSGSPIVDKNGDVIGLYGNGVIMPNGSYISAIVQGKRMDEP GGGVLWDTKEYKKGDTTTGVYRIMTRGLLGSYQAGAGVMVEGVFHTLWHTTKGAALMSGEGRLDPYWGSVKEDRLCYGGPWKLQHKWNGQDEVQMIVVEPGKNVKNVRTKPGVFKTPEGEIGAVTLDFPTGTSGSPIVDKNGDVIGLYGNGVIMPNGSYISAIVQGKRMDEPI 3e96-a1-m1-cA_3e96-a1-m1-cB Crystal structure of dihydrodipicolinate synthase from bacillus clausii Q5WDL1 Q5WDL1 1.8 X-RAY DIFFRACTION 126 0.997 66692 (Alkalihalobacillus clausii KSM-K16) 66692 (Alkalihalobacillus clausii KSM-K16) 296 300 PLAKALETISGIPITPFRKSDGSIDWHHYKETVDRIVDNGIDVIVPCGNTSEFYALSLEEAKEEVRRTVEYVHGRALVVAGIGYATSTAIELGNAAKAAGADAVMIHMPIHPYVTAGGVYAYFRDIIEALDFPSLVYFKDPEISDRVLVDLAPLQNLVGVKYAINDLPRFAKVVRSIPEEHQIAWICGTAEKWAPFFWHAGAKGFTSGLVNLLPQKAVEMLEALRNNDNDAVWRIWEDIVPFEDLRGKYNQGNNVVVIKEAMEMLRQNAGVTRAPVNELSNEDKQLVTELLSSWKL LAKALETISGIPITPFRKSDGSIDWHHYKETVDRIVDNGIDVIVPCGNTSEFYALSLEEAKEEVRRTVEYVHGRALVVAGIGYATSTAIELGNAAKAAGADAVMIHMPIHPYVTAGGVYAYFRDIIEALDFPSLVYFKDPEISDRVLVDLAPLQNLVGVKYAINDLPRFAKVVRSIPEEHQIAWICGTAEKWAPFFWHAGAKGFTSGLVNLLPQKAVEMLEALRNNDNDAVWRIWEDIVPFEDLRGKYNQGNNVVVIKEAMEMLRQNAGVTRAPVNELSNEDKQLVTELLSSWKLLQPTK 3e97-a1-m1-cA_3e97-a1-m2-cA Crystal structure of transcriptional regulator of Crp/Fnr family (YP_604437.1) from DEINOCOCCUS GEOTHERMALIS DSM 11300 at 1.86 A resolution Q1IZR6 Q1IZR6 1.86 X-RAY DIFFRACTION 102 1.0 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 218 218 GVGRLDDLKRSPLFQNVPEDAREALKVVTERNFQPDELVVEQDAEGEALHLVTTGVVRVSRVSLRERVLGDIYAPGVVGETAVLAHQERSASVRALTPVRTLLHREHFELILRRHPRVLWNLAELARRVTFLNDELIAFGQNTEAALTHVFANLYRQRLAAGVPQPEVLPLGTQDIARTSSSRETVSRVLKRLEAHNILEVSPRSVTLLDLAALEALS GVGRLDDLKRSPLFQNVPEDAREALKVVTERNFQPDELVVEQDAEGEALHLVTTGVVRVSRVSLRERVLGDIYAPGVVGETAVLAHQERSASVRALTPVRTLLHREHFELILRRHPRVLWNLAELARRVTFLNDELIAFGQNTEAALTHVFANLYRQRLAAGVPQPEVLPLGTQDIARTSSSRETVSRVLKRLEAHNILEVSPRSVTLLDLAALEALS 3e98-a1-m1-cB_3e98-a1-m1-cA CRYSTAL STRUCTURE OF a GAF domain containing protein that belongs to Pfam DUF484 family (PA5279) FROM PSEUDOMONAS AERUGINOSA AT 2.43 A RESOLUTION Q51565 Q51565 2.43 X-RAY DIFFRACTION 58 0.988 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 172 176 DAVSLVERQVRLLRERNIERHRLSQLDVARENDRLFDKTRRLVLDLLDATSLEDVVSTVEDSLRHEFQVPYVSLILFSDSRSVSSAEAHQAIGGLLSGKTVCGVLRPHELAFLFGESDRDEIGSAAVVSLSFQGLHGVLAIGSPDPQHYKSSLGTLFLGYVAEVLARVLPRF VSLVERQVRLLRERNIERHRLSQLDVARENDRLFDKTRRLVLDLLDATSLEDVVSTVEDSLRHEFQVPYVSLILFSDSSVSVGRSVSSAEAHQAIGGLLSGGKTVCGVLRPHELAFLFGESDRDEIGSAAVVSLSFQGLHGVLAIGSPDPQHYKSSLGTLFLGYVAEVLARVLPRF 3e99-a1-m2-cA_3e99-a1-m3-cA Crystal structure of the beta subunit of the benzoate 1,2-dioxygenase (benb, bmaa0186) from burkholderia mallei atcc 23344 at 1.90 A resolution A0A0H2WBM4 A0A0H2WBM4 1.9 X-RAY DIFFRACTION 49 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 146 146 3e99-a1-m1-cA_3e99-a1-m2-cA 3e99-a1-m1-cA_3e99-a1-m3-cA KTIDLADIQAFLYRESRLLDDKAWDAWLDCYRADAVFWPSWDDISLIYYPNRQGLEDRVFRIKTERSSATVPDTRTSHNIANVERESADGDVHTVRFNWHTLSYRYKTVSSYFGSRYAIDFSGDAPKIVSKYVVLKNDYLIDIYHI KTIDLADIQAFLYRESRLLDDKAWDAWLDCYRADAVFWPSWDDISLIYYPNRQGLEDRVFRIKTERSSATVPDTRTSHNIANVERESADGDVHTVRFNWHTLSYRYKTVSSYFGSRYAIDFSGDAPKIVSKYVVLKNDYLIDIYHI 3e9a-a1-m3-cA_3e9a-a1-m4-cA Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Vibrio cholerae O1 biovar eltor str. N16961 A5F692 A5F692 1.8 X-RAY DIFFRACTION 11 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 275 275 3e9a-a1-m1-cA_3e9a-a1-m2-cA SNAMEHKIVHVGDIPVANDKPFTLFAGMNVLESRDLAMQICEHYVKVTDKLGIPYVFKASFDKANRSSVHSYRGPGLEEGMKIFQELKETFGVKIITDVHTEAQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFMSPGQVGNIVEKFAECGNDKVILCERGSCHGYDNLVVDMLGFGVMKQASNGSPIIFDVTHSLQRREQTVELAKAGLATGIAGLFIEAHPNPDKARCDGPSALPLDKLEPFLAQMKALDDLIKSFAHIDIR SNAMEHKIVHVGDIPVANDKPFTLFAGMNVLESRDLAMQICEHYVKVTDKLGIPYVFKASFDKANRSSVHSYRGPGLEEGMKIFQELKETFGVKIITDVHTEAQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFMSPGQVGNIVEKFAECGNDKVILCERGSCHGYDNLVVDMLGFGVMKQASNGSPIIFDVTHSLQRREQTVELAKAGLATGIAGLFIEAHPNPDKARCDGPSALPLDKLEPFLAQMKALDDLIKSFAHIDIR 3e9a-a2-m1-cA_3e9a-a2-m3-cA Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Vibrio cholerae O1 biovar eltor str. N16961 A5F692 A5F692 1.8 X-RAY DIFFRACTION 108 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 275 275 3e9a-a1-m1-cA_3e9a-a1-m3-cA 3e9a-a1-m2-cA_3e9a-a1-m4-cA SNAMEHKIVHVGDIPVANDKPFTLFAGMNVLESRDLAMQICEHYVKVTDKLGIPYVFKASFDKANRSSVHSYRGPGLEEGMKIFQELKETFGVKIITDVHTEAQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFMSPGQVGNIVEKFAECGNDKVILCERGSCHGYDNLVVDMLGFGVMKQASNGSPIIFDVTHSLQRREQTVELAKAGLATGIAGLFIEAHPNPDKARCDGPSALPLDKLEPFLAQMKALDDLIKSFAHIDIR SNAMEHKIVHVGDIPVANDKPFTLFAGMNVLESRDLAMQICEHYVKVTDKLGIPYVFKASFDKANRSSVHSYRGPGLEEGMKIFQELKETFGVKIITDVHTEAQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFMSPGQVGNIVEKFAECGNDKVILCERGSCHGYDNLVVDMLGFGVMKQASNGSPIIFDVTHSLQRREQTVELAKAGLATGIAGLFIEAHPNPDKARCDGPSALPLDKLEPFLAQMKALDDLIKSFAHIDIR 3e9a-a3-m1-cA_3e9a-a3-m4-cA Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Vibrio cholerae O1 biovar eltor str. N16961 A5F692 A5F692 1.8 X-RAY DIFFRACTION 90 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 275 275 3e9a-a1-m1-cA_3e9a-a1-m4-cA 3e9a-a1-m2-cA_3e9a-a1-m3-cA SNAMEHKIVHVGDIPVANDKPFTLFAGMNVLESRDLAMQICEHYVKVTDKLGIPYVFKASFDKANRSSVHSYRGPGLEEGMKIFQELKETFGVKIITDVHTEAQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFMSPGQVGNIVEKFAECGNDKVILCERGSCHGYDNLVVDMLGFGVMKQASNGSPIIFDVTHSLQRREQTVELAKAGLATGIAGLFIEAHPNPDKARCDGPSALPLDKLEPFLAQMKALDDLIKSFAHIDIR SNAMEHKIVHVGDIPVANDKPFTLFAGMNVLESRDLAMQICEHYVKVTDKLGIPYVFKASFDKANRSSVHSYRGPGLEEGMKIFQELKETFGVKIITDVHTEAQAQPVADVVDVIQLPAFLARQTDLVEAMAKTGAVINVKKPQFMSPGQVGNIVEKFAECGNDKVILCERGSCHGYDNLVVDMLGFGVMKQASNGSPIIFDVTHSLQRREQTVELAKAGLATGIAGLFIEAHPNPDKARCDGPSALPLDKLEPFLAQMKALDDLIKSFAHIDIR 3e9k-a1-m1-cA_3e9k-a1-m2-cA Crystal structure of Homo sapiens kynureninase-3-hydroxyhippuric acid inhibitor complex Q16719 Q16719 1.7 X-RAY DIFFRACTION 246 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 445 445 2hzp-a1-m1-cA_2hzp-a1-m2-cA 7s3v-a1-m1-cA_7s3v-a1-m2-cA 7s3v-a2-m1-cB_7s3v-a2-m3-cB LELPADTVQRIAAELKCHPTDERVALHLDEEDKLRHFREFYIPKIQDLPPVDLSLVNKDENAIYFLGNSLGLQPKMVKTYLEEELDKWAKIAAYGHEVGKRPWITGDESIVGLMKDIVGANEKEIALMNALTVNLHLLMLSFFKPTPKRYKILLEAKAFPSDHYAIESQLQLHGLNIEESMRMIKPREGEETLRIEDILEVIEKEGDSIAVILFSGVHFYTGQHFNIPAITKAGQAKGCYVGFDLAHAVGNVELYLHDWGVDFACWCSYKYLNAGAGGIAGAFIHEKHAHTIKPALVGWFGHELSTRFKMDNKLQLIPGVCGFRISNPPILLVCSLHASLEIFKQATMKALRKKSVLLTGYLEYLIKHNYGVVNIITPSHVEERGCQLTITFSVPNKDVFQELEKRGVVCDKRNPNGIRVAPVPLYNSFHDVYKFTNLLTSILDS LELPADTVQRIAAELKCHPTDERVALHLDEEDKLRHFREFYIPKIQDLPPVDLSLVNKDENAIYFLGNSLGLQPKMVKTYLEEELDKWAKIAAYGHEVGKRPWITGDESIVGLMKDIVGANEKEIALMNALTVNLHLLMLSFFKPTPKRYKILLEAKAFPSDHYAIESQLQLHGLNIEESMRMIKPREGEETLRIEDILEVIEKEGDSIAVILFSGVHFYTGQHFNIPAITKAGQAKGCYVGFDLAHAVGNVELYLHDWGVDFACWCSYKYLNAGAGGIAGAFIHEKHAHTIKPALVGWFGHELSTRFKMDNKLQLIPGVCGFRISNPPILLVCSLHASLEIFKQATMKALRKKSVLLTGYLEYLIKHNYGVVNIITPSHVEERGCQLTITFSVPNKDVFQELEKRGVVCDKRNPNGIRVAPVPLYNSFHDVYKFTNLLTSILDS 3e9m-a2-m1-cB_3e9m-a2-m2-cC Crystal Structure of an oxidoreductase from Enterococcus faecalis Q837L0 Q837L0 2.7 X-RAY DIFFRACTION 106 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 313 313 3e9m-a1-m1-cD_3e9m-a1-m1-cA DKIRYGISTAQIVPRFVAGLRESAQAEVRGIASRRLENAQKAKELAIPVAYGSYEELCKDETIDIIYIPTYNQGHYSAAKLALSQGKPVLLEKPFTLNAAEAEELFAIAQEQGVFLEAQKSVFLPITQKVKATIQEGGLGEILWVQSVTAYPNVDHIPWFYSREAGGGALHGSGSYPLQYLQYVLGKEIQEVTGTATYQQGATDSQCNLALKFAEGTLGNIFINVGLKIPSETICGTKGQIVIPNFWKTDCAYYTDAQGNTVKWSEQFTSEFTYEINHVNQCLQDKKLTSPVTKELTIATVKIVESFYQEWFD DKIRYGISTAQIVPRFVAGLRESAQAEVRGIASRRLENAQKAKELAIPVAYGSYEELCKDETIDIIYIPTYNQGHYSAAKLALSQGKPVLLEKPFTLNAAEAEELFAIAQEQGVFLEAQKSVFLPITQKVKATIQEGGLGEILWVQSVTAYPNVDHIPWFYSREAGGGALHGSGSYPLQYLQYVLGKEIQEVTGTATYQQGATDSQCNLALKFAEGTLGNIFINVGLKIPSETICGTKGQIVIPNFWKTDCAYYTDAQGNTVKWSEQFTSEFTYEINHVNQCLQDKKLTSPVTKELTIATVKIVESFYQEWFD 3e9n-a2-m1-cE_3e9n-a2-m1-cG Crystal structure of a putative short-chain dehydrogenase/reductase from Corynebacterium glutamicum Q8NMW9 Q8NMW9 2.4 X-RAY DIFFRACTION 78 0.995 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 182 189 3e9n-a1-m1-cC_3e9n-a1-m1-cA 3e9n-a1-m1-cD_3e9n-a1-m1-cB 3e9n-a2-m1-cF_3e9n-a2-m1-cH KIAVVTGATGGMGIEIVKDLSRDHIVYALGRNPEHLAALAEIEGVEPIESDIVKEVLEEGGVDKLKNLDHVDTLVHAAGSVAEWHAHLDLNVIVPAELSRQLLPALRAASGCVIYINGNTIYAASKHALRGLADAFRKEEANNGIRVSTVSPGIEPKEIANAIRFVIDAGETTQITNVDVRP KIAVVTGATGGMGIEIVKDLSRDHIVYALGRNPEHLAALAEIEGVEPIESDIVKEVLEEGGVDKLKNLDHVDTLVHAAGSVAEWHAHLDLNVIVPAELSRQLLPALRAASGCVIYINNTIYAASKHALRGLADAFRKEEANNGIRVSTVSPGPTRPEIYIEPKEIANAIRFVIDAGETTQITNVDVRPR 3e9n-a2-m1-cH_3e9n-a2-m1-cG Crystal structure of a putative short-chain dehydrogenase/reductase from Corynebacterium glutamicum Q8NMW9 Q8NMW9 2.4 X-RAY DIFFRACTION 72 0.994 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 181 189 3e9n-a1-m1-cB_3e9n-a1-m1-cA 3e9n-a1-m1-cD_3e9n-a1-m1-cC 3e9n-a2-m1-cF_3e9n-a2-m1-cE KIAVVTGATGGMGIEIVKDLSRDHIVYALGRNPEHLAALAEIEGVEPIESDIVKEVLEEGGVDKLKNLDHVDTLVHAASVAEWHAHLDLNVIVPAELSRQLLPALRAASGCVIYINGNTIYAASKHALRGLADAFRKEEANNGIRVSTVSPGIEPKEIANAIRFVIDAGETTQITNVDVRP KIAVVTGATGGMGIEIVKDLSRDHIVYALGRNPEHLAALAEIEGVEPIESDIVKEVLEEGGVDKLKNLDHVDTLVHAAGSVAEWHAHLDLNVIVPAELSRQLLPALRAASGCVIYINNTIYAASKHALRGLADAFRKEEANNGIRVSTVSPGPTRPEIYIEPKEIANAIRFVIDAGETTQITNVDVRPR 3e9r-a1-m1-cC_3e9r-a1-m1-cA Crystal structure of purine nucleoside phosphorylase from Schistosoma mansoni in complex with adenine Q9BMI9 Q9BMI9 1.85 X-RAY DIFFRACTION 108 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 284 285 1tcu-a1-m1-cA_1tcu-a1-m1-cC 1tcu-a1-m1-cB_1tcu-a1-m1-cA 1tcu-a1-m1-cB_1tcu-a1-m1-cC 1tcv-a1-m1-cA_1tcv-a1-m1-cB 1tcv-a1-m1-cA_1tcv-a1-m1-cC 1tcv-a1-m1-cB_1tcv-a1-m1-cC 1td1-a1-m1-cA_1td1-a1-m1-cC 1td1-a1-m1-cB_1td1-a1-m1-cA 1td1-a1-m1-cB_1td1-a1-m1-cC 3djf-a1-m1-cA_3djf-a1-m1-cC 3djf-a1-m1-cB_3djf-a1-m1-cA 3djf-a1-m1-cB_3djf-a1-m1-cC 3e0q-a1-m1-cA_3e0q-a1-m1-cC 3e0q-a1-m1-cB_3e0q-a1-m1-cA 3e0q-a1-m1-cB_3e0q-a1-m1-cC 3e9r-a1-m1-cB_3e9r-a1-m1-cA 3e9r-a1-m1-cB_3e9r-a1-m1-cC 3e9z-a1-m1-cA_3e9z-a1-m1-cC 3e9z-a1-m1-cB_3e9z-a1-m1-cA 3e9z-a1-m1-cB_3e9z-a1-m1-cC 3f8w-a1-m1-cA_3f8w-a1-m1-cB 3f8w-a1-m1-cC_3f8w-a1-m1-cA 3f8w-a1-m1-cC_3f8w-a1-m1-cB 3faz-a1-m1-cA_3faz-a1-m1-cB 3faz-a1-m1-cA_3faz-a1-m1-cC 3faz-a1-m1-cB_3faz-a1-m1-cC 3fb1-a1-m1-cA_3fb1-a1-m1-cC 3fb1-a1-m1-cB_3fb1-a1-m1-cA 3fb1-a1-m1-cB_3fb1-a1-m1-cC 3fnq-a1-m1-cA_3fnq-a1-m1-cC 3fnq-a1-m1-cB_3fnq-a1-m1-cA 3fnq-a1-m1-cB_3fnq-a1-m1-cC 3iex-a1-m1-cA_3iex-a1-m1-cC 3iex-a1-m1-cB_3iex-a1-m1-cA 3iex-a1-m1-cB_3iex-a1-m1-cC SVTANIENVKKVAHHIQKLTSIVPEIGIICGSGLGKLADGVKDKITIPYTKIPNFPQTSVVGHSGNLIFGTLSGRKVVVMQGRFHMYEGYSNDTVALPIRVMKLLGVKILMVSNAAGGLNRSLKLGDFVILKDHIYLPGLGLNNILVGPNQEAFGTRFPALSNAYDRDLRKLAVQVAEENGFGNLVHQGVYVMNGGPCYETPAECTMLLNMGCDVVGMSTIPEVVIARHCGIQVFAVSLVTNISVLDVESDLKPNHEEVLATGAQRAELMQSWFEKIIEKLPKD ESVTANIENVKKVAHHIQKLTSIVPEIGIICGSGLGKLADGVKDKITIPYTKIPNFPQTSVVGHSGNLIFGTLSGRKVVVMQGRFHMYEGYSNDTVALPIRVMKLLGVKILMVSNAAGGLNRSLKLGDFVILKDHIYLPGLGLNNILVGPNQEAFGTRFPALSNAYDRDLRKLAVQVAEENGFGNLVHQGVYVMNGGPCYETPAECTMLLNMGCDVVGMSTIPEVVIARHCGIQVFAVSLVTNISVLDVESDLKPNHEEVLATGAQRAELMQSWFEKIIEKLPKD 3ea0-a1-m1-cA_3ea0-a1-m1-cB Crystal Structure of ParA Family ATPase from Chlorobium tepidum TLS Q8KF94 Q8KF94 2.2 X-RAY DIFFRACTION 52 0.996 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 237 239 AKRVFGFVSAKGGDGGSCIAANFAFALSQEPDIHVLAVDISLPFGDLDYLSGNTHSQDLADISNASDRLDKSLLDTVQHISPSLDLIPSPATFEKIVNIEPERVSDLIHIAASFYDYIIVDFGASIDHVGVWVLEHLDELCIVTTPSLQSLRRAGQLLKLCKEFEKPISRIEIILNRADTNSRITSDEIEKVIGRPISKRIPQDEDAQESLLSGQSVLKVAPKSQLSKTIVDWALHL SNAKRVFGFVSAKGGDGGSCIAANFAFALSQEPDIHVLAVDISLPFGDLDYLSGNTHSQDLADISNASDRLDKSLLDTVQHISPSLDLIPSPATFEKIVNIEPERVSDLIHIAASFYDYIIVDFGASIDHVGVWVLEHLDELCIVTTPSLQSLRRAGQLLKLCKEFEKPISRIEIILNRADTSRITSDEIEKVIGRPISKRIPQDEDAQESLLSGQSVLKVAPKSQLSKTIVDWALHLN 3eaa-a2-m2-cB_3eaa-a2-m6-cB Structure of a type six secretion system protein Q6EE19 Q6EE19 2.794 X-RAY DIFFRACTION 127 1.0 636 (Edwardsiella tarda) 636 (Edwardsiella tarda) 158 158 3eaa-a1-m1-cA_3eaa-a1-m5-cA 3eaa-a1-m1-cA_3eaa-a1-m6-cA 3eaa-a1-m2-cA_3eaa-a1-m4-cA 3eaa-a1-m2-cA_3eaa-a1-m6-cA 3eaa-a1-m3-cA_3eaa-a1-m4-cA 3eaa-a1-m3-cA_3eaa-a1-m5-cA 3eaa-a2-m1-cB_3eaa-a2-m5-cB 3eaa-a2-m1-cB_3eaa-a2-m6-cB 3eaa-a2-m2-cB_3eaa-a2-m4-cB 3eaa-a2-m3-cB_3eaa-a2-m4-cB 3eaa-a2-m3-cB_3eaa-a2-m5-cB AFDTYIKLDKVDGESTDDKHKKWIEVLGFAWGAGNECTESGTQGLNTGKASVLRVTKWDCASVKLASAAVQGQNFPTLELEICTQAGDKFAFCIYKFTHVAVSSYQCSGATGGSDRPQETIDFAYKEVTWEYVPQDQNGKAGGKIGPEGWSLITNKKK AFDTYIKLDKVDGESTDDKHKKWIEVLGFAWGAGNECTESGTQGLNTGKASVLRVTKWDCASVKLASAAVQGQNFPTLELEICTQAGDKFAFCIYKFTHVAVSSYQCSGATGGSDRPQETIDFAYKEVTWEYVPQDQNGKAGGKIGPEGWSLITNKKK 3eag-a1-m1-cA_3eag-a1-m1-cB The crystal structure of UDP-N-acetylmuramate:L-alanyl-gamma-D-glutamyl-meso-diaminopimelate ligase (MPL) from Neisseria meningitides Q9JRY9 Q9JRY9 2.55 X-RAY DIFFRACTION 58 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 316 316 AKHIHIIGIGGTFGGLAAIAKEAGFEVSGCDAKYPPSTQLEALGIDVYEGFDAAQLDEFKADVYVIGNVAKRGDVVEAILNLGLPYISGPQWLSENVLHHHWVLGVAGTHGKTTTASLAWVLEYAGLAPGFLIGGVPENFGVSARLPQTPRQDPNSQSPFFVIEADEYDTAFFDKRSKFVHYRPRTAVLNNLEFDHADIFADLGAIQTQFHYLVRTVPSEGLIVCNGRQQSLQDTLDKGCWTPVEKFGTEHGWQAGEANADGSFDVLLDGKTAGRVKWDLGRHNRNALAVIAAARHVGVDIQTACEALGAFKNVKR AKHIHIIGIGGTFGGLAAIAKEAGFEVSGCDAKYPPSTQLEALGIDVYEGFDAAQLDEFKADVYVIGNVAKRGDVVEAILNLGLPYISGPQWLSENVLHHHWVLGVAGTHGKTTTASLAWVLEYAGLAPGFLIGGVPENFGVSARLPQTPRQDPNSQSPFFVIEADEYDTAFFDKRSKFVHYRPRTAVLNNLEFDHADIFADLGAIQTQFHYLVRTVPSEGLIVCNGRQQSLQDTLDKGCWTPVEKFGTEHGWQAGEANADGSFDVLLDGKTAGRVKWDLGRHNRNALAVIAAARHVGVDIQTACEALGAFKNVKR 3eaq-a1-m1-cA_3eaq-a1-m1-cB Novel dimerization motif in the DEAD box RNA helicase Hera form 2, complete dimer, symmetric Q72GF3 Q72GF3 2.3 X-RAY DIFFRACTION 99 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 207 209 3i32-a1-m1-cA_3i32-a1-m2-cA VTYEEEAVPAPVRGRLEVLSDLLYVASPDRAMVFTRTKAETEEIAQGLLRLGHPAQALHGDLSQGERERVLGAFRQGEVRVLVATDVAARGLDIPQVDLVVHYRLPDRAEAYQHRSGRTGRAGGRVVLLYGPRERRDVEALERAVGRRFKRVNPPTPEEVLEAKWRHLLARLARVPEKDYRLYQDFAGRLFAEGRVEVVAALLALLL VTYEEEAVPAPVRGRLEVLSDLLYVASPDRAMVFTRTKAETEEIAQGLLRLGHPAQALHGDLSQGERERVLGAFRQGEVRVLVATDVAARGLDIPQVDLVVHYRLPDRAEAYQHRSGRTGRAGRGGRVVLLYGPRERRDVEALERAVGRRFKRVNPPTPEEVLEAKWRHLLARLARVPEKDYRLYQDFAGRLFAEGRVEVVAALLALLL 3eas-a1-m1-cA_3eas-a1-m1-cB Novel dimerization motif in the DEAD box RNA helicase Hera: form 1, complete dimer, asymmetric Q72GF3 Q72GF3 2.8 X-RAY DIFFRACTION 93 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 206 209 3ear-a1-m1-cB_3ear-a1-m1-cA YEEEAVPAPVRGRLEVLSDLLYVASPDRAMVFTRTKAETEEIAQGLLRLGHPAQALHGDLSQGERERVLGAFRQGEVRVLVATDVAARGLDIPQVDLVVHYRLPDRAEAYQHRSGRTGRARGGRVVLLYGPRERRDVEALERAVGRRFKRVNPPTPEEVLEAKWRHLLARLARVPEKDYRLYQDFAGRLFAEGRVEVVAALLALLL VTYEEEAVPAPVRGRLEVLSDLLYVASPDRAMVFTRTKAETEEIAQGLLRLGHPAQALHGDLSQGERERVLGAFRQGEVRVLVATDVAARGLDIPQVDLVVHYRLPDRAEAYQHRSGRTGRAGRGGRVVLLYGPRERRDVEALERAVGRRFKRVNPPTPEEVLEAKWRHLLARLARVPEKDYRLYQDFAGRLFAEGRVEVVAALLALLL 3eb0-a3-m1-cC_3eb0-a3-m3-cC Crystal Structure of cgd4_240 from cryptosporidium Parvum in complex with indirubin E804 A3FQN0 A3FQN0 2.65 X-RAY DIFFRACTION 62 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 310 310 3eb0-a2-m1-cA_3eb0-a2-m2-cA KKYSLGKTLGTFGIVCEVFDIESGKRFALKKVLQDPRYKNRELDIMKVLDHVNIIKLVDYFYTTNKYLNVIMEYVPDTLHKVLKSFIRSGRSIPMNLISIYIYQLFRAVGFIHSLGICHRDIKPQNLLVNSKDNTLKLCDFGSAKKLIPSEPSVAICSRFYRAPELMLGATEYTPSIDLWSIGCVFGELILGKPLFSGETSIDQLVRIIQIMGTPTKEQMIRMNPHYVRFPTLKAKDWRKILPEGTPSLAIDLLEQILRYEPDLRINPYEAMAHPFFDHLRNSNIPQLFNFSPYELSIIPGNVLNRILPK KKYSLGKTLGTFGIVCEVFDIESGKRFALKKVLQDPRYKNRELDIMKVLDHVNIIKLVDYFYTTNKYLNVIMEYVPDTLHKVLKSFIRSGRSIPMNLISIYIYQLFRAVGFIHSLGICHRDIKPQNLLVNSKDNTLKLCDFGSAKKLIPSEPSVAICSRFYRAPELMLGATEYTPSIDLWSIGCVFGELILGKPLFSGETSIDQLVRIIQIMGTPTKEQMIRMNPHYVRFPTLKAKDWRKILPEGTPSLAIDLLEQILRYEPDLRINPYEAMAHPFFDHLRNSNIPQLFNFSPYELSIIPGNVLNRILPK 3eb2-a1-m1-cC_3eb2-a1-m1-cD Crystal structure of Dihydrodipicolinate Synthase from Rhodopseudomonas palustris at 2.0A resolution Q6N9H8 Q6N9H8 2.04 X-RAY DIFFRACTION 83 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 288 290 3eb2-a1-m1-cA_3eb2-a1-m1-cB DFHGVFPYLVSPVDAEGRVRADVMGRLCDDLIQAGVHGLTPLGSTGEFAYLGTAQREAVVRATIEAAQRRVPVVAGVASTSVADAVAQAKLYEKLGADGILAILEAYFPLKDAQIESYFRAIADAVEIPVVIYTNPQFQRSDLTLDVIARLAEHPRIRYIKDASTNTGRLLSIINRCGDALQVFSASAHIPAAVMLIGGVGWMAGPACIAPRQSVALYELCKAQRWDEALMLQRKLWRVNEAFAKFNLAACIKAGLALQGYDVGDPIPPQAALTAEERKAVEKVLAEI DFHGVFPYLVSPVDAEGRVRADVMGRLCDDLIQAGVHGLTPLGSTGEFAYLGTAQREAVVRATIEAAQRRVPVVAGVASTSVADAVAQAKLYEKLGADGILAILEAYFPLKDAQIESYFRAIADAVEIPVVIYTNPQFQRSDLTLDVIARLAEHPRIRYIKDASTNTGRLLSIINRCGDALQVFSASAHIPAAVMLIGGVGWMAGPACIAPRQSVALYELCKAQRWDEALMLQRKLWRVNEAFAKFNLAACIKAGLALQGYDVGDPIPPQAALTAEERKAVEKVLAEIAE 3eb2-a1-m1-cD_3eb2-a1-m1-cB Crystal structure of Dihydrodipicolinate Synthase from Rhodopseudomonas palustris at 2.0A resolution Q6N9H8 Q6N9H8 2.04 X-RAY DIFFRACTION 81 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 290 291 3eb2-a1-m1-cA_3eb2-a1-m1-cC DFHGVFPYLVSPVDAEGRVRADVMGRLCDDLIQAGVHGLTPLGSTGEFAYLGTAQREAVVRATIEAAQRRVPVVAGVASTSVADAVAQAKLYEKLGADGILAILEAYFPLKDAQIESYFRAIADAVEIPVVIYTNPQFQRSDLTLDVIARLAEHPRIRYIKDASTNTGRLLSIINRCGDALQVFSASAHIPAAVMLIGGVGWMAGPACIAPRQSVALYELCKAQRWDEALMLQRKLWRVNEAFAKFNLAACIKAGLALQGYDVGDPIPPQAALTAEERKAVEKVLAEIAE LDFHGVFPYLVSPVDAEGRVRADVMGRLCDDLIQAGVHGLTPLGSTGEFAYLGTAQREAVVRATIEAAQRRVPVVAGVASTSVADAVAQAKLYEKLGADGILAILEAYFPLKDAQIESYFRAIADAVEIPVVIYTNPQFQRSDLTLDVIARLAEHPRIRYIKDASTNTGRLLSIINRCGDALQVFSASAHIPAAVMLIGGVGWMAGPACIAPRQSVALYELCKAQRWDEALMLQRKLWRVNEAFAKFNLAACIKAGLALQGYDVGDPIPPQAALTAEERKAVEKVLAEIAE 3eb5-a1-m1-cA_3eb5-a1-m2-cA Structure of the cIAP2 RING domain Q13489 Q13489 2 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 3eb6-a1-m1-cA_3eb6-a1-m2-cA SDLPVEEQLRRLQEERTCKVCMDKEVSIVFIPCGHLVVCKDCAPSLRKCPICRSTIKGTVRTFLS SDLPVEEQLRRLQEERTCKVCMDKEVSIVFIPCGHLVVCKDCAPSLRKCPICRSTIKGTVRTFLS 3eb7-a5-m1-cC_3eb7-a5-m1-cA Crystal Structure of Insecticidal Delta-Endotoxin Cry8Ea1 from Bacillus Thuringiensis at 2.2 Angstroms Resolution B3LEP7 B3LEP7 2.3 X-RAY DIFFRACTION 138 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 588 589 3eb7-a4-m1-cB_3eb7-a4-m2-cB ISERDAVKTAISLVGTILGKLGVPLVGPIVSLYSTLIDVLWPGGKSQWEIFMEQVEALINQKIAEYARAKALAELEGLGNNYQLYLTALEEWQENPSTRVLRDVRNRFEILDSLFTQYMPSFRVTGYEVPLLSVYAQAANLHLLLLKDASIFGEEWGFSTTAINNYYNRQMSLIAQYSDHCVQWYRTGLDRLKGSNAKQWVEYNRFRREMTLSVLDIMTLFPMYDMRTYPMETKAQLTREVYTDPIGAIGAQGSWYDSAPSFNTLESTFIRGKHLFDFITRLSIYTGRSSFSASNYLKKWIGHQISSQPIGGSIQTQTYGTTSGSSVIATQQIGFTGFDVYKTLSTAGVLFAYTSKYYGVSKVVFDAIYPDNKYKTTFTYNPGSEGIGAQEKDSEVELPPETLDQPNYEAYSHRLNYVTFIRNPDVPVFSWTHRSADRTNTVYSDKITQIPVVKASDGPKPSANEVGHYLGGDPISFNSSGSTGVIRLNINSPLSQKYRVRIRYCSSVDFDLDVVRGGTTVNNGRFNKSAPNVGWQSLKYENFKFASFSTPFTFNQAQDTLKISVRNFSSIVGGSVVYIDRIELIPVN ISERDAVKTAISLVGTILGKLGVPLVGPIVSLYSTLIDVLWPGGKSQWEIFMEQVEALINQKIAEYARAKALAELEGLGNNYQLYLTALEEWQENPSSTRVLRDVRNRFEILDSLFTQYMPSFRVTGYEVPLLSVYAQAANLHLLLLKDASIFGEEWGFSTTAINNYYNRQMSLIAQYSDHCVQWYRTGLDRLKGSNAKQWVEYNRFRREMTLSVLDIMTLFPMYDMRTYPMETKAQLTREVYTDPIGAIGAQGSWYDSAPSFNTLESTFIRGKHLFDFITRLSIYTGRSSFSASNYLKKWIGHQISSQPIGGSIQTQTYGTTSGSSVIATQQIGFTGFDVYKTLSTAGVLFAYTSKYYGVSKVVFDAIYPDNKYKTTFTYNPGSEGIGAQEKDSEVELPPETLDQPNYEAYSHRLNYVTFIRNPDVPVFSWTHRSADRTNTVYSDKITQIPVVKASDGPKPSANEVGHYLGGDPISFNSSGSTGVIRLNINSPLSQKYRVRIRYCSSVDFDLDVVRGGTTVNNGRFNKSAPNVGWQSLKYENFKFASFSTPFTFNQAQDTLKISVRNFSSIVGGSVVYIDRIELIPVN 3eb8-a3-m1-cA_3eb8-a3-m2-cB VirA Q7BU69 Q7BU69 2.4 X-RAY DIFFRACTION 96 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 334 336 AEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPD LAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVGRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPD 3ebb-a2-m1-cD_3ebb-a2-m1-cC PLAP/P97 complex Q9Y263 Q9Y263 1.9 X-RAY DIFFRACTION 56 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 258 261 3ebb-a1-m1-cB_3ebb-a1-m1-cA NIYFPKKEAVTFDQANPTQILGKLKELNGTAPEEKKLTEDDLILLEKILSLICNSSSEKPTVQQLQILWKAINCPEDIVFPALDILRLSIKHPSVNENFCNEKEGAQFSSHLINLLNPKGKPANQLLALRTFCNCFVGQAGQKLSQRESLSHAIELKSSNKNIHIALATLALNYSVCFHKDIEGKAQCLSLISTILEVVQDLEATFRLLVALGTLISDDSNAVQLAKSLGVDSQIKKYSSVSEPAKVSECCRFILNLL TNIYFPKKEAVTFDQANPTQILGKLKELNGTAPEEKKLTEDDLILLEKILSLICNSSSEKPTVQQLQILWKAINCPEDIVFPALDILRLSIKHPSVNENFCNKEGAQFSSHLINLLNPKGKPANQLLALRTFCNCFVGQAGQKLSQRESLSHAIELKSGSNKNIHIALATLALNYSVCFHKDHNIEGKAQCLSLISTILEVVQDLEATFRLLVALGTLISDDSNAVQLAKSLGVDSQIKKYSSVSEPAKVSECCRFILNLL 3ebr-a1-m1-cA_3ebr-a1-m4-cA Crystal structure of an rmlc-like cupin protein (reut_a0381) from ralstonia eutropha jmp134 at 2.60 A resolution Q476C0 Q476C0 2.6 X-RAY DIFFRACTION 69 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 151 151 3ebr-a1-m2-cA_3ebr-a1-m3-cA LFESINTGCLDGNDTPWPFAPYSNDVVKYFKIDPVRGETITLLKAPAGEPRHHHTGTVIVYTVQGSWRYKEHDWVAHAGSVVYETASTRHTPQSAYAEGPDIITFNIVAGELLYLDDKDNIIAVENWKTSDRYLNYCKAHGIRPKDLSTFE LFESINTGCLDGNDTPWPFAPYSNDVVKYFKIDPVRGETITLLKAPAGEPRHHHTGTVIVYTVQGSWRYKEHDWVAHAGSVVYETASTRHTPQSAYAEGPDIITFNIVAGELLYLDDKDNIIAVENWKTSDRYLNYCKAHGIRPKDLSTFE 3ebr-a1-m2-cA_3ebr-a1-m4-cA Crystal structure of an rmlc-like cupin protein (reut_a0381) from ralstonia eutropha jmp134 at 2.60 A resolution Q476C0 Q476C0 2.6 X-RAY DIFFRACTION 94 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 151 151 3ebr-a1-m1-cA_3ebr-a1-m3-cA LFESINTGCLDGNDTPWPFAPYSNDVVKYFKIDPVRGETITLLKAPAGEPRHHHTGTVIVYTVQGSWRYKEHDWVAHAGSVVYETASTRHTPQSAYAEGPDIITFNIVAGELLYLDDKDNIIAVENWKTSDRYLNYCKAHGIRPKDLSTFE LFESINTGCLDGNDTPWPFAPYSNDVVKYFKIDPVRGETITLLKAPAGEPRHHHTGTVIVYTVQGSWRYKEHDWVAHAGSVVYETASTRHTPQSAYAEGPDIITFNIVAGELLYLDDKDNIIAVENWKTSDRYLNYCKAHGIRPKDLSTFE 3ebr-a1-m3-cA_3ebr-a1-m4-cA Crystal structure of an rmlc-like cupin protein (reut_a0381) from ralstonia eutropha jmp134 at 2.60 A resolution Q476C0 Q476C0 2.6 X-RAY DIFFRACTION 27 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 151 151 3ebr-a1-m1-cA_3ebr-a1-m2-cA LFESINTGCLDGNDTPWPFAPYSNDVVKYFKIDPVRGETITLLKAPAGEPRHHHTGTVIVYTVQGSWRYKEHDWVAHAGSVVYETASTRHTPQSAYAEGPDIITFNIVAGELLYLDDKDNIIAVENWKTSDRYLNYCKAHGIRPKDLSTFE LFESINTGCLDGNDTPWPFAPYSNDVVKYFKIDPVRGETITLLKAPAGEPRHHHTGTVIVYTVQGSWRYKEHDWVAHAGSVVYETASTRHTPQSAYAEGPDIITFNIVAGELLYLDDKDNIIAVENWKTSDRYLNYCKAHGIRPKDLSTFE 3ebt-a1-m1-cA_3ebt-a1-m2-cA Crystal structure of a ntf2-like protein of unknown function (bpss0132) from burkholderia pseudomallei k96243 at 1.30 A resolution Q63P16 Q63P16 1.3 X-RAY DIFFRACTION 55 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 126 126 SNNQTVRESYEAFHRRDLPGVLAALAPDVRWTHPDGSPYGLGGTKHGHDEVIAFIRHVPTHIAERLAPDEFIESGERIVVLGTRRVTAVNGRSATLKFVHVWRFENGRAVTFEDHFDTAEIRLITA SNNQTVRESYEAFHRRDLPGVLAALAPDVRWTHPDGSPYGLGGTKHGHDEVIAFIRHVPTHIAERLAPDEFIESGERIVVLGTRRVTAVNGRSATLKFVHVWRFENGRAVTFEDHFDTAEIRLITA 3ebw-a1-m1-cA_3ebw-a1-m1-cB Crystal structure of major allergens, Per a 4 from cockroaches Q1M0Y5 Q1M0Y5 2.8 X-RAY DIFFRACTION 49 1.0 6978 (Periplaneta americana) 6978 (Periplaneta americana) 154 154 DDSCQIGTSFTGLDTKYVGTWYELFRTPNSDEEDFTNCEYDKYTLDENGVIQVTSVAYTNSIRGFITSTGTVPSWTEDTFDIAYSSTYFVGTDYQTYSIVAGCLDNDYSRHLYWIASHETSFDDATKAKVNEVLAPYNLSLDDEPVDQSYCVQY DDSCQIGTSFTGLDTKYVGTWYELFRTPNSDEEDFTNCEYDKYTLDENGVIQVTSVAYTNSIRGFITSTGTVPSWTEDTFDIAYSSTYFVGTDYQTYSIVAGCLDNDYSRHLYWIASHETSFDDATKAKVNEVLAPYNLSLDDEPVDQSYCVQY 3eby-a1-m2-cA_3eby-a1-m3-cA Crystal structure of the beta subunit of a putative aromatic-ring-hydroxylating dioxygenase (YP_001165631.1) from NOVOSPHINGOBIUM AROMATICIVORANS DSM 12444 at 1.75 A resolution A4XDU4 A4XDU4 1.75 X-RAY DIFFRACTION 62 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 151 151 3eby-a1-m1-cA_3eby-a1-m2-cA 3eby-a1-m1-cA_3eby-a1-m3-cA EVAQVAQSAIDDFNAAYGLCLDDDRLEQWPTLFVDDCLYQVIARENVDNGLPAAVYCDSKGLADRVVALRKANHFNRHLIGRAVITGVEGDQVSAEASYVVFQTRNDGETRIYNAGKYVDRFDLSGGTVRLKSRTCIYDTLRIATLLATPI EVAQVAQSAIDDFNAAYGLCLDDDRLEQWPTLFVDDCLYQVIARENVDNGLPAAVYCDSKGLADRVVALRKANHFNRHLIGRAVITGVEGDQVSAEASYVVFQTRNDGETRIYNAGKYVDRFDLSGGTVRLKSRTCIYDTLRIATLLATPI 3ec6-a1-m1-cA_3ec6-a1-m2-cA Crystal structure of the General Stress Protein 26 from Bacillus anthracis str. Sterne A0A6L8PEJ3 A0A6L8PEJ3 1.6 X-RAY DIFFRACTION 65 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 126 126 HLKEKITTIIQGQRTGVLSTVRNDKPHSAFFFHEDFVLYVATDRQSKKITDIENNPNVHVLLGRKLDEDYIEVEGLASIEEDSTLKNKFWNNSLKRWLLRPEDPNYVLIKINPDTIYYIDPEFLRL HLKEKITTIIQGQRTGVLSTVRNDKPHSAFFFHEDFVLYVATDRQSKKITDIENNPNVHVLLGRKLDEDYIEVEGLASIEEDSTLKNKFWNNSLKRWLLRPEDPNYVLIKINPDTIYYIDPEFLRL 3ec7-a4-m1-cE_3ec7-a4-m1-cH Crystal Structure of Putative Dehydrogenase from Salmonella typhimurium LT2 Q8ZK57 Q8ZK57 2.15 X-RAY DIFFRACTION 73 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 328 328 3ec7-a1-m1-cA_3ec7-a1-m1-cD 3ec7-a1-m1-cB_3ec7-a1-m1-cC 3ec7-a4-m1-cF_3ec7-a4-m1-cG TLKAGIVGIGIGSDHLRRLANTVSGVEVVAVCDIVAGRAQAALDKYAIEAKDYNDYHDLINDKDVEVVIITASNEAHADVAVAALNANKYVFCEKPLAVTAADCQRVIEAEQKNGKRVQIGFRRYDKGYVQLKNIIDSGEIGQPLVHGRHYNASTVPEYKTPQAIYETLIHEIDVHWLLNEDYKTVKVYFPRQSSLVTTLRDPQLVVETTSGINIVVEVFVNCQYGYDIHCDVTGEKGAELPTVASAAVRKAAKYSTDILVDWKQRFIDAYDIEFQDFFDRLNAGLPPAGPTSWDGYLAAVTADACVKSQETGNTEIVELPSKPDFYK TLKAGIVGIGIGSDHLRRLANTVSGVEVVAVCDIVAGRAQAALDKYAIEAKDYNDYHDLINDKDVEVVIITASNEAHADVAVAALNANKYVFCEKPLAVTAADCQRVIEAEQKNGKRVQIGFRRYDKGYVQLKNIIDSGEIGQPLVHGRHYNASTVPEYKTPQAIYETLIHEIDVHWLLNEDYKTVKVYFPRQSSLVTTLRDPQLVVETTSGINIVVEVFVNCQYGYDIHCDVTGEKGAELPTVASAAVRKAAKYSTDILVDWKQRFIDAYDIEFQDFFDRLNAGLPPAGPTSWDGYLAAVTADACVKSQETGNTEIVELPSKPDFYK 3ec7-a4-m1-cF_3ec7-a4-m1-cH Crystal Structure of Putative Dehydrogenase from Salmonella typhimurium LT2 Q8ZK57 Q8ZK57 2.15 X-RAY DIFFRACTION 50 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 328 328 3ec7-a1-m1-cA_3ec7-a1-m1-cC 3ec7-a1-m1-cB_3ec7-a1-m1-cD 3ec7-a4-m1-cE_3ec7-a4-m1-cG TLKAGIVGIGIGSDHLRRLANTVSGVEVVAVCDIVAGRAQAALDKYAIEAKDYNDYHDLINDKDVEVVIITASNEAHADVAVAALNANKYVFCEKPLAVTAADCQRVIEAEQKNGKRVQIGFRRYDKGYVQLKNIIDSGEIGQPLVHGRHYNASTVPEYKTPQAIYETLIHEIDVHWLLNEDYKTVKVYFPRQSSLVTTLRDPQLVVETTSGINIVVEVFVNCQYGYDIHCDVTGEKGAELPTVASAAVRKAAKYSTDILVDWKQRFIDAYDIEFQDFFDRLNAGLPPAGPTSWDGYLAAVTADACVKSQETGNTEIVELPSKPDFYK TLKAGIVGIGIGSDHLRRLANTVSGVEVVAVCDIVAGRAQAALDKYAIEAKDYNDYHDLINDKDVEVVIITASNEAHADVAVAALNANKYVFCEKPLAVTAADCQRVIEAEQKNGKRVQIGFRRYDKGYVQLKNIIDSGEIGQPLVHGRHYNASTVPEYKTPQAIYETLIHEIDVHWLLNEDYKTVKVYFPRQSSLVTTLRDPQLVVETTSGINIVVEVFVNCQYGYDIHCDVTGEKGAELPTVASAAVRKAAKYSTDILVDWKQRFIDAYDIEFQDFFDRLNAGLPPAGPTSWDGYLAAVTADACVKSQETGNTEIVELPSKPDFYK 3ec7-a6-m1-cG_3ec7-a6-m1-cH Crystal Structure of Putative Dehydrogenase from Salmonella typhimurium LT2 Q8ZK57 Q8ZK57 2.15 X-RAY DIFFRACTION 80 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 328 328 3ec7-a1-m1-cA_3ec7-a1-m1-cB 3ec7-a1-m1-cC_3ec7-a1-m1-cD 3ec7-a2-m1-cA_3ec7-a2-m1-cB 3ec7-a3-m1-cC_3ec7-a3-m1-cD 3ec7-a4-m1-cE_3ec7-a4-m1-cF 3ec7-a4-m1-cG_3ec7-a4-m1-cH 3ec7-a5-m1-cE_3ec7-a5-m1-cF TLKAGIVGIGIGSDHLRRLANTVSGVEVVAVCDIVAGRAQAALDKYAIEAKDYNDYHDLINDKDVEVVIITASNEAHADVAVAALNANKYVFCEKPLAVTAADCQRVIEAEQKNGKRVQIGFRRYDKGYVQLKNIIDSGEIGQPLVHGRHYNASTVPEYKTPQAIYETLIHEIDVHWLLNEDYKTVKVYFPRQSSLVTTLRDPQLVVETTSGINIVVEVFVNCQYGYDIHCDVTGEKGAELPTVASAAVRKAAKYSTDILVDWKQRFIDAYDIEFQDFFDRLNAGLPPAGPTSWDGYLAAVTADACVKSQETGNTEIVELPSKPDFYK TLKAGIVGIGIGSDHLRRLANTVSGVEVVAVCDIVAGRAQAALDKYAIEAKDYNDYHDLINDKDVEVVIITASNEAHADVAVAALNANKYVFCEKPLAVTAADCQRVIEAEQKNGKRVQIGFRRYDKGYVQLKNIIDSGEIGQPLVHGRHYNASTVPEYKTPQAIYETLIHEIDVHWLLNEDYKTVKVYFPRQSSLVTTLRDPQLVVETTSGINIVVEVFVNCQYGYDIHCDVTGEKGAELPTVASAAVRKAAKYSTDILVDWKQRFIDAYDIEFQDFFDRLNAGLPPAGPTSWDGYLAAVTADACVKSQETGNTEIVELPSKPDFYK 3ec8-a2-m1-cA_3ec8-a2-m2-cA The crystal structure of the RA domain of FLJ10324 (RADIL) Q96JH8 Q96JH8 2.6 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 GTENLYFQSMDPAELSTQLSAPGVLKVFGDSTGTHYKSVLATGTSSARELVKEALERYALDPRQAGQYVLCDVVGWQARCFRVFGDSEKPLLIQELWKPREGLSRRFELRKRSDVEELAAKEVDTITAGINAQARRLQR GTENLYFQSMDPAELSTQLSAPGVLKVFGDSTGTHYKSVLATGTSSARELVKEALERYALDPRQAGQYVLCDVVGWQARCFRVFGDSEKPLLIQELWKPREGLSRRFELRKRSDVEELAAKEVDTITAGINAQARRLQR 3ec9-a1-m1-cA_3ec9-a1-m1-cB CRYSTAL STRUCTURE OF A NTF2-like protein (BTH_I0051) FROM BURKHOLDERIA THAILANDENSIS E264 AT 1.60 A RESOLUTION Q2T2I4 Q2T2I4 1.6 X-RAY DIFFRACTION 72 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 125 125 RTPYQIVADHYAASDRHDPAAADIAPAIEWTEAGFPCAGTYRSADEIVRNVFRRLGEEWDGYTFKLDALHDAGDTVIGVGRYSGTYRRTGKSFECRVAHVWRVDAGKIVHFEQFTDTLLVAQAQP RTPYQIVADHYAASDRHDPAAADIAPAIEWTEAGFPCAGTYRSADEIVRNVFRRLGEEWDGYTFKLDALHDAGDTVIGVGRYSGTYRRTGKSFECRVAHVWRVDAGKIVHFEQFTDTLLVAQAQP 3ecd-a2-m1-cC_3ecd-a2-m1-cB Crystal structure of serine hydroxymethyltransferase from Burkholderia pseudomallei Q3JGP5 Q3JGP5 1.6 X-RAY DIFFRACTION 193 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 386 389 3ecd-a1-m1-cD_3ecd-a1-m1-cA NANPFFSQSLAERDASVRGAILKELERQQSQVELIASENIVSRAVLDAQGSVLTNKYAEGYDEVEALAIERVKRLFNAGHANVQPHSGAQANGAVMLALAKPGDTVLGMSLFNALQYGVSRDTMLIDYDQVEALAQQHKPSLIIAGFSAYPRKLDFARFRAIADSVGAKLMVDMAHIAGVIAAGRHANPVEHAHVVTSTTHKTLRGPRGGFVLTNDEEIAKKINSAVGPLMHVIAGKAVAFGEALTDDFKTYIDRVLANAQALGDVLKAGGVDLVTGGTDNHLLLVDLRPKGLKGAQVEQALERAGITCNKNGIPFDPEKPTITSGIRLGTPAGTTRGFGAAEFREVGRLILEVFEALRTNPEGDHATEQRVRREIFALCERFPIY NANPFFSQSLAERDASVRGAILKELERQQSQVELIASENIVSRAVLDAQGSVLTNKYAEGYADEVEALAIERVKRLFNAGHANVQPHSGAQANGAVMLALAKPGDTVLGMSLFNALQYGVSRDTMLIDYDQVEALAQQHKPSLIIAGFSAYPRKLDFARFRAIADSVGAKLMVDMAHIAGVIAAGRHANPVEHAHVVTSTTHKTLRGPRGGFVLTNDEEIAKKINSAVFPGPLMHVIAGKAVAFGEALTDDFKTYIDRVLANAQALGDVLKAGGVDLVTGGTDNHLLLVDLRPKGLKGAQVEQALERAGITCNKNGIPFDPEKPTITSGIRLGTPAGTTRGFGAAEFREVGRLILEVFEALRTNPEGDHATEQRVRREIFALCERFPIY 3ecf-a3-m1-cD_3ecf-a3-m3-cD Crystal structure of an ntf2-like protein (ava_4193) from anabaena variabilis atcc 29413 at 1.90 A resolution Q3M5E4 Q3M5E4 1.9 X-RAY DIFFRACTION 61 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 124 124 3ecf-a1-m1-cA_3ecf-a1-m1-cB 3ecf-a2-m1-cC_3ecf-a2-m2-cC ATEKYHEILKKYFLSFETGDFSQVQFSCNLEFLSPISGNTLKGTEEVIPFLKGVTTRVAEVNISTTVEYPRASGVWQRTTKGTLYTLHNFFRLDEEGIVYVWPFDPKAVENPDALIQWLTGKDY ATEKYHEILKKYFLSFETGDFSQVQFSCNLEFLSPISGNTLKGTEEVIPFLKGVTTRVAEVNISTTVEYPRASGVWQRTTKGTLYTLHNFFRLDEEGIVYVWPFDPKAVENPDALIQWLTGKDY 3ecu-a2-m1-cD_3ecu-a2-m1-cC Crystal structure of human apo Cu,Zn Superoxide Dismutase (SOD1) P00441 P00441 1.9 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 126 2gbu-a2-m1-cD_2gbu-a2-m1-cC 2r27-a1-m1-cA_2r27-a1-m1-cB 3cqp-a1-m1-cC_3cqp-a1-m1-cD 3ecv-a2-m1-cD_3ecv-a2-m1-cC 3ecw-a2-m1-cD_3ecw-a2-m1-cC 3gzp-a2-m1-cC_3gzp-a2-m1-cD 3h2p-a1-m1-cA_3h2p-a1-m1-cB 3h2q-a1-m1-cB_3h2q-a1-m1-cA 3h2q-a2-m1-cC_3h2q-a2-m1-cD 3qqd-a1-m1-cA_3qqd-a1-m1-cB 3re0-a2-m1-cD_3re0-a2-m1-cC 4mcn-a1-m1-cB_4mcn-a1-m1-cA 6a9o-a4-m1-cG_6a9o-a4-m1-cH 6ffk-a2-m1-cD_6ffk-a2-m1-cF ATKAVCVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFHVHEFGDNTAGCTSAGPHFNPHVGDLGNVTADKDGVADVSIEDSVISLSGDHCIIGRTLVVHEKADSRLACGVIGIAQ ATKAVCVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFHVHEFGDNTAGCTSAGPHFNPLRHVGDLGNVTADKDGVADVSIEDSVISLSGDHCIIGRTLVVHEKADGSRLACGVIGIAQ 3ecy-a1-m1-cA_3ecy-a1-m1-cB Crystal structural analysis of Drosophila melanogaster dUTPase Q9V3I1 Q9V3I1 1.88 X-RAY DIFFRACTION 99 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 119 119 TCVLRFAKLTENALEPVRGSAKAAGVDLRSAYDVVVPARGKAIVKTDLQVQVPEGSYGRVAPRFIDVGAGVVDEDYRGNLGVVLFNHSDVDFEVKHGDRIAQFICERIFYPQLVMVDKL TCVLRFAKLTENALEPVRGSAKAAGVDLRSAYDVVVPARGKAIVKTDLQVQVPEGSYGRVAPRFIDVGAGVVDEDYRGNLGVVLFNHSDVDFEVKHGDRIAQFICERIFYPQLVMVDKL 3ed0-a1-m1-cA_3ed0-a1-m1-cD Crystal structure of (3R)-Hydroxyacyl-Acyl Carrier Protein Dehydratase (FabZ) from Helicobacter pylori in complex with emodin Q5G940 Q5G940 2.3 X-RAY DIFFRACTION 89 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 152 152 2gll-a1-m1-cA_2gll-a1-m1-cD 2gll-a1-m1-cC_2gll-a1-m1-cE 2gll-a1-m1-cF_2gll-a1-m1-cB 2glm-a1-m1-cA_2glm-a1-m1-cD 2glm-a1-m1-cC_2glm-a1-m1-cE 2glm-a1-m1-cF_2glm-a1-m1-cB 2glp-a1-m1-cA_2glp-a1-m1-cD 2glp-a1-m1-cC_2glp-a1-m1-cE 2glp-a1-m1-cF_2glp-a1-m1-cB 2glv-a1-m1-cA_2glv-a1-m1-cF 2glv-a1-m1-cB_2glv-a1-m1-cC 2glv-a1-m1-cD_2glv-a1-m1-cE 2glv-a2-m1-cG_2glv-a2-m1-cL 2glv-a2-m1-cH_2glv-a2-m1-cI 2glv-a2-m1-cJ_2glv-a2-m1-cK 3b7j-a1-m1-cA_3b7j-a1-m1-cD 3b7j-a1-m1-cC_3b7j-a1-m1-cE 3b7j-a1-m1-cF_3b7j-a1-m1-cB 3cf8-a1-m1-cA_3cf8-a1-m1-cD 3cf8-a1-m1-cC_3cf8-a1-m1-cE 3cf8-a1-m1-cF_3cf8-a1-m1-cB 3cf9-a1-m1-cA_3cf9-a1-m1-cD 3cf9-a1-m1-cC_3cf9-a1-m1-cE 3cf9-a1-m1-cF_3cf9-a1-m1-cB 3d04-a1-m1-cA_3d04-a1-m1-cD 3d04-a1-m1-cC_3d04-a1-m1-cE 3d04-a1-m1-cF_3d04-a1-m1-cB 3doy-a1-m1-cC_3doy-a1-m1-cE 3doy-a1-m1-cD_3doy-a1-m1-cA 3doy-a1-m1-cF_3doy-a1-m1-cB 3doz-a1-m1-cB_3doz-a1-m1-cF 3doz-a1-m1-cC_3doz-a1-m1-cE 3doz-a1-m1-cD_3doz-a1-m1-cA 3dp0-a1-m1-cA_3dp0-a1-m1-cD 3dp0-a1-m1-cC_3dp0-a1-m1-cE 3dp0-a1-m1-cF_3dp0-a1-m1-cB 3dp1-a1-m1-cB_3dp1-a1-m1-cF 3dp1-a1-m1-cC_3dp1-a1-m1-cE 3dp1-a1-m1-cD_3dp1-a1-m1-cA 3dp2-a1-m1-cA_3dp2-a1-m1-cD 3dp2-a1-m1-cC_3dp2-a1-m1-cE 3dp2-a1-m1-cF_3dp2-a1-m1-cB 3dp3-a1-m1-cB_3dp3-a1-m1-cF 3dp3-a1-m1-cC_3dp3-a1-m1-cE 3dp3-a1-m1-cD_3dp3-a1-m1-cA 3ed0-a1-m1-cC_3ed0-a1-m1-cE 3ed0-a1-m1-cF_3ed0-a1-m1-cB 6ihc-a1-m1-cA_6ihc-a1-m1-cF 6ihc-a1-m1-cC_6ihc-a1-m1-cB 6ihc-a1-m1-cD_6ihc-a1-m1-cE LQSQFFIEHILQILPHRYPMLLVDRITELQANQKIVAYKNITFNEDVFNGHFPNKPIFPGVLIVEGMAQSGGFLAFTSLWGFDPEIAKTKIVYFMTIDKVKFRIPVTPGDRLEYHLEVLKHKGMIWQVGGTAQVDGKVVAEAELKAMIAERE LQSQFFIEHILQILPHRYPMLLVDRITELQANQKIVAYKNITFNEDVFNGHFPNKPIFPGVLIVEGMAQSGGFLAFTSLWGFDPEIAKTKIVYFMTIDKVKFRIPVTPGDRLEYHLEVLKHKGMIWQVGGTAQVDGKVVAEAELKAMIAERE 3ed1-a8-m1-cB_3ed1-a8-m1-cA Crystal Structure of Rice GID1 complexed with GA3 Q6L545 Q6L545 1.9 X-RAY DIFFRACTION 30 0.997 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 316 321 3ebl-a7-m1-cF_3ebl-a7-m1-cE 3ebl-a8-m1-cB_3ebl-a8-m1-cA 3ebl-a9-m1-cC_3ebl-a9-m1-cD 3ed1-a7-m1-cF_3ed1-a7-m1-cE 3ed1-a9-m1-cC_3ed1-a9-m1-cD TVVPLHTWVLISNFKLSYNILRRADGTFERDLGEYLDRRVPANARPLEGVSSFDHIIDQSVGLEVRIYRAAFLTDAPAAEPFPVIIFFHGGSFVHSSASSTIYDSLCRRFVKLSKGVVVSVNYRRAPEHRYPCAYDDGWTALKWVMSQPFMRSARVFLSGDSSGGNIAHHVAVRAADEGVKVCGNILLNAMFGGTERTESERRLDGKYFVTLQDRDWYWKAYLPEDADRDHPACNPFGPNGRRLGGLPFAKSLIIVSGLDLTCDRQLAYADALREDGHHVKVVQCENATVGFYLLPNTVHYHEVMEEISDFLNANL VVPLHTWVLISNFKLSYNILRRADGTFERDLGEYLDRRVPANARPLEGVSSFDHIIDQSVGLEVRIYRAAFLTDAPAAEPFPVIIFFHGGSFVHSSASSTIYDSLCRRFVKLSKGVVVSVNYRRAPEHRYPCAYDDGWTALKWVMSQPFMRSGGDAQARVFLSGDSSGGNIAHHVAVRAADEGVKVCGNILLNAMFGGTERTESERRLDGKYFVTLQDRDWYWKAYLPEDADRDHPACNPFGPNGRRLGGLPFAKSLIIVSGLDLTCDRQLAYADALREDGHHVKVVQCENATVGFYLLPNTVHYHEVMEEISDFLNANLY 3ed4-a2-m1-cC_3ed4-a2-m1-cD Crystal structure of putative arylsulfatase from escherichia coli A0A0H2V4H2 A0A0H2V4H2 1.7 X-RAY DIFFRACTION 101 1.0 562 (Escherichia coli) 562 (Escherichia coli) 467 474 3ed4-a1-m1-cA_3ed4-a1-m1-cB QPNLVIIMADDLGYGDLATYGHQIVKTPNIDRLAQEGVKFTDYYAPAPLSSPSRAGLLTGRMPFRTGIRSWIPSGKDVALGRNELTIANLLKAQGYDTAMMGKLHLNAGGDRTDQPQAQDMGFDYSLANTAGFVTDATLDNAKERPRYGMVYPTGWLRNGQPTPRADKMSGEYVSSEVVNWLDNKDSKPFFLYVAFTEVHSPLASPKKYLDMYSQYMSAYQKQHPDLFYGDWADKPWRGVGEYYANISYLDAQVGKVLDKIKAMGEEDNTIVIFTSDNGPVTREARKVYELNLAGETDGLRGRKDNLWEGGIRVPAIIKYGKHLPQGMVSDTPVYGLDWMPTLAKMMNFKLPTDRTFDGESLVPVLEQKALKREKPLIFGIDMPFQDDPTDEWAIRDGDWKMIIDRNNKPKYLYNLKSDRYETLNLIGKKPDIEKQMYGKFLKYKTDIDNDSLMKARGDKPEAVTWG NAFSPAQPNLVIIMADDLGYGDLATYGHQIVKTPNIDRLAQEGVKFTDYYAPAPLSSPSRAGLLTGRMPFRTGIRSWIPSGKDVALGRNELTIANLLKAQGYDTAMMGKLHLNAGGDRTDQPQAQDMGFDYSLANTAGFVTDATLDNAKERPRYGMVYPTGWLRNGQPTPRADKMSGEYVSSEVVNWLDNKKDSKPFFLYVAFTEVHSPLASPKKYLDMYSQYMSAYQKQHPDLFYGDWADKPWRGVGEYYANISYLDAQVGKVLDKIKAMGEEDNTIVIFTSDNGPVTREARKVYELNLAGETDGLRGRKDNLWEGGIRVPAIIKYGKHLPQGMVSDTPVYGLDWMPTLAKMMNFKLPTDRTFDGESLVPVLEQKALKREKPLIFGIDMPFQDDPTDEWAIRDGDWKMIIDRNNKPKYLYNLKSDRYETLNLIGKKPDIEKQMYGKFLKYKTDIDNDSLMKARGDKPEAVTWG 3edf-a1-m1-cA_3edf-a1-m1-cB Structural base for cyclodextrin hydrolysis Q8KKG0 Q8KKG0 1.65 X-RAY DIFFRACTION 92 1.0 197856 (Flavobacterium sp. 92) 197856 (Flavobacterium sp. 92) 597 597 3edd-a1-m1-cA_3edd-a1-m2-cA 3edd-a2-m1-cB_3edd-a2-m2-cB 3ede-a1-m1-cA_3ede-a1-m1-cB 3edj-a1-m1-cA_3edj-a1-m1-cB 3edk-a1-m1-cA_3edk-a1-m1-cB PTAIEHMEPPFWWAGMQHKGLQLMVHGRDIGRMEAALDYPGVRLVSPTRVPNANYLFVDLEIGPEAQPGSFDIVFKGDGRSERYRYRLLAREQGSAQRQGFGPGDAIYQIMPDRFANGDPSNDNVAGMREQADRRHGGGRHGGDIRGTIDHLDYIAGLGFTQLWPTPLVENDAAAYSYHGYAATDHYRIDPRYGSNEDFVRLSTEARKRGMGLIQDVVLSHIGKHHWWMKDLPTPDWINYGGKFVPTQHHRVAVQDPYAAQADSENFTKGWFVEGMPDLNQTNPLVANYLIQNNIWWIEYAGLSGLRIDTYGYSDGAFLTEYTRRLMAEYPRLNMVGQEWSTRVPVVARWQRGKANFDGYTSHLPSLMDFPLVDAMRNALSKTGEENGLNEVYETLSLDYLYPEPQNLVLFGGNHDMARMFSAAGEDFDRWRMNLVFLMTMPRIPQFYSGDEILMTSTVKGRDDASYRRDFPGGWAGDKANAFSGAGLTSQQRAAQDLVRKLANWRKNQPVIHNGRLMHFGPEENTWVYFRYNKDKRIMVAMNNNDKPMTLPTARFQEMLKGAPSGVDFLSGKTVGLGRELRLAPKSVVVIELPGLP PTAIEHMEPPFWWAGMQHKGLQLMVHGRDIGRMEAALDYPGVRLVSPTRVPNANYLFVDLEIGPEAQPGSFDIVFKGDGRSERYRYRLLAREQGSAQRQGFGPGDAIYQIMPDRFANGDPSNDNVAGMREQADRRHGGGRHGGDIRGTIDHLDYIAGLGFTQLWPTPLVENDAAAYSYHGYAATDHYRIDPRYGSNEDFVRLSTEARKRGMGLIQDVVLSHIGKHHWWMKDLPTPDWINYGGKFVPTQHHRVAVQDPYAAQADSENFTKGWFVEGMPDLNQTNPLVANYLIQNNIWWIEYAGLSGLRIDTYGYSDGAFLTEYTRRLMAEYPRLNMVGQEWSTRVPVVARWQRGKANFDGYTSHLPSLMDFPLVDAMRNALSKTGEENGLNEVYETLSLDYLYPEPQNLVLFGGNHDMARMFSAAGEDFDRWRMNLVFLMTMPRIPQFYSGDEILMTSTVKGRDDASYRRDFPGGWAGDKANAFSGAGLTSQQRAAQDLVRKLANWRKNQPVIHNGRLMHFGPEENTWVYFRYNKDKRIMVAMNNNDKPMTLPTARFQEMLKGAPSGVDFLSGKTVGLGRELRLAPKSVVVIELPGLP 3edl-a1-m1-cD_3edl-a1-m20-cD Kinesin13-Microtubule Ring complex Q922S8 Q922S8 28.0 ELECTRON MICROSCOPY 3430 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 301 301 ICVCVRKRPLNKQELAKKEIDVISVPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGGDLQNASKGIYAMASRDVFLLKNQPRYRNLNLEVYVTFFEIYNGKVFDLLNKKAKLRVLEDSRQQVQVVGLQEYLVTCADDVIKMINMGSACRTNSSRSHACFQILLRTKGRLHGKFSLVDLAGNERMEGAEINKSLLALKECIRALGQFRESKLTQVLRDSFIGENSRTCMIAMISPGISSCEYTLNTLRYADRVKELS ICVCVRKRPLNKQELAKKEIDVISVPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGGDLQNASKGIYAMASRDVFLLKNQPRYRNLNLEVYVTFFEIYNGKVFDLLNKKAKLRVLEDSRQQVQVVGLQEYLVTCADDVIKMINMGSACRTNSSRSHACFQILLRTKGRLHGKFSLVDLAGNERMEGAEINKSLLALKECIRALGQFRESKLTQVLRDSFIGENSRTCMIAMISPGISSCEYTLNTLRYADRVKELS 3edm-a1-m1-cD_3edm-a1-m1-cA Crystal structure of a short chain dehydrogenase from Agrobacterium tumefaciens A9CEK0 A9CEK0 2.3 X-RAY DIFFRACTION 119 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 213 226 3edm-a1-m1-cC_3edm-a1-m1-cB QRFTNRTIVVAGAGRDIGRACAIRFAQEGANVVLTYNGAEGAATAVAEIEKLGRSALAIKADLTNAAEVEAAISAAADKFGEIHGLVHVAGGLIARKTIAEMDEAFWHQVLDVNLTSLFLTAKTALPKMAKGGAIVTFSSQAGRDGGGPGALAYATSKGAVMTFTRGLAKEVGPKIRVNAVCPGSSEDVAGLVAFLASDDAAYVTGACYDING QRFTNRTIVVAGAGRDIGRACAIRFAQEGANVVLTYNGAAEGAATAVAEIEKLGRSALAIKADLTNAAEVEAAISAAADKFGEIHGLVHVAGGLIARKTIAEMDEAFWHQVLDVNLTSLFLTAKTALPKMAKGGAIVTFSSQAGRDGGGPGALAYATSKGAVMTFTRGLAKEVGPKIRVNAVCPGMISTREGSSEDVAGLVAFLASDDAAYVTGACYDINGGVLFS 3edm-a1-m1-cD_3edm-a1-m1-cB Crystal structure of a short chain dehydrogenase from Agrobacterium tumefaciens A9CEK0 A9CEK0 2.3 X-RAY DIFFRACTION 51 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 213 227 3edm-a1-m1-cC_3edm-a1-m1-cA QRFTNRTIVVAGAGRDIGRACAIRFAQEGANVVLTYNGAEGAATAVAEIEKLGRSALAIKADLTNAAEVEAAISAAADKFGEIHGLVHVAGGLIARKTIAEMDEAFWHQVLDVNLTSLFLTAKTALPKMAKGGAIVTFSSQAGRDGGGPGALAYATSKGAVMTFTRGLAKEVGPKIRVNAVCPGSSEDVAGLVAFLASDDAAYVTGACYDING QRFTNRTIVVAGAGRDIGRACAIRFAQEGANVVLTYNGAAEGAATAVAEIEKLGRSALAIKADLTNAAEVEAAISAAADKFGEIHGLVHVAGGLIARKTIAEMDEAFWHQVLDVNLTSLFLTAKTALPKMAKGGAIVTFSSQAGRDGGGPGALAYATSKGAVMTFTRGLAKEVGPKIRVNAVCPGMISTTREGSSEDVAGLVAFLASDDAAYVTGACYDINGGVLFS 3edn-a1-m1-cA_3edn-a1-m1-cB Crystal structure of the Bacillus anthracis phenazine biosynthesis protein, PhzF family A0A6L8PH16 A0A6L8PH16 1.5 X-RAY DIFFRACTION 26 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 289 289 KTINVFHYDAFTNKPNGNPAGIVLDADGLTEEEQRIAEKVGFNETSFVLSSEVADIRRYFTPGYEDLCGHGTVGTIYALRERGLLEEKASLTIETKAGILPIQIGVNENGETFIKRQTAPQFKDFAGSKEELAHSIGLEVNDLDVSLPIVYGSTGNWTVIVPVKNLDVCERKPNNEVFPSVLKEIPNASIHPICLETYDEKVHHGRHFSSAYAGTIEDPVTGTASGVGAYYATYVEKDFDHEELIVEQGQEIHKDGRVTVYVTKDVESEKLQIDIAGTAVYVKEFEVLI KTINVFHYDAFTNKPNGNPAGIVLDADGLTEEEQRIAEKVGFNETSFVLSSEVADIRRYFTPGYEDLCGHGTVGTIYALRERGLLEEKASLTIETKAGILPIQIGVNENGETFIKRQTAPQFKDFAGSKEELAHSIGLEVNDLDVSLPIVYGSTGNWTVIVPVKNLDVCERKPNNEVFPSVLKEIPNASIHPICLETYDEKVHHGRHFSSAYAGTIEDPVTGTASGVGAYYATYVEKDFDHEELIVEQGQEIHKDGRVTVYVTKDVESEKLQIDIAGTAVYVKEFEVLI 3edp-a1-m1-cB_3edp-a1-m1-cA The crystal structure of the protein lin2111 (functionally unknown) from Listeria innocua Clip11262 Q92A11 Q92A11 2.092 X-RAY DIFFRACTION 63 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 214 217 KPLFEVIASKIKDSINRDEYKTGPNETALQEIYSSSRTTIRRAVDLLVEEGLVVRKNGVGLYVQPKLTAQNILETGVLKKDIKDFYIRKAGKFYAEIFGKENELVYSIKFVQKSEHGATLDRLILPLGLYPDLQAKDFQIINIIELVNSGKYKLFELEQELQLILAGNEQIKNHLNENDPVFKLSSVFYAENDPIAIQYHYEDAESTKYVVDFN KKPLFEVIASKIKDSINRDEYKTGPNETALQEIYSSSRTTIRRAVDLLVEEGLVVRKNGVGLYVQPKLTAQNILETGVKNLKKDIKDFYIRKAGKFYAEIFGKENELVYSIKFVQKSEHGATLDRLILPLGLYPDLQAKDFQIINIIELVNSGKYKLFELEQELQLILAGNEQIKNHLNENDPVFKLSSVFYAENDPIAIQYHYEDAESTKYVVDFN 3edt-a1-m2-cH_3edt-a1-m1-cD Crystal structure of the mutated S328N hKLC2 TPR domain Q9H0B6 Q9H0B6 2.7 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 255 LVPGSAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKEAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLNNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSGDNKPIWMHAEEREESKDKRRDACKVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRNR LVPGSAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKEAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLNNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSVGDNKPIWMHAEEREESKDKRRDACKVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRNR 3edt-a3-m1-cH_3edt-a3-m1-cF Crystal structure of the mutated S328N hKLC2 TPR domain Q9H0B6 Q9H0B6 2.7 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 258 3ceq-a1-m1-cA_3ceq-a1-m1-cB 3edt-a1-m1-cD_3edt-a1-m1-cB 3edt-a1-m2-cH_3edt-a1-m2-cF 3edt-a2-m1-cD_3edt-a2-m1-cB LVPGSAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKEAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLNNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSGDNKPIWMHAEEREESKDKRRDACKVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRNR GLVPRGSAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKEAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLNNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSVNGDNKPIWMHAEEREESKDKRRDACKVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRNR 3edv-a1-m1-cB_3edv-a1-m1-cA Crystal Structure of Repeats 14-16 of Beta2-Spectrin Q01082 Q01082 1.951 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 321 322 SHMRHRLFQLNREVDDLEQWIAEREVVAGSHELGQDYEHVTMLQERFREFARDTGNIGQERVDTVNHLADELINSGHSDAATIAEWKDGLNEAWADLLELIDTRTQILAASYELHKFYHDAKEIFGRIQDKHKKLPEELGRDQNTVETLQRMHTTFEHDIQALGTQVRQLQEDAARLQAAYAGDKADDIQKRENEVLEAWKSLLDACESRRVRLVDTGDKFRFFSMVRDLMLWMEDVIRQIEAQEKPRDVSSVELLMNNHQGIKAEIDARNDSFTTCIELGKSLLARKHYASEEIKEKLLQLTEKRKEMIDKWEDRWEWLR SHMRHRLFQLNREVDDLEQWIAEREVVAGSHELGQDYEHVTMLQERFREFARDTGNIGQERVDTVNHLADELINSGHSDAATIAEWKDGLNEAWADLLELIDTRTQILAASYELHKFYHDAKEIFGRIQDKHKKLPEELGRDQNTVETLQRMHTTFEHDIQALGTQVRQLQEDAARLQAAYAGDKADDIQKRENEVLEAWKSLLDACESRRVRLVDTGDKFRFFSMVRDLMLWMEDVIRQIEAQEKPRDVSSVELLMNNHQGIKAEIDARNDSFTTCIELGKSLLARKHYASEEIKEKLLQLTEKRKEMIDKWEDRWEWLRL 3ee4-a1-m1-cA_3ee4-a1-m2-cA R2-like ligand binding Mn/Fe oxidase from M. tuberculosis P9WH69 P9WH69 1.9 X-RAY DIFFRACTION 162 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 289 289 4ac8-a1-m1-cC_4ac8-a1-m1-cD 4ac8-a2-m1-cB_4ac8-a2-m1-cA TRTRSGSLAAGGLNWASLPLKLFAGGNAKFWHPADIDFTRDRADWEKLSDDERDYATRLCTQFIAGEEAVTEDIQPFMSAMRAEGRLADEMYLTQFAFEEAKHTQVFRMWLDAVGISEDLHRYLDDLPAYRQIFYAELPECLNALSADPSPAAQVRASVTYNHIVEGMLALTGYYAWHKICVERAILPGMQELVRRIGDDERRHMAWGTFTCRRHVAADDANWTVFETRMNELIPLALRLIEEGFALYGDQPPFDLSKDDFLQYSTDKGMRRFGTISNARGRPVAEIDV TRTRSGSLAAGGLNWASLPLKLFAGGNAKFWHPADIDFTRDRADWEKLSDDERDYATRLCTQFIAGEEAVTEDIQPFMSAMRAEGRLADEMYLTQFAFEEAKHTQVFRMWLDAVGISEDLHRYLDDLPAYRQIFYAELPECLNALSADPSPAAQVRASVTYNHIVEGMLALTGYYAWHKICVERAILPGMQELVRRIGDDERRHMAWGTFTCRRHVAADDANWTVFETRMNELIPLALRLIEEGFALYGDQPPFDLSKDDFLQYSTDKGMRRFGTISNARGRPVAEIDV 3ee6-a2-m1-cA_3ee6-a2-m2-cB Crystal Structure Analysis of Tripeptidyl peptidase -I O14773 O14773 2.35 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 529 529 3ee6-a2-m1-cB_3ee6-a2-m2-cA SYSPEPDQRRTLPPGWVSLGRADPEEELSLTFALRQQNVERLSELVQAVSDPSSPQYGKYLTLENVADLVRPSPLTLHTVQKWLLAAGAQKCHSVITQDFLTCWLSIRQAELLLPGAEFHHYVGGPTETHVVRSPHPYQLPQALAPHVDFVGGLHRFPPTSHLGVTPSVIRKRYNLTSQDVGSGTSNNSQACAQFLEQYFHDSDLAQFMRLFGGNFAHQASVARVVGQQGRGRAGIEASLDVQYLMSAGANISTWVYSSPGRHEGQEPFLQWLMLLSNESALPHVHTVSYGDDEDSLSSAYIQRVNTELMKAAARGLTLLFASGDSGAGCWSVSGRHQFRPTFPASSPYVTTVGGTSFQEPFLITNEIVDYISGGGFSNVFPRPSYQEEAVTKFLSSSPHLPPSSYFNASGRAYPDVAALSDGYWVVSNRVPIPWVSGTSASTPVFGGILSLINEHRILSGRPPLGFLNPRLYQQHGAGLFDVTRGCHESCLDEEVEGQGFCSGPGWDPVTGWGTPNFPALLKTLLNPR SYSPEPDQRRTLPPGWVSLGRADPEEELSLTFALRQQNVERLSELVQAVSDPSSPQYGKYLTLENVADLVRPSPLTLHTVQKWLLAAGAQKCHSVITQDFLTCWLSIRQAELLLPGAEFHHYVGGPTETHVVRSPHPYQLPQALAPHVDFVGGLHRFPPTSHLGVTPSVIRKRYNLTSQDVGSGTSNNSQACAQFLEQYFHDSDLAQFMRLFGGNFAHQASVARVVGQQGRGRAGIEASLDVQYLMSAGANISTWVYSSPGRHEGQEPFLQWLMLLSNESALPHVHTVSYGDDEDSLSSAYIQRVNTELMKAAARGLTLLFASGDSGAGCWSVSGRHQFRPTFPASSPYVTTVGGTSFQEPFLITNEIVDYISGGGFSNVFPRPSYQEEAVTKFLSSSPHLPPSSYFNASGRAYPDVAALSDGYWVVSNRVPIPWVSGTSASTPVFGGILSLINEHRILSGRPPLGFLNPRLYQQHGAGLFDVTRGCHESCLDEEVEGQGFCSGPGWDPVTGWGTPNFPALLKTLLNPR 3ee6-a2-m2-cA_3ee6-a2-m2-cB Crystal Structure Analysis of Tripeptidyl peptidase -I O14773 O14773 2.35 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 529 529 3ee6-a1-m1-cA_3ee6-a1-m1-cB 3ee6-a2-m1-cA_3ee6-a2-m1-cB SYSPEPDQRRTLPPGWVSLGRADPEEELSLTFALRQQNVERLSELVQAVSDPSSPQYGKYLTLENVADLVRPSPLTLHTVQKWLLAAGAQKCHSVITQDFLTCWLSIRQAELLLPGAEFHHYVGGPTETHVVRSPHPYQLPQALAPHVDFVGGLHRFPPTSHLGVTPSVIRKRYNLTSQDVGSGTSNNSQACAQFLEQYFHDSDLAQFMRLFGGNFAHQASVARVVGQQGRGRAGIEASLDVQYLMSAGANISTWVYSSPGRHEGQEPFLQWLMLLSNESALPHVHTVSYGDDEDSLSSAYIQRVNTELMKAAARGLTLLFASGDSGAGCWSVSGRHQFRPTFPASSPYVTTVGGTSFQEPFLITNEIVDYISGGGFSNVFPRPSYQEEAVTKFLSSSPHLPPSSYFNASGRAYPDVAALSDGYWVVSNRVPIPWVSGTSASTPVFGGILSLINEHRILSGRPPLGFLNPRLYQQHGAGLFDVTRGCHESCLDEEVEGQGFCSGPGWDPVTGWGTPNFPALLKTLLNPR SYSPEPDQRRTLPPGWVSLGRADPEEELSLTFALRQQNVERLSELVQAVSDPSSPQYGKYLTLENVADLVRPSPLTLHTVQKWLLAAGAQKCHSVITQDFLTCWLSIRQAELLLPGAEFHHYVGGPTETHVVRSPHPYQLPQALAPHVDFVGGLHRFPPTSHLGVTPSVIRKRYNLTSQDVGSGTSNNSQACAQFLEQYFHDSDLAQFMRLFGGNFAHQASVARVVGQQGRGRAGIEASLDVQYLMSAGANISTWVYSSPGRHEGQEPFLQWLMLLSNESALPHVHTVSYGDDEDSLSSAYIQRVNTELMKAAARGLTLLFASGDSGAGCWSVSGRHQFRPTFPASSPYVTTVGGTSFQEPFLITNEIVDYISGGGFSNVFPRPSYQEEAVTKFLSSSPHLPPSSYFNASGRAYPDVAALSDGYWVVSNRVPIPWVSGTSASTPVFGGILSLINEHRILSGRPPLGFLNPRLYQQHGAGLFDVTRGCHESCLDEEVEGQGFCSGPGWDPVTGWGTPNFPALLKTLLNPR 3eea-a1-m1-cB_3eea-a1-m1-cA The crystal structure of the GAF domain/HD domain protein from Geobacter sulfurreducens Q74EF5 Q74EF5 1.8 X-RAY DIFFRACTION 38 0.987 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 151 153 SGLTDVDEVIKDLSRLLRKLVKTRWIAVYFFDRDFAPARSTGLPASFLPVFREMPLAPDKIPLLKSMLRKRQHLMLTDPGSSDLLTPKLRKLLRNLCVLAVPMVVRTQVIGAVFMARTRDNPPFSDAETAIIRDLVSHAALVVSHMQLFDE ERLSGLTDVDEVIKDLSRLLRKLVKTRWIAVYFFDRRDFAPARSTGLPASFLPVFREMPLAPDKIPLLKSMLRKRQHLMLTDPGSSDLLTPKLRKLLRNLCVLAVPMVVRTQVIGAVFMARTRDNPPFSDAETAIIRDLVSHAALVVSHMQLF 3eef-a1-m1-cB_3eef-a1-m2-cB Crystal structure of N-carbamoylsarcosine amidase from thermoplasma acidophilum Q9HKY9 Q9HKY9 2.35 X-RAY DIFFRACTION 23 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 168 168 3eef-a1-m1-cA_3eef-a1-m2-cA KPALVVVDVNEFIHGRLATPEAKTVGPARKVIETFRRSGLPVVYVNDSHYPDDPEIRIWGRHSKGDDGSEVIDEIRPSAGDYVLEKHAYSGFYGTNLDILRANGIDTVVLIGLDADICVRHTAADALYRNYRIIVVEDAVAARIDPNWKDYFTRVYGATVKRSDEIEG KPALVVVDVNEFIHGRLATPEAKTVGPARKVIETFRRSGLPVVYVNDSHYPDDPEIRIWGRHSKGDDGSEVIDEIRPSAGDYVLEKHAYSGFYGTNLDILRANGIDTVVLIGLDADICVRHTAADALYRNYRIIVVEDAVAARIDPNWKDYFTRVYGATVKRSDEIEG 3eef-a2-m1-cA_3eef-a2-m1-cB Crystal structure of N-carbamoylsarcosine amidase from thermoplasma acidophilum Q9HKY9 Q9HKY9 2.35 X-RAY DIFFRACTION 55 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 168 168 3eef-a1-m1-cA_3eef-a1-m1-cB 3eef-a1-m2-cA_3eef-a1-m2-cB KPALVVVDVNEFIHGRLATPEAKTVGPARKVIETFRRSGLPVVYVNDSHYPDDPEIRIWGRHSKGDDGSEVIDEIRPSAGDYVLEKHAYSGFYGTNLDILRANGIDTVVLIGLDADICVRHTAADALYRNYRIIVVEDAVAARIDPNWKDYFTRVYGATVKRSDEIEG KPALVVVDVNEFIHGRLATPEAKTVGPARKVIETFRRSGLPVVYVNDSHYPDDPEIRIWGRHSKGDDGSEVIDEIRPSAGDYVLEKHAYSGFYGTNLDILRANGIDTVVLIGLDADICVRHTAADALYRNYRIIVVEDAVAARIDPNWKDYFTRVYGATVKRSDEIEG 3eeg-a1-m1-cA_3eeg-a1-m1-cB Crystal structure of a 2-isopropylmalate synthase from Cytophaga hutchinsonii 2.78 X-RAY DIFFRACTION 48 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 259 265 GKRIFVFDTTLRDGLNTEEKIIVAKALDELGVDVIEAGFPVSSPGDFNSVVEITKAVTRPTICALTRAKEADINIAGEALRFAKRSRIHTGIGSSDIHIESTRENILEAVAAVKQAKKVVHEVEFFCEDAGRADQAFLARVEAVIEAGADVVNIPDTTGYLPWQYGERIKYLDNVSNIDKAILSAHCHNDLGLATANSLAALQNGARQVECTINGIGERAGNTALEEVVAECHKETLGLETGINHKKLVPISHLVSTLR GKRIFVFDTTLRDGEQLNTEEKIIVAKALDELGVDVIEAGFPVSSPGDFNSVVEITKAVTRPTICALTRAKEADINIAGEALRFAKRSRIHTGIGSSDIHIEHKLRSTRENILEAVAAVKQAKKVVHEVEFFCEDAGRADQAFLARVEAVIEAGADVVNIPDTTGYLPWQYGERIKYLDNVSNIDKAILSAHCHNDLGLATANSLAALQNGARQVECTINGIGERAGNTALEEVVAECHKETLGLETGINHKKLVPISHLVSTLR 3eei-a1-m1-cA_3eei-a1-m1-cB Crystal structure of 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase from neisseria meningitidis in complex with methylthio-immucillin-A Q9K054 Q9K054 1.78 X-RAY DIFFRACTION 129 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 231 231 LKTVAVIGAMEQEIELLREMMENVKAVSFGRFSAYEGELAGKRMVLALSGIGKVNAAVATAWIIREFAADCVINTGSAGGLGKGLKVGDVVIGTETAHHDVDVTAFGYAWGQVPQLPARFASDGILIEAAKRAARTFEGAAVEQGLIVSGDRFVHSSEGVAEIRKHFPEVKAVEMEAAAIAQTCHQLETPFVIIRAVSDSADEKADISFDEFLKTAAANSAKMVAEIVKSL LKTVAVIGAMEQEIELLREMMENVKAVSFGRFSAYEGELAGKRMVLALSGIGKVNAAVATAWIIREFAADCVINTGSAGGLGKGLKVGDVVIGTETAHHDVDVTAFGYAWGQVPQLPARFASDGILIEAAKRAARTFEGAAVEQGLIVSGDRFVHSSEGVAEIRKHFPEVKAVEMEAAAIAQTCHQLETPFVIIRAVSDSADEKADISFDEFLKTAAANSAKMVAEIVKSL 3eeq-a1-m1-cB_3eeq-a1-m1-cA Crystal structure of a putative cobalamin biosynthesis protein G homolog from Sulfolobus solfataricus Q97WD0 Q97WD0 2.3 X-RAY DIFFRACTION 53 0.993 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 304 311 SLIENLWRGICIISASEDAFSAGETIKEKLKSFEIPVVHYRYKDAEIETIWKCYDAIVFVMALEGATRIVCKYAKEDPAIVCIDDKINYVIPLLGGHWGANDIARELSVILNSTPIITKLSIERIANILIAKIINPENIVKINAALLRDESICIDGINVNFPENIKVCSYIISLRDKEYKDKIVVWLKPLKISIGIGSKKDVKMEEIRDGIYKVLERLNLKRERIGIIASIREEVKKIADEFNVRFRLVNEEEINNFMNPCLTPPKGVAEISALIAGGRNSKLILRKIAISRNSTIAVATYEGH SLIENLWRGICIISASEDAFSAGETIKEKLKSFEIPVVHYRYKDAEIETIWKCYDAIVFVMALEGATRIVCKYAKSKTEDPAIVCIDDKINYVIPLLGGHWGANDIARELSVILNSTPIITKLSIERIANILIAKIINPENIVKINAALLRDESICIDGIDVNVNFPENIKVCSYIISLRGDKEYKDKIVVWLKPLKISIGIGSKKDVKMEEIRDGIYKVLERLNLKRERIGIIASIREEVKKIADEFNVRFRLVNEEEINNFMNPCLTPPSKTKGVAEISALIAGGRNSKLILRKIAISRNSTIAVATYE 3eet-a2-m1-cB_3eet-a2-m3-cB Crystal structure of putative GntR-family transcriptional regulator Q82IF8 Q82IF8 1.969 X-RAY DIFFRACTION 153 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 229 229 3eet-a1-m1-cA_3eet-a1-m2-cA YFYLRVAGDLRKKIVDGSLPPHTRLPSQARIREEYGVSDTVALEARKVLAEGLVETYVRERPVPRRVARSGYRSGATPFRQEQADGAVRGTWESHSEQAEASGAIAERLDIRPGERVCTKYVFRDAGEVLSTSWEPLAVTGRTPVLPEEGPVGGGVVERAAIDVIVDNVTEEVGARPGLAEELLTLGGVPGHVVLVIQRTYFASGRPVETADVVVPADRYRVAYHLPVK YFYLRVAGDLRKKIVDGSLPPHTRLPSQARIREEYGVSDTVALEARKVLAEGLVETYVRERPVPRRVARSGYRSGATPFRQEQADGAVRGTWESHSEQAEASGAIAERLDIRPGERVCTKYVFRDAGEVLSTSWEPLAVTGRTPVLPEEGPVGGGVVERAAIDVIVDNVTEEVGARPGLAEELLTLGGVPGHVVLVIQRTYFASGRPVETADVVVPADRYRVAYHLPVK 3eex-a1-m1-cA_3eex-a1-m1-cB The crystal structure of OspA mutant 2.49 X-RAY DIFFRACTION 81 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 316 316 3cka-a1-m1-cA_3cka-a1-m1-cB 5ys7-a1-m1-cA_5ys7-a1-m2-cA 5z1o-a1-m1-cA_5z1o-a1-m1-cB KNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTFELFNEKGELSFKLITRADKSSTFELFNEKGELSFKLITRADKSSTFELFNEKGELSFKLITRADKSSTFELFNEKGELSFKLITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK KNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTFELFNEKGELSFKLITRADKSSTFELFNEKGELSFKLITRADKSSTFELFNEKGELSFKLITRADKSSTFELFNEKGELSFKLITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK 3eey-a4-m1-cI_3eey-a4-m1-cF CRYSTAL STRUCTURE OF PUTATIVE RRNA-METHYLASE FROM Clostridium thermocellum A3DDA2 A3DDA2 2.2 X-RAY DIFFRACTION 82 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 186 190 3eey-a1-m1-cC_3eey-a1-m1-cA 3eey-a2-m1-cD_3eey-a2-m1-cB 3eey-a3-m1-cE_3eey-a3-m1-cH 3eey-a5-m1-cG_3eey-a5-m1-cJ LTIKNSLGQSHDYIKMFVKEGDTVVDATCGNGNDTAFLASLVGENGRVFGFDIQDKAIANTTKKLTDLNLIDRVTLIKDGHQNMDKYIDCPVKAVMFNLGYLPSGDHSISTRPETTIQALSKAMELLVTGGIITVVIYYGGDTGFEEKEKVLEFLKGVDQKKFIVQRTDFINQANCPPILVCIEKI SLTIKNSLGQSHDYIKMFVKEGDTVVDATCGNGNDTAFLASLVGENGRVFGFDIQDKAIANTTKKLTDLNLIDRVTLIKDGHQNMDKYIDCPVKAVMFNLGYLPSGDHSISTRPETTIQALSKAMELLVTGGIITVVIYYGGDTGFEEKEKVLEFLKGVDQKKFIVQRTDFINQANCPPILVCIEKISEG 3eez-a1-m3-cA_3eez-a1-m8-cA Crystal structure of a putative mandelate racemase/muconate lactonizing enzyme from Silicibacter pomeroyi Q5LT20 Q5LT20 2.8 X-RAY DIFFRACTION 60 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 363 363 3eez-a1-m1-cA_3eez-a1-m5-cA 3eez-a1-m2-cA_3eez-a1-m6-cA 3eez-a1-m4-cA_3eez-a1-m7-cA LKITRITVYQVDLPLEHPYWKFELLDATLVKLETDAGITGWGEGTPWGHTYVPAHGPGIRAGIETMAPFVLGLDPRRLLDVERAMDIALPGHLYAKSPIDMACWDIAGQAAGLPIADLMGGGSRTPRPIASSVGAKSVEETRAVIDRYRQRGYVAHSVKIGGDVERDIARIRDVEDIREPGEIVLYDVNRGWTRQQALRVMRATEDLHVMFEQPGETLDDIAAIRPLHSAPVSVDECLVTLQDAARVARDGLAEVFGIKLNRVGGLTRAARMRDIALTHGIDMFVMATGGSVLADAEALHLAATIPDHACHAVWACQDMLTVDIAGGRGPRNIDGHLHLPETPGLGVHPDEDALGDPVAVYSE LKITRITVYQVDLPLEHPYWKFELLDATLVKLETDAGITGWGEGTPWGHTYVPAHGPGIRAGIETMAPFVLGLDPRRLLDVERAMDIALPGHLYAKSPIDMACWDIAGQAAGLPIADLMGGGSRTPRPIASSVGAKSVEETRAVIDRYRQRGYVAHSVKIGGDVERDIARIRDVEDIREPGEIVLYDVNRGWTRQQALRVMRATEDLHVMFEQPGETLDDIAAIRPLHSAPVSVDECLVTLQDAARVARDGLAEVFGIKLNRVGGLTRAARMRDIALTHGIDMFVMATGGSVLADAEALHLAATIPDHACHAVWACQDMLTVDIAGGRGPRNIDGHLHLPETPGLGVHPDEDALGDPVAVYSE 3eez-a1-m6-cA_3eez-a1-m8-cA Crystal structure of a putative mandelate racemase/muconate lactonizing enzyme from Silicibacter pomeroyi Q5LT20 Q5LT20 2.8 X-RAY DIFFRACTION 57 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 363 363 3eez-a1-m1-cA_3eez-a1-m3-cA 3eez-a1-m1-cA_3eez-a1-m4-cA 3eez-a1-m2-cA_3eez-a1-m3-cA 3eez-a1-m2-cA_3eez-a1-m4-cA 3eez-a1-m5-cA_3eez-a1-m7-cA 3eez-a1-m5-cA_3eez-a1-m8-cA 3eez-a1-m6-cA_3eez-a1-m7-cA LKITRITVYQVDLPLEHPYWKFELLDATLVKLETDAGITGWGEGTPWGHTYVPAHGPGIRAGIETMAPFVLGLDPRRLLDVERAMDIALPGHLYAKSPIDMACWDIAGQAAGLPIADLMGGGSRTPRPIASSVGAKSVEETRAVIDRYRQRGYVAHSVKIGGDVERDIARIRDVEDIREPGEIVLYDVNRGWTRQQALRVMRATEDLHVMFEQPGETLDDIAAIRPLHSAPVSVDECLVTLQDAARVARDGLAEVFGIKLNRVGGLTRAARMRDIALTHGIDMFVMATGGSVLADAEALHLAATIPDHACHAVWACQDMLTVDIAGGRGPRNIDGHLHLPETPGLGVHPDEDALGDPVAVYSE LKITRITVYQVDLPLEHPYWKFELLDATLVKLETDAGITGWGEGTPWGHTYVPAHGPGIRAGIETMAPFVLGLDPRRLLDVERAMDIALPGHLYAKSPIDMACWDIAGQAAGLPIADLMGGGSRTPRPIASSVGAKSVEETRAVIDRYRQRGYVAHSVKIGGDVERDIARIRDVEDIREPGEIVLYDVNRGWTRQQALRVMRATEDLHVMFEQPGETLDDIAAIRPLHSAPVSVDECLVTLQDAARVARDGLAEVFGIKLNRVGGLTRAARMRDIALTHGIDMFVMATGGSVLADAEALHLAATIPDHACHAVWACQDMLTVDIAGGRGPRNIDGHLHLPETPGLGVHPDEDALGDPVAVYSE 3eez-a2-m1-cA_3eez-a2-m7-cA Crystal structure of a putative mandelate racemase/muconate lactonizing enzyme from Silicibacter pomeroyi Q5LT20 Q5LT20 2.8 X-RAY DIFFRACTION 90 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 363 363 3eez-a1-m1-cA_3eez-a1-m7-cA 3eez-a1-m2-cA_3eez-a1-m8-cA 3eez-a1-m3-cA_3eez-a1-m5-cA 3eez-a1-m4-cA_3eez-a1-m6-cA LKITRITVYQVDLPLEHPYWKFELLDATLVKLETDAGITGWGEGTPWGHTYVPAHGPGIRAGIETMAPFVLGLDPRRLLDVERAMDIALPGHLYAKSPIDMACWDIAGQAAGLPIADLMGGGSRTPRPIASSVGAKSVEETRAVIDRYRQRGYVAHSVKIGGDVERDIARIRDVEDIREPGEIVLYDVNRGWTRQQALRVMRATEDLHVMFEQPGETLDDIAAIRPLHSAPVSVDECLVTLQDAARVARDGLAEVFGIKLNRVGGLTRAARMRDIALTHGIDMFVMATGGSVLADAEALHLAATIPDHACHAVWACQDMLTVDIAGGRGPRNIDGHLHLPETPGLGVHPDEDALGDPVAVYSE LKITRITVYQVDLPLEHPYWKFELLDATLVKLETDAGITGWGEGTPWGHTYVPAHGPGIRAGIETMAPFVLGLDPRRLLDVERAMDIALPGHLYAKSPIDMACWDIAGQAAGLPIADLMGGGSRTPRPIASSVGAKSVEETRAVIDRYRQRGYVAHSVKIGGDVERDIARIRDVEDIREPGEIVLYDVNRGWTRQQALRVMRATEDLHVMFEQPGETLDDIAAIRPLHSAPVSVDECLVTLQDAARVARDGLAEVFGIKLNRVGGLTRAARMRDIALTHGIDMFVMATGGSVLADAEALHLAATIPDHACHAVWACQDMLTVDIAGGRGPRNIDGHLHLPETPGLGVHPDEDALGDPVAVYSE 3ef8-a2-m4-cB_3ef8-a2-m5-cB Crystal structure of Putative Scytalone Dehydratase (YP_496742.1) from NOVOSPHINGOBIUM AROMATICIVORANS DSM 12444 at 1.50 A resolution Q2G8B5 Q2G8B5 1.5 X-RAY DIFFRACTION 51 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 143 143 3ef8-a1-m1-cA_3ef8-a1-m2-cA 3ef8-a1-m1-cA_3ef8-a1-m3-cA 3ef8-a1-m2-cA_3ef8-a1-m3-cA 3ef8-a2-m1-cB_3ef8-a2-m4-cB 3ef8-a2-m1-cB_3ef8-a2-m5-cB TDTNLVERAIERFDYSYHLDNHPEELAALFVEDCEVSYAPNFGATGRDAYKKTLEGIGTFFRGTSHHNSNICIDFVSETEANVRSVVLAIHRYTKERPDGILYGQYFDTVVKVDGQWKFKRRELRTTTTDYHVRAANPIGRAE TDTNLVERAIERFDYSYHLDNHPEELAALFVEDCEVSYAPNFGATGRDAYKKTLEGIGTFFRGTSHHNSNICIDFVSETEANVRSVVLAIHRYTKERPDGILYGQYFDTVVKVDGQWKFKRRELRTTTTDYHVRAANPIGRAE 3efa-a1-m1-cA_3efa-a1-m2-cA Crystal structure of putative N-acetyltransferase from Lactobacillus plantarum F9UPE4 F9UPE4 2.423 X-RAY DIFFRACTION 30 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 143 143 NAKIIFSASPANRAAAYALRQAVFVEERGISADVEFDVKDTDQCEYAVLYLQPDLPITTLRLEPQADHVRFGRVCTRKAYRGHGWGRQLLTAAEEWATQRGFTHGEIHGELTAQRFYELCGYRVTAGPYDEDGAPVVIHKQLL NAKIIFSASPANRAAAYALRQAVFVEERGISADVEFDVKDTDQCEYAVLYLQPDLPITTLRLEPQADHVRFGRVCTRKAYRGHGWGRQLLTAAEEWATQRGFTHGEIHGELTAQRFYELCGYRVTAGPYDEDGAPVVIHKQLL 3efb-a1-m1-cA_3efb-a1-m1-cD Crystal Structure of Probable sor Operon Regulator from Shigella flexneri A0A0H2V3A6 A0A0H2V3A6 2.001 X-RAY DIFFRACTION 84 0.992 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 239 241 ENLWLEQQLKQKFGLKDVVVVSGNDEDEETQLAGLHGAQLLDRLLEPGDIVGFSWGRAVSALVENLPQAGQSRQLICVPIIGGPSGKLESRYHVNTLTYSAAAKLKGESHLADFPALLDNPLIRNGIQSQHFKTISAYWDNLDIALVGIGSPAFYGGEESDDLNARQVAGDICSRFFDIHGAVETNSEKTLSIENKLKQARYSIGIASEEKYSGIIGALRGKYINCLVTNSSTAELLLK NENLWLEQQLKQKFGLKDVVVVSGEDEETQLAGLHGAQLLDRLLEPGDIVGFSWGRAVSALVENLPQAGQSRQLICVPIIGGPSGKLESRYHVNTLTYSAAAKLKGESHLADFPALLDNPLIRNGIQSQHFKTISAYWDNLDIALVGIGSPNWHAFYGGEESDDLNARQVAGDICSRFFDIHGAVETNSEKTLSIENKLKQARYSIGIASEEKYSGIIGALRGKYINCLVTNSSTAELLLK 3efe-a3-m1-cF_3efe-a3-m1-cE The crystal structure of the thiJ/pfpI family protein from Bacillus anthracis A0A6H3AJL8 A0A6H3AJL8 2.3 X-RAY DIFFRACTION 93 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 207 208 3efe-a1-m1-cA_3efe-a1-m1-cD 3efe-a2-m1-cC_3efe-a2-m1-cB TKKAFLYVFNTMSDWEYGYLIAELNSGRYFKKDLAPLKVITVGANKEMITTMGGLRIKPDISLDECTLESKDLLILPGGTTWSEEIHQPILERIGQALKIGTIVAAICGATDALANMGYLDTRKHTSNNLEYTKMVCPNYKGEKFYELGPAVSDANLVTASGIAPLEFAMEVLKKIDVFTLDALHSWYNLNKTHKPEYFFQLMNSIN TKKAFLYVFNTMSDWEYGYLIAELNSGRYFKKDLAPLKVITVGANKEMITTMGGLRIKPDISLDECTLESKDLLILPGGTTWSEEIHQPILERIGQALKIGTIVAAICGATDALANMGYLDTRKHTSNNLEYTKMVCPNYKGEKFYELGPAVSDANLVTASGIAPLEFAMEVLKKIDVFTLDALHSWYNLNKTHKPEYFFQLMNSINK 3efg-a1-m2-cA_3efg-a1-m3-cA Structure of SlyX protein from Xanthomonas campestris pv. campestris str. ATCC 33913 Q8PAH9 Q8PAH9 2 X-RAY DIFFRACTION 53 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 51 51 3efg-a1-m1-cA_3efg-a1-m2-cA 3efg-a1-m1-cA_3efg-a1-m3-cA RDQELEARLVELETRLSFQEQALTELSEALADARLTGARNAELIRHLLEDL RDQELEARLVELETRLSFQEQALTELSEALADARLTGARNAELIRHLLEDL 3efx-a1-m1-cG_3efx-a1-m1-cH Novel binding site identified in a hybrid between cholera toxin and heat-labile enterotoxin, 1.9A crystal structure reveals the details P01556 P01556 1.94 X-RAY DIFFRACTION 81 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 95 100 3efx-a2-m1-cI_3efx-a2-m1-cM 3efx-a2-m1-cJ_3efx-a2-m1-cI 3efx-a2-m1-cK_3efx-a2-m1-cJ 3efx-a2-m1-cK_3efx-a2-m1-cL APQNITELCSEYHNTQIYTINDKILSYTESLAGKREMAIITFKNGATFQVEVPQKKAIERMKDTLRIAYLTEAKVEKLCVWNNKTPNSIAAISMA APQNITELCSEYHNTQIYTINDKILSYTESLAGKREMAIITFKNGATFQVEVPGHIDSQKKAIERMKDTLRIAYLTEAKVEKLCVWNNKTPNSIAAISMA 3efy-a1-m1-cB_3efy-a1-m1-cA Structure of the Cyclomodulin Cif from Pathogenic Escherichia coli Q7WRZ5 Q7WRZ5 1.7 X-RAY DIFFRACTION 128 1.0 562 (Escherichia coli) 562 (Escherichia coli) 182 183 PSCGVTANAIMKLFLDKDGFSYCFENEQTLSLEQLQERLSCMPECKSFVLRVNDGALGHAYIVDIPKGENSCRPAFLYQSDLGEGVTRKLRFEDWMTHKALTPILLDDICNYFSCMSQNKTDLEQIATLFDIDGNVKMLRKENIQYQKHDNFSFQLFEYDTDNIEKNIEIIKSLCSGAAALE PSCGVTANAIMKLFLDKDGFSYCFENEQTLSLEQLQERLSCMPECKSFVLRVNDGALGHAYIVDIPKGENSCRPAFLYQSDLGEGVTRKLRFEDWMTHKALTPILLDDICNYFSCMSQNKTDLEQIATLFDIDGNVKMLRKENIQYQKHDNFSFQLFEYDTDNIEKNIEIIKSLCSGAAALEH 3eg1-a1-m1-cB_3eg1-a1-m1-cA Crystal structure of the N114Q mutant of ABL-SH3 domain complexed with a designed high-affinity peptide ligand: implications for SH3-ligand interactions P00519 P00519 1.85 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 58 NLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSQYITPV NLFVALYDFVASGDNTLSITKGEKLRVLGYNHNGEWCEAQTKNGQGWVPSQYITPVNS 3eg4-a1-m2-cA_3eg4-a1-m3-cA Crystal structure of 2,3,4,5-Tetrahydropyridine-2-carboxylate N-Succinyltransferase from Brucella melitensis biovar abortus 2308 Q8FV25 Q8FV25 1.87 X-RAY DIFFRACTION 144 1.0 29461 (Brucella suis) 29461 (Brucella suis) 279 279 3eg4-a1-m1-cA_3eg4-a1-m2-cA 3eg4-a1-m1-cA_3eg4-a1-m3-cA LASLEKTIEKAFDERDGINTATRGEVREAVEQSLILLDRGEVRVAEKQADGNWHVNQWLKKAVLLSFRLNPMEVIKGGPGQSSWWDKVPSKFDGWTANEFEKAGFRAVPNCIVRHSAYIAPNAILMPSFVNLGAYVDKGAMIDTWATVGSCAQIGKNVHLSGGVGIGGVLEPMQAGPTIIEDNCFIGARSEVVEGCIVREGSVLGMGVFIGKSTKIVDRATGEVFYGEVPPYSVVVAGTMPGKNVPGENWGPSLYCAVIVKRADEKTRSKTSINELLRD LASLEKTIEKAFDERDGINTATRGEVREAVEQSLILLDRGEVRVAEKQADGNWHVNQWLKKAVLLSFRLNPMEVIKGGPGQSSWWDKVPSKFDGWTANEFEKAGFRAVPNCIVRHSAYIAPNAILMPSFVNLGAYVDKGAMIDTWATVGSCAQIGKNVHLSGGVGIGGVLEPMQAGPTIIEDNCFIGARSEVVEGCIVREGSVLGMGVFIGKSTKIVDRATGEVFYGEVPPYSVVVAGTMPGKNVPGENWGPSLYCAVIVKRADEKTRSKTSINELLRD 3eg5-a1-m1-cB_3eg5-a1-m1-cD Crystal structure of MDIA1-TSH GBD-FH3 in complex with CDC42-GMPPNP O08808 O08808 2.7 X-RAY DIFFRACTION 176 1.0 10090 (Mus musculus) 10090 (Mus musculus) 337 337 2bap-a1-m1-cA_2bap-a1-m2-cA 2bap-a2-m1-cB_2bap-a2-m3-cB VLVLFEQMLVDMNLNEEKQQPLREKDIVIKREMVSQYLHTSSRSAMMYIQELRSGLRDMHLLSCLESLRVSLTSHPVSWVQTFGAEGLASLLDILKRLHDEKDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLH VLVLFEQMLVDMNLNEEKQQPLREKDIVIKREMVSQYLHTSSRSAMMYIQELRSGLRDMHLLSCLESLRVSLTSHPVSWVQTFGAEGLASLLDILKRLHDEKDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLH 3ega-a2-m1-cA_3ega-a2-m4-cA Crystal structure of Pellino2 FHA Domain at 1.8 Angstroms resolution Q9HAT8 Q9HAT8 1.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 3ega-a2-m2-cA_3ega-a2-m3-cA EPVKYGELVVLGYRRKSRFALYKRPKANGVKPSTVHISTPQASKAISCKGQHSISYTLSRNQTVVVEYTHDKDTDFQVGRSTESPIDFVVTDTQITQSTISRFACRIVCDRNEPYTARIFAAGFDSSKNIFLGEKAAKWKNPDGHDGLTTNGVLVHPRESQPGVWREISVCGDVYTLRETRSAQQRGKVESETNVLQDGSLIDLCGATLLWRTA EPVKYGELVVLGYRRKSRFALYKRPKANGVKPSTVHISTPQASKAISCKGQHSISYTLSRNQTVVVEYTHDKDTDFQVGRSTESPIDFVVTDTQITQSTISRFACRIVCDRNEPYTARIFAAGFDSSKNIFLGEKAAKWKNPDGHDGLTTNGVLVHPRESQPGVWREISVCGDVYTLRETRSAQQRGKVESETNVLQDGSLIDLCGATLLWRTA 3ega-a2-m2-cA_3ega-a2-m4-cA Crystal structure of Pellino2 FHA Domain at 1.8 Angstroms resolution Q9HAT8 Q9HAT8 1.8 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 3ega-a2-m1-cA_3ega-a2-m3-cA EPVKYGELVVLGYRRKSRFALYKRPKANGVKPSTVHISTPQASKAISCKGQHSISYTLSRNQTVVVEYTHDKDTDFQVGRSTESPIDFVVTDTQITQSTISRFACRIVCDRNEPYTARIFAAGFDSSKNIFLGEKAAKWKNPDGHDGLTTNGVLVHPRESQPGVWREISVCGDVYTLRETRSAQQRGKVESETNVLQDGSLIDLCGATLLWRTA EPVKYGELVVLGYRRKSRFALYKRPKANGVKPSTVHISTPQASKAISCKGQHSISYTLSRNQTVVVEYTHDKDTDFQVGRSTESPIDFVVTDTQITQSTISRFACRIVCDRNEPYTARIFAAGFDSSKNIFLGEKAAKWKNPDGHDGLTTNGVLVHPRESQPGVWREISVCGDVYTLRETRSAQQRGKVESETNVLQDGSLIDLCGATLLWRTA 3ega-a2-m3-cA_3ega-a2-m4-cA Crystal structure of Pellino2 FHA Domain at 1.8 Angstroms resolution Q9HAT8 Q9HAT8 1.8 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 3ega-a2-m1-cA_3ega-a2-m2-cA EPVKYGELVVLGYRRKSRFALYKRPKANGVKPSTVHISTPQASKAISCKGQHSISYTLSRNQTVVVEYTHDKDTDFQVGRSTESPIDFVVTDTQITQSTISRFACRIVCDRNEPYTARIFAAGFDSSKNIFLGEKAAKWKNPDGHDGLTTNGVLVHPRESQPGVWREISVCGDVYTLRETRSAQQRGKVESETNVLQDGSLIDLCGATLLWRTA EPVKYGELVVLGYRRKSRFALYKRPKANGVKPSTVHISTPQASKAISCKGQHSISYTLSRNQTVVVEYTHDKDTDFQVGRSTESPIDFVVTDTQITQSTISRFACRIVCDRNEPYTARIFAAGFDSSKNIFLGEKAAKWKNPDGHDGLTTNGVLVHPRESQPGVWREISVCGDVYTLRETRSAQQRGKVESETNVLQDGSLIDLCGATLLWRTA 3egc-a3-m1-cE_3egc-a3-m1-cF Crystal structure of a putative ribose operon repressor from Burkholderia thailandensis Q2T0D1 Q2T0D1 2.35 X-RAY DIFFRACTION 72 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 261 262 3egc-a1-m1-cA_3egc-a1-m1-cB 3egc-a2-m1-cC_3egc-a2-m1-cD RSNVVGLIVSDIENVFFAEVASGVESEARHKGYSVLLANTAEDIVREREAVGQFFERRVDGLILAPSEGEHDYLRTELPKTFPIVAVNRELRIPGCGAVLSENVRGARTAVEYLIARGHTRIGAIVGSAGLMTSRERLKGFRAAMSAAGLPVRQEWIAANGRDGAIKVLTGDRPTALLTSSHRITEGAMQALNVLGLRYGPDVEIVSFDNLPWMAFLDPPLPVVEQPTRRIGQEAMRMLIHMIEGTGNATEMRLQTRFVTH RSNVVGLIVSDIENVFFAEVASGVESEARHKGYSVLLANTAEDIVREREAVGQFFERRVDGLILAPSEGEHDYLRTELPKTFPIVAVNRELRIPGCGAVLSENVRGARTAVEYLIARGHTRIGAIVGSAGLMTSRERLKGFRAAMSAAGLPVRQEWIAANGRDGAIKVLTGADRPTALLTSSHRITEGAMQALNVLGLRYGPDVEIVSFDNLPWMAFLDPPLPVVEQPTRRIGQEAMRMLIHMIEGTGNATEMRLQTRFVTH 3egi-a1-m1-cB_3egi-a1-m1-cC Methyltransferase domain of human trimethylguanosine synthase TGS1 bound to m7GpppA (inactive form) Q96RS0 Q96RS0 2.21 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 PLGSRLFSRFDDGIKLDREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR PLGSRLFSRFDDGIKLDREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR 3egi-a1-m1-cC_3egi-a1-m1-cA Methyltransferase domain of human trimethylguanosine synthase TGS1 bound to m7GpppA (inactive form) Q96RS0 Q96RS0 2.21 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 192 PLGSRLFSRFDDGIKLDREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR PLGSRLFSRFDDGIKLDREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWATAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIRR 3egi-a1-m1-cD_3egi-a1-m1-cB Methyltransferase domain of human trimethylguanosine synthase TGS1 bound to m7GpppA (inactive form) Q96RS0 Q96RS0 2.21 X-RAY DIFFRACTION 13 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 186 189 PLGSRLFSRFDDGREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWGAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR PLGSRLFSRFDDGIKLDREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR 3egi-a1-m1-cD_3egi-a1-m1-cC Methyltransferase domain of human trimethylguanosine synthase TGS1 bound to m7GpppA (inactive form) Q96RS0 Q96RS0 2.21 X-RAY DIFFRACTION 26 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 186 189 3egi-a1-m1-cB_3egi-a1-m1-cA PLGSRLFSRFDDGREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWGAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR PLGSRLFSRFDDGIKLDREGWFSVTPEKIAEHIAGRVSQSFKCDVVVDAFCGVGGNTIQFALTGRVIAIDIDPVKIALARNNAEVYGIADKIEFICGDFLLLASFLKADVVFLSPPWAETFDIRTSPDGFEIFRLSKKITNNIVYFLPRNADIDQVASLAGPGGQVEIEQNFLNNKLKTITAYFGDLIR 3egj-a1-m1-cB_3egj-a1-m1-cA N-acetylglucosamine-6-phosphate deacetylase from Vibrio cholerae. O32445 O32445 2.9 X-RAY DIFFRACTION 15 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 361 379 NAMYALTNCKIYTGNDVLVKHAVIINGDKIEAVCPIESLPSEMNVVDLNGANLSPGFIDLQLNGCGGVMFNDEITAETIDTMHKANLKSGCTSFLPTLITSSDENMRQAIAAAREYQAKYPNQSLGLHLEGPDDTMIDTICANSDVIAKVTLAPENNKPEHIEKLVKAGIVVSIGHTNATYSEARKSFESGITFATHLFNAMTPMVGREPGVVGAIYDTPEVYAGIIADGFHVDYANIRIAHKIKGEKLVLVTDATAPAGAEMDYFIFVGKKVYYRDGKCVDENGTLGGSALTMIEAVQNTVEHVGIALDEALRMATLYPAKAIGVDEKLGRIKKGMIANLTVFDRDFNVKATVVNGQYEQ NAMYALTNCKIYTGNDVLVKHAVIINGDKIEAVCPIESLPSEMNVVDLNGANLSPGFIDLQLNGCGGVMFNDEITAETIDTMHKANLKSGCTSFLPTLITSSDENMRQAIAAAREYQAKYPNQSLGLHLEGPYLNVMKKGIHSVDFIRPSDDTMIDTICANSDVIAKVTLAPENNKPEHIEKLVKAGIVVSIGHTNATYSEARKSFESGITFATHLFNAMTPMVGREPGVVGAIYDTPEVYAGIIADGFHVDYANIRIAHKIKGEKLVLVTDATAPAGAEMDYFIFVGKKVYYRDGKCVDENGTLGGSALTMIEAVQNTVEHVGIALDEALRMATLYPAKAIGVDEKLGRIKKGMIANLTVFDRDFNVKATVVNGQYEQ 3ego-a1-m2-cB_3ego-a1-m1-cA Crystal structure of Probable 2-dehydropantoate 2-reductase panE from Bacillus Subtilis O34661 O34661 1.9 X-RAY DIFFRACTION 51 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 291 292 LKIGIIGGGSVGLLCAYYLSLYHDVTVVTRRQEQAAAIQSEGIRLYKGGEEFRADCSADTSINSDFDLLVVTVKQHQLQSVFSSLERIGKTNILFLQNGMGHIHDLKDWHVGHSIYVGIVEHGAVRKSDTAVDHTGLGAIKWSAFDDAEPDRLNILFQHNHSDFPIYYETDWYRLLTGKLIVNACINPLTALLQVKNGELLTTPAYLAFMKLVFQEACRILKLENEEKAWERVQAVCGQTKENRSSMLVDVIGGRQTEADAIIGYLLKEASLQGLDAVHLEFLYGSIKALE SLKIGIIGGGSVGLLCAYYLSLYHDVTVVTRRQEQAAAIQSEGIRLYKGGEEFRADCSADTSINSDFDLLVVTVKQHQLQSVFSSLERIGKTNILFLQNGMGHIHDLKDWHVGHSIYVGIVEHGAVRKSDTAVDHTGLGAIKWSAFDDAEPDRLNILFQHNHSDFPIYYETDWYRLLTGKLIVNACINPLTALLQVKNGELLTTPAYLAFMKLVFQEACRILKLENEEKAWERVQAVCGQTKENRSSMLVDVIGGRQTEADAIIGYLLKEASLQGLDAVHLEFLYGSIKALE 3egq-a1-m1-cB_3egq-a1-m1-cA Crystal structure of a tetr-family transcriptional regulator (af_1817) from archaeoglobus fulgidus at 2.55 A resolution O28458 O28458 2.55 X-RAY DIFFRACTION 73 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 153 154 TDQSVRIIEAALRLYKKPPHEVSIEEIAREAKVSKSLIFYHFESKQKLLEEAVHAFRKEEFNPRSVEEVVDYGIGFIAERREFIEFYALSQVRIEELERFGEALEKVASLFEGCRHPRETAIALALDGLSIYSLYFDLGKLEKYREIAEFVES TDQSVRIIEAALRLYKKPPHEVSIEEIAREAKVSKSLIFYHFESKQKLLEEAVHAFRKEEFNPRSVEEVVDYGIGFIAERREFIEFYALSQVRIEELERFGEALEKVASLFEGCRHPRETAIALALDGLSIYSLYFDLGKLEKYREIAEFVESR 3egr-a1-m2-cB_3egr-a1-m1-cA CRYSTAL STRUCTURE OF A PHENYLACETATE-COA OXYGENASE SUBUNIT PAAB (REUT_A2307) FROM RALSTONIA EUTROPHA JMP134 AT 2.65 A RESOLUTION Q46WB6 Q46WB6 2.65 X-RAY DIFFRACTION 28 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 61 62 3egr-a1-m1-cB_3egr-a1-m2-cA KEWPLWEVFVRSKQGLEHKHCGSLHATDAQQALHARDVYTRRQEGVSIWVVPSTAITASAP QKEWPLWEVFVRSKQGLEHKHCGSLHATDAQQALHARDVYTRRQEGVSIWVVPSTAITASAP 3egr-a1-m2-cB_3egr-a1-m2-cA CRYSTAL STRUCTURE OF A PHENYLACETATE-COA OXYGENASE SUBUNIT PAAB (REUT_A2307) FROM RALSTONIA EUTROPHA JMP134 AT 2.65 A RESOLUTION Q46WB6 Q46WB6 2.65 X-RAY DIFFRACTION 64 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 61 62 3egr-a1-m1-cB_3egr-a1-m1-cA KEWPLWEVFVRSKQGLEHKHCGSLHATDAQQALHARDVYTRRQEGVSIWVVPSTAITASAP QKEWPLWEVFVRSKQGLEHKHCGSLHATDAQQALHARDVYTRRQEGVSIWVVPSTAITASAP 3egw-a1-m1-cA_3egw-a1-m2-cA The crystal structure of the NarGHI mutant NarH - C16A P09152 P09152 1.9 X-RAY DIFFRACTION 70 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 1244 1244 1q16-a2-m1-cA_1q16-a2-m2-cA 1r27-a3-m1-cA_1r27-a3-m8-cC 1r27-a3-m2-cA_1r27-a3-m7-cC 1r27-a3-m3-cA_1r27-a3-m6-cC 1r27-a3-m4-cA_1r27-a3-m5-cC 1r27-a4-m1-cA_1r27-a4-m8-cC 1r27-a4-m2-cA_1r27-a4-m7-cC 1r27-a5-m1-cA_1r27-a5-m8-cC 1siw-a2-m1-cA_1siw-a2-m2-cA 1y4z-a2-m1-cA_1y4z-a2-m2-cA 1y5i-a2-m1-cA_1y5i-a2-m2-cA 1y5l-a2-m1-cA_1y5l-a2-m2-cA 1y5n-a2-m1-cA_1y5n-a2-m2-cA 3ir5-a2-m1-cA_3ir5-a2-m2-cA 3ir6-a2-m1-cA_3ir6-a2-m2-cA 3ir7-a4-m1-cA_3ir7-a4-m2-cA SKFLDRFRYAKQKGETFADGHGQLLNTNRDWEDGYRQRWQHDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPMMRKRLMKMWREAKALHSDPVEAWASIIEDADKAKSFKQARGRGGFVRSSWQEVNELIAASNVYTIKNYGPDRVAGFSPIPAMSMVSYASGARYLSLIGGTCLSFYDWYCDLPPASPQTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAVTPDYAEIAKLCDLWLAPKQGTDAAMALAMGHVMLREFHLDNPSQYFTDYVRRYTDMPMLVMLEERDGYYAAGRMLRAADLVAALGQENNPEWKTVAFNTNGEMVAPNGSIGFRWGEKGKWNLEQRDGKTGEETELQLSLLGSQDEIAEVGFPYFGGDGTEHFNKVELENVLLHKLPVKRLQLADGSTALVTTVYDLTLANYGLERGLNDVNCATSYDDVKAYTPAWAEQITGVSRSQIIRIAREFADNADKTHGRSMIIVGAGLNHWYHLDMNYRGLINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWQPLAFALDWQRPARHMNSTSYFYNHSSQWRYETVTAEELLSPMADKSRYTGHLIDFNVRAERMGWLPSAPQLGTNPLTIAGEAEKAGMNPVDYTVKSLKEGSIRFAAEQPENGKNHPRNLFIWRSNLLGSSGKGHEFMLKYLLGTEHGIQGKDLGQQGGVKPEEVDWQDNGLEGKLDLVVTLDFRLSSTCLYSDIILPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWEAKSDWEIYKAIAKKFSEVCVGHLGKETDIVTLPIQHDSAAELAQPLDVKDWKKGECDLIPGKTAPHIMVVERDYPATYERFTSIGPLMEKIGNGGKGIAWNTQSEMDLLRKLNYTKAEGPAKGQPMLNTAIDAAEMILTLAPETNGQVAVKAWAALSEFTGRDHTHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLEDEHVSYNAGYTNVHELIPWRTLSGRQQLYQDHQWMRDFGESLLVYRPPIDTRSVKEVIGQKSNGNQEKALNFLTPHQKWGIHSTYSDNLLMLTLGRGGPVVWLSEADAKDLGIADNDWIEVFNSNGALTARAVVSQRVPAGMTMMYHAQERIVNLPGSEITQQRGGIHNSVTRITPKPTHMIGGYAHLAYGFNYYGTVGSNRDEFVVVRKMKNIDWLDGEGNDQVQES SKFLDRFRYAKQKGETFADGHGQLLNTNRDWEDGYRQRWQHDKIVRSTHGVNCTGSCSWKIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPMMRKRLMKMWREAKALHSDPVEAWASIIEDADKAKSFKQARGRGGFVRSSWQEVNELIAASNVYTIKNYGPDRVAGFSPIPAMSMVSYASGARYLSLIGGTCLSFYDWYCDLPPASPQTWGEQTDVPESADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAVTPDYAEIAKLCDLWLAPKQGTDAAMALAMGHVMLREFHLDNPSQYFTDYVRRYTDMPMLVMLEERDGYYAAGRMLRAADLVAALGQENNPEWKTVAFNTNGEMVAPNGSIGFRWGEKGKWNLEQRDGKTGEETELQLSLLGSQDEIAEVGFPYFGGDGTEHFNKVELENVLLHKLPVKRLQLADGSTALVTTVYDLTLANYGLERGLNDVNCATSYDDVKAYTPAWAEQITGVSRSQIIRIAREFADNADKTHGRSMIIVGAGLNHWYHLDMNYRGLINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWQPLAFALDWQRPARHMNSTSYFYNHSSQWRYETVTAEELLSPMADKSRYTGHLIDFNVRAERMGWLPSAPQLGTNPLTIAGEAEKAGMNPVDYTVKSLKEGSIRFAAEQPENGKNHPRNLFIWRSNLLGSSGKGHEFMLKYLLGTEHGIQGKDLGQQGGVKPEEVDWQDNGLEGKLDLVVTLDFRLSSTCLYSDIILPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWEAKSDWEIYKAIAKKFSEVCVGHLGKETDIVTLPIQHDSAAELAQPLDVKDWKKGECDLIPGKTAPHIMVVERDYPATYERFTSIGPLMEKIGNGGKGIAWNTQSEMDLLRKLNYTKAEGPAKGQPMLNTAIDAAEMILTLAPETNGQVAVKAWAALSEFTGRDHTHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLEDEHVSYNAGYTNVHELIPWRTLSGRQQLYQDHQWMRDFGESLLVYRPPIDTRSVKEVIGQKSNGNQEKALNFLTPHQKWGIHSTYSDNLLMLTLGRGGPVVWLSEADAKDLGIADNDWIEVFNSNGALTARAVVSQRVPAGMTMMYHAQERIVNLPGSEITQQRGGIHNSVTRITPKPTHMIGGYAHLAYGFNYYGTVGSNRDEFVVVRKMKNIDWLDGEGNDQVQES 3egw-a1-m1-cB_3egw-a1-m2-cB The crystal structure of the NarGHI mutant NarH - C16A P11349 P11349 1.9 X-RAY DIFFRACTION 79 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 509 509 1q16-a2-m1-cB_1q16-a2-m2-cB 1siw-a2-m1-cB_1siw-a2-m2-cB 1y4z-a2-m1-cB_1y4z-a2-m2-cB 1y5i-a2-m1-cB_1y5i-a2-m2-cB 1y5l-a2-m1-cB_1y5l-a2-m2-cB 1y5n-a2-m1-cB_1y5n-a2-m2-cB 3ir5-a2-m1-cB_3ir5-a2-m2-cB 3ir6-a2-m1-cB_3ir6-a2-m2-cB 3ir7-a4-m1-cB_3ir7-a4-m2-cB MKIRSQVGMVLNLDKAIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQEKYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKSQPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVFLDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAETVDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHRELAREAFPEKNGCGFTFGDGCHGSDTKFNLFNSRRIDAIDVTSKTE MKIRSQVGMVLNLDKAIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQEKYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKSQPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYLPRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGKSEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVFLDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLSPIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAETVDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHRELAREAFPEKNGCGFTFGDGCHGSDTKFNLFNSRRIDAIDVTSKTE 3egw-a1-m1-cC_3egw-a1-m2-cC The crystal structure of the NarGHI mutant NarH - C16A P11350 P11350 1.9 X-RAY DIFFRACTION 57 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 224 224 1q16-a2-m1-cC_1q16-a2-m2-cC 1siw-a2-m1-cC_1siw-a2-m2-cC 1y4z-a2-m1-cC_1y4z-a2-m2-cC 1y5i-a2-m1-cC_1y5i-a2-m2-cC 1y5l-a2-m1-cC_1y5l-a2-m2-cC 1y5n-a2-m1-cC_1y5n-a2-m2-cC 3ir5-a2-m1-cC_3ir5-a2-m2-cC 3ir6-a2-m1-cC_3ir6-a2-m2-cC 3ir7-a4-m1-cC_3ir7-a4-m2-cC QFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFVGHFFGMLTPHWMAAAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRATTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH QFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGILGIFVGHFFGMLTPHWMAAAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRATTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGVAFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH 3eh7-a1-m1-cA_3eh7-a1-m2-cA The structure of a putative 4-hydroxybutyrate CoA-transferase from Porphyromonas gingivalis W83 Q7MWD3 Q7MWD3 2.05 X-RAY DIFFRACTION 96 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 389 389 AKDVLAEYASRIVSAEEAVKHIKNGERVALSHAAGVPQSCVDALVQQADLFVEIYHLCLGEGRADFIPVFFYEVPSIRKDILHIDVAIVQLSPDENGYCSFGVSCDYSKPAAESAHLVIGEINRQPYVHGDNLIHISKLDYIVADYPIYSLAKPKIGEVEEAIGRNCAELIEDGATLQLGIGAIPDAALLFLKDKKDLGIHTEFSDGVVELVRSGVITGKKKTLHPGKVATFLGSEDVYHFIDKNPDVELYPVDYVNDPRVIAQNDNVSINSCIEIDLGQVVSECIGSKQFSGTGGQVDYVRGAAWSKNGKSIAIPSTAKNGTASRIVPIIAEGAAVTTLRNEVDYVVTEYGIAQLKGKSLRQRAEALIAIAHPDFREELTKHLRKRFG AKDVLAEYASRIVSAEEAVKHIKNGERVALSHAAGVPQSCVDALVQQADLFVEIYHLCLGEGRADFIPVFFYEVPSIRKDILHIDVAIVQLSPDENGYCSFGVSCDYSKPAAESAHLVIGEINRQPYVHGDNLIHISKLDYIVADYPIYSLAKPKIGEVEEAIGRNCAELIEDGATLQLGIGAIPDAALLFLKDKKDLGIHTEFSDGVVELVRSGVITGKKKTLHPGKVATFLGSEDVYHFIDKNPDVELYPVDYVNDPRVIAQNDNVSINSCIEIDLGQVVSECIGSKQFSGTGGQVDYVRGAAWSKNGKSIAIPSTAKNGTASRIVPIIAEGAAVTTLRNEVDYVVTEYGIAQLKGKSLRQRAEALIAIAHPDFREELTKHLRKRFG 3ehc-a2-m1-cD_3ehc-a2-m1-cC Crystal structure of a snoal-like polyketide cyclase (atu3018) from agrobacterium tumefaciens str. c58 at 2.12 A resolution Q7CRD4 Q7CRD4 2.12 X-RAY DIFFRACTION 59 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 123 124 3ehc-a1-m1-cA_3ehc-a1-m1-cB TLNDIYLAYLDSLNHQAFDELGTFVDDNVEHNGRPFGLSGYRDLVKDFADIPDLRFEAEILVSDATRLAARLFFDCTPKSIFDLPVNGRRVQFCEHVFYDFEQAKIRRVWSVLDKVAIERQLG QTLNDIYLAYLDSLNHQAFDELGTFVDDNVEHNGRPFGLSGYRDLVKDFADIPDLRFEAEILVSDATRLAARLFFDCTPKSIFDLPVNGRRVQFCEHVFYDFEQAKIRRVWSVLDKVAIERQLG 3ehe-a1-m1-cA_3ehe-a1-m1-cB Crystal structure of UDP-glucose 4 epimerase (galE-1) from Archaeoglobus fulgidus O29886 O29886 1.87 X-RAY DIFFRACTION 80 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 290 290 LIVVTGGAGFIGSHVVDKLSESNEIVVIDNLSSGNEEFVNEAARLVKADLAADDIKDYLKGAEEVWHIAANPDVRGAENPDEIYRNNVLATYRLLEAMRKAGVSRIVFTSTSTVYGEAKVIPTPEDYPTHPISLYGASKLACEALIESYCHTFDMQAWIYRFANVIGRRSTHGVIYDFIMKLKRNPEELEILGNGEQNKSYIYISDCVDAMLFGLRGDERVNIFNIGSEDQIKVKRIAEIVCEELGLSPRFRFTMLLSIEKLKRLGWKPRYNSEEAVRMAVRDLVEDLDE LIVVTGGAGFIGSHVVDKLSESNEIVVIDNLSSGNEEFVNEAARLVKADLAADDIKDYLKGAEEVWHIAANPDVRGAENPDEIYRNNVLATYRLLEAMRKAGVSRIVFTSTSTVYGEAKVIPTPEDYPTHPISLYGASKLACEALIESYCHTFDMQAWIYRFANVIGRRSTHGVIYDFIMKLKRNPEELEILGNGEQNKSYIYISDCVDAMLFGLRGDERVNIFNIGSEDQIKVKRIAEIVCEELGLSPRFRFTMLLSIEKLKRLGWKPRYNSEEAVRMAVRDLVEDLDE 3ei9-a1-m1-cB_3ei9-a1-m1-cA Crystal structure of K270N variant of LL-diaminopimelate aminotransferase from Arabidopsis thaliana complexed with L-Glu: External aldimine form Q93ZN9 Q93ZN9 1.55 X-RAY DIFFRACTION 307 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 410 412 2z1z-a1-m1-cA_2z1z-a1-m1-cB 2z20-a1-m1-cB_2z20-a1-m1-cA 3ei5-a1-m1-cA_3ei5-a1-m1-cB 3ei6-a1-m1-cA_3ei6-a1-m1-cB 3ei7-a1-m1-cB_3ei7-a1-m1-cA 3ei8-a1-m1-cA_3ei8-a1-m1-cB 3eia-a1-m1-cB_3eia-a1-m1-cA 3eib-a1-m1-cB_3eib-a1-m1-cA EYKTKVSRNSNMSKLQAGYLFPEIARRRSAHLLKYPDAQVISLGIGDTTEPIPEVITSAMAKKAHELSTIEGYSGYGAEQGAKPLRAAIAKTFYGGLGIGDDDVFVSDGAKCDISRLQVMFGSNVTIAVQDPSYPAYVDSSVIMGQTGQFNTDVQKYGNIEYMRCTPENGFFPDLSTVGRTDIIFFCSPNNPTGAAATREQLTQLVEFAKKNGSIIVYDSAYAMYMSDDNPRSIFEIPGAEEVAMETASFSNYAGFTGVRLGWTVIPKKLLYSDGFPVAKDFNRIICTCFNGASNISQAGALACLTPEGLEAMHKVIGFYKENTNIIIDTFTSLGYDVYGGKNAPYVWVHFPNQSSWDVFAEILEKTHVVTTPGSGFGPGGEGFVRVSAFGHRENILEACRRFKQLYKHH EYKTKVSRNSNMSKLQAGYLFPEIARRRSAHLLKYPDAQVISLGIGDTTEPIPEVITSAMAKKAHELSTIEGYSGYGAEQGAKPLRAAIAKTFYGGLGIGDDDVFVSDGAKCDISRLQVMFGSNVTIAVQDPSYPAYVDSSVIMGQTGQFNTDVQKYGNIEYMRCTPENGFFPDLSTVGRTDIIFFCSPNNPTGAAATREQLTQLVEFAKKNGSIIVYDSAYAMYMSDDNPRSIFEIPGAEEVAMETASFSNYAGFTGVRLGWTVIPKKLLYSDGFPVAKDFNRIICTCFNGASNISQAGALACLTPEGLEAMHKVIGFYKENTNIIIDTFTSLGYDVYGGKNAPYVWVHFPNQSSWDVFAEILEKTHVVTTPGSGFGPGGEGFVRVSAFGHRENILEACRRFKQLYKHHHH 3eic-a1-m2-cC_3eic-a1-m2-cE X-ray structure of Acanthamoeba ployphaga mimivirus nucleoside diphosphate kinase complexed with UDP Q5UQL3 Q5UQL3 2.3 X-RAY DIFFRACTION 32 1.0 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 132 132 2b8p-a1-m1-cA_2b8p-a1-m2-cA 2b8p-a1-m1-cA_2b8p-a1-m3-cA 2b8p-a1-m1-cB_2b8p-a1-m2-cB 2b8p-a1-m1-cB_2b8p-a1-m3-cB 2b8p-a1-m2-cA_2b8p-a1-m3-cA 2b8p-a1-m2-cB_2b8p-a1-m3-cB 2b8q-a1-m1-cC_2b8q-a1-m1-cA 2b8q-a1-m1-cC_2b8q-a1-m1-cE 2b8q-a1-m1-cE_2b8q-a1-m1-cA 2b8q-a1-m2-cC_2b8q-a1-m2-cA 2b8q-a1-m2-cC_2b8q-a1-m2-cE 2b8q-a1-m2-cE_2b8q-a1-m2-cA 2b8q-a2-m1-cB_2b8q-a2-m1-cD 2b8q-a2-m1-cB_2b8q-a2-m1-cF 2b8q-a2-m1-cF_2b8q-a2-m1-cD 2b8q-a2-m3-cB_2b8q-a2-m3-cD 2b8q-a2-m3-cB_2b8q-a2-m3-cF 2b8q-a2-m3-cF_2b8q-a2-m3-cD 3b6b-a1-m1-cA_3b6b-a1-m1-cC 3b6b-a1-m1-cA_3b6b-a1-m1-cE 3b6b-a1-m1-cE_3b6b-a1-m1-cC 3b6b-a1-m2-cA_3b6b-a1-m2-cC 3b6b-a1-m2-cA_3b6b-a1-m2-cE 3b6b-a1-m2-cE_3b6b-a1-m2-cC 3b6b-a2-m1-cB_3b6b-a2-m1-cD 3b6b-a2-m1-cB_3b6b-a2-m1-cF 3b6b-a2-m1-cF_3b6b-a2-m1-cD 3b6b-a2-m3-cB_3b6b-a2-m3-cD 3b6b-a2-m3-cB_3b6b-a2-m3-cF 3b6b-a2-m3-cF_3b6b-a2-m3-cD 3ddi-a1-m1-cA_3ddi-a1-m2-cA 3ddi-a1-m1-cA_3ddi-a1-m3-cA 3ddi-a1-m1-cB_3ddi-a1-m2-cB 3ddi-a1-m1-cB_3ddi-a1-m3-cB 3ddi-a1-m2-cA_3ddi-a1-m3-cA 3ddi-a1-m2-cB_3ddi-a1-m3-cB 3dkd-a1-m1-cA_3dkd-a1-m2-cA 3dkd-a1-m1-cA_3dkd-a1-m3-cA 3dkd-a1-m1-cB_3dkd-a1-m2-cB 3dkd-a1-m1-cB_3dkd-a1-m3-cB 3dkd-a1-m2-cA_3dkd-a1-m3-cA 3dkd-a1-m2-cB_3dkd-a1-m3-cB 3ee3-a1-m1-cA_3ee3-a1-m1-cC 3ee3-a1-m1-cA_3ee3-a1-m1-cE 3ee3-a1-m1-cC_3ee3-a1-m1-cE 3ee3-a1-m2-cA_3ee3-a1-m2-cC 3ee3-a1-m2-cA_3ee3-a1-m2-cE 3ee3-a1-m2-cC_3ee3-a1-m2-cE 3ee3-a2-m1-cB_3ee3-a2-m1-cD 3ee3-a2-m1-cB_3ee3-a2-m1-cF 3ee3-a2-m1-cF_3ee3-a2-m1-cD 3ee3-a2-m3-cB_3ee3-a2-m3-cD 3ee3-a2-m3-cB_3ee3-a2-m3-cF 3ee3-a2-m3-cF_3ee3-a2-m3-cD 3eic-a1-m1-cC_3eic-a1-m1-cA 3eic-a1-m1-cC_3eic-a1-m1-cE 3eic-a1-m1-cE_3eic-a1-m1-cA 3eic-a1-m2-cC_3eic-a1-m2-cA 3eic-a1-m2-cE_3eic-a1-m2-cA 3eic-a2-m1-cB_3eic-a2-m1-cD 3eic-a2-m1-cB_3eic-a2-m1-cF 3eic-a2-m1-cF_3eic-a2-m1-cD 3eic-a2-m3-cB_3eic-a2-m3-cD 3eic-a2-m3-cB_3eic-a2-m3-cF 3eic-a2-m3-cF_3eic-a2-m3-cD 3ejm-a2-m1-cA_3ejm-a2-m2-cA 3ejm-a2-m1-cA_3ejm-a2-m3-cA 3ejm-a2-m1-cB_3ejm-a2-m2-cB 3ejm-a2-m1-cB_3ejm-a2-m3-cB 3ejm-a2-m2-cA_3ejm-a2-m3-cA 3ejm-a2-m2-cB_3ejm-a2-m3-cB 3elh-a1-m1-cC_3elh-a1-m1-cA 3elh-a1-m1-cC_3elh-a1-m1-cE 3elh-a1-m1-cE_3elh-a1-m1-cA 3elh-a1-m2-cC_3elh-a1-m2-cA 3elh-a1-m2-cC_3elh-a1-m2-cE 3elh-a1-m2-cE_3elh-a1-m2-cA 3elh-a2-m1-cB_3elh-a2-m1-cD 3elh-a2-m1-cB_3elh-a2-m1-cF 3elh-a2-m1-cF_3elh-a2-m1-cD 3elh-a2-m3-cB_3elh-a2-m3-cD 3elh-a2-m3-cB_3elh-a2-m3-cF 3elh-a2-m3-cF_3elh-a2-m3-cD 3em1-a1-m1-cA_3em1-a1-m2-cA 3em1-a1-m1-cA_3em1-a1-m3-cA 3em1-a1-m1-cB_3em1-a1-m2-cB 3em1-a1-m1-cB_3em1-a1-m3-cB 3em1-a1-m2-cA_3em1-a1-m3-cA 3em1-a1-m2-cB_3em1-a1-m3-cB 3emt-a1-m1-cA_3emt-a1-m2-cA 3emt-a1-m1-cA_3emt-a1-m3-cA 3emt-a1-m1-cB_3emt-a1-m2-cB 3emt-a1-m1-cB_3emt-a1-m3-cB 3emt-a1-m2-cA_3emt-a1-m3-cA 3emt-a1-m2-cB_3emt-a1-m3-cB 3ena-a1-m1-cA_3ena-a1-m2-cA 3ena-a1-m1-cA_3ena-a1-m3-cA 3ena-a1-m1-cB_3ena-a1-m2-cB 3ena-a1-m1-cB_3ena-a1-m3-cB 3ena-a1-m2-cA_3ena-a1-m3-cA 3ena-a1-m2-cB_3ena-a1-m3-cB 3etm-a1-m1-cA_3etm-a1-m2-cA 3etm-a1-m1-cA_3etm-a1-m3-cA 3etm-a1-m1-cB_3etm-a1-m2-cB 3etm-a1-m1-cB_3etm-a1-m3-cB 3etm-a1-m2-cA_3etm-a1-m3-cA 3etm-a1-m2-cB_3etm-a1-m3-cB 3evm-a1-m1-cA_3evm-a1-m2-cA 3evm-a1-m1-cA_3evm-a1-m3-cA 3evm-a1-m1-cB_3evm-a1-m2-cB 3evm-a1-m1-cB_3evm-a1-m3-cB 3evm-a1-m2-cA_3evm-a1-m3-cA 3evm-a1-m2-cB_3evm-a1-m3-cB 3evo-a1-m1-cA_3evo-a1-m2-cA 3evo-a1-m1-cA_3evo-a1-m3-cA 3evo-a1-m1-cB_3evo-a1-m2-cB 3evo-a1-m1-cB_3evo-a1-m3-cB 3evo-a1-m2-cA_3evo-a1-m3-cA 3evo-a1-m2-cB_3evo-a1-m3-cB 3evw-a1-m1-cC_3evw-a1-m1-cA 3evw-a1-m1-cC_3evw-a1-m1-cE 3evw-a1-m1-cE_3evw-a1-m1-cA 3evw-a1-m2-cC_3evw-a1-m2-cA 3evw-a1-m2-cC_3evw-a1-m2-cE 3evw-a1-m2-cE_3evw-a1-m2-cA 3evw-a2-m1-cB_3evw-a2-m1-cD 3evw-a2-m1-cB_3evw-a2-m1-cF 3evw-a2-m1-cF_3evw-a2-m1-cD 3evw-a2-m3-cB_3evw-a2-m3-cD 3evw-a2-m3-cB_3evw-a2-m3-cF 3evw-a2-m3-cF_3evw-a2-m3-cD 3fbb-a1-m1-cC_3fbb-a1-m1-cA 3fbb-a1-m1-cC_3fbb-a1-m1-cE 3fbb-a1-m1-cE_3fbb-a1-m1-cA 3fbb-a1-m2-cC_3fbb-a1-m2-cA 3fbb-a1-m2-cC_3fbb-a1-m2-cE 3fbb-a1-m2-cE_3fbb-a1-m2-cA 3fbb-a2-m1-cB_3fbb-a2-m1-cD 3fbb-a2-m1-cB_3fbb-a2-m1-cF 3fbb-a2-m1-cF_3fbb-a2-m1-cD 3fbb-a2-m3-cB_3fbb-a2-m3-cD 3fbb-a2-m3-cB_3fbb-a2-m3-cF 3fbb-a2-m3-cF_3fbb-a2-m3-cD 3fbc-a1-m1-cA_3fbc-a1-m1-cC 3fbc-a1-m1-cE_3fbc-a1-m1-cA 3fbc-a1-m1-cE_3fbc-a1-m1-cC 3fbc-a1-m2-cA_3fbc-a1-m2-cC 3fbc-a1-m2-cE_3fbc-a1-m2-cA 3fbc-a1-m2-cE_3fbc-a1-m2-cC 3fbc-a2-m1-cB_3fbc-a2-m1-cD 3fbc-a2-m1-cF_3fbc-a2-m1-cB 3fbc-a2-m1-cF_3fbc-a2-m1-cD 3fbc-a2-m3-cB_3fbc-a2-m3-cD 3fbc-a2-m3-cF_3fbc-a2-m3-cB 3fbc-a2-m3-cF_3fbc-a2-m3-cD 3fbe-a1-m1-cC_3fbe-a1-m1-cA 3fbe-a1-m1-cC_3fbe-a1-m1-cE 3fbe-a1-m1-cE_3fbe-a1-m1-cA 3fbe-a1-m2-cC_3fbe-a1-m2-cA 3fbe-a1-m2-cC_3fbe-a1-m2-cE 3fbe-a1-m2-cE_3fbe-a1-m2-cA 3fbe-a2-m1-cB_3fbe-a2-m1-cD 3fbe-a2-m1-cB_3fbe-a2-m1-cF 3fbe-a2-m1-cF_3fbe-a2-m1-cD 3fbe-a2-m3-cB_3fbe-a2-m3-cD 3fbe-a2-m3-cB_3fbe-a2-m3-cF 3fbe-a2-m3-cF_3fbe-a2-m3-cD 3fbf-a1-m1-cA_3fbf-a1-m1-cC 3fbf-a1-m1-cA_3fbf-a1-m1-cE 3fbf-a1-m1-cC_3fbf-a1-m1-cE 3fbf-a1-m2-cA_3fbf-a1-m2-cC 3fbf-a1-m2-cA_3fbf-a1-m2-cE 3fbf-a1-m2-cC_3fbf-a1-m2-cE 3fbf-a2-m1-cB_3fbf-a2-m1-cD 3fbf-a2-m1-cB_3fbf-a2-m1-cF 3fbf-a2-m1-cF_3fbf-a2-m1-cD 3fbf-a2-m3-cB_3fbf-a2-m3-cD 3fbf-a2-m3-cB_3fbf-a2-m3-cF 3fbf-a2-m3-cF_3fbf-a2-m3-cD 3fc9-a1-m1-cB_3fc9-a1-m1-cA 3fc9-a1-m1-cB_3fc9-a1-m1-cF 3fc9-a1-m1-cF_3fc9-a1-m1-cA 3fc9-a1-m2-cB_3fc9-a1-m2-cA 3fc9-a1-m2-cB_3fc9-a1-m2-cF 3fc9-a1-m2-cF_3fc9-a1-m2-cA 3fc9-a2-m1-cC_3fc9-a2-m1-cD 3fc9-a2-m1-cC_3fc9-a2-m1-cE 3fc9-a2-m1-cE_3fc9-a2-m1-cD 3fc9-a2-m3-cC_3fc9-a2-m3-cD 3fc9-a2-m3-cC_3fc9-a2-m3-cE 3fc9-a2-m3-cE_3fc9-a2-m3-cD 3fcv-a1-m1-cA_3fcv-a1-m2-cA 3fcv-a1-m1-cA_3fcv-a1-m3-cA 3fcv-a1-m1-cB_3fcv-a1-m2-cB 3fcv-a1-m1-cB_3fcv-a1-m3-cB 3fcv-a1-m2-cA_3fcv-a1-m3-cA 3fcv-a1-m2-cB_3fcv-a1-m3-cB 3fcw-a1-m1-cA_3fcw-a1-m1-cC 3fcw-a1-m1-cA_3fcw-a1-m1-cE 3fcw-a1-m1-cE_3fcw-a1-m1-cC 3fcw-a1-m2-cA_3fcw-a1-m2-cC 3fcw-a1-m2-cA_3fcw-a1-m2-cE 3fcw-a1-m2-cE_3fcw-a1-m2-cC 3fcw-a2-m1-cB_3fcw-a2-m1-cD 3fcw-a2-m1-cB_3fcw-a2-m1-cF 3fcw-a2-m1-cF_3fcw-a2-m1-cD 3fcw-a2-m3-cB_3fcw-a2-m3-cD 3fcw-a2-m3-cB_3fcw-a2-m3-cF 3fcw-a2-m3-cF_3fcw-a2-m3-cD 3g2x-a1-m1-cA_3g2x-a1-m1-cB 3g2x-a1-m1-cA_3g2x-a1-m1-cC 3g2x-a1-m1-cB_3g2x-a1-m1-cC 3g2x-a1-m2-cA_3g2x-a1-m2-cB 3g2x-a1-m2-cA_3g2x-a1-m2-cC 3g2x-a1-m2-cB_3g2x-a1-m2-cC 3g2x-a2-m1-cD_3g2x-a2-m1-cE 3g2x-a2-m1-cD_3g2x-a2-m1-cF 3g2x-a2-m1-cF_3g2x-a2-m1-cE 3g2x-a2-m3-cD_3g2x-a2-m3-cE 3g2x-a2-m3-cD_3g2x-a2-m3-cF 3g2x-a2-m3-cF_3g2x-a2-m3-cE 3gp9-a1-m1-cC_3gp9-a1-m1-cA 3gp9-a1-m1-cC_3gp9-a1-m1-cE 3gp9-a1-m1-cE_3gp9-a1-m1-cA 3gp9-a1-m2-cC_3gp9-a1-m2-cA 3gp9-a1-m2-cC_3gp9-a1-m2-cE 3gp9-a1-m2-cE_3gp9-a1-m2-cA 3gp9-a2-m1-cB_3gp9-a2-m1-cD 3gp9-a2-m1-cB_3gp9-a2-m1-cF 3gp9-a2-m1-cF_3gp9-a2-m1-cD 3gp9-a2-m3-cB_3gp9-a2-m3-cD 3gp9-a2-m3-cB_3gp9-a2-m3-cF 3gp9-a2-m3-cF_3gp9-a2-m3-cD 3gpa-a1-m1-cC_3gpa-a1-m1-cA 3gpa-a1-m1-cE_3gpa-a1-m1-cA 3gpa-a1-m1-cE_3gpa-a1-m1-cC 3gpa-a1-m2-cC_3gpa-a1-m2-cA 3gpa-a1-m2-cE_3gpa-a1-m2-cA 3gpa-a1-m2-cE_3gpa-a1-m2-cC 3gpa-a2-m1-cB_3gpa-a2-m1-cD 3gpa-a2-m1-cB_3gpa-a2-m1-cF 3gpa-a2-m1-cF_3gpa-a2-m1-cD 3gpa-a2-m3-cB_3gpa-a2-m3-cD 3gpa-a2-m3-cB_3gpa-a2-m3-cF 3gpa-a2-m3-cF_3gpa-a2-m3-cD GLQRTLVLIKPDAFERSLVAEIMGRIEKKNFKIVSMKFWSKAPRNLIEQHYKEHSEQSYFNDNCDFMVSGPIISIVYEGTDAISKIRRLQGNILTPGTIRGDLANDIRENLIHASDSEDSAVDEISIWFPET GLQRTLVLIKPDAFERSLVAEIMGRIEKKNFKIVSMKFWSKAPRNLIEQHYKEHSEQSYFNDNCDFMVSGPIISIVYEGTDAISKIRRLQGNILTPGTIRGDLANDIRENLIHASDSEDSAVDEISIWFPET 3ein-a1-m1-cA_3ein-a1-m2-cA Delta class GST P20432 P20432 1.126 X-RAY DIFFRACTION 79 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 207 207 3mak-a1-m1-cA_3mak-a1-m2-cA VDFYYLPGSSPCRSVIMTAKAVGVELNKKLLNLQAGEHLKPEFLKINPQHTIPTLVDNGFALWESRAIQVYLVEKYGKTDSLYPKCPKKRAVINQRLYFDMGTLYQSFANYYYPQVFAKAPADPEAFKKIEAAFEFLNTFLEGQDYAAGDSLTVADIALVATVSTFEVAKFEISKYANVNRWYENAKKVTPGWEENWAGCLEFKKYF VDFYYLPGSSPCRSVIMTAKAVGVELNKKLLNLQAGEHLKPEFLKINPQHTIPTLVDNGFALWESRAIQVYLVEKYGKTDSLYPKCPKKRAVINQRLYFDMGTLYQSFANYYYPQVFAKAPADPEAFKKIEAAFEFLNTFLEGQDYAAGDSLTVADIALVATVSTFEVAKFEISKYANVNRWYENAKKVTPGWEENWAGCLEFKKYF 3eip-a1-m1-cA_3eip-a1-m1-cB CRYSTAL STRUCTURE OF COLICIN E3 IMMUNITY PROTEIN: AN INHIBITOR TO A RIBOSOME-INACTIVATING RNASE P02984 P02984 1.8 X-RAY DIFFRACTION 28 1.0 316407 (Escherichia coli str. K-12 substr. W3110) 316407 (Escherichia coli str. K-12 substr. W3110) 84 84 GLKLDLTWFDKSTEDFKGEEYSKDFGDDGSVMESLGVPFKDNVNNGCFDVIAEWVPLLQPYFNHQIDISDNEYFVSFDYRDGDW GLKLDLTWFDKSTEDFKGEEYSKDFGDDGSVMESLGVPFKDNVNNGCFDVIAEWVPLLQPYFNHQIDISDNEYFVSFDYRDGDW 3eiv-a1-m1-cA_3eiv-a1-m1-cD Crystal Structure of Single-stranded DNA-binding protein from Streptomyces coelicolor Q9X8U3 Q9X8U3 2.141 X-RAY DIFFRACTION 50 0.99 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 98 100 ETVITVVGNLVDDPELRFTPSGAAVAKFRVASTPDGESLFLTCSVWRQAAENVAESLQRGMRVIVQGRLKQRSRTVYELDVDEVGASLRSATAKVTKT AGETVITVVGNLVDDPELRFTPSGAAVAKFRVASTPRDGESLFLTCSVWRQAAENVAESLQRGMRVIVQGRLKQRSTVYELDVDEVGASLRSATAKVTKT 3eiv-a2-m1-cA_3eiv-a2-m1-cB Crystal Structure of Single-stranded DNA-binding protein from Streptomyces coelicolor Q9X8U3 Q9X8U3 2.141 X-RAY DIFFRACTION 110 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 98 111 3eiv-a1-m1-cA_3eiv-a1-m1-cB ETVITVVGNLVDDPELRFTPSGAAVAKFRVASTPDGESLFLTCSVWRQAAENVAESLQRGMRVIVQGRLKQRSRTVYELDVDEVGASLRSATAKVTKT MAGETVITVVGNLVDDPELRFTPSGAAVAKFRVASTPRTDGESLFLTCSVWRQAAENVAESLQRGMRVIVQGRLKQRSYEDREGVKRTVYELDVDEVGASLRSATAKVTKT 3eiv-a3-m1-cD_3eiv-a3-m1-cC Crystal Structure of Single-stranded DNA-binding protein from Streptomyces coelicolor Q9X8U3 Q9X8U3 2.141 X-RAY DIFFRACTION 110 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 100 111 3eiv-a1-m1-cD_3eiv-a1-m1-cC AGETVITVVGNLVDDPELRFTPSGAAVAKFRVASTPRDGESLFLTCSVWRQAAENVAESLQRGMRVIVQGRLKQRSTVYELDVDEVGASLRSATAKVTKT AGETVITVVGNLVDDPELRFTPSGAAVAKFRVASTPRTFDRQTNEWKDGESLFLTCSVWRQAAENVAESLQRGMRVIVQGRLKQRSRTVYELDVDEVGASLRSATAKVTKT 3ej0-a1-m1-cA_3ej0-a1-m6-cA Crystal structure of inorganic pyrophosphatase from burkholderia pseudomallei with bound N-(pyridin-3-ylmethyl) aniline, H32 crystal form Q3JUV5 Q3JUV5 1.96 X-RAY DIFFRACTION 35 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 173 173 3eiy-a1-m1-cA_3eiy-a1-m5-cA 3eiy-a1-m2-cA_3eiy-a1-m4-cA 3eiy-a1-m3-cA_3eiy-a1-m6-cA 3eiz-a1-m1-cA_3eiz-a1-m6-cA 3eiz-a1-m2-cA_3eiz-a1-m5-cA 3eiz-a1-m3-cA_3eiz-a1-m4-cA 3ej0-a1-m2-cA_3ej0-a1-m5-cA 3ej0-a1-m3-cA_3ej0-a1-m4-cA 3ej2-a1-m1-cA_3ej2-a1-m4-cA 3ej2-a1-m2-cA_3ej2-a1-m6-cA 3ej2-a1-m3-cA_3ej2-a1-m5-cA 3gvf-a1-m1-cA_3gvf-a1-m6-cA 3gvf-a1-m2-cA_3gvf-a1-m5-cA 3gvf-a1-m3-cA_3gvf-a1-m4-cA FSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK FSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK 3ej0-a2-m2-cA_3ej0-a2-m3-cA Crystal structure of inorganic pyrophosphatase from burkholderia pseudomallei with bound N-(pyridin-3-ylmethyl) aniline, H32 crystal form Q3JUV5 Q3JUV5 1.96 X-RAY DIFFRACTION 48 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 173 173 3eiy-a1-m1-cA_3eiy-a1-m2-cA 3eiy-a1-m1-cA_3eiy-a1-m3-cA 3eiy-a1-m2-cA_3eiy-a1-m3-cA 3eiy-a1-m4-cA_3eiy-a1-m5-cA 3eiy-a1-m4-cA_3eiy-a1-m6-cA 3eiy-a1-m5-cA_3eiy-a1-m6-cA 3eiy-a2-m1-cA_3eiy-a2-m2-cA 3eiy-a2-m1-cA_3eiy-a2-m3-cA 3eiy-a2-m2-cA_3eiy-a2-m3-cA 3eiz-a1-m1-cA_3eiz-a1-m2-cA 3eiz-a1-m1-cA_3eiz-a1-m3-cA 3eiz-a1-m2-cA_3eiz-a1-m3-cA 3eiz-a1-m4-cA_3eiz-a1-m5-cA 3eiz-a1-m4-cA_3eiz-a1-m6-cA 3eiz-a1-m5-cA_3eiz-a1-m6-cA 3eiz-a2-m1-cA_3eiz-a2-m2-cA 3eiz-a2-m1-cA_3eiz-a2-m3-cA 3eiz-a2-m2-cA_3eiz-a2-m3-cA 3ej0-a1-m1-cA_3ej0-a1-m2-cA 3ej0-a1-m1-cA_3ej0-a1-m3-cA 3ej0-a1-m2-cA_3ej0-a1-m3-cA 3ej0-a1-m4-cA_3ej0-a1-m5-cA 3ej0-a1-m4-cA_3ej0-a1-m6-cA 3ej0-a1-m5-cA_3ej0-a1-m6-cA 3ej0-a2-m1-cA_3ej0-a2-m2-cA 3ej0-a2-m1-cA_3ej0-a2-m3-cA 3ej2-a1-m1-cA_3ej2-a1-m2-cA 3ej2-a1-m1-cA_3ej2-a1-m3-cA 3ej2-a1-m2-cA_3ej2-a1-m3-cA 3ej2-a1-m4-cA_3ej2-a1-m5-cA 3ej2-a1-m4-cA_3ej2-a1-m6-cA 3ej2-a1-m5-cA_3ej2-a1-m6-cA 3ej2-a2-m1-cA_3ej2-a2-m2-cA 3ej2-a2-m1-cA_3ej2-a2-m3-cA 3ej2-a2-m2-cA_3ej2-a2-m3-cA 3gvf-a1-m1-cA_3gvf-a1-m2-cA 3gvf-a1-m1-cA_3gvf-a1-m3-cA 3gvf-a1-m2-cA_3gvf-a1-m3-cA 3gvf-a1-m4-cA_3gvf-a1-m5-cA 3gvf-a1-m4-cA_3gvf-a1-m6-cA 3gvf-a1-m5-cA_3gvf-a1-m6-cA 3gvf-a2-m1-cA_3gvf-a2-m2-cA 3gvf-a2-m1-cA_3gvf-a2-m3-cA 3gvf-a2-m2-cA_3gvf-a2-m3-cA FSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK FSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK 3ejk-a1-m1-cA_3ejk-a1-m2-cA Crystal structure of dTDP Sugar Isomerase (YP_390184.1) from DESULFOVIBRIO DESULFURICANS G20 at 1.95 A resolution Q30V07 Q30V07 1.95 X-RAY DIFFRACTION 89 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 155 155 AILLPVEGAQLSELRQIPAEGGPVLHLRLDSPQFSQFGEIYFSEVLPRRVKAWKRHSLTQLFAVPVGCIHVVLYDGREKSPTSGRLAQVTLGRPDNYRLLRIPPQVWYGFAATGDTPALVANCTDIPHRQGESERAPQDAPFIPFSWAGADLSGT AILLPVEGAQLSELRQIPAEGGPVLHLRLDSPQFSQFGEIYFSEVLPRRVKAWKRHSLTQLFAVPVGCIHVVLYDGREKSPTSGRLAQVTLGRPDNYRLLRIPPQVWYGFAATGDTPALVANCTDIPHRQGESERAPQDAPFIPFSWAGADLSGT 3ejv-a1-m2-cA_3ejv-a1-m3-cA Crystal structure of a cystatin-like protein (saro_2766) from novosphingobium aromaticivorans dsm at 1.40 A resolution Q2G4M1 Q2G4M1 1.4 X-RAY DIFFRACTION 83 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 152 152 3ejv-a1-m1-cA_3ejv-a1-m2-cA 3ejv-a1-m1-cA_3ejv-a1-m3-cA TADETIILNVLGQYTRAHDRRDPDAAALFAPEATIEIVDAVGGASRSISRLEGRDAIRVAVRQAPHGYRAWSQNVVNAPIIVIEGDHAVLDAQFVFSILAAEVPDGGWPTGTFGAQGRIVPIEAGQYRLTLRTVADGWVISARIEHRLPAFG TADETIILNVLGQYTRAHDRRDPDAAALFAPEATIEIVDAVGGASRSISRLEGRDAIRVAVRQAPHGYRAWSQNVVNAPIIVIEGDHAVLDAQFVFSILAAEVPDGGWPTGTFGAQGRIVPIEAGQYRLTLRTVADGWVISARIEHRLPAFG 3ejx-a1-m1-cB_3ejx-a1-m1-cD Crystal structure of diaminopimelate epimerase from Arabidopsis thaliana in complex with LL-AziDAP Q9LFG2 Q9LFG2 1.95 X-RAY DIFFRACTION 10 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 288 301 3ejx-a1-m1-cC_3ejx-a1-m1-cF 3ekm-a1-m1-cC_3ekm-a1-m1-cD GVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALLH EKFSPASFLDKKETGVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALL 3ejx-a1-m1-cC_3ejx-a1-m1-cB Crystal structure of diaminopimelate epimerase from Arabidopsis thaliana in complex with LL-AziDAP Q9LFG2 Q9LFG2 1.95 X-RAY DIFFRACTION 21 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 287 288 3ejx-a1-m1-cA_3ejx-a1-m1-cB 3ejx-a1-m1-cA_3ejx-a1-m1-cC 3ekm-a1-m1-cA_3ekm-a1-m1-cB 3ekm-a1-m1-cA_3ekm-a1-m1-cC 3ekm-a1-m1-cB_3ekm-a1-m1-cC GVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALL GVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALLH 3ejx-a1-m1-cD_3ejx-a1-m1-cF Crystal structure of diaminopimelate epimerase from Arabidopsis thaliana in complex with LL-AziDAP Q9LFG2 Q9LFG2 1.95 X-RAY DIFFRACTION 20 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 301 301 3ejx-a1-m1-cE_3ejx-a1-m1-cD 3ekm-a1-m1-cD_3ekm-a1-m1-cF 3ekm-a1-m1-cE_3ekm-a1-m1-cD EKFSPASFLDKKETGVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALL EKFSPASFLDKKETGVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALL 3ejx-a1-m1-cE_3ejx-a1-m1-cB Crystal structure of diaminopimelate epimerase from Arabidopsis thaliana in complex with LL-AziDAP Q9LFG2 Q9LFG2 1.95 X-RAY DIFFRACTION 62 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 287 288 3ejx-a1-m1-cA_3ejx-a1-m1-cF 3ejx-a1-m1-cC_3ejx-a1-m1-cD 3ekm-a1-m1-cA_3ekm-a1-m1-cF 3ekm-a1-m1-cB_3ekm-a1-m1-cD 3ekm-a1-m1-cC_3ekm-a1-m1-cE GVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALL GVLHFVKYHGLGNDFILVDNRDSSEPKITQEQAAKLCDRNFGVGADGVIFAMPGVNGTDYAMRIFNSDGSEPEMCGNGVRCFARFIAELENLQGKHSFTIHTGAGLIVPEIQDDGQVKVDMGTPILKAQDVPTKLSGNKGEAVVEAELVVDGVSWNVTCVSMGNPHCITFGKKGGPNLKVDDLNLPEIGPKFEHHEMFPARTNTEFVEVLSRSHLKMRVWERGAGATLACGTGACALVVAAVLEGRADRKCTVDLPGGPLEIEWKQEDNHIYMTGPAEAVFYGSALLH 3ek1-a2-m1-cE_3ek1-a2-m1-cH Crystal structure of aldehyde dehydrogenase from brucella melitensis biovar abortus 2308 Q2YRI3 Q2YRI3 2.1 X-RAY DIFFRACTION 183 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 483 483 3ek1-a1-m1-cB_3ek1-a1-m1-cC 3ek1-a1-m1-cD_3ek1-a1-m1-cA 3ek1-a2-m1-cG_3ek1-a2-m1-cF MLALKDPSLLKSQCLVNGRWIDAADGTTIKVTNPADGSVIGTVPSLSVATIKEAIDASAKALSGWAAKTAKERAGILRKWFDLIIANADDIALIMTSEQGKPLAEARGEVLYAASFIEWFAEEAKRVYGDTIPAPQNGQRLTVIRQPVGVTAAITPWNFPAAMITRKAAPALAAGCTMIVRPADLTPLTALALGVLAEKAGIPAGVLQIVTGKAREIGAELTSNDTVRKLSFTGSTEVGRLLMAQCAPTIKRISLELGGNAPFIVFDDADLDAAVDGAMVSKYRNAGQTCVCANRIYVQRGVYDKFAEKLAAKVKELKVGNGTEPGVVIGPMIEEKAITKVKAHIEDAVSKGAKLITGGKELGGLFFEPGILTGVTSDMLVAKEETFGPLAPLFAFDTEEEVIAQANDTIFGLAAYFYTENFSRAIRVSEALEYGMVGHNTGLISNEVAPFGGVKQSGLGREGSKYGIEEYLETKYICSAYKR MLALKDPSLLKSQCLVNGRWIDAADGTTIKVTNPADGSVIGTVPSLSVATIKEAIDASAKALSGWAAKTAKERAGILRKWFDLIIANADDIALIMTSEQGKPLAEARGEVLYAASFIEWFAEEAKRVYGDTIPAPQNGQRLTVIRQPVGVTAAITPWNFPAAMITRKAAPALAAGCTMIVRPADLTPLTALALGVLAEKAGIPAGVLQIVTGKAREIGAELTSNDTVRKLSFTGSTEVGRLLMAQCAPTIKRISLELGGNAPFIVFDDADLDAAVDGAMVSKYRNAGQTCVCANRIYVQRGVYDKFAEKLAAKVKELKVGNGTEPGVVIGPMIEEKAITKVKAHIEDAVSKGAKLITGGKELGGLFFEPGILTGVTSDMLVAKEETFGPLAPLFAFDTEEEVIAQANDTIFGLAAYFYTENFSRAIRVSEALEYGMVGHNTGLISNEVAPFGGVKQSGLGREGSKYGIEEYLETKYICSAYKR 3ek1-a2-m1-cF_3ek1-a2-m1-cH Crystal structure of aldehyde dehydrogenase from brucella melitensis biovar abortus 2308 Q2YRI3 Q2YRI3 2.1 X-RAY DIFFRACTION 70 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 483 483 3ek1-a1-m1-cB_3ek1-a1-m1-cD 3ek1-a1-m1-cC_3ek1-a1-m1-cA 3ek1-a2-m1-cG_3ek1-a2-m1-cE MLALKDPSLLKSQCLVNGRWIDAADGTTIKVTNPADGSVIGTVPSLSVATIKEAIDASAKALSGWAAKTAKERAGILRKWFDLIIANADDIALIMTSEQGKPLAEARGEVLYAASFIEWFAEEAKRVYGDTIPAPQNGQRLTVIRQPVGVTAAITPWNFPAAMITRKAAPALAAGCTMIVRPADLTPLTALALGVLAEKAGIPAGVLQIVTGKAREIGAELTSNDTVRKLSFTGSTEVGRLLMAQCAPTIKRISLELGGNAPFIVFDDADLDAAVDGAMVSKYRNAGQTCVCANRIYVQRGVYDKFAEKLAAKVKELKVGNGTEPGVVIGPMIEEKAITKVKAHIEDAVSKGAKLITGGKELGGLFFEPGILTGVTSDMLVAKEETFGPLAPLFAFDTEEEVIAQANDTIFGLAAYFYTENFSRAIRVSEALEYGMVGHNTGLISNEVAPFGGVKQSGLGREGSKYGIEEYLETKYICSAYKR MLALKDPSLLKSQCLVNGRWIDAADGTTIKVTNPADGSVIGTVPSLSVATIKEAIDASAKALSGWAAKTAKERAGILRKWFDLIIANADDIALIMTSEQGKPLAEARGEVLYAASFIEWFAEEAKRVYGDTIPAPQNGQRLTVIRQPVGVTAAITPWNFPAAMITRKAAPALAAGCTMIVRPADLTPLTALALGVLAEKAGIPAGVLQIVTGKAREIGAELTSNDTVRKLSFTGSTEVGRLLMAQCAPTIKRISLELGGNAPFIVFDDADLDAAVDGAMVSKYRNAGQTCVCANRIYVQRGVYDKFAEKLAAKVKELKVGNGTEPGVVIGPMIEEKAITKVKAHIEDAVSKGAKLITGGKELGGLFFEPGILTGVTSDMLVAKEETFGPLAPLFAFDTEEEVIAQANDTIFGLAAYFYTENFSRAIRVSEALEYGMVGHNTGLISNEVAPFGGVKQSGLGREGSKYGIEEYLETKYICSAYKR 3ek1-a2-m1-cG_3ek1-a2-m1-cH Crystal structure of aldehyde dehydrogenase from brucella melitensis biovar abortus 2308 Q2YRI3 Q2YRI3 2.1 X-RAY DIFFRACTION 28 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 482 483 3ek1-a1-m1-cB_3ek1-a1-m1-cA 3ek1-a1-m1-cC_3ek1-a1-m1-cD 3ek1-a2-m1-cE_3ek1-a2-m1-cF LALKDPSLLKSQCLVNGRWIDAADGTTIKVTNPADGSVIGTVPSLSVATIKEAIDASAKALSGWAAKTAKERAGILRKWFDLIIANADDIALIMTSEQGKPLAEARGEVLYAASFIEWFAEEAKRVYGDTIPAPQNGQRLTVIRQPVGVTAAITPWNFPAAMITRKAAPALAAGCTMIVRPADLTPLTALALGVLAEKAGIPAGVLQIVTGKAREIGAELTSNDTVRKLSFTGSTEVGRLLMAQCAPTIKRISLELGGNAPFIVFDDADLDAAVDGAMVSKYRNAGQTCVCANRIYVQRGVYDKFAEKLAAKVKELKVGNGTEPGVVIGPMIEEKAITKVKAHIEDAVSKGAKLITGGKELGGLFFEPGILTGVTSDMLVAKEETFGPLAPLFAFDTEEEVIAQANDTIFGLAAYFYTENFSRAIRVSEALEYGMVGHNTGLISNEVAPFGGVKQSGLGREGSKYGIEEYLETKYICSAYKR MLALKDPSLLKSQCLVNGRWIDAADGTTIKVTNPADGSVIGTVPSLSVATIKEAIDASAKALSGWAAKTAKERAGILRKWFDLIIANADDIALIMTSEQGKPLAEARGEVLYAASFIEWFAEEAKRVYGDTIPAPQNGQRLTVIRQPVGVTAAITPWNFPAAMITRKAAPALAAGCTMIVRPADLTPLTALALGVLAEKAGIPAGVLQIVTGKAREIGAELTSNDTVRKLSFTGSTEVGRLLMAQCAPTIKRISLELGGNAPFIVFDDADLDAAVDGAMVSKYRNAGQTCVCANRIYVQRGVYDKFAEKLAAKVKELKVGNGTEPGVVIGPMIEEKAITKVKAHIEDAVSKGAKLITGGKELGGLFFEPGILTGVTSDMLVAKEETFGPLAPLFAFDTEEEVIAQANDTIFGLAAYFYTENFSRAIRVSEALEYGMVGHNTGLISNEVAPFGGVKQSGLGREGSKYGIEEYLETKYICSAYKR 3ek3-a1-m1-cA_3ek3-a1-m2-cA Crystal structure of Nitroreductase with Bound FMN (YP_211706.1) from Bacteroides fragilis NCTC 9343 at 1.70 A resolution Q5LDN3 Q5LDN3 1.7 X-RAY DIFFRACTION 167 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 184 184 TNEVLETIKARRSVRAYDRKQIPADDLNAILEAGAYAPSGHYETWHFTAVCNTVKLEELNERIKGAFAKSDDKHLRERGHSETYCCYYHAPTLVIVSNEPKQWWAGDCACAIENFLAATSLGIASCWINQLGTTCDDPEVRAYLTSLGVPENHKVYGCVALGYKAEGALLKEKTVKAGTITIVE TNEVLETIKARRSVRAYDRKQIPADDLNAILEAGAYAPSGHYETWHFTAVCNTVKLEELNERIKGAFAKSDDKHLRERGHSETYCCYYHAPTLVIVSNEPKQWWAGDCACAIENFLAATSLGIASCWINQLGTTCDDPEVRAYLTSLGVPENHKVYGCVALGYKAEGALLKEKTVKAGTITIVE 3ek6-a1-m1-cC_3ek6-a1-m1-cF Unique GTP-binding Pocket and Allostery of UMP Kinase from a Gram-Negative Phytopathogen Bacterium P59009 P59009 2.34 X-RAY DIFFRACTION 42 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 238 238 3ek5-a1-m1-cB_3ek5-a1-m1-cE 3ek5-a1-m1-cC_3ek5-a1-m1-cA 3ek5-a1-m1-cF_3ek5-a1-m1-cD 3ek6-a1-m1-cB_3ek6-a1-m1-cA 3ek6-a1-m1-cE_3ek6-a1-m1-cD ELSYRRILLKLSGEALMGDGDYGIDPKVINRLAHEVIEAQQAGAQVALVIGGGNIFRGAGLAASGMDRVTGDHMGMLATVINALAMQDALEKLGAKVRVMSAIKINDVCEDFIRRRAIRHLEKGRIAIFAAGTGNPFFTTDSGAALRAIEIGADLLLKATKVDGVYDKDPKKHSDAVRYDSLTYDEVIMQGLEVMDTAAFALARDSDLPLRIFGMSEPGVLLRILHGAQIGTLVQGRS ELSYRRILLKLSGEALMGDGDYGIDPKVINRLAHEVIEAQQAGAQVALVIGGGNIFRGAGLAASGMDRVTGDHMGMLATVINALAMQDALEKLGAKVRVMSAIKINDVCEDFIRRRAIRHLEKGRIAIFAAGTGNPFFTTDSGAALRAIEIGADLLLKATKVDGVYDKDPKKHSDAVRYDSLTYDEVIMQGLEVMDTAAFALARDSDLPLRIFGMSEPGVLLRILHGAQIGTLVQGRS 3ek6-a4-m1-cE_3ek6-a4-m1-cF Unique GTP-binding Pocket and Allostery of UMP Kinase from a Gram-Negative Phytopathogen Bacterium P59009 P59009 2.34 X-RAY DIFFRACTION 99 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 237 238 3ek5-a1-m1-cB_3ek5-a1-m1-cA 3ek5-a1-m1-cC_3ek5-a1-m1-cD 3ek5-a1-m1-cF_3ek5-a1-m1-cE 3ek6-a1-m1-cB_3ek6-a1-m1-cD 3ek6-a1-m1-cC_3ek6-a1-m1-cA 3ek6-a1-m1-cE_3ek6-a1-m1-cF 3ek6-a2-m1-cC_3ek6-a2-m1-cA 3ek6-a3-m1-cB_3ek6-a3-m1-cD ELSYRRILLKLSGEALMGDGDYGIDPKVINRLAHEVIEAQQAGAQVALVIGGGNIFRGAGLAASGMDRVTGDHMGMLATVINALAMQDALEKLGAKVRVMSAIKINDVCEDFIRRRAIRHLEKGRIAIFAAGTGNPFFTTDSGAALRAIEIGADLLLKATKVDGVYDKDPKKHSDAVRYDSLTYDEVIMQGLEVMDTAAFALARDSDLPLRIFGMSEPGVLLRILHGAQIGTLVQGR ELSYRRILLKLSGEALMGDGDYGIDPKVINRLAHEVIEAQQAGAQVALVIGGGNIFRGAGLAASGMDRVTGDHMGMLATVINALAMQDALEKLGAKVRVMSAIKINDVCEDFIRRRAIRHLEKGRIAIFAAGTGNPFFTTDSGAALRAIEIGADLLLKATKVDGVYDKDPKKHSDAVRYDSLTYDEVIMQGLEVMDTAAFALARDSDLPLRIFGMSEPGVLLRILHGAQIGTLVQGRS 3ekg-a1-m2-cA_3ekg-a1-m4-cB CRYSTAL STRUCTURE OF L-RHAMNONATE DEHYDRATASE FROM AZOTOBACTER VINELANDII complexed with Mg and L-TARTRATE C1DMY1 C1DMY1 1.6 X-RAY DIFFRACTION 101 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 380 380 2oz3-a1-m1-cA_2oz3-a1-m1-cB 2oz3-a1-m1-cC_2oz3-a1-m1-cD 2oz3-a1-m2-cA_2oz3-a1-m2-cB 2oz3-a1-m2-cC_2oz3-a1-m2-cD 2oz3-a2-m1-cF_2oz3-a2-m1-cG 2oz3-a3-m1-cF_2oz3-a3-m1-cG 2oz3-a3-m1-cH_2oz3-a3-m3-cE 2oz3-a3-m3-cF_2oz3-a3-m3-cG 2oz3-a3-m3-cH_2oz3-a3-m1-cE 3ekg-a1-m1-cA_3ekg-a1-m3-cB 3ekg-a1-m1-cB_3ekg-a1-m4-cA 3ekg-a1-m2-cB_3ekg-a1-m3-cA SLSIPTIKQVRAFVLRGGGADYHDQGDGHWIDDHISTPGKYPEYRQSRRSFGINVLGTLVVEIEASDGNVGFAVTTGGEPAAYIVEKHLARFLEGARVTDIERIWDQYNSTLYYGRKGLVINTISGVDLALWDLLGKVRREPVHQLLGGAVRDELQFYATGARPDLAQKGFIGGKPLHHGPSEGEEGLKKNLEELATRERVGPDFWLFDCWSLDLNYATRLARGAREYGLKWIEEALPPDDYWGYAELRRNAPTGVTTGEHEATRWGFRLLEGCCDIIQPDVGWCGGVTELLKISALADAHNALVVPHGSSVYSYHFVATRQNSPFAEFLAPKADQVVPFHPQLLGEPVPENGRRLSRLDQPGFGVTLNPECQLHRPYTH SLSIPTIKQVRAFVLRGGGADYHDQGDGHWIDDHISTPGKYPEYRQSRRSFGINVLGTLVVEIEASDGNVGFAVTTGGEPAAYIVEKHLARFLEGARVTDIERIWDQYNSTLYYGRKGLVINTISGVDLALWDLLGKVRREPVHQLLGGAVRDELQFYATGARPDLAQKGFIGGKPLHHGPSEGEEGLKKNLEELATRERVGPDFWLFDCWSLDLNYATRLARGAREYGLKWIEEALPPDDYWGYAELRRNAPTGVTTGEHEATRWGFRLLEGCCDIIQPDVGWCGGVTELLKISALADAHNALVVPHGSSVYSYHFVATRQNSPFAEFLAPKADQVVPFHPQLLGEPVPENGRRLSRLDQPGFGVTLNPECQLHRPYTH 3ekl-a1-m1-cA_3ekl-a1-m4-cA Structural Characterization of tetrameric Mycobacterium tuberculosis fructose 1,6-bisphosphate aldolase - substrate binding and catalysis mechanism of a class IIa bacterial aldolase P9WQA3 P9WQA3 1.51 X-RAY DIFFRACTION 14 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 333 333 3ekl-a1-m2-cA_3ekl-a1-m3-cA 3ekz-a1-m1-cA_3ekz-a1-m4-cA 3ekz-a1-m2-cA_3ekz-a1-m3-cA 3elf-a1-m1-cA_3elf-a1-m4-cA 3elf-a1-m2-cA_3elf-a1-m3-cA 4def-a1-m1-cA_4def-a1-m4-cA 4def-a1-m2-cA_4def-a1-m3-cA 4del-a1-m1-cA_4del-a1-m4-cA 4del-a1-m2-cA_4del-a1-m3-cA 4lv4-a1-m1-cA_4lv4-a1-m4-cA 4lv4-a1-m2-cA_4lv4-a1-m3-cA PIATPEVYAEMLGQAKQNSYAFPAINCTSSETVNAAIKGFADAGSDGIIQFSTGGAEFGSGLGVKDMVTGAVALAEFTHVIAAKYPVNVALHTDHCPKDKLDSYVRPLLAISAQRVSKGGNPLFQSHMWDGSAVPIDENLAIAQELLKAAAAAKIILEIEIGVVGGLYTSPEDFEKTIEALGAGEHGKYLLAATFGNVHGVYKPGNVKLRPDILAQGQQVAAAKLGLPADAKPFDFVFHGGSGSLKSEIEEALRYGVVKMNVDTDTQYAFTRPIAGHMFTNYDGVLKVDGEVGVKKVYDPRSYLKKAEASMSQRVVQACNDLHCAGKSLTHHH PIATPEVYAEMLGQAKQNSYAFPAINCTSSETVNAAIKGFADAGSDGIIQFSTGGAEFGSGLGVKDMVTGAVALAEFTHVIAAKYPVNVALHTDHCPKDKLDSYVRPLLAISAQRVSKGGNPLFQSHMWDGSAVPIDENLAIAQELLKAAAAAKIILEIEIGVVGGLYTSPEDFEKTIEALGAGEHGKYLLAATFGNVHGVYKPGNVKLRPDILAQGQQVAAAKLGLPADAKPFDFVFHGGSGSLKSEIEEALRYGVVKMNVDTDTQYAFTRPIAGHMFTNYDGVLKVDGEVGVKKVYDPRSYLKKAEASMSQRVVQACNDLHCAGKSLTHHH 3el6-a1-m1-cA_3el6-a1-m2-cA Crystal Structure of the Erythromycin Dehydratase Q03132 Q03132 1.85 X-RAY DIFFRACTION 102 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 271 271 DVSALGVRGAEHPLLLAAVDVPGHGGAVFTGRLSTDEQPWLAEHVVGGRTLVPGSVLVDLALAAGEDVGLPVLEELVLQRPLVLAGAGALLRMSVGAPDESGRRTIDVHAAEDVADLADAQWSQHATGTLAQGVAAGPRDTEQWPPEDAVRIPLDDHYDGLAEQGYEYGPSFQALRAAWRKDDSVYAEVSIAADEEGYAFHPVLLDAVAQTLSLGALGEKLPFAWNTVTLHASGATSVRVVATPAGADAMALRVTDPAGHLVATVDSLVVR DVSALGVRGAEHPLLLAAVDVPGHGGAVFTGRLSTDEQPWLAEHVVGGRTLVPGSVLVDLALAAGEDVGLPVLEELVLQRPLVLAGAGALLRMSVGAPDESGRRTIDVHAAEDVADLADAQWSQHATGTLAQGVAAGPRDTEQWPPEDAVRIPLDDHYDGLAEQGYEYGPSFQALRAAWRKDDSVYAEVSIAADEEGYAFHPVLLDAVAQTLSLGALGEKLPFAWNTVTLHASGATSVRVVATPAGADAMALRVTDPAGHLVATVDSLVVR 3elb-a2-m1-cA_3elb-a2-m2-cA Human CTP: Phosphoethanolamine Cytidylyltransferase in complex with CMP Q99447 Q99447 2 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 GRRAVRVWCDGCYDVHYGHSNQLRQARAGDYLIVGVHTDEEIAKHKGPPVFTQEERYKVQAIKWVDEVVPAAPYVTTLETLDKYNCDFCVHGNDITLTVDGRDTYEEVKQAGRYRECKRTQGVSTTDLVGRLLWTGVSQFLQTSQKIIQFASGKEPQPGETVIYVAGAFDLFHIGHVDFLEKVHRLAERPYIIAGLHFDQEVNHYKGKNYPINLHERTLSVLACRYVSEVVIGAPYAVTAELLSHFKVDLVCHGKTEIIPDRDGSDPYQEPKRRGIFRQIDSGSNLTTDLIVQRIIT GRRAVRVWCDGCYDVHYGHSNQLRQARAGDYLIVGVHTDEEIAKHKGPPVFTQEERYKVQAIKWVDEVVPAAPYVTTLETLDKYNCDFCVHGNDITLTVDGRDTYEEVKQAGRYRECKRTQGVSTTDLVGRLLWTGVSQFLQTSQKIIQFASGKEPQPGETVIYVAGAFDLFHIGHVDFLEKVHRLAERPYIIAGLHFDQEVNHYKGKNYPINLHERTLSVLACRYVSEVVIGAPYAVTAELLSHFKVDLVCHGKTEIIPDRDGSDPYQEPKRRGIFRQIDSGSNLTTDLIVQRIIT 3ele-a2-m1-cC_3ele-a2-m1-cD Crystal structure of Amino Transferase (RER070207001803) from Eubacterium rectale at 2.10 A resolution D0VX02 D0VX02 2.1 X-RAY DIFFRACTION 213 1.0 39491 ([Eubacterium] rectale) 39491 ([Eubacterium] rectale) 389 390 3ele-a1-m1-cA_3ele-a1-m1-cB VVNESYQLGSVRSAIRELFEYGKKRAAIVGKENVYDFSIGNPSIPAPQIVNDTIKELVTDYDSVALHGYTSAQGDVETRAAIAEFLNNTHGTHFNADNLYTGAAASLSICFRALTSDAYDEFITIAPYFPEYKVFVNAAGARLVEVPADTEHFQIDFDALEERINAHTRGVIINSPNNPSGTVYSEETIKKLSDLLEKKSKEIGRPIFIIADEPYREIVYDGIKVPFVTKYYDNTLVCYSYSKSLSLPGERIGYVLVPDEVYDKAELYAAVCGAGRALGYVCAPSLFQKIVKCQGATGDINAYKENRDLLYEGLTRIGYHCFKPDGAFYFVKALEDDSNAFCEKAKEEDVLIVAADGFGCPGWVRISYCVDREIKHSPAFEKIYKKYNK GVVNESYQLGSVRSAIRELFEYGKKRAAIVGKENVYDFSIGNPSIPAPQIVNDTIKELVTDYDSVALHGYTSAQGDVETRAAIAEFLNNTHGTHFNADNLYTGAAASLSICFRALTSDAYDEFITIAPYFPEYKVFVNAAGARLVEVPADTEHFQIDFDALEERINAHTRGVIINSPNNPSGTVYSEETIKKLSDLLEKKSKEIGRPIFIIADEPYREIVYDGIKVPFVTKYYDNTLVCYSYSKSLSLPGERIGYVLVPDEVYDKAELYAAVCGAGRALGYVCAPSLFQKIVKCQGATGDINAYKENRDLLYEGLTRIGYHCFKPDGAFYFVKALEDDSNAFCEKAKEEDVLIVAADGFGCPGWVRISYCVDREIKHSPAFEKIYKKYNK 3elf-a1-m2-cA_3elf-a1-m4-cA Structural Characterization of tetrameric Mycobacterium tuberculosis fructose 1,6-bisphosphate aldolase - substrate binding and catalysis mechanism of a class IIa bacterial aldolase P9WQA3 P9WQA3 1.31 X-RAY DIFFRACTION 17 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 332 332 3ekl-a1-m1-cA_3ekl-a1-m3-cA 3ekl-a1-m2-cA_3ekl-a1-m4-cA 3ekz-a1-m1-cA_3ekz-a1-m3-cA 3ekz-a1-m2-cA_3ekz-a1-m4-cA 3elf-a1-m1-cA_3elf-a1-m3-cA 4def-a1-m1-cA_4def-a1-m3-cA 4def-a1-m2-cA_4def-a1-m4-cA 4del-a1-m1-cA_4del-a1-m3-cA 4del-a1-m2-cA_4del-a1-m4-cA 4lv4-a1-m1-cA_4lv4-a1-m3-cA 4lv4-a1-m2-cA_4lv4-a1-m4-cA PIATPEVYAEMLGQAKQNSYAFPAINCTSSETVNAAIKGFADAGSDGIIQFSTGGAEFGSGLGVKDMVTGAVALAEFTHVIAAKYPVNVALHTDHCPKDKLDSYVRPLLAISAQRVSKGGNPLFQSHMWDGSAVPIDENLAIAQELLKAAAAAKIILEIEIGVVGGYTSPEDFEKTIEALGAGEHGKYLLAATFGNVHGVYKPGNVKLRPDILAQGQQVAAAKLGLPADAKPFDFVFHGGSGSLKSEIEEALRYGVVKMNVDTDTQYAFTRPIAGHMFTNYDGVLKVDGEVGVKKVYDPRSYLKKAEASMSQRVVQACNDLHCAGKSLTHHH PIATPEVYAEMLGQAKQNSYAFPAINCTSSETVNAAIKGFADAGSDGIIQFSTGGAEFGSGLGVKDMVTGAVALAEFTHVIAAKYPVNVALHTDHCPKDKLDSYVRPLLAISAQRVSKGGNPLFQSHMWDGSAVPIDENLAIAQELLKAAAAAKIILEIEIGVVGGYTSPEDFEKTIEALGAGEHGKYLLAATFGNVHGVYKPGNVKLRPDILAQGQQVAAAKLGLPADAKPFDFVFHGGSGSLKSEIEEALRYGVVKMNVDTDTQYAFTRPIAGHMFTNYDGVLKVDGEVGVKKVYDPRSYLKKAEASMSQRVVQACNDLHCAGKSLTHHH 3elf-a1-m3-cA_3elf-a1-m4-cA Structural Characterization of tetrameric Mycobacterium tuberculosis fructose 1,6-bisphosphate aldolase - substrate binding and catalysis mechanism of a class IIa bacterial aldolase P9WQA3 P9WQA3 1.31 X-RAY DIFFRACTION 188 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 332 332 3ekl-a1-m1-cA_3ekl-a1-m2-cA 3ekl-a1-m3-cA_3ekl-a1-m4-cA 3ekz-a1-m1-cA_3ekz-a1-m2-cA 3ekz-a1-m3-cA_3ekz-a1-m4-cA 3elf-a1-m1-cA_3elf-a1-m2-cA 4a21-a1-m1-cA_4a21-a1-m1-cB 4a21-a2-m1-cC_4a21-a2-m1-cD 4a22-a1-m1-cA_4a22-a1-m1-cB 4a22-a2-m1-cC_4a22-a2-m1-cD 4def-a1-m1-cA_4def-a1-m2-cA 4def-a1-m3-cA_4def-a1-m4-cA 4del-a1-m1-cA_4del-a1-m2-cA 4del-a1-m3-cA_4del-a1-m4-cA 4lv4-a1-m1-cA_4lv4-a1-m2-cA 4lv4-a1-m3-cA_4lv4-a1-m4-cA PIATPEVYAEMLGQAKQNSYAFPAINCTSSETVNAAIKGFADAGSDGIIQFSTGGAEFGSGLGVKDMVTGAVALAEFTHVIAAKYPVNVALHTDHCPKDKLDSYVRPLLAISAQRVSKGGNPLFQSHMWDGSAVPIDENLAIAQELLKAAAAAKIILEIEIGVVGGYTSPEDFEKTIEALGAGEHGKYLLAATFGNVHGVYKPGNVKLRPDILAQGQQVAAAKLGLPADAKPFDFVFHGGSGSLKSEIEEALRYGVVKMNVDTDTQYAFTRPIAGHMFTNYDGVLKVDGEVGVKKVYDPRSYLKKAEASMSQRVVQACNDLHCAGKSLTHHH PIATPEVYAEMLGQAKQNSYAFPAINCTSSETVNAAIKGFADAGSDGIIQFSTGGAEFGSGLGVKDMVTGAVALAEFTHVIAAKYPVNVALHTDHCPKDKLDSYVRPLLAISAQRVSKGGNPLFQSHMWDGSAVPIDENLAIAQELLKAAAAAKIILEIEIGVVGGYTSPEDFEKTIEALGAGEHGKYLLAATFGNVHGVYKPGNVKLRPDILAQGQQVAAAKLGLPADAKPFDFVFHGGSGSLKSEIEEALRYGVVKMNVDTDTQYAFTRPIAGHMFTNYDGVLKVDGEVGVKKVYDPRSYLKKAEASMSQRVVQACNDLHCAGKSLTHHH 3elk-a1-m1-cB_3elk-a1-m2-cB Crystal structure of putative transcriptional regulator TA0346 from Thermoplasma acidophilum Q9HL84 Q9HL84 1.7 X-RAY DIFFRACTION 97 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 99 99 ERILHGLITLYILKELVKRPHGYELQKSFETTGQALPGSIYILLKTKERGFVISESSVNEKGQQLTVYHITDAGKKFLDHSQALQLARKIIDDLLSTVD ERILHGLITLYILKELVKRPHGYELQKSFETTGQALPGSIYILLKTKERGFVISESSVNEKGQQLTVYHITDAGKKFLDHSQALQLARKIIDDLLSTVD 3elk-a2-m1-cB_3elk-a2-m1-cA Crystal structure of putative transcriptional regulator TA0346 from Thermoplasma acidophilum Q9HL84 Q9HL84 1.7 X-RAY DIFFRACTION 30 0.99 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 99 101 3elk-a1-m1-cB_3elk-a1-m1-cA 3elk-a1-m2-cB_3elk-a1-m2-cA ERILHGLITLYILKELVKRPHGYELQKSFETTGQALPGSIYILLKTKERGFVISESSVNEKGQQLTVYHITDAGKKFLDHSQALQLARKIIDDLLSTVD TRERILHGLITLYILKELVKRPHGYELQKSFETTGQALPQGSIYILLKTKERGFVISESSVNKGQQLTVYHITDAGKKFLDHSQALQLARKIIDDLLSTVD 3elo-a2-m2-cA_3elo-a2-m3-cA Crystal Structure of Human Pancreatic Prophospholipase A2 P04054 P04054 1.55 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 3elo-a2-m1-cA_3elo-a2-m2-cA 3elo-a2-m1-cA_3elo-a2-m3-cA DSGISPRAVWQFRKMIKCVIPGSDPFLEYNNYGCYCGLGGSGTPVDELDKCCQTHDNCYDQAKKLDSCKFLLDNPYTHTYSYSCSGSAITCSSKNKECEAFICNCDRNAAICFSKAPYNKAHKNLDTKKYCQS DSGISPRAVWQFRKMIKCVIPGSDPFLEYNNYGCYCGLGGSGTPVDELDKCCQTHDNCYDQAKKLDSCKFLLDNPYTHTYSYSCSGSAITCSSKNKECEAFICNCDRNAAICFSKAPYNKAHKNLDTKKYCQS 3elp-a2-m1-cC_3elp-a2-m3-cD Structure of cystationine gamma lyase P32929 P32929 2.4 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 343 343 3elp-a1-m1-cA_3elp-a1-m2-cB 3elp-a1-m1-cB_3elp-a1-m2-cA 3elp-a2-m1-cD_3elp-a2-m3-cC 5tt2-a1-m1-cC_5tt2-a1-m2-cD 5tt2-a1-m1-cD_5tt2-a1-m2-cC QGFLPHFQHFATQAIHVGQGNPTRNCLEKAVAALDGAKYCLAFASGLAATVTITHLLKAGDQIICMDDVYGGTNRYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATKYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMEKHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCTGMVTFYIKGTLQHAEIFLKNLKLFTLAESLGGFESLAELPAIMLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP QGFLPHFQHFATQAIHVGQGNPTRNCLEKAVAALDGAKYCLAFASGLAATVTITHLLKAGDQIICMDDVYGGTNRYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATKYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMEKHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCTGMVTFYIKGTLQHAEIFLKNLKLFTLAESLGGFESLAELPAIMLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP 3elp-a2-m3-cC_3elp-a2-m3-cD Structure of cystationine gamma lyase P32929 P32929 2.4 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 343 343 3elp-a1-m1-cA_3elp-a1-m1-cB 3elp-a1-m2-cA_3elp-a1-m2-cB 3elp-a2-m1-cC_3elp-a2-m1-cD 5tt2-a1-m1-cC_5tt2-a1-m1-cD 5tt2-a1-m2-cC_5tt2-a1-m2-cD QGFLPHFQHFATQAIHVGQGNPTRNCLEKAVAALDGAKYCLAFASGLAATVTITHLLKAGDQIICMDDVYGGTNRYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATKYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMEKHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCTGMVTFYIKGTLQHAEIFLKNLKLFTLAESLGGFESLAELPAIMLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP QGFLPHFQHFATQAIHVGQGNPTRNCLEKAVAALDGAKYCLAFASGLAATVTITHLLKAGDQIICMDDVYGGTNRYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATKYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMEKHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCTGMVTFYIKGTLQHAEIFLKNLKLFTLAESLGGFESLAELPAIMLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP 3els-a2-m1-cA_3els-a2-m6-cA Crystal Structure of Yeast Pml1p, Residues 51-204 Q07930 Q07930 1.8 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 145 145 3els-a2-m2-cA_3els-a2-m5-cA 3els-a2-m3-cA_3els-a2-m4-cA KHVEPQDAISPDNYMDMLGLEARDRTMYELVIYRKNDKDKGPWKRYDLNGRSCYLVGRELGHTEIVVADIGIPEETSSKQHCVIQFRNVRGILKCYVMDLDSSNGTCLNNVVIPGARYIELRSGDVLTLSEFEEDNDYELIFMNV KHVEPQDAISPDNYMDMLGLEARDRTMYELVIYRKNDKDKGPWKRYDLNGRSCYLVGRELGHTEIVVADIGIPEETSSKQHCVIQFRNVRGILKCYVMDLDSSNGTCLNNVVIPGARYIELRSGDVLTLSEFEEDNDYELIFMNV 3els-a2-m2-cA_3els-a2-m6-cA Crystal Structure of Yeast Pml1p, Residues 51-204 Q07930 Q07930 1.8 X-RAY DIFFRACTION 51 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 145 145 3els-a2-m1-cA_3els-a2-m4-cA 3els-a2-m3-cA_3els-a2-m5-cA KHVEPQDAISPDNYMDMLGLEARDRTMYELVIYRKNDKDKGPWKRYDLNGRSCYLVGRELGHTEIVVADIGIPEETSSKQHCVIQFRNVRGILKCYVMDLDSSNGTCLNNVVIPGARYIELRSGDVLTLSEFEEDNDYELIFMNV KHVEPQDAISPDNYMDMLGLEARDRTMYELVIYRKNDKDKGPWKRYDLNGRSCYLVGRELGHTEIVVADIGIPEETSSKQHCVIQFRNVRGILKCYVMDLDSSNGTCLNNVVIPGARYIELRSGDVLTLSEFEEDNDYELIFMNV 3els-a2-m5-cA_3els-a2-m6-cA Crystal Structure of Yeast Pml1p, Residues 51-204 Q07930 Q07930 1.8 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 145 145 3els-a2-m1-cA_3els-a2-m2-cA 3els-a2-m1-cA_3els-a2-m3-cA 3els-a2-m2-cA_3els-a2-m3-cA 3els-a2-m4-cA_3els-a2-m5-cA 3els-a2-m4-cA_3els-a2-m6-cA KHVEPQDAISPDNYMDMLGLEARDRTMYELVIYRKNDKDKGPWKRYDLNGRSCYLVGRELGHTEIVVADIGIPEETSSKQHCVIQFRNVRGILKCYVMDLDSSNGTCLNNVVIPGARYIELRSGDVLTLSEFEEDNDYELIFMNV KHVEPQDAISPDNYMDMLGLEARDRTMYELVIYRKNDKDKGPWKRYDLNGRSCYLVGRELGHTEIVVADIGIPEETSSKQHCVIQFRNVRGILKCYVMDLDSSNGTCLNNVVIPGARYIELRSGDVLTLSEFEEDNDYELIFMNV 3emf-a1-m1-cA_3emf-a1-m1-cC Crystal structure of Haemophilus influenzae HiaBD2 Q48152 Q48152 2 X-RAY DIFFRACTION 144 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 113 113 3emf-a1-m1-cB_3emf-a1-m1-cA 3emf-a1-m1-cB_3emf-a1-m1-cC TPVTNKLKAYGDANFNFTNNSIADAEKQVQEAYKGLLNLNEKNASDKLLVEDNTAATVGNLRKLGWVLSSKNGTRNEKSQQVKHADEVLFEGKGGVQVTSTSENGKHTITFAL TPVTNKLKAYGDANFNFTNNSIADAEKQVQEAYKGLLNLNEKNASDKLLVEDNTAATVGNLRKLGWVLSSKNGTRNEKSQQVKHADEVLFEGKGGVQVTSTSENGKHTITFAL 3emi-a1-m2-cA_3emi-a1-m3-cA Crystal structure of Hia 307-422 non-adhesive domain Q48152 Q48152 1.8 X-RAY DIFFRACTION 134 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 110 110 3emi-a1-m1-cA_3emi-a1-m2-cA 3emi-a1-m1-cA_3emi-a1-m3-cA TEVKIGAKTSVMKEKDGKLFTGKANKETNKVDGANATEDADEGKGLVTAKDVIDAVNKTGWRIKTTDANGQNGDFATVASGTNVTFASGNGTTATVTNGTDGITVKYDAK TEVKIGAKTSVMKEKDGKLFTGKANKETNKVDGANATEDADEGKGLVTAKDVIDAVNKTGWRIKTTDANGQNGDFATVASGTNVTFASGNGTTATVTNGTDGITVKYDAK 3emv-a1-m1-cA_3emv-a1-m6-cA Crystal structure of Plasmodium vivax PNP with sulphate A5K9M4 A5K9M4 1.85 X-RAY DIFFRACTION 136 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 246 246 3emv-a1-m2-cA_3emv-a1-m5-cA 3emv-a1-m3-cA_3emv-a1-m4-cA MEGEMQRHIKLTKAQTTPVVLVVGDPGRVDKVKVLCDSYVDLAYNREYKSVECTYKGQKFLCVSHGVGSAGCAICFEELMNNGAKVIIRAGSCGSLQPTQMKRGDICICNAAVREDRVSHLMIYSDFPAVADYEVYATLNQVAEELKVPVFNGISLSSDMYYPHKIIPTRLEDYSKANVAVVEMEVATLMVMGTLRKVKTGGIFIVDGCPLKWDEGDFDNNLVPERLENMIKISLETCARLAKKYL MEGEMQRHIKLTKAQTTPVVLVVGDPGRVDKVKVLCDSYVDLAYNREYKSVECTYKGQKFLCVSHGVGSAGCAICFEELMNNGAKVIIRAGSCGSLQPTQMKRGDICICNAAVREDRVSHLMIYSDFPAVADYEVYATLNQVAEELKVPVFNGISLSSDMYYPHKIIPTRLEDYSKANVAVVEMEVATLMVMGTLRKVKTGGIFIVDGCPLKWDEGDFDNNLVPERLENMIKISLETCARLAKKYL 3emv-a1-m2-cA_3emv-a1-m6-cA Crystal structure of Plasmodium vivax PNP with sulphate A5K9M4 A5K9M4 1.85 X-RAY DIFFRACTION 74 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 246 246 3emv-a1-m1-cA_3emv-a1-m4-cA 3emv-a1-m3-cA_3emv-a1-m5-cA MEGEMQRHIKLTKAQTTPVVLVVGDPGRVDKVKVLCDSYVDLAYNREYKSVECTYKGQKFLCVSHGVGSAGCAICFEELMNNGAKVIIRAGSCGSLQPTQMKRGDICICNAAVREDRVSHLMIYSDFPAVADYEVYATLNQVAEELKVPVFNGISLSSDMYYPHKIIPTRLEDYSKANVAVVEMEVATLMVMGTLRKVKTGGIFIVDGCPLKWDEGDFDNNLVPERLENMIKISLETCARLAKKYL MEGEMQRHIKLTKAQTTPVVLVVGDPGRVDKVKVLCDSYVDLAYNREYKSVECTYKGQKFLCVSHGVGSAGCAICFEELMNNGAKVIIRAGSCGSLQPTQMKRGDICICNAAVREDRVSHLMIYSDFPAVADYEVYATLNQVAEELKVPVFNGISLSSDMYYPHKIIPTRLEDYSKANVAVVEMEVATLMVMGTLRKVKTGGIFIVDGCPLKWDEGDFDNNLVPERLENMIKISLETCARLAKKYL 3en0-a1-m1-cB_3en0-a1-m1-cA The Structure of Cyanophycinase P73832 P73832 1.5 X-RAY DIFFRACTION 127 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 265 266 3en0-a2-m1-cC_3en0-a2-m2-cC 7uqw-a1-m1-cB_7uqw-a1-m1-cA 7uqw-a1-m2-cC_7uqw-a1-m3-cC 7uqw-a1-m4-cB_7uqw-a1-m4-cA SQPAILIIGGAEDKVHGREILQTFWSRSGGNDAIIGIIPSASREPLLIGERYQTIFSDMGVKELKVLDIRDRAQGDDSGYRLFVEQCTGIFMTGGDQLRLCGLLADTPLMDRIRQRVHNGEISLAGTSAGAAVMGHHMIAGGSSGEWPNRALVDMAVGLGIVPEIVVDQHFHNRNRMARLLSAISTHPELLGLGIDEDTCAMFERDGSVKVIGQGTVSFVDARDMSYTNAALVGANAPLSLHNLRLNILVHGEVYHQVKQRAFPR SSQPAILIIGGAEDKVHGREILQTFWSRSGGNDAIIGIIPSASREPLLIGERYQTIFSDMGVKELKVLDIRDRAQGDDSGYRLFVEQCTGIFMTGGDQLRLCGLLADTPLMDRIRQRVHNGEISLAGTSAGAAVMGHHMIAGGSSGEWPNRALVDMAVGLGIVPEIVVDQHFHNRNRMARLLSAISTHPELLGLGIDEDTCAMFERDGSVKVIGQGTVSFVDARDMSYTNAALVGANAPLSLHNLRLNILVHGEVYHQVKQRAFPR 3en8-a1-m1-cA_3en8-a1-m2-cA Crystal structure of NTF-2 like protein of unknown function (YP_553245.1) from BURKHOLDERIA XENOVORANS LB400 at 1.85 A resolution Q13PU4 Q13PU4 1.85 X-RAY DIFFRACTION 128 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 125 125 GREEKIREALNAHWQASAAGDFDAEHDIYDDDAICDYPQSGERILGRNLQALRSHHPGKPAGFEVRRIQGEGNLWITEYSISYNGRPAYTVSIEFRNGKVVHETQYFSDPFEAPGWRSQWVQQIG GREEKIREALNAHWQASAAGDFDAEHDIYDDDAICDYPQSGERILGRNLQALRSHHPGKPAGFEVRRIQGEGNLWITEYSISYNGRPAYTVSIEFRNGKVVHETQYFSDPFEAPGWRSQWVQQIG 3enk-a1-m1-cB_3enk-a1-m1-cA 1.9A crystal structure of udp-glucose 4-epimerase from burkholderia pseudomallei Q3JPI3 Q3JPI3 1.9 X-RAY DIFFRACTION 61 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 339 340 MSTKGTILVTGGAGYIGSHTAVELLAHGYDVVIADNLVNSKREAIARIEKITGKTPAFHETDVSDERALARIFDAHPITAAIHFAALKAVGESVAKPIEYYRNNLDSLLSLLRVMRERAVKRIVFSSSATVYGVPERSPIDETFPLSATNPYGQTKLMAEQILRDVEAADPSWRVATLRYFNPVGAHESGLIGEDPAGIPNNLMPYVAQVAVGKLEKLRVFGSDYPTPDGTGVRDYIHVVDLARGHIAALDALERRDASLTVNLGTGRGYSVLEVVRAFEKASGRAVPYELVARRPGDVAECYANPAAAAETIGWKAERDLERMCADHWRWQENNPRGF MSTKGTILVTGGAGYIGSHTAVELLAHGYDVVIADNLVNSKREAIARIEKITGKTPAFHETDVSDERALARIFDAHPITAAIHFAALKAVGESVAKPIEYYRNNLDSLLSLLRVMRERAVKRIVFSSSATVYGVPERSPIDETFPLSATNPYGQTKLMAEQILRDVEAADPSWRVATLRYFNPVGAHESGLIGEDPAGIPNNLMPYVAQVAVGKLEKLRVFGSDYPTPDGTGVRDYIHVVDLARGHIAALDALERRDASLTVNLGTGRGYSVLEVVRAFEKASGRAVPYELVARRPGDVAECYANPAAAAETIGWKAERDLERMCADHWRWQENNPRGFV 3enm-a2-m1-cB_3enm-a2-m2-cD The structure of the MAP2K MEK6 reveals an autoinhibitory dimer P52564 P52564 2.35 X-RAY DIFFRACTION 120 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 260 270 3enm-a1-m1-cC_3enm-a1-m1-cA KADDLELGRGAYGVVEKRHVPSGQIAVKRIRATVNSQEQKRLLDLDISRTVDCPFTVTFYGALFREGDVWICELDTSLDKFYKQVIDKGQTIPEDILGKIAVSIVKALEHLHSKLSVIHRDVKPSNVLINALGQVKCDFGISGYLVDDVKPYAPERINPELNQKSVKSDIWSLGITIELAILRFPYDSWGTPFQQLKQVVEEPSPQLPADKFSAEFVDFTSQCLKKNSKERPTYPELQHPFFTLHESKGTDVASFVKLIL ENFEVKADDLEPIELGRGAYGVVEKRHVPSGQIAVKRIRATVNSQEQKRLLDLDISRTVDCPFTVTFYGALFREGDVWICELDTSLDKFYKQVIDKGQTIPEDILGKIAVSIVKALEHLHSKLSVIHRDVKPSNVLINALGQVKCDFGISGYLVDDKPYAPERINPELNQKGYSVKSDIWSLGITIELAILRFPYDSWGTPFQQLKQVVEEPSPQLPADKFSAEFVDFTSQCLKKNSKERPTYPELQHPFFTLHESKGTDVASFVKLILA 3enn-a1-m1-cD_3enn-a1-m1-cB 2.1A crystal structure of glucose/ribitol dehydrogenase from brucella melitensis (p43212) Q2YMG6 Q2YMG6 2.1 X-RAY DIFFRACTION 140 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 234 242 3emk-a1-m1-cB_3emk-a1-m1-cD 3emk-a1-m1-cC_3emk-a1-m1-cA 3enn-a1-m1-cC_3enn-a1-m1-cA MFDLTGRKALVTGATGGLGEAIARALHAQGAIVGLHGTREEKLKELAAELGERIFVFPANLSDREAVKALGQKAEEEMGGVDILVNNAGITRDGLFVRMSDEDWDAVLTVNLTSVFNLTRELTHPMMRRRNGRIINITSIVGVTGNPGQANYCASKAGLIGFSKSLAQEIASRNVTVNCIAPGFIEKDAIMGNIPMKRMGVGADIAAAVVYLASDEAAYVTGQTLHVNGGMAMI PGSMFDLTGRKALVTGATGGLGEAIARALHAQGAIVGLHGTREEKLKELAAELGERIFVFPANLSDREAVKALGQKAEEEMGGVDILVNNAGITRDGLFVRMSDEDWDAVLTVNLTSVFNLTRELTHPMMRRRNGRIINITSIVGVTGNPGQANYCASKAGLIGFSKSLAQEIASRNVTVNCIAPGFIESNEKQKDAIMGNIPMKRMGVGADIAAAVVYLASDEAAYVTGQTLHVNGGMAMI 3enn-a1-m1-cD_3enn-a1-m1-cC 2.1A crystal structure of glucose/ribitol dehydrogenase from brucella melitensis (p43212) Q2YMG6 Q2YMG6 2.1 X-RAY DIFFRACTION 131 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 234 235 3emk-a1-m1-cB_3emk-a1-m1-cA 3emk-a1-m1-cC_3emk-a1-m1-cD 3enn-a1-m1-cA_3enn-a1-m1-cB MFDLTGRKALVTGATGGLGEAIARALHAQGAIVGLHGTREEKLKELAAELGERIFVFPANLSDREAVKALGQKAEEEMGGVDILVNNAGITRDGLFVRMSDEDWDAVLTVNLTSVFNLTRELTHPMMRRRNGRIINITSIVGVTGNPGQANYCASKAGLIGFSKSLAQEIASRNVTVNCIAPGFIEKDAIMGNIPMKRMGVGADIAAAVVYLASDEAAYVTGQTLHVNGGMAMI SMFDLTGRKALVTGATGGLGEAIARALHAQGAIVGLHGTREEKLKELAAELGERIFVFPANLSDREAVKALGQKAEEEMGGVDILVNNAGITRDGLFVRMSDEDWDAVLTVNLTSVFNLTRELTHPMMRRRNGRIINITSIVGVTGNPGQANYCASKAGLIGFSKSLAQEIASRNVTVNCIAPGFIEKDAIMGNIPMKRMGVGADIAAAVVYLASDEAAYVTGQTLHVNGGMAMI 3eno-a2-m1-cE_3eno-a2-m1-cF Crystal structure of Pyrococcus furiosus Pcc1 in complex with Thermoplasma acidophilum Kae1 Q8TZI1 Q8TZI1 3.0201 X-RAY DIFFRACTION 76 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 77 79 3enc-a1-m1-cA_3enc-a1-m1-cB 3eno-a1-m1-cD_3eno-a1-m1-cC 5jmv-a1-m1-cE_5jmv-a1-m1-cD 5jmv-a1-m1-cG_5jmv-a1-m1-cF RVQAKIEMEFPSEDVAKVVYEAVLYEHLSVPYRRSEIDFKLEGKKIILDIKATDSSALRGTVNSYLRWIKAAIDVIE AKRVQAKIEMEFPSEDVAKVVYEAVLYEHLSVPYRRSEIDFKLEGKKIILDIKATDSSALRGTVNSYLRWIKAAIDVIE 3enp-a1-m1-cA_3enp-a1-m1-cB Crystal structure of human cgi121 Q9Y3C4 Q9Y3C4 2.48 X-RAY DIFFRACTION 35 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 QLTHQLDLFPECRVTLLLFKDVKNAGDLRRKAEGTIDGSLINPTVIVDPFQILVAANKAVHLYKLGKKTRTLSTEIIFNLSPNNNISEALKKFGISANDTSILIVYIEEQINQEYLISQVEGHQVSLKNLPEINITEVKKIYKLSSQEESIGTLLDAIICRSTKDVL QLTHQLDLFPECRVTLLLFKDVKNAGDLRRKAEGTIDGSLINPTVIVDPFQILVAANKAVHLYKLGKKTRTLSTEIIFNLSPNNNISEALKKFGISANDTSILIVYIEEGEKQINQEYLISQVEGHQVSLKNLPEINITEVKKIYKLSSQEESIGTLLDAIICRSTK 3enu-a1-m1-cA_3enu-a1-m2-cA Crystal structure of Nitrollin, a betagamma-crystallin from Nitrosospira multiformis Q2YAE2 Q2YAE2 1.86 X-RAY DIFFRACTION 122 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 114 114 3ent-a1-m1-cA_3ent-a1-m1-cB TIEVPVLTFVPVQVSAELENRGCWVKFFDKKNFQGDSLFLSGPATLPRLIGPFGYDWENKVRSVKVGPRANLTIFDNHNYRDEDKFLDAGANVANLSKEMGFFDNFRSMVLNCI TIEVPVLTFVPVQVSAELENRGCWVKFFDKKNFQGDSLFLSGPATLPRLIGPFGYDWENKVRSVKVGPRANLTIFDNHNYRDEDKFLDAGANVANLSKEMGFFDNFRSMVLNCI 3enw-a1-m1-cA_3enw-a1-m1-cB Substrate and inhibitor complexes of ribose 5-phosphate isomerase from Vibrio vulnificus YJ016 Q7MHL9 Q7MHL9 2 X-RAY DIFFRACTION 84 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 217 217 3enq-a1-m1-cA_3enq-a1-m1-cB 3env-a1-m1-cA_3env-a1-m1-cB TQDEMKKAAGWAALKYVEKGSIVGVGTGSTVNHFIDALGTMSEEIKGAVSSSVASTEKLEALGIKIFDCNEVASLDIYVDGADEINADREMIKGGGAALTREKIVAAIADKFICIVDGTKAVDVLGTFPLPVEVIPMARSYVARQLVKLGGDPCYREGVITDNGNVILDVYGMKITNPKQLEDQINAIPGVVTVGLFAHRGADVVITGTPEGAKIEE TQDEMKKAAGWAALKYVEKGSIVGVGTGSTVNHFIDALGTMSEEIKGAVSSSVASTEKLEALGIKIFDCNEVASLDIYVDGADEINADREMIKGGGAALTREKIVAAIADKFICIVDGTKAVDVLGTFPLPVEVIPMARSYVARQLVKLGGDPCYREGVITDNGNVILDVYGMKITNPKQLEDQINAIPGVVTVGLFAHRGADVVITGTPEGAKIEE 3eo1-a2-m1-cI_3eo1-a2-m1-cL Structure of the Fab Fragment of GC-1008 in Complex with Transforming Growth Factor-Beta 3 P10600 P10600 3.1 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 1tgj-a1-m1-cA_1tgj-a1-m2-cA 1tgk-a1-m1-cA_1tgk-a1-m2-cA 2pjy-a1-m1-cA_2pjy-a1-m2-cA 3eo1-a1-m1-cC_3eo1-a1-m1-cF ALDTNYCFRNLEENCCVRPLYIDFRQDLGWKWVHEPKGYYANFCSGPCPYLRSADTTHSTVLGLYNTLNPEASASPCCVPQDLEPLTILYYVGRTPKVEQLSNMVVKSCKCS ALDTNYCFRNLEENCCVRPLYIDFRQDLGWKWVHEPKGYYANFCSGPCPYLRSADTTHSTVLGLYNTLNPEASASPCCVPQDLEPLTILYYVGRTPKVEQLSNMVVKSCKCS 3eo2-a1-m1-cA_3eo2-a1-m2-cA Crystal structure of the RhoGEF domain of human neuroepithelial cell-transforming gene 1 protein Q7Z628 Q7Z628 2.6 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 LTTREIRRQEAIYEMSRGEQDLIEDLKLARKAYHDPMLKLSIMSEEELTHIFGDLDSYIPLHEDLLTRIGEATKPDGTVEQIGHILVSWLPRLNAYRGYCSNQLAAKALLDQKKQDPRVQDFLQRCLESPFSRKLDLWSFLDIPRSRLVKYPLLLKEILKHTPKEHPDVQLLEDAILIIQGVLSDIN LTTREIRRQEAIYEMSRGEQDLIEDLKLARKAYHDPMLKLSIMSEEELTHIFGDLDSYIPLHEDLLTRIGEATKPDGTVEQIGHILVSWLPRLNAYRGYCSNQLAAKALLDQKKQDPRVQDFLQRCLESPFSRKLDLWSFLDIPRSRLVKYPLLLKEILKHTPKEHPDVQLLEDAILIIQGVLSDIN 3eo4-a2-m1-cC_3eo4-a2-m1-cD The crystal structure of a domain from Methanocaldococcus jannaschii DSM 2661 Q58462 Q58462 2.19 X-RAY DIFFRACTION 62 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 152 160 3eo4-a1-m1-cB_3eo4-a1-m1-cA DSKIIIRQITDNDLELLAWRSNPLIYKFFYIQKEPLKWEEHYSWWSRENRVDWIILLRENNTIRKVGSVNVSQLNTDNPEIGILIGEFFLWGKHIGRHSVSLVLKWLKNIGYKKAHARILENNIRSIKLFESLGFKKTKKGRENEWIYEVNL ANCKKIGEDSKIIIRQITDNDLELLAWRSNPLIYKFFYIQKEPLKWEEHYSWWSRENRVDWIILLRENNTIRKVGSVNVSQLNTDNPEIGILIGEFFLWGKHIGRHSVSLVLKWLKNIGYKKAHARILENNIRSIKLFESLGFKKTKKGRENEWIYEVNL 3eo6-a1-m1-cA_3eo6-a1-m1-cB Crystal structure of protein of unknown function (DUF1255) (AFE_2634) from ACIDITHIOBACILLUS FERROOXIDANS NCIB8455 at 0.97 A resolution 0.97 X-RAY DIFFRACTION 88 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 101 101 GAPDQQVPATALGKSSRISLDGRRSERSVILADGSHSLTLLHPGVYTLSSEVAETIRVLSGAYYHAEGANDVQELHAGDSVIPANQSYRLEVEPLDYLLSS GAPDQQVPATALGKSSRISLDGRRSERSVILADGSHSLTLLHPGVYTLSSEVAETIRVLSGAYYHAEGANDVQELHAGDSVIPANQSYRLEVEPLDYLLSS 3eo8-a3-m1-cE_3eo8-a3-m1-cF Crystal structure of BluB-like flavoprotein (YP_001089088.1) from CLOSTRIDIUM DIFFICILE 630 at 1.74 A resolution Q182R2 Q182R2 1.74 X-RAY DIFFRACTION 268 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 213 213 3eo8-a1-m1-cA_3eo8-a1-m1-cB 3eo8-a2-m1-cC_3eo8-a2-m1-cD GELQDTIFKRQSVRKFKNQDVSDEDILKIKAAGAAPSGKNIQNWHFVVIKRRDLEKIADVITKKQQEILVEDKVSVDKANRFRKFVKNFTLFYLKAPVLVLVFTKVYNPSGYYELELIDAPKETIDKLFIRNPGQSLGAAIENFTLSAIELGYGSCWLTSQNYAADEIEAVLEAETGFEKGEYFLGALALGVPEDNLKSPSKKPVEEICTFIK GELQDTIFKRQSVRKFKNQDVSDEDILKIKAAGAAPSGKNIQNWHFVVIKRRDLEKIADVITKKQQEILVEDKVSVDKANRFRKFVKNFTLFYLKAPVLVLVFTKVYNPSGYYELELIDAPKETIDKLFIRNPGQSLGAAIENFTLSAIELGYGSCWLTSQNYAADEIEAVLEAETGFEKGEYFLGALALGVPEDNLKSPSKKPVEEICTFIK 3eoe-a1-m1-cD_3eoe-a1-m1-cB Crystal Structure of Pyruvate Kinase from toxoplasma gondii, 55.m00007 Q969A2 Q969A2 2.31 X-RAY DIFFRACTION 57 0.995 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 382 483 3eoe-a1-m1-cA_3eoe-a1-m1-cC 3gg8-a1-m1-cA_3gg8-a1-m1-cD 3gg8-a1-m1-cB_3gg8-a1-m1-cC IRMSQILEPSEEDWTAHRTRIVCTMGPACWNVDTLVKMIDAGMNVCRLNFSHGDHETHARTVQNIQEAMKQRPEARLAILLDTKGPEILIMNLLPVIGEKDKHDILNFGIPMGCNFIAASFVQSADDVRYIRGLLGPRGRHIRIIPKIENVEGLVNFDEILAEADGIMIARGDLGMEIPPEKVFLAQKMMIAKCNVVGKPVITATQMLESMIKNPRPTRAEAADVANAVLDGTDCVMLSGETANGEFPVITVETMARICYEAETCVDYPALYRAMCLAPISTQEAVARAAVETAECVNAAIILALTETGQTARLIAKYRPMQPILALSASESTIKHLQVIRGVTTMQVPDHVIRNAIVVAELVTEGESIVAVHNLLKVLTVE MSQILEPRSEEDWTAHRTRIVCTMGPACWNVDTLVKMIDAGMNVCRLNFSHGDHETHARTVQNIQEAMKQRPEARLAILLDTKGPEIRTGFLKDHKPITLQQGATLKIVTDYNLIGDETTIACSYGALPQSVKPGNTILIADGSLSVKVVEVGSDYVITQAQNTATIGERKNMNLPNVKVQLPVIGEKDKHDILNFGIPMGCNFIAASFVQSADDVRYIRGLLGPRGRHIRIIPKIENVEGLVNFDEILAEADGIMIARGDLGMEIPPEKVFLAQKMMIAKCNVVGKPVITATQMLESMIKNPRPTRAEAADVANAVLDGTDCVMLSGETANGEFPVITVETMARICYEAETCVDYPALYRAMCLAVPPISTQEAVARAAVETAECVNAAIILALTETGQTARLIAKYRPMQPILALSASESTIKHLQVIRGVTTMQVPSFGTDHVIRNAIVVAKERELVTEGESIVAVHGMSSNLLKVLTVE 3eoe-a1-m1-cD_3eoe-a1-m1-cC Crystal Structure of Pyruvate Kinase from toxoplasma gondii, 55.m00007 Q969A2 Q969A2 2.31 X-RAY DIFFRACTION 112 0.984 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 382 475 3eoe-a1-m1-cA_3eoe-a1-m1-cB 3gg8-a1-m1-cA_3gg8-a1-m1-cC 3gg8-a1-m1-cB_3gg8-a1-m1-cD IRMSQILEPSEEDWTAHRTRIVCTMGPACWNVDTLVKMIDAGMNVCRLNFSHGDHETHARTVQNIQEAMKQRPEARLAILLDTKGPEILIMNLLPVIGEKDKHDILNFGIPMGCNFIAASFVQSADDVRYIRGLLGPRGRHIRIIPKIENVEGLVNFDEILAEADGIMIARGDLGMEIPPEKVFLAQKMMIAKCNVVGKPVITATQMLESMIKNPRPTRAEAADVANAVLDGTDCVMLSGETANGEFPVITVETMARICYEAETCVDYPALYRAMCLAPISTQEAVARAAVETAECVNAAIILALTETGQTARLIAKYRPMQPILALSASESTIKHLQVIRGVTTMQVPDHVIRNAIVVAELVTEGESIVAVHNLLKVLTVE QILEPRSEEDWTAHRTRIVCTMGPACWNVDTLVKMIDAGMNVCRLNFSHGDHETHARTVQNIQEAMKQRPEARLAILLDTKGPEIRTGFLKDHKPITLQQGATLKIVTDYNLIGDETTIACSYGALPQSVKPGNTILIADGSLSVKVVEVGSDYVITQAQNTATIGERKNMNLPNVKVQLPVIGEKDKHDILNFGIPMGCNFIAASFVQSADDVRYIRGLLGPRGRHIRIIPKIENVEGLVNFDEILAEADGIMIARGDLGMEIPPEKVFLAQKMMIAKCNVVGKPVITATQMLESMIKNPRPTRAEAADVANAVLDGTDCVMLSGETANGEFPVITVETMARICYEAETCVDYPALYRAMCLAVISTQEAVARAAVETAECVNAAIILALTETGQTARLIAKYRPMQPILALSASESTIKHLQVIRGVTTMQVPQGTDHVIRNAIVVAKERLVTEGESIVAVHGMNLLKVLTVE 3eof-a1-m1-cB_3eof-a1-m1-cA Crystal structure of putative oxidoreductase (YP_213212.1) from Bacteroides fragilis NCTC 9343 at 1.99 A resolution Q5L9C9 Q5L9C9 1.99 X-RAY DIFFRACTION 285 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 237 238 DTVKNRRTIRKYQQKDITPDLLNDLLETSFRASTGGQLYSVVVTRDAEKKEILSPAHFNQPVKEAPVVLTFCADFRRFCKYCQERNAVPGYGNLSFLNAADTLLVAQTFCTLAEEAGLGICYLGTTTYNPQIIDALHLPELVFPITTVTVGYPAESPKQVDRLPIEGIIHEESYHDYTAEDINRLYAYKESLPENKLFIEENQKETLPQVFTDVRYTKKDNEFSENLLKVLRRQGFD GDTVKNRRTIRKYQQKDITPDLLNDLLETSFRASTGGQLYSVVVTRDAEKKEILSPAHFNQPVKEAPVVLTFCADFRRFCKYCQERNAVPGYGNLSFLNAADTLLVAQTFCTLAEEAGLGICYLGTTTYNPQIIDALHLPELVFPITTVTVGYPAESPKQVDRLPIEGIIHEESYHDYTAEDINRLYAYKESLPENKLFIEENQKETLPQVFTDVRYTKKDNEFSENLLKVLRRQGFD 3eol-a1-m1-cA_3eol-a1-m2-cB 2.0A crystal structure of isocitrate lyase from Brucella melitensis (P43212) Q2YQA0 Q2YQA0 2 X-RAY DIFFRACTION 124 0.994 29459 (Brucella melitensis) 29459 (Brucella melitensis) 362 362 3e5b-a1-m1-cC_3e5b-a1-m1-cD 3eol-a1-m1-cB_3eol-a1-m2-cA DFYSLIPSAPKGRFDGIERAHTAEDVKRLRGSVEIKYSLAEMGANRLWKLIHEEDFVNALGALSGNQAMQMVRAGLKAIYLSNAGPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEGDPLDAFEIMKAYIEAGAAGVHFEDQLAGKVLIPTAAHIRNLNAARLAADVMGTPTLIVARTDAEAAKLLTSDIDERDQPFVDYEAGRTAEGFYQVKNGIEPCIARAIAYAPYCDLIWMETSKPDLAQARRFAEAVHKAHPGKLLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNYGMFELARGYKDRQMAAYSELQQAEFAAEADGYTATGYFDAVSLAITG DFYSLIPSAPKGRFDGIERAHTAEDVKRLRGSVEIKYSLAEMGANRLWKLIHEEDFVNALGALSGNQAMQMVRAGLKAIYLSAGPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEGDPLDAFEIMKAYIEAGAAGVHFEDQLAGGKVLIPTAAHIRNLNAARLAADVMGTPTLIVARTDAEAAKLLTSDIDERDQPFVDYEAGRTAEGFYQVKNGIEPCIARAIAYAPYCDLIWMETSKPDLAQARRFAEAVHKAHPGKLLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNYGMFELARGYKDRQMAAYSELQQAEFAAEADGYTATKGYFDAVSLAIT 3eol-a1-m1-cB_3eol-a1-m2-cB 2.0A crystal structure of isocitrate lyase from Brucella melitensis (P43212) Q2YQA0 Q2YQA0 2 X-RAY DIFFRACTION 195 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 362 362 3eol-a1-m1-cA_3eol-a1-m2-cA DFYSLIPSAPKGRFDGIERAHTAEDVKRLRGSVEIKYSLAEMGANRLWKLIHEEDFVNALGALSGNQAMQMVRAGLKAIYLSAGPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEGDPLDAFEIMKAYIEAGAAGVHFEDQLAGGKVLIPTAAHIRNLNAARLAADVMGTPTLIVARTDAEAAKLLTSDIDERDQPFVDYEAGRTAEGFYQVKNGIEPCIARAIAYAPYCDLIWMETSKPDLAQARRFAEAVHKAHPGKLLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNYGMFELARGYKDRQMAAYSELQQAEFAAEADGYTATKGYFDAVSLAIT DFYSLIPSAPKGRFDGIERAHTAEDVKRLRGSVEIKYSLAEMGANRLWKLIHEEDFVNALGALSGNQAMQMVRAGLKAIYLSAGPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEGDPLDAFEIMKAYIEAGAAGVHFEDQLAGGKVLIPTAAHIRNLNAARLAADVMGTPTLIVARTDAEAAKLLTSDIDERDQPFVDYEAGRTAEGFYQVKNGIEPCIARAIAYAPYCDLIWMETSKPDLAQARRFAEAVHKAHPGKLLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNYGMFELARGYKDRQMAAYSELQQAEFAAEADGYTATKGYFDAVSLAIT 3eol-a1-m2-cA_3eol-a1-m2-cB 2.0A crystal structure of isocitrate lyase from Brucella melitensis (P43212) Q2YQA0 Q2YQA0 2 X-RAY DIFFRACTION 28 0.994 29459 (Brucella melitensis) 29459 (Brucella melitensis) 362 362 3eol-a1-m1-cA_3eol-a1-m1-cB DFYSLIPSAPKGRFDGIERAHTAEDVKRLRGSVEIKYSLAEMGANRLWKLIHEEDFVNALGALSGNQAMQMVRAGLKAIYLSNAGPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEGDPLDAFEIMKAYIEAGAAGVHFEDQLAGKVLIPTAAHIRNLNAARLAADVMGTPTLIVARTDAEAAKLLTSDIDERDQPFVDYEAGRTAEGFYQVKNGIEPCIARAIAYAPYCDLIWMETSKPDLAQARRFAEAVHKAHPGKLLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNYGMFELARGYKDRQMAAYSELQQAEFAAEADGYTATGYFDAVSLAITG DFYSLIPSAPKGRFDGIERAHTAEDVKRLRGSVEIKYSLAEMGANRLWKLIHEEDFVNALGALSGNQAMQMVRAGLKAIYLSAGPELAKRINRTLQRADQIETAEGKGLSVDTWFAPIVADAEGDPLDAFEIMKAYIEAGAAGVHFEDQLAGGKVLIPTAAHIRNLNAARLAADVMGTPTLIVARTDAEAAKLLTSDIDERDQPFVDYEAGRTAEGFYQVKNGIEPCIARAIAYAPYCDLIWMETSKPDLAQARRFAEAVHKAHPGKLLAYNCSPSFNWKKNLDDATIAKFQRELGAMGYKFQFITLAGFHQLNYGMFELARGYKDRQMAAYSELQQAEFAAEADGYTATKGYFDAVSLAIT 3eoo-a4-m1-cK_3eoo-a4-m1-cP 2.9A crystal structure of methyl-isocitrate lyase from Burkholderia pseudomallei 2.9 X-RAY DIFFRACTION 31 1.0 331109 (Burkholderia pseudomallei 1655) 331109 (Burkholderia pseudomallei 1655) 286 286 3eoo-a1-m1-cB_3eoo-a1-m1-cD 3eoo-a1-m1-cC_3eoo-a1-m1-cA 3eoo-a2-m1-cF_3eoo-a2-m1-cN 3eoo-a2-m1-cM_3eoo-a2-m1-cE 3eoo-a3-m1-cG_3eoo-a3-m1-cI 3eoo-a3-m1-cH_3eoo-a3-m1-cJ 3eoo-a4-m1-cL_3eoo-a4-m1-cO ISAGAKFRAAVAAEQPLQVVGAITAYAAKMAEAVGFKAVYLSGGGVAANSLGIPDLGISTMDDVLVDANRITNATNLPLLVDIDTGWGGAFNIARTIRSFIKAGVGAVHLEDQVGQKRCGHRPGKECVPAGEMVDRIKAAVDARTDETFVIMARTDAAAAEGIDAAIERAIAYVEAGADMIFPEAMKTLDDYRRFKEAVKVPILANLTEFGSTPLFTLDELKGANVDIALYCCGAYRAMNKAALNFYETVRRDGTQKAAVPTMQTRAQLYDYLGYYAYEEKLDQLF ISAGAKFRAAVAAEQPLQVVGAITAYAAKMAEAVGFKAVYLSGGGVAANSLGIPDLGISTMDDVLVDANRITNATNLPLLVDIDTGWGGAFNIARTIRSFIKAGVGAVHLEDQVGQKRCGHRPGKECVPAGEMVDRIKAAVDARTDETFVIMARTDAAAAEGIDAAIERAIAYVEAGADMIFPEAMKTLDDYRRFKEAVKVPILANLTEFGSTPLFTLDELKGANVDIALYCCGAYRAMNKAALNFYETVRRDGTQKAAVPTMQTRAQLYDYLGYYAYEEKLDQLF 3eoo-a4-m1-cL_3eoo-a4-m1-cP 2.9A crystal structure of methyl-isocitrate lyase from Burkholderia pseudomallei 2.9 X-RAY DIFFRACTION 62 1.0 331109 (Burkholderia pseudomallei 1655) 331109 (Burkholderia pseudomallei 1655) 286 286 3eoo-a1-m1-cB_3eoo-a1-m1-cC 3eoo-a1-m1-cD_3eoo-a1-m1-cA 3eoo-a2-m1-cF_3eoo-a2-m1-cM 3eoo-a2-m1-cN_3eoo-a2-m1-cE 3eoo-a3-m1-cG_3eoo-a3-m1-cJ 3eoo-a3-m1-cH_3eoo-a3-m1-cI 3eoo-a4-m1-cK_3eoo-a4-m1-cO ISAGAKFRAAVAAEQPLQVVGAITAYAAKMAEAVGFKAVYLSGGGVAANSLGIPDLGISTMDDVLVDANRITNATNLPLLVDIDTGWGGAFNIARTIRSFIKAGVGAVHLEDQVGQKRCGHRPGKECVPAGEMVDRIKAAVDARTDETFVIMARTDAAAAEGIDAAIERAIAYVEAGADMIFPEAMKTLDDYRRFKEAVKVPILANLTEFGSTPLFTLDELKGANVDIALYCCGAYRAMNKAALNFYETVRRDGTQKAAVPTMQTRAQLYDYLGYYAYEEKLDQLF ISAGAKFRAAVAAEQPLQVVGAITAYAAKMAEAVGFKAVYLSGGGVAANSLGIPDLGISTMDDVLVDANRITNATNLPLLVDIDTGWGGAFNIARTIRSFIKAGVGAVHLEDQVGQKRCGHRPGKECVPAGEMVDRIKAAVDARTDETFVIMARTDAAAAEGIDAAIERAIAYVEAGADMIFPEAMKTLDDYRRFKEAVKVPILANLTEFGSTPLFTLDELKGANVDIALYCCGAYRAMNKAALNFYETVRRDGTQKAAVPTMQTRAQLYDYLGYYAYEEKLDQLF 3eoo-a4-m1-cP_3eoo-a4-m1-cO 2.9A crystal structure of methyl-isocitrate lyase from Burkholderia pseudomallei 2.9 X-RAY DIFFRACTION 226 1.0 331109 (Burkholderia pseudomallei 1655) 331109 (Burkholderia pseudomallei 1655) 286 288 3eoo-a1-m1-cB_3eoo-a1-m1-cA 3eoo-a1-m1-cC_3eoo-a1-m1-cD 3eoo-a2-m1-cF_3eoo-a2-m1-cE 3eoo-a2-m1-cM_3eoo-a2-m1-cN 3eoo-a3-m1-cG_3eoo-a3-m1-cH 3eoo-a3-m1-cJ_3eoo-a3-m1-cI 3eoo-a4-m1-cK_3eoo-a4-m1-cL ISAGAKFRAAVAAEQPLQVVGAITAYAAKMAEAVGFKAVYLSGGGVAANSLGIPDLGISTMDDVLVDANRITNATNLPLLVDIDTGWGGAFNIARTIRSFIKAGVGAVHLEDQVGQKRCGHRPGKECVPAGEMVDRIKAAVDARTDETFVIMARTDAAAAEGIDAAIERAIAYVEAGADMIFPEAMKTLDDYRRFKEAVKVPILANLTEFGSTPLFTLDELKGANVDIALYCCGAYRAMNKAALNFYETVRRDGTQKAAVPTMQTRAQLYDYLGYYAYEEKLDQLF LISAGAKFRAAVAAEQPLQVVGAITAYAAKMAEAVGFKAVYLSGGGVAANSLGIPDLGISTMDDVLVDANRITNATNLPLLVDIDTGWGGAFNIARTIRSFIKAGVGAVHLEDQVGQKRCGHRPGKECVPAGEMVDRIKAAVDARTDETFVIMARTDAAAAEGIDAAIERAIAYVEAGADMIFPEAMKTLDDYRRFKEAVKVPILANLTEFGSTPLFTLDELKGANVDIALYCCGAYRAMNKAALNFYETVRRDGTQKAAVPTMQTRAQLYDYLGYYAYEEKLDQLFN 3eoq-a1-m1-cA_3eoq-a1-m1-cB The crystal structure of putative zinc protease beta-subunit from Thermus thermophilus HB8 Q5SIV0 Q5SIV0 2.29 X-RAY DIFFRACTION 57 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 396 397 FREAELRNGLRVIAEVVPGARSVALGYFVKTGARDETKEESGVSHFLEHVFKGPEDDALAVNRAFDRGAQYNAFTSEEATVYYGAVLPEFAYDLLGLFAKLLRPALREEDFQTEKLVILEEIARYQDRPGFAYEWARARFFQGHPLGNSVLGTRESITALTREGAAYHRRRYLPKNVLAATGRVDFDRLLAEAERLTEAWPEGEAERAYPPLTPAFGVEERPYEKARALYLVALFPGVAYQEEARFPGQVLAHLLGEEGSGRLHFALVDKGLAEVASFGLEEADRAGTFHAYVQADPARKGEVLAVLQEELDRLGREGVGEEEVERAKTPLATGLVFAGETPQRLFHLGEYLYTGRYLSLEEVKARVQRVTSREVNALLERGFLEKGLYYLVLPHG FREAELRNGLRVIAEVVPGARSVALGYFVKTGARDETKEESGVSHFLEHVFKGPEDDALAVNRAFDRGAQYNAFTSEEATVYYGAVLPEFAYDLLGLFAKLLRPALREEDFQTEKLVILEEIARYQDRPGFAYEWARARFFQGHPLGNSVLGTRESITALTREGAAYHRRRYLPKNVLAATGRVDFDRLLAEAERLTEAWPEGEAERAYPPLTPAFGVEERPYEKARALYLVALFPGVAYQEEARFPGQVLAHLLGEEGSGRLHFALVDKGLAEVASFGLEEADRAGTFHAYVQADPARKGEVLAVLQEELDRLGREGVGEEEVERAKTPLATGLVFAGETPQRLFHLGEYLYTGRYLSLEEVKARVQRVTSREVNALLERGFLEKGLYYLVLPHGA 3eoy-a2-m1-cE_3eoy-a2-m1-cF Structure of Reovirus sigma1 in Complex with Its Receptor Junctional Adhesion Molecule-A P03528 P03528 3.4 X-RAY DIFFRACTION 94 1.0 10886 (Mammalian orthoreovirus 3 Dearing) 10886 (Mammalian orthoreovirus 3 Dearing) 160 160 1kke-a1-m1-cA_1kke-a1-m1-cC 1kke-a1-m1-cB_1kke-a1-m1-cA 1kke-a1-m1-cB_1kke-a1-m1-cC 2oj5-a1-m1-cA_2oj5-a1-m1-cB 2oj5-a1-m1-cA_2oj5-a1-m1-cC 2oj5-a1-m1-cC_2oj5-a1-m1-cB 2oj5-a2-m1-cD_2oj5-a2-m1-cE 2oj5-a2-m1-cD_2oj5-a2-m1-cF 2oj5-a2-m1-cE_2oj5-a2-m1-cF 2oj6-a1-m1-cA_2oj6-a1-m1-cB 2oj6-a1-m1-cA_2oj6-a1-m1-cC 2oj6-a1-m1-cB_2oj6-a1-m1-cC 2oj6-a2-m1-cD_2oj6-a2-m1-cE 2oj6-a2-m1-cD_2oj6-a2-m1-cF 2oj6-a2-m1-cE_2oj6-a2-m1-cF 3eoy-a1-m1-cA_3eoy-a1-m1-cC 3eoy-a1-m1-cB_3eoy-a1-m1-cA 3eoy-a1-m1-cB_3eoy-a1-m1-cC 3eoy-a2-m1-cE_3eoy-a2-m1-cD 3eoy-a2-m1-cF_3eoy-a2-m1-cD 3s6x-a1-m1-cA_3s6x-a1-m1-cB 3s6x-a1-m1-cA_3s6x-a1-m1-cC 3s6x-a1-m1-cC_3s6x-a1-m1-cB 3s6y-a1-m1-cA_3s6y-a1-m1-cB 3s6y-a1-m1-cA_3s6y-a1-m1-cC 3s6y-a1-m1-cC_3s6y-a1-m1-cB 3s6z-a1-m1-cA_3s6z-a1-m1-cB 3s6z-a1-m1-cA_3s6z-a1-m1-cC 3s6z-a1-m1-cC_3s6z-a1-m1-cB 5mhr-a1-m1-cA_5mhr-a1-m1-cB 5mhr-a1-m1-cA_5mhr-a1-m1-cC 5mhr-a1-m1-cC_5mhr-a1-m1-cB 5mhr-a2-m1-cD_5mhr-a2-m1-cF 5mhr-a2-m1-cE_5mhr-a2-m1-cD 5mhr-a2-m1-cE_5mhr-a2-m1-cF NLRYPIADVSGGIGMSPNYRFRQSMWIGIVSYSGSGLNWRVQVNSDIFIVDDYIHICLPAFDGFSIADGGDLSLNFVTGLLPPLLTGDTEPAFHNDVVTYGAQTVAIGLSSGGTPQYMSKNLWVEQWQDGVLRLRVEGGGSITHSNSKWPAMTVSYPRSF NLRYPIADVSGGIGMSPNYRFRQSMWIGIVSYSGSGLNWRVQVNSDIFIVDDYIHICLPAFDGFSIADGGDLSLNFVTGLLPPLLTGDTEPAFHNDVVTYGAQTVAIGLSSGGTPQYMSKNLWVEQWQDGVLRLRVEGGGSITHSNSKWPAMTVSYPRSF 3eoz-a1-m1-cA_3eoz-a1-m2-cA Crystal Structure of Phosphoglycerate Mutase from Plasmodium Falciparum, PFD0660w Q8I1V2 Q8I1V2 2.4 X-RAY DIFFRACTION 48 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 158 158 NTTKHIILVRHGTKEGCKQADITGKKLKDILNNKKVSVIYHSDIRAKETANIISKYFPDANLINDPNLNEGTKRINKAYETYFYKPSGDEDEYQLVICHGNVIRYFLCRALQIPLFAWLRFSSYNCGITWLVLDDEGSVVLREFGSVSHLPFESVTYF NTTKHIILVRHGTKEGCKQADITGKKLKDILNNKKVSVIYHSDIRAKETANIISKYFPDANLINDPNLNEGTKRINKAYETYFYKPSGDEDEYQLVICHGNVIRYFLCRALQIPLFAWLRFSSYNCGITWLVLDDEGSVVLREFGSVSHLPFESVTYF 3eoz-a1-m1-cB_3eoz-a1-m2-cB Crystal Structure of Phosphoglycerate Mutase from Plasmodium Falciparum, PFD0660w Q8I1V2 Q8I1V2 2.4 X-RAY DIFFRACTION 31 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 174 174 TKHIILVRHRLTKEGCKQADITGKKLKDILNNKKVSVIYHSDIRAKETANIISKYFPDANLINDPNLNEGTPYLPDPLPRHSKFDAQKIKEDNKRINKAYETYFYKPSDEDEYQLVICHGNVIRYFLCRALQIPLFAWLRFYNCGITWLVLDGSVVLREFGSVSHLPFESVTYF TKHIILVRHRLTKEGCKQADITGKKLKDILNNKKVSVIYHSDIRAKETANIISKYFPDANLINDPNLNEGTPYLPDPLPRHSKFDAQKIKEDNKRINKAYETYFYKPSDEDEYQLVICHGNVIRYFLCRALQIPLFAWLRFYNCGITWLVLDGSVVLREFGSVSHLPFESVTYF 3ep1-a1-m1-cB_3ep1-a1-m1-cA Structure of the PGRP-Hd from Alvinella pompejana D0VX04 D0VX04 2.1 X-RAY DIFFRACTION 54 1.0 6376 (Alvinella pompejana) 6376 (Alvinella pompejana) 164 167 LADSIVPRQQWAAIEPRRQIKMNGRADEIFLWQTGPDTCSGCLQDSSCTEQIVKALQDADFKEGNDDIKYNFLIDQDGVIYEGRGWGVVGQHTKGRDSHSIGVAVIGDFGKKEPSQALQDALSKLIICGQAAEELSSGARLRTTPAMSGQAFYDMLDRCDGLCL LADSIVPRQQWAAIEPRRQIKMNGRADEIFLWQTGPDTCSLMGGCLQDSSCTEQIVKALQDADFKEGNDDIKYNFLIDQDGVIYEGRGWGVVGQHTKGRDSHSIGVAVIGDFGKKEPSQALQDALSKLIICGQAAEELSSGARLRTTPAMSGQAFYDMLDRCDGLCL 3epj-a1-m1-cA_3epj-a1-m1-cB Crystallographic snapshots of eukaryotic dimethylallyltransferase acting on tRNA: Insight into tRNA recognition and reaction mechanism P07884 P07884 3.1 X-RAY DIFFRACTION 58 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 402 402 3eph-a1-m1-cA_3eph-a1-m1-cB 3epk-a1-m1-cA_3epk-a1-m1-cB 3epl-a1-m1-cA_3epl-a1-m1-cB SKKVIVIAGTTGVGKSQLSIQLAQKFNGEVINSDSMQVYKDIPIITNKHPLQEREGIPHHVMNHVDWSEEYYSHRFETECMNAIEDIHRRGKIPIVVGGTHYYLQTLFNKRVDTKSSERKLTRKQLDILESTDPDVIYNTLVKCDPDIATKYHPNDYRRVQRMLEIYYKTGKKPSETFNEQKITLKFDTLFLWLYSKPEPLFQRLDDRVDDMLERGALQEIKQLYEYYSQNKFTPEQCENGVWQVIGFKEFLPWLTVKLEDCIERMKTRTRQYAKRQVKWIKKMLIPDIKGDIYLLDATDLSQWDTNASQRAIAISNDFISNRPIKQERAPKALEELLSKGETTMKKLDDWTHYTCNVCRNADGKNVVAIGEKYWKIHLGSRRHKSNLKRNTRQADFEKWKI SKKVIVIAGTTGVGKSQLSIQLAQKFNGEVINSDSMQVYKDIPIITNKHPLQEREGIPHHVMNHVDWSEEYYSHRFETECMNAIEDIHRRGKIPIVVGGTHYYLQTLFNKRVDTKSSERKLTRKQLDILESTDPDVIYNTLVKCDPDIATKYHPNDYRRVQRMLEIYYKTGKKPSETFNEQKITLKFDTLFLWLYSKPEPLFQRLDDRVDDMLERGALQEIKQLYEYYSQNKFTPEQCENGVWQVIGFKEFLPWLTVKLEDCIERMKTRTRQYAKRQVKWIKKMLIPDIKGDIYLLDATDLSQWDTNASQRAIAISNDFISNRPIKQERAPKALEELLSKGETTMKKLDDWTHYTCNVCRNADGKNVVAIGEKYWKIHLGSRRHKSNLKRNTRQADFEKWKI 3epn-a1-m1-cB_3epn-a1-m1-cA Crystal structure of Caulobacter crescentus ThiC complexed with imidazole ribonucleotide Q9A6Q5 Q9A6Q5 2.11 X-RAY DIFFRACTION 217 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 519 523 3epm-a1-m1-cB_3epm-a1-m1-cA 3epo-a1-m1-cA_3epo-a1-m1-cB 4s2a-a1-m1-cA_4s2a-a1-m2-cA IKAVAETISTGPIPGSRKVYQAGELFPELRVPFREVAVHPSANEPPVTIYDPSGPYSDPAIQIDIEKGLPRTREALVVARGDVEEVADPRQVPEFPGRKIYRAKPGKLVTQLEYARAGIITAEMEYVAIRENLRREQDRPCVRDGEDFGASIPDFVTPEFVRQEIARGRAIIPANINHGELEPMAIGRNFLVKINANIGNTVADEVDKLVWATRWGADTVMDLSTGRNIHNIRDWIIRNSSVPIGTVPIYQALEKVNGVAEDLNWEVFRDTLIEQCEQGVDYFTIHAGVRLPFIPMTAKRVTGIVSRGGSIMAKWCLAHHKENFLYERFDEICEIMRAYDVSFSLGDGLRPGSTADANDEAQFSELRTLGELTKVAWKHGVQVMIEGPGHVAMHKIKANMDEQLKHCHEAPFYTLGPLTTDIAPGYDHITSAIGAAMIGWFGTAMLCYVTPKEHLGLPDRDDVKTGVITYKLAAHAADLAKGHPGAAMWDDAISRARFEFRWEDQFNLGLDPETARKFH STIKAVAETISTGPIPGSRKVYQAGELFPELRVPFREVAVHPSANEPPVTIYDPSGPYSDPAIQIDIEKGLPRTREALVVARGDVEEVADPRQVPEFPDTGRKIYRAKPGKLVTQLEYARAGIITAEMEYVAIRENLRREQDRPCVRDGEDFGASIPDFVTPEFVRQEIARGRAIIPANINHGELEPMAIGRNFLVKINANIGNTVADEVDKLVWATRWGADTVMDLSTGRNIHNIRDWIIRNSSVPIGTVPIYQALEKVNGVAEDLNWEVFRDTLIEQCEQGVDYFTIHAGVRLPFIPMTAKRVTGIVSRGGSIMAKWCLAHHKENFLYERFDEICEIMRAYDVSFSLGDGLRPGSTADANDEAQFSELRTLGELTKVAWKHGVQVMIEGPGHVAMHKIKANMDEQLKHCHEAPFYTLGPLTTDIAPGYDHITSAIGAAMIGWFGTAMLCYVTPKEHLGLPDRDDVKTGVITYKLAAHAADLAKGHPGAAMWDDAISRARFEFRWEDQFNLGLDPETARKFH 3epr-a1-m1-cA_3epr-a1-m4-cA Crystal structure of putative HAD superfamily hydrolase from Streptococcus agalactiae. Q8E044 Q8E044 1.55 X-RAY DIFFRACTION 50 1.0 216466 (Streptococcus agalactiae serogroup V) 216466 (Streptococcus agalactiae serogroup V) 260 260 3epr-a1-m2-cA_3epr-a1-m3-cA SLAYKGYLIDLDGTIYKGKSRIPAGERFIERLQEKGIPYMLVTNNTTRTPESVQEMLRGFNVETPLETIYTATMATVDYMNDMNRGKTAYVIGEEGLKKAIADAGYVEDTKNPAYVVVGLDWNVTYDKLATATLAIQNGALFIGTNPDLNIPTERGLLPGAGSLNALLEAATRIKPVFIGKPNAIIMNKALEILNIPRNQAVMVGDNYLTDIMAGINNDIDTLLVTTGFTTVEEVPDLPIQPSYVLASLDEWTFNEGHHH SLAYKGYLIDLDGTIYKGKSRIPAGERFIERLQEKGIPYMLVTNNTTRTPESVQEMLRGFNVETPLETIYTATMATVDYMNDMNRGKTAYVIGEEGLKKAIADAGYVEDTKNPAYVVVGLDWNVTYDKLATATLAIQNGALFIGTNPDLNIPTERGLLPGAGSLNALLEAATRIKPVFIGKPNAIIMNKALEILNIPRNQAVMVGDNYLTDIMAGINNDIDTLLVTTGFTTVEEVPDLPIQPSYVLASLDEWTFNEGHHH 3epr-a2-m1-cA_3epr-a2-m3-cA Crystal structure of putative HAD superfamily hydrolase from Streptococcus agalactiae. Q8E044 Q8E044 1.55 X-RAY DIFFRACTION 83 1.0 216466 (Streptococcus agalactiae serogroup V) 216466 (Streptococcus agalactiae serogroup V) 260 260 3epr-a1-m1-cA_3epr-a1-m3-cA 3epr-a1-m2-cA_3epr-a1-m4-cA SLAYKGYLIDLDGTIYKGKSRIPAGERFIERLQEKGIPYMLVTNNTTRTPESVQEMLRGFNVETPLETIYTATMATVDYMNDMNRGKTAYVIGEEGLKKAIADAGYVEDTKNPAYVVVGLDWNVTYDKLATATLAIQNGALFIGTNPDLNIPTERGLLPGAGSLNALLEAATRIKPVFIGKPNAIIMNKALEILNIPRNQAVMVGDNYLTDIMAGINNDIDTLLVTTGFTTVEEVPDLPIQPSYVLASLDEWTFNEGHHH SLAYKGYLIDLDGTIYKGKSRIPAGERFIERLQEKGIPYMLVTNNTTRTPESVQEMLRGFNVETPLETIYTATMATVDYMNDMNRGKTAYVIGEEGLKKAIADAGYVEDTKNPAYVVVGLDWNVTYDKLATATLAIQNGALFIGTNPDLNIPTERGLLPGAGSLNALLEAATRIKPVFIGKPNAIIMNKALEILNIPRNQAVMVGDNYLTDIMAGINNDIDTLLVTTGFTTVEEVPDLPIQPSYVLASLDEWTFNEGHHH 3epu-a1-m1-cB_3epu-a1-m2-cB Crystal Structure of STM2138, a novel virulence chaperone in Salmonella Q8ZNP3 Q8ZNP3 2.5 X-RAY DIFFRACTION 105 1.0 133 133 SRADRLLRQFSLKLNTDSIVFDENRLCSFIIDNRYRILLTSTNSEYIMIYGFCGKPPDNNNLAFEFLNANLWFAENNGPHLCYDNNSQSLLLALNFSLNESSVEKLECEIEVVIRSMENLYHILQDKGITLDT SRADRLLRQFSLKLNTDSIVFDENRLCSFIIDNRYRILLTSTNSEYIMIYGFCGKPPDNNNLAFEFLNANLWFAENNGPHLCYDNNSQSLLLALNFSLNESSVEKLECEIEVVIRSMENLYHILQDKGITLDT 3epu-a2-m1-cB_3epu-a2-m1-cA Crystal Structure of STM2138, a novel virulence chaperone in Salmonella Q8ZNP3 Q8ZNP3 2.5 X-RAY DIFFRACTION 84 0.985 133 134 3epu-a1-m1-cB_3epu-a1-m1-cA 3epu-a1-m2-cB_3epu-a1-m2-cA SRADRLLRQFSLKLNTDSIVFDENRLCSFIIDNRYRILLTSTNSEYIMIYGFCGKPPDNNNLAFEFLNANLWFAENNGPHLCYDNNSQSLLLALNFSLNESSVEKLECEIEVVIRSMENLYHILQDKGITLDT MYSRADRLLRQFSLKLNTDSIVFDENRLCSFIIDNRYRILLTSTNSEYIMIYGFCGKPPDNLAFEFLNANLWFAENNGPHLCYDNNSQSLLLALNFSLNESSVEKLECEIEVVIRSMENLYHILQDKGITLDTD 3epy-a1-m1-cB_3epy-a1-m2-cB Crystal Structure of human acyl-CoA binding domain 7 complexed with palmitoyl-Coa Q8N6N7 Q8N6N7 2.005 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 3epy-a1-m1-cA_3epy-a1-m2-cA LQADFDRAAEDVRKLKARPDDGELKELYGLYKQAIVGDINIACPGMLDLKGKAKWEAWNLKKGLSTEDATSAYISKAKELIEKYGI LQADFDRAAEDVRKLKARPDDGELKELYGLYKQAIVGDINIACPGMLDLKGKAKWEAWNLKKGLSTEDATSAYISKAKELIEKYGI 3epy-a1-m2-cB_3epy-a1-m1-cA Crystal Structure of human acyl-CoA binding domain 7 complexed with palmitoyl-Coa Q8N6N7 Q8N6N7 2.005 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 88 3epy-a1-m1-cB_3epy-a1-m2-cA LQADFDRAAEDVRKLKARPDDGELKELYGLYKQAIVGDINIACPGMLDLKGKAKWEAWNLKKGLSTEDATSAYISKAKELIEKYGI MALQADFDRAAEDVRKLKARPDDGELKELYGLYKQAIVGDINIACPGMLDLKGKAKWEAWNLKKGLSTEDATSAYISKAKELIEKYGI 3epy-a2-m1-cB_3epy-a2-m1-cA Crystal Structure of human acyl-CoA binding domain 7 complexed with palmitoyl-Coa Q8N6N7 Q8N6N7 2.005 X-RAY DIFFRACTION 183 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 88 3epy-a1-m1-cB_3epy-a1-m1-cA 3epy-a1-m2-cB_3epy-a1-m2-cA LQADFDRAAEDVRKLKARPDDGELKELYGLYKQAIVGDINIACPGMLDLKGKAKWEAWNLKKGLSTEDATSAYISKAKELIEKYGI MALQADFDRAAEDVRKLKARPDDGELKELYGLYKQAIVGDINIACPGMLDLKGKAKWEAWNLKKGLSTEDATSAYISKAKELIEKYGI 3eqq-a1-m2-cA_3eqq-a1-m3-cA Apo Toluene 2,3-Dioxygenase A5W4F2 A5W4F2 3.2 X-RAY DIFFRACTION 78 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 416 416 3en1-a1-m1-cA_3en1-a1-m2-cA 3en1-a1-m1-cA_3en1-a1-m3-cA 3en1-a1-m2-cA_3en1-a1-m3-cA 3eqq-a1-m1-cA_3eqq-a1-m2-cA 3eqq-a1-m1-cA_3eqq-a1-m3-cA WNTSEIEALFDEHAGRIDPRIYTDEDLYQLELERVFARSWLLLGHETQIRKPGDYITTYMGEDPVVVVRQKDASIAVFLNQCRHRGMRICRADAGNAKAFTCSYHGWAYDTAGNLVNVPYEAESFACLNKKEWSPLKARVETYKGLIFANWDENAVDLDTYLGEAKFYMDHMLDRTEAGTEAIPGVQKWVIPCNWKFAAEQFCSDMTSHLSGILAGLPEPTVGKQYRASWGGHGSGFYVGDPNLMLAIMGPKVTSYWTEGPASEKAAERLGSVERGSKLMVEHMTVFPTCSFLPGINTVRTWHPRGPNEVEVWAFTVVDADAPDDIKEEFRRQTLRTFSAGGVFEQDDGENWVEIQHILRGHKARSRPFNAEMSMDQTVDNDPVYPGRISNNVYSEEAARGLYAHWLRMMTSPDWD WNTSEIEALFDEHAGRIDPRIYTDEDLYQLELERVFARSWLLLGHETQIRKPGDYITTYMGEDPVVVVRQKDASIAVFLNQCRHRGMRICRADAGNAKAFTCSYHGWAYDTAGNLVNVPYEAESFACLNKKEWSPLKARVETYKGLIFANWDENAVDLDTYLGEAKFYMDHMLDRTEAGTEAIPGVQKWVIPCNWKFAAEQFCSDMTSHLSGILAGLPEPTVGKQYRASWGGHGSGFYVGDPNLMLAIMGPKVTSYWTEGPASEKAAERLGSVERGSKLMVEHMTVFPTCSFLPGINTVRTWHPRGPNEVEVWAFTVVDADAPDDIKEEFRRQTLRTFSAGGVFEQDDGENWVEIQHILRGHKARSRPFNAEMSMDQTVDNDPVYPGRISNNVYSEEAARGLYAHWLRMMTSPDWD 3eqq-a1-m2-cB_3eqq-a1-m3-cB Apo Toluene 2,3-Dioxygenase A5W4F1 A5W4F1 3.2 X-RAY DIFFRACTION 105 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 180 180 3en1-a1-m1-cB_3en1-a1-m2-cB 3en1-a1-m1-cB_3en1-a1-m3-cB 3en1-a1-m2-cB_3en1-a1-m3-cB 3eqq-a1-m1-cB_3eqq-a1-m2-cB 3eqq-a1-m1-cB_3eqq-a1-m3-cB ADVFLRKPAPVAPELQHEVEQFYYWEAKLLNDRRFEEWFALLAEDIHYFMPIRTTRIMRDSRLEYSGSREYAHFDDDATMMKGRLRKITSDVSWSENPASRTRHLVSNVMIVGAEAEGEYEISSAFIVYRNRLERQLDIFAGERRDTLRRNTSEAGFEIVNRTILIDQSTILANNLSFFF ADVFLRKPAPVAPELQHEVEQFYYWEAKLLNDRRFEEWFALLAEDIHYFMPIRTTRIMRDSRLEYSGSREYAHFDDDATMMKGRLRKITSDVSWSENPASRTRHLVSNVMIVGAEAEGEYEISSAFIVYRNRLERQLDIFAGERRDTLRRNTSEAGFEIVNRTILIDQSTILANNLSFFF 3eqr-a1-m1-cA_3eqr-a1-m2-cB Crystal Structure of Ack1 with compound T74 Q07912 Q07912 2 X-RAY DIFFRACTION 49 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 270 271 3eqp-a1-m2-cA_3eqp-a1-m1-cB 5zxb-a1-m1-cA_5zxb-a1-m1-cB 6vqm-a1-m1-cB_6vqm-a1-m2-cA LTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHYVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQPTD LTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPDVLSQPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHYVMRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQP 3eqv-a3-m2-cB_3eqv-a3-m1-cA Crystal structure of penicillin-binding protein 2 from Neisseria gonorrhoeae containing four mutations associated with penicillin resistance P08149 P08149 2.4 X-RAY DIFFRACTION 69 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 425 442 VRTQALPATRGTVSDRNGAVLALSAPTELKRHYPMGNLFAHVIGFTDIDGKGQEGLELSLEDSLYGEDGAEVVLRDNIVDSLDSPRNKAPQNGKDIILSLDQRIQTLAYEELNKAVEYHQAKAGTVVVLDARTGEILALANTPAYDPNRPGRADSEQRRNRAVTDMIEPGSAIKPFVIAKALDAGKTDLNERLNTQPYKIGPSPVRDTHVYPSLDVRGIMQKSSNVGTSKLSARFGAEEMYDFYHELGIGVRMHSGFPGETAGLLRNWRRWRPIEQATMSFGYGLQLSLLQLARAYTALTHDGVLLPLSFEKQAVAPQGKRIFKETAREVRNLMVSVTEPGGTGTAGAVDGFDVGAKTGTARKNKHVGTFIGFAPAKNPRVIVAVTIDEPTAHGYYGGVVAGSPFKKIMGGSLNILGISPTKPLT TYNFLKEQGDNRIVRTQALPATRGTVSDRNGAVLALSAPTEELKRHYPMGNLFAHVIGFTDIDGKGQEGLELSLEDSLYGEDGAEVVLRDRQGNIVDSLDSPRNKAPQNGKDIILSLDQRIQTLAYEELNKAVEYHQAKAGTVVVLDARTGEILALANTPAYDPNRPGRADSEQRRNRAVTDMIEPGSAIKPFVIAKALDAGKTDLNERLNTQPYKIGPSPVRDTHVYPSLDVRGIMQKSSNVGTSKLSARFGAEEMYDFYHELGIGVRMHSGFPGETAGLLRNWRRWRPIEQATMSFGYGLQLSLLQLARAYTALTHDGVLLPLSFEKQAVAPQGKRIFKETAREVRNLMVSVTEPGGTGTAGAVDGFDVGAKTGTARKNKHVGTFIGFAPAKNPRVIVAVTIDEPTAHGYYGGVVAGSPFKKIMGGSLNILGISPTKPLT 3eqv-a4-m1-cB_3eqv-a4-m3-cA Crystal structure of penicillin-binding protein 2 from Neisseria gonorrhoeae containing four mutations associated with penicillin resistance P08149 P08149 2.4 X-RAY DIFFRACTION 10 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 425 442 VRTQALPATRGTVSDRNGAVLALSAPTELKRHYPMGNLFAHVIGFTDIDGKGQEGLELSLEDSLYGEDGAEVVLRDNIVDSLDSPRNKAPQNGKDIILSLDQRIQTLAYEELNKAVEYHQAKAGTVVVLDARTGEILALANTPAYDPNRPGRADSEQRRNRAVTDMIEPGSAIKPFVIAKALDAGKTDLNERLNTQPYKIGPSPVRDTHVYPSLDVRGIMQKSSNVGTSKLSARFGAEEMYDFYHELGIGVRMHSGFPGETAGLLRNWRRWRPIEQATMSFGYGLQLSLLQLARAYTALTHDGVLLPLSFEKQAVAPQGKRIFKETAREVRNLMVSVTEPGGTGTAGAVDGFDVGAKTGTARKNKHVGTFIGFAPAKNPRVIVAVTIDEPTAHGYYGGVVAGSPFKKIMGGSLNILGISPTKPLT TYNFLKEQGDNRIVRTQALPATRGTVSDRNGAVLALSAPTEELKRHYPMGNLFAHVIGFTDIDGKGQEGLELSLEDSLYGEDGAEVVLRDRQGNIVDSLDSPRNKAPQNGKDIILSLDQRIQTLAYEELNKAVEYHQAKAGTVVVLDARTGEILALANTPAYDPNRPGRADSEQRRNRAVTDMIEPGSAIKPFVIAKALDAGKTDLNERLNTQPYKIGPSPVRDTHVYPSLDVRGIMQKSSNVGTSKLSARFGAEEMYDFYHELGIGVRMHSGFPGETAGLLRNWRRWRPIEQATMSFGYGLQLSLLQLARAYTALTHDGVLLPLSFEKQAVAPQGKRIFKETAREVRNLMVSVTEPGGTGTAGAVDGFDVGAKTGTARKNKHVGTFIGFAPAKNPRVIVAVTIDEPTAHGYYGGVVAGSPFKKIMGGSLNILGISPTKPLT 3eqx-a1-m1-cB_3eqx-a1-m1-cA CRYSTAL STRUCTURE OF A FIC FAMILY PROTEIN (SO_4266) FROM SHEWANELLA ONEIDENSIS AT 1.6 A RESOLUTION Q8E9K5 Q8E9K5 1.6 X-RAY DIFFRACTION 57 0.994 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 358 362 3zec-a1-m1-cA_3zec-a1-m1-cB EWQHLPPLPLDSKLAELAETLPILKACIPARAALAELKQAGELLPNQGLLINLLPLLEAQGSSEIENIVTTTDKLFQYAQEDSQADPTKEALRYRTALYQCFTQLSNRPLCVTTALEICSTIKSVQDVRKVPGTSLTNQATGEVIYTPPAGESVIRDLLSNWEAFLHNQDDVDPLIKAAHYQFEAIHPFIDGNGRTGRVLNILYLIDQQLLSAPILYLSRYIVAHKQDYYRLLLNVTTQQEWQPWIIFILNAVEQTAKWTTHKIAAARELIAHTTEYVRQQLPKIYSHELVQVIFEQPYCRIQNLVESGLAKRQTASVYLKQLCDIGVLEEVQSGKEKLFVHPKFVTLTKDSNQFSRY EWQAEQAYNHLPPLPLDSKLAELAETLPILKACIPARAALAELKQAGELLPNQGLLINLLPLLEAQGSSEIENIVTTTDKLFQYAQEDSQADPTKEALRYRTALYQCFTQLSNRPLCVTTALEICSTIKSVQDVRKVPGTSLTNQATGEVIYTPPAGESVIRDLLSNWEAFLHNQDDVDPLIKAAHYQFEAIHPFIDGNGRTGRVLNILYLIDQQLLSAPILYLSRYIVAHKQDYYRLLLNVTTQQEWQPWIIFILNAVEQTAKWTTHKIAAARELIAHTTEYVRQQLPKIYSHELVQVIFEQPYCRIQNLVESGLAKRQTASVYLKQLCDIGVLEEVGKEKLFVHPKFVTLTKDSNQFSRY 3eqz-a1-m2-cA_3eqz-a1-m4-cB Crystal structure of a response regulator from Colwellia psychrerythraea Q483U6 Q483U6 2.15 X-RAY DIFFRACTION 25 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 124 125 3eqz-a1-m1-cA_3eqz-a1-m3-cB LNRVFIVDDDTLTCNLLKTIVEPIFGNVEAFQHPRAFLTLSLNKQDIIILDLMMPDMDGIEVIRHLAEHKSPASLILISGYDSGVLHSAETLALSCGLNVINTFTKPINTEVLTCFLTSLSNRQ SLNRVFIVDDDTLTCNLLKTIVEPIFGNVEAFQHPRAFLTLSLNKQDIIILDLMMPDMDGIEVIRHLAEHKSPASLILISGYDSGVLHSAETLALSCGLNVINTFTKPINTEVLTCFLTSLSNRQ 3eqz-a2-m1-cA_3eqz-a2-m4-cB Crystal structure of a response regulator from Colwellia psychrerythraea Q483U6 Q483U6 2.15 X-RAY DIFFRACTION 56 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 124 125 3eqz-a1-m1-cA_3eqz-a1-m4-cB 3eqz-a1-m2-cA_3eqz-a1-m3-cB LNRVFIVDDDTLTCNLLKTIVEPIFGNVEAFQHPRAFLTLSLNKQDIIILDLMMPDMDGIEVIRHLAEHKSPASLILISGYDSGVLHSAETLALSCGLNVINTFTKPINTEVLTCFLTSLSNRQ SLNRVFIVDDDTLTCNLLKTIVEPIFGNVEAFQHPRAFLTLSLNKQDIIILDLMMPDMDGIEVIRHLAEHKSPASLILISGYDSGVLHSAETLALSCGLNVINTFTKPINTEVLTCFLTSLSNRQ 3eqz-a3-m1-cA_3eqz-a3-m1-cB Crystal structure of a response regulator from Colwellia psychrerythraea Q483U6 Q483U6 2.15 X-RAY DIFFRACTION 17 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 124 125 LNRVFIVDDDTLTCNLLKTIVEPIFGNVEAFQHPRAFLTLSLNKQDIIILDLMMPDMDGIEVIRHLAEHKSPASLILISGYDSGVLHSAETLALSCGLNVINTFTKPINTEVLTCFLTSLSNRQ SLNRVFIVDDDTLTCNLLKTIVEPIFGNVEAFQHPRAFLTLSLNKQDIIILDLMMPDMDGIEVIRHLAEHKSPASLILISGYDSGVLHSAETLALSCGLNVINTFTKPINTEVLTCFLTSLSNRQ 3er6-a3-m1-cE_3er6-a3-m1-cF Crystal structure of a putative transcriptional regulator protein from Vibrio parahaemolyticus Q87I90 Q87I90 1.9 X-RAY DIFFRACTION 102 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 191 192 3er6-a2-m1-cC_3er6-a2-m1-cD KNLRVVALAPTGRYFASIISSLEILETAAEFAEFQGFMTHVVTPNNRPLIGRGGISVQPTAQWQSFDFTNILIIGSIGDPLESLDKIDPALFDWIRELHLKGSKIVAIDTGIFVVAKAGLLQQNKAVMHSYFAHLFGELFPEIMLMTEQKALIDGNVYLSSGPYSHSSVMLEIVEEYFGKHTRNLGNQFLS KNLRVVALAPTGRYFASIISSLEILETAAEFAEFQGFMTHVVTPNNRPLIGRGGISVQPTAQWQSFDFTNILIIGSIGDPLESLDKIDPALFDWIRELHLKGSKIVAIDTGIFVVAKAGLLQQNKAVMHSYFAHLFGELFPEIMLMTEQKALIDGNVYLSSGPYSHSSVMLEIVEEYFGKHTRNLGNQFLST 3er7-a1-m1-cA_3er7-a1-m1-cB Crystal structure of NTF2-like protein of unknown function (YP_001812677.1) from EXIGUOBACTERIUM SP. 255-15 at 1.50 A resolution B1YHC8 B1YHC8 1.5 X-RAY DIFFRACTION 53 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 115 119 TTLDRYFDLFDASRTDEKAFDDLISLFSDEITFVLNGQEQHGIDAWKQFVRVFTANQDIKHYAGWVPSETGDTETRWAVCGKSADGSVFTQDGTDIARLNADGKIVYLANVPDDT TTLDRYFDLFDASRTDEKAFDDLISLFSDEITFVLNGQEQHGIDAWKQFVRVFTANQDIKHYAGWVPSETGDTETRWAVCGKSADGSVFTQDGTDIARLNADGKIVYLANVPDDTAFNQ 3ere-a1-m1-cD_3ere-a1-m2-cD Crystal structure of the arginine repressor protein from Mycobacterium tuberculosis in complex with the DNA operator P9WPY9 P9WPY9 2.5 X-RAY DIFFRACTION 89 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 156 156 AANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR AANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3erj-a1-m1-cB_3erj-a1-m1-cA Crystal structure of the peptidyl-tRNA hydrolase AF2095 from Archaeglobus fulgidis. Northeast Structural Genomics Consortium target GR4 O28185 O28185 1.8 X-RAY DIFFRACTION 80 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 111 116 TLKQVIVVRDDLKLSRGKLAVQVAHAAIIGYLKSDSSLRRKWLDEGQKKVVLKVKSLEELLGIKHKAESLGLVTGLVQDAGLTEVPPGTITAVVIGPDEERKIDKVTLPLL TLKQVIVVRDDLKLSRGKLAVQVAHAAIIGYLKSDSSLRRKWLDEGQKKVVLKVKSLEELLGIKHKAESLGLVTGLVQDAGLTEVPPGTITAVVIGPDEERKIDKVTGNLPLLKLE 3erm-a2-m1-cC_3erm-a2-m2-cC The crystal structure of a conserved protein with unknown function from Pseudomonas syringae pv. tomato str. DC3000 Q887T9 Q887T9 2.45 X-RAY DIFFRACTION 78 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 62 62 3erm-a1-m1-cB_3erm-a1-m1-cA 3erm-a3-m1-cD_3erm-a3-m2-cD 3erm-a4-m1-cE_3erm-a4-m3-cE DRKLADAHDQLELAELLTDVLIKNVPGLSEKHAEDASIYAKNRAVFAAAFKNNATALSELSE DRKLADAHDQLELAELLTDVLIKNVPGLSEKHAEDASIYAKNRAVFAAAFKNNATALSELSE 3err-a1-m1-cA_3err-a1-m1-cB Microtubule binding domain from mouse cytoplasmic dynein as a fusion with seryl-tRNA synthetase Q5SJX7 Q5SJX7 2.27 X-RAY DIFFRACTION 158 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 527 527 1ser-a1-m1-cA_1ser-a1-m1-cB DLKRLRQEPEVFHRAIREKGVALDLEALLAVDEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESIALLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLAAGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKLEALLLQVPLPPWPGAPVGGEEANREIKRVGGPPEFSFPPLDHVALMEKNGWWEPRISQVSGSRSYALKGDLALYELALLRFAMDFMARRGFLPMTLPSYAREKAFLGTGHFPAYRDQVWAIAETDLYLTGTAEVVLNALHSGEILPYEALPLRYAGYAPAFRSEAGSFGKDVRGLMRVHQFHKVEQYVLTEASLEASDRAFQELLENAEEILRLLELPYRLVEVATGDMGPGKWRQVDIEVYLPSEGRYRETHSCSALLDWQARRANLRYRDPEGRVRYAYTLNNTALATPRILAMLLENHQLQDGRVRVPQALIPYMGKEVLEPG DLKRLRQEPEVFHRAIREKGVALDLEALLAVDEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESIALLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLAAGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKLEALLLQVPLPPWPGAPVGGEEANREIKRVGGPPEFSFPPLDHVALMEKNGWWEPRISQVSGSRSYALKGDLALYELALLRFAMDFMARRGFLPMTLPSYAREKAFLGTGHFPAYRDQVWAIAETDLYLTGTAEVVLNALHSGEILPYEALPLRYAGYAPAFRSEAGSFGKDVRGLMRVHQFHKVEQYVLTEASLEASDRAFQELLENAEEILRLLELPYRLVEVATGDMGPGKWRQVDIEVYLPSEGRYRETHSCSALLDWQARRANLRYRDPEGRVRYAYTLNNTALATPRILAMLLENHQLQDGRVRVPQALIPYMGKEVLEPG 3ers-a1-m1-cX_3ers-a1-m2-cX Crystal Structure of E. coli Trbp111 P42589 P42589 1.87 X-RAY DIFFRACTION 156 1.0 562 (Escherichia coli) 562 (Escherichia coli) 112 112 METVAYADFARLEMRVGKIVEVKRHENADKLYIVQVDVGQKTLQTVTSLVPYYSEEELMGKTVVVLCNLQKAKMRGETSECMLLCAETDDGSESVLLTPERMMPAGVRVVLD METVAYADFARLEMRVGKIVEVKRHENADKLYIVQVDVGQKTLQTVTSLVPYYSEEELMGKTVVVLCNLQKAKMRGETSECMLLCAETDDGSESVLLTPERMMPAGVRVVLD 3erx-a1-m1-cA_3erx-a1-m2-cB High-resolution structure of Paracoccus pantotrophus pseudoazurin P80401 P80401 1.25 X-RAY DIFFRACTION 48 1.0 82367 (Paracoccus pantotrophus) 82367 (Paracoccus pantotrophus) 123 123 3erx-a1-m1-cB_3erx-a1-m2-cA 4bwt-a1-m1-cA_4bwt-a1-m2-cB 4bwt-a1-m1-cB_4bwt-a1-m2-cA ATHEVHMLNKGESGAMVFEPAFVRAEPGDVINFVPTDKSHNVEAIKEILPEGVESFKSKINESYTLTVTEPGLYGVKCTPHFGMGMVGLVQVGDAPENLDAAKTAKMPKKARERMDAELAQVN ATHEVHMLNKGESGAMVFEPAFVRAEPGDVINFVPTDKSHNVEAIKEILPEGVESFKSKINESYTLTVTEPGLYGVKCTPHFGMGMVGLVQVGDAPENLDAAKTAKMPKKARERMDAELAQVN 3erx-a2-m1-cA_3erx-a2-m1-cB High-resolution structure of Paracoccus pantotrophus pseudoazurin P80401 P80401 1.25 X-RAY DIFFRACTION 38 1.0 82367 (Paracoccus pantotrophus) 82367 (Paracoccus pantotrophus) 123 123 1adw-a1-m1-cA_1adw-a1-m1-cB 3erx-a1-m1-cA_3erx-a1-m1-cB 3erx-a1-m2-cA_3erx-a1-m2-cB 4bwt-a1-m1-cA_4bwt-a1-m1-cB 4bwt-a1-m2-cA_4bwt-a1-m2-cB ATHEVHMLNKGESGAMVFEPAFVRAEPGDVINFVPTDKSHNVEAIKEILPEGVESFKSKINESYTLTVTEPGLYGVKCTPHFGMGMVGLVQVGDAPENLDAAKTAKMPKKARERMDAELAQVN ATHEVHMLNKGESGAMVFEPAFVRAEPGDVINFVPTDKSHNVEAIKEILPEGVESFKSKINESYTLTVTEPGLYGVKCTPHFGMGMVGLVQVGDAPENLDAAKTAKMPKKARERMDAELAQVN 3es1-a1-m1-cA_3es1-a1-m2-cA Crystal structure of protein with a cupin-like fold and unknown function (YP_001165807.1) from NOVOSPHINGOBIUM AROMATICIVORANS DSM 12444 at 1.91 A resolution A4XEC0 A4XEC0 1.91 X-RAY DIFFRACTION 214 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 160 160 EALSDSGLPPVQRVVTGHDAHGRAVFKSEDVTPTRIPSGDASFLLVWTTATVPADNNDETDGRQREAGLTLDGGSVIRVVDLPGKESPHRTNSIDYGIVLEGEIELELDDGAKRTVRQGGIIVQRGTNHLWRNTTDKPCRIAFILIEAPAYLHNGQPLPE EALSDSGLPPVQRVVTGHDAHGRAVFKSEDVTPTRIPSGDASFLLVWTTATVPADNNDETDGRQREAGLTLDGGSVIRVVDLPGKESPHRTNSIDYGIVLEGEIELELDDGAKRTVRQGGIIVQRGTNHLWRNTTDKPCRIAFILIEAPAYLHNGQPLPE 3es4-a1-m1-cA_3es4-a1-m1-cB Crystal structure of Protein of unknown function (DUF861) with a RmlC-like cupin fold (17741406) from AGROBACTERIUM TUMEFACIENS str. C58 (Dupont) at 1.64 A resolution A9CEL1 A9CEL1 1.64 X-RAY DIFFRACTION 98 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 112 112 GTPIFNISDDVDLVPAPAEGRDGGSYRRQIWQDDVENGTIVAVWAEPGIYNYAGRDLEETFVVVEGEALYSQADADPVKIGPGSIVSIAKGVPSRLEILSSFRKLATVIPKP GTPIFNISDDVDLVPAPAEGRDGGSYRRQIWQDDVENGTIVAVWAEPGIYNYAGRDLEETFVVVEGEALYSQADADPVKIGPGSIVSIAKGVPSRLEILSSFRKLATVIPKP 3es5-a1-m54-cB_3es5-a1-m9-cB Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 43 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 378 378 3es5-a1-m10-cB_3es5-a1-m23-cB 3es5-a1-m11-cB_3es5-a1-m20-cB 3es5-a1-m11-cB_3es5-a1-m38-cB 3es5-a1-m12-cB_3es5-a1-m37-cB 3es5-a1-m12-cB_3es5-a1-m47-cB 3es5-a1-m13-cB_3es5-a1-m45-cB 3es5-a1-m13-cB_3es5-a1-m46-cB 3es5-a1-m14-cB_3es5-a1-m29-cB 3es5-a1-m14-cB_3es5-a1-m44-cB 3es5-a1-m15-cB_3es5-a1-m16-cB 3es5-a1-m15-cB_3es5-a1-m28-cB 3es5-a1-m16-cB_3es5-a1-m28-cB 3es5-a1-m17-cB_3es5-a1-m27-cB 3es5-a1-m17-cB_3es5-a1-m52-cB 3es5-a1-m18-cB_3es5-a1-m51-cB 3es5-a1-m18-cB_3es5-a1-m60-cB 3es5-a1-m19-cB_3es5-a1-m39-cB 3es5-a1-m19-cB_3es5-a1-m59-cB 3es5-a1-m1-cB_3es5-a1-m10-cB 3es5-a1-m1-cB_3es5-a1-m23-cB 3es5-a1-m20-cB_3es5-a1-m38-cB 3es5-a1-m21-cB_3es5-a1-m30-cB 3es5-a1-m21-cB_3es5-a1-m43-cB 3es5-a1-m22-cB_3es5-a1-m42-cB 3es5-a1-m24-cB_3es5-a1-m54-cB 3es5-a1-m24-cB_3es5-a1-m9-cB 3es5-a1-m25-cB_3es5-a1-m26-cB 3es5-a1-m25-cB_3es5-a1-m53-cB 3es5-a1-m26-cB_3es5-a1-m53-cB 3es5-a1-m27-cB_3es5-a1-m52-cB 3es5-a1-m29-cB_3es5-a1-m44-cB 3es5-a1-m2-cB_3es5-a1-m22-cB 3es5-a1-m2-cB_3es5-a1-m42-cB 3es5-a1-m30-cB_3es5-a1-m43-cB 3es5-a1-m31-cB_3es5-a1-m40-cB 3es5-a1-m31-cB_3es5-a1-m58-cB 3es5-a1-m32-cB_3es5-a1-m57-cB 3es5-a1-m32-cB_3es5-a1-m7-cB 3es5-a1-m33-cB_3es5-a1-m5-cB 3es5-a1-m33-cB_3es5-a1-m6-cB 3es5-a1-m34-cB_3es5-a1-m49-cB 3es5-a1-m34-cB_3es5-a1-m4-cB 3es5-a1-m35-cB_3es5-a1-m36-cB 3es5-a1-m35-cB_3es5-a1-m48-cB 3es5-a1-m36-cB_3es5-a1-m48-cB 3es5-a1-m37-cB_3es5-a1-m47-cB 3es5-a1-m39-cB_3es5-a1-m59-cB 3es5-a1-m3-cB_3es5-a1-m41-cB 3es5-a1-m3-cB_3es5-a1-m50-cB 3es5-a1-m40-cB_3es5-a1-m58-cB 3es5-a1-m41-cB_3es5-a1-m50-cB 3es5-a1-m45-cB_3es5-a1-m46-cB 3es5-a1-m4-cB_3es5-a1-m49-cB 3es5-a1-m51-cB_3es5-a1-m60-cB 3es5-a1-m55-cB_3es5-a1-m56-cB 3es5-a1-m55-cB_3es5-a1-m8-cB 3es5-a1-m56-cB_3es5-a1-m8-cB 3es5-a1-m57-cB_3es5-a1-m7-cB 3es5-a1-m5-cB_3es5-a1-m6-cB MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYA 3es5-a1-m55-cA_3es5-a1-m9-cA Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 74 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 379 379 3es5-a1-m10-cA_3es5-a1-m24-cA 3es5-a1-m11-cA_3es5-a1-m16-cA 3es5-a1-m12-cA_3es5-a1-m38-cA 3es5-a1-m13-cA_3es5-a1-m47-cA 3es5-a1-m14-cA_3es5-a1-m45-cA 3es5-a1-m15-cA_3es5-a1-m29-cA 3es5-a1-m17-cA_3es5-a1-m28-cA 3es5-a1-m18-cA_3es5-a1-m52-cA 3es5-a1-m19-cA_3es5-a1-m60-cA 3es5-a1-m1-cA_3es5-a1-m6-cA 3es5-a1-m20-cA_3es5-a1-m39-cA 3es5-a1-m21-cA_3es5-a1-m26-cA 3es5-a1-m22-cA_3es5-a1-m43-cA 3es5-a1-m25-cA_3es5-a1-m54-cA 3es5-a1-m27-cA_3es5-a1-m53-cA 3es5-a1-m2-cA_3es5-a1-m23-cA 3es5-a1-m30-cA_3es5-a1-m44-cA 3es5-a1-m31-cA_3es5-a1-m36-cA 3es5-a1-m32-cA_3es5-a1-m58-cA 3es5-a1-m33-cA_3es5-a1-m7-cA 3es5-a1-m34-cA_3es5-a1-m5-cA 3es5-a1-m35-cA_3es5-a1-m49-cA 3es5-a1-m37-cA_3es5-a1-m48-cA 3es5-a1-m3-cA_3es5-a1-m42-cA 3es5-a1-m40-cA_3es5-a1-m59-cA 3es5-a1-m41-cA_3es5-a1-m46-cA 3es5-a1-m4-cA_3es5-a1-m50-cA 3es5-a1-m51-cA_3es5-a1-m56-cA 3es5-a1-m57-cA_3es5-a1-m8-cA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD 3es5-a1-m8-cA_3es5-a1-m9-cA Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 23 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 379 379 3es5-a1-m10-cA_3es5-a1-m6-cA 3es5-a1-m10-cA_3es5-a1-m9-cA 3es5-a1-m11-cA_3es5-a1-m12-cA 3es5-a1-m11-cA_3es5-a1-m15-cA 3es5-a1-m12-cA_3es5-a1-m13-cA 3es5-a1-m13-cA_3es5-a1-m14-cA 3es5-a1-m14-cA_3es5-a1-m15-cA 3es5-a1-m16-cA_3es5-a1-m17-cA 3es5-a1-m16-cA_3es5-a1-m20-cA 3es5-a1-m17-cA_3es5-a1-m18-cA 3es5-a1-m18-cA_3es5-a1-m19-cA 3es5-a1-m19-cA_3es5-a1-m20-cA 3es5-a1-m1-cA_3es5-a1-m2-cA 3es5-a1-m1-cA_3es5-a1-m5-cA 3es5-a1-m21-cA_3es5-a1-m22-cA 3es5-a1-m21-cA_3es5-a1-m25-cA 3es5-a1-m22-cA_3es5-a1-m23-cA 3es5-a1-m23-cA_3es5-a1-m24-cA 3es5-a1-m24-cA_3es5-a1-m25-cA 3es5-a1-m26-cA_3es5-a1-m27-cA 3es5-a1-m26-cA_3es5-a1-m30-cA 3es5-a1-m27-cA_3es5-a1-m28-cA 3es5-a1-m28-cA_3es5-a1-m29-cA 3es5-a1-m29-cA_3es5-a1-m30-cA 3es5-a1-m2-cA_3es5-a1-m3-cA 3es5-a1-m31-cA_3es5-a1-m32-cA 3es5-a1-m31-cA_3es5-a1-m35-cA 3es5-a1-m32-cA_3es5-a1-m33-cA 3es5-a1-m33-cA_3es5-a1-m34-cA 3es5-a1-m34-cA_3es5-a1-m35-cA 3es5-a1-m36-cA_3es5-a1-m37-cA 3es5-a1-m36-cA_3es5-a1-m40-cA 3es5-a1-m37-cA_3es5-a1-m38-cA 3es5-a1-m38-cA_3es5-a1-m39-cA 3es5-a1-m39-cA_3es5-a1-m40-cA 3es5-a1-m3-cA_3es5-a1-m4-cA 3es5-a1-m41-cA_3es5-a1-m42-cA 3es5-a1-m41-cA_3es5-a1-m45-cA 3es5-a1-m42-cA_3es5-a1-m43-cA 3es5-a1-m43-cA_3es5-a1-m44-cA 3es5-a1-m44-cA_3es5-a1-m45-cA 3es5-a1-m46-cA_3es5-a1-m47-cA 3es5-a1-m46-cA_3es5-a1-m50-cA 3es5-a1-m47-cA_3es5-a1-m48-cA 3es5-a1-m48-cA_3es5-a1-m49-cA 3es5-a1-m49-cA_3es5-a1-m50-cA 3es5-a1-m4-cA_3es5-a1-m5-cA 3es5-a1-m51-cA_3es5-a1-m52-cA 3es5-a1-m51-cA_3es5-a1-m55-cA 3es5-a1-m52-cA_3es5-a1-m53-cA 3es5-a1-m53-cA_3es5-a1-m54-cA 3es5-a1-m54-cA_3es5-a1-m55-cA 3es5-a1-m56-cA_3es5-a1-m57-cA 3es5-a1-m56-cA_3es5-a1-m60-cA 3es5-a1-m57-cA_3es5-a1-m58-cA 3es5-a1-m58-cA_3es5-a1-m59-cA 3es5-a1-m59-cA_3es5-a1-m60-cA 3es5-a1-m6-cA_3es5-a1-m7-cA 3es5-a1-m7-cA_3es5-a1-m8-cA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD 3es5-a1-m9-cB_3es5-a1-m10-cA Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 39 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 378 379 3es5-a1-m10-cB_3es5-a1-m6-cA 3es5-a1-m11-cB_3es5-a1-m12-cA 3es5-a1-m12-cB_3es5-a1-m13-cA 3es5-a1-m13-cB_3es5-a1-m14-cA 3es5-a1-m14-cB_3es5-a1-m15-cA 3es5-a1-m15-cB_3es5-a1-m11-cA 3es5-a1-m16-cB_3es5-a1-m17-cA 3es5-a1-m17-cB_3es5-a1-m18-cA 3es5-a1-m18-cB_3es5-a1-m19-cA 3es5-a1-m19-cB_3es5-a1-m20-cA 3es5-a1-m1-cB_3es5-a1-m2-cA 3es5-a1-m20-cB_3es5-a1-m16-cA 3es5-a1-m21-cB_3es5-a1-m22-cA 3es5-a1-m22-cB_3es5-a1-m23-cA 3es5-a1-m23-cB_3es5-a1-m24-cA 3es5-a1-m24-cB_3es5-a1-m25-cA 3es5-a1-m25-cB_3es5-a1-m21-cA 3es5-a1-m26-cB_3es5-a1-m27-cA 3es5-a1-m27-cB_3es5-a1-m28-cA 3es5-a1-m28-cB_3es5-a1-m29-cA 3es5-a1-m29-cB_3es5-a1-m30-cA 3es5-a1-m2-cB_3es5-a1-m3-cA 3es5-a1-m30-cB_3es5-a1-m26-cA 3es5-a1-m31-cB_3es5-a1-m32-cA 3es5-a1-m32-cB_3es5-a1-m33-cA 3es5-a1-m33-cB_3es5-a1-m34-cA 3es5-a1-m34-cB_3es5-a1-m35-cA 3es5-a1-m35-cB_3es5-a1-m31-cA 3es5-a1-m36-cB_3es5-a1-m37-cA 3es5-a1-m37-cB_3es5-a1-m38-cA 3es5-a1-m38-cB_3es5-a1-m39-cA 3es5-a1-m39-cB_3es5-a1-m40-cA 3es5-a1-m3-cB_3es5-a1-m4-cA 3es5-a1-m40-cB_3es5-a1-m36-cA 3es5-a1-m41-cB_3es5-a1-m42-cA 3es5-a1-m42-cB_3es5-a1-m43-cA 3es5-a1-m43-cB_3es5-a1-m44-cA 3es5-a1-m44-cB_3es5-a1-m45-cA 3es5-a1-m45-cB_3es5-a1-m41-cA 3es5-a1-m46-cB_3es5-a1-m47-cA 3es5-a1-m47-cB_3es5-a1-m48-cA 3es5-a1-m48-cB_3es5-a1-m49-cA 3es5-a1-m49-cB_3es5-a1-m50-cA 3es5-a1-m4-cB_3es5-a1-m5-cA 3es5-a1-m50-cB_3es5-a1-m46-cA 3es5-a1-m51-cB_3es5-a1-m52-cA 3es5-a1-m52-cB_3es5-a1-m53-cA 3es5-a1-m53-cB_3es5-a1-m54-cA 3es5-a1-m54-cB_3es5-a1-m55-cA 3es5-a1-m55-cB_3es5-a1-m51-cA 3es5-a1-m56-cB_3es5-a1-m57-cA 3es5-a1-m57-cB_3es5-a1-m58-cA 3es5-a1-m58-cB_3es5-a1-m59-cA 3es5-a1-m59-cB_3es5-a1-m60-cA 3es5-a1-m5-cB_3es5-a1-m1-cA 3es5-a1-m60-cB_3es5-a1-m56-cA 3es5-a1-m6-cB_3es5-a1-m7-cA 3es5-a1-m7-cB_3es5-a1-m8-cA 3es5-a1-m8-cB_3es5-a1-m9-cA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD 3es5-a1-m9-cB_3es5-a1-m24-cA Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 16 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 378 379 3es5-a1-m10-cB_3es5-a1-m1-cA 3es5-a1-m11-cB_3es5-a1-m38-cA 3es5-a1-m12-cB_3es5-a1-m47-cA 3es5-a1-m13-cB_3es5-a1-m45-cA 3es5-a1-m14-cB_3es5-a1-m29-cA 3es5-a1-m15-cB_3es5-a1-m16-cA 3es5-a1-m16-cB_3es5-a1-m28-cA 3es5-a1-m17-cB_3es5-a1-m52-cA 3es5-a1-m18-cB_3es5-a1-m60-cA 3es5-a1-m19-cB_3es5-a1-m39-cA 3es5-a1-m1-cB_3es5-a1-m23-cA 3es5-a1-m20-cB_3es5-a1-m11-cA 3es5-a1-m21-cB_3es5-a1-m43-cA 3es5-a1-m22-cB_3es5-a1-m2-cA 3es5-a1-m23-cB_3es5-a1-m10-cA 3es5-a1-m24-cB_3es5-a1-m54-cA 3es5-a1-m25-cB_3es5-a1-m26-cA 3es5-a1-m26-cB_3es5-a1-m53-cA 3es5-a1-m27-cB_3es5-a1-m17-cA 3es5-a1-m28-cB_3es5-a1-m15-cA 3es5-a1-m29-cB_3es5-a1-m44-cA 3es5-a1-m2-cB_3es5-a1-m42-cA 3es5-a1-m30-cB_3es5-a1-m21-cA 3es5-a1-m31-cB_3es5-a1-m58-cA 3es5-a1-m32-cB_3es5-a1-m7-cA 3es5-a1-m33-cB_3es5-a1-m5-cA 3es5-a1-m34-cB_3es5-a1-m49-cA 3es5-a1-m35-cB_3es5-a1-m36-cA 3es5-a1-m36-cB_3es5-a1-m48-cA 3es5-a1-m37-cB_3es5-a1-m12-cA 3es5-a1-m38-cB_3es5-a1-m20-cA 3es5-a1-m39-cB_3es5-a1-m59-cA 3es5-a1-m3-cB_3es5-a1-m50-cA 3es5-a1-m40-cB_3es5-a1-m31-cA 3es5-a1-m41-cB_3es5-a1-m3-cA 3es5-a1-m42-cB_3es5-a1-m22-cA 3es5-a1-m43-cB_3es5-a1-m30-cA 3es5-a1-m44-cB_3es5-a1-m14-cA 3es5-a1-m45-cB_3es5-a1-m46-cA 3es5-a1-m46-cB_3es5-a1-m13-cA 3es5-a1-m47-cB_3es5-a1-m37-cA 3es5-a1-m48-cB_3es5-a1-m35-cA 3es5-a1-m49-cB_3es5-a1-m4-cA 3es5-a1-m4-cB_3es5-a1-m34-cA 3es5-a1-m50-cB_3es5-a1-m41-cA 3es5-a1-m51-cB_3es5-a1-m18-cA 3es5-a1-m52-cB_3es5-a1-m27-cA 3es5-a1-m53-cB_3es5-a1-m25-cA 3es5-a1-m54-cB_3es5-a1-m9-cA 3es5-a1-m55-cB_3es5-a1-m56-cA 3es5-a1-m56-cB_3es5-a1-m8-cA 3es5-a1-m57-cB_3es5-a1-m32-cA 3es5-a1-m58-cB_3es5-a1-m40-cA 3es5-a1-m59-cB_3es5-a1-m19-cA 3es5-a1-m5-cB_3es5-a1-m6-cA 3es5-a1-m60-cB_3es5-a1-m51-cA 3es5-a1-m6-cB_3es5-a1-m33-cA 3es5-a1-m7-cB_3es5-a1-m57-cA 3es5-a1-m8-cB_3es5-a1-m55-cA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD 3es5-a1-m9-cB_3es5-a1-m55-cA Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 22 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 378 379 3es5-a1-m10-cB_3es5-a1-m24-cA 3es5-a1-m11-cB_3es5-a1-m16-cA 3es5-a1-m12-cB_3es5-a1-m38-cA 3es5-a1-m13-cB_3es5-a1-m47-cA 3es5-a1-m14-cB_3es5-a1-m45-cA 3es5-a1-m15-cB_3es5-a1-m29-cA 3es5-a1-m16-cB_3es5-a1-m11-cA 3es5-a1-m17-cB_3es5-a1-m28-cA 3es5-a1-m18-cB_3es5-a1-m52-cA 3es5-a1-m19-cB_3es5-a1-m60-cA 3es5-a1-m1-cB_3es5-a1-m6-cA 3es5-a1-m20-cB_3es5-a1-m39-cA 3es5-a1-m21-cB_3es5-a1-m26-cA 3es5-a1-m22-cB_3es5-a1-m43-cA 3es5-a1-m23-cB_3es5-a1-m2-cA 3es5-a1-m24-cB_3es5-a1-m10-cA 3es5-a1-m25-cB_3es5-a1-m54-cA 3es5-a1-m26-cB_3es5-a1-m21-cA 3es5-a1-m27-cB_3es5-a1-m53-cA 3es5-a1-m28-cB_3es5-a1-m17-cA 3es5-a1-m29-cB_3es5-a1-m15-cA 3es5-a1-m2-cB_3es5-a1-m23-cA 3es5-a1-m30-cB_3es5-a1-m44-cA 3es5-a1-m31-cB_3es5-a1-m36-cA 3es5-a1-m32-cB_3es5-a1-m58-cA 3es5-a1-m33-cB_3es5-a1-m7-cA 3es5-a1-m34-cB_3es5-a1-m5-cA 3es5-a1-m35-cB_3es5-a1-m49-cA 3es5-a1-m36-cB_3es5-a1-m31-cA 3es5-a1-m37-cB_3es5-a1-m48-cA 3es5-a1-m38-cB_3es5-a1-m12-cA 3es5-a1-m39-cB_3es5-a1-m20-cA 3es5-a1-m3-cB_3es5-a1-m42-cA 3es5-a1-m40-cB_3es5-a1-m59-cA 3es5-a1-m41-cB_3es5-a1-m46-cA 3es5-a1-m42-cB_3es5-a1-m3-cA 3es5-a1-m43-cB_3es5-a1-m22-cA 3es5-a1-m44-cB_3es5-a1-m30-cA 3es5-a1-m45-cB_3es5-a1-m14-cA 3es5-a1-m46-cB_3es5-a1-m41-cA 3es5-a1-m47-cB_3es5-a1-m13-cA 3es5-a1-m48-cB_3es5-a1-m37-cA 3es5-a1-m49-cB_3es5-a1-m35-cA 3es5-a1-m4-cB_3es5-a1-m50-cA 3es5-a1-m50-cB_3es5-a1-m4-cA 3es5-a1-m51-cB_3es5-a1-m56-cA 3es5-a1-m52-cB_3es5-a1-m18-cA 3es5-a1-m53-cB_3es5-a1-m27-cA 3es5-a1-m54-cB_3es5-a1-m25-cA 3es5-a1-m55-cB_3es5-a1-m9-cA 3es5-a1-m56-cB_3es5-a1-m51-cA 3es5-a1-m57-cB_3es5-a1-m8-cA 3es5-a1-m58-cB_3es5-a1-m32-cA 3es5-a1-m59-cB_3es5-a1-m40-cA 3es5-a1-m5-cB_3es5-a1-m34-cA 3es5-a1-m60-cB_3es5-a1-m19-cA 3es5-a1-m6-cB_3es5-a1-m1-cA 3es5-a1-m7-cB_3es5-a1-m33-cA 3es5-a1-m8-cB_3es5-a1-m57-cA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD 3es5-a1-m9-cB_3es5-a1-m9-cA Crystal Structure of Partitivirus (PsV-F) Q4G3H1 Q4G3H1 3.3 X-RAY DIFFRACTION 347 1.0 296210 (Penicillium stoloniferum virus F) 296210 (Penicillium stoloniferum virus F) 378 379 3es5-a1-m10-cB_3es5-a1-m10-cA 3es5-a1-m11-cB_3es5-a1-m11-cA 3es5-a1-m12-cB_3es5-a1-m12-cA 3es5-a1-m13-cB_3es5-a1-m13-cA 3es5-a1-m14-cB_3es5-a1-m14-cA 3es5-a1-m15-cB_3es5-a1-m15-cA 3es5-a1-m16-cB_3es5-a1-m16-cA 3es5-a1-m17-cB_3es5-a1-m17-cA 3es5-a1-m18-cB_3es5-a1-m18-cA 3es5-a1-m19-cB_3es5-a1-m19-cA 3es5-a1-m1-cB_3es5-a1-m1-cA 3es5-a1-m20-cB_3es5-a1-m20-cA 3es5-a1-m21-cB_3es5-a1-m21-cA 3es5-a1-m22-cB_3es5-a1-m22-cA 3es5-a1-m23-cB_3es5-a1-m23-cA 3es5-a1-m24-cB_3es5-a1-m24-cA 3es5-a1-m25-cB_3es5-a1-m25-cA 3es5-a1-m26-cB_3es5-a1-m26-cA 3es5-a1-m27-cB_3es5-a1-m27-cA 3es5-a1-m28-cB_3es5-a1-m28-cA 3es5-a1-m29-cB_3es5-a1-m29-cA 3es5-a1-m2-cB_3es5-a1-m2-cA 3es5-a1-m30-cB_3es5-a1-m30-cA 3es5-a1-m31-cB_3es5-a1-m31-cA 3es5-a1-m32-cB_3es5-a1-m32-cA 3es5-a1-m33-cB_3es5-a1-m33-cA 3es5-a1-m34-cB_3es5-a1-m34-cA 3es5-a1-m35-cB_3es5-a1-m35-cA 3es5-a1-m36-cB_3es5-a1-m36-cA 3es5-a1-m37-cB_3es5-a1-m37-cA 3es5-a1-m38-cB_3es5-a1-m38-cA 3es5-a1-m39-cB_3es5-a1-m39-cA 3es5-a1-m3-cB_3es5-a1-m3-cA 3es5-a1-m40-cB_3es5-a1-m40-cA 3es5-a1-m41-cB_3es5-a1-m41-cA 3es5-a1-m42-cB_3es5-a1-m42-cA 3es5-a1-m43-cB_3es5-a1-m43-cA 3es5-a1-m44-cB_3es5-a1-m44-cA 3es5-a1-m45-cB_3es5-a1-m45-cA 3es5-a1-m46-cB_3es5-a1-m46-cA 3es5-a1-m47-cB_3es5-a1-m47-cA 3es5-a1-m48-cB_3es5-a1-m48-cA 3es5-a1-m49-cB_3es5-a1-m49-cA 3es5-a1-m4-cB_3es5-a1-m4-cA 3es5-a1-m50-cB_3es5-a1-m50-cA 3es5-a1-m51-cB_3es5-a1-m51-cA 3es5-a1-m52-cB_3es5-a1-m52-cA 3es5-a1-m53-cB_3es5-a1-m53-cA 3es5-a1-m54-cB_3es5-a1-m54-cA 3es5-a1-m55-cB_3es5-a1-m55-cA 3es5-a1-m56-cB_3es5-a1-m56-cA 3es5-a1-m57-cB_3es5-a1-m57-cA 3es5-a1-m58-cB_3es5-a1-m58-cA 3es5-a1-m59-cB_3es5-a1-m59-cA 3es5-a1-m5-cB_3es5-a1-m5-cA 3es5-a1-m60-cB_3es5-a1-m60-cA 3es5-a1-m6-cB_3es5-a1-m6-cA 3es5-a1-m7-cB_3es5-a1-m7-cA 3es5-a1-m8-cB_3es5-a1-m8-cA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYA MRLGWIDPLPQVDTIFPLGLEPNVESIPAGEVELDFNLPETIAKPFADTVTSVGDRIQLVDDDKENIATSIYGLSFFKAARQLYSTMLDHEKAVNQPLKAVYYDETPIPAHMSGALGIIGHMKTKVGDVLVKDAGVLFKRGTAAGVTKFSEIDNDKTWNLDCSKLVWADHSSLSMIKRLASEKISQLVKQRYRVTDAQGHVYSVSMPQLTDQALPDYYDSIPDVAPNSDQLRVLTAALQMSLAQFRNDELPHDEDRSDLLTTLDLLYADGAYEISALRDQFELLMARYTTDFKWRVESIFKVGPPPAGTTGYGAQTVSSTGNTARWQFPLSDADINIGYLFSPSKSFSLFPKMVGYSKRAREDASASFANSDAKKFYAD 3esb-a1-m1-cA_3esb-a1-m2-cA cut-1c; NCN-Pt-Pincer-Cutinase Hybrid P00590 P00590 2.3 X-RAY DIFFRACTION 31 1.0 199 199 GRTTRDDLINGNSASCADVIFIYARGSTETGNLGTLGPSIASNLESAFGKDGVWIQGVGGAYRATLGDNALPRGTSSAAIREMLGLFQQANTKCPDATLIAGGYSQGAALAAASIEDLDSAIRDKIAGTVLFGYTKNLQNRGRIPNYPADRTKVFCKTGDLVCTGSLIVAAPHLAYGPDARGPAPEFLIEKVRAVRGSA GRTTRDDLINGNSASCADVIFIYARGSTETGNLGTLGPSIASNLESAFGKDGVWIQGVGGAYRATLGDNALPRGTSSAAIREMLGLFQQANTKCPDATLIAGGYSQGAALAAASIEDLDSAIRDKIAGTVLFGYTKNLQNRGRIPNYPADRTKVFCKTGDLVCTGSLIVAAPHLAYGPDARGPAPEFLIEKVRAVRGSA 3esf-a2-m1-cC_3esf-a2-m1-cD Crystal Structure of the enzyme Fe-superoxide dismutase TbSODB2 from Trypanosoma brucei Q2KN30 Q2KN30 2.01 X-RAY DIFFRACTION 47 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 197 197 3esf-a1-m1-cA_3esf-a1-m1-cB MAFSIPPLPWGYDGLAAKGISKEQVTFHYDKHHMGYVTKLNAAANSNPALAAKSVEEIIRTEKGPIFNLAAQIFNHNFYWESMSPNGGGEPSGKLAEAIRASFGSFAKFKEEFTNAAVGHFGSGWAWLVQDTTTKKLKVFQTHDAGCPLTEADLKPILTCDVWEHAYYIDYKNDRPAYVQTFWNVVNWDHAENQFTR MAFSIPPLPWGYDGLAAKGISKEQVTFHYDKHHMGYVTKLNAAANSNPALAAKSVEEIIRTEKGPIFNLAAQIFNHNFYWESMSPNGGGEPSGKLAEAIRASFGSFAKFKEEFTNAAVGHFGSGWAWLVQDTTTKKLKVFQTHDAGCPLTEADLKPILTCDVWEHAYYIDYKNDRPAYVQTFWNVVNWDHAENQFTR 3esh-a1-m1-cB_3esh-a1-m2-cC Crystal structure of a probable metal-dependent hydrolase from Staphylococcus aureus. Northeast Structural Genomics target ZR314 A0A0H3JZW1 A0A0H3JZW1 2.5 X-RAY DIFFRACTION 15 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 266 266 3esh-a1-m1-cB_3esh-a1-m1-cA 3esh-a1-m1-cC_3esh-a1-m2-cA 3esh-a1-m1-cC_3esh-a1-m2-cB 3esh-a1-m2-cB_3esh-a1-m2-cA 3esh-a1-m2-cC_3esh-a1-m1-cA 3esh-a2-m1-cB_3esh-a2-m1-cA KIGDISIHYLNGGNTKDGGAFGVVPKPLWSKQYNANERNQINLPTHPILIQTAQYNLIIDAGIGNGKLSEKQLRNFGVDEESHIIADLANYNLTPKDIDYVLTHHFDHAAGLTDQAGHAIFENAIHVVQQDEWHEFIAPNIRSKSTYWDKNKGDYSNKLILFEKHFEPVPGIKQHSGGHSFGHTIITIESQGDKAVHGDIFPTTAHKNPLWVTAYDDYPQSIREKERIPYFIQQQYWFLFYHDENYFAVKYSDDGENIDAYILRET KIGDISIHYLNGGNTKDGGAFGVVPKPLWSKQYNANERNQINLPTHPILIQTAQYNLIIDAGIGNGKLSEKQLRNFGVDEESHIIADLANYNLTPKDIDYVLTHHFDHAAGLTDQAGHAIFENAIHVVQQDEWHEFIAPNIRSKSTYWDKNKGDYSNKLILFEKHFEPVPGIKQHSGGHSFGHTIITIESQGDKAVHGDIFPTTAHKNPLWVTAYDDYPQSIREKERIPYFIQQQYWFLFYHDENYFAVKYSDDGENIDAYILRET 3esh-a2-m1-cC_3esh-a2-m1-cA Crystal structure of a probable metal-dependent hydrolase from Staphylococcus aureus. Northeast Structural Genomics target ZR314 A0A0H3JZW1 A0A0H3JZW1 2.5 X-RAY DIFFRACTION 72 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 266 268 3esh-a1-m1-cB_3esh-a1-m2-cB 3esh-a1-m1-cC_3esh-a1-m1-cA 3esh-a1-m2-cC_3esh-a1-m2-cA KIGDISIHYLNGGNTKDGGAFGVVPKPLWSKQYNANERNQINLPTHPILIQTAQYNLIIDAGIGNGKLSEKQLRNFGVDEESHIIADLANYNLTPKDIDYVLTHHFDHAAGLTDQAGHAIFENAIHVVQQDEWHEFIAPNIRSKSTYWDKNKGDYSNKLILFEKHFEPVPGIKQHSGGHSFGHTIITIESQGDKAVHGDIFPTTAHKNPLWVTAYDDYPQSIREKERIPYFIQQQYWFLFYHDENYFAVKYSDDGENIDAYILRET KIGDISIHYLNGGNTKDGGAFGVVPKPLWSKQYNANERNQINLPTHPILIQTAQYNLIIDAGIGNGKLSEKQLRNFGVDEESHIIADLANYNLTPKDIDYVLTHHFDHAAGLTDQAGHAIFENAIHVVQQDEWHEFIAPNIRSKSTYWDKNKGDYSNKLILFEKHFEPVPGIKQHSGGHSFGHTIITIESQGDKAVHGDIFPTTAHKNPLWVTAYDDYPQSIREKERIPYFIQQQYWFLFYHDENYFAVKYSDDGENIDAYILRETLV 3esi-a1-m1-cB_3esi-a1-m1-cC Crystal structure of an uncharacterized protein from Erwinia carotovora subsp. atroseptica. Northeast Structural Genomics target EwR179 Q6CYK7 Q6CYK7 2.5 X-RAY DIFFRACTION 11 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 124 124 MLPVELVRHDVKKTDETSQVELMLQVDPDLFWFNGHFTGQPLLPGVAQLDWVMHYATTVLAQGWTFLSIENIKFQQPILPGKTLRLVLIWHAGKQSLTFSYSILEGDTERTASSGKIKLTPIME MLPVELVRHDVKKTDETSQVELMLQVDPDLFWFNGHFTGQPLLPGVAQLDWVMHYATTVLAQGWTFLSIENIKFQQPILPGKTLRLVLIWHAGKQSLTFSYSILEGDTERTASSGKIKLTPIME 3esi-a1-m1-cB_3esi-a1-m1-cD Crystal structure of an uncharacterized protein from Erwinia carotovora subsp. atroseptica. Northeast Structural Genomics target EwR179 Q6CYK7 Q6CYK7 2.5 X-RAY DIFFRACTION 24 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 124 124 3esi-a1-m1-cA_3esi-a1-m1-cC MLPVELVRHDVKKTDETSQVELMLQVDPDLFWFNGHFTGQPLLPGVAQLDWVMHYATTVLAQGWTFLSIENIKFQQPILPGKTLRLVLIWHAGKQSLTFSYSILEGDTERTASSGKIKLTPIME MLPVELVRHDVKKTDETSQVELMLQVDPDLFWFNGHFTGQPLLPGVAQLDWVMHYATTVLAQGWTFLSIENIKFQQPILPGKTLRLVLIWHAGKQSLTFSYSILEGDTERTASSGKIKLTPIME 3esi-a1-m1-cC_3esi-a1-m1-cD Crystal structure of an uncharacterized protein from Erwinia carotovora subsp. atroseptica. Northeast Structural Genomics target EwR179 Q6CYK7 Q6CYK7 2.5 X-RAY DIFFRACTION 30 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 124 124 3esi-a1-m1-cA_3esi-a1-m1-cB MLPVELVRHDVKKTDETSQVELMLQVDPDLFWFNGHFTGQPLLPGVAQLDWVMHYATTVLAQGWTFLSIENIKFQQPILPGKTLRLVLIWHAGKQSLTFSYSILEGDTERTASSGKIKLTPIME MLPVELVRHDVKKTDETSQVELMLQVDPDLFWFNGHFTGQPLLPGVAQLDWVMHYATTVLAQGWTFLSIENIKFQQPILPGKTLRLVLIWHAGKQSLTFSYSILEGDTERTASSGKIKLTPIME 3esm-a1-m1-cA_3esm-a1-m2-cA Crystal structure of an uncharacterized protein from Nocardia farcinica reveals an immunoglobulin-like fold Q5Z3N8 Q5Z3N8 1.65 X-RAY DIFFRACTION 92 1.0 37329 (Nocardia farcinica) 37329 (Nocardia farcinica) 136 136 SLHVTADAPGAAQGGYSVVTFRVPTESETAATTAMTVTLPNVRSARTEPMPGWTARVDRNDKSEAVSVTWTADPGNPGVQPGQFQRFVVSIGPLPSAETVSFPAEQTYSDGRVVAWNQPPAASEPEHPAPTLTLAT SLHVTADAPGAAQGGYSVVTFRVPTESETAATTAMTVTLPNVRSARTEPMPGWTARVDRNDKSEAVSVTWTADPGNPGVQPGQFQRFVVSIGPLPSAETVSFPAEQTYSDGRVVAWNQPPAASEPEHPAPTLTLAT 3et6-a1-m1-cB_3et6-a1-m1-cA The crystal structure of the catalytic domain of a eukaryotic guanylate cyclase Q5YLC2 Q5YLC2 2.55 X-RAY DIFFRACTION 78 0.994 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 180 182 SAPAQEHPEATVLFSDIVGFTEIASRSSPLEVSLLDELYQRFDAAIEEYPQLYKVETIGDAYMVVCNVTVPCDDHADVLLEFALRMHEEASRVAEPVRIRVGMHSGPVVAGVVGRKMPRFLFGDTVNTASRMESHGEAGQIHISEACYCLRSKERFEIRERGNITVKGKGTMRTYLLSPL SAPAQEHPEATVLFSDIVGFTEIASRSSPLEVSLLDELYQRFDAAIEEYPQLYKVETIGDAYMVVCNVTVPCDDHADVLLEFALRMHEEASRVASSPVRIRVGMHSGPVVAGVVGRKMPRFLFGDTVNTASRMESHGEAGQIHISEACYCCLRSKERFEIRERGNITVKGKGTMRTYLLSPL 3etc-a1-m1-cA_3etc-a1-m1-cB 2.1 A structure of acyl-adenylate synthetase from Methanosarcina acetivorans containing a link between Lys256 and Cys298 Q8TLW1 Q8TLW1 2.1 X-RAY DIFFRACTION 56 1.0 2214 (Methanosarcina acetivorans) 2214 (Methanosarcina acetivorans) 531 537 SLLSQFVSKTDFESYEDFQENFKILVPENFNFAYDVVDVYARDSPEKLAMIWCDDYGNEKIFTFKDLKYYSDKAANFFVKHGIGKGDYVMLTLKSRYDFWYCMLGLHKLGAIAVPATHMLKTRDIVYRIEKAGLKMIVCIAEDDVPEQVDEAHAECGDIPLKKAKVGGDVLEGWIDFRKELEESSPIFERPTGEVSTKNEDICLVYFSSGTAGFPKMVEHDNTYPLGHILTAKYWQNVEDDGLHYTVADSGWGKCVWGKLYGQWIAGCAVFVYDYDRFEAKNMLEKASKYGVTTFCAPPTIYRFLIKEDLNFSTLKYAVVAGEPLNPEVFNRFLEFTGIKLMEGFGQTETVVTIATFPWMEPKPGSIGKPTPGYKIELMDRDGRLCEVGEEGEIVINTMEGKPVGLFVHYGKDPERTEETWHDGYYHTGDMAWMDEDGYLWFVGRADDIIKTSGYKVGPFEVESALIQHPAVLECAITGVPDPVRGQVIKATIVLTKDYTPSDSLKNELQDHVKNVTAPYKYPRIIEFVPE SLLSQFVSKTDFESYEDFQENFKILVPENFNFAYDVVDVYARDSPEKLAMIWCDDYGNEKIFTFKDLKYYSDKAANFFVKHGIGKGDYVMLTLKSRYDFWYCMLGLHKLGAIAVPATHMLKTRDIVYRIEKAGLKMIVCIAEDDVPEQVDEAHAECGDIPLKKAKVGGDVLEGWIDFRKELEESSPIFERPTGEVSTKNEDICLVYFSSGTAGFPKMVEHDNTYPLGHILTAKYWQNVEDDGLHYTVADSGWGKCVWGKLYGQWIAGCAVFVYDYDRFEAKNMLEKASKYGVTTFCAPPTIYRFLIKEDLSHYNFSTLKYAVVAGEPLNPEVFNRFLEFTGIKLMEGFGQTETVVTIATFPWMEPKPGSIGKPTPGYKIELMDRDGRLCEVGEEGEIVINTMEGKPVGLFVHYGKDPERTEETWHDGYYHTGDMAWMDEDGYLWFVGRADDIIKTSGYKVGPFEVESALIQHPAVLECAITGVPDPVRGQVIKATIVLTKDYTPSDSLKNELQDHVKNVTAPYKYPRIIEFVPELPK 3etf-a1-m1-cD_3etf-a1-m1-cB Crystal structure of a putative succinate-semialdehyde dehydrogenase from salmonella typhimurium lt2 Q8ZPI3 Q8ZPI3 1.85 X-RAY DIFFRACTION 52 1.0 442 444 3efv-a1-m1-cC_3efv-a1-m1-cA 3efv-a1-m1-cD_3efv-a1-m1-cB 3etf-a1-m1-cC_3etf-a1-m1-cA ALSVNPATGQTLAAPWANAQEIEHALSLAASGFKKWKTSVAQRAQTLRDIGQALRAHAEEAQCITREGKPIKQARAEVTKSAALCDWYAEHGPALNPEPTLVENQQAVIEYRPLGVILAIPWNFPLWQVLRGAVPILLAGNSYLLKHAPNVTGCAQIARILAEAGTPAGVYGWVNANNEGVSQINDPRIAAVTVTGSVRAGAAIGAQAGAALKKCVLELGGSDPFIVLNDADLELAVKAAVAGRYQNTGQVCAAAKRFIVEEGIAQAFTDRFVAAAAALKGDPLVEENDLGPARFDLRDELHQQVQASVAEGARLLLGGEKIAGEGNYYAATVLADVTPDTAFRQELFGPVAAITVAKDAAHALALANDSEFGLSATIFTADDTLAAEAARLECGGVFINGYSASDARVAFGGVKKSGFGRELSHFGLHEFCNVQTVWKNRV TQALSVNPATGQTLAAPWANAQEIEHALSLAASGFKKWKTSVAQRAQTLRDIGQALRAHAEEAQCITREGKPIKQARAEVTKSAALCDWYAEHGPALNPEPTLVENQQAVIEYRPLGVILAIPWNFPLWQVLRGAVPILLAGNSYLLKHAPNVTGCAQIARILAEAGTPAGVYGWVNANNEGVSQINDPRIAAVTVTGSVRAGAAIGAQAGAALKKCVLELGGSDPFIVLNDADLELAVKAAVAGRYQNTGQVCAAAKRFIVEEGIAQAFTDRFVAAAAALKGDPLVEENDLGPARFDLRDELHQQVQASVAEGARLLLGGEKIAGEGNYYAATVLADVTPDTAFRQELFGPVAAITVAKDAAHALALANDSEFGLSATIFTADDTLAAEAARLECGGVFINGYSASDARVAFGGVKKSGFGRELSHFGLHEFCNVQTVWKNRV 3etf-a3-m1-cC_3etf-a3-m1-cB Crystal structure of a putative succinate-semialdehyde dehydrogenase from salmonella typhimurium lt2 Q8ZPI3 Q8ZPI3 1.85 X-RAY DIFFRACTION 189 1.0 443 444 3efv-a1-m1-cA_3efv-a1-m1-cB 3efv-a1-m1-cC_3efv-a1-m1-cD 3efv-a2-m1-cA_3efv-a2-m1-cB 3efv-a3-m1-cC_3efv-a3-m1-cD 3etf-a1-m1-cC_3etf-a1-m1-cB 3etf-a1-m1-cD_3etf-a1-m1-cA 3etf-a2-m1-cD_3etf-a2-m1-cA QALSVNPATGQTLAAPWANAQEIEHALSLAASGFKKWKTSVAQRAQTLRDIGQALRAHAEEAQCITREGKPIKQARAEVTKSAALCDWYAEHGPALNPEPTLVENQQAVIEYRPLGVILAIPWNFPLWQVLRGAVPILLAGNSYLLKHAPNVTGCAQIARILAEAGTPAGVYGWVNANNEGVSQINDPRIAAVTVTGSVRAGAAIGAQAGAALKKCVLELGGSDPFIVLNDADLELAVKAAVAGRYQNTGQVCAAAKRFIVEEGIAQAFTDRFVAAAAALKGDPLVEENDLGPARFDLRDELHQQVQASVAEGARLLLGGEKIAGEGNYYAATVLADVTPDTAFRQELFGPVAAITVAKDAAHALALANDSEFGLSATIFTADDTLAAEAARLECGGVFINGYSASDARVAFGGVKKSGFGRELSHFGLHEFCNVQTVWKNRV TQALSVNPATGQTLAAPWANAQEIEHALSLAASGFKKWKTSVAQRAQTLRDIGQALRAHAEEAQCITREGKPIKQARAEVTKSAALCDWYAEHGPALNPEPTLVENQQAVIEYRPLGVILAIPWNFPLWQVLRGAVPILLAGNSYLLKHAPNVTGCAQIARILAEAGTPAGVYGWVNANNEGVSQINDPRIAAVTVTGSVRAGAAIGAQAGAALKKCVLELGGSDPFIVLNDADLELAVKAAVAGRYQNTGQVCAAAKRFIVEEGIAQAFTDRFVAAAAALKGDPLVEENDLGPARFDLRDELHQQVQASVAEGARLLLGGEKIAGEGNYYAATVLADVTPDTAFRQELFGPVAAITVAKDAAHALALANDSEFGLSATIFTADDTLAAEAARLECGGVFINGYSASDARVAFGGVKKSGFGRELSHFGLHEFCNVQTVWKNRV 3eth-a1-m1-cA_3eth-a1-m1-cB Crystal structure of E. coli Purk in complex with MgATP P09029 P09029 1.6 X-RAY DIFFRACTION 75 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 355 355 1b6s-a1-m1-cA_1b6s-a1-m1-cB 1b6s-a2-m1-cC_1b6s-a2-m1-cD 3etj-a1-m1-cB_3etj-a1-m1-cA MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLDAEPAAVPFQQSVITAEIERWPETALTRQLARHPAFVNRDVFPIIADRLTQKQLFDKLHLPTAPWQLLAERSEWPAVFDRLGELAIVKRRTGGYDGRGQWRLRANETEQLPAECYGECIVEQGINFSGEVSLVGARGFDGSTVFYPLTHNLHQDGILRTSVAFPQANAQQQARAEEMLSAIMQELGYVGVMAMECFVTPQGLLINELAPRVHNSGHWTQNGASISQFELHLRAITDLPLPQPVVNNPSVMINLIGSDVNYDWLKLPLVHLHWYDKEVRPGRKVGHLNLTDSDTSRLTATLEALIPLLPPEYASGVIWAQSKFG MKQVCVLGNGQLGRMLRQAGEPLGIAVWPVGLDAEPAAVPFQQSVITAEIERWPETALTRQLARHPAFVNRDVFPIIADRLTQKQLFDKLHLPTAPWQLLAERSEWPAVFDRLGELAIVKRRTGGYDGRGQWRLRANETEQLPAECYGECIVEQGINFSGEVSLVGARGFDGSTVFYPLTHNLHQDGILRTSVAFPQANAQQQARAEEMLSAIMQELGYVGVMAMECFVTPQGLLINELAPRVHNSGHWTQNGASISQFELHLRAITDLPLPQPVVNNPSVMINLIGSDVNYDWLKLPLVHLHWYDKEVRPGRKVGHLNLTDSDTSRLTATLEALIPLLPPEYASGVIWAQSKFG 3etn-a1-m1-cA_3etn-a1-m1-cD Crystal structure of putative phosphosugar isomerase involved in capsule formation (YP_209877.1) from Bacteroides fragilis NCTC 9343 at 1.70 A resolution Q5LIW1 Q5LIW1 1.7 X-RAY DIFFRACTION 82 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 186 192 3etn-a1-m1-cC_3etn-a1-m1-cB GIESIQELLQKEAQAVLNIPVTDAYEKAVELIVEQIHRKKGKLVTSGGKAGQIANIATTFCSTGIPSVFLHPSEAQHGDLGILQENDLLLLISNSGKTREIVELTQLAHNLNPGLKFIVITGNPDSPLASESDVCLSTGHPAEVCTLGTPTTSTTVTVIGDILVVQTKRTEFTIEEYSKRHHGGYL LYFQGIESIQELLQKEAQAVLNIPVTDAYEKAVELIVEQIHRKKGKLVTSGGKAGQIANIATTFCSTGIPSVFLHPSEAQHGDLGILQENDLLLLISNSGKTREIVELTQLAHNLNPGLKFIVITGNPDSPLASESDVCLSTGHPAEVCTLGTPTTSTTVTVIGDILVVQTKRTEFTIEEYSKRHHGGYLGE 3etn-a1-m1-cB_3etn-a1-m1-cD Crystal structure of putative phosphosugar isomerase involved in capsule formation (YP_209877.1) from Bacteroides fragilis NCTC 9343 at 1.70 A resolution Q5LIW1 Q5LIW1 1.7 X-RAY DIFFRACTION 16 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 192 192 3etn-a1-m1-cA_3etn-a1-m1-cC LYFQGIESIQELLQKEAQAVLNIPVTDAYEKAVELIVEQIHRKKGKLVTSGGKAGQIANIATTFCSTGIPSVFLHPSEAQHGDLGILQENDLLLLISNSGKTREIVELTQLAHNLNPGLKFIVITGNPDSPLASESDVCLSTGHPAEVCTLGTPTTSTTVTVIGDILVVQTKRTEFTIEEYSKRHHGGYLGE LYFQGIESIQELLQKEAQAVLNIPVTDAYEKAVELIVEQIHRKKGKLVTSGGKAGQIANIATTFCSTGIPSVFLHPSEAQHGDLGILQENDLLLLISNSGKTREIVELTQLAHNLNPGLKFIVITGNPDSPLASESDVCLSTGHPAEVCTLGTPTTSTTVTVIGDILVVQTKRTEFTIEEYSKRHHGGYLGE 3etn-a1-m1-cC_3etn-a1-m1-cD Crystal structure of putative phosphosugar isomerase involved in capsule formation (YP_209877.1) from Bacteroides fragilis NCTC 9343 at 1.70 A resolution Q5LIW1 Q5LIW1 1.7 X-RAY DIFFRACTION 142 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 186 192 3etn-a1-m1-cA_3etn-a1-m1-cB GIESIQELLQKEAQAVLNIPVTDAYEKAVELIVEQIHRKKGKLVTSGGKAGQIANIATTFCSTGIPSVFLHPSEAQHGDLGILQENDLLLLISNSGKTREIVELTQLAHNLNPGLKFIVITGNPDSPLASESDVCLSTGHPAEVCTLGTPTTSTTVTVIGDILVVQTKRTEFTIEEYSKRHHGGYL LYFQGIESIQELLQKEAQAVLNIPVTDAYEKAVELIVEQIHRKKGKLVTSGGKAGQIANIATTFCSTGIPSVFLHPSEAQHGDLGILQENDLLLLISNSGKTREIVELTQLAHNLNPGLKFIVITGNPDSPLASESDVCLSTGHPAEVCTLGTPTTSTTVTVIGDILVVQTKRTEFTIEEYSKRHHGGYLGE 3eu9-a1-m1-cC_3eu9-a1-m2-cC The ankyrin repeat domain of Huntingtin interacting protein 14 Q8IUH5 Q8IUH5 1.99 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 226 WDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEARQAK WDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEARQAK 3eu9-a1-m2-cB_3eu9-a1-m2-cA The ankyrin repeat domain of Huntingtin interacting protein 14 Q8IUH5 Q8IUH5 1.99 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 232 3eu9-a1-m1-cB_3eu9-a1-m1-cA IDDYSTWDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQE MTHIDDYSTWDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEAR 3eu9-a1-m2-cC_3eu9-a1-m1-cA The ankyrin repeat domain of Huntingtin interacting protein 14 Q8IUH5 Q8IUH5 1.99 X-RAY DIFFRACTION 23 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 226 232 3eu9-a1-m1-cC_3eu9-a1-m2-cA WDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEARQAK MTHIDDYSTWDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEAR 3eu9-a2-m1-cC_3eu9-a2-m1-cA The ankyrin repeat domain of Huntingtin interacting protein 14 Q8IUH5 Q8IUH5 1.99 X-RAY DIFFRACTION 56 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 226 232 3eu9-a1-m1-cB_3eu9-a1-m2-cB 3eu9-a1-m1-cC_3eu9-a1-m1-cA 3eu9-a1-m2-cC_3eu9-a1-m2-cA WDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEARQAK MTHIDDYSTWDIVKATQYGIYERCRELVEAGYDVRQPDKENVTLLHWAAINNRIDLVKYYISKGAIVDQLGGDLNSTPLHWATRQGHLSMVVQLMKYGADPSLIDGEGCSCIHLAAQFGHTSIVAYLIAKGQDVDMMDQNGMTPLMWAAYRTHSVDPTRLLLTFNVSVNLGDKYHKNTALHWAVLAGNTTVISLLLEAGANVDAQNIKGESALDLAKQRKNVWMINHLQEAR 3eua-a4-m1-cG_3eua-a4-m1-cH CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHOSUGAR ISOMERASE (BSU32610) FROM BACILLUS SUBTILIS AT 1.90 A RESOLUTION O32157 O32157 1.9 X-RAY DIFFRACTION 165 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 321 321 3eua-a1-m1-cB_3eua-a1-m1-cA 3eua-a2-m1-cC_3eua-a2-m1-cD 3eua-a3-m1-cE_3eua-a3-m1-cF SQATAKVNREVQAFLQDLKGKTIDHVFFVACGGSSAIYPSKYVFDRESKSINSDLYSANEFIQRNPVQLGEKSLVILCSHSGNTPETVKAAAFARGKGALTIATFKPESPLAQEAQYVAQYDWGDEALAINTNYGVLYQIVFGTLQVLENNTKFEQAIEGLDQLQAVYEKALKQEADNAKQFAKAHEKESIIYTASGANYGVAYSYSICILEQWIHSHAIHAGEYFHGPFEIIDESVPFIILLGLDETRPLEERALTFSKKYGKKLTVLDAASYDFTAIDDSVKGYLAPLVLNRVLRSYADELAEERNHPLSHRRYWKVEY SQATAKVNREVQAFLQDLKGKTIDHVFFVACGGSSAIYPSKYVFDRESKSINSDLYSANEFIQRNPVQLGEKSLVILCSHSGNTPETVKAAAFARGKGALTIATFKPESPLAQEAQYVAQYDWGDEALAINTNYGVLYQIVFGTLQVLENNTKFEQAIEGLDQLQAVYEKALKQEADNAKQFAKAHEKESIIYTASGANYGVAYSYSICILEQWIHSHAIHAGEYFHGPFEIIDESVPFIILLGLDETRPLEERALTFSKKYGKKLTVLDAASYDFTAIDDSVKGYLAPLVLNRVLRSYADELAEERNHPLSHRRYWKVEY 3euc-a1-m1-cB_3euc-a1-m1-cA Crystal structure of histidinol-phosphate aminotransferase (YP_297314.1) from RALSTONIA EUTROPHA JMP134 at 2.05 A resolution Q46WL3 Q46WL3 2.05 X-RAY DIFFRACTION 202 0.997 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 341 350 GSVVDPSLIERIIRDDVRAGAYHVPDSHGLVKLDAENYRLPPALRSELAARLGEVSSEALRAKLKEVQVPAGEVLLGNGSDEIISLALAAARPGAKVAPVPGFVYASAQFAGLEFVGVPLRADFTLDRGALAAAEHQPAIVYLAYPNNPTGNLFDAADEAIVRAAQGSVCRSLVVVDEAYQPFAQESWSRLTDFGNLLVRTVSKLGLAGIRLGYVAGDPQWLEQLDKVRPPYNVNVLTEATALFALEHVAVLDEQAAQLRAERSRVAEGAAHGGVTVFPSAANFLLARVPDAAQTFDRLLARKVLIKNVSKHPLLANCLRVTVSTPEENAQFLEAFAASLQ SVVDPSLIERIIRDDVRAGAYHVPDSHGLVKLDAENPYRLPPALRSELAARLGEVALNRYPVPSSEALRAKLKEVQVPAGEVLLGNGSDEIISLALAAARPGAKVAPVPGFVYASAQFAGLEFVGVPLRADFTLDRGALAAAEHQPAIVYLAYPNNPTGNLFDAADEAIVRAAQGSVCRSLVVVDEAYQPFAQESWSRLTDFGNLLVRTVSKLGLAGIRLGYVAGDPQWLEQLDKVRPPYNVNVLTEATALFALEHVAVLDEQAAQLRAERSRVAEGAAHGGVTVFPSAANFLLARVPDAAQTFDRLLARKVLIKNVSKHPLLANCLRVTVSTPEENAQFLEAFAASLQD 3euk-a2-m1-cF_3euk-a2-m1-cH Crystal structure of MukE-MukF(residues 292-443)-MukB(head domain)-ATPgammaS complex, asymmetric dimer Q7VL96 Q7VL96 4 X-RAY DIFFRACTION 177 0.993 233412 ([Haemophilus] ducreyi 35000HP) 233412 ([Haemophilus] ducreyi 35000HP) 447 459 3euj-a1-m1-cA_3euj-a1-m2-cA 3euk-a1-m1-cA_3euk-a1-m1-cC IARGKFRSLTLINWNGFFARTFDFDELVTTLSGGNGAGKSTTMAGFVTALIPDLTLLNFRNTTEAGSTSSSRDKGLYGKLKAGVCYAVLETVNSRAQRIITGVRLQQIAGRDKKVDIRPFSLQNVPMTDSVISLFTEQVARVLSLNDLKEKFEETAVTFKPYHSITDYHSFMFDLGILPKRLRSSSDRNKFYKLIEASLYGGISSVITKSLRDYLLPENSGVRQAFQDMEAAISAESVANILRKTIQREQNRILQLNQGLQNIAFGQVKGVRLVVNIRDTHSILLNALSDQHSFSEALAMLYKRINPHIEPQTIGEELLDYRNYLDLEVETLRGAYGWMRAESSALSTGEAIGTGMSILLMVVQSWEEESRRMRAKDILPCRLLFLDQAARLDAMSINTLFELCERLDMQLLIAAPENISPERGTTYKLVRKILANQEYVHVVGLKG MIARGKFRSLTLINWNGFFARTFDFDELVTTLSGGNGAGKSTTMAGFVTALIPDLTLLNFRNTTEAGSTSSSRDKGLYGKLKAGVCYAVLETVNSRAQRIITGVRLQQIAGRDKKVDIRPFSLQNVPMTDSVISLFTEQVANKARVLSLNDLKEKFEETAVTFKPYHSITDYHSFMFDLGILPKRLRSSSDRNKFYKLIEASLYGGISSVITKSLRDYLLPENSGVRQAFQDMEAGSISAESVANILRKTIQREQNRILQLNQGLQNIAFGQVKGVRLVVNIRDTHSILLNALSDQHEQHQKLSFSEALAMLYKRINPHMPQTIGEELLDYRNYLDLEVETLRGAYGWMRAESSALSTGEAIGTGMSILLMVVQSWEEESRRMRAKDILPCRLLFLDQAARLDAMSINTLFELCERLDMQLLIAAPENISPERGTTYKLVRKILANQEYVHVVGLKGFG 3eul-a6-m1-cC_3eul-a6-m1-cB Structure of the signal receiver domain of the putative response regulator NarL from Mycobacterium tuberculosis P9WGM5 P9WGM5 1.9 X-RAY DIFFRACTION 51 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 120 124 3eul-a5-m1-cD_3eul-a5-m1-cA KVRVVVGDDHPLFREGVVRALSLSGSVNVVGEADDGAAALELIKAHLPDVALLDYRMPGMDGAQVAAAVRSYELPTRVLLISAHDEPAIVYQALQQGAAGFLLKDSTRTEIVKAVLDCAK PEKVRVVVGDDHPLFREGVVRALSLSGSVNVVGEADDGAAALELIKAHLPDVALLDYRMPGMDGAQVAAAVRSYELPTRVLLISAHDEPAIVYQALQQGAAGFLLKDSTRTEIVKAVLDCAKGR 3euo-a1-m1-cA_3euo-a1-m1-cB crystal structure of a fungal type III polyketide synthase, ORAS Q7S6N4 Q7S6N4 1.75 X-RAY DIFFRACTION 174 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 378 378 3e1h-a1-m1-cA_3e1h-a1-m1-cB 3euq-a1-m1-cA_3euq-a1-m1-cB 3euq-a2-m1-cC_3euq-a2-m2-cD 3eut-a1-m1-cA_3eut-a1-m1-cB 3eut-a2-m1-cC_3eut-a2-m1-cD LGLSITGLGVQYPPYSLGPDAIDILSKRYHPESPAMKKVLAINRYTGIDQRSSIGNPDHPLVNKPNPPTVKELHEVFMSDGVPLAVEASRKAMAEARLVPAQITHMVSTTCTDSANPGYDHYVAKELGLSDRLEKVLLHGIGSGGLAALRTAANLCLGHTARGKPARILVLALEVSTTMVRSELESIDALQETRIGIALFSDCASAVILSNGIGEAPGKPAIYDLLGWENRVIPDSEHDLGFDVDPMGWKVVLSPRVPVLAKASLQPTYADLLSSLQDQLPSSYQKPADFDWAMHPGGATILSGAESAMGLTPEHMRASYDRYINHGNSSSATIFSVLNRLREKDMDALAPGGKVKEYVVGCAFGPGINVEMCMLKRR LGLSITGLGVQYPPYSLGPDAIDILSKRYHPESPAMKKVLAINRYTGIDQRSSIGNPDHPLVNKPNPPTVKELHEVFMSDGVPLAVEASRKAMAEARLVPAQITHMVSTTCTDSANPGYDHYVAKELGLSDRLEKVLLHGIGSGGLAALRTAANLCLGHTARGKPARILVLALEVSTTMVRSELESIDALQETRIGIALFSDCASAVILSNGIGEAPGKPAIYDLLGWENRVIPDSEHDLGFDVDPMGWKVVLSPRVPVLAKASLQPTYADLLSSLQDQLPSSYQKPADFDWAMHPGGATILSGAESAMGLTPEHMRASYDRYINHGNSSSATIFSVLNRLREKDMDALAPGGKVKEYVVGCAFGPGINVEMCMLKRR 3eup-a1-m1-cB_3eup-a1-m1-cA The crystal structure of the transcriptional regulator, TetR family from Cytophaga hutchinsonii 1.99 X-RAY DIFFRACTION 139 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 200 203 KELSKSDRTRQFIIESTAPVFNVKGLAGTSLTDLTEATNLTKGSIYGNFENKEAVAIAAFDYNWGHVKSVLTAKVQACNTYKEMLLVYSSMYNDADGSLFPVGGCPLLNTTIEADDTHDALRKKAGEAILSWKKNLVTIIKKGIQAKEFRPDTDVTKIAFSMIALVEGAILIHRATKNRAYSDYVFESLEDLIAGIEVKK QAMKELSKSDRTRQFIIESTAPVFNVKGLAGTSLTDLTEATNLTKGSIYGNFENKEAVAIAAFDYNWGHVKSVLTAKVQACNTYKEMLLVYSSMYNDADGSLFPVGGCPLLNTTIEADDTHDALRKKAGEAILSWKKNLVTIIKKGIQAKEFRPDTDVTKIAFSMIALVEGAILIHRATKNRAYSDYVFESLEDLIAGIEVKK 3eus-a1-m1-cB_3eus-a1-m1-cA The crystal structure of the DNA binding protein from Silicibacter pomeroyi Q5LU41 Q5LU41 1.8 X-RAY DIFFRACTION 75 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 77 85 RTPEHVYLCQRLRQARLDAGLTQADLAERLDKPQSFVAKVETRERRLDVIEFAKWMAACEGLDVVSEIVATIAEGRA QAMTKTLRTPEHVYLCQRLRQARLDAGLTQADLAERLDKPQSFVAKVETRERRLDVIEFAKWMAACEGLDVVSEIVATIAEGRAQ 3euw-a1-m1-cA_3euw-a1-m1-cD Crystal Structure of a Myo-inositol dehydrogenase from Corynebacterium glutamicum ATCC 13032 Q8NL86 Q8NL86 2.3 X-RAY DIFFRACTION 70 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 328 328 3euw-a1-m1-cB_3euw-a1-m1-cC LTLRIALFGAGRIGHVHAANIAANPDLELVVIADPFIEGAQRLAEANGAEAVASPDEVFARDDIDGIVIGSPTSTHVDLITRAVERGIPALCEKPIDLDIEVRACKEKIGDGASKVLGFNRRFDPSFAAINARVANQEIGNLEQLVIISRDPAPAPKDYIAGSGGIFRDTIHDLDARFFVPNIVEVTATGANVFSQEIAEFNDYDQVIVTLRGSKGELINIVNSRHCSYGYDQRLEAFGSKGLAADNIRPTTVRKHNAESTEQADPIFNFFLERYDAAYKAELATFAQGIRDGQGFSPNFEDGVIALELANACLESAQTGRTVTLNPA LTLRIALFGAGRIGHVHAANIAANPDLELVVIADPFIEGAQRLAEANGAEAVASPDEVFARDDIDGIVIGSPTSTHVDLITRAVERGIPALCEKPIDLDIEVRACKEKIGDGASKVLGFNRRFDPSFAAINARVANQEIGNLEQLVIISRDPAPAPKDYIAGSGGIFRDTIHDLDARFFVPNIVEVTATGANVFSQEIAEFNDYDQVIVTLRGSKGELINIVNSRHCSYGYDQRLEAFGSKGLAADNIRPTTVRKHNAESTEQADPIFNFFLERYDAAYKAELATFAQGIRDGQGFSPNFEDGVIALELANACLESAQTGRTVTLNPA 3euw-a1-m1-cB_3euw-a1-m1-cD Crystal Structure of a Myo-inositol dehydrogenase from Corynebacterium glutamicum ATCC 13032 Q8NL86 Q8NL86 2.3 X-RAY DIFFRACTION 54 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 328 328 3euw-a1-m1-cA_3euw-a1-m1-cC LTLRIALFGAGRIGHVHAANIAANPDLELVVIADPFIEGAQRLAEANGAEAVASPDEVFARDDIDGIVIGSPTSTHVDLITRAVERGIPALCEKPIDLDIEVRACKEKIGDGASKVLGFNRRFDPSFAAINARVANQEIGNLEQLVIISRDPAPAPKDYIAGSGGIFRDTIHDLDARFFVPNIVEVTATGANVFSQEIAEFNDYDQVIVTLRGSKGELINIVNSRHCSYGYDQRLEAFGSKGLAADNIRPTTVRKHNAESTEQADPIFNFFLERYDAAYKAELATFAQGIRDGQGFSPNFEDGVIALELANACLESAQTGRTVTLNPA LTLRIALFGAGRIGHVHAANIAANPDLELVVIADPFIEGAQRLAEANGAEAVASPDEVFARDDIDGIVIGSPTSTHVDLITRAVERGIPALCEKPIDLDIEVRACKEKIGDGASKVLGFNRRFDPSFAAINARVANQEIGNLEQLVIISRDPAPAPKDYIAGSGGIFRDTIHDLDARFFVPNIVEVTATGANVFSQEIAEFNDYDQVIVTLRGSKGELINIVNSRHCSYGYDQRLEAFGSKGLAADNIRPTTVRKHNAESTEQADPIFNFFLERYDAAYKAELATFAQGIRDGQGFSPNFEDGVIALELANACLESAQTGRTVTLNPA 3euw-a1-m1-cC_3euw-a1-m1-cD Crystal Structure of a Myo-inositol dehydrogenase from Corynebacterium glutamicum ATCC 13032 Q8NL86 Q8NL86 2.3 X-RAY DIFFRACTION 98 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 328 328 3euw-a1-m1-cA_3euw-a1-m1-cB LTLRIALFGAGRIGHVHAANIAANPDLELVVIADPFIEGAQRLAEANGAEAVASPDEVFARDDIDGIVIGSPTSTHVDLITRAVERGIPALCEKPIDLDIEVRACKEKIGDGASKVLGFNRRFDPSFAAINARVANQEIGNLEQLVIISRDPAPAPKDYIAGSGGIFRDTIHDLDARFFVPNIVEVTATGANVFSQEIAEFNDYDQVIVTLRGSKGELINIVNSRHCSYGYDQRLEAFGSKGLAADNIRPTTVRKHNAESTEQADPIFNFFLERYDAAYKAELATFAQGIRDGQGFSPNFEDGVIALELANACLESAQTGRTVTLNPA LTLRIALFGAGRIGHVHAANIAANPDLELVVIADPFIEGAQRLAEANGAEAVASPDEVFARDDIDGIVIGSPTSTHVDLITRAVERGIPALCEKPIDLDIEVRACKEKIGDGASKVLGFNRRFDPSFAAINARVANQEIGNLEQLVIISRDPAPAPKDYIAGSGGIFRDTIHDLDARFFVPNIVEVTATGANVFSQEIAEFNDYDQVIVTLRGSKGELINIVNSRHCSYGYDQRLEAFGSKGLAADNIRPTTVRKHNAESTEQADPIFNFFLERYDAAYKAELATFAQGIRDGQGFSPNFEDGVIALELANACLESAQTGRTVTLNPA 3evi-a1-m1-cA_3evi-a1-m1-cB Crystal structure of the thioredoxin-fold domain of human phosducin-like protein 2 Q8N4E4 Q8N4E4 2.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 KFGELREISGNQYVNEVTNAEEDVWVIIHLYRSSIPMCLLVNQHLSLLARKFPETKFVKAIVNSCIQHYHDNCLPTIFVYKNGQIEAKFIGIIECGGINLKLEELEWKLAEVGAIQTD KFGELREISGNQYVNEVTNAEEDVWVIIHLYRSSIPMCLLVNQHLSLLARKFPETKFVKAIVNSCIQHYHDNCLPTIFVYKNGQIEAKFIGIIECGGINLKLEELEWKLAEVGAIQTD 3evt-a1-m1-cA_3evt-a1-m2-cA Crystal structure of phosphoglycerate dehydrogenase from Lactobacillus plantarum F9URQ7 F9URQ7 2.2 X-RAY DIFFRACTION 172 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 310 310 SLVLMAQATKPEQLQQLQTTYPDWTFKDAAAVTAADYDQIEVMYGNHPLLKTILARPTNQLKFVQVISAGVDYLPLKALQAAGVVVANTSGIHADAISESVLAAMLSVVRGYHAAWLNQRGARQWALPMTTSTLTGQQLLIYGTGQIGQSLAAKASALGMHVIGVNTTGHPADHFHETVAFTATADALATANFIVNALPLTPTTHHLFSTELFQQTKQQPMLINIGRGPAVDTTALMTALDHHQLSMAALDVTEPEPLPTDHPLWQRDDVLITPHISGQIAHFRATVFPIFAANFAQFVKDGTLVRNQVD SLVLMAQATKPEQLQQLQTTYPDWTFKDAAAVTAADYDQIEVMYGNHPLLKTILARPTNQLKFVQVISAGVDYLPLKALQAAGVVVANTSGIHADAISESVLAAMLSVVRGYHAAWLNQRGARQWALPMTTSTLTGQQLLIYGTGQIGQSLAAKASALGMHVIGVNTTGHPADHFHETVAFTATADALATANFIVNALPLTPTTHHLFSTELFQQTKQQPMLINIGRGPAVDTTALMTALDHHQLSMAALDVTEPEPLPTDHPLWQRDDVLITPHISGQIAHFRATVFPIFAANFAQFVKDGTLVRNQVD 3ew1-a2-m1-cC_3ew1-a2-m1-cD Crystal structure of rhizavidin Q8KKW2 Q8KKW2 1.5 X-RAY DIFFRACTION 153 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 135 135 3ew1-a1-m1-cA_3ew1-a1-m1-cB 3ew1-a3-m1-cE_3ew1-a3-m1-cF 3ew2-a1-m1-cA_3ew2-a1-m1-cB 3ew2-a2-m1-cD_3ew2-a2-m1-cC 3ew2-a3-m1-cE_3ew2-a3-m2-cE 3ew2-a4-m1-cG_3ew2-a4-m1-cF FDASNFKDFSSIASASSSWQNQSGSTMIIQVDSFGNVSGQYVNRAQGTGCQNSPYPLTGRVNGTFIAFSVGWNNSTENCNSATGWTGYAQVNGNNTEIVTSWNLAYEGGSGPAIEQGQDTFQYVPTTENKSLLKD FDASNFKDFSSIASASSSWQNQSGSTMIIQVDSFGNVSGQYVNRAQGTGCQNSPYPLTGRVNGTFIAFSVGWNNSTENCNSATGWTGYAQVNGNNTEIVTSWNLAYEGGSGPAIEQGQDTFQYVPTTENKSLLKD 3ew1-a4-m1-cB_3ew1-a4-m2-cD Crystal structure of rhizavidin Q8KKW2 Q8KKW2 1.5 X-RAY DIFFRACTION 104 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 135 135 FDASNFKDFSSIASASSSWQNQSGSTMIIQVDSFGNVSGQYVNRAQGTGCQNSPYPLTGRVNGTFIAFSVGWNNSTENCNSATGWTGYAQVNGNNTEIVTSWNLAYEGGSGPAIEQGQDTFQYVPTTENKSLLKD FDASNFKDFSSIASASSSWQNQSGSTMIIQVDSFGNVSGQYVNRAQGTGCQNSPYPLTGRVNGTFIAFSVGWNNSTENCNSATGWTGYAQVNGNNTEIVTSWNLAYEGGSGPAIEQGQDTFQYVPTTENKSLLKD 3ew1-a4-m2-cF_3ew1-a4-m2-cD Crystal structure of rhizavidin Q8KKW2 Q8KKW2 1.5 X-RAY DIFFRACTION 123 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 134 135 3ew1-a4-m1-cE_3ew1-a4-m1-cB FDASNFKDFSSIASASSSWQNQSGSTMIIQVDSFGNVSGQYVNRAQGTGCQNSPYPLTGRVNGTFIAFSVGWNNSTENCNSATGWTGYAQVNGNNTEIVTSWNLAYEGGSGPAIEQGQDTFQYVPTTENKSLLK FDASNFKDFSSIASASSSWQNQSGSTMIIQVDSFGNVSGQYVNRAQGTGCQNSPYPLTGRVNGTFIAFSVGWNNSTENCNSATGWTGYAQVNGNNTEIVTSWNLAYEGGSGPAIEQGQDTFQYVPTTENKSLLKD 3ewb-a1-m1-cX_3ewb-a1-m2-cX Crystal structure of N-terminal domain of putative 2-isopropylmalate synthase from Listeria monocytogenes Q71Y35 Q71Y35 2.1 X-RAY DIFFRACTION 56 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 268 268 SLKKIQFFDTTLRDGENFDVKEKIQIALQLEKLGIDVIEAGFPISSPGDFECVKAIAKAIKHCSVTGLARCVEGDIDRAEEALKDAVSPQIHIFLATSDVHEYKLKSRAEVLASIKHHISYARQKFDVVQFSPEDATRSDRAFLIEAVQTAIDAGATVINIPDTVGYTNPTEFGQLFQDLRREIKQFDDIIFASHCHDDLGATANALAAIENGARRVEGTINGIGERAGNTALEEVAVALHIRKDFYQAETNIVLNQFKNSSDLISRL SLKKIQFFDTTLRDGENFDVKEKIQIALQLEKLGIDVIEAGFPISSPGDFECVKAIAKAIKHCSVTGLARCVEGDIDRAEEALKDAVSPQIHIFLATSDVHEYKLKSRAEVLASIKHHISYARQKFDVVQFSPEDATRSDRAFLIEAVQTAIDAGATVINIPDTVGYTNPTEFGQLFQDLRREIKQFDDIIFASHCHDDLGATANALAAIENGARRVEGTINGIGERAGNTALEEVAVALHIRKDFYQAETNIVLNQFKNSSDLISRL 3ewe-a3-m1-cB_3ewe-a3-m1-cD Crystal Structure of the Nup85/Seh1 Complex P46673 P46673 3.5 X-RAY DIFFRACTION 27 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 395 395 MPLKFKLGPLSYQNMAFITKYKLYPVRIPRLDTSKEFSAYVSGLFEIYRDLGDKEHNATVNLAMEAILNELEVFIGRVKDVNRFYELEESLTVLNCLRTMYFILNRSEFIESLLNWINRSDGEPDEEYIEQVETQYFWKLLNQLVLRGLLSQAIGCIERSDLLCAVSFDAVSDSIELLTFREWKNLVLKLSQAFSGELRDYIEDFLLVIGGNQRKILQYSRTWYESFCGFLLYYIPSLELSAEYLQMSLEANVVDITNDWEQPCVDIISGKIHSILPVMESLDSCTAAFTAMICEAKGLFSYRNGMASYMLNSFAFELCSLGDKELWPVAIGLIATRSAKKMVIAELLPHYPFVTNDDIEWMLSICVEWRLPEIAKEIYTTLGNQMLSAHNIIES MPLKFKLGPLSYQNMAFITKYKLYPVRIPRLDTSKEFSAYVSGLFEIYRDLGDKEHNATVNLAMEAILNELEVFIGRVKDVNRFYELEESLTVLNCLRTMYFILNRSEFIESLLNWINRSDGEPDEEYIEQVETQYFWKLLNQLVLRGLLSQAIGCIERSDLLCAVSFDAVSDSIELLTFREWKNLVLKLSQAFSGELRDYIEDFLLVIGGNQRKILQYSRTWYESFCGFLLYYIPSLELSAEYLQMSLEANVVDITNDWEQPCVDIISGKIHSILPVMESLDSCTAAFTAMICEAKGLFSYRNGMASYMLNSFAFELCSLGDKELWPVAIGLIATRSAKKMVIAELLPHYPFVTNDDIEWMLSICVEWRLPEIAKEIYTTLGNQMLSAHNIIES 3ewg-a1-m1-cA_3ewg-a1-m2-cA Crystal structure of the N-terminal domain of NusG (NGN) from Methanocaldococcus jannaschii Q57818 Q57818 2.04 X-RAY DIFFRACTION 67 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 80 80 MIFAVRTMVGQEKNIAGLMASRAEKEQLDVYSILASESLKGYVLVEAETKGDVEELIKGMPRVRGIVPGTIAIEEIEPLL MIFAVRTMVGQEKNIAGLMASRAEKEQLDVYSILASESLKGYVLVEAETKGDVEELIKGMPRVRGIVPGTIAIEEIEPLL 3ewi-a1-m2-cA_3ewi-a1-m2-cB Structural analysis of the C-terminal domain of murine CMP-Sialic acid Synthetase Q99KK2 Q99KK2 1.9 X-RAY DIFFRACTION 54 0.994 10090 (Mus musculus) 10090 (Mus musculus) 157 158 3ewi-a1-m1-cA_3ewi-a1-m1-cB 3ewi-a1-m1-cA_3ewi-a1-m2-cB 3ewi-a1-m2-cA_3ewi-a1-m1-cB KEIKLLVCNIDGCLTNGHIYVSGDQKEIISYDVKDAIGISLLKKSGIEVRLISERACSKQTLSALKLDCKTEVSVSDKLATVDEWRKEMGLCWKEVAYLGNEVSDEECLKRVGLSAVPADACSGAQKAVGYICKCSGGRGAIREFAEHIFLLIEKVN EIKLLVCNIDGCLTNGHIYVSGDQKEIISYDVKDAIGISLLKKSGIEVRLISERACSKQTLSALKLDCKTEVSVSDKLATVDEWRKEMGLCWKEVAYLGNEVSDEECLKRVGLSAVPADACSGAQKAVGYICKCSGGRGAIREFAEHIFLLIEKVNNS 3ewn-a1-m1-cA_3ewn-a1-m2-cA Crystal structure of a THiJ/PfpI family protein from Pseudomonas syringae Q881P0 Q881P0 1.65 X-RAY DIFFRACTION 211 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 228 228 SLHPHAPDGPDNKVPWGDEQIALVYPGTVDLVGPHCFGSLGAKIYIVAKSLDPVTSDAGLAIVPTATFGTCPRDLTVLFAPGGTDGTLAAASDAETLAFADRGARAKYITSVCSGSLILGAAGLLKGYKATSHWSCRDALAGFGAIPTEARVVRDRNRITGAGVTAGLDFGLSVAELRDQTYAECAQLSEYDPDPPFNAGSKTAPAHVRTAIELVAEFTKKADALAGF SLHPHAPDGPDNKVPWGDEQIALVYPGTVDLVGPHCFGSLGAKIYIVAKSLDPVTSDAGLAIVPTATFGTCPRDLTVLFAPGGTDGTLAAASDAETLAFADRGARAKYITSVCSGSLILGAAGLLKGYKATSHWSCRDALAGFGAIPTEARVVRDRNRITGAGVTAGLDFGLSVAELRDQTYAECAQLSEYDPDPPFNAGSKTAPAHVRTAIELVAEFTKKADALAGF 3ewo-a1-m1-cB_3ewo-a1-m1-cA IBV Nsp3 ADRP domain P0C6V5 P0C6V5 1.8 X-RAY DIFFRACTION 49 1.0 11127 (Avian infectious bronchitis virus (strain M41)) 11127 (Avian infectious bronchitis virus (strain M41)) 165 177 3ewp-a1-m1-cB_3ewp-a1-m1-cA KPKFLEYKTCVGDLAVVIAKALDEFKEFCIVNAANEHMSHGGGVAKAIADFCGPDFVEYCADYVKKHGPQQKLVTPSFVKGIQCVNNVVGPRHGDSNLREKLVAAYKSVLVGGVVNYVVPVLSSGIGVDFKISIDAMREAFKGCAIRVLLFSLSQEHIDYFDATC LGSVKPATCEKPKFLEYKTCVGDLAVVIAKALDEFKEFCIVNAANEHMSHGGGVAKAIADFCGPDFVEYCADYVKKHGPQQKLVTPSFVKGIQCVNNVVGPRHGDSNLREKLVAAYKSVLVGGVVNYVVPVLSSGIFGVDFKISIDAMREAFKGCAIRVLLFSLSQEHIDYFDATCK 3exa-a2-m1-cD_3exa-a2-m1-cC Crystal structure of the full-length tRNA isopentenylpyrophosphate transferase (BH2366) from Bacillus halodurans, Northeast Structural Genomics Consortium target BhR41. Q9KAC3 Q9KAC3 2.3 X-RAY DIFFRACTION 69 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 292 293 3exa-a1-m1-cB_3exa-a1-m1-cA KEKLVAIVGPTAVGKTKTSVLAKRLNGEVISGDSQVYRGDIGTAKITAEEDGVPHHLIDIKDPSESFSVADFQDLATPLITEIHERGRLPFLVGGTGLYVNAVIHQFNLGDIRADEDYRHELEAFVNSYGVQALHDKLSKIDPKAAAAIHPNNYRRVIRALEIIKLTGSPYNLVIGLTERDVLYDRINRRVDQVEEGLIDEAKKLYDRGIRDCQSVQAIGYKEYDYLDGNVTLEEAIDTLKRNSRRYAKRQLTWFRNKANVTWFDTDVDFDKKIEIHNFIAGKLEEKSKLEH KEKLVAIVGPTAVGKTKTSVLAKRLNGEVISGDSQVYRGDIGTAKITAEEDGVPHHLIDIKDPSESFSVADFQDLATPLITEIHERGRLPFLVGGTGLYVNAVIHQFNLGDIRADEDYRHELEAFVNSYGVQALHDKLSKIDPKAAAAIHPNNYRRVIRALEIIKLTGSPYNLVIGLTERDVLYDRINRRVDQVEEGLIDEAKKLYDRGIRDCQSVQAIGYKEYDYLDGNVTLEEAIDTLKRNSRRYAKRQLTWFRNKANVTWFDTDVDFDKKIEIHNFIAGKLEEKSKLEHH 3exc-a1-m1-cX_3exc-a1-m2-cX Structure of the RNA'se SSO8090 from Sulfolobus solfataricus Q97Y85 Q97Y85 2.25 X-RAY DIFFRACTION 122 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 75 75 KLLVVYDVSDDSKRNKLANNLKKLGLERIQRSAFEGDDRKDLVRVVKLIVDTNTDIVHIIPLGIRDWERRIVIGR KLLVVYDVSDDSKRNKLANNLKKLGLERIQRSAFEGDDRKDLVRVVKLIVDTNTDIVHIIPLGIRDWERRIVIGR 3exg-a1-m1-cA_3exg-a1-m1-cC Crystal structure of the pyruvate dehydrogenase (E1p) component of human pyruvate dehydrogenase complex P08559 P08559 3.011 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 342 342 1ni4-a1-m1-cA_1ni4-a1-m1-cC 2ozl-a1-m1-cA_2ozl-a1-m1-cC 3exe-a1-m1-cC_3exe-a1-m1-cA 3exe-a2-m1-cE_3exe-a2-m1-cG 3exf-a1-m1-cA_3exf-a1-m1-cC 3exf-a2-m1-cG_3exf-a2-m1-cE 3exg-a2-m1-cG_3exg-a2-m1-cE 3exg-a3-m1-cI_3exg-a3-m1-cK 3exg-a4-m1-cO_3exg-a4-m1-cM 3exg-a5-m1-cS_3exg-a5-m1-cQ 3exg-a6-m1-cW_3exg-a6-m1-cU 3exg-a7-m1-c1_3exg-a7-m1-cY 3exg-a8-m1-c3_3exg-a8-m1-c5 3exh-a1-m1-cA_3exh-a1-m1-cC 3exh-a2-m1-cE_3exh-a2-m1-cG 6cer-a1-m1-cC_6cer-a1-m1-cA 6cer-a2-m1-cG_6cer-a2-m1-cE 6cfo-a1-m1-cA_6cfo-a1-m1-cC MFANDATFEIKKCDLHRLEEGPPVTTVLTREDGLKYYRMMQTVRRMELKADQLYKQKIIRGFCHLCDGQEACCVGLEAGINPTDHLITAYRAHGFTFTRGLSVREILAELTGRKGGCAKGKGGSMHMYAKNFYGGNGIVGAQVPLGAGIALACKYNGKDEVCLTLYGDGAANQGQIFEAYNMAALWKLPCIFICENNRRAAASTDYYKRGDFIPGLRVDGMDILCVREATRFAAAYCRSGKGPILMELQTYRYHTREEIQEVRSKSDPIMLLKDRMVNSNLASVEELKEIDVEVRKEIEDAAQFATADPEPPLEELGYHIYSSDPPFEVRGANQWIKFKSVS MFANDATFEIKKCDLHRLEEGPPVTTVLTREDGLKYYRMMQTVRRMELKADQLYKQKIIRGFCHLCDGQEACCVGLEAGINPTDHLITAYRAHGFTFTRGLSVREILAELTGRKGGCAKGKGGSMHMYAKNFYGGNGIVGAQVPLGAGIALACKYNGKDEVCLTLYGDGAANQGQIFEAYNMAALWKLPCIFICENNRRAAASTDYYKRGDFIPGLRVDGMDILCVREATRFAAAYCRSGKGPILMELQTYRYHTREEIQEVRSKSDPIMLLKDRMVNSNLASVEELKEIDVEVRKEIEDAAQFATADPEPPLEELGYHIYSSDPPFEVRGANQWIKFKSVS 3exi-a1-m1-cA_3exi-a1-m2-cA Crystal structure of the pyruvate dehydrogenase (E1p) component of human pyruvate dehydrogenase complex with the subunit-binding domain (SBD) of E2p, but SBD cannot be modeled into the electron density P08559 P08559 2.2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 332 SGLVPRGSHMFANDATFEIKKCDLHRLEEGPPVTTVLTREDGLKYYRMMQTVRRMELKADQLYKQKIIRGFCHLCDGQEACCVGLEAGINPTDHLITAFRAHGFTFTRGLSVREILAELTGRKGGCAKGKGGSMHMYAKNFYGGNGIVGAQVPLGAGIALACKYNGKDEVCLTLYGDGAANQGQIFEAYNMAALWKLPCIFICENNRTDYYKRGDFIPGLRVDGMDILCVREATRFAAAYCRSGKGPILMELQTYSDPIMLLKDRMVNSNLASVEELKEIDVEVRKEIEDAAQFATADPEPPLEELGYHIYSSDPPFEVRGANQWIKFKSVS SGLVPRGSHMFANDATFEIKKCDLHRLEEGPPVTTVLTREDGLKYYRMMQTVRRMELKADQLYKQKIIRGFCHLCDGQEACCVGLEAGINPTDHLITAFRAHGFTFTRGLSVREILAELTGRKGGCAKGKGGSMHMYAKNFYGGNGIVGAQVPLGAGIALACKYNGKDEVCLTLYGDGAANQGQIFEAYNMAALWKLPCIFICENNRTDYYKRGDFIPGLRVDGMDILCVREATRFAAAYCRSGKGPILMELQTYSDPIMLLKDRMVNSNLASVEELKEIDVEVRKEIEDAAQFATADPEPPLEELGYHIYSSDPPFEVRGANQWIKFKSVS 3exj-a1-m1-cA_3exj-a1-m2-cB Crystal Structure of a p53 Core Tetramer Bound to DNA P02340 P02340 2 X-RAY DIFFRACTION 18 0.99 10090 (Mus musculus) 10090 (Mus musculus) 194 194 3exj-a1-m1-cB_3exj-a1-m2-cA 3exl-a1-m1-cA_3exl-a1-m2-cA 3exl-a1-m3-cA_3exl-a1-m4-cA KTYQGNYGFHLGFLQSGTAKSVMCTYSPPLNKLFCQLAKTCPVQLWVSATPPAGSRVRAMAIYKKSQHMTEVVRRCPHHERCSDGDGLAPPQHLIRVEGNLYPEYLEDRQTFRHSVVVPYEPPEAGSEYTTIHYKYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRDSFEVRVCACPGRDRRTEEENFRKKEV SQKTYQGNYGFHLGFLQSGTAKSVMCTYSPPLNKLFCQLAKTCPVQLWVSATPPAGSRVRAMAIYKKSQHMTEVVRRCPHHERCSDGDGLAPPQHLIRVEGNLYPEYLEDRQTFRHSVVVPYEPPEAGSEYTTIHYKYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRDSFEVRVCACPGRDRRTEEENFRKK 3exj-a1-m2-cA_3exj-a1-m2-cB Crystal Structure of a p53 Core Tetramer Bound to DNA P02340 P02340 2 X-RAY DIFFRACTION 21 0.99 10090 (Mus musculus) 10090 (Mus musculus) 194 194 2geq-a1-m1-cA_2geq-a1-m1-cB 3exj-a1-m1-cA_3exj-a1-m1-cB 3exl-a1-m1-cA_3exl-a1-m3-cA 3exl-a1-m2-cA_3exl-a1-m4-cA KTYQGNYGFHLGFLQSGTAKSVMCTYSPPLNKLFCQLAKTCPVQLWVSATPPAGSRVRAMAIYKKSQHMTEVVRRCPHHERCSDGDGLAPPQHLIRVEGNLYPEYLEDRQTFRHSVVVPYEPPEAGSEYTTIHYKYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRDSFEVRVCACPGRDRRTEEENFRKKEV SQKTYQGNYGFHLGFLQSGTAKSVMCTYSPPLNKLFCQLAKTCPVQLWVSATPPAGSRVRAMAIYKKSQHMTEVVRRCPHHERCSDGDGLAPPQHLIRVEGNLYPEYLEDRQTFRHSVVVPYEPPEAGSEYTTIHYKYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRDSFEVRVCACPGRDRRTEEENFRKK 3exq-a1-m1-cA_3exq-a1-m2-cA Crystal structure of a NUDIX family hydrolase from Lactobacillus brevis Q03S37 Q03S37 2 X-RAY DIFFRACTION 138 1.0 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 157 157 LTRTQPVELVTVVTDPETQRVLVEDKVNVPWKAGHSFPGGHVEVGEPCATAAIREVFEETGLRLSGVTFCGTCEWFDDDRQHRKLGLLYRASNFTGTLKASAEGQLSWLPITALTRENSAASLPEFLQVFTGTASTLVSDSWNGNLRIDEGHHHHHH LTRTQPVELVTVVTDPETQRVLVEDKVNVPWKAGHSFPGGHVEVGEPCATAAIREVFEETGLRLSGVTFCGTCEWFDDDRQHRKLGLLYRASNFTGTLKASAEGQLSWLPITALTRENSAASLPEFLQVFTGTASTLVSDSWNGNLRIDEGHHHHHH 3ext-a1-m1-cA_3ext-a1-m2-cA Crystal structure of KGPDC from Streptococcus mutans Q93DA8 Q93DA8 2 X-RAY DIFFRACTION 93 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 211 211 3exr-a1-m1-cC_3exr-a1-m1-cA 3exr-a2-m1-cB_3exr-a2-m1-cD 3exs-a1-m1-cA_3exs-a1-m1-cC 3exs-a2-m1-cB_3exs-a2-m1-cD QLPNLQVALDHSNLKGAITAAVSVGNEVDVIEAGTVCLLQVGSELVEVLRSLFPDKIIVADTKCADAGGTVAKNNAVRGADWMTCICSATIPTMKAARKAIEDINPDKGEIQVELYGDWTYDQAQQWLDAGISQAIYHQSRTWGEKDLNKVKKLIEMGFRVSVTGGLSVDTLKLFEGVDVFTFIAGRGITEAKNPAGAARAFKDEIKRIWG QLPNLQVALDHSNLKGAITAAVSVGNEVDVIEAGTVCLLQVGSELVEVLRSLFPDKIIVADTKCADAGGTVAKNNAVRGADWMTCICSATIPTMKAARKAIEDINPDKGEIQVELYGDWTYDQAQQWLDAGISQAIYHQSRTWGEKDLNKVKKLIEMGFRVSVTGGLSVDTLKLFEGVDVFTFIAGRGITEAKNPAGAARAFKDEIKRIWG 3exu-a1-m1-cB_3exu-a1-m1-cA A glycoside hydrolase family 11 xylanase with an extended thumb region P18429 P18429 1.81 X-RAY DIFFRACTION 55 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 173 185 ASTDYWQNWTFGGGIVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTTFTQYWSVRQSKRPTGSNATITFSNHVNAWKSHGMNLGSNWAYQVMATEGYQSSGSSNVTVW ASTDYWQNWTFGGGIVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTRYNAPSIDGDDTTFTQYWSVRQSKRPTGSNATITFSNHVNAWKSHGMNLGSNWAYQVMATEGYQSSGSSNVTVW 3exw-a1-m1-cA_3exw-a1-m1-cC Crystal structure of the human Adenovirus type 7 fiber knob P15141 P15141 1.75 X-RAY DIFFRACTION 62 1.0 10519 (Human adenovirus 7) 10519 (Human adenovirus 7) 198 198 2o39-a1-m1-cA_2o39-a1-m2-cA 2o39-a1-m1-cA_2o39-a1-m3-cA 2o39-a1-m2-cA_2o39-a1-m3-cA 2o39-a2-m1-cB_2o39-a2-m4-cB 2o39-a2-m1-cB_2o39-a2-m5-cB 2o39-a2-m4-cB_2o39-a2-m5-cB 3exv-a1-m1-cA_3exv-a1-m2-cA 3exv-a1-m1-cA_3exv-a1-m3-cA 3exv-a1-m2-cA_3exv-a1-m3-cA 3exw-a1-m1-cA_3exw-a1-m1-cB 3exw-a1-m1-cB_3exw-a1-m1-cC 3f0y-a1-m1-cA_3f0y-a1-m1-cB 3f0y-a1-m1-cA_3f0y-a1-m1-cC 3f0y-a1-m1-cB_3f0y-a1-m1-cC 3f0y-a2-m1-cD_3f0y-a2-m1-cE 3f0y-a2-m1-cD_3f0y-a2-m1-cF 3f0y-a2-m1-cE_3f0y-a2-m1-cF 3f0y-a3-m1-cH_3f0y-a3-m1-cG 3f0y-a3-m1-cH_3f0y-a3-m1-cI 3f0y-a3-m1-cI_3f0y-a3-m1-cG 3o8e-a1-m1-cA_3o8e-a1-m2-cA 3o8e-a1-m1-cA_3o8e-a1-m3-cA 3o8e-a1-m2-cA_3o8e-a1-m3-cA 3o8e-a2-m1-cC_3o8e-a2-m4-cC 3o8e-a2-m1-cC_3o8e-a2-m5-cC 3o8e-a2-m4-cC_3o8e-a2-m5-cC 4zdg-a1-m1-cA_4zdg-a1-m1-cB 4zdg-a1-m1-cA_4zdg-a1-m1-cC 4zdg-a1-m1-cB_4zdg-a1-m1-cC 7agf-a1-m1-cA_7agf-a1-m1-cB 7agf-a1-m1-cA_7agf-a1-m1-cC 7agf-a1-m1-cB_7agf-a1-m1-cC 7agg-a1-m1-cA_7agg-a1-m1-cB 7agg-a1-m1-cA_7agg-a1-m1-cC 7agg-a1-m1-cB_7agg-a1-m1-cC DDNINTLWTGVNPTTANCQIMASSESNDCKLILTLVKTGALVTAFVYVIGVSNDFNMLTTHKNINFTAELFFDSTGNLLTSLSSLKTPLNHKSGQNMATGALTNAKGFMPSTTAYPFNVNSREKENYIYGTCYYTASDHTAFPIDISVMLNQRALNNETSYCIRVTWSWNTGVAPEVQTSATTLVTSPFTFYYIREDD DDNINTLWTGVNPTTANCQIMASSESNDCKLILTLVKTGALVTAFVYVIGVSNDFNMLTTHKNINFTAELFFDSTGNLLTSLSSLKTPLNHKSGQNMATGALTNAKGFMPSTTAYPFNVNSREKENYIYGTCYYTASDHTAFPIDISVMLNQRALNNETSYCIRVTWSWNTGVAPEVQTSATTLVTSPFTFYYIREDD 3exz-a3-m1-cC_3exz-a3-m1-cE Crystal structure of the MaoC-like dehydratase from Rhodospirillum rubrum. Northeast Structural Genomics Consortium target RrR103a. Q2RSA1 Q2RSA1 2.3 X-RAY DIFFRACTION 66 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 142 145 3exz-a1-m1-cA_3exz-a1-m2-cA 3exz-a2-m1-cD_3exz-a2-m1-cB LFLEDLAVGDRFDSARHRVEAAAIKAFAGEFDPQPFHLDEEAARHSLFGGLAASGWHTAAITRLLVTSGLPLAQGIIGAGTELSWPNPTRPGDELHVETTVLAITPSKSRPDRAIVTCQSDTLNQRGEVVQRSTAKVVVFRR GLFLEDLAVGDRFDSARHRVEAAAIKAFAGEFDPQPFHLDEEAARHSLFGGLAASGWHTAAITRLLVTSGLPLAQGIIGAGTELSWPNPTRPGDELHVETTVLAITPSKSRPDRAIVTCQSDTLNQRGEVVQRSTAKVVVFRRPL 3ey8-a1-m1-cA_3ey8-a1-m1-cB Structure from the mobile metagenome of V. Pseudocholerae. VPC_CASS1 Q9K3D3 Q9K3D3 1.6 X-RAY DIFFRACTION 190 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 125 126 3ey7-a1-m1-cB_3ey7-a1-m1-cA FLKISHLDHLVLTVADIPTTTKFYEKVLGKAVSFGSGRIALEFGHQKINLHQLGHEFEPKAQNVRTGSADLCFITDIDLSDAEYVENQGVVIEGPVKRTGAQGAITSFYFRDPDGNLIEVSTYSN EFLKISHLDHLVLTVADIPTTTKFYEKVLGKAVSFGSGRIALEFGHQKINLHQLGHEFEPKAQNVRTGSADLCFITDIDLSDAEYVENQGVVIEGPVKRTGAQGAITSFYFRDPDGNLIEVSTYSN 3eya-a3-m1-cI_3eya-a3-m1-cL Structural basis for membrane binding and catalytic activation of the peripheral membrane enzyme pyruvate oxidase from Escherichia coli P07003 P07003 2.5 X-RAY DIFFRACTION 120 1.0 562 (Escherichia coli) 562 (Escherichia coli) 523 523 3ey9-a1-m1-cA_3ey9-a1-m2-cB 3ey9-a1-m1-cB_3ey9-a1-m2-cA 3eya-a1-m1-cC_3eya-a1-m1-cB 3eya-a1-m1-cD_3eya-a1-m1-cA 3eya-a2-m1-cE_3eya-a2-m1-cH 3eya-a2-m1-cG_3eya-a2-m1-cF 3eya-a3-m1-cJ_3eya-a3-m1-cK MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIP MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIP 3eya-a3-m1-cJ_3eya-a3-m1-cL Structural basis for membrane binding and catalytic activation of the peripheral membrane enzyme pyruvate oxidase from Escherichia coli P07003 P07003 2.5 X-RAY DIFFRACTION 57 1.0 562 (Escherichia coli) 562 (Escherichia coli) 522 523 3ey9-a1-m1-cA_3ey9-a1-m2-cA 3ey9-a1-m1-cB_3ey9-a1-m2-cB 3eya-a1-m1-cC_3eya-a1-m1-cA 3eya-a1-m1-cD_3eya-a1-m1-cB 3eya-a2-m1-cF_3eya-a2-m1-cH 3eya-a2-m1-cG_3eya-a2-m1-cE 3eya-a3-m1-cI_3eya-a3-m1-cK MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAI MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIP 3eya-a3-m1-cK_3eya-a3-m1-cL Structural basis for membrane binding and catalytic activation of the peripheral membrane enzyme pyruvate oxidase from Escherichia coli P07003 P07003 2.5 X-RAY DIFFRACTION 164 0.998 562 (Escherichia coli) 562 (Escherichia coli) 523 523 3ey9-a1-m1-cA_3ey9-a1-m1-cB 3ey9-a1-m2-cA_3ey9-a1-m2-cB 3eya-a1-m1-cB_3eya-a1-m1-cA 3eya-a1-m1-cD_3eya-a1-m1-cC 3eya-a2-m1-cF_3eya-a2-m1-cE 3eya-a2-m1-cG_3eya-a2-m1-cH 3eya-a3-m1-cJ_3eya-a3-m1-cI MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFDGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIP MKQTVAAYIAKTLESAGVKRIWGVTGDSLNGLSDSLNRMGTIEWMSTRHEEVAAFAAGAEAQLSGELAVCAGSCGPGNLHLINGLFDCHRNHVPVLAIAAHIPSSEIGSGYFQETHPQELFRECSHYCELVSSPEQIPQVLAIAMRKAVLNRGVSVVVLPGDVALKPAPEGATMHWYHAPQPVVTPEEEELRKLAQLLRYSSNIALMCGSGCAGAHKELVEFAGKIKAPIVHALRGKEHVEYDNPYDVGMTGLIGFSSGFHTMMNADTLVLLGTQFPYRAFYPTDAKIIQIDINPASIGAHSKVDMALVGDIKSTLRALLPLVEEKADRKFLDKALEDYRDARKGLDDLAKPSEKAIHPQYLAQQISHFAADDAIFTCDVGTPTVWAARYLKMNGKRRLLGSFNHGSMANAMPQALGAQATEPERQVVAMCGDGGFSMLMGDFLSVVQMKLPVKIVVFNNSVLGFVGTELHDTNFARIAEACGITGIRVEKASEVDEALQRAFSIDGPVLVDVVVAKEELAIP 3eyb-a1-m1-cA_3eyb-a1-m1-cD Structural and functional insights into the ligand binding domain of a non-duplicated RXR from the invertebrate chordate amphioxus Q8MX78 Q8MX78 2.79 X-RAY DIFFRACTION 48 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 199 199 3eyb-a1-m1-cB_3eyb-a1-m1-cC DMPVEKIQEAEMAVEPDKQLVTLVEWAKRIPHFSDLPIDDQVILLRAGWNELLIAAFSHRSIDVKDGILLASGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAIVLFNPDAKGLTDPSLVESLREKVYASLEEYCKQQYPEQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDTFLMEML DMPVEKIQEAEMAVEPDKQLVTLVEWAKRIPHFSDLPIDDQVILLRAGWNELLIAAFSHRSIDVKDGILLASGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAIVLFNPDAKGLTDPSLVESLREKVYASLEEYCKQQYPEQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDTFLMEML 3eyb-a1-m1-cC_3eyb-a1-m1-cD Structural and functional insights into the ligand binding domain of a non-duplicated RXR from the invertebrate chordate amphioxus Q8MX78 Q8MX78 2.79 X-RAY DIFFRACTION 56 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 199 199 3eyb-a1-m1-cA_3eyb-a1-m1-cB DMPVEKIQEAEMAVEPDKQLVTLVEWAKRIPHFSDLPIDDQVILLRAGWNELLIAAFSHRSIDVKDGILLASGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAIVLFNPDAKGLTDPSLVESLREKVYASLEEYCKQQYPEQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDTFLMEML DMPVEKIQEAEMAVEPDKQLVTLVEWAKRIPHFSDLPIDDQVILLRAGWNELLIAAFSHRSIDVKDGILLASGLHVHRSSAHQAGVGTIFDRVLTELVAKMRDMKMDKTELGCLRAIVLFNPDAKGLTDPSLVESLREKVYASLEEYCKQQYPEQPGRFAKLLLRLPALRSIGLKCLEHLFFFKLIGDTPIDTFLMEML 3eyk-a1-m2-cA_3eyk-a1-m3-cA Structure of Influenza Haemagglutinin in complex with an inhibitor of membrane fusion P26137 P26137 2.5 X-RAY DIFFRACTION 36 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 319 319 3eyj-a1-m1-cA_3eyj-a1-m2-cA 3eyj-a1-m1-cA_3eyj-a1-m3-cA 3eyj-a1-m2-cA_3eyj-a1-m3-cA 3eyk-a1-m1-cA_3eyk-a1-m2-cA 3eyk-a1-m1-cA_3eyk-a1-m3-cA 6v48-a1-m1-cA_6v48-a1-m1-cE 6v48-a1-m1-cA_6v48-a1-m1-cK 6v48-a1-m1-cE_6v48-a1-m1-cK 6v48-a2-m1-cC_6v48-a2-m2-cG 6v48-a2-m1-cC_6v48-a2-m3-cI 6v48-a2-m2-cG_6v48-a2-m3-cI 7wvd-a1-m1-cA_7wvd-a1-m1-cC 7wvd-a1-m1-cA_7wvd-a1-m1-cE 7wvd-a1-m1-cC_7wvd-a1-m1-cE 8gv6-a1-m1-cA_8gv6-a1-m1-cC 8gv6-a1-m1-cA_8gv6-a1-m1-cE 8gv6-a1-m1-cC_8gv6-a1-m1-cE GNPIICLGHHAVENGTSVKTLTDNHVEVVSAKELVETKHTDELCPSPLKLVDGQDCDLINGALGSPGCDRLQDTTWDVFIERPTAVDTCYPFDVPDYQSLRSILASSGSLEFIAEQFTWNGVKVDGSSSACLRGGRNSFFSRLNWLTKATNGNYGPINVTKENTGSYVRLYLWGVHHPSSDNEQTDLYKVATGRVTVSTRSDQISIVPNIGSRPRVRNQSGRISIYWTLVNPGDSIIFNSIGNLIAPRGHYKISKSTKSTVLKSDKRIGSCTSPCLTDKGSIQSDKPFQNVSRIAIGNCPKYVKQGSLMLATGMRNIPG GNPIICLGHHAVENGTSVKTLTDNHVEVVSAKELVETKHTDELCPSPLKLVDGQDCDLINGALGSPGCDRLQDTTWDVFIERPTAVDTCYPFDVPDYQSLRSILASSGSLEFIAEQFTWNGVKVDGSSSACLRGGRNSFFSRLNWLTKATNGNYGPINVTKENTGSYVRLYLWGVHHPSSDNEQTDLYKVATGRVTVSTRSDQISIVPNIGSRPRVRNQSGRISIYWTLVNPGDSIIFNSIGNLIAPRGHYKISKSTKSTVLKSDKRIGSCTSPCLTDKGSIQSDKPFQNVSRIAIGNCPKYVKQGSLMLATGMRNIPG 3eyt-a1-m1-cA_3eyt-a1-m1-cC Crystal structure of Thioredoxin-like superfamily protein SPOA0173 Q5LL54 Q5LL54 1.95 X-RAY DIFFRACTION 10 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 149 150 SNAKAPELQIQQWFNSATDLTLADLRGKVIVIEAFQLCPGCVHGIPLAQKVRAAFPEDKVAVLGLHTVFEHHEATPISLKAFLHEYRIKFPVGVDQPGDGAPRTAAYQRGTPSLLLIDKAGDLRAHHFGDVSELLLGAEIATLLGEAAP SNAKAPELQIQQWFNSATDLTLADLRGKVIVIEAFQLCPGCVHGIPLAQKVRAAFPEDKVAVLGLHTVFEHHEATPISLKAFLHEYRIKFPVGVDQPGDGAPRTAAYQRGTPSLLLIDKAGDLRAHHFGDVSELLLGAEIATLLGEAAPS 3eyt-a1-m1-cD_3eyt-a1-m1-cA Crystal structure of Thioredoxin-like superfamily protein SPOA0173 Q5LL54 Q5LL54 1.95 X-RAY DIFFRACTION 24 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 148 149 3eyt-a1-m1-cB_3eyt-a1-m1-cC SNAKAPELQIQQWFNSATDLTLADLRGKVIVIEAFQLCPGCVHGIPLAQKVRAAFPEDKVAVLGLHTVFEHHEATPISLKAFLHEYRIKFPVGVDQPGDGAPRTAAYQRGTPSLLLIDKAGDLRAHHFGDVSELLLGAEIATLLGEAA SNAKAPELQIQQWFNSATDLTLADLRGKVIVIEAFQLCPGCVHGIPLAQKVRAAFPEDKVAVLGLHTVFEHHEATPISLKAFLHEYRIKFPVGVDQPGDGAPRTAAYQRGTPSLLLIDKAGDLRAHHFGDVSELLLGAEIATLLGEAAP 3eyt-a1-m1-cD_3eyt-a1-m1-cC Crystal structure of Thioredoxin-like superfamily protein SPOA0173 Q5LL54 Q5LL54 1.95 X-RAY DIFFRACTION 36 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 148 150 3eyt-a1-m1-cB_3eyt-a1-m1-cA SNAKAPELQIQQWFNSATDLTLADLRGKVIVIEAFQLCPGCVHGIPLAQKVRAAFPEDKVAVLGLHTVFEHHEATPISLKAFLHEYRIKFPVGVDQPGDGAPRTAAYQRGTPSLLLIDKAGDLRAHHFGDVSELLLGAEIATLLGEAA SNAKAPELQIQQWFNSATDLTLADLRGKVIVIEAFQLCPGCVHGIPLAQKVRAAFPEDKVAVLGLHTVFEHHEATPISLKAFLHEYRIKFPVGVDQPGDGAPRTAAYQRGTPSLLLIDKAGDLRAHHFGDVSELLLGAEIATLLGEAAPS 3eyv-a1-m1-cH_3eyv-a1-m1-cB Anti-Lewis Y Fab fragment with Lewis Y antigen in the presence of zinc ions 2.5 X-RAY DIFFRACTION 120 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 222 EVQLVESGGGVVQPGRSLRLSCSTSGFTFSDYYMYWVRQAPGKGLEWVAYMSNVGAITDYPDTVKGRFTISRDNSKNTLFLQMDSLRPEDTGVYFCARGTRDGSWFAYWGQGTPVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP EVQLVESGGGVVQPGRSLRLSCSTSGFTFSDYYMYWVRQAPGKGLEWVAYMSNVGAITDYPDTVKGRFTISRDNSKNTLFLQMDSLRPEDTGVYFCARGTRDGSWFAYWGQGTPVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPQPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 3eyv-a1-m1-cL_3eyv-a1-m1-cA Anti-Lewis Y Fab fragment with Lewis Y antigen in the presence of zinc ions 2.5 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 219 DIQMTQSPSSLSASVGDRVTITCRSSQRIVHSNGNTYLEWYQQTPGKAPKLLIYKVSNRFSGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCFQGSHVPFTFGQGTKLQITRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR DIQMTQSPSSLSASVGDRVTITCRSSQRIVHSNGNTYLEWYQQTPGKAPKLLIYKVSNRFSGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCFQGSHVPFTFGQGTKLQITRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 3eyx-a1-m1-cA_3eyx-a1-m1-cB Crystal structure of Carbonic Anhydrase Nce103 from Saccharomyces cerevisiae P53615 P53615 2.04 X-RAY DIFFRACTION 202 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 197 197 NLQDILAANAKWASQMNNIQPTLFSPHTLFIGCSDSRYNENCLGVLPGEVFTWKNVANICHSEDLTLKATLEFAIICLKVNKVIICGHTDCGGIKTCLTNQREALPKVNCSHLYKYLDDIDTMYHEESQNLIHLKTQREKSHYLSHCNVKRQFNRIIENPTVQTAVQNGELQVYGLLYNVEDGLLQTVSTYTKVTPK NLQDILAANAKWASQMNNIQPTLFSPHTLFIGCSDSRYNENCLGVLPGEVFTWKNVANICHSEDLTLKATLEFAIICLKVNKVIICGHTDCGGIKTCLTNQREALPKVNCSHLYKYLDDIDTMYHEESQNLIHLKTQREKSHYLSHCNVKRQFNRIIENPTVQTAVQNGELQVYGLLYNVEDGLLQTVSTYTKVTPK 3eyy-a1-m1-cA_3eyy-a1-m1-cB Structural basis for the specialization of Nur, a nickel-specific Fur homologue, in metal sensing and DNA recognition Q9K4F8 Q9K4F8 2.4 X-RAY DIFFRACTION 109 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 133 133 STDWKSDLRQRGYRLTPQRQLVLEAVDTLEHATPDDILGEVRKTASGINISTVYRTLELLEELGLVSHAHLGHGAPTYHLADRHHHIHLVCRDCTNVIEADLSVAADFTAKLREQFGFDTDMKHFAIFGRCES STDWKSDLRQRGYRLTPQRQLVLEAVDTLEHATPDDILGEVRKTASGINISTVYRTLELLEELGLVSHAHLGHGAPTYHLADRHHHIHLVCRDCTNVIEADLSVAADFTAKLREQFGFDTDMKHFAIFGRCES 3ez0-a2-m1-cC_3ez0-a2-m1-cD Crystal structure of protein of unknown function with ferritin-like fold (YP_832262.1) from Arthrobacter sp. FB24 at 2.33 A resolution A0JYP2 A0JYP2 2.33 X-RAY DIFFRACTION 51 0.98 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 202 204 3ez0-a1-m1-cB_3ez0-a1-m1-cA YNRFVADLFGAYGELSAFERFSADARYSPTLHDRAVLGRIAVVEFRHYELVSARLEAGIDAEDALPFQAAVDYFHSRTRPADWYESLKAYVIDTVSADFYRAISRYVDAGTRDVIEQIQASDETTEVLRERLRSALADDPRLASRLALWGRRLLGEALTQAQRVSYEHAFLGSLIAAAKELVSGLIAGLAEKHSKRTQLGLT PADTARYNRFVADLFGAYGELSAFERFSADARYSPTLHDRAVLGRIAVVEFRHYELVSARLEAGIDAEDALPFQAAVDYFHSRTRPADWYESLKAYVIDTVSADFYRAISRYVDAGTRDVIEQIQTTEVLRERLRSALADDPRLASRLALWGRRLLGEALTQAQRVSYEHAFLGSLIAAAKELVSGLIAGLAEKHSKRTQLGLT 3ez1-a1-m1-cA_3ez1-a1-m1-cB Crystal structure of putative aminotransferase (MocR family) (YP_604413.1) from DEINOCOCCUS GEOTHERMALIS DSM 11300 at 2.60 A resolution Q1IZU0 Q1IZU0 2.6 X-RAY DIFFRACTION 161 1.0 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 412 413 ASRPALDLARQAYEAFKARGLNLNQRGQPADADFDLSNGLLTVLGAEDVRDGLDLRNYPGGVAGLPSARALFAGYLDVKAENVLVWNNSSLELQGLVLTFALLHGVRGSTGPWLSQTPKIVTVPGYDRHFLLLQTLGFELLTVDQSDGPDVDAVERLAGTDPSVKGILFVPTYSNPGGETISLEKARRLAGLQAAAPDFTIFADDAYRVHHLVEEDRAEPVNFVVLARDAGYPDRAFVFASTSKITFAGAGLGFVASSEDNIRWLSKYLGAQSIGPNKVEQARHVKFLTEYPGGLEGLRDHAAIIAPKFRAVDEVLRAELGEGGEYATWTLPKGGYFISLDTAEPVADRVVKLAEAAGVSLTPAGATYPAGQDPHNRNLRLAPTRPPVEEVRTAQVVAACIRLATEEYRAGH EASRPALDLARQAYEAFKARGLNLNQRGQPADADFDLSNGLLTVLGAEDVRDGLDLRNYPGGVAGLPSARALFAGYLDVKAENVLVWNNSSLELQGLVLTFALLHGVRGSTGPWLSQTPKIVTVPGYDRHFLLLQTLGFELLTVDQSDGPDVDAVERLAGTDPSVKGILFVPTYSNPGGETISLEKARRLAGLQAAAPDFTIFADDAYRVHHLVEEDRAEPVNFVVLARDAGYPDRAFVFASTSKITFAGAGLGFVASSEDNIRWLSKYLGAQSIGPNKVEQARHVKFLTEYPGGLEGLRDHAAIIAPKFRAVDEVLRAELGEGGEYATWTLPKGGYFISLDTAEPVADRVVKLAEAAGVSLTPAGATYPAGQDPHNRNLRLAPTRPPVEEVRTAQVVAACIRLATEEYRAGH 3ez2-a1-m1-cA_3ez2-a1-m1-cB Partition protein-ADP complex P07620 P07620 2.05 X-RAY DIFFRACTION 156 1.0 562 (Escherichia coli) 562 (Escherichia coli) 388 394 3ez6-a1-m1-cA_3ez6-a1-m1-cB SQLHKVAQRANRMLNVLTEQVQLQKEFYQVYAKAALAKLPLLTRANVDYAVSEMEEKGYVFDKRPAGSSMKYAMSIQNIIDIYEHRGVPKYRDRYSEAYVIFISNLKGGVSKTVSTVSLAHAMRAHPHLLMEDLRILVIDLDPQSSATMFLSHKHSIGIVNATSAQAMLQNVSREELLEEFIVPSVVPGVDVMPASIDDAFIASDWRELCNEHLPGQNIHAVLKENVIDKLKSDYDFILVDSGPHLDAFLKNALASANILFTPLPPATVDFHSSLKYVARLPELVKLISDEGCECQLATNIGFMSKLSNKADHKYCHSLAKEVFGGDMLDVFLPRLDGFERCGESFDTVISANPATYVGSADALKNARIAAEDFAKAVFDRIEFIRSN SQLHKVAQRANRMLNVLTEQVQLQKDELHANEFYQVYAKAALAKLPLLTRANVDYAVSEMEEKGYVFDKRPAGSSMKYAMSIQNIIDIYEHRGVPKYRDRYSEAYVIFISNLKGGVSKTVSTVSLAHAMRAHPHLLMEDLRILVIDLDPQSSATMFLSHKHSIGIVNATSAQAMLQNVSREELLEEFIVPSVVPGVDVMPASIDDAFIASDWRELCNEHLPGQNIHAVLKENVIDKLKSDYDFILVDSGPHLDAFLKNALASANILFTPLPPATVDFHSSLKYVARLPELVKLISDEGCECQLATNIGFMSKLSNKADHKYCHSLAKEVFGGDMLDVFLPRLDGFERCGESFDTVISANPATYVGSADALKNARIAAEDFAKAVFDRIEFIRSN 3ez7-a1-m1-cA_3ez7-a1-m2-cA Partition Protein Apo form in space group I4122 P07620 P07620 2.92 X-RAY DIFFRACTION 404 1.0 562 (Escherichia coli) 562 (Escherichia coli) 382 382 SSQLHKVAQRANRMLNVLTEQVQLQKDELHANEFYQVYAKAALAKLPLLTRADVDYAVSEMEEKGYVFDKRPAGSSMKYAMSIQNIIDIYEHRGTPKYRDRYSEAYVIFISNLKGGVSQTTSTVSLAHAMRAHPHLLMEDLRILVIDLDPQSSATATSAQAMLQNVSREELLEEFIVPSVVPGVDVMPASIDDAFIASDWRELCNEHLPGQNIHAVLKENVIDKLKSDYDFILVDSGPHLDAFLKNALASANILFTPLPPATVDFHSSLKYVARLPELVKLISDEGCECQLATNIGFMSKLSNKADHKYCHSLAKEVFGGDMLDVFLPRLDGFERCGESFDTVISANPATYVGSADALKNARIAAEDFAKAVFDRIEFIRSN SSQLHKVAQRANRMLNVLTEQVQLQKDELHANEFYQVYAKAALAKLPLLTRADVDYAVSEMEEKGYVFDKRPAGSSMKYAMSIQNIIDIYEHRGTPKYRDRYSEAYVIFISNLKGGVSQTTSTVSLAHAMRAHPHLLMEDLRILVIDLDPQSSATATSAQAMLQNVSREELLEEFIVPSVVPGVDVMPASIDDAFIASDWRELCNEHLPGQNIHAVLKENVIDKLKSDYDFILVDSGPHLDAFLKNALASANILFTPLPPATVDFHSSLKYVARLPELVKLISDEGCECQLATNIGFMSKLSNKADHKYCHSLAKEVFGGDMLDVFLPRLDGFERCGESFDTVISANPATYVGSADALKNARIAAEDFAKAVFDRIEFIRSN 3ez9-a2-m1-cB_3ez9-a2-m3-cB Partition Protein 2.8 X-RAY DIFFRACTION 158 1.0 454168 (Salmonella enterica subsp. enterica serovar Newport str. SL317) 454168 (Salmonella enterica subsp. enterica serovar Newport str. SL317) 350 350 MKRDYGGVGTIALRASALLKAMSQDIEDQRKEFNYQTFTRNAVAKLPKLSRRIVDQAIKEMEEDGYQFNKKQVGNVEQYALTIQNVIDIYAHRKIPKYRDIHKSPYVIFVVNLTVSTVTLAHALRVHQDLLRHDLRILVIDLDPQASSTMFLETAAQAMLNNLDAETLRKEVIRPTIVPGVDVIPASIDDGFVASQWRELVEEHLPGQNQYEILRRNIIDRVADDYDFIFIDTGPHLDPFLLNGLAASDLLLTPTPPAQVDFHSTLKYLTRLPEMLEQLEEEGVEPRLSASIGFMSKKRDHETSHSLAREVYASNILDSSLPAEALKKARTEAERFTKAVFDRIEFVRGE MKRDYGGVGTIALRASALLKAMSQDIEDQRKEFNYQTFTRNAVAKLPKLSRRIVDQAIKEMEEDGYQFNKKQVGNVEQYALTIQNVIDIYAHRKIPKYRDIHKSPYVIFVVNLTVSTVTLAHALRVHQDLLRHDLRILVIDLDPQASSTMFLETAAQAMLNNLDAETLRKEVIRPTIVPGVDVIPASIDDGFVASQWRELVEEHLPGQNQYEILRRNIIDRVADDYDFIFIDTGPHLDPFLLNGLAASDLLLTPTPPAQVDFHSTLKYLTRLPEMLEQLEEEGVEPRLSASIGFMSKKRDHETSHSLAREVYASNILDSSLPAEALKKARTEAERFTKAVFDRIEFVRGE 3ezf-a1-m1-cA_3ezf-a1-m2-cA Partition Protein 2.8 X-RAY DIFFRACTION 163 1.0 454168 (Salmonella enterica subsp. enterica serovar Newport str. SL317) 454168 (Salmonella enterica subsp. enterica serovar Newport str. SL317) 342 342 3ez9-a1-m1-cA_3ez9-a1-m2-cA RDYGGVGTIALRASALLKAMSYYQTFTRNAVAKLPKLSRRIVDQAIKEMEEDGYQFNKKQVGNVEQYALTIQNVIDIYAHRKIPKYRDIHKSPYVIFVVNLSTVTLAHALRVHQDLLRHDLRILVIDLDPQASSTMFLGSILETAAQAMLNNLDAETLRKEVIRPTIVPGVDVIPASIDDGFVASQWRELVEEHLPGQNQYEILRRNIIDRVADDYDFIFIDTGPHLDPFLLNGLAASDLLLTPTPPAQVDFHSTLKYLTRLPEMLEQLEEEGVEPRLSASIGFMSKMTGKRDHETSHSLAREVYASNILDSSLPEALKKARTEAERFTKAVFDRIEFVRGE RDYGGVGTIALRASALLKAMSYYQTFTRNAVAKLPKLSRRIVDQAIKEMEEDGYQFNKKQVGNVEQYALTIQNVIDIYAHRKIPKYRDIHKSPYVIFVVNLSTVTLAHALRVHQDLLRHDLRILVIDLDPQASSTMFLGSILETAAQAMLNNLDAETLRKEVIRPTIVPGVDVIPASIDDGFVASQWRELVEEHLPGQNQYEILRRNIIDRVADDYDFIFIDTGPHLDPFLLNGLAASDLLLTPTPPAQVDFHSTLKYLTRLPEMLEQLEEEGVEPRLSASIGFMSKMTGKRDHETSHSLAREVYASNILDSSLPEALKKARTEAERFTKAVFDRIEFVRGE 3ezh-a1-m1-cB_3ezh-a1-m1-cA Crystal Structure of the E. coli Histidine Kinase NarX Sensor Domain in Complex with Nitrate P0AFA2 P0AFA2 1.7 X-RAY DIFFRACTION 70 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 109 110 GSAHAINKAGSLRQSYRLLAAVPLSEKDKPLIKEEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALRAQNRETVSADVSQFVAGLDQLVSGFDRTTERIETAAA GSAHAINKAGSLRQSYRLLAAVPLSEKDKPLIKEEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALRAQNRETVSADVSQFVAGLDQLVSGFDRTTERIETAAAL 3ezh-a2-m4-cB_3ezh-a2-m1-cA Crystal Structure of the E. coli Histidine Kinase NarX Sensor Domain in Complex with Nitrate P0AFA2 P0AFA2 1.7 X-RAY DIFFRACTION 65 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 109 110 3ezh-a2-m3-cB_3ezh-a2-m2-cA GSAHAINKAGSLRQSYRLLAAVPLSEKDKPLIKEEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALRAQNRETVSADVSQFVAGLDQLVSGFDRTTERIETAAA GSAHAINKAGSLRQSYRLLAAVPLSEKDKPLIKEEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALRAQNRETVSADVSQFVAGLDQLVSGFDRTTERIETAAAL 3ezh-a2-m4-cB_3ezh-a2-m2-cA Crystal Structure of the E. coli Histidine Kinase NarX Sensor Domain in Complex with Nitrate P0AFA2 P0AFA2 1.7 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 109 110 3ezh-a2-m3-cB_3ezh-a2-m1-cA GSAHAINKAGSLRQSYRLLAAVPLSEKDKPLIKEEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALRAQNRETVSADVSQFVAGLDQLVSGFDRTTERIETAAA GSAHAINKAGSLRQSYRLLAAVPLSEKDKPLIKEEQTAFSAELTRAAERDGQLAQLQGLQDYWRNELIPALRAQNRETVSADVSQFVAGLDQLVSGFDRTTERIETAAAL 3ezj-a3-m1-cC_3ezj-a3-m3-cG Crystal structure of the N-terminal domain of the secretin GspD from ETEC determined with the assistance of a nanobody Q707C1 Q707C1 2.8 X-RAY DIFFRACTION 24 1.0 316401 (Escherichia coli ETEC H10407) 316401 (Escherichia coli ETEC H10407) 197 199 3ezj-a1-m2-cE_3ezj-a1-m1-cA ATFTANFKDTDLKSFIETVGANLNKTIIMVQGAVSIRTMTPLNERQYYQLFLNLLEAQGYAVVPMENDVLKVVAGDEMVTKVVPVRNVSVRELAPILRQMIDSAGSGNVVNYDPSNVIMLTGRASVVERLTEVIQRVDHAGNRTEEVIPLDNASASEIARVLESLTQIVADERTNSVIVSGDPATRDKMRRLIRRLD ATFTANFKDTDLKSFIETVGANLNKTIIMVQGAVSIRTMTPLNERQYYQLFLNLLEAQGYAVVPMENDVLKVVKSAGDEMVTKVVPVRNVSVRELAPILRQMIDSAGSGNVVNYDPSNVIMLTGRASVVERLTEVIQRVDHAGNRTEEVIPLDNASASEIARVLESLTQIVADERTNSVIVSGDPATRDKMRRLIRRLD 3ezj-a4-m1-cC_3ezj-a4-m1-cG Crystal structure of the N-terminal domain of the secretin GspD from ETEC determined with the assistance of a nanobody Q707C1 Q707C1 2.8 X-RAY DIFFRACTION 41 1.0 316401 (Escherichia coli ETEC H10407) 316401 (Escherichia coli ETEC H10407) 197 199 3ezj-a2-m1-cE_3ezj-a2-m1-cA ATFTANFKDTDLKSFIETVGANLNKTIIMVQGAVSIRTMTPLNERQYYQLFLNLLEAQGYAVVPMENDVLKVVAGDEMVTKVVPVRNVSVRELAPILRQMIDSAGSGNVVNYDPSNVIMLTGRASVVERLTEVIQRVDHAGNRTEEVIPLDNASASEIARVLESLTQIVADERTNSVIVSGDPATRDKMRRLIRRLD ATFTANFKDTDLKSFIETVGANLNKTIIMVQGAVSIRTMTPLNERQYYQLFLNLLEAQGYAVVPMENDVLKVVKSAGDEMVTKVVPVRNVSVRELAPILRQMIDSAGSGNVVNYDPSNVIMLTGRASVVERLTEVIQRVDHAGNRTEEVIPLDNASASEIARVLESLTQIVADERTNSVIVSGDPATRDKMRRLIRRLD 3ezj-a4-m1-cD_3ezj-a4-m1-cH Crystal structure of the N-terminal domain of the secretin GspD from ETEC determined with the assistance of a nanobody 2.8 X-RAY DIFFRACTION 28 1.0 9844 (Lama glama) 9844 (Lama glama) 120 120 3ezj-a2-m1-cB_3ezj-a2-m1-cF QVQLQESGGGLVQAGGSLRLSCAASGSIFSINSMDWDRQAPGKQRELVATITSGGSTNYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNANVKTWAGMTRDYWGQGTQVTVSS QVQLQESGGGLVQAGGSLRLSCAASGSIFSINSMDWDRQAPGKQRELVATITSGGSTNYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNANVKTWAGMTRDYWGQGTQVTVSS 3ezk-a1-m1-cD_3ezk-a1-m1-cE Bacteriophage T4 gp17 motor assembly based on crystal structures and cryo-EM reconstructions P17312 P17312 34.0 ELECTRON MICROSCOPY 75 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 553 553 3ezk-a1-m1-cA_3ezk-a1-m1-cB 3ezk-a1-m1-cA_3ezk-a1-m1-cE 3ezk-a1-m1-cB_3ezk-a1-m1-cC 3ezk-a1-m1-cC_3ezk-a1-m1-cD DFHPLNEAGKILIKHPSLAERKDEDGIHWIKSQWDGKWYPEKFSDYLRLHKIVKIPNNSDKPELFQTYKDKNNKRSRYMGLPNLKRANIKTQWTREMVEEWKKCRDDIVYFAETYCAITHIDYGVIKVQLRDYQRDMLKIMSSKRMTVCNLSRQLGKTTVVAIFLAHFVCFNKDKAVGILAHKGSMSAEVLDRTKQAIELLPDFLQPGIVEWNKGSIELDNGSSIGAYASSPDAVRGNSFAMIYIDECAFIPNFHDSWLAIQPVISSGRRSKIIITTTPNGLNHFYDIWTAAVEGKSGFEPYTAIWNSVKERLYNDEDIFDDGWQWSIQTINGSSLAQFRQEHTAAFEGTSGTLISGMKLAVMDFIEVTPDDHGFHQFKKPEPDRKYIATLDCSEGRGQDYHALHIIDVTDDVWEQVGVLHSNTISHLILPDIVMRYLVEYNECPVYIELNSTGVSVAKSLYMDLEYEGVICDSYTDLGMKQTKRTKAVGCSTLKDLIEKDKLIIHHRATIQEFRTFSEKGVSWAAEEGYHDDLVMSLVIFGWLSTQSKFIDY DFHPLNEAGKILIKHPSLAERKDEDGIHWIKSQWDGKWYPEKFSDYLRLHKIVKIPNNSDKPELFQTYKDKNNKRSRYMGLPNLKRANIKTQWTREMVEEWKKCRDDIVYFAETYCAITHIDYGVIKVQLRDYQRDMLKIMSSKRMTVCNLSRQLGKTTVVAIFLAHFVCFNKDKAVGILAHKGSMSAEVLDRTKQAIELLPDFLQPGIVEWNKGSIELDNGSSIGAYASSPDAVRGNSFAMIYIDECAFIPNFHDSWLAIQPVISSGRRSKIIITTTPNGLNHFYDIWTAAVEGKSGFEPYTAIWNSVKERLYNDEDIFDDGWQWSIQTINGSSLAQFRQEHTAAFEGTSGTLISGMKLAVMDFIEVTPDDHGFHQFKKPEPDRKYIATLDCSEGRGQDYHALHIIDVTDDVWEQVGVLHSNTISHLILPDIVMRYLVEYNECPVYIELNSTGVSVAKSLYMDLEYEGVICDSYTDLGMKQTKRTKAVGCSTLKDLIEKDKLIIHHRATIQEFRTFSEKGVSWAAEEGYHDDLVMSLVIFGWLSTQSKFIDY 3ezm-a2-m1-cA_3ezm-a2-m2-cA CYANOVIRIN-N P81180 P81180 1.5 X-RAY DIFFRACTION 250 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 1lom-a1-m1-cA_1lom-a1-m2-cA 4j4c-a1-m1-cA_4j4c-a1-m2-cA LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQPSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQPSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 3ezq-a4-m1-cM_3ezq-a4-m1-cO Crystal Structure of the Fas/FADD Death Domain Complex P25445 P25445 2.73 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 3ezq-a1-m1-cA_3ezq-a1-m1-cC 3ezq-a2-m1-cE_3ezq-a2-m1-cG 3ezq-a3-m1-cI_3ezq-a3-m1-cK NLSDVDLSKYITTIAGVMTLSQVKGFVRKNGVNEAKIDEIKNDNVQDTAEQKVQLLRNWHQLHGKKEAYDTLIKDLKKANLCTLAEKIQTIILKDITSDSENSNFRNEIQSLVLE NLSDVDLSKYITTIAGVMTLSQVKGFVRKNGVNEAKIDEIKNDNVQDTAEQKVQLLRNWHQLHGKKEAYDTLIKDLKKANLCTLAEKIQTIILKDITSDSENSNFRNEIQSLVLE 3ezs-a1-m1-cA_3ezs-a1-m1-cB Crystal structure of aminotransferase AspB (NP_207418.1) from HELICOBACTER PYLORI 26695 at 2.19 A resolution O25341 O25341 2.19 X-RAY DIFFRACTION 142 0.997 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 371 371 GTFEPYPFERLRALLKEITPKKRGLDLGIGEPQFETPKFIQDALKNHTHSLNIYPKSAFEESLRAAQRGFFKRRFKIELKENELISTLGSREVLFNFPSFVLFDYQNPTIAYPNPFYQIYEGAAKFIKAKSLLPLTKENDFTPSLNEKELQEVDLVILNSPNNPTGRTLSLEELISWVKLALKHDFILINDECYSEIYENTPPPSLLEACLAGNEAFKNVLVIHSLSKRSSAPGLRSGFIAGDSRLLEKYKAFRAYLGYTSANAIQKASEAAWLDDRHAEFFRNIYANNLKLARKIFKNTLIYPYSFYVYLPVQNGENFAKTLYQNEGIITLPALYLGRNRIGADYVRLALVYDTPLLEKPLEIIETYREN TFEPYPFERLRALLKEITPKKRGLDLGIGEPQFETPKFIQDALKNHTHSLNIYPKSAFEESLRAAQRGFFKRRFKIELKENELISTLGSREVLFNFPSFVLFDYQNPTIAYPNPFYQIYEGAAKFIKAKSLLPLTKENDFTPSLNEKELQEVDLVILNSPNNPTGRTLSLEELISWVKLALKHDFILINDECYSEIYENTPPPSLLEACLAGNEAFKNVLVIHSLSKRSSAPGLRSGFIAGDSRLLEKYKAFRAYLGYTSANAIQKASEAAWLDDRHAEFFRNIYANNLKLARKIFKNTLIYPYSFYVYLPVQNGENFAKTLYQNEGIITLPALYLGRNRIGADYVRLALVYDTPLLEKPLEIIETYRENH 3ezu-a1-m1-cA_3ezu-a1-m2-cA Crystal structure of multidomain protein of unknown function with GGDEF-domain (NP_951600.1) from GEOBACTER SULFURREDUCENS at 1.95 A resolution Q74FR4 Q74FR4 1.95 X-RAY DIFFRACTION 135 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 329 329 GSGDILNDIVAACLELERKASSVFKFAAHAGSDEARRFWETVADETRHHSAVYERLQERGGRENLPIIIYKPAETLEELEIGKSIDEQVERYTEAPSSEAACLLGFRLQLYLLHPAFASLCRLTRDASEDLPDIGYGRYLRRFIDGIGSCGLATAETELLGEALFRLWNEARQLAAQSHFDALTGVTRAGFFKTVGSLAYAAQRSGSNVGILIDLDYFKLVGQTGDRILQLVAETITSHLRRSDVVGRYDGDEFVVYLSPVEPASLRTVAENLRRSIEEESARVPVTASIGVAQGILGTDVDGGIEELVRLADECLQAKYTGKNKVVVK GSGDILNDIVAACLELERKASSVFKFAAHAGSDEARRFWETVADETRHHSAVYERLQERGGRENLPIIIYKPAETLEELEIGKSIDEQVERYTEAPSSEAACLLGFRLQLYLLHPAFASLCRLTRDASEDLPDIGYGRYLRRFIDGIGSCGLATAETELLGEALFRLWNEARQLAAQSHFDALTGVTRAGFFKTVGSLAYAAQRSGSNVGILIDLDYFKLVGQTGDRILQLVAETITSHLRRSDVVGRYDGDEFVVYLSPVEPASLRTVAENLRRSIEEESARVPVTASIGVAQGILGTDVDGGIEELVRLADECLQAKYTGKNKVVVK 3ezx-a2-m1-cA_3ezx-a2-m2-cA Structure of Methanosarcina barkeri monomethylamine corrinoid protein O30641 O30641 2.56 X-RAY DIFFRACTION 38 1.0 2208 (Methanosarcina barkeri) 2208 (Methanosarcina barkeri) 212 212 ANQEIFDKLRDAIVNQNVAGTPELCKEALAAGVPALDIITKGLSVGMKIVGDKFEAAEIFLPQIMMSGKAMSNAMEVLTPELEKNKKEAGLAITFVAEGDIHDIGHRLVTTMLGANGFQIVDLGVDVLNENVVEEAAKHKGEKVLLVGSALMTTSMLGQKDLMDRLNEEKLRDSVKCMFGGAPVSDKWIEEIGADATAENAAEAAKVALEVM ANQEIFDKLRDAIVNQNVAGTPELCKEALAAGVPALDIITKGLSVGMKIVGDKFEAAEIFLPQIMMSGKAMSNAMEVLTPELEKNKKEAGLAITFVAEGDIHDIGHRLVTTMLGANGFQIVDLGVDVLNENVVEEAAKHKGEKVLLVGSALMTTSMLGQKDLMDRLNEEKLRDSVKCMFGGAPVSDKWIEEIGADATAENAAEAAKVALEVM 3ezy-a1-m1-cC_3ezy-a1-m1-cD Crystal structure of probable dehydrogenase TM_0414 from Thermotoga maritima Q9WYP5 Q9WYP5 2.04 X-RAY DIFFRACTION 44 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 330 331 3ezy-a1-m1-cB_3ezy-a1-m1-cA LRIGVIGLGRIGTIHAENLKMIAILYAISDVREDRLREMKEKLGVEKAYKDPHELIEDPNVDAVLVCSSTNTHSELVIACAKAKKHVFCEKPLSLNLADVDRMIEETKKADVILFTGFNRRFDRNFKKLKEAVENGTIGKPHVLRITSRDPAPPPLDYIRVSGGIFLDMTIHDFDMARYIMGEEVEEVFADGSVLVDEEIGKAGDVDTAVVVLRFKSGALGVIDNSRRAVYGYDQRIEVFGSKGRIFADNVRETTVVLTDEQGDRGSRYLYFFLERYRDSYLEELKTFIKNVKSGEPPAVSGEDGKMALLLGYAAKKSLEEKRSVKLEEV LRIGVIGLGRIGTIHAENLKMIAILYAISDVREDRLREMKEKLGVEKAYKDPHELIEDPNVDAVLVCSSTNTHSELVIACAKAKKHVFCEKPLSLNLADVDRMIEETKKADVILFTGFNRRFDRNFKKLKEAVENGTIGKPHVLRITSRDPAPPPLDYIRVSGGIFLDMTIHDFDMARYIMGEEVEEVFADGSVLVDEEIGKAGDVDTAVVVLRFKSGALGVIDNSRRAVYGYDQRIEVFGSKGRIFADNVRETTVVLTDEQGDRGSRYLYFFLERYRDSYLEELKTFIKNVKSGEPPAVSGEDGKMALLLGYAAKKSLEEKRSVKLEEVI 3ezy-a1-m1-cD_3ezy-a1-m1-cA Crystal structure of probable dehydrogenase TM_0414 from Thermotoga maritima Q9WYP5 Q9WYP5 2.04 X-RAY DIFFRACTION 108 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 331 334 3ezy-a1-m1-cC_3ezy-a1-m1-cB LRIGVIGLGRIGTIHAENLKMIAILYAISDVREDRLREMKEKLGVEKAYKDPHELIEDPNVDAVLVCSSTNTHSELVIACAKAKKHVFCEKPLSLNLADVDRMIEETKKADVILFTGFNRRFDRNFKKLKEAVENGTIGKPHVLRITSRDPAPPPLDYIRVSGGIFLDMTIHDFDMARYIMGEEVEEVFADGSVLVDEEIGKAGDVDTAVVVLRFKSGALGVIDNSRRAVYGYDQRIEVFGSKGRIFADNVRETTVVLTDEQGDRGSRYLYFFLERYRDSYLEELKTFIKNVKSGEPPAVSGEDGKMALLLGYAAKKSLEEKRSVKLEEVI SLRIGVIGLGRIGTIHAENLKMIDDAILYAISDVREDRLREMKEKLGVEKAYKDPHELIEDPNVDAVLVCSSTNTHSELVIACAKAKKHVFCEKPLSLNLADVDRMIEETKKADVILFTGFNRRFDRNFKKLKEAVENGTIGKPHVLRITSRDPAPPPLDYIRVSGGIFLDMTIHDFDMARYIMGEEVEEVFADGSVLVDEEIGKAGDVDTAVVVLRFKSGALGVIDNSRRAVYGYDQRIEVFGSKGRIFADNVRETTVVLTDEQGDRGSRYLYFFLERYRDSYLEELKTFIKNVKSGEPPAVSGEDGKMALLLGYAAKKSLEEKRSVKLEEVI 3ezy-a1-m1-cD_3ezy-a1-m1-cB Crystal structure of probable dehydrogenase TM_0414 from Thermotoga maritima Q9WYP5 Q9WYP5 2.04 X-RAY DIFFRACTION 76 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 331 333 3ezy-a1-m1-cC_3ezy-a1-m1-cA LRIGVIGLGRIGTIHAENLKMIAILYAISDVREDRLREMKEKLGVEKAYKDPHELIEDPNVDAVLVCSSTNTHSELVIACAKAKKHVFCEKPLSLNLADVDRMIEETKKADVILFTGFNRRFDRNFKKLKEAVENGTIGKPHVLRITSRDPAPPPLDYIRVSGGIFLDMTIHDFDMARYIMGEEVEEVFADGSVLVDEEIGKAGDVDTAVVVLRFKSGALGVIDNSRRAVYGYDQRIEVFGSKGRIFADNVRETTVVLTDEQGDRGSRYLYFFLERYRDSYLEELKTFIKNVKSGEPPAVSGEDGKMALLLGYAAKKSLEEKRSVKLEEVI LRIGVIGLGRIGTIHAENLKMIDDAILYAISDVREDRLREMKEKLGVEKAYKDPHELIEDPNVDAVLVCSSTNTHSELVIACAKAKKHVFCEKPLSLNLADVDRMIEETKKADVILFTGFNRRFDRNFKKLKEAVENGTIGKPHVLRITSRDPAPPPLDYIRVSGGIFLDMTIHDFDMARYIMGEEVEEVFADGSVLVDEEIGKAGDVDTAVVVLRFKSGALGVIDNSRRAVYGYDQRIEVFGSKGRIFADNVRETTVVLTDEQGDRGSRYLYFFLERYRDSYLEELKTFIKNVKSGEPPAVSGEDGKMALLLGYAAKKSLEEKRSVKLEEVI 3ezz-a1-m4-cB_3ezz-a1-m4-cD Crystal Structure of human MKP-2 Q13115 Q13115 2.9 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 3ezz-a1-m1-cB_3ezz-a1-m1-cD 3ezz-a1-m1-cC_3ezz-a1-m8-cF 3ezz-a1-m2-cB_3ezz-a1-m2-cD 3ezz-a1-m2-cC_3ezz-a1-m7-cF 3ezz-a1-m3-cB_3ezz-a1-m3-cD 3ezz-a1-m3-cC_3ezz-a1-m5-cF 3ezz-a1-m4-cC_3ezz-a1-m6-cF 3ezz-a1-m5-cA_3ezz-a1-m5-cE 3ezz-a1-m6-cA_3ezz-a1-m6-cE 3ezz-a1-m7-cA_3ezz-a1-m7-cE 3ezz-a1-m8-cA_3ezz-a1-m8-cE MGGPVEILPFLYLGSAYHAARRDMLDALGITALLNVSSDCPNHFEGHYQYKCIPVEDNHKADISSWFMEAIEYIDAVKDCRGRVLVHSQAGISRSATICLAYLMMKKRVRLEEAFEFVKQRRSIISPNFSFMGQLLQFESQVLA MGGPVEILPFLYLGSAYHAARRDMLDALGITALLNVSSDCPNHFEGHYQYKCIPVEDNHKADISSWFMEAIEYIDAVKDCRGRVLVHSQAGISRSATICLAYLMMKKRVRLEEAFEFVKQRRSIISPNFSFMGQLLQFESQVLA 3ezz-a1-m8-cE_3ezz-a1-m8-cF Crystal Structure of human MKP-2 Q13115 Q13115 2.9 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 3ezz-a1-m1-cB_3ezz-a1-m1-cC 3ezz-a1-m1-cB_3ezz-a1-m6-cF 3ezz-a1-m1-cC_3ezz-a1-m6-cE 3ezz-a1-m1-cD_3ezz-a1-m3-cD 3ezz-a1-m1-cD_3ezz-a1-m4-cD 3ezz-a1-m2-cB_3ezz-a1-m2-cC 3ezz-a1-m2-cB_3ezz-a1-m5-cF 3ezz-a1-m2-cC_3ezz-a1-m5-cE 3ezz-a1-m2-cD_3ezz-a1-m3-cD 3ezz-a1-m2-cD_3ezz-a1-m4-cD 3ezz-a1-m3-cB_3ezz-a1-m3-cC 3ezz-a1-m3-cB_3ezz-a1-m8-cF 3ezz-a1-m3-cC_3ezz-a1-m8-cE 3ezz-a1-m4-cB_3ezz-a1-m4-cC 3ezz-a1-m4-cB_3ezz-a1-m7-cF 3ezz-a1-m4-cC_3ezz-a1-m7-cE 3ezz-a1-m5-cA_3ezz-a1-m7-cA 3ezz-a1-m5-cA_3ezz-a1-m8-cA 3ezz-a1-m5-cE_3ezz-a1-m5-cF 3ezz-a1-m6-cA_3ezz-a1-m7-cA 3ezz-a1-m6-cA_3ezz-a1-m8-cA 3ezz-a1-m6-cE_3ezz-a1-m6-cF 3ezz-a1-m7-cE_3ezz-a1-m7-cF MGGPVEILPFLYLGSAYHAARRDMLDALGITALLNVSSDCPNHFEGHYQYKCIPVEDNHKADISSWFMEAIEYIDAVKDCRGRVLVHSQAGISRSATICLAYLMMKKRVRLEEAFEFVKQRRSIISPNFSFMGQLLQFESQVLA MGGPVEILPFLYLGSAYHAARRDMLDALGITALLNVSSDCPNHFEGHYQYKCIPVEDNHKADISSWFMEAIEYIDAVKDCRGRVLVHSQAGISRSATICLAYLMMKKRVRLEEAFEFVKQRRSIISPNFSFMGQLLQFESQVLA 3f08-a1-m1-cA_3f08-a1-m1-cB Crystal structure of the putative uncharacterized protein Q6HG14 from Bacilllus thuringiensis. Northeast Structural Genomics Consortium target BuR153. Q6HG14 Q6HG14 2.2 X-RAY DIFFRACTION 60 1.0 180856 ([Bacillus thuringiensis] serovar konkukian) 180856 ([Bacillus thuringiensis] serovar konkukian) 135 135 3cnw-a1-m1-cB_3cnw-a1-m1-cA AHTTTSEIFGSTEQVWQLIGGFNSLPDWLPYIPSSKLTEGGRVRHLANPDGETIIERLEVFNDKERYYTYSINAPFPVTNYLSTIQVKEGTESNTSLVEWSGTFTPVAVSDEEAINLVHGIYSDGLKALQHAFLD AHTTTSEIFGSTEQVWQLIGGFNSLPDWLPYIPSSKLTEGGRVRHLANPDGETIIERLEVFNDKERYYTYSINAPFPVTNYLSTIQVKEGTESNTSLVEWSGTFTPVAVSDEEAINLVHGIYSDGLKALQHAFLD 3f0c-a1-m1-cA_3f0c-a1-m2-cA Crystal structure of transcriptional regulator from Cytophaga hutchinsonii ATCC 33406 2.96 X-RAY DIFFRACTION 27 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 187 187 DGKLELIINAAQKRFAHYGLCKTTNEIASDVGGKASLYYYFPDKETLFEAVIKKEQNVFFDEDKILNSGIDATALLKKYVKLRSLHFRHLLNLSKLRSDFTKPVFAKAFESFKQKEVEIVAGIIQYGITTKEFKRGNKHENAEFLVHLLLGVRVKLKYKEINDFDESDYEDLDKNCKVAGFLKEIQT DGKLELIINAAQKRFAHYGLCKTTNEIASDVGGKASLYYYFPDKETLFEAVIKKEQNVFFDEDKILNSGIDATALLKKYVKLRSLHFRHLLNLSKLRSDFTKPVFAKAFESFKQKEVEIVAGIIQYGITTKEFKRGNKHENAEFLVHLLLGVRVKLKYKEINDFDESDYEDLDKNCKVAGFLKEIQT 3f0h-a1-m1-cA_3f0h-a1-m2-cA Crystal structure of Aminotransferase (RER070207000802) from Eubacterium rectale at 1.70 A resolution 1.7 X-RAY DIFFRACTION 173 1.0 347 347 LYFQGLNFTVGPVSSEEVRAIGAEQVPYFRTTEFSSTLENEKFLEYAKAPEGSKAVFTCSSTGSEAVVNCFTKKDKVLVIDGGSFGHRFVQLCEIHEIPYVALKLEHGKKLTKEKLYEYDNQNFTGLLVNVDETSTAVLYDTIGEFCKKNNFFVCDCVSAFLADPFNNECGADVITGSQVLACPPGISVIVLAPRGVERVEKSKVRTYFDLKDALKNQERGQTPFTPAVGILLQINERLKEIKKHGGADAEVARIASQAADFRAKIKDLPFELVSESPANGVTSVHPTTANAYDIFLKLKDEYGIWICPNGGEKDTIFRVGHIGALTHEDNTTLVNAFKDLQKRNLL LYFQGLNFTVGPVSSEEVRAIGAEQVPYFRTTEFSSTLENEKFLEYAKAPEGSKAVFTCSSTGSEAVVNCFTKKDKVLVIDGGSFGHRFVQLCEIHEIPYVALKLEHGKKLTKEKLYEYDNQNFTGLLVNVDETSTAVLYDTIGEFCKKNNFFVCDCVSAFLADPFNNECGADVITGSQVLACPPGISVIVLAPRGVERVEKSKVRTYFDLKDALKNQERGQTPFTPAVGILLQINERLKEIKKHGGADAEVARIASQAADFRAKIKDLPFELVSESPANGVTSVHPTTANAYDIFLKLKDEYGIWICPNGGEKDTIFRVGHIGALTHEDNTTLVNAFKDLQKRNLL 3f0n-a1-m1-cB_3f0n-a1-m1-cA Mus Musculus Mevalonate Pyrophosphate Decarboxylase Q99JF5 Q99JF5 1.9 X-RAY DIFFRACTION 72 0.992 10090 (Mus musculus) 10090 (Mus musculus) 373 387 DLMVTCTAPVNIAVIKYWGKRDEALILPINSSLSVTLHQDQLKTTTTVAISKDFTEDRIWLNGREEDVGQPRLQACLREIRRLARKRRLSLSYKVHVASVNNFPASSAAGYACLAYTLAQVYGVEGDLSEVARRGSGSACRSLYGGFVEWQMGEQADGKDSIARQIAPEWHWPQLRILILVVSADKKQTGSTVGMQTSVETSTLLKFRAESVVPERMKEMTRCIQEQDFQGFAQLTMKDSNQFHATCLDTFPPISYLNDTSRRIIQLVHRFNTHHGQTKVAYTFDAGPNAVIFTLEDTVAEFVAAVRHSFPPAANKFLKGLQVAPVLLSDELKAALVPSPGGVQYIIATQVGPGPQVLDDTHDHLLGQDGLPQ RENLYFDLMVTCTAPVNIAVIKYWGKRDEALILPINSSLSVTLHQDQLKTTTTVAISKDFTEDRIWLNGREEDVGQPRLQACLREIRRLARKDTLPLSLSYKVHVASVNNFPTAAGLASSAAGYACLAYTLAQVYGVEGDLSEVARRGSGSACRSLYGGFVEWQMGEQADGKDSIARQIAPEWHWPQLRILILVVSADKQTGSTVGMQTSVETSTLLKFRAESVVPERMKEMTRCIQEQDFQGFAQLTMKDSNQFHATCLDTFPPISYLNDTSRRIIQLVHRFNTHHGQTKVAYTFDAGPNAVIFTLEDTVAEFVAAVRHSFPPAANKFLKGLQVAPVLLSDELKAALVVEPSPGGVQYIIATQVGPGPQVLDDTHDHLLGQDGLPQ 3f0w-a2-m1-cA_3f0w-a2-m2-cA Human NUMB-like protein, phosphotyrosine interaction domain Q9Y6R0 Q9Y6R0 2.7 X-RAY DIFFRACTION 130 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 153 153 DLGTENLYFQSMASRPHQWQADEDAVRKGTCSFPVRYLGHVEVEESRGMHVCEDAVKKLKAMGSVKSVLWVSADGLRVVDDKTKDLLVDQTIEKVSFCAPDRNLDKAFSYICRDGTTRRWICHCFLALKDSGERLSHAVGCAFAACLERKQRR DLGTENLYFQSMASRPHQWQADEDAVRKGTCSFPVRYLGHVEVEESRGMHVCEDAVKKLKAMGSVKSVLWVSADGLRVVDDKTKDLLVDQTIEKVSFCAPDRNLDKAFSYICRDGTTRRWICHCFLALKDSGERLSHAVGCAFAACLERKQRR 3f13-a1-m1-cA_3f13-a1-m1-cB Crystal structure of putative nudix hydrolase family member from Chromobacterium violaceum Q7NWQ3 Q7NWQ3 1.7 X-RAY DIFFRACTION 81 0.993 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 142 145 RLPSDLARRATAIIEMPDGVLVTASRYNLPGGKANRGELRSQALIREIREETGLRINSMLYLFDHITPFNAHKVYLCIAGQPKPQNEIERIALVSSPDTDMDLFVEGRAILRRYARLRNEETAKGEALRALLGLARYIAKVD LPSDLARRATAIIEMPDGVLVTASRYNLPGGKANRGELRSQALIREIREETGLRINSMLYLFDHITPFNAHKVYLCIAQGQPKPQNEIERIALVSSPDTDMDLFVEGRAILRRYARLRNEETAKGEALRALLGLARYIAKVDEGH 3f14-a1-m1-cA_3f14-a1-m2-cA Crystal structure of NTF2-like protein of unknown function (YP_680363.1) from CYTOPHAGA HUTCHINSONII ATCC 33406 at 1.45 A resolution 1.45 X-RAY DIFFRACTION 42 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 109 109 GETTHYSIAQHFSSGDFPAVYACFNDIIEWNIIGNQVVKGKADVIDFCNKLPEKGAVLTNDNVIQNENQIVIEGKCRYFDAEGKEAFVSYCDIYRFENDTIKTITSYCI GETTHYSIAQHFSSGDFPAVYACFNDIIEWNIIGNQVVKGKADVIDFCNKLPEKGAVLTNDNVIQNENQIVIEGKCRYFDAEGKEAFVSYCDIYRFENDTIKTITSYCI 3f1b-a1-m1-cA_3f1b-a1-m2-cA The crystal structure of a TetR-like transcriptional regulator from Rhodococcus sp. RHA1. Q0S658 Q0S658 2.4 X-RAY DIFFRACTION 121 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 178 178 RLPRAVREQQLDAAVDVFSDRGFHETSDAIAAKAEISKPLYLYYGSKDELFAACIQREGLRFVEALAPAGDPGLSPREQLRRALEGFLGFVGKHRKSWVLYRQAQQAFVGSVQSSRDRLIELTAHLLESSTKQDFELIAIALVGAGEAVADRVAGGEIEVDAAADLLESLAWRGLAGK RLPRAVREQQLDAAVDVFSDRGFHETSDAIAAKAEISKPLYLYYGSKDELFAACIQREGLRFVEALAPAGDPGLSPREQLRRALEGFLGFVGKHRKSWVLYRQAQQAFVGSVQSSRDRLIELTAHLLESSTKQDFELIAIALVGAGEAVADRVAGGEIEVDAAADLLESLAWRGLAGK 3f1c-a1-m1-cA_3f1c-a1-m1-cB CRYSTAL STRUCTURE OF 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase from Listeria monocytogenes Q720Y7 Q720Y7 2.3 X-RAY DIFFRACTION 118 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 229 230 SLIYAQILAGMNVSMPKQFLPLNGKPIIVHTVEKFILNTRFDKILISSPKEWMNHAEDNIKKYISDDRIVVIEGGEDRNETIMNGIRFVEKTYGLTDDDIIVTHDAVRPFLTHRIIEENIDAALETGAVDTVIEALDTIVESSNHEVITDIPVRDHMYQGQTPQSFNMKKVFNHYQNLTPEKKQILTDACKICLLAGDDVKLVKGEIFNIKITTPYDLKVANAIIQERI SLIYAQILAGMGNVSMPKQFLPLNGKPIIVHTVEKFILNTRFDKILISSPKEWMNHAEDNIKKYISDDRIVVIEGGEDRNETIMNGIRFVEKTYGLTDDDIIVTHDAVRPFLTHRIIEENIDAALETGAVDTVIEALDTIVESSNHEVITDIPVRDHMYQGQTPQSFNMKKVFNHYQNLTPEKKQILTDACKICLLAGDDVKLVKGEIFNIKITTPYDLKVANAIIQERI 3f1i-a1-m1-cC_3f1i-a1-m1-cS Human ESCRT-0 Core Complex Q92783 Q92783 2.3 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 77 QMGPLIDEKLEDIDRKHSELSELN FIDEDKMDQLLQMLQSTDPSDDQPDLPELLHLEAMCHQMGPLIDEKLEDIDRKHSELSELNVKVMEALSLYTKLMNE 3f1r-a1-m1-cA_3f1r-a1-m1-cB Crystal structure of FGF20 dimer Q9NP95 Q9NP95 2.5 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 PGAAQLAHLHGILRRRQLYCRTGFHLQILPDGSVQGTRQDHSLFGILEFISVAVGLVSIRGVDSGLYLGMNDKGELYGSEKLTSECIFREQFEENWYNTYSSNIYKHGDTGRRYFVALNKDGTPRDGARSKRHQKFTHFLPRPVDPERVPELYKDLL PGAAQLAHLHGILRRRQLYCRTGFHLQILPDGSVQGTRQDHSLFGILEFISVAVGLVSIRGVDSGLYLGMNDKGELYGSEKLTSECIFREQFEENWYNTYSSNIYKHGDTGRRYFVALNKDGTPRDGARSKRHQKFTHFLPRPVDPERVPELYKDLL 3f1t-a1-m1-cA_3f1t-a1-m1-cD Crystal structure of the Q9I3C8_PSEAE protein from Pseudomonas aeruginosa. Northeast Structural Genomics Consortium target PaR319a. Q9I3C8 Q9I3C8 2.2 X-RAY DIFFRACTION 25 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 132 132 3f1t-a1-m1-cC_3f1t-a1-m1-cB NPLLERARRFLSALRHCQVLGLTVEAADEKGLTLRLPYSQAIIGNPESGVVHGGAITTLDTTCGISTVCVLPDFEICPTLDLRIDYHPAEPHKDVYGFAECYRVTPNVIFTRGFAYQDDPGQPIAHVVGAFR NPLLERARRFLSALRHCQVLGLTVEAADEKGLTLRLPYSQAIIGNPESGVVHGGAITTLDTTCGISTVCVLPDFEICPTLDLRIDYHPAEPHKDVYGFAECYRVTPNVIFTRGFAYQDDPGQPIAHVVGAFR 3f1t-a1-m1-cC_3f1t-a1-m1-cD Crystal structure of the Q9I3C8_PSEAE protein from Pseudomonas aeruginosa. Northeast Structural Genomics Consortium target PaR319a. Q9I3C8 Q9I3C8 2.2 X-RAY DIFFRACTION 81 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 131 132 3f1t-a1-m1-cA_3f1t-a1-m1-cB PLLERARRFLSALRHCQVLGLTVEAADEKGLTLRLPYSQAIIGNPESGVVHGGAITTLDTTCGISTVCVLPDFEICPTLDLRIDYHPAEPHKDVYGFAECYRVTPNVIFTRGFAYQDDPGQPIAHVVGAFR NPLLERARRFLSALRHCQVLGLTVEAADEKGLTLRLPYSQAIIGNPESGVVHGGAITTLDTTCGISTVCVLPDFEICPTLDLRIDYHPAEPHKDVYGFAECYRVTPNVIFTRGFAYQDDPGQPIAHVVGAFR 3f1t-a1-m1-cD_3f1t-a1-m1-cB Crystal structure of the Q9I3C8_PSEAE protein from Pseudomonas aeruginosa. Northeast Structural Genomics Consortium target PaR319a. Q9I3C8 Q9I3C8 2.2 X-RAY DIFFRACTION 15 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 132 133 3f1t-a1-m1-cC_3f1t-a1-m1-cA NPLLERARRFLSALRHCQVLGLTVEAADEKGLTLRLPYSQAIIGNPESGVVHGGAITTLDTTCGISTVCVLPDFEICPTLDLRIDYHPAEPHKDVYGFAECYRVTPNVIFTRGFAYQDDPGQPIAHVVGAFR ENPLLERARRFLSALRHCQVLGLTVEAADEKGLTLRLPYSQAIIGNPESGVVHGGAITTLDTTCGISTVCVLPDFEICPTLDLRIDYHPAEPHKDVYGFAECYRVTPNVIFTRGFAYQDDPGQPIAHVVGAFR 3f1x-a1-m1-cA_3f1x-a1-m6-cA Three dimensional structure of the serine acetyltransferase from Bacteroides vulgatus, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET BVR62. A6KZB9 A6KZB9 2 X-RAY DIFFRACTION 24 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 275 275 3f1x-a1-m2-cA_3f1x-a1-m5-cA 3f1x-a1-m3-cA_3f1x-a1-m4-cA TTFNYTNILTQAVDELSESQSYKGLFHQHKDGDPLPSAKSLYKIVELARAIIFPGYFGNSTVNSHTINYHIGVNVETLFGLLTEQILAGLCFGDNEPCRETASLLAARFISKLPELRRILATDVEAAYYGDPAATCFGEIISCYPAIRAISNYRIAHELLILGVPLIPRFITEAHSETGIDIHPGAQIGHHFTIDHGTGVVIGATSIIGNNVKLYQGVTLGAKPRHPILEDDVIVYSNATILGRVTIGKGATVGGNIWVTENVPAGSRIVQRKNK TTFNYTNILTQAVDELSESQSYKGLFHQHKDGDPLPSAKSLYKIVELARAIIFPGYFGNSTVNSHTINYHIGVNVETLFGLLTEQILAGLCFGDNEPCRETASLLAARFISKLPELRRILATDVEAAYYGDPAATCFGEIISCYPAIRAISNYRIAHELLILGVPLIPRFITEAHSETGIDIHPGAQIGHHFTIDHGTGVVIGATSIIGNNVKLYQGVTLGAKPRHPILEDDVIVYSNATILGRVTIGKGATVGGNIWVTENVPAGSRIVQRKNK 3f1x-a1-m5-cA_3f1x-a1-m6-cA Three dimensional structure of the serine acetyltransferase from Bacteroides vulgatus, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET BVR62. A6KZB9 A6KZB9 2 X-RAY DIFFRACTION 153 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 275 275 3f1x-a1-m1-cA_3f1x-a1-m2-cA 3f1x-a1-m1-cA_3f1x-a1-m3-cA 3f1x-a1-m2-cA_3f1x-a1-m3-cA 3f1x-a1-m4-cA_3f1x-a1-m5-cA 3f1x-a1-m4-cA_3f1x-a1-m6-cA TTFNYTNILTQAVDELSESQSYKGLFHQHKDGDPLPSAKSLYKIVELARAIIFPGYFGNSTVNSHTINYHIGVNVETLFGLLTEQILAGLCFGDNEPCRETASLLAARFISKLPELRRILATDVEAAYYGDPAATCFGEIISCYPAIRAISNYRIAHELLILGVPLIPRFITEAHSETGIDIHPGAQIGHHFTIDHGTGVVIGATSIIGNNVKLYQGVTLGAKPRHPILEDDVIVYSNATILGRVTIGKGATVGGNIWVTENVPAGSRIVQRKNK TTFNYTNILTQAVDELSESQSYKGLFHQHKDGDPLPSAKSLYKIVELARAIIFPGYFGNSTVNSHTINYHIGVNVETLFGLLTEQILAGLCFGDNEPCRETASLLAARFISKLPELRRILATDVEAAYYGDPAATCFGEIISCYPAIRAISNYRIAHELLILGVPLIPRFITEAHSETGIDIHPGAQIGHHFTIDHGTGVVIGATSIIGNNVKLYQGVTLGAKPRHPILEDDVIVYSNATILGRVTIGKGATVGGNIWVTENVPAGSRIVQRKNK 3f1y-a1-m1-cA_3f1y-a1-m1-cC Mannosyl-3-phosphoglycerate synthase from Rubrobacter xylanophilus B7SY86 B7SY86 2.2 X-RAY DIFFRACTION 230 0.997 32630 (synthetic construct) 32630 (synthetic construct) 318 318 3kia-a1-m1-cC_3kia-a1-m1-cA 3o3p-a1-m1-cB_3o3p-a1-m1-cA GPASAAEWFRQRSYDYGQFPPEDLARRKRELGLTVSAVLPSRNVADTVGGIIDEIHALNERAPLIDQILVVDADSEDGTAGVAASHGAEVYSENELMSGYGDAHGKGDAMWRALSVTRGDLVLYIDADTRDFRPQLAYGVLGPVLEVPGVRFVKAAYRRPEEDGGGRVTELTAKPLFNLFYPELAGFVQPLAGEFVADRELFCSIPFLTGYAVETGIMIDVLKKVGLGAMAQVDLGERQNRHQHLRDLSRMSYAVVRAVARRLRQEGRLQQLREPGLPESFFQLSDYLHAVATPEGLKLQEYVEELVERPPINEVLRV LGPASAAEWFRQRSYDYGQFPPEDLARRKRELGLTVSAVLPSRNVADTVGGIIDEIHALNERAPLIDQILVVDADSEDGTAGVAASHGAEVYSENELMSGYGDAHGKGDAMWRALSVTRGDLVLYIDADTRDFRPQLAYGVLGPVLEVPGVRFVKAAYRRPEEDGGGRVTELTAKPLFNLFYPELAGFVQPLAGEFVADRELFCSIPFLTGYAVETGIMIDVLKKVGLGAMAQVDLGERQNRHQHLRDLSRMSYAVVRAVARRLRQEGRLQQLREPGLPESFFQLSDYLHAVATPEGLKLQEYVEELVERPPINEVLR 3f2i-a3-m1-cE_3f2i-a3-m1-cF Crystal structure of the alr0221 protein from Nostoc, Northeast Structural Genomics Consortium Target NsR422. Q8Z077 Q8Z077 2 X-RAY DIFFRACTION 62 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 161 164 3f2i-a1-m1-cA_3f2i-a1-m1-cB 3f2i-a2-m1-cC_3f2i-a2-m1-cD ELYLIRHGIAEAQKTGIKDEERELTQEGKQKTEKVAYRLVKLGRQFDLIVTSPLIRARQTAEILLASGLSCQLEESNHLAPNGNIFNWLDYWLKPKNFPENAQIAIVGHEPCLSNWTEILLWGEAKDSLVLKKAGIGLKLPEIGSPVGRSQFWLTPPRYLL ELYLIRHGIAEAQKTGIKDEERELTQEGKQKTEKVAYRLVKLGRQFDLIVTSPLIRARQTAEILLASGLSCQLEESNHLAPNGNIFNWLDYWLKPKNFPENAQIAIVGHEPCLSNWTEILLWGEAKDSLVLKKAGIGLKLPEIGSPVGRSQFWLTPPRYLLLEH 3f2u-a1-m1-cA_3f2u-a1-m2-cA Crystal structure of human chromobox homolog 1 (CBX1) P83916 P83916 1.8 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 GEYVVEKVLDRRVVKGKVEYLLKWKGFSDEDNTWEPEENLDCPDLIAEFLQ GEYVVEKVLDRRVVKGKVEYLLKWKGFSDEDNTWEPEENLDCPDLIAEFLQ 3f2v-a1-m1-cA_3f2v-a1-m2-cA Crystal structure of the general stress protein 14 (TDE0354) in complex with FMN from Treponema denticola, Northeast Structural Genomics Consortium Target TdR58. Q73QT9 Q73QT9 2 X-RAY DIFFRACTION 78 1.0 158 (Treponema denticola) 158 (Treponema denticola) 174 174 PKTLIILAHPNISQSTVHKHWSDAVRQHTDRFTVHELYAVYPQGKIDVAAEQKLIETHDSLVWQFPIYWFNCPPLLKQWLDEVLTYGWAYGSKGKALKGRKIALAVSLGAPAADYRADGAVGCSVAEVLRPFELTAKYCNADYRPPFTFHTSEAARQEVERSARDYLAWLDALQ PKTLIILAHPNISQSTVHKHWSDAVRQHTDRFTVHELYAVYPQGKIDVAAEQKLIETHDSLVWQFPIYWFNCPPLLKQWLDEVLTYGWAYGSKGKALKGRKIALAVSLGAPAADYRADGAVGCSVAEVLRPFELTAKYCNADYRPPFTFHTSEAARQEVERSARDYLAWLDALQ 3f31-a1-m1-cA_3f31-a1-m1-cB Crystal Structure of the N-terminal region of AlphaII-spectrin Tetramerization Domain Q13813 Q13813 2.3 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 140 TAEDIQERRQQVLDRYHRFKELSTLRRQKLEDSYRFQFFQRDAEELEKWIQEKLQIASDENYKDPTNLQGKLQKHQAFEAEVQANSGAIVKLDETGNLMISEGHFASETIRTRLMELHRQWELLLEKMREKGIKLLQ VLETAEDIQERRQQVLDRYHRFKELSTLRRQKLEDSYRFQFFQRDAEELEKWIQEKLQIASDENYKDPTNLQGKLQKHQAFEAEVQANSGAIVKLDETGNLMISEGHFASETIRTRLMELHRQWELLLEKMREKGIKLLQ 3f3h-a1-m1-cB_3f3h-a1-m1-cA Crystal structure and anti-tumor activity of LZ-8 from the fungus Ganoderma lucidium P14945 P14945 2.1 X-RAY DIFFRACTION 97 1.0 5315 (Ganoderma lucidum) 5315 (Ganoderma lucidum) 109 110 DTALIFRLAWDVKKLSFDYTPNWGRGNPNNFIDTVTFPKVLTDKAYTYRVAVSGRNLGVKPSYAVESDGSQKVNFLEYNSGYGIADTNTIQVFVVDPDTNNDFIIAQWN SDTALIFRLAWDVKKLSFDYTPNWGRGNPNNFIDTVTFPKVLTDKAYTYRVAVSGRNLGVKPSYAVESDGSQKVNFLEYNSGYGIADTNTIQVFVVDPDTNNDFIIAQWN 3f3k-a1-m1-cA_3f3k-a1-m1-cB The structure of uncharacterized protein YKR043C from Saccharomyces cerevisiae. P36136 P36136 1.75 X-RAY DIFFRACTION 132 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 257 259 3lg2-a1-m1-cA_3lg2-a1-m1-cB 3lg2-a2-m1-cC_3lg2-a2-m1-cD 3ll4-a1-m1-cA_3ll4-a1-m1-cB 3oi7-a1-m1-cA_3oi7-a1-m1-cC 3oi7-a2-m1-cB_3oi7-a2-m1-cD SLTPRCIIVRHGQTEWSKSGQYTGLTDLPLTPYGEGQLRTGESVFRNQFLNPDNITYIFTSPRLRARQTVDLVLKPLSDEQRAKIRVVVDDDLREWEYGDYEGLTREIIELRKSRGLDKERPWNIWRDGCENGETTQQIGLRLSRAIARIQNLHRKHQSEGRASDIVFAHGHALRYFAAIWFGLGVQKKCETIEEIQNVKSYDDDTVPYVKLESYRHLVDNPCFLLDAGGIGVLSYAHHNIDEPALELAGPFVSPPE PSLTPRCIIVRHGQTEWSKSGQYTGLTDLPLTPYGEGQLRTGESVFRNNQFLNPDNITYIFTSPRLRARQTVDLVLKPLSDEQRAKIRVVVDDDLREWEYGDYEGLTREIIELRKSRGLDKERPWNIWRDGCENGETTQQIGLRLSRAIARIQNLHRKHQSEGRASDIVFAHGHALRYFAAIWFGLGVQKKCETIEEIQNVKSYDDDTVPYVKLESYRHLVDNPCFLLDAGGIGVLSYAHHNIDEPALELAGPFVSPPE 3f3p-a1-m1-cD_3f3p-a1-m1-cC Crystal structure of the nucleoporin pair Nup85-Seh1, space group P21212 P46673 P46673 3.2 X-RAY DIFFRACTION 57 0.991 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 464 467 3f3f-a1-m1-cC_3f3f-a1-m1-cD 3f3f-a1-m1-cG_3f3f-a1-m1-cH 3f3g-a1-m1-cD_3f3g-a1-m1-cC 3f3g-a1-m1-cG_3f3g-a1-m1-cH 3f3p-a2-m1-cG_3f3p-a2-m1-cH 3f3p-a3-m1-cL_3f3p-a3-m1-cK SGAILVPTVNDQPIEKNGDKPLKFKLGPLSYQNAFITAKDKYKLYPVRIPRLDTSKEFSAYVSGLFEIYRDLGDDRVFNVSNFAKEHNATVNLAEAILNELEVFIGRVKDQDGRVNRFYELEESLTVLNCLRTYFILDGQDVEENRSEFIESLLNWINRSDGEPDEEYIEQVFSKVFETQYFWKLLNQLVLRGLLSQAIGCIERSDLLPYLSDTCAVSFDAVSDSIELLKQYPKDSSSTFREWKNLVLKLSQAFGSSATDISGELRDYIEDFLLVIGGNQRKILQYSRTWYESFCGFLLYYIPSLELSAEYLQSLEANVVDITNDWEQPCVDIISGKIHSILPVESLDSCTAAFTAICEAKGLIENIFELEDLFSYRNGASYLNSFAFELCSLGDKELWPVAIGLIALSATGTRSAKKVIAELLPHYPFVTNDDIEWLSICVEWRLPEIAKEIYTTLGNQLSAH KRDPVSGAILVPTVNDQPIEKNGDKPLKFKLGPLSYQNAFITAKDKYKLYPVRIPRLDTSKEFSAYVSGLFEIYRDLGDDRVFNNSNFAKEHNATVNLAEAILNELEVFIGRVKDQDGRVNRFYELEESLTVLNCLRTYFILDGQDVEENRSEFIESLLNWINRSDGEPDEEYIEQVFSVKVFETQYFWKLLNQLVLRGLLSQAIGCIERSDLLPYLSDTCAVSFDAVSDSIELLKQYPKDSSSTFREWKNLVLKLSQAFGSSATDISGELRDYIEDFLLVIGGNQRKILQYSRTWYESFCGFLLYYIPSLELSAEYLQSLEANVVDITNDWEQPCVDIISGKIHSILPVESLDSCTAAFTAICEAKGLIENIFELEDLFSYRNGASYLNSFAFELCSLGDKELWPVAIGLIALSATGTRSAKKVIAELLPHYPFVTNDDIEWLSICVEWRLPEIAKEIYTTLGNQL 3f3r-a3-m1-cB_3f3r-a3-m1-cA Crystal structure of yeast Thioredoxin1-glutathione mixed disulfide complex P22217 P22217 1.8 X-RAY DIFFRACTION 64 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 104 106 HMVTQFKTASEFDSAIAQDKLVVVDFYATWCGPSKMIAPMIEKFSEQYPQADFYKLDVDELGDVAQKNEVSAMPTLLLFKNGKEVAKVVGANPAAIKQAIAANA HHHMVTQFKTASEFDSAIAQDKLVVVDFYATWCGPSKMIAPMIEKFSEQYPQADFYKLDVDELGDVAQKNEVSAMPTLLLFKNGKEVAKVVGANPAAIKQAIAANA 3f3s-a3-m1-cB_3f3s-a3-m1-cA The Crystal Structure of Human Lambda-Crystallin, CRYL1 Q9Y2S2 Q9Y2S2 2 X-RAY DIFFRACTION 362 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 311 312 AGCVVIVGSGVIGRSWAMLFASGGFQVKLYDIEQQQIRNALENIRKEMKLLEQAGSLKGSLSVEEQLSLISGCPNIQEAVEGAMHIQECVPEDLELKKKIFAQLDSIIDDRVILSSSTSCLMPSKLFAGLVHVKQCIVAHPVNPPYYIPLVELVPHPETAPTTVDRTHALMKKIGQCPMRVQKEVAGFVLNRLQYAIISEAWRLVEEGIVSPSDLDLVMSEGLGMRYAFIGPLETMHLNAEGMLSYCDRYSEGIKHVLQTFGPIPEFSRATAEKVNQDMCMKVPDDPEHLAARRQWRDECLMRLAKLKSQV MAGCVVIVGSGVIGRSWAMLFASGGFQVKLYDIEQQQIRNALENIRKEMKLLEQAGSLKGSLSVEEQLSLISGCPNIQEAVEGAMHIQECVPEDLELKKKIFAQLDSIIDDRVILSSSTSCLMPSKLFAGLVHVKQCIVAHPVNPPYYIPLVELVPHPETAPTTVDRTHALMKKIGQCPMRVQKEVAGFVLNRLQYAIISEAWRLVEEGIVSPSDLDLVMSEGLGMRYAFIGPLETMHLNAEGMLSYCDRYSEGIKHVLQTFGPIPEFSRATAEKVNQDMCMKVPDDPEHLAARRQWRDECLMRLAKLKSQV 3f3x-a1-m1-cA_3f3x-a1-m2-cA Crystal structure of the transcriptional regulator BldR from Sulfolobus Solfataricus Q97YG9 Q97YG9 1.9 X-RAY DIFFRACTION 154 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 139 139 MQKIDEKLQLMNTIAKIYRGSIKEFNNRLGKLMNLSYLDFSILKATSEEPRSMVYLANRYFVTQSAITAAVDKLEAKGLVRRIRDSKDRRIVIVEITPKGRQVLLEANEVLRNLVNEMLSDVENVEELLEGLNKILSRI MQKIDEKLQLMNTIAKIYRGSIKEFNNRLGKLMNLSYLDFSILKATSEEPRSMVYLANRYFVTQSAITAAVDKLEAKGLVRRIRDSKDRRIVIVEITPKGRQVLLEANEVLRNLVNEMLSDVENVEELLEGLNKILSRI 3f3y-a1-m1-cA_3f3y-a1-m1-cB Crystal structure of human cytosolic sulfotransferase SULT2A1 in complex with PAP and lithocholic acid Q06520 Q06520 2.2 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 DFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYSLLSVDYVVDKAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRELFPWE DFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYSLLSVDYVVDKAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRELFPWE 3f3y-a2-m1-cC_3f3y-a2-m1-cD Crystal structure of human cytosolic sulfotransferase SULT2A1 in complex with PAP and lithocholic acid Q06520 Q06520 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 DFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYSLLSVDYVVDKAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRELFPWE DFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYSLLSVDYVVDKAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRELFPWE 3f3z-a1-m1-cA_3f3z-a1-m2-cA Crystal structure of Cryptosporidium parvum calcium dependent protein kinase cgd7_1840 in presence of indirubin E804 Q5CYL9 Q5CYL9 1.84 X-RAY DIFFRACTION 45 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 271 271 DINQYYTLENTIGRGSWGEVKIAVQKGTRIRRAAKKIPKYFVEDVDRFKQEIEIMKSLDHPNIIRLYETFEDNTDIYLVMELCTGGELFERVVHKRVFRESDAARIMKDVLSAVAYCHKLNVAHRDLKPENFLFLTDSPDSPLKLIDFGLAARFKPGKMMRTKVGTPYYVSPQVLEGLYGPECDEWSAGVMMYVLLCGYPPFSAPTDEVMLKIREGTFTFPEKDWLNVSPQAESLIRRLLTKSPKQRITSLQALEHEWFEKQLSSSPRNLL DINQYYTLENTIGRGSWGEVKIAVQKGTRIRRAAKKIPKYFVEDVDRFKQEIEIMKSLDHPNIIRLYETFEDNTDIYLVMELCTGGELFERVVHKRVFRESDAARIMKDVLSAVAYCHKLNVAHRDLKPENFLFLTDSPDSPLKLIDFGLAARFKPGKMMRTKVGTPYYVSPQVLEGLYGPECDEWSAGVMMYVLLCGYPPFSAPTDEVMLKIREGTFTFPEKDWLNVSPQAESLIRRLLTKSPKQRITSLQALEHEWFEKQLSSSPRNLL 3f40-a1-m1-cA_3f40-a1-m2-cA Crystal structure of NTF2-like protein of unknown function (YP_677363.1) from CYTOPHAGA HUTCHINSONII ATCC 33406 at 1.27 A resolution 1.27 X-RAY DIFFRACTION 57 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 105 105 KTQITTRDLVLEFIHALNTENFPAAKKRLNENFTFNGPGHREGSERYNDEKKFKYVVHKFEEGNDVCLIYDINNGKTIAASGLYHLEKGEITSLHVYFDPRPLFE KTQITTRDLVLEFIHALNTENFPAAKKRLNENFTFNGPGHREGSERYNDEKKFKYVVHKFEEGNDVCLIYDINNGKTIAASGLYHLEKGEITSLHVYFDPRPLFE 3f42-a1-m1-cA_3f42-a1-m2-cA Crystal structure of uncharacterized protein HP0035 from Helicobacter pylori O24876 O24876 1.78 X-RAY DIFFRACTION 46 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 87 87 HDFSQLGGLLDGKKEFSQLEEKNKDTIHTSKSGGGVSVSFNGLGELVDLQIDDSLLEDKEAQIYLSALNDGYKAVEENRKNLAFNLG HDFSQLGGLLDGKKEFSQLEEKNKDTIHTSKSGGGVSVSFNGLGELVDLQIDDSLLEDKEAQIYLSALNDGYKAVEENRKNLAFNLG 3f42-a1-m2-cB_3f42-a1-m1-cA Crystal structure of uncharacterized protein HP0035 from Helicobacter pylori O24876 O24876 1.78 X-RAY DIFFRACTION 37 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 79 87 3f42-a1-m1-cB_3f42-a1-m2-cA GLLDGKKEFSQLEEKNKDTIHTSKSGGGVSVSFNGLGELVDLQIDDSLLEDKEAQIYLSALNDGYKAVEENRKNLAFNL HDFSQLGGLLDGKKEFSQLEEKNKDTIHTSKSGGGVSVSFNGLGELVDLQIDDSLLEDKEAQIYLSALNDGYKAVEENRKNLAFNLG 3f42-a1-m2-cB_3f42-a1-m2-cA Crystal structure of uncharacterized protein HP0035 from Helicobacter pylori O24876 O24876 1.78 X-RAY DIFFRACTION 34 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 79 87 3f42-a1-m1-cB_3f42-a1-m1-cA GLLDGKKEFSQLEEKNKDTIHTSKSGGGVSVSFNGLGELVDLQIDDSLLEDKEAQIYLSALNDGYKAVEENRKNLAFNL HDFSQLGGLLDGKKEFSQLEEKNKDTIHTSKSGGGVSVSFNGLGELVDLQIDDSLLEDKEAQIYLSALNDGYKAVEENRKNLAFNLG 3f43-a1-m1-cA_3f43-a1-m2-cA Crystal structure of a putative anti-sigma factor antagonist (tm1081) from thermotoga maritima at 1.59 A resolution Q9X0H0 Q9X0H0 1.59 X-RAY DIFFRACTION 49 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 114 114 HHHHHFPYKIVDDVVILPNKELNIENAHLFKKWVFDEFLNKGYNKIFLVLSDVESIDSFSLGVIVNILKSISSSGGFFALVSPNEKVERVLSLTNLDRIVKIYDTISEAEEVRR HHHHHFPYKIVDDVVILPNKELNIENAHLFKKWVFDEFLNKGYNKIFLVLSDVESIDSFSLGVIVNILKSISSSGGFFALVSPNEKVERVLSLTNLDRIVKIYDTISEAEEVRR 3f47-a1-m1-cA_3f47-a1-m2-cA The Crystal Structure of [Fe]-Hydrogenase (Hmd) Holoenzyme from Methanocaldococcus jannaschii Q58194 Q58194 1.75 X-RAY DIFFRACTION 288 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 344 344 2b0j-a1-m1-cA_2b0j-a1-m2-cA 3daf-a1-m1-cA_3daf-a1-m2-cA 3dag-a1-m1-cA_3dag-a1-m2-cA 3f46-a1-m1-cA_3f46-a1-m2-cA 3h65-a1-m1-cA_3h65-a1-m2-cA MKIAILGAGCYRTHAAAGITNFMRACEVAKEVGKPEIALTHSSITYGAELLHLVPDVKEVIVSDPCFAEEPGLVVIDEFDPKEVMEAHLSGNPESIMPKIREVVKAKAKELPKPPKACIHLVHPEDVGLKVTSDDREAVEGADIVITWLPKGNKQPDIIKKFADAIPEGAIVTHACTIPTTKFAKIFKDLGREDLNITSYHPGCVPEMKGQVYIAEGYASEEAVNKLYEIGKIARGKAFKMPANLIGPVCDMCSAVTATVYAGLLAYRDAVTKILGAPADFAQMMADEALTQIHNLMKEKGIANMEEALDPAALLGTADSMCFGPLAEILPTALKVLEKHKVVE MKIAILGAGCYRTHAAAGITNFMRACEVAKEVGKPEIALTHSSITYGAELLHLVPDVKEVIVSDPCFAEEPGLVVIDEFDPKEVMEAHLSGNPESIMPKIREVVKAKAKELPKPPKACIHLVHPEDVGLKVTSDDREAVEGADIVITWLPKGNKQPDIIKKFADAIPEGAIVTHACTIPTTKFAKIFKDLGREDLNITSYHPGCVPEMKGQVYIAEGYASEEAVNKLYEIGKIARGKAFKMPANLIGPVCDMCSAVTATVYAGLLAYRDAVTKILGAPADFAQMMADEALTQIHNLMKEKGIANMEEALDPAALLGTADSMCFGPLAEILPTALKVLEKHKVVE 3f4a-a1-m1-cA_3f4a-a1-m1-cB Structure of Ygr203w, a yeast protein tyrosine phosphatase of the Rhodanese family P42937 P42937 1.8 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 140 140 SITNVKYLDPTELHRWQEGHTTTLREPFQVVDVRGSDYGGHIKDGWHYAYSRLKQDPEYLRELKHRLLEKQADGRGALNVIFHCLSQQRGPSAALLLRSLDTAELSRCRLWVLRGGFSRWQSVYGDDESVTAGYLPDLWR SITNVKYLDPTELHRWQEGHTTTLREPFQVVDVRGSDYGGHIKDGWHYAYSRLKQDPEYLRELKHRLLEKQADGRGALNVIFHCLSQQRGPSAALLLRSLDTAELSRCRLWVLRGGFSRWQSVYGDDESVTAGYLPDLWR 3f4b-a1-m1-cA_3f4b-a1-m1-cD Crystal structure of Plasmodium berghei Enoyl-acyl-carrier-protein reductase with TRICLOSAN Q6TEI5 Q6TEI5 2.49 X-RAY DIFFRACTION 112 0.996 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 284 289 3f4b-a1-m1-cC_3f4b-a1-m1-cB NEICFIAGVGDSNGYGWGIAKELSKRNVKVIFGVWPPVYNIFIKNLESGKFDKDMIIKRMQILDVLPLDAGFDNYDDIDEDTKNNKRYNNLKNYSIEEVANLIYNKYGKISMLVHSLANGREVQKSLLDTSRDGYLDAISKSSYSLISLCKHFCKFMNSGGSVVSLTYQASQKVVPGYGGGMSSAKAALESDTRVLAYYLGRKYNIRINTISAGPLKSRAATAINSFIDYAIDYSEKYAPLKKKLLSTDVGSVASFLLSKESSAVTGQTIYVDNGLNIMFGPDD NEICFIAGVGDSNGYGWGIAKELSKRNVKVIFGVWPPVYNIFIKNLESGKFDKDMIINNDNSKRMQILDVLPLDAGFDNYDDIDEDTKNNKRYNNLKNYSIEEVANLIYNKYGKISMLVHSLANGREVQKSLLDTSRDGYLDAISKSSYSLISLCKHFCKFMNSGGSVVSLTYQASQKVVPGYGGGMSSAKAALESDTRVLAYYLGRKYNIRINTISAGPLKSRAATAIYSFIDYAIDYSEKYAPLKKKLLSTDVGSVASFLLSKESSAVTGQTIYVDNGLNIMFGPDD 3f4b-a1-m1-cB_3f4b-a1-m1-cD Crystal structure of Plasmodium berghei Enoyl-acyl-carrier-protein reductase with TRICLOSAN Q6TEI5 Q6TEI5 2.49 X-RAY DIFFRACTION 107 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 289 289 3f4b-a1-m1-cC_3f4b-a1-m1-cA NEICFIAGVGDSNGYGWGIAKELSKRNVKVIFGVWPPVYNIFIKNLESGKFDKDMIINNDNSKRMQILDVLPLDAGFDNYDDIDEDTKNNKRYNNLKNYSIEEVANLIYNKYGKISMLVHSLANGREVQKSLLDTSRDGYLDAISKSSYSLISLCKHFCKFMNSGGSVVSLTYQASQKVVPGYGGGMSSAKAALESDTRVLAYYLGRKYNIRINTISAGPLKSRAATAIYSFIDYAIDYSEKYAPLKKKLLSTDVGSVASFLLSKESSAVTGQTIYVDNGLNIMFGPDD NEICFIAGVGDSNGYGWGIAKELSKRNVKVIFGVWPPVYNIFIKNLESGKFDKDMIINNDNSKRMQILDVLPLDAGFDNYDDIDEDTKNNKRYNNLKNYSIEEVANLIYNKYGKISMLVHSLANGREVQKSLLDTSRDGYLDAISKSSYSLISLCKHFCKFMNSGGSVVSLTYQASQKVVPGYGGGMSSAKAALESDTRVLAYYLGRKYNIRINTISAGPLKSRAATAIYSFIDYAIDYSEKYAPLKKKLLSTDVGSVASFLLSKESSAVTGQTIYVDNGLNIMFGPDD 3f4b-a1-m1-cC_3f4b-a1-m1-cD Crystal structure of Plasmodium berghei Enoyl-acyl-carrier-protein reductase with TRICLOSAN Q6TEI5 Q6TEI5 2.49 X-RAY DIFFRACTION 29 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 282 289 3f4b-a1-m1-cA_3f4b-a1-m1-cB NEICFIAGVGDSNGYGWGIAKELSKRNVKVIFGVWPPVYNIFIKNLESGKFDKDMIIRMQILDVLPLDAGFDNYDDIDEDTKNNKRYNNLKNYSIEEVANLIYNKYGKISMLVHSLANGREVQKSLLDTSRDGYLDAISKSSYSLISLCKHFCKFMNSGGSVVSLTYQASQKVVPGYGGGMSSAKAALESDTRVLAYYLGRKYNIRINTISAGPLKSRAATAISFIDYAIDYSEKYAPLKKKLLSTDVGSVASFLLSKESSAVTGQTIYVDNGLNIMFGPDD NEICFIAGVGDSNGYGWGIAKELSKRNVKVIFGVWPPVYNIFIKNLESGKFDKDMIINNDNSKRMQILDVLPLDAGFDNYDDIDEDTKNNKRYNNLKNYSIEEVANLIYNKYGKISMLVHSLANGREVQKSLLDTSRDGYLDAISKSSYSLISLCKHFCKFMNSGGSVVSLTYQASQKVVPGYGGGMSSAKAALESDTRVLAYYLGRKYNIRINTISAGPLKSRAATAIYSFIDYAIDYSEKYAPLKKKLLSTDVGSVASFLLSKESSAVTGQTIYVDNGLNIMFGPDD 3f4k-a1-m1-cA_3f4k-a1-m2-cA Crystal structure of a probable methyltransferase from Bacteroides thetaiotaomicron. Northeast Structural Genomics target BtR309. Q8A3I2 Q8A3I2 2.3 X-RAY DIFFRACTION 60 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 254 254 NNTSIHDFDFSFICNYFKLLKRQGPGSPEATRKAVSFINELTDDAKIADIGCGTGGQTLFLADYVKGQITGIDLFPDFIEIFNENAVKANCADRVKGITGSMDNLPFQNEELDLIWSEGAIYNIGFERGMNEWSKYLKKGGFIAVSEASWFTSERPAEIEDFWMDAYPEISVIPTCIDKMERAGYTPTAHFILPENCWTEHYFAPQDEVRETFMKEHAGNKTAMDFMKGQQYERSLYSKYKDYYGYVFYIGQKR NNTSIHDFDFSFICNYFKLLKRQGPGSPEATRKAVSFINELTDDAKIADIGCGTGGQTLFLADYVKGQITGIDLFPDFIEIFNENAVKANCADRVKGITGSMDNLPFQNEELDLIWSEGAIYNIGFERGMNEWSKYLKKGGFIAVSEASWFTSERPAEIEDFWMDAYPEISVIPTCIDKMERAGYTPTAHFILPENCWTEHYFAPQDEVRETFMKEHAGNKTAMDFMKGQQYERSLYSKYKDYYGYVFYIGQKR 3f4l-a3-m1-cD_3f4l-a3-m1-cE Crystal structure of a probable oxidoreductase yhhX in Triclinic form. Northeast Structural Genomics target ER647 P46853 P46853 2 X-RAY DIFFRACTION 95 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 340 340 3f4l-a1-m1-cA_3f4l-a1-m1-cF 3f4l-a2-m1-cB_3f4l-a2-m1-cC VINCAFIGFGKSTTRYHLPYVLNRKDSWHVAHIFRRHAKPEEQAPIYSHIHFTSDLDEVLNDPDVKLVVVCTHADSHFEYAKRALEAGKNVLVEKPFTPTLAQAKELFALAKSKGLTVTPYQNRRFDSCFLTAKKAIESGKLGEIVEVESHFDYYRPVAETKPGLPQDGAFYGLGVHTDQIISLFGRPDHVAYDIRSLRNKANPDDTFEAQLFYGDLKAIVKTSHLVKIDYPKFIVHGKKGSFIKYGIDQQETSLKANIPGEPGFAADDSVGVLEYVNDEGVTVREEKPEGDYGRVYDALYQTITHGAPNYVKESEVLTNLEILERGFEQASPSTVTLAK VINCAFIGFGKSTTRYHLPYVLNRKDSWHVAHIFRRHAKPEEQAPIYSHIHFTSDLDEVLNDPDVKLVVVCTHADSHFEYAKRALEAGKNVLVEKPFTPTLAQAKELFALAKSKGLTVTPYQNRRFDSCFLTAKKAIESGKLGEIVEVESHFDYYRPVAETKPGLPQDGAFYGLGVHTDQIISLFGRPDHVAYDIRSLRNKANPDDTFEAQLFYGDLKAIVKTSHLVKIDYPKFIVHGKKGSFIKYGIDQQETSLKANIPGEPGFAADDSVGVLEYVNDEGVTVREEKPEGDYGRVYDALYQTITHGAPNYVKESEVLTNLEILERGFEQASPSTVTLAK 3f4n-a5-m1-cB_3f4n-a5-m1-cH Crystal Structure of Pyridoxal Phosphate Biosynthetic Protein PdxJ from Yersinia pestis Q8ZCP4 Q8ZCP4 2.402 X-RAY DIFFRACTION 28 0.996 632 (Yersinia pestis) 632 (Yersinia pestis) 238 241 3f4n-a5-m1-cA_3f4n-a5-m1-cD 3f4n-a5-m1-cE_3f4n-a5-m1-cC 3f4n-a5-m1-cF_3f4n-a5-m1-cG ADLLLGVNIDHIATLRNARGTIYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTIQTRMNLEMAVTDEMVDIACDIKPHFCCLVPEKRQEGGLDVAGQVDKMTLAVGRLADVGILVSLFIDADFRQIDAAVAAGAPYIEIHTGAYADASTVLERQAELMRIAKAATYAAGKGLKVNAGHGLTYHNVQPIAALPEMHELNIGHAIIGQAVMTGLAAAVTDMKVLMREARR DLLLGVNIDHIATLRNARGTIYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTIQTRMNLEMAVTDEMVDIACDIKPHFCCLVPEKRQEVTTEGGLDVAGQVDKMTLAVGRLADVGILVSLFIDADFRQIDAAVAAGAPYIEIHTGAYADASTVLERQAELMRIAKAATYAAGKGLKVNAGHGLTYHNVQPIAALPEMHELNIGHAIIGQAVMTGLAAAVTDMKVLMREARR 3f4n-a5-m1-cE_3f4n-a5-m1-cF Crystal Structure of Pyridoxal Phosphate Biosynthetic Protein PdxJ from Yersinia pestis Q8ZCP4 Q8ZCP4 2.402 X-RAY DIFFRACTION 75 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 241 242 3f4n-a1-m1-cB_3f4n-a1-m1-cA 3f4n-a2-m1-cD_3f4n-a2-m1-cC 3f4n-a3-m1-cE_3f4n-a3-m1-cF 3f4n-a4-m1-cH_3f4n-a4-m1-cG 3f4n-a5-m1-cB_3f4n-a5-m1-cA 3f4n-a5-m1-cD_3f4n-a5-m1-cC 3f4n-a5-m1-cH_3f4n-a5-m1-cG DLLLGVNIDHIATLRNARGTIYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTIQTRMNLEMAVTDEMVDIACDIKPHFCCLVPEKRQEVTTEGGLDVAGQVDKMTLAVGRLADVGILVSLFIDADFRQIDAAVAAGAPYIEIHTGAYADASTVLERQAELMRIAKAATYAAGKGLKVNAGHGLTYHNVQPIAALPEMHELNIGHAIIGQAVMTGLAAAVTDMKVLMREARR ADLLLGVNIDHIATLRNARGTIYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTIQTRMNLEMAVTDEMVDIACDIKPHFCCLVPEKRQEVTTEGGLDVAGQVDKMTLAVGRLADVGILVSLFIDADFRQIDAAVAAGAPYIEIHTGAYADASTVLERQAELMRIAKAATYAAGKGLKVNAGHGLTYHNVQPIAALPEMHELNIGHAIIGQAVMTGLAAAVTDMKVLMREARR 3f4n-a5-m1-cH_3f4n-a5-m1-cF Crystal Structure of Pyridoxal Phosphate Biosynthetic Protein PdxJ from Yersinia pestis Q8ZCP4 Q8ZCP4 2.402 X-RAY DIFFRACTION 15 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 241 242 3f4n-a5-m1-cA_3f4n-a5-m1-cC 3f4n-a5-m1-cB_3f4n-a5-m1-cD 3f4n-a5-m1-cB_3f4n-a5-m1-cG 3f4n-a5-m1-cE_3f4n-a5-m1-cD 3f4n-a5-m1-cE_3f4n-a5-m1-cG 3f4n-a5-m1-cF_3f4n-a5-m1-cC 3f4n-a5-m1-cH_3f4n-a5-m1-cA DLLLGVNIDHIATLRNARGTIYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTIQTRMNLEMAVTDEMVDIACDIKPHFCCLVPEKRQEVTTEGGLDVAGQVDKMTLAVGRLADVGILVSLFIDADFRQIDAAVAAGAPYIEIHTGAYADASTVLERQAELMRIAKAATYAAGKGLKVNAGHGLTYHNVQPIAALPEMHELNIGHAIIGQAVMTGLAAAVTDMKVLMREARR ADLLLGVNIDHIATLRNARGTIYPDPVQAAFIAEQAGADGITVHLREDRRHITDRDVRILRQTIQTRMNLEMAVTDEMVDIACDIKPHFCCLVPEKRQEVTTEGGLDVAGQVDKMTLAVGRLADVGILVSLFIDADFRQIDAAVAAGAPYIEIHTGAYADASTVLERQAELMRIAKAATYAAGKGLKVNAGHGLTYHNVQPIAALPEMHELNIGHAIIGQAVMTGLAAAVTDMKVLMREARR 3f4w-a1-m1-cA_3f4w-a1-m1-cB The 1.65A Crystal Structure of 3-hexulose-6-phosphate synthase from Salmonella typhimurium Q8ZMP9 Q8ZMP9 1.65 X-RAY DIFFRACTION 110 1.0 211 211 MKLQLALDELTLPEAMVFMDKVVDDVDIIEVGTPFLIREGVNAIKAIKEKYPHKEVLADAKIMDGGHFESQLLFDAGADYVTVLGVTDVLTIQSCIRAAKEAGKQVVVDMICVDDLPARVRLLEEAGADMLAVHTGTDQQAAGRKPIDDLITMLKVRRKARIAVAGGISSQTVKDYALLGPDVVIVGSAITHAADPAGEARKISQVLLQHH MKLQLALDELTLPEAMVFMDKVVDDVDIIEVGTPFLIREGVNAIKAIKEKYPHKEVLADAKIMDGGHFESQLLFDAGADYVTVLGVTDVLTIQSCIRAAKEAGKQVVVDMICVDDLPARVRLLEEAGADMLAVHTGTDQQAAGRKPIDDLITMLKVRRKARIAVAGGISSQTVKDYALLGPDVVIVGSAITHAADPAGEARKISQVLLQHH 3f4z-a1-m1-cB_3f4z-a1-m1-cA Trimeric helix bundle formed by an alpha/beta-peptide derivative of the HIV gp41 CHR domain 2.1 X-RAY DIFFRACTION 24 1.0 24 27 WDAIAYARIELIAAQQQKNEALEL TWEWDAIAYARIELIAAQQQKNEALEL 3f4z-a1-m1-cB_3f4z-a1-m1-cC Trimeric helix bundle formed by an alpha/beta-peptide derivative of the HIV gp41 CHR domain 2.1 X-RAY DIFFRACTION 43 1.0 24 27 3f4z-a1-m1-cA_3f4z-a1-m1-cC WDAIAYARIELIAAQQQKNEALEL TWEWDAIAYARIELIAAQQQKNEALEL 3f51-a3-m1-cD_3f51-a3-m1-cF Crystal Structure of the clp gene regulator ClgR from Corynebacterium glutamicum Q8NP59 Q8NP59 2.05 X-RAY DIFFRACTION 71 0.989 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 93 93 3f51-a2-m1-cC_3f51-a2-m1-cB APEPLLREALGAALRSFRADKGVTLRELAEASRVSPGYLSELERGRKEVSSELLASVCHALGASVADVLIEAAGSMALQAAQEDLARVLEWSH PEPLLREALGAALRSFRADKGVTLRELAEASRVSPGYLSELERGRKEVSSELLASVCHALGASVADVLIEAAGSMALQAAQEDLARVLEWSHP 3f5d-a1-m1-cA_3f5d-a1-m2-cA Crystal Structure of a protein of unknown function from Bacillus subtilis P96658 P96658 2.06 X-RAY DIFFRACTION 109 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 188 188 LKKALFLILDQYADWEGVYLASALNQREDWSVHTVSLDPIVSSIGGFKTSVDYIIGLEPANFNLLVIGGDSWSNDNKKLLHFVKTAFQKNIPIAAICGAVDFLAKNGLLNNHSHTGNFVYLWKDYKQYKPISSFVEKQAVRDKNLVTANGTAPIEFTNLILEIDFDTPENIEKYNRYGFYHFCDKYGN LKKALFLILDQYADWEGVYLASALNQREDWSVHTVSLDPIVSSIGGFKTSVDYIIGLEPANFNLLVIGGDSWSNDNKKLLHFVKTAFQKNIPIAAICGAVDFLAKNGLLNNHSHTGNFVYLWKDYKQYKPISSFVEKQAVRDKNLVTANGTAPIEFTNLILEIDFDTPENIEKYNRYGFYHFCDKYGN 3f5f-a1-m2-cA_3f5f-a1-m3-cA Crystal structure of heparan sulfate 2-O-sulfotransferase from gallus gallus as a maltose binding protein fusion. Q76KB1 Q76KB1 2.65 X-RAY DIFFRACTION 130 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 656 656 3f5f-a1-m1-cA_3f5f-a1-m2-cA 3f5f-a1-m1-cA_3f5f-a1-m3-cA KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTAATIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPK KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTAATIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPK 3f5h-a1-m1-cA_3f5h-a1-m1-cB Crystal structure of fused docking domains from PikAIII and PikAIV of the pikromycin polyketide synthase Q9ZGI2 Q9ZGI2 1.75 X-RAY DIFFRACTION 49 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 54 57 SIDDLDAEALIRMALGPRNTMTSSNEQLVDALRASLKENEELRKESRRRADRRQ SIDDLDAEALIRMALGPRNTMTSSNEQLVDALRASLKENEELRKESRRRADRRQEPM 3f5l-a3-m1-cA_3f5l-a3-m1-cB Semi-active E176Q mutant of rice BGlu1, a plant exoglucanase/beta-glucosidase Q75I93 Q75I93 1.37 X-RAY DIFFRACTION 31 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 472 472 2rgl-a3-m1-cA_2rgl-a3-m1-cB 2rgm-a3-m1-cA_2rgm-a3-m1-cB 3f4v-a3-m1-cA_3f4v-a3-m1-cB 3f5j-a3-m1-cA_3f5j-a3-m1-cB 3f5k-a3-m1-cA_3f5k-a3-m1-cB NWLGGLSRAAFPKRFVFGTVTSAYQVEGMAASGGRGPSIWDAFAHTPGNVAGNQNGDVATDQYHRYKEDVNLMKSLNFDAYRFSISWSRIFPDGEGRVNQEGVAYYNNLINYLLQKGITPYVNLYHYDLPLALEKKYGGWLNAKMADLFTEYADFCFKTFGNRVKHWFTFNQPRIVALLGYDQGTNPPKRCTKCAAGGNSATEPYIVAHNFLLSHAAAVARYRTKYQAAQQGKVGIVLDFNWYEALSNSTEDQAAAQRARDFHIGWYLDPLINGHYPQIMQDLVKDRLPKFTPEQARLVKGSADYIGINQYTASYMKGQQLMQQTPTSYSADWQVTYVFAKNGKPIGPQANSNWLYIVPWGMYGCVNYIKQKYGNPTVVITENGMDQPANLSRDQYLRDTTRVHFYRSYLTQLKKAIDEGANVAGYFAWSLLDNFEWLSGYTSKFGIVYVDFNTLERHPKASAYWFRDMLKH NWLGGLSRAAFPKRFVFGTVTSAYQVEGMAASGGRGPSIWDAFAHTPGNVAGNQNGDVATDQYHRYKEDVNLMKSLNFDAYRFSISWSRIFPDGEGRVNQEGVAYYNNLINYLLQKGITPYVNLYHYDLPLALEKKYGGWLNAKMADLFTEYADFCFKTFGNRVKHWFTFNQPRIVALLGYDQGTNPPKRCTKCAAGGNSATEPYIVAHNFLLSHAAAVARYRTKYQAAQQGKVGIVLDFNWYEALSNSTEDQAAAQRARDFHIGWYLDPLINGHYPQIMQDLVKDRLPKFTPEQARLVKGSADYIGINQYTASYMKGQQLMQQTPTSYSADWQVTYVFAKNGKPIGPQANSNWLYIVPWGMYGCVNYIKQKYGNPTVVITENGMDQPANLSRDQYLRDTTRVHFYRSYLTQLKKAIDEGANVAGYFAWSLLDNFEWLSGYTSKFGIVYVDFNTLERHPKASAYWFRDMLKH 3f5o-a1-m1-cC_3f5o-a1-m1-cD Crystal Structure of hTHEM2(undecan-2-one-CoA) complex Q9NPJ3 Q9NPJ3 1.7 X-RAY DIFFRACTION 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 137 2f0x-a1-m1-cA_2f0x-a1-m1-cB 2f0x-a1-m1-cD_2f0x-a1-m1-cC 2f0x-a2-m1-cE_2f0x-a2-m1-cF 2f0x-a2-m1-cH_2f0x-a2-m1-cG 2h4u-a1-m1-cA_2h4u-a1-m1-cB 2h4u-a1-m1-cC_2h4u-a1-m1-cD 3f5o-a1-m1-cB_3f5o-a1-m1-cA 3f5o-a2-m1-cE_3f5o-a2-m1-cF 3f5o-a2-m1-cG_3f5o-a2-m1-cH SMTQSLREVIKAMTKARNFERVLGKITLVSAAPGKVICEMKVEEEHTNAIGTLHGGLTATLVDNISTMALLCTERGAPGVSVDMNITYMSPAKLGEDIVITAHVLKQGKTLAFTSVDLTNKATGKLIAQGRHTKHLG SMTQSLREVIKAMTKARNFERVLGKITLVSAAPGKVICEMKVEEEHTNAIGTLHGGLTATLVDNISTMALLCTERGAPGVSVDMNITYMSPAKLGEDIVITAHVLKQGKTLAFTSVDLTNKATGKLIAQGRHTKHLG 3f5o-a2-m1-cF_3f5o-a2-m1-cH Crystal Structure of hTHEM2(undecan-2-one-CoA) complex Q9NPJ3 Q9NPJ3 1.7 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 2f0x-a1-m1-cA_2f0x-a1-m1-cC 2f0x-a1-m1-cD_2f0x-a1-m1-cB 2f0x-a2-m1-cE_2f0x-a2-m1-cG 2f0x-a2-m1-cH_2f0x-a2-m1-cF 2h4u-a1-m1-cA_2h4u-a1-m1-cC 2h4u-a1-m1-cB_2h4u-a1-m1-cD 3f5o-a1-m1-cB_3f5o-a1-m1-cD 3f5o-a1-m1-cC_3f5o-a1-m1-cA 3f5o-a2-m1-cG_3f5o-a2-m1-cE TSMTQSLREVIKAMTKARNFERVLGKITLVSAAPGKVICEMKVEEEHTNAIGTLHGGLTATLVDNISTMALLCTERGAPGVSVDMNITYMSPAKLGEDIVITAHVLKQGKTLAFTSVDLTNKATGKLIAQGRHTKHLG TSMTQSLREVIKAMTKARNFERVLGKITLVSAAPGKVICEMKVEEEHTNAIGTLHGGLTATLVDNISTMALLCTERGAPGVSVDMNITYMSPAKLGEDIVITAHVLKQGKTLAFTSVDLTNKATGKLIAQGRHTKHLG 3f5o-a2-m1-cG_3f5o-a2-m1-cF Crystal Structure of hTHEM2(undecan-2-one-CoA) complex Q9NPJ3 Q9NPJ3 1.7 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 138 2f0x-a1-m1-cB_2f0x-a1-m1-cC 2f0x-a1-m1-cD_2f0x-a1-m1-cA 2f0x-a2-m1-cE_2f0x-a2-m1-cH 2f0x-a2-m1-cF_2f0x-a2-m1-cG 2h4u-a1-m1-cA_2h4u-a1-m1-cD 2h4u-a1-m1-cB_2h4u-a1-m1-cC 3f5o-a1-m1-cB_3f5o-a1-m1-cC 3f5o-a1-m1-cD_3f5o-a1-m1-cA 3f5o-a2-m1-cE_3f5o-a2-m1-cH MTQSLREVIKAMTKARNFERVLGKITLVSAAPGKVICEMKVEEEHTNAIGTLHGGLTATLVDNISTMALLCTERGAPGVSVDMNITYMSPAKLGEDIVITAHVLKQGKTLAFTSVDLTNKATGKLIAQGRHTKHLG TSMTQSLREVIKAMTKARNFERVLGKITLVSAAPGKVICEMKVEEEHTNAIGTLHGGLTATLVDNISTMALLCTERGAPGVSVDMNITYMSPAKLGEDIVITAHVLKQGKTLAFTSVDLTNKATGKLIAQGRHTKHLG 3f5p-a17-m2-cL_3f5p-a17-m1-cH Complex Structure of Insulin-like Growth Factor Receptor and 3-Cyanoquinoline Inhibitor P08069 P08069 2.9 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 299 2zm3-a5-m1-cB_2zm3-a5-m6-cB 2zm3-a5-m2-cA_2zm3-a5-m3-cA 2zm3-a5-m4-cD_2zm3-a5-m1-cC 2zm3-a5-m5-cD_2zm3-a5-m6-cC 3f5p-a17-m2-cK_3f5p-a17-m1-cD 3f5p-a17-m2-cM_3f5p-a17-m1-cC 3f5p-a17-m2-cR_3f5p-a17-m1-cG SFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN SFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPEMLAPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEENK 3f5p-a17-m2-cL_3f5p-a17-m2-cR Complex Structure of Insulin-like Growth Factor Receptor and 3-Cyanoquinoline Inhibitor P08069 P08069 2.9 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 294 2zm3-a5-m1-cB_2zm3-a5-m1-cC 2zm3-a5-m1-cC_2zm3-a5-m3-cA 2zm3-a5-m4-cD_2zm3-a5-m2-cA 2zm3-a5-m4-cD_2zm3-a5-m6-cB 2zm3-a5-m5-cD_2zm3-a5-m1-cB 2zm3-a5-m5-cD_2zm3-a5-m3-cA 2zm3-a5-m6-cB_2zm3-a5-m6-cC 2zm3-a5-m6-cC_2zm3-a5-m2-cA 3f5p-a17-m1-cD_3f5p-a17-m1-cC 3f5p-a17-m1-cD_3f5p-a17-m1-cG 3f5p-a17-m1-cG_3f5p-a17-m1-cH 3f5p-a17-m1-cH_3f5p-a17-m1-cC 3f5p-a17-m2-cK_3f5p-a17-m2-cM 3f5p-a17-m2-cK_3f5p-a17-m2-cR 3f5p-a17-m2-cL_3f5p-a17-m2-cM SFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN SFSAADVYVPDEWEVAREKITMSRELGQGSFGMVYEGVAKGVVKDEPETRVAIKTVNEAASMRERIEFLNEASVMKEFNCHHVVRLLGVVSQGQPTLVIMELMTRGDLKSYLRSLRPPPSLSKMIQMAGEIADGMAYLNANKFVHRDLAARNCMVAEDFTVKIGDFGMTRDIETDRKGGKGLLPVRWMSPESLKDGVFTTYSDVWSFGVVLWEIATLAEQPYQGLSNEQVLRFVMEGGLLDKPDNCPDMLFELMRMCWQYNPKMRPSFLEIISSIKEEMEPGFREVSFYYSEEN 3f5q-a2-m1-cA_3f5q-a2-m1-cB CRYSTAL STRUCTURE OF putative short chain dehydrogenase from Escherichia coli CFT073 A0A0H2V6Y9 A0A0H2V6Y9 1.76 X-RAY DIFFRACTION 17 0.996 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 228 229 QPKQDLLNDRIILVTGASDGIGREAAMTYARYGATVILLGRNEEKLRQVASHINEETGRQPQWFILDLLTCTSEDCQQLAQRIAVNYPRLDGVLHNAGLLGDVCPMSEQDPQVWQDVMQVNVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYAASKFATEGMMQVLADEYQQRLRVNCINPGGTRQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQP QPKQDLLNDRIILVTGASDGIGREAAMTYARYGATVILLGRNEEKLRQVASHINEETGRQPQWFILDLLTCTSEDCQQLAQRIAVNYPRLDGVLHNAGLLGDVCPMSEQDPQVWQDVMQVNVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYAASKFATEGMMQVLADEYQQRLRVNCINPGGTRDPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQ 3f5r-a1-m1-cA_3f5r-a1-m2-cA The crystal structure of a subunit of the heterodimeric FACT complex (Spt16p-Pob3p). Q04636 Q04636 1.7 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 112 112 QGSTDFDRIYLNQSKFSGRFRIADSGLGWKISTSGGSAANQARKPFLLPATELSTVQWSRGCRGYDLKINTKNQGVIQLDGFSQDDYNLIKNDFHRRFNIQVEQREHSLRGW QGSTDFDRIYLNQSKFSGRFRIADSGLGWKISTSGGSAANQARKPFLLPATELSTVQWSRGCRGYDLKINTKNQGVIQLDGFSQDDYNLIKNDFHRRFNIQVEQREHSLRGW 3f5s-a1-m1-cA_3f5s-a1-m1-cB CRYSTAL STRUCTURE OF putatitve short chain dehydrogenase from Shigella flexneri 2a str. 301 A0A0H2UYY2 A0A0H2UYY2 1.36 X-RAY DIFFRACTION 125 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 226 227 3e9q-a1-m1-cA_3e9q-a1-m1-cB 3f1k-a1-m1-cA_3f1k-a1-m2-cA 3f1l-a1-m1-cB_3f1l-a1-m1-cA 3f5q-a1-m1-cA_3f5q-a1-m2-cB 3gy0-a1-m1-cA_3gy0-a1-m2-cA 3gz4-a1-m1-cB_3gz4-a1-m1-cA QDLLNDRIILVTGASDGIGREAAMTYARYGATVILLGRNEEKLRQVASHINEETGRQPQWFILDLLTCTSENCQQLAQRIVVNYPRLDGVLHNAGLLGDVCPMSEQNPQVWQDVMQINVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYAASKFATEGMMQVLADEYQQRLRVNCINPGGTRTPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQ QDLLNDRIILVTGASDGIGREAAMTYARYGATVILLGRNEEKLRQVASHINEETGRQPQWFILDLLTCTSENCQQLAQRIVVNYPRLDGVLHNAGLLGDVCPMSEQNPQVWQDVMQINVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYAASKFATEGMMQVLADEYQQRLRVNCINPGGTRTPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQP 3f5x-a1-m1-cD_3f5x-a1-m2-cD CDK-2-Cyclin complex with indazole inhibitor 9 bound at its active site P20248 P20248 2.4 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 255 255 YHEDIHTYLREMEVKCKPKVGYMKKQPDITNSMRAILVDWLVEVGEEYKLQNETLHLAVNYIDRFLSSMSVLRGKLQLVGTAAMLLASKFEEIYPPEVAEFVYITDDTYTKKQVLRMEHLVLKVLTFDLAAPTVNQFLTQYFLHQQPANCKVESLAMFLGELSLIDADPYLKYLPSVIAGAAFHLALYTVTGQSWPESLIRKTGYTLESLKPCLMDLHQTYLKAPQHAQQSIREKYKNSKYHGVSLLNPPETLNL YHEDIHTYLREMEVKCKPKVGYMKKQPDITNSMRAILVDWLVEVGEEYKLQNETLHLAVNYIDRFLSSMSVLRGKLQLVGTAAMLLASKFEEIYPPEVAEFVYITDDTYTKKQVLRMEHLVLKVLTFDLAAPTVNQFLTQYFLHQQPANCKVESLAMFLGELSLIDADPYLKYLPSVIAGAAFHLALYTVTGQSWPESLIRKTGYTLESLKPCLMDLHQTYLKAPQHAQQSIREKYKNSKYHGVSLLNPPETLNL 3f69-a1-m1-cA_3f69-a1-m1-cB Crystal structure of the Mycobacterium tuberculosis PknB mutant kinase domain in complex with KT5720 P9WI81 P9WI81 2.8 X-RAY DIFFRACTION 66 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 270 282 TPSHLSDRYELGEILGFGGMSEVHLARDLRDHRDVAVKVLRADLARDPSFYLRFRREAQNAAALNHPAIVAVYDTGEAETPAGPLPYIVMEYVDGVTLRDIVHTEGPMTPKRAIEVIADACQALNFSHQNGIIHRDVKPANILISATNAVKVVDFGIARAITAQYLSPEQARGDSVDARSDVYSLGCVLYEVLTGEPPFTGDSPVSVAYQHVREDPIPPSARHEGLSADLDAVVLKALAKNPENRYQTAAEMRADLVRVHNGEPPEAPKV TTPSHLSDRYELGEILGFGGMSEVHLARDLRDHRDVAVKVLRADLARDPSFYLRFRREAQNAAALNHPAIVAVYDTGEAETPAGPLPYIVMEYVDGVTLRDIVHTEGPMTPKRAIEVIADACQALNFSHQNGIIHRDVKPANILISATNAVKVVDFGIARAIADSGNSVQTIGTAQYLSPEQARGDSVDARSDVYSLGCVLYEVLTGEPPFTGDSPVSVAYQHVREDPIPPSARHEGLSADLDAVVLKALAKNPENRYQTAAEMRADLVRVHNGEPPEAPKV 3f6a-a1-m1-cB_3f6a-a1-m1-cA Crystal structure of a hydrolase, NUDIX family from Clostridium perfringens A0A0H2YS52 A0A0H2YS52 2.02 X-RAY DIFFRACTION 118 1.0 195103 (Clostridium perfringens ATCC 13124) 195103 (Clostridium perfringens ATCC 13124) 143 148 LNRHFTVSVFIVCKDKVLLHLHKKAKKLPLGGHIEVNELPEEACIREAKEEAGLNVTLYNPIDINLKKSCDLSGEKLLINPIHTILGDSHIDFVYYATTTSFETSPEIGESKILKWYSKEDLKNAHNIQENILVATEALDLLE LNRHFTVSVFIVCKDKVLLHLHKKAKKLPLGGHIEVNELPEEACIREAKEEAGLNVTLYNPIDINLKKSCDLSGEKLLINPIHTILGDVSPNHSHIDFVYYATTTSFETSPEIGESKILKWYSKEDLKNAHNIQENILVATEALDLLE 3f6c-a1-m2-cB_3f6c-a1-m1-cA CRYSTAL STRUCTURE OF N-TERMINAL DOMAIN OF POSITIVE TRANSCRIPTION REGULATOR evgA FROM ESCHERICHIA COLI P0ACZ4 P0ACZ4 1.45 X-RAY DIFFRACTION 64 0.984 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 128 129 5f64-a1-m1-cA_5f64-a1-m1-cD 5f64-a2-m1-cB_5f64-a2-m1-cC SLNAIIIDDHPLAIAAIRNLLIKNDIEILAELTEGGSAVQRVETLKPDIVIIDVDIPGVNGIQVLETLRKRQYSGIIIIVSAKDHFYGKHCADAGANGFVSKKEGMNNIIAAIEAAKNGYCYFPFSLN SLNAIIIDDHPLAIAAIRNLLIKNDIEILAELTEGGSAVQRVETLKPDIVIIDVDIPGVNGIQVLETLRKRQYSGIIIIVSAKFYGKHCADAGANGFVSKKEGMNNIIAAIEAAKNGYCYFPFSLNRFV 3f6d-a1-m1-cB_3f6d-a1-m1-cA Crystal Structure of a Genetically Modified Delta Class GST (adGSTD4-4) from Anopheles dirus, F123A, in Complex with S-Hexyl Glutathione Q9GN60 Q9GN60 1.7 X-RAY DIFFRACTION 81 1.0 7168 (Anopheles dirus) 7168 (Anopheles dirus) 203 218 1jlw-a1-m1-cA_1jlw-a1-m1-cB 3f63-a1-m1-cB_3f63-a1-m1-cA 3g7j-a1-m1-cB_3g7j-a1-m1-cA MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTNLMAGEHMKPEFLKLNPQHCIPTLVDEDGFVLWESRAIQIYLVEKYGAHDADLAERLYPSDPRRRAVVHQRLFFDVAVLYQRFAEYYYGDPGRLRSMEQALEFLNTFLEGEQYVAGGDDPTIADLSILATIATYEVAGYDLRRYENVQRWYERTSAIVPGADKNVEGAKVFG MDFYYLPGSAPCRAVQMTAAAVGVELNLKLTNLMAGEHMKPEFLKLNPQHCIPTLVDEDGFVLWESRAIQIYLVEKYGAHDADLAERLYPSDPRRRAVVHQRLFFDVAVLYQRFAEYYYPQIAGQKVPVGDPGRLRSMEQALEFLNTFLEGEQYVAGGDDPTIADLSILATIATYEVAGYDLRRYENVQRWYERTSAIVPGADKNVEGAKVFGRYFTQ 3f6f-a1-m1-cA_3f6f-a1-m2-cA Crystal Structure of Glutathione Transferase dmGSTD10 from Drosophila melanogaster Q9VGA1 Q9VGA1 1.6 X-RAY DIFFRACTION 79 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 209 209 3gh6-a1-m1-cA_3gh6-a1-m2-cA MDLYYRPGSAPCRSVLMTAKALGVEFDKKTIINTRAREQFTPEYLKINPQHTIPTLHDHGFALWESRAIMVYLVEKYGKDDKLFPKDVQKQALINQRLYFDMGTLYKSFSEYYYPQIFLKKPANEENYKKIEVAFEFLNTFLEGQTYSAGGDYSLADIAFLATVSTFDVAGFDFKRYANVARWYENAKKLTPGWEENWAGCQEFRKYFD MDLYYRPGSAPCRSVLMTAKALGVEFDKKTIINTRAREQFTPEYLKINPQHTIPTLHDHGFALWESRAIMVYLVEKYGKDDKLFPKDVQKQALINQRLYFDMGTLYKSFSEYYYPQIFLKKPANEENYKKIEVAFEFLNTFLEGQTYSAGGDYSLADIAFLATVSTFDVAGFDFKRYANVARWYENAKKLTPGWEENWAGCQEFRKYFD 3f6g-a1-m1-cB_3f6g-a1-m1-cA Crystal structure of the regulatory domain of LiCMS in complexed with isoleucine - type II Q8F3Q1 Q8F3Q1 2 X-RAY DIFFRACTION 138 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 115 121 KVLTIKSCNIHSGIGIRPHAQIELEYQGKIHKEISEGDGGYDAFMNALTKITNRLGISIPKLIDYEVRIPPGGKTDALVETRITWNKTFKTMGVHPDQTVAAVHATEKMLNQILQ KVLTIKSCNIHSGIGIRPHAQIELEYQGKIHKEISEGDGGYDAFMNALTKITNRLGISIPKLIDYEVRIPPGGKTDALVETRITWNKSLEEDQTFKTMGVHPDQTVAAVHATEKMLNQILQ 3f6h-a1-m1-cA_3f6h-a1-m1-cB Crystal structure of the regulatory domain of LiCMS in complexed with isoleucine - type III Q8F3Q1 Q8F3Q1 2.7 X-RAY DIFFRACTION 24 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 119 125 KVLTIKSCNIHSGIGIRPHAQIELEYQGKIHKEISEGDGGYDAFMNALTKITNRLGISIPKLIDYEVRIPPGGKTDALVETRITWNDQTFKTMGVHPDQTVAAVHATEKMLNQILQPWQ KVLTIKSCNIHSGIGIRPHAQIELEYQGKIHKEISEGDGGYDAFMNALTKITNRLGISIPKLIDYEVRIPPGGKTDALVETRITWNKSLDEDQTFKTMGVHPDQTVAAVHATEKMLNQILQPWQI 3f6n-a1-m1-cC_3f6n-a1-m1-cB Crystal structure of the virion-associated protein P3 from Caulimovirus P03551 P03551 3.1 X-RAY DIFFRACTION 82 1.0 10648 (Cauliflower mosaic virus (STRAIN STRASBOURG)) 10648 (Cauliflower mosaic virus (STRAIN STRASBOURG)) 73 74 3f6n-a1-m1-cA_3f6n-a1-m1-cC 3f6n-a1-m1-cA_3f6n-a1-m1-cD 3f6n-a1-m1-cD_3f6n-a1-m1-cB 3k4t-a1-m1-cA_3k4t-a1-m1-cC 3k4t-a1-m1-cB_3k4t-a1-m1-cC 3k4t-a1-m1-cD_3k4t-a1-m1-cA 3k4t-a1-m1-cD_3k4t-a1-m1-cB ANLNQIQKEVSEILSDQKSMKADIKAILELLGSQNPIKESLETVAAKIVNDLTKLINDCPCNKEILEALGTQP ANLNQIQKEVSEILSDQKSMKADIKAILELLGSQNPIKESLETVAAKIVNDLTKLINDCPCNKEILEALGTQPK 3f6o-a1-m1-cB_3f6o-a1-m1-cA Crystal structure of ArsR family transcriptional regulator, RHA00566 Q0S195 Q0S195 1.9 X-RAY DIFFRACTION 67 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 91 97 EQLNGIFQALADPTRRAVLGRLSRGPATVSELAKPFDMALPSFMKHIHFLEDSGWIRTHKQGRVRTCAIEKEPFTAVEAWLAEQQELWESR MAQYPEQLNGIFQALADPTRRAVLGRLSRGPATVSELAKPFDMALPSFMKHIHFLEDSGWIRTHKQGRVRTCAIEKEPFTAVEAWLAEQQELWESRT 3f6o-a2-m1-cA_3f6o-a2-m2-cA Crystal structure of ArsR family transcriptional regulator, RHA00566 Q0S195 Q0S195 1.9 X-RAY DIFFRACTION 43 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 97 97 MAQYPEQLNGIFQALADPTRRAVLGRLSRGPATVSELAKPFDMALPSFMKHIHFLEDSGWIRTHKQGRVRTCAIEKEPFTAVEAWLAEQQELWESRT MAQYPEQLNGIFQALADPTRRAVLGRLSRGPATVSELAKPFDMALPSFMKHIHFLEDSGWIRTHKQGRVRTCAIEKEPFTAVEAWLAEQQELWESRT 3f6t-a1-m1-cA_3f6t-a1-m1-cB Crystal structure of aspartate aminotransferase (E.C. 2.6.1.1) (YP_194538.1) from Lactobacillus acidophilus NCFM at 2.15 A resolution Q5FIG7 Q5FIG7 2.15 X-RAY DIFFRACTION 255 1.0 272621 (Lactobacillus acidophilus NCFM) 272621 (Lactobacillus acidophilus NCFM) 506 508 FEISRKLALAQKNEKSNIFLNAGRGNPNWIQTLARLAFVRLVQFGVTESKLTINNGIAGYINTDGIRERLFAFLDPDKNDEDKFLIDAVNYCHTELGLNRDKVVAEWVNGAVANNYPVPDRCLVNTEKIINYFLQELSYKDANLAEQTDLFPTEGGTAAIVYAFHSLAENHLLKKGDKIAINEPIFTPYLRIPELKDYELVEVDLHSYEKNDWEIEPNEIEKLKDPSIKALIVVNPTNPTSKEFDTNALNAIKQAVEKNPKLIISDEVYGAFVPNFKSIYSVVPYNTLVYSYSLFGCTGWRLGVIALNEKNVFDDNIAHLDKVELRQLHKRYSSVVLDPDKKFIDRLCADSRSIGLYHTAGLSTPQQIEALFSTHLLTSTNGGSDDPYIDIARKLVSERYDQLHDAQAPKDETDTNTHYYSLIDIYRLAEKIYGKEFRDYLTNNFEQVDFLLKLAEKNGVVLVDGVGFGAKPGELRVSQANLPTEDYALIGKQVLELLKEYYEEFK FEISRKLALAQKNEKSNIFLNAGRGNPNWIQTLARLAFVRLVQFGVTESKLTINNGIAGYINTDGIRERLFAFLDPDKNDEDKFLIDAVNYCHTELGLNRDKVVAEWVNGAVANNYPVPDRCLVNTEKIINYFLQELSYKDANLAEQTDLFPTEGGTAAIVYAFHSLAENHLLKKGDKIAINEPIFTPYLRIPELKDYELVEVDLHSYEKNDWEIEPNEIEKLKDPSIKALIVVNPTNPTSKEFDTNALNAIKQAVEKNPKLIISDEVYGAFVPNFKSIYSVVPYNTLVYSYSLFGCTGWRLGVIALNEKNVFDDNIAHLDKVELRQLHKRYSSVVLDPDKKFIDRLCADSRSIGLYHTAGLSTPQQIEALFSTHLLTSTNGGSDDPYIDIARKLVSERYDQLHDAQAPKDETDTNTHYYSLIDIYRLAEKIYGKEFRDYLTNNFEQVDFLLKLAEKNGVVLVDGVGFGAKPGELRVSQANLPTEDYALIGKQVLELLKEYYEEFKQN 3f6v-a1-m1-cA_3f6v-a1-m2-cA Crystal structure of Possible transcriptional regulator for arsenical resistance Q0S966 Q0S966 1.48 X-RAY DIFFRACTION 84 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 96 96 VLDQLEVAAEPTRRRLVQLLTSGEQTVNNLAAHFPASRSAISQHLRVLTEAGLVTPRKDGRFRYYRLDPQGLAQLRALFDSFWIDELDRLVADATE VLDQLEVAAEPTRRRLVQLLTSGEQTVNNLAAHFPASRSAISQHLRVLTEAGLVTPRKDGRFRYYRLDPQGLAQLRALFDSFWIDELDRLVADATE 3f6w-a3-m1-cB_3f6w-a3-m3-cD XRE-family like protein from Pseudomonas syringae pv. tomato str. DC3000 Q889N2 Q889N2 1.85 X-RAY DIFFRACTION 47 0.988 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 80 80 3f6w-a1-m1-cA_3f6w-a1-m2-cA 3f6w-a4-m1-cE_3f6w-a4-m1-cC NATKTIHNARYQALLDLLLEARSAAGITQKELAARLGRPQSFVSKTENAERRLDVIEFDFCRGIGTDPYALLSKLEATPS SNATKTIHNARYQALLDLLLEARSAAGITQKELAARLGRPQSFVSKTENAERRLDVIEFDFCRGIGTDPYALLSKLEATP 3f6w-a5-m1-cC_3f6w-a5-m1-cD XRE-family like protein from Pseudomonas syringae pv. tomato str. DC3000 Q889N2 Q889N2 1.85 X-RAY DIFFRACTION 46 0.988 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 80 80 3f6w-a2-m1-cA_3f6w-a2-m1-cB 3f6w-a6-m1-cE_3f6w-a6-m4-cE NATKTIHNARYQALLDLLLEARSAAGITQKELAARLGRPQSFVSKTENAERRLDVIEFDFCRGIGTDPYALLSKLEATPS SNATKTIHNARYQALLDLLLEARSAAGITQKELAARLGRPQSFVSKTENAERRLDVIEFDFCRGIGTDPYALLSKLEATP 3f6y-a2-m1-cA_3f6y-a2-m2-cA Conformational Closure of the Catalytic Site of Human CD38 Induced by Calcium P28907 P28907 1.45 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 235 235 FWRQTWSGPGTTKRFPETVLARCVKYTEIHPEMRHVDCQSVWDAFKGAFISKHPCDITEEDYQPLMKLGTQTVPCNKILLWSRIKDLAHQFTQVQRDMFTLEDTLLGYLADDLTWCGEFDTSKINYQSCPDWRKDCSNNPVSVFWKTVSRRFAEAACDVVHVMLDGSRSKIFDKDSTFGSVEVHNLQPEKVQTLEAWVIHGGREDSRDLCQDPTIKELESIISKRNIQFSCKNIY FWRQTWSGPGTTKRFPETVLARCVKYTEIHPEMRHVDCQSVWDAFKGAFISKHPCDITEEDYQPLMKLGTQTVPCNKILLWSRIKDLAHQFTQVQRDMFTLEDTLLGYLADDLTWCGEFDTSKINYQSCPDWRKDCSNNPVSVFWKTVSRRFAEAACDVVHVMLDGSRSKIFDKDSTFGSVEVHNLQPEKVQTLEAWVIHGGREDSRDLCQDPTIKELESIISKRNIQFSCKNIY 3f6z-a1-m1-cB_3f6z-a1-m1-cD Crystal structure of Pseudomonas aeruginosa MliC in complex with hen egg white lysozyme Q9I574 Q9I574 2.5 X-RAY DIFFRACTION 92 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 93 93 KQAQVDYLALPGDAKLDTRSVDYKCENGRKFTVQYLNKGDNSLAVVPVSDNSTLVFSNVISASGAKYAAGQYIWWTKGEEATLYGDGVACKER KQAQVDYLALPGDAKLDTRSVDYKCENGRKFTVQYLNKGDNSLAVVPVSDNSTLVFSNVISASGAKYAAGQYIWWTKGEEATLYGDGVACKER 3f70-a1-m1-cA_3f70-a1-m1-cB Crystal structure of L3MBTL2-H4K20me1 complex Q969R5 Q969R5 2.1 X-RAY DIFFRACTION 51 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 392 410 3cey-a3-m1-cA_3cey-a3-m1-cB QDALVLGFDWGKFLKDHSYKAAPVSCFKHVPLYDQWEDVMKGMKVEVLNSDAVLRVYWIASVIQTAGYRVLLRYEGFENDASHDFWCNLGTVDVHPIGWCAINSKILVPPRTIHAKFTDWKGYLMKRLVGSRTLPVDFHIKMVESMKYPFRQGMRLEVVDKSQVSRTRMAVVDTVIGGRLRLLYEDDDFWCHMWSPLIHPVGWSRRVGHRAVYTEGGWFEEGMKLEAIDPLNLGNICVATVCKVLLDGYLMICVDDWFCYHASSHAIFPATFCQKNDIELTPPKGYEAQTFNWENYLEKTKSKAAPSRLFNMDCPNHGFKVGMKLEAVDLMEPRLICVATVKRVVHRLLSIHFDGWDSEYDQWVDCESPDIYPVGWCELTGYQLQPPVAAEP QDALVLGFDWGKFLKDHSYKAAPVSCFKHVPLYDQWEDVMKGMKVEVLNSDAVLPSRVYWIASVIQTAGYRVLLRYEGFENDASHDFWCNLGTVDVHPIGWCAINSKILVPPRTIHAKFTDWKGYLMKRLVGSRTLPVDFHIKMVESMKYPFRQGMRLEVVDKSQVSRTRMAVVDTVIGGRLRLLYEDGDSDDDFWCHMWSPLIHPVGWSRRVGHGIKMSCDAVPYLFKKVRAVYTEGGWFEEGMKLEAIDPLNLGNICVATVCKVLLDGYLMICVDDWFCYHASSHAIFPATFCQKNDIELTPPKGTFNWENYLEKTKSKAAPSRLFNMDCPNHGFKVGMKLEAVDLMEPRLICVATVKRVVHRLLSIHFDGWDSEYDQWVDCESPDIYPVGWCELTGYQLQPPVAAEP 3f72-a2-m1-cD_3f72-a2-m1-cC Crystal Structure of the Staphylococcus aureus pI258 CadC Metal Binding Site 2 Mutant P20047 P20047 2.31 X-RAY DIFFRACTION 144 0.99 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 100 103 1u2w-a1-m1-cA_1u2w-a1-m1-cB 3f72-a1-m1-cA_3f72-a1-m1-cB 3f72-a3-m1-cE_3f72-a3-m1-cF FGYDEEKVNRIQGDLQTVDISGVSQILKAIADENRAKITYALCQDEELCVCDIANILGVTIANASHHLRTLYKQGVVNFRLYSLGGEAIRQIMMIALAHK GYDEEKVNRIQGDLQTVDISGVSQILKAIADENRAKITYALCQDEELCVCDIANILGVTIANASHHLRTLYKQGVVNFRKLALYSLGGEAIRQIMMIALAHKK 3f7a-a1-m1-cA_3f7a-a1-m1-cB Structure of Orthorhombic crystal form of Pseudomonas aeruginosa RssB Q9I045 Q9I045 4.308 X-RAY DIFFRACTION 134 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 366 372 VSATLLIIDDDEVVRESLAAYLEDSNFKVLQALNGLQGLQIFESEQPDLVICDLRPQIDGLELIRRIRQTASETPIIVLSGAGVMSDAVEALRLGAADYLIKPLEDLAVLEHSVRRALDRAYLRVENQRYRDKLEAANRELQASLNLLQEDQNAGRQVQNLPVTPWSIEEFSHRIIPSLYLSGDFVDYFRVDERRVAFYLADVSGHGASSAFVTVLLKFTTRLLYESRRFKPSEVLAHINRGLINTKLGKHVTLGGVIDLEKNSLTYSIGLPLPVLFVEGQAGYLEGRVGLFDDATYDDRVELPPSFSLSLFSDGILGATLKEKEASLPEQVAAAGGTLDGLRQVFGLANLAEMPDDIALLVLSRN VSATLLIIDDDEVVRESLAAYLEDSNFKVLQALNGLQGLQIFESEQPDLVICDLRPQIDGLELIRRIRQTASETPIIVLSGAGVMSDAVEALRLGAADYLIKPLEDLAVLEHSVRRALDRAYLRVENQRYRDKLEAANRELQASLNLLQEDQNAGRQVQNLPVTPWSIEGLEFSHRIIPSLYLSGDFVDYFRVDERRVAFYLADVSGHGASSAFVTVLLKFTTRLLYESRRFKPSEVLAHINRGLINTKLGKHVTLGGVIDLEKNSLTYSIGGHLPLPVLFVEGQAGYLEGRVGLFDDATYDDRVELPPSFSLSLFSDGILDVGATLKEKEASLPEQVAAAGGTLDGLRQVFGLANLAEMPDDIALLVLSRN 3f7c-a1-m1-cA_3f7c-a1-m2-cA Crystal structure of a duf416 family protein (maqu_0942) from marinobacter aquaeolei vt8 at 2.00 A resolution A1TZ69 A1TZ69 2 X-RAY DIFFRACTION 176 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 192 192 GNANQFLKAVSQLQGWRECAFLLALAERSFPNYALFADAVGLKTGGKRQLLDLAWDLQKDVADAAIPQLLSKLETLCPNVDEYDAYGVYPAFDFCQLLEQALLNRLNPNKHRATEASQLATRTVDFVESEGEGDENELVRVFEHHPLLKDDKLFQRDTVALYYYRTPKEAFLAELRAGAANDGVSNLGISLE GNANQFLKAVSQLQGWRECAFLLALAERSFPNYALFADAVGLKTGGKRQLLDLAWDLQKDVADAAIPQLLSKLETLCPNVDEYDAYGVYPAFDFCQLLEQALLNRLNPNKHRATEASQLATRTVDFVESEGEGDENELVRVFEHHPLLKDDKLFQRDTVALYYYRTPKEAFLAELRAGAANDGVSNLGISLE 3f7e-a1-m1-cB_3f7e-a1-m1-cA MSMEG_3380 F420 Reductase A0QXP8 A0QXP8 1.23 X-RAY DIFFRACTION 85 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 124 126 VPEGYESLLERPLYGHLATVRPDGTPQVNAWFAWDGEVLRFTHTTKRQKYRNIKANPAVASVIDPDNPYRYLEVRGLVEDIVPDPTGAFYLKLNDRYDGPLTEPPADKADRVIIVVRPTAFSKQ VAVPEGYESLLERPLYGHLATVRPDGTPQVNAWFAWDGEVLRFTHTTKRQKYRNIKANPAVASVIDPDNPYRYLEVRGLVEDIVPDPTGAFYLKLNDRYDGPLTEPPADKADRVIIVVRPTAFSKQ 3f7f-a6-m1-cC_3f7f-a6-m2-cD Structure of Nup120 P35729 P35729 2.6 X-RAY DIFFRACTION 80 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 701 701 3f7f-a5-m1-cA_3f7f-a5-m1-cB MACLSRIDANLLQYYEKPEPNNTVDLYVSGSEYSNCLLLSNSEYICYHFSSRSTLLTFYPLSDAYHGKTINIHLPNASMNQRYTLTIQEVEQQLLVNVILKDGSFLTLQLPLSFLFSSANTLNGEWFHLQNPYDFTVRVPHFLFYVSPQFSVVFLEDGGLLGLKKVDGVHYEPLLFNDNSYLKCLTRFFSRSSKSDYDSVISCKLFHERYLIVLTQNCHLKIWDLTSFTLIQDYDMVSQSDSDPSHFRKVEAVGEYLSLYNNTLVTLLPLENGLFQMGTLLVLTYTFQNNIPTNLSASAIWSIVDLVLTRPLELNVEASYLNLIVLWKSGTASKLQILNVNDESFKNYEWIESVNKSLVDLQSEHDLDIVTKTGDVERGFCNLKSRYGTQIFERAQQILSENKIIMAHNEDEEYLANLETILRDVKTAFNEASSITLYGDEIILVNCFQPYNHSLYKLNTTVENWFYNMHSETDGSELFKYLRTLNGFASTLSNDVLRSISKKFLDIITGELPDSMTTVEKFTDIFKNCLENQFEITNLKILFDELNSFDIPVVLNDLINNQMKPGIFWKKDFISAIKFDGFTSIISLESLHQLLSIHYRITLQVLLTFVLFDLDTEIFGQHISTLLDLHYKQFLLLNLYRQDKCLLAEVLLKDSSEFSFGVKFFNYGQLIAYIDSLNSNVYNASITENSFFMTFFRSYII MACLSRIDANLLQYYEKPEPNNTVDLYVSGSEYSNCLLLSNSEYICYHFSSRSTLLTFYPLSDAYHGKTINIHLPNASMNQRYTLTIQEVEQQLLVNVILKDGSFLTLQLPLSFLFSSANTLNGEWFHLQNPYDFTVRVPHFLFYVSPQFSVVFLEDGGLLGLKKVDGVHYEPLLFNDNSYLKCLTRFFSRSSKSDYDSVISCKLFHERYLIVLTQNCHLKIWDLTSFTLIQDYDMVSQSDSDPSHFRKVEAVGEYLSLYNNTLVTLLPLENGLFQMGTLLVLTYTFQNNIPTNLSASAIWSIVDLVLTRPLELNVEASYLNLIVLWKSGTASKLQILNVNDESFKNYEWIESVNKSLVDLQSEHDLDIVTKTGDVERGFCNLKSRYGTQIFERAQQILSENKIIMAHNEDEEYLANLETILRDVKTAFNEASSITLYGDEIILVNCFQPYNHSLYKLNTTVENWFYNMHSETDGSELFKYLRTLNGFASTLSNDVLRSISKKFLDIITGELPDSMTTVEKFTDIFKNCLENQFEITNLKILFDELNSFDIPVVLNDLINNQMKPGIFWKKDFISAIKFDGFTSIISLESLHQLLSIHYRITLQVLLTFVLFDLDTEIFGQHISTLLDLHYKQFLLLNLYRQDKCLLAEVLLKDSSEFSFGVKFFNYGQLIAYIDSLNSNVYNASITENSFFMTFFRSYII 3f7l-a1-m1-cA_3f7l-a1-m2-cA X-ray Crystal Structure of Alvinella pompejana Cu,Zn Superoxide Dismutase B6CHW7 B6CHW7 0.99 X-RAY DIFFRACTION 67 1.0 6376 (Alvinella pompejana) 6376 (Alvinella pompejana) 151 151 3f7k-a1-m1-cA_3f7k-a1-m2-cA AIHAVCVLKGDSPVTGTIHLKEEGDMVTVTGEITGLTPGKHGFHVHEFGDNTNGCTSAGGHFNPHGKEHGAPEDENRHAGDLGNVVAGEDGKAVINMKDKLVKLTGPDSVIGRTLVVHVDEDDLGRGGHEQSKITGNAGGRLACGVIGITK AIHAVCVLKGDSPVTGTIHLKEEGDMVTVTGEITGLTPGKHGFHVHEFGDNTNGCTSAGGHFNPHGKEHGAPEDENRHAGDLGNVVAGEDGKAVINMKDKLVKLTGPDSVIGRTLVVHVDEDDLGRGGHEQSKITGNAGGRLACGVIGITK 3f7s-a1-m1-cA_3f7s-a1-m2-cA CRYSTAL STRUCTURE OF A NTF2-LIKE PROTEIN OF UNKNOWN FUNCTION (PP_4556) FROM PSEUDOMONAS PUTIDA KT2440 AT 2.11 A RESOLUTION Q88EB0 Q88EB0 2.11 X-RAY DIFFRACTION 130 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 134 134 GSTAAESEIRQLIERWQAVRDRDIPGIIAPYADDIVAFDAIQALQFKGKSAYTAHWECGCTGPVFELAQLTVHAAGDLALAHWLNRCGPGDDESQCGFRATVGYRRQGGQWQVIHEHWSAPFDETQKALFDLKP GSTAAESEIRQLIERWQAVRDRDIPGIIAPYADDIVAFDAIQALQFKGKSAYTAHWECGCTGPVFELAQLTVHAAGDLALAHWLNRCGPGDDESQCGFRATVGYRRQGGQWQVIHEHWSAPFDETQKALFDLKP 3f7x-a1-m1-cA_3f7x-a1-m2-cA Crystal structure of a putative polyketide cyclase (pp0894) from pseudomonas putida kt2440 at 1.24 A resolution Q88PF6 Q88PF6 1.24 X-RAY DIFFRACTION 41 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 127 127 GTATELVNAYYAAFNAGDPAFLALLSEDVIHDINQGERQGKARFAAFEKNRCYRERLADIVVQNADGSRAAAEFTVHGQYLADDEGLPTANGQTYVLPAGAFFYIHCGKIARVTNYYNLNDWVEQVA GTATELVNAYYAAFNAGDPAFLALLSEDVIHDINQGERQGKARFAAFEKNRCYRERLADIVVQNADGSRAAAEFTVHGQYLADDEGLPTANGQTYVLPAGAFFYIHCGKIARVTNYYNLNDWVEQVA 3f81-a2-m1-cB_3f81-a2-m3-cB Interaction of VHR with SA3 P51452 P51452 1.9 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 179 179 3f81-a1-m1-cA_3f81-a1-m2-cA LSVQDLNDLLSDGSGCYSLPSQPCNEVTPRIYVGNASVAQDIPKLQKLGITHVLNAAEGRSFMHVNTNANFYKDSGITYLGIKANDTQEFNLSAYFERAADFIDQALAQKNGRVLVHCREGYSRSPTLVIAYLMMRQKMDVKSALSIVRQNREIGPNDGFLAQLCQLNDRLAKEGKLKP LSVQDLNDLLSDGSGCYSLPSQPCNEVTPRIYVGNASVAQDIPKLQKLGITHVLNAAEGRSFMHVNTNANFYKDSGITYLGIKANDTQEFNLSAYFERAADFIDQALAQKNGRVLVHCREGYSRSPTLVIAYLMMRQKMDVKSALSIVRQNREIGPNDGFLAQLCQLNDRLAKEGKLKP 3f84-a1-m1-cA_3f84-a1-m1-cB Structure of fusion complex of major pilin CfaB and major pilin CfaB of CFA/I pilus from ETEC E. coli E3PPC4 E3PPC4 2.35 X-RAY DIFFRACTION 95 1.0 562 (Escherichia coli) 562 (Escherichia coli) 302 307 MIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLGSDNKQVEKNITVTASVDPVIELLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLGSDNKQVEKNITVTASVDP MIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLGSDNKQVEKNITVTASVDPVIELLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLGSDNKQVEKNITVTASVDPVILEH 3f87-a2-m3-cC_3f87-a2-m3-cD An alpha/beta-Peptide Helix Bundle with a Pure beta-Amino Acid Core and a Distinctive Quarternary Structure: GCN4pLI derivative with beta residues at a and d heptad positions - higher symmetry crystal 2.4 X-RAY DIFFRACTION 16 1.0 23 23 3f86-a1-m1-cA_3f86-a1-m1-cB 3f86-a1-m1-cC_3f86-a1-m1-cD 3f86-a2-m1-cE_3f86-a2-m1-cF 3f86-a2-m1-cG_3f86-a2-m1-cH 3f87-a1-m1-cA_3f87-a1-m1-cB 3f87-a1-m2-cA_3f87-a1-m2-cB 3f87-a2-m1-cC_3f87-a2-m1-cD RKQEDKEELSKYHENEARKKLGE RKQEDKEELSKYHENEARKKLGE 3f8d-a2-m1-cD_3f8d-a2-m1-cC Structure of Sulfolobus solfataricus Thioredoxin reductase Mutant C147A Q8X236 Q8X236 1.4 X-RAY DIFFRACTION 110 0.99 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 298 307 3f8d-a1-m1-cA_3f8d-a1-m1-cB 3f8p-a1-m1-cB_3f8p-a1-m1-cA 3f8p-a2-m1-cC_3f8p-a2-m1-cD 3f8r-a1-m1-cA_3f8r-a1-m1-cB 3f8r-a2-m1-cD_3f8r-a2-m1-cC GEKFDVIIVGLGPAAYGAALYSARYMLKTLVIGETPGGQLTEAGIVDDYLGLIEIQASDMIKVFNKHIEKYEVPVLLDIVEKIENRGDEFVVKTKRKGEFKADSVILGIGVKRRKLGVPGEQEFAGRGISYCSVADAPLFKNRVVAVIGGGDSALEGAEILSSYSTKVYLIHRRDTFKAQPIYVETVKKKPNVEFVLNSVVKEIKGDKVVKQVVVENLKVNGVFIEIGFDPPTDFAKSNGIETDTNGYIKVDEWMRTSVPGVFAAGDCTSAWLGFRQVITAVAQGAVAATSAYRYVTE VKPGEKFDVIIVGLGPAAYGAALYSARYMLKTLVIGETPGGQLTEAGIVDDYLGLIEIQASDMIKVFNKHIEKYEVPVLLDIVEKIENEFVVKTKRKGEFKADSVILGIGVKRRKLGVPGEQEFAGRGISYCSVADAPLFKNRVVAVIGGGDSALEGAEILSSYSTKVYLIHRRDTFKAQPIYVETVKKKPNVEFVLNSVVKEIKGDKVVKQVVVENLKTGEIKELNVNGVFIEIGFDPPTDFAKSNGIETDTNGYIKVDEWMRTSVPGVFAAGDCTSAWLGFRQVITAVAQGAVAATSAYRYVTEK 3f8g-a1-m1-cA_3f8g-a1-m1-cB The X-ray structure of a dimeric variant of human pancreatic ribonuclease with high cytotoxic and antitumor activities P07998 P07998 2.6 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 KESRAKKFQRQHMDSDSSPSSSSTYCNLMMCCRKMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACGGSPYVPVHFDASVE KESRAKKFQRQHMDSDSSPSSSSTYCNLMMCCRKMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACGGSPYVPVHFDASVE 3f8h-a1-m1-cA_3f8h-a1-m1-cB Crystal structure of a putative polyketide cyclase (tm1040_3560) from silicibacter sp. tm1040 at 2.00 A resolution Q1GLD7 Q1GLD7 2 X-RAY DIFFRACTION 84 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 133 133 NLYFQGNDTIARYFDAFNAGDTDGLACLSEDVAHHVNEGNIRVGKEKFAAFCAHSHCYKEELTDVIFATPDATRAAAEYTVNGTYLATDEGLPEARQQSYKLPAGSFFDLRDGLITRVTTYYNLSDWIKQVSA NLYFQGNDTIARYFDAFNAGDTDGLACLSEDVAHHVNEGNIRVGKEKFAAFCAHSHCYKEELTDVIFATPDATRAAAEYTVNGTYLATDEGLPEARQQSYKLPAGSFFDLRDGLITRVTTYYNLSDWIKQVSA 3f8l-a2-m1-cD_3f8l-a2-m1-cB Crystal Structure of the Effector Domain of PhnF from Mycobacterium smegmatis A0QQ72 A0QQ72 1.9 X-RAY DIFFRACTION 90 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 162 167 3f8l-a1-m1-cA_3f8l-a1-m1-cC 3f8m-a1-m1-cB_3f8m-a1-m1-cA IRQPLGMGSYTEAAKAQGLSAGRILVAWSDLTADEVLAGVLGVDVGAPVLQLERVLTTDGVRVGLETTKLPAQRYPGLRETFDHEASLYAEIRSRGIAFTRTVDTIDTALPDAREAALLGADARTPMFLLNRVSYDQDDVAIEQRRSLYRGDRMTFTAVMHA AIRQPLGMGSYTEAAKAQGLSAGRILVAWSDLTADEVLAGVLGVDVGAPVLQLERVLTTDGVRVGLETTKLPAQRYPGLRETFDHEASLYAEIRSRGIAFTRTVDTIDTALPDAREAALLGADARTPMFLLNRVSYDQDDVAIEQRRSLYRGDRMTFTAVMHAAIVS 3f8n-a1-m1-cB_3f8n-a1-m1-cA Crystal structure of PerR-Zn-Mn P71086 P71086 3.15 X-RAY DIFFRACTION 108 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 136 137 HELKEALETLKETGVRITPQRHAILEYLVNSMAHPTADDIYKALEGKFPNMSVATVYNNLRVFRESGLVKELTYGDASSRFDFVTSDHYHAICENCGKIVDFHYPGLDEVEQLAAHVTGFKVSHHRLEIYGVCQEC HELKEALETLKETGVRITPQRHAILEYLVNSMAHPTADDIYKALEGKFPNMSVATVYNNLRVFRESGLVKELTYGDASSRFDFVTSDHYHAICENCGKIVDFHYPGLDEVEQLAAHVTGFKVSHHRLEIYGVCQECS 3f8u-a3-m2-cC_3f8u-a3-m1-cA Tapasin/ERp57 heterodimer P30101 P30101 2.6 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 469 SDVLELTDDNFESRISDGLMLVEFFAPWCGHAKRLAPEYEAAATRLKGIVPLAKVDCTANTNTCNKYGVSGYPTLKIFRDGEEAGAYDGPRTADGIVSHLKKQAGPASVPLRTEEEFKKFISDKDASIVGFFDDSFSEAHSEFLKAASNLRDNYRFAHTNVESLVNEYDDNGEGIILFRPSHLTNKFEDKTVAYTEQKMTSGKIKKFIQENIFGICPHMTEDNKDLIQGKDLLIAYYDVDYEKNAKGSNYWRNRVMMVAKKFLDAGHKLNFAVASRKTFSHELSDFGLESTAGEIPVVAIRTAKGEKFVMQEEFSRDGKALERFLQDYFDGNLKRYLKSEPIPESNDGPVKVVVAENFDEIVNNENKDVLIEFYAPWCGHCKNLEPKYKELGEKLSKDPNIVIAKMDATANDVPSPYEVRGFPTIYFSPANKKLNPKKYEGGRELSDFISYLQREATNPPVI SDVLELTDDNFESRISDTGSAGLMLVEFFAPWCGHAKRLAPEYEAAATRLKGIVPLAKVDCTANTNTCNKYGVSGYPTLKIFRDGEEAGAYDGPRTADGIVSHLKKQAGPASVPLRTEEEFKKFISDKDASIVGFFDDSFSEAHSEFLKAASNLRDNYRFAHTNVESLVNEYDDNGEGIILFRPSHLTNKFEDKTVAYTEQKMTSGKIKKFIQENIFGICPHMTEDNKDLIQGKDLLIAYYDVDYEKNAKGSNYWRNRVMMVAKKFLDAGHKLNFAVASRKTFSHELSDFGLESTAGEIPVVAIRTAKGEKFVMQEEFSRDGKALERFLQDYFDGNLKRYLKSEPIPESNDGPVKVVVAENFDEIVNNENKDVLIEFYAPWCGHCKNLEPKYKELGEKLSKDPNIVIAKMDATANDVPSPYEVRGFPTIYFSPANKKLNPKKYEGGRELSDFISYLQREATNPPVIQEE 3f8x-a2-m1-cC_3f8x-a2-m1-cD Crystal structure of a putative delta-5-3-ketosteroid isomerase (eca2236) from pectobacterium atrosepticum scri1043 at 1.55 A resolution Q6D504 Q6D504 1.55 X-RAY DIFFRACTION 87 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 127 128 3f8x-a1-m1-cA_3f8x-a1-m1-cB PNAAVQSGLQEWHRIIAEADWERLPDLLAEDVVFSNPSTFDPYHGKGPLVILPAVFSVLENFQYARHFSSKSGYVLEFNANGDELLTGVDLIEFNDAGKITDLVVRPASVVIDLSVEVGKRIAAAQS SPNAAVQSGLQEWHRIIAEADWERLPDLLAEDVVFSNPSTFDPYHGKGPLVILPAVFSVLENFQYARHFSSKSGYVLEFNANGDELLTGVDLIEFNDAGKITDLVVRPASVVIDLSVEVGKRIAAAQS 3f9i-a1-m1-cB_3f9i-a1-m2-cB Crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase Rickettsia prowazekii P50941 P50941 2.25 X-RAY DIFFRACTION 87 1.0 782 (Rickettsia prowazekii) 782 (Rickettsia prowazekii) 229 229 3f9i-a1-m1-cA_3f9i-a1-m2-cA MIDLTGKTSLITGASSGIGSAIARLLHKLGSKVIISGSNEEKLKSLGNALKDNYTIEVCNLANKEECSNLISKTSNLDILVCNAGITDFDKVIDINLKANFILNREAIKKMIQKRYGRIINISSIVGIGNPGQANYCASKAGLIGMTKSLSYEVATRGITVNAVAPGFIKSDMTDKLNEKQREAIVQKIPLGTYGIPEDVAYAVAFLASNNASYITGQTLHVNGGMLMV MIDLTGKTSLITGASSGIGSAIARLLHKLGSKVIISGSNEEKLKSLGNALKDNYTIEVCNLANKEECSNLISKTSNLDILVCNAGITDFDKVIDINLKANFILNREAIKKMIQKRYGRIINISSIVGIGNPGQANYCASKAGLIGMTKSLSYEVATRGITVNAVAPGFIKSDMTDKLNEKQREAIVQKIPLGTYGIPEDVAYAVAFLASNNASYITGQTLHVNGGMLMV 3f9i-a1-m2-cA_3f9i-a1-m2-cB Crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase Rickettsia prowazekii P50941 P50941 2.25 X-RAY DIFFRACTION 112 1.0 782 (Rickettsia prowazekii) 782 (Rickettsia prowazekii) 220 229 3f9i-a1-m1-cA_3f9i-a1-m1-cB MIDLTGKTSLITGASSGIGSAIARLLHKLGSKVIISGSNEEKLKSLGNALKDNYTIEVCNLANKEECSNLISKTSNLDILVCNAGDFDKVIDINLKANFILNREAIKKMIQKRYGRIINISSIVGGNPGQANYCASKAGLIGMTKSLSYEVATRGITVNAVAPGFIKLNEKQREAIVQKIPLGTYGIPEDVAYAVAFLASNNASYITGQTLHVNGGMLMV MIDLTGKTSLITGASSGIGSAIARLLHKLGSKVIISGSNEEKLKSLGNALKDNYTIEVCNLANKEECSNLISKTSNLDILVCNAGITDFDKVIDINLKANFILNREAIKKMIQKRYGRIINISSIVGIGNPGQANYCASKAGLIGMTKSLSYEVATRGITVNAVAPGFIKSDMTDKLNEKQREAIVQKIPLGTYGIPEDVAYAVAFLASNNASYITGQTLHVNGGMLMV 3f9k-a16-m1-cQ_3f9k-a16-m1-cc Two domain fragment of HIV-2 integrase in complex with LEDGF IBD P04584 P04584 3.2 X-RAY DIFFRACTION 38 1.0 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 204 204 3f9k-a13-m1-cE_3f9k-a13-m1-cg 3f9k-a13-m1-cE_3f9k-a13-m1-cU 3f9k-a13-m1-cU_3f9k-a13-m1-cg 3f9k-a14-m1-cA_3f9k-a14-m1-cI 3f9k-a14-m1-cA_3f9k-a14-m1-cY 3f9k-a14-m1-cI_3f9k-a14-m1-cY 3f9k-a15-m1-ck_3f9k-a15-m1-co 3f9k-a15-m1-ck_3f9k-a15-m1-cs 3f9k-a15-m1-co_3f9k-a15-m1-cs 3f9k-a16-m1-cM_3f9k-a16-m1-cc 3f9k-a16-m1-cM_3f9k-a16-m1-cQ KIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCQQKGEAIHGQVNAELGTWQMDCTHLEGKIIIVAVHVASGFIEAEVIPQESGRQTALFLLKLASRWPITHLHTDNGANFTSQEVKMVAWWIGIEQSFGVPYNPQSQGVVEAMNHHLKNQISRIREQANTIETIVLMAVHCMNFKRRGGIGDMTPSERLINMITTE KIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCQQKGEAIHGQVNAELGTWQMDCTHLEGKIIIVAVHVASGFIEAEVIPQESGRQTALFLLKLASRWPITHLHTDNGANFTSQEVKMVAWWIGIEQSFGVPYNPQSQGVVEAMNHHLKNQISRIREQANTIETIVLMAVHCMNFKRRGGIGDMTPSERLINMITTE 3f9k-a16-m1-cd_3f9k-a16-m1-cM Two domain fragment of HIV-2 integrase in complex with LEDGF IBD P04584 P04584 3.2 X-RAY DIFFRACTION 22 0.985 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 196 204 3f9k-a13-m1-cF_3f9k-a13-m1-cU 3f9k-a13-m1-ch_3f9k-a13-m1-cE 3f9k-a13-m1-cV_3f9k-a13-m1-cg 3f9k-a14-m1-cB_3f9k-a14-m1-cI 3f9k-a14-m1-cJ_3f9k-a14-m1-cY 3f9k-a14-m1-cZ_3f9k-a14-m1-cA 3f9k-a15-m1-cl_3f9k-a15-m1-co 3f9k-a15-m1-cp_3f9k-a15-m1-cs 3f9k-a15-m1-ct_3f9k-a15-m1-ck 3f9k-a16-m1-cN_3f9k-a16-m1-cQ 3f9k-a16-m1-cR_3f9k-a16-m1-cc VLEKIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCVNAELGTWQMDCTHLEGKIIIVAVHVASGFIEAEVIPQESGRQTALFLLKLASRWPITHLHTDNGANFTSQEVKMVAWWIGIEQSFGVPYNPQSQGVVEAMNHHLKNQISRIREQANTIETIVLMAVHCMNFKRRGGIGDMTPSERLINMITT KIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCQQKGEAIHGQVNAELGTWQMDCTHLEGKIIIVAVHVASGFIEAEVIPQESGRQTALFLLKLASRWPITHLHTDNGANFTSQEVKMVAWWIGIEQSFGVPYNPQSQGVVEAMNHHLKNQISRIREQANTIETIVLMAVHCMNFKRRGGIGDMTPSERLINMITTE 3f9k-a9-m1-ch_3f9k-a9-m1-cg Two domain fragment of HIV-2 integrase in complex with LEDGF IBD P04584 P04584 3.2 X-RAY DIFFRACTION 60 0.985 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 11720 (Human immunodeficiency virus type 2 (ISOLATE ROD)) 196 204 3f9k-a10-m1-cl_3f9k-a10-m1-ck 3f9k-a11-m1-cp_3f9k-a11-m1-co 3f9k-a12-m1-ct_3f9k-a12-m1-cs 3f9k-a13-m1-cF_3f9k-a13-m1-cE 3f9k-a13-m1-ch_3f9k-a13-m1-cg 3f9k-a13-m1-cV_3f9k-a13-m1-cU 3f9k-a14-m1-cB_3f9k-a14-m1-cA 3f9k-a14-m1-cJ_3f9k-a14-m1-cI 3f9k-a14-m1-cZ_3f9k-a14-m1-cY 3f9k-a15-m1-cl_3f9k-a15-m1-ck 3f9k-a15-m1-cp_3f9k-a15-m1-co 3f9k-a15-m1-ct_3f9k-a15-m1-cs 3f9k-a16-m1-cd_3f9k-a16-m1-cc 3f9k-a16-m1-cN_3f9k-a16-m1-cM 3f9k-a16-m1-cR_3f9k-a16-m1-cQ 3f9k-a1-m1-cB_3f9k-a1-m1-cA 3f9k-a2-m1-cF_3f9k-a2-m1-cE 3f9k-a3-m1-cJ_3f9k-a3-m1-cI 3f9k-a4-m1-cN_3f9k-a4-m1-cM 3f9k-a5-m1-cR_3f9k-a5-m1-cQ 3f9k-a6-m1-cV_3f9k-a6-m1-cU 3f9k-a7-m1-cZ_3f9k-a7-m1-cY 3f9k-a8-m1-cd_3f9k-a8-m1-cc VLEKIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCVNAELGTWQMDCTHLEGKIIIVAVHVASGFIEAEVIPQESGRQTALFLLKLASRWPITHLHTDNGANFTSQEVKMVAWWIGIEQSFGVPYNPQSQGVVEAMNHHLKNQISRIREQANTIETIVLMAVHCMNFKRRGGIGDMTPSERLINMITT KIEPAQEEHEKYHSNVKELSHKFGIPNLVARQIVNSCAQCQQKGEAIHGQVNAELGTWQMDCTHLEGKIIIVAVHVASGFIEAEVIPQESGRQTALFLLKLASRWPITHLHTDNGANFTSQEVKMVAWWIGIEQSFGVPYNPQSQGVVEAMNHHLKNQISRIREQANTIETIVLMAVHCMNFKRRGGIGDMTPSERLINMITTE 3f9q-a1-m1-cA_3f9q-a1-m2-cA Re-refinement of uncomplexed plasmepsin II from Plasmodium falciparum. P46925 P46925 1.9 X-RAY DIFFRACTION 74 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 325 325 1lf3-a2-m1-cA_1lf3-a2-m2-cA 2igx-a2-m1-cA_2igx-a2-m2-cA SSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL SSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 3f9s-a1-m1-cB_3f9s-a1-m1-cA Crystal structure of a putative polyketide cyclase (lferr_0659) from acidithiobacillus ferrooxidans atcc at 1.76 A resolution 1.76 X-RAY DIFFRACTION 82 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 138 140 ISSKAKEILTQFTREVWSEGNIEASDKYIAPKYTVLHDPGDPWEGRELDVAGYKERVKTLRAAFPDQCFDIQGLFADGDAVVTWLWTATHKEDIPGFPSTGKQIKSGATVYYFDGNRLTGHWQITDRLGVYQQLRQAA GSISSKAKEILTQFTREVWSEGNIEASDKYIAPKYTVLHDPGDPWEGRELDVAGYKERVKTLRAAFPDQCFDIQGLFADGDAVVTWLWTATHKEDIPGFPSTGKQIKSGATVYYFDGNRLTGHWQITDRLGVYQQLRQAA 3f9u-a1-m1-cA_3f9u-a1-m1-cB Crystal structure of C-terminal domain of putative exported cytochrome C biogenesis-related protein from Bacteroides fragilis Q5LAZ4 Q5LAZ4 2.2 X-RAY DIFFRACTION 56 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 141 144 EVHAKFDDYDLGEYARQHNKPVLDFTGYGCVNCRKELAVWTDPKVSSIINNDYVLITLYVDNKTPLTEPVKIENGTERTLRTVGDKWSYLQRVKFGANAQPFYVLIDNEGNPLNKSYAYDEDISKYINFLQTGLENYRKEK YTNEVHAKFDDYDLGEYARQHNKPVLDFTGYGCVNCRKELAVWTDPKVSSIINNDYVLITLYVDNKTPLTEPVKIENGTERTLRTVGDKWSYLQRVKFGANAQPFYVLIDNEGNPLNKSYAYDEDISKYINFLQTGLENYRKEK 3fa3-a2-m1-cE_3fa3-a2-m1-cH Crystal structure of 2,3-dimethylmalate lyase, a PEP mutase/isocitrate lyase superfamily member, trigonal crystal form Q2L887 Q2L887 2.6 X-RAY DIFFRACTION 31 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 301 301 3fa3-a1-m1-cA_3fa3-a1-m1-cD 3fa3-a1-m1-cC_3fa3-a1-m1-cB 3fa3-a2-m1-cF_3fa3-a2-m1-cG 3fa3-a3-m1-cI_3fa3-a3-m1-cL 3fa3-a3-m1-cJ_3fa3-a3-m1-cK 3fa3-a4-m1-cM_3fa3-a4-m1-cP 3fa3-a4-m1-cN_3fa3-a4-m1-cO 3fa4-a1-m1-cA_3fa4-a1-m1-cD 3fa4-a1-m1-cC_3fa4-a1-m1-cB 3fa4-a2-m1-cG_3fa4-a2-m1-cF 3fa4-a2-m1-cH_3fa4-a2-m1-cE 3fa4-a3-m1-cI_3fa4-a3-m1-cL 3fa4-a3-m1-cJ_3fa4-a3-m1-cK PMVTAATSLRRALENPDSFIVAPGVYDGLSARVALSAGFDALYMTGAGTAASVHGQADLGICTLNDMRANAEMISNISPSTPVIADADTGYGGPIMVARTTEQYSRSGVAAFHIEDQVQTKRCGHLAGKILVDTDTYVTRIRAAVQARQRIGSDIVVIARTDSLQTHGYEESVARLRAARDAGADVGFLEGITSREMARQVIQDLAGWPLLLNMVEHGATPSISAAEAKEMGFRIIIFPFAALGPAVAAMREAMEKLKRDGIPGLDKEMTPQMLFRVCGLDESMKVDAQAGGAAFDGGVDL PMVTAATSLRRALENPDSFIVAPGVYDGLSARVALSAGFDALYMTGAGTAASVHGQADLGICTLNDMRANAEMISNISPSTPVIADADTGYGGPIMVARTTEQYSRSGVAAFHIEDQVQTKRCGHLAGKILVDTDTYVTRIRAAVQARQRIGSDIVVIARTDSLQTHGYEESVARLRAARDAGADVGFLEGITSREMARQVIQDLAGWPLLLNMVEHGATPSISAAEAKEMGFRIIIFPFAALGPAVAAMREAMEKLKRDGIPGLDKEMTPQMLFRVCGLDESMKVDAQAGGAAFDGGVDL 3fa3-a2-m1-cF_3fa3-a2-m1-cH Crystal structure of 2,3-dimethylmalate lyase, a PEP mutase/isocitrate lyase superfamily member, trigonal crystal form Q2L887 Q2L887 2.6 X-RAY DIFFRACTION 97 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 301 301 3fa3-a1-m1-cA_3fa3-a1-m1-cC 3fa3-a1-m1-cD_3fa3-a1-m1-cB 3fa3-a2-m1-cE_3fa3-a2-m1-cG 3fa3-a3-m1-cI_3fa3-a3-m1-cK 3fa3-a3-m1-cJ_3fa3-a3-m1-cL 3fa3-a4-m1-cM_3fa3-a4-m1-cO 3fa3-a4-m1-cN_3fa3-a4-m1-cP 3fa4-a1-m1-cA_3fa4-a1-m1-cC 3fa4-a1-m1-cD_3fa4-a1-m1-cB 3fa4-a2-m1-cG_3fa4-a2-m1-cE 3fa4-a2-m1-cH_3fa4-a2-m1-cF 3fa4-a3-m1-cJ_3fa4-a3-m1-cL 3fa4-a3-m1-cK_3fa4-a3-m1-cI PMVTAATSLRRALENPDSFIVAPGVYDGLSARVALSAGFDALYMTGAGTAASVHGQADLGICTLNDMRANAEMISNISPSTPVIADADTGYGGPIMVARTTEQYSRSGVAAFHIEDQVQTKRCGHLAGKILVDTDTYVTRIRAAVQARQRIGSDIVVIARTDSLQTHGYEESVARLRAARDAGADVGFLEGITSREMARQVIQDLAGWPLLLNMVEHGATPSISAAEAKEMGFRIIIFPFAALGPAVAAMREAMEKLKRDGIPGLDKEMTPQMLFRVCGLDESMKVDAQAGGAAFDGGVDL PMVTAATSLRRALENPDSFIVAPGVYDGLSARVALSAGFDALYMTGAGTAASVHGQADLGICTLNDMRANAEMISNISPSTPVIADADTGYGGPIMVARTTEQYSRSGVAAFHIEDQVQTKRCGHLAGKILVDTDTYVTRIRAAVQARQRIGSDIVVIARTDSLQTHGYEESVARLRAARDAGADVGFLEGITSREMARQVIQDLAGWPLLLNMVEHGATPSISAAEAKEMGFRIIIFPFAALGPAVAAMREAMEKLKRDGIPGLDKEMTPQMLFRVCGLDESMKVDAQAGGAAFDGGVDL 3fa4-a2-m1-cH_3fa4-a2-m1-cG Crystal structure of 2,3-dimethylmalate lyase, a PEP mutase/isocitrate lyase superfamily member, triclinic crystal form Q2L887 Q2L887 2.18 X-RAY DIFFRACTION 261 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 282 284 3fa3-a1-m1-cA_3fa3-a1-m1-cB 3fa3-a1-m1-cC_3fa3-a1-m1-cD 3fa3-a2-m1-cE_3fa3-a2-m1-cF 3fa3-a2-m1-cG_3fa3-a2-m1-cH 3fa3-a3-m1-cJ_3fa3-a3-m1-cI 3fa3-a3-m1-cK_3fa3-a3-m1-cL 3fa3-a4-m1-cN_3fa3-a4-m1-cM 3fa3-a4-m1-cO_3fa3-a4-m1-cP 3fa4-a1-m1-cA_3fa4-a1-m1-cB 3fa4-a1-m1-cC_3fa4-a1-m1-cD 3fa4-a2-m1-cF_3fa4-a2-m1-cE 3fa4-a3-m1-cJ_3fa4-a3-m1-cI 3fa4-a3-m1-cK_3fa4-a3-m1-cL PMVTAATSLRRALENPDSFIVAPGVYDGLSARVALSAGFDALYMTGAGTAASVHGQADLGICTLNDMRANAEMISNISPSTPVIADADTGYGGPIMVARTTEQYSRSGVAAFHIEDQVQKILVDTDTYVTRIRAAVQARQRIGSDIVVIARTDSLQTHGYEESVARLRAARDAGADVGFLEGITSREMARQVIQDLAGWPLLLNMVEHGATPSISAAEAKEMGFRIIIFPFAALGPAVAAMREAMEKLKRDGIPGLDKEMTPQMLFRVCGLDESMKVDAQAG PMVTAATSLRRALENPDSFIVAPGVYDGLSARVALSAGFDALYMTGAGTAASVHGQADLGICTLNDMRANAEMISNISPSTPVIADADTGYGGPIMVARTTEQYSRSGVAAFHIEDQVQTGKILVDTDTYVTRIRAAVQARQRIGSDIVVIARTDSLQTHGYEESVARLRAARDAGADVGFLEGITSREMARQVIQDLAGWPLLLNMVEHGATPSISAAEAKEMGFRIIIFPFAALGPAVAAMREAMEKLKRDGIPGLDKEMTPQMLFRVCGLDESMKVDAQAG 3fa5-a1-m1-cA_3fa5-a1-m1-cB CRYSTAL STRUCTURE OF a DUF849 family protein (PDEN_3495) FROM PARACOCCUS DENITRIFICANS PD1222 AT 1.90 A RESOLUTION A1B7S1 A1B7S1 1.9 X-RAY DIFFRACTION 84 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 268 268 GKPCIICVAITGSLPTKENNPAVPITLAEQVESTHEAFEAGASIAHCHVRDDEGRPTSDPDRFAALKEGLERHCPGIVQLSTGGRSGAGQARGALPLCPDASLSVGSNNFPTRVYENPPDLVDWLAAELKYDIKPEIEAFDLSHILQAKRAGDGRLAGTPYVQFVGVRNAPADRDVFDYYIHTVRRLFGEDAPWCAAGIGPSQIVLNEWAISSGGHARTGLEDNVRLDRDRLAPSNAALVGRAVELCEKYERPVATWRQARQILGLRV GKPCIICVAITGSLPTKENNPAVPITLAEQVESTHEAFEAGASIAHCHVRDDEGRPTSDPDRFAALKEGLERHCPGIVQLSTGGRSGAGQARGALPLCPDASLSVGSNNFPTRVYENPPDLVDWLAAELKYDIKPEIEAFDLSHILQAKRAGDGRLAGTPYVQFVGVRNAPADRDVFDYYIHTVRRLFGEDAPWCAAGIGPSQIVLNEWAISSGGHARTGLEDNVRLDRDRLAPSNAALVGRAVELCEKYERPVATWRQARQILGLRV 3fad-a2-m1-cA_3fad-a2-m2-cA Evaulaution at Atomic Resolution of the Role of Strain in Destabilizing the Temperature Sensitive T4 Lysozyme Mutant Arg96-->His P00720 P00720 1.2 X-RAY DIFFRACTION 36 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 164 164 139l-a2-m1-cA_139l-a2-m2-cA 1lwg-a2-m1-cA_1lwg-a2-m2-cA MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNCNGVITKDEAEKLFNQDVAAAVRGILRNAKLKPVYDSLDAVRHCALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNCNGVITKDEAEKLFNQDVAAAVRGILRNAKLKPVYDSLDAVRHCALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYKNL 3fai-a2-m1-cA_3fai-a2-m2-cA The Di Zinc Carbapenemase CphA N220G mutant P26918 P26918 1.7 X-RAY DIFFRACTION 46 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 227 227 3f9o-a2-m1-cA_3f9o-a2-m2-cA AGMSLTQVSGPVYVVEDNYYVQENSMVYFGAKGVTVVGATWTPDTARELHKLIKRVSRKPVLEVINTNYHTDRAGGNAYWKSIGAKVVSTRQTRDLMKSDWAEIVAFTRKGLPEYPDLPLVLPNVVHDGDFTLQEGKVRAFYAGPAHTPDGIFVYFPDEQVLYGGCILKEKLGNLSFADVKAYPQTLERLKAMKLPIKTVIGGHDSPLHGPELIDHYEALIKAAPQS AGMSLTQVSGPVYVVEDNYYVQENSMVYFGAKGVTVVGATWTPDTARELHKLIKRVSRKPVLEVINTNYHTDRAGGNAYWKSIGAKVVSTRQTRDLMKSDWAEIVAFTRKGLPEYPDLPLVLPNVVHDGDFTLQEGKVRAFYAGPAHTPDGIFVYFPDEQVLYGGCILKEKLGNLSFADVKAYPQTLERLKAMKLPIKTVIGGHDSPLHGPELIDHYEALIKAAPQS 3fan-a2-m1-cA_3fan-a2-m2-cA Crystal structure of chymotrypsin-like protease/proteinase (3CLSP/Nsp4) of porcine reproductive and respiratory syndrome virus (PRRSV) A1E8J1 A1E8J1 1.9 X-RAY DIFFRACTION 109 1.0 28344 (Porcine reproductive and respiratory syndrome virus) 28344 (Porcine reproductive and respiratory syndrome virus) 192 192 3fao-a2-m1-cA_3fao-a2-m2-cA 5y4l-a1-m1-cC_5y4l-a1-m1-cB 5y4l-a2-m1-cA_5y4l-a2-m1-cD FRTQKPSLNTVNVVGSSMGSGGVFTIDGKIKCVTAAHVLTGNSARVSGVGFNQMLDFDVKGDFAIADCPNWQGVAPKAQFCEDGWTGRAYWLTSSGVEPGVIGNGFAFCFTACGDSGSPVITEAGELVGVHTGGGIVTRPSGQFCNVKPIKLSELSEFFAGPKVPLGDVKIGSHIIKDTCEVPSDLCALLAA FRTQKPSLNTVNVVGSSMGSGGVFTIDGKIKCVTAAHVLTGNSARVSGVGFNQMLDFDVKGDFAIADCPNWQGVAPKAQFCEDGWTGRAYWLTSSGVEPGVIGNGFAFCFTACGDSGSPVITEAGELVGVHTGGGIVTRPSGQFCNVKPIKLSELSEFFAGPKVPLGDVKIGSHIIKDTCEVPSDLCALLAA 3fau-a1-m1-cC_3fau-a1-m1-cD Crystal Structure of human small-MutS related domain Q86UW6 Q86UW6 1.9 X-RAY DIFFRACTION 11 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 77 79 GSLDLHGLHVDEALEHLMRVLEKKTEEFKQNGGKPYLSVITGRGGGVARIKPAVIKYLISHSFRFSEIKPGCLKVML SLDLHGLHVDEALEHLMRVLEKKTEEFKQNGGKPYLSVITGRGSQGGVARIKPAVIKYLISHSFRFSEIKPGCLKVMLK 3fau-a1-m1-cD_3fau-a1-m1-cB Crystal Structure of human small-MutS related domain Q86UW6 Q86UW6 1.9 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 81 SLDLHGLHVDEALEHLMRVLEKKTEEFKQNGGKPYLSVITGRGSQGGVARIKPAVIKYLISHSFRFSEIKPGCLKVMLK SLDLHGLHVDEALEHLMRVLEKKTEEFKQNGGKPYLSVITGRGNHSQGGVARIKPAVIKYLISHSFRFSEIKPGCLKVMLK 3fau-a3-m1-cC_3fau-a3-m1-cB Crystal Structure of human small-MutS related domain Q86UW6 Q86UW6 1.9 X-RAY DIFFRACTION 44 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 77 81 3fau-a1-m1-cC_3fau-a1-m1-cB 3fau-a2-m1-cA_3fau-a2-m2-cD GSLDLHGLHVDEALEHLMRVLEKKTEEFKQNGGKPYLSVITGRGGGVARIKPAVIKYLISHSFRFSEIKPGCLKVML SLDLHGLHVDEALEHLMRVLEKKTEEFKQNGGKPYLSVITGRGNHSQGGVARIKPAVIKYLISHSFRFSEIKPGCLKVMLK 3fb9-a1-m1-cB_3fb9-a1-m1-cA The crystal structure of the protein with unknown function from Streptococcus pneumoniae TIGR4 A0A0H2US72 A0A0H2US72 1.8 X-RAY DIFFRACTION 20 0.988 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 84 89 QGMSDAFTDVAKMKKIKEEIKAHEGQVVEMTLEKNRLGKLIEVYPSLFIVEFGDVEGDKQVNVYVESFTYSDILTEKNLIHYLD GMSDAFTDVAKMKKIKEEIKAHEGQVVEMTLENGRKRQKNRLGKLIEVYPSLFIVEFGDVEGDKQVNVYVESFTYSDILTEKNLIHYLD 3fbg-a1-m1-cB_3fbg-a1-m1-cA Crystal structure of a putative arginate lyase from Staphylococcus haemolyticus Q4L864 Q4L864 1.6 X-RAY DIFFRACTION 98 1.0 279808 (Staphylococcus haemolyticus JCSC1435) 279808 (Staphylococcus haemolyticus JCSC1435) 332 336 LKAIGFEQPFKLSDGNLFKTFNLDIPEPKVHEILVKIQSISVNPVDTKQRLMDVSPRVLGFDAIGVVESVGNEVTMFNQGDIVYYSGSPDQNGSNAEYQLINERLVAKAPKNISAEQAVSLPLTGITAYETLFDVFGISRNRNENEGKTLLIINGAGGVGSIATQIAKAYGLRVITTASRNETIEWTKKMGADIVLNHKESLLNQFKTQGIELVDYVFCTFNTDMYYDDMIQLVKPRGHIATIVAFENDQDLNALKPKSLSFSHEFMFARPLNQTDDMIKHHEYLEDITNKVEQNIYQPTTTKVIEGLTTENIYQAHQILESNMIGKLVINL SLKAIGFEQPFKLSDGNLFKTFNLDIPEPKVHEILVKIQSISVNPVDTKQRLMDVSKAPRVLGFDAIGVVESVGNEVTMFNQGDIVYYSGSPDQNGSNAEYQLINERLVAKAPKNISAEQAVSLPLTGITAYETLFDVFGISRNRNENEGKTLLIINGAGGVGSIATQIAKAYGLRVITTASRNETIEWTKKMGADIVLNHKESLLNQFKTQGIELVDYVFCTFNTDMYYDDMIQLVKPRGHIATIVAFENDQDLNALKPKSLSFSHEFMFARPLNQTDDMIKHHEYLEDITNKVEQNIYQPTTTKVIEGLTTENIYQAHQILESNTMIGKLVINL 3fbk-a1-m1-cA_3fbk-a1-m1-cB Crystal structure of the C2 domain of the human regulator of G-protein signaling 3 isoform 6 (RGP3), Northeast Structural Genomics Consortium Target HR5550A P49796 P49796 2 X-RAY DIFFRACTION 56 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 137 137 QGAGQLRLSIDAQDRVLLLHIIEGKGLISKQPGTCDPYVKISLIPEDSRLRHQKTQTVPDCRDPAFHEHFFFPVQEEDDQKRLLVTVWNRASQSRQSGLIGCSFGVKSLLTKEISGWYYLLGEHLGRTKHLKVARRR VQGAGQLRLSIDAQDRVLLLHIIEGKGLISKQPGTCDPYVKISLIPEDSRLRHQKTQTVPDCRDPAFHEHFFFPVQEEDDQKRLLVTVWNRASQSRQSGLIGCSFGVKSLLTEISGWYYLLGEHLGRTKHLKVARRR 3fbn-a3-m2-cB_3fbn-a3-m2-cD Structure of the Mediator submodule Med7N/31 P38633 P38633 3.007 X-RAY DIFFRACTION 53 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 94 94 3fbn-a3-m1-cB_3fbn-a3-m1-cD SDQNPLPTRFEVELEFIQSLANIQYVTYLLTQQQIWKSPNFKNYLKYLEYWCNPPYSQCIVYPNCLFILKLLNGFMESAIVNEDGLLEGLDELP SDQNPLPTRFEVELEFIQSLANIQYVTYLLTQQQIWKSPNFKNYLKYLEYWCNPPYSQCIVYPNCLFILKLLNGFMESAIVNEDGLLEGLDELP 3fbq-a1-m2-cA_3fbq-a1-m3-cA The crystal structure of the conserved domain protein from Bacillus anthracis A0A6L8PDV7 A0A6L8PDV7 2.71 X-RAY DIFFRACTION 80 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 283 283 3fbq-a1-m1-cA_3fbq-a1-m2-cA 3fbq-a1-m1-cA_3fbq-a1-m3-cA PIVGDIFRFLDNGRTGLYENYKEFSTELNMTRESNGVKVTINDVISDGRTLSITYSLESEQDLGDDPIILGGLDIMDAHGSSGSGKMTKVTEKKYVGMVTTTHHDSNKKDKVNFRWNIEGIEIPDRKKSIQGHWNFALTVKSMDSKERTIGGSSEKEGIKANMEKVAMSPVSFILYYNQEVSKGARKEWDSVDVELTVKDDLGNDYSGEGNGGSGNDPYNIRWSATFQKLNENATKLIVTPRVHLRVHGGVEYVNGKEKKIEVPNKEAKKKDIVLDDIVIDLK PIVGDIFRFLDNGRTGLYENYKEFSTELNMTRESNGVKVTINDVISDGRTLSITYSLESEQDLGDDPIILGGLDIMDAHGSSGSGKMTKVTEKKYVGMVTTTHHDSNKKDKVNFRWNIEGIEIPDRKKSIQGHWNFALTVKSMDSKERTIGGSSEKEGIKANMEKVAMSPVSFILYYNQEVSKGARKEWDSVDVELTVKDDLGNDYSGEGNGGSGNDPYNIRWSATFQKLNENATKLIVTPRVHLRVHGGVEYVNGKEKKIEVPNKEAKKKDIVLDDIVIDLK 3fbs-a2-m1-cB_3fbs-a2-m2-cB The crystal structure of the oxidoreductase from Agrobacterium tumefaciens A9CKI7 A9CKI7 2.15 X-RAY DIFFRACTION 110 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 295 295 3fbs-a1-m1-cA_3fbs-a1-m2-cA MKFDVIIIGGSYAGLSAALQLGRARKNILLVDAGERRNRFASHSHGFLGQDGKAPGEIIAEARRQIERYPTIHWVEGRVTDAKGSFGEFIVEIDGGRRETAGRLILAMGVTDELPEIAGLRERWGSAVFHCPYCHGYELDQGKIGVIAASPMAIHHALMLPDWGETTFFTNGIVEPDADQHALLAARGVRVETTRIREIAGHADVVLADGRSIALAGLFTQPKLRITVDWIEKLGCAVEEGPMGSTIVTDPMKQTTARGIFACGDVARPAGSVALAVGDGAMAGAAAHRSILFPE MKFDVIIIGGSYAGLSAALQLGRARKNILLVDAGERRNRFASHSHGFLGQDGKAPGEIIAEARRQIERYPTIHWVEGRVTDAKGSFGEFIVEIDGGRRETAGRLILAMGVTDELPEIAGLRERWGSAVFHCPYCHGYELDQGKIGVIAASPMAIHHALMLPDWGETTFFTNGIVEPDADQHALLAARGVRVETTRIREIAGHADVVLADGRSIALAGLFTQPKLRITVDWIEKLGCAVEEGPMGSTIVTDPMKQTTARGIFACGDVARPAGSVALAVGDGAMAGAAAHRSILFPE 3fbt-a2-m1-cC_3fbt-a2-m1-cD Crystal structure of a chorismate mutase/shikimate 5-dehydrogenase fusion protein from Clostridium acetobutylicum Q97KM0 Q97KM0 2.1 X-RAY DIFFRACTION 51 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 270 272 3fbt-a1-m1-cB_3fbt-a1-m1-cA LNTSIYGLIGEKLGHSHSSYIHKLIFEKVGIKGIYNLFEVPKEKLKESVDTFKIIKCGGLNVTIPYKVEVMKELYEISEKARKIGAVNTLKFSREGISGFNTDYIGFGKMLSKFRVEIKNNICVVLGSGGAARAVLQYLKDNFAKDIYVVTRNPEKTSEIYGEFKVISYDELSNLKGDVIINCTPKGMKEGESPVDKEVVAKFSSAVDLIYNPVETLFLKYARESGVKAVNGLYMLVSQAAASEEIWNDISIDEIIVDEIFEVLEEKIKS LNTSIYGLIGEKLGHSHSSYIHKLIFEKVGIKGIYNLFEVPKEKLKESVDTFKIIKCGGLNVTIPYKVEVMKELYEISEKARKIGAVNTLKFSREGISGFNTDYIGFGKMLSKFRVEIKNNICVVLGSGGAARAVLQYLKDNFAKDIYVVTRNPEKTSEIYGEFKVISYDELSNLKGDVIINCTPKGMYPKEGESPVDKEVVAKFSSAVDLIYNPVETLFLKYARESGVKAVNGLYMLVSQAAASEEIWNDISIDEIIVDEIFEVLEEKIKS 3fbu-a2-m1-cA_3fbu-a2-m2-cB The crystal structure of the acetyltransferase (GNAT family) from Bacillus anthracis A0A6L8PM89 A0A6L8PM89 1.8 X-RAY DIFFRACTION 44 0.994 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 166 166 MFIKAERLLIRKFEFKDWEAVHEYTSDSDVMKYIPEGVFTEEDTRNFVNKNMGAKNFPVILIGENILVGHIVFHKYFGEHTYEIGWVFNPKYFNKGYASEAAQATLKYGFKEMKLHRIIATCQPENTPSYRVMEKIGMRREGYFKKCIPHGNEWWDEYYYAILEEE MFIKAERLLIRKFEFKDWEAVHEYTSDSDVMKYIPEGVFTEEDTRNFVNKNMNAKNFPVILIGENILVGHIVFHKYFGEHTYEIGWVFNPKYFNKGYASEAAQATLKYGFKEMKLHRIIATCQPENTPSYRVMEKIGMRREGYFKKCIPHGNEWWDEYYYAILEEE 3fbv-a1-m1-cB_3fbv-a1-m1-cN Crystal structure of the oligomer formed by the kinase-ribonuclease domain of Ire1 P32361 P32361 3.2 X-RAY DIFFRACTION 36 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 415 415 3fbv-a1-m1-cA_3fbv-a1-m1-cD 3fbv-a1-m1-cC_3fbv-a1-m1-cE 3fbv-a1-m1-cF_3fbv-a1-m1-cG 3fbv-a1-m1-cI_3fbv-a1-m1-cH 3fbv-a1-m1-cL_3fbv-a1-m1-cM 3sdj-a1-m1-cA_3sdj-a1-m1-cD 3sdj-a1-m1-cB_3sdj-a1-m1-cN 3sdj-a1-m1-cC_3sdj-a1-m1-cE 3sdj-a1-m1-cF_3sdj-a1-m1-cG 3sdj-a1-m1-cI_3sdj-a1-m1-cH 3sdj-a1-m1-cL_3sdj-a1-m1-cM 3sdm-a1-m1-cA_3sdm-a1-m1-cG 3sdm-a1-m1-cB_3sdm-a1-m1-cD 3sdm-a1-m1-cC_3sdm-a1-m1-cE 3sdm-a1-m2-cA_3sdm-a1-m2-cG 3sdm-a1-m2-cB_3sdm-a1-m2-cD 3sdm-a1-m2-cC_3sdm-a1-m2-cE LKNLVVSEKILGYGSSGTVVFQGSFQGRPVAVKRMLIDFCDIALMEIKLLTESDDHPNVIRYYCSETTDRFLYIALELCNLNLQDLVESKNVSDENLKLQKEYNPISLLRQIASGVAHLHSLKIIHRDLKPQNILVSTSSRFTADQQTGAENLRILISDFGLCKKLDSGQFRNLNNPSGTSGWRAPELLEESTKRRLTRSIDIFSMGCVFYYILSKGKHPFGDKYSRESNIIRGIFSLDEMKCLHDRSLIAEATDLISQMIDHDPLKRPTAMKVLRHPLFWPKSKKLEFLLKVSDRLEIENRDPPSALLMKFDAGSDFVIPSGDWTVKFDKTFMDNLERYRKYHSSKLMDLLRALRNKYHHFMDLPEDIAELMGPVPDGFYDYFTKRFPNLLIGVYMIVKENLSDDQILREFLYS LKNLVVSEKILGYGSSGTVVFQGSFQGRPVAVKRMLIDFCDIALMEIKLLTESDDHPNVIRYYCSETTDRFLYIALELCNLNLQDLVESKNVSDENLKLQKEYNPISLLRQIASGVAHLHSLKIIHRDLKPQNILVSTSSRFTADQQTGAENLRILISDFGLCKKLDSGQFRNLNNPSGTSGWRAPELLEESTKRRLTRSIDIFSMGCVFYYILSKGKHPFGDKYSRESNIIRGIFSLDEMKCLHDRSLIAEATDLISQMIDHDPLKRPTAMKVLRHPLFWPKSKKLEFLLKVSDRLEIENRDPPSALLMKFDAGSDFVIPSGDWTVKFDKTFMDNLERYRKYHSSKLMDLLRALRNKYHHFMDLPEDIAELMGPVPDGFYDYFTKRFPNLLIGVYMIVKENLSDDQILREFLYS 3fbv-a8-m1-cM_3fbv-a8-m1-cN Crystal structure of the oligomer formed by the kinase-ribonuclease domain of Ire1 P32361 P32361 3.2 X-RAY DIFFRACTION 78 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 415 415 2rio-a1-m1-cB_2rio-a1-m1-cA 3fbv-a1-m1-cA_3fbv-a1-m1-cB 3fbv-a1-m1-cC_3fbv-a1-m1-cD 3fbv-a1-m1-cE_3fbv-a1-m1-cF 3fbv-a1-m1-cG_3fbv-a1-m1-cH 3fbv-a1-m1-cI_3fbv-a1-m1-cJ 3fbv-a1-m1-cL_3fbv-a1-m1-cK 3fbv-a1-m1-cM_3fbv-a1-m1-cN 3fbv-a2-m1-cA_3fbv-a2-m1-cB 3fbv-a3-m1-cC_3fbv-a3-m1-cD 3fbv-a4-m1-cE_3fbv-a4-m1-cF 3fbv-a5-m1-cG_3fbv-a5-m1-cH 3fbv-a6-m1-cI_3fbv-a6-m1-cJ 3fbv-a7-m1-cL_3fbv-a7-m1-cK 3lj0-a1-m1-cB_3lj0-a1-m1-cA 3lj1-a1-m1-cA_3lj1-a1-m2-cA 3lj1-a2-m1-cB_3lj1-a2-m3-cB 3lj2-a1-m1-cA_3lj2-a1-m2-cA 3lj2-a2-m1-cB_3lj2-a2-m3-cB 3sdj-a1-m1-cA_3sdj-a1-m1-cB 3sdj-a1-m1-cC_3sdj-a1-m1-cD 3sdj-a1-m1-cE_3sdj-a1-m1-cF 3sdj-a1-m1-cG_3sdj-a1-m1-cH 3sdj-a1-m1-cI_3sdj-a1-m1-cJ 3sdj-a1-m1-cL_3sdj-a1-m1-cK 3sdj-a1-m1-cM_3sdj-a1-m1-cN 3sdj-a2-m1-cA_3sdj-a2-m1-cB 3sdj-a3-m1-cC_3sdj-a3-m1-cD 3sdj-a4-m1-cE_3sdj-a4-m1-cF 3sdj-a5-m1-cG_3sdj-a5-m1-cH 3sdj-a6-m1-cI_3sdj-a6-m1-cJ 3sdj-a7-m1-cL_3sdj-a7-m1-cK 3sdj-a8-m1-cM_3sdj-a8-m1-cN 3sdm-a1-m1-cA_3sdm-a1-m1-cB 3sdm-a1-m1-cC_3sdm-a1-m1-cD 3sdm-a1-m1-cE_3sdm-a1-m2-cE 3sdm-a1-m1-cF_3sdm-a1-m1-cG 3sdm-a1-m2-cA_3sdm-a1-m2-cB 3sdm-a1-m2-cC_3sdm-a1-m2-cD 3sdm-a1-m2-cF_3sdm-a1-m2-cG 3sdm-a2-m1-cA_3sdm-a2-m1-cB 3sdm-a3-m1-cC_3sdm-a3-m1-cD 3sdm-a4-m1-cE_3sdm-a4-m2-cE 3sdm-a5-m1-cF_3sdm-a5-m1-cG LKNLVVSEKILGYGSSGTVVFQGSFQGRPVAVKRMLIDFCDIALMEIKLLTESDDHPNVIRYYCSETTDRFLYIALELCNLNLQDLVESKNVSDENLKLQKEYNPISLLRQIASGVAHLHSLKIIHRDLKPQNILVSTSSRFTADQQTGAENLRILISDFGLCKKLDSGQFRNLNNPSGTSGWRAPELLEESTKRRLTRSIDIFSMGCVFYYILSKGKHPFGDKYSRESNIIRGIFSLDEMKCLHDRSLIAEATDLISQMIDHDPLKRPTAMKVLRHPLFWPKSKKLEFLLKVSDRLEIENRDPPSALLMKFDAGSDFVIPSGDWTVKFDKTFMDNLERYRKYHSSKLMDLLRALRNKYHHFMDLPEDIAELMGPVPDGFYDYFTKRFPNLLIGVYMIVKENLSDDQILREFLYS LKNLVVSEKILGYGSSGTVVFQGSFQGRPVAVKRMLIDFCDIALMEIKLLTESDDHPNVIRYYCSETTDRFLYIALELCNLNLQDLVESKNVSDENLKLQKEYNPISLLRQIASGVAHLHSLKIIHRDLKPQNILVSTSSRFTADQQTGAENLRILISDFGLCKKLDSGQFRNLNNPSGTSGWRAPELLEESTKRRLTRSIDIFSMGCVFYYILSKGKHPFGDKYSRESNIIRGIFSLDEMKCLHDRSLIAEATDLISQMIDHDPLKRPTAMKVLRHPLFWPKSKKLEFLLKVSDRLEIENRDPPSALLMKFDAGSDFVIPSGDWTVKFDKTFMDNLERYRKYHSSKLMDLLRALRNKYHHFMDLPEDIAELMGPVPDGFYDYFTKRFPNLLIGVYMIVKENLSDDQILREFLYS 3fbx-a1-m1-cA_3fbx-a1-m2-cA Crystal structure of the lysosomal 66.3 kDa protein from mouse solved by S-SAD Q3TCN2 Q3TCN2 2.4 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 519 519 3fgw-a1-m1-cA_3fgw-a1-m2-cA VSRTRSLLLDAASGQLRLEDGFHPDAVAWANLTNAIRETGWAYLDLSTNGRYNDSLQAYAAGVVEASVSEELIYMHWMNTVVNYCGPFEYEVGYCEKLKNFLEANLEWMQREMELNPDSPYWHQVRLTLLQLKGLEDSYEGRLTFPTGRFTIKPLGFLLLQISGDLEDLEPALNKTSALIKLLPGGHDLLVAHNTWNSYQNMLRIIKKYRLQFREGPQEEYPLVAGNNLVFSSYPGTIFSGDDFYILGSGLVTLETTIGNKNPALWKYVQPQGCVLEWIRNVVANRLALDGATWADVFKRFNSGTYNNQWMIVDYKAFLPNGPSPGSRVLTILEQIPGMVVVADKTAELYKTTYWASYNIPYFETVFNASGLQALVAQYGDWFSYTKNPRAKIFQRDQSLVEDMDAMVRLMRYNDFLHDPLSLCEACNPKPNAENAISARSDLNPANGSYPFQALHQRAHGGIDVKVTSFTLAKYMSMLAASGPTWDQCPPFQWSKSPFHSMLHMGQPDLWMFSPIRVP VSRTRSLLLDAASGQLRLEDGFHPDAVAWANLTNAIRETGWAYLDLSTNGRYNDSLQAYAAGVVEASVSEELIYMHWMNTVVNYCGPFEYEVGYCEKLKNFLEANLEWMQREMELNPDSPYWHQVRLTLLQLKGLEDSYEGRLTFPTGRFTIKPLGFLLLQISGDLEDLEPALNKTSALIKLLPGGHDLLVAHNTWNSYQNMLRIIKKYRLQFREGPQEEYPLVAGNNLVFSSYPGTIFSGDDFYILGSGLVTLETTIGNKNPALWKYVQPQGCVLEWIRNVVANRLALDGATWADVFKRFNSGTYNNQWMIVDYKAFLPNGPSPGSRVLTILEQIPGMVVVADKTAELYKTTYWASYNIPYFETVFNASGLQALVAQYGDWFSYTKNPRAKIFQRDQSLVEDMDAMVRLMRYNDFLHDPLSLCEACNPKPNAENAISARSDLNPANGSYPFQALHQRAHGGIDVKVTSFTLAKYMSMLAASGPTWDQCPPFQWSKSPFHSMLHMGQPDLWMFSPIRVP 3fca-a1-m2-cA_3fca-a1-m2-cB Genetic Incorporation of a Metal-ion Chelating Amino Acid into proteins as biophysical probe 2.149 X-RAY DIFFRACTION 45 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 290 290 1o58-a1-m1-cC_1o58-a1-m1-cA 1o58-a1-m1-cD_1o58-a1-m1-cB 3fca-a1-m1-cA_3fca-a1-m1-cB MMERLIGSTPIVRLDSIDSRILKLEKNNPGGSVKDRPALFMILDAEKRGLLKNGIVEPTSGNMGIAIAMIGAKRGHRVILTMPETMSVERRKVLKMLGAELVLTPGELGMKGAVEKALEISRETGAHMLNQFENPYNVYSHQFTTGPEILKQMDYQIDAFVAGVGTGGTISGVGRVLKGFFGNGVKIVAVEPAKSPVLSGGQPGKHAIQGIGAGFVPKILDRSVIDEVITVEDEEAYEMARYLAKKEGLLVGISSGANVAAALKVAQKLGPDARVVTVAPDHAERYLSIL MMERLIGSTPIVRLDSIDSRILKLEKNNPGGSVKDRPALFMILDAEKRGLLKNGIVEPTSGNMGIAIAMIGAKRGHRVILTMPETMSVERRKVLKMLGAELVLTPGELGMKGAVEKALEISRETGAHMLNQFENPYNVYSHQFTTGPEILKQMDYQIDAFVAGVGTGGTISGVGRVLKGFFGNGVKIVAVEPAKSPVLSGGQPGKHAIQGIGAGFVPKILDRSVIDEVITVEDEEAYEMARYLAKKEGLLVGISSGANVAAALKVAQKLGPDARVVTVAPDHAERYLSIL 3fcd-a1-m1-cA_3fcd-a1-m1-cB Crystal Structure of a putative glyoxalase from an environmental bacteria Q93AH5 Q93AH5 1.92 X-RAY DIFFRACTION 92 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 114 116 IHQITPFLHIPDQEALTLFCDTLGFELKYRHSNYAYLELSGCGLRLLEEPARVAICIDVSDIDSLHTKLSPALENLPADQVEPLKNPYGQREFQVRPDGDWLNFTAPLAEGHHH IHQITPFLHIPDQEALTLFCDTLGFELKYRHSNYAYLELSGCGLRLLEEPARVAICIDVSDIDSLHTKLSPALENLPADQVEPLKNPYGQREFQVRPDGDWLNFTAPLAEGHHHHH 3fcg-a1-m1-cB_3fcg-a1-m1-cA Crystal Structure Analysis of the Middle Domain of the Caf1A Usher P26949 P26949 2.85 X-RAY DIFFRACTION 66 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 71 75 PYYQWNFAPVVRGIARTQARVEVLRDGYTVSNELVPSGPFELANLPELKVIIHESDGTKQVFTVPYDTPAV PYYQWNFAPVVRGIARTQARVEVLRDGYTVSNELVPSGPFELANLPGSGELKVIIHESDGTKQVFTVPYDTPAVA 3fch-a2-m5-cB_3fch-a2-m1-cA The structure of a previously undetected carboxysome shell protein: CsoS1D from Prochlorococcus marinus MED4 Q7V2D3 Q7V2D3 2.201 X-RAY DIFFRACTION 77 0.99 59919 (Prochlorococcus marinus subsp. pastoris str. CCMP1986) 59919 (Prochlorococcus marinus subsp. pastoris str. CCMP1986) 203 205 3f56-a1-m1-cD_3f56-a1-m1-cA 3f56-a1-m1-cE_3f56-a1-m1-cC 3f56-a1-m1-cF_3f56-a1-m1-cB 3fch-a1-m4-cB_3fch-a1-m3-cA 3fch-a1-m5-cB_3fch-a1-m1-cA 3fch-a1-m6-cB_3fch-a1-m2-cA IELRTYVFLDSLQPQLAAYMGTVSRGFLPIPGDSCLWMEVSPGMAVHRVTDIALKASNVRLGQMIVERAFGSLALYHKDQSTVLHSGDVVLDAIGSEVRKRTKPSTSWTEVICAITPDHAVLINRQNRSGSMIQSGMSMFILETEPAGYVLKAANEAEKSANITIIDVKAVGAFGRLTLAGKEGDVEEAAAAAIRAIDQISNY QVEQIELRTYVFLDSLQPQLAAYMGTVSRGFLPIPGDSCLWMEVSPGMAVHRVTDIALKASNVRLGQMIVERAFGSLALYHKDQSTVLHSGDVVLDAIGSEVRKRTKPSTSWTEVICAITPDHAVLINRQNRSGSMIQSGMSMFILETEPAGYVLKAANEAEKSANITIIDVKAVGAFGRLTLAGKEGDVEEAAAAAIRAIDQIS 3fch-a4-m7-cB_3fch-a4-m8-cB The structure of a previously undetected carboxysome shell protein: CsoS1D from Prochlorococcus marinus MED4 Q7V2D3 Q7V2D3 2.201 X-RAY DIFFRACTION 50 1.0 59919 (Prochlorococcus marinus subsp. pastoris str. CCMP1986) 59919 (Prochlorococcus marinus subsp. pastoris str. CCMP1986) 203 203 3f56-a1-m1-cA_3f56-a1-m1-cB 3f56-a1-m1-cA_3f56-a1-m1-cC 3f56-a1-m1-cC_3f56-a1-m1-cB 3f56-a1-m1-cD_3f56-a1-m1-cF 3f56-a1-m1-cE_3f56-a1-m1-cD 3f56-a1-m1-cE_3f56-a1-m1-cF 3fch-a1-m1-cA_3fch-a1-m2-cA 3fch-a1-m1-cA_3fch-a1-m3-cA 3fch-a1-m2-cA_3fch-a1-m3-cA 3fch-a1-m4-cB_3fch-a1-m5-cB 3fch-a1-m4-cB_3fch-a1-m6-cB 3fch-a1-m5-cB_3fch-a1-m6-cB 3fch-a3-m1-cA_3fch-a3-m2-cA 3fch-a3-m1-cA_3fch-a3-m3-cA 3fch-a3-m2-cA_3fch-a3-m3-cA 3fch-a4-m1-cB_3fch-a4-m7-cB 3fch-a4-m1-cB_3fch-a4-m8-cB IELRTYVFLDSLQPQLAAYMGTVSRGFLPIPGDSCLWMEVSPGMAVHRVTDIALKASNVRLGQMIVERAFGSLALYHKDQSTVLHSGDVVLDAIGSEVRKRTKPSTSWTEVICAITPDHAVLINRQNRSGSMIQSGMSMFILETEPAGYVLKAANEAEKSANITIIDVKAVGAFGRLTLAGKEGDVEEAAAAAIRAIDQISNY IELRTYVFLDSLQPQLAAYMGTVSRGFLPIPGDSCLWMEVSPGMAVHRVTDIALKASNVRLGQMIVERAFGSLALYHKDQSTVLHSGDVVLDAIGSEVRKRTKPSTSWTEVICAITPDHAVLINRQNRSGSMIQSGMSMFILETEPAGYVLKAANEAEKSANITIIDVKAVGAFGRLTLAGKEGDVEEAAAAAIRAIDQISNY 3fcm-a1-m1-cA_3fcm-a1-m2-cB Crystal structure of a NUDIX hydrolase from Clostridium perfringens A0A0H2YP99 A0A0H2YP99 2.2 X-RAY DIFFRACTION 86 1.0 195103 (Clostridium perfringens ATCC 13124) 195103 (Clostridium perfringens ATCC 13124) 176 179 LNYIEDIKNYIPFNEQEERDKELFLRCLNDFHDILTRDNTIAHLTSSAFAVNKERNKFLIHHNIYNSWAWTGGHSDNEKDQLKVAIKELKEETGVKNPTPLLDKAFALDVLTVNGHIKRGKYVSSHLHLNLTYLIECSEDETLLKEGVWIPFNEISKYCSEPHIPIYEKLINKLKT LNYIEDIKNYIPFNEQEERDKELFLRCLNDFHDILTRDNTIAHLTSSAFAVNKERNKFLIHHNIYNSWAWTGGHSDNEKDQLKVAIKELKEETGVKNPTPLLDKAFALDVLTVNGHIKRGKYVSSHLHLNLTYLIECSEDETLLKENSGVWIPFNEISKYCSEPHIPIYEKLINKLKTQ 3fcm-a2-m1-cA_3fcm-a2-m1-cB Crystal structure of a NUDIX hydrolase from Clostridium perfringens A0A0H2YP99 A0A0H2YP99 2.2 X-RAY DIFFRACTION 28 1.0 195103 (Clostridium perfringens ATCC 13124) 195103 (Clostridium perfringens ATCC 13124) 176 179 LNYIEDIKNYIPFNEQEERDKELFLRCLNDFHDILTRDNTIAHLTSSAFAVNKERNKFLIHHNIYNSWAWTGGHSDNEKDQLKVAIKELKEETGVKNPTPLLDKAFALDVLTVNGHIKRGKYVSSHLHLNLTYLIECSEDETLLKEGVWIPFNEISKYCSEPHIPIYEKLINKLKT LNYIEDIKNYIPFNEQEERDKELFLRCLNDFHDILTRDNTIAHLTSSAFAVNKERNKFLIHHNIYNSWAWTGGHSDNEKDQLKVAIKELKEETGVKNPTPLLDKAFALDVLTVNGHIKRGKYVSSHLHLNLTYLIECSEDETLLKENSGVWIPFNEISKYCSEPHIPIYEKLINKLKTQ 3fcn-a1-m1-cA_3fcn-a1-m2-cA Crystal structure of an alpha-helical protein of unknown function (rru_a3208) from rhodospirillum rubrum atcc 11170 at 1.45 A resolution Q2RPE2 Q2RPE2 1.45 X-RAY DIFFRACTION 45 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 154 154 EHKTYEADLFVWCQQQADGLRALSRSRRDLPDDLDLEHIAEEIEDGRSELREATSLVRQICVRVIASAPEAPDRARWRSEVVSWHNLLLDTITPGIDRIDIGVIWRRAVSEAKAALIEINVAPQAGLSFQAPLPADHFLDEDFDYDATVARLGP EHKTYEADLFVWCQQQADGLRALSRSRRDLPDDLDLEHIAEEIEDGRSELREATSLVRQICVRVIASAPEAPDRARWRSEVVSWHNLLLDTITPGIDRIDIGVIWRRAVSEAKAALIEINVAPQAGLSFQAPLPADHFLDEDFDYDATVARLGP 3fcp-a1-m1-cD_3fcp-a1-m1-cH Crystal structure of Muconate lactonizing enzyme from Klebsiella pneumoniae A6T9N5 A6T9N5 1.8 X-RAY DIFFRACTION 29 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 354 356 3fcp-a1-m1-cB_3fcp-a1-m1-cE 3fcp-a1-m1-cB_3fcp-a1-m1-cG 3fcp-a1-m1-cC_3fcp-a1-m1-cA 3fcp-a1-m1-cC_3fcp-a1-m1-cH 3fcp-a1-m1-cD_3fcp-a1-m1-cA 3fcp-a1-m1-cF_3fcp-a1-m1-cE 3fcp-a1-m1-cF_3fcp-a1-m1-cG ATVEQIESWIVDVPTICQSLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLKGQPADNLNALTARMNGAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTALPVLWTLASGDTAKDIAEGEKLLARAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQQIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVSVPLTFADGQVALPQTPGLGVELDEDKLHFYTRQ LTATVEQIESWIVDVPTICQSLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLKGQPADNLNALTARMNGAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTALPVLWTLASGDTAKDIAEGEKLLARAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQQIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVSVPLTFADGQVALPQTPGLGVELDEDKLHFYTRQ 3fcp-a1-m1-cF_3fcp-a1-m1-cH Crystal structure of Muconate lactonizing enzyme from Klebsiella pneumoniae A6T9N5 A6T9N5 1.8 X-RAY DIFFRACTION 64 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 354 356 3fcp-a1-m1-cB_3fcp-a1-m1-cA 3fcp-a1-m1-cC_3fcp-a1-m1-cE 3fcp-a1-m1-cD_3fcp-a1-m1-cG ATVEQIESWIVDVPTICQSLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLKGQPADNLNALTARMNGAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTALPVLWTLASGDTAKDIAEGEKLLARAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQQIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVSVPLTFADGQVALPQTPGLGVELDEDKLHFYTRQ LTATVEQIESWIVDVPTICQSLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLKGQPADNLNALTARMNGAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTALPVLWTLASGDTAKDIAEGEKLLARAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQQIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVSVPLTFADGQVALPQTPGLGVELDEDKLHFYTRQ 3fcp-a1-m1-cG_3fcp-a1-m1-cH Crystal structure of Muconate lactonizing enzyme from Klebsiella pneumoniae A6T9N5 A6T9N5 1.8 X-RAY DIFFRACTION 83 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 354 356 3fcp-a1-m1-cB_3fcp-a1-m1-cD 3fcp-a1-m1-cC_3fcp-a1-m1-cF 3fcp-a1-m1-cE_3fcp-a1-m1-cA ATVEQIESWIVDVPTICQSLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLKGQPADNLNALTARMNGAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTALPVLWTLASGDTAKDIAEGEKLLARAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQQIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVSVPLTFADGQVALPQTPGLGVELDEDKLHFYTRQ LTATVEQIESWIVDVPTICQSLVIVRLTRSDGICGIGEATTIGGLSYGVESPEAISSAITHYLTPLLKGQPADNLNALTARMNGAIKGNTFAKSAIETALLDAQGKALGLPVSALLGGALQTALPVLWTLASGDTAKDIAEGEKLLARAFKLKIGARELATDLRHTRAIVEALGDRASIRVDVNQAWDAATGAKGCRELAAMGVDLIEQPVSAHDNAALVRLSQQIETAILADEAVATAYDGYQLAQQGFTGAYALKIAKAGGPNSVLALARVAQAAGIGLYGGTMLEGTVGTVASLHAWSTLPLQWGTEMFGPLLLKDDIVSVPLTFADGQVALPQTPGLGVELDEDKLHFYTRQ 3fcr-a1-m1-cA_3fcr-a1-m2-cA Crystal structure of putative aminotransferase (YP_614685.1) from SILICIBACTER SP. TM1040 at 1.80 A resolution Q1GD43 Q1GD43 1.8 X-RAY DIFFRACTION 417 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 451 451 GLKNDQLDQWDRDNFFHPSTHLAQHARGESANRVIKTASGVFIEDRDGTKLLDAFAGLYCVNVGYGRQEIAEAIADQARELAYYHSYVGHGTEASITLAKILDRAPKNSKVYFGLGGSDANETNVKLIWYYNNILGRPEKKKIISRWRGYHGSGLVTGSLTGLELFHKKFDLPVEQVIHTEAPYYFRREDLNQTEEQFVAHCVAELEALIEREGADTIAAFIGEPILGTGGIVPPPAGYWEAIQTVLNKHDILLVADEVVTGFGRLGTFGSDHYGLEPDIITIAGLTSAYAPLSGSIVSDKVWKVLEQGTDENGPIGHGWTYSAHPIGAAAGVANLKLLDELNLVSNAGEVGAYLNATAEALSQHANVGDVRGEGLLCAVEFVKDRDSRTFFDAADKIGPQISAKLLEQDKIIARAPQGDILGFAPPFCLTRAEADQVVEGTLRAVKAVLG GLKNDQLDQWDRDNFFHPSTHLAQHARGESANRVIKTASGVFIEDRDGTKLLDAFAGLYCVNVGYGRQEIAEAIADQARELAYYHSYVGHGTEASITLAKILDRAPKNSKVYFGLGGSDANETNVKLIWYYNNILGRPEKKKIISRWRGYHGSGLVTGSLTGLELFHKKFDLPVEQVIHTEAPYYFRREDLNQTEEQFVAHCVAELEALIEREGADTIAAFIGEPILGTGGIVPPPAGYWEAIQTVLNKHDILLVADEVVTGFGRLGTFGSDHYGLEPDIITIAGLTSAYAPLSGSIVSDKVWKVLEQGTDENGPIGHGWTYSAHPIGAAAGVANLKLLDELNLVSNAGEVGAYLNATAEALSQHANVGDVRGEGLLCAVEFVKDRDSRTFFDAADKIGPQISAKLLEQDKIIARAPQGDILGFAPPFCLTRAEADQVVEGTLRAVKAVLG 3fcw-a2-m1-cB_3fcw-a2-m3-cB Crystal structure of the Mimivirus NDK N62L mutant complexed with UDP Q5UQL3 Q5UQL3 2.4 X-RAY DIFFRACTION 51 1.0 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 128 128 2b8q-a1-m1-cC_2b8q-a1-m2-cA 2b8q-a1-m1-cE_2b8q-a1-m2-cE 2b8q-a1-m2-cC_2b8q-a1-m1-cA 2b8q-a2-m1-cB_2b8q-a2-m3-cB 2b8q-a2-m1-cF_2b8q-a2-m3-cD 2b8q-a2-m3-cF_2b8q-a2-m1-cD 3b6b-a1-m1-cA_3b6b-a1-m2-cC 3b6b-a1-m1-cE_3b6b-a1-m2-cE 3b6b-a1-m2-cA_3b6b-a1-m1-cC 3b6b-a2-m1-cB_3b6b-a2-m3-cB 3b6b-a2-m1-cF_3b6b-a2-m3-cD 3b6b-a2-m3-cF_3b6b-a2-m1-cD 3ddi-a1-m1-cA_3ddi-a1-m3-cB 3ddi-a1-m1-cB_3ddi-a1-m2-cA 3ddi-a1-m2-cB_3ddi-a1-m3-cA 3ddi-a2-m1-cA_3ddi-a2-m3-cB 3dkd-a1-m1-cA_3dkd-a1-m1-cB 3dkd-a1-m2-cA_3dkd-a1-m2-cB 3dkd-a1-m3-cA_3dkd-a1-m3-cB 3ee3-a1-m1-cA_3ee3-a1-m2-cC 3ee3-a1-m1-cE_3ee3-a1-m2-cE 3ee3-a1-m2-cA_3ee3-a1-m1-cC 3ee3-a2-m1-cB_3ee3-a2-m3-cB 3ee3-a2-m1-cF_3ee3-a2-m3-cD 3ee3-a2-m3-cF_3ee3-a2-m1-cD 3eic-a1-m1-cC_3eic-a1-m2-cA 3eic-a1-m1-cE_3eic-a1-m2-cE 3eic-a1-m2-cC_3eic-a1-m1-cA 3eic-a2-m1-cB_3eic-a2-m3-cB 3eic-a2-m1-cF_3eic-a2-m3-cD 3eic-a2-m3-cF_3eic-a2-m1-cD 3ejm-a1-m1-cA_3ejm-a1-m1-cB 3ejm-a2-m1-cA_3ejm-a2-m1-cB 3ejm-a2-m2-cA_3ejm-a2-m2-cB 3ejm-a2-m3-cA_3ejm-a2-m3-cB 3elh-a1-m1-cC_3elh-a1-m2-cA 3elh-a1-m1-cE_3elh-a1-m2-cE 3elh-a1-m2-cC_3elh-a1-m1-cA 3elh-a2-m1-cB_3elh-a2-m3-cB 3elh-a2-m1-cF_3elh-a2-m3-cD 3elh-a2-m3-cF_3elh-a2-m1-cD 3em1-a1-m1-cA_3em1-a1-m1-cB 3em1-a1-m2-cA_3em1-a1-m2-cB 3em1-a1-m3-cA_3em1-a1-m3-cB 3emt-a1-m1-cA_3emt-a1-m1-cB 3emt-a1-m2-cA_3emt-a1-m2-cB 3emt-a1-m3-cA_3emt-a1-m3-cB 3ena-a1-m1-cB_3ena-a1-m1-cA 3ena-a1-m2-cB_3ena-a1-m2-cA 3ena-a1-m3-cB_3ena-a1-m3-cA 3etm-a1-m1-cA_3etm-a1-m1-cB 3etm-a1-m2-cA_3etm-a1-m2-cB 3etm-a1-m3-cA_3etm-a1-m3-cB 3evm-a1-m1-cB_3evm-a1-m1-cA 3evm-a1-m2-cB_3evm-a1-m2-cA 3evm-a1-m3-cB_3evm-a1-m3-cA 3evo-a1-m1-cA_3evo-a1-m1-cB 3evo-a1-m2-cA_3evo-a1-m2-cB 3evo-a1-m3-cA_3evo-a1-m3-cB 3evw-a1-m1-cC_3evw-a1-m2-cA 3evw-a1-m1-cE_3evw-a1-m2-cE 3evw-a1-m2-cC_3evw-a1-m1-cA 3evw-a2-m1-cB_3evw-a2-m3-cB 3evw-a2-m1-cF_3evw-a2-m3-cD 3evw-a2-m3-cF_3evw-a2-m1-cD 3fbb-a1-m1-cC_3fbb-a1-m2-cA 3fbb-a1-m1-cE_3fbb-a1-m2-cE 3fbb-a1-m2-cC_3fbb-a1-m1-cA 3fbb-a2-m1-cB_3fbb-a2-m3-cB 3fbb-a2-m1-cF_3fbb-a2-m3-cD 3fbb-a2-m3-cF_3fbb-a2-m1-cD 3fbc-a1-m1-cA_3fbc-a1-m2-cC 3fbc-a1-m1-cE_3fbc-a1-m2-cE 3fbc-a1-m2-cA_3fbc-a1-m1-cC 3fbc-a2-m1-cB_3fbc-a2-m3-cB 3fbc-a2-m1-cF_3fbc-a2-m3-cD 3fbc-a2-m3-cF_3fbc-a2-m1-cD 3fbe-a1-m1-cC_3fbe-a1-m2-cA 3fbe-a1-m1-cE_3fbe-a1-m2-cE 3fbe-a1-m2-cC_3fbe-a1-m1-cA 3fbe-a2-m1-cB_3fbe-a2-m3-cB 3fbe-a2-m1-cF_3fbe-a2-m3-cD 3fbe-a2-m3-cF_3fbe-a2-m1-cD 3fbf-a1-m1-cA_3fbf-a1-m2-cC 3fbf-a1-m1-cE_3fbf-a1-m2-cE 3fbf-a1-m2-cA_3fbf-a1-m1-cC 3fbf-a2-m1-cB_3fbf-a2-m3-cB 3fbf-a2-m1-cF_3fbf-a2-m3-cD 3fbf-a2-m3-cF_3fbf-a2-m1-cD 3fc9-a1-m1-cB_3fc9-a1-m2-cA 3fc9-a1-m1-cF_3fc9-a1-m2-cF 3fc9-a1-m2-cB_3fc9-a1-m1-cA 3fc9-a2-m1-cC_3fc9-a2-m3-cC 3fc9-a2-m1-cE_3fc9-a2-m3-cD 3fc9-a2-m3-cE_3fc9-a2-m1-cD 3fcv-a1-m1-cB_3fcv-a1-m1-cA 3fcv-a1-m2-cB_3fcv-a1-m2-cA 3fcv-a1-m3-cB_3fcv-a1-m3-cA 3fcw-a1-m1-cA_3fcw-a1-m2-cC 3fcw-a1-m1-cE_3fcw-a1-m2-cE 3fcw-a1-m2-cA_3fcw-a1-m1-cC 3fcw-a2-m1-cF_3fcw-a2-m3-cD 3fcw-a2-m3-cF_3fcw-a2-m1-cD 3g2x-a1-m1-cA_3g2x-a1-m2-cC 3g2x-a1-m1-cB_3g2x-a1-m2-cB 3g2x-a1-m2-cA_3g2x-a1-m1-cC 3g2x-a2-m1-cD_3g2x-a2-m3-cD 3g2x-a2-m1-cF_3g2x-a2-m3-cE 3g2x-a2-m3-cF_3g2x-a2-m1-cE 3gp9-a1-m1-cC_3gp9-a1-m2-cA 3gp9-a1-m1-cE_3gp9-a1-m2-cE 3gp9-a1-m2-cC_3gp9-a1-m1-cA 3gp9-a2-m1-cB_3gp9-a2-m3-cB 3gp9-a2-m1-cF_3gp9-a2-m3-cD 3gp9-a2-m3-cF_3gp9-a2-m1-cD 3gpa-a1-m1-cC_3gpa-a1-m2-cA 3gpa-a1-m1-cE_3gpa-a1-m2-cE 3gpa-a1-m2-cC_3gpa-a1-m1-cA 3gpa-a2-m1-cB_3gpa-a2-m3-cB 3gpa-a2-m1-cF_3gpa-a2-m3-cD 3gpa-a2-m3-cF_3gpa-a2-m1-cD LQRTLVLIKPDAFERSLVAEIMGRIEKKNFKIVSMKFWSKAPRNLIEQHYKEHSEQSYFNDLCDFMVSGPIISIVYEGTDAISKIRRLQGNILTPGTIRGDLANDIRENLIHASDSEDSAVDEISIWF LQRTLVLIKPDAFERSLVAEIMGRIEKKNFKIVSMKFWSKAPRNLIEQHYKEHSEQSYFNDLCDFMVSGPIISIVYEGTDAISKIRRLQGNILTPGTIRGDLANDIRENLIHASDSEDSAVDEISIWF 3fcy-a1-m1-cC_3fcy-a1-m2-cC Crystal Structure of Acetyl Xylan Esterase 1 from Thermoanaerobacterium sp. JW/SL YS485 O30361 O30361 2.1 X-RAY DIFFRACTION 74 1.0 317 317 3fcy-a1-m1-cA_3fcy-a1-m1-cB 3fcy-a1-m2-cA_3fcy-a1-m2-cB FDMPLQKLREYTGTNPCPEDFDEYWNRALDEMRSVDPKIELKESSFQVSFAECYDLYFTGVRGARIHAKYIKPKTEGKHPALIRFHGYSSNSGDWNDKLNYVAAGFTVVAMDVRGQGGQSQDVGGVTGNTLNGHIIRGLDDDADNMLFRHIFLDTAQLAGIVMNMPEVDEDRVGVMGPSQGGGLSLACAALEPRVRKVVSEYPFLSDYKRVWDLDLAKNAYQEITDYFRLFDPRHERENEVFTKLGYIDVKNLAKRIKGDVLMCVGLMDQVCPPSTVFAAYNNIQSKKDIKVYPDYGHEPMRGFGDLAMQFMLELYS FDMPLQKLREYTGTNPCPEDFDEYWNRALDEMRSVDPKIELKESSFQVSFAECYDLYFTGVRGARIHAKYIKPKTEGKHPALIRFHGYSSNSGDWNDKLNYVAAGFTVVAMDVRGQGGQSQDVGGVTGNTLNGHIIRGLDDDADNMLFRHIFLDTAQLAGIVMNMPEVDEDRVGVMGPSQGGGLSLACAALEPRVRKVVSEYPFLSDYKRVWDLDLAKNAYQEITDYFRLFDPRHERENEVFTKLGYIDVKNLAKRIKGDVLMCVGLMDQVCPPSTVFAAYNNIQSKKDIKVYPDYGHEPMRGFGDLAMQFMLELYS 3fcy-a1-m2-cA_3fcy-a1-m2-cC Crystal Structure of Acetyl Xylan Esterase 1 from Thermoanaerobacterium sp. JW/SL YS485 O30361 O30361 2.1 X-RAY DIFFRACTION 21 1.0 317 317 3fcy-a1-m1-cA_3fcy-a1-m1-cC 3fcy-a1-m1-cA_3fcy-a1-m2-cB 3fcy-a1-m1-cB_3fcy-a1-m2-cA 3fcy-a1-m1-cB_3fcy-a1-m2-cC 3fcy-a1-m1-cC_3fcy-a1-m2-cB FDMPLQKLREYTGTNPCPEDFDEYWNRALDEMRSVDPKIELKESSFQVSFAECYDLYFTGVRGARIHAKYIKPKTEGKHPALIRFHGYSSNSGDWNDKLNYVAAGFTVVAMDVRGQGGQSQDVGGVTGNTLNGHIIRGLDDDADNMLFRHIFLDTAQLAGIVMNMPEVDEDRVGVMGPSQGGGLSLACAALEPRVRKVVSEYPFLSDYKRVWDLDLAKNAYQEITDYFRLFDPRHERENEVFTKLGYIDVKNLAKRIKGDVLMCVGLMDQVCPPSTVFAAYNNIQSKKDIKVYPDYGHEPMRGFGDLAMQFMLELYS FDMPLQKLREYTGTNPCPEDFDEYWNRALDEMRSVDPKIELKESSFQVSFAECYDLYFTGVRGARIHAKYIKPKTEGKHPALIRFHGYSSNSGDWNDKLNYVAAGFTVVAMDVRGQGGQSQDVGGVTGNTLNGHIIRGLDDDADNMLFRHIFLDTAQLAGIVMNMPEVDEDRVGVMGPSQGGGLSLACAALEPRVRKVVSEYPFLSDYKRVWDLDLAKNAYQEITDYFRLFDPRHERENEVFTKLGYIDVKNLAKRIKGDVLMCVGLMDQVCPPSTVFAAYNNIQSKKDIKVYPDYGHEPMRGFGDLAMQFMLELYS 3fcy-a1-m2-cB_3fcy-a1-m2-cC Crystal Structure of Acetyl Xylan Esterase 1 from Thermoanaerobacterium sp. JW/SL YS485 O30361 O30361 2.1 X-RAY DIFFRACTION 69 1.0 317 317 3fcy-a1-m1-cA_3fcy-a1-m2-cA 3fcy-a1-m1-cB_3fcy-a1-m1-cC FDMPLQKLREYTGTNPCPEDFDEYWNRALDEMRSVDPKIELKESSFQVSFAECYDLYFTGVRGARIHAKYIKPKTEGKHPALIRFHGYSSNSGDWNDKLNYVAAGFTVVAMDVRGQGGQSQDVGGVTGNTLNGHIIRGLDDDADNMLFRHIFLDTAQLAGIVMNMPEVDEDRVGVMGPSQGGGLSLACAALEPRVRKVVSEYPFLSDYKRVWDLDLAKNAYQEITDYFRLFDPRHERENEVFTKLGYIDVKNLAKRIKGDVLMCVGLMDQVCPPSTVFAAYNNIQSKKDIKVYPDYGHEPMRGFGDLAMQFMLELYS FDMPLQKLREYTGTNPCPEDFDEYWNRALDEMRSVDPKIELKESSFQVSFAECYDLYFTGVRGARIHAKYIKPKTEGKHPALIRFHGYSSNSGDWNDKLNYVAAGFTVVAMDVRGQGGQSQDVGGVTGNTLNGHIIRGLDDDADNMLFRHIFLDTAQLAGIVMNMPEVDEDRVGVMGPSQGGGLSLACAALEPRVRKVVSEYPFLSDYKRVWDLDLAKNAYQEITDYFRLFDPRHERENEVFTKLGYIDVKNLAKRIKGDVLMCVGLMDQVCPPSTVFAAYNNIQSKKDIKVYPDYGHEPMRGFGDLAMQFMLELYS 3fd0-a1-m1-cA_3fd0-a1-m2-cB Crystal structure of putative cystathionine beta-lyase involved in aluminum resistance (NP_470671.1) from LISTERIA INNOCUA at 2.12 A resolution Q92C56 Q92C56 2.12 X-RAY DIFFRACTION 10 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 399 399 3fd0-a1-m1-cB_3fd0-a1-m2-cA TEIQTIRKKVEQQITSLQNETDEIAEFNQAKVLDAFQENKVSDFHFNPSTGYGYDDEGRDTLERVYASVFKTEAALVRPQIISGTHAISTVLFGILRPGDELLYITGEPYDTLEEIVGIRSEGQGSLKDFQIGYDAVPLLPNGEIDYPAVSKKISANTKIGIQRSRGYADRPSFTIEKIKEVTFVKNINPNIIVFVDNCYGEFVERIEPTEVGADIIAGSLINPGGGLAKTGGYIAGRNTLVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPLWDAKRTDLIQSVSFHSKDKIAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHVKIAVTRAIENSL TEIQTIRKKVEQQITSLQNETDEIAEFNQAKVLDAFQENKVSDFHFNPSTGYGYDDEGRDTLERVYASVFKTEAALVRPQIISGTHAISTVLFGILRPGDELLYITGEPYDTLEEIVGIRSEGQGSLKDFQIGYDAVPLLPNGEIDYPAVSKKISANTKIGIQRSRGYADRPSFTIEKIKEVTFVKNINPNIIVFVDNCYGEFVERIEPTEVGADIIAGSLINPGGGLAKTGGYIAGRNTLVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPLWDAKRTDLIQSVSFHSKDKIAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHVKIAVTRAIENSL 3fd0-a1-m1-cB_3fd0-a1-m2-cB Crystal structure of putative cystathionine beta-lyase involved in aluminum resistance (NP_470671.1) from LISTERIA INNOCUA at 2.12 A resolution Q92C56 Q92C56 2.12 X-RAY DIFFRACTION 107 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 399 399 3fd0-a1-m1-cA_3fd0-a1-m2-cA TEIQTIRKKVEQQITSLQNETDEIAEFNQAKVLDAFQENKVSDFHFNPSTGYGYDDEGRDTLERVYASVFKTEAALVRPQIISGTHAISTVLFGILRPGDELLYITGEPYDTLEEIVGIRSEGQGSLKDFQIGYDAVPLLPNGEIDYPAVSKKISANTKIGIQRSRGYADRPSFTIEKIKEVTFVKNINPNIIVFVDNCYGEFVERIEPTEVGADIIAGSLINPGGGLAKTGGYIAGRNTLVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPLWDAKRTDLIQSVSFHSKDKIAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHVKIAVTRAIENSL TEIQTIRKKVEQQITSLQNETDEIAEFNQAKVLDAFQENKVSDFHFNPSTGYGYDDEGRDTLERVYASVFKTEAALVRPQIISGTHAISTVLFGILRPGDELLYITGEPYDTLEEIVGIRSEGQGSLKDFQIGYDAVPLLPNGEIDYPAVSKKISANTKIGIQRSRGYADRPSFTIEKIKEVTFVKNINPNIIVFVDNCYGEFVERIEPTEVGADIIAGSLINPGGGLAKTGGYIAGRNTLVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPLWDAKRTDLIQSVSFHSKDKIAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHVKIAVTRAIENSL 3fd0-a1-m2-cA_3fd0-a1-m2-cB Crystal structure of putative cystathionine beta-lyase involved in aluminum resistance (NP_470671.1) from LISTERIA INNOCUA at 2.12 A resolution Q92C56 Q92C56 2.12 X-RAY DIFFRACTION 170 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 399 399 3fd0-a1-m1-cA_3fd0-a1-m1-cB TEIQTIRKKVEQQITSLQNETDEIAEFNQAKVLDAFQENKVSDFHFNPSTGYGYDDEGRDTLERVYASVFKTEAALVRPQIISGTHAISTVLFGILRPGDELLYITGEPYDTLEEIVGIRSEGQGSLKDFQIGYDAVPLLPNGEIDYPAVSKKISANTKIGIQRSRGYADRPSFTIEKIKEVTFVKNINPNIIVFVDNCYGEFVERIEPTEVGADIIAGSLINPGGGLAKTGGYIAGRNTLVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPLWDAKRTDLIQSVSFHSKDKIAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHVKIAVTRAIENSL TEIQTIRKKVEQQITSLQNETDEIAEFNQAKVLDAFQENKVSDFHFNPSTGYGYDDEGRDTLERVYASVFKTEAALVRPQIISGTHAISTVLFGILRPGDELLYITGEPYDTLEEIVGIRSEGQGSLKDFQIGYDAVPLLPNGEIDYPAVSKKISANTKIGIQRSRGYADRPSFTIEKIKEVTFVKNINPNIIVFVDNCYGEFVERIEPTEVGADIIAGSLINPGGGLAKTGGYIAGRNTLVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPLWDAKRTDLIQSVSFHSKDKIAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHVKIAVTRAIENSL 3fd3-a1-m1-cA_3fd3-a1-m2-cA Structure of the C-terminal domains of a LysR family protein from Agrobacterium tumefaciens str. C58. A9CJQ0 A9CJQ0 1.7 X-RAY DIFFRACTION 79 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 202 202 RVTLNIATNADSLGTWFLDAVSKFTGGSDYLVNIAVDDQDHTVEWLRGGRVLAAVTAHDKPVQGCRVTPLGVLRYHATASPDFARHFADGVTPAALARAPGLTFNQKDRLQASWIRTALGEDVSYPTHWLPSTDGFVKASLAGGWGLNPVQLVAEHLAAGRLVELPGTPLDIPLYWQVNRLAAERLAGLTANVGTARVVLPV RVTLNIATNADSLGTWFLDAVSKFTGGSDYLVNIAVDDQDHTVEWLRGGRVLAAVTAHDKPVQGCRVTPLGVLRYHATASPDFARHFADGVTPAALARAPGLTFNQKDRLQASWIRTALGEDVSYPTHWLPSTDGFVKASLAGGWGLNPVQLVAEHLAAGRLVELPGTPLDIPLYWQVNRLAAERLAGLTANVGTARVVLPV 3fd4-a1-m1-cA_3fd4-a1-m1-cB Crystal Structure of Epstein-Barr virus gp42 protein P03205 P03205 2.4 X-RAY DIFFRACTION 44 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 140 147 PTLHTFQVPQNYTKANCTYCNTREYTFSYKGCCFYFTKKKHTWNGCFQACAELYPCTYFYGPTPDILPVVTRNLNAIESLWVGVYRVGEGNWTSLDGGTFKVYQIFGSHCTYVSKFSTVPVSHHECSFLKPCLCVSQRSN VKLPHWTPTLHTFQVPQNYTKANCTYCNTREYTFSYKGCCFYFTKKKHTWNGCFQACAELYPCTYFYGPTPDILPVVTRNLNAIESLWVGVYRVGEGNWTSLDGGTFKVYQIFGSHCTYVSKFSTVPVSHHECSFLKPCLCVSQRSN 3fd5-a1-m1-cA_3fd5-a1-m1-cB Crystal structure of human selenophosphate synthetase 1 complex with AMPCP P49903 P49903 1.9 X-RAY DIFFRACTION 168 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 339 355 3fd6-a1-m1-cA_3fd6-a1-m1-cB PESYELDKSFRLTRFTELKGTGCKVPQDVLQKLLESLMPRLGIGMDTCVIPLRHGGLSLVQTTDYIYPIVDDPYMMGRIACANVLSDLYAMGVTECDNMLMLLGVSNKMTDRERDKVMPLIIQGFKDAAEEAGTSVTGGQTVLNPWIVLGGVATTVCQPNEFIMPDNAVPGDVLVLTKPLGTQVAVAVHQWVVTQEDVELAYQEAMMNMARLNRTAAGLMHTFNAHAATDITGFGILGHAQNLAKQQRNEVSFVIHNLPVLAKMAAVSKACGNMFGLMHGTCPETSGGLLICLPREQAARFCAEIKSPEGHQAWIIGIVEKGNRTARIIDKPRIIEVAP SFNPESYELDKSFRLTRFTELKGTGCKVPQDVLQKLLESLVMPRLGIGMDTCVIPLRHGGLSLVQTTDYIYPIVDDPYMMGRIACANVLSDLYAMGVTECDNMLMLLGVSNKMTDRERDKVMPLIIQGFKDAAEEAGTSVTGGQTVLNPWIVLGGVATTVCQPNEFIMPDNAVPGDVLVLTKPLGTQVAVAVHQWLDIPEKWNKIKLVVTQEDVELAYQEAMMNMARLNRTAAGLMHTFNAHAATDITGFGILGHAQNLAKQQRNEVSFVIHNLPVLAKMAAVSKACGNMFGLMHGTCPETSGGLLICLPREQAARFCAEIKSPEGHQAWIIGIVEKGNRTARIIDKPRIIEVAP 3fd7-a3-m1-cA_3fd7-a3-m1-cB Crystal structure of Onconase C87A/C104A-ONC P22069 P22069 1.531 X-RAY DIFFRACTION 31 1.0 8404 (Lithobates pipiens) 8404 (Lithobates pipiens) 102 102 DWLTFQKKHITNTRDVDCDNIMSTNLFHCKDKNTFIYSRPEPVKAICKGIIASKNVLTTSEFYLSDCNVTSRPCKYKLKKSTNKFAVTCENQAPVHFVGVGS DWLTFQKKHITNTRDVDCDNIMSTNLFHCKDKNTFIYSRPEPVKAICKGIIASKNVLTTSEFYLSDCNVTSRPCKYKLKKSTNKFAVTCENQAPVHFVGVGS 3fd8-a1-m1-cB_3fd8-a1-m1-cF Crystal Structure of an oxidoreductase from Enterococcus faecalis Q835X4 Q835X4 2.45 X-RAY DIFFRACTION 32 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 340 341 3fd8-a1-m1-cA_3fd8-a1-m1-cD 3fd8-a1-m1-cA_3fd8-a1-m1-cE 3fd8-a1-m1-cC_3fd8-a1-m1-cB 3fd8-a1-m1-cC_3fd8-a1-m1-cF 3fd8-a1-m1-cD_3fd8-a1-m1-cE LTVKGFIGFGKSANRYHLPYVIRETLEVKTIFDLHVNEKAAAPFKEKGVNFTADLNELLTDPEIELITICTPAHTHYDLAKQAILAGKSVIVEKPFCDTLEHAEELFALGQEKGVVVPYQNRRFDGDYLAKQVVEQGFLGEINEVETHIDYYRPGSITEQGPKENGSFYGLGIHLDRIALFGRPDQVTYDIRNNEVSEAVDNYFDVDLHYGSKLKVKVKTNHSVASPYPRFIVHGSNGSFIKYGEDQQENDLKAGIPDAPGFGEDSPYYGEVTYRNGNGDWIKKQIKTPVGDYGRYYDAVYETLKNGAPQLVTKEQALTNIEILEAGFLNPSPSVYHLKE SLTVKGFIGFGKSANRYHLPYVIRETLEVKTIFDLHVNEKAAAPFKEKGVNFTADLNELLTDPEIELITICTPAHTHYDLAKQAILAGKSVIVEKPFCDTLEHAEELFALGQEKGVVVPYQNRRFDGDYLAKQVVEQGFLGEINEVETHIDYYRPGSITEQGPKENGSFYGLGIHLDRIALFGRPDQVTYDIRNNEVSEAVDNYFDVDLHYGSKLKVKVKTNHSVASPYPRFIVHGSNGSFIKYGEDQQENDLKAGIPDAPGFGEDSPYYGEVTYRNGNGDWIKKQIKTPVGDYGRYYDAVYETLKNGAPQLVTKEQALTNIEILEAGFLNPSPSVYHLKE 3fd8-a1-m1-cE_3fd8-a1-m1-cF Crystal Structure of an oxidoreductase from Enterococcus faecalis Q835X4 Q835X4 2.45 X-RAY DIFFRACTION 107 0.997 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 341 341 3fd8-a1-m1-cA_3fd8-a1-m1-cB 3fd8-a1-m1-cC_3fd8-a1-m1-cD 3i23-a1-m1-cA_3i23-a1-m1-cB LTVKGFIGFGKSANRYHLPYVIRETLEVKTIFDLHVNEKAAAPFKEKGVNFTADLNELLTDPEIELITICTPAHTHYDLAKQAILAGKSVIVEKPFCDTLEHAEELFALGQEKGVVVPYQNRRFDGDYLAKQVVEQGFLGEINEVETHIDYYRPGSITEQGPKENGSFYGLGIHLDRIALFGRPDQVTYDIRNNEVSEAVDNYFDVDLHYGSKLKVKVKTNHSVASPYPRFIVHGSNGSFIKYGEDQQENDLKAGIPDAPGFGEDSPYYGEVTYRNGNGDWIKKQIKTPVGDYGRYYDAVYETLKNGAPQLVTKEQALTNIEILEAGFLNPSPSVYHLKEN SLTVKGFIGFGKSANRYHLPYVIRETLEVKTIFDLHVNEKAAAPFKEKGVNFTADLNELLTDPEIELITICTPAHTHYDLAKQAILAGKSVIVEKPFCDTLEHAEELFALGQEKGVVVPYQNRRFDGDYLAKQVVEQGFLGEINEVETHIDYYRPGSITEQGPKENGSFYGLGIHLDRIALFGRPDQVTYDIRNNEVSEAVDNYFDVDLHYGSKLKVKVKTNHSVASPYPRFIVHGSNGSFIKYGEDQQENDLKAGIPDAPGFGEDSPYYGEVTYRNGNGDWIKKQIKTPVGDYGRYYDAVYETLKNGAPQLVTKEQALTNIEILEAGFLNPSPSVYHLKE 3fd9-a1-m1-cC_3fd9-a1-m1-cA Crystal Structure of the transcriptional anti-activator ExsD from Pseudomonas aeruginosa A0A0H2Z989 A0A0H2Z989 2.6 X-RAY DIFFRACTION 58 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 236 237 3fd9-a1-m1-cB_3fd9-a1-m1-cA 3fd9-a1-m1-cB_3fd9-a1-m1-cC ASSSLYRESGIISARQLALLQRLPRLRLEQLFRCEWLQQRLARGLALGREEVRQILLCAAQDDDGWCAELGDRVNLAVPQSIDWVLLPVYGWWESLLDQAIPGWRLSLVELETQSRQLRIKSEFWSRVAELEPEQAREELARVAKCQARTQEQVAELAGKLETASALAKSAWPNWQRGATLLASGGLAGFEPIPEVLECLWQPLCRLDDDVGAADAVQAWLHERNLCQAQDHFYWQ ASSSLYRESGIISARQLALLQRLPRLRLEQLFRCEWLQQRLARGLALGREEVRQILLCAAQDDDGWCAELGDRVNLAVPQSIDWVLLPVYGWWESLLDQAIPGWRLSLVELETQSRQLRIKSEFWSRVAELEPEQAREELARVAKCQARTQEQVAELAGKLETASALAKSAWPNWQRGATLLASGGLAGFEPIPEVLECLWQPLCRLDDDVGAADAVQAWLHERNLCQAQDHFYWQS 3fdb-a1-m1-cA_3fdb-a1-m2-cA Crystal structure of a putative plp-dependent beta-cystathionase (aecd, dip1736) from corynebacterium diphtheriae at 1.99 A resolution Q6NFZ9 Q6NFZ9 1.99 X-RAY DIFFRACTION 176 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 369 369 GQFPSIEDLRARNTKWTRYGQGVLPLWVAESDFSTCPAVLQAITDAVQREAFGYQPDGSLLSQATAEFYADRYGYQARPEWIFPIPDVVRGLYIAIDHFTPAQSKVIVPTPAYPPFFHLLSATQREGIFIDATGGINLHDVEKGFQAGARSILLCNPYNPLGVFAPEWLNELCDLAHRYDARVLVDEIHAPLVFDGQHTVAAGVSDTAASVCITITAPSAWNIAGLKCAQIIFSNPSDAEHWQQLSPVIKDGASTLGLIAAEAAYRYGTDFLNQEVAYLKNNHDFLLHEIPKRIPGAKITPQATYLWIDFRDTTIEGSPSEFFIEKAKVANDGAWFGEDGTGFCRLNFATSREVLEEAIDRAKAVSHHT GQFPSIEDLRARNTKWTRYGQGVLPLWVAESDFSTCPAVLQAITDAVQREAFGYQPDGSLLSQATAEFYADRYGYQARPEWIFPIPDVVRGLYIAIDHFTPAQSKVIVPTPAYPPFFHLLSATQREGIFIDATGGINLHDVEKGFQAGARSILLCNPYNPLGVFAPEWLNELCDLAHRYDARVLVDEIHAPLVFDGQHTVAAGVSDTAASVCITITAPSAWNIAGLKCAQIIFSNPSDAEHWQQLSPVIKDGASTLGLIAAEAAYRYGTDFLNQEVAYLKNNHDFLLHEIPKRIPGAKITPQATYLWIDFRDTTIEGSPSEFFIEKAKVANDGAWFGEDGTGFCRLNFATSREVLEEAIDRAKAVSHHT 3fdd-a1-m6-cA_3fdd-a1-m9-cA The Crystal Structure of the Pseudomonas dacunhae Aspartate-Beta-Decarboxylase Reveals a Novel Oligomeric Assembly for a Pyridoxal-5-Phosphate Dependent Enzyme Q845W8 Q845W8 2.35 X-RAY DIFFRACTION 41 1.0 207291 ([Pseudomonas] dacunhae ATCC 21192) 207291 ([Pseudomonas] dacunhae ATCC 21192) 502 502 2zy3-a1-m1-cA_2zy3-a1-m1-cD 2zy3-a1-m1-cA_2zy3-a1-m2-cE 2zy3-a1-m1-cB_2zy3-a1-m2-cC 2zy3-a1-m1-cB_2zy3-a1-m2-cF 2zy3-a1-m1-cC_2zy3-a1-m1-cF 2zy3-a1-m1-cE_2zy3-a1-m2-cD 2zy3-a1-m2-cA_2zy3-a1-m1-cE 2zy3-a1-m2-cA_2zy3-a1-m2-cD 2zy3-a1-m2-cB_2zy3-a1-m1-cC 2zy3-a1-m2-cB_2zy3-a1-m1-cF 2zy3-a1-m2-cC_2zy3-a1-m2-cF 2zy3-a1-m2-cE_2zy3-a1-m1-cD 2zy4-a1-m1-cB_2zy4-a1-m2-cF 2zy4-a1-m1-cC_2zy4-a1-m1-cF 2zy4-a1-m1-cC_2zy4-a1-m2-cB 2zy4-a1-m1-cE_2zy4-a1-m2-cA 2zy4-a1-m1-cE_2zy4-a1-m2-cD 2zy4-a1-m2-cB_2zy4-a1-m1-cF 2zy4-a1-m2-cC_2zy4-a1-m1-cB 2zy4-a1-m2-cC_2zy4-a1-m2-cF 2zy4-a1-m2-cE_2zy4-a1-m1-cA 2zy4-a1-m2-cE_2zy4-a1-m1-cD 2zy5-a1-m1-cA_2zy5-a1-m1-cD 2zy5-a1-m1-cA_2zy5-a1-m2-cE 2zy5-a1-m1-cB_2zy5-a1-m2-cC 2zy5-a1-m1-cB_2zy5-a1-m2-cF 2zy5-a1-m1-cC_2zy5-a1-m1-cF 2zy5-a1-m1-cC_2zy5-a1-m2-cB 2zy5-a1-m1-cD_2zy5-a1-m2-cE 2zy5-a1-m1-cE_2zy5-a1-m2-cD 2zy5-a1-m2-cA_2zy5-a1-m1-cE 2zy5-a1-m2-cA_2zy5-a1-m2-cD 2zy5-a1-m2-cB_2zy5-a1-m1-cF 2zy5-a1-m2-cC_2zy5-a1-m2-cF 3fdd-a1-m10-cA_3fdd-a1-m7-cA 3fdd-a1-m11-cA_3fdd-a1-m2-cA 3fdd-a1-m11-cA_3fdd-a1-m5-cA 3fdd-a1-m12-cA_3fdd-a1-m4-cA 3fdd-a1-m12-cA_3fdd-a1-m8-cA 3fdd-a1-m1-cA_3fdd-a1-m10-cA 3fdd-a1-m1-cA_3fdd-a1-m7-cA 3fdd-a1-m2-cA_3fdd-a1-m5-cA 3fdd-a1-m3-cA_3fdd-a1-m6-cA 3fdd-a1-m3-cA_3fdd-a1-m9-cA 3fdd-a1-m4-cA_3fdd-a1-m8-cA DGNRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMNTVGVGGLAKIEGIEGRFERYIAENRDQEGVRFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLNISEKIVRQYIIREMGADAIPSESVNLFAVEGGTAAMAYIFESMKVNGLLKAGDKVAIGMPVFTPYIEIPELAQYALEEVAINADPALNWQYPDSELDKLKDPAIKIFFCVNPSNPPSVKMDERSLERVRKIVAEHRPDLMILTDDVYGTFADGFQSLFAICPANTLLVYSFSKYFGATGWRLGVVAAHKENIFDLALGRLPESEKTALDDRYRSLLPDVRSLKFLDRLVADSRAVALNHTAGLSTPQQVQMTLFSLFALMDESDQYKHTLKQLIRRREATLYRELGTPPQRDENAVDYYTLIDLQDVTSKLYGEAFSKWAVKQSSTGDMLFRIADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRQMADELYAQYTQ DGNRLMLNAGRGNPNFLATTPRRAFFRLGLFAAAESELSYSYMNTVGVGGLAKIEGIEGRFERYIAENRDQEGVRFLGKSLSYVRDQLGLDPAAFLHEMVDGILGCNYPVPPRMLNISEKIVRQYIIREMGADAIPSESVNLFAVEGGTAAMAYIFESMKVNGLLKAGDKVAIGMPVFTPYIEIPELAQYALEEVAINADPALNWQYPDSELDKLKDPAIKIFFCVNPSNPPSVKMDERSLERVRKIVAEHRPDLMILTDDVYGTFADGFQSLFAICPANTLLVYSFSKYFGATGWRLGVVAAHKENIFDLALGRLPESEKTALDDRYRSLLPDVRSLKFLDRLVADSRAVALNHTAGLSTPQQVQMTLFSLFALMDESDQYKHTLKQLIRRREATLYRELGTPPQRDENAVDYYTLIDLQDVTSKLYGEAFSKWAVKQSSTGDMLFRIADETGIVLLPGRGFGSDRPSGRASLANLNEYEYAAIGRALRQMADELYAQYTQ 3fdg-a1-m1-cA_3fdg-a1-m1-cB The crystal structure of the dipeptidase AC, Metallo peptidase. MEROPS family M19 Q3IZQ3 Q3IZQ3 1.8 X-RAY DIFFRACTION 53 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 338 348 ETIPVFDGHNDFLLRLLRNPANRETIWLKGDGTGHLDLPRMKEGGFAGGFFAIYVPSPPFELPLPPMIRAEQAQPVALAMAGHLLWMERAARGRFKVCRTAAEVRSCHADGIVSGIMHMEGAEAIGADLDALHLFHSLGLRSLGPVWSRPTVFGHGVPFRFPGSPDTGEGLTEAGRRLVAECNRLKIMLDLSHLNEKGFDDVARLSDAPLVATHSNAHAVTPSTRNLTDRQLAMIRESRGMVGLNFATSFLREDGRRSAEMGWEPVLRHLDHLIDRLGEDHVGMGSDFDGATIPQGIADVTGLPALQAAMRAHGYDEPLMRKLCHENWYGLLERSWGA ETIPVFDGHNDFLLRLLRNPANRETIWLKGDGTGHLDLPRMKEGGFAGGFFAIYVPSPAHFEAMMDAPPFELPLPPMIRAEQAQPVALAMAGHLLWMERAARGRFKVCRTAAEVRSCHADGIVSGIMHMEGAEAIGADLDALHLFHSLGLRSLGPVWSRPTVFGHGVPFRFPGSPDTGEGLTEAGRRLVAECNRLKIMLDLSHLNEKGFDDVARLSDAPLVATHSNAHAVTPSTRNLTDRQLAMIRESRGMVGLNFATSFLREDGRRSAEMGWEPVLRHLDHLIDRLGEDHVGMGSDFDGATIPQGIADVTGLPALQAAMRAHGYDEPLMRKLCHENWYGLLERSWGA 3fdi-a1-m1-cB_3fdi-a1-m2-cB Crystal structure of uncharacterized protein from Eubacterium ventriosum ATCC 27560. A5Z9C0 A5Z9C0 2.2 X-RAY DIFFRACTION 23 1.0 411463 (Eubacterium ventriosum ATCC 27560) 411463 (Eubacterium ventriosum ATCC 27560) 171 171 KQIIIAIGREFGSGGHLVAKKLAEHYNIPLYSKELLDEVAKDVLERFDEKPNFAFIPVQDIAIRQFNFIRKKANEEKESFVIVGRCAEEILSDNPNISAFILGDKDTKTKRVEREGVDEKTALNKKDKRKVYHNFYCESKWGDSRTYDICIKIGKVDVDTATDIIKYIDSR KQIIIAIGREFGSGGHLVAKKLAEHYNIPLYSKELLDEVAKDVLERFDEKPNFAFIPVQDIAIRQFNFIRKKANEEKESFVIVGRCAEEILSDNPNISAFILGDKDTKTKRVEREGVDEKTALNKKDKRKVYHNFYCESKWGDSRTYDICIKIGKVDVDTATDIIKYIDSR 3fdi-a2-m1-cA_3fdi-a2-m1-cB Crystal structure of uncharacterized protein from Eubacterium ventriosum ATCC 27560. A5Z9C0 A5Z9C0 2.2 X-RAY DIFFRACTION 71 1.0 411463 (Eubacterium ventriosum ATCC 27560) 411463 (Eubacterium ventriosum ATCC 27560) 154 171 3fdi-a1-m1-cA_3fdi-a1-m1-cB 3fdi-a1-m2-cA_3fdi-a1-m2-cB QIIIAIGREFGSGGHLVAKKLAEHYNIPLYSKELLDEVAKDQDIAIRQFNFIRKKANEEKESFVIVGRCAEEILSDNPNISAFILGDKDTKTKRVEREGVDEKTALNKKDKRKVYHNFYCESKWGDSRTYDICIKIGKVDVDTATDIIKYIDSR KQIIIAIGREFGSGGHLVAKKLAEHYNIPLYSKELLDEVAKDVLERFDEKPNFAFIPVQDIAIRQFNFIRKKANEEKESFVIVGRCAEEILSDNPNISAFILGDKDTKTKRVEREGVDEKTALNKKDKRKVYHNFYCESKWGDSRTYDICIKIGKVDVDTATDIIKYIDSR 3fdo-a4-m1-cA_3fdo-a4-m2-cA Structure of human MDMX in complex with high affinity peptide O15151 O15151 1.4 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 3fdo-a3-m1-cA_3fdo-a3-m2-cA IQINQVRPKLPLLKILHAAGAQGEMFTVKEVMHYLGQYIMVKQLYDQQEQHMVYCGGDLLGELLGRQSFSVKDPSPLYDMLRKNLVTLAT IQINQVRPKLPLLKILHAAGAQGEMFTVKEVMHYLGQYIMVKQLYDQQEQHMVYCGGDLLGELLGRQSFSVKDPSPLYDMLRKNLVTLAT 3fdu-a2-m1-cF_3fdu-a2-m1-cD Crystal structure of a putative enoyl-CoA hydratase/isomerase from Acinetobacter baumannii A0A1E3M6I3 A0A1E3M6I3 2 X-RAY DIFFRACTION 77 1.0 400667 (Acinetobacter baumannii ATCC 17978) 400667 (Acinetobacter baumannii ATCC 17978) 215 225 3fdu-a1-m1-cB_3fdu-a1-m1-cA 3fdu-a1-m1-cC_3fdu-a1-m1-cA 3fdu-a1-m1-cC_3fdu-a1-m1-cB 3fdu-a2-m1-cD_3fdu-a2-m1-cE 3fdu-a2-m1-cF_3fdu-a2-m1-cE HLNANLEGGVLTLAINRPEAKNALYGELYLWIAKALDEADQNKDVRVVVLRGAEHDFTAGNDAGQVPPFVLLKSAARLSKPLIIAVKGVAIGIGVTILLQADLVFADNTALFQIPFVSLGLSPEGGASQLLVKQAGYHKAAELLFTAKKFNAETALQAGLVNEIVEDAYATAQATAQHLTALPLASLKQTKALMKHDLDQIIECIDHEAEIFMQR LHPHLNANLEGGVLTLAINRPEAKNALYGELYLWIAKALDEADQNKDVRVVVLRGAEHDFTAGNDMKDFGPAGQVPPFVLLKSAARLSKPLIIAVKGVAIGIGVTILLQADLVFADNTALFQIPFVSLGLSPEGGASQLLVKQAGYHKAAELLFTAKKFNAETALQAGLVNEIVEDAYATAQATAQHLTALPLASLKQTKALMKHDLDQIIECIDHEAEIFMQRV 3fdx-a2-m1-cB_3fdx-a2-m2-cB Putative filament protein / universal stress protein F from Klebsiella pneumoniae. A6T8F5 A6T8F5 1.58 X-RAY DIFFRACTION 46 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 124 124 3fdx-a1-m1-cA_3fdx-a1-m2-cA SNAILVPIDISDKEFTERIISHVESEARIDDAEVHFLTVIPGDELREGSETQLKEIAKKFSIPEDRHFHVAEGSPKDKILALAKSLPADLVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR SNAILVPIDISDKEFTERIISHVESEARIDDAEVHFLTVIPGDELREGSETQLKEIAKKFSIPEDRHFHVAEGSPKDKILALAKSLPADLVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR 3fdz-a1-m1-cB_3fdz-a1-m1-cA Crystal structure of phosphoglyceromutase from burkholderia pseudomallei 1710b with bound 2,3-diphosphoglyceric acid and 3-phosphoglyceric acid Q3JWH7 Q3JWH7 2.25 X-RAY DIFFRACTION 40 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 228 230 3ezn-a3-m1-cB_3ezn-a3-m1-cA 3lnt-a1-m1-cB_3lnt-a1-m1-cA MYKLVLIRGESTWNKENRFTGWVDVDLTEQGNREARQAGQLLKEAGYTFDIAYTSVLKRAIRTLWHVQDQMDLMYVPVVHSWRLNERHYGALSGLNKAETAAKYGDEQVLVWRRSYDTPPPALEPGDERAPYADPRYAKVPREQLPLTECLKDTVARVLPLWNESIAPAVKAGKQVLIAAHGNSLRALIKYLDGISDADIVGLNIPNGVPLVYELDESLTPIRHYYLG MYKLVLIRHGESTWNKENRFTGWVDVDLTEQGNREARQAGQLLKEAGYTFDIAYTSVLKRAIRTLWHVQDQMDLMYVPVVHSWRLNERHYGALSGLNKAETAAKYGDEQVLVWRRSYDTPPPALEPGDERAPYADPRYAKVPREQLPLTECLKDTVARVLPLWNESIAPAVKAGKQVLIAAHGNSLRALIKYLDGISDADIVGLNIPNGVPLVYELDESLTPIRHYYLGD 3fe3-a1-m1-cA_3fe3-a1-m1-cB Crystal structure of the kinase MARK3/Par-1: T211A-S215A double mutant P27448 P27448 1.9 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 317 317 QPHIGNYRLLKTIGKGNFAKVKLARHILTGREVAIKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLIMEYASGGEVFDYLVAHGRMKEKEARSKFRQIVSAVQYCHQKRIVHRDLKAENLLLDADMNIKIADFGFSNEFTVGGKLDAFCGAPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKRFLVLNPIKRGTLEQIMKDRWINAGHEEDELKPFVEPELDISDQKRIDIMVGMGYSQEEIQESLSKMKYDEITATYLLLGR QPHIGNYRLLKTIGKGNFAKVKLARHILTGREVAIKIIDKTQLNPTSLQKLFREVRIMKILNHPNIVKLFEVIETEKTLYLIMEYASGGEVFDYLVAHGRMKEKEARSKFRQIVSAVQYCHQKRIVHRDLKAENLLLDADMNIKIADFGFSNEFTVGGKLDAFCGAPPYAAPELFQGKKYDGPEVDVWSLGVILYTLVSGSLPFDGQNLKELRERVLRGKYRIPFYMSTDCENLLKRFLVLNPIKRGTLEQIMKDRWINAGHEEDELKPFVEPELDISDQKRIDIMVGMGYSQEEIQESLSKMKYDEITATYLLLGR 3fed-a1-m1-cA_3fed-a1-m2-cA The high resolution structure of human glutamate carboxypeptidase III (GCPIII/NAALADase II) in complex with a transition state analog of Glu-Glu Q9Y3Q0 Q9Y3Q0 1.29 X-RAY DIFFRACTION 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 690 690 3fec-a1-m1-cA_3fec-a1-m2-cA 3fee-a1-m1-cA_3fee-a1-m2-cA 3ff3-a1-m1-cA_3ff3-a1-m2-cA SIRWKLVSEMKAENIKSFLRSFTKLPHLAGTEQNFLLAKKIQTQWKKFGLDSAKLVHYDVLLSYPNETNANYISIVDEHETEIFKTSPPPDGYENVTNIVPPYNAFSAQGMPEGDLVYVNYARTEDFFKLEREMGINCTGKIVIARYGKIFRGNKVKNAMLAGAIGIILYSDPADYFAPEVQPYPKGWNLPGTAAQRGNVLNLNGAGDPLTPGYPAKEYTFRLDVEEGVGIPRIPVHPIGYNDAEILLRYLGGIAPPDKSWKGALNVSYSIGPGFTGSSFRKVRMHVYNINKITRIYNVVGTIRGSVEPDRYVILGGHRDSWVFGAIDPTSGVAVLQEIARSFGKLMSKGWRPRRTIIFASWDAEEFGLLGSTEWAEENVKILQERSIAYINSDSSIEGNYTLRVDCTPLLYQLVYKLTKEIPSPDDGFESKSLYESWLEKDPSPENKNLPRINKLGSGSDFEAYFQRLGIASGRARYTKNKKTDKYSSYPVYHTIYETFELVEKFYDPTFKKQLSVAQLRGALVYELVDSKIIPFNIQDYAEALKNYAASIYNLSKKHDQQLTDHGVSFDSLFSAVKNFSEAASDFHKRLIQVDLNNPIAVRMMNDQLMLLERAFIDPLGLPGKLFYRHIIFAPSSHNKYAGESFPGIYDAIFDIENKANSRLAWKEVKKHISIAAFTIQAAAGTLKEV SIRWKLVSEMKAENIKSFLRSFTKLPHLAGTEQNFLLAKKIQTQWKKFGLDSAKLVHYDVLLSYPNETNANYISIVDEHETEIFKTSPPPDGYENVTNIVPPYNAFSAQGMPEGDLVYVNYARTEDFFKLEREMGINCTGKIVIARYGKIFRGNKVKNAMLAGAIGIILYSDPADYFAPEVQPYPKGWNLPGTAAQRGNVLNLNGAGDPLTPGYPAKEYTFRLDVEEGVGIPRIPVHPIGYNDAEILLRYLGGIAPPDKSWKGALNVSYSIGPGFTGSSFRKVRMHVYNINKITRIYNVVGTIRGSVEPDRYVILGGHRDSWVFGAIDPTSGVAVLQEIARSFGKLMSKGWRPRRTIIFASWDAEEFGLLGSTEWAEENVKILQERSIAYINSDSSIEGNYTLRVDCTPLLYQLVYKLTKEIPSPDDGFESKSLYESWLEKDPSPENKNLPRINKLGSGSDFEAYFQRLGIASGRARYTKNKKTDKYSSYPVYHTIYETFELVEKFYDPTFKKQLSVAQLRGALVYELVDSKIIPFNIQDYAEALKNYAASIYNLSKKHDQQLTDHGVSFDSLFSAVKNFSEAASDFHKRLIQVDLNNPIAVRMMNDQLMLLERAFIDPLGLPGKLFYRHIIFAPSSHNKYAGESFPGIYDAIFDIENKANSRLAWKEVKKHISIAAFTIQAAAGTLKEV 3fef-a1-m1-cC_3fef-a1-m1-cD Crystal structure of putative glucosidase lplD from bacillus subtilis P39130 P39130 2.2 X-RAY DIFFRACTION 80 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 426 426 3fef-a1-m1-cA_3fef-a1-m1-cB LDQIKIAYIGGGSQGWARSLSDLSIDERSGTVALYDLDFEAAQKNEVIGNHSGNGRWRYEAVSTLKKALSAADIVIISILPGSLDDEVDVHLPERCGIYQSVGDTVGPGGIIRGLRAVPIFAEIARAIRDYAPESWVINYTNPSVCTRVLYKVFPGIKAIGCCHEVFGTQKLLAEVTERLGIEVPRREDIRVNVLGINHFTWITKASYRHIDLLPIFREFSAHYGESGYELEGECWRDSVFCSAHRVAFDLFETYGAIPAAGDRHLAEFLPGPYLKQPEVWKFHLTPISFRKQDRAEKRQETERLIVQQRGVAEKASGEEGVNIIAALLGLGELVTNVNPNQGQVLNLPIQAIVETNAFITRNRVQPILSGALPKGVELAARHISNQEAVADAGLTKDTGLAFQAFLNDPLVQIDRSDAEQLFNDL LDQIKIAYIGGGSQGWARSLSDLSIDERSGTVALYDLDFEAAQKNEVIGNHSGNGRWRYEAVSTLKKALSAADIVIISILPGSLDDEVDVHLPERCGIYQSVGDTVGPGGIIRGLRAVPIFAEIARAIRDYAPESWVINYTNPSVCTRVLYKVFPGIKAIGCCHEVFGTQKLLAEVTERLGIEVPRREDIRVNVLGINHFTWITKASYRHIDLLPIFREFSAHYGESGYELEGECWRDSVFCSAHRVAFDLFETYGAIPAAGDRHLAEFLPGPYLKQPEVWKFHLTPISFRKQDRAEKRQETERLIVQQRGVAEKASGEEGVNIIAALLGLGELVTNVNPNQGQVLNLPIQAIVETNAFITRNRVQPILSGALPKGVELAARHISNQEAVADAGLTKDTGLAFQAFLNDPLVQIDRSDAEQLFNDL 3fef-a3-m1-cB_3fef-a3-m1-cD Crystal structure of putative glucosidase lplD from bacillus subtilis P39130 P39130 2.2 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 426 426 3fef-a1-m1-cA_3fef-a1-m1-cC 3fef-a1-m1-cB_3fef-a1-m1-cD 3fef-a2-m1-cA_3fef-a2-m1-cC LDQIKIAYIGGGSQGWARSLSDLSIDERSGTVALYDLDFEAAQKNEVIGNHSGNGRWRYEAVSTLKKALSAADIVIISILPGSLDDEVDVHLPERCGIYQSVGDTVGPGGIIRGLRAVPIFAEIARAIRDYAPESWVINYTNPSVCTRVLYKVFPGIKAIGCCHEVFGTQKLLAEVTERLGIEVPRREDIRVNVLGINHFTWITKASYRHIDLLPIFREFSAHYGESGYELEGECWRDSVFCSAHRVAFDLFETYGAIPAAGDRHLAEFLPGPYLKQPEVWKFHLTPISFRKQDRAEKRQETERLIVQQRGVAEKASGEEGVNIIAALLGLGELVTNVNPNQGQVLNLPIQAIVETNAFITRNRVQPILSGALPKGVELAARHISNQEAVADAGLTKDTGLAFQAFLNDPLVQIDRSDAEQLFNDL LDQIKIAYIGGGSQGWARSLSDLSIDERSGTVALYDLDFEAAQKNEVIGNHSGNGRWRYEAVSTLKKALSAADIVIISILPGSLDDEVDVHLPERCGIYQSVGDTVGPGGIIRGLRAVPIFAEIARAIRDYAPESWVINYTNPSVCTRVLYKVFPGIKAIGCCHEVFGTQKLLAEVTERLGIEVPRREDIRVNVLGINHFTWITKASYRHIDLLPIFREFSAHYGESGYELEGECWRDSVFCSAHRVAFDLFETYGAIPAAGDRHLAEFLPGPYLKQPEVWKFHLTPISFRKQDRAEKRQETERLIVQQRGVAEKASGEEGVNIIAALLGLGELVTNVNPNQGQVLNLPIQAIVETNAFITRNRVQPILSGALPKGVELAARHISNQEAVADAGLTKDTGLAFQAFLNDPLVQIDRSDAEQLFNDL 3fet-a2-m1-cB_3fet-a2-m1-cD Crystal Structure of the Electron Transfer Flavoprotein Subunit Alpha related Protein Ta0212 from Thermoplasma acidophilum Q9HLL5 Q9HLL5 2.05 X-RAY DIFFRACTION 74 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 160 161 3fet-a1-m1-cC_3fet-a1-m1-cA AKFLTVSDDNFLRQVNTLVAGKGDDSVIIGEGDAKGLGSKVLYRAKKGTPFDAVSEGILKIAGNYDYIAIGSTEVGREIAGYLSFKTGFYTATEIFSLEFNGQKAHTKRFFYGGKTVIEEESDARILTVAPGVIEAKDLGTTPEIRDLEIGQSRIKITKF NAKFLTVSDDNFLRQVNTLVAGKGDDSVIIGEGDAKGLGSKVLYRAKKGTPFDAVSEGILKIAGNYDYIAIGSTEVGREIAGYLSFKTGFYTATEIFSLEFNGQKAHTKRFFYGGKTVIEEESDARILTVAPGVIEAKDLGTTPEIRDLEIGQSRIKITKF 3ff0-a1-m1-cB_3ff0-a1-m1-cA Crystal structure of a phenazine biosynthesis-related protein (phzb2) from pseudomonas aeruginosa at 1.90 A resolution Q9S508 Q9S508 1.9 X-RAY DIFFRACTION 149 0.993 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 152 159 GFEDAVELRRKNRETVVKYNTKGQDRLRRHELFVEDGCGGLWTTDTGSPIVIRGKDKLAEHAVWSLKCFPDWEWYNIKVFETDDPNHFWVECDGHGKILFPGYPEGYYENHFLHSFELDDGKIKRNREFNVFQQLRALSIPVPQIKREGIPT GLDNAIPQGFEDAVELRRKNRETVVKYNTKGQDRLRRHELFVEDGCGGLWTTDTGSPIVIRGKDKLAEHAVWSLKCFPDWEWYNIKVFETDDPNHFWVECDGHGKILFPGYPEGYYENHFLHSFELDDGKIKRNREFNVFQQLRALSIPVPQIKREGIP 3ff1-a2-m1-cA_3ff1-a2-m4-cB Structure of Glucose 6-phosphate Isomerase from Staphylococcus aureus Q5HHC2 Q5HHC2 1.65 X-RAY DIFFRACTION 57 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 435 435 3ff1-a2-m2-cA_3ff1-a2-m3-cB ATHIQLDFSKTLEFFGEHELKQQQEIVKSIHKTIHEGTGAGSDFLGWVDLPVDYDKEEFSRIVEASKRIKENSDVLVVIGIGGSYLGARAAIELTSSFRNSNEYPEIVFVGNHLSSTYTKELVDYLADKDFSVNVISKSGTTTEPAVAFRLFKQLVEERYGKEEAQKRIFATTDKEKGALKQLATNEGYETFIVPDDVGGRYSVLTAVGLLPIATAGINIEAIGAAKAREELSSDKLEENIAYQYATIRNILYAKGYTTELINYEPSQYFNEWWKQLFGESEGKDFKGIYPSSANYTTDLHSLGQYVQEGRRFLFETVVKVNHPKYDITIEKDSDDLDGLNYLAGKTIDEVNTKAFEGTLLAHTDGGVPNVVNIPQLDEETFGYVVYFFELACASGYQLGVNPFNQPGVEAYKQNFALLGKPGFEDLKKELEERL ATHIQLDFSKTLEFFGEHELKQQQEIVKSIHKTIHEGTGAGSDFLGWVDLPVDYDKEEFSRIVEASKRIKENSDVLVVIGIGGSYLGARAAIELTSSFRNSNEYPEIVFVGNHLSSTYTKELVDYLADKDFSVNVISKSGTTTEPAVAFRLFKQLVEERYGKEEAQKRIFATTDKEKGALKQLATNEGYETFIVPDDVGGRYSVLTAVGLLPIATAGINIEAIGAAKAREELSSDKLEENIAYQYATIRNILYAKGYTTELINYEPSQYFNEWWKQLFGESEGKDFKGIYPSSANYTTDLHSLGQYVQEGRRFLFETVVKVNHPKYDITIEKDSDDLDGLNYLAGKTIDEVNTKAFEGTLLAHTDGGVPNVVNIPQLDEETFGYVVYFFELACASGYQLGVNPFNQPGVEAYKQNFALLGKPGFEDLKKELEERL 3ff1-a3-m1-cB_3ff1-a3-m5-cB Structure of Glucose 6-phosphate Isomerase from Staphylococcus aureus Q5HHC2 Q5HHC2 1.65 X-RAY DIFFRACTION 402 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 435 435 3ff1-a1-m1-cA_3ff1-a1-m2-cA 3ff1-a2-m1-cA_3ff1-a2-m2-cA 3ff1-a2-m3-cB_3ff1-a2-m4-cB ATHIQLDFSKTLEFFGEHELKQQQEIVKSIHKTIHEGTGAGSDFLGWVDLPVDYDKEEFSRIVEASKRIKENSDVLVVIGIGGSYLGARAAIELTSSFRNSNEYPEIVFVGNHLSSTYTKELVDYLADKDFSVNVISKSGTTTEPAVAFRLFKQLVEERYGKEEAQKRIFATTDKEKGALKQLATNEGYETFIVPDDVGGRYSVLTAVGLLPIATAGINIEAIGAAKAREELSSDKLEENIAYQYATIRNILYAKGYTTELINYEPSQYFNEWWKQLFGESEGKDFKGIYPSSANYTTDLHSLGQYVQEGRRFLFETVVKVNHPKYDITIEKDSDDLDGLNYLAGKTIDEVNTKAFEGTLLAHTDGGVPNVVNIPQLDEETFGYVVYFFELACASGYQLGVNPFNQPGVEAYKQNFALLGKPGFEDLKKELEERL ATHIQLDFSKTLEFFGEHELKQQQEIVKSIHKTIHEGTGAGSDFLGWVDLPVDYDKEEFSRIVEASKRIKENSDVLVVIGIGGSYLGARAAIELTSSFRNSNEYPEIVFVGNHLSSTYTKELVDYLADKDFSVNVISKSGTTTEPAVAFRLFKQLVEERYGKEEAQKRIFATTDKEKGALKQLATNEGYETFIVPDDVGGRYSVLTAVGLLPIATAGINIEAIGAAKAREELSSDKLEENIAYQYATIRNILYAKGYTTELINYEPSQYFNEWWKQLFGESEGKDFKGIYPSSANYTTDLHSLGQYVQEGRRFLFETVVKVNHPKYDITIEKDSDDLDGLNYLAGKTIDEVNTKAFEGTLLAHTDGGVPNVVNIPQLDEETFGYVVYFFELACASGYQLGVNPFNQPGVEAYKQNFALLGKPGFEDLKKELEERL 3ff2-a1-m1-cA_3ff2-a1-m2-cA Crystal structure of an uncharacterized cystatin fold protein (saro_2299) from novosphingobium aromaticivorans dsm at 1.90 A resolution Q2G5Y7 Q2G5Y7 1.9 X-RAY DIFFRACTION 42 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 113 113 GSNLETAKAIAAYNAQDVDTYVSYTDDACEANYRGDVVREGKEGTRSGLAAAFARWPQNHAEIKDAQQVGTYVLREHVTRGPATDGSPLVEPFDVVAVYSFEGDKCSRVEFIR GSNLETAKAIAAYNAQDVDTYVSYTDDACEANYRGDVVREGKEGTRSGLAAAFARWPQNHAEIKDAQQVGTYVLREHVTRGPATDGSPLVEPFDVVAVYSFEGDKCSRVEFIR 3ff5-a1-m1-cA_3ff5-a1-m1-cB Crystal structure of the conserved N-terminal domain of the peroxisomal matrix-protein-import receptor, Pex14p Q642G4 Q642G4 1.8 X-RAY DIFFRACTION 32 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 54 54 GPLGSPEFREPLIATAVKFLQNSRVRQSPLATRRAFLKKKGLTDEEIDLAFQQS GPLGSPEFREPLIATAVKFLQNSRVRQSPLATRRAFLKKKGLTDEEIDLAFQQS 3ff7-a1-m1-cA_3ff7-a1-m1-cB Structure of NK cell receptor KLRG1 bound to E-cadherin P12830 P12830 1.8 X-RAY DIFFRACTION 12 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 97 98 MDWVIPPISLPKGPFPKNLVQIKSNKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRERIATYTLFSHAVSSNGNAVEDPMEILITVT MDWVIPPISLPENGPFPKNLVQIKSNKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRERIATYTLFSHAVSSNGNAVEDPMEILITVT 3ff8-a1-m1-cB_3ff8-a1-m1-cA Structure of NK cell receptor KLRG1 bound to E-cadherin P12830 P12830 2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 101 MDWVIPPISLPENEKGPFPKNLVQIKSNKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRERIATYTLFSHAVSSNGNAVEDPMEILITVT MDWVIPPISLPENEKGPFPKNLVQIKSNKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRERIATYTLFSHAVSSNGNAVEDPMEILITVTD 3ff8-a1-m1-cC_3ff8-a1-m1-cD Structure of NK cell receptor KLRG1 bound to E-cadherin O88713 O88713 2 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 111 113 CPILWTRNGSHCYYFSMEKKDWNSSLKFCADKGSHLLTFPDNQGVKLFGEYLGQDFYWIGLRNIDGWRWEGGPALSLRILTNSLIQRCGAIHRNGLQASSCEVALQWICKK CPILWTRNGSHCYYFSMEKKDWNSSLKFCADKGSHLLTFPDNQGVKLFGEYLGQDFYWIGLRNIDGWRWEGGPALSLRILTNSLIQRCGAIHRNGLQASSCEVALQWICKKVL 3ff9-a1-m1-cA_3ff9-a1-m1-cB Structure of NK cell receptor KLRG1 O88713 O88713 1.8 X-RAY DIFFRACTION 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 115 115 MCPILWTRNGSHCYYFSMEKKDWNSSLKFCADKGSHLLTFPDNQGVKLFGEYLGQDFYWIGLRNIDGWRWEGGPALSLRILTNSLIQRCGAIHRNGLQASSCEVALQWICKKVLY MCPILWTRNGSHCYYFSMEKKDWNSSLKFCADKGSHLLTFPDNQGVKLFGEYLGQDFYWIGLRNIDGWRWEGGPALSLRILTNSLIQRCGAIHRNGLQASSCEVALQWICKKVLY 3ffh-a1-m1-cB_3ffh-a1-m1-cA The crystal structure of histidinol-phosphate aminotransferase from Listeria innocua Clip11262. Q92A83 Q92A83 2.31 X-RAY DIFFRACTION 125 0.997 1642 (Listeria innocua) 1642 (Listeria innocua) 348 350 AKWKKSLAGLSREEEVAELGLTKITKLSSNENPLGTSKKVAAIQANSSVETEIYPASSLRKEVADFYQLEEEELIFTAGVDELIELLTRVLLDTTTNTVATPTFVQYRQNALIEGAEVREIPLLQDGEHDLEGLNAIDEKTTIVWICNPNNPTGNYIELADIQAFLDRVPSDVLVVLDEAYIEYVTPQPEKHEKLVRTYKNLIITRTFSKIYGLASARVGYGIADKEIIRQLNIVRPPFNTTSIGQKLAIEAIKDQAFIGECRTSNANGIKQYEAFAKRFEKVKLYPANGNFVLIDLGIEAGTIFSYLEKNGYITRSGAALGFPTAVRITIGKEEDNSAVIALLEKLL NAKWKKSLAGLSSKREEEVAELGLTKITKLSSNENPLGTSKKVAAIQANSSVETEIYASSLRKEVADFYQLEEEELIFTAGVDELIELLTRVLLDTTTNTVATPTFVQYRQNALIEGAEVREIPLLQDGEHDLEGLNAIDEKTTIVWICNPNNPTGNYIELADIQAFLDRVPSDVLVVLDEAYIEYVTPQPEKHEKLVRTYKNLIITRTFSKIYGLASARVGYGIADKEIIRQLNIVRPPFNTTSIGQKLAIEAIKDQAFIGECRTSNANGIKQYEAFAKRFEKVKLYPANGNFVLIDLGIEAGTIFSYLEKNGYITRSGAALGFPTAVRITIGKEEDNSAVIALLEKLL 3ffm-a1-m1-cA_3ffm-a1-m2-cA The crystal structure of human Gadd45g O95257 O95257 2.3 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 145 STARMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAAGEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVGAGEEAGAPGDLHCILISNPNEDAWKDPALEKLSLFCEESRSVNDWVPSITLPE STARMQGAGKALHELLLSAQRQGCLTAGVYESAKVLNVDPDNVTFCVLAAGEEDEGDIALQIHFTLIQAFCCENDIDIVRVGDVQRLAAIVGAGEEAGAPGDLHCILISNPNEDAWKDPALEKLSLFCEESRSVNDWVPSITLPE 3ffr-a1-m1-cA_3ffr-a1-m2-cA CRYSTAL STRUCTURE OF A PHOSPHOSERINE AMINOTRANSFERASE SERC (CHU_0995) FROM CYTOPHAGA HUTCHINSONII ATCC 33406 AT 1.75 A RESOLUTION 1.75 X-RAY DIFFRACTION 143 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 351 351 NNKIYFTPGPSELYPTVRQHITALDEKIGVISHRSKKFEEVYKTASDNLKTLLELPSNYEVLFLASATEIWERIIQNCVEKKSFHCVNGSFSKRFYEFAGELGREAYKEEAAFGKGFYPADITVPADAEIICLTHNETSSGVSPVEDINTFRDKNKDALIFVDAVSSLPYPKFDWTKIDSVFFSVQCFGLPAGLGVWILNDRVIEKSKALLAKRKSIGTYHTIPSLEKARVNQTPETPNANIFLLGKVTGDLQISADGIRKQTEEKAALINTYIESSKVFSFGVEDAKLRSTTIVANTTLPGEINKILEPFDAVGAGYGSKKETQIRIANFPAHSLEQVHKLVQTLKEKIG NNKIYFTPGPSELYPTVRQHITALDEKIGVISHRSKKFEEVYKTASDNLKTLLELPSNYEVLFLASATEIWERIIQNCVEKKSFHCVNGSFSKRFYEFAGELGREAYKEEAAFGKGFYPADITVPADAEIICLTHNETSSGVSPVEDINTFRDKNKDALIFVDAVSSLPYPKFDWTKIDSVFFSVQCFGLPAGLGVWILNDRVIEKSKALLAKRKSIGTYHTIPSLEKARVNQTPETPNANIFLLGKVTGDLQISADGIRKQTEEKAALINTYIESSKVFSFGVEDAKLRSTTIVANTTLPGEINKILEPFDAVGAGYGSKKETQIRIANFPAHSLEQVHKLVQTLKEKIG 3ffs-a1-m1-cC_3ffs-a1-m1-cD The Crystal Structure of Cryptosporidium parvum Inosine-5'-Monophosphate Dehydrogenase Q8T6T2 Q8T6T2 3.19 X-RAY DIFFRACTION 101 0.997 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 298 299 3ffs-a1-m1-cA_3ffs-a1-m1-cB 3ffs-a1-m1-cC_3ffs-a1-m1-cB 3ffs-a1-m1-cD_3ffs-a1-m1-cA TKNIGKGLTFEDILLVPNYSEVLPREVSLETKLTKNVSLKIPLISSAMDTVTEHLMAVGMARLGGIGIIHKNMDMESQVNEVLKVKNWIYSNENLDNKGRLRVGAAIGVEIERAKLLVEAGVDVIVLDSAHGHSLNIIRTLKEIKSKMIDVIVGNVVTEEATKELIENGADGIKVGIIVAGVGVPQITAIEKCSSVASKFGIPIIADGGIRYSGDIGKALAVGASSVMIGSILAGTEESPGEKELIGDTVYKRVKYKGEMEGVVYQLVGGLRSCMGYLGSASIEELWKKSSYVEITTS TKNIGKGLTFEDILLVPNYSEVLPREVSLETKLTKNVSLKIPLISSAMDTVTEHLMAVGMARLGGIGIIHKNMDMESQVNEVLKVKNWIAYSNENLDNKGRLRVGAAIGVEIERAKLLVEAGVDVIVLDSAHGHSLNIIRTLKEIKSKMIDVIVGNVVTEEATKELIENGADGIKVGIIVAGVGVPQITAIEKCSSVASKFGIPIIADGGIRYSGDIGKALAVGASSVMIGSILAGTEESPGEKELIGDTVYKYRVKYKGEMEGVVYQLVGGLRSCMGYLGSASIEELWKKSSYVEITT 3ffu-a1-m1-cA_3ffu-a1-m1-cB Structure of the RNA pyrophosphohydrolase BdRppH in complex with GTP and magnesium Q6MPX4 Q6MPX4 2.8 X-RAY DIFFRACTION 51 0.992 959 (Bdellovibrio bacteriovorus) 959 (Bdellovibrio bacteriovorus) 133 133 3eeu-a1-m1-cB_3eeu-a1-m1-cA 3ef5-a1-m1-cB_3ef5-a1-m1-cA GHWIPVVAGFLRKDGKILVGQRPENNSLAGQWEFPGGKIENGETPEEALARELNEELGIEAEVGELKLACTHSYGDVGILILFYEILYWKGEPRAKHHMMLEWIHPEELKHRNIPEANRKILHKIYKALGLEW HWIPVVAGFLRKDGKILVGQRPENNSLAGQWEFPGGKIENGETPEEALARELNEELGIEAEVGELKLACTHSYGDVGILILFYEILYWKGEPRAKHHMMLEWIHPEELKHRNIPEANRKILHKIYKALGLEWR 3ffy-a1-m1-cA_3ffy-a1-m2-cA Putative tetrapyrrole (corrin/porphyrin) methyltransferase from Bacteroides fragilis. Q5LHP3 Q5LHP3 2 X-RAY DIFFRACTION 46 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 110 110 NATAFVPALVASGLPNEKFCFEGFLPQKKGRTKLKSLVDEHRTVFYESPHRLLKTLTQFAEYFGPERQVSVSREISKIHEETVRGTLSELIEHFTATDPRGEIVIVLAGI NATAFVPALVASGLPNEKFCFEGFLPQKKGRTKLKSLVDEHRTVFYESPHRLLKTLTQFAEYFGPERQVSVSREISKIHEETVRGTLSELIEHFTATDPRGEIVIVLAGI 3fg1-a5-m1-cB_3fg1-a5-m1-cA Crystal structure of Delta413-417:GS LOX O16025 O16025 1.85 X-RAY DIFFRACTION 68 1.0 47982 (Plexaura homomalla) 47982 (Plexaura homomalla) 682 684 3fg1-a5-m1-cD_3fg1-a5-m1-cC 3fg3-a5-m1-cB_3fg3-a5-m1-cA 3fg3-a5-m1-cD_3fg3-a5-m1-cC 3fg4-a5-m1-cB_3fg4-a5-m1-cA 3fg4-a5-m1-cD_3fg4-a5-m1-cC HAIYNVEVETGDREHAGTDATITIRITGAKGRTDYLKLDKGSFEAGSKEQYTVQGFDVGDIQLIELHSDGGGYWSGDPDWFVNRVIIISSTQDRVYSFPCFRWVIKDMVLFPGEATLPFNEVPAIVSEQRQKELEQRKLTYQWDYVSDDMPGNIKAKTHDDLPRDVQFTDEKSRSYQESRKAALVNLGIGSLFTMFENWDSYDDYHILYRNWILGGTPNMADRWHEDRWFGYQFLNGANPVILTRCDALPSNFPVTNEHVNASLDRGKNLDEEIKDGHIYIVDFKVLVGAKSYGGPVLEDIGYKADIRYCAAPLALFYVNKLGHLMPIAIQINQEPGPENPIWTPHEENEHDWMMAKFWLGVAESNFHQLNTHLLRTHLTTESFALSTWRNLASAHPIFKLLQPHIYGVLAIDTIGRKELIGSGGIVDQSLSLGGGGHVTFMEKCFKEVNLQDYHLPNALKKRGVDDPSKLPGFYYRDDGLALWEAIETFIGEIIAIFYKNDDDVKRDNEIQSWIYDVHKNGWRVNPGHQDHGVPASFESREQLKEVLTSLVFTFSCQHAAVNFSQKDHYGFTPNAPAILRHPPPKKKGEATLQSILSTLPSKSQAAKAIATVYILTKFSEDERYLGNYSATAWEDKDALDAINRFQDKLEDISKKIKQRNENLEVPYIYLLPERIPNGTAI HHAIYNVEVETGDREHAGTDATITIRITGAKGRTDYLKLDKGSFEAGSKEQYTVQGFDVGDIQLIELHSDGGGYWSGDPDWFVNRVIIISSTQDRVYSFPCFRWVIKDMVLFPGEATLPFNEVPAIVSEQRQKELEQRKLTYQWDYVSDDMPGNIKAKTHDDLPRDVQFTDEKSRSYQESRKAALVNLGIGSLFTMFENWDSYDDYHILYRNWILGGTPNMADRWHEDRWFGYQFLNGANPVILTRCDALPSNFPVTNEHVNASLDRGKNLDEEIKDGHIYIVDFKVLVGAKSYGGPVLEDIGYKEADIRYCAAPLALFYVNKLGHLMPIAIQINQEPGPENPIWTPHEENEHDWMMAKFWLGVAESNFHQLNTHLLRTHLTTESFALSTWRNLASAHPIFKLLQPHIYGVLAIDTIGRKELIGSGGIVDQSLSLGGGGHVTFMEKCFKEVNLQDYHLPNALKKRGVDDPSKLPGFYYRDDGLALWEAIETFIGEIIAIFYKNDDDVKRDNEIQSWIYDVHKNGWRVNPGHQDHGVPASFESREQLKEVLTSLVFTFSCQHAAVNFSQKDHYGFTPNAPAILRHPPPKKKGEATLQSILSTLPSKSQAAKAIATVYILTKFSEDERYLGNYSATAWEDKDALDAINRFQDKLEDISKKIKQRNENLEVPYIYLLPERIPNGTAI 3fg1-a5-m1-cC_3fg1-a5-m1-cA Crystal structure of Delta413-417:GS LOX O16025 O16025 1.85 X-RAY DIFFRACTION 21 1.0 47982 (Plexaura homomalla) 47982 (Plexaura homomalla) 683 684 3fg1-a5-m1-cD_3fg1-a5-m1-cB 3fg3-a5-m1-cC_3fg3-a5-m1-cA 3fg3-a5-m1-cD_3fg3-a5-m1-cB 3fg4-a5-m1-cB_3fg4-a5-m1-cD 3fg4-a5-m1-cC_3fg4-a5-m1-cA HHAIYNVEVETGDREHAGTDATITIRITGAKGRTDYLKLDKGSFEAGSKEQYTVQGFDVGDIQLIELHSDGGGYWSGDPDWFVNRVIIISSTQDRVYSFPCFRWVIKDMVLFPGEATLPFNEVPAIVSEQRQKELEQRKLTYQWDYVSDDMPGNIKAKTHDDLPRDVQFTDEKSRSYQESRKAALVNLGIGSLFTMFENWDSYDDYHILYRNWILGGTPNMADRWHEDRWFGYQFLNGANPVILTRCDALPSNFPVTNEHVNASLDRGKNLDEEIKDGHIYIVDFKVLVGAKSYGGPVLEDIGYKADIRYCAAPLALFYVNKLGHLMPIAIQINQEPGPENPIWTPHEENEHDWMMAKFWLGVAESNFHQLNTHLLRTHLTTESFALSTWRNLASAHPIFKLLQPHIYGVLAIDTIGRKELIGSGGIVDQSLSLGGGGHVTFMEKCFKEVNLQDYHLPNALKKRGVDDPSKLPGFYYRDDGLALWEAIETFIGEIIAIFYKNDDDVKRDNEIQSWIYDVHKNGWRVNPGHQDHGVPASFESREQLKEVLTSLVFTFSCQHAAVNFSQKDHYGFTPNAPAILRHPPPKKKGEATLQSILSTLPSKSQAAKAIATVYILTKFSEDERYLGNYSATAWEDKDALDAINRFQDKLEDISKKIKQRNENLEVPYIYLLPERIPNGTAI HHAIYNVEVETGDREHAGTDATITIRITGAKGRTDYLKLDKGSFEAGSKEQYTVQGFDVGDIQLIELHSDGGGYWSGDPDWFVNRVIIISSTQDRVYSFPCFRWVIKDMVLFPGEATLPFNEVPAIVSEQRQKELEQRKLTYQWDYVSDDMPGNIKAKTHDDLPRDVQFTDEKSRSYQESRKAALVNLGIGSLFTMFENWDSYDDYHILYRNWILGGTPNMADRWHEDRWFGYQFLNGANPVILTRCDALPSNFPVTNEHVNASLDRGKNLDEEIKDGHIYIVDFKVLVGAKSYGGPVLEDIGYKEADIRYCAAPLALFYVNKLGHLMPIAIQINQEPGPENPIWTPHEENEHDWMMAKFWLGVAESNFHQLNTHLLRTHLTTESFALSTWRNLASAHPIFKLLQPHIYGVLAIDTIGRKELIGSGGIVDQSLSLGGGGHVTFMEKCFKEVNLQDYHLPNALKKRGVDDPSKLPGFYYRDDGLALWEAIETFIGEIIAIFYKNDDDVKRDNEIQSWIYDVHKNGWRVNPGHQDHGVPASFESREQLKEVLTSLVFTFSCQHAAVNFSQKDHYGFTPNAPAILRHPPPKKKGEATLQSILSTLPSKSQAAKAIATVYILTKFSEDERYLGNYSATAWEDKDALDAINRFQDKLEDISKKIKQRNENLEVPYIYLLPERIPNGTAI 3fg1-a5-m1-cD_3fg1-a5-m1-cA Crystal structure of Delta413-417:GS LOX O16025 O16025 1.85 X-RAY DIFFRACTION 30 1.0 47982 (Plexaura homomalla) 47982 (Plexaura homomalla) 681 684 3fg1-a5-m1-cB_3fg1-a5-m1-cC 3fg3-a5-m1-cB_3fg3-a5-m1-cC 3fg3-a5-m1-cD_3fg3-a5-m1-cA 3fg4-a5-m1-cB_3fg4-a5-m1-cC 3fg4-a5-m1-cD_3fg4-a5-m1-cA HAIYNVEVETGDREHAGTDATITIRITGAKGRTDYLKLDKGSFEAGSKEQYTVQGFDVGDIQLIELHSDGGGYWSGDPDWFVNRVIIISSTQDRVYSFPCFRWVIKDMVLFPGEATLPFNEVPAIVSEQRQKELEQRKLTYQWDYVSDDMPGNIKAKTHDDLPRDVQFTDEKSRSYQESRKAALVNLGIGSLFTMFENWDSYDDYHILYRNWILGGTPNMADRWHEDRWFGYQFLNGANPVILTRCDALPSNFPVTNEHVNASLDRGKNLDEEIKDGHIYIVDFKVLVGAKSYGGPVLEDIGYADIRYCAAPLALFYVNKLGHLMPIAIQINQEPGPENPIWTPHEENEHDWMMAKFWLGVAESNFHQLNTHLLRTHLTTESFALSTWRNLASAHPIFKLLQPHIYGVLAIDTIGRKELIGSGGIVDQSLSLGGGGHVTFMEKCFKEVNLQDYHLPNALKKRGVDDPSKLPGFYYRDDGLALWEAIETFIGEIIAIFYKNDDDVKRDNEIQSWIYDVHKNGWRVNPGHQDHGVPASFESREQLKEVLTSLVFTFSCQHAAVNFSQKDHYGFTPNAPAILRHPPPKKKGEATLQSILSTLPSKSQAAKAIATVYILTKFSEDERYLGNYSATAWEDKDALDAINRFQDKLEDISKKIKQRNENLEVPYIYLLPERIPNGTAI HHAIYNVEVETGDREHAGTDATITIRITGAKGRTDYLKLDKGSFEAGSKEQYTVQGFDVGDIQLIELHSDGGGYWSGDPDWFVNRVIIISSTQDRVYSFPCFRWVIKDMVLFPGEATLPFNEVPAIVSEQRQKELEQRKLTYQWDYVSDDMPGNIKAKTHDDLPRDVQFTDEKSRSYQESRKAALVNLGIGSLFTMFENWDSYDDYHILYRNWILGGTPNMADRWHEDRWFGYQFLNGANPVILTRCDALPSNFPVTNEHVNASLDRGKNLDEEIKDGHIYIVDFKVLVGAKSYGGPVLEDIGYKEADIRYCAAPLALFYVNKLGHLMPIAIQINQEPGPENPIWTPHEENEHDWMMAKFWLGVAESNFHQLNTHLLRTHLTTESFALSTWRNLASAHPIFKLLQPHIYGVLAIDTIGRKELIGSGGIVDQSLSLGGGGHVTFMEKCFKEVNLQDYHLPNALKKRGVDDPSKLPGFYYRDDGLALWEAIETFIGEIIAIFYKNDDDVKRDNEIQSWIYDVHKNGWRVNPGHQDHGVPASFESREQLKEVLTSLVFTFSCQHAAVNFSQKDHYGFTPNAPAILRHPPPKKKGEATLQSILSTLPSKSQAAKAIATVYILTKFSEDERYLGNYSATAWEDKDALDAINRFQDKLEDISKKIKQRNENLEVPYIYLLPERIPNGTAI 3fg9-a3-m1-cF_3fg9-a3-m1-cE The crystal structure of an universal stress protein UspA family protein from Lactobacillus plantarum WCFS1 F9ULL0 F9ULL0 1.47 X-RAY DIFFRACTION 75 0.986 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 140 149 3fg9-a1-m1-cB_3fg9-a1-m1-cA 3fg9-a2-m1-cC_3fg9-a2-m1-cD ENQKQEPLVYRRILLTVDEDDNTSSERAFRYATTLAHDYDVPLGICSVLESSKIQAKRKHVEDVVAEYVQLAEQRGVNQVEPLVYEGGDVDDVILEQVIPEFKPDLLVTGADTEFPHSKIAGAIGPRLARKAPISVIVVR QKQEPLVYRRILLTVDEDDNTSSERAFRYATTLAHDYDVPLGICSVLESEDINIFDSLTPSKIQAKRKHVEDVVAEYVQLAEQRGVNQVEPLVYEGGDVDDVILEQVIPEFKPDLLVTGADTEFPHSKIAGAIGPRLARKAPISVIVVR 3fge-a1-m1-cA_3fge-a1-m2-cA Crystal structure of putative flavin reductase with split barrel domain (YP_750721.1) from SHEWANELLA FRIGIDIMARINA NCIMB 400 at 1.74 A resolution Q082D2 Q082D2 1.74 X-RAY DIFFRACTION 303 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 194 194 GHFSKEHINALETRTRAHFINSLSGFKSANLIGTQDRQGNTNLSIVSSVIHLGANPPLGIIRPPRHTFENIQTGLYTINHVNQSIYEQAHQTSARYDKDESEFEATGLTPEYLSDFCAPFVKESRLKYSVKLVEHQHLAINGTEFVIGEIVDVYVDDNAVQTDGFIDLQAIDTVAISGLDCYYTGDKLARLPYA GHFSKEHINALETRTRAHFINSLSGFKSANLIGTQDRQGNTNLSIVSSVIHLGANPPLGIIRPPRHTFENIQTGLYTINHVNQSIYEQAHQTSARYDKDESEFEATGLTPEYLSDFCAPFVKESRLKYSVKLVEHQHLAINGTEFVIGEIVDVYVDDNAVQTDGFIDLQAIDTVAISGLDCYYTGDKLARLPYA 3fgg-a1-m1-cB_3fgg-a1-m1-cA Crystal Structure of Putative ECF-type Sigma Factor Negative Effector from Bacillus cereus Q739E5 Q739E5 2.3 X-RAY DIFFRACTION 15 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 137 138 HAGTTLEAYRFSAKLSEAKDEGTKEYEVFTKELKKLTNAKLAYGDANGNIDYDALSPEKREEKTVSGLQPYFDKLNGHKSSKEVLTQEEFDRYEALTHEIVRVKTKSTGAIKVEEVPEAYKERFKAEQFEYVDEKVR KHAGTTLEAYRFSAKLSEAKDEGTKEYEVFTKELKKLTNAKLAYGDANGNIDYDALSPEKREEKTVSGLQPYFDKLNGHKSSKEVLTQEEFDRYEALTHEIVRVKTKSTGAIKVEEVPEAYKERFKAEQFEYVDEKVR 3fgg-a2-m2-cB_3fgg-a2-m1-cA Crystal Structure of Putative ECF-type Sigma Factor Negative Effector from Bacillus cereus Q739E5 Q739E5 2.3 X-RAY DIFFRACTION 80 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 137 138 HAGTTLEAYRFSAKLSEAKDEGTKEYEVFTKELKKLTNAKLAYGDANGNIDYDALSPEKREEKTVSGLQPYFDKLNGHKSSKEVLTQEEFDRYEALTHEIVRVKTKSTGAIKVEEVPEAYKERFKAEQFEYVDEKVR KHAGTTLEAYRFSAKLSEAKDEGTKEYEVFTKELKKLTNAKLAYGDANGNIDYDALSPEKREEKTVSGLQPYFDKLNGHKSSKEVLTQEEFDRYEALTHEIVRVKTKSTGAIKVEEVPEAYKERFKAEQFEYVDEKVR 3fgh-a1-m1-cA_3fgh-a1-m2-cA Human mitochondrial transcription factor A box B Q00059 Q00059 1.35 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 GKPKRPRSAYNVYVAERFQEAKGDSPQEKLKTVKENWKNLSDSEKELYIQHAKEDETRYHNEMKSWA GKPKRPRSAYNVYVAERFQEAKGDSPQEKLKTVKENWKNLSDSEKELYIQHAKEDETRYHNEMKSWA 3fgv-a1-m1-cA_3fgv-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE ANTIBIOTIC BIOSYNTHESIS MONOOXYGENASE (SPO2313) FROM SILICIBACTER POMEROYI DSS-3 AT 1.30 A RESOLUTION Q5LR19 Q5LR19 1.3 X-RAY DIFFRACTION 44 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 91 91 REVVIVKSTPQRGKFNAFAELVGKLVSETRDFPGCLGAYLLAPERNEQVVHIWETPDALEAYLTWRADRGDFLEINEYLEVEQDFKTYQLA REVVIVKSTPQRGKFNAFAELVGKLVSETRDFPGCLGAYLLAPERNEQVVHIWETPDALEAYLTWRADRGDFLEINEYLEVEQDFKTYQLA 3fgx-a3-m1-cA_3fgx-a3-m1-cB Structure of uncharacterised protein rbstp2171 from bacillus stearothermophilus 2.9 X-RAY DIFFRACTION 12 1.0 96 96 NTDELKQKYGRVYEIRIEGAEFVFYFTRPKVSDISRFTKELNSKPDMAMKNLTFSCIVPEQEEELRQAAEEFPGLTFNTASRLMEIVGASAATSLK NTDELKQKYGRVYEIRIEGAEFVFYFTRPKVSDISRFTKELNSKPDMAMKNLTFSCIVPEQEEELRQAAEEFPGLTFNTASRLMEIVGASAATSLK 3fgy-a1-m1-cB_3fgy-a1-m1-cA CRYSTAL STRUCTURE OF A NTF2-LIKE PROTEIN (BXE_B1094) FROM BURKHOLDERIA XENOVORANS LB400 AT 1.59 A RESOLUTION Q13M28 Q13M28 1.59 X-RAY DIFFRACTION 61 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 128 132 GSTQENVQIVKDFFAAGRGDKKGLLAVSAEDIEWIIPGEWPLAGTHRGHAALAALLQKASEVEISYPEPPEFVAQGERVLVVGFATGRVKSTNRTFEDDWVFAITVRKSKVTSIREYIDTLALARATN GSTQENVQIVKDFFAAGRGDKKGLLAVSAEDIEWIIPGEWPLAGTHRGHAALAALLQKASEVEISYPEPPEFVAQGERVLVVGFATGRVKSTNRTFEDDWVFAITVRKSKVTSIREYIDTLALARATNFNAT 3fh0-a1-m1-cA_3fh0-a1-m1-cB Crystal structure of putative universal stress protein KPN_01444 - ATPase A6T8F5 A6T8F5 2.15 X-RAY DIFFRACTION 13 0.992 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 122 122 SNAILVPIDISDERIISHVESEARIDDAEVHFLTVIPSLGDELREGSETQLKEIAKKFSIPEDRHFHVAEGSPKDKILALAKSLPADLVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR NAILVPIDISDERIISHVESEARIDDAEVHFLTVIPSLPGDELREGSETQLKEIAKKFSIPEDRHFHVAEGSPKDKILALAKSLPADLVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR 3fh1-a1-m1-cA_3fh1-a1-m2-cA Crystal structure of a ntf2-like protein of unknown function (mll8193) from mesorhizobium loti at 1.60 A resolution Q983T0 Q983T0 1.6 X-RAY DIFFRACTION 94 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 118 118 ITLHPDDRSEQTAEIRRFNDVFQLHDPAALPELIAEECVIENTVPAPDGARHAGRQACVQLWSAIATQPGTRFDLEETFVAGDRATIRWRYWADGNSVRGVNLRVQDGRIVEAGYVKG ITLHPDDRSEQTAEIRRFNDVFQLHDPAALPELIAEECVIENTVPAPDGARHAGRQACVQLWSAIATQPGTRFDLEETFVAGDRATIRWRYWADGNSVRGVNLRVQDGRIVEAGYVKG 3fh3-a1-m1-cA_3fh3-a1-m1-cB Crystal structure of a putative ECF-type sigma factor negative effector from Bacillus anthracis str. Sterne A0A6L8PES2 A0A6L8PES2 2.102 X-RAY DIFFRACTION 99 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 138 139 KHAGTTLEAYRFSAKLSEAKDEGTKEYEVFTKELKKLTNAKLAYGDSNGNIDYDALSSEKREEKKVSGLQPYFDKLNGHKSSKEVLTQEEFDRYEALTHEIVRVKTKSTGAIKVEEIPEAYKERFIKAEQFEYVDEKV KHAGTTLEAYRFSAKLSEAKDEGTKEYEVFTKELKKLTNAKLAYGDSNGNIDYDALSSEKREEKKVSGLQPYFDKLNGHKSSKEVLTQEEFDRYEALTHEIVRVKTKSTGAIKVEEIPEAYKERFIKAEQFEYVDEKVR 3fh6-a2-m1-cC_3fh6-a2-m1-cD Crystal structure of the resting state maltose transporter from E. coli P68187 P68187 4.5 X-RAY DIFFRACTION 57 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 371 372 1q1e-a1-m1-cA_1q1e-a1-m1-cB 3fh6-a1-m1-cA_3fh6-a1-m1-cB 4jbw-a1-m1-cA_4jbw-a1-m1-cB 4jbw-a2-m1-cC_4jbw-a2-m1-cD ASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGVA ASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGVAS 3fh9-a1-m1-cA_3fh9-a1-m2-cA Crystal structure determination of indian flying fox (Pteropus giganteus) at 1.62 A resolution D0VX09 D0VX09 1.62 X-RAY DIFFRACTION 23 1.0 143291 (Pteropus giganteus) 143291 (Pteropus giganteus) 141 141 VLSSTDKSNVKAAWDKVGGNVGEYGAEALERMFLSFPTTKTYFPHFDLAHGSSQVKAHGKKVGDALTNAVGHIDDLPGALSALSDLHAYKLRVDPVNFKLLSHCLLVTLASHLPSDFTPAVHASLDKFLASVSTVLTSKYR VLSSTDKSNVKAAWDKVGGNVGEYGAEALERMFLSFPTTKTYFPHFDLAHGSSQVKAHGKKVGDALTNAVGHIDDLPGALSALSDLHAYKLRVDPVNFKLLSHCLLVTLASHLPSDFTPAVHASLDKFLASVSTVLTSKYR 3fha-a1-m1-cD_3fha-a1-m1-cA Structure of endo-beta-N-acetylglucosaminidase A Q9ZB22 Q9ZB22 2 X-RAY DIFFRACTION 28 0.993 37930 (Glutamicibacter protophormiae) 37930 (Glutamicibacter protophormiae) 572 598 YNGPLSSHWFPEELAQWEPDSDPDAPFNRSHVPLEPGRVANRVNANADKDAHLVSLSALNRHTSGVPSQGAPVFYENTFSYWHYTDLMVYWAGSAGEGIIVPPSADVIDASHRNGVPILGNVFFPPTVYGGQLEWLEQMLEQEPLADKLLEVADYYGFDGWFINQETEDEGTAEAMQAFLVYLQEQKPEMHIMWYDSMIDTGIAWQNHLTDRNKMYLTRVADSMFLNFWWRDQRQSNELAQALGRSPYDLYAGVDVEARGTSTPVQWEGLFPEGEKAHTSLGLYRPDWAFQSSETMEAFYEKELQFWVGSTGNPAETDGQSNWPGMAHWFPAKSTATSVPFVTHFNTGSGAQFSAEGKTVSEQEWNNRSLQDVLPTWRWIQHGGDLEATFSWEEAFEGGSSLQWHGSLAHAQIELYQTELPISEGTSLTWTFKSEHDNDLNVGFRLDGEEDFRYVEGEQRESINGWTQWTLPLDAFAGQTITGLAFAAEGNETGLAEFYTGQLAVGADKPAAPNVNVRQYGIQLVWENVHHYRVYKETKELIGTSAGDRIYIRLHIEALSETFVPSDARMID TYNGPLSSHWFPEELAQWEPDSDPDAPFNRSHVPLEPGRVANRVNANADKDAHLVSLSALNRHTSGVPSQGAPVFYENTFSYWHYTDLMVYWAGSAGEGIIVPPSADVIDASHRNGVPILGNVFFPPTVYGGQLEWLEQMLEQEEDGSFPLADKLLEVADYYGFDGWFINQETEGADEGTAEAMQAFLVYLQEQKPEGMHIMWYDSMIDTGAIAWQNHLTDRNKMYLQNGSTRVADSMFLNFWWRDQRQSNELAQALGRSPYDLYAGVDVEARGTSTPVQWEGLFPEEKAHTSLGLYRPDWAFQSSETMEAFYEKELQFWVGSTGNPAETDGQSNWPGMAHWFPAKSTATSVPFVTHFNTGSGAQFSAEGKTVSEQEWNNRSLQDVLPTWRWIQHGGDLEATFSWEEAFEGGSSLQWHGSLAEGEHAQIELYQTELPISEGTSLTWTFKSEHDNDLNVGFRLDGEEDFRYVEGEQRESINGWTQWTLPLDAFAGQTITGLAFAAEGNETGLAEFYTGQLAVGPAAPNVNVRQYDPDPSGIQLVWENVHHYRVYKETKHGKELIGTSAGDRIYIEGLEVRLHIEALSETFVPSDARMID 3fhg-a2-m1-cA_3fhg-a2-m2-cA Crystal structure of Sulfolobus solfataricus 8-oxoguanine DNA glycosylase (SsOgg) Q97ZK2 Q97ZK2 1.9 X-RAY DIFFRACTION 45 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 207 207 MLRSLVQNPKVRARVLERVDEFRLNNLSNEEVWFRELTLCLLTANSSFISAYQALNCLGQKIYYANEEEIRNILKSCKYRFYNLKAKYIIMAREKVYGRLKEEIKPLADEDQQLARERLLNIKGIGMQEASHFLRNVGYFDLAIIDRHIIDFMRRIGAIGETNVKQLSKSLYISFENILKSIASNLNMSVGILDLFIWYKETNTIVK MLRSLVQNPKVRARVLERVDEFRLNNLSNEEVWFRELTLCLLTANSSFISAYQALNCLGQKIYYANEEEIRNILKSCKYRFYNLKAKYIIMAREKVYGRLKEEIKPLADEDQQLARERLLNIKGIGMQEASHFLRNVGYFDLAIIDRHIIDFMRRIGAIGETNVKQLSKSLYISFENILKSIASNLNMSVGILDLFIWYKETNTIVK 3fhk-a3-m1-cD_3fhk-a3-m1-cF Crystal structure of APC1446, B.subtilis YphP disulfide isomerase P54170 P54170 2.3 X-RAY DIFFRACTION 30 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 147 3fhk-a1-m1-cA_3fhk-a1-m1-cE 3fhk-a1-m1-cD_3fhk-a1-m1-cF 3fhk-a2-m1-cA_3fhk-a2-m1-cE MSMAYEEYMRQLVVPMRRELTGAGFEELTTAEEVENFMEKAEGTTLVVVNSVCGCAAGLARPAATQAVLQNDKTPDNTVTVFAGQDKEATAKMREYFTGAAPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTAAFDAH SNAMSMAYEEYMRQLVVPMRRELTGAGFEELTTAEEVENFMEKAEGTTLVVVNSVCGCAAGLARPAATQAVLQNDKTPDNTVTVFAGQDKEATAKMREYFTGAAPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTAAFDAHC 3fhk-a4-m1-cD_3fhk-a4-m1-cE Crystal structure of APC1446, B.subtilis YphP disulfide isomerase P54170 P54170 2.3 X-RAY DIFFRACTION 27 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 147 3fhk-a1-m1-cD_3fhk-a1-m1-cE MSMAYEEYMRQLVVPMRRELTGAGFEELTTAEEVENFMEKAEGTTLVVVNSVCGCAAGLARPAATQAVLQNDKTPDNTVTVFAGQDKEATAKMREYFTGAAPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTAAFDAH SNAMSMAYEEYMRQLVVPMRRELTGAGFEELTTAEEVENFMEKAEGTTLVVVNSVCGCAAGLARPAATQAVLQNDKTPDNTVTVFAGQDKEATAKMREYFTGAAPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTAAFDAHC 3fhk-a5-m1-cE_3fhk-a5-m1-cF Crystal structure of APC1446, B.subtilis YphP disulfide isomerase P54170 P54170 2.3 X-RAY DIFFRACTION 28 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 147 147 3fhk-a1-m1-cD_3fhk-a1-m1-cA 3fhk-a1-m1-cE_3fhk-a1-m1-cF 3fhk-a3-m1-cD_3fhk-a3-m1-cA SNAMSMAYEEYMRQLVVPMRRELTGAGFEELTTAEEVENFMEKAEGTTLVVVNSVCGCAAGLARPAATQAVLQNDKTPDNTVTVFAGQDKEATAKMREYFTGAAPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTAAFDAHC SNAMSMAYEEYMRQLVVPMRRELTGAGFEELTTAEEVENFMEKAEGTTLVVVNSVCGCAAGLARPAATQAVLQNDKTPDNTVTVFAGQDKEATAKMREYFTGAAPSSPSMALLKGKEVVHFIPRHEIEGHDMEEIMKNLTAAFDAHC 3fhl-a2-m1-cB_3fhl-a2-m1-cD Crystal structure of a putative oxidoreductase from bacteroides fragilis nctc 9343 Q5LCX7 Q5LCX7 1.93 X-RAY DIFFRACTION 115 0.997 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 321 338 3fhl-a1-m1-cA_3fhl-a1-m1-cC EIIKTGLAAFGMSGQVFHAPFISTNPHFELYKIVERSKELSKERYPQASIVRSFKELTEDPEIDLIVVNTPDNTHYEYAGMALEAGKNVVVEKPFTSTTKQGEELIALAKKKGLMLSVYQNRRWDADFLTVRDILAKSLLGRLVEYESTFARYRNGLTYNLGSHLIDQAIQLFGMPEAVFADLGILREGGKVDDYFIIHLLHPSLAPNVKITLKASYLMREAEPRFALHGTLGSYVKYGVDKQEAALLQEWGLLHTEINGKEICRKYPGIAGNYGGFYQNIYEHLCLGQPLETHAQDILNVIRIIEAAYQSHRENKIVNLK EIIKTGLAAFGMSGQVFHAPFISTNPHFELYKIVERSKELSKERYPQASIVRSFKELTEDPEIDLIVVNTPDNTHYEYAGMALEAGKNVVVEKPFTSTTKQGEELIALAKKKGLMLSVYQNRRWDADFLTVRDILAKSLLGRLVEYESTFARYRNFIGGLTYNLGSHLIDQAIQLFGMPEAVFADLGILREGGKVDDYFIIHLLHPSLAPNVKITLKASYLMREAEPRFALHGTLGSYVKYGVDKQEAALLAGEIPERPNWGEESEQEWGLLHTEINGKEICRKYPGIAGNYGGFYQNIYEHLCLGQPLETHAQDILNVIRIIEAAYQSHRENKIVNL 3fhm-a2-m1-cB_3fhm-a2-m1-cC Crystal structure of the CBS-domain containing protein ATU1752 from Agrobacterium tumefaciens A9CIP4 A9CIP4 2.7 X-RAY DIFFRACTION 88 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 126 134 3fhm-a1-m1-cD_3fhm-a1-m1-cA TFVKDLLDRKGRDVVTVGPDVSIGEAAGTLHAHKIGAVVVTDADGVVLGIFTERDLVKAVAGQGAASLQQSVSVAMTKNVVRCQHNSTTDQLMEIMTGGRFRHVPVEENGRLAGIISIGDVVKARI NLYFQGMATFVKDLLDRKGRDVVTVGPDVSIGEAAGTLHAHKIGAVVVTDADGVVLGIFTERDLVKAVAGQGAASLQQSVSVAMTKNVVRCQHNSTTDQLMEIMTGGRFRHVPVEENGRLAGIISIGDVVKARI 3fho-a1-m1-cA_3fho-a1-m1-cB Structure of S. pombe Dbp5 Q09747 Q09747 2.8 X-RAY DIFFRACTION 70 0.99 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 305 306 XXXXXKIQEKALPLLLSNPPRNMIGQSQSGTGKTAAFALTMLSRVDASVPKPQAICLAPSRELARQIMDVVTEMGKYTEVKTAFKIDAQIVIGTPGTVMDLMKRRQLDARDIKVFVLDEADNMLDQLGDQSMRIKHLLPRNTQIVLFSATFSERVEKYAERFAPNANEIRLKTEEGIKQLYMDCEEHKYNVLVELYGIGQSIIFCKKKDTAEEIARRMTADGHTVACLTAQRDAIMDSFRVGTSKVLVTTNIDVSQVNLVVNLDDPQTYLHRIGRTGGVSINFVHDKKSWEEMNAIQEYFQRPIT XXXXKIQEKALPLLLSNPPRNMIGQSQSGTGKTAAFALTMLSRVDASVPKPQAICLAPSRELARQIMDVVTEMGKYTEVKTAFKIDAQIVIGTPGTVMDLMKRRQLDARDIKVFVLDEADNMLDQLGDQSMRIKHLLPRNTQIVLFSATFSERVEKYAERFAPNANEIRLKTEEGIKQLYMDCQSEEHKYNVLVELYGTIGQSIIFCKKKDTAEEIARRMTADGHTVACLTAQRDAIMDSFRVGTSKVLVTTNIDVSQVNLVVNLDDPQTYLHRIGRTGVGVSINFVHDKKSWEEMNAIQEYFQRP 3fhq-a2-m1-cF_3fhq-a2-m1-cD Structure of endo-beta-N-acetylglucosaminidase A Q9ZB22 Q9ZB22 2.452 X-RAY DIFFRACTION 24 0.997 37930 (Glutamicibacter protophormiae) 37930 (Glutamicibacter protophormiae) 596 597 3fhq-a1-m1-cB_3fhq-a1-m1-cA TYNGPLSSHWFPEELAQWEPDSDPDAPFNRSHVPLEPGRVADRVNANADKDAHLVSLSALNRHTSGVPSQGAPVFYENTFSYWHYTDLMVYWAGSAGEGIIVPPSADVIDASHRNGVPILGNVFFPPTVYGGQLEWLEQMLEQEEDGSFPLADKLLEVADYYGFDGWFINQETEGADEGTAEAMQAFLVYLQEQKPEGMHIMWYDSMIDTGAIAWQNHLTDRNKMYLQNGSTRVADSMFLNFWWRDQRQSNELAQALGRSPYDLYAGVDVEARGTSTPVQWEGLFPEGEKAHTSLGLYRPDWAFQSSETMEAFYEKELQFWVGSTGNPAETDGQSNWPGMAHWFPAKSTATSVPFVTHFNTGSGAQFSAEGKTVSEQEWNNRSLQDVLPTWRWIQHGGDLEATFSWEEAFEGGSSLQWHGSLAEGEHAQIELYQTELPISEGTSLTWTFKSEHDNDLNVGFRLDGDFRYVEGEQRESINGWTQWTLPLDAFAGQTITGLAFAAEGNETGLAEFYTGQLAVGPAAPNVNVRQYDPDPSGIQLVWENVHHYRVYKETKHGKELIGTSAGDRIYIEGLVRLHIEALSETFVPSDARMID TYNGPLSSHWFPEELAQWEPDSDPDAPFNRSHVPLEPGRVADRVNANADKDAHLVSLSALNRHTSGVPSQGAPVFYENTFSYWHYTDLMVYWAGSAGEGIIVPPSADVIDASHRNGVPILGNVFFPPTVYGGQLEWLEQMLEQEEDGSFPLADKLLEVADYYGFDGWFINQETEGADEGTAEAMQAFLVYLQEQKPEGMHIMWYDSMIDTGAIAWQNHLTDRNKMYLQNGSTRVADSMFLNFWWRDQRQSNELAQALGRSPYDLYAGVDVEARGTSTPVQWEGLFPEEKAHTSLGLYRPDWAFQSSETMEAFYEKELQFWVGSTGNPAETDGQSNWPGMAHWFPAKSTATSVPFVTHFNTGSGAQFSAEGKTVSEQEWNNRSLQDVLPTWRWIQHGGDLEATFSWEEAFEGGSSLQWHGSLAEGEHAQIELYQTELPISEGTSLTWTFKSEHDNDLNVGFRLDDFRYVEGEQRESINGWTQWTLPLDAFAGQTITGLAFAAEGNETGLAEFYTGQLAVGPAAPNVNVRQYDPDPSGIQLVWENVHHYRVYKETKHGKELIGTSAGDRIYIEGLVEEVRLHIEALSETFVPSDARMID 3fhv-a1-m1-cA_3fhv-a1-m1-cB Structural basis of Salmonella typhi type IVb PilS and cystic fibrosis transmembrane conductance regulator (CFTR) interaction Q8Z1L1 Q8Z1L1 1.9 X-RAY DIFFRACTION 48 1.0 150 150 3fhu-a1-m1-cA_3fhu-a1-m1-cB AGTELTNYQTLATNTIGMMKGVDGYAFTSGAKMTDTLIQAGAAKGMTVSGDPASGSATLWNSWGGQIVVAPDTAGGTGFNNGFTITTNKVPQSACVSISTGMSRSGGTSGIKINGNNHTDAKVTAEIASSECTADNGRTGTNTLVFNYNG AGTELTNYQTLATNTIGMMKGVDGYAFTSGAKMTDTLIQAGAAKGMTVSGDPASGSATLWNSWGGQIVVAPDTAGGTGFNNGFTITTNKVPQSACVSISTGMSRSGGTSGIKINGNNHTDAKVTAEIASSECTADNGRTGTNTLVFNYNG 3fhw-a1-m1-cA_3fhw-a1-m1-cB Crystal structure of the protein priB from Bordetella parapertussis. Northeast Structural Genomics Consortium target BpR162. P67675 P67675 1.9 X-RAY DIFFRACTION 83 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 96 96 3klw-a1-m1-cB_3klw-a1-m1-cA NTLELSARVLECGARHTPAGLPALELLLVHESEVVEAGRRVELTISAVALGDLALLLADTPLGTEQVQGFLAPARKDSVKVKLHLQQARRIAGSGR NTLELSARVLECGARHTPAGLPALELLLVHESEVVEAGRRVELTISAVALGDLALLLADTPLGTEQVQGFLAPARKDSVKVKLHLQQARRIAGSGR 3fhz-a1-m1-cA_3fhz-a1-m1-cB Crystal structure of the arginine repressor from Mycobacterium tuberculosis bound with its DNA operator and co-repressor, L-arginine P9WPY9 P9WPY9 3.27 X-RAY DIFFRACTION 53 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 155 161 3bue-a1-m1-cA_3bue-a1-m1-cB 3bue-a1-m1-cB_3bue-a1-m1-cC 3bue-a1-m1-cE_3bue-a1-m1-cD 3bue-a1-m1-cE_3bue-a1-m1-cF 3bue-a2-m1-cA_3bue-a2-m1-cB 3bue-a2-m1-cB_3bue-a2-m1-cC 3bue-a3-m1-cE_3bue-a3-m1-cD 3bue-a3-m1-cE_3bue-a3-m1-cF 3cag-a1-m1-cD_3cag-a1-m1-cE 3cag-a3-m1-cD_3cag-a3-m1-cE 3fhz-a1-m1-cC_3fhz-a1-m1-cB 3fhz-a1-m1-cF_3fhz-a1-m1-cD ANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR AGPEVAANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3fhz-a1-m1-cE_3fhz-a1-m1-cB Crystal structure of the arginine repressor from Mycobacterium tuberculosis bound with its DNA operator and co-repressor, L-arginine P9WPY9 P9WPY9 3.27 X-RAY DIFFRACTION 70 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 155 161 2zfz-a1-m1-cF_2zfz-a1-m1-cA 3cag-a1-m1-cF_3cag-a1-m1-cA 3fhz-a1-m1-cC_3fhz-a1-m1-cD ANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR AGPEVAANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3fhz-a1-m1-cE_3fhz-a1-m1-cD Crystal structure of the arginine repressor from Mycobacterium tuberculosis bound with its DNA operator and co-repressor, L-arginine P9WPY9 P9WPY9 3.27 X-RAY DIFFRACTION 36 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 155 166 2zfz-a1-m1-cA_2zfz-a1-m1-cB 2zfz-a1-m1-cA_2zfz-a1-m1-cC 2zfz-a1-m1-cE_2zfz-a1-m1-cD 2zfz-a1-m1-cF_2zfz-a1-m1-cD 2zfz-a2-m1-cA_2zfz-a2-m1-cB 2zfz-a2-m1-cA_2zfz-a2-m1-cC 2zfz-a3-m1-cE_2zfz-a3-m1-cD 2zfz-a3-m1-cF_2zfz-a3-m1-cD 3cag-a1-m1-cA_3cag-a1-m1-cB 3cag-a1-m1-cA_3cag-a1-m1-cC 3cag-a1-m1-cF_3cag-a1-m1-cD 3cag-a2-m1-cA_3cag-a2-m1-cB 3cag-a2-m1-cA_3cag-a2-m1-cC 3cag-a3-m1-cF_3cag-a3-m1-cD 3fhz-a1-m1-cA_3fhz-a1-m1-cC 3fhz-a1-m1-cE_3fhz-a1-m1-cF ANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR KAAPVAGPEVAANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3fhz-a1-m1-cF_3fhz-a1-m1-cB Crystal structure of the arginine repressor from Mycobacterium tuberculosis bound with its DNA operator and co-repressor, L-arginine P9WPY9 P9WPY9 3.27 X-RAY DIFFRACTION 99 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 155 161 3fhz-a1-m1-cA_3fhz-a1-m1-cD 3fhz-a1-m1-cE_3fhz-a1-m1-cC ANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR AGPEVAANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3fi7-a2-m1-cA_3fi7-a2-m4-cA Crystal Structure of the autolysin Auto (Lmo1076) from Listeria monocytogenes, catalytic domain Q8Y842 Q8Y842 2.35 X-RAY DIFFRACTION 17 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 177 177 3fi7-a2-m2-cA_3fi7-a2-m3-cA EPVFSLEQNRDDAMAALASTPTFQQTFINSISTQAMDLCKKYNLYPSVMIAQAALESNWGRSELGKAPNYNLFGIKGSYNGKSVTMKTWEYSDSKGWYQINANFAKYPSHKESLEDNAKKLRNGPSWDSSYYKGAWRENAKTYKDATAWLQGRYATDNTYASKLNTLISSYNLTQYD EPVFSLEQNRDDAMAALASTPTFQQTFINSISTQAMDLCKKYNLYPSVMIAQAALESNWGRSELGKAPNYNLFGIKGSYNGKSVTMKTWEYSDSKGWYQINANFAKYPSHKESLEDNAKKLRNGPSWDSSYYKGAWRENAKTYKDATAWLQGRYATDNTYASKLNTLISSYNLTQYD 3fi7-a2-m3-cA_3fi7-a2-m4-cA Crystal Structure of the autolysin Auto (Lmo1076) from Listeria monocytogenes, catalytic domain Q8Y842 Q8Y842 2.35 X-RAY DIFFRACTION 151 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 177 177 3fi7-a2-m1-cA_3fi7-a2-m2-cA EPVFSLEQNRDDAMAALASTPTFQQTFINSISTQAMDLCKKYNLYPSVMIAQAALESNWGRSELGKAPNYNLFGIKGSYNGKSVTMKTWEYSDSKGWYQINANFAKYPSHKESLEDNAKKLRNGPSWDSSYYKGAWRENAKTYKDATAWLQGRYATDNTYASKLNTLISSYNLTQYD EPVFSLEQNRDDAMAALASTPTFQQTFINSISTQAMDLCKKYNLYPSVMIAQAALESNWGRSELGKAPNYNLFGIKGSYNGKSVTMKTWEYSDSKGWYQINANFAKYPSHKESLEDNAKKLRNGPSWDSSYYKGAWRENAKTYKDATAWLQGRYATDNTYASKLNTLISSYNLTQYD 3fi9-a1-m1-cB_3fi9-a1-m1-cA Crystal structure of malate dehydrogenase from Porphyromonas gingivalis B2RM04 B2RM04 1.9 X-RAY DIFFRACTION 124 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 320 321 LSYLTEEKLTIVGAAGMIGSNMAQTAAMMRLTPNLCLYDPFAVGLEGVAEEIRHCGFEGLNLTFTSDIKEALTDAKYIVSSGGTREDLLKGNAEIAAQLGKDIKSYCPDCKHVIIIFNPADITGLVTLIYSGLKPSQVTTLAGLDSTRLQSELAKHFGIKQSLVTNTRTYGGHGEQMAVFASTAKVNGTPLTDLIGTDKLTNEQWAELKQRVVKGGANIIKLRGRSSFQSPSYVSIEMIRAAMGGEAFRWPAGCYVNVPGFEHIMMAMETTITKDGVKHSDINQLGNEAERAALKESYSHLAKLRDEVIAMGIIPAIADW SLSYLTEEKLTIVGAAGMIGSNMAQTAAMMRLTPNLCLYDPFAVGLEGVAEEIRHCGFEGLNLTFTSDIKEALTDAKYIVSSGGTREDLLKGNAEIAAQLGKDIKSYCPDCKHVIIIFNPADITGLVTLIYSGLKPSQVTTLAGLDSTRLQSELAKHFGIKQSLVTNTRTYGGHGEQMAVFASTAKVNGTPLTDLIGTDKLTNEQWAELKQRVVKGGANIIKLRGRSSFQSPSYVSIEMIRAAMGGEAFRWPAGCYVNVPGFEHIMMAMETTITKDGVKHSDINQLGNEAERAALKESYSHLAKLRDEVIAMGIIPAIADW 3fij-a1-m1-cF_3fij-a1-m1-cH Crystal structure of a uncharacterized protein lin1909 Q92AL3 Q92AL3 2.3 X-RAY DIFFRACTION 33 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 220 220 3fij-a1-m1-cA_3fij-a1-m1-cD 3fij-a1-m1-cA_3fij-a1-m1-cH 3fij-a1-m1-cB_3fij-a1-m1-cE 3fij-a1-m1-cC_3fij-a1-m1-cB 3fij-a1-m1-cC_3fij-a1-m1-cG 3fij-a1-m1-cD_3fij-a1-m1-cF 3fij-a1-m1-cG_3fij-a1-m1-cE LKPVIGITGQQRYVDAIQKVGGFPIALPIDDPSTAVQAISLVDGLLLTGGQDITPQLYLEEPSQEIGAYFPPRDSYEIALVRAALDAGKPIFAICRGQLVNVALGGTLYQDISQVETKALQHLQRVDEQLGSHTIDIEPTSELAKHHPNKKLVNSLHHQFIKKLAPSFKVTARTADGIEAVEGDNLPSWYLGVQWHPELFQTDPESEQLFQALVDESKKT LKPVIGITGQQRYVDAIQKVGGFPIALPIDDPSTAVQAISLVDGLLLTGGQDITPQLYLEEPSQEIGAYFPPRDSYEIALVRAALDAGKPIFAICRGQLVNVALGGTLYQDISQVETKALQHLQRVDEQLGSHTIDIEPTSELAKHHPNKKLVNSLHHQFIKKLAPSFKVTARTADGIEAVEGDNLPSWYLGVQWHPELFQTDPESEQLFQALVDESKKT 3fij-a1-m1-cG_3fij-a1-m1-cH Crystal structure of a uncharacterized protein lin1909 Q92AL3 Q92AL3 2.3 X-RAY DIFFRACTION 49 0.995 1642 (Listeria innocua) 1642 (Listeria innocua) 219 220 3fij-a1-m1-cB_3fij-a1-m1-cD 3fij-a1-m1-cC_3fij-a1-m1-cA 3fij-a1-m1-cE_3fij-a1-m1-cF LKPVIGITGNQRYVDAIQKVGGFPIALPIDDPSTAVQAISLVDGLLLTGGQDITPQLYLEEPSQEIGAYFPPRDSYEIALVRAALDAGKPIFAICRGQLVNVALGGTLYQDISQVETKALQHLQRVDEQLGSHTIDIEPTSELAKHHPNKKLVNSLHHQFIKKLAPSFKVTARTADGIEAVEGDNLPSWYLGVQWHPELFQTDPESEQLFQALVDESKK LKPVIGITGQQRYVDAIQKVGGFPIALPIDDPSTAVQAISLVDGLLLTGGQDITPQLYLEEPSQEIGAYFPPRDSYEIALVRAALDAGKPIFAICRGQLVNVALGGTLYQDISQVETKALQHLQRVDEQLGSHTIDIEPTSELAKHHPNKKLVNSLHHQFIKKLAPSFKVTARTADGIEAVEGDNLPSWYLGVQWHPELFQTDPESEQLFQALVDESKKT 3fil-a1-m1-cA_3fil-a1-m1-cB Structural and energetic determinants for hyperstable variants of GB1 obtained from in-vitro evolution P19909 P19909 0.88 X-RAY DIFFRACTION 33 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 55 56 2klk-a1-m1-cA_2klk-a1-m1-cB 2rmm-a1-m1-cA_2rmm-a1-m1-cB 6nl8-a1-m1-cA_6nl8-a1-m2-cA QYKLILNGKTLKGVLTIEAVDAATAEKVFKQYANDLGVDGEWTYDDATKTFTVTE MQYKLILNGKTLKGVLTIEAVDAATAEKVFKQYANDLGVDGEWTYDDATKTFTVTE 3fiu-a2-m1-cC_3fiu-a2-m1-cD Structure of NMN synthetase from Francisella tularensis 1.85 X-RAY DIFFRACTION 149 1.0 376619 (Francisella tularensis subsp. holarctica LVS) 376619 (Francisella tularensis subsp. holarctica LVS) 238 238 3fiu-a1-m1-cA_3fiu-a1-m1-cB DFSPKEYSQKLVNWLSDSCMNYPAEGFVIGLSGGIDSAVAASLAVKTGLPTTALILPSDNNQHQDMQDALELIEMLNIEHYTISIQPAYEAFLASTQSFTQLVIKGNAQARLRMMYLYAYAQQYNRIVIGTDNACEWYMGYFTKFGDGAADILPLVNLKKSQVFELGKYLDVPKNILDKAPSAGLWQGQTDEDEMGVTYQEIDDFLDGKQVSAKALERINFWHNRSHHKRKLALTPNF DFSPKEYSQKLVNWLSDSCMNYPAEGFVIGLSGGIDSAVAASLAVKTGLPTTALILPSDNNQHQDMQDALELIEMLNIEHYTISIQPAYEAFLASTQSFTQLVIKGNAQARLRMMYLYAYAQQYNRIVIGTDNACEWYMGYFTKFGDGAADILPLVNLKKSQVFELGKYLDVPKNILDKAPSAGLWQGQTDEDEMGVTYQEIDDFLDGKQVSAKALERINFWHNRSHHKRKLALTPNF 3fiv-a1-m1-cI_3fiv-a1-m1-cJ CRYSTAL STRUCTURE OF FELINE IMMUNODEFICIENCY VIRUS PROTEASE COMPLEXED WITH A SUBSTRATE 1.85 X-RAY DIFFRACTION 14 1.0 4 4 VLAE VLAE 3fiw-a2-m1-cD_3fiw-a2-m1-cC Structure of SCO0253, a Tetr-family transcriptional regulator from Streptomyces coelicolor Q9S1N8 Q9S1N8 2.2 X-RAY DIFFRACTION 140 0.994 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 164 167 3fiw-a1-m1-cB_3fiw-a1-m1-cA NRETVITEALDLLDEVGLDGVSTRRLAKRLGVEQPSLYWYFRTKRDLLTAAQAAAPHAAEPLPEPGEDWHGWFLRNTRSFRRTLLARRDGARLHAGSRPTADLDRVRRKDFLVASGVPERHAQALAAGRFTVGCVLEEQAEIDHESAFEAGLALITDGLVRHVD TKNRETVITEALDLLDEVGLDGVSTRRLAKRLGVEQPSLYWYFRTKRDLLTAAQAAAPHAAEPLPEPGEDWHGWFLRNTRSFRRTLLARRDGARLHAGSRPTADLDRVRRKDFLVASGVPERHAQALAAGRFTVGCVLEEQAEDHESAFEAGLALITDGLVRHVDAR 3fix-a6-m1-cD_3fix-a6-m1-cC Crystal structure of a putative n-acetyltransferase (ta0374) from thermoplasma acidophilum Q9HL57 Q9HL57 2.3 X-RAY DIFFRACTION 13 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 155 162 3fix-a5-m1-cB_3fix-a5-m1-cA IEIRKLSIEDLETLIEVARESWKWTYAGIYSEEYIESWIREKYSKEKLLNEIVRSQSNLDILFLGAFADSTLIGFIELKIIANKAELLRLYLKPEYTHKKIGKTLLLEAEKIKKKGILECRLYVHRQNSVGFSFYYKNGFKVEDTDGSDFIEKKY YFQSNASIEIRKLSIEDLETLIEVARESWKWTYAGIYSEEYIESWIREKYSKEKLLNEIVRSQSNLDILFLGAFADSTLIGFIELKIIANKAELLRLYLKPEYTHKKIGKTLLLEAEKIKKKGILECRLYVHRQNSVGFSFYYKNGFKVEDTDGSDFIEKKY 3fj1-a2-m1-cC_3fj1-a2-m1-cD Crystal structure of putative phosphosugar isomerase (YP_167080.1) from SILICIBACTER POMEROYI DSS-3 at 1.75 A resolution Q5LSC5 Q5LSC5 1.75 X-RAY DIFFRACTION 123 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 322 326 3fj1-a1-m1-cB_3fj1-a1-m1-cA ITRRREIDEIPEAVQRLLDHGAQDVARVAAVLRLRDPSFVATVARGSSDHVCTYLSYAAELLLGLPVASLGPSVASVYDARLRLDRALCLAVSQSGKSPDIVATRNAGRDGALCVALTNDAASPLAGVSAHTIDIHAGPELSVAATKTFVTSAVAGLLLADWAEDDGLRAALGNLPETLAAASRIDWPERVAIGARPSLFTLGRGTSLAVSNEAALKFKETCQLHAESYSSAEVLHGPVSIVEEGFPVLGFAAGDAAEAPLAEIADQIAAKGATVFATTGRVTRARVLEHVRSGHALTDPLSLIVSFYSVEAFASERGIDPD TQHITRRREIDEIPEAVQRLLDHGAQDVARVAAVLRLRDPSFVATVARGSSDHVCTYLSYAAELLLGLPVASLGPSVASVYDARLRLDRALCLAVSQSGKSPDIVATRNAGRDGALCVALTNDAASPLAGVSAHTIDIHAGPELSVAATKTFVTSAVAGLLLADWAEDDGLRAALGNLPETLAAASRIDWPERVAIGARPSLFTLGRGTSLAVSNEAALKFKETCQLHAESYSSAEVLHGPVSIVEEGFPVLGFAAGDAAEAPLAEIADQIAAKGATVFATTGRVTRARVLEHVRSGHALTDPLSLIVSFYSVEAFASERGIDPDA 3fj4-a2-m2-cA_3fj4-a2-m4-cA Crystal structure of muconate lactonizing enzyme from Pseudomonas Fluorescens complexed with muconolactone Q4K9X1 Q4K9X1 1.8 X-RAY DIFFRACTION 38 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 371 371 3ct2-a2-m1-cA_3ct2-a2-m2-cA 3ct2-a2-m1-cA_3ct2-a2-m4-cA 3ct2-a2-m1-cB_3ct2-a2-m2-cB 3ct2-a2-m1-cB_3ct2-a2-m4-cB 3ct2-a2-m2-cA_3ct2-a2-m3-cA 3ct2-a2-m2-cB_3ct2-a2-m3-cB 3ct2-a2-m3-cA_3ct2-a2-m4-cA 3ct2-a2-m3-cB_3ct2-a2-m4-cB 3dgb-a1-m1-cA_3dgb-a1-m3-cA 3dgb-a1-m1-cA_3dgb-a1-m4-cA 3dgb-a1-m2-cA_3dgb-a1-m3-cA 3dgb-a1-m2-cA_3dgb-a1-m4-cA 3dgb-a1-m5-cA_3dgb-a1-m7-cA 3dgb-a1-m5-cA_3dgb-a1-m8-cA 3dgb-a1-m6-cA_3dgb-a1-m7-cA 3dgb-a1-m6-cA_3dgb-a1-m8-cA 3fj4-a2-m1-cA_3fj4-a2-m3-cA 3fj4-a2-m1-cA_3fj4-a2-m4-cA 3fj4-a2-m1-cB_3fj4-a2-m3-cB 3fj4-a2-m1-cB_3fj4-a2-m4-cB 3fj4-a2-m2-cA_3fj4-a2-m3-cA 3fj4-a2-m2-cB_3fj4-a2-m3-cB 3fj4-a2-m2-cB_3fj4-a2-m4-cB HASAIESIETIIVDLPTIRPHKLAMHTMQNQTLVLIRLRCADGIEGLGESTTIGGLAYGNESPDSIKTNIDRFVAPLLIGQDASNINAAMLRLEQSIRGNTFAKSGIESALLDAQGKRLGLPVSELLGGRVRDALPVAWTLASGDTAKDIAEAQKMLDLRRHRIFKLKIGAGEVDRDLAHVIAIKKALGDSASVRVDVNQAWDEAVALRACRILGGNGIDLIEQPISRNNRAGMVRLNASSPAPIMADESIECVEDAFNLAREGAASVFALKIAKNGGPRATLRTAAIAEAAGIGLYGGTMLEGGIGTLASAHAFLTLNKLSWDTELFGPLLLTEDILAEPPVYRDFHLHVSKAPGLGLSLDEERLAFFRR HASAIESIETIIVDLPTIRPHKLAMHTMQNQTLVLIRLRCADGIEGLGESTTIGGLAYGNESPDSIKTNIDRFVAPLLIGQDASNINAAMLRLEQSIRGNTFAKSGIESALLDAQGKRLGLPVSELLGGRVRDALPVAWTLASGDTAKDIAEAQKMLDLRRHRIFKLKIGAGEVDRDLAHVIAIKKALGDSASVRVDVNQAWDEAVALRACRILGGNGIDLIEQPISRNNRAGMVRLNASSPAPIMADESIECVEDAFNLAREGAASVFALKIAKNGGPRATLRTAAIAEAAGIGLYGGTMLEGGIGTLASAHAFLTLNKLSWDTELFGPLLLTEDILAEPPVYRDFHLHVSKAPGLGLSLDEERLAFFRR 3fjm-a1-m1-cA_3fjm-a1-m1-cB crystal structure of phosphate bound PEB3 Q0PBL7 Q0PBL7 1.6 X-RAY DIFFRACTION 134 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 231 231 2hxw-a1-m1-cA_2hxw-a1-m1-cB 3fir-a1-m1-cA_3fir-a1-m1-cB 3fj7-a1-m1-cA_3fj7-a1-m1-cB 3fjg-a1-m1-cA_3fjg-a1-m1-cB 3fjg-a2-m1-cC_3fjg-a2-m1-cD DVNLYGPGGPHTALKDIANKYSEKTGVKVNVNFGPQATWFEKAKKDADILFGASDQSALAIASDFGKDFNVSKIKPLYFREAIILTQKGNPLKIKGLKDLANKKVRIVVPEGAGKSNTSGTGVWEDMIGRTQDIKTIQNFRNNIVAFVPNSGSARKLFAQDQADAWITWIDWSKSNPDIGTAVAIEKDLVVYRTFNVIAKEGASKETQDFIAYLSSKEAKEIFKKYGWREH DVNLYGPGGPHTALKDIANKYSEKTGVKVNVNFGPQATWFEKAKKDADILFGASDQSALAIASDFGKDFNVSKIKPLYFREAIILTQKGNPLKIKGLKDLANKKVRIVVPEGAGKSNTSGTGVWEDMIGRTQDIKTIQNFRNNIVAFVPNSGSARKLFAQDQADAWITWIDWSKSNPDIGTAVAIEKDLVVYRTFNVIAKEGASKETQDFIAYLSSKEAKEIFKKYGWREH 3fjs-a2-m1-cD_3fjs-a2-m1-cC CRYSTAL STRUCTURE OF A PUTATIVE BIOSYNTHETIC PROTEIN WITH RMLC-LIKE CUPIN FOLD (REUT_B4087) FROM RALSTONIA EUTROPHA JMP134 AT 1.90 A RESOLUTION Q46TU1 Q46TU1 1.9 X-RAY DIFFRACTION 116 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 100 105 3fjs-a1-m1-cA_3fjs-a1-m1-cB SSGEVASVLPLGKQLTQTPSAALFKEHRLEVRVLPAGKQVGSHSVAGPSTIQCLEGEVEIGVDGAQRRLHQGDLLYLGAGAAHDVNAITNTSLLVTVVLV SSGEVASVLPLGKQLTQTPSAALFKEHRLEVRVLPAGKQVGSHSVAGPSTIQCLEGEVEIGVDGAQRRLHQGDLLYLGAGAAHDVNAITNTSLLVTVVLVDRGGS 3fjv-a1-m1-cB_3fjv-a1-m1-cA Crystal structure of novel protein of unknown function (YP_111841.1) from BURKHOLDERIA PSEUDOMALLEI K96243 at 1.90 A resolution Q63J81 Q63J81 1.9 X-RAY DIFFRACTION 44 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 175 190 LTRDSLLTLEAYAKVRRQEHARVIAHKKRRAVSIGNHLRLLFEDETTIRYQIHELHIEKIFDEDGIQAELDAYLPLVPDGSNLKATLQIEYENETQRRAALARLVGIEDRVFLRVDDEAPVYAIAVHFLRFELGDAKAKLKAGAPLSIGCDHPHYPIQAARIDPDVAASLAGDLD TLTRDSLLTLEAYAKVRRQEHARVIAHKKRRAVSIGNHLRLLFEDETTIRYQIHELHIEKIFDEDGIQAELDAYLPLVPDGSNLKATLQIEYENETQRRAALARLVGIEDRVFLRVDDEAPVYAIADEDLERDTAEKTSAVHFLRFELGDAKAKLKAGAPLSIGCDHPHYPIQAARIDPDVAASLAGDLD 3fjy-a1-m1-cA_3fjy-a1-m1-cB Crystal structure of a probable MutT1 protein from Bifidobacterium adolescentis A0ZZM4 A0ZZM4 2.15 X-RAY DIFFRACTION 60 1.0 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 324 345 LEAAGGIVWRWKAGSDIANDPAIASSKSAQEQLDSIEVCIVHRPKYDDWSWPKGKLEQNETHRHAAVREIGEETGSPVKLGPYLCEVEHTLYWAQPISADDAEHLLDAFGPVHRADVGEINDIVWVSVREARKILSHSTDKDTLAVFVDRVQEGAATAQNLLIVRHAKAESRKSWKGTDANRPITPKGAAAFALNRELACFNPTRLATSPWLRCQETLQVLSWQTERPEHINTLTEDAFAEHPAVSWLAFREQITQTLNSRETTAICHRPVIGGYDHLRGLCARKQLAKQLIAKSPYPTGTASLFIIDTPQGPSIIDIQKVSPI LEAAGGIVWRWKAGSDIANDPAIASSKSAQEQLDSIEVCIVHRPKYDDWSWPKGKLEQNETHRHAAVREIGEETGSPVKLGPYLCEVEYPLSEEGKKTRHSHDCTADTKHTLYWAQPISADDAEHLLDAFGPVHRADVGEINDIVWVSVREARKILSHSTDKDTLAVFVDRVQEGAATAQNLLIVRHAKAESRKSWKGTDANRPITPKGAAAFALNRELACFNPTRLATSPWLRCQETLQVLSWQTERPEHINTLTEDAFAEHPAVSWLAFREQITQTLNSRETTAICHRPVIGGYDHLRGLCARKQLAKQLIAKSPYPTGTASLFIIDTPQGPSIIDIQKVSPI 3fk4-a1-m1-cA_3fk4-a1-m1-cB Crystal structure of RuBisCO-like protein from Bacillus Cereus ATCC 14579 Q819E8 Q819E8 2 X-RAY DIFFRACTION 190 0.992 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 388 391 GIIATYLIHDDSHNLEKKAEQIALGLTIGEQLKQHKGNVIHVEELAEHEHTNSYLRKKVKRGIIKIEYPLLNFSPDLPAILTTTFGKLSLDGEVKLIDLTFSDELKKHFPGPKFGIDGIRNLLQVHDRPLLMSIFKGMIGRNIGYLKTQLRDQAIGGVDIVKDDEILFENALTPLTKRIVSGKEVLQSVYETYGHKTLYAVNLTGRTFDLKENAKRAVQAGADILLFNVFAYGLDVLQSLAEDDEIPVPIMAHPAVSGAYSASKLYGVSSPLLLGKLLRYAGADFSLFPSPYKEEALAISKYLTEDDASFKKSFSVPSAGIHPGFVPFIVRDFGKDVVINAGGGIHGHPNGAQGGGKAFRTAIDATLQNKPLHEVDDINLHSALQIWG GIIATYLIHDDSHNLEKKAEQIALGLTIGLPHLLQEQLKQHKGNVIHVEELAEHEHTNSYLRKKVKRGIIKIEYPLLNFSPDLPAILTTTFGKLSLDGEVKLIDLTFSDELKKHFPGPKFGIDGIRNLLQVHDRPLLMSIFKGMIGRNIGYLKTQLRDQAIGGVDIVKDDEILFLTPLTKRIVSGKEVLQSVYETYGHKTLYAVNLTGRTFDLKENAKRAVQAGADILLFNVFAYGLDVLQSLAEDDEIPVPIMAHPAVSGAYSASKLYGVSSPLLLGKLLRYAGADFSLFPSPYKEEALAISKYLTEDDASFKKSFSVPSAGIHPGFVPFIVRDFGKDVVINAGGGIHGHPNGAQGGGKAFRTAIDATLQNKPLHEVDDINLHSALQIWG 3fk9-a1-m1-cA_3fk9-a1-m1-cB Crystal structure of mMutator MutT protein from Bacillus halodurans Q9K704 Q9K704 2.5 X-RAY DIFFRACTION 67 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 153 153 LQRVTNCIVVDHDQVLLLQKPRRGWWVAPGGKMEAGESILETVKREYWEETGITVKNPELKGIFSMVIFDEGKIVSEWMLFTFKATEHEGEMLKQSPEGKLEWKKKDEVLELPMAAGDKWIFKHVLHSDRLLYGTFHYTPDFELLSYRLDPEP LQRVTNCIVVDHDQVLLLQKPRRGWWVAPGGKMEAGESILETVKREYWEETGITVKNPELKGIFSMVIFDEGKIVSEWMLFTFKATEHEGEMLKQSPEGKLEWKKKDEVLELPMAAGDKWIFKHVLHSDRLLYGTFHYTPDFELLSYRLDPEP 3fka-a1-m1-cA_3fka-a1-m1-cD CRYSTAL STRUCTURE OF A NTF-2 LIKE PROTEIN OF UNKNOWN FUNCTION (SPO1084) FROM SILICIBACTER POMEROYI DSS-3 AT 1.69 A RESOLUTION Q5LUH0 Q5LUH0 1.69 X-RAY DIFFRACTION 51 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 113 113 3fka-a1-m1-cC_3fka-a1-m1-cB TTSEHIAALTALVETYVATRGDRPALERIFFGKASEVGHYEGELLWNSRDAFIACEDAADAETDPFWAISSVSVQGDIALHVENDWAGRFDDFLTVLLHEGSWRIVSKVYRIR TTSEHIAALTALVETYVATRGDRPALERIFFGKASEVGHYEGELLWNSRDAFIACEDAADAETDPFWAISSVSVQGDIALHVENDWAGRFDDFLTVLLHEGSWRIVSKVYRIR 3fka-a1-m1-cC_3fka-a1-m1-cD CRYSTAL STRUCTURE OF A NTF-2 LIKE PROTEIN OF UNKNOWN FUNCTION (SPO1084) FROM SILICIBACTER POMEROYI DSS-3 AT 1.69 A RESOLUTION Q5LUH0 Q5LUH0 1.69 X-RAY DIFFRACTION 78 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 113 113 3fka-a1-m1-cA_3fka-a1-m1-cB TTSEHIAALTALVETYVATRGDRPALERIFFGKASEVGHYEGELLWNSRDAFIACEDAADAETDPFWAISSVSVQGDIALHVENDWAGRFDDFLTVLLHEGSWRIVSKVYRIR TTSEHIAALTALVETYVATRGDRPALERIFFGKASEVGHYEGELLWNSRDAFIACEDAADAETDPFWAISSVSVQGDIALHVENDWAGRFDDFLTVLLHEGSWRIVSKVYRIR 3fkc-a2-m1-cA_3fkc-a2-m2-cA Crystal Structure of Human Zinc finger and BTB domain containing 33 Q86T24 Q86T24 1.7 X-RAY DIFFRACTION 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 3m4t-a1-m1-cA_3m4t-a1-m2-cA 3m8v-a1-m1-cA_3m8v-a1-m2-cA RKLISATDIQYSGSLLNSLNEQRGHGLFCDVTVIVEDRKFRAHKNILSASSTYFHQLFSVAGQVVELSFIRAEIFAEILNYIYSSKIVRVRSDLLDELIKSGQLLGVKFIAAL RKLISATDIQYSGSLLNSLNEQRGHGLFCDVTVIVEDRKFRAHKNILSASSTYFHQLFSVAGQVVELSFIRAEIFAEILNYIYSSKIVRVRSDLLDELIKSGQLLGVKFIAAL 3fkd-a2-m1-cB_3fkd-a2-m1-cC The crystal structure of L-threonine-O-3-phosphate decarboxylase from Porphyromonas gingivalis Q7MXY2 Q7MXY2 2.5 X-RAY DIFFRACTION 113 0.997 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 318 318 3fkd-a1-m1-cD_3fkd-a1-m1-cA IVNFSTTVWTDGDKDHLEKHLVENLNCIRHYPEPDAGTLRQLAKRNSVDNNAILVTNGPTAAFYQIAQAFRGSRSLIAIPSFAEYEDACRYEHEVCFYPSNEDIGEADFSNDFCWLCNPNNPDGRLLQRTEILRLLNDHPDTTFVLDQSYVSFTTEEVIRPADIKGRKNLVVYSFSHAYGIPGLRIGYIVANKDFKRVAAFSTPWAVNALAIEAAKFILIHPAQFTLPIRKWQRNTVDFITALNRLDGVEVHPSGTTFFLLRLKKGTAAELKKYLEEYNLIRDASNFRGLDESYVRITTQRPAQNQLFIKALETFLEK IVNFSTTVWTDGDDHLEKHLVENLNCIRHYPEPDAGTLRQLAKRNSVDNNAILVTNGPTAAFYQIAQAFRGSRSLIAIPSFAEYEDACRYEHEVCFYPSNEDIGEADFSNDFCWLCNPNNPDGRLLQRTEILRLLNDHPDTTFVLDQSYVSFTTEEVIRPADIKGRKNLVVYSFSHAYGIPGLRIGYIVANKDFKRVAAFSTPWAVNALAIEAAKFILIHPAQFTLPIRKWQRNTVDFITALNRLDGVEVHPSGTTFFLLRLKKGTAAELKKYLEEYNLIRDASNFRGLDESYVRITTQRPAQNQLFIKALETFLEKY 3fkf-a1-m1-cA_3fkf-a1-m1-cB thiol-disulfide oxidoreductase from Bacteroides fragilis NCTC 9343 Q5L7K1 Q5L7K1 2.2 X-RAY DIFFRACTION 27 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 140 140 VTVGKSAPYFSLPNEKGEKLSRSAERFRNRYLLLNFWASWCDPQPEANAELKRLNKEYKKNKNFALGISLDIDREAWETAIKKDTLSWDQVCDFTGLSSETAKQYAILTLPTNILLSPTGKILARDIQGEALTGKLKELL VTVGKSAPYFSLPNEKGEKLSRSAERFRNRYLLLNFWASWCDPQPEANAELKRLNKEYKKNKNFALGISLDIDREAWETAIKKDTLSWDQVCDFTGLSSETAKQYAILTLPTNILLSPTGKILARDIQGEALTGKLKELL 3fkf-a1-m1-cD_3fkf-a1-m1-cA thiol-disulfide oxidoreductase from Bacteroides fragilis NCTC 9343 Q5L7K1 Q5L7K1 2.2 X-RAY DIFFRACTION 31 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 136 140 3fkf-a1-m1-cC_3fkf-a1-m1-cB KSAPYFSLPNEKGEKLSRSAERFRNRYLLLNFWASWCDPQPEANAELKRLNKEYKKNKNFALGISLDIDREAWETAIKKDTLSWDQVCDFTGLSSETAKQYAILTLPTNILLSPTGKILARDIQGEALTGKLKELL VTVGKSAPYFSLPNEKGEKLSRSAERFRNRYLLLNFWASWCDPQPEANAELKRLNKEYKKNKNFALGISLDIDREAWETAIKKDTLSWDQVCDFTGLSSETAKQYAILTLPTNILLSPTGKILARDIQGEALTGKLKELL 3fkf-a1-m1-cD_3fkf-a1-m1-cB thiol-disulfide oxidoreductase from Bacteroides fragilis NCTC 9343 Q5L7K1 Q5L7K1 2.2 X-RAY DIFFRACTION 47 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 136 140 3fkf-a1-m1-cC_3fkf-a1-m1-cA KSAPYFSLPNEKGEKLSRSAERFRNRYLLLNFWASWCDPQPEANAELKRLNKEYKKNKNFALGISLDIDREAWETAIKKDTLSWDQVCDFTGLSSETAKQYAILTLPTNILLSPTGKILARDIQGEALTGKLKELL VTVGKSAPYFSLPNEKGEKLSRSAERFRNRYLLLNFWASWCDPQPEANAELKRLNKEYKKNKNFALGISLDIDREAWETAIKKDTLSWDQVCDFTGLSSETAKQYAILTLPTNILLSPTGKILARDIQGEALTGKLKELL 3fkh-a2-m1-cC_3fkh-a2-m1-cD Crystal structure of Putative pyridoxamine 5'-phosphate oxidase (NP_601736.1) from CORYNEBACTERIUM GLUTAMICUM ATCC 13032 KITASATO at 2.51 A resolution 2.51 X-RAY DIFFRACTION 52 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 125 131 3fkh-a1-m1-cA_3fkh-a1-m1-cB PVNILNEQEALERLQSVSLGRVVVRRSDEDIFPVNFIVDKGAIYIRTAEGNKLFSNLNHDVLFEADEVKDGKAWSVVVRATAEIVRKLDEIAYADTLELKPWIPTLKYNYVRIVPNEITGREFTL GDNPVNILNEQEALERLQSVSLGRVVVRRSDEDIFPVNFIVDKGAIYIRTAEGNKLFSNLNHDVLFEADEVKDGKAWSVVVRATAEIVRKLDEIAYADTLELKPWIPTLKYNYVRIVPNEITGREFTLGEE 3fkj-a1-m1-cB_3fkj-a1-m1-cA Crystal structure of a putative phosphosugar isomerase (stm_0572) from salmonella typhimurium lt2 at 2.12 A resolution Q8ZR50 Q8ZR50 2.12 X-RAY DIFFRACTION 159 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 319 330 SVAHENARRIISDILGKQNIERVWFVGCGGSLTGFWPGKYFLDCEASKLAVGYITSNEFVHATPKALGKNSVVILASTAETVAAARVAREKGAATIGLVYQPDTPLCEYSDYIIEYQWARYPETVDPAQQKAAYSLWLALEILAQTEGYAQYDELVSAFGRFSDVVHGAQRQVQEDAQRFAAEWKDEKVVYGSGPSFGAAHQESICILLEQWINSASIHSGEYFHGPFEITEPGTPFILLQSSGRTRPLDDRAIRFIERYQGKLQLIDADKLGIQDLSTDVGEYFCGLLHNCVLDVYNLALATARNHPLTTRRYWKVEY ENLYFQGSVAHENARRIISDILGKQNIERVWFVGCGGSLTGFWPGKYFLDCEASKLAVGYITSNEFVHATPKALGKNSVVILASQQGNTAETVAAARVAREKGAATIGLVYQPDTPLCEYSDYIIEYQWARYPETVDPAQQKAAYSLWLALEILAQTEGYAQYDELVSAFGRFSDVVHGAQRQVQEDAQRFAAEWKDEKVVYGSGPSFGAAHQESICILLEQWINSASIHSGEYFHGPFEITEPGTPFILLQSSGRTRPLDDRAIRFIERYQGKLQLIDADKLGIQDLSTDVGEYFCGLLHNCVLDVYNLALATARNHPLTTRRYWKVEY 3fkq-a1-m1-cA_3fkq-a1-m2-cA Crystal structure of NtrC-like two-domain protein (RER070207001320) from Eubacterium rectale at 2.10 A resolution D0VX10 D0VX10 2.1 X-RAY DIFFRACTION 98 1.0 39491 ([Eubacterium] rectale) 39491 ([Eubacterium] rectale) 344 344 KIKVALLDKDKEYLDRLTGVFNTKYADKLEVYSFTDEKNAIESVKEYRIDVLIAEEDFNIDKSEFKRNCGLAYFTGTPGIELIKDEIAICKYQRVDVIFKQILGVYSDAANVATISGENDKSSVVIFTSPCGGVGTSTVAAACAIAHANGKKVFYLNIEQCGTTDVFFQAEGNATSDVIYSLKSRKANLLLKLESCIKQSQEGVSYFSSTKVALDILEISYADIDTLIGNIQGDNYDEIIVDLPFSLEIEKLKLLSKAWRIIVVNDGSQLSNYKFRAYESVVLLEQNDDINIIRNNIYNKFSNKNSELSNISIKTIGGAPRYEHATVRQIIEALTKEFFEEILQ KIKVALLDKDKEYLDRLTGVFNTKYADKLEVYSFTDEKNAIESVKEYRIDVLIAEEDFNIDKSEFKRNCGLAYFTGTPGIELIKDEIAICKYQRVDVIFKQILGVYSDAANVATISGENDKSSVVIFTSPCGGVGTSTVAAACAIAHANGKKVFYLNIEQCGTTDVFFQAEGNATSDVIYSLKSRKANLLLKLESCIKQSQEGVSYFSSTKVALDILEISYADIDTLIGNIQGDNYDEIIVDLPFSLEIEKLKLLSKAWRIIVVNDGSQLSNYKFRAYESVVLLEQNDDINIIRNNIYNKFSNKNSELSNISIKTIGGAPRYEHATVRQIIEALTKEFFEEILQ 3fky-a2-m1-cL_3fky-a2-m1-cT Crystal structure of the glutamine synthetase Gln1deltaN18 from the yeast Saccharomyces cerevisiae P32288 P32288 2.95 X-RAY DIFFRACTION 24 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 336 336 3fky-a1-m1-cA_3fky-a1-m1-cF 3fky-a1-m1-cB_3fky-a1-m1-cJ 3fky-a1-m1-cD_3fky-a1-m1-cH 3fky-a1-m1-cE_3fky-a1-m1-cG 3fky-a1-m1-cI_3fky-a1-m1-cC 3fky-a2-m1-cK_3fky-a2-m1-cP 3fky-a2-m1-cM_3fky-a2-m1-cS 3fky-a2-m1-cN_3fky-a2-m1-cR 3fky-a2-m1-cO_3fky-a2-m1-cQ RGRIIAEYVWIDGTGNLRSKGRTLKKRITSIDQLPEWNFDGSSTNQAPGHDIYLKPVAYYPDPFRRGDNIVVLAACYNNDGTPNKFNHRHEAAKLFAAHKDEEIWFGLEQEYTLFDMYDDVYGWPKGGYPAPQGPYYCGVGAGKVYARDMIEAHYRACLYAGLEISGINAEVMPSQWEFQVGPCTGIDMGDQLWMARYFLHRVAEEFGIKISFHPKPLKGDWNGAGCHANVSTKEMRQPGGTKYIEQAIEKLSKRHAEHIKLYGSDNDMRSMTAFSSGVANRGSSIRIPRSVAKEGYGYFEDRRPASNIDPYLVTGIMCETVCGAIDNADMTKEFE RGRIIAEYVWIDGTGNLRSKGRTLKKRITSIDQLPEWNFDGSSTNQAPGHDIYLKPVAYYPDPFRRGDNIVVLAACYNNDGTPNKFNHRHEAAKLFAAHKDEEIWFGLEQEYTLFDMYDDVYGWPKGGYPAPQGPYYCGVGAGKVYARDMIEAHYRACLYAGLEISGINAEVMPSQWEFQVGPCTGIDMGDQLWMARYFLHRVAEEFGIKISFHPKPLKGDWNGAGCHANVSTKEMRQPGGTKYIEQAIEKLSKRHAEHIKLYGSDNDMRSMTAFSSGVANRGSSIRIPRSVAKEGYGYFEDRRPASNIDPYLVTGIMCETVCGAIDNADMTKEFE 3fky-a2-m1-cS_3fky-a2-m1-cT Crystal structure of the glutamine synthetase Gln1deltaN18 from the yeast Saccharomyces cerevisiae P32288 P32288 2.95 X-RAY DIFFRACTION 81 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 336 336 3fky-a1-m1-cA_3fky-a1-m1-cB 3fky-a1-m1-cA_3fky-a1-m1-cE 3fky-a1-m1-cB_3fky-a1-m1-cC 3fky-a1-m1-cD_3fky-a1-m1-cC 3fky-a1-m1-cD_3fky-a1-m1-cE 3fky-a1-m1-cF_3fky-a1-m1-cG 3fky-a1-m1-cF_3fky-a1-m1-cJ 3fky-a1-m1-cG_3fky-a1-m1-cH 3fky-a1-m1-cH_3fky-a1-m1-cI 3fky-a1-m1-cI_3fky-a1-m1-cJ 3fky-a2-m1-cK_3fky-a2-m1-cL 3fky-a2-m1-cK_3fky-a2-m1-cO 3fky-a2-m1-cL_3fky-a2-m1-cM 3fky-a2-m1-cM_3fky-a2-m1-cN 3fky-a2-m1-cN_3fky-a2-m1-cO 3fky-a2-m1-cP_3fky-a2-m1-cQ 3fky-a2-m1-cP_3fky-a2-m1-cT 3fky-a2-m1-cQ_3fky-a2-m1-cR 3fky-a2-m1-cR_3fky-a2-m1-cS RGRIIAEYVWIDGTGNLRSKGRTLKKRITSIDQLPEWNFDGSSTNQAPGHDIYLKPVAYYPDPFRRGDNIVVLAACYNNDGTPNKFNHRHEAAKLFAAHKDEEIWFGLEQEYTLFDMYDDVYGWPKGGYPAPQGPYYCGVGAGKVYARDMIEAHYRACLYAGLEISGINAEVMPSQWEFQVGPCTGIDMGDQLWMARYFLHRVAEEFGIKISFHPKPLKGDWNGAGCHANVSTKEMRQPGGTKYIEQAIEKLSKRHAEHIKLYGSDNDMRSMTAFSSGVANRGSSIRIPRSVAKEGYGYFEDRRPASNIDPYLVTGIMCETVCGAIDNADMTKEFE RGRIIAEYVWIDGTGNLRSKGRTLKKRITSIDQLPEWNFDGSSTNQAPGHDIYLKPVAYYPDPFRRGDNIVVLAACYNNDGTPNKFNHRHEAAKLFAAHKDEEIWFGLEQEYTLFDMYDDVYGWPKGGYPAPQGPYYCGVGAGKVYARDMIEAHYRACLYAGLEISGINAEVMPSQWEFQVGPCTGIDMGDQLWMARYFLHRVAEEFGIKISFHPKPLKGDWNGAGCHANVSTKEMRQPGGTKYIEQAIEKLSKRHAEHIKLYGSDNDMRSMTAFSSGVANRGSSIRIPRSVAKEGYGYFEDRRPASNIDPYLVTGIMCETVCGAIDNADMTKEFE 3fl7-a1-m1-cA_3fl7-a1-m2-cA Crystal structure of the human ephrin A2 ectodomain P29317 P29317 2.5 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 482 482 QGKEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKCPELLQGLAHFPETIAGSDAPSLATVAGTCVDHAVVPPEEPRMHCAVDGEWLVPIGQCLCQAGYEKVEDACQACSPGFFKFEASESPCLECPEHTLPSPEGATSCECEEGFFRAPQDPASMPCTRPPSAPHYLTAVGMGAKVELRWTPPQDSGGREDIVYSVTCEQCWPSGECGPCEASVRYSEPPHGLTRTSVTVSDLEPHMNYTFTVEARNGVSGLVTSRSFRTASVSINQTEPPKVRLEGRSTSLSVSWSIPPPQQSRVWKYEVTYRKKSNSYNVRRTEGFSVTLDDLAPDTTYLVQVQALTQGAGSKVHEFQTLS QGKEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKCPELLQGLAHFPETIAGSDAPSLATVAGTCVDHAVVPPEEPRMHCAVDGEWLVPIGQCLCQAGYEKVEDACQACSPGFFKFEASESPCLECPEHTLPSPEGATSCECEEGFFRAPQDPASMPCTRPPSAPHYLTAVGMGAKVELRWTPPQDSGGREDIVYSVTCEQCWPSGECGPCEASVRYSEPPHGLTRTSVTVSDLEPHMNYTFTVEARNGVSGLVTSRSFRTASVSINQTEPPKVRLEGRSTSLSVSWSIPPPQQSRVWKYEVTYRKKSNSYNVRRTEGFSVTLDDLAPDTTYLVQVQALTQGAGSKVHEFQTLS 3fld-a1-m1-cA_3fld-a1-m1-cB Crystal structure of the trai c-terminal domain P14565 P14565 2.4 X-RAY DIFFRACTION 193 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 152 153 REVMNAERLFSTARELRDVAAGRAVLRQAGLAGGDSPARFIAPGRKYPQPYVALPAFDRNGKSAGIWLNPLTTDDGNGLRGFSGEGRVKGSGDAQFVALQGSRNGESLLADNMQDGVRIARDNPDSGVVVRIAGEGRPWNPGAITGGRVWGD REVMNAERLFSTARELRDVAAGRAVLRQAGLAGGDSPARFIAPGRKYPQPYVALPAFDRNGKSAGIWLNPLTTDDGNGLRGFSGEGRVKGSGDAQFVALQGSRNGESLLADNMQDGVRIARDNPDSGVVVRIAGEGRPWNPGAITGGRVWGDI 3flj-a1-m1-cA_3flj-a1-m2-cA Crystal structure of uncharacterized protein conserved in bacteria with a cystatin-like fold (YP_168589.1) from SILICIBACTER POMEROYI DSS-3 at 2.00 A resolution Q5LN19 Q5LN19 2 X-RAY DIFFRACTION 73 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 134 134 LYFQGHPTIARQEVVAKGDESLIHALLAEDVRFPPTYYKTWTGRDPVAAVLGHVGQVFSEFRYRRIGEGKDWALEFQCKVGELDAVGVDLITLNEGGLIQDFEVVRPYKTVGALRDANARVTDARFLKYREALS LYFQGHPTIARQEVVAKGDESLIHALLAEDVRFPPTYYKTWTGRDPVAAVLGHVGQVFSEFRYRRIGEGKDWALEFQCKVGELDAVGVDLITLNEGGLIQDFEVVRPYKTVGALRDANARVTDARFLKYREALS 3flp-a1-m1-cA_3flp-a1-m1-cN Crystal structure of native heptameric SAP-like pentraxin from Limulus polyphemus Q8WQK3 Q8WQK3 2.3 X-RAY DIFFRACTION 27 1.0 6850 (Limulus polyphemus) 6850 (Limulus polyphemus) 217 217 3flp-a1-m1-cB_3flp-a1-m1-cC 3flp-a1-m1-cD_3flp-a1-m1-cE 3flp-a1-m1-cF_3flp-a1-m1-cG 3flp-a1-m1-cH_3flp-a1-m1-cI 3flp-a1-m1-cJ_3flp-a1-m1-cK 3flp-a1-m1-cL_3flp-a1-m1-cM 3flr-a1-m1-cA_3flr-a1-m7-cB 3flr-a1-m1-cB_3flr-a1-m7-cA 3flr-a1-m2-cA_3flr-a1-m8-cB 3flr-a1-m2-cB_3flr-a1-m8-cA 3flr-a1-m3-cA_3flr-a1-m5-cB 3flr-a1-m3-cB_3flr-a1-m5-cA 3flr-a1-m4-cA_3flr-a1-m6-cB 3flr-a1-m4-cB_3flr-a1-m6-cA 3flt-a1-m1-cA_3flt-a1-m7-cB 3flt-a1-m1-cB_3flt-a1-m7-cA 3flt-a1-m2-cA_3flt-a1-m8-cB 3flt-a1-m2-cB_3flt-a1-m8-cA 3flt-a1-m3-cA_3flt-a1-m5-cB 3flt-a1-m3-cB_3flt-a1-m5-cA 3flt-a1-m4-cA_3flt-a1-m6-cB 3flt-a1-m4-cB_3flt-a1-m6-cA AVDIRDVKISFPGTQNPKFPHLRFMQTLPAVRQLTVCQRIKPFHRNTGYIFSCATSNQDNQFITSMYVKSDGTLNLGLQVNASSNKYISCPIEIELGQWYHVCHVWSGVDGRMAVYANGSPCGTMENVGKGHQISAGGTVVIGQEQDKIGGGFEEQESWSGELSDLQVWDEALTTHQVSTVASCNGIRPRGNVISWMEDSFVADDGVIVGISHMCSL AVDIRDVKISFPGTQNPKFPHLRFMQTLPAVRQLTVCQRIKPFHRNTGYIFSCATSNQDNQFITSMYVKSDGTLNLGLQVNASSNKYISCPIEIELGQWYHVCHVWSGVDGRMAVYANGSPCGTMENVGKGHQISAGGTVVIGQEQDKIGGGFEEQESWSGELSDLQVWDEALTTHQVSTVASCNGIRPRGNVISWMEDSFVADDGVIVGISHMCSL 3flt-a1-m3-cB_3flt-a1-m8-cB Crystal structure of PE-bound octameric SAP-like pentraxin from Limulus polyphemus Q8WQK3 Q8WQK3 2.7 X-RAY DIFFRACTION 75 1.0 6850 (Limulus polyphemus) 6850 (Limulus polyphemus) 217 217 3flp-a1-m1-cA_3flp-a1-m1-cB 3flp-a1-m1-cC_3flp-a1-m1-cD 3flp-a1-m1-cE_3flp-a1-m1-cF 3flp-a1-m1-cG_3flp-a1-m1-cH 3flp-a1-m1-cI_3flp-a1-m1-cJ 3flp-a1-m1-cK_3flp-a1-m1-cL 3flp-a1-m1-cM_3flp-a1-m1-cN 3flr-a1-m1-cA_3flr-a1-m7-cA 3flr-a1-m1-cB_3flr-a1-m5-cB 3flr-a1-m2-cA_3flr-a1-m8-cA 3flr-a1-m2-cB_3flr-a1-m6-cB 3flr-a1-m3-cA_3flr-a1-m5-cA 3flr-a1-m3-cB_3flr-a1-m8-cB 3flr-a1-m4-cA_3flr-a1-m6-cA 3flr-a1-m4-cB_3flr-a1-m7-cB 3flt-a1-m1-cA_3flt-a1-m7-cA 3flt-a1-m1-cB_3flt-a1-m5-cB 3flt-a1-m2-cA_3flt-a1-m8-cA 3flt-a1-m2-cB_3flt-a1-m6-cB 3flt-a1-m3-cA_3flt-a1-m5-cA 3flt-a1-m4-cA_3flt-a1-m6-cA 3flt-a1-m4-cB_3flt-a1-m7-cB AVDIRDVKISFPGTQNPKFPHLRFMQTLPAVRQLTVCQRIKPFHRNTGYIFSCATSNQDNQFITSMYVKSDGTLNLGLQVNASSNKYISCPIEIELGQWYHVCHVWSGVDGRMAVYANGSPCGTMENVGKGHQISAGGTVVIGQEQDKIGGGFEEQESWSGELSDLQVWDEALTTHQVSTVASCNGIRPRGNVISWMEDSFVADDGVIVGISHMCSL AVDIRDVKISFPGTQNPKFPHLRFMQTLPAVRQLTVCQRIKPFHRNTGYIFSCATSNQDNQFITSMYVKSDGTLNLGLQVNASSNKYISCPIEIELGQWYHVCHVWSGVDGRMAVYANGSPCGTMENVGKGHQISAGGTVVIGQEQDKIGGGFEEQESWSGELSDLQVWDEALTTHQVSTVASCNGIRPRGNVISWMEDSFVADDGVIVGISHMCSL 3flt-a1-m8-cA_3flt-a1-m8-cB Crystal structure of PE-bound octameric SAP-like pentraxin from Limulus polyphemus Q8WQK3 Q8WQK3 2.7 X-RAY DIFFRACTION 29 1.0 6850 (Limulus polyphemus) 6850 (Limulus polyphemus) 217 217 3flp-a1-m1-cA_3flp-a1-m1-cC 3flp-a1-m1-cA_3flp-a1-m1-cM 3flp-a1-m1-cB_3flp-a1-m1-cD 3flp-a1-m1-cB_3flp-a1-m1-cN 3flp-a1-m1-cC_3flp-a1-m1-cE 3flp-a1-m1-cD_3flp-a1-m1-cF 3flp-a1-m1-cE_3flp-a1-m1-cG 3flp-a1-m1-cF_3flp-a1-m1-cH 3flp-a1-m1-cG_3flp-a1-m1-cI 3flp-a1-m1-cH_3flp-a1-m1-cJ 3flp-a1-m1-cI_3flp-a1-m1-cK 3flp-a1-m1-cJ_3flp-a1-m1-cL 3flp-a1-m1-cK_3flp-a1-m1-cM 3flp-a1-m1-cL_3flp-a1-m1-cN 3flr-a1-m1-cA_3flr-a1-m1-cB 3flr-a1-m1-cA_3flr-a1-m4-cB 3flr-a1-m1-cB_3flr-a1-m3-cA 3flr-a1-m2-cA_3flr-a1-m2-cB 3flr-a1-m2-cA_3flr-a1-m3-cB 3flr-a1-m2-cB_3flr-a1-m4-cA 3flr-a1-m3-cA_3flr-a1-m3-cB 3flr-a1-m4-cA_3flr-a1-m4-cB 3flr-a1-m5-cA_3flr-a1-m5-cB 3flr-a1-m5-cA_3flr-a1-m8-cB 3flr-a1-m5-cB_3flr-a1-m7-cA 3flr-a1-m6-cA_3flr-a1-m6-cB 3flr-a1-m6-cA_3flr-a1-m7-cB 3flr-a1-m6-cB_3flr-a1-m8-cA 3flr-a1-m7-cA_3flr-a1-m7-cB 3flr-a1-m8-cA_3flr-a1-m8-cB 3flt-a1-m1-cA_3flt-a1-m1-cB 3flt-a1-m1-cA_3flt-a1-m4-cB 3flt-a1-m1-cB_3flt-a1-m3-cA 3flt-a1-m2-cA_3flt-a1-m2-cB 3flt-a1-m2-cA_3flt-a1-m3-cB 3flt-a1-m2-cB_3flt-a1-m4-cA 3flt-a1-m3-cA_3flt-a1-m3-cB 3flt-a1-m4-cA_3flt-a1-m4-cB 3flt-a1-m5-cA_3flt-a1-m5-cB 3flt-a1-m5-cA_3flt-a1-m8-cB 3flt-a1-m5-cB_3flt-a1-m7-cA 3flt-a1-m6-cA_3flt-a1-m6-cB 3flt-a1-m6-cA_3flt-a1-m7-cB 3flt-a1-m6-cB_3flt-a1-m8-cA 3flt-a1-m7-cA_3flt-a1-m7-cB AVDIRDVKISFPGTQNPKFPHLRFMQTLPAVRQLTVCQRIKPFHRNTGYIFSCATSNQDNQFITSMYVKSDGTLNLGLQVNASSNKYISCPIEIELGQWYHVCHVWSGVDGRMAVYANGSPCGTMENVGKGHQISAGGTVVIGQEQDKIGGGFEEQESWSGELSDLQVWDEALTTHQVSTVASCNGIRPRGNVISWMEDSFVADDGVIVGISHMCSL AVDIRDVKISFPGTQNPKFPHLRFMQTLPAVRQLTVCQRIKPFHRNTGYIFSCATSNQDNQFITSMYVKSDGTLNLGLQVNASSNKYISCPIEIELGQWYHVCHVWSGVDGRMAVYANGSPCGTMENVGKGHQISAGGTVVIGQEQDKIGGGFEEQESWSGELSDLQVWDEALTTHQVSTVASCNGIRPRGNVISWMEDSFVADDGVIVGISHMCSL 3flu-a1-m1-cB_3flu-a1-m1-cD Crystal structure of dihydrodipicolinate synthase from the pathogen Neisseria meningitidis Q9JZR4 Q9JZR4 2 X-RAY DIFFRACTION 61 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 291 293 3flu-a1-m1-cC_3flu-a1-m1-cA MLQGSLVALITPMNQDGSIHYEQLRDLIDWHIENGTDGIVAVGTTGESATLSVEEHTAVIEAVVKHVAKRVPVIAGTGANNTVEAIALSQAAEKAGADYTLSVVPYYNKPSQEGIYQHFKTIAEATSIPMIIYNVPGRTVVSMTNDTILRLAEIPNIVGVKEASGNIGSNIELINRAPEGFVVLSGDDHTALPFMLCGGHGVITVAANAAPKLFADMCRAALQGDIALARELNDRLIPIYDTMFCEPSPAAPKWAVSALGRCEPHVRLPLVPLTENGQAKVRAALKASGQL FTMLQGSLVALITPMNQDGSIHYEQLRDLIDWHIENGTDGIVAVGTTGESATLSVEEHTAVIEAVVKHVAKRVPVIAGTGANNTVEAIALSQAAEKAGADYTLSVVPYYNKPSQEGIYQHFKTIAEATSIPMIIYNVPGRTVVSMTNDTILRLAEIPNIVGVKEASGNIGSNIELINRAPEGFVVLSGDDHTALPFMLCGGHGVITVAANAAPKLFADMCRAALQGDIALARELNDRLIPIYDTMFCEPSPAAPKWAVSALGRCEPHVRLPLVPLTENGQAKVRAALKASGQL 3flu-a1-m1-cC_3flu-a1-m1-cD Crystal structure of dihydrodipicolinate synthase from the pathogen Neisseria meningitidis Q9JZR4 Q9JZR4 2 X-RAY DIFFRACTION 114 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 292 293 3flu-a1-m1-cB_3flu-a1-m1-cA TMLQGSLVALITPMNQDGSIHYEQLRDLIDWHIENGTDGIVAVGTTGESATLSVEEHTAVIEAVVKHVAKRVPVIAGTGANNTVEAIALSQAAEKAGADYTLSVVPYYNKPSQEGIYQHFKTIAEATSIPMIIYNVPGRTVVSMTNDTILRLAEIPNIVGVKEASGNIGSNIELINRAPEGFVVLSGDDHTALPFMLCGGHGVITVAANAAPKLFADMCRAALQGDIALARELNDRLIPIYDTMFCEPSPAAPKWAVSALGRCEPHVRLPLVPLTENGQAKVRAALKASGQL FTMLQGSLVALITPMNQDGSIHYEQLRDLIDWHIENGTDGIVAVGTTGESATLSVEEHTAVIEAVVKHVAKRVPVIAGTGANNTVEAIALSQAAEKAGADYTLSVVPYYNKPSQEGIYQHFKTIAEATSIPMIIYNVPGRTVVSMTNDTILRLAEIPNIVGVKEASGNIGSNIELINRAPEGFVVLSGDDHTALPFMLCGGHGVITVAANAAPKLFADMCRAALQGDIALARELNDRLIPIYDTMFCEPSPAAPKWAVSALGRCEPHVRLPLVPLTENGQAKVRAALKASGQL 3fm2-a1-m1-cB_3fm2-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE HEME-BINDING PROTEIN (AVA_4353) FROM ANABAENA VARIABILIS ATCC 29413 AT 1.80 A RESOLUTION Q3M4Y5 Q3M4Y5 1.8 X-RAY DIFFRACTION 108 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 129 131 SHSLKDFLEACETLGTLRLIVTSSAAVLEARGKIEKLFYAELAKGKYANHTEGFEFHLNEKITQVKFETGEAGNFTTYAIRFLDEKQESALSLFLQWGKPGEYEPGQVEAWHTLKEKYGEVWEPLPVQL SHSLKDFLEACETLGTLRLIVTSSAAVLEARGKIEKLFYAELAKGKYANHTEGFEFHLNEKITQVKFETGEAKRGNFTTYAIRFLDEKQESALSLFLQWGKPGEYEPGQVEAWHTLKEKYGEVWEPLPVQL 3fm5-a3-m1-cC_3fm5-a3-m1-cB X-ray crystal structure of transcriptional regulator (MarR family) from Rhodococcus sp. RHA1 Q0S6D0 Q0S6D0 2 X-RAY DIFFRACTION 34 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 134 137 SQALSDDIGFLLSRVGGVLGAVNKALVPTGLRVRSYSVLVLACEQAEGVNQRGVAATGLDPSQIVGLVDELEERGLVVRTLDPRNKLIAATEEGRRLRDDAKARVDAAHGRYFEGIPDTVVNQRDTLQSIAFPT SQALSDDIGFLLSRVGGVLGAVNKALVPTGLRVRSYSVLVLACEQAEGVNQRGVAATGLDPSQIVGLVDELEERGLVVRTLDPRRNKLIAATEEGRRLRDDAKARVDAAHGRYFEGIPDTVVNQRDTLQSIAFPTFV 3fm5-a3-m1-cC_3fm5-a3-m1-cD X-ray crystal structure of transcriptional regulator (MarR family) from Rhodococcus sp. RHA1 Q0S6D0 Q0S6D0 2 X-RAY DIFFRACTION 14 0.993 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 134 135 SQALSDDIGFLLSRVGGVLGAVNKALVPTGLRVRSYSVLVLACEQAEGVNQRGVAATGLDPSQIVGLVDELEERGLVVRTLDPRNKLIAATEEGRRLRDDAKARVDAAHGRYFEGIPDTVVNQRDTLQSIAFPT SQALSDDIGFLLSRVGGVLGAVNKALVPTGLRVRSYSVLVLACEQAEGVNQRGVAATGLDPSQIVGLVDELEERGLVVRTLDPSDNKLIAATEEGRRLRDDAKARVDAAHGRYFEGIPDTVVNQRDTLQSIAFPT 3fm5-a3-m1-cD_3fm5-a3-m1-cB X-ray crystal structure of transcriptional regulator (MarR family) from Rhodococcus sp. RHA1 Q0S6D0 Q0S6D0 2 X-RAY DIFFRACTION 124 0.985 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 135 137 3fm5-a1-m1-cA_3fm5-a1-m1-cC 3fm5-a2-m1-cD_3fm5-a2-m1-cB 3fm5-a3-m1-cA_3fm5-a3-m1-cC 5cyv-a1-m1-cA_5cyv-a1-m1-cB SQALSDDIGFLLSRVGGVLGAVNKALVPTGLRVRSYSVLVLACEQAEGVNQRGVAATGLDPSQIVGLVDELEERGLVVRTLDPSDNKLIAATEEGRRLRDDAKARVDAAHGRYFEGIPDTVVNQRDTLQSIAFPT SQALSDDIGFLLSRVGGVLGAVNKALVPTGLRVRSYSVLVLACEQAEGVNQRGVAATGLDPSQIVGLVDELEERGLVVRTLDPRRNKLIAATEEGRRLRDDAKARVDAAHGRYFEGIPDTVVNQRDTLQSIAFPTFV 3fmb-a1-m1-cA_3fmb-a1-m1-cB Crystal structure of dimeric protein of unknown function and ferredoxin-like fold (YP_212648.1) from Bacteroides fragilis NCTC 9343 at 1.85 A resolution Q5LAZ3 Q5LAZ3 1.85 X-RAY DIFFRACTION 76 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 100 100 YFQGVKHIVLFKLRDDVPVEEKLVVNSFKEAIEALPAKISVIRKIEVGLNNPGETWNIALYSEFDNLDDVKFYATHPEHVAAGKILAETKESRACVDYEF YFQGVKHIVLFKLRDDVPVEEKLVVNSFKEAIEALPAKISVIRKIEVGLNNPGETWNIALYSEFDNLDDVKFYATHPEHVAAGKILAETKESRACVDYEF 3fmc-a1-m1-cA_3fmc-a1-m1-cD CRYSTAL STRUCTURE OF a putative succinylglutamate desuccinylase / aspartoacylase family protein (SAMA_0604) FROM SHEWANELLA AMAZONENSIS SB2B AT 1.80 A RESOLUTION A1S356 A1S356 1.8 X-RAY DIFFRACTION 42 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 358 358 3fmc-a1-m1-cB_3fmc-a1-m1-cC VDKHEVRVGELAAGQPLSLPVYRFKGKGAGPSVYIQANVHGAEVQGNAVIYQLKLLEHYELLGDISLVPLANPLGINQKSGEFTLGRFDPITGVNWNREYLDHGFNIEVWYQEHSHLDDDTLITAFRATLVEECARRLNNPWGVTTGHRLAVTLQSAHRADIVLDLHTGPKSCKHLYCPEYERSAAQYFSIPYTLLIPNSFGGADEAAFVPWWTLAEVASSHGRELGVRVSALTLELGSQERIDLDDALEDAEGILAYLSHRGVIAETVLPKPKRYGCFLKNYRKFHAPKAGVEYLGKVGVPKATDPLVNLLRLDLYGTGEELTVLRLPEDGVPILHFASASVHQGTELYKVTKVFEL VDKHEVRVGELAAGQPLSLPVYRFKGKGAGPSVYIQANVHGAEVQGNAVIYQLKLLEHYELLGDISLVPLANPLGINQKSGEFTLGRFDPITGVNWNREYLDHGFNIEVWYQEHSHLDDDTLITAFRATLVEECARRLNNPWGVTTGHRLAVTLQSAHRADIVLDLHTGPKSCKHLYCPEYERSAAQYFSIPYTLLIPNSFGGADEAAFVPWWTLAEVASSHGRELGVRVSALTLELGSQERIDLDDALEDAEGILAYLSHRGVIAETVLPKPKRYGCFLKNYRKFHAPKAGVEYLGKVGVPKATDPLVNLLRLDLYGTGEELTVLRLPEDGVPILHFASASVHQGTELYKVTKVFEL 3fmc-a1-m1-cB_3fmc-a1-m1-cD CRYSTAL STRUCTURE OF a putative succinylglutamate desuccinylase / aspartoacylase family protein (SAMA_0604) FROM SHEWANELLA AMAZONENSIS SB2B AT 1.80 A RESOLUTION A1S356 A1S356 1.8 X-RAY DIFFRACTION 126 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 358 358 3fmc-a1-m1-cA_3fmc-a1-m1-cC VDKHEVRVGELAAGQPLSLPVYRFKGKGAGPSVYIQANVHGAEVQGNAVIYQLKLLEHYELLGDISLVPLANPLGINQKSGEFTLGRFDPITGVNWNREYLDHGFNIEVWYQEHSHLDDDTLITAFRATLVEECARRLNNPWGVTTGHRLAVTLQSAHRADIVLDLHTGPKSCKHLYCPEYERSAAQYFSIPYTLLIPNSFGGADEAAFVPWWTLAEVASSHGRELGVRVSALTLELGSQERIDLDDALEDAEGILAYLSHRGVIAETVLPKPKRYGCFLKNYRKFHAPKAGVEYLGKVGVPKATDPLVNLLRLDLYGTGEELTVLRLPEDGVPILHFASASVHQGTELYKVTKVFEL VDKHEVRVGELAAGQPLSLPVYRFKGKGAGPSVYIQANVHGAEVQGNAVIYQLKLLEHYELLGDISLVPLANPLGINQKSGEFTLGRFDPITGVNWNREYLDHGFNIEVWYQEHSHLDDDTLITAFRATLVEECARRLNNPWGVTTGHRLAVTLQSAHRADIVLDLHTGPKSCKHLYCPEYERSAAQYFSIPYTLLIPNSFGGADEAAFVPWWTLAEVASSHGRELGVRVSALTLELGSQERIDLDDALEDAEGILAYLSHRGVIAETVLPKPKRYGCFLKNYRKFHAPKAGVEYLGKVGVPKATDPLVNLLRLDLYGTGEELTVLRLPEDGVPILHFASASVHQGTELYKVTKVFEL 3fmc-a1-m1-cD_3fmc-a1-m1-cC CRYSTAL STRUCTURE OF a putative succinylglutamate desuccinylase / aspartoacylase family protein (SAMA_0604) FROM SHEWANELLA AMAZONENSIS SB2B AT 1.80 A RESOLUTION A1S356 A1S356 1.8 X-RAY DIFFRACTION 116 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 358 359 3fmc-a1-m1-cA_3fmc-a1-m1-cB VDKHEVRVGELAAGQPLSLPVYRFKGKGAGPSVYIQANVHGAEVQGNAVIYQLKLLEHYELLGDISLVPLANPLGINQKSGEFTLGRFDPITGVNWNREYLDHGFNIEVWYQEHSHLDDDTLITAFRATLVEECARRLNNPWGVTTGHRLAVTLQSAHRADIVLDLHTGPKSCKHLYCPEYERSAAQYFSIPYTLLIPNSFGGADEAAFVPWWTLAEVASSHGRELGVRVSALTLELGSQERIDLDDALEDAEGILAYLSHRGVIAETVLPKPKRYGCFLKNYRKFHAPKAGVEYLGKVGVPKATDPLVNLLRLDLYGTGEELTVLRLPEDGVPILHFASASVHQGTELYKVTKVFEL RVDKHEVRVGELAAGQPLSLPVYRFKGKGAGPSVYIQANVHGAEVQGNAVIYQLKLLEHYELLGDISLVPLANPLGINQKSGEFTLGRFDPITGVNWNREYLDHGFNIEVWYQEHSHLDDDTLITAFRATLVEECARRLNNPWGVTTGHRLAVTLQSAHRADIVLDLHTGPKSCKHLYCPEYERSAAQYFSIPYTLLIPNSFGGADEAAFVPWWTLAEVASSHGRELGVRVSALTLELGSQERIDLDDALEDAEGILAYLSHRGVIAETVLPKPKRYGCFLKNYRKFHAPKAGVEYLGKVGVPKATDPLVNLLRLDLYGTGEELTVLRLPEDGVPILHFASASVHQGTELYKVTKVFEL 3fmt-a2-m1-cF_3fmt-a2-m1-cE Crystal structure of SeqA bound to DNA P0AFY8 P0AFY8 2.983 X-RAY DIFFRACTION 79 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 157 162 1xrx-a1-m1-cA_1xrx-a1-m1-cB 1xrx-a1-m1-cC_1xrx-a1-m1-cD 1xrx-a1-m2-cA_1xrx-a1-m2-cB 1xrx-a1-m2-cC_1xrx-a1-m2-cD 1xrx-a2-m1-cA_1xrx-a2-m1-cB 1xrx-a3-m1-cC_1xrx-a3-m1-cD 3fmt-a1-m1-cB_3fmt-a1-m1-cA MKTIEVDDELYSYIASHTKHIGESRSDILRRMLKFKPVKTIKDKVRAMRELLLSDEYAEQKRAVNRFMLLLSTLYSLDAQAFAEATESLHGRTRVYFAADEQTLLKNGNQTKPKHVPGTPYWVITNTNTGRKCSMIEHIMQSMQFPAELIEKVCGTI MKTIEVDDELYSYIASHTKHIGESRSDILRRMLKFSAASQKPVKTIKDKVRAMRELLLSDEYAEQKRAVNRFMLLLSTLYSLDAQAFAEATESLHGRTRVYFAADEQTLLKNGNQTKPKHVPGTPYWVITNTNTGRKCSMIEHIMQSMQFPAELIEKVCGTI 3fmx-a1-m2-cX_3fmx-a1-m4-cX Crystal structure of Tartrate dehydrogenase from Pseudomonas putida complexed with NADH Q51945 Q51945 2.95 X-RAY DIFFRACTION 39 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 359 359 3fmx-a1-m1-cX_3fmx-a1-m3-cX SFRIAAIPGDGIGLEVLPEGIRVLEAAALKHGLALEFDTFEWASCDYYLQHGKMMPDDWAEQLKQYDAIYFGAVGWPDKVPDHISLWGSLLKFRREFDQYVNIRPVRLFPGVPCALANRKVGDIDFVVVRENTEGEYSSLGGIMFENTENEIVIQESIFTRRGVDRILKYAFDLAEKRERKHVTSATKSNGMAISMPYWDKRTEAMAAHYPHVSWDKQHIDILCARFVLQPERFDVVVASNLFGDILSDLGPACAGTIGIAPSANLNPERNFPSLFEPVHGSAPDIFGKNIANPIAMIWSGALMLEFLGQGDERYQRAHDDMLNAIERVIADGSVTPDMGGTLSTQQVGAAISDTLARL SFRIAAIPGDGIGLEVLPEGIRVLEAAALKHGLALEFDTFEWASCDYYLQHGKMMPDDWAEQLKQYDAIYFGAVGWPDKVPDHISLWGSLLKFRREFDQYVNIRPVRLFPGVPCALANRKVGDIDFVVVRENTEGEYSSLGGIMFENTENEIVIQESIFTRRGVDRILKYAFDLAEKRERKHVTSATKSNGMAISMPYWDKRTEAMAAHYPHVSWDKQHIDILCARFVLQPERFDVVVASNLFGDILSDLGPACAGTIGIAPSANLNPERNFPSLFEPVHGSAPDIFGKNIANPIAMIWSGALMLEFLGQGDERYQRAHDDMLNAIERVIADGSVTPDMGGTLSTQQVGAAISDTLARL 3fmx-a2-m1-cX_3fmx-a2-m4-cX Crystal structure of Tartrate dehydrogenase from Pseudomonas putida complexed with NADH Q51945 Q51945 2.95 X-RAY DIFFRACTION 209 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 359 359 3flk-a1-m1-cA_3flk-a1-m1-cB 3flk-a2-m1-cC_3flk-a2-m1-cD 3fmx-a1-m1-cX_3fmx-a1-m4-cX 3fmx-a1-m2-cX_3fmx-a1-m3-cX SFRIAAIPGDGIGLEVLPEGIRVLEAAALKHGLALEFDTFEWASCDYYLQHGKMMPDDWAEQLKQYDAIYFGAVGWPDKVPDHISLWGSLLKFRREFDQYVNIRPVRLFPGVPCALANRKVGDIDFVVVRENTEGEYSSLGGIMFENTENEIVIQESIFTRRGVDRILKYAFDLAEKRERKHVTSATKSNGMAISMPYWDKRTEAMAAHYPHVSWDKQHIDILCARFVLQPERFDVVVASNLFGDILSDLGPACAGTIGIAPSANLNPERNFPSLFEPVHGSAPDIFGKNIANPIAMIWSGALMLEFLGQGDERYQRAHDDMLNAIERVIADGSVTPDMGGTLSTQQVGAAISDTLARL SFRIAAIPGDGIGLEVLPEGIRVLEAAALKHGLALEFDTFEWASCDYYLQHGKMMPDDWAEQLKQYDAIYFGAVGWPDKVPDHISLWGSLLKFRREFDQYVNIRPVRLFPGVPCALANRKVGDIDFVVVRENTEGEYSSLGGIMFENTENEIVIQESIFTRRGVDRILKYAFDLAEKRERKHVTSATKSNGMAISMPYWDKRTEAMAAHYPHVSWDKQHIDILCARFVLQPERFDVVVASNLFGDILSDLGPACAGTIGIAPSANLNPERNFPSLFEPVHGSAPDIFGKNIANPIAMIWSGALMLEFLGQGDERYQRAHDDMLNAIERVIADGSVTPDMGGTLSTQQVGAAISDTLARL 3fn2-a1-m2-cB_3fn2-a1-m3-cB Crystal structure of a putative sensor histidine kinase domain from Clostridium symbiosum ATCC 14940 1.9 X-RAY DIFFRACTION 12 1.0 411472 ([Clostridium] symbiosum ATCC 14940) 411472 ([Clostridium] symbiosum ATCC 14940) 94 94 3fn2-a1-m1-cB_3fn2-a1-m2-cB 3fn2-a1-m1-cB_3fn2-a1-m3-cB YTQRDNQKTLAVYFEEINRDVEYLSGRLSEKELKDKYRYYGRGYVRITDKDGQVITYEDGSVQDKTVFLTNEGANKLGWKLEFLIDEKFEEEIL YTQRDNQKTLAVYFEEINRDVEYLSGRLSEKELKDKYRYYGRGYVRITDKDGQVITYEDGSVQDKTVFLTNEGANKLGWKLEFLIDEKFEEEIL 3fn2-a1-m3-cA_3fn2-a1-m3-cB Crystal structure of a putative sensor histidine kinase domain from Clostridium symbiosum ATCC 14940 1.9 X-RAY DIFFRACTION 155 1.0 411472 ([Clostridium] symbiosum ATCC 14940) 411472 ([Clostridium] symbiosum ATCC 14940) 94 94 3fn2-a1-m1-cA_3fn2-a1-m1-cB 3fn2-a1-m2-cA_3fn2-a1-m2-cB YTQRDNQKTLAVYFEEINRDVEYLSGRLSEKELKDKYRYYGRGYVRITDKDGQVITYEDGSVQDKTVFLTNEGANKLGWKLEFLIDEKFEEEIL YTQRDNQKTLAVYFEEINRDVEYLSGRLSEKELKDKYRYYGRGYVRITDKDGQVITYEDGSVQDKTVFLTNEGANKLGWKLEFLIDEKFEEEIL 3fn3-a1-m1-cB_3fn3-a1-m1-cA Dimeric Structure of PD-L1 Q9NZQ7 Q9NZQ7 2.7 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 215 4z18-a1-m1-cB_4z18-a1-m1-cA 5jdr-a1-m1-cA_5jdr-a1-m1-cB MFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYNKINQRILVVDPVTSEHELTCQAEGYPKAEVIWTSSDHQVLSGKTTTTNSKREEKLFNVTSTLRINTTTNEIFYCTFRRLDPEENHTAELVIPE MFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYNKINQRILVVDPVTSEHELTCQAEGYPKAEVIWTSSDHQVLSGKTTTTNSKREEKLFNVTSTLRINTTTNEIFYCTFRRLDPEENHTAELVIPELPLA 3fn7-a1-m1-cA_3fn7-a1-m2-cA Crystal structure of sortase A (Spy1154) from Streptococcus pyogenes serotype M1 strain SF370 Q99ZN4 Q99ZN4 1.75 X-RAY DIFFRACTION 64 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 177 177 3fn6-a1-m1-cA_3fn6-a1-m2-cA SSGLVPRGSVLQAQMAAQQLPVIGGIAIPELGINLPIFKGLGNTELIYGAGTMKEEQVMGGENNYSLASHHIFGITGSSQMLFSPLERAQNGMSIYLTDKEKIYEYIIKDVFTVAPERVDVIDDTAGLKEVTLVTCTDIEATERIIVKGELKTEYDFDKAPADVLKAFNHSYNQVST SSGLVPRGSVLQAQMAAQQLPVIGGIAIPELGINLPIFKGLGNTELIYGAGTMKEEQVMGGENNYSLASHHIFGITGSSQMLFSPLERAQNGMSIYLTDKEKIYEYIIKDVFTVAPERVDVIDDTAGLKEVTLVTCTDIEATERIIVKGELKTEYDFDKAPADVLKAFNHSYNQVST 3fn9-a3-m2-cD_3fn9-a3-m1-cA Crystal structure of putative beta-galactosidase from bacteroides fragilis Q5LJ68 Q5LJ68 2.7 X-RAY DIFFRACTION 37 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 666 672 3fn9-a3-m1-cB_3fn9-a3-m2-cC LARQVTAFNTGWQFKKGPFATDPMRAASQWDGKWETVEIPHTWNAMDMQVQSGSFYEGAGYYRKTQFFPHDLEGKRVFLRFEGVGACAEVYVNGKLAGTHKGGYSAFACEIGTALKLGAENEIIVKADNKARPDVIPVNQNLFGVYGGIYRPVWLIVTEQNNITVTDCASPGVYITQKDVSKKSADITVKVKLDNAGLQPAAVTLENTIYTQEGQKVGTHSRSFDLSPQGTQTYLSTFKLKNPHLWQGRKDPYLYKVVCRLMADGKVIDEVVQPLGVRKYEIVAGKGFFLNGEKYSMYGVTRHQDWWGLGSALKNEHHDFDLAAIMDVGATTVRFAHYQQSDYLYSRCDTLGLIIWAEIPCVNRVTGYETENAQSQLRELIRQSFNHPSIYVWGLHNEVYQPHEYTAALTRSLHDLAKTEDPDRYTVSVNGYGHMDHPVNLNADIQGMNRYFGWYEKKIQDIKPWVEQLEKDYPYQKLMLTEYGADANLAHQTEYLGDALNWGKPFYPETFQTKTHEYQWSIIKDHPYIIASYLWNMFDFAVPMWTRGGVPARNMKGLITFDRKTKKDSYFWYKANWSEEPVLYLTQRRNADREKRTTAVTVYSNIGTPKVYLNGQELSGIRNGYTDVHYVFDNVSLADGKNILKAVVSTKGKEYTDEIEWNYSGE LARQVTAFNTGWQFKKGPFATDPMRAASQWDGKWETVEIPHTWNAMDMQVQSGSFYEGAGYYRKTQFFPHDLEGKRVFLRFEGVGACAEVYVNGKLAGTHKGGYSAFACEIGTALKLGAENEIIVKADNKARPDVIPVNQNLFGVYGGIYRPVWLIVTEQNNITVTDCASPGVYITQKDVSKKSADITVKVKLDNAGLQPAAVTLENTIYTQEGQKVGTHSRSFDLSPQGTQTYLSTFKLKNPHLWQGRKDPYLYKVVCRLMADGKVIDEVVQPLGVRKYEIVAGKGFFLNGEKYSMYGVTRHQDWWGLGSALKNEHHDFDLAAIMDVGATTVRFAHYQQSDYLYSRCDTLGLIIWAEIPCVNRVTGYETENAQSQLRELIRQSFNHPSIYVWGLHNEVYQPHEYTAALTRSLHDLAKTEDPDRYTVSVNGYGHMDHPVNLNADIQGMNRYFGWYEKKIQDIKPWVEQLEKDYPYQKLMLTEYGADANLAHQTEYLGDALNWGKPFYPETFQTKTHEYQWSIIKDHPYIIASYLWNMFDFAVPMWTRGGVPARNMKGLITFDRKTKKDSYFWYKANWSEEPVLYLTQRRNADREKRTTAVTVYSNIGTPKVYLNGQELSGIRNGYTDVHYVFDNVSLADGKNILKAVVSTKGKEYTDEIEWNYSGEKNREID 3fn9-a3-m2-cD_3fn9-a3-m2-cA Crystal structure of putative beta-galactosidase from bacteroides fragilis Q5LJ68 Q5LJ68 2.7 X-RAY DIFFRACTION 37 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 666 672 3fn9-a1-m1-cD_3fn9-a1-m1-cA 3fn9-a2-m1-cD_3fn9-a2-m1-cA 3fn9-a3-m1-cD_3fn9-a3-m1-cA LARQVTAFNTGWQFKKGPFATDPMRAASQWDGKWETVEIPHTWNAMDMQVQSGSFYEGAGYYRKTQFFPHDLEGKRVFLRFEGVGACAEVYVNGKLAGTHKGGYSAFACEIGTALKLGAENEIIVKADNKARPDVIPVNQNLFGVYGGIYRPVWLIVTEQNNITVTDCASPGVYITQKDVSKKSADITVKVKLDNAGLQPAAVTLENTIYTQEGQKVGTHSRSFDLSPQGTQTYLSTFKLKNPHLWQGRKDPYLYKVVCRLMADGKVIDEVVQPLGVRKYEIVAGKGFFLNGEKYSMYGVTRHQDWWGLGSALKNEHHDFDLAAIMDVGATTVRFAHYQQSDYLYSRCDTLGLIIWAEIPCVNRVTGYETENAQSQLRELIRQSFNHPSIYVWGLHNEVYQPHEYTAALTRSLHDLAKTEDPDRYTVSVNGYGHMDHPVNLNADIQGMNRYFGWYEKKIQDIKPWVEQLEKDYPYQKLMLTEYGADANLAHQTEYLGDALNWGKPFYPETFQTKTHEYQWSIIKDHPYIIASYLWNMFDFAVPMWTRGGVPARNMKGLITFDRKTKKDSYFWYKANWSEEPVLYLTQRRNADREKRTTAVTVYSNIGTPKVYLNGQELSGIRNGYTDVHYVFDNVSLADGKNILKAVVSTKGKEYTDEIEWNYSGE LARQVTAFNTGWQFKKGPFATDPMRAASQWDGKWETVEIPHTWNAMDMQVQSGSFYEGAGYYRKTQFFPHDLEGKRVFLRFEGVGACAEVYVNGKLAGTHKGGYSAFACEIGTALKLGAENEIIVKADNKARPDVIPVNQNLFGVYGGIYRPVWLIVTEQNNITVTDCASPGVYITQKDVSKKSADITVKVKLDNAGLQPAAVTLENTIYTQEGQKVGTHSRSFDLSPQGTQTYLSTFKLKNPHLWQGRKDPYLYKVVCRLMADGKVIDEVVQPLGVRKYEIVAGKGFFLNGEKYSMYGVTRHQDWWGLGSALKNEHHDFDLAAIMDVGATTVRFAHYQQSDYLYSRCDTLGLIIWAEIPCVNRVTGYETENAQSQLRELIRQSFNHPSIYVWGLHNEVYQPHEYTAALTRSLHDLAKTEDPDRYTVSVNGYGHMDHPVNLNADIQGMNRYFGWYEKKIQDIKPWVEQLEKDYPYQKLMLTEYGADANLAHQTEYLGDALNWGKPFYPETFQTKTHEYQWSIIKDHPYIIASYLWNMFDFAVPMWTRGGVPARNMKGLITFDRKTKKDSYFWYKANWSEEPVLYLTQRRNADREKRTTAVTVYSNIGTPKVYLNGQELSGIRNGYTDVHYVFDNVSLADGKNILKAVVSTKGKEYTDEIEWNYSGEKNREID 3fn9-a3-m2-cD_3fn9-a3-m2-cC Crystal structure of putative beta-galactosidase from bacteroides fragilis Q5LJ68 Q5LJ68 2.7 X-RAY DIFFRACTION 162 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 666 673 3fn9-a1-m1-cA_3fn9-a1-m1-cB 3fn9-a2-m1-cD_3fn9-a2-m1-cC 3fn9-a3-m1-cA_3fn9-a3-m1-cB LARQVTAFNTGWQFKKGPFATDPMRAASQWDGKWETVEIPHTWNAMDMQVQSGSFYEGAGYYRKTQFFPHDLEGKRVFLRFEGVGACAEVYVNGKLAGTHKGGYSAFACEIGTALKLGAENEIIVKADNKARPDVIPVNQNLFGVYGGIYRPVWLIVTEQNNITVTDCASPGVYITQKDVSKKSADITVKVKLDNAGLQPAAVTLENTIYTQEGQKVGTHSRSFDLSPQGTQTYLSTFKLKNPHLWQGRKDPYLYKVVCRLMADGKVIDEVVQPLGVRKYEIVAGKGFFLNGEKYSMYGVTRHQDWWGLGSALKNEHHDFDLAAIMDVGATTVRFAHYQQSDYLYSRCDTLGLIIWAEIPCVNRVTGYETENAQSQLRELIRQSFNHPSIYVWGLHNEVYQPHEYTAALTRSLHDLAKTEDPDRYTVSVNGYGHMDHPVNLNADIQGMNRYFGWYEKKIQDIKPWVEQLEKDYPYQKLMLTEYGADANLAHQTEYLGDALNWGKPFYPETFQTKTHEYQWSIIKDHPYIIASYLWNMFDFAVPMWTRGGVPARNMKGLITFDRKTKKDSYFWYKANWSEEPVLYLTQRRNADREKRTTAVTVYSNIGTPKVYLNGQELSGIRNGYTDVHYVFDNVSLADGKNILKAVVSTKGKEYTDEIEWNYSGE LARQVTAFNTGWQFKKGPFATDPMRAASQWDGKWETVEIPHTWNAMDMQVQSGSFYEGAGYYRKTQFFPHDLEGKRVFLRFEGVGACAEVYVNGKLAGTHKGGYSAFACEIGTALKLGAENEIIVKADNKARPDVIPVNQNLFGVYGGIYRPVWLIVTEQNNITVTDCASPGVYITQKDVSKKSADITVKVKLDNAGLQPAAVTLENTIYTQEGQKVGTHSRSFDLSPQGTQTYLSTFKLKNPHLWQGRKDPYLYKVVCRLMADGKVIDEVVQPLGVRKYEIVAGKGFFLNGEKYSMYGVTRHQDWWGLGSALKNEHHDFDLAAIMDVGATTVRFAHYQQSDYLYSRCDTLGLIIWAEIPCVNRVTGYETENAQSQLRELIRQSFNHPSIYVWGLHNEVYQPHEYTAALTRSLHDLAKTEDPDRYTVSVNGYGHMDHPVNLNADIQGMNRYFGWYEKKIQDIKPWVEQLEKDYPYQKLMLTEYGADANLAHQTEYLGDALNWGKPFYPETFQTKTHEYQWSIIKDHPYIIASYLWNMFDFAVPMWTRGGVPARNMKGLITFDRKTKKDSYFWYKANWSEEPVLYLTQRRNADREKRTTAVTVYSNIGTPKVYLNGQELSGIRNGYTDVHYVFDNVSLADGKNILKAVVSTKGKEYTDEIEWNYSGEKNREIDS 3fna-a3-m1-cA_3fna-a3-m2-cB Crystal structure of the CBS pair of possible D-arabinose 5-phosphate isomerase yrbH from Escherichia coli CFT073 2.1 X-RAY DIFFRACTION 50 0.991 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 112 114 LGRKLLLRVNDIHTGDEIPHVKKTASLRDALLEVTRKNLGTVICDDNIEGIFTDGDLRRVFDRLSIADVTPGGIRVRPGILAVEALNLQSRHITSVVADGDHLLGVLHHDLL GRKLLLRVNDIHTGDEIPHVKKTASLRDALLEVTRKNLGTVICDDNIEGIFTDGDLRRVFDVRRLSIADVTPGGIRVRPGILAVEALNLQSRHITSVVADGDHLLGVLHHDLLR 3fnb-a1-m1-cB_3fnb-a1-m1-cA Crystal structure of acylaminoacyl peptidase SMU_737 from Streptococcus mutans UA159 Q8DUZ1 Q8DUZ1 2.1178 X-RAY DIFFRACTION 106 0.997 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 361 364 QDYKIKFNNKDDFCFNWLGIGQIIGSAGELFYIASGIRDGNPTDWCKRFNEHADYLEDEVERVKKVGYRDLISHLYFSACFSIRAALQFTDPKDSEFENFRREKLFLAVDNSKIPLKSIEVPFEGELLPGYAIISEDKAQDTLIVVGGGDTSREDLFYLGYSGWEHDYNVLVDLPGQGKNPNQGLHFEVDARAAISAILDWYQAPTEKIAIAGFSGGGYFTAQAVEKDKRIKAWIASTPIYDVAEVFRISFSVNKVAEVNLNKYAWQFGQVDFITSVNEVLEQAQIVDYNKIDVPSLFLVGAGEDSELRQSQVLYDNFKQRGIDVTLRKFSSESGADAHCQVNNFRLHYQVFEWLNHIFKK LKRQDYKIKFNNKDDFCFNWLGIGQIIGSAGELFYIASGIRDGNPTDWCKRFNEHADYLEDEVERVKKVGYRDLISHLYFSACFSIRAALQFTDPKDSEFENFRREKLFLAVDNSKIPLKSIEVPFEGELLPGYAIISEDKAQDTLIVVGGGDTSREDLFYLGYSGWEHDYNVLVDLPGQGKNPNQGLHFEVDARAAISAILDWYQAPTEKIAIAGFSGGGYFTAQAVEKDKRIKAWIASTPIYDVAEVFRISFSSVNKVAEVNLNKYAWQFGQVDFITSVNEVLEQAQIVDYNKIDVPSLFLVGAGEDSELRQSQVLYDNFKQRGIDVTLRKFSSESGADAHCQVNNFRLHYQVFEWLNHIFK 3fnc-a2-m1-cA_3fnc-a2-m1-cB Crystal structure of a putative acetyltransferase from Listeria innocua Q92E50 Q92E50 1.75 X-RAY DIFFRACTION 37 1.0 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 157 158 3fnc-a1-m1-cA_3fnc-a1-m1-cB DFHIRKATNSDAEAIQHVATTSWHHTYQDLIPSDVQDDFLKRFYNVETLHNRISATPFAVLEQADKVIGFANFIELEKGKSELAAFYLLPEVTQRGLGTELLEVGTLFHVPLPFVNVEKGNETAIHFYKAKGFVQVEEFTEDFYGYPLETIRFNLNH ADFHIRKATNSDAEAIQHVATTSWHHTYQDLIPSDVQDDFLKRFYNVETLHNRISATPFAVLEQADKVIGFANFIELEKGKSELAAFYLLPEVTQRGLGTELLEVGTLFHVPLPFVNVEKGNETAIHFYKAKGFVQVEEFTEDFYGYPLETIRFNLNH 3fnj-a1-m1-cA_3fnj-a1-m1-cB Crystal structure of the full-length lp_1913 protein from Lactobacillus plantarum, Northeast Structural Genomics Consortium Target LpR140 F9UPN6 F9UPN6 2.7 X-RAY DIFFRACTION 46 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 116 117 3flh-a1-m1-cA_3flh-a1-m1-cB 3flh-a1-m1-cC_3flh-a1-m1-cA 3flh-a1-m1-cC_3flh-a1-m1-cB 3fnj-a1-m1-cA_3fnj-a1-m1-cC 3fnj-a1-m1-cC_3fnj-a1-m1-cB 3fnj-a2-m1-cE_3fnj-a2-m1-cD 3fnj-a2-m1-cE_3fnj-a2-m1-cF 3fnj-a2-m1-cF_3fnj-a2-m1-cD NDKKIELLTTYLSLYIDHHTVLADQNATGKYVVLDVRNAPAQVKKDQIKGAIAPAKDLATRIGELDPAKTYVVYDWTGGTTLGKTALLVLLSAGFEAYELAGALEGWKGQLPVETL NDKKIELLTTYLSLYIDHHTVLADQNATGKYVVLDVRNAPAQVKKDQIKGAIAPAKDLATRIGELDPAKTYVVYDWTGGTTLGKTALLVLLSAGFEAYELAGALEGWKGQLPVETLA 3fnn-a1-m1-cA_3fnn-a1-m4-cA Biochemical and structural analysis of an atypical ThyX: Corynebacterium glutamicum NCHU 87078 depends on ThyA for thymidine biosynthesis P40111 P40111 2.3 X-RAY DIFFRACTION 124 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 227 227 3fnn-a1-m2-cA_3fnn-a1-m3-cA 3ge9-a2-m1-cA_3ge9-a2-m3-cA 3ge9-a2-m2-cA_3ge9-a2-m4-cA EQVKLSVELIACSSFTPPADVEWSTDVEGAEALVEFAGRACYETFDKPNPRTASNAAYLRHIMEVGHTALLEHANATMYIRGISRSATHELVRHRHFSFSQLSQSEVVVPTLIDEDPQLRELFMHAMDESRFAFNELLNALEEKRKKQARQAARAVLPNATESRIVVSGNFRTWRHFIGMRASEHADVEIREVAVECLRKLQVAAPTVFGDFEIETLADGSQMATSP EQVKLSVELIACSSFTPPADVEWSTDVEGAEALVEFAGRACYETFDKPNPRTASNAAYLRHIMEVGHTALLEHANATMYIRGISRSATHELVRHRHFSFSQLSQSEVVVPTLIDEDPQLRELFMHAMDESRFAFNELLNALEEKRKKQARQAARAVLPNATESRIVVSGNFRTWRHFIGMRASEHADVEIREVAVECLRKLQVAAPTVFGDFEIETLADGSQMATSP 3fnn-a1-m3-cA_3fnn-a1-m4-cA Biochemical and structural analysis of an atypical ThyX: Corynebacterium glutamicum NCHU 87078 depends on ThyA for thymidine biosynthesis P40111 P40111 2.3 X-RAY DIFFRACTION 111 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 227 227 3fnn-a1-m1-cA_3fnn-a1-m2-cA 3ge9-a2-m1-cA_3ge9-a2-m2-cA 3ge9-a2-m3-cA_3ge9-a2-m4-cA EQVKLSVELIACSSFTPPADVEWSTDVEGAEALVEFAGRACYETFDKPNPRTASNAAYLRHIMEVGHTALLEHANATMYIRGISRSATHELVRHRHFSFSQLSQSEVVVPTLIDEDPQLRELFMHAMDESRFAFNELLNALEEKRKKQARQAARAVLPNATESRIVVSGNFRTWRHFIGMRASEHADVEIREVAVECLRKLQVAAPTVFGDFEIETLADGSQMATSP EQVKLSVELIACSSFTPPADVEWSTDVEGAEALVEFAGRACYETFDKPNPRTASNAAYLRHIMEVGHTALLEHANATMYIRGISRSATHELVRHRHFSFSQLSQSEVVVPTLIDEDPQLRELFMHAMDESRFAFNELLNALEEKRKKQARQAARAVLPNATESRIVVSGNFRTWRHFIGMRASEHADVEIREVAVECLRKLQVAAPTVFGDFEIETLADGSQMATSP 3fo2-a2-m1-cA_3fo2-a2-m1-cL Crystal structure of hapten complex of catalytic elimination antibody 13G5 (Glu(L39)Gln mutant) 2.18 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 3fo1-a1-m1-cA_3fo1-a1-m1-cL 3fo1-a2-m1-cA_3fo1-a2-m1-cL 3fo2-a1-m1-cA_3fo2-a1-m1-cL ELVMTQTPLSLPVSLGDQASISCRSSQSIVHSNGNTYLQWYLQKPGQSPKLLIYKVSNRFSGVPDRFSGSGSGTDFTLKINRVEAEDLGVYYCFQGSHLPPTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR ELVMTQTPLSLPVSLGDQASISCRSSQSIVHSNGNTYLQWYLQKPGQSPKLLIYKVSNRFSGVPDRFSGSGSGTDFTLKINRVEAEDLGVYYCFQGSHLPPTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR 3fo2-a2-m1-cB_3fo2-a2-m1-cH Crystal structure of hapten complex of catalytic elimination antibody 13G5 (Glu(L39)Gln mutant) 2.18 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 214 214 3fo1-a1-m1-cB_3fo1-a1-m1-cH 3fo1-a2-m1-cB_3fo1-a2-m1-cH 3fo2-a1-m1-cB_3fo2-a1-m1-cH DVQLLESGPGLVAPSQSLSITCTVSGFSLTNYGVDWVRQPPGKGLEWVGVIWSGGSTNYNSALMSRLSISKDNSKSQVFLKMNSLQTDDTAVYYCAKHWGGYYIPYGMDHWGQGTTVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP DVQLLESGPGLVAPSQSLSITCTVSGFSLTNYGVDWVRQPPGKGLEWVGVIWSGGSTNYNSALMSRLSISKDNSKSQVFLKMNSLQTDDTAVYYCAKHWGGYYIPYGMDHWGQGTTVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP 3fo8-a2-m24-cD_3fo8-a2-m9-cD Crystal structure of the bacteriophage T4 tail sheath protein, protease resistant fragment gp18PR P13332 P13332 1.8 X-RAY DIFFRACTION 11 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 274 274 3fo8-a2-m10-cD_3fo8-a2-m21-cD 3fo8-a2-m11-cD_3fo8-a2-m22-cD 3fo8-a2-m12-cD_3fo8-a2-m23-cD 3fo8-a2-m13-cD_3fo8-a2-m4-cD 3fo8-a2-m15-cD_3fo8-a2-m2-cD 3fo8-a2-m16-cD_3fo8-a2-m3-cD 3fo8-a2-m17-cD_3fo8-a2-m5-cD 3fo8-a2-m18-cD_3fo8-a2-m8-cD 3fo8-a2-m19-cD_3fo8-a2-m7-cD 3fo8-a2-m1-cD_3fo8-a2-m14-cD 3fo8-a2-m20-cD_3fo8-a2-m6-cD DTAKNSSPIAGNIEYTISTPGSNYAVGDKITVKYVSDDIETEGKITEVDADGKIKKINIPTAKIIAKAKEVGEYPTLGSNWTAEISSSSSGLAAVITLGKIITDSGILLAEIENAEAAMTAVDFQANLKKYGIPGVVALYPGELGDKIEIEIVSKADYAKGASALLPIYPGGGTRASTAKAVFGYGPQTDSQYAIIVRRNDAIVQSVVLSTKRGGKDIYDSNIYIDDFFAKGGSEYIFATAQNWPEGFSGILTLSGGLSSNAEVTAGDLMEAWD DTAKNSSPIAGNIEYTISTPGSNYAVGDKITVKYVSDDIETEGKITEVDADGKIKKINIPTAKIIAKAKEVGEYPTLGSNWTAEISSSSSGLAAVITLGKIITDSGILLAEIENAEAAMTAVDFQANLKKYGIPGVVALYPGELGDKIEIEIVSKADYAKGASALLPIYPGGGTRASTAKAVFGYGPQTDSQYAIIVRRNDAIVQSVVLSTKRGGKDIYDSNIYIDDFFAKGGSEYIFATAQNWPEGFSGILTLSGGLSSNAEVTAGDLMEAWD 3fo8-a2-m6-cD_3fo8-a2-m9-cD Crystal structure of the bacteriophage T4 tail sheath protein, protease resistant fragment gp18PR P13332 P13332 1.8 X-RAY DIFFRACTION 59 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 274 274 3fo8-a2-m10-cD_3fo8-a2-m5-cD 3fo8-a2-m10-cD_3fo8-a2-m6-cD 3fo8-a2-m11-cD_3fo8-a2-m7-cD 3fo8-a2-m11-cD_3fo8-a2-m8-cD 3fo8-a2-m12-cD_3fo8-a2-m7-cD 3fo8-a2-m12-cD_3fo8-a2-m8-cD 3fo8-a2-m13-cD_3fo8-a2-m17-cD 3fo8-a2-m13-cD_3fo8-a2-m18-cD 3fo8-a2-m14-cD_3fo8-a2-m17-cD 3fo8-a2-m14-cD_3fo8-a2-m18-cD 3fo8-a2-m15-cD_3fo8-a2-m19-cD 3fo8-a2-m15-cD_3fo8-a2-m20-cD 3fo8-a2-m16-cD_3fo8-a2-m19-cD 3fo8-a2-m16-cD_3fo8-a2-m20-cD 3fo8-a2-m1-cD_3fo8-a2-m23-cD 3fo8-a2-m1-cD_3fo8-a2-m24-cD 3fo8-a2-m21-cD_3fo8-a2-m3-cD 3fo8-a2-m21-cD_3fo8-a2-m4-cD 3fo8-a2-m22-cD_3fo8-a2-m3-cD 3fo8-a2-m22-cD_3fo8-a2-m4-cD 3fo8-a2-m2-cD_3fo8-a2-m23-cD 3fo8-a2-m2-cD_3fo8-a2-m24-cD 3fo8-a2-m5-cD_3fo8-a2-m9-cD DTAKNSSPIAGNIEYTISTPGSNYAVGDKITVKYVSDDIETEGKITEVDADGKIKKINIPTAKIIAKAKEVGEYPTLGSNWTAEISSSSSGLAAVITLGKIITDSGILLAEIENAEAAMTAVDFQANLKKYGIPGVVALYPGELGDKIEIEIVSKADYAKGASALLPIYPGGGTRASTAKAVFGYGPQTDSQYAIIVRRNDAIVQSVVLSTKRGGKDIYDSNIYIDDFFAKGGSEYIFATAQNWPEGFSGILTLSGGLSSNAEVTAGDLMEAWD DTAKNSSPIAGNIEYTISTPGSNYAVGDKITVKYVSDDIETEGKITEVDADGKIKKINIPTAKIIAKAKEVGEYPTLGSNWTAEISSSSSGLAAVITLGKIITDSGILLAEIENAEAAMTAVDFQANLKKYGIPGVVALYPGELGDKIEIEIVSKADYAKGASALLPIYPGGGTRASTAKAVFGYGPQTDSQYAIIVRRNDAIVQSVVLSTKRGGKDIYDSNIYIDDFFAKGGSEYIFATAQNWPEGFSGILTLSGGLSSNAEVTAGDLMEAWD 3fob-a1-m1-cB_3fob-a1-m1-cC Crystal structure of bromoperoxidase from Bacillus anthracis A0A6L8NUA5 A0A6L8NUA5 1.74 X-RAY DIFFRACTION 52 0.989 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 274 276 3fob-a1-m1-cA_3fob-a1-m1-cC 3fob-a1-m1-cB_3fob-a1-m1-cA SNAAKINQAPIEIYYEDHGTGKPVVLIHGWPLSGRSWEYQVPALVEAGYRVITYDRRGFGKSSQPWEGYEYDTFTSDLHQLLEQLELQNVTLVGFSGGGEVARYISTYGTDRIEKVVFAGAVPPYLYKSEDHPEGALDDATIETFKSGVINDRLAFLDEFTKGFFAAGDRTDLVSESFRLYNWDIAAGASPKGTLDCITAFSKTDFRKDLEKFNIPTLIIHGDSDATVPFEYSGKLTHEAIPNSKVALIKGGPHGLNATHAKEFNEALLLFLKD AKITVGTENQAPIEIYYEDHGTGKPVVLIHGWPLSGRSWEYQVPALVEAGYRVITYDRRGFGKSSQPWEGYEYDTFTSDLHQLLEQLELQNVTLVGFSGGGEVARYISTYGTDRIEKVVFAGAVPPYLYKSEDHPEGALDDATIETFKSGVINDRLAFLDEFTKGFFAAGDRTDLVSESFRLYNWDIAAGASPKGTLDCITAFSKTDFRKDLEKFNIPTLIIHGDSDATVPFEYSGKLTHEAIPNSKVALIKGGPHGLNATHAKEFNEALLLFLKD 3foc-a1-m2-cB_3foc-a1-m1-cA Tryptophanyl-tRNA synthetase from Giardia lamblia A8B8N3 A8B8N3 2.09 X-RAY DIFFRACTION 135 0.995 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 399 404 3foc-a1-m1-cB_3foc-a1-m2-cA TDATAEAAAVAYEDIITRFGAAPITDDLLKRFETVTGTKAHPMLRRGLFYAHRDFEEFLSYYEKGHPIYIYTGRGPSSGALHLGHLLPFIFTKYLQDAFKCYVVIQITDDEKFLRNRSLSYAEVDSYTRENIKDIIACGFDPDKTFIFINSQYLSLKNRYRFSCLVDRMLPISQLRASFGFSNDANVGYAAFPPKQMLPVYSTYFDGLPFTRVPLPVGAVLSPVHVVEELFPDSKRYQKAMCLIASGIEQDPYFRLARDLAPRMGHPKNAYLLGKFLPGLQGSGTKMSASDPNSAIYLTDTPAQIKNKINRYAFSGGRDTAFGADLSVDVSVRYLEVFMKDDAELEKLKADYKTGKLLTGEVKATLIGILQGLIKEHAERRDKVDTTMIESFTVKKELQ METDATAEAAAVAYEDIITRFGAAPITDDLLKRFETVTGTKAHPMLRRGLFYAHRDFEEFLSYYEKGHPIYIYTGRGPSSGALHLGHLLPFIFTKYLQDAFKCYVVIQITDDEKFLRNRSLSYAEVDSYTRENIKDIIACGFDPDKTFIFINSQYLSLKNRYRFSCLVDRMLPISQLRASFGFSNDANVGYAAFPPKQMLPVYSTYFDGLPFTRVPLPAVLSPVHVVEELFPDSKRYQKAMCLIASGIEQDPYFRLARDLAPRMGHPKNAYLLGKFLPGLQGSGTKMSASDPNSAIYLTDTPAQIKNKINRYAFSGGRDTEEEHRAFGADLSVDVSVRYLEVFMKDDAELEKLKADYKTGKLLTGEVKATLIGILQGLIKEHAERRDKVDTTMIESFTVKKELQ 3foc-a1-m2-cB_3foc-a1-m2-cA Tryptophanyl-tRNA synthetase from Giardia lamblia A8B8N3 A8B8N3 2.09 X-RAY DIFFRACTION 134 0.995 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 399 404 3foc-a1-m1-cB_3foc-a1-m1-cA TDATAEAAAVAYEDIITRFGAAPITDDLLKRFETVTGTKAHPMLRRGLFYAHRDFEEFLSYYEKGHPIYIYTGRGPSSGALHLGHLLPFIFTKYLQDAFKCYVVIQITDDEKFLRNRSLSYAEVDSYTRENIKDIIACGFDPDKTFIFINSQYLSLKNRYRFSCLVDRMLPISQLRASFGFSNDANVGYAAFPPKQMLPVYSTYFDGLPFTRVPLPVGAVLSPVHVVEELFPDSKRYQKAMCLIASGIEQDPYFRLARDLAPRMGHPKNAYLLGKFLPGLQGSGTKMSASDPNSAIYLTDTPAQIKNKINRYAFSGGRDTAFGADLSVDVSVRYLEVFMKDDAELEKLKADYKTGKLLTGEVKATLIGILQGLIKEHAERRDKVDTTMIESFTVKKELQ METDATAEAAAVAYEDIITRFGAAPITDDLLKRFETVTGTKAHPMLRRGLFYAHRDFEEFLSYYEKGHPIYIYTGRGPSSGALHLGHLLPFIFTKYLQDAFKCYVVIQITDDEKFLRNRSLSYAEVDSYTRENIKDIIACGFDPDKTFIFINSQYLSLKNRYRFSCLVDRMLPISQLRASFGFSNDANVGYAAFPPKQMLPVYSTYFDGLPFTRVPLPAVLSPVHVVEELFPDSKRYQKAMCLIASGIEQDPYFRLARDLAPRMGHPKNAYLLGKFLPGLQGSGTKMSASDPNSAIYLTDTPAQIKNKINRYAFSGGRDTEEEHRAFGADLSVDVSVRYLEVFMKDDAELEKLKADYKTGKLLTGEVKATLIGILQGLIKEHAERRDKVDTTMIESFTVKKELQ 3fod-a2-m2-cC_3fod-a2-m2-cD AILSST segment from Islet Amyloid Polypeptide 1.4 X-RAY DIFFRACTION 18 1.0 6 6 3fod-a1-m1-cA_3fod-a1-m1-cB 3fod-a1-m1-cB_3fod-a1-m2-cA 3fod-a1-m2-cA_3fod-a1-m2-cB 3fod-a2-m1-cC_3fod-a2-m1-cD 3fod-a2-m1-cC_3fod-a2-m2-cD 3fod-a3-m1-cE_3fod-a3-m1-cF 3fod-a3-m1-cE_3fod-a3-m2-cF 3fod-a3-m2-cE_3fod-a3-m2-cF AILSST AILSST 3fod-a4-m2-cG_3fod-a4-m2-cH AILSST segment from Islet Amyloid Polypeptide 1.4 X-RAY DIFFRACTION 17 1.0 6 6 3fod-a4-m1-cG_3fod-a4-m1-cH 3fod-a4-m1-cH_3fod-a4-m2-cG AILSST AILSST 3fok-a2-m1-cI_3fok-a2-m1-cJ Crystal Structure of Cgl0159 From Corynebacterium glutamicum (Brevibacterium flavum). Northeast Structural Genomics Target CgR115 Q8NTZ2 Q8NTZ2 2.5 X-RAY DIFFRACTION 132 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 282 282 3fok-a1-m1-cA_3fok-a1-m1-cB 3fok-a1-m1-cA_3fok-a1-m1-cH 3fok-a1-m1-cB_3fok-a1-m1-cF 3fok-a1-m1-cF_3fok-a1-m1-cG 3fok-a1-m1-cG_3fok-a1-m1-cH 3fok-a2-m1-cC_3fok-a2-m1-cD 3fok-a2-m1-cC_3fok-a2-m1-cE 3fok-a2-m1-cD_3fok-a2-m1-cI 3fok-a2-m1-cE_3fok-a2-m1-cJ PPIISPESFEALRRRAAEPTVAERFKQRRKRELLGEDGKLFIVAADHPARGALAVGDNETAANRYELLERAIALSRPGVDGVLGTPDIIDDLAALGLLDDKIVVGSNRGGLRGASFEDDRYTGYNVSSVDRGVDFAKTLVRINLSDAGTAPTLEATAHAVNEAAAAQLPILEPFSNWVNGKVVNDLSTDAVIQSVAIAAGLGNDSSYTWKLPVVEEERVESTTPTLLLGGEGGPDATFASWEHALTLPGVRGLTVGRTLLYPQDGDVAAAVDTAARLVHTDI PPIISPESFEALRRRAAEPTVAERFKQRRKRELLGEDGKLFIVAADHPARGALAVGDNETAANRYELLERAIALSRPGVDGVLGTPDIIDDLAALGLLDDKIVVGSNRGGLRGASFEDDRYTGYNVSSVDRGVDFAKTLVRINLSDAGTAPTLEATAHAVNEAAAAQLPILEPFSNWVNGKVVNDLSTDAVIQSVAIAAGLGNDSSYTWKLPVVEEERVESTTPTLLLGGEGGPDATFASWEHALTLPGVRGLTVGRTLLYPQDGDVAAAVDTAARLVHTDI 3fou-a1-m1-cA_3fou-a1-m1-cB Low pH structure of the Rieske protein from Thermus thermophilus at 2.1 A Q5SGZ9 Q5SGZ9 2.1 X-RAY DIFFRACTION 91 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 156 156 TPEKEPLKPGDILVYAQGGGEPKPIRLEELKPGDPFVLAYPMDPKTKVVKSGEAKNTLLVARFDPEELAPEVAQHAAEGVVAYSAVCTHLGCIVSQWVADEEAALCPCHGGVYDLRHGAQVIAGPPPRPVPQLPVRVEDGVLVAAGEFLGPVGVQA TPEKEPLKPGDILVYAQGGGEPKPIRLEELKPGDPFVLAYPMDPKTKVVKSGEAKNTLLVARFDPEELAPEVAQHAAEGVVAYSAVCTHLGCIVSQWVADEEAALCPCHGGVYDLRHGAQVIAGPPPRPVPQLPVRVEDGVLVAAGEFLGPVGVQA 3fov-a1-m1-cA_3fov-a1-m2-cA Crystal structure of protein RPA0323 of unknown function from Rhodopseudomonas palustris Q6NCZ4 Q6NCZ4 1.88 X-RAY DIFFRACTION 41 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 101 101 SAEASAADYLERQGYRILARRFKTRCGEIDLVAQRDALVAFVEVKARAYAVTPRQQSRIVAAAEAWLSRHPEHASELRFDAILIAPNTAPRHLPGAFDATP SAEASAADYLERQGYRILARRFKTRCGEIDLVAQRDALVAFVEVKARAYAVTPRQQSRIVAAAEAWLSRHPEHASELRFDAILIAPNTAPRHLPGAFDATP 3fov-a2-m1-cA_3fov-a2-m3-cA Crystal structure of protein RPA0323 of unknown function from Rhodopseudomonas palustris Q6NCZ4 Q6NCZ4 1.88 X-RAY DIFFRACTION 35 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 101 101 SAEASAADYLERQGYRILARRFKTRCGEIDLVAQRDALVAFVEVKARAYAVTPRQQSRIVAAAEAWLSRHPEHASELRFDAILIAPNTAPRHLPGAFDATP SAEASAADYLERQGYRILARRFKTRCGEIDLVAQRDALVAFVEVKARAYAVTPRQQSRIVAAAEAWLSRHPEHASELRFDAILIAPNTAPRHLPGAFDATP 3fpa-a1-m2-cD_3fpa-a1-m1-cB Crystal structure of Mycobacterium tuberculosis dethiobiotin synthetase complexed with dethiobiotin and phosphate P9WPQ5 P9WPQ5 2.3 X-RAY DIFFRACTION 72 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 224 225 MTILVVTGTGTGVGKTVVCAALASAARQAGIDVAVCKPVQTGTARGDDDLAEVGRLAGVTQLAGLARYPQPMAPAAAAEHAGMALPARDQIVRLIADLDRPGRLTLVEGAGGLLVELAEPGVTLRDVAVDVAAAALVVVTADLGTLNHTKLTLEALAAQQVSAGLVIGSWPDPPGLVAASNRSALARIAMVRAALPAGAASLDAGDFAAMSAAAFDRNWVAGLV HMTILVVTGTGTGVGKTVVCAALASAARQAGIDVAVCKPVQTGTARGDDDLAEVGRLAGVTQLAGLARYPQPMAPAAAAEHAGMALPARDQIVRLIADLDRPGRLTLVEGAGGLLVELAEPGVTLRDVAVDVAAAALVVVTADLGTLNHTKLTLEALAAQQVSAGLVIGSWPDPPGLVAASNRSALARIAMVRAALPAGAASLDAGDFAAMSAAAFDRNWVAGLV 3fpc-a1-m1-cA_3fpc-a1-m1-cD Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-294 of T. brockii ADH by E. histolytica ADH P14941 P14941 1.4 X-RAY DIFFRACTION 65 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 352 352 3fpc-a1-m1-cB_3fpc-a1-m1-cC MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIDIPRSEWGVGMGHKHIHGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIDIPRSEWGVGMGHKHIHGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA 3fpc-a1-m1-cB_3fpc-a1-m1-cD Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-294 of T. brockii ADH by E. histolytica ADH P14941 P14941 1.4 X-RAY DIFFRACTION 156 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 352 352 3fpc-a1-m1-cA_3fpc-a1-m1-cC MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIDIPRSEWGVGMGHKHIHGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIDIPRSEWGVGMGHKHIHGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA 3fpc-a1-m1-cC_3fpc-a1-m1-cD Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-294 of T. brockii ADH by E. histolytica ADH P14941 P14941 1.4 X-RAY DIFFRACTION 34 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 352 352 3fpc-a1-m1-cA_3fpc-a1-m1-cB MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIDIPRSEWGVGMGHKHIHGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELANIKLGDTVCVIGIGPVGLMSVAGANHLGAGRIFAVGSRKHCCDIALEYGATDIINYKNGDIVEQILKATDGKGVDKVVIAGGDVHTFAQAVKMIKPGSDIGNVNYLGEGDNIDIPRSEWGVGMGHKHIHGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA 3fpf-a1-m1-cA_3fpf-a1-m1-cB Crystal Structure of MtNAS in complex with MTA and tNA O26771 O26771 1.66 X-RAY DIFFRACTION 49 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 264 264 3fpe-a1-m1-cA_3fpe-a1-m1-cB 3fpg-a1-m1-cA_3fpg-a1-m1-cB 3fph-a1-m1-cA_3fph-a1-m1-cB 3fpj-a1-m1-cA_3fpj-a1-m1-cB 3o31-a1-m1-cA_3o31-a1-m1-cB SCYIYWDKIKRIASRLEGMNYHFDEMDTSGVMPLLDEIEEIAHDSTIDFESAKHILDDAEMNHALSLIRKFYVNLGMKLEMEKAQEVIESDSPWETLRSFYFYPRYLELLKNEAALGRFRRGERAVFIGGGPLPLTGILLSHVYGMRVNVVEIEPDIAELSRKVIEGLGVDGVNVITGDETVIDGLEFDVLMVAALAEPKRRVFRNIHRYVDTETRIIYRTYTGMRAILYAPVSDDDITGFRRAGVVLPSGKVNNTSVLVFKCP SCYIYWDKIKRIASRLEGMNYHFDEMDTSGVMPLLDEIEEIAHDSTIDFESAKHILDDAEMNHALSLIRKFYVNLGMKLEMEKAQEVIESDSPWETLRSFYFYPRYLELLKNEAALGRFRRGERAVFIGGGPLPLTGILLSHVYGMRVNVVEIEPDIAELSRKVIEGLGVDGVNVITGDETVIDGLEFDVLMVAALAEPKRRVFRNIHRYVDTETRIIYRTYTGMRAILYAPVSDDDITGFRRAGVVLPSGKVNNTSVLVFKCP 3fpi-a1-m2-cA_3fpi-a1-m3-cA Crystal Structure of 2-C-Methyl-D-Erythritol 2,4-Cyclodiphosphate Synthase IspF complexed with Cytidine Triphosphate Q8ZBP7 Q8ZBP7 2.8 X-RAY DIFFRACTION 74 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 157 157 3f6m-a1-m1-cA_3f6m-a1-m2-cA 3f6m-a1-m1-cA_3f6m-a1-m3-cA 3f6m-a1-m2-cA_3f6m-a1-m3-cA 3fpi-a1-m1-cA_3fpi-a1-m2-cA 3fpi-a1-m1-cA_3fpi-a1-m3-cA NARIGHGFDVHKFGENGSGPLIIGGVRIPYEKGLLAHSDGDVALHAATDALLGAAALGDIGKLFPDTDPAFKGADSRGLLREAYRRILAKGYKLGNLDITIIAQAPKAPHIPQRVNLAEDLQCHDDINVKATTTEQLGFTGRGEGIACEAVVLLVNV NARIGHGFDVHKFGENGSGPLIIGGVRIPYEKGLLAHSDGDVALHAATDALLGAAALGDIGKLFPDTDPAFKGADSRGLLREAYRRILAKGYKLGNLDITIIAQAPKAPHIPQRVNLAEDLQCHDDINVKATTTEQLGFTGRGEGIACEAVVLLVNV 3fpk-a1-m1-cA_3fpk-a1-m1-cB Crystal Structure of Ferredoxin-NADP Reductase from Salmonella typhimurium Q8ZKP5 Q8ZKP5 1.7 X-RAY DIFFRACTION 70 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 247 247 ADWVTGKVTKVQNWTDALFSLTVHAPINPFTAGQFTKLGLEIDGERVQRAYSYVNAPDNPNLEFYLVTVPQGKLSPRLAALKPGDEVQVVSDASGFFVLDEVPDCETLWMLATGTAIGPYLSILQYGQDVARFKNLVLVHAARFAADLSYLPLMLELQQRYEGKLRIQTVVSRENVPGSLTGRVPALIENGELEKAVGLPMDKETSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW ADWVTGKVTKVQNWTDALFSLTVHAPINPFTAGQFTKLGLEIDGERVQRAYSYVNAPDNPNLEFYLVTVPQGKLSPRLAALKPGDEVQVVSDASGFFVLDEVPDCETLWMLATGTAIGPYLSILQYGQDVARFKNLVLVHAARFAADLSYLPLMLELQQRYEGKLRIQTVVSRENVPGSLTGRVPALIENGELEKAVGLPMDKETSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW 3fpl-a1-m1-cA_3fpl-a1-m4-cA Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-295 of C. beijerinckii ADH by T. brockii ADH P25984 P25984 1.9 X-RAY DIFFRACTION 39 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 351 351 3fpl-a1-m2-cA_3fpl-a1-m3-cA MKGFAMLGINKLGWIEKERPVAGSYDAIVRPLAVSPCTSDIHTVFEGALGDRKNMILGHEAVGEVVEVGSEVKDFKPGDRVIVPCTTPDWRSLEVQAGFQQHSNGMLAGWKFSNFKDGVFGEYFHVNDADMNLAILPKDMPLENAVMITDMMTTGFHGAELADIELGATVAVLGIGPVGLMAVAGAKLRGAGRIIAVGSRPVCVDAAKYYGATDIVNYKDGPIESQIMNLTEGKGVDAAIIAGGNADIMATAVKIVKPGGTIANVNYFGEGEVLPVPRLEWGCGMAHKTIKGGLCPGGRLRAEMLRDMVVYNRVDLSKLVTHVYHGFDHIEEALLLMKDKPKDLIKAVVIL MKGFAMLGINKLGWIEKERPVAGSYDAIVRPLAVSPCTSDIHTVFEGALGDRKNMILGHEAVGEVVEVGSEVKDFKPGDRVIVPCTTPDWRSLEVQAGFQQHSNGMLAGWKFSNFKDGVFGEYFHVNDADMNLAILPKDMPLENAVMITDMMTTGFHGAELADIELGATVAVLGIGPVGLMAVAGAKLRGAGRIIAVGSRPVCVDAAKYYGATDIVNYKDGPIESQIMNLTEGKGVDAAIIAGGNADIMATAVKIVKPGGTIANVNYFGEGEVLPVPRLEWGCGMAHKTIKGGLCPGGRLRAEMLRDMVVYNRVDLSKLVTHVYHGFDHIEEALLLMKDKPKDLIKAVVIL 3fpl-a1-m2-cA_3fpl-a1-m4-cA Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-295 of C. beijerinckii ADH by T. brockii ADH P25984 P25984 1.9 X-RAY DIFFRACTION 68 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 351 351 3fpl-a1-m1-cA_3fpl-a1-m3-cA MKGFAMLGINKLGWIEKERPVAGSYDAIVRPLAVSPCTSDIHTVFEGALGDRKNMILGHEAVGEVVEVGSEVKDFKPGDRVIVPCTTPDWRSLEVQAGFQQHSNGMLAGWKFSNFKDGVFGEYFHVNDADMNLAILPKDMPLENAVMITDMMTTGFHGAELADIELGATVAVLGIGPVGLMAVAGAKLRGAGRIIAVGSRPVCVDAAKYYGATDIVNYKDGPIESQIMNLTEGKGVDAAIIAGGNADIMATAVKIVKPGGTIANVNYFGEGEVLPVPRLEWGCGMAHKTIKGGLCPGGRLRAEMLRDMVVYNRVDLSKLVTHVYHGFDHIEEALLLMKDKPKDLIKAVVIL MKGFAMLGINKLGWIEKERPVAGSYDAIVRPLAVSPCTSDIHTVFEGALGDRKNMILGHEAVGEVVEVGSEVKDFKPGDRVIVPCTTPDWRSLEVQAGFQQHSNGMLAGWKFSNFKDGVFGEYFHVNDADMNLAILPKDMPLENAVMITDMMTTGFHGAELADIELGATVAVLGIGPVGLMAVAGAKLRGAGRIIAVGSRPVCVDAAKYYGATDIVNYKDGPIESQIMNLTEGKGVDAAIIAGGNADIMATAVKIVKPGGTIANVNYFGEGEVLPVPRLEWGCGMAHKTIKGGLCPGGRLRAEMLRDMVVYNRVDLSKLVTHVYHGFDHIEEALLLMKDKPKDLIKAVVIL 3fpl-a1-m3-cA_3fpl-a1-m4-cA Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-295 of C. beijerinckii ADH by T. brockii ADH P25984 P25984 1.9 X-RAY DIFFRACTION 157 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 351 351 3fpl-a1-m1-cA_3fpl-a1-m2-cA MKGFAMLGINKLGWIEKERPVAGSYDAIVRPLAVSPCTSDIHTVFEGALGDRKNMILGHEAVGEVVEVGSEVKDFKPGDRVIVPCTTPDWRSLEVQAGFQQHSNGMLAGWKFSNFKDGVFGEYFHVNDADMNLAILPKDMPLENAVMITDMMTTGFHGAELADIELGATVAVLGIGPVGLMAVAGAKLRGAGRIIAVGSRPVCVDAAKYYGATDIVNYKDGPIESQIMNLTEGKGVDAAIIAGGNADIMATAVKIVKPGGTIANVNYFGEGEVLPVPRLEWGCGMAHKTIKGGLCPGGRLRAEMLRDMVVYNRVDLSKLVTHVYHGFDHIEEALLLMKDKPKDLIKAVVIL MKGFAMLGINKLGWIEKERPVAGSYDAIVRPLAVSPCTSDIHTVFEGALGDRKNMILGHEAVGEVVEVGSEVKDFKPGDRVIVPCTTPDWRSLEVQAGFQQHSNGMLAGWKFSNFKDGVFGEYFHVNDADMNLAILPKDMPLENAVMITDMMTTGFHGAELADIELGATVAVLGIGPVGLMAVAGAKLRGAGRIIAVGSRPVCVDAAKYYGATDIVNYKDGPIESQIMNLTEGKGVDAAIIAGGNADIMATAVKIVKPGGTIANVNYFGEGEVLPVPRLEWGCGMAHKTIKGGLCPGGRLRAEMLRDMVVYNRVDLSKLVTHVYHGFDHIEEALLLMKDKPKDLIKAVVIL 3fpo-a1-m2-cA_3fpo-a1-m4-cA HSSNNF segment from Islet Amyloid Polypeptide (IAPP or Amylin) P10997 P10997 1.5 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3fpo-a1-m1-cA_3fpo-a1-m2-cA 3fpo-a1-m1-cA_3fpo-a1-m3-cA HSSNNF HSSNNF 3fq3-a2-m1-cL_3fq3-a2-m1-cI Crystal structure of inorganic phosphatase from brucella melitensis Q2YR76 Q2YR76 1.9 X-RAY DIFFRACTION 47 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 173 174 3fq3-a1-m1-cA_3fq3-a1-m1-cB 3fq3-a1-m1-cC_3fq3-a1-m1-cF 3fq3-a1-m1-cD_3fq3-a1-m1-cE 3fq3-a2-m1-cH_3fq3-a2-m1-cG 3fq3-a2-m1-cJ_3fq3-a2-m1-cK NIDAISIGSNPPEDVNVIIEVPVGGQPIKYEMDKKAGALIVDRFLYTPMTYPGNYGFVPHTLSEDGDPIDVLVCNTRPLIPGCVINVRPIGVLVMEDNSGKDEKIIAVPSPHLTRRYEKIHDYTDMPEITLKQIAHFFEHYKDLEPGKWVKIGDWGDEDYARKFIVEAIERAK MNIDAISIGSNPPEDVNVIIEVPVGGQPIKYEMDKKAGALIVDRFLYTPMTYPGNYGFVPHTLSEDGDPIDVLVCNTRPLIPGCVINVRPIGVLVMEDNSGKDEKIIAVPSPHLTRRYEKIHDYTDMPEITLKQIAHFFEHYKDLEPGKWVKIGDWGDEDYARKFIVEAIERAK 3fq3-a6-m1-cI_3fq3-a6-m1-cK Crystal structure of inorganic phosphatase from brucella melitensis Q2YR76 Q2YR76 1.9 X-RAY DIFFRACTION 54 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 174 174 3fq3-a1-m1-cA_3fq3-a1-m1-cE 3fq3-a1-m1-cC_3fq3-a1-m1-cA 3fq3-a1-m1-cC_3fq3-a1-m1-cE 3fq3-a1-m1-cD_3fq3-a1-m1-cB 3fq3-a1-m1-cD_3fq3-a1-m1-cF 3fq3-a1-m1-cF_3fq3-a1-m1-cB 3fq3-a2-m1-cG_3fq3-a2-m1-cI 3fq3-a2-m1-cG_3fq3-a2-m1-cK 3fq3-a2-m1-cH_3fq3-a2-m1-cJ 3fq3-a2-m1-cH_3fq3-a2-m1-cL 3fq3-a2-m1-cI_3fq3-a2-m1-cK 3fq3-a2-m1-cL_3fq3-a2-m1-cJ 3fq3-a3-m1-cA_3fq3-a3-m1-cE 3fq3-a3-m1-cC_3fq3-a3-m1-cA 3fq3-a3-m1-cC_3fq3-a3-m1-cE 3fq3-a4-m1-cD_3fq3-a4-m1-cB 3fq3-a4-m1-cD_3fq3-a4-m1-cF 3fq3-a4-m1-cF_3fq3-a4-m1-cB 3fq3-a5-m1-cH_3fq3-a5-m1-cJ 3fq3-a5-m1-cH_3fq3-a5-m1-cL 3fq3-a5-m1-cL_3fq3-a5-m1-cJ 3fq3-a6-m1-cG_3fq3-a6-m1-cI 3fq3-a6-m1-cG_3fq3-a6-m1-cK MNIDAISIGSNPPEDVNVIIEVPVGGQPIKYEMDKKAGALIVDRFLYTPMTYPGNYGFVPHTLSEDGDPIDVLVCNTRPLIPGCVINVRPIGVLVMEDNSGKDEKIIAVPSPHLTRRYEKIHDYTDMPEITLKQIAHFFEHYKDLEPGKWVKIGDWGDEDYARKFIVEAIERAK MNIDAISIGSNPPEDVNVIIEVPVGGQPIKYEMDKKAGALIVDRFLYTPMTYPGNYGFVPHTLSEDGDPIDVLVCNTRPLIPGCVINVRPIGVLVMEDNSGKDEKIIAVPSPHLTRRYEKIHDYTDMPEITLKQIAHFFEHYKDLEPGKWVKIGDWGDEDYARKFIVEAIERAK 3fq9-a5-m2-cB_3fq9-a5-m3-cD Design of an insulin analog with enhanced receptor-binding selectivity. Rationale, structure, and therapeutic implications P01308 P01308 1.35 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1htv-a1-m1-cD_1htv-a1-m1-cJ 1os3-a1-m1-cD_1os3-a1-m3-cB 1os3-a1-m2-cD_1os3-a1-m1-cB 1os3-a1-m3-cD_1os3-a1-m2-cB 1os4-a1-m1-cD_1os4-a1-m1-cF 1os4-a1-m1-cH_1os4-a1-m1-cJ 1os4-a1-m1-cL_1os4-a1-m1-cB 3fq9-a4-m1-cB_3fq9-a4-m2-cD 3fq9-a5-m1-cB_3fq9-a5-m2-cD 3fq9-a5-m1-cD_3fq9-a5-m3-cB 4efx-a5-m1-cB_4efx-a5-m1-cD 4efx-a5-m2-cB_4efx-a5-m2-cD 4efx-a5-m3-cB_4efx-a5-m3-cD 4fg3-a1-m1-cB_4fg3-a1-m3-cD 4fg3-a1-m1-cD_4fg3-a1-m2-cB 4fg3-a1-m2-cD_4fg3-a1-m3-cB 6gv0-a1-m1-cB_6gv0-a1-m2-cD 6gv0-a1-m2-cB_6gv0-a1-m3-cD 6gv0-a1-m3-cB_6gv0-a1-m1-cD 7rkd-a1-m1-cB_7rkd-a1-m3-cD 7rkd-a1-m1-cD_7rkd-a1-m2-cB 7rkd-a1-m2-cD_7rkd-a1-m3-cB FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 3fqc-a2-m1-cA_3fqc-a2-m1-cB Staphylococcus aureus dihydrofolate reductase complexed with NADPH and 2,4-diamino-5-[3-(3,4,5-trimethoxyphenyl)pent-1-ynyl]-6-methylpyrimidine (UCP115A) 2.35 X-RAY DIFFRACTION 32 1.0 273036 (Staphylococcus aureus RF122) 273036 (Staphylococcus aureus RF122) 157 157 3fqc-a1-m1-cA_3fqc-a1-m1-cB TLSILVAHDLQRVIGFENQLPWHLPNDLKHVKKLSTGHTLVMGRKTFESIGKPLPNRRNVVLTSDTSFNVEGVDVIHSIEDIYQLPGHVFIFGGQTLFEEMIDKVDDMYITVIEGKFRGDTFFPPYTFEDWEVASSVEGKLDEKNTIPHTFLHLIRK TLSILVAHDLQRVIGFENQLPWHLPNDLKHVKKLSTGHTLVMGRKTFESIGKPLPNRRNVVLTSDTSFNVEGVDVIHSIEDIYQLPGHVFIFGGQTLFEEMIDKVDDMYITVIEGKFRGDTFFPPYTFEDWEVASSVEGKLDEKNTIPHTFLHLIRK 3fqm-a1-m1-cB_3fqm-a1-m1-cA Crystal structure of a novel dimeric form of HCV NS5A domain I protein Q9WMX2 Q9WMX2 1.9 X-RAY DIFFRACTION 44 1.0 333284 (Hepatitis C virus (isolate Con1)) 333284 (Hepatitis C virus (isolate Con1)) 159 160 3fqq-a1-m1-cB_3fqq-a1-m1-cA GVPFFSCQRGYKGVWRGDGIMQTTCPCGAQITGHVKNGSMRIVGPRTCSNTWHGTFPINAYTTGPCTPSPAPNYSRALWRVAAEEYVEVTRVGDFHYVTGMTTDNVKCPCQVPAPEFFTEVDGVRLHRYAPACKPLLREEVTFLVGLNQYLVGSQLPCE LGVPFFSCQRGYKGVWRGDGIMQTTCPCGAQITGHVKNGSMRIVGPRTCSNTWHGTFPINAYTTGPCTPSPAPNYSRALWRVAAEEYVEVTRVGDFHYVTGMTTDNVKCPCQVPAPEFFTEVDGVRLHRYAPACKPLLREEVTFLVGLNQYLVGSQLPCE 3fr1-a2-m3-cA_3fr1-a2-m4-cA NFLVHS segment from Islet Amyloid Polypeptide (IAPP or Amylin) P10997 P10997 1.85 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3fr1-a1-m1-cA_3fr1-a1-m2-cA NFLVHS NFLVHS 3fr3-a1-m2-cB_3fr3-a1-m1-cA Tetramerization and Cooperativity in Plasmodium falciparum glutathione transferase are mediated by the atypic loop 113-118 Q8ILQ7 Q8ILQ7 1.9 X-RAY DIFFRACTION 10 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 197 201 1q4j-a2-m1-cA_1q4j-a2-m2-cB 1q4j-a2-m1-cB_1q4j-a2-m2-cA 3fr3-a1-m1-cB_3fr3-a1-m2-cA NIVLYYFDARGKAELIRLIFAYLGIEYTDKRFGVNGDAFVEFKNFKKEKDTPFEQVPILQIGDLILAQSQAIVRYLSKKYNICGESELNEFYADMIFCGVQDIHYKFNNTAANETTFLNEDLPKWSGYFEKLLKKNHTNNYYFVGNNLTYADLAVFNLYDDIETKYPSSLKNFPLLKAHNEFISNLPNIKNYITNRK NIVLYYFDARGKAELIRLIFAYLGIEYTDKRFGVNGDAFVEFKNFKKEKDTPFEQVPILQIGDLILAQSQAIVRYLSKKYNICGESELNEFYADMIFCGVQDIHYKFNNTAANETTFLNEDLPKWSGYFEKLLKKNHTNNNNDKYYFVGNNLTYADLAVFNLYDDIETKYPSSLKNFPLLKAHNEFISNLPNIKNYITNRK 3fr7-a1-m1-cB_3fr7-a1-m1-cA ketol-acid reductoisomerase (KARI) in complex with Mg2+ Q65XK0 Q65XK0 1.55 X-RAY DIFFRACTION 105 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 490 495 3fr8-a1-m1-cA_3fr8-a1-m1-cB LDFDTSVFNKEKVSLAGHEEYIVRGGRNLFPLLPEAFKGIKQIGVIGWGSQGPAQAQNLRDSLAEAKSDIVVKIGLRKGSKSFDEARAAGFTEESGTLGDIWETVSGSDLVLLLISDAAQADNYEKIFSHMKPNSILGLSHGFLLGHLQSAGLDFPKNISVIAVCPKGMGPSVRRLYVQGKEINGAGINSSFAVHQDVDGRATDVALGWSVALGSPFTFATTLEQEYKSDIFGERGILLGAVHGIVEALFRRYTEQGMDEEMAYKNTVEGITGIISKTISKKGMLEVYNSLTEEGKKEFNKAYSASFYPCMDILYECYEDVASGSEIRSVVLAGRRFYEKEGLPAFPMGNIDQTRMWKVGEKVRSTRPENDLGPLHPFTAGVYVALMMAQIEVLRKKGHSYSEIINESVIESVDSLNPFMHARGVAFMVDNCSTTARLGSRKWAPRFDYILTQQAFVTVDKDAPINQDLISNFMSDPVHGAIEVCAELRP LDFDTSVFNKEKVSLAGHEEYIVRGGRNLFPLLPEAFKGIKQIGVIGWGSQGPAQAQNLRDSLAEAKSDIVVKIGLRKGSKSFDEARAAGFTEESGTLGDIWETVSGSDLVLLLISDAAQADNYEKIFSHMKPNSILGLSHGFLLGHLQSAGLDFPKNISVIAVCPKGMGPSVRRLYVQGKEINGAGINSSFAVHQDVDGRATDVALGWSVALGSPFTFATTLEQEYKSDIFGERGILLGAVHGIVEALFRRYTEQGMDEEMAYKNTVEGITGIISKTISKKGMLEVYNSLTEEGKKEFNKAYSASFYPCMDILYECYEDVASGSEIRSVVLAGRRFYEKEGLPAFPMGNIDQTRMWKVGEKVRSTRPENDLGPLHPFTAGVYVALMMAQIEVLRKKGHSYSEIINESVIESVDSLNPFMHARGVAFMVDNCSTTARLGSRKWAPRFDYILTQQAFVTVDKDAPINQDLISNFMSDPVHGAIEVCAELRPTVDIS 3frg-a1-m1-cA_3frg-a1-m2-cA Catalytic Domain of Human Phosphodiesterase 4B2B in Complex with a Quinoline Inhibitor Q07343 Q07343 1.7 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 335 335 3gwt-a2-m1-cA_3gwt-a2-m2-cA ISRFGVNTENEDHLAKELEDLNKWGLNIFNVAGYSHNRPLTCIMYAIFQERDLLKTFRISSDTFITYMMTLEDHYHSDVAYHNSLHAADVAQSTHVLLSTPALDAVFTDLEILAAIFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEEHCDIFMNLTKKQRQTLRKMVIDMVLATDMSKHMSLLADLKTMVETKKVTSSGVLLLDNYTDRIQVLRNMVHCADLSNPTKSLELYRQWTDRIMEEFFQQGDKERERGMEISPMCDKHTASVEKSQVGFIDYIVHPLWETWADLVQPDAQDILDTLEDNRNWYQAMIPQA ISRFGVNTENEDHLAKELEDLNKWGLNIFNVAGYSHNRPLTCIMYAIFQERDLLKTFRISSDTFITYMMTLEDHYHSDVAYHNSLHAADVAQSTHVLLSTPALDAVFTDLEILAAIFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEEHCDIFMNLTKKQRQTLRKMVIDMVLATDMSKHMSLLADLKTMVETKKVTSSGVLLLDNYTDRIQVLRNMVHCADLSNPTKSLELYRQWTDRIMEEFFQQGDKERERGMEISPMCDKHTASVEKSQVGFIDYIVHPLWETWADLVQPDAQDILDTLEDNRNWYQAMIPQA 3frk-a1-m1-cB_3frk-a1-m1-cA X-ray structure of QdtB from T. thermosaccharolyticum in complex with a PLP:TDP-3-aminoquinovose aldimine Q6TFC4 Q6TFC4 2.15 X-RAY DIFFRACTION 134 1.0 1517 (Thermoanaerobacterium thermosaccharolyticum) 1517 (Thermoanaerobacterium thermosaccharolyticum) 364 365 MKISFASFKPMHDEIEYEIKFKFEEIYKRNWFILGDEDKKFEQEFADYCNVNYCIGCGNGLDALHLILKGYDIGFGDEVIVPSNTFIATALAVSYTGAKPIFVEPDIRTYNIDPSLIESAITEKTKAIIAVHLYGQPADMDEIKRIAKKYNLKLIEDAAQAHGSLYKGMKVGSLGDAAGFSFYPAKNLGSLGDGGAVVTNDKDLAEKIKALSNYGSEKKYHHIYKGFNSRLDELQAGFLRVKLKYLDKWNEERRKIAQKYIAGINNPNVIIPVEADYAKHVWYTFVIRSEKRDELQKYLNNNGIGTLIHYPIPIHLQQAYKDLGFKTGNFPIAEKIANEILSIPIWYGMKNEEIEYVIDKINAW MKISFASFKPMHDEIEYEIKFKFEEIYKRNWFILGDEDKKFEQEFADYCNVNYCIGCGNGLDALHLILKGYDIGFGDEVIVPSNTFIATALAVSYTGAKPIFVEPDIRTYNIDPSLIESAITEKTKAIIAVHLYGQPADMDEIKRIAKKYNLKLIEDAAQAHGSLYKGMKVGSLGDAAGFSFYPAKNLGSLGDGGAVVTNDKDLAEKIKALSNYGSEKKYHHIYKGFNSRLDELQAGFLRVKLKYLDKWNEERRKIAQKYIAGINNPNVIIPVEADYAKHVWYTFVIRSEKRDELQKYLNNNGIGTLIHYPIPIHLQQAYKDLGFKTGNFPIAEKIANEILSIPIWYGMKNEEIEYVIDKINAWK 3frm-a2-m1-cD_3frm-a2-m1-cC The crystal structure of a functionally unknown conserved protein from Staphylococcus epidermidis ATCC 12228. A0A0H2VHN1 A0A0H2VHN1 2.32 X-RAY DIFFRACTION 42 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 245 246 3frm-a1-m1-cA_3frm-a1-m1-cB NASKITFKDIYIDGNKITEDSRKAIYLLPPQPLKYASNTWIYKTPTNQWLKDIEVQKKHLNQSSYHLSFSFPANEKIDEVLLEKIRELGFQIGVLELYVIEAKALKELSRKRDVDIQLVSSNNINDYLHVYDAFARPFGDSYANVKQHIYSSYNLDDIERLVAYVNHQPVGIVDIITDKTIEIDGFGVLEEFQHQGIGSEIQAYVGRANERPVILVADGKDTAKDYLRQGYVYQGFKYHILKENI SNASKITFKDIYIDGNKITEDSRKAIYLLPPQPLKYASNTWIYKTPTNQWLKDIEVQKKHLNQSSYHLSFSFPANEKIDEVLLEKIRELGFQIGVLELYVIEAKALKELSRKRDVDIQLVSSNNINDYLHVYDAFARPFGDSYANVKQHIYSSYNLDDIERLVAYVNHQPVGIVDIITDKTIEIDGFGVLEEFQHQGIGSEIQAYVGRANERPVILVADGKDTAKDYLRQGYVYQGFKYHILKENI 3fro-a1-m1-cA_3fro-a1-m1-cC Crystal structure of Pyrococcus abyssi glycogen synthase with open and closed conformations Q9V2J8 Q9V2J8 2.5 X-RAY DIFFRACTION 40 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 439 439 3fro-a1-m1-cA_3fro-a1-m1-cB 3fro-a1-m1-cB_3fro-a1-m1-cC RHMKVLLLGFEFLPVKVGGLAEALTAISEALASLGHEVLVFTPSHGRFQGEEIGKIRVFGEEVQVKVSYEERGNLRIYRIGGGLLDSEDVYGPGWDGLIRKAVTFGRASVLLLNDLLREEPLPDVVHFHDWHTVFAGALIKKYFKIPAVFTIHRLNKSKLPAFYFHEAGLSELAPYPDIDPEHTGGYIADIVTTVSRGYLIDEWGFFRNFEGKITYVFNGIDCSFWNESYLTGSRDERKKSLLSKFGMDEGVTFMFIGRFDRGQKGVDVLLKAIEILSSKKEFQEMRFIIIGKGDPELEGWARSLEEKHGNVKVITEMLSREFVRELYGSVDFVIIPSYFEPFGLVALEAMCLGAIPIASAVGGLRDIITNETGILVKAGDPGELANAILKALELSRSDLSKFRENCKKRAMSFSWEKSAERYVKAYTGSIDRAFDFIL RHMKVLLLGFEFLPVKVGGLAEALTAISEALASLGHEVLVFTPSHGRFQGEEIGKIRVFGEEVQVKVSYEERGNLRIYRIGGGLLDSEDVYGPGWDGLIRKAVTFGRASVLLLNDLLREEPLPDVVHFHDWHTVFAGALIKKYFKIPAVFTIHRLNKSKLPAFYFHEAGLSELAPYPDIDPEHTGGYIADIVTTVSRGYLIDEWGFFRNFEGKITYVFNGIDCSFWNESYLTGSRDERKKSLLSKFGMDEGVTFMFIGRFDRGQKGVDVLLKAIEILSSKKEFQEMRFIIIGKGDPELEGWARSLEEKHGNVKVITEMLSREFVRELYGSVDFVIIPSYFEPFGLVALEAMCLGAIPIASAVGGLRDIITNETGILVKAGDPGELANAILKALELSRSDLSKFRENCKKRAMSFSWEKSAERYVKAYTGSIDRAFDFIL 3frq-a1-m1-cB_3frq-a1-m1-cA Structure of the macrolide biosensor protein, MphR(A), with erythromcyin Q9EVJ6 Q9EVJ6 1.76 X-RAY DIFFRACTION 116 1.0 562 (Escherichia coli) 562 (Escherichia coli) 184 185 3g56-a1-m1-cB_3g56-a1-m1-cA 6u18-a1-m1-cB_6u18-a1-m1-cA LKSDDEVLEAATVVLKRCGPIEFTLSGVAKEVGLSRAALIQRFTNRDTLLVRMMERGVEQVRHYLNAIPIGAGPQGLWEFLQVLVRSMNTRNDFSVNYLISWYELQVPELRTLAIQRNRAVVEGIRKRLPPGAPAAAELLLHSVIAGATMQWAVDPDGELADHVLAQIAAILCLMFPEHDDFQL KLKSDDEVLEAATVVLKRCGPIEFTLSGVAKEVGLSRAALIQRFTNRDTLLVRMMERGVEQVRHYLNAIPIGAGPQGLWEFLQVLVRSMNTRNDFSVNYLISWYELQVPELRTLAIQRNRAVVEGIRKRLPPGAPAAAELLLHSVIAGATMQWAVDPDGELADHVLAQIAAILCLMFPEHDDFQL 3frs-a1-m1-cA_3frs-a1-m2-cA Structure of human IST1(NTD) (residues 1-189)(p43212) P53990 P53990 2.61 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 GFKAERLRVNLRLVINRLKLLEKKKTELAQKARKEIADYLAAGKDERARIRVEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKLDSGLAESVSTLIWAAPRLQSEVAELKIVADQLCAKYSKEYGKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYNVPYEPD GFKAERLRVNLRLVINRLKLLEKKKTELAQKARKEIADYLAAGKDERARIRVEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKLDSGLAESVSTLIWAAPRLQSEVAELKIVADQLCAKYSKEYGKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYNVPYEPD 3frw-a4-m1-cG_3frw-a4-m1-cH Crystal structure of putative TrpR protein from Ruminococcus obeum A5ZMD8 A5ZMD8 2.05 X-RAY DIFFRACTION 128 1.0 411459 (Blautia obeum ATCC 29174) 411459 (Blautia obeum ATCC 29174) 89 90 3frw-a1-m1-cA_3frw-a1-m1-cB 3frw-a2-m1-cD_3frw-a2-m1-cC 3frw-a3-m1-cF_3frw-a3-m1-cE RTEEVDHLFEAILCLKNKEECYTFFEDVCTINELLSLSQRFEVAKLTDKRTYLDISEKTGASTATISRVNRSLNYGNDGYEVFSRKEKE RTEEVDHLFEAILCLKNKEECYTFFEDVCTINELLSLSQRFEVAKLTDKRTYLDISEKTGASTATISRVNRSLNYGNDGYEVFSRKEKET 3fry-a1-m1-cB_3fry-a1-m1-cA Crystal structure of the CopA C-terminal metal binding domain O29777 O29777 2 X-RAY DIFFRACTION 161 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 72 73 DSVEKIVLELSGLSCHHCVARVKKALEEAGAKVEKVDLNEAVVAGNKEDVDKYIKAVEAAGYQAKLRSSAWS GDSVEKIVLELSGLSCHHCVARVKKALEEAGAKVEKVDLNEAVVAGNKEDVDKYIKAVEAAGYQAKLRSSAWS 3fs2-a1-m1-cB_3fs2-a1-m2-cB Crystal structure of 2-Dehydro-3-Deoxyphosphooctonate aldolase from Bruciella melitensis at 1.85A resolution Q8YHF1 Q8YHF1 1.85 X-RAY DIFFRACTION 11 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 249 249 3fs2-a1-m1-cA_3fs2-a1-m2-cA MVTANSTVKVGNVTFSNSAPLALIAGPCQMETRDHAFEMAGRLKEMTDKLGIGLVYKSSFLEKALEVFSDLKKEYGFPVLTDIHTEEQCAAVAPVVDVLQIPAFLCRQTDLLIAAARTGRVVNVKKGQFLAPWDMKNVLAKITESGNPNVLATERGVSFGYNTLVSDMRALPIMAGLGAPVIFDATHSVQQPGQREFVETLARAAVAVGVAGFFIETHEDPDNANMVPIDKMPALLEKLMAFDRIAKAL MVTANSTVKVGNVTFSNSAPLALIAGPCQMETRDHAFEMAGRLKEMTDKLGIGLVYKSSFLEKALEVFSDLKKEYGFPVLTDIHTEEQCAAVAPVVDVLQIPAFLCRQTDLLIAAARTGRVVNVKKGQFLAPWDMKNVLAKITESGNPNVLATERGVSFGYNTLVSDMRALPIMAGLGAPVIFDATHSVQQPGQREFVETLARAAVAVGVAGFFIETHEDPDNANMVPIDKMPALLEKLMAFDRIAKAL 3fs2-a1-m2-cB_3fs2-a1-m1-cA Crystal structure of 2-Dehydro-3-Deoxyphosphooctonate aldolase from Bruciella melitensis at 1.85A resolution Q8YHF1 Q8YHF1 1.85 X-RAY DIFFRACTION 67 0.992 29459 (Brucella melitensis) 29459 (Brucella melitensis) 249 258 3fs2-a1-m1-cB_3fs2-a1-m2-cA MVTANSTVKVGNVTFSNSAPLALIAGPCQMETRDHAFEMAGRLKEMTDKLGIGLVYKSSFLEKALEVFSDLKKEYGFPVLTDIHTEEQCAAVAPVVDVLQIPAFLCRQTDLLIAAARTGRVVNVKKGQFLAPWDMKNVLAKITESGNPNVLATERGVSFGYNTLVSDMRALPIMAGLGAPVIFDATHSVQQPGQREFVETLARAAVAVGVAGFFIETHEDPDNANMVPIDKMPALLEKLMAFDRIAKAL TANSTVKVGNVTFSNSAPLALIAGPCQMETRDHAFEMAGRLKEMTDKLGIGLVYKSSFDKANIGLEKALEVFSDLKKEYGFPVLTDIHTEEQCAAVAPVVDVLQIPAFLCRQTDLLIAAARTGRVVNVKKGQFLAPWDMKNVLAKITESGNPNVLATERGVSFGYNTLVSDMRALPIMAGLGAPVIFDATHSVQQPGQREFVETLARAAVAVGVAGFFIETHEDPDNAPSDGPNMVPIDKMPALLEKLMAFDRIAKAL 3fs2-a2-m1-cB_3fs2-a2-m1-cA Crystal structure of 2-Dehydro-3-Deoxyphosphooctonate aldolase from Bruciella melitensis at 1.85A resolution Q8YHF1 Q8YHF1 1.85 X-RAY DIFFRACTION 55 0.992 29459 (Brucella melitensis) 29459 (Brucella melitensis) 249 258 3fs2-a1-m1-cB_3fs2-a1-m1-cA 3fs2-a1-m2-cB_3fs2-a1-m2-cA MVTANSTVKVGNVTFSNSAPLALIAGPCQMETRDHAFEMAGRLKEMTDKLGIGLVYKSSFLEKALEVFSDLKKEYGFPVLTDIHTEEQCAAVAPVVDVLQIPAFLCRQTDLLIAAARTGRVVNVKKGQFLAPWDMKNVLAKITESGNPNVLATERGVSFGYNTLVSDMRALPIMAGLGAPVIFDATHSVQQPGQREFVETLARAAVAVGVAGFFIETHEDPDNANMVPIDKMPALLEKLMAFDRIAKAL TANSTVKVGNVTFSNSAPLALIAGPCQMETRDHAFEMAGRLKEMTDKLGIGLVYKSSFDKANIGLEKALEVFSDLKKEYGFPVLTDIHTEEQCAAVAPVVDVLQIPAFLCRQTDLLIAAARTGRVVNVKKGQFLAPWDMKNVLAKITESGNPNVLATERGVSFGYNTLVSDMRALPIMAGLGAPVIFDATHSVQQPGQREFVETLARAAVAVGVAGFFIETHEDPDNAPSDGPNMVPIDKMPALLEKLMAFDRIAKAL 3fs3-a1-m1-cA_3fs3-a1-m2-cA Crystal structure of malaria parasite Nucleosome Assembly Protein (NAP) Q8I608 Q8I608 2.3 X-RAY DIFFRACTION 93 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 197 197 3gyv-a1-m1-cA_3gyv-a1-m2-cA 3gyw-a1-m1-cA_3gyw-a1-m2-cA 3hfd-a1-m1-cA_3hfd-a1-m2-cA TDLTEEQKETLKKLKLYQKEYYDYESKFEYELFLLRQKYHDLYGPIYDKRREALVGAKIGTPNLPEFWLRALRNNNTVSHVIEDHDEEILVYLNDIRCDYIKGFILSFYFATNPFFSNSVLTKTYHMKVLLHTEATVIDWYDNKNILKKRDSFFHFFTSHKVEVAQLEMIIEGDYEVALTIKERIIPYAVDYYLGII TDLTEEQKETLKKLKLYQKEYYDYESKFEYELFLLRQKYHDLYGPIYDKRREALVGAKIGTPNLPEFWLRALRNNNTVSHVIEDHDEEILVYLNDIRCDYIKGFILSFYFATNPFFSNSVLTKTYHMKVLLHTEATVIDWYDNKNILKKRDSFFHFFTSHKVEVAQLEMIIEGDYEVALTIKERIIPYAVDYYLGII 3fs4-a1-m1-cA_3fs4-a1-m1-cC Crystal structure determination of Ostrich hemoglobin at 2.2 Angstrom resolution P01981 P01981 2.22 X-RAY DIFFRACTION 12 1.0 8801 (Struthio camelus) 8801 (Struthio camelus) 141 141 3a59-a5-m1-cA_3a59-a5-m1-cC 3a59-a6-m1-cE_3a59-a6-m1-cG VLSGTDKTNVKGIFSKISSHAEEYGAETLERMFITYPQTKTYFPHFDLHHGSAQIKAHGKKVANALIEAVNHIDDISGALSKLSDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGAVLTAKYR VLSGTDKTNVKGIFSKISSHAEEYGAETLERMFITYPQTKTYFPHFDLHHGSAQIKAHGKKVANALIEAVNHIDDISGALSKLSDLHAQKLRVDPVNFKLLGQCFLVVVAIHHPSALTPEVHASLDKFLCAVGAVLTAKYR 3fs8-a2-m4-cB_3fs8-a2-m5-cB Crystal structure of QdtC, the dTDP-3-amino-3,6-dideoxy-D-glucose N-acetyl transferase from Thermoanaerobacterium thermosaccharolyticum in complex with Acetyl-CoA Q6TFC6 Q6TFC6 1.7 X-RAY DIFFRACTION 100 1.0 1517 (Thermoanaerobacterium thermosaccharolyticum) 1517 (Thermoanaerobacterium thermosaccharolyticum) 257 257 3fs8-a1-m1-cA_3fs8-a1-m2-cA 3fs8-a1-m1-cA_3fs8-a1-m3-cA 3fs8-a1-m2-cA_3fs8-a1-m3-cA 3fs8-a2-m1-cB_3fs8-a2-m4-cB 3fs8-a2-m1-cB_3fs8-a2-m5-cB 3fsb-a1-m1-cA_3fsb-a1-m2-cA 3fsb-a1-m1-cA_3fsb-a1-m3-cA 3fsb-a1-m2-cA_3fsb-a1-m3-cA 3fsb-a2-m1-cB_3fsb-a2-m4-cB 3fsb-a2-m1-cB_3fsb-a2-m5-cB 3fsb-a2-m4-cB_3fsb-a2-m5-cB 3fsc-a1-m1-cA_3fsc-a1-m2-cA 3fsc-a1-m1-cA_3fsc-a1-m3-cA 3fsc-a1-m2-cA_3fsc-a1-m3-cA 3fsc-a2-m1-cB_3fsc-a2-m4-cB 3fsc-a2-m1-cB_3fsc-a2-m5-cB 3fsc-a2-m4-cB_3fsc-a2-m5-cB NNISKSAIIKEGVIIGENVTIEDNVYIDYGCIIRDNVHIKKGSFIGARSILGEYLVDFYNDRINKKHPLIIGENALIRTENVIYGDTIIGDNFQTGHKVTIRENTKIGNNVKIGTLSDIQHHVYIGNYVNIHSNVFVGEKSIIKDFVWLFPHVVLTNDPTPPSNELLGVTIELFAVIAARSVVLPGIHINEDALVGAGAVVTKDVPKETVVVGNPAREICSIRKIKNKITGEQVYPWRYTFKRGMPWEETDYDTWIK NNISKSAIIKEGVIIGENVTIEDNVYIDYGCIIRDNVHIKKGSFIGARSILGEYLVDFYNDRINKKHPLIIGENALIRTENVIYGDTIIGDNFQTGHKVTIRENTKIGNNVKIGTLSDIQHHVYIGNYVNIHSNVFVGEKSIIKDFVWLFPHVVLTNDPTPPSNELLGVTIELFAVIAARSVVLPGIHINEDALVGAGAVVTKDVPKETVVVGNPAREICSIRKIKNKITGEQVYPWRYTFKRGMPWEETDYDTWIK 3fsd-a1-m1-cA_3fsd-a1-m2-cA Crystal structure of NTF2-like protein of unknown function in nutrient uptake (YP_427473.1) from RHODOSPIRILLUM RUBRUM ATCC 11170 at 1.70 A resolution Q2RRQ9 Q2RRQ9 1.7 X-RAY DIFFRACTION 120 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 120 120 DDIAFYEERLRAALTGDLKGLETLLADDLAFVDHTGCVKTKQTHLEPYRAGLLKLSRLDLSDAVVRAAGEDGRVVVVRAVTAGVYDGEAFTETLRFTRIWRRTQGPAGWKLVAGHCSVIL DDIAFYEERLRAALTGDLKGLETLLADDLAFVDHTGCVKTKQTHLEPYRAGLLKLSRLDLSDAVVRAAGEDGRVVVVRAVTAGVYDGEAFTETLRFTRIWRRTQGPAGWKLVAGHCSVIL 3fse-a1-m1-cA_3fse-a1-m1-cB Crystal structure of a two-domain protein containing dj-1/thij/pfpi-like and ferritin-like domains (ava_4496) from anabaena variabilis atcc 29413 at 1.90 A resolution Q3M4J2 Q3M4J2 1.9 X-RAY DIFFRACTION 94 0.988 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 328 340 KKVAILIEQAVEDTEFIIPCNGLKQAGFEVVVLGSRNEKYKGKRGRLSTQADGTTTEAIASEFDAVVIPGGAPDKRRNPNTVRFVQEAEQGKLVAAVHGPQVLIEGDLLRGKQATGFIAISKDNAGADYLDEALVVDGNLITSREPGDLAIFTTAILSRLGYGGKDAALPDEKDRNAEWWKLADAWGGSTKGDIVRGLNTALGGERYSLEALEKYTEKESDVEAKALFQEITNKQRHIEYLETYLTRLGEKPSLSANDDIYQIRSALGDIQTGIGDIGNLCAYTDPIATAIFKEIYKDLVKYEQRLVSLYRTRTNATVQPPKPTTGAA KKKVAILIEQAVEDTEFIIPCNGLKQAGFEVVVLGSRNEKYKGKRGRLSTQADGTTTEAIASEFDAVVIPGGAPDKRRNPNTVRFVQEAEQGKLVAAVHGPQVLIEGDLLRGKQATGFIAISKDNAGADYLDEALVVDGNLITSREPGDLAIFTTAILSRLGYGGALPDEKDRNAEWWKLADAWGGSTKGDIVRGLNTALGGERYSLEALEKYTEKESDVEAKALFQEITNKQRHIEYLETYLTRLGEKPSLSANIANQYAKVKTALTGSDDIYQIRSALGDIQTGIGDIGNLCAYTDPIATAIFKEIYKDLVKYEQRLVSLYRTRTNATVQPPKPTTGA 3fsg-a4-m1-cB_3fsg-a4-m1-cA Crystal structure of alpha/beta superfamily hydrolase from Oenococcus oeni PSU-1 Q04D10 Q04D10 2 X-RAY DIFFRACTION 28 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 260 261 3fsg-a2-m1-cB_3fsg-a2-m1-cA KEYLTRSNISYFSIGSGTPIIFLHGLSLDKQSTLFFEPLSNVGQYQRIYLDLPGGNSDPISPSTSDNVLETLIEAIEEIIGARRFILYGHSYGGYLAQAIAFHLKDQTLGVFLTCPVITADHSKRLTGKHINILEEDINPVENKEYFADFLSNVIINNQAWHDYQNLIIPGLQKEDKTFIDQLQNNYSFTFEEKLKNINYQFPFKIVGRNDQVVGYQEQLKLINHNENGEIVLLNRTGHNLIDQREAVGFHFDLFLDELN KEYLTRSNISYFSIGSGTPIIFLHGLSLDKQSTLFFEPLSNVGQYQRIYLDLPGGNSDPISPSTSDNVLETLIEAIEEIIGARRFILYGHSYGGYLAQAIAFHLKDQTLGVFLTCPVITADHSKRLTGKHINILEEDINPVENKEYFADFLSNVIINNQAWHDYQNLIIPGLQKEDKTFIDQLQNNYSFTFEEKLKNINYQFPFKIVGRNDQVVGYQEQLKLINHNENGEIVLLNRTGHNLIDQREAVGFHFDLFLDELNS 3fsg-a4-m1-cC_3fsg-a4-m1-cA Crystal structure of alpha/beta superfamily hydrolase from Oenococcus oeni PSU-1 Q04D10 Q04D10 2 X-RAY DIFFRACTION 57 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 260 261 3fsg-a1-m1-cC_3fsg-a1-m1-cA 3fsg-a2-m1-cC_3fsg-a2-m1-cA 3fsg-a3-m1-cC_3fsg-a3-m1-cA 3fsg-a4-m1-cB_3fsg-a4-m1-cD KEYLTRSNISYFSIGSGTPIIFLHGLSLDKQSTLFFEPLSNVGQYQRIYLDLPGGNSDPISPSTSDNVLETLIEAIEEIIGARRFILYGHSYGGYLAQAIAFHLKDQTLGVFLTCPVITADHSKRLTGKHINILEEDINPVENKEYFADFLSNVIINNQAWHDYQNLIIPGLQKEDKTFIDQLQNNYSFTFEEKLKNINYQFPFKIVGRNDQVVGYQEQLKLINHNENGEIVLLNRTGHNLIDQREAVGFHFDLFLDELN KEYLTRSNISYFSIGSGTPIIFLHGLSLDKQSTLFFEPLSNVGQYQRIYLDLPGGNSDPISPSTSDNVLETLIEAIEEIIGARRFILYGHSYGGYLAQAIAFHLKDQTLGVFLTCPVITADHSKRLTGKHINILEEDINPVENKEYFADFLSNVIINNQAWHDYQNLIIPGLQKEDKTFIDQLQNNYSFTFEEKLKNINYQFPFKIVGRNDQVVGYQEQLKLINHNENGEIVLLNRTGHNLIDQREAVGFHFDLFLDELNS 3fsl-a3-m1-cE_3fsl-a3-m1-cF Crystal structure of tyrosine aminotransferase tripple mutant (P181Q,R183G,A321K) from Escherichia coli at 2.35 A resolution P04693 P04693 2.35 X-RAY DIFFRACTION 201 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 397 397 3fsl-a1-m1-cA_3fsl-a1-m1-cB 3fsl-a2-m1-cC_3fsl-a2-m1-cD 3tat-a1-m1-cA_3tat-a1-m1-cB 3tat-a2-m1-cC_3tat-a2-m1-cD 3tat-a3-m1-cE_3tat-a3-m1-cF MFQKVDAYAGDPILTLMERFKEDPRSDKVNLSIGLYYNEDGIIPQLQAVAEAEARLNAQPHGASLYLPMEGLNCYRHAIAPLLFGADHPVLKQQRVATIQTLGGSGALKVGADFLKRYFPESGVWVSDPTWENHVAIFAGAGFEVSTYPWYDEATNGVRFNDLLATLKTLQAGSIVLLHPCCHNPTGADLTNDQWDAVIEILKARELIPFLDIAYQGFGAGMEEDAYAIRAIASAGLPALVSNSFSKIFSLYGERVGGLSVMCEDAEAAGRVLGQLKATVRRNYSSPPNFGAQVVAAVLNDEALKASWLKEVEEMRTRILAMRQELVKVLSTEMPERNFDYLLNQRGMFSYTGLSAAQVDRLREEFGVYLIASGRMCVAGLNTANVQRVAKAFAAVM MFQKVDAYAGDPILTLMERFKEDPRSDKVNLSIGLYYNEDGIIPQLQAVAEAEARLNAQPHGASLYLPMEGLNCYRHAIAPLLFGADHPVLKQQRVATIQTLGGSGALKVGADFLKRYFPESGVWVSDPTWENHVAIFAGAGFEVSTYPWYDEATNGVRFNDLLATLKTLQAGSIVLLHPCCHNPTGADLTNDQWDAVIEILKARELIPFLDIAYQGFGAGMEEDAYAIRAIASAGLPALVSNSFSKIFSLYGERVGGLSVMCEDAEAAGRVLGQLKATVRRNYSSPPNFGAQVVAAVLNDEALKASWLKEVEEMRTRILAMRQELVKVLSTEMPERNFDYLLNQRGMFSYTGLSAAQVDRLREEFGVYLIASGRMCVAGLNTANVQRVAKAFAAVM 3fsv-a2-m1-cA_3fsv-a2-m2-cA Pseudomonas aeruginosa Azurin with mutated metal-binding loop sequence (CAAAHAAAM) P00282 P00282 2.3 X-RAY DIFFRACTION 157 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 118 118 CSVDIQGNDQMQFNTNAITVDKSCKQFTVNLSHPGNLPKNVMGHNWVLSTAADMQGVVTDGMASDYLKPDDSRVIAHTKLIGSGEKDSVTFDVSKLKEQYMFFCAAAHAAAMKGTLTL CSVDIQGNDQMQFNTNAITVDKSCKQFTVNLSHPGNLPKNVMGHNWVLSTAADMQGVVTDGMASDYLKPDDSRVIAHTKLIGSGEKDSVTFDVSKLKEQYMFFCAAAHAAAMKGTLTL 3fsx-a3-m2-cE_3fsx-a3-m3-cE Structure of tetrahydrodipicolinate N-succinyltransferase (Rv1201c; DapD) from Mycobacterium tuberculosis P9WP21 P9WP21 2.15 X-RAY DIFFRACTION 100 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 290 290 3fsx-a1-m1-cA_3fsx-a1-m1-cB 3fsx-a1-m1-cC_3fsx-a1-m1-cB 3fsx-a2-m1-cD_3fsx-a2-m2-cD 3fsx-a2-m1-cD_3fsx-a2-m3-cD 3fsx-a2-m2-cD_3fsx-a2-m3-cD 3fsx-a3-m1-cE_3fsx-a3-m2-cE 3fsx-a3-m1-cE_3fsx-a3-m3-cE 3fsy-a1-m1-cA_3fsy-a1-m1-cB 3fsy-a1-m1-cC_3fsy-a1-m1-cA 3fsy-a1-m1-cC_3fsy-a1-m1-cB 3fsy-a2-m1-cD_3fsy-a2-m2-cD 3fsy-a2-m1-cD_3fsy-a2-m3-cD 3fsy-a2-m2-cD_3fsy-a2-m3-cD 3fsy-a3-m1-cE_3fsy-a3-m2-cE 3fsy-a3-m1-cE_3fsy-a3-m3-cE 3fsy-a3-m2-cE_3fsy-a3-m3-cE TGAAGIGLATLAADGSVLDTWFPAPELTESGTSATSRLAVSDVPVELAALIGRDDDRRTETIAVRTVIGSLDDVAADPYDAYLRLHLLSHRLVAPHGLNAGGLFGVLTNVVWTNHGPCAIDGFEAVRARLRRRGPVTVYGVDKFPRMVDYVVPTGVRIADADRVRLGAHLAPGTTVMHEGFVNYNAGTLGASMVEGRISAGVVVGDGSDVGGGASIMVISIGKRCLLGANSGLGISLGDDCVVEAGLYVTAGTRVTMPDSNSVKARELSGSSNLLFRRNSVSGAVEVLAR TGAAGIGLATLAADGSVLDTWFPAPELTESGTSATSRLAVSDVPVELAALIGRDDDRRTETIAVRTVIGSLDDVAADPYDAYLRLHLLSHRLVAPHGLNAGGLFGVLTNVVWTNHGPCAIDGFEAVRARLRRRGPVTVYGVDKFPRMVDYVVPTGVRIADADRVRLGAHLAPGTTVMHEGFVNYNAGTLGASMVEGRISAGVVVGDGSDVGGGASIMVISIGKRCLLGANSGLGISLGDDCVVEAGLYVTAGTRVTMPDSNSVKARELSGSSNLLFRRNSVSGAVEVLAR 3ft7-a1-m1-cA_3ft7-a1-m1-cB Crystal structure of an extremely stable dimeric protein from sulfolobus islandicus Q54323 Q54323 2 X-RAY DIFFRACTION 113 1.0 43080 (Sulfolobus islandicus) 43080 (Sulfolobus islandicus) 45 46 2k9i-a1-m1-cA_2k9i-a1-m1-cB LNGIKLGVYIPQEWHDRLMEIAKEKNLTLSDVCRLAIKEYLDNHD LLNGIKLGVYIPQEWHDRLMEIAKEKNLTLSDVCRLAIKEYLDNHD 3ftb-a2-m1-cD_3ftb-a2-m1-cE The crystal structure of the histidinol-phosphate aminotransferase from Clostridium acetobutylicum Q97JB7 Q97JB7 2 X-RAY DIFFRACTION 95 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 333 334 3ftb-a1-m1-cA_3ftb-a1-m1-cB LLDYSSNINPLGIPKSFLNNIDEGIKNLGVYPDVNYRRLNKSIENYLKLKDIGIVLGNGASEIIELSISLFEKILIIVPSYAEYEINAKKHGVSVVFSYLDENMCIDYEDIISKIDDVDSVIIGNPNNPNGGLINKEKFIHVLKLAEEKKTIIIDEAFIEFTGDPSSSFVGEIKNYSCLFIIRAMTKFFAMPGIRFGYGITNNKEIAAKIKAKQNPWNINCFAEMAAINCLKDTNYIEESLLWIKKERKRFIEELNKIGFIKRVFSPHANFVLCRLENISGEKLYDSLLKEDIVIRRCCNFIGLDDSFVRFAIKDEKKNTKFLRALKGVENNL LLDYSSNINPLGIPKSFLNNIDEGIKNLGVYPDVNYRRLNKSIENYLKLKDIGIVLGNGASEIIELSISLFEKILIIVPSYAEYEINAKKHGVSVVFSYLDENMCIDYEDIISKIDDVDSVIIGNPNNPNGGLINKEKFIHVLKLAEEKKKTIIIDEAFIEFTGDPSSSFVGEIKNYSCLFIIRAMTKFFAMPGIRFGYGITNNKEIAAKIKAKQNPWNINCFAEMAAINCLKDTNYIEESLLWIKKERKRFIEELNKIGFIKRVFSPHANFVLCRLENISGEKLYDSLLKEDIVIRRCCNFIGLDDSFVRFAIKDEKKNTKFLRALKGVENNL 3fth-a1-m1-cA_3fth-a1-m2-cB NFLVHSS segment from Islet Amyloid Polypeptide (IAPP or Amylin) P10997 P10997 1.84 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 NFLVHSS NFLVHSS 3fth-a2-m1-cA_3fth-a2-m1-cB NFLVHSS segment from Islet Amyloid Polypeptide (IAPP or Amylin) P10997 P10997 1.84 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 NFLVHSS NFLVHSS 3ftk-a2-m4-cA_3ftk-a2-m6-cA NVGSNTY segment from Islet Amyloid Polypeptide (IAPP or Amylin), hydrated crystal form P10997 P10997 1.5 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 3ftk-a1-m1-cA_3ftk-a1-m2-cA 3ftk-a1-m1-cA_3ftk-a1-m3-cA 3ftk-a2-m4-cA_3ftk-a2-m5-cA NVGSNTY NVGSNTY 3ftl-a2-m4-cB_3ftl-a2-m6-cB NVGSNTY segment from Islet Amyloid Polypeptide (IAPP or Amylin), dehydrated crystal form P10997 P10997 1.6 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 3ftl-a1-m1-cA_3ftl-a1-m2-cA 3ftl-a1-m1-cA_3ftl-a1-m3-cA 3ftl-a1-m1-cB_3ftl-a1-m2-cB 3ftl-a1-m1-cB_3ftl-a1-m3-cB 3ftl-a2-m4-cA_3ftl-a2-m5-cA 3ftl-a2-m4-cA_3ftl-a2-m6-cA 3ftl-a2-m4-cB_3ftl-a2-m5-cB NVGSNTY NVGSNTY 3ftn-a1-m1-cA_3ftn-a1-m1-cD Q165E/S254K Double Mutant Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-295 of T. brockii ADH by C. beijerinckii ADH P14941 P14941 2.192 X-RAY DIFFRACTION 33 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 352 352 3fsr-a1-m1-cA_3fsr-a1-m1-cD 3fsr-a1-m1-cB_3fsr-a1-m1-cC 3ftn-a1-m1-cB_3ftn-a1-m1-cC MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELADIEMGSSVVVIGIGAVGLMGIAGAKLRGAGRIIGVGSRPICVEAAKFYGATDILNYKNGHIVDQVMKLTNGKGVDRVIMAGGGSETLSQAVKMVKPGGIISNINYHGSGDALLIPRVEWGCGMAHKTIKGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELADIEMGSSVVVIGIGAVGLMGIAGAKLRGAGRIIGVGSRPICVEAAKFYGATDILNYKNGHIVDQVMKLTNGKGVDRVIMAGGGSETLSQAVKMVKPGGIISNINYHGSGDALLIPRVEWGCGMAHKTIKGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA 3ftn-a1-m1-cB_3ftn-a1-m1-cD Q165E/S254K Double Mutant Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-295 of T. brockii ADH by C. beijerinckii ADH P14941 P14941 2.192 X-RAY DIFFRACTION 143 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 352 352 3fsr-a1-m1-cA_3fsr-a1-m1-cC 3fsr-a1-m1-cB_3fsr-a1-m1-cD 3ftn-a1-m1-cA_3ftn-a1-m1-cC MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELADIEMGSSVVVIGIGAVGLMGIAGAKLRGAGRIIGVGSRPICVEAAKFYGATDILNYKNGHIVDQVMKLTNGKGVDRVIMAGGGSETLSQAVKMVKPGGIISNINYHGSGDALLIPRVEWGCGMAHKTIKGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELADIEMGSSVVVIGIGAVGLMGIAGAKLRGAGRIIGVGSRPICVEAAKFYGATDILNYKNGHIVDQVMKLTNGKGVDRVIMAGGGSETLSQAVKMVKPGGIISNINYHGSGDALLIPRVEWGCGMAHKTIKGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA 3ftn-a1-m1-cC_3ftn-a1-m1-cD Q165E/S254K Double Mutant Chimera of alcohol dehydrogenase by exchange of the cofactor binding domain res 153-295 of T. brockii ADH by C. beijerinckii ADH P14941 P14941 2.192 X-RAY DIFFRACTION 71 1.0 29323 (Thermoanaerobacter brockii) 29323 (Thermoanaerobacter brockii) 352 352 3fsr-a1-m1-cA_3fsr-a1-m1-cB 3fsr-a1-m1-cC_3fsr-a1-m1-cD 3ftn-a1-m1-cA_3ftn-a1-m1-cB MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELADIEMGSSVVVIGIGAVGLMGIAGAKLRGAGRIIGVGSRPICVEAAKFYGATDILNYKNGHIVDQVMKLTNGKGVDRVIMAGGGSETLSQAVKMVKPGGIISNINYHGSGDALLIPRVEWGCGMAHKTIKGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA MKGFAMLSIGKVGWIEKEKPAPGPFDAIVRPLAVAPCTSDIHTVFEGAIGERHNMILGHEAVGEVVEVGSEVKDFKPGDRVVVPAITPDWRTSEVQRGYHQHSGGMLAGWKFSNVKDGVFGEFFHVNDADMNLAHLPKEIPLEAAVMIPDMMTTGFHGAELADIEMGSSVVVIGIGAVGLMGIAGAKLRGAGRIIGVGSRPICVEAAKFYGATDILNYKNGHIVDQVMKLTNGKGVDRVIMAGGGSETLSQAVKMVKPGGIISNINYHGSGDALLIPRVEWGCGMAHKTIKGGLCPGGRLRMERLIDLVFYKRVDPSKLVTHVFRGFDNIEKAFMLMKDKPKDLIKPVVILA 3ftp-a1-m1-cD_3ftp-a1-m1-cA Crystal structure of 3-Ketoacyl-(acyl-carrier-protein) reductase from Burkholderia pseudomallei at 2.05 A resolution Q3JQ67 Q3JQ67 2.05 X-RAY DIFFRACTION 108 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 241 248 3ftp-a1-m1-cC_3ftp-a1-m1-cB DKTLDKQVAIVTGASRGIGRAIALELARRGAMVIGTATTEAGAEGIGAAFKQAGLEGRGAVLNVNDATAVDALVESTLKEFGALNVLVNNAGITQDQLAMRMKDDEWDAVIDTNLKAVFRLSRAVLRPMMKARGGRIVNITSVVGSAGNPGQVNYAAAKAGVAGMTRALAREIGSRGITVNCVAPGFIDTDEQQTALKTQIPLGRLGSPEDIAHAVAFLASPQAGYITGTTLHVNGGMFMS DKTLDKQVAIVTGASRGIGRAIALELARRGAMVIGTATTEAGAEGIGAAFKQAGLEGRGAVLNVNDATAVDALVESTLKEFGALNVLVNNAGITQDQLAMRMKDDEWDAVIDTNLKAVFRLSRAVLRPMMKARGGRIVNITSVVGSAGNPGQVNYAAAKAGVAGMTRALAREIGSRGITVNCVAPGFIDTDMTKGLPQEQQTALKTQIPLGRLGSPEDIAHAVAFLASPQAGYITGTTLHVNGGMFMS 3ftp-a1-m1-cD_3ftp-a1-m1-cC Crystal structure of 3-Ketoacyl-(acyl-carrier-protein) reductase from Burkholderia pseudomallei at 2.05 A resolution Q3JQ67 Q3JQ67 2.05 X-RAY DIFFRACTION 141 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 241 244 3ftp-a1-m1-cA_3ftp-a1-m1-cB DKTLDKQVAIVTGASRGIGRAIALELARRGAMVIGTATTEAGAEGIGAAFKQAGLEGRGAVLNVNDATAVDALVESTLKEFGALNVLVNNAGITQDQLAMRMKDDEWDAVIDTNLKAVFRLSRAVLRPMMKARGGRIVNITSVVGSAGNPGQVNYAAAKAGVAGMTRALAREIGSRGITVNCVAPGFIDTDEQQTALKTQIPLGRLGSPEDIAHAVAFLASPQAGYITGTTLHVNGGMFMS DKTLDKQVAIVTGASRGIGRAIALELARRGAMVIGTATTEAGAEGIGAAFKQAGLEGRGAVLNVNDATAVDALVESTLKEFGALNVLVNNAGITQDQLAMRMKDDEWDAVIDTNLKAVFRLSRAVLRPMMKARGGRIVNITSVVGSAGNPGQVNYAAAKAGVAGMTRALAREIGSRGITVNCVAPGFIDTDMTKEQQTALKTQIPLGRLGSPEDIAHAVAFLASPQAGYITGTTLHVNGGMFMS 3ftq-a6-m1-cD_3ftq-a6-m1-cC Crystal structure of Septin 2 in complex with GppNHp and Mg2+ P42208 P42208 2.9 X-RAY DIFFRACTION 63 0.992 10090 (Mus musculus) 10090 (Mus musculus) 243 250 GFEFTLMVVGESGLGKSTLINSLFLTERTVQIEASTVEIEERGVKLRLTVVDTPGYGAINCRDCFKTIISYIDEQFERYLHDESGHIIDNRVHCCFYFISPFGHGLKPLDVAFMKAIHNKVNIVPVIAKADTLTLKERERLKKRILDEIEEHSIKIYHLPDAFKEQTRLLKASIPFSVVGSNQLIEAKGKKVRGRLYPWGVVEVENPEHNDFLKLRTMLITHMQDLQEVTQDLHYENFRSERL KGFEFTLMVVGESGLGKSTLINSLFLTIERTVQIEASTVEIEERGVKLRLTVVDTPGYGDAINCRDCFKTIISYIDEQFERYLHDESRRHIIDNRVHCCFYFISPFGHGLKPLDVAFMKAIHNKVNIVPVIAKADTLTLKERERLKKRILDEIEEHSIKIYHLPDDEDFKEQTRLLKASIPFSVVGSNQLIEAKGKKVRGRLYPWGVVEVENPEHNDFLKLRTMLITHMQDLQEVTQDLHYENFRSERLK 3ftr-a1-m1-cA_3ftr-a1-m4-cA Structure of an amyloid forming peptide SSTNVG from IAPP (alternate polymorph) P10997 P10997 1.61 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3ftr-a1-m1-cA_3ftr-a1-m3-cA 3ftr-a1-m2-cA_3ftr-a1-m3-cA SSTNVG SSTNVG 3fu1-a1-m1-cB_3fu1-a1-m1-cA Crystal structure of the major pseudopilin from the type 2 secretion system of Vibrio cholerae P45773 P45773 1.9 X-RAY DIFFRACTION 43 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 112 115 GNKEKADQQKAVTDIVALENALDMYKLDNSVYPTTDQGLEALVTKPTNPEPRNYREGGYIKRLPKDPWGNDYQYLSPGDKGTIDVFTLGADGQEGGEGTGADIGNWNIQDFQ GAMGNKEKADQQKAVTDIVALENALDMYKLDNSVYPTTDQGLEALVTKPTNPEPRNYREGGYIKRLPKDPWGNDYQYLSPGDKGTIDVFTLGADGQEGGEGTGADIGNWNIQDFQ 3fub-a1-m1-cB_3fub-a1-m2-cB Crystal structure of GDNF-GFRalpha1 complex P39905 P39905 2.35 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 1agq-a1-m1-cC_1agq-a1-m1-cD 2v5e-a1-m1-cB_2v5e-a1-m2-cB 3fub-a2-m1-cD_3fub-a2-m3-cD 4ux8-a1-m1-cD_4ux8-a1-m1-cF GCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCDAAETTYDKILKNLSRNRRLKVGQACCRPIAFDDDLSFLDDNLVYHILRKHSAKRCGCI GCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCDAAETTYDKILKNLSRNRRLKVGQACCRPIAFDDDLSFLDDNLVYHILRKHSAKRCGCI 3fuy-a1-m1-cA_3fuy-a1-m1-cC Structure from the mobile metagenome of Cole Harbour Salt Marsh: Integron Cassette Protein HFX_CASS1 B0BGB0 B0BGB0 2 X-RAY DIFFRACTION 51 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 153 153 3fuy-a1-m1-cA_3fuy-a1-m1-cB 3fuy-a1-m1-cC_3fuy-a1-m1-cB SVNTSFLSPSLVTIRDFDNGQFAVLRIGRTGFPADKGDIDLCLDKKGVRDAQQSIGDDTEFGFKGPHIRIRCVDIDDKHTYNAVYVDLIVGTGASEVERETAEELAKEKLRAALQVDIADEHSCVTQFEKLREELLSSDSFHPDKDEYYKDFL SVNTSFLSPSLVTIRDFDNGQFAVLRIGRTGFPADKGDIDLCLDKKGVRDAQQSIGDDTEFGFKGPHIRIRCVDIDDKHTYNAVYVDLIVGTGASEVERETAEELAKEKLRAALQVDIADEHSCVTQFEKLREELLSSDSFHPDKDEYYKDFL 3fv9-a1-m1-cD_3fv9-a1-m1-cC Crystal structure of putative mandelate racemase/muconatelactonizing enzyme from ROSEOVARIUS NUBINHIBENS ISM complexed with magnesium A3SNG0 A3SNG0 1.9 X-RAY DIFFRACTION 81 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 373 374 2pce-a1-m1-cA_2pce-a1-m1-cD 2pce-a1-m1-cB_2pce-a1-m1-cG 2pce-a1-m1-cC_2pce-a1-m1-cH 2pce-a1-m1-cF_2pce-a1-m1-cE 3fv9-a1-m1-cA_3fv9-a1-m1-cH 3fv9-a1-m1-cB_3fv9-a1-m1-cF 3fv9-a1-m1-cE_3fv9-a1-m1-cG LKITRIDIHRTDLPVRGGVYRLSGGREYHSYDATIVSIETDTGLTGWGESTPFGSTYIAAHAGGTRAALELLAPAILGMDPRQHDRIWDRMRDTLKGHRDARAALDIACWDIAAQAAGLPLCDMTGGRVAGPVPVISSIGGDTPEAMRAKVARHRAQGFKGHSIKIGASEAEGGPALDAERITACLADRQPGEWYLADANNGLTVEHALRMLSLLPPGLDIVLEAPCASWAETKSLRARCALPLLLDELIQTETDLIAAIRDDLCDGVGLKVSKQGGITPMLRQRAIAAAAGMVMSVQDTVGSQISFAAILHLAQSTPRHLLRCALDTRAMTTAELAEIDAPLRDGGASAPSDPGLGLRVNRDALGTPVKTFG LKITRIDIHRTDLPVRGGVYRLSGGREYHSYDATIVSIETDTGLTGWGESTPFGSTYIAAHAGGTRAALELLAPAILGMDPRQHDRIWDRMRDTLKGHRDARAALDIACWDIAAQAAGLPLCDMTGGRVAGPVPVISSIGGDTPEAMRAKVARHRAQGFKGHSIKIGASEAEGGPALDAERITACLADRQPGEWYLADANNGLTVEHALRMLSLLPPGLDIVLEAPCASWAETKSLRARCALPLLLDELIQTETDLIAAIRDDLCDGVGLKVSKQGGITPMLRQRAIAAAAGMVMSVQDTVGSQISFAAILHLAQSTPRHLLRCALDTRAMTTAELAEIDAPLRDGGASAPSDPGLGLRVNRDALGTPVKTFGD 3fva-a1-m4-cA_3fva-a1-m6-cA NNQNTF segment from elk prion P67986 P67986 1.458 X-RAY DIFFRACTION 16 1.0 9864 (Cervus canadensis nelsoni) 9864 (Cervus canadensis nelsoni) 6 6 3fva-a1-m1-cA_3fva-a1-m2-cA 3fva-a1-m1-cA_3fva-a1-m3-cA 3fva-a1-m4-cA_3fva-a1-m5-cA NNQNTF NNQNTF 3fvb-a1-m5-cB_3fvb-a1-m9-cB Crystal structure of ferritin (bacterioferritin) from Brucella melitensis Q2YKI4 Q2YKI4 1.806 X-RAY DIFFRACTION 20 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 161 161 3fvb-a1-m10-cA_3fvb-a1-m11-cA 3fvb-a1-m10-cA_3fvb-a1-m12-cA 3fvb-a1-m10-cB_3fvb-a1-m5-cB 3fvb-a1-m10-cB_3fvb-a1-m9-cB 3fvb-a1-m11-cA_3fvb-a1-m12-cA 3fvb-a1-m11-cB_3fvb-a1-m3-cB 3fvb-a1-m11-cB_3fvb-a1-m4-cB 3fvb-a1-m12-cB_3fvb-a1-m2-cB 3fvb-a1-m12-cB_3fvb-a1-m7-cB 3fvb-a1-m1-cA_3fvb-a1-m2-cA 3fvb-a1-m1-cA_3fvb-a1-m3-cA 3fvb-a1-m1-cB_3fvb-a1-m6-cB 3fvb-a1-m1-cB_3fvb-a1-m8-cB 3fvb-a1-m2-cA_3fvb-a1-m3-cA 3fvb-a1-m2-cB_3fvb-a1-m7-cB 3fvb-a1-m3-cB_3fvb-a1-m4-cB 3fvb-a1-m4-cA_3fvb-a1-m5-cA 3fvb-a1-m4-cA_3fvb-a1-m6-cA 3fvb-a1-m5-cA_3fvb-a1-m6-cA 3fvb-a1-m6-cB_3fvb-a1-m8-cB 3fvb-a1-m7-cA_3fvb-a1-m8-cA 3fvb-a1-m7-cA_3fvb-a1-m9-cA 3fvb-a1-m8-cA_3fvb-a1-m9-cA 8sqo-a1-m10-cA_8sqo-a1-m3-cA 8sqo-a1-m10-cA_8sqo-a1-m8-cA 8sqo-a1-m11-cA_8sqo-a1-m4-cA 8sqo-a1-m11-cA_8sqo-a1-m6-cA 8sqo-a1-m12-cA_8sqo-a1-m2-cA 8sqo-a1-m12-cA_8sqo-a1-m7-cA 8sqo-a1-m13-cA_8sqo-a1-m17-cA 8sqo-a1-m13-cA_8sqo-a1-m21-cA 8sqo-a1-m14-cA_8sqo-a1-m19-cA 8sqo-a1-m14-cA_8sqo-a1-m24-cA 8sqo-a1-m15-cA_8sqo-a1-m20-cA 8sqo-a1-m15-cA_8sqo-a1-m22-cA 8sqo-a1-m16-cA_8sqo-a1-m18-cA 8sqo-a1-m16-cA_8sqo-a1-m23-cA 8sqo-a1-m17-cA_8sqo-a1-m21-cA 8sqo-a1-m18-cA_8sqo-a1-m23-cA 8sqo-a1-m19-cA_8sqo-a1-m24-cA 8sqo-a1-m1-cA_8sqo-a1-m5-cA 8sqo-a1-m1-cA_8sqo-a1-m9-cA 8sqo-a1-m20-cA_8sqo-a1-m22-cA 8sqo-a1-m2-cA_8sqo-a1-m7-cA 8sqo-a1-m3-cA_8sqo-a1-m8-cA 8sqo-a1-m4-cA_8sqo-a1-m6-cA 8sqo-a1-m5-cA_8sqo-a1-m9-cA 8sqp-a1-m10-cA_8sqp-a1-m3-cA 8sqp-a1-m10-cA_8sqp-a1-m8-cA 8sqp-a1-m11-cA_8sqp-a1-m4-cA 8sqp-a1-m11-cA_8sqp-a1-m6-cA 8sqp-a1-m12-cA_8sqp-a1-m2-cA 8sqp-a1-m12-cA_8sqp-a1-m7-cA 8sqp-a1-m13-cA_8sqp-a1-m17-cA 8sqp-a1-m13-cA_8sqp-a1-m21-cA 8sqp-a1-m14-cA_8sqp-a1-m19-cA 8sqp-a1-m14-cA_8sqp-a1-m24-cA 8sqp-a1-m15-cA_8sqp-a1-m20-cA 8sqp-a1-m15-cA_8sqp-a1-m22-cA 8sqp-a1-m16-cA_8sqp-a1-m18-cA 8sqp-a1-m16-cA_8sqp-a1-m23-cA 8sqp-a1-m17-cA_8sqp-a1-m21-cA 8sqp-a1-m18-cA_8sqp-a1-m23-cA 8sqp-a1-m19-cA_8sqp-a1-m24-cA 8sqp-a1-m1-cA_8sqp-a1-m5-cA 8sqp-a1-m1-cA_8sqp-a1-m9-cA 8sqp-a1-m20-cA_8sqp-a1-m22-cA 8sqp-a1-m2-cA_8sqp-a1-m7-cA 8sqp-a1-m3-cA_8sqp-a1-m8-cA 8sqp-a1-m4-cA_8sqp-a1-m6-cA 8sqp-a1-m5-cA_8sqp-a1-m9-cA 8sqq-a1-m10-cA_8sqq-a1-m3-cA 8sqq-a1-m10-cA_8sqq-a1-m8-cA 8sqq-a1-m11-cA_8sqq-a1-m4-cA 8sqq-a1-m11-cA_8sqq-a1-m6-cA 8sqq-a1-m12-cA_8sqq-a1-m2-cA 8sqq-a1-m12-cA_8sqq-a1-m7-cA 8sqq-a1-m13-cA_8sqq-a1-m17-cA 8sqq-a1-m13-cA_8sqq-a1-m21-cA 8sqq-a1-m14-cA_8sqq-a1-m19-cA 8sqq-a1-m14-cA_8sqq-a1-m24-cA 8sqq-a1-m15-cA_8sqq-a1-m20-cA 8sqq-a1-m15-cA_8sqq-a1-m22-cA 8sqq-a1-m16-cA_8sqq-a1-m18-cA 8sqq-a1-m16-cA_8sqq-a1-m23-cA 8sqq-a1-m17-cA_8sqq-a1-m21-cA 8sqq-a1-m18-cA_8sqq-a1-m23-cA 8sqq-a1-m19-cA_8sqq-a1-m24-cA 8sqq-a1-m1-cA_8sqq-a1-m5-cA 8sqq-a1-m1-cA_8sqq-a1-m9-cA 8sqq-a1-m20-cA_8sqq-a1-m22-cA 8sqq-a1-m2-cA_8sqq-a1-m7-cA 8sqq-a1-m3-cA_8sqq-a1-m8-cA 8sqq-a1-m4-cA_8sqq-a1-m6-cA 8sqq-a1-m5-cA_8sqq-a1-m9-cA 8sqr-a1-m10-cA_8sqr-a1-m3-cA 8sqr-a1-m10-cA_8sqr-a1-m8-cA 8sqr-a1-m11-cA_8sqr-a1-m4-cA 8sqr-a1-m11-cA_8sqr-a1-m6-cA 8sqr-a1-m12-cA_8sqr-a1-m2-cA 8sqr-a1-m12-cA_8sqr-a1-m7-cA 8sqr-a1-m13-cA_8sqr-a1-m17-cA 8sqr-a1-m13-cA_8sqr-a1-m21-cA 8sqr-a1-m14-cA_8sqr-a1-m19-cA 8sqr-a1-m14-cA_8sqr-a1-m24-cA 8sqr-a1-m15-cA_8sqr-a1-m20-cA 8sqr-a1-m15-cA_8sqr-a1-m22-cA 8sqr-a1-m16-cA_8sqr-a1-m18-cA 8sqr-a1-m16-cA_8sqr-a1-m23-cA 8sqr-a1-m17-cA_8sqr-a1-m21-cA 8sqr-a1-m18-cA_8sqr-a1-m23-cA 8sqr-a1-m19-cA_8sqr-a1-m24-cA 8sqr-a1-m1-cA_8sqr-a1-m5-cA 8sqr-a1-m1-cA_8sqr-a1-m9-cA 8sqr-a1-m20-cA_8sqr-a1-m22-cA 8sqr-a1-m2-cA_8sqr-a1-m7-cA 8sqr-a1-m3-cA_8sqr-a1-m8-cA 8sqr-a1-m4-cA_8sqr-a1-m6-cA 8sqr-a1-m5-cA_8sqr-a1-m9-cA 8sqt-a1-m10-cA_8sqt-a1-m3-cA 8sqt-a1-m10-cA_8sqt-a1-m8-cA 8sqt-a1-m11-cA_8sqt-a1-m4-cA 8sqt-a1-m11-cA_8sqt-a1-m6-cA 8sqt-a1-m12-cA_8sqt-a1-m2-cA 8sqt-a1-m12-cA_8sqt-a1-m7-cA 8sqt-a1-m13-cA_8sqt-a1-m17-cA 8sqt-a1-m13-cA_8sqt-a1-m21-cA 8sqt-a1-m14-cA_8sqt-a1-m19-cA 8sqt-a1-m14-cA_8sqt-a1-m24-cA 8sqt-a1-m15-cA_8sqt-a1-m20-cA 8sqt-a1-m15-cA_8sqt-a1-m22-cA 8sqt-a1-m16-cA_8sqt-a1-m18-cA 8sqt-a1-m16-cA_8sqt-a1-m23-cA 8sqt-a1-m17-cA_8sqt-a1-m21-cA 8sqt-a1-m18-cA_8sqt-a1-m23-cA 8sqt-a1-m19-cA_8sqt-a1-m24-cA 8sqt-a1-m1-cA_8sqt-a1-m5-cA 8sqt-a1-m1-cA_8sqt-a1-m9-cA 8sqt-a1-m20-cA_8sqt-a1-m22-cA 8sqt-a1-m2-cA_8sqt-a1-m7-cA 8sqt-a1-m3-cA_8sqt-a1-m8-cA 8sqt-a1-m4-cA_8sqt-a1-m6-cA 8sqt-a1-m5-cA_8sqt-a1-m9-cA GSMKGEPKVIERLNEALFLELGAVNQYWLHYRLLNDWGYTRLAKKEREESIEEMHHADKLIDRIIFLEGFPNLQTVSPLRIGQNVKEVLEADLKGEYDARASYKESREICDKLGDYVSKQLFDELLADEEGHIDFLETQLDLLAKIGGERYGQLNAAPADE GSMKGEPKVIERLNEALFLELGAVNQYWLHYRLLNDWGYTRLAKKEREESIEEMHHADKLIDRIIFLEGFPNLQTVSPLRIGQNVKEVLEADLKGEYDARASYKESREICDKLGDYVSKQLFDELLADEEGHIDFLETQLDLLAKIGGERYGQLNAAPADE 3fvb-a1-m8-cA_3fvb-a1-m9-cB Crystal structure of ferritin (bacterioferritin) from Brucella melitensis Q2YKI4 Q2YKI4 1.806 X-RAY DIFFRACTION 44 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 161 161 3fvb-a1-m10-cA_3fvb-a1-m11-cB 3fvb-a1-m10-cA_3fvb-a1-m5-cB 3fvb-a1-m10-cB_3fvb-a1-m12-cA 3fvb-a1-m10-cB_3fvb-a1-m9-cA 3fvb-a1-m11-cA_3fvb-a1-m12-cB 3fvb-a1-m11-cA_3fvb-a1-m3-cB 3fvb-a1-m11-cB_3fvb-a1-m4-cA 3fvb-a1-m12-cA_3fvb-a1-m7-cB 3fvb-a1-m12-cB_3fvb-a1-m2-cA 3fvb-a1-m1-cA_3fvb-a1-m2-cB 3fvb-a1-m1-cA_3fvb-a1-m8-cB 3fvb-a1-m1-cB_3fvb-a1-m3-cA 3fvb-a1-m1-cB_3fvb-a1-m6-cA 3fvb-a1-m2-cA_3fvb-a1-m3-cB 3fvb-a1-m2-cB_3fvb-a1-m7-cA 3fvb-a1-m3-cA_3fvb-a1-m4-cB 3fvb-a1-m4-cA_3fvb-a1-m5-cB 3fvb-a1-m4-cB_3fvb-a1-m6-cA 3fvb-a1-m5-cA_3fvb-a1-m6-cB 3fvb-a1-m5-cA_3fvb-a1-m9-cB 3fvb-a1-m6-cB_3fvb-a1-m8-cA 3fvb-a1-m7-cA_3fvb-a1-m8-cB 3fvb-a1-m7-cB_3fvb-a1-m9-cA 8sqo-a1-m10-cA_8sqo-a1-m21-cA 8sqo-a1-m10-cA_8sqo-a1-m24-cA 8sqo-a1-m11-cA_8sqo-a1-m21-cA 8sqo-a1-m11-cA_8sqo-a1-m24-cA 8sqo-a1-m12-cA_8sqo-a1-m22-cA 8sqo-a1-m12-cA_8sqo-a1-m23-cA 8sqo-a1-m13-cA_8sqo-a1-m5-cA 8sqo-a1-m13-cA_8sqo-a1-m8-cA 8sqo-a1-m14-cA_8sqo-a1-m6-cA 8sqo-a1-m14-cA_8sqo-a1-m7-cA 8sqo-a1-m15-cA_8sqo-a1-m6-cA 8sqo-a1-m15-cA_8sqo-a1-m7-cA 8sqo-a1-m16-cA_8sqo-a1-m5-cA 8sqo-a1-m16-cA_8sqo-a1-m8-cA 8sqo-a1-m17-cA_8sqo-a1-m4-cA 8sqo-a1-m18-cA_8sqo-a1-m2-cA 8sqo-a1-m18-cA_8sqo-a1-m3-cA 8sqo-a1-m19-cA_8sqo-a1-m2-cA 8sqo-a1-m19-cA_8sqo-a1-m3-cA 8sqo-a1-m1-cA_8sqo-a1-m17-cA 8sqo-a1-m1-cA_8sqo-a1-m20-cA 8sqo-a1-m20-cA_8sqo-a1-m4-cA 8sqo-a1-m22-cA_8sqo-a1-m9-cA 8sqo-a1-m23-cA_8sqo-a1-m9-cA 8sqp-a1-m10-cA_8sqp-a1-m21-cA 8sqp-a1-m10-cA_8sqp-a1-m24-cA 8sqp-a1-m11-cA_8sqp-a1-m21-cA 8sqp-a1-m11-cA_8sqp-a1-m24-cA 8sqp-a1-m12-cA_8sqp-a1-m22-cA 8sqp-a1-m12-cA_8sqp-a1-m23-cA 8sqp-a1-m13-cA_8sqp-a1-m5-cA 8sqp-a1-m13-cA_8sqp-a1-m8-cA 8sqp-a1-m14-cA_8sqp-a1-m6-cA 8sqp-a1-m14-cA_8sqp-a1-m7-cA 8sqp-a1-m15-cA_8sqp-a1-m6-cA 8sqp-a1-m15-cA_8sqp-a1-m7-cA 8sqp-a1-m16-cA_8sqp-a1-m5-cA 8sqp-a1-m16-cA_8sqp-a1-m8-cA 8sqp-a1-m17-cA_8sqp-a1-m4-cA 8sqp-a1-m18-cA_8sqp-a1-m2-cA 8sqp-a1-m18-cA_8sqp-a1-m3-cA 8sqp-a1-m19-cA_8sqp-a1-m2-cA 8sqp-a1-m19-cA_8sqp-a1-m3-cA 8sqp-a1-m1-cA_8sqp-a1-m17-cA 8sqp-a1-m1-cA_8sqp-a1-m20-cA 8sqp-a1-m20-cA_8sqp-a1-m4-cA 8sqp-a1-m22-cA_8sqp-a1-m9-cA 8sqp-a1-m23-cA_8sqp-a1-m9-cA 8sqq-a1-m10-cA_8sqq-a1-m21-cA 8sqq-a1-m10-cA_8sqq-a1-m24-cA 8sqq-a1-m11-cA_8sqq-a1-m21-cA 8sqq-a1-m11-cA_8sqq-a1-m24-cA 8sqq-a1-m12-cA_8sqq-a1-m22-cA 8sqq-a1-m12-cA_8sqq-a1-m23-cA 8sqq-a1-m13-cA_8sqq-a1-m5-cA 8sqq-a1-m13-cA_8sqq-a1-m8-cA 8sqq-a1-m14-cA_8sqq-a1-m6-cA 8sqq-a1-m14-cA_8sqq-a1-m7-cA 8sqq-a1-m15-cA_8sqq-a1-m6-cA 8sqq-a1-m15-cA_8sqq-a1-m7-cA 8sqq-a1-m16-cA_8sqq-a1-m5-cA 8sqq-a1-m16-cA_8sqq-a1-m8-cA 8sqq-a1-m17-cA_8sqq-a1-m4-cA 8sqq-a1-m18-cA_8sqq-a1-m2-cA 8sqq-a1-m18-cA_8sqq-a1-m3-cA 8sqq-a1-m19-cA_8sqq-a1-m2-cA 8sqq-a1-m19-cA_8sqq-a1-m3-cA 8sqq-a1-m1-cA_8sqq-a1-m17-cA 8sqq-a1-m1-cA_8sqq-a1-m20-cA 8sqq-a1-m20-cA_8sqq-a1-m4-cA 8sqq-a1-m22-cA_8sqq-a1-m9-cA 8sqq-a1-m23-cA_8sqq-a1-m9-cA 8sqr-a1-m10-cA_8sqr-a1-m21-cA 8sqr-a1-m10-cA_8sqr-a1-m24-cA 8sqr-a1-m11-cA_8sqr-a1-m21-cA 8sqr-a1-m11-cA_8sqr-a1-m24-cA 8sqr-a1-m12-cA_8sqr-a1-m22-cA 8sqr-a1-m12-cA_8sqr-a1-m23-cA 8sqr-a1-m13-cA_8sqr-a1-m5-cA 8sqr-a1-m13-cA_8sqr-a1-m8-cA 8sqr-a1-m14-cA_8sqr-a1-m6-cA 8sqr-a1-m14-cA_8sqr-a1-m7-cA 8sqr-a1-m15-cA_8sqr-a1-m6-cA 8sqr-a1-m15-cA_8sqr-a1-m7-cA 8sqr-a1-m16-cA_8sqr-a1-m5-cA 8sqr-a1-m16-cA_8sqr-a1-m8-cA 8sqr-a1-m17-cA_8sqr-a1-m4-cA 8sqr-a1-m18-cA_8sqr-a1-m2-cA 8sqr-a1-m18-cA_8sqr-a1-m3-cA 8sqr-a1-m19-cA_8sqr-a1-m2-cA 8sqr-a1-m19-cA_8sqr-a1-m3-cA 8sqr-a1-m1-cA_8sqr-a1-m17-cA 8sqr-a1-m1-cA_8sqr-a1-m20-cA 8sqr-a1-m20-cA_8sqr-a1-m4-cA 8sqr-a1-m22-cA_8sqr-a1-m9-cA 8sqr-a1-m23-cA_8sqr-a1-m9-cA 8sqt-a1-m10-cA_8sqt-a1-m21-cA 8sqt-a1-m10-cA_8sqt-a1-m24-cA 8sqt-a1-m11-cA_8sqt-a1-m21-cA 8sqt-a1-m11-cA_8sqt-a1-m24-cA 8sqt-a1-m12-cA_8sqt-a1-m22-cA 8sqt-a1-m12-cA_8sqt-a1-m23-cA 8sqt-a1-m13-cA_8sqt-a1-m5-cA 8sqt-a1-m13-cA_8sqt-a1-m8-cA 8sqt-a1-m14-cA_8sqt-a1-m6-cA 8sqt-a1-m14-cA_8sqt-a1-m7-cA 8sqt-a1-m15-cA_8sqt-a1-m6-cA 8sqt-a1-m15-cA_8sqt-a1-m7-cA 8sqt-a1-m16-cA_8sqt-a1-m5-cA 8sqt-a1-m16-cA_8sqt-a1-m8-cA 8sqt-a1-m17-cA_8sqt-a1-m4-cA 8sqt-a1-m18-cA_8sqt-a1-m2-cA 8sqt-a1-m18-cA_8sqt-a1-m3-cA 8sqt-a1-m19-cA_8sqt-a1-m2-cA 8sqt-a1-m19-cA_8sqt-a1-m3-cA 8sqt-a1-m1-cA_8sqt-a1-m17-cA 8sqt-a1-m1-cA_8sqt-a1-m20-cA 8sqt-a1-m20-cA_8sqt-a1-m4-cA 8sqt-a1-m22-cA_8sqt-a1-m9-cA 8sqt-a1-m23-cA_8sqt-a1-m9-cA GSMKGEPKVIERLNEALFLELGAVNQYWLHYRLLNDWGYTRLAKKEREESIEEMHHADKLIDRIIFLEGFPNLQTVSPLRIGQNVKEVLEADLKGEYDARASYKESREICDKLGDYVSKQLFDELLADEEGHIDFLETQLDLLAKIGGERYGQLNAAPADE GSMKGEPKVIERLNEALFLELGAVNQYWLHYRLLNDWGYTRLAKKEREESIEEMHHADKLIDRIIFLEGFPNLQTVSPLRIGQNVKEVLEADLKGEYDARASYKESREICDKLGDYVSKQLFDELLADEEGHIDFLETQLDLLAKIGGERYGQLNAAPADE 3fvb-a1-m9-cA_3fvb-a1-m9-cB Crystal structure of ferritin (bacterioferritin) from Brucella melitensis Q2YKI4 Q2YKI4 1.806 X-RAY DIFFRACTION 50 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 161 161 3fvb-a1-m10-cA_3fvb-a1-m10-cB 3fvb-a1-m11-cA_3fvb-a1-m11-cB 3fvb-a1-m12-cA_3fvb-a1-m12-cB 3fvb-a1-m1-cA_3fvb-a1-m1-cB 3fvb-a1-m2-cA_3fvb-a1-m2-cB 3fvb-a1-m3-cA_3fvb-a1-m3-cB 3fvb-a1-m4-cA_3fvb-a1-m4-cB 3fvb-a1-m5-cA_3fvb-a1-m5-cB 3fvb-a1-m6-cA_3fvb-a1-m6-cB 3fvb-a1-m7-cA_3fvb-a1-m7-cB 3fvb-a1-m8-cA_3fvb-a1-m8-cB 8sqo-a1-m10-cA_8sqo-a1-m19-cA 8sqo-a1-m11-cA_8sqo-a1-m17-cA 8sqo-a1-m12-cA_8sqo-a1-m18-cA 8sqo-a1-m14-cA_8sqo-a1-m2-cA 8sqo-a1-m15-cA_8sqo-a1-m4-cA 8sqo-a1-m16-cA_8sqo-a1-m3-cA 8sqo-a1-m1-cA_8sqo-a1-m13-cA 8sqo-a1-m20-cA_8sqo-a1-m9-cA 8sqo-a1-m21-cA_8sqo-a1-m8-cA 8sqo-a1-m22-cA_8sqo-a1-m7-cA 8sqo-a1-m23-cA_8sqo-a1-m5-cA 8sqo-a1-m24-cA_8sqo-a1-m6-cA 8sqp-a1-m10-cA_8sqp-a1-m19-cA 8sqp-a1-m11-cA_8sqp-a1-m17-cA 8sqp-a1-m12-cA_8sqp-a1-m18-cA 8sqp-a1-m14-cA_8sqp-a1-m2-cA 8sqp-a1-m15-cA_8sqp-a1-m4-cA 8sqp-a1-m16-cA_8sqp-a1-m3-cA 8sqp-a1-m1-cA_8sqp-a1-m13-cA 8sqp-a1-m20-cA_8sqp-a1-m9-cA 8sqp-a1-m21-cA_8sqp-a1-m8-cA 8sqp-a1-m22-cA_8sqp-a1-m7-cA 8sqp-a1-m23-cA_8sqp-a1-m5-cA 8sqp-a1-m24-cA_8sqp-a1-m6-cA 8sqq-a1-m10-cA_8sqq-a1-m19-cA 8sqq-a1-m11-cA_8sqq-a1-m17-cA 8sqq-a1-m12-cA_8sqq-a1-m18-cA 8sqq-a1-m14-cA_8sqq-a1-m2-cA 8sqq-a1-m15-cA_8sqq-a1-m4-cA 8sqq-a1-m16-cA_8sqq-a1-m3-cA 8sqq-a1-m1-cA_8sqq-a1-m13-cA 8sqq-a1-m20-cA_8sqq-a1-m9-cA 8sqq-a1-m21-cA_8sqq-a1-m8-cA 8sqq-a1-m22-cA_8sqq-a1-m7-cA 8sqq-a1-m23-cA_8sqq-a1-m5-cA 8sqq-a1-m24-cA_8sqq-a1-m6-cA 8sqr-a1-m10-cA_8sqr-a1-m19-cA 8sqr-a1-m11-cA_8sqr-a1-m17-cA 8sqr-a1-m12-cA_8sqr-a1-m18-cA 8sqr-a1-m14-cA_8sqr-a1-m2-cA 8sqr-a1-m15-cA_8sqr-a1-m4-cA 8sqr-a1-m16-cA_8sqr-a1-m3-cA 8sqr-a1-m1-cA_8sqr-a1-m13-cA 8sqr-a1-m20-cA_8sqr-a1-m9-cA 8sqr-a1-m21-cA_8sqr-a1-m8-cA 8sqr-a1-m22-cA_8sqr-a1-m7-cA 8sqr-a1-m23-cA_8sqr-a1-m5-cA 8sqr-a1-m24-cA_8sqr-a1-m6-cA 8sqt-a1-m10-cA_8sqt-a1-m19-cA 8sqt-a1-m11-cA_8sqt-a1-m17-cA 8sqt-a1-m12-cA_8sqt-a1-m18-cA 8sqt-a1-m14-cA_8sqt-a1-m2-cA 8sqt-a1-m15-cA_8sqt-a1-m4-cA 8sqt-a1-m16-cA_8sqt-a1-m3-cA 8sqt-a1-m1-cA_8sqt-a1-m13-cA 8sqt-a1-m20-cA_8sqt-a1-m9-cA 8sqt-a1-m21-cA_8sqt-a1-m8-cA 8sqt-a1-m22-cA_8sqt-a1-m7-cA 8sqt-a1-m23-cA_8sqt-a1-m5-cA 8sqt-a1-m24-cA_8sqt-a1-m6-cA GSMKGEPKVIERLNEALFLELGAVNQYWLHYRLLNDWGYTRLAKKEREESIEEMHHADKLIDRIIFLEGFPNLQTVSPLRIGQNVKEVLEADLKGEYDARASYKESREICDKLGDYVSKQLFDELLADEEGHIDFLETQLDLLAKIGGERYGQLNAAPADE GSMKGEPKVIERLNEALFLELGAVNQYWLHYRLLNDWGYTRLAKKEREESIEEMHHADKLIDRIIFLEGFPNLQTVSPLRIGQNVKEVLEADLKGEYDARASYKESREICDKLGDYVSKQLFDELLADEEGHIDFLETQLDLLAKIGGERYGQLNAAPADE 3fvc-a1-m2-cA_3fvc-a1-m3-cA Crystal structure of a trimeric variant of the Epstein-Barr virus glycoprotein B P03188 P03188 3.2 X-RAY DIFFRACTION 293 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 559 559 3fvc-a1-m1-cA_3fvc-a1-m2-cA 3fvc-a1-m1-cA_3fvc-a1-m3-cA QQTSFPFRVCELSSHGDLFRFSSDIQCPSFENHTEGLLMVFKDNIIPYSFKVRSYTKIVTNILIYNGHRADSVTNRHEEKFSVDSYETDQMDTIYQCYNAVKMTKDGLTRVYVDRDGVNITVNLKPTGGLANGVRRYASQTELYDAPGRVEATYRTRTTVNCLITDMMAKSNSPFDFFVTTTGQTVEMSPFYDGKNKETFHERADSFHVRTNYKIVDYDNRGTNPQGERRAFLDKGTYTLSWKLENRTAYCPLQHWQTFDSTIATETGKSIHFVTDEGTSSFVTNTTVGIELPDAFKCIEEQVNKTMHEKYEAVQDRYTKGQEAITYFITSGGLLLAWLPLTPRSLKSLGTLNNPATVQIQFAYDSLRRQINRMLGDLARAWCLEQKRQNMVLRELTKINPTTVMSSIYGKAVAAKRLGDVISVSQCVPVNQATVTLRKSMRMCYSRPLVSFSFTKTYEGQLGTDNEIFATSQYYFQSGNEIHVYNDYHHFKTIELDGIATLQTFISLNTSLIENIDFASLELYSRDEQRASNVFDLEGIFREYNFQAQNIAGLRKDLD QQTSFPFRVCELSSHGDLFRFSSDIQCPSFENHTEGLLMVFKDNIIPYSFKVRSYTKIVTNILIYNGHRADSVTNRHEEKFSVDSYETDQMDTIYQCYNAVKMTKDGLTRVYVDRDGVNITVNLKPTGGLANGVRRYASQTELYDAPGRVEATYRTRTTVNCLITDMMAKSNSPFDFFVTTTGQTVEMSPFYDGKNKETFHERADSFHVRTNYKIVDYDNRGTNPQGERRAFLDKGTYTLSWKLENRTAYCPLQHWQTFDSTIATETGKSIHFVTDEGTSSFVTNTTVGIELPDAFKCIEEQVNKTMHEKYEAVQDRYTKGQEAITYFITSGGLLLAWLPLTPRSLKSLGTLNNPATVQIQFAYDSLRRQINRMLGDLARAWCLEQKRQNMVLRELTKINPTTVMSSIYGKAVAAKRLGDVISVSQCVPVNQATVTLRKSMRMCYSRPLVSFSFTKTYEGQLGTDNEIFATSQYYFQSGNEIHVYNDYHHFKTIELDGIATLQTFISLNTSLIENIDFASLELYSRDEQRASNVFDLEGIFREYNFQAQNIAGLRKDLD 3fvd-a1-m1-cA_3fvd-a1-m4-cB Crystal structure of a member of enolase superfamily from ROSEOVARIUS NUBINHIBENS ISM complexed with magnesium A3SNF7 A3SNF7 2.3 X-RAY DIFFRACTION 66 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 361 367 2qdd-a1-m1-cA_2qdd-a1-m3-cB 2qdd-a1-m1-cB_2qdd-a1-m4-cA 2qdd-a1-m2-cA_2qdd-a1-m4-cB 2qdd-a1-m2-cB_2qdd-a1-m3-cA 3fvd-a1-m2-cA_3fvd-a1-m3-cB 3fvd-a1-m3-cA_3fvd-a1-m1-cB 3fvd-a1-m4-cA_3fvd-a1-m2-cB SLRITRLTVFHLDLPLAKPFDRLDSTYLRIDTDEGVTGWGEGCPWGHSYLPAHGPGLRAGIATLAPHLLGLDPRSLDHVNRVMDLQLPGHSYVKSPIDMACWDILGQVAGLPLWQLLGGEAATPVPINSSISTGTPDQMLGLIAEAAAQGYRTHSAKIGGSDPAQDIARIEAISAGLPDGHRVTFDVNRAWTPAIAVEVLNSVRARDWIEQPCQTLDQCAHVARRVANPIMLDECLHEFSDHLAAWSRGACEGVKIKPNRVGGLTRARQIRDFGVSVGWQMHIEDVGGTALADTAALHLAASTPEANRLASWLGHAHLADDPIPGQGARNRDGLATPPSAPGLGVIPDPEALGRPVASYDE SLRITRLTVFHLDLPLAKPYWLSLKFDRLDSTYLRIDTDEGVTGWGEGCPWGHSYLPAHGPGLRAGIATLAPHLLGLDPRSLDHVNRVMDLQLPGHSYVKSPIDMACWDILGQVAGLPLWQLLGGEAATPVPINSSISTGTPDQMLGLIAEAAAQGYRTHSAKIGGSDPAQDIARIEAISAGLPDGHRVTFDVNRAWTPAIAVEVLNSVRARDWIEQPCQTLDQCAHVARRVANPIMLDECLHEFSDHLAAWSRGACEGVKIKPNRVGGLTRARQIRDFGVSVGWQMHIEDVGGTALADTAALHLAASTPEANRLASWLGHAHLADDPIPGQGARNRDGLATPPSAPGLGVIPDPEALGRPVASYDE 3fvd-a1-m2-cA_3fvd-a1-m4-cA Crystal structure of a member of enolase superfamily from ROSEOVARIUS NUBINHIBENS ISM complexed with magnesium A3SNF7 A3SNF7 2.3 X-RAY DIFFRACTION 45 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 361 361 2qdd-a1-m1-cA_2qdd-a1-m3-cA 2qdd-a1-m1-cA_2qdd-a1-m4-cA 2qdd-a1-m1-cB_2qdd-a1-m3-cB 2qdd-a1-m1-cB_2qdd-a1-m4-cB 2qdd-a1-m2-cA_2qdd-a1-m3-cA 2qdd-a1-m2-cA_2qdd-a1-m4-cA 2qdd-a1-m2-cB_2qdd-a1-m3-cB 2qdd-a1-m2-cB_2qdd-a1-m4-cB 3fvd-a1-m1-cA_3fvd-a1-m3-cA 3fvd-a1-m1-cA_3fvd-a1-m4-cA 3fvd-a1-m1-cB_3fvd-a1-m3-cB 3fvd-a1-m1-cB_3fvd-a1-m4-cB 3fvd-a1-m2-cA_3fvd-a1-m3-cA 3fvd-a1-m2-cB_3fvd-a1-m3-cB 3fvd-a1-m2-cB_3fvd-a1-m4-cB SLRITRLTVFHLDLPLAKPFDRLDSTYLRIDTDEGVTGWGEGCPWGHSYLPAHGPGLRAGIATLAPHLLGLDPRSLDHVNRVMDLQLPGHSYVKSPIDMACWDILGQVAGLPLWQLLGGEAATPVPINSSISTGTPDQMLGLIAEAAAQGYRTHSAKIGGSDPAQDIARIEAISAGLPDGHRVTFDVNRAWTPAIAVEVLNSVRARDWIEQPCQTLDQCAHVARRVANPIMLDECLHEFSDHLAAWSRGACEGVKIKPNRVGGLTRARQIRDFGVSVGWQMHIEDVGGTALADTAALHLAASTPEANRLASWLGHAHLADDPIPGQGARNRDGLATPPSAPGLGVIPDPEALGRPVASYDE SLRITRLTVFHLDLPLAKPFDRLDSTYLRIDTDEGVTGWGEGCPWGHSYLPAHGPGLRAGIATLAPHLLGLDPRSLDHVNRVMDLQLPGHSYVKSPIDMACWDILGQVAGLPLWQLLGGEAATPVPINSSISTGTPDQMLGLIAEAAAQGYRTHSAKIGGSDPAQDIARIEAISAGLPDGHRVTFDVNRAWTPAIAVEVLNSVRARDWIEQPCQTLDQCAHVARRVANPIMLDECLHEFSDHLAAWSRGACEGVKIKPNRVGGLTRARQIRDFGVSVGWQMHIEDVGGTALADTAALHLAASTPEANRLASWLGHAHLADDPIPGQGARNRDGLATPPSAPGLGVIPDPEALGRPVASYDE 3fvd-a1-m4-cA_3fvd-a1-m4-cB Crystal structure of a member of enolase superfamily from ROSEOVARIUS NUBINHIBENS ISM complexed with magnesium A3SNF7 A3SNF7 2.3 X-RAY DIFFRACTION 64 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 361 367 2qdd-a1-m1-cA_2qdd-a1-m1-cB 2qdd-a1-m2-cA_2qdd-a1-m2-cB 2qdd-a1-m3-cA_2qdd-a1-m3-cB 2qdd-a1-m4-cA_2qdd-a1-m4-cB 3fvd-a1-m1-cA_3fvd-a1-m1-cB 3fvd-a1-m2-cA_3fvd-a1-m2-cB 3fvd-a1-m3-cA_3fvd-a1-m3-cB SLRITRLTVFHLDLPLAKPFDRLDSTYLRIDTDEGVTGWGEGCPWGHSYLPAHGPGLRAGIATLAPHLLGLDPRSLDHVNRVMDLQLPGHSYVKSPIDMACWDILGQVAGLPLWQLLGGEAATPVPINSSISTGTPDQMLGLIAEAAAQGYRTHSAKIGGSDPAQDIARIEAISAGLPDGHRVTFDVNRAWTPAIAVEVLNSVRARDWIEQPCQTLDQCAHVARRVANPIMLDECLHEFSDHLAAWSRGACEGVKIKPNRVGGLTRARQIRDFGVSVGWQMHIEDVGGTALADTAALHLAASTPEANRLASWLGHAHLADDPIPGQGARNRDGLATPPSAPGLGVIPDPEALGRPVASYDE SLRITRLTVFHLDLPLAKPYWLSLKFDRLDSTYLRIDTDEGVTGWGEGCPWGHSYLPAHGPGLRAGIATLAPHLLGLDPRSLDHVNRVMDLQLPGHSYVKSPIDMACWDILGQVAGLPLWQLLGGEAATPVPINSSISTGTPDQMLGLIAEAAAQGYRTHSAKIGGSDPAQDIARIEAISAGLPDGHRVTFDVNRAWTPAIAVEVLNSVRARDWIEQPCQTLDQCAHVARRVANPIMLDECLHEFSDHLAAWSRGACEGVKIKPNRVGGLTRARQIRDFGVSVGWQMHIEDVGGTALADTAALHLAASTPEANRLASWLGHAHLADDPIPGQGARNRDGLATPPSAPGLGVIPDPEALGRPVASYDE 3fve-a2-m1-cA_3fve-a2-m2-cA Crystal structure of diaminopimelate epimerase Mycobacterium tuberculosis DapF P9WP19 P9WP19 2.6 X-RAY DIFFRACTION 88 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 283 283 HMIFAKGHGTQNDFVLLPDVDAELVLTAARVAALCDRRKGLGADGVLRVTTAGAAQAVGVLDSLPEGVRVTDWYMDYRNADGSAAQMCGNGVRVFAHYLRASGLEVRDEFVVGSLAGPRPVTCHHVEAAYADVSVDMGKANRLGAGEAVFHGLAVDVGNPHLACVDSQLTVDGLAALDVGVSFDGAQFPDGVNVEVLTAPVDGAVWMRVHERGVGETRSCGTGTVAAAVAALAAVGSPTGTLTVHVPGGEVVVTVTDATSFLRGPSVLVARGDLADDWWNAMG HMIFAKGHGTQNDFVLLPDVDAELVLTAARVAALCDRRKGLGADGVLRVTTAGAAQAVGVLDSLPEGVRVTDWYMDYRNADGSAAQMCGNGVRVFAHYLRASGLEVRDEFVVGSLAGPRPVTCHHVEAAYADVSVDMGKANRLGAGEAVFHGLAVDVGNPHLACVDSQLTVDGLAALDVGVSFDGAQFPDGVNVEVLTAPVDGAVWMRVHERGVGETRSCGTGTVAAAVAALAAVGSPTGTLTVHVPGGEVVVTVTDATSFLRGPSVLVARGDLADDWWNAMG 3fvl-a1-m1-cA_3fvl-a1-m1-cC Crystallogic studies on the Complex of Carboxypeptidase A with inhibitors using alpha-hydroxy ketone as zinc-binding group P00730 P00730 1.85 X-RAY DIFFRACTION 40 1.0 9913 (Bos taurus) 9913 (Bos taurus) 307 307 3fx6-a1-m1-cA_3fx6-a1-m1-cC ARSTNTFNYATYHTLDEIYDFMDLLVAEHPQLVSKLQIGRSYEGRPIYVLKFSTGGSNRPAIWIDLGIHSREWITQATGVWFAKKFTEDYGQDPSFTAILDSMDIFLEIVTNPDGFAFTHSQNRLWRKTRSVTSSSLCVGVDANRNWDAGFGKAGASSSPCSETYHGKYANSEVEVKSIVDFVKDHGNFKAFLSIHSYSQLLLYPYGYTTQSIPDKTELNQVAKSAVEALKSLYGTSYKYGSIITTIYQASGGSIDWSYNQGIKYSFTFELRDTGRYGFLLPASQIIPTAQETWLGVLTIMEHTVNN ARSTNTFNYATYHTLDEIYDFMDLLVAEHPQLVSKLQIGRSYEGRPIYVLKFSTGGSNRPAIWIDLGIHSREWITQATGVWFAKKFTEDYGQDPSFTAILDSMDIFLEIVTNPDGFAFTHSQNRLWRKTRSVTSSSLCVGVDANRNWDAGFGKAGASSSPCSETYHGKYANSEVEVKSIVDFVKDHGNFKAFLSIHSYSQLLLYPYGYTTQSIPDKTELNQVAKSAVEALKSLYGTSYKYGSIITTIYQASGGSIDWSYNQGIKYSFTFELRDTGRYGFLLPASQIIPTAQETWLGVLTIMEHTVNN 3fvl-a1-m1-cC_3fvl-a1-m1-cE Crystallogic studies on the Complex of Carboxypeptidase A with inhibitors using alpha-hydroxy ketone as zinc-binding group P00730 P00730 1.85 X-RAY DIFFRACTION 11 1.0 9913 (Bos taurus) 9913 (Bos taurus) 307 307 3fx6-a1-m1-cC_3fx6-a1-m1-cE ARSTNTFNYATYHTLDEIYDFMDLLVAEHPQLVSKLQIGRSYEGRPIYVLKFSTGGSNRPAIWIDLGIHSREWITQATGVWFAKKFTEDYGQDPSFTAILDSMDIFLEIVTNPDGFAFTHSQNRLWRKTRSVTSSSLCVGVDANRNWDAGFGKAGASSSPCSETYHGKYANSEVEVKSIVDFVKDHGNFKAFLSIHSYSQLLLYPYGYTTQSIPDKTELNQVAKSAVEALKSLYGTSYKYGSIITTIYQASGGSIDWSYNQGIKYSFTFELRDTGRYGFLLPASQIIPTAQETWLGVLTIMEHTVNN ARSTNTFNYATYHTLDEIYDFMDLLVAEHPQLVSKLQIGRSYEGRPIYVLKFSTGGSNRPAIWIDLGIHSREWITQATGVWFAKKFTEDYGQDPSFTAILDSMDIFLEIVTNPDGFAFTHSQNRLWRKTRSVTSSSLCVGVDANRNWDAGFGKAGASSSPCSETYHGKYANSEVEVKSIVDFVKDHGNFKAFLSIHSYSQLLLYPYGYTTQSIPDKTELNQVAKSAVEALKSLYGTSYKYGSIITTIYQASGGSIDWSYNQGIKYSFTFELRDTGRYGFLLPASQIIPTAQETWLGVLTIMEHTVNN 3fvq-a1-m1-cA_3fvq-a1-m1-cB Crystal structure of the nucleotide binding domain FbpC complexed with ATP Q5FA19 Q5FA19 1.9 X-RAY DIFFRACTION 293 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 343 350 TAALHIGHLSKSFQNTPVLNDISLSLDPGEILFIIGASGCGKTTLLRCLAGFEQPDSGEISLSGKTIFSKNTNLPVRERRLGYLVQEGVLFPHLTVYRNIAYGLGNGKGRTAQERQRIEAMLELTGISELAGRYPHELSGGQQQRAALARALAPDPELILLDEPFSALDEQLRRQIREDMIAALRANGKSAVFVSHDREEALQYADRIAVMKQGRILQTASPHELYRQPADLDAALFIGEGIVFPAALNADGTADCRLGRLPVQSGAPAGTRGTLLIRPEQYSLHPHSAPAASIHAVVLKTTPKARHTEISLRAGQTVLTLNLLSDGISAVLHLDGPALFFPG TAALHIGHLSKSFQNTPVLNDISLSLDPGEILFIIGASGCGKTTLLRCLAGFEQPDSGEISLSGKTIFSKNTNLPVRERRLGYLVQEGVLFPHLTVYRNIAYGLGNGKGRTAQERQRIEAMLELTGISELAGRYPHELSGGQQQRAALARALAPDPELILLDEPFSALDEQLRRQIREDMIAALRANGKSAVFVSHDREEALQYADRIAVMKQGRILQTASPHELYRQPADLDAALFIGEGIVFPAALNADGTADCRLGRLPVQSGAPAGTRGTLLIRPEQYSLHPHSAPAASIHAVVLKTTPKARHTEISLRAGQTVLTLNLPSAPTLSDGISAVLHLDGPALFFPGNT 3fvt-a2-m1-cH_3fvt-a2-m1-cN Crystal Structure of Acetyl Xylan Esterase from Bacillus pumilus, monoclinic crystal form II Q9K5F2 Q9K5F2 1.9 X-RAY DIFFRACTION 75 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 317 318 2xlb-a1-m1-cG_2xlb-a1-m1-cJ 2xlb-a1-m1-cH_2xlb-a1-m1-cK 2xlb-a1-m1-cI_2xlb-a1-m1-cL 2xlb-a2-m1-cA_2xlb-a2-m1-cD 2xlb-a2-m1-cB_2xlb-a2-m1-cE 2xlb-a2-m1-cC_2xlb-a2-m1-cF 2xlc-a1-m1-cA_2xlc-a1-m1-cD 2xlc-a1-m1-cB_2xlc-a1-m1-cE 2xlc-a1-m1-cC_2xlc-a1-m1-cF 3fvr-a1-m1-cB_3fvr-a1-m1-cD 3fvr-a1-m1-cE_3fvr-a1-m1-cC 3fvr-a1-m1-cF_3fvr-a1-m1-cA 3fvr-a2-m1-cG_3fvr-a2-m1-cM 3fvr-a2-m1-cH_3fvr-a2-m1-cL 3fvr-a2-m1-cN_3fvr-a2-m1-cI 3fvt-a1-m1-cB_3fvt-a1-m1-cD 3fvt-a1-m1-cC_3fvt-a1-m1-cA 3fvt-a1-m1-cE_3fvt-a1-m1-cF 3fvt-a2-m1-cG_3fvt-a2-m1-cM 3fvt-a2-m1-cI_3fvt-a2-m1-cL 3fyt-a1-m1-cB_3fyt-a1-m1-cD 3fyt-a1-m1-cC_3fyt-a1-m1-cE 3fyt-a1-m1-cF_3fyt-a1-m1-cA 3fyt-a2-m1-cH_3fyt-a2-m1-cL 3fyt-a2-m1-cI_3fyt-a2-m1-cN 3fyt-a2-m1-cM_3fyt-a2-m1-cG 3fyu-a1-m1-cC_3fyu-a1-m1-cA 3fyu-a1-m1-cD_3fyu-a1-m1-cB 3fyu-a1-m1-cF_3fyu-a1-m1-cE 3fyu-a2-m1-cG_3fyu-a2-m1-cM 3fyu-a2-m1-cH_3fyu-a2-m1-cN 3fyu-a2-m1-cI_3fyu-a2-m1-cL QLFDLSLEELKKYKPKKTARPDFSDFWKKSLEELRQVEAEPTLESYDYPVKGVKVYRLTYQSFGHSKIEGFYAVPDQTGPHPALVRFHGYNASYDGGIHDIVNWALHGYATFGMLVRGQGGSEDTSVTPGGHALGWMTKGILSKDTYYYRGVYLDAVRALEVIQSFPEVDEHRIGVIGGSQGGALAIAAAALSDIPKVVVADYPYLSNFERAVDVALEQPYLEINSYFRRNSDPKVEEKAFETLSYFDLINLAGWVKQPTLMAIGLIDKITPPSTVFAAYNHLETDKDLKVYRYFGHEFIPAFQTEKLSFLQKHLLL MQLFDLSLEELKKYKPKKTARPDFSDFWKKSLEELRQVEAEPTLESYDYPVKGVKVYRLTYQSFGHSKIEGFYAVPDQTGPHPALVRFHGYNASYDGGIHDIVNWALHGYATFGMLVRGQGGSEDTSVTPGGHALGWMTKGILSKDTYYYRGVYLDAVRALEVIQSFPEVDEHRIGVIGGSQGGALAIAAAALSDIPKVVVADYPYLSNFERAVDVALEQPYLEINSYFRRNSDPKVEEKAFETLSYFDLINLAGWVKQPTLMAIGLIDKITPPSTVFAAYNHLETDKDLKVYRYFGHEFIPAFQTEKLSFLQKHLLL 3fvt-a2-m1-cI_3fvt-a2-m1-cN Crystal Structure of Acetyl Xylan Esterase from Bacillus pumilus, monoclinic crystal form II Q9K5F2 Q9K5F2 1.9 X-RAY DIFFRACTION 47 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 317 318 2xlb-a1-m1-cG_2xlb-a1-m1-cH 2xlb-a1-m1-cI_2xlb-a1-m1-cJ 2xlb-a1-m1-cK_2xlb-a1-m1-cL 2xlb-a2-m1-cA_2xlb-a2-m1-cB 2xlb-a2-m1-cC_2xlb-a2-m1-cD 2xlb-a2-m1-cE_2xlb-a2-m1-cF 2xlc-a1-m1-cA_2xlc-a1-m1-cB 2xlc-a1-m1-cC_2xlc-a1-m1-cD 2xlc-a1-m1-cE_2xlc-a1-m1-cF 3fvr-a1-m1-cD_3fvr-a1-m1-cC 3fvr-a1-m1-cE_3fvr-a1-m1-cA 3fvr-a1-m1-cF_3fvr-a1-m1-cB 3fvr-a2-m1-cG_3fvr-a2-m1-cL 3fvr-a2-m1-cH_3fvr-a2-m1-cN 3fvr-a2-m1-cM_3fvr-a2-m1-cI 3fvt-a1-m1-cC_3fvt-a1-m1-cB 3fvt-a1-m1-cD_3fvt-a1-m1-cF 3fvt-a1-m1-cE_3fvt-a1-m1-cA 3fvt-a2-m1-cG_3fvt-a2-m1-cL 3fvt-a2-m1-cH_3fvt-a2-m1-cM 3fyt-a1-m1-cC_3fyt-a1-m1-cD 3fyt-a1-m1-cE_3fyt-a1-m1-cA 3fyt-a1-m1-cF_3fyt-a1-m1-cB 3fyt-a2-m1-cG_3fyt-a2-m1-cL 3fyt-a2-m1-cM_3fyt-a2-m1-cI 3fyt-a2-m1-cN_3fyt-a2-m1-cH 3fyu-a1-m1-cA_3fyu-a1-m1-cE 3fyu-a1-m1-cC_3fyu-a1-m1-cB 3fyu-a1-m1-cD_3fyu-a1-m1-cF 3fyu-a2-m1-cG_3fyu-a2-m1-cL 3fyu-a2-m1-cH_3fyu-a2-m1-cM 3fyu-a2-m1-cI_3fyu-a2-m1-cN QLFDLSLEELKKYKPKKTARPDFSDFWKKSLEELRQVEAEPTLESYDYPVKGVKVYRLTYQSFGHSKIEGFYAVPDQTGPHPALVRFHGYNASYDGGIHDIVNWALHGYATFGMLVRGQGGSEDTSVTPGGHALGWMTKGILSKDTYYYRGVYLDAVRALEVIQSFPEVDEHRIGVIGGSQGGALAIAAAALSDIPKVVVADYPYLSNFERAVDVALEQPYLEINSYFRRNSDPKVEEKAFETLSYFDLINLAGWVKQPTLMAIGLIDKITPPSTVFAAYNHLETDKDLKVYRYFGHEFIPAFQTEKLSFLQKHLLL MQLFDLSLEELKKYKPKKTARPDFSDFWKKSLEELRQVEAEPTLESYDYPVKGVKVYRLTYQSFGHSKIEGFYAVPDQTGPHPALVRFHGYNASYDGGIHDIVNWALHGYATFGMLVRGQGGSEDTSVTPGGHALGWMTKGILSKDTYYYRGVYLDAVRALEVIQSFPEVDEHRIGVIGGSQGGALAIAAAALSDIPKVVVADYPYLSNFERAVDVALEQPYLEINSYFRRNSDPKVEEKAFETLSYFDLINLAGWVKQPTLMAIGLIDKITPPSTVFAAYNHLETDKDLKVYRYFGHEFIPAFQTEKLSFLQKHLLL 3fvt-a2-m1-cM_3fvt-a2-m1-cN Crystal Structure of Acetyl Xylan Esterase from Bacillus pumilus, monoclinic crystal form II Q9K5F2 Q9K5F2 1.9 X-RAY DIFFRACTION 12 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 318 318 2xlb-a1-m1-cG_2xlb-a1-m1-cI 2xlb-a1-m1-cG_2xlb-a1-m1-cK 2xlb-a1-m1-cH_2xlb-a1-m1-cJ 2xlb-a1-m1-cH_2xlb-a1-m1-cL 2xlb-a1-m1-cI_2xlb-a1-m1-cK 2xlb-a1-m1-cJ_2xlb-a1-m1-cL 2xlb-a2-m1-cA_2xlb-a2-m1-cC 2xlb-a2-m1-cA_2xlb-a2-m1-cE 2xlb-a2-m1-cB_2xlb-a2-m1-cD 2xlb-a2-m1-cB_2xlb-a2-m1-cF 2xlb-a2-m1-cC_2xlb-a2-m1-cE 2xlb-a2-m1-cD_2xlb-a2-m1-cF 3fvr-a1-m1-cA_3fvr-a1-m1-cC 3fvr-a1-m1-cB_3fvr-a1-m1-cA 3fvr-a1-m1-cB_3fvr-a1-m1-cC 3fvr-a1-m1-cD_3fvr-a1-m1-cE 3fvr-a1-m1-cF_3fvr-a1-m1-cD 3fvr-a1-m1-cF_3fvr-a1-m1-cE 3fvr-a2-m1-cG_3fvr-a2-m1-cH 3fvr-a2-m1-cG_3fvr-a2-m1-cI 3fvr-a2-m1-cH_3fvr-a2-m1-cI 3fvr-a2-m1-cL_3fvr-a2-m1-cM 3fvr-a2-m1-cL_3fvr-a2-m1-cN 3fvr-a2-m1-cN_3fvr-a2-m1-cM 3fvt-a1-m1-cA_3fvt-a1-m1-cF 3fvt-a1-m1-cB_3fvt-a1-m1-cA 3fvt-a1-m1-cB_3fvt-a1-m1-cF 3fvt-a1-m1-cC_3fvt-a1-m1-cD 3fvt-a1-m1-cC_3fvt-a1-m1-cE 3fvt-a1-m1-cD_3fvt-a1-m1-cE 3fvt-a2-m1-cG_3fvt-a2-m1-cH 3fvt-a2-m1-cG_3fvt-a2-m1-cI 3fvt-a2-m1-cH_3fvt-a2-m1-cI 3fvt-a2-m1-cL_3fvt-a2-m1-cM 3fvt-a2-m1-cL_3fvt-a2-m1-cN 3fyu-a1-m1-cA_3fyu-a1-m1-cB 3fyu-a1-m1-cC_3fyu-a1-m1-cD 3fyu-a1-m1-cC_3fyu-a1-m1-cE 3fyu-a1-m1-cD_3fyu-a1-m1-cE 3fyu-a1-m1-cF_3fyu-a1-m1-cA 3fyu-a1-m1-cF_3fyu-a1-m1-cB 3fyu-a2-m1-cH_3fyu-a2-m1-cG 3fyu-a2-m1-cH_3fyu-a2-m1-cI 3fyu-a2-m1-cI_3fyu-a2-m1-cG 3fyu-a2-m1-cL_3fyu-a2-m1-cM 3fyu-a2-m1-cN_3fyu-a2-m1-cL 3fyu-a2-m1-cN_3fyu-a2-m1-cM MQLFDLSLEELKKYKPKKTARPDFSDFWKKSLEELRQVEAEPTLESYDYPVKGVKVYRLTYQSFGHSKIEGFYAVPDQTGPHPALVRFHGYNASYDGGIHDIVNWALHGYATFGMLVRGQGGSEDTSVTPGGHALGWMTKGILSKDTYYYRGVYLDAVRALEVIQSFPEVDEHRIGVIGGSQGGALAIAAAALSDIPKVVVADYPYLSNFERAVDVALEQPYLEINSYFRRNSDPKVEEKAFETLSYFDLINLAGWVKQPTLMAIGLIDKITPPSTVFAAYNHLETDKDLKVYRYFGHEFIPAFQTEKLSFLQKHLLL MQLFDLSLEELKKYKPKKTARPDFSDFWKKSLEELRQVEAEPTLESYDYPVKGVKVYRLTYQSFGHSKIEGFYAVPDQTGPHPALVRFHGYNASYDGGIHDIVNWALHGYATFGMLVRGQGGSEDTSVTPGGHALGWMTKGILSKDTYYYRGVYLDAVRALEVIQSFPEVDEHRIGVIGGSQGGALAIAAAALSDIPKVVVADYPYLSNFERAVDVALEQPYLEINSYFRRNSDPKVEEKAFETLSYFDLINLAGWVKQPTLMAIGLIDKITPPSTVFAAYNHLETDKDLKVYRYFGHEFIPAFQTEKLSFLQKHLLL 3fvv-a3-m1-cB_3fvv-a3-m1-cA The crystal structure of the protein with unknown function from Bordetella pertussis Tohama I Q7W0A9 Q7W0A9 2.1 X-RAY DIFFRACTION 62 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 221 223 RRLALFDLDHTLLPLDSDYQWADFLARTGRAGDPAEARRRNDDLMERYNRGELTAEQAAEFMLGLLAAHSPVELAAWHEEFMRDVIRPSLTVQAVDVVRGHLAAGDLCALVTATNSFVTAPIARAFGVQHLIATDPEYRDGRYTGRIEGTPSFREGKVVRVNQWLAGMGLALGDFAESYFYSDSVNDVPLLEAVTRPIAANPSPGLREIAQARGWQVIDLF TTRRLALFDLDHTLLPLDSDYQWADFLARTGRAGDPAEARRRNDDLMERYNRGELTAEQAAEFMLGLLAAHSPVELAAWHEEFMRDVIRPSLTVQAVDVVRGHLAAGDLCALVTATNSFVTAPIARAFGVQHLIATDPEYRDGRYTGRIEGTPSFREGKVVRVNQWLAGMGLALGDFAESYFYSDSVNDVPLLEAVTRPIAANPSPGLREIAQARGWQVIDLF 3fw2-a2-m1-cC_3fw2-a2-m1-cD C-terminal domain of putative thiol-disulfide oxidoreductase from Bacteroides thetaiotaomicron. Q8A3V9 Q8A3V9 1.74 X-RAY DIFFRACTION 59 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 147 147 3fw2-a1-m1-cA_3fw2-a1-m1-cB AKSEIGKYAPFFSLPNAKGEKITRSSDAFKQKSLLINFWASWNDSISQKQSNSELREIYKKYKKNKYIGLGISLDVDKQQWKDAIKRDTLDWEQVCDFGGLNSEVAKQYSIYKIPANILLSSDGKILAKNLRGEELKKKIENIVEEA AKSEIGKYAPFFSLPNAKGEKITRSSDAFKQKSLLINFWASWNDSISQKQSNSELREIYKKYKKNKYIGLGISLDVDKQQWKDAIKRDTLDWEQVCDFGGLNSEVAKQYSIYKIPANILLSSDGKILAKNLRGEELKKKIENIVEEA 3fwt-a1-m2-cA_3fwt-a1-m3-cA Crystal structure of Leishmania major MIF2 Q4Q412 Q4Q412 1.9 X-RAY DIFFRACTION 81 1.0 5664 (Leishmania major) 5664 (Leishmania major) 116 116 3fwt-a1-m1-cA_3fwt-a1-m2-cA 3fwt-a1-m1-cA_3fwt-a1-m3-cA GSHMPFLQTIVSVSLDDQKRANLSAAYGMICREELGKPEDFVMTAFSDKTPISFQGSTAPAAYVRVESWGEYAPSKPKMMTPRIAAAITKECGIPAERIYVFYYSTKHCGWNGTNF GSHMPFLQTIVSVSLDDQKRANLSAAYGMICREELGKPEDFVMTAFSDKTPISFQGSTAPAAYVRVESWGEYAPSKPKMMTPRIAAAITKECGIPAERIYVFYYSTKHCGWNGTNF 3fww-a1-m1-cA_3fww-a1-m6-cA The crystal structure of the bifunctional N-acetylglucosamine-1-phosphate uridyltransferase/glucosamine-1-phosphate acetyltransferase from Yersinia pestis CO92 A4TSJ5 A4TSJ5 2.5 X-RAY DIFFRACTION 31 1.0 386656 (Yersinia pestis Pestoides F) 386656 (Yersinia pestis Pestoides F) 445 445 3fww-a1-m2-cA_3fww-a1-m5-cA 3fww-a1-m3-cA_3fww-a1-m4-cA SSMSVVILAAGKGTRMYSDLPKVLHPLAGKPMVQHVIDAAMKLGAQHVHLVYGHGGELLKKTLADPSLNWVLQAEQLGTGHAMQQAAPHFADDEDILMLYGDVPLISVDTLQRLLAAKPEGGIGLLTVKLDNPSGYGRIVRENGDVVGIVEHKDASDAQREINEINTGILVANGRDLKRWLSLLDNNQGEFYITDIIALAHADGKKIATVHPTRLSEVEGVNNRLQLSALERVFQTEQAEKLLLAGVMLLDPSRFDLRGELTHGRDITIDTNVIIEGHVILGDRVRIGTGCVLKNCVIGDDSEISPYTVLEDARLDANCTVGPFARLRPGAELAEGAHVGNFVEIKKARLGKGSKAGHLSYLGDAEIGAGVNIGAGTITCNYDNKFKTIIGDDVFVGSDTQLVAPVTVANGATIGAGTTVTRDVAENELVISRVKQVHIQGWKRP SSMSVVILAAGKGTRMYSDLPKVLHPLAGKPMVQHVIDAAMKLGAQHVHLVYGHGGELLKKTLADPSLNWVLQAEQLGTGHAMQQAAPHFADDEDILMLYGDVPLISVDTLQRLLAAKPEGGIGLLTVKLDNPSGYGRIVRENGDVVGIVEHKDASDAQREINEINTGILVANGRDLKRWLSLLDNNQGEFYITDIIALAHADGKKIATVHPTRLSEVEGVNNRLQLSALERVFQTEQAEKLLLAGVMLLDPSRFDLRGELTHGRDITIDTNVIIEGHVILGDRVRIGTGCVLKNCVIGDDSEISPYTVLEDARLDANCTVGPFARLRPGAELAEGAHVGNFVEIKKARLGKGSKAGHLSYLGDAEIGAGVNIGAGTITCNYDNKFKTIIGDDVFVGSDTQLVAPVTVANGATIGAGTTVTRDVAENELVISRVKQVHIQGWKRP 3fww-a1-m5-cA_3fww-a1-m6-cA The crystal structure of the bifunctional N-acetylglucosamine-1-phosphate uridyltransferase/glucosamine-1-phosphate acetyltransferase from Yersinia pestis CO92 A4TSJ5 A4TSJ5 2.5 X-RAY DIFFRACTION 152 1.0 386656 (Yersinia pestis Pestoides F) 386656 (Yersinia pestis Pestoides F) 445 445 3fww-a1-m1-cA_3fww-a1-m2-cA 3fww-a1-m1-cA_3fww-a1-m3-cA 3fww-a1-m2-cA_3fww-a1-m3-cA 3fww-a1-m4-cA_3fww-a1-m5-cA 3fww-a1-m4-cA_3fww-a1-m6-cA 4fce-a1-m1-cA_4fce-a1-m2-cA 4fce-a1-m1-cA_4fce-a1-m3-cA 4fce-a1-m2-cA_4fce-a1-m3-cA SSMSVVILAAGKGTRMYSDLPKVLHPLAGKPMVQHVIDAAMKLGAQHVHLVYGHGGELLKKTLADPSLNWVLQAEQLGTGHAMQQAAPHFADDEDILMLYGDVPLISVDTLQRLLAAKPEGGIGLLTVKLDNPSGYGRIVRENGDVVGIVEHKDASDAQREINEINTGILVANGRDLKRWLSLLDNNQGEFYITDIIALAHADGKKIATVHPTRLSEVEGVNNRLQLSALERVFQTEQAEKLLLAGVMLLDPSRFDLRGELTHGRDITIDTNVIIEGHVILGDRVRIGTGCVLKNCVIGDDSEISPYTVLEDARLDANCTVGPFARLRPGAELAEGAHVGNFVEIKKARLGKGSKAGHLSYLGDAEIGAGVNIGAGTITCNYDNKFKTIIGDDVFVGSDTQLVAPVTVANGATIGAGTTVTRDVAENELVISRVKQVHIQGWKRP SSMSVVILAAGKGTRMYSDLPKVLHPLAGKPMVQHVIDAAMKLGAQHVHLVYGHGGELLKKTLADPSLNWVLQAEQLGTGHAMQQAAPHFADDEDILMLYGDVPLISVDTLQRLLAAKPEGGIGLLTVKLDNPSGYGRIVRENGDVVGIVEHKDASDAQREINEINTGILVANGRDLKRWLSLLDNNQGEFYITDIIALAHADGKKIATVHPTRLSEVEGVNNRLQLSALERVFQTEQAEKLLLAGVMLLDPSRFDLRGELTHGRDITIDTNVIIEGHVILGDRVRIGTGCVLKNCVIGDDSEISPYTVLEDARLDANCTVGPFARLRPGAELAEGAHVGNFVEIKKARLGKGSKAGHLSYLGDAEIGAGVNIGAGTITCNYDNKFKTIIGDDVFVGSDTQLVAPVTVANGATIGAGTTVTRDVAENELVISRVKQVHIQGWKRP 3fwz-a1-m1-cB_3fwz-a1-m1-cA Crystal structure of TrkA-N domain of inner membrane protein ybaL from Escherichia coli P39830 P39830 1.79 X-RAY DIFFRACTION 83 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 132 137 VDICNHALLVGYGRVGSLLGEKLLASDIPLVVIETSRTRVDELRERGVRAVLGNAANEEIQLAHLECAKWLILTIPNGYEAGEIVASARAKNPDIEIIARAHYDDEVAYITERGANQVVGEREIARTLELLE SNAVDICNHALLVGYGRVGSLLGEKLLASDIPLVVIETSRTRVDELRERGVRAVLGNAANEEIQLAHLECAKWLILTIPNGYEAGEIVASARAKNPDIEIIARAHYDDEVAYITERGANQVVGEREIARTLELLETP 3fx3-a1-m1-cA_3fx3-a1-m1-cB Structure of a putative cAMP-binding regulatory protein from Silicibacter pomeroyi DSS-3 Q5LKQ8 Q5LKQ8 2.2 X-RAY DIFFRACTION 124 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 213 226 3h3z-a1-m1-cA_3h3z-a1-m1-cB HEAQKAIARNSLLIRSLPEQHVDALLSQAVWRSYDRGETLFLQEEKAQAIHVVIDGWVKLFRTPTGSEAVVSVFTRGESFGEAVALRNTPYPVSAEAVTPCEVHIPSPVFVSLRRDPEICISILATTFGHLHSLVAQLEQLKAQTGAQRVAEFLLELCDCEVTLPYDKLIAGRLGKPESLSRAFSRLKAAGVTVKRNHAEIEDIALLRDYAES AHEAQKAIARNSLLIRSLPEQHVDALLSQAVWRSYDRGETLFLQEEKAQAIHVVIDGWVKLFRTPTGSEAVVSVFTRGESFGEAVALRNTPYPVSAEAVTPCEVHIPSPVFVSLRRDPEICISILATTFGHLHSLVAQLEQLKAQTGAQRVAEFLLELCDCDTGACEVTLPYDKLIAGRLGKPESLSRAFSRLKAAGVTVKRNHAEIEDIALLRDYAESDPADSWS 3fx7-a1-m1-cA_3fx7-a1-m1-cB Crystal structure of hypothetical protein of HP0062 from Helicobacter pylori O24902 O24902 1.65 X-RAY DIFFRACTION 81 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 84 87 2gts-a2-m1-cA_2gts-a2-m2-cA QMDTEEVREFVGHLERFKELLREEVNSLSNHFHNLESWRDARRDKFSEVLDNLKSTFNEFDEAAQEQIAWLKERIRVLEEDYLE QMDTEEVREFVGHLERFKELLREEVNSLSNHFHNLESWRDARRDKFSEVLDNLKSTFNEFDEAAQEQIAWLKERIRVLEEDYLEHHH 3fxa-a1-m1-cB_3fxa-a1-m1-cD Crystal structure of a putative sugar-phosphate isomerase (lmof2365_0531) from listeria monocytogenes str. 4b f2365 at 1.60 A resolution 1.6 X-RAY DIFFRACTION 32 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 186 186 3fxa-a1-m1-cA_3fxa-a1-m1-cC GDKQAILDNIHQTWQEEANAISRLPEVTSEEALVKTVEKIAECTGKIVVAGCGTSGVAAKKLVHSFNCIERPAVFLTPSDAVHGTLGVLQKEDILILISKGGNTGELLNLIPACKTKGSTLIGVTENPDSVIAKEADIFFPVSVSKEPDPFNLATASTAVIASFDAVIVCLTYNYTKEQFSVIHPG GDKQAILDNIHQTWQEEANAISRLPEVTSEEALVKTVEKIAECTGKIVVAGCGTSGVAAKKLVHSFNCIERPAVFLTPSDAVHGTLGVLQKEDILILISKGGNTGELLNLIPACKTKGSTLIGVTENPDSVIAKEADIFFPVSVSKEPDPFNLATASTAVIASFDAVIVCLTYNYTKEQFSVIHPG 3fxa-a1-m1-cD_3fxa-a1-m1-cA Crystal structure of a putative sugar-phosphate isomerase (lmof2365_0531) from listeria monocytogenes str. 4b f2365 at 1.60 A resolution 1.6 X-RAY DIFFRACTION 93 0.995 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 186 187 3fxa-a1-m1-cB_3fxa-a1-m1-cC GDKQAILDNIHQTWQEEANAISRLPEVTSEEALVKTVEKIAECTGKIVVAGCGTSGVAAKKLVHSFNCIERPAVFLTPSDAVHGTLGVLQKEDILILISKGGNTGELLNLIPACKTKGSTLIGVTENPDSVIAKEADIFFPVSVSKEPDPFNLATASTAVIASFDAVIVCLTYNYTKEQFSVIHPG DKQAILDNIHQTWQEEANAISRLPEVTSEEALVKTVEKIAECTGKIVVAGCGTSGVAAKKLVHSFNCIERPAVFLTPSDAVHGTLGVLQKEDILILISKGGNTGELLNLIPACKTKGSTLIGVTENPDSVIAKEADIFFPVSVSKEPDPFNLATASTAVIASFDAVIVCLTYNYTKEQFSVIHPGGA 3fxa-a1-m1-cD_3fxa-a1-m1-cC Crystal structure of a putative sugar-phosphate isomerase (lmof2365_0531) from listeria monocytogenes str. 4b f2365 at 1.60 A resolution 1.6 X-RAY DIFFRACTION 145 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 186 187 3fxa-a1-m1-cB_3fxa-a1-m1-cA GDKQAILDNIHQTWQEEANAISRLPEVTSEEALVKTVEKIAECTGKIVVAGCGTSGVAAKKLVHSFNCIERPAVFLTPSDAVHGTLGVLQKEDILILISKGGNTGELLNLIPACKTKGSTLIGVTENPDSVIAKEADIFFPVSVSKEPDPFNLATASTAVIASFDAVIVCLTYNYTKEQFSVIHPG GDKQAILDNIHQTWQEEANAISRLPEVTSEEALVKTVEKIAECTGKIVVAGCGTSGVAAKKLVHSFNCIERPAVFLTPSDAVHGTLGVLQKEDILILISKGGNTGELLNLIPACKTKGSTLIGVTENPDSVIAKEADIFFPVSVSKEPDPFNLATASTAVIASFDAVIVCLTYNYTKEQFSVIHPGG 3fxg-a1-m1-cB_3fxg-a1-m1-cE Crystal structure of rhamnonate dehydratase from Gibberella zeae complexed with Mg D0VX14 D0VX14 1.9 X-RAY DIFFRACTION 118 1.0 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 400 401 2p0i-a1-m1-cA_2p0i-a1-m1-cC 2p0i-a1-m1-cB_2p0i-a1-m1-cE 2p0i-a1-m1-cD_2p0i-a1-m1-cG 2p0i-a1-m1-cF_2p0i-a1-m1-cH 3fxg-a1-m1-cC_3fxg-a1-m1-cA 3fxg-a1-m1-cD_3fxg-a1-m1-cG 3fxg-a1-m1-cH_3fxg-a1-m1-cF SSVKDFPKIKAIRSFIIGGVGSGGDYHNVKGGHWLIDSDISTPASKWEQYKKSRTSWGINVLGSFLVEIEATDGTVGFATGFGGPPACWLVHQHFERFLIGADPRNTNLLFEQYRASFYGRKGLPIAVISVIDLALWDLLGKVRNEPVYRLIGGATKERLDFYCTGPEPTAAKAGFWGGKVPLPFCPDDGHEGLRKNVEFLRKHREAVGPDFPIVDCYSLNVSYTIELVKACLDLNINWWEECLSPDDTDGFALIKRAHPTVKFTTGEHEYSRYGFRKLVEGRNLDIIQPDVWLGGLTELLKVAALAAAYDVPVVPHASGPYSYHFQISQPNTPFQEYLANSPDGKSVLPVFGDLFIDEPIPTKGYLTTADLDKPGFGLTINPAARAKLIPSDYLFKVPE LSSVKDFPKIKAIRSFIIGGVGSGGDYHNVKGGHWLIDSDISTPASKWEQYKKSRTSWGINVLGSFLVEIEATDGTVGFATGFGGPPACWLVHQHFERFLIGADPRNTNLLFEQYRASFYGRKGLPIAVISVIDLALWDLLGKVRNEPVYRLIGGATKERLDFYCTGPEPTAAKAGFWGGKVPLPFCPDDGHEGLRKNVEFLRKHREAVGPDFPIVDCYSLNVSYTIELVKACLDLNINWWEECLSPDDTDGFALIKRAHPTVKFTTGEHEYSRYGFRKLVEGRNLDIIQPDVWLGGLTELLKVAALAAAYDVPVVPHASGPYSYHFQISQPNTPFQEYLANSPDGKSVLPVFGDLFIDEPIPTKGYLTTADLDKPGFGLTINPAARAKLIPSDYLFKVPE 3fxg-a1-m1-cF_3fxg-a1-m1-cE Crystal structure of rhamnonate dehydratase from Gibberella zeae complexed with Mg D0VX14 D0VX14 1.9 X-RAY DIFFRACTION 119 1.0 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 400 401 2p0i-a1-m1-cB_2p0i-a1-m1-cA 2p0i-a1-m1-cD_2p0i-a1-m1-cC 2p0i-a1-m1-cE_2p0i-a1-m1-cF 2p0i-a1-m1-cG_2p0i-a1-m1-cH 3fxg-a1-m1-cB_3fxg-a1-m1-cA 3fxg-a1-m1-cC_3fxg-a1-m1-cD 3fxg-a1-m1-cH_3fxg-a1-m1-cG LSSVKDFPKIKAIRSFIIGGVGSGGDYHNVKGGHWLIDSDISTPASKWEQYKKSRTSWGINVLGSFLVEIEATDGTVGFATGFGGPPACWLVHQHFERFLIGADPRNTNLLFEQYRASFYGRKGLPIAVISVIDLALWDLLGKVRNEPVYRLIGGATKERLDFYCTGPEPTAAKAGFWGGKVPLPFCPDDGHEGLRKNVEFLRKHREAVGPDFPIVDCYSLNVSYTIELVKACLDLNINWWEECLSPDDTDGFALIKRAHPTVKFTTGEHEYSRYGFRKLVEGRNLDIIQPDVWLGGLTELLKVAALAAAYDVPVVPHASGPYSYHFQISQPNTPFQEYLANSPDGKSVLPVFGDLFIDEPIPTKGYLTTADLDKPGFGLTINPAARAKLIPSDYLFKVP LSSVKDFPKIKAIRSFIIGGVGSGGDYHNVKGGHWLIDSDISTPASKWEQYKKSRTSWGINVLGSFLVEIEATDGTVGFATGFGGPPACWLVHQHFERFLIGADPRNTNLLFEQYRASFYGRKGLPIAVISVIDLALWDLLGKVRNEPVYRLIGGATKERLDFYCTGPEPTAAKAGFWGGKVPLPFCPDDGHEGLRKNVEFLRKHREAVGPDFPIVDCYSLNVSYTIELVKACLDLNINWWEECLSPDDTDGFALIKRAHPTVKFTTGEHEYSRYGFRKLVEGRNLDIIQPDVWLGGLTELLKVAALAAAYDVPVVPHASGPYSYHFQISQPNTPFQEYLANSPDGKSVLPVFGDLFIDEPIPTKGYLTTADLDKPGFGLTINPAARAKLIPSDYLFKVPE 3fxg-a1-m1-cH_3fxg-a1-m1-cE Crystal structure of rhamnonate dehydratase from Gibberella zeae complexed with Mg D0VX14 D0VX14 1.9 X-RAY DIFFRACTION 25 1.0 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 399 401 2p0i-a1-m1-cA_2p0i-a1-m1-cE 2p0i-a1-m1-cB_2p0i-a1-m1-cC 2p0i-a1-m1-cB_2p0i-a1-m1-cF 2p0i-a1-m1-cC_2p0i-a1-m1-cG 2p0i-a1-m1-cD_2p0i-a1-m1-cA 2p0i-a1-m1-cD_2p0i-a1-m1-cH 2p0i-a1-m1-cE_2p0i-a1-m1-cH 2p0i-a1-m1-cF_2p0i-a1-m1-cG 3fxg-a1-m1-cA_3fxg-a1-m1-cE 3fxg-a1-m1-cB_3fxg-a1-m1-cF 3fxg-a1-m1-cC_3fxg-a1-m1-cB 3fxg-a1-m1-cC_3fxg-a1-m1-cG 3fxg-a1-m1-cD_3fxg-a1-m1-cA 3fxg-a1-m1-cD_3fxg-a1-m1-cH 3fxg-a1-m1-cF_3fxg-a1-m1-cG SVKDFPKIKAIRSFIIGGVGSGGDYHNVKGGHWLIDSDISTPASKWEQYKKSRTSWGINVLGSFLVEIEATDGTVGFATGFGGPPACWLVHQHFERFLIGADPRNTNLLFEQYRASFYGRKGLPIAVISVIDLALWDLLGKVRNEPVYRLIGGATKERLDFYCTGPEPTAAKAGFWGGKVPLPFCPDDGHEGLRKNVEFLRKHREAVGPDFPIVDCYSLNVSYTIELVKACLDLNINWWEECLSPDDTDGFALIKRAHPTVKFTTGEHEYSRYGFRKLVEGRNLDIIQPDVWLGGLTELLKVAALAAAYDVPVVPHASGPYSYHFQISQPNTPFQEYLANSPDGKSVLPVFGDLFIDEPIPTKGYLTTADLDKPGFGLTINPAARAKLIPSDYLFKVPE LSSVKDFPKIKAIRSFIIGGVGSGGDYHNVKGGHWLIDSDISTPASKWEQYKKSRTSWGINVLGSFLVEIEATDGTVGFATGFGGPPACWLVHQHFERFLIGADPRNTNLLFEQYRASFYGRKGLPIAVISVIDLALWDLLGKVRNEPVYRLIGGATKERLDFYCTGPEPTAAKAGFWGGKVPLPFCPDDGHEGLRKNVEFLRKHREAVGPDFPIVDCYSLNVSYTIELVKACLDLNINWWEECLSPDDTDGFALIKRAHPTVKFTTGEHEYSRYGFRKLVEGRNLDIIQPDVWLGGLTELLKVAALAAAYDVPVVPHASGPYSYHFQISQPNTPFQEYLANSPDGKSVLPVFGDLFIDEPIPTKGYLTTADLDKPGFGLTINPAARAKLIPSDYLFKVPE 3fxh-a1-m1-cA_3fxh-a1-m2-cA Crystal structure from the mobile metagenome of Halifax Harbour Sewage Outfall: Integron Cassette Protein HFX_CASS2 B0BHE4 B0BHE4 1.837 X-RAY DIFFRACTION 56 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 110 110 QGNNKHATSAVHEIIREICRLVDSGHSTRDQFHELSEQERFIAFLAEKYSSTIKLYYLADSSPLFEKDTSSFIENAFGRHANTVVEDFGLKSNALLLAINICLAILREIN QGNNKHATSAVHEIIREICRLVDSGHSTRDQFHELSEQERFIAFLAEKYSSTIKLYYLADSSPLFEKDTSSFIENAFGRHANTVVEDFGLKSNALLLAINICLAILREIN 3fxt-a5-m1-cC_3fxt-a5-m3-cF Crystal structure of the N-terminal domain of human NUDT6 P53370 P53370 2.3 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 3fxt-a1-m1-cE_3fxt-a1-m1-cA 3fxt-a2-m1-cG_3fxt-a2-m1-cB 3fxt-a3-m1-cF_3fxt-a3-m2-cC 3fxt-a4-m1-cH_3fxt-a4-m1-cD QSMDLQGELDRFGGISVRLARLDALDRLDAAAFQKGLQAAVQQWRSEGRTAVWLHIPILQSRFIAPAASLGFCFHHAESDSSTLTLWLRE QSMDLQGELDRFGGISVRLARLDALDRLDAAAFQKGLQAAVQQWRSEGRTAVWLHIPILQSRFIAPAASLGFCFHHAESDSSTLTLWLRE 3fxu-a1-m2-cB_3fxu-a1-m1-cA Crystal structure of TsaR in complex with its effector p-toluenesulfonate P94678 P94678 1.95 X-RAY DIFFRACTION 115 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 267 296 3fxq-a1-m1-cA_3fxq-a1-m2-cB 3fxq-a1-m1-cB_3fxq-a1-m2-cA 3fxr-a1-m1-cA_3fxr-a1-m2-cB 3fxr-a1-m1-cB_3fxr-a1-m2-cA 3fxu-a1-m1-cB_3fxu-a1-m2-cA 3n6t-a2-m1-cA_3n6t-a2-m2-cA 3n6u-a2-m1-cA_3n6u-a2-m2-cA MLKLQTLQALICAIQQLEDELKAPLLVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL MLKLQTLQALICIEEVGSLRAAAQLLHLSQPALSAAIQQLEDELKAPLLVRTKRGVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL 3fxu-a1-m2-cB_3fxu-a1-m2-cA Crystal structure of TsaR in complex with its effector p-toluenesulfonate P94678 P94678 1.95 X-RAY DIFFRACTION 95 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 267 296 3fxq-a1-m1-cA_3fxq-a1-m1-cB 3fxq-a1-m2-cA_3fxq-a1-m2-cB 3fxr-a1-m1-cA_3fxr-a1-m1-cB 3fxr-a1-m2-cA_3fxr-a1-m2-cB 3fxu-a1-m1-cB_3fxu-a1-m1-cA 3fzj-a1-m1-cA_3fzj-a1-m1-cB 3fzj-a1-m1-cC_3fzj-a1-m1-cD 3fzj-a2-m1-cE_3fzj-a2-m1-cF 3fzj-a2-m1-cG_3fzj-a2-m1-cH 3fzj-a3-m1-cI_3fzj-a3-m1-cJ 3fzj-a3-m2-cI_3fzj-a3-m2-cJ MLKLQTLQALICAIQQLEDELKAPLLVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL MLKLQTLQALICIEEVGSLRAAAQLLHLSQPALSAAIQQLEDELKAPLLVRTKRGVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL 3fy5-a2-m1-cB_3fy5-a2-m2-cB Dishevelled PDZ domain homodimer P51142 P51142 2.4 X-RAY DIFFRACTION 28 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 80 80 3fy5-a1-m1-cA_3fy5-a1-m2-cA TVTLNEKYNFLGISIVGQSNGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKC TVTLNEKYNFLGISIVGQSNGGIYIGSIKGGAVAADGRIEPGDLLQVNDINFENSNDDAVRVLRDIVHKPGPIVLTVAKC 3fy6-a2-m1-cD_3fy6-a2-m1-cB Structure from the mobile metagenome of V. Cholerae. Integron cassette protein VCH_CASS3 M1E1E6 M1E1E6 2.1 X-RAY DIFFRACTION 73 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 115 122 3fy6-a1-m1-cA_3fy6-a1-m1-cC GTEVNLNIYSPRWGRHETYIVELHKDYEISGAVTIKATYSENQDPEWSEETLQDINNDSVYPPEITQNLFQHAWLEWRKGALDNDEVTRELELVAQWVNKVTEAKPNSDFWRKYF RENLYFQGTEVNLNIYSPRWGRHETYIVELHKDYEISGAVTIKATYSENQDPEWSEETLQDINNDSVYPPEITQNLFQHAWLEWRKGALDNDEVTRELELVAQWVNKVTEAKPNSDFWRKYF 3fyb-a1-m1-cB_3fyb-a1-m1-cA Crystal structure of a protein of unknown function (DUF1244) from Alcanivorax borkumensis Q0VSW0 Q0VSW0 1.8 X-RAY DIFFRACTION 126 1.0 393595 (Alcanivorax borkumensis SK2) 393595 (Alcanivorax borkumensis SK2) 83 93 GADIDQASKTEEAAAFRHLLRHLDEHKDVQNIDLIQADFCRNCLAKWLEAATEQGVELDYDGAREYVYGPFAEWKTLYQKPAS GADIDQASKTEEAAAFRHLLRHLDEHKDVQNIDLIQADFCRNCLAKWLEAATEQGVELDYDGAREYVYGPFAEWKTLYQKPASEAQLAAFEAK 3fyf-a1-m1-cA_3fyf-a1-m1-cB Crystal structure of uncharacterized protein bvu_3222 from bacteroides vulgatus A6L587 A6L587 2.2 X-RAY DIFFRACTION 65 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 149 166 EAWKKERQEKKALEAQQDSVSYVQAINALKNGSFVLEADNVVFRNGIMRFVSSNTNYVEVNDGQGIIQTAFTNFVYNGVTVQGNVNGISMRQDKDGNVYYNYGINGIAVSATVSIVLTGGTNQASVTINPNFSGNTLTMNGYLVPYNEG SLQTRKQREDAKREAWKKERQEKKALEAQQDSVSYVQAINALKNGSFVLEADNVVFRNGIMRFVSSNTNYVEVNDGQGIIQTAFTNFVYNGGVTVQGNVNGISMRQDKDGNVYYNYGINGIAVSATVSIVLTGGTNQASVTINPNFSGNTLTMNGYLVPYNEGHHH 3fyn-a1-m1-cA_3fyn-a1-m2-cA Crystal structure from the mobile metagenome of Cole Harbour Salt Marsh: Integron Cassette Protein HFX_CASS3 B0BFQ1 B0BFQ1 1.449 X-RAY DIFFRACTION 155 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 149 149 NLYFQGLSPQVRTAHIGDVPVLVRLSEFYQEAGFALPHDAAIRAFKALLGKPDLGRIWLIAEGTESVGYIVLTLGFSEYGGLRGFVDDFFVRPNARGKGLGAAALQTVKQGCCDLGVRALLVETGVYSRAGFEESGRLLGQALAPPIHE NLYFQGLSPQVRTAHIGDVPVLVRLSEFYQEAGFALPHDAAIRAFKALLGKPDLGRIWLIAEGTESVGYIVLTLGFSEYGGLRGFVDDFFVRPNARGKGLGAAALQTVKQGCCDLGVRALLVETGVYSRAGFEESGRLLGQALAPPIHE 3fyr-a2-m2-cB_3fyr-a2-m1-cA Crystal structure of the sporulation histidine kinase inhibitor Sda from Bacillus subtilis Q7WY62 Q7WY62 1.97 X-RAY DIFFRACTION 22 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 35 36 3fyr-a2-m1-cB_3fyr-a2-m2-cA RKLSDELLIESYFKATENLNRDFIELIENEIKRRS RKLSDELLIESYFKATENLNRDFIELIENEIKRRSL 3fyy-a2-m1-cA_3fyy-a2-m4-cB Crystal structure of divergent enolase from Oceanobacillus iheyensis complexed with Mg Q8EMJ9 Q8EMJ9 1.8 X-RAY DIFFRACTION 98 1.0 221109 (Oceanobacillus iheyensis HTE831) 221109 (Oceanobacillus iheyensis HTE831) 375 375 2oqy-a1-m1-cA_2oqy-a1-m1-cF 2oqy-a1-m1-cB_2oqy-a1-m1-cG 2oqy-a1-m1-cC_2oqy-a1-m1-cH 2oqy-a1-m1-cD_2oqy-a1-m1-cE 3es7-a1-m1-cA_3es7-a1-m4-cB 3es7-a1-m1-cB_3es7-a1-m3-cA 3es7-a1-m2-cA_3es7-a1-m3-cB 3es7-a1-m2-cB_3es7-a1-m4-cA 3es7-a2-m1-cA_3es7-a2-m4-cB 3es8-a1-m1-cA_3es8-a1-m1-cB 3es8-a1-m1-cC_3es8-a1-m1-cD 3es8-a1-m1-cE_3es8-a1-m1-cF 3es8-a1-m1-cG_3es8-a1-m1-cH 3es8-a2-m1-cA_3es8-a2-m1-cB 3es8-a3-m1-cC_3es8-a3-m1-cD 3es8-a4-m1-cE_3es8-a4-m1-cF 3es8-a5-m1-cG_3es8-a5-m1-cH 3fyy-a2-m1-cB_3fyy-a2-m3-cA 3fyy-a2-m2-cA_3fyy-a2-m3-cB 3fyy-a2-m2-cB_3fyy-a2-m4-cA 3gd6-a1-m1-cA_3gd6-a1-m2-cA 3gd6-a2-m1-cA_3gd6-a2-m2-cA 3gd6-a2-m3-cA_3gd6-a2-m6-cA 3gd6-a2-m4-cA_3gd6-a2-m7-cA 3gd6-a2-m5-cA_3gd6-a2-m8-cA 3hpf-a2-m1-cA_3hpf-a2-m3-cB 3hpf-a2-m1-cB_3hpf-a2-m4-cA 3hpf-a2-m2-cA_3hpf-a2-m4-cB 3hpf-a2-m2-cB_3hpf-a2-m3-cA MKITDLELHAVGIPRHTGFVNKHVIVKIHTDEGLTGIGEMSDFSHLPLYSVDLHDLKQGLLSILLGQNPFDLMKINKELTDNFPETMYYYEKGSFIRNGIDNALHDLCAKYLDISVSDFLGGRVKEKIKVCYPIFRHRFSEEVESNLDVVRQKLEQGFDVFRLYVGKNLDADEEFLSRVKEEFGSRVRIKSYDFSHLLNWKDAHRAIKRLTKYDLGLEMIESPAPRNDFDGLYQLRLKTDYPISEHVWSFKQQQEMIKKDAIDIFNISPVFIGGLTSAKKAAYAAEVASKDVVLGTTQELSVGTAAMAHLGCSLTNINHTSDPTGPELYVGDVVKNRVTYKDGYLYAPDRSVKGLGIELDESLLAKYQVPDLSWD MKITDLELHAVGIPRHTGFVNKHVIVKIHTDEGLTGIGEMSDFSHLPLYSVDLHDLKQGLLSILLGQNPFDLMKINKELTDNFPETMYYYEKGSFIRNGIDNALHDLCAKYLDISVSDFLGGRVKEKIKVCYPIFRHRFSEEVESNLDVVRQKLEQGFDVFRLYVGKNLDADEEFLSRVKEEFGSRVRIKSYDFSHLLNWKDAHRAIKRLTKYDLGLEMIESPAPRNDFDGLYQLRLKTDYPISEHVWSFKQQQEMIKKDAIDIFNISPVFIGGLTSAKKAAYAAEVASKDVVLGTTQELSVGTAAMAHLGCSLTNINHTSDPTGPELYVGDVVKNRVTYKDGYLYAPDRSVKGLGIELDESLLAKYQVPDLSWD 3fyy-a2-m2-cB_3fyy-a2-m4-cB Crystal structure of divergent enolase from Oceanobacillus iheyensis complexed with Mg Q8EMJ9 Q8EMJ9 1.8 X-RAY DIFFRACTION 12 1.0 221109 (Oceanobacillus iheyensis HTE831) 221109 (Oceanobacillus iheyensis HTE831) 375 375 2oqy-a1-m1-cA_2oqy-a1-m1-cD 2oqy-a1-m1-cA_2oqy-a1-m1-cG 2oqy-a1-m1-cB_2oqy-a1-m1-cC 2oqy-a1-m1-cB_2oqy-a1-m1-cF 2oqy-a1-m1-cC_2oqy-a1-m1-cE 2oqy-a1-m1-cD_2oqy-a1-m1-cH 2oqy-a1-m1-cE_2oqy-a1-m1-cF 2oqy-a1-m1-cG_2oqy-a1-m1-cH 3es7-a1-m1-cA_3es7-a1-m3-cA 3es7-a1-m1-cA_3es7-a1-m4-cA 3es7-a1-m1-cB_3es7-a1-m3-cB 3es7-a1-m1-cB_3es7-a1-m4-cB 3es7-a1-m2-cA_3es7-a1-m3-cA 3es7-a1-m2-cA_3es7-a1-m4-cA 3es7-a1-m2-cB_3es7-a1-m3-cB 3es7-a1-m2-cB_3es7-a1-m4-cB 3es8-a1-m1-cA_3es8-a1-m1-cD 3es8-a1-m1-cA_3es8-a1-m1-cG 3es8-a1-m1-cB_3es8-a1-m1-cC 3es8-a1-m1-cB_3es8-a1-m1-cH 3es8-a1-m1-cC_3es8-a1-m1-cE 3es8-a1-m1-cD_3es8-a1-m1-cF 3es8-a1-m1-cE_3es8-a1-m1-cH 3es8-a1-m1-cF_3es8-a1-m1-cG 3fyy-a2-m1-cA_3fyy-a2-m3-cA 3fyy-a2-m1-cA_3fyy-a2-m4-cA 3fyy-a2-m1-cB_3fyy-a2-m3-cB 3fyy-a2-m1-cB_3fyy-a2-m4-cB 3fyy-a2-m2-cA_3fyy-a2-m3-cA 3fyy-a2-m2-cA_3fyy-a2-m4-cA 3fyy-a2-m2-cB_3fyy-a2-m3-cB 3gd6-a2-m1-cA_3gd6-a2-m4-cA 3gd6-a2-m1-cA_3gd6-a2-m5-cA 3gd6-a2-m2-cA_3gd6-a2-m7-cA 3gd6-a2-m2-cA_3gd6-a2-m8-cA 3gd6-a2-m3-cA_3gd6-a2-m4-cA 3gd6-a2-m3-cA_3gd6-a2-m5-cA 3gd6-a2-m6-cA_3gd6-a2-m7-cA 3gd6-a2-m6-cA_3gd6-a2-m8-cA 3hpf-a2-m1-cA_3hpf-a2-m3-cA 3hpf-a2-m1-cA_3hpf-a2-m4-cA 3hpf-a2-m1-cB_3hpf-a2-m3-cB 3hpf-a2-m1-cB_3hpf-a2-m4-cB 3hpf-a2-m2-cA_3hpf-a2-m3-cA 3hpf-a2-m2-cA_3hpf-a2-m4-cA 3hpf-a2-m2-cB_3hpf-a2-m3-cB 3hpf-a2-m2-cB_3hpf-a2-m4-cB MKITDLELHAVGIPRHTGFVNKHVIVKIHTDEGLTGIGEMSDFSHLPLYSVDLHDLKQGLLSILLGQNPFDLMKINKELTDNFPETMYYYEKGSFIRNGIDNALHDLCAKYLDISVSDFLGGRVKEKIKVCYPIFRHRFSEEVESNLDVVRQKLEQGFDVFRLYVGKNLDADEEFLSRVKEEFGSRVRIKSYDFSHLLNWKDAHRAIKRLTKYDLGLEMIESPAPRNDFDGLYQLRLKTDYPISEHVWSFKQQQEMIKKDAIDIFNISPVFIGGLTSAKKAAYAAEVASKDVVLGTTQELSVGTAAMAHLGCSLTNINHTSDPTGPELYVGDVVKNRVTYKDGYLYAPDRSVKGLGIELDESLLAKYQVPDLSWD MKITDLELHAVGIPRHTGFVNKHVIVKIHTDEGLTGIGEMSDFSHLPLYSVDLHDLKQGLLSILLGQNPFDLMKINKELTDNFPETMYYYEKGSFIRNGIDNALHDLCAKYLDISVSDFLGGRVKEKIKVCYPIFRHRFSEEVESNLDVVRQKLEQGFDVFRLYVGKNLDADEEFLSRVKEEFGSRVRIKSYDFSHLLNWKDAHRAIKRLTKYDLGLEMIESPAPRNDFDGLYQLRLKTDYPISEHVWSFKQQQEMIKKDAIDIFNISPVFIGGLTSAKKAAYAAEVASKDVVLGTTQELSVGTAAMAHLGCSLTNINHTSDPTGPELYVGDVVKNRVTYKDGYLYAPDRSVKGLGIELDESLLAKYQVPDLSWD 3fyy-a2-m4-cA_3fyy-a2-m4-cB Crystal structure of divergent enolase from Oceanobacillus iheyensis complexed with Mg Q8EMJ9 Q8EMJ9 1.8 X-RAY DIFFRACTION 96 1.0 221109 (Oceanobacillus iheyensis HTE831) 221109 (Oceanobacillus iheyensis HTE831) 375 375 2oqy-a1-m1-cA_2oqy-a1-m1-cB 2oqy-a1-m1-cC_2oqy-a1-m1-cG 2oqy-a1-m1-cD_2oqy-a1-m1-cF 2oqy-a1-m1-cE_2oqy-a1-m1-cH 3es7-a1-m1-cA_3es7-a1-m1-cB 3es7-a1-m2-cA_3es7-a1-m2-cB 3es7-a1-m3-cA_3es7-a1-m3-cB 3es7-a1-m4-cA_3es7-a1-m4-cB 3es8-a1-m1-cA_3es8-a1-m1-cC 3es8-a1-m1-cB_3es8-a1-m1-cG 3es8-a1-m1-cD_3es8-a1-m1-cE 3es8-a1-m1-cF_3es8-a1-m1-cH 3fyy-a1-m1-cA_3fyy-a1-m1-cB 3fyy-a2-m1-cA_3fyy-a2-m1-cB 3fyy-a2-m2-cA_3fyy-a2-m2-cB 3fyy-a2-m3-cA_3fyy-a2-m3-cB 3gd6-a2-m1-cA_3gd6-a2-m7-cA 3gd6-a2-m2-cA_3gd6-a2-m5-cA 3gd6-a2-m3-cA_3gd6-a2-m8-cA 3gd6-a2-m4-cA_3gd6-a2-m6-cA 3hpf-a1-m1-cA_3hpf-a1-m1-cB 3hpf-a2-m1-cA_3hpf-a2-m1-cB 3hpf-a2-m2-cA_3hpf-a2-m2-cB 3hpf-a2-m3-cA_3hpf-a2-m3-cB 3hpf-a2-m4-cA_3hpf-a2-m4-cB MKITDLELHAVGIPRHTGFVNKHVIVKIHTDEGLTGIGEMSDFSHLPLYSVDLHDLKQGLLSILLGQNPFDLMKINKELTDNFPETMYYYEKGSFIRNGIDNALHDLCAKYLDISVSDFLGGRVKEKIKVCYPIFRHRFSEEVESNLDVVRQKLEQGFDVFRLYVGKNLDADEEFLSRVKEEFGSRVRIKSYDFSHLLNWKDAHRAIKRLTKYDLGLEMIESPAPRNDFDGLYQLRLKTDYPISEHVWSFKQQQEMIKKDAIDIFNISPVFIGGLTSAKKAAYAAEVASKDVVLGTTQELSVGTAAMAHLGCSLTNINHTSDPTGPELYVGDVVKNRVTYKDGYLYAPDRSVKGLGIELDESLLAKYQVPDLSWD MKITDLELHAVGIPRHTGFVNKHVIVKIHTDEGLTGIGEMSDFSHLPLYSVDLHDLKQGLLSILLGQNPFDLMKINKELTDNFPETMYYYEKGSFIRNGIDNALHDLCAKYLDISVSDFLGGRVKEKIKVCYPIFRHRFSEEVESNLDVVRQKLEQGFDVFRLYVGKNLDADEEFLSRVKEEFGSRVRIKSYDFSHLLNWKDAHRAIKRLTKYDLGLEMIESPAPRNDFDGLYQLRLKTDYPISEHVWSFKQQQEMIKKDAIDIFNISPVFIGGLTSAKKAAYAAEVASKDVVLGTTQELSVGTAAMAHLGCSLTNINHTSDPTGPELYVGDVVKNRVTYKDGYLYAPDRSVKGLGIELDESLLAKYQVPDLSWD 3fz0-a1-m1-cD_3fz0-a1-m1-cB Inosine-Guanosine Nucleoside Hydrolase (IG-NH) Q57X73 Q57X73 2.5 X-RAY DIFFRACTION 49 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 326 338 3fz0-a1-m1-cA_3fz0-a1-m1-cC HRKLIIDTDCGGDDAIAIMLAMTQPDVEVIAITVVWGNVEVNQGMENIGKLLDLYDADIPFFRGAEGPLVGERETVQWGGFGSDGFGDAGFPPSQRVALQPKRHAALEILKILEEAEPSDDVVYQLVALGPLTNVALALRLNPDLFSKLGTDTIPGIVIMNGTSESKGNSNMAAEFNSHCDPEAGVVVLQHKGWKCPVQLVNWEVTVNSPMTWGFYDKLVNRQNKWQEFIEKLFQRLEAFTRVTCVVPDAVAVLVAIRPESVLDSFLTYVTVELHGRETRGATCIDWYGTEQSMAKKGRWRNCNVITKVDNEMFLKALRDIVEYVA VHRKLIIDTDCGGDDAIAIMLAMTQPDVEVIAITVVWGNVEVNQGMENIGKLLDLYDADIPFFRGAEGPLVGERETVQWGGFGSDGFGDAGFPPSQRVALQPKRHAALEILKILEEAEPSDDVVYQLVALGPLTNVALALRLNPDLFSKLGTDTIPGIVIMNGTSESKGNSNMAAEFNSHCDPEAGVVVLQHKGWKCPVQLVNWEVTVNSPMTWGFYDKLVNRESTPNGRVAVNQNKWQEFIEKLFQRLEAFTRVTCVVPDAVAVLVAIRPESVLDSFLTYVTVELHGRETRGATCIDWYGTEQSMAKKGRWRNCNVITKVDNEMFLKALRDIVEYVA 3fz0-a1-m1-cD_3fz0-a1-m1-cC Inosine-Guanosine Nucleoside Hydrolase (IG-NH) Q57X73 Q57X73 2.5 X-RAY DIFFRACTION 78 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 326 328 3fz0-a1-m1-cA_3fz0-a1-m1-cB HRKLIIDTDCGGDDAIAIMLAMTQPDVEVIAITVVWGNVEVNQGMENIGKLLDLYDADIPFFRGAEGPLVGERETVQWGGFGSDGFGDAGFPPSQRVALQPKRHAALEILKILEEAEPSDDVVYQLVALGPLTNVALALRLNPDLFSKLGTDTIPGIVIMNGTSESKGNSNMAAEFNSHCDPEAGVVVLQHKGWKCPVQLVNWEVTVNSPMTWGFYDKLVNRQNKWQEFIEKLFQRLEAFTRVTCVVPDAVAVLVAIRPESVLDSFLTYVTVELHGRETRGATCIDWYGTEQSMAKKGRWRNCNVITKVDNEMFLKALRDIVEYVA VHRKLIIDTDCGGDDAIAIMLAMTQPDVEVIAITVVWGNVEVNQGMENIGKLLDLYDADIPFFRGAEGPLVGERETVQWGGFGSDGFGDAGFPPSQRVALQPKRHAALEILKILEEAEPSDDVVYQLVALGPLTNVALALRLNPDLFSKLGTDTIPGIVIMNGTSESKGNSNMAAEFNSHCDPEAGVVVLQHKGWKCPVQLVNWEVTVNSPMTWGFYDKLVNRNQNKWQEFIEKLFQRLEAFTRVTCVVPDAVAVLVAIRPESVLDSFLTYVTVELHGRETRGATCIDWYGTEQSMAKKGRWRNCNVITKVDNEMFLKALRDIVEYVA 3fz2-a3-m1-cD_3fz2-a3-m1-cH Crystal structure of the tail terminator protein from phage lambda (gpU-D74A) P03732 P03732 2.7 X-RAY DIFFRACTION 53 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 127 128 3fz2-a1-m1-cA_3fz2-a1-m1-cE 3fz2-a1-m1-cA_3fz2-a1-m1-cK 3fz2-a1-m1-cB_3fz2-a1-m1-cI 3fz2-a1-m1-cB_3fz2-a1-m1-cK 3fz2-a1-m1-cE_3fz2-a1-m1-cF 3fz2-a1-m1-cI_3fz2-a1-m1-cF 3fz2-a2-m1-cC_3fz2-a2-m1-cH 3fz2-a2-m1-cC_3fz2-a2-m1-cJ 3fz2-a2-m1-cD_3fz2-a2-m1-cG 3fz2-a2-m1-cD_3fz2-a2-m1-cH 3fz2-a2-m1-cG_3fz2-a2-m1-cL 3fz2-a2-m1-cL_3fz2-a2-m1-cJ 3fz2-a3-m1-cA_3fz2-a3-m1-cE 3fz2-a3-m1-cA_3fz2-a3-m1-cK 3fz2-a3-m1-cB_3fz2-a3-m1-cI 3fz2-a3-m1-cB_3fz2-a3-m1-cK 3fz2-a3-m1-cC_3fz2-a3-m1-cH 3fz2-a3-m1-cC_3fz2-a3-m1-cJ 3fz2-a3-m1-cD_3fz2-a3-m1-cG 3fz2-a3-m1-cE_3fz2-a3-m1-cF 3fz2-a3-m1-cG_3fz2-a3-m1-cL 3fz2-a3-m1-cI_3fz2-a3-m1-cF 3fz2-a3-m1-cL_3fz2-a3-m1-cJ 3fzb-a1-m1-cA_3fzb-a1-m1-cB 3fzb-a1-m1-cA_3fzb-a1-m1-cF 3fzb-a1-m1-cH_3fzb-a1-m1-cF 3fzb-a1-m1-cI_3fzb-a1-m1-cB 3fzb-a2-m1-cE_3fzb-a2-m1-cG 3fzb-a2-m1-cJ_3fzb-a2-m1-cD HKHTELRAAVLDALEKHDTGATFFDGRPAVFDEADFPAVAVYLTGAEYTGEELDSDTWQAELHIEVFLPAQVPASELDAWESRIYPVSDIPALSDLITSVASGYDYRRDDDAGLWSSADLTYVITYE SHKHTELRAAVLDALEKHDTGATFFDGRPAVFDEADFPAVAVYLTGAEYTGEELDSDTWQAELHIEVFLPAQVPASELDAWESRIYPVSDIPALSDLITSVASGYDYRRDDDAGLWSSADLTYVITYE 3fz2-a3-m1-cE_3fz2-a3-m1-cH Crystal structure of the tail terminator protein from phage lambda (gpU-D74A) P03732 P03732 2.7 X-RAY DIFFRACTION 22 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 128 128 3fz2-a3-m1-cA_3fz2-a3-m1-cC 3fz2-a3-m1-cB_3fz2-a3-m1-cL 3fz2-a3-m1-cD_3fz2-a3-m1-cF 3fz2-a3-m1-cI_3fz2-a3-m1-cG 3fz2-a3-m1-cK_3fz2-a3-m1-cJ SHKHTELRAAVLDALEKHDTGATFFDGRPAVFDEADFPAVAVYLTGAEYTGEELDSDTWQAELHIEVFLPAQVPASELDAWESRIYPVSDIPALSDLITSVASGYDYRRDDDAGLWSSADLTYVITYE SHKHTELRAAVLDALEKHDTGATFFDGRPAVFDEADFPAVAVYLTGAEYTGEELDSDTWQAELHIEVFLPAQVPASELDAWESRIYPVSDIPALSDLITSVASGYDYRRDDDAGLWSSADLTYVITYE 3fz3-a1-m1-cA_3fz3-a1-m1-cF Crystal Structure of almond Pru1 protein Q43607 Q43607 2.4 X-RAY DIFFRACTION 192 1.0 3755 (Prunus dulcis) 3755 (Prunus dulcis) 388 410 3ehk-a1-m1-cA_3ehk-a1-m1-cD 3ehk-a1-m1-cB_3ehk-a1-m1-cF 3ehk-a1-m1-cC_3ehk-a1-m1-cE 3fz3-a1-m1-cD_3fz3-a1-m1-cC 3fz3-a1-m1-cE_3fz3-a1-m1-cB SPQNQCQLNQLQAREPDNRIQAEAGQIETWNFNQGDFQCAGVAASRITIQRNGLHLPSYSNAPQLIYIVQGRGVLGAVFSGCPETFEESQQRQLDRHQKTRRIREGDVVAIPAGVAYWSYNDGDQELVAVNLFHVSSDHNQLDQNPRKFYLAGNPENEFNQNGNNVFSGFNTQLLAQALNVNEETARNLQGQNDNRNQIIQVRGNLDFVQPPGLEETFCSLRLKENIGNPERADIFSPRAGRISTLNSHNLPILRFLRLSAERGFFYRNGIYSPHWNVNAHSVVYVIRGNARVQVVNENGDAILDQEVQQGQLFIVPQNHGVIQQAGNQGFEYFAFKTEENAFINTLAGRTSFLRALPDEVLANAYQISREQARQLKYNRQETIALSS SPQNQCQLNQLQAREPDNRIQAEAGQIETWNFNQGDFQCAGVAASRITIQRNGLHLPSYSNAPQLIYIVQGRGVLGAVFSGCPETFEESQQRQLDRHQKTRRIREGDVVAIPAGVAYWSYNDGDQELVAVNLFHVSSDHNQLDQNPRKFYLAGNPENEFNQNGNNVFSGFNTQLLAQALNVNEETARNLQGQNDNRNQIIQVRGNLDFVQPPRGRQEREHEERQQEQLQQERQQGLEETFCSLRLKENIGNPERADIFSPRAGRISTLNSHNLPILRFLRLSAERGFFYRNGIYSPHWNVNAHSVVYVIRGNARVQVVNENGDAILDQEVQQGQLFIVPQNHGVIQQAGNQGFEYFAFKTEENAFINTLAGRTSFLRALPDEVLANAYQISREQARQLKYNRQETIALSS 3fz3-a1-m1-cC_3fz3-a1-m1-cF Crystal Structure of almond Pru1 protein Q43607 Q43607 2.4 X-RAY DIFFRACTION 23 1.0 3755 (Prunus dulcis) 3755 (Prunus dulcis) 410 410 3ehk-a1-m1-cA_3ehk-a1-m1-cF 3ehk-a1-m1-cB_3ehk-a1-m1-cE 3ehk-a1-m1-cC_3ehk-a1-m1-cD 3fz3-a1-m1-cA_3fz3-a1-m1-cE 3fz3-a1-m1-cD_3fz3-a1-m1-cB SPQNQCQLNQLQAREPDNRIQAEAGQIETWNFNQGDFQCAGVAASRITIQRNGLHLPSYSNAPQLIYIVQGRGVLGAVFSGCPETFEESQQRQLDRHQKTRRIREGDVVAIPAGVAYWSYNDGDQELVAVNLFHVSSDHNQLDQNPRKFYLAGNPENEFNQNGNNVFSGFNTQLLAQALNVNEETARNLQGQNDNRNQIIQVRGNLDFVQPPRGRQEREHEERQQEQLQQERQQGLEETFCSLRLKENIGNPERADIFSPRAGRISTLNSHNLPILRFLRLSAERGFFYRNGIYSPHWNVNAHSVVYVIRGNARVQVVNENGDAILDQEVQQGQLFIVPQNHGVIQQAGNQGFEYFAFKTEENAFINTLAGRTSFLRALPDEVLANAYQISREQARQLKYNRQETIALSS SPQNQCQLNQLQAREPDNRIQAEAGQIETWNFNQGDFQCAGVAASRITIQRNGLHLPSYSNAPQLIYIVQGRGVLGAVFSGCPETFEESQQRQLDRHQKTRRIREGDVVAIPAGVAYWSYNDGDQELVAVNLFHVSSDHNQLDQNPRKFYLAGNPENEFNQNGNNVFSGFNTQLLAQALNVNEETARNLQGQNDNRNQIIQVRGNLDFVQPPRGRQEREHEERQQEQLQQERQQGLEETFCSLRLKENIGNPERADIFSPRAGRISTLNSHNLPILRFLRLSAERGFFYRNGIYSPHWNVNAHSVVYVIRGNARVQVVNENGDAILDQEVQQGQLFIVPQNHGVIQQAGNQGFEYFAFKTEENAFINTLAGRTSFLRALPDEVLANAYQISREQARQLKYNRQETIALSS 3fz3-a1-m1-cD_3fz3-a1-m1-cE Crystal Structure of almond Pru1 protein Q43607 Q43607 2.4 X-RAY DIFFRACTION 193 1.0 3755 (Prunus dulcis) 3755 (Prunus dulcis) 388 388 3ehk-a1-m1-cA_3ehk-a1-m1-cB 3ehk-a1-m1-cA_3ehk-a1-m1-cC 3ehk-a1-m1-cB_3ehk-a1-m1-cC 3ehk-a1-m1-cD_3ehk-a1-m1-cE 3ehk-a1-m1-cD_3ehk-a1-m1-cF 3ehk-a1-m1-cE_3ehk-a1-m1-cF 3fz3-a1-m1-cA_3fz3-a1-m1-cB 3fz3-a1-m1-cA_3fz3-a1-m1-cC 3fz3-a1-m1-cB_3fz3-a1-m1-cC 3fz3-a1-m1-cD_3fz3-a1-m1-cF 3fz3-a1-m1-cE_3fz3-a1-m1-cF SPQNQCQLNQLQAREPDNRIQAEAGQIETWNFNQGDFQCAGVAASRITIQRNGLHLPSYSNAPQLIYIVQGRGVLGAVFSGCPETFEESQQRQLDRHQKTRRIREGDVVAIPAGVAYWSYNDGDQELVAVNLFHVSSDHNQLDQNPRKFYLAGNPENEFNQNGNNVFSGFNTQLLAQALNVNEETARNLQGQNDNRNQIIQVRGNLDFVQPPGLEETFCSLRLKENIGNPERADIFSPRAGRISTLNSHNLPILRFLRLSAERGFFYRNGIYSPHWNVNAHSVVYVIRGNARVQVVNENGDAILDQEVQQGQLFIVPQNHGVIQQAGNQGFEYFAFKTEENAFINTLAGRTSFLRALPDEVLANAYQISREQARQLKYNRQETIALSS SPQNQCQLNQLQAREPDNRIQAEAGQIETWNFNQGDFQCAGVAASRITIQRNGLHLPSYSNAPQLIYIVQGRGVLGAVFSGCPETFEESQQRQLDRHQKTRRIREGDVVAIPAGVAYWSYNDGDQELVAVNLFHVSSDHNQLDQNPRKFYLAGNPENEFNQNGNNVFSGFNTQLLAQALNVNEETARNLQGQNDNRNQIIQVRGNLDFVQPPGLEETFCSLRLKENIGNPERADIFSPRAGRISTLNSHNLPILRFLRLSAERGFFYRNGIYSPHWNVNAHSVVYVIRGNARVQVVNENGDAILDQEVQQGQLFIVPQNHGVIQQAGNQGFEYFAFKTEENAFINTLAGRTSFLRALPDEVLANAYQISREQARQLKYNRQETIALSS 3fz5-a2-m1-cD_3fz5-a2-m1-cC Crystal structure of possible 2-hydroxychromene-2-carboxylate isomerase from Rhodobacter sphaeroides Q3J568 Q3J568 2.4 X-RAY DIFFRACTION 35 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 181 187 3fz5-a1-m1-cB_3fz5-a1-m1-cA NPIEFWFDFSSGYAFFAAQRIEALAAELGRTVLWRPYLSTPLKRDYAQRDWARIARQRGLTFRPPADHPHVALAATRAFYWIEAQSPDAATAFAQRVFDLYFSDRLDTASPEAVSRLGPEVGLEPEALLAGIADPALKETVRKIGEDAVARGIFGSPFFLVDDEPFWGWDREAEWIRTGGW SNANPIEFWFDFSSGYAFFAAQRIEALAAELGRTVLWRPYLGLSSTPLKRDYAQRDWARIARQRGLTFRPPADHPHVALAATRAFYWIEAQSPDAATAFAQRVFDLYFSDRLDTASPEAVSRLGPEVGLEPEALLAGIADPALKETVRKIGEDAVARGIFGSPFFLVDDEPFWGWDREAEWIRTGGW 3fzj-a2-m1-cE_3fzj-a2-m1-cH TsaR low resolution crystal structure, tetragonal form P94678 P94678 7.1 X-RAY DIFFRACTION 110 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 296 296 3fzj-a1-m1-cA_3fzj-a1-m1-cD 3fzj-a2-m1-cF_3fzj-a2-m1-cG MLKLQTLQALICIEEVGSLRAAAQLLHLSQPALSAAIQQLEDELKAPLLVRTKRGVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL MLKLQTLQALICIEEVGSLRAAAQLLHLSQPALSAAIQQLEDELKAPLLVRTKRGVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL 3fzj-a3-m1-cI_3fzj-a3-m2-cJ TsaR low resolution crystal structure, tetragonal form P94678 P94678 7.1 X-RAY DIFFRACTION 114 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 296 296 3fzj-a1-m1-cB_3fzj-a1-m1-cC 3fzj-a3-m1-cJ_3fzj-a3-m2-cI MLKLQTLQALICIEEVGSLRAAAQLLHLSQPALSAAIQQLEDELKAPLLVRTKRGVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL MLKLQTLQALICIEEVGSLRAAAQLLHLSQPALSAAIQQLEDELKAPLLVRTKRGVSLTSFGQAFMKHARLIVTESRRAQEEIGQLRGRWEGHITFAASPAIALAALPLALASFAREFPDVTVNVRDGMYPAVSPQLRDGTLDFALTAAHKHDIDTDLEAQPLYVSDVVIVGQRQHPMANATRLAELQECRWAFSSAPRGPGAIIRNAFARYGLPEPKLGLVCESFLALPGVVAHSDLLTTMPRTLYERNAFKDQLCSIPLQDALPNPTIYVLRRHDLPVTPAAAGLIRWIQHHAL 3fzq-a2-m1-cB_3fzq-a2-m1-cA Crystal structure of putative haloacid dehalogenase-like hydrolase (YP_001086940.1) from Clostridium difficile 630 at 2.10 A resolution Q188R2 Q188R2 2.1 X-RAY DIFFRACTION 50 0.996 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 251 265 3fzq-a1-m1-cB_3fzq-a1-m1-cA KLYKLLILDIDGTLRDEVYGIPESAKHAIRLCQKNHCSVVICTGRSGTIQDDVLSLGVDGYIAGGGNYIQYHGELLYNQSFNQRLIKEVVCLLKKREVAFSIESQEKVFNQKAKEIFETNQLKTYENNIEEYKSQDIHKICLWSNEKVFDEVKDILQDKELAQRDISSQYYEIIQKDFHKGKAIKRLQERLGVTQKETICFGDGQNDIVFQASDVTIAKNSHQQLKDIATSICEDIFDNGIYKELKRRNII LYKLLILDIDGTLRDEVYGIPESAKHAIRLCQKNHCSVVICTGRSGTIQDDVLSLGVDGYIAGGGNYIQYHGELLYNQSFNQRLIKEVVCLLKKREVAFSIESQEKVFNQKAKEIFETNQLKGTNSCINKQHIQEKITYENNIEEYKSQDIHKICLWSNEKVFDEVKDILQDKELAQRDISSQYYEIIQKDFHKGKAIKRLQERLGVTQKETICFGDGQNDIVFQASDVTIAKNSHQQLKDIATSICEDIFDNGIYKELKRRNII 3fzx-a1-m1-cA_3fzx-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE EXPORTED PROTEIN WITH YMCC-LIKE FOLD (BF2203) FROM BACTEROIDES FRAGILIS NCTC 9343 AT 2.22 A RESOLUTION Q5LD59 Q5LD59 2.22 X-RAY DIFFRACTION 56 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 201 201 CAFFFPNQEGEQITRNCYTADGKLTNILVYRVDQAYEYPSGEVVANYTFADAAGKTLNSGQVARCSDGNFSSGDVATFPTALNNADVYGDLNYPDAFSNPNPGDDDEFDDGTLRLYQKGNKNNRAEISVFDREFVTTETVNTPAGAFYCTKVKYENIWTPKETIKGYGYEWYAPNIGIVRSEQYNNKKELQSYSVLERIKK CAFFFPNQEGEQITRNCYTADGKLTNILVYRVDQAYEYPSGEVVANYTFADAAGKTLNSGQVARCSDGNFSSGDVATFPTALNNADVYGDLNYPDAFSNPNPGDDDEFDDGTLRLYQKGNKNNRAEISVFDREFVTTETVNTPAGAFYCTKVKYENIWTPKETIKGYGYEWYAPNIGIVRSEQYNNKKELQSYSVLERIKK 3g0k-a1-m1-cA_3g0k-a1-m2-cA Crystal structure of a protein of unknown function with a cystatin-like fold (saro_2880) from novosphingobium aromaticivorans dsm at 1.30 A resolution Q2G4A7 Q2G4A7 1.3 X-RAY DIFFRACTION 96 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 124 124 ARTAEEQANHDLVIEYNKVLIADSSAVDRYIAPGYVQHSSLAEPSVEALKGFLDRVRAESPDARQTIHRSFVDGDHVITHTHVERWPGDAGLAVVDIFRVEGGIVEHWDVIQDVPANPVNPNSF ARTAEEQANHDLVIEYNKVLIADSSAVDRYIAPGYVQHSSLAEPSVEALKGFLDRVRAESPDARQTIHRSFVDGDHVITHTHVERWPGDAGLAVVDIFRVEGGIVEHWDVIQDVPANPVNPNSF 3g0o-a2-m2-cA_3g0o-a2-m4-cA Crystal structure of 3-hydroxyisobutyrate dehydrogenase (ygbJ) from Salmonella typhimurium Q8ZMG4 Q8ZMG4 1.8 X-RAY DIFFRACTION 38 1.0 273 273 3g0o-a2-m1-cA_3g0o-a2-m3-cA DFHVGIVGLGSGGAARSCLRAGLSTWGADLNPQACANLLAEGACGAAASAREFAGVVDALVILVVNAAQVRQVLFDGVAHLKPGSAVVSSTISSADAQEIAAALTALNLNLDAPVSGGAVKAAQGETVASGSEAAFTRLKPVLDAVASNVYRISDTPGAGSTVKIIHQLLAGVHIAAAAEAALAARAGIPLDVYDVVTHAAGNSWFENRQHVVDGDYTPRSAVDIFVKDLGLVADTAKALRFPLPLASTALNFTSASNAGYGKEDDSAVIKIF DFHVGIVGLGSGGAARSCLRAGLSTWGADLNPQACANLLAEGACGAAASAREFAGVVDALVILVVNAAQVRQVLFDGVAHLKPGSAVVSSTISSADAQEIAAALTALNLNLDAPVSGGAVKAAQGETVASGSEAAFTRLKPVLDAVASNVYRISDTPGAGSTVKIIHQLLAGVHIAAAAEAALAARAGIPLDVYDVVTHAAGNSWFENRQHVVDGDYTPRSAVDIFVKDLGLVADTAKALRFPLPLASTALNFTSASNAGYGKEDDSAVIKIF 3g0o-a2-m3-cA_3g0o-a2-m4-cA Crystal structure of 3-hydroxyisobutyrate dehydrogenase (ygbJ) from Salmonella typhimurium Q8ZMG4 Q8ZMG4 1.8 X-RAY DIFFRACTION 182 1.0 273 273 3g0o-a1-m1-cA_3g0o-a1-m2-cA 3g0o-a2-m1-cA_3g0o-a2-m2-cA DFHVGIVGLGSGGAARSCLRAGLSTWGADLNPQACANLLAEGACGAAASAREFAGVVDALVILVVNAAQVRQVLFDGVAHLKPGSAVVSSTISSADAQEIAAALTALNLNLDAPVSGGAVKAAQGETVASGSEAAFTRLKPVLDAVASNVYRISDTPGAGSTVKIIHQLLAGVHIAAAAEAALAARAGIPLDVYDVVTHAAGNSWFENRQHVVDGDYTPRSAVDIFVKDLGLVADTAKALRFPLPLASTALNFTSASNAGYGKEDDSAVIKIF DFHVGIVGLGSGGAARSCLRAGLSTWGADLNPQACANLLAEGACGAAASAREFAGVVDALVILVVNAAQVRQVLFDGVAHLKPGSAVVSSTISSADAQEIAAALTALNLNLDAPVSGGAVKAAQGETVASGSEAAFTRLKPVLDAVASNVYRISDTPGAGSTVKIIHQLLAGVHIAAAAEAALAARAGIPLDVYDVVTHAAGNSWFENRQHVVDGDYTPRSAVDIFVKDLGLVADTAKALRFPLPLASTALNFTSASNAGYGKEDDSAVIKIF 3g0t-a1-m1-cB_3g0t-a1-m1-cA Crystal structure of putative aspartate aminotransferase (NP_905498.1) from Porphyromonas gingivalis W83 at 1.75 A resolution Q7MUZ3 Q7MUZ3 1.75 X-RAY DIFFRACTION 178 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 419 420 NFPIDEKLIREKQNELHIKDLGASIRDLVALVTNLEKATGTKFCREGVPGLPAPQIGIETEIQKLREGVASIYPNLDGLPELKQEASRFAKLFVNIDIPARACVPTVGSQGCFVSFLVANRTHKNREYGTLFIDPGFNLNKLQCRILGQKFESFDLFEYRGEKLREKLESYLQTGQFCSIIYSNPNNPTWQCTDEELRIIGELATKHDVIVIEDLAYFGDFRKDYSHPGEPLYQPSVANYTDNYILALSSSAFSYAGQRIGVLISGKLYEREYPDLEESFGRLRFGEALSSSALYALSSGATHSAQWGAALKACNDGEYNFRDSVIEYGRKARIKKFLDNGFNIVYDKDGNEPLADGFYFTVGYKGDSSKLIEKFVRYGCAITLKTTGSKRNEARICTSLLPESQFPDLEKRLQLNAEG GNFPIDEKLIREKQNELHIKDLGASIRDLVALVTNLEKATGTKFCREGVPGLPAPQIGIETEIQKLREGVASIYPNLDGLPELKQEASRFAKLFVNIDIPARACVPTVGSQGCFVSFLVANRTHKNREYGTLFIDPGFNLNKLQCRILGQKFESFDLFEYRGEKLREKLESYLQTGQFCSIIYSNPNNPTWQCTDEELRIIGELATKHDVIVIEDLAYFGDFRKDYSHPGEPLYQPSVANYTDNYILALSSSAFSYAGQRIGVLISGKLYEREYPDLEESFGRLRFGEALSSSALYALSSGATHSAQWGAALKACNDGEYNFRDSVIEYGRKARIKKFLDNGFNIVYDKDGNEPLADGFYFTVGYKGDSSKLIEKFVRYGCAITLKTTGSKRNEARICTSLLPESQFPDLEKRLQLNAEG 3g12-a1-m1-cA_3g12-a1-m1-cB Crystal structure of a putative lactoylglutathione lyase from Bdellovibrio bacteriovorus Q6MK89 Q6MK89 2.58 X-RAY DIFFRACTION 109 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 110 113 SLLITSITINTSHLQGMLGFYRIIGFQFTASSEVHRAVHNGVEFSLYSIQNPQRSQIPSLQLGFQITDLEKTVQELVKIPGAMCILDPTDMPGKKAIVLDPDGHSIELCE SLLITSITINTSHLQGMLGFYRIIGFQFTASKVSEVHRAVHNGVEFSLYSIQNPQRSQIPSLQLGFQITDLEKTVQELVKIPGAMCILDPTDMPGKKAIVLDPDGHSIELCEL 3g14-a1-m1-cA_3g14-a1-m1-cB Crystal structure of nitroreductase family protein (YP_877874.1) from Clostridium novyi NT at 1.75 A resolution A0PZS2 A0PZS2 1.75 X-RAY DIFFRACTION 107 1.0 386415 (Clostridium novyi NT) 386415 (Clostridium novyi NT) 169 172 EFYEVIKKRKSIKKFEQTAIDRDKLLKIIDARAPSWKNKTPYKFIVVESDKLKLDIANAIENKTSAASEAVLNSPTIVAVANPEESGDVSGKEIYLIDTAIAEHIVLGATDEGYGTCWIAAFNENKIKEALKIPDNLRVVALTPLGVPKDKKDDEYLYIDKWGTSFESN EFYEVIKKRKSIKKFEQTAIDRDKLLKIIDARAPSWKNKTPYKFIVVESDKLKLDIANAIENKTSAASEAVLNSPTIVAVANPEESGDVSGKEIYLIDTAIAEHIVLGATDEGYGTCWIAAFNENKIKEALKIPDNLRVVALTPLGVPKDSPKKDDEYLYIDKWGTSFESNV 3g16-a1-m1-cB_3g16-a1-m1-cA Crystal structure of protein of unknown function with cystatin-like fold (YP_001022489.1) from METHYLOBIUM PETROLEOPHILUM PM1 at 1.45 A resolution A2SL15 A2SL15 1.45 X-RAY DIFFRACTION 185 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 149 152 PTLSRAAEKVIRTYYDGCNEADEAKIACFVPEAVHYFPAGYGGAFRGAAQIAHRWRTAVETLGSYWTIDALVIDAETAEAAIEWTHFKTNQDKVLRGAECVEFDRASGLIREIRAFYASPQAEGIARLELGDFDYAGRGYRVTSPRKPA GTAPTLSRAAEKVIRTYYDGCNEADEAKIACFVPEAVHYFPAGYGGAFRGAAQIAHRWRTAVETLGSYWTIDALVIDAETAEAAIEWTHFKTNQDKVLRGAECVEFDRASGLIREIRAFYASPQAEGIARLELGDFDYAGRGYRVTSPRKPA 3g17-a1-m1-cA_3g17-a1-m1-cE Structure of putative 2-dehydropantoate 2-reductase from staphylococcus aureus A0A0H3K174 A0A0H3K174 2.3 X-RAY DIFFRACTION 73 0.997 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 286 288 3g17-a2-m1-cF_3g17-a2-m1-cB 3g17-a3-m1-cC_3g17-a3-m1-cH 3g17-a4-m1-cD_3g17-a4-m1-cG 4s3m-a2-m1-cA_4s3m-a2-m2-cB 4yca-a1-m1-cA_4yca-a1-m1-cB LSVAIIGPGAVGTTIAYELQQSLPHTTLIGRHAKTITYYTVPHAPAQDIVVKGYEDVTNTFDVIIIAVKTHQLDAVIPHLTYLAHEDTLIILAQNGYGQLEHIPFKNVCQAVVYISGQKKGDVVTHFRDYQLRIQDNALTRQFRDLVQDSQIDIVLEANIQQAIWYKLLVNLGINSITALGRQTVAIMHNPEIRILCRQLLLDGCRVAQAEGLNFSEQTVDTIMTIYQGYPDEMGTSMYYDIVHQQPLEVEAIQGFIYRRAREHNLDTPYLDTIYSFLRAYQQNEG SVAIIGPGAVGTTIAYELQQSLPHTTLIGRHAKTITYYTVPHAPAQDIVVKGYEDVTNTFDVIIIAVKTHQLDAVIPHLTYLAHEDTLIILAQNGYGQLEHIPFKNVCQAVVYISGQKKGDVVTHFRDYQLRIQDNALTRQFRDLVQDSQIDIVLEANIQQAIWYKLLVNLGINSITALGRQTVAIMHNPEIRILCRQLLLDGCRVAQAEGLNFSEQTVDTIMTIYQGYPDEMGTSMYYDIVHQQPLEVEAIQGFIYRRAREHNLDTPYLDTIYSFLRAYQQNEGHHH 3g1b-a1-m1-cA_3g1b-a1-m1-cB The structure of the M53A mutant of Caulobacter crescentus clpS protease adaptor protein in complex with WLFVQRDSKE peptide Q9A5I0 Q9A5I0 1.448 X-RAY DIFFRACTION 23 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 80 81 3g3p-a1-m1-cA_3g3p-a1-m1-cB LYRVLILNDDYTPAEFVVYVLERFFNKSREDATRIMLHVHQNGVGVCGVYTYEVAETKVAQVIDSARRHQHPLQCTMEKD SLYRVLILNDDYTPAEFVVYVLERFFNKSREDATRIMLHVHQNGVGVCGVYTYEVAETKVAQVIDSARRHQHPLQCTMEKD 3g1c-a1-m1-cA_3g1c-a1-m2-cA The crystal structure of a TrpR like protein from Eubacterium eligens ATCC 27750 C4Z2H9 C4Z2H9 2.2 X-RAY DIFFRACTION 158 1.0 515620 ([Eubacterium] eligens ATCC 27750) 515620 ([Eubacterium] eligens ATCC 27750) 97 97 NNKLKTQAVEQLFQAILSLKDLDEAYDFFEDVCTINEILSLSQRFEVAKMLREHRTYLDIAEKTGASTATISRVNRSLNYGNDGYDRVFERLGMLEK NNKLKTQAVEQLFQAILSLKDLDEAYDFFEDVCTINEILSLSQRFEVAKMLREHRTYLDIAEKTGASTATISRVNRSLNYGNDGYDRVFERLGMLEK 3g1e-a1-m1-cA_3g1e-a1-m1-cB X-ray crystal structure of coil 1A of human vimentin P08670 P08670 1.83 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 NEKVELQELNDRFANLIDKVRFLEQQNKILLAELEQL NEKVELQELNDRFANLIDKVRFLEQQNKILLAELEQL 3g1p-a1-m1-cA_3g1p-a1-m1-cB Crystals structure of PhnP from E.coli K-12 P16692 P16692 1.4 X-RAY DIFFRACTION 67 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 249 250 3p2u-a1-m1-cA_3p2u-a1-m1-cB SLTLTLTGTGGAQGVPAWGCECAACARARRSPQYRRQPCSGVVKFNDAITLIDAGLHDLADRWSPGSFQQFLLTHYHMDHVQGLFPLRWGVGDPIPVYGPPDEQGCDDLFKHPGLLDFSHTVEPFVVFDLQGLQVTPLPLNHSKLTFGYLLETAHSRVAWLSDTAGLPEKTLKFLRNNQPQVMVMDCSHPPRADAPRNHCDLNTVLALNQVIRSPRVILTHISHQFDAWLMENALPSGFEVGFDGMEIG SLTLTLTGTGGAQGVPAWGCECAACARARRSPQYRRQPCSGVVKFNDAITLIDAGLHDLADRWSPGSFQQFLLTHYHMDHVQGLFPLRWGVGDPIPVYGPPDEQGCDDLFKHPGLLDFSHTVEPFVVFDLQGLQVTPLPLNHSKLTFGYLLETAHSRVAWLSDTAGLPEKTLKFLRNNQPQVMVMDCSHPPRADAPRNHCDLNTVLALNQVIRSPRVILTHISHQFDAWLMENALPSGFEVGFDGMEIGV 3g1t-a1-m1-cA_3g1t-a1-m2-cA CRYSTAL STRUCTURE OF short chain dehydrogenase from Salmonella enterica subsp. enterica serovar Typhi str. CT18 Q8XGU5 Q8XGU5 1.7 X-RAY DIFFRACTION 123 1.0 243 243 3iah-a1-m1-cA_3iah-a1-m1-cB YQPKQDLLQNRIILVTGASDGIGREAALTYARYGATVILLGRNEEKLRRVAQHIADEQHVQPQWFTLDLLTCTAEECRQVADRIAAHYPRLDGVLHNAGLLGEIGPMSEQDPQIWQDVMQVNVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYATSKFATEGMMQVLADEYQNRSLRVNCINPGGTRTSMRASAFPTEDPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQP YQPKQDLLQNRIILVTGASDGIGREAALTYARYGATVILLGRNEEKLRRVAQHIADEQHVQPQWFTLDLLTCTAEECRQVADRIAAHYPRLDGVLHNAGLLGEIGPMSEQDPQIWQDVMQVNVNATFMLTQALLPLLLKSDAGSLVFTSSSVGRQGRANWGAYATSKFATEGMMQVLADEYQNRSLRVNCINPGGTRTSMRASAFPTEDPQKLKTPADIMPLYLWLMGDDSRRKTGMTFDAQP 3g1u-a1-m1-cA_3g1u-a1-m1-cD Crystal structure of Leishmania major S-adenosylhomocysteine hydrolase Q4Q124 Q4Q124 2.2 X-RAY DIFFRACTION 109 1.0 5664 (Leishmania major) 5664 (Leishmania major) 412 418 3g1u-a1-m1-cB_3g1u-a1-m1-cC DYKVKDISLAEWGRKAIELAENEMPGLMELRREYGPSQPLKGAKIAGCLHMTVQTAVLIETLKALGAELRWSSCNIFSTQDNAAAAIAKTGVPVFAWKGETDEEYEWCIAQTVKGFSGDGLPNMILDDGGDLTNLVIDRYPELVPKIFGISEETTTGVKNLYKRLSKGNLPISAINVNDFDNLYGCRESLVDGIKRATDVMIAGKTCCVCGYGDVGKGCAAALRAFGARVVVTEVDPINALQASMEGYQVALVEDVMADAHIFVTTTGNDDIITSDHFPHMRDDAIVCNIGHFDTEIQVGWLEANAKEHVEIKPQVDRYTMENGRHIILLAKGRLVNLGCASGHPSFVMSNSFTNQVLAQIELWSNRDNGKYPRGDKAGVFFLPKALDEKVAALHLAHVGAKLTKLTPKQAE DYKVKDISLAEWGRKAIELAENEMPGLMELRREYGPSQPLKGAKIAGCLHMTVQTAVLIETLKALGAELRWSSCNIFSTQDNAAAAIAKTGVPVFAWKGETDEEYEWCIAQTVKGFSGDGLPNMILDDGGDLTNLVIDRYPELVPKIFGISEETTTGVKNLYKRLSKGNLPISAINVNDSSKFDNLYGCRESLVDGIKRATDVMIAGKTCCVCGYGDVGKGCAAALRAFGARVVVTEVDPINALQASMEGYQVALVEDVMADAHIFVTTTGNDDIITSDHFPHMRDDAIVCNIGHFDTEIQVGWLEANAKEHVEIKPQVDRYTMENGRHIILLAKGRLVNLGCASGHPSFVMSNSFTNQVLAQIELWSNRDNGKYPRGDKAGVFFLPKALDEKVAALHLAHVGAKLTKLTPKQAEYIN 3g1u-a1-m1-cB_3g1u-a1-m1-cD Crystal structure of Leishmania major S-adenosylhomocysteine hydrolase Q4Q124 Q4Q124 2.2 X-RAY DIFFRACTION 31 1.0 5664 (Leishmania major) 5664 (Leishmania major) 412 418 3g1u-a1-m1-cA_3g1u-a1-m1-cC DYKVKDISLAEWGRKAIELAENEMPGLMELRREYGPSQPLKGAKIAGCLHMTVQTAVLIETLKALGAELRWSSCNIFSTQDNAAAAIAKTGVPVFAWKGETDEEYEWCIAQTVKGFSGDGLPNMILDDGGDLTNLVIDRYPELVPKIFGISEETTTGVKNLYKRLSKGNLPISAINVNDFDNLYGCRESLVDGIKRATDVMIAGKTCCVCGYGDVGKGCAAALRAFGARVVVTEVDPINALQASMEGYQVALVEDVMADAHIFVTTTGNDDIITSDHFPHMRDDAIVCNIGHFDTEIQVGWLEANAKEHVEIKPQVDRYTMENGRHIILLAKGRLVNLGCASGHPSFVMSNSFTNQVLAQIELWSNRDNGKYPRGDKAGVFFLPKALDEKVAALHLAHVGAKLTKLTPKQAE DYKVKDISLAEWGRKAIELAENEMPGLMELRREYGPSQPLKGAKIAGCLHMTVQTAVLIETLKALGAELRWSSCNIFSTQDNAAAAIAKTGVPVFAWKGETDEEYEWCIAQTVKGFSGDGLPNMILDDGGDLTNLVIDRYPELVPKIFGISEETTTGVKNLYKRLSKGNLPISAINVNDSSKFDNLYGCRESLVDGIKRATDVMIAGKTCCVCGYGDVGKGCAAALRAFGARVVVTEVDPINALQASMEGYQVALVEDVMADAHIFVTTTGNDDIITSDHFPHMRDDAIVCNIGHFDTEIQVGWLEANAKEHVEIKPQVDRYTMENGRHIILLAKGRLVNLGCASGHPSFVMSNSFTNQVLAQIELWSNRDNGKYPRGDKAGVFFLPKALDEKVAALHLAHVGAKLTKLTPKQAEYIN 3g1u-a1-m1-cD_3g1u-a1-m1-cC Crystal structure of Leishmania major S-adenosylhomocysteine hydrolase Q4Q124 Q4Q124 2.2 X-RAY DIFFRACTION 112 0.998 5664 (Leishmania major) 5664 (Leishmania major) 418 424 3g1u-a1-m1-cA_3g1u-a1-m1-cB DYKVKDISLAEWGRKAIELAENEMPGLMELRREYGPSQPLKGAKIAGCLHMTVQTAVLIETLKALGAELRWSSCNIFSTQDNAAAAIAKTGVPVFAWKGETDEEYEWCIAQTVKGFSGDGLPNMILDDGGDLTNLVIDRYPELVPKIFGISEETTTGVKNLYKRLSKGNLPISAINVNDSSKFDNLYGCRESLVDGIKRATDVMIAGKTCCVCGYGDVGKGCAAALRAFGARVVVTEVDPINALQASMEGYQVALVEDVMADAHIFVTTTGNDDIITSDHFPHMRDDAIVCNIGHFDTEIQVGWLEANAKEHVEIKPQVDRYTMENGRHIILLAKGRLVNLGCASGHPSFVMSNSFTNQVLAQIELWSNRDNGKYPRGDKAGVFFLPKALDEKVAALHLAHVGAKLTKLTPKQAEYIN DYKVKDISLAEWGRKAIELAENEMPGLMELRREYGPSQPLKGAKIAGCLHMTVQTAVLIETLKALGAELRWSSCNIFSTQDNAAAAIAKTGVPVFAWKGETDEEYEWCIAQTVKGFSGDGLPNMILDDGGDLTNLVIDRYPELVPKIFGISEETTTGVKNLYKRLSKGNLPISAINVNDKSKFDNLYGCRESLVDGIKRATDVMIAGKTCCVCGYGDVGKGCAAALRAFGARVVVTEVDPINALQASMEGYQVALVEDVMADAHIFVTTTGNDDIITSDHFPHMRDDAIVCNIGHFDTEIQVGWLEANAKEHVEIKPQVDRYTMENGRHIILLAKGRLVNLGCASGHPSFVMSNSFTNQVLAQIELWSNRDNGKYPRGDKAGVFFLPKALDEKVAALHLAHVGAKLTKLTPKQAEYINCPVPFK 3g1w-a1-m1-cB_3g1w-a1-m1-cA Crystal structure of sugar ABC transporter (sugar-binding protein) from Bacillus halodurans Q9K7B8 Q9K7B8 2.02 X-RAY DIFFRACTION 88 0.996 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 284 285 NETYITFQSGDYWKRCLKGFEDAAQALNVTVEYRGAAQYDIQEQITVLEQAIAKNPAGIAISAIDPVELTDTINKAVDAGIPIVLFDSGAPDSHAHSFLGTNNYNAGNAAYKAELLDGEGEVAVITLPNQLNHQERTTGFKETLEAEFPAIEVIAVEDGRGDSLHSRRVAHQLLEDYPNLAGIFATEANGGVGVGDAVRLESRAGEIQIISFDTDKGTLDLVDEGIISATLAQGTWNGYWSLTYLFHLHHGLTEPQILREEAPLPLYVDTGITIVTDENVDYYY ETYITFQSGDYWKRCLKGFEDAAQALNVTVEYRGAAQYDIQEQITVLEQAIAKNPAGIAISAIDPVELTDTINKAVDAGIPIVLFDSGAPDSHAHSFLGTNNYNAGNAAYKAELLDGEGEVAVITLPNQLNHQERTTGFKETLEAEFPAIEVIAVEDGRGDSLHSRRVAHQLLEDYPNLAGIFATEANGGVGVGDAVRLESRAGEIQIISFDTDKGTLDLVDEGIISATLAQGTWNGYWSLTYLFHLHHGLTEPQILQTREEAPLPLYVDTGITIVTDENVDYYY 3g23-a1-m1-cA_3g23-a1-m1-cB Crystal structure of a ld-carboxypeptidase a (saro_1426) from novosphingobium aromaticivorans dsm at 1.89 A resolution Q2G8F3 Q2G8F3 1.89 X-RAY DIFFRACTION 71 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 264 264 GTRRIAICAPSTPFTREDSARVIALAAAEFPDLSLSFHEQCFASEGHFAGSDALRLSAFLECANDDAFEAVWFVRGGYGANRIAEDALARLGRAASAKQYLGYSDAGTLLAALYAHRIGRSVHAPPVDIRRPEGESAVRRTLGWLAGAREGLEPTLGAPAVAFNLTLALCGTRLLPDLSGHVVIEEVAEHHYAVDRLLFHVTSCLADAGIAGLRLGRVSDVPENDRPFGCSVEEARHWCHRAGIAFLGTADIGHDVDNRIVPFG GTRRIAICAPSTPFTREDSARVIALAAAEFPDLSLSFHEQCFASEGHFAGSDALRLSAFLECANDDAFEAVWFVRGGYGANRIAEDALARLGRAASAKQYLGYSDAGTLLAALYAHRIGRSVHAPPVDIRRPEGESAVRRTLGWLAGAREGLEPTLGAPAVAFNLTLALCGTRLLPDLSGHVVIEEVAEHHYAVDRLLFHVTSCLADAGIAGLRLGRVSDVPENDRPFGCSVEEARHWCHRAGIAFLGTADIGHDVDNRIVPFG 3g25-a2-m1-cB_3g25-a2-m1-cD 1.9 Angstrom Crystal Structure of Glycerol Kinase (glpK) from Staphylococcus aureus in Complex with Glycerol. Q5HGD2 Q5HGD2 1.9 X-RAY DIFFRACTION 43 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 488 488 3g25-a2-m1-cC_3g25-a2-m1-cA 3ge1-a1-m1-cC_3ge1-a1-m1-cA 3ge1-a1-m1-cD_3ge1-a1-m1-cB AEKYILSIDQGTTSSRAILFNQKGEIAGVAQREFKQYFPQSGWVEHDANEIWTSVLAVTEVINENDVRADQIAGIGITNQRETTVVWDKHTGRPIYHAIVWQSRQTQSICSELKQQGYEQTFRDKTGLLLDPYFAGTKVKWILDNVEGAREKAENGDLLFGTIDTWLVWKLSGKAAHITDYSNASRTLFNIHDLEWDDELLELLTVPKNLPEVKASSEVYGKTIDYHFYGQEVPIAGVAGDQQAALFGQACFERGDVKNTYGTGGFLNTGDKAVKSESGLLTTIAYGIDGKVNYALEGSIFVSGSAIQWLRDGLRINSAPQSESYATRVDSTEGVYVVPAFVGLGTPYWDSEARGAIFGLTRGTEKEHFIRATLESLCYQTRDVEASKDSGIDVQSLRVDGGAVKNNFIQFQADIVNTSVERPEIQETTALGAAFLAGLAVGFWESKDDIAKNWKLEEKFDPKDEGEREKLYRGWKKAVEATQVFKTE AEKYILSIDQGTTSSRAILFNQKGEIAGVAQREFKQYFPQSGWVEHDANEIWTSVLAVTEVINENDVRADQIAGIGITNQRETTVVWDKHTGRPIYHAIVWQSRQTQSICSELKQQGYEQTFRDKTGLLLDPYFAGTKVKWILDNVEGAREKAENGDLLFGTIDTWLVWKLSGKAAHITDYSNASRTLFNIHDLEWDDELLELLTVPKNLPEVKASSEVYGKTIDYHFYGQEVPIAGVAGDQQAALFGQACFERGDVKNTYGTGGFLNTGDKAVKSESGLLTTIAYGIDGKVNYALEGSIFVSGSAIQWLRDGLRINSAPQSESYATRVDSTEGVYVVPAFVGLGTPYWDSEARGAIFGLTRGTEKEHFIRATLESLCYQTRDVEASKDSGIDVQSLRVDGGAVKNNFIQFQADIVNTSVERPEIQETTALGAAFLAGLAVGFWESKDDIAKNWKLEEKFDPKDEGEREKLYRGWKKAVEATQVFKTE 3g25-a3-m1-cC_3g25-a3-m1-cD 1.9 Angstrom Crystal Structure of Glycerol Kinase (glpK) from Staphylococcus aureus in Complex with Glycerol. Q5HGD2 Q5HGD2 1.9 X-RAY DIFFRACTION 140 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 487 488 3g25-a1-m1-cA_3g25-a1-m1-cB 3g25-a2-m1-cA_3g25-a2-m1-cB 3g25-a2-m1-cC_3g25-a2-m1-cD 3ge1-a1-m1-cB_3ge1-a1-m1-cA 3ge1-a1-m1-cC_3ge1-a1-m1-cD EKYILSIDQGTTSSRAILFNQKGEIAGVAQREFKQYFPQSGWVEHDANEIWTSVLAVTEVINENDVRADQIAGIGITNQRETTVVWDKHTGRPIYHAIVWQSRQTQSICSELKQQGYEQTFRDKTGLLLDPYFAGTKVKWILDNVEGAREKAENGDLLFGTIDTWLVWKLSGKAAHITDYSNASRTLFNIHDLEWDDELLELLTVPKNLPEVKASSEVYGKTIDYHFYGQEVPIAGVAGDQQAALFGQACFERGDVKNTYGTGGFLNTGDKAVKSESGLLTTIAYGIDGKVNYALEGSIFVSGSAIQWLRDGLRINSAPQSESYATRVDSTEGVYVVPAFVGLGTPYWDSEARGAIFGLTRGTEKEHFIRATLESLCYQTRDVEASKDSGIDVQSLRVDGGAVKNNFIQFQADIVNTSVERPEIQETTALGAAFLAGLAVGFWESKDDIAKNWKLEEKFDPKDEGEREKLYRGWKKAVEATQVFKTE AEKYILSIDQGTTSSRAILFNQKGEIAGVAQREFKQYFPQSGWVEHDANEIWTSVLAVTEVINENDVRADQIAGIGITNQRETTVVWDKHTGRPIYHAIVWQSRQTQSICSELKQQGYEQTFRDKTGLLLDPYFAGTKVKWILDNVEGAREKAENGDLLFGTIDTWLVWKLSGKAAHITDYSNASRTLFNIHDLEWDDELLELLTVPKNLPEVKASSEVYGKTIDYHFYGQEVPIAGVAGDQQAALFGQACFERGDVKNTYGTGGFLNTGDKAVKSESGLLTTIAYGIDGKVNYALEGSIFVSGSAIQWLRDGLRINSAPQSESYATRVDSTEGVYVVPAFVGLGTPYWDSEARGAIFGLTRGTEKEHFIRATLESLCYQTRDVEASKDSGIDVQSLRVDGGAVKNNFIQFQADIVNTSVERPEIQETTALGAAFLAGLAVGFWESKDDIAKNWKLEEKFDPKDEGEREKLYRGWKKAVEATQVFKTE 3g27-a1-m1-cA_3g27-a1-m2-cA Structure of a putative bacteriophage protein from Escherichia coli str. K-12 substr. MG1655 P68661 P68661 2.1 X-RAY DIFFRACTION 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 80 80 RKAARGRECQVRIPGVCNGNPETSVLAHIRKPPDLIATIACSACHDEIDRRTHFVDAGYAKECALEGARTQVIWLKEGVI RKAARGRECQVRIPGVCNGNPETSVLAHIRKPPDLIATIACSACHDEIDRRTHFVDAGYAKECALEGARTQVIWLKEGVI 3g2b-a1-m1-cA_3g2b-a1-m2-cA crystal structure of PqqD from xanthomonas campestris Q8P6M8 Q8P6M8 1.66 X-RAY DIFFRACTION 172 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 90 90 TISRDSCPALRAGVRLQHDRARDQWVLLAPERVVELDDIALVVAQRYDGTQSLAQIAQTLAAEFDADASEIETDVIELTTTLHQKRLLRL TISRDSCPALRAGVRLQHDRARDQWVLLAPERVVELDDIALVVAQRYDGTQSLAQIAQTLAAEFDADASEIETDVIELTTTLHQKRLLRL 3g2e-a1-m1-cB_3g2e-a1-m1-cD Structure of putative OORC subunit of 2-oxoglutarate:acceptor oxidoreductase from Campylobacter jejuni Q0PAX8 Q0PAX8 2 X-RAY DIFFRACTION 92 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 185 185 3g2e-a1-m1-cC_3g2e-a1-m1-cA SLKYQLRFGGEGGQGVITAGEILAEAAIKEGRQAFKASTYTSQVRGGPTKVDIIIDDKEILFPYAVEGEVDFMLSTADKGYKGFRGGVKEGGIIVVEPNLVHPESEDYKKWQIFEIPIITIAKDEVGNVATQSVVALAIAAYMSKCIDLDVLKETMLHMVPAKTRDANAKAFDLGVKYATQAKPH SLKYQLRFGGEGGQGVITAGEILAEAAIKEGRQAFKASTYTSQVRGGPTKVDIIIDDKEILFPYAVEGEVDFMLSTADKGYKGFRGGVKEGGIIVVEPNLVHPESEDYKKWQIFEIPIITIAKDEVGNVATQSVVALAIAAYMSKCIDLDVLKETMLHMVPAKTRDANAKAFDLGVKYATQAKPH 3g2e-a1-m1-cC_3g2e-a1-m1-cD Structure of putative OORC subunit of 2-oxoglutarate:acceptor oxidoreductase from Campylobacter jejuni Q0PAX8 Q0PAX8 2 X-RAY DIFFRACTION 32 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 181 185 3g2e-a1-m1-cA_3g2e-a1-m1-cB LKYQLRFGGEGVITAGEILAEAAIKEGRQAFKASTYTSQVRGGPTKVDIIIDDKEILFPYAVEGEVDFMLSTADKGYKGFRGGVKEGGIIVVEPNLVHPESEDYKKWQIFEIPIITIAKDEVGNVATQSVVALAIAAYMSKCIDLDVLKETMLHMVPAKTRDANAKAFDLGVKYATQAKPH SLKYQLRFGGEGGQGVITAGEILAEAAIKEGRQAFKASTYTSQVRGGPTKVDIIIDDKEILFPYAVEGEVDFMLSTADKGYKGFRGGVKEGGIIVVEPNLVHPESEDYKKWQIFEIPIITIAKDEVGNVATQSVVALAIAAYMSKCIDLDVLKETMLHMVPAKTRDANAKAFDLGVKYATQAKPH 3g2g-a1-m1-cA_3g2g-a1-m1-cC S437Y Mutant of human muscle pyruvate kinase, isoform M2 P14618 P14618 2 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 455 510 6nu1-a3-m1-cB_6nu1-a3-m4-cA 6wp3-a1-m1-cB_6wp3-a1-m2-cA QTQQLHAAMADTFLEHMCRLDIDSPPITARNTGIICTIGPASRSVETLKEMIKSGMNVARLNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPEIRTDYKNICKVVKIYVDDGLISLQVEVENGGSLGSKKGVNLPGAAVDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKASDVHEVRKVLGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAIYHLQLFEELRRLAPDPTEATAVGAVEASFKCCSGAIIVLTKSGRYAHQVARYRPRAPIIAVTRNPQTARQAHLYRGIFPVLCKDPVQEAWAEDVDLRVNFAMNVGKARGFFKKGDVVIVLTGNTMRVVPVP QTQQLHAAMADTFLEHMCRLDIDSPPITARNTGIICTIGPASRSVETLKEMIKSGMNVARLNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPEIRTGLIKGSGTAEVELKKGATLKITLDNAYMEKCDENILWLDYKNICKVVEVGSKIYVDDGLISLQVKQKGADFLVTEVENGGSLGSKKGVNLPGAAVDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKASDVHEVRKVLGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAIYHLQLFEELRRLAPITSDPTEATAVGAVEASFKCCSGAIIVLTKSGRYAHQVARYRPRAPIIAVTRNPQTARQAHLYRGIFPVLCKDPVQEAWAEDVDLRVNFAMNVGKARGFFKKGDVVIVLTGNTMRVVPVP 3g2p-a1-m1-cB_3g2p-a1-m1-cA Crystal Structure of the Glycopeptide N-methyltransferase MtfA complexed with (S)-adenosyl-L-homocysteine (SAH) O52805 O52805 2.95 X-RAY DIFFRACTION 98 0.983 31958 (Amycolatopsis orientalis) 31958 (Amycolatopsis orientalis) 237 251 GPVRTPHADVLLASVGERCDFYADGTSEAREFATRTGPVSGPVLELAAGMGRLTFPFLDLGWEVTALELSTSVLAAFRKRLAEAPADVRDRCTLVQGDMSAFALDKRFGTVVISSGSINELDEADRRGLYASVREHLEPGGKFLLSLAMSEAAESEPLERKQELPGGRRYVLHVRHLPAEEIQEITIHPCTHRRRLLAPDQVVRELVRSGFDVIAQTPFASGGAGRKDMVLVEAVMP GPVRTPHADVLLASVGERGVLCDFYDEGAAADGTSEAREFATRTVSGPVLELAAGMGRLTFPFLDLGWEVTALELSTSVLAAFRKRLAEAPADVRDRCTLVQGDMSAFALDKRFGTVVISSGSINELDEADRRGLYASVREHLEPGGKFLLSLAMSEAAESEPLERKQELPGRYVLHVRHLPAEEIQEITIHPADETTDPFVVCTHRRRLLAPDQVVRELVRSGFDVIAQTPFASGGAGRKDMVLVEAVMP 3g33-a1-m1-cD_3g33-a1-m1-cB Crystal structure of CDK4/cyclin D3 P30281 P30281 3 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 229 GDQRVLQSLLRLEERYVPRASYFQCVQREIKPHMRKMLAYWMLEVCEEQRCEEEVFPLAMNYLDRYLSCVPTRKAQLQLLGAVCMLLASKLRETTPLTIEKLCIYTDHAVSPRQLRDWEVLVLGKLKWDLAAVIAHDFLAFILHRLSLPRDRQALVKKHAQTFLALCATDYTFAMYPPSMIATGSIGAAVQGLGSGDELTELLAGITGTEVDCLRACQEQIEAALRES GDQRVLQSLLRLEERYVPRASYFQCVQREIKPHMRKMLAYWMLEVCEEQRCEEEVFPLAMNYLDRYLSCVPTRKAQLQLLGAVCMLLASKLRETTPLTIEKLCIYTDHAVSPRQLRDWEVLVLGKLKWDLAAVIAHDFLAFILHRLSLPRDRQALVKKHAQTFLALCATDYTFAMYPPSMIATGSIGAAVQGLGMSGDELTELLAGITGTEVDCLRACQEQIEAALRES 3g3q-a3-m1-cA_3g3q-a3-m1-cB Crystal structure of a eukaryotic polyphosphate polymerase in complex with a phosphate polymer P47075 P47075 2.64 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 286 286 NFVRQTTKYWVHPDNITELKLIILKHLPVLVFNTNKEFEREDSAITSIYFDNENLDLYYGRLRKDEGAEAHRLRWYGGMSTDTIFVERKTHREDWTGEKSVKARFALKERHVNDFLKGKYTVDQVFAKMRKEGKKPMNEIENLEALASEIQYVMLKKKLRPVVRSFYNRTAFQLPGDARVRISLDTELTMVREDNFDGVDRTHKNWRRTDIGVDWPFKQLDDKDICRFPYAVLEVKLQTQLGQEPPEWVRELVGSHLVEPVPKFSKFIHGVATLLNDKVDSIPFWL NFVRQTTKYWVHPDNITELKLIILKHLPVLVFNTNKEFEREDSAITSIYFDNENLDLYYGRLRKDEGAEAHRLRWYGGMSTDTIFVERKTHREDWTGEKSVKARFALKERHVNDFLKGKYTVDQVFAKMRKEGKKPMNEIENLEALASEIQYVMLKKKLRPVVRSFYNRTAFQLPGDARVRISLDTELTMVREDNFDGVDRTHKNWRRTDIGVDWPFKQLDDKDICRFPYAVLEVKLQTQLGQEPPEWVRELVGSHLVEPVPKFSKFIHGVATLLNDKVDSIPFWL 3g3s-a2-m1-cA_3g3s-a2-m1-cB Crystal structure of GCN5-related N-acetyltransferase-like protein (ZP_00874857) (ZP_00874857.1) from Streptococcus suis 89/1591 at 1.80 A resolution 1.8 X-RAY DIFFRACTION 26 1.0 286604 (Streptococcus suis 89/1591) 286604 (Streptococcus suis 89/1591) 245 245 3g3s-a1-m1-cA_3g3s-a1-m1-cB GAEQRRVARLFGDWPETIIWTCLEGTGDIYVDDSQSPQSALALYGRQSFFGFLAGQPHRDLLKICEGKNIILVPQNQAWSDLIEEVYGDGVRFFTRYATKKDTEFDLGHLQKLVDDLPESFDKLIDRNLYETCLVEEWSRDLVGNYIDVEQFLDLGLGCVILHKGQVVSGASSYASYSAGIEIEVDTREDYRGLGLAKACAAQLILACLDRGLYPSWDAHTLTSLKLAEKLGYELDKAYQAYEWR GAEQRRVARLFGDWPETIIWTCLEGTGDIYVDDSQSPQSALALYGRQSFFGFLAGQPHRDLLKICEGKNIILVPQNQAWSDLIEEVYGDGVRFFTRYATKKDTEFDLGHLQKLVDDLPESFDKLIDRNLYETCLVEEWSRDLVGNYIDVEQFLDLGLGCVILHKGQVVSGASSYASYSAGIEIEVDTREDYRGLGLAKACAAQLILACLDRGLYPSWDAHTLTSLKLAEKLGYELDKAYQAYEWR 3g3z-a1-m1-cA_3g3z-a1-m1-cB The structure of NMB1585, a MarR family regulator from Neisseria meningitidis Q9JYH5 Q9JYH5 2.1 X-RAY DIFFRACTION 151 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 140 140 NQLDQLGTRINLICNVFDKWIGQQDLNYNLFAVLYTLATEGSRTQKHIGEKWSLPKQTVSGVCKTLAGQGLIEWQEGEQDRRKRLLSLTETGKAYAAPLTESAQEFSDKVFATFGDKRTTRLFADLDALAEVEKTISENK NQLDQLGTRINLICNVFDKWIGQQDLNYNLFAVLYTLATEGSRTQKHIGEKWSLPKQTVSGVCKTLAGQGLIEWQEGEQDRRKRLLSLTETGKAYAAPLTESAQEFSDKVFATFGDKRTTRLFADLDALAEVEKTISENK 3g40-a1-m1-cA_3g40-a1-m2-cA Crystal structure of the cytoplasmic domain of a prokaryotic cation chloride cotransporter Q8THK8 Q8THK8 1.9 X-RAY DIFFRACTION 50 1.0 2214 (Methanosarcina acetivorans) 2214 (Methanosarcina acetivorans) 258 258 WKANLLVPVEDPRELMGTFDFLRDITYPKGSVKLLGLADKENLLSQLPSISEGFQEEGVFSSWTIIEENLVVGMEALTGSFFRPSILFLRLPENRDRDEEIREIIRKASMYRMGVLLFSKHPQAGLGRQNLINLWIENRWDISMELGNMDLALLIAYKLKSNWKASLSFMTFAPTAIQAQAAENFLQSLAELARIPNVKMQVLRENPIKSSKLPFASLHIFSLDPNPDLDLARHLMEKAGSSCIFALDSGEENALALL WKANLLVPVEDPRELMGTFDFLRDITYPKGSVKLLGLADKENLLSQLPSISEGFQEEGVFSSWTIIEENLVVGMEALTGSFFRPSILFLRLPENRDRDEEIREIIRKASMYRMGVLLFSKHPQAGLGRQNLINLWIENRWDISMELGNMDLALLIAYKLKSNWKASLSFMTFAPTAIQAQAAENFLQSLAELARIPNVKMQVLRENPIKSSKLPFASLHIFSLDPNPDLDLARHLMEKAGSSCIFALDSGEENALALL 3g43-a1-m1-cF_3g43-a1-m1-cE Crystal structure of the calmodulin-bound Cav1.2 C-terminal regulatory domain dimer Q13936 Q13936 2.1 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 68 GSTLFALVRTALRIKTEGNLEQANEELRAIIKKIWKRTSMKLLDQ GSTLFALVRTALRIKTEGNLEQANEELRAIIKKIWKRTSMKLLDQVVTVGKFYATFLIQEYFRKFKKR 3g45-a1-m1-cB_3g45-a1-m1-cA Crystal structure of human phosphodiesterase 4b with regulatory domain and d155988 Q07343 Q07343 2.63 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 370 371 SNKFKRMLNRELTHLSEMSRSGNQVSEYISNTFLDSISRFGVNTENEDHLAKELEDLNKWGLNIFNVAGYSHNRPLTCIMYAIFQERDLLKTFRISSDTFITYMMTLEDHYHSDVAYHNSLHAADVAQSTHVLLSTPALDAVFTDLEILAAIFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEEHCDIFMNLTKKQRQTLRKMVIDMVLATDMSKHMSLLADLKTMVETKKVTSSGVLLLDNYTDRIQVLRNMVHCADLSNPTKSLELYRQWTDRIMEEFFQQGDKERERGMEISPMCDKHTASVEKSQVGFIDYIVHPLWETWADLVQPDAQDILDTLEDNRNWYQSMIPQ SNKFKRMLNRELTHLSEMSRSGNQVSEYISNTFLDTSISRFGVNTENEDHLAKELEDLNKWGLNIFNVAGYSHNRPLTCIMYAIFQERDLLKTFRISSDTFITYMMTLEDHYHSDVAYHNSLHAADVAQSTHVLLSTPALDAVFTDLEILAAIFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEEHCDIFMNLTKKQRQTLRKMVIDMVLATDMSKHMSLLADLKTMVETKKVTSSGVLLLDNYTDRIQVLRNMVHCADLSNPTKSLELYRQWTDRIMEEFFQQGDKERERGMEISPMCDKHTASVEKSQVGFIDYIVHPLWETWADLVQPDAQDILDTLEDNRNWYQSMIPQ 3g48-a1-m1-cB_3g48-a1-m2-cA Crystal structure of chaperone CsaA form Bacillus anthracis str. Ames A0A6L8PP74 A0A6L8PP74 1.5 X-RAY DIFFRACTION 119 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 105 110 AMANFEDFLTLDLRIGTVTHAEEFPAIRLEIDFGELGMKQSSAQITKRYNPEDLIGQQIVAVVNFPPKRVAGFKSEVLVLGGVPEAGDVVLLQPNMELPNGTKIS AMANFEDFLTLDLRIGTVTHAEEFKEARVPAIRLEIDFGELGMKQSSAQITKRYNPEDLIGQQIVAVVNFPPKRVAGFKSEVLVLGGVPEAGDVVLLQPNMELPNGTKIS 3g48-a2-m1-cB_3g48-a2-m1-cA Crystal structure of chaperone CsaA form Bacillus anthracis str. Ames A0A6L8PP74 A0A6L8PP74 1.5 X-RAY DIFFRACTION 34 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 105 110 AMANFEDFLTLDLRIGTVTHAEEFPAIRLEIDFGELGMKQSSAQITKRYNPEDLIGQQIVAVVNFPPKRVAGFKSEVLVLGGVPEAGDVVLLQPNMELPNGTKIS AMANFEDFLTLDLRIGTVTHAEEFKEARVPAIRLEIDFGELGMKQSSAQITKRYNPEDLIGQQIVAVVNFPPKRVAGFKSEVLVLGGVPEAGDVVLLQPNMELPNGTKIS 3g4e-a1-m1-cA_3g4e-a1-m1-cB Crystal structure of human senescence marker protein-30(SMP30)(Calcium bound) Q15493 Q15493 1.42 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 3g4h-a1-m1-cA_3g4h-a1-m1-cB SIKIECVLPENCRCGESPVWEEVSNSLLFVDIPAKKVCRWDSFTKQVQRVTMDAPVSSVALRQSGGYVATIGTKFCALNWKEQSAVVLATVDNDKKNNRFNDGKVDPAGRYFAGTMAEETAPAVLERHQGALYSLFPDHHVKKYFDQVDISNGLDWSLDHKIFYYIDSLSYSVDAFDYDLQTGQISNRRSVYKLEKEEQIPDGMCIDAEGKLWVACYNGGRVIRLDPVTGKRLQTVKLPVDKTTSCCFGGKNYSEMYVTCARDGMDPEGLLRQPEAGGIFKITGLGVKGIAPYSYAG SIKIECVLPENCRCGESPVWEEVSNSLLFVDIPAKKVCRWDSFTKQVQRVTMDAPVSSVALRQSGGYVATIGTKFCALNWKEQSAVVLATVDNDKKNNRFNDGKVDPAGRYFAGTMAEETAPAVLERHQGALYSLFPDHHVKKYFDQVDISNGLDWSLDHKIFYYIDSLSYSVDAFDYDLQTGQISNRRSVYKLEKEEQIPDGMCIDAEGKLWVACYNGGRVIRLDPVTGKRLQTVKLPVDKTTSCCFGGKNYSEMYVTCARDGMDPEGLLRQPEAGGIFKITGLGVKGIAPYSYAG 3g4x-a1-m1-cA_3g4x-a1-m2-cA Crystal Structure of NiSOD Y9F mutant P80735 P80735 2.01 X-RAY DIFFRACTION 58 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 117 117 1t6i-a1-m1-cA_1t6i-a1-m2-cA 1t6i-a1-m1-cC_1t6i-a1-m2-cB 1t6i-a1-m2-cC_1t6i-a1-m1-cB 1t6q-a1-m1-cA_1t6q-a1-m2-cC 1t6q-a1-m1-cB_1t6q-a1-m2-cB 1t6q-a1-m1-cC_1t6q-a1-m2-cA 1t6u-a1-m1-cD_1t6u-a1-m1-cA 1t6u-a1-m1-cE_1t6u-a1-m1-cC 1t6u-a1-m1-cF_1t6u-a1-m1-cB 1t6u-a2-m1-cG_1t6u-a2-m1-cJ 1t6u-a2-m1-cH_1t6u-a2-m1-cL 1t6u-a2-m1-cK_1t6u-a2-m1-cI 3g4x-a1-m1-cC_3g4x-a1-m2-cB 3g4x-a1-m2-cC_3g4x-a1-m1-cB 3g4z-a1-m1-cA_3g4z-a1-m2-cA 3g4z-a1-m1-cB_3g4z-a1-m2-cC 3g4z-a1-m1-cC_3g4z-a1-m2-cB 3g50-a1-m1-cA_3g50-a1-m2-cA 3g50-a1-m1-cB_3g50-a1-m2-cC 3g50-a1-m2-cB_3g50-a1-m1-cC 4ncq-a1-m1-cA_4ncq-a1-m2-cA 4ncq-a1-m1-cB_4ncq-a1-m2-cC 4ncq-a1-m1-cC_4ncq-a1-m2-cB HCDLPCGVFDPAQARIEAESVKAVQEKMAGNDDPHFQTRATVIKEQRAELAKHHVSVLWSDYFKPPHFEKYPELHQLVNDTLKALSAAKGSKDPATGQKALDYIAQIDKIFWETKKA HCDLPCGVFDPAQARIEAESVKAVQEKMAGNDDPHFQTRATVIKEQRAELAKHHVSVLWSDYFKPPHFEKYPELHQLVNDTLKALSAAKGSKDPATGQKALDYIAQIDKIFWETKKA 3g4z-a1-m1-cB_3g4z-a1-m2-cB Crystal Structure of NiSOD Y9F mutant at 1.9 A P80735 P80735 1.87 X-RAY DIFFRACTION 37 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 117 117 1t6i-a1-m1-cB_1t6i-a1-m2-cB 1t6i-a1-m1-cC_1t6i-a1-m2-cA 1t6i-a1-m2-cC_1t6i-a1-m1-cA 1t6q-a1-m1-cA_1t6q-a1-m2-cB 1t6q-a1-m1-cC_1t6q-a1-m2-cC 1t6q-a1-m2-cA_1t6q-a1-m1-cB 1t6u-a1-m1-cD_1t6u-a1-m1-cC 1t6u-a1-m1-cE_1t6u-a1-m1-cB 1t6u-a1-m1-cF_1t6u-a1-m1-cA 1t6u-a2-m1-cH_1t6u-a2-m1-cK 1t6u-a2-m1-cI_1t6u-a2-m1-cJ 1t6u-a2-m1-cL_1t6u-a2-m1-cG 3g4x-a1-m1-cB_3g4x-a1-m2-cB 3g4x-a1-m1-cC_3g4x-a1-m2-cA 3g4x-a1-m2-cC_3g4x-a1-m1-cA 3g4z-a1-m1-cA_3g4z-a1-m2-cC 3g4z-a1-m1-cC_3g4z-a1-m2-cA 3g50-a1-m1-cB_3g50-a1-m2-cB 3g50-a1-m1-cC_3g50-a1-m2-cA 3g50-a1-m2-cC_3g50-a1-m1-cA 4ncq-a1-m1-cB_4ncq-a1-m2-cB 4ncq-a1-m1-cC_4ncq-a1-m2-cA 4ncq-a1-m2-cC_4ncq-a1-m1-cA HCDLPCGVFDPAQARIEAESVKAVQEKMAGNDDPHFQTRATVIKEQRAELAKHHVSVLWSDYFKPPHFEKYPELHQLVNDTLKALSAAKGSKDPATGQKALDYIAQIDKIFWETKKA HCDLPCGVFDPAQARIEAESVKAVQEKMAGNDDPHFQTRATVIKEQRAELAKHHVSVLWSDYFKPPHFEKYPELHQLVNDTLKALSAAKGSKDPATGQKALDYIAQIDKIFWETKKA 3g4z-a1-m2-cA_3g4z-a1-m2-cC Crystal Structure of NiSOD Y9F mutant at 1.9 A P80735 P80735 1.87 X-RAY DIFFRACTION 19 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 117 117 1t6i-a1-m1-cB_1t6i-a1-m1-cA 1t6i-a1-m1-cC_1t6i-a1-m1-cA 1t6i-a1-m1-cC_1t6i-a1-m1-cB 1t6i-a1-m2-cB_1t6i-a1-m2-cA 1t6i-a1-m2-cC_1t6i-a1-m2-cA 1t6i-a1-m2-cC_1t6i-a1-m2-cB 1t6q-a1-m1-cA_1t6q-a1-m1-cB 1t6q-a1-m1-cA_1t6q-a1-m1-cC 1t6q-a1-m1-cC_1t6q-a1-m1-cB 1t6q-a1-m2-cA_1t6q-a1-m2-cB 1t6q-a1-m2-cA_1t6q-a1-m2-cC 1t6q-a1-m2-cC_1t6q-a1-m2-cB 1t6u-a1-m1-cA_1t6u-a1-m1-cB 1t6u-a1-m1-cA_1t6u-a1-m1-cC 1t6u-a1-m1-cB_1t6u-a1-m1-cC 1t6u-a1-m1-cD_1t6u-a1-m1-cE 1t6u-a1-m1-cF_1t6u-a1-m1-cD 1t6u-a1-m1-cF_1t6u-a1-m1-cE 1t6u-a2-m1-cG_1t6u-a2-m1-cI 1t6u-a2-m1-cH_1t6u-a2-m1-cG 1t6u-a2-m1-cH_1t6u-a2-m1-cI 1t6u-a2-m1-cK_1t6u-a2-m1-cJ 1t6u-a2-m1-cK_1t6u-a2-m1-cL 1t6u-a2-m1-cL_1t6u-a2-m1-cJ 3g4x-a1-m1-cA_3g4x-a1-m1-cB 3g4x-a1-m1-cC_3g4x-a1-m1-cA 3g4x-a1-m1-cC_3g4x-a1-m1-cB 3g4x-a1-m2-cA_3g4x-a1-m2-cB 3g4x-a1-m2-cC_3g4x-a1-m2-cA 3g4x-a1-m2-cC_3g4x-a1-m2-cB 3g4z-a1-m1-cA_3g4z-a1-m1-cB 3g4z-a1-m1-cA_3g4z-a1-m1-cC 3g4z-a1-m1-cB_3g4z-a1-m1-cC 3g4z-a1-m2-cA_3g4z-a1-m2-cB 3g4z-a1-m2-cB_3g4z-a1-m2-cC 3g50-a1-m1-cB_3g50-a1-m1-cA 3g50-a1-m1-cB_3g50-a1-m1-cC 3g50-a1-m1-cC_3g50-a1-m1-cA 3g50-a1-m2-cB_3g50-a1-m2-cA 3g50-a1-m2-cB_3g50-a1-m2-cC 3g50-a1-m2-cC_3g50-a1-m2-cA 4ncq-a1-m1-cB_4ncq-a1-m1-cA 4ncq-a1-m1-cB_4ncq-a1-m1-cC 4ncq-a1-m1-cC_4ncq-a1-m1-cA 4ncq-a1-m2-cB_4ncq-a1-m2-cA 4ncq-a1-m2-cB_4ncq-a1-m2-cC 4ncq-a1-m2-cC_4ncq-a1-m2-cA HCDLPCGVFDPAQARIEAESVKAVQEKMAGNDDPHFQTRATVIKEQRAELAKHHVSVLWSDYFKPPHFEKYPELHQLVNDTLKALSAAKGSKDPATGQKALDYIAQIDKIFWETKKA HCDLPCGVFDPAQARIEAESVKAVQEKMAGNDDPHFQTRATVIKEQRAELAKHHVSVLWSDYFKPPHFEKYPELHQLVNDTLKALSAAKGSKDPATGQKALDYIAQIDKIFWETKKA 3g5l-a2-m1-cB_3g5l-a2-m1-cA Crystal structure of putative S-adenosylmethionine dependent methyltransferase from Listeria monocytogenes 2.35 X-RAY DIFFRACTION 101 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 213 222 3g5l-a1-m1-cB_3g5l-a1-m1-cA KAAGEWHELKKMLPDFNQKTVLDLGCGFGWHCIYAAEHGAKKVLGIDLSERMLTEAKRKTTSPVVCYEQKAIEDIAIEPDAYNVVLSSLALHYIASFDDICKKVYINLKSSGSFIFSVEHPVFTADGRQDWYTDETGNKLHWPVDRYFNESMRTSHFLGEDVQKYHRTVTTYIQTLLKNGFQINSVIEPEPAPEMQDEYRRPMMLLISATKQE EGLKAAGEWHELKKMLPDFNQKTVLDLGCGFGWHCIYAAEHGAKKVLGIDLSERMLTEAKRKTTSPVVCYEQKAIEDIAIEPDAYNVVLSSLALHYIASFDDICKKVYINLKSSGSFIFSVEHPVFTADGRQDWYTDETGNKLHWPVDRYFNESMRTSHFLGEDVQKYHRTVTTYIQTLLKNGFQINSVIEPEPAPELKDLPEMQDEYRRPMMLLISATKQE 3g5l-a2-m2-cB_3g5l-a2-m1-cA Crystal structure of putative S-adenosylmethionine dependent methyltransferase from Listeria monocytogenes 2.35 X-RAY DIFFRACTION 70 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 213 222 KAAGEWHELKKMLPDFNQKTVLDLGCGFGWHCIYAAEHGAKKVLGIDLSERMLTEAKRKTTSPVVCYEQKAIEDIAIEPDAYNVVLSSLALHYIASFDDICKKVYINLKSSGSFIFSVEHPVFTADGRQDWYTDETGNKLHWPVDRYFNESMRTSHFLGEDVQKYHRTVTTYIQTLLKNGFQINSVIEPEPAPEMQDEYRRPMMLLISATKQE EGLKAAGEWHELKKMLPDFNQKTVLDLGCGFGWHCIYAAEHGAKKVLGIDLSERMLTEAKRKTTSPVVCYEQKAIEDIAIEPDAYNVVLSSLALHYIASFDDICKKVYINLKSSGSFIFSVEHPVFTADGRQDWYTDETGNKLHWPVDRYFNESMRTSHFLGEDVQKYHRTVTTYIQTLLKNGFQINSVIEPEPAPELKDLPEMQDEYRRPMMLLISATKQE 3g5n-a1-m1-cC_3g5n-a1-m1-cA Triple ligand occupancy crystal structure of cytochrome P450 2B4 in complex with the inhibitor 1-biphenyl-4-methyl-1H-imidazole P00178 P00178 2.5 X-RAY DIFFRACTION 31 0.998 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 452 456 3g5n-a1-m1-cB_3g5n-a1-m1-cD 3g93-a1-m1-cB_3g93-a1-m1-cC 3g93-a1-m2-cD_3g93-a1-m1-cA SKGKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH KGKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDFHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARHH 3g5n-a1-m1-cD_3g5n-a1-m1-cC Triple ligand occupancy crystal structure of cytochrome P450 2B4 in complex with the inhibitor 1-biphenyl-4-methyl-1H-imidazole P00178 P00178 2.5 X-RAY DIFFRACTION 276 0.996 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 451 452 2bdm-a2-m1-cA_2bdm-a2-m2-cA 3g5n-a1-m1-cB_3g5n-a1-m1-cA 3g93-a1-m1-cB_3g93-a1-m1-cA 3g93-a1-m2-cD_3g93-a1-m1-cC GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH SKGKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH 3g5o-a1-m1-cA_3g5o-a1-m1-cD The crystal structure of the toxin-antitoxin complex RelBE2 (Rv2865-2866) from Mycobacterium tuberculosis O33347 O33347 2 X-RAY DIFFRACTION 86 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 92 92 LMRILPISTIKGKLNEFVDAVSSTQDQITITKNGAPAAVLVGADEWESLQETLYWLAQPGIRESIAEADADIASGRTYGEDEIRAEFGVPRR LMRILPISTIKGKLNEFVDAVSSTQDQITITKNGAPAAVLVGADEWESLQETLYWLAQPGIRESIAEADADIASGRTYGEDEIRAEFGVPRR 3g5p-a1-m1-cA_3g5p-a1-m2-cD Structure and activity of human mitochondrial peptide deformylase, a novel cancer target Q9HBH1 Q9HBH1 1.7 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 3g5k-a1-m1-cA_3g5k-a1-m2-cD 3g5k-a1-m1-cB_3g5k-a1-m2-cC 3g5p-a1-m1-cB_3g5p-a1-m2-cC HMSFSHVCQVGDPVLRGVAAPVERAQLGGPELQRLTQRLVQVMRRRRCVGLSAPQLGVPRQVLALELPEALCRECPPRQRALRQMEPFPLRVFVNPSLRVLDSRLVTFPEGCESVAGFLACVPRFQAVQISGLDPNGEQVVWQASGWAARIIQHEMDHLQGCLFIDKMDSRTFTNVYWMKVND HMSFSHVCQVGDPVLRGVAAPVERAQLGGPELQRLTQRLVQVMRRRRCVGLSAPQLGVPRQVLALELPEALCRECPPRQRALRQMEPFPLRVFVNPSLRVLDSRLVTFPEGCESVAGFLACVPRFQAVQISGLDPNGEQVVWQASGWAARIIQHEMDHLQGCLFIDKMDSRTFTNVYWMKVND 3g5p-a1-m2-cC_3g5p-a1-m2-cD Structure and activity of human mitochondrial peptide deformylase, a novel cancer target Q9HBH1 Q9HBH1 1.7 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 3g5k-a1-m1-cA_3g5k-a1-m1-cB 3g5k-a1-m2-cC_3g5k-a1-m2-cD 3g5p-a1-m1-cA_3g5p-a1-m1-cB HMSFSHVCQVGDPVLRGVAAPVERAQLGGPELQRLTQRLVQVMRRRRCVGLSAPQLGVPRQVLALELPEALCRECPPRQRALRQMEPFPLRVFVNPSLRVLDSRLVTFPEGCESVAGFLACVPRFQAVQISGLDPNGEQVVWQASGWAARIIQHEMDHLQGCLFIDKMDSRTFTNVYWMKVND HMSFSHVCQVGDPVLRGVAAPVERAQLGGPELQRLTQRLVQVMRRRRCVGLSAPQLGVPRQVLALELPEALCRECPPRQRALRQMEPFPLRVFVNPSLRVLDSRLVTFPEGCESVAGFLACVPRFQAVQISGLDPNGEQVVWQASGWAARIIQHEMDHLQGCLFIDKMDSRTFTNVYWMKVND 3g5p-a3-m1-cB_3g5p-a3-m2-cD Structure and activity of human mitochondrial peptide deformylase, a novel cancer target Q9HBH1 Q9HBH1 1.7 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 183 3g5k-a1-m1-cA_3g5k-a1-m2-cC 3g5k-a1-m1-cB_3g5k-a1-m2-cD 3g5k-a2-m1-cA_3g5k-a2-m2-cC 3g5k-a3-m1-cB_3g5k-a3-m2-cD 3g5p-a1-m1-cA_3g5p-a1-m2-cC 3g5p-a1-m1-cB_3g5p-a1-m2-cD 3g5p-a2-m1-cA_3g5p-a2-m2-cC HMSFSHVCQVGDPVLRGVAAPVERAQLGGPELQRLTQRLVQVMRRRRCVGLSAPQLGVPRQVLALELPEALCRECPPRQRALRQMEPFPLRVFVNPSLRVLDSRLVTFPEGCESVAGFLACVPRFQAVQISGLDPNGEQVVWQASGWAARIIQHEMDHLQGCLFIDKMDSRTFTNVYWMKVND HMSFSHVCQVGDPVLRGVAAPVERAQLGGPELQRLTQRLVQVMRRRRCVGLSAPQLGVPRQVLALELPEALCRECPPRQRALRQMEPFPLRVFVNPSLRVLDSRLVTFPEGCESVAGFLACVPRFQAVQISGLDPNGEQVVWQASGWAARIIQHEMDHLQGCLFIDKMDSRTFTNVYWMKVND 3g5w-a2-m1-cE_3g5w-a2-m1-cF Crystal structure of Blue Copper Oxidase from Nitrosomonas europaea Q82VX3 Q82VX3 1.9 X-RAY DIFFRACTION 121 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 318 318 3g5w-a1-m1-cA_3g5w-a1-m1-cB 3g5w-a1-m1-cA_3g5w-a1-m1-cC 3g5w-a1-m1-cB_3g5w-a1-m1-cC 3g5w-a2-m1-cD_3g5w-a2-m1-cE 3g5w-a2-m1-cD_3g5w-a2-m1-cF EKREFDLSIEDTRIVLVGKRDFHTFAFNGQVPAPLIHVMEGDDVTVNVTNMTTLPHTIHWHGMLQRGTWQSDGVPHATQHAIEPGDTFTYKFKAEPAGTMWYHCHVNVNEHVTMRGMWGPLIVEPKNPLPIEKTVTKDYILMLSDWVSSWANKPGEGGIPGDVFDYYTINAKSFPETQPIRVKKGDVIRLRLIGAGDHVHAIHTHGHISQIAFKDGFPLDKPIKGDTVLIGPGERYDVILNMDNPGLWMIHDHVDTHTTNGDKPDGGIMTTIEYEEVGIDHPFYVWKDKKFVPDFYYEESLKKDLGMHNSKVFKGEPI EKREFDLSIEDTRIVLVGKRDFHTFAFNGQVPAPLIHVMEGDDVTVNVTNMTTLPHTIHWHGMLQRGTWQSDGVPHATQHAIEPGDTFTYKFKAEPAGTMWYHCHVNVNEHVTMRGMWGPLIVEPKNPLPIEKTVTKDYILMLSDWVSSWANKPGEGGIPGDVFDYYTINAKSFPETQPIRVKKGDVIRLRLIGAGDHVHAIHTHGHISQIAFKDGFPLDKPIKGDTVLIGPGERYDVILNMDNPGLWMIHDHVDTHTTNGDKPDGGIMTTIEYEEVGIDHPFYVWKDKKFVPDFYYEESLKKDLGMHNSKVFKGEPI 3g64-a2-m1-cA_3g64-a2-m2-cC Crystal structure of putative enoyl-CoA hydratase from Streptomyces coelicolor A3(2) Q93JE8 Q93JE8 2.05 X-RAY DIFFRACTION 119 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 268 268 3g64-a2-m1-cB_3g64-a2-m2-cB 3g64-a2-m1-cC_3g64-a2-m2-cA SPFTGSAAPTPEWRHLRVEITDGVATVTLARPDKLNALTFEAYADLRDLLAELSRRRAVRALVLAGEGRGFCSGGDVDEIIGATLSDTARLLDFNRTGQVVRAVRECPFPVIAALHGVAAGAGAVLALAADFRVADPSTRFAFLFTRVGLSGGDGAAYLLPRVVGLGHATRLLLGDTVRAPEAERIGLISELTEEGRADEAARTLARRLADGPALAHAQTKALLTAELDPLAAAVELDASTQALLTGEDYAEFHAAFTEKRPPKWQGR SPFTGSAAPTPEWRHLRVEITDGVATVTLARPDKLNALTFEAYADLRDLLAELSRRRAVRALVLAGEGRGFCSGGDVDEIIGATLSDTARLLDFNRTGQVVRAVRECPFPVIAALHGVAAGAGAVLALAADFRVADPSTRFAFLFTRVGLSGGDGAAYLLPRVVGLGHATRLLLGDTVRAPEAERIGLISELTEEGRADEAARTLARRLADGPALAHAQTKALLTAELDPLAAAVELDASTQALLTGEDYAEFHAAFTEKRPPKWQGR 3g64-a2-m1-cC_3g64-a2-m2-cC Crystal structure of putative enoyl-CoA hydratase from Streptomyces coelicolor A3(2) Q93JE8 Q93JE8 2.05 X-RAY DIFFRACTION 43 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 268 268 3g64-a2-m1-cA_3g64-a2-m2-cB 3g64-a2-m1-cB_3g64-a2-m2-cA SPFTGSAAPTPEWRHLRVEITDGVATVTLARPDKLNALTFEAYADLRDLLAELSRRRAVRALVLAGEGRGFCSGGDVDEIIGATLSDTARLLDFNRTGQVVRAVRECPFPVIAALHGVAAGAGAVLALAADFRVADPSTRFAFLFTRVGLSGGDGAAYLLPRVVGLGHATRLLLGDTVRAPEAERIGLISELTEEGRADEAARTLARRLADGPALAHAQTKALLTAELDPLAAAVELDASTQALLTGEDYAEFHAAFTEKRPPKWQGR SPFTGSAAPTPEWRHLRVEITDGVATVTLARPDKLNALTFEAYADLRDLLAELSRRRAVRALVLAGEGRGFCSGGDVDEIIGATLSDTARLLDFNRTGQVVRAVRECPFPVIAALHGVAAGAGAVLALAADFRVADPSTRFAFLFTRVGLSGGDGAAYLLPRVVGLGHATRLLLGDTVRAPEAERIGLISELTEEGRADEAARTLARRLADGPALAHAQTKALLTAELDPLAAAVELDASTQALLTGEDYAEFHAAFTEKRPPKWQGR 3g64-a2-m2-cB_3g64-a2-m2-cC Crystal structure of putative enoyl-CoA hydratase from Streptomyces coelicolor A3(2) Q93JE8 Q93JE8 2.05 X-RAY DIFFRACTION 135 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 268 268 3g64-a1-m1-cA_3g64-a1-m1-cB 3g64-a1-m1-cA_3g64-a1-m1-cC 3g64-a1-m1-cB_3g64-a1-m1-cC 3g64-a2-m1-cA_3g64-a2-m1-cB 3g64-a2-m1-cA_3g64-a2-m1-cC 3g64-a2-m1-cB_3g64-a2-m1-cC 3g64-a2-m2-cA_3g64-a2-m2-cB 3g64-a2-m2-cA_3g64-a2-m2-cC SPFTGSAAPTPEWRHLRVEITDGVATVTLARPDKLNALTFEAYADLRDLLAELSRRRAVRALVLAGEGRGFCSGGDVDEIIGATLSDTARLLDFNRTGQVVRAVRECPFPVIAALHGVAAGAGAVLALAADFRVADPSTRFAFLFTRVGLSGGDGAAYLLPRVVGLGHATRLLLGDTVRAPEAERIGLISELTEEGRADEAARTLARRLADGPALAHAQTKALLTAELDPLAAAVELDASTQALLTGEDYAEFHAAFTEKRPPKWQGR SPFTGSAAPTPEWRHLRVEITDGVATVTLARPDKLNALTFEAYADLRDLLAELSRRRAVRALVLAGEGRGFCSGGDVDEIIGATLSDTARLLDFNRTGQVVRAVRECPFPVIAALHGVAAGAGAVLALAADFRVADPSTRFAFLFTRVGLSGGDGAAYLLPRVVGLGHATRLLLGDTVRAPEAERIGLISELTEEGRADEAARTLARRLADGPALAHAQTKALLTAELDPLAAAVELDASTQALLTGEDYAEFHAAFTEKRPPKWQGR 3g67-a1-m1-cB_3g67-a1-m1-cA Crystal Structure of a Soluble Chemoreceptor from Thermotoga maritima Q7DFA3 Q7DFA3 2.17 X-RAY DIFFRACTION 291 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 212 213 3g6b-a1-m1-cB_3g6b-a1-m1-cA 3ur1-a1-m1-cC_3ur1-a1-m1-cD RIEEVKERFVNLNRLFQELVGDFQAKSDQLVSVIQDMEKISENIMEELKKSGTNVDQIVERVKEASSQIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLENLEFMANLFETVGKTLQNMVRFMENNVKLLQEVRNSLDTSKESLSEKSAEIDSATKVLEET RIEEVKERFVNLNRLFQELVGDFQAKSDQLVSVIQDMEKISENIMEELKKSGTNVDQIVERVKEASSQIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLENLEFMANLFETVGKTLQNMVRFMENNVKLLQEVRNSLDTSKESLSEKSAEIDSATKVLEETA 3g68-a2-m1-cB_3g68-a2-m3-cB CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHOSUGAR ISOMERASE (CD3275) FROM CLOSTRIDIUM DIFFICILE 630 AT 1.80 A RESOLUTION Q180C0 Q180C0 1.8 X-RAY DIFFRACTION 136 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 340 340 3g68-a1-m1-cA_3g68-a1-m2-cA GTIQDYLETPVRREIISNADSLFNEVKRTNLKKIIITGSGTSYHSGVQVQPYLQNLLDIDVVKYPFITEDTFKFDNENTLVVGVSQGGSSYSTYNAKLAEDKGCKIASAGCKNALIDEISDYILTVNCGEEKSGAKTKGYYCTKLNLLLGLQIAREKGIISSEKYNEEINKILDAINRFEAVYKLSKQWIERNKEKLVNSKEIRIIGHSDIYGDTLEAALKLLETRIPVTGYEFEEFIHGIYNAINSDSTIFILDTGKEPRVTKIDVLSGWTENVFAIGRDVTENDKNLKIDITDNPYYQTFNFIVPIQLICGEIPTLRGVDPSVPKDTRFHKLGSKKLN GTIQDYLETPVRREIISNADSLFNEVKRTNLKKIIITGSGTSYHSGVQVQPYLQNLLDIDVVKYPFITEDTFKFDNENTLVVGVSQGGSSYSTYNAKLAEDKGCKIASAGCKNALIDEISDYILTVNCGEEKSGAKTKGYYCTKLNLLLGLQIAREKGIISSEKYNEEINKILDAINRFEAVYKLSKQWIERNKEKLVNSKEIRIIGHSDIYGDTLEAALKLLETRIPVTGYEFEEFIHGIYNAINSDSTIFILDTGKEPRVTKIDVLSGWTENVFAIGRDVTENDKNLKIDITDNPYYQTFNFIVPIQLICGEIPTLRGVDPSVPKDTRFHKLGSKKLN 3g68-a2-m3-cA_3g68-a2-m3-cB CRYSTAL STRUCTURE OF A PUTATIVE PHOSPHOSUGAR ISOMERASE (CD3275) FROM CLOSTRIDIUM DIFFICILE 630 AT 1.80 A RESOLUTION Q180C0 Q180C0 1.8 X-RAY DIFFRACTION 48 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 334 340 3g68-a1-m1-cA_3g68-a1-m1-cB 3g68-a1-m2-cA_3g68-a1-m2-cB 3g68-a2-m1-cA_3g68-a2-m1-cB GTIQDYLETPVRREIISNADSLFNEVKRTNLKKIIITGSGTSYHSGVQVQPYLQNLLDIDVVKYPFITEDTFKFDNENTLVVGVSQGGSSYSTYNAKLAEDKGCKIASAGCKNALIDEISDYILTVNCGEEKSGAKTKGYYCTKLNLLLGLQIAREKGIISSEKYNEEINKILDAINRFEAVYKLSKQWIERNKEKLVNSKEIRIIGHSDIYGDTLEAALKLLETRIPVTGYEFEEFIHGIYNAINSDSTIFILDTGKEPRVTKIDVLSGWTENVFAIGRDVTENDKNLKIDITDNPYYQTFNFIVPIQLICGEIPTLRGVDPSVPKDTRFHKL GTIQDYLETPVRREIISNADSLFNEVKRTNLKKIIITGSGTSYHSGVQVQPYLQNLLDIDVVKYPFITEDTFKFDNENTLVVGVSQGGSSYSTYNAKLAEDKGCKIASAGCKNALIDEISDYILTVNCGEEKSGAKTKGYYCTKLNLLLGLQIAREKGIISSEKYNEEINKILDAINRFEAVYKLSKQWIERNKEKLVNSKEIRIIGHSDIYGDTLEAALKLLETRIPVTGYEFEEFIHGIYNAINSDSTIFILDTGKEPRVTKIDVLSGWTENVFAIGRDVTENDKNLKIDITDNPYYQTFNFIVPIQLICGEIPTLRGVDPSVPKDTRFHKLGSKKLN 3g6i-a1-m1-cA_3g6i-a1-m2-cA Crystal structure of an outer membrane protein, part of a putative carbohydrate binding complex (bt_1022) from bacteroides thetaiotaomicron vpi-5482 at 1.93 A resolution Q8A8Z5 Q8A8Z5 1.93 X-RAY DIFFRACTION 64 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 197 197 AVDLNKENRDPKYVESIVNRSQKIVDKLGLTDAKVAEDVCNVIANRYFELNDIYEIRDAKVKAVKESGLTGDAKNEALKAAENEKDAALYRSHFAFPASLSLFLNEEQIEAVKDGTYGVVKVTYEATLDIPSLKEEEKVQIYAWLVEAREFADAENSNKKHAAFGKYKGRINNYLAKRGYNLTKEREEWAKRVKARG AVDLNKENRDPKYVESIVNRSQKIVDKLGLTDAKVAEDVCNVIANRYFELNDIYEIRDAKVKAVKESGLTGDAKNEALKAAENEKDAALYRSHFAFPASLSLFLNEEQIEAVKDGTYGVVKVTYEATLDIPSLKEEEKVQIYAWLVEAREFADAENSNKKHAAFGKYKGRINNYLAKRGYNLTKEREEWAKRVKARG 3g72-a3-m1-cA_3g72-a3-m1-cB Design and Preparation of Potent, Non-Peptidic, Bioavailable Renin Inhibitors P00797 P00797 1.9 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 333 336 3d91-a3-m1-cA_3d91-a3-m1-cB 3g6z-a3-m1-cB_3g6z-a3-m1-cA 3g70-a3-m1-cA_3g70-a3-m2-cB 3k1w-a3-m1-cA_3k1w-a3-m1-cB GNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 3g79-a1-m1-cA_3g79-a1-m1-cB Crystal structure of NDP-N-acetyl-D-galactosaminuronic acid dehydrogenase from Methanosarcina mazei Go1 Q8PXR2 Q8PXR2 2.4 X-RAY DIFFRACTION 200 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 475 475 SMSKLEKLLKERGPIKKIGVLGMGYVGIPAAVLFADAPCFEKVLGFQRNSKSSGYKIEMLNRGESPLKGEEPGLEELIGKVVKAGKFECTPDFSRISELDAVTLAIQTPFANPKDLEPDFSALIDGIRNVGKYLKPGMLVVLESTITPGTTEGMAKQILEEESGLKAGEDFALAHAPERVMVGRLLKNIREHDRIVGGIDEASTKRAVELYSPVLTVGQVIPMSATAAEVTKTAENTFRDLQIAAINQLALYCEAMGINVYDVRTGVDSLKGEGITRAVLWPGAGVGGHCLTKDTYHLERGVKIGRGELDYPEGADSIYVLARKVNDFMPAHMYNLTVAALERLGKKMDGSKVAMLGWAFIKDSDDARNTPSEPYRDLCLKAGASVMVHDPYVVNYPGVEISDNLEEVVRNADAIVVLAGHSAYSSLKADWAKKVSAKANPVIIDGRNVIEPDEFIGKGFVYKGIGREGHHHHHH SMSKLEKLLKERGPIKKIGVLGMGYVGIPAAVLFADAPCFEKVLGFQRNSKSSGYKIEMLNRGESPLKGEEPGLEELIGKVVKAGKFECTPDFSRISELDAVTLAIQTPFANPKDLEPDFSALIDGIRNVGKYLKPGMLVVLESTITPGTTEGMAKQILEEESGLKAGEDFALAHAPERVMVGRLLKNIREHDRIVGGIDEASTKRAVELYSPVLTVGQVIPMSATAAEVTKTAENTFRDLQIAAINQLALYCEAMGINVYDVRTGVDSLKGEGITRAVLWPGAGVGGHCLTKDTYHLERGVKIGRGELDYPEGADSIYVLARKVNDFMPAHMYNLTVAALERLGKKMDGSKVAMLGWAFIKDSDDARNTPSEPYRDLCLKAGASVMVHDPYVVNYPGVEISDNLEEVVRNADAIVVLAGHSAYSSLKADWAKKVSAKANPVIIDGRNVIEPDEFIGKGFVYKGIGREGHHHHHH 3g7d-a1-m1-cA_3g7d-a1-m2-cA Native PhpD with Cadmium Atoms Q5IW40 Q5IW40 1.8 X-RAY DIFFRACTION 403 1.0 1938 (Streptomyces viridochromogenes) 1938 (Streptomyces viridochromogenes) 413 413 3gbf-a1-m1-cA_3gbf-a1-m2-cA 3rzz-a1-m1-cA_3rzz-a1-m2-cA 4yar-a2-m1-cA_4yar-a2-m2-cA RIDPFKLAHWNARKYTAAQTADLAGLPLDDLRRLLPAAATALAEALSVEPSQLAADAHRNLTVVHKSAEEHASRRPIQRDGIHFYNYYTLAAPEGRVAPVVLDILCPSDRLPALNNGHLEPAITVNLGPGDINGRWGEEITPQTWRVLHANHGGDRWITGDSYVEPSYCPHSYSLAGDAPARIVSYTAQSNISPLTEANNWSTGAFEEALKALSGKVSAGSVLDLFLARRAHTRTSAAEAAGVPPADLEAALRSPASETGLTVLRTLGRALGFDYRVLLPADDQGVGKTWTTIEDSRRSRRTFGTYEAASASAAHLPDLVGSFLRVDDLIDHAENHYVVTEGRLTLEWDGPDGPASVELEPDGSAWTGPFVRHRWHGTGTVLKFGSGAHLGYQDWLELTNTFEPAATLRRGRR RIDPFKLAHWNARKYTAAQTADLAGLPLDDLRRLLPAAATALAEALSVEPSQLAADAHRNLTVVHKSAEEHASRRPIQRDGIHFYNYYTLAAPEGRVAPVVLDILCPSDRLPALNNGHLEPAITVNLGPGDINGRWGEEITPQTWRVLHANHGGDRWITGDSYVEPSYCPHSYSLAGDAPARIVSYTAQSNISPLTEANNWSTGAFEEALKALSGKVSAGSVLDLFLARRAHTRTSAAEAAGVPPADLEAALRSPASETGLTVLRTLGRALGFDYRVLLPADDQGVGKTWTTIEDSRRSRRTFGTYEAASASAAHLPDLVGSFLRVDDLIDHAENHYVVTEGRLTLEWDGPDGPASVELEPDGSAWTGPFVRHRWHGTGTVLKFGSGAHLGYQDWLELTNTFEPAATLRRGRR 3g7g-a2-m1-cF_3g7g-a2-m1-cH Crystal structure of the protein with unknown function from Clostridium acetobutylicum ATCC 824 Q97DZ9 Q97DZ9 1.99 X-RAY DIFFRACTION 70 0.993 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 148 152 3g7g-a1-m1-cD_3g7g-a1-m1-cA 3g7g-a1-m1-cE_3g7g-a1-m1-cB 3g7g-a2-m1-cC_3g7g-a2-m1-cG EMNYEEVFSITITVDKPILIGQDDIVGRRQLIPIISGKVSGNNFNGKVLPGGIDSQIVRPDGKCELSARYAIRLDDGAAIYIENNGIRTVPDEYIEAVKFVDPNAYYFRTIPTFETYSPKYKWMMNHIFVCCASRLPENVLLKFYKIS NIKEMNYEEVFSITITVDKPILIGQDDIVGRRQLIPIISGKVSGNNFNGKVLPGGIDSQIVRPDGKCELSARYAIRLDDGAAIYIENNGIRTVPDEYIEAVKSGVDPNAYYFRTIPTFETYSPKYKWMMNHIFVCCASRLPENVLLKFYKIS 3g7g-a2-m1-cG_3g7g-a2-m1-cH Crystal structure of the protein with unknown function from Clostridium acetobutylicum ATCC 824 Q97DZ9 Q97DZ9 1.99 X-RAY DIFFRACTION 55 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 146 152 3g7g-a1-m1-cB_3g7g-a1-m1-cA 3g7g-a1-m1-cE_3g7g-a1-m1-cD 3g7g-a2-m1-cC_3g7g-a2-m1-cF MNYEEVFSITITVDKPILIGQDDIVGRRQLIPIISGKVSGNNFNGKVLPGGIDSQIVRPDGKCELSARYAIRLDDGAAIYIENNGIRTVPDEYIEAVKSGPNAYYFRTIPTFETYSPKYKWMMNHIFVCCASRLPENVLLKFYKIS NIKEMNYEEVFSITITVDKPILIGQDDIVGRRQLIPIISGKVSGNNFNGKVLPGGIDSQIVRPDGKCELSARYAIRLDDGAAIYIENNGIRTVPDEYIEAVKSGVDPNAYYFRTIPTFETYSPKYKWMMNHIFVCCASRLPENVLLKFYKIS 3g7k-a1-m1-cA_3g7k-a1-m1-cD Crystal Structure of Methylitaconate-delta-isomerase Q0QLE6 Q0QLE6 2.7 X-RAY DIFFRACTION 55 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 379 379 3g7k-a1-m1-cC_3g7k-a1-m1-cB SDQMRIPCVIMRAGTSKGIFLKGNDLPADQELRDKVILRIFGSPDVRQIDGLAGADPLTSKLAIIGPSTHPDADVDYTFAQVSITDAVVDYNGNCGNISAGVGPFAIDESFVKAVEPMTRVCIHNTNTGKLLYAEVEVEDGKAKVSGDCKIDGVPGTNAPELMDFSDTAGAATGKVLPTGNVVDVLSTSKGDIDVSIVDVANPCIFVHAKDVNMTGTETPDVINGNADLLAYLEEIRAKCCVKIGMAATEKEASEKSPAFPMIAFVTKPEDYVDFSTGNTISGDDVDLVSRLMFMQVLHKTYAGTATACTGSAARIPGTIVNQVLRDTGDEDTVRIGHPAGVIPVVSIVKDGKVEKAALIRTARRIMEGYVYVEKAKLV SDQMRIPCVIMRAGTSKGIFLKGNDLPADQELRDKVILRIFGSPDVRQIDGLAGADPLTSKLAIIGPSTHPDADVDYTFAQVSITDAVVDYNGNCGNISAGVGPFAIDESFVKAVEPMTRVCIHNTNTGKLLYAEVEVEDGKAKVSGDCKIDGVPGTNAPELMDFSDTAGAATGKVLPTGNVVDVLSTSKGDIDVSIVDVANPCIFVHAKDVNMTGTETPDVINGNADLLAYLEEIRAKCCVKIGMAATEKEASEKSPAFPMIAFVTKPEDYVDFSTGNTISGDDVDLVSRLMFMQVLHKTYAGTATACTGSAARIPGTIVNQVLRDTGDEDTVRIGHPAGVIPVVSIVKDGKVEKAALIRTARRIMEGYVYVEKAKLV 3g7k-a2-m1-cA_3g7k-a2-m1-cB Crystal Structure of Methylitaconate-delta-isomerase Q0QLE6 Q0QLE6 2.7 X-RAY DIFFRACTION 131 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 379 387 3g7k-a1-m1-cA_3g7k-a1-m1-cB SDQMRIPCVIMRAGTSKGIFLKGNDLPADQELRDKVILRIFGSPDVRQIDGLAGADPLTSKLAIIGPSTHPDADVDYTFAQVSITDAVVDYNGNCGNISAGVGPFAIDESFVKAVEPMTRVCIHNTNTGKLLYAEVEVEDGKAKVSGDCKIDGVPGTNAPELMDFSDTAGAATGKVLPTGNVVDVLSTSKGDIDVSIVDVANPCIFVHAKDVNMTGTETPDVINGNADLLAYLEEIRAKCCVKIGMAATEKEASEKSPAFPMIAFVTKPEDYVDFSTGNTISGDDVDLVSRLMFMQVLHKTYAGTATACTGSAARIPGTIVNQVLRDTGDEDTVRIGHPAGVIPVVSIVKDGKVEKAALIRTARRIMEGYVYVEKAKLV SDQMRIPCVIMRAGTSKGIFLKGNDLPADQELRDKVILRIFGSPDVRQIDGLAGADPLTSKLAIIGPSTHPDADVDYTFAQVSITDAVVDYNGNCGNISAGVGPFAIDESFVKAVEPMTRVCIHNTNTGKLLYAEVEVEDGKAKVSGDCKIDGVPGTNAPELMDFSDTAGAATGKVLPTGNVVDVLSTSKGDIDVSIVDVANPCIFVHAKDVNMTGTETPDVINGNADLLAYLEEIRAKCCVKIGMAATEKEASEKSPAFPMIAFVTKPEDYVDFSTGNTISGDDVDLVSRLMFMQVLHKTYAGTATACTGSAARIPGTIVNQVLRDTGDEDTVRIGHPAGVIPVVSIVKDGKVEKAALIRTARRIMEGYVYVEKAKLVGSAWSHPQ 3g7k-a3-m1-cC_3g7k-a3-m1-cD Crystal Structure of Methylitaconate-delta-isomerase Q0QLE6 Q0QLE6 2.7 X-RAY DIFFRACTION 126 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 224 379 3g7k-a1-m1-cC_3g7k-a1-m1-cD SDQMRIPCVIMRAGTSKGIFLKGNDLPADQELRDKVILRIFGSPDVRQIDGLAGADPLTSKLAIIGPSTHPDADVDYTFAQVSITDAVVDYNGNCGNISAGVGPFAIDESFVKAVEPMTRVCIHNTNTGKLLYAEVEVEDGKAKVSGDCKIDGVPGTNAPELMDFSDTAGAATGKVDTVRIGHPAGVIPVVSIVKDGKVEKAALIRTARRIMEGYVYVEKAKLV SDQMRIPCVIMRAGTSKGIFLKGNDLPADQELRDKVILRIFGSPDVRQIDGLAGADPLTSKLAIIGPSTHPDADVDYTFAQVSITDAVVDYNGNCGNISAGVGPFAIDESFVKAVEPMTRVCIHNTNTGKLLYAEVEVEDGKAKVSGDCKIDGVPGTNAPELMDFSDTAGAATGKVLPTGNVVDVLSTSKGDIDVSIVDVANPCIFVHAKDVNMTGTETPDVINGNADLLAYLEEIRAKCCVKIGMAATEKEASEKSPAFPMIAFVTKPEDYVDFSTGNTISGDDVDLVSRLMFMQVLHKTYAGTATACTGSAARIPGTIVNQVLRDTGDEDTVRIGHPAGVIPVVSIVKDGKVEKAALIRTARRIMEGYVYVEKAKLV 3g7m-a2-m1-cA_3g7m-a2-m2-cA Structure of the thaumatin-like xylanase inhibitor TLXI Q0WX48 Q0WX48 2.91 X-RAY DIFFRACTION 88 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 151 151 APLTITNRCHFTVWPAVALVLAQGGGGTELHPGASWSLDTPVIGSQYIWGRTGCSFDRAGKGRCQTGDCGGSSLTCGGNPAVPTTMAEVSVLQGNYTYGVTSTLKGFNVPMNLKCSSGDALPCRKAGCDVVQPYAKSCSAAGSRLQIVFCP APLTITNRCHFTVWPAVALVLAQGGGGTELHPGASWSLDTPVIGSQYIWGRTGCSFDRAGKGRCQTGDCGGSSLTCGGNPAVPTTMAEVSVLQGNYTYGVTSTLKGFNVPMNLKCSSGDALPCRKAGCDVVQPYAKSCSAAGSRLQIVFCP 3g7p-a1-m1-cA_3g7p-a1-m2-cA Crystal structure of a nifx-associated protein of unknown function (afe_1514) from acidithiobacillus ferrooxidans atcc at 2.00 A resolution B7JA91 B7JA91 2 X-RAY DIFFRACTION 29 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 137 137 LPEESLFFRELVKQWRAQDSYGTWEKKSDELLAPYVLDKEQRRAIPIIGDPDPEILWRVELFYNAVGLATERASGVVSPKSHEGFGRVLIAGRLIVVNKQLRDVHRFGFPSEKLAEEGDKLVAGALEIEKFPEVARF LPEESLFFRELVKQWRAQDSYGTWEKKSDELLAPYVLDKEQRRAIPIIGDPDPEILWRVELFYNAVGLATERASGVVSPKSHEGFGRVLIAGRLIVVNKQLRDVHRFGFPSEKLAEEGDKLVAGALEIEKFPEVARF 3g7q-a1-m1-cA_3g7q-a1-m2-cA Crystal structure of valine-pyruvate aminotransferase AvtA (NP_462565.1) from Salmonella typhimurium LT2 at 1.80 A resolution Q8ZL86 Q8ZL86 1.8 X-RAY DIFFRACTION 127 1.0 373 373 GITRLEDLNDGAILGGGNPAHIPAQDYFQTLLTDVESGKAADALCNYDGPQGKTALLNALAVLLRETLGWDIEPQNIALTNGSQSAFFYLFNLFAGRSTKKVLFPLAPEYIGYADDLFVSARPNIELLPEGQFKYHVDFEHLHIGEETGICVSRPTNPTGNVITDEELKLDRLANQHNIPLVIDNAYGVPFPGIIFSEARPLWNPNIILCSLSKLGLPGSRCGIIIANDKTITAIANNGIISLAPGGGPACEIKRNDLLRLSETVIKPFYYQRVQQTIAIIRRYLSEERCLIHKPEGAIFLWLWFKDLPITTELLYQRLKARGVLVPGHYFFPGLDKPWPHTHQCRNYVPEPDKIEAGVKILAEEIERAWREG GITRLEDLNDGAILGGGNPAHIPAQDYFQTLLTDVESGKAADALCNYDGPQGKTALLNALAVLLRETLGWDIEPQNIALTNGSQSAFFYLFNLFAGRSTKKVLFPLAPEYIGYADDLFVSARPNIELLPEGQFKYHVDFEHLHIGEETGICVSRPTNPTGNVITDEELKLDRLANQHNIPLVIDNAYGVPFPGIIFSEARPLWNPNIILCSLSKLGLPGSRCGIIIANDKTITAIANNGIISLAPGGGPACEIKRNDLLRLSETVIKPFYYQRVQQTIAIIRRYLSEERCLIHKPEGAIFLWLWFKDLPITTELLYQRLKARGVLVPGHYFFPGLDKPWPHTHQCRNYVPEPDKIEAGVKILAEEIERAWREG 3g7r-a1-m1-cA_3g7r-a1-m1-cB Crystal structure of SCO4454, a TetR-family transcriptional regulator from Streptomyces coelicolor Q9KZX2 Q9KZX2 1.38 X-RAY DIFFRACTION 76 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 187 199 NLYFQSEARARLLGTATRIFYAEGIHSVGIDRITAEAQVTRATLYRHFSGKDDLILAYLDQADRGIRAQVTAARGSSPAADGQVRAVARSIVDGIRSPGFRGCAFLNAVAEYPDPAHPVHRAVLAHRQWFLDTVTELLAQVGDGDGVAAGRHLVLRDGAAAGCLFDPELVSETFLHGVEGVLRDVSE NLYFQGSPSTEAAARTPSEARARLLGTATRIFYAEGIHSVGIDRITAEAQVTRATLYRHFSGKDDLILAYLDQADRGIRAQVTAARGSSPAADGQVRAVARSIVDGIRSPGFRGCAFLNAVAEYPDPAHPVHRAVLAHRQWFLDTVTELLAQVGDGDGVAAGRHLVLRDGAAAGCLFDPELVSETFLHGVEGVLRDVSE 3g7s-a1-m1-cB_3g7s-a1-m1-cA Crystal structure of a long-chain-fatty-acid-CoA ligase (FadD1) from Archaeoglobus fulgidus O30147 O30147 2.15 X-RAY DIFFRACTION 96 0.996 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 477 479 ELKYKIGFPSLYYPKISLADRIDAAAEKFGEKTAIISAEPKFPSEFPESNFLEICEVTKKLASGISRKGVRKGEHVGVCIPNSIDYVTIYALWRVAATPVPINPYKSFELEHILNDSEATTLVVHSLYENFKPVLEKTGVERVFVVGGEVNSLSEVDSGSEDFENVKVNPEEDVALIPYTGGPKGVLTHFNLAANALQLAVATGLSHDTIVGCPFHSAEFGLVNLVTVGNEYVVGFNQELAENIEKYKGTFSWAVPPALNVLVNTLESSNKTYDWSYLKVFATGAWPVAPALVEKLLKLAAEKCNNPRLRHNQIWGTEACPVTTNPPLRLDKSTTQGVPSDIELKVISLEDGRELGVGESGEIVIRGPNIFKGYWKREKENQECWWYDEKGRKFFRTGDVGFIDEEGFLHFQDRVKPFELEALLKHEAVDVAVIGKPVPKAFIVLKPEYRGKVDEEDIIEWVRERISREVEFVEELP ELKYKIGFPSLYYPKISLADRIDAAAEKFGEKTAIISAEPKFPSEFPESNFLEICEVTKKLASGISRKGVRKGEHVGVCIPNSIDYVTIYALWRVAATPVPINPYKSFELEHILNDSEATTLVVHSLYENFKPVLEKTGVERVFVVGGEVNSLSEVDSGSEDFENVKVNPEEDVALIPYTGGTTGPKGVLTHFNLAANALQLAVATGLSHDTIVGCPFHSAEFGLVNLVTVGNEYVVGFNQELAENIEKYKGTFSWAVPPALNVLVNTLESSNKTYDWSYLKVFATGAWPVAPALVEKLLKLAAEKCNNPRLRHNQIWGTEACPVTTNPPLRLDKSTTQGVPSDIELKVISLEDGRELGVGESGEIVIRGPNIFKGYWKREKENQECWWYDEKGRKFFRTGDVGFIDEEGFLHFQDRVPFELEALLKHEAVDVAVIGKPDPKAFIVLKPEYRGKVDEEDIIEWVRERISREVEFVEELP 3g80-a1-m1-cA_3g80-a1-m1-cB Nodamura virus protein b2, RNA-binding domain Q9IMM3 Q9IMM3 2.5 X-RAY DIFFRACTION 77 0.986 12288 (Nodamura virus) 12288 (Nodamura virus) 73 73 SCAYELIKSLPAKLEQLAQETQATIQTLMIADPNVNKDLRAFCEFLTVQHQRAYRATNSLLIKPRVAAALRGE CAYELIKSLPAKLEQLAQETQATIQTLMIADPNVNKDLRAFCEFLTVQHQRAYRATNSLLIKPRVAAALRGEE 3g85-a2-m1-cA_3g85-a2-m2-cA Crystal structure of LacI family transcription regulator from Clostridium acetobutylicum Q97DC5 Q97DC5 1.84 X-RAY DIFFRACTION 87 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 265 265 KPTIALYWSSDISVNIISRFLRGLQSKLAKQNYNYNVVICPYKTDCLHLEKGISKENSFDAAIIANISNYDLEYLNKASLTLPIILFNRLSNKYSSVNVDNYKGEKASLLFAKKRYKSAAAILTESLNDADNRNKGFIETCHKNGIKISENHIIAAENSIHGGVDAAKKLKLKNTPKALFCNSDSIALGVISVLNKRQISIPDDIEIVAIGNDREYTEFSTPPVTIVDIPIEEAGTCISLVEKLINRDIENPTSILFDGPLILRN KPTIALYWSSDISVNIISRFLRGLQSKLAKQNYNYNVVICPYKTDCLHLEKGISKENSFDAAIIANISNYDLEYLNKASLTLPIILFNRLSNKYSSVNVDNYKGEKASLLFAKKRYKSAAAILTESLNDADNRNKGFIETCHKNGIKISENHIIAAENSIHGGVDAAKKLKLKNTPKALFCNSDSIALGVISVLNKRQISIPDDIEIVAIGNDREYTEFSTPPVTIVDIPIEEAGTCISLVEKLINRDIENPTSILFDGPLILRN 3g8h-a1-m1-cA_3g8h-a1-m2-cA Crystal structure of phospholipase A2 ammodytoxin C from vipera ammodytes ammodytes P11407 P11407 1.35 X-RAY DIFFRACTION 48 1.0 8705 (Vipera ammodytes ammodytes) 8705 (Vipera ammodytes ammodytes) 122 122 3g8g-a1-m1-cA_3g8g-a1-m2-cA SLLEFGMMILGETGKNPLTSYSFYGCYCGVGGKGTPKDATDRCCFVHDCCYGNLPDCSPKTDRYKYHRENGAIVCGKGTSCENRICECDRAAAICFRKNLKTYNYIYRNYPDILCKEESEKC SLLEFGMMILGETGKNPLTSYSFYGCYCGVGGKGTPKDATDRCCFVHDCCYGNLPDCSPKTDRYKYHRENGAIVCGKGTSCENRICECDRAAAICFRKNLKTYNYIYRNYPDILCKEESEKC 3g8k-a1-m1-cA_3g8k-a1-m1-cB Crystal structure of murine natural killer cell receptor, Ly49L4 Q9JIQ2 Q9JIQ2 2 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 127 127 GRGFEKYWFCYGIKCYYFVMDRKTWSGCKQTCQISSLSLLKIDNEDELKFLKLLVPSDSYWIGLSYDNKKKDWAWINNGPSKLALNTMKYNIRDGGCMLLSKTRLDNDNCDKSFICICGKRLDKFPH GRGFEKYWFCYGIKCYYFVMDRKTWSGCKQTCQISSLSLLKIDNEDELKFLKLLVPSDSYWIGLSYDNKKKDWAWINNGPSKLALNTMKYNIRDGGCMLLSKTRLDNDNCDKSFICICGKRLDKFPH 3g8l-a2-m1-cD_3g8l-a2-m1-cB Crystal structure of murine natural killer cell receptor, Ly49L4 Q9JIP9 Q9JIP9 2.5 X-RAY DIFFRACTION 103 1.0 10090 (Mus musculus) 10090 (Mus musculus) 152 161 3g8l-a1-m1-cC_3g8l-a1-m1-cA ECRPGNDLLESLHKEQNRWYSETKTFSGFEKYWFCYGIKCYYFVMDRKTWSGCKQTCQISSLSLLKIDNEDELKFLKLLVPSDSYWIGLSYDNKKKDWAWINNGPSKLALNTMKYNIRDGGCMLLSKTRLDNDNCDKSFICICGKRLDKFPH IECRPGNDLLESLHKEQNRWYSETKTFSDSSQHTGRGFEKYWFCYGIKCYYFVMDRKTWSGCKQTCQISSLSLLKIDNEDELKFLKLLVPSDSYWIGLSYDNKKKDWAWINNGPSKLALNTMKYNIRDGGCMLLSKTRLDNDNCDKSFICICGKRLDKFPH 3g8q-a2-m1-cB_3g8q-a2-m1-cC A cytidine deaminase edits C-to-U in transfer RNAs in archaea Q8TWU6 Q8TWU6 2.4 X-RAY DIFFRACTION 131 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 277 277 3g8q-a1-m1-cD_3g8q-a1-m1-cA MKVSLAGQTVDVKKILNEIPKRTVTAALLEGGEIVAVEEADDEHAERKLVRRHDVEGKVVFVTARPCLYCARELAEAGVAGVVYLGRGRGLGPYYLARSGVEVVEVHPDEPLGYDPVDRLDVLLTFGGNPYLTEEDVAARVYCLLTGRGFDADIAPAPENLSGRVEIMVTRGDPDEAVELLKEELPVFRIRRFLISGEFDRDELRERILEDIEPRILDPFAVRARIARAGAFSSSREAEVFIGDVLTSVGREVNLNDPRTVVTVDVLGPRVSVGVEK MKVSLAGQTVDVKKILNEIPKRTVTAALLEGGEIVAVEEADDEHAERKLVRRHDVEGKVVFVTARPCLYCARELAEAGVAGVVYLGRGRGLGPYYLARSGVEVVEVHPDEPLGYDPVDRLDVLLTFGGNPYLTEEDVAARVYCLLTGRGFDADIAPAPENLSGRVEIMVTRGDPDEAVELLKEELPVFRIRRFLISGEFDRDELRERILEDIEPRILDPFAVRARIARAGAFSSSREAEVFIGDVLTSVGREVNLNDPRTVVTVDVLGPRVSVGVEK 3g8r-a1-m1-cB_3g8r-a1-m1-cA Crystal structure of putative spore coat polysaccharide biosynthesis protein E from Chromobacterium violaceum ATCC 12472 Q7NR94 Q7NR94 2.49 X-RAY DIFFRACTION 206 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 326 327 KPLFIFEANNHGNVEHGVALIRAIRESCQGFDFDFGFKLQYRNLDTFIHSSFKGRDDVKYVKRFEETRLQPEQQKLVAEKANGFKAICTPFDEESVDLIEAHGIEIIKIASCSFTDWPLLERIARSDKPVVASTAGARREDIDKVVSFLHRGKDLTIHCVAEYPTPDDHLHLARIKTLRQQYAGVRIGYSTHEDPDLEPILAVAQGATVFEKHVGLPTDQYGINNYSANPEQVRRWLAAAARALALGDGEDDAVSETEQASLRSLRRGVFATRPVAAGEALTADNVSFAFPPVEGQLTANEWSKYVRYTAKTPIAADAPVAADLEP KPLFIFEANNHGNVEHGVALIRAIRESCQGFDFDFGFKLQYRNLDTFIHSSFKGRDDVKYVKRFEETRLQPEQQKLVAEKANGFKAICTPFDEESVDLIEAHGIEIIKIASCSFTDWPLLERIARSDKPVVASTAGARREDIDKVVSFLHRGKDLTIHCVAEYPTPDDHLHLARIKTLRQQYAGVRIGYSTHEDPDLEPILAVAQGATVFEKHVGLPTDQYGINNYSANPEQVRRWLAAAARALALGDGEDDAVSETEQASLRSLRRGVFATRPVAAGEALTADNVSFAFPPVEGQLTANEWSKYVRYTAKTPIAADAPVAADLEPV 3g8w-a2-m1-cC_3g8w-a2-m1-cD Crystal structure of a probable acetyltransferase from Staphylococcus epidermidis ATCC 12228 A0A0H2VFJ4 A0A0H2VFJ4 2.7 X-RAY DIFFRACTION 40 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 158 158 3g8w-a1-m1-cA_3g8w-a1-m1-cB NNIRLLNQNDLDSYIELKFGHHNYEWDRYYLENVSIDRLKTILSNHTDYWNIFGAFEDDELVATCTLKQNYVGKCHKAILENNFVKNNDEIVNRELINHIIQYAKEQNIETLIAIASNNISAKVFFSSIGFENLAFEKNASKIGNEYFDENWLIYSTT NNIRLLNQNDLDSYIELKFGHHNYEWDRYYLENVSIDRLKTILSNHTDYWNIFGAFEDDELVATCTLKQNYVGKCHKAILENNFVKNNDEIVNRELINHIIQYAKEQNIETLIAIASNNISAKVFFSSIGFENLAFEKNASKIGNEYFDENWLIYSTT 3g8y-a1-m1-cA_3g8y-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE HYDROLASE (BVU_4111) FROM BACTEROIDES VULGATUS ATCC 8482 AT 1.90 A RESOLUTION A6L7P9 A6L7P9 1.9 X-RAY DIFFRACTION 185 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 380 380 GYQPEKHAVVKSDRGDGRLLSTYAIVHELKDTHPQYAYRSGSAQEFTQWQDGVRAAVEIKFPEIKRQPSPVCVKTEKKEGYILEKWEFYPFPKSVSTFLVLKPEHLKGAVPGVLCIPGSGRTKEGLVGEPGICDKLTEDYNNPKVSALNVKEGYVAVAVDNAAAGEASDLECYDKGWNYDYDVVSRFLLELGWSWLGYTSYLDQVLNWKAQSYIRKDRIVISGFSLGTEPVLGVLDKDIYAFVYNDFLCQTQERAVVTKPDKENRRPFPNSIRHLIPGYWRYFNFPDVVASLAPRPIIFTEGGLDRDFRLVQSAYAASGKPENAEFHHYPKFADKAVRKDVEHLDEGLDSKTYFEAVNVDPPSHYFKNELVIPWLRKVLK GYQPEKHAVVKSDRGDGRLLSTYAIVHELKDTHPQYAYRSGSAQEFTQWQDGVRAAVEIKFPEIKRQPSPVCVKTEKKEGYILEKWEFYPFPKSVSTFLVLKPEHLKGAVPGVLCIPGSGRTKEGLVGEPGICDKLTEDYNNPKVSALNVKEGYVAVAVDNAAAGEASDLECYDKGWNYDYDVVSRFLLELGWSWLGYTSYLDQVLNWKAQSYIRKDRIVISGFSLGTEPVLGVLDKDIYAFVYNDFLCQTQERAVVTKPDKENRRPFPNSIRHLIPGYWRYFNFPDVVASLAPRPIIFTEGGLDRDFRLVQSAYAASGKPENAEFHHYPKFADKAVRKDVEHLDEGLDSKTYFEAVNVDPPSHYFKNELVIPWLRKVLK 3g8z-a1-m1-cA_3g8z-a1-m2-cA Crystal structure of protein of unknown function with cystatin-like fold (NP_639274.1) from Xanthomonas campestris at 1.90 A resolution Q8P3Y3 Q8P3Y3 1.9 X-RAY DIFFRACTION 48 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 123 123 NTIDIAKSYITAIQTGDHATLGSIISPDVIWHQPGNHQFSGTHRGAVVGPLGKEVSNGTFAISRADDYASGDWVAITLEFSGQANGVTLKQAGVDLLRIEDGKIVEVRLFSADQTQEDAFWGR NTIDIAKSYITAIQTGDHATLGSIISPDVIWHQPGNHQFSGTHRGAVVGPLGKEVSNGTFAISRADDYASGDWVAITLEFSGQANGVTLKQAGVDLLRIEDGKIVEVRLFSADQTQEDAFWGR 3g9g-a1-m1-cA_3g9g-a1-m2-cA Crystal Structure of the N-terminal EFC/F-BAR domain of Syp1 P25623 P25623 2.4 X-RAY DIFFRACTION 207 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 250 250 MTEQRTKYADSILTTKSPYEATETIRIRLSQVKLLNKDFYLLFKELANLKRNYAQQLRKIIAENEDITKILNAQMIESNVLTPQEMSAFRFNSLGELRNVWDTVIEELKSDLKSSTEYYNTLDQQVVRELKESVENNTSWRESKDLHSKLSKNAASIEHYSKNNENSSHLEEARRQWDQQSPYLFELFETIDYNRLDTLKNCMLRFQTSFSDYLLNTTKECETVMTKFLAFEPQSEIDRFAKDASQYNFQ MTEQRTKYADSILTTKSPYEATETIRIRLSQVKLLNKDFYLLFKELANLKRNYAQQLRKIIAENEDITKILNAQMIESNVLTPQEMSAFRFNSLGELRNVWDTVIEELKSDLKSSTEYYNTLDQQVVRELKESVENNTSWRESKDLHSKLSKNAASIEHYSKNNENSSHLEEARRQWDQQSPYLFELFETIDYNRLDTLKNCMLRFQTSFSDYLLNTTKECETVMTKFLAFEPQSEIDRFAKDASQYNFQ 3g9r-a2-m1-cD_3g9r-a2-m1-cF Structure of the HIV-1 gp41 Membrane-Proximal Ectodomain Region in a Putative Prefusion Conformation P03069 P03069 2 X-RAY DIFFRACTION 26 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 41 41 3g9r-a1-m1-cB_3g9r-a1-m1-cA 3g9r-a1-m1-cB_3g9r-a1-m1-cC 3g9r-a1-m1-cC_3g9r-a1-m1-cA 3g9r-a2-m1-cE_3g9r-a2-m1-cD 3g9r-a2-m1-cE_3g9r-a2-m1-cF LDKWASLWNWFNITNWLWYIKIEELKSKIKRIENEIKRIKK LDKWASLWNWFNITNWLWYIKIEELKSKIKRIENEIKRIKK 3ga1-a1-m1-cA_3ga1-a1-m1-cB Crystal Structure of the Human Nac1 POZ Domain Q96RE7 Q96RE7 2.1 X-RAY DIFFRACTION 141 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 122 QTLQMEIPNFGNSILECLNEQRLQGLYCDVSVVVKGHAFKAHRAVLAASSSYFRDLFNNSRSAVVELPAAVQPQSFQQILSFCYTGRLSMNVGDQDLLMYTAGFLQIQEIMEK AQTLQMEIPNFGNSILECLNEQRLQGLYCDVSVVVKGHAFKAHRAVLAASSSYFRDLFNNSRSAVVELPAAVQPQSFQQILSFCYTGRLSMNVGDQDLLMYTAGFLQIQEIMEKGTEFFLKV 3gaa-a1-m1-cD_3gaa-a1-m2-cE The crystal structure of the protein with unknown function from Thermoplasma acidophilum Q9HIA0 Q9HIA0 2.7 X-RAY DIFFRACTION 31 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 242 243 3gaa-a1-m1-cA_3gaa-a1-m2-cC 3gaa-a1-m1-cB_3gaa-a1-m2-cB 3gaa-a1-m1-cC_3gaa-a1-m2-cA 3gaa-a1-m2-cD_3gaa-a1-m1-cE MIMVNKKASESQVMELEKRNYNNPVVLCGFAGSTPTGVLAASYIVETLGMHQVAHLISQHIPPVAVFVGGKLRHPFRIYANNSNTVLVAMCEVPISSAHIYEISNTLMNWIDQVGASEIVIMEGSPANGPEERPVFAVAEKPKLDKFKKAGIQPADSAIIAGMGGGILNECLVRKITGLSFITPTSVDIPDPGAVLSIIEAINKAYNLKIKTDLLEEQVKALDEQIKKIEEQYKELQEKQKE MIMVNKKASESQVMELEKRNYNNPVVLCGFAGSTPTGVLAASYIVETLGMHQVAHLISQHIPPVAVFVGGKLRHPFRIYANNSNTVLVAMCEVPISSAHIYEISNTLMNWIDQVGASEIVIMEGSPANGIPEERPVFAVAEKPKLDKFKKAGIQPADSAIIAGMGGGILNECLVRKITGLSFITPTSVDIPDPGAVLSIIEAINKAYNLKIKTDLLEEQVKALDEQIKKIEEQYKELQEKQKE 3gaa-a1-m2-cD_3gaa-a1-m1-cA The crystal structure of the protein with unknown function from Thermoplasma acidophilum Q9HIA0 Q9HIA0 2.7 X-RAY DIFFRACTION 78 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 242 243 3gaa-a1-m1-cB_3gaa-a1-m2-cC 3gaa-a1-m1-cD_3gaa-a1-m2-cA 3gaa-a1-m1-cE_3gaa-a1-m2-cE 3gaa-a1-m2-cB_3gaa-a1-m1-cC MIMVNKKASESQVMELEKRNYNNPVVLCGFAGSTPTGVLAASYIVETLGMHQVAHLISQHIPPVAVFVGGKLRHPFRIYANNSNTVLVAMCEVPISSAHIYEISNTLMNWIDQVGASEIVIMEGSPANGPEERPVFAVAEKPKLDKFKKAGIQPADSAIIAGMGGGILNECLVRKITGLSFITPTSVDIPDPGAVLSIIEAINKAYNLKIKTDLLEEQVKALDEQIKKIEEQYKELQEKQKE MIMVNKKASESQVMELEKRNYNNPVVLCGFAGSTPTGVLAASYIVETLGMHQVAHLISQHIPPVAVFVGGKLRHPFRIYANNSNTVLVAMCEVPISSAHIYEISNTLMNWIDQVGASEIVIMEGSPANGIPEERPVFAVAEKPKLDKFKKAGIQPADSAIIAGMGGGILNECLVRKITGLSFITPTSVDIPDPGAVLSIIEAINKAYNLKIKTDLLEEQVKALDEQIKKIEEQYKELQEKQKE 3gaa-a1-m2-cD_3gaa-a1-m2-cE The crystal structure of the protein with unknown function from Thermoplasma acidophilum Q9HIA0 Q9HIA0 2.7 X-RAY DIFFRACTION 70 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 242 243 3gaa-a1-m1-cA_3gaa-a1-m1-cE 3gaa-a1-m1-cB_3gaa-a1-m1-cA 3gaa-a1-m1-cB_3gaa-a1-m1-cC 3gaa-a1-m1-cD_3gaa-a1-m1-cC 3gaa-a1-m1-cD_3gaa-a1-m1-cE 3gaa-a1-m2-cA_3gaa-a1-m2-cE 3gaa-a1-m2-cB_3gaa-a1-m2-cA 3gaa-a1-m2-cB_3gaa-a1-m2-cC 3gaa-a1-m2-cD_3gaa-a1-m2-cC MIMVNKKASESQVMELEKRNYNNPVVLCGFAGSTPTGVLAASYIVETLGMHQVAHLISQHIPPVAVFVGGKLRHPFRIYANNSNTVLVAMCEVPISSAHIYEISNTLMNWIDQVGASEIVIMEGSPANGPEERPVFAVAEKPKLDKFKKAGIQPADSAIIAGMGGGILNECLVRKITGLSFITPTSVDIPDPGAVLSIIEAINKAYNLKIKTDLLEEQVKALDEQIKKIEEQYKELQEKQKE MIMVNKKASESQVMELEKRNYNNPVVLCGFAGSTPTGVLAASYIVETLGMHQVAHLISQHIPPVAVFVGGKLRHPFRIYANNSNTVLVAMCEVPISSAHIYEISNTLMNWIDQVGASEIVIMEGSPANGIPEERPVFAVAEKPKLDKFKKAGIQPADSAIIAGMGGGILNECLVRKITGLSFITPTSVDIPDPGAVLSIIEAINKAYNLKIKTDLLEEQVKALDEQIKKIEEQYKELQEKQKE 3gac-a2-m1-cD_3gac-a2-m1-cE Structure of mif with HPP Q1HEA2 Q1HEA2 2.1 X-RAY DIFFRACTION 87 1.0 73239 (Plasmodium yoelii yoelii) 73239 (Plasmodium yoelii yoelii) 115 115 2wkb-a1-m1-cD_2wkb-a1-m1-cE 2wkb-a1-m1-cD_2wkb-a1-m1-cF 2wkb-a1-m1-cF_2wkb-a1-m1-cE 2wkb-a2-m1-cB_2wkb-a2-m1-cC 3gac-a1-m1-cA_3gac-a1-m1-cB 3gac-a1-m1-cA_3gac-a1-m1-cC 3gac-a1-m1-cB_3gac-a1-m1-cC 3gac-a2-m1-cD_3gac-a2-m1-cF 3gac-a2-m1-cE_3gac-a2-m1-cF 3gad-a1-m1-cA_3gad-a1-m1-cB 3gad-a1-m1-cA_3gad-a1-m1-cC 3gad-a1-m1-cB_3gad-a1-m1-cC 3gad-a2-m1-cD_3gad-a2-m1-cE 3gad-a2-m1-cD_3gad-a2-m1-cF 3gad-a2-m1-cE_3gad-a2-m1-cF PCCELITNISIPDDKAQNALSEIEDAISNVLGKPVAYIMSNYDYQKNLRFSGSNEGYCFVRLTSIGGINRSNNSSLADKITKILSNHLGVKPRRVYIEFRDCSAQNFAFSGSLFG PCCELITNISIPDDKAQNALSEIEDAISNVLGKPVAYIMSNYDYQKNLRFSGSNEGYCFVRLTSIGGINRSNNSSLADKITKILSNHLGVKPRRVYIEFRDCSAQNFAFSGSLFG 3gae-a1-m1-cA_3gae-a1-m1-cB Crystal Structure of PUL P36037 P36037 1.6 X-RAY DIFFRACTION 33 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 253 253 GMKVLPVKQYLIMENYNPDTIFNGIVKINSNEKTFDDEILAQIGGALHDIDESWELLLSFANTIRSNWEIKTPAYDIVRLIVKKLPYSSDIKDYIEEGLGNKNITLTMLTVRILVNCFNNENWGVKLLESNQVYKSIFETIDTEFSQASAKQSQNLAIAVSTLIFNYSALVTKGNSDLELLPIVADAINTKYGPLEEYQECEEAAYRLTVAYGNLATVEPTLRQFANSVTWLANIKRSYGNVPRFKDIFDDLS GMKVLPVKQYLIMENYNPDTIFNGIVKINSNEKTFDDEILAQIGGALHDIDESWELLLSFANTIRSNWEIKTPAYDIVRLIVKKLPYSSDIKDYIEEGLGNKNITLTMLTVRILVNCFNNENWGVKLLESNQVYKSIFETIDTEFSQASAKQSQNLAIAVSTLIFNYSALVTKGNSDLELLPIVADAINTKYGPLEEYQECEEAAYRLTVAYGNLATVEPTLRQFANSVTWLANIKRSYGNVPRFKDIFDDLS 3gaf-a2-m1-cC_3gaf-a2-m1-cD 2.2A Crystal Structure of 7-Alpha-Hydroxysteroid Dehydrogenase from Brucella Melitensis Q8YIN7 Q8YIN7 2.2 X-RAY DIFFRACTION 111 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 243 245 3gaf-a1-m1-cG_3gaf-a1-m1-cA 3gaf-a1-m1-cH_3gaf-a1-m1-cF 3gaf-a2-m1-cB_3gaf-a2-m1-cE SPFHLNDAVAIVTGAAAGIGRAIAGTFAKAGASVVVTDLKSEGAEAVAAAIRQAGGKAIGLECNVTDEQHREAVIKAALDQFGKITVLVNNAGGGGPKPFDMPMSDFEWAFKLNLFSLFRLSQLAAPHMQKAGGGAILNISSMAGENTNVRMASYGSSKAAVNHLTRNIAFDVGPMGIRVNAIAPGAIKTDTPEIERAMLKHTPLGRLGEAQDIANAALFLCSPAAAWISGQVLTVSGGGVQE SPFHLNDAVAIVTGAAAGIGRAIAGTFAKAGASVVVTDLKSEGAEAVAAAIRQAGGKAIGLECNVTDEQHREAVIKAALDQFGKITVLVNNAGGGGPKPFDMPMSDFEWAFKLNLFSLFRLSQLAAPHMQKAGGGAILNISSMAGENTNVRMASYGSSKAAVNHLTRNIAFDVGPMGIRVNAIAPGAIKTDVLTPEIERAMLKHTPLGRLGEAQDIANAALFLCSPAAAWISGQVLTVSGGGVQE 3gaf-a2-m1-cE_3gaf-a2-m1-cD 2.2A Crystal Structure of 7-Alpha-Hydroxysteroid Dehydrogenase from Brucella Melitensis Q8YIN7 Q8YIN7 2.2 X-RAY DIFFRACTION 103 0.996 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 243 245 3gaf-a1-m1-cF_3gaf-a1-m1-cA 3gaf-a1-m1-cH_3gaf-a1-m1-cG 3gaf-a2-m1-cB_3gaf-a2-m1-cC SPFHLNDAVAIVTGAAAGIGRAIAGTFAKAGASVVVTDLKSEGAEAVAAAIRQAGGKAIGLECNVTDEQHREAVIKAALDQFGKITVLVNNAGGGGPKPFDMPMSDFEWAFKLNLFSLFRLSQLAAPHMQKAGGGAILNISSMAGENTNVRMASYGSSKAAVNHLTRNIAFDVGPMGIRVNAIAPGAIKTTPEIERAMLKHTPLGRLGEAQDIANAALFLCSPAAAWISGQVLTVSGGGVQEL SPFHLNDAVAIVTGAAAGIGRAIAGTFAKAGASVVVTDLKSEGAEAVAAAIRQAGGKAIGLECNVTDEQHREAVIKAALDQFGKITVLVNNAGGGGPKPFDMPMSDFEWAFKLNLFSLFRLSQLAAPHMQKAGGGAILNISSMAGENTNVRMASYGSSKAAVNHLTRNIAFDVGPMGIRVNAIAPGAIKTDVLTPEIERAMLKHTPLGRLGEAQDIANAALFLCSPAAAWISGQVLTVSGGGVQE 3gag-a2-m1-cC_3gag-a2-m1-cD Crystal structure of a nitroreductase-like protein (smu.346) from streptococcus mutans at 1.70 A resolution Q8DVW4 Q8DVW4 1.7 X-RAY DIFFRACTION 184 0.995 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 196 197 3gag-a1-m1-cB_3gag-a1-m1-cA GNDYLNFLDGRVSVRRFDPDAVLPNDLIKDLEHASYAPSGNNFQPWRVVVVKNKNKQEDLKKLAALQPQVATASAVFLLFGDENAYDLTWWQEFHVQKGIITEAAARAERIRQYFDLHPEDKETQGLRLDVGLFANLQVVRVYGYDSVPRGVDFDAIKTYLDPNGWEPILLPVGKALQAGNPHVRKSVAEFAEIIE NDYLNFLDGRVSVRRFDPDAVLPNDLIKDLEHASYAPSGNNFQPWRVVVVKNKNKQEDLKKLAALQPQVATASAVFLLFGDENAYDLTWWQEFHVQKGIITKDEAAARAERIRQYFDLHPEDKETQGLRLDVGLFANLQVVRVYGYDSVPRGVDFDAIKTYLDPNGWEPILLPVGKALQAGNPHVRKSVAEFAEIIE 3gaj-a1-m2-cA_3gaj-a1-m3-cA Structure of a C-terminal deletion variant of a PduO-type ATP:corrinoid adenosyltransferase from Lactobacillus reuteri complexed with cobalamin and ATP Q50EJ2 Q50EJ2 1.38 X-RAY DIFFRACTION 98 1.0 1598 (Limosilactobacillus reuteri) 1598 (Limosilactobacillus reuteri) 180 180 2nt8-a1-m1-cA_2nt8-a1-m2-cA 2nt8-a1-m1-cA_2nt8-a1-m3-cA 2nt8-a1-m2-cA_2nt8-a1-m3-cA 2r6t-a1-m1-cA_2r6t-a1-m2-cA 2r6t-a1-m1-cA_2r6t-a1-m3-cA 2r6t-a1-m2-cA_2r6t-a1-m3-cA 2r6t-a2-m1-cB_2r6t-a2-m4-cB 2r6t-a2-m1-cB_2r6t-a2-m5-cB 2r6t-a2-m4-cB_2r6t-a2-m5-cB 2r6x-a1-m1-cA_2r6x-a1-m2-cA 2r6x-a1-m1-cA_2r6x-a1-m3-cA 2r6x-a1-m2-cA_2r6x-a1-m3-cA 2r6x-a2-m1-cB_2r6x-a2-m4-cB 2r6x-a2-m1-cB_2r6x-a2-m5-cB 2r6x-a2-m4-cB_2r6x-a2-m5-cB 3ci1-a1-m1-cA_3ci1-a1-m2-cA 3ci1-a1-m1-cA_3ci1-a1-m3-cA 3ci1-a1-m2-cA_3ci1-a1-m3-cA 3ci3-a1-m1-cA_3ci3-a1-m2-cA 3ci3-a1-m1-cA_3ci3-a1-m3-cA 3ci3-a1-m2-cA_3ci3-a1-m3-cA 3ci4-a1-m1-cA_3ci4-a1-m2-cA 3ci4-a1-m1-cA_3ci4-a1-m3-cA 3ci4-a1-m2-cA_3ci4-a1-m3-cA 3gah-a1-m1-cA_3gah-a1-m2-cA 3gah-a1-m1-cA_3gah-a1-m3-cA 3gah-a1-m2-cA_3gah-a1-m3-cA 3gai-a1-m1-cA_3gai-a1-m2-cA 3gai-a1-m1-cA_3gai-a1-m3-cA 3gai-a1-m2-cA_3gai-a1-m3-cA 3gaj-a1-m1-cA_3gaj-a1-m2-cA 3gaj-a1-m1-cA_3gaj-a1-m3-cA KIYTKNGDKGQTRIIGKQILYKNDPRVAAYGEVDELNSWVGYTKSLINSHTQVLSNELEEIQQLLFDCGHDLATPADDERHSFKFKQEQPTVWLEEKIDNYTQVVPAVKKFILPGGTQLASALHVARTITRRAERQIVQLMREEQINQDVLIFINRLSDYFFAAARYANYLEQQPDMLYR KIYTKNGDKGQTRIIGKQILYKNDPRVAAYGEVDELNSWVGYTKSLINSHTQVLSNELEEIQQLLFDCGHDLATPADDERHSFKFKQEQPTVWLEEKIDNYTQVVPAVKKFILPGGTQLASALHVARTITRRAERQIVQLMREEQINQDVLIFINRLSDYFFAAARYANYLEQQPDMLYR 3gas-a3-m1-cE_3gas-a3-m1-cF Crystal Structure of Helicobacter pylori Heme Oxygenase Hugz in Complex with Heme C0LU01 C0LU01 1.8 X-RAY DIFFRACTION 190 1.0 637383 (Helicobacter pylori NCTC 11639) 637383 (Helicobacter pylori NCTC 11639) 241 243 3gas-a1-m1-cB_3gas-a1-m1-cA 3gas-a2-m1-cD_3gas-a2-m1-cC NRIIEHNAHHVEDKGLLKKFGQVHHAENVAFKSVDSQGIVIGYNNNQTLRIEFNHEVKDPKDYKNATIELCQSVEKTHDLKGVEEEVKAFKEGFDSVCLATLHPNGHVVCSYAPLSDGKQYYIYVSEVAEHFAGLKNNPHNVEVFLEDESKAKSAILRKRLRYKTNTRFIERGAEFDKAFDSFIEKTGGAGGIKTIRAQDFHLIALDFKEGRFVKGFGQAYDILGDKIAYVGDKGNPHNFA LNRIIEHNAHHVEDKGLLKKFGQVHHAENVAFKSVDSQGIVIGYNNNQTLRIEFNHEVKDPKDYKNATIELCQSVEKTHDLKGVEEEVKAFKEGFDSVCLATLHPNGHVVCSYAPLSDGKQYYIYVSEVAEHFAGLKNNPHNVEVFLEDESKAKSAILRKRLRYKTNTRFIERGAEFDKAFDSFIEKTGGAGGIKTIRAQDFHLIALDFKEGRFVKGFGQAYDILGDKIAYVGDKGNPHNFAH 3gay-a1-m1-cB_3gay-a1-m1-cA Structure of Giardia fructose-1,6-biphosphate aldolase in complex with tagatose-1,6-biphosphate A8B2U2 A8B2U2 1.8 X-RAY DIFFRACTION 105 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 318 319 2isv-a1-m1-cA_2isv-a1-m1-cB 2isw-a1-m1-cB_2isw-a1-m1-cA 3gak-a1-m1-cA_3gak-a1-m1-cB 3gb6-a1-m1-cB_3gb6-a1-m1-cA 3ohi-a1-m1-cB_3ohi-a1-m1-cA PLCTLRQMLGEARKHKYGVGAFNVNNMEQIQGIMKAVVQLKSPVILQCSRGALKYSDMIYLKKLCEAALEKHPDIPICIHLDHGDTLESVKMAIDLGFSSVMIDASHHPFDENVRITKEVVAYAHARGVSVEAELGTLGGIENTVQLTEPQDAKKFVELTGVDALAVAIGTSHGAYKFKSESDIRLAIDRVKTISDLTGIPLVMHGSSSVPKDVKDMINKYGGKMPDAVGVPIESIVHAIGEGVCKINVDSDSRMAMTGAIRKVFVEHPEKFDPRDYLGPGRDAITEMLIPKIKAFGSAGHAGDYKVVSLEEAKAWYK PLCTLRQMLGEARKHKYGVGAFNVNNMEQIQGIMKAVVQLKSPVILQCSRGALKYSDMIYLKKLCEAALEKHPDIPICIHLDHGDTLESVKMAIDLGFSSVMIDASHHPFDENVRITKEVVAYAHARGVSVEAELGTLGGIEQNTVQLTEPQDAKKFVELTGVDALAVAIGTSHGAYKFKSESDIRLAIDRVKTISDLTGIPLVMHGSSSVPKDVKDMINKYGGKMPDAVGVPIESIVHAIGEGVCKINVDSDSRMAMTGAIRKVFVEHPEKFDPRDYLGPGRDAITEMLIPKIKAFGSAGHAGDYKVVSLEEAKAWYK 3gaz-a1-m1-cB_3gaz-a1-m1-cA Crystal structure of an alcohol dehydrogenase superfamily protein from Novosphingobium aromaticivorans Q2G4L9 Q2G4L9 1.96 X-RAY DIFFRACTION 33 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 326 327 TIAAVVEEANGPFVLRKLARPQPAPGQVLVQIEASGTNPLDAKIRAGEAPHAQQPLPAILGDLAGTVVAVGPEVDSFRVGDAVFGLTGGVGGLQGTHAQFAAVDARLLASKPAALTRQASVLPLVFITAWEGLVDRAQVQDGQTVLIQGGGGGVGHVAIQIALARGARVFATARGSDLEYVRDLGATPIDASREPEDYAAEHTAGQGFDLVYDTLGGPVLDASFSAVKRFGHVVSCLGWGTHKLAPLSFKQATYSGVFTLHTLLANEGLAHFGELREADALVQTGKLAPRLDPRTFSIAEIGSAYDAVLGRNDVPRQRGKIAITVE PTIAAVVEEANGPFVLRKLARPQPAPGQVLVQIEASGTNPLDAKIRAGEAPHAQQPLPAILGDLAGTVVAVGPEVDSFRVGDAVFGLTGGVGGLQGTHAQFAAVDARLLASKPAALTRQASVLPLVFITAWEGLVDRAQVQDGQTVLIQGGGGGVGHVAIQIALARGARVFATARGSDLEYVRDLGATPIDASREPEDYAAEHTAGQGFDLVYDTLGGPVLDASFSAVKRFGHVVSCLGWGTHKLAPLSFKQATYSGVFTLHTLLANEGLAHFGELREADALVQTGKLAPRLDPRTFSIAEIGSAYDAVLGRNDVPRQRGKIAITVE 3gb0-a1-m1-cA_3gb0-a1-m2-cA Crystal structure of aminopeptidase PepT (NP_980509.1) from Bacillus cereus ATCC 10987 at 2.04 A resolution Q731F0 Q731F0 2.04 X-RAY DIFFRACTION 166 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 363 363 GINQERLVNEFELVQVDSETKFEAEICKVLTKKFTDLGVEVFEDDTAVTGHGAGNLICTLPATKDGVDTIYFTSHDTVVPGNGIKPSIKDGYIVSDGTTILGADDKAGLASFEAIRVLKEKNIPHGTIEFIITVGEESGLVGAKALDRERITAKYGYALDSDGKVGEIVVAAPTQAKVNAIIRGKTAHAGVAPEKGVSAITIAAKAIAKPLGRIDSETTANIGRFEGGTQTNIVCDHVQIFAEARSLINEKEAQVAKKEAFETTAKEGGHADVEVNVYPGFKFADGDHVVEVAKRAAEKIGRTPSLHQSGGGSDANVIAGHGIPTVNLAVGYEEIHTTNEKIPVEELAKTAELVVAIIEEVAK GINQERLVNEFELVQVDSETKFEAEICKVLTKKFTDLGVEVFEDDTAVTGHGAGNLICTLPATKDGVDTIYFTSHDTVVPGNGIKPSIKDGYIVSDGTTILGADDKAGLASFEAIRVLKEKNIPHGTIEFIITVGEESGLVGAKALDRERITAKYGYALDSDGKVGEIVVAAPTQAKVNAIIRGKTAHAGVAPEKGVSAITIAAKAIAKPLGRIDSETTANIGRFEGGTQTNIVCDHVQIFAEARSLINEKEAQVAKKEAFETTAKEGGHADVEVNVYPGFKFADGDHVVEVAKRAAEKIGRTPSLHQSGGGSDANVIAGHGIPTVNLAVGYEEIHTTNEKIPVEELAKTAELVVAIIEEVAK 3gb5-a1-m1-cA_3gb5-a1-m2-cA Crystal structure of Mus musculus iodotyrosine deiodinase (IYD) bound to FMN Q9DCX8 Q9DCX8 2 X-RAY DIFFRACTION 291 1.0 10090 (Mus musculus) 10090 (Mus musculus) 185 185 3to0-a1-m1-cA_3to0-a1-m1-cB EHIPFSHTRYPEQEMRMRSQEFYELLNKRRSVRFISSEHVPMEVIENVIKAAGTAPSGAHTEPWTFVVVKDPDMKHKIREIIEEEEEIKEYLDTAPVLILIFKQVYNEISVSIACGLLLAALQNAGLVTVTTTPLNCGPRLRVLLGRPSHEKLLVLLPVGYPSRDATVPDLKRKALDQIMVTVHH EHIPFSHTRYPEQEMRMRSQEFYELLNKRRSVRFISSEHVPMEVIENVIKAAGTAPSGAHTEPWTFVVVKDPDMKHKIREIIEEEEEIKEYLDTAPVLILIFKQVYNEISVSIACGLLLAALQNAGLVTVTTTPLNCGPRLRVLLGRPSHEKLLVLLPVGYPSRDATVPDLKRKALDQIMVTVHH 3gbh-a2-m1-cA_3gbh-a2-m1-cC CRYSTAL STRUCTURE OF A PUTATIVE NAD(P)H:FMN OXIDOREDUCTASE (SE1966) FROM STAPHYLOCOCCUS EPIDERMIDIS ATCC 12228 AT 2.00 A RESOLUTION A0A0H2VHN8 A0A0H2VHN8 2 X-RAY DIFFRACTION 13 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 202 202 3gbh-a1-m1-cA_3gbh-a1-m1-cC QKLTRINDFNEVLNSRKSVKVFDENYKIPREEDEIITKATKAPSSVNQPWRIAVVQSDEKEKVKESFGFNSRQLTTSSALIIFGDLQNYEKAEQIYGDAVEQQLTEDIKAQLLDWILPYYKNLSREGKDIVNIDSSLAQLLTAKAHGYDTNPIGGFDKENIADIIGYDSDRYVPVLAIAIGKKAQDAHDSVRLPIDDVREFL QKLTRINDFNEVLNSRKSVKVFDENYKIPREEDEIITKATKAPSSVNQPWRIAVVQSDEKEKVKESFGFNSRQLTTSSALIIFGDLQNYEKAEQIYGDAVEQQLTEDIKAQLLDWILPYYKNLSREGKDIVNIDSSLAQLLTAKAHGYDTNPIGGFDKENIADIIGYDSDRYVPVLAIAIGKKAQDAHDSVRLPIDDVREFL 3gbh-a2-m1-cC_3gbh-a2-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE NAD(P)H:FMN OXIDOREDUCTASE (SE1966) FROM STAPHYLOCOCCUS EPIDERMIDIS ATCC 12228 AT 2.00 A RESOLUTION A0A0H2VHN8 A0A0H2VHN8 2 X-RAY DIFFRACTION 176 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 202 202 3gbh-a1-m1-cA_3gbh-a1-m1-cB 3gbh-a1-m1-cC_3gbh-a1-m1-cD 3gbh-a2-m1-cA_3gbh-a2-m1-cB QKLTRINDFNEVLNSRKSVKVFDENYKIPREEDEIITKATKAPSSVNQPWRIAVVQSDEKEKVKESFGFNSRQLTTSSALIIFGDLQNYEKAEQIYGDAVEQQLTEDIKAQLLDWILPYYKNLSREGKDIVNIDSSLAQLLTAKAHGYDTNPIGGFDKENIADIIGYDSDRYVPVLAIAIGKKAQDAHDSVRLPIDDVREFL QKLTRINDFNEVLNSRKSVKVFDENYKIPREEDEIITKATKAPSSVNQPWRIAVVQSDEKEKVKESFGFNSRQLTTSSALIIFGDLQNYEKAEQIYGDAVEQQLTEDIKAQLLDWILPYYKNLSREGKDIVNIDSSLAQLLTAKAHGYDTNPIGGFDKENIADIIGYDSDRYVPVLAIAIGKKAQDAHDSVRLPIDDVREFL 3gbu-a1-m1-cA_3gbu-a1-m1-cD Crystal structure of an uncharacterized sugar kinase PH1459 from Pyrococcus horikoshii in complex with ATP O59128 O59128 2.2 X-RAY DIFFRACTION 66 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 297 297 3ewm-a1-m1-cB_3ewm-a1-m1-cA 3gbu-a2-m1-cB_3gbu-a2-m1-cC 3ih0-a1-m1-cA_3ih0-a1-m1-cB LIASIGELLIDLISVEEGDLKDVRLFEKHPGGAPANVAVGVSRLGVKSSLISKVGNDPFGEYLIEELSKENVDTRGIVKDEKKHTGIVFVQLKGASPSFLLYDDVAYFNTLNDINWDIVEEAKIVNFGSVILARNPSRETVKVIKKIKGSSLIAFDVNLRLDLWRGQEEEIKVLEESIKLADIVKASEEEVLYLENQGVEVKGSLTAITLGPKGFRLIKNETVVDVPSYNVNPLDTTGAGDAFAALLVGILKLKGLDLLKLGKFANLVAALSTQKRGAWSTPRKDELLKYKEAREVL LIASIGELLIDLISVEEGDLKDVRLFEKHPGGAPANVAVGVSRLGVKSSLISKVGNDPFGEYLIEELSKENVDTRGIVKDEKKHTGIVFVQLKGASPSFLLYDDVAYFNTLNDINWDIVEEAKIVNFGSVILARNPSRETVKVIKKIKGSSLIAFDVNLRLDLWRGQEEEIKVLEESIKLADIVKASEEEVLYLENQGVEVKGSLTAITLGPKGFRLIKNETVVDVPSYNVNPLDTTGAGDAFAALLVGILKLKGLDLLKLGKFANLVAALSTQKRGAWSTPRKDELLKYKEAREVL 3gbv-a1-m1-cB_3gbv-a1-m1-cA Crystal structure of a putative LacI transcriptional regulator from Bacteroides fragilis A0A381D6S6 A0A381D6S6 2.2 X-RAY DIFFRACTION 57 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 281 283 KKYTFACLLPKHLEGEYWTDVQKGIREAVTTYSDFNISANITHYDPYDYNSFVATSQAVIEEQPDGVFAPTVPQYTKGFTDALNELGIPYIYIDSQIKDAPPLAFFGQNSHQSGYFAARLLLAVNDREIVIFRKIHEGVIGSNQQESREIGFRQYQEHHPACNILELNLHADLEDSRLDDFFREHPDVKHGITFNSKVYIIGEYLQQRRKSDFSLIGYDLLERNVTCLKEGTVSFLIAQQPELQGFNSIKTLCDHLIFRKEVACTNYPIDLLTKENIDYYH KKYTFACLLPKHLEGEYWTDVQKGIREAVTTYSDFNISANITHYDPYDYNSFVATSQAVIEEQPDGVFAPTVPQYTKGFTDALNELGIPYIYIDSQIKDAPPLAFFGQNSHQSGYFAARLLLAVNDREIVIFRKIHEGVIGSNQQESREIGFRQYQEHHPACNILELNLHADLNIEDSRLDDFFREHPDVKHGITFNSKVYIIGEYLQQRRKSDFSLIGYDLLERNVTCLKEGTVSFLIAQQPELQGFNSIKTLCDHLIFRKEVACTNYPIDLLTKENIDYYH 3gbx-a1-m1-cB_3gbx-a1-m1-cA Serine hydroxymethyltransferase from Salmonella typhimurium P0A2E1 P0A2E1 1.8 X-RAY DIFFRACTION 180 0.997 370 377 SNALKRENIADYDAELWQAEQEKVRQEEHIELIASENYTSPRVQAQGSQLTNKYDVVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLQPGDTVLGNLYNIVPYGIDESGKIDYDEAKLAKEHKPKIIGGFSAYSGVVDWAKREIADSIGAYLFVDAHVAGLIAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGDEELYKKLNSAVFPGGPLHVIAGKAVALKEAEPEFKVYQQQVAKNAKAVEVFLNRGYKVVSGGTENHLFLLDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRIGSPAVTRRGFKEAEVKELAGWCDVLDNINDEATIERVKAKVLDICARFPVYA SNALKRENIADYDAELWQAEQEKVRQEEHIELIASENYTSPRVQAQGSQLTNKYAVDVVEQLAIDRAKELFGADYANVQPHSGSQANFAVYTALLQPGDTVLGNLAFSGKLYNIVPYGIDESGKIDYDEAKLAKEHKPKIIGGFSAYSGVVDWAKREIADSIGAYLFVDAHVAGLIAAGVYPNPVPHAHVVTTTTHKTLAGPRGGLILAKGGDEELYKKLNSAVFGGPLHVIAGKAVALKEAEPEFKVYQQQVAKNAKAVEVFLNRGYKVVSGGTENHLFLLDLVDKNLTGKEADAALGRANITVNKNSVPNDPKSPFVTSGIRIGSPAVTRRGFKEAEVKELAGWCDVLDNINDEATIERVKAKVLDICARFPVYA 3gby-a1-m1-cA_3gby-a1-m1-cB Crystal structure of a protein with unknown function CT1051 from Chlorobium tepidum Q8KDJ9 Q8KDJ9 1.66 X-RAY DIFFRACTION 84 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 126 126 NASVTFSYLAETDYPVFTLGGSTADAARRLAASGCACAPVLDGERYLGVHLSRLLEGRKGWPTVKEKLGEELLETVRSYRPGEQLFDNLISVAAAKCSVVPLADEDGRYEGVVSRKRILGFLAERI NASVTFSYLAETDYPVFTLGGSTADAARRLAASGCACAPVLDGERYLGVHLSRLLEGRKGWPTVKEKLGEELLETVRSYRPGEQLFDNLISVAAAKCSVVPLADEDGRYEGVVSRKRILGFLAERI 3gc6-a1-m2-cB_3gc6-a1-m1-cA Structural insights into the catalytic mechanism of CD38: Evidence for a conformationally flexible covalent enzyme-substrate complex. Q9TTF5 Q9TTF5 1.51 X-RAY DIFFRACTION 49 1.0 9913 (Bos taurus) 9913 (Bos taurus) 237 242 LNRWHGAGSTADFQKIIQERCDTYTQTIRPGSRSRNCQAIRQAFMSAFISKDPCKATKEDYNSLINLAPPTVPCGQQVFWSKTKELAHEYAKRRRLMTLEDTLLGYLADGLRWCGEPGSSDLNIWSCPDWRKDCRTNYLSVFWEVLSERFAESACNTVRVVLNGSLENAFDSMSIFGRVQAPNLRPQVELEAWLVHDTGKPPSDSCSGSSIRKLKSILDGRNVKFRCMDNLSRDQFL YSGLNRWHGAGSTADFQKIIQERCDTYTQTIRPGSRSRNCQAIRQAFMSAFISKDPCKATKEDYNSLINLAPPTVPCGQQVFWSKTKELAHEYAKRRRLMTLEDTLLGYLADGLRWCGEPGSSDLNIWSCPDWRKDCRTNYLSVFWEVLSERFAESACNTVRVVLNGSLENAFDSMSIFGRVQAPNLRPQVELEAWLVHDTGKPPSDSCSGSSIRKLKSILDGRNVKFRCMDNLSRDQFLQR 3gc6-a2-m1-cB_3gc6-a2-m1-cA Structural insights into the catalytic mechanism of CD38: Evidence for a conformationally flexible covalent enzyme-substrate complex. Q9TTF5 Q9TTF5 1.51 X-RAY DIFFRACTION 51 1.0 9913 (Bos taurus) 9913 (Bos taurus) 237 242 3gh3-a3-m1-cA_3gh3-a3-m1-cB 3ghh-a1-m1-cB_3ghh-a1-m1-cA LNRWHGAGSTADFQKIIQERCDTYTQTIRPGSRSRNCQAIRQAFMSAFISKDPCKATKEDYNSLINLAPPTVPCGQQVFWSKTKELAHEYAKRRRLMTLEDTLLGYLADGLRWCGEPGSSDLNIWSCPDWRKDCRTNYLSVFWEVLSERFAESACNTVRVVLNGSLENAFDSMSIFGRVQAPNLRPQVELEAWLVHDTGKPPSDSCSGSSIRKLKSILDGRNVKFRCMDNLSRDQFL YSGLNRWHGAGSTADFQKIIQERCDTYTQTIRPGSRSRNCQAIRQAFMSAFISKDPCKATKEDYNSLINLAPPTVPCGQQVFWSKTKELAHEYAKRRRLMTLEDTLLGYLADGLRWCGEPGSSDLNIWSCPDWRKDCRTNYLSVFWEVLSERFAESACNTVRVVLNGSLENAFDSMSIFGRVQAPNLRPQVELEAWLVHDTGKPPSDSCSGSSIRKLKSILDGRNVKFRCMDNLSRDQFLQR 3gcf-a5-m1-cN_3gcf-a5-m1-cO Terminal oxygenase of carbazole 1,9a-dioxygenase from Nocardioides aromaticivorans IC177 Q2HWI0 Q2HWI0 2.3 X-RAY DIFFRACTION 89 1.0 200618 (Nocardioides aromaticivorans) 200618 (Nocardioides aromaticivorans) 367 367 3gcf-a1-m1-cA_3gcf-a1-m1-cB 3gcf-a1-m1-cA_3gcf-a1-m1-cC 3gcf-a1-m1-cB_3gcf-a1-m1-cC 3gcf-a2-m1-cD_3gcf-a2-m1-cE 3gcf-a2-m1-cD_3gcf-a2-m1-cF 3gcf-a2-m1-cE_3gcf-a2-m1-cF 3gcf-a3-m1-cG_3gcf-a3-m1-cH 3gcf-a3-m1-cG_3gcf-a3-m1-cI 3gcf-a3-m1-cH_3gcf-a3-m1-cI 3gcf-a4-m1-cJ_3gcf-a4-m1-cK 3gcf-a4-m1-cJ_3gcf-a4-m1-cL 3gcf-a4-m1-cK_3gcf-a4-m1-cL 3gcf-a5-m1-cM_3gcf-a5-m1-cN 3gcf-a5-m1-cM_3gcf-a5-m1-cO SAQVKWPRYLEATLGFDNHWHPAAFDHELAEGEFVAVTMLGEKVLLTRAKGEVKAIADGCAHRGVPFSKEPLCFKAGTVSCWYHGWTYDLDDGRLVDVLTSPGSPVIGKIGIKVYPVQVAQGVVFVFIGDEEPHALSEDLPPGFLDEDTHLLGIRRTVQSNWRLGVENGFDTTHIFMHRNSPWVSGNRLAFPYGFVPADRDAMQVYDENWPKGVLDRLSENYMPVFEATLDGETVLSAELTGEEKKVAAQVSVWLPGVLKVDPFPDPTLIQYEFYVPISETQHEYFQVLQRKVEGPEDVKTFEVEFEERWRDDALHGFNDDDVWAREAQQEFYGERDGWSKEQLFPPDMCIVKWRTLASERGRGVRA SAQVKWPRYLEATLGFDNHWHPAAFDHELAEGEFVAVTMLGEKVLLTRAKGEVKAIADGCAHRGVPFSKEPLCFKAGTVSCWYHGWTYDLDDGRLVDVLTSPGSPVIGKIGIKVYPVQVAQGVVFVFIGDEEPHALSEDLPPGFLDEDTHLLGIRRTVQSNWRLGVENGFDTTHIFMHRNSPWVSGNRLAFPYGFVPADRDAMQVYDENWPKGVLDRLSENYMPVFEATLDGETVLSAELTGEEKKVAAQVSVWLPGVLKVDPFPDPTLIQYEFYVPISETQHEYFQVLQRKVEGPEDVKTFEVEFEERWRDDALHGFNDDDVWAREAQQEFYGERDGWSKEQLFPPDMCIVKWRTLASERGRGVRA 3gco-a1-m2-cA_3gco-a1-m3-cA Crystal structure of DegS H198P/D320A mutant modified by DFP in complex with DNRDGNVYQF OMP peptide P0AEE3 P0AEE3 2.798 X-RAY DIFFRACTION 91 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 302 302 1sot-a1-m1-cA_1sot-a1-m1-cB 1sot-a1-m1-cC_1sot-a1-m1-cA 1sot-a1-m1-cC_1sot-a1-m1-cB 1soz-a1-m1-cC_1soz-a1-m1-cA 2r3y-a1-m1-cB_2r3y-a1-m1-cA 2r3y-a1-m1-cB_2r3y-a1-m1-cC 2r3y-a1-m1-cC_2r3y-a1-m1-cA 3gco-a1-m1-cA_3gco-a1-m2-cA 3gco-a1-m1-cA_3gco-a1-m3-cA 3gds-a1-m1-cA_3gds-a1-m2-cA 3gds-a1-m1-cA_3gds-a1-m3-cA 3gds-a1-m2-cA_3gds-a1-m3-cA 3lh1-a1-m1-cA_3lh1-a1-m2-cA 3lh1-a1-m1-cA_3lh1-a1-m3-cA 3lh1-a1-m2-cA_3lh1-a1-m3-cA 4rr0-a1-m1-cC_4rr0-a1-m1-cA 4rr1-a1-m1-cC_4rr1-a1-m1-cA 4rr1-a1-m1-cC_4rr1-a1-m1-cB DSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINPGNGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMAQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPAT DSTDETPASYNLAVRRAAPAVVNVYNRGLNTNSHNQLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPTIPINARRVPHIGDVVLAIGNPYNLGQTITQGIISATGRIGLNPTGRQNFLQTDASINPGNGGALVNSLGELMGINTLSFDKSNDGETPEGIGFAIPFQLATKIMDKLIRDGRVIRGYIGIGGREQGIVVNEVSPDGPAANAGIQVNDLIISVDNKPAISALETMAQVAEIRPGSVIPVVVMRDDKQLTLQVTIQEYPAT 3gcu-a2-m1-cB_3gcu-a2-m1-cA Human P38 MAP kinase in complex with RL48 Q16539 Q16539 2.1 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 337 339 3gcu-a1-m1-cB_3gcu-a1-m1-cA RPTFYRQELNKTIWEVPERYQNLSPVGSGAYGSVCAAFDTKTGLRVAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPARSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGLVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLTGRTLFPGTDHIDQLKLILRLVGTPGAELLKKISSESARNYIQSLTQMPKMNFANVFIGANPLAVDLLEKMLVLDSDKRITAAQALAHAYFAQYHDPDDEPVADPYDQSFESRDLLIDEWKSLTYDEVISFVPPP ERPTFYRQELNKTIWEVPERYQNLSPVGSGAYGSVCAAFDTKTGLRVAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPARSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGLAVATRWYRAPEIMLNWMHYNQTVDIWSVGCIMAELLTGRTLFPGTDHIDQLKLILRLVGTPGAELLKKISSESARNYIQSLTQMPKMNFANVFIGANPLAVDLLEKMLVLDSDKRITAAQALAHAYFAQYHDPDDEPVADPYDQSFESRDLLIDEWKSLTYDEVISFVPPP 3gd5-a1-m1-cA_3gd5-a1-m1-cF Crystal structure of ornithine carbamoyltransferase from Gloeobacter violaceus Q7NGR7 Q7NGR7 2.1 X-RAY DIFFRACTION 21 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 285 285 3gd5-a1-m1-cB_3gd5-a1-m1-cE 3gd5-a1-m1-cC_3gd5-a1-m1-cD TRFRPDLLSLDDLDEAQLHALLTLAHQLKRGERVANLHGKVLGLVFLKASTRTRVSFTVAMYQLGGQVIDLEPVRDTARVLGRYVDGLAIRTFAQTELEEYAHYAGIPVINALTDHEHPCQVVADLLTIRENFGRLAGLKLAYVGDGNNVAHSLLLGCAKVGMSIAVATPEGFTPDPAVSARASEIAGRTGAEVQILRDPFEAARGAHILYTDVWTHRLQLFEQYQINAALLNCAAAEAIVLHCLPAHRGEEITDEVMEGPRSRIWDEAENRLHAQKAVLAALMG TRFRPDLLSLDDLDEAQLHALLTLAHQLKRGERVANLHGKVLGLVFLKASTRTRVSFTVAMYQLGGQVIDLEPVRDTARVLGRYVDGLAIRTFAQTELEEYAHYAGIPVINALTDHEHPCQVVADLLTIRENFGRLAGLKLAYVGDGNNVAHSLLLGCAKVGMSIAVATPEGFTPDPAVSARASEIAGRTGAEVQILRDPFEAARGAHILYTDVWTHRLQLFEQYQINAALLNCAAAEAIVLHCLPAHRGEEITDEVMEGPRSRIWDEAENRLHAQKAVLAALMG 3gd5-a1-m1-cE_3gd5-a1-m1-cF Crystal structure of ornithine carbamoyltransferase from Gloeobacter violaceus Q7NGR7 Q7NGR7 2.1 X-RAY DIFFRACTION 40 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 285 285 3gd5-a1-m1-cA_3gd5-a1-m1-cB 3gd5-a1-m1-cA_3gd5-a1-m1-cC 3gd5-a1-m1-cB_3gd5-a1-m1-cC 3gd5-a1-m1-cD_3gd5-a1-m1-cE 3gd5-a1-m1-cD_3gd5-a1-m1-cF TRFRPDLLSLDDLDEAQLHALLTLAHQLKRGERVANLHGKVLGLVFLKASTRTRVSFTVAMYQLGGQVIDLEPVRDTARVLGRYVDGLAIRTFAQTELEEYAHYAGIPVINALTDHEHPCQVVADLLTIRENFGRLAGLKLAYVGDGNNVAHSLLLGCAKVGMSIAVATPEGFTPDPAVSARASEIAGRTGAEVQILRDPFEAARGAHILYTDVWTHRLQLFEQYQINAALLNCAAAEAIVLHCLPAHRGEEITDEVMEGPRSRIWDEAENRLHAQKAVLAALMG TRFRPDLLSLDDLDEAQLHALLTLAHQLKRGERVANLHGKVLGLVFLKASTRTRVSFTVAMYQLGGQVIDLEPVRDTARVLGRYVDGLAIRTFAQTELEEYAHYAGIPVINALTDHEHPCQVVADLLTIRENFGRLAGLKLAYVGDGNNVAHSLLLGCAKVGMSIAVATPEGFTPDPAVSARASEIAGRTGAEVQILRDPFEAARGAHILYTDVWTHRLQLFEQYQINAALLNCAAAEAIVLHCLPAHRGEEITDEVMEGPRSRIWDEAENRLHAQKAVLAALMG 3gd7-a5-m1-cD_3gd7-a5-m1-cA Crystal structure of human NBD2 complexed with N6-Phenylethyl-ATP (P-ATP) P68187 P68187 2.7 X-RAY DIFFRACTION 35 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 375 378 3gd7-a5-m1-cC_3gd7-a5-m1-cB DIWPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLEQWRKAFGVIPQKVFIFSGTFRKNLDPNAAHSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEARIEAMLECDQFLVIEENKVRQYDSILELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVEEGATFAIGLPPERCHLFREDGTACRRLHKEPG DIWPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLEQWRKAFGVIPQKVFIFSGTFRKNLDPNAAHSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEARIEAMLECDQFLVIEENKVRQYDSILELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPG 3gd7-a5-m1-cD_3gd7-a5-m1-cB Crystal structure of human NBD2 complexed with N6-Phenylethyl-ATP (P-ATP) P68187 P68187 2.7 X-RAY DIFFRACTION 49 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 375 377 3gd7-a5-m1-cC_3gd7-a5-m1-cA DIWPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLEQWRKAFGVIPQKVFIFSGTFRKNLDPNAAHSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEARIEAMLECDQFLVIEENKVRQYDSILELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVEEGATFAIGLPPERCHLFREDGTACRRLHKEPG IWPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLEQWRKAFGVIPQKVFIFSGTFRKNLDPNAAHSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEARIEAMLECDQFLVIEENKVRQYDSILELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPG 3gd7-a5-m1-cD_3gd7-a5-m1-cC Crystal structure of human NBD2 complexed with N6-Phenylethyl-ATP (P-ATP) P68187 P68187 2.7 X-RAY DIFFRACTION 33 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 375 376 3gd7-a5-m1-cB_3gd7-a5-m1-cA DIWPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLEQWRKAFGVIPQKVFIFSGTFRKNLDPNAAHSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEARIEAMLECDQFLVIEENKVRQYDSILELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVEEGATFAIGLPPERCHLFREDGTACRRLHKEPG WPSGGQMTVKDLTAKYTEGGNAILENISFSISPGQRVGLLGRTGSGKSTLLSAFLRLLNTEGEIQIDGVSWDSITLEQWRKAFGVIPQKVFIFSGTFRKNLDPNAAHSDQEIWKVADEVGLRSVIEQFPGKLDFVLVDGGCVLSHGHKQLMCLARSVLSKAKILLLDEPSAHLDPVTYQIIRRTLKQAFADCTVILCEARIEAMLECDQFLVIEENKVRQYDSILELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPG 3gd8-a1-m2-cA_3gd8-a1-m4-cA Crystal Structure of Human Aquaporin 4 at 1.8 and its Mechanism of Conductance P55087 P55087 1.8 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 2d57-a1-m1-cA_2d57-a1-m3-cA 2d57-a1-m1-cA_2d57-a1-m4-cA 2d57-a1-m2-cA_2d57-a1-m3-cA 2d57-a1-m2-cA_2d57-a1-m4-cA 2zz9-a1-m1-cA_2zz9-a1-m3-cA 2zz9-a1-m1-cA_2zz9-a1-m4-cA 2zz9-a1-m2-cA_2zz9-a1-m3-cA 2zz9-a1-m2-cA_2zz9-a1-m4-cA 3gd8-a1-m1-cA_3gd8-a1-m3-cA 3gd8-a1-m1-cA_3gd8-a1-m4-cA 3gd8-a1-m2-cA_3gd8-a1-m3-cA 3iyz-a1-m1-cA_3iyz-a1-m3-cA 3iyz-a1-m1-cA_3iyz-a1-m4-cA 3iyz-a1-m2-cA_3iyz-a1-m3-cA 3iyz-a1-m2-cA_3iyz-a1-m4-cA QAFWKAVTAEFLAMLIFVLLSLGSTINWGGTEKPLPVDMVLISLCFGLSIATMVQCFGHISGGHINPAVTVAMVCTRKISIAKSVFYIAAQCLGAIIGAGILYLVTPPSVVGGLGVTMVHGNLTAGHGLLVELIITFQLVFTIFASCDSKRTDVTGSIALAIGFSVAIGHLFAINYTGASMNPARSFGPAVIMGNWENHWIYWVGPIIGAVLAGGLYEYVFCP QAFWKAVTAEFLAMLIFVLLSLGSTINWGGTEKPLPVDMVLISLCFGLSIATMVQCFGHISGGHINPAVTVAMVCTRKISIAKSVFYIAAQCLGAIIGAGILYLVTPPSVVGGLGVTMVHGNLTAGHGLLVELIITFQLVFTIFASCDSKRTDVTGSIALAIGFSVAIGHLFAINYTGASMNPARSFGPAVIMGNWENHWIYWVGPIIGAVLAGGLYEYVFCP 3gdc-a1-m1-cB_3gdc-a1-m1-cC Crystal structure of multicopper oxidase A0AW19 A0AW19 1.8 X-RAY DIFFRACTION 83 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 285 286 3gdc-a1-m1-cB_3gdc-a1-m1-cA 3gdc-a1-m1-cC_3gdc-a1-m1-cA SVLAERAGIDPTAILRDFDRGRTSTLPDGRTLREWDIVAVDKDFEIAPGIIFKGWSYNGRIPGPTLWAREGDALRIHFTNAGAHPHTIHFHGVHRATMDGTPGIGAGSIAPGQSFTYEFDATPFGTHLYHCHQSPLAPHIAKGLYGGFIVEPKEGRPPADDEMVMVMNGYNTDGGDDNEFYSVNGLPFHFMDFPVKVKQHELVRIHLINVLEYDPINSFHIHGNFFHYYPTGTMLTPSEYTDTISQVQGQRGILELRFPYPGKFMFHAHKTEFAELGWMGFFEVS SVLAERAGIDPTAILRDFDRGRTSTLPDGRTLREWDIVAVDKDFEIAPGIIFKGWSYNGRIPGPTLWAREGDALRIHFTNAGAHPHTIHFHGVHRATMDGTPGIGAGSIAPGQSFTYEFDATPFGTHLYHCHQSPLAPHIAKGLYGGFIVEPKEGRPPADDEMVMVMNGYNTDGGDDNEFYSVNGLPFHFMDFPVKVKQHELVRIHLINVLEYDPINSFHIHGNFFHYYPTGTMLTPSEYTDTISQVQGQRGILELRFPYPGKFMFHAHKTEFAELGWMGFFEVSA 3gdj-a1-m1-cA_3gdj-a1-m1-cC Crystal structure determination of camel(Camelus dromedarius)hemoglobin at 2 angstrom resolution P63106 P63106 2 X-RAY DIFFRACTION 20 1.0 9838 (Camelus dromedarius) 9838 (Camelus dromedarius) 141 141 VLSSKDKTNVKTAFGKIGGHAAEYGAEALERMFLGFPTTKTYFPHFDLSHGSAQVKAHGKKVGDALTKAADHLDDLPSALSALSDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPSVHASLDKFLANVSTVLTSKYR VLSSKDKTNVKTAFGKIGGHAAEYGAEALERMFLGFPTTKTYFPHFDLSHGSAQVKAHGKKVGDALTKAADHLDDLPSALSALSDLHAHKLRVDPVNFKLLSHCLLVTVAAHHPGDFTPSVHASLDKFLANVSTVLTSKYR 3gdj-a1-m1-cB_3gdj-a1-m1-cD Crystal structure determination of camel(Camelus dromedarius)hemoglobin at 2 angstrom resolution P68231 P68231 2 X-RAY DIFFRACTION 12 1.0 9838 (Camelus dromedarius) 9838 (Camelus dromedarius) 146 146 VHLSGDEKNAVHGLWSKVKVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLNHLDNLKGTYAKLSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH VHLSGDEKNAVHGLWSKVKVDEVGGEALGRLLVVYPWTRRFFESFGDLSTADAVMNNPKVKAHGSKVLNSFGDGLNHLDNLKGTYAKLSELHCDKLHVDPENFRLLGNVLVVVLARHFGKEFTPDLQAAYQKVVAGVANALAHRYH 3gdw-a1-m1-cA_3gdw-a1-m1-cB Crystal structure of sigma-54 interaction domain protein from Enterococcus faecalis Q836U6 Q836U6 2 X-RAY DIFFRACTION 73 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 124 127 SNANVGVFVLHGDSTASSLKTAQELLGTSIGTANPLTEVQTYEQLRNQVITQKESLNNGILLLTDGSLNSFGNLFEETGIRTKAITTSTIVLEAIRASVGRSLEDIYQNIQLSFESVVREQFRS SNANVGVFVLHGDSTASSLKTAQELLGTSIGTANPLTEVQTYEQLRNQVITQKESLNNGILLLTDGSLNSFGNLFEETGIRTKAITTSTIVLEAIRASVGRSLEDIYQNIQLSFESVVREQFRSSLQ 3ge2-a1-m1-cA_3ge2-a1-m2-cA Crystal structure of putative lipoprotein SP_0198 from Streptococcus pneumoniae A0A0H2UNA1 A0A0H2UNA1 2.203 X-RAY DIFFRACTION 43 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 87 87 QPVAQPTDIDGTYTGQDDGDRITLVVTGTTGTWTELESDGDQKVKQVTFDSANQRIIGDDVKIYTVNGNQIVVDDDRDPSDQIVLTK QPVAQPTDIDGTYTGQDDGDRITLVVTGTTGTWTELESDGDQKVKQVTFDSANQRIIGDDVKIYTVNGNQIVVDDDRDPSDQIVLTK 3ge4-a1-m1-cD_3ge4-a1-m1-cL Crystal structure of ferritin:DNA-binding protein DPS from Brucella Melitensis Q8YE98 Q8YE98 1.7 X-RAY DIFFRACTION 55 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 161 161 3ge4-a1-m1-cA_3ge4-a1-m1-cC 3ge4-a1-m1-cA_3ge4-a1-m1-cE 3ge4-a1-m1-cB_3ge4-a1-m1-cD 3ge4-a1-m1-cB_3ge4-a1-m1-cL 3ge4-a1-m1-cC_3ge4-a1-m1-cE 3ge4-a1-m1-cF_3ge4-a1-m1-cH 3ge4-a1-m1-cF_3ge4-a1-m1-cJ 3ge4-a1-m1-cG_3ge4-a1-m1-cI 3ge4-a1-m1-cG_3ge4-a1-m1-cK 3ge4-a1-m1-cH_3ge4-a1-m1-cJ 3ge4-a1-m1-cI_3ge4-a1-m1-cK SMHATRNDLPSNTKTTMIALLNENLAATIDLALITKQAHWNLKGPQFIAVHEMLDGFRAELDDHVDTIAERAVQIGGTAYGTTQVVVKESRLKPYPTDIYAVHDHLVALIERYGDVANLVRKSIKDADDAGDDDTADIFTAASRSLDKALWFLEAHVQESN SMHATRNDLPSNTKTTMIALLNENLAATIDLALITKQAHWNLKGPQFIAVHEMLDGFRAELDDHVDTIAERAVQIGGTAYGTTQVVVKESRLKPYPTDIYAVHDHLVALIERYGDVANLVRKSIKDADDAGDDDTADIFTAASRSLDKALWFLEAHVQESN 3ge4-a1-m1-cJ_3ge4-a1-m1-cL Crystal structure of ferritin:DNA-binding protein DPS from Brucella Melitensis Q8YE98 Q8YE98 1.7 X-RAY DIFFRACTION 39 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 161 161 3ge4-a1-m1-cA_3ge4-a1-m1-cD 3ge4-a1-m1-cA_3ge4-a1-m1-cF 3ge4-a1-m1-cB_3ge4-a1-m1-cC 3ge4-a1-m1-cB_3ge4-a1-m1-cK 3ge4-a1-m1-cC_3ge4-a1-m1-cK 3ge4-a1-m1-cD_3ge4-a1-m1-cF 3ge4-a1-m1-cE_3ge4-a1-m1-cH 3ge4-a1-m1-cE_3ge4-a1-m1-cI 3ge4-a1-m1-cG_3ge4-a1-m1-cJ 3ge4-a1-m1-cG_3ge4-a1-m1-cL 3ge4-a1-m1-cH_3ge4-a1-m1-cI SMHATRNDLPSNTKTTMIALLNENLAATIDLALITKQAHWNLKGPQFIAVHEMLDGFRAELDDHVDTIAERAVQIGGTAYGTTQVVVKESRLKPYPTDIYAVHDHLVALIERYGDVANLVRKSIKDADDAGDDDTADIFTAASRSLDKALWFLEAHVQESN SMHATRNDLPSNTKTTMIALLNENLAATIDLALITKQAHWNLKGPQFIAVHEMLDGFRAELDDHVDTIAERAVQIGGTAYGTTQVVVKESRLKPYPTDIYAVHDHLVALIERYGDVANLVRKSIKDADDAGDDDTADIFTAASRSLDKALWFLEAHVQESN 3ge4-a1-m1-cK_3ge4-a1-m1-cL Crystal structure of ferritin:DNA-binding protein DPS from Brucella Melitensis Q8YE98 Q8YE98 1.7 X-RAY DIFFRACTION 86 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 161 161 3ge4-a1-m1-cA_3ge4-a1-m1-cB 3ge4-a1-m1-cC_3ge4-a1-m1-cI 3ge4-a1-m1-cD_3ge4-a1-m1-cJ 3ge4-a1-m1-cE_3ge4-a1-m1-cF 3ge4-a1-m1-cG_3ge4-a1-m1-cH SMHATRNDLPSNTKTTMIALLNENLAATIDLALITKQAHWNLKGPQFIAVHEMLDGFRAELDDHVDTIAERAVQIGGTAYGTTQVVVKESRLKPYPTDIYAVHDHLVALIERYGDVANLVRKSIKDADDAGDDDTADIFTAASRSLDKALWFLEAHVQESN SMHATRNDLPSNTKTTMIALLNENLAATIDLALITKQAHWNLKGPQFIAVHEMLDGFRAELDDHVDTIAERAVQIGGTAYGTTQVVVKESRLKPYPTDIYAVHDHLVALIERYGDVANLVRKSIKDADDAGDDDTADIFTAASRSLDKALWFLEAHVQESN 3ge5-a1-m1-cB_3ge5-a1-m1-cA Crystal structure of a putative nad(p)h:fmn oxidoreductase (pg0310) from porphyromonas gingivalis w83 at 1.70 A resolution Q7MX99 Q7MX99 1.7 X-RAY DIFFRACTION 166 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 170 171 PQDFRLIEDFFRTRRSVRKFIDRPVEEEKLAILEAGRIAPSAHNYQPWHFLVVREEEGRKRLAPCSQQPWFPGAPIYIITLGDHQRAWKRGAGDSVDIDTSIATYLEAHSLGLGCTWVCAFDQALCSEIFDIPSHTPVSILALGYGDPTVPPREAFNRKTIEEVVSFEKL IPQDFRLIEDFFRTRRSVRKFIDRPVEEEKLAILEAGRIAPSAHNYQPWHFLVVREEEGRKRLAPCSQQPWFPGAPIYIITLGDHQRAWKRGAGDSVDIDTSIATYLEAHSLGLGCTWVCAFDQALCSEIFDIPSHTPVSILALGYGDPTVPPREAFNRKTIEEVVSFEKL 3ge6-a1-m1-cA_3ge6-a1-m1-cB CRYSTAL STRUCTURE OF A PUTATIVE NITROREDUCTASE IN COMPLEX WITH FMN (EXIG_2970) FROM EXIGUOBACTERIUM SIBIRICUM 255-15 AT 1.85 A RESOLUTION B1YG32 B1YG32 1.85 X-RAY DIFFRACTION 176 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 200 200 TTQTATDFEIVKGRRSIRNYDTNVKISKEETQILEEATLAPSSVNQPWRFLVIDSEEGKATLAPLAKFNQVQVETSSAVIAVFGDKAIDQLENIYDTAVEKGLPQEVRDRQVPAIQGYENVPASALKDSILIDSGLVSQLLVARAHGYDTNPIGGYEKDQIAEAFGEKDRYVPVLLSIGKAVDAGYPSVRLPINDIADWK TTQTATDFEIVKGRRSIRNYDTNVKISKEETQILEEATLAPSSVNQPWRFLVIDSEEGKATLAPLAKFNQVQVETSSAVIAVFGDKAIDQLENIYDTAVEKGLPQEVRDRQVPAIQGYENVPASALKDSILIDSGLVSQLLVARAHGYDTNPIGGYEKDQIAEAFGEKDRYVPVLLSIGKAVDAGYPSVRLPINDIADWK 3ged-a1-m1-cA_3ged-a1-m2-cB Fingerprint and Structural Analysis of a Apo SCOR enzyme from Clostridium thermocellum A3DFK9 A3DFK9 1.698 X-RAY DIFFRACTION 93 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 242 243 3ged-a1-m2-cA_3ged-a1-m1-cB 3geg-a1-m1-cA_3geg-a1-m2-cB 3geg-a1-m1-cB_3geg-a1-m2-cA NRGVIVTGGGHGIGKQICLDFLEAGDKVCFIDIDEKRSADFAKERPNLFYFHGDVADPLTLKKFVEYAMEKLQRIDVLVNNACRGSKGILSSLLYEEFDYILSVGLKAPYELSRLCRDELIKNKGRIINIASTRAFQSEPDSEAYASAKGGIVALTHALAMSLGPDVLVNCIAPGWINVTEFTQEDCAAIPAGKVGTPKDISNMVLFLCQQDFITGETIIVDGGMSKRMIYHGDWNWFYKID MNRGVIVTGGGHGIGKQICLDFLEAGDKVCFIDIDEKRSADFAKERPNLFYFHGDVADPLTLKKFVEYAMEKLQRIDVLVNNACRGSKGILSSLLYEEFDYILSVGLKAPYELSRLCRDELIKNKGRIINIASTRAFQSEPDSEAYASAKGGIVALTHALAMSLGPDVLVNCIAPGWINVTEFTQEDCAAIPAGKVGTPKDISNMVLFLCQQDFITGETIIVDGGMSKRMIYHGDWNWFYKID 3ged-a1-m1-cB_3ged-a1-m2-cB Fingerprint and Structural Analysis of a Apo SCOR enzyme from Clostridium thermocellum A3DFK9 A3DFK9 1.698 X-RAY DIFFRACTION 149 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 243 243 3ged-a1-m1-cA_3ged-a1-m2-cA 3geg-a1-m1-cA_3geg-a1-m2-cA 3geg-a1-m1-cB_3geg-a1-m2-cB MNRGVIVTGGGHGIGKQICLDFLEAGDKVCFIDIDEKRSADFAKERPNLFYFHGDVADPLTLKKFVEYAMEKLQRIDVLVNNACRGSKGILSSLLYEEFDYILSVGLKAPYELSRLCRDELIKNKGRIINIASTRAFQSEPDSEAYASAKGGIVALTHALAMSLGPDVLVNCIAPGWINVTEFTQEDCAAIPAGKVGTPKDISNMVLFLCQQDFITGETIIVDGGMSKRMIYHGDWNWFYKID MNRGVIVTGGGHGIGKQICLDFLEAGDKVCFIDIDEKRSADFAKERPNLFYFHGDVADPLTLKKFVEYAMEKLQRIDVLVNNACRGSKGILSSLLYEEFDYILSVGLKAPYELSRLCRDELIKNKGRIINIASTRAFQSEPDSEAYASAKGGIVALTHALAMSLGPDVLVNCIAPGWINVTEFTQEDCAAIPAGKVGTPKDISNMVLFLCQQDFITGETIIVDGGMSKRMIYHGDWNWFYKID 3ged-a1-m2-cA_3ged-a1-m2-cB Fingerprint and Structural Analysis of a Apo SCOR enzyme from Clostridium thermocellum A3DFK9 A3DFK9 1.698 X-RAY DIFFRACTION 110 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 242 243 3ged-a1-m1-cA_3ged-a1-m1-cB 3geg-a1-m1-cA_3geg-a1-m1-cB 3geg-a1-m2-cA_3geg-a1-m2-cB NRGVIVTGGGHGIGKQICLDFLEAGDKVCFIDIDEKRSADFAKERPNLFYFHGDVADPLTLKKFVEYAMEKLQRIDVLVNNACRGSKGILSSLLYEEFDYILSVGLKAPYELSRLCRDELIKNKGRIINIASTRAFQSEPDSEAYASAKGGIVALTHALAMSLGPDVLVNCIAPGWINVTEFTQEDCAAIPAGKVGTPKDISNMVLFLCQQDFITGETIIVDGGMSKRMIYHGDWNWFYKID MNRGVIVTGGGHGIGKQICLDFLEAGDKVCFIDIDEKRSADFAKERPNLFYFHGDVADPLTLKKFVEYAMEKLQRIDVLVNNACRGSKGILSSLLYEEFDYILSVGLKAPYELSRLCRDELIKNKGRIINIASTRAFQSEPDSEAYASAKGGIVALTHALAMSLGPDVLVNCIAPGWINVTEFTQEDCAAIPAGKVGTPKDISNMVLFLCQQDFITGETIIVDGGMSKRMIYHGDWNWFYKID 3geh-a1-m1-cA_3geh-a1-m2-cA Crystal structure of MnmE from Nostoc in complex with GDP, FOLINIC ACID and ZN Q8YN91 Q8YN91 3.2 X-RAY DIFFRACTION 225 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 442 442 GSHMAITGTIAAIATAIVPQQGSVGIVRVSGSQAIAIAQTLFDAPGKQVWESHRILYGYIRHPQTRQIVDEALLLLMKAPRSYTREDVVEFHCHGGIIAVQQVLQLCLESGARLAQPGEFTLRAFLNGRLDLTQAESIADLVGARSPQAAQTALAGLQGKLAHPIRQLRANCLDILAEIEARIDFEEDLPPLDDEAIISDIENIAAEISQLLATKDKGELLRTGLKVAIVGRPNVGKSSLLNAWSQSDRAIVTDLPGTTRDVVESQLVVGGIPVQVLDQAANTADLVLLTIDAATGWTTGDQEIYEQVKHRPLILVMNKIDLVEKQLITSLEYPENITQIVHTAAAQKQGIDSLETAILEIVQTGKVQAADMDLAINQRQAAALTQAKMSLEQVQATITQQLPLDFWTIDLRGAIQALGEITGEEVTESVLDRIFSRFCIGK GSHMAITGTIAAIATAIVPQQGSVGIVRVSGSQAIAIAQTLFDAPGKQVWESHRILYGYIRHPQTRQIVDEALLLLMKAPRSYTREDVVEFHCHGGIIAVQQVLQLCLESGARLAQPGEFTLRAFLNGRLDLTQAESIADLVGARSPQAAQTALAGLQGKLAHPIRQLRANCLDILAEIEARIDFEEDLPPLDDEAIISDIENIAAEISQLLATKDKGELLRTGLKVAIVGRPNVGKSSLLNAWSQSDRAIVTDLPGTTRDVVESQLVVGGIPVQVLDQAANTADLVLLTIDAATGWTTGDQEIYEQVKHRPLILVMNKIDLVEKQLITSLEYPENITQIVHTAAAQKQGIDSLETAILEIVQTGKVQAADMDLAINQRQAAALTQAKMSLEQVQATITQQLPLDFWTIDLRGAIQALGEITGEEVTESVLDRIFSRFCIGK 3gei-a2-m1-cC_3gei-a2-m1-cB Crystal structure of MnmE from Chlorobium tepidum in complex with GCP Q8KAS1 Q8KAS1 3.4 X-RAY DIFFRACTION 150 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 298 424 3gee-a1-m1-cA_3gee-a1-m2-cA 3gei-a1-m1-cA_3gei-a1-m2-cA SDLHLPVPGHPIAAIATPVGVGALAIVRISGAGVLDLADRVFRKVHGSGKLAEAAGYTAHFGRLYDGEEMVDEVIALVFRAPRSFTAEQMVEFTCHGGPVVVGRVLRLMLDNGCRLAEPGEFTRRAFLNGRIDLLQAEAIGEMIHARTESAYRTAVSQMKGDLSVRLGGLREQLIRSCALIELELDFSEEDVEFQSRDELTMQIETLRSEVNRLIDSYQHGRIVSEGSVLVTSLRHYEALRNASDALQNALELIAHESETELIAFELRAALDYVGQITGKVVNEEVLNTIFDKFCIGK SDLHLPVPGHPIAAIATPVGVGALAIVRISGAGVLDLADRVFRKVHGSGKLAEAAGYTAHFGRLYDGEEMVDEVIALVFRAPRSFTAEQMVEFTCHGGPVVVGRVLRLMLDNGCRLAEPGEFTRRAFLNGRIDLLQAEAIGEMIHARTESAYRTAVSQMKGDLSVRLGGLREQLIRSCALIELELDFSEEDVEFQSRDELTMQIETLRSEVNRLIDSYQHGRIVSEGVSTVIAGKPNAGKSTLLNTLLEECFIHDKTMFRLTDMKMAEADLILYLLDLGTERLDDELTEIRELKAAHPAAKFLTVANKLDRAANADALIRAIADGTGTEVIGISALNGDGIDTLKQHMGDLVKSVLVTSLRHYEALRNASDALQNALELIAHESETELIAFELRAALDYVGQITGKVVNEEVLNTIFDKFCIGK 3gek-a1-m1-cD_3gek-a1-m1-cB Crystal structure of putative thioesterase yhdA from Lactococcus lactis. Northeast Structural Genomics Consortium Target KR113 Q9CHK5 Q9CHK5 2.24 X-RAY DIFFRACTION 34 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 119 121 3gek-a1-m1-cC_3gek-a1-m1-cA NIDQLNITDFQVFTDKIYKFSSKILSDFHAQPQGFLNGGASLALAEITAGASNAIGSGQYFAFGQSINANHLNPKKCEGFVNARGLLLKNGKRNHVWEIKITDENETLISQITVVNALV NIDQLNITDFQVFTDKIYKFSSKILSDFHAQPQGFLNGGASLALAEITAGASNAIGSGQYFAFGQSINANHLNPKKCEGFVNARGLLLKNGKRNHVWEIKITDENETLISQITVVNALVPQ 3gek-a3-m1-cB_3gek-a3-m1-cC Crystal structure of putative thioesterase yhdA from Lactococcus lactis. Northeast Structural Genomics Consortium Target KR113 Q9CHK5 Q9CHK5 2.24 X-RAY DIFFRACTION 80 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 121 123 3gek-a1-m1-cB_3gek-a1-m1-cC 3gek-a1-m1-cD_3gek-a1-m1-cA 3gek-a2-m1-cD_3gek-a2-m1-cA NIDQLNITDFQVFTDKIYKFSSKILSDFHAQPQGFLNGGASLALAEITAGASNAIGSGQYFAFGQSINANHLNPKKCEGFVNARGLLLKNGKRNHVWEIKITDENETLISQITVVNALVPQ NIDQLNITDFQVFTDEKIYKFSSKILSDFHAQPQGFLNGGASLALAEITAGASNAIGSGQYFAFGQSINANHLNPKKCEGFVNARGLLLKNGKRNHVWEIKITDENETLISQITVVNALVPQK 3gem-a1-m1-cD_3gem-a1-m1-cA Crystal structure of short-chain dehydrogenase from Pseudomonas syringae Q48MN0 Q48MN0 1.83 X-RAY DIFFRACTION 93 0.99 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 210 213 3gem-a1-m1-cB_3gem-a1-m1-cC SAPILITGASQRVGLHCALRLLEHGHRVIISYRTEHASVTELRQAGAVALYGDFSCETGIAFIDLLKTQTSSLRAVVHNASEWLAETPGEEADNFTRFSVHLAPYLINLHCEPLLTASEVADIVHISDDVTRKGSSKHIAYCATKAGLESLTLSFAARFAPLVKVNGIAPALLFQPEPGAEVIYQSLRYLLDSTYVTGTTLTVNGGRHVK SAPILITGASQRVGLHCALRLLEHGHRVIISYRTEHASVTELRQAGAVALYGDFSCETGIAFIDLLKTQTSSLRAVVHNASEWLAETPGEEADNFTRFSVHLAPYLINLHCEPLLTASEVADIVHISDDVTRKGSSKHIAYCATKAGLESLTLSFAARFAPLVKVNGIAPALLFSALGIEPGAEVIYQSLRYLLDSTYVTGTTLTVNGGRHVK 3gem-a1-m1-cD_3gem-a1-m1-cC Crystal structure of short-chain dehydrogenase from Pseudomonas syringae Q48MN0 Q48MN0 1.83 X-RAY DIFFRACTION 100 0.981 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 210 221 3gem-a1-m1-cA_3gem-a1-m1-cB SAPILITGASQRVGLHCALRLLEHGHRVIISYRTEHASVTELRQAGAVALYGDFSCETGIAFIDLLKTQTSSLRAVVHNASEWLAETPGEEADNFTRFSVHLAPYLINLHCEPLLTASEVADIVHISDDVTRKGSSKHIAYCATKAGLESLTLSFAARFAPLVKVNGIAPALLFQPEPGAEVIYQSLRYLLDSTYVTGTTLTVNGGRHVK SAPILITGASQRVGLHCALRLLEHGHRVIISYRTEHASVTELRQAGAVALYGDFSCETGIAFIDLLKTQTSSLRAVVHNASEWLAETPGEEADNFTRFSVHLAPYLINLHCEPLLTASEVADIVHISDDVTRKGSSKHIAYCATKAGLESLTLSFAARFAPLVKVNGIAPALAAYRANALAKSALGIEPGAEVIYQSLRYLLDSTYVTGTTLTVNGGRHVK 3get-a1-m1-cB_3get-a1-m1-cA Crystal structure of putative histidinol-phosphate aminotransferase (NP_281508.1) from Campylobacter jejuni at 2.01 A resolution Q9PII2 Q9PII2 2.01 X-RAY DIFFRACTION 194 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 355 359 KFNEFLNNLSNYEDIEVIAKEYGVKEVIKLASNENPFGTPPKAIECLRQNANKAHLYPDDSIELKSTLAQKYKVQNENIIIGAGSDQVIEFAIHSKLNSKNAFLQAGVTFAYEIYAKQCGAKCYKTQSITHNLDEFKKLYETHKDEIKLIFLCLPNNPLGECLDASEATEFIKGVNEDCLVVIDAAYNEFASFKDSKKHLEPCELIKEFDNVLYLGTFSLYGLGGLRIGYGIANANIISAFYKLRAPFNVSNLALKAAVAADDDEFTEKTLENNFSQELYKEFAKKHNIKIIDSYTNFITYFFDEKNSTDLSEKLLKKGIIIRNLKSYGLNAIRITIGTSYENEKFFTEFDKILR GKFNEFLNNLSNYEPGKDIEVIAKEYGVKEVIKLASNENPFGTPPKAIECLRQNANKAHLYPDDSIELKSTLAQKYKVQNENIIIGAGSDQVIEFAIHSKLNSKNAFLQAGVTFAYEIYAKQCGAKCYKTQSITHNLDEFKKLYETHKDEIKLIFLCLPNNPLGECLDASEATEFIKGVNEDCLVVIDAAYNEFASFKDSKKHLEPCELIKEFDNVLYLGTFSLYGLGGLRIGYGIANANIISAFYKLRAPFNVSNLALKAAVAADDDEFTEKTLENNFSQELYKEFAKKHNIKIIDSYTNFITYFFDEKNSTDLSEKLLKKGIIIRNLKSYGLNAIRITIGTSYENEKFFTEFDKILR 3geu-a2-m1-cC_3geu-a2-m1-cD Crystal Structure of IcaR from Staphylococcus aureus, a member of the tetracycline repressor protein family Q5HCN2 Q5HCN2 1.9 X-RAY DIFFRACTION 104 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 184 184 3geu-a1-m1-cA_3geu-a1-m1-cB SNAKDKIIDNAITLFSEKGYDGTTLDDIAKSVNIKKASLYYHFDSKKSIYEQSVKCCFDYLNNIINQNKSNYSIDALYQFLFEFIFDIEERYIRYVQLSNTPEEFSGNIYGQIQDLNQSLSKEIAKFYDESKIKTKEDFQNLILLFLESWYLKASFSQKFGAVEESKSQFKDEVYSLLNIFLKK SNAKDKIIDNAITLFSEKGYDGTTLDDIAKSVNIKKASLYYHFDSKKSIYEQSVKCCFDYLNNIINQNKSNYSIDALYQFLFEFIFDIEERYIRYVQLSNTPEEFSGNIYGQIQDLNQSLSKEIAKFYDESKIKTKEDFQNLILLFLESWYLKASFSQKFGAVEESKSQFKDEVYSLLNIFLKK 3gf0-a1-m2-cA_3gf0-a1-m3-cA Bifunctional dCTP deaminase-dUTPase mutant enzyme variant E145Q from Methanocaldococcus jannaschii in complex with pyrophosphate and magnesium Q57872 Q57872 2.62 X-RAY DIFFRACTION 155 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 199 199 1ogh-a1-m1-cA_1ogh-a1-m2-cA 1ogh-a1-m1-cA_1ogh-a1-m3-cA 1ogh-a1-m2-cA_1ogh-a1-m3-cA 1ogh-a2-m1-cB_1ogh-a2-m4-cB 1ogh-a2-m1-cB_1ogh-a2-m5-cB 1ogh-a2-m4-cB_1ogh-a2-m5-cB 1pkh-a1-m1-cA_1pkh-a1-m2-cA 1pkh-a1-m1-cA_1pkh-a1-m3-cA 1pkh-a1-m2-cA_1pkh-a1-m3-cA 1pkh-a1-m4-cB_1pkh-a1-m5-cB 1pkh-a1-m4-cB_1pkh-a1-m6-cB 1pkh-a1-m5-cB_1pkh-a1-m6-cB 1pkj-a1-m1-cB_1pkj-a1-m2-cB 1pkj-a1-m1-cB_1pkj-a1-m3-cB 1pkj-a1-m2-cB_1pkj-a1-m3-cB 1pkj-a1-m4-cA_1pkj-a1-m5-cA 1pkj-a1-m4-cA_1pkj-a1-m6-cA 1pkj-a1-m5-cA_1pkj-a1-m6-cA 1pkj-a2-m1-cA_1pkj-a2-m7-cA 1pkj-a2-m1-cA_1pkj-a2-m8-cA 1pkj-a2-m7-cA_1pkj-a2-m8-cA 1pkk-a1-m1-cB_1pkk-a1-m2-cB 1pkk-a1-m1-cB_1pkk-a1-m3-cB 1pkk-a1-m2-cB_1pkk-a1-m3-cB 1pkk-a1-m4-cA_1pkk-a1-m5-cA 1pkk-a1-m4-cA_1pkk-a1-m6-cA 1pkk-a1-m5-cA_1pkk-a1-m6-cA 1pkk-a2-m1-cA_1pkk-a2-m7-cA 1pkk-a2-m1-cA_1pkk-a2-m8-cA 1pkk-a2-m7-cA_1pkk-a2-m8-cA 2hxb-a1-m1-cA_2hxb-a1-m2-cA 2hxb-a1-m1-cA_2hxb-a1-m3-cA 2hxb-a1-m2-cA_2hxb-a1-m3-cA 2hxb-a2-m1-cA_2hxb-a2-m2-cA 2hxb-a2-m1-cA_2hxb-a2-m3-cA 2hxb-a2-m2-cA_2hxb-a2-m3-cA 2hxb-a2-m4-cA_2hxb-a2-m5-cA 2hxb-a2-m4-cA_2hxb-a2-m6-cA 2hxb-a2-m5-cA_2hxb-a2-m6-cA 2hxd-a1-m1-cA_2hxd-a1-m2-cA 2hxd-a1-m1-cA_2hxd-a1-m3-cA 2hxd-a1-m2-cA_2hxd-a1-m3-cA 2hxd-a2-m1-cA_2hxd-a2-m2-cA 2hxd-a2-m1-cA_2hxd-a2-m3-cA 2hxd-a2-m2-cA_2hxd-a2-m3-cA 2hxd-a2-m4-cA_2hxd-a2-m5-cA 2hxd-a2-m4-cA_2hxd-a2-m6-cA 2hxd-a2-m5-cA_2hxd-a2-m6-cA 2hxd-a3-m10-cA_2hxd-a3-m15-cA 2hxd-a3-m10-cA_2hxd-a3-m8-cA 2hxd-a3-m11-cA_2hxd-a3-m14-cA 2hxd-a3-m11-cA_2hxd-a3-m7-cA 2hxd-a3-m12-cA_2hxd-a3-m13-cA 2hxd-a3-m12-cA_2hxd-a3-m9-cA 2hxd-a3-m13-cA_2hxd-a3-m9-cA 2hxd-a3-m14-cA_2hxd-a3-m7-cA 2hxd-a3-m15-cA_2hxd-a3-m8-cA 2hxd-a3-m16-cA_2hxd-a3-m23-cA 2hxd-a3-m16-cA_2hxd-a3-m26-cA 2hxd-a3-m17-cA_2hxd-a3-m21-cA 2hxd-a3-m17-cA_2hxd-a3-m25-cA 2hxd-a3-m18-cA_2hxd-a3-m20-cA 2hxd-a3-m18-cA_2hxd-a3-m27-cA 2hxd-a3-m19-cA_2hxd-a3-m22-cA 2hxd-a3-m19-cA_2hxd-a3-m24-cA 2hxd-a3-m1-cA_2hxd-a3-m2-cA 2hxd-a3-m1-cA_2hxd-a3-m3-cA 2hxd-a3-m20-cA_2hxd-a3-m27-cA 2hxd-a3-m21-cA_2hxd-a3-m25-cA 2hxd-a3-m22-cA_2hxd-a3-m24-cA 2hxd-a3-m23-cA_2hxd-a3-m26-cA 2hxd-a3-m2-cA_2hxd-a3-m3-cA 3gf0-a1-m1-cA_3gf0-a1-m2-cA 3gf0-a1-m1-cA_3gf0-a1-m3-cA MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLQIVAFDKPVILYKNQRIGQLIFSKLLSPADVGYSERKTSKYAYQKSVMPSLIHLD MILSDKDIIDYVTSKRIIIKPFNKDFVGPCSYDVTLGDEFIIYDDEVYDLSKELNYKRIKIKNSILVCPLNYNLTEEKINYFKEKYNVDYVVEGGVLGTTNEYIELPNDISAQYQGRSSLGRVFLTSHQTAGWIDAGFKGKITLQIVAFDKPVILYKNQRIGQLIFSKLLSPADVGYSERKTSKYAYQKSVMPSLIHLD 3gf3-a1-m1-cA_3gf3-a1-m4-cA Glutaconyl-coA decarboxylase A subunit from Clostridium symbiosum co-crystallized with glutaconyl-coA B7TVP1 B7TVP1 1.75 X-RAY DIFFRACTION 104 1.0 1512 ([Clostridium] symbiosum) 1512 ([Clostridium] symbiosum) 563 563 3gf3-a1-m2-cA_3gf3-a1-m3-cA 3gf7-a1-m1-cA_3gf7-a1-m3-cA 3gf7-a1-m2-cA_3gf7-a1-m4-cA 3glm-a1-m1-cA_3glm-a1-m1-cD 3glm-a1-m1-cC_3glm-a1-m1-cB 3gma-a1-m1-cA_3gma-a1-m1-cB 3gma-a1-m2-cA_3gma-a1-m2-cB MYSMPGYFQNMPTIGKELVNPNPENEQEIKAVESDIHESIKKALDAGITSEEKLNERGQLSAMQRINALIDPGTWCPLNSLFNPENNKFGTTNIVNGLGRVDGKWVYIVASDNKKMAGAWVPGQAENLIRCSDAAKMMHLPLIYLLNCSGVEFPNQDKVYPNRRGGGTPFFRNSELNQLGIPVIVGIYGTNPAGGGYHSISPTILIAHQDANMAVGGAGAEQIIAAQIENSKLKVPAPGSVPIHYDETGFFREVYQNDLGVIDGIKKYISYLPAYNLEFFRVDTPKAPQLPAEDLYSIIPMNQKRPYDIYEVIARLFDNSEFSEYKKGYGPEMVTGLAKVNGLLVGVIANVQGLLMNYPEYKQNSVGIGGKLYRQGLIKMNEFVTLCARDRIPLIWLQDTTGIDVGDEAEKAELLGLGQSLIYSIENSKLPSLEITIRKASAAAHYVLGGPQGNNTNVFSIGTGACEYYVMPGETAANAMYSRKLVKAQPIIGKMNDMIQMYTDKSRPKYCTEKGMVDEIVDMTEVRPYIQAFTEAAYQNPQSICPMHQMLTPRSTREFETFG MYSMPGYFQNMPTIGKELVNPNPENEQEIKAVESDIHESIKKALDAGITSEEKLNERGQLSAMQRINALIDPGTWCPLNSLFNPENNKFGTTNIVNGLGRVDGKWVYIVASDNKKMAGAWVPGQAENLIRCSDAAKMMHLPLIYLLNCSGVEFPNQDKVYPNRRGGGTPFFRNSELNQLGIPVIVGIYGTNPAGGGYHSISPTILIAHQDANMAVGGAGAEQIIAAQIENSKLKVPAPGSVPIHYDETGFFREVYQNDLGVIDGIKKYISYLPAYNLEFFRVDTPKAPQLPAEDLYSIIPMNQKRPYDIYEVIARLFDNSEFSEYKKGYGPEMVTGLAKVNGLLVGVIANVQGLLMNYPEYKQNSVGIGGKLYRQGLIKMNEFVTLCARDRIPLIWLQDTTGIDVGDEAEKAELLGLGQSLIYSIENSKLPSLEITIRKASAAAHYVLGGPQGNNTNVFSIGTGACEYYVMPGETAANAMYSRKLVKAQPIIGKMNDMIQMYTDKSRPKYCTEKGMVDEIVDMTEVRPYIQAFTEAAYQNPQSICPMHQMLTPRSTREFETFG 3gf3-a1-m2-cA_3gf3-a1-m4-cA Glutaconyl-coA decarboxylase A subunit from Clostridium symbiosum co-crystallized with glutaconyl-coA B7TVP1 B7TVP1 1.75 X-RAY DIFFRACTION 64 1.0 1512 ([Clostridium] symbiosum) 1512 ([Clostridium] symbiosum) 563 563 3gf3-a1-m1-cA_3gf3-a1-m3-cA 3gf7-a1-m1-cA_3gf7-a1-m2-cA 3gf7-a1-m3-cA_3gf7-a1-m4-cA 3glm-a1-m1-cA_3glm-a1-m1-cB 3glm-a1-m1-cC_3glm-a1-m1-cD 3gma-a1-m1-cA_3gma-a1-m2-cB 3gma-a1-m2-cA_3gma-a1-m1-cB MYSMPGYFQNMPTIGKELVNPNPENEQEIKAVESDIHESIKKALDAGITSEEKLNERGQLSAMQRINALIDPGTWCPLNSLFNPENNKFGTTNIVNGLGRVDGKWVYIVASDNKKMAGAWVPGQAENLIRCSDAAKMMHLPLIYLLNCSGVEFPNQDKVYPNRRGGGTPFFRNSELNQLGIPVIVGIYGTNPAGGGYHSISPTILIAHQDANMAVGGAGAEQIIAAQIENSKLKVPAPGSVPIHYDETGFFREVYQNDLGVIDGIKKYISYLPAYNLEFFRVDTPKAPQLPAEDLYSIIPMNQKRPYDIYEVIARLFDNSEFSEYKKGYGPEMVTGLAKVNGLLVGVIANVQGLLMNYPEYKQNSVGIGGKLYRQGLIKMNEFVTLCARDRIPLIWLQDTTGIDVGDEAEKAELLGLGQSLIYSIENSKLPSLEITIRKASAAAHYVLGGPQGNNTNVFSIGTGACEYYVMPGETAANAMYSRKLVKAQPIIGKMNDMIQMYTDKSRPKYCTEKGMVDEIVDMTEVRPYIQAFTEAAYQNPQSICPMHQMLTPRSTREFETFG MYSMPGYFQNMPTIGKELVNPNPENEQEIKAVESDIHESIKKALDAGITSEEKLNERGQLSAMQRINALIDPGTWCPLNSLFNPENNKFGTTNIVNGLGRVDGKWVYIVASDNKKMAGAWVPGQAENLIRCSDAAKMMHLPLIYLLNCSGVEFPNQDKVYPNRRGGGTPFFRNSELNQLGIPVIVGIYGTNPAGGGYHSISPTILIAHQDANMAVGGAGAEQIIAAQIENSKLKVPAPGSVPIHYDETGFFREVYQNDLGVIDGIKKYISYLPAYNLEFFRVDTPKAPQLPAEDLYSIIPMNQKRPYDIYEVIARLFDNSEFSEYKKGYGPEMVTGLAKVNGLLVGVIANVQGLLMNYPEYKQNSVGIGGKLYRQGLIKMNEFVTLCARDRIPLIWLQDTTGIDVGDEAEKAELLGLGQSLIYSIENSKLPSLEITIRKASAAAHYVLGGPQGNNTNVFSIGTGACEYYVMPGETAANAMYSRKLVKAQPIIGKMNDMIQMYTDKSRPKYCTEKGMVDEIVDMTEVRPYIQAFTEAAYQNPQSICPMHQMLTPRSTREFETFG 3gf3-a1-m3-cA_3gf3-a1-m4-cA Glutaconyl-coA decarboxylase A subunit from Clostridium symbiosum co-crystallized with glutaconyl-coA B7TVP1 B7TVP1 1.75 X-RAY DIFFRACTION 296 1.0 1512 ([Clostridium] symbiosum) 1512 ([Clostridium] symbiosum) 563 563 3gf3-a1-m1-cA_3gf3-a1-m2-cA 3gf7-a1-m1-cA_3gf7-a1-m4-cA 3gf7-a1-m2-cA_3gf7-a1-m3-cA 3glm-a1-m1-cB_3glm-a1-m1-cD 3glm-a1-m1-cC_3glm-a1-m1-cA 3gma-a1-m1-cA_3gma-a1-m2-cA 3gma-a1-m1-cB_3gma-a1-m2-cB MYSMPGYFQNMPTIGKELVNPNPENEQEIKAVESDIHESIKKALDAGITSEEKLNERGQLSAMQRINALIDPGTWCPLNSLFNPENNKFGTTNIVNGLGRVDGKWVYIVASDNKKMAGAWVPGQAENLIRCSDAAKMMHLPLIYLLNCSGVEFPNQDKVYPNRRGGGTPFFRNSELNQLGIPVIVGIYGTNPAGGGYHSISPTILIAHQDANMAVGGAGAEQIIAAQIENSKLKVPAPGSVPIHYDETGFFREVYQNDLGVIDGIKKYISYLPAYNLEFFRVDTPKAPQLPAEDLYSIIPMNQKRPYDIYEVIARLFDNSEFSEYKKGYGPEMVTGLAKVNGLLVGVIANVQGLLMNYPEYKQNSVGIGGKLYRQGLIKMNEFVTLCARDRIPLIWLQDTTGIDVGDEAEKAELLGLGQSLIYSIENSKLPSLEITIRKASAAAHYVLGGPQGNNTNVFSIGTGACEYYVMPGETAANAMYSRKLVKAQPIIGKMNDMIQMYTDKSRPKYCTEKGMVDEIVDMTEVRPYIQAFTEAAYQNPQSICPMHQMLTPRSTREFETFG MYSMPGYFQNMPTIGKELVNPNPENEQEIKAVESDIHESIKKALDAGITSEEKLNERGQLSAMQRINALIDPGTWCPLNSLFNPENNKFGTTNIVNGLGRVDGKWVYIVASDNKKMAGAWVPGQAENLIRCSDAAKMMHLPLIYLLNCSGVEFPNQDKVYPNRRGGGTPFFRNSELNQLGIPVIVGIYGTNPAGGGYHSISPTILIAHQDANMAVGGAGAEQIIAAQIENSKLKVPAPGSVPIHYDETGFFREVYQNDLGVIDGIKKYISYLPAYNLEFFRVDTPKAPQLPAEDLYSIIPMNQKRPYDIYEVIARLFDNSEFSEYKKGYGPEMVTGLAKVNGLLVGVIANVQGLLMNYPEYKQNSVGIGGKLYRQGLIKMNEFVTLCARDRIPLIWLQDTTGIDVGDEAEKAELLGLGQSLIYSIENSKLPSLEITIRKASAAAHYVLGGPQGNNTNVFSIGTGACEYYVMPGETAANAMYSRKLVKAQPIIGKMNDMIQMYTDKSRPKYCTEKGMVDEIVDMTEVRPYIQAFTEAAYQNPQSICPMHQMLTPRSTREFETFG 3gf4-a1-m1-cA_3gf4-a1-m1-cB Structure of UDP-galactopyranose mutase bound to UDP-glucose Q48485 Q48485 2.45 X-RAY DIFFRACTION 79 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 383 383 3inr-a1-m1-cB_3inr-a1-m1-cA 3int-a1-m1-cB_3int-a1-m1-cA 3kyb-a1-m1-cB_3kyb-a1-m1-cA KSKKILIVGAGFSGAVIGRQLAEKGHQVHIIDQRDHIGGNSYDARDSETNVMVHVYGPHIFHTDNETVWNYINKHAEMMPYVNRVKATVNGQVFSLPINLHTINQFFSKTCSPDEARALIAEKGDSTIADPQTFEEQALRFIGKELYEAFFKGYTIKQWGMQPSELPASILKRLPVRFNYDDNYFNHKFQGMPKCGYTQMIKSILNHENIKVDLQREFIVDERTHYDHVFYSGPLDAFYGYQYGRLGYRTLDFKKFIYQGDYQGCAVMNYCSVDVPYTRITEHKYFSPWEQHDGSVCYKEYSRACEENDIPYYPIRQMGEMALLEKYLSLAENETNITFVGRLGTYRYLDMDVTIAEALKTAEVYLNSLTDNQPMPVFTVSVG KSKKILIVGAGFSGAVIGRQLAEKGHQVHIIDQRDHIGGNSYDARDSETNVMVHVYGPHIFHTDNETVWNYINKHAEMMPYVNRVKATVNGQVFSLPINLHTINQFFSKTCSPDEARALIAEKGDSTIADPQTFEEQALRFIGKELYEAFFKGYTIKQWGMQPSELPASILKRLPVRFNYDDNYFNHKFQGMPKCGYTQMIKSILNHENIKVDLQREFIVDERTHYDHVFYSGPLDAFYGYQYGRLGYRTLDFKKFIYQGDYQGCAVMNYCSVDVPYTRITEHKYFSPWEQHDGSVCYKEYSRACEENDIPYYPIRQMGEMALLEKYLSLAENETNITFVGRLGTYRYLDMDVTIAEALKTAEVYLNSLTDNQPMPVFTVSVG 3gfa-a1-m1-cA_3gfa-a1-m1-cB Crystal structure of a putative nitroreductase in complex with fmn (cd3205) from clostridium difficile 630 at 1.35 A resolution Q17ZU8 Q17ZU8 1.35 X-RAY DIFFRACTION 203 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 190 190 ISDSISKRRSIRKYKNQSISHETIEKIIEAGINAPSSKNRQPWRFVVITEKEKESLKASKGIQNEINDNGLLPGSRQHIAGANYTVEIKQAPVTIFILNILGKSPLEKLSPEERFYEANQSIGAAIQNSLTAVELGLGSLWICDVYFAYRELCEWLNTDSQLVAAISLGYPDEEPSRRPRLQLSDVTEWR ISDSISKRRSIRKYKNQSISHETIEKIIEAGINAPSSKNRQPWRFVVITEKEKESLKASKGIQNEINDNGLLPGSRQHIAGANYTVEIKQAPVTIFILNILGKSPLEKLSPEERFYEANQSIGAAIQNSLTAVELGLGSLWICDVYFAYRELCEWLNTDSQLVAAISLGYPDEEPSRRPRLQLSDVTEWR 3gfb-a1-m1-cA_3gfb-a1-m1-cD L-Threonine Dehydrogenase (TkTDH) from the hyperthermophilic archaeon Thermococcus kodakaraensis Q5JI69 Q5JI69 2.4 X-RAY DIFFRACTION 66 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 347 347 3gfb-a1-m1-cB_3gfb-a1-m1-cC EKMQAIMKTKPAYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIMGHEVAGEVVEVGPGVEDLQVGDYISVETHIVCGKCYACKHNRYHVCQNTKIFGVDMDGVFAHYAIVPAKNAWKNPKDMPPEYAALQEPLGNAVDTVLAGPIAGRSTLITGAGPLGLLGIAVAKASGAYPVIVSEPSEFRRKLAKKVGADYVVNPFEEDPVKFVMDITDGAGVEVFLEFSGAPKALEQGLKAVTPGGRVSLLGLFPREVTIDFNNLIIFKALEVHGITGRHLWETWYTVSSLIQSGKLNLDPIITHKYKGFDKFEEAFELMRAGKTGKVVFFPHK EKMQAIMKTKPAYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIMGHEVAGEVVEVGPGVEDLQVGDYISVETHIVCGKCYACKHNRYHVCQNTKIFGVDMDGVFAHYAIVPAKNAWKNPKDMPPEYAALQEPLGNAVDTVLAGPIAGRSTLITGAGPLGLLGIAVAKASGAYPVIVSEPSEFRRKLAKKVGADYVVNPFEEDPVKFVMDITDGAGVEVFLEFSGAPKALEQGLKAVTPGGRVSLLGLFPREVTIDFNNLIIFKALEVHGITGRHLWETWYTVSSLIQSGKLNLDPIITHKYKGFDKFEEAFELMRAGKTGKVVFFPHK 3gfb-a1-m1-cB_3gfb-a1-m1-cD L-Threonine Dehydrogenase (TkTDH) from the hyperthermophilic archaeon Thermococcus kodakaraensis Q5JI69 Q5JI69 2.4 X-RAY DIFFRACTION 22 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 347 347 3gfb-a1-m1-cA_3gfb-a1-m1-cC EKMQAIMKTKPAYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIMGHEVAGEVVEVGPGVEDLQVGDYISVETHIVCGKCYACKHNRYHVCQNTKIFGVDMDGVFAHYAIVPAKNAWKNPKDMPPEYAALQEPLGNAVDTVLAGPIAGRSTLITGAGPLGLLGIAVAKASGAYPVIVSEPSEFRRKLAKKVGADYVVNPFEEDPVKFVMDITDGAGVEVFLEFSGAPKALEQGLKAVTPGGRVSLLGLFPREVTIDFNNLIIFKALEVHGITGRHLWETWYTVSSLIQSGKLNLDPIITHKYKGFDKFEEAFELMRAGKTGKVVFFPHK EKMQAIMKTKPAYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIMGHEVAGEVVEVGPGVEDLQVGDYISVETHIVCGKCYACKHNRYHVCQNTKIFGVDMDGVFAHYAIVPAKNAWKNPKDMPPEYAALQEPLGNAVDTVLAGPIAGRSTLITGAGPLGLLGIAVAKASGAYPVIVSEPSEFRRKLAKKVGADYVVNPFEEDPVKFVMDITDGAGVEVFLEFSGAPKALEQGLKAVTPGGRVSLLGLFPREVTIDFNNLIIFKALEVHGITGRHLWETWYTVSSLIQSGKLNLDPIITHKYKGFDKFEEAFELMRAGKTGKVVFFPHK 3gfb-a1-m1-cC_3gfb-a1-m1-cD L-Threonine Dehydrogenase (TkTDH) from the hyperthermophilic archaeon Thermococcus kodakaraensis Q5JI69 Q5JI69 2.4 X-RAY DIFFRACTION 115 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 347 347 3gfb-a1-m1-cA_3gfb-a1-m1-cB EKMQAIMKTKPAYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIMGHEVAGEVVEVGPGVEDLQVGDYISVETHIVCGKCYACKHNRYHVCQNTKIFGVDMDGVFAHYAIVPAKNAWKNPKDMPPEYAALQEPLGNAVDTVLAGPIAGRSTLITGAGPLGLLGIAVAKASGAYPVIVSEPSEFRRKLAKKVGADYVVNPFEEDPVKFVMDITDGAGVEVFLEFSGAPKALEQGLKAVTPGGRVSLLGLFPREVTIDFNNLIIFKALEVHGITGRHLWETWYTVSSLIQSGKLNLDPIITHKYKGFDKFEEAFELMRAGKTGKVVFFPHK EKMQAIMKTKPAYGAELVEVDVPKPGPGEVLIKVLATSICGTDLHIYEWNEWAQSRIKPPQIMGHEVAGEVVEVGPGVEDLQVGDYISVETHIVCGKCYACKHNRYHVCQNTKIFGVDMDGVFAHYAIVPAKNAWKNPKDMPPEYAALQEPLGNAVDTVLAGPIAGRSTLITGAGPLGLLGIAVAKASGAYPVIVSEPSEFRRKLAKKVGADYVVNPFEEDPVKFVMDITDGAGVEVFLEFSGAPKALEQGLKAVTPGGRVSLLGLFPREVTIDFNNLIIFKALEVHGITGRHLWETWYTVSSLIQSGKLNLDPIITHKYKGFDKFEEAFELMRAGKTGKVVFFPHK 3gff-a1-m1-cA_3gff-a1-m1-cB Crystal structure of IroE-like serine hydrolase (NP_718593.1) from SHEWANELLA ONEIDENSIS at 2.12 A resolution Q8ECU8 Q8ECU8 2.12 X-RAY DIFFRACTION 43 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 309 309 EYQSKRLESRLLKETREYVIALPEGYAQSLEAYPVVYLLDGEDQFDHASLLQFLSQGTPQIPKVIIVGIHNTNRRDYTPTHTLVLPSGNKGNPQYQHTGGAGRFLDFIEKELAPSIESQLRTNGINVLVGHSFGGLVAEALRTDRPLFSAYLALDTSLWFDSPHYLTLLEERVVKGDFKQKQLFAIANNPLSPGFGVSSYHKDLNLAFADKLTKLAPKGLGFAKYYPEETHQSVSHIGLYDGIRHLFKDFAIDIYFSKQQVIDQYGVLSERFGHKVTPSQQYLEQLIQYSDRQQLTERKQLEGLRQHFA EYQSKRLESRLLKETREYVIALPEGYAQSLEAYPVVYLLDGEDQFDHASLLQFLSQGTPQIPKVIIVGIHNTNRRDYTPTHTLVLPSGNKGNPQYQHTGGAGRFLDFIEKELAPSIESQLRTNGINVLVGHSFGGLVAEALRTDRPLFSAYLALDTSLWFDSPHYLTLLEERVVKGDFKQKQLFAIANNPLSPGFGVSSYHKDLNLAFADKLTKLAPKGLGFAKYYPEETHQSVSHIGLYDGIRHLFKDFAIDIYFSKQQVIDQYGVLSERFGHKVTPSQQYLEQLIQYSDRQQLTERKQLEGLRQHFA 3gfg-a6-m1-cL_3gfg-a6-m1-cK Structure of putative oxidoreductase yvaA from Bacillus subtilis in triclinic form O32223 O32223 2.59 X-RAY DIFFRACTION 96 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 334 337 3gdo-a1-m1-cA_3gdo-a1-m1-cB 3gfg-a1-m1-cA_3gfg-a1-m1-cB 3gfg-a2-m1-cD_3gfg-a2-m1-cC 3gfg-a3-m1-cE_3gfg-a3-m1-cF 3gfg-a4-m1-cH_3gfg-a4-m1-cG 3gfg-a5-m1-cI_3gfg-a5-m1-cJ TIKVGILGYGLSGSVFHGPLLDVLDEYQISKIMTSRTEEVKRDFPDAEVVHELEEITNDPAIELVIVTTPSGLHYEHTMACIQAGKHVVMEKPMTATAEEGETLKRAADEKGVLLSVYHNRRWDNDFLTIKKLISEGSLEDINTYQVSYNRYRPEATGTLYDLGSHIIDQTLHLFGMPKAVTANVMAQRENAETVDYFHLTLDYGKLQAILYGGSIVPANGPRYQIHGKDSSFIKYGIDGQEDALRAGRKPEDDSWGADVPEFYGKLTTIRGSDKKTETIPSVNGSYLTYYRKIAESIREGAALPVTAEEGINVIRIIEAAMESSKEKRTIMLE VDTIKVGILGYGLSGSVFHGPLLDVLDEYQISKIMTSRTEEVKRDFPDAEVVHELEEITNDPAIELVIVTTPSGLHYEHTMACIQAGKHVVMEKPMTATAEEGETLKRAADEKGVLLSVYHNRRWDNDFLTIKKLISEGSLEDINTYQVSYNRYRPEVATGTLYDLGSHIIDQTLHLFGMPKAVTANVMAQRENAETVDYFHLTLDYGKLQAILYGGSIVPANGPRYQIHGKDSSFIKYGIDGQEDALRAGRKPEDDSWGADVPEFYGKLTTIRGSDKKTETIPSVNGSYLTYYRKIAESIREGAALPVTAEEGINVIRIIEAAMESSKEKRTIMLE 3gfm-a1-m1-cA_3gfm-a1-m2-cA Crystal structure of the ST1710 mutant (K91A) protein Q96ZY1 Q96ZY1 2.1 X-RAY DIFFRACTION 179 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 141 141 2eb7-a1-m1-cA_2eb7-a1-m2-cA 2gxg-a1-m1-cA_2gxg-a1-m2-cA 2yr2-a1-m1-cA_2yr2-a1-m2-cA 2yr2-a4-m1-cB_2yr2-a4-m4-cB 3gez-a1-m1-cA_3gez-a1-m2-cA 3gf2-a1-m1-cA_3gf2-a1-m2-cA 3gfi-a1-m1-cC_3gfi-a1-m1-cA 3gfj-a1-m1-cA_3gfj-a1-m2-cA 3gfl-a1-m1-cA_3gfl-a1-m2-cA ENRIQIMSTIAKIYRAMSRELNRRLGELNLSYLDFLVLRATSDGPKTMAYLANRYFVTQSAITASVDKLEEMGLVVRVRDREDRRAILIEITEKGLETFNKGIEIYKKLANEVTGDLSEDEVILVLDKISKILKRIEEISQ ENRIQIMSTIAKIYRAMSRELNRRLGELNLSYLDFLVLRATSDGPKTMAYLANRYFVTQSAITASVDKLEEMGLVVRVRDREDRRAILIEITEKGLETFNKGIEIYKKLANEVTGDLSEDEVILVLDKISKILKRIEEISQ 3gfr-a1-m1-cA_3gfr-a1-m1-cC Structure of YhdA, D137L variant O07529 O07529 2.403 X-RAY DIFFRACTION 104 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 167 167 1nni-a1-m1-c1_1nni-a1-m2-c1 2gsw-a1-m1-cA_2gsw-a1-m1-cC 2gsw-a2-m1-cB_2gsw-a2-m1-cD 3gfq-a1-m1-cB_3gfq-a1-m1-cA 3gfq-a2-m1-cC_3gfq-a2-m1-cD 3gfr-a2-m1-cB_3gfr-a2-m1-cD 3gfs-a1-m1-cA_3gfs-a1-m1-cC 3gfs-a1-m1-cI_3gfs-a1-m1-cJ 3gfs-a2-m1-cB_3gfs-a2-m1-cD 3gfs-a2-m1-cH_3gfs-a2-m1-cG 3gfs-a3-m1-cF_3gfs-a3-m1-cE 3gfs-a3-m2-cL_3gfs-a3-m2-cK MLVINGTPRKHGRTRIAASYIAALYHTDLIDLSEFVLPVFNGEAEQSELLKVQELKQRVTKADAIVLLSPEYHSGMSGALKNALDFLSSEQFKYKPVALLAVAGGGKGGINALNNMRTVMRGVYANVIPKQLVLLPVHIDVENATVAENIKESIKELVEELSMFAKA MLVINGTPRKHGRTRIAASYIAALYHTDLIDLSEFVLPVFNGEAEQSELLKVQELKQRVTKADAIVLLSPEYHSGMSGALKNALDFLSSEQFKYKPVALLAVAGGGKGGINALNNMRTVMRGVYANVIPKQLVLLPVHIDVENATVAENIKESIKELVEELSMFAKA 3gfs-a2-m1-cD_3gfs-a2-m1-cG Structure of YhdA, K109D/D137K variant O07529 O07529 2.105 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 167 167 3gfs-a1-m1-cA_3gfs-a1-m1-cJ 3gfs-a1-m1-cI_3gfs-a1-m1-cC 3gfs-a2-m1-cH_3gfs-a2-m1-cB 3gfs-a3-m1-cF_3gfs-a3-m2-cK 3gfs-a3-m2-cL_3gfs-a3-m1-cE MLVINGTPRKHGRTRIAASYIAALYHTDLIDLSEFVLPVFNGEAEQSELLKVQELKQRVTKADAIVLLSPEYHSGMSGALKNALDFLSSEQFKYKPVALLAVAGGGDGGINALNNMRTVMRGVYANVIPKQLVLKPVHIDVENATVAENIKESIKELVEELSMFAKA MLVINGTPRKHGRTRIAASYIAALYHTDLIDLSEFVLPVFNGEAEQSELLKVQELKQRVTKADAIVLLSPEYHSGMSGALKNALDFLSSEQFKYKPVALLAVAGGGDGGINALNNMRTVMRGVYANVIPKQLVLKPVHIDVENATVAENIKESIKELVEELSMFAKA 3gfs-a3-m1-cF_3gfs-a3-m2-cL Structure of YhdA, K109D/D137K variant O07529 O07529 2.105 X-RAY DIFFRACTION 24 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 166 166 3gfs-a1-m1-cA_3gfs-a1-m1-cI 3gfs-a1-m1-cJ_3gfs-a1-m1-cC 3gfs-a2-m1-cB_3gfs-a2-m1-cG 3gfs-a2-m1-cH_3gfs-a2-m1-cD 3gfs-a3-m1-cE_3gfs-a3-m2-cK MLVINGTPRKHGRTRIAASYIAALYHTDLIDLSEFVLPVFNGEAEQSELLKVQELKQRVTKADAIVLLSPEYHSGMSGALKNALDFLSSEQFKYKPVALLAVAGGGDGGINALNNMRTVMRGVYANVIPKQLVLKPVHIDVENATVAENIKESIKELVEELSMFAK MLVINGTPRKHGRTRIAASYIAALYHTDLIDLSEFVLPVFNGEAEQSELLKVQELKQRVTKADAIVLLSPEYHSGMSGALKNALDFLSSEQFKYKPVALLAVAGGGDGGINALNNMRTVMRGVYANVIPKQLVLKPVHIDVENATVAENIKESIKELVEELSMFAK 3gfz-a1-m1-cA_3gfz-a1-m1-cB Klebsiella pneumoniae BlrP1 pH 6 manganese/cy-diGMP complex A6T8V8 A6T8V8 2.05 X-RAY DIFFRACTION 185 0.99 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 393 394 3gfx-a1-m1-cA_3gfx-a1-m1-cB 3gfy-a1-m1-cA_3gfy-a1-m1-cB 3gg0-a1-m1-cA_3gg0-a1-m1-cB 3gg1-a1-m1-cA_3gg1-a1-m1-cB MLTTLIYRSQVHPDRPPVDLDALVHRASSKNLPLGITGILLFNGLQFFQVLEGTEEALESLFSEIQSDPRHRDVVELMRDYSAYRRFHGTGMRILDLRLFETDGALEEILRFSTPVNDRMFRLLSAFIADGGRYCLPEPLQPSRWMMMPATAAPQHLPGQPCQFALQAIVEPAKKRVSSFEALIRSPTGGSPVEMFAAIAAEDRYRFDLESKAYAFALAGQLPLGKHQLAINLLPGSLYHHPDAVGWLMDSLLAAGLRPDQVLIEVTETEVITCFDQFRKVLKALRVAGMKLAIDDFGAGYSGLSLLTRFQPDKIKVDAELVRDIHISGTKQAIVASVVRCCEDLGITVVAEGVETLEEWCWLQSVGIRLFQGFLFSRPCLNGIGEICWPVAR MLTTLIYRSQVHPDRPPVDLDALVHRASSKNLPLGITGILLFNGLQFFQVLEGTEEALESLFSEIQSDPRHRDVVELMRDYSAYRRFHGTGMRILDLRLFETDGALEEILRFSTFGVTEPVNDRMFRLLSAFIADGGRYCLPEPLQPSRWMMMAPQHLPGQPCQFALQAIVEPAKKRVSSFEALIRSPTGGSPVEMFAAIAAEDRYRFDLESKAYAFALAGQLPLGKHQLAINLLPGSLYHHPDAVGWLMDSLLAAGLRPDQVLIEVTETEVITCFDQFRKVLKALRVAGMKLAIDDFGAGYSGLSLLTRFQPDKIKVDAELVRDIHISGTKQAIVASVVRCCEDLGITVVAEGVETLEEWCWLQSVGIRLFQGFLFSRPCLNGIGEICWPVAR 3gg2-a1-m1-cC_3gg2-a1-m1-cD Crystal structure of UDP-glucose 6-dehydrogenase from Porphyromonas gingivalis bound to product UDP-glucuronate Q7MVC7 Q7MVC7 1.7 X-RAY DIFFRACTION 200 0.995 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 420 427 3gg2-a1-m1-cB_3gg2-a1-m1-cA LDIAVVGIGYVGLVSATCFAELGANVRCIDTDRNKIEQLNSIYEPGLEKMIARNVKAGRLRFGTEIEQAVPEADIIFIAVGTPADGSADMSYVLDAARSIGRAMSRYILIVTKSTVPVGSYRLIRKAIQEELDKREVLIDFDIASNPEFLKEGNAIDDFMKPDRVVVGVDSDRARELITSLYKPMRVLFMDIASAEMTKYAANAMLATRISFMNDVANLCERVGADVSMVRLGIGSDSRIGSKFLYPGCGYGGSCFPKDVKALIRTAEDNGYRMEVLEAVERVNEKQKSILFDKFSTYYKGNVQGRCVAIWGLSFKPGTDDMREAPSLVLIEKLLEVGCRVRVYDPVAMKEAQKRLGDKVEYTTDMYDAVRGAEALFHVTEWKEFRMPDWSALSQAMAASLVIDGRNVYELPDFTLLNIG LDIAVVGIGYVGLVSATCFAELGANVRCIDTDRNKIEQLNSGTIPIYEPGLEKMIARNVKAGRLRFGTEIEQAVPEADIIFIAVGTPGSADMSYVLDAARSIGRAMSRYILIVTKSTVPVGSYRLIRKAIQEELDKREVLIDFDIASNPEFLKEGNAIDDFMKPDRVVVGVDSDRARELITSLYKPMLLNNFRVLFMDIASAEMTKYAANAMLATRISFMNDVANLCERVGADVSMVRLGIGSDSRIGSKFLYPGCGYGGSCFPKDVKALIRTAEDNGYRMEVLEAVERVNEKQKSILFDKFSTYYKGNVQGRCVAIWGLSFKPGTDDMREAPSLVLIEKLLEVGCRVRVYDPVAMKEAQKRLGDKVEYTTDMYDAVRGAEALFHVTEWKEFRMPDWSALSQAMAASLVIDGRNVYELPDFTLLNIG 3gg2-a1-m1-cD_3gg2-a1-m1-cA Crystal structure of UDP-glucose 6-dehydrogenase from Porphyromonas gingivalis bound to product UDP-glucuronate Q7MVC7 Q7MVC7 1.7 X-RAY DIFFRACTION 72 0.998 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 427 431 3gg2-a1-m1-cC_3gg2-a1-m1-cB LDIAVVGIGYVGLVSATCFAELGANVRCIDTDRNKIEQLNSGTIPIYEPGLEKMIARNVKAGRLRFGTEIEQAVPEADIIFIAVGTPGSADMSYVLDAARSIGRAMSRYILIVTKSTVPVGSYRLIRKAIQEELDKREVLIDFDIASNPEFLKEGNAIDDFMKPDRVVVGVDSDRARELITSLYKPMLLNNFRVLFMDIASAEMTKYAANAMLATRISFMNDVANLCERVGADVSMVRLGIGSDSRIGSKFLYPGCGYGGSCFPKDVKALIRTAEDNGYRMEVLEAVERVNEKQKSILFDKFSTYYKGNVQGRCVAIWGLSFKPGTDDMREAPSLVLIEKLLEVGCRVRVYDPVAMKEAQKRLGDKVEYTTDMYDAVRGAEALFHVTEWKEFRMPDWSALSQAMAASLVIDGRNVYELPDFTLLNIG SLDIAVVGIGYVGLVSATCFAELGANVRCIDTDRNKIEQLNSGTIPIYEPGLEKMIARNVKAGRLRFGTEIEQAVPEADIIFIAVGTPAGEDGSADMSYVLDAARSIGRAMSRYILIVTKSTVPVGSYRLIRKAIQEELDKREVLIDFDIASNPEFLKEGNAIDDFMKPDRVVVGVDSDRARELITSLYKPMLLNNFRVLFMDIASAEMTKYAANAMLATRISFMNDVANLCERVGADVSMVRLGIGSDSRIGSKFLYPGCGYGGSCFPKDVKALIRTAEDNGYRMEVLEAVERVNEKQKSILFDKFSTYYKGNVQGRCVAIWGLSFKPGTDDMREAPSLVLIEKLLEVGCRVRVYDPVAMKEAQKRLGDKVEYTTDMYDAVRGAEALFHVTEWKEFRMPDWSALSQAMAASLVIDGRNVYELPFTLLNIG 3gg9-a2-m1-cC_3gg9-a2-m1-cB CRYSTAL STRUCTURE OF putative D-3-phosphoglycerate dehydrogenase oxidoreductase from Ralstonia solanacearum Q8Y3G4 Q8Y3G4 1.9 X-RAY DIFFRACTION 188 1.0 305 (Ralstonia solanacearum) 305 (Ralstonia solanacearum) 340 342 3gg9-a1-m1-cA_3gg9-a1-m1-cD SLKIAVLDDYQDAVRKLDCFSLLQDHEVKVFNNTVKGVGQLAARVADVEALVLIRERTRVTRQLLDRLPKLKIISQTGRVSRDGHIDLEACTDKGVVVLEGKGSPVAPAELTWALVMAAQRRIPQYVASLKHGAWQQSGLKSTTMPPNFGIGRVLKGQTLGIFGYGKIGQLVAGYGRAFGMNVLVWGRENSKERARADGFAVAESKDALFEQSDVLSVHLRLNDETRSIITVADLTRMKPTALFVNTSRAELVEENGMVTALNRGRPGMAAIDVFETEPILQGHTLLRMENCICTPHIGYVERESYEMYFGIAFQNILDILQGNVDSVANPTALAPALIR SLKIAVLDDYQDAVRKLDCFSLLQDHEVKVFNNTVKGVGQLAARVADVEALVLIRERTRVTRQLLDRLPKLKIISQTGRVSRDAGGHIDLEACTDKGVVVLEGKGSPVAPAELTWALVMAAQRRIPQYVASLKHGAWQQSGLKSTTMPPNFGIGRVLKGQTLGIFGYGKIGQLVAGYGRAFGMNVLVWGRENSKERARADGFAVAESKDALFEQSDVLSVHLRLNDETRSIITVADLTRMKPTALFVNTSRAELVEENGMVTALNRGRPGMAAIDVFETEPILQGHTLLRMENCICTPHIGYVERESYEMYFGIAFQNILDILQGNVDSVANPTALAPALIR 3gge-a2-m1-cB_3gge-a2-m2-cC Crystal structure of the PDZ domain of PDZ domain-containing protein GIPC2 Q8TF65 Q8TF65 2.6 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 95 3gge-a2-m2-cB_3gge-a2-m1-cC GIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA SMKGIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA 3gge-a2-m2-cA_3gge-a2-m2-cC Crystal structure of the PDZ domain of PDZ domain-containing protein GIPC2 Q8TF65 Q8TF65 2.6 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 3gge-a1-m1-cA_3gge-a1-m1-cC 3gge-a2-m1-cA_3gge-a2-m1-cC SMKGIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA SMKGIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA 3gge-a2-m2-cB_3gge-a2-m2-cA Crystal structure of the PDZ domain of PDZ domain-containing protein GIPC2 Q8TF65 Q8TF65 2.6 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 95 3gge-a1-m1-cB_3gge-a1-m1-cA 3gge-a2-m1-cB_3gge-a2-m1-cA GIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA SMKGIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA 3gge-a2-m2-cB_3gge-a2-m2-cC Crystal structure of the PDZ domain of PDZ domain-containing protein GIPC2 Q8TF65 Q8TF65 2.6 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 95 3gge-a1-m1-cB_3gge-a1-m1-cC 3gge-a2-m1-cB_3gge-a2-m1-cC GIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA SMKGIEKEVNVYKSEDSLGLTITDNGVGYAFIKRIKDGGVIDSVKTICVGDHIESINGENIVGWRHYDVAKKLKELKKEELFTMKLIEPKKSSEA 3ggf-a3-m1-cB_3ggf-a3-m1-cA Crystal structure of human Serine/threonine-protein kinase MST4 in complex with an quinazolin Q9P289 Q9P289 2.35 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 275 ADPEELFTKLERIGKGSFGEVFKGIDNRTQQVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSSYVTKYYGSYLKGSKLWIIMEYLGGGSALDLLRAGPFDEFQIATMLKEILKGLDYLHSEKKIHRDIKAANVLLSEQGDVKLADFGVANTFVGTPFWMAPEVIQQSAYDSKADIWSLGITAIELAKGEPPNSDMHPMRVLFLIPKNNPPTLVGDFTKSFKEFIDACLNKDPSFRPTAKELLKHKFIVKNSKKTSYLTELIDRFKRWKAE IADPEELFTKLERIGKGSFGEVFKGIDNRTQQVVAIKIIDLEEAEDEIEDIQQEITVLSQCDSSYVTKYYGSYLKGSKLWIIMEYLGGGSALDLLRAGPFDEFQIATMLKEILKGLDYLHSEKKIHRDIKAANVLLSEQGDVKLADFGVARNTFVGTPFWMAPEVIQQSAYDSKADIWSLGITAIELAKGEPPNSDMHPMRVLFLIPKNNPPTLVGDFTKSFKEFIDACLNKDPSFRPTAKELLKHKFIVKNSKKTSYLTELIDRFKRWKAEGHS 3ggm-a1-m1-cA_3ggm-a1-m1-cD Crystal Structure of BT9727_2919 from Bacillus thuringiensis subsp. Northeast Structural Genomics Target BuR228B Q6HGT3 Q6HGT3 2 X-RAY DIFFRACTION 49 1.0 180856 ([Bacillus thuringiensis] serovar konkukian) 180856 ([Bacillus thuringiensis] serovar konkukian) 75 75 3ggm-a1-m1-cB_3ggm-a1-m1-cC MNVPDMILYNGKITTLDPSQPEVSAIAITDGLITAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGLE MNVPDMILYNGKITTLDPSQPEVSAIAITDGLITAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGLE 3ggm-a1-m1-cB_3ggm-a1-m1-cD Crystal Structure of BT9727_2919 from Bacillus thuringiensis subsp. Northeast Structural Genomics Target BuR228B Q6HGT3 Q6HGT3 2 X-RAY DIFFRACTION 79 1.0 180856 ([Bacillus thuringiensis] serovar konkukian) 180856 ([Bacillus thuringiensis] serovar konkukian) 74 75 3ggm-a1-m1-cC_3ggm-a1-m1-cA MNVPDMILYNGKITTLDPSQPEVSAIAITDGLITAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGL MNVPDMILYNGKITTLDPSQPEVSAIAITDGLITAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGLE 3ggm-a1-m1-cC_3ggm-a1-m1-cD Crystal Structure of BT9727_2919 from Bacillus thuringiensis subsp. Northeast Structural Genomics Target BuR228B Q6HGT3 Q6HGT3 2 X-RAY DIFFRACTION 11 1.0 180856 ([Bacillus thuringiensis] serovar konkukian) 180856 ([Bacillus thuringiensis] serovar konkukian) 74 75 3ggm-a1-m1-cB_3ggm-a1-m1-cA MNVPDMILYNGKITTLDPSQPEVSAIAITDGLITAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGL MNVPDMILYNGKITTLDPSQPEVSAIAITDGLITAVGGDELLNSATEKTKKIDLKRKRAIPGLNDSHIHVIRGLE 3ggn-a1-m1-cA_3ggn-a1-m1-cB Crystal structure of DR_A0006 from Deinococcus radiodurans. Northeast Structural Genomics Consortium Target DrR147D Q9RZE3 Q9RZE3 2 X-RAY DIFFRACTION 18 0.992 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 129 131 TVVRDAVTIGKPAEQLYAVWRDLPGLPLLMTHLRSVEVLDDKRSRWTVEAPAPLGTVSWEAELTADEPGKRIAWRSLPGARIENSGEVLFRPAPGARGTEVVVRLTYREPSQQLRDDLMRFKREQELGL ETVVRDAVTIGKPAEQLYAVWRDLPGLPLLMTHLRSVEVLDDKRSRWTVEAPAPLGTVSWEAELTADEPGKRIAWRSLPGARIENSGEVLFRPAPGARGTEVVVRLTYRPPPSQQLRDDLMRFKREQELGL 3ggp-a2-m1-cB_3ggp-a2-m1-cD Crystal structure of prephenate dehydrogenase from A. aeolicus in complex with hydroxyphenyl propionate and NAD+ O67636 O67636 2.25 X-RAY DIFFRACTION 248 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 284 286 2g5c-a1-m1-cA_2g5c-a1-m1-cC 2g5c-a2-m1-cD_2g5c-a2-m1-cB 3ggg-a1-m1-cB_3ggg-a1-m1-cD 3ggg-a2-m1-cC_3ggg-a2-m1-cA 3ggo-a1-m1-cC_3ggo-a1-m1-cA 3ggo-a2-m1-cB_3ggo-a2-m1-cD 3ggp-a1-m1-cA_3ggp-a1-m1-cC KSLSMQNVLIVGVGFMGGSFAKSLRRSGFKGKIYGYDINPESISKAVDLGIIDEGTTSIAKVEDFSPDFVMLSSPVRTFREIAKKLSYILSEDATVTDQGSVKGKLVYDLENILGKRFVGGHPIAGTEKSGVEYSLDNLYEGKKVILTPTKKTDKKRLKLVKRVWEDVGGVVEYMSPELHDYVFGVVSHLPHAVAFALVDTLIHMSTPEVDLFKYPGGGFKDFTRIAKSDPIMWRDIFLENKENVMKAIEGFEKSLNHLKELIVREAEEELVEYLKEVKIKRME KSLSMQNVLIVGVGFMGGSFAKSLRRSGFKGKIYGYDINPESISKAVDLGIIDEGTTSIAKVEDFSPDFVMLSSPVRTFREIAKKLSYILSEDATVTDQGSVKGKLVYDLENILGKRFVGGHPIAGTEKSGVEYSLDNLYEGKKVILTPTKKTDKKRLKLVKRVWEDVGGVVEYMSPELHDYVFGVVSHLPHAVAFALVDTLIHMSTPEVDLFKYPGGGFKDFTRIAKSDPIMWRDIFLENKENVMKAIEGFEKSLNHLKELIVREAEEELVEYLKEVKIKRMEID 3ggu-a1-m1-cA_3ggu-a1-m1-cB HIV PR drug resistant patient's variant in complex with darunavir P03367 P03367 1.8 X-RAY DIFFRACTION 146 1.0 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 99 99 PQITLWQRPIVTVKIEGQLKEALLDTGADDTVFEELTLSGRWKPRLIGGIGGFVRVRQYDQVPIEICGHKVIDTVLVGPTPTNVIGRNVMTQLGCTLNF PQITLWQRPIVTVKIEGQLKEALLDTGADDTVFEELTLSGRWKPRLIGGIGGFVRVRQYDQVPIEICGHKVIDTVLVGPTPTNVIGRNVMTQLGCTLNF 3ghd-a1-m1-cA_3ghd-a1-m2-cB Crystal structure of a cystathionine beta-synthase domain protein fused to a Zn-ribbon-like domain Q8TZN4 Q8TZN4 1.81 X-RAY DIFFRACTION 10 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 68 68 3ghd-a1-m1-cB_3ghd-a1-m2-cA KAIVVQPKDTVDRVAKILSRNKAGSAVVEGDEILGVVTERDILDKVVAKGKNPKEVKVEEITKNPVKI KAIVVQPKDTVDRVAKILSRNKAGSAVVEGDEILGVVTERDILDKVVAKGKNPKEVKVEEITKNPVKI 3ghd-a2-m1-cA_3ghd-a2-m1-cB Crystal structure of a cystathionine beta-synthase domain protein fused to a Zn-ribbon-like domain Q8TZN4 Q8TZN4 1.81 X-RAY DIFFRACTION 54 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 68 68 3ghd-a1-m1-cA_3ghd-a1-m1-cB 3ghd-a1-m2-cA_3ghd-a1-m2-cB KAIVVQPKDTVDRVAKILSRNKAGSAVVEGDEILGVVTERDILDKVVAKGKNPKEVKVEEITKNPVKI KAIVVQPKDTVDRVAKILSRNKAGSAVVEGDEILGVVTERDILDKVVAKGKNPKEVKVEEITKNPVKI 3ghd-a3-m1-cB_3ghd-a3-m2-cB Crystal structure of a cystathionine beta-synthase domain protein fused to a Zn-ribbon-like domain Q8TZN4 Q8TZN4 1.81 X-RAY DIFFRACTION 86 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 68 68 3ghd-a1-m1-cB_3ghd-a1-m2-cB KAIVVQPKDTVDRVAKILSRNKAGSAVVEGDEILGVVTERDILDKVVAKGKNPKEVKVEEITKNPVKI KAIVVQPKDTVDRVAKILSRNKAGSAVVEGDEILGVVTERDILDKVVAKGKNPKEVKVEEITKNPVKI 3ghf-a1-m1-cA_3ghf-a1-m2-cA Crystal structure of the septum site-determining protein minC from Salmonella typhimurium P65359 P65359 2.2 X-RAY DIFFRACTION 135 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 100 100 PIELKGSSFTLSVVHLHEAEPEVIRQALEDKIAQAPAFLKHAPVVINVSGLESPVNWPELHKIVTSTGLRIIGVSGCKDASLKVEIDRMGLPLLTEGKEK PIELKGSSFTLSVVHLHEAEPEVIRQALEDKIAQAPAFLKHAPVVINVSGLESPVNWPELHKIVTSTGLRIIGVSGCKDASLKVEIDRMGLPLLTEGKEK 3ghg-a1-m1-cA_3ghg-a1-m1-cD Crystal Structure of Human Fibrinogen P02671 P02671 2.9 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 2a45-a1-m1-cG_2a45-a1-m1-cJ ACKDSDWPFCSDEDWNYKCPSGCRMKGLIDEVNQDFTNRINKLKNSLFEYQKNNKDSHSLTTNIMEILRGDFSSANNRDNTYNRVSEDLRSRIEVLKRKVIEKVQHIQLLQKNVRAQLVDMKRLEVDIDIKIRSCRGSCSRALAREVDLKDYEDQQKQLEQVIAKDLLPSRDRQ ACKDSDWPFCSDEDWNYKCPSGCRMKGLIDEVNQDFTNRINKLKNSLFEYQKNNKDSHSLTTNIMEILRGDFSSANNRDNTYNRVSEDLRSRIEVLKRKVIEKVQHIQLLQKNVRAQLVDMKRLEVDIDIKIRSCRGSCSRALAREVDLKDYEDQQKQLEQVIAKDLLPSRDRQ 3ghg-a2-m1-cL_3ghg-a2-m1-cI Crystal Structure of Human Fibrinogen P02679 P02679 2.9 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 391 394 3ghg-a1-m1-cC_3ghg-a1-m1-cF RDNCCILDERFGSYCPTTCGIADFLSTYQTKVDKDLQSLEDILHQVENKTSEVKQLIKAIQLTYNPDESSKPNMIDAATLKSRKMLEEIMKYEASILTHDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLTIG VATRDNCCILDERFGSYCPTTCGIADFLSTYQTKVDKDLQSLEDILHQVENKTSEVKQLIKAIQLTYNPDESSKPNMIDAATLKSRKMLEEIMKYEASILTHDSSIRYLQEIYNSNNQKIVNLKEKVAQLEAQCQEPCKDTVQIHDITGKDCQDIANKGAKQSGLYFIKPLKANQQFLVYCEIDGSGNGWTVFQKRLDGSVDFKKNWIQYKEGFGHLSPTGTTEFWLGNEKIHLISTQSAIPYALRVELEDWNGRTSTADYAMFKVGPEADKYRLTYAYFAGGDAGDAFDGFDFGDDPSDKFFTSHNGMQFSTWDNDNDKFEGNCAEQDGSGWWMNKCHAGHLNGVYYQGGTYSKASTPNGYDNGIIWATWKTRWYSMKKTTMKIIPFNRLTIG 3ghj-a1-m1-cA_3ghj-a1-m2-cA Crystal structure from the mobile metagenome of Halifax Harbour Sewage Outfall: Integron Cassette Protein HFX_CASS4 B0BGV9 B0BGV9 1.471 X-RAY DIFFRACTION 113 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 114 114 IKGLFEVAVKVKNLEKSSQFYTEILGFEAGLLDSARRWNFLWVSGRAGVVLQEEKENWQQQHFSFRVEKSEIEPLKKALESKGVSVHGPVNQEWQAVSLYFADPNGHALEFTAL IKGLFEVAVKVKNLEKSSQFYTEILGFEAGLLDSARRWNFLWVSGRAGVVLQEEKENWQQQHFSFRVEKSEIEPLKKALESKGVSVHGPVNQEWQAVSLYFADPNGHALEFTAL 3ghy-a3-m1-cA_3ghy-a3-m1-cB Crystal structure of a putative ketopantoate reductase from Ralstonia solanacearum MolK2 F6G5W7 F6G5W7 2 X-RAY DIFFRACTION 76 0.988 564065 (Ralstonia solanacearum MolK2) 564065 (Ralstonia solanacearum MolK2) 321 321 SLTRICIVGAGAVGGYLGARLALAGEAINVLARGATLQALQTAGLRLTEDGATHTLPVRATHDAAALGEQDVVIVAVKAPALESVAAGIAPLIGPGTCVVVAMNGVPWWFFDRPGPLQGQRLQAVDPHGRIAQAIPTRHVLGCVVHLTCATVSPGHIRHGNGRRLILGEPAGGASPRLASIAALFGRAGLQAECSEAIQRDIWFKLWGNMTMNPVSVLTGATCDRILDDPLVSAFCLAVMAEAKAIGARIGCPIEQSGEARSAVTRQLGAFKTSMLQRGPLEIDALVASVREIGLHVGVPTPQIDTLLGLVRLHAQTRGLY SLTRICIVGAGAVGGYLGARLALAGEAINVLARGATLQALQTAGLRLTEDGATHTLPVRATHDAAALGEQDVVIVAVKAPALESVAAGIAPLIGPGTCVVVAMNGVPWWFFDRPGPLQGQRLQAVDPHGRIAQAIPTRHVLGCVVHLTCATVSPGHIRHGNGRRLILGEPAGGASPRLASIAALFGRAGLQAECSEAIQRDIWFKLWGNMTMNPVSVLTGATCDRILDDPLVSAFCLAVMAEAKAIGARIGCPIEQSGEARSAVTRQLGTSMLQDAEAGPLEIDALVASVREIGLHVGVPTPQIDTLLGLVRLHAQTRGLY 3gi7-a1-m1-cB_3gi7-a1-m2-cB Crystal structure of a duf1311 family protein (pp0307) from pseudomonas putida kt2440 at 1.85 A resolution Q88R27 Q88R27 1.85 X-RAY DIFFRACTION 25 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 96 96 3gi7-a1-m1-cA_3gi7-a1-m2-cA DQQTFACAAFNKQVAERELQSAYDELIERRDQFGDEAGLSRIEAAEKVWSQLRDADCKVETHAEQPGSNAYQIAWNSCIAQRSDERAEYLRSLGSQ DQQTFACAAFNKQVAERELQSAYDELIERRDQFGDEAGLSRIEAAEKVWSQLRDADCKVETHAEQPGSNAYQIAWNSCIAQRSDERAEYLRSLGSQ 3gi7-a1-m2-cB_3gi7-a1-m1-cA Crystal structure of a duf1311 family protein (pp0307) from pseudomonas putida kt2440 at 1.85 A resolution Q88R27 Q88R27 1.85 X-RAY DIFFRACTION 31 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 96 101 3gi7-a1-m1-cB_3gi7-a1-m2-cA DQQTFACAAFNKQVAERELQSAYDELIERRDQFGDEAGLSRIEAAEKVWSQLRDADCKVETHAEQPGSNAYQIAWNSCIAQRSDERAEYLRSLGSQ NVETDQQTFACAAFNKQVAERELQSAYDELIERRDQFGDEAGLSRIEAAEKVWSQLRDADCKVETHAEQPGSNAYQIAWNSCIAQRSDERAEYLRSLGSQN 3gi7-a1-m2-cB_3gi7-a1-m2-cA Crystal structure of a duf1311 family protein (pp0307) from pseudomonas putida kt2440 at 1.85 A resolution Q88R27 Q88R27 1.85 X-RAY DIFFRACTION 55 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 96 101 3gi7-a1-m1-cB_3gi7-a1-m1-cA DQQTFACAAFNKQVAERELQSAYDELIERRDQFGDEAGLSRIEAAEKVWSQLRDADCKVETHAEQPGSNAYQIAWNSCIAQRSDERAEYLRSLGSQ NVETDQQTFACAAFNKQVAERELQSAYDELIERRDQFGDEAGLSRIEAAEKVWSQLRDADCKVETHAEQPGSNAYQIAWNSCIAQRSDERAEYLRSLGSQN 3git-a7-m1-cB_3git-a7-m1-cF Crystal structure of a truncated acetyl-CoA synthase P27988 P27988 3 X-RAY DIFFRACTION 63 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 421 421 3git-a7-m1-cC_3git-a7-m1-cA 3git-a7-m1-cE_3git-a7-m1-cD IKLDLPINFGPAFEGESIRKGDMYVEMGGNRTPAFELVRTVSESEITDGKIEVIGPDIDQIPEGSKLPLGILVDIYGRKMQADFEGVLERRIHDFINYGEGLWHTGQRNINWLRVSKDAVAKGFRFKNYGEILVAKMKEEFPAIVDRVQVTIFTDEAKVKEYMEVAREKYKERDDRMRGLTDETVDTFYSCVLCQSFAPNHVCIVTPERVGLCGAVSWLDAKASYEINHAGPNQPIPKEGEIDPIKGIWKSVNDYLYTASNRNLEQVCLYTLMENPMTSCGCFEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEVVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPIMRSHTSRG IKLDLPINFGPAFEGESIRKGDMYVEMGGNRTPAFELVRTVSESEITDGKIEVIGPDIDQIPEGSKLPLGILVDIYGRKMQADFEGVLERRIHDFINYGEGLWHTGQRNINWLRVSKDAVAKGFRFKNYGEILVAKMKEEFPAIVDRVQVTIFTDEAKVKEYMEVAREKYKERDDRMRGLTDETVDTFYSCVLCQSFAPNHVCIVTPERVGLCGAVSWLDAKASYEINHAGPNQPIPKEGEIDPIKGIWKSVNDYLYTASNRNLEQVCLYTLMENPMTSCGCFEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEVVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPIMRSHTSRG 3git-a7-m1-cC_3git-a7-m1-cF Crystal structure of a truncated acetyl-CoA synthase P27988 P27988 3 X-RAY DIFFRACTION 52 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 421 421 3git-a7-m1-cA_3git-a7-m1-cD 3git-a7-m1-cB_3git-a7-m1-cE IKLDLPINFGPAFEGESIRKGDMYVEMGGNRTPAFELVRTVSESEITDGKIEVIGPDIDQIPEGSKLPLGILVDIYGRKMQADFEGVLERRIHDFINYGEGLWHTGQRNINWLRVSKDAVAKGFRFKNYGEILVAKMKEEFPAIVDRVQVTIFTDEAKVKEYMEVAREKYKERDDRMRGLTDETVDTFYSCVLCQSFAPNHVCIVTPERVGLCGAVSWLDAKASYEINHAGPNQPIPKEGEIDPIKGIWKSVNDYLYTASNRNLEQVCLYTLMENPMTSCGCFEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEVVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPIMRSHTSRG IKLDLPINFGPAFEGESIRKGDMYVEMGGNRTPAFELVRTVSESEITDGKIEVIGPDIDQIPEGSKLPLGILVDIYGRKMQADFEGVLERRIHDFINYGEGLWHTGQRNINWLRVSKDAVAKGFRFKNYGEILVAKMKEEFPAIVDRVQVTIFTDEAKVKEYMEVAREKYKERDDRMRGLTDETVDTFYSCVLCQSFAPNHVCIVTPERVGLCGAVSWLDAKASYEINHAGPNQPIPKEGEIDPIKGIWKSVNDYLYTASNRNLEQVCLYTLMENPMTSCGCFEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEVVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPIMRSHTSRG 3git-a7-m1-cE_3git-a7-m1-cF Crystal structure of a truncated acetyl-CoA synthase P27988 P27988 3 X-RAY DIFFRACTION 23 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 421 421 3git-a7-m1-cB_3git-a7-m1-cC 3git-a7-m1-cB_3git-a7-m1-cD 3git-a7-m1-cC_3git-a7-m1-cD 3git-a7-m1-cE_3git-a7-m1-cA 3git-a7-m1-cF_3git-a7-m1-cA IKLDLPINFGPAFEGESIRKGDMYVEMGGNRTPAFELVRTVSESEITDGKIEVIGPDIDQIPEGSKLPLGILVDIYGRKMQADFEGVLERRIHDFINYGEGLWHTGQRNINWLRVSKDAVAKGFRFKNYGEILVAKMKEEFPAIVDRVQVTIFTDEAKVKEYMEVAREKYKERDDRMRGLTDETVDTFYSCVLCQSFAPNHVCIVTPERVGLCGAVSWLDAKASYEINHAGPNQPIPKEGEIDPIKGIWKSVNDYLYTASNRNLEQVCLYTLMENPMTSCGCFEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEVVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPIMRSHTSRG IKLDLPINFGPAFEGESIRKGDMYVEMGGNRTPAFELVRTVSESEITDGKIEVIGPDIDQIPEGSKLPLGILVDIYGRKMQADFEGVLERRIHDFINYGEGLWHTGQRNINWLRVSKDAVAKGFRFKNYGEILVAKMKEEFPAIVDRVQVTIFTDEAKVKEYMEVAREKYKERDDRMRGLTDETVDTFYSCVLCQSFAPNHVCIVTPERVGLCGAVSWLDAKASYEINHAGPNQPIPKEGEIDPIKGIWKSVNDYLYTASNRNLEQVCLYTLMENPMTSCGCFEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEVVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPIMRSHTSRG 3giu-a1-m1-cA_3giu-a1-m1-cB 1.25 Angstrom Crystal Structure of Pyrrolidone-Carboxylate Peptidase (pcp) from Staphylococcus aureus Q5HCK7 Q5HCK7 1.25 X-RAY DIFFRACTION 122 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 209 210 HILVTGFAPFDNQNINPSWEAVTQLEDIIGTHTIDKLKLPTSFKKVDNIINKTLASNHYDVVLAIGQAGGRNAITPERVAINIDDARIPDNDDFQPIDQAIHLDGAPAYFSNLPVKATQSIINQGLPGALSNSAGTFVCNHTLYHLGYLQDKHYPHLRFGFIHVPYIPEQVIGKPDTPSPLEKIVAGLTAAIEAISNDEDLHLALGTTE AHILVTGFAPFDNQNINPSWEAVTQLEDIIGTHTIDKLKLPTSFKKVDNIINKTLASNHYDVVLAIGQAGGRNAITPERVAINIDDARIPDNDDFQPIDQAIHLDGAPAYFSNLPVKATQSIINQGLPGALSNSAGTFVCNHTLYHLGYLQDKHYPHLRFGFIHVPYIPEQVIGKPDTPSPLEKIVAGLTAAIEAISNDEDLHLALGTTE 3gix-a1-m1-cA_3gix-a1-m1-cB Crystal structure of human splicing factor dim2 Q9NX01 Q9NX01 1.33 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 SFLLPKLTSKKEVDQAIKSTAEKVLVLRFGRDEDPVCLQLDDILSKTSSDLSKMAAIYLVDVDQTAVYTQYFDISYIPSTVFFFNGQHMKVDYGSPDHTKFVGSFKTKQDFIDLIEVIYRGAMRGKLIVQSPIDPKNIPKY SFLLPKLTSKKEVDQAIKSTAEKVLVLRFGRDEDPVCLQLDDILSKTSSDLSKMAAIYLVDVDQTAVYTQYFDISYIPSTVFFFNGQHMKVDYGSPDHTKFVGSFKTKQDFIDLIEVIYRGAMRGKLIVQSPIDPKNIPKY 3gjb-a3-m1-cA_3gjb-a3-m2-cB CytC3 with Fe(II) and alpha-ketoglutarate D0VX22 D0VX22 2.2 X-RAY DIFFRACTION 57 1.0 1931 (Streptomyces sp.) 1931 (Streptomyces sp.) 260 271 3gja-a3-m1-cA_3gja-a3-m2-cB 3gja-a3-m2-cA_3gja-a3-m1-cB 3gjb-a3-m2-cA_3gjb-a3-m1-cB ANFTFSPEEVARFERDGYIGPVKIFEPEEMTRRWNIIRRQLLDRSLAIYPDSNGKANISNYDRHLDIDLLAEHIMRPEIVDRVGSLIGRNLLCWRSEFFPKYQGDEGTDWHQAATFAHATGKPQIIWPSDRPAFIGTITVWTAFTHSTEQNGCLQLMPGTNYDAYPMVLKPGEAVIFWSNTMHASLPHTGSKTDYRMGFAARYVPTQVQVYPGTENLTEYGDGINLEKYGAVLTSGVDEYGHNRIARTSQRGYEFVPRQI ANFTFSPEEVARFERDGYIGPVKIFEPEEMTRRWNIIRRQLLDRSLAIYPDSNGKANISNYDRHLDIDLLAEHIMRPEIVDRVGSLIGRNLLCWRSEFFPKYQGDEGTDWHQAATFAHATGKPQIIWPSDRPAFIGTITVWTAFTHSTEQNGCLQLMPGTHTSMNYDEDESQAYPMVLKPGEAVIFWSNTMHASLPHTGSKTDYRMGFAARYVPTQVQVYPGTENLTEYGDGINLEKYGAVLTSGVDEYGHNRIARTSQRGYEFVPRQIPS 3gjb-a3-m2-cA_3gjb-a3-m2-cB CytC3 with Fe(II) and alpha-ketoglutarate D0VX22 D0VX22 2.2 X-RAY DIFFRACTION 101 1.0 1931 (Streptomyces sp.) 1931 (Streptomyces sp.) 260 271 3gja-a3-m1-cA_3gja-a3-m1-cB 3gja-a3-m2-cA_3gja-a3-m2-cB 3gjb-a3-m1-cA_3gjb-a3-m1-cB ANFTFSPEEVARFERDGYIGPVKIFEPEEMTRRWNIIRRQLLDRSLAIYPDSNGKANISNYDRHLDIDLLAEHIMRPEIVDRVGSLIGRNLLCWRSEFFPKYQGDEGTDWHQAATFAHATGKPQIIWPSDRPAFIGTITVWTAFTHSTEQNGCLQLMPGTNYDAYPMVLKPGEAVIFWSNTMHASLPHTGSKTDYRMGFAARYVPTQVQVYPGTENLTEYGDGINLEKYGAVLTSGVDEYGHNRIARTSQRGYEFVPRQI ANFTFSPEEVARFERDGYIGPVKIFEPEEMTRRWNIIRRQLLDRSLAIYPDSNGKANISNYDRHLDIDLLAEHIMRPEIVDRVGSLIGRNLLCWRSEFFPKYQGDEGTDWHQAATFAHATGKPQIIWPSDRPAFIGTITVWTAFTHSTEQNGCLQLMPGTHTSMNYDEDESQAYPMVLKPGEAVIFWSNTMHASLPHTGSKTDYRMGFAARYVPTQVQVYPGTENLTEYGDGINLEKYGAVLTSGVDEYGHNRIARTSQRGYEFVPRQIPS 3gje-a1-m1-cA_3gje-a1-m1-cL Rational development of high-affinity T-cell receptor-like antibodies 2.3 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 QSELTQPRSVSGSPGQSVTISCTGTSRDVGGYNYVSWYQQHPGKAPKLIIHDVIERSSGVPDRFSGSKSGNTASLTISGLQAEDEADYYCWSFAGSYYVFGTGTDVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGNTVEKTVAPT QSELTQPRSVSGSPGQSVTISCTGTSRDVGGYNYVSWYQQHPGKAPKLIIHDVIERSSGVPDRFSGSKSGNTASLTISGLQAEDEADYYCWSFAGSYYVFGTGTDVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGNTVEKTVAPT 3gje-a1-m1-cB_3gje-a1-m1-cH Rational development of high-affinity T-cell receptor-like antibodies 2.3 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 5vzx-a1-m1-cH_5vzx-a1-m1-cE EVQLLESGGGLVQPGGSLRLSCAASGFTFSTYQMSWVRQAPGKGLEWVSGIVSSGGSTAYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAGELLPYYGMDVWGQGTTVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK EVQLLESGGGLVQPGGSLRLSCAASGFTFSTYQMSWVRQAPGKGLEWVSGIVSSGGSTAYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAGELLPYYGMDVWGQGTTVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK 3gjp-a1-m1-cC_3gjp-a1-m1-cA Crystal structure of mutant coiled coil GCN4 leucine zipper P03069 P03069 2 X-RAY DIFFRACTION 32 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 34 35 3gjp-a1-m1-cA_3gjp-a1-m1-cB 3gjp-a1-m1-cC_3gjp-a1-m1-cB GSRMKQLEDKVEELLSKNYHLENEIARIKKLVGE GSRMKQLEDKVEELLSKNYHLENEIARIKKLVGER 3gju-a1-m1-cA_3gju-a1-m2-cA Crystal structure of a putative aminotransferase (mll7127) from mesorhizobium loti maff303099 at 1.55 A resolution Q987B2 Q987B2 1.55 X-RAY DIFFRACTION 397 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 445 445 GLNQSNELNAWDRDHFFHPSTHGTHARGESPTRIAGGEGVTVWDNNGRKSIDAFAGLYCVNVGYGRQKIADAIATQAKNLAYYHAYVGHGTEASITLAKIIDRAPKGSRVYFGLSGSDANETNIKLIWYYNNVLGRPEKKKIISRWRGYHGSGVTGSLTGLDLFHNAFDLPRAPVLHTEAPYYFRRTDRSSEEQFSQHCADKLEEILAEGPETIAAFIGEPILGTGGIVPPPAGYWEKIQAVLKKYDVLLVADEVVTGFGRLGTFGSDHYGIKPDLITIAGLTSAYAPLSGVIVADRVWQVLVQGSDKLGSLGHGWTYSAHPICVAAGVANLELIDEDLVTNAGETGAYFRAELAKAVGGHKNVGEVRGDGLAAVEFVADKDDRVFFDASQKIGPQVATALAASGVIGRAPQGDILGFAPPLCLTREQADIVVSKTADAVKSVFA GLNQSNELNAWDRDHFFHPSTHGTHARGESPTRIAGGEGVTVWDNNGRKSIDAFAGLYCVNVGYGRQKIADAIATQAKNLAYYHAYVGHGTEASITLAKIIDRAPKGSRVYFGLSGSDANETNIKLIWYYNNVLGRPEKKKIISRWRGYHGSGVTGSLTGLDLFHNAFDLPRAPVLHTEAPYYFRRTDRSSEEQFSQHCADKLEEILAEGPETIAAFIGEPILGTGGIVPPPAGYWEKIQAVLKKYDVLLVADEVVTGFGRLGTFGSDHYGIKPDLITIAGLTSAYAPLSGVIVADRVWQVLVQGSDKLGSLGHGWTYSAHPICVAAGVANLELIDEDLVTNAGETGAYFRAELAKAVGGHKNVGEVRGDGLAAVEFVADKDDRVFFDASQKIGPQVATALAASGVIGRAPQGDILGFAPPLCLTREQADIVVSKTADAVKSVFA 3gk0-a3-m1-cH_3gk0-a3-m1-cB Crystal structure of pyridoxal phosphate biosynthetic protein from Burkholderia pseudomallei Q3JQ80 Q3JQ80 2.28 X-RAY DIFFRACTION 67 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 246 252 3gk0-a1-m1-cD_3gk0-a1-m1-cA 3gk0-a1-m1-cF_3gk0-a1-m1-cG 3gk0-a3-m1-cC_3gk0-a3-m1-cE AAIDLGVNIDHVATLRNARGTAYPDPVRAALAAEDAGADAITLHLREDRRHIVDADVRTLRPRVKTRMNLECAVTPEMLDIACEIRPHDACLVPEKRSELTTEGGLDVVGHFDAVRAACKQLADAGVRVSLFIDPDEAQIRAAHETGAPVIELHTGRYADAHDAAEQQREFERIATGVDAGIALGLKVNAGHGLHYTNVQAIAALPGIAELNIGHAIVAHAVFVGWDNAVREMKAIMVAARVAALH FFLTTPAAIDLGVNIDHVATLRNARGTAYPDPVRAALAAEDAGADAITLHLREDRRHIVDADVRTLRPRVKTRMNLECAVTPEMLDIACEIRPHDACLVPEKRSELTTEGGLDVVGHFDAVRAACKQLADAGVRVSLFIDPDEAQIRAAHETGAPVIELHTGRYADAHDAAEQQREFERIATGVDAGIALGLKVNAGHGLHYTNVQAIAALPGIAELNIGHAIVAHAVFVGWDNAVREMKAIMVAARVAALH 3gk0-a6-m1-cF_3gk0-a6-m1-cD Crystal structure of pyridoxal phosphate biosynthetic protein from Burkholderia pseudomallei Q3JQ80 Q3JQ80 2.28 X-RAY DIFFRACTION 79 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 244 246 3gk0-a1-m1-cF_3gk0-a1-m1-cD 3gk0-a1-m1-cG_3gk0-a1-m1-cA 3gk0-a2-m1-cG_3gk0-a2-m1-cA 3gk0-a3-m1-cC_3gk0-a3-m1-cH 3gk0-a3-m1-cE_3gk0-a3-m1-cB 3gk0-a4-m1-cE_3gk0-a4-m1-cB 3gk0-a5-m1-cC_3gk0-a5-m1-cH AIDLGVNIDHVATLRNARGTAYPDPVRAALAAEDAGADAITLHLREDRRHIVDADVRTLRPRVKTRMNLECAVTPEMLDIACEIRPHDACLVPEKRSELTTEGGLDVVGHFDAVRAACKQLADAGVRVSLFIDPDEAQIRAAHETGAPVIELHTGRYADAHDAAEQQREFERIATGVDAGIALGLKVNAGHGLHYTNVQAIAALPGIAELNIGHAIVAHAVFVGWDNAVREMKAIMVAARVAAL AAIDLGVNIDHVATLRNARGTAYPDPVRAALAAEDAGADAITLHLREDRRHIVDADVRTLRPRVKTRMNLECAVTPEMLDIACEIRPHDACLVPEKRSELTTEGGLDVVGHFDAVRAACKQLADAGVRVSLFIDPDEAQIRAAHETGAPVIELHTGRYADAHDAAEQQREFERIATGVDAGIALGLKVNAGHGLHYTNVQAIAALPGIAELNIGHAIVAHAVFVGWDNAVREMKAIMVAARVAALH 3gk7-a1-m1-cA_3gk7-a1-m1-cB Crystal structure of 4-hydroxybutyrate CoA-Transferase from Clostridium aminobutyricum Q9RM86 Q9RM86 1.85 X-RAY DIFFRACTION 132 1.0 33953 (Clostridium aminobutyricum) 33953 (Clostridium aminobutyricum) 447 447 3qdq-a2-m1-cA_3qdq-a2-m2-cA MDWKKIYEDRTCTADEAVKSIKSGDRVLFAHCVAEPPVLVEAMVANAAAYKNVTVSHMVTLGKGEYSKPEYKENFTFEGWFTSPSTRGSIAEGHGQFVPVFFHEVPSLIRKDIFHVDVFMVMVSPPDHNGFCCVGVSSDYTMQAIKSAKIVLAEVNDQVPVVYGDTFVHVSEIDKFVETSHPLPEIGLPKIGEVEAAIGKHCASLIEDGSTLQLGIGAIPDAVLSQLKDKKHLGIHSEMISDGVVDLYEAGVIDCSQKSIDKGKMAITFLMGTKRLYDFAANNPKVELKPVDYINHPSVVAQCSKMVCINACLQVDFMGQIVSDSIGTKQFSGVGGQVDFVRGASMSIDGKGKAIIAMPSVAKKKDGSMISKIVPFIDHGAAVTTSRNDADYVVTEYGIAEMKGKSLQDRARALINIAHPDFKDELKAEFEKRFNAAFSAWSHPQFE MDWKKIYEDRTCTADEAVKSIKSGDRVLFAHCVAEPPVLVEAMVANAAAYKNVTVSHMVTLGKGEYSKPEYKENFTFEGWFTSPSTRGSIAEGHGQFVPVFFHEVPSLIRKDIFHVDVFMVMVSPPDHNGFCCVGVSSDYTMQAIKSAKIVLAEVNDQVPVVYGDTFVHVSEIDKFVETSHPLPEIGLPKIGEVEAAIGKHCASLIEDGSTLQLGIGAIPDAVLSQLKDKKHLGIHSEMISDGVVDLYEAGVIDCSQKSIDKGKMAITFLMGTKRLYDFAANNPKVELKPVDYINHPSVVAQCSKMVCINACLQVDFMGQIVSDSIGTKQFSGVGGQVDFVRGASMSIDGKGKAIIAMPSVAKKKDGSMISKIVPFIDHGAAVTTSRNDADYVVTEYGIAEMKGKSLQDRARALINIAHPDFKDELKAEFEKRFNAAFSAWSHPQFE 3gk9-a2-m1-cA_3gk9-a2-m2-cA Crystal structure of murine Ngb under Xe pressure Q9ER97 Q9ER97 1.8 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 148 148 3gkt-a2-m1-cA_3gkt-a2-m2-cA 3gln-a2-m1-cA_3gln-a2-m2-cA RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGWDG RPESELIRQSWRVVSRSPLEHGTVLFARLFALEPSLLPLFQYNGRQFSSPEDSLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLTSLGRKHRAVGVRLSSFSTVGESLLYMLEKSLGPDFTPATRTAWSRLYGAVVQAMSRGWDG 3gkb-a1-m1-cA_3gkb-a1-m1-cC Crystal structure of a putative enoyl-CoA hydratase from Streptomyces avermitilis Q82QL3 Q82QL3 1.8 X-RAY DIFFRACTION 89 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 274 276 3gkb-a1-m1-cA_3gkb-a1-m1-cB 3gkb-a1-m1-cC_3gkb-a1-m1-cB AYSTLRVSSEHGVARIILDNPPVNVIGATMMRELRTVLTTLADDSSVRVIVFSSADPEFFLAHVDMRIGEKMDALQELAASAPADVNVFQAVGELIRHQPQVTIVKLAGKARGGGAEFVAAADMAFAAAETAGLGQIEALMGIIPGGGGTQYLRGRVGRNRALEVVLTADLFDAETAASYGWINRALPADELDEYVDRVARNIAALPDGVIEAAKRSLPADDLKEGLLGENDAWAATFSLPAAQQLISGGLKDGAQTPAGERDLEGLMRSVARE NDAYSTLRVSSEHGVARIILDNPPVNVIGATMMRELRTVLTTLADDSSVRVIVFSSADPEFFLAHVDMRIGEKMDALQELAASAPADVNVFQAVGELIRHQPQVTIVKLAGKARGGGAEFVAAADMAFAAAETAGLGQIEALMGIIPGGGGTQYLRGRVGRNRALEVVLTADLFDAETAASYGWINRALPADELDEYVDRVARNIAALPDGVIEAAKRSLPADDLKEGLLGENDAWAATFSLPAAQQLISGGLKDGAQTPAGERDLEGLMRSVARE 3gkq-a2-m1-cE_3gkq-a2-m1-cF Terminal oxygenase of carbazole 1,9a-dioxygenase from Novosphingobium sp. KA1 Q2PFA6 Q2PFA6 2.1 X-RAY DIFFRACTION 101 1.0 164608 (Novosphingobium sp. KA1) 164608 (Novosphingobium sp. KA1) 373 373 3gkq-a1-m1-cA_3gkq-a1-m1-cB 3gkq-a1-m1-cA_3gkq-a1-m1-cC 3gkq-a1-m1-cB_3gkq-a1-m1-cC 3gkq-a2-m1-cD_3gkq-a2-m1-cE 3gkq-a2-m1-cD_3gkq-a2-m1-cF AGIAERRTRAWAPYIDAKLGFRNHWYPVRLSAEVAEASPVPVQLLGEKVLLNRVDGVVHAIADRCLHRGVTLSDKVECYSKATISCWYHGWTYRWDNGKLVDILTNPTSVQIGRHALKTYPVREEKGLVFLFVGDQEPHDLAEDVPPGFLDADLAVHGQHRVVDANWRMGVENGFDAGHVFIHKSSILLDGNDIALPLGFAPGDPEQLTRSVTGEGAPKGVFDLLGEHSVPIFEATIEGQPAIQGHMGSKMVAISISVWLPGVLKVDPFPDPTLTQFEWYVPIDEGHHLYLQMLGRRVGSEEEARSFEAEFREKWVELALNGFNDDDILARRSMEPFYADDRGWREEVLFESDRAIIEWRRLASQYNRGIQTR AGIAERRTRAWAPYIDAKLGFRNHWYPVRLSAEVAEASPVPVQLLGEKVLLNRVDGVVHAIADRCLHRGVTLSDKVECYSKATISCWYHGWTYRWDNGKLVDILTNPTSVQIGRHALKTYPVREEKGLVFLFVGDQEPHDLAEDVPPGFLDADLAVHGQHRVVDANWRMGVENGFDAGHVFIHKSSILLDGNDIALPLGFAPGDPEQLTRSVTGEGAPKGVFDLLGEHSVPIFEATIEGQPAIQGHMGSKMVAISISVWLPGVLKVDPFPDPTLTQFEWYVPIDEGHHLYLQMLGRRVGSEEEARSFEAEFREKWVELALNGFNDDDILARRSMEPFYADDRGWREEVLFESDRAIIEWRRLASQYNRGIQTR 3gku-a2-m1-cC_3gku-a2-m2-cC Crystal structure of a probable RNA-binding protein from Clostridium symbiosum ATCC 14940 D0VX24 D0VX24 2.95 X-RAY DIFFRACTION 35 1.0 411472 ([Clostridium] symbiosum ATCC 14940) 411472 ([Clostridium] symbiosum ATCC 14940) 128 128 3gku-a1-m1-cB_3gku-a1-m1-cA DVTVTAKTVEEAVTKALIELQTTSDKLTYEIVEKPAIIRAKRKETLQDKAIEFLEQVFDANAVDISVEYNETEKENVNLKGDDGILIGKRGQTLDSLQYLVSLVVNKSSSDYIRVKLDTENYRERRKE DVTVTAKTVEEAVTKALIELQTTSDKLTYEIVEKPAIIRAKRKETLQDKAIEFLEQVFDANAVDISVEYNETEKENVNLKGDDGILIGKRGQTLDSLQYLVSLVVNKSSSDYIRVKLDTENYRERRKE 3gkx-a1-m1-cA_3gkx-a1-m1-cB Crystal structure of putative ArsC family related protein from Bacteroides fragilis Q5L9Z8 Q5L9Z8 2.2 X-RAY DIFFRACTION 24 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 115 117 KTLFLQYPACSTCQKAKKWLIENNIEYTNRLIVDDNPTVEELKAWIPLSGLPVKKFFNTSGVVYKELKLSSKLPTTEEEQIALLATNGKLVKRPLVVTERFVLVGFKPEEWEKLK NAKTLFLQYPACSTCQKAKKWLIENNIEYTNRLIVDDNPTVEELKAWIPLSGLPVKKFFNTSGVVYKELKLSSKLPTTEEEQIALLATNGKLVKRPLVVTERFVLVGFKPEEWEKLK 3gl3-a1-m1-cD_3gl3-a1-m1-cA Crystal structure of a putative Thiol:disulfide interchange protein DsbE from Chlorobium tepidum Q8KDH8 Q8KDH8 2.09 X-RAY DIFFRACTION 44 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 133 137 3gl3-a1-m1-cC_3gl3-a1-m1-cB KGDKAPDFALPGKTGVVKLSDKTGSVVYLDFWASWCGPCRQSFPWNQQAKYKAKGFQVVAVNLDAKTGDAKFLAQVPAEFTVAFDPKGQTPRLYGVKGPTSFLIDRNGKVLLQHVGFRPADKEALEQQILAAL SLDKGDKAPDFALPGKTGVVKLSDKTGSVVYLDFWASWCGPCRQSFPWNQQAKYKAKGFQVVAVNLDAKTGDAKFLAQVPAEFTVAFDPKGQTPRLYGVKGPTSFLIDRNGKVLLQHVGFRPADKEALEQQILAALG 3gl3-a1-m1-cD_3gl3-a1-m1-cC Crystal structure of a putative Thiol:disulfide interchange protein DsbE from Chlorobium tepidum Q8KDH8 Q8KDH8 2.09 X-RAY DIFFRACTION 41 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 133 134 KGDKAPDFALPGKTGVVKLSDKTGSVVYLDFWASWCGPCRQSFPWNQQAKYKAKGFQVVAVNLDAKTGDAKFLAQVPAEFTVAFDPKGQTPRLYGVKGPTSFLIDRNGKVLLQHVGFRPADKEALEQQILAAL DKGDKAPDFALPGKTGVVKLSDKTGSVVYLDFWASWCGPCRQSFPWNQQAKYKAKGFQVVAVNLDAKTGDAKFLAQVPAEFTVAFDPKGQTPRLYGVKGPTSFLIDRNGKVLLQHVGFRPADKEALEQQILAAL 3gl5-a1-m1-cA_3gl5-a1-m2-cA Crystal structure of probable DsbA oxidoreductase SCO1869 from Streptomyces coelicolor Q93RV7 Q93RV7 2.15 X-RAY DIFFRACTION 151 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 231 231 HRVEIWSDIACPWCYVGKARFEKALAAFPHRDGVEVVHRSFELDPGRAKDDVQPVLTLTAKYGSQEQAQAGEDNLGAQAAAEGLAYRTRDRDHGSTFDLHRLLHLAKERGRHEALLDAFYRGNFADERSVFNDDERLVELAVGAGLDAEEVRAVLADPAAYADEVRADEREAAQLGATGVPFFVLDRAYGVSGAQPAEVFTQALTQAWGERTPLKLIDAEACGPDGCAVPG HRVEIWSDIACPWCYVGKARFEKALAAFPHRDGVEVVHRSFELDPGRAKDDVQPVLTLTAKYGSQEQAQAGEDNLGAQAAAEGLAYRTRDRDHGSTFDLHRLLHLAKERGRHEALLDAFYRGNFADERSVFNDDERLVELAVGAGLDAEEVRAVLADPAAYADEVRADEREAAQLGATGVPFFVLDRAYGVSGAQPAEVFTQALTQAWGERTPLKLIDAEACGPDGCAVPG 3gl6-a1-m1-cA_3gl6-a1-m2-cA Crystal structure of JARID1A-PHD3 complexed with H3(1-9)K4me3 peptide P29375 P29375 1.9 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 SVCAAQNCQRPCKDKVDWVQCDGGCDEWFHQVCVGVSPEMAENEDYICINCA SVCAAQNCQRPCKDKVDWVQCDGGCDEWFHQVCVGVSPEMAENEDYICINCA 3gla-a1-m1-cA_3gla-a1-m1-cB Crystal Structure of the hspA from Xanthomonas axonopodis Q8PNC2 Q8PNC2 1.64 X-RAY DIFFRACTION 107 0.99 97 99 3gt6-a1-m1-cA_3gt6-a1-m1-cB 3guf-a1-m1-cA_3guf-a1-m1-cB AQWVPRVDIKEEVNHFVLYADLPGIDPSQIEVQMDKGILSIRGERKSESSTETERFSRIERRYGSFHRRFALPDSADADGITAAGRNGVLEIRIPKR QWVPRVDIKEEVNHFVLYADLPGIDPSQIEVQMDKGILSIRGERKSESSTETERFSRIERRYGSFHRRFALPDSADADGITAAGRNGVLEIRIPKRPAA 3gli-a1-m1-cD_3gli-a1-m1-cC Crystal Structure of the E. coli clamp loader bound to Primer-Template DNA and Psi Peptide P06710 P06710 3.5 X-RAY DIFFRACTION 139 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 362 365 1jr3-a1-m1-cA_1jr3-a1-m1-cC 1xxh-a1-m1-cB_1xxh-a1-m1-cC 1xxh-a2-m1-cG_1xxh-a2-m1-cH 1xxi-a1-m1-cB_1xxi-a1-m1-cC 1xxi-a2-m1-cG_1xxi-a2-m1-cH 3glf-a1-m1-cB_3glf-a1-m1-cC 3glf-a1-m1-cD_3glf-a1-m1-cC 3glf-a2-m1-cH_3glf-a2-m1-cG 3glf-a2-m1-cI_3glf-a2-m1-cH 3glg-a1-m1-cB_3glg-a1-m1-cC 3glg-a1-m1-cD_3glg-a1-m1-cC 3glg-a2-m1-cH_3glg-a2-m1-cG 3glg-a2-m1-cI_3glg-a2-m1-cH 3glh-a1-m1-cB_3glh-a1-m1-cC 3glh-a2-m1-cG_3glh-a2-m1-cH 3glh-a3-m1-cL_3glh-a3-m1-cM 3gli-a1-m1-cB_3gli-a1-m1-cC 3gli-a2-m1-cH_3gli-a2-m1-cG 3gli-a2-m1-cI_3gli-a2-m1-cH SYQVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRM QVLARKWRPQTFADVVGQEHVLTALANGLSLGRIHHAYLFSGTRGVGKTSIARLLAKGLNCETGITATPCGVCDNCREIEQGRFVDLIEIDAASRTKVEDTRDLLDNVQYAPARGRFKVYLIDEVHMLSRHSFNALLKTLEEPPEHVKFLLATTDPQKLPVTILSRCLQFHLKALDVEQIRHQLEHILNEEHIAHEPRALQLLARAAEGSLRDALSLTDQAIASGDGQVSTQAVSAMLGTLDDDQALSLVEAMVEANGERVMALINEAAARGIEWEALLVEMLGLLHRIAMVQLSPAALGNDMAAIELRMRELARTIPPTDIQLYYQTLLIGRKELPYAPDRRMGVEMTLLRALAFHPRMPLPEP 3gll-a1-m2-cA_3gll-a1-m3-cA Crystal structure of Polynucleotide Phosphorylase (PNPase) core A7ZS61 A7ZS61 2.7 X-RAY DIFFRACTION 103 1.0 331111 (Escherichia coli O139:H28 str. E24377A) 331111 (Escherichia coli O139:H28 str. E24377A) 494 494 3gll-a1-m1-cA_3gll-a1-m2-cA 3gll-a1-m1-cA_3gll-a1-m3-cA LNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGRIPGSFFGRPSEGETLIARLIDRIRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQDELKESKLDLVVAGTEAAVLMVESEAELLSEDQMLGAVVFGHEQQQVVIQNINELVKEAGKPRWDWQPEPVAYRITDKQERYAQVDVIKHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTDTFLFHYNFPPYSVGETGMVRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPR LNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGRIPGSFFGRPSEGETLIARLIDRIRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQDELKESKLDLVVAGTEAAVLMVESEAELLSEDQMLGAVVFGHEQQQVVIQNINELVKEAGKPRWDWQPEPVAYRITDKQERYAQVDVIKHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTARDAQVLDELMGERTDTFLFHYNFPPYSVGETGMVRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPR 3glq-a1-m1-cB_3glq-a1-m2-cB Crystal structure of S-adenosyl-L-homocysteine hydrolase from Burkholderia pseudomallei in complex with 9-beta-D-arabino-furansyl-adenine Q3JY79 Q3JY79 2.3 X-RAY DIFFRACTION 103 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 462 462 3d64-a1-m1-cA_3d64-a1-m2-cB 3d64-a1-m1-cB_3d64-a1-m2-cA 3glq-a1-m1-cA_3glq-a1-m2-cA QDYVVADIALAGWGRKELNIAETEMPGLVQIRDEYKAQQPLKGARIAGSLHMTIQTGVLIETLKALGADVRWASCNIFSTQDHAAAAIVEAGTPVFAFKGESLDEYWEFSHRIFEWPNGEFANMILDDGGDATLLLILGSKAEKDRSVIARPTNEEEVALFKSIERHLEIDGSWYSKRLAHIKGVTEETTTGVHRLYQMEKDGRLPFPAFNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKIAVVAGYGDVGKGCAQSLRGLGATVWVTEIDPICALQAAMEGYRVVTMEYAADKADIFVTATGNYHVINHDHMKAMRHNAIVCNIGHFDSEIDVASTRQYQWENIKPQVDHIIFPDGKRVILLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQIELFTRGGEYANKVYVLPKHLDEKVARLHLARIGAQLSELSDDQAAYIGVSKAGPFKPDHYRY QDYVVADIALAGWGRKELNIAETEMPGLVQIRDEYKAQQPLKGARIAGSLHMTIQTGVLIETLKALGADVRWASCNIFSTQDHAAAAIVEAGTPVFAFKGESLDEYWEFSHRIFEWPNGEFANMILDDGGDATLLLILGSKAEKDRSVIARPTNEEEVALFKSIERHLEIDGSWYSKRLAHIKGVTEETTTGVHRLYQMEKDGRLPFPAFNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKIAVVAGYGDVGKGCAQSLRGLGATVWVTEIDPICALQAAMEGYRVVTMEYAADKADIFVTATGNYHVINHDHMKAMRHNAIVCNIGHFDSEIDVASTRQYQWENIKPQVDHIIFPDGKRVILLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQIELFTRGGEYANKVYVLPKHLDEKVARLHLARIGAQLSELSDDQAAYIGVSKAGPFKPDHYRY 3glq-a1-m2-cA_3glq-a1-m2-cB Crystal structure of S-adenosyl-L-homocysteine hydrolase from Burkholderia pseudomallei in complex with 9-beta-D-arabino-furansyl-adenine Q3JY79 Q3JY79 2.3 X-RAY DIFFRACTION 167 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 462 462 3d64-a1-m1-cA_3d64-a1-m1-cB 3d64-a1-m2-cA_3d64-a1-m2-cB 3glq-a1-m1-cA_3glq-a1-m1-cB QDYVVADIALAGWGRKELNIAETEMPGLVQIRDEYKAQQPLKGARIAGSLHMTIQTGVLIETLKALGADVRWASCNIFSTQDHAAAAIVEAGTPVFAFKGESLDEYWEFSHRIFEWPNGEFANMILDDGGDATLLLILGSKAEKDRSVIARPTNEEEVALFKSIERHLEIDGSWYSKRLAHIKGVTEETTTGVHRLYQMEKDGRLPFPAFNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKIAVVAGYGDVGKGCAQSLRGLGATVWVTEIDPICALQAAMEGYRVVTMEYAADKADIFVTATGNYHVINHDHMKAMRHNAIVCNIGHFDSEIDVASTRQYQWENIKPQVDHIIFPDGKRVILLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQIELFTRGGEYANKVYVLPKHLDEKVARLHLARIGAQLSELSDDQAAYIGVSKAGPFKPDHYRY QDYVVADIALAGWGRKELNIAETEMPGLVQIRDEYKAQQPLKGARIAGSLHMTIQTGVLIETLKALGADVRWASCNIFSTQDHAAAAIVEAGTPVFAFKGESLDEYWEFSHRIFEWPNGEFANMILDDGGDATLLLILGSKAEKDRSVIARPTNEEEVALFKSIERHLEIDGSWYSKRLAHIKGVTEETTTGVHRLYQMEKDGRLPFPAFNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKIAVVAGYGDVGKGCAQSLRGLGATVWVTEIDPICALQAAMEGYRVVTMEYAADKADIFVTATGNYHVINHDHMKAMRHNAIVCNIGHFDSEIDVASTRQYQWENIKPQVDHIIFPDGKRVILLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQIELFTRGGEYANKVYVLPKHLDEKVARLHLARIGAQLSELSDDQAAYIGVSKAGPFKPDHYRY 3glv-a1-m1-cA_3glv-a1-m1-cB Crystal structure of the lipopolysaccharide core biosynthesis protein from Thermoplasma volcanium GSS1 Q979C2 Q979C2 1.99 X-RAY DIFFRACTION 33 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 122 122 GMIRVMATGVFDILHLGHIHYLKESKKLGDELVVVVARDSTARNNGKIPIFDENSRLALISELKVVDRAILGHEGDMMKTVIEVKPDIITLGYDQKFDEAELQSKINKLGITVKIVRISKYD GMIRVMATGVFDILHLGHIHYLKESKKLGDELVVVVARDSTARNNGKIPIFDENSRLALISELKVVDRAILGHEGDMMKTVIEVKPDIITLGYDQKFDEAELQSKINKLGITVKIVRISKYD 3glw-a1-m3-cZ_3glw-a1-m4-cZ Quaternary Structure of Drosophila melanogaster IC/Tctex-1/LC8; Allosteric Interactions of Dynein Light Chains with Dynein Intermediate Chain 3.15 X-RAY DIFFRACTION 11 1.0 17 17 3glw-a1-m1-cZ_3glw-a1-m2-cZ LVYTKQTQTTPPKETLV LVYTKQTQTTPPKETLV 3gm5-a1-m1-cA_3gm5-a1-m2-cA Crystal structure of a putative methylmalonyl-coenzyme A epimerase from Thermoanaerobacter tengcongensis at 2.0 A resolution Q8RCQ6 Q8RCQ6 2 X-RAY DIFFRACTION 70 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 151 151 SMSKNILDMRNTVQIGIVVRDIEESLQNYAEFFGVEKPQWFWTDDYSKAHTKFNGRPTKARAKLAFFELGPLQLELIEPDENPSTWREFLDKNGEGIHHIAFVVKDMDRKVEELYRKGMKVIQKGDFEGGRYAYIDTLRALKVMIELLENY SMSKNILDMRNTVQIGIVVRDIEESLQNYAEFFGVEKPQWFWTDDYSKAHTKFNGRPTKARAKLAFFELGPLQLELIEPDENPSTWREFLDKNGEGIHHIAFVVKDMDRKVEELYRKGMKVIQKGDFEGGRYAYIDTLRALKVMIELLENY 3gme-a1-m2-cA_3gme-a1-m3-cA Crystal Structure of Polynucleotide Phosphorylase in complex with RNase E and manganese A7ZS61 A7ZS61 2.4 X-RAY DIFFRACTION 103 1.0 331111 (Escherichia coli O139:H28 str. E24377A) 331111 (Escherichia coli O139:H28 str. E24377A) 482 482 3cdj-a1-m1-cA_3cdj-a1-m2-cA 3cdj-a1-m1-cA_3cdj-a1-m3-cA 3cdj-a1-m2-cA_3cdj-a1-m3-cA 3gme-a1-m1-cA_3gme-a1-m2-cA 3gme-a1-m1-cA_3gme-a1-m3-cA MLNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGRIPGSFRPSEGETLIARLIDRPIRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQDELKESKLDLVVAGTEAAVLMVESEAELLSEDQMLGAVVFGHEQQQVVIQNINELVKEAGKPRWDWQPEPVNEALNARVTDKQERYLHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTDTFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPR MLNPIVRKFQYGQHTVTLETGMMARQATAAVMVSMDDTAVFVTVVGQKKAKPGQDFFPLTVNYQERTYAAGRIPGSFRPSEGETLIARLIDRPIRPLFPEGFVNEVQVIATVVSVNPQVNPDIVAMIGASAALSLSGIPFNGPIGAARVGYINDQYVLNPTQDELKESKLDLVVAGTEAAVLMVESEAELLSEDQMLGAVVFGHEQQQVVIQNINELVKEAGKPRWDWQPEPVNEALNARVTDKQERYLHAIEKNVVRSRVLAGEPRIDGREKDMIRGLDVRTGVLPRTHGSALFTRGETQALVTATLGTDTFLFHYNFPPYSVGETGMVGSPKRREIGHGRLAKRGVLAVMPDMDKFPYTVRVVSEITESNGSSSMASVCGASLALMDAGVPIKAAVAGIAMGLVKEGDNYVVLSDILGDEDHLGDMDFKVAGSRDGISALQMDIKIEGITKEIMQVALNQAKGARLHILGVMEQAINAPR 3gmg-a1-m1-cA_3gmg-a1-m1-cB Crystal structure of an uncharacterized conserved protein from Mycobacterium tuberculosis P9WFG3 P9WFG3 1.5 X-RAY DIFFRACTION 115 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 143 143 ARLAALSILVGAVGATGPGVMITIDDPGPGVAPEVMIDVINELRAAGAEAIQINDAHRSVRVGVDTWVVGVPGSLTVDTKVLSPPYSILAIGDPPTLAAAMNIPGGAQDGVKRVGGRMVVQQADRVDVTALRQPKQHQYAQPV ARLAALSILVGAVGATGPGVMITIDDPGPGVAPEVMIDVINELRAAGAEAIQINDAHRSVRVGVDTWVVGVPGSLTVDTKVLSPPYSILAIGDPPTLAAAMNIPGGAQDGVKRVGGRMVVQQADRVDVTALRQPKQHQYAQPV 3gmh-a2-m1-cD_3gmh-a2-m1-cC Crystal Structure of the Mad2 Dimer Q13257 Q13257 3.95 X-RAY DIFFRACTION 51 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 187 195 2v64-a1-m1-cE_2v64-a1-m1-cA 2v64-a2-m1-cD_2v64-a2-m1-cC 2v64-a3-m1-cH_2v64-a3-m1-cF 3gmh-a1-m1-cB_3gmh-a1-m1-cA 3gmh-a3-m1-cF_3gmh-a3-m1-cE 3gmh-a4-m1-cH_3gmh-a4-m1-cG 3gmh-a5-m1-cJ_3gmh-a5-m1-cI 3gmh-a6-m1-cL_3gmh-a6-m1-cK HHGSITLRGSAEIVAEFFSFGINSILYQRGIYPSETFTRVQKYGLTLLVTTDLELIKYLNNVVEQLKDWLYKCSVQKLVVVISNIESGEVLERWQFDIECDKTSQKAIQDEIRSVIRQITATVTFLPLLEVSCSFDLLIYTDKDLVVPEKWEESGPQFITNSEEVRLRSFTTTIHKVNSMVAYKIPV SITLRGSAEIVAEFFSFGINSILYQRGIYPSETFTRVQKYGLTLLVTTDLELIKYLNNVVEQLKDWLYKCSVQKLVVVISNIESGEVLERWQFDIECDKTAKDDSAPREKSQKAIQDEIRSVIRQITATVTFLPLLEVSCSFDLLIYTDKDLVVPEKWEESGPQFITNSEEVRLRSFTTTIHKVNSMVAYKIPVN 3gmj-a2-m1-cA_3gmj-a2-m1-cB Crystal structure of MAD MH2 domain P42003 P42003 2.8 X-RAY DIFFRACTION 75 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 199 199 3gmj-a1-m1-cD_3gmj-a1-m2-cD 3gmj-a1-m1-cD_3gmj-a1-m3-cD 3gmj-a1-m2-cD_3gmj-a1-m3-cD 3gmj-a2-m1-cC_3gmj-a2-m1-cA 3gmj-a2-m1-cC_3gmj-a2-m1-cB EPAFWASIAYYELNCRVGEVFHCNNNSVIVDGFTNPSNNSDRCCLGQLSNVNRNSTIENTRRHIGKGVHLYYVTGEVYAECLSDSAIFVQSRNCNYQHGFHPSTVCKIPPGCSLKIFNNQEFAQLLSQSVNNGFEAVYELTKMCTIRMSFVKGWGAEYHRQDVTSTPCWIEIHLHGPLQWLDKVLTQMGSPHNAISSVS EPAFWASIAYYELNCRVGEVFHCNNNSVIVDGFTNPSNNSDRCCLGQLSNVNRNSTIENTRRHIGKGVHLYYVTGEVYAECLSDSAIFVQSRNCNYQHGFHPSTVCKIPPGCSLKIFNNQEFAQLLSQSVNNGFEAVYELTKMCTIRMSFVKGWGAEYHRQDVTSTPCWIEIHLHGPLQWLDKVLTQMGSPHNAISSVS 3gmx-a1-m1-cA_3gmx-a1-m1-cB Crystal Structure of Beta-Lactamse Inhibitory Protein-Like Protein (BLP) at 1.05 Angstrom Resolution B5GLC0 B5GLC0 1.05 X-RAY DIFFRACTION 70 1.0 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 153 154 YTGFTPERYNKIQFGMDRTLVWQLAGADQSCSDQVERIICYNNPDHYGPQGHFFFNAADKLIHKRQMELFPAPKPTMLATYNKTQTGMTEAQFWAAVPSDTCSALAEQYPNWPATNGNLREYVCPSKAERFAPSAYFTFTDGKLTSRSQSQLP YTGFTPERYNKIQFGMDRTLVWQLAGADQSCSDQVERIICYNNPDHYGPQGHFFFNAADKLIHKRQMELFPAPKPTMRLATYNKTQTGMTEAQFWAAVPSDTCSALAEQYPNWPATNGNLREYVCPSKAERFAPSAYFTFTDGKLTSRSQSQLP 3gn3-a1-m1-cA_3gn3-a1-m2-cB Crystal structure of a putative protein-disulfide isomerase from Pseudomonas syringae to 2.5A resolution. Q87W03 Q87W03 2.5 X-RAY DIFFRACTION 34 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 179 179 3gn3-a1-m1-cB_3gn3-a1-m2-cA MHSDALSWGHGPRLFEVFLEPTCPFSVKAFFKLDDLLAQAGEDNVTVRIRLQSQPWHMFSGVIVRCILAAATLEGGKESAKAVMTAVASHREEFEFEHHAGGPNLDATPNDIIARIERYSGLALAEAFANPELEHAVKWHTKYARQNGIHVSPTFMINGLVQPGMSSGDPVSKWVSDIG MHSDALSWGHGPRLFEVFLEPTCPFSVKAFFKLDDLLAQAGEDNVTVRIRLQSQPWHMFSGVIVRCILAAATLEGGKESAKAVMTAVASHREEFEFEHHAGGPNLDATPNDIIARIERYSGLALAEAFANPELEHAVKWHTKYARQNGIHVSPTFMINGLVQPGMSSGDPVSKWVSDIG 3gn3-a2-m1-cA_3gn3-a2-m1-cB Crystal structure of a putative protein-disulfide isomerase from Pseudomonas syringae to 2.5A resolution. Q87W03 Q87W03 2.5 X-RAY DIFFRACTION 99 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 179 179 3gn3-a1-m1-cA_3gn3-a1-m1-cB 3gn3-a1-m2-cA_3gn3-a1-m2-cB MHSDALSWGHGPRLFEVFLEPTCPFSVKAFFKLDDLLAQAGEDNVTVRIRLQSQPWHMFSGVIVRCILAAATLEGGKESAKAVMTAVASHREEFEFEHHAGGPNLDATPNDIIARIERYSGLALAEAFANPELEHAVKWHTKYARQNGIHVSPTFMINGLVQPGMSSGDPVSKWVSDIG MHSDALSWGHGPRLFEVFLEPTCPFSVKAFFKLDDLLAQAGEDNVTVRIRLQSQPWHMFSGVIVRCILAAATLEGGKESAKAVMTAVASHREEFEFEHHAGGPNLDATPNDIIARIERYSGLALAEAFANPELEHAVKWHTKYARQNGIHVSPTFMINGLVQPGMSSGDPVSKWVSDIG 3gn4-a1-m1-cB_3gn4-a1-m1-cD Myosin lever arm P62152 P62152 2.7 X-RAY DIFFRACTION 13 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 145 145 2bki-a1-m1-cD_2bki-a1-m1-cB 3gn4-a2-m1-cH_3gn4-a2-m1-cF QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTS QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGFISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVTMMTS 3gn5-a1-m1-cB_3gn5-a1-m1-cA Structure of the E. coli protein MqsA (YgiT/b3021) Q46864 Q46864 2.15 X-RAY DIFFRACTION 53 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 130 132 3fmy-a1-m1-cA_3fmy-a1-m2-cA MKCPVCHQGEMVSGIKDIPYTFRGRKTVLKGIHGLYCVHCEESIMNKEESDAFMAQVKAFRASVNAETVAPEFIVKVRKKLSLTQKEASEIFGGGVNAFSRYEKGNAPHPSTIKLLRVLDKHPELLNEIR HMKCPVCHQGEMVSGIKDIPYTFRGRKTVLKGIHGLYCVHCEESIMNKEESDAFMAQVKAFRASVNAETVAPEFIVKVRKKLSLTQKEASEIFGGGVNAFSRYEKGNAQPHPSTIKLLRVLDKHPELLNEIR 3gn6-a6-m1-cD_3gn6-a6-m1-cC Crystal structure of CT0912, ORFan protein from Chlorobium tepidum with a ferredoxin-like domain repeat (NP_661805.1) from CHLOROBIUM TEPIDUM TLS at 1.80 A resolution Q8KDY2 Q8KDY2 1.8 X-RAY DIFFRACTION 119 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 290 295 3gn6-a5-m1-cA_3gn6-a5-m1-cB FNPWTDAALDTIRDVNQALTLYAERVVPAHHDAFLAAIDTVSAKLRVLPGFLSLALKQSGDSTVKNYPETYKGVLATAYLDGVAAGTQPYFYNLFVRFADGRAARAAGFEALFETHIHPLLHAADGPELLAYRAVLQSVVAGDRHAIYRGAEEIRSFLRRPVELPERETVTVENHVVPEDKHAAWEPQVAILLQVAQDTFEPQDEPSGVGLPGARDNRYYRKALSTEILRNAHADGGLRAYIHGVWESVWDHENSHLDPRFLAAAGPVGAAAVVGPVEPFYLTRRLVVAD AFNPWTDAALDTIRDVNQALTLYAERVVPAHHDAFLAAIDTVSAKLRVLPGFLSLALKQSGDSTVKNYPETYKGVLATAYLDGVAAGTQPYFYNLFVRFADGRAARAAGFEALFETHIHPLLHAAPRGGDGPELLAYRAVLQSVVAGDRHAIYRGAEEIRSFLRRPVELPERETVTVENHVVPEDKHAAWEPQVAILLQVAQDTFEPQDEPSGVGLPGARDNRYYRKALSTEILRNAHADGGLRAYIHGVWESVWDHENSHLDPRFLAAAGPVGAAAVVGPVEPFYLTRRLVVAD 3gnj-a2-m3-cD_3gnj-a2-m1-cC The crystal structure of a thioredoxin-related protein from Desulfitobacterium hafniense DCB B8G0E7 B8G0E7 1.99 X-RAY DIFFRACTION 49 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 106 107 3gnj-a1-m2-cB_3gnj-a1-m1-cA NASLEKLDTNTFEQLIYDEGKACLVFSRKNCHVCQKVTPVLEELRLNYEESFGFYYVDVEEEKTLFQRFSLKGVPQILYFKDGEYKGKAGDVEDDEVEQIADVLED SNASLEKLDTNTFEQLIYDEGKACLVFSRKNCHVCQKVTPVLEELRLNYEESFGFYYVDVEEEKTLFQRFSLKGVPQILYFKDGEYKGKAGDVEDDEVEQIADVLED 3gnj-a4-m1-cD_3gnj-a4-m1-cC The crystal structure of a thioredoxin-related protein from Desulfitobacterium hafniense DCB B8G0E7 B8G0E7 1.99 X-RAY DIFFRACTION 32 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 106 107 3gnj-a3-m1-cB_3gnj-a3-m1-cA NASLEKLDTNTFEQLIYDEGKACLVFSRKNCHVCQKVTPVLEELRLNYEESFGFYYVDVEEEKTLFQRFSLKGVPQILYFKDGEYKGKAGDVEDDEVEQIADVLED SNASLEKLDTNTFEQLIYDEGKACLVFSRKNCHVCQKVTPVLEELRLNYEESFGFYYVDVEEEKTLFQRFSLKGVPQILYFKDGEYKGKAGDVEDDEVEQIADVLED 3gnn-a1-m1-cB_3gnn-a1-m1-cA Crystal structure of nicotinate-nucleotide pyrophosphorylase from Burkholderi pseudomallei Q3JV59 Q3JV59 2.25 X-RAY DIFFRACTION 102 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 244 266 TIDAVSPLFADISREYGAAFDAAIARNVADALAEDVGSGDQAPRRARVIVREDAVLCGVPWFDAVVRAVDPSIEVDWRHREGDRMSADSTVCELRGPARALLTAERNALNFLQLLSGVASATRQYVDRIADTRARILDTRKTLPGLRLAQKYAVRVGGGAVQIEVETLDQLRTALAHGARSVLLDNFTLDMMRDAVRVTEGRAVLEVSGGVNFDTVRAIAETGVDRISIGALTKDVRATDYSMR TIDAVSPLFADISREYGAAFDAAIARNVADALAEDVGSGLVPDGAPRRARVIVREDAVLCGVPWFDAVVRAVDPSIEVDWRHREGDRMSADSTVCELRGPARALLTAERNALNFLQLLSGVASATRQYVDRIADTRARILDTRKTLPGLRLAQKYAVRVGGGANQGVGEALDAAFALNVPVQIEVETLDQLRTALAHGARSVLLDNFTLDMMRDAVRVTEGRAVLEVSGGVNFDTVRAIAETGVDRISIGALTKDVRATDYSMRIV 3gnq-a6-m1-cE_3gnq-a6-m1-cH Crystal structure of glyceraldehyde-3-phosphate dehydrogenase, type I from Burkholderia pseudomallei Q3JNL6 Q3JNL6 2.4 X-RAY DIFFRACTION 12 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 335 335 3gnq-a1-m1-cA_3gnq-a1-m1-cD 3gnq-a1-m1-cB_3gnq-a1-m1-cC 3gnq-a6-m1-cF_3gnq-a6-m1-cG TIRVAINGYGRIGRNTLRAFYENGKKHDLEIVAINDLGDAKTNAHLTQYDTAHGKFPGEVSVDGDYLVVNGDRIRVLANRNPAELPWGELGVDVVMECTGFFTSKEKASAHLKGGAKKVIISAPGGKDVDATIVYGVNHDVLKAEHTVISNASCTTNCLAPLVKPLNDKIGLETGLMTTIHAYTNDQVLTDVYHEDLRRARSATHSQIPTKTGAAAAVGLVLPELNGKLDGYAIRVPTINVSIVDLSFIAKRDTTAAEVNAIMKEASEGALKGILGYNEAPLVSIDFNHNPASSTFDATLTKVSGRLVKVSSWYDNEWGFSNRMLDTAIALANAK TIRVAINGYGRIGRNTLRAFYENGKKHDLEIVAINDLGDAKTNAHLTQYDTAHGKFPGEVSVDGDYLVVNGDRIRVLANRNPAELPWGELGVDVVMECTGFFTSKEKASAHLKGGAKKVIISAPGGKDVDATIVYGVNHDVLKAEHTVISNASCTTNCLAPLVKPLNDKIGLETGLMTTIHAYTNDQVLTDVYHEDLRRARSATHSQIPTKTGAAAAVGLVLPELNGKLDGYAIRVPTINVSIVDLSFIAKRDTTAAEVNAIMKEASEGALKGILGYNEAPLVSIDFNHNPASSTFDATLTKVSGRLVKVSSWYDNEWGFSNRMLDTAIALANAK 3gnq-a7-m1-cE_3gnq-a7-m1-cF Crystal structure of glyceraldehyde-3-phosphate dehydrogenase, type I from Burkholderia pseudomallei Q3JNL6 Q3JNL6 2.4 X-RAY DIFFRACTION 97 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 335 335 3gnq-a10-m1-cG_3gnq-a10-m1-cH 3gnq-a1-m1-cB_3gnq-a1-m1-cA 3gnq-a1-m1-cC_3gnq-a1-m1-cD 3gnq-a2-m1-cB_3gnq-a2-m1-cA 3gnq-a5-m1-cC_3gnq-a5-m1-cD 3gnq-a6-m1-cE_3gnq-a6-m1-cF 3gnq-a6-m1-cG_3gnq-a6-m1-cH TIRVAINGYGRIGRNTLRAFYENGKKHDLEIVAINDLGDAKTNAHLTQYDTAHGKFPGEVSVDGDYLVVNGDRIRVLANRNPAELPWGELGVDVVMECTGFFTSKEKASAHLKGGAKKVIISAPGGKDVDATIVYGVNHDVLKAEHTVISNASCTTNCLAPLVKPLNDKIGLETGLMTTIHAYTNDQVLTDVYHEDLRRARSATHSQIPTKTGAAAAVGLVLPELNGKLDGYAIRVPTINVSIVDLSFIAKRDTTAAEVNAIMKEASEGALKGILGYNEAPLVSIDFNHNPASSTFDATLTKVSGRLVKVSSWYDNEWGFSNRMLDTAIALANAK TIRVAINGYGRIGRNTLRAFYENGKKHDLEIVAINDLGDAKTNAHLTQYDTAHGKFPGEVSVDGDYLVVNGDRIRVLANRNPAELPWGELGVDVVMECTGFFTSKEKASAHLKGGAKKVIISAPGGKDVDATIVYGVNHDVLKAEHTVISNASCTTNCLAPLVKPLNDKIGLETGLMTTIHAYTNDQVLTDVYHEDLRRARSATHSQIPTKTGAAAAVGLVLPELNGKLDGYAIRVPTINVSIVDLSFIAKRDTTAAEVNAIMKEASEGALKGILGYNEAPLVSIDFNHNPASSTFDATLTKVSGRLVKVSSWYDNEWGFSNRMLDTAIALANAK 3gnq-a8-m1-cE_3gnq-a8-m1-cG Crystal structure of glyceraldehyde-3-phosphate dehydrogenase, type I from Burkholderia pseudomallei Q3JNL6 Q3JNL6 2.4 X-RAY DIFFRACTION 130 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 335 335 3gnq-a1-m1-cA_3gnq-a1-m1-cC 3gnq-a1-m1-cB_3gnq-a1-m1-cD 3gnq-a3-m1-cA_3gnq-a3-m1-cC 3gnq-a4-m1-cB_3gnq-a4-m1-cD 3gnq-a6-m1-cE_3gnq-a6-m1-cG 3gnq-a6-m1-cF_3gnq-a6-m1-cH 3gnq-a9-m1-cF_3gnq-a9-m1-cH TIRVAINGYGRIGRNTLRAFYENGKKHDLEIVAINDLGDAKTNAHLTQYDTAHGKFPGEVSVDGDYLVVNGDRIRVLANRNPAELPWGELGVDVVMECTGFFTSKEKASAHLKGGAKKVIISAPGGKDVDATIVYGVNHDVLKAEHTVISNASCTTNCLAPLVKPLNDKIGLETGLMTTIHAYTNDQVLTDVYHEDLRRARSATHSQIPTKTGAAAAVGLVLPELNGKLDGYAIRVPTINVSIVDLSFIAKRDTTAAEVNAIMKEASEGALKGILGYNEAPLVSIDFNHNPASSTFDATLTKVSGRLVKVSSWYDNEWGFSNRMLDTAIALANAK TIRVAINGYGRIGRNTLRAFYENGKKHDLEIVAINDLGDAKTNAHLTQYDTAHGKFPGEVSVDGDYLVVNGDRIRVLANRNPAELPWGELGVDVVMECTGFFTSKEKASAHLKGGAKKVIISAPGGKDVDATIVYGVNHDVLKAEHTVISNASCTTNCLAPLVKPLNDKIGLETGLMTTIHAYTNDQVLTDVYHEDLRRARSATHSQIPTKTGAAAAVGLVLPELNGKLDGYAIRVPTINVSIVDLSFIAKRDTTAAEVNAIMKEASEGALKGILGYNEAPLVSIDFNHNPASSTFDATLTKVSGRLVKVSSWYDNEWGFSNRMLDTAIALANAK 3gns-a1-m1-cA_3gns-a1-m4-cA Crystal Structure of the Staphylococcus aureus Enoyl-Acyl Carrier Protein Reductase (FabI) in apo form (one molecule in AU) Q6GI75 Q6GI75 2.706 X-RAY DIFFRACTION 18 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 221 221 3gns-a1-m2-cA_3gns-a1-m3-cA 3gnt-a1-m2-cB_3gnt-a1-m1-cA 4aln-a1-m1-cD_4aln-a1-m1-cC 4aln-a2-m1-cF_4aln-a2-m1-cE LAAAMLNLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIQDISSYSLTIVAHEAKKLMPEGGSIVATTYLYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK LAAAMLNLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIQDISSYSLTIVAHEAKKLMPEGGSIVATTYLYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK 3gnt-a1-m1-cB_3gnt-a1-m2-cA Crystal Structure of the Staphylococcus aureus Enoyl-Acyl Carrier Protein Reductase (FabI) in apo form (two molecules in AU) Q6GI75 Q6GI75 2.75 X-RAY DIFFRACTION 10 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 200 207 MLNLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSISSYSLTIVAHEAKKLMPEGGSIVATTYKASLEANVKYLALDLGPDNIRVNAISAGPIRLKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAI MLNLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIISSYSLTIVAHEAKKLMPEGGSIVATTYKASLEANVKYLALDLGPDNIRVNAISAGPIRTFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK 3gnt-a2-m1-cB_3gnt-a2-m1-cA Crystal Structure of the Staphylococcus aureus Enoyl-Acyl Carrier Protein Reductase (FabI) in apo form (two molecules in AU) Q6GI75 Q6GI75 2.75 X-RAY DIFFRACTION 117 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 200 207 3gns-a1-m1-cA_3gns-a1-m2-cA 3gns-a1-m3-cA_3gns-a1-m4-cA 3gns-a2-m1-cA_3gns-a2-m2-cA 3gnt-a1-m1-cB_3gnt-a1-m1-cA 3gnt-a1-m2-cB_3gnt-a1-m2-cA 4aln-a2-m1-cH_4aln-a2-m1-cE MLNLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSISSYSLTIVAHEAKKLMPEGGSIVATTYKASLEANVKYLALDLGPDNIRVNAISAGPIRLKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAI MLNLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIISSYSLTIVAHEAKKLMPEGGSIVATTYKASLEANVKYLALDLGPDNIRVNAISAGPIRTFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK 3gny-a2-m1-cA_3gny-a2-m1-cB Crystal structure of human alpha-defensin 1 (HNP1) P59665 P59665 1.56 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1dfn-a1-m1-cA_1dfn-a1-m1-cB 1dfn-a2-m1-cA_1dfn-a2-m1-cB 1dfn-a2-m2-cA_1dfn-a2-m2-cB 1zmh-a1-m1-cA_1zmh-a1-m1-cB 1zmh-a3-m1-cA_1zmh-a3-m1-cB 1zmh-a3-m2-cA_1zmh-a3-m2-cB 2pm4-a1-m1-cA_2pm4-a1-m2-cA 2pm4-a2-m1-cB_2pm4-a2-m3-cB 3gny-a1-m1-cA_3gny-a1-m1-cB 3gny-a1-m2-cA_3gny-a1-m2-cB 3lo2-a3-m1-cA_3lo2-a3-m1-cB 3lo6-a3-m1-cA_3lo6-a3-m1-cB 3lo9-a3-m1-cA_3lo9-a3-m1-cB ACYCRIPACIAGERRYGTCIYQGRLWAFCC ACYCRIPACIAGERRYGTCIYQGRLWAFCC 3go6-a2-m1-cA_3go6-a2-m2-cB Crystal Structure of M. tuberculosis ribokinase (Rv2436) in complex with ribose and AMP-PNP P71913 P71913 1.98 X-RAY DIFFRACTION 109 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 287 287 3go6-a1-m1-cA_3go6-a1-m2-cB 3go6-a2-m1-cB_3go6-a2-m2-cA 3go7-a1-m1-cA_3go7-a1-m2-cB 3go7-a2-m1-cA_3go7-a2-m2-cB 3go7-a2-m1-cB_3go7-a2-m2-cA APRVCVVGSVNMDLTFVVDALPRPGETVLAASLTRTPGGKGANQAVAAARAGAQVQFSGAFGDDPAAAQLRAHLRANAVGLDRTVTVPGPSGTAIIVVDASAENTVLVAPGANAHLTPVPSAVANCDVLLTQLEIPVATALAAARAAQSADAVVMVNASPAGQDRSSLQDLAAIADVVIANEHEANDWPSPPTHFVITLGVRGARYVGADGVFEVPAPTVTPVDTAGAGDVFAGVLAANWPRNPGSPAERLRALRRACAAGALATLVSGVGDCAPAAAAIDAALRAN APRVCVVGSVNMDLTFVVDALPRPGETVLAASLTRTPGGKGANQAVAAARAGAQVQFSGAFGDDPAAAQLRAHLRANAVGLDRTVTVPGPSGTAIIVVDASAENTVLVAPGANAHLTPVPSAVANCDVLLTQLEIPVATALAAARAAQSADAVVMVNASPAGQDRSSLQDLAAIADVVIANEHEANDWPSPPTHFVITLGVRGARYVGADGVFEVPAPTVTPVDTAGAGDVFAGVLAANWPRNPGSPAERLRALRRACAAGALATLVSGVGDCAPAAAAIDAALRAN 3go6-a2-m2-cA_3go6-a2-m2-cB Crystal Structure of M. tuberculosis ribokinase (Rv2436) in complex with ribose and AMP-PNP P71913 P71913 1.98 X-RAY DIFFRACTION 32 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 287 287 3go6-a2-m1-cA_3go6-a2-m1-cB 3go7-a2-m1-cA_3go7-a2-m1-cB 3go7-a2-m2-cA_3go7-a2-m2-cB APRVCVVGSVNMDLTFVVDALPRPGETVLAASLTRTPGGKGANQAVAAARAGAQVQFSGAFGDDPAAAQLRAHLRANAVGLDRTVTVPGPSGTAIIVVDASAENTVLVAPGANAHLTPVPSAVANCDVLLTQLEIPVATALAAARAAQSADAVVMVNASPAGQDRSSLQDLAAIADVVIANEHEANDWPSPPTHFVITLGVRGARYVGADGVFEVPAPTVTPVDTAGAGDVFAGVLAANWPRNPGSPAERLRALRRACAAGALATLVSGVGDCAPAAAAIDAALRAN APRVCVVGSVNMDLTFVVDALPRPGETVLAASLTRTPGGKGANQAVAAARAGAQVQFSGAFGDDPAAAQLRAHLRANAVGLDRTVTVPGPSGTAIIVVDASAENTVLVAPGANAHLTPVPSAVANCDVLLTQLEIPVATALAAARAAQSADAVVMVNASPAGQDRSSLQDLAAIADVVIANEHEANDWPSPPTHFVITLGVRGARYVGADGVFEVPAPTVTPVDTAGAGDVFAGVLAANWPRNPGSPAERLRALRRACAAGALATLVSGVGDCAPAAAAIDAALRAN 3goa-a1-m1-cA_3goa-a1-m1-cB Crystal structure of the Salmonella typhimurium FadA 3-ketoacyl-CoA thiolase P0A2H7 P0A2H7 1.7 X-RAY DIFFRACTION 158 1.0 360 361 EQVVIVDAIRTPGRSKGGAFRNVRAEDLSAHLRSLLARNPSLTAATLDDIYWGCVQQTLEQGFNIARNAALLAEIPHSVPAVTVNRLCGSSQALHDAARITGDAQVCLVGGVEHGHVPSHGVDFHPGLSGGLTAELSRLHGISREQDQFAARSHARAWAATQSGAFKTEIIPTGGHDADGVLKQFNYDEVIRPETTVEALSTLRPAFDPVSGTVTAGTSSALSDGAAALVSESRARELGLKPRARIRSAVVGCDPSIGYGPVPASKLALKKAGLSASDIDVFENEAFAAQILPCIKDLGLEQIDEKINLNGGAIALGHPLGCSGARISTTLINLERKDAQFGLATCIGLGQGIATVFERV EQVVIVDAIRTPGRSKGGAFRNVRAEDLSAHLRSLLARNPSLTAATLDDIYWGCVQQTLEQGFNIARNAALLAEIPHSVPAVTVNRLCGSSQALHDAARITGDAQVCLVGGVEHGHVPSHGVDFHPGLSRGGLTAELSRLHGISREQDQFAARSHARAWAATQSGAFKTEIIPTGGHDADGVLKQFNYDEVIRPETTVEALSTLRPAFDPVSGTVTAGTSSALSDGAAALVSESRARELGLKPRARIRSAVVGCDPSIGYGPVPASKLALKKAGLSASDIDVFENEAFAAQILPCIKDLGLEQIDEKINLNGGAIALGHPLGCSGARISTTLINLERKDAQFGLATCIGLGQGIATVFERV 3goc-a2-m1-cA_3goc-a2-m1-cB Crystal structure of the Endonuclease V (SAV1684) from Streptomyces avermitilis. Northeast Structural Genomics Consortium Target SvR196 Q82MH6 Q82MH6 1.6 X-RAY DIFFRACTION 48 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 228 228 3goc-a1-m1-cA_3goc-a1-m1-cB TTVRIPAGWPATEEEARAVQDELRGRVILDEPGPPPGTGRVTGVDVAYDDERDVVVAAAVVLDAATLDVVAEATAVGEVSFPYVPGLLAFREIPTVLAALDALPCPPGLIVCDGYGVAHPRRFGLASHLGVLTGLPTIGVAKNPFTFSYEDPGAPRGSAAPLLAGADEVGRALRTQSGVKPVFVSVGHRVDLDHACAHTLALTPKYRIPETTRRADSLCRRALKEATA TTVRIPAGWPATEEEARAVQDELRGRVILDEPGPPPGTGRVTGVDVAYDDERDVVVAAAVVLDAATLDVVAEATAVGEVSFPYVPGLLAFREIPTVLAALDALPCPPGLIVCDGYGVAHPRRFGLASHLGVLTGLPTIGVAKNPFTFSYEDPGAPRGSAAPLLAGADEVGRALRTQSGVKPVFVSVGHRVDLDHACAHTLALTPKYRIPETTRRADSLCRRALKEATA 3god-a1-m1-cC_3god-a1-m2-cD Structural basis for DNase activity of a conserved protein implicated in CRISPR-mediated antiviral defense Q02ML7 Q02ML7 2.17 X-RAY DIFFRACTION 75 0.993 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 290 296 LHSKRANLYYLQHCRVLVNGGRVEYVTDEGRWNIPIANTTSLLLGTGTSITQAARELARAGVLVGFCGGGGTPLFSANEVDVETEYLQRWVGFWFDEEKRLVAARHFQRARLERIRHSWLEDRVLRDAGFAVDATALAVAVEDSARALEQAPNHEHLLTEEARLSKRLFKLAAQATRYGEFVRAKRGSGGDPANRFLDHGNYLAYGLAATATWVLGIPHGLAVLHGKTRRGGLVFDVADLIKDSLILPQAFLSARGDEEQDFRQACLDNLSRAQALDFIDTLKDVAQRST LKTILHSKRANLYYLQHCRVLVNGGRVEYVTDEGRHSHYWNIPIANTTSLLLGTGTSITQAARELARAGVLVGFCGGGGTPLFSANEVDVEYLQRWVGFWFDEEKRLVAARHFQRARLERIRHSWLEDRVLRDAGFAVDATALAVAVEDSARALEQAPNHEHLLTEEARLSKRLFKLAAQATRYGEFVRAKRGSGGDPANRFLDHGNYLAYGLAATATWVLGIPHGLAVLHGKTRRGGLVFDVADLIKDSLILPQAFLSARGDEEQDFRQACLDNLSRAQALDFIDTLKDVAQRST 3god-a1-m2-cD_3god-a1-m1-cA Structural basis for DNase activity of a conserved protein implicated in CRISPR-mediated antiviral defense Q02ML7 Q02ML7 2.17 X-RAY DIFFRACTION 21 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 296 317 LKTILHSKRANLYYLQHCRVLVNGGRVEYVTDEGRHSHYWNIPIANTTSLLLGTGTSITQAARELARAGVLVGFCGGGGTPLFSANEVDVEYLQRWVGFWFDEEKRLVAARHFQRARLERIRHSWLEDRVLRDAGFAVDATALAVAVEDSARALEQAPNHEHLLTEEARLSKRLFKLAAQATRYGEFVRAKRGSGGDPANRFLDHGNYLAYGLAATATWVLGIPHGLAVLHGKTRRGGLVFDVADLIKDSLILPQAFLSARGDEEQDFRQACLDNLSRAQALDFIDTLKDVAQRST DISPSELKTILHSKRANLYYLQHCRVLVNGGRVEYVTDEGRHSHYWNIPIANTTSLLLGTGTSITQAARELARAGVLVGFCGGGGTPLFSANEVDVEVSWLTPQSEYRPTEYLQRWVGFWFDEEKRLVAARHFQRARLERIRHSWLEDRVLRDAGFAVDATALAVAVEDSARALEQAPNHEHLLTEEARLSKRLFKLAAQATRYGEFVRAKRGSGGDPANRFLDHGNYLAYGLAATATWVLGIPHGLAVLHGKTRRGGLVFDVADLIKDSLILPQAFLSARGDEEQDFRQACLDNLSRAQALDFIDTLKDVAQRSTV 3god-a3-m1-cD_3god-a3-m1-cB Structural basis for DNase activity of a conserved protein implicated in CRISPR-mediated antiviral defense Q02ML7 Q02ML7 2.17 X-RAY DIFFRACTION 135 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 296 316 3god-a1-m1-cC_3god-a1-m1-cA 3god-a1-m2-cD_3god-a1-m2-cB 3god-a2-m1-cC_3god-a2-m1-cA LKTILHSKRANLYYLQHCRVLVNGGRVEYVTDEGRHSHYWNIPIANTTSLLLGTGTSITQAARELARAGVLVGFCGGGGTPLFSANEVDVEYLQRWVGFWFDEEKRLVAARHFQRARLERIRHSWLEDRVLRDAGFAVDATALAVAVEDSARALEQAPNHEHLLTEEARLSKRLFKLAAQATRYGEFVRAKRGSGGDPANRFLDHGNYLAYGLAATATWVLGIPHGLAVLHGKTRRGGLVFDVADLIKDSLILPQAFLSARGDEEQDFRQACLDNLSRAQALDFIDTLKDVAQRST DISPSELKTILHSKRANLYYLQHCRVLVNGGRVEYVTDEGRHSHYWNIPIANTTSLLLGTGTSITQAARELARAGVLVGFCGGGGTPLFSANEVDVEVSWLTPQSEYRPTEYLQRWVGFWFDEEKRLVAARHFQRARLERIRHSWLEDRVLRDAGFAVDATALAVAVEDSARALEQAPNHEHLLTEEARLSKRLFKLAAQATRYGEFVRAKRGSGGDPANRFLDHGNYLAYGLAATATWVLGIPHGLAVLHGKTRRGGLVFDVADLIKDSLILPQAFLSARGDEEQDFRQACLDNLSRAQALDFIDTLKDVAQRST 3gop-a1-m1-cA_3gop-a1-m2-cA Crystal structure of the EGF receptor juxtamembrane and kinase domains P00533 P00533 2.8 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 300 300 KRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGGTVYKGLWIPEGEVKIPVAIMELKANKEILDEAYVMASVDNPHVCRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITDFGVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDEDSNFYRALMDVVDADEYLI KRTLRRLLQERELVEPLTPSGEAPNQALLRILKETEFKKIKVLGGTVYKGLWIPEGEVKIPVAIMELKANKEILDEAYVMASVDNPHVCRLLGICLTSTVQLITQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITDFGVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQPPICTIDVYMIMVKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDEDSNFYRALMDVVDADEYLI 3gor-a2-m1-cD_3gor-a2-m1-cC Crystal structure of putative metal-dependent hydrolase APC36150 D0VX25 D0VX25 2.511 X-RAY DIFFRACTION 62 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 144 147 3gor-a1-m1-cA_3gor-a1-m1-cB SRAKKWVQYFLSHRHVTELIHKIDEAHYDYKPTPTSTAKQLATHLFSFYNFANTAKHGDPSLFRQKIEEPETNLAKLAETYTEKTRQLIESSDDDFDRTLDLTAIFGTQSTAQFLQLADHEIHHKGQLFVYVRGGHTDLPLFVK SNASRAKKWVQYFLSHRHVTELIHKIDEAHYDYKPTPTSTAKQLATHLFSFYNFANTAKHGDPSLFRQKIEEPETNLAKLAETYTEKTRQLIESSDDDFDRTLDLTAIFGTQSTAQFLQLADHEIHHKGQLFVYVRGGHTDLPLFVK 3gox-a1-m1-cA_3gox-a1-m1-cB Crystal structure of the beta-beta-alpha-Me type II restriction endonuclease Hpy99I in the absence of EDTA Q9ZL26 Q9ZL26 1.5 X-RAY DIFFRACTION 156 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 189 189 3fc3-a1-m1-cB_3fc3-a1-m1-cA MLKNDDFVIAKNQLGNIVPNSVGVIRAVNGKSAMVLFIGLNELKRVDFSELEAIDIYRTGKGYDKKICNICHILKNTDGFEINQTDAKGRKTTRPSCRECRKNIDGVKLSSTEKKKMDEIAPPKGSVFTCPICEKRSIVGVTANLVHDHNHDTGWGREWICDSCNTGLGRFKDNPKFLEKVIEYLKKYE MLKNDDFVIAKNQLGNIVPNSVGVIRAVNGKSAMVLFIGLNELKRVDFSELEAIDIYRTGKGYDKKICNICHILKNTDGFEINQTDAKGRKTTRPSCRECRKNIDGVKLSSTEKKKMDEIAPPKGSVFTCPICEKRSIVGVTANLVHDHNHDTGWGREWICDSCNTGLGRFKDNPKFLEKVIEYLKKYE 3gp2-a1-m1-cA_3gp2-a1-m2-cA Calmodulin bound to peptide from calmodulin kinase II (CaMKII) P62149 P62149 1.46 X-RAY DIFFRACTION 56 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 146 146 1zuz-a2-m1-cA_1zuz-a2-m2-cA 6os4-a2-m1-cA_6os4-a2-m2-cA DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA 3gp4-a2-m2-cB_3gp4-a2-m3-cB Crystal structure of putative MerR family transcriptional regulator from listeria monocytogenes 1.85 X-RAY DIFFRACTION 22 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 130 130 3gp4-a2-m1-cA_3gp4-a2-m2-cA 3gp4-a2-m1-cA_3gp4-a2-m3-cA 3gp4-a2-m1-cB_3gp4-a2-m2-cB 3gp4-a2-m1-cB_3gp4-a2-m3-cB 3gp4-a2-m2-cA_3gp4-a2-m3-cA SLNIKEASEKSGVSADTIRYYERIGLIPPIHRNESGVRKFGAEDLRWILFTRQMRRAGLSIEALIDYLALFREGEHTLEARAELLKKQRIELKNRIDVMQEALDRLDFKIDNYDTHLIPAQEELKDFNVE SLNIKEASEKSGVSADTIRYYERIGLIPPIHRNESGVRKFGAEDLRWILFTRQMRRAGLSIEALIDYLALFREGEHTLEARAELLKKQRIELKNRIDVMQEALDRLDFKIDNYDTHLIPAQEELKDFNVE 3gp4-a2-m3-cB_3gp4-a2-m3-cA Crystal structure of putative MerR family transcriptional regulator from listeria monocytogenes 1.85 X-RAY DIFFRACTION 95 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 130 132 3gp4-a1-m1-cB_3gp4-a1-m1-cA 3gp4-a2-m1-cB_3gp4-a2-m1-cA 3gp4-a2-m2-cB_3gp4-a2-m2-cA SLNIKEASEKSGVSADTIRYYERIGLIPPIHRNESGVRKFGAEDLRWILFTRQMRRAGLSIEALIDYLALFREGEHTLEARAELLKKQRIELKNRIDVMQEALDRLDFKIDNYDTHLIPAQEELKDFNVE SLNIKEASEKSGVSADTIRYYERIGLIPPIHRNESGVRKFGAEDLRWILFTRQMRRAGLSIEALIDYLALFREGEHTLEARAELLKKQRIELKNRIDVMQEALDRLDFKIDNYDTHLIPAQEELKDFNVERS 3gpd-a1-m1-cG_3gpd-a1-m2-cR TWINNING IN CRYSTALS OF HUMAN SKELETAL MUSCLE D-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE P04406 P04406 3.5 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3gpd-a1-m1-cR_3gpd-a1-m2-cG GKVKVGVDGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLHYMVYMFQYDSTHGKFHGTVKAEDGKLVIDGKAITIFQERDPENIKWGDAGTAYVVESTGVFTTMEKAGAHLKGGAKRIVISAPSADAPMFVMGVNHFKYANSLKIISNASCTTNCLAPLAKVIHDHFGIVEGLMTTVHAITATQKTVDSPSGKLWRGGRGAAQNLIPASTGAAKAVGKVIPELDGKLTGMAFRVPTANVSVLDLTCRLEKPAKYDDIKKVVKEASEGPLKGILGYTEDEVVSDDFNGSNHSSIFDAGAGIELNDTFVKLVSWYDNEFGYSERVVDLMAHMASKE GKVKVGVDGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLHYMVYMFQYDSTHGKFHGTVKAEDGKLVIDGKAITIFQERDPENIKWGDAGTAYVVESTGVFTTMEKAGAHLKGGAKRIVISAPSADAPMFVMGVNHFKYANSLKIISNASCTTNCLAPLAKVIHDHFGIVEGLMTTVHAITATQKTVDSPSGKLWRGGRGAAQNLIPASTGAAKAVGKVIPELDGKLTGMAFRVPTANVSVLDLTCRLEKPAKYDDIKKVVKEASEGPLKGILGYTEDEVVSDDFNGSNHSSIFDAGAGIELNDTFVKLVSWYDNEFGYSERVVDLMAHMASKE 3gpd-a1-m1-cR_3gpd-a1-m2-cR TWINNING IN CRYSTALS OF HUMAN SKELETAL MUSCLE D-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE P04406 P04406 3.5 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3gpd-a1-m1-cG_3gpd-a1-m2-cG GKVKVGVDGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLHYMVYMFQYDSTHGKFHGTVKAEDGKLVIDGKAITIFQERDPENIKWGDAGTAYVVESTGVFTTMEKAGAHLKGGAKRIVISAPSADAPMFVMGVNHFKYANSLKIISNASCTTNCLAPLAKVIHDHFGIVEGLMTTVHAITATQKTVDSPSGKLWRGGRGAAQNLIPASTGAAKAVGKVIPELDGKLTGMAFRVPTANVSVLDLTCRLEKPAKYDDIKKVVKEASEGPLKGILGYTEDEVVSDDFNGSNHSSIFDAGAGIELNDTFVKLVSWYDNEFGYSERVVDLMAHMASKE GKVKVGVDGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLHYMVYMFQYDSTHGKFHGTVKAEDGKLVIDGKAITIFQERDPENIKWGDAGTAYVVESTGVFTTMEKAGAHLKGGAKRIVISAPSADAPMFVMGVNHFKYANSLKIISNASCTTNCLAPLAKVIHDHFGIVEGLMTTVHAITATQKTVDSPSGKLWRGGRGAAQNLIPASTGAAKAVGKVIPELDGKLTGMAFRVPTANVSVLDLTCRLEKPAKYDDIKKVVKEASEGPLKGILGYTEDEVVSDDFNGSNHSSIFDAGAGIELNDTFVKLVSWYDNEFGYSERVVDLMAHMASKE 3gpd-a1-m2-cG_3gpd-a1-m2-cR TWINNING IN CRYSTALS OF HUMAN SKELETAL MUSCLE D-GLYCERALDEHYDE-3-PHOSPHATE DEHYDROGENASE P04406 P04406 3.5 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3gpd-a1-m1-cG_3gpd-a1-m1-cR GKVKVGVDGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLHYMVYMFQYDSTHGKFHGTVKAEDGKLVIDGKAITIFQERDPENIKWGDAGTAYVVESTGVFTTMEKAGAHLKGGAKRIVISAPSADAPMFVMGVNHFKYANSLKIISNASCTTNCLAPLAKVIHDHFGIVEGLMTTVHAITATQKTVDSPSGKLWRGGRGAAQNLIPASTGAAKAVGKVIPELDGKLTGMAFRVPTANVSVLDLTCRLEKPAKYDDIKKVVKEASEGPLKGILGYTEDEVVSDDFNGSNHSSIFDAGAGIELNDTFVKLVSWYDNEFGYSERVVDLMAHMASKE GKVKVGVDGFGRIGRLVTRAAFNSGKVDIVAINDPFIDLHYMVYMFQYDSTHGKFHGTVKAEDGKLVIDGKAITIFQERDPENIKWGDAGTAYVVESTGVFTTMEKAGAHLKGGAKRIVISAPSADAPMFVMGVNHFKYANSLKIISNASCTTNCLAPLAKVIHDHFGIVEGLMTTVHAITATQKTVDSPSGKLWRGGRGAAQNLIPASTGAAKAVGKVIPELDGKLTGMAFRVPTANVSVLDLTCRLEKPAKYDDIKKVVKEASEGPLKGILGYTEDEVVSDDFNGSNHSSIFDAGAGIELNDTFVKLVSWYDNEFGYSERVVDLMAHMASKE 3gpv-a1-m1-cA_3gpv-a1-m1-cB Crystal structure of a transcriptional regulator, MerR family from Bacillus thuringiensis Q6HKH9 Q6HKH9 1.9 X-RAY DIFFRACTION 64 1.0 180856 ([Bacillus thuringiensis] serovar konkukian) 180856 ([Bacillus thuringiensis] serovar konkukian) 108 111 YYTIGQVAKQHLTISQIRYYDKQGLFPFLQRNEKGDRIFNEEALKYLEILCLKNTGPIQKIKQFIDWSEGDSTILHRLKLKQQEANVLQLIQDTEKNLKKIQQKIAKY YYTIGQVAKQHLTISQIRYYDKQGLFPFLQRNEKGDRIFNEEALKYLEILCLKNTGPIQKIKQFIDWSEGDSTILHRLKLKQQEANVLQLIQDTEKNLKKIQQKIAKYEDE 3gq2-a1-m1-cA_3gq2-a1-m1-cB Crystal Structure of the Dimer of the p115 Tether Globular Head Domain P41541 P41541 2.18 X-RAY DIFFRACTION 59 0.997 9913 (Bos taurus) 9913 (Bos taurus) 614 614 HTEAETIQKLCDRVASSTLLDDRRNAVRALKSLSKKYRLEVGIQAMEHLIHVLQTDRSDSEIIGYALDTLYNIISNDEEEEDLGSQFTEIFIKQQENVTLLLSLLEEFDFHVRWPGVKLLTSLLKQLGPQVQQIILVSPMGVSRLMDLLADSREVIRNDGVLLLQALTRSNGAIQKIVAFENAFERLLDIITEEGNSDGGIVVEDCLILLQNLLKNNNSNQNFFKEGSYIQRMKPWFEVGDENSGWSAQKVTNLHLMLQLVRVLVSPNNPPGATSSCQKAMFQCGLLQQLCTILMATGVPADILTETINTVSEVIRGCQVNQDYFASVNAPSNPPRPAIVVLLMSMVNERQPFVLRCAVLYCFQCFLYKNQKGQGEIVSTLLPSTIDATGNTVSAGQLLCGGLFSTDSLSNWCAAVALAHALQENATQKEQLLRVQLATSIGNPPVSLLQQCTNILSQGSKIQTRVGLLMLLCTWLSNCPIAVTHFLHNSANVPFLTGQIAENLGEEEQLVQGLCALLLGISIYFNDNSLETYMKEKLKQLIEKRIGKENFIEKLGFISKHELYSRASQKPQPNFPSPEYMIFDHEFTKLVKELEGVITKAIYKSSEEDKKEEE HTEAETIQKLCDRVASSTLLDDRRNAVRALKSLSKKYRLEVGIQAMEHLIHVLQTDRSDSEIIGYALDTLYNIISNDEEDLGSQFTEIFIKQQENVTLLLSLLEEFDFHVRWPGVKLLTSLLKQLGPQVQQIILVSPMGVSRLMDLLADSREVIRNDGVLLLQALTRSNGAIQKIVAFENAFERLLDIITEEGNSDGGIVVEDCLILLQNLLKNNNSNQNFFKEGSYIQRMKPWFEVGDENSGWSAQKVTNLHLMLQLVRVLVSPNNPPGATSSCQKAMFQCGLLQQLCTILMATGVPADILTETINTVSEVIRGCQVNQDYFASVNAPSNPPRPAIVVLLMSMVNERQPFVLRCAVLYCFQCFLYKNQKGQGEIVSTLLPSTIDATGNTVSAGQLLCGGLFSTDSLSNWCAAVALAHALQENATQKEQLLRVQLATSIGNPPVSLLQQCTNILSQGSKIQTRVGLLMLLCTWLSNCPIAVTHFLHNSANVPFLTGQIAENLGEEEQLVQGLCALLLGISIYFNDNSLETYMKEKLKQLIEKRIGKENFIEKLGFISKHELYSRASQKPQPNFPSPEYMIFDHEFTKLVKELEGVITKAIYKSSEEDKKEEEVK 3gq9-a2-m5-cA_3gq9-a2-m6-cA Crystal Structure of the Bacteriophage phi29 gene product 12 N-terminal fragment in an apo form P20345 P20345 2 X-RAY DIFFRACTION 392 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 604 604 3gq7-a1-m1-cA_3gq7-a1-m2-cA 3gq7-a1-m1-cA_3gq7-a1-m3-cA 3gq7-a1-m2-cA_3gq7-a1-m3-cA 3gq7-a2-m1-cA_3gq7-a2-m2-cA 3gq7-a2-m1-cA_3gq7-a2-m3-cA 3gq7-a2-m2-cA_3gq7-a2-m3-cA 3gq7-a2-m4-cA_3gq7-a2-m5-cA 3gq7-a2-m4-cA_3gq7-a2-m6-cA 3gq7-a2-m5-cA_3gq7-a2-m6-cA 3gq8-a1-m1-cA_3gq8-a1-m2-cA 3gq8-a1-m1-cA_3gq8-a1-m3-cA 3gq8-a1-m2-cA_3gq8-a1-m3-cA 3gq8-a2-m1-cA_3gq8-a2-m2-cA 3gq8-a2-m1-cA_3gq8-a2-m3-cA 3gq8-a2-m2-cA_3gq8-a2-m3-cA 3gq8-a2-m4-cA_3gq8-a2-m5-cA 3gq8-a2-m4-cA_3gq8-a2-m6-cA 3gq8-a2-m5-cA_3gq8-a2-m6-cA 3gq9-a1-m1-cA_3gq9-a1-m2-cA 3gq9-a1-m1-cA_3gq9-a1-m3-cA 3gq9-a1-m2-cA_3gq9-a1-m3-cA 3gq9-a2-m1-cA_3gq9-a2-m2-cA 3gq9-a2-m1-cA_3gq9-a2-m3-cA 3gq9-a2-m2-cA_3gq9-a2-m3-cA 3gq9-a2-m4-cA_3gq9-a2-m5-cA 3gq9-a2-m4-cA_3gq9-a2-m6-cA 3gqa-a1-m1-cA_3gqa-a1-m2-cA 3gqa-a1-m1-cA_3gqa-a1-m3-cA 3gqa-a1-m2-cA_3gqa-a1-m3-cA 3gqa-a1-m4-cA_3gqa-a1-m5-cA 3gqa-a1-m4-cA_3gqa-a1-m6-cA 3gqa-a1-m5-cA_3gqa-a1-m6-cA 3gqa-a2-m1-cA_3gqa-a2-m2-cA 3gqa-a2-m1-cA_3gqa-a2-m3-cA 3gqa-a2-m2-cA_3gqa-a2-m3-cA 3suc-a1-m1-cA_3suc-a1-m2-cA 3suc-a1-m1-cA_3suc-a1-m3-cA 3suc-a1-m2-cA_3suc-a1-m3-cA 3suc-a2-m1-cA_3suc-a2-m2-cA 3suc-a2-m1-cA_3suc-a2-m3-cA 3suc-a2-m2-cA_3suc-a2-m3-cA 3suc-a2-m4-cA_3suc-a2-m5-cA 3suc-a2-m4-cA_3suc-a2-m6-cA 3suc-a2-m5-cA_3suc-a2-m6-cA HFADLVIQVIDELKQFGVSVKTYGAKGDGVTDDIRAFEKAIESGFPVYVPYGTFMVSRGIKLPSNTVLTGAGKRNAVIRFMDSVGRGESLMYNENVTTGNENIFLSSFTLDGNNKRLGQGISGIGGSRESNLSIRACHNVYIRDIEAVDCTLHGIDITCGGLDYPYLGDGTTAPNPSENIWIENCEATGFGDDGITTHHSQYINILNCYSHDPRLTANCNGFEIDDGSRHVVLSNNRSKGCYGGIEIKAHGDAPAAYNISINGHMSVEDVRSYNFRHIGHHAATAPQSVSAKNIVASNLVSIRPNNKRGFQDNATPRVLAVSAYYGVVINGLTGYTDDPNLLTETVVSVQFRARNCSLNGVVLTGFSNSENGIYVIGGSRGGDAVNISNVTLNNSGRYGVSIGSGIENVSITNISGIGDGINSPVALVSTINSNPEISGLSSIGYPTVARVAGTDYNDGLTLFNGAFRASTTSSGKIHSEGFIMGSTSGCEASVSKSGVLTSSSSKTSSERSLIAGSSTSEAKGTYNTILGSLGAVADEQFAALISASQSRASGNHNLILSSYGINTTGSYKVNGGFEKINWELDSLNGRIKARDTVTGGNTWS HFADLVIQVIDELKQFGVSVKTYGAKGDGVTDDIRAFEKAIESGFPVYVPYGTFMVSRGIKLPSNTVLTGAGKRNAVIRFMDSVGRGESLMYNENVTTGNENIFLSSFTLDGNNKRLGQGISGIGGSRESNLSIRACHNVYIRDIEAVDCTLHGIDITCGGLDYPYLGDGTTAPNPSENIWIENCEATGFGDDGITTHHSQYINILNCYSHDPRLTANCNGFEIDDGSRHVVLSNNRSKGCYGGIEIKAHGDAPAAYNISINGHMSVEDVRSYNFRHIGHHAATAPQSVSAKNIVASNLVSIRPNNKRGFQDNATPRVLAVSAYYGVVINGLTGYTDDPNLLTETVVSVQFRARNCSLNGVVLTGFSNSENGIYVIGGSRGGDAVNISNVTLNNSGRYGVSIGSGIENVSITNISGIGDGINSPVALVSTINSNPEISGLSSIGYPTVARVAGTDYNDGLTLFNGAFRASTTSSGKIHSEGFIMGSTSGCEASVSKSGVLTSSSSKTSSERSLIAGSSTSEAKGTYNTILGSLGAVADEQFAALISASQSRASGNHNLILSSYGINTTGSYKVNGGFEKINWELDSLNGRIKARDTVTGGNTWS 3gqj-a2-m1-cA_3gqj-a2-m2-cA Crystal structure of Cell Inhibiting Factor (Cif) from Photorhabdus luminescens Q7N439 Q7N439 1.85 X-RAY DIFFRACTION 64 1.0 141679 (Photorhabdus laumondii subsp. laumondii) 141679 (Photorhabdus laumondii subsp. laumondii) 248 248 SINTIKLIDDIIALHNDPKGNKLLWNDNWQDKIINRDLANIFEKIDESVSELGGLEMYQEMVGVNPYDPTEPVCGLSAQNIFKLMTEGEHAVDPVEMAQTGKIDGNEFAESVDQLSSAKNYVALVNDRRLGHMFLIDIPSNDQETVGYIYQSDLGQGALPPLKIADWLNSRGKDAVSLNKLKKLLSREFNLLSDDEKRALISETLDIHKDVSNVELDRIKRDRGVDIYLTEYDVNNFYENIETLKSKL SINTIKLIDDIIALHNDPKGNKLLWNDNWQDKIINRDLANIFEKIDESVSELGGLEMYQEMVGVNPYDPTEPVCGLSAQNIFKLMTEGEHAVDPVEMAQTGKIDGNEFAESVDQLSSAKNYVALVNDRRLGHMFLIDIPSNDQETVGYIYQSDLGQGALPPLKIADWLNSRGKDAVSLNKLKKLLSREFNLLSDDEKRALISETLDIHKDVSNVELDRIKRDRGVDIYLTEYDVNNFYENIETLKSKL 3gqk-a1-m2-cA_3gqk-a1-m3-cA Crystal Structure of the Bacteriophage phi29 gene product 12 C-terminal fragment in complex with ATP P20345 P20345 2.5 X-RAY DIFFRACTION 56 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 163 163 3gqh-a1-m1-cA_3gqh-a1-m1-cB 3gqh-a1-m1-cA_3gqh-a1-m1-cC 3gqh-a1-m1-cB_3gqh-a1-m1-cC 3gqk-a1-m1-cA_3gqk-a1-m2-cA 3gqk-a1-m1-cA_3gqk-a1-m3-cA DFAEYFESLGGQVIETGYLVTLEKGKIRKAEKGEKIIGVISETAGFVLGESSFEWQGAVLKNEFGGIIYEEVTTEDGVKFKRPLPNPDFDPNKNYIPRSQRREWHVVGLLGQIAVRIDETVKQGHSIDAVGGVATDGDNFIVQEITTPYTKEKGYGVAIVLVK DFAEYFESLGGQVIETGYLVTLEKGKIRKAEKGEKIIGVISETAGFVLGESSFEWQGAVLKNEFGGIIYEEVTTEDGVKFKRPLPNPDFDPNKNYIPRSQRREWHVVGLLGQIAVRIDETVKQGHSIDAVGGVATDGDNFIVQEITTPYTKEKGYGVAIVLVK 3gr3-a1-m1-cA_3gr3-a1-m1-cB Crystal structure of a nitroreductase-like family protein (pnba, bh06130) from bartonella henselae str. houston-1 at 1.45 A resolution A0A0H3M323 A0A0H3M323 1.45 X-RAY DIFFRACTION 261 1.0 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 218 218 APIDIFQSILSRKSIRAFTDQPVTQETIREILKLAARAPSGTNLQPWQVIVLTGKILQKVGQELSQLVLSGIKGEREYHYYPRQWREPYLSRRRKVGLDLYKSLGIQKGDQEKLHQKAKNFLFYGAPVGLLFTIDHDEGSWLDLGFQTILAARGFGLDTCAQAAFADYHKQIRSLLSVPSDRHIICGALGYRDNAPENNFETEREPIDNFVHFIKSYP APIDIFQSILSRKSIRAFTDQPVTQETIREILKLAARAPSGTNLQPWQVIVLTGKILQKVGQELSQLVLSGIKGEREYHYYPRQWREPYLSRRRKVGLDLYKSLGIQKGDQEKLHQKAKNFLFYGAPVGLLFTIDHDEGSWLDLGFQTILAARGFGLDTCAQAAFADYHKQIRSLLSVPSDRHIICGALGYRDNAPENNFETEREPIDNFVHFIKSYP 3gr5-a1-m1-cA_3gr5-a1-m2-cA Periplasmic domain of the outer membrane secretin EscC from enteropathogenic E.coli (EPEC) O52135 O52135 2.05 X-RAY DIFFRACTION 64 1.0 562 (Escherichia coli) 562 (Escherichia coli) 153 153 MSSLEKRLGKNEYFIITKSSPVRAILNDFAANYSIPVFISSSVNDDFSGEIKNEKPVKVLEKLSKLYHLTWYYDENILYIYKTNEISRSIITPTYLDIDSLLKYLSDTISVNKNSCNVRKITTFNSIEVRGVPECIKYITSLSESLDKEAQSK MSSLEKRLGKNEYFIITKSSPVRAILNDFAANYSIPVFISSSVNDDFSGEIKNEKPVKVLEKLSKLYHLTWYYDENILYIYKTNEISRSIITPTYLDIDSLLKYLSDTISVNKNSCNVRKITTFNSIEVRGVPECIKYITSLSESLDKEAQSK 3gr7-a1-m2-cA_3gr7-a1-m2-cB Structure of OYE from Geobacillus kaustophilus, hexagonal crystal form Q5KXG9 Q5KXG9 2.3 X-RAY DIFFRACTION 52 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 340 340 3gr7-a1-m1-cA_3gr7-a1-m1-cB 3gr8-a1-m1-cA_3gr8-a1-m4-cB 3gr8-a1-m2-cA_3gr8-a1-m3-cB MNTMLFSPYTIRGLTLKNRIVMSPMCMYSCDTKDGAVRTWHKIHYPARAVGQVGLIIVEATGVTPQGRISERDLGIWSDDHIAGLRELVGLVKEHGAAIGIQLAHAGRKSQVPGEIIAPSAVPFDDSSPTPKEMTKADIEETVQAFQNGARRAKEAGFDVIEIHAAHGYLINEFLSPLSNRRQDEYGGSPENRYRFLGEVIDAVREVWDGPLFVRISASDYHPDGLTAKDYVPYAKRMKEQGVDLVDVSSGAIVPARMNVYPGYQVPFAELIRREADIPTGAVGLITSGWQAEEILQNGRADLVFLGRELLRNPYWPYAAARELGAKISAPVQYERGWRF MNTMLFSPYTIRGLTLKNRIVMSPMCMYSCDTKDGAVRTWHKIHYPARAVGQVGLIIVEATGVTPQGRISERDLGIWSDDHIAGLRELVGLVKEHGAAIGIQLAHAGRKSQVPGEIIAPSAVPFDDSSPTPKEMTKADIEETVQAFQNGARRAKEAGFDVIEIHAAHGYLINEFLSPLSNRRQDEYGGSPENRYRFLGEVIDAVREVWDGPLFVRISASDYHPDGLTAKDYVPYAKRMKEQGVDLVDVSSGAIVPARMNVYPGYQVPFAELIRREADIPTGAVGLITSGWQAEEILQNGRADLVFLGRELLRNPYWPYAAARELGAKISAPVQYERGWRF 3gr8-a3-m1-cB_3gr8-a3-m5-cB Structure of OYE from Geobacillus kaustophilus, orthorhombic crystal form Q5KXG9 Q5KXG9 2.5 X-RAY DIFFRACTION 70 1.0 1462 (Geobacillus kaustophilus) 1462 (Geobacillus kaustophilus) 340 340 3gr7-a1-m1-cA_3gr7-a1-m2-cA 3gr7-a1-m1-cB_3gr7-a1-m2-cB 3gr8-a1-m1-cA_3gr8-a1-m2-cA 3gr8-a1-m3-cB_3gr8-a1-m4-cB 3gr8-a2-m1-cA_3gr8-a2-m2-cA MNTMLFSPYTIRGLTLKNRIVMSPMCMYSCDTKDGAVRTWHKIHYPARAVGQVGLIIVEATGVTPQGRISERDLGIWSDDHIAGLRELVGLVKEHGAAIGIQLAHAGRKSQVPGEIIAPSAVPFDDSSPTPKEMTKADIEETVQAFQNGARRAKEAGFDVIEIHAAHGYLINEFLSPLSNRRQDEYGGSPENRYRFLGEVIDAVREVWDGPLFVRISASDYHPDGLTAKDYVPYAKRMKEQGVDLVDVSSGAIVPARMNVYPGYQVPFAELIRREADIPTGAVGLITSGWQAEEILQNGRADLVFLGRELLRNPYWPYAAARELGAKISAPVQYERGWRF MNTMLFSPYTIRGLTLKNRIVMSPMCMYSCDTKDGAVRTWHKIHYPARAVGQVGLIIVEATGVTPQGRISERDLGIWSDDHIAGLRELVGLVKEHGAAIGIQLAHAGRKSQVPGEIIAPSAVPFDDSSPTPKEMTKADIEETVQAFQNGARRAKEAGFDVIEIHAAHGYLINEFLSPLSNRRQDEYGGSPENRYRFLGEVIDAVREVWDGPLFVRISASDYHPDGLTAKDYVPYAKRMKEQGVDLVDVSSGAIVPARMNVYPGYQVPFAELIRREADIPTGAVGLITSGWQAEEILQNGRADLVFLGRELLRNPYWPYAAARELGAKISAPVQYERGWRF 3gra-a1-m1-cB_3gra-a1-m1-cA Crystal structure of AraC family transcriptional regulator from Pseudomonas putida Q88H39 Q88H39 2.3 X-RAY DIFFRACTION 34 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 155 180 PYRVDFILLEHFSASFTVADVLVTANLLRADSFQFTPLSLDGDRVLSDLGLELVATELSAAALKELDLLVVCGGLRTPLKYPELDRLLNDCAAHGALGGLWNGAWFLGRAGPEQRSFTLDRDRLSAASPNGAELLGLVRRLYGDGLAEGVEEILS PYRVDFILLEHFSASFTVADVLVTANLLRADSFQFTPLSLDGDRVLSDLGLELVATELSAAALKELDLLVVCGGLRTPLKYPELDRLLNDCAAHGALGGLWNGAWFLGRAGVLDDYGCSIHPEQRASLSERSPQTRITPASFTLDRDRLSAASPNGAELLGLVRRLYGDGLAEGVEEILS 3grc-a5-m1-cA_3grc-a5-m1-cC Crystal structure of a sensor protein from Polaromonas sp. JS666 Q121U0 Q121U0 2.21 X-RAY DIFFRACTION 11 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 121 121 PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA 3grc-a5-m1-cA_3grc-a5-m1-cD Crystal structure of a sensor protein from Polaromonas sp. JS666 Q121U0 Q121U0 2.21 X-RAY DIFFRACTION 13 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 121 121 PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA 3grc-a5-m1-cB_3grc-a5-m1-cA Crystal structure of a sensor protein from Polaromonas sp. JS666 Q121U0 Q121U0 2.21 X-RAY DIFFRACTION 30 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 120 121 PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDN PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA 3grc-a5-m1-cB_3grc-a5-m1-cC Crystal structure of a sensor protein from Polaromonas sp. JS666 Q121U0 Q121U0 2.21 X-RAY DIFFRACTION 11 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 120 121 PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDN PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA 3grc-a5-m1-cC_3grc-a5-m1-cD Crystal structure of a sensor protein from Polaromonas sp. JS666 Q121U0 Q121U0 2.21 X-RAY DIFFRACTION 18 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 121 121 PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA PRPRILICEDDPDIARLLNLLEKGGFDSDVHSAAQALEQVARRPYAATVDLNLPDQDGVSLIRALRRDSRTRDLAIVVVSANAREGELEFNSQPLAVSTWLEKPIDENLLILSLHRAIDNA 3grd-a1-m1-cA_3grd-a1-m1-cB Crystal structure of NTF2-superfamily protein with unknown function (NP_977240.1) from BACILLUS CEREUS ATCC 10987 at 1.25 A resolution Q73CZ7 Q73CZ7 1.25 X-RAY DIFFRACTION 81 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 128 128 PKANLEIIRSTYEGSASSNAKHLAEALSEKVEWTEAEGFPYGGTYIGVEAIENVFSRLGSEWNDYKASVNYHEVSGKDVIIAEGYSGVYKDTGKSFEAEFVHVWQLENGKIVKFKQYVDSHLVREAKS PKANLEIIRSTYEGSASSNAKHLAEALSEKVEWTEAEGFPYGGTYIGVEAIENVFSRLGSEWNDYKASVNYHEVSGKDVIIAEGYSGVYKDTGKSFEAEFVHVWQLENGKIVKFKQYVDSHLVREAKS 3grf-a1-m2-cA_3grf-a1-m3-cA X-ray Structure of Ornithine Transcarbamoylase from Giardia lamblia O76458 O76458 2 X-RAY DIFFRACTION 56 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 304 304 3grf-a1-m1-cA_3grf-a1-m2-cA 3grf-a1-m1-cA_3grf-a1-m3-cA KQTRHLLTISALCPKELAYLIDRALDMKKNPAKYTARAANKTLLAFFAKPSLRTRVSLETAMTRLGGHAIYYELTVQDTAEVFSRMVDICTARLATKEMMREMAQHASVPCINALDDFGHPLQMVCDFMTIKEKFTAAGEFSNGFKGIKFAYCGDSMNNVTYDLMRGCALLGMECHVCCPDHKDFKPIKEVIDECEEIIAKHGTGGSIKIFHDCKKGCEGVDVVYTDSWMKEARLKVLTPFQVDDAVMAVTSKRSIFMNCLPATRGEEQTASVIDGPKSVCYDEAGNRLHSAMAVLDFFLHDCK KQTRHLLTISALCPKELAYLIDRALDMKKNPAKYTARAANKTLLAFFAKPSLRTRVSLETAMTRLGGHAIYYELTVQDTAEVFSRMVDICTARLATKEMMREMAQHASVPCINALDDFGHPLQMVCDFMTIKEKFTAAGEFSNGFKGIKFAYCGDSMNNVTYDLMRGCALLGMECHVCCPDHKDFKPIKEVIDECEEIIAKHGTGGSIKIFHDCKKGCEGVDVVYTDSWMKEARLKVLTPFQVDDAVMAVTSKRSIFMNCLPATRGEEQTASVIDGPKSVCYDEAGNRLHSAMAVLDFFLHDCK 3grk-a1-m1-cC_3grk-a1-m1-cD Crystal structure of short chain dehydrogenase reductase SDR glucose-ribitol dehydrogenase from Brucella melitensis Q8YFK8 Q8YFK8 2.35 X-RAY DIFFRACTION 34 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 248 251 3grk-a1-m1-cA_3grk-a1-m1-cB 3grk-a2-m1-cE_3grk-a2-m1-cF 3grk-a2-m1-cG_3grk-a2-m1-cH GLLQGKRGLILGVANNRSIAWGIAKAAREAGAELAFTYQGDALKKRVEPLAEELGAFVAGHCDVADAASIDAVFETLEKKWGKLDFLVHAIGFSDKDELTGRYIDTSEANFTNTMLISVYSLTAVSRRAEKLMADGGSILTLTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDLGPQNIRVNAISAGPIKTGDFRYILKWNEYNAPLRRTVTIDEVGDVGLYFLSDLSRSVTGEVHHADSGYHVIGM GLLQGKRGLILGVANNRSIAWGIAKAAREAGAELAFTYQGDALKKRVEPLAEELGAFVAGHCDVADAASIDAVFETLEKKWGKLDFLVHAIGFSDKDELTGRYIDTSEANFTNTMLISVYSLTAVSRRAEKLMADGGSILTLTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDLGPQNIRVNAISAGPIKTLAAGDFRYILKWNEYNAPLRRTVTIDEVGDVGLYFLSDLSRSVTGEVHHADSGYHVIGM 3grk-a2-m1-cF_3grk-a2-m1-cH Crystal structure of short chain dehydrogenase reductase SDR glucose-ribitol dehydrogenase from Brucella melitensis Q8YFK8 Q8YFK8 2.35 X-RAY DIFFRACTION 114 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 252 252 3grk-a1-m1-cA_3grk-a1-m1-cC 3grk-a1-m1-cD_3grk-a1-m1-cB 3grk-a2-m1-cG_3grk-a2-m1-cE GLLQGKRGLILGVANNRSIAWGIAKAAREAGAELAFTYQGDALKKRVEPLAEELGAFVAGHCDVADAASIDAVFETLEKKWGKLDFLVHAIGFSDKDELTGRYIDTSEANFTNTMLISVYSLTAVSRRAEKLMADGGSILTLTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDLGPQNIRVNAISAGPIKTLAASGDFRYILKWNEYNAPLRRTVTIDEVGDVGLYFLSDLSRSVTGEVHHADSGYHVIGM GLLQGKRGLILGVANNRSIAWGIAKAAREAGAELAFTYQGDALKKRVEPLAEELGAFVAGHCDVADAASIDAVFETLEKKWGKLDFLVHAIGFSDKDELTGRYIDTSEANFTNTMLISVYSLTAVSRRAEKLMADGGSILTLTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDLGPQNIRVNAISAGPIKTLAASGDFRYILKWNEYNAPLRRTVTIDEVGDVGLYFLSDLSRSVTGEVHHADSGYHVIGM 3grk-a2-m1-cG_3grk-a2-m1-cF Crystal structure of short chain dehydrogenase reductase SDR glucose-ribitol dehydrogenase from Brucella melitensis Q8YFK8 Q8YFK8 2.35 X-RAY DIFFRACTION 116 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 247 252 3grk-a1-m1-cA_3grk-a1-m1-cD 3grk-a1-m1-cC_3grk-a1-m1-cB 3grk-a2-m1-cE_3grk-a2-m1-cH GLLQGKRGLILGVANNRSIAWGIAKAAREAGAELAFTYQGDALKKRVEPLAEELGAFVAGHCDVADAASIDAVFETLEKKWGKLDFLVHAIGFSDKDELTGRYIDTSEANFTNTMLISVYSLTAVSRRAEKLMADGGSILTLTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDLGPQNIRVNAISAGPIKGDFRYILKWNEYNAPLRRTVTIDEVGDVGLYFLSDLSRSVTGEVHHADSGYHVIGM GLLQGKRGLILGVANNRSIAWGIAKAAREAGAELAFTYQGDALKKRVEPLAEELGAFVAGHCDVADAASIDAVFETLEKKWGKLDFLVHAIGFSDKDELTGRYIDTSEANFTNTMLISVYSLTAVSRRAEKLMADGGSILTLTYYGAEKVMPNYNVMGVAKAALEASVKYLAVDLGPQNIRVNAISAGPIKTLAASGDFRYILKWNEYNAPLRRTVTIDEVGDVGLYFLSDLSRSVTGEVHHADSGYHVIGM 3grl-a2-m1-cA_3grl-a2-m2-cA Crystal Structure of the Monomer of the p115 Tether Globular Head Domain P41541 P41541 2 X-RAY DIFFRACTION 122 1.0 9913 (Bos taurus) 9913 (Bos taurus) 601 601 TEAETIQKLCDRVASSTLLDDRRNAVRALKSLSKKYRLEVGIQAMEHLIHVLQTDRSDSEIIGYALDTLYNIISNDDLGSQFTEIFIKQQENVTLLLSLLEEFDFHVRWPGVKLLTSLLKQLGPQVQQIILVSPMGVSRLMDLLADSREVIRNDGVLLLQALTRSNGAIQKIVAFENAFERLLDIITEEGNSDGGIVVEDCLILLQNLLKNNNSNQNFFKEGSYIQRMKPWFEVGDENSGWSAQKVTNLHLMLQLVRVLVSPNNPPGATSSCQKAMFQCGLLQQLCTILMATGVPADILTETINTVSEVIRGCQVNQDYFASVNAPSNPPRPAIVVLLMSMVNERQPFVLRCAVLYCFQCFLYKNQKGQGEIVSTLLPSTIDATGNTVSAGQLLCGGLFSTDSLSNWCAAVALAHALQENATQKEQLLRVQLATSIGNPPVSLLQQCTNILSQGSKIQTRVGLLMLLCTWLSNCPIAVTHFLHNSANVPFLTGQIAENLGEEEQLVQGLCALLLGISIYFNDNSLETYMKEKLKQLIEKRIGKENFIEKLGFISKHELYSRASQKPQPNFPSPEYMIFDHEFTKLVKELEGVITKAIYKSS TEAETIQKLCDRVASSTLLDDRRNAVRALKSLSKKYRLEVGIQAMEHLIHVLQTDRSDSEIIGYALDTLYNIISNDDLGSQFTEIFIKQQENVTLLLSLLEEFDFHVRWPGVKLLTSLLKQLGPQVQQIILVSPMGVSRLMDLLADSREVIRNDGVLLLQALTRSNGAIQKIVAFENAFERLLDIITEEGNSDGGIVVEDCLILLQNLLKNNNSNQNFFKEGSYIQRMKPWFEVGDENSGWSAQKVTNLHLMLQLVRVLVSPNNPPGATSSCQKAMFQCGLLQQLCTILMATGVPADILTETINTVSEVIRGCQVNQDYFASVNAPSNPPRPAIVVLLMSMVNERQPFVLRCAVLYCFQCFLYKNQKGQGEIVSTLLPSTIDATGNTVSAGQLLCGGLFSTDSLSNWCAAVALAHALQENATQKEQLLRVQLATSIGNPPVSLLQQCTNILSQGSKIQTRVGLLMLLCTWLSNCPIAVTHFLHNSANVPFLTGQIAENLGEEEQLVQGLCALLLGISIYFNDNSLETYMKEKLKQLIEKRIGKENFIEKLGFISKHELYSRASQKPQPNFPSPEYMIFDHEFTKLVKELEGVITKAIYKSS 3grn-a1-m1-cB_3grn-a1-m1-cA CRYSTAL STRUCTURE OF MUTT PROTEIN FROM Methanosarcina mazei Go1 Q8PYE2 Q8PYE2 1.7 X-RAY DIFFRACTION 45 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 137 138 LEKPYIISVYALIRNEKGEFLLLRRSENSRTNAGKWDLPGGKVNPDESLKEGVAREVWEETGITMVPGDIAGQVNFELTEKKVIAIVFDGGYVVADVKLSYEHIEYSWVSLEKILGMETLPAYFRDFFERFDRENKK SLEKPYIISVYALIRNEKGEFLLLRRSENSRTNAGKWDLPGGKVNPDESLKEGVAREVWEETGITMVPGDIAGQVNFELTEKKVIAIVFDGGYVVADVKLSYEHIEYSWVSLEKILGMETLPAYFRDFFERFDRENKK 3grn-a2-m1-cB_3grn-a2-m2-cA CRYSTAL STRUCTURE OF MUTT PROTEIN FROM Methanosarcina mazei Go1 Q8PYE2 Q8PYE2 1.7 X-RAY DIFFRACTION 61 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 137 138 LEKPYIISVYALIRNEKGEFLLLRRSENSRTNAGKWDLPGGKVNPDESLKEGVAREVWEETGITMVPGDIAGQVNFELTEKKVIAIVFDGGYVVADVKLSYEHIEYSWVSLEKILGMETLPAYFRDFFERFDRENKK SLEKPYIISVYALIRNEKGEFLLLRRSENSRTNAGKWDLPGGKVNPDESLKEGVAREVWEETGITMVPGDIAGQVNFELTEKKVIAIVFDGGYVVADVKLSYEHIEYSWVSLEKILGMETLPAYFRDFFERFDRENKK 3gro-a1-m1-cB_3gro-a1-m1-cA Human palmitoyl-protein thioesterase 1 P50897 P50897 2.53 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 268 APLPLVIWHGGDSCCNPLSGAIKKVEKKIPGIYVLSLEIGKTLEDVENSFFLNVNSQVTTVCQALAKDPKLQQGYNAGFSQGGQFLRAVAQRCPSPPINLISVGGQHQGVFGLPRCPGESSHICDFIRKTLNAGAYSKVVQERLVQAEYWHDPIKEDVYRNHSIFLADINQERGINESYKKNLALKKFVVKFLNDSIVDPVDSEWFGFYRSGQAKETIPLQETSLYTQDRLGLKEDNAGQLVFLATEGDHLQLSEEWFYAHIIPFL PAPLPLVIWHGGDSCCNPLSGAIKKVEKKIPGIYVLSLEIGKTLEDVENSFFLNVNSQVTTVCQALAKDPKLQQGYNAGFSQGGQFLRAVAQRCPSPPINLISVGGQHQGVFGLPRCPGESSHICDFIRKTLNAGAYSKVVQERLVQAEYWHDPIKEDVYRNHSIFLADINQERGINESYKKNLALKKFVVKFLNDSIVDPVDSEWFGFYRSGQAKETIPLQETSLYTQDRLGLKEDNAGQLVFLATEGDHLQLSEEWFYAHIIPFLG 3grp-a1-m1-cD_3grp-a1-m1-cA 2.1 Angstrom crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase from Bartonella henselae A0A0H3LWT6 A0A0H3LWT6 2.09 X-RAY DIFFRACTION 68 0.995 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 209 231 3grp-a1-m1-cC_3grp-a1-m1-cB SMFKLTGRKALVTGATGGIGEAIARCFHAQGAIVGLHGTREDKLKEIAADLGKDVFVFSANLSDRKSIKQLAEVAEREMEGIDILVNNAGIDQDWDDVLAVNLTAASTLTRELIHSMMRRRYGRIINITSIQTNYCAAKAGLIGFSKALAQEIASRNITVNCIAPGFIKMIPMKRMGIGEEIAFATVYLASDEAAYLTGQTLHINGGMA SMFKLTGRKALVTGATGGIGEAIARCFHAQGAIVGLHGTREDKLKEIAADLGKDVFVFSANLSDRKSIKQLAEVAEREMEGIDILVNNAGITVRMQDQDWDDVLAVNLTAASTLTRELIHSMMRRRYGRIINITSIGQTNYCAAKAGLIGFSKALAQEIASRNITVNCIAPGFIKSAMTDKLNEKQKEAIMAMIPMKRMGIGEEIAFATVYLASDEAAYLTGQTLHINGGM 3grp-a1-m1-cD_3grp-a1-m1-cC 2.1 Angstrom crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase from Bartonella henselae A0A0H3LWT6 A0A0H3LWT6 2.09 X-RAY DIFFRACTION 99 0.986 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 209 213 3grp-a1-m1-cB_3grp-a1-m1-cA SMFKLTGRKALVTGATGGIGEAIARCFHAQGAIVGLHGTREDKLKEIAADLGKDVFVFSANLSDRKSIKQLAEVAEREMEGIDILVNNAGIDQDWDDVLAVNLTAASTLTRELIHSMMRRRYGRIINITSIQTNYCAAKAGLIGFSKALAQEIASRNITVNCIAPGFIKMIPMKRMGIGEEIAFATVYLASDEAAYLTGQTLHINGGMA SMFKLTGRKALVTGATGGIGEAIARCFHAQGAIVGLHGTREDKLKEIAADLGKDVFVFSANLSDRKSIKQLAEVAEREMEGIDILVNNQDQDWDDVLAVNLTAASTLTRELIHSMMRRRYGRIINITSIQTNYCAAKAGLIGFSKALAQEIASRNITVNCIAPGFIKKEAIMAMIPMKRMGIGEEIAFATVYLASDEAAYLTGQTLHINGGMA 3grz-a1-m1-cA_3grz-a1-m1-cB CRYSTAL STRUCTURE OF ribosomal protein L11 methylase FROM Lactobacillus delbrueckii subsp. bulgaricus Q04AV7 Q04AV7 2 X-RAY DIFFRACTION 75 0.99 321956 (Lactobacillus delbrueckii subsp. bulgaricus ATCC BAA-365) 321956 (Lactobacillus delbrueckii subsp. bulgaricus ATCC BAA-365) 192 193 KYYHVINLSRHLAIVPEWEDYQPVFKDQEIIRLDPGGNHQTTQLAMLGIERAMVKPLTVADVGTGSGILAIAAHKLGAKSVLATDISDESMTAAEENAALNGIYDIALQKTSLLADVDGKFDLIVANILAEILLDLIPQLDSHLNEDGQVIFSGIDYLQLPKIEQALAENSFQIDLKMRAGRWIGLAISRKH YHVINLSRHLAIVPEWEDYQPVFKDQEIIRLDPGLAFGNHQTTQLAMLGIERAMVKPLTVADVGTGSGILAIAAHKLGAKSVLATDISDESMTAAEENAALNGIYDIALQKTSLLADVDGKFDLIVANILAEILLDLIPQLDSHLNEDGQVIFSGIDYLQLPKIEQALAENSFQIDLKMRAGRWIGLAISRKH 3gs2-a1-m1-cC_3gs2-a1-m1-cA Ring1B C-terminal domain/Cbx7 Cbox Complex Q99496 Q99496 1.699 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 109 SEIELVFRPHPTLMEKDDSAQTRYIKTSGNATVDHLSKYLAVRLALEELRSKGESNQMNLDTEKQYTIYIATASGQFTVLDGSFSLELVSEKYWKVNKPMELYYAPTK ASEIELVFRPHPTLMEKDDSAQTRYIKTSGNATVDHLSKYLAVRLALEELRSKGESNQMNLDTEKQYTIYIATASGQFTVLDGSFSLELVSEKYWKVNKPMELYYAPTK 3gs3-a1-m1-cA_3gs3-a1-m2-cA Structure of the N-terminal HEAT Domain of Symplekin from D. melanogaster Q8MSU4 Q8MSU4 2.4 X-RAY DIFFRACTION 39 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 249 249 KTATARAKVVDWCNELVIASPSTKCELLAKVQETVLGSCAELAEEFLESVLSLAHDSNMEVRKQVVAFVEQVCKVKVELLPHVINVVSMLLRDNSAQVIKRVIQACGSIYKNGLQYLCSLMEPGDSAEQAWNILSLIKAQILDMIDNENDGIRTNAIKFLEGVVVLQSFADEDSLKRDGDFSLADVPDHCTLFRREKLQEEGNNILDILLQFHGTTHISSVNLIACTSSLCTIAKMRPIFMGAVVEAFK KTATARAKVVDWCNELVIASPSTKCELLAKVQETVLGSCAELAEEFLESVLSLAHDSNMEVRKQVVAFVEQVCKVKVELLPHVINVVSMLLRDNSAQVIKRVIQACGSIYKNGLQYLCSLMEPGDSAEQAWNILSLIKAQILDMIDNENDGIRTNAIKFLEGVVVLQSFADEDSLKRDGDFSLADVPDHCTLFRREKLQEEGNNILDILLQFHGTTHISSVNLIACTSSLCTIAKMRPIFMGAVVEAFK 3gs9-a1-m2-cA_3gs9-a1-m3-cA Crystal structure of prophage tail protein gp18 (NP_465809.1) from Listeria monocytogenes EGD-e at 1.70 A resolution Q8Y4Z4 Q8Y4Z4 1.7 X-RAY DIFFRACTION 48 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 300 300 3gs9-a1-m1-cA_3gs9-a1-m2-cA 3gs9-a1-m1-cA_3gs9-a1-m3-cA SDIIVADFWNNEEILTDFDDSFESWTENEWSIEFVAQTCYSFLDYESSVYFRGQEFVVKQLSHDATLSKDIRAPHIYYTCQDGRQDDAITGSFTLEQCLTHIFTDNRGFSWEIIDPSNILEVQQENFGNNNYLTLIDQLLDDYGVVVIPDNRHLVFPREIYGAKTENFIRYYNTDEASFDIDTLSLTIGYGVDSNGNNYFSPITYTSPEVEWGIRWQEPVSDERYTVAGNQRRLLELQDYPATTGSVILECEGDYVLFIYEPLGIDYDVQIVAYYPFTIAPEITLSNNSIVSIAQLAVLG SDIIVADFWNNEEILTDFDDSFESWTENEWSIEFVAQTCYSFLDYESSVYFRGQEFVVKQLSHDATLSKDIRAPHIYYTCQDGRQDDAITGSFTLEQCLTHIFTDNRGFSWEIIDPSNILEVQQENFGNNNYLTLIDQLLDDYGVVVIPDNRHLVFPREIYGAKTENFIRYYNTDEASFDIDTLSLTIGYGVDSNGNNYFSPITYTSPEVEWGIRWQEPVSDERYTVAGNQRRLLELQDYPATTGSVILECEGDYVLFIYEPLGIDYDVQIVAYYPFTIAPEITLSNNSIVSIAQLAVLG 3gsd-a4-m1-cJ_3gsd-a4-m1-cL 2.05 Angstrom structure of a divalent-cation tolerance protein (CutA) from Yersinia pestis Q74XD3 Q74XD3 2.05 X-RAY DIFFRACTION 82 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 105 105 3gsd-a1-m1-cA_3gsd-a1-m1-cB 3gsd-a1-m1-cA_3gsd-a1-m1-cC 3gsd-a1-m1-cB_3gsd-a1-m1-cC 3gsd-a2-m1-cD_3gsd-a2-m1-cE 3gsd-a2-m1-cD_3gsd-a2-m1-cF 3gsd-a2-m1-cE_3gsd-a2-m1-cF 3gsd-a3-m1-cG_3gsd-a3-m1-cH 3gsd-a3-m1-cG_3gsd-a3-m1-cI 3gsd-a3-m1-cH_3gsd-a3-m1-cI 3gsd-a4-m1-cJ_3gsd-a4-m1-cK 3gsd-a4-m1-cK_3gsd-a4-m1-cL YSNAIVVLCTAPDEASAQNLAAQVLGEKLAACVTLLPGATSLYYWEGKLEQEYEVQLLFKSNTDHQQALLTYIKQHHPYQTPELLVLPVRDGDKDYLSWLNASLL YSNAIVVLCTAPDEASAQNLAAQVLGEKLAACVTLLPGATSLYYWEGKLEQEYEVQLLFKSNTDHQQALLTYIKQHHPYQTPELLVLPVRDGDKDYLSWLNASLL 3gt0-a2-m1-cA_3gt0-a2-m4-cA Crystal structure of pyrroline 5-carboxylate reductase from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR38B Q81C08 Q81C08 2 X-RAY DIFFRACTION 17 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 204 204 3gt0-a2-m2-cA_3gt0-a2-m3-cA DKQIGFIGCGNGAIGGINKNIVSSNQIICSDLNTANLKNASEKYGLTTTTDNNEVAKNADILILSIKPDLYASIIKEIIKNDAIIVTIAAGKSIESTENAFNKKVKVVRVPNTPALVGEGSALCPNEVTEKDLEDVLNIFNSFGQTEIVSEKLDVVTSVSGSSPAYVYIIEAADAAVLDGPRNQAYKFAAQAVLGSAKVLETGI DKQIGFIGCGNGAIGGINKNIVSSNQIICSDLNTANLKNASEKYGLTTTTDNNEVAKNADILILSIKPDLYASIIKEIIKNDAIIVTIAAGKSIESTENAFNKKVKVVRVPNTPALVGEGSALCPNEVTEKDLEDVLNIFNSFGQTEIVSEKLDVVTSVSGSSPAYVYIIEAADAAVLDGPRNQAYKFAAQAVLGSAKVLETGI 3gt0-a2-m3-cA_3gt0-a2-m4-cA Crystal structure of pyrroline 5-carboxylate reductase from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR38B Q81C08 Q81C08 2 X-RAY DIFFRACTION 170 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 204 204 3gt0-a1-m1-cA_3gt0-a1-m2-cA 3gt0-a2-m1-cA_3gt0-a2-m2-cA DKQIGFIGCGNGAIGGINKNIVSSNQIICSDLNTANLKNASEKYGLTTTTDNNEVAKNADILILSIKPDLYASIIKEIIKNDAIIVTIAAGKSIESTENAFNKKVKVVRVPNTPALVGEGSALCPNEVTEKDLEDVLNIFNSFGQTEIVSEKLDVVTSVSGSSPAYVYIIEAADAAVLDGPRNQAYKFAAQAVLGSAKVLETGI DKQIGFIGCGNGAIGGINKNIVSSNQIICSDLNTANLKNASEKYGLTTTTDNNEVAKNADILILSIKPDLYASIIKEIIKNDAIIVTIAAGKSIESTENAFNKKVKVVRVPNTPALVGEGSALCPNEVTEKDLEDVLNIFNSFGQTEIVSEKLDVVTSVSGSSPAYVYIIEAADAAVLDGPRNQAYKFAAQAVLGSAKVLETGI 3gtd-a1-m1-cB_3gtd-a1-m2-cB 2.4 Angstrom crystal structure of fumarate hydratase from Rickettsia prowazekii Q9ZCQ4 Q9ZCQ4 2.4 X-RAY DIFFRACTION 95 1.0 272947 (Rickettsia prowazekii str. Madrid E) 272947 (Rickettsia prowazekii str. Madrid E) 400 400 3gtd-a1-m1-cA_3gtd-a1-m2-cA NYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSL NYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSL 3gtd-a1-m2-cB_3gtd-a1-m1-cA 2.4 Angstrom crystal structure of fumarate hydratase from Rickettsia prowazekii Q9ZCQ4 Q9ZCQ4 2.4 X-RAY DIFFRACTION 207 1.0 272947 (Rickettsia prowazekii str. Madrid E) 272947 (Rickettsia prowazekii str. Madrid E) 400 455 3gtd-a1-m1-cB_3gtd-a1-m2-cA NYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSL NYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPGSSIMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSLMLVTVLNPHIGYDNAAKIAKEAHKYGITLKEAAKKLNFLSEEEFDKIVVPE 3gtd-a1-m2-cB_3gtd-a1-m2-cA 2.4 Angstrom crystal structure of fumarate hydratase from Rickettsia prowazekii Q9ZCQ4 Q9ZCQ4 2.4 X-RAY DIFFRACTION 192 1.0 272947 (Rickettsia prowazekii str. Madrid E) 272947 (Rickettsia prowazekii str. Madrid E) 400 455 3gtd-a1-m1-cB_3gtd-a1-m1-cA NYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSL NYRIESDSFGEIQIEEKFYWGAQTQRSLNNFKISKQKMPKILIRALAILKKCAAQVNYEFGDLEYKIATSIDKAIDRILAGEFEDNFPLVVWQTGSGTQTNMNMNEVIASIANEELTGKKGGKFPVHPNDHVNKGQSSNDSFPTAMHIATVLATKQQLIPALNNLLTYLQDKSKDWDKIIKIGRTHLQDATPLTLKQEFSGYITQIEYALERIEDALKKVYLLAQGGTAVGTGINSKIGFDIKFAQKVAEFTQQPFKTAPNKFESLAAHDALVEFSGTLNTIAVSLMKIANDIRLLGSGPRCGLGELHLPENEPGSSIMPGKVNPTQVEALTMVCTQVMGNHVTVTIAGSNGHLELNVFKPVIIYNILQSIELLSDSVNSFVTHCVKGLEPNIARINTLRDKSLMLVTVLNPHIGYDNAAKIAKEAHKYGITLKEAAKKLNFLSEEEFDKIVVPE 3gte-a1-m1-cA_3gte-a1-m1-cB Crystal Structure of Dicamba Monooxygenase with Non-heme Iron Q5S3I3 Q5S3I3 1.95 X-RAY DIFFRACTION 68 1.0 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 341 341 3gb4-a1-m1-cA_3gb4-a1-m1-cB 3gb4-a1-m1-cA_3gb4-a1-m1-cC 3gb4-a1-m1-cB_3gb4-a1-m1-cC 3gke-a1-m1-cB_3gke-a1-m1-cA 3gke-a1-m1-cC_3gke-a1-m1-cA 3gke-a1-m1-cC_3gke-a1-m1-cB 3gl0-a1-m1-cB_3gl0-a1-m1-cA 3gl0-a1-m1-cC_3gl0-a1-m1-cA 3gl0-a1-m1-cC_3gl0-a1-m1-cB 3gl2-a1-m1-cB_3gl2-a1-m1-cA 3gl2-a1-m1-cC_3gl2-a1-m1-cA 3gl2-a1-m1-cC_3gl2-a1-m1-cB 3gob-a1-m1-cA_3gob-a1-m1-cC 3gob-a1-m1-cB_3gob-a1-m1-cA 3gob-a1-m1-cB_3gob-a1-m1-cC 3gte-a1-m1-cC_3gte-a1-m1-cA 3gte-a1-m1-cC_3gte-a1-m1-cB 3gts-a1-m1-cA_3gts-a1-m1-cB 3gts-a1-m1-cC_3gts-a1-m1-cA 3gts-a1-m1-cC_3gts-a1-m1-cB 6vsh-a1-m1-cB_6vsh-a1-m1-cA 6vsh-a1-m1-cC_6vsh-a1-m1-cA 6vsh-a1-m1-cC_6vsh-a1-m1-cB ATFVRNAWYVAALPEELSEKPLGRTILDTPLALYRQPDGVVAALLDICPHRFAPLSDGILVNGHLQCPYHGLEFDGGGQCVHNPHGNGARPASLNVRSFPVVERDALIWIWPGDPALADPGAIPDFGCRVDPAYRTVGGYGHVDCNYKLLVDNLMDLGHAQYVHRANAQTDAFDRLEREVIVGDGEIQALMKIPGGTPSVLMAKFLRGANTPVDAWNDIRWNKVSAMLNFIAVAPEGTPKEQSIHSRGTHILTPETEASCHYFFGSSRNFGIDDPEMDGVLRSWQAQALVKEDKVVVEAIERRRAYVEANGIRPAMLSCDEAAVRVSREIEKLEQLEAARL ATFVRNAWYVAALPEELSEKPLGRTILDTPLALYRQPDGVVAALLDICPHRFAPLSDGILVNGHLQCPYHGLEFDGGGQCVHNPHGNGARPASLNVRSFPVVERDALIWIWPGDPALADPGAIPDFGCRVDPAYRTVGGYGHVDCNYKLLVDNLMDLGHAQYVHRANAQTDAFDRLEREVIVGDGEIQALMKIPGGTPSVLMAKFLRGANTPVDAWNDIRWNKVSAMLNFIAVAPEGTPKEQSIHSRGTHILTPETEASCHYFFGSSRNFGIDDPEMDGVLRSWQAQALVKEDKVVVEAIERRRAYVEANGIRPAMLSCDEAAVRVSREIEKLEQLEAARL 3gtt-a2-m1-cC_3gtt-a2-m1-cD Mouse SOD1 P08228 P08228 2.4 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 153 153 3gtt-a1-m1-cA_3gtt-a1-m1-cB 3gtt-a3-m1-cE_3gtt-a3-m1-cF 3ltv-a1-m1-cA_3ltv-a1-m1-cB 3ltv-a2-m1-cC_3ltv-a2-m1-cD 3ltv-a3-m1-cE_3ltv-a3-m1-cF AMKAVCVLKGDGPVQGTIHFEQKASGEPVVLSGQITGLTEGQHGFHVHQYGDNTQGCTSAGPHFNPHSKKHGGPADEERHVGDLGNVTAGKDGVANVSIEDRVISLSGEHSIIGRTMVVHEKQDDLGKGGNEESTKTGNAGSRLACGVIGIAQ AMKAVCVLKGDGPVQGTIHFEQKASGEPVVLSGQITGLTEGQHGFHVHQYGDNTQGCTSAGPHFNPHSKKHGGPADEERHVGDLGNVTAGKDGVANVSIEDRVISLSGEHSIIGRTMVVHEKQDDLGKGGNEESTKTGNAGSRLACGVIGIAQ 3gtu-a3-m1-cB_3gtu-a3-m2-cD LIGAND-FREE HETERODIMERIC HUMAN GLUTATHIONE S-TRANSFERASE M2-3 (EC 2.5.1.18), MONOCLINIC CRYSTAL FORM P21266 P21266 2.8 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 SCESSMVLGYWDIRGLAHAIRLLLEFTDTSYEEKRYTCGEAPDYDRSQWLDVKFKLDLDFPNLPYLLDGKNKITQSNAILRYIARKHNMCGETEEEKIRVDIIENQVMDFRTQLIRLCYSSDHEKLKPQYLEELPGQLKQFSMFLGKFSWFAGEKLTFVDFLTYDILDQNRIFDPKCLDEFPNLKAFMCRFEALEKIAAYLQSDQFCKMPINNKMAQWGNKPVC SCESSMVLGYWDIRGLAHAIRLLLEFTDTSYEEKRYTCGEAPDYDRSQWLDVKFKLDLDFPNLPYLLDGKNKITQSNAILRYIARKHNMCGETEEEKIRVDIIENQVMDFRTQLIRLCYSSDHEKLKPQYLEELPGQLKQFSMFLGKFSWFAGEKLTFVDFLTYDILDQNRIFDPKCLDEFPNLKAFMCRFEALEKIAAYLQSDQFCKMPINNKMAQWGNKPVC 3gtx-a1-m1-cA_3gtx-a1-m2-cA D71G/E101G mutant in organophosphorus hydrolase from Deinococcus radiodurans Q9RVU2 Q9RVU2 1.62 X-RAY DIFFRACTION 129 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 332 332 2zc1-a2-m1-cA_2zc1-a2-m2-cA 3fdk-a1-m1-cA_3fdk-a1-m2-cA 3gtf-a1-m1-cA_3gtf-a1-m2-cA 3gth-a1-m1-cA_3gth-a1-m2-cA 3gti-a1-m1-cA_3gti-a1-m2-cA 3gu1-a1-m1-cA_3gu1-a1-m2-cA 3gu2-a1-m1-cA_3gu2-a1-m2-cA 3gu9-a2-m1-cA_3gu9-a2-m2-cA 3htw-a2-m1-cA_3htw-a2-m2-cA 4j2m-a2-m1-cA_4j2m-a2-m2-cA 4j35-a2-m1-cA_4j35-a2-m2-cA 4j5n-a2-m1-cA_4j5n-a2-m2-cA SSGLVPRGSHMTAQTVTGAVAAAQLGATLPHEHVIFGYPGYAGDVTLGPFDHAAALASCTETARALLARGIQTVVDATPNGCGRNPAFLREVSEATGLQILCATGFYYEGGGATTYFKFRASLGDAESEIYEMMRTEVTEGIAGTGIRAGVILASSRDAITPYEQLFFRAAARVQRETGVPIITHTQEGQQGPQQAELLTSLGADPARIMIGHMDGNTDPAYHRETLRHGVSIAFDRIGLQGMVGTPTDAERLSVLTTLLGEGYADRLLLSHDSIWHWLGRPPAIPEAALPAVKDWHPLHISDDILPDLRRRGITEEQVGQMTVGNPARLFG SSGLVPRGSHMTAQTVTGAVAAAQLGATLPHEHVIFGYPGYAGDVTLGPFDHAAALASCTETARALLARGIQTVVDATPNGCGRNPAFLREVSEATGLQILCATGFYYEGGGATTYFKFRASLGDAESEIYEMMRTEVTEGIAGTGIRAGVILASSRDAITPYEQLFFRAAARVQRETGVPIITHTQEGQQGPQQAELLTSLGADPARIMIGHMDGNTDPAYHRETLRHGVSIAFDRIGLQGMVGTPTDAERLSVLTTLLGEGYADRLLLSHDSIWHWLGRPPAIPEAALPAVKDWHPLHISDDILPDLRRRGITEEQVGQMTVGNPARLFG 3gtz-a1-m1-cA_3gtz-a1-m1-cB Crystal structure of a putative translation initiation inhibitor from Salmonella typhimurium Q8ZP08 Q8ZP08 2.5 X-RAY DIFFRACTION 72 1.0 115 115 3gtz-a1-m1-cA_3gtz-a1-m1-cC 3gtz-a1-m1-cB_3gtz-a1-m1-cC SLSIVRIDAEDRWSDVVIYNNTLWYTGVPENLDADAFEQTANTLAQIDAVLEKQGSSKSRILDATIFLSDKADFAAMNKAWDAWVVAGHAPVRCTVQAGLMNPKYKVEIKIVAAV SLSIVRIDAEDRWSDVVIYNNTLWYTGVPENLDADAFEQTANTLAQIDAVLEKQGSSKSRILDATIFLSDKADFAAMNKAWDAWVVAGHAPVRCTVQAGLMNPKYKVEIKIVAAV 3gu3-a1-m1-cA_3gu3-a1-m1-cB Crystal Structure of the methyltransferase BC_2162 in complex with S-Adenosyl-L-Homocysteine from Bacillus cereus, Northeast Structural Genomics Consortium Target BcR20 Q81E32 Q81E32 2.3 X-RAY DIFFRACTION 158 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 268 268 2gh1-a1-m1-cA_2gh1-a1-m1-cB RDLYYNDDYVSFLVNTVWKITKPVHIVDYGCGYGYLGLVLPLLPEGSKYTGIDSGETLLAEARELFRLLPYDSEFLEGDATEIELNDKYDIAICHAFLLHTTPETLQKIHSVKKGGKIICFEPHWISNASYLLDGEKQSEFIQLGVLQKLFESDTQRNGKDGNIGKIPIYLSELGVKNIECRVSDKVNFLDSNHHNDKNDLYQSLKEEGIAGDPGDKQQFVERLIARGLTYDNALAQYEAELRFFKALHLHSSLVYAPNKITFGEIEC RDLYYNDDYVSFLVNTVWKITKPVHIVDYGCGYGYLGLVLPLLPEGSKYTGIDSGETLLAEARELFRLLPYDSEFLEGDATEIELNDKYDIAICHAFLLHTTPETLQKIHSVKKGGKIICFEPHWISNASYLLDGEKQSEFIQLGVLQKLFESDTQRNGKDGNIGKIPIYLSELGVKNIECRVSDKVNFLDSNHHNDKNDLYQSLKEEGIAGDPGDKQQFVERLIARGLTYDNALAQYEAELRFFKALHLHSSLVYAPNKITFGEIEC 3gud-a2-m4-cB_3gud-a2-m5-cB Crystal structure of a novel intramolecular chaperon Q9FZW3 Q9FZW3 2.2 X-RAY DIFFRACTION 87 1.0 12345 (Gaunavirus GA1) 12345 (Gaunavirus GA1) 120 120 3gud-a1-m1-cA_3gud-a1-m2-cA 3gud-a1-m1-cA_3gud-a1-m3-cA 3gud-a1-m2-cA_3gud-a1-m3-cA 3gud-a2-m1-cB_3gud-a2-m4-cB 3gud-a2-m1-cB_3gud-a2-m5-cB SDERHKTDIAPISDKVLDAWEKVKFYQYKFKDAVDEKGEEARYHFGVIAQQIVKVFEDEGLSAFDYGLVGYDEWEATEDEYDSEGNLVEKGREAGNIYSIRPTECQWLEMACMRRKLERL SDERHKTDIAPISDKVLDAWEKVKFYQYKFKDAVDEKGEEARYHFGVIAQQIVKVFEDEGLSAFDYGLVGYDEWEATEDEYDSEGNLVEKGREAGNIYSIRPTECQWLEMACMRRKLERL 3guv-a1-m1-cA_3guv-a1-m2-cA Crystal structure of a resolvase family site-specific recombinase from Streptococcus pneumoniae 2.2 X-RAY DIFFRACTION 92 1.0 406562 (Streptococcus pneumoniae SP19-BS75) 406562 (Streptococcus pneumoniae SP19-BS75) 149 149 KIKVYLYTRVSTSIQIEGYSLEAQKSRMKAFAIYNDYEIVGEYEDAGKSGKSIEGRIQFNRMMEDIKSGKDGVSFVLVFKLSRFARNAADVLSTLQIMQDYGVNLICVEDGIDSSKDKLMISVLSAVAEIERENIRIQTMEGCIQKARE KIKVYLYTRVSTSIQIEGYSLEAQKSRMKAFAIYNDYEIVGEYEDAGKSGKSIEGRIQFNRMMEDIKSGKDGVSFVLVFKLSRFARNAADVLSTLQIMQDYGVNLICVEDGIDSSKDKLMISVLSAVAEIERENIRIQTMEGCIQKARE 3guw-a2-m1-cC_3guw-a2-m1-cD Crystal Structure of the TatD-like Protein (AF1765) from Archaeoglobus fulgidus, Northeast Structural Genomics Consortium Target GR121 O28509 O28509 3.2 X-RAY DIFFRACTION 80 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 227 227 3guw-a1-m1-cA_3guw-a1-m1-cB YFDSHLHSEGLGFSELVKLKENGIKEVCSLAFFPVKPKYPQTIDVFRKLTEFEPLRCEAAGVKHPAVGIHPRCIPPDYEFVLGYLEEGEWVAFGEIGLELVTDEEIEVLKSQLELAKRDVPCIIHTPRGNKLKATRKTLEILESLDFPADLAVIDHVNFETLDVLETEYWIGLTVQDAARIVAEHGERFLNSDAGYRVAEAAVKIEEAVGREEEKVARENARKFLRV YFDSHLHSEGLGFSELVKLKENGIKEVCSLAFFPVKPKYPQTIDVFRKLTEFEPLRCEAAGVKHPAVGIHPRCIPPDYEFVLGYLEEGEWVAFGEIGLELVTDEEIEVLKSQLELAKRDVPCIIHTPRGNKLKATRKTLEILESLDFPADLAVIDHVNFETLDVLETEYWIGLTVQDAARIVAEHGERFLNSDAGYRVAEAAVKIEEAVGREEEKVARENARKFLRV 3guy-a2-m1-cE_3guy-a2-m1-cF Crystal structure of a short-chain dehydrogenase/reductase from Vibrio parahaemolyticus 1.9 X-RAY DIFFRACTION 121 1.0 419109 (Vibrio parahaemolyticus AQ3810) 419109 (Vibrio parahaemolyticus AQ3810) 204 204 3guy-a1-m1-cA_3guy-a1-m1-cB 3guy-a1-m1-cC_3guy-a1-m1-cD 3guy-a2-m1-cH_3guy-a2-m1-cG LIVITGASSGLGAELAKLYDAEGKATYLTGRSESKLSTVTNCLSNNVGYRARDLASHQEVEQLFEQLDSIPSTVVHSAGSGYFGLLQEQDPEQIQTLIENNLSSAINVLRELVKRYKDQPVNVVMIMSTAAQQPKAQESTYCAVKWAVKGLIESVRLELKGKPMKIIAVYPGGMFMSAEDAALMIHGALANIGNGYVSDITVNR LIVITGASSGLGAELAKLYDAEGKATYLTGRSESKLSTVTNCLSNNVGYRARDLASHQEVEQLFEQLDSIPSTVVHSAGSGYFGLLQEQDPEQIQTLIENNLSSAINVLRELVKRYKDQPVNVVMIMSTAAQQPKAQESTYCAVKWAVKGLIESVRLELKGKPMKIIAVYPGGMFMSAEDAALMIHGALANIGNGYVSDITVNR 3guy-a2-m1-cF_3guy-a2-m1-cH Crystal structure of a short-chain dehydrogenase/reductase from Vibrio parahaemolyticus 1.9 X-RAY DIFFRACTION 83 1.0 419109 (Vibrio parahaemolyticus AQ3810) 419109 (Vibrio parahaemolyticus AQ3810) 204 209 3guy-a1-m1-cA_3guy-a1-m1-cD 3guy-a1-m1-cB_3guy-a1-m1-cC 3guy-a2-m1-cE_3guy-a2-m1-cG LIVITGASSGLGAELAKLYDAEGKATYLTGRSESKLSTVTNCLSNNVGYRARDLASHQEVEQLFEQLDSIPSTVVHSAGSGYFGLLQEQDPEQIQTLIENNLSSAINVLRELVKRYKDQPVNVVMIMSTAAQQPKAQESTYCAVKWAVKGLIESVRLELKGKPMKIIAVYPGGMFMSAEDAALMIHGALANIGNGYVSDITVNR LIVITGASSGLGAELAKLYDAEGKATYLTGRSESKLSTVTNCLSNNVGYRARDLASHQEVEQLFEQLDSIPSTVVHSAGSGYFGLLQEQDPEQIQTLIENNLSSAINVLRELVKRYKDQPVNVVMIMSTAAQQPKAQESTYCAVKWAVKGLIESVRLELKGKPMKIIAVYPGGMATEFWFMSAEDAALMIHGALANIGNGYVSDITVNR 3guz-a1-m1-cA_3guz-a1-m1-cB Structural and substrate-binding studies of pantothenate synthenate (PS)provide insights into homotropic inhibition by pantoate in PS's P31663 P31663 1.67 X-RAY DIFFRACTION 75 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 165 167 1iho-a1-m1-cA_1iho-a1-m1-cB MLIIETLPLLRQQIRRLRMEGKRVALVPTMGNLHDGHMKLVDEAKARADVVAVSIFVNPMQFDRPEDLARYPRTLQEDCEKLNKRKVDLVFAPSVKEIYPNGTETHTYVDVPGGHFRGVSTIVSKLFNLVQPDIACFGEKDFQQLALIRKMVADMGFDIEIVGVP MLIIETLPLLRQQIRRLRMEGKRVALVPTMGNLHDGHMKLVDEAKARADVVAVSIFVNPMQFDRPEDLARYPRTLQEDCEKLNKRKVDLVFAPSVKEIYPNGTETHTYVDVPGRPGHFRGVSTIVSKLFNLVQPDIACFGEKDFQQLALIRKMVADMGFDIEIVGVP 3gv0-a2-m1-cA_3gv0-a2-m2-cA Crystal structure of LacI family transcription regulator from Agrobacterium tumefaciens Q7CZ24 Q7CZ24 2.35 X-RAY DIFFRACTION 79 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 262 262 KTNVIALVLSVDEELGFTSQVFGITEVLSTTQYHLVVTPHIHAKDSVPIRYILETGSADGVIISKIEPNDPRVRFTERNPFVTHGRSDGIEHAFHDFDNEAYAYEAVERLAQCGRKRIAVIVPPSRFSFHDHARKGFNRGIRDFGLTEFPIDAVTIETPLEKIRDFGQRLQSSDRPDGIVSISGSSTIALVAGFEAAGVKIGEDVDIVSKQSAEFLNWIKPQIHTVNEDIKLAGRELAKALLARINGEAAETLQSISGPVWS KTNVIALVLSVDEELGFTSQVFGITEVLSTTQYHLVVTPHIHAKDSVPIRYILETGSADGVIISKIEPNDPRVRFTERNPFVTHGRSDGIEHAFHDFDNEAYAYEAVERLAQCGRKRIAVIVPPSRFSFHDHARKGFNRGIRDFGLTEFPIDAVTIETPLEKIRDFGQRLQSSDRPDGIVSISGSSTIALVAGFEAAGVKIGEDVDIVSKQSAEFLNWIKPQIHTVNEDIKLAGRELAKALLARINGEAAETLQSISGPVWS 3gv1-a2-m1-cA_3gv1-a2-m1-cB Crystal structure of disulfide interchange protein from Neisseria gonorrhoeae Q5F6V7 Q5F6V7 2 X-RAY DIFFRACTION 41 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 134 134 3gv1-a1-m1-cA_3gv1-a1-m1-cB SLDKAIKEVRGNGKLKVAVFSDPDCPFCKRLEHEFEKTDVTVYSFPIAGLHPDAARKAQILWCQPDRAKAWTDWRKGKFPVGGSICDNPVAETTSLGEQFGFNGTPTLVFPNGRTQSGYSPPQLEEIIRKNQQE SLDKAIKEVRGNGKLKVAVFSDPDCPFCKRLEHEFEKTDVTVYSFPIAGLHPDAARKAQILWCQPDRAKAWTDWRKGKFPVGGSICDNPVAETTSLGEQFGFNGTPTLVFPNGRTQSGYSPPQLEEIIRKNQQE 3gvc-a1-m1-cB_3gvc-a1-m2-cB Crystal structure of probable short-chain dehydrogenase-reductase from Mycobacterium tuberculosis I6XZC4 I6XZC4 2.45 X-RAY DIFFRACTION 29 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 255 255 3gvc-a1-m1-cA_3gvc-a1-m2-cA 3gvc-a2-m1-cC_3gvc-a2-m3-cC 3gvc-a2-m1-cD_3gvc-a2-m3-cD SMNHPDLAGKVAIVTGAGAGIGLAVARRLADEGCHVLCADIDGDAADAAATKIGCGAAACRVDVSDEQQIIAMVDACVAAFGGVDKLVANAGVVHLASLIDTTVEDFDRVIAINLRGAWLCTKHAAPRMIERGGGAIVNLSSLAGQVAVGGTGAYGMSKAGIIQLSRITAAELRSSGIRSNTLLPAFVDTPMQQTAMAMFDGALGGARSMIARLQGRMAAPEEMAGIVVFLLSDDASMITGTTQIADGGTIAALW SMNHPDLAGKVAIVTGAGAGIGLAVARRLADEGCHVLCADIDGDAADAAATKIGCGAAACRVDVSDEQQIIAMVDACVAAFGGVDKLVANAGVVHLASLIDTTVEDFDRVIAINLRGAWLCTKHAAPRMIERGGGAIVNLSSLAGQVAVGGTGAYGMSKAGIIQLSRITAAELRSSGIRSNTLLPAFVDTPMQQTAMAMFDGALGGARSMIARLQGRMAAPEEMAGIVVFLLSDDASMITGTTQIADGGTIAALW 3gvc-a2-m3-cD_3gvc-a2-m1-cC Crystal structure of probable short-chain dehydrogenase-reductase from Mycobacterium tuberculosis I6XZC4 I6XZC4 2.45 X-RAY DIFFRACTION 121 0.98 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 249 250 3gvc-a1-m1-cA_3gvc-a1-m2-cB 3gvc-a1-m2-cA_3gvc-a1-m1-cB 3gvc-a2-m1-cD_3gvc-a2-m3-cC SMNHPDLAGKVAIVTGAGAGIGLAVARRLADEGCHVLCADIDGDAADAAATKIGCGAAACRVDVSDEQQIIAMVDACVAAFGGVDKLVANAGVVHLASLIDTTVEDFDRVIAINLRGAWLCTKHAAPRMIERGGGAIVNLSSLAGQVAVGGTGAYGMSKAGIIQLSRITAAELRSSGIRSNTLLPAFVDTPMQQTAMAGGARSMIARLQGRMAAPEEMAGIVVFLLSDDASMITGTTQIADGGTIAALW DLAGKVAIVTGAGAGIGLAVARRLADEGCHVLCADIDGDAADAAATKIGCGAAACRVDVSDEQQIIAMVDACVAAFGGVDKLVANAGVVHLASLIDTTVEDFDRVIAINLRGAWLCTKHAAPRMIERGGGAIVNLSSLAGQVAVGGTGAYGMSKAGIIQLSRITAAELRSSGIRSNTLLPAFVDTPMQQTAMAMFDGALGGARSMIARLQGRMAAPEEMAGIVVFLLSDDASMITGTTQIADGGTIAALW 3gvc-a2-m3-cD_3gvc-a2-m3-cC Crystal structure of probable short-chain dehydrogenase-reductase from Mycobacterium tuberculosis I6XZC4 I6XZC4 2.45 X-RAY DIFFRACTION 99 0.98 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 249 250 3gvc-a1-m1-cA_3gvc-a1-m1-cB 3gvc-a1-m2-cA_3gvc-a1-m2-cB 3gvc-a2-m1-cD_3gvc-a2-m1-cC SMNHPDLAGKVAIVTGAGAGIGLAVARRLADEGCHVLCADIDGDAADAAATKIGCGAAACRVDVSDEQQIIAMVDACVAAFGGVDKLVANAGVVHLASLIDTTVEDFDRVIAINLRGAWLCTKHAAPRMIERGGGAIVNLSSLAGQVAVGGTGAYGMSKAGIIQLSRITAAELRSSGIRSNTLLPAFVDTPMQQTAMAGGARSMIARLQGRMAAPEEMAGIVVFLLSDDASMITGTTQIADGGTIAALW DLAGKVAIVTGAGAGIGLAVARRLADEGCHVLCADIDGDAADAAATKIGCGAAACRVDVSDEQQIIAMVDACVAAFGGVDKLVANAGVVHLASLIDTTVEDFDRVIAINLRGAWLCTKHAAPRMIERGGGAIVNLSSLAGQVAVGGTGAYGMSKAGIIQLSRITAAELRSSGIRSNTLLPAFVDTPMQQTAMAMFDGALGGARSMIARLQGRMAAPEEMAGIVVFLLSDDASMITGTTQIADGGTIAALW 3gvd-a2-m1-cH_3gvd-a2-m1-cL Crystal Structure of Serine Acetyltransferase CysE from Yersinia pestis A0A2U2H3H7 A0A2U2H3H7 2.4 X-RAY DIFFRACTION 21 0.996 632 (Yersinia pestis) 632 (Yersinia pestis) 261 261 3gvd-a1-m1-cD_3gvd-a1-m1-cB 3gvd-a1-m1-cE_3gvd-a1-m1-cA 3gvd-a1-m1-cF_3gvd-a1-m1-cC 3gvd-a2-m1-cJ_3gvd-a2-m1-cG 3gvd-a2-m1-cK_3gvd-a2-m1-cI AMSSEELEQVWSNIKSEARALAECEPMLASFFHATLLKHENLGSALSYILANKLANPIMPAIAIREVVEEAYRSDAHMIVSAARDILAVRLRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWAQDRKALAIYLQNQVSVAFGVDIHPAATIGCGIMLDHATGIVIGETAVVENDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQSVPAHTTAAGVPARIVGKPESDKPSLDMDQHF MSSEELEQVWSNIKSEARALAECEPMLASFFHATLLKHENLGSALSYILANKLANPIMPAIAIREVVEEAYRSDAHMIVSAARDILAVRLRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWAQDRKALAIYLQNQVSVAFGVDIHPAATIGCGIMLDHATGIVIGETAVVENDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQSVPAHTTAAGVPARIVGKPESDKPSLDMDQHFN 3gvd-a2-m1-cK_3gvd-a2-m1-cH Crystal Structure of Serine Acetyltransferase CysE from Yersinia pestis A0A2U2H3H7 A0A2U2H3H7 2.4 X-RAY DIFFRACTION 28 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 260 261 3gvd-a1-m1-cC_3gvd-a1-m1-cE 3gvd-a1-m1-cD_3gvd-a1-m1-cA 3gvd-a1-m1-cF_3gvd-a1-m1-cB 3gvd-a2-m1-cJ_3gvd-a2-m1-cI 3gvd-a2-m1-cL_3gvd-a2-m1-cG MSSEELEQVWSNIKSEARALAECEPMLASFFHATLLKHENLGSALSYILANKLANPIMPAIAIREVVEEAYRSDAHMIVSAARDILAVRLRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWAQDRKALAIYLQNQVSVAFGVDIHPAATIGCGIMLDHATGIVIGETAVVENDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQSVPAHTTAAGVPARIVGKPESDKPSLDMDQHF AMSSEELEQVWSNIKSEARALAECEPMLASFFHATLLKHENLGSALSYILANKLANPIMPAIAIREVVEEAYRSDAHMIVSAARDILAVRLRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWAQDRKALAIYLQNQVSVAFGVDIHPAATIGCGIMLDHATGIVIGETAVVENDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQSVPAHTTAAGVPARIVGKPESDKPSLDMDQHF 3gvd-a2-m1-cK_3gvd-a2-m1-cL Crystal Structure of Serine Acetyltransferase CysE from Yersinia pestis A0A2U2H3H7 A0A2U2H3H7 2.4 X-RAY DIFFRACTION 104 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 260 261 3gvd-a1-m1-cB_3gvd-a1-m1-cA 3gvd-a1-m1-cC_3gvd-a1-m1-cA 3gvd-a1-m1-cC_3gvd-a1-m1-cB 3gvd-a1-m1-cD_3gvd-a1-m1-cE 3gvd-a1-m1-cF_3gvd-a1-m1-cD 3gvd-a1-m1-cF_3gvd-a1-m1-cE 3gvd-a2-m1-cG_3gvd-a2-m1-cI 3gvd-a2-m1-cH_3gvd-a2-m1-cG 3gvd-a2-m1-cH_3gvd-a2-m1-cI 3gvd-a2-m1-cJ_3gvd-a2-m1-cL 3gvd-a2-m1-cK_3gvd-a2-m1-cJ MSSEELEQVWSNIKSEARALAECEPMLASFFHATLLKHENLGSALSYILANKLANPIMPAIAIREVVEEAYRSDAHMIVSAARDILAVRLRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWAQDRKALAIYLQNQVSVAFGVDIHPAATIGCGIMLDHATGIVIGETAVVENDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQSVPAHTTAAGVPARIVGKPESDKPSLDMDQHF MSSEELEQVWSNIKSEARALAECEPMLASFFHATLLKHENLGSALSYILANKLANPIMPAIAIREVVEEAYRSDAHMIVSAARDILAVRLRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWAQDRKALAIYLQNQVSVAFGVDIHPAATIGCGIMLDHATGIVIGETAVVENDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQSVPAHTTAAGVPARIVGKPESDKPSLDMDQHFN 3gve-a2-m1-cA_3gve-a2-m1-cB Crystal structure of calcineurin-like phosphoesterase YfkN from Bacillus subtilis O34313 O34313 1.25 X-RAY DIFFRACTION 35 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 328 328 3gve-a1-m1-cA_3gve-a1-m1-cB PQVHLSILATTDIHANDYDYYSDKETADFGLARTAQLIQKHREQNPNTLLVDNGDLIQGNPLGEYAVKYQKDDIISGTKTHPIISVNALKYDAGTLGNHEFNYGLDFLDGTIKGADFPIVNANVKTTSGENRYTPYVINEKTLIDENGNEQKVKVGYIGFVPPQITWDKKNLEGQVQVQDIVESANETIPKKAEGADVIIALAHTGIEKQAQSSGAENAVFDLATKTKGIDAIISGHQHGLFPSAEYAGVAQFNVEKGTINGIPVVPSSWGKYLGVIDLKLEKADGSWKVADSKGSIESIAGNVTSRNETVTNTIQQTHQNTLEYVRK PQVHLSILATTDIHANDYDYYSDKETADFGLARTAQLIQKHREQNPNTLLVDNGDLIQGNPLGEYAVKYQKDDIISGTKTHPIISVNALKYDAGTLGNHEFNYGLDFLDGTIKGADFPIVNANVKTTSGENRYTPYVINEKTLIDENGNEQKVKVGYIGFVPPQITWDKKNLEGQVQVQDIVESANETIPKKAEGADVIIALAHTGIEKQAQSSGAENAVFDLATKTKGIDAIISGHQHGLFPSAEYAGVAQFNVEKGTINGIPVVPSSWGKYLGVIDLKLEKADGSWKVADSKGSIESIAGNVTSRNETVTNTIQQTHQNTLEYVRK 3gvf-a1-m3-cA_3gvf-a1-m6-cA 1.7 Angstrom crystal structure of inorganic pyrophosphatase from burkholderia pseudomallei bound with phosphate Q3JUV5 Q3JUV5 1.75 X-RAY DIFFRACTION 10 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 174 174 3eiz-a1-m1-cA_3eiz-a1-m4-cA 3eiz-a1-m2-cA_3eiz-a1-m6-cA 3eiz-a1-m3-cA_3eiz-a1-m5-cA 3ej2-a1-m1-cA_3ej2-a1-m6-cA 3ej2-a1-m2-cA_3ej2-a1-m5-cA 3ej2-a1-m3-cA_3ej2-a1-m4-cA 3gvf-a1-m1-cA_3gvf-a1-m5-cA 3gvf-a1-m2-cA_3gvf-a1-m4-cA SFSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK SFSNVPAGKDLPQDFNVIIEIPAQSEPVKYEADKALGLLVVDRFIGTGMRYPVNYGFIPQTLSGDGDPVDVLVITPFPLLAGSVVRARALGMLKMTDESGVDAKLVAVPHDKVCPMTANLKSIDDVPAYLKDQIKHFFEQYKALEKGKWVKVEGWDGIDAAHKEITDGVANFKK 3gvi-a2-m1-cE_3gvi-a2-m2-cF Crystal structure of Lactate/malate dehydrogenase from Brucella melitensis in complex with ADP Q2YLR9 Q2YLR9 2.25 X-RAY DIFFRACTION 134 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 314 314 3gvh-a1-m1-cB_3gvh-a1-m1-cA 3gvh-a1-m1-cC_3gvh-a1-m1-cD 3gvi-a1-m1-cB_3gvi-a1-m1-cC 3gvi-a1-m1-cD_3gvi-a1-m1-cA 3gvi-a2-m1-cF_3gvi-a2-m2-cE ARNKIALIGSGMIGGTLAHLAGLKELGDVVLFDIAEGTPQGKGLDIAESSPVDGFDAKFTGANDYAAIEGADVVIVTAGVPRKDDLLGINLKVMEQVGAGIKKYAPEAFVICITNPLDAMVWALQKFSGLPAHKVVGMAGVLDSARFRYFLSEEFNVSVEDVTVFVLGGHGDSMVPLARYSTVAGIPLPDLVKMGWTSQDKLDKIIQRTRDGGAEIVGLLKTGSAFYAPAASAIQMAESYLKDKKRVLPVAAQLSGQYGVKDMYVGVPTVIGANGVERIIEIDLDKDEKAQFDKSVASVAGLCEACIGIAPSLK ARNKIALIGSGMIGGTLAHLAGLKELGDVVLFDIAEGTPQGKGLDIAESSPVDGFDAKFTGANDYAAIEGADVVIVTAGVPRKDDLLGINLKVMEQVGAGIKKYAPEAFVICITNPLDAMVWALQKFSGLPAHKVVGMAGVLDSARFRYFLSEEFNVSVEDVTVFVLGGHGDSMVPLARYSTVAGIPLPDLVKMGWTSQDKLDKIIQRTRDGGAEIVGLLKTGSAFYAPAASAIQMAESYLKDKKRVLPVAAQLSGQYGVKDMYVGVPTVIGANGVERIIEIDLDKDEKAQFDKSVASVAGLCEACIGIAPSLK 3gvi-a2-m1-cF_3gvi-a2-m2-cF Crystal structure of Lactate/malate dehydrogenase from Brucella melitensis in complex with ADP Q2YLR9 Q2YLR9 2.25 X-RAY DIFFRACTION 20 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 314 314 3gvh-a1-m1-cB_3gvh-a1-m1-cC 3gvh-a1-m1-cD_3gvh-a1-m1-cA 3gvi-a1-m1-cA_3gvi-a1-m1-cB 3gvi-a1-m1-cD_3gvi-a1-m1-cC 3gvi-a2-m1-cE_3gvi-a2-m2-cE ARNKIALIGSGMIGGTLAHLAGLKELGDVVLFDIAEGTPQGKGLDIAESSPVDGFDAKFTGANDYAAIEGADVVIVTAGVPRKDDLLGINLKVMEQVGAGIKKYAPEAFVICITNPLDAMVWALQKFSGLPAHKVVGMAGVLDSARFRYFLSEEFNVSVEDVTVFVLGGHGDSMVPLARYSTVAGIPLPDLVKMGWTSQDKLDKIIQRTRDGGAEIVGLLKTGSAFYAPAASAIQMAESYLKDKKRVLPVAAQLSGQYGVKDMYVGVPTVIGANGVERIIEIDLDKDEKAQFDKSVASVAGLCEACIGIAPSLK ARNKIALIGSGMIGGTLAHLAGLKELGDVVLFDIAEGTPQGKGLDIAESSPVDGFDAKFTGANDYAAIEGADVVIVTAGVPRKDDLLGINLKVMEQVGAGIKKYAPEAFVICITNPLDAMVWALQKFSGLPAHKVVGMAGVLDSARFRYFLSEEFNVSVEDVTVFVLGGHGDSMVPLARYSTVAGIPLPDLVKMGWTSQDKLDKIIQRTRDGGAEIVGLLKTGSAFYAPAASAIQMAESYLKDKKRVLPVAAQLSGQYGVKDMYVGVPTVIGANGVERIIEIDLDKDEKAQFDKSVASVAGLCEACIGIAPSLK 3gvi-a2-m2-cE_3gvi-a2-m2-cF Crystal structure of Lactate/malate dehydrogenase from Brucella melitensis in complex with ADP Q2YLR9 Q2YLR9 2.25 X-RAY DIFFRACTION 78 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 314 314 3gvh-a1-m1-cB_3gvh-a1-m1-cD 3gvh-a1-m1-cC_3gvh-a1-m1-cA 3gvi-a1-m1-cA_3gvi-a1-m1-cC 3gvi-a1-m1-cD_3gvi-a1-m1-cB 3gvi-a2-m1-cE_3gvi-a2-m1-cF ARNKIALIGSGMIGGTLAHLAGLKELGDVVLFDIAEGTPQGKGLDIAESSPVDGFDAKFTGANDYAAIEGADVVIVTAGVPRKDDLLGINLKVMEQVGAGIKKYAPEAFVICITNPLDAMVWALQKFSGLPAHKVVGMAGVLDSARFRYFLSEEFNVSVEDVTVFVLGGHGDSMVPLARYSTVAGIPLPDLVKMGWTSQDKLDKIIQRTRDGGAEIVGLLKTGSAFYAPAASAIQMAESYLKDKKRVLPVAAQLSGQYGVKDMYVGVPTVIGANGVERIIEIDLDKDEKAQFDKSVASVAGLCEACIGIAPSLK ARNKIALIGSGMIGGTLAHLAGLKELGDVVLFDIAEGTPQGKGLDIAESSPVDGFDAKFTGANDYAAIEGADVVIVTAGVPRKDDLLGINLKVMEQVGAGIKKYAPEAFVICITNPLDAMVWALQKFSGLPAHKVVGMAGVLDSARFRYFLSEEFNVSVEDVTVFVLGGHGDSMVPLARYSTVAGIPLPDLVKMGWTSQDKLDKIIQRTRDGGAEIVGLLKTGSAFYAPAASAIQMAESYLKDKKRVLPVAAQLSGQYGVKDMYVGVPTVIGANGVERIIEIDLDKDEKAQFDKSVASVAGLCEACIGIAPSLK 3gvu-a2-m1-cA_3gvu-a2-m2-cA The crystal structure of human ABL2 in complex with GLEEVEC P42684 P42684 2.05 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 271 271 GTENLYFQSMDKWEMERTDITMKHKLGGGQYGEVYVGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTLEPPFYIVTEYMPYGNLLDYLRECNREEVTAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHVVKVADFGLSRGDTYTAKFPIKWTAPESLAYNTFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYDLLEKGYRMEQPEGCPPKVYELMRACWKWSPADRPSFAETHQAFETMFHDS GTENLYFQSMDKWEMERTDITMKHKLGGGQYGEVYVGVWKKYSLTVAVKTLKEDTMEVEEFLKEAAVMKEIKHPNLVQLLGVCTLEPPFYIVTEYMPYGNLLDYLRECNREEVTAVVLLYMATQISSAMEYLEKKNFIHRDLAARNCLVGENHVVKVADFGLSRGDTYTAKFPIKWTAPESLAYNTFSIKSDVWAFGVLLWEIATYGMSPYPGIDLSQVYDLLEKGYRMEQPEGCPPKVYELMRACWKWSPADRPSFAETHQAFETMFHDS 3gvx-a1-m1-cA_3gvx-a1-m1-cB Crystal structure of Glycerate dehydrogenase related protein from Thermoplasma acidophilum Q9HJV5 Q9HJV5 2.2 X-RAY DIFFRACTION 153 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 274 283 LDVYVNFPADGHVREIAKTVLDGFDLHWYPDYYDAEAQVIKDRYVLGKRTKIQAISAGVDHIDVNGIPENVVLCSNAGAYSISVAEHAFALLLAHAKNILENNELKAGIFRQSPTTLLYGKALGILGYGGIGRRVAHLAKAFGRVIAYTRSSVDQNVDVISESPADLFRQSDFVLIAIPLTDKTRGVNSRLLANARKNLTIVNVARADVVSKPDIGFLKERSDVWYLSDVWWNEPEITETNLRNAILSPHVAGGSGEIDIAIQLAFENVRNFFE LDVYVNFPADGHVREIAKTVLDGFDLHWYPDYYDAEAQVIKDRYVLGKRTKIQAISAGVDHIDVNGIPENVVLCSNAGAYSISVAEHAFALLLAHAKNILENNELKAGIFRQSPTTLLYGKALGILGYGGIGRRVAHLAKAFGRVIAYTRSSVDQNVDVISESPADLFRQSDFVLIAIPLTDKTRGVNSRLLANARKNLTIVNVARADVVSKPDIGFLKERSDVWYLSDVWWNEPEITETNLRNAILSPHVAGGSGEIDIAIQLAFENVRNFFEGEGHHHHHH 3gvy-a1-m5-cB_3gvy-a1-m8-cC Crystal structure of bacterioferritin from R.sphaeroides Q3J696 Q3J696 2.8 X-RAY DIFFRACTION 20 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 158 158 3gvy-a1-m1-cA_3gvy-a1-m1-cB 3gvy-a1-m1-cA_3gvy-a1-m4-cC 3gvy-a1-m1-cB_3gvy-a1-m4-cC 3gvy-a1-m1-cC_3gvy-a1-m3-cB 3gvy-a1-m2-cA_3gvy-a1-m2-cB 3gvy-a1-m2-cA_3gvy-a1-m3-cC 3gvy-a1-m2-cB_3gvy-a1-m3-cC 3gvy-a1-m2-cC_3gvy-a1-m4-cB 3gvy-a1-m3-cA_3gvy-a1-m1-cC 3gvy-a1-m3-cA_3gvy-a1-m3-cB 3gvy-a1-m4-cA_3gvy-a1-m2-cC 3gvy-a1-m4-cA_3gvy-a1-m4-cB 3gvy-a1-m5-cA_3gvy-a1-m5-cB 3gvy-a1-m5-cA_3gvy-a1-m8-cC 3gvy-a1-m5-cC_3gvy-a1-m7-cB 3gvy-a1-m6-cA_3gvy-a1-m6-cB 3gvy-a1-m6-cA_3gvy-a1-m7-cC 3gvy-a1-m6-cB_3gvy-a1-m7-cC 3gvy-a1-m6-cC_3gvy-a1-m8-cB 3gvy-a1-m7-cA_3gvy-a1-m5-cC 3gvy-a1-m7-cA_3gvy-a1-m7-cB 3gvy-a1-m8-cA_3gvy-a1-m6-cC 3gvy-a1-m8-cA_3gvy-a1-m8-cB MQGDAKVIEYLNAALRSELTAVSQYWLHYRLQEDWGFGSIAHKSRKESIEEMHHADKLIQRIIFLGGHPNLQRLNPLRIGQTLRETLDADLAAEHDARTLYIEARDHCEKVRDYPSKMLFEELIADEEGHIDYLETQIDLMGSIGEQNYGMLNAKPAD MQGDAKVIEYLNAALRSELTAVSQYWLHYRLQEDWGFGSIAHKSRKESIEEMHHADKLIQRIIFLGGHPNLQRLNPLRIGQTLRETLDADLAAEHDARTLYIEARDHCEKVRDYPSKMLFEELIADEEGHIDYLETQIDLMGSIGEQNYGMLNAKPAD 3gvy-a1-m6-cA_3gvy-a1-m8-cA Crystal structure of bacterioferritin from R.sphaeroides Q3J696 Q3J696 2.8 X-RAY DIFFRACTION 43 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 157 157 3gvy-a1-m1-cA_3gvy-a1-m3-cA 3gvy-a1-m1-cA_3gvy-a1-m4-cA 3gvy-a1-m1-cB_3gvy-a1-m1-cC 3gvy-a1-m1-cB_3gvy-a1-m5-cC 3gvy-a1-m1-cC_3gvy-a1-m5-cB 3gvy-a1-m2-cA_3gvy-a1-m3-cA 3gvy-a1-m2-cA_3gvy-a1-m4-cA 3gvy-a1-m2-cB_3gvy-a1-m2-cC 3gvy-a1-m2-cB_3gvy-a1-m6-cC 3gvy-a1-m2-cC_3gvy-a1-m6-cB 3gvy-a1-m3-cB_3gvy-a1-m3-cC 3gvy-a1-m3-cB_3gvy-a1-m8-cC 3gvy-a1-m3-cC_3gvy-a1-m8-cB 3gvy-a1-m4-cB_3gvy-a1-m4-cC 3gvy-a1-m4-cB_3gvy-a1-m7-cC 3gvy-a1-m4-cC_3gvy-a1-m7-cB 3gvy-a1-m5-cA_3gvy-a1-m7-cA 3gvy-a1-m5-cA_3gvy-a1-m8-cA 3gvy-a1-m5-cB_3gvy-a1-m5-cC 3gvy-a1-m6-cA_3gvy-a1-m7-cA 3gvy-a1-m6-cB_3gvy-a1-m6-cC 3gvy-a1-m7-cB_3gvy-a1-m7-cC 3gvy-a1-m8-cB_3gvy-a1-m8-cC MQGDAKVIEYLNAALRSELTAVSQYWLHYRLQEDWGFGSIAHKSRKESIEEMHHADKLIQRIIFLGGHPNLQRLNPLRIGQTLRETLDADLAAEHDARTLYIEARDHCEKVRDYPSKMLFEELIADEEGHIDYLETQIDLMGSIGEQNYGMLNAKPA MQGDAKVIEYLNAALRSELTAVSQYWLHYRLQEDWGFGSIAHKSRKESIEEMHHADKLIQRIIFLGGHPNLQRLNPLRIGQTLRETLDADLAAEHDARTLYIEARDHCEKVRDYPSKMLFEELIADEEGHIDYLETQIDLMGSIGEQNYGMLNAKPA 3gvy-a1-m8-cA_3gvy-a1-m8-cC Crystal structure of bacterioferritin from R.sphaeroides Q3J696 Q3J696 2.8 X-RAY DIFFRACTION 47 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 157 158 3gvy-a1-m1-cA_3gvy-a1-m1-cC 3gvy-a1-m1-cB_3gvy-a1-m7-cB 3gvy-a1-m2-cA_3gvy-a1-m2-cC 3gvy-a1-m2-cB_3gvy-a1-m8-cB 3gvy-a1-m3-cA_3gvy-a1-m3-cC 3gvy-a1-m3-cB_3gvy-a1-m5-cB 3gvy-a1-m4-cA_3gvy-a1-m4-cC 3gvy-a1-m4-cB_3gvy-a1-m6-cB 3gvy-a1-m5-cA_3gvy-a1-m5-cC 3gvy-a1-m6-cA_3gvy-a1-m6-cC 3gvy-a1-m7-cA_3gvy-a1-m7-cC MQGDAKVIEYLNAALRSELTAVSQYWLHYRLQEDWGFGSIAHKSRKESIEEMHHADKLIQRIIFLGGHPNLQRLNPLRIGQTLRETLDADLAAEHDARTLYIEARDHCEKVRDYPSKMLFEELIADEEGHIDYLETQIDLMGSIGEQNYGMLNAKPA MQGDAKVIEYLNAALRSELTAVSQYWLHYRLQEDWGFGSIAHKSRKESIEEMHHADKLIQRIIFLGGHPNLQRLNPLRIGQTLRETLDADLAAEHDARTLYIEARDHCEKVRDYPSKMLFEELIADEEGHIDYLETQIDLMGSIGEQNYGMLNAKPAD 3gw0-a1-m1-cA_3gw0-a1-m2-cA UROD mutant G318R P06132 P06132 2 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 1jph-a1-m1-cA_1jph-a1-m2-cA 1jpi-a1-m1-cA_1jpi-a1-m2-cA 1jpk-a1-m1-cA_1jpk-a1-m2-cA 1uro-a1-m1-cA_1uro-a1-m2-cA 2q6z-a1-m1-cA_2q6z-a1-m2-cA 2q71-a1-m1-cA_2q71-a1-m2-cA 3gvq-a1-m1-cA_3gvq-a1-m2-cA 3gvr-a1-m1-cA_3gvr-a1-m2-cA 3gvv-a1-m1-cA_3gvv-a1-m2-cA 3gvw-a1-m1-cA_3gvw-a1-m2-cA 3gw3-a1-m1-cA_3gw3-a1-m2-cA FPELKNDTFLRAAWGEETDYTPVWCMRQAGRYLPEFRETRAAQDFFSTCRSPEACCELTLQPLRRFPLDAAIIFSDILVVPQALGMEVTMVPGKGPSFPEPLREEQDLERLRDPEVVASELGYVFQAITLTRQRLAGRVPLIGFAGAPWTLMTYMVEGGGSSTMAQAKRWLYQRPQASHQLLRILTDALVPYLVGQVVAGAQALQLFESHAGHLGPQLFNKFALPYIRDVAKQVKARLREAGLAPVPMIIFAKDGHFALEELAQAGYEVVGLDWTVAPKKARECVGKTVTLQGNLDPCALYASEEEIRQLVKQMLDDFGPHRYIANLGHGLYPDMDPEHVGAFVDAVHKHSRLLRQ FPELKNDTFLRAAWGEETDYTPVWCMRQAGRYLPEFRETRAAQDFFSTCRSPEACCELTLQPLRRFPLDAAIIFSDILVVPQALGMEVTMVPGKGPSFPEPLREEQDLERLRDPEVVASELGYVFQAITLTRQRLAGRVPLIGFAGAPWTLMTYMVEGGGSSTMAQAKRWLYQRPQASHQLLRILTDALVPYLVGQVVAGAQALQLFESHAGHLGPQLFNKFALPYIRDVAKQVKARLREAGLAPVPMIIFAKDGHFALEELAQAGYEVVGLDWTVAPKKARECVGKTVTLQGNLDPCALYASEEEIRQLVKQMLDDFGPHRYIANLGHGLYPDMDPEHVGAFVDAVHKHSRLLRQ 3gw2-a1-m1-cA_3gw2-a1-m2-cA Crystal structure of possible transcriptional regulatory protein (fragment 1-100) from Mycobacterium bovis. Northeast Structural Genomics Consortium Target MbR242E. 2.1 X-RAY DIFFRACTION 107 1.0 233413 (Mycobacterium tuberculosis variant bovis AF2122/97) 233413 (Mycobacterium tuberculosis variant bovis AF2122/97) 92 92 2kko-a1-m1-cA_2kko-a1-m1-cB RKAALLDQVARVGKALANGRRLQILDLLAQGERAVEAIATATGNLTTASANLQALKSGGLVEARREGTRQYYRIAGEDVARLFALVQVVADE RKAALLDQVARVGKALANGRRLQILDLLAQGERAVEAIATATGNLTTASANLQALKSGGLVEARREGTRQYYRIAGEDVARLFALVQVVADE 3gw4-a1-m1-cA_3gw4-a1-m1-cB Crystal structure of uncharacterized protein from Deinococcus radiodurans. Northeast Structural Genomics Consortium Target DrR162B. Q9RRX4 Q9RRX4 2.49 X-RAY DIFFRACTION 77 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 187 192 DYALAERQAQALLAHPATASGARFLGYVYAFDRFDEARASFQALQQQAQKSGDHTAEHRALHQVGVERAGNWDAARRCFLEERELLASLPEDPLAASANAYEVATVALHFGDLAGARQEYEKSLVYAQQADDQVAIACAFRGLGDLAQQEKNLLEAQQHWLRARDIFAELEDSEAVNELTRLNGLEH AFEAHDYALAERQAQALLAHPATASGARFLGYVYAFDRFDEARASFQALQQQAQKSGDHTAEHRALHQVGVERAGNWDAARRCFLEERELLASLPEDPLAASANAYEVATVALHFGDLAGARQEYEKSLVYAQQADDQVAIACAFRGLGDLAQQEKNLLEAQQHWLRARDIFAELEDSEAVNELTRLNGLEH 3gw6-a1-m1-cB_3gw6-a1-m1-cA Intramolecular Chaperone Q04830 Q04830 2.6 X-RAY DIFFRACTION 399 0.984 344021 (Escherichia phage K1F) 344021 (Escherichia phage K1F) 255 256 3gw6-a1-m1-cA_3gw6-a1-m1-cF 3gw6-a1-m1-cB_3gw6-a1-m1-cF 3gw6-a2-m1-cC_3gw6-a2-m1-cE 3gw6-a2-m1-cD_3gw6-a2-m1-cC 3gw6-a2-m1-cD_3gw6-a2-m1-cE HVTIRAIRSEVLMEGEYGFIGKSIPTDNPAGQRIIFCGGEGTSSTTGAQITLYGANNTDSRRIVYNGDEHLFQSADVKPYNDNVTALGGPSNRFTTAYLGSNPIVTANGERKTEPVVFDDAFLDAWGDVHYIMYQWLDAVQLKARIHFGVIAQQIRDVFIAHGLMDESTNCRYAVLCYDKYPRMTDTVFSHNEIVEHTDEEGNVTTTEEPVYTEVVIHEEGEEWGVRPDGIFFAEAAYQRRKLERIEARLSALEQ HVTIRIRSEVLMEGEYGFIGKSIPTDNPAGQRIIFCGGEGTSSTTGAQITLYGANNTDSRRIVYNGDEHLFQSADVKPYNDNVTALGGPSNRFTTAYLGSNPIVTANGERKTEPVVFDDAFLDAWGDVHYIMYQWLDAVQLKGNDARIHFGVIAQQIRDVFIAHGLMDENSCRYAVLCYDKYPRMTDTVFSHNEIVEHTDEEGNVTTTEEPVYTEVVIHEEGEEWGVRPDGIFFAEAAYQRRKLERIEARLSALEQ 3gw7-a1-m1-cA_3gw7-a1-m1-cB Crystal structure of a metal-dependent phosphohydrolase with conserved HD domain (yedJ) from Escherichia coli in complex with nickel ions. Northeast Structural Genomics Consortium Target ER63 P46144 P46144 3.3 X-RAY DIFFRACTION 101 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 215 215 QHWQAQFENWLKNHVCHFRRVWATAQKLAADDDVDMLVILTACYFHDIVSQRSSILAAEETRRLLREEFEQFPAEKIEAVCHAIAAHSFSAQIAPLTTEAKIVQDADRLEALGAIGLARVFAVSGALGVALFDGEDPFAQHRPLDDYALDHFQTKLLKLPQTMQTARGKQLAQHNAHFLVEFMAKLSAELAGENEGVDHKVIDAFSSAGLEHHHH QHWQAQFENWLKNHVCHFRRVWATAQKLAADDDVDMLVILTACYFHDIVSQRSSILAAEETRRLLREEFEQFPAEKIEAVCHAIAAHSFSAQIAPLTTEAKIVQDADRLEALGAIGLARVFAVSGALGVALFDGEDPFAQHRPLDDYALDHFQTKLLKLPQTMQTARGKQLAQHNAHFLVEFMAKLSAELAGENEGVDHKVIDAFSSAGLEHHHH 3gwa-a1-m1-cA_3gwa-a1-m1-cB 1.6 Angstrom crystal structure of 3-oxoacyl-(acyl-carrier-protein) synthase III Q3JY40 Q3JY40 1.6 X-RAY DIFFRACTION 247 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 337 337 3gwe-a1-m1-cB_3gwe-a1-m1-cA PRAAIADIAGHLPEQVLTNDVLAQLYPDWPAEKILAKTGIRERRIAAPRETAADLAYEAARKLFAQGAVGADQVDFVILCTQAPDYVLPTSACMLQHRLGIPTHAGALDVNLGCSGYVYGLSLAKGLVETGAARCVLLLTADTYSKYLHPLDKSVRTLFGDGASATAVIAEHGELERIGPFVFGTDGRGAPNLIVKAGLFREPKSADSAREHEDASGNVRTDEHLYMNGAEVMAFSLAEVPRAADRLLALAGEPRENIDCFVLHQANRFMLDALRKKMKIPEHKFPVLMEHCGNTVSSTLPLALETMRANGTLARGMRLMLLGFGVGYSWAGCLVNF PRAAIADIAGHLPEQVLTNDVLAQLYPDWPAEKILAKTGIRERRIAAPRETAADLAYEAARKLFAQGAVGADQVDFVILCTQAPDYVLPTSACMLQHRLGIPTHAGALDVNLGCSGYVYGLSLAKGLVETGAARCVLLLTADTYSKYLHPLDKSVRTLFGDGASATAVIAEHGELERIGPFVFGTDGRGAPNLIVKAGLFREPKSADSAREHEDASGNVRTDEHLYMNGAEVMAFSLAEVPRAADRLLALAGEPRENIDCFVLHQANRFMLDALRKKMKIPEHKFPVLMEHCGNTVSSTLPLALETMRANGTLARGMRLMLLGFGVGYSWAGCLVNF 3gwb-a1-m1-cA_3gwb-a1-m1-cB Crystal structure of peptidase M16 inactive domain from Pseudomonas fluorescens. Northeast Structural Genomics target PlR293L Q4K4B6 Q4K4B6 1.9 X-RAY DIFFRACTION 73 0.995 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 398 398 LNVQTWSTAEGAKVLFVEARELPFDLRLIFAAGSSQDGNAPGVALLTNALNEGVAGKDVGAIAQGFEGLGADFGNGAYKDAVASLRSLSAVDKREPALKLFAEVVGKPTFPADSLARIKNQLAGFEYQKQNPGKLASLELKRLYGTHPYAHASDGDAKSIPPITLAQLKAFHAKAYAAGNVVIALVGDLSRSDAEAIAAQVSAALPKGPALAKIEQPAEPKASIGHIEFPSSQTSLLAQLGIDRDDPDYAAVSLGNQILGGGGFGTRLSEVREKRGLTYGVYSGFTPQARGPFINLQTRAESEGTLKLVQDVFAEYLKNGPTQKELDDAKRELAGSSTASNADIVGQLGAGFYNLPLSYLEDFRQSQELTVEQVKAANKHLNVDKVIVSAGPTVAQKP LNVQTWSTAEGAKVLFVEARELPFDLRLIFAAGSSQDGNAPGVALLTNALNEGVAGKDVGAIAQGFEGLGADFGNGAYKDAVASLRSLSAVDKREPALKLFAEVVGKPTFPADSLARIKNQLAGFEYQKQNPGKLASLELKRLYGTHPYAHASDGDAKSIPPITLAQLKAFHAKAYAAGNVVIALVGDLSRSDAEAIAAQVSAALPKGPALAKIEQPAEPKASIGHIEFPSSQTSLLAQLGIDRDDPDYAAVSLGNQILGGGGFGTRLSEVREKRGLTYGVYSGFTPQARGPFINLQTRAESEGTLKLVQDVFAEYLKNGPTQKELDDAKRELAGSASNADIVGQLGAGFYNLPLSYLEDFRQSQELTVEQVKAANKHLNVDKVIVSAGPTVAQKPLE 3gwc-a2-m1-cE_3gwc-a2-m1-cG Crystal structure of Mycobacterium tuberculosis thymidylate synthase X bound to FdUMP and FAD P9WG57 P9WG57 1.9 X-RAY DIFFRACTION 133 0.996 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 244 245 2af6-a1-m1-cC_2af6-a1-m1-cA 2af6-a1-m1-cD_2af6-a1-m1-cB 2af6-a2-m1-cE_2af6-a2-m1-cG 2af6-a2-m1-cF_2af6-a2-m1-cH 2af6-a3-m1-cF_2af6-a3-m1-cH 2af6-a4-m1-cE_2af6-a4-m1-cG 2af6-a5-m1-cD_2af6-a5-m1-cB 2af6-a6-m1-cC_2af6-a6-m1-cA 2gq2-a1-m1-cC_2gq2-a1-m1-cA 3gwc-a1-m1-cB_3gwc-a1-m1-cD 3gwc-a1-m1-cC_3gwc-a1-m1-cA 3gwc-a2-m1-cF_3gwc-a2-m1-cH 3hzg-a1-m1-cA_3hzg-a1-m1-cC 3hzg-a1-m1-cB_3hzg-a1-m1-cD 3hzg-a3-m1-cA_3hzg-a3-m1-cC 3hzg-a5-m1-cB_3hzg-a5-m1-cD AETAPLRVQLIAKTDFLAPPDVPWTTDADGGPALVEFAGRACYQSWSKPNPKTATNAGYLRHIIDVGHFSVLEHASVSFYITGISRSCTHELIRHRHFSYSQLSQRYVPEKDSRVVVPPGMEDDADLRHILTEAADAARATYSELLAKLEAKFADQPNAILRRKQARQAARAVLPNATETRIVVTGNYRAWRHFIAMRASEHADVEIRRLAIECLRQLAAVAPAVFADFEVTTLADGTEVATSP ETAPLRVQLIAKTDFLAPPDVPWTTDADGGPALVEFAGRACYQSWSKPNPKTATNAGYLRHIIDVGHFSVLEHASVSFYITGISRSCTHELIRHRHFSYSQLSQRYVPEKDSRVVVPPGMEDDADLRHILTEAADAARATYSELLAKLEAKFADQPNAILRRKQARQAARAVLPNATETRIVVTGNYRAWRHFIAMRASEHADVEIRRLAIECLRQLAAVAPAVFADFEVTTLADGTEVATSPLA 3gwc-a2-m1-cH_3gwc-a2-m1-cE Crystal structure of Mycobacterium tuberculosis thymidylate synthase X bound to FdUMP and FAD P9WG57 P9WG57 1.9 X-RAY DIFFRACTION 127 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 243 244 2af6-a10-m1-cD_2af6-a10-m1-cA 2af6-a1-m1-cC_2af6-a1-m1-cB 2af6-a1-m1-cD_2af6-a1-m1-cA 2af6-a2-m1-cE_2af6-a2-m1-cH 2af6-a2-m1-cF_2af6-a2-m1-cG 2af6-a7-m1-cE_2af6-a7-m1-cH 2af6-a8-m1-cC_2af6-a8-m1-cB 2af6-a9-m1-cF_2af6-a9-m1-cG 2gq2-a1-m1-cC_2gq2-a1-m1-cB 2gq2-a1-m1-cD_2gq2-a1-m1-cA 3gwc-a1-m1-cB_3gwc-a1-m1-cC 3gwc-a1-m1-cD_3gwc-a1-m1-cA 3gwc-a2-m1-cF_3gwc-a2-m1-cG 3hzg-a1-m1-cA_3hzg-a1-m1-cD 3hzg-a1-m1-cB_3hzg-a1-m1-cC 3hzg-a2-m1-cA_3hzg-a2-m1-cD 3hzg-a4-m1-cB_3hzg-a4-m1-cC ETAPLRVQLIAKTDFLAPPDVPWTTDADGGPALVEFAGRACYQSWSKPNPKTATNAGYLRHIIDVGHFSVLEHASVSFYITGISRSCTHELIRHRHFSYSQLSQRYVPEKDSRVVVPPGMEDDADLRHILTEAADAARATYSELLAKLEAKFADQPNAILRRKQARQAARAVLPNATETRIVVTGNYRAWRHFIAMRASEHADVEIRRLAIECLRQLAAVAPAVFADFEVTTLADGTEVATSP AETAPLRVQLIAKTDFLAPPDVPWTTDADGGPALVEFAGRACYQSWSKPNPKTATNAGYLRHIIDVGHFSVLEHASVSFYITGISRSCTHELIRHRHFSYSQLSQRYVPEKDSRVVVPPGMEDDADLRHILTEAADAARATYSELLAKLEAKFADQPNAILRRKQARQAARAVLPNATETRIVVTGNYRAWRHFIAMRASEHADVEIRRLAIECLRQLAAVAPAVFADFEVTTLADGTEVATSP 3gwj-a1-m1-cB_3gwj-a1-m1-cF Crystal structure of Antheraea pernyi arylphorin Q7Z1F8 Q7Z1F8 2.43 X-RAY DIFFRACTION 149 1.0 7119 (Antheraea pernyi) 7119 (Antheraea pernyi) 674 674 3gwj-a1-m1-cA_3gwj-a1-m1-cD 3gwj-a1-m1-cC_3gwj-a1-m1-cE HVLKTKDVDTVFVERQKKVLSLFQDVDQLNTNDEYYKIGKDYDIEANIDNYTNKKAVEDFLKMYRCGFLPKYNEFSVFHDKLRDEAIALFHLFYYAKDFDTFYKSAAFARVHLNQGQFLYAYYIAIIQRKDTYGIVLPAPYEIYPELFVNIDTTYKMFRTKMQNGLINPEAAVEYGIVKEDNHYVYYSNYSNAITYYNEEQRLAYFTEDIGLNAYYFFFHIHLPFWWTAEKYGNLKERRGEMYHYFYDQLLTRYYFERLTNGLGTIPEFSWYSPVKTGHYPLLTSYYTPFSQRPNFYNVHSEENYEKIRFLDAYENYFVQALQKGVFEGFGQTIYLNDSKANSFVGNYWQDNADLYGEEVTKDYQRSYEIVARQVLGAAPKPFDKYTFMPSALDFYQTSLRDPTFYQLYNRIIGYFNQFKQYLEPHSQEKLHFVGVKVNNVVVDKLVTFFEYYDFDATNTVFLTEEELKTKYPHNLKVRQPRLNHQPFNINIDIKADVATDAVVKIFMGPKYNENGFPITLENDWMKFFEMDWFTHKITPGQNTIVRNSNEFVIFKEDSLPSTELYKLLEKGKVPFDMSEDFGYLPKRLMLPRGTKGGFPFQFVVFVYPFESTTKNLTPYEKFMIDNKPLGYPFDRPVDTSCFKQPNIFFRDVSVYHEGEYHAYEYNVPAYFSH HVLKTKDVDTVFVERQKKVLSLFQDVDQLNTNDEYYKIGKDYDIEANIDNYTNKKAVEDFLKMYRCGFLPKYNEFSVFHDKLRDEAIALFHLFYYAKDFDTFYKSAAFARVHLNQGQFLYAYYIAIIQRKDTYGIVLPAPYEIYPELFVNIDTTYKMFRTKMQNGLINPEAAVEYGIVKEDNHYVYYSNYSNAITYYNEEQRLAYFTEDIGLNAYYFFFHIHLPFWWTAEKYGNLKERRGEMYHYFYDQLLTRYYFERLTNGLGTIPEFSWYSPVKTGHYPLLTSYYTPFSQRPNFYNVHSEENYEKIRFLDAYENYFVQALQKGVFEGFGQTIYLNDSKANSFVGNYWQDNADLYGEEVTKDYQRSYEIVARQVLGAAPKPFDKYTFMPSALDFYQTSLRDPTFYQLYNRIIGYFNQFKQYLEPHSQEKLHFVGVKVNNVVVDKLVTFFEYYDFDATNTVFLTEEELKTKYPHNLKVRQPRLNHQPFNINIDIKADVATDAVVKIFMGPKYNENGFPITLENDWMKFFEMDWFTHKITPGQNTIVRNSNEFVIFKEDSLPSTELYKLLEKGKVPFDMSEDFGYLPKRLMLPRGTKGGFPFQFVVFVYPFESTTKNLTPYEKFMIDNKPLGYPFDRPVDTSCFKQPNIFFRDVSVYHEGEYHAYEYNVPAYFSH 3gwj-a1-m1-cC_3gwj-a1-m1-cF Crystal structure of Antheraea pernyi arylphorin Q7Z1F8 Q7Z1F8 2.43 X-RAY DIFFRACTION 25 1.0 7119 (Antheraea pernyi) 7119 (Antheraea pernyi) 674 674 3gwj-a1-m1-cA_3gwj-a1-m1-cE 3gwj-a1-m1-cB_3gwj-a1-m1-cD HVLKTKDVDTVFVERQKKVLSLFQDVDQLNTNDEYYKIGKDYDIEANIDNYTNKKAVEDFLKMYRCGFLPKYNEFSVFHDKLRDEAIALFHLFYYAKDFDTFYKSAAFARVHLNQGQFLYAYYIAIIQRKDTYGIVLPAPYEIYPELFVNIDTTYKMFRTKMQNGLINPEAAVEYGIVKEDNHYVYYSNYSNAITYYNEEQRLAYFTEDIGLNAYYFFFHIHLPFWWTAEKYGNLKERRGEMYHYFYDQLLTRYYFERLTNGLGTIPEFSWYSPVKTGHYPLLTSYYTPFSQRPNFYNVHSEENYEKIRFLDAYENYFVQALQKGVFEGFGQTIYLNDSKANSFVGNYWQDNADLYGEEVTKDYQRSYEIVARQVLGAAPKPFDKYTFMPSALDFYQTSLRDPTFYQLYNRIIGYFNQFKQYLEPHSQEKLHFVGVKVNNVVVDKLVTFFEYYDFDATNTVFLTEEELKTKYPHNLKVRQPRLNHQPFNINIDIKADVATDAVVKIFMGPKYNENGFPITLENDWMKFFEMDWFTHKITPGQNTIVRNSNEFVIFKEDSLPSTELYKLLEKGKVPFDMSEDFGYLPKRLMLPRGTKGGFPFQFVVFVYPFESTTKNLTPYEKFMIDNKPLGYPFDRPVDTSCFKQPNIFFRDVSVYHEGEYHAYEYNVPAYFSH HVLKTKDVDTVFVERQKKVLSLFQDVDQLNTNDEYYKIGKDYDIEANIDNYTNKKAVEDFLKMYRCGFLPKYNEFSVFHDKLRDEAIALFHLFYYAKDFDTFYKSAAFARVHLNQGQFLYAYYIAIIQRKDTYGIVLPAPYEIYPELFVNIDTTYKMFRTKMQNGLINPEAAVEYGIVKEDNHYVYYSNYSNAITYYNEEQRLAYFTEDIGLNAYYFFFHIHLPFWWTAEKYGNLKERRGEMYHYFYDQLLTRYYFERLTNGLGTIPEFSWYSPVKTGHYPLLTSYYTPFSQRPNFYNVHSEENYEKIRFLDAYENYFVQALQKGVFEGFGQTIYLNDSKANSFVGNYWQDNADLYGEEVTKDYQRSYEIVARQVLGAAPKPFDKYTFMPSALDFYQTSLRDPTFYQLYNRIIGYFNQFKQYLEPHSQEKLHFVGVKVNNVVVDKLVTFFEYYDFDATNTVFLTEEELKTKYPHNLKVRQPRLNHQPFNINIDIKADVATDAVVKIFMGPKYNENGFPITLENDWMKFFEMDWFTHKITPGQNTIVRNSNEFVIFKEDSLPSTELYKLLEKGKVPFDMSEDFGYLPKRLMLPRGTKGGFPFQFVVFVYPFESTTKNLTPYEKFMIDNKPLGYPFDRPVDTSCFKQPNIFFRDVSVYHEGEYHAYEYNVPAYFSH 3gwj-a1-m1-cE_3gwj-a1-m1-cF Crystal structure of Antheraea pernyi arylphorin Q7Z1F8 Q7Z1F8 2.43 X-RAY DIFFRACTION 52 1.0 7119 (Antheraea pernyi) 7119 (Antheraea pernyi) 674 674 3gwj-a1-m1-cA_3gwj-a1-m1-cB 3gwj-a1-m1-cA_3gwj-a1-m1-cC 3gwj-a1-m1-cB_3gwj-a1-m1-cC 3gwj-a1-m1-cD_3gwj-a1-m1-cE 3gwj-a1-m1-cD_3gwj-a1-m1-cF HVLKTKDVDTVFVERQKKVLSLFQDVDQLNTNDEYYKIGKDYDIEANIDNYTNKKAVEDFLKMYRCGFLPKYNEFSVFHDKLRDEAIALFHLFYYAKDFDTFYKSAAFARVHLNQGQFLYAYYIAIIQRKDTYGIVLPAPYEIYPELFVNIDTTYKMFRTKMQNGLINPEAAVEYGIVKEDNHYVYYSNYSNAITYYNEEQRLAYFTEDIGLNAYYFFFHIHLPFWWTAEKYGNLKERRGEMYHYFYDQLLTRYYFERLTNGLGTIPEFSWYSPVKTGHYPLLTSYYTPFSQRPNFYNVHSEENYEKIRFLDAYENYFVQALQKGVFEGFGQTIYLNDSKANSFVGNYWQDNADLYGEEVTKDYQRSYEIVARQVLGAAPKPFDKYTFMPSALDFYQTSLRDPTFYQLYNRIIGYFNQFKQYLEPHSQEKLHFVGVKVNNVVVDKLVTFFEYYDFDATNTVFLTEEELKTKYPHNLKVRQPRLNHQPFNINIDIKADVATDAVVKIFMGPKYNENGFPITLENDWMKFFEMDWFTHKITPGQNTIVRNSNEFVIFKEDSLPSTELYKLLEKGKVPFDMSEDFGYLPKRLMLPRGTKGGFPFQFVVFVYPFESTTKNLTPYEKFMIDNKPLGYPFDRPVDTSCFKQPNIFFRDVSVYHEGEYHAYEYNVPAYFSH HVLKTKDVDTVFVERQKKVLSLFQDVDQLNTNDEYYKIGKDYDIEANIDNYTNKKAVEDFLKMYRCGFLPKYNEFSVFHDKLRDEAIALFHLFYYAKDFDTFYKSAAFARVHLNQGQFLYAYYIAIIQRKDTYGIVLPAPYEIYPELFVNIDTTYKMFRTKMQNGLINPEAAVEYGIVKEDNHYVYYSNYSNAITYYNEEQRLAYFTEDIGLNAYYFFFHIHLPFWWTAEKYGNLKERRGEMYHYFYDQLLTRYYFERLTNGLGTIPEFSWYSPVKTGHYPLLTSYYTPFSQRPNFYNVHSEENYEKIRFLDAYENYFVQALQKGVFEGFGQTIYLNDSKANSFVGNYWQDNADLYGEEVTKDYQRSYEIVARQVLGAAPKPFDKYTFMPSALDFYQTSLRDPTFYQLYNRIIGYFNQFKQYLEPHSQEKLHFVGVKVNNVVVDKLVTFFEYYDFDATNTVFLTEEELKTKYPHNLKVRQPRLNHQPFNINIDIKADVATDAVVKIFMGPKYNENGFPITLENDWMKFFEMDWFTHKITPGQNTIVRNSNEFVIFKEDSLPSTELYKLLEKGKVPFDMSEDFGYLPKRLMLPRGTKGGFPFQFVVFVYPFESTTKNLTPYEKFMIDNKPLGYPFDRPVDTSCFKQPNIFFRDVSVYHEGEYHAYEYNVPAYFSH 3gwl-a1-m1-cB_3gwl-a1-m1-cA Crystal structure of ASFV pB119L, a viral sulfhydryl oxidase Q65163 Q65163 2.1 X-RAY DIFFRACTION 39 1.0 10498 (African swine fever virus BA71V) 10498 (African swine fever virus BA71V) 102 106 HMLHWGPKYWRSLHLYAIFFSDAPSWKEKYEAIQWILNFIESLPCTRCQHHAFSYLTKNPLTLNNSEDFQYWTFAFHNNVNNRLNKKIISWSEYKNIYEQSI GSHMLHWGPKYWRSLHLYAIFFSDAPSWKEKYEAIQWILNFIESLPCTRCQHHAFSYLTKNPLTLNNSEDFQYWTFAFHNNVNNRLNKKIISWSEYKNIYEQSILK 3gwm-a1-m2-cA_3gwm-a1-m3-cA Crystal structure of the holo-[Acyl-Carrier-Protein] Synthase (ACPS) from Mycobacterium smegmatis A0R1H6 A0R1H6 1.7 X-RAY DIFFRACTION 53 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 129 129 3gwm-a1-m1-cA_3gwm-a1-m2-cA 3gwm-a1-m1-cA_3gwm-a1-m3-cA 7w58-a1-m1-cA_7w58-a1-m2-cA 7w58-a1-m1-cA_7w58-a1-m3-cA 7w58-a1-m2-cA_7w58-a1-m3-cA AIVGVGIDLVSIPDFAEQVDRPGTVFAETFTPGERRDAADKSSSAARHLAARWAAKEAVIKAWSSSRFSKRPALPEGIHRDIEVVTDMWGRPKVRLSGEIAKHLEDVTIHVSLTHEDQTAAAVAIIEEP AIVGVGIDLVSIPDFAEQVDRPGTVFAETFTPGERRDAADKSSSAARHLAARWAAKEAVIKAWSSSRFSKRPALPEGIHRDIEVVTDMWGRPKVRLSGEIAKHLEDVTIHVSLTHEDQTAAAVAIIEEP 3gwq-a1-m1-cB_3gwq-a1-m1-cA Crystal structure of a putative d-serine deaminase (bxe_a4060) from burkholderia xenovorans lb400 at 2.00 A resolution Q145Q0 Q145Q0 2 X-RAY DIFFRACTION 175 0.995 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 385 397 GATIDPYSKGLGVPGTSIQLTDAARLEWNLLNEDVSLPAAVLYADRVEHNLKWQAFVAEYGVKLAPHGKTTAPQLFRRQLETGAWGITLATAHQVRAAYHGGVSRVLANQLVGRRNVAELLSDPEFEFFCLVDSVEGVEQLGEFFKSVNKQLQVLLELGVPGGRTGVRDAAQRNAVLEAITRYPDTLKLAGVELYEGVLKEEHEVREFLQSAVAVTRELVEQERFARAPAVLSGAGSAWYDVVAEEFVKASETGKVEVVLRPGCYLTGEGLLPALQLWAYVQSIPEPDRAIIGLGKRDSAFDAGPEPARHYRPGNEAPRDIAASEGWEIFGLDQHAYLRIPAGADLKVGDIAFDISHPCLTFDKWRQVLVVDPAYRVTEVIETFF ATIDPYSKGLGVPGTSIQLTDAARLEWNLLNEDVSLPAAVLYADRVEHNLKWQAFVAEYGVKLAPHGKTTAPQLFRRQLETGAWGITLATAHQVRAAYHGGVSRVLANQLVGRRNVAELLSDPEFEFFCLVDSVEGVEQLGEFFKSVNKQLQVLLELGVPGGRTGVRDAAQRNAVLEAITRYPDTLKLAGVELYEGVLKEEHEVREFLQSAVAVTRELVEQERFARAPAVLSGAGSAWYDVVAEEFVKASETGKVEVVLRPGCYLTHDVGIYRKAQTDIFEGLLPALQLWAYVQSIPEPDRAIIGLGKRDSAFDAGPEPARHYRPGNEAPRDIAASEGWEIFGLDQHAYLRIPAGADLKVGDIAFDISHPCLTFDKWRQVLVVDPAYRVTEVIETFF 3gwr-a1-m1-cA_3gwr-a1-m1-cB Crystal structure of Putative calcium/calmodulin-dependent protein kinase type II association domain (YP_315894.1) from THIOBACILLUS DENITRIFICANS ATCC 25259 at 2.00 A resolution Q3SH04 Q3SH04 2.01 X-RAY DIFFRACTION 92 1.0 292415 (Thiobacillus denitrificans ATCC 25259) 292415 (Thiobacillus denitrificans ATCC 25259) 122 123 EPVFPTPEAAEDAFYAAFEARSLDDAVWARDDHVACIHPLAAPLNGRAAVAAGWRSFGAAGRFRLQVKAVHEIRQADHVIRIVDEFLTIGDETAPRPAILATNVYRREADGWRVLHHASPLQ SEPVFPTPEAAEDAFYAAFEARSLDDAVWARDDHVACIHPLAAPLNGRAAVAAGWRSFGAAGRFRLQVKAVHEIRQADHVIRIVDEFLTIGDETAPRPAILATNVYRREADGWRVLHHASPLQ 3gwy-a1-m1-cA_3gwy-a1-m1-cB Crystal structure of putative CTP pyrophosphohydrolase from Bacteroides fragilis Q5LBB1 Q5LBB1 2 X-RAY DIFFRACTION 60 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 121 133 SLKSIEVVAAVIRLGEKYLCVQRFRYEFPGGKVEEGESLQEALQREIMEEMDYVIEVGEKLLTVHHTYPDFEITMHAFLCHPVGQRYVLKEHIAAQWLSTREMAILDWAEADKPIVRKISE SLKSIEVVAAVIRLGEKYLCVQRGQTKFSYTSFRYEFPGGKVEEGESLQEALQREIMEEMDYVIEVGEKLLTVHHTYPDFEITMHAFLCHPVGQRYVLKEHIAAQWLSTREMAILDWAEADKPIVRKISEQEG 3gwz-a1-m1-cA_3gwz-a1-m1-cD Structure of the Mitomycin 7-O-methyltransferase MmcR Q9X5T6 Q9X5T6 1.91 X-RAY DIFFRACTION 34 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 336 336 3gxo-a3-m1-cA_3gxo-a3-m1-cD GTAARAAAEETVNDILQGAWKARAIHVAVELGVPELLQEGPRTATALAEATGAHEQTLRRLLRLLATVGVFDDLGHDDLFAQNALSAVLLPDPASPVATDARFQAAPWHWRAWEQLTHSVRTGEASFDVANGTSFWQLTHEDPKARELFNRAGSVSLTEAGQVAAAYDFSGAATAVDIGGGRGSLAAVLDAFPGLRGTLLERPPVAEEARELLTGRGLADRCEILPGDFFETIPDGADVYLIKHVLHDWDDDDVVRILRRIATAKPDSRLLVIDNLIDERPAASTLFVDLLLLVLVGGAERSESEFAALLEKSGLRVERSLPCGAGPVRIVEIRRA GTAARAAAEETVNDILQGAWKARAIHVAVELGVPELLQEGPRTATALAEATGAHEQTLRRLLRLLATVGVFDDLGHDDLFAQNALSAVLLPDPASPVATDARFQAAPWHWRAWEQLTHSVRTGEASFDVANGTSFWQLTHEDPKARELFNRAGSVSLTEAGQVAAAYDFSGAATAVDIGGGRGSLAAVLDAFPGLRGTLLERPPVAEEARELLTGRGLADRCEILPGDFFETIPDGADVYLIKHVLHDWDDDDVVRILRRIATAKPDSRLLVIDNLIDERPAASTLFVDLLLLVLVGGAERSESEFAALLEKSGLRVERSLPCGAGPVRIVEIRRA 3gx1-a1-m1-cA_3gx1-a1-m1-cB Crystal structure of a domain of lin1832 from Listeria innocua Q92AT7 Q92AT7 2.3 X-RAY DIFFRACTION 60 0.992 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 118 118 SNAQVEVIVHGRSTATSVETVQELLSIESGIALDPLTVEVKAYEKLKQTVVKLNPVKGVLILSDGSLTSFGNILTEELGIRTKTVTVSTPVVLEARKASLGRGLEDIYQSCEQLFENK NAQVEVIVHGRSTATSVETVQELLSIESGIALDPLTVEVKAYEKLKQTVVKLNPVKGVLILSDGSLTSFGNILTEELGIRTKTVTVSTPVVLEARKASLGRGLEDIYQSCEQLFENKY 3gxg-a6-m5-cD_3gxg-a6-m7-cD Crystal structure of Putative phosphatase (DUF442) (YP_001181608.1) from SHEWANELLA PUTREFACIENS CN-32 at 1.60 A resolution A4Y1H6 A4Y1H6 1.6 X-RAY DIFFRACTION 23 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 152 152 3gxg-a5-m1-cA_3gxg-a5-m3-cA 3gxg-a5-m1-cA_3gxg-a5-m4-cA 3gxg-a5-m1-cB_3gxg-a5-m3-cB 3gxg-a5-m1-cB_3gxg-a5-m4-cB 3gxg-a5-m2-cA_3gxg-a5-m3-cA 3gxg-a5-m2-cA_3gxg-a5-m4-cA 3gxg-a5-m2-cB_3gxg-a5-m3-cB 3gxg-a5-m2-cB_3gxg-a5-m4-cB 3gxg-a6-m1-cC_3gxg-a6-m6-cC 3gxg-a6-m1-cC_3gxg-a6-m7-cC 3gxg-a6-m1-cD_3gxg-a6-m6-cD 3gxg-a6-m1-cD_3gxg-a6-m7-cD 3gxg-a6-m5-cC_3gxg-a6-m6-cC 3gxg-a6-m5-cC_3gxg-a6-m7-cC 3gxg-a6-m5-cD_3gxg-a6-m6-cD GNIESIENLQGIRALQQQAPQLLSSGLPNEQQFSLLKQAGVDVVINLPDSSKDAHPDEGKLVTQAGDYVYIPVDWQNPKVEDVEAFFAADQHKGKDVLVHCLANYRASAFAYLYQLKQGQNPNAQTTPWNDELAIYPKWQALLTEVSAKYGH GNIESIENLQGIRALQQQAPQLLSSGLPNEQQFSLLKQAGVDVVINLPDSSKDAHPDEGKLVTQAGDYVYIPVDWQNPKVEDVEAFFAADQHKGKDVLVHCLANYRASAFAYLYQLKQGQNPNAQTTPWNDELAIYPKWQALLTEVSAKYGH 3gxg-a6-m7-cC_3gxg-a6-m7-cD Crystal structure of Putative phosphatase (DUF442) (YP_001181608.1) from SHEWANELLA PUTREFACIENS CN-32 at 1.60 A resolution A4Y1H6 A4Y1H6 1.6 X-RAY DIFFRACTION 73 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 152 152 3gxg-a5-m1-cA_3gxg-a5-m1-cB 3gxg-a5-m2-cA_3gxg-a5-m2-cB 3gxg-a5-m3-cA_3gxg-a5-m3-cB 3gxg-a5-m4-cA_3gxg-a5-m4-cB 3gxg-a6-m1-cC_3gxg-a6-m1-cD 3gxg-a6-m5-cC_3gxg-a6-m5-cD 3gxg-a6-m6-cC_3gxg-a6-m6-cD GNIESIENLQGIRALQQQAPQLLSSGLPNEQQFSLLKQAGVDVVINLPDSSKDAHPDEGKLVTQAGDYVYIPVDWQNPKVEDVEAFFAADQHKGKDVLVHCLANYRASAFAYLYQLKQGQNPNAQTTPWNDELAIYPKWQALLTEVSAKYGH GNIESIENLQGIRALQQQAPQLLSSGLPNEQQFSLLKQAGVDVVINLPDSSKDAHPDEGKLVTQAGDYVYIPVDWQNPKVEDVEAFFAADQHKGKDVLVHCLANYRASAFAYLYQLKQGQNPNAQTTPWNDELAIYPKWQALLTEVSAKYGH 3gxh-a3-m1-cB_3gxh-a3-m1-cA Crystal structure of Putative phosphatase (DUF442) (YP_001181608.1) from SHEWANELLA PUTREFACIENS CN-32 at 1.40 A resolution A4Y1H6 A4Y1H6 1.4 X-RAY DIFFRACTION 41 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 146 151 SIENLQGIRALQQQAPQLLSSGLPNEQQFSLLKQAGVDVVINLPDSSKDAHPDEGKLVTQAGDYVYIPVDWQNPKVEDVEAFFAADQHKGKDVLVHCLANYRASAFAYLYQLKQGQNPNAQTTPWNLAIYPKWQALLTEVSAKYGH NIESIENLQGIRALQQQAPQLLSSGLPNEQQFSLLKQAGVDVVINLPDSSKDAHPDEGKLVTQAGDYVYIPVDWQNPKVEDVEAFFAADQHKGKDVLVHCLANYRASAFAYLYQLKQGQNPNAQTTPWNDELAIYPKWQALLTEVSAKYGH 3gxo-a3-m1-cC_3gxo-a3-m1-cD Structure of the Mitomycin 7-O-methyltransferase MmcR with bound Mitomycin A Q9X5T6 Q9X5T6 2.3 X-RAY DIFFRACTION 214 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 336 336 3gwz-a1-m1-cA_3gwz-a1-m1-cB 3gwz-a1-m1-cC_3gwz-a1-m1-cD 3gwz-a2-m1-cA_3gwz-a2-m1-cB 3gwz-a3-m1-cC_3gwz-a3-m1-cD 3gxo-a1-m1-cA_3gxo-a1-m1-cB 3gxo-a2-m1-cC_3gxo-a2-m1-cD 3gxo-a3-m1-cA_3gxo-a3-m1-cB GTAARAAAEETVNDILQGAWKARAIHVAVELGVPELLQEGPRTATALAEATGAHEQTLRRLLRLLATVGVFDDLGHDDLFAQNALSAVLLPDPASPVATDARFQAAPWHWRAWEQLTHSVRTGEASFDVANGTSFWQLTHEDPKARELFNRAGSVSLTEAGQVAAAYDFSGAATAVDIGGGRGSLAAVLDAFPGLRGTLLERPPVAEEARELLTGRGLADRCEILPGDFFETIPDGADVYLIKHVLHDWDDDDVVRILRRIATAKPDSRLLVIDNLIDERPAASTLFVDLLLLVLVGGAERSESEFAALLEKSGLRVERSLPCGAGPVRIVEIRRA GTAARAAAEETVNDILQGAWKARAIHVAVELGVPELLQEGPRTATALAEATGAHEQTLRRLLRLLATVGVFDDLGHDDLFAQNALSAVLLPDPASPVATDARFQAAPWHWRAWEQLTHSVRTGEASFDVANGTSFWQLTHEDPKARELFNRAGSVSLTEAGQVAAAYDFSGAATAVDIGGGRGSLAAVLDAFPGLRGTLLERPPVAEEARELLTGRGLADRCEILPGDFFETIPDGADVYLIKHVLHDWDDDDVVRILRRIATAKPDSRLLVIDNLIDERPAASTLFVDLLLLVLVGGAERSESEFAALLEKSGLRVERSLPCGAGPVRIVEIRRA 3gxq-a1-m1-cA_3gxq-a1-m1-cB Structure of ArtA and DNA complex A0A0H2XIU6 A0A0H2XIU6 2.35 X-RAY DIFFRACTION 109 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 53 54 NSVFFGKKKKVSLHLLVDPDMKDEIIKYAQEKDFDNVSQAGREILKKGLEQIA ENSVFFGKKKKVSLHLLVDPDMKDEIIKYAQEKDFDNVSQAGREILKKGLEQIA 3gxv-a1-m1-cA_3gxv-a1-m1-cB Three-dimensional structure of N-terminal domain of DnaB Helicase from Helicobacter pylori and its interactions with primase O25916 O25916 2.2 X-RAY DIFFRACTION 26 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 122 123 MDHLKHLQQLQNIERIVLSGIVLANHKIEEVHSVLEPSDFYYPPNGLFFEIALKLHEEDCPIDENFIRQKMPKDKQIKEEDLVAIFAASPIDNIEAYVEEIKNASIKRKLFGLANTIREQAH MDHLKHLQQLQNIERIVLSGIVLANHKIEEVHSVLEPSDFYYPPNGLFFEIALKLHEEDCPIDENFIRQKMPKDKQIKEEDLVAIFAASPIDNIEAYVEEIKNASIKRKLFGLANTIREQAHH 3gxy-a1-m1-cA_3gxy-a1-m1-cB Crystal structure of cyanovirin-n complexed to a synthetic hexamannoside P81180 P81180 2.4 X-RAY DIFFRACTION 249 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 1l5b-a1-m1-cA_1l5b-a1-m1-cB 3gxz-a1-m1-cA_3gxz-a1-m1-cB LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQPSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQPSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 3gy1-a1-m1-cA_3gy1-a1-m4-cB CRYSTAL STRUCTURE OF putative mandelate racemase/muconate lactonizing protein from Clostridium beijerinckii NCIMB 8052 A6M2W4 A6M2W4 1.6 X-RAY DIFFRACTION 110 1.0 290402 (Clostridium beijerinckii NCIMB 8052) 290402 (Clostridium beijerinckii NCIMB 8052) 387 388 3gy1-a1-m2-cA_3gy1-a1-m3-cB 3gy1-a1-m3-cA_3gy1-a1-m1-cB 3gy1-a1-m4-cA_3gy1-a1-m2-cB 3s47-a2-m1-cA_3s47-a2-m4-cB 3s47-a2-m1-cB_3s47-a2-m3-cA 3s47-a2-m2-cA_3s47-a2-m3-cB 3s47-a2-m2-cB_3s47-a2-m4-cA SLEPTIITDVLCYITKPDRHNLVVVKVETNKGIYGLGCATFQQRPKAVSLVVSEYLKPILIGRDANNIEDLWQMMMVNSYWRNGPILNNAISGVDMALWDIKGKLANMPLYQLFGGKSRDAIAAYTHAVADNLEDLYTEIDEIRKKGYQHIRCQLGFGSYFDQDEYMRTTVSMFSSLREKYGYKFHILHDVHERLFPNQAVQFAKDVEKYKPYFIEDILPPDQNEWLGQIRSQTSTPLATGELFNNPMEWKSLIANRQVDFIRCHVSQIGGITPALKLGSLCAAFGVRIAWHTPSDITPIGVAVNIHLNINLHNAAIQENIEINDNTRCVFSGIPEAKNGFFYPIESPGIGVDIDENEIIKYPVEYRPHEWTQSRIPDGTIVTEGHH SLEPTIITDVLCYITKPDRHNLVVVKVETNKGIYGLGCATFQQRPKAVSLVVSEYLKPILIGRDANNIEDLWQMMMVNSYWRNGPILNNAISGVDMALWDIKGKLANMPLYQLFGGKSRDAIAAYTHAVADNLEDLYTEIDEIRKKGYQHIRCQLGFQGSYFDQDEYMRTTVSMFSSLREKYGYKFHILHDVHERLFPNQAVQFAKDVEKYKPYFIEDILPPDQNEWLGQIRSQTSTPLATGELFNNPMEWKSLIANRQVDFIRCHVSQIGGITPALKLGSLCAAFGVRIAWHTPSDITPIGVAVNIHLNINLHNAAIQENIEINDNTRCVFSGIPEAKNGFFYPIESPGIGVDIDENEIIKYPVEYRPHEWTQSRIPDGTIVTEGHH 3gy1-a1-m2-cB_3gy1-a1-m4-cB CRYSTAL STRUCTURE OF putative mandelate racemase/muconate lactonizing protein from Clostridium beijerinckii NCIMB 8052 A6M2W4 A6M2W4 1.6 X-RAY DIFFRACTION 47 1.0 290402 (Clostridium beijerinckii NCIMB 8052) 290402 (Clostridium beijerinckii NCIMB 8052) 388 388 3gy1-a1-m1-cA_3gy1-a1-m3-cA 3gy1-a1-m1-cA_3gy1-a1-m4-cA 3gy1-a1-m1-cB_3gy1-a1-m3-cB 3gy1-a1-m1-cB_3gy1-a1-m4-cB 3gy1-a1-m2-cA_3gy1-a1-m3-cA 3gy1-a1-m2-cA_3gy1-a1-m4-cA 3gy1-a1-m2-cB_3gy1-a1-m3-cB 3s47-a2-m1-cA_3s47-a2-m3-cA 3s47-a2-m1-cA_3s47-a2-m4-cA 3s47-a2-m1-cB_3s47-a2-m3-cB 3s47-a2-m1-cB_3s47-a2-m4-cB 3s47-a2-m2-cA_3s47-a2-m3-cA 3s47-a2-m2-cA_3s47-a2-m4-cA 3s47-a2-m2-cB_3s47-a2-m3-cB 3s47-a2-m2-cB_3s47-a2-m4-cB SLEPTIITDVLCYITKPDRHNLVVVKVETNKGIYGLGCATFQQRPKAVSLVVSEYLKPILIGRDANNIEDLWQMMMVNSYWRNGPILNNAISGVDMALWDIKGKLANMPLYQLFGGKSRDAIAAYTHAVADNLEDLYTEIDEIRKKGYQHIRCQLGFQGSYFDQDEYMRTTVSMFSSLREKYGYKFHILHDVHERLFPNQAVQFAKDVEKYKPYFIEDILPPDQNEWLGQIRSQTSTPLATGELFNNPMEWKSLIANRQVDFIRCHVSQIGGITPALKLGSLCAAFGVRIAWHTPSDITPIGVAVNIHLNINLHNAAIQENIEINDNTRCVFSGIPEAKNGFFYPIESPGIGVDIDENEIIKYPVEYRPHEWTQSRIPDGTIVTEGHH SLEPTIITDVLCYITKPDRHNLVVVKVETNKGIYGLGCATFQQRPKAVSLVVSEYLKPILIGRDANNIEDLWQMMMVNSYWRNGPILNNAISGVDMALWDIKGKLANMPLYQLFGGKSRDAIAAYTHAVADNLEDLYTEIDEIRKKGYQHIRCQLGFQGSYFDQDEYMRTTVSMFSSLREKYGYKFHILHDVHERLFPNQAVQFAKDVEKYKPYFIEDILPPDQNEWLGQIRSQTSTPLATGELFNNPMEWKSLIANRQVDFIRCHVSQIGGITPALKLGSLCAAFGVRIAWHTPSDITPIGVAVNIHLNINLHNAAIQENIEINDNTRCVFSGIPEAKNGFFYPIESPGIGVDIDENEIIKYPVEYRPHEWTQSRIPDGTIVTEGHH 3gy9-a2-m2-cA_3gy9-a2-m4-cA Crystal structure of putative acetyltransferase (YP_001815201.1) from EXIGUOBACTERIUM SP. 255-15 at 1.52 A resolution B1YEL6 B1YEL6 1.52 X-RAY DIFFRACTION 12 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 144 144 3gy9-a2-m1-cA_3gy9-a2-m3-cA DVTIERVNDFDGYNWLPLLAKSSQEGFQLVERLRNRREESFQEDGEAFVALSTTNQVLACGGYKQSGQARTGRIRHVYVLPEARSHGIGTALLEKISEAFLTYDRLVLYSEQADPFYQGLGFQLVSGEKITHTLDKTAFADSNR DVTIERVNDFDGYNWLPLLAKSSQEGFQLVERLRNRREESFQEDGEAFVALSTTNQVLACGGYKQSGQARTGRIRHVYVLPEARSHGIGTALLEKISEAFLTYDRLVLYSEQADPFYQGLGFQLVSGEKITHTLDKTAFADSNR 3gy9-a2-m3-cA_3gy9-a2-m4-cA Crystal structure of putative acetyltransferase (YP_001815201.1) from EXIGUOBACTERIUM SP. 255-15 at 1.52 A resolution B1YEL6 B1YEL6 1.52 X-RAY DIFFRACTION 26 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 144 144 3gy9-a2-m1-cA_3gy9-a2-m2-cA 3gya-a2-m1-cA_3gya-a2-m2-cA DVTIERVNDFDGYNWLPLLAKSSQEGFQLVERLRNRREESFQEDGEAFVALSTTNQVLACGGYKQSGQARTGRIRHVYVLPEARSHGIGTALLEKISEAFLTYDRLVLYSEQADPFYQGLGFQLVSGEKITHTLDKTAFADSNR DVTIERVNDFDGYNWLPLLAKSSQEGFQLVERLRNRREESFQEDGEAFVALSTTNQVLACGGYKQSGQARTGRIRHVYVLPEARSHGIGTALLEKISEAFLTYDRLVLYSEQADPFYQGLGFQLVSGEKITHTLDKTAFADSNR 3gyd-a1-m1-cA_3gyd-a1-m1-cB Crystal structure of a cyclic nucleotide-binding domain (mfla_1926) from methylobacillus flagellatus kt at 1.79 A resolution Q1GZZ4 Q1GZZ4 1.79 X-RAY DIFFRACTION 143 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 172 174 HHHENLYFQGYPDLVHLGGADKYFEEILEIVNKIKLFGDFSNEEVRYLCSYQCYAAPRDCQLLTEGDPGDYLLLILTGEVNVIKDIPNKGIQTIAKVGAGAIIGESIDGPRSASCVASLPTDFAVLSRDALYQLLANPKLGNKVLIRLLQLLTARFRESYDRILPKTLGELI HHHHHENLYFQGYPDLVHLGGADKYFEEILEIVNKIKLFGDFSNEEVRYLCSYQCYAAPRDCQLLTEGDPGDYLLLILTGEVNVIKDIPNKGIQTIAKVGAGAIIGESIDGPRSASCVASLPTDFAVLSRDALYQLLANPKLGNKVLIRLLQLLTARFRESYDRILPKTLGELI 3gyg-a1-m2-cC_3gyg-a1-m1-cA Crystal structure of yhjK (haloacid dehalogenase-like hydrolase protein) from Bacillus subtilis O07565 O07565 2.45 X-RAY DIFFRACTION 125 0.996 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 273 280 SNALLSKKSEYKTLSTVEHPQYIVFCDFDETYFPHTIDEQKQQDIYELEDYLEQKSKDGELIIGWVTGSSIESILDKGRGKFRYFPHFIASDLGTEITYFSEHNFGQQDNKWNSRINEGFSKEKVEKLVKQLHENHNILLNPQTQLGKSRYKHNFYYQEKKNLLAIEKICEEYGVSVNINRCNPLAGDPEDSYDVDFIPIGTGKNEIVTFLEKYNLNTERAIAFGDSGNDVRLQTVGNGYLLKNATQEAKNLHNLITDSEYSKGITNTLKKLI NALLSKKSEYKTLSTVEHPQYIVFCDFDETYFPHTIDEQKQQDIYELEDYLEQKSKDGELIIGWVTGSSIESILDKGRGKFRYFPHFIASDLGTEITYFSEHNFGQQDNKWNSRINEGFSKEKVEKLVKQLHENHNILLNPQTQLGKSRYKHNFYYQEQDEINDKKNLLAIEKICEEYGVSVNINRCNPLAGDPEDSYDVDFIPIGTGKNEIVTFLEKYNLNTERAIAFGDSGNDVRLQTVGNGYLLKNATQEAKNLHNLITDSEYSKGITNTLKKLIGF 3gyg-a1-m2-cD_3gyg-a1-m2-cC Crystal structure of yhjK (haloacid dehalogenase-like hydrolase protein) from Bacillus subtilis O07565 O07565 2.45 X-RAY DIFFRACTION 17 0.992 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 245 273 3gyg-a1-m1-cB_3gyg-a1-m1-cA SNALLSKKSEYKTLSTVEHPQYIVFCDFDETYFPHTIDEQKQQDIYELEDYLEQKSKDGELIIGWVTGSSIESILDKGRGKFRYFPHFIASDLGTEITYFSEHNFGQQDNKWNSRINEGFSKEKVEKLVKQLHNILLNNFYYNLLAIEKICEEYGVSVNINRCDVDFIPIGTGKNEIVTFLEKYNLNTERAIAFGDSGNDVRLQTVGNGYLLKNATQEAKNLHNLITDSEYSKGITNTLKKLIGF SNALLSKKSEYKTLSTVEHPQYIVFCDFDETYFPHTIDEQKQQDIYELEDYLEQKSKDGELIIGWVTGSSIESILDKGRGKFRYFPHFIASDLGTEITYFSEHNFGQQDNKWNSRINEGFSKEKVEKLVKQLHENHNILLNPQTQLGKSRYKHNFYYQEKKNLLAIEKICEEYGVSVNINRCNPLAGDPEDSYDVDFIPIGTGKNEIVTFLEKYNLNTERAIAFGDSGNDVRLQTVGNGYLLKNATQEAKNLHNLITDSEYSKGITNTLKKLI 3gyq-a1-m1-cA_3gyq-a1-m1-cB Structure of the Thiostrepton-Resistance Methyltransferase S-adenosyl-L-methionine Complex P18644 P18644 2.45 X-RAY DIFFRACTION 73 1.0 1904 (Streptomyces cyaneus) 1904 (Streptomyces cyaneus) 261 261 ANPSDPAVQRIIDVTKPSRSNIKTTLIEDVEPLMHSIAAGVEFIEVYGSDSSPFPSELLDLCGRQNIPVRLIDSSIVNQLFKGERKAKTFGIARVPRPARFGDIASRRGDVVVLDGVKIVGNIGAIVRTSLALGASGIILVDSDITSIADRRLQRASRGYVFSLPVVLSGREEAIAFIRDSGMQLMTLKADGDISVKELGDNPDRLALLFGSEKGGPSDLFEEASSASVSIPMMSQTESLNVSVSLGIALHERIDRNLAAN ANPSDPAVQRIIDVTKPSRSNIKTTLIEDVEPLMHSIAAGVEFIEVYGSDSSPFPSELLDLCGRQNIPVRLIDSSIVNQLFKGERKAKTFGIARVPRPARFGDIASRRGDVVVLDGVKIVGNIGAIVRTSLALGASGIILVDSDITSIADRRLQRASRGYVFSLPVVLSGREEAIAFIRDSGMQLMTLKADGDISVKELGDNPDRLALLFGSEKGGPSDLFEEASSASVSIPMMSQTESLNVSVSLGIALHERIDRNLAAN 3gyr-a2-m1-cK_3gyr-a2-m1-cL Structure of Phenoxazinone synthase from Streptomyces antibioticus reveals a new type 2 copper center. Q53692 Q53692 2.3 X-RAY DIFFRACTION 45 1.0 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 587 587 3gyr-a1-m1-cA_3gyr-a1-m1-cB 3gyr-a1-m1-cA_3gyr-a1-m1-cF 3gyr-a1-m1-cB_3gyr-a1-m1-cC 3gyr-a1-m1-cC_3gyr-a1-m1-cD 3gyr-a1-m1-cD_3gyr-a1-m1-cE 3gyr-a1-m1-cE_3gyr-a1-m1-cF 3gyr-a2-m1-cG_3gyr-a2-m1-cH 3gyr-a2-m1-cG_3gyr-a2-m1-cL 3gyr-a2-m1-cH_3gyr-a2-m1-cI 3gyr-a2-m1-cI_3gyr-a2-m1-cJ 3gyr-a2-m1-cJ_3gyr-a2-m1-cK APGELTPFAAPLTVPPVLRPASDEVTRETEIALRPTWVRLHPQLPPTLMWGYDGQVPGPTIEVRRGQRVRIAWTNRIPKGSEYPVTSVEVPLGPPGTPAPNTEPGRGGVEPNKDVAALPAWSVTHLHGAQTGGGNDGWADNAVGFGDAQLSEYPNDHQATQWWYHDHAMNITRWNVMAGLYGTYLVRDDEEDALGLPSGDREIPLLIADRNLDTDEDGRLNGRLLHKTVIVQQSNPETGKPVSIPFFGPYTTVNGRIWPYADVDDGWYRLRLVNASNARIYNLVLIDEDDRPVPGVVHQIGSDGGLLPRPVPVDFDDTLPVLSAAPAERFDLLVDFRALGGRRLRLVDKGPGAPAGTPDPLGGVRYPEVMEFRVRETCEEDSFALPEVLSGSFRRMSHDIPHGHRLIVLTPPGTKGSGGHPEIWEMAEVEQVPAEGVIQVTGADGRTKTYRRTARTFNDGLGFTIGEGTHEQWTFLNLSPILHPMHIHLADFQVLGRDAYDASGFDLALGGTRTPVRLDPDTPVPLAPNELGHKDVFQVPGPQGLRVMGKFDGAYGRFMYHCHLLEHEDMGMMRPFVVMPPEALKFD APGELTPFAAPLTVPPVLRPASDEVTRETEIALRPTWVRLHPQLPPTLMWGYDGQVPGPTIEVRRGQRVRIAWTNRIPKGSEYPVTSVEVPLGPPGTPAPNTEPGRGGVEPNKDVAALPAWSVTHLHGAQTGGGNDGWADNAVGFGDAQLSEYPNDHQATQWWYHDHAMNITRWNVMAGLYGTYLVRDDEEDALGLPSGDREIPLLIADRNLDTDEDGRLNGRLLHKTVIVQQSNPETGKPVSIPFFGPYTTVNGRIWPYADVDDGWYRLRLVNASNARIYNLVLIDEDDRPVPGVVHQIGSDGGLLPRPVPVDFDDTLPVLSAAPAERFDLLVDFRALGGRRLRLVDKGPGAPAGTPDPLGGVRYPEVMEFRVRETCEEDSFALPEVLSGSFRRMSHDIPHGHRLIVLTPPGTKGSGGHPEIWEMAEVEQVPAEGVIQVTGADGRTKTYRRTARTFNDGLGFTIGEGTHEQWTFLNLSPILHPMHIHLADFQVLGRDAYDASGFDLALGGTRTPVRLDPDTPVPLAPNELGHKDVFQVPGPQGLRVMGKFDGAYGRFMYHCHLLEHEDMGMMRPFVVMPPEALKFD 3gyr-a8-m1-cD_3gyr-a8-m1-cL Structure of Phenoxazinone synthase from Streptomyces antibioticus reveals a new type 2 copper center. Q53692 Q53692 2.3 X-RAY DIFFRACTION 150 1.0 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 587 587 3gyr-a3-m1-cF_3gyr-a3-m1-cJ 3gyr-a4-m1-cE_3gyr-a4-m1-cK 3gyr-a5-m1-cA_3gyr-a5-m1-cI 3gyr-a6-m1-cB_3gyr-a6-m1-cH 3gyr-a7-m1-cC_3gyr-a7-m1-cG APGELTPFAAPLTVPPVLRPASDEVTRETEIALRPTWVRLHPQLPPTLMWGYDGQVPGPTIEVRRGQRVRIAWTNRIPKGSEYPVTSVEVPLGPPGTPAPNTEPGRGGVEPNKDVAALPAWSVTHLHGAQTGGGNDGWADNAVGFGDAQLSEYPNDHQATQWWYHDHAMNITRWNVMAGLYGTYLVRDDEEDALGLPSGDREIPLLIADRNLDTDEDGRLNGRLLHKTVIVQQSNPETGKPVSIPFFGPYTTVNGRIWPYADVDDGWYRLRLVNASNARIYNLVLIDEDDRPVPGVVHQIGSDGGLLPRPVPVDFDDTLPVLSAAPAERFDLLVDFRALGGRRLRLVDKGPGAPAGTPDPLGGVRYPEVMEFRVRETCEEDSFALPEVLSGSFRRMSHDIPHGHRLIVLTPPGTKGSGGHPEIWEMAEVEQVPAEGVIQVTGADGRTKTYRRTARTFNDGLGFTIGEGTHEQWTFLNLSPILHPMHIHLADFQVLGRDAYDASGFDLALGGTRTPVRLDPDTPVPLAPNELGHKDVFQVPGPQGLRVMGKFDGAYGRFMYHCHLLEHEDMGMMRPFVVMPPEALKFD APGELTPFAAPLTVPPVLRPASDEVTRETEIALRPTWVRLHPQLPPTLMWGYDGQVPGPTIEVRRGQRVRIAWTNRIPKGSEYPVTSVEVPLGPPGTPAPNTEPGRGGVEPNKDVAALPAWSVTHLHGAQTGGGNDGWADNAVGFGDAQLSEYPNDHQATQWWYHDHAMNITRWNVMAGLYGTYLVRDDEEDALGLPSGDREIPLLIADRNLDTDEDGRLNGRLLHKTVIVQQSNPETGKPVSIPFFGPYTTVNGRIWPYADVDDGWYRLRLVNASNARIYNLVLIDEDDRPVPGVVHQIGSDGGLLPRPVPVDFDDTLPVLSAAPAERFDLLVDFRALGGRRLRLVDKGPGAPAGTPDPLGGVRYPEVMEFRVRETCEEDSFALPEVLSGSFRRMSHDIPHGHRLIVLTPPGTKGSGGHPEIWEMAEVEQVPAEGVIQVTGADGRTKTYRRTARTFNDGLGFTIGEGTHEQWTFLNLSPILHPMHIHLADFQVLGRDAYDASGFDLALGGTRTPVRLDPDTPVPLAPNELGHKDVFQVPGPQGLRVMGKFDGAYGRFMYHCHLLEHEDMGMMRPFVVMPPEALKFD 3gyz-a1-m1-cA_3gyz-a1-m1-cB Crystal structure of IpgC from Shigella flexneri P0A2U4 P0A2U4 2.15 X-RAY DIFFRACTION 78 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 143 143 3gz1-a1-m1-cB_3gz1-a1-m1-cA 3gz2-a1-m1-cB_3gz2-a1-m1-cA ESISTAVIDAINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAIQ ESISTAVIDAINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAIQ 3gz7-a1-m1-cB_3gz7-a1-m1-cA Crystal structure of Putative antibiotic biosynthesis monooxygenase (NP_888398.1) from BORDETELLA BRONCHISEPTICA at 2.15 A resolution A0A0H3LTZ0 A0A0H3LTZ0 2.15 X-RAY DIFFRACTION 70 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 95 96 QGIQEIASILVQPGREADFEAGVAQARPLFRARGCHGVALHRSIEAPQRYTLVVDWETVDNHVDFRQSADFQEWRKLVGECFAEPPQVHHEQKVL FQGIQEIASILVQPGREADFEAGVAQARPLFRARGCHGVALHRSIEAPQRYTLVVDWETVDNHVDFRQSADFQEWRKLVGECFAEPPQVHHEQKVL 3gz8-a2-m1-cD_3gz8-a2-m1-cC Cocrystal structure of NUDIX domain of Shewanella oneidensis NrtR complexed with ADP ribose Q8EFJ3 Q8EFJ3 2.43 X-RAY DIFFRACTION 91 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 154 156 3gz5-a1-m1-cA_3gz5-a1-m1-cB 3gz6-a1-m1-cA_3gz6-a1-m1-cB 3gz8-a1-m1-cA_3gz8-a1-m1-cB MTEAEYLANYDPKAFKAQLLTVDAVLFTYHDQQLKVLLVQRSNHPFLGLWGLPGGFIDETCDESLEQTVLRKLAEKTAVVPPYIEQLCTVGNNSRDARGWSVTVCYTALMSYQACQIQIASVSDVKWWPLADVLQMPLAFDHLQLIEQARERLT HMTEAEYLANYDPKAFKAQLLTVDAVLFTYHDQQLKVLLVQRSNHPFLGLWGLPGGFIDETCDESLEQTVLRKLAEKTAVVPPYIEQLCTVGNNSRDARGWSVTVCYTALMSYQACQIQIASVSDVKWWPLADVLQMPLAFDHLQLIEQARERLTQ 3gza-a1-m1-cB_3gza-a1-m1-cA Crystal structure of putative alpha-L-fucosidase (NP_812709.1) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 1.60 A resolution Q8A169 Q8A169 1.6 X-RAY DIFFRACTION 73 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 425 432 ELPVPKPHQLKWHEAEGAVFHYDLHVFDGIRYGQGNNRINPIEDYNIFNPTELNTDQWVQAAKAAGCKFAVLTATHETGFGLWQSDVNPYCLKAVKWRDGKGDIVRDFVNSCRKYGLQPGIYIGIRWNSLLGIHNFKAEGEGAFARNRQAWYKRLCEKVTELCTRYGDLYIWFDGGADDPRADGPDVEPIVNKYQPNCLFYHNIDRADFRWGGSETGTVEYPCWSTFPVPCSHHDQLELLKHGDKNGRYWVPAADTPLRGANGRHEWFWEPDDENNIYPLNTLDKYEKSVGRNATLILGLTPDPTGLIPAGDAQRLKEGDEINRRFSSPIARISGQKKSLTLKLGKEQSVNYCIIQENIKNGERIRQYQIEAKVNGKWQTVCKGESVGHKRIEKFEPVEATALRLTVSESIALPDIINFSAYSVK ELPVPKPHQLKWHEAEGAVFHYDLHVFDGIRYGQGNNRINPIEDYNIFNPTELNTDQWVQAAKAAGCKFAVLTATHETGFGLWQSDVNPYCLKAVKWRDGKGDIVRDFVNSCRKYGLQPGIYIGIRWNSLLGIHNFKAEGEGAFARNRQAWYKRLCEKVTELCTRYGDLYIWFDGGADDPRADGPDVEPIVNKYQPNCLFYHNIDRADFRWGGSETGTVEYPCWSTFPVPCSHHKRIESSIDQLELLKHGDKNGRYWVPAADTPLRGANGRHEWFWEPDDENNIYPLNTLDKYEKSVGRNATLILGLTPDPTGLIPAGDAQRLKEGDEINRRFSSPIARISGQKKSLTLKLGKEQSVNYCIIQENIKNGERIRQYQIEAKVNGKWQTVCKGESVGHKRIEKFEPVEATALRLTVSESIALPDIINFSAYSVK 3gzb-a4-m1-cH_3gzb-a4-m1-cG Crystal structure of putative SnoaL-like polyketide cyclase (YP_001182657.1) from Shewanella putrefaciens CN-32 at 1.44 A resolution A4Y4H5 A4Y4H5 1.44 X-RAY DIFFRACTION 49 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 130 146 3gzb-a1-m1-cB_3gzb-a1-m1-cA 3gzb-a2-m1-cD_3gzb-a2-m1-cC 3gzb-a3-m1-cF_3gzb-a3-m1-cE EPQEQQLAVKYDALTEHDYKTLITFYNRDSIFFDKTANRKYTGGRFIIDFLERAHQGVLEYDFNIEHYNAGSLVVIGNYHFKGPGEQFGKPGKIIDVAIPAVTSLKLDLNRRVTEHVDLIDYQTSDQLAQ GFASLVIPVSAQANSGEPQEQQLAVKYDALTEHDYKTLITFYNRDSIFFDKTANRKYTGGRFIIDFLERAHQGVLEYDFNIEHYNAGSLVVIGNYHFKGPGEQFGKPGKIIDVAIPAVTSLKLDLNRRVTEHVDLIDYQTSDQLAQ 3gzd-a1-m1-cB_3gzd-a1-m1-cA Human selenocysteine lyase, P1 crystal form Q96I15 Q96I15 1.8 X-RAY DIFFRACTION 168 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 392 396 3gzc-a1-m1-cB_3gzc-a1-m1-cA 3gzd-a2-m1-cC_3gzd-a2-m1-cD KVYMDYNATTPLEPEVIQAMTKAMWEAWGNPSSPYSAGRKAKDIINAARESLAKMIGGKPQDIIFTSGGTESNNLVIHSVVKHFHANQTSGAKPHFITSSVEHDSIRLPLEHLVEEQVAAVTFVPVSKVSGQTEVDDILAAVRPTTRLVTIMLANNETGIVMPVPEISQRIKALNQERVAAGLPPILVHTDAAQALGKQRVDVEDLGVDFLTIVGHKFYGPRIGALYIRGLGEFTPLYPMLFGGGQERNFRPGTENTPMIAGLGKAAELVTQNCEAYEAHMRDVRDYLEERLEAEFGQKRIHLNSQFPGTQRLPNTCNFSIRGPRLQGHVVLAQCRVLMASVGQPSPVLLSYGVPFDVARNALRLSVGRSTTRAEVDLVVQDLKQAVAQLED KVYMDYNATTPLEPEVIQAMTKAMWEAWGNPSSPYSAGRKAKDIINAARESLAKMIGGKPQDIIFTSGGTESNNLVIHSVVKHFHANQTSGAKPHFITSSVEHDSIRLPLEHLVEEQVAAVTFVPVSKVSGQTEVDDILAAVRPTTRLVTIMLANNETGIVMPVPEISQRIKALNQERVAAGLPPILVHTDAAQALGKQRVDVEDLGVDFLTIVGHKFYGPRIGALYIRGLGEFTPLYPMLFGGGQERNFRPGTENTPMIAGLGKAAELVTQNCEAYEAHMRDVRDYLEERLEAEFGQKRIHLNSQFPGTQRLPNTCNFSIRGPRLQGHVVLAQCRVLMASVGAAHSQPSPVLLSYGVPFDVARNALRLSVGRSTTRAEVDLVVQDLKQAVAQLED 3gze-a2-m1-cD_3gze-a2-m1-cC Algal prolyl 4-hydroxylase complexed with zinc and (Ser-Pro)5 peptide substrate A8J7D3 A8J7D3 1.98 X-RAY DIFFRACTION 52 0.995 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 182 213 3gze-a1-m1-cB_3gze-a1-m1-cA EWRGEVVHLSWSPRAFLLKNFLSDEECDYIVEKARPKMVSTGTWFAKGEDSVISKIEKRVAQVTMIPLENHEGLQVLHYHYEPHYDYFHHGGQRVVTMLMYLTTVEEGGETVLPNAEQKVTGDGWSECAKRGLAVKPIKGDALMFYSLKPDGSNDPASLHGSCPTLKGDKWSATKWIHVAPI WRGEVVHLSWSPRAFLLKNFLSDEECDYIVEKARPKMVKSSVVDNESGKSVDSEIRTSTGTWFAKGEDSVISKIEKRVAQVTMIPLENHEGLQVLHYHDGQKYEPHYDYFHDPVNAGPEHGGQRVVTMLMYLTTVEEGGETVLPNAEQKVTGDGWSECAKRGLAVKPIKGDALMFYSLKPDGSNDPASLHGSCPTLKGDKWSATKWIHVAPIG 3gzf-a1-m1-cC_3gzf-a1-m1-cA Structure of the C-terminal domain of nsp4 from Feline Coronavirus Q98VG9 Q98VG9 2.756 X-RAY DIFFRACTION 81 1.0 12663 (Feline coronavirus) 12663 (Feline coronavirus) 92 96 GLFEGDKFVGSFESAAMGTFVIDMRSYETLVNSTSLDRIKSYANSFNKYKYYTGSMGEADYRMACYAHLGKALMDYSVSRNDKLYTPPTVSV GLFEGDKFVGSFESAAMGTFVIDMRSYETLVNSTSLDRIKSYANSFNKYKYYTGSMGEADYRMACYAHLGKALMDYSVSRNDKLYTPPTVSVNSTL 3gzh-a2-m4-cA_3gzh-a2-m6-cA Crystal structure of phosphate-bound adenylosuccinate lyase from E. coli Q8X737 Q8X737 1.9 X-RAY DIFFRACTION 56 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 469 469 3gzh-a2-m1-cA_3gzh-a2-m5-cA YDIPTTENLYFQGSELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVANFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGIKDLAVQYRDIPLLSRTHGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELK YDIPTTENLYFQGSELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHAAIKEVPAFAADAIGYLDAIVANFSEEDAARIKTIERTTNHDVKAVEYFLKEKVAEIPELHAVSEFIHFACTSEDINNLSHALMLKTARDEVILPYWRQLIDGIKDLAVQYRDIPLLSRTHGQPATPSTIGKEMANVAYRMERQYRQLNQVEILGKINGAVGNYNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCVARFNTILIDFDRDVWGYIALNHFKQKTIAGEIGSSTMPHKVNPIDFENSEGNLGLSNAVLQHLASKLPVSRWQRDLTDSTVLRNLGVGIGYALIAYQSTLKGVSKLEVNRDHLLDELDHNWEVLAEPIQTVMRRYGIEKPYEKLKELTRGKRVDAEGMKQFIDGLALPEEEKARLKAMTPANYIGRAITMVDELK 3gzi-a1-m1-cA_3gzi-a1-m2-cA CRYSTAL STRUCTURE OF a transcriptional regulator of the tetR family (SHEW_3567) FROM SHEWANELLA LOIHICA PV-4 AT 2.05 A RESOLUTION A3QIY5 A3QIY5 2.05 X-RAY DIFFRACTION 111 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 196 196 VGRPSGDTQNRDKLILAARNLFIERPYAQVSIREIASLAGTDPGLIRYYFGSKEKLFSTIHETAPVLAQLHKARRETRQESPAALLQTYYSVSKHPHFPRLLRIAGLDQSLPENAEVTKAFYEVVNFENIAIFQRLKDKNLLKDDVDAHCAQLSFFAVFPFIVPENLLERVGIELTPDFLQLLAEQNTRLLQRGLD VGRPSGDTQNRDKLILAARNLFIERPYAQVSIREIASLAGTDPGLIRYYFGSKEKLFSTIHETAPVLAQLHKARRETRQESPAALLQTYYSVSKHPHFPRLLRIAGLDQSLPENAEVTKAFYEVVNFENIAIFQRLKDKNLLKDDVDAHCAQLSFFAVFPFIVPENLLERVGIELTPDFLQLLAEQNTRLLQRGLD 3gzl-a1-m1-cA_3gzl-a1-m2-cA Crystal Structure of holo PfACP Disulfide-Linked Dimer O77077 O77077 2.55 X-RAY DIFFRACTION 27 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 81 81 SSLKSTFDDIKKIISKQLSVEEDKIQMNSNFTKDLGADSLDLVELIMALEEKFNVTISDQDALKINTVQDAIDYIEKNNKQ SSLKSTFDDIKKIISKQLSVEEDKIQMNSNFTKDLGADSLDLVELIMALEEKFNVTISDQDALKINTVQDAIDYIEKNNKQ 3gzr-a1-m1-cB_3gzr-a1-m1-cA CRYSTAL STRUCTURE OF AN UNCHARACTERIZED PROTEIN WITH A CYSTATIN-LIKE FOLD (CC_2572) FROM CAULOBACTER VIBRIOIDES AT 1.40 A RESOLUTION Q9A585 Q9A585 1.4 X-RAY DIFFRACTION 133 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 139 140 GEGTDAIQALIQAYFTAWNTNAPERFAEIFWPDGSWVNVVGHWRGRDQIVFAHTAFLKTIFKDCKQELVTIEARTIAPGSALAVVTLIQDAYVTPDGRQPRAHDRLTLLAVEREGVWRFIHGHNTIVNPDAANNDPVLR GEGTDAIQALIQAYFTAWNTNAPERFAEIFWPDGSWVNVVGHWRGRDQIVFAHTAFLKTIFKDCKQELVTIEARTIAPGSALAVVTLIQDAYVTPDGRQPRAHDRLTLLAVEREGVWRFIHGHNTIVNPDAANNDPVLRK 3gzs-a2-m1-cA_3gzs-a2-m1-cB Crystal structure of a susd superfamily protein (bf3413) from bacteroides fragilis nctc 9343 at 2.10 A resolution Q5L9X2 Q5L9X2 2.09 X-RAY DIFFRACTION 20 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 481 481 3gzs-a1-m1-cA_3gzs-a1-m1-cB GVIYGAYLPNLEKSVIPIGTASESTEPVNRYQIGVNLAGDAWAGYSPRDNKFNGSKNFTNYFYENWVNYVYSFVTDVYSPWQIKRISQDEGTRNDEIYALAQIIKIAALHRTTDFGPIPYSQVGKGSFKVAYDSQESVYRSFLKELEEAVQTLDDYSNKSKEVLPAFDIVYNGDVNKWRFANSLLRLAIRVRFADAGLAKEYAEKAVKHPAGLINSKELAAQGKGAGLQKNPLKVINEEYNDTRGATIYSYLAGYNDARAAVYFVKNNGFKAVRCGIAKSGDAYNGFTRPNVHEDDPLYWKASEVFLKAEGALAGFDGGSAGDFYNAGIRSFSENGLDNSSAETYLKDSTRKPANYTDTSNGELSANAPSSITIRWENGATEEEKLERIITQKYLAIFPNGQEAWTEWRRTGYPRQIVVAENKTNSAVLIGNGYDLGGVRRLPYPRTEYEQNGENLHNAISQYLGGVDNAATKVWWDKKSK GVIYGAYLPNLEKSVIPIGTASESTEPVNRYQIGVNLAGDAWAGYSPRDNKFNGSKNFTNYFYENWVNYVYSFVTDVYSPWQIKRISQDEGTRNDEIYALAQIIKIAALHRTTDFGPIPYSQVGKGSFKVAYDSQESVYRSFLKELEEAVQTLDDYSNKSKEVLPAFDIVYNGDVNKWRFANSLLRLAIRVRFADAGLAKEYAEKAVKHPAGLINSKELAAQGKGAGLQKNPLKVINEEYNDTRGATIYSYLAGYNDARAAVYFVKNNGFKAVRCGIAKSGDAYNGFTRPNVHEDDPLYWKASEVFLKAEGALAGFDGGSAGDFYNAGIRSFSENGLDNSSAETYLKDSTRKPANYTDTSNGELSANAPSSITIRWENGATEEEKLERIITQKYLAIFPNGQEAWTEWRRTGYPRQIVVAENKTNSAVLIGNGYDLGGVRRLPYPRTEYEQNGENLHNAISQYLGGVDNAATKVWWDKKSK 3gzx-a1-m2-cA_3gzx-a1-m3-cA Crystal Structure of the Biphenyl Dioxygenase in complex with Biphenyl from Comamonas testosteroni Sp. Strain B-356 Q46372 Q46372 1.58 X-RAY DIFFRACTION 109 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 440 440 3gzx-a1-m1-cA_3gzx-a1-m2-cA 3gzx-a1-m1-cA_3gzx-a1-m3-cA 3gzy-a1-m1-cA_3gzy-a1-m2-cA 3gzy-a1-m1-cA_3gzy-a1-m3-cA 3gzy-a1-m2-cA_3gzy-a1-m3-cA NWTPDAIRALVDQDNGKLDARIYADQDLYQLELERVFGRSWLMLGHETHIPKIGDYLTTYMGEDPVIMVRQKDQSIKVFLNQCRHRGMRIVRSDGGNAKAFTCTYHGWAYDIAGNLVNVPFEKEAFCDKKEGDCGFDKADWGPLQARVETYKGLVFANWDPEAPDLKTYLSDAMPYMDVMLDRTEAGTEAIGGIQKWVIPCNWKFAAEQFCSDMYHAGTMSHLSGVLAGLPPEMDLTQIQLSKNGNQFRSAWGGHGAGWFINDSSILLSVVGPKITQYWTQGPAAEKAARRVPQLPILDMFGQHMTVFPTCSFLPGINTIRTWHPRGPNEVEVWAFVLVDADAPEDIKEEFRLQNIRTFNAGGVFEQDDGENWVEIQRVMRGHKAKSTSLCAKMGLNVPNKNNPAYPGKTAYVYAEEAARGMYHHWSRMMSEPSWDTLKP NWTPDAIRALVDQDNGKLDARIYADQDLYQLELERVFGRSWLMLGHETHIPKIGDYLTTYMGEDPVIMVRQKDQSIKVFLNQCRHRGMRIVRSDGGNAKAFTCTYHGWAYDIAGNLVNVPFEKEAFCDKKEGDCGFDKADWGPLQARVETYKGLVFANWDPEAPDLKTYLSDAMPYMDVMLDRTEAGTEAIGGIQKWVIPCNWKFAAEQFCSDMYHAGTMSHLSGVLAGLPPEMDLTQIQLSKNGNQFRSAWGGHGAGWFINDSSILLSVVGPKITQYWTQGPAAEKAARRVPQLPILDMFGQHMTVFPTCSFLPGINTIRTWHPRGPNEVEVWAFVLVDADAPEDIKEEFRLQNIRTFNAGGVFEQDDGENWVEIQRVMRGHKAKSTSLCAKMGLNVPNKNNPAYPGKTAYVYAEEAARGMYHHWSRMMSEPSWDTLKP 3gzx-a1-m2-cB_3gzx-a1-m3-cB Crystal Structure of the Biphenyl Dioxygenase in complex with Biphenyl from Comamonas testosteroni Sp. Strain B-356 Q46373 Q46373 1.58 X-RAY DIFFRACTION 86 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 186 186 3gzx-a1-m1-cB_3gzx-a1-m2-cB 3gzx-a1-m1-cB_3gzx-a1-m3-cB 3gzy-a1-m1-cB_3gzy-a1-m2-cB 3gzy-a1-m1-cB_3gzy-a1-m3-cB 3gzy-a1-m2-cB_3gzy-a1-m3-cB MISTPLSKEFEWPAKPVSLELQHQVEQFYYREAQLLDHHAFQAWFALLAEDIHYWMPIRTVRTAREQGLEYVPAGANAHFDDTHATMYGRIRQKTSDLNWAEDPPSRTRHLVSNVIVREMDTPGTLEVASAFLLYRSRLERQVDVFAGERRDVLRIADNPLGFQIAKRTIILDQSTVLANNLSVFF MISTPLSKEFEWPAKPVSLELQHQVEQFYYREAQLLDHHAFQAWFALLAEDIHYWMPIRTVRTAREQGLEYVPAGANAHFDDTHATMYGRIRQKTSDLNWAEDPPSRTRHLVSNVIVREMDTPGTLEVASAFLLYRSRLERQVDVFAGERRDVLRIADNPLGFQIAKRTIILDQSTVLANNLSVFF 3h02-a1-m1-cC_3h02-a1-m1-cE 2.15 Angstrom Resolution Crystal Structure of Naphthoate Synthase from Salmonella typhimurium. Q7CQ56 Q7CQ56 2.15 X-RAY DIFFRACTION 132 1.0 251 253 3h02-a1-m1-cD_3h02-a1-m1-cA 3h02-a1-m1-cF_3h02-a1-m1-cB DETLYAPVEWHDCSEGYTDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEIQALADARYDDNVGVIILTGEGDKAFCAGGLNVLDFQRQIRTCPKPVVAVAGYSIGGGHVLHCDLTIAAENAIFGQTGPKVGSFDGGWGASYARIVGQKKAREIWFLCRQYDAQQALDGLVNTVVPLADLEKETVRWCRELQNSPALRCLKAALNADCDGQAGLQELAGNATLFYTEEGQEGRNAFNQKRQPDFSKFKRNP DETLYAPVEWHDCSEGYTDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEIQALADARYDDNVGVIILTGEGDKAFCAGGDHLNVLDFQRQIRTCPKPVVAVAGYSIGGGHVLHCDLTIAAENAIFGQTGPKVGSFDGGWGASYARIVGQKKAREIWFLCRQYDAQQALDGLVNTVVPLADLEKETVRWCRELQNSPALRCLKAALNADCDGQAGLQELAGNATLFYTEEGQEGRNAFNQKRQPDFSKFKRNP 3h02-a1-m1-cF_3h02-a1-m1-cA 2.15 Angstrom Resolution Crystal Structure of Naphthoate Synthase from Salmonella typhimurium. Q7CQ56 Q7CQ56 2.15 X-RAY DIFFRACTION 65 1.0 228 255 3h02-a1-m1-cB_3h02-a1-m1-cE 3h02-a1-m1-cC_3h02-a1-m1-cD DETLYAPVEWHDCSEGYTDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEIQALADARYDDNVGVIILTGEGDKAFCAGGDHLNVLDFQRQIRTCPKPVVAVAGYSIGGGHVLHCDLTIAAENAIFGQTGPKVGSFDGGWGASYARIVGQKKAREIWFLCRQYDAQQALDGLVNTVVPLADLEKETVRWCRELQNSPALRCLKAALNADCDGQAGLQELAGNATLFYT DETLYAPVEWHDCSEGYTDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEIQALADARYDDNVGVIILTGEGDKAFCAGGDQHHLNVLDFQRQIRTCPKPVVAVAGYSIGGGHVLHCDLTIAAENAIFGQTGPKVGSFDGGWGASYARIVGQKKAREIWFLCRQYDAQQALDGLVNTVVPLADLEKETVRWCRELQNSPALRCLKAALNADCDGQAGLQELAGNATLFYTEEGQEGRNAFNQKRQPDFSKFKRNP 3h02-a3-m1-cD_3h02-a3-m1-cE 2.15 Angstrom Resolution Crystal Structure of Naphthoate Synthase from Salmonella typhimurium. Q7CQ56 Q7CQ56 2.15 X-RAY DIFFRACTION 82 0.996 253 253 3h02-a1-m1-cB_3h02-a1-m1-cA 3h02-a1-m1-cB_3h02-a1-m1-cC 3h02-a1-m1-cC_3h02-a1-m1-cA 3h02-a1-m1-cD_3h02-a1-m1-cE 3h02-a1-m1-cF_3h02-a1-m1-cD 3h02-a1-m1-cF_3h02-a1-m1-cE 3h02-a2-m1-cB_3h02-a2-m1-cA 3h02-a2-m1-cB_3h02-a2-m1-cC 3h02-a2-m1-cC_3h02-a2-m1-cA 3h02-a3-m1-cF_3h02-a3-m1-cD 3h02-a3-m1-cF_3h02-a3-m1-cE DETLYAPVEWHDCSEGYTDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEIQALADARYDDNVGVIILTGEGDKAFCAGGDQLNVLDFQRQIRTCPKPVVAVAGYSIGGGHVLHCDLTIAAENAIFGQTGPKVGSFDGGWGASYARIVGQKKAREIWFLCRQYDAQQALDGLVNTVVPLADLEKETVRWCRELQNSPALRCLKAALNADCDGQAGLQELAGNATLFYTEEGQEGRNAFNQKRQPDFSKFKRNP DETLYAPVEWHDCSEGYTDIRYEKSTDGIAKITINRPQVRNAFRPLTVKEIQALADARYDDNVGVIILTGEGDKAFCAGGDHLNVLDFQRQIRTCPKPVVAVAGYSIGGGHVLHCDLTIAAENAIFGQTGPKVGSFDGGWGASYARIVGQKKAREIWFLCRQYDAQQALDGLVNTVVPLADLEKETVRWCRELQNSPALRCLKAALNADCDGQAGLQELAGNATLFYTEEGQEGRNAFNQKRQPDFSKFKRNP 3h07-a1-m1-cB_3h07-a1-m1-cA Crystal structure of 3,4-dihydroxy-2-butanone 4-phosphate synthase from Yersinia pestis CO92 Q8ZI56 Q8ZI56 1.95 X-RAY DIFFRACTION 128 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 203 209 LSDFGTPVERVERAIDALRNGRGVMVLDDESRENEGDMVFAAEAMTLEQMALTIRHGSGIVCLCITDERRQQLDLPMMVTHNSSTAFTVTIEAAEGVTTGVSAADRLTTIRKAIADNAKPADLNRPGHVFPLRGQPGGVLSRRGHTEASIDLATLAGYKPAGVLCELTNDDGSMAHAPEVIAFAKLHDMPVVTIDDLAAYLQS TLLSDFGTPVERVERAIDALRNGRGVMVLDDESRENEGDMVFAAEAMTLEQMALTIRHGSGIVCLCITDERRQQLDLPMMVTHNSSQFQTAFTVTIEAAEGVTTGVSAADRLTTIRKAIADNAKPADLNRPGHVFPLRGQPGGVLSRRGHTEASIDLATLAGYKPAGVLCELTNDDGSMAHAPEVIAFAKLHDMPVVTIDDLAAYLQSR 3h0d-a1-m1-cB_3h0d-a1-m1-cA Crystal structure of CtsR in complex with a 26bp DNA duplex C3W947 C3W947 2.4 X-RAY DIFFRACTION 40 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 143 147 NISDIIEQYLKQVLNSDQDIVEIKRSEIANKFRCVPSQINYVINTRFTLERGYIVESKRGGGGYIRIKVKTKSEAQLIDQLLELIDHRISQSSAEDVIKRLEEKVISEREAKLSVDRSVLYIDLPERDELRARLKALTSLKYK PNISDIIEQYLKQVLNSDQDIVEIKRSEIANKFRCVPSQINYVINTRFTLERGYIVESKRGGGGYIRIKVKTKSEAQLIDQLLELIDHRISQSSAEDVIKRLEEKVISEREAKLSVDRSVLYIDLPERDELRARLKALTSLKYKLEI 3h0k-a1-m1-cB_3h0k-a1-m1-cA Crystal structure of an adenylated kinase related protein from sulfolobus solfataricus to 3.25a Q97Z90 Q97Z90 3.25 X-RAY DIFFRACTION 44 0.988 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 169 171 KVILITGMPGSGKSEFAKLLKERGAKVIVMSDVVRKRYSIEAKPGERLMDFAKRLREIYGDGVVARLCVEELGTSNHDLVVFDGVRSLAEVEEFKRLLGDSVYIVAVHSPPKIRYKRMIEEISELIRRDREELKLGIGEVIAMADYIITNDSNYEEFKRRCEEVTDRVL KVILITGMPGSGKSEFAKLLKERGAKVIVMSDVVRKRYSIEAGERLMDFAKRLREIYGDGVVARLCVEELGTSNHDLVVFDGVRSLAEVEEFKRLLGDSVYIVAVHSPPKIRYKRMIERLSKEISELIRRDREELKLGIGEVIAMADYIITNDSNYEEFKRRCEEVTDRVL 3h0n-a1-m1-cA_3h0n-a1-m2-cA Crystal structure of a duf1470 family protein (jann_2411) from jannaschia sp. ccs1 at 1.45 A resolution Q28PN4 Q28PN4 1.45 X-RAY DIFFRACTION 70 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 182 182 NLDSYERTGLRVSLDLVNIATPGSRRGTPHTGGCVIEDLHDLLKDDPASVAQLGDDHVEGFVELARLLHTAIDALSNGQVATAATALNHLLRKHPATPELAQDPDGTWRLHHHPLDAELVPWTAICAEGLAREIGHQNVRRFGICNAHRCDRVYFDTSRNGTRQYCSLACQNRVKAAAFRER NLDSYERTGLRVSLDLVNIATPGSRRGTPHTGGCVIEDLHDLLKDDPASVAQLGDDHVEGFVELARLLHTAIDALSNGQVATAATALNHLLRKHPATPELAQDPDGTWRLHHHPLDAELVPWTAICAEGLAREIGHQNVRRFGICNAHRCDRVYFDTSRNGTRQYCSLACQNRVKAAAFRER 3h0t-a1-m1-cA_3h0t-a1-m2-cA Hepcidin-Fab complex 1.89 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 216 NFMLTQPHSVSESPGKTVTISCTRSSGSIASYYVQWYQQRPGSSPTTVIYEDSQRPSGVPDRFSGSIDSSSNSASLTISGLKTEDEADYYCQSYDSSNVVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS NFMLTQPHSVSESPGKTVTISCTRSSGSIASYYVQWYQQRPGSSPTTVIYEDSQRPSGVPDRFSGSIDSSSNSASLTISGLKTEDEADYYCQSYDSSNVVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS 3h0u-a2-m1-cB_3h0u-a2-m2-cC Crystal structure of a putative enoyl-CoA hydratase from Streptomyces avermitilis Q82Q85 Q82Q85 1.5 X-RAY DIFFRACTION 36 0.989 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 274 274 3h0u-a2-m1-cA_3h0u-a2-m2-cA 3h0u-a2-m1-cC_3h0u-a2-m2-cB YETIKARLDGTVLSATFNAPPMNLIGPEVVRDLVALLEELAHPTAPRVVIFDSADADFFFPHVDMTKVPEYTAEAAKAGGPGDASLGMLFRKLSQLPAVTIAKLRGRARGAGSEFLLACDMRFASRENAILGQPEVGIGAPPGAGAIQHLTRLLGRGRALEAVLTSSDFDADLAERYGWVNRAVPDAELDEFVAGIAARMSGFPRDALIAAKSAINAISLPAPAEVRADAALFQQLVRGEKVQQRTAELFKQGFQTRGATELDLGDALGHLKAV TASYETIKARLDGTVLSATFNAPPMNLIGPEVVRDLVALLEELAHPTAPRVVIFDSADADFFFPHVDMTKVPEYTAEAAKAGGPGDASLGMLFRKLSQLPAVTIAKLRGRARGAGSEFLLACDMRFASRENAILGQPEVGIGAPPGAGAIQHLTRLLGRGRALEAVLTSSDFDADLAERYGWVNRAVPDAELDEFVAGIAARMSGFPRDALIAAKSAINAISLPAPAEVRADAALFQQLVRGEKVQQRTAELFKQGFQTRGATELDLGDALGHL 3h0u-a2-m2-cB_3h0u-a2-m2-cC Crystal structure of a putative enoyl-CoA hydratase from Streptomyces avermitilis Q82Q85 Q82Q85 1.5 X-RAY DIFFRACTION 95 0.989 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 274 274 3h0u-a1-m1-cB_3h0u-a1-m1-cA 3h0u-a1-m1-cB_3h0u-a1-m1-cC 3h0u-a1-m1-cC_3h0u-a1-m1-cA 3h0u-a2-m1-cB_3h0u-a2-m1-cA 3h0u-a2-m1-cB_3h0u-a2-m1-cC 3h0u-a2-m1-cC_3h0u-a2-m1-cA 3h0u-a2-m2-cB_3h0u-a2-m2-cA 3h0u-a2-m2-cC_3h0u-a2-m2-cA YETIKARLDGTVLSATFNAPPMNLIGPEVVRDLVALLEELAHPTAPRVVIFDSADADFFFPHVDMTKVPEYTAEAAKAGGPGDASLGMLFRKLSQLPAVTIAKLRGRARGAGSEFLLACDMRFASRENAILGQPEVGIGAPPGAGAIQHLTRLLGRGRALEAVLTSSDFDADLAERYGWVNRAVPDAELDEFVAGIAARMSGFPRDALIAAKSAINAISLPAPAEVRADAALFQQLVRGEKVQQRTAELFKQGFQTRGATELDLGDALGHLKAV TASYETIKARLDGTVLSATFNAPPMNLIGPEVVRDLVALLEELAHPTAPRVVIFDSADADFFFPHVDMTKVPEYTAEAAKAGGPGDASLGMLFRKLSQLPAVTIAKLRGRARGAGSEFLLACDMRFASRENAILGQPEVGIGAPPGAGAIQHLTRLLGRGRALEAVLTSSDFDADLAERYGWVNRAVPDAELDEFVAGIAARMSGFPRDALIAAKSAINAISLPAPAEVRADAALFQQLVRGEKVQQRTAELFKQGFQTRGATELDLGDALGHL 3h0u-a2-m2-cC_3h0u-a2-m1-cA Crystal structure of a putative enoyl-CoA hydratase from Streptomyces avermitilis Q82Q85 Q82Q85 1.5 X-RAY DIFFRACTION 26 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 274 278 3h0u-a2-m1-cB_3h0u-a2-m2-cB 3h0u-a2-m1-cC_3h0u-a2-m2-cA TASYETIKARLDGTVLSATFNAPPMNLIGPEVVRDLVALLEELAHPTAPRVVIFDSADADFFFPHVDMTKVPEYTAEAAKAGGPGDASLGMLFRKLSQLPAVTIAKLRGRARGAGSEFLLACDMRFASRENAILGQPEVGIGAPPGAGAIQHLTRLLGRGRALEAVLTSSDFDADLAERYGWVNRAVPDAELDEFVAGIAARMSGFPRDALIAAKSAINAISLPAPAEVRADAALFQQLVRGEKVQQRTAELFKQGFQTRGATELDLGDALGHL SLTASYETIKARLDGTVLSATFNAPPMNLIGPEVVRDLVALLEELAHPTAPRVVIFDSADADFFFPHVDMTKVPEYTAEAAKAGGPGDASLGMLFRKLSQLPAVTIAKLRGRARGAGSEFLLACDMRFASRENAILGQPEVGIGAPPGAGAIQHLTRLLGRGRALEAVLTSSDFDADLAERYGWVNRAVPDAELDEFVAGIAARMSGFPRDALIAAKSAINAISLPAPAEVRADAALFQQLVRGEKVQQRTAELFKQGFQTRGATELDLGDALGHLKA 3h0x-a2-m1-cA_3h0x-a2-m2-cA Crystal structure of peptide-binding domain of Kar2 protein from Saccharomyces cerevisiae P16474 P16474 1.92 X-RAY DIFFRACTION 88 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 150 150 ADVNALTLGIETTGGVMTPLIKRNTAIPTKKSQIFSTAVDNQPTVMIKVYEGERAMSKDNNLLGKFELTGIPPAPRGVPQIEVTFALDANGILKVSATDKGTGKSESITITNDKGRLTQEEIDRMVEEAEKFASEDASIKAKVESRNKLE ADVNALTLGIETTGGVMTPLIKRNTAIPTKKSQIFSTAVDNQPTVMIKVYEGERAMSKDNNLLGKFELTGIPPAPRGVPQIEVTFALDANGILKVSATDKGTGKSESITITNDKGRLTQEEIDRMVEEAEKFASEDASIKAKVESRNKLE 3h12-a1-m2-cA_3h12-a1-m4-cA Crystal structure of putative mandelate racemase from Bordetella Bronchiseptica RB50 A0A0H3LT39 A0A0H3LT39 1.5 X-RAY DIFFRACTION 39 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 392 392 3h12-a1-m1-cA_3h12-a1-m3-cA 3h12-a1-m1-cA_3h12-a1-m4-cA 3h12-a1-m1-cB_3h12-a1-m3-cB 3h12-a1-m1-cB_3h12-a1-m4-cB 3h12-a1-m2-cA_3h12-a1-m3-cA 3h12-a1-m2-cB_3h12-a1-m3-cB 3h12-a1-m2-cB_3h12-a1-m4-cB 3ozm-a5-m1-cA_3ozm-a5-m1-cC 3ozm-a5-m1-cB_3ozm-a5-m1-cC 3ozm-a5-m1-cD_3ozm-a5-m1-cA 3ozm-a5-m1-cD_3ozm-a5-m1-cB 3ozm-a5-m1-cE_3ozm-a5-m1-cG 3ozm-a5-m1-cF_3ozm-a5-m1-cG 3ozm-a5-m1-cH_3ozm-a5-m1-cE 3ozm-a5-m1-cH_3ozm-a5-m1-cF SLKITEVKAHALSTPIPERMRVESGAGLKLNRQMILVEVRTDEGVTGVGSPSGPYDLAVLKRAIEDVIGPQLIGEDPANINYLWHKVFHGEVSRNLGHRSVGIAAMSGVDIALWDLKGRAMNQPIYQLLGGKFHTRGVRAYASSIYWDLTPDQAADELAGWVEQGFTAAKLKVGRAPRKDAANLRAMRQRVGADVEILVDANQSLGRHDALAMLRILDEAGCYWFEEPLSIDDIEGHRILRAQGTPVRIATGENLYTRNAFNDYIRNDAIDVLQADASRAGGITEALAISASAASAHLAWNPHTFNDIITVAANLHLVAASPHPAMFEWDITHNDLMTRLASYDLKLENGLVQPPQGPGLGFEIDWDFVAAHAWKGEPAIGAGHGMKKEGHH SLKITEVKAHALSTPIPERMRVESGAGLKLNRQMILVEVRTDEGVTGVGSPSGPYDLAVLKRAIEDVIGPQLIGEDPANINYLWHKVFHGEVSRNLGHRSVGIAAMSGVDIALWDLKGRAMNQPIYQLLGGKFHTRGVRAYASSIYWDLTPDQAADELAGWVEQGFTAAKLKVGRAPRKDAANLRAMRQRVGADVEILVDANQSLGRHDALAMLRILDEAGCYWFEEPLSIDDIEGHRILRAQGTPVRIATGENLYTRNAFNDYIRNDAIDVLQADASRAGGITEALAISASAASAHLAWNPHTFNDIITVAANLHLVAASPHPAMFEWDITHNDLMTRLASYDLKLENGLVQPPQGPGLGFEIDWDFVAAHAWKGEPAIGAGHGMKKEGHH 3h12-a1-m2-cA_3h12-a1-m4-cB Crystal structure of putative mandelate racemase from Bordetella Bronchiseptica RB50 A0A0H3LT39 A0A0H3LT39 1.5 X-RAY DIFFRACTION 107 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 392 392 3h12-a1-m1-cA_3h12-a1-m3-cB 3h12-a1-m1-cB_3h12-a1-m4-cA 3h12-a1-m2-cB_3h12-a1-m3-cA 3ozm-a1-m1-cA_3ozm-a1-m1-cF 3ozm-a2-m1-cB_3ozm-a2-m1-cE 3ozm-a3-m1-cC_3ozm-a3-m1-cG 3ozm-a4-m1-cH_3ozm-a4-m1-cD 3ozm-a5-m1-cA_3ozm-a5-m1-cF 3ozm-a5-m1-cB_3ozm-a5-m1-cE 3ozm-a5-m1-cC_3ozm-a5-m1-cG 3ozm-a5-m1-cH_3ozm-a5-m1-cD SLKITEVKAHALSTPIPERMRVESGAGLKLNRQMILVEVRTDEGVTGVGSPSGPYDLAVLKRAIEDVIGPQLIGEDPANINYLWHKVFHGEVSRNLGHRSVGIAAMSGVDIALWDLKGRAMNQPIYQLLGGKFHTRGVRAYASSIYWDLTPDQAADELAGWVEQGFTAAKLKVGRAPRKDAANLRAMRQRVGADVEILVDANQSLGRHDALAMLRILDEAGCYWFEEPLSIDDIEGHRILRAQGTPVRIATGENLYTRNAFNDYIRNDAIDVLQADASRAGGITEALAISASAASAHLAWNPHTFNDIITVAANLHLVAASPHPAMFEWDITHNDLMTRLASYDLKLENGLVQPPQGPGLGFEIDWDFVAAHAWKGEPAIGAGHGMKKEGHH SLKITEVKAHALSTPIPERMRVESGAGLKLNRQMILVEVRTDEGVTGVGSPSGPYDLAVLKRAIEDVIGPQLIGEDPANINYLWHKVFHGEVSRNLGHRSVGIAAMSGVDIALWDLKGRAMNQPIYQLLGGKFHTRGVRAYASSIYWDLTPDQAADELAGWVEQGFTAAKLKVGRAPRKDAANLRAMRQRVGADVEILVDANQSLGRHDALAMLRILDEAGCYWFEEPLSIDDIEGHRILRAQGTPVRIATGENLYTRNAFNDYIRNDAIDVLQADASRAGGITEALAISASAASAHLAWNPHTFNDIITVAANLHLVAASPHPAMFEWDITHNDLMTRLASYDLKLENGLVQPPQGPGLGFEIDWDFVAAHAWKGEPAIGAGHGMKKEGHH 3h12-a1-m4-cA_3h12-a1-m4-cB Crystal structure of putative mandelate racemase from Bordetella Bronchiseptica RB50 A0A0H3LT39 A0A0H3LT39 1.5 X-RAY DIFFRACTION 138 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 392 392 3h12-a1-m1-cA_3h12-a1-m1-cB 3h12-a1-m2-cA_3h12-a1-m2-cB 3h12-a1-m3-cA_3h12-a1-m3-cB 3op2-a1-m1-cB_3op2-a1-m1-cA 3ozm-a5-m1-cA_3ozm-a5-m1-cG 3ozm-a5-m1-cC_3ozm-a5-m1-cE 3ozm-a5-m1-cD_3ozm-a5-m1-cF 3ozm-a5-m1-cH_3ozm-a5-m1-cB 3ozy-a1-m1-cA_3ozy-a1-m1-cB SLKITEVKAHALSTPIPERMRVESGAGLKLNRQMILVEVRTDEGVTGVGSPSGPYDLAVLKRAIEDVIGPQLIGEDPANINYLWHKVFHGEVSRNLGHRSVGIAAMSGVDIALWDLKGRAMNQPIYQLLGGKFHTRGVRAYASSIYWDLTPDQAADELAGWVEQGFTAAKLKVGRAPRKDAANLRAMRQRVGADVEILVDANQSLGRHDALAMLRILDEAGCYWFEEPLSIDDIEGHRILRAQGTPVRIATGENLYTRNAFNDYIRNDAIDVLQADASRAGGITEALAISASAASAHLAWNPHTFNDIITVAANLHLVAASPHPAMFEWDITHNDLMTRLASYDLKLENGLVQPPQGPGLGFEIDWDFVAAHAWKGEPAIGAGHGMKKEGHH SLKITEVKAHALSTPIPERMRVESGAGLKLNRQMILVEVRTDEGVTGVGSPSGPYDLAVLKRAIEDVIGPQLIGEDPANINYLWHKVFHGEVSRNLGHRSVGIAAMSGVDIALWDLKGRAMNQPIYQLLGGKFHTRGVRAYASSIYWDLTPDQAADELAGWVEQGFTAAKLKVGRAPRKDAANLRAMRQRVGADVEILVDANQSLGRHDALAMLRILDEAGCYWFEEPLSIDDIEGHRILRAQGTPVRIATGENLYTRNAFNDYIRNDAIDVLQADASRAGGITEALAISASAASAHLAWNPHTFNDIITVAANLHLVAASPHPAMFEWDITHNDLMTRLASYDLKLENGLVQPPQGPGLGFEIDWDFVAAHAWKGEPAIGAGHGMKKEGHH 3h13-a1-m1-cA_3h13-a1-m2-cA c-FLIPL protease-like domain O15519 O15519 2.2 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 PEERYKMKSKPLGICLIIDCIGNETELLRDTFTSLGYEVQKFLHLSMHGISQILGQFACMPEHRDYDSFVCVLVSRGGSQSVYGVDQTHSGLPLHHIRRMFMGDSCPYLAGKPKMFFIQNYVVSHREADFFWSLCTADMSLLEQSHSSPSLYLQCLSQKLRQERKRPLLDLHIELNGYMYDWNSRVSAKEKYYVWLQHTLRKKLILSY PEERYKMKSKPLGICLIIDCIGNETELLRDTFTSLGYEVQKFLHLSMHGISQILGQFACMPEHRDYDSFVCVLVSRGGSQSVYGVDQTHSGLPLHHIRRMFMGDSCPYLAGKPKMFFIQNYVVSHREADFFWSLCTADMSLLEQSHSSPSLYLQCLSQKLRQERKRPLLDLHIELNGYMYDWNSRVSAKEKYYVWLQHTLRKKLILSY 3h14-a2-m1-cA_3h14-a2-m2-cA Crystal structure of a putative aminotransferase from Silicibacter pomeroyi Q5LQA4 Q5LQA4 1.9 X-RAY DIFFRACTION 152 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 359 359 LKNSSRSAVDPFIVDVEAARRAEEAGRRIIHEVGQPGTGAPRGAVEALAKSLEGLPALRQRIARLYGEWYGVDLDPGRVVITPGSSGGFLLAFTALFDSGDRVGIGAPGYPSYRQILRALGLVPVDLPTAPENRLQPVPADFAGLDLAGLVASPANPTGTLDHAAGALIEAAQAQGASFISDEIYHGIEYEAKAVTALELTDECYVINSFSKYFSTGWRVGWVVPEDQVRVVERIAQNFICAPHASQVAALAALDCDAELQANLDVYKANRKLLERLPKAGFTRIAPPDGAFYVYADVSDLTDDSRAFAAEILEKAGVAVTPGLDFDPERGAGTLRFSYARATADIEEGLDRLEAFQAR LKNSSRSAVDPFIVDVEAARRAEEAGRRIIHEVGQPGTGAPRGAVEALAKSLEGLPALRQRIARLYGEWYGVDLDPGRVVITPGSSGGFLLAFTALFDSGDRVGIGAPGYPSYRQILRALGLVPVDLPTAPENRLQPVPADFAGLDLAGLVASPANPTGTLDHAAGALIEAAQAQGASFISDEIYHGIEYEAKAVTALELTDECYVINSFSKYFSTGWRVGWVVPEDQVRVVERIAQNFICAPHASQVAALAALDCDAELQANLDVYKANRKLLERLPKAGFTRIAPPDGAFYVYADVSDLTDDSRAFAAEILEKAGVAVTPGLDFDPERGAGTLRFSYARATADIEEGLDRLEAFQAR 3h16-a1-m1-cA_3h16-a1-m1-cB Crystal structure of a bacteria TIR domain, PdTIR from Paracoccus denitrificans A1AY86 A1AY86 2.5 X-RAY DIFFRACTION 55 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 136 137 APPHDIFISHAWEDKADFVEALAHTLRAAGAEVWYDDFSLRPGDSLRRSIDKGLGSSRFGIVVLSTHFFKKEWPQKELDGLFQLESSGRSRILPIWHKVSKDEVASFSPTMADKLAFNTSTKSVDEIVADLMAIIR APPHDIFISHAWEDKADFVEALAHTLRAAGAEVWYDDFSLRPGDSLRRSIDKGLGSSRFGIVVLSTHFFKKEWPQKELDGLFQLESSGRSRILPIWHKVSKDEVASFSPTMADKLAFNTSTKSVDEIVADLMAIIRD 3h1n-a1-m1-cA_3h1n-a1-m1-cB Crystal structure of probable glutathione S-transferase from Bordetella bronchiseptica RB50 A0A0H3LPN1 A0A0H3LPN1 1.83 X-RAY DIFFRACTION 99 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 231 233 ENLYFQGAYDLWYWDGIPGRGEFVRLALEAGKIPYRDRAREPGEDLDDRRRRDTPPFAPPYLVADGTIAQTANILLFLGVEHGLAPPDRAGRLWVNQLQLTIADLTAEAHDVHHPVAAGLYYEDQQDVALRRAADFRETRPKFQYFEQALDRPGGWLTDGRWSYADLSLYHVVEGLLHAFPRRRTLVHRYPRLALHARVAELPELRGYLASDRRLPFGDGIFRHYPELDGA GRENLYFQGAYDLWYWDGIPGRGEFVRLALEAGKIPYRDRAREPGEDLDDRRRRDTPPFAPPYLVADGTIAQTANILLFLGVEHGLAPPDRAGRLWVNQLQLTIADLTAEAHDVHHPVAAGLYYEDQQDVALRRAADFRETRPKFQYFEQALDRPGGWLTDGRWSYADLSLYHVVEGLLHAFPRRRTLVHRYPRLALHARVAELPELRGYLASDRRLPFGDGIFRHYPELDGA 3h1o-a1-m1-cA_3h1o-a1-m1-cB The Structure of Fluorescent Protein FP480 D0VX33 D0VX33 2 X-RAY DIFFRACTION 91 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 223 223 3ip2-a1-m1-cA_3ip2-a1-m2-cA 3m24-a5-m1-cA_3m24-a5-m1-cB 3m24-a6-m1-cD_3m24-a6-m1-cC 3nt3-a5-m1-cA_3nt3-a5-m1-cB 3nt3-a6-m1-cD_3nt3-a6-m1-cC 3nt9-a5-m1-cA_3nt9-a5-m1-cB 3nt9-a6-m1-cC_3nt9-a6-m1-cD 3svn-a5-m1-cB_3svn-a5-m1-cA 3svn-a5-m1-cD_3svn-a5-m1-cC 3svo-a5-m1-cA_3svo-a5-m1-cB 3svo-a5-m1-cC_3svo-a5-m1-cD 3svr-a5-m1-cA_3svr-a5-m1-cB 3svr-a5-m1-cD_3svr-a5-m1-cC 3svu-a6-m1-cD_3svu-a6-m1-cC 4nws-a1-m1-cA_4nws-a1-m1-cB 4oj0-a5-m1-cA_4oj0-a5-m1-cD 4oj0-a6-m1-cB_4oj0-a6-m2-cC 4oqw-a10-m1-cB_4oqw-a10-m1-cD 4oqw-a9-m1-cC_4oqw-a9-m1-cA ELITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTQRIKVVEGGPLPFAFDILATSFSHTFINHTQGIPDFWKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEAHTEMLYPADGGLEGRADLALKLVGGGHLICNFKTTYRSKKPAKNLKMPGVYYVDYRLERIKEADKETYVEQHEVAVARYCDLPSKL ELITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTQRIKVVEGGPLPFAFDILATSFSHTFINHTQGIPDFWKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEAHTEMLYPADGGLEGRADLALKLVGGGHLICNFKTTYRSKKPAKNLKMPGVYYVDYRLERIKEADKETYVEQHEVAVARYCDLPSKL 3h1s-a1-m1-cA_3h1s-a1-m1-cB Crystal structure of superoxide dismutase from Francisella tularensis subsp. tularensis SCHU S4 Q5NIJ9 Q5NIJ9 1.9 X-RAY DIFFRACTION 49 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 190 192 KFELPKLPYAVDALESTISKETIEYHYGKHHQTYVTNLNNLVEGTEHDGRNLEEIVKTSNGGIFNNAAQVFNHTFYWNCLTPNKTEASSQLKAALIETFGSVENFKEQFSKAAIATFGSGWAWLVKNTEGKLEIVTTSNAGCPLTENKKPLLTFDVWEHAYYIDYRNARPKYVEALWDIVNWQFVSEQFA MKFELPKLPYAVDALESTISKETIEYHYGKHHQTYVTNLNNLVEGTEHDGRNLEEIVKTSNGGIFNNAAQVFNHTFYWNCLTPNKTEASSQLKAALIETFGSVENFKEQFSKAAIATFGSGWAWLVKNTEGKLEIVTTSNAGCPLTENKKPLLTFDVWEHAYYIDYRNARPKYVEALWDIVNWQFVSEQFAD 3h20-a2-m1-cA_3h20-a2-m2-cA Crystal structure of primase RepB' Q52349 Q52349 1.99 X-RAY DIFFRACTION 69 1.0 2504 (Plasmid RSF1010) 2504 (Plasmid RSF1010) 288 288 RTLQAIGRQLKAMGCERFDIGVRDATTGQMMNREWSAAEVLQNTPWLKRMNAQGNDVYIRPAEQERHGLVLVDDLSEFDLDDMKAEGREPALVVETSPKNYQAWVKVADAAGGELRGQIARTLASEYDADPASADSRHYGRLAGFTNRKKHTTYQPWVLLRESKGKTATAGPALVQQAGQQIEQAQRQQEKARRLASLERRTALDEYRSEMAGLVKRFGDDLSKCDFIAAQKLASRGRSAEEIGKAMAEASPALAERKHEADYIERTVSKVMGLPSVQLARAELARAP RTLQAIGRQLKAMGCERFDIGVRDATTGQMMNREWSAAEVLQNTPWLKRMNAQGNDVYIRPAEQERHGLVLVDDLSEFDLDDMKAEGREPALVVETSPKNYQAWVKVADAAGGELRGQIARTLASEYDADPASADSRHYGRLAGFTNRKKHTTYQPWVLLRESKGKTATAGPALVQQAGQQIEQAQRQQEKARRLASLERRTALDEYRSEMAGLVKRFGDDLSKCDFIAAQKLASRGRSAEEIGKAMAEASPALAERKHEADYIERTVSKVMGLPSVQLARAELARAP 3h2b-a1-m1-cA_3h2b-a1-m1-cB Crystal structure of the SAM-dependent methyltransferase cg3271 from Corynebacterium glutamicum in complex with S-adenosyl-L-homocysteine and pyrophosphate. Northeast Structural Genomics Consortium Target CgR113A 2 X-RAY DIFFRACTION 43 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 191 192 TDDVSKAYSSPTFDAEALLGTVISAEDPDRVLIEPWATGVDGVILDVGSGTGRWTGHLASLGHQIEGLEPATRLVELARQTHPSVTFHHGTITDLSDSPKRWAGLLAWYSLIHGPGELPDALVALRAVEDGGGLLSFFSGPSLEPYHPVATAYRWPLPELAQALETAGFQVTSSHWDPRFPHAYLTAEASL ATDDVSKAYSSPTFDAEALLGTVISAEDPDRVLIEPWATGVDGVILDVGSGTGRWTGHLASLGHQIEGLEPATRLVELARQTHPSVTFHHGTITDLSDSPKRWAGLLAWYSLIHGPGELPDALVALRAVEDGGGLLSFFSGPSLEPYHPVATAYRWPLPELAQALETAGFQVTSSHWDPRFPHAYLTAEASL 3h2d-a1-m1-cA_3h2d-a1-m1-cB Crystal structure of a chemotactic chec-like protein (so_3915) from shewanella oneidensis mr-1 at 1.86 A resolution Q8EAI7 Q8EAI7 1.86 X-RAY DIFFRACTION 103 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 144 145 NVNFINPFLQSLLNVISTASLELTPGKPQIKTDNLAKGDVSGLIGVGPQTKGSLSITFEQKLVLQIQNLGENPGKINEEVTDLVGEITNVTGGAKNLLGQKGYEFEATPVVSGQGHTISHKANGTKIIPFTSSYGTAFIEVCFE GNVNFINPFLQSLLNVISTASLELTPGKPQIKTDNLAKGDVSGLIGVGPQTKGSLSITFEQKLVLQIQNLGENPGKINEEVTDLVGEITNVTGGAKNLLGQKGYEFEATPVVSGQGHTISHKANGTKIIPFTSSYGTAFIEVCFE 3h2s-a1-m1-cA_3h2s-a1-m1-cB Crystal Structure of the Q03B84 Protein from Lactobacillus casei. Northeast Structural Genomics Consortium Target LcR19. Q03B84 Q03B84 1.78 X-RAY DIFFRACTION 33 1.0 321967 (Lacticaseibacillus paracasei ATCC 334) 321967 (Lacticaseibacillus paracasei ATCC 334) 211 211 KIAVLGATGRAGSAIVAEARRRGHEVLAVVRDPQKAADRLGATVATLVKEPLVLTEADLDSVDAVVDALSVPWGSGRGYLHLDFATHLVSLLRNSDTLAVFILGSASLAPGADHPILDFPESAASQPWYDGALYQYYEYQFLQNANVNWIGISPSEAFPSGPATSYVAGKDTLLVGEDGQSHITTGNALAILDQLEHPTAIRDRIVVRDAD KIAVLGATGRAGSAIVAEARRRGHEVLAVVRDPQKAADRLGATVATLVKEPLVLTEADLDSVDAVVDALSVPWGSGRGYLHLDFATHLVSLLRNSDTLAVFILGSASLAPGADHPILDFPESAASQPWYDGALYQYYEYQFLQNANVNWIGISPSEAFPSGPATSYVAGKDTLLVGEDGQSHITTGNALAILDQLEHPTAIRDRIVVRDAD 3h2z-a1-m1-cA_3h2z-a1-m2-cA The crystal structure of mannitol-1-phosphate dehydrogenase from Shigella flexneri Q83PQ0 Q83PQ0 1.9 X-RAY DIFFRACTION 106 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 369 369 KALHFGAGNIGRGFIGKLLADAGIQLTFADVNQVVLDALNARHSYQVHVVGETEQVDTVSGVNAVSSIGDDVVDLIAQVDLVTTAVGPVVLERIAPAIAKGLVKRKEQGNESPLNIIACENVRGTTQLKGHVNALPEDAKAWVEEHVGFVDSAVDRIVPPNDPLEVTVETFSEWIVDKTQFKGALPNIPGELTDNLAFVERKLFTLNTGHAITAYLGKLAGHQTIRDAILDEKIRAVVKGAEESGAVLIKRYGFDADKHAAYIQKILGRFENPYLKDDVERVGRQPLRKLSAGDRLIKPLLGTLEYSLPHKNLIQGIAGAHFRSEDDPQAQELAALIADKGPQAALAQISGLDANSEVVSEAVTAYKAQ KALHFGAGNIGRGFIGKLLADAGIQLTFADVNQVVLDALNARHSYQVHVVGETEQVDTVSGVNAVSSIGDDVVDLIAQVDLVTTAVGPVVLERIAPAIAKGLVKRKEQGNESPLNIIACENVRGTTQLKGHVNALPEDAKAWVEEHVGFVDSAVDRIVPPNDPLEVTVETFSEWIVDKTQFKGALPNIPGELTDNLAFVERKLFTLNTGHAITAYLGKLAGHQTIRDAILDEKIRAVVKGAEESGAVLIKRYGFDADKHAAYIQKILGRFENPYLKDDVERVGRQPLRKLSAGDRLIKPLLGTLEYSLPHKNLIQGIAGAHFRSEDDPQAQELAALIADKGPQAALAQISGLDANSEVVSEAVTAYKAQ 3h30-a3-m1-cA_3h30-a3-m1-cB Crystal structure of the catalytic subunit of human protein kinase CK2 with 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole P68400 P68400 1.56 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 333 333 SGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQARM SGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQARM 3h33-a2-m2-cA_3h33-a2-m1-cA PpcC, A cytochrome c7 from Geobacter sulfurreducens Q74G82 Q74G82 2.25 X-RAY DIFFRACTION 28 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 72 72 IDKITYPTRIGAVVFPHKKHQDALGECRGCHEKGPGRIDGFDKVMAHGKGCKGCHEEMKIGPVRCGDCHKGG IDKITYPTRIGAVVFPHKKHQDALGECRGCHEKGPGRIDGFDKVMAHGKGCKGCHEEMKIGPVRCGDCHKGG 3h35-a1-m1-cB_3h35-a1-m1-cC Structure of the uncharacterized protein ABO_0056 from the hydrocarbon-degrading marine bacterium Alcanivorax borkumensis SK2. Q0VTF8 Q0VTF8 2.15 X-RAY DIFFRACTION 65 1.0 393595 (Alcanivorax borkumensis SK2) 393595 (Alcanivorax borkumensis SK2) 137 140 3h35-a1-m1-cB_3h35-a1-m1-cA 3h35-a1-m1-cC_3h35-a1-m1-cA SVPQAQTLVERHLASLTGDEARLLAALSDGSAFALLTLYSGSRFSRGEVLYRYSNAGRAAGIQCNDFIALYLNHLFAQGLVIASDFTESLRTDYELCEGDSDFRKAQAELQIHLPKLSIRRETLRISPLGRQLWTLT EQSVPQAQTLVERHLASLTGDEARLLAALSDGSAFALLTLYSGSRFSRGEVLYRYSNAGRAAGIQCNDFIALYLNHLFAQGLVIASDFTESLRTDYELCEGDSDFRKAQAELQIHLPKLSIRRETLRISPLGRQLWTLTT 3h36-a1-m1-cA_3h36-a1-m2-cA Structure of an uncharacterized domain in polyribonucleotide nucleotidyltransferase from Streptococcus mutans UA159 Q8DWB2 Q8DWB2 1.8 X-RAY DIFFRACTION 28 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 76 76 QVDADLQAEIVGKYNADLQKAVQIEEKKASEIATEAVKEHVTAEYEERYAEHEEHDRIRDVAEILEQEHAEVRRLI QVDADLQAEIVGKYNADLQKAVQIEEKKASEIATEAVKEHVTAEYEERYAEHEEHDRIRDVAEILEQEHAEVRRLI 3h36-a2-m1-cA_3h36-a2-m3-cA Structure of an uncharacterized domain in polyribonucleotide nucleotidyltransferase from Streptococcus mutans UA159 Q8DWB2 Q8DWB2 1.8 X-RAY DIFFRACTION 59 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 76 76 QVDADLQAEIVGKYNADLQKAVQIEEKKASEIATEAVKEHVTAEYEERYAEHEEHDRIRDVAEILEQEHAEVRRLI QVDADLQAEIVGKYNADLQKAVQIEEKKASEIATEAVKEHVTAEYEERYAEHEEHDRIRDVAEILEQEHAEVRRLI 3h3a-a1-m1-cA_3h3a-a1-m1-cB The complex structure of CCA-adding enzyme with CTP Q9WZH4 Q9WZH4 2.801 X-RAY DIFFRACTION 38 0.988 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 417 418 3h37-a1-m1-cA_3h37-a1-m1-cB 3h39-a1-m1-cA_3h39-a1-m1-cB MQIFRDVSKLLVERVDPKILNLFRLLGKFGDEVNMPVYVVGGFVRDLLLGIKNLDIDIVVEGNALEFAEYAKRFLPGKLVKHDKFMTASLFLKGGLRIDIATAEMSTIKKDLYRRDFTINAMAIKLNPKDFGLLIDFFGGYRDLKEGVIRVLHTLSFVDDPTRILRAIRFEQRFDFRIEETTERLLKQAVEEGYLERTTGPRLRQELEKILEEKNPLKSIRRMAQFDVIKHLFPKTYYTPSMDEKMENLFRNIPWVEENFGEVDRFYAVLHVFLEFYDDESWKEVRDRYSLRRNLINEIRHVEKSAPALLEMLSERVPASFVYPLVKGVSNETICHFLAYLSGEKEGLFKSYLLKIKNTKLEKINGEYLIRKGITSGKIIGEVLEKILMKKLDGDTRDEEEILEEVLASLETEGKLA MQIFRDVSKLLVERVDPKILNLFRLLGKFGDEVNMPVYVVGGFVRDLLLGIKNLDIDIVVEGNALEFAEYAKRFLPGKLVKHDKFMTASLFLKGGLRIDIATARLEPDVEMSTIKKDLYRRDFTINAMAIKLNPKDFGLLIDFFGGYRDLKEGVIRVLHTLSFVDDPTRILRAIRFEQRFDFRIEETTERLLKQAVEEGYLERTTGPRLRQELEKILEEKNPLKSIRRMAQFDVIKHLFPKTYYTPSMDEKMENLFRNIPWVEENFGEVDRFYAVLHVFLEFYDDESWKEVRDRYSLRRNLINEIRHVEKSAPALLEMLSERVPASFVYPLVKGVSNETICHFLAYLSGEKEGLFKSYLLKIKNTKLEKINGEYLIRKGITSGKIIGEVLEKILMKKLDGDTRDEEEILEEVLASLET 3h3h-a1-m1-cA_3h3h-a1-m1-cB Crystal structure of a snoal-like protein of unknown function (bth_ii0226) from burkholderia thailandensis e264 at 1.60 A resolution Q2T8S1 Q2T8S1 1.6 X-RAY DIFFRACTION 97 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 115 117 PITQAFAQQFSREWIDAWNAHDLDAILSHYADGFESSPIVQIAGPSGRLRGKEQVGAYWREALRIPDLHFEWIATLAGVDSVAIHYRGAKGRLALEVFHFGPDRRVVKALAHYAG EPITQAFAQQFSREWIDAWNAHDLDAILSHYADGFESSPIVQIAGEPSGRLRGKEQVGAYWREALRIPDLHFEWIATLAGVDSVAIHYRGAKGRLALEVFHFGPDRRVVKALAHYAG 3h3l-a2-m1-cC_3h3l-a2-m1-cB Crystal structure of PUTATIVE SUGAR HYDROLASE (YP_001304206.1) from Parabacteroides distasonis ATCC 8503 at 1.59 A resolution A6LFX0 A6LFX0 1.59 X-RAY DIFFRACTION 59 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 216 222 3h3l-a1-m1-cA_3h3l-a1-m2-cA ALDSDGIPTGGEWITFDGKTLNGWRGYCRQDVPLGWVVEDGSITYKGFGDLIYDKKFKNFVFEIEWKIDKAGNSGIFYTAQEIEGTPIYYSSPEYQLLDNENPDAWEGCDGNRQAGAVYDIPDPQPVKPYGNWNKTRIVVYNQRVIHYNDVKILEFQFGTPVWRALVDHSKFSKFSTSPEKCPEAYDLLQCGKQPGYIGQDHGYGVCFRNIRIKEL QTQALDSDGIPTGGEWITFDGKTLNGWRGYCRQDVPLGWVVEDGSITYKGSDNFGDLIYDKKFKNFVFEIEWKIDKAGNSGIFYTAQEIEGTPIYYSSPEYQLLDNENPDAWEGCDGNRQAGAVYDIPDPQPVKPYGNWNKTRIVVYNQRVIHYNDVKILEFQFGTPVWRALVDHSKFSKFSTSPEKCPEAYDLLQCGKQPGYIGQDHGYGVCFRNIRIKEL 3h3m-a1-m1-cB_3h3m-a1-m1-cA Crystal structure of flagellar protein FliT from Bordetella bronchiseptica A0A0H3LVQ9 A0A0H3LVQ9 2.5 X-RAY DIFFRACTION 96 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 80 87 PVLEIYQDIANLTSRLAAANASNWDLVLNHGQEYVCLVERLRELDEAARGKFDLLVRILENDAAVRDLALPQLARLSDLL APVLEIYQDIANLTSRLAAANASNWDLVLNHGQEYVCLVERLRELEPGEPLDEAARGKFDLLVRILENDAAVRDLALPQLARLSDLL 3h3o-a3-m1-cO_3h3o-a3-m1-cX Glycerol Kinase H232R with Ethylene Glycol O34153 O34153 2.3 X-RAY DIFFRACTION 33 1.0 37734 (Enterococcus casseliflavus) 37734 (Enterococcus casseliflavus) 498 499 1r59-a1-m1-cO_1r59-a1-m1-cX 1xup-a1-m1-cO_1xup-a1-m1-cX 3flc-a1-m1-cO_3flc-a1-m1-cX 3h3n-a1-m1-cO_3h3n-a1-m1-cX 3h3n-a2-m1-cO_3h3n-a2-m1-cX 3h3n-a2-m2-cO_3h3n-a2-m2-cX 3h3o-a1-m1-cO_3h3o-a1-m1-cX 3h3o-a2-m1-cC_3h3o-a2-m1-cB 3h3o-a3-m2-cC_3h3o-a3-m2-cB 3h45-a1-m1-cX_3h45-a1-m1-cO 3h45-a2-m1-cD_3h45-a2-m1-cC 3h45-a3-m1-cX_3h45-a3-m1-cO 3h45-a3-m2-cD_3h45-a3-m2-cC 3h46-a1-m1-cO_3h46-a1-m1-cX 3h46-a2-m1-cO_3h46-a2-m1-cX 3h46-a2-m2-cO_3h46-a2-m2-cX EKNYVMAIDQGTTSSRAIIFDRNGKKIGSSQKEFPQYFPKSGWVEHNANEIWNSVQSVIAGAFIESGIRPEAIAGIGITNQRETTVVWDKTTGQPIANAIVWQSRQSSPIADQLKVDGHTEMIHEKTGLVIDAYFSATKVRWLLDNIEGAQEKADNGELLFGTIDSWLVWKLTDGQVHVTDYSNASRTMLYNIHKLEWDQEILDLLNIPSSMLPEVKSNSEVYGHTRSYRFYGSEVPIAGMAGDQQAALFGQMAFEKGMIKNTYGTGAFIVMNTGEEPQLSDNDLLTTIGYGINGKVYYALEGSIFVAGSAIQWLRDGLRMIETSPQSEELAAKAKGDNEVYVVPAFTGLGAPYWDSEARGAVFGLTRGTTKEDFVRATLQAVAYQSKDVIDTMKKDSGIDIPLLKVDGGAAKNDLLMQFQADILDIDVQRAANLETTALGAAYLAGLAVGFWKDLDELKSMAEEGQMFTPEMPAEERDNLYEGWKQAVAATQTFKFK EKNYVMAIDQGTTSSRAIIFDRNGKKIGSSQKEFPQYFPKSGWVEHNANEIWNSVQSVIAGAFIESGIRPEAIAGIGITNQRETTVVWDKTTGQPIANAIVWQSRQSSPIADQLKVDGHTEMIHEKTGLVIDAYFSATKVRWLLDNIEGAQEKADNGELLFGTIDSWLVWKLTDGQVHVTDYSNASRTMLYNIHKLEWDQEILDLLNIPSSMLPEVKSNSEVYGHTRSYRFYGSEVPIAGMAGDQQAALFGQMAFEKGMIKNTYGTGAFIVMNTGEEPQLSDNDLLTTIGYGINGKVYYALEGSIFVAGSAIQWLRDGLRMIETSPQSEELAAKAKGDNEVYVVPAFTGLGAPYWDSEARGAVFGLTRGTTKEDFVRATLQAVAYQSKDVIDTMKKDSGIDIPLLKVDGGAAKNDLLMQFQADILDIDVQRAANLETTALGAAYLAGLAVGFWKDLDELKSMAEEGQMFTPEMPAEERDNLYEGWKQAVAATQTFKFKA 3h3o-a3-m2-cC_3h3o-a3-m1-cX Glycerol Kinase H232R with Ethylene Glycol O34153 O34153 2.3 X-RAY DIFFRACTION 137 0.998 37734 (Enterococcus casseliflavus) 37734 (Enterococcus casseliflavus) 498 499 3d7e-a1-m1-cO_3d7e-a1-m1-cX 3h3n-a2-m1-cO_3h3n-a2-m2-cX 3h3n-a2-m1-cX_3h3n-a2-m2-cO 3h3o-a3-m1-cO_3h3o-a3-m2-cB 3h45-a3-m1-cX_3h45-a3-m2-cC 3h45-a3-m2-cD_3h45-a3-m1-cO 3h46-a2-m1-cO_3h46-a2-m2-cX 3h46-a2-m1-cX_3h46-a2-m2-cO NYVMAIDQGTTSSRAIIFDRNGKKIGSSQKEFPQYFPKSGWVEHNANEIWNSVQSVIAGAFIESGIRPEAIAGIGITNQRETTVVWDKTTGQPIANAIVWQSRQSSPIADQLKVDGHTEMIHEKTGLVIDAYFSATKVRWLLDNIEGAQEKADNGELLFGTIDSWLVWKLTDGQVHVTDYSNASRTMLYNIHKLEWDQEILDLLNIPSSMLPEVKSNSEVYGHTRSYRFYGSEVPIAGMAGDQQAALFGQMAFEKGMIKNTYGTGAFIVMNTGEEPQLSDNDLLTTIGYGINGKVYYALEGSIFVAGSAIQWLRDGLRMIETSPQSEELAAKAKGDNEVYVVPAFTGLGAPYWDSEARGAVFGLTRGTTKEDFVRATLQAVAYQSKDVIDTMKKDSGIDIPLLKVDGGAAKNDLLMQFQADILDIDVQRAANLETTALGAAYLAGLAVGFWKDLDELKSMAEEGQMFTPEMPAEERDNLYEGWKQAVAATQTFKFKAK EKNYVMAIDQGTTSSRAIIFDRNGKKIGSSQKEFPQYFPKSGWVEHNANEIWNSVQSVIAGAFIESGIRPEAIAGIGITNQRETTVVWDKTTGQPIANAIVWQSRQSSPIADQLKVDGHTEMIHEKTGLVIDAYFSATKVRWLLDNIEGAQEKADNGELLFGTIDSWLVWKLTDGQVHVTDYSNASRTMLYNIHKLEWDQEILDLLNIPSSMLPEVKSNSEVYGHTRSYRFYGSEVPIAGMAGDQQAALFGQMAFEKGMIKNTYGTGAFIVMNTGEEPQLSDNDLLTTIGYGINGKVYYALEGSIFVAGSAIQWLRDGLRMIETSPQSEELAAKAKGDNEVYVVPAFTGLGAPYWDSEARGAVFGLTRGTTKEDFVRATLQAVAYQSKDVIDTMKKDSGIDIPLLKVDGGAAKNDLLMQFQADILDIDVQRAANLETTALGAAYLAGLAVGFWKDLDELKSMAEEGQMFTPEMPAEERDNLYEGWKQAVAATQTFKFKA 3h43-a3-m1-cA_3h43-a3-m1-cD N-terminal domain of the proteasome-activating nucleotidase of Methanocaldococcus jannaschii Q58576 Q58576 2.1 X-RAY DIFFRACTION 16 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 74 74 3h43-a3-m1-cE_3h43-a3-m1-cH 3h43-a3-m1-cJ_3h43-a3-m1-cK KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP 3h43-a3-m1-cE_3h43-a3-m1-cF N-terminal domain of the proteasome-activating nucleotidase of Methanocaldococcus jannaschii Q58576 Q58576 2.1 X-RAY DIFFRACTION 57 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 74 74 3h43-a1-m1-cA_3h43-a1-m1-cB 3h43-a1-m1-cE_3h43-a1-m1-cF 3h43-a1-m1-cJ_3h43-a1-m1-cI 3h43-a2-m1-cC_3h43-a2-m1-cD 3h43-a2-m1-cG_3h43-a2-m1-cH 3h43-a2-m1-cK_3h43-a2-m1-cL 3h43-a3-m1-cA_3h43-a3-m1-cB 3h43-a3-m1-cC_3h43-a3-m1-cD 3h43-a3-m1-cG_3h43-a3-m1-cH 3h43-a3-m1-cJ_3h43-a3-m1-cI 3h43-a3-m1-cK_3h43-a3-m1-cL KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP 3h43-a3-m1-cE_3h43-a3-m1-cG N-terminal domain of the proteasome-activating nucleotidase of Methanocaldococcus jannaschii Q58576 Q58576 2.1 X-RAY DIFFRACTION 17 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 74 74 3h43-a3-m1-cA_3h43-a3-m1-cC 3h43-a3-m1-cK_3h43-a3-m1-cI KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP 3h43-a3-m1-cE_3h43-a3-m1-cJ N-terminal domain of the proteasome-activating nucleotidase of Methanocaldococcus jannaschii Q58576 Q58576 2.1 X-RAY DIFFRACTION 42 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 74 74 3h43-a1-m1-cA_3h43-a1-m1-cF 3h43-a1-m1-cB_3h43-a1-m1-cI 3h43-a1-m1-cE_3h43-a1-m1-cJ 3h43-a2-m1-cC_3h43-a2-m1-cL 3h43-a2-m1-cD_3h43-a2-m1-cG 3h43-a2-m1-cH_3h43-a2-m1-cK 3h43-a3-m1-cA_3h43-a3-m1-cF 3h43-a3-m1-cB_3h43-a3-m1-cI 3h43-a3-m1-cC_3h43-a3-m1-cL 3h43-a3-m1-cD_3h43-a3-m1-cG 3h43-a3-m1-cH_3h43-a3-m1-cK KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP KENEILRRELDRRVPPLIVGTVVDKVGERKVVVKSSTGPSFLVNVSHFVNPDDLAPGKRVCLNQQTLTVVDVLP 3h4j-a3-m1-cA_3h4j-a3-m1-cB crystal structure of pombe AMPK KDAID fragment O74536 O74536 2.8 X-RAY DIFFRACTION 195 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 316 330 KRHIGPYIIRETLGEGSFGKVKLATHYKTQQKVALKFISRQLLKKSDMHMRVEREISYLKLLRHPHIIKLYDVITTPTDIVMVIEYAGGELFDYIVEKKRMTEDEGRRFFQQIICAIEYCHRHKIVHRDLKPENLLLDDNLNVKIADFGLSNIMTDGNFLKTSCGSPNYAAPEVINGKLYAGPEVDVWSCGIVLYVMLVGRLPFDDEFIYVMPDFLSPGAQSLIRRMIVADPMQRITIQEIRRDPWFNVNLPDYLRPMEEVQGSYADSRIVSKLGEAMGFSEDYIVEALRSDENNEVKEAYNLLHENQVIQEKLEH SKRHIGPYIIRETLGEGSFGKVKLATHYKTQQKVALKFISRQLLKKSDMHMRVEREISYLKLLRHPHIIKLYDVITTPTDIVMVIEYAGGELFDYIVEKKRMTEDEGRRFFQQIICAIEYCHRHKIVHRDLKPENLLLDDNLNVKIADFGLSNIMTDGNFLKTSCGSPNYAAPEVINGKLYAGPEVDVWSCGIVLYVMLVGRLPFDDEFIPNLFKKVNSCVYVMPDFLSPGAQSLIRRMIVADPMQRITIQEIRRDPWFNVNLPDYLRPMEEVQGSYADSRIVSKLGEAMGFSEDYIVEALRSDENNEVKEAYNLLHENQVIQEKLEHHH 3h4l-a1-m1-cA_3h4l-a1-m1-cB Crystal Structure of N terminal domain of a DNA repair protein P14242 P14242 2.5 X-RAY DIFFRACTION 73 0.982 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 333 344 DVHRITSGQVITDLTTAVKELVDNSIDANANQIEIIFKDYGLESIECSDNGDGIDPSNYEFLALKHYTAKVQTLGFRGEALSSLCGIAKLSVITTTSPPKADKLEYDMVGHITSKTTTSRNKGTTVLVSQLFHNLPVRQKEFSKTFKRQFTKCLTVIQGYAIINAAIKFSVWNITPKGKKNLILSTMRNSSMRKNISSVFGAGGMRGLEEVDLVLDLNPFKNRMLDYKIRVKGYISQNSFGCGRNSKDRQFIYVNKRPVEYSTLLKCCNEVYKTFNNVQFPAVFLNLELPMSLIDVNVTPDKRVILLHNERAVIDIFKTTLSDYYNRQELALP QINDIDVHRITSGQVITDLTTAVKELVDNSIDANANQIEIIFKDYGLESIECSDNGDGIDPSNYEFLALKHYTSKIAKFQDVAKVQTLGFRGEALSSLCGIAKLSVITTTSPPKADKLEYDMVGHITSKTTTSRNKGTTVLVSQLFHNLPVRQKEFSKTFKRQFTKCLTVIQGYAIINAAIKFSVWNITPKGKKNLILSTMRNSSMRKNISSVFGAGGMRGLEEVDLVLDLNPFKNRMLLDLDYKIRVKGYISQNSFGCGRNSKDRQFIYVNKRPVEYSTLLKCCNEVYKTFNNVQFPAVFLNLELPMSLIDPDKRVILLHNERAVIDIFKTTLSDYYNRQELA 3h4o-a1-m1-cA_3h4o-a1-m2-cA Crystal structure of a nitroreductase family protein (cd3355) from clostridium difficile 630 at 1.50 A resolution Q180K0 Q180K0 1.5 X-RAY DIFFRACTION 181 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 168 168 3koq-a1-m1-cB_3koq-a1-m1-cA 3koq-a2-m1-cC_3koq-a2-m1-cD NFVELAKKRYSCRNYQDRKVEKEKLEKVLDVARIAPTGGNRQPQRLIVIQEKEGINKLSKAANIYDAPLAILVCGDKDKVWTRPFDGKQLTDIDTSIVTDHLQATELGLASVWVCYFNPDIIREEFSLPDNLEPINILLGYESKIPESPERHEKTRVPLSEIVSYETL NFVELAKKRYSCRNYQDRKVEKEKLEKVLDVARIAPTGGNRQPQRLIVIQEKEGINKLSKAANIYDAPLAILVCGDKDKVWTRPFDGKQLTDIDTSIVTDHLQATELGLASVWVCYFNPDIIREEFSLPDNLEPINILLGYESKIPESPERHEKTRVPLSEIVSYETL 3h4p-a1-m1-ca_3h4p-a1-m2-cn Proteasome 20S core particle from Methanocaldococcus jannaschii Q58634 Q58634 4.1 X-RAY DIFFRACTION 33 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 202 202 3h4p-a1-m1-cb_3h4p-a1-m2-cm 3h4p-a1-m1-cc_3h4p-a1-m2-cl 3h4p-a1-m1-cd_3h4p-a1-m2-ck 3h4p-a1-m1-ce_3h4p-a1-m2-cj 3h4p-a1-m1-cf_3h4p-a1-m2-ci 3h4p-a1-m1-cg_3h4p-a1-m2-ch TTTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIAEAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGMNEEKTFTATGSGSPIAYGVLEAGYDRDMSVEEGIKLALNALKSAMERDTFSGNGISLAVITKDGVKIFEDEEIEKILDSMK TTTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIAEAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGMNEEKTFTATGSGSPIAYGVLEAGYDRDMSVEEGIKLALNALKSAMERDTFSGNGISLAVITKDGVKIFEDEEIEKILDSMK 3h4p-a1-m1-cb_3h4p-a1-m2-cn Proteasome 20S core particle from Methanocaldococcus jannaschii Q58634 Q58634 4.1 X-RAY DIFFRACTION 50 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 202 202 3h4p-a1-m1-ca_3h4p-a1-m2-ch 3h4p-a1-m1-cc_3h4p-a1-m2-cm 3h4p-a1-m1-cd_3h4p-a1-m2-cl 3h4p-a1-m1-ce_3h4p-a1-m2-ck 3h4p-a1-m1-cf_3h4p-a1-m2-cj 3h4p-a1-m1-cg_3h4p-a1-m2-ci TTTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIAEAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGMNEEKTFTATGSGSPIAYGVLEAGYDRDMSVEEGIKLALNALKSAMERDTFSGNGISLAVITKDGVKIFEDEEIEKILDSMK TTTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIAEAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGMNEEKTFTATGSGSPIAYGVLEAGYDRDMSVEEGIKLALNALKSAMERDTFSGNGISLAVITKDGVKIFEDEEIEKILDSMK 3h4p-a1-m2-cH_3h4p-a1-m2-cN Proteasome 20S core particle from Methanocaldococcus jannaschii Q60177 Q60177 4.1 X-RAY DIFFRACTION 90 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 232 232 3h4p-a1-m1-cA_3h4p-a1-m1-cB 3h4p-a1-m1-cA_3h4p-a1-m1-cG 3h4p-a1-m1-cB_3h4p-a1-m1-cC 3h4p-a1-m1-cC_3h4p-a1-m1-cD 3h4p-a1-m1-cD_3h4p-a1-m1-cE 3h4p-a1-m1-cE_3h4p-a1-m1-cF 3h4p-a1-m1-cF_3h4p-a1-m1-cG 3h4p-a1-m2-cH_3h4p-a1-m2-cI 3h4p-a1-m2-cI_3h4p-a1-m2-cJ 3h4p-a1-m2-cJ_3h4p-a1-m2-cK 3h4p-a1-m2-cK_3h4p-a1-m2-cL 3h4p-a1-m2-cL_3h4p-a1-m2-cM 3h4p-a1-m2-cM_3h4p-a1-m2-cN ITVFSPEGRLYQVEYAREAVRRGTTAIGIACKDGVVLAVDRRITSKLVKIRSIEKIFQIDDHVAAATSGLVADARVLIDRARLEAQIYRLTYGEEISIEMLAKKICDIKQAYTQHGGVRPFGVSLLIAGIDKNEARLFETDPSGALIEYKATAIGSGRPVVMELLEKEYRDDITLDEGLELAITALTKANEDIKPENVDVCIITVKDAQFKKIPVEEIKKLIEKVKKKLNEE ITVFSPEGRLYQVEYAREAVRRGTTAIGIACKDGVVLAVDRRITSKLVKIRSIEKIFQIDDHVAAATSGLVADARVLIDRARLEAQIYRLTYGEEISIEMLAKKICDIKQAYTQHGGVRPFGVSLLIAGIDKNEARLFETDPSGALIEYKATAIGSGRPVVMELLEKEYRDDITLDEGLELAITALTKANEDIKPENVDVCIITVKDAQFKKIPVEEIKKLIEKVKKKLNEE 3h4p-a1-m2-cm_3h4p-a1-m2-cn Proteasome 20S core particle from Methanocaldococcus jannaschii Q58634 Q58634 4.1 X-RAY DIFFRACTION 54 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 202 202 3h4p-a1-m1-ca_3h4p-a1-m1-cb 3h4p-a1-m1-ca_3h4p-a1-m1-cg 3h4p-a1-m1-cb_3h4p-a1-m1-cc 3h4p-a1-m1-cc_3h4p-a1-m1-cd 3h4p-a1-m1-cd_3h4p-a1-m1-ce 3h4p-a1-m1-ce_3h4p-a1-m1-cf 3h4p-a1-m1-cf_3h4p-a1-m1-cg 3h4p-a1-m2-ch_3h4p-a1-m2-ci 3h4p-a1-m2-ch_3h4p-a1-m2-cn 3h4p-a1-m2-ci_3h4p-a1-m2-cj 3h4p-a1-m2-cj_3h4p-a1-m2-ck 3h4p-a1-m2-ck_3h4p-a1-m2-cl 3h4p-a1-m2-cl_3h4p-a1-m2-cm TTTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIAEAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGMNEEKTFTATGSGSPIAYGVLEAGYDRDMSVEEGIKLALNALKSAMERDTFSGNGISLAVITKDGVKIFEDEEIEKILDSMK TTTVGLICDDAVILATDKRASLGNLVADKEAKKLYKIDDYIAMTIAGSVGDAQAIVRLLIAEAKLYKMRTGRNIPPLACATLLSNILHSSRMFPFLTQIIIGGYDLLEGAKLFSLDPLGGMNEEKTFTATGSGSPIAYGVLEAGYDRDMSVEEGIKLALNALKSAMERDTFSGNGISLAVITKDGVKIFEDEEIEKILDSMK 3h4r-a1-m2-cA_3h4r-a1-m4-cA Crystal structure of E. coli RecE exonuclease P15032 P15032 2.8 X-RAY DIFFRACTION 78 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 219 219 3h4r-a1-m1-cA_3h4r-a1-m3-cA 3h4r-a1-m1-cA_3h4r-a1-m4-cA 3h4r-a1-m2-cA_3h4r-a1-m3-cA PGISKSQLDDIADTPALYLWRKNAPVDTTKTKTLDLGTAFHCRVLELEEFSNRAEEGRKIELMYQSVMALPLGQWLVESAGHAESSIYWEDPETGILCRCRPDKIIPEFHWIMDVKTTADIQRFKTAYYDYRYHVQDAFYSDGYEAQFGVQPTFVFLVASTTIECGRYPVEIFMMGEEAKLAGQQEYHRNLRTLSDCLNTDEWPAIKTLSLPRWAKEYA PGISKSQLDDIADTPALYLWRKNAPVDTTKTKTLDLGTAFHCRVLELEEFSNRAEEGRKIELMYQSVMALPLGQWLVESAGHAESSIYWEDPETGILCRCRPDKIIPEFHWIMDVKTTADIQRFKTAYYDYRYHVQDAFYSDGYEAQFGVQPTFVFLVASTTIECGRYPVEIFMMGEEAKLAGQQEYHRNLRTLSDCLNTDEWPAIKTLSLPRWAKEYA 3h4v-a1-m1-cD_3h4v-a1-m1-cA Selective screening and design to identify inhibitors of leishmania major pteridine reductase 1 Q01782 Q01782 2.4 X-RAY DIFFRACTION 32 1.0 5664 (Leishmania major) 5664 (Leishmania major) 263 273 1e7w-a1-m1-cB_1e7w-a1-m2-cA 1e7w-a1-m2-cB_1e7w-a1-m1-cA 1e92-a1-m1-cC_1e92-a1-m1-cB 1e92-a1-m1-cD_1e92-a1-m1-cA 1w0c-a1-m1-cC_1w0c-a1-m1-cB 1w0c-a1-m1-cD_1w0c-a1-m1-cA 1w0c-a2-m1-cG_1w0c-a2-m1-cF 1w0c-a2-m1-cH_1w0c-a2-m1-cE 2bf7-a1-m1-cC_2bf7-a1-m1-cB 2bf7-a1-m1-cD_2bf7-a1-m1-cA 2bfa-a1-m1-cC_2bfa-a1-m1-cB 2bfa-a1-m1-cD_2bfa-a1-m1-cA 2bfm-a1-m1-cC_2bfm-a1-m1-cB 2bfm-a1-m1-cD_2bfm-a1-m1-cA 2bfo-a1-m1-cC_2bfo-a1-m1-cB 2bfo-a1-m1-cD_2bfo-a1-m1-cA 2bfp-a1-m1-cC_2bfp-a1-m1-cB 2bfp-a1-m1-cD_2bfp-a1-m1-cA 2qhx-a1-m1-cC_2qhx-a1-m1-cB 2qhx-a1-m1-cD_2qhx-a1-m1-cA 3h4v-a1-m1-cC_3h4v-a1-m1-cB 3h4v-a2-m1-cG_3h4v-a2-m1-cF 3h4v-a2-m1-cH_3h4v-a2-m1-cE 5l42-a1-m1-cC_5l42-a1-m1-cB 5l42-a1-m1-cD_5l42-a1-m1-cA 5l4n-a1-m1-cA_5l4n-a1-m1-cD 5l4n-a1-m1-cB_5l4n-a1-m1-cC 6rxc-a1-m1-cB_6rxc-a1-m1-cC 6rxc-a1-m1-cD_6rxc-a1-m1-cA 7pxx-a1-m1-cC_7pxx-a1-m1-cB 7pxx-a1-m1-cD_7pxx-a1-m1-cA TVPVALVTGAAKRLGRSIAEGLHAEGYAVCLHYHRSAAEANALSATLNARRPNSAITVQADLSNVATAPVAPVTLFTRCAELVAACYTHWGRCDVLVNNASSFYPTPLLRREAMETATADLFGSNAIAPYFLIKAFAHRVAGTPAKHRGTNYSIINMVDAMTNQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSVLVDDMVWEGHRSKVPLYQRDSSAAEVSDVVIFLCSSKAKYITGTCVKVDGGYSLTRA TVPVALVTGAAKRLGRSIAEGLHAEGYAVCLHYHRSAAEANALSATLNARRPNSAITVQADLSNVATAPVADGSAPVTLFTRCAELVAACYTHWGRCDVLVNNASSFYPTPLLRNGDREAMETATADLFGSNAIAPYFLIKAFAHRVAGTPAKHRGTNYSIINMVDAMTNQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSVLVDDMPPAVWEGHRSKVPLYQRDSSAAEVSDVVIFLCSSKAKYITGTCVKVDGGYSLTRA 3h4y-a1-m1-cA_3h4y-a1-m2-cA Crystal structure of putative chemotaxis protein (YP_009526.1) from DESULFOVIBRIO VULGARIS HILDENBOROUGH at 1.55 A resolution Q72FB2 Q72FB2 1.55 X-RAY DIFFRACTION 122 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 147 147 SVNGIEVAKPFIAATVNVLSTAGIQPQPGKPYVKKNNVAKGDVSAVIGITGHKNGSISVTFTKSCAIALVKGLGDDIQDILQDTKDAVGEVTNISGQARAGLAEGVFQGSTPSVIGDGHTISHVTKSPIAIPFLTNHGEFTVEFCFE SVNGIEVAKPFIAATVNVLSTAGIQPQPGKPYVKKNNVAKGDVSAVIGITGHKNGSISVTFTKSCAIALVKGLGDDIQDILQDTKDAVGEVTNISGQARAGLAEGVFQGSTPSVIGDGHTISHVTKSPIAIPFLTNHGEFTVEFCFE 3h51-a1-m1-cB_3h51-a1-m1-cA Crystal structure of Putative calcium/calmodulin dependent protein kinase II association domain (NP_636218.1) from XANTHOMONAS CAMPESTRIS at 1.70 A resolution Q8PCA7 Q8PCA7 1.7 X-RAY DIFFRACTION 120 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 137 139 VHYTDKAALPADGEAREVAALFDTWNAALATGNPHKVADLYAPDGVLLPTVSNEVRASREQIENYFEFLTKKPKGVINYRTVRLLDDDSAVDAGVYTFTLTDKNGKKSDVQARYTFVYEKRDGKWLIINHHSSAPEV GVHYTDKAALPADGEAREVAALFDTWNAALATGNPHKVADLYAPDGVLLPTVSNEVRASREQIENYFEFLTKKPKGVINYRTVRLLDDDSAVDAGVYTFTLTDKNGKKSDVQARYTFVYEKRDGKWLIINHHSSAPEVD 3h5a-a1-m1-cD_3h5a-a1-m1-cA Crystal structure of E. coli MccB Q47506 Q47506 2.8 X-RAY DIFFRACTION 60 0.994 562 (Escherichia coli) 562 (Escherichia coli) 350 357 MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNENNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKVVADKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCGNRMLEHHHHH MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNSTENRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKVVADLYGSEKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCGNRMLEHHHHHH 3h5a-a1-m1-cD_3h5a-a1-m1-cB Crystal structure of E. coli MccB Q47506 Q47506 2.8 X-RAY DIFFRACTION 29 1.0 562 (Escherichia coli) 562 (Escherichia coli) 350 357 MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNENNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKVVADKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCGNRMLEHHHHH MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNTENNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKVVADLYGSEKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCGNRMLEHHHHHH 3h5n-a1-m1-cB_3h5n-a1-m1-cC Crystal structure of E. coli MccB + ATP Q47506 Q47506 1.9 X-RAY DIFFRACTION 35 0.988 562 (Escherichia coli) 562 (Escherichia coli) 338 338 3h5r-a1-m1-cB_3h5r-a1-m1-cC MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNSTENNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCG MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKGSEKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCGN 3h5n-a1-m1-cD_3h5n-a1-m1-cC Crystal structure of E. coli MccB + ATP Q47506 Q47506 1.9 X-RAY DIFFRACTION 273 1.0 562 (Escherichia coli) 562 (Escherichia coli) 332 338 3h5a-a1-m1-cA_3h5a-a1-m1-cB 3h5a-a1-m1-cD_3h5a-a1-m1-cC 3h5n-a1-m1-cA_3h5n-a1-m1-cB 3h5r-a1-m1-cB_3h5r-a1-m1-cA 3h5r-a1-m1-cD_3h5r-a1-m1-cC 3h9g-a1-m1-cB_3h9g-a1-m1-cA 3h9g-a2-m1-cD_3h9g-a2-m1-cC 3h9j-a1-m1-cB_3h9j-a1-m1-cA 3h9j-a2-m1-cD_3h9j-a2-m1-cC 3h9q-a1-m1-cB_3h9q-a1-m1-cA 3h9q-a2-m1-cD_3h9q-a2-m1-cC MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCG MDYILGRYVKIARYGSGGLVGGGGKEQYVENLVLWENIIKTAYCFITPSSYTAALETANIPEKDFSNCFRFLKENFFIIPGEYNNNRYSRNFLHYQSYGANPVLVQDKLKNAKVVILGCGGIGNHVSVILATSGIGEIILIDNDQIENTNLTRQVLFSEDDVGKNKTEVIKRELLKRNSEISVSEIALNINDYTDLHKVPEADIWVVSADHPFNLINWVNKYCVRANQPYINAGYVNDIAVFGPLYVPGKTGCYECQKGSEKENIDHKIKLINSRFKPATFAPVNNVAAALCAADVIKFIGKYSEPLSLNKRIGIWSDEIKIHSQNMGRSPVCSVCGN 3h5o-a3-m1-cA_3h5o-a3-m1-cB The crystal structure of transcription regulator GntR from Chromobacterium violaceum Q7NTU7 Q7NTU7 2.3 X-RAY DIFFRACTION 53 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 263 263 RTVLVLIPSLANTVFLETLTGIETVLDAAGYQLIGNSHYDAGQELQLLRAYLQHRPDGVLITGLSHAEPFERILSQHALPVVYDLADDGRCCVGFSQEDAGAAITRHLLSRGKRRIGFLGAQLDERVKRLDGYRAALDAADCRDAGLEWLDPQPSSQGADLDRALAERPDCDALFCCNDDLAIGALARSQQLGIAVPERLAIAGFNDLQPAAWCTPPLTTVATPRRDIGVHAAKALLQLIDGEEPASRRADLGFRLLRRSSEG RTVLVLIPSLANTVFLETLTGIETVLDAAGYQLIGNSHYDAGQELQLLRAYLQHRPDGVLITGLSHAEPFERILSQHALPVVYDLADDGRCCVGFSQEDAGAAITRHLLSRGKRRIGFLGAQLDERVKRLDGYRAALDAADCRDAGLEWLDPQPSSQGADLDRALAERPDCDALFCCNDDLAIGALARSQQLGIAVPERLAIAGFNDLQPAAWCTPPLTTVATPRRDIGVHAAKALLQLIDGEEPASRRADLGFRLLRRSSEG 3h5q-a1-m1-cA_3h5q-a1-m2-cA Crystal structure of a putative pyrimidine-nucleoside phosphorylase from Staphylococcus aureus Q5HE64 Q5HE64 1.94 X-RAY DIFFRACTION 55 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 420 420 SNARIDIIEKKRDGHTLTTEEINFFIGGYVKGDIPDYQASSLAAIYFQDNDDERVALTAVNSGDIDLSDIKGVKVDKHSTGGVGDTTTLVLAPLVAAVDVPVAKSGRGLGHTGGTIDKLEAIDGFHVEIDEATFVKLVNENKVAVVGQSGNLTPADKKLYALRDVTGTVNSIPLIASSISKKIAAGADAIVLDVKTGSGAFKTLEDAEALAHAVRIGNNVGRNTAIISDNQPLGRAIGNALELQEAIDTLKGQGPKDLTELVLTLGSQVVLANKAETLEEARALLIEAINSGAALEKFKTFIKNQGGDETVIDHPERLPQAQYQIEYKAKKSGYVTELVSNDIGVASLGAGRLTKEDDIDLAVGIVLNKKIGDKVEEGESLLTIHSNRQDVDDVVKKLDSSITIADHVVSPTLIHKIITE SNARIDIIEKKRDGHTLTTEEINFFIGGYVKGDIPDYQASSLAAIYFQDNDDERVALTAVNSGDIDLSDIKGVKVDKHSTGGVGDTTTLVLAPLVAAVDVPVAKSGRGLGHTGGTIDKLEAIDGFHVEIDEATFVKLVNENKVAVVGQSGNLTPADKKLYALRDVTGTVNSIPLIASSISKKIAAGADAIVLDVKTGSGAFKTLEDAEALAHAVRIGNNVGRNTAIISDNQPLGRAIGNALELQEAIDTLKGQGPKDLTELVLTLGSQVVLANKAETLEEARALLIEAINSGAALEKFKTFIKNQGGDETVIDHPERLPQAQYQIEYKAKKSGYVTELVSNDIGVASLGAGRLTKEDDIDLAVGIVLNKKIGDKVEEGESLLTIHSNRQDVDDVVKKLDSSITIADHVVSPTLIHKIITE 3h5t-a2-m1-cA_3h5t-a2-m2-cA Crystal structure of a transcriptional regulator, Lacl family protein from Corynebacterium glutamicum 2.53 X-RAY DIFFRACTION 153 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 338 338 QQYGTLASIAAKLGISRTTVSNAYNRPEQLSAELRQRILDTAEDMGYAGAIGVLLTEDLTYAFEDMASVDFLAGVAQAAGDTQLTLIPASPASSVDHVSAQQLVNNAAVDGVVIYSVAKGDPHIDAIRARGLPAVIADQPAREEGMPFIAPNNRKAIAPAAQALIDAGHRKIGILSIRLDRANNDGEVTRERLENAQYQVQRDRVRGAMEVFIEAGIDPGTVPIMECWINNRQHNFEVAKELLETHPDLTAVLCTVDALAFGVLEYLKSVGKSAPADLSLTGFDGTHMALARDLTTVIQPNKLKGFKAGETLLKMIDKEYVEPEVELETSFHPGSTVA QQYGTLASIAAKLGISRTTVSNAYNRPEQLSAELRQRILDTAEDMGYAGAIGVLLTEDLTYAFEDMASVDFLAGVAQAAGDTQLTLIPASPASSVDHVSAQQLVNNAAVDGVVIYSVAKGDPHIDAIRARGLPAVIADQPAREEGMPFIAPNNRKAIAPAAQALIDAGHRKIGILSIRLDRANNDGEVTRERLENAQYQVQRDRVRGAMEVFIEAGIDPGTVPIMECWINNRQHNFEVAKELLETHPDLTAVLCTVDALAFGVLEYLKSVGKSAPADLSLTGFDGTHMALARDLTTVIQPNKLKGFKAGETLLKMIDKEYVEPEVELETSFHPGSTVA 3h6c-a1-m2-cB_3h6c-a1-m4-cA Crystal structure of human alpha-defensin 1 (Mutant Gln22Ala) P59665 P59665 1.63 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1zmi-a3-m1-cA_1zmi-a3-m2-cA 3h6c-a1-m1-cB_3h6c-a1-m3-cA ACYCRIPACIAGERRYGTCIYAGRLWAFCC ACYCRIPACIAGERRYGTCIYAGRLWAFCC 3h6j-a1-m2-cA_3h6j-a1-m3-cA Crystal structure of a putative neuraminidase from Pseudomonas aeruginosa Q9L6G4 Q9L6G4 1.6 X-RAY DIFFRACTION 190 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 438 438 2w38-a1-m1-cA_2w38-a1-m2-cA 2w38-a1-m1-cA_2w38-a1-m3-cA 2w38-a1-m2-cA_2w38-a1-m3-cA 3h6j-a1-m1-cA_3h6j-a1-m2-cA 3h6j-a1-m1-cA_3h6j-a1-m3-cA MNTYFDIPHRLVGKALYESYYDHFGQMDILSDGSLYLIYRRATEHVGGSDGRVVFSKLEGGIWSAPTIVAQAGGQDFRDVAGGTMPSGRIVAASTVYETGEVKVYVSDDSGVTWVHKFTLARGGADYNFAHGKSFQVGARYVIPLYAATGVNYELKWLESSDGGETWGEGSTIYSGNTPYNETSYLPVGDGVILAVARVGSGAGGALRQFISLDDGGTWTDQGNVTAQNGDSTDILVAPSLSYIYSEGGTPHVVLLYTNRTTHFCYYRTILLARAVAGSSGWTERVPAYSAPAASGYTSQVVLGGRRILGNLFRETSSTTSGAYQFEVYLGGVPDFESDWFSVSSNSLYTLSHGLQRSPRRVVVEFARSSSPSTWNIVMPSYFNDGGHKGSGAQVEVGSLNIRLGTGAAVWGTGYFGGIDNSATTRLATGYYRVRAWI MNTYFDIPHRLVGKALYESYYDHFGQMDILSDGSLYLIYRRATEHVGGSDGRVVFSKLEGGIWSAPTIVAQAGGQDFRDVAGGTMPSGRIVAASTVYETGEVKVYVSDDSGVTWVHKFTLARGGADYNFAHGKSFQVGARYVIPLYAATGVNYELKWLESSDGGETWGEGSTIYSGNTPYNETSYLPVGDGVILAVARVGSGAGGALRQFISLDDGGTWTDQGNVTAQNGDSTDILVAPSLSYIYSEGGTPHVVLLYTNRTTHFCYYRTILLARAVAGSSGWTERVPAYSAPAASGYTSQVVLGGRRILGNLFRETSSTTSGAYQFEVYLGGVPDFESDWFSVSSNSLYTLSHGLQRSPRRVVVEFARSSSPSTWNIVMPSYFNDGGHKGSGAQVEVGSLNIRLGTGAAVWGTGYFGGIDNSATTRLATGYYRVRAWI 3h6n-a1-m1-cA_3h6n-a1-m2-cA Crystal Structure of the ubiquitin-like domain of plexin D1 Q9Y4D7 Q9Y4D7 2.004 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 AKPRNLNVSFQGCGDSLSVRADTDTLTQVKEKILEAFCKNVPYSQWPRAEDVDLEWFASSTQSYILRDLDDTSVVEDGRKKLNTLAHYKIPEGASLASLID AKPRNLNVSFQGCGDSLSVRADTDTLTQVKEKILEAFCKNVPYSQWPRAEDVDLEWFASSTQSYILRDLDDTSVVEDGRKKLNTLAHYKIPEGASLASLID 3h6p-a1-m1-cA_3h6p-a1-m1-cB Crystal structure of Rv3019c-Rv3020c from Mycobacterium tuberculosis Q6MX18 Q6MX18 1.91 X-RAY DIFFRACTION 62 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 60 67 AFAAKAGLMRHTIGQAEQQAMSAQAFHQGESAAAFQGAHARFVAAAAKVNTLLDIAQANL SHTAFAAKAGLMRHTIGQAEQQAMSAQAFHQGESAAAFQGAHARFVAAAAKVNTLLDIAQANLGEAA 3h6q-a2-m1-cA_3h6q-a2-m2-cA Macrocypin, a beta-trefoil cysteine protease inhibitor B9V973 B9V973 1.643 X-RAY DIFFRACTION 34 1.0 56183 (Macrolepiota procera) 56183 (Macrolepiota procera) 168 168 GFEDGFYTILHLAEGQHPNSKIPGGMYASSKDGKDVPVTAEPLGPQSKIRWWIARDPQAGDDMYTITEFRIDNSIPGQWSRSPVETEVPVYLYDRIKAEETGYTCAWRIQPADHGADGVYHIVGNVRIGSTDWADLREEYGEPQVYMKPVPVIPNVYIPRWFILGYEE GFEDGFYTILHLAEGQHPNSKIPGGMYASSKDGKDVPVTAEPLGPQSKIRWWIARDPQAGDDMYTITEFRIDNSIPGQWSRSPVETEVPVYLYDRIKAEETGYTCAWRIQPADHGADGVYHIVGNVRIGSTDWADLREEYGEPQVYMKPVPVIPNVYIPRWFILGYEE 3h6x-a1-m1-cC_3h6x-a1-m1-cB Crystal structure of dUTPase from Streptococcus mutans Q8DVY3 Q8DVY3 1.7 X-RAY DIFFRACTION 73 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 124 126 3h6x-a1-m1-cA_3h6x-a1-m1-cB 3h6x-a1-m1-cC_3h6x-a1-m1-cA RGFELITDYTDENLLPKRETAHAAGYDLKVAERTEISAGAIVLVPTGVKAYQVGEVLYLFDRSSNPRKKGLVLINSVGVIDGDYYNNPNNEGHIFAQKNTDQTVVLEAGERVVQGVFPFLLIDG KTRGFELITDYTDENLLPKRETAHAAGYDLKVAERTEISAGAIVLVPTGVKAYQVGEVLYLFDRSSNPRKKGLVLINSVGVIDGDYYNNPNNEGHIFAQKNTDQTVVLEAGERVVQGVFPFLLIDG 3h74-a2-m1-cA_3h74-a2-m2-cA Crystal structure of pyridoxal kinase from Lactobacillus plantarum F9UM74 F9UM74 1.3 X-RAY DIFFRACTION 123 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 274 274 3ibq-a2-m1-cA_3ibq-a2-m2-cA SLSTLVAEDLSAVGGISLSSALPVLTAQYDVAALPTSLLSTHTSGYGTPAVVDLSTWLPQVFAHWTRAQLHFDQALIGYVGSVALCQQITTYLEQQTLSLLVVDPVLGDLGQLYQGFDQDYVAARQLIQQADVILPNTTEAALLTGAPYQVTPDLEVILPALQAQLKTGAHAVITDVQRADQIGCAWLDEAGHVQYCGARRLPGHYNGTGDTLAAVIAGLLGRGYPLAPTLARANQWLNAVAETIAQNRTDDRQGVALGDLLQAILALNEHHHH SLSTLVAEDLSAVGGISLSSALPVLTAQYDVAALPTSLLSTHTSGYGTPAVVDLSTWLPQVFAHWTRAQLHFDQALIGYVGSVALCQQITTYLEQQTLSLLVVDPVLGDLGQLYQGFDQDYVAARQLIQQADVILPNTTEAALLTGAPYQVTPDLEVILPALQAQLKTGAHAVITDVQRADQIGCAWLDEAGHVQYCGARRLPGHYNGTGDTLAAVIAGLLGRGYPLAPTLARANQWLNAVAETIAQNRTDDRQGVALGDLLQAILALNEHHHH 3h76-a1-m1-cA_3h76-a1-m1-cB Crystal structure of PqsD, a key enzyme in Pseudomonas aeruginosa quinolone signal biosynthesis pathway P20582 P20582 1.8 X-RAY DIFFRACTION 253 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 329 329 3h77-a1-m1-cA_3h77-a1-m1-cB 3h78-a1-m1-cA_3h78-a1-m1-cB GNPILAGLGFSLPKRQVSNHDLVGRINTSDEFIVERTGVRTRYHVEPEQAVSALMVPAARQAIEAAGLLPEDIDLLLVNTLSPDHHDPSQACLIQPLLGLRHIPVLDIRAQCSGLLYGLQMARGQILAGLARHVLVVCGEVLSKRMDCSDRGRNLSILLGDGAGAVVVSAGESLEDGLLDLRLGADGNYFDLLMTAAPGSASPTFLDENVLREGGGEFLMRGRPMFEHASQTLVRIAGEMLAAHELTLDDIDHVICHQPNLRILDAVQEQLGIPQHKFAVTVDRLGNMASASTPVTLAMFWPDIQPGQRVLVLTYGSGATWGAALYRKP GNPILAGLGFSLPKRQVSNHDLVGRINTSDEFIVERTGVRTRYHVEPEQAVSALMVPAARQAIEAAGLLPEDIDLLLVNTLSPDHHDPSQACLIQPLLGLRHIPVLDIRAQCSGLLYGLQMARGQILAGLARHVLVVCGEVLSKRMDCSDRGRNLSILLGDGAGAVVVSAGESLEDGLLDLRLGADGNYFDLLMTAAPGSASPTFLDENVLREGGGEFLMRGRPMFEHASQTLVRIAGEMLAAHELTLDDIDHVICHQPNLRILDAVQEQLGIPQHKFAVTVDRLGNMASASTPVTLAMFWPDIQPGQRVLVLTYGSGATWGAALYRKP 3h7a-a1-m1-cA_3h7a-a1-m1-cD CRYSTAL STRUCTURE OF SHORT-CHAIN DEHYDROGENASE FROM Rhodopseudomonas palustris Q6NDT3 Q6NDT3 1.87 X-RAY DIFFRACTION 70 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 212 212 3h7a-a1-m1-cC_3h7a-a1-m1-cB PRNATVAVIGAGDYIGAEIAKKFAAEGFTVFAGRRNGEKLAPLVAEIEAAGGRIVARSLDARNEDEVTAFLNAADAHAPLEVTIFNVGANVNFPILETTDRVFRKVWEMACWAGFVSGRESARLMLAHGQGKIFFTGATASLRGGSGFAAFASAKFGLRAVAQSMARELMPKNIHVAHLIIDMPPAAVAGAYWQLYQQPKSAWTFEMEIRPY PRNATVAVIGAGDYIGAEIAKKFAAEGFTVFAGRRNGEKLAPLVAEIEAAGGRIVARSLDARNEDEVTAFLNAADAHAPLEVTIFNVGANVNFPILETTDRVFRKVWEMACWAGFVSGRESARLMLAHGQGKIFFTGATASLRGGSGFAAFASAKFGLRAVAQSMARELMPKNIHVAHLIIDMPPAAVAGAYWQLYQQPKSAWTFEMEIRPY 3h7a-a1-m1-cC_3h7a-a1-m1-cD CRYSTAL STRUCTURE OF SHORT-CHAIN DEHYDROGENASE FROM Rhodopseudomonas palustris Q6NDT3 Q6NDT3 1.87 X-RAY DIFFRACTION 130 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 212 212 3h7a-a1-m1-cA_3h7a-a1-m1-cB PRNATVAVIGAGDYIGAEIAKKFAAEGFTVFAGRRNGEKLAPLVAEIEAAGGRIVARSLDARNEDEVTAFLNAADAHAPLEVTIFNVGANVNFPILETTDRVFRKVWEMACWAGFVSGRESARLMLAHGQGKIFFTGATASLRGGSGFAAFASAKFGLRAVAQSMARELMPKNIHVAHLIIDMPPAAVAGAYWQLYQQPKSAWTFEMEIRPY PRNATVAVIGAGDYIGAEIAKKFAAEGFTVFAGRRNGEKLAPLVAEIEAAGGRIVARSLDARNEDEVTAFLNAADAHAPLEVTIFNVGANVNFPILETTDRVFRKVWEMACWAGFVSGRESARLMLAHGQGKIFFTGATASLRGGSGFAAFASAKFGLRAVAQSMARELMPKNIHVAHLIIDMPPAAVAGAYWQLYQQPKSAWTFEMEIRPY 3h7l-a2-m1-cB_3h7l-a2-m3-cC CRYSTAL STRUCTURE OF ENDOGLUCANASE-RELATED PROTEIN FROM Vibrio parahaemolyticus Q87LX4 Q87LX4 2.3 X-RAY DIFFRACTION 77 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 575 575 3h7l-a1-m1-cA_3h7l-a1-m2-cA SLLLTNHIGYERLGPKKAIIQTEQPHLSSYTAQLICATSEQTVATFAVEEQGKVANWHQGYFYLIDFSSFTDSGDYFLQVEDSRSSTFTVGEHILLNQTLSDVIHYFKSQRCGGVFDQQDRQVPVLNANQTADVHGGWYDASGDVSKYLSHLSYANYLNPQQTPMVVWNILKGLSLLEGSEDIAAFTRTRLIEEALFGADFLVRMQNEKGFFYMTVFDKWSKDTAQREICAYETQLGHKFDDYQAGFRQGGGVAIAALAAASRLGVHGEYDQQKYRNAAENGYWHLKEHNTQYLNDGEENIIDEYCALLASVELFKATKETRYLEESRLWAQRLVARQMSDEQIQHFWSANQDGSRPYFHAAEAGLPTIALCEYLAIEDDSVQTESVKCIVNRACEFEIKISNKVTNPFGYPRQYVKGVNESKRDAFFVAHNNESGYWWQGENARLGSLATMAYLAQPHIASQEIQQQLSVFAQDALNWIVGLNPYDMCMLDGHGRNNPDYLPQYGFFNAKGGVCNGITGGFEDEEDIAFNPPAQKDDMLQNWRWGEQWIPHGAWYLLAIMSQAQHISQLATSKN SLLLTNHIGYERLGPKKAIIQTEQPHLSSYTAQLICATSEQTVATFAVEEQGKVANWHQGYFYLIDFSSFTDSGDYFLQVEDSRSSTFTVGEHILLNQTLSDVIHYFKSQRCGGVFDQQDRQVPVLNANQTADVHGGWYDASGDVSKYLSHLSYANYLNPQQTPMVVWNILKGLSLLEGSEDIAAFTRTRLIEEALFGADFLVRMQNEKGFFYMTVFDKWSKDTAQREICAYETQLGHKFDDYQAGFRQGGGVAIAALAAASRLGVHGEYDQQKYRNAAENGYWHLKEHNTQYLNDGEENIIDEYCALLASVELFKATKETRYLEESRLWAQRLVARQMSDEQIQHFWSANQDGSRPYFHAAEAGLPTIALCEYLAIEDDSVQTESVKCIVNRACEFEIKISNKVTNPFGYPRQYVKGVNESKRDAFFVAHNNESGYWWQGENARLGSLATMAYLAQPHIASQEIQQQLSVFAQDALNWIVGLNPYDMCMLDGHGRNNPDYLPQYGFFNAKGGVCNGITGGFEDEEDIAFNPPAQKDDMLQNWRWGEQWIPHGAWYLLAIMSQAQHISQLATSKN 3h7l-a3-m1-cB_3h7l-a3-m1-cC CRYSTAL STRUCTURE OF ENDOGLUCANASE-RELATED PROTEIN FROM Vibrio parahaemolyticus Q87LX4 Q87LX4 2.3 X-RAY DIFFRACTION 32 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 575 575 SLLLTNHIGYERLGPKKAIIQTEQPHLSSYTAQLICATSEQTVATFAVEEQGKVANWHQGYFYLIDFSSFTDSGDYFLQVEDSRSSTFTVGEHILLNQTLSDVIHYFKSQRCGGVFDQQDRQVPVLNANQTADVHGGWYDASGDVSKYLSHLSYANYLNPQQTPMVVWNILKGLSLLEGSEDIAAFTRTRLIEEALFGADFLVRMQNEKGFFYMTVFDKWSKDTAQREICAYETQLGHKFDDYQAGFRQGGGVAIAALAAASRLGVHGEYDQQKYRNAAENGYWHLKEHNTQYLNDGEENIIDEYCALLASVELFKATKETRYLEESRLWAQRLVARQMSDEQIQHFWSANQDGSRPYFHAAEAGLPTIALCEYLAIEDDSVQTESVKCIVNRACEFEIKISNKVTNPFGYPRQYVKGVNESKRDAFFVAHNNESGYWWQGENARLGSLATMAYLAQPHIASQEIQQQLSVFAQDALNWIVGLNPYDMCMLDGHGRNNPDYLPQYGFFNAKGGVCNGITGGFEDEEDIAFNPPAQKDDMLQNWRWGEQWIPHGAWYLLAIMSQAQHISQLATSKN SLLLTNHIGYERLGPKKAIIQTEQPHLSSYTAQLICATSEQTVATFAVEEQGKVANWHQGYFYLIDFSSFTDSGDYFLQVEDSRSSTFTVGEHILLNQTLSDVIHYFKSQRCGGVFDQQDRQVPVLNANQTADVHGGWYDASGDVSKYLSHLSYANYLNPQQTPMVVWNILKGLSLLEGSEDIAAFTRTRLIEEALFGADFLVRMQNEKGFFYMTVFDKWSKDTAQREICAYETQLGHKFDDYQAGFRQGGGVAIAALAAASRLGVHGEYDQQKYRNAAENGYWHLKEHNTQYLNDGEENIIDEYCALLASVELFKATKETRYLEESRLWAQRLVARQMSDEQIQHFWSANQDGSRPYFHAAEAGLPTIALCEYLAIEDDSVQTESVKCIVNRACEFEIKISNKVTNPFGYPRQYVKGVNESKRDAFFVAHNNESGYWWQGENARLGSLATMAYLAQPHIASQEIQQQLSVFAQDALNWIVGLNPYDMCMLDGHGRNNPDYLPQYGFFNAKGGVCNGITGGFEDEEDIAFNPPAQKDDMLQNWRWGEQWIPHGAWYLLAIMSQAQHISQLATSKN 3h7x-a1-m1-cB_3h7x-a1-m1-cC A transition from strong right-handed to canonical left-handed supercoiling in a conserved coiled coil segment of trimeric autotransporter adhesins - the wildtype structure P0C2W0 P0C2W0 2 X-RAY DIFFRACTION 61 0.98 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 51 51 3h7x-a1-m1-cC_3h7x-a1-m1-cA 3h7x-a2-m1-cE_3h7x-a2-m1-cF HTLKTANSYTDVTVSNSTKKAIRESNQYTDHKFHQLDNRLDKLDTRVDKGL TLKTANSYTDVTVSNSTKKAIRESNQYTDHKFHQLDNRLDKLDTRVDKGLA 3h7z-a1-m2-cA_3h7z-a1-m3-cA A transition from strong right-handed to canonical left-handed supercoiling in a conserved coiled coil segment of trimeric autotransporter adhesins - the M1 mutant structure P0C2W0 P0C2W0 2.51 X-RAY DIFFRACTION 66 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 61 61 3h7x-a1-m1-cB_3h7x-a1-m1-cA 3h7z-a1-m1-cA_3h7z-a1-m2-cA 3h7z-a1-m1-cA_3h7z-a1-m3-cA 3lt6-a1-m1-cC_3lt6-a1-m1-cB 3lt6-a2-m1-cD_3lt6-a2-m1-cF 3lt7-a1-m1-cC_3lt7-a1-m1-cB 3lt7-a2-m1-cF_3lt7-a2-m1-cE HTLKTANSYTDVTVSNSTKKAIRESNQYTDHKFHQLDNRLDKLDTRLLKLLASSAALNSLL HTLKTANSYTDVTVSNSTKKAIRESNQYTDHKFHQLDNRLDKLDTRLLKLLASSAALNSLL 3h83-a1-m1-cC_3h83-a1-m1-cA 2.06 Angstrom resolution structure of a hypoxanthine-guanine phosphoribosyltransferase (hpt-1) from Bacillus anthracis str. 'Ames Ancestor' 2.06 X-RAY DIFFRACTION 12 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 180 198 3kb8-a1-m1-cC_3kb8-a1-m1-cA AMMNQDIEKVLISEEQIQEKVLELGAIIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYS MHHHHHHSGTENLYFQSNAMMNQDIEKVLISEEQIQEKVLELGAIIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYS 3h84-a2-m1-cB_3h84-a2-m2-cB Crystal structure of GET3 Q12154 Q12154 2.3 X-RAY DIFFRACTION 78 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 323 323 VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSALGSLLQGGALADLTGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGAGNVDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSALGSLLQGGALADLTGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGAGNVDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 3h86-a3-m5-cG_3h86-a3-m6-cG Crystal structure of adenylate kinase from Methanococcus maripaludis Q6LYG0 Q6LYG0 2.5 X-RAY DIFFRACTION 60 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 191 191 3h86-a1-m1-cA_3h86-a1-m1-cB 3h86-a1-m1-cA_3h86-a1-m1-cC 3h86-a1-m1-cB_3h86-a1-m1-cC 3h86-a2-m1-cG_3h86-a2-m2-cG 3h86-a2-m1-cG_3h86-a2-m3-cG 3h86-a2-m2-cG_3h86-a2-m3-cG 3h86-a3-m1-cA_3h86-a3-m1-cB 3h86-a3-m1-cA_3h86-a3-m1-cC 3h86-a3-m1-cB_3h86-a3-m1-cC 3h86-a3-m4-cG_3h86-a3-m5-cG 3h86-a3-m4-cG_3h86-a3-m6-cG 3h86-a3-m7-cA_3h86-a3-m7-cB 3h86-a3-m7-cA_3h86-a3-m7-cC 3h86-a3-m7-cB_3h86-a3-m7-cC 3h86-a3-m8-cA_3h86-a3-m8-cB 3h86-a3-m8-cA_3h86-a3-m8-cC 3h86-a3-m8-cB_3h86-a3-m8-cC KNKVVVVTGVPGVGGTTVTQKAMDILSEEGLNYKMVNFGSAMFDVANEEGLASDRDQMRKLDPETQKRIQKMAGRKIAEMAKESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSDESRKRDLETTASIEEHQFMNRAAAMSYGVLTGATVKIVKNKNGLVDNAVEELMSVLR KNKVVVVTGVPGVGGTTVTQKAMDILSEEGLNYKMVNFGSAMFDVANEEGLASDRDQMRKLDPETQKRIQKMAGRKIAEMAKESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSDESRKRDLETTASIEEHQFMNRAAAMSYGVLTGATVKIVKNKNGLVDNAVEELMSVLR 3h86-a3-m5-cG_3h86-a3-m8-cC Crystal structure of adenylate kinase from Methanococcus maripaludis Q6LYG0 Q6LYG0 2.5 X-RAY DIFFRACTION 19 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 191 191 3h86-a3-m1-cA_3h86-a3-m7-cA 3h86-a3-m1-cA_3h86-a3-m8-cA 3h86-a3-m1-cB_3h86-a3-m4-cG 3h86-a3-m1-cB_3h86-a3-m7-cC 3h86-a3-m1-cC_3h86-a3-m6-cG 3h86-a3-m1-cC_3h86-a3-m8-cB 3h86-a3-m4-cG_3h86-a3-m7-cC 3h86-a3-m5-cG_3h86-a3-m7-cB 3h86-a3-m6-cG_3h86-a3-m8-cB 3h86-a3-m7-cA_3h86-a3-m8-cA 3h86-a3-m7-cB_3h86-a3-m8-cC KNKVVVVTGVPGVGGTTVTQKAMDILSEEGLNYKMVNFGSAMFDVANEEGLASDRDQMRKLDPETQKRIQKMAGRKIAEMAKESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSDESRKRDLETTASIEEHQFMNRAAAMSYGVLTGATVKIVKNKNGLVDNAVEELMSVLR KNKVVVVTGVPGVGGTTVTQKAMDILSEEGLNYKMVNFGSAMFDVANEEGLASDRDQMRKLDPETQKRIQKMAGRKIAEMAKESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSDESRKRDLETTASIEEHQFMNRAAAMSYGVLTGATVKIVKNKNGLVDNAVEELMSVLR 3h87-a1-m2-cA_3h87-a1-m2-cB Rv0301 Rv0300 Toxin Antitoxin Complex from Mycobacterium tuberculosis P9WFB9 P9WFB9 1.49 X-RAY DIFFRACTION 82 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 136 138 3h87-a1-m1-cA_3h87-a1-m1-cB TDQRWLIDKSALVRLTDSPDMEIWSNRIERGLVHITGVTRLEVGFSAECGEIARREFREPPLSAMPVEYLTPRIEDRALEVQTLLADRGHHRGPSIPDLLIAATAELSGLTVLHVDKDFDAIAALTGQKTERLTHR TDQRWLIDKSALVRLTDSPDMEIWSNRIERGLVHITGVTRLEVGFSAECGEIARREFREPPLSAMPVEYLTPRIEDRALEVQTLLADRGHHRGPSIPDLLIAATAELSGLTVLHVDKDFDAIAALTGQKTERLTHRPP 3h87-a1-m2-cD_3h87-a1-m1-cC Rv0301 Rv0300 Toxin Antitoxin Complex from Mycobacterium tuberculosis O07227 O07227 1.49 X-RAY DIFFRACTION 90 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 66 72 3h87-a1-m1-cD_3h87-a1-m2-cC SDVLIRDIPDDVLASLDAIAARLGLSRTEYIRRRLAQDAQTARVTVTAADLRRLRGAVAGLGDPEL SDVLIRDIPDDVLASLDAIAARLGLSRTEYIRRRLAQDAQTARVTVTAADLRRLRGAVAGLGDPELMRQAWR 3h8g-a1-m1-cA_3h8g-a1-m1-cF Bestatin complex structure of leucine aminopeptidase from Pseudomonas putida O86436 O86436 1.5 X-RAY DIFFRACTION 86 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 497 497 3h8e-a1-m1-cA_3h8e-a1-m2-cA 3h8e-a1-m1-cA_3h8e-a1-m3-cA 3h8e-a1-m1-cB_3h8e-a1-m2-cB 3h8e-a1-m1-cB_3h8e-a1-m3-cB 3h8e-a1-m2-cA_3h8e-a1-m3-cA 3h8e-a1-m2-cB_3h8e-a1-m3-cB 3h8f-a1-m1-cA_3h8f-a1-m1-cD 3h8f-a1-m1-cA_3h8f-a1-m1-cF 3h8f-a1-m1-cB_3h8f-a1-m1-cC 3h8f-a1-m1-cB_3h8f-a1-m1-cE 3h8f-a1-m1-cC_3h8f-a1-m1-cE 3h8f-a1-m1-cD_3h8f-a1-m1-cF 3h8g-a1-m1-cA_3h8g-a1-m1-cC 3h8g-a1-m1-cB_3h8g-a1-m1-cD 3h8g-a1-m1-cB_3h8g-a1-m1-cE 3h8g-a1-m1-cC_3h8g-a1-m1-cF 3h8g-a1-m1-cD_3h8g-a1-m1-cE MELVVKSVAAASVKTATLVIPVGENRKLGAVAKAVDLASEGAISAVLKRGDLAGKPGQTLLLQNLQGLKAERVLLVGSGKDEALGDRTWRKLVASVAGVLKGLNGADAVLALDDVAVNNRDAHYGKYRLLAETLLDGEYVFDRFKSQKVEPRALKKVTLLADKAGQAEVERAVKHASAIATGMAFTRDLGNLPPNLCHPSFLAEQAKELGKAHKALKVEVLDEKKIKDLGMGAFYAVGQGSDQPPRLIVLNYQGGKKADKPFVLVGKGITFDTGGISLKPGAGMDEMKYDMCGAASVFGTLRAVLELQLPVNLVCLLACAENMPSGGATRPGDIVTTMSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVIDIATLTGACIVALGSHTTGLMGNNDDLVGQLLDAGKRADDRAWQLPLFDEYQEQLDSPFADMGNIGGPKAGTITAGCFLSRFAKAYNWAHMDIAGTAWISGGKDKGATGRPVPLLTQYLLDRAGA MELVVKSVAAASVKTATLVIPVGENRKLGAVAKAVDLASEGAISAVLKRGDLAGKPGQTLLLQNLQGLKAERVLLVGSGKDEALGDRTWRKLVASVAGVLKGLNGADAVLALDDVAVNNRDAHYGKYRLLAETLLDGEYVFDRFKSQKVEPRALKKVTLLADKAGQAEVERAVKHASAIATGMAFTRDLGNLPPNLCHPSFLAEQAKELGKAHKALKVEVLDEKKIKDLGMGAFYAVGQGSDQPPRLIVLNYQGGKKADKPFVLVGKGITFDTGGISLKPGAGMDEMKYDMCGAASVFGTLRAVLELQLPVNLVCLLACAENMPSGGATRPGDIVTTMSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVIDIATLTGACIVALGSHTTGLMGNNDDLVGQLLDAGKRADDRAWQLPLFDEYQEQLDSPFADMGNIGGPKAGTITAGCFLSRFAKAYNWAHMDIAGTAWISGGKDKGATGRPVPLLTQYLLDRAGA 3h8g-a1-m1-cB_3h8g-a1-m1-cF Bestatin complex structure of leucine aminopeptidase from Pseudomonas putida O86436 O86436 1.5 X-RAY DIFFRACTION 21 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 497 497 3h8e-a1-m1-cA_3h8e-a1-m2-cB 3h8e-a1-m1-cB_3h8e-a1-m3-cA 3h8e-a1-m2-cA_3h8e-a1-m3-cB 3h8f-a1-m1-cA_3h8f-a1-m1-cE 3h8f-a1-m1-cB_3h8f-a1-m1-cD 3h8f-a1-m1-cC_3h8f-a1-m1-cF 3h8g-a1-m1-cA_3h8g-a1-m1-cD 3h8g-a1-m1-cC_3h8g-a1-m1-cE MELVVKSVAAASVKTATLVIPVGENRKLGAVAKAVDLASEGAISAVLKRGDLAGKPGQTLLLQNLQGLKAERVLLVGSGKDEALGDRTWRKLVASVAGVLKGLNGADAVLALDDVAVNNRDAHYGKYRLLAETLLDGEYVFDRFKSQKVEPRALKKVTLLADKAGQAEVERAVKHASAIATGMAFTRDLGNLPPNLCHPSFLAEQAKELGKAHKALKVEVLDEKKIKDLGMGAFYAVGQGSDQPPRLIVLNYQGGKKADKPFVLVGKGITFDTGGISLKPGAGMDEMKYDMCGAASVFGTLRAVLELQLPVNLVCLLACAENMPSGGATRPGDIVTTMSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVIDIATLTGACIVALGSHTTGLMGNNDDLVGQLLDAGKRADDRAWQLPLFDEYQEQLDSPFADMGNIGGPKAGTITAGCFLSRFAKAYNWAHMDIAGTAWISGGKDKGATGRPVPLLTQYLLDRAGA MELVVKSVAAASVKTATLVIPVGENRKLGAVAKAVDLASEGAISAVLKRGDLAGKPGQTLLLQNLQGLKAERVLLVGSGKDEALGDRTWRKLVASVAGVLKGLNGADAVLALDDVAVNNRDAHYGKYRLLAETLLDGEYVFDRFKSQKVEPRALKKVTLLADKAGQAEVERAVKHASAIATGMAFTRDLGNLPPNLCHPSFLAEQAKELGKAHKALKVEVLDEKKIKDLGMGAFYAVGQGSDQPPRLIVLNYQGGKKADKPFVLVGKGITFDTGGISLKPGAGMDEMKYDMCGAASVFGTLRAVLELQLPVNLVCLLACAENMPSGGATRPGDIVTTMSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVIDIATLTGACIVALGSHTTGLMGNNDDLVGQLLDAGKRADDRAWQLPLFDEYQEQLDSPFADMGNIGGPKAGTITAGCFLSRFAKAYNWAHMDIAGTAWISGGKDKGATGRPVPLLTQYLLDRAGA 3h8g-a1-m1-cD_3h8g-a1-m1-cF Bestatin complex structure of leucine aminopeptidase from Pseudomonas putida O86436 O86436 1.5 X-RAY DIFFRACTION 78 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 497 497 3h8e-a1-m1-cA_3h8e-a1-m1-cB 3h8e-a1-m2-cA_3h8e-a1-m2-cB 3h8e-a1-m3-cA_3h8e-a1-m3-cB 3h8e-a2-m1-cA_3h8e-a2-m1-cB 3h8f-a1-m1-cA_3h8f-a1-m1-cC 3h8f-a1-m1-cB_3h8f-a1-m1-cF 3h8f-a1-m1-cD_3h8f-a1-m1-cE 3h8g-a1-m1-cA_3h8g-a1-m1-cE 3h8g-a1-m1-cB_3h8g-a1-m1-cC MELVVKSVAAASVKTATLVIPVGENRKLGAVAKAVDLASEGAISAVLKRGDLAGKPGQTLLLQNLQGLKAERVLLVGSGKDEALGDRTWRKLVASVAGVLKGLNGADAVLALDDVAVNNRDAHYGKYRLLAETLLDGEYVFDRFKSQKVEPRALKKVTLLADKAGQAEVERAVKHASAIATGMAFTRDLGNLPPNLCHPSFLAEQAKELGKAHKALKVEVLDEKKIKDLGMGAFYAVGQGSDQPPRLIVLNYQGGKKADKPFVLVGKGITFDTGGISLKPGAGMDEMKYDMCGAASVFGTLRAVLELQLPVNLVCLLACAENMPSGGATRPGDIVTTMSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVIDIATLTGACIVALGSHTTGLMGNNDDLVGQLLDAGKRADDRAWQLPLFDEYQEQLDSPFADMGNIGGPKAGTITAGCFLSRFAKAYNWAHMDIAGTAWISGGKDKGATGRPVPLLTQYLLDRAGA MELVVKSVAAASVKTATLVIPVGENRKLGAVAKAVDLASEGAISAVLKRGDLAGKPGQTLLLQNLQGLKAERVLLVGSGKDEALGDRTWRKLVASVAGVLKGLNGADAVLALDDVAVNNRDAHYGKYRLLAETLLDGEYVFDRFKSQKVEPRALKKVTLLADKAGQAEVERAVKHASAIATGMAFTRDLGNLPPNLCHPSFLAEQAKELGKAHKALKVEVLDEKKIKDLGMGAFYAVGQGSDQPPRLIVLNYQGGKKADKPFVLVGKGITFDTGGISLKPGAGMDEMKYDMCGAASVFGTLRAVLELQLPVNLVCLLACAENMPSGGATRPGDIVTTMSGQTVEILNTDAEGRLVLCDTLTYAERFKPQAVIDIATLTGACIVALGSHTTGLMGNNDDLVGQLLDAGKRADDRAWQLPLFDEYQEQLDSPFADMGNIGGPKAGTITAGCFLSRFAKAYNWAHMDIAGTAWISGGKDKGATGRPVPLLTQYLLDRAGA 3h8h-a3-m1-cA_3h8h-a3-m2-cA Structure of the C-terminal domain of human RNF2/RING1B; Q99496 Q99496 2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 3h8h-a2-m1-cA_3h8h-a2-m2-cA SEIELVFRPHPTLMEKAQTRYIKTSGNATVDHLSKYLAVRLALEELTASEKQYTIYIATASGQFTVLNGSFSLELVSEKYWKVNKPMELYYA SEIELVFRPHPTLMEKAQTRYIKTSGNATVDHLSKYLAVRLALEELTASEKQYTIYIATASGQFTVLNGSFSLELVSEKYWKVNKPMELYYA 3h8h-a4-m1-cA_3h8h-a4-m3-cA Structure of the C-terminal domain of human RNF2/RING1B; Q99496 Q99496 2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 SEIELVFRPHPTLMEKAQTRYIKTSGNATVDHLSKYLAVRLALEELTASEKQYTIYIATASGQFTVLNGSFSLELVSEKYWKVNKPMELYYA SEIELVFRPHPTLMEKAQTRYIKTSGNATVDHLSKYLAVRLALEELTASEKQYTIYIATASGQFTVLNGSFSLELVSEKYWKVNKPMELYYA 3h8l-a1-m1-cA_3h8l-a1-m1-cB The first X-ray structure of a sulfide:quinone oxidoreductase: insights into sulfide oxidation mechanism Q7ZAG8 Q7ZAG8 2.57 X-RAY DIFFRACTION 109 1.0 2283 (Acidianus ambivalens) 2283 (Acidianus ambivalens) 356 356 3h8i-a1-m1-cA_3h8i-a1-m1-cB TKVLVLGGRFGALTAAYTLKRLVGSKADVKVINKSRFSYFRPALPHVAIGVRDVDELKVDLSEALPEKGIQFQEGTVEKIDAKSSMVYYTKPDGSMAEEEYDYVIVGIGAHLATELVKGWDKYGYSVCEPEFATKLREKLESFQGGNIAIGSGPFYQGHNPKPKVPENFVPNADSACEGPVFEMSLMLHGYFKKKGMLDKVHVTVFSPGEYLSDLSPNSRKAVASIYNQLGIKLVHNFKIKEIREHEIVDEKGNTIPADITILLPPYTGNPALKNSTPDLVDDGGFIPTDLNMVSIKYDNVYAVGDANSMTVPKLGYLAVMTGRIAAQHLANRLGVPTKVDKYYPTIVCVADNPYE TKVLVLGGRFGALTAAYTLKRLVGSKADVKVINKSRFSYFRPALPHVAIGVRDVDELKVDLSEALPEKGIQFQEGTVEKIDAKSSMVYYTKPDGSMAEEEYDYVIVGIGAHLATELVKGWDKYGYSVCEPEFATKLREKLESFQGGNIAIGSGPFYQGHNPKPKVPENFVPNADSACEGPVFEMSLMLHGYFKKKGMLDKVHVTVFSPGEYLSDLSPNSRKAVASIYNQLGIKLVHNFKIKEIREHEIVDEKGNTIPADITILLPPYTGNPALKNSTPDLVDDGGFIPTDLNMVSIKYDNVYAVGDANSMTVPKLGYLAVMTGRIAAQHLANRLGVPTKVDKYYPTIVCVADNPYE 3h8t-a1-m1-cA_3h8t-a1-m2-cB Structure of Porphyromonas gingivalis heme-binding protein HmuY in complex with Heme A2I2W2 A2I2W2 1.8 X-RAY DIFFRACTION 32 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 182 182 3h8t-a1-m1-cB_3h8t-a1-m2-cA EAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK EAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK 3h8t-a1-m1-cB_3h8t-a1-m2-cB Structure of Porphyromonas gingivalis heme-binding protein HmuY in complex with Heme A2I2W2 A2I2W2 1.8 X-RAY DIFFRACTION 42 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 182 182 3h8t-a1-m1-cA_3h8t-a1-m2-cA EAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK EAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK 3h8t-a1-m2-cA_3h8t-a1-m2-cB Structure of Porphyromonas gingivalis heme-binding protein HmuY in complex with Heme A2I2W2 A2I2W2 1.8 X-RAY DIFFRACTION 10 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 182 182 3h8t-a1-m1-cA_3h8t-a1-m1-cB EAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK EAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK 3h8u-a1-m1-cB_3h8u-a1-m1-cA Crystal structure of uncharacterized conserved protein with double-stranded beta-helix domain (YP_001338853.1) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 1.80 A resolution A6TJ50 A6TJ50 1.8 X-RAY DIFFRACTION 122 0.991 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 114 119 ESRIFSVDEYVRPSNGEPIRSVVLETNDSVVVVWHAHPGQEIASHVHPHGQDTWTVISGEAEYHQGNGIVTHLKAGDIAIAKPGQVHGANSGPEPFIFVSVVAPGNAGFALAEK VNRAETESRIFSVDEYVRPSNGEPIRSVVLETNDSVVVVWHAHPGQEIASHHPHGQDTWTVISGEAEYHQGNGIVTHLKAGDIAIAKPGQVHGANSGPEPFIFVSVVAPGNAGFALAEK 3h90-a1-m1-cA_3h90-a1-m1-cC Structural basis for the autoregulation of the zinc transporter YiiP P69380 P69380 2.9 X-RAY DIFFRACTION 112 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 283 2qfi-a1-m1-cA_2qfi-a1-m2-cA 2qfi-a2-m1-cB_2qfi-a2-m3-cB 3h90-a2-m1-cB_3h90-a2-m1-cD LVSRAAIAATAMASLLLLIKIFAWWYTGSVSILAALVDSLVDIGASLTNLLVVRYSLQPADDNHSFGHGKAESLAALAQSMFISGSALFLFLTGIQHLISPTPMTDPGVGVIVTIVALICTIILVSFQRWVVRRTQSQAVRADMLHYQSDVMMNGAILLALGLSWYGWHRADALFALGIGIYILYSALRMGYEAVQSLLDRALPDEERQEIIDIVTSWPGVSGAHDLRTRQSGPTRFIQIHLEMEDSLPLVQAHMVADQVEQAILRRFPGSDVIIHQDPCSVV LVSRAAIAATAMASLLLLIKIFAWWYTGSVSILAALVDSLVDIGASLTNLLVVRYSLQPADDNHSFGHGKAESLAALAQSMFISGSALFLFLTGIQHLISPTPMTDPGVGVIVTIVALICTIILVSFQRWVVRRTQSQAVRADMLHYQSDVMMNGAILLALGLSWYGWHRADALFALGIGIYILYSALRMGYEAVQSLLDRALPDEERQEIIDIVTSWPGVSGAHDLRTRQSGPTRFIQIHLEMEDSLPLVQAHMVADQVEQAILRRFPGSDVIIHQDPCSVV 3h91-a3-m1-cB_3h91-a3-m2-cB Crystal structure of the complex of human chromobox homolog 2 (CBX2) and H3K27 peptide Q14781 Q14781 1.5 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 3h91-a1-m1-cA_3h91-a1-m2-cA EQVFAAECILSKRLRKGKLEYLVKWRGWSSKHNSWEPEENILDPRLLLAFQK EQVFAAECILSKRLRKGKLEYLVKWRGWSSKHNSWEPEENILDPRLLLAFQK 3h95-a1-m1-cA_3h95-a1-m2-cA Crystal structure of the NUDIX domain of NUDT6 P53370 P53370 1.7 X-RAY DIFFRACTION 126 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 161 QVGVAGAVFDESTRKILVVQDRNKLKNMWKFPGGLSEPEEDIGDTAVREVFEETGIKSEFRSVLSIRQQHDMYIICRLKPYSFTINFCQEECLRCEWMDLNDLAKTENTTPITSRVARLLLYGYREGFDKIDLTVEELPAVYTGLFYKLYHKELPENYKTM QVGVAGAVFDESTRKILVVQDRNKLKNMWKFPGGLSEPEEDIGDTAVREVFEETGIKSEFRSVLSIRQQHDMYIICRLKPYSFTINFCQEECLRCEWMDLNDLAKTENTTPITSRVARLLLYGYREGFDKIDLTVEELPAVYTGLFYKLYHKELPENYKTM 3h9d-a1-m1-cA_3h9d-a1-m1-cB Crystal Structure of Trypanosoma brucei ATG8 Q582K6 Q582K6 2.3 X-RAY DIFFRACTION 16 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 116 116 KDSKYKMSHTFESRQSDAAKVRERHPDRLPIICEKVYNSDIGELDRCKFLVPSDLTVGQFVSVLRKRVQLEAESALFVYTNDTVLPSSAQMADIYSKYKDEDGFLYMKYSGEATFG KDSKYKMSHTFESRQSDAAKVRERHPDRLPIICEKVYNSDIGELDRCKFLVPSDLTVGQFVSVLRKRVQLEAESALFVYTNDTVLPSSAQMADIYSKYKDEDGFLYMKYSGEATFG 3h9n-a2-m2-cA_3h9n-a2-m3-cA Crystal structure of the ribosome maturation factor rimm (hi0203) from h.influenzae. northeast structural genomics consortium target IR66. P44568 P44568 2.7 X-RAY DIFFRACTION 95 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 174 174 3h9n-a2-m1-cA_3h9n-a2-m2-cA 3h9n-a2-m1-cA_3h9n-a2-m3-cA HIEVVGKLGSTYGIRGWLRIYSSTEQAESIFDYQPWFLKIKGEWQSIELENWRYHNHEIIVKLKGVDDREAAQILANVEIGVDLSVFPELEEGDYYWHDLIGCTVVNLEGYTGTVTEETGSNDVLVVKANTKDAFGKQERLIPFLYEQVVKRVDLTTKTIEVDWDAGFLEHHHH HIEVVGKLGSTYGIRGWLRIYSSTEQAESIFDYQPWFLKIKGEWQSIELENWRYHNHEIIVKLKGVDDREAAQILANVEIGVDLSVFPELEEGDYYWHDLIGCTVVNLEGYTGTVTEETGSNDVLVVKANTKDAFGKQERLIPFLYEQVVKRVDLTTKTIEVDWDAGFLEHHHH 3h9p-a2-m1-cC_3h9p-a2-m2-cC Crystal structure of putative triphosphoribosyl-dephospho-coA synthase from Archaeoglobus fulgidus O28441 O28441 2.3 X-RAY DIFFRACTION 42 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 213 213 3h9p-a1-m1-cB_3h9p-a1-m1-cA FLASAAGAFPAFLEVAEKRIIGEGVLRAVKESRVHFGAFLLLVPLISSWDAGGVDIAEAARNRLRRTDFRDSLSVLEAFRLSNNLKDRKTEEEIAQKKINLYEWKAPEENLIARELVDGFKISIEGAKFLLSFNSGKAVVELYYHLLSKFPDPLVIAKGREYAEKITEWAEKARTEEERKELDEKLLKDGANPGTIADLTASSIFLALAEGWR FLASAAGAFPAFLEVAEKRIIGEGVLRAVKESRVHFGAFLLLVPLISSWDAGGVDIAEAARNRLRRTDFRDSLSVLEAFRLSNNLKDRKTEEEIAQKKINLYEWKAPEENLIARELVDGFKISIEGAKFLLSFNSGKAVVELYYHLLSKFPDPLVIAKGREYAEKITEWAEKARTEEERKELDEKLLKDGANPGTIADLTASSIFLALAEGWR 3h9u-a2-m1-cD_3h9u-a2-m3-cD S-adenosyl homocysteine hydrolase (SAHH) from Trypanosoma brucei Q383X0 Q383X0 1.9 X-RAY DIFFRACTION 117 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 434 434 3h9u-a1-m1-cA_3h9u-a1-m2-cA 3h9u-a1-m1-cB_3h9u-a1-m2-cB 3h9u-a2-m1-cC_3h9u-a2-m3-cC MYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY MYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY 3h9u-a2-m3-cD_3h9u-a2-m1-cC S-adenosyl homocysteine hydrolase (SAHH) from Trypanosoma brucei Q383X0 Q383X0 1.9 X-RAY DIFFRACTION 29 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 434 435 3h9u-a1-m1-cA_3h9u-a1-m2-cB 3h9u-a1-m1-cB_3h9u-a1-m2-cA 3h9u-a2-m1-cD_3h9u-a2-m3-cC MYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY SMYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY 3h9u-a4-m1-cA_3h9u-a4-m1-cC S-adenosyl homocysteine hydrolase (SAHH) from Trypanosoma brucei Q383X0 Q383X0 1.9 X-RAY DIFFRACTION 21 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 430 435 3h9u-a1-m1-cA_3h9u-a1-m1-cC 3h9u-a1-m2-cA_3h9u-a1-m2-cC 3h9u-a2-m1-cA_3h9u-a2-m1-cC 3h9u-a2-m3-cA_3h9u-a2-m3-cC 3h9u-a3-m1-cA_3h9u-a3-m1-cC YKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY SMYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY 3h9u-a4-m1-cB_3h9u-a4-m1-cD S-adenosyl homocysteine hydrolase (SAHH) from Trypanosoma brucei Q383X0 Q383X0 1.9 X-RAY DIFFRACTION 10 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 430 434 3h9u-a1-m1-cB_3h9u-a1-m1-cD 3h9u-a1-m2-cB_3h9u-a1-m2-cD 3h9u-a2-m1-cB_3h9u-a2-m1-cD 3h9u-a2-m3-cB_3h9u-a2-m3-cD 3h9u-a3-m1-cB_3h9u-a3-m1-cD YKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY MYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY 3h9u-a4-m1-cD_3h9u-a4-m1-cC S-adenosyl homocysteine hydrolase (SAHH) from Trypanosoma brucei Q383X0 Q383X0 1.9 X-RAY DIFFRACTION 181 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 434 435 3h9u-a1-m1-cA_3h9u-a1-m1-cB 3h9u-a1-m1-cD_3h9u-a1-m1-cC 3h9u-a1-m2-cA_3h9u-a1-m2-cB 3h9u-a1-m2-cD_3h9u-a1-m2-cC 3h9u-a2-m1-cA_3h9u-a2-m1-cB 3h9u-a2-m1-cD_3h9u-a2-m1-cC 3h9u-a2-m3-cA_3h9u-a2-m3-cB 3h9u-a2-m3-cD_3h9u-a2-m3-cC 3h9u-a3-m1-cA_3h9u-a3-m1-cB 3h9u-a3-m1-cD_3h9u-a3-m1-cC 3h9u-a4-m1-cA_3h9u-a4-m1-cB MYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY SMYKVRDISLAEWGRRELELAENEMPGLMELRREYGPSKPLKGAKIAGCLHMTMQTAVLIETLVELGAEVRWASCNIFSTQDHAAAAIAKRGIPVFAWKGETEEEYMWCMKQTLKGFSGDGYPNMLLDDGGDLTNYVLDECELDGKIYGVSEETTTGVKNLYKRLQRGKLTIPAMNVNDSVTKSKFDNLYGCRESLVDGIKRATDVMIAGKTACVCGYGDVGKGCAAALRGFGARVVVTEVDPINALQAAMEGYQVLLVEDVVEEAHIFVTTTGNDDIITSEHFPRMRDDAIVCNIGHFDTEIQVAWLKANAKERVEVKPQVDRYTMANGRHIILLAEGRLVNLGCASGHPSFVMSNSFCNQVLAQIELWTNRDTGKYPRGAKAQVYFLPKKLDEKVAALHLGKLGAKLTKLTPKQAEYINCPVDGPFKPDHYRY 3h9w-a1-m1-cA_3h9w-a1-m2-cA Crystal Structure of the N-terminal domain of Diguanylate cyclase with PAS/PAC sensor (Maqu_2914) from Marinobacter aquaeolei, Northeast Structural Genomics Consortium Target MqR66C A1U4R9 A1U4R9 1.9 X-RAY DIFFRACTION 25 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 106 106 KAIPWKINWQTAFEYIGPQIEALLGWPQGSWKSVEDWATRHPEDQEWVVNFCVKQSECGVDHEADYRALHRDGHYVWIRDVVHVVRDDSGEVEALIGFFDISLEHH KAIPWKINWQTAFEYIGPQIEALLGWPQGSWKSVEDWATRHPEDQEWVVNFCVKQSECGVDHEADYRALHRDGHYVWIRDVVHVVRDDSGEVEALIGFFDISLEHH 3ha2-a1-m1-cA_3ha2-a1-m1-cB Crystal Structure of Protein (NADPH-quinone reductase) from P.pentosaceus, Northeast Structural Genomics Consortium Target PtR24A Q03DN6 Q03DN6 1.8 X-RAY DIFFRACTION 72 1.0 278197 (Pediococcus pentosaceus ATCC 25745) 278197 (Pediococcus pentosaceus ATCC 25745) 162 162 QTLIIVAHPELARSNTQPFFKAAIENFSNVTWHPLVADFNVEQEQSLLLQNDRIILEFPLYWYSAPALLKQWDTVTTKFATGHQYALEGKELGIVVSTGDNGNAFQAGAAEKFTISELRPFEAFANKTKYLPILAVHQFLYLEPDAQQRLLVAYQQYATNVG QTLIIVAHPELARSNTQPFFKAAIENFSNVTWHPLVADFNVEQEQSLLLQNDRIILEFPLYWYSAPALLKQWDTVTTKFATGHQYALEGKELGIVVSTGDNGNAFQAGAAEKFTISELRPFEAFANKTKYLPILAVHQFLYLEPDAQQRLLVAYQQYATNVG 3ha4-a3-m1-cC_3ha4-a3-m1-cG Crystal structure of the type one membrane protein MIX1 from Leishmania Q4QI49 Q4QI49 2.4 X-RAY DIFFRACTION 62 0.991 5664 (Leishmania major) 5664 (Leishmania major) 113 113 3ha4-a1-m1-cE_3ha4-a1-m1-cA 3ha4-a2-m1-cD_3ha4-a2-m1-cB 3ha4-a4-m1-cH_3ha4-a4-m1-cF RRPPWPLLHQRVVLLREGKGAPEDIALMWEQTKHYYPADWLIPLELTQVLKYSSGKYLQTYVADPDEMRKEVLMQLLNVKYGRVSDPNGGRVNKDVEEIISMAVDDLENMDLN PRRPPWPLLHQRVVLLREGKGAPEDIALMWEQTKHYYPADWLIPLELTQVLKYSSGKYLQTYVADPDEMRKEVLMQLLNVKYGRVSDPNGGRVNKDVEEIISMAVDDLENMDL 3ha9-a2-m1-cA_3ha9-a2-m2-cA The 1.7A Crystal Structure of a Thioredoxin-like Protein from Aeropyrum pernix Q9Y8R5 Q9Y8R5 1.7 X-RAY DIFFRACTION 114 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 161 161 NAPRAAGHSEEVLEREASFSLTTIDGEVISLNNVGGDVVILWFMAAWCPSCVYMADLLDRLTEKYREISVIAIDFWTAEALKALGLNKPGYPPPDTPEMFRKFIANYGDPSWIMVMDDGSLVEKFNVRSIDYIVIMDKSSNVLYAGTTPSLGELESVIKSV NAPRAAGHSEEVLEREASFSLTTIDGEVISLNNVGGDVVILWFMAAWCPSCVYMADLLDRLTEKYREISVIAIDFWTAEALKALGLNKPGYPPPDTPEMFRKFIANYGDPSWIMVMDDGSLVEKFNVRSIDYIVIMDKSSNVLYAGTTPSLGELESVIKSV 3hag-a1-m54-cA_3hag-a1-m9-cA Crystal structure of the Hepatitis E Virus-like Particle Q9IVZ8 Q9IVZ8 3.5 X-RAY DIFFRACTION 119 1.0 468 468 3hag-a1-m10-cA_3hag-a1-m23-cA 3hag-a1-m11-cA_3hag-a1-m20-cA 3hag-a1-m11-cA_3hag-a1-m38-cA 3hag-a1-m12-cA_3hag-a1-m37-cA 3hag-a1-m12-cA_3hag-a1-m47-cA 3hag-a1-m13-cA_3hag-a1-m45-cA 3hag-a1-m13-cA_3hag-a1-m46-cA 3hag-a1-m14-cA_3hag-a1-m29-cA 3hag-a1-m14-cA_3hag-a1-m44-cA 3hag-a1-m15-cA_3hag-a1-m16-cA 3hag-a1-m15-cA_3hag-a1-m28-cA 3hag-a1-m16-cA_3hag-a1-m28-cA 3hag-a1-m17-cA_3hag-a1-m27-cA 3hag-a1-m17-cA_3hag-a1-m52-cA 3hag-a1-m18-cA_3hag-a1-m51-cA 3hag-a1-m18-cA_3hag-a1-m60-cA 3hag-a1-m19-cA_3hag-a1-m39-cA 3hag-a1-m19-cA_3hag-a1-m59-cA 3hag-a1-m1-cA_3hag-a1-m10-cA 3hag-a1-m1-cA_3hag-a1-m23-cA 3hag-a1-m20-cA_3hag-a1-m38-cA 3hag-a1-m21-cA_3hag-a1-m30-cA 3hag-a1-m21-cA_3hag-a1-m43-cA 3hag-a1-m22-cA_3hag-a1-m42-cA 3hag-a1-m24-cA_3hag-a1-m54-cA 3hag-a1-m24-cA_3hag-a1-m9-cA 3hag-a1-m25-cA_3hag-a1-m26-cA 3hag-a1-m25-cA_3hag-a1-m53-cA 3hag-a1-m26-cA_3hag-a1-m53-cA 3hag-a1-m27-cA_3hag-a1-m52-cA 3hag-a1-m29-cA_3hag-a1-m44-cA 3hag-a1-m2-cA_3hag-a1-m22-cA 3hag-a1-m2-cA_3hag-a1-m42-cA 3hag-a1-m30-cA_3hag-a1-m43-cA 3hag-a1-m31-cA_3hag-a1-m40-cA 3hag-a1-m31-cA_3hag-a1-m58-cA 3hag-a1-m32-cA_3hag-a1-m57-cA 3hag-a1-m32-cA_3hag-a1-m7-cA 3hag-a1-m33-cA_3hag-a1-m5-cA 3hag-a1-m33-cA_3hag-a1-m6-cA 3hag-a1-m34-cA_3hag-a1-m49-cA 3hag-a1-m34-cA_3hag-a1-m4-cA 3hag-a1-m35-cA_3hag-a1-m36-cA 3hag-a1-m35-cA_3hag-a1-m48-cA 3hag-a1-m36-cA_3hag-a1-m48-cA 3hag-a1-m37-cA_3hag-a1-m47-cA 3hag-a1-m39-cA_3hag-a1-m59-cA 3hag-a1-m3-cA_3hag-a1-m41-cA 3hag-a1-m3-cA_3hag-a1-m50-cA 3hag-a1-m40-cA_3hag-a1-m58-cA 3hag-a1-m41-cA_3hag-a1-m50-cA 3hag-a1-m45-cA_3hag-a1-m46-cA 3hag-a1-m4-cA_3hag-a1-m49-cA 3hag-a1-m51-cA_3hag-a1-m60-cA 3hag-a1-m55-cA_3hag-a1-m56-cA 3hag-a1-m55-cA_3hag-a1-m8-cA 3hag-a1-m56-cA_3hag-a1-m8-cA 3hag-a1-m57-cA_3hag-a1-m7-cA 3hag-a1-m5-cA_3hag-a1-m6-cA DTAPVPDVDSRGAILRRQYNLSTSPLTSTIGTNLVLYAAPLSSLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPSAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSSARHKLRRGPDGTAELTTTAATRFMKDLHFTVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTNPMYVSDTVTFVNVATGAQGVSRSLDWSKVTLDGRPLTTIQQYSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQILIENHRVCISTYTTNLSISAVGVLAPHS DTAPVPDVDSRGAILRRQYNLSTSPLTSTIGTNLVLYAAPLSSLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPSAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSSARHKLRRGPDGTAELTTTAATRFMKDLHFTVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTNPMYVSDTVTFVNVATGAQGVSRSLDWSKVTLDGRPLTTIQQYSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQILIENHRVCISTYTTNLSISAVGVLAPHS 3hag-a1-m55-cA_3hag-a1-m9-cA Crystal structure of the Hepatitis E Virus-like Particle Q9IVZ8 Q9IVZ8 3.5 X-RAY DIFFRACTION 200 1.0 468 468 3hag-a1-m10-cA_3hag-a1-m24-cA 3hag-a1-m11-cA_3hag-a1-m16-cA 3hag-a1-m12-cA_3hag-a1-m38-cA 3hag-a1-m13-cA_3hag-a1-m47-cA 3hag-a1-m14-cA_3hag-a1-m45-cA 3hag-a1-m15-cA_3hag-a1-m29-cA 3hag-a1-m17-cA_3hag-a1-m28-cA 3hag-a1-m18-cA_3hag-a1-m52-cA 3hag-a1-m19-cA_3hag-a1-m60-cA 3hag-a1-m1-cA_3hag-a1-m6-cA 3hag-a1-m20-cA_3hag-a1-m39-cA 3hag-a1-m21-cA_3hag-a1-m26-cA 3hag-a1-m22-cA_3hag-a1-m43-cA 3hag-a1-m25-cA_3hag-a1-m54-cA 3hag-a1-m27-cA_3hag-a1-m53-cA 3hag-a1-m2-cA_3hag-a1-m23-cA 3hag-a1-m30-cA_3hag-a1-m44-cA 3hag-a1-m31-cA_3hag-a1-m36-cA 3hag-a1-m32-cA_3hag-a1-m58-cA 3hag-a1-m33-cA_3hag-a1-m7-cA 3hag-a1-m34-cA_3hag-a1-m5-cA 3hag-a1-m35-cA_3hag-a1-m49-cA 3hag-a1-m37-cA_3hag-a1-m48-cA 3hag-a1-m3-cA_3hag-a1-m42-cA 3hag-a1-m40-cA_3hag-a1-m59-cA 3hag-a1-m41-cA_3hag-a1-m46-cA 3hag-a1-m4-cA_3hag-a1-m50-cA 3hag-a1-m51-cA_3hag-a1-m56-cA 3hag-a1-m57-cA_3hag-a1-m8-cA 3rkc-a1-m1-cB_3rkc-a1-m1-cA 4plj-a1-m1-cB_4plj-a1-m1-cA DTAPVPDVDSRGAILRRQYNLSTSPLTSTIGTNLVLYAAPLSSLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPSAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSSARHKLRRGPDGTAELTTTAATRFMKDLHFTVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTNPMYVSDTVTFVNVATGAQGVSRSLDWSKVTLDGRPLTTIQQYSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQILIENHRVCISTYTTNLSISAVGVLAPHS DTAPVPDVDSRGAILRRQYNLSTSPLTSTIGTNLVLYAAPLSSLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPSAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSSARHKLRRGPDGTAELTTTAATRFMKDLHFTVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTNPMYVSDTVTFVNVATGAQGVSRSLDWSKVTLDGRPLTTIQQYSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQILIENHRVCISTYTTNLSISAVGVLAPHS 3hag-a1-m8-cA_3hag-a1-m9-cA Crystal structure of the Hepatitis E Virus-like Particle Q9IVZ8 Q9IVZ8 3.5 X-RAY DIFFRACTION 53 1.0 468 468 3hag-a1-m10-cA_3hag-a1-m6-cA 3hag-a1-m10-cA_3hag-a1-m9-cA 3hag-a1-m11-cA_3hag-a1-m12-cA 3hag-a1-m11-cA_3hag-a1-m15-cA 3hag-a1-m12-cA_3hag-a1-m13-cA 3hag-a1-m13-cA_3hag-a1-m14-cA 3hag-a1-m14-cA_3hag-a1-m15-cA 3hag-a1-m16-cA_3hag-a1-m17-cA 3hag-a1-m16-cA_3hag-a1-m20-cA 3hag-a1-m17-cA_3hag-a1-m18-cA 3hag-a1-m18-cA_3hag-a1-m19-cA 3hag-a1-m19-cA_3hag-a1-m20-cA 3hag-a1-m1-cA_3hag-a1-m2-cA 3hag-a1-m1-cA_3hag-a1-m5-cA 3hag-a1-m21-cA_3hag-a1-m22-cA 3hag-a1-m21-cA_3hag-a1-m25-cA 3hag-a1-m22-cA_3hag-a1-m23-cA 3hag-a1-m23-cA_3hag-a1-m24-cA 3hag-a1-m24-cA_3hag-a1-m25-cA 3hag-a1-m26-cA_3hag-a1-m27-cA 3hag-a1-m26-cA_3hag-a1-m30-cA 3hag-a1-m27-cA_3hag-a1-m28-cA 3hag-a1-m28-cA_3hag-a1-m29-cA 3hag-a1-m29-cA_3hag-a1-m30-cA 3hag-a1-m2-cA_3hag-a1-m3-cA 3hag-a1-m31-cA_3hag-a1-m32-cA 3hag-a1-m31-cA_3hag-a1-m35-cA 3hag-a1-m32-cA_3hag-a1-m33-cA 3hag-a1-m33-cA_3hag-a1-m34-cA 3hag-a1-m34-cA_3hag-a1-m35-cA 3hag-a1-m36-cA_3hag-a1-m37-cA 3hag-a1-m36-cA_3hag-a1-m40-cA 3hag-a1-m37-cA_3hag-a1-m38-cA 3hag-a1-m38-cA_3hag-a1-m39-cA 3hag-a1-m39-cA_3hag-a1-m40-cA 3hag-a1-m3-cA_3hag-a1-m4-cA 3hag-a1-m41-cA_3hag-a1-m42-cA 3hag-a1-m41-cA_3hag-a1-m45-cA 3hag-a1-m42-cA_3hag-a1-m43-cA 3hag-a1-m43-cA_3hag-a1-m44-cA 3hag-a1-m44-cA_3hag-a1-m45-cA 3hag-a1-m46-cA_3hag-a1-m47-cA 3hag-a1-m46-cA_3hag-a1-m50-cA 3hag-a1-m47-cA_3hag-a1-m48-cA 3hag-a1-m48-cA_3hag-a1-m49-cA 3hag-a1-m49-cA_3hag-a1-m50-cA 3hag-a1-m4-cA_3hag-a1-m5-cA 3hag-a1-m51-cA_3hag-a1-m52-cA 3hag-a1-m51-cA_3hag-a1-m55-cA 3hag-a1-m52-cA_3hag-a1-m53-cA 3hag-a1-m53-cA_3hag-a1-m54-cA 3hag-a1-m54-cA_3hag-a1-m55-cA 3hag-a1-m56-cA_3hag-a1-m57-cA 3hag-a1-m56-cA_3hag-a1-m60-cA 3hag-a1-m57-cA_3hag-a1-m58-cA 3hag-a1-m58-cA_3hag-a1-m59-cA 3hag-a1-m59-cA_3hag-a1-m60-cA 3hag-a1-m6-cA_3hag-a1-m7-cA 3hag-a1-m7-cA_3hag-a1-m8-cA DTAPVPDVDSRGAILRRQYNLSTSPLTSTIGTNLVLYAAPLSSLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPSAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSSARHKLRRGPDGTAELTTTAATRFMKDLHFTVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTNPMYVSDTVTFVNVATGAQGVSRSLDWSKVTLDGRPLTTIQQYSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQILIENHRVCISTYTTNLSISAVGVLAPHS DTAPVPDVDSRGAILRRQYNLSTSPLTSTIGTNLVLYAAPLSSLLPLQDGTNTHIMATEASNYAQYRVVRATIRYRPLVPSAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSSARHKLRRGPDGTAELTTTAATRFMKDLHFTVGEVGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYDQTNPMYVSDTVTFVNVATGAQGVSRSLDWSKVTLDGRPLTTIQQYSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQILIENHRVCISTYTTNLSISAVGVLAPHS 3ham-a2-m1-cA_3ham-a2-m1-cB Structure of the gentamicin-APH(2"")-IIa complex Q9EVD7 Q9EVD7 2.5 X-RAY DIFFRACTION 30 1.0 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 299 299 3ham-a1-m1-cA_3ham-a1-m1-cB MVNLDAEIYEHLNKQIKINELRYLSSGDDSDTFLCNEQYVVKVPKRDSVRISQKREFELYRFLENCKLSYQIPAVVYQSDRFNIMKYIKGERITYEQYHKLSEKEKDALAYDEATFLKELHSIEIDCSVSLFSDALVNKKDKFLQDKKLLISILEKEQLLTDEMLEHIETIYENILNNAVLFKYTPCLVHNDFSANNMIFRNNRLFGVIDFGDFNVGDPDNDFLCLLDCSTDDFGKEFGRKVLKYYQHKAPEVAERKAELNDVYWSIDQIIYGYERKDREMLIKGVSELLQTQAEMFIF MVNLDAEIYEHLNKQIKINELRYLSSGDDSDTFLCNEQYVVKVPKRDSVRISQKREFELYRFLENCKLSYQIPAVVYQSDRFNIMKYIKGERITYEQYHKLSEKEKDALAYDEATFLKELHSIEIDCSVSLFSDALVNKKDKFLQDKKLLISILEKEQLLTDEMLEHIETIYENILNNAVLFKYTPCLVHNDFSANNMIFRNNRLFGVIDFGDFNVGDPDNDFLCLLDCSTDDFGKEFGRKVLKYYQHKAPEVAERKAELNDVYWSIDQIIYGYERKDREMLIKGVSELLQTQAEMFIF 3haz-a1-m1-cB_3haz-a1-m2-cB Crystal structure of bifunctional proline utilization A (PutA) protein Q89E26 Q89E26 2.1 X-RAY DIFFRACTION 58 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 974 974 3haz-a1-m1-cA_3haz-a1-m2-cA 4q71-a1-m1-cA_4q71-a1-m2-cA 4q71-a1-m1-cB_4q71-a1-m2-cB 4q72-a1-m1-cA_4q72-a1-m2-cA 4q72-a1-m1-cB_4q72-a1-m2-cB 4q73-a1-m1-cA_4q73-a1-m2-cA 4q73-a1-m1-cB_4q73-a1-m2-cB 6bsn-a1-m1-cA_6bsn-a1-m2-cA 6bsn-a1-m1-cB_6bsn-a1-m2-cB PNIPPPFTAPYAPDDAEIAARLLPASHLSPPQEARIHRTATRLIEAIRKLGGVEDMLREFALSTKEGLALMVLAEALLRVPDARTADQFIEDKLGEGDFIHHETKSTAFLVNASAWARVIQPGETPDGTIGRLVKRLGAPAVRTATRQAMRLMGNHFVLGETIEQALERGKPRSGQKTRYSFDMLGEGARTAADARRYFDAYASAIETIGKAAGNHALPDRPGISVKLSALHPRFEAISRARVMVELVPQLLDLAQRAKAHDLNFTVDAEEADRLELSLDVIAATLADPSLKGWDGFGLAIQAYQKRASAVIDYVDALARAHDRKLMVRLVKGAYWDTEIKRAQERGLDGYPVFTRKAMTDLNYVACASKLLALRPRIFPQFATHNALTVATVLEMAEGSSGFEFQRLHGMGEALYEQLAKDHADIAYRTYAPVGSHRDLLAYLVRRLLENGANSSFVAQAADYRVPVPALLQRPADAIVRPQAAAHPRIPLPCDLFAPERRNSRGVEFGARTALDQLLTDVKAETIADATPDQAHAAVAAARAGFAGWSRTPAGIRAAALEQAAHLLESRSAHFIALLQREGGKTLDDALSELREAADFCRYYAAQGRKLFGSETAMPGPTGESNALTMRGRGVFVAISPWNFPLAIFLGQVTAALMAGNSVVAKPAEQTPRIAREAVALLHEAGIPKSALYLVTGDGRIGAALTAHPDIAGVVFTGSTEVARSINRALAAKDGPIVPLIAETGGINAMIADATALPEQVADDVVTSAFRSAGQRCSALRLLFVQEDVADRMIEMVAGAARELKIGDPSDVATHVGPVIDVEAKQRLDAHIARMKTEARLHFAGPAPEGCFVAPHIFELTEAGQLTEEVFGPILHVVRYRPENLERVLRAIERTGYGLTLGVHSRIDDSIEAIIDRVQVGNIYVNRNMIGAVVGVQPFGGNGLSGTGPKAGGPHYLARFATEQTVTINTAAAG PNIPPPFTAPYAPDDAEIAARLLPASHLSPPQEARIHRTATRLIEAIRKLGGVEDMLREFALSTKEGLALMVLAEALLRVPDARTADQFIEDKLGEGDFIHHETKSTAFLVNASAWARVIQPGETPDGTIGRLVKRLGAPAVRTATRQAMRLMGNHFVLGETIEQALERGKPRSGQKTRYSFDMLGEGARTAADARRYFDAYASAIETIGKAAGNHALPDRPGISVKLSALHPRFEAISRARVMVELVPQLLDLAQRAKAHDLNFTVDAEEADRLELSLDVIAATLADPSLKGWDGFGLAIQAYQKRASAVIDYVDALARAHDRKLMVRLVKGAYWDTEIKRAQERGLDGYPVFTRKAMTDLNYVACASKLLALRPRIFPQFATHNALTVATVLEMAEGSSGFEFQRLHGMGEALYEQLAKDHADIAYRTYAPVGSHRDLLAYLVRRLLENGANSSFVAQAADYRVPVPALLQRPADAIVRPQAAAHPRIPLPCDLFAPERRNSRGVEFGARTALDQLLTDVKAETIADATPDQAHAAVAAARAGFAGWSRTPAGIRAAALEQAAHLLESRSAHFIALLQREGGKTLDDALSELREAADFCRYYAAQGRKLFGSETAMPGPTGESNALTMRGRGVFVAISPWNFPLAIFLGQVTAALMAGNSVVAKPAEQTPRIAREAVALLHEAGIPKSALYLVTGDGRIGAALTAHPDIAGVVFTGSTEVARSINRALAAKDGPIVPLIAETGGINAMIADATALPEQVADDVVTSAFRSAGQRCSALRLLFVQEDVADRMIEMVAGAARELKIGDPSDVATHVGPVIDVEAKQRLDAHIARMKTEARLHFAGPAPEGCFVAPHIFELTEAGQLTEEVFGPILHVVRYRPENLERVLRAIERTGYGLTLGVHSRIDDSIEAIIDRVQVGNIYVNRNMIGAVVGVQPFGGNGLSGTGPKAGGPHYLARFATEQTVTINTAAAG 3haz-a1-m2-cB_3haz-a1-m2-cA Crystal structure of bifunctional proline utilization A (PutA) protein Q89E26 Q89E26 2.1 X-RAY DIFFRACTION 241 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 974 983 3haz-a1-m1-cB_3haz-a1-m1-cA 4q71-a1-m1-cB_4q71-a1-m1-cA 4q71-a1-m2-cB_4q71-a1-m2-cA 4q72-a1-m1-cB_4q72-a1-m1-cA 4q72-a1-m2-cB_4q72-a1-m2-cA 4q73-a1-m1-cB_4q73-a1-m1-cA 4q73-a1-m2-cB_4q73-a1-m2-cA 6bsn-a1-m1-cA_6bsn-a1-m1-cB 6bsn-a1-m2-cA_6bsn-a1-m2-cB PNIPPPFTAPYAPDDAEIAARLLPASHLSPPQEARIHRTATRLIEAIRKLGGVEDMLREFALSTKEGLALMVLAEALLRVPDARTADQFIEDKLGEGDFIHHETKSTAFLVNASAWARVIQPGETPDGTIGRLVKRLGAPAVRTATRQAMRLMGNHFVLGETIEQALERGKPRSGQKTRYSFDMLGEGARTAADARRYFDAYASAIETIGKAAGNHALPDRPGISVKLSALHPRFEAISRARVMVELVPQLLDLAQRAKAHDLNFTVDAEEADRLELSLDVIAATLADPSLKGWDGFGLAIQAYQKRASAVIDYVDALARAHDRKLMVRLVKGAYWDTEIKRAQERGLDGYPVFTRKAMTDLNYVACASKLLALRPRIFPQFATHNALTVATVLEMAEGSSGFEFQRLHGMGEALYEQLAKDHADIAYRTYAPVGSHRDLLAYLVRRLLENGANSSFVAQAADYRVPVPALLQRPADAIVRPQAAAHPRIPLPCDLFAPERRNSRGVEFGARTALDQLLTDVKAETIADATPDQAHAAVAAARAGFAGWSRTPAGIRAAALEQAAHLLESRSAHFIALLQREGGKTLDDALSELREAADFCRYYAAQGRKLFGSETAMPGPTGESNALTMRGRGVFVAISPWNFPLAIFLGQVTAALMAGNSVVAKPAEQTPRIAREAVALLHEAGIPKSALYLVTGDGRIGAALTAHPDIAGVVFTGSTEVARSINRALAAKDGPIVPLIAETGGINAMIADATALPEQVADDVVTSAFRSAGQRCSALRLLFVQEDVADRMIEMVAGAARELKIGDPSDVATHVGPVIDVEAKQRLDAHIARMKTEARLHFAGPAPEGCFVAPHIFELTEAGQLTEEVFGPILHVVRYRPENLERVLRAIERTGYGLTLGVHSRIDDSIEAIIDRVQVGNIYVNRNMIGAVVGVQPFGGNGLSGTGPKAGGPHYLARFATEQTVTINTAAAG MPNIPPPFTAPYAPDDAEIAARLLPASHLSPPQEARIHRTATRLIEAIRKRRLGGVEDMLREFALSTKEGLALMVLAEALLRVPDARTADQFIEDKLGEGDFIHHETKSTAFLVNASAWAARVIQPGETPDGTIGRLVKRLGAPAVRTATRQAMRLMGNHFVLGETIEQALERGKPRSGQKTRYSFDMLGEGARTAADARRYFDAYASAIETIGKAAGNHALPDRPGISVKLSALHPRFEAISRARVMVELVPQLLDLAQRAKAHDLNFTVDAEEADRLELSLDVIAATLADPSLKGWDGFGLAIQAYQKRASAVIDYVDALARAHDRKLMVRLVKGAYWDTEIKRAQERGLDGYPVFTRKAMTDLNYVACASKLLALRPRIFPQFATHNALTVATVLEMAEGSSGFEFQRLHGMGEALYEQLAKDHADIAYRTYAPVGSHRDLLAYLVRRLLENGANSSFVAQAADYRVPVPALLQRPADAIVRPQAAAHPRIPLPCDLFAPERRNSRGVEFGARTALDQLLTDVKAETGDLKPIADATPDQAHAAVAAARAGFAGWSRTPAGIRAAALEQAAHLLESRSAHFIALLQREGGKTLDDALSELREAADFCRYYAAQGRKLFGSETAMPGPTGESNALTMRGRGVFVAISPWNFPLAIFLGQVTAALMAGNSVVAKPAEQTPRIAREAVALLHEAGIPKSALYLVTGDGRIGAALTAHPDIAGVVFTGSTEVARSINRALAAKDGPIVPLIAETGGINAMIADATALPEQVADDVVTSAFRSAGQRCSALRLLFVQEDVADRMIEMVAGAARELKIGDPSDVATHVGPVIDVEAKQRLDAHIARMKTEARLHFAGPAPEGCFVAPHIFELTEAGQLTEEVFGPILHVVRYRPENLERVLRAIERTGYGLTLGVHSRIDDSIEAIIDRVQVGNIYVNRNMIGAVVGVQPFGGNGLSGTGPKAGGPHYLARFATEQTVTINTAAAG 3hb7-a2-m1-cB_3hb7-a2-m1-cD The Crystal Structure of an Isochorismatase-like Hydrolase from Alkaliphilus metalliredigens to 2.3A A6TWT6 A6TWT6 2.3 X-RAY DIFFRACTION 39 0.983 293826 (Alkaliphilus metalliredigens QYMF) 293826 (Alkaliphilus metalliredigens QYMF) 175 175 3hb7-a1-m1-cC_3hb7-a1-m1-cA 3hb7-a4-m1-cH_3hb7-a4-m1-cG YFQGAKHAILVIDLNDFVGEKAPLRCPGGETIIPDLQKIFEWVRGREGDDIHLVHIQEAHRKPLHAVKGTWGSDFIPELYPQEDEYIVQKRRHSGFAHTDLDLYLKEEGIDTVVLTGVWTNVCVRSTATDALANAYKVITLSDGTASKTEEHEYGLNDLSIFTKVTVDQYIQAWE GAKHAILVIDLNDFVGEKAPLRCPGGETIIPDLQKIFEWVRGREGDDIHLVHIQEAHRKNVRPLHAVKGTWGSDFIPELYPQEDEYIVQKRRHSGFAHTDLDLYLKEEGIDTVVLTGVWTNVCVRSTATDALANAYKVITLSDGTASKTEEHEYGLNDLSIFTKVTVDQYIQAWE 3hb7-a2-m1-cC_3hb7-a2-m1-cD The Crystal Structure of an Isochorismatase-like Hydrolase from Alkaliphilus metalliredigens to 2.3A A6TWT6 A6TWT6 2.3 X-RAY DIFFRACTION 17 0.994 293826 (Alkaliphilus metalliredigens QYMF) 293826 (Alkaliphilus metalliredigens QYMF) 175 175 3hb7-a1-m1-cB_3hb7-a1-m1-cA AKHAILVIDLNDFVGEKAPLRCPGGETIIPDLQKIFEWVRGREGDDIHLVHIQEAHRKNRVRPLHAVKGTWGSDFIPELYPQEDEYIVQKRRHSGFAHTDLDLYLKEEGIDTVVLTGVWTNVCVRSTATDALANAYKVITLSDGTASKTEEHEYGLNDLSIFTKVTVDQYIQAWE GAKHAILVIDLNDFVGEKAPLRCPGGETIIPDLQKIFEWVRGREGDDIHLVHIQEAHRKNVRPLHAVKGTWGSDFIPELYPQEDEYIVQKRRHSGFAHTDLDLYLKEEGIDTVVLTGVWTNVCVRSTATDALANAYKVITLSDGTASKTEEHEYGLNDLSIFTKVTVDQYIQAWE 3hbg-a1-m1-cA_3hbg-a1-m2-cA Structure of recombinant Chicken Liver Sulfite Oxidase mutant C185S P07850 P07850 1.9 X-RAY DIFFRACTION 75 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 353 353 QDPFAGDPPRHPGLRVNSQKPFNAEPPAELLAERFLTPNELFFTRNHLPVPAVEPSSYRLRVDGPGGGTLSLSLAELRSRFPKHEVTATLQSAGNRRSEMSRVRPVKGLPWDIGAISTARWGGARLRDVLLHAGFPEELQGEWHVCFEGLDADPGGAPYGASIPYGRALSPAADVLLAYEMNGTELPRDHGFPVRVVVPGVVGARSVKWLRRVAVSPDEPCVDWDTPAIQELPVQSAVTQPRPGAAVPPGELTVKGYAWSGGGREVVRVDVSLDGGRTWKVARLMGDKAPPGRAWAWALWELTVPVEAGTELEIVCKAVDSSYNVQPDSVAPIWNLRGVLSTAWHRVRVSVQD QDPFAGDPPRHPGLRVNSQKPFNAEPPAELLAERFLTPNELFFTRNHLPVPAVEPSSYRLRVDGPGGGTLSLSLAELRSRFPKHEVTATLQSAGNRRSEMSRVRPVKGLPWDIGAISTARWGGARLRDVLLHAGFPEELQGEWHVCFEGLDADPGGAPYGASIPYGRALSPAADVLLAYEMNGTELPRDHGFPVRVVVPGVVGARSVKWLRRVAVSPDEPCVDWDTPAIQELPVQSAVTQPRPGAAVPPGELTVKGYAWSGGGREVVRVDVSLDGGRTWKVARLMGDKAPPGRAWAWALWELTVPVEAGTELEIVCKAVDSSYNVQPDSVAPIWNLRGVLSTAWHRVRVSVQD 3hbl-a1-m1-cB_3hbl-a1-m1-cA Crystal Structure of S. aureus Pyruvate Carboxylase T908A Mutant A0A0H3JRU9 A0A0H3JRU9 2.71 X-RAY DIFFRACTION 63 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 1074 1131 3bg5-a1-m1-cB_3bg5-a1-m1-cA 3hb9-a1-m1-cB_3hb9-a1-m1-cA 3hb9-a1-m1-cD_3hb9-a1-m1-cC 4hnv-a1-m1-cB_4hnv-a1-m1-cA QIKKLLVANRGEIAIRIFRAAAELDISTVAIYSNEDKSSLHRYKADESYLVGSDLGPAESYLNIERIIDVAKQANVDAIHPGYGFLSENEQFARRCAEEGIKFIGPHLEHLDMFGDKVKARTTAIKADLPVIPIDNPKHIEVQVIGDEHGNIVHLFERDCSVQRRHQKVVEVAPSVGLSPTLRQRICDAAIQLMENIKYVNAGTVEFLVSGDEFFFIEVNPRVQVEHTITEMVTGIDIVKTQILVAAGADLFGEEINMPQQKDITTLGYAIQCRITTEDPLNDFMPDTGTIIAYRSSGGFGVRLDAGDGFQGAEISPYYDSLLVKLSTHAISFKQAEEKMVRSLREMRIRGVKTNIPFLINVMKNKKFTSGDYTTKFIEETPELFDIQPSLDRGTKTLEYIGNVTINGFPNVEKRPKPDYELASIPTVSSSKIASFSGTKQLLDEVGPKGVAEWVKKQDDVLLTDTTFRDAHQSLLATRVRTKDMINIASKTADVFKDGFSLEMWGGATFDVAYNFLKENPWERLERLRKAIPNVLFQMLLRASNAVGYKNYPDNVIHKFVQESAKAGIDVFRIFDSLNWVDQMKVANEAVQEAGKISEGTICYTGDILNPERSNIYTLEYYVKLAKELEREGFHILAIKDMAGLLKPKAAYELIGELKSAVDLPIHLHTHDTSGNGLLTYKQAIDAGVDIIDTAVASMSGLTSQPSANSLYYALNGFPRHLRTDIEGMESLSHYWSTVRTYYSDFESDIKSPNTEIYQHEMPGGQYSNLSQQAKSLGLGERFDEVKDMYRRVNFLFGDIVKVAPSSKVVGDMALYMVQNDLDEQSVITDGYKLDFPESVVSFFKGEIGQPVNGFNKDLQAVILKGQEALTARPGEYLEPVDFEKVRELLEEEQQGPVTEQDIISYVLYPKVYEQYIQTRNQYGNLSLLDTPTFFFGMRNGETVEIEIDKGKRLIIKLETISEPDENGNRTIYYAMNGQARRIYIKDENVHTNANVKPKADKSNPSHIGAQMPGSVTEVKVSVGETVKANQPLLITEAMKMETTIQAPFDGVIKQVTVNNGDTIATGDLLIEIE QIKKLLVANRGEIAIRIFRAAAELDISTVAIYSNEDKSSLHRYKADESYLVGSDLGPAESYLNIERIIDVAKQANVDAIHPGYGFLSENEQFARRCAEEGIKFIGPHLEHLDMFGDKVKARTTAIKADLPVIPGTDGPIKSYELAKEFAEEAGFPLMIKATSRIVREESELEDAFHRAKSEAEEVYIERYIDNPKHIEVQVIGDEHGNIVHLFERDCSVQRRHQKVVEVAPSVGLSPTLRQRICDAAIQLMENIKYVNAGTVEFLVSGDEFFFIEVNPRVQVEHTITEMVTGIDIVKTQILVAAGADLFGEEINMPQQKDITTLGYAIQCRITTEDPLNDFMPDTGTIIAYRSSGGFGVRLDAGDGFQGAEISPYYDSLLVKLSTHAISFKQAEEKMVRSLREMRIRGVKTNIPFLINVMKNKKFTSGDYTTKFIEETPELFDIQPSLDRGTKTLEYIGNVTINGFPNVEKRPKPDYELASIPTVSSSKIASFSGTKQLLDEVGPKGVAEWVKKQDDVLLTDTTFRDAHQSLLATRVRTKDMINIASKTADVFKDGFSLEMWGGATFDVAYNFLKENPWERLERLRKAIPNVLFQMLLRASNAVGYKNYPDNVIHKFVQESAKAGIDVFRIFDSLNWVDQMKVANEAVQEAGKISEGTICYTGDILNPERSNIYTLEYYVKLAKELEREGFHILAIKDMAGLLKPKAAYELIGELKSAVDLPIHLHTHDTSGNGLLTYKQAIDAGVDIIDTAVASMSGLTSQPSANSLYYALNGFPRHLRTDIEGMESLSHYWSTVRTYYSDFESDIKSPNTEIYQHEMPGGQYSNLSQQAKSLGLGERFDEVKDMYRRVNFLFGDIVKVAPSSKVVGDMALYMVQNDLDEQSVITDGYKLDFPESVVSFFKGEIGQPVNGFNKDLQAVILKGQEALTARPGEYLEPVDFEKVRELLEEEQQGPVTEQDIISYVLYPKVYEQYIQTRNQYGNLSLLDTPTFFFGMRNGETVEIEIDKGKRLIIKLETISEPDENGNRTIYYAMNGQARRIYIKDENVHTNANVKPKADKSNPSHIGAQMPGSVTEVKVSVGETVKANQPLLITEAMKMETTIQAPFDGVIKQVTVNNGDTIATGDLLIEIE 3hbx-a1-m1-cA_3hbx-a1-m1-cF Crystal structure of GAD1 from Arabidopsis thaliana Q42521 Q42521 2.672 X-RAY DIFFRACTION 105 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 436 436 3hbx-a1-m1-cB_3hbx-a1-m1-cC 3hbx-a1-m1-cD_3hbx-a1-m1-cE VSVHSTFASRYVRTSLPRFKMPENSIPKEAAYQIINDELMLDGNPRLNLASFVTTWMEPECDKLIMSSINKNYVDMDEYPVTTELQNRCVNMIAHLFNAPLEEAETAVGVGTVGSSEAIMLAGLAFKRKWQNKRKAEGKPVDKPNIVTGANVQVCWEKFARYFEVELKEVKLSEGYYVMDPQQAVDMVDENTICVAAILGSTLNGEFEDVKLLNDLLVEKNKETGWDTPIHVDAASGGFIAPFLYPELEWDFRLPLVKSINVSGHYGLVYAGIGWVIWRNKEDLPEELIFHINYLGADQPTFTLNFSKGSSQVIAQYYQLIRLGHEGYRNVMENCRENMIVLREGLEKTERFNIVSKDEGVPLVAFSLKDSSCHTEFEISDMLRRYGWIVPAYTMPPNAQHITVLRVVIREDFSRTLAERLVIDIEKVMRELDELP VSVHSTFASRYVRTSLPRFKMPENSIPKEAAYQIINDELMLDGNPRLNLASFVTTWMEPECDKLIMSSINKNYVDMDEYPVTTELQNRCVNMIAHLFNAPLEEAETAVGVGTVGSSEAIMLAGLAFKRKWQNKRKAEGKPVDKPNIVTGANVQVCWEKFARYFEVELKEVKLSEGYYVMDPQQAVDMVDENTICVAAILGSTLNGEFEDVKLLNDLLVEKNKETGWDTPIHVDAASGGFIAPFLYPELEWDFRLPLVKSINVSGHYGLVYAGIGWVIWRNKEDLPEELIFHINYLGADQPTFTLNFSKGSSQVIAQYYQLIRLGHEGYRNVMENCRENMIVLREGLEKTERFNIVSKDEGVPLVAFSLKDSSCHTEFEISDMLRRYGWIVPAYTMPPNAQHITVLRVVIREDFSRTLAERLVIDIEKVMRELDELP 3hbx-a1-m1-cD_3hbx-a1-m1-cF Crystal structure of GAD1 from Arabidopsis thaliana Q42521 Q42521 2.672 X-RAY DIFFRACTION 12 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 435 436 3hbx-a1-m1-cA_3hbx-a1-m1-cC 3hbx-a1-m1-cB_3hbx-a1-m1-cF 3hbx-a1-m1-cD_3hbx-a1-m1-cB 3hbx-a1-m1-cE_3hbx-a1-m1-cA 3hbx-a1-m1-cE_3hbx-a1-m1-cC VSVHSTFASRYVRTSLPRFKMPENSIPKEAAYQIINDELMLDGNPRLNLASFVTTWMEPECDKLIMSSINKNYVDMDEYPVTTELQNRCVNMIAHLFNAPLEEAETAVGVGTVGSSEAIMLAGLAFKRKWQNKRKAEGKPVDKPNIVTGANVQVCWEKFARYFEVELKEVKLSEGYYVMDPQQAVDMVDENTICVAAILGSTLNGEFEDVKLLNDLLVEKNKETGWDTPIHVDAASGGFIAPFLYPELEWDFRLPLVKSINVSGHYGLVYAGIGWVIWRNKEDLPEELIFHINYLGADQPTFTLNFSKGSSQVIAQYYQLIRLGHEGYRNVMENCRENMIVLREGLEKTERFNIVSKDEGVPLVAFSLKDSSCHTEFEISDMLRRYGWIVPAYTMPPNAQHITVLRVVIREDFSRTLAERLVIDIEKVMRELDEL VSVHSTFASRYVRTSLPRFKMPENSIPKEAAYQIINDELMLDGNPRLNLASFVTTWMEPECDKLIMSSINKNYVDMDEYPVTTELQNRCVNMIAHLFNAPLEEAETAVGVGTVGSSEAIMLAGLAFKRKWQNKRKAEGKPVDKPNIVTGANVQVCWEKFARYFEVELKEVKLSEGYYVMDPQQAVDMVDENTICVAAILGSTLNGEFEDVKLLNDLLVEKNKETGWDTPIHVDAASGGFIAPFLYPELEWDFRLPLVKSINVSGHYGLVYAGIGWVIWRNKEDLPEELIFHINYLGADQPTFTLNFSKGSSQVIAQYYQLIRLGHEGYRNVMENCRENMIVLREGLEKTERFNIVSKDEGVPLVAFSLKDSSCHTEFEISDMLRRYGWIVPAYTMPPNAQHITVLRVVIREDFSRTLAERLVIDIEKVMRELDELP 3hbx-a1-m1-cE_3hbx-a1-m1-cF Crystal structure of GAD1 from Arabidopsis thaliana Q42521 Q42521 2.672 X-RAY DIFFRACTION 344 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 435 436 3hbx-a1-m1-cA_3hbx-a1-m1-cB 3hbx-a1-m1-cD_3hbx-a1-m1-cC VSVHSTFASRYVRTSLPRFKMPENSIPKEAAYQIINDELMLDGNPRLNLASFVTTWMEPECDKLIMSSINKNYVDMDEYPVTTELQNRCVNMIAHLFNAPLEEAETAVGVGTVGSSEAIMLAGLAFKRKWQNKRKAEGKPVDKPNIVTGANVQVCWEKFARYFEVELKEVKLSEGYYVMDPQQAVDMVDENTICVAAILGSTLNGEFEDVKLLNDLLVEKNKETGWDTPIHVDAASGGFIAPFLYPELEWDFRLPLVKSINVSGHYGLVYAGIGWVIWRNKEDLPEELIFHINYLGADQPTFTLNFSKGSSQVIAQYYQLIRLGHEGYRNVMENCRENMIVLREGLEKTERFNIVSKDEGVPLVAFSLKDSSCHTEFEISDMLRRYGWIVPAYTMPPNAQHITVLRVVIREDFSRTLAERLVIDIEKVMRELDEL VSVHSTFASRYVRTSLPRFKMPENSIPKEAAYQIINDELMLDGNPRLNLASFVTTWMEPECDKLIMSSINKNYVDMDEYPVTTELQNRCVNMIAHLFNAPLEEAETAVGVGTVGSSEAIMLAGLAFKRKWQNKRKAEGKPVDKPNIVTGANVQVCWEKFARYFEVELKEVKLSEGYYVMDPQQAVDMVDENTICVAAILGSTLNGEFEDVKLLNDLLVEKNKETGWDTPIHVDAASGGFIAPFLYPELEWDFRLPLVKSINVSGHYGLVYAGIGWVIWRNKEDLPEELIFHINYLGADQPTFTLNFSKGSSQVIAQYYQLIRLGHEGYRNVMENCRENMIVLREGLEKTERFNIVSKDEGVPLVAFSLKDSSCHTEFEISDMLRRYGWIVPAYTMPPNAQHITVLRVVIREDFSRTLAERLVIDIEKVMRELDELP 3hcg-a1-m1-cB_3hcg-a1-m1-cD Structure of the C-terminal domain (MsrB) of Neisseria meningitidis PilB (reduced form) Q9JWM8 Q9JWM8 1.82 X-RAY DIFFRACTION 34 1.0 65699 (Neisseria meningitidis serogroup A) 65699 (Neisseria meningitidis serogroup A) 142 142 1l1d-a3-m1-cB_1l1d-a3-m2-cB 3hcg-a1-m1-cC_3hcg-a1-m1-cA YKKPSDAELKRTLTEEQYQVTQNSATEYAFSHEYDHLFKPGIYVDVVSGEPLFSSADKYDSGCGWPSFTRPIDAKSVTEHDDFSYNRRTEVRSHAADSHLGHVFPDGPRDKGGLRYCINGASLKFIPLEQDAAGYGALKSKV YKKPSDAELKRTLTEEQYQVTQNSATEYAFSHEYDHLFKPGIYVDVVSGEPLFSSADKYDSGCGWPSFTRPIDAKSVTEHDDFSYNRRTEVRSHAADSHLGHVFPDGPRDKGGLRYCINGASLKFIPLEQDAAGYGALKSKV 3hcg-a1-m1-cC_3hcg-a1-m1-cD Structure of the C-terminal domain (MsrB) of Neisseria meningitidis PilB (reduced form) Q9JWM8 Q9JWM8 1.82 X-RAY DIFFRACTION 42 1.0 65699 (Neisseria meningitidis serogroup A) 65699 (Neisseria meningitidis serogroup A) 142 142 3hcg-a1-m1-cB_3hcg-a1-m1-cA YKKPSDAELKRTLTEEQYQVTQNSATEYAFSHEYDHLFKPGIYVDVVSGEPLFSSADKYDSGCGWPSFTRPIDAKSVTEHDDFSYNRRTEVRSHAADSHLGHVFPDGPRDKGGLRYCINGASLKFIPLEQDAAGYGALKSKV YKKPSDAELKRTLTEEQYQVTQNSATEYAFSHEYDHLFKPGIYVDVVSGEPLFSSADKYDSGCGWPSFTRPIDAKSVTEHDDFSYNRRTEVRSHAADSHLGHVFPDGPRDKGGLRYCINGASLKFIPLEQDAAGYGALKSKV 3hcs-a1-m1-cA_3hcs-a1-m1-cB Crystal structure of the N-terminal domain of TRAF6 Q9Y4K3 Q9Y4K3 2.2 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 8hz2-a1-m1-cA_8hz2-a1-m1-cB QGYDVEFDPPLESKYECPICLMALREAVQTPCGHRFCKACIIKSIRDAGHKCPVDNEILLENQLFPDNFAKREILSLMVKCPNEGCLHKMELRHLEDHQAHCEFALMDCPQCQRPFQKFHINIHILKDCPRRQVSCDNCAASMAFEDKEIHDQNCPL QGYDVEFDPPLESKYECPICLMALREAVQTPCGHRFCKACIIKSIRDAGHKCPVDNEILLENQLFPDNFAKREILSLMVKCPNEGCLHKMELRHLEDHQAHCEFALMDCPQCQRPFQKFHINIHILKDCPRRQVSCDNCAASMAFEDKEIHDQNCPL 3hcw-a1-m1-cB_3hcw-a1-m1-cA CRYSTAL STRUCTURE OF PROBABLE maltose operon transcriptional repressor malR FROM STAPHYLOCOCCUS AREUS A0A0H3JSG1 A0A0H3JSG1 2.2 X-RAY DIFFRACTION 66 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 282 283 TNQTYKIGLVLKGSEEPIRLNPFYINVLLGISETCNQHGYGTQTTVSNNMNDLMDEVYKMIKQRMVDAFILLYSKENDPIKQMLIDESMPFIVIGKPTSDIDHQFTHIDNDNILASENLTRHVIEQGVDELIFITEKGNFEVSKDRIQGFETVASQFNLDYQIIETSNEREVILNYMQNLHTRLKDPNIKQAIISLDAMLHLAILSVLYELNIEIPKDVMTATFNDSYLTEIASPPQTCIDIKPRMLGQQAGSAILNILKNDVIELVIIDTELKIRKSTQRE TNQTYKIGLVLKGSEEPIRLNPFYINVLLGISETCNQHGYGTQTTVSNNMNDLMDEVYKMIKQRMVDAFILLYSKENDPIKQMLIDESMPFIVIGKPTSDIDHQFTHIDNDNILASENLTRHVIEQGVDELIFITEKGNFEVSKDRIQGFETVASQFNLDYQIIETSNEREVILNYMQNLHTRLKDPNIKQAIISLDAMLHLAILSVLYELNIEIPKDVMTATFNDSYLTEIASPPQTCIDIKPRMLGQQAGSAILNILKNDVIELVIIDTELKIRKSTQREG 3hcy-a1-m1-cB_3hcy-a1-m1-cA The crystal structure of the domain of putative two-component sensor histidine kinase protein from Sinorhizobium meliloti 1021 Q92UP1 Q92UP1 2.8 X-RAY DIFFRACTION 88 0.993 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 144 145 SNAIEEVYEATLDAIQGALNCDRASILLFDEAGTMRFVAARGLSEHYQRAVDGHSPWEPEPIFVENVDDAEFSRELKESIVGEGIAALGFFPLVTEGRLIGKFMTYYDRPHRFADSEIGMALTIARQLGFSIQRMRAEYARRQA SNAIEEVYEATLDAIQGALNCDRASILLFDEAGTMRFVAARGLSEHYQRAVDGHSPWINEPEPIFVENVDDAEFSRELKESIVGEGIAALGFFPLVTEGRLIGKFMTYYDRPHRFADSEIGMALTIARQLGFSIQRMRAEYARRQ 3hcz-a2-m1-cA_3hcz-a2-m2-cA The crystal structure of a domain of possible thiol-disulfide isomerase from Cytophaga hutchinsonii ATCC 33406. 1.88 X-RAY DIFFRACTION 18 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 146 146 NAPLLLGKKAPNLYTDTTGTYRYLYDVQAKYTILFFWDSQCGHCQQETPKLYDWWLKNRAKGIQVYAANIERKDEEWLKFIRSKKIGGWLNVRDSKNHTDFKITYDIYATPVLYVLDKNKVIIAKRIGYENLDDFLVQYEKSLKTK NAPLLLGKKAPNLYTDTTGTYRYLYDVQAKYTILFFWDSQCGHCQQETPKLYDWWLKNRAKGIQVYAANIERKDEEWLKFIRSKKIGGWLNVRDSKNHTDFKITYDIYATPVLYVLDKNKVIIAKRIGYENLDDFLVQYEKSLKTK 3hd5-a1-m1-cB_3hd5-a1-m1-cA Crystal structure of a thiol:disulfide interchange protein dsbA from Bordetella parapertussis Q7W2Q0 Q7W2Q0 2.35 X-RAY DIFFRACTION 97 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 174 177 QQYVNINPPPSDTPGKIEVLEFFAYTCPHCAAIEPVEDWAKTAPQDVVLKQVPIAFNAGKPLQQLYYTLQALERPDLHPKVFTAIHTERKRLFDKKAGEWAASQGVDRAKFDSVFDSFSVQTQVQRASQLAEAAHIDGTPAFAVGGRYTSPVLAGNDYAGALKVVDQLIVQSRE QGAQQYVNINPPPSDTPGKIEVLEFFAYTCPHCAAIEPVEDWAKTAPQDVVLKQVPIAFNAGKPLQQLYYTLQALERPDLHPKVFTAIHTERKRLFDKKAGEWAASQGVDRAKFDSVFDSFSVQTQVQRASQLAEAAHIDGTPAFAVGGRYTSPVLAGNDYAGALKVVDQLIVQSRE 3hd5-a1-m1-cB_3hd5-a1-m1-cC Crystal structure of a thiol:disulfide interchange protein dsbA from Bordetella parapertussis Q7W2Q0 Q7W2Q0 2.35 X-RAY DIFFRACTION 71 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 174 176 QQYVNINPPPSDTPGKIEVLEFFAYTCPHCAAIEPVEDWAKTAPQDVVLKQVPIAFNAGKPLQQLYYTLQALERPDLHPKVFTAIHTERKRLFDKKAGEWAASQGVDRAKFDSVFDSFSVQTQVQRASQLAEAAHIDGTPAFAVGGRYTSPVLAGNDYAGALKVVDQLIVQSRE GAQQYVNINPPPSDTPGKIEVLEFFAYTCPHCAAIEPVEDWAKTAPQDVVLKQVPIAFNAGKPLQQLYYTLQALERPDLHPKVFTAIHTERKRLFDKKAGEWAASQGVDRAKFDSVFDSFSVQTQVQRASQLAEAAHIDGTPAFAVGGRYTSPVLAGNDYAGALKVVDQLIVQSRE 3hd5-a1-m1-cC_3hd5-a1-m1-cA Crystal structure of a thiol:disulfide interchange protein dsbA from Bordetella parapertussis Q7W2Q0 Q7W2Q0 2.35 X-RAY DIFFRACTION 67 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 176 177 GAQQYVNINPPPSDTPGKIEVLEFFAYTCPHCAAIEPVEDWAKTAPQDVVLKQVPIAFNAGKPLQQLYYTLQALERPDLHPKVFTAIHTERKRLFDKKAGEWAASQGVDRAKFDSVFDSFSVQTQVQRASQLAEAAHIDGTPAFAVGGRYTSPVLAGNDYAGALKVVDQLIVQSRE QGAQQYVNINPPPSDTPGKIEVLEFFAYTCPHCAAIEPVEDWAKTAPQDVVLKQVPIAFNAGKPLQQLYYTLQALERPDLHPKVFTAIHTERKRLFDKKAGEWAASQGVDRAKFDSVFDSFSVQTQVQRASQLAEAAHIDGTPAFAVGGRYTSPVLAGNDYAGALKVVDQLIVQSRE 3hd6-a1-m2-cA_3hd6-a1-m3-cA Crystal Structure of the Human Rhesus Glycoprotein RhCG Q9UBD6 Q9UBD6 2.1 X-RAY DIFFRACTION 165 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 403 403 3hd6-a1-m1-cA_3hd6-a1-m2-cA 3hd6-a1-m1-cA_3hd6-a1-m3-cA SAWNTNLRWRLPLTCLLLQVIMVILFGVFVRYDFENEFYYRYPSFQDVHVMVFVGFGFLMTFLQRYGFSAVGFNFLLAAFGIQWALLMQGWFHFLQDRYIVVGVENLINADFCVASVCVAFGAVLGKVSPIQLLIMTFFQVTLFAVNEFILLNLLKVKDAGGSMTIHTFGAYFGLTVTRILYRRNLEQSKERQNSVYQSDLFAMIGTLFLWMYWPSFNSAISYHGDSQHRAAINTYCSLAACVLTSVAISSALHKKGKLDMVHIQNATLAGGVAVGTAAEMMLMPYGALIIGFVCGIISTLGFVYLTPFLESRLHIQDTCGINNLHGIPGIIGGIVGAVTAASDWTARTQGKFQIYGLLVTLAMALMGGIIVGLILRLPFWGQPSDENCFEDAVYWEMPEGNS SAWNTNLRWRLPLTCLLLQVIMVILFGVFVRYDFENEFYYRYPSFQDVHVMVFVGFGFLMTFLQRYGFSAVGFNFLLAAFGIQWALLMQGWFHFLQDRYIVVGVENLINADFCVASVCVAFGAVLGKVSPIQLLIMTFFQVTLFAVNEFILLNLLKVKDAGGSMTIHTFGAYFGLTVTRILYRRNLEQSKERQNSVYQSDLFAMIGTLFLWMYWPSFNSAISYHGDSQHRAAINTYCSLAACVLTSVAISSALHKKGKLDMVHIQNATLAGGVAVGTAAEMMLMPYGALIIGFVCGIISTLGFVYLTPFLESRLHIQDTCGINNLHGIPGIIGGIVGAVTAASDWTARTQGKFQIYGLLVTLAMALMGGIIVGLILRLPFWGQPSDENCFEDAVYWEMPEGNS 3hdb-a2-m1-cA_3hdb-a2-m2-cA Crystal structure of AaHIV, A metalloproteinase from venom of Agkistrodon Acutus 2.31 X-RAY DIFFRACTION 67 1.0 36307 (Deinagkistrodon acutus) 36307 (Deinagkistrodon acutus) 417 417 YDPFKYVETVFVVDKAMVTKYNGDLDKIKTKMYEAANNMNEMYRYMFFRVVMVGLIIWTEEDKITVKPDVDYTLNAFAEWRKTYLLAEKKHDNAQLITGIDFRGSIIGYAYIGSMCHPKRSVGIIQDYSPINLVLAVIMAHEMGHNLGIHHDDGYCYCGGYPCIMGPSISPEPSKFFSNCSYIQCWDFIMNHNPECIDNEPLGTDIISPPLCGNELLEVGEECDCGTPENCQNPCCDAATCKLKSGSQCGHGKCCEQCKFRTSGTECRASMSECDPAEHCTGQSSECPADVFHKNGEPCLDNYGYCYNGNCPIMYHQCYALFGADIYEAEDSCFESNKKGNYYGYCRKENGKKIPCASEDVKCGRLYCKDDSPGQNNPCKMFYSNDDEHKGMVLPGTKCADGKVCSNGHCVDVTTAY YDPFKYVETVFVVDKAMVTKYNGDLDKIKTKMYEAANNMNEMYRYMFFRVVMVGLIIWTEEDKITVKPDVDYTLNAFAEWRKTYLLAEKKHDNAQLITGIDFRGSIIGYAYIGSMCHPKRSVGIIQDYSPINLVLAVIMAHEMGHNLGIHHDDGYCYCGGYPCIMGPSISPEPSKFFSNCSYIQCWDFIMNHNPECIDNEPLGTDIISPPLCGNELLEVGEECDCGTPENCQNPCCDAATCKLKSGSQCGHGKCCEQCKFRTSGTECRASMSECDPAEHCTGQSSECPADVFHKNGEPCLDNYGYCYNGNCPIMYHQCYALFGADIYEAEDSCFESNKKGNYYGYCRKENGKKIPCASEDVKCGRLYCKDDSPGQNNPCKMFYSNDDEHKGMVLPGTKCADGKVCSNGHCVDVTTAY 3hdc-a1-m1-cA_3hdc-a1-m2-cA The crystal structure of thioredoxin protein from Geobacter metallireducens Q39VV7 Q39VV7 1.771 X-RAY DIFFRACTION 93 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 148 148 SLAPGKAESDAPLVRTGALAPNFKLPTLSGENKSLAQYRGKIVLVNFWASWCPYCRDEPSDRLVKSFPKGDLVVLAVNVEKRFPEKYRRAPVSFNFLSDATGQVQQRYGANRLPDTFIVDRKGIIRQRVTGGIEWDAPKVVSYLKSLE SLAPGKAESDAPLVRTGALAPNFKLPTLSGENKSLAQYRGKIVLVNFWASWCPYCRDEPSDRLVKSFPKGDLVVLAVNVEKRFPEKYRRAPVSFNFLSDATGQVQQRYGANRLPDTFIVDRKGIIRQRVTGGIEWDAPKVVSYLKSLE 3hde-a2-m1-cD_3hde-a2-m1-cC Crystal structure of full-length endolysin R21 from phage 21 P27359 P27359 1.95 X-RAY DIFFRACTION 55 1.0 10711 (Enterobacteria phage P21) 10711 (Enterobacteria phage P21) 157 164 3hde-a1-m1-cA_3hde-a1-m1-cB MPPSLRKAVAAAIGGGAIAIASVLITGPSGNDGLEGVSYIPYKDIVGVWTVCHGHTGKDIMLGKTYTKAECKALLNKDLATVARQINPYIKVDIPETMRGALYSFVYNVGAGNFRTSTLLRKINQGDIKGACDQLRRWTYALMTRREIEREICLWGQ MPPSLRKAVAAAIGGGAIAIASVLITGPSGNDGLEGVSYIPYKDIVGVWTVCHGHTGKDIMLGKTYTKAECKALLNKDLATVARQINPYIKVDIPETMRGALYSFVYNVGAGNFRTSTLLRKINQGDIKGACDQLRRWTYAGGKQWKGLMTRREIEREICLWGQ 3hdg-a2-m1-cD_3hdg-a2-m1-cE Crystal structure of the N-terminal domain of an uncharacterized protein (WS1339) from Wolinella succinogenes Q7MRH8 Q7MRH8 2.27 X-RAY DIFFRACTION 25 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 120 120 3hdg-a1-m1-cB_3hdg-a1-m1-cA ALKILIVEDDTDAREWLSTIISNHFPEVWSAGDGEEGERLFGLHAPDVIITDIRPKLGGLELDRIKAGGAKPYVIVISAFSEKYFIKAIELGVHLFLPKPIEPGRLETLEDFRHIKLAKE ALKILIVEDDTDAREWLSTIISNHFPEVWSAGDGEEGERLFGLHAPDVIITDIRPKLGGLELDRIKAGGAKPYVIVISAFSEKYFIKAIELGVHLFLPKPIEPGRLETLEDFRHIKLAKE 3hdg-a4-m1-cB_3hdg-a4-m2-cE Crystal structure of the N-terminal domain of an uncharacterized protein (WS1339) from Wolinella succinogenes Q7MRH8 Q7MRH8 2.27 X-RAY DIFFRACTION 33 0.992 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 119 120 3hdg-a3-m1-cA_3hdg-a3-m1-cD VALKILIVEDDTDAREWLSTIISNHFPEVWSAGDGEEGERLFGLHAPDVIITDIRPKLGGLELDRIKAGGAKPYVIVISSEKYFIKAIELGVHLFLPKPIEPGRLETLEDFRHIKLAKE ALKILIVEDDTDAREWLSTIISNHFPEVWSAGDGEEGERLFGLHAPDVIITDIRPKLGGLELDRIKAGGAKPYVIVISAFSEKYFIKAIELGVHLFLPKPIEPGRLETLEDFRHIKLAKE 3hdh-a2-m1-cC_3hdh-a2-m2-cC PIG HEART SHORT CHAIN L-3-HYDROXYACYL COA DEHYDROGENASE REVISITED: SEQUENCE ANALYSIS AND CRYSTAL STRUCTURE DETERMINATION P00348 P00348 2.8 X-RAY DIFFRACTION 126 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 265 265 KILVKHVTVIGGGLMGAGIAQVAAATGHTVVLVDQTEDILAKSKKGIEESLRKVAKKKFAENPKAGDEFVEKTLSSISTSTDAASVVHSTDLVVEAIVENLKVKSELFKRLDKFAAEHTIFASNTSSLQITSLANATTRQDRFAGLHFFNPVPLMKLVEVVKTPMTSQKTLESLVDFSKTLGKHPVSCKDTPGFIVNRLLVPYLIEAVRLYEKEDIDTAMKLGAGPFELLDYVGLDTTKFIIDGWHESPAMNKLVAENKFGKKTG KILVKHVTVIGGGLMGAGIAQVAAATGHTVVLVDQTEDILAKSKKGIEESLRKVAKKKFAENPKAGDEFVEKTLSSISTSTDAASVVHSTDLVVEAIVENLKVKSELFKRLDKFAAEHTIFASNTSSLQITSLANATTRQDRFAGLHFFNPVPLMKLVEVVKTPMTSQKTLESLVDFSKTLGKHPVSCKDTPGFIVNRLLVPYLIEAVRLYEKEDIDTAMKLGAGPFELLDYVGLDTTKFIIDGWHESPAMNKLVAENKFGKKTG 3hdi-a1-m1-cA_3hdi-a1-m1-cB Crystal structure of Bacillus halodurans metallo peptidase Q9KA85 Q9KA85 2.7 X-RAY DIFFRACTION 197 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 414 414 INTMTLDNGVRIITEKMSTVRSVSIGIWVGTGSRYESAEENGISHFLEHMFFKGTNTRSAQEIAEFFDSIGGQVNAFTSKEYTCYYAKVLDDHAGQAIDTLSDMFFHSTFQKEELEKERKVVFEEIKMVDDTPDDIVHDLLSSATYGKHSLGYPILGTVETLNSFNEGMLRHYMDRFYTGDYVVISVAGNVHDELIDKIKETFSQVKPTTYNYQGEKPMFLPNRIVRKKETEQAHLCLGYPGLPIGDKDVYALVLLNNVLGGSMSSRLFQDIREKRGLCYSVFSYHSSFRDSGMLTIYAGTGHDQLDDLVYSIQETTSALAEKGLTEKELENGKEQLKGSLMLSLESTNSRMSRNGKNELLLKKHRSLDEMIEQINAVQKQDVSRLAKILLSASPSISLINANGELPKALIHLE INTMTLDNGVRIITEKMSTVRSVSIGIWVGTGSRYESAEENGISHFLEHMFFKGTNTRSAQEIAEFFDSIGGQVNAFTSKEYTCYYAKVLDDHAGQAIDTLSDMFFHSTFQKEELEKERKVVFEEIKMVDDTPDDIVHDLLSSATYGKHSLGYPILGTVETLNSFNEGMLRHYMDRFYTGDYVVISVAGNVHDELIDKIKETFSQVKPTTYNYQGEKPMFLPNRIVRKKETEQAHLCLGYPGLPIGDKDVYALVLLNNVLGGSMSSRLFQDIREKRGLCYSVFSYHSSFRDSGMLTIYAGTGHDQLDDLVYSIQETTSALAEKGLTEKELENGKEQLKGSLMLSLESTNSRMSRNGKNELLLKKHRSLDEMIEQINAVQKQDVSRLAKILLSASPSISLINANGELPKALIHLE 3hdj-a1-m1-cA_3hdj-a1-m1-cB The crystal structure of probable ornithine cyclodeaminase from Bordetella pertussis Tohama I Q7VSP8 Q7VSP8 1.7 X-RAY DIFFRACTION 126 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 307 307 ALHIDDAIEDAVTPQAAQEVLHAAFLDFGRGSAAQRRVRTEAGGVKLSTLGAVIPGQGVAGAKVYTTIKGQFQFVILLFSAADGRPLATCDAGTLTRKRTAACTVLAAGALARPRSSVLGLFGAGTQGAEHAAQLSARFALEAILVHDPYASPEILERIGRRCGVPARAAPADIAAQADIVVTATRSTTPLFAGQALRAGAFVGAIGSSLPHTRELDDEALRRARAVVVEWREQTLSEAGDLVLAAPDTGLDAKVVELADVLAGRAAARQADEDIVIYKSVGVGLEDVALAGYAYRRLAAQRGWPAP ALHIDDAIEDAVTPQAAQEVLHAAFLDFGRGSAAQRRVRTEAGGVKLSTLGAVIPGQGVAGAKVYTTIKGQFQFVILLFSAADGRPLATCDAGTLTRKRTAACTVLAAGALARPRSSVLGLFGAGTQGAEHAAQLSARFALEAILVHDPYASPEILERIGRRCGVPARAAPADIAAQADIVVTATRSTTPLFAGQALRAGAFVGAIGSSLPHTRELDDEALRRARAVVVEWREQTLSEAGDLVLAAPDTGLDAKVVELADVLAGRAAARQADEDIVIYKSVGVGLEDVALAGYAYRRLAAQRGWPAP 3hdo-a1-m1-cB_3hdo-a1-m1-cA Crystal Structure of a Histidinol-phosphate aminotransferase from Geobacter metallireducens Q39YP6 Q39YP6 1.61 X-RAY DIFFRACTION 195 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 343 344 IPLRQNIASKGYIPGYQPPDIASWIKLNTNENPYPPSPEVVKAILEELGPDGAALRIYPSASSQKLREVAGELYGFDPSWIIANGSDEVLNNLIRAFAAEGEEIGYVHPSYSYYGTLAEVQGARVRTFGLTGDFRIAGFPERYEGKVFFLTTPNAPLGPSFPLEYIDELARRCAGLVLDETYAEFAESNALELVRRHENVVVTRTLSKSYSLAGRIGLAIARPEVIAALDKIRDHYNLDRLAQAACVAALRDQAYLSECCRRIRETREWFTTELRSIGYDVIPSQGNYLFATPPDRDGKRVYDGLYARKVLVRHFSDPLLAHGRISIGTREEEQTLAALKEIG IPLRQNIASKGYIPGYQPPDIASWIKLNTNENPYPPSPEVVKAILEELGPDGAALRIYPSASSQKLREVAGELYGFDPSWIIANGSDEVLNNLIRAFAAEGEEIGYVHPSYSYYGTLAEVQGARVRTFGLTGDFRIAGFPERYEGKVFFLTTPNAPLGPSFPLEYIDELARRCAGLVLDETYAEFAESNALELVRRHENVVVTRTLSKSYSLAGRIGLAIARPEVIAALDKIRDHYNLDRLAQAACVAALRDQAYLSECCRRIRETREWFTTELRSIGYDVIPSQGNYLFATPPDRDGKRVYDGLYARKVLVRHFSDPLLAHGRISIGTREEEQTLAALKEIGE 3hdp-a2-m1-cA_3hdp-a2-m2-cA Crystal structure of the NI(II)-bound Glyoxalase-I from Clostridium acetobutylicum Q97H22 Q97H22 2.06 X-RAY DIFFRACTION 98 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 132 132 2qh0-a1-m1-cA_2qh0-a1-m2-cA SHMSLKVHHIGYAVKNIDSALKKFKRLGYVEESEVVRDEVRKVYIQFVINGGYRVELVAPDGEDSPINKTIKKGSTPYHICYEVEDIQKSIEEMSQIGYTLFKKAEIAPAIDNRKVAFLFSTDIGLIELLEK SHMSLKVHHIGYAVKNIDSALKKFKRLGYVEESEVVRDEVRKVYIQFVINGGYRVELVAPDGEDSPINKTIKKGSTPYHICYEVEDIQKSIEEMSQIGYTLFKKAEIAPAIDNRKVAFLFSTDIGLIELLEK 3hdq-a6-m1-cD_3hdq-a6-m1-cJ Crystal structure of UDP-galactopyranose mutase (oxidized form) in complex with substrate Q9RYF1 Q9RYF1 2.36 X-RAY DIFFRACTION 60 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 360 361 3hdq-a1-m1-cI_3hdq-a1-m1-cA 3hdq-a2-m1-cB_3hdq-a2-m1-cH 3hdq-a3-m1-cC_3hdq-a3-m1-cF 3hdq-a4-m1-cD_3hdq-a4-m1-cJ 3hdq-a5-m1-cG_3hdq-a5-m1-cE 3hdq-a6-m1-cB_3hdq-a6-m1-cH 3hdq-a6-m1-cC_3hdq-a6-m1-cF 3hdq-a6-m1-cG_3hdq-a6-m1-cE 3hdq-a6-m1-cI_3hdq-a6-m1-cA 3hdy-a1-m1-cI_3hdy-a1-m1-cA 3hdy-a2-m1-cB_3hdy-a2-m1-cH 3hdy-a3-m1-cC_3hdy-a3-m1-cF 3hdy-a4-m1-cJ_3hdy-a4-m1-cD 3hdy-a5-m1-cG_3hdy-a5-m1-cE 3hdy-a6-m1-cB_3hdy-a6-m1-cH 3hdy-a6-m1-cC_3hdy-a6-m1-cF 3hdy-a6-m1-cG_3hdy-a6-m1-cE 3hdy-a6-m1-cI_3hdy-a6-m1-cA 3hdy-a6-m1-cJ_3hdy-a6-m1-cD 3he3-a1-m1-cG_3he3-a1-m1-cE 3he3-a2-m1-cI_3he3-a2-m1-cA 3he3-a3-m1-cH_3he3-a3-m1-cB 3he3-a4-m1-cC_3he3-a4-m1-cF 3he3-a5-m1-cJ_3he3-a5-m1-cD 3he3-a6-m1-cC_3he3-a6-m1-cF 3he3-a6-m1-cG_3he3-a6-m1-cE 3he3-a6-m1-cH_3he3-a6-m1-cB 3he3-a6-m1-cI_3he3-a6-m1-cA 3he3-a6-m1-cJ_3he3-a6-m1-cD 3mj4-a1-m1-cI_3mj4-a1-m1-cA 3mj4-a2-m1-cB_3mj4-a2-m1-cH 3mj4-a3-m1-cC_3mj4-a3-m1-cF 3mj4-a4-m1-cD_3mj4-a4-m1-cJ 3mj4-a5-m1-cE_3mj4-a5-m1-cG GFDYLIVGAGFAGSVLAERLASSGQRVLIVDRRPHIGGNAYDCYDDAGVLIHPYGPHIFHTNSKDVFEYLSRFTEWRPYQHRVLASVDGQLLPIPINLDTVNRLYGLNLTSFQVEEFFASVAEKVEQVRTSEDVVVSKVGRDLYNKFFRGYTRKQWGLDPSELDASVTARVPTRTNRDNRYFADTYQAMPLHGYTRMFQNMLSSPNIKVMLNTDYREIADFIPFQHMIYTGPVDAFFDFCYGKLPYRSLEFRHETHDTEQLLPTGTVNYPNDYAYTRVSEFKHITGQRHHQTSVVYEYPRAEGDPYYPVPRPENAELYKKYEALADAAQDVTFVGRLATYRYYNMDQVVAQALATFRRLQ GFDYLIVGAGFAGSVLAERLASSGQRVLIVDRRPHIGGNAYDCYDDAGVLIHPYGPHIFHTNSKDVFEYLSRFTEWRPYQHRVLASVDGQLLPIPINLDTVNRLYGLNLTSFQVEEFFASVAEKVEQVRTSEDVVVSKVGRDLYNKFFRGYTRKQWGLDPSELDASVTARVPTRTNRDNRYFADTYQAMPLHGYTRMFQNMLSSPNIKVMLNTDYREIADFIPFQHMIYTGPVDAFFDFCYGKLPYRSLEFRHETHDTEQLLPTGTVNYPNDYAYTRVSEFKHITGQRHHQTSVVYEYPRAEGDPYYPVPRPENAELYKKYEALADAAQDVTFVGRLATYRYYNMDQVVAQALATFRRLQG 3hdt-a1-m1-cA_3hdt-a1-m1-cB Crystal structure of putative kinase from Clostridium symbiosum ATCC 14940 2.79 X-RAY DIFFRACTION 43 1.0 411472 ([Clostridium] symbiosum ATCC 14940) 411472 ([Clostridium] symbiosum ATCC 14940) 165 165 NKNLIITIEREYGSGGRIVGKKLAEELGIHFYDDDILKLASEKSPENLFKFQSEVRELAESEPCIFVGRAAGYVLDQDEDIERLIRIFVYTDKVKKVQRVEVDCIDEERAKRRIKKIEKERKEYYKYFTGSEWHSKNYDLPINTTKLTLEETAELIKAYIRLKGF NKNLIITIEREYGSGGRIVGKKLAEELGIHFYDDDILKLASEKSPENLFKFQSEVRELAESEPCIFVGRAAGYVLDQDEDIERLIRIFVYTDKVKKVQRVEVDCIDEERAKRRIKKIEKERKEYYKYFTGSEWHSKNYDLPINTTKLTLEETAELIKAYIRLKGF 3hdu-a1-m2-cB_3hdu-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (SYN_01977) FROM SYNTROPHUS ACIDITROPHICUS SB AT 2.50 A RESOLUTION Q2LUI2 Q2LUI2 2.5 X-RAY DIFFRACTION 119 1.0 56780 (Syntrophus aciditrophicus SB) 56780 (Syntrophus aciditrophicus SB) 139 143 3hdu-a1-m1-cB_3hdu-a1-m1-cA 3hdu-a1-m1-cC_3hdu-a1-m2-cC EVLFSAVNEIFEEKIPFNKIIGLKVRFISPEQVKLSFERDELIGNAIRRLYGGVISSAIDTAGLAAFGFQEKSGKPEEKLAIGRLSTSLHVEYLRPGLGREFVCTGYNVRTGNKVAVIRTELNDQDELIAVGSVSYILV SKNEEVLFSAVNEIFEEKIPFNKIIGLKVRFISPEQVKLSFERDELIGNAIRRLYGGVISSAIDTAGLAAFGFQEKSGKPEEKLAIGRLSTSLHVEYLRPGLGREFVCTGYNVRTGNKVAVIRTELNDQDELIAVGSVSYILV 3hdu-a1-m2-cB_3hdu-a1-m2-cC CRYSTAL STRUCTURE OF A PUTATIVE THIOESTERASE (SYN_01977) FROM SYNTROPHUS ACIDITROPHICUS SB AT 2.50 A RESOLUTION Q2LUI2 Q2LUI2 2.5 X-RAY DIFFRACTION 20 1.0 56780 (Syntrophus aciditrophicus SB) 56780 (Syntrophus aciditrophicus SB) 139 142 3hdu-a1-m1-cB_3hdu-a1-m1-cC 3hdu-a1-m1-cB_3hdu-a1-m2-cA 3hdu-a1-m1-cC_3hdu-a1-m2-cA 3hdu-a1-m2-cB_3hdu-a1-m1-cA 3hdu-a1-m2-cC_3hdu-a1-m1-cA EVLFSAVNEIFEEKIPFNKIIGLKVRFISPEQVKLSFERDELIGNAIRRLYGGVISSAIDTAGLAAFGFQEKSGKPEEKLAIGRLSTSLHVEYLRPGLGREFVCTGYNVRTGNKVAVIRTELNDQDELIAVGSVSYILV KNEEVLFSAVNEIFEEKIPFNKIIGLKVRFISPEQVKLSFERDELIGNAIRRLYGGVISSAIDTAGLAAFGFQEKSGKPEEKLAIGRLSTSLHVEYLRPGLGREFVCTGYNVRTGNKVAVIRTELNDQDELIAVGSVSYILV 3hdv-a1-m1-cC_3hdv-a1-m1-cB Crystal structure of response regulator receiver protein from Pseudomonas putida Q88QX9 Q88QX9 2.09 X-RAY DIFFRACTION 34 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 118 123 VAARPLVLVVDDNAVNREALILYLKSRGIDAVGADGAEEARLYLHYQKRIGLITDLRQPESGLDLIRTIRASERAALSIIVVSGDTDVEEAVDVHLGVVDFLLKPVDLGKLLELVNKE SLVAARPLVLVVDDNAVNREALILYLKSRGIDAVGADGAEEARLYLHYQKRIGLITDLRQPESGLDLIRTIRASERAALSIIVVSGDTDVEEAVDVHLGVVDFLLKPVDLGKLLELVNKELKI 3hdv-a3-m1-cD_3hdv-a3-m1-cB Crystal structure of response regulator receiver protein from Pseudomonas putida Q88QX9 Q88QX9 2.09 X-RAY DIFFRACTION 22 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 114 123 3hdv-a1-m1-cA_3hdv-a1-m1-cC 3hdv-a1-m1-cD_3hdv-a1-m1-cB 3hdv-a2-m1-cA_3hdv-a2-m1-cC PLVLVVDDNAVNREALILYLKSRGIDAVGADGAEEARLYLHYQKRIGLITDLRQPESGLDLIRTIRASERAALSIIVVSGDTDVEEAVDVHLGVVDFLLKPVDLGKLLELVNKE SLVAARPLVLVVDDNAVNREALILYLKSRGIDAVGADGAEEARLYLHYQKRIGLITDLRQPESGLDLIRTIRASERAALSIIVVSGDTDVEEAVDVHLGVVDFLLKPVDLGKLLELVNKELKI 3he0-a2-m1-cC_3he0-a2-m2-cC The Structure of a Putative Transcriptional Regulator TetR Family Protein from Vibrio parahaemolyticus. Q87TM9 Q87TM9 2.2 X-RAY DIFFRACTION 122 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 182 182 3he0-a1-m1-cB_3he0-a1-m1-cA DKRDQILAAAEQLIAESGFQGLSQKLANEAGVAAGTIYRYFSDKEHLLEEVRLNVAKRIASAVQAGVNDDPLKERYRTWLNIWNLAGSNLNAISNRVQYDSLPCTTRNKTWELERKFAQVDRLFNQGKEEGVFKPLDNEVLSGLSFEASVALARKHALGFYQLDDDALEAAIEASWDAIIKH DKRDQILAAAEQLIAESGFQGLSQKLANEAGVAAGTIYRYFSDKEHLLEEVRLNVAKRIASAVQAGVNDDPLKERYRTWLNIWNLAGSNLNAISNRVQYDSLPCTTRNKTWELERKFAQVDRLFNQGKEEGVFKPLDNEVLSGLSFEASVALARKHALGFYQLDDDALEAAIEASWDAIIKH 3he1-a3-m7-cF_3he1-a3-m7-cE Secreted protein Hcp3 from Pseudomonas aeruginosa. Q9HI36 Q9HI36 2.098 X-RAY DIFFRACTION 86 0.986 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 140 144 3he1-a1-m1-cB_3he1-a1-m1-cA 3he1-a1-m1-cB_3he1-a1-m2-cA 3he1-a1-m2-cB_3he1-a1-m2-cA 3he1-a1-m2-cB_3he1-a1-m3-cA 3he1-a1-m3-cB_3he1-a1-m1-cA 3he1-a1-m3-cB_3he1-a1-m3-cA 3he1-a2-m1-cD_3he1-a2-m1-cC 3he1-a2-m1-cD_3he1-a2-m4-cC 3he1-a2-m4-cD_3he1-a2-m4-cC 3he1-a2-m4-cD_3he1-a2-m5-cC 3he1-a2-m5-cD_3he1-a2-m1-cC 3he1-a2-m5-cD_3he1-a2-m5-cC 3he1-a3-m1-cF_3he1-a3-m1-cE 3he1-a3-m1-cF_3he1-a3-m6-cE 3he1-a3-m6-cF_3he1-a3-m6-cE 3he1-a3-m6-cF_3he1-a3-m7-cE 3he1-a3-m7-cF_3he1-a3-m1-cE PAYSITGTKQGLITAGAFTEDSVGNTYQEGHEDQVVQGFNHEVIIGQRVHKPVVITKVFDKASPLLLAALTSGERLTKVEIQWYRTSAAGTQEHYYTTVLEDAIIVDIKDYTHLEDVHFTYRKITWTHEVSGTSGSDDWR ATPAYSITGTKQGLITAGAFTEDSVGNTYQEGHEDQVVQGFNHEVIIPRVHKPVVITKVFDKASPLLLAALTSGERLTKVEIQWYRTSAAGTQEHYYTTVLEDAIIVDIKDYHFTHLEDVHFTYRKITWTHEVSGTSGSDDWRS 3he3-a6-m1-cJ_3he3-a6-m1-cC Crystal Structure of UDP-galactopyranose mutase in complex with UDP Q9RYF1 Q9RYF1 2.4 X-RAY DIFFRACTION 35 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 361 362 3hdq-a6-m1-cC_3hdq-a6-m1-cB 3hdq-a6-m1-cC_3hdq-a6-m1-cJ 3hdq-a6-m1-cD_3hdq-a6-m1-cF 3hdq-a6-m1-cD_3hdq-a6-m1-cI 3hdq-a6-m1-cE_3hdq-a6-m1-cH 3hdq-a6-m1-cF_3hdq-a6-m1-cH 3hdq-a6-m1-cG_3hdq-a6-m1-cA 3hdq-a6-m1-cG_3hdq-a6-m1-cB 3hdq-a6-m1-cI_3hdq-a6-m1-cE 3hdq-a6-m1-cJ_3hdq-a6-m1-cA 3hdy-a6-m1-cC_3hdy-a6-m1-cB 3hdy-a6-m1-cC_3hdy-a6-m1-cJ 3hdy-a6-m1-cD_3hdy-a6-m1-cF 3hdy-a6-m1-cD_3hdy-a6-m1-cI 3hdy-a6-m1-cE_3hdy-a6-m1-cH 3hdy-a6-m1-cE_3hdy-a6-m1-cI 3hdy-a6-m1-cG_3hdy-a6-m1-cA 3hdy-a6-m1-cG_3hdy-a6-m1-cB 3hdy-a6-m1-cH_3hdy-a6-m1-cF 3hdy-a6-m1-cJ_3hdy-a6-m1-cA 3he3-a6-m1-cC_3he3-a6-m1-cB 3he3-a6-m1-cD_3he3-a6-m1-cF 3he3-a6-m1-cD_3he3-a6-m1-cI 3he3-a6-m1-cE_3he3-a6-m1-cI 3he3-a6-m1-cF_3he3-a6-m1-cH 3he3-a6-m1-cG_3he3-a6-m1-cA 3he3-a6-m1-cG_3he3-a6-m1-cB 3he3-a6-m1-cH_3he3-a6-m1-cE 3he3-a6-m1-cJ_3he3-a6-m1-cA GFDYLIVGAGFAGSVLAERLASSGQRVLIVDRRPHIGGNAYDCYDDAGVLIHPYGPHIFHTNSKDVFEYLSRFTEWRPYQHRVLASVDGQLLPIPINLDTVNRLYGLNLTSFQVEEFFASVAEKVEQVRTSEDVVVSKVGRDLYNKFFRGYTRKQWGLDPSELDASVTARVPTRTNRDNRYFADTYQAMPLHGYTRMFQNMLSSPNIKVMLNTDYREIADFIPFQHMIYTGPVDAFFDFCYGKLPYRSLEFRHETHDTEQLLPTGTVNYPNDYAYTRVSEFKHITGQRHHQTSVVYEYPRAEGDPYYPVPRPENAELYKKYEALADAAQDVTFVGRLATYRYYNMDQVVAQALATFRRLQG KGFDYLIVGAGFAGSVLAERLASSGQRVLIVDRRPHIGGNAYDCYDDAGVLIHPYGPHIFHTNSKDVFEYLSRFTEWRPYQHRVLASVDGQLLPIPINLDTVNRLYGLNLTSFQVEEFFASVAEKVEQVRTSEDVVVSKVGRDLYNKFFRGYTRKQWGLDPSELDASVTARVPTRTNRDNRYFADTYQAMPLHGYTRMFQNMLSSPNIKVMLNTDYREIADFIPFQHMIYTGPVDAFFDFCYGKLPYRSLEFRHETHDTEQLLPTGTVNYPNDYAYTRVSEFKHITGQRHHQTSVVYEYPRAEGDPYYPVPRPENAELYKKYEALADAAQDVTFVGRLATYRYYNMDQVVAQALATFRRLQG 3he4-a3-m1-cD_3he4-a3-m5-cF Heterospecific coiled-coil pair SYNZIP5:SYNZIP6 2.46 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 44 44 3he4-a3-m1-cF_3he4-a3-m4-cD 3he4-a3-m4-cF_3he4-a3-m5-cD NTVKELKNYIQELEERNAELKNLKEHLKFAKAELEFELAAHKFE NTVKELKNYIQELEERNAELKNLKEHLKFAKAELEFELAAHKFE 3he8-a1-m1-cA_3he8-a1-m1-cB Structural study of Clostridium thermocellum Ribose-5-Phosphate Isomerase B A3DIL8 A3DIL8 1.9 X-RAY DIFFRACTION 125 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 148 148 3hee-a1-m1-cA_3hee-a1-m1-cB 3ph3-a1-m1-cA_3ph3-a1-m1-cB 3ph4-a1-m1-cA_3ph4-a1-m1-cB MKIGIGSDHGGYNLKREIADFLKKRGYEVIDFGTHGNESVDYPDFGLKVAEAVKSGECDRGIVICGTGLGISIAANKVPGIRAAVCTNSYMARMSREHNDANILALGERVVGLDLALDIVDTWLKAEFQGGRHATRVGKIGEIEKKYS MKIGIGSDHGGYNLKREIADFLKKRGYEVIDFGTHGNESVDYPDFGLKVAEAVKSGECDRGIVICGTGLGISIAANKVPGIRAAVCTNSYMARMSREHNDANILALGERVVGLDLALDIVDTWLKAEFQGGRHATRVGKIGEIEKKYS 3heb-a1-m1-cA_3heb-a1-m1-cB Crystal Structure of Response regulator receiver domain from Rhodospirillum rubrum Q2RWM6 Q2RWM6 2.4 X-RAY DIFFRACTION 59 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 139 139 VTIVIEDDLGHARLIEKNIRRAGVNNEIIAFTDGTSALNYLFGDDKSGRVSAGRAQLVLLDLNLPDTGIDILKLVKENPHTRRSPVVILTTTDDQREIQRCYDLGANVYITKPVNYENFANAIRQLGLFFSVQVPETEG VTIVIEDDLGHARLIEKNIRRAGVNNEIIAFTDGTSALNYLFGDDKSGRVSAGRAQLVLLDLNLPDTGIDILKLVKENPHTRRSPVVILTTTDDQREIQRCYDLGANVYITKPVNYENFANAIRQLGLFFSVQVPETEG 3hej-a2-m1-cB_3hej-a2-m1-cC Crystal structure of Staphylococcal nuclease variant Delta+PHS T62R at cryogenic temperature P00644 P00644 1.8 X-RAY DIFFRACTION 83 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 135 135 3hej-a1-m1-cA_3hej-a1-m1-cD ATSTKKLHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPEFNEKYGPEASAFRKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKGNNTHEQLLRKAEAQAKKEKLNIWS ATSTKKLHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPEFNEKYGPEASAFRKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKGNNTHEQLLRKAEAQAKKEKLNIWS 3hem-a1-m1-cA_3hem-a1-m2-cA Structure of Mycobacterium tuberculosis Mycolic Acid Cyclopropane Synthase CmaA2 in Complex with Dioctylamine P9WPB5 P9WPB5 2.39 X-RAY DIFFRACTION 44 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 291 291 1kpi-a2-m1-cA_1kpi-a2-m2-cA QLKPPVEAVRSHYDKSNEFFKLWLDPSMTYSCAYFERPDMTLEEAQYAKRKLALDKLNLEPGMTLLDIGCGWGSTMRHAVAEYDVNVIGLTLSENQYAHDKAMFDEVDSPRRKEVRIQGWEEFDEPVDRIVSLGAFEHFADGAGDAGFERYDTFFKKFYNLTPDDGRMLLHTITIPDKEEAQELGLTSPMSLLRFIKFILTEIFPGGRLPRISQVDYYSSNAGWKVERYHRIGANYVPTLNAWADALQAHKDEAIALKGQETCDIYMHYLRGCSDLFRDKYTDVCQFTLVK QLKPPVEAVRSHYDKSNEFFKLWLDPSMTYSCAYFERPDMTLEEAQYAKRKLALDKLNLEPGMTLLDIGCGWGSTMRHAVAEYDVNVIGLTLSENQYAHDKAMFDEVDSPRRKEVRIQGWEEFDEPVDRIVSLGAFEHFADGAGDAGFERYDTFFKKFYNLTPDDGRMLLHTITIPDKEEAQELGLTSPMSLLRFIKFILTEIFPGGRLPRISQVDYYSSNAGWKVERYHRIGANYVPTLNAWADALQAHKDEAIALKGQETCDIYMHYLRGCSDLFRDKYTDVCQFTLVK 3het-a2-m2-cA_3het-a2-m4-cA Cyclic residues in alpha/beta-peptide helix bundles: GCN4-pLI side chain sequence on an (alpha-alpha-beta) backbone with a cyclic beta-residue at position 10 2.1 X-RAY DIFFRACTION 19 1.0 20 20 3c3g-a1-m1-cA_3c3g-a1-m3-cA 3c3g-a1-m1-cA_3c3g-a1-m4-cA 3c3g-a1-m2-cA_3c3g-a1-m3-cA 3c3g-a1-m2-cA_3c3g-a1-m4-cA 3het-a1-m1-cA_3het-a1-m3-cA 3het-a1-m1-cA_3het-a1-m4-cA 3het-a1-m1-cB_3het-a1-m3-cB 3het-a1-m1-cB_3het-a1-m4-cB 3het-a1-m2-cA_3het-a1-m3-cA 3het-a1-m2-cA_3het-a1-m4-cA 3het-a1-m2-cB_3het-a1-m3-cB 3het-a1-m2-cB_3het-a1-m4-cB 3het-a2-m1-cA_3het-a2-m3-cA 3het-a2-m1-cA_3het-a2-m4-cA 3het-a2-m2-cA_3het-a2-m3-cA 3het-a3-m1-cB_3het-a3-m3-cB 3het-a3-m1-cB_3het-a3-m4-cB 3het-a3-m2-cB_3het-a3-m3-cB 3het-a3-m2-cB_3het-a3-m4-cB 3heu-a1-m1-cA_3heu-a1-m3-cA 3heu-a1-m1-cA_3heu-a1-m4-cA 3heu-a1-m2-cA_3heu-a1-m3-cA 3heu-a1-m2-cA_3heu-a1-m4-cA 3hev-a1-m1-cA_3hev-a1-m3-cA 3hev-a1-m1-cA_3hev-a1-m4-cA 3hev-a1-m2-cA_3hev-a1-m3-cA 3hev-a1-m2-cA_3hev-a1-m4-cA 3hew-a1-m1-cA_3hew-a1-m3-cA 3hew-a1-m1-cA_3hew-a1-m4-cA 3hew-a1-m2-cA_3hew-a1-m3-cA 3hew-a1-m2-cA_3hew-a1-m4-cA 3hex-a1-m1-cA_3hex-a1-m3-cA 3hex-a1-m1-cA_3hex-a1-m4-cA 3hex-a1-m2-cA_3hex-a1-m3-cA 3hex-a1-m2-cA_3hex-a1-m4-cA 3hey-a1-m1-cA_3hey-a1-m3-cA 3hey-a1-m1-cA_3hey-a1-m4-cA 3hey-a1-m2-cA_3hey-a1-m3-cA 3hey-a1-m2-cA_3hey-a1-m4-cA MKIEKLEISKYHENLAIKLL MKIEKLEISKYHENLAIKLL 3hez-a1-m1-cA_3hez-a1-m1-cB Exploring backbone pattern in alpha/beta-peptide helix bundles: The GCN4-pLI side chain sequence on different (alpha-alpha-alpha-beta) backbones 2 X-RAY DIFFRACTION 13 1.0 25 25 RMKIEDLEELSKYHINELRIKLLGR RMKIEDLEELSKYHINELRIKLLGR 3hez-a1-m1-cB_3hez-a1-m1-cC Exploring backbone pattern in alpha/beta-peptide helix bundles: The GCN4-pLI side chain sequence on different (alpha-alpha-alpha-beta) backbones 2 X-RAY DIFFRACTION 20 1.0 25 25 3hez-a1-m1-cA_3hez-a1-m1-cC RMKIEDLEELSKYHINELRIKLLGR RMKIEDLEELSKYHINELRIKLLGR 3hf4-a1-m1-cA_3hf4-a1-m1-cE Crystal structure of rat methemoglobin in R2 state P01946 P01946 2.7 X-RAY DIFFRACTION 26 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 141 141 VLSADDKTNIKNCWGKIGGHGGEYGEEALQRMFAAFPTTKTYFSHIDVSPGSAQVKAHGKKVADALAKAADHVEDLPGALSTLSDLHAHKLRVDPVNFKFLSHCLLVTLACHHPGDFTPAMHASLDKFLASVSTVLTSKYR VLSADDKTNIKNCWGKIGGHGGEYGEEALQRMFAAFPTTKTYFSHIDVSPGSAQVKAHGKKVADALAKAADHVEDLPGALSTLSDLHAHKLRVDPVNFKFLSHCLLVTLACHHPGDFTPAMHASLDKFLASVSTVLTSKYR 3hf7-a2-m1-cA_3hf7-a2-m2-cA The Crystal Structure of a CBS-domain Pair with Bound AMP from Klebsiella pneumoniae to 2.75A A6TCM0 A6TCM0 2.75 X-RAY DIFFRACTION 34 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 127 127 KVSVNDIMVPRNEIVGIDINDDWKSIVRQLTHSPHGRIVLYRDSLDDAISMLRVREAYRLMTEKKEFTKEIMLRAADEIYFVPEGTPLSTQLVKFQRNKKKVGLVVDEYGDIQGLVTVEDILEEIVG KVSVNDIMVPRNEIVGIDINDDWKSIVRQLTHSPHGRIVLYRDSLDDAISMLRVREAYRLMTEKKEFTKEIMLRAADEIYFVPEGTPLSTQLVKFQRNKKKVGLVVDEYGDIQGLVTVEDILEEIVG 3hfa-a1-m1-cD_3hfa-a1-m1-cK Crystal Structure of Mycobacterium Tuberculosis Proteasome open-gate mutant P9WHU1 P9WHU1 2.504 X-RAY DIFFRACTION 41 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 213 214 2fhg-a1-m1-c1_2fhg-a1-m1-cS 2fhg-a1-m1-c1_2fhg-a1-m1-cU 2fhg-a1-m1-cA_2fhg-a1-m1-cB 2fhg-a1-m1-cA_2fhg-a1-m1-cO 2fhg-a1-m1-cB_2fhg-a1-m1-cI 2fhg-a1-m1-cD_2fhg-a1-m1-cK 2fhg-a1-m1-cD_2fhg-a1-m1-cQ 2fhg-a1-m1-cF_2fhg-a1-m1-cM 2fhg-a1-m1-cF_2fhg-a1-m1-cW 2fhg-a1-m1-cI_2fhg-a1-m1-cS 2fhg-a1-m1-cK_2fhg-a1-m1-cM 2fhg-a1-m1-cO_2fhg-a1-m1-cU 2fhg-a1-m1-cQ_2fhg-a1-m1-cY 2fhg-a1-m1-cW_2fhg-a1-m1-cY 2fhh-a1-m1-c1_2fhh-a1-m1-cS 2fhh-a1-m1-c1_2fhh-a1-m1-cU 2fhh-a1-m1-cA_2fhh-a1-m1-cB 2fhh-a1-m1-cA_2fhh-a1-m1-cO 2fhh-a1-m1-cB_2fhh-a1-m1-cI 2fhh-a1-m1-cD_2fhh-a1-m1-cK 2fhh-a1-m1-cD_2fhh-a1-m1-cQ 2fhh-a1-m1-cF_2fhh-a1-m1-cM 2fhh-a1-m1-cF_2fhh-a1-m1-cW 2fhh-a1-m1-cI_2fhh-a1-m1-cS 2fhh-a1-m1-cK_2fhh-a1-m1-cM 2fhh-a1-m1-cO_2fhh-a1-m1-cU 2fhh-a1-m1-cQ_2fhh-a1-m1-cY 2fhh-a1-m1-cW_2fhh-a1-m1-cY 3h6f-a1-m1-c1_3h6f-a1-m1-cS 3h6f-a1-m1-cA_3h6f-a1-m1-cO 3h6f-a1-m1-cB_3h6f-a1-m1-cA 3h6f-a1-m1-cB_3h6f-a1-m1-cI 3h6f-a1-m1-cD_3h6f-a1-m1-cK 3h6f-a1-m1-cD_3h6f-a1-m1-cQ 3h6f-a1-m1-cF_3h6f-a1-m1-cW 3h6f-a1-m1-cI_3h6f-a1-m1-cS 3h6f-a1-m1-cK_3h6f-a1-m1-cM 3h6f-a1-m1-cM_3h6f-a1-m1-cF 3h6f-a1-m1-cU_3h6f-a1-m1-c1 3h6f-a1-m1-cU_3h6f-a1-m1-cO 3h6f-a1-m1-cY_3h6f-a1-m1-cQ 3h6f-a1-m1-cY_3h6f-a1-m1-cW 3h6i-a1-m1-c1_3h6i-a1-m1-cS 3h6i-a1-m1-c1_3h6i-a1-m1-cU 3h6i-a1-m1-cB_3h6i-a1-m1-cA 3h6i-a1-m1-cB_3h6i-a1-m1-cI 3h6i-a1-m1-cD_3h6i-a1-m1-cK 3h6i-a1-m1-cD_3h6i-a1-m1-cQ 3h6i-a1-m1-cF_3h6i-a1-m1-cW 3h6i-a1-m1-cI_3h6i-a1-m1-cS 3h6i-a1-m1-cM_3h6i-a1-m1-cF 3h6i-a1-m1-cM_3h6i-a1-m1-cK 3h6i-a1-m1-cO_3h6i-a1-m1-cA 3h6i-a1-m1-cO_3h6i-a1-m1-cU 3h6i-a1-m1-cY_3h6i-a1-m1-cQ 3h6i-a1-m1-cY_3h6i-a1-m1-cW 3hf9-a1-m1-c1_3hf9-a1-m1-cS 3hf9-a1-m1-c1_3hf9-a1-m1-cU 3hf9-a1-m1-cA_3hf9-a1-m1-cB 3hf9-a1-m1-cA_3hf9-a1-m1-cO 3hf9-a1-m1-cB_3hf9-a1-m1-cI 3hf9-a1-m1-cD_3hf9-a1-m1-cK 3hf9-a1-m1-cD_3hf9-a1-m1-cQ 3hf9-a1-m1-cF_3hf9-a1-m1-cM 3hf9-a1-m1-cF_3hf9-a1-m1-cW 3hf9-a1-m1-cM_3hf9-a1-m1-cK 3hf9-a1-m1-cO_3hf9-a1-m1-cU 3hf9-a1-m1-cS_3hf9-a1-m1-cI 3hf9-a1-m1-cW_3hf9-a1-m1-cY 3hf9-a1-m1-cY_3hf9-a1-m1-cQ 3hf9-a2-m1-c3_3hf9-a2-m1-cs 3hf9-a2-m1-c3_3hf9-a2-m1-cu 3hf9-a2-m1-ca_3hf9-a2-m1-cb 3hf9-a2-m1-ca_3hf9-a2-m1-co 3hf9-a2-m1-cb_3hf9-a2-m1-ci 3hf9-a2-m1-cd_3hf9-a2-m1-ck 3hf9-a2-m1-cd_3hf9-a2-m1-cq 3hf9-a2-m1-cf_3hf9-a2-m1-cw 3hf9-a2-m1-ci_3hf9-a2-m1-cs 3hf9-a2-m1-cm_3hf9-a2-m1-cf 3hf9-a2-m1-cm_3hf9-a2-m1-ck 3hf9-a2-m1-co_3hf9-a2-m1-cu 3hf9-a2-m1-cq_3hf9-a2-m1-cy 3hf9-a2-m1-cw_3hf9-a2-m1-cy 3hfa-a1-m1-c1_3hfa-a1-m1-cS 3hfa-a1-m1-c1_3hfa-a1-m1-cU 3hfa-a1-m1-cA_3hfa-a1-m1-cB 3hfa-a1-m1-cA_3hfa-a1-m1-cO 3hfa-a1-m1-cB_3hfa-a1-m1-cI 3hfa-a1-m1-cD_3hfa-a1-m1-cQ 3hfa-a1-m1-cF_3hfa-a1-m1-cM 3hfa-a1-m1-cF_3hfa-a1-m1-cW 3hfa-a1-m1-cI_3hfa-a1-m1-cS 3hfa-a1-m1-cK_3hfa-a1-m1-cM 3hfa-a1-m1-cO_3hfa-a1-m1-cU 3hfa-a1-m1-cQ_3hfa-a1-m1-cY 3hfa-a1-m1-cW_3hfa-a1-m1-cY 3krd-a1-m1-c1_3krd-a1-m1-cS 3krd-a1-m1-cA_3krd-a1-m1-cO 3krd-a1-m1-cB_3krd-a1-m1-cA 3krd-a1-m1-cB_3krd-a1-m1-cI 3krd-a1-m1-cD_3krd-a1-m1-cK 3krd-a1-m1-cD_3krd-a1-m1-cQ 3krd-a1-m1-cI_3krd-a1-m1-cS 3krd-a1-m1-cM_3krd-a1-m1-cF 3krd-a1-m1-cM_3krd-a1-m1-cK 3krd-a1-m1-cO_3krd-a1-m1-cU 3krd-a1-m1-cQ_3krd-a1-m1-cY 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7pxc-a1-m1-c6_7pxc-a1-m1-c8 7pxc-a1-m1-c8_7pxc-a1-m1-cd 7pxc-a1-m1-cd_7pxc-a1-m1-cf 7pxc-a1-m1-cI_7pxc-a1-m1-cO 7pxc-a1-m1-cI_7pxc-a1-m1-cT 7pxc-a1-m1-cO_7pxc-a1-m1-cQ 7pxc-a1-m1-cQ_7pxc-a1-m1-cK 7pxc-a1-m1-cT_7pxc-a1-m1-cZ 7pxc-a1-m1-cX_7pxc-a1-m1-cK 7pxc-a1-m1-cX_7pxc-a1-m1-cZ 7pxd-a1-m1-c0_7pxd-a1-m1-c2 7pxd-a1-m1-c0_7pxd-a1-m1-cf 7pxd-a1-m1-c2_7pxd-a1-m1-c4 7pxd-a1-m1-c4_7pxd-a1-m1-c6 7pxd-a1-m1-c6_7pxd-a1-m1-c8 7pxd-a1-m1-c8_7pxd-a1-m1-cd 7pxd-a1-m1-cd_7pxd-a1-m1-cf 7pxd-a1-m1-cI_7pxd-a1-m1-cO 7pxd-a1-m1-cI_7pxd-a1-m1-cT 7pxd-a1-m1-cO_7pxd-a1-m1-cQ 7pxd-a1-m1-cQ_7pxd-a1-m1-cK 7pxd-a1-m1-cT_7pxd-a1-m1-cZ 7pxd-a1-m1-cX_7pxd-a1-m1-cK 7pxd-a1-m1-cX_7pxd-a1-m1-cZ 8d6v-a1-m1-cA_8d6v-a1-m1-cJ 8d6v-a1-m1-cA_8d6v-a1-m1-cO 8d6v-a1-m1-cC_8d6v-a1-m1-cD 8d6v-a1-m1-cC_8d6v-a1-m1-cI 8d6v-a1-m1-cD_8d6v-a1-m1-cE 8d6v-a1-m1-cE_8d6v-a1-m1-cF 8d6v-a1-m1-cF_8d6v-a1-m1-cG 8d6v-a1-m1-cG_8d6v-a1-m1-cH 8d6v-a1-m1-cH_8d6v-a1-m1-cI 8d6v-a1-m1-cJ_8d6v-a1-m1-cK 8d6v-a1-m1-cK_8d6v-a1-m1-cL 8d6v-a1-m1-cL_8d6v-a1-m1-cM 8d6v-a1-m1-cM_8d6v-a1-m1-cN 8d6v-a1-m1-cN_8d6v-a1-m1-cO 8d6w-a1-m1-cA_8d6w-a1-m1-cJ 8d6w-a1-m1-cA_8d6w-a1-m1-cO 8d6w-a1-m1-cC_8d6w-a1-m1-cD 8d6w-a1-m1-cC_8d6w-a1-m1-cI 8d6w-a1-m1-cD_8d6w-a1-m1-cE 8d6w-a1-m1-cE_8d6w-a1-m1-cF 8d6w-a1-m1-cF_8d6w-a1-m1-cG 8d6w-a1-m1-cG_8d6w-a1-m1-cH 8d6w-a1-m1-cH_8d6w-a1-m1-cI 8d6w-a1-m1-cJ_8d6w-a1-m1-cK 8d6w-a1-m1-cK_8d6w-a1-m1-cL 8d6w-a1-m1-cL_8d6w-a1-m1-cM 8d6w-a1-m1-cM_8d6w-a1-m1-cN 8d6w-a1-m1-cN_8d6w-a1-m1-cO 8d6x-a1-m1-cG_8d6x-a1-m1-cH 8d6x-a1-m1-cG_8d6x-a1-m1-co 8d6x-a1-m1-cH_8d6x-a1-m1-cI 8d6x-a1-m1-cI_8d6x-a1-m1-cl 8d6x-a1-m1-cJ_8d6x-a1-m1-ck 8d6x-a1-m1-cJ_8d6x-a1-m1-cK 8d6x-a1-m1-cK_8d6x-a1-m1-cL 8d6x-a1-m1-cl_8d6x-a1-m1-cm 8d6x-a1-m1-cL_8d6x-a1-m1-cM 8d6x-a1-m1-cm_8d6x-a1-m1-cn 8d6x-a1-m1-cM_8d6x-a1-m1-cN 8d6x-a1-m1-cn_8d6x-a1-m1-co 8d6x-a1-m1-cN_8d6x-a1-m1-cO 8d6x-a1-m1-cO_8d6x-a1-m1-ck 8d6y-a1-m1-cG_8d6y-a1-m1-cH 8d6y-a1-m1-cG_8d6y-a1-m1-co 8d6y-a1-m1-cH_8d6y-a1-m1-cI 8d6y-a1-m1-cI_8d6y-a1-m1-cl 8d6y-a1-m1-cJ_8d6y-a1-m1-ck 8d6y-a1-m1-cJ_8d6y-a1-m1-cK 8d6y-a1-m1-cK_8d6y-a1-m1-cL 8d6y-a1-m1-cl_8d6y-a1-m1-cm 8d6y-a1-m1-cL_8d6y-a1-m1-cM 8d6y-a1-m1-cm_8d6y-a1-m1-cn 8d6y-a1-m1-cM_8d6y-a1-m1-cN 8d6y-a1-m1-cn_8d6y-a1-m1-co 8d6y-a1-m1-cN_8d6y-a1-m1-cO 8d6y-a1-m1-cO_8d6y-a1-m1-ck MEQAMRERSELARKGIARAKSVVALAYAGGVLFVAENPSRSLQKISELYDRVGFAAAGKFNEFDNLRRGGIQFADTRGYAYDRRDVTGRQLANVYAQTLGTIFTEQAKPYEVELCVAEVAHYGETKRPELYRITYDGSIADEPHFVVMGGTTEPIANALKESYAENASLTDALRIAVAALRAGVASLEVAVLDANRPRRAFRRITGSALQALL MEQAMRERSELARKGIARAKSVVALAYAGGVLFVAENPSRSLQKISELYDRVGFAAAGKFNEFDNLRRGGIQFADTRGYAYDRRDVTGRQLANVYAQTLGTIFTEQAKPYEVELCVAEVAHYGETKRPELYRITYDGSIADEPHFVVMGGTTEPIANALKESYAENASLTDALRIAVAALRALGVASLEVAVLDANRPRRAFRRITGSALQALL 3hfe-a1-m1-cB_3hfe-a1-m1-cC A trimeric form of the Kv7.1 A domain Tail P51787 P51787 1.7 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 26 3hfc-a1-m1-cB_3hfc-a1-m1-cA 3hfc-a1-m1-cB_3hfc-a1-m1-cC 3hfc-a1-m1-cC_3hfc-a1-m1-cA 3hfe-a1-m1-cB_3hfe-a1-m1-cA 3hfe-a1-m1-cC_3hfe-a1-m1-cA NTIGARLNRVEDKVTQLDQRLALITD NTIGARLNRVEDKVTQLDQRLALITD 3hff-a2-m1-cA_3hff-a2-m2-cA Monomeric human Cu,Zn Superoxide dismutase without Zn ligands P00441 P00441 2.2 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 ATKAVAVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFHVHEEVGSLGNVTADKDGVADVSIEDSVISLSGDHAIIGRTLVVHEKADDLGKGGNNAGSRLACGVIGIA ATKAVAVLKGDGPVQGIINFEQKESNGPVKVWGSIKGLTEGLHGFHVHEEVGSLGNVTADKDGVADVSIEDSVISLSGDHAIIGRTLVVHEKADDLGKGGNNAGSRLACGVIGIA 3hfi-a1-m1-cA_3hfi-a1-m2-cA The crystal structure of the putative regulator from Escherichia coli CFT073 A0A0H2VBL3 A0A0H2VBL3 2.2 X-RAY DIFFRACTION 67 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 137 137 TTEVITSRIEPANRYVAEKLRITPGQDILYLERLRSIGDEKAMLIENRINIELCPGIVEIDFNQHNLFPTIESLSKRKIRYSESRYAARLIGNERGHFLDISEDAPVLHLEQLVFFSRELPVEFGNVWLKGNKYYLG TTEVITSRIEPANRYVAEKLRITPGQDILYLERLRSIGDEKAMLIENRINIELCPGIVEIDFNQHNLFPTIESLSKRKIRYSESRYAARLIGNERGHFLDISEDAPVLHLEQLVFFSRELPVEFGNVWLKGNKYYLG 3hfk-a1-m1-cD_3hfk-a1-m1-cA Crystal structure of 4-methylmuconolactone methylisomerase (H52A) in complex with 4-methylmuconolactone C5MR76 C5MR76 1.9 X-RAY DIFFRACTION 122 1.0 395598 (Pseudomonas reinekei) 395598 (Pseudomonas reinekei) 108 115 3hds-a1-m1-cD_3hds-a1-m1-cA 3hds-a2-m1-cC_3hds-a2-m1-cB 3hf5-a1-m1-cD_3hf5-a1-m1-cA 3hf5-a2-m1-cC_3hf5-a2-m1-cB 3hfk-a2-m1-cC_3hfk-a2-m1-cB RMIRILYLLVKPESMSHEQFRKECVVHFQMSAGMPGLHKYEVRLVAGNPTDTAVPYLDVGRIDAIGECWFASEEQYQVYMESDIRKAWFEHGKYFIGQLKPFVTEELV QFEKIEGRMIRILYLLVKPESMSHEQFRKECVVHFQMSAGMPGLHKYEVRLVAGNPTDTAVPYLDVGRIDAIGECWFASEEQYQVYMESDIRKAWFEHGKYFIGQLKPFVTEELV 3hfn-a1-m3-cA_3hfn-a1-m3-cB Crystal Structure of an Hfq protein from Anabaena sp. Q8YVD1 Q8YVD1 2.31 X-RAY DIFFRACTION 48 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 60 60 3hfn-a1-m1-cA_3hfn-a1-m1-cB 3hfn-a1-m1-cA_3hfn-a1-m2-cB 3hfn-a1-m1-cB_3hfn-a1-m3-cA 3hfn-a1-m2-cA_3hfn-a1-m2-cB 3hfn-a1-m2-cA_3hfn-a1-m3-cB SLPSIRQLQNLIKQAAPVEIKLVTGDAITGRVLWQDPTCVCIADRQTTIWKQAIAYLQPK SLPSIRQLQNLIKQAAPVEIKLVTGDAITGRVLWQDPTCVCIADRQTTIWKQAIAYLQPK 3hfo-a1-m1-cB_3hfo-a1-m2-cC Crystal Structure of an Hfq protein from Synechocystis sp. P74112 P74112 1.3 X-RAY DIFFRACTION 53 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 66 66 3hfo-a1-m1-cA_3hfo-a1-m1-cB 3hfo-a1-m1-cA_3hfo-a1-m1-cC 3hfo-a1-m1-cC_3hfo-a1-m2-cB 3hfo-a1-m2-cA_3hfo-a1-m2-cB 3hfo-a1-m2-cA_3hfo-a1-m2-cC DSGLPSVRQVQLLIKDQTPVEIKLLTGDSLFGTIRWQDTDGLGLVDDSERSTIVRLAAIAYITPRR DSGLPSVRQVQLLIKDQTPVEIKLLTGDSLFGTIRWQDTDGLGLVDDSERSTIVRLAAIAYITPRR 3hft-a1-m1-cA_3hft-a1-m2-cA Crystal structure of a putative polysaccharide deacetylase involved in o-antigen biosynthesis (wbms, bb0128) from bordetella bronchiseptica at 1.90 A resolution A0A0H3LGE5 A0A0H3LGE5 1.9 X-RAY DIFFRACTION 112 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 239 239 RYDNKFARISDIDINQPESWRGRIFLTFDIDWAADFVLQDTIDLIEGAGVCATWFATHSTPLLENIRRNPLFELGVHPNFNPLLAGAHAEGVQEILDRTLELAPGCVSVRSHSLVQATSILNFGERRLRYDCNILVPWDAGIVLQPWRHWTGDVRVPYLWEDDVACLYDWEFDSTFDYWYQPDGINVLDFHPIHVYNTESLRRYEDSREVHRNPVDLIRWRNTSAGSRTFLQSLLARNI RYDNKFARISDIDINQPESWRGRIFLTFDIDWAADFVLQDTIDLIEGAGVCATWFATHSTPLLENIRRNPLFELGVHPNFNPLLAGAHAEGVQEILDRTLELAPGCVSVRSHSLVQATSILNFGERRLRYDCNILVPWDAGIVLQPWRHWTGDVRVPYLWEDDVACLYDWEFDSTFDYWYQPDGINVLDFHPIHVYNTESLRRYEDSREVHRNPVDLIRWRNTSAGSRTFLQSLLARNI 3hg7-a2-m1-cA_3hg7-a2-m2-cA CRYSTAL STRUCTURE OF D-isomer specific 2-hydroxyacid dehydrogenase family protein from Aeromonas salmonicida subsp. salmonicida A449 A4SIK7 A4SIK7 1.8 X-RAY DIFFRACTION 123 1.0 382245 (Aeromonas salmonicida subsp. salmonicida A449) 382245 (Aeromonas salmonicida subsp. salmonicida A449) 310 310 SQRTLLLLSQDNAHYERLLKAAHLPHLRILRADNQSDAEKLIGEAHILMAEPARAKPLLAKANKLSWFQSTYAGVDVLLDARCRRDYQLTNVRGIFGPLMSEYVFGHLLSLMRQLPLYREQQKQRLWQSHPYQGLKGRTLLILGTGSIGQHIAHTGKHFGMKVLGVSRSGRERAGFDQVYQLPALNKMLAQADVIVSVLPATRETHHLFTASRFEHCKPGAILFNVGRGNAINEGDLLTALRTGKLGMAVLDVFEQEPLPADSPLWGQPNLIITPHNSAYSFPDDVAQIFVRNYIRFIDGQPLDGKIDFD SQRTLLLLSQDNAHYERLLKAAHLPHLRILRADNQSDAEKLIGEAHILMAEPARAKPLLAKANKLSWFQSTYAGVDVLLDARCRRDYQLTNVRGIFGPLMSEYVFGHLLSLMRQLPLYREQQKQRLWQSHPYQGLKGRTLLILGTGSIGQHIAHTGKHFGMKVLGVSRSGRERAGFDQVYQLPALNKMLAQADVIVSVLPATRETHHLFTASRFEHCKPGAILFNVGRGNAINEGDLLTALRTGKLGMAVLDVFEQEPLPADSPLWGQPNLIITPHNSAYSFPDDVAQIFVRNYIRFIDGQPLDGKIDFD 3hg9-a1-m1-cA_3hg9-a1-m1-cB CRYSTAL STRUCTURE OF putative pilM protein from Pseudomonas aeruginosa 2192 Q6X3P5 Q6X3P5 2.4 X-RAY DIFFRACTION 185 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 120 LAEVDTLARSLLLYRSRLAEYAHANPGFSGSPADSALGLPAWFRKPVRLQGYIAAGTSYAFIASPPAGLAAAVDTGTESDLVGVRRNGQLVTRRLGATAIALPAPIPEGAVVAVKEGHH ELAEVDTLARSLLLYRSRLAEYAHANPGFSGSPADSALGLPAWFRKPVRLQGYIAAGTSYAFIASPPAGLAAAVDTGTESDLVGVRRNGQLVTRRLGATAIALPAPIPEGAVVAVKEGHH 3hgm-a1-m1-cA_3hgm-a1-m1-cB Universal Stress Protein TeaD from the TRAP transporter TeaABC of Halomonas elongata E1VBK4 E1VBK4 1.9 X-RAY DIFFRACTION 59 1.0 2746 (Halomonas elongata) 2746 (Halomonas elongata) 147 147 MFNRIMVPVDGSKGAVKALEKGVGLQQLTGAELYILCVFKHHSLLEASLSMARPEQLDIPDDALKDYATEIAVQAKTRATELGVPADKVRAFVKGGRPSRTIVRFARKRECDLVVIGAQGTNGDKSLLLGSVAQRVAGSAHCPVLVV MFNRIMVPVDGSKGAVKALEKGVGLQQLTGAELYILCVFKHHSLLEASLSMARPEQLDIPDDALKDYATEIAVQAKTRATELGVPADKVRAFVKGGRPSRTIVRFARKRECDLVVIGAQGTNGDKSLLLGSVAQRVAGSAHCPVLVV 3hgq-a2-m1-cC_3hgq-a2-m1-cD Structural and functional studies of the yeast class II Hda1 HDAC complex Q06623 Q06623 3 X-RAY DIFFRACTION 36 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 282 282 3hgq-a1-m1-cB_3hgq-a1-m1-cA 3hgt-a1-m1-cA_3hgt-a1-m1-cB TSGDYWLPTTSLYQKELTDQIVSLHYSDILRYFETSHYKEDVILESKTCLNGSLVATHPYLLIDHYPKSLITRDVPAHLAENSGKFSVLRDLINLVQEYETETAIVCRPGRTDLLEALLLGNKVHIKRYDGHSIKDFSCTVHLFSSEGINFTKYPIKSKARFDLICLDTTVDTSQKDIQYLLQYKERYAPIVRLVAINSIDHCRLFFGKKFDKNSREYLENVTAAVILRDRLGTLPPDLRPIYSQKLHYLVEWLENPTVPWPLPDIYPLKQYTSDVERSLLT TSGDYWLPTTSLYQKELTDQIVSLHYSDILRYFETSHYKEDVILESKTCLNGSLVATHPYLLIDHYPKSLITRDVPAHLAENSGKFSVLRDLINLVQEYETETAIVCRPGRTDLLEALLLGNKVHIKRYDGHSIKDFSCTVHLFSSEGINFTKYPIKSKARFDLICLDTTVDTSQKDIQYLLQYKERYAPIVRLVAINSIDHCRLFFGKKFDKNSREYLENVTAAVILRDRLGTLPPDLRPIYSQKLHYLVEWLENPTVPWPLPDIYPLKQYTSDVERSLLT 3hh0-a1-m1-cC_3hh0-a1-m1-cD Crystal structure of a transcriptional regulator, MerR family from Bacillus cereus Q81H70 Q81H70 2.67 X-RAY DIFFRACTION 53 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 127 127 3hh0-a1-m1-cB_3hh0-a1-m1-cA LAWLISEFASVGDVTVRALRYYDKINLLKPSDYTEGGHRLYTKDDLYVLQQIQSFKHLGFSLGEIQNIILQRDIETEVFLRQHFQREVLLAEQERIAKVLSHDETKKFQKEERVNVALFSSFLQTFI LAWLISEFASVGDVTVRALRYYDKINLLKPSDYTEGGHRLYTKDDLYVLQQIQSFKHLGFSLGEIQNIILQRDIETEVFLRQHFQREVLLAEQERIAKVLSHDETKKFQKEERVNVALFSSFLQTFI 3hh0-a1-m1-cD_3hh0-a1-m1-cA Crystal structure of a transcriptional regulator, MerR family from Bacillus cereus Q81H70 Q81H70 2.67 X-RAY DIFFRACTION 16 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 127 131 3hh0-a1-m1-cC_3hh0-a1-m1-cB LAWLISEFASVGDVTVRALRYYDKINLLKPSDYTEGGHRLYTKDDLYVLQQIQSFKHLGFSLGEIQNIILQRDIETEVFLRQHFQREVLLAEQERIAKVLSHDETKKFQKEERVNVALFSSFLQTFI LAWLISEFASVGDVTVRALRYYDKINLLKPSDYTEGGHRLYTKDDLYVLQQIQSFKHLGFSLGEIQNIILQRDIETEVFLRQHFQREVLLAEQERIAKVLSHDETKKFQKEERVNVALFSSFLQTFIWEKE 3hh0-a1-m1-cD_3hh0-a1-m1-cB Crystal structure of a transcriptional regulator, MerR family from Bacillus cereus Q81H70 Q81H70 2.67 X-RAY DIFFRACTION 119 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 127 128 3hh0-a1-m1-cC_3hh0-a1-m1-cA LAWLISEFASVGDVTVRALRYYDKINLLKPSDYTEGGHRLYTKDDLYVLQQIQSFKHLGFSLGEIQNIILQRDIETEVFLRQHFQREVLLAEQERIAKVLSHDETKKFQKEERVNVALFSSFLQTFI LAWLISEFASVGDVTVRALRYYDKINLLKPSDYTEGGHRLYTKDDLYVLQQIQSFKHLGFSLGEIQNIILQRDIETEVFLRQHFQREVLLAEQERIAKVLSHDETKKFQKEERVNVALFSSFLQTFIW 3hh1-a1-m1-cA_3hh1-a1-m1-cB The Structure of a Tetrapyrrole methylase family protein domain from Chlorobium tepidum TLS Q8KBY6 Q8KBY6 1.85 X-RAY DIFFRACTION 60 0.991 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 111 111 AHKGTLYVVATPLGNLDDTFRAVNTLRNAGAIACEDTRRTSILLKHFGIEGKRLVSYHSFNEERAVRQVIELLEEGSDVALVTDAGTPAISDPGYTASAAHAAGLPVVPVP HKGTLYVVATPLGNLDDTFRAVNTLRNAGAIACEDTRRTSILLKHFGIEGKRLVSYHSFNEERAVRQVIELLEEGSDVALVTDAGTPAISDPGYTASAAHAAGLPVVPVPG 3hh2-a1-m1-cD_3hh2-a1-m1-cC Crystal structure of the myostatin:follistatin 288 complex P19883 P19883 2.15 X-RAY DIFFRACTION 37 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 275 278 2b0u-a1-m1-cD_2b0u-a1-m1-cC 2p6a-a1-m1-cC_2p6a-a1-m1-cD 5jhw-a1-m1-cC_5jhw-a1-m1-cD GNCWLRQAKNGRCQVLYKTELSKEECCSTGRLSTSWTEEDVNDNTLFKWMIFNGGAPNCIPCKETCENVDCGPGKKCRMNKPRCVCAPDCSNITWKGPVCGLDGKTYRNECALLKARCKEQPELEVQYQGRCKKTCRDVFCPGSSTCVVDQTNNAYCVTCNRICPEEQYLCGNDGVTYSSACHLRKATCLLGRSIGLAYEGKCIKAKSCEDIQCTGGKKCLWDFKVGRGRCSLCDELCPEPVCASDNATYASECAMKEAACSSGVLLEVKHSGSC GNCWLRQAKNGRCQVLYKTELSKEECCSTGRLSTSWTEEDVNDNTLFKWMIFNGGAPNCIPCKETCENVDCGPGKKCRMNKKNKPRCVCAPDCSNITWKGPVCGLDGKTYRNECALLKARCKEQPELEVQYQGRCKKTCRDVFCPGSSTCVVDQTNNAYCVTCNRICPEQYLCGNDGVTYSSACHLRKATCLLGRSIGLAYEGKCIKAKSCEDIQCTGGKKCLWDFKVGRGRCSLCDELCPEPVCASDNATYASECAMKEAACSSGVLLEVKHSGSCN 3hh7-a1-m1-cA_3hh7-a1-m1-cB Structural and Functional Characterization of a Novel Homodimeric Three-finger Neurotoxin from the Venom of Ophiophagus hannah (King Cobra) A8N286 A8N286 1.55 X-RAY DIFFRACTION 49 1.0 8665 (Ophiophagus hannah) 8665 (Ophiophagus hannah) 65 65 TKCYNHQSTTPETTEICPDSGYFCYKSSWIDGREGRIERGCTFTCPELTPNGKYVYCCRRDKCNQ TKCYNHQSTTPETTEICPDSGYFCYKSSWIDGREGRIERGCTFTCPELTPNGKYVYCCRRDKCNQ 3hhc-a2-m1-cD_3hhc-a2-m1-cB Interferon-lambda is functionally an interferon but structurally related to the IL-10 family Q8IZI9 Q8IZI9 2.8 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 157 3hhc-a1-m1-cC_3hhc-a1-m1-cA PQELQAFKRAKDALEESLLLKDCKCRSRLFPRTWDLRQALEAELALTLKVLEATADTDPALGDVLDQPILSQLRACIQSPGCLEASVTFNLFRLLTRD CHIAQFKSLSPQELQAFKRAKDALEESLLLKDCKCRSRLFPRTWDLRQLQVRERPVALEAELALTLKVLEATADTDPALGDVLDQPLHTLHHILSQLRACIQPAGPRTRGRLHHWLHRLQEAPKKESPGCLEASVTFNLFRLLTRDLNCVASGDLCV 3hhd-a2-m1-cB_3hhd-a2-m1-cC Structure of the Human Fatty Acid Synthase KS-MAT Didomain as a Framework for Inhibitor Design. P49327 P49327 2.15 X-RAY DIFFRACTION 229 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 852 855 3hhd-a1-m1-cA_3hhd-a1-m1-cD GEEVVIAGMSGKLPESENLQEFWDNLIGGVDMVTDDDRRWKAGLYGLPRRSGKLKDLSRFDASFFGVHPKQAHTMDPQLRLLLEVTYEAIVDGGINPDSLRGTHTGVWVGVSGSETSEALSRDPETLVGYSMVGCQRAMMANRLSFFFDFRGPSIALDTACSSSLMALQNAYQAIHSGQCPAAIVGGINVLLKPNTSVQFLRLGMLSPEGTCKAFDTAGNGYCRSEGVVAVLLTKKSLARRVYATILNAGTNTDGFKEQGVTFPSGDIQEQLIRSLYQSAGVAPESFEYIEAHGTGTKVGDPQELNGITRALCATRQEPLLIGSTKSNMGHPEPASGLAALAKVLLSLEHGLWAPNLHFHSPNPEIPALLDGRLQVVDQPLPVRGGNVGINSFGFGGSNVHIILRPNTQPPPAPAPHATLPRLLRASGRTPEAVQKLLEQGLRHSQDLAFLSMLNDIAAVPATAMPFRGYAVLGGERGGPEVQQVPAGERPLWFICSGMGTQWRGMGLSLMRLDRFRDSILRSDEAVKPFGLKVSQLLLSTDESTFDDIVHSFVSLTAIQIGLIDLLSCMGLRPDGIVGHSLGEVACGYADGCLSQEEAVLAAYWRGQCIKEAHLPPGAMAAVGLSWEECKQRCPPGVVPACHNSKDTVTISGPQAPVFEFVEQLRKEGVFAKEVRTGGMAFHSYFMEAIAPPLLQELKKVIREPKPRSARWLSTSIPEAQWHSSLARTSSAEYNVNNLVSPVLFQEALWHVPEHAVVLEIAPHALLQAVLKRGLKPSCTIIPLMKKDHRDNLEFFLAGIGRLHLSGIDANPNALFPPVEFPAPRGTPLISPLIKWDHSLAWDVPAAEDFPN STGEEVVIAGMSGKLPESENLQEFWDNLIGGVDMVTDDDRRWKAGLYGLPRRSGKLKDLSRFDASFFGVHPKQAHTMDPQLRLLLEVTYEAIVDGGINPDSLRGTHTGVWVGVSGSETSEALSRDPETLVGYSMVGCQRAMMANRLSFFFDFRGPSIALDTACSSSLMALQNAYQAIHSGQCPAAIVGGINVLLKPNTSVQFLRLGMLSPEGTCKAFDTAGNGYCRSEGVVAVLLTKKSLARRVYATILNAGTNTDGFKEQGVTFPSGDIQEQLIRSLYQSAGVAPESFEYIEAHGTGTKVGDPQELNGITRALCATRQEPLLIGSTKSNMGHPEPASGLAALAKVLLSLEHGLWAPNLHFHSPNPEIPALLDGRLQVVDQPLPVRGGNVGINSFGFGGSNVHIILRPNTQPPPAPAPHATLPRLLRASGRTPEAVQKLLEQGLRHSQDLAFLSMLNDIAAVPATAMPFRGYAVLGGERGGPEVQQVPAGERPLWFICSGMGTQWRGMGLSLMRLDRFRDSILRSDEAVKPFGLKVSQLLLSTDESTFDDIVHSFVSLTAIQIGLIDLLSCMGLRPDGIVGHSLGEVACGYADGCLSQEEAVLAAYWRGQCIKEAHLPPGAMAAVGLSWEECKQRCPPGVVPACHNSKDTVTISGPQAPVFEFVEQLRKEGVFAKEVRTGGMAFHSYFMEAIAPPLLQELKKVIREPKPRSARWLSTSIPEAQWHSSLARTSSAEYNVNNLVSPVLFQEALWHVPEHAVVLEIAPHALLQAVLKRGLKPSCTIIPLMKKDHRDNLEFFLAGIGRLHLSGIDANPNALFPPVEFPAPRGTPLISPLIKWDHSLAWDVPAAEDFPNG 3hhe-a1-m1-cA_3hhe-a1-m1-cB Crystal structure of ribose-5-phosphate isomerase A from Bartonella henselae Q6G3V6 Q6G3V6 2.3 X-RAY DIFFRACTION 103 1.0 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 233 233 NVQQLKKMAALKALEFVEDDMRLGIGSGSTVNEFIPLLGERVANGLRVTCVATSQYSEQLCHKFGVPISTLEKIPELDLDIDGADEIGPEMTLIKGGGGALLHEKIVASASRAMFVIADETKMVKTLGAFALPIEVNPFGIHATRIAIEKAADNLGLSGEITLRMNGDDPFKTDGGHFIFDAFWGRILQPKLLSEALLAIPGVVEHGLFLGLASRAIVAMADSQIKVLEPFDF NVQQLKKMAALKALEFVEDDMRLGIGSGSTVNEFIPLLGERVANGLRVTCVATSQYSEQLCHKFGVPISTLEKIPELDLDIDGADEIGPEMTLIKGGGGALLHEKIVASASRAMFVIADETKMVKTLGAFALPIEVNPFGIHATRIAIEKAADNLGLSGEITLRMNGDDPFKTDGGHFIFDAFWGRILQPKLLSEALLAIPGVVEHGLFLGLASRAIVAMADSQIKVLEPFDF 3hhf-a1-m1-cB_3hhf-a1-m1-cA Structure of CrgA regulatory domain, a LysR-type transcriptional regulator from Neisseria meningitidis. Q9JXW7 Q9JXW7 2.3 X-RAY DIFFRACTION 103 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 200 202 3hhg-a1-m1-cA_3hhg-a1-m1-cB 3hhg-a1-m1-cC_3hhg-a1-m1-cD 3hhg-a1-m1-cF_3hhg-a1-m1-cE 3hhg-a1-m1-cG_3hhg-a1-m1-cH PQGVLSVDSAPVLHLLAPLAAKFNERYPHIRLSLVSSEGYINLIERKVDIALRAGDDSGLRARHLFDSRFRVIASPEYLAKHGTPQSTEELAGHQCLGFTEPGSLNTWAVLDAQGNPYKISPHFTASSGEILRSLCLSGCGIVCLSDFLVDNDIAEGKLIPLLAEQTSDKTHPFNAVYYSDKAVNLRLRVFLDFLVEELG PQGVLSVDSAPVLHLLAPLAAKFNERYPHIRLSLVSSEGYINLIERKVDIALRAGELDDSGLRARHLFDSRFRVIASPEYLAKHGTPQSTEELAGHQCLGFTEPGSLNTWAVLDAQGNPYKISPHFTASSGEILRSLCLSGCGIVCLSDFLVDNDIAEGKLIPLLAEQTSDKTHPFNAVYYSDKAVNLRLRVFLDFLVEELG 3hhg-a1-m1-cC_3hhg-a1-m1-cB Structure of CrgA, a LysR-type transcriptional regulator from Neisseria meningitidis. Q9JXW7 Q9JXW7 3.2 X-RAY DIFFRACTION 80 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 294 295 3hhg-a1-m1-cA_3hhg-a1-m1-cH 3hhg-a1-m1-cD_3hhg-a1-m1-cE 3hhg-a1-m1-cF_3hhg-a1-m1-cG KTNSEELTVFVQVVESGSFSRAAEQLAMANSAVSRIVKRLEEKLGVNLLNRTTRQLSLTEEGAQYFRRAQRILQEMAAAETEMLAVHEIPQGVLSVDSAMPMVLHLLAPLAAKFNERYPHIRLSLVSSEGYINLIERKVDIALRAGELDDSGLRARHLFDSRFRVIASPEYLAKHGTPQSTEELAGHQCLGFTEPGSLNTWAVLDAQGNPYKISPHFTASSGEILRSLCLSGCGIVCLSDFLVDNDIAEGKLIPLLAEQTSDKTHPFNAVYYSDKAVNLRLRVFLDFLVEELGN KTNSEELTVFVQVVESGSFSRAAEQLAMANSAVSRIVKRLEEKLGVNLLNRTTRQLSLTEEGAQYFRRAQRILQEMAAAETEMLAVHEIPQGVLSVDSAMPMVLHLLAPLAAKFNERYPHIRLSLVSSEGYINLIERKVDIALRAGELDDSGLRARHLFDSRFRVIASPEYLAKHGTPQSTEELAGHQCLGFTEPGSLNTWAVLDAQGNPYKISPHFTASSGEILRSLCLSGCGIVCLSDFLVDNDIAEGKLIPLLAEQTSDKTHPFNAVYYSDKAVNLRLRVFLDFLVEELGNN 3hhh-a1-m1-cA_3hhh-a1-m1-cB Crystal structure of transcriptional regulator, a member of PadR family, from Enterococcus faecalis V583 Q835S6 Q835S6 2.7 X-RAY DIFFRACTION 62 0.99 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 100 101 KQTELLKGILEGLVLAIIQRKETYGYEITKILNDQGFTEIVEGTVYTILLRLEKNQWVIAEKKPSEPRKFYRLTSSGEAELADFWQRWTLLSKQVNKKKN KQTELLKGILEGLVLAIIQRKETYGYEITKILNDQGFTEIVEGTVYTILLRLEKNQWVIAEKKPSEKGPRKFYRLTSSGEAELADFWQRWTLLSKQVNKKK 3hhl-a2-m1-cC_3hhl-a2-m1-cB Crystal structure of methylated RPA0582 protein Q6NC90 Q6NC90 2.65 X-RAY DIFFRACTION 119 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 127 129 3dca-a1-m1-cA_3dca-a1-m1-cB 3dca-a2-m1-cC_3dca-a2-m1-cD 3hhl-a1-m1-cA_3hhl-a1-m1-cD TGHIDPTKEVFAQFRANDREGPIHLNLVRLRPRAAYPDGRETTGAEAYAAYGRDSGPVSERLGGVVWQGQFELLIGPQDEHWDHVFIAEYPSVAAFVEIRDPVYREAVHRQAAVEDSRLIRLPLKPG TGHIDPTKEVFAQFRANDREGPIHLNLVRLRPRAAYPDGRETTGAEAYAAYGRDSGPVSERLGGVVWQGQFELLIGPQDEHWDHVFIAEYPSVAAFVEIRDPVYREAVKHRQAAVEDSRLIRLKPLKPG 3hhq-a6-m1-cP_3hhq-a6-m1-cQ Crystal structure of apo dUT1p from Saccharomyces cerevisiae P33317 P33317 2 X-RAY DIFFRACTION 109 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 125 125 3f4f-a1-m1-cA_3f4f-a1-m1-cB 3f4f-a1-m1-cC_3f4f-a1-m1-cA 3f4f-a1-m1-cC_3f4f-a1-m1-cB 3hhq-a1-m1-cA_3hhq-a1-m1-cB 3hhq-a1-m1-cA_3hhq-a1-m1-cC 3hhq-a1-m1-cB_3hhq-a1-m1-cC 3hhq-a2-m1-cD_3hhq-a2-m1-cE 3hhq-a2-m1-cD_3hhq-a2-m1-cF 3hhq-a2-m1-cF_3hhq-a2-m1-cE 3hhq-a3-m1-cG_3hhq-a3-m1-cI 3hhq-a3-m1-cH_3hhq-a3-m1-cG 3hhq-a3-m1-cH_3hhq-a3-m1-cI 3hhq-a4-m1-cJ_3hhq-a4-m1-cK 3hhq-a4-m1-cJ_3hhq-a4-m1-cL 3hhq-a4-m1-cK_3hhq-a4-m1-cL 3hhq-a5-m1-cN_3hhq-a5-m1-cM 3hhq-a5-m1-cN_3hhq-a5-m1-cO 3hhq-a5-m1-cO_3hhq-a5-m1-cM 3hhq-a6-m1-cP_3hhq-a6-m1-cR 3hhq-a6-m1-cQ_3hhq-a6-m1-cR 3hhq-a7-m1-cS_3hhq-a7-m1-cT 3hhq-a7-m1-cS_3hhq-a7-m1-cU 3hhq-a7-m1-cU_3hhq-a7-m1-cT 3hhq-a8-m1-cV_3hhq-a8-m1-cW 3hhq-a8-m1-cX_3hhq-a8-m1-cV 3hhq-a8-m1-cX_3hhq-a8-m1-cW 3p48-a1-m1-cA_3p48-a1-m1-cC 3p48-a1-m1-cB_3p48-a1-m1-cA 3p48-a1-m1-cB_3p48-a1-m1-cC KVLKIQLRSASATVPTKSATAAGYDIYASQDITIPAMGQGMVSTDISFTVPVGTYGRIAPRSGLAVKNGIQTGAGVVDRDYTGEVKVVLFNHSQRDFAIKKGDRVAQLILEKIVDDAQIVVVDSL KVLKIQLRSASATVPTKSATAAGYDIYASQDITIPAMGQGMVSTDISFTVPVGTYGRIAPRSGLAVKNGIQTGAGVVDRDYTGEVKVVLFNHSQRDFAIKKGDRVAQLILEKIVDDAQIVVVDSL 3hht-a1-m1-cA_3hht-a1-m2-cA A mutant of the nitrile hydratase from Geobacillus pallidus having enhanced thermostability Q84FS5 Q84FS5 1.16 X-RAY DIFFRACTION 19 1.0 33936 (Aeribacillus pallidus) 33936 (Aeribacillus pallidus) 200 200 1v29-a1-m1-cA_1v29-a1-m2-cA 2dpp-a1-m1-cA_2dpp-a1-m2-cA 7qom-a1-m1-cA_7qom-a1-m2-cA 7qop-a1-m1-cA_7qop-a1-m2-cA 7qou-a1-m1-cA_7qou-a1-m2-cA 7qoy-a1-m1-cA_7qoy-a1-m2-cA 7z0v-a1-m1-cA_7z0v-a1-m2-cA IDPRFPHHHPRPQSFWEARAKALESLLIEKGHLSSDAIERVIKHYEHELGPMNGAKVVAKAWTDPAFKQRLLEDSETVLRELGYYGLQGEHIRVVENTDTVHNVVVCTLSYPWPLLGLPPSWYKEPAYRARVVKEPRQVLKEFGLDLPDSVEIRVWDSSSEIRFMVLPQRPEGTEGMTEEELAKLVTRDSMIGVAKIEPP IDPRFPHHHPRPQSFWEARAKALESLLIEKGHLSSDAIERVIKHYEHELGPMNGAKVVAKAWTDPAFKQRLLEDSETVLRELGYYGLQGEHIRVVENTDTVHNVVVCTLSYPWPLLGLPPSWYKEPAYRARVVKEPRQVLKEFGLDLPDSVEIRVWDSSSEIRFMVLPQRPEGTEGMTEEELAKLVTRDSMIGVAKIEPP 3hht-a1-m1-cB_3hht-a1-m2-cB A mutant of the nitrile hydratase from Geobacillus pallidus having enhanced thermostability Q84FS6 Q84FS6 1.16 X-RAY DIFFRACTION 58 1.0 33936 (Aeribacillus pallidus) 33936 (Aeribacillus pallidus) 227 227 2dpp-a1-m1-cB_2dpp-a1-m2-cB 7qom-a1-m1-cB_7qom-a1-m2-cB 7qop-a1-m1-cB_7qop-a1-m2-cB 7qou-a1-m1-cB_7qou-a1-m2-cB 7qov-a1-m1-cB_7qov-a1-m2-cB 7qoy-a1-m1-cB_7qoy-a1-m2-cB 7z0v-a1-m1-cB_7z0v-a1-m2-cB MNGIHDVGGMDGFGKVMYVKEEEDIYFTHDWERLALGLVAGCMAQGLGMKAFDEFRIGIELMRPVDYLTSSYYGHWIATVAYNLVDTGVLDEKELDERTEVFSKKPDTKIPRREDPALVKLVEKALNDGLSPLREISASPRFKVGERIKTKNIHPTGHTRFPRYARDKYGVIDEVYGAHVFPDDAAHRKGENPQYLYRVRFEAEELWGYKQKDSVYIDLWESYMEPV MNGIHDVGGMDGFGKVMYVKEEEDIYFTHDWERLALGLVAGCMAQGLGMKAFDEFRIGIELMRPVDYLTSSYYGHWIATVAYNLVDTGVLDEKELDERTEVFSKKPDTKIPRREDPALVKLVEKALNDGLSPLREISASPRFKVGERIKTKNIHPTGHTRFPRYARDKYGVIDEVYGAHVFPDDAAHRKGENPQYLYRVRFEAEELWGYKQKDSVYIDLWESYMEPV 3hhv-a1-m1-cA_3hhv-a1-m2-cA The crystal structure of the Thioredoxin A2 from Sulfolobus solfataricus Q97WI4 Q97WI4 1.83 X-RAY DIFFRACTION 62 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 103 103 PVKHLNSKNFDEFITKNKIVVVDFWAEWCAPCLILAPVIEELANDYPQVAFGKLNTEESQDIAMRYGIMSLPTIMFFKNGELVDQILGAVPREEIEVRLKSLL PVKHLNSKNFDEFITKNKIVVVDFWAEWCAPCLILAPVIEELANDYPQVAFGKLNTEESQDIAMRYGIMSLPTIMFFKNGELVDQILGAVPREEIEVRLKSLL 3hhw-a1-m2-cC_3hhw-a1-m2-cD Complex of a vesicular stomatitis virus empty capsid with the nucleocapsid-binding domain of the phosphoprotein P04880 P04880 2.7 X-RAY DIFFRACTION 16 1.0 11277 (Vesicular stomatitis Indiana virus) 11277 (Vesicular stomatitis Indiana virus) 71 71 3hhw-a1-m1-cA_3hhw-a1-m1-cB 3hhw-a1-m1-cA_3hhw-a1-m1-cE 3hhw-a1-m1-cB_3hhw-a1-m1-cC 3hhw-a1-m1-cC_3hhw-a1-m1-cD 3hhw-a1-m1-cD_3hhw-a1-m2-cE 3hhw-a1-m1-cE_3hhw-a1-m2-cD 3hhw-a1-m2-cA_3hhw-a1-m2-cB 3hhw-a1-m2-cA_3hhw-a1-m2-cE 3hhw-a1-m2-cB_3hhw-a1-m2-cC 3hhz-a1-m1-cA_3hhz-a1-m1-cB 3hhz-a1-m1-cA_3hhz-a1-m1-cE 3hhz-a1-m1-cC_3hhz-a1-m2-cD 3hhz-a1-m1-cD_3hhz-a1-m1-cE 3hhz-a1-m1-cD_3hhz-a1-m2-cC 3hhz-a1-m2-cA_3hhz-a1-m2-cB 3hhz-a1-m2-cA_3hhz-a1-m2-cE 3hhz-a1-m2-cD_3hhz-a1-m2-cE AVSDVWSLSKTSTFQPKKASLQPLTISLDELFSSRGEFISVGGNGRSHKEAILLGLRYKKLYNQARVKYSL AVSDVWSLSKTSTFQPKKASLQPLTISLDELFSSRGEFISVGGNGRSHKEAILLGLRYKKLYNQARVKYSL 3hhy-a1-m1-cA_3hhy-a1-m2-cA Crystal structure determination of Catechol 1,2-Dioxygenase from Rhodococcus opacus 1CP in complex with catechol P95607 P95607 1.55 X-RAY DIFFRACTION 161 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 256 256 3hgi-a1-m1-cA_3hgi-a1-m2-cA 3hhx-a1-m1-cA_3hhx-a1-m2-cA 3hj8-a1-m1-cA_3hj8-a1-m2-cA 3hjq-a1-m1-cA_3hjq-a1-m2-cA 3hjs-a1-m1-cA_3hjs-a1-m2-cA 3hkp-a1-m1-cA_3hkp-a1-m2-cA 3i4v-a1-m1-cA_3i4v-a1-m2-cA 3i4y-a1-m1-cA_3i4y-a1-m2-cA 3i51-a1-m1-cA_3i51-a1-m2-cA ATADTSPERLAAIAKDALGALNDVILKHGVTYPEYRVFKQWLIDVGEGGEWPLFLDVFIEHSVEEVLARSRKGTMGSIEGPYYIENSPELPSKCTLPMREEDEKITPLVFSGQVTDLDGNGLAGAKVELWHADNDGYYSQFAPHLPEWNLRGTIIADEEGRYEITTIQPAPYQIPTDGPTGQFIEAQNGHPWRPAHLHLIVSAPGKESVTTQLYFKGGEWIDSDVASATKPELILDPKTGDDGKNYVTYNFVLDPA ATADTSPERLAAIAKDALGALNDVILKHGVTYPEYRVFKQWLIDVGEGGEWPLFLDVFIEHSVEEVLARSRKGTMGSIEGPYYIENSPELPSKCTLPMREEDEKITPLVFSGQVTDLDGNGLAGAKVELWHADNDGYYSQFAPHLPEWNLRGTIIADEEGRYEITTIQPAPYQIPTDGPTGQFIEAQNGHPWRPAHLHLIVSAPGKESVTTQLYFKGGEWIDSDVASATKPELILDPKTGDDGKNYVTYNFVLDPA 3hi0-a1-m1-cB_3hi0-a1-m1-cA Crystal structure of Putative exopolyphosphatase (17739545) from AGROBACTERIUM TUMEFACIENS str. C58 (Dupont) at 2.30 A resolution A9CJF9 A9CJF9 2.3 X-RAY DIFFRACTION 138 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 483 491 RSEAQGRLTGLAPVSVIDIGSNSVRLVVYEGLSRAPAVLFNEKVLCGLGKGLALTGRHEEGVTRALALRRFHVLSEQAQAQKLYVLATAAAREAENGPDFIREAEAILGCEIEVLSGEKEALYSAYGVISGFYQPDGIAGDLGGGSLELIDIKDKSCGEGITLPLGGLRLSEQSDGSLEKAATIARKHVKSFAKLLAAGEGRTFYAVGGTWRNIAKLHEISGYPLHQGYELPLEELNFLEEVIVSRDNRRSLLPFGAIAREVLRAKPAKIAFSAQGVREGYLYSLLTEAERESDPLLVAADELAILRARSPEHARELADWSGRTFPVFGIDETEEESRYRQAACLLADISWRAHPDYRGLQALNIIAHSSFVAITHPGRAYIALANYYRFEGLNDNGTTEPLAAAGERLQELGKLLGGLLRVVYLFSASPGVVDHLKFRKSDNPDIDLEFVVPHDYCDFAGERLDGRLQQLAKLTGKRLAFVF RSEAQGRLTGLAPVSVIDIGSNSVRLVVYEGLSRAPAVLFNEKVLCGLGKGLALTGRHEEGVTRALALRRFHVLSEQAQAQKLYVLATAAAREAENGPDFIREAEAILGCEIEVLSGEKEALYSAYGVISGFYQPDGIAGDLGGGSLELIDIKDKSCGEGITLPLGGLRLSEQSDGSLEKAATIARKHVKSFAKLLAAGEGRTFYAVGGTWRNIAKLHEISGYPLHQGYELPLEELNFLEEVIVSRDAWQAVSKNRRSLLPFGAIAREVLRAKPAKIAFSAQGVREGYLYSLLTEAERESDPLLVAADELAILRARSPEHARELADWSGRTFPVFGIDETEEESRYRQAACLLADISWRAHPDYRGLQALNIIAHSSFVAITHPGRAYIALANYYRFEGLNDNGTTEPLAAAGERLQELGKLLGGLLRVVYLFSASPGVVDHLKFRKSDNPDIDLEFVVPHDYCDFAGERLDGRLQQLAKLTGKRLAFVFE 3hi1-a1-m1-cG_3hi1-a1-m1-cJ Structure of HIV-1 gp120 (core with V3) in Complex with CD4-Binding-Site Antibody F105 P35961 P35961 2.9 X-RAY DIFFRACTION 162 1.0 362651 (Human immunodeficiency virus type 1 (isolate YU2)) 362651 (Human immunodeficiency virus type 1 (isolate YU2)) 289 289 TENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTGGSVITQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTNNAKTIIVQLNESVVINCTRPNNRQAHCNLSKTQWENTLEQIAIKLKEQFGNNKTIIFNPSSGGDPEIVTHSFNCGGEFFYCNSTQLFTWNDRNITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGKDTNGTEIFRPGGGDMRDNWRSELYKYKVVKIE TENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTGGSVITQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTNNAKTIIVQLNESVVINCTRPNNRQAHCNLSKTQWENTLEQIAIKLKEQFGNNKTIIFNPSSGGDPEIVTHSFNCGGEFFYCNSTQLFTWNDRNITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGKDTNGTEIFRPGGGDMRDNWRSELYKYKVVKIE 3hi6-a3-m1-cH_3hi6-a3-m1-cX Crystal structure of intermediate affinity I domain of integrin LFA-1 with the Fab fragment of its antibody AL-57 2.3 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 217 EVQLLESGGGLVQPGGSLRLSCAASGFTFSRYVMWWVRQAPGKGLEWVSYIWPSGGNTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCASSYDFWSNAFDIWGQGTMVTVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVES EVQLLESGGGLVQPGGSLRLSCAASGFTFSRYVMWWVRQAPGKGLEWVSYIWPSGGNTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCASSYDFWSNAFDIWGQGTMVTVSSASTKGPSVFPLAPSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVES 3hi7-a1-m1-cB_3hi7-a1-m1-cA Crystal structure of human diamine oxidase P19801 P19801 1.799 X-RAY DIFFRACTION 577 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 709 714 3hig-a1-m1-cB_3hig-a1-m1-cA 3hii-a1-m1-cB_3hii-a1-m1-cA 3k5t-a1-m1-cA_3k5t-a1-m2-cA 3mph-a1-m1-cB_3mph-a1-m1-cA RKAGVFSDLSNQELKAVHSFLWSKKELRLQPSSTTTMAKNTVFLIEMLLPKKYHVLRFLDKGERHPVREARAVIFFGDQEHPNVTEFAVGPLPGPCYMRALSPRPGYQSSWASRPISTAEYALLYHTLQEATKPLHQFFLNTTGFSFQDCHDRCLAFTDVAPRGVASGQRRSWLIIQRYVEGYFLHPTGLELLVDHGSTDAGHWAVEQVWYNGKFYGSPEELARKYADGEVDVVVLEPPLFSSHKPRGDFPSPIHVSGPRLVQPHGPRFRLEGNAVLYGGWSFAFRLRSSSGLQVLNVHFGGERIAYEVSVQEAVALYGGHTPAGMQTKYLDVGWGLGSVTHELAPGIDCPETATFLDTFHYYDADDPVHYPRALCLFEMPTGVPLRRHFNSNFKGGFNFYAGLKGQVLVLRTTSTVYNDYIWDFIFYPNGVMEAKMHATGYVHATFYTPEGLRHGTRLHTHLIGNIHTHLVHYRVDLDVAGTKNSFQTLQMKLENITNPWSPRHRVVQPTLEQTQYSWERQAAFRFKRKLPKYLLFTSPQENPWGHKRSYRLQIHSMADQVLPPGWQEEQAITWARYPLAVTKYRESELCSSSIYHQNDPWDPPVVFEQFLHNNENIENEDLVAWVTVGFLHIPHSEDIPNTATPGNSVGFLLRPFNFFPEDPSLASRDTVIVWPRDNGPNYVQRWIPEDRDCSMPPPFSYNGTYRPV PRKAGVFSDLSNQELKAVHSFLWSKKELRLQPSSTTTMAKNTVFLIEMLLPKKYHVLRFLDKGERHPVREARAVIFFGDQEHPNVTEFAVGPLPGPCYMRALSPRPGYQSSWASRPISTAEYALLYHTLQEATKPLHQFFLNTTGFSFQDCHDRCLAFTDVAPRGVASGQRRSWLIIQRYVEGYFLHPTGLELLVDHGSTDAGHWAVEQVWYNGKFYGSPEELARKYADGEVDVVVLEDPLEPPLFSSHKPRGDFPSPIHVSGPRLVQPHGPRFRLEGNAVLYGGWSFAFRLRSSSGLQVLNVHFGGERIAYEVSVQEAVALYGGHTPAGMQTKYLDVGWGLGSVTHELAPGIDCPETATFLDTFHYYDADDPVHYPRALCLFEMPTGVPLRRHFNSNFKGGFNFYAGLKGQVLVLRTTSTVYNDYIWDFIFYPNGVMEAKMHATGYVHATFYTPEGLRHGTRLHTHLIGNIHTHLVHYRVDLDVAGTKNSFQTLQMKLENITNPWSPRHRVVQPTLEQTQYSWERQAAFRFKRKLPKYLLFTSPQENPWGHKRSYRLQIHSMADQVLPPGWQEEQAITWARYPLAVTKYRESELCSSSIYHQNDPWDPPVVFEQFLHNNENIENEDLVAWVTVGFLHIPHSEDIPNTATPGNSVGFLLRPFNFFPEDPSLASRDTVIVWPRDNGPNYVQRWIPEDRDCSMPPPFSYNGTYRPV 3hi8-a2-m1-cE_3hi8-a2-m1-cF Crystal structure of proliferating cell nuclear antigen (PCNA) from Haloferax volcanii D0VWY8 D0VWY8 3.202 X-RAY DIFFRACTION 37 1.0 2246 (Haloferax volcanii) 2246 (Haloferax volcanii) 247 247 3hi8-a1-m1-cA_3hi8-a1-m1-cB 3hi8-a1-m1-cA_3hi8-a1-m1-cC 3hi8-a1-m1-cB_3hi8-a1-m1-cC 3hi8-a2-m1-cD_3hi8-a2-m1-cE 3hi8-a2-m1-cD_3hi8-a2-m1-cF 3ifv-a1-m1-cA_3ifv-a1-m1-cC 3ifv-a1-m1-cB_3ifv-a1-m1-cC MFKAIVSAATLRDALDSVSVLVDECKIRLNEESLSIRAVDPANVGMVDLTLDAAAFESYEAHGGVIGVNLSRLEEVAGMAGAGDLIHLTLDEETRKLNIRIDGLSYTLALIDPDSIRQEPDIPDLDLAANIVLEGTHLDRGIKAADMVSDHIRLRVDGAEETFHIEAEGDTDDVDLSLPPADLISIEAGAADSLFSLDYLKDMNKAIPTDAEVTVELGEEFPVKLHYQIAEGMGTITYMLAPRIQSD MFKAIVSAATLRDALDSVSVLVDECKIRLNEESLSIRAVDPANVGMVDLTLDAAAFESYEAHGGVIGVNLSRLEEVAGMAGAGDLIHLTLDEETRKLNIRIDGLSYTLALIDPDSIRQEPDIPDLDLAANIVLEGTHLDRGIKAADMVSDHIRLRVDGAEETFHIEAEGDTDDVDLSLPPADLISIEAGAADSLFSLDYLKDMNKAIPTDAEVTVELGEEFPVKLHYQIAEGMGTITYMLAPRIQSD 3hia-a1-m1-cA_3hia-a1-m1-cB Crystal structure of the choline binding domain of Spr1274 in Streptococcus pneumoniae Q8DP99 Q8DP99 2.38 X-RAY DIFFRACTION 42 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 66 83 PTTGWKQENGMWYFYNTDGSMATGWVQVNGSWYYLNSNGSMKVNQWFQVGGKWYYVNTSGELAVNT VAPTTGWKQENGMWYFYNTDGSMATGWVQVNGSWYYLNSNGSMKVNQWFQVGGKWYYVNTSGELAVNTSIDGYRVNDNGEWVR 3hia-a1-m1-cA_3hia-a1-m1-cC Crystal structure of the choline binding domain of Spr1274 in Streptococcus pneumoniae Q8DP99 Q8DP99 2.38 X-RAY DIFFRACTION 33 0.985 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 66 74 PTTGWKQENGMWYFYNTDGSMATGWVQVNGSWYYLNSNGSMKVNQWFQVGGKWYYVNTSGELAVNT TTGWKQENGMWYFYNTDGSMATGWVQVNGSWYYLNSNGSMKVNQWFQVGGKWYYVNTSGELAVNTSYRVNDNGE 3hia-a1-m1-cC_3hia-a1-m1-cB Crystal structure of the choline binding domain of Spr1274 in Streptococcus pneumoniae Q8DP99 Q8DP99 2.38 X-RAY DIFFRACTION 27 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 74 83 TTGWKQENGMWYFYNTDGSMATGWVQVNGSWYYLNSNGSMKVNQWFQVGGKWYYVNTSGELAVNTSYRVNDNGE VAPTTGWKQENGMWYFYNTDGSMATGWVQVNGSWYYLNSNGSMKVNQWFQVGGKWYYVNTSGELAVNTSIDGYRVNDNGEWVR 3hid-a1-m1-cA_3hid-a1-m2-cA Crystal structure of adenylosuccinate synthetase from Yersinia pestis CO92 Q8ZIV7 Q8ZIV7 1.6 X-RAY DIFFRACTION 190 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 424 424 MGKNVVVLGTQWGDEGKGKVVDLLTERAKYVVRYQGGHNAGHTLVINGEKTVLHLIPSGILRENVISIIGNGVVLAPDALMKEMTELEARGVPVRERLLLSEACPLILPYHVALDNAREKARGRGIGPAYEDKVARRGLRVSDLFNKETFAIKLKEIVEYHNFQLVHYYKEAAVDYQKVLDDVLAIADILTAMVVDVSELLDNARKQGELIMFEGAQGTLLDIDHGTYPYVTSSNTTAGGVATGSGLGPRYVDYVLGIVKAYSTRVGAGPFPTELNDETGEFLRKQGNEYGATTGRSRRTGWLDIVAVRRAVQINSLSGFCMTKLDVLDGLKEVKLCVGYRMPDGREVDTTPLAAEGWEGIEPIYETMPGWSETTFGVKEHSKLPQAALNYIQRVEELTGVPIDIISTGPDRDETMILRDPFDA MGKNVVVLGTQWGDEGKGKVVDLLTERAKYVVRYQGGHNAGHTLVINGEKTVLHLIPSGILRENVISIIGNGVVLAPDALMKEMTELEARGVPVRERLLLSEACPLILPYHVALDNAREKARGRGIGPAYEDKVARRGLRVSDLFNKETFAIKLKEIVEYHNFQLVHYYKEAAVDYQKVLDDVLAIADILTAMVVDVSELLDNARKQGELIMFEGAQGTLLDIDHGTYPYVTSSNTTAGGVATGSGLGPRYVDYVLGIVKAYSTRVGAGPFPTELNDETGEFLRKQGNEYGATTGRSRRTGWLDIVAVRRAVQINSLSGFCMTKLDVLDGLKEVKLCVGYRMPDGREVDTTPLAAEGWEGIEPIYETMPGWSETTFGVKEHSKLPQAALNYIQRVEELTGVPIDIISTGPDRDETMILRDPFDA 3hie-a2-m1-cD_3hie-a2-m1-cC Structure of the membrane-binding domain of the Sec3 subunit of the Exocyst complex P33332 P33332 2 X-RAY DIFFRACTION 124 0.987 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 157 163 3hie-a1-m1-cA_3hie-a1-m1-cB NFLAEQYERDRKAIINCCFSRPNNYITHVRIIEDSKFPSSRPPPDSKLENKKKRLLILSAKPNNAKLIQIHKARENSDGSFQIGRTWQLTELVRVEKDLEISEGFILTSKKYYWETNSAKERTVFIKSLITLYIQTFEGHVPELVNWDLSLFYLDER LAEQYERDRKAIINCCFSRPDHKTGEPPNNYITHVRIIEDSKFPSSRPPPDSKLENKKKRLLILSAKPNNAKLIQIHKARENSDGSFQIGRTWQLTELVRVEKDLEISEGFILTSKKYYWETNSAKERTVFIKSLITLYIQTFEGHVPELVNWDLSLFYLDER 3him-a1-m1-cA_3him-a1-m1-cB The Crystal Structure of a Bacterial Regulatory Protein in the tetR Family from Rhodococcus RHA1 to 2.2A Q0SD48 Q0SD48 2.2 X-RAY DIFFRACTION 85 1.0 132919 (Rhodococcus jostii) 132919 (Rhodococcus jostii) 190 192 TSKAAARIRAAAIEVFAAKGYGATTTREIAASLDMSPGAVYPHYKTKESLLYAISLEGHHSVLAAITAADFPDIAAPDRLMSTVTAYVTWHADNRASARVGQYELRSLSPEHFAIIADIRRSTTKVFTRIIEAGATAGDFHPFDIEAAALAITSLGIDVSRWFPSHTYSDPRIIAARYVELALRMVGCAD LGTSKAAARIRAAAIEVFAAKGYGATTTREIAASLDMSPGAVYPHYKTKESLLYAISLEGHHSVLAAITAADFPDIAAPDRLMSTVTAYVTWHADNRASARVGQYELRSLSPEHFAIIADIRRSTTKVFTRIIEAGATAGDFHPFDIEAAALAITSLGIDVSRWFPSHTYSDPRIIAARYVELALRMVGCAD 3hin-a2-m3-cB_3hin-a2-m1-cA CRYSTAL STRUCTURE OF putative enoyl-CoA hydratase from Rhodopseudomonas palustris CGA009 Q6N8W7 Q6N8W7 2 X-RAY DIFFRACTION 38 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 251 258 3hin-a2-m1-cB_3hin-a2-m2-cA 3hin-a2-m2-cB_3hin-a2-m3-cA TIADPSTLVVDTVGPVLTIGLNRPKKRNALNDGLMAALKDCLTDIPDQIRAVVIHGIGDHFSAGLDLSELRERDATEGLVHSQTWHRVFDKIQYCRVPVIAALKGAVIGGGLELACAAHIRVAEASAYYALPEGSRGIFVGGGGSVRLPRLIGVARMADMMLTGRVYSAAEGVVHGFSQYLIENGSAYDKALELGNRVAQNAPLTNFAVLQALPMIAEANPQTGLLMESLMATVAQSDQEAKTRIRAFLDH AATIADPSTLVVDTVGPVLTIGLNRPKKRNALNDGLMAALKDCLTDIPDQIRAVVIHGIGDHFSAGLDLSELRERDATEGLVHSQTWHRVFDKIQYCRVPVIAALKGAVIGGGLELACAAHIRVAEASAYYALPEGSRGIFVGGGGSVRLPRLIGVARMADMMLTGRVYSAAEGVVHGFSQYLIENGSAYDKALELGNRVAQNAPLTNFAVLQALPMIAEANPQTGLLMESLMATVAQSDQEAKTRIRAFLDHKTAKV 3hin-a2-m3-cB_3hin-a2-m2-cA CRYSTAL STRUCTURE OF putative enoyl-CoA hydratase from Rhodopseudomonas palustris CGA009 Q6N8W7 Q6N8W7 2 X-RAY DIFFRACTION 25 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 251 258 3hin-a2-m1-cB_3hin-a2-m3-cA 3hin-a2-m2-cB_3hin-a2-m1-cA TIADPSTLVVDTVGPVLTIGLNRPKKRNALNDGLMAALKDCLTDIPDQIRAVVIHGIGDHFSAGLDLSELRERDATEGLVHSQTWHRVFDKIQYCRVPVIAALKGAVIGGGLELACAAHIRVAEASAYYALPEGSRGIFVGGGGSVRLPRLIGVARMADMMLTGRVYSAAEGVVHGFSQYLIENGSAYDKALELGNRVAQNAPLTNFAVLQALPMIAEANPQTGLLMESLMATVAQSDQEAKTRIRAFLDH AATIADPSTLVVDTVGPVLTIGLNRPKKRNALNDGLMAALKDCLTDIPDQIRAVVIHGIGDHFSAGLDLSELRERDATEGLVHSQTWHRVFDKIQYCRVPVIAALKGAVIGGGLELACAAHIRVAEASAYYALPEGSRGIFVGGGGSVRLPRLIGVARMADMMLTGRVYSAAEGVVHGFSQYLIENGSAYDKALELGNRVAQNAPLTNFAVLQALPMIAEANPQTGLLMESLMATVAQSDQEAKTRIRAFLDHKTAKV 3hin-a4-m2-cB_3hin-a4-m3-cB CRYSTAL STRUCTURE OF putative enoyl-CoA hydratase from Rhodopseudomonas palustris CGA009 Q6N8W7 Q6N8W7 2 X-RAY DIFFRACTION 135 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 251 251 3hin-a2-m1-cA_3hin-a2-m2-cA 3hin-a2-m1-cA_3hin-a2-m3-cA 3hin-a2-m1-cB_3hin-a2-m2-cB 3hin-a2-m1-cB_3hin-a2-m3-cB 3hin-a2-m2-cA_3hin-a2-m3-cA 3hin-a2-m2-cB_3hin-a2-m3-cB 3hin-a3-m1-cA_3hin-a3-m2-cA 3hin-a3-m1-cA_3hin-a3-m3-cA 3hin-a3-m2-cA_3hin-a3-m3-cA 3hin-a4-m1-cB_3hin-a4-m2-cB 3hin-a4-m1-cB_3hin-a4-m3-cB TIADPSTLVVDTVGPVLTIGLNRPKKRNALNDGLMAALKDCLTDIPDQIRAVVIHGIGDHFSAGLDLSELRERDATEGLVHSQTWHRVFDKIQYCRVPVIAALKGAVIGGGLELACAAHIRVAEASAYYALPEGSRGIFVGGGGSVRLPRLIGVARMADMMLTGRVYSAAEGVVHGFSQYLIENGSAYDKALELGNRVAQNAPLTNFAVLQALPMIAEANPQTGLLMESLMATVAQSDQEAKTRIRAFLDH TIADPSTLVVDTVGPVLTIGLNRPKKRNALNDGLMAALKDCLTDIPDQIRAVVIHGIGDHFSAGLDLSELRERDATEGLVHSQTWHRVFDKIQYCRVPVIAALKGAVIGGGLELACAAHIRVAEASAYYALPEGSRGIFVGGGGSVRLPRLIGVARMADMMLTGRVYSAAEGVVHGFSQYLIENGSAYDKALELGNRVAQNAPLTNFAVLQALPMIAEANPQTGLLMESLMATVAQSDQEAKTRIRAFLDH 3hip-a1-m1-cA_3hip-a1-m2-cA HIGH-POTENTIAL IRON-SULFUR PROTEIN FROM CHROMATIUM PURPURATUM P59860 P59860 2.8 X-RAY DIFFRACTION 22 1.0 37487 (Marichromatium purpuratum) 37487 (Marichromatium purpuratum) 82 82 VPANAVTESDPAAVALKYHRDAASSERVAAARPGLPPEEQHCENCQFMNPDSAAADWKGCQLFPGKLINLSGWCASWTLRAG VPANAVTESDPAAVALKYHRDAASSERVAAARPGLPPEEQHCENCQFMNPDSAAADWKGCQLFPGKLINLSGWCASWTLRAG 3hip-a2-m1-cB_3hip-a2-m1-cC HIGH-POTENTIAL IRON-SULFUR PROTEIN FROM CHROMATIUM PURPURATUM P59860 P59860 2.8 X-RAY DIFFRACTION 29 1.0 37487 (Marichromatium purpuratum) 37487 (Marichromatium purpuratum) 80 82 VPANAVTESDPAAVALKYHRDAASSERVAAARPGLPPEEQHCENCQFMNPDSAAADWKGCQLFPGKLINLSGWCASWTLR VPANAVTESDPAAVALKYHRDAASSERVAAARPGLPPEEQHCENCQFMNPDSAAADWKGCQLFPGKLINLSGWCASWTLRAG 3hiu-a2-m1-cC_3hiu-a2-m1-cD The crystal structure of protein (XCC3681) from Xanthomonas campestris pv. campestris str. ATCC 33913 Q8P4M6 Q8P4M6 1.85 X-RAY DIFFRACTION 86 0.986 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 138 145 3hiu-a1-m1-cA_3hiu-a1-m1-cB QSRERLVKWLQDAYAEKEAETAAASRIEHYPELKRRIEQHVEETQQQSAGVQRCLELLNGSIPTATDEVTKGVGISYAFEHLEIASYRALVVAARSAGEQEVAQICEDILQQEIEAEWLIEHQEAIVVAFLEREQLEG QSRERLVKWLQDAYAEKEAETAAASRIEHYPELKRRIEQHVEETQQQSAGVQRCLELLNGSIPTAKGLSSVLASTDEVTKGVGISYAFEHLEIASYRALVVAARSAGEQEVAQICEDILQQEIEAEWLIEHQEAIVVAFLEREQL 3hix-a5-m1-cC_3hix-a5-m3-cC Crystal Structure of the Rhodanese_3 like domain from Anabaena sp Alr3790 protein. Northeast Structural Genomics Consortium Target NsR437i Q8YQN0 Q8YQN0 1.92 X-RAY DIFFRACTION 41 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 84 84 3hix-a4-m1-cA_3hix-a4-m2-cB AFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL AFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL 3hj6-a1-m1-cA_3hj6-a1-m1-cB Structure of Halothermothrix orenii fructokinase (FRK) B8CZ52 B8CZ52 2.8 X-RAY DIFFRACTION 60 1.0 373903 (Halothermothrix orenii H 168) 373903 (Halothermothrix orenii H 168) 276 276 LDVVSLGEILVDISTEEVNSLSQSREYTRHFGGSPANIAVNLSRLGKKVALISRLGADAFGNYLLDVLKGEQIITDGIQQDKERRTTIVYVSKSTRTPDWLPYREADYLQEDDIIFELIKKVFHLSTFILSRKPARDTAIKAFNYAREQGKIVCFDPCYRKVLWPEGDDGAGVVEEIISRADFVKPSLDDARHLFGPDSPENYVKRYLELGVKAVILTLGEEGVIASDGEEIIRIPAFSEDGAGDAFWSGFICGLLDGYTVKRSIKLGNGVAAFKI LDVVSLGEILVDISTEEVNSLSQSREYTRHFGGSPANIAVNLSRLGKKVALISRLGADAFGNYLLDVLKGEQIITDGIQQDKERRTTIVYVSKSTRTPDWLPYREADYLQEDDIIFELIKKVFHLSTFILSRKPARDTAIKAFNYAREQGKIVCFDPCYRKVLWPEGDDGAGVVEEIISRADFVKPSLDDARHLFGPDSPENYVKRYLELGVKAVILTLGEEGVIASDGEEIIRIPAFSEDGAGDAFWSGFICGLLDGYTVKRSIKLGNGVAAFKI 3hj9-a1-m1-cB_3hj9-a1-m1-cA Crystal structure of a putative nitroreductase (reut_a1228) from ralstonia eutropha jmp134 at 2.00 A resolution Q472T4 Q472T4 2 X-RAY DIFFRACTION 144 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 202 207 LPYEPVKGLLPRPAVGTSERVITLPEPDRTSGPLGTLWLRKSTREFDQQPLPLKQLSELLWAAAGVNRSLGGGRTAPSPYGETVIDVYVALPAGLYRYDPVHHCLELKRAADLRSTGYQDFVGAPLDLVFVANHGRQEPPKLRETFSAAAAGAAENAYLYCASAGLGAVVRGWLNRRQLAEHSLNEDEEPILSQTIGRAASH NDLKRLPYEPVKGLLPRPAVGTSERVITLPEPDRTSGPLGTLWLRKSTREFDQQPLPLKQLSELLWAAAGVNRSLGGGRTAPSPYGETVIDVYVALPAGLYRYDPVHHCLELKRAADLRSTGYQDFVGAPLDLVFVANHGRQEPPKLRETFSAAAAGAAENAYLYCASAGLGAVVRGWLNRRQLAEHSLNEDEEPILSQTIGRAASH 3hja-a1-m1-cA_3hja-a1-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Borrelia burgdorferi P46795 P46795 2.2 X-RAY DIFFRACTION 132 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 334 334 3hja-a1-m1-cB_3hja-a1-m1-cC MKLAINGFGRIGRNVFKIAFERGIDIVAINDLTDPKTLAHLLKYDSTFGVYNKKVESRDGAIVVDGREIKIIAERDPKNLPWAKLGIDVVIESTGVFSSATSDKGGYLDHVNHAGAKKVILTVPAKDEIKTIVLGVNDHDINSDLKAVSNASCTTNCLAPLAKVLHESFGIEQGLMTTVHAYTNDQRILDLPHSDLRRARAAALSIIPTSTGAAKAVGLVLPELKGKLNGTSMRVPVPTGSIVDLTVQLKKKDVTKEEINSVLRKASETPELKGILGYTEDPIVSSDIKGNSHSSIVDGLETMVLENGFAKILSWYDNEFGYSTRVVDLAQKLV MKLAINGFGRIGRNVFKIAFERGIDIVAINDLTDPKTLAHLLKYDSTFGVYNKKVESRDGAIVVDGREIKIIAERDPKNLPWAKLGIDVVIESTGVFSSATSDKGGYLDHVNHAGAKKVILTVPAKDEIKTIVLGVNDHDINSDLKAVSNASCTTNCLAPLAKVLHESFGIEQGLMTTVHAYTNDQRILDLPHSDLRRARAAALSIIPTSTGAAKAVGLVLPELKGKLNGTSMRVPVPTGSIVDLTVQLKKKDVTKEEINSVLRKASETPELKGILGYTEDPIVSSDIKGNSHSSIVDGLETMVLENGFAKILSWYDNEFGYSTRVVDLAQKLV 3hja-a1-m1-cB_3hja-a1-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Borrelia burgdorferi P46795 P46795 2.2 X-RAY DIFFRACTION 27 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 334 334 3hja-a1-m1-cA_3hja-a1-m1-cC MKLAINGFGRIGRNVFKIAFERGIDIVAINDLTDPKTLAHLLKYDSTFGVYNKKVESRDGAIVVDGREIKIIAERDPKNLPWAKLGIDVVIESTGVFSSATSDKGGYLDHVNHAGAKKVILTVPAKDEIKTIVLGVNDHDINSDLKAVSNASCTTNCLAPLAKVLHESFGIEQGLMTTVHAYTNDQRILDLPHSDLRRARAAALSIIPTSTGAAKAVGLVLPELKGKLNGTSMRVPVPTGSIVDLTVQLKKKDVTKEEINSVLRKASETPELKGILGYTEDPIVSSDIKGNSHSSIVDGLETMVLENGFAKILSWYDNEFGYSTRVVDLAQKLV MKLAINGFGRIGRNVFKIAFERGIDIVAINDLTDPKTLAHLLKYDSTFGVYNKKVESRDGAIVVDGREIKIIAERDPKNLPWAKLGIDVVIESTGVFSSATSDKGGYLDHVNHAGAKKVILTVPAKDEIKTIVLGVNDHDINSDLKAVSNASCTTNCLAPLAKVLHESFGIEQGLMTTVHAYTNDQRILDLPHSDLRRARAAALSIIPTSTGAAKAVGLVLPELKGKLNGTSMRVPVPTGSIVDLTVQLKKKDVTKEEINSVLRKASETPELKGILGYTEDPIVSSDIKGNSHSSIVDGLETMVLENGFAKILSWYDNEFGYSTRVVDLAQKLV 3hja-a1-m1-cC_3hja-a1-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Borrelia burgdorferi P46795 P46795 2.2 X-RAY DIFFRACTION 101 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 334 334 3hja-a1-m1-cA_3hja-a1-m1-cB MKLAINGFGRIGRNVFKIAFERGIDIVAINDLTDPKTLAHLLKYDSTFGVYNKKVESRDGAIVVDGREIKIIAERDPKNLPWAKLGIDVVIESTGVFSSATSDKGGYLDHVNHAGAKKVILTVPAKDEIKTIVLGVNDHDINSDLKAVSNASCTTNCLAPLAKVLHESFGIEQGLMTTVHAYTNDQRILDLPHSDLRRARAAALSIIPTSTGAAKAVGLVLPELKGKLNGTSMRVPVPTGSIVDLTVQLKKKDVTKEEINSVLRKASETPELKGILGYTEDPIVSSDIKGNSHSSIVDGLETMVLENGFAKILSWYDNEFGYSTRVVDLAQKLV MKLAINGFGRIGRNVFKIAFERGIDIVAINDLTDPKTLAHLLKYDSTFGVYNKKVESRDGAIVVDGREIKIIAERDPKNLPWAKLGIDVVIESTGVFSSATSDKGGYLDHVNHAGAKKVILTVPAKDEIKTIVLGVNDHDINSDLKAVSNASCTTNCLAPLAKVLHESFGIEQGLMTTVHAYTNDQRILDLPHSDLRRARAAALSIIPTSTGAAKAVGLVLPELKGKLNGTSMRVPVPTGSIVDLTVQLKKKDVTKEEINSVLRKASETPELKGILGYTEDPIVSSDIKGNSHSSIVDGLETMVLENGFAKILSWYDNEFGYSTRVVDLAQKLV 3hjb-a2-m1-cC_3hjb-a2-m1-cD 1.5 Angstrom Crystal Structure of Glucose-6-phosphate Isomerase from Vibrio cholerae. Q9KUY4 Q9KUY4 1.5 X-RAY DIFFRACTION 474 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 551 551 3hjb-a1-m1-cA_3hjb-a1-m1-cB AMLKNINPTQTQAWKALTAHFESAQDMDLKALFAQDSERFAKYSARFGQDILVDYSKNLVNAETMQHLFALAKETDLQSAITAMFKGEAINQTEDRAVLHTALRNRSNSPVLVNGEDVMPAVNAVLAKMKAFSERVIGGEWKGFTGKAITDVVNIGIGGSDLGPYMVTEALVPYKNHLTVHFVSNVDGTHMAETLKNVDPETTLFLVASKTFTTQETMTNAHTARDWFLKAAGDEAHVAKHFAALSTNGKAVAEFGIDTDNMFEFWDWVGGRYSLWSAIGLSIILSIGYDNFVELLAGAHEMDQHFVNTPFESNIPVILALIGIWYNNFHGAESEAILPYDQYLHRFAAYFQQGNMESNGKYVDRNGNPVTYQTGPIIWGEPGTNGQHAFYQLIHQGTKLIPCDFIAPAVSHNLVGDHHQKLMSNFFAQTEALAFGKSAQAVQAELEKAGKSAAEIAALVPFKVFEGNRPTNSILVKQITPRTLGNLIAMYEHKIFVQGVIWNIFSFDQWGVELGKQLANQILPELADSAAVTSHDSSTNGLINAFKAFRA AMLKNINPTQTQAWKALTAHFESAQDMDLKALFAQDSERFAKYSARFGQDILVDYSKNLVNAETMQHLFALAKETDLQSAITAMFKGEAINQTEDRAVLHTALRNRSNSPVLVNGEDVMPAVNAVLAKMKAFSERVIGGEWKGFTGKAITDVVNIGIGGSDLGPYMVTEALVPYKNHLTVHFVSNVDGTHMAETLKNVDPETTLFLVASKTFTTQETMTNAHTARDWFLKAAGDEAHVAKHFAALSTNGKAVAEFGIDTDNMFEFWDWVGGRYSLWSAIGLSIILSIGYDNFVELLAGAHEMDQHFVNTPFESNIPVILALIGIWYNNFHGAESEAILPYDQYLHRFAAYFQQGNMESNGKYVDRNGNPVTYQTGPIIWGEPGTNGQHAFYQLIHQGTKLIPCDFIAPAVSHNLVGDHHQKLMSNFFAQTEALAFGKSAQAVQAELEKAGKSAAEIAALVPFKVFEGNRPTNSILVKQITPRTLGNLIAMYEHKIFVQGVIWNIFSFDQWGVELGKQLANQILPELADSAAVTSHDSSTNGLINAFKAFRA 3hjc-a1-m2-cA_3hjc-a1-m6-cA Crystal structure of the carboxy-terminal domain of HSP90 from Leishmania major, LmjF33.0312 Q4Q4I6 Q4Q4I6 2.5 X-RAY DIFFRACTION 33 1.0 5664 (Leishmania major) 5664 (Leishmania major) 387 387 3hjc-a1-m1-cA_3hjc-a1-m4-cA 3hjc-a1-m3-cA_3hjc-a1-m5-cA HKPLWTRDPKDVTKEEYAAFYKAISNDWEDPAATKHFSVEGQLEFRSIMFVPKRAPFPNKKRNNIKLYVRRVFIMDNCEDLCPDWLGFVKGVVDSEDLPENLQQNKILKVIRKNIVKKCLEMFDEVAENKEDYKQFYEQFGKNIKLGIHEDTANRKKLMELLRFYSTESGEEMTTLKDYVTRMKAGQKSIYYITGDSKKKLETSPFIEQARRRGLEVLFMTEPIDEYVMQQVKDFEDKKFACLTKEGVHFEESEEEKQQREEEKAACEKLCKTMKEVLGDKVEKVIVSERLSTSPCILVTSEFGWSAHMEQIMRNQQYMMSKKTMELNPRHPIIKELRRRVGADNDKAVKDLVFLLFDTSLLTSGFQLEDPTGYAERINRMIKLGLS HKPLWTRDPKDVTKEEYAAFYKAISNDWEDPAATKHFSVEGQLEFRSIMFVPKRAPFPNKKRNNIKLYVRRVFIMDNCEDLCPDWLGFVKGVVDSEDLPENLQQNKILKVIRKNIVKKCLEMFDEVAENKEDYKQFYEQFGKNIKLGIHEDTANRKKLMELLRFYSTESGEEMTTLKDYVTRMKAGQKSIYYITGDSKKKLETSPFIEQARRRGLEVLFMTEPIDEYVMQQVKDFEDKKFACLTKEGVHFEESEEEKQQREEEKAACEKLCKTMKEVLGDKVEKVIVSERLSTSPCILVTSEFGWSAHMEQIMRNQQYMMSKKTMELNPRHPIIKELRRRVGADNDKAVKDLVFLLFDTSLLTSGFQLEDPTGYAERINRMIKLGLS 3hjc-a1-m5-cA_3hjc-a1-m6-cA Crystal structure of the carboxy-terminal domain of HSP90 from Leishmania major, LmjF33.0312 Q4Q4I6 Q4Q4I6 2.5 X-RAY DIFFRACTION 23 1.0 5664 (Leishmania major) 5664 (Leishmania major) 387 387 3hjc-a1-m1-cA_3hjc-a1-m2-cA 3hjc-a1-m1-cA_3hjc-a1-m3-cA 3hjc-a1-m2-cA_3hjc-a1-m3-cA 3hjc-a1-m4-cA_3hjc-a1-m5-cA 3hjc-a1-m4-cA_3hjc-a1-m6-cA HKPLWTRDPKDVTKEEYAAFYKAISNDWEDPAATKHFSVEGQLEFRSIMFVPKRAPFPNKKRNNIKLYVRRVFIMDNCEDLCPDWLGFVKGVVDSEDLPENLQQNKILKVIRKNIVKKCLEMFDEVAENKEDYKQFYEQFGKNIKLGIHEDTANRKKLMELLRFYSTESGEEMTTLKDYVTRMKAGQKSIYYITGDSKKKLETSPFIEQARRRGLEVLFMTEPIDEYVMQQVKDFEDKKFACLTKEGVHFEESEEEKQQREEEKAACEKLCKTMKEVLGDKVEKVIVSERLSTSPCILVTSEFGWSAHMEQIMRNQQYMMSKKTMELNPRHPIIKELRRRVGADNDKAVKDLVFLLFDTSLLTSGFQLEDPTGYAERINRMIKLGLS HKPLWTRDPKDVTKEEYAAFYKAISNDWEDPAATKHFSVEGQLEFRSIMFVPKRAPFPNKKRNNIKLYVRRVFIMDNCEDLCPDWLGFVKGVVDSEDLPENLQQNKILKVIRKNIVKKCLEMFDEVAENKEDYKQFYEQFGKNIKLGIHEDTANRKKLMELLRFYSTESGEEMTTLKDYVTRMKAGQKSIYYITGDSKKKLETSPFIEQARRRGLEVLFMTEPIDEYVMQQVKDFEDKKFACLTKEGVHFEESEEEKQQREEEKAACEKLCKTMKEVLGDKVEKVIVSERLSTSPCILVTSEFGWSAHMEQIMRNQQYMMSKKTMELNPRHPIIKELRRRVGADNDKAVKDLVFLLFDTSLLTSGFQLEDPTGYAERINRMIKLGLS 3hjc-a2-m1-cA_3hjc-a2-m5-cA Crystal structure of the carboxy-terminal domain of HSP90 from Leishmania major, LmjF33.0312 Q4Q4I6 Q4Q4I6 2.5 X-RAY DIFFRACTION 89 1.0 5664 (Leishmania major) 5664 (Leishmania major) 387 387 3hjc-a1-m1-cA_3hjc-a1-m5-cA 3hjc-a1-m2-cA_3hjc-a1-m4-cA 3hjc-a1-m3-cA_3hjc-a1-m6-cA HKPLWTRDPKDVTKEEYAAFYKAISNDWEDPAATKHFSVEGQLEFRSIMFVPKRAPFPNKKRNNIKLYVRRVFIMDNCEDLCPDWLGFVKGVVDSEDLPENLQQNKILKVIRKNIVKKCLEMFDEVAENKEDYKQFYEQFGKNIKLGIHEDTANRKKLMELLRFYSTESGEEMTTLKDYVTRMKAGQKSIYYITGDSKKKLETSPFIEQARRRGLEVLFMTEPIDEYVMQQVKDFEDKKFACLTKEGVHFEESEEEKQQREEEKAACEKLCKTMKEVLGDKVEKVIVSERLSTSPCILVTSEFGWSAHMEQIMRNQQYMMSKKTMELNPRHPIIKELRRRVGADNDKAVKDLVFLLFDTSLLTSGFQLEDPTGYAERINRMIKLGLS HKPLWTRDPKDVTKEEYAAFYKAISNDWEDPAATKHFSVEGQLEFRSIMFVPKRAPFPNKKRNNIKLYVRRVFIMDNCEDLCPDWLGFVKGVVDSEDLPENLQQNKILKVIRKNIVKKCLEMFDEVAENKEDYKQFYEQFGKNIKLGIHEDTANRKKLMELLRFYSTESGEEMTTLKDYVTRMKAGQKSIYYITGDSKKKLETSPFIEQARRRGLEVLFMTEPIDEYVMQQVKDFEDKKFACLTKEGVHFEESEEEKQQREEEKAACEKLCKTMKEVLGDKVEKVIVSERLSTSPCILVTSEFGWSAHMEQIMRNQQYMMSKKTMELNPRHPIIKELRRRVGADNDKAVKDLVFLLFDTSLLTSGFQLEDPTGYAERINRMIKLGLS 3hjg-a1-m1-cA_3hjg-a1-m1-cB Crystal structure of putative alpha-ribazole-5'-phosphate phosphatase CobC FROM Vibrio parahaemolyticus Q87Q43 Q87Q43 2.8 X-RAY DIFFRACTION 70 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 202 202 KTLNIYLMRHGKVDAAPGLHGQTDLKVKEAEQQQIAMAWKTKGYDVAGIISSPLSRCHDLAQILAEQQLLPMTTEDDLQEMDFGDFDGMPFDLLTEHWKKLDAFWQSPAHHSLPNAESLSTFSQRVSRAWSQIINDINDNLLIVTHGGVIRIILAHVLGVDWRNPQWYSTLAIGNASVTHITITIDDQIYASVRSIGVPLVE KTLNIYLMRHGKVDAAPGLHGQTDLKVKEAEQQQIAMAWKTKGYDVAGIISSPLSRCHDLAQILAEQQLLPMTTEDDLQEMDFGDFDGMPFDLLTEHWKKLDAFWQSPAHHSLPNAESLSTFSQRVSRAWSQIINDINDNLLIVTHGGVIRIILAHVLGVDWRNPQWYSTLAIGNASVTHITITIDDQIYASVRSIGVPLVE 3hjj-a1-m1-cC_3hjj-a1-m1-cB Crystal Structure of Maltose O-acetyltransferase from Bacillus anthracis A0A6L7H2S4 A0A6L7H2S4 2.153 X-RAY DIFFRACTION 64 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 182 183 3hjj-a1-m1-cB_3hjj-a1-m1-cA 3hjj-a1-m1-cC_3hjj-a1-m1-cA 3igj-a1-m1-cA_3igj-a1-m1-cB 3igj-a1-m1-cA_3igj-a1-m1-cC 3igj-a1-m1-cB_3igj-a1-m1-cC KTEKDKLAGEYIADDEELVADRVEAKRLTRLYNEAVETGDERRFTLLNQLLGSSADGKAQINPDFRCDYGYNIHVGKSFFANFNCVILDVCEVRIGDHCFAPGVHIYTATHPLHPVERNSGKEYGKPVKIGNNVWVGGGAIINPGVSIGDNAVIASGAVVTKDVPNNVVVGGNPAKVIKTIE KTEKDKLAGEYIADDEELVADRVEAKRLTRLYNEAVETGDERRFTLLNQLLGSSADGKAQINPDFRCDYGYNIHVGKSFFANFNCVILDVCEVRIGDHCFAPGVHIYTATHPLHPVERNSGKEYGKPVKIGNNVWVGGGAIINPGVSIGDNAVIASGAVVTKDVPNNVVVGGNPAKVIKTIEE 3hjn-a1-m1-cB_3hjn-a1-m1-cA Crystal structure of thymidylate kinase in complex with dTDP and ADP from Thermotoga maritima Q9X0I3 Q9X0I3 2.1 X-RAY DIFFRACTION 68 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 184 189 MFITFEGIDGSGKSTQIQLLAQYLEKRGKKVILKREPGGTETGEKIRKILLEEEVTPKAELFLFLASRNLLVTEIKQYLSEGYAVLLDRYTDSSVAYQGFGRNLGKEIVEELNDFATDGLIPDLTFYIDVDVETALKRNRFEKREFLERVREGYLVLAREHPERIVVLDGKRSIEEIHRDVVRE MFITFEGIDGSGKSTQIQLLAQYLEKRGKKVILKREPGGTETGEKIRKILLEEEVTPKAELFLFLASRNLLVTEIKQYLSEGYAVLLDRYTDSSVAYQGFGRNLGKEIVEELNDFATDGLIPDLTFYIDVDVETALKRKNRFEKREFLERVREGYLVLAREHPERIVVLDGKRSIEEIHRDVVREVKRR 3hjp-a2-m1-cC_3hjp-a2-m1-cD The crystal structure of Bcp4 from Sulfolobus Solfataricus Q97VL0 Q97VL0 2.55 X-RAY DIFFRACTION 59 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 158 158 3hjp-a1-m1-cA_3hjp-a1-m1-cB MVEIGEKAPEIELVDTDLKKVKIPSDFKGKVVVLAFYPAAFTSVSTKEMSTFRDSMAKFNEVNAVVIGISVDPPFSNKAFKEQNKINFTIVSDFNREAVKAYGVAGELPILKGYVLAKRSVFVIDKNGIVRYKWVSEDPTKEPNYDEIKDVVTKLSLE MVEIGEKAPEIELVDTDLKKVKIPSDFKGKVVVLAFYPAAFTSVSTKEMSTFRDSMAKFNEVNAVVIGISVDPPFSNKAFKEQNKINFTIVSDFNREAVKAYGVAGELPILKGYVLAKRSVFVIDKNGIVRYKWVSEDPTKEPNYDEIKDVVTKLSLE 3hju-a1-m1-cA_3hju-a1-m1-cB Crystal structure of human monoglyceride lipase Q99685 Q99685 2.2 X-RAY DIFFRACTION 47 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 291 291 PRRTPQSIPYQDLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARMLMGLDLLVFAHDHVGHGQSEGERMVVSDFHVFVRDVLQHVDSMQKDYPGLPVFLLGHSMGGAIAILTAAERPGHFAGMVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLMELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINMWVSQRTATA SPRRTPQSIPYQDLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARMLMGLDLLVFAHDHVGHGQSEGERMVVSDFHVFVRDVLQHVDSMQKDYPGLPVFLLGHSMGGAIAILTAAERPGHFAGMVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLMELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINMWVSQRTAT 3hjv-a1-m1-cA_3hjv-a1-m1-cB 1.7 Angstrom resolution crystal structure of an acyl carrier protein S-malonyltransferase from Vibrio cholerae O1 biovar eltor str. N16961 Q9KQH6 Q9KQH6 1.7 X-RAY DIFFRACTION 81 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 300 300 SKFAIVFPGQGSQAVGLADLAEQYAVVKQTFAEASEVLGYDLWALVQDGPVEDLNQTFRTQPALLAASVAIWRVWQQLGLEQPAVLAGHSLGEYSALVCAGVIDFKQAIKLVELRGQLQQAVPAGTGAYAIIGLEDEAIAKACADAAQGEVVSPVNFNSPGQVVIAGQKDAVERAGVLCKEAGAKRALPLPVSVPSHCALKPAADELAKTLAELEFNAPQIPVINNVDVVAETDPVKIKDALIRQLYSPVRWTECVEQSAQGVEKLIEGPGKVLTGLTKRIVKTLEGVAVNDVASLDAVK SKFAIVFPGQGSQAVGLADLAEQYAVVKQTFAEASEVLGYDLWALVQDGPVEDLNQTFRTQPALLAASVAIWRVWQQLGLEQPAVLAGHSLGEYSALVCAGVIDFKQAIKLVELRGQLQQAVPAGTGAYAIIGLEDEAIAKACADAAQGEVVSPVNFNSPGQVVIAGQKDAVERAGVLCKEAGAKRALPLPVSVPSHCALKPAADELAKTLAELEFNAPQIPVINNVDVVAETDPVKIKDALIRQLYSPVRWTECVEQSAQGVEKLIEGPGKVLTGLTKRIVKTLEGVAVNDVASLDAVK 3hk0-a1-m1-cB_3hk0-a1-m1-cA Crystal Structure of the RA and PH Domains of Grb10 Q13322 Q13322 2.6 X-RAY DIFFRACTION 33 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 216 230 QDVKVFSEDGTSKVVEILADMTARDLCQLLVYKNSWTLVEHHPHLGLERCLEDHELVVQVESTMASESKFLFRKNYAKYEFFKNPMNFFPEQMVTWSLLQNFLNSSSSPEIQGFLHVKELGKKSWKKLYVCLRRSGLYCSLQLLADLEDSNIFSLIAGRKQYNAPTDHGLCIKPNKVRNETKELRLLCAEDEQTRTSWMTAFRLLKYGMLLYQNYR KQDVKVFSEDGTSKVVEILADMTARDLCQLLVYKSWTLVEHHPHLGLERCLEDHELVVQVESTMASESKFLFRKNYAKYEFFKNPMNFFPEQMVTWSQQSLLQNFLNSSSSPEIQGFLHVKELGKKSWKKLYVCLRRSGLYCSTKGTSAAPRHLQLLADLEDSNIFSLIAGRKQYNAPTDHGLCIKPNKVRNETKELRLLCAEDEQTRTSWMTAFRLLKYGMLLYQNYRI 3hk4-a2-m1-cC_3hk4-a2-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE SNOAL-LIKE POLYKETIDE CYCLASE [CARBOHYDRATE PHOSPHATASE] (MLR7391) FROM MESORHIZOBIUM LOTI AT 1.96 A RESOLUTION Q986E8 Q986E8 1.96 X-RAY DIFFRACTION 57 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 113 113 3hk4-a1-m1-cA_3hk4-a1-m1-cB TIAEIAKDFTELLKQGDNAGAAEKYNADDIASYEAEGPAVSHGKEALRQKSQWWQENHEVHGGSVEGPYVNGDQFALRFKFDVTPKATGERVTDEVGLYTVKNGKITEERFYY TIAEIAKDFTELLKQGDNAGAAEKYNADDIASYEAEGPAVSHGKEALRQKSQWWQENHEVHGGSVEGPYVNGDQFALRFKFDVTPKATGERVTDEVGLYTVKNGKITEERFYY 3hk7-a4-m1-cD_3hk7-a4-m1-cG Crystal structure of uronate isomerase from Bacillus halodurans complexed with zinc and D-Arabinarate, monoclinic crystal form Q9KFI6 Q9KFI6 2.2 X-RAY DIFFRACTION 12 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 413 413 2pnk-a5-m1-cA_2pnk-a5-m1-cK 2pnk-a5-m1-cC_2pnk-a5-m1-cL 2pnk-a5-m1-cJ_2pnk-a5-m1-cB 2pnk-a6-m1-cD_2pnk-a6-m1-cH 2pnk-a6-m1-cE_2pnk-a6-m1-cG 2pnk-a6-m1-cF_2pnk-a6-m1-cI 3hk7-a1-m1-cC_3hk7-a1-m1-cK 3hk7-a1-m1-cD_3hk7-a1-m1-cG 3hk7-a2-m1-cA_3hk7-a2-m1-cJ 3hk7-a2-m1-cB_3hk7-a2-m1-cL 3hk7-a3-m1-cB_3hk7-a3-m1-cL 3hk7-a3-m1-cC_3hk7-a3-m1-cK 3hk7-a3-m1-cE_3hk7-a3-m1-cI 3hk7-a4-m1-cC_3hk7-a4-m1-cK 3hk9-a2-m1-cB_3hk9-a2-m1-cL 3hk9-a2-m1-cE_3hk9-a2-m1-cI 3hk9-a3-m1-cB_3hk9-a3-m1-cL 3hk9-a4-m1-cD_3hk9-a4-m1-cG SINSREVLAEKVKNAVNNQPVTDMHTHLFSPNFGEILLWDIDELLTYHYLVAEVMRWTDVSIEAFWAMSKREQADLIWEELFIKRSPVSEACRGVLTCLQGLGLDPATRDLQVYREYFAKKTSEEQVDTVLQLANVSDVVMTNDPFDDNERISWLEGKQPDSRFHAALRLDPLLNEYEQTKHRLRDWGYKVNDEWNEGSIQEVKRFLTDWIERMDPVYMAVSLPPTFSFPEESNRGRIIRDCLLPVAEKHNIPFAMMIGVKKRVHPALGDAGDFVGKASMDGVEHLLREYPNNKFLVTMLSRENQHELVVLARKFSNLMIFGCWWFMNNPEIINEMTRMRMEMLGTSFIPQHSDARVLEQLIYKWHHSKSIIAEVLIDKYDDILQAGWEVTEEEIKRDVADLFSRNFWRFVGR SINSREVLAEKVKNAVNNQPVTDMHTHLFSPNFGEILLWDIDELLTYHYLVAEVMRWTDVSIEAFWAMSKREQADLIWEELFIKRSPVSEACRGVLTCLQGLGLDPATRDLQVYREYFAKKTSEEQVDTVLQLANVSDVVMTNDPFDDNERISWLEGKQPDSRFHAALRLDPLLNEYEQTKHRLRDWGYKVNDEWNEGSIQEVKRFLTDWIERMDPVYMAVSLPPTFSFPEESNRGRIIRDCLLPVAEKHNIPFAMMIGVKKRVHPALGDAGDFVGKASMDGVEHLLREYPNNKFLVTMLSRENQHELVVLARKFSNLMIFGCWWFMNNPEIINEMTRMRMEMLGTSFIPQHSDARVLEQLIYKWHHSKSIIAEVLIDKYDDILQAGWEVTEEEIKRDVADLFSRNFWRFVGR 3hk9-a4-m1-cD_3hk9-a4-m1-cH Crystal structure of uronate isomerase from Bacillus halodurans complexed with zinc and D-Glucuronate Q9KFI6 Q9KFI6 2.1 X-RAY DIFFRACTION 24 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 413 413 2pnk-a5-m1-cC_2pnk-a5-m1-cK 2pnk-a5-m1-cJ_2pnk-a5-m1-cA 2pnk-a6-m1-cD_2pnk-a6-m1-cG 2pnk-a6-m1-cF_2pnk-a6-m1-cH 3hk7-a1-m1-cA_3hk7-a1-m1-cK 3hk7-a1-m1-cD_3hk7-a1-m1-cH 3hk7-a2-m1-cD_3hk7-a2-m1-cH 3hk7-a3-m1-cC_3hk7-a3-m1-cL 3hk7-a3-m1-cF_3hk7-a3-m1-cI 3hk7-a4-m1-cC_3hk7-a4-m1-cL 3hk9-a1-m1-cA_3hk9-a1-m1-cK 3hk9-a1-m1-cD_3hk9-a1-m1-cH 3hk9-a2-m1-cF_3hk9-a2-m1-cI 3hk9-a3-m1-cC_3hk9-a3-m1-cL 3hk9-a3-m1-cF_3hk9-a3-m1-cI 3hk9-a4-m1-cC_3hk9-a4-m1-cL SINSREVLAEKVKNAVNNQPVTDMHTHLFSPNFGEILLWDIDELLTYHYLVAEVMRWTDVSIEAFWAMSKREQADLIWEELFIKRSPVSEACRGVLTCLQGLGLDPATRDLQVYREYFAKKTSEEQVDTVLQLANVSDVVMTNDPFDDNERISWLEGKQPDSRFHAALRLDPLLNEYEQTKHRLRDWGYKVNDEWNEGSIQEVKRFLTDWIERMDPVYMAVSLPPTFSFPEESNRGRIIRDCLLPVAEKHNIPFAMMIGVKKRVHPALGDAGDFVGKASMDGVEHLLREYPNNKFLVTMLSRENQHELVVLARKFSNLMIFGCWWFMNNPEIINEMTRMRMEMLGTSFIPQHSDARVLEQLIYKWHHSKSIIAEVLIDKYDDILQAGWEVTEEEIKRDVADLFSRNFWRFVGR SINSREVLAEKVKNAVNNQPVTDMHTHLFSPNFGEILLWDIDELLTYHYLVAEVMRWTDVSIEAFWAMSKREQADLIWEELFIKRSPVSEACRGVLTCLQGLGLDPATRDLQVYREYFAKKTSEEQVDTVLQLANVSDVVMTNDPFDDNERISWLEGKQPDSRFHAALRLDPLLNEYEQTKHRLRDWGYKVNDEWNEGSIQEVKRFLTDWIERMDPVYMAVSLPPTFSFPEESNRGRIIRDCLLPVAEKHNIPFAMMIGVKKRVHPALGDAGDFVGKASMDGVEHLLREYPNNKFLVTMLSRENQHELVVLARKFSNLMIFGCWWFMNNPEIINEMTRMRMEMLGTSFIPQHSDARVLEQLIYKWHHSKSIIAEVLIDKYDDILQAGWEVTEEEIKRDVADLFSRNFWRFVGR 3hkf-a1-m1-cA_3hkf-a1-m2-cA Murine unglycosylated IgG Fc fragment Q99LC4 Q99LC4 2.5 X-RAY DIFFRACTION 45 1.0 10090 (Mus musculus) 10090 (Mus musculus) 205 205 SSVFIFPPKPKDVLTITLTPKVTCVVVDISKDDPEVQFSWFVDDVEVHTAQTQPREEQFNSTFRSVSELPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGRPKAPQVYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQWNGQPAENYKNTQPIMDTDGSYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLS SSVFIFPPKPKDVLTITLTPKVTCVVVDISKDDPEVQFSWFVDDVEVHTAQTQPREEQFNSTFRSVSELPIMHQDWLNGKEFKCRVNSAAFPAPIEKTISKTKGRPKAPQVYTIPPPKEQMAKDKVSLTCMITDFFPEDITVEWQWNGQPAENYKNTQPIMDTDGSYFVYSKLNVQKSNWEAGNTFTCSVLHEGLHNHHTEKSLS 3hkl-a1-m1-cA_3hkl-a1-m1-cB Crystal Structure of the Frizzled-like Cysteine-rich Domain of MuSK Q62838 Q62838 2.1 X-RAY DIFFRACTION 61 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 141 153 KGYCAQYRGEVCDAVLVKDSLVFFNTSYPDPEEAQELLIHTAWNELKAVSPLCRPAAEALLCNHLFQECSPGVLPTPMPICREYCLAVKELFCAKEWLAMEGKTHRGLYRSGMHFLPVPECSKLPSMHQDPTACTRLPYLD GPRGSKGYCAQYRGEVCDAVLVKDSLVFFNTSYPDPEEAQELLIHTAWNELKAVSPLCRPAAEALLCNHLFQECSPGVLPTPMPICREYCLAVKELFCAKEWLAMEGKTHRGLYRSGMHFLPVPECSKLPSMHQDPTACTRLPYLDYKTFPSI 3hkv-a1-m1-cB_3hkv-a1-m1-cA Human poly(ADP-ribose) polymerase 10, catalytic fragment in complex with an inhibitor 3-aminobenzamide Q53GL7 Q53GL7 2.1 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 192 NNLERLAENTGEFQEVVRAFYDTLDAARSSIRVVRVERVSHPLLQQQYELYRERLLQRCERRPVEQVLYHGTTAPAVPDICAHGFNRSFCGRNATVYGKGVYFAKRASLSVQDRYSPPNADGHKAVFVARVLTGDYGQGRRGLRAPPLRGPGHVLLRYDSAMDCICQPSIFVIFHDTQALPTHLITCEHVP WNNLERLAENTGEFQEVVRAFYDTLDAARSSIRVVRVERVSHPLLQQQYELYRERLLQRCERRPVEQVLYHGTTAPAVPDICAHGFNRSFCGRNATVYGKGVYFAKRASLSVQDRYSPPNADGHKAVFVARVLTGDYGQGRRGLRAPPLRGPGHVLLRYDSAMDCICQPSIFVIFHDTQALPTHLITCEHVP 3hl0-a1-m1-cB_3hl0-a1-m1-cA Crystal structure of Maleylacetate reductase from Agrobacterium tumefaciens A9CHP3 A9CHP3 1.6 X-RAY DIFFRACTION 90 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 339 340 QPFVYAAPARIVFSAGSSADVAEEIRRLGLSRALVLSTPQQKGDAEALASRLGRLAAGVFSEAAHTPVEVTKTAVEAYRAAGADCVVSLGGGSTTGLGKAIALRTDAAQIVIPTTYAGSEVTPILGQTENGVKTTRGPEILPEVVIYDAELTLGLPVAISTSGLNAAHAAEALYARDRNPIASAVEGLRAIEALPVVRQAPHDIGARETALYGAWLCGTVLGAVGSLHHKLCHTLGGSLDLPHAETHAVLLPHTIAYVEEAAPNLLAPLAALVGGRAGAGLFDFAARLGAPSSLAALGVGADDLDPAELATANPYWCPRPIEKTAIRDLLQRAFEGARP QPFVYAAPARIVFSAGSSADVAEEIRRLGLSRALVLSTPQQKGDAEALASRLGRLAAGVFSEAAHTPVEVTKTAVEAYRAAGADCVVSLGGGSTTGLGKAIALRTDAAQIVIPTTYAGSEVTPILGQTENGVKTTRGPEILPEVVIYDAELTLGLPVAISTSGLNAAHAAEALYARDRNPIASAVEGLRAIEALPVVRQAPHDIGARETALYGAWLCGTVLGAVGSLHHKLCHTLGGSLDLPHAETHAVLLPHTIAYVEEAAPNLLAPLAALVGGRAGAGLFDFAARLGAPSSLAALGVGADDLDPAELATANPYWCPRPIEKTAIRDLLQRAFEGARPA 3hl6-a1-m1-cA_3hl6-a1-m1-cB Staphylococcus aureus pathogenicity island 3 ORF9 protein A0A0H2WYW3 A0A0H2WYW3 2.5 X-RAY DIFFRACTION 62 0.989 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 189 192 DIETIVNEFETRAGTLLRYYTGLLERSKVQPCCFKLYNDPFDMVYVMMNSKLFSHVYIKDCKVRQSFELASPKHTEGLIRSIEGHYVGYELHDGKQLSISDMMASQLFEDEYFMYGLQTYQSSNTDVIANIEMLYQLATGINEPVPELVEGLKLVTEFVQDENATQEDYKALERKLNDLKASYYSLSKL IETIVNEFETRAGTLLRYYTGLLERSKVQPCCFKLYNDPFDMVYVMMNSKLFSHVYIKDCKVRQSFELASPKHTEGLIRSIEGHYVGYELHDGKQLSISDMMASQLFEDEYFMYGLQTYASSNTDVIANIEMLYQLATGINEPVPELVEGLKLVTEFVQDENATQEDYKALERKLNDLKASYYSLSKLAAAL 3hls-a5-m1-cB_3hls-a5-m1-cC Crystal structure of the signaling helix coiled-coil doimain of the BETA-1 subunit of the soluble guanylyl cyclase P20595 P20595 2.15 X-RAY DIFFRACTION 58 0.984 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 61 61 3hls-a5-m1-cD_3hls-a5-m1-cA 3hls-a6-m1-cF_3hls-a6-m1-cG 3hls-a6-m1-cH_3hls-a6-m1-cE HATRDLVLLGEQFREEYKLTQELELTDRLQLTLRALEDEKKKTDTLLYSVLPPSVANELRH SHATRDLVLLGEQFREEYKLTQELELTDRLQLTLRALEDEKKKTDTLLYSVLPPSVANELR 3hls-a6-m1-cF_3hls-a6-m1-cE Crystal structure of the signaling helix coiled-coil doimain of the BETA-1 subunit of the soluble guanylyl cyclase P20595 P20595 2.15 X-RAY DIFFRACTION 68 0.983 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 60 62 3hls-a1-m1-cB_3hls-a1-m1-cA 3hls-a2-m1-cC_3hls-a2-m1-cD 3hls-a3-m1-cF_3hls-a3-m1-cE 3hls-a4-m1-cG_3hls-a4-m1-cH 3hls-a5-m1-cB_3hls-a5-m1-cA 3hls-a5-m1-cC_3hls-a5-m1-cD 3hls-a6-m1-cG_3hls-a6-m1-cH ATRDLVLLGEQFREEYKLTQELELTDRLQLTLRALEDEKKKTDTLLYSVLPPSVANELRH GSHATRDLVLLGEQFREEYKLTQELELTDRLQLTLRALEDEKKKTDTLLYSVLPPSVANELR 3hls-a6-m1-cG_3hls-a6-m1-cE Crystal structure of the signaling helix coiled-coil doimain of the BETA-1 subunit of the soluble guanylyl cyclase P20595 P20595 2.15 X-RAY DIFFRACTION 17 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 61 62 3hls-a5-m1-cC_3hls-a5-m1-cA SHATRDLVLLGEQFREEYKLTQELELTDRLQLTLRALEDEKKKTDTLLYSVLPPSVANELR GSHATRDLVLLGEQFREEYKLTQELELTDRLQLTLRALEDEKKKTDTLLYSVLPPSVANELR 3hlt-a4-m1-cA_3hlt-a4-m2-cA The crystal structure of human haloacid dehalogenase-like hydrolase domain containing 2 (HDHD2) Q9H0R4 Q9H0R4 2.3 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 256 256 3hlt-a3-m1-cC_3hlt-a3-m2-cC RALKAVLVDLSGTLHIEDAAVPGAQEALKRLRGASVIIRFVTNTTKESKQDLLERLRKLEFDISEDEIFTSLTAARSLLERKQVRPMLLVDDRALPDFKGIQTSDPNAVVMGLAPEHFHYQILNQAFRLLLDGAPLIAIHKARYYKRKDGLALGPGPFVTALEYATDTKATVVGKPEKTFFLEALRGTGCEPEEAVMIGDDCRDDVGGAQDVGMLGILVKTGKYRASDEEKINPPPYLTCESFPHAVDHILQHLLA RALKAVLVDLSGTLHIEDAAVPGAQEALKRLRGASVIIRFVTNTTKESKQDLLERLRKLEFDISEDEIFTSLTAARSLLERKQVRPMLLVDDRALPDFKGIQTSDPNAVVMGLAPEHFHYQILNQAFRLLLDGAPLIAIHKARYYKRKDGLALGPGPFVTALEYATDTKATVVGKPEKTFFLEALRGTGCEPEEAVMIGDDCRDDVGGAQDVGMLGILVKTGKYRASDEEKINPPPYLTCESFPHAVDHILQHLLA 3hlu-a1-m1-cA_3hlu-a1-m1-cB Crystal Structure of Uncharacterized Protein Conserved in Bacteria DUF2179 from Eubacterium ventriosum A5Z863 A5Z863 2.65 X-RAY DIFFRACTION 62 1.0 411463 (Eubacterium ventriosum ATCC 27560) 411463 (Eubacterium ventriosum ATCC 27560) 67 67 DQQTVYIVSAKRKIIADRLQELDLGVTLQAVGAYKNNETEVICVRKATLVKVRNLLKEVDPDAFIVS DQQTVYIVSAKRKIIADRLQELDLGVTLQAVGAYKNNETEVICVRKATLVKVRNLLKEVDPDAFIVS 3hm0-a1-m1-cD_3hm0-a1-m1-cA Crystal Structure of Probable Thioesterase from Bartonella henselae A0A0H3M6V9 A0A0H3M6V9 2.5 X-RAY DIFFRACTION 30 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 114 126 3hm0-a1-m1-cB_3hm0-a1-m1-cC NAFHDFQARVYVADTDFSGVVYHARYLEFFERGRSEFLRDTGFEKLFFVVRHMEINFSRPAQIDNLLTIKTRISRLQGARFFMEQYILHGESMLVTAKVEIALINEEGKPRRLP NAFHDFQARVYVADTDFSGVVYHARYLEFFERGRSEFLRDTGFNNTLLASGVEGEKLFFVVRHMEINFSRPAQIDNLLTIKTRISRLQGARFFMEQYILHGESMLVTAKVEIALINEEGKPRRLPK 3hm0-a1-m1-cD_3hm0-a1-m1-cB Crystal Structure of Probable Thioesterase from Bartonella henselae A0A0H3M6V9 A0A0H3M6V9 2.5 X-RAY DIFFRACTION 29 0.982 38323 (Bartonella henselae) 38323 (Bartonella henselae) 114 122 3hm0-a1-m1-cC_3hm0-a1-m1-cA NAFHDFQARVYVADTDFSGVVYHARYLEFFERGRSEFLRDTGFEKLFFVVRHMEINFSRPAQIDNLLTIKTRISRLQGARFFMEQYILHGESMLVTAKVEIALINEEGKPRRLP AFHDFQARVYVADTDFSGVVYHARYLEFFERGRSEFLRDTGLLASGVEGEKLFFVVRHMEINFSRPAQIDNLLTIKTRISRLQGARFFMEQYILHGESMLVTAKVEIALINEEGKPRRLPKE 3hm0-a1-m1-cD_3hm0-a1-m1-cC Crystal Structure of Probable Thioesterase from Bartonella henselae A0A0H3M6V9 A0A0H3M6V9 2.5 X-RAY DIFFRACTION 58 0.991 38323 (Bartonella henselae) 38323 (Bartonella henselae) 114 124 3hm0-a1-m1-cB_3hm0-a1-m1-cA NAFHDFQARVYVADTDFSGVVYHARYLEFFERGRSEFLRDTGFEKLFFVVRHMEINFSRPAQIDNLLTIKTRISRLQGARFFMEQYILHGESMLVTAKVEIALINEEGKPRRLP AFHDFQARVYVADTDFSGVVYHARYLEFFERGRSEFLRDTGFNNTLLASGVEGEKLFFVVRHMEINFSRPAQIDNLLTIKTRISRLQGARFFMEQYILHGESMLVTAKVEIALINEEGKPRRLP 3hm2-a1-m1-cC_3hm2-a1-m1-cB Crystal Structure of Putative Precorrin-6Y C5,15-Methyltransferase Targeted Domain from Corynebacterium diphtheriae Q6NHA4 Q6NHA4 2.205 X-RAY DIFFRACTION 37 0.988 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 167 169 3hm2-a1-m1-cD_3hm2-a1-m1-cA 3hm2-a2-m1-cF_3hm2-a2-m1-cG 3hm2-a2-m1-cH_3hm2-a2-m1-cE GQLTKQHVRALAISALAPKPHETLWDIGSIAIEWLRSTPQTTAVCFEISEERRERILSNAINLGVSDRIAVQQGAPRAFDDVPDNPDVIFIGGGLTAPGVFAAAWKRLPVGGRLVANAVTVESEQLWALRKQFGGTISSFAISHEHTVGSFITKPALPVHQWTVVKA GQLTKQHVRALAISALAPKPHETLWDIGGGSGSIAIEWLRSTPQTTAVCFEISEERRERILSNAINLGVSDRIAVQQGAPRAFDDVPDNPDVIFIGLTAPGVFAAAWKRLPVGGRLVANAVTVESEQLWALRKQFGGTISSFAISHEHTVGSFITKPALPVHQWTVVKA 3hm2-a1-m1-cD_3hm2-a1-m1-cB Crystal Structure of Putative Precorrin-6Y C5,15-Methyltransferase Targeted Domain from Corynebacterium diphtheriae Q6NHA4 Q6NHA4 2.205 X-RAY DIFFRACTION 55 0.988 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 165 169 3hm2-a1-m1-cC_3hm2-a1-m1-cA 3hm2-a2-m1-cE_3hm2-a2-m1-cG GQLTKQHVRALAISALAPKPHETLWDISGSIAIEWLRSQTTAVCFEISEERRERILSNAINLGVSDRIAVQQGAPRAFDDVPDNPDVIFIGGGLTAPGVFAAAWKRLPVGGRLVANAVTVESEQLWALRKQFGGTISSFAISHEHTGSFITKPALPVHQWTVVKA GQLTKQHVRALAISALAPKPHETLWDIGGGSGSIAIEWLRSTPQTTAVCFEISEERRERILSNAINLGVSDRIAVQQGAPRAFDDVPDNPDVIFIGLTAPGVFAAAWKRLPVGGRLVANAVTVESEQLWALRKQFGGTISSFAISHEHTVGSFITKPALPVHQWTVVKA 3hm4-a1-m1-cB_3hm4-a1-m1-cA CRYSTAL STRUCTURE OF A CHEMOTAXIS PROTEIN CHEX (DDE_0281) FROM DESULFOVIBRIO DESULFURICANS SUBSP. AT 1.30 A RESOLUTION Q316R4 Q316R4 1.3 X-RAY DIFFRACTION 123 1.0 207559 (Oleidesulfovibrio alaskensis G20) 207559 (Oleidesulfovibrio alaskensis G20) 144 147 IEIAKPFVTATTNVLSTAGIQPIPGQPYVKKNNVAKGDVSAVVGITGHKNGSISVTFTKQCAIAVVKALGDDIQDIIQDTKDAVGEVTNISGQARAALSEGTFQGATPSVIGDGHTISHVTKSPVIAIPFKTNHGEFTVEFCLE SSGIEIAKPFVTATTNVLSTAGIQPIPGQPYVKKNNVAKGDVSAVVGITGHKNGSISVTFTKQCAIAVVKALGDDIQDIIQDTKDAVGEVTNISGQARAALSEGTFQGATPSVIGDGHTISHVTKSPVIAIPFKTNHGEFTVEFCLE 3hm7-a3-m1-cE_3hm7-a3-m1-cF Crystal structure of allantoinase from Bacillus halodurans C-125 Q9KAH8 Q9KAH8 2.6 X-RAY DIFFRACTION 61 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 436 436 3hm7-a1-m1-cA_3hm7-a1-m1-cB 3hm7-a2-m1-cC_3hm7-a2-m2-cD RFDLIIRSSTVVTETTTYRADVAIRNGIVSAITEPGSISSDDGPAIDGTGLHLFPGMVDVHVHFNEPGRTEWEGFASGSKSLAAGGVTTYFDMPLNSNPPTITREELDKKRQLANEKSLVDYRFWGGLVPGNIDHLQDLHDGGVIGFKAFMSECGTDDFQFSHDETLLKGMKKIAALGSILAVHAESNEMVNALTTIAIEEQRLTVKDYSEARPIVSELEAVERILRFAQLTCCPIHICHVSSRKVLKRIKQAKGEGVNVSVETCPHYLLFSLDEFAEIGYLAKCAPPLRERQEVEDLWDGLMAGEIDLISSDHSPSLPQMKTGKTIFEVWGGIAGCQNTLAVMLTEGYHKRKMPLTQIVQLLSTEPAKRFGLYPQKGTIQVGAEASFTLIDLNESYTLNASDLYYRHPISPYVGQRFRGKVKHTICQGKHVYQDH RFDLIIRSSTVVTETTTYRADVAIRNGIVSAITEPGSISSDDGPAIDGTGLHLFPGMVDVHVHFNEPGRTEWEGFASGSKSLAAGGVTTYFDMPLNSNPPTITREELDKKRQLANEKSLVDYRFWGGLVPGNIDHLQDLHDGGVIGFKAFMSECGTDDFQFSHDETLLKGMKKIAALGSILAVHAESNEMVNALTTIAIEEQRLTVKDYSEARPIVSELEAVERILRFAQLTCCPIHICHVSSRKVLKRIKQAKGEGVNVSVETCPHYLLFSLDEFAEIGYLAKCAPPLRERQEVEDLWDGLMAGEIDLISSDHSPSLPQMKTGKTIFEVWGGIAGCQNTLAVMLTEGYHKRKMPLTQIVQLLSTEPAKRFGLYPQKGTIQVGAEASFTLIDLNESYTLNASDLYYRHPISPYVGQRFRGKVKHTICQGKHVYQDH 3hmf-a2-m1-cA_3hmf-a2-m2-cA Crystal Structure of the second Bromodomain of Human Poly-bromodomain containing protein 1 (PB1) Q86U86 Q86U86 1.63 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 116 SMSPAYLKEILEQLLEAIVVATNPSGRLISELFQKLPSKVQYPDYYAIIKEPIDLKTIAQRIQNGSYKSIHAMAKDIDLLAKNAKTYNEPGSQVFKDANSIKKIFYMKKAEIEHHE SMSPAYLKEILEQLLEAIVVATNPSGRLISELFQKLPSKVQYPDYYAIIKEPIDLKTIAQRIQNGSYKSIHAMAKDIDLLAKNAKTYNEPGSQVFKDANSIKKIFYMKKAEIEHHE 3hmh-a2-m1-cA_3hmh-a2-m2-cA Crystal structure of the second bromodomain of human TBP-associated factor RNA polymerase 1-like (TAF1L) Q8IZX4 Q8IZX4 2.05 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 GTENLYFQSMQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKMIVNPVDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNICYQTITEYDEHLTQLEKDICTAKEAALEEAELE GTENLYFQSMQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKMIVNPVDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNICYQTITEYDEHLTQLEKDICTAKEAALEEAELE 3hmq-a1-m1-cA_3hmq-a1-m2-cA 1.9 Angstrom resolution crystal structure of a NAD synthetase (nadE) from Salmonella typhimurium LT2 in complex with NAD(+) Q8ZPU5 Q8ZPU5 1.9 X-RAY DIFFRACTION 156 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 258 258 TLQQEIIQALGAKPHINPEEEIRRSVDFLKAYLKTYPFLKSLVLGISGGQDSTLAGKLSQAIAELREETGDNALQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKGAVLASEQALREAGIELSDFVRGNEKARERKAQYSIAGTHGVVVGTDHAAEAITGFFTKYGDGGTDINPLHRLNKRQGKQLLAALGCPEHLYKKPDEAALGVTYDNIDDYLEGKTLDPAIAKTIEGWYVKTEHKRRLPITVFDDFWKR TLQQEIIQALGAKPHINPEEEIRRSVDFLKAYLKTYPFLKSLVLGISGGQDSTLAGKLSQAIAELREETGDNALQFIAVRLPYGVQADEQDCQDAIAFIQPDRVLTVNIKGAVLASEQALREAGIELSDFVRGNEKARERKAQYSIAGTHGVVVGTDHAAEAITGFFTKYGDGGTDINPLHRLNKRQGKQLLAALGCPEHLYKKPDEAALGVTYDNIDDYLEGKTLDPAIAKTIEGWYVKTEHKRRLPITVFDDFWKR 3hmt-a1-m1-cA_3hmt-a1-m1-cB Crystal structure of the N-terminal fragment (28-126) of the human hepatocyte growth factor/scatter factor, trigonal crystal form P14210 P14210 2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 RNTIHEFKKSAKTTLIKIDPALKIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIR RNTIHEFKKSAKTTLIKIDPALKIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIR 3hmu-a1-m1-cB_3hmu-a1-m1-cA Crystal structure of a class III aminotransferase from Silicibacter pomeroyi Q5LMU1 Q5LMU1 2.1 X-RAY DIFFRACTION 436 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 460 464 ITNHMPTAELQALDAAHHLHPFSANNALGEEGTRVITRARGVWLNDSEGEEILDAMAGLWCVNIGYGRDELAEVAARQMRELPYYNTFFKTTHVPAIALAQKLAELAPGDLNHVFFAGGGSEANDTNIRMVRTYWQNKGQPEKTVIISRKNAYHGSTVASSALGGMAGMHAQSGLIPDVHHINQPNWWAEGGDMDPEEFGLARARELEEAILELGENRVAAFIAEPVQGAGGVIVAPDSYWPEIQRICDKYDILLIADEVICGFGRTGNWFGTQTMGIRPHIMTIAKGLSSGYAPIGGSIVCDEVAHVIGKDEFNHGYTYSGHPVAAAVALENLRILEEENILDHVRNVAAPYLKEKWEALTDHPLVGEAKIVGMMASIALTPNKASRAKFASEPGTIGYICRERCFANNLIMRHVGDRMIISPPLVITPAEIDEMFVRIRKSLDEAQAEIEKQGLMKSE ITNHMPTAELQALDAAHHLHPFSANNALGEEGTRVITRARGVWLNDSEGEEILDAMAGLWCVNIGYGRDELAEVAARQMRELPYYNTFFKTTHVPAIALAQKLAELAPGDLNHVFFAGGGSEANDTNIRMVRTYWQNKGQPEKTVIISRKNAYHGSTVASSALGGMAGMHAQSGLIPDVHHINQPNWWAEGGDMDPEEFGLARARELEEAILELGENRVAAFIAEPVQGAGGVIVAPDSYWPEIQRICDKYDILLIADEVICGFGRTGNWFGTQTMGIRPHIMTIAKGLSSGYAPIGGSIVCDEVAHVIGKDEFNHGYTYSGHPVAAAVALENLRILEEENILDHVRNVAAPYLKEKWEALTDHPLVGEAKIVGMMASIALTPNKASRAKFASEPGTIGYICRERCFANNLIMRHVGDRMIISPPLVITPAEIDEMFVRIRKSLDEAQAEIEKQGLMKSEGHHH 3hmz-a1-m1-cA_3hmz-a1-m2-cA CRYSTAL STRUCTURE OF A FMN-BINDING DOMAIN OF FLAVIN REDUCTASES-LIKE ENZYME (SBAL_0626) FROM SHEWANELLA BALTICA OS155 AT 1.50 A RESOLUTION A3D092 A3D092 1.5 X-RAY DIFFRACTION 161 1.0 325240 (Shewanella baltica OS155) 325240 (Shewanella baltica OS155) 187 187 HVDNNIAAVELAKAYRLLNHGPTVLVSARSQGIDNVAAAWCCALDFAPPKLTVVLDKTKTREFIEQSGFVIQVPTVAQLQLTHRVGSQSLADDANKLLNCGVELFEAGHDLPFVAGCSAWLACKLIPEPNNQLQYDLFIAEVIGAWADTQVFNHGHWHFDTAPADKRSLHYIAGGQFYAIGESFNAD HVDNNIAAVELAKAYRLLNHGPTVLVSARSQGIDNVAAAWCCALDFAPPKLTVVLDKTKTREFIEQSGFVIQVPTVAQLQLTHRVGSQSLADDANKLLNCGVELFEAGHDLPFVAGCSAWLACKLIPEPNNQLQYDLFIAEVIGAWADTQVFNHGHWHFDTAPADKRSLHYIAGGQFYAIGESFNAD 3hn0-a1-m1-cA_3hn0-a1-m1-cB CRYSTAL STRUCTURE OF AN ABC TRANSPORTER (BDI_1369) FROM PARABACTEROIDES DISTASONIS AT 1.75 A RESOLUTION A6LBR3 A6LBR3 1.75 X-RAY DIFFRACTION 45 0.993 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 277 277 DTVIKVSVLRGPSVIAFADWLENPPIIDNKKVQVKVVDSPDLAQALLIKQETDIAVLPINAANLYNKGIKIKLAGCPIWGTLYLVEKTPLKEPALYVFGNGTTPDILTRYYLGRQRLDYPLNYAFNTAGEITQGILAGKVNRAVLGEPFLSIALRKDSSLRITADLNHLTDNDTLGFAQTAVVYTPTEKYRIAFEDALRASCQKAVRYPKETIHSLEEHGIFAQGALTPKSIERCKIYYLSAIEAKDAVGFLRLIEQYEPKAVGGRLPDAGFIPEKQ TEDTVIKVSVLRGPSVIAFADWLENPPIIDNKKVQVKVVDSPDLAQALLIKQETDIAVLPINAANLYNKGIKIKLAGCPIWGTLYLVEKTPLKEPALYVFGNGTTPDILTRYYLGRQRLDYPLNYAFNTAGEITQGILAGKVNRAVLGEPFLSIALRKDSSLRITADLNHLTDNDTLGFAQTAVVYTPTEKYRIAFEDALRASCQKAVRYPKETIHSLEEHGIFAQGALTPKSIERCKIYYLSAIEAKDAVGFLRLIEQYEPKAVGGRLPDAGFIPE 3hn2-a1-m1-cA_3hn2-a1-m1-cB Crystal structure of 2-dehydropantoate 2-reductase FROM Geobacter metallireducens GS-15 Q39SB2 Q39SB2 2.5 X-RAY DIFFRACTION 64 0.997 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 302 302 RIAIVGAGALGLYYGALLQRSGEDVHFLLRRDYEAIAGNGLKVFSINGDFTLPHVKGYRAPEEIGPMDLVLVGLKTFANSRYEELIRPLVEEGTQILTLQNGLGNEEALATLFGAERIIGGVAFLCSNRGEPGEVHHLGAGRIILGEFLPRDTGRIEELAAMFRQAGVDCRTTDDLKRARWEKLVWNIPFNGLCALLQQPVNLILARDVSRKLVRGIMLEVIAGANAQGLATFIADGYVDDMLEFTDAMGEYKPSMEIDREEGRPLEIAAIFRTPLAYGAREGIAMPRVEMLATLLEQATGE LRIAIVGAGALGLYYGALLQRSGEDVHFLLRRDYEAIAGNGLKVFSINGDFTLPHVKGYRAPEEIGPMDLVLVGLKTFANSRYEELIRPLVEEGTQILTLQNGLGNEEALATLFGAERIIGGVAFLCSNRGEPGEVHHLGAGRIILGEFLPRDTGRIEELAAMFRQAGVDCRTTDDLKRARWEKLVWNIPFNGLCALLQQPVNLILARDVSRKLVRGIMLEVIAGANAQGLATFIADGYVDDMLEFTDAMGEYKPSMEIDREEGRPLEIAAIFRTPLAYGAREGIAMPRVEMLATLLEQATG 3hn2-a2-m1-cD_3hn2-a2-m1-cC Crystal structure of 2-dehydropantoate 2-reductase FROM Geobacter metallireducens GS-15 Q39SB2 Q39SB2 2.5 X-RAY DIFFRACTION 39 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 301 302 LRIAIVGAGALGLYYGALLQRSGEDVHFLLRRDYEAIAGNGLKVFSINGDFTLPHVKGYRAPEEIGPMDLVLVGLKTFANSRYEELIRPLVEEGTQILTLQNGLGNEEALATLFGAERIIGGVAFLCSNRGEPGEVHHLGAGRIILGEFLPRDTGRIEELAAMFRQAGVDCRTTDDLKRARWEKLVWNIPFNGLCALLQQPVNLILARDVSRKLVRGIMLEVIAGANAQGLATFIADGYVDDMLEFTDAMGEYKPSMEIDREEGRPLEIAAIFRTPLAYGAREGIAMPRVEMLATLLEQAT LRIAIVGAGALGLYYGALLQRSGEDVHFLLRRDYEAIAGNGLKVFSINGDFTLPHVKGYRAPEEIGPMDLVLVGLKTFANSRYEELIRPLVEEGTQILTLQNGLGNEEALATLFGAERIIGGVAFLCSNRGEPGEVHHLGAGRIILGEFLPRDTGRIEELAAMFRQAGVDCRTTDDLKRARWEKLVWNIPFNGLCALLQQPVNLILARDVSRKLVRGIMLEVIAGANAQGLATFIADGYVDDMLEFTDAMGEYKPSMEIDREEGRPLEIAAIFRTPLAYGAREGIAMPRVEMLATLLEQATG 3hn6-a1-m1-cB_3hn6-a1-m1-cD Crystal structure of glucosamine-6-phosphate deaminase from Borrelia burgdorferi O30564 O30564 2.2 X-RAY DIFFRACTION 71 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 270 270 3hn6-a1-m1-cA_3hn6-a1-m1-cC 3hn6-a1-m1-cE_3hn6-a1-m1-cA 3hn6-a1-m1-cE_3hn6-a1-m1-cC 3hn6-a1-m1-cF_3hn6-a1-m1-cB 3hn6-a1-m1-cF_3hn6-a1-m1-cD PGSMRLIIRPTYEDISKWAANHVAQKINEFSPTKENPFILGLPTGSSPIGMYKNLIELNKNKKISFQNVITFNMDEYIGIEENHPESYHSFMWNNFFSHIDIKKENINILNGNASNLKKECEEYEKKIKSFGGIMLFVGGIGPDGHIAFNEPGSSLTSRTRIKTLTQDTIIANSRFFEGDVNKVPKNALTVGIGTIMDSQEVLIIVNGHNKARALKHAIEKGVNHMWTISALQLHKNAIIVSDKNATYELKVGTVEYFNDIERKNFNNDL PGSMRLIIRPTYEDISKWAANHVAQKINEFSPTKENPFILGLPTGSSPIGMYKNLIELNKNKKISFQNVITFNMDEYIGIEENHPESYHSFMWNNFFSHIDIKKENINILNGNASNLKKECEEYEKKIKSFGGIMLFVGGIGPDGHIAFNEPGSSLTSRTRIKTLTQDTIIANSRFFEGDVNKVPKNALTVGIGTIMDSQEVLIIVNGHNKARALKHAIEKGVNHMWTISALQLHKNAIIVSDKNATYELKVGTVEYFNDIERKNFNNDL 3hn6-a1-m1-cD_3hn6-a1-m1-cA Crystal structure of glucosamine-6-phosphate deaminase from Borrelia burgdorferi O30564 O30564 2.2 X-RAY DIFFRACTION 27 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 270 271 3hn6-a1-m1-cB_3hn6-a1-m1-cC 3hn6-a1-m1-cF_3hn6-a1-m1-cE PGSMRLIIRPTYEDISKWAANHVAQKINEFSPTKENPFILGLPTGSSPIGMYKNLIELNKNKKISFQNVITFNMDEYIGIEENHPESYHSFMWNNFFSHIDIKKENINILNGNASNLKKECEEYEKKIKSFGGIMLFVGGIGPDGHIAFNEPGSSLTSRTRIKTLTQDTIIANSRFFEGDVNKVPKNALTVGIGTIMDSQEVLIIVNGHNKARALKHAIEKGVNHMWTISALQLHKNAIIVSDKNATYELKVGTVEYFNDIERKNFNNDL PGSMRLIIRPTYEDISKWAANHVAQKINEFSPTKENPFILGLPTGSSPIGMYKNLIELNKNKKISFQNVITFNMDEYIGIEENHPESYHSFMWNNFFSHIDIKKENINILNGNASNLKKECEEYEKKIKSFGGIMLFVGGIGPDGHIAFNEPGSSLTSRTRIKTLTQDTIIANSRFFEGDVNKVPKNALTVGIGTIMDSQEVLIIVNGHNKARALKHAIEKGVNHMWTISALQLHKNAIIVSDKNATYELKVGTVEYFNDIERKNFNNDLK 3hno-a4-m5-cD_3hno-a4-m1-cB Crystal Structure of Pyrophosphate-dependent phosphofructokinase from Nitrosospira multiformis. Northeast Structural Genomics Consortium target id NmR42 Q2YB24 Q2YB24 2 X-RAY DIFFRACTION 198 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 394 395 3hno-a1-m1-cC_3hno-a1-m2-cA 3hno-a2-m1-cD_3hno-a2-m3-cB 3hno-a3-m1-cA_3hno-a3-m4-cC AAKNAFYAQSGGVTAVINASAAGVIEAARKQSGKIGRIYAGRNGIIGALTEDLIDTGQESDAAISALRYTPSGAFGSCRYKNRREYERLIEVFKAHDIGYFFYNGGGDSADTCLKVSQLSGTLGYPIQAIHVPKTVDNDLPITDCCPGFGSVAKYIAVSTLEASFDVASMSATSTKVFVLEVMGRHAGWIAAAGGLASSPEREIPVVILFPEISFDKQKFLAKVDSCVKKFGYCSVVVSEGVKGDDGKFGVAPVVASMVKEGLGLKYHWGVADYLQRAARHIASKTDVEQAYAMGQAAVEFAVQGHNSVMPTIERISAPYQWKVGMAQLSQVANVEKMMPENFITEDGFGITDLCREYLAPLIEGEDYPPYKDGLPDYVRLKNVAVPKKLSGFT AAKNAFYAQSGGVTAVINASAAGVIEAARKQSGKIGRIYAGRNGIIGALTEDLIDTGQESDAAISALRYTPSGAFGSCRYKNRREYERLIEVFKAHDIGYFFYNGGGDSADTCLKVSQLSGTLGYPIQAIHVPKTVDNDLPITDCCPGFGSVAKYIAVSTLEASFDVASMSATSTKVFVLEVMGRHAGWIAAAGGLASSPEREIPVVILFPEISFDKQKFLAKVDSCVKKFGYCSVVVSEGVKGDDGKFGGVAPVVASMVKEGLGLKYHWGVADYLQRAARHIASKTDVEQAYAMGQAAVEFAVQGHNSVMPTIERISAPYQWKVGMAQLSQVANVEKMMPENFITEDGFGITDLCREYLAPLIEGEDYPPYKDGLPDYVRLKNVAVPKKLSGFT 3hnp-a1-m1-cC_3hnp-a1-m1-cB Crystal Structure of an Oxidoreductase from Bacillus cereus. Northeast Structural Genomics Consortium target id BcR251 Q81AZ1 Q81AZ1 2.6 X-RAY DIFFRACTION 93 0.994 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 340 350 3hnp-a1-m1-cE_3hnp-a1-m1-cA 3hnp-a1-m1-cF_3hnp-a1-m1-cD TLTMGFIGFGKSANRYHLPYLKTRNNIKVKTIFVRQINEELAAPYEERGVYFTTDLLLQVVTICTPAHTHYELAKKVILAGKSVIVEKPFCDTVEHAKELLALGREKGVVVMPYQNRRFDGDFLAVKQVVEQGFLGDIIEIESHIDYFRPGSITHEAPKEEGSFYSLGIHTMDRMISLFGRPNTVTYDIRNNEVEGAVDNYFDVGLHYGNQLKIKLKTNHIVAKDYPRFIVHGTNGSFIKYGEDQQENDLKAGIMPESAGFGEDSPMYYGIAKYRNANGDWIEKQIKTPLGDYGRFYDAAYDTIVNGAPKLVKDEEAVTNIEILENGFAAPSPSVYKLEA TLTMGFIGFGKSANRYHLPYLKTRNNIKVKTIFVRQINEELAAPYEERGVYFTTDLDELLNDKEIQVVTICTPAHTHYELAKKVILAGKSVIVEKPFCDTVEHAKELLALGREKGVVVMPYQNRRFDGDFLAVKQVVEQGFLGDIIEIESHIDYFRPGSITHEAPKEEGSFYSLGIHTMDRMISLFGRPNTVTYDIRNNEVEGAVDNYFDVGLHYGNQLKIKLKTNHIVAKDYPRFIVHGTNGSFIKYGEDQQENDLKAGIMPESAGFGEDSPMYYGIAKYRNANGDWIEKQIKTPLGDYGRFYDAAYDTIVNGAPKLVKDEEAVTNIEILENGFAAPSPSVYKLEALHL 3hnp-a1-m1-cD_3hnp-a1-m1-cA Crystal Structure of an Oxidoreductase from Bacillus cereus. Northeast Structural Genomics Consortium target id BcR251 Q81AZ1 Q81AZ1 2.6 X-RAY DIFFRACTION 35 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 344 350 3hnp-a1-m1-cC_3hnp-a1-m1-cA 3hnp-a1-m1-cC_3hnp-a1-m1-cD 3hnp-a1-m1-cE_3hnp-a1-m1-cB 3hnp-a1-m1-cF_3hnp-a1-m1-cB TLTMGFIGFGKSANRYHLPYLKTRNNIKVKTIFVRQINEELAAPYEERGVYFTTDLDELLNDKEIQVVTICTPAHTHYELAKKVILAGSVIVEKPFCDTVEHAKELLALGREKGVVVMPYQNRRFDGDFLAVKQVVEQGFLGDIIEIESHIDYFRPGSITHEAPKEEGSFYSLGIHTMDRMISLFGRPNTVTYDIRNNEVEGAVDNYFDVGLHYGNQLKIKLKTNHIVAKDYPRFIVHGTNGSFIKYGEDQQENDLKAGIMPESAGFGEDSPMYYGIAKYRNANGDWIEKQIKTPLGDYGRFYDAAYDTIVNGAPKLVKDEEAVTNIEILENGFAAPSPSVYKL TLTMGFIGFGKSANRYHLPYLKTRNNIKVKTIFVRQINEELAAPYEERGVYFTTDLDELLNDKEIQVVTICTPAHTHYELAKKVILAGKSVIVEKPFCDTVEHAKELLALGREKGVVVMPYQNRRFDGDFLAVKQVVEQGFLGDIIEIESHIDYFRPGSITHEAPKEEGSFYSLGIHTMDRMISLFGRPNTVTYDIRNNEVEGAVDNYFDVGLHYGNQLKIKLKTNHIVAKDYPRFIVHGTNGSFIKYGEDQQENDLKAGIMPESAGFGEDSPMYYGIAKYRNANGDWIEKQIKTPLGDYGRFYDAAYDTIVNGAPKLVKDEEAVTNIEILENGFAAPSPSVYKLEALHL 3hnw-a1-m1-cA_3hnw-a1-m1-cB Crystal Structure of a Basic Coiled-Coil Protein of Unknown Function from Eubacterium eligens ATCC 27750 D0VWZ2 D0VWZ2 2.196 X-RAY DIFFRACTION 151 1.0 515620 ([Eubacterium] eligens ATCC 27750) 515620 ([Eubacterium] eligens ATCC 27750) 124 124 TAEVILGGKVIKLGGYESEEYLQRVASYINNKITEFNKEESYRRSAELRTDYLNIADDYFKAKKADSLSLDIENKDKEIYDLKHELIAAQIKAESSAKEIKELKSEINKYQKNIVKLETELNDS TAEVILGGKVIKLGGYESEEYLQRVASYINNKITEFNKEESYRRSAELRTDYLNIADDYFKAKKADSLSLDIENKDKEIYDLKHELIAAQIKAESSAKEIKELKSEINKYQKNIVKLETELNDS 3hoa-a1-m1-cA_3hoa-a1-m1-cB Crystal structure of the Thermus thermophilus M32 carboxypeptidase Q72GY3 Q72GY3 2.1 X-RAY DIFFRACTION 112 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 509 509 5wvu-a1-m1-cA_5wvu-a1-m2-cA 5wvu-a2-m1-cB_5wvu-a2-m1-cC MTPEAAYQNLLEFQRETAYLASLGALAAWDQRTMIPKKGHEHRARQMAALARLLHQRMTDPRIGEWLEKVEGSPLVQDPLSDAAVNVREWRQAYERARAIPERLAVELAQAESEAESFWEEARPRDDWRGFLPYLKRVYALTKEKAEVLFALPPAPGDPPYGELYDALLDGYEPGMRARELLPLFAELKEGLKGLLDRILGSGKRPDTSILHRPYPVEAQRRFALELLSACGYDLEAGRLDPTAHPFEIAIGPGDVRITTRYYEDFFNAGIFGTLHEMGHALYEQGLPKEHWGTPRGDAVSLGVHESQSRTWENLVGRSLGFWERFFPRAREVFASLGDVSLEDFHFAVNAVEPSLIRVEADEVTYNLHILVRLELELALFRGELSPEDLPEAWAEKYRDHLGVAPKDYKDGVMQDVHWAGGLFGYFPTYTLGNLYAAQFFQKAEAELGPLEPRFARGEFQPFLDWTRARIHAEGSRFRPRVLVERVTGEAPSARPFLAYLEKKYAALY MTPEAAYQNLLEFQRETAYLASLGALAAWDQRTMIPKKGHEHRARQMAALARLLHQRMTDPRIGEWLEKVEGSPLVQDPLSDAAVNVREWRQAYERARAIPERLAVELAQAESEAESFWEEARPRDDWRGFLPYLKRVYALTKEKAEVLFALPPAPGDPPYGELYDALLDGYEPGMRARELLPLFAELKEGLKGLLDRILGSGKRPDTSILHRPYPVEAQRRFALELLSACGYDLEAGRLDPTAHPFEIAIGPGDVRITTRYYEDFFNAGIFGTLHEMGHALYEQGLPKEHWGTPRGDAVSLGVHESQSRTWENLVGRSLGFWERFFPRAREVFASLGDVSLEDFHFAVNAVEPSLIRVEADEVTYNLHILVRLELELALFRGELSPEDLPEAWAEKYRDHLGVAPKDYKDGVMQDVHWAGGLFGYFPTYTLGNLYAAQFFQKAEAELGPLEPRFARGEFQPFLDWTRARIHAEGSRFRPRVLVERVTGEAPSARPFLAYLEKKYAALY 3hoc-a3-m1-cA_3hoc-a3-m1-cB Structure of the actin-binding domain of human filamin A mutant E254K P21333 P21333 2.3 X-RAY DIFFRACTION 16 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 215 217 APWKKIQQNTFTRWCNEHLKCVSKRIANLQTDLSDGLRLIALLEVLSQKKMHRKHNQRPTFRQMQLENVSVALEFLDRESIKLVSIDSKAIVDGNLKLILGLIWTLILHYSISMPQTPKQRLLGWIQNKLPQLPITNFSRDWQSGRALGALVDSCAPGLCPDWDSWDASKPVTNAREAMQQADDWLGIPQVITPEEIVDPNVDKHSVMTYLSQFP KKIQQNTFTRWCNEHLKCVSKRIANLQTDLSDGLRLIALLEVLSQKKMHRKHNQRPTFRQMQLENVSVALEFLDRESIKLVSIDSKAIVDGNLKLILGLIWTLILHYSISMPMQTPKQRLLGWIQNKLPQLPITNFSRDWQSGRALGALVDSCAPGLCPDWDSWDASKPVTNAREAMQQADDWLGIPQVITPEEIVDPNVDKHSVMTYLSQFPKAKL 3hoi-a1-m1-cA_3hoi-a1-m2-cA Crystal structure of FMN-dependent nitroreductase BF3017 from Bacteroides fragilis NCTC 9343 (YP_212631.1) from Bacteroides fragilis NCTC 9343 at 1.55 A resolution Q5LB10 Q5LB10 1.55 X-RAY DIFFRACTION 109 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 184 184 GAERTIQLPKPDNRAGLLKALSERHSTREYASKALSNTDLSDLLWAANGINRSSEGKRTAPSANRQDIDIYVVLPQGTYLYDAKGHKLNLISEGDHRSAVAGGQAFVNNAPVSLVLVSDLSKLGDAKSNHVQLGADAGIVSQNISLFCSAARLATVPRASDLVRLKAALKLKDTQPNHPVGYFK GAERTIQLPKPDNRAGLLKALSERHSTREYASKALSNTDLSDLLWAANGINRSSEGKRTAPSANRQDIDIYVVLPQGTYLYDAKGHKLNLISEGDHRSAVAGGQAFVNNAPVSLVLVSDLSKLGDAKSNHVQLGADAGIVSQNISLFCSAARLATVPRASDLVRLKAALKLKDTQPNHPVGYFK 3hp0-a8-m1-cD_3hp0-a8-m1-cF Crystal structure of a Putative polyketide biosynthesis enoyl-CoA hydratase (pksH) from Bacillus subtilis P40805 P40805 2.32 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 244 244 3hp0-a7-m1-cA_3hp0-a7-m1-cE 3hp0-a7-m1-cA_3hp0-a7-m2-cC 3hp0-a7-m1-cE_3hp0-a7-m2-cC 3hp0-a8-m1-cD_3hp0-a8-m3-cB 3hp0-a8-m1-cF_3hp0-a8-m3-cB TYQTIKVRFQASVCYITFHRPEANNTINDTLIEECLQVLNQCETSTVTVVVLEGLPEVFCFGADFQEIYQEKRGRKQASSQEPLYDLWKLQTGPYVTISHVRGKVNAGGLGFVSATDIAIADQTASFSLSELLFGLYPACVLPFLIRRIGRQKAHYTLTKPISVQEASEWGLIDAFDAESDVLLRKHLLRLRRLNKKGIAHYKQFSSLDHQVSRAKATALTANQDFSDPQNQGIIRYVETGQFP TYQTIKVRFQASVCYITFHRPEANNTINDTLIEECLQVLNQCETSTVTVVVLEGLPEVFCFGADFQEIYQEKRGRKQASSQEPLYDLWKLQTGPYVTISHVRGKVNAGGLGFVSATDIAIADQTASFSLSELLFGLYPACVLPFLIRRIGRQKAHYTLTKPISVQEASEWGLIDAFDAESDVLLRKHLLRLRRLNKKGIAHYKQFSSLDHQVSRAKATALTANQDFSDPQNQGIIRYVETGQFP 3hp3-a3-m1-cD_3hp3-a3-m1-cF Crystal structure of CXCL12 P48061 P48061 2.2 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 65 3hp3-a1-m1-cB_3hp3-a1-m1-cA 3hp3-a2-m1-cC_3hp3-a2-m1-cH 3hp3-a4-m1-cE_3hp3-a4-m1-cG 3hp3-a5-m2-cJ_3hp3-a5-m1-cI SLSYRCPCRFFESHVARANVKHLKILNTPNCALQIVARLKNNNRQVCIDPKLKWIQEYLEKALN VSLSYRCPCRFFESHVARANVKHLKILNTPNCALQIVARLKNNNRQVCIDPKLKWIQEYLEKALN 3hpa-a3-m1-cA_3hpa-a3-m1-cB Crystal structure of an amidohydrolase gi:44264246 from an evironmental sample of sargasso sea 2.2 X-RAY DIFFRACTION 225 1.0 32644 (unidentified) 32644 (unidentified) 428 428 KTLLVKHADVLVTMDDTRRELRDAGLYIEDNRIVAVGPSAELPETADEVLDLRGHLVIPGLVNTHHHMYQSLTRAVPAAQNAELFGWLTNLYKIWAHLTPEMIEVSTLTAMAELLQSGCTTSSDHLYIYPNGSRLDDSIGAAQRIGMRFHASRGAMSEPDILRDTQRLIETYHDEGRYAMLRVVVAPCSPFSVSRDLMRDAAVLAREYGVSLHTHLAENVNDIAYTPAEYAEDLGWVGHDVWHAHCVQLDDAGIGLFARTGTGVAHCPCSNMRLASGIAPVKKMRLAGVPVGLGVDGSASNDGAQMVAEVRQALLLQRVGFGPDAMTAREALEIATLGGAKVLNRDDIGALKPGMAADFAAFDLRQPLFAGALHDPVAALVFCAPSQTAYTVVNGKVVVREGRLATLDLPPVIERHNALAHALVEAAR KTLLVKHADVLVTMDDTRRELRDAGLYIEDNRIVAVGPSAELPETADEVLDLRGHLVIPGLVNTHHHMYQSLTRAVPAAQNAELFGWLTNLYKIWAHLTPEMIEVSTLTAMAELLQSGCTTSSDHLYIYPNGSRLDDSIGAAQRIGMRFHASRGAMSEPDILRDTQRLIETYHDEGRYAMLRVVVAPCSPFSVSRDLMRDAAVLAREYGVSLHTHLAENVNDIAYTPAEYAEDLGWVGHDVWHAHCVQLDDAGIGLFARTGTGVAHCPCSNMRLASGIAPVKKMRLAGVPVGLGVDGSASNDGAQMVAEVRQALLLQRVGFGPDAMTAREALEIATLGGAKVLNRDDIGALKPGMAADFAAFDLRQPLFAGALHDPVAALVFCAPSQTAYTVVNGKVVVREGRLATLDLPPVIERHNALAHALVEAAR 3hpd-a1-m2-cA_3hpd-a1-m3-cA Structure of hydroxyethylthiazole kinase protein from pyrococcus horikoshii OT3 O58877 O58877 1.85 X-RAY DIFFRACTION 85 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 254 254 3hpd-a1-m1-cA_3hpd-a1-m2-cA 3hpd-a1-m1-cA_3hpd-a1-m3-cA MKFIIEALKRVRERRPLVHNITNFVVMNTTANALLALGASPVMAHAEEELEEMIRLADAVVINIGTLDSGWRRSMVKATEIANELGKPIVLDPVGAGATKFRTRVSLEILSRGVDVLKGNFGEISALLGEEGGEEEAKKLTMNAAREFNTTVAVTGAVDYVSDGRRTFAVYNGHELLGRVTGTGCMVAALTGAFVAVTEPLKATTSALVTFGIAAEKAYEEAKYPGSFHVKLYDWLYRINENVIRTYAKVREVE MKFIIEALKRVRERRPLVHNITNFVVMNTTANALLALGASPVMAHAEEELEEMIRLADAVVINIGTLDSGWRRSMVKATEIANELGKPIVLDPVGAGATKFRTRVSLEILSRGVDVLKGNFGEISALLGEEGGEEEAKKLTMNAAREFNTTVAVTGAVDYVSDGRRTFAVYNGHELLGRVTGTGCMVAALTGAFVAVTEPLKATTSALVTFGIAAEKAYEEAKYPGSFHVKLYDWLYRINENVIRTYAKVREVE 3hpe-a1-m1-cA_3hpe-a1-m1-cB Crystal structure of yceI (HP1286) from Helicobacter pylori Q1CRX8 Q1CRX8 2.1 X-RAY DIFFRACTION 65 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 164 164 KPYTIDKANSSVWFEVKHFKFNETRGVFDSFDGKIDADPNTKALNVFEGKIDIKSINTRNKKRDDHLKTAEFFDVVKYPKGSFKMTKYEDGKIHGDLTLHGVTKPVVLEAKIQAPLQNPMNKKEFMVLQAEGKINRKDFGIGKTFSDAVVGDEVKIELKLEAYA KPYTIDKANSSVWFEVKHFKFNETRGVFDSFDGKIDADPNTKALNVFEGKIDIKSINTRNKKRDDHLKTAEFFDVVKYPKGSFKMTKYEDGKIHGDLTLHGVTKPVVLEAKIQAPLQNPMNKKEFMVLQAEGKINRKDFGIGKTFSDAVVGDEVKIELKLEAYA 3hpk-a3-m1-cB_3hpk-a3-m1-cA Oxidized dimeric PICK1 PDZ in complex with the carboxyl tail peptide of GluR2 Q9EP80 Q9EP80 2.2 X-RAY DIFFRACTION 68 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 107 112 3hpm-a3-m1-cA_3hpm-a3-m1-cB VPGKVTLQKDAQNLIGISIGGGAQYCPCLYIVQVFDNTPAALDGTVAAGDEITGVNGRSIKGKTKVEVAKMIQEVKGEVTIHYNKLQADPKQLEVLFNGPGIESVKI LGIPTVPGKVTLQKDAQNLIGISIGGGAQYCPCLYIVQVFDNTPAALDGTVAAGDEITGVNGRSIKGKTKVEVAKMIQEVKGEVTIHYNKLQADPKQLEVLFNGPGIESVKI 3hpn-a9-m1-cC_3hpn-a9-m1-cD Ligand recognition by A-class EPH receptors: crystal structures of the EPHA2 ligand-binding domain and the EPHA2/EPHRIN-A1 complex P29317 P29317 2.52 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 3hpn-a7-m1-cA_3hpn-a7-m1-cB 3hpn-a8-m1-cE_3hpn-a8-m1-cF EVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKC EVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKKC 3hpv-a1-m1-cB_3hpv-a1-m1-cC Crystal Structure Analysis of the 2,3-dioxygenase LapB from Pseudomonas sp. KL28 Q7WYF5 Q7WYF5 2.3 X-RAY DIFFRACTION 115 1.0 237609 (Pseudomonas alkylphenolica) 237609 (Pseudomonas alkylphenolica) 288 288 3hpv-a1-m1-cD_3hpv-a1-m1-cA 3hpy-a1-m1-cA_3hpy-a1-m1-cD 3hpy-a1-m1-cB_3hpy-a1-m1-cC 3hq0-a1-m1-cB_3hq0-a1-m1-cC 3hq0-a1-m1-cD_3hq0-a1-m1-cA AMTGVLRPGHAQVRVLNLEEGIHFYRNVLGLVETGRDDQGRVYFKCWDERDHSCYIIREADTAGIDFFGFKVLDKATLEKLDADLQAYGLTTTRIPAGEMLETGERVRFELPSGHLIELYAEKTCVGNGISEVNPAPWNAQREHGIAPIQLDHCLLYGPNIAEVQKIFTEVLGFYLVERVLSPDGDSDMGIWLSCSHKVHDIAFVEYPEKGKLHHCSFLLESWEQVLRAGDIMSMNEVNVDIGPTRHGVTRGCTIYAWDPSGNRFETFMGGYHPYPDYEPLSWTYDNF AMTGVLRPGHAQVRVLNLEEGIHFYRNVLGLVETGRDDQGRVYFKCWDERDHSCYIIREADTAGIDFFGFKVLDKATLEKLDADLQAYGLTTTRIPAGEMLETGERVRFELPSGHLIELYAEKTCVGNGISEVNPAPWNAQREHGIAPIQLDHCLLYGPNIAEVQKIFTEVLGFYLVERVLSPDGDSDMGIWLSCSHKVHDIAFVEYPEKGKLHHCSFLLESWEQVLRAGDIMSMNEVNVDIGPTRHGVTRGCTIYAWDPSGNRFETFMGGYHPYPDYEPLSWTYDNF 3hpy-a1-m1-cA_3hpy-a1-m1-cB Crystal Structure Analysis of the 2,3-dioxygenase LapB from Pseudomonas in the complex with 4-methylcatechol Q7WYF5 Q7WYF5 1.94 X-RAY DIFFRACTION 24 1.0 237609 (Pseudomonas alkylphenolica) 237609 (Pseudomonas alkylphenolica) 288 288 3hpv-a1-m1-cB_3hpv-a1-m1-cA 3hpv-a1-m1-cC_3hpv-a1-m1-cD 3hpy-a1-m1-cC_3hpy-a1-m1-cD 3hq0-a1-m1-cB_3hq0-a1-m1-cA 3hq0-a1-m1-cD_3hq0-a1-m1-cC AMTGVLRPGHAQVRVLNLEEGIHFYRNVLGLVETGRDDQGRVYFKCWDERDHSCYIIREADTAGIDFFGFKVLDKATLEKLDADLQAYGLTTTRIPAGEMLETGERVRFELPSGHLIELYAEKTCVGNGISEVNPAPWNAQREHGIAPIQLDHCLLYGPNIAEVQKIFTEVLGFYLVERVLSPDGDSDMGIWLSCSHKVHDIAFVEYPEKGKLHHCSFLLESWEQVLRAGDIMSMNEVNVDIGPTRHGVTRGCTIYAWDPSGNRFETFMGGYHPYPDYEPLSWTYDNF AMTGVLRPGHAQVRVLNLEEGIHFYRNVLGLVETGRDDQGRVYFKCWDERDHSCYIIREADTAGIDFFGFKVLDKATLEKLDADLQAYGLTTTRIPAGEMLETGERVRFELPSGHLIELYAEKTCVGNGISEVNPAPWNAQREHGIAPIQLDHCLLYGPNIAEVQKIFTEVLGFYLVERVLSPDGDSDMGIWLSCSHKVHDIAFVEYPEKGKLHHCSFLLESWEQVLRAGDIMSMNEVNVDIGPTRHGVTRGCTIYAWDPSGNRFETFMGGYHPYPDYEPLSWTYDNF 3hq0-a1-m1-cB_3hq0-a1-m1-cD Crystal Structure Analysis of the 2,3-dioxygenase LapB from Pseudomonas in complex with a product Q7WYF5 Q7WYF5 2 X-RAY DIFFRACTION 18 1.0 237609 (Pseudomonas alkylphenolica) 237609 (Pseudomonas alkylphenolica) 288 288 3hpv-a1-m1-cB_3hpv-a1-m1-cD 3hpv-a1-m1-cC_3hpv-a1-m1-cA 3hpy-a1-m1-cA_3hpy-a1-m1-cC 3hpy-a1-m1-cB_3hpy-a1-m1-cD 3hq0-a1-m1-cC_3hq0-a1-m1-cA AMTGVLRPGHAQVRVLNLEEGIHFYRNVLGLVETGRDDQGRVYFKCWDERDHSCYIIREADTAGIDFFGFKVLDKATLEKLDADLQAYGLTTTRIPAGEMLETGERVRFELPSGHLIELYAEKTCVGNGISEVNPAPWNAQREHGIAPIQLDHCLLYGPNIAEVQKIFTEVLGFYLVERVLSPDGDSDMGIWLSCSHKVHDIAFVEYPEKGKLHHCSFLLESWEQVLRAGDIMSMNEVNVDIGPTRHGVTRGCTIYAWDPSGNRFETFMGGYHPYPDYEPLSWTYDNF AMTGVLRPGHAQVRVLNLEEGIHFYRNVLGLVETGRDDQGRVYFKCWDERDHSCYIIREADTAGIDFFGFKVLDKATLEKLDADLQAYGLTTTRIPAGEMLETGERVRFELPSGHLIELYAEKTCVGNGISEVNPAPWNAQREHGIAPIQLDHCLLYGPNIAEVQKIFTEVLGFYLVERVLSPDGDSDMGIWLSCSHKVHDIAFVEYPEKGKLHHCSFLLESWEQVLRAGDIMSMNEVNVDIGPTRHGVTRGCTIYAWDPSGNRFETFMGGYHPYPDYEPLSWTYDNF 3hq1-a1-m1-cA_3hq1-a1-m1-cB Crystal structure of Mycobacterium tuberculosis LeuA complexed with citrate and Mn2+ P9WQB3 P9WQB3 1.7 X-RAY DIFFRACTION 524 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 573 576 1sr9-a1-m1-cA_1sr9-a1-m1-cB 3fig-a1-m1-cA_3fig-a1-m1-cB 3hps-a1-m1-cA_3hps-a1-m1-cB 3hpx-a1-m1-cA_3hpx-a1-m1-cB 3hpz-a1-m1-cA_3hpz-a1-m1-cB 3u6w-a1-m1-cA_3u6w-a1-m1-cB TIVKPAGPPRVGQPSWNPQRASSMPVNRYRPFAEEVEPIRLRNRTWPDRVIDRAPLWCAVDLRDGNQALIDPMSPARKRRMFDLLVRMGYKEIEVGFPSASQTDFDFVREIIEQGAIPDDVTIQVLTQCRPELIERTFQACSGAPRAIVHFYNSTSILQRRVVFRANRAEVQAIATDGARKCVEQAAKYPGTQWRFEYSPESYTGTELEYAKQVCDAVGEVIAPTPERPIIFNLPATVEMTTPNVYADSIEWMSRNLANRESVILSLHPHNDRGTAVAAAELGFAAGADRIEGCLFGNGERTGNVCLVTLGLNLFSRGVDPQIDFSNIDEIRRTVEYCNQLPVHERHPYGGDLVYTAFSGSHQDAINKGLDAMKLDADAADCDVDDMLWQVPYLPIDPRDVGRTYEAVIKGGVAYIMKTDHGLSLPRRLQIEFSQVIQKIEVSPKEMWDAFAEEYLAPVRPLERIRQHVDAADDDGGTTSITATVKINGVETEISGSGNGPLAAFVHALADVGFDVAVLDYYEHAMSAGDDAQAAAYVEASVTISKTVWGVGIAPSITTASLRAVVSAVNRAA TIVKPAGPPRVGQPSWNPQRASSMPVNRYRPFAEEVEPIRLRNRTWPDRVIDRAPLWCAVDLRDGNQALIDPMSPARKRRMFDLLVRMGYKEIEVGFPSASQTDFDFVREIIEQGAIPDDVTIQVLTQCRPELIERTFQACSGAPRAIVHFYNSTSILQRRVVFRANRAEVQAIATDGARKCVEQAAKYPGTQWRFEYSPESYTGTELEYAKQVCDAVGEVIAPTPERPIIFNLPATVEMTTPNVYADSIEWMSRNLANRESVILSLHPHNDRGTAVAAAELGFAAGADRIEGCLFGNGERTGNVCLVTLGLNLFSRGVDPQIDFSNIDEIRRTVEYCNQLPVHERHPYGGDLVYTAFSGSHQDAINKGLDAMKLDADAADCDVDDMLWQVPYLPIDPRDVGRTYEAVIRVNKGGVAYIMKTDHGLSLPRRLQIEFSQVIQKVSPKEMWDAFAEEYLAPVRPLERIRQHVDAADDDGGTTSITATVKINGVETEISGSGNGPLAAFVHALADVGFDVAVLDYYEHAMSAGDDAQAAAYVEASVTIATSKTVWGVGIAPSITTASLRAVVSAVNRAA 3hq2-a2-m1-cA_3hq2-a2-m2-cA BsuCP Crystal Structure P50848 P50848 2.9 X-RAY DIFFRACTION 19 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 496 496 TYEKEFFDLLKRISHYSEAVALMHWDSRTGAPKNGSEDRAESIGQLSTDIFNIQTSDRMKELIDVLYERFDDLSEDTKKAVELAKKEYEENKKIPEAEYKEYVILCSKAETAWEEAKGKSDFSLFSPYLEQLIEFNKRFITYWGYQEHPYDALLDLFEPGVTVKVLDQLFAELKEAIIPLVKQVTASGNKPDTSFITKAFPKEKQKELSLYFLQELGYDFDGGRLDETVHPFATTLNRGDVRVTTRYDEKDFRTAIFGTIHECGHAIYEQNIDEALSGTNLSDGASMGIHESQSLFYENFIGRNKHFWTPYYKKIQEASPVQFKDISLDDFVRAINESKPSFIRVEADELTYPLHIIIRYEIEKAIFSNEVSVEDLPSLWNQKYQDYLGITPQTDAEGILQDVHWAGGDFGYFPSYALGYMYAAQLKQKMLEDLPEFDALLERGEFHPIKQWLTEKVHIHGKRKKPLDIIKDATGEELNVRYLIDYLSNKYSNLYL TYEKEFFDLLKRISHYSEAVALMHWDSRTGAPKNGSEDRAESIGQLSTDIFNIQTSDRMKELIDVLYERFDDLSEDTKKAVELAKKEYEENKKIPEAEYKEYVILCSKAETAWEEAKGKSDFSLFSPYLEQLIEFNKRFITYWGYQEHPYDALLDLFEPGVTVKVLDQLFAELKEAIIPLVKQVTASGNKPDTSFITKAFPKEKQKELSLYFLQELGYDFDGGRLDETVHPFATTLNRGDVRVTTRYDEKDFRTAIFGTIHECGHAIYEQNIDEALSGTNLSDGASMGIHESQSLFYENFIGRNKHFWTPYYKKIQEASPVQFKDISLDDFVRAINESKPSFIRVEADELTYPLHIIIRYEIEKAIFSNEVSVEDLPSLWNQKYQDYLGITPQTDAEGILQDVHWAGGDFGYFPSYALGYMYAAQLKQKMLEDLPEFDALLERGEFHPIKQWLTEKVHIHGKRKKPLDIIKDATGEELNVRYLIDYLSNKYSNLYL 3hq2-a2-m2-cA_3hq2-a2-m2-cB BsuCP Crystal Structure P50848 P50848 2.9 X-RAY DIFFRACTION 109 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 496 497 3hq2-a1-m1-cA_3hq2-a1-m1-cB 3hq2-a2-m1-cA_3hq2-a2-m1-cB TYEKEFFDLLKRISHYSEAVALMHWDSRTGAPKNGSEDRAESIGQLSTDIFNIQTSDRMKELIDVLYERFDDLSEDTKKAVELAKKEYEENKKIPEAEYKEYVILCSKAETAWEEAKGKSDFSLFSPYLEQLIEFNKRFITYWGYQEHPYDALLDLFEPGVTVKVLDQLFAELKEAIIPLVKQVTASGNKPDTSFITKAFPKEKQKELSLYFLQELGYDFDGGRLDETVHPFATTLNRGDVRVTTRYDEKDFRTAIFGTIHECGHAIYEQNIDEALSGTNLSDGASMGIHESQSLFYENFIGRNKHFWTPYYKKIQEASPVQFKDISLDDFVRAINESKPSFIRVEADELTYPLHIIIRYEIEKAIFSNEVSVEDLPSLWNQKYQDYLGITPQTDAEGILQDVHWAGGDFGYFPSYALGYMYAAQLKQKMLEDLPEFDALLERGEFHPIKQWLTEKVHIHGKRKKPLDIIKDATGEELNVRYLIDYLSNKYSNLYL HTYEKEFFDLLKRISHYSEAVALMHWDSRTGAPKNGSEDRAESIGQLSTDIFNIQTSDRMKELIDVLYERFDDLSEDTKKAVELAKKEYEENKKIPEAEYKEYVILCSKAETAWEEAKGKSDFSLFSPYLEQLIEFNKRFITYWGYQEHPYDALLDLFEPGVTVKVLDQLFAELKEAIIPLVKQVTASGNKPDTSFITKAFPKEKQKELSLYFLQELGYDFDGGRLDETVHPFATTLNRGDVRVTTRYDEKDFRTAIFGTIHECGHAIYEQNIDEALSGTNLSDGASMGIHESQSLFYENFIGRNKHFWTPYYKKIQEASPVQFKDISLDDFVRAINESKPSFIRVEADELTYPLHIIIRYEIEKAIFSNEVSVEDLPSLWNQKYQDYLGITPQTDAEGILQDVHWAGGDFGYFPSYALGYMYAAQLKQKMLEDLPEFDALLERGEFHPIKQWLTEKVHIHGKRKKPLDIIKDATGEELNVRYLIDYLSNKYSNLYL 3hq9-a1-m1-cB_3hq9-a1-m1-cA CcpA from G. sulfurreducens, S134P variant Q749D0 Q749D0 1.52 X-RAY DIFFRACTION 84 0.993 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 306 312 3hq6-a1-m1-cB_3hq6-a1-m1-cA 3hq7-a1-m1-cA_3hq7-a1-m2-cA 3hq8-a1-m1-cB_3hq8-a1-m1-cA AADELQQRAQGLFKPVPAKAPTLKGNPASPVKVELGKMLYFDPRLSASHLISCNTCHNVGLGGGDLQATSTGHGWQKGPRNAPTVLNSVFNTAQFWDGRAKDLQAPVEMNNTPDQVVKTLNSIPDYVALFKKAFPGEKDPVTFDNMAKAIEVFEATLITPDSPFDQYLKGKKKALDGKQTAGLKLFLDKGCVACHGGLNLGGTGYFPFGVVEKGRFAVTNTAKDEYVFRAPSLRNVAITYPYFHSGVVWSLKEAVAVMGSAQFGIKLSDDESEAIAAFLGSLTGKQPKVVYPIMPASTDATPRPRL ADELQQRAQGLFKPVPAKAPTLKGNPASPVKVELGKMLYFDPRLSASHLISCNTCHNVGLGGGDLQATSTGHGWQKGPRNAPTVLNSVFNTAQFWDGRAKDLAEQAKGPVQAPVEMNNTPDQVVKTLNSIPDYVALFKKAFPGEKDPVTFDNMAKAIEVFEATLITPDSPFDQYLKGKKKALDGKQTAGLKLFLDKGCVACHGGLNLGGTGYFPFGVVEGRFAVTNTAKDEYVFRAPSLRNVAITYPYFHSGVVWSLKEAVAVMGSAQFGIKLSDDESEAIAAFLGSLTGKQPKVVYPIMPASTDATPRPRL 3hqa-a3-m1-cB_3hqa-a3-m1-cA Crystal structure of human desarg-C5A P01031 P01031 2.586 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 66 3hqb-a3-m1-cB_3hqb-a3-m1-cA QKKIEEIAAKYKHSVVKKCCYDGACVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANIS MLQKKIEEIAAKYKHSVVKKCCYDGACVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANIS 3hqg-a1-m1-cA_3hqg-a1-m2-cA Crystal structure of restriction endonuclease EcoRII catalytic C-terminal domain in complex with cognate DNA P14633 P14633 2.6 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 222 222 YILPEDWHLRFPSGSEIIQYAASHYVKNSLDPDEQLLDRRRVEYDIFLLVEELHVLDIIRKGFGSVDEFIALANSVSNRRKSRAGKSLELHLEHLFIEHGLRHFATQAITEGNKKPDFLFPSAGAYHDTEFPVENLRMLAVKTTCKDRWRQILNEADKIHQVHLFTLQEGVSLAQYREMRESGVRLVVPSSLHKKYPEAVRAELMTLGAFIAELTGLYADIP YILPEDWHLRFPSGSEIIQYAASHYVKNSLDPDEQLLDRRRVEYDIFLLVEELHVLDIIRKGFGSVDEFIALANSVSNRRKSRAGKSLELHLEHLFIEHGLRHFATQAITEGNKKPDFLFPSAGAYHDTEFPVENLRMLAVKTTCKDRWRQILNEADKIHQVHLFTLQEGVSLAQYREMRESGVRLVVPSSLHKKYPEAVRAELMTLGAFIAELTGLYADIP 3hqj-a1-m2-cA_3hqj-a1-m3-cA Structure-function analysis of Mycobacterium tuberculosis acyl carrier protein synthase (AcpS). P9WQD3 P9WQD3 1.95 X-RAY DIFFRACTION 58 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 113 113 3hqj-a1-m1-cA_3hqj-a1-m2-cA 3hqj-a1-m1-cA_3hqj-a1-m3-cA GIVGVGIDLVSIPDFAEQVDTFTPGERRDASSAARHLAARWAAKEAVIKAWSGSRFAQRPMIHRDIEVVTDMWGRPRVRLTGAIAEYLADVTIHVSLTHEGDTAAAVAILEAP GIVGVGIDLVSIPDFAEQVDTFTPGERRDASSAARHLAARWAAKEAVIKAWSGSRFAQRPMIHRDIEVVTDMWGRPRVRLTGAIAEYLADVTIHVSLTHEGDTAAAVAILEAP 3hqq-a5-m1-cQ_3hqq-a5-m1-cS Crystal structure of Leishmania mexicana pyruvate kinase (LmPYK) in complex with Fructose 2,6 bisphosphate Q27686 Q27686 5.07 X-RAY DIFFRACTION 175 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 498 498 1pkl-a1-m1-cA_1pkl-a1-m1-cC 1pkl-a1-m1-cB_1pkl-a1-m1-cD 1pkl-a2-m1-cE_1pkl-a2-m1-cG 1pkl-a2-m1-cF_1pkl-a2-m1-cH 3e0v-a1-m1-cA_3e0v-a1-m1-cB 3e0v-a1-m1-cC_3e0v-a1-m1-cD 3e0v-a2-m1-cE_3e0v-a2-m1-cF 3e0v-a2-m2-cE_3e0v-a2-m2-cF 3e0w-a1-m1-cA_3e0w-a1-m4-cA 3e0w-a1-m2-cA_3e0w-a1-m3-cA 3hqn-a1-m1-cA_3hqn-a1-m1-cD 3hqn-a1-m2-cA_3hqn-a1-m2-cD 3hqq-a1-m1-cA_3hqq-a1-m1-cI 3hqq-a1-m1-cH_3hqq-a1-m1-cJ 3hqq-a2-m1-cB_3hqq-a2-m1-cC 3hqq-a2-m1-cO_3hqq-a2-m1-cP 3hqq-a3-m1-cD_3hqq-a3-m1-cF 3hqq-a3-m1-cE_3hqq-a3-m1-cG 3hqq-a4-m1-cK_3hqq-a4-m1-cM 3hqq-a4-m1-cL_3hqq-a4-m1-cN 3hqq-a5-m1-cR_3hqq-a5-m1-cT 3hqq-a6-m1-cU_3hqq-a6-m1-cW 3hqq-a6-m1-cV_3hqq-a6-m1-cX 3is4-a1-m1-cA_3is4-a1-m1-cB 3is4-a1-m2-cA_3is4-a1-m2-cB 3ktx-a1-m1-cA_3ktx-a1-m1-cB 3ktx-a1-m2-cA_3ktx-a1-m2-cB 3pp7-a1-m1-cA_3pp7-a1-m1-cB 3pp7-a1-m2-cA_3pp7-a1-m2-cB 3qv6-a1-m1-cD_3qv6-a1-m1-cA 3qv6-a1-m2-cD_3qv6-a1-m2-cA 3qv7-a1-m1-cA_3qv7-a1-m1-cD 3srk-a1-m1-cB_3srk-a1-m1-cA 3srk-a1-m2-cB_3srk-a1-m2-cA SQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEIRTGQFVGGDAVMERGATCYVTTDPAFADKGTKDKFYIDYQNLSKVVRPGNYIYIDDGILILQVQSHEDEQTLECTVTNSHTISDRRGVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHADHKVKGYANQTRILLVE SQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEIRTGQFVGGDAVMERGATCYVTTDPAFADKGTKDKFYIDYQNLSKVVRPGNYIYIDDGILILQVQSHEDEQTLECTVTNSHTISDRRGVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHADHKVKGYANQTRILLVE 3hqq-a5-m1-cS_3hqq-a5-m1-cT Crystal structure of Leishmania mexicana pyruvate kinase (LmPYK) in complex with Fructose 2,6 bisphosphate Q27686 Q27686 5.07 X-RAY DIFFRACTION 88 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 498 498 1pkl-a1-m1-cB_1pkl-a1-m1-cA 1pkl-a1-m1-cC_1pkl-a1-m1-cD 1pkl-a2-m1-cF_1pkl-a2-m1-cE 1pkl-a2-m1-cH_1pkl-a2-m1-cG 3e0v-a1-m1-cA_3e0v-a1-m1-cC 3e0v-a1-m1-cD_3e0v-a1-m1-cB 3e0v-a2-m1-cE_3e0v-a2-m2-cE 3e0v-a2-m1-cF_3e0v-a2-m2-cF 3e0w-a1-m1-cA_3e0w-a1-m2-cA 3e0w-a1-m3-cA_3e0w-a1-m4-cA 3hqn-a1-m1-cA_3hqn-a1-m2-cD 3hqn-a1-m2-cA_3hqn-a1-m1-cD 3hqo-a1-m1-cK_3hqo-a1-m2-cK 3hqo-a2-m1-cA_3hqo-a2-m3-cA 3hqo-a3-m1-cB_3hqo-a3-m2-cB 3hqo-a4-m1-cC_3hqo-a4-m4-cC 3hqq-a1-m1-cA_3hqq-a1-m1-cJ 3hqq-a1-m1-cH_3hqq-a1-m1-cI 3hqq-a2-m1-cB_3hqq-a2-m1-cO 3hqq-a2-m1-cC_3hqq-a2-m1-cP 3hqq-a3-m1-cD_3hqq-a3-m1-cE 3hqq-a3-m1-cF_3hqq-a3-m1-cG 3hqq-a4-m1-cK_3hqq-a4-m1-cL 3hqq-a4-m1-cM_3hqq-a4-m1-cN 3hqq-a5-m1-cQ_3hqq-a5-m1-cR 3hqq-a6-m1-cU_3hqq-a6-m1-cV 3hqq-a6-m1-cW_3hqq-a6-m1-cX 3is4-a1-m1-cA_3is4-a1-m2-cB 3is4-a1-m1-cB_3is4-a1-m2-cA 3ktx-a1-m1-cA_3ktx-a1-m2-cB 3ktx-a1-m1-cB_3ktx-a1-m2-cA 3pp7-a1-m1-cA_3pp7-a1-m2-cB 3pp7-a1-m2-cA_3pp7-a1-m1-cB 3qv6-a1-m2-cD_3qv6-a1-m1-cA 3qv7-a1-m1-cC_3qv7-a1-m1-cA 3qv8-a1-m2-cA_3qv8-a1-m1-cD 3srk-a1-m2-cB_3srk-a1-m1-cA SQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEIRTGQFVGGDAVMERGATCYVTTDPAFADKGTKDKFYIDYQNLSKVVRPGNYIYIDDGILILQVQSHEDEQTLECTVTNSHTISDRRGVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHADHKVKGYANQTRILLVE SQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEIRTGQFVGGDAVMERGATCYVTTDPAFADKGTKDKFYIDYQNLSKVVRPGNYIYIDDGILILQVQSHEDEQTLECTVTNSHTISDRRGVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHADHKVKGYANQTRILLVE 3hqv-a1-m1-cA_3hqv-a1-m3-cA Low resolution, molecular envelope structure of type I collagen in situ determined by fiber diffraction. Single type I collagen molecule, rigid body refinement P02454 P02454 5.16 FIBER DIFFRACTION 29 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 939 939 3hqv-a1-m1-cA_3hqv-a1-m3-cC 3hqv-a1-m1-cA_3hqv-a1-m7-cA 3hqv-a1-m1-cA_3hqv-a1-m7-cC 3hqv-a1-m1-cC_3hqv-a1-m3-cA 3hqv-a1-m1-cC_3hqv-a1-m3-cC 3hqv-a1-m2-cA_3hqv-a1-m4-cA 3hqv-a1-m2-cA_3hqv-a1-m4-cC 3hqv-a1-m2-cC_3hqv-a1-m4-cA 3hqv-a1-m2-cC_3hqv-a1-m4-cC 3hqv-a1-m4-cA_3hqv-a1-m6-cA 3hqv-a1-m4-cA_3hqv-a1-m6-cC 3hqv-a1-m4-cC_3hqv-a1-m6-cA 3hqv-a1-m4-cC_3hqv-a1-m6-cC 3hqv-a1-m6-cA_3hqv-a1-m8-cA 3hqv-a1-m6-cA_3hqv-a1-m8-cC 3hqv-a1-m6-cC_3hqv-a1-m8-cA 3hqv-a1-m6-cC_3hqv-a1-m8-cC 3hqv-a1-m7-cA_3hqv-a1-m9-cA 3hqv-a1-m7-cA_3hqv-a1-m9-cC 3hqv-a1-m7-cC_3hqv-a1-m9-cA 3hqv-a1-m7-cC_3hqv-a1-m9-cC 3hr2-a1-m1-cA_3hr2-a1-m3-cA 3hr2-a1-m1-cA_3hr2-a1-m3-cC 3hr2-a1-m1-cC_3hr2-a1-m3-cA 3hr2-a1-m1-cC_3hr2-a1-m3-cC 3hr2-a1-m1-cC_3hr2-a1-m7-cC 3hr2-a1-m2-cA_3hr2-a1-m4-cA 3hr2-a1-m2-cA_3hr2-a1-m4-cC 3hr2-a1-m2-cC_3hr2-a1-m4-cC 3hr2-a1-m4-cA_3hr2-a1-m6-cA 3hr2-a1-m4-cA_3hr2-a1-m6-cC 3hr2-a1-m4-cC_3hr2-a1-m6-cC 3hr2-a1-m6-cA_3hr2-a1-m8-cA 3hr2-a1-m6-cA_3hr2-a1-m8-cC 3hr2-a1-m6-cC_3hr2-a1-m8-cC 3hr2-a1-m7-cA_3hr2-a1-m9-cA 3hr2-a1-m7-cA_3hr2-a1-m9-cC 3hr2-a1-m7-cC_3hr2-a1-m9-cC QMSYGYDEKSAGVSVPGPMGPSGPRGLGPGAGPQGFQGPGEGEGGSGPMGPPGPGPGKNGDDGEAGKPGRGERGPGPQGARGLGTAGLGMGHRGFSGLDGAKGDTGPAGPKGEGSGENGTGQMGPRGLGERGRGPGTAGARGNDGAVGAAGPGPTGPTGPGFGAAGAKGEAGPQGARGSEGPQGVRGEGPGPAGAAGPAGNGADGQGAKGANGAGIAGAGFGARGPSGPQGPSGAGPKGTSGEGAGNKGDTGAKGEGPAGVQGPGPAGEEGKRGARGEGPSGLGPGERGGGSRGFGADGVAGPKGPSGERGSGPAGPKGSGEAGRGEAGLGAKGLTGSGSGPDGKTGPGPAGQDGRGPAGPGARGQAGVMGFGPKGTAGEGKAGERGVGPGAVGPAGKDGEAGAQGAGPAGPAGERGEQGPAGSGFQGLGPAGPGEAGKGEQGVGDLGAGPSGARGERGFGERGVQGPGPAGPRGNNGAGNDGAKGDTGAGAGSQGAGLQGMGERGAAGLGPKGDRGDAGPKGADGSPGKDGVRGLTGPIGPGPAGAGDKGEAGPSGPAGPTGARGAGDRGEAGPGPAGFAGPGADGQGAKGEGDTGVKGDAGPGPAGPAGPGPIGNVGAGPGSRGAAGPGATGFGAAGRVGPGPSGNAGPGPGPVGKEGGKGPRGETGPAGRGEVGPGPGPAGEKGSGADGPAGSGTPGPQGIAGQRGVVGLGQRGKRGFGLGPSGEGKQGPSGASGERGPGPMGPGLAGPGESGREGSGAEGSGRDGAGAKGDRGETGPAGPGAGAGAPGPVGPAGKNGDRGETGPAGPAGPIGPAGARGPAGPQGPRGDGETGEQGDRGIGHRGFSGLQGPGSGSGEQGPSGASGPAGPRGPGSAGSGKDGLNGLGPIGGPRGRTGDSGPAGPGPGPGPGPPSGGYDFSFLPQPPQEKSQDGGRYY QMSYGYDEKSAGVSVPGPMGPSGPRGLGPGAGPQGFQGPGEGEGGSGPMGPPGPGPGKNGDDGEAGKPGRGERGPGPQGARGLGTAGLGMGHRGFSGLDGAKGDTGPAGPKGEGSGENGTGQMGPRGLGERGRGPGTAGARGNDGAVGAAGPGPTGPTGPGFGAAGAKGEAGPQGARGSEGPQGVRGEGPGPAGAAGPAGNGADGQGAKGANGAGIAGAGFGARGPSGPQGPSGAGPKGTSGEGAGNKGDTGAKGEGPAGVQGPGPAGEEGKRGARGEGPSGLGPGERGGGSRGFGADGVAGPKGPSGERGSGPAGPKGSGEAGRGEAGLGAKGLTGSGSGPDGKTGPGPAGQDGRGPAGPGARGQAGVMGFGPKGTAGEGKAGERGVGPGAVGPAGKDGEAGAQGAGPAGPAGERGEQGPAGSGFQGLGPAGPGEAGKGEQGVGDLGAGPSGARGERGFGERGVQGPGPAGPRGNNGAGNDGAKGDTGAGAGSQGAGLQGMGERGAAGLGPKGDRGDAGPKGADGSPGKDGVRGLTGPIGPGPAGAGDKGEAGPSGPAGPTGARGAGDRGEAGPGPAGFAGPGADGQGAKGEGDTGVKGDAGPGPAGPAGPGPIGNVGAGPGSRGAAGPGATGFGAAGRVGPGPSGNAGPGPGPVGKEGGKGPRGETGPAGRGEVGPGPGPAGEKGSGADGPAGSGTPGPQGIAGQRGVVGLGQRGKRGFGLGPSGEGKQGPSGASGERGPGPMGPGLAGPGESGREGSGAEGSGRDGAGAKGDRGETGPAGPGAGAGAPGPVGPAGKNGDRGETGPAGPAGPIGPAGARGPAGPQGPRGDGETGEQGDRGIGHRGFSGLQGPGSGSGEQGPSGASGPAGPRGPGSAGSGKDGLNGLGPIGGPRGRTGDSGPAGPGPGPGPGPPSGGYDFSFLPQPPQEKSQDGGRYY 3hqv-a1-m8-cC_3hqv-a1-m9-cA Low resolution, molecular envelope structure of type I collagen in situ determined by fiber diffraction. Single type I collagen molecule, rigid body refinement P02454 P02454 5.16 FIBER DIFFRACTION 43 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 939 939 3hqv-a1-m1-cA_3hqv-a1-m4-cA 3hqv-a1-m1-cA_3hqv-a1-m4-cC 3hqv-a1-m1-cA_3hqv-a1-m6-cA 3hqv-a1-m1-cC_3hqv-a1-m2-cA 3hqv-a1-m1-cC_3hqv-a1-m2-cC 3hqv-a1-m2-cA_3hqv-a1-m3-cA 3hqv-a1-m2-cC_3hqv-a1-m3-cA 3hqv-a1-m2-cC_3hqv-a1-m3-cC 3hqv-a1-m3-cA_3hqv-a1-m4-cA 3hqv-a1-m3-cC_3hqv-a1-m4-cA 3hqv-a1-m3-cC_3hqv-a1-m4-cC 3hqv-a1-m6-cA_3hqv-a1-m7-cA 3hqv-a1-m6-cC_3hqv-a1-m7-cA 3hqv-a1-m6-cC_3hqv-a1-m7-cC 3hqv-a1-m7-cA_3hqv-a1-m8-cA 3hqv-a1-m7-cC_3hqv-a1-m8-cA 3hqv-a1-m7-cC_3hqv-a1-m8-cC 3hqv-a1-m8-cA_3hqv-a1-m9-cA 3hqv-a1-m8-cC_3hqv-a1-m9-cC 3hr2-a1-m1-cA_3hr2-a1-m2-cA 3hr2-a1-m1-cC_3hr2-a1-m4-cC 3hr2-a1-m1-cC_3hr2-a1-m6-cA 3hr2-a1-m1-cC_3hr2-a1-m6-cC 3hr2-a1-m2-cA_3hr2-a1-m3-cA 3hr2-a1-m2-cC_3hr2-a1-m3-cA 3hr2-a1-m2-cC_3hr2-a1-m3-cC 3hr2-a1-m3-cA_3hr2-a1-m4-cA 3hr2-a1-m3-cC_3hr2-a1-m4-cA 3hr2-a1-m3-cC_3hr2-a1-m4-cC 3hr2-a1-m6-cA_3hr2-a1-m7-cA 3hr2-a1-m6-cC_3hr2-a1-m7-cA 3hr2-a1-m6-cC_3hr2-a1-m7-cC 3hr2-a1-m7-cA_3hr2-a1-m8-cA 3hr2-a1-m7-cC_3hr2-a1-m8-cA 3hr2-a1-m7-cC_3hr2-a1-m8-cC 3hr2-a1-m8-cA_3hr2-a1-m9-cA 3hr2-a1-m8-cC_3hr2-a1-m9-cA 3hr2-a1-m8-cC_3hr2-a1-m9-cC QMSYGYDEKSAGVSVPGPMGPSGPRGLGPGAGPQGFQGPGEGEGGSGPMGPPGPGPGKNGDDGEAGKPGRGERGPGPQGARGLGTAGLGMGHRGFSGLDGAKGDTGPAGPKGEGSGENGTGQMGPRGLGERGRGPGTAGARGNDGAVGAAGPGPTGPTGPGFGAAGAKGEAGPQGARGSEGPQGVRGEGPGPAGAAGPAGNGADGQGAKGANGAGIAGAGFGARGPSGPQGPSGAGPKGTSGEGAGNKGDTGAKGEGPAGVQGPGPAGEEGKRGARGEGPSGLGPGERGGGSRGFGADGVAGPKGPSGERGSGPAGPKGSGEAGRGEAGLGAKGLTGSGSGPDGKTGPGPAGQDGRGPAGPGARGQAGVMGFGPKGTAGEGKAGERGVGPGAVGPAGKDGEAGAQGAGPAGPAGERGEQGPAGSGFQGLGPAGPGEAGKGEQGVGDLGAGPSGARGERGFGERGVQGPGPAGPRGNNGAGNDGAKGDTGAGAGSQGAGLQGMGERGAAGLGPKGDRGDAGPKGADGSPGKDGVRGLTGPIGPGPAGAGDKGEAGPSGPAGPTGARGAGDRGEAGPGPAGFAGPGADGQGAKGEGDTGVKGDAGPGPAGPAGPGPIGNVGAGPGSRGAAGPGATGFGAAGRVGPGPSGNAGPGPGPVGKEGGKGPRGETGPAGRGEVGPGPGPAGEKGSGADGPAGSGTPGPQGIAGQRGVVGLGQRGKRGFGLGPSGEGKQGPSGASGERGPGPMGPGLAGPGESGREGSGAEGSGRDGAGAKGDRGETGPAGPGAGAGAPGPVGPAGKNGDRGETGPAGPAGPIGPAGARGPAGPQGPRGDGETGEQGDRGIGHRGFSGLQGPGSGSGEQGPSGASGPAGPRGPGSAGSGKDGLNGLGPIGGPRGRTGDSGPAGPGPGPGPGPPSGGYDFSFLPQPPQEKSQDGGRYY QMSYGYDEKSAGVSVPGPMGPSGPRGLGPGAGPQGFQGPGEGEGGSGPMGPPGPGPGKNGDDGEAGKPGRGERGPGPQGARGLGTAGLGMGHRGFSGLDGAKGDTGPAGPKGEGSGENGTGQMGPRGLGERGRGPGTAGARGNDGAVGAAGPGPTGPTGPGFGAAGAKGEAGPQGARGSEGPQGVRGEGPGPAGAAGPAGNGADGQGAKGANGAGIAGAGFGARGPSGPQGPSGAGPKGTSGEGAGNKGDTGAKGEGPAGVQGPGPAGEEGKRGARGEGPSGLGPGERGGGSRGFGADGVAGPKGPSGERGSGPAGPKGSGEAGRGEAGLGAKGLTGSGSGPDGKTGPGPAGQDGRGPAGPGARGQAGVMGFGPKGTAGEGKAGERGVGPGAVGPAGKDGEAGAQGAGPAGPAGERGEQGPAGSGFQGLGPAGPGEAGKGEQGVGDLGAGPSGARGERGFGERGVQGPGPAGPRGNNGAGNDGAKGDTGAGAGSQGAGLQGMGERGAAGLGPKGDRGDAGPKGADGSPGKDGVRGLTGPIGPGPAGAGDKGEAGPSGPAGPTGARGAGDRGEAGPGPAGFAGPGADGQGAKGEGDTGVKGDAGPGPAGPAGPGPIGNVGAGPGSRGAAGPGATGFGAAGRVGPGPSGNAGPGPGPVGKEGGKGPRGETGPAGRGEVGPGPGPAGEKGSGADGPAGSGTPGPQGIAGQRGVVGLGQRGKRGFGLGPSGEGKQGPSGASGERGPGPMGPGLAGPGESGREGSGAEGSGRDGAGAKGDRGETGPAGPGAGAGAPGPVGPAGKNGDRGETGPAGPAGPIGPAGARGPAGPQGPRGDGETGEQGDRGIGHRGFSGLQGPGSGSGEQGPSGASGPAGPRGPGSAGSGKDGLNGLGPIGGPRGRTGDSGPAGPGPGPGPGPPSGGYDFSFLPQPPQEKSQDGGRYY 3hqx-a1-m1-cA_3hqx-a1-m2-cA Crystal structure of protein of unknown function (DUF1255,PF06865) from Acinetobacter sp. ADP1 Q6FF51 Q6FF51 1.66 X-RAY DIFFRACTION 77 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 104 104 SAQFDHVTVIKKSNVYFGGLCISHTVQFEDGTKKTLGVILPTEQPLTFETHVPEREIISGECRVKIADSTESELFRAGQSFYVPGNSLFKIETDEVLDYVCHLE SAQFDHVTVIKKSNVYFGGLCISHTVQFEDGTKKTLGVILPTEQPLTFETHVPEREIISGECRVKIADSTESELFRAGQSFYVPGNSLFKIETDEVLDYVCHLE 3hr0-a1-m1-cB_3hr0-a1-m1-cA Crystal structure of Homo sapiens Conserved Oligomeric Golgi subunit 4 Q9H9E3 Q9H9E3 1.9 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 249 250 TDEAKMSFLVTLNNVEVCSENISTLKKTLESDCTKLFSQGIGGEQAQAKFDSCLSDLAAVSNKFRDLLQEGLTELNSTAIKPQVQPWINSFFSVSHNIEEEEFNDYEANDPWVQQFILNLEQQMAEFKASLSPVIYDSLTGLMTSLVAVELEKVVLKSTFNRLGGLQFDKELRSLIAYLTTVTTWTIRDKFARLSQMATILNLERVTEILDYWGPNSGPLTWRLTPAEVRQVLALRIDFRSEDIKRLRL STDEAKMSFLVTLNNVEVCSENISTLKKTLESDCTKLFSQGIGGEQAQAKFDSCLSDLAAVSNKFRDLLQEGLTELNSTAIKPQVQPWINSFFSVSHNIEEEEFNDYEANDPWVQQFILNLEQQMAEFKASLSPVIYDSLTGLMTSLVAVELEKVVLKSTFNRLGGLQFDKELRSLIAYLTTVTTWTIRDKFARLSQMATILNLERVTEILDYWGPNSGPLTWRLTPAEVRQVLALRIDFRSEDIKRLRL 3hr2-a1-m7-cB_3hr2-a1-m9-cB Low resolution, molecular envelope structure of type I collagen in situ determined by fiber diffraction. Single type I collagen molecule, post rigid body refinement, 'relaxed' P02466 P02466 5.16 FIBER DIFFRACTION 24 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 944 944 3hqv-a1-m1-cB_3hqv-a1-m3-cB 3hqv-a1-m2-cB_3hqv-a1-m4-cB 3hqv-a1-m4-cB_3hqv-a1-m6-cB 3hqv-a1-m6-cB_3hqv-a1-m8-cB 3hqv-a1-m7-cB_3hqv-a1-m9-cB 3hr2-a1-m1-cB_3hr2-a1-m3-cB 3hr2-a1-m1-cB_3hr2-a1-m7-cB 3hr2-a1-m2-cB_3hr2-a1-m4-cB 3hr2-a1-m4-cB_3hr2-a1-m6-cB 3hr2-a1-m6-cB_3hr2-a1-m8-cB SDKGVSAGPGPMGLMGPRGPGAVGAGPQGFQGPAGEGEGQTGPAGSRGPAGPGKAGEDGHGKPGRGERGVVGPQGARGFGTGLGFGIRGHNGLDGLKGQGAQGVGEGAGENGTGQAGARGLGERGRVGAGPAGARGSDGSVGPVGPAGPIGSAGPGFGAGPGELGPVGNGPAGPAGPRGEAGLGLSGPVGPGNPGANGLTGAGATGLGVAGAGLGPRGIGPVGAAGATGPRGLVGEGPAGSGETGNKGEGSAGAQGPGPSGEEGKRGSPGEPGSAGPAGPGLRGSGSRGLGADGRAGVMGPPGNRGSTGPAGVRGPNGDAGRGEGLMGPRGLGSGNVGPAGKEGPVGLGIDGRGPIGPAGPRGEAGNIGFGPKGPSGDGKGEKGHPGLAGARGAGPDGNNGAQGPGPQGVQGGKGEQGPAGPGFQGLGPSGTAGEVGKGERGLPGEFGLGPAGPRGERGPGESGAAGPSGPIGIRGPSGAGPDGNKGEAGAVGAPGSAGASGPGGLGERGAAGIGGKGEKGETGLRGEIGNPGRDGARGAGAIGAGPAGASGDRGEAGAAGPSGPAGPRGSPGERGEVGPAGPNGFAGPAGSAGQGAGEKGTKGPKGENGIVGPTGPVGAAGPSGPNGPPGPAGSRGDGGPPGMTGFGAAGRTGPGPSGITGPGPGAAGKEGIRGPRGDQGPVGRTGEIGASGPPGFAGEKGPSGEGTTGPGTAGPQGLLGAGILGLGSRGERGQGIAGALGEGPLGIAGPGARGPGAVGSGVNGAGEAGRDGNGSDGPGRDGQGHKGERGYGNIGPTGAAGAPGPHGSVGPAGKHGNRGEPGPAGSVGPVGAVGPRGPSGPQGIRGDKGEPGDGARGLPGLKGHNGLQGLPGLAGLHGDQGAPGPVGPAGPRGPAGPSGPIGKDGRSGHPGPVGPAGVRGSQGSQGPAGPGPGPGPPGVSGGG SDKGVSAGPGPMGLMGPRGPGAVGAGPQGFQGPAGEGEGQTGPAGSRGPAGPGKAGEDGHGKPGRGERGVVGPQGARGFGTGLGFGIRGHNGLDGLKGQGAQGVGEGAGENGTGQAGARGLGERGRVGAGPAGARGSDGSVGPVGPAGPIGSAGPGFGAGPGELGPVGNGPAGPAGPRGEAGLGLSGPVGPGNPGANGLTGAGATGLGVAGAGLGPRGIGPVGAAGATGPRGLVGEGPAGSGETGNKGEGSAGAQGPGPSGEEGKRGSPGEPGSAGPAGPGLRGSGSRGLGADGRAGVMGPPGNRGSTGPAGVRGPNGDAGRGEGLMGPRGLGSGNVGPAGKEGPVGLGIDGRGPIGPAGPRGEAGNIGFGPKGPSGDGKGEKGHPGLAGARGAGPDGNNGAQGPGPQGVQGGKGEQGPAGPGFQGLGPSGTAGEVGKGERGLPGEFGLGPAGPRGERGPGESGAAGPSGPIGIRGPSGAGPDGNKGEAGAVGAPGSAGASGPGGLGERGAAGIGGKGEKGETGLRGEIGNPGRDGARGAGAIGAGPAGASGDRGEAGAAGPSGPAGPRGSPGERGEVGPAGPNGFAGPAGSAGQGAGEKGTKGPKGENGIVGPTGPVGAAGPSGPNGPPGPAGSRGDGGPPGMTGFGAAGRTGPGPSGITGPGPGAAGKEGIRGPRGDQGPVGRTGEIGASGPPGFAGEKGPSGEGTTGPGTAGPQGLLGAGILGLGSRGERGQGIAGALGEGPLGIAGPGARGPGAVGSGVNGAGEAGRDGNGSDGPGRDGQGHKGERGYGNIGPTGAAGAPGPHGSVGPAGKHGNRGEPGPAGSVGPVGAVGPRGPSGPQGIRGDKGEPGDGARGLPGLKGHNGLQGLPGLAGLHGDQGAPGPVGPAGPRGPAGPSGPIGKDGRSGHPGPVGPAGVRGSQGSQGPAGPGPGPGPPGVSGGG 3hr2-a1-m8-cB_3hr2-a1-m9-cB Low resolution, molecular envelope structure of type I collagen in situ determined by fiber diffraction. Single type I collagen molecule, post rigid body refinement, 'relaxed' P02466 P02466 5.16 FIBER DIFFRACTION 36 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 944 944 3hqv-a1-m1-cB_3hqv-a1-m2-cB 3hqv-a1-m2-cB_3hqv-a1-m3-cB 3hqv-a1-m3-cB_3hqv-a1-m4-cB 3hqv-a1-m6-cB_3hqv-a1-m7-cB 3hqv-a1-m7-cB_3hqv-a1-m8-cB 3hqv-a1-m8-cB_3hqv-a1-m9-cB 3hr2-a1-m1-cB_3hr2-a1-m4-cB 3hr2-a1-m1-cB_3hr2-a1-m6-cB 3hr2-a1-m2-cB_3hr2-a1-m3-cB 3hr2-a1-m3-cB_3hr2-a1-m4-cB 3hr2-a1-m6-cB_3hr2-a1-m7-cB 3hr2-a1-m7-cB_3hr2-a1-m8-cB SDKGVSAGPGPMGLMGPRGPGAVGAGPQGFQGPAGEGEGQTGPAGSRGPAGPGKAGEDGHGKPGRGERGVVGPQGARGFGTGLGFGIRGHNGLDGLKGQGAQGVGEGAGENGTGQAGARGLGERGRVGAGPAGARGSDGSVGPVGPAGPIGSAGPGFGAGPGELGPVGNGPAGPAGPRGEAGLGLSGPVGPGNPGANGLTGAGATGLGVAGAGLGPRGIGPVGAAGATGPRGLVGEGPAGSGETGNKGEGSAGAQGPGPSGEEGKRGSPGEPGSAGPAGPGLRGSGSRGLGADGRAGVMGPPGNRGSTGPAGVRGPNGDAGRGEGLMGPRGLGSGNVGPAGKEGPVGLGIDGRGPIGPAGPRGEAGNIGFGPKGPSGDGKGEKGHPGLAGARGAGPDGNNGAQGPGPQGVQGGKGEQGPAGPGFQGLGPSGTAGEVGKGERGLPGEFGLGPAGPRGERGPGESGAAGPSGPIGIRGPSGAGPDGNKGEAGAVGAPGSAGASGPGGLGERGAAGIGGKGEKGETGLRGEIGNPGRDGARGAGAIGAGPAGASGDRGEAGAAGPSGPAGPRGSPGERGEVGPAGPNGFAGPAGSAGQGAGEKGTKGPKGENGIVGPTGPVGAAGPSGPNGPPGPAGSRGDGGPPGMTGFGAAGRTGPGPSGITGPGPGAAGKEGIRGPRGDQGPVGRTGEIGASGPPGFAGEKGPSGEGTTGPGTAGPQGLLGAGILGLGSRGERGQGIAGALGEGPLGIAGPGARGPGAVGSGVNGAGEAGRDGNGSDGPGRDGQGHKGERGYGNIGPTGAAGAPGPHGSVGPAGKHGNRGEPGPAGSVGPVGAVGPRGPSGPQGIRGDKGEPGDGARGLPGLKGHNGLQGLPGLAGLHGDQGAPGPVGPAGPRGPAGPSGPIGKDGRSGHPGPVGPAGVRGSQGSQGPAGPGPGPGPPGVSGGG SDKGVSAGPGPMGLMGPRGPGAVGAGPQGFQGPAGEGEGQTGPAGSRGPAGPGKAGEDGHGKPGRGERGVVGPQGARGFGTGLGFGIRGHNGLDGLKGQGAQGVGEGAGENGTGQAGARGLGERGRVGAGPAGARGSDGSVGPVGPAGPIGSAGPGFGAGPGELGPVGNGPAGPAGPRGEAGLGLSGPVGPGNPGANGLTGAGATGLGVAGAGLGPRGIGPVGAAGATGPRGLVGEGPAGSGETGNKGEGSAGAQGPGPSGEEGKRGSPGEPGSAGPAGPGLRGSGSRGLGADGRAGVMGPPGNRGSTGPAGVRGPNGDAGRGEGLMGPRGLGSGNVGPAGKEGPVGLGIDGRGPIGPAGPRGEAGNIGFGPKGPSGDGKGEKGHPGLAGARGAGPDGNNGAQGPGPQGVQGGKGEQGPAGPGFQGLGPSGTAGEVGKGERGLPGEFGLGPAGPRGERGPGESGAAGPSGPIGIRGPSGAGPDGNKGEAGAVGAPGSAGASGPGGLGERGAAGIGGKGEKGETGLRGEIGNPGRDGARGAGAIGAGPAGASGDRGEAGAAGPSGPAGPRGSPGERGEVGPAGPNGFAGPAGSAGQGAGEKGTKGPKGENGIVGPTGPVGAAGPSGPNGPPGPAGSRGDGGPPGMTGFGAAGRTGPGPSGITGPGPGAAGKEGIRGPRGDQGPVGRTGEIGASGPPGFAGEKGPSGEGTTGPGTAGPQGLLGAGILGLGSRGERGQGIAGALGEGPLGIAGPGARGPGAVGSGVNGAGEAGRDGNGSDGPGRDGQGHKGERGYGNIGPTGAAGAPGPHGSVGPAGKHGNRGEPGPAGSVGPVGAVGPRGPSGPQGIRGDKGEPGDGARGLPGLKGHNGLQGLPGLAGLHGDQGAPGPVGPAGPRGPAGPSGPIGKDGRSGHPGPVGPAGVRGSQGSQGPAGPGPGPGPPGVSGGG 3hr2-a1-m9-cA_3hr2-a1-m9-cC Low resolution, molecular envelope structure of type I collagen in situ determined by fiber diffraction. Single type I collagen molecule, post rigid body refinement, 'relaxed' P02454 P02454 5.16 FIBER DIFFRACTION 2847 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 939 939 3hqv-a1-m2-cA_3hqv-a1-m2-cC 3hqv-a1-m3-cA_3hqv-a1-m3-cC 3hqv-a1-m4-cA_3hqv-a1-m4-cC 3hqv-a1-m6-cA_3hqv-a1-m6-cC 3hqv-a1-m7-cA_3hqv-a1-m7-cC 3hqv-a1-m8-cA_3hqv-a1-m8-cC 3hqv-a1-m9-cA_3hqv-a1-m9-cC 3hr2-a1-m2-cA_3hr2-a1-m2-cC 3hr2-a1-m3-cA_3hr2-a1-m3-cC 3hr2-a1-m4-cA_3hr2-a1-m4-cC 3hr2-a1-m6-cA_3hr2-a1-m6-cC 3hr2-a1-m7-cA_3hr2-a1-m7-cC 3hr2-a1-m8-cA_3hr2-a1-m8-cC QMSYGYDEKSAGVSVPGPMGPSGPRGLGPGAGPQGFQGPGEGEGGSGPMGPPGPGPGKNGDDGEAGKPGRGERGPGPQGARGLGTAGLGMGHRGFSGLDGAKGDTGPAGPKGEGSGENGTGQMGPRGLGERGRGPGTAGARGNDGAVGAAGPGPTGPTGPGFGAAGAKGEAGPQGARGSEGPQGVRGEGPGPAGAAGPAGNGADGQGAKGANGAGIAGAGFGARGPSGPQGPSGAGPKGTSGEGAGNKGDTGAKGEGPAGVQGPGPAGEEGKRGARGEGPSGLGPGERGGGSRGFGADGVAGPKGPSGERGSGPAGPKGSGEAGRGEAGLGAKGLTGSGSGPDGKTGPGPAGQDGRGPAGPGARGQAGVMGFGPKGTAGEGKAGERGVGPGAVGPAGKDGEAGAQGAGPAGPAGERGEQGPAGSGFQGLGPAGPGEAGKGEQGVGDLGAGPSGARGERGFGERGVQGPGPAGPRGNNGAGNDGAKGDTGAGAGSQGAGLQGMGERGAAGLGPKGDRGDAGPKGADGSPGKDGVRGLTGPIGPGPAGAGDKGEAGPSGPAGPTGARGAGDRGEAGPGPAGFAGPGADGQGAKGEGDTGVKGDAGPGPAGPAGPGPIGNVGAGPGSRGAAGPGATGFGAAGRVGPGPSGNAGPGPGPVGKEGGKGPRGETGPAGRGEVGPGPGPAGEKGSGADGPAGSGTPGPQGIAGQRGVVGLGQRGKRGFGLGPSGEGKQGPSGASGERGPGPMGPGLAGPGESGREGSGAEGSGRDGAGAKGDRGETGPAGPGAGAGAPGPVGPAGKNGDRGETGPAGPAGPIGPAGARGPAGPQGPRGDGETGEQGDRGIGHRGFSGLQGPGSGSGEQGPSGASGPAGPRGPGSAGSGKDGLNGLGPIGGPRGRTGDSGPAGPGPGPGPGPPSGGYDFSFLPQPPQEKSQDGGRYY QMSYGYDEKSAGVSVPGPMGPSGPRGLGPGAGPQGFQGPGEGEGGSGPMGPPGPGPGKNGDDGEAGKPGRGERGPGPQGARGLGTAGLGMGHRGFSGLDGAKGDTGPAGPKGEGSGENGTGQMGPRGLGERGRGPGTAGARGNDGAVGAAGPGPTGPTGPGFGAAGAKGEAGPQGARGSEGPQGVRGEGPGPAGAAGPAGNGADGQGAKGANGAGIAGAGFGARGPSGPQGPSGAGPKGTSGEGAGNKGDTGAKGEGPAGVQGPGPAGEEGKRGARGEGPSGLGPGERGGGSRGFGADGVAGPKGPSGERGSGPAGPKGSGEAGRGEAGLGAKGLTGSGSGPDGKTGPGPAGQDGRGPAGPGARGQAGVMGFGPKGTAGEGKAGERGVGPGAVGPAGKDGEAGAQGAGPAGPAGERGEQGPAGSGFQGLGPAGPGEAGKGEQGVGDLGAGPSGARGERGFGERGVQGPGPAGPRGNNGAGNDGAKGDTGAGAGSQGAGLQGMGERGAAGLGPKGDRGDAGPKGADGSPGKDGVRGLTGPIGPGPAGAGDKGEAGPSGPAGPTGARGAGDRGEAGPGPAGFAGPGADGQGAKGEGDTGVKGDAGPGPAGPAGPGPIGNVGAGPGSRGAAGPGATGFGAAGRVGPGPSGNAGPGPGPVGKEGGKGPRGETGPAGRGEVGPGPGPAGEKGSGADGPAGSGTPGPQGIAGQRGVVGLGQRGKRGFGLGPSGEGKQGPSGASGERGPGPMGPGLAGPGESGREGSGAEGSGRDGAGAKGDRGETGPAGPGAGAGAPGPVGPAGKNGDRGETGPAGPAGPIGPAGARGPAGPQGPRGDGETGEQGDRGIGHRGFSGLQGPGSGSGEQGPSGASGPAGPRGPGSAGSGKDGLNGLGPIGGPRGRTGDSGPAGPGPGPGPGPPSGGYDFSFLPQPPQEKSQDGGRYY 3hr5-a5-m1-cB_3hr5-a5-m1-cH M1prime peptide from IgE bound by humanized antibody 47H4 Fab 2.4 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 220 220 EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYGIAWVRQAPGKGLEWVAFISDLAYTIYYADTVTGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARDNWDAMDYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC EVQLVESGGGLVQPGGSLRLSCAASGFTFSDYGIAWVRQAPGKGLEWVAFISDLAYTIYYADTVTGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARDNWDAMDYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 3hr7-a1-m1-cA_3hr7-a1-m1-cB Crystal structure of the shikimate kinase-sulfate complex from Helicobacter pylori P56073 P56073 1.8 X-RAY DIFFRACTION 62 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 151 155 MQHLVLIGFMGSGKSSLAQELGLALKLEVLDTDMIISERVGLSVREIFEELGEDNFRMFEKNLIDELKTLKTPHVISTGGGIVMHENLKGLGTTFYLKMDFETLIKRLNNLTQAKELFEKRQALYEKNASFIIDARGGLNNSLKQVLQFIA MQHLVLIGFMGSGKSSLAQELGLALKLEVLDTDMIISERVGLSVREIFEELGEDNFRMFEKNLIDELKTLKTPHVISTGGGIVMHENLKGLGTTFYLKMDFETLIKRLNQLLNNLTQAKELFEKRQALYEKNASFIIDARGGLNNSLKQVLQFIA 3hrd-a1-m1-cA_3hrd-a1-m1-cE Crystal structure of nicotinate dehydrogenase Q0QLF2 Q0QLF2 2.2 X-RAY DIFFRACTION 24 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 420 420 GKDYQVLGKNKVKVDSLEKVMGTAKFAADYSFPDMLYAGVFRSTVPHARIVSLDLSKARAIDGVEAVLDYHAIPGKNRFGIIIKDEPCLVDDKVRRYGDAIAVVAAQTPDLVQEALDAITIEYEELEGIFTMERALEEDSPAIHGDTNIHQVKHLEYGDVDAAFKQCDIVVEDTYSTHRLTHMFIEPDAGVSYYDNEGMLTVVVSTQNPHYDRGEVAGMLALPNSKVRIIQATTGGGFGGKLDLSVQCHCALLTYHTKKPVKMVRSREESTTVSSKRHPMTMHCKTGATKDGRLQAVQVEMFGDTGAYASYGPAVITRATVHCMGPYVVPNVRVDAKFVYTNNPMSGAFRGFGVPQASVCHEGQMNALAKALGMDPIDIRILNAHQVGAKLATGQVLENSVGLIETLEKAREKAVEVMGY GKDYQVLGKNKVKVDSLEKVMGTAKFAADYSFPDMLYAGVFRSTVPHARIVSLDLSKARAIDGVEAVLDYHAIPGKNRFGIIIKDEPCLVDDKVRRYGDAIAVVAAQTPDLVQEALDAITIEYEELEGIFTMERALEEDSPAIHGDTNIHQVKHLEYGDVDAAFKQCDIVVEDTYSTHRLTHMFIEPDAGVSYYDNEGMLTVVVSTQNPHYDRGEVAGMLALPNSKVRIIQATTGGGFGGKLDLSVQCHCALLTYHTKKPVKMVRSREESTTVSSKRHPMTMHCKTGATKDGRLQAVQVEMFGDTGAYASYGPAVITRATVHCMGPYVVPNVRVDAKFVYTNNPMSGAFRGFGVPQASVCHEGQMNALAKALGMDPIDIRILNAHQVGAKLATGQVLENSVGLIETLEKAREKAVEVMGY 3hrd-a1-m1-cB_3hrd-a1-m1-cF Crystal structure of nicotinate dehydrogenase Q0QLF1 Q0QLF1 2.2 X-RAY DIFFRACTION 89 1.0 1528 (Eubacterium barkeri) 1528 (Eubacterium barkeri) 330 330 MKKRGKGVGSMWYGIGNTGLPNPAAAFVEIHGDGSANVMFGAADIGQGSGTAMAQIAAEELGLDYEKIHVTWGDTMVTPDGGATSASRQTLITGNAVILACRQAKETLAKTAAEKLDCAPEELSFRDNTVFITADPERSMTYGELMAAMKAAGRMAVGAGSYNPNTTGLAPENMSGIPFEVYSYATTIAEVEVDTETGEVDVLKVVSAHDVGTPINRSMVEGQIEGGVTMGQGFVLMEEIEVNTKNGAIKNPSMSKYIIPSNRDVPEIHSILVESEGGPGPFGAKGVGEPALIPMIPAVVAAIEDALGTRFTHTPIMPKDIVAAVKAQEK MKKRGKGVGSMWYGIGNTGLPNPAAAFVEIHGDGSANVMFGAADIGQGSGTAMAQIAAEELGLDYEKIHVTWGDTMVTPDGGATSASRQTLITGNAVILACRQAKETLAKTAAEKLDCAPEELSFRDNTVFITADPERSMTYGELMAAMKAAGRMAVGAGSYNPNTTGLAPENMSGIPFEVYSYATTIAEVEVDTETGEVDVLKVVSAHDVGTPINRSMVEGQIEGGVTMGQGFVLMEEIEVNTKNGAIKNPSMSKYIIPSNRDVPEIHSILVESEGGPGPFGAKGVGEPALIPMIPAVVAAIEDALGTRFTHTPIMPKDIVAAVKAQEK 3hri-a3-m1-cF_3hri-a3-m1-cE Histidyl-tRNA synthetase (apo) from Trypanosoma brucei Q584V0 Q584V0 2.85 X-RAY DIFFRACTION 244 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 370 401 3hri-a1-m1-cB_3hri-a1-m1-cA 3hri-a2-m1-cD_3hri-a2-m1-cC MVETEPVQGCRDFPPETMRLRKYLFDVFHSTARKFGFEEYDSPVLESEELYIRKAGEEITEQMFNFITHRVALRPEMTPSLARQLLAKGRSLLLPAKWYSIPQCWRYEAITRGRRREHYQWNMDIIGVKSVSSEVELVCAACTAMQSLGLSSKDVGVKINSRKILQTVVEDKFAPVCVILKTIDEIAQREHEAVRELRDFITQIEAYGFGDWVIFDASVVRGLAYYTGIVFEGFDRDGNFRALCGGGRYDNLLTTYGSPTAVPCVGFGFGDCVIVELLNEKKLLPELHHVVDDLVIPFDETMRPHALSILRRLRDAGRSADIVFDKKKVVQAFNYADRIGALRAVLVAPDEWARGEVRVKMLRGIVLPVD MVETEPVQGCRDFPPETMRLRKYLFDVFHSTARKFGFEEYDSPVLESEELYIRKAGEEITEQMFNFITHRVALRPEMTPSLARQLLAKGRSLLLPAKWYSIPQCWRYEAITRGRRREHYQWNMDIIGVKSVSSEVELVCAACTAMQSLGLSSKDVGVKINSRKILQTVVEDKFAPVCVIVPREEVVAQLAAIGLESNVVDAITSTLSLKTIDEIAQRIGEEHEAVRELRDFITQIEAYGFGDWVIFDASVVRGLAYYTGIVFEGFDRDGNFRALCGGGRYDNLLTTYGSPTAVPCVGFGFGDCVIVELLNEKKLLPELHHVVDDLVIPFDETMRPHALSILRRLRDAGRSADIVFDKKKVVQAFNYADRIGALRAVLVAPDEWARGEVRVKMLRGIVLPVD 3hro-a1-m2-cA_3hro-a1-m3-cA Crystal structure of a C-terminal coiled coil domain of Transient receptor potential (TRP) channel subfamily P member 2 (TRPP2, polycystic kidney disease 2) Q13563 Q13563 1.9 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 3hrn-a1-m1-cA_3hrn-a1-m2-cA 3hrn-a1-m1-cA_3hrn-a1-m3-cA 3hrn-a1-m2-cA_3hrn-a1-m3-cA 3hro-a1-m1-cA_3hro-a1-m2-cA 3hro-a1-m1-cA_3hro-a1-m3-cA VSYEEFQVLVRRVDRMEHSIGSIVSKIDAVIVKLEIM VSYEEFQVLVRRVDRMEHSIGSIVSKIDAVIVKLEIM 3hrr-a1-m1-cA_3hrr-a1-m1-cB The Product Template Domain from PksA with Harris Compound Bound Q12053 Q12053 1.9 X-RAY DIFFRACTION 46 1.0 5067 (Aspergillus parasiticus) 5067 (Aspergillus parasiticus) 317 317 3hrq-a1-m1-cA_3hrq-a1-m1-cB 5kbz-a1-m1-cB_5kbz-a1-m1-cA EIKTTTTLHRVVEETTKPLGATLVVETDISRKDVNGLARGHLVDGIPLCTPSFYADIAMQVGQYSMQRLRGLVDVSDMVVDKALVPHGKGPQLLRTTLTMEWPPKAAATTRSAKVKFATYFKLDTEHASCTVRFTSDAQLKSLRRSVSEYKTHIRQLHDGHAKGQFMRYNRKTGYKLMSSMARFNPDYMLLDYLVLNEAENEAASGVDFSLGSSEGTFAAHPAHVDAITQVAGFAMNANDNVDIEKQVYVNHGWDSFQIYQPLDNSKSYQVYTKMGQANDLVHGDVVVLDGEQIVAFFRGLTLRSVPRGALRVVLQT EIKTTTTLHRVVEETTKPLGATLVVETDISRKDVNGLARGHLVDGIPLCTPSFYADIAMQVGQYSMQRLRGLVDVSDMVVDKALVPHGKGPQLLRTTLTMEWPPKAAATTRSAKVKFATYFKLDTEHASCTVRFTSDAQLKSLRRSVSEYKTHIRQLHDGHAKGQFMRYNRKTGYKLMSSMARFNPDYMLLDYLVLNEAENEAASGVDFSLGSSEGTFAAHPAHVDAITQVAGFAMNANDNVDIEKQVYVNHGWDSFQIYQPLDNSKSYQVYTKMGQANDLVHGDVVVLDGEQIVAFFRGLTLRSVPRGALRVVLQT 3hrs-a1-m1-cB_3hrs-a1-m1-cA Crystal Structure of the Manganese-activated Repressor ScaR: apo form Q9RFN3 Q9RFN3 2.7 X-RAY DIFFRACTION 37 1.0 1302 (Streptococcus gordonii) 1302 (Streptococcus gordonii) 210 214 3hrt-a1-m1-cB_3hrt-a1-m1-cA 3hru-a1-m1-cB_3hru-a1-m1-cA EDYLKCLYELGTRHNKITNKEIAQLMQVSPPAVTEMMKKLLAEELLIKDKKAGYLLTDLGLKLVSDLYRKHRLIEVFLVHHLGYTTEEIHEEAEVLEHTVSDHFVERLDQLLDYPKACPHGGTIPAKGELLVEKHKLTLEEAKEKGDYILARVHDNFDLLTYLERNGLQVGKTIRFLGYDDFSHLYSLEVDGQEIQLAQPIAQQIYVEKI TPNKEDYLKCLYELGTRHNKITNKEIAQLMQVSPPAVTEMMKKLLAEELLIKDKKAGYLLTDLGLKLVSDLYRKHRLIEVFLVHHLGYTTEEIHEEAEVLEHTVSDHFVERLDQLLDYPKACPHGGTIPAKGELLVEKHKLTLEEAKEKGDYILARVHDNFDLLTYLERNGLQVGKTIRFLGYDDFSHLYSLEVDGQEIQLAQPIAQQIYVEKI 3hry-a2-m1-cC_3hry-a2-m2-cC Crystal structure of PHD in a trigonal space group and partially disordered Q06253 Q06253 2.25 X-RAY DIFFRACTION 55 1.0 562 (Escherichia coli) 562 (Escherichia coli) 43 43 QSINFRTSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKK QSINFRTSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKK 3hs2-a2-m1-cB_3hs2-a2-m1-cC Crystal structure of PHD truncated to residue 57 in an orthorhombic space group Q06253 Q06253 2.2 X-RAY DIFFRACTION 14 1.0 10678 (Punavirus P1) 10678 (Punavirus P1) 56 58 MQSINFRTARGNLSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKKAALDAEF MQSINFRTARGNLSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKKAALDAEFAS 3hs2-a4-m1-cG_3hs2-a4-m1-cF Crystal structure of PHD truncated to residue 57 in an orthorhombic space group Q06253 Q06253 2.2 X-RAY DIFFRACTION 28 0.981 10678 (Punavirus P1) 10678 (Punavirus P1) 52 55 MQSINFRTARGNLSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKKAAL QSINFRTARGNLSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKKAALDAEF 3hs3-a1-m1-cA_3hs3-a1-m1-cB Crystal structure of periplasmic binding ribose operon repressor protein from Lactobacillus acidophilus Q5FJ32 Q5FJ32 1.6 X-RAY DIFFRACTION 85 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 264 264 KKSKMIGIIIPDLNNRFYAQIIDGIQEVIQKEGYTALISFSTNSDVKKYQNAIINFENNNVDGIITSAFTIPPNFHLNTPLVMYDSANINDDIVRIVSNNTKGGKESIKLLSKKIEKVLIQHWPLSLPTIRERIEAMTAEASKLKIDYLLEETPENNPYISAQSALNKSNQFDAIITVNDLYAAEIIKEAKRRNLKIPDDFQLVGYDNNILCGYTSPTISTIDQNPKLIGQTAAHRLLDLMSGNNSTRNSIIDVLPIKRDSTEG KKSKMIGIIIPDLNNRFYAQIIDGIQEVIQKEGYTALISFSTNSDVKKYQNAIINFENNNVDGIITSAFTIPPNFHLNTPLVMYDSANINDDIVRIVSNNTKGGKESIKLLSKKIEKVLIQHWPLSLPTIRERIEAMTAEASKLKIDYLLEETPENNPYISAQSALNKSNQFDAIITVNDLYAAEIIKEAKRRNLKIPDDFQLVGYDNNILCGYTSPTISTIDQNPKLIGQTAAHRLLDLMSGNNSTRNSIIDVLPIKRDSTEG 3hsa-a1-m1-cC_3hsa-a1-m1-cD Crystal structure of pleckstrin homology domain (YP_926556.1) from SHEWANELLA AMAZONENSIS SB2B at 1.99 A resolution A1S3D0 A1S3D0 1.99 X-RAY DIFFRACTION 65 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 99 100 3hsa-a1-m1-cC_3hsa-a1-m1-cB 3hsa-a1-m1-cD_3hsa-a1-m1-cA 3hsa-a1-m1-cE_3hsa-a1-m1-cA 3hsa-a1-m1-cE_3hsa-a1-m1-cB VDLGLAAELSPILGDNEELQLAYVRDLFVFTSRLILIDQGVTGVSYHSIPYAIVHFQVETAGTFDDAELLWISGQHEPLVELRGTDVVGIQTIARYALG EVDLGLAAELSPILGDNEELQLAYVRDLFVFTSRLILIDQGVTGVSYHSIPYAIVHFQVETAGTFDDAELLWISGQHEPLVELRGTDVVGIQTIARYALG 3hse-a1-m1-cA_3hse-a1-m1-cB Crystal structure of Staphylococcus aureus protein SarZ in reduced form A0A0H3KA72 A0A0H3KA72 2.9 X-RAY DIFFRACTION 143 0.991 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 116 121 GSHMYLSKQLCFLFYVSSKEIIKKYTNYLKEYDLTYTGYIVLMAIENDENIKKLGERVFLDSGTLTPLLKKLKDYTEQGKAIKSPLAEISVKVFNEFNISEREASDIINNLRNFVS SHMYLSKQLCFLFYVSSKEIIKKYTNYLKEYDLTYTGYIVLMAIENDEKLNIKKLGERVFLDSGTLTPLLKKLEKKDYVVTEQGKAIKSPLAEISVKVFNEFNISEREASDIINNLRNFVS 3hsh-a3-m1-cE_3hsh-a3-m4-cF Crystal structure of human collagen XVIII trimerization domain (Tetragonal crystal form) P39060 P39060 1.8 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 56 3hsh-a3-m1-cA_3hsh-a3-m4-cB 3hsh-a3-m1-cB_3hsh-a3-m3-cA 3hsh-a3-m1-cC_3hsh-a3-m1-cD 3hsh-a3-m2-cA_3hsh-a3-m3-cB 3hsh-a3-m2-cB_3hsh-a3-m4-cA 3hsh-a3-m2-cC_3hsh-a3-m2-cD 3hsh-a3-m2-cE_3hsh-a3-m3-cF 3hsh-a3-m3-cC_3hsh-a3-m3-cD 3hsh-a3-m3-cE_3hsh-a3-m1-cF 3hsh-a3-m4-cC_3hsh-a3-m4-cD 3hsh-a3-m4-cE_3hsh-a3-m2-cF GSSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNGFRKVQLEARTPLP GSSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNGFRKVQLEARTPLPR 3hsh-a3-m2-cE_3hsh-a3-m4-cE Crystal structure of human collagen XVIII trimerization domain (Tetragonal crystal form) P39060 P39060 1.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 3hsh-a3-m1-cA_3hsh-a3-m4-cC 3hsh-a3-m1-cC_3hsh-a3-m3-cA 3hsh-a3-m1-cE_3hsh-a3-m3-cE 3hsh-a3-m1-cE_3hsh-a3-m4-cE 3hsh-a3-m2-cA_3hsh-a3-m3-cC 3hsh-a3-m2-cC_3hsh-a3-m4-cA 3hsh-a3-m2-cE_3hsh-a3-m3-cE GSSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNGFRKVQLEARTPLP GSSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNGFRKVQLEARTPLP 3hsh-a3-m4-cA_3hsh-a3-m4-cB Crystal structure of human collagen XVIII trimerization domain (Tetragonal crystal form) P39060 P39060 1.8 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 56 3hon-a1-m1-cA_3hon-a1-m2-cA 3hon-a1-m1-cA_3hon-a1-m3-cA 3hon-a1-m2-cA_3hon-a1-m3-cA 3hsh-a1-m1-cA_3hsh-a1-m1-cB 3hsh-a1-m1-cA_3hsh-a1-m1-cC 3hsh-a1-m1-cB_3hsh-a1-m1-cC 3hsh-a2-m1-cD_3hsh-a2-m1-cF 3hsh-a2-m1-cE_3hsh-a2-m1-cD 3hsh-a2-m1-cE_3hsh-a2-m1-cF 3hsh-a3-m1-cA_3hsh-a3-m1-cB 3hsh-a3-m1-cA_3hsh-a3-m1-cC 3hsh-a3-m1-cB_3hsh-a3-m1-cC 3hsh-a3-m1-cD_3hsh-a3-m1-cF 3hsh-a3-m1-cE_3hsh-a3-m1-cD 3hsh-a3-m1-cE_3hsh-a3-m1-cF 3hsh-a3-m2-cA_3hsh-a3-m2-cB 3hsh-a3-m2-cA_3hsh-a3-m2-cC 3hsh-a3-m2-cB_3hsh-a3-m2-cC 3hsh-a3-m2-cD_3hsh-a3-m2-cF 3hsh-a3-m2-cE_3hsh-a3-m2-cD 3hsh-a3-m2-cE_3hsh-a3-m2-cF 3hsh-a3-m3-cA_3hsh-a3-m3-cB 3hsh-a3-m3-cA_3hsh-a3-m3-cC 3hsh-a3-m3-cB_3hsh-a3-m3-cC 3hsh-a3-m3-cD_3hsh-a3-m3-cF 3hsh-a3-m3-cE_3hsh-a3-m3-cD 3hsh-a3-m3-cE_3hsh-a3-m3-cF 3hsh-a3-m4-cA_3hsh-a3-m4-cC 3hsh-a3-m4-cB_3hsh-a3-m4-cC 3hsh-a3-m4-cD_3hsh-a3-m4-cF 3hsh-a3-m4-cE_3hsh-a3-m4-cD 3hsh-a3-m4-cE_3hsh-a3-m4-cF GSSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNGFRKVQLEARTPLPR GSSGVRLWATRQAMLGQVHEVPEGWLIFVAEQEELYVRVQNGFRKVQLEARTPLPR 3hsi-a2-m1-cB_3hsi-a2-m2-cB Crystal structure of phosphatidylserine synthase Haemophilus influenzae Rd KW20 P44704 P44704 2.2 X-RAY DIFFRACTION 37 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 447 447 3hsi-a1-m1-cA_3hsi-a1-m2-cC INKTKRAEQNLNNLPFLALQAEQIEFLGSSAEFKTQIIELIRNAKKRIYVTALYWQKDEAGQEILDEIYRVKQENPHLDVKVLIDWHRAQRNLAEKSATNADWYCEQRQTYQLPDDPNFFGVPINTREVFGVLHVKGFVFDDTVLYSGASINNVYLHQFEKYRYDRYQKITHAELADSVNFINDYLLDFSAVYPLDVTNRPRTKEIRGNIRAYRKDLAQNGEYSLKSAVKLPNVLSVSPLFGLGASGNELNQVIEDLFLQVQKKLVICTPYFNFPRTLQHKIATLLENGKRVEIIVGDKVANDFYIPPEQPFKAGALPYLYESNLRRFCEKFETQIESGQLVVRLWRDGDNTYHLKGVWVDDRYILLTGNNLNPRAWRLDAENGLLIYDPQQQLLAQVEKEQNQIRQHTKVLKHYTELEELNQYPEPVQKLLKKFARIKADKLVKIL INKTKRAEQNLNNLPFLALQAEQIEFLGSSAEFKTQIIELIRNAKKRIYVTALYWQKDEAGQEILDEIYRVKQENPHLDVKVLIDWHRAQRNLAEKSATNADWYCEQRQTYQLPDDPNFFGVPINTREVFGVLHVKGFVFDDTVLYSGASINNVYLHQFEKYRYDRYQKITHAELADSVNFINDYLLDFSAVYPLDVTNRPRTKEIRGNIRAYRKDLAQNGEYSLKSAVKLPNVLSVSPLFGLGASGNELNQVIEDLFLQVQKKLVICTPYFNFPRTLQHKIATLLENGKRVEIIVGDKVANDFYIPPEQPFKAGALPYLYESNLRRFCEKFETQIESGQLVVRLWRDGDNTYHLKGVWVDDRYILLTGNNLNPRAWRLDAENGLLIYDPQQQLLAQVEKEQNQIRQHTKVLKHYTELEELNQYPEPVQKLLKKFARIKADKLVKIL 3hsk-a2-m1-cB_3hsk-a2-m2-cB Crystal Structure of Aspartate Semialdehyde Dehydrogenase with NADP from Candida albicans Q5ALM0 Q5ALM0 2.2 X-RAY DIFFRACTION 47 1.0 5476 (Candida albicans) 5476 (Candida albicans) 358 358 3hsk-a2-m1-cA_3hsk-a2-m2-cA VKKAGVLGATGSVGQRFILLLSKHPEFEIHALGASSRSAGKKYKDAASWKQTETLPETEQDIVVQECKPEGNFLECDVVFSGLDADVAGDIEKSFVEAGLAVVSNAKNYRREKDVPLVVPIVNPEHIDVVENKVKQAVSKGGKKPGFIICISNCSTAGLVAPLKPLVEKFGPIDALTTTTLQAISPGVSGMDILDNIVPYISGEEDKLEWETKKILGGVNAEGTEFVPIPESEMKVSAQCNRVPVIDGHTECISLRFANRPAPSVEDVKQCLREYECAASKLGCHSAPKQTIHVLDQPDRPQPRLDRDRDSGYGVSVGRIREDSLLDFKMVVLSHNTIIGAAGAGILIAEILKAKNII VKKAGVLGATGSVGQRFILLLSKHPEFEIHALGASSRSAGKKYKDAASWKQTETLPETEQDIVVQECKPEGNFLECDVVFSGLDADVAGDIEKSFVEAGLAVVSNAKNYRREKDVPLVVPIVNPEHIDVVENKVKQAVSKGGKKPGFIICISNCSTAGLVAPLKPLVEKFGPIDALTTTTLQAISPGVSGMDILDNIVPYISGEEDKLEWETKKILGGVNAEGTEFVPIPESEMKVSAQCNRVPVIDGHTECISLRFANRPAPSVEDVKQCLREYECAASKLGCHSAPKQTIHVLDQPDRPQPRLDRDRDSGYGVSVGRIREDSLLDFKMVVLSHNTIIGAAGAGILIAEILKAKNII 3hsk-a2-m2-cA_3hsk-a2-m2-cB Crystal Structure of Aspartate Semialdehyde Dehydrogenase with NADP from Candida albicans Q5ALM0 Q5ALM0 2.2 X-RAY DIFFRACTION 121 0.997 5476 (Candida albicans) 5476 (Candida albicans) 358 358 3hsk-a1-m1-cA_3hsk-a1-m1-cB 3hsk-a2-m1-cA_3hsk-a2-m1-cB SVKKAGVLGATGSVGQRFILLLSKHPEFEIHALGASSRSAGKKYKDAASWKQTETLPETEQDIVVQECKPEGNFLECDVVFSGLDADVAGDIEKSFVEAGLAVVSNAKNYRREKDVPLVVPIVNPEHIDVVENKVKQAVSKGGKKPGFIICISNCSTAGLVAPLKPLVEKFGPIDALTTTTLQAISGVSGMDILDNIVPYISGEEDKLEWETKKILGGVNAEGTEFVPIPESEMKVSAQCNRVPVIDGHTECISLRFANRPAPSVEDVKQCLREYECAASKLGCHSAPKQTIHVLDQPDRPQPRLDRDRDSGYGVSVGRIREDSLLDFKMVVLSHNTIIGAAGAGILIAEILKAKNII VKKAGVLGATGSVGQRFILLLSKHPEFEIHALGASSRSAGKKYKDAASWKQTETLPETEQDIVVQECKPEGNFLECDVVFSGLDADVAGDIEKSFVEAGLAVVSNAKNYRREKDVPLVVPIVNPEHIDVVENKVKQAVSKGGKKPGFIICISNCSTAGLVAPLKPLVEKFGPIDALTTTTLQAISPGVSGMDILDNIVPYISGEEDKLEWETKKILGGVNAEGTEFVPIPESEMKVSAQCNRVPVIDGHTECISLRFANRPAPSVEDVKQCLREYECAASKLGCHSAPKQTIHVLDQPDRPQPRLDRDRDSGYGVSVGRIREDSLLDFKMVVLSHNTIIGAAGAGILIAEILKAKNII 3hsl-a1-m1-cX_3hsl-a1-m2-cX The Crystal Structure of PF-8, the DNA Polymerase Accessory Subunit from Kaposi's Sarcoma-Associated Herpesvirus Q77ZG5 Q77ZG5 2.8 X-RAY DIFFRACTION 82 1.0 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 287 287 3i2m-a1-m1-cX_3i2m-a1-m2-cX DFHYGVRVDVTLLSKIRRVNEHIKSATKTGVVQVHGSACTPTLSVLSSVGTAGVLGLRIKNALTPLVGHTEGSGDVSFSFRNTSVGSGFTHTRELFGANVLDAGIAFYRPQFVRTTISYGDNLTSTVHKSVVDQKGILPFHDRMEAGGRTTRLLLCGKTGAFLLKWLRQQKTKEDQTVTVSVSETLSIVTFSLGGVSKIIDFKPETKPVSGWDGLKGKKSVDVGVVHTDALSRVSLESLIAALRLCKVPGWFTPGLIWHSNEILEVEGVPTGCQSGDVKLSVLLLEV DFHYGVRVDVTLLSKIRRVNEHIKSATKTGVVQVHGSACTPTLSVLSSVGTAGVLGLRIKNALTPLVGHTEGSGDVSFSFRNTSVGSGFTHTRELFGANVLDAGIAFYRPQFVRTTISYGDNLTSTVHKSVVDQKGILPFHDRMEAGGRTTRLLLCGKTGAFLLKWLRQQKTKEDQTVTVSVSETLSIVTFSLGGVSKIIDFKPETKPVSGWDGLKGKKSVDVGVVHTDALSRVSLESLIAALRLCKVPGWFTPGLIWHSNEILEVEGVPTGCQSGDVKLSVLLLEV 3hsr-a1-m1-cA_3hsr-a1-m1-cB Crystal structure of Staphylococcus aureus protein SarZ in mixed disulfide form A0A0H3KA72 A0A0H3KA72 1.9 X-RAY DIFFRACTION 144 1.0 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 130 133 3hrm-a1-m1-cA_3hrm-a1-m1-cB 3hsr-a2-m1-cD_3hsr-a2-m1-cC 4gxo-a1-m1-cB_4gxo-a1-m1-cA MYLSKQLCFLFYVSSKEIIKKYTNYLKEYDLTYTGYIVLMAIENDEKLNIKKLGERVFLDSGTLTPLLKKLEKKDYVVRTRLQISLTEQGKAIKSPLAEISVKVFNEFNISEREASDIINNLRNFVSKNF GSHMYLSKQLCFLFYVSSKEIIKKYTNYLKEYDLTYTGYIVLMAIENDEKLNIKKLGERVFLDSGTLTPLLKKLEKKDYVVRTRLQISLTEQGKAIKSPLAEISVKVFNEFNISEREASDIINNLRNFVSKNF 3hss-a1-m1-cB_3hss-a1-m1-cA A higher resolution structure of Rv0554 from Mycobacterium tuberculosis complexed with malonic acid P9WNH1 P9WNH1 1.9 X-RAY DIFFRACTION 81 0.996 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 261 274 3e3a-a1-m1-cA_3e3a-a1-m1-cB 3hys-a1-m1-cB_3hys-a1-m1-cA 3hzo-a1-m1-cB_3hzo-a1-m1-cA 7ld8-a1-m1-cA_7ld8-a1-m2-cA INLAYDDNGTGDPVVFIAGRGGAGRTWHPHQVPAFLAAGYRCITFDNRGIGATENAEGFTTQTMVADTAALIETLDIAPARVVGVSMGAFIAQELMVVAPELVSSAVLMATRGRLDRARQFFNKAEAELYDSGVQLPPTYDARARLLENFSRKTLNDDVAVGDWIAMFSMWPIKSTPGLRCQLDCAPQTNRLPAYRNIAAPVLVIGFADDVVTPPYLGREVADALPNGRYLQIPDAGHLGFFERPEAVNTAMLKFFASVKA NLYFQGAMDPEFRVINLAYDDNGTGDPVVFIAGRGGAGRTWHPHQVPAFLAAGYRCITFDNRGIGATENAEGFTTQTMVADTAALIETLDIAPARVVGVSMGAFIAQELMVVAPELVSSAVLMATRGRLDRARQFFNKAEAELYDSGVQLPPTYDARARLLENFSRKTLNDDVAVGDWIAMFSMWPIKSTPGLRCQLDCAPQTNRLPAYRNIAAPVLVIGFADDVVTPPYLGREVADALPNGRYLQIPDAGHLGFFERPEAVNTAMLKFFASVK 3ht1-a1-m1-cA_3ht1-a1-m2-cA 1.2A structure of the polyketide cyclase RemF from Streptomyces resistomycificus Q70DX5 Q70DX5 1.2 X-RAY DIFFRACTION 114 1.0 67356 (Streptomyces resistomycificus) 67356 (Streptomyces resistomycificus) 142 142 3ht2-a1-m1-cA_3ht2-a1-m1-cC MMKRVHRTDVKAEIVREPGAKETTHRKLIDTPDGADRFVLTEFEVSPNGSTPPHFHEWEHEIYVLEGSMGLVLPDQGRTEEVGPGEAIFIPRGEPHGFVTGPGQTCRFLVVAPCERPPVRNVFLSEDPYEYTQMPEYTSLLE MMKRVHRTDVKAEIVREPGAKETTHRKLIDTPDGADRFVLTEFEVSPNGSTPPHFHEWEHEIYVLEGSMGLVLPDQGRTEEVGPGEAIFIPRGEPHGFVTGPGQTCRFLVVAPCERPPVRNVFLSEDPYEYTQMPEYTSLLE 3ht4-a1-m1-cF_3ht4-a1-m1-cA Crystal Structure of the Q81A77_BACCR Protein from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR213 Q81A77 Q81A77 2.9 X-RAY DIFFRACTION 116 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 402 407 3ht4-a1-m1-cB_3ht4-a1-m1-cC 3ht4-a2-m1-cD_3ht4-a2-m2-cE 3ht4-a2-m1-cH_3ht4-a2-m2-cG NGEKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFGKHKISDSHFIPTTGYGYDDIGRDTLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKIGIQRSKGYATRPSFTISQIKEIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEYQGFFLAPHVAGQALKGAIFTAAFLEKLGNTSPAWNAPRTDLIQSVQFDDKDRIAFCQAIQYASPINSHFTPYANYPGYEDDVIAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELIE FDRLKNGEKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFGKHKISDSHFIPTTGYGYDDIGRDTLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKIGIQRSKGYATRPSFTISQIKEIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEYQGFFLAPHVAGQALKGAIFTAAFLEKLGNTSPAWNAPRTDLIQSVQFDDKDRIAFCQAIQYASPINSHFTPYANYPGYEDDVIAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELIE 3ht4-a2-m1-cD_3ht4-a2-m2-cG Crystal Structure of the Q81A77_BACCR Protein from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR213 Q81A77 Q81A77 2.9 X-RAY DIFFRACTION 10 0.998 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 400 400 3ht4-a2-m1-cH_3ht4-a2-m2-cE EKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFGKHKISDSHFIPTTGYGYDDIGRDTLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKIGIQRSKGYATRPSFTISQIKEIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEYQGFFLAPHVAGQALKGAIFTAAFLEKLGNTSPAWNAPRTDLIQSVQFDDKDRIAFCQAIQYASPINSHFTPYANYPGYEDDVIAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELIE GEKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFGKHKISDSHFIPTTGYGYDDIGRDTLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKIGIQRSKGYATRPSFTISQIKEIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEYQGFFLAPHVAGQALKGAIFTAAFLEKLGNTSPAWNAPRTDLIQSVQFDDKDRIAFCQAIQYASPINSHFTPYANYPGYEDDVIAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELI 3ht4-a2-m1-cH_3ht4-a2-m1-cD Crystal Structure of the Q81A77_BACCR Protein from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR213 Q81A77 Q81A77 2.9 X-RAY DIFFRACTION 170 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 399 400 3ht4-a1-m1-cB_3ht4-a1-m1-cA 3ht4-a1-m1-cF_3ht4-a1-m1-cC 3ht4-a2-m2-cG_3ht4-a2-m2-cE EKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFGKHKISDSHFIPTTGYGYDDIGRDTLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKIGIQRSKGYATRPSFTISQIKEIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEYQGFFLAPHVAGQALKGAIFTAAFLEKLGNTSPAWNAPRTDLIQSVQFDDKDRIAFCQAIQYASPINSHFTPYANYPGYEDDVIAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELI EKIAPIVKEVESQITEVHKRADEVIESNQFRVLESFGKHKISDSHFIPTTGYGYDDIGRDTLEKVYADVFGAEAGLVRPQIISGTHAISTALFGILRPGDELLYITGKPYDTLEEIVGVRGKGVGSFKEYNIGYNAVPLTEGGLVDFEAVAAAIHSNTKIGIQRSKGYATRPSFTISQIKEIAFVKEIKPDVVVFVDNCYGEFIEEQEPCHVGADLAGSLIKNPGGGIVKTGGYIVGKEQYVEACAYRLTSPGIGAEAGASLYSLQEYQGFFLAPHVAGQALKGAIFTAAFLEKLGNTSPAWNAPRTDLIQSVQFDDKDRIAFCQAIQYASPINSHFTPYANYPGYEDDVIAAGTFIQGASIELSADGPIRPPYVAYVQGGLTYSHVKIAICSAIDELIE 3hta-a1-m1-cB_3hta-a1-m1-cA Crystal structure of multidrug binding protein EbrR complexed with imidazole Q79SH7 Q79SH7 2.3 X-RAY DIFFRACTION 113 0.994 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 179 190 3hta-a2-m1-cD_3hta-a2-m1-cC 3hth-a1-m1-cA_3hth-a1-m1-cB 3hth-a2-m1-cC_3hth-a2-m2-cC 3hti-a1-m1-cA_3hti-a1-m2-cA 3htj-a1-m1-cB_3htj-a1-m1-cA 3iuv-a1-m1-cA_3iuv-a1-m2-cA DPERRQRIIDAAIRVVGQKGIAGLSHRTVAAEADVPLGSTTYHFATLDDLMVAALRQANEGFARVVAAHPALSDPEADLSGELARVLGEWLGGDRTGVELEYELYLAALRRPALRPVAAEWAEGVGALLAARTDPTTARALVAVLDGICLQVLLTDTPYDEEYAREVLTRLIPVPATRD LVPRGSHMPRRHDPERRQRIIDAAIRVVGQKGIAGLSHRTVAAEADVPLGSTTYHFATLDDLMVAALRQANEGFARVVAAHPALSDPEADLSGELARVLGEWLGGDRTGVELEYELYLAALRRPALRPVAAEWAEGVGALLAARTDPTTARALVAVLDGICLQVLLTDTPYDEEYAREVLTRLIPVPATR 3hte-a1-m1-cB_3hte-a1-m1-cA Crystal structure of nucleotide-free hexameric ClpX P0A6H1 P0A6H1 4.026 X-RAY DIFFRACTION 79 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 317 3hws-a1-m1-cE_3hws-a1-m1-cD 4i63-a1-m1-cC_4i63-a1-m1-cB LPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDQIDKISRSGEGVQQALLKLIEGTLQVDTSKILFICGGAFAGLDKVISHRVETGSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIY SALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTAGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDQIDKISRVSGEGVQQALLKLIEGTEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIYGK 3hte-a1-m1-cC_3hte-a1-m1-cB Crystal structure of nucleotide-free hexameric ClpX P0A6H1 P0A6H1 4.026 X-RAY DIFFRACTION 74 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 309 4i63-a1-m1-cD_4i63-a1-m1-cE 6po1-a1-m1-cF_6po1-a1-m1-cA 6pp5-a1-m1-cF_6pp5-a1-m1-cA LPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLEDVENIIQKLLQKCDYDVQKAQRGIVYIDQIDKISRGEGVQQALLKLIEGVDTSKILFICGGAFAGLDKVISHRVSEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIY LPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDQIDKISRSGEGVQQALLKLIEGTLQVDTSKILFICGGAFAGLDKVISHRVETGSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIY 3hte-a1-m1-cF_3hte-a1-m1-cA Crystal structure of nucleotide-free hexameric ClpX P0A6H1 P0A6H1 4.026 X-RAY DIFFRACTION 56 0.99 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 293 317 PTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDQIDKISGEGVQQALLKLIEGTDTSKILFICGGAFAGLDKVISHRVKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIY SALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTAGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDQIDKISRVSGEGVQQALLKLIEGTEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSKPLLIYGK 3htn-a1-m1-cA_3htn-a1-m1-cC Crystal structure of a putative dna binding protein (bt_1116) from bacteroides thetaiotaomicron vpi-5482 at 1.50 A resolution Q8A8Q1 Q8A8Q1 1.5 X-RAY DIFFRACTION 95 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 140 140 3htn-a1-m1-cB_3htn-a1-m1-cA 3htn-a1-m1-cB_3htn-a1-m1-cC NYSYKKIGNKYIVSINNHTEIVKALNAFCKEKGILSGSINGIGAIGELTLRFFNPKTKAYDDKTFREQEISNLTGNISSNEQVYLHLHITVGRSDYSALAGHLLSAIQNGAGEFVVEDYSERISRTYNPDLGLNIYDFER NYSYKKIGNKYIVSINNHTEIVKALNAFCKEKGILSGSINGIGAIGELTLRFFNPKTKAYDDKTFREQEISNLTGNISSNEQVYLHLHITVGRSDYSALAGHLLSAIQNGAGEFVVEDYSERISRTYNPDLGLNIYDFER 3htr-a1-m1-cB_3htr-a1-m1-cA Crystal Structure of PRC-barrel Domain Protein from Rhodopseudomonas palustris Q6N0K4 Q6N0K4 2.06 X-RAY DIFFRACTION 76 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 88 96 PETNETLKLIGSDKVQGTAVYGPDGEKIGSIERVIEKVSGRVSYAVLSFGGFLGIGDDHYPLPWPALKYNVELGGYQVVTVDQLERAP PETNETLKLIGSDKVQGTAVYGPDGEKIGSIERVIEKVSGRVSYAVLSFGGFLGIGDDHYPLPWPALKYNVELGGYQVVTVDQLERAPKYGPGSEW 3hts-a1-m1-cB_3hts-a1-m2-cB HEAT SHOCK TRANSCRIPTION FACTOR/DNA COMPLEX P22121 P22121 1.75 X-RAY DIFFRACTION 30 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 82 82 MARPAFVNKLWSMVNDKSNEKFIHWSTSGESIVVPNRERFVQEVLPKYFKHSNFASFVRQLNMYGWHKVQNNDSRWEFENER MARPAFVNKLWSMVNDKSNEKFIHWSTSGESIVVPNRERFVQEVLPKYFKHSNFASFVRQLNMYGWHKVQNNDSRWEFENER 3htv-a1-m1-cA_3htv-a1-m2-cA Crystal structure of D-allose kinase (NP_418508.1) from ESCHERICHIA COLI K12 at 1.95 A resolution P32718 P32718 1.95 X-RAY DIFFRACTION 77 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 270 270 KQHNVVAGVDGATHIRFCLRTAEGETLHCEKKRTAEVIAPGLVSGIGEIDEQLRRFNARCHGLVGFPALVSKDKRTIISTPNLPLTAADLYDLADKLENTLNCPVEFSRDVNLQLSWDVVENRLTQQLVLAAYLGTGGFAVWNGAPWTGAHGVAGEETNCSGALRRWYEQQPRNYPLRDLFVHAENAPFVQSLLENAARAIATSINLFDPDAVILGGGVDPAFPRETLVATQKYLRRPLPHQVVRFIAASSSDFNGAQGAAILAHQRFLP KQHNVVAGVDGATHIRFCLRTAEGETLHCEKKRTAEVIAPGLVSGIGEIDEQLRRFNARCHGLVGFPALVSKDKRTIISTPNLPLTAADLYDLADKLENTLNCPVEFSRDVNLQLSWDVVENRLTQQLVLAAYLGTGGFAVWNGAPWTGAHGVAGEETNCSGALRRWYEQQPRNYPLRDLFVHAENAPFVQSLLENAARAIATSINLFDPDAVILGGGVDPAFPRETLVATQKYLRRPLPHQVVRFIAASSSDFNGAQGAAILAHQRFLP 3hu5-a1-m1-cA_3hu5-a1-m1-cB CRYSTAL STRUCTURE OF isochorismatase family protein from Desulfovibrio vulgaris subsp. vulgaris str. Hildenborough Q72G28 Q72G28 1.5 X-RAY DIFFRACTION 28 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 183 183 NRTVALAIIDQNDFVLPGAPACVEGAGTVPVIAGLLAKARAEGWVLHVVRAHRADGSDAEKSREHLFLEGGGLCVAGTPGAEIVAGLEPASGETVLVKTRFSAFGTECDLLRRRGVDTLLVSGTQYPNCIRGTAVDAFALDYDVVVVTDACSARTPGVAESNINDRAGITCVPLTALDDVLAR NRTVALAIIDQNDFVLPGAPACVEGAGTVPVIAGLLAKARAEGWVLHVVRAHRADGSDAEKSREHLFLEGGGLCVAGTPGAEIVAGLEPASGETVLVKTRFSAFGTECDLLRRRGVDTLLVSGTQYPNCIRGTAVDAFALDYDVVVVTDACSARTPGVAESNINDRAGITCVPLTALDDVLAR 3hu5-a2-m2-cA_3hu5-a2-m4-cB CRYSTAL STRUCTURE OF isochorismatase family protein from Desulfovibrio vulgaris subsp. vulgaris str. Hildenborough Q72G28 Q72G28 1.5 X-RAY DIFFRACTION 28 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 183 183 3hu5-a2-m1-cA_3hu5-a2-m3-cB NRTVALAIIDQNDFVLPGAPACVEGAGTVPVIAGLLAKARAEGWVLHVVRAHRADGSDAEKSREHLFLEGGGLCVAGTPGAEIVAGLEPASGETVLVKTRFSAFGTECDLLRRRGVDTLLVSGTQYPNCIRGTAVDAFALDYDVVVVTDACSARTPGVAESNINDRAGITCVPLTALDDVLAR NRTVALAIIDQNDFVLPGAPACVEGAGTVPVIAGLLAKARAEGWVLHVVRAHRADGSDAEKSREHLFLEGGGLCVAGTPGAEIVAGLEPASGETVLVKTRFSAFGTECDLLRRRGVDTLLVSGTQYPNCIRGTAVDAFALDYDVVVVTDACSARTPGVAESNINDRAGITCVPLTALDDVLAR 3hu5-a2-m3-cB_3hu5-a2-m4-cB CRYSTAL STRUCTURE OF isochorismatase family protein from Desulfovibrio vulgaris subsp. vulgaris str. Hildenborough Q72G28 Q72G28 1.5 X-RAY DIFFRACTION 45 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 183 183 3hu5-a2-m1-cA_3hu5-a2-m2-cA NRTVALAIIDQNDFVLPGAPACVEGAGTVPVIAGLLAKARAEGWVLHVVRAHRADGSDAEKSREHLFLEGGGLCVAGTPGAEIVAGLEPASGETVLVKTRFSAFGTECDLLRRRGVDTLLVSGTQYPNCIRGTAVDAFALDYDVVVVTDACSARTPGVAESNINDRAGITCVPLTALDDVLAR NRTVALAIIDQNDFVLPGAPACVEGAGTVPVIAGLLAKARAEGWVLHVVRAHRADGSDAEKSREHLFLEGGGLCVAGTPGAEIVAGLEPASGETVLVKTRFSAFGTECDLLRRRGVDTLLVSGTQYPNCIRGTAVDAFALDYDVVVVTDACSARTPGVAESNINDRAGITCVPLTALDDVLAR 3huf-a5-m1-cB_3huf-a5-m2-cB Structure of the S. pombe Nbs1-Ctp1 complex O43070 O43070 2.15 X-RAY DIFFRACTION 78 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 315 315 3huf-a4-m1-cA_3huf-a4-m1-cC MWIIEAEGDILKGKSRILFPGTYIVGRNVSDDSSHIQVISKSISKRHARFTILTPSEKDYFTGGPCEFEVKDLDTKFGTKVNEKVVGQNGDSYKEKDLKIQLGKCPFTINAYWRSMCIQFDNPEMLSQWASNLNLLGIPTGLRDSDATTHFVMNRQSSITVGTMYAFLKKTVIIDDSYLQYLSTVKESVIEDASLMPDALECFKNIIKNNDQFPSSPEDCINSLEGFSCAMLNTSSESHHLLELLGLRISTFMSDIDKELISKTDFVVLNNAVSFPEGIFCLTIEQLWKIIIERNSRELISKEIERLKYATLVPR MWIIEAEGDILKGKSRILFPGTYIVGRNVSDDSSHIQVISKSISKRHARFTILTPSEKDYFTGGPCEFEVKDLDTKFGTKVNEKVVGQNGDSYKEKDLKIQLGKCPFTINAYWRSMCIQFDNPEMLSQWASNLNLLGIPTGLRDSDATTHFVMNRQSSITVGTMYAFLKKTVIIDDSYLQYLSTVKESVIEDASLMPDALECFKNIIKNNDQFPSSPEDCINSLEGFSCAMLNTSSESHHLLELLGLRISTFMSDIDKELISKTDFVVLNNAVSFPEGIFCLTIEQLWKIIIERNSRELISKEIERLKYATLVPR 3hug-a6-m1-cC_3hug-a6-m1-cA Crystal structure of Mycobacterium tuberculosis anti-sigma factor RslA in complex with -35 promoter binding domain of sigL P9WGH5 P9WGH5 2.35 X-RAY DIFFRACTION 20 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 77 80 3hug-a1-m1-cC_3hug-a1-m1-cA QSTPDEVNAALDRLLIADALAQLSAEHRAVIQRSYYRGWSTAQIATDLGIAEGTVKSRLHYAVRALRLTLQELGVTR DPEQSTPDEVNAALDRLLIADALAQLSAEHRAVIQRSYYRGWSTAQIATDLGIAEGTVKSRLHYAVRALRLTLQELGVTR 3hug-a6-m1-cK_3hug-a6-m1-cM Crystal structure of Mycobacterium tuberculosis anti-sigma factor RslA in complex with -35 promoter binding domain of sigL P9WGH5 P9WGH5 2.35 X-RAY DIFFRACTION 19 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 71 74 3hug-a6-m1-cE_3hug-a6-m1-cC 3hug-a6-m1-cG_3hug-a6-m1-cI 3hug-a6-m1-cO_3hug-a6-m1-cQ 3hug-a6-m1-cS_3hug-a6-m1-cA VNAALDRLLIADALAQLSAEHRAVIQRSYYRGWSTAQIATDLGIAEGTVKSRLHYAVRALRLTLQELGVTR PDEVNAALDRLLIADALAQLSAEHRAVIQRSYYRGWSTAQIATDLGIAEGTVKSRLHYAVRALRLTLQELGVTR 3hug-a6-m1-cT_3hug-a6-m1-cR Crystal structure of Mycobacterium tuberculosis anti-sigma factor RslA in complex with -35 promoter binding domain of sigL P9WJ67 P9WJ67 2.35 X-RAY DIFFRACTION 49 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 62 63 3hug-a1-m1-cB_3hug-a1-m1-cD 3hug-a2-m1-cF_3hug-a2-m1-cH 3hug-a3-m1-cL_3hug-a3-m1-cJ 3hug-a4-m1-cP_3hug-a4-m1-cN 3hug-a5-m1-cT_3hug-a5-m1-cR 3hug-a6-m1-cB_3hug-a6-m1-cD 3hug-a6-m1-cF_3hug-a6-m1-cH 3hug-a6-m1-cL_3hug-a6-m1-cJ 3hug-a6-m1-cP_3hug-a6-m1-cN DHHYAMWDAAYVLGALSAADRREFEAHLAGCPECRGAVTELCGVPALLSQLDRDEVAAISES DHHYAMWDAAYVLGALSAADRREFEAHLAGCPECRGAVTELCGVPALLSQLDRDEVAAISESA 3huh-a2-m1-cC_3huh-a2-m1-cD The structure of biphenyl-2,3-diol 1,2-dioxygenase iii-related protein from salmonella typhimurium Q8ZM36 Q8ZM36 1.5 X-RAY DIFFRACTION 174 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 119 124 3hnq-a5-m1-cA_3hnq-a5-m1-cB 3hnq-a6-m1-cC_3hnq-a6-m1-cD 3huh-a1-m1-cB_3huh-a1-m1-cA IIDRIDHLVLTVSDISTTIRFYEEVLGFSAVTFKQNRKALIFGAQKINLHQEPKASRPTPGSADLCFITSTPINDVVSEILQAGISIVEGPVERTGATGEIMSIYIRDPDGNLIEISQY IIDRIDHLVLTVSDISTTIRFYEEVLGFSAVTFKQNRKALIFGAQKINLHQQEMEFEPKASRPTPGSADLCFITSTPINDVVSEILQAGISIVEGPVERTGATGEIMSIYIRDPDGNLIEISQY 3hul-a1-m1-cB_3hul-a1-m2-cB Structure of putative homoserine kinase thrB from Listeria monocytogenes Q8Y4A6 Q8Y4A6 2.19 X-RAY DIFFRACTION 32 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 269 269 3hul-a1-m1-cA_3hul-a1-m2-cA SLRIRVPATTANLGPGFDSCGLALTLYLTLDIGAEADSWYIEHNIPHDETNVIIETALNLAPNLTPHHLVMTCDIPPARGLGSSSAAVVAGIELANTLAELNLSKEEKVRIAAEIEGHPDNVAPAVLGNWVVGAKLDGEDFYVRHLFPDCALIAFIPKAELLPDTLPFKEAVQASSIANVMIAAILRNDMTLAGEMMERDLWPHLAQIRDVAKNQGAYAACLSGAGPTVLVFAPRNLANKLQTSLQTLEIDADVLLLDVEGSGAEVFRE SLRIRVPATTANLGPGFDSCGLALTLYLTLDIGAEADSWYIEHNIPHDETNVIIETALNLAPNLTPHHLVMTCDIPPARGLGSSSAAVVAGIELANTLAELNLSKEEKVRIAAEIEGHPDNVAPAVLGNWVVGAKLDGEDFYVRHLFPDCALIAFIPKAELLPDTLPFKEAVQASSIANVMIAAILRNDMTLAGEMMERDLWPHLAQIRDVAKNQGAYAACLSGAGPTVLVFAPRNLANKLQTSLQTLEIDADVLLLDVEGSGAEVFRE 3hul-a1-m2-cB_3hul-a1-m1-cA Structure of putative homoserine kinase thrB from Listeria monocytogenes Q8Y4A6 Q8Y4A6 2.19 X-RAY DIFFRACTION 31 0.996 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 269 277 3hul-a1-m1-cB_3hul-a1-m2-cA SLRIRVPATTANLGPGFDSCGLALTLYLTLDIGAEADSWYIEHNIPHDETNVIIETALNLAPNLTPHHLVMTCDIPPARGLGSSSAAVVAGIELANTLAELNLSKEEKVRIAAEIEGHPDNVAPAVLGNWVVGAKLDGEDFYVRHLFPDCALIAFIPKAELLPDTLPFKEAVQASSIANVMIAAILRNDMTLAGEMMERDLWPHLAQIRDVAKNQGAYAACLSGAGPTVLVFAPRNLANKLQTSLQTLEIDADVLLLDVEGSGAEVFRE SLRIRVPATTANLGPGFDSCGLALTLYLTLDIGAEADSWYIEHNIGGGIPHDETNVIIETALNLAPNLTPHHLVMTCDIPPARGLGSSSAAVVAGIELANTLAELNLSKEEKVRIAAEIEGHPDNVAPAVLGNWVVGAKLDGEDFYVRHLFPCALIAFIPKAELLPDTLPFKEAVQASSIANVMIAAILRNDMTLAGEMMERDLWSQLVPHLAQIRDVAKNQGAYAACLSGAGPTVLVFAPRNLANKLQTSLQTLEIDADVLLLDVEGSGAEVFREG 3hul-a1-m2-cB_3hul-a1-m2-cA Structure of putative homoserine kinase thrB from Listeria monocytogenes Q8Y4A6 Q8Y4A6 2.19 X-RAY DIFFRACTION 145 0.996 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 269 277 3hul-a1-m1-cB_3hul-a1-m1-cA SLRIRVPATTANLGPGFDSCGLALTLYLTLDIGAEADSWYIEHNIPHDETNVIIETALNLAPNLTPHHLVMTCDIPPARGLGSSSAAVVAGIELANTLAELNLSKEEKVRIAAEIEGHPDNVAPAVLGNWVVGAKLDGEDFYVRHLFPDCALIAFIPKAELLPDTLPFKEAVQASSIANVMIAAILRNDMTLAGEMMERDLWPHLAQIRDVAKNQGAYAACLSGAGPTVLVFAPRNLANKLQTSLQTLEIDADVLLLDVEGSGAEVFRE SLRIRVPATTANLGPGFDSCGLALTLYLTLDIGAEADSWYIEHNIGGGIPHDETNVIIETALNLAPNLTPHHLVMTCDIPPARGLGSSSAAVVAGIELANTLAELNLSKEEKVRIAAEIEGHPDNVAPAVLGNWVVGAKLDGEDFYVRHLFPCALIAFIPKAELLPDTLPFKEAVQASSIANVMIAAILRNDMTLAGEMMERDLWSQLVPHLAQIRDVAKNQGAYAACLSGAGPTVLVFAPRNLANKLQTSLQTLEIDADVLLLDVEGSGAEVFREG 3hur-a1-m1-cA_3hur-a1-m4-cA Crystal structure of alanine racemase from Oenococcus oeni Q04DI1 Q04DI1 2.5 X-RAY DIFFRACTION 22 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 384 384 3hur-a1-m2-cA_3hur-a1-m3-cA LTAIHRPTWVSVDLDAAAHNLQEIREWTKAKKVYAVLKADGYGLGAIPLAKAFQETASADALIVSNLDEALELRQADLTLPIWVLGAWDYSDLKLFIDHDIVITIPSLAWLQNLPDFEGTLKVSLAIDTGMTRIGFDKADEISAAKKIIDKNPQLDLFSVYTHFATADEAGEKSKAYFEEQLRRWQELTINQGFDPSLFSMANSATCIWHHDDPRISFAAIRPGQLISGVNVSNGELKMPPNLHLERIFSVCSEIADVRFVKKDQSLSYGASERMPEDGYVATLPFGYNDGWLRRMQKSSVIINGKRMPIIGRITMDQTMVKLDRKYPIGTRVTLIGKDGGEQITVEEVANYSHTIVDEIQTTLAPRIKRIYTGDLAEVIGANY LTAIHRPTWVSVDLDAAAHNLQEIREWTKAKKVYAVLKADGYGLGAIPLAKAFQETASADALIVSNLDEALELRQADLTLPIWVLGAWDYSDLKLFIDHDIVITIPSLAWLQNLPDFEGTLKVSLAIDTGMTRIGFDKADEISAAKKIIDKNPQLDLFSVYTHFATADEAGEKSKAYFEEQLRRWQELTINQGFDPSLFSMANSATCIWHHDDPRISFAAIRPGQLISGVNVSNGELKMPPNLHLERIFSVCSEIADVRFVKKDQSLSYGASERMPEDGYVATLPFGYNDGWLRRMQKSSVIINGKRMPIIGRITMDQTMVKLDRKYPIGTRVTLIGKDGGEQITVEEVANYSHTIVDEIQTTLAPRIKRIYTGDLAEVIGANY 3hur-a1-m2-cA_3hur-a1-m4-cA Crystal structure of alanine racemase from Oenococcus oeni Q04DI1 Q04DI1 2.5 X-RAY DIFFRACTION 16 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 384 384 3hur-a1-m1-cA_3hur-a1-m3-cA LTAIHRPTWVSVDLDAAAHNLQEIREWTKAKKVYAVLKADGYGLGAIPLAKAFQETASADALIVSNLDEALELRQADLTLPIWVLGAWDYSDLKLFIDHDIVITIPSLAWLQNLPDFEGTLKVSLAIDTGMTRIGFDKADEISAAKKIIDKNPQLDLFSVYTHFATADEAGEKSKAYFEEQLRRWQELTINQGFDPSLFSMANSATCIWHHDDPRISFAAIRPGQLISGVNVSNGELKMPPNLHLERIFSVCSEIADVRFVKKDQSLSYGASERMPEDGYVATLPFGYNDGWLRRMQKSSVIINGKRMPIIGRITMDQTMVKLDRKYPIGTRVTLIGKDGGEQITVEEVANYSHTIVDEIQTTLAPRIKRIYTGDLAEVIGANY LTAIHRPTWVSVDLDAAAHNLQEIREWTKAKKVYAVLKADGYGLGAIPLAKAFQETASADALIVSNLDEALELRQADLTLPIWVLGAWDYSDLKLFIDHDIVITIPSLAWLQNLPDFEGTLKVSLAIDTGMTRIGFDKADEISAAKKIIDKNPQLDLFSVYTHFATADEAGEKSKAYFEEQLRRWQELTINQGFDPSLFSMANSATCIWHHDDPRISFAAIRPGQLISGVNVSNGELKMPPNLHLERIFSVCSEIADVRFVKKDQSLSYGASERMPEDGYVATLPFGYNDGWLRRMQKSSVIINGKRMPIIGRITMDQTMVKLDRKYPIGTRVTLIGKDGGEQITVEEVANYSHTIVDEIQTTLAPRIKRIYTGDLAEVIGANY 3hur-a1-m3-cA_3hur-a1-m4-cA Crystal structure of alanine racemase from Oenococcus oeni Q04DI1 Q04DI1 2.5 X-RAY DIFFRACTION 129 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 384 384 3hur-a1-m1-cA_3hur-a1-m2-cA LTAIHRPTWVSVDLDAAAHNLQEIREWTKAKKVYAVLKADGYGLGAIPLAKAFQETASADALIVSNLDEALELRQADLTLPIWVLGAWDYSDLKLFIDHDIVITIPSLAWLQNLPDFEGTLKVSLAIDTGMTRIGFDKADEISAAKKIIDKNPQLDLFSVYTHFATADEAGEKSKAYFEEQLRRWQELTINQGFDPSLFSMANSATCIWHHDDPRISFAAIRPGQLISGVNVSNGELKMPPNLHLERIFSVCSEIADVRFVKKDQSLSYGASERMPEDGYVATLPFGYNDGWLRRMQKSSVIINGKRMPIIGRITMDQTMVKLDRKYPIGTRVTLIGKDGGEQITVEEVANYSHTIVDEIQTTLAPRIKRIYTGDLAEVIGANY LTAIHRPTWVSVDLDAAAHNLQEIREWTKAKKVYAVLKADGYGLGAIPLAKAFQETASADALIVSNLDEALELRQADLTLPIWVLGAWDYSDLKLFIDHDIVITIPSLAWLQNLPDFEGTLKVSLAIDTGMTRIGFDKADEISAAKKIIDKNPQLDLFSVYTHFATADEAGEKSKAYFEEQLRRWQELTINQGFDPSLFSMANSATCIWHHDDPRISFAAIRPGQLISGVNVSNGELKMPPNLHLERIFSVCSEIADVRFVKKDQSLSYGASERMPEDGYVATLPFGYNDGWLRRMQKSSVIINGKRMPIIGRITMDQTMVKLDRKYPIGTRVTLIGKDGGEQITVEEVANYSHTIVDEIQTTLAPRIKRIYTGDLAEVIGANY 3huu-a2-m1-cD_3huu-a2-m1-cC Crystal structure of transcription regulator like protein from Staphylococcus haemolyticus Q4L6K9 Q4L6K9 1.95 X-RAY DIFFRACTION 110 0.989 279808 (Staphylococcus haemolyticus JCSC1435) 279808 (Staphylococcus haemolyticus JCSC1435) 265 267 3huu-a1-m1-cB_3huu-a1-m1-cA KTLTIGLIQKSSAPEIRQNPFNSDVLNGINQACNVRGYSTRMTVSENSGDLYHEVKTMIQSKSVDGFILLYSLKDDPIEHLLNEFKVPYLIVGKSLNYENIIHIDNDNIDAAYQLTQYLYHLGHRHILFLQESGHYAVTEDRSVGFKQYCDDVKISNDCVVIKSMNDLRDFIHMPSVIITSDVMLNMQLLNVLYEYQLRIPEDIQTATFNTSFLTENATPSQTSVNINPDVLGFTAGNTIIDVLRISFREKLISTQIVERVSTTK KTLTIGLIQKSSAPEIRQNPFNSDVLNGINQACNVRGYSTRMTVSENSGDLYHEVKTMIQSKSVDGFILLYSLKDDPIEHLLNEFKVPYLIVGKSLNYENIIHIDNDNIDAAYQLTQYLYHLGHRHILFLQESGHYAVTEDRSVGFKQYCDDVKISNDCVVIKSMNDLRDFIKQYMPSVIITSDVMLNMQLLNVLYEYQLRIPEDIQTATFNTSFLTENATPSQTSVNINPDVLGFTAGNTIIDVLRNFREKLISTQIVERVSTTKI 3hv0-a1-m1-cA_3hv0-a1-m1-cB Tryptophanyl-tRNA synthetase from Cryptosporidium parvum Q5CYP8 Q5CYP8 2.42 X-RAY DIFFRACTION 109 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 352 352 NKLIDKFGCKLITKDMIERMERLTGQKAHHFFRRNIFLSHRDFEKILDVYEKGELFYLYTGRGPSSESLHVGHLVPFLFTKYLQDTFKVPLVIQLTDDEKFIFKSNLTLEETHNYAYENMKDIIACGFDPELTFIFTNLEYIAELYPDILRIEKKISCSQIKSIFGFKDSCNVGKFAFPAVQAAPAFSSSFPHIFGGRTDIHCLVPHAIDQDPYFRMVRDVAPRLGYLKPSSIHSIFLPSNSSIFVNDNEESIRNKIMKYAFSGGQATEEEQGANLDVDVSWQYLRFLMEDDEKLEEIGKKYSSGEMLSGEIKSILVQELVKLTKNHQKNREAINDDVIAKFTNKSREQLLK NKLIDKFGCKLITKDMIERMERLTGQKAHHFFRRNIFLSHRDFEKILDVYEKGELFYLYTGRGPSSESLHVGHLVPFLFTKYLQDTFKVPLVIQLTDDEKFIFKSNLTLEETHNYAYENMKDIIACGFDPELTFIFTNLEYIAELYPDILRIEKKISCSQIKSIFGFKDSCNVGKFAFPAVQAAPAFSSSFPHIFGGRTDIHCLVPHAIDQDPYFRMVRDVAPRLGYLKPSSIHSIFLPSNSSIFVNDNEESIRNKIMKYAFSGGQATEEEQGANLDVDVSWQYLRFLMEDDEKLEEIGKKYSSGEMLSGEIKSILVQELVKLTKNHQKNREAINDDVIAKFTNKSREQLLK 3hv1-a1-m1-cB_3hv1-a1-m1-cA Crystal structure of a polar amino acid ABC uptake transporter substrate binding protein from Streptococcus thermophilus Q5M4P7 Q5M4P7 1.9 X-RAY DIFFRACTION 47 0.996 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 249 259 SHFATQKDQWQTYTKEKKIKIGFDATFVPGYEEKDGSYIGFDIDLANAVFKLYGIDVEWQAIDWDKETELKNGTIDLIWNGYSVTDERKQSADFTEPYVNEQVLVTKKSSGIDSVAGAGKTLGAQAGSSGYDAFNASPKILKDVVANQKVVQYSTFTQALIDLNSGRIDGLLIDRVYANYYLEKSGVLDQYNVPAGYEGESFAVGARKVDKTLIKKINQGFETLYKNGEFQKISNKWFGEDVATDQVKH RSHFATQKDQWQTYTKEKKIKIGFDATFVPGYEEKDGSYIGFDIDLANAVFKLYGIDVEWQAIDWDKETELKNGTIDLIWNGYSVTDERKQSADFTEPYVNEQVLVTKKSSGIDSVAGAGKTLGAQAGSSGYDAFNASPKILKDVVANQKVVQYSTFTQALIDLNSGRIDGLLIDRVYANYYLEKSGVLDQYNVPAGYEGESFAVGARKVDKTLIKKINQGFETLYKNGEFQKISNKWFGEDVATDQVKGKREGHHHHH 3hv2-a1-m1-cB_3hv2-a1-m1-cA Crystal structure of signal receiver domain OF HD domain-containing protein FROM Pseudomonas fluorescens Pf-5 Q4K707 Q4K707 1.5 X-RAY DIFFRACTION 33 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 125 136 RRPEILLVDSQEVILQRLQQLLSPLPYTLHFARDATQALQLLASREVDLVISAAHLPQMDGPTLLARIHQQYPSTTRILLTGDPDLKLIAKAINEGEIYRYLSKPWDDQELLLALRQALEHQHSE LNVATVTRRPEILLVDSQEVILQRLQQLLSPLPYTLHFARDATQALQLLASREVDLVISAAHLPQMDGPTLLARIHQQYPSTTRILLTGDPDLKLIAKAINEGEIYRYLSKPWDDQELLLALRQALEHQHSERERL 3hvq-a1-m1-cA_3hvq-a1-m1-cB Crystal structure of a complex between Protein Phosphatase 1 alpha (PP1) and the PP1 binding and PDZ domains of Neurabin P62136 P62136 2.2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 LNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPAD LNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPAD 3hvx-a1-m1-cC_3hvx-a1-m2-cA Escherichia coli Thiol peroxidase (Tpx) resolving cysteine to serine mutant (C95S) with an intermolecular disulfide bond P0A862 P0A862 2.12 X-RAY DIFFRACTION 47 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 167 167 1qxh-a1-m1-cA_1qxh-a1-m1-cB 3hvs-a1-m1-cA_3hvs-a1-m1-cB 3hvv-a1-m1-cA_3hvv-a1-m2-cA 3hvx-a2-m1-cB_3hvx-a2-m3-cD 3i43-a1-m1-cA_3i43-a1-m1-cB 4af2-a1-m1-cA_4af2-a1-m2-cA SQTVHFQGNPVTVANSIPQAGSKAQTFTLVAKDLSDVTLGQFAGKRKVLNIFPSIDTGVCAASVRKFNQLATEIDNTVVLSISADLPFAQSRFSGAEGLNNVITLSTFRNAEFLQAYGVAIADGPLKGLAARAVVVIDENDNVIFSQLVDEITTEPDYEAALAVLKA SQTVHFQGNPVTVANSIPQAGSKAQTFTLVAKDLSDVTLGQFAGKRKVLNIFPSIDTGVCAASVRKFNQLATEIDNTVVLSISADLPFAQSRFSGAEGLNNVITLSTFRNAEFLQAYGVAIADGPLKGLAARAVVVIDENDNVIFSQLVDEITTEPDYEAALAVLKA 3hvy-a1-m1-cA_3hvy-a1-m1-cD Crystal structure of putative cystathionine beta-lyase involved in aluminum resistance (NP_348457.1) from Clostridium acetobutylicum at 2.00 A resolution Q97I22 Q97I22 2 X-RAY DIFFRACTION 14 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 404 410 3hvy-a1-m1-cB_3hvy-a1-m1-cC GLEFTKRSLNKYNINERVLELYERALNDVEKEFKYYDEIREYNQLKVLKAFQEERISESHFTNSSGYGYNDIGRDSLDRVYANIFNTESAFVRPHFVNGTHAIGAALFGNLRPNDTSICGPYDTLHDIIGDDSKKVGSLREYGVKYKVDLKDGKVDINTVKEELKKDDSIKLIHIQRSTGYGWRKSLRIAEIAEIIKSIREVNENVIVFVDNCYGEFVEEKEPTDVGADIIAGSLINIGGGIATTGGYIAGKEEYVTQATFRVTVPGIGGECGSTFGVRSLYEGLFAPHVTIEAVKGAVFCARIELAGFDVLPKYNDKRTDIIQAIKFNDEKKLIDFIKGIQTASPVDSFVQCKVIAAGTFVQGASIELSADAPIREPYIGYLQGGLTFDHAKLGVLIALSKLI GLEFTKRSLNKYNINERVLELYERALNDVEKEFKYYDEIREYNQLKVLKAFQEERISESHFTNSSGYGYNDIGRDSLDRVYANIFNTESAFVRPHFVNGTHAIGAALFGNLRPNDTSICGPYDTLHDIIGDDSKKVGSLREYGVKYKVDLKDGKVDINTVKEELKKDDSIKLIHIQRSTGYGWRKSLRIAEIAEIIKSIREVNENVIVFVDNCYGEFVEEKEPTDVGADIIAGSLINIGGGIATTGGYIAGKEEYVTQATFRVTVPGIGGECGSTFGVRSLYEGLFAPHVTIEAVKGAVFCARIELAGFDVLPKYNDKRTDIIQAIKFNDEKKLIDFIKGIQTASPVDSFVQCEAWYEDKVIAAGTFVQGASIELSADAPIREPYIGYLQGGLTFDHAKLGVLIALSKLI 3hvy-a1-m1-cB_3hvy-a1-m1-cD Crystal structure of putative cystathionine beta-lyase involved in aluminum resistance (NP_348457.1) from Clostridium acetobutylicum at 2.00 A resolution Q97I22 Q97I22 2 X-RAY DIFFRACTION 146 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 404 410 3hvy-a1-m1-cA_3hvy-a1-m1-cC GLEFTKRSLNKYNINERVLELYERALNDVEKEFKYYDEIREYNQLKVLKAFQEERISESHFTNSSGYGYNDIGRDSLDRVYANIFNTESAFVRPHFVNGTHAIGAALFGNLRPNDTSICGPYDTLHDIIGDDSKKVGSLREYGVKYKVDLKDGKVDINTVKEELKKDDSIKLIHIQRSTGYGWRKSLRIAEIAEIIKSIREVNENVIVFVDNCYGEFVEEKEPTDVGADIIAGSLINIGGGIATTGGYIAGKEEYVTQATFRVTVPGIGGECGSTFGVRSLYEGLFAPHVTIEAVKGAVFCARIELAGFDVLPKYNDKRTDIIQAIKFNDEKKLIDFIKGIQTASPVDSFVQCKVIAAGTFVQGASIELSADAPIREPYIGYLQGGLTFDHAKLGVLIALSKLI GLEFTKRSLNKYNINERVLELYERALNDVEKEFKYYDEIREYNQLKVLKAFQEERISESHFTNSSGYGYNDIGRDSLDRVYANIFNTESAFVRPHFVNGTHAIGAALFGNLRPNDTSICGPYDTLHDIIGDDSKKVGSLREYGVKYKVDLKDGKVDINTVKEELKKDDSIKLIHIQRSTGYGWRKSLRIAEIAEIIKSIREVNENVIVFVDNCYGEFVEEKEPTDVGADIIAGSLINIGGGIATTGGYIAGKEEYVTQATFRVTVPGIGGECGSTFGVRSLYEGLFAPHVTIEAVKGAVFCARIELAGFDVLPKYNDKRTDIIQAIKFNDEKKLIDFIKGIQTASPVDSFVQCEAWYEDKVIAAGTFVQGASIELSADAPIREPYIGYLQGGLTFDHAKLGVLIALSKLI 3hvy-a1-m1-cC_3hvy-a1-m1-cD Crystal structure of putative cystathionine beta-lyase involved in aluminum resistance (NP_348457.1) from Clostridium acetobutylicum at 2.00 A resolution Q97I22 Q97I22 2 X-RAY DIFFRACTION 160 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 407 410 3hvy-a1-m1-cA_3hvy-a1-m1-cB LEFTKRSLNKYNINERVLELYERALNDVEKEFKYYDEIREYNQLKVLKAFQEERISESHFTNSSGYGYNDIGRDSLDRVYANIFNTESAFVRPHFVNGTHAIGAALFGNLRPNDTSICGPYDTLHDIIGDDSKKVGSLREYGVKYKVDLKDGKVDINTVKEELKKDDSIKLIHIQRSTGYGWRKSLRIAEIAEIIKSIREVNENVIVFVDNCYGEFVEEKEPTDVGADIIAGSLINIGGGIATTGGYIAGKEEYVTQATFRVTVPGIGGECGSTFGVRSLYEGLFAPHVTIEAVKGAVFCARIELAGFDVLPKYNDKRTDIIQAIKFNDEKKLIDFIKGIQTASPVDSFVQCEAWDKVIAAGTFVQGASIELSADAPIREPYIGYLQGGLTFDHAKLGVLIALSKLI GLEFTKRSLNKYNINERVLELYERALNDVEKEFKYYDEIREYNQLKVLKAFQEERISESHFTNSSGYGYNDIGRDSLDRVYANIFNTESAFVRPHFVNGTHAIGAALFGNLRPNDTSICGPYDTLHDIIGDDSKKVGSLREYGVKYKVDLKDGKVDINTVKEELKKDDSIKLIHIQRSTGYGWRKSLRIAEIAEIIKSIREVNENVIVFVDNCYGEFVEEKEPTDVGADIIAGSLINIGGGIATTGGYIAGKEEYVTQATFRVTVPGIGGECGSTFGVRSLYEGLFAPHVTIEAVKGAVFCARIELAGFDVLPKYNDKRTDIIQAIKFNDEKKLIDFIKGIQTASPVDSFVQCEAWYEDKVIAAGTFVQGASIELSADAPIREPYIGYLQGGLTFDHAKLGVLIALSKLI 3hvz-a3-m1-cE_3hvz-a3-m1-cF Crystal Structure of the TGS domain of the CLOLEP_03100 protein from Clostridium leptum, Northeast Structural Genomics Consortium Target QlR13A A7VWX7 A7VWX7 2.2 X-RAY DIFFRACTION 46 1.0 428125 ([Clostridium] leptum DSM 753) 428125 ([Clostridium] leptum DSM 753) 61 63 3hvz-a1-m1-cA_3hvz-a1-m1-cB 3hvz-a2-m1-cC_3hvz-a2-m1-cD EVFVFTPKGDVISLPIGSTVIDFAYAIHSAVGNRIGAKVDGRIVPIDYKVKTGEIIDVLTT EEVFVFTPKGDVISLPIGSTVIDFAYAIHSAVGNRIGAKVDGRIVPIDYKVKTGEIIDVLTTK 3hwc-a1-m1-cA_3hwc-a1-m1-cD Crystal Structure of Chlorophenol 4-Monooxygenase (TftD) of Burkholderia cepacia AC1100 O87009 O87009 2.5 X-RAY DIFFRACTION 193 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 482 482 3hwc-a1-m1-cB_3hwc-a1-m1-cC MRTGKQYLESLNDGRVVWVGNEKIDNVATHPLTRDYAERVAQFYDLHHRPDLQDVLTFVDADGVRRSRQWQDPKDAAGLRVKRKYHETILREIAAGSYGRLPDAHNYTFTTYADDPEVWEKQSIGAEGRNLTQNIHNFLKLLREKDLNCPLNFVDPQTDRSSDAAQARSPNLRIVEKTDDGIIVNGVKAVGTGIAFGDYMHIGCLYRPGIPGEQVIFAAIPTNTPGVTVFCRESTVKNDPAEHPLASQGDELDSTTVFDNVFIPWEQVFHIGNPEHAKLYPQRIFDWVHYHILIRQVLRAELIVGLAILITEHIGTSKLPTVSARVAKLVAFHLAMQAHLIASEETGFHTKGGRYKPNPLIYDFGRAHFLQNQMSVMYELLDLAGRSSLMIPSEGQWDDSQSGQWFVKLNNGPKGNPRERVQIGRVIRDLYLTDWGGRQFMFENFNGTPLFAVFAATMTRDDMSAAGTYGKFASQVCGIEFG MRTGKQYLESLNDGRVVWVGNEKIDNVATHPLTRDYAERVAQFYDLHHRPDLQDVLTFVDADGVRRSRQWQDPKDAAGLRVKRKYHETILREIAAGSYGRLPDAHNYTFTTYADDPEVWEKQSIGAEGRNLTQNIHNFLKLLREKDLNCPLNFVDPQTDRSSDAAQARSPNLRIVEKTDDGIIVNGVKAVGTGIAFGDYMHIGCLYRPGIPGEQVIFAAIPTNTPGVTVFCRESTVKNDPAEHPLASQGDELDSTTVFDNVFIPWEQVFHIGNPEHAKLYPQRIFDWVHYHILIRQVLRAELIVGLAILITEHIGTSKLPTVSARVAKLVAFHLAMQAHLIASEETGFHTKGGRYKPNPLIYDFGRAHFLQNQMSVMYELLDLAGRSSLMIPSEGQWDDSQSGQWFVKLNNGPKGNPRERVQIGRVIRDLYLTDWGGRQFMFENFNGTPLFAVFAATMTRDDMSAAGTYGKFASQVCGIEFG 3hwc-a1-m1-cB_3hwc-a1-m1-cD Crystal Structure of Chlorophenol 4-Monooxygenase (TftD) of Burkholderia cepacia AC1100 O87009 O87009 2.5 X-RAY DIFFRACTION 200 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 482 482 3hwc-a1-m1-cA_3hwc-a1-m1-cC MRTGKQYLESLNDGRVVWVGNEKIDNVATHPLTRDYAERVAQFYDLHHRPDLQDVLTFVDADGVRRSRQWQDPKDAAGLRVKRKYHETILREIAAGSYGRLPDAHNYTFTTYADDPEVWEKQSIGAEGRNLTQNIHNFLKLLREKDLNCPLNFVDPQTDRSSDAAQARSPNLRIVEKTDDGIIVNGVKAVGTGIAFGDYMHIGCLYRPGIPGEQVIFAAIPTNTPGVTVFCRESTVKNDPAEHPLASQGDELDSTTVFDNVFIPWEQVFHIGNPEHAKLYPQRIFDWVHYHILIRQVLRAELIVGLAILITEHIGTSKLPTVSARVAKLVAFHLAMQAHLIASEETGFHTKGGRYKPNPLIYDFGRAHFLQNQMSVMYELLDLAGRSSLMIPSEGQWDDSQSGQWFVKLNNGPKGNPRERVQIGRVIRDLYLTDWGGRQFMFENFNGTPLFAVFAATMTRDDMSAAGTYGKFASQVCGIEFG MRTGKQYLESLNDGRVVWVGNEKIDNVATHPLTRDYAERVAQFYDLHHRPDLQDVLTFVDADGVRRSRQWQDPKDAAGLRVKRKYHETILREIAAGSYGRLPDAHNYTFTTYADDPEVWEKQSIGAEGRNLTQNIHNFLKLLREKDLNCPLNFVDPQTDRSSDAAQARSPNLRIVEKTDDGIIVNGVKAVGTGIAFGDYMHIGCLYRPGIPGEQVIFAAIPTNTPGVTVFCRESTVKNDPAEHPLASQGDELDSTTVFDNVFIPWEQVFHIGNPEHAKLYPQRIFDWVHYHILIRQVLRAELIVGLAILITEHIGTSKLPTVSARVAKLVAFHLAMQAHLIASEETGFHTKGGRYKPNPLIYDFGRAHFLQNQMSVMYELLDLAGRSSLMIPSEGQWDDSQSGQWFVKLNNGPKGNPRERVQIGRVIRDLYLTDWGGRQFMFENFNGTPLFAVFAATMTRDDMSAAGTYGKFASQVCGIEFG 3hwk-a4-m1-cG_3hwk-a4-m1-cH Crystal structure of methylcitrate synthase from Mycobacterium tuberculosis I6Y9Q3 I6Y9Q3 2.3 X-RAY DIFFRACTION 345 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 364 365 3hwk-a1-m1-cB_3hwk-a1-m1-cA 3hwk-a2-m1-cC_3hwk-a2-m1-cD 3hwk-a3-m1-cF_3hwk-a3-m1-cE DIKKGLAGVVVDTTAISKVVPQTNSLTYRGYPVQDLAARCSFEQVAFLLWRGELPTDAELALFSQRERASRRVDRSMLSLLAKLPDNCHPMDVVRTAISYLGAEDPDEDDAAANRAKAMRMMAVLPTIVAIDMRRRRGLPPIAPHSGLGYAQNFLHMCFGEVPETAVVSAFEQSMILYAEHGFNASTFAARVVTSTQSDIYSAVTGAIGALKGRLHGGANEAVMHDMIEIGDPANAREWLRAKLARKEKIMGFGHRVYRHGDSRVPTMKRALERVGTVRDGQRWLDIYQVLAAEMASATGILPNLDFPTGPAYYLMGFDIASFTPIFVMSRITGWTAHIMEQATANALIRPLSAYCGHEQRVLP DIKKGLAGVVVDTTAISKVVPQTNSLTYRGYPVQDLAARCSFEQVAFLLWRGELPTDAELALFSQRERASRRVDRSMLSLLAKLPDNCHPMDVVRTAISYLGAEDPDEDDAAANRAKAMRMMAVLPTIVAIDMRRRRGLPPIAPHSGLGYAQNFLHMCFGEVPETAVVSAFEQSMILYAEHGFNASTFAARVVTSTQSDIYSAVTGAIGALKGRLHGGANEAVMHDMIEIGDPANAREWLRAKLARKEKIMGFGHRVYRHGDSRVPTMKRALERVGTVRDGQRWLDIYQVLAAEMASATGILPNLDFPTGPAYYLMGFDIASFTPIFVMSRITGWTAHIMEQATANALIRPLSAYCGHEQRVLPG 3hwp-a1-m1-cA_3hwp-a1-m1-cB Crystal structure and computational analyses provide insights into the catalytic mechanism of 2, 4-diacetylphloroglucinol hydrolase PhlG from Pseudomonas fluorescens Q4K423 Q4K423 2 X-RAY DIFFRACTION 66 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 276 276 RNTPFTYFSLPQKLFLRNQAAVRNKPYAKYFRSERVPLSAVRKIQQGPALEDTLTPSIEDINRLLEPDFVSEESGYALLPGPAYVQSRKFFPGCTAQFKWWFIWHPAESERYTLWFPYAHVSNPCVHHQRLRDESLSFEERLYGNTFCASEYVGDRLHLHIDFQQPASLGLNTDLYREAKIDGSVSALSLADHPEVPVSLVHLFKEVPDGYLTSRYWVGAHPSARFPGAEKAASLLKENGFGEAELETLAYEFAVHDCEFNHLASFLPDLYREFGT RNTPFTYFSLPQKLFLRNQAAVRNKPYAKYFRSERVPLSAVRKIQQGPALEDTLTPSIEDINRLLEPDFVSEESGYALLPGPAYVQSRKFFPGCTAQFKWWFIWHPAESERYTLWFPYAHVSNPCVHHQRLRDESLSFEERLYGNTFCASEYVGDRLHLHIDFQQPASLGLNTDLYREAKIDGSVSALSLADHPEVPVSLVHLFKEVPDGYLTSRYWVGAHPSARFPGAEKAASLLKENGFGEAELETLAYEFAVHDCEFNHLASFLPDLYREFGT 3hwr-a1-m1-cB_3hwr-a1-m1-cA Crystal structure of PanE/ApbA family ketopantoate reductase (YP_299159.1) from Ralstonia eutropha JMP134 at 2.15 A resolution Q46RB9 Q46RB9 2.15 X-RAY DIFFRACTION 84 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 290 291 KVAIGAGAVGCYYGGLARAGHEVILIARPQHVQAIEATGLRLETQSFDEQVKVSASSDPSAVQGADLVLFCVKSTDTQSAALAKPALAKSALVLSLQNGVENADTLRSLLEQEVAAAVVYVATEAGPGHVRHHGRGELVIEPTSHGANLAAIFAAAGVPVETSDNVRGALWAKLILNCAYNALSAITQLPYGRLVRGEGVEAVRDVEECFAVARAEGVKLPDDVALAIRRIAETPRQSSSTAQDLARGKRSEIDHLNGLIVRRGDALGIPVPANRVLHALVRLIEDKQQH KVAIGAGAVGCYYGGLARAGHEVILIARPQHVQAIEATGLRLETQSFDEQVKVSASSDPSAVQGADLVLFCVKSTDTQSAALAKPALAKSALVLSLQNGVENADTLRSLLEQEVAAAVVYVATEAGPGHVRHHGRGELVIEPTSHGANLAAIFAAAGVPVETSDNVRGALWAKLILNCAYNALSAITQLPYGRLVRGEGVEAVRDVEECFAVARAEGVKLPDDVALAIRRIAETPRQSSSTAQDLARGKRSEIDHLNGLIVRRGDALGIPVPANRVLHALVRLIEDKQQHG 3hwu-a1-m2-cA_3hwu-a1-m3-cA Crystal structure of Putative DNA-binding protein (YP_299413.1) from Ralstonia eutrophA JMP134 at 1.30 A resolution Q46QL5 Q46QL5 1.3 X-RAY DIFFRACTION 98 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 139 139 3hwu-a1-m1-cA_3hwu-a1-m2-cA 3hwu-a1-m1-cA_3hwu-a1-m3-cA QELKGKYKTPTGYLVLRHGDNVLQNLEQLARDEHIPSASFVGIGFSEATFGFYDFGRKQFDPKTYRNVEANTGSIAWKEGKPSIHAHGTVTDGTFQGAGGHLLGLTVGTGSCEITVTVYPQRLDRFVDPEIQANVLGLP QELKGKYKTPTGYLVLRHGDNVLQNLEQLARDEHIPSASFVGIGFSEATFGFYDFGRKQFDPKTYRNVEANTGSIAWKEGKPSIHAHGTVTDGTFQGAGGHLLGLTVGTGSCEITVTVYPQRLDRFVDPEIQANVLGLP 3hx6-a1-m1-cB_3hx6-a1-m1-cA Crystal structure of Pseudomonas aeruginosa PilY1 C-terminal domain Q9HVM8 Q9HVM8 2.1 X-RAY DIFFRACTION 59 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 486 491 PATVGKAQYLTYLAQPIEPSGNYSTFAEAQKTRAPRVYVGANDGMLHGFDTDGNETFAFIPSAVFEKGAHQFYVDGSPVVADAFFGGAWHTVLIGSLRAGGKGLFALDVTDPANIKLLWEIGVDQEPDLGYSFPKPTVARLHNGKWAVVTGNGYSSMNDKAALLIIDMETGAITRKLEVTGRTGVPNGLSSPRLADNNSDGVADYAYAGDLQGNLWRFDLIAGKVNQDDPFSRANDGPAVASSFRVSFGGQPLYSAVDSAGAAQAITAAPSLVRHPTRKGYIVIFGTGKYFENADARADTSRAQTLYGIWDQQTKGEAAGSTPRLTRGNLQQQTLDLQADSTFASTARTIRIASQNPVNWLNNDGSTKQSGWYLDFMVNGTLKGEMLIEDMIAIGQVVLLQTITPNASNWTYGLDPYTGGRTSFTVFDLARQGVVDSKSDYSYNKQNVAVSGTEQKGLGGLTLSTNEQGNPEVCSSGECLTVNPGP SPATVGKAQYLTYLAQPIEPSGNYSTFAEAQKTRAPRVYVGANDGMLHGFDTDGNETFAFIPSAVFEKMHQGGAHQFYVDGSPVVADAFFGGAWHTVLIGSLRAGGKGLFALDVTDPANIKLLWEIGVDQEPDLGYSFPKPTVARLHNGKWAVVTGNGYSSMNDKAALLIIDMETGAITRKLEVTGRTGVPNGLSSPRLADNNSDGVADYAYAGDLQGNLWRFDLIAGKVNQDDPFSRANDGPAVASSFRVSFGGQPLYSAVDSAGAAQAITAAPSLVRHPTRKGYIVIFGTGKYFENADARADTSRAQTLYGIWDQQTKGEAAGSTPRLTRGNLQQQTLDLQADSTFASTARTIRIASQNPVNWLNNDGSTKQSGWYLDFMVNGTLKGEMLIEDMIAIGQVVLLQTITPNASNWTYGLDPYTGGRTSFTVFDLARQGVVDSKSDYSYNKQNVAVSGTEQKGLGGLTLSTNEQGNPEVCSSGECLTVNPGP 3hx8-a2-m1-cC_3hx8-a2-m1-cD Crystal structure of putative ketosteroid isomerase (NP_103587.1) from Mesorhizobium loti at 1.45 A resolution Q98IZ3 Q98IZ3 1.45 X-RAY DIFFRACTION 79 0.992 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 122 124 3hx8-a1-m1-cB_3hx8-a1-m1-cA AKEAIEAANADFVKAYNSKDAAGVASKYDDAAAFPPDARVDGRQNIQKLWQGADGISELKLTTLDVQESGDFAFESGSFSLKAPGKDSKLVDAAGKYVVVWRKGQDGGWKLYRDIWNSDPAK GQSAKEAIEAANADFVKAYNSKDAAGVASKYDDAAAFPPDARVDGRQNIQKLWQGADGISELKLTTLDVQESGDFAFESGSFSLKAPGKDSKLVDAAGKYVVVWRKGQDGGWKLYRDIWNSDPA 3hxj-a2-m1-cC_3hxj-a2-m1-cD Crystal Structure of Pyrrolo-quinoline quinone (PQQ_DH) from Methanococcus maripaludis, Northeast Structural Genomics Consortium Target MrR86 A6VIT4 A6VIT4 2 X-RAY DIFFRACTION 58 0.996 426368 (Methanococcus maripaludis C7) 426368 (Methanococcus maripaludis C7) 285 302 3hxj-a1-m1-cB_3hxj-a1-m1-cA KWEFLIGSSPILAKNGTIYLGKNLYAINTDGSVKWFFEIIECRPSIGKDGTIYFGSDKVYAINPSDFTIFEDILYVTSDGHLYAINTDGTEKWRFKTKKAIYATPIVSEDGTIYVGSNDNYLYAINPDGTEKWRFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAGYWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTGKRIESSPVIGNTDTIYFGSYDGHLYAINPDGTEKWNFETGSWIIATPVIDENGTIYFGTRNGKFYALFN IKWEFLIGNSIDSSPILAKNGTIYLSNKNLYAINTDGSVKWFFKSGEIIECRPSIGKDGTIYFGSDKVYAINPDGTEKWRFSDFTIFEDILYVTSDGHLYAINTDGTEKWRFKTKKAIYATPIVSEDGTIYVGSNDNYLYAINPDGTEKWRFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAGYWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTGKRIESSPVIGNTDTIYFGSYDGHLYAINPDGTEKWNFETGSWIIATPVIDENGTIYFGTRNGKFYALFN 3hxk-a1-m1-cA_3hxk-a1-m1-cD Crystal Structure of a sugar hydrolase (YeeB) from Lactococcus lactis, Northeast Structural Genomics Consortium Target KR108 Q9CID4 Q9CID4 3.2 X-RAY DIFFRACTION 46 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 249 249 3hxk-a1-m1-cB_3hxk-a1-m1-cC NKSTFSLNDTAWVDFYQLQNYTFPAIIICPGGGYQHISQRESDPLALAFLAQGYQVLLLNYTVNKGTNYNFLSQNLEEVQAVFSLIHQNHKEWQINPEQVFLLGCSAGGHLAAWYGNSEQIHRPKGVILCYPVTSFTFGWPSDLSHFNFEIENISEYNISEKVTSSTPPTFIWHTADDEGVPIYNSLKYCDRLSKHQVPFEAHFFESGPHGVSLANRTTAPSDAYCLPSVHRWVSWASDWLERQIKNLE NKSTFSLNDTAWVDFYQLQNYTFPAIIICPGGGYQHISQRESDPLALAFLAQGYQVLLLNYTVNKGTNYNFLSQNLEEVQAVFSLIHQNHKEWQINPEQVFLLGCSAGGHLAAWYGNSEQIHRPKGVILCYPVTSFTFGWPSDLSHFNFEIENISEYNISEKVTSSTPPTFIWHTADDEGVPIYNSLKYCDRLSKHQVPFEAHFFESGPHGVSLANRTTAPSDAYCLPSVHRWVSWASDWLERQIKNLE 3hxk-a1-m1-cC_3hxk-a1-m1-cD Crystal Structure of a sugar hydrolase (YeeB) from Lactococcus lactis, Northeast Structural Genomics Consortium Target KR108 Q9CID4 Q9CID4 3.2 X-RAY DIFFRACTION 68 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 249 249 3hxk-a1-m1-cA_3hxk-a1-m1-cB NKSTFSLNDTAWVDFYQLQNYTFPAIIICPGGGYQHISQRESDPLALAFLAQGYQVLLLNYTVNKGTNYNFLSQNLEEVQAVFSLIHQNHKEWQINPEQVFLLGCSAGGHLAAWYGNSEQIHRPKGVILCYPVTSFTFGWPSDLSHFNFEIENISEYNISEKVTSSTPPTFIWHTADDEGVPIYNSLKYCDRLSKHQVPFEAHFFESGPHGVSLANRTTAPSDAYCLPSVHRWVSWASDWLERQIKNLE NKSTFSLNDTAWVDFYQLQNYTFPAIIICPGGGYQHISQRESDPLALAFLAQGYQVLLLNYTVNKGTNYNFLSQNLEEVQAVFSLIHQNHKEWQINPEQVFLLGCSAGGHLAAWYGNSEQIHRPKGVILCYPVTSFTFGWPSDLSHFNFEIENISEYNISEKVTSSTPPTFIWHTADDEGVPIYNSLKYCDRLSKHQVPFEAHFFESGPHGVSLANRTTAPSDAYCLPSVHRWVSWASDWLERQIKNLE 3hxs-a1-m1-cA_3hxs-a1-m1-cB Crystal Structure of Bacteroides fragilis TrxP Q64SV7 Q64SV7 1.996 X-RAY DIFFRACTION 119 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 117 119 3hyp-a1-m1-cA_3hyp-a1-m1-cB GTIHLTRAEFLKKIADYENHSKEWKYLGDKPAIVDFYADWCGPCKMVAPILEELSKEYAGKIYIYKVNVDKEPELARDFGIQSIPTIWFVPMKGEPQVNMGALSKEQLKGYIDKVLL GTIHLTRAEFLKKIADYENHSKEWKYLGDKPAIVDFYADWCGPCKMVAPILEELSKEYAGKIYIYKVNVDKEPELARDFGIQSIPTIWFVPMKGEPQVNMGALSKEQLKGYIDKVLLKQ 3hy3-a2-m1-cA_3hy3-a2-m2-cA Structure of human MTHFS with 10-formyltetrahydrofolate P49914 P49914 1.8 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 MAAAAVSSAKRSLRGELKQRLRAMSAEERLRQSRVLSQKVIAHSEYQKSKRISIFLSMQDEIETEEIIKDIFQRGKICFIPRYRFQSNHMDMVRIESPEEISLLPKTSWNIPQPGEGDVREEALSTGGLDLIFMPGLGFDKHGNRLGRGKGYYDAYLKRCLQHQEVKPYTLALAFKEQICLQVPVNDMKVDEVLYE MAAAAVSSAKRSLRGELKQRLRAMSAEERLRQSRVLSQKVIAHSEYQKSKRISIFLSMQDEIETEEIIKDIFQRGKICFIPRYRFQSNHMDMVRIESPEEISLLPKTSWNIPQPGEGDVREEALSTGGLDLIFMPGLGFDKHGNRLGRGKGYYDAYLKRCLQHQEVKPYTLALAFKEQICLQVPVNDMKVDEVLYE 3hy6-a2-m1-cA_3hy6-a2-m2-cA Structure of human MTHFS with ADP P49914 P49914 2.1 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 MAAAAVSSAKRSLRGELKQRLRAMSAEERLRQSRVLSQKVIAHSEYQKSKRISIFLSMQDEIETEEIIKDIFQRGKICFIPRYRFQSNHMDMVRIESPEEISLLPKTSWNIPQPGEGDVREEALSTGGLDLIFMPGLGFDKHGNRLGRGKGYYDAYLKRCLQHQEVKPYTLALAFKEQICLQVPVNENDMKVDEVLYE MAAAAVSSAKRSLRGELKQRLRAMSAEERLRQSRVLSQKVIAHSEYQKSKRISIFLSMQDEIETEEIIKDIFQRGKICFIPRYRFQSNHMDMVRIESPEEISLLPKTSWNIPQPGEGDVREEALSTGGLDLIFMPGLGFDKHGNRLGRGKGYYDAYLKRCLQHQEVKPYTLALAFKEQICLQVPVNENDMKVDEVLYE 3hyd-a1-m3-cA_3hyd-a1-m4-cA LVEALYL peptide derived from human insulin chain B, residues 11-17 P01308 P01308 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 3hyd-a1-m1-cA_3hyd-a1-m2-cA LVEALYL LVEALYL 3hyh-a3-m1-cB_3hyh-a3-m1-cA Crystal structure of the protein kinase domain of yeast AMP-activated protein kinase Snf1 P06782 P06782 2.2 X-RAY DIFFRACTION 61 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 233 238 3dae-a3-m1-cB_3dae-a3-m1-cA NYQIVKTLGEKVKLAYHTTTGQKVALKIINKKVMQGRIEREISYLRLLRHPHIIKLYDVIKSKDEIIMVIEYAGNELFDYIVQRDKMSEQEARRFFQQIISAVEYCHRHKIVHRDLKPENLLLDEHLNVKIADFGLSPNYAAPEVISGPEVDVWSCGVILYVMLCRRLPFDDESIPVLFKNISNGVYTLPKFLSPGAAGLIKRMLIVNPLNRISIHEIMQDDWFKVDLPEYLL NYQIVKTLGEGKVKLAYHTTTGQKVALKIINKKMQGRIEREISYLRLLRHPHIIKLYDVIKSKDEIIMVIEYAGNELFDYIVQRDKMSEQEARRFFQQIISAVEYCHRHKIVHRDLKPENLLLDEHLNVKIADFGLSPNYAAPEVISGKLYAGPEVDVWSCGVILYVMLCRRLPFDDESIPVLFKNISNGVYTLPKFLSPGAAGLIKRMLIVNPLNRISIHEIMQDDWFKVDLPEYLL 3hyk-a1-m1-cB_3hyk-a1-m1-cC 2.31 Angstrom resolution crystal structure of a holo-(acyl-carrier-protein) synthase from Bacillus anthracis str. Ames in complex with CoA (3',5'-ADP) Q81JG3 Q81JG3 2.31 X-RAY DIFFRACTION 48 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 112 113 3hyk-a1-m1-cB_3hyk-a1-m1-cA 3hyk-a1-m1-cC_3hyk-a1-m1-cA AIVGIGIDIIELNRIEKLDKFERILTENERNVAKGLKGSRLTEFVAGRFAAKEAYSKAVGTGIGKEVSFLDIEVRNDDRGKPILITSTEHIVHLSISHSKEFAVAQVVLESS AIVGIGIDIIELNRIEKLDKFERILTENERNVAKGLKGSRLTEFVAGRFAAKEAYSKAVGTGIGKEVSFLDIEVRNDDRGKPILITSTEHIVHLSISHSKEFAVAQVVLESSS 3hyq-a2-m1-cA_3hyq-a2-m2-cA Crystal Structure of Isopentenyl-Diphosphate delta-Isomerase from Salmonella entericase Q8ZM82 Q8ZM82 1.525 X-RAY DIFFRACTION 56 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 148 148 LHLAFSCWLFNEDGQLLVTRRSLSKKAWPGVWTNSVCGHPQQGETTEEAIIRRCRFELGVEITDLTPVYPHFSYRATDPNGIVENEVCPVFAARATSVLQVNSEEVDYQWSEFKSVWKSLLATPWAFSPWVQASDEQARERLLNYCQR LHLAFSCWLFNEDGQLLVTRRSLSKKAWPGVWTNSVCGHPQQGETTEEAIIRRCRFELGVEITDLTPVYPHFSYRATDPNGIVENEVCPVFAARATSVLQVNSEEVDYQWSEFKSVWKSLLATPWAFSPWVQASDEQARERLLNYCQR 3hyr-a4-m1-cB_3hyr-a4-m1-cC Structural Insight into G Protein Coupling and Regulation of Fe2+ Membrane Transport P33650 P33650 2.2 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 249 249 3hyr-a4-m1-cA_3hyr-a4-m1-cB 3hyr-a4-m1-cA_3hyr-a4-m1-cC 3hyt-a1-m1-cB_3hyt-a1-m1-cA 3hyt-a1-m1-cC_3hyt-a1-m1-cA 3hyt-a1-m1-cC_3hyt-a1-m1-cB KKLTIGLIGNPNSGKTTLFNQLTGSRQRVGNWAGVTVERKEGQFSTTDHQVTLVDLPGTYSLTSLDEQIACHYILSGDADLLINVVDASNLERNLYLTLQLLELGIPCIVALNLDIAEKQNIRIEIDALSARLGCPVIPLVSTRGRGIEALKLAIDRYKANENVELVHYAQPLLNEADSLAKVPSDIPLKQRRWLGLQLEGDIYSRAYAGEASQHLDAALARLRNEDDPALHIADARYQCIAAICDVVS KKLTIGLIGNPNSGKTTLFNQLTGSRQRVGNWAGVTVERKEGQFSTTDHQVTLVDLPGTYSLTSLDEQIACHYILSGDADLLINVVDASNLERNLYLTLQLLELGIPCIVALNLDIAEKQNIRIEIDALSARLGCPVIPLVSTRGRGIEALKLAIDRYKANENVELVHYAQPLLNEADSLAKVPSDIPLKQRRWLGLQLEGDIYSRAYAGEASQHLDAALARLRNEDDPALHIADARYQCIAAICDVVS 3hyu-a1-m1-cA_3hyu-a1-m2-cA Crystal structure of the altitude adapted hemoglobin of guinea pig. P01947 P01947 1.67 X-RAY DIFFRACTION 25 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 141 141 3a0g-a1-m1-cA_3a0g-a1-m2-cA VLSAADKNNVKTTWDKIGGHAAEYVAEGLTRMFTSFPTTKTYFHHIDVSPGSGDIKAHGKKVADALTTAVGHLDDLPTALSTLSDVHAHKLRVDPVNFKFLNHCLLVTLAAHLGADFTPSIHASLDKFFASVSTVLTSKYR VLSAADKNNVKTTWDKIGGHAAEYVAEGLTRMFTSFPTTKTYFHHIDVSPGSGDIKAHGKKVADALTTAVGHLDDLPTALSTLSDVHAHKLRVDPVNFKFLNHCLLVTLAAHLGADFTPSIHASLDKFFASVSTVLTSKYR 3hyw-a3-m1-cE_3hyw-a3-m1-cF 3-D X-Ray structure of the sulfide:quinone oxidoreductase of the hyperthermophilic bacterium Aquifex aeolicus in complex with decylubiquinone O67931 O67931 2 X-RAY DIFFRACTION 41 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 427 427 3hyv-a3-m1-cA_3hyv-a3-m1-cB 3hyv-a4-m1-cE_3hyv-a4-m1-cF 3hyv-a5-m1-cC_3hyv-a5-m1-cD 3hyw-a3-m1-cA_3hyw-a3-m1-cB 3hyw-a3-m1-cC_3hyw-a3-m1-cD 3hyx-a3-m1-cC_3hyx-a3-m1-cD 3hyx-a4-m1-cA_3hyx-a4-m1-cB 3hyx-a5-m1-cE_3hyx-a5-m1-cF AKHVVVIGGGVGGIATAYNLRNLMPDLKITLISDRPYFGFTPAFPHLAMGWRKFEDISVPLAPLLPKFNIEFINEKAESIDPDANTVTTQSGKKIEYDYLVIATGPKLVFGAEGQEENSTSICTAEHALETQKKLQELYANPGPVVIGAIPGVSFGPAYEFALMLHYELKKRGIRYKVPMTFITSEPYLGHFGVGGIGASKRLVEDLFAERNIDWIANVAVKAIEPDKVIYEDLNGNTHEVPAKFTMFMPSFQGPEVVASAGDKVANPANKMVIVNRCFQNPTYKNIFGVGVVTAIPPIEKTPIPTGVPKTGMMIEQMAMAVAHNIVNDIRNNPDKYAPRLSAIIADFGEDAGFFFADPVIPPRERVITKMGKWAHYFKTAFEKYFLWKVRNGNIAPSFEEKVLEIFLKVHPIELCKDCEGAPGSRC AKHVVVIGGGVGGIATAYNLRNLMPDLKITLISDRPYFGFTPAFPHLAMGWRKFEDISVPLAPLLPKFNIEFINEKAESIDPDANTVTTQSGKKIEYDYLVIATGPKLVFGAEGQEENSTSICTAEHALETQKKLQELYANPGPVVIGAIPGVSFGPAYEFALMLHYELKKRGIRYKVPMTFITSEPYLGHFGVGGIGASKRLVEDLFAERNIDWIANVAVKAIEPDKVIYEDLNGNTHEVPAKFTMFMPSFQGPEVVASAGDKVANPANKMVIVNRCFQNPTYKNIFGVGVVTAIPPIEKTPIPTGVPKTGMMIEQMAMAVAHNIVNDIRNNPDKYAPRLSAIIADFGEDAGFFFADPVIPPRERVITKMGKWAHYFKTAFEKYFLWKVRNGNIAPSFEEKVLEIFLKVHPIELCKDCEGAPGSRC 3hyx-a2-m1-cB_3hyx-a2-m1-cF 3-D X-Ray structure of the sulfide:quinone oxidoreductase from Aquifex aeolicus in complex with Aurachin C O67931 O67931 2.9 X-RAY DIFFRACTION 36 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 428 428 3hyv-a1-m1-cA_3hyv-a1-m1-cC 3hyv-a1-m1-cA_3hyv-a1-m1-cE 3hyv-a1-m1-cC_3hyv-a1-m1-cE 3hyv-a2-m1-cB_3hyv-a2-m1-cD 3hyv-a2-m1-cB_3hyv-a2-m1-cF 3hyv-a2-m1-cD_3hyv-a2-m1-cF 3hyw-a1-m1-cA_3hyw-a1-m1-cC 3hyw-a1-m1-cA_3hyw-a1-m1-cE 3hyw-a1-m1-cC_3hyw-a1-m1-cE 3hyw-a2-m1-cB_3hyw-a2-m1-cD 3hyw-a2-m1-cB_3hyw-a2-m1-cF 3hyw-a2-m1-cD_3hyw-a2-m1-cF 3hyw-a3-m1-cA_3hyw-a3-m1-cC 3hyw-a3-m1-cA_3hyw-a3-m1-cE 3hyw-a3-m1-cB_3hyw-a3-m1-cD 3hyw-a3-m1-cB_3hyw-a3-m1-cF 3hyw-a3-m1-cC_3hyw-a3-m1-cE 3hyw-a3-m1-cD_3hyw-a3-m1-cF 3hyx-a1-m1-cA_3hyx-a1-m1-cC 3hyx-a1-m1-cA_3hyx-a1-m1-cE 3hyx-a1-m1-cC_3hyx-a1-m1-cE 3hyx-a2-m1-cB_3hyx-a2-m1-cD 3hyx-a2-m1-cD_3hyx-a2-m1-cF AKHVVVIGGGVGGIATAYNLRNLMPDLKITLISDRPYFGFTPAFPHLAMGWRKFEDISVPLAPLLPKFNIEFINEKAESIDPDANTVTTQSGKKIEYDYLVIATGPKLVFGAEGQEENSTSICTAEHALETQKKLQELYANPGPVVIGAIPGVSFGPAYEFALMLHYELKKRGIRYKVPMTFITSEPYLGHFGVGGIGASKRLVEDLFAERNIDWIANVAVKAIEPDKVIYEDLNGNTHEVPAKFTMFMPSFQGPEVVASAGDKVANPANKMVIVNRCFQNPTYKNIFGVGVVTAIPPIEKTPIPTGVPKTGMMIEQMAMAVAHNIVNDIRNNPDKYAPRLSAICIADFGEDAGFFFADPVIPPRERVITKMGKWAHYFKTAFEKYFLWKVRNGNIAPSFEEKVLEIFLKVHPIELCKDCEGAPGSRC AKHVVVIGGGVGGIATAYNLRNLMPDLKITLISDRPYFGFTPAFPHLAMGWRKFEDISVPLAPLLPKFNIEFINEKAESIDPDANTVTTQSGKKIEYDYLVIATGPKLVFGAEGQEENSTSICTAEHALETQKKLQELYANPGPVVIGAIPGVSFGPAYEFALMLHYELKKRGIRYKVPMTFITSEPYLGHFGVGGIGASKRLVEDLFAERNIDWIANVAVKAIEPDKVIYEDLNGNTHEVPAKFTMFMPSFQGPEVVASAGDKVANPANKMVIVNRCFQNPTYKNIFGVGVVTAIPPIEKTPIPTGVPKTGMMIEQMAMAVAHNIVNDIRNNPDKYAPRLSAICIADFGEDAGFFFADPVIPPRERVITKMGKWAHYFKTAFEKYFLWKVRNGNIAPSFEEKVLEIFLKVHPIELCKDCEGAPGSRC 3hzb-a4-m1-cG_3hzb-a4-m1-cH Crystal structure of a betagamma-crystallin domain from Flavobacterium johnsoniae A5FC88 A5FC88 1.74 X-RAY DIFFRACTION 21 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 87 87 3hzb-a1-m1-cA_3hzb-a1-m1-cB 3hzb-a2-m1-cC_3hzb-a2-m1-cD 3hzb-a3-m1-cF_3hzb-a3-m1-cE DVITVYKDCNYTGFSGGLTIGDYNLARLNSLGVLNDDISSLRITQGYQAILYQDDNFGGASTVINSDNSCLNTTWNDKVSSIRVIAN DVITVYKDCNYTGFSGGLTIGDYNLARLNSLGVLNDDISSLRITQGYQAILYQDDNFGGASTVINSDNSCLNTTWNDKVSSIRVIAN 3hzl-a2-m1-cA_3hzl-a2-m2-cA Tyr258Phe mutant of NikD, an unusual amino acid oxidase essential for nikkomycin biosynthesis: open form at 1.55A resolution Q9X9P9 Q9X9P9 1.55 X-RAY DIFFRACTION 57 1.0 1932 (Streptomyces tendae) 1932 (Streptomyces tendae) 394 394 TESYDVVVVGGGPVGLATAWQVAERGHRVLVLERHTFFNENGGTSGAERHWRLQYTQEDLFRLTLETLPLWRALESRCERRLIHEIGSLWFGDTDVVTNEGQISGTAAMMDKLSVRYEWLKATDIERRFGFRGLPRDYEGFLQPDGGTIDVRGTLAALFTLAQAAGATLRAGETVTELVPDADGVSVTTDRGTYRAGKVVLACGPYTNDLLEPLGARLAYSVYEMAIAAYRQATPVTEAPFWFAFQQPTPQDTNLFFGFGHNPWAPGEFVRCGPDFEVDPLDHPSAATGVADRRQMDRLSGWLRDHLPTVDPDPVRTSTCLAVLPTDPERQFFLGTARDLMTHGEKLVVYGAGWAFKFVPLFGRICADLAVEDSTAYDISRLAPQSALLEHHHH TESYDVVVVGGGPVGLATAWQVAERGHRVLVLERHTFFNENGGTSGAERHWRLQYTQEDLFRLTLETLPLWRALESRCERRLIHEIGSLWFGDTDVVTNEGQISGTAAMMDKLSVRYEWLKATDIERRFGFRGLPRDYEGFLQPDGGTIDVRGTLAALFTLAQAAGATLRAGETVTELVPDADGVSVTTDRGTYRAGKVVLACGPYTNDLLEPLGARLAYSVYEMAIAAYRQATPVTEAPFWFAFQQPTPQDTNLFFGFGHNPWAPGEFVRCGPDFEVDPLDHPSAATGVADRRQMDRLSGWLRDHLPTVDPDPVRTSTCLAVLPTDPERQFFLGTARDLMTHGEKLVVYGAGWAFKFVPLFGRICADLAVEDSTAYDISRLAPQSALLEHHHH 3hzn-a1-m1-cD_3hzn-a1-m1-cH Structure of the Salmonella typhimurium nfnB dihydropteridine reductase P15888 P15888 2.4 X-RAY DIFFRACTION 27 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 213 214 NADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV SNADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV 3hzn-a4-m1-cC_3hzn-a4-m1-cD Structure of the Salmonella typhimurium nfnB dihydropteridine reductase P15888 P15888 2.4 X-RAY DIFFRACTION 221 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 212 213 3hzn-a1-m1-cC_3hzn-a1-m1-cD 3hzn-a1-m1-cE_3hzn-a1-m1-cF 3hzn-a1-m1-cG_3hzn-a1-m1-cH 3hzn-a1-m2-cA_3hzn-a1-m2-cB 3hzn-a2-m1-cC_3hzn-a2-m1-cD 3hzn-a2-m2-cA_3hzn-a2-m2-cB 3hzn-a3-m1-cA_3hzn-a3-m1-cB 3hzn-a5-m1-cE_3hzn-a5-m1-cF 3hzn-a5-m1-cG_3hzn-a5-m1-cH 3hzn-a6-m1-cE_3hzn-a6-m1-cF 3hzn-a7-m1-cG_3hzn-a7-m1-cH ADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV NADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV 3hzn-a5-m1-cE_3hzn-a5-m1-cH Structure of the Salmonella typhimurium nfnB dihydropteridine reductase P15888 P15888 2.4 X-RAY DIFFRACTION 14 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 213 214 3hzn-a1-m1-cC_3hzn-a1-m2-cB 3hzn-a1-m1-cD_3hzn-a1-m2-cA 3hzn-a1-m1-cE_3hzn-a1-m1-cH 3hzn-a1-m1-cG_3hzn-a1-m1-cF 3hzn-a2-m1-cC_3hzn-a2-m2-cB 3hzn-a2-m1-cD_3hzn-a2-m2-cA 3hzn-a5-m1-cG_3hzn-a5-m1-cF NADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV SNADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV 3hzn-a5-m1-cG_3hzn-a5-m1-cE Structure of the Salmonella typhimurium nfnB dihydropteridine reductase P15888 P15888 2.4 X-RAY DIFFRACTION 39 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 212 213 3hzn-a1-m1-cC_3hzn-a1-m2-cA 3hzn-a1-m1-cG_3hzn-a1-m1-cE 3hzn-a2-m1-cC_3hzn-a2-m2-cA ADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV NADIVSVALQRYSTKAFDPSKKLTAEEADKIKTLLQYSPSSTNSQPWHFIVASTEEGKARVAKSAAGNYTFNERKLDASHVVVFCAKTADDAWLERVVDQEDADGRFATPEAKAANDKGRRFFADHRVSLKDDHQWAKQVYLNVGNFLLGVAAGLDAVPIEGFDAEVLDAEFGLKEKGYTSLVVVPVGHHSVEDFNAGLPKSRLPLETTLTEV 3hzp-a1-m1-cA_3hzp-a1-m2-cA Crystal structure of NTF2-like protein of unknown function MN2A_0505 from Prochlorococcus marinus (YP_291699.1) from Prochlorococcus sp. NATL2A at 1.40 A resolution Q46KI2 Q46KI2 1.4 X-RAY DIFFRACTION 98 1.0 59920 (Prochlorococcus marinus str. NATL2A) 59920 (Prochlorococcus marinus str. NATL2A) 123 123 SSKEEILSILEAFASTERGSFFLDNATADFLFIRPSGNPLDAKGFENWSSGDLVLESAEITKVHKFELLGSNAAICVFTLGSKFTYKGTQNDDLPTVTSIFKKIDEKWKVAWQRSSGQSDTLW SSKEEILSILEAFASTERGSFFLDNATADFLFIRPSGNPLDAKGFENWSSGDLVLESAEITKVHKFELLGSNAAICVFTLGSKFTYKGTQNDDLPTVTSIFKKIDEKWKVAWQRSSGQSDTLW 3hzq-a1-m2-cA_3hzq-a1-m4-cA Structure of a tetrameric MscL in an expanded intermediate state P68806 P68806 3.82 X-RAY DIFFRACTION 61 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 94 94 3hzq-a1-m1-cA_3hzq-a1-m3-cA 3hzq-a1-m1-cA_3hzq-a1-m4-cA 3hzq-a1-m2-cA_3hzq-a1-m3-cA MLKEFKEFALKGNVLDLAIAVVMGAAFNKIICSLVENIIMPLIGKIFGSVDFAKEWSFWGIKYGLFIQSVIDFIIIAFALFIFVKIANTLMKKE MLKEFKEFALKGNVLDLAIAVVMGAAFNKIICSLVENIIMPLIGKIFGSVDFAKEWSFWGIKYGLFIQSVIDFIIIAFALFIFVKIANTLMKKE 3hzr-a3-m1-cE_3hzr-a3-m1-cF Tryptophanyl-tRNA synthetase homolog from Entamoeba histolytica C4LUB5 C4LUB5 3 X-RAY DIFFRACTION 105 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 374 374 3hzr-a1-m1-cA_3hzr-a1-m1-cB 3hzr-a2-m1-cC_3hzr-a2-m1-cD PSQLLQSFTTRTTDYNQLINSVGINAITPQQIQRIEKLSGKAPHHYLSRGVFLAEKSLDKFLDDVEAKKPTFIFIQKYPQKEVALEEYITLEFARYLQDAFNIQVIIQILDDIKVLNREATINEASKMSNDLMKYILAFGFNEDKTFIYTDYQYFGKMYRTISLVEKATAYNVVQPFFNFEYSDNIGKLASPSIMTASMFSQSYSHFFSSPARCLVLDSIKNVQFHSIIDQIATTLNFIQPTVLFHKMVPLLSGVTKFDIPSDHNSILLSDNAKQVERKINKLAFSGGRNTTEEHKKLGGQCDIDVSFQLLNIFSSDNAQVKDVEEKYSKGELLSGELKKIVSASMKDFIVAYDAKKKPITTAYLKAYISKTKF PSQLLQSFTTRTTDYNQLINSVGINAITPQQIQRIEKLSGKAPHHYLSRGVFLAEKSLDKFLDDVEAKKPTFIFIQKYPQKEVALEEYITLEFARYLQDAFNIQVIIQILDDIKVLNREATINEASKMSNDLMKYILAFGFNEDKTFIYTDYQYFGKMYRTISLVEKATAYNVVQPFFNFEYSDNIGKLASPSIMTASMFSQSYSHFFSSPARCLVLDSIKNVQFHSIIDQIATTLNFIQPTVLFHKMVPLLSGVTKFDIPSDHNSILLSDNAKQVERKINKLAFSGGRNTTEEHKKLGGQCDIDVSFQLLNIFSSDNAQVKDVEEKYSKGELLSGELKKIVSASMKDFIVAYDAKKKPITTAYLKAYISKTKF 3hzs-a1-m2-cA_3hzs-a1-m3-cA S. aureus monofunctional glycosyltransferase (MtgA)in complex with moenomycin Q7A0I6 Q7A0I6 2.1 X-RAY DIFFRACTION 44 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 209 209 3hzs-a1-m1-cA_3hzs-a1-m2-cA 3hzs-a1-m1-cA_3hzs-a1-m3-cA NLYFQGHMDNVDELRKIENKSSFVSADNMPEYVKGAFISMQDERFYNHHGFDLKGTTRALFSTISDRDVQGGSTITQQVVKNYFYDNDRSFTRKVKELFVAHRVEKQYNKNEILSFYLNNIYFGDNQYTLEGAANHYFGTTVNKNSTTMSHITVLQSAILASKVNAPSVYNINNMSENFTQRVSTNLEKMKQQNYINETQYQQAMSQLN NLYFQGHMDNVDELRKIENKSSFVSADNMPEYVKGAFISMQDERFYNHHGFDLKGTTRALFSTISDRDVQGGSTITQQVVKNYFYDNDRSFTRKVKELFVAHRVEKQYNKNEILSFYLNNIYFGDNQYTLEGAANHYFGTTVNKNSTTMSHITVLQSAILASKVNAPSVYNINNMSENFTQRVSTNLEKMKQQNYINETQYQQAMSQLN 3hzu-a1-m1-cA_3hzu-a1-m2-cA Crystal structure of probable thiosulfate sulfurtransferase SSEA (rhodanese) from Mycobacterium tuberculosis P9WHF7 P9WHF7 2.1 X-RAY DIFFRACTION 80 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 292 292 LPADPSPTLSAYAHPERLVTADWLSAHMGAPGLAIVESDEDVLLYDVGHIPGAVKIDWHTDLNDPRVRDYINGEQFAELMDRKGIARDDTVVIYGDKSNWWAAYALWVFTLFGHADVRLLNGGRDLWLAERRETTLDVPTKTCTGYPVVQRNDAPIRAFRDDVLAILGAQPLIDVRSPEEYTGKRTHMPDYPEEGALRAGHIPTAVHIPWGKAADESGRFRSREELERLYDFINPDDQTVVYCRIGERSSHTWFVLTHLLGKADVRNYDGSWTEWGNAVRVPIVAGEEPGVV LPADPSPTLSAYAHPERLVTADWLSAHMGAPGLAIVESDEDVLLYDVGHIPGAVKIDWHTDLNDPRVRDYINGEQFAELMDRKGIARDDTVVIYGDKSNWWAAYALWVFTLFGHADVRLLNGGRDLWLAERRETTLDVPTKTCTGYPVVQRNDAPIRAFRDDVLAILGAQPLIDVRSPEEYTGKRTHMPDYPEEGALRAGHIPTAVHIPWGKAADESGRFRSREELERLYDFINPDDQTVVYCRIGERSSHTWFVLTHLLGKADVRNYDGSWTEWGNAVRVPIVAGEEPGVV 3hzz-a5-m1-cA_3hzz-a5-m1-cD 2.4 Angstrom Crystal Structure of Streptomyces collinus crotonyl CoA carboxylase/reductase Q53865 Q53865 2.4 X-RAY DIFFRACTION 89 1.0 42684 (Streptomyces collinus) 42684 (Streptomyces collinus) 446 447 3hzz-a3-m1-cA_3hzz-a3-m1-cD 3hzz-a4-m1-cB_3hzz-a4-m1-cC 3hzz-a5-m1-cB_3hzz-a5-m1-cC 3krt-a1-m1-cA_3krt-a1-m1-cB 3krt-a1-m1-cC_3krt-a1-m1-cD TVKDILDAIQSKDATSADFAALQLPESYRAITVHKDETEMFAGLETRDKDPRKSIHLDEVPVPELGPGEALVAVMASSVNYNSVWTSIFEPVSTFAFLERYGKLSPLTKRHDLPYHIIGSDLAGVVLRTGPGVNAWQPGDEVVAHCLSVELESPDGHDDTMLDPEQRIWGFETNFGGLAEIALVKTNQLMPKPKHLTWEEAAAPGLVNSTAYRQLVSRNGAAMKQGDNVLIWGASGGLGSYATQFALAGGANPICVVSSPQKAEICRSMGAEAIIDRNAEGYKFWKDEHTQDPKEWKRFGKRIRELTGGEDIDIVFEHPGRETFGASVYVTRKGGTITTCASTSGYMHEYDNRYLWMSLKRIIGSHFANYREAYEANRLIAKGKIHPTLSKTYSLEETGQAAYDVHRNLHQGKVGVLCLAPEEGLGVRDAEMRAQHIDAINRFRNV MTVKDILDAIQSKDATSADFAALQLPESYRAITVHKDETEMFAGLETRDKDPRKSIHLDEVPVPELGPGEALVAVMASSVNYNSVWTSIFEPVSTFAFLERYGKLSPLTKRHDLPYHIIGSDLAGVVLRTGPGVNAWQPGDEVVAHCLSVELESPDGHDDTMLDPEQRIWGFETNFGGLAEIALVKTNQLMPKPKHLTWEEAAAPGLVNSTAYRQLVSRNGAAMKQGDNVLIWGASGGLGSYATQFALAGGANPICVVSSPQKAEICRSMGAEAIIDRNAEGYKFWKDEHTQDPKEWKRFGKRIRELTGGEDIDIVFEHPGRETFGASVYVTRKGGTITTCASTSGYMHEYDNRYLWMSLKRIIGSHFANYREAYEANRLIAKGKIHPTLSKTYSLEETGQAAYDVHRNLHQGKVGVLCLAPEEGLGVRDAEMRAQHIDAINRFRNV 3hzz-a5-m1-cB_3hzz-a5-m1-cD 2.4 Angstrom Crystal Structure of Streptomyces collinus crotonyl CoA carboxylase/reductase Q53865 Q53865 2.4 X-RAY DIFFRACTION 50 1.0 42684 (Streptomyces collinus) 42684 (Streptomyces collinus) 447 447 3hzz-a5-m1-cA_3hzz-a5-m1-cC 3krt-a1-m1-cC_3krt-a1-m1-cA 3krt-a1-m1-cD_3krt-a1-m1-cB MTVKDILDAIQSKDATSADFAALQLPESYRAITVHKDETEMFAGLETRDKDPRKSIHLDEVPVPELGPGEALVAVMASSVNYNSVWTSIFEPVSTFAFLERYGKLSPLTKRHDLPYHIIGSDLAGVVLRTGPGVNAWQPGDEVVAHCLSVELESPDGHDDTMLDPEQRIWGFETNFGGLAEIALVKTNQLMPKPKHLTWEEAAAPGLVNSTAYRQLVSRNGAAMKQGDNVLIWGASGGLGSYATQFALAGGANPICVVSSPQKAEICRSMGAEAIIDRNAEGYKFWKDEHTQDPKEWKRFGKRIRELTGGEDIDIVFEHPGRETFGASVYVTRKGGTITTCASTSGYMHEYDNRYLWMSLKRIIGSHFANYREAYEANRLIAKGKIHPTLSKTYSLEETGQAAYDVHRNLHQGKVGVLCLAPEEGLGVRDAEMRAQHIDAINRFRNV MTVKDILDAIQSKDATSADFAALQLPESYRAITVHKDETEMFAGLETRDKDPRKSIHLDEVPVPELGPGEALVAVMASSVNYNSVWTSIFEPVSTFAFLERYGKLSPLTKRHDLPYHIIGSDLAGVVLRTGPGVNAWQPGDEVVAHCLSVELESPDGHDDTMLDPEQRIWGFETNFGGLAEIALVKTNQLMPKPKHLTWEEAAAPGLVNSTAYRQLVSRNGAAMKQGDNVLIWGASGGLGSYATQFALAGGANPICVVSSPQKAEICRSMGAEAIIDRNAEGYKFWKDEHTQDPKEWKRFGKRIRELTGGEDIDIVFEHPGRETFGASVYVTRKGGTITTCASTSGYMHEYDNRYLWMSLKRIIGSHFANYREAYEANRLIAKGKIHPTLSKTYSLEETGQAAYDVHRNLHQGKVGVLCLAPEEGLGVRDAEMRAQHIDAINRFRNV 3hzz-a5-m1-cC_3hzz-a5-m1-cD 2.4 Angstrom Crystal Structure of Streptomyces collinus crotonyl CoA carboxylase/reductase Q53865 Q53865 2.4 X-RAY DIFFRACTION 95 1.0 42684 (Streptomyces collinus) 42684 (Streptomyces collinus) 447 447 3hzz-a1-m1-cC_3hzz-a1-m1-cD 3hzz-a2-m1-cA_3hzz-a2-m1-cB 3hzz-a5-m1-cA_3hzz-a5-m1-cB 3krt-a1-m1-cC_3krt-a1-m1-cB 3krt-a1-m1-cD_3krt-a1-m1-cA MTVKDILDAIQSKDATSADFAALQLPESYRAITVHKDETEMFAGLETRDKDPRKSIHLDEVPVPELGPGEALVAVMASSVNYNSVWTSIFEPVSTFAFLERYGKLSPLTKRHDLPYHIIGSDLAGVVLRTGPGVNAWQPGDEVVAHCLSVELESPDGHDDTMLDPEQRIWGFETNFGGLAEIALVKTNQLMPKPKHLTWEEAAAPGLVNSTAYRQLVSRNGAAMKQGDNVLIWGASGGLGSYATQFALAGGANPICVVSSPQKAEICRSMGAEAIIDRNAEGYKFWKDEHTQDPKEWKRFGKRIRELTGGEDIDIVFEHPGRETFGASVYVTRKGGTITTCASTSGYMHEYDNRYLWMSLKRIIGSHFANYREAYEANRLIAKGKIHPTLSKTYSLEETGQAAYDVHRNLHQGKVGVLCLAPEEGLGVRDAEMRAQHIDAINRFRNV MTVKDILDAIQSKDATSADFAALQLPESYRAITVHKDETEMFAGLETRDKDPRKSIHLDEVPVPELGPGEALVAVMASSVNYNSVWTSIFEPVSTFAFLERYGKLSPLTKRHDLPYHIIGSDLAGVVLRTGPGVNAWQPGDEVVAHCLSVELESPDGHDDTMLDPEQRIWGFETNFGGLAEIALVKTNQLMPKPKHLTWEEAAAPGLVNSTAYRQLVSRNGAAMKQGDNVLIWGASGGLGSYATQFALAGGANPICVVSSPQKAEICRSMGAEAIIDRNAEGYKFWKDEHTQDPKEWKRFGKRIRELTGGEDIDIVFEHPGRETFGASVYVTRKGGTITTCASTSGYMHEYDNRYLWMSLKRIIGSHFANYREAYEANRLIAKGKIHPTLSKTYSLEETGQAAYDVHRNLHQGKVGVLCLAPEEGLGVRDAEMRAQHIDAINRFRNV 3i00-a1-m1-cA_3i00-a1-m2-cB Crystal Structure of the huntingtin interacting protein 1 coiled coil domain O00291 O00291 2.3 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 80 KDEKDHLIERLYREISGLKAQLENMKTESQRVVLQLKGHVSELEADLAEQQHLRQQAADDCEFLRAELDELRRQRE GVNKDEKDHLIERLYREISGLKAQLENMKTESQRVVLQLKGHVSELEADLAEQQHLRQQAADDCEFLRAELDELRRQRED 3i05-a1-m1-cA_3i05-a1-m1-cB Tryptophanyl-tRNA synthetase from Trypanosoma brucei Q580R7 Q580R7 2.8 X-RAY DIFFRACTION 112 0.991 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 328 331 NYDKLIKDFGSHAIDEALLERIERVLGKKPHHFLRRGIFFSHRDLNLLLDVYESGQPFYLYTGRGPSSESMHMGHLIPFMFTKWLQDSFRVPLVIQMTDDEKFYFRNIPMEQVEAMTTENIKDIIAMGFDPELTFIFRDFDYMGCMYRTVAKIERAFTASQVRGCFGFAMEDNCGRWMFPAIQAAPSFSAAFPHIFPPSMGNVFCLIPQAIDQDPYFRLTRDIAPRLGYLKPAVIHSKFFPGLAVLLTDTEKMVKDKINVDVPIQWLSFFLEDDEELARVKKMTGEVKKLLINTITAITKTHQEKRKLVTDEDVQLFTSTRIMGPAKK NYDKLIKDFGSHAIDEALLERIERVLGKKPHHFLRRGIFFSHRDLNLLLDVYESGQPFYLYTGRGPSSESMHMGHLIPFMFTKWLQDSFRVPLVIQMTDDEKFYFRNIPMEQVEAMTTENIKDIIAMGFDPELTFIFRDFDYMGCMYRTVAKIERAFTASQVRGCFGFAMEDNCGRWMFPAIQAAPSFSAAFPHIFPPSMGNVFCLIPQAIDQDPYFRLTRDIAPRLGYLKPAVIHSKFFPGLSAVLLTDTEKMVKDKINKPIQWLSFFLEDDEELARVKKEGRIMTGEVKKLLINTITAITKTHQEKRKLVTDEDVQLFTSTRIMGPAKK 3i07-a1-m1-cA_3i07-a1-m1-cB Crystal structure of a putative organic hydroperoxide resistance protein from Vibrio cholerae O1 biovar eltor str. N16961 Q9KKU4 Q9KKU4 1.5 X-RAY DIFFRACTION 349 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 145 148 3eer-a1-m1-cA_3eer-a1-m2-cA 3lus-a1-m1-cA_3lus-a1-m1-cB MRNKNMSTIYQTSATASAGRNGVVSTEDKLLELNLSYPKEMGGSGTATNPEQLFAVGYAACFSNAILHVAREAKVALKEAPVTATVGIGPNGQGGFALSVALAAHIALEDEQARQLVTVAHQVCPYSNAVRGNIDVQVSVNGLAL SNAMRNKNMSTIYQTSATASAGRNGVVSTEDKLLELNLSYPKEMGGSGTATNPEQLFAVGYAACFSNAILHVAREAKVALKEAPVTATVGIGPNGQGGFALSVALAAHIALEDEQARQLVTVAHQVCPYSNAVRGNIDVQVSVNGLAL 3i0o-a2-m1-cA_3i0o-a2-m2-cA Crystal Structure of Spectinomycin Phosphotransferase, APH(9)-Ia, in complex with ADP and Spectinomcyin O06916 O06916 2.4 X-RAY DIFFRACTION 44 1.0 66976 (Legionella pneumophila serogroup 1) 66976 (Legionella pneumophila serogroup 1) 329 329 3q2m-a2-m1-cA_3q2m-a2-m2-cA QPIQAQQLIELLKVHYGIDIHTAQFIQGGADTNAFAYQADSESKSYFIKLKYGYHDEINLSIIRLLHDSGIKEIIFPIHTLEAKLFQQLKHFKIIAYPFIHAPNGFTQNLTGKQWKQLGKVLRQIHETSVPISIQQQLRKEIYSPKWREIVRSFYNQIEFDNSDDKLTAAFKSFFNQNSAAIHRLVDTSEKLSKKIQPDLDKYVLCHSDIHAGNVLVGNEESIYIIDWDEPMLAPKERDLMFIGGGVGNVWNKPHEIQYFYEGYGEINVDKTILSYYRHERIVEDIAVYGQDLLSRNQNNQSRLESFKYFKEMFDPNNVVEIAFATEQL QPIQAQQLIELLKVHYGIDIHTAQFIQGGADTNAFAYQADSESKSYFIKLKYGYHDEINLSIIRLLHDSGIKEIIFPIHTLEAKLFQQLKHFKIIAYPFIHAPNGFTQNLTGKQWKQLGKVLRQIHETSVPISIQQQLRKEIYSPKWREIVRSFYNQIEFDNSDDKLTAAFKSFFNQNSAAIHRLVDTSEKLSKKIQPDLDKYVLCHSDIHAGNVLVGNEESIYIIDWDEPMLAPKERDLMFIGGGVGNVWNKPHEIQYFYEGYGEINVDKTILSYYRHERIVEDIAVYGQDLLSRNQNNQSRLESFKYFKEMFDPNNVVEIAFATEQL 3i0p-a1-m1-cA_3i0p-a1-m2-cA Crystal structure of malate dehydrogenase from Entamoeba histolytica C4M213 C4M213 2.6 X-RAY DIFFRACTION 249 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 361 361 QTKNVSIDTIKEFMYQVLLKVGSDEENARMVRDTLIAADLRGMDTHGIQRFKTVYIDRIKKGMINPTAKPSIIRETSTTCVLDGNNGFGHVNGTIGMKMAIEKAKKYGMGMVVVRNSTHFGIAGYYSLLAAQEGCIGICGTNARSSVAATFGDEPILGTNPLAIGIPSDEAFPYCFDGATSISPTGRFEKYVRMGKTVDKSWASMKGGKPIEDPKELLENYPKGKAYLHPLGGSDEVSGSHKGYCLSEFVEIMSSCLSIANFLNHIEEEKEKSGKFSLGHFFIAINVECFRDLNEFKKNVGDINRTLRNTDKLPGHDRIYTAGEKEYETEQKRRKFGDDLPLVTINEMKELSSFYNVPLPF QTKNVSIDTIKEFMYQVLLKVGSDEENARMVRDTLIAADLRGMDTHGIQRFKTVYIDRIKKGMINPTAKPSIIRETSTTCVLDGNNGFGHVNGTIGMKMAIEKAKKYGMGMVVVRNSTHFGIAGYYSLLAAQEGCIGICGTNARSSVAATFGDEPILGTNPLAIGIPSDEAFPYCFDGATSISPTGRFEKYVRMGKTVDKSWASMKGGKPIEDPKELLENYPKGKAYLHPLGGSDEVSGSHKGYCLSEFVEIMSSCLSIANFLNHIEEEKEKSGKFSLGHFFIAINVECFRDLNEFKKNVGDINRTLRNTDKLPGHDRIYTAGEKEYETEQKRRKFGDDLPLVTINEMKELSSFYNVPLPF 3i0s-a2-m1-cA_3i0s-a2-m2-cA crystal structure of HIV reverse transcriptase in complex with inhibitor 7 P04585 P04585 2.7 X-RAY DIFFRACTION 88 1.0 11706 (HIV-1 M:B_HXB2R) 11706 (HIV-1 M:B_HXB2R) 558 558 1eet-a2-m1-cA_1eet-a2-m2-cA 1ikv-a2-m1-cA_1ikv-a2-m2-cA 1ikw-a2-m1-cA_1ikw-a2-m2-cA 1ikx-a2-m1-cA_1ikx-a2-m2-cA 1iky-a2-m1-cA_1iky-a2-m2-cA 3di6-a1-m1-cA_3di6-a1-m2-cA 3ffi-a2-m1-cA_3ffi-a2-m2-cA 3i0r-a2-m1-cA_3i0r-a2-m2-cA 3lp0-a2-m1-cA_3lp0-a2-m2-cA 3lp1-a2-m1-cA_3lp1-a2-m2-cA 3lp2-a2-m1-cA_3lp2-a2-m2-cA 3qip-a2-m1-cA_3qip-a2-m2-cA 3t19-a2-m1-cA_3t19-a2-m2-cA 3t1a-a2-m1-cA_3t1a-a2-m2-cA 4i7f-a2-m1-cA_4i7f-a2-m2-cA 4ncg-a1-m1-cA_4ncg-a1-m2-cA 5vz6-a2-m1-cA_5vz6-a2-m2-cA SPISPIETVPVKLKPGMDGPKVKQWPLTEEKIKALVEICTEMEKEGKISKIGPENPYNTPVFAIKKKDSTKWRKLVDFRELNKRTQDFWEVQLGIPHPAGLKKKKSVTVLDVGDAYFSVPLDEDFRKYTAFTIPSINNETPGIRYQYNVLPQGWKGSPAIFQSSMTKILEPFRKQNPDIVIYQYMDDLYVGSDLEIGQHRTKIEELRQHLLRWGLTTPDKKHQKEPPFLWMGYELHPDKWTVQPIVLPEKDSWTVNDIQKLVGKLNWASQIYPGIKVRQLCKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYDPSKDLIAEIQKQGQGQWTYQIYQEPFKNLKTGKYARMRGAHTNDVKQLTEAVQKITTESIVIWGKTPKFKLPIQKETWETWWTEYWQATWIPEWEFVNTPPLVKLWYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPAHKGIGGNEQVDKLVSAGIR SPISPIETVPVKLKPGMDGPKVKQWPLTEEKIKALVEICTEMEKEGKISKIGPENPYNTPVFAIKKKDSTKWRKLVDFRELNKRTQDFWEVQLGIPHPAGLKKKKSVTVLDVGDAYFSVPLDEDFRKYTAFTIPSINNETPGIRYQYNVLPQGWKGSPAIFQSSMTKILEPFRKQNPDIVIYQYMDDLYVGSDLEIGQHRTKIEELRQHLLRWGLTTPDKKHQKEPPFLWMGYELHPDKWTVQPIVLPEKDSWTVNDIQKLVGKLNWASQIYPGIKVRQLCKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYDPSKDLIAEIQKQGQGQWTYQIYQEPFKNLKTGKYARMRGAHTNDVKQLTEAVQKITTESIVIWGKTPKFKLPIQKETWETWWTEYWQATWIPEWEFVNTPPLVKLWYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPAHKGIGGNEQVDKLVSAGIR 3i0s-a2-m2-cB_3i0s-a2-m1-cA crystal structure of HIV reverse transcriptase in complex with inhibitor 7 P04585 P04585 2.7 X-RAY DIFFRACTION 11 1.0 11706 (HIV-1 M:B_HXB2R) 11706 (HIV-1 M:B_HXB2R) 405 558 1ikx-a2-m1-cB_1ikx-a2-m2-cA 1ikx-a2-m2-cB_1ikx-a2-m1-cA 1iky-a2-m1-cB_1iky-a2-m2-cA 1iky-a2-m2-cB_1iky-a2-m1-cA 3di6-a1-m1-cB_3di6-a1-m2-cA 3di6-a1-m2-cB_3di6-a1-m1-cA 3ffi-a2-m1-cB_3ffi-a2-m2-cA 3ffi-a2-m2-cB_3ffi-a2-m1-cA 3i0s-a2-m1-cB_3i0s-a2-m2-cA 3lp0-a2-m1-cB_3lp0-a2-m2-cA 3lp0-a2-m2-cB_3lp0-a2-m1-cA 3lp2-a2-m1-cB_3lp2-a2-m2-cA 3lp2-a2-m2-cB_3lp2-a2-m1-cA 3qip-a2-m1-cB_3qip-a2-m2-cA 3qip-a2-m2-cB_3qip-a2-m1-cA 3t19-a2-m1-cB_3t19-a2-m2-cA 3t19-a2-m2-cB_3t19-a2-m1-cA 3t1a-a2-m1-cB_3t1a-a2-m2-cA 3t1a-a2-m2-cB_3t1a-a2-m1-cA 4i7f-a2-m1-cB_4i7f-a2-m2-cA 4i7f-a2-m2-cB_4i7f-a2-m1-cA 4ncg-a1-m1-cB_4ncg-a1-m2-cA 4ncg-a1-m2-cB_4ncg-a1-m1-cA 5vz6-a2-m1-cB_5vz6-a2-m2-cA 5vz6-a2-m2-cB_5vz6-a2-m1-cA IETVPVKLKPGMDGPKVKQWPLTEEKIKALVEICTEMEKEGKISKIGPENPYNTPVFAIKKKDSTKWRKLVDFRELNKRTQDFWEVQLGIPHPAGLKKKKSVTVLDVGDAYFSVPLDEDFRKYTAFTIPSINNETPGIRYQYNVLPQGWKGSPAIFQSSMTKILEPFRKQNPDIVIYQYMDDLYVGSDLEIGQHRTKIEELRQHLLRWGLTGYELHPDKWTVQPIVLPEKDSWTVNDIQKLVGKLNWASQIYPGIKVRQLCKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYDPSKDLIAEIQKQGQGQWTYQIYQEPFKNLKTGKYARHTNDVKQLTEAVQKITTESIVIWGKTPKFKLPIQKETWETWWTEYWQATWIPEWEFVNTPPLVKLWYQ SPISPIETVPVKLKPGMDGPKVKQWPLTEEKIKALVEICTEMEKEGKISKIGPENPYNTPVFAIKKKDSTKWRKLVDFRELNKRTQDFWEVQLGIPHPAGLKKKKSVTVLDVGDAYFSVPLDEDFRKYTAFTIPSINNETPGIRYQYNVLPQGWKGSPAIFQSSMTKILEPFRKQNPDIVIYQYMDDLYVGSDLEIGQHRTKIEELRQHLLRWGLTTPDKKHQKEPPFLWMGYELHPDKWTVQPIVLPEKDSWTVNDIQKLVGKLNWASQIYPGIKVRQLCKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYDPSKDLIAEIQKQGQGQWTYQIYQEPFKNLKTGKYARMRGAHTNDVKQLTEAVQKITTESIVIWGKTPKFKLPIQKETWETWWTEYWQATWIPEWEFVNTPPLVKLWYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPAHKGIGGNEQVDKLVSAGIR 3i0y-a2-m1-cC_3i0y-a2-m1-cD Crystal structure of a putative polyketide cyclase (xcc0381) from xanthomonas campestris pv. campestris at 1.50 A resolution Q8PDF7 Q8PDF7 1.5 X-RAY DIFFRACTION 53 0.993 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 134 134 3i0y-a1-m1-cB_3i0y-a1-m1-cA ESNRQRATGLVQAYYEAFNRGDWDALAFLAEDVAHDLNQGPREIGRAAFASFLQRNDSYREQLRDIVVTANDEGTRVGAEYVVHGVYHTTDEGLPDANGQTYVLPGGAFFDVRDGQITRVTNYYNLQEWIAQVS SNRQRATGLVQAYYEAFNRGDWDALAFLAEDVAHDLNQGPREIGRAAFASFLQRNDSYREQLRDIVVTANDEGTRVGAEYVVHGVYHTTDEGLPDANGQTYVLPGGAFFDVRDGQITRVTNYYNLQEWIAQVSR 3i0z-a1-m1-cA_3i0z-a1-m1-cB Crystal structure of putative putative tagatose-6-phosphate ketose/aldose isomerase (NP_344614.1) from STREPTOCOCCUS PNEUMONIAE TIGR4 at 1.70 A resolution A0A0H2UN25 A0A0H2UN25 1.7 X-RAY DIFFRACTION 192 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 383 383 GLHYTKEDLLELGAEITTREIYQQPDVWREAFEFYQAKREEIAAFLQEIADKHDYIKVILTGAGTSAYVGDTLLPYFKEVYDERKWNFNAIATTDIVANPATYLKKDVATVLVSFARSGNSPESLATVDLAKSLVDELYQVTITCAADGKLALQAHGDDRNLLLLQPAVSNDAGFATSSFTSLTTLLVFDPTEFAVKSERFEVVSSLARKVLDKAEDVKELVDLDFNRVIYLGAGPFFGLAHEAQLKILELTAGQVATYESPVGFRHGPKSLINDNTVVLVFGTTTDYTRKYDLDLVREVAGDQIARRVVLLSDQAFGLENVKEVALGCGGVLNDIYRVFPYIVYAQLFALLTSLKVENKPDTPSPTGTVNRVVQGVIIHEYQ GLHYTKEDLLELGAEITTREIYQQPDVWREAFEFYQAKREEIAAFLQEIADKHDYIKVILTGAGTSAYVGDTLLPYFKEVYDERKWNFNAIATTDIVANPATYLKKDVATVLVSFARSGNSPESLATVDLAKSLVDELYQVTITCAADGKLALQAHGDDRNLLLLQPAVSNDAGFATSSFTSLTTLLVFDPTEFAVKSERFEVVSSLARKVLDKAEDVKELVDLDFNRVIYLGAGPFFGLAHEAQLKILELTAGQVATYESPVGFRHGPKSLINDNTVVLVFGTTTDYTRKYDLDLVREVAGDQIARRVVLLSDQAFGLENVKEVALGCGGVLNDIYRVFPYIVYAQLFALLTSLKVENKPDTPSPTGTVNRVVQGVIIHEYQ 3i12-a2-m1-cC_3i12-a2-m1-cD The crystal structure of the D-alanyl-alanine synthetase A from Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 P0A1F0 P0A1F0 2.2 X-RAY DIFFRACTION 170 0.994 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 348 355 3i12-a1-m1-cB_3i12-a1-m1-cA 3q1k-a1-m1-cB_3q1k-a1-m1-cA 3q1k-a2-m1-cC_3q1k-a2-m1-cD AKLRVGIVFGGKSAEHEVSLQSAKNIVDAIDKTRFDVVLLGIDKAGQWHVNDAENYLQNADDPAHIALRPSAISLAQVPGKHQHQLINAQNGQPLPTVDVIFPIVHGTLGEDGSLQGMLRVANLPFVGSDVLSSAACMDKDVAKRLLRDAGLNIAPFITLTRTNRHAFSFAEVESRLGLPLFVKPANQGSSVGVSKVANEAQYQQAVALAFEFDHKVVVEQGIKGREIECAVLGNDNPQASTCGEIVLGAQVVVPAQIPSEVNDKIRAIAIQAYQTLGCAGMARVDVFLTADNEVVINEINTLPGFTNISMYPKLWQASGLGYTDLISRLIELALERHTANNALKTTM KLRVGIVFGGKSAEHEVSLQSAKNIVDAIDKTRFDVVLLGIDKAGQWHVNDAENYLQNADDPAHIALRPSAISLAQVPGKHQHQLINAQNGQPLPTVDVIFPIVHGTLGEDGSLQGMLRVANLPFVGSDVLSSAACMDKDVAKRLLRDAGLNIAPFITLTRTNRHAFSFAEVESRLGLPLFVKPANQGSSVGVSKVANEAQYQQAVALAFEFDHKVVVEQGIKGREIECAVLGNDNPQASTCGEIVLNSEFYIDDNGAQVVVPAQIPSEVNDKIRAIAIQAYQTLGCAGMARVDVFLTADNEVVINEINTLPGFTNISMYPKLWQASGLGYTDLISRLIELALERHTANNALKTT 3i16-a1-m1-cB_3i16-a1-m1-cC Crystal structure of carbon-sulfur lyase involved in aluminum resistance (YP_878183.1) from Clostridium novyi NT at 2.00 A resolution A0Q0N1 A0Q0N1 2 X-RAY DIFFRACTION 165 1.0 386415 (Clostridium novyi NT) 386415 (Clostridium novyi NT) 416 416 3gwp-a1-m1-cB_3gwp-a1-m1-cD 3gwp-a1-m1-cC_3gwp-a1-m1-cA 3i16-a1-m1-cA_3i16-a1-m1-cD GLESTKQFLKKYNINDRVLKLYETANDIQNQFKILDDIREFNQLKVLNAFQEERISEAHFTNSSGYGYGDIGRDSLDAVYARVFNTESALVRPHFVNGTHALGAALFGNLRPGNTLSVCGEPYDTLHDVIGITENSNGSLKEFGINYKQVDLKEDGKPNLEEIEKVLKEDESITLVHIQRSTGYGWRRALLIEDIKSIVDCVKNIRKDIICFVDNCYGEFDTKEPTDVGADLIAGSLIKNIGGGIAPTGGYLAGTKDCIEKTSYRLTVPGIGGECGSTFGVVRSYQGLFLAPHISEALKGAILCSRIELAGFEVPKYDEKRSDIIQSIKFNDKDKLIEFCKGIQTGSPIDSFVSCEPWDPGYTDQVIAAGAFIQGSSIELSADAPIREPYIAYLQGGLTFDHAKIGILIALSRIVK GLESTKQFLKKYNINDRVLKLYETANDIQNQFKILDDIREFNQLKVLNAFQEERISEAHFTNSSGYGYGDIGRDSLDAVYARVFNTESALVRPHFVNGTHALGAALFGNLRPGNTLSVCGEPYDTLHDVIGITENSNGSLKEFGINYKQVDLKEDGKPNLEEIEKVLKEDESITLVHIQRSTGYGWRRALLIEDIKSIVDCVKNIRKDIICFVDNCYGEFDTKEPTDVGADLIAGSLIKNIGGGIAPTGGYLAGTKDCIEKTSYRLTVPGIGGECGSTFGVVRSYQGLFLAPHISEALKGAILCSRIELAGFEVPKYDEKRSDIIQSIKFNDKDKLIEFCKGIQTGSPIDSFVSCEPWDPGYTDQVIAAGAFIQGSSIELSADAPIREPYIAYLQGGLTFDHAKIGILIALSRIVK 3i16-a1-m1-cB_3i16-a1-m1-cD Crystal structure of carbon-sulfur lyase involved in aluminum resistance (YP_878183.1) from Clostridium novyi NT at 2.00 A resolution A0Q0N1 A0Q0N1 2 X-RAY DIFFRACTION 15 1.0 386415 (Clostridium novyi NT) 386415 (Clostridium novyi NT) 416 416 3gwp-a1-m1-cA_3gwp-a1-m1-cD 3gwp-a1-m1-cC_3gwp-a1-m1-cB 3i16-a1-m1-cA_3i16-a1-m1-cC GLESTKQFLKKYNINDRVLKLYETANDIQNQFKILDDIREFNQLKVLNAFQEERISEAHFTNSSGYGYGDIGRDSLDAVYARVFNTESALVRPHFVNGTHALGAALFGNLRPGNTLSVCGEPYDTLHDVIGITENSNGSLKEFGINYKQVDLKEDGKPNLEEIEKVLKEDESITLVHIQRSTGYGWRRALLIEDIKSIVDCVKNIRKDIICFVDNCYGEFDTKEPTDVGADLIAGSLIKNIGGGIAPTGGYLAGTKDCIEKTSYRLTVPGIGGECGSTFGVVRSYQGLFLAPHISEALKGAILCSRIELAGFEVPKYDEKRSDIIQSIKFNDKDKLIEFCKGIQTGSPIDSFVSCEPWDPGYTDQVIAAGAFIQGSSIELSADAPIREPYIAYLQGGLTFDHAKIGILIALSRIVK GLESTKQFLKKYNINDRVLKLYETANDIQNQFKILDDIREFNQLKVLNAFQEERISEAHFTNSSGYGYGDIGRDSLDAVYARVFNTESALVRPHFVNGTHALGAALFGNLRPGNTLSVCGEPYDTLHDVIGITENSNGSLKEFGINYKQVDLKEDGKPNLEEIEKVLKEDESITLVHIQRSTGYGWRRALLIEDIKSIVDCVKNIRKDIICFVDNCYGEFDTKEPTDVGADLIAGSLIKNIGGGIAPTGGYLAGTKDCIEKTSYRLTVPGIGGECGSTFGVVRSYQGLFLAPHISEALKGAILCSRIELAGFEVPKYDEKRSDIIQSIKFNDKDKLIEFCKGIQTGSPIDSFVSCEPWDPGYTDQVIAAGAFIQGSSIELSADAPIREPYIAYLQGGLTFDHAKIGILIALSRIVK 3i16-a1-m1-cC_3i16-a1-m1-cD Crystal structure of carbon-sulfur lyase involved in aluminum resistance (YP_878183.1) from Clostridium novyi NT at 2.00 A resolution A0Q0N1 A0Q0N1 2 X-RAY DIFFRACTION 142 1.0 386415 (Clostridium novyi NT) 386415 (Clostridium novyi NT) 416 416 3gwp-a1-m1-cA_3gwp-a1-m1-cB 3gwp-a1-m1-cC_3gwp-a1-m1-cD 3i16-a1-m1-cA_3i16-a1-m1-cB GLESTKQFLKKYNINDRVLKLYETANDIQNQFKILDDIREFNQLKVLNAFQEERISEAHFTNSSGYGYGDIGRDSLDAVYARVFNTESALVRPHFVNGTHALGAALFGNLRPGNTLSVCGEPYDTLHDVIGITENSNGSLKEFGINYKQVDLKEDGKPNLEEIEKVLKEDESITLVHIQRSTGYGWRRALLIEDIKSIVDCVKNIRKDIICFVDNCYGEFDTKEPTDVGADLIAGSLIKNIGGGIAPTGGYLAGTKDCIEKTSYRLTVPGIGGECGSTFGVVRSYQGLFLAPHISEALKGAILCSRIELAGFEVPKYDEKRSDIIQSIKFNDKDKLIEFCKGIQTGSPIDSFVSCEPWDPGYTDQVIAAGAFIQGSSIELSADAPIREPYIAYLQGGLTFDHAKIGILIALSRIVK GLESTKQFLKKYNINDRVLKLYETANDIQNQFKILDDIREFNQLKVLNAFQEERISEAHFTNSSGYGYGDIGRDSLDAVYARVFNTESALVRPHFVNGTHALGAALFGNLRPGNTLSVCGEPYDTLHDVIGITENSNGSLKEFGINYKQVDLKEDGKPNLEEIEKVLKEDESITLVHIQRSTGYGWRRALLIEDIKSIVDCVKNIRKDIICFVDNCYGEFDTKEPTDVGADLIAGSLIKNIGGGIAPTGGYLAGTKDCIEKTSYRLTVPGIGGECGSTFGVVRSYQGLFLAPHISEALKGAILCSRIELAGFEVPKYDEKRSDIIQSIKFNDKDKLIEFCKGIQTGSPIDSFVSCEPWDPGYTDQVIAAGAFIQGSSIELSADAPIREPYIAYLQGGLTFDHAKIGILIALSRIVK 3i1i-a2-m1-cB_3i1i-a2-m3-cB X-ray crystal structure of homoserine O-acetyltransferase from Bacillus anthracis A0A6L7HCR9 A0A6L7HCR9 2.44 X-RAY DIFFRACTION 134 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 355 355 3i1i-a1-m1-cA_3i1i-a1-m2-cA QIVKKEKFILKEYTFENGRTIPVQGYETYGTLNRERSNVILICHYFSATSHAAGKYTAHDEESGWWDGLIGPGKAIDTNQYFVICTDNLCNVQVKNPHVITTGPKSINPKTGDEYADFPVFTFLDVARQCELIKDGIARLHAVGPSAGGIAQQWAVHYPHVERIGVITNPQNPIITSVNVAQNAIEAIRLDPSWKGGKYGEEQPKGLQLANRFNAFDEHFYETTYPRNSIEVEPYEKVSSLTSFEKEINKLTYRSIELVDANSWYTAKAVLLHDIAHGFSSLEEALSNVEANVLIPCKQDLLQPSRYNYKVDLLQKQGKYAEVYEIESINGHAGVFDIHLFEKKVYEFLNRKVSS QIVKKEKFILKEYTFENGRTIPVQGYETYGTLNRERSNVILICHYFSATSHAAGKYTAHDEESGWWDGLIGPGKAIDTNQYFVICTDNLCNVQVKNPHVITTGPKSINPKTGDEYADFPVFTFLDVARQCELIKDGIARLHAVGPSAGGIAQQWAVHYPHVERIGVITNPQNPIITSVNVAQNAIEAIRLDPSWKGGKYGEEQPKGLQLANRFNAFDEHFYETTYPRNSIEVEPYEKVSSLTSFEKEINKLTYRSIELVDANSWYTAKAVLLHDIAHGFSSLEEALSNVEANVLIPCKQDLLQPSRYNYKVDLLQKQGKYAEVYEIESINGHAGVFDIHLFEKKVYEFLNRKVSS 3i1i-a2-m3-cB_3i1i-a2-m3-cA X-ray crystal structure of homoserine O-acetyltransferase from Bacillus anthracis A0A6L7HCR9 A0A6L7HCR9 2.44 X-RAY DIFFRACTION 25 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 355 356 3i1i-a1-m1-cB_3i1i-a1-m1-cA 3i1i-a1-m2-cB_3i1i-a1-m2-cA 3i1i-a2-m1-cB_3i1i-a2-m1-cA QIVKKEKFILKEYTFENGRTIPVQGYETYGTLNRERSNVILICHYFSATSHAAGKYTAHDEESGWWDGLIGPGKAIDTNQYFVICTDNLCNVQVKNPHVITTGPKSINPKTGDEYADFPVFTFLDVARQCELIKDGIARLHAVGPSAGGIAQQWAVHYPHVERIGVITNPQNPIITSVNVAQNAIEAIRLDPSWKGGKYGEEQPKGLQLANRFNAFDEHFYETTYPRNSIEVEPYEKVSSLTSFEKEINKLTYRSIELVDANSWYTAKAVLLHDIAHGFSSLEEALSNVEANVLIPCKQDLLQPSRYNYKVDLLQKQGKYAEVYEIESINGHAGVFDIHLFEKKVYEFLNRKVSS QIVKKEKFILKEYTFENGRTIPVQGYETYGTLNRERSNVILICHYFSATSHAAGKYTAHDEESGWWDGLIGPGKAIDTNQYFVICTDNLCNVQVKNPHVITTGPKSINPKTGDEYADFPVFTFLDVARQCELIKDGIARLHAVGPSAGGIAQQWAVHYPHVERIGVITNPQNPIITSVNVAQNAIEAIRLDPSWKGGKYGEEQPKGLQLANRFNAFDEHFYETTYPRNSIEVEPYEKVSSLTSFEKEINKLTYRSIELVDANSWYTAKAVLLHDIAHGFSSLEEALSNVEANVLIPCKQDLLQPSRYNYKVDLLQKQGKYAEVYEIESINGHAGVFDIHLFEKKVYEFLNRKVSSF 3i1j-a1-m1-cB_3i1j-a1-m1-cA Structure of a putative short chain dehydrogenase from Pseudomonas syringae Q885U1 Q885U1 1.9 X-RAY DIFFRACTION 112 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 234 239 FDYSAHPELLKGRVILVTGAARGIGAAAARAYAAHGASVVLLGRTEASLAEVSDQIKSAGQPQPLIIALNLENATAQQYRELAARVEHEFGRLDGLLHNASIIGPRTPLEQLPDEDFQVHVNVNATFLTRALLPLLKRSEDASIAFTSSSVGRKGRANWGAYGVSKFATEGLQTLADELEGVTAVRANSINPGATRTGRAAYNPLNNPAPEDIPVYLYLGPDSTGINGQALNAQ GFDYSAHPELLKGRVILVTGAARGIGAAAARAYAAHGASVVLLGRTEASLAEVSDQIKSAGQPQPLIIALNLENATAQQYRELAARVEHEFGRLDGLLHNASIIGPRTPLEQLPDEDFQVHVNVNATFLTRALLPLLKRSEDASIAFTSSSVGRKGRANWGAYGVSKFATEGLQTLADELEGVTAVRANSINPGATRTGRAQAYPDENPLNNPAPEDIPVYLYLGPDSTGINGQALNAQ 3i1k-a2-m1-cB_3i1k-a2-m1-cC Structure of porcine torovirus Hemagglutinin-Esterase Q70KP4 Q70KP4 2.1 X-RAY DIFFRACTION 74 1.0 237020 (Porcine torovirus) 237020 (Porcine torovirus) 362 362 3i1k-a1-m1-cA_3i1k-a1-m2-cA 3i1l-a1-m1-cA_3i1l-a1-m2-cA 3i1l-a2-m1-cB_3i1l-a2-m1-cC KPITPHYGPGHITPDWCGFGDARSDCGNKHTPKSLDIPQELCPKFSSRTGSSMFISMHWNNGSGFDAFDYSNCGVEKVFYEGVNFSPHRNYTCYQEGSSGWVSNKVGFYSKLYSMASTSRCIKLINLDPPTNFTNYRNGTCVGNGGTAKMPDNPQLVIFDAVTKLSTQFVLPNSSDGVSCTKHLVPFCYIDGGCFEMSGVCHPFGYYYESPSFYHGFYTNGTAGLHSYICDYLEMKPGVYNATTFGKFLIYPTKSYCMDTMNYTVPVQAVQSIWSENRQSDDAIGQACKSPYCIFYNKTKPYLAPNGADENHGDEEVRQMMQGLLVNSSCVSPQGSTPLALYSSEMIYIPNYGSCPQYYKLF KPITPHYGPGHITPDWCGFGDARSDCGNKHTPKSLDIPQELCPKFSSRTGSSMFISMHWNNGSGFDAFDYSNCGVEKVFYEGVNFSPHRNYTCYQEGSSGWVSNKVGFYSKLYSMASTSRCIKLINLDPPTNFTNYRNGTCVGNGGTAKMPDNPQLVIFDAVTKLSTQFVLPNSSDGVSCTKHLVPFCYIDGGCFEMSGVCHPFGYYYESPSFYHGFYTNGTAGLHSYICDYLEMKPGVYNATTFGKFLIYPTKSYCMDTMNYTVPVQAVQSIWSENRQSDDAIGQACKSPYCIFYNKTKPYLAPNGADENHGDEEVRQMMQGLLVNSSCVSPQGSTPLALYSSEMIYIPNYGSCPQYYKLF 3i24-a1-m1-cB_3i24-a1-m1-cA Crystal Structure of a HIT family hydrolase protein from Vibrio fischeri. Northeast Structural Genomics Consortium target id VfR176 Q5E3V1 Q5E3V1 1.5 X-RAY DIFFRACTION 97 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 139 143 FQLHPRLQQDCIVLGNLPLCKVLLIKEDIGPWLILVPRIEELKEIHHMTDEQQIQFIKESSAVAQLLEDNFSPDKINIGALGNLVPQLHIHHIARFTTDVAWPGPVWGNTTGVIRAQSSQTQLVDLLRDKLSNISGFKR AFQLHPRLQQDCIVLGNLPLCKVLLIKEDIGPWLILVPRIEELKEIHHMTDEQQIQFIKESSAVAQLLEDNFSPDKINIGALGNLVPQLHIHHIARFTTDVAWPGPVWGNTTGVIRAQSSQTQLVDLLRDKLSNISGFKRLEH 3i26-a2-m1-cC_3i26-a2-m1-cD Structure of bovine torovirus Hemagglutinin-Esterase P0C0V9 P0C0V9 1.8 X-RAY DIFFRACTION 64 1.0 360393 (Breda virus serotype 1) 360393 (Breda virus serotype 1) 358 369 3i26-a1-m1-cB_3i26-a1-m1-cA 3i27-a1-m1-cB_3i27-a1-m1-cA 3i27-a2-m1-cC_3i27-a2-m1-cD TPVTPYYGPGHITFDWCGFGDSRSDCTNPQSPMSLDIPQQLCPKFSSKSSSSMFLSLHWNNHSSFVSYDYFNCGVEKVFYEGVNFSPRKQYSCWDEGVDGWIELKTRFYTKLYQMATTSRCIKLIQLQAPSSLPTLQAGVCRTNKQLPDNPRLALLSDTVPTSVQFVLPGSSGTTICTKHLVPFCYLNHGCFTTGGSCLPFGVSYVSDSFYYGYYDATPESHDYVCDYLFMEPGTYNASTVGKFLVYPTKSYCMDTMNITVPVQAVQSIWSEQYASDDAIGQACKAPYCIFYNKTTPYTVTNGSDANHGDDEVRMMMQGLLRNSSCISPQGSTPLALYSTEMIYEPNYGSCPQFYKLF TPVTPYYGPGHITFDWCGFGDSRSDCTNPQSPMSLDIPQQLCPKFSSKSSSSMFLSLHWNNHSSFVSYDYFNCGVEKVFYEGVNFSPRKQYSCWDEGVDGWIELKTRFYTKLYQMATTSRCIKLIQLQAPSSLPTLQAGVCRTNKQLPDNPRLALLSDTVPTSVQFVLPGSSGTTICTKHLVPFCYLNHGCFTTGGSCLPFGVSYVSDSFYYGYYDATPQIGSTESHDYVCDYLFMEPGTYNASTVGKFLVYPTKSYCMDTMNITVPVQAVQSIWSEQYASDDAIGQACKAPYCIFYNKTTPYTVTNGSDANHGDDEVRMMMQGLLRNSSCISPQGSTPLALYSTEMIYEPNYGSCPQFYKLFDTSGNE 3i2a-a1-m1-cA_3i2a-a1-m1-cB Crystal structure of a chimeric trypsin inhibitor protein STI(L)-WCI(S) P10822 P10822 2.3 X-RAY DIFFRACTION 34 1.0 3891 (Psophocarpus tetragonolobus) 3891 (Psophocarpus tetragonolobus) 180 180 GSHMDDDLVDAEGNLVENGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSPYRIRFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKAK GSHMDDDLVDAEGNLVENGGTYYLLPHIWAHGGGIETAKTGNEPCPLTVVRSPNEVSKGEPIRISSPYRIRFIPRGSLVALGFANPPSCAASPWWTVVDSPQGPAVKLSQQKLPEKDILVFKFEKVSHSNIHVYKLLYCQHDEEDVKCDQYIGIHRDRNGNRRLVVTEENPLELVLLKAK 3i2b-a4-m1-cK_3i2b-a4-m1-cL The crystal structure of human 6 Pyruvoyl Tetrahydrobiopterin Synthase Q03393 Q03393 2.3 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 3i2b-a1-m1-cA_3i2b-a1-m1-cD 3i2b-a1-m1-cA_3i2b-a1-m1-cE 3i2b-a1-m1-cD_3i2b-a1-m1-cE 3i2b-a2-m1-cB_3i2b-a2-m1-cF 3i2b-a2-m1-cC_3i2b-a2-m1-cB 3i2b-a2-m1-cC_3i2b-a2-m1-cF 3i2b-a3-m1-cG_3i2b-a3-m1-cH 3i2b-a3-m1-cG_3i2b-a3-m1-cI 3i2b-a3-m1-cH_3i2b-a3-m1-cI 3i2b-a4-m1-cJ_3i2b-a4-m1-cK 3i2b-a4-m1-cJ_3i2b-a4-m1-cL RRCQAQVSRRISFSASHRLYSKFLSDEENLKLFGKCNNPNGHGHNYKVVVTVHGEIDPATGMVMNLADLKKYMEEAIMQPLDHKNLDMDVPYFADVVSTTENVAVYIWDNLQKVLPVGVLYKVKVYETDNNIVVYKGE RRCQAQVSRRISFSASHRLYSKFLSDEENLKLFGKCNNPNGHGHNYKVVVTVHGEIDPATGMVMNLADLKKYMEEAIMQPLDHKNLDMDVPYFADVVSTTENVAVYIWDNLQKVLPVGVLYKVKVYETDNNIVVYKGE 3i2t-a1-m1-cA_3i2t-a1-m2-cA Crystal structure of the unliganded Drosophila Epidermal Growth Factor Receptor ectodomain P04412 P04412 2.7 X-RAY DIFFRACTION 75 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 542 542 HHKICIGTKSRLSVPSNKEHHYRNLRDRYTNCTYVDGNLELTWLPNENLDLSFLDNIREVTGYILISHVDVKKVVFPKLQIIRGRTLFSLSVEEEKYALFVTYSKMYTLEIPDLRDVLNGQVGFHNNYNLCHMRTIQWSEIVSNGTDAYYNYDFTERECPKCHESCTHGCWGEGPKNCQKFSKLTCSPQCAGGRCYGPKPRECCHLFCAGGCTGPTQKDCIACKNFFDEGVCKEECPPMRKYNPTTYVLETNPEGKYAYGATCVKECPGHLLRDNGACVRSCPQDKMDKGGECVPCNGPCPKTCPGVTVLHAGNIDSFRNCTVIDGNIRILDQTFSGFQDVYANYTMGPRYIPLDPERLEVFSTVKEITGYLNIEGTHPQFRNLSYFRNLETIHGRQLMESMFAALAIVKSSLYSLEMRNLKQISSGSVVIQHNRDLCYVSNIRWPAIQKEPEQKVWVNENLRADLCEKNGTICSDQCNEDGCWGAGTDQCLNCKNFNFNGTCIADCGYISNAYKFDNRTCKICHPECRTCNGDHCQECVHV HHKICIGTKSRLSVPSNKEHHYRNLRDRYTNCTYVDGNLELTWLPNENLDLSFLDNIREVTGYILISHVDVKKVVFPKLQIIRGRTLFSLSVEEEKYALFVTYSKMYTLEIPDLRDVLNGQVGFHNNYNLCHMRTIQWSEIVSNGTDAYYNYDFTERECPKCHESCTHGCWGEGPKNCQKFSKLTCSPQCAGGRCYGPKPRECCHLFCAGGCTGPTQKDCIACKNFFDEGVCKEECPPMRKYNPTTYVLETNPEGKYAYGATCVKECPGHLLRDNGACVRSCPQDKMDKGGECVPCNGPCPKTCPGVTVLHAGNIDSFRNCTVIDGNIRILDQTFSGFQDVYANYTMGPRYIPLDPERLEVFSTVKEITGYLNIEGTHPQFRNLSYFRNLETIHGRQLMESMFAALAIVKSSLYSLEMRNLKQISSGSVVIQHNRDLCYVSNIRWPAIQKEPEQKVWVNENLRADLCEKNGTICSDQCNEDGCWGAGTDQCLNCKNFNFNGTCIADCGYISNAYKFDNRTCKICHPECRTCNGDHCQECVHV 3i2w-a1-m1-cA_3i2w-a1-m1-cB Crystal structure of EFC/F-BAR domain of Drosophila Syndapin/PACSIN Q9VDI1 Q9VDI1 2.67 X-RAY DIFFRACTION 210 0.981 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 265 279 SDSFWEPGNYKRTTKRIEDGYKLCNDLQQLIQERADIEKGYAKSLRTWSKKWGELIEKGPEYGTTEAAWKGVLTESERISDVHKIKDNLCNDVNSQIKTWQKENYHHTLQIKERKDLEDLFKKAQKPWAKLLAKVEKAKADYHSACKTERSATHDRVQKTKDQVQKCREKYEQAIAEITKYNSVYIEDTSVFEKCQTFEKTRLQFFKEILFNVHSCLDLTKVQSLPQIYEEFSHTINNADQQKDLKWWSNNHGINANWPSFVEYT SDSFWEPGNYKRTTKRIEDGYKLCNDLQQLIQERADIEKGYAKSLRTWSKKWGELIEKGPEYGTTEAAWKGVLTESERISDVHKIKDNLCNDVNSQIKTWQKENYHHTLQIKERKDLEDLFKKAQKPWAKLLAKVEKAKADYHSACKTERSATNQERNANADSSLSPDQVKKHDRVQKTKDQVQKCREKYEQAIAEITKYNSVYIEDTSVFEKCQTFEKTRLQFFKEILFNVHSCLDLTKVQSLPQIYEEFSHTINNADQQKDLKWWSNNHGINANWPS 3i2z-a1-m1-cB_3i2z-a1-m1-cA Structure of cold shock protein E from Salmonella typhimurium Q7CQZ5 Q7CQZ5 1.1 X-RAY DIFFRACTION 27 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 67 71 KIKGNVKWFNESKGFGFITPEDGSKDVFVHFSAIQTNGFKTLAEGQRVEFEITNGAKGPSAANVTAL SHMSKIKGNVKWFNESKGFGFITPEDGSKDVFVHFSAIQTNGFKTLAEGQRVEFEITNGAKGPSAANVTAL 3i38-a7-m1-cB_3i38-a7-m1-cD Structure of a putative chaperone protein dnaj from klebsiella pneumoniae subsp. pneumoniae mgh 78578 A6TH30 A6TH30 2.3 X-RAY DIFFRACTION 28 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 100 102 HPLFDIVGHNLEIVLPLAPWEAALGAKVTVPTLKESILLTVPPGSQAGQRLRIKGKGLVSHTGDLFAVIKIVPTKPDEKARELWQQLAAAEASFDPRKTW HPLFDIVGHNLEIVLPLAPWEAALGAKVTVPTLKESILLTVPPGSQAGQRLRIKGKGLVSKTHTGDLFAVIKIVPTKPDEKARELWQQLAAAEASFDPRKTW 3i38-a7-m1-cF_3i38-a7-m1-cB Structure of a putative chaperone protein dnaj from klebsiella pneumoniae subsp. pneumoniae mgh 78578 A6TH30 A6TH30 2.3 X-RAY DIFFRACTION 24 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 99 100 3i38-a7-m1-cE_3i38-a7-m1-cH 3i38-a7-m1-cI_3i38-a7-m1-cC 3i38-a7-m1-cL_3i38-a7-m1-cG HPLFDIVGHNLEIVLPLAPWEAALGAKVTVPTLKESILLTVPPGSQAGQRLRIKGKGLVHTGDLFAVIKIVPTKPDEKARELWQQLAAAEASFDPRKTW HPLFDIVGHNLEIVLPLAPWEAALGAKVTVPTLKESILLTVPPGSQAGQRLRIKGKGLVSHTGDLFAVIKIVPTKPDEKARELWQQLAAAEASFDPRKTW 3i38-a7-m1-cI_3i38-a7-m1-cJ Structure of a putative chaperone protein dnaj from klebsiella pneumoniae subsp. pneumoniae mgh 78578 A6TH30 A6TH30 2.3 X-RAY DIFFRACTION 122 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 95 100 3i38-a1-m1-cB_3i38-a1-m1-cA 3i38-a2-m1-cC_3i38-a2-m1-cD 3i38-a3-m1-cE_3i38-a3-m1-cF 3i38-a4-m1-cH_3i38-a4-m1-cG 3i38-a5-m1-cI_3i38-a5-m1-cJ 3i38-a6-m1-cL_3i38-a6-m1-cK 3i38-a7-m1-cB_3i38-a7-m1-cA 3i38-a7-m1-cC_3i38-a7-m1-cD 3i38-a7-m1-cE_3i38-a7-m1-cF 3i38-a7-m1-cH_3i38-a7-m1-cG 3i38-a7-m1-cL_3i38-a7-m1-cK 3lz8-a1-m1-cA_3lz8-a1-m1-cB PLFDIVGHNLEIVLPLAPWEAALGAKVTVPTKESILLTVPPGSQAGQRLRIKGKGLTGDLFAVIKIVPTKPDEKARELWQQLAAAEASFDPRKTW HPLFDIVGHNLEIVLPLAPWEAALGAKVTVPTLKESILLTVPPGSQAGQRLRIKGKGLVTHTGDLFAVIKIVPTKPDEKARELWQQLAAAEASFDPRKTW 3i3f-a1-m1-cC_3i3f-a1-m1-cB Hypothetical protein from Giardia lamblia GL50803_14299 A8BD71 A8BD71 1.35 X-RAY DIFFRACTION 74 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 127 128 3i3f-a1-m1-cB_3i3f-a1-m1-cA 3i3f-a1-m1-cC_3i3f-a1-m1-cA TPTFLVCPDVVKFENVGQIAVVNGMVYLGGSVGIDKSGTLHKGLEEQTRQTFDNIRKCLEYANSGLDYIVSLNIFLSTSLSDSEEARFNELYREVFVPATRPCRCCVRAQLQEGLLVEVVNVVAAQK TPTFLVCPDVVKFENVGQIAVVNGMVYLGGSVGIDKSGTLHKGLEEQTRQTFDNIRKCLEYANSGLDYIVSLNIFLSTSLSDSEEARFNELYREVFCVPATRPCRCCVRAQLQEGLLVEVVNVVAAQK 3i3g-a1-m1-cA_3i3g-a1-m1-cB Crystal Structure of Trypanosoma brucei N-acetyltransferase (Tb11.01.2886) at 1.86A E3Q1H1 E3Q1H1 1.86 X-RAY DIFFRACTION 206 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 143 143 3fb3-a1-m1-cA_3fb3-a1-m1-cB VDLELRVLEESDLSSHLELLGHLTEAPPLSGVELANIADMRRRAGIVTKVFCHQPTGRIVGSASLMIQPKFTRGGRAVGHIEDVVVDPSYRGAGLGKALIMDLCEISRSKGCYKVILDSSEKSLPFYEKLGFRAHERQMRLDL VDLELRVLEESDLSSHLELLGHLTEAPPLSGVELANIADMRRRAGIVTKVFCHQPTGRIVGSASLMIQPKFTRGGRAVGHIEDVVVDPSYRGAGLGKALIMDLCEISRSKGCYKVILDSSEKSLPFYEKLGFRAHERQMRLDL 3i3n-a1-m1-cA_3i3n-a1-m1-cB Crystal structure of the BTB-BACK domains of human KLHL11 Q9NVR0 Q9NVR0 2.6 X-RAY DIFFRACTION 132 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 256 261 4apf-a1-m1-cA_4apf-a1-m2-cA YFQSEAEDFECSSHCSELSWRQNEQRRQGLFCDITLCFGREFRAHRSVLAAATEYFTPLLSGRVERKWSSEPGPEPDTVEAVIEYYTGRIRVSTGSVHEVLELADRFLLIRLKEFCGEFLKKKLHLSNCVAIHSLAHYTLSQLALKAADIRRNFHKVIQDEEFYTLPFHLIRDWLSDLEITVDSEEVLFETVLKWVQRNAEERERYFEELFKLLRLSQKPTYLTRHVKPERLVANNEVCVKLVADAVERHALRAEN SEAEDFECSSHCSELSWRQNEQRRQGLFCDITLCFGGREFRAHRSVLAAATEYFTPLLSGQFSESRSGRVERKWSSEPGPEPDTVEAVIEYYTGRIRVSTGSVHEVLELADRFLLIRLKEFCGEFLKKKLHLSNCVAIHSLAHYTLSQLALKAADIRRNFHKVIQDEEFYTLPFHLIRDWLSDLEITVDSEEVLFETVLKWVQRNAEERERYFEELFKLLRLSQKPTYLTRHVKPERLVANNEVCVKLVADAVERHALRAE 3i3o-a1-m1-cB_3i3o-a1-m1-cD 2.06 Angstrom resolution crystal structure of a short chain dehydrogenase from Bacillus anthracis str. 'Ames Ancestor' in complex with NAD-acetone A0A6L8PL20 A0A6L8PL20 2.06 X-RAY DIFFRACTION 15 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 283 283 3i3o-a1-m1-cC_3i3o-a1-m1-cA 3i3o-a2-m1-cF_3i3o-a2-m1-cH 3i3o-a2-m1-cG_3i3o-a2-m1-cE 3ijr-a1-m1-cA_3ijr-a1-m1-cC 3ijr-a1-m1-cD_3ijr-a1-m1-cB 3ijr-a2-m1-cE_3ijr-a2-m1-cG 3ijr-a2-m1-cH_3ijr-a2-m1-cF NFVTMPAQHQNKQPGIESLMNPLPQFEDPNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEGDANETKQYVEKEGVKCVLLPGDLSDEQHCKDIVQETVRQLGSLNILVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAALSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPMQRPGQPYELAPAYVYLASSDSSYVTGQMIHVNGGVIVNG NFVTMPAQHQNKQPGIESLMNPLPQFEDPNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEGDANETKQYVEKEGVKCVLLPGDLSDEQHCKDIVQETVRQLGSLNILVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAALSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPMQRPGQPYELAPAYVYLASSDSSYVTGQMIHVNGGVIVNG 3i3u-a1-m1-cC_3i3u-a1-m1-cB Crystal structure of lp_1913 protein from lactobacillus plantarum, northeast structural genomics Consortium target lpr140a F9UPN6 F9UPN6 2.8 X-RAY DIFFRACTION 28 0.988 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 82 84 3i3u-a1-m1-cA_3i3u-a1-m1-cB NDKKIELLTTYLSLYIDHHTVLADKYVVLDVRNQIKGAIAPAKDLATRIGELDPAKTYVVYTLGKTALLVLLSAGFEAYELA NDKKIELLTTYLSLYIDHHTVLADKYVVLDVRNAIKGAIAPAKDLATRIGELDPAKTYVVYDTTLGKTALLVLLSAGFEAYELA 3i3v-a1-m1-cA_3i3v-a1-m1-cD Crystal Structure of probable secreted solute-binding lipoprotein from Streptomyces coelicolor Q9RL34 Q9RL34 2.3 X-RAY DIFFRACTION 26 0.997 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 386 386 3i3v-a1-m1-cB_3i3v-a1-m1-cC PDTLVVHTQLGTTAPGSPTYLAAVDRFREENPGVKIKNLVNGDDLAQVYETSRLARKEADVVVNLYDKTLAWTDVGATVDVKPYLDDWGLRGRVLPAALADWTDDEGRVRAFPYFATNWPVAYNRALLDRAGVDAIPTTGDQLIAAARKLRAKGIAPVTVGGNDWTGQKLLAQIIQTFLSQDEARHVYSTGDFGVRGARLGIEYFAHLRDAGVFADKAQGLTSDSTTQFNTEEAAVQSASSALAKVPEKVAGHTEVGGWPLADGAAHDGPTVIRAYTLIGFWISPNGVRKIEQVEKFLRFYRPDVVARFVTESGRDALRTDAVSTGFPLVGAAQRLGSEVSQVLLPDVYVPPAAAQPLITATSTSFTRGTSPARVRAALESAYRSV DTLVVHTQLGTTAPGSPTYLAAVDRFREENPGVKIKNLVNGDDLAQVYETSRLARKEADVVVNLYDKTLAWTDVGATVDVKPYLDDWGLRGRVLPAALADWTDDEGRVRAFPYFATNWPVAYNRALLDRAGVDAIPTTGDQLIAAARKLRAKGIAPVTVGGNDWTGQKLLAQIIQTFLSQDEARHVYSTGDFGVRGARLGIEYFAHLRDAGVFADKAQGLTSDSTTQFNTEEAAVQSASSALAKVPEKVAGHTEVGGWPLADGAAHDGPTVIRAYTLIGFWISPNGVRKIEQVEKFLRFYRPDVVARFVTESGRDALRTDAVSTGFPLVGAAQRLGSEVSQVLLPDVYVPPAAAQPLITATSTSFTRGTSPARVRAALESAYRSVE 3i3v-a1-m1-cB_3i3v-a1-m1-cA Crystal Structure of probable secreted solute-binding lipoprotein from Streptomyces coelicolor Q9RL34 Q9RL34 2.3 X-RAY DIFFRACTION 68 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 385 386 DTLVVHTQLGTTAPGSPTYLAAVDRFREENPGVKIKNLVNGDDLAQVYETSRLARKEADVVVNLYDKTLAWTDVGATVDVKPYLDDWGLRGRVLPAALADWTDDEGRVRAFPYFATNWPVAYNRALLDRAGVDAIPTTGDQLIAAARKLRAKGIAPVTVGGNDWTGQKLLAQIIQTFLSQDEARHVYSTGDFGVRGARLGIEYFAHLRDAGVFADKAQGLTSDSTTQFNTEEAAVQSASSALAKVPEKVAGHTEVGGWPLADGAAHDGPTVIRAYTLIGFWISPNGVRKIEQVEKFLRFYRPDVVARFVTESGRDALRTDAVSTGFPLVGAAQRLGSEVSQVLLPDVYVPPAAAQPLITATSTSFTRGTSPARVRAALESAYRSV PDTLVVHTQLGTTAPGSPTYLAAVDRFREENPGVKIKNLVNGDDLAQVYETSRLARKEADVVVNLYDKTLAWTDVGATVDVKPYLDDWGLRGRVLPAALADWTDDEGRVRAFPYFATNWPVAYNRALLDRAGVDAIPTTGDQLIAAARKLRAKGIAPVTVGGNDWTGQKLLAQIIQTFLSQDEARHVYSTGDFGVRGARLGIEYFAHLRDAGVFADKAQGLTSDSTTQFNTEEAAVQSASSALAKVPEKVAGHTEVGGWPLADGAAHDGPTVIRAYTLIGFWISPNGVRKIEQVEKFLRFYRPDVVARFVTESGRDALRTDAVSTGFPLVGAAQRLGSEVSQVLLPDVYVPPAAAQPLITATSTSFTRGTSPARVRAALESAYRSV 3i3w-a1-m1-cB_3i3w-a1-m1-cA Structure of a phosphoglucosamine mutase from Francisella tularensis Q5NII8 Q5NII8 2.3 X-RAY DIFFRACTION 100 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 433 434 KYFGTDGIRGEVANSTITVEFTQKLGNAVGSLINQKNYPKFVIVGQDTRSSGGFLKFALVSGLNAAGIDVLDLGVVPTPVVAFTVKHRAAAGFVITAHNKFTDNGIKLFSSNGFKLDDALEEEVEDIDGDFIYQPQFKFGSYKILANAIDEYIESIYSRFAKFVNYKGKVVVDCAHGAASHNFEALLDKFGINYVSIASNPDGLNINVGCGATCVSNIKKAVKEQKADLGISLDGDADRIIIVDENGQEIDGDGILNILAQYSDICGGTNGIVGTQTNSYENHYRANKIPFIRSKVGDRYVLEDLVKYGYKIGGESSGHVINLNFGTTGDGLFTAIQLLAIFSQADKPVSEFKLQGELQQTLINVPLTKKVAREDLQKVASDVNDVEKRLGNRGRVLLRPSGTEPVLRVVEADDKSLATNEAEYLVEKVKQKL KYFGTDGIRGEVANSTITVEFTQKLGNAVGSLINQKNYPKFVIVGQDTRSSGGFLKFALVSGLNAAGIDVLDLGVVPTPVVAFTVKHRAAAGFVITAHNKFTDNGIKLFSSNGFKLDDALEEEVEDIDGDFIYQPQFKFGSYKILANAIDEYIESIYSRFAKFVNYKGKVVVDCAHGAASHNFEALLDKFGINYVSIASNPDGLNINVGCGATCVSNIKKAVKEQKADLGISLDGDADRIIIVDENGQEIDGDGILNILAQYSDICGGTNGIVGTQTNSYENHYRANKIPFIRSKVGDRYVLEDLVKYGYKIGGESSGHVINLNFGTTGDGLFTAIQLLAIFSQADKPVSEFKLQGELQQTLINVPLTKKVAREDLQKVASDVNDVEKRLGNRGRVLLRPSGTEPVLRVVEADDKSLATNEAEYLVEKVKQKLV 3i3x-a1-m2-cA_3i3x-a1-m3-cA Structural Basis for the Sugar Nucleotide and Acyl Chain Selectivity of Leptospira interrogans LpxA Q8EZA6 Q8EZA6 2.1 X-RAY DIFFRACTION 64 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 259 259 3hsq-a1-m1-cA_3hsq-a1-m2-cA 3hsq-a1-m1-cA_3hsq-a1-m3-cA 3hsq-a1-m2-cA_3hsq-a1-m3-cA 3hsq-a2-m1-cB_3hsq-a2-m2-cB 3hsq-a2-m1-cB_3hsq-a2-m3-cB 3hsq-a2-m2-cB_3hsq-a2-m3-cB 3hsq-a3-m1-cC_3hsq-a3-m4-cC 3hsq-a3-m1-cC_3hsq-a3-m5-cC 3hsq-a3-m4-cC_3hsq-a3-m5-cC 3i3a-a1-m1-cA_3i3a-a1-m2-cA 3i3a-a1-m1-cA_3i3a-a1-m3-cA 3i3a-a1-m2-cA_3i3a-a1-m3-cA 3i3a-a2-m1-cB_3i3a-a2-m2-cB 3i3a-a2-m1-cB_3i3a-a2-m3-cB 3i3a-a2-m2-cB_3i3a-a2-m3-cB 3i3a-a3-m1-cC_3i3a-a3-m4-cC 3i3a-a3-m1-cC_3i3a-a3-m5-cC 3i3a-a3-m4-cC_3i3a-a3-m5-cC 3i3x-a1-m1-cA_3i3x-a1-m2-cA 3i3x-a1-m1-cA_3i3x-a1-m3-cA 3i3x-a2-m1-cB_3i3x-a2-m2-cB 3i3x-a2-m1-cB_3i3x-a2-m3-cB 3i3x-a2-m2-cB_3i3x-a2-m3-cB 3i3x-a3-m1-cC_3i3x-a3-m4-cC 3i3x-a3-m1-cC_3i3x-a3-m5-cC 3i3x-a3-m4-cC_3i3x-a3-m5-cC MKIHPTAIIDPKAELHESVEVGPYSIIEGNVSIQEGTIIEGHVKICAGSEIGKFNRFHQGAVIGVMPQDLGFNQQLLTKTVIGDHNIFREYSNIHKGTKEDSPTVIGNKNYFMGNSHVGHDCILGNNNILTHGAVLAGHVTLGNFAFISGLVAVHQFCFVGDYSMVAGLAKVVQDVPPYSTVDGNPSTVVGLNSVGMKRAGFSPEVRNAIKHAYKVIYHSGISTRKALDELEASGNLIEQVKYIIKFFRDSDRGVTNHR MKIHPTAIIDPKAELHESVEVGPYSIIEGNVSIQEGTIIEGHVKICAGSEIGKFNRFHQGAVIGVMPQDLGFNQQLLTKTVIGDHNIFREYSNIHKGTKEDSPTVIGNKNYFMGNSHVGHDCILGNNNILTHGAVLAGHVTLGNFAFISGLVAVHQFCFVGDYSMVAGLAKVVQDVPPYSTVDGNPSTVVGLNSVGMKRAGFSPEVRNAIKHAYKVIYHSGISTRKALDELEASGNLIEQVKYIIKFFRDSDRGVTNHR 3i42-a1-m1-cA_3i42-a1-m2-cA Structure of response regulator receiver domain (CheY-like) from Methylobacillus flagellatus Q1H0I3 Q1H0I3 2.15 X-RAY DIFFRACTION 38 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 118 118 SLQQALIVEDYQAAAETFKELLEMLGFQADYVMSGTDALHAMSTRGYDAVFIDLNLPDTSGLALVKQLRALPMEKTSKFVAVSGFKNDLGKEACELFDFYLEKPIDIASLEPILQSIE SLQQALIVEDYQAAAETFKELLEMLGFQADYVMSGTDALHAMSTRGYDAVFIDLNLPDTSGLALVKQLRALPMEKTSKFVAVSGFKNDLGKEACELFDFYLEKPIDIASLEPILQSIE 3i44-a1-m1-cA_3i44-a1-m2-cA Crystal structure of aldehyde dehydrogenase from bartonella henselae at 2.0A resolution A0A0H3M4W2 A0A0H3M4W2 2 X-RAY DIFFRACTION 151 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 476 476 MLNKRKFYINGLWDDPSTPHDLYVIDPSTEEACAVISLGSTRDADKAINAAKKAFQTWKTTSPHERLGFVEKILEIYEKRSSDMAKTISMEMGAPIDMALNAQTATGSSHIRNFIKAYKEFSFQEALIEGNEQAILHYDAIGVVGLITPWNWPMNQVTLKVIPALLAGCTMVLKPSEIAPLSAMLFAEILDEAALPSGVFNLINGDGANVGSYLSAHPDLEMISFTGSTRAGKDISKNASNTLKRVCLELGGKGANIIFADADIDALQRGVRHCFYNSGQSCNAPTRMLVEQAIYDKAIKTAKDIAEKTQVGPGHQTGNHIGPVVSKEQYDKIQDLIQSGIDEGATLVTGGTGLPMGMERGYYVRPTVFADVKPHMRIFREEIFGPVLSLLPFNTEDEAVTLANDTEYGLTNYIQSQDRSKCRRIAAQVRSGMVEVNGHELPGGSYFGGVKFSGRAREGGLWGIKEFLDTKAISYW MLNKRKFYINGLWDDPSTPHDLYVIDPSTEEACAVISLGSTRDADKAINAAKKAFQTWKTTSPHERLGFVEKILEIYEKRSSDMAKTISMEMGAPIDMALNAQTATGSSHIRNFIKAYKEFSFQEALIEGNEQAILHYDAIGVVGLITPWNWPMNQVTLKVIPALLAGCTMVLKPSEIAPLSAMLFAEILDEAALPSGVFNLINGDGANVGSYLSAHPDLEMISFTGSTRAGKDISKNASNTLKRVCLELGGKGANIIFADADIDALQRGVRHCFYNSGQSCNAPTRMLVEQAIYDKAIKTAKDIAEKTQVGPGHQTGNHIGPVVSKEQYDKIQDLIQSGIDEGATLVTGGTGLPMGMERGYYVRPTVFADVKPHMRIFREEIFGPVLSLLPFNTEDEAVTLANDTEYGLTNYIQSQDRSKCRRIAAQVRSGMVEVNGHELPGGSYFGGVKFSGRAREGGLWGIKEFLDTKAISYW 3i47-a2-m2-cA_3i47-a2-m3-cA CRYSTAL STRUCTURE OF putative enoyl CoA hydratase/isomerase (crotonase) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 Q5ZUH0 Q5ZUH0 1.58 X-RAY DIFFRACTION 155 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 259 259 3i47-a2-m1-cA_3i47-a2-m2-cA 3i47-a2-m1-cA_3i47-a2-m3-cA SLSDLLYEIQDKVGLLTMNRISKHNAFDNQLLTEMRIRLDSAINDTNVRVIVLKANGKHFSAGADLTWMQSMANFTEEENLEDSLVLGNLMYSISQSPKPTIAMVQGAAFGGGAGLAAACDIAIASTSARFCFSEVKLGLIPAVISPYVVRAIGERAAKMLFMSAEVFDATRAYSLNLVQHCVPDDTLLEFTLKYASQISNNAPEAVKNSKQLAQYVANKKIDEELVRYTASLIAHKRVSDEGQEGLKAFLNKEIPNWN SLSDLLYEIQDKVGLLTMNRISKHNAFDNQLLTEMRIRLDSAINDTNVRVIVLKANGKHFSAGADLTWMQSMANFTEEENLEDSLVLGNLMYSISQSPKPTIAMVQGAAFGGGAGLAAACDIAIASTSARFCFSEVKLGLIPAVISPYVVRAIGERAAKMLFMSAEVFDATRAYSLNLVQHCVPDDTLLEFTLKYASQISNNAPEAVKNSKQLAQYVANKKIDEELVRYTASLIAHKRVSDEGQEGLKAFLNKEIPNWN 3i4e-a1-m1-cA_3i4e-a1-m1-cD Crystal structure of Isocitrate Lyase from Burkholderia pseudomallei Q63SY3 Q63SY3 2.69 X-RAY DIFFRACTION 304 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 412 412 3i4e-a1-m1-cB_3i4e-a1-m1-cC MSRQQQAQELQKQWETDPRWKGIKRAFTAEDVVRLRGSIQQEHTLAKRGAEKLWTLINNEPFVNALGALTGNQAMQQVKAGLKAIYLSGWQVAGDANVAGEMYPDQSLYPANSVPLVVKRINNTLTRADQIQWSEGKNPGDEGYVDFFAPIVADAEAGFGGVLNAFELMKAMIEAGASGVHFEDQLASVKKCGHMGGKVLVPTREAVAKLTAARLAADVMGTPTVLVARTDAEAADLITSDIDDNDKPYLTGERTVEGFFRTKPGLEQAISRGLAYAPYADLIWCETGKPDLEYAKKFAEAIHKQFPGKLLSYNCSPSFNWKKNLDDATIAKFQKELGAMGYKFQFITLAGFHALNYSMFNLAHGYARTQMSAFVELQQAEFAAADKGFTAVKHQREVGTGYFDAVTQTVER MSRQQQAQELQKQWETDPRWKGIKRAFTAEDVVRLRGSIQQEHTLAKRGAEKLWTLINNEPFVNALGALTGNQAMQQVKAGLKAIYLSGWQVAGDANVAGEMYPDQSLYPANSVPLVVKRINNTLTRADQIQWSEGKNPGDEGYVDFFAPIVADAEAGFGGVLNAFELMKAMIEAGASGVHFEDQLASVKKCGHMGGKVLVPTREAVAKLTAARLAADVMGTPTVLVARTDAEAADLITSDIDDNDKPYLTGERTVEGFFRTKPGLEQAISRGLAYAPYADLIWCETGKPDLEYAKKFAEAIHKQFPGKLLSYNCSPSFNWKKNLDDATIAKFQKELGAMGYKFQFITLAGFHALNYSMFNLAHGYARTQMSAFVELQQAEFAAADKGFTAVKHQREVGTGYFDAVTQTVER 3i4e-a1-m1-cB_3i4e-a1-m1-cD Crystal structure of Isocitrate Lyase from Burkholderia pseudomallei Q63SY3 Q63SY3 2.69 X-RAY DIFFRACTION 115 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 412 412 3i4e-a1-m1-cA_3i4e-a1-m1-cC MSRQQQAQELQKQWETDPRWKGIKRAFTAEDVVRLRGSIQQEHTLAKRGAEKLWTLINNEPFVNALGALTGNQAMQQVKAGLKAIYLSGWQVAGDANVAGEMYPDQSLYPANSVPLVVKRINNTLTRADQIQWSEGKNPGDEGYVDFFAPIVADAEAGFGGVLNAFELMKAMIEAGASGVHFEDQLASVKKCGHMGGKVLVPTREAVAKLTAARLAADVMGTPTVLVARTDAEAADLITSDIDDNDKPYLTGERTVEGFFRTKPGLEQAISRGLAYAPYADLIWCETGKPDLEYAKKFAEAIHKQFPGKLLSYNCSPSFNWKKNLDDATIAKFQKELGAMGYKFQFITLAGFHALNYSMFNLAHGYARTQMSAFVELQQAEFAAADKGFTAVKHQREVGTGYFDAVTQTVER MSRQQQAQELQKQWETDPRWKGIKRAFTAEDVVRLRGSIQQEHTLAKRGAEKLWTLINNEPFVNALGALTGNQAMQQVKAGLKAIYLSGWQVAGDANVAGEMYPDQSLYPANSVPLVVKRINNTLTRADQIQWSEGKNPGDEGYVDFFAPIVADAEAGFGGVLNAFELMKAMIEAGASGVHFEDQLASVKKCGHMGGKVLVPTREAVAKLTAARLAADVMGTPTVLVARTDAEAADLITSDIDDNDKPYLTGERTVEGFFRTKPGLEQAISRGLAYAPYADLIWCETGKPDLEYAKKFAEAIHKQFPGKLLSYNCSPSFNWKKNLDDATIAKFQKELGAMGYKFQFITLAGFHALNYSMFNLAHGYARTQMSAFVELQQAEFAAADKGFTAVKHQREVGTGYFDAVTQTVER 3i4e-a1-m1-cC_3i4e-a1-m1-cD Crystal structure of Isocitrate Lyase from Burkholderia pseudomallei Q63SY3 Q63SY3 2.69 X-RAY DIFFRACTION 58 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 412 412 3i4e-a1-m1-cA_3i4e-a1-m1-cB MSRQQQAQELQKQWETDPRWKGIKRAFTAEDVVRLRGSIQQEHTLAKRGAEKLWTLINNEPFVNALGALTGNQAMQQVKAGLKAIYLSGWQVAGDANVAGEMYPDQSLYPANSVPLVVKRINNTLTRADQIQWSEGKNPGDEGYVDFFAPIVADAEAGFGGVLNAFELMKAMIEAGASGVHFEDQLASVKKCGHMGGKVLVPTREAVAKLTAARLAADVMGTPTVLVARTDAEAADLITSDIDDNDKPYLTGERTVEGFFRTKPGLEQAISRGLAYAPYADLIWCETGKPDLEYAKKFAEAIHKQFPGKLLSYNCSPSFNWKKNLDDATIAKFQKELGAMGYKFQFITLAGFHALNYSMFNLAHGYARTQMSAFVELQQAEFAAADKGFTAVKHQREVGTGYFDAVTQTVER MSRQQQAQELQKQWETDPRWKGIKRAFTAEDVVRLRGSIQQEHTLAKRGAEKLWTLINNEPFVNALGALTGNQAMQQVKAGLKAIYLSGWQVAGDANVAGEMYPDQSLYPANSVPLVVKRINNTLTRADQIQWSEGKNPGDEGYVDFFAPIVADAEAGFGGVLNAFELMKAMIEAGASGVHFEDQLASVKKCGHMGGKVLVPTREAVAKLTAARLAADVMGTPTVLVARTDAEAADLITSDIDDNDKPYLTGERTVEGFFRTKPGLEQAISRGLAYAPYADLIWCETGKPDLEYAKKFAEAIHKQFPGKLLSYNCSPSFNWKKNLDDATIAKFQKELGAMGYKFQFITLAGFHALNYSMFNLAHGYARTQMSAFVELQQAEFAAADKGFTAVKHQREVGTGYFDAVTQTVER 3i4f-a1-m1-cA_3i4f-a1-m1-cD Structure of putative 3-oxoacyl-reductase from bacillus thuringiensis 2.39 X-RAY DIFFRACTION 140 0.992 527023 (Bacillus thuringiensis serovar kurstaki str. T03a001) 527023 (Bacillus thuringiensis serovar kurstaki str. T03a001) 242 242 3i4f-a1-m1-cC_3i4f-a1-m1-cB FVRHALITAGTKGLGKQVTEKLLAKGYSVTVTYHSDTTAMETMKETYKDVEERLQFVQADVTKKEDLHKIVEEAMSHFGKIDFLINNAGPYVFERKKLVDYEEDEWNEMIQGNLTAVFHLLKLVVPVMRKQNFGRIINYGFQGADSAPGWIYRSAFAAAKVGLVSLTKTVAYEEAEYGITANMVCPGDIIGEMKEATIQEARQLRSGTGEDIARTISFLCEDDSDMITGTIIEVTGAVDVIH FVRHALITAGTKGLGKQVTEKLLAKGYSVTVTYHTTAMETMKETYKDVEERLQFVQADVTKKEDLHKIVEEAMSHFGKIDFLINNAGPYVFERKKLVDYEEDEWNEMIQGNLTAVFHLLKLVVPVMRKQNFGRIINYGFQGADSAPGWIYRSAFAAAKVGLVSLTKTVAYEEAEYGITANMVCPGDIIGEMKEATIQEARQLIGRSGTGEDIARTISFLCEDDSDMITGTIIEVTGAVDVIH 3i4f-a1-m1-cB_3i4f-a1-m1-cD Structure of putative 3-oxoacyl-reductase from bacillus thuringiensis 2.39 X-RAY DIFFRACTION 76 0.992 527023 (Bacillus thuringiensis serovar kurstaki str. T03a001) 527023 (Bacillus thuringiensis serovar kurstaki str. T03a001) 242 242 3i4f-a1-m1-cC_3i4f-a1-m1-cA FVRHALITAGTKGLGKQVTEKLLAKGYSVTVTYHSDTTAMETMKETYKDVEERLQFVQADVTKKEDLHKIVEEAMSHFGKIDFLINNAGPYVFERKKLVDYEEDEWNEMIQGNLTAVFHLLKLVVPVMRKQNFGRIINYGFQGADSAPGWIYRSAFAAAKVGLVSLTKTVAYEEAEYGITANMVCPGDIIGEMKEATIQEARQLRSGTGEDIARTISFLCEDDSDMITGTIIEVTGAVDVIH FVRHALITAGTKGLGKQVTEKLLAKGYSVTVTYHTTAMETMKETYKDVEERLQFVQADVTKKEDLHKIVEEAMSHFGKIDFLINNAGPYVFERKKLVDYEEDEWNEMIQGNLTAVFHLLKLVVPVMRKQNFGRIINYGFQGADSAPGWIYRSAFAAAKVGLVSLTKTVAYEEAEYGITANMVCPGDIIGEMKEATIQEARQLIGRSGTGEDIARTISFLCEDDSDMITGTIIEVTGAVDVIH 3i4j-a2-m1-cD_3i4j-a2-m1-cB Crystal structure of Aminotransferase, class III from Deinococcus radiodurans Q9RZ32 Q9RZ32 1.7 X-RAY DIFFRACTION 275 0.992 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 379 386 3i4j-a1-m1-cA_3i4j-a1-m1-cC NVFYRSSKPYPVAVRGEGVFLYDDAGRRYLDGSSGALVANIGHGRAEVGERMAAQAARLPFVHGSQFSSDVLEEYAGRLARFVGLPTFRFWAVSGGSEATESAVKLARQYHVERGEPGRFKVITRVPSRPEAWPKLPKPDPARNGAEDAEGLRALLEREGPETVAAFMAEPVVGASDAALAPAPGYYERVRDICDEAGIIFIADEVMSGMGRCGSPLALSRWSGVTPDIAVLGKGLAAGYAPLAGLLAAPQVYETVMGGSGAFMHGFTYAGHPVSVAAGLSVLDIVEREDLTGAAKERGAQLLAGLQALQARFPQMMQVRGTGLLLGVVLGIASRIGAAALKRGLITYDHLLLGPPLSITAAEVDGLLALLAGALEDVL NVFYRSSKPYPVAVRGEGVFLYDDAGRRYLDGSSGALVANIGHGRAEVGERMAAQAARLPFVHGSQFSSDVLEEYAGRLARFVGLPTFRFWAVSGGSEATESAVKLARQYHVERGEPGRFKVITRVPSRELYTPLMRPEAWPKLPKPDPARNGAEDAEGLRALLEREGPETVAAFMAEPVVGASDAALAPAPGYYERVRDICDEAGIIFIADEVMSGMGRCGSPLALSRWSGVTPDIAVLGKGLAAGYAPLAGLLAAPQVYETVMGGFMHGFTYAGHPVSVAAGLSVLDIVEREDLTGAAKERGAQLLAGLQALQARFPQMMQVRGTGLLLGVVLGDLIASRIGAAALKRGLITYDHLLLGPPLSITAAEVDGLLALLAGALEDVL 3i4k-a4-m1-cG_3i4k-a4-m1-cH Crystal structure of Muconate lactonizing enzyme from Corynebacterium glutamicum Q8NN12 Q8NN12 2.2 X-RAY DIFFRACTION 93 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 364 364 3i4k-a1-m1-cA_3i4k-a1-m1-cB 3i4k-a2-m1-cC_3i4k-a2-m1-cD 3i4k-a3-m1-cE_3i4k-a3-m1-cF DLTIQKVESRILDVPLIRPHGFATTTSTEQHILLVSVHLENGVIGYGEGVVPGGPWWGGESVETKALVDGYLAPVLIGRAVSELAGIADLERVVARARYAKAAVDVAHDAWARSLNVPVRDLLGGTVRDKVDVTWALGVLPLDVAVAEIEERIEEFGNRSFKLKGAGDPAEDTRRVAELAREVGDRVSLRIDINARWDRRTALHYLPILAEAGVELFEQPTPADDLETLREITRRTNVSVADESVWTPAEALAVVKAQAADVIALKTTKHGGLLESKKIAAIAEAGGLACHGATSLEGPIGTAASLQFAASTKAISYGTELFGPQLLKDTYIVQEFEYKDGQVAIPQGPGLGVDVDDKVNFYTR DLTIQKVESRILDVPLIRPHGFATTTSTEQHILLVSVHLENGVIGYGEGVVPGGPWWGGESVETKALVDGYLAPVLIGRAVSELAGIADLERVVARARYAKAAVDVAHDAWARSLNVPVRDLLGGTVRDKVDVTWALGVLPLDVAVAEIEERIEEFGNRSFKLKGAGDPAEDTRRVAELAREVGDRVSLRIDINARWDRRTALHYLPILAEAGVELFEQPTPADDLETLREITRRTNVSVADESVWTPAEALAVVKAQAADVIALKTTKHGGLLESKKIAAIAEAGGLACHGATSLEGPIGTAASLQFAASTKAISYGTELFGPQLLKDTYIVQEFEYKDGQVAIPQGPGLGVDVDDKVNFYTR 3i4p-a1-m1-cA_3i4p-a1-m8-cA Crystal structure of AsnC family transcriptional regulator from Agrobacterium tumefaciens A9CIH8 A9CIH8 2.3 X-RAY DIFFRACTION 11 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 147 147 3i4p-a1-m2-cA_3i4p-a1-m7-cA 3i4p-a1-m3-cA_3i4p-a1-m6-cA 3i4p-a1-m4-cA_3i4p-a1-m5-cA DRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRSGDVDYLLRVVVPDIAAYDAFYKRIAKIEIRDVSSAFAEQIKYTTELPLDYL DRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRSGDVDYLLRVVVPDIAAYDAFYKRIAKIEIRDVSSAFAEQIKYTTELPLDYL 3i4p-a1-m3-cA_3i4p-a1-m8-cA Crystal structure of AsnC family transcriptional regulator from Agrobacterium tumefaciens A9CIH8 A9CIH8 2.3 X-RAY DIFFRACTION 210 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 147 147 3i4p-a1-m1-cA_3i4p-a1-m5-cA 3i4p-a1-m2-cA_3i4p-a1-m6-cA 3i4p-a1-m4-cA_3i4p-a1-m7-cA DRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRSGDVDYLLRVVVPDIAAYDAFYKRIAKIEIRDVSSAFAEQIKYTTELPLDYL DRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRSGDVDYLLRVVVPDIAAYDAFYKRIAKIEIRDVSSAFAEQIKYTTELPLDYL 3i4p-a1-m6-cA_3i4p-a1-m8-cA Crystal structure of AsnC family transcriptional regulator from Agrobacterium tumefaciens A9CIH8 A9CIH8 2.3 X-RAY DIFFRACTION 16 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 147 147 3i4p-a1-m1-cA_3i4p-a1-m3-cA 3i4p-a1-m1-cA_3i4p-a1-m4-cA 3i4p-a1-m2-cA_3i4p-a1-m3-cA 3i4p-a1-m2-cA_3i4p-a1-m4-cA 3i4p-a1-m5-cA_3i4p-a1-m7-cA 3i4p-a1-m5-cA_3i4p-a1-m8-cA 3i4p-a1-m6-cA_3i4p-a1-m7-cA DRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRSGDVDYLLRVVVPDIAAYDAFYKRIAKIEIRDVSSAFAEQIKYTTELPLDYL DRLDRKILRILQEDSTLAVADLAKKVGLSTTPCWRRIQKEEDGVIRRRVALLDPVKVNTKVTVFVSIRTASHSIEWLKRFSEVVSEFPEVVEFYRSGDVDYLLRVVVPDIAAYDAFYKRIAKIEIRDVSSAFAEQIKYTTELPLDYL 3i4q-a1-m3-cA_3i4q-a1-m6-cA Structure of a putative inorganic pyrophosphatase from the oil-degrading bacterium Oleispira antarctica D0VWZ3 D0VWZ3 1.63 X-RAY DIFFRACTION 42 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 166 166 3i4q-a1-m1-cA_3i4q-a1-m5-cA 3i4q-a1-m2-cA_3i4q-a1-m4-cA YNTIPAGKDLPNDIYVAIEIPANASPIKYEIDDALLVDRFATPFYPANYGYINNTLADDGDALDVLVITPYPVAPGSVIRARPVGVLKSDEAGGDEKLLAVPHEKLTQLYNDIHDIDDVPQLLKDQIVHFFEHYKDLEGKWVKVEGWENADAARAAIVKSAAAYKG YNTIPAGKDLPNDIYVAIEIPANASPIKYEIDDALLVDRFATPFYPANYGYINNTLADDGDALDVLVITPYPVAPGSVIRARPVGVLKSDEAGGDEKLLAVPHEKLTQLYNDIHDIDDVPQLLKDQIVHFFEHYKDLEGKWVKVEGWENADAARAAIVKSAAAYKG 3i4q-a1-m5-cA_3i4q-a1-m6-cA Structure of a putative inorganic pyrophosphatase from the oil-degrading bacterium Oleispira antarctica D0VWZ3 D0VWZ3 1.63 X-RAY DIFFRACTION 48 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 166 166 3i4q-a1-m1-cA_3i4q-a1-m2-cA 3i4q-a1-m1-cA_3i4q-a1-m3-cA 3i4q-a1-m2-cA_3i4q-a1-m3-cA 3i4q-a1-m4-cA_3i4q-a1-m5-cA 3i4q-a1-m4-cA_3i4q-a1-m6-cA YNTIPAGKDLPNDIYVAIEIPANASPIKYEIDDALLVDRFATPFYPANYGYINNTLADDGDALDVLVITPYPVAPGSVIRARPVGVLKSDEAGGDEKLLAVPHEKLTQLYNDIHDIDDVPQLLKDQIVHFFEHYKDLEGKWVKVEGWENADAARAAIVKSAAAYKG YNTIPAGKDLPNDIYVAIEIPANASPIKYEIDDALLVDRFATPFYPANYGYINNTLADDGDALDVLVITPYPVAPGSVIRARPVGVLKSDEAGGDEKLLAVPHEKLTQLYNDIHDIDDVPQLLKDQIVHFFEHYKDLEGKWVKVEGWENADAARAAIVKSAAAYKG 3i4s-a1-m1-cA_3i4s-a1-m1-cB CRYSTAL STRUCTURE OF HISTIDINE TRIAD PROTEIN blr8122 FROM Bradyrhizobium japonicum Q89BM6 Q89BM6 1.75 X-RAY DIFFRACTION 93 0.993 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 134 134 AWSLHSRLKEDTIDIGDLPLSKVLVIKDANYPWLLLVPRRPDAVEIIDLDEVQQAQLMTEISRVSRALKEITKCDKLNIAALGNLVPQLHVHIIARRTGDAAWPRPVWGVMQPLAHDATEVQNFISALRRKIWL PAWSLHSRLKEDTIDIGDLPLSKVLVIKDANYPWLLLVPRRPDAVEIIDLDEVQQAQLMTEISRVSRALKEITKCDKLNIAALGNLVPQLHVHIIARRTGDAAWPRPVWGVMQPLAHDATEVQNFISALRRKIW 3i4t-a1-m1-cA_3i4t-a1-m2-cA Crystal structure of putative diphthine synthase from Entamoeba histolytica C4LWZ7 C4LWZ7 2.49 X-RAY DIFFRACTION 135 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 252 252 GSMLYIIGLGLYDEKDITVRGLEAVKSCDLVFLEHYTAILQCDVAKLEEFYGKKVIIGEADQILEPAKTKNVALLVVGDVYGATTHSDIFVRCQKMGIEVKVIHNASIMNAIGCSGLQLYRFGQTVSVCFWSEHWRPSSYYPKIKINRDNNMHTLVLLDIKVKEEPPRYMTINQCIEQLLEVEKEQHLGVYDEDTMVVGMARVACADQKIVYGKMKDLLHYDFGAPMHCLLIPAPQVDDPELDQLEYFKYKP GSMLYIIGLGLYDEKDITVRGLEAVKSCDLVFLEHYTAILQCDVAKLEEFYGKKVIIGEADQILEPAKTKNVALLVVGDVYGATTHSDIFVRCQKMGIEVKVIHNASIMNAIGCSGLQLYRFGQTVSVCFWSEHWRPSSYYPKIKINRDNNMHTLVLLDIKVKEEPPRYMTINQCIEQLLEVEKEQHLGVYDEDTMVVGMARVACADQKIVYGKMKDLLHYDFGAPMHCLLIPAPQVDDPELDQLEYFKYKP 3i4u-a1-m1-cA_3i4u-a1-m2-cA Crystal Structure Analysis of a helicase associated domain Q14562 Q14562 2.1 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 241 241 GSPMETLITAMEQLYTLGALDDEGLLTRLGRRMAEFPLEPMLCKMLIMSVHLGCSEEMLTIVSMLSVQNVFYRPKDKQALADQKKAKFHQTEGDHLTLLAVYNSWKNNKFSNPWCYENFIQARSLRRAQDIRKQMLGIMDRHKLDVVSCGKSTVRVQKAICSGFFRNAAKKDPQEGYRTLIDQQVVYIHPSSALFNRQPEWVVYHELVLTTKEYMREVTTIDPRWLVEFAPAFFKVLDHGL GSPMETLITAMEQLYTLGALDDEGLLTRLGRRMAEFPLEPMLCKMLIMSVHLGCSEEMLTIVSMLSVQNVFYRPKDKQALADQKKAKFHQTEGDHLTLLAVYNSWKNNKFSNPWCYENFIQARSLRRAQDIRKQMLGIMDRHKLDVVSCGKSTVRVQKAICSGFFRNAAKKDPQEGYRTLIDQQVVYIHPSSALFNRQPEWVVYHELVLTTKEYMREVTTIDPRWLVEFAPAFFKVLDHGL 3i4z-a1-m1-cB_3i4z-a1-m1-cA Crystal structure of the dimethylallyl tryptophan synthase FgaPT2 from Aspergillus fumigatus Q50EL0 Q50EL0 1.76 X-RAY DIFFRACTION 80 1.0 421 438 3i4x-a1-m1-cB_3i4x-a1-m1-cA AANASSAEAYRVLSRAFRFDNEDQKLWWHSTAPMFAKMLETANYTTPCQYQYLITYKECVIPSLGCYPTNSAPRWLSILTRYGTPFELSLNCSNSIVRYTFEPINQHTGTDKDPFNTHAIWESLQHLLPLEKSIDLEWFRHFKHDLTLNSEESAFLAHNDRLVGGTIRTQNKLALDLKDGRFALKTYIYPALKAVVTGKTIHELVFGSVRRLAVREPRILPPLNMLEEYIRSRGSKSTASPRLVSCDLTSPAKSRIKIYLLEQMVSLEAMEDLWTLGGRRRDASTLEGLSLVRELWDLIQLSPGLKSYPAPYLPLGVIPDERLPLMANFTLHQNDPVPEPQVYFTTFGMNDMAVADALTTFFERRGWSEMARTYETTLKSYYPHADHDKLNYLHAYISFSYRDRTPYLSVYLQSFETGDWA MKAANASSAEAYRVLSRAFRFDNEDQKLWWHSTAPMFAKMLETANYTTPCQYQYLITYKECVIPSLGCYPTNSAPRWLSILTRYGTPFELSLNCSNSIVRYTFEPINQHTGTDKDPFNTHAIWESLQHLLPLEKSIDLEWFRHFKHDLTLNSEESAFLAHNDRLVGGTIRTQNKLALDLKDGRFALKTYIYPALKAVVTGKTIHELVFGSVRRLAVREPRILPPLNMLEEYIRSRGSKSTASPRLVSCDLTSPAKSRIKIYLLEQMVSLEAMEDLWTLGGRRRDASTLEGLSLVRELWDLIQLSPGLKSYPAPYLPLGVIPDERLPLMANFTLHQNDPVPEPQVYFTTFGMNDMAVADALTTFFERRGWSEMARTYETTLKSYYPHADHDKLNYLHAYISFSYRDRTPYLSVYLQSFETGDWAVAPDLSKTGVYYSGL 3i5a-a1-m1-cA_3i5a-a1-m4-cA Crystal structure of full-length WpsR from Pseudomonas syringae Q886S7 Q886S7 2.796 X-RAY DIFFRACTION 28 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 319 319 3i5a-a1-m2-cA_3i5a-a1-m3-cA SAMVLLVDDQAMIGEAVRRGLAGHESIDFHFCADPHQAIAQAVQIKPTVILQDLVMPGLDGLTLVREYRSNPLTRDIPIIVLSTKEDPLIKSAAFAAGANDYLVKLPDNIELVARIRYHSRSYMTLLQRDEAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRATRDQAQLSLLMIDVDYFKAYNDNFGHLEGDEALRQVAKAIRNSCSRPSDLPARYGGEEFAMVLPNTSPGGARLLAEKLRQSVAGMNIPHIAPVPGSSLTVSIGVATVTPQVGQHSRQLILDADKGLYLAKNNGRNQVAAG SAMVLLVDDQAMIGEAVRRGLAGHESIDFHFCADPHQAIAQAVQIKPTVILQDLVMPGLDGLTLVREYRSNPLTRDIPIIVLSTKEDPLIKSAAFAAGANDYLVKLPDNIELVARIRYHSRSYMTLLQRDEAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRATRDQAQLSLLMIDVDYFKAYNDNFGHLEGDEALRQVAKAIRNSCSRPSDLPARYGGEEFAMVLPNTSPGGARLLAEKLRQSVAGMNIPHIAPVPGSSLTVSIGVATVTPQVGQHSRQLILDADKGLYLAKNNGRNQVAAG 3i5a-a1-m2-cA_3i5a-a1-m4-cA Crystal structure of full-length WpsR from Pseudomonas syringae Q886S7 Q886S7 2.796 X-RAY DIFFRACTION 58 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 319 319 3i5a-a1-m1-cA_3i5a-a1-m3-cA SAMVLLVDDQAMIGEAVRRGLAGHESIDFHFCADPHQAIAQAVQIKPTVILQDLVMPGLDGLTLVREYRSNPLTRDIPIIVLSTKEDPLIKSAAFAAGANDYLVKLPDNIELVARIRYHSRSYMTLLQRDEAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRATRDQAQLSLLMIDVDYFKAYNDNFGHLEGDEALRQVAKAIRNSCSRPSDLPARYGGEEFAMVLPNTSPGGARLLAEKLRQSVAGMNIPHIAPVPGSSLTVSIGVATVTPQVGQHSRQLILDADKGLYLAKNNGRNQVAAG SAMVLLVDDQAMIGEAVRRGLAGHESIDFHFCADPHQAIAQAVQIKPTVILQDLVMPGLDGLTLVREYRSNPLTRDIPIIVLSTKEDPLIKSAAFAAGANDYLVKLPDNIELVARIRYHSRSYMTLLQRDEAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRATRDQAQLSLLMIDVDYFKAYNDNFGHLEGDEALRQVAKAIRNSCSRPSDLPARYGGEEFAMVLPNTSPGGARLLAEKLRQSVAGMNIPHIAPVPGSSLTVSIGVATVTPQVGQHSRQLILDADKGLYLAKNNGRNQVAAG 3i5a-a1-m3-cA_3i5a-a1-m4-cA Crystal structure of full-length WpsR from Pseudomonas syringae Q886S7 Q886S7 2.796 X-RAY DIFFRACTION 63 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 319 319 3i5a-a1-m1-cA_3i5a-a1-m2-cA SAMVLLVDDQAMIGEAVRRGLAGHESIDFHFCADPHQAIAQAVQIKPTVILQDLVMPGLDGLTLVREYRSNPLTRDIPIIVLSTKEDPLIKSAAFAAGANDYLVKLPDNIELVARIRYHSRSYMTLLQRDEAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRATRDQAQLSLLMIDVDYFKAYNDNFGHLEGDEALRQVAKAIRNSCSRPSDLPARYGGEEFAMVLPNTSPGGARLLAEKLRQSVAGMNIPHIAPVPGSSLTVSIGVATVTPQVGQHSRQLILDADKGLYLAKNNGRNQVAAG SAMVLLVDDQAMIGEAVRRGLAGHESIDFHFCADPHQAIAQAVQIKPTVILQDLVMPGLDGLTLVREYRSNPLTRDIPIIVLSTKEDPLIKSAAFAAGANDYLVKLPDNIELVARIRYHSRSYMTLLQRDEAYRALRVSQQQLLDTNLVLQRLMNSDGLTGLSNRRHFDEYLELEWRRATRDQAQLSLLMIDVDYFKAYNDNFGHLEGDEALRQVAKAIRNSCSRPSDLPARYGGEEFAMVLPNTSPGGARLLAEKLRQSVAGMNIPHIAPVPGSSLTVSIGVATVTPQVGQHSRQLILDADKGLYLAKNNGRNQVAAG 3i5c-a1-m1-cA_3i5c-a1-m1-cB Crystal structure of a fusion protein containing the leucine zipper of GCN4 and the GGDEF domain of WspR from Pseudomonas aeruginosa Q9HXT9 Q9HXT9 1.94 X-RAY DIFFRACTION 76 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 196 198 5iew-a1-m1-cA_5iew-a1-m1-cB RMKQLEDKVEELLSKNYHLENEVARLKKLVNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLM RMKQLEDKVEELLSKNYHLENEVARLKKLVNSDGLTGLSNRRHFDEYLEMEWRRSLREQSQLSLLMIDVDYFKSYNDTFGHVAGDEALRQVAGAIREGCSRSSDLAARYGGEEFAMVLPGTSPGGARLLAEKVRRTVESLQISHDQPRPGSHLTVSIGVSTLVPGGGGQTFRVLIEMADQALYQAKNNGRNQVGLMEQ 3i5t-a1-m1-cB_3i5t-a1-m1-cA CRYSTAL STRUCTURE OF AMINOTRANSFERASE PRK07036 FROM Rhodobacter sphaeroides KD131 Q3IWE9 Q3IWE9 2 X-RAY DIFFRACTION 413 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 442 444 AVGAAMRDHILLPAQEMAKLGKSAQPVLTHAEGIYVHTEDGRRLIDGPAGMWCAQVGYGRREIVDAMAHQAMVLPYASPWYMATSPAARLAEKIATLTPGDLNRIFFTTGGSTAVDSALRFSEFYNNVLGRPQKKRIIVRYDGYHGSTALTAACTGRTGNWPNFDIAQDRISFLSSPNPRHAGNRSQEAFLDDLVQEFEDRIESLGPDTIAAFLAEPILASGGVIIPPAGYHARFKAICEKHDILYISDEVVTGFGRCGEWFASEKVFGVVPDIITFAKGVTSGYVPLGGLAISEAVLARISGENAKGSWFTNGYTYSNQPVACAAALANIELMEREGIVDQAREMADYFAAALASLRDLPGVAETRSVGLVGCVQCLLGTAEDKAFTLKIDERCFELGLIVRPLGDLCVISPPLIISRAQIDEMVAIMRQAITEVSAAHGL AVGAAMRDHILLPAQEMAKLGKSAQPVLTHAEGIYVHTEDGRRLIDGPAGMWCAQVGYGRREIVDAMAHQAMVLPYASPWYMATSPAARLAEKIATLTPGDLNRIFFTTGGSTAVDSALRFSEFYNNVLGRPQKKRIIVRYDGYHGSTALTAACTGRTGNWPNFDIAQDRISFLSSPNPRHAGNRSQEAFLDDLVQEFEDRIESLGPDTIAAFLAEPILASGGVIIPPAGYHARFKAICEKHDILYISDEVVTGFGRCGEWFASEKVFGVVPDIITFAKGVTSGYVPLGGLAISEAVLARISGENAKGSWFTNGYTYSNQPVACAAALANIELMEREGIVDQAREMADYFAAALASLRDLPGVAETRSVGLVGCVQCLLDGTAEDKAFTLKIDERCFELGLIVRPLGDLCVISPPLIISRAQIDEMVAIMRQAITEVSAAHGLT 3i64-a1-m1-cA_3i64-a1-m1-cB Crystal structure of an O-methyltransferase (NcsB1) from neocarzinostatin biosynthesis in complex with S-adenosyl-L-homocysteine (SAH) and 1,4-dihydroxy-2-naphthoic acid (DHN) Q84HC8 Q84HC8 3 X-RAY DIFFRACTION 192 1.0 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 328 328 3i53-a1-m1-cB_3i53-a1-m1-cA 3i58-a1-m1-cA_3i58-a1-m1-cB 3i5u-a1-m1-cA_3i5u-a1-m1-cB AAHIGLRALADLATPMAVRVAATLRVADHIAAGHRTAAEIASAAGAHADSLDRLLRHLVAVGLFTRDGQGVYGLTEFGEQLRDDHAAGKRKWLDMNSAVGRGDLGFVELAHSIRTGQPAYPVRYGTSFWEDLGSDPVLSASFDTLMSHHLELDYTGIAAKYDWAALGHVVDVGGGSGGLLSALLTAHEDLSGTVLDLQGPASAAHRRFLDTGLSGRAQVVVGSFFDPLPAGAGGYVLSAVLHDWDDLSAVAILRRCAEAAGSGGVVLVIEAVAGDEHAGTGMDLRMLTYFGGKERSLAELGELAAQAGLAVRAAHPISYVSIVEMTAL AAHIGLRALADLATPMAVRVAATLRVADHIAAGHRTAAEIASAAGAHADSLDRLLRHLVAVGLFTRDGQGVYGLTEFGEQLRDDHAAGKRKWLDMNSAVGRGDLGFVELAHSIRTGQPAYPVRYGTSFWEDLGSDPVLSASFDTLMSHHLELDYTGIAAKYDWAALGHVVDVGGGSGGLLSALLTAHEDLSGTVLDLQGPASAAHRRFLDTGLSGRAQVVVGSFFDPLPAGAGGYVLSAVLHDWDDLSAVAILRRCAEAAGSGGVVLVIEAVAGDEHAGTGMDLRMLTYFGGKERSLAELGELAAQAGLAVRAAHPISYVSIVEMTAL 3i6e-a4-m1-cF_3i6e-a4-m1-cH CRYSTAL STRUCTURE OF MUCONATE LACTONIZING ENZYME FROM Ruegeria pomeroyi. Q5LM96 Q5LM96 1.7 X-RAY DIFFRACTION 93 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 356 356 3i6e-a1-m1-cA_3i6e-a1-m1-cB 3i6e-a2-m1-cC_3i6e-a2-m1-cE 3i6e-a3-m1-cD_3i6e-a3-m1-cG LEQKIIAMDLWHLALPVCEIVVLRLVAEGGAEGFGEASPWAVFTGTPEASYAALDRYLRPLVIGRRVGDRVAIMDEAARAVAHCTEAKAALDSALLDLAGRISNLPVWALLGGKCRDTIPLSCSIANPDFDADIALMERLRADGVGLIKLKTGFRDHAFDIMRLELIARDFPEFRVRVDYNQGLEIDEAVPRVLDVAQFQPDFIEQPVRAHHFELMARLRGLTDVPLLADESVYGPEDMVRAAHEGICDGVSIKIMKSGGLTRAQTVARIAAAHGLMAYGGDMFEAGLAHLAGTHMIAATPEITLGCEFYQASYFLNEDILETPFRVEAGQVIVPDGPGLGARADPEKLEHYAVRR LEQKIIAMDLWHLALPVCEIVVLRLVAEGGAEGFGEASPWAVFTGTPEASYAALDRYLRPLVIGRRVGDRVAIMDEAARAVAHCTEAKAALDSALLDLAGRISNLPVWALLGGKCRDTIPLSCSIANPDFDADIALMERLRADGVGLIKLKTGFRDHAFDIMRLELIARDFPEFRVRVDYNQGLEIDEAVPRVLDVAQFQPDFIEQPVRAHHFELMARLRGLTDVPLLADESVYGPEDMVRAAHEGICDGVSIKIMKSGGLTRAQTVARIAAAHGLMAYGGDMFEAGLAHLAGTHMIAATPEITLGCEFYQASYFLNEDILETPFRVEAGQVIVPDGPGLGARADPEKLEHYAVRR 3i6s-a1-m1-cB_3i6s-a1-m1-cA Crystal Structure of the plant subtilisin-like protease SBT3 O82777 O82777 2.5 X-RAY DIFFRACTION 67 0.998 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 639 642 3i74-a1-m1-cB_3i74-a1-m1-cA TTHTSDFLKLNPSSGLWPASGLGQDVIVAVLSGIWPESASFQDDGMPEIPKRWKGICKPGTQFNASMCNRKLIGANYFNKGILANDPTVNITMNSARDTDGHGTHCASITAGNFAKGVSHFGYAPGTARGVAPRARLAVYKFSFNEGTFTSDLIAAMDQAVADGVDMISISYGYRFIPLYEDAISIASFGAMMKGVLVSASAGNRGPGIGSLNNGSPWILCVASGHTDRTFAGTLTLGNGLKIRGWSLFPARAFVRDSPVIYNKTLSDCSSEELLSQVENPENTIVICDDNGDFSDQMRIITRARLKAAIFISEDPGVFRSATFPNPGVVVNKKEGKQVINYVKNSVTPTATITFQETYLTKPAPVVAASSARGPSRSYLGISKPDILAPGVLILAAYPPNVFATSIGTNILLSTDYILESGTSMAAPHAAGIAAMLKAAHPEWSPSAIRSAMMTTADPLDRKPIKDSDNNKAATPLDMGAGHVDPNRALDPGLVYDATPQDYVNLLCSLNFTEEQFKTIARSSASHCSNPSADLNYPSFIALYSIEGNFTLLEQKFKRTVTNVGAATYKAKLKAPKNSTISVSPQILVFKNKNEKQSYTLTIRYIGDSRNVGSITWVEQNGNHSVRSPIVTSPIIEVW TTHTSDFLKLNPSSGLWPASGLGQDVIVAVLDSGIWPESASFQDDGMPEIPKRWKGICKPGTQFNASMCNRKLIGANYFNKGILANDPTVNITMNSARDTDGHGTHCASITAGNFAKGVSHFGYAPGTARGVAPRARLAVYKFSFNEGTFTSDLIAAMDQAVADGVDMISISYGYRFIPLYEDAISIASFGAMMKGVLVSASAGNRGPGIGSLNNGSPWILCVASGHTDRTFAGTLTLGNGLKIRGWSLFPARAFVRDSPVIYNKTLSDCSSEELLSQVENPENTIVICDDNGDFSDQMRIITRARLKAAIFISEDPGVFRSATFPNPGVVVNKKEGKQVINYVKNSVTPTATITFQETYLDTKPAPVVAASSARGPSRSYLGISKPDILAPGVLILAAYPPNVFATSIGTNILLSTDYILESGTSMAAPHAAGIAAMLKAAHPEWSPSAIRSAMMTTADPLDNTRKPIKDSDNNKAATPLDMGAGHVDPNRALDPGLVYDATPQDYVNLLCSLNFTEEQFKTIARSSASHCSNPSADLNYPSFIALYSIEGNFTLLEQKFKRTVTNVGAATYKAKLKAPKNSTISVSPQILVFKNNEKQSYTLTIRYIGDSRNVGSITWVEQNGNHSVRSPIVTSPIIEVW 3i6t-a2-m5-cD_3i6t-a2-m7-cD Crystal structure of muconate cycloisomerase from Jannaschia sp. Q28SI7 Q28SI7 1.9 X-RAY DIFFRACTION 19 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 353 353 3i6t-a1-m1-cA_3i6t-a1-m3-cA 3i6t-a1-m1-cA_3i6t-a1-m4-cA 3i6t-a1-m1-cC_3i6t-a1-m3-cC 3i6t-a1-m1-cC_3i6t-a1-m4-cC 3i6t-a1-m2-cA_3i6t-a1-m3-cA 3i6t-a1-m2-cA_3i6t-a1-m4-cA 3i6t-a1-m2-cC_3i6t-a1-m3-cC 3i6t-a1-m2-cC_3i6t-a1-m4-cC 3i6t-a2-m1-cB_3i6t-a2-m6-cB 3i6t-a2-m1-cB_3i6t-a2-m7-cB 3i6t-a2-m1-cD_3i6t-a2-m6-cD 3i6t-a2-m1-cD_3i6t-a2-m7-cD 3i6t-a2-m5-cB_3i6t-a2-m6-cB 3i6t-a2-m5-cB_3i6t-a2-m7-cB 3i6t-a2-m5-cD_3i6t-a2-m6-cD QIIAGFTLWHLSLPVTGAVEVVVLRLQADSGAVGYGEASPWVVFTGSVEATYAALDRYLRPLVLGRAVGDHAAIMEDARAAVAHCTEAKAALDTALYDLRARIAGVPVWALLGGRCRDRIPLSCSIADPDFDKDLALMQRLQDDDVRIIKLKTGFKDHAFDMMRLERLRADFPAFDIRVDYNQGLHHDVALARVRDVATFKPTFIEQPVKAHLRGLMARIRDAVDVPLLADESIFGPEDMAEHPEIADGVSIKIMKSGGLTRAQTVARMAAARGLSAYGGDMFEAGLAHLAGAHMIAATPEITLGCEFYQATYFLCDDILAAPFPVADGHVLVPDTPGLGVDVDEDALARFAV QIIAGFTLWHLSLPVTGAVEVVVLRLQADSGAVGYGEASPWVVFTGSVEATYAALDRYLRPLVLGRAVGDHAAIMEDARAAVAHCTEAKAALDTALYDLRARIAGVPVWALLGGRCRDRIPLSCSIADPDFDKDLALMQRLQDDDVRIIKLKTGFKDHAFDMMRLERLRADFPAFDIRVDYNQGLHHDVALARVRDVATFKPTFIEQPVKAHLRGLMARIRDAVDVPLLADESIFGPEDMAEHPEIADGVSIKIMKSGGLTRAQTVARMAAARGLSAYGGDMFEAGLAHLAGAHMIAATPEITLGCEFYQATYFLCDDILAAPFPVADGHVLVPDTPGLGVDVDEDALARFAV 3i6t-a2-m7-cD_3i6t-a2-m5-cB Crystal structure of muconate cycloisomerase from Jannaschia sp. Q28SI7 Q28SI7 1.9 X-RAY DIFFRACTION 89 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 353 364 3i6t-a1-m1-cC_3i6t-a1-m1-cA 3i6t-a1-m2-cC_3i6t-a1-m2-cA 3i6t-a1-m3-cC_3i6t-a1-m3-cA 3i6t-a1-m4-cC_3i6t-a1-m4-cA 3i6t-a2-m1-cD_3i6t-a2-m7-cB 3i6t-a2-m5-cD_3i6t-a2-m6-cB 3i6t-a2-m6-cD_3i6t-a2-m1-cB QIIAGFTLWHLSLPVTGAVEVVVLRLQADSGAVGYGEASPWVVFTGSVEATYAALDRYLRPLVLGRAVGDHAAIMEDARAAVAHCTEAKAALDTALYDLRARIAGVPVWALLGGRCRDRIPLSCSIADPDFDKDLALMQRLQDDDVRIIKLKTGFKDHAFDMMRLERLRADFPAFDIRVDYNQGLHHDVALARVRDVATFKPTFIEQPVKAHLRGLMARIRDAVDVPLLADESIFGPEDMAEHPEIADGVSIKIMKSGGLTRAQTVARMAAARGLSAYGGDMFEAGLAHLAGAHMIAATPEITLGCEFYQATYFLCDDILAAPFPVADGHVLVPDTPGLGVDVDEDALARFAV QIIAGFTLWHLSLPVTARRDHGIGSVAGAVEVVVLRLQADSGAVGYGEASPWVVFTGSVEATYAALDRYLRPLVLGRAVGDHAAIMEDARAAVAHCTEAKAALDTALYDLRARIAGVPVWALLGGRCRDRIPLSCSIADPDFDKDLALMQRLQDDDVRIIKLKTGFKDHAFDMMRLERLRADFPAFDIRVDYNQGLHHDVALARVRDVATFKPTFIEQPVKAHLRGLMARIRDAVDVPLLADESIFGPEDMAEHPEIADGVSIKIMKSGGLTRAQTVARMAAARGLSAYGGDMFEAGLAHLAGAHMIAATPEITLGCEFYQATYFLCDDILAAPFPVADGHVLVPDTPGLGVDVDEDALARFAV 3i6t-a2-m7-cD_3i6t-a2-m7-cB Crystal structure of muconate cycloisomerase from Jannaschia sp. Q28SI7 Q28SI7 1.9 X-RAY DIFFRACTION 77 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 353 364 3i6t-a1-m1-cC_3i6t-a1-m3-cA 3i6t-a1-m2-cC_3i6t-a1-m4-cA 3i6t-a1-m3-cC_3i6t-a1-m2-cA 3i6t-a1-m4-cC_3i6t-a1-m1-cA 3i6t-a2-m1-cD_3i6t-a2-m1-cB 3i6t-a2-m5-cD_3i6t-a2-m5-cB 3i6t-a2-m6-cD_3i6t-a2-m6-cB QIIAGFTLWHLSLPVTGAVEVVVLRLQADSGAVGYGEASPWVVFTGSVEATYAALDRYLRPLVLGRAVGDHAAIMEDARAAVAHCTEAKAALDTALYDLRARIAGVPVWALLGGRCRDRIPLSCSIADPDFDKDLALMQRLQDDDVRIIKLKTGFKDHAFDMMRLERLRADFPAFDIRVDYNQGLHHDVALARVRDVATFKPTFIEQPVKAHLRGLMARIRDAVDVPLLADESIFGPEDMAEHPEIADGVSIKIMKSGGLTRAQTVARMAAARGLSAYGGDMFEAGLAHLAGAHMIAATPEITLGCEFYQATYFLCDDILAAPFPVADGHVLVPDTPGLGVDVDEDALARFAV QIIAGFTLWHLSLPVTARRDHGIGSVAGAVEVVVLRLQADSGAVGYGEASPWVVFTGSVEATYAALDRYLRPLVLGRAVGDHAAIMEDARAAVAHCTEAKAALDTALYDLRARIAGVPVWALLGGRCRDRIPLSCSIADPDFDKDLALMQRLQDDDVRIIKLKTGFKDHAFDMMRLERLRADFPAFDIRVDYNQGLHHDVALARVRDVATFKPTFIEQPVKAHLRGLMARIRDAVDVPLLADESIFGPEDMAEHPEIADGVSIKIMKSGGLTRAQTVARMAAARGLSAYGGDMFEAGLAHLAGAHMIAATPEITLGCEFYQATYFLCDDILAAPFPVADGHVLVPDTPGLGVDVDEDALARFAV 3i6u-a1-m1-cB_3i6u-a1-m1-cA Structure and Activation Mechanism of the CHK2 DNA-Damage Checkpoint Kinase O96017 O96017 3 X-RAY DIFFRACTION 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 390 TPAPWARLWALQDGFANLECVNDNYWFGRDKSCEYCFDEPLLKRTDKYRTYSKKHFRIFREVGPKNSYIAYIEDHSGNGTFVNTELVGKGKRRPLNNNSEIALSLSRNKVFVFFDLTVDDQSVYPKALRDEYIMSKTLGSGACGEVKLAFERKTCKKVAIRIISKRKFAIGLNVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFPTYLAPEVLVNRAVDCWSLGVILFICLSGYPPFSEVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSE TPAPWARLWALQDGFANLECVNDNYWFGRDKSCEYCFDEPLLKRTDKYRTYSKKHFRIFREVGPKNSYIAYIEDHSGNGTFVNTELVGKGKRRPLNNNSEIALSLSRNKVFVFFDLTVDDQSVYPKALRDEYIMSKTLGSGACGEVKLAFERKTCKKVAIRIISKRKFAIGLNVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILGPTYLAPEVLVAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSE 3i6w-a4-m1-cG_3i6w-a4-m1-cH Structure and Activation Mechanism of the CHK2 DNA-Damage Checkpoint Kinase O96017 O96017 3.25 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 369 382 3i6w-a1-m1-cA_3i6w-a1-m1-cB 3i6w-a2-m1-cC_3i6w-a2-m1-cD 3i6w-a3-m1-cE_3i6w-a3-m1-cF PWARLWALQDGFANLECVNDNYWFGRDKSCEYCFDEPLLKRTDKYRTYSKKHFRIFREVGPKNSYIAYIEDHSGNGTFVNTELVGKGKRRPLNNNSEIALSLSRNKVFVFFDLTVDDQSVYPKALRDEYIMSKTLGEVKLAFERKTCKKVAIRIISKLNVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFPTYLAPEVLVAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSE PWARLWALQDGFANLECVNDNYWFGRDKSCEYCFDEPLLKRTDKYRTYSKKHFRIFREVGPKNSYIAYIEDHSGNGTFVNTELVGKGKRRPLNNNSEIALSLSRNKVFVFFDLTVDDQSVYPKALRDEYIMSKTLGEVKLAFERKTCKKVAIRIISKLNVETEIEILKKLNHPCIIKIKNFFDAEDYYIVLELMEGGELFDKVVGNKRLKEATCKLYFYQMLLAVQYLHENGIIHRDLKPENVLLSSQEEDCLIKITDFGHSKILGETSLMRPTYLAPEVLVAGYNRAVDCWSLGVILFICLSGYPPFSEHRTQVSLKDQITSGKYNFIPEVWAEVSEKALDLVKKLLVVDPKARFTTEEALRHPWLQDEDMKRKFQDLLSE 3i71-a2-m1-cA_3i71-a2-m1-cB Ethanolamine Utilization Microcompartment Shell Subunit, EutK C-terminal domain P76540 P76540 2.1 X-RAY DIFFRACTION 92 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 56 58 3i71-a1-m1-cA_3i71-a1-m1-cB 3i71-a1-m2-cA_3i71-a1-m2-cB SADELLALLTSVRQGMTAGEVAAHFGWPLEKARNALEQLFSAGTLRKRSSRYRLKP AESADELLALLTSVRQGMTAGEVAAHFGWPLEKARNALEQLFSAGTLRKRSSRYRLKP 3i71-a4-m1-cB_3i71-a4-m2-cB Ethanolamine Utilization Microcompartment Shell Subunit, EutK C-terminal domain P76540 P76540 2.1 X-RAY DIFFRACTION 58 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 58 58 3i71-a1-m1-cB_3i71-a1-m2-cB AESADELLALLTSVRQGMTAGEVAAHFGWPLEKARNALEQLFSAGTLRKRSSRYRLKP AESADELLALLTSVRQGMTAGEVAAHFGWPLEKARNALEQLFSAGTLRKRSSRYRLKP 3i7d-a1-m1-cA_3i7d-a1-m1-cB Crystal structure of sugar phosphate isomerase from a cupin superfamily SPO2919 from Silicibacter pomeroyi (YP_168127.1) from SILICIBACTER POMEROYI DSS-3 at 2.30 A resolution Q5LPC9 Q5LPC9 2.3 X-RAY DIFFRACTION 109 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 150 150 PKLDLDSIERRIGSVYPGRLNAADGRSSLRLGDAGGLSQFGVNLVRLEPGAKSSLRHYHEQDEFVVTEGALVLVDDQGEHPVPGDCAAFPAGDPNGHQFVNRTDAPATFLVVGTRTPTETAYYSDDVKQDASGFAFTRKDGSPLTADQIG PKLDLDSIERRIGSVYPGRLNAADGRSSLRLGDAGGLSQFGVNLVRLEPGAKSSLRHYHEQDEFVVTEGALVLVDDQGEHPVPGDCAAFPAGDPNGHQFVNRTDAPATFLVVGTRTPTETAYYSDDVKQDASGFAFTRKDGSPLTADQIG 3i7f-a1-m1-cB_3i7f-a1-m1-cA Aspartyl tRNA synthetase from Entamoeba histolytica C4LZN0 C4LZN0 2.8 X-RAY DIFFRACTION 286 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 483 485 QLPPVVLLKTPELVSGENFKVMPMHQSQPCYKTGLKYTEIEELVPAMAEKTVTIRARVQAVRGKGNMVFLFLRKGIYTCQALVMKSETISKEFVQFCQKISAESICDITGIVKAVEKPIEKATQQDVEIHVTSIAVVSLAEYPLPMQIEDLTFPSSVFKKQEEDIAKKASAQKYVKVSQDTRLDNRMLDLRTVTNIAIFRIQSACCGLFREFLTSQKFVEIHTPKLIYLAQSPQLYKQMAIMGDFRKVFEVGPVFRAENSNTRRHLTEFEGLDIEMEIVENYHECIDVMEKLFTFIFDEIPKRFPDELKVIRKQYPFEDLIYRPFLRLTYKEAIEMLRASGETIGDYDDFTTPQEVKLGELIKAKYNTDFYILDKFPAAIRPFYTMPDIDDPNYSNSYDVFVRGQEITSGAQRIHDPEFLMKRCIEKGVDPATLKDYIESFRFGSWPHAGCGIGLERITMLYLGIPNIRKVTLFPRDPIRLNP QLPPVVLLKTPELVSGENFKVMPMHQSQPCYKTGLKYTEIEELVPAMAEKTVTIRARVQAVRGKGNMVFLFLRKGIYTCQALVMKSETISKEFVQFCQKISAESICDITGIVKAVEKPIEKATQQDVEIHVTSIAVVSLAEYPLPMQIEDLTFPSSVFKKQEEDIAKVKASAQKYVKVSQDTRLDNRMLDLRTVTNIAIFRIQSACCGLFREFLTSQKFVEIHTPKLIAYLAQSPQLYKQMAIMGDFRKVFEVGPVFRAENSNTRRHLTEFEGLDIEMEIVENYHECIDVMEKLFTFIFDEIPKRFPDELKVIRKQYPFEDLIYRPFLRLTYKEAIEMLRASGETIGDYDDFTTPQEVKLGELIKAKYNTDFYILDKFPAAIRPFYTMPDIDDPNYSNSYDVFVRGQEITSGAQRIHDPEFLMKRCIEKGVDPATLKDYIESFRFGSWPHAGCGIGLERITMLYLGIPNIRKVTLFPRDPIRLNP 3i7t-a1-m2-cA_3i7t-a1-m3-cA Crystal structure of Rv2704, a member of highly conserved YjgF/YER057c/UK114 family, from Mycobacterium tuberculosis O07205 O07205 1.93 X-RAY DIFFRACTION 75 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 118 118 3i7t-a1-m1-cA_3i7t-a1-m2-cA 3i7t-a1-m1-cA_3i7t-a1-m3-cA SRTMVSSGSEFESAVGYSRAVRIGPLVVVAGTTGSGDDIAAQTRDALRRIEIALGQAGATLADVVRTRIYVTDISRWREVGEVHAQAFGKIRPVTSMVEVTALIAPGLLVEIEADAYV SRTMVSSGSEFESAVGYSRAVRIGPLVVVAGTTGSGDDIAAQTRDALRRIEIALGQAGATLADVVRTRIYVTDISRWREVGEVHAQAFGKIRPVTSMVEVTALIAPGLLVEIEADAYV 3i7u-a1-m1-cB_3i7u-a1-m1-cC Crystal structure of AP4A hydrolase (aq_158) from Aquifex aeolicus VF5 O66548 O66548 1.8 X-RAY DIFFRACTION 32 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 133 134 MKKEFSAGGVLFKDGEVLLIKTPSNVWSFPKGNIEPGEKPEETAVREVWEETGVKGEILDYIGEIHYWYTLKGERIFKTVKYYLMKYKEGEPRPSWEVKDAKFFPIKEAKKLLKYKGDKEIFEKALKLKEKFK MKKEFSAGGVLFKDGEVLLIKTPSNVWSFPKGNIEPGEKPEETAVREVWEETGVKGEILDYIGEIHYWYTLKGERIFKTVKYYLMKYKEGEPRPSWEVKDAKFFPIKEAKKLLKYKGDKEIFEKALKLKEKFKL 3i7u-a1-m1-cB_3i7u-a1-m1-cD Crystal structure of AP4A hydrolase (aq_158) from Aquifex aeolicus VF5 O66548 O66548 1.8 X-RAY DIFFRACTION 24 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 133 134 3i7u-a1-m1-cA_3i7u-a1-m1-cC MKKEFSAGGVLFKDGEVLLIKTPSNVWSFPKGNIEPGEKPEETAVREVWEETGVKGEILDYIGEIHYWYTLKGERIFKTVKYYLMKYKEGEPRPSWEVKDAKFFPIKEAKKLLKYKGDKEIFEKALKLKEKFK MKKEFSAGGVLFKDGEVLLIKTPSNVWSFPKGNIEPGEKPEETAVREVWEETGVKGEILDYIGEIHYWYTLKGERIFKTVKYYLMKYKEGEPRPSWEVKDAKFFPIKEAKKLLKYKGDKEIFEKALKLKEKFKL 3i7u-a1-m1-cC_3i7u-a1-m1-cD Crystal structure of AP4A hydrolase (aq_158) from Aquifex aeolicus VF5 O66548 O66548 1.8 X-RAY DIFFRACTION 22 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 134 134 3i7u-a1-m1-cA_3i7u-a1-m1-cB MKKEFSAGGVLFKDGEVLLIKTPSNVWSFPKGNIEPGEKPEETAVREVWEETGVKGEILDYIGEIHYWYTLKGERIFKTVKYYLMKYKEGEPRPSWEVKDAKFFPIKEAKKLLKYKGDKEIFEKALKLKEKFKL MKKEFSAGGVLFKDGEVLLIKTPSNVWSFPKGNIEPGEKPEETAVREVWEETGVKGEILDYIGEIHYWYTLKGERIFKTVKYYLMKYKEGEPRPSWEVKDAKFFPIKEAKKLLKYKGDKEIFEKALKLKEKFKL 3i82-a1-m2-cA_3i82-a1-m3-cA Ethanolamine Utilization Microcompartment Shell Subunit, EutL Closed Form P76541 P76541 2.31 X-RAY DIFFRACTION 95 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 216 216 3gfh-a1-m1-cA_3gfh-a1-m2-cA 3gfh-a1-m1-cA_3gfh-a1-m3-cA 3gfh-a1-m2-cA_3gfh-a1-m3-cA 3gfh-a2-m1-cB_3gfh-a2-m4-cB 3gfh-a2-m1-cB_3gfh-a2-m5-cB 3gfh-a2-m4-cB_3gfh-a2-m5-cB 3i82-a1-m1-cA_3i82-a1-m2-cA 3i82-a1-m1-cA_3i82-a1-m3-cA 3i87-a1-m1-cA_3i87-a1-m2-cA 3i87-a1-m1-cA_3i87-a1-m3-cA 3i87-a1-m2-cA_3i87-a1-m3-cA PALDLIRPSVTAMRVIASVNADFARELKLPPHIRSLGLISADSDDVTYIAADEATKQAMVEVVYGRSLYAGAAHGPSPTAGEVLIMLGGPNPAEVRAGLDAMIAHIENGAAFQWANDAQDTAFLAHVVSRTGSYLSSTAGITLGDPMAYLVAPPLEATYGIDAALKSADVQLATYVPPPSETNYSAAFLTGSQAACKAACNAFTDAVLEIARNPIQ PALDLIRPSVTAMRVIASVNADFARELKLPPHIRSLGLISADSDDVTYIAADEATKQAMVEVVYGRSLYAGAAHGPSPTAGEVLIMLGGPNPAEVRAGLDAMIAHIENGAAFQWANDAQDTAFLAHVVSRTGSYLSSTAGITLGDPMAYLVAPPLEATYGIDAALKSADVQLATYVPPPSETNYSAAFLTGSQAACKAACNAFTDAVLEIARNPIQ 3i83-a1-m1-cB_3i83-a1-m1-cA Crystal structure of 2-dehydropantoate 2-reductase from Methylococcus capsulatus Q604L6 Q604L6 1.9 X-RAY DIFFRACTION 82 1.0 414 (Methylococcus capsulatus) 414 (Methylococcus capsulatus) 287 310 NILVIGTGAIGSFYGALLAKTGHCVSVVSRSDYETVKAKGIRIRSATLGDYTFRPAAVVRDCTLLCDRVGLLRDAVAGIVLISNGIDIEPEVAAAFPEVISGLAFIGVTRTAPGEIWHQAYGRLMLGNYPGGVSERVKTLAAAFEEAGIDGIATENITTARWQKCVWNAAFNPLSVLSGGLDTLDILSTQEGFVRAIMQEIRAVAAANGHPLPEDIVEKNVASTYKMPPYKTSMLVDFEAGQPMETEVILGNAVRAGRRTRVAIPHLESVYALMKLLELRTSKSLWG LNILVIGTGAIGSFYGALLAKTGHCVSVVSRSDYETVKAKGIRIRSATLGDYTFRPAAVVRSAAELETKPDCTLLCIKVVEGADRVGLLRDAVAPDTGIVLISNGIDIEPEVAAAFPDNEVISGLAFIGVTRTAPGEIWHQAYGRLMLGNYPGGVSERVKTLAAAFEEAGIDGIATENITTARWQKCVWNAAFNPLSVLSGGLDTLDILSTQEGFVRAIMQEIRAVAAANGHPLPEDIVEKNVASTYKMPPYKTSMLVDFEAGQPMETEVILGNAVRAGRRTRVAIPHLESVYALMKLLELRTSKSLWGN 3i84-a2-m1-cA_3i84-a2-m2-cB The Crystal Structure of Human EMMPRIN N-terminal Domain 1 in P6(1)22 space group P35613 P35613 2 X-RAY DIFFRACTION 13 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 79 85 3i84-a2-m2-cA_3i84-a2-m1-cB GTVFTTVEDLGSKILLTCSLDDSTEVTGHRWLKGGVVLKEDALPGQKTEFKVDSDDQWGEYSCVFLPEPMGTANIQLHG LLGTHGGTVFTTVEDLGSKILLTCSLDDSATEVTGHRWLKGGVVLKEDALPGQKTEFKVDSDDQWGEYSCVFLPEPMGTANIQLH 3i84-a2-m1-cB_3i84-a2-m2-cB The Crystal Structure of Human EMMPRIN N-terminal Domain 1 in P6(1)22 space group P35613 P35613 2 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 3i84-a2-m1-cA_3i84-a2-m2-cA LLGTHGGTVFTTVEDLGSKILLTCSLDDSATEVTGHRWLKGGVVLKEDALPGQKTEFKVDSDDQWGEYSCVFLPEPMGTANIQLH LLGTHGGTVFTTVEDLGSKILLTCSLDDSATEVTGHRWLKGGVVLKEDALPGQKTEFKVDSDDQWGEYSCVFLPEPMGTANIQLH 3i84-a2-m2-cA_3i84-a2-m2-cB The Crystal Structure of Human EMMPRIN N-terminal Domain 1 in P6(1)22 space group P35613 P35613 2 X-RAY DIFFRACTION 119 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 79 85 3i84-a1-m1-cA_3i84-a1-m1-cB 3i84-a2-m1-cA_3i84-a2-m1-cB GTVFTTVEDLGSKILLTCSLDDSTEVTGHRWLKGGVVLKEDALPGQKTEFKVDSDDQWGEYSCVFLPEPMGTANIQLHG LLGTHGGTVFTTVEDLGSKILLTCSLDDSATEVTGHRWLKGGVVLKEDALPGQKTEFKVDSDDQWGEYSCVFLPEPMGTANIQLH 3i8b-a2-m1-cA_3i8b-a2-m2-cA The crystal structure of xylulose kinase from Bifidobacterium adolescentis A1A0I0 A1A0I0 2 X-RAY DIFFRACTION 65 1.0 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 499 499 SLRTLVAGVDTSTQSCKVRVTDAETGELVRFGQAKHPNGTSVDPSYWWSAFQEAAEQAGGLDDVSALAVGGQQHGVILDNQGNVIRDALWNDTSSAPQAAALIEKLGAAPAQDGEPEDPIARGKQRWVKAVGSSPVASYTLTKVAWVAENEPENVKKIAAICLPHDWLSWRIAGYGPVAEGEDAHLEALFTDRSDASGTIYYDAASNEYRRDLIAVLEAAEGAKAAQSHAEAIVLPTVLGPRDAAPVKADPAIAGKNVEGGCLLAPGGGDNAASLGLGAVGDVSISLGTSGVAAAISENPTYDLTGAVSGFADCTGHYLPLACTINGSRILDAGRAALGVDYDELAKLAFASKPGANGITLVPYFDGERTPNRPNATATFSGTLANTTRENLARAFVEGLLCSQRDCLELIRSLGASITRILLIGGGAKSEAIRTLAPSILGDVTRPATDEYVAIGAARQAAWVLSGETEPPAWQLTIDGVETGEPTEAVYEAYAKARG SLRTLVAGVDTSTQSCKVRVTDAETGELVRFGQAKHPNGTSVDPSYWWSAFQEAAEQAGGLDDVSALAVGGQQHGVILDNQGNVIRDALWNDTSSAPQAAALIEKLGAAPAQDGEPEDPIARGKQRWVKAVGSSPVASYTLTKVAWVAENEPENVKKIAAICLPHDWLSWRIAGYGPVAEGEDAHLEALFTDRSDASGTIYYDAASNEYRRDLIAVLEAAEGAKAAQSHAEAIVLPTVLGPRDAAPVKADPAIAGKNVEGGCLLAPGGGDNAASLGLGAVGDVSISLGTSGVAAAISENPTYDLTGAVSGFADCTGHYLPLACTINGSRILDAGRAALGVDYDELAKLAFASKPGANGITLVPYFDGERTPNRPNATATFSGTLANTTRENLARAFVEGLLCSQRDCLELIRSLGASITRILLIGGGAKSEAIRTLAPSILGDVTRPATDEYVAIGAARQAAWVLSGETEPPAWQLTIDGVETGEPTEAVYEAYAKARG 3i8n-a1-m1-cA_3i8n-a1-m1-cB A domain of a conserved functionally known protein from Vibrio parahaemolyticus RIMD 2210633. Q87KR4 Q87KR4 2.145 X-RAY DIFFRACTION 45 0.983 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 118 120 PVTQVTPRPVVFRVDATTINEFLDKHKDTPFSRPLVYSEQKDNIIGFVHRLELFKQQSGSGQKQLGAVRPIQVVLNNTALPKVFDQTHRLQLALVVDEYGTVLGLVTLEDIFEHLVGE AQDVPVTQVTPRPVVFRVDATTINEFLDKHKDTPFSRPLVYSEQKDNIIGFVHRLELFKQQSGSGQKQLGAVRPIQVVLNNTALPKVFDQTHRLQLALVVDEYGTVLGLVTLEDIFEHLV 3i8n-a2-m1-cA_3i8n-a2-m2-cA A domain of a conserved functionally known protein from Vibrio parahaemolyticus RIMD 2210633. Q87KR4 Q87KR4 2.145 X-RAY DIFFRACTION 48 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 118 118 PVTQVTPRPVVFRVDATTINEFLDKHKDTPFSRPLVYSEQKDNIIGFVHRLELFKQQSGSGQKQLGAVRPIQVVLNNTALPKVFDQTHRLQLALVVDEYGTVLGLVTLEDIFEHLVGE PVTQVTPRPVVFRVDATTINEFLDKHKDTPFSRPLVYSEQKDNIIGFVHRLELFKQQSGSGQKQLGAVRPIQVVLNNTALPKVFDQTHRLQLALVVDEYGTVLGLVTLEDIFEHLVGE 3i8n-a3-m1-cB_3i8n-a3-m3-cB A domain of a conserved functionally known protein from Vibrio parahaemolyticus RIMD 2210633. Q87KR4 Q87KR4 2.145 X-RAY DIFFRACTION 12 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 120 120 AQDVPVTQVTPRPVVFRVDATTINEFLDKHKDTPFSRPLVYSEQKDNIIGFVHRLELFKQQSGSGQKQLGAVRPIQVVLNNTALPKVFDQTHRLQLALVVDEYGTVLGLVTLEDIFEHLV AQDVPVTQVTPRPVVFRVDATTINEFLDKHKDTPFSRPLVYSEQKDNIIGFVHRLELFKQQSGSGQKQLGAVRPIQVVLNNTALPKVFDQTHRLQLALVVDEYGTVLGLVTLEDIFEHLV 3i8o-a2-m1-cA_3i8o-a2-m2-cA A domain of a functionally unknown protein from Methanocaldococcus jannaschii DSM 2661. Q58928 Q58928 2.638 X-RAY DIFFRACTION 68 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 138 138 AKKVCVDTCVVIDGRITELIERGKLKDATIIIPEAVVSELEYQANGREIGYKGIEELRKLIEKASEHNIKVEYYGERPTREEIFLAKSGEIDAIRKVAKETNSILLTSDWIQYNLAKAQGIEAYFLEAAEEEVELVLD AKKVCVDTCVVIDGRITELIERGKLKDATIIIPEAVVSELEYQANGREIGYKGIEELRKLIEKASEHNIKVEYYGERPTREEIFLAKSGEIDAIRKVAKETNSILLTSDWIQYNLAKAQGIEAYFLEAAEEEVELVLD 3i8v-a1-m1-cB_3i8v-a1-m1-cA Crystal structure of human PDE4a with 4-(3-butoxy-4-methoxyphenyl)methyl-2-imidazolidone P27815 P27815 2.25 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 333 334 MNIPRFGVKTDQEELLAQELENLNKWGLNIFVSDYAGGRSLTCIMYMIFQERDLLKKFRIPVDTMVTYMLTLEDHYHADVAYHNSLHAADVLQSTHVLLATPALDAVFTDLEILAALFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEDNCDIFQNLSKRQRQSLRKMVIDMVLATDMSKHMTLLADLKTMVETKKVTSSGVLLLDNYSDRIQVLRNMVHCADLSNPTKPLELYRQWTDRIMAEFFQQGDRERERGMEISPMCDKHTASVEKSQVGFIDYIVHPLWETWADLVHPDAQEILDTLEDNRDWYYSAI HMNIPRFGVKTDQEELLAQELENLNKWGLNIFVSDYAGGRSLTCIMYMIFQERDLLKKFRIPVDTMVTYMLTLEDHYHADVAYHNSLHAADVLQSTHVLLATPALDAVFTDLEILAALFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEDNCDIFQNLSKRQRQSLRKMVIDMVLATDMSKHMTLLADLKTMVETKKVTSSGVLLLDNYSDRIQVLRNMVHCADLSNPTKPLELYRQWTDRIMAEFFQQGDRERERGMEISPMCDKHTASVEKSQVGFIDYIVHPLWETWADLVHPDAQEILDTLEDNRDWYYSAI 3i96-a1-m2-cC_3i96-a1-m1-cB Ethanolamine Utilization Microcompartment Shell Subunit, EutS P63746 P63746 1.65 X-RAY DIFFRACTION 60 0.982 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 109 111 3i96-a1-m1-cC_3i96-a1-m2-cB RIIQEFVPGKQVTLAHLIAHPGEELAKKIGVPDAGAIGIMTLTPGETAMIAGDLALKAADVHIGFLDRFSGALVIYGSVGAVEEALSQTVSGLGRLLNYTLCEMTKSLE MDKERIIQEFVPGKQVTLAHLIAHPGEELAKKIGVPDAGAIGIMTLTPGETAMIAGDLALKAADVHIGFLDRFSGALVIYGSVGAVEEALSQTVSGLGRLLNYTLCEMTKS 3i9f-a1-m1-cA_3i9f-a1-m1-cB Crystal structure of a putative type 11 methyltransferase from Sulfolobus solfataricus Q97YX4 Q97YX4 2.5 X-RAY DIFFRACTION 16 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 165 169 PEEYLPNIFEGKKGVIVDYGCGNGFYCKYLLEFATKLYCIDINVIALKEVKEKFDSVITLSDPKEIPDNSVDFILFANSFHDMDDKQHVISEVKRILKDDGRVIIIDWRKENTGIGPPLSIRMDEKDYMGWFSNFVVEKRFNPTPYHFGLVLKRKTSEGHHHHHH SLERPEEYLPNIFEGKKGVIVDYGCGNGFYCKYLLEFATKLYCIDINVIALKEVKEKFDSVITLSDPKEIPDNSVDFILFANSFHDMDDKQHVISEVKRILKDDGRVIIIDWRKENTGIGPPLSIRMDEKDYMGWFSNFVVEKRFNPTPYHFGLVLKRKTSEGHHHHHH 3i9f-a3-m2-cB_3i9f-a3-m3-cB Crystal structure of a putative type 11 methyltransferase from Sulfolobus solfataricus Q97YX4 Q97YX4 2.5 X-RAY DIFFRACTION 33 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 169 169 3i9f-a2-m1-cA_3i9f-a2-m2-cA 3i9f-a2-m1-cA_3i9f-a2-m3-cA 3i9f-a2-m2-cA_3i9f-a2-m3-cA 3i9f-a3-m1-cB_3i9f-a3-m2-cB 3i9f-a3-m1-cB_3i9f-a3-m3-cB SLERPEEYLPNIFEGKKGVIVDYGCGNGFYCKYLLEFATKLYCIDINVIALKEVKEKFDSVITLSDPKEIPDNSVDFILFANSFHDMDDKQHVISEVKRILKDDGRVIIIDWRKENTGIGPPLSIRMDEKDYMGWFSNFVVEKRFNPTPYHFGLVLKRKTSEGHHHHHH SLERPEEYLPNIFEGKKGVIVDYGCGNGFYCKYLLEFATKLYCIDINVIALKEVKEKFDSVITLSDPKEIPDNSVDFILFANSFHDMDDKQHVISEVKRILKDDGRVIIIDWRKENTGIGPPLSIRMDEKDYMGWFSNFVVEKRFNPTPYHFGLVLKRKTSEGHHHHHH 3i9o-a1-m1-cA_3i9o-a1-m1-cB Crystal structure of ADP ribosyl cyclase complexed with ribo-2'F-ADP ribose P29241 P29241 3 X-RAY DIFFRACTION 77 1.0 6500 (Aplysia californica) 6500 (Aplysia californica) 251 251 1lbe-a1-m1-cB_1lbe-a1-m1-cA 1r0s-a1-m1-cA_1r0s-a1-m1-cB 1r12-a1-m1-cA_1r12-a1-m1-cB 1r15-a1-m1-cA_1r15-a1-m1-cB 1r15-a2-m1-cC_1r15-a2-m1-cD 1r15-a3-m1-cE_1r15-a3-m1-cF 1r15-a4-m1-cG_1r15-a4-m1-cH 1r16-a1-m1-cA_1r16-a1-m1-cB 3i9j-a1-m1-cA_3i9j-a1-m1-cB 3i9k-a1-m1-cA_3i9k-a1-m1-cB 3i9l-a1-m1-cA_3i9l-a1-m1-cB 3zwm-a1-m1-cE_3zwm-a1-m1-cF 3zwm-a2-m1-cD_3zwm-a2-m1-cC 3zwm-a3-m1-cG_3zwm-a3-m1-cH 3zwm-a4-m1-cB_3zwm-a4-m1-cA 3zwn-a1-m1-cB_3zwn-a1-m1-cA 3zwo-a1-m1-cE_3zwo-a1-m1-cH 3zwo-a2-m1-cB_3zwo-a2-m1-cG 3zwo-a3-m1-cD_3zwo-a3-m1-cA 3zwo-a4-m1-cF_3zwo-a4-m1-cC 3zwp-a1-m1-cA_3zwp-a1-m1-cB 3zwp-a2-m1-cC_3zwp-a2-m1-cD 3zwp-a3-m1-cE_3zwp-a3-m1-cF 3zwp-a4-m1-cG_3zwp-a4-m1-cH 3zwv-a1-m1-cB_3zwv-a1-m1-cA 3zwv-a2-m1-cC_3zwv-a2-m1-cD 3zwv-a3-m1-cE_3zwv-a3-m1-cF 3zwv-a4-m1-cG_3zwv-a4-m1-cH 3zww-a1-m1-cA_3zww-a1-m1-cB 3zww-a2-m1-cC_3zww-a2-m1-cD 3zww-a3-m1-cE_3zww-a3-m1-cF 3zww-a4-m1-cG_3zww-a4-m1-cH 3zwx-a1-m1-cA_3zwx-a1-m1-cB 3zwx-a2-m1-cC_3zwx-a2-m1-cD 3zwx-a3-m1-cE_3zwx-a3-m1-cF 3zwx-a4-m1-cG_3zwx-a4-m1-cH 3zwy-a1-m1-cC_3zwy-a1-m1-cD 3zwy-a2-m1-cG_3zwy-a2-m1-cH 3zwy-a3-m1-cE_3zwy-a3-m1-cF 3zwy-a4-m1-cA_3zwy-a4-m1-cB IVPTRELENVFLGRCKDYEITRYLDILPRVRSDCSALWKDFFKAFSFKNPCDLDLGSYKDFFTSAQQQLPKNKVMFWSGVYDEAHDYANTGRKYITLEDTLPGYMLNSLVWCGQRANPGFNEKVCPDFKTCPVQARESFWGMASSSYAHSAEGEVTYMVDGSNPKVPAYRPDSFFGKYELPNLTNKVTRVKVIVLHRLGEKIIEKCGAGSLLDLEKLVKAKHFAFDCVENPRAVLFLLCSDNPNARECRLA IVPTRELENVFLGRCKDYEITRYLDILPRVRSDCSALWKDFFKAFSFKNPCDLDLGSYKDFFTSAQQQLPKNKVMFWSGVYDEAHDYANTGRKYITLEDTLPGYMLNSLVWCGQRANPGFNEKVCPDFKTCPVQARESFWGMASSSYAHSAEGEVTYMVDGSNPKVPAYRPDSFFGKYELPNLTNKVTRVKVIVLHRLGEKIIEKCGAGSLLDLEKLVKAKHFAFDCVENPRAVLFLLCSDNPNARECRLA 3i9s-a1-m1-cD_3i9s-a1-m1-cA Structure from the mobile metagenome of V.cholerae. Integron cassette protein VCH_CASS6 2.2 X-RAY DIFFRACTION 14 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 156 157 VEIKRVDKHHCLDLVGIFIELERYYFGDKAASEQDLANYLSHQVFSEHSGVKVIAAVEHDKVLGFATYTIFPAPKLSGQYKDLFVSSSARGKGIGLQLKHLATIAITHNCQRLDWTAESTNPTAGKFYKSIGASLIREKEYYRFEGNGLNKLAKSL SVEIKRVDKHHCLDLVGIFIELERYYFGDKAASEQDLANYLSHQVFSEHSGVKVIAAVEHDKVLGFATYTIFPAPKLSGQYKDLFVSSSARGKGIGLQLKHLATIAITHNCQRLDWTAESTNPTAGKFYKSIGASLIREKEYYRFEGNGLNKLAKSL 3i9s-a1-m1-cD_3i9s-a1-m1-cB Structure from the mobile metagenome of V.cholerae. Integron cassette protein VCH_CASS6 2.2 X-RAY DIFFRACTION 31 0.994 666 (Vibrio cholerae) 666 (Vibrio cholerae) 156 157 3i9s-a1-m1-cC_3i9s-a1-m1-cA VEIKRVDKHHCLDLVGIFIELERYYFGDKAASEQDLANYLSHQVFSEHSGVKVIAAVEHDKVLGFATYTIFPAPKLSGQYKDLFVSSSARGKGIGLQLKHLATIAITHNCQRLDWTAESTNPTAGKFYKSIGASLIREKEYYRFEGNGLNKLAKSL GSVEIKRVDKHHCLDLVGIFIELERYYFGDKAASEQDLANYLSHQVFSEHSGVKVIAAVEHDKVLGFATYTIFPAPKLSGQYKDLFVSSSARGKGIGLQLKHLATIAITHNCQRLDWTAESTNPTAGKFYKSIGASLIREKEYYRFEGNGLNKLAKS 3i9s-a3-m1-cC_3i9s-a3-m1-cD Structure from the mobile metagenome of V.cholerae. Integron cassette protein VCH_CASS6 2.2 X-RAY DIFFRACTION 212 0.994 666 (Vibrio cholerae) 666 (Vibrio cholerae) 156 156 3i9s-a1-m1-cA_3i9s-a1-m1-cB 3i9s-a1-m1-cC_3i9s-a1-m1-cD 3i9s-a2-m1-cA_3i9s-a2-m1-cB SVEIKRVDKHHCLDLVGIFIELERYYFGDKAASEQDLANYLSHQVFSEHSGVKVIAAVEHDKVLGFATYTIFPAPKLSGQYKDLFVSSSARGKGIGLQLKHLATIAITHNCQRLDWTAESTNPTAGKFYKSIGASLIREKEYYRFEGNGLNKLAKS VEIKRVDKHHCLDLVGIFIELERYYFGDKAASEQDLANYLSHQVFSEHSGVKVIAAVEHDKVLGFATYTIFPAPKLSGQYKDLFVSSSARGKGIGLQLKHLATIAITHNCQRLDWTAESTNPTAGKFYKSIGASLIREKEYYRFEGNGLNKLAKSL 3i9x-a1-m1-cA_3i9x-a1-m2-cA Crystal structure of a mutT/nudix family protein from Listeria innocua Q92EH0 Q92EH0 2.2 X-RAY DIFFRACTION 52 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 157 157 RTPDGYTSDMILTTVKELNGKPTLHILLIKRSLTNAEGKPNMEGGKWAVPGGFVDENESAEQAAERELEEETSLTDIPLIPFGVFDKPGRDPRGWIISRAFYAIVPPEALEKRAAGDDAAEIGLFPMTEALELPLAFDHLDMLKKAFSAITEEFLLT RTPDGYTSDMILTTVKELNGKPTLHILLIKRSLTNAEGKPNMEGGKWAVPGGFVDENESAEQAAERELEEETSLTDIPLIPFGVFDKPGRDPRGWIISRAFYAIVPPEALEKRAAGDDAAEIGLFPMTEALELPLAFDHLDMLKKAFSAITEEFLLT 3i9z-a1-m2-cA_3i9z-a1-m3-cA Crystal structure of a metallochaperone with a trinuclear Cu(I) cluster O32221 O32221 1.9 X-RAY DIFFRACTION 19 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 69 69 3i9z-a1-m1-cA_3i9z-a1-m2-cA 3i9z-a1-m1-cA_3i9z-a1-m3-cA MEQKTLQVEGMSCQHCVKAVETSVGELDGVSAVHVNLEAGKVDVSFDADKVSVKDIADAIEDQGYDVAK MEQKTLQVEGMSCQHCVKAVETSVGELDGVSAVHVNLEAGKVDVSFDADKVSVKDIADAIEDQGYDVAK 3ia0-a8-m1-cu_3ia0-a8-m1-cv Ethanolamine Utilization Microcompartment Shell Subunit, EutS-G39V mutant P63746 P63746 2.5 X-RAY DIFFRACTION 92 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 111 111 3i96-a1-m1-cA_3i96-a1-m1-cC 3i96-a1-m2-cA_3i96-a1-m2-cC 3i96-a2-m1-cA_3i96-a2-m1-cC 3ia0-a1-m1-cA_3ia0-a1-m1-cB 3ia0-a1-m1-cA_3ia0-a1-m1-cF 3ia0-a1-m1-cB_3ia0-a1-m1-cC 3ia0-a1-m1-cC_3ia0-a1-m1-cD 3ia0-a1-m1-cD_3ia0-a1-m1-cE 3ia0-a1-m1-cE_3ia0-a1-m1-cF 3ia0-a2-m1-cG_3ia0-a2-m1-cH 3ia0-a2-m1-cG_3ia0-a2-m1-cL 3ia0-a2-m1-cH_3ia0-a2-m1-cI 3ia0-a2-m1-cI_3ia0-a2-m1-cJ 3ia0-a2-m1-cJ_3ia0-a2-m1-cK 3ia0-a2-m1-cK_3ia0-a2-m1-cL 3ia0-a3-m1-cM_3ia0-a3-m1-cN 3ia0-a3-m1-cM_3ia0-a3-m1-cR 3ia0-a3-m1-cN_3ia0-a3-m1-cO 3ia0-a3-m1-cO_3ia0-a3-m1-cP 3ia0-a3-m1-cP_3ia0-a3-m1-cQ 3ia0-a3-m1-cQ_3ia0-a3-m1-cR 3ia0-a4-m1-cS_3ia0-a4-m1-cT 3ia0-a4-m1-cS_3ia0-a4-m1-cX 3ia0-a4-m1-cT_3ia0-a4-m1-cU 3ia0-a4-m1-cU_3ia0-a4-m1-cV 3ia0-a4-m1-cV_3ia0-a4-m1-cW 3ia0-a4-m1-cW_3ia0-a4-m1-cX 3ia0-a5-m1-ca_3ia0-a5-m1-cb 3ia0-a5-m1-cb_3ia0-a5-m1-cc 3ia0-a5-m1-cc_3ia0-a5-m1-cd 3ia0-a5-m1-cY_3ia0-a5-m1-cd 3ia0-a5-m1-cY_3ia0-a5-m1-cZ 3ia0-a5-m1-cZ_3ia0-a5-m1-ca 3ia0-a6-m1-ce_3ia0-a6-m1-cf 3ia0-a6-m1-ce_3ia0-a6-m1-cj 3ia0-a6-m1-cf_3ia0-a6-m1-cg 3ia0-a6-m1-cg_3ia0-a6-m1-ch 3ia0-a6-m1-ch_3ia0-a6-m1-ci 3ia0-a6-m1-ci_3ia0-a6-m1-cj 3ia0-a7-m1-ck_3ia0-a7-m1-cl 3ia0-a7-m1-ck_3ia0-a7-m1-cp 3ia0-a7-m1-cl_3ia0-a7-m1-cm 3ia0-a7-m1-cm_3ia0-a7-m1-cn 3ia0-a7-m1-cn_3ia0-a7-m1-co 3ia0-a7-m1-co_3ia0-a7-m1-cp 3ia0-a8-m1-cq_3ia0-a8-m1-cr 3ia0-a8-m1-cq_3ia0-a8-m1-cv 3ia0-a8-m1-cr_3ia0-a8-m1-cs 3ia0-a8-m1-cs_3ia0-a8-m1-ct 3ia0-a8-m1-ct_3ia0-a8-m1-cu KERIIQEFVPGKQVTLAHLIAHPGEELAKKIGVPDAVAIGIMTLTPGETAMIAGDLALKAADVHIGFLDRFSGALVIYGSVGAVEEALSQTVSGLGRLLNYTLCEMTKSLE KERIIQEFVPGKQVTLAHLIAHPGEELAKKIGVPDAVAIGIMTLTPGETAMIAGDLALKAADVHIGFLDRFSGALVIYGSVGAVEEALSQTVSGLGRLLNYTLCEMTKSLE 3ia1-a1-m1-cB_3ia1-a1-m1-cA Crystal structure of thio-disulfide isomerase from Thermus thermophilus Q72GM6 Q72GM6 1.76 X-RAY DIFFRACTION 77 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 142 143 VKPGEPLPDFLLLDPKGQPVTPATVSKPAVIVFWASWCTVCKAEFPGLHRVAEETGVPFYVISREPRDTREVVLEYMKTYPRFIPLLASDRDRPHEVAARFKVLGQPWTFVVDREGKVVALFAGRAGREALLDALLLAGADL AVKPGEPLPDFLLLDPKGQPVTPATVSKPAVIVFWASWCTVCKAEFPGLHRVAEETGVPFYVISREPRDTREVVLEYMKTYPRFIPLLASDRDRPHEVAARFKVLGQPWTFVVDREGKVVALFAGRAGREALLDALLLAGADL 3ia2-a2-m1-cE_3ia2-a2-m1-cF Pseudomonas fluorescens esterase complexed to the R-enantiomer of a sulfonate transition state analog P22862 P22862 1.65 X-RAY DIFFRACTION 44 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 271 271 3hea-a1-m1-cA_3hea-a1-m1-cB 3hea-a1-m1-cA_3hea-a1-m1-cC 3hea-a1-m1-cB_3hea-a1-m1-cC 3hea-a2-m1-cD_3hea-a2-m1-cE 3hea-a2-m1-cD_3hea-a2-m1-cF 3hea-a2-m1-cE_3hea-a2-m1-cF 3hi4-a1-m1-cA_3hi4-a1-m1-cB 3hi4-a1-m1-cA_3hi4-a1-m1-cC 3hi4-a1-m1-cB_3hi4-a1-m1-cC 3hi4-a2-m1-cD_3hi4-a2-m1-cE 3hi4-a2-m1-cD_3hi4-a2-m1-cF 3hi4-a2-m1-cE_3hi4-a2-m1-cF 3ia2-a1-m1-cA_3ia2-a1-m1-cB 3ia2-a1-m1-cA_3ia2-a1-m1-cC 3ia2-a1-m1-cB_3ia2-a1-m1-cC 3ia2-a2-m1-cD_3ia2-a2-m1-cE 3ia2-a2-m1-cD_3ia2-a2-m1-cF 3t4u-a1-m1-cA_3t4u-a1-m1-cB 3t4u-a1-m1-cA_3t4u-a1-m1-cC 3t4u-a1-m1-cB_3t4u-a1-m1-cC 3t4u-a2-m1-cD_3t4u-a2-m1-cE 3t4u-a2-m1-cD_3t4u-a2-m1-cF 3t4u-a2-m1-cE_3t4u-a2-m1-cF 3t52-a1-m1-cA_3t52-a1-m1-cB 3t52-a1-m1-cA_3t52-a1-m1-cC 3t52-a1-m1-cB_3t52-a1-m1-cC 3t52-a2-m1-cD_3t52-a2-m1-cE 3t52-a2-m1-cD_3t52-a2-m1-cF 3t52-a2-m1-cE_3t52-a2-m1-cF STFVAKDGTQIYFKDWGSGKPVLFSHGWLLDADMWEYQMEYLSSRGYRTIAFDRRGFGRSDQPWTGNDYDTFADDIAQLIEHLDLKEVTLVGFSMGGGDVARYIARHGSARVAGLVLLGAVTPLFGQKPDYPQGVPLDVFARFKTELLKDRAQFISDFNAPFYGINKGQVVSQGVQTQTLQIALLASLKATVDCVTAFAETDFRPDMAKIDVPTLVIHGDGDQIVPFETTGKVAAELIKGAELKVYKDAPHGFAVTHAQQLNEDLLAFLKR STFVAKDGTQIYFKDWGSGKPVLFSHGWLLDADMWEYQMEYLSSRGYRTIAFDRRGFGRSDQPWTGNDYDTFADDIAQLIEHLDLKEVTLVGFSMGGGDVARYIARHGSARVAGLVLLGAVTPLFGQKPDYPQGVPLDVFARFKTELLKDRAQFISDFNAPFYGINKGQVVSQGVQTQTLQIALLASLKATVDCVTAFAETDFRPDMAKIDVPTLVIHGDGDQIVPFETTGKVAAELIKGAELKVYKDAPHGFAVTHAQQLNEDLLAFLKR 3ia6-a2-m1-cA_3ia6-a2-m2-cB X-ray Crystal structure of the nuclear hormone receptor PPAR-gamma in a complex with a PPAR gamma/alpha dual agonist P37231 P37231 2.31 X-RAY DIFFRACTION 50 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 254 255 4xta-a3-m2-cB_4xta-a3-m1-cA ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYK ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIKFKKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETHPLLQEIYK 3ia7-a1-m1-cB_3ia7-a1-m1-cA Crystal Structure of CalG4, the Calicheamicin Glycosyltransferase Q8KNC3 Q8KNC3 1.91 X-RAY DIFFRACTION 97 0.997 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 382 394 RQRHILFANVQGHGHVYPSLGLVSELARRGHRITYVTTPLFADEVKAAGAEVVLYKSEFDDAETQLHLVYVRENVAILRAAEEALGDNPPDLVVYDVFPFIAGRLLAARWDRPAVRLTGGFAANEHYSLFKELWKSNGQRHPADVEAVHSVLVDLLGKYGVDTPVKEYWDEIEGLTIVFLPKSFQPFAETFDERFAFVGPTLQPGWQPPRPDAPVLLVSLGNQFNEHPEFFRACAQAFADTPWHVVAIGGFLDPAVLGPLPPNVEAHQWIPFHSVLAHARACLTHGTTGAVLEAFAAGVPLVLVPHFATEAAPSAERVIELGLGSVLRPDQLEPASIREAVERLAADSAVRERVRRQRDILSSGGPARAADEVEAYLGRVAP RQRHILFANVQGHGHVYPSLGLVSELARRGHRITYVTTPLFADEVKAAGAEVVLYKSEFDTFHVPEVVKQEDAETQLHLVYVRENVAILRAAEEALGDNPPDLVVYDVFPFIAGRLLAARWDRPAVRLTGGFAANEHYSLFKELWKSNGQRHPADVEAVHSVLVDLLGKYGVDTPVKEYWDEIEGLTIVFLPKSFQPFAETFDERFAFVGPTLTGPGWQPPRPDAPVLLVSLGNQFNEHPEFFRACAQAFADTPWHVVAIGGFLDPAVLGPLPPNVEAHQWIPFHSVLAHARACLTHGTTGAVLEAFAAGVPLVLVPHFATEAAPSAERVIELGLGSVLRPDQLEPASIREAVERLAADSAVRERVRRQRDILSSGGPARAADEVEAYLGRVAP 3ia8-a3-m1-cA_3ia8-a3-m1-cB The structure of the C-terminal heme nitrobindin domain of THAP domain-containing protein 4 from Homo sapiens Q8WY91 Q8WY91 1.792 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 PPKNPVVEPLSWLGTWLSDPPGAGTYPTLQPFQYLEEVHISHVGQPLNFSFNSFHPDTRKPHRECGFIRLKPDTNKVAFVSAQNTGVVEVEEGEVNGQELCIASHSIARISFAKEPHVEQITRKFRLNSEGKLEQTVSATTTQPTQHLHVTYKKVT PPKNPVVEPLSWLGTWLSDPPGAGTYPTLQPFQYLEEVHISHVGQPLNFSFNSFHPDTRKPHRECGFIRLKPDTNKVAFVSAQNTGVVEVEEGEVNGQELCIASHSIARISFAKEPHVEQITRKFRLNSEGKLEQTVSATTTQPTQHLHVTYKKVT 3iaa-a1-m1-cA_3iaa-a1-m1-cB Crystal Structure of CalG2, Calicheamicin Glycosyltransferase, TDP bound form Q8KNE0 Q8KNE0 2.505 X-RAY DIFFRACTION 65 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 388 388 AHLLIVNVASHGLILPTLTVVTELVRRGHRVSYVTAGGFAEPVRAAGATVVPYQSEIIDADAAEVFGSDDLGVRPHLYLRENVSVLRATAEALDGDVPDLVLYDDFPFIAGQLLAARWRRPAVRLSAAFASNEHYSFSQDVTLAGTIDPLDLPVFRDTLRDLLAEHGLSRSVVDCWNHVEQLNLVFVPKAFQIAGDTFDDRFVFVGPCFDDRRFLGEWTRPADDLPVVLVSLGTTFNDRPGFFRDCARAFDGQPWHVVTLGGQVDPAALGDLPPNVEAHRWVPHVKVLEQATVCVTHGGGTLEALYWGRPLVVVPQSFDVQPARRVDQLGLGAVLPGEKADGDTLLAAVGAVAADPALLARVEARGHVRRAGGAARAADAVEAYLARA AHLLIVNVASHGLILPTLTVVTELVRRGHRVSYVTAGGFAEPVRAAGATVVPYQSEIIDADAAEVFGSDDLGVRPHLYLRENVSVLRATAEALDGDVPDLVLYDDFPFIAGQLLAARWRRPAVRLSAAFASNEHYSFSQDVTLAGTIDPLDLPVFRDTLRDLLAEHGLSRSVVDCWNHVEQLNLVFVPKAFQIAGDTFDDRFVFVGPCFDDRRFLGEWTRPADDLPVVLVSLGTTFNDRPGFFRDCARAFDGQPWHVVTLGGQVDPAALGDLPPNVEAHRWVPHVKVLEQATVCVTHGGGTLEALYWGRPLVVVPQSFDVQPARRVDQLGLGAVLPGEKADGDTLLAAVGAVAADPALLARVEARGHVRRAGGAARAADAVEAYLARA 3iab-a2-m1-cB_3iab-a2-m2-cB Crystal structure of RNase P /RNase MRP proteins Pop6, Pop7 in a complex with the P3 domain of RNase MRP RNA P38291 P38291 2.7 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 106 106 RVTKHPSLKTLTHKQIHTTIFVKSTTPYVSALKRINKFLDSVHKQGSSYVAVLGGKAVEKTLALGCHFQDQKNKKIEVYTKTIEVLDEVIQLKKRAVSGVELRIYV RVTKHPSLKTLTHKQIHTTIFVKSTTPYVSALKRINKFLDSVHKQGSSYVAVLGGKAVEKTLALGCHFQDQKNKKIEVYTKTIEVLDEVIQLKKRAVSGVELRIYV 3iac-a1-m1-cC_3iac-a1-m1-cB 2.2 Angstrom Crystal Structure of Glucuronate Isomerase from Salmonella typhimurium. Q8ZM23 Q8ZM23 2.22 X-RAY DIFFRACTION 131 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 453 454 3iac-a1-m1-cA_3iac-a1-m1-cB 3iac-a1-m1-cC_3iac-a1-m1-cA TFTEDFLLKNDIARTLYHKYAAPPIYDFHCHLSPQEIADDRRFDNLGQIWLEGDHYKWRALRSAGVDESLITGKETSDYEKYAWANTVPKTLGNPLYHWTHLELRRPFGITGTLFGPDTAESIWTQCNEKLATPAFSARGIQQNVRVGTTDDPIDSLEYHRQIAADDSIDIEVAPSWRPDKVFKIELDGFVDYLRKLEAAADVSITRFDDLRQALTRRLDHFAACGCRASDHGIETLRFAPVPDDAQLDAILGKRLAGETLSELEIAQFTTAVLVWLGRQYAARGWVQLHIGAIRNNNTRFRLLGPDTGFDSIGDNNISWALSRLLDSDVTNELPKTILYCLNPRDNEVLATIGNFQGPGIAGKVQFGSGWWFNDQKDGLRQLEQLSQGLLSQFVGLTDSRSFLSYTRHEYFRRILCNLLGQWAQDGEIPDDEALSRVQDICFNNAQRYFTIK ATFTEDFLLKNDIARTLYHKYAAPPIYDFHCHLSPQEIADDRRFDNLGQIWLEGDHYKWRALRSAGVDESLITGKETSDYEKYAWANTVPKTLGNPLYHWTHLELRRPFGITGTLFGPDTAESIWTQCNEKLATPAFSARGIQQNVRVGTTDDPIDSLEYHRQIAADDSIDIEVAPSWRPDKVFKIELDGFVDYLRKLEAAADVSITRFDDLRQALTRRLDHFAACGCRASDHGIETLRFAPVPDDAQLDAILGKRLAGETLSELEIAQFTTAVLVWLGRQYAARGWVQLHIGAIRNNNTRFRLLGPDTGFDSIGDNNISWALSRLLDSDVTNELPKTILYCLNPRDNEVLATIGNFQGPGIAGKVQFGSGWWFNDQKDGLRQLEQLSQGLLSQFVGLTDSRSFLSYTRHEYFRRILCNLLGQWAQDGEIPDDEALSRVQDICFNNAQRYFTIK 3ial-a1-m1-cA_3ial-a1-m1-cB Giardia lamblia Prolyl-tRNA synthetase in complex with prolyl-adenylate A8BR89 A8BR89 2.2 X-RAY DIFFRACTION 150 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 496 505 TFSLTKTRDTFADWFDAIMDAAELVDRRYPVKGCVVFRPYGFFMENAIMRLCEEEYAKVGISQILFPTVIPESFLKKESDHIKGFEAECFWVEKGGLQPLEERLALRPTSETAIYSMFSKWVRSYKDLPLKIHQTCTIFRHETKNTKPLIRVREIHWNEAHCCHATAEDAVSQLSDYWKVIDTIFSDELCFKGQKLRRVCWDRFPGADYSEVSDVVMPCGRVLQTAGIHNLGQRFSSTFDILYANKANESVHPYLTCAGISTRVLACALSIHGDSGGLVLPPLIAPIHVVIIPIGCGKKNNQESDQQVLGKVNEIADTLKSKLGLRVSIDDDFSKSMGDKLYYYELKGVPLRIEVGQRDLANGQCIVVPRDVGKDQKRVIPITEVMKVSVVKNVIKDELDAYKARLKEKAFAFHNSMVTNCKSFDEIVACIENKGGLARFPFYTTEADGEVWDKKLKDACSAEIRGHNPDENVLPGEVCALSGKPAVCYMYCAKSY TFSLTKTRDTFADWFDAIMDAAELVDRRYPVKGCVVFRPYGFFMENAIMRLCEEEYAKVGISQILFPTVIPESFLKKESDHIKGFEAECFWVEKGGLQPLEERLALRPTSETAIYSMFSKWVRSYKDLPLKIHQTCTIFRHETKNTKPLIRVREIHWNEAHCCHATAEDAVSQLSDYWKVIDTIFSDELCFKGQKLRRVCWDRFPGADYSEVSDVVMPCGRVLQTAGIHNLGQRFSSTFDILYANKANESVHPYLTCAGISTRVLACALSIHGDSGGLVLPPLIAPIHVVIIPIGCGKKNNQESDQQVLGKVNEIADTLKSKLGLRVSIDDDFSKSMGDKLYYYELKGVPLRIEVGQRDLANGQCIVVPRDVGKDQKRVIPITEVMKVSSHTTENHELVVKNVIKDELDAYKARLKEKAFAFHNSMVTNCKSFDEIVACIENKGGLARFPFYTTEADGEVWDKKLKDACSAEIRGHNPDENVLPGEVCALSGKPAVCYMYCAKSY 3iav-a1-m2-cB_3iav-a1-m3-cB Propionyl-CoA Carboxylase Beta Subunit, D422V Q9X4K7 Q9X4K7 1.75 X-RAY DIFFRACTION 74 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 521 521 1xnv-a1-m1-cA_1xnv-a1-m2-cA 1xnv-a1-m1-cA_1xnv-a1-m3-cA 1xnv-a1-m1-cB_1xnv-a1-m2-cB 1xnv-a1-m1-cB_1xnv-a1-m3-cB 1xnv-a1-m2-cA_1xnv-a1-m3-cA 1xnv-a1-m2-cB_1xnv-a1-m3-cB 1xnw-a1-m1-cA_1xnw-a1-m1-cB 1xnw-a1-m1-cA_1xnw-a1-m1-cC 1xnw-a1-m1-cB_1xnw-a1-m1-cC 1xnw-a1-m1-cD_1xnw-a1-m1-cE 1xnw-a1-m1-cD_1xnw-a1-m1-cF 1xnw-a1-m1-cE_1xnw-a1-m1-cF 1xny-a1-m1-cA_1xny-a1-m2-cA 1xny-a1-m1-cA_1xny-a1-m3-cA 1xny-a1-m1-cB_1xny-a1-m2-cB 1xny-a1-m1-cB_1xny-a1-m3-cB 1xny-a1-m2-cA_1xny-a1-m3-cA 1xny-a1-m2-cB_1xny-a1-m3-cB 1xo6-a1-m1-cA_1xo6-a1-m1-cB 1xo6-a1-m1-cA_1xo6-a1-m1-cC 1xo6-a1-m1-cB_1xo6-a1-m1-cC 1xo6-a1-m1-cD_1xo6-a1-m1-cE 1xo6-a1-m1-cD_1xo6-a1-m1-cF 1xo6-a1-m1-cE_1xo6-a1-m1-cF 3iav-a1-m1-cA_3iav-a1-m2-cA 3iav-a1-m1-cA_3iav-a1-m3-cA 3iav-a1-m1-cB_3iav-a1-m2-cB 3iav-a1-m1-cB_3iav-a1-m3-cB 3iav-a1-m2-cA_3iav-a1-m3-cA 3ib9-a1-m1-cA_3ib9-a1-m2-cA 3ib9-a1-m1-cA_3ib9-a1-m3-cA 3ib9-a1-m1-cB_3ib9-a1-m2-cB 3ib9-a1-m1-cB_3ib9-a1-m3-cB 3ib9-a1-m2-cA_3ib9-a1-m3-cA 3ib9-a1-m2-cB_3ib9-a1-m3-cB 3ibb-a1-m1-cA_3ibb-a1-m1-cB 3ibb-a1-m1-cA_3ibb-a1-m1-cD 3ibb-a1-m1-cB_3ibb-a1-m1-cD 3ibb-a1-m1-cC_3ibb-a1-m1-cE 3ibb-a1-m1-cC_3ibb-a1-m1-cF 3ibb-a1-m1-cE_3ibb-a1-m1-cF 3mfm-a1-m1-cA_3mfm-a1-m1-cC 3mfm-a1-m1-cA_3mfm-a1-m1-cD 3mfm-a1-m1-cB_3mfm-a1-m1-cE 3mfm-a1-m1-cB_3mfm-a1-m1-cF 3mfm-a1-m1-cC_3mfm-a1-m1-cD 3mfm-a1-m1-cE_3mfm-a1-m1-cF DIHTTAGKLADLRRRIEEATHAGSARAVEKQHAKGKLTARERIDLLLDEGSFVELDEFARHRSTNFGLDANRPYGDGVVTGYGTVDGRPVAVFSQDFTVFGGALGEVYGQKIVKVMDFALKTGCPVVGINDSGGARIQEGVASLGAYGEIFRRNTHASGVIPQISLVVGPCAGGAVYSPAITDFTVMVDQTSHMFITGPDVIKTVTGEDVGFEELGGARTHNSTSGVAHHMAGDEKDAVEYVKQLLSYLPSNNLSEPPAFPEEADLAVTDEDAELDTIVPDSANQPYDMHSVIEHVLDDAEFFETQPLFAPNILTGFGRVEGRPVGIVANQPMQFAGCLDITASEKAARFVRTCDAFNVPVLTFVDVPGFLPGVDQEHDGIIRRGAKLIFAYAEATVPLITVITRKAFGGAYVVMGSKHLGADLNLAWPTAQIAVMGAQGAVNILHRRTIADAGDDAEATRARLIQEYEDALLNPYTAAERGYVDAVIMPSDTRRHIVRGLRQLRTKRESLPPKKHGNIPL DIHTTAGKLADLRRRIEEATHAGSARAVEKQHAKGKLTARERIDLLLDEGSFVELDEFARHRSTNFGLDANRPYGDGVVTGYGTVDGRPVAVFSQDFTVFGGALGEVYGQKIVKVMDFALKTGCPVVGINDSGGARIQEGVASLGAYGEIFRRNTHASGVIPQISLVVGPCAGGAVYSPAITDFTVMVDQTSHMFITGPDVIKTVTGEDVGFEELGGARTHNSTSGVAHHMAGDEKDAVEYVKQLLSYLPSNNLSEPPAFPEEADLAVTDEDAELDTIVPDSANQPYDMHSVIEHVLDDAEFFETQPLFAPNILTGFGRVEGRPVGIVANQPMQFAGCLDITASEKAARFVRTCDAFNVPVLTFVDVPGFLPGVDQEHDGIIRRGAKLIFAYAEATVPLITVITRKAFGGAYVVMGSKHLGADLNLAWPTAQIAVMGAQGAVNILHRRTIADAGDDAEATRARLIQEYEDALLNPYTAAERGYVDAVIMPSDTRRHIVRGLRQLRTKRESLPPKKHGNIPL 3iav-a2-m1-cA_3iav-a2-m1-cB Propionyl-CoA Carboxylase Beta Subunit, D422V Q9X4K7 Q9X4K7 1.75 X-RAY DIFFRACTION 356 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 521 521 1xnv-a1-m1-cA_1xnv-a1-m1-cB 1xnv-a1-m2-cA_1xnv-a1-m2-cB 1xnv-a1-m3-cA_1xnv-a1-m3-cB 1xnw-a1-m1-cA_1xnw-a1-m1-cD 1xnw-a1-m1-cB_1xnw-a1-m1-cE 1xnw-a1-m1-cC_1xnw-a1-m1-cF 1xny-a1-m1-cA_1xny-a1-m1-cB 1xny-a1-m2-cA_1xny-a1-m2-cB 1xny-a1-m3-cA_1xny-a1-m3-cB 1xo6-a1-m1-cA_1xo6-a1-m1-cD 1xo6-a1-m1-cB_1xo6-a1-m1-cE 1xo6-a1-m1-cC_1xo6-a1-m1-cF 3iav-a1-m1-cA_3iav-a1-m1-cB 3iav-a1-m2-cA_3iav-a1-m2-cB 3iav-a1-m3-cA_3iav-a1-m3-cB 3ib9-a1-m1-cA_3ib9-a1-m1-cB 3ib9-a1-m2-cA_3ib9-a1-m2-cB 3ib9-a1-m3-cA_3ib9-a1-m3-cB 3ib9-a2-m1-cA_3ib9-a2-m1-cB 3ibb-a1-m1-cA_3ibb-a1-m1-cF 3ibb-a1-m1-cB_3ibb-a1-m1-cE 3ibb-a1-m1-cC_3ibb-a1-m1-cD 3mfm-a1-m1-cA_3mfm-a1-m1-cB 3mfm-a1-m1-cC_3mfm-a1-m1-cF 3mfm-a1-m1-cD_3mfm-a1-m1-cE DIHTTAGKLADLRRRIEEATHAGSARAVEKQHAKGKLTARERIDLLLDEGSFVELDEFARHRSTNFGLDANRPYGDGVVTGYGTVDGRPVAVFSQDFTVFGGALGEVYGQKIVKVMDFALKTGCPVVGINDSGGARIQEGVASLGAYGEIFRRNTHASGVIPQISLVVGPCAGGAVYSPAITDFTVMVDQTSHMFITGPDVIKTVTGEDVGFEELGGARTHNSTSGVAHHMAGDEKDAVEYVKQLLSYLPSNNLSEPPAFPEEADLAVTDEDAELDTIVPDSANQPYDMHSVIEHVLDDAEFFETQPLFAPNILTGFGRVEGRPVGIVANQPMQFAGCLDITASEKAARFVRTCDAFNVPVLTFVDVPGFLPGVDQEHDGIIRRGAKLIFAYAEATVPLITVITRKAFGGAYVVMGSKHLGADLNLAWPTAQIAVMGAQGAVNILHRRTIADAGDDAEATRARLIQEYEDALLNPYTAAERGYVDAVIMPSDTRRHIVRGLRQLRTKRESLPPKKHGNIPL DIHTTAGKLADLRRRIEEATHAGSARAVEKQHAKGKLTARERIDLLLDEGSFVELDEFARHRSTNFGLDANRPYGDGVVTGYGTVDGRPVAVFSQDFTVFGGALGEVYGQKIVKVMDFALKTGCPVVGINDSGGARIQEGVASLGAYGEIFRRNTHASGVIPQISLVVGPCAGGAVYSPAITDFTVMVDQTSHMFITGPDVIKTVTGEDVGFEELGGARTHNSTSGVAHHMAGDEKDAVEYVKQLLSYLPSNNLSEPPAFPEEADLAVTDEDAELDTIVPDSANQPYDMHSVIEHVLDDAEFFETQPLFAPNILTGFGRVEGRPVGIVANQPMQFAGCLDITASEKAARFVRTCDAFNVPVLTFVDVPGFLPGVDQEHDGIIRRGAKLIFAYAEATVPLITVITRKAFGGAYVVMGSKHLGADLNLAWPTAQIAVMGAQGAVNILHRRTIADAGDDAEATRARLIQEYEDALLNPYTAAERGYVDAVIMPSDTRRHIVRGLRQLRTKRESLPPKKHGNIPL 3ib5-a1-m1-cA_3ib5-a1-m2-cA Crystal structure of Sex pheromone precursor (YP_536235.1) from LACTOBACILLUS SALIVARIUS SUBSP. SALIVARIUS UCC118 at 1.35 A resolution Q1WSH7 Q1WSH7 1.35 X-RAY DIFFRACTION 162 1.0 362948 (Ligilactobacillus salivarius UCC118) 362948 (Ligilactobacillus salivarius UCC118) 338 338 GYQTTGENNSSDYQGIIEDGEYKTSKSRGVGISQNSDNLLNLKSFEAGLTTISKDHFSTKSYIFQEGQYLNKATIQDWLGRKSSSNPEGLNPSDNGKKEANKRNPIYVQQIEEQDYKQNNGKLELAGTIGIGNQKDYYQKEQYGATYSTTISKEKRIEEGKIAAKKVLARVRQKVGNNVPIVIAFAQAPNDSLVGGYFYSYTVSKSGTDIGSWTETNIKSYVLPATEDNKLPNDNDSTSFDNFQKEVKNFFPNISNVTGQGQYKDKTLQGLHITITTQFYSETEITSFTQYVAQAAKSYLPSGIPVDIKINGSDGETQSFVSTTGGNGGYYTHVFGSY GYQTTGENNSSDYQGIIEDGEYKTSKSRGVGISQNSDNLLNLKSFEAGLTTISKDHFSTKSYIFQEGQYLNKATIQDWLGRKSSSNPEGLNPSDNGKKEANKRNPIYVQQIEEQDYKQNNGKLELAGTIGIGNQKDYYQKEQYGATYSTTISKEKRIEEGKIAAKKVLARVRQKVGNNVPIVIAFAQAPNDSLVGGYFYSYTVSKSGTDIGSWTETNIKSYVLPATEDNKLPNDNDSTSFDNFQKEVKNFFPNISNVTGQGQYKDKTLQGLHITITTQFYSETEITSFTQYVAQAAKSYLPSGIPVDIKINGSDGETQSFVSTTGGNGGYYTHVFGSY 3ib6-a1-m1-cB_3ib6-a1-m1-cD Crystal structure of an uncharacterized protein from Listeria monocytogenes serotype 4b 2.2 X-RAY DIFFRACTION 71 1.0 179 179 3ib6-a1-m1-cC_3ib6-a1-m1-cA LTHVIWDMGETLNTVPNTRYDHHPLDTYPEVVLRKNAKETLEKVKQLGFKQAILSNTATSDTEVIKRVLTNFGIIDYFDFIYASNSELQPGKMEKPDKTIFDFTLNALQIDKTEAVMVGNTFESDIIGANRAGIHAIWLQNPEVCLQDERLPLVAPPFVIPVWDLADVPEALLLLKKIS LTHVIWDMGETLNTVPNTRYDHHPLDTYPEVVLRKNAKETLEKVKQLGFKQAILSNTATSDTEVIKRVLTNFGIIDYFDFIYASNSELQPGKMEKPDKTIFDFTLNALQIDKTEAVMVGNTFESDIIGANRAGIHAIWLQNPEVCLQDERLPLVAPPFVIPVWDLADVPEALLLLKKIS 3ib6-a1-m1-cC_3ib6-a1-m1-cD Crystal structure of an uncharacterized protein from Listeria monocytogenes serotype 4b 2.2 X-RAY DIFFRACTION 37 1.0 178 179 3ib6-a1-m1-cA_3ib6-a1-m1-cB LTHVIWDMGETLNTVPNTRYDHHPLDTYPEVVLRKNAKETLEKVKQLGFKQAILSNTATSDTEVIKRVLTNFGIIDYFDFIYASNSELQPGKMEKPDKTIFDFTLNALQIDKTEAVMVGNTFESDIIGANRAGIHAIWLQNPEVCLQDERLPLVAPPFVIPVWDLADVPEALLLLKKI LTHVIWDMGETLNTVPNTRYDHHPLDTYPEVVLRKNAKETLEKVKQLGFKQAILSNTATSDTEVIKRVLTNFGIIDYFDFIYASNSELQPGKMEKPDKTIFDFTLNALQIDKTEAVMVGNTFESDIIGANRAGIHAIWLQNPEVCLQDERLPLVAPPFVIPVWDLADVPEALLLLKKIS 3ib7-a1-m1-cA_3ib7-a1-m2-cA Crystal structure of full length Rv0805 P9WP65 P9WP65 1.6 X-RAY DIFFRACTION 282 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 295 295 3ib8-a1-m1-cA_3ib8-a1-m2-cA LRAAEHPRPDYVLLHISDTHLIGGDRRLYGAVDADDRLGELLEQLNQSGLRPDAIVFTGDLADKGEPAAYRKLRGLVEPFAAQLGAELVWVMGNHDDRAELRKFLLDEAPSMAPLDRVCMIDGLRIIVLDTSVPGHHHGEIRASQLGWLAEELATPAPDGTILALHHPPIPSVLDMAVTVELRDQAALGRVLRGTDVRAILAGHLHYSTNATFVGIPVSVASATCYTQDLTVAAGGTRGRDGAQGCNLVHVYPDTVVHSVIPLGGGETVGTFVSPGQARRKIAESGIFIEPSRRD LRAAEHPRPDYVLLHISDTHLIGGDRRLYGAVDADDRLGELLEQLNQSGLRPDAIVFTGDLADKGEPAAYRKLRGLVEPFAAQLGAELVWVMGNHDDRAELRKFLLDEAPSMAPLDRVCMIDGLRIIVLDTSVPGHHHGEIRASQLGWLAEELATPAPDGTILALHHPPIPSVLDMAVTVELRDQAALGRVLRGTDVRAILAGHLHYSTNATFVGIPVSVASATCYTQDLTVAAGGTRGRDGAQGCNLVHVYPDTVVHSVIPLGGGETVGTFVSPGQARRKIAESGIFIEPSRRD 3ibg-a3-m1-cE_3ibg-a3-m1-cF Crystal structure of Aspergillus fumigatus Get3 with bound ADP Q4WY07 Q4WY07 3.2 X-RAY DIFFRACTION 69 1.0 300 300 3ibg-a1-m1-cA_3ibg-a1-m1-cB 3ibg-a2-m1-cC_3ibg-a2-m1-cD LMEPTLQSILSQKTLRWIFVGGKGGVGKTTTSCSLAIQLAKVRKSVLLISTDPAHNLSDAFGQKFGKEARLVDGYSNLSAMEIDPNGSIQDLLASQDLAFSIPGVDEAMSFAEVLKQVKSLSYEVIVFDTAPTGHTLRFLQFPTVLEKALAKLSQLSSQFSILGARGGLPGGQNIDELLQKMESLRETISEVNTQFKNPDMTTFVCVCIAEFLSLYETERMIQELTSYGIDTHAIVVNQLLFPGCEQCNARRKMQKKYLEQIEELYEDFNVVRMPLLVEEVRGKEKLEKFSEMLVHPYVP LMEPTLQSILSQKTLRWIFVGGKGGVGKTTTSCSLAIQLAKVRKSVLLISTDPAHNLSDAFGQKFGKEARLVDGYSNLSAMEIDPNGSIQDLLASQDLAFSIPGVDEAMSFAEVLKQVKSLSYEVIVFDTAPTGHTLRFLQFPTVLEKALAKLSQLSSQFSILGARGGLPGGQNIDELLQKMESLRETISEVNTQFKNPDMTTFVCVCIAEFLSLYETERMIQELTSYGIDTHAIVVNQLLFPGCEQCNARRKMQKKYLEQIEELYEDFNVVRMPLLVEEVRGKEKLEKFSEMLVHPYVP 3ibh-a1-m1-cA_3ibh-a1-m2-cA Crystal structure of Saccharomyces cerevisiae Gtt2 in complex with glutathione Q12390 Q12390 2.1 X-RAY DIFFRACTION 92 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 208 208 3erf-a1-m1-cA_3erf-a1-m2-cA 3erg-a1-m1-cA_3erg-a1-m1-cB MIIYDTPAGPYPARVRIALAEKNMLSSVQFVRINLWKGEHKKPEFLAKNYSGTVPVLELDDGTLIAECTAITEYIDALDGTPTLTGKTPLEKGVIHMMNKRAELELLDPVSVYFHHATPGLGPEVELYQNKEWGLRQRDKALHGMHYFDTVLRERPYVAGDSFSMADITVIAGLIFAAIVKLQVPEECEALRAWYKRMQQRPSVKKLL MIIYDTPAGPYPARVRIALAEKNMLSSVQFVRINLWKGEHKKPEFLAKNYSGTVPVLELDDGTLIAECTAITEYIDALDGTPTLTGKTPLEKGVIHMMNKRAELELLDPVSVYFHHATPGLGPEVELYQNKEWGLRQRDKALHGMHYFDTVLRERPYVAGDSFSMADITVIAGLIFAAIVKLQVPEECEALRAWYKRMQQRPSVKKLL 3ibj-a1-m1-cB_3ibj-a1-m1-cA X-ray structure of PDE2A O00408 O00408 3.02 X-RAY DIFFRACTION 225 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 643 661 YTDRDRKILQLCGELYDLDASSLQLKVLQYLQQETRASRCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTGCLGQVVEDKKSIQLKDLTSEDVQQLQSMLGCELQAMLCVPVISRATDQVVALACAFNKLEGDLFTDEDEHVIQHCFHYTSTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVSYEIRIPADQGIAGHVATTGQILNIPDAYRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQYRSHLANEMMMYHMKVSDDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHLVPR YTDRDRKILQLCGELYDLDASSLQLKVLQYLQQETRASRCCLLLVSEDNLQLSCKVIGDKVLGEEVSFPLTGCLGQVVEDKKSIQLKDLTSEDVQQLQSMLGCELQAMLCVPVISRATDQVVALACAFNKLEGDLFTDEDEHVIQHCFHYTSTVLTSTLAFQKEQKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVFDGGVVDDESYEIRIPADQGIAGHVATTGQILNIPDAYAHPLFSTGFRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQYRSHLANEMMMYHMKVSDDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAEKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSH 3ibp-a2-m1-cA_3ibp-a2-m3-cA The Crystal Structure of the Dimerization Domain of Escherichia coli Structural Maintenance of Chromosomes Protein MukB P22523 P22523 3.099 X-RAY DIFFRACTION 89 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 281 281 SVSNAREERALRQEQEQLQSRIQSLQRAPVWLAAQNSLNQLSEQCGEEFTSSQDVTEYLQQLLEREREAIVERDEVGARKNAVDEEIERLSQPGGSEDQRLNALAERFGGVLLSEIYDDVSLEDAPYFSALYGPSRHAIVVPDLSQVTEHLEGLTDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPEVPLFGRAARESRIESLHAEREVLSERFATLSFDVQKTQRLHQAFSRFIGSHLAVAFESDPEAEIRQLNSRRVELERALSN SVSNAREERALRQEQEQLQSRIQSLQRAPVWLAAQNSLNQLSEQCGEEFTSSQDVTEYLQQLLEREREAIVERDEVGARKNAVDEEIERLSQPGGSEDQRLNALAERFGGVLLSEIYDDVSLEDAPYFSALYGPSRHAIVVPDLSQVTEHLEGLTDCPEDLYLIEGDPQSFDDSVFSVDELEKAVVVKIADRQWRYSRFPEVPLFGRAARESRIESLHAEREVLSERFATLSFDVQKTQRLHQAFSRFIGSHLAVAFESDPEAEIRQLNSRRVELERALSN 3ibs-a1-m1-cB_3ibs-a1-m2-cA Crystal structure of conserved hypothetical protein BatB from Bacteroides thetaiotaomicron Q8A9A9 Q8A9A9 2.1 X-RAY DIFFRACTION 34 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 199 200 GVEVIIALDISNSLAQDVQPSRLEKAKRLISRLVDELDNDKVGIVFAGDAFTQLPITSDYISAKFLESISPSLISKQGTAIGEAINLATRSFTPQEGVGRAIIVITDGENHEGGAVEAAKAAAEKGIQVSVLGVGPEGAPIPVEGTNDYRRDREGNVIVTRLNEGCQEIAKDGKGIYVRVDNSNSAQKAISQEISKAKS KGVEVIIALDISNSLAQDVQPSRLEKAKRLISRLVDELDNDKVGIVFAGDAFTQLPITSDYISAKFLESISPSLISKQGTAIGEAINLATRSFTPQEGVGRAIIVITDGENHEGGAVEAAKAAAEKGIQVSVLGVGPEGAPIPVEGTNDYRRDREGNVIVTRLNEGCQEIAKDGKGIYVRVDNSNSAQKAISQEISKAKS 3ibw-a1-m1-cB_3ibw-a1-m1-cA Crystal Structure of the ACT domain from GTP pyrophosphokinase of Chlorobium tepidum. Northeast Structural Genomics Consortium Target CtR148A Q8KC80 Q8KC80 1.93 X-RAY DIFFRACTION 61 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 74 76 2ko1-a1-m1-cA_2ko1-a1-m1-cB TDFLAGIRIVGEDKNGTNQITGVISKFDTNIRTIVLNAKDGIFTCNLIFVKNTDKLTTLDKLRKVQGVFTVERL TDFLAGIRIVGEDKNGTNQITGVISKFDTNIRTIVLNAKDGIFTCNLIFVKNTDKLTTLDKLRKVQGVFTVERLSN 3ibx-a1-m2-cD_3ibx-a1-m1-cA Crystal structure of F47Y variant of TenA (HP1287) from Helicobacter pylori A8KRL3 A8KRL3 2.4 X-RAY DIFFRACTION 25 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 216 221 2rd3-a1-m1-cD_2rd3-a1-m2-cA 2rd3-a1-m2-cD_2rd3-a1-m1-cA 3ibx-a1-m1-cD_3ibx-a1-m2-cA TMQVSQYLYQNAQSIWGDCISHPFVQGIGRGTLERDKFRFYIIQDYLYLLEYAKVFALGVVKACDEAVMREFSNAIQDILNMSIHNHYIRELQITQKELQNACPTLANKSYTSYMLAEGFKGSIKEVAAAVLSCGWSYLVIAQNLSQIPNALEHAFYGHWIKGYSSKEFQACVNWNINLLDSLTLASSKQEIEKLKEIFITTSEYEYLFWDMAYQS DPFTMQVSQYLYQNAQSIWGDCISHPFVQGIGRGTLERDKFRFYIIQDYLYLLEYAKVFALGVVKACDEAVMREFSNAIQDILNNEMSIHNHYIRELQITQKELQNACPTLANKSYTSYMLAEGFKGSIKEVAAAVLSCGWSYLVIAQNLSQIPNALEHAFYGHWIKGYSSKEFQACVNWNINLLDSLTLASSKQEIEKLKEIFITTSEYEYLFWDMAYQS 3ibx-a1-m2-cD_3ibx-a1-m2-cA Crystal structure of F47Y variant of TenA (HP1287) from Helicobacter pylori A8KRL3 A8KRL3 2.4 X-RAY DIFFRACTION 45 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 216 221 2rd3-a1-m1-cD_2rd3-a1-m1-cA 2rd3-a1-m2-cD_2rd3-a1-m2-cA 3ibx-a1-m1-cD_3ibx-a1-m1-cA TMQVSQYLYQNAQSIWGDCISHPFVQGIGRGTLERDKFRFYIIQDYLYLLEYAKVFALGVVKACDEAVMREFSNAIQDILNMSIHNHYIRELQITQKELQNACPTLANKSYTSYMLAEGFKGSIKEVAAAVLSCGWSYLVIAQNLSQIPNALEHAFYGHWIKGYSSKEFQACVNWNINLLDSLTLASSKQEIEKLKEIFITTSEYEYLFWDMAYQS DPFTMQVSQYLYQNAQSIWGDCISHPFVQGIGRGTLERDKFRFYIIQDYLYLLEYAKVFALGVVKACDEAVMREFSNAIQDILNNEMSIHNHYIRELQITQKELQNACPTLANKSYTSYMLAEGFKGSIKEVAAAVLSCGWSYLVIAQNLSQIPNALEHAFYGHWIKGYSSKEFQACVNWNINLLDSLTLASSKQEIEKLKEIFITTSEYEYLFWDMAYQS 3ic3-a3-m1-cB_3ic3-a3-m1-cA Structure of a putative pyruvate dehydrogenase from the photosynthetic bacterium Rhodopseudomonas palustrus CGA009 Q6N5V5 Q6N5V5 1.8 X-RAY DIFFRACTION 11 0.989 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 92 94 ATGPKQQPLPPDVEGREDAIEVLRAFVLDGGLSIAFRAFEDPEWGLLLVDIARHAARSYARESEYTEDEALERIVEFEAELSRPTATTERTQ NATGPKQQPLPPDVEGREDAIEVLRAFVLDGGLSIAFRAFEDPEWGLLLVDIARHAARSYARESEYTEDEALERIVEFEAELSRPTDTTTERTQ 3ic3-a3-m1-cD_3ic3-a3-m1-cA Structure of a putative pyruvate dehydrogenase from the photosynthetic bacterium Rhodopseudomonas palustrus CGA009 Q6N5V5 Q6N5V5 1.8 X-RAY DIFFRACTION 213 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 81 94 3ic3-a1-m1-cD_3ic3-a1-m1-cA 3ic3-a2-m1-cB_3ic3-a2-m1-cC 3ic3-a3-m1-cB_3ic3-a3-m1-cC TGPKQQPLPPDVEGREDAIEVLRAFVLDGGLSIAFRAFDPEWGLLLVDIARHAARSYARESEYTEDEALERIVEFEAELSR NATGPKQQPLPPDVEGREDAIEVLRAFVLDGGLSIAFRAFEDPEWGLLLVDIARHAARSYARESEYTEDEALERIVEFEAELSRPTDTTTERTQ 3ic3-a3-m1-cD_3ic3-a3-m1-cB Structure of a putative pyruvate dehydrogenase from the photosynthetic bacterium Rhodopseudomonas palustrus CGA009 Q6N5V5 Q6N5V5 1.8 X-RAY DIFFRACTION 20 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 81 92 TGPKQQPLPPDVEGREDAIEVLRAFVLDGGLSIAFRAFDPEWGLLLVDIARHAARSYARESEYTEDEALERIVEFEAELSR ATGPKQQPLPPDVEGREDAIEVLRAFVLDGGLSIAFRAFEDPEWGLLLVDIARHAARSYARESEYTEDEALERIVEFEAELSRPTATTERTQ 3ic6-a1-m1-cA_3ic6-a1-m2-cA Crystal structure of putative methylase family protein from Neisseria gonorrhoeae Q5F8U0 Q5F8U0 2.59 X-RAY DIFFRACTION 72 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 205 205 LKPALPDYLGNIRIILTRTSHPANIGSAARAKTGLHRLTIVTPNLATPTENPPVFNPDDVQSFALPEESFILASGAADVLHNAEIVATLDEALADTTIACALTSRRRTAPLQTPRDLVPELLQAANRGEKVALVFGNETFGLSIEEVRACNRLTINGNPDYFSLNLAQAVQVVCYEIFSQTDSPTHLQQHAATHEQIKGLAHESV LKPALPDYLGNIRIILTRTSHPANIGSAARAKTGLHRLTIVTPNLATPTENPPVFNPDDVQSFALPEESFILASGAADVLHNAEIVATLDEALADTTIACALTSRRRTAPLQTPRDLVPELLQAANRGEKVALVFGNETFGLSIEEVRACNRLTINGNPDYFSLNLAQAVQVVCYEIFSQTDSPTHLQQHAATHEQIKGLAHESV 3ic7-a3-m1-cB_3ic7-a3-m3-cB Crystal Structure of Putative Transcriptional Regulator of GntR Family from Bacteroides thetaiotaomicron Q8A870 Q8A870 2.819 X-RAY DIFFRACTION 51 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 108 108 3ic7-a2-m1-cA_3ic7-a2-m2-cA AIYLQIADRICDDILLGQYEEEGRIPSVREYAVNANTVRSYEYLQSQEVIYNKRGIGFFVASGAKLIHSLRKEQFLKEEVGSFFRQLYTLGISIKEIEKYYEFIQRQN AIYLQIADRICDDILLGQYEEEGRIPSVREYAVNANTVRSYEYLQSQEVIYNKRGIGFFVASGAKLIHSLRKEQFLKEEVGSFFRQLYTLGISIKEIEKYYEFIQRQN 3ic8-a1-m1-cC_3ic8-a1-m1-cA The Crystal Structure of a GST-like protein from Pseudomonas syringae to 2.4A Q887M8 Q887M8 2.4 X-RAY DIFFRACTION 23 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 267 272 SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYGVEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR 3ic8-a1-m1-cC_3ic8-a1-m1-cB The Crystal Structure of a GST-like protein from Pseudomonas syringae to 2.4A Q887M8 Q887M8 2.4 X-RAY DIFFRACTION 10 0.993 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 267 268 SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR 3ic8-a1-m1-cD_3ic8-a1-m1-cB The Crystal Structure of a GST-like protein from Pseudomonas syringae to 2.4A Q887M8 Q887M8 2.4 X-RAY DIFFRACTION 20 0.985 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 267 268 ELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYGVAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEK SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR 3ic8-a2-m1-cB_3ic8-a2-m1-cA The Crystal Structure of a GST-like protein from Pseudomonas syringae to 2.4A Q887M8 Q887M8 2.4 X-RAY DIFFRACTION 66 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 268 272 3ic8-a1-m1-cB_3ic8-a1-m1-cA SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYGVEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR 3ic8-a3-m1-cC_3ic8-a3-m1-cD The Crystal Structure of a GST-like protein from Pseudomonas syringae to 2.4A Q887M8 Q887M8 2.4 X-RAY DIFFRACTION 60 0.985 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 267 267 3ic8-a1-m1-cC_3ic8-a1-m1-cD SELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPVEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYEAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEKR ELILHHYPTSLFAEKARLLGFKGVNWRSVTIPSIPKPDLTALTGGYRKTPVLQIGADIYCDTALARRLEQEKASPAFYPQGQEFAVAGLAAWADSVLFLHAVSLVFQPESEQVKHQWPTFSRLESQLSHGGDFLFGAPSIADFSVAHTLWFLKQTPVTAPFVDDYPSVSVWLDRVLGFGHGSLSDLSSAAAIEIASNATPAPLPDETFIDPNGFKAGDKVAIAAVDYGVAVEGELFTGREELILRREDNRAGVVHVHFPRLGFRVEK 3ic9-a2-m1-cD_3ic9-a2-m1-cC The structure of dihydrolipoamide dehydrogenase from Colwellia psychrerythraea 34H. Q488E0 Q488E0 2.15 X-RAY DIFFRACTION 223 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 469 471 3ic9-a1-m1-cA_3ic9-a1-m1-cB KVINVDVAIIGTGTAGGAYRAAKKHTDKVVLIEGGAYGTTCARVGCPSKLLIAAADASYHASQTDLFGIQVDRISVNGKAVKRIQTERDRFVGFVVESVESFDEQDKIRGFAKFLDEHTLQVDDHSQVIAKRIVIATGSRPNYPEFLAAAGSRLLTNDNLFELNDLPKSVAVFGPGVIGLELGQALSRLGVIVKVFGRSGSVANLQDEEKRYAEKTFNEEFYFDAKARVISTIEKEDAVEVIYFDKSGQKTTESFQYVLAATGRKANVDKLGLENTSIELDKKNSPLFDELTLQTSVDHIFVAGDANNTLTLLHEAADDGKVAGTNAGAYPVIAQGQRRAPLSVVFTEPQVASVGLSLRQIEDLYADQDAANYVVGQVSFEGQGRSRVGKNKGLLNVYADRTSGEFLGAEFGPAAEHIGHLLAWARQQQTVQALTPFYHPVIEEGLRTALRDAQQKLAIEKHDNEFITH NAKVINVDVAIIGTGTAGGAYRAAKKHTDKVVLIEGGAYGTTCARVGCPSKLLIAAADASYHASQTDLFGIQVDRISVNGKAVKRIQTERDRFVGFVVESVESFDEQDKIRGFAKFLDEHTLQVDDHSQVIAKRIVIATGSRPNYPEFLAAAGSRLLTNDNLFELNDLPKSVAVFGPGVIGLELGQALSRLGVIVKVFGRSGSVANLQDEEKRYAEKTFNEEFYFDAKARVISTIEKEDAVEVIYFDKSGQKTTESFQYVLAATGRKANVDKLGLENTSIELDKKNSPLFDELTLQTSVDHIFVAGDANNTLTLLHEAADDGKVAGTNAGAYPVIAQGQRRAPLSVVFTEPQVASVGLSLRQIEDLYADQDAANYVVGQVSFEGQGRSRVGKNKGLLNVYADRTSGEFLGAEFGPAAEHIGHLLAWARQQQTVQALTPFYHPVIEEGLRTALRDAQQKLAIEKHDNEFITH 3ica-a1-m1-cA_3ica-a1-m1-cB The crystal structure of the beta subunit of a phenylalanyl-tRNA synthetase from Porphyromonas gingivalis W83 Q7MXR4 Q7MXR4 2.44 X-RAY DIFFRACTION 62 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 200 202 NADRRYKWQTVVSEQLVGAGFNEILNNSLTAGSYYEGLKSHPREAVELNPLSQELNCRQTLLFGGLETLSHNLRRKHLSLYLFEWGKCYRFHAAKRETPLAAYAEDDRLGIWICGQRVHPEEPTSVFELKAVVEQVLCRVGIETGAYTLKTADNDLYASAEVKTRSGKLLGTFGTVSTELIKRFEIEQPVYFAELLWDAL NADRRYKWQTVVSEQLVGAGFNEILNNSLTAGSYYEGLKSHPREAVELNPLSQELNCRQTLLFGGLETLSHNLRRKHLSLYLFEWGKCYRFHAAKRTDETPLAAYAEDDRLGIWICGQRVHPEEPTSVFELKAVVEQVLCRVGIETGAYTLKTADNDLYASAEVKTRSGKLLGTFGTVSTELIKRFEIEQPVYFAELLWDAL 3icc-a1-m1-cA_3icc-a1-m2-cB Crystal structure of a putative 3-oxoacyl-(acyl carrier protein) reductase from Bacillus anthracis at 1.87 A resolution A0A6L7HAY4 A0A6L7HAY4 1.87 X-RAY DIFFRACTION 93 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 248 248 3icc-a1-m1-cB_3icc-a1-m2-cA ANSLKGKVALVTGASRGIGRAIAKRLANDGALVAIHYGNRKEEAEETVYEIQSNGGSAFSIGANLESLHGVEALYSSLDNELQNRTGSTKFDILINNAGIGPGAFIEETTEQFFDRVSVNAKAPFFIIQQALSRLRDNSRIINISSAATRISLPDFIAYSTKGAINTTFTLAKQLGARGITVNAILPGFVKTDNAELLSDPKQYATTISAFNRLGEVEDIADTAAFLASPDSRWVTGQLIDVSGGSCL ANSLKGKVALVTGASRGIGRAIAKRLANDGALVAIHYGNRKEEAEETVYEIQSNGGSAFSIGANLESLHGVEALYSSLDNELQNRTGSTKFDILINNAGIGPGAFIEETTEQFFDRVSVNAKAPFFIIQQALSRLRDNSRIINISSAATRISLPDFIAYSTKGAINTTFTLAKQLGARGITVNAILPGFVKTDNAELLSDPKQYATTISAFNRLGEVEDIADTAAFLASPDSRWVTGQLIDVSGGSCL 3icc-a1-m2-cA_3icc-a1-m2-cB Crystal structure of a putative 3-oxoacyl-(acyl carrier protein) reductase from Bacillus anthracis at 1.87 A resolution A0A6L7HAY4 A0A6L7HAY4 1.87 X-RAY DIFFRACTION 103 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 248 248 3icc-a1-m1-cA_3icc-a1-m1-cB ANSLKGKVALVTGASRGIGRAIAKRLANDGALVAIHYGNRKEEAEETVYEIQSNGGSAFSIGANLESLHGVEALYSSLDNELQNRTGSTKFDILINNAGIGPGAFIEETTEQFFDRVSVNAKAPFFIIQQALSRLRDNSRIINISSAATRISLPDFIAYSTKGAINTTFTLAKQLGARGITVNAILPGFVKTDNAELLSDPKQYATTISAFNRLGEVEDIADTAAFLASPDSRWVTGQLIDVSGGSCL ANSLKGKVALVTGASRGIGRAIAKRLANDGALVAIHYGNRKEEAEETVYEIQSNGGSAFSIGANLESLHGVEALYSSLDNELQNRTGSTKFDILINNAGIGPGAFIEETTEQFFDRVSVNAKAPFFIIQQALSRLRDNSRIINISSAATRISLPDFIAYSTKGAINTTFTLAKQLGARGITVNAILPGFVKTDNAELLSDPKQYATTISAFNRLGEVEDIADTAAFLASPDSRWVTGQLIDVSGGSCL 3icf-a1-m1-cB_3icf-a1-m1-cA Structure of Protein serine/threonine phosphatase from Saccharomyces cerevisiae with similarity to human phosphatase PP5 P53043 P53043 2.3 X-RAY DIFFRACTION 48 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 304 305 SQEFISKVNDLFLKGKYLPKKYVAAIISHADTLFRQEPSVELENNSTPDVKISVCGDTHGQFYDVLNLFRKFGKVGPKHTYLFNGDFVDRGSWSCEVALLFYCLKILHPNNFFLNRGNHESDNNKIYGFEDECKYKYSQRIFNFAQSFESLPLATLINNDYLVHGGLPSDPSATLSDFKNIDRFAQPPRDGAFELLWADPQEANGGPSQRGHAFGPDITDRFLRNNKLRKIFRSHELRGGVQFEQKGKLTVFSAPNYCDSQGNLGGVIHVVPGHGILQAGRNDDQNLIIETFEAVEHPDIKPAY SQEFISKVNDLFLKGKYLPKKYVAAIISHADTLFRQEPSVELENNSTPDVKISVCGDTHGQFYDVLNLFRKFGKVGPKHTYLFNGDFVDRGSWSCEVALLFYCLKILHPNNFFLNRGNHESDNNKIYGFEDECKYKYSQRIFNFAQSFESLPLATLINNDYLVHGGLPSDPSATLSDFKNIDRFAQPPRDGAFELLWADPQEANGGPSQRGHAFGPDITDRFLRNNKLRKIFRSHELRGGVQFEQKGKLTVFSAPNYCDSQGNLGGVIHVVPGHGILQAGRNDDQNLIIETFEAVEHPDIKPAYS 3ics-a1-m1-cB_3ics-a1-m1-cA Crystal structure of partially reduced Bacillus anthracis CoADR-RHD A0A6L7H7X4 A0A6L7H7X4 1.94 X-RAY DIFFRACTION 240 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 538 539 3icr-a1-m1-cB_3icr-a1-m1-cA 3ict-a1-m1-cB_3ict-a1-m1-cA GSRKIVVVGGVAGGASVAARLRRLSEEDEIIVERGEYISFANCGLPYYIGGVITERQKLLVQTVERSKRFNLDIRVLSEVVKINKEEKTITIKNVTTNETYNEAYDVLILSPGAKPIVPSIPGIEEAKALFTLRNVPDTDRIKAYIDEKKPRHATVIGGGFIGVEVENLRERGIEVTLVEANQVPPIDYEAAYVHEHKNHDVELVFEDGVDALEENGAVVRLKSGSVIQTDLILAIGVQPESSLAKGAGLALGVRGTIKVNEKFQTSDPHIYAIGDAIEVKDFVTETETIPLAWPANRQGRLADIIHGHTDSLYKGTLGTSVAKVFDLTVATTGLNEKILKRLNIPYEVVHVQANSHAGYYPNATPVLIKLIFNKDSGKIYGAQTLGRDGVDKRDVIATAIKANLTVLDLPDLELSYAPPYSSAKDPVNVGYAASNIVDGFVDTVQWHEIDRIVENGGYLIDVREPNELKQGIKGSINIPLDELRDRLEEVPVDKDIYITCQLGRGYVAARLEKGYKVKNVDGGFKLYGTVLPERIVY WGSRKIVVVGGVAGGASVAARLRRLSEEDEIIVERGEYISFANCGLPYYIGGVITERQKLLVQTVERSKRFNLDIRVLSEVVKINKEEKTITIKNVTTNETYNEAYDVLILSPGAKPIVPSIPGIEEAKALFTLRNVPDTDRIKAYIDEKKPRHATVIGGGFIGVEVENLRERGIEVTLVEANQVPPIDYEAAYVHEHKNHDVELVFEDGVDALEENGAVVRLKSGSVIQTDLILAIGVQPESSLAKGAGLALGVRGTIKVNEKFQTSDPHIYAIGDAIEVKDFVTETETIPLAWPANRQGRLADIIHGHTDSLYKGTLGTSVAKVFDLTVATTGLNEKILKRLNIPYEVVHVQANSHAGYYPNATPVLIKLIFNKDSGKIYGAQTLGRDGVDKRDVIATAIKANLTVLDLPDLELSYAPPYSSAKDPVNVGYAASNIVDGFVDTVQWHEIDRIVENGGYLIDVREPNELKQGIKGSINIPLDELRDRLEEVPVDKDIYITCQLGRGYVAARLEKGYKVKNVDGGFKLYGTVLPERIVY 3icu-a1-m1-cA_3icu-a1-m2-cA Protease-associated domain of the E3 ligase grail Q8TEB7 Q8TEB7 2.1 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 GAMDGAEAVWTAYLNVSWRVPHTGVNRTVWELSEEGVYGQDSPLEPVAGVLVPPDGPGALNACNPHTNFTVPTVWGSTVQVSWLALIQRGGGCTFADKIHLAYERGASGAVIFNFPGTRNEVIPMSHPGAVDIVAIMIGNLKGTKILQSIQRGIQVTMVIEVGKKHGPWVN GAMDGAEAVWTAYLNVSWRVPHTGVNRTVWELSEEGVYGQDSPLEPVAGVLVPPDGPGALNACNPHTNFTVPTVWGSTVQVSWLALIQRGGGCTFADKIHLAYERGASGAVIFNFPGTRNEVIPMSHPGAVDIVAIMIGNLKGTKILQSIQRGIQVTMVIEVGKKHGPWVN 3icv-a1-m1-cA_3icv-a1-m2-cA Structural Consequences of a Circular Permutation on Lipase B from Candida Antartica P41365 P41365 1.49 X-RAY DIFFRACTION 141 1.0 288 288 3icw-a1-m1-cA_3icw-a1-m2-cA GPKQNCEPDLMPYARPFAVGKRTCSGIVGLPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSAQLGYTPCWISPPPFMLNDTQVNTEYMVNAITTLYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPAND GPKQNCEPDLMPYARPFAVGKRTCSGIVGLPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSAQLGYTPCWISPPPFMLNDTQVNTEYMVNAITTLYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPAND 3icy-a2-m1-cB_3icy-a2-m3-cB The crystal structure of sensory box histidine kinase/response regulator domain from Chlorobium tepidum TLS Q8KAU2 Q8KAU2 2.684 X-RAY DIFFRACTION 147 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 115 115 3icy-a1-m1-cA_3icy-a1-m2-cA SNAEELQALVDNIPAAIYHLDVSGQATIRFRPPAFLKTLVSEHAGTTRLNTLSIHHDDRHLSNAYSKLREAKHSLTLVYRIVTPEGKLHWIEDHRSSFSDDGLFSGIDGILCEVT SNAEELQALVDNIPAAIYHLDVSGQATIRFRPPAFLKTLVSEHAGTTRLNTLSIHHDDRHLSNAYSKLREAKHSLTLVYRIVTPEGKLHWIEDHRSSFSDDGLFSGIDGILCEVT 3id3-a1-m1-cA_3id3-a1-m1-cB Crystal Structure of RseP PDZ2 I304A domain P0AEH1 P0AEH1 2.01 X-RAY DIFFRACTION 49 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 89 89 MIEPVLENVQPNSAASKAGLQAGDRIVKVDGQPLTQWVTFVMLVRDNPGKSLALEIERQGSPLSLTLIPESKPGNGKAIGFVGAEPKVI MIEPVLENVQPNSAASKAGLQAGDRIVKVDGQPLTQWVTFVMLVRDNPGKSLALEIERQGSPLSLTLIPESKPGNGKAIGFVGAEPKVI 3id9-a1-m1-cA_3id9-a1-m1-cB Crystal structure of a MutT/NUDIX family protein from Bacillus thuringiensis C3H476 C3H476 2.55 X-RAY DIFFRACTION 68 0.992 412694 (Bacillus thuringiensis str. Al Hakam) 412694 (Bacillus thuringiensis str. Al Hakam) 120 123 QVRVTGILIEDEKVLLVKQKVANRDWSLPGGRVENGETLEEAIREREETGLEVKIKKLLYVCDKPDASPSLLHITFLLERINPIHDVQVPINELSYYGFSETFINLISGGLANAGSYQGL QVRVTGILIEDEKVLLVKQKVANRDWSLPGGRVENGETLEEAIREREETGLEVKIKKLLYVCDKPDASPSLLHITFLLERIEPIHDVQVPINELSYYGFSETFINLISGGLANAGSYQGLKRN 3idd-a1-m1-cB_3idd-a1-m1-cA Cofactor-Independent Phosphoglycerate Mutase from Thermoplasma acidophilum DSM 1728 Q9HL27 Q9HL27 2.8 X-RAY DIFFRACTION 50 0.991 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 348 352 KSIILIVLDGLGDRPGSDLQNRTPLQAAFRPNLNWLASHGINGIHPTSHSLLGYDPKVYYPGRGPFEALGLGDIRPGDLAFRANFATNRDGVIVDRRAGRENKGNEELADAISLDGEYSFRVKSGVEHRAALVVSGPDLSDIGDSDPHREGLPPEKIRPTDPSGDRTAEVNAYLEEARRILSDHRVNKERVKNGRLPGNELLVRSAGKVPAIPSFTEKNRKGACVVGSPWLKGLCRLLRDVFDVPGASNYRGKIEKAVDLTSSHDFVLVNIKANYPLKRDVIEDIDRAEPLKSIGDHAVICVTGDDPVPIVFYTDGVNDGVHLFDELSSASGSLRITSYNVDILQLAG KSIILIVLDGLGDRPGSDLQNRTPLQAAFRPNLNWLASHGINGIHPISPSDTSHSLLGYDPKVYYPGRGPFEALGLGDIRPGDLAFRANFATNRDGVIVDRRAGRENKGNEELADAISLDGEYSFRVKSGVEHRAALVVSGPDLSDIGDSDPHREGLPPEKIRPTDPSGDRTAEVNAYLEEARRILSDHRVNKERVKNGRLPGNELLVRSAGKVPAIPSFTEKNRKGACVVGSPWLKGLCRLLRDVFDVPSNYRGKIEKAVDLTSSHDFVLVNIKNYPLKRDVIEDIDRAEPLKSIGDHAVICVTGDHSDPVPIVFYTDGVNDGVHLFDELSSASGSLRITSYNVDILQLAG 3ide-a1-m5-cE_3ide-a1-m9-cE Structure of IPNV subviral particle Q703G9 Q703G9 3.35 X-RAY DIFFRACTION 205 1.0 11005 (Infectious pancreatic necrosis virus - Sp) 11005 (Infectious pancreatic necrosis virus - Sp) 415 415 3ide-a1-m10-cA_3ide-a1-m11-cB 3ide-a1-m10-cA_3ide-a1-m8-cD 3ide-a1-m10-cB_3ide-a1-m6-cD 3ide-a1-m10-cC_3ide-a1-m2-cC 3ide-a1-m10-cC_3ide-a1-m6-cC 3ide-a1-m10-cD_3ide-a1-m2-cB 3ide-a1-m10-cE_3ide-a1-m3-cE 3ide-a1-m10-cE_3ide-a1-m8-cE 3ide-a1-m11-cA_3ide-a1-m10-cB 3ide-a1-m11-cA_3ide-a1-m6-cD 3ide-a1-m11-cB_3ide-a1-m8-cD 3ide-a1-m11-cC_3ide-a1-m8-cC 3ide-a1-m11-cE_3ide-a1-m4-cE 3ide-a1-m11-cE_3ide-a1-m6-cE 3ide-a1-m12-cA_3ide-a1-m7-cD 3ide-a1-m12-cA_3ide-a1-m9-cB 3ide-a1-m12-cB_3ide-a1-m5-cD 3ide-a1-m12-cC_3ide-a1-m3-cC 3ide-a1-m12-cC_3ide-a1-m5-cC 3ide-a1-m12-cD_3ide-a1-m3-cB 3ide-a1-m12-cE_3ide-a1-m2-cE 3ide-a1-m12-cE_3ide-a1-m7-cE 3ide-a1-m1-cA_3ide-a1-m4-cB 3ide-a1-m1-cA_3ide-a1-m9-cD 3ide-a1-m1-cB_3ide-a1-m11-cD 3ide-a1-m1-cC_3ide-a1-m11-cC 3ide-a1-m1-cC_3ide-a1-m8-cC 3ide-a1-m1-cD_3ide-a1-m8-cB 3ide-a1-m1-cE_3ide-a1-m5-cE 3ide-a1-m1-cE_3ide-a1-m9-cE 3ide-a1-m2-cA_3ide-a1-m12-cD 3ide-a1-m2-cA_3ide-a1-m3-cB 3ide-a1-m2-cC_3ide-a1-m6-cC 3ide-a1-m2-cD_3ide-a1-m6-cB 3ide-a1-m2-cE_3ide-a1-m7-cE 3ide-a1-m3-cA_3ide-a1-m10-cD 3ide-a1-m3-cA_3ide-a1-m2-cB 3ide-a1-m3-cC_3ide-a1-m5-cC 3ide-a1-m3-cD_3ide-a1-m5-cB 3ide-a1-m3-cE_3ide-a1-m8-cE 3ide-a1-m4-cA_3ide-a1-m11-cD 3ide-a1-m4-cA_3ide-a1-m1-cB 3ide-a1-m4-cB_3ide-a1-m9-cD 3ide-a1-m4-cC_3ide-a1-m7-cC 3ide-a1-m4-cC_3ide-a1-m9-cC 3ide-a1-m4-cD_3ide-a1-m7-cB 3ide-a1-m4-cE_3ide-a1-m6-cE 3ide-a1-m5-cA_3ide-a1-m1-cD 3ide-a1-m5-cA_3ide-a1-m8-cB 3ide-a1-m6-cA_3ide-a1-m4-cD 3ide-a1-m6-cA_3ide-a1-m7-cB 3ide-a1-m7-cA_3ide-a1-m2-cD 3ide-a1-m7-cA_3ide-a1-m6-cB 3ide-a1-m7-cC_3ide-a1-m9-cC 3ide-a1-m7-cD_3ide-a1-m9-cB 3ide-a1-m8-cA_3ide-a1-m3-cD 3ide-a1-m8-cA_3ide-a1-m5-cB 3ide-a1-m9-cA_3ide-a1-m12-cB 3ide-a1-m9-cA_3ide-a1-m5-cD ATATYLKSIMLPETGPASIPDDITERHILKQETSSYNLEVSESGSGVLVCFPGAPGSRIGAHYRWNANQTGLEFDQWLETSQDLKKAFNYGRLISRKYDIQSSTNGTLNAATFEGSLSEVESLTYNSLMSLTTNPQDKVNNQLVTKGVTVLNLPTGFDKPYVRLEDETPQGLQSMNGAKMRCTAAIAPRRYEIDLPSQRLPPVPATGTLTTLYEGNADIVNSTTVTGDINFSLAEQPADETKFDFQLDFMGLDNDVPVVTVVSSVLATNDNYRGVSAKMTQSIPTENITKPITRVKLSYKINQQTAIGNVATLGTMGPASVSFSSGNGNVPGVLRPITLVAYEKMTPLSILTVAGVSNYELIPNPELLKNMVTRYGKYDPEGLNYAKMILSHREELDIRTVWRTEEYKERTRVFN ATATYLKSIMLPETGPASIPDDITERHILKQETSSYNLEVSESGSGVLVCFPGAPGSRIGAHYRWNANQTGLEFDQWLETSQDLKKAFNYGRLISRKYDIQSSTNGTLNAATFEGSLSEVESLTYNSLMSLTTNPQDKVNNQLVTKGVTVLNLPTGFDKPYVRLEDETPQGLQSMNGAKMRCTAAIAPRRYEIDLPSQRLPPVPATGTLTTLYEGNADIVNSTTVTGDINFSLAEQPADETKFDFQLDFMGLDNDVPVVTVVSSVLATNDNYRGVSAKMTQSIPTENITKPITRVKLSYKINQQTAIGNVATLGTMGPASVSFSSGNGNVPGVLRPITLVAYEKMTPLSILTVAGVSNYELIPNPELLKNMVTRYGKYDPEGLNYAKMILSHREELDIRTVWRTEEYKERTRVFN 3ide-a1-m9-cE_3ide-a1-m5-cD Structure of IPNV subviral particle Q703G9 Q703G9 3.35 X-RAY DIFFRACTION 20 1.0 11005 (Infectious pancreatic necrosis virus - Sp) 11005 (Infectious pancreatic necrosis virus - Sp) 415 416 3ide-a1-m10-cA_3ide-a1-m11-cA 3ide-a1-m10-cC_3ide-a1-m2-cB 3ide-a1-m10-cE_3ide-a1-m8-cD 3ide-a1-m11-cC_3ide-a1-m1-cB 3ide-a1-m11-cE_3ide-a1-m6-cD 3ide-a1-m12-cA_3ide-a1-m9-cA 3ide-a1-m12-cC_3ide-a1-m3-cB 3ide-a1-m12-cE_3ide-a1-m7-cD 3ide-a1-m1-cA_3ide-a1-m4-cA 3ide-a1-m1-cC_3ide-a1-m8-cB 3ide-a1-m1-cE_3ide-a1-m9-cD 3ide-a1-m2-cA_3ide-a1-m3-cA 3ide-a1-m2-cC_3ide-a1-m6-cB 3ide-a1-m2-cE_3ide-a1-m12-cD 3ide-a1-m3-cC_3ide-a1-m5-cB 3ide-a1-m3-cE_3ide-a1-m10-cD 3ide-a1-m4-cC_3ide-a1-m7-cB 3ide-a1-m4-cE_3ide-a1-m11-cD 3ide-a1-m5-cA_3ide-a1-m8-cA 3ide-a1-m5-cC_3ide-a1-m12-cB 3ide-a1-m5-cE_3ide-a1-m1-cD 3ide-a1-m6-cA_3ide-a1-m7-cA 3ide-a1-m6-cC_3ide-a1-m10-cB 3ide-a1-m6-cE_3ide-a1-m4-cD 3ide-a1-m7-cC_3ide-a1-m9-cB 3ide-a1-m7-cE_3ide-a1-m2-cD 3ide-a1-m8-cC_3ide-a1-m11-cB 3ide-a1-m8-cE_3ide-a1-m3-cD 3ide-a1-m9-cC_3ide-a1-m4-cB ATATYLKSIMLPETGPASIPDDITERHILKQETSSYNLEVSESGSGVLVCFPGAPGSRIGAHYRWNANQTGLEFDQWLETSQDLKKAFNYGRLISRKYDIQSSTNGTLNAATFEGSLSEVESLTYNSLMSLTTNPQDKVNNQLVTKGVTVLNLPTGFDKPYVRLEDETPQGLQSMNGAKMRCTAAIAPRRYEIDLPSQRLPPVPATGTLTTLYEGNADIVNSTTVTGDINFSLAEQPADETKFDFQLDFMGLDNDVPVVTVVSSVLATNDNYRGVSAKMTQSIPTENITKPITRVKLSYKINQQTAIGNVATLGTMGPASVSFSSGNGNVPGVLRPITLVAYEKMTPLSILTVAGVSNYELIPNPELLKNMVTRYGKYDPEGLNYAKMILSHREELDIRTVWRTEEYKERTRVFN ATATYLKSIMLPETGPASIPDDITERHILKQETSSYNLEVSESGSGVLVCFPGAPGSRIGAHYRWNANQTGLEFDQWLETSQDLKKAFNYGRLISRKYDIQSSTLNGTLNAATFEGSLSEVESLTYNSLMSLTTNPQDKVNNQLVTKGVTVLNLPTGFDKPYVRLEDETPQGLQSMNGAKMRCTAAIAPRRYEIDLPSQRLPPVPATGTLTTLYEGNADIVNSTTVTGDINFSLAEQPADETKFDFQLDFMGLDNDVPVVTVVSSVLATNDNYRGVSAKMTQSIPTENITKPITRVKLSYKINQQTAIGNVATLGTMGPASVSFSSGNGNVPGVLRPITLVAYEKMTPLSILTVAGVSNYELIPNPELLKNMVTRYGKYDPEGLNYAKMILSHREELDIRTVWRTEEYKERTRVFN 3ide-a1-m9-cE_3ide-a1-m9-cD Structure of IPNV subviral particle Q703G9 Q703G9 3.35 X-RAY DIFFRACTION 52 1.0 11005 (Infectious pancreatic necrosis virus - Sp) 11005 (Infectious pancreatic necrosis virus - Sp) 415 416 3ide-a1-m10-cA_3ide-a1-m10-cB 3ide-a1-m10-cA_3ide-a1-m10-cE 3ide-a1-m10-cC_3ide-a1-m10-cB 3ide-a1-m10-cC_3ide-a1-m10-cD 3ide-a1-m10-cE_3ide-a1-m10-cD 3ide-a1-m11-cA_3ide-a1-m11-cB 3ide-a1-m11-cA_3ide-a1-m11-cE 3ide-a1-m11-cC_3ide-a1-m11-cB 3ide-a1-m11-cC_3ide-a1-m11-cD 3ide-a1-m11-cE_3ide-a1-m11-cD 3ide-a1-m12-cA_3ide-a1-m12-cB 3ide-a1-m12-cA_3ide-a1-m12-cE 3ide-a1-m12-cC_3ide-a1-m12-cB 3ide-a1-m12-cC_3ide-a1-m12-cD 3ide-a1-m12-cE_3ide-a1-m12-cD 3ide-a1-m1-cA_3ide-a1-m1-cB 3ide-a1-m1-cA_3ide-a1-m1-cE 3ide-a1-m1-cC_3ide-a1-m1-cB 3ide-a1-m1-cC_3ide-a1-m1-cD 3ide-a1-m1-cE_3ide-a1-m1-cD 3ide-a1-m2-cA_3ide-a1-m2-cB 3ide-a1-m2-cA_3ide-a1-m2-cE 3ide-a1-m2-cC_3ide-a1-m2-cB 3ide-a1-m2-cC_3ide-a1-m2-cD 3ide-a1-m2-cE_3ide-a1-m2-cD 3ide-a1-m3-cA_3ide-a1-m3-cB 3ide-a1-m3-cA_3ide-a1-m3-cE 3ide-a1-m3-cC_3ide-a1-m3-cB 3ide-a1-m3-cC_3ide-a1-m3-cD 3ide-a1-m3-cE_3ide-a1-m3-cD 3ide-a1-m4-cA_3ide-a1-m4-cB 3ide-a1-m4-cA_3ide-a1-m4-cE 3ide-a1-m4-cC_3ide-a1-m4-cB 3ide-a1-m4-cC_3ide-a1-m4-cD 3ide-a1-m4-cE_3ide-a1-m4-cD 3ide-a1-m5-cA_3ide-a1-m5-cB 3ide-a1-m5-cA_3ide-a1-m5-cE 3ide-a1-m5-cC_3ide-a1-m5-cB 3ide-a1-m5-cC_3ide-a1-m5-cD 3ide-a1-m5-cE_3ide-a1-m5-cD 3ide-a1-m6-cA_3ide-a1-m6-cB 3ide-a1-m6-cA_3ide-a1-m6-cE 3ide-a1-m6-cC_3ide-a1-m6-cB 3ide-a1-m6-cC_3ide-a1-m6-cD 3ide-a1-m6-cE_3ide-a1-m6-cD 3ide-a1-m7-cA_3ide-a1-m7-cB 3ide-a1-m7-cA_3ide-a1-m7-cE 3ide-a1-m7-cC_3ide-a1-m7-cB 3ide-a1-m7-cC_3ide-a1-m7-cD 3ide-a1-m7-cE_3ide-a1-m7-cD 3ide-a1-m8-cA_3ide-a1-m8-cB 3ide-a1-m8-cA_3ide-a1-m8-cE 3ide-a1-m8-cC_3ide-a1-m8-cB 3ide-a1-m8-cC_3ide-a1-m8-cD 3ide-a1-m8-cE_3ide-a1-m8-cD 3ide-a1-m9-cA_3ide-a1-m9-cB 3ide-a1-m9-cA_3ide-a1-m9-cE 3ide-a1-m9-cC_3ide-a1-m9-cB 3ide-a1-m9-cC_3ide-a1-m9-cD ATATYLKSIMLPETGPASIPDDITERHILKQETSSYNLEVSESGSGVLVCFPGAPGSRIGAHYRWNANQTGLEFDQWLETSQDLKKAFNYGRLISRKYDIQSSTNGTLNAATFEGSLSEVESLTYNSLMSLTTNPQDKVNNQLVTKGVTVLNLPTGFDKPYVRLEDETPQGLQSMNGAKMRCTAAIAPRRYEIDLPSQRLPPVPATGTLTTLYEGNADIVNSTTVTGDINFSLAEQPADETKFDFQLDFMGLDNDVPVVTVVSSVLATNDNYRGVSAKMTQSIPTENITKPITRVKLSYKINQQTAIGNVATLGTMGPASVSFSSGNGNVPGVLRPITLVAYEKMTPLSILTVAGVSNYELIPNPELLKNMVTRYGKYDPEGLNYAKMILSHREELDIRTVWRTEEYKERTRVFN ATATYLKSIMLPETGPASIPDDITERHILKQETSSYNLEVSESGSGVLVCFPGAPGSRIGAHYRWNANQTGLEFDQWLETSQDLKKAFNYGRLISRKYDIQSSTLNGTLNAATFEGSLSEVESLTYNSLMSLTTNPQDKVNNQLVTKGVTVLNLPTGFDKPYVRLEDETPQGLQSMNGAKMRCTAAIAPRRYEIDLPSQRLPPVPATGTLTTLYEGNADIVNSTTVTGDINFSLAEQPADETKFDFQLDFMGLDNDVPVVTVVSSVLATNDNYRGVSAKMTQSIPTENITKPITRVKLSYKINQQTAIGNVATLGTMGPASVSFSSGNGNVPGVLRPITLVAYEKMTPLSILTVAGVSNYELIPNPELLKNMVTRYGKYDPEGLNYAKMILSHREELDIRTVWRTEEYKERTRVFN 3idf-a1-m1-cB_3idf-a1-m1-cA The Crystal Structure of a USP-like protein from Wolinella succinogenes to 2.0A O34252 O34252 2 X-RAY DIFFRACTION 73 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 135 138 MKKLLFAIDDTEACERAAQYILDMFGKDADCTLTLIHVKPLYGEAVLAAYDEIEMKEEEKAKLLTQKFSTFFTEKGINPFVVIKEGEPVEMVLEEAKDYNLLIIGSSENSFLNKIFASHQDDFIQKAPIPVLIVK MKKLLFAIDDTEACERAAQYILDMFGKDADCTLTLIHVKPEFMLYGEAVLAAYDEIEMKEEEKAKLLTQKFSTFFTEKGINPFVVIKEGEPVEMVLEEAKDYNLLIIGSSENSFLNKIFASHQDDFIQKAPIPVLIVK 3idq-a2-m2-cA_3idq-a2-m3-cA Crystal structure of S. cerevisiae Get3 at 3.7 Angstrom resolution Q12154 Q12154 3.701 X-RAY DIFFRACTION 29 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 272 272 3idq-a2-m1-cA_3idq-a2-m2-cA 3idq-a2-m1-cA_3idq-a2-m3-cA NLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFANCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLEIRGLNNLTKFSQFLNKEYNPITDGKVIYELEDKEGLHHHHH NLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFANCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLEIRGLNNLTKFSQFLNKEYNPITDGKVIYELEDKEGLHHHHH 3ids-a1-m1-cB_3ids-a1-m1-cD Structure of Glycosomal Glyceraldehyde-3-Phosphate Dehydrogenase from Trypanosoma cruzi in complex with the irreversible iodoacetamide inhibitor P22513 P22513 1.8 X-RAY DIFFRACTION 29 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 359 359 1k3t-a1-m1-cA_1k3t-a1-m1-cC 1k3t-a1-m1-cB_1k3t-a1-m1-cD 1ml3-a1-m1-cA_1ml3-a1-m1-cC 1ml3-a1-m1-cB_1ml3-a1-m1-cD 1qxs-a1-m1-cA_1qxs-a1-m1-cC 1qxs-a1-m1-cB_1qxs-a1-m1-cD 2x0n-a1-m1-cA_2x0n-a1-m2-cA 2x0n-a1-m1-cB_2x0n-a1-m2-cB 2x0n-a2-m1-cO_2x0n-a2-m1-cQ 2x0n-a2-m1-cP_2x0n-a2-m1-cR 3dmt-a1-m1-cB_3dmt-a1-m1-cD 3dmt-a1-m1-cC_3dmt-a1-m1-cA 3ids-a1-m1-cA_3ids-a1-m1-cC MPIKVGINGFGRIGRMVFQALCEDGLLGTEIDVVAVVDMNTDAEYFAYQMRYDTVHGKFKYEVTTTKSSPSVAKDDTLVVNGHRILCVKAQRNPADLPWGKLGVEYVIESTGLFTAKAAAEGHLRGGARKVVISAPASGGAKTLVMGVNHHEYNPSEHHVVSNASCTTNCLAPIVHVLVKEGFGVQTGLMTTIHSYTATQKTVDGVSVKDWRGGRAAAVNIIPSTTGAAKAVGMVIPSTQGKLTGMSFRVPTPDVSVVDLTFTAARDTSIQEIDAALKRASKTYMKGILGYTDEELVSADFINDNRSSIYDSKATLQNNLPKERRFFKIVSWYDNEWGYSHRVVDLVRHMASKDRSARL MPIKVGINGFGRIGRMVFQALCEDGLLGTEIDVVAVVDMNTDAEYFAYQMRYDTVHGKFKYEVTTTKSSPSVAKDDTLVVNGHRILCVKAQRNPADLPWGKLGVEYVIESTGLFTAKAAAEGHLRGGARKVVISAPASGGAKTLVMGVNHHEYNPSEHHVVSNASCTTNCLAPIVHVLVKEGFGVQTGLMTTIHSYTATQKTVDGVSVKDWRGGRAAAVNIIPSTTGAAKAVGMVIPSTQGKLTGMSFRVPTPDVSVVDLTFTAARDTSIQEIDAALKRASKTYMKGILGYTDEELVSADFINDNRSSIYDSKATLQNNLPKERRFFKIVSWYDNEWGYSHRVVDLVRHMASKDRSARL 3ie9-a2-m3-cA_3ie9-a2-m6-cA Structure of oxidized M98L mutant of amicyanin P22364 P22364 2.1 X-RAY DIFFRACTION 42 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 105 105 3ie9-a2-m1-cA_3ie9-a2-m5-cA 3ie9-a2-m2-cA_3ie9-a2-m4-cA 3iea-a2-m1-cA_3iea-a2-m5-cA 3iea-a2-m2-cA_3iea-a2-m4-cA 3iea-a2-m3-cA_3iea-a2-m6-cA DKATIPSESPFAAAEVADGAIVVDIAKMKYETPELHVKVGDTVTWINREAMPHNVHFVAGVLGEAALKGPMMKKEQAYSLTFTEAGTYDYHCTPHPFLRGKVVVE DKATIPSESPFAAAEVADGAIVVDIAKMKYETPELHVKVGDTVTWINREAMPHNVHFVAGVLGEAALKGPMMKKEQAYSLTFTEAGTYDYHCTPHPFLRGKVVVE 3ie9-a3-m2-cA_3ie9-a3-m3-cA Structure of oxidized M98L mutant of amicyanin P22364 P22364 2.1 X-RAY DIFFRACTION 16 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 105 105 3ie9-a2-m1-cA_3ie9-a2-m2-cA 3ie9-a2-m1-cA_3ie9-a2-m3-cA 3ie9-a2-m2-cA_3ie9-a2-m3-cA 3ie9-a2-m4-cA_3ie9-a2-m5-cA 3ie9-a2-m4-cA_3ie9-a2-m6-cA 3ie9-a2-m5-cA_3ie9-a2-m6-cA 3ie9-a3-m1-cA_3ie9-a3-m2-cA 3ie9-a3-m1-cA_3ie9-a3-m3-cA 3iea-a2-m1-cA_3iea-a2-m2-cA 3iea-a2-m1-cA_3iea-a2-m3-cA 3iea-a2-m2-cA_3iea-a2-m3-cA 3iea-a2-m4-cA_3iea-a2-m5-cA 3iea-a2-m4-cA_3iea-a2-m6-cA 3iea-a2-m5-cA_3iea-a2-m6-cA DKATIPSESPFAAAEVADGAIVVDIAKMKYETPELHVKVGDTVTWINREAMPHNVHFVAGVLGEAALKGPMMKKEQAYSLTFTEAGTYDYHCTPHPFLRGKVVVE DKATIPSESPFAAAEVADGAIVVDIAKMKYETPELHVKVGDTVTWINREAMPHNVHFVAGVLGEAALKGPMMKKEQAYSLTFTEAGTYDYHCTPHPFLRGKVVVE 3ieb-a2-m1-cC_3ieb-a2-m1-cE Crystal structure of 3-keto-L-gulonate-6-phosphate decarboxylase from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KMS8 Q9KMS8 2.1 X-RAY DIFFRACTION 96 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 208 208 3ieb-a1-m1-cA_3ieb-a1-m1-cB 3ieb-a3-m1-cD_3ieb-a3-m2-cD 3jr2-a1-m1-cA_3jr2-a1-m1-cB 3jr2-a2-m1-cD_3jr2-a2-m1-cC TKPIQIALDQTNLTDAVAVASNVASYVDVIEVGTILAFAEGKAVSTLRHNHPNHILVCDKTTDGGAILSRAFEAGADWITVSAAAHIATIAACKKVADELNGEIQIEIYGNWTQDAKAWVDLGITQAIYHRSRDAELAGIGWTTDDLDKRQLSALGIELSITGGIVPEDIYLFEGIKTKTFIAGRALAGAEGQQTAAALREQIDRFWP TKPIQIALDQTNLTDAVAVASNVASYVDVIEVGTILAFAEGKAVSTLRHNHPNHILVCDKTTDGGAILSRAFEAGADWITVSAAAHIATIAACKKVADELNGEIQIEIYGNWTQDAKAWVDLGITQAIYHRSRDAELAGIGWTTDDLDKRQLSALGIELSITGGIVPEDIYLFEGIKTKTFIAGRALAGAEGQQTAAALREQIDRFWP 3ief-a1-m1-cB_3ief-a1-m1-cA Crystal structure of tRNA guanine-n1-methyltransferase from Bartonella henselae using MPCS. Q6G1R9 Q6G1R9 2.5 X-RAY DIFFRACTION 241 0.995 38323 (Bartonella henselae) 38323 (Bartonella henselae) 215 224 KFQARVLTLYPEMFPGFLGCSLAGQALKQGIWSLETVQIRDFALSVDDTPAGGGAGMVMRADVLAAALDSCPNDSPRLLMSPRGRLLNQAYARSLARSSGVTLVCGRFEGVDERIIEARELEEVSIGDYILSGGETAALVLLDAIVRLLPGKCESFENGLLEHPQYTRPAVFEGRGIPPVLTSGHHKAIANWRQQQAESLTRQRRPDLYALYNKN KFQARVLTLYPEMFPGFLGCSLAGQALKQGIWSLETVQIRDFASVDDTPAGGGAGMVMRADVLAAALDSCPNDSPRLLMSPRGRLLNQAYARSLARSSGVTLVCGRFEGVDERIIEARELEEVSIGDYILSGGETAALVLLDAIVRLLPGVMGNEISAKCESFENGLLEHPQYTRPAVFEGRGIPPVLTSGHHKAIANWRQQQAESLTRQRRPDLYALYNKNRQ 3iey-a2-m1-cA_3iey-a2-m2-cA Crystal Structure of the functional Nanoarchaeum equitans tRNA splicing endonuclease Q74MP4 Q74MP4 2.11 X-RAY DIFFRACTION 49 1.0 160232 (Nanoarchaeum equitans) 160232 (Nanoarchaeum equitans) 147 147 IGYLFGNRVLVDELPLIEAYYLLDKGELEVYEDDKEEFLKKCLTYDERFLIRYKAYKELRDKGYTLGTALKFGADFRVYDIGVIPKKGKRSEREHSKWVLYPVSKDETFDFYEFASKNRVAHSTRKKMLMGIVSDKIEFIEVSWKKP IGYLFGNRVLVDELPLIEAYYLLDKGELEVYEDDKEEFLKKCLTYDERFLIRYKAYKELRDKGYTLGTALKFGADFRVYDIGVIPKKGKRSEREHSKWVLYPVSKDETFDFYEFASKNRVAHSTRKKMLMGIVSDKIEFIEVSWKKP 3if0-a1-m1-cX_3if0-a1-m2-cX Crystal Structure of the Nanoarchaeum equitans tRNA splicing endonuclease structural subunit Q74MS9 Q74MS9 2.2 X-RAY DIFFRACTION 68 1.0 160232 (Nanoarchaeum equitans) 160232 (Nanoarchaeum equitans) 149 149 MNLRIPWKEVYYLGYNMGNYIKISEPELLFVLRNKPQIKDRLKLDEKTIIKEGVKKYKNFWEIYYTVKDLILRGYRVRFDGFFIELYEKGIIPGTIEQDYLVYPVSGEIRMTWGELLDIYNKAIARKSKFMLAIVDSEGDVTYYEFRKL MNLRIPWKEVYYLGYNMGNYIKISEPELLFVLRNKPQIKDRLKLDEKTIIKEGVKKYKNFWEIYYTVKDLILRGYRVRFDGFFIELYEKGIIPGTIEQDYLVYPVSGEIRMTWGELLDIYNKAIARKSKFMLAIVDSEGDVTYYEFRKL 3if2-a1-m1-cA_3if2-a1-m1-cB Crystal structure of Putative amino-acid aminotransferase (YP_265399.1) from Psychrobacter arcticum 273-4 at 2.50 A resolution Q4FPU3 Q4FPU3 2.5 X-RAY DIFFRACTION 223 1.0 259536 (Psychrobacter arcticus 273-4) 259536 (Psychrobacter arcticus 273-4) 427 427 GKFSKFGQKFTQPTGISQLDDLGDALKSDQPVNLGGGNPAKIDAVNELFLETYKALGNDNDTGKANSSAIISANYSNPQGDSAFIDALVGFFNRHYDWNLTSENIALTNGSQNAFFYLFNLFGGAFVNEKSVDKSILLPLTPEYIGYSDVHVEGQHFAAVLPHIDEVTHDGEEGFFKYRVDFEALENLPALKEGRIGAICCSRPTNPTGNVLTDEEAHLAEIAKRYDIPLIIDNAYGPFPNIIYSDAHLNWDNNTILCFSLSKIGLPGRTGIIVADAKVIEAVSANAVVNLAPTRFGAAIATPLVANDRIKQLSDNEIKPFYQKQATLAVKLLKQALGDYPLIHKPEGAIFLWLWFKDLPISTLDLYERLKAKGTLIVPSEYFFPGVDVSDYQHAHECIRSIAADEQTLIDGIKVIGEVVRELYDNK GKFSKFGQKFTQPTGISQLDDLGDALKSDQPVNLGGGNPAKIDAVNELFLETYKALGNDNDTGKANSSAIISANYSNPQGDSAFIDALVGFFNRHYDWNLTSENIALTNGSQNAFFYLFNLFGGAFVNEKSVDKSILLPLTPEYIGYSDVHVEGQHFAAVLPHIDEVTHDGEEGFFKYRVDFEALENLPALKEGRIGAICCSRPTNPTGNVLTDEEAHLAEIAKRYDIPLIIDNAYGPFPNIIYSDAHLNWDNNTILCFSLSKIGLPGRTGIIVADAKVIEAVSANAVVNLAPTRFGAAIATPLVANDRIKQLSDNEIKPFYQKQATLAVKLLKQALGDYPLIHKPEGAIFLWLWFKDLPISTLDLYERLKAKGTLIVPSEYFFPGVDVSDYQHAHECIRSIAADEQTLIDGIKVIGEVVRELYDNK 3if4-a2-m1-cB_3if4-a2-m1-cD Structure from the mobile metagenome of North West Arm Sewage Outfall: Integron Cassette Protein Hfx_Cass5 2.181 X-RAY DIFFRACTION 182 1.0 32644 (unidentified) 32644 (unidentified) 98 98 3if4-a1-m1-cC_3if4-a1-m1-cA QGKQEFVAAIEIDGTGRIHVTPGESQFPYIYREAEVSWNESTRSLHSPVPREWSYAQWLQQIFAAASEQGVKLVLGPNTRWVNVPNELRAELTHAAAA QGKQEFVAAIEIDGTGRIHVTPGESQFPYIYREAEVSWNESTRSLHSPVPREWSYAQWLQQIFAAASEQGVKLVLGPNTRWVNVPNELRAELTHAAAA 3if6-a2-m1-cC_3if6-a2-m1-cB Crystal structure of OXA-46 beta-lactamase from P. aeruginosa Q8GRH0 Q8GRH0 2.4 X-RAY DIFFRACTION 54 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 231 242 3if6-a1-m1-cA_3if6-a1-m2-cA VVIRSDWKKFFSDLQAEGAIVIADERQAKHTLSVFDQERAAKRYSPASTFIPHTLFALDADAVRDEFQVFRWVNRSFAGHNQDQDLRSAMRNSTVWVYELFAKDIGEDKARRYLKQIDYGNDYWIDGNLKISAHEQILFLRKLYRNQLPFKVEHQRLVKDLMITEAGRSWILRAKTGWEGRFGWWVGWIEWPTGPVFFALNIDTPNRTDDLFKREAIARAILRSIDALPPN VVIRSDWKKFFSDLQAEGAIVIADERQAKHTLSVFDQERAAKRYSPASTFKIPHTLFALDADAVRDEFQVFRWDGVNRSFAGHNQDQDLRSAMRNSTVWVYELFAKDIGEDKARRYLKQIDYGNVDPSTIKGDYWIDGNLKISAHEQILFLRKLYRNQLPFKVEHQRLVKDLMITEAGRSWILRAKTGWEGRFGWWVGWIEWPTGPVFFALNIDTPNRTDDLFKREAIARAILRSIDALPPN 3ife-a1-m1-cA_3ife-a1-m2-cA 1.55 Angstrom Resolution Crystal Structure of Peptidase T (pepT-1) from Bacillus anthracis str. 'Ames Ancestor'. Q81WU4 Q81WU4 1.55 X-RAY DIFFRACTION 101 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 416 416 YFQSNAMKEELIERFTRYVKIDTQSNEDSHTVPTTPGQIEFGKLLVEELKEVGLTEVTMDDNGYVMATLPANTDKDVPVIGFLAHLDTATDFTGKNVKPQIHENFDGNAITLNEELNIVLTPEQFPELPSYKGHTIITTDGTTLLGADDKAGLTEIMVAMNYLIHNPQIKHGKIRVAFTPDEEIGRGPAHFDVEAFGASFAYMMDGGPLGGLEYESFNAAGAKLTFNGTNTHPGTAKNKMRNATKLAMEFNGHLPVEEAPEYTEGYEGFYHLLSLNGDVEQSKAYYIIRDFDRKNFEARKNTIENIVKQMQEKYGQDAVVLEMNDQYYNMLEKIEPVREIVDIAYEAMKSLNIEPNIHPIRGGTDGSQLSYMGLPTPNIFTGGENYHGKFEYVSVDVMEKAVQVIIEIARRFEEQA YFQSNAMKEELIERFTRYVKIDTQSNEDSHTVPTTPGQIEFGKLLVEELKEVGLTEVTMDDNGYVMATLPANTDKDVPVIGFLAHLDTATDFTGKNVKPQIHENFDGNAITLNEELNIVLTPEQFPELPSYKGHTIITTDGTTLLGADDKAGLTEIMVAMNYLIHNPQIKHGKIRVAFTPDEEIGRGPAHFDVEAFGASFAYMMDGGPLGGLEYESFNAAGAKLTFNGTNTHPGTAKNKMRNATKLAMEFNGHLPVEEAPEYTEGYEGFYHLLSLNGDVEQSKAYYIIRDFDRKNFEARKNTIENIVKQMQEKYGQDAVVLEMNDQYYNMLEKIEPVREIVDIAYEAMKSLNIEPNIHPIRGGTDGSQLSYMGLPTPNIFTGGENYHGKFEYVSVDVMEKAVQVIIEIARRFEEQA 3ifj-a3-m1-cA_3ifj-a3-m1-cB Crystal structure of Mtu recA intein, splicing domain P9WHJ3 P9WHJ3 1.9 X-RAY DIFFRACTION 25 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 138 138 2imz-a1-m1-cB_2imz-a1-m1-cA 3igd-a1-m1-cA_3igd-a1-m2-cA CLAEGTRIFDPVTGTTHRIEDVVDGRKPIHVVAAAKDGTLHARPVVSWFDQGTRDVIGLRIAGGAIVWATPDHKVLTEYGWRAAGELRKGDRVAVRDVETGELRYSVIREVLPTRRARTYDLEVEELHTLVAEGVVVH CLAEGTRIFDPVTGTTHRIEDVVDGRKPIHVVAAAKDGTLHARPVVSWFDQGTRDVIGLRIAGGAIVWATPDHKVLTEYGWRAAGELRKGDRVAVRDVETGELRYSVIREVLPTRRARTYDLEVEELHTLVAEGVVVH 3ifq-a1-m2-cB_3ifq-a1-m1-cA Interction of plakoglobin and beta-catenin with desmosomal cadherins P14923 P14923 2.8 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 534 546 AIVHLINYQDDAELATRALPELTKLLNDEDPVVVTKAAMIVNQLSKKEASRRALMGSPQLVAAVVRTMQNTSDLDTARCTTSILHNLSHHREGLLAIFKSGGIPALVRMLSSPVESVLFYAITTLHNLLLYQEGAKMAVRLADGLQKMVPLLNKNNPKFLAITTDCLQLLAYGNQESKLIILANGGPQALVQIMRNYSYEKLLWTTSRVLKVLSVCPSNKPAIVEAGGMQALGKHLTSNSPRLVQNCLWTLRNLSDVATKQEGLESVLKILVNQLSVDDVNVLTCATGTLSNLTCNNSKNKTLVTQNSGVEALIHAILRAGDKDDITEPAVCALRHLTSRHPEAEMAQNSVRLNYGIPAIVKLLNQPNQWPLVKATIGLIRNLALCPANHAPLQEAAVIPRLVQLLVKAHQDAQRHTDGVRMEEIVEGCTGALHILARDPMNRMEIFRLNTIPLFVQLLYSSVENIQRVAAGVLCELAQDKEAADAIDAEGASAPLMELLHSRNEGTATYAAAVLFRISEDKKRVSVELTNSLF AIVHLINYQDDAELATRALPELTKLLNDEDPVVVTKAAMIVNQLSKKEASRRALMGSPQLVAAVVRTMQNTSDLDTARCTTSILHNLSHHREGLLAIFKSGGIPALVRMLSSPVESVLFYAITTLHNLLLYQEGAKMAVRLADGLQKMVPLLNKNNPKFLAITTDCLQLLAYGNQESKLIILANGGPQALVQIMRNYSYEKLLWTTSRVLKVLSVCPSNKPAIVEAGGMQALGKHLTSNSPRLVQNCLWTLRNLSDVATKQEGLESVLKILVNQLSVDDVNVLTCATGTLSNLTCNNSKNKTLVTQNSGVEALIHAILRAGDKDDITEPAVCALRHLTSRHPEAEMAQNSVRLNYGIPAIVKLLNQPNQWPLVKATIGLIRNLALCPANHAPLQEAAVIPRLVQLLVKAHQDAQRHVAAGTQQPYTDGVRMEEIVEGCTGALHILARDPMNRMEIFRLNTIPLFVQLLYSSVENIQRVAAGVLCELAQDKEAADAIDAEGASAPLMELLHSRNEGTATYAAAVLFRISEDKNPRKRVSVELTNSLF 3ifr-a3-m2-cB_3ifr-a3-m1-cA The crystal structure of xylulose kinase from Rhodospirillum rubrum Q2RUX7 Q2RUX7 2.3 X-RAY DIFFRACTION 86 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 475 483 RQVIGLDIGTTSTIAILVRLPDTVVAVASRPTTLSSPHPGWAEEDPAQWWDNARAVLAELKTTAGESDWRPGGICVTGLPAVVLLDDRGAVLRPSIQQSDGRCGDEVAELRAEVDSEAFLARTGNGVTQQLVTAKLRWIERHEPAVFGAIATVCGSYDYINLLTGERVVDRNWALEGGFIDLASGTVEADLVALAHIPPSAVPPAHPTHRVLGAVTAEAAALTGLPTGLPVYGGAADHIASALAAGITRPGDVLLKFGGAGDIIVASATAKSRLYLDYHLVPGLYAPNGCAATGSALNWLAKLLAPEAGEAAHAQLDALAAEVPAGADGLVCLPYFLGDPFASGTFTGLSLSHTRGHLWRALLEAVALAFRHHVAVLDDIGHAPQRFFASDGGTRSRVWGIADVLQRPVQLLANPLGSAVGAAWVAAIGGGDDLGWDDVRTGEKITPDPAKAEVYDRLYRDFSALYATLHPFFHR RQVIGLDIGTTSTIAILVRLPDTVVAVASRPTTLSSPHPGWAEEDPAQWWDNARAVLAELKTTAGESDWRPGGICVTGLPAVVLLDDRGAVLRPSIQQSDGRCGDEVAELRAEVDSEAFLARTGNGVTQQLVTAKLRWIERHEPAVFGAIATVCGSYDYINLLTGERVVDRNWALEGGFIDLASGTVEADLVALAHIPPSAVPPAHPTHRVLGAVTAEAAALTGLPTGLPVYGGAADHIASALAAGITRPGDVLLKFGGAGDIIVASATAKSDPRLYLDYHLVPGLYAPNGCAATGSALNWLAKLLAPEAGEAAHAQLDALAAEVPAGADGLVCLPYFLGEKDPFASGTFTGLSLSHTRGHLWRALLEAVALAFRHHVAVLDDIGHAPQRFFASDGGTRSRVWGIADVLQRPVQLLANPLGSAVGAAWVAAIGGGDDLGWDDVTALVRTGEKITPDPAKAEVYDRLYRDFSALYATLHPFFHR 3ifs-a5-m1-cF_3ifs-a5-m2-cF 2.0 Angstrom Resolution Crystal Structure of Glucose-6-phosphate Isomerase (pgi) from Bacillus anthracis. Q81K75 Q81K75 2.004 X-RAY DIFFRACTION 66 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 440 440 3ifs-a4-m1-cA_3ifs-a4-m1-cD 3ifs-a4-m1-cB_3ifs-a4-m1-cC 3ifs-a5-m1-cE_3ifs-a5-m2-cE THVTFDYSKALSFIGEHEITYLRDAVKVTHHAIHEKTGAGNDFLGWVDLPLQYDKEEFARIQKCAEKIKNDSDILLVVGIGGSYLGARAAIELNHSFYNTLSKEQRKTPQVLFVGQNISSTYKDLDVLEGKDFSINVISKSGTTTEPALAFRIFRKLLEEKYGKEEARKRIYATTDKARGALKTLADNEGYETFVIPDDVGGRFSVLTPVGLLPIAVSGLNIEEKGAAAGRDDFGTSELEENPAYQYAVVRNALYNKGKTIELINYEPALQYFAEWWKQLFGESEGKDQKGIFPSSANFSTDLHSLGQYVQEGRRDLFETVLKVGKSTHELTIESEENDLDGLNYLAGETVDFVNTKAYEGTLLAHSDGGVPNLIVNIPELNEYTFGYLVYFFEKACASGYLLGVNPFDQPGVEAYKKNFALLGKPGFEELKAELEERLK THVTFDYSKALSFIGEHEITYLRDAVKVTHHAIHEKTGAGNDFLGWVDLPLQYDKEEFARIQKCAEKIKNDSDILLVVGIGGSYLGARAAIELNHSFYNTLSKEQRKTPQVLFVGQNISSTYKDLDVLEGKDFSINVISKSGTTTEPALAFRIFRKLLEEKYGKEEARKRIYATTDKARGALKTLADNEGYETFVIPDDVGGRFSVLTPVGLLPIAVSGLNIEEKGAAAGRDDFGTSELEENPAYQYAVVRNALYNKGKTIELINYEPALQYFAEWWKQLFGESEGKDQKGIFPSSANFSTDLHSLGQYVQEGRRDLFETVLKVGKSTHELTIESEENDLDGLNYLAGETVDFVNTKAYEGTLLAHSDGGVPNLIVNIPELNEYTFGYLVYFFEKACASGYLLGVNPFDQPGVEAYKKNFALLGKPGFEELKAELEERLK 3ifs-a5-m2-cF_3ifs-a5-m2-cE 2.0 Angstrom Resolution Crystal Structure of Glucose-6-phosphate Isomerase (pgi) from Bacillus anthracis. Q81K75 Q81K75 2.004 X-RAY DIFFRACTION 397 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 440 441 3ifs-a1-m1-cB_3ifs-a1-m1-cA 3ifs-a2-m1-cC_3ifs-a2-m1-cD 3ifs-a3-m1-cF_3ifs-a3-m1-cE 3ifs-a4-m1-cB_3ifs-a4-m1-cA 3ifs-a4-m1-cC_3ifs-a4-m1-cD 3ifs-a5-m1-cF_3ifs-a5-m1-cE THVTFDYSKALSFIGEHEITYLRDAVKVTHHAIHEKTGAGNDFLGWVDLPLQYDKEEFARIQKCAEKIKNDSDILLVVGIGGSYLGARAAIELNHSFYNTLSKEQRKTPQVLFVGQNISSTYKDLDVLEGKDFSINVISKSGTTTEPALAFRIFRKLLEEKYGKEEARKRIYATTDKARGALKTLADNEGYETFVIPDDVGGRFSVLTPVGLLPIAVSGLNIEEKGAAAGRDDFGTSELEENPAYQYAVVRNALYNKGKTIELINYEPALQYFAEWWKQLFGESEGKDQKGIFPSSANFSTDLHSLGQYVQEGRRDLFETVLKVGKSTHELTIESEENDLDGLNYLAGETVDFVNTKAYEGTLLAHSDGGVPNLIVNIPELNEYTFGYLVYFFEKACASGYLLGVNPFDQPGVEAYKKNFALLGKPGFEELKAELEERLK STHVTFDYSKALSFIGEHEITYLRDAVKVTHHAIHEKTGAGNDFLGWVDLPLQYDKEEFARIQKCAEKIKNDSDILLVVGIGGSYLGARAAIELNHSFYNTLSKEQRKTPQVLFVGQNISSTYKDLDVLEGKDFSINVISKSGTTTEPALAFRIFRKLLEEKYGKEEARKRIYATTDKARGALKTLADNEGYETFVIPDDVGGRFSVLTPVGLLPIAVSGLNIEEKGAAAGRDDFGTSELEENPAYQYAVVRNALYNKGKTIELINYEPALQYFAEWWKQLFGESEGKDQKGIFPSSANFSTDLHSLGQYVQEGRRDLFETVLKVGKSTHELTIESEENDLDGLNYLAGETVDFVNTKAYEGTLLAHSDGGVPNLIVNIPELNEYTFGYLVYFFEKACASGYLLGVNPFDQPGVEAYKKNFALLGKPGFEELKAELEERLK 3ift-a2-m1-cA_3ift-a2-m2-cA Crystal structure of glycine cleavage system protein H from Mycobacterium tuberculosis, using X-rays from the Compact Light Source. P9WN55 P9WN55 2 X-RAY DIFFRACTION 72 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 136 136 HHVSDIPSDLHYTAEHEWIRRSGDDTVRVGITDYAQSALGDVVFVQLPVIGTAVTAGETFGEVESTKSVSDLYAPISGKVSEVNSDLDGTPQLVNSDPYGAGWLLDIQVDSSDVAALESALTTLLDAEAYRGTLTE HHVSDIPSDLHYTAEHEWIRRSGDDTVRVGITDYAQSALGDVVFVQLPVIGTAVTAGETFGEVESTKSVSDLYAPISGKVSEVNSDLDGTPQLVNSDPYGAGWLLDIQVDSSDVAALESALTTLLDAEAYRGTLTE 3ifu-a1-m1-cA_3ifu-a1-m2-cA The Crystal Structure of Porcine Reproductive and Respiratory Syndrome Virus (PRRSV) Leader Protease Nsp1 B6VGX5 B6VGX5 2.42 X-RAY DIFFRACTION 69 1.0 28344 (Porcine reproductive and respiratory syndrome virus) 28344 (Porcine reproductive and respiratory syndrome virus) 175 175 DRCTCTPNARVFVAEGQVYCTRCLSARSLLPLNLQVPELGVLGLFYRPEEPLRWTLPRAFPTVECSPAGACWLSAIFPIARMTSGNLNFQQRMVRVAAEIYRAGQLTPTVLKTLQVYERGCRWYPIVGPVPGVGVYANSLHVSDKPFPGATHVLTNLPLPQRPKPEDFCPFECAM DRCTCTPNARVFVAEGQVYCTRCLSARSLLPLNLQVPELGVLGLFYRPEEPLRWTLPRAFPTVECSPAGACWLSAIFPIARMTSGNLNFQQRMVRVAAEIYRAGQLTPTVLKTLQVYERGCRWYPIVGPVPGVGVYANSLHVSDKPFPGATHVLTNLPLPQRPKPEDFCPFECAM 3ig2-a1-m1-cA_3ig2-a1-m1-cB The Crystal Structure of a Putative Phenylalanyl-tRNA synthetase (PheRS) beta chain domain from Bacteroides fragilis to 2.1A Q5LC76 Q5LC76 2.09 X-RAY DIFFRACTION 23 0.995 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 185 192 DKSNKLQNLVAEQLVGCGFNEILNNSLTRAAYYDGLESYPSKNLVLLNPLSADLNCRQTLLFGGLESIAHNDLKFFEFGNCYHFDAPYSEDYHLGLWVTGKVSNSWENTSVYELKAYVENIFKRLGLDLHSLVVGNLSDDIYSTALTVNTKGGKRLATFGVVTKKLKAFDVDNEVYYADLNWKEL KSNKLQNLVAEQLVGCGFNEILNNSLTRAAYYDGLESYPSKNLVLLNPLSADLNCRQTLLFGGLESIAHNANRKNADLKFFEFGNCYHFDLAPYSEDYHLGLWVTGKVSNSWAENTSVYELKAYVENIFKRLGLDLHSLVVGNLSDDIYSTALTVNTKGGKRLATFGVVTKKLKAFDVDNEVYYADLNWKEL 3ig4-a3-m1-cD_3ig4-a3-m1-cF Structure of a putative aminopeptidase P from Bacillus anthracis A0A6L8PS06 A0A6L8PS06 2.89 X-RAY DIFFRACTION 42 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 410 410 3ig4-a1-m1-cA_3ig4-a1-m1-cC 3ig4-a1-m1-cA_3ig4-a1-m1-cE 3ig4-a1-m1-cB_3ig4-a1-m1-cD 3ig4-a1-m1-cB_3ig4-a1-m1-cF 3ig4-a1-m1-cC_3ig4-a1-m1-cE 3ig4-a1-m1-cD_3ig4-a1-m1-cF 3ig4-a2-m1-cA_3ig4-a2-m1-cC 3ig4-a2-m1-cA_3ig4-a2-m1-cE 3ig4-a2-m1-cC_3ig4-a2-m1-cE 3ig4-a3-m1-cB_3ig4-a3-m1-cD 3ig4-a3-m1-cB_3ig4-a3-m1-cF KSKFFAQNRERLVNTLPDESITILFAGQAPHSADAHYKFVPNRNFYYVTGIDEPNVIFLKKFGNSVEETLFIEKSDPVEKWVGKTVSNEEAEKISGIKKVIYLDSFEKTSNIFFTENVKHLYLDLECREWKGTETKTLAFAKHVREQYPHVTIGNVYPNICELRVFKTDEEIEIIKEAIAVTKDGIYNVLKHAKADEYELEAQFDFTLKSSGIKHHAFNTILASGKNATVLHYEDNDAQIQNGDLVLLDLGAQKDYYNADISYTFPANGTFSSRQKQIYNIVLNALKETTEIIKPGLKFAALNEHAKKVLAEGCKAVGLIQEDEELSKYYYHGVSHFLGLDTHDVGTYKDRVLEEGVITIEPGLYIEEESIGIRIEDDILVTKDGHENLSKDIIREVEEIEEFRENNVNV KSKFFAQNRERLVNTLPDESITILFAGQAPHSADAHYKFVPNRNFYYVTGIDEPNVIFLKKFGNSVEETLFIEKSDPVEKWVGKTVSNEEAEKISGIKKVIYLDSFEKTSNIFFTENVKHLYLDLECREWKGTETKTLAFAKHVREQYPHVTIGNVYPNICELRVFKTDEEIEIIKEAIAVTKDGIYNVLKHAKADEYELEAQFDFTLKSSGIKHHAFNTILASGKNATVLHYEDNDAQIQNGDLVLLDLGAQKDYYNADISYTFPANGTFSSRQKQIYNIVLNALKETTEIIKPGLKFAALNEHAKKVLAEGCKAVGLIQEDEELSKYYYHGVSHFLGLDTHDVGTYKDRVLEEGVITIEPGLYIEEESIGIRIEDDILVTKDGHENLSKDIIREVEEIEEFRENNVNV 3ig4-a6-m1-cE_3ig4-a6-m1-cF Structure of a putative aminopeptidase P from Bacillus anthracis A0A6L8PS06 A0A6L8PS06 2.89 X-RAY DIFFRACTION 117 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 410 410 3ig4-a1-m1-cA_3ig4-a1-m1-cB 3ig4-a1-m1-cC_3ig4-a1-m1-cD 3ig4-a1-m1-cE_3ig4-a1-m1-cF 3ig4-a4-m1-cA_3ig4-a4-m1-cB 3ig4-a5-m1-cC_3ig4-a5-m1-cD KSKFFAQNRERLVNTLPDESITILFAGQAPHSADAHYKFVPNRNFYYVTGIDEPNVIFLKKFGNSVEETLFIEKSDPVEKWVGKTVSNEEAEKISGIKKVIYLDSFEKTSNIFFTENVKHLYLDLECREWKGTETKTLAFAKHVREQYPHVTIGNVYPNICELRVFKTDEEIEIIKEAIAVTKDGIYNVLKHAKADEYELEAQFDFTLKSSGIKHHAFNTILASGKNATVLHYEDNDAQIQNGDLVLLDLGAQKDYYNADISYTFPANGTFSSRQKQIYNIVLNALKETTEIIKPGLKFAALNEHAKKVLAEGCKAVGLIQEDEELSKYYYHGVSHFLGLDTHDVGTYKDRVLEEGVITIEPGLYIEEESIGIRIEDDILVTKDGHENLSKDIIREVEEIEEFRENNVNV KSKFFAQNRERLVNTLPDESITILFAGQAPHSADAHYKFVPNRNFYYVTGIDEPNVIFLKKFGNSVEETLFIEKSDPVEKWVGKTVSNEEAEKISGIKKVIYLDSFEKTSNIFFTENVKHLYLDLECREWKGTETKTLAFAKHVREQYPHVTIGNVYPNICELRVFKTDEEIEIIKEAIAVTKDGIYNVLKHAKADEYELEAQFDFTLKSSGIKHHAFNTILASGKNATVLHYEDNDAQIQNGDLVLLDLGAQKDYYNADISYTFPANGTFSSRQKQIYNIVLNALKETTEIIKPGLKFAALNEHAKKVLAEGCKAVGLIQEDEELSKYYYHGVSHFLGLDTHDVGTYKDRVLEEGVITIEPGLYIEEESIGIRIEDDILVTKDGHENLSKDIIREVEEIEEFRENNVNV 3ig6-a3-m2-cB_3ig6-a3-m1-cB Low molecular weigth human Urokinase type Plasminogen activator 2-[6-(3'-Aminomethyl-biphenyl-3-yloxy)-4-(3-dimethylamino-pyrrolidin-1-yl)-3,5-difluoro-pyridin-2-yloxy]-4-dimethylamino-benzoic acid complex P00749 P00749 1.83 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 IIGGEFTTIENQPWFAAIYRRHRGGSVTYVCGGSLISPCWVISATHCFIDYPKKEDYIVYLGRSRLNSNTQGEMKFEVENLILHKDYSADTLAHHNDIALLKIRSKEGRCAQPSRTIQTICLPSMYNDPQFGTSCEITGFGKENSTDYLYPEQLKMTVVKLISHRECQQPHYYGSEVTTKMLCAADPQWKTDSCQGDSGGPLVCSLQGRMTLTGIVSWGRGCALKDKPGVYTRVSHFLPWIRSHT IIGGEFTTIENQPWFAAIYRRHRGGSVTYVCGGSLISPCWVISATHCFIDYPKKEDYIVYLGRSRLNSNTQGEMKFEVENLILHKDYSADTLAHHNDIALLKIRSKEGRCAQPSRTIQTICLPSMYNDPQFGTSCEITGFGKENSTDYLYPEQLKMTVVKLISHRECQQPHYYGSEVTTKMLCAADPQWKTDSCQGDSGGPLVCSLQGRMTLTGIVSWGRGCALKDKPGVYTRVSHFLPWIRSHT 3ig6-a3-m2-cD_3ig6-a3-m1-cB Low molecular weigth human Urokinase type Plasminogen activator 2-[6-(3'-Aminomethyl-biphenyl-3-yloxy)-4-(3-dimethylamino-pyrrolidin-1-yl)-3,5-difluoro-pyridin-2-yloxy]-4-dimethylamino-benzoic acid complex P00749 P00749 1.83 X-RAY DIFFRACTION 17 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 243 245 3ig6-a3-m2-cB_3ig6-a3-m1-cD IIGGEFTTIENQPWFAAIYRRHSVTYVCGGSLISPCWVISATHCFIDYPKKEDYIVYLGRSRLNSNTQGEMKFEVENLILHKDYSADTLAHHNDIALLKIRSKEGRCAQPSRTIQTICLPSMYNDPQFGTSCEITGFGKENSTDYLYPEQLKMTVVKLISHRECQQPHYYGSEVTTKMLCAADPQWKTDSCQGDSGGPLVCSLQGRMTLTGIVSWGRGCALKDKPGVYTRVSHFLPWIRSHTK IIGGEFTTIENQPWFAAIYRRHRGGSVTYVCGGSLISPCWVISATHCFIDYPKKEDYIVYLGRSRLNSNTQGEMKFEVENLILHKDYSADTLAHHNDIALLKIRSKEGRCAQPSRTIQTICLPSMYNDPQFGTSCEITGFGKENSTDYLYPEQLKMTVVKLISHRECQQPHYYGSEVTTKMLCAADPQWKTDSCQGDSGGPLVCSLQGRMTLTGIVSWGRGCALKDKPGVYTRVSHFLPWIRSHT 3igh-a1-m1-cX_3igh-a1-m2-cX Crystal structure of an uncharacterized metal-dependent hydrolase from pyrococcus horikoshii ot3 O58866 O58866 1.95 X-RAY DIFFRACTION 92 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 483 483 SLKALINGTIYTSFNPLKKVSGLVISHGKVIYAGDSEVAKKIVELSGGEIVDLKGKYVMPAFFDSHLHLDELGMSLEMVDLRGAKSIEELIQRLKRGKGRIIFGFGWDQDELGEWPTRKELNAIDKPVFIYRKCFHVAVANDKMLELLNLTPSKDFDEDTGIIKEKSLEEARKVINERVLTVEDYVYYIKRAQEHLLDLGVKSVSFMSVNEKALRALFYLEREGKLSINVFAYVTPEVLDKLESIGLGRFQGNRLTIAGVKLFTDGSLGARTALLSKPYSDDPSTSGQLVMEREELIRITEKARSLGLDVAIHAIGDKALDVALDVFETTGFPGRIEHASLVRDDQLERVKNLKVRLSVQPHFIISDWWIVERVGEERVKWVYRFKDLMKVAELGFSTDSPIEPADPWLTVDAAVNRGKGKVKLYELTKDQALDIKDALHSYTYGSARVSLASDIGKLEPGFKAEYIILDRDPLVVKEGHHHH SLKALINGTIYTSFNPLKKVSGLVISHGKVIYAGDSEVAKKIVELSGGEIVDLKGKYVMPAFFDSHLHLDELGMSLEMVDLRGAKSIEELIQRLKRGKGRIIFGFGWDQDELGEWPTRKELNAIDKPVFIYRKCFHVAVANDKMLELLNLTPSKDFDEDTGIIKEKSLEEARKVINERVLTVEDYVYYIKRAQEHLLDLGVKSVSFMSVNEKALRALFYLEREGKLSINVFAYVTPEVLDKLESIGLGRFQGNRLTIAGVKLFTDGSLGARTALLSKPYSDDPSTSGQLVMEREELIRITEKARSLGLDVAIHAIGDKALDVALDVFETTGFPGRIEHASLVRDDQLERVKNLKVRLSVQPHFIISDWWIVERVGEERVKWVYRFKDLMKVAELGFSTDSPIEPADPWLTVDAAVNRGKGKVKLYELTKDQALDIKDALHSYTYGSARVSLASDIGKLEPGFKAEYIILDRDPLVVKEGHHHH 3igm-a1-m1-cA_3igm-a1-m1-cB A 2.2A crystal structure of the AP2 domain of PF14_0633 from P. falciparum, bound as a domain-swapped dimer to its cognate DNA Q8IKH2 Q8IKH2 2.2 X-RAY DIFFRACTION 109 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 56 62 MSSGYPGVSWNKRMCAWLAFFYDGASRRSRTFHPKHFNMDKEKARLAAVEFMKTVE MSSGYPGVSWNKRMCAWLAFFYDGASRRSRTFHPKHFNMDKEKARLAAVEFMKTVENNGRKK 3igr-a1-m1-cA_3igr-a1-m1-cB The Crystal Structure of Ribosomal-protein-S5-alanine Acetyltransferase from Vibrio fischeri to 2.0A Q5DZH6 Q5DZH6 2 X-RAY DIFFRACTION 12 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 179 179 DVSFEFEHYQVRLIKSSDAVTIANYFRNRHHLAPWEPKRSHAFFTPEGWKQRLLQLVELHKHNLAFYFVVVDKNEHKIIGTVSYSNITRFPFHAGHVGYSLDSEYQGKGIRRAVNVTIDWFKAQNLHRIAAYIPRNEKSAKVLAALGFVKEGEAKKYLYINGAWEDHILTSKINDDWKP DVSFEFEHYQVRLIKSSDAVTIANYFRNRHHLAPWEPKRSHAFFTPEGWKQRLLQLVELHKHNLAFYFVVVDKNEHKIIGTVSYSNITRFPFHAGHVGYSLDSEYQGKGIRRAVNVTIDWFKAQNLHRIAAYIPRNEKSAKVLAALGFVKEGEAKKYLYINGAWEDHILTSKINDDWKP 3igr-a3-m1-cB_3igr-a3-m3-cB The Crystal Structure of Ribosomal-protein-S5-alanine Acetyltransferase from Vibrio fischeri to 2.0A Q5DZH6 Q5DZH6 2 X-RAY DIFFRACTION 64 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 179 179 3igr-a2-m1-cA_3igr-a2-m2-cA DVSFEFEHYQVRLIKSSDAVTIANYFRNRHHLAPWEPKRSHAFFTPEGWKQRLLQLVELHKHNLAFYFVVVDKNEHKIIGTVSYSNITRFPFHAGHVGYSLDSEYQGKGIRRAVNVTIDWFKAQNLHRIAAYIPRNEKSAKVLAALGFVKEGEAKKYLYINGAWEDHILTSKINDDWKP DVSFEFEHYQVRLIKSSDAVTIANYFRNRHHLAPWEPKRSHAFFTPEGWKQRLLQLVELHKHNLAFYFVVVDKNEHKIIGTVSYSNITRFPFHAGHVGYSLDSEYQGKGIRRAVNVTIDWFKAQNLHRIAAYIPRNEKSAKVLAALGFVKEGEAKKYLYINGAWEDHILTSKINDDWKP 3ih2-a1-m1-cA_3ih2-a1-m2-cA TM1030 crystallized at 323K Q9X0C0 Q9X0C0 2.3 X-RAY DIFFRACTION 48 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 193 193 1z77-a1-m1-cA_1z77-a1-m2-cA 1zkg-a1-m1-cB_1zkg-a1-m1-cA 2id6-a1-m1-cA_2id6-a1-m2-cA 2iek-a1-m1-cA_2iek-a1-m2-cA 3ih3-a1-m1-cA_3ih3-a1-m2-cA 3ih4-a1-m1-cA_3ih4-a1-m2-cA 4i6z-a1-m1-cA_4i6z-a1-m1-cB 4i6z-a1-m2-cA_4i6z-a1-m2-cB 4i76-a1-m1-cA_4i76-a1-m2-cA 4i76-a2-m1-cB_4i76-a2-m3-cB HLSKRDAILKAAVEVFGKKGYDRATTDEIAEKAGVAKGLIFHYFKNKEELYYQAYSVTEKLQKEFENFLKNRNRDIFDFERWIEKKLEYSASHPEEADFLITLVSVDEGLRKRILLDLEKSQRVFFDFVREKLKDLDLAEDVTEEIALKFLWFFSGFEEVYLRTYQGKPELLKRDNTLVEEVKVLRILKKGTK HLSKRDAILKAAVEVFGKKGYDRATTDEIAEKAGVAKGLIFHYFKNKEELYYQAYSVTEKLQKEFENFLKNRNRDIFDFERWIEKKLEYSASHPEEADFLITLVSVDEGLRKRILLDLEKSQRVFFDFVREKLKDLDLAEDVTEEIALKFLWFFSGFEEVYLRTYQGKPELLKRDNTLVEEVKVLRILKKGTK 3ih5-a1-m1-cB_3ih5-a1-m2-cB Crystal Structure of Electron Transfer Flavoprotein alpha-subunit from Bacteroides thetaiotaomicron Q8A6S1 Q8A6S1 2.6 X-RAY DIFFRACTION 102 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 211 211 3ih5-a1-m1-cA_3ih5-a1-m2-cD 3ih5-a1-m1-cC_3ih5-a1-m2-cC 3ih5-a1-m1-cD_3ih5-a1-m2-cA ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVIERHVEKAKN ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVIERHVEKAKN 3ih5-a1-m2-cA_3ih5-a1-m2-cB Crystal Structure of Electron Transfer Flavoprotein alpha-subunit from Bacteroides thetaiotaomicron Q8A6S1 Q8A6S1 2.6 X-RAY DIFFRACTION 10 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 202 211 3ih5-a1-m1-cA_3ih5-a1-m1-cB 3ih5-a1-m1-cA_3ih5-a1-m1-cC 3ih5-a1-m1-cD_3ih5-a1-m1-cB 3ih5-a1-m1-cD_3ih5-a1-m1-cC 3ih5-a1-m2-cA_3ih5-a1-m2-cC 3ih5-a1-m2-cD_3ih5-a1-m2-cB 3ih5-a1-m2-cD_3ih5-a1-m2-cC ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVI ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVIERHVEKAKN 3ih5-a1-m2-cD_3ih5-a1-m1-cB Crystal Structure of Electron Transfer Flavoprotein alpha-subunit from Bacteroides thetaiotaomicron Q8A6S1 Q8A6S1 2.6 X-RAY DIFFRACTION 41 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 202 211 3ih5-a1-m1-cA_3ih5-a1-m2-cC 3ih5-a1-m1-cD_3ih5-a1-m2-cB 3ih5-a1-m2-cA_3ih5-a1-m1-cC ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVI ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVIERHVEKAKN 3ih5-a1-m2-cD_3ih5-a1-m1-cC Crystal Structure of Electron Transfer Flavoprotein alpha-subunit from Bacteroides thetaiotaomicron Q8A6S1 Q8A6S1 2.6 X-RAY DIFFRACTION 26 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 202 209 3ih5-a1-m1-cA_3ih5-a1-m2-cB 3ih5-a1-m1-cD_3ih5-a1-m2-cC 3ih5-a1-m2-cA_3ih5-a1-m1-cB ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVI ANNLFVYCEIEEGIVADVSLELLTKGRSLANELNCQLEAVVAGTGLKEIEKQILPYGVDKLHVFDAEGLYPYTSLPHTSILVNLFKEEQPQICLGATVIGRDLGPRVSSALTSGLTADCTSLEIGDHEDKKEGKVYKNLLYQIRPAFGGNIVATIVNPEHRPQATVREGVKKEIVSPAYQGEVIRHDVKKYVADTDYVVKVIERHVEKA 3ih6-a1-m1-cB_3ih6-a1-m1-cE Crystal structure of putative zinc protease from Bordetella pertussis Tohama I Q7VVY4 Q7VVY4 2.15 X-RAY DIFFRACTION 10 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 176 178 SNAYTVEPVTPLVAAYHLPAAGSPDFVGLDLAATILADTPSSRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVREAKLDDVQRAAVAYLVRSNRTEGRYIPT SNAYTVEPVGGTPLVAAYHLPAAGSPDFVGLDLAATILADTPSSRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVREAKLDDVQRAAVAYLVRSNRTEGRYIPT 3ih6-a1-m1-cB_3ih6-a1-m1-cF Crystal structure of putative zinc protease from Bordetella pertussis Tohama I Q7VVY4 Q7VVY4 2.15 X-RAY DIFFRACTION 34 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 176 177 3ih6-a1-m1-cA_3ih6-a1-m1-cD 3ih6-a1-m1-cC_3ih6-a1-m1-cE SNAYTVEPVTPLVAAYHLPAAGSPDFVGLDLAATILADTPSSRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVREAKLDDVQRAAVAYLVRSNRTEGRYIPT SNAYTVEPVGTPLVAAYHLPAAGSPDFVGLDLAATILADTPSSRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVREAKLDDVQRAAVAYLVRSNRTEGRYIPT 3ihb-a2-m1-cB_3ihb-a2-m3-cB Crystal Structure Analysis of Mglu in its tris and glutamate form Q4U1A6 Q4U1A6 2.4 X-RAY DIFFRACTION 314 1.0 1270 (Micrococcus luteus) 1270 (Micrococcus luteus) 448 448 3agd-a1-m1-cB_3agd-a1-m1-cA 3age-a1-m1-cB_3age-a1-m1-cA 3if5-a1-m1-cA_3if5-a1-m2-cA 3ih8-a1-m1-cA_3ih8-a1-m2-cA 3ih8-a2-m1-cB_3ih8-a2-m2-cB 3ih9-a1-m1-cA_3ih9-a1-m2-cA 3ih9-a2-m1-cB_3ih9-a2-m2-cB 3iha-a1-m1-cA_3iha-a1-m2-cA 3iha-a2-m1-cB_3iha-a2-m2-cB 3ihb-a1-m1-cA_3ihb-a1-m2-cA MRHPIPDYLASLVTELGAVNPGETAQYIPVLAEADPDRFGIALATPTGRLHCAGDADVEFTIQSASKPFTYAAALVDRGFAAVDRQVGLNPSGEAFNELSLEAESHRPDNAMINAGALAVHQLLVGPEASRKERLDRAVEIMSLLAGRRLSVDWETYESEMAVSDRNLSLAHMLRSYGVLQDSAEEIVAGYVAQCAVLVTVKDLAVMGACLATGGIHPMTGERMLPSIVARRVVSVMTSSGMYDAAGQWLADVGIPAKSGVAGGVLGALPGRVGIGVFSPRLDEVGNSARGVLACRRLSEDFRLHLMDGDSLGGTAVRFVEREGDRVFLHLQGVIRFGGAEAVLDALTDLRTGAEKPGTGWDAAVYPRWQEAAADRAALSAATGGGAVHEAAAAAARDENDGPIRTVVLNLARVDRIDDVGRRLIAEGVRRLQADGVRVEVEDPERIL MRHPIPDYLASLVTELGAVNPGETAQYIPVLAEADPDRFGIALATPTGRLHCAGDADVEFTIQSASKPFTYAAALVDRGFAAVDRQVGLNPSGEAFNELSLEAESHRPDNAMINAGALAVHQLLVGPEASRKERLDRAVEIMSLLAGRRLSVDWETYESEMAVSDRNLSLAHMLRSYGVLQDSAEEIVAGYVAQCAVLVTVKDLAVMGACLATGGIHPMTGERMLPSIVARRVVSVMTSSGMYDAAGQWLADVGIPAKSGVAGGVLGALPGRVGIGVFSPRLDEVGNSARGVLACRRLSEDFRLHLMDGDSLGGTAVRFVEREGDRVFLHLQGVIRFGGAEAVLDALTDLRTGAEKPGTGWDAAVYPRWQEAAADRAALSAATGGGAVHEAAAAAARDENDGPIRTVVLNLARVDRIDDVGRRLIAEGVRRLQADGVRVEVEDPERIL 3ihj-a2-m1-cA_3ihj-a2-m2-cA Human alanine aminotransferase 2 in complex with PLP Q8TD30 Q8TD30 2.3 X-RAY DIFFRACTION 199 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 461 461 NLYFQSMTLESMNPQVKAVEYAVRGPIVLKAGEIELELQRGIKKPFTEVIRANPITFLRQVMALCTYPNLLDSPSFPEDAKKRARRILQACSQGVNCIREDVAAYITRRDGGVPADPDNIYLTTGASDGISTILKILVSGGGKSRTGVMIPIPQYPLYSAVISELDAIQVNYYLDEENCWALNVNELRRAVQEAKDHCDPKVLCIINPGNPTGQVQSRKCIEDVIHFAWEEKLFLLADEVYQDNVYSPDCRFHSFKKVLYEMGPEYSSNVELASFHSTSKGYMGECGYRGGYMEVINLHPEIKGQLVKLLSVRLCPPVSGQAAMDIVVNPPVAGEESFEQFSREKESVLGNLAKKAKLTEDLFNQVPGIHCNPLQGAMYAFPRIFIPAKAVEAAQAHQMAPDMFYCMKLLEETGICVVPGSGFGQREGTYHFRMTILPPVEKLKTVLQKVKDFHINFLEKY NLYFQSMTLESMNPQVKAVEYAVRGPIVLKAGEIELELQRGIKKPFTEVIRANPITFLRQVMALCTYPNLLDSPSFPEDAKKRARRILQACSQGVNCIREDVAAYITRRDGGVPADPDNIYLTTGASDGISTILKILVSGGGKSRTGVMIPIPQYPLYSAVISELDAIQVNYYLDEENCWALNVNELRRAVQEAKDHCDPKVLCIINPGNPTGQVQSRKCIEDVIHFAWEEKLFLLADEVYQDNVYSPDCRFHSFKKVLYEMGPEYSSNVELASFHSTSKGYMGECGYRGGYMEVINLHPEIKGQLVKLLSVRLCPPVSGQAAMDIVVNPPVAGEESFEQFSREKESVLGNLAKKAKLTEDLFNQVPGIHCNPLQGAMYAFPRIFIPAKAVEAAQAHQMAPDMFYCMKLLEETGICVVPGSGFGQREGTYHFRMTILPPVEKLKTVLQKVKDFHINFLEKY 3ihk-a2-m1-cC_3ihk-a2-m1-cB Crystal Structure of thiamin pyrophosphokinase from S.mutans, Northeast Structural Genomics Consortium Target SmR83 Q8DVV9 Q8DVV9 3 X-RAY DIFFRACTION 102 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 202 203 3ihk-a1-m1-cA_3ihk-a1-m2-cA TKVALFSGGDLTYFTRDFDYFVGIDKGSSFLLKNQLPLDLAIGDFDSVSAEEFKQIKAKAKKLVAPAEKNDTDTELALKTIFDCFGRVEIIVFGAFGGRIDHLSNIFLPSDPDLAPFRCFKLRDEQNLVEFFPAGQHQIEQATDVYISFAANGAHLSIQDAKYELTEENYFQKKIYSSNEFKDKPICFSVASGYVVVIQTKD TKVALFSGGDLTYFTRDFDYFVGIDKGSSFLLKNQLPLDLAIGDFDSVSAEEFKQIKAKAKKLVAPAEKNDTDTELALKTIFDCFGRVEIIVFGAFGGRIDHLSNIFLPSDPDLAPFRCFKLRDEQNLVEFFPAGQHQIEQATDVYISFAANGAHLSIQDAKYELTEENYFQKKIYSSNEFKDKPICFSVASGYVVVIQTKDR 3ihl-a3-m1-cA_3ihl-a3-m2-cA Human CTPS2 crystal structure Q9NRF8 Q9NRF8 2.8 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 3ihl-a1-m1-cA_3ihl-a1-m2-cA MKYILVTGGVISGIGKGIIASSIGTILKSCGLRVTAIKIDPYININNITTGKIYQHVINKERRGDYLGKTVQVVPHITDAVQEWVMNQAKVPVDGNKEEPQICVIELGGTIGDIEGMPFVEAFRQFQFKAKRENFCNIHVSLVPQLSATGEQKTKPTQNSVRALRGLGLSPDLIVCRSSTPIEMAVKEKISMFCHVNPEQVICIHDVSSTYRVPVLLEEQSIVKYFKERLHLP MKYILVTGGVISGIGKGIIASSIGTILKSCGLRVTAIKIDPYININNITTGKIYQHVINKERRGDYLGKTVQVVPHITDAVQEWVMNQAKVPVDGNKEEPQICVIELGGTIGDIEGMPFVEAFRQFQFKAKRENFCNIHVSLVPQLSATGEQKTKPTQNSVRALRGLGLSPDLIVCRSSTPIEMAVKEKISMFCHVNPEQVICIHDVSSTYRVPVLLEEQSIVKYFKERLHLP 3ihl-a4-m1-cB_3ihl-a4-m2-cB Human CTPS2 crystal structure Q9NRF8 Q9NRF8 2.8 X-RAY DIFFRACTION 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 229 3ihl-a1-m1-cB_3ihl-a1-m2-cB MKYILVTGGVISGIGKGIIASSIGTILKSCGLRVTAIKIDPYINIDAGTFSPYEHGEVFVLNDGGEVQVVPHITDAVQEWVMNQAKVPVDGNKEEPQICVIELGGTIGDIEGMPFVEAFRQFQFKAKRENFCNIHVSLVPQLSATGEQKTKPTQNSVRALRGLGLSPDLIVCRSSTPIEMAVKEKISMFCHVNPEQVICIHDVSSTYRVPVLLEEQSIVKYFKERLHLP MKYILVTGGVISGIGKGIIASSIGTILKSCGLRVTAIKIDPYINIDAGTFSPYEHGEVFVLNDGGEVQVVPHITDAVQEWVMNQAKVPVDGNKEEPQICVIELGGTIGDIEGMPFVEAFRQFQFKAKRENFCNIHVSLVPQLSATGEQKTKPTQNSVRALRGLGLSPDLIVCRSSTPIEMAVKEKISMFCHVNPEQVICIHDVSSTYRVPVLLEEQSIVKYFKERLHLP 3ihm-a1-m1-cB_3ihm-a1-m1-cA Structure of the oxygenase component of a Pseudomonas styrene monooxygenase O33471 O33471 2.3 X-RAY DIFFRACTION 74 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 407 408 RIGIVGAGTAGLHLGLFLRQHDVDVTVYTDRKPDEYSGLRLLNTVAHNAVTVQREVALDVNEWPSEEFGYFGHYYYVGGPQPMRFYGDLKAPSRAVDYRLYQPMLMRALEARGGKFCYDAVSAEDLEGLSEQYDLLVVCTGKYALGKVFEKQSENSPFEKPQRALCVGLFKGIKEAPIRAVTMSFSPGHGELIEIPTLSFNGMSTALVLENHIGSDLEVLAHTKYDDDPRAFLDLMLEKLGKHHPSVAERIDPAEFDLANSSLDILQGGVVPAFRDGHATLNNGKTIIGLGDIQATVDPVLGQGANMASYAAWILGEEILAHSVYDLRFSEHLERRRQDRVLCATRWTNFTLSALSALPPEFLAFLQILSQSREMADEFTDNFNYPERQWDRFSSPERIGQWCSQFA KRIGIVGAGTAGLHLGLFLRQHDVDVTVYTDRKPDEYSGLRLLNTVAHNAVTVQREVALDVNEWPSEEFGYFGHYYYVGGPQPMRFYGDLKAPSRAVDYRLYQPMLMRALEARGGKFCYDAVSAEDLEGLSEQYDLLVVCTGKYALGKVFEKQSENSPFEKPQRALCVGLFKGIKEAPIRAVTMSFSPGHGELIEIPTLSFNGMSTALVLENHIGSDLEVLAHTKYDDDPRAFLDLMLEKLGKHHPSVAERIDPAEFDLANSSLDILQGGVVPAFRDGHATLNNGKTIIGLGDIQATVDPVLGQGANMASYAAWILGEEILAHSVYDLRFSEHLERRRQDRVLCATRWTNFTLSALSALPPEFLAFLQILSQSREMADEFTDNFNYPERQWDRFSSPERIGQWCSQFA 3ihr-a1-m1-cA_3ihr-a1-m4-cA Crystal Structure of Uch37 Q9Y5K5 Q9Y5K5 2.95 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 3ihr-a1-m2-cA_3ihr-a1-m3-cA EWCLESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNACATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAKGLALSNSDVIRQVHNSFAAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLAIVSDRKIYEQKIAELQRQLAEEPDLSAIQSEVAKNQLIEEEVQKLKRYKIENIRRKHNYLPFIELLKTLAEHQQLIPL EWCLESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNACATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAKGLALSNSDVIRQVHNSFAAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLAIVSDRKIYEQKIAELQRQLAEEPDLSAIQSEVAKNQLIEEEVQKLKRYKIENIRRKHNYLPFIELLKTLAEHQQLIPL 3ihr-a1-m3-cA_3ihr-a1-m4-cA Crystal Structure of Uch37 Q9Y5K5 Q9Y5K5 2.95 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 3ihr-a1-m1-cA_3ihr-a1-m2-cA EWCLESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNACATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAKGLALSNSDVIRQVHNSFAAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLAIVSDRKIYEQKIAELQRQLAEEPDLSAIQSEVAKNQLIEEEVQKLKRYKIENIRRKHNYLPFIELLKTLAEHQQLIPL EWCLESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNACATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAKGLALSNSDVIRQVHNSFAAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLAIVSDRKIYEQKIAELQRQLAEEPDLSAIQSEVAKNQLIEEEVQKLKRYKIENIRRKHNYLPFIELLKTLAEHQQLIPL 3iht-a1-m1-cB_3iht-a1-m1-cA Crystal structure of S-adenosyl-L-methionine methyl transferase (YP_165822.1) from SILICIBACTER POMEROYI DSS-3 at 1.80 A resolution Q5LVY3 Q5LVY3 1.8 X-RAY DIFFRACTION 51 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 158 160 EQSRLDLFIDRVSQRACLEHAIAQTAGLSGPVYELGLGNGRTYHHLRQHVQGREIYVFERAVASHPDSTPPEAQLILGDIRETLPATLERFGATASLVHADLGHNREKNDRFARLISPLIEPHLAQGGLVSSDRYFEGLEELPLPPGAVVGRCFIYRR EQSRLDLFIDRVSQRACLEHAIAQTAGLSGPVYELGLGNGRTYHHLRQHVQGREIYVFERAVASHPDSTPPEAQLILGDIRETLPATLERFGATASLVHADLGGHNREKNDRFARLISPLIEPHLAQGGLVSSDRYFEGLEELPLPPGAVVGRCFIYRRG 3iib-a1-m1-cA_3iib-a1-m2-cA Crystal structure of Peptidase M28 precursor (YP_926796.1) from SHEWANELLA AMAZONENSIS SB2B at 1.70 A resolution A1S420 A1S420 1.7 X-RAY DIFFRACTION 77 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 435 435 SDDINQKVAEQLAQKAQSSSLGYDIVESLTVEVGPRLAGSEQDKVAVDWAIAKLQSLGFDRVYKEPVTVPVWRRGIAKASILSPFPQPLVVTALGGSIATPAQGLSATIVRFDTLQDLQNAEAGSLNDKIAFIDAKTERHRDGKGYGQTASGRSRGAVAAAEKGAVGIIIRSIGTDHDRAHTGRYEEGVTAIPAAAISNPDADLINALKRDKEVVISLELGSERRGETTSYNVIAEVKGSTKADEIVLIGAHLDSWDEGTGAIDDGAGVAIVTAAAKHILDLPQKPERTIRVVLYAAEELGLLGGKTYAKEHEAELEKHYIAAESDFGAGPIYQIDWRVADTAHSPVINAKVAEPLGVAAGNNKASGGPDVSLPALGVPVASLRQDGSDYFDYHHTPNDTLDKINPEALAQNVAVYAQFAWVANSKVELRPLPPK SDDINQKVAEQLAQKAQSSSLGYDIVESLTVEVGPRLAGSEQDKVAVDWAIAKLQSLGFDRVYKEPVTVPVWRRGIAKASILSPFPQPLVVTALGGSIATPAQGLSATIVRFDTLQDLQNAEAGSLNDKIAFIDAKTERHRDGKGYGQTASGRSRGAVAAAEKGAVGIIIRSIGTDHDRAHTGRYEEGVTAIPAAAISNPDADLINALKRDKEVVISLELGSERRGETTSYNVIAEVKGSTKADEIVLIGAHLDSWDEGTGAIDDGAGVAIVTAAAKHILDLPQKPERTIRVVLYAAEELGLLGGKTYAKEHEAELEKHYIAAESDFGAGPIYQIDWRVADTAHSPVINAKVAEPLGVAAGNNKASGGPDVSLPALGVPVASLRQDGSDYFDYHHTPNDTLDKINPEALAQNVAVYAQFAWVANSKVELRPLPPK 3iic-a1-m1-cA_3iic-a1-m1-cB Crystal structure of CheC-like superfamily protein (YP_001095400.1) from Shewanella SP. PV-4 at 2.13 A resolution A3QI43 A3QI43 2.13 X-RAY DIFFRACTION 129 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 145 145 NVDFINPFLDSLLNVLKTANELKPGKPNLKKDNLAKGDVSGLIGVGPQTKGSLSITFEETLILEINKLGEKPESIDEEVTDLVGELTNVTGGAKNLLSDKGYEFDATPIVVSGKNHTIAHKSDGQKIIPFSSIYGTAYIEICFEG NVDFINPFLDSLLNVLKTANELKPGKPNLKKDNLAKGDVSGLIGVGPQTKGSLSITFEETLILEINKLGEKPESIDEEVTDLVGELTNVTGGAKNLLSDKGYEFDATPIVVSGKNHTIAHKSDGQKIIPFSSIYGTAYIEICFEG 3iie-a2-m1-cA_3iie-a2-m2-cB 1-deoxy-D-xylulose 5-phosphate reductoisomerase from Yersinia pestis. B1JQG4 B1JQG4 2.21 X-RAY DIFFRACTION 37 0.992 502800 (Yersinia pseudotuberculosis YPIII) 502800 (Yersinia pseudotuberculosis YPIII) 389 390 3iie-a2-m2-cA_3iie-a2-m1-cB SNAMKQLTILGSTGSIGNSTLSVVRANPELFKVTALVAGRNVREMAQQCLEFSPRYAAMSDEHSAKSLRLLLAEQGSDTEVYSGETAACELAALDDVDQVMAAIVGIAGLPSTLAAIRAGKQVLLANKESLITCGKLFMDEVKRSRAQLLPIDSEHNAIFQSLPERIQRQLGYSSLNENGVSRIILTGSGGPFRETPLSQFSDVTPDQARKISVDSATMMNKGLEYIEARWLFNASAEQIEVVLHPQSVIHSMVRYHDGSILAQMGTPDMRTPIAHAMAYPMRVSSGVAPLDFCKVGALTFTTPDYQRYPCLKLAIDACNAGQAATTALNAANEISVMAFLDSKIRFTDIEVINRTVVEGLLLSEPTSVEEVLVIDRKARDVAAQVIAK MKQLTILGSTGSIGNSTLSVVRANPELFKVTALVAGRNVREMAQQCLEFSPRYAAMSDEHSAKSLRLLLAEQGSDTEVYSGETAACELAALDDVDQVMAAIVGIAGLPSTLAAIRAGKQVLLANKESLITCGKLFMDEVKRSRAQLLPIDSEHNAIFQSLPERIQRQLGYSSLNENGVSRIILTGSGGPFRETPLSQFSDVTPDQACAGRKISVDSATMMNKGLEYIEARWLFNASAEQIEVVLHPQSVIHSMVRYHDGSILAQMGTPDMRTPIAHAMAYPMRVSSGVAPLDFCKVGALTFTTPDYQRYPCLKLAIDACNAGQAATTALNAANEISVMAFLDSKIRFTDIEVINRTVVEGLLLSEPTSVEEVLVIDRKARDVAAQVIAKL 3iie-a2-m2-cA_3iie-a2-m2-cB 1-deoxy-D-xylulose 5-phosphate reductoisomerase from Yersinia pestis. B1JQG4 B1JQG4 2.21 X-RAY DIFFRACTION 126 0.992 502800 (Yersinia pseudotuberculosis YPIII) 502800 (Yersinia pseudotuberculosis YPIII) 389 390 3iie-a1-m1-cA_3iie-a1-m1-cB 3iie-a2-m1-cA_3iie-a2-m1-cB 5dul-a1-m1-cA_5dul-a1-m1-cB 5dul-a2-m1-cC_5dul-a2-m1-cD SNAMKQLTILGSTGSIGNSTLSVVRANPELFKVTALVAGRNVREMAQQCLEFSPRYAAMSDEHSAKSLRLLLAEQGSDTEVYSGETAACELAALDDVDQVMAAIVGIAGLPSTLAAIRAGKQVLLANKESLITCGKLFMDEVKRSRAQLLPIDSEHNAIFQSLPERIQRQLGYSSLNENGVSRIILTGSGGPFRETPLSQFSDVTPDQARKISVDSATMMNKGLEYIEARWLFNASAEQIEVVLHPQSVIHSMVRYHDGSILAQMGTPDMRTPIAHAMAYPMRVSSGVAPLDFCKVGALTFTTPDYQRYPCLKLAIDACNAGQAATTALNAANEISVMAFLDSKIRFTDIEVINRTVVEGLLLSEPTSVEEVLVIDRKARDVAAQVIAK MKQLTILGSTGSIGNSTLSVVRANPELFKVTALVAGRNVREMAQQCLEFSPRYAAMSDEHSAKSLRLLLAEQGSDTEVYSGETAACELAALDDVDQVMAAIVGIAGLPSTLAAIRAGKQVLLANKESLITCGKLFMDEVKRSRAQLLPIDSEHNAIFQSLPERIQRQLGYSSLNENGVSRIILTGSGGPFRETPLSQFSDVTPDQACAGRKISVDSATMMNKGLEYIEARWLFNASAEQIEVVLHPQSVIHSMVRYHDGSILAQMGTPDMRTPIAHAMAYPMRVSSGVAPLDFCKVGALTFTTPDYQRYPCLKLAIDACNAGQAATTALNAANEISVMAFLDSKIRFTDIEVINRTVVEGLLLSEPTSVEEVLVIDRKARDVAAQVIAKL 3iis-a1-m1-cM_3iis-a1-m2-cM Structure of the reconstituted Peridinin-Chlorophyll a-Protein (RFPCP) P80484 P80484 1.4 X-RAY DIFFRACTION 61 1.0 2961 (Amphidinium carterae) 2961 (Amphidinium carterae) 151 151 2x1z-a1-m1-cM_2x1z-a1-m2-cM 2x20-a1-m1-cM_2x20-a1-m2-cM 2x21-a1-m1-cM_2x21-a1-m2-cM 3iiu-a1-m1-cM_3iiu-a1-m2-cM ADEIGDAAKKLGDASYAFAKEVDWNNGIFLQAPGKLQPLEALKAIDKMIVMGAAADPKLLKAAAEAHHKAIGSVSGPNGVTSRADWDSVNAALGRVIASVPENMVMDVYDSVSKITDPKVPAYMKSLVNGADAEKAYEGFLAFKDVVKKSQ ADEIGDAAKKLGDASYAFAKEVDWNNGIFLQAPGKLQPLEALKAIDKMIVMGAAADPKLLKAAAEAHHKAIGSVSGPNGVTSRADWDSVNAALGRVIASVPENMVMDVYDSVSKITDPKVPAYMKSLVNGADAEKAYEGFLAFKDVVKKSQ 3ij3-a1-m1-cA_3ij3-a1-m6-cA 1.8 Angstrom Resolution Crystal Structure of Cytosol Aminopeptidase from Coxiella burnetii Q83DX0 Q83DX0 1.8 X-RAY DIFFRACTION 54 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 457 457 3ij3-a1-m2-cA_3ij3-a1-m5-cA 3ij3-a1-m3-cA_3ij3-a1-m4-cA ADCYLTEKKKNFIPIQPMMPDELPDWLDTQDARTQQWVKASGFVGLAGTICSIPESTGALQRVLLGVSDYEYSWDFGGLSKVLPPGAFQLNRDDFEDDEYYERALLAFGLGSYQFNAYRKRSPYLAKLFLPQAHRKRVTDWLTTIYLIRDLINTPAEDMGPSELAQAVKHVAKEFEAKVKIIESKDLETEFPAIYAVGRAGSRPPLLIDLKWGDIKAPKVTLVGKGVCFDSGGLDIKTPGGMLLMKKDMGGAAHALGLARMIMLQQLPVRLRLLIPAVENAIGSRSYRPGDVVQTRARKTIEITNTDAEGRVVLADALAEAVKEDPDLIIDFSTLTGAARIALGPNLPALFANQDSLAQALIDASLKTDDPLWRLPLFQPYRNYLKSEVADLTNSSQNRMAGAITAALFLQHFVSDQIPWAHFDIFAWNLEDLPGRPIGGEAMALRAVFHYLEQQYR ADCYLTEKKKNFIPIQPMMPDELPDWLDTQDARTQQWVKASGFVGLAGTICSIPESTGALQRVLLGVSDYEYSWDFGGLSKVLPPGAFQLNRDDFEDDEYYERALLAFGLGSYQFNAYRKRSPYLAKLFLPQAHRKRVTDWLTTIYLIRDLINTPAEDMGPSELAQAVKHVAKEFEAKVKIIESKDLETEFPAIYAVGRAGSRPPLLIDLKWGDIKAPKVTLVGKGVCFDSGGLDIKTPGGMLLMKKDMGGAAHALGLARMIMLQQLPVRLRLLIPAVENAIGSRSYRPGDVVQTRARKTIEITNTDAEGRVVLADALAEAVKEDPDLIIDFSTLTGAARIALGPNLPALFANQDSLAQALIDASLKTDDPLWRLPLFQPYRNYLKSEVADLTNSSQNRMAGAITAALFLQHFVSDQIPWAHFDIFAWNLEDLPGRPIGGEAMALRAVFHYLEQQYR 3ij3-a2-m2-cA_3ij3-a2-m3-cA 1.8 Angstrom Resolution Crystal Structure of Cytosol Aminopeptidase from Coxiella burnetii Q83DX0 Q83DX0 1.8 X-RAY DIFFRACTION 71 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 457 457 3ij3-a1-m1-cA_3ij3-a1-m2-cA 3ij3-a1-m1-cA_3ij3-a1-m3-cA 3ij3-a1-m2-cA_3ij3-a1-m3-cA 3ij3-a1-m4-cA_3ij3-a1-m5-cA 3ij3-a1-m4-cA_3ij3-a1-m6-cA 3ij3-a1-m5-cA_3ij3-a1-m6-cA 3ij3-a2-m1-cA_3ij3-a2-m2-cA 3ij3-a2-m1-cA_3ij3-a2-m3-cA ADCYLTEKKKNFIPIQPMMPDELPDWLDTQDARTQQWVKASGFVGLAGTICSIPESTGALQRVLLGVSDYEYSWDFGGLSKVLPPGAFQLNRDDFEDDEYYERALLAFGLGSYQFNAYRKRSPYLAKLFLPQAHRKRVTDWLTTIYLIRDLINTPAEDMGPSELAQAVKHVAKEFEAKVKIIESKDLETEFPAIYAVGRAGSRPPLLIDLKWGDIKAPKVTLVGKGVCFDSGGLDIKTPGGMLLMKKDMGGAAHALGLARMIMLQQLPVRLRLLIPAVENAIGSRSYRPGDVVQTRARKTIEITNTDAEGRVVLADALAEAVKEDPDLIIDFSTLTGAARIALGPNLPALFANQDSLAQALIDASLKTDDPLWRLPLFQPYRNYLKSEVADLTNSSQNRMAGAITAALFLQHFVSDQIPWAHFDIFAWNLEDLPGRPIGGEAMALRAVFHYLEQQYR ADCYLTEKKKNFIPIQPMMPDELPDWLDTQDARTQQWVKASGFVGLAGTICSIPESTGALQRVLLGVSDYEYSWDFGGLSKVLPPGAFQLNRDDFEDDEYYERALLAFGLGSYQFNAYRKRSPYLAKLFLPQAHRKRVTDWLTTIYLIRDLINTPAEDMGPSELAQAVKHVAKEFEAKVKIIESKDLETEFPAIYAVGRAGSRPPLLIDLKWGDIKAPKVTLVGKGVCFDSGGLDIKTPGGMLLMKKDMGGAAHALGLARMIMLQQLPVRLRLLIPAVENAIGSRSYRPGDVVQTRARKTIEITNTDAEGRVVLADALAEAVKEDPDLIIDFSTLTGAARIALGPNLPALFANQDSLAQALIDASLKTDDPLWRLPLFQPYRNYLKSEVADLTNSSQNRMAGAITAALFLQHFVSDQIPWAHFDIFAWNLEDLPGRPIGGEAMALRAVFHYLEQQYR 3ij3-a3-m1-cA_3ij3-a3-m4-cA 1.8 Angstrom Resolution Crystal Structure of Cytosol Aminopeptidase from Coxiella burnetii Q83DX0 Q83DX0 1.8 X-RAY DIFFRACTION 72 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 457 457 3ij3-a1-m1-cA_3ij3-a1-m4-cA 3ij3-a1-m2-cA_3ij3-a1-m6-cA 3ij3-a1-m3-cA_3ij3-a1-m5-cA ADCYLTEKKKNFIPIQPMMPDELPDWLDTQDARTQQWVKASGFVGLAGTICSIPESTGALQRVLLGVSDYEYSWDFGGLSKVLPPGAFQLNRDDFEDDEYYERALLAFGLGSYQFNAYRKRSPYLAKLFLPQAHRKRVTDWLTTIYLIRDLINTPAEDMGPSELAQAVKHVAKEFEAKVKIIESKDLETEFPAIYAVGRAGSRPPLLIDLKWGDIKAPKVTLVGKGVCFDSGGLDIKTPGGMLLMKKDMGGAAHALGLARMIMLQQLPVRLRLLIPAVENAIGSRSYRPGDVVQTRARKTIEITNTDAEGRVVLADALAEAVKEDPDLIIDFSTLTGAARIALGPNLPALFANQDSLAQALIDASLKTDDPLWRLPLFQPYRNYLKSEVADLTNSSQNRMAGAITAALFLQHFVSDQIPWAHFDIFAWNLEDLPGRPIGGEAMALRAVFHYLEQQYR ADCYLTEKKKNFIPIQPMMPDELPDWLDTQDARTQQWVKASGFVGLAGTICSIPESTGALQRVLLGVSDYEYSWDFGGLSKVLPPGAFQLNRDDFEDDEYYERALLAFGLGSYQFNAYRKRSPYLAKLFLPQAHRKRVTDWLTTIYLIRDLINTPAEDMGPSELAQAVKHVAKEFEAKVKIIESKDLETEFPAIYAVGRAGSRPPLLIDLKWGDIKAPKVTLVGKGVCFDSGGLDIKTPGGMLLMKKDMGGAAHALGLARMIMLQQLPVRLRLLIPAVENAIGSRSYRPGDVVQTRARKTIEITNTDAEGRVVLADALAEAVKEDPDLIIDFSTLTGAARIALGPNLPALFANQDSLAQALIDASLKTDDPLWRLPLFQPYRNYLKSEVADLTNSSQNRMAGAITAALFLQHFVSDQIPWAHFDIFAWNLEDLPGRPIGGEAMALRAVFHYLEQQYR 3ij5-a2-m1-cC_3ij5-a2-m2-cC 1.95 Angstrom Resolution Crystal Structure of 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase from Yersinia pestis Q8ZB47 Q8ZB47 1.95 X-RAY DIFFRACTION 19 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 179 179 3ij5-a2-m1-cA_3ij5-a2-m2-cA 3ij5-a2-m1-cD_3ij5-a2-m2-cB 3ij5-a2-m2-cD_3ij5-a2-m1-cB TAYIDTCYGPVADDVIQRAANIRLLICDVDGVMSDGLIYMGNQGEELKAFNVRDGYGIRCLITSDIDVAIITGRRAKLLEDRANTLGITHLYQGQSDKLVAYHELLATLQCQPEQVAYIGDDLIDWPVMAQVGLSVAVADAHPLLLPKAHYVTRIKGGRGAVREVCDLILLAQDKLEGA TAYIDTCYGPVADDVIQRAANIRLLICDVDGVMSDGLIYMGNQGEELKAFNVRDGYGIRCLITSDIDVAIITGRRAKLLEDRANTLGITHLYQGQSDKLVAYHELLATLQCQPEQVAYIGDDLIDWPVMAQVGLSVAVADAHPLLLPKAHYVTRIKGGRGAVREVCDLILLAQDKLEGA 3ij5-a2-m2-cC_3ij5-a2-m2-cD 1.95 Angstrom Resolution Crystal Structure of 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase from Yersinia pestis Q8ZB47 Q8ZB47 1.95 X-RAY DIFFRACTION 62 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 179 183 3ij5-a1-m1-cA_3ij5-a1-m1-cB 3ij5-a1-m1-cC_3ij5-a1-m1-cB 3ij5-a1-m1-cC_3ij5-a1-m1-cD 3ij5-a1-m1-cD_3ij5-a1-m1-cA 3ij5-a2-m1-cA_3ij5-a2-m1-cB 3ij5-a2-m1-cC_3ij5-a2-m1-cB 3ij5-a2-m1-cC_3ij5-a2-m1-cD 3ij5-a2-m1-cD_3ij5-a2-m1-cA 3ij5-a2-m2-cA_3ij5-a2-m2-cB 3ij5-a2-m2-cC_3ij5-a2-m2-cB 3ij5-a2-m2-cD_3ij5-a2-m2-cA TAYIDTCYGPVADDVIQRAANIRLLICDVDGVMSDGLIYMGNQGEELKAFNVRDGYGIRCLITSDIDVAIITGRRAKLLEDRANTLGITHLYQGQSDKLVAYHELLATLQCQPEQVAYIGDDLIDWPVMAQVGLSVAVADAHPLLLPKAHYVTRIKGGRGAVREVCDLILLAQDKLEGA SNTAYIDTCYGPVADDVIQRAANIRLLICDVDGVMSDGLIYMGNQGEELKAFNVRDGYGIRCLITSDIDVAIITGRRAKLLEDRANTLGITHLYQGQSDKLVAYHELLATLQCQPEQVAYIGDDLIDWPVMAQVGLSVAVADAHPLLLPKAHYVTRIKGGRGAVREVCDLILLAQDKLEGATG 3ij6-a2-m1-cC_3ij6-a2-m1-cD CRYSTAL STRUCTURE OF AN UNCHARACTERIZED METAL-DEPENDENT HYDROLASE FROM Lactobacillus acidophilus Q5FK79 Q5FK79 2 X-RAY DIFFRACTION 126 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 302 302 3ij6-a1-m1-cA_3ij6-a1-m1-cB LTKIDAYAHILPAKYYQKMLSVEPNIPNMFPFIKIKTLMDLDERLTKWPDQNTKQVISLANISPEDFTDSKTSAELCQSANEELSNLVDQHPGKFAGAVAILPMNNIESACKVISSIKDDENLVGAQIFTRHLGKSIADKEFRPVLAQAAKLHVPLWMHPVFDARKPDNNLVFSWEYELSQAMLQLVQSDLFQDYPNLKILVHHAGAMVPFFSGRIDHILDEKHAQDFKKFYVDTAILGNTPALQLAIDYYGIDHVLFGTDAPFAVMPSGADQIITQAINDLTISDKDKQKIFHDNYYSLIK LTKIDAYAHILPAKYYQKMLSVEPNIPNMFPFIKIKTLMDLDERLTKWPDQNTKQVISLANISPEDFTDSKTSAELCQSANEELSNLVDQHPGKFAGAVAILPMNNIESACKVISSIKDDENLVGAQIFTRHLGKSIADKEFRPVLAQAAKLHVPLWMHPVFDARKPDNNLVFSWEYELSQAMLQLVQSDLFQDYPNLKILVHHAGAMVPFFSGRIDHILDEKHAQDFKKFYVDTAILGNTPALQLAIDYYGIDHVLFGTDAPFAVMPSGADQIITQAINDLTISDKDKQKIFHDNYYSLIK 3ijd-a1-m1-cB_3ijd-a1-m1-cA Uncharacterized protein Cthe_2304 from Clostridium thermocellum binds two copies of 5-methyl-5,6,7,8-tetrahydrofolic acid A3DHS7 A3DHS7 2 X-RAY DIFFRACTION 14 0.996 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 285 286 SLLKQKILNRESGIITYGITPPKKNNTEEKIKEISQKHIERISGLDIDGLVIYDLQIETIDPQIYSENYLKDLKIPKIIYRCVGKYTPDEFRRLTRPVSGQDAFSVFVGAAVLLKLSDAYKIRQDVNPDLLLGGVAIPERHMKNTDEHLRIIDKINKGCKYFITQAVYNVEAAKDFLSDYYYYSKNNNLKMVPIIFTLTPCGSTKTLEFMKWLGISIPRWLENDLMNCEDILNKSVSLSKSIFNELMEFCLEKGIPIGCNIESVSVRKVEIEASIALAKDIKYIM LLKQKILNRESGIITYGITPPKKNNTEEKIKEISQKHIERISGLDIDGLVIYDLQFIETIDPQIYSENYLKDLKIPKIIYRCVGKYTPDEFRRLTRPVSGQDAFSVFVGAASVLLKLSDAYKIRQDVNPDLLLGGVAIPERHMKNTDEHLRIIDKINKGCKYFITQAVYNVEAAKDFLSDYYYYSKNNNLKMVPIIFTLTPCGSTKTLEFMKWLGISIPRWLENDLMNCEDILNKSVSLSKSIFNELMEFCLEKGIPIGCNIESVSVRKVEIEASIALAKDIKYIM 3ijd-a2-m2-cB_3ijd-a2-m1-cA Uncharacterized protein Cthe_2304 from Clostridium thermocellum binds two copies of 5-methyl-5,6,7,8-tetrahydrofolic acid A3DHS7 A3DHS7 2 X-RAY DIFFRACTION 40 0.996 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 285 286 SLLKQKILNRESGIITYGITPPKKNNTEEKIKEISQKHIERISGLDIDGLVIYDLQIETIDPQIYSENYLKDLKIPKIIYRCVGKYTPDEFRRLTRPVSGQDAFSVFVGAAVLLKLSDAYKIRQDVNPDLLLGGVAIPERHMKNTDEHLRIIDKINKGCKYFITQAVYNVEAAKDFLSDYYYYSKNNNLKMVPIIFTLTPCGSTKTLEFMKWLGISIPRWLENDLMNCEDILNKSVSLSKSIFNELMEFCLEKGIPIGCNIESVSVRKVEIEASIALAKDIKYIM LLKQKILNRESGIITYGITPPKKNNTEEKIKEISQKHIERISGLDIDGLVIYDLQFIETIDPQIYSENYLKDLKIPKIIYRCVGKYTPDEFRRLTRPVSGQDAFSVFVGAASVLLKLSDAYKIRQDVNPDLLLGGVAIPERHMKNTDEHLRIIDKINKGCKYFITQAVYNVEAAKDFLSDYYYYSKNNNLKMVPIIFTLTPCGSTKTLEFMKWLGISIPRWLENDLMNCEDILNKSVSLSKSIFNELMEFCLEKGIPIGCNIESVSVRKVEIEASIALAKDIKYIM 3ijl-a1-m1-cA_3ijl-a1-m2-cB Structure of dipeptide epimerase from Bacteroides thetaiotaomicron complexed with L-Pro-D-Glu; nonproductive substrate binding. Q8A861 Q8A861 1.5 X-RAY DIFFRACTION 58 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 336 336 3iji-a1-m1-cA_3iji-a1-m2-cB 3ijq-a1-m1-cA_3ijq-a1-m2-cB KMTFFPYELKLRHVFTVATYSRTTTPDVQVEIEYEGVTGYGEASMPPYLGETVESVMNFLKKVNLEQFSDPFQLEDILSYVDSLSPKDTAAKAAVDIALHDLVGKLLGAPWYKIWGLNKEKTPSTTFTIGIDTPDVVRAKTKECAGLFNILKVKLGRDNDKEMIETIRSVTDLPIAVDANQGWKDRQYALDMIHWLKEKGIVMIEQPMPKEQLDDIAWVTQQSPLPVFADESLQRLGDVAALKGAFTGINIKLMKCTGMREAWKMVTLAHALGMRVMVGCMTETSCAISAASQFSPAVDFADLDGNLLISNDRFKGVEVVNGKITLNDLPGIGVMK KMTFFPYELKLRHVFTVATYSRTTTPDVQVEIEYEGVTGYGEASMPPYLGETVESVMNFLKKVNLEQFSDPFQLEDILSYVDSLSPKDTAAKAAVDIALHDLVGKLLGAPWYKIWGLNKEKTPSTTFTIGIDTPDVVRAKTKECAGLFNILKVKLGRDNDKEMIETIRSVTDLPIAVDANQGWKDRQYALDMIHWLKEKGIVMIEQPMPKEQLDDIAWVTQQSPLPVFADESLQRLGDVAALKGAFTGINIKLMKCTGMREAWKMVTLAHALGMRVMVGCMTETSCAISAASQFSPAVDFADLDGNLLISNDRFKGVEVVNGKITLNDLPGIGVMK 3ijl-a2-m1-cA_3ijl-a2-m1-cB Structure of dipeptide epimerase from Bacteroides thetaiotaomicron complexed with L-Pro-D-Glu; nonproductive substrate binding. Q8A861 Q8A861 1.5 X-RAY DIFFRACTION 36 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 336 336 3iji-a2-m1-cA_3iji-a2-m1-cB 3ijq-a2-m1-cA_3ijq-a2-m1-cB KMTFFPYELKLRHVFTVATYSRTTTPDVQVEIEYEGVTGYGEASMPPYLGETVESVMNFLKKVNLEQFSDPFQLEDILSYVDSLSPKDTAAKAAVDIALHDLVGKLLGAPWYKIWGLNKEKTPSTTFTIGIDTPDVVRAKTKECAGLFNILKVKLGRDNDKEMIETIRSVTDLPIAVDANQGWKDRQYALDMIHWLKEKGIVMIEQPMPKEQLDDIAWVTQQSPLPVFADESLQRLGDVAALKGAFTGINIKLMKCTGMREAWKMVTLAHALGMRVMVGCMTETSCAISAASQFSPAVDFADLDGNLLISNDRFKGVEVVNGKITLNDLPGIGVMK KMTFFPYELKLRHVFTVATYSRTTTPDVQVEIEYEGVTGYGEASMPPYLGETVESVMNFLKKVNLEQFSDPFQLEDILSYVDSLSPKDTAAKAAVDIALHDLVGKLLGAPWYKIWGLNKEKTPSTTFTIGIDTPDVVRAKTKECAGLFNILKVKLGRDNDKEMIETIRSVTDLPIAVDANQGWKDRQYALDMIHWLKEKGIVMIEQPMPKEQLDDIAWVTQQSPLPVFADESLQRLGDVAALKGAFTGINIKLMKCTGMREAWKMVTLAHALGMRVMVGCMTETSCAISAASQFSPAVDFADLDGNLLISNDRFKGVEVVNGKITLNDLPGIGVMK 3ijm-a1-m1-cB_3ijm-a1-m1-cA The structure of a restriction endonuclease-like fold superfamily protein from Spirosoma linguale. D2QNN3 D2QNN3 1.7 X-RAY DIFFRACTION 80 1.0 504472 (Spirosoma linguale DSM 74) 504472 (Spirosoma linguale DSM 74) 144 145 SHPISLKTLVQEDDIGVNAPIIHQSVIARLTAGLYPLYQSKKIPFEPLPETLTEGYSSPVPDVLLYDHQTEEAKVIIEVCQNSGLKHDTSKIVKLIEDNAYGILEGFVFNYKTQQWLRYRLGDGGVATNSSFSEVLQVDLNTFV YSHPISLKTLVQEDDIGVNAPIIHQSVIARLTAGLYPLYQSKKIPFEPLPETLTEGYSSPVPDVLLYDHQTEEAKVIIEVCQNSGLKHDTSKIVKLIEDNAYGILEGFVFNYKTQQWLRYRLGDGGVATNSSFSEVLQVDLNTFV 3ijp-a1-m1-cA_3ijp-a1-m2-cA Crystal structure of dihydrodipicolinate reductase from bartonella henselae at 2.0A resolution Q6G2G3 Q6G2G3 2.3 X-RAY DIFFRACTION 83 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 266 266 SMRLTVVGANGRMGRELITAIQRRKDVELCAVLVRKGSSFVDKDASILIGSDFLGVRITDDPESAFSNTEGILDFSQPQASVLYANYAAQKSLIHIIGTTGFSKTEEAQIADFAKYTTIVKSGNMSLGVNLLANLVKRAAKALDDDFDIEIYEMHHANKVDSPSGTALLLGQAAAEGRNIMLKNVSVNGRSGHTGKREKGTIGFACSRGGTVIGDHSITFAGENERIVLSHIAQERSIFANGALKAALWAKNHENGLYSMLDVLGL SMRLTVVGANGRMGRELITAIQRRKDVELCAVLVRKGSSFVDKDASILIGSDFLGVRITDDPESAFSNTEGILDFSQPQASVLYANYAAQKSLIHIIGTTGFSKTEEAQIADFAKYTTIVKSGNMSLGVNLLANLVKRAAKALDDDFDIEIYEMHHANKVDSPSGTALLLGQAAAEGRNIMLKNVSVNGRSGHTGKREKGTIGFACSRGGTVIGDHSITFAGENERIVLSHIAQERSIFANGALKAALWAKNHENGLYSMLDVLGL 3ijp-a1-m1-cA_3ijp-a1-m2-cB Crystal structure of dihydrodipicolinate reductase from bartonella henselae at 2.0A resolution Q6G2G3 Q6G2G3 2.3 X-RAY DIFFRACTION 130 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 266 267 3ijp-a1-m2-cA_3ijp-a1-m1-cB SMRLTVVGANGRMGRELITAIQRRKDVELCAVLVRKGSSFVDKDASILIGSDFLGVRITDDPESAFSNTEGILDFSQPQASVLYANYAAQKSLIHIIGTTGFSKTEEAQIADFAKYTTIVKSGNMSLGVNLLANLVKRAAKALDDDFDIEIYEMHHANKVDSPSGTALLLGQAAAEGRNIMLKNVSVNGRSGHTGKREKGTIGFACSRGGTVIGDHSITFAGENERIVLSHIAQERSIFANGALKAALWAKNHENGLYSMLDVLGL SMRLTVVGANGRMGRELITAIQRRKDVELCAVLVRKGSSFVDKDASILIGSDFLGVRITDDPESAFSNTEGILDFSQPQASVLYANYAAQKSLIHIIGTTGFSKTEEAQIADFAKYTTIVKSGNMSLGVNLLANLVKRAAKALDDDFDIEIYEMHHANKVDSPSGTALLLGQAAAEGRNIMLKNVSVNGRSGHTGKREKGTIGFACSRGGTVIGDHSITFAGENERIVLSHIAQERSIFANGALKAALWAKNHENGLYSMLDVLGLN 3ijp-a1-m1-cB_3ijp-a1-m2-cB Crystal structure of dihydrodipicolinate reductase from bartonella henselae at 2.0A resolution Q6G2G3 Q6G2G3 2.3 X-RAY DIFFRACTION 105 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 267 267 SMRLTVVGANGRMGRELITAIQRRKDVELCAVLVRKGSSFVDKDASILIGSDFLGVRITDDPESAFSNTEGILDFSQPQASVLYANYAAQKSLIHIIGTTGFSKTEEAQIADFAKYTTIVKSGNMSLGVNLLANLVKRAAKALDDDFDIEIYEMHHANKVDSPSGTALLLGQAAAEGRNIMLKNVSVNGRSGHTGKREKGTIGFACSRGGTVIGDHSITFAGENERIVLSHIAQERSIFANGALKAALWAKNHENGLYSMLDVLGLN SMRLTVVGANGRMGRELITAIQRRKDVELCAVLVRKGSSFVDKDASILIGSDFLGVRITDDPESAFSNTEGILDFSQPQASVLYANYAAQKSLIHIIGTTGFSKTEEAQIADFAKYTTIVKSGNMSLGVNLLANLVKRAAKALDDDFDIEIYEMHHANKVDSPSGTALLLGQAAAEGRNIMLKNVSVNGRSGHTGKREKGTIGFACSRGGTVIGDHSITFAGENERIVLSHIAQERSIFANGALKAALWAKNHENGLYSMLDVLGLN 3ijr-a1-m1-cA_3ijr-a1-m1-cD 2.05 Angstrom resolution crystal structure of a short chain dehydrogenase from Bacillus anthracis str. 'Ames Ancestor' in complex with NAD+ A0A6L8PL20 A0A6L8PL20 2.05 X-RAY DIFFRACTION 130 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 277 277 3i3o-a1-m1-cA_3i3o-a1-m1-cD 3i3o-a1-m1-cC_3i3o-a1-m1-cB 3i3o-a2-m1-cG_3i3o-a2-m1-cF 3i3o-a2-m1-cH_3i3o-a2-m1-cE 3ijr-a1-m1-cC_3ijr-a1-m1-cB 3ijr-a2-m1-cE_3ijr-a2-m1-cH 3ijr-a2-m1-cG_3ijr-a2-m1-cF VTPAQHQNKQPGIESLNPLPQFEDPNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEGDANETKQYVEKEGVKCVLLPGDLSDEQHCKDIVQETVRQLGSLNILVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAALSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPQRPGQPYELAPAYVYLASSDSSYVTGQIHVNGGVIVNG VTPAQHQNKQPGIESLNPLPQFEDPNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEGDANETKQYVEKEGVKCVLLPGDLSDEQHCKDIVQETVRQLGSLNILVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAALSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPQRPGQPYELAPAYVYLASSDSSYVTGQIHVNGGVIVNG 3ijr-a1-m1-cC_3ijr-a1-m1-cD 2.05 Angstrom resolution crystal structure of a short chain dehydrogenase from Bacillus anthracis str. 'Ames Ancestor' in complex with NAD+ A0A6L8PL20 A0A6L8PL20 2.05 X-RAY DIFFRACTION 105 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 277 277 3i3o-a1-m1-cA_3i3o-a1-m1-cB 3i3o-a1-m1-cC_3i3o-a1-m1-cD 3i3o-a2-m1-cF_3i3o-a2-m1-cE 3i3o-a2-m1-cG_3i3o-a2-m1-cH 3ijr-a1-m1-cA_3ijr-a1-m1-cB 3ijr-a2-m1-cE_3ijr-a2-m1-cF 3ijr-a2-m1-cG_3ijr-a2-m1-cH VTPAQHQNKQPGIESLNPLPQFEDPNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEGDANETKQYVEKEGVKCVLLPGDLSDEQHCKDIVQETVRQLGSLNILVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAALSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPQRPGQPYELAPAYVYLASSDSSYVTGQIHVNGGVIVNG VTPAQHQNKQPGIESLNPLPQFEDPNYKGSEKLKGKNVLITGGDSGIGRAVSIAFAKEGANIAIAYLDEEGDANETKQYVEKEGVKCVLLPGDLSDEQHCKDIVQETVRQLGSLNILVNNVAQQYPQQGLEYITAEQLEKTFRINIFSYFHVTKAALSHLKQGDVIINTASIVAYEGNETLIDYSATKGAIVAFTRSLSQSLVQKGIRVNGVAPGPIWTPLIPSSFDEKKVSQFGSNVPQRPGQPYELAPAYVYLASSDSSYVTGQIHVNGGVIVNG 3ijt-a1-m1-cA_3ijt-a1-m1-cB Structural Characterization of SMU.440, a Hypothetical Protein from Streptococcus mutans Q8DVN6 Q8DVN6 2.377 X-RAY DIFFRACTION 73 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 140 143 RGSMKFSFELAVNTKKEDAWTYYSQVNQWFVWEGDLEQISLEGEFTTGQKGKMKMEDMPELAFTLVEVRENQCFSDLTATPFGNVLFEHEILENPDGTISLRHSVSLTDSDTTEEALAFLKQIFADVPESVGKLKQILET QMGRGSMKFSFELAVNTKKEDAWTYYSQVNQWFVWEGDLEQISLEGEFTTGQKGKMKMEDMPELAFTLVEVRENQCFSDLTATPFGNVLFEHEILENPDGTISLRHSVSLTDSDTTEEALAFLKQIFADVPESVGKLKQILET 3ik4-a6-m2-cD_3ik4-a6-m1-cC CRYSTAL STRUCTURE OF mandelate racemase/muconate lactonizing protein from Herpetosiphon aurantiacus A9B055 A9B055 2.1 X-RAY DIFFRACTION 86 1.0 316274 (Herpetosiphon aurantiacus DSM 785) 316274 (Herpetosiphon aurantiacus DSM 785) 348 349 3ik4-a5-m1-cA_3ik4-a5-m1-cB SLPTTIQAISAEAINLPLTEAVAANVLVKVQLADGTLGLGEAAPFPAVSGETQTGTSAAIERLQSHLLGADVRGWRKLAAMLDHAEHEAAAARCGLEMAMLDALTRHYHMPLHVFFGGVSKQLETDMTITAGDEVHAAASAKAILARGIKSIKVKTAGVDVAYDLARLRAIHQAAPTAPLIVDGNCGYDVERALAFCAACKAESIPMVLFEQPLPREDWAGMAQVTAQSGFAVAADESARSAHDVLRIAREGTASVINIKLMKAGVAEGLKMIAIAQAAGLGLMIGGMVESILAMSFSANLAAGNGGFDFIDLDTPLFIAEHPFIGGFAQTGGTLQLADVAGHGVNLE SLPTTIQAISAEAINLPLTEAVAANVLVKVQLADGTLGLGEAAPFPAVSGETQTGTSAAIERLQSHLLGADVRGWRKLAAMLDHAEHEAAAARCGLEMAMLDALTRHYHMPLHVFFGGVSKQLETDMTITAGDEVHAAASAKAILARGIKSIKVKTAGVDVAYDLARLRAIHQAAPTAPLIVDGNCGYDVERALAFCAACKAESIPMVLFEQPLPREDWAGMAQVTAQSGFAVAADESARSAHDVLRIAREGTASVINIKLMKAGVAEGLKMIAIAQAAGLGLMIGGMVESILAMSFSANLAAGNGGFDFIDLDTPLFIAEHPFIGGFAQTGGTLQLADVAGHGVNLEG 3ik5-a1-m1-cC_3ik5-a1-m1-cA SIVmac239 Nef in complex with TCR zeta ITAM 1 polypeptide (A63-R80) P31818 P31818 2.05 X-RAY DIFFRACTION 24 0.991 388909 (Simian immunodeficiency virus - cpz) 388909 (Simian immunodeficiency virus - cpz) 117 119 VSVRPKVPLRTMSYKLAIDMSHFIKEKGGLEGIYYSARRHRILDIYLEKEEGIIPDWQDYTSGPGIRYPKTFGWLWKLVPVNTSQWDDPWGEVLAWKFDPTLAYTYEAYVRYPEEFG VSVRPKVPLRTMSYKLAIDMSHFIKEKGGLEGIYYSARRHRILDIYLEKEEGIIPDWQDYTSGPGIRYPKTFGWLWKLVPVPAQTSQWDDPWGEVLAWKFDPTLAYTYEAYVRYPEEFG 3ik7-a2-m1-cC_3ik7-a2-m1-cD Human glutathione transferase a4-4 with GSDHN O15217 O15217 1.97 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 220 1gul-a1-m1-cA_1gul-a1-m1-cB 1gul-a2-m1-cC_1gul-a2-m1-cD 1gul-a3-m1-cE_1gul-a3-m1-cF 1gul-a4-m1-cG_1gul-a4-m1-cH 1gum-a1-m1-cA_1gum-a1-m1-cB 1gum-a2-m1-cC_1gum-a2-m1-cD 1gum-a3-m1-cE_1gum-a3-m1-cF 1gum-a4-m1-cG_1gum-a4-m1-cH 3ik7-a1-m1-cB_3ik7-a1-m1-cA ARPKLHYPNGRGRMESVRWVLAAAGVEFDEEFLETKEQLYKLQDGNHLLFQQVPMVEIDGMKLVQTRSILHYIADKHNLFGKNLKERTLIDMYVEGTLDLLELLIMHPFLKPDDQQKEVVNMAQKAIIRYFPVFEKILRGHGQSFLVGNQLSLADVILLQTILALEEKIPNILSAFPFLQEYTVKLSNIPTIKRFLEPGSKKKPPPDEIYVRTVYNIF AARPKLHYPNGRGRMESVRWVLAAAGVEFDEEFLETKEQLYKLQDGNHLLFQQVPMVEIDGMKLVQTRSILHYIADKHNLFGKNLKERTLIDMYVEGTLDLLELLIMHPFLKPDDQQKEVVNMAQKAIIRYFPVFEKILRGHGQSFLVGNQLSLADVILLQTILALEEKIPNILSAFPFLQEYTVKLSNIPTIKRFLEPGSKKKPPPDEIYVRTVYNIFR 3ikh-a2-m1-cB_3ikh-a2-m1-cD Crystal structure of Ribokinase in Complex with ATP and glycerol in the active site from Klebsiella pneumoniae A6T989 A6T989 1.88 X-RAY DIFFRACTION 107 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 278 281 3i3y-a1-m1-cA_3i3y-a1-m1-cC 3i3y-a2-m1-cB_3i3y-a2-m1-cD 3ikh-a1-m1-cC_3ikh-a1-m1-cA LRVYVTGNITVDETWSIPDIPKKGASIHGVKVSQDIGGKGANQAIILSRCGIETRLIAATGNDSNGAWIRQQIKNEPLLLPDGHFNQHSDTSIILNSADNAIITTTAAADTFSLDEIPHADAVAGDILLQQGNFSLDKTRALFQYARSRGTTVFNPSPVNPDFCHLWPLIDIAVVNESEAELLQPYGVKTLVITQGAAGAWLVQEGQRQFCPAVPAEALDTTGAGDTFLAVLASALLRGVAPDALALAHASRAAAITVSRRGTLSAFPGSRELAALLT SLRVYVTGNITVDETWSIPDIPKKGASIHGVKVSQDIGGKGANQAIILSRCGIETRLIAATGNDSNGAWIRQQIKNEPLLLPDGHFNQHSDTSIILNSADGDNAIITTTAAADTFSLDEIPHADAVAGDILLQQGNFSLDKTRALFQYARSRGTTVFNPSPVNPDFCHLWPLIDIAVVNESEAELLQPYGVKTLVITQGAAGAWLVQEGQRQFCPAVPAEALDTTGAGDTFLAVLASALLRGVAPDALALAHASRAAAITVSRRGTLSAFPGSRELAALLT 3ikk-a1-m1-cA_3ikk-a1-m1-cB Crystal structure analysis of msp domain O95292 O95292 2.5 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 MAKVEQVLSLEPQHELKFRGPFTDVVTTNLKLGNPTDRNVCFKVKTTAPRRYCVRPNSGIIDAGASINVSVMLQPFDYDPNEKSKHKFMVQSMFAPTDTSDMEAVWKEAKPEDLMDSKLRCVFEL MAKVEQVLSLEPQHELKFRGPFTDVVTTNLKLGNPTDRNVCFKVKTTAPRRYCVRPNSGIIDAGASINVSVMLQPFDYDPNEKSKHKFMVQSMFAPTDTSDMEAVWKEAKPEDLMDSKLRCVFEL 3ikt-a1-m1-cA_3ikt-a1-m1-cB Crystal structure of a Rex-family repressor/DNA/NAD+ complex from Thermus aquaticus Q72I39 Q72I39 2.26 X-RAY DIFFRACTION 133 0.995 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 204 206 3ikv-a1-m1-cB_3ikv-a1-m1-cA 3il2-a1-m1-cA_3il2-a1-m1-cB GMKVPEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGSYGTGYTVPVLKRELRHILGLNRKWGLCIVGMGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWR MKVPEAAISRLITYLRILEELEAQGVHRTSSEQLGELAQVTAFQVRKDLSYFGSYGTRGVGYTVPVLKRELRHILGLNRKWGLCIVGMGRLGSALADYPGFGESFELRGFFDVDPEKVGRPVRGGVIEHVDLLPQRVPGRIEIALLTVPREAAQKAADLLVAAGIKGILNFAPVVLEVPKEVAVENVDFLAGLTRLSFAILNPKWR 3iku-a1-m1-cK_3iku-a1-m1-cL Structural model of ParM filament in closed state from cryo-EM P11904 P11904 18.0 ELECTRON MICROSCOPY 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 316 316 3iku-a1-m1-cA_3iku-a1-m1-cB 3iku-a1-m1-cB_3iku-a1-m1-cC 3iku-a1-m1-cC_3iku-a1-m1-cD 3iku-a1-m1-cD_3iku-a1-m1-cE 3iku-a1-m1-cE_3iku-a1-m1-cF 3iku-a1-m1-cF_3iku-a1-m1-cG 3iku-a1-m1-cG_3iku-a1-m1-cH 3iku-a1-m1-cH_3iku-a1-m1-cI 3iku-a1-m1-cI_3iku-a1-m1-cJ 3iku-a1-m1-cJ_3iku-a1-m1-cK 4a6j-a1-m1-cA_4a6j-a1-m1-cB 4a6j-a1-m1-cB_4a6j-a1-m1-cC 4a6j-a1-m1-cC_4a6j-a1-m1-cD 4a6j-a1-m1-cD_4a6j-a1-m1-cE 4a6j-a1-m1-cE_4a6j-a1-m1-cF 4a6j-a1-m1-cF_4a6j-a1-m1-cG 4a6j-a1-m1-cG_4a6j-a1-m1-cH 4a6j-a1-m1-cH_4a6j-a1-m1-cI 4a6j-a1-m1-cI_4a6j-a1-m1-cJ 5aey-a1-m1-cA_5aey-a1-m1-cB 5aey-a1-m1-cB_5aey-a1-m1-cC 5aey-a1-m1-cC_5aey-a1-m1-cD 5aey-a1-m1-cD_5aey-a1-m1-cE MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN 3iky-a1-m1-cK_3iky-a1-m1-cL Structural model of ParM filament in the open state by cryo-EM P11904 P11904 18.0 ELECTRON MICROSCOPY 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 320 320 3iky-a1-m1-cA_3iky-a1-m1-cB 3iky-a1-m1-cB_3iky-a1-m1-cC 3iky-a1-m1-cC_3iky-a1-m1-cD 3iky-a1-m1-cD_3iky-a1-m1-cE 3iky-a1-m1-cE_3iky-a1-m1-cF 3iky-a1-m1-cF_3iky-a1-m1-cG 3iky-a1-m1-cG_3iky-a1-m1-cH 3iky-a1-m1-cH_3iky-a1-m1-cI 3iky-a1-m1-cI_3iky-a1-m1-cJ 3iky-a1-m1-cJ_3iky-a1-m1-cK MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN 3il3-a1-m1-cA_3il3-a1-m2-cA Structure of Haemophilus influenzae FabH P43711 P43711 2.7 X-RAY DIFFRACTION 216 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 315 315 MNSRILSTGSYLPSHIRTNADLEKMVDTSDEWIVTRSGIRERRIAAEDETVATMGFEAAKNAIEAAQINPQDIELIIVATTSHSHAYPSAACQVQGLLNIDDAISFDLAAATGFVYALSVADQFIRAGKVKKALVIGSDLNSRKLDETDRSTVVLFGDGAGAVILEASEQEGIISTHLHASADKNNALVLAQPERGIEKSGYIEMQGNETFKLAVRELSNVVEETLLANNLDKKDLDWLVPHQANLRIITATAKKLEMDMSQVVVTLDKYANNSAATVPVALDEAIRDGRIQRGQLLLLEAFGGGWTWGSALVRF MNSRILSTGSYLPSHIRTNADLEKMVDTSDEWIVTRSGIRERRIAAEDETVATMGFEAAKNAIEAAQINPQDIELIIVATTSHSHAYPSAACQVQGLLNIDDAISFDLAAATGFVYALSVADQFIRAGKVKKALVIGSDLNSRKLDETDRSTVVLFGDGAGAVILEASEQEGIISTHLHASADKNNALVLAQPERGIEKSGYIEMQGNETFKLAVRELSNVVEETLLANNLDKKDLDWLVPHQANLRIITATAKKLEMDMSQVVVTLDKYANNSAATVPVALDEAIRDGRIQRGQLLLLEAFGGGWTWGSALVRF 3il5-a2-m1-cC_3il5-a2-m1-cD Structure of E. faecalis FabH in complex with 2-({4-bromo-3-[(diethylamino)sulfonyl]benzoyl}amino)benzoic acid Q820T1 Q820T1 2.6 X-RAY DIFFRACTION 254 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 320 320 3il4-a1-m1-cB_3il4-a1-m1-cA 3il4-a2-m1-cC_3il4-a2-m1-cD 3il5-a1-m1-cB_3il5-a1-m1-cA 3il6-a1-m1-cA_3il6-a1-m2-cA KNYARISCTSRYVPENCVTNHQLSEMMDTSDEWIHSRTGISERRIVTQENTSDLCHQVAKQLLEKSGKQASEIDFILVATVTPDFNMPSVACQVQGAIGATEAFAFDISAACSGFVYALSMAEKLVLSGRYQTGLVIGGETFSKMLDWTDRSTAVLFGDGAAGVLIEAAETPHFLNEKLQADGQRWAALTSGYTINESPFYQGHKQASKTLQMEGRSIFDFAIKDVSQNILSLVTDETVDYLLLHQANVRIIDKIARKTKISREKFLTNMDKYGNTSAASIPILLDEAVENGTLILGSQQRVVLTGFGGGLTWGSLLLTL KNYARISCTSRYVPENCVTNHQLSEMMDTSDEWIHSRTGISERRIVTQENTSDLCHQVAKQLLEKSGKQASEIDFILVATVTPDFNMPSVACQVQGAIGATEAFAFDISAACSGFVYALSMAEKLVLSGRYQTGLVIGGETFSKMLDWTDRSTAVLFGDGAAGVLIEAAETPHFLNEKLQADGQRWAALTSGYTINESPFYQGHKQASKTLQMEGRSIFDFAIKDVSQNILSLVTDETVDYLLLHQANVRIIDKIARKTKISREKFLTNMDKYGNTSAASIPILLDEAVENGTLILGSQQRVVLTGFGGGLTWGSLLLTL 3ilh-a2-m1-cA_3ilh-a2-m2-cA Crystal structure of Two component response regulator from Cytophaga hutchinsonii 2.59 X-RAY DIFFRACTION 43 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 133 133 RKIDSVLLIDDDDIVNFLNTTIIRMTHRVEEIQSVTSGNAAINKLNELYAAGRWPSIICIDINMPGINGWELIDLFKQHFQPMKNKSIVCLLSSSLDPRDQAKAEASDWVDYYVSKPLTANALNNLYNKVLNE RKIDSVLLIDDDDIVNFLNTTIIRMTHRVEEIQSVTSGNAAINKLNELYAAGRWPSIICIDINMPGINGWELIDLFKQHFQPMKNKSIVCLLSSSLDPRDQAKAEASDWVDYYVSKPLTANALNNLYNKVLNE 3ilk-a1-m1-cB_3ilk-a1-m1-cA The structure of a probable methylase family protein from Haemophilus influenzae Rd KW20 P44676 P44676 2.01 X-RAY DIFFRACTION 100 0.996 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 226 232 LENIRIVLIETSHSGNIGSAARAKTGLTQLCLVSPKSVDEQSYALSAGAENIVKNARVVDSFDEAVDDCSLVIGTSARLRHLQNTLIEPRECAEKVVAYKGKIAIVFGRERIGLTNEELLKCHYHLNIPANPDYSSLNLAAVQLVSYELRAFLVQNNKKIEKNYPTTDQLAYFFDYTERIYQSLGFIQNQGVRKLKRLYYRAKLEKNELNILNGLSAVEKRIDLTK NALENIRIVLIETSHSGNIGSAARAKTGLTQLCLVSPKSVDEQSYALSAGAENIVKNARVVDSFDEAVDDCSLVIGTSARLRHLQNTLIEPRECAEKVVAYKGKIAIVFGRERIGLTNEELLKCHYHLNIPANPDYSSLNLAAVQLVSYELRAFLVQNNKKNSLSLEKNYPTTDQLAYFFDYTERIYQSLGFIQNQGVRKLKRLYYRAKLEKNELNILNGLSAVEKRIDLTK 3ilm-a2-m1-cD_3ilm-a2-m1-cC Crystal Structure of the Alr3790 protein from Anabaena sp. Northeast Structural Genomics Consortium Target NsR437h Q8YQN0 Q8YQN0 2.262 X-RAY DIFFRACTION 54 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 121 122 3ilm-a1-m1-cA_3ilm-a1-m1-cB SDAHVLKSRLEWGEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEGIIVVSRQNHLENQKKEVLEHHH SDAHVLKSRLEWGEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEGIINVVSRQNHLENQKKEVLEHHH 3ilv-a2-m1-cA_3ilv-a2-m2-cA Crystal structure of a glutamine-dependent NAD(+) synthetase from Cytophaga hutchinsonii 1.79 X-RAY DIFFRACTION 237 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 570 570 STIRIGGAAVNQTPIDWENNVKNILDAIEEAKNANVEILCLPELCITGYGCEDLFLTDWVAETAIEYCFEIAASCTDITVSLGLPRIAGITYNCVCLVENGIVKGFSAKQFLANEGVHYETRWFTAWPRNHTTTFLYNDVKYPFGDVLYNVKDARIGFEICEDHYEKGATLVLNPSASHFAFGKSAIRYDLVIGGSERFDCTYVYANLLGNEAGRIYDGEVLIAHKGKLIQRNDRLSFKNVNLIYADIATLEKEFEFWEATSLGLFDYRKSRSKGFVLSLSGGADSSACAIVAEIRKGLKELGLTAFLQKSNETLFDLPALQHLPFEEQAKKITAVFLTTAYQSTRNSGDETYTSAKTLAESIGATFYNWSVDEEIEQYKATIENVIERPLTWEKDDITLQNIQARGRAPIIWLTNVKQALLITTSNRSEGDVGYATDGDTAGGIAPIAGVDKDFIRSWLRWAEKNRNQHGLHIVNDLPYDVLARIERKAIKERLSPVQVYTALLTEGPYTKNEFKYWVKKFFRLWSINQWKRERLAPSFHDDFNIDPRSWYRFPILSSGFAKELNDLDQ STIRIGGAAVNQTPIDWENNVKNILDAIEEAKNANVEILCLPELCITGYGCEDLFLTDWVAETAIEYCFEIAASCTDITVSLGLPRIAGITYNCVCLVENGIVKGFSAKQFLANEGVHYETRWFTAWPRNHTTTFLYNDVKYPFGDVLYNVKDARIGFEICEDHYEKGATLVLNPSASHFAFGKSAIRYDLVIGGSERFDCTYVYANLLGNEAGRIYDGEVLIAHKGKLIQRNDRLSFKNVNLIYADIATLEKEFEFWEATSLGLFDYRKSRSKGFVLSLSGGADSSACAIVAEIRKGLKELGLTAFLQKSNETLFDLPALQHLPFEEQAKKITAVFLTTAYQSTRNSGDETYTSAKTLAESIGATFYNWSVDEEIEQYKATIENVIERPLTWEKDDITLQNIQARGRAPIIWLTNVKQALLITTSNRSEGDVGYATDGDTAGGIAPIAGVDKDFIRSWLRWAEKNRNQHGLHIVNDLPYDVLARIERKAIKERLSPVQVYTALLTEGPYTKNEFKYWVKKFFRLWSINQWKRERLAPSFHDDFNIDPRSWYRFPILSSGFAKELNDLDQ 3ilx-a1-m1-cB_3ilx-a1-m1-cA Crystal structure of First ORF in transposon ISC1904 from Sulfolobus solfataricus P2 Q97UQ9 Q97UQ9 2 X-RAY DIFFRACTION 94 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 136 137 AKVILYARVSSNTDDLANQVKYLEEQVKEYDLVITDIGSGLNKRKGFLKLLRILNNEVSRVITAYPDRLVRFGFEILEEVCKAHNCEIVVLNQEDKTPEEELVEDLATILVSFSGKLHGRSQKYEKVKKCAEELKN AKVILYARVSSNTKDDLANQVKYLEEQVKEYDLVITDIGSGLNKRKGFLKLLRILNNEVSRVITAYPDRLVRFGFEILEEVCKAHNCEIVVLNQEDKTPEEELVEDLATILVSFSGKLHGRSQKYEKVKKCAEELKN 3im4-a1-m1-cB_3im4-a1-m1-cA Crystal structure of cAMP-dependent Protein Kinase A Regulatory Subunit I alpha in complex with dual-specific A-Kinase Anchoring Protein 2 P00514 P00514 2.285 X-RAY DIFFRACTION 70 1.0 9913 (Bos taurus) 9913 (Bos taurus) 49 50 3im3-a1-m1-cA_3im3-a1-m2-cA 5hvz-a1-m1-cB_5hvz-a1-m1-cA SLRECELYVQKHNIQALLKDSIVQLCTARPERPMAFLREYFEKLEKEEA SLRECELYVQKHNIQALLKDSIVQLCTARPERPMAFLREYFEKLEKEEAK 3imf-a1-m1-cA_3imf-a1-m1-cD 1.99 Angstrom resolution crystal structure of a short chain dehydrogenase from Bacillus anthracis str. 'Ames Ancestor' A0A6L8NTZ6 A0A6L8NTZ6 1.99 X-RAY DIFFRACTION 130 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 238 238 3imf-a1-m1-cC_3imf-a1-m1-cB NAKEKVVIITGGSSGGKGATRFAKEGARVVITGRTKEKLEEAKLEIEQFPGQILTVQDVRNTDDIQKIEQIDEKFGRIDILINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSQAIGKYWIEKGIKGNIINVATYAWDAGPGVIHSAAAKAGVLATKTLAVEWGRKYGIRVNAIAPGPIERTGGAEAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCTDGGQHLHQYP NAKEKVVIITGGSSGGKGATRFAKEGARVVITGRTKEKLEEAKLEIEQFPGQILTVQDVRNTDDIQKIEQIDEKFGRIDILINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSQAIGKYWIEKGIKGNIINVATYAWDAGPGVIHSAAAKAGVLATKTLAVEWGRKYGIRVNAIAPGPIERTGGAEAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCTDGGQHLHQYP 3imf-a1-m1-cC_3imf-a1-m1-cD 1.99 Angstrom resolution crystal structure of a short chain dehydrogenase from Bacillus anthracis str. 'Ames Ancestor' A0A6L8NTZ6 A0A6L8NTZ6 1.99 X-RAY DIFFRACTION 99 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 232 238 3imf-a1-m1-cA_3imf-a1-m1-cB AKEKVVIITGGSSGGKGATRFAKEGARVVITGRTKEKLEEAKLEIEQFPGQILTVQDVRNTDDIQKIEQIDEKFGRIDILINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSQAIGKYWIEKGIKGNIINVATYAWDAGPGVIHSAAAKAGVLATKTLAVEWGRKYGIRVNAIAPGPIERAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCTDGGQHLHQYP NAKEKVVIITGGSSGGKGATRFAKEGARVVITGRTKEKLEEAKLEIEQFPGQILTVQDVRNTDDIQKIEQIDEKFGRIDILINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSQAIGKYWIEKGIKGNIINVATYAWDAGPGVIHSAAAKAGVLATKTLAVEWGRKYGIRVNAIAPGPIERTGGAEAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCTDGGQHLHQYP 3imf-a1-m1-cD_3imf-a1-m1-cB 1.99 Angstrom resolution crystal structure of a short chain dehydrogenase from Bacillus anthracis str. 'Ames Ancestor' A0A6L8NTZ6 A0A6L8NTZ6 1.99 X-RAY DIFFRACTION 34 0.996 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 238 239 3imf-a1-m1-cC_3imf-a1-m1-cA NAKEKVVIITGGSSGGKGATRFAKEGARVVITGRTKEKLEEAKLEIEQFPGQILTVQDVRNTDDIQKIEQIDEKFGRIDILINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSQAIGKYWIEKGIKGNIINVATYAWDAGPGVIHSAAAKAGVLATKTLAVEWGRKYGIRVNAIAPGPIERTGGAEAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCTDGGQHLHQYP AKEKVVIITGGSSGGKGATRFAKEGARVVITGRTKEKLEEAKLEIEQFPGQILTVQDVRNTDDIQKIEQIDEKFGRIDILINNAAGNFICPAEDLSVNGWNSVINIVLNGTFYCSQAIGKYWIEKGIKGNIINVATYAWDAGPGVIHSAAAKAGVLATKTLAVEWGRKYGIRVNAIAPGPIERTGGADEEAKRTIQSVPLGRLGTPEEIAGLAYYLCSDEAAYINGTCTDGGQHLHQYP 3imh-a2-m5-cB_3imh-a2-m7-cB CRYSTAL STRUCTURE OF GALACTOSE 1-EPIMERASE FROM Lactobacillus acidophilus NCFM Q5FJ46 Q5FJ46 1.76 X-RAY DIFFRACTION 70 1.0 272621 (Lactobacillus acidophilus NCFM) 272621 (Lactobacillus acidophilus NCFM) 332 332 3imh-a1-m1-cA_3imh-a1-m3-cA 3imh-a1-m1-cA_3imh-a1-m4-cA 3imh-a1-m2-cA_3imh-a1-m3-cA 3imh-a1-m2-cA_3imh-a1-m4-cA 3imh-a2-m1-cB_3imh-a2-m6-cB 3imh-a2-m1-cB_3imh-a2-m7-cB 3imh-a2-m5-cB_3imh-a2-m6-cB SLKTNFVKYERKDNKDLCEITLENDAGMAVKVLNYGATLEKVLLDGENMILSLNSPEDYSKERNFLGGTVGRIAGRVRAGQWKHGNEIHQLPLNDGDNHIHGGIGTDMHVWDFRPSCDSEHARVDLTLFDPDGNNDYPGNLKLHARYELDNENNLHYLLEAVSDKLTIFNPVNHTYFNLGERAEDLNLQMNADYYLPVDEAGLPDRGMAEVAGTAFDFRKTKRIGDALNSDDSQIKLRNGLDHPFILNGNNPAALLSSNKHRLIVKTNAPALVLYAGNHFNHTGIVNNIGQYDGITFEAQCPPAEGNDLGQITLLPFEKFKRTVDWKFEEGH SLKTNFVKYERKDNKDLCEITLENDAGMAVKVLNYGATLEKVLLDGENMILSLNSPEDYSKERNFLGGTVGRIAGRVRAGQWKHGNEIHQLPLNDGDNHIHGGIGTDMHVWDFRPSCDSEHARVDLTLFDPDGNNDYPGNLKLHARYELDNENNLHYLLEAVSDKLTIFNPVNHTYFNLGERAEDLNLQMNADYYLPVDEAGLPDRGMAEVAGTAFDFRKTKRIGDALNSDDSQIKLRNGLDHPFILNGNNPAALLSSNKHRLIVKTNAPALVLYAGNHFNHTGIVNNIGQYDGITFEAQCPPAEGNDLGQITLLPFEKFKRTVDWKFEEGH 3imi-a2-m1-cC_3imi-a2-m1-cD 2.01 Angstrom resolution crystal structure of a HIT family protein from Bacillus anthracis str. 'Ames Ancestor' A0A6L7HN72 A0A6L7HN72 2.01 X-RAY DIFFRACTION 251 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 140 142 3imi-a1-m1-cB_3imi-a1-m1-cA TADNCIFCKIIDGQILCSKVYEDEHVLAFLDISQVTKGHTLVIPKVHKQDIFALTPEIASHIFSVVPKIANAIKAEFNPVGFNLLNNNGEKAGQTVFHFHLHLIPRYGENDGFGAVWKSHQNEYTENLQNIASTIANSVK NHTADNCIFCKIIDGQILCSKVYEDEHVLAFLDISQVTKGHTLVIPKVHKQDIFALTPEIASHIFSVVPKIANAIKAEFNPVGFNLLNNNGEKAGQTVFHFHLHLIPRYGENDGFGAVWKSHQNEYTENLQNIASTIANSVK 3iml-a2-m1-cD_3iml-a2-m1-cC Crystal Structure Of S-Adenosylmethionine Synthetase From Burkholderia Pseudomallei Q63YH5 Q63YH5 2.35 X-RAY DIFFRACTION 182 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 311 343 3iml-a1-m1-cB_3iml-a1-m1-cA YLFTSESVSEGHPDKVADQISDAILDAILAQDKYSRVAAETLCNTGLVVLAGEITTTANIDYIQIARDTIKRIGYGCAVLVAYDKQQGLMFGYACDETPELMPLPIHLSHRLVERQANLRRDGRLPWLRPDAKSQVTVRYVDGKPHSIDTVVLSTQHAPEIDLPALREAVIEEVIKPTLPADLIKGDIKFLVNPTGRFVIGGPQGDCGLTGRKIIVDTYGGAAPHGGGAFSGKDPSKVDRSAAYAGRYVAKNIVAAGLASRALIQVSYAFDLRPKGIIQMLDLLRPIYEKTAAYGHFGREEPEFSWEAADK DYLFTSESVSEGHPDKVADQISDAILDAILAQDKYSRVAAETLCNTGLVVLAGEITTTANIDYIQIARDTIKRIGYGCAVLVAYDKQSLDQGAGDQGLMFGYACDETPELMPLPIHLSHRLVERQANLRRDGRLPWLRPDAKSQVTVRYVDGKPHSIDTVVLSTQHAPEIDLPALREAVIEEVIKPTLPADLIKGDIKFLVNPTGRFVIGGPQGDCGLTGRKIIVDTYGGAAPHGGGAFSGKDPSKVDRSAAYAGRYVAKNIVAAGLASRALIQVSYAIGVAEPTSVMVNTFTITKLVREHFDLRPKGIIQMLDLLRPIYEKTAAYGHFGREEPEFSWEAADK 3imo-a2-m1-cB_3imo-a2-m1-cD Structure from the mobile metagenome of Vibrio cholerae. Integron cassette protein VCH_CASS14 C7U313 C7U313 1.8 X-RAY DIFFRACTION 91 0.981 45888 (Vibrio cholerae O139) 45888 (Vibrio cholerae O139) 105 112 3imo-a1-m1-cC_3imo-a1-m1-cA HMALTVKDVNILSQYISGVMARADHHAGNVEEIALALAGAILWRKDDTNIKVMAKNVLWVTINGERYAFSYNHSSEKIEMRKGNTIHEFDNSTPLSKLVEIFKGL ALTVKDVNILSQYISGVMARADHHAGNVEEIALALAGAILWRKDDTNIKVMAHGADTKNVLWVTINGERYAFSYNHSSEKIEMRKGNIQGNTIHEFDNSTPLSKLVEIFKGL 3imp-a7-m1-cA_3imp-a7-m1-cK New crystal form of the C-terminal domain of Helicobacter pylori MotB (residues 125-256) P56427 P56427 2.5 X-RAY DIFFRACTION 14 0.992 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 131 131 3imp-a7-m1-cG_3imp-a7-m1-cI GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEF GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN 3imp-a7-m1-cE_3imp-a7-m1-cI New crystal form of the C-terminal domain of Helicobacter pylori MotB (residues 125-256) P56427 P56427 2.5 X-RAY DIFFRACTION 13 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 132 132 3imp-a7-m1-cA_3imp-a7-m1-cC GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN 3imp-a7-m1-cI_3imp-a7-m1-cC New crystal form of the C-terminal domain of Helicobacter pylori MotB (residues 125-256) P56427 P56427 2.5 X-RAY DIFFRACTION 16 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 132 133 3imp-a7-m1-cA_3imp-a7-m1-cE GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFN GIDPFTFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNP 3in1-a2-m1-cB_3in1-a2-m3-cA Crystal structure of a putative Ribokinase in complex with ADP from E.coli P77493 P77493 2.15 X-RAY DIFFRACTION 121 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 306 306 3h49-a3-m2-cB_3h49-a3-m1-cA 3in1-a1-m1-cA_3in1-a1-m2-cB NLDVICIGAAIVDIPLQPVSKNIFDVDSYPLERIATTGGDAINEATIISRLGHRTALSRIGKDAAGQFILDHCRKENIDIQSLKQDVSIDTSINVGLVTEDGERTFVTNRNGSLWKLNIDDVDFARFSQAKLLSLASIFNSPLLDGKALTEIFTQAKARQIICADIKPRLNETLDDICEALSYVDYLFPNFAEAKLLTGKETLDEIADCFLACGVKTVVIKTGKDGCFIKRGDTKVPAVAGITAIDTIGAGDNFASGFIAALLEGKNLRECARFANATAAISVLSVGATTGVKNRKLVEQLLEEYE NLDVICIGAAIVDIPLQPVSKNIFDVDSYPLERIATTGGDAINEATIISRLGHRTALSRIGKDAAGQFILDHCRKENIDIQSLKQDVSIDTSINVGLVTEDGERTFVTNRNGSLWKLNIDDVDFARFSQAKLLSLASIFNSPLLDGKALTEIFTQAKARQIICADIKPRLNETLDDICEALSYVDYLFPNFAEAKLLTGKETLDEIADCFLACGVKTVVIKTGKDGCFIKRGDTKVPAVAGITAIDTIGAGDNFASGFIAALLEGKNLRECARFANATAAISVLSVGATTGVKNRKLVEQLLEEYE 3in6-a1-m1-cA_3in6-a1-m1-cB Crystal structure of a fmn-binding protein (swol_0183) from syntrophomonas wolfei subsp. wolfei at 2.12 A resolution Q0B0G9 Q0B0G9 2.12 X-RAY DIFFRACTION 87 1.0 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 143 143 GLESVRKEWLEIDRELLEKARSLINANYISTTLSTVDRNYEVNIAVISVLEIGDDTIICARFGADKTYANLKETGKGVFVLLTDNDKSKDGIRVYVELSADLQEGEYFDRIKKRLDNTTYKNFPLKNCLVFKIVKILPVSLLR GLESVRKEWLEIDRELLEKARSLINANYISTTLSTVDRNYEVNIAVISVLEIGDDTIICARFGADKTYANLKETGKGVFVLLTDNDKSKDGIRVYVELSADLQEGEYFDRIKKRLDNTTYKNFPLKNCLVFKIVKILPVSLLR 3in9-a2-m1-cA_3in9-a2-m2-cA Crystal structure of heparin lyase I complexed with disaccharide heparin Q89YQ6 Q89YQ6 2 X-RAY DIFFRACTION 61 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 373 373 TKNTQTLMPLTERVNVQADSARINQIIDGCWVAVGTNKPHAIQRDFTNLFDGKPSYRFELKTEDNTLEGYAKGETKGRAEFSYCYATSDDFKGLPADVYQKAQITKTVYHHGKGACPQGSSRDYEFSVYIPSSLDSNVSTIFAQWHGMPDRTLVQTPQGEVKKLTVDEFVELEKTTFFKKNAGHEKVVRLDKQGNPMKDKNGKPVYKAGKLNGWLVEQGGYPPLAFGFSGGLFYIKANSDRKWLTDKDDRCNANPGKTPVMKPLTSEYKASTIAYKLPFADFPKDCWITFRVHIDWTVYGKEAETIVKPGMLDVRMDYQEQGKKVSKHIVNNEKILIGRNDEDGYYFKFGIYRVGDSTVPVCYNLAGYSERLE TKNTQTLMPLTERVNVQADSARINQIIDGCWVAVGTNKPHAIQRDFTNLFDGKPSYRFELKTEDNTLEGYAKGETKGRAEFSYCYATSDDFKGLPADVYQKAQITKTVYHHGKGACPQGSSRDYEFSVYIPSSLDSNVSTIFAQWHGMPDRTLVQTPQGEVKKLTVDEFVELEKTTFFKKNAGHEKVVRLDKQGNPMKDKNGKPVYKAGKLNGWLVEQGGYPPLAFGFSGGLFYIKANSDRKWLTDKDDRCNANPGKTPVMKPLTSEYKASTIAYKLPFADFPKDCWITFRVHIDWTVYGKEAETIVKPGMLDVRMDYQEQGKKVSKHIVNNEKILIGRNDEDGYYFKFGIYRVGDSTVPVCYNLAGYSERLE 3ing-a1-m1-cA_3ing-a1-m2-cA Crystal structure of Homoserine dehydrogenase (NP_394635.1) from THERMOPLASMA ACIDOPHILUM at 1.95 A resolution Q9HIZ7 Q9HIZ7 1.95 X-RAY DIFFRACTION 118 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 311 311 KEIRIILGTGNVGLNVLRIIDASNRRRFSIKVVGVSDSRSYASGRNLDISSIISNKEKTGRISDRAFSGPEDLGEAADLLVDCTPASRDGVREYSLYRAFESGNVVTANKSGLANKWHDIDSANQNSKYIRYEATVAGGVPLFSVLDYSILPSKVKRFRGIVSSTINYVIRNANGRSLRDVVDDAIKKGIAESNPQDDLNGLDAARKSVILVNHIFGTEYTLNDVEYSGVDERSYNANDRLVTEVYVDDRRPVAVSRIISLNKDDFLSIGDGLGYQIETDSNGTVNVSDIYDGPYETAGAVVNDILLLSKV KEIRIILGTGNVGLNVLRIIDASNRRRFSIKVVGVSDSRSYASGRNLDISSIISNKEKTGRISDRAFSGPEDLGEAADLLVDCTPASRDGVREYSLYRAFESGNVVTANKSGLANKWHDIDSANQNSKYIRYEATVAGGVPLFSVLDYSILPSKVKRFRGIVSSTINYVIRNANGRSLRDVVDDAIKKGIAESNPQDDLNGLDAARKSVILVNHIFGTEYTLNDVEYSGVDERSYNANDRLVTEVYVDDRRPVAVSRIISLNKDDFLSIGDGLGYQIETDSNGTVNVSDIYDGPYETAGAVVNDILLLSKV 3ink-a1-m1-cC_3ink-a1-m1-cD UNRAVELING THE STRUCTURE OF INTERLEUKIN-2: REPLY P60568 P60568 2.5 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 STKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEVLNLAQSKNFHLRPRDLISNINVIVLELKCEYADETATIVEFLNRWITFAQSIISTLT STKKTQLQLEHLLLDLQMILNGINNYKNPKLTRMLTFKFYMPKKATELKHLQCLEEELKPLEEVLNLAQSKNFHLRPRDLISNINVIVLELKCEYADETATIVEFLNRWITFAQSIISTLT 3inn-a1-m1-cD_3inn-a1-m1-cA Crystal structure of pantoate-beta-alanine-ligase in complex with ATP at low occupancy at 2.1 A resolution Q8YFC9 Q8YFC9 2.1 X-RAY DIFFRACTION 71 0.986 29459 (Brucella melitensis) 29459 (Brucella melitensis) 277 283 3inn-a1-m1-cB_3inn-a1-m1-cC SMQIIHTIEELRQALAPARQQGKKIGFVPTMGYLHKGHLELVRRARVENDVTLVSIFVNPLQFGANDLERDAGLLHDAQVDYLFAPTVSDMYPRPMQTVVDVPPLGNQIEGEPGHFAGVATVVSKLFNIVGPDAAYFGEKDFQQLVIIRRMVDDMAIPVRIVGVETVREDDGLACSSRNVYLTPEQRRAAIIVPQALDEADRLYRSGMDDPDALEAAIRTFIGRQPLAVPEVIAIRDPETLERLPALQGRPILVALFVRVGATRLLDNRVIGHAAPQ SMQIIHTIEELRQALAPARQQGKKIGFVPTMGYLHKGHLELVRRARVENDVTLVSIFVNPLQFGANEDLGRYPRDLERDAGLLHDAQVDYLFAPTVSDMYPRPMQTVVDVPPLGNQIEGEARPGHFAGVATVVSKLFNIVGPDAAYFGEKDFQQLVIIRRMVDDMAIPVRIVGVETVREDDGLACSSRNVYLTPEQRRAAIIVPQALDEADRLYRSGMDDPDALEAAIRTFIGRQPLAVPEVIAIRDPETLERLPALQGRPILVALFVRVGATRLLDNRVIGH 3inn-a1-m1-cD_3inn-a1-m1-cC Crystal structure of pantoate-beta-alanine-ligase in complex with ATP at low occupancy at 2.1 A resolution Q8YFC9 Q8YFC9 2.1 X-RAY DIFFRACTION 47 0.989 29459 (Brucella melitensis) 29459 (Brucella melitensis) 277 284 3inn-a1-m1-cB_3inn-a1-m1-cA SMQIIHTIEELRQALAPARQQGKKIGFVPTMGYLHKGHLELVRRARVENDVTLVSIFVNPLQFGANDLERDAGLLHDAQVDYLFAPTVSDMYPRPMQTVVDVPPLGNQIEGEPGHFAGVATVVSKLFNIVGPDAAYFGEKDFQQLVIIRRMVDDMAIPVRIVGVETVREDDGLACSSRNVYLTPEQRRAAIIVPQALDEADRLYRSGMDDPDALEAAIRTFIGRQPLAVPEVIAIRDPETLERLPALQGRPILVALFVRVGATRLLDNRVIGHAAPQ SMQIIHTIEELRQALAPARQQGKKIGFVPTMGYLHKGHLELVRRARVENDVTLVSIFVNPLQFGANEDLGRYPRDLERDAGLLHDAQVDYLFAPTVSDMYPRPMQTVVDVPPLGNQIEGEARPGHFAGVATVVSKLFNIVGPDAAYFGEKDFQQLVIIRRMVDDMAIPVRIVGVETVREDDGLACSSRNVYLTPEQRRAAIIVPQALDEADRLYRSGMDDPDALEAAIRTFIGRQPLAVPEVIAIRDPETLERLPALQGRPILVALFVRVGATRLLDNRVIGHA 3inp-a1-m12-cA_3inp-a1-m9-cA 2.05 Angstrom Resolution Crystal Structure of D-ribulose-phosphate 3-epimerase from Francisella tularensis. Q5NGP6 Q5NGP6 2.05 X-RAY DIFFRACTION 42 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 218 218 3inp-a1-m10-cA_3inp-a1-m4-cA 3inp-a1-m11-cA_3inp-a1-m2-cA 3inp-a1-m1-cA_3inp-a1-m7-cA 3inp-a1-m3-cA_3inp-a1-m6-cA 3inp-a1-m5-cA_3inp-a1-m8-cA HIQINPSILSADLARLGDDVKAVLAAGADNIHFDVMDNHYVPNLTFGPMVLKALRDYGITAGMDVHLMVKPVDALIESFAKAGATSIVFHPEASEHIDRSLQLIKSFGIQAGLALNPATGIDCLKYVESNIDRVLIMSVNPGFQKFIPAMLDKAKEISKWISSTDRDILLEIDGGVNPYNIAEIAVCGVNAFVAGSAIFNSDSYKQTIDKMRDELNKV HIQINPSILSADLARLGDDVKAVLAAGADNIHFDVMDNHYVPNLTFGPMVLKALRDYGITAGMDVHLMVKPVDALIESFAKAGATSIVFHPEASEHIDRSLQLIKSFGIQAGLALNPATGIDCLKYVESNIDRVLIMSVNPGFQKFIPAMLDKAKEISKWISSTDRDILLEIDGGVNPYNIAEIAVCGVNAFVAGSAIFNSDSYKQTIDKMRDELNKV 3inp-a3-m6-cA_3inp-a3-m8-cA 2.05 Angstrom Resolution Crystal Structure of D-ribulose-phosphate 3-epimerase from Francisella tularensis. Q5NGP6 Q5NGP6 2.05 X-RAY DIFFRACTION 38 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 218 218 3inp-a1-m10-cA_3inp-a1-m5-cA 3inp-a1-m10-cA_3inp-a1-m9-cA 3inp-a1-m11-cA_3inp-a1-m3-cA 3inp-a1-m11-cA_3inp-a1-m4-cA 3inp-a1-m12-cA_3inp-a1-m2-cA 3inp-a1-m12-cA_3inp-a1-m7-cA 3inp-a1-m1-cA_3inp-a1-m6-cA 3inp-a1-m1-cA_3inp-a1-m8-cA 3inp-a1-m2-cA_3inp-a1-m7-cA 3inp-a1-m3-cA_3inp-a1-m4-cA 3inp-a1-m5-cA_3inp-a1-m9-cA 3inp-a1-m6-cA_3inp-a1-m8-cA 3inp-a2-m13-cA_3inp-a2-m14-cA 3inp-a2-m13-cA_3inp-a2-m15-cA 3inp-a2-m14-cA_3inp-a2-m15-cA 3inp-a2-m1-cA_3inp-a2-m6-cA 3inp-a2-m1-cA_3inp-a2-m8-cA 3inp-a2-m6-cA_3inp-a2-m8-cA 3inp-a3-m1-cA_3inp-a3-m6-cA 3inp-a3-m1-cA_3inp-a3-m8-cA HIQINPSILSADLARLGDDVKAVLAAGADNIHFDVMDNHYVPNLTFGPMVLKALRDYGITAGMDVHLMVKPVDALIESFAKAGATSIVFHPEASEHIDRSLQLIKSFGIQAGLALNPATGIDCLKYVESNIDRVLIMSVNPGFQKFIPAMLDKAKEISKWISSTDRDILLEIDGGVNPYNIAEIAVCGVNAFVAGSAIFNSDSYKQTIDKMRDELNKV HIQINPSILSADLARLGDDVKAVLAAGADNIHFDVMDNHYVPNLTFGPMVLKALRDYGITAGMDVHLMVKPVDALIESFAKAGATSIVFHPEASEHIDRSLQLIKSFGIQAGLALNPATGIDCLKYVESNIDRVLIMSVNPGFQKFIPAMLDKAKEISKWISSTDRDILLEIDGGVNPYNIAEIAVCGVNAFVAGSAIFNSDSYKQTIDKMRDELNKV 3inp-a4-m1-cA_3inp-a4-m15-cA 2.05 Angstrom Resolution Crystal Structure of D-ribulose-phosphate 3-epimerase from Francisella tularensis. Q5NGP6 Q5NGP6 2.05 X-RAY DIFFRACTION 88 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 218 218 3inp-a2-m13-cA_3inp-a2-m6-cA 3inp-a2-m14-cA_3inp-a2-m8-cA 3inp-a2-m1-cA_3inp-a2-m15-cA HIQINPSILSADLARLGDDVKAVLAAGADNIHFDVMDNHYVPNLTFGPMVLKALRDYGITAGMDVHLMVKPVDALIESFAKAGATSIVFHPEASEHIDRSLQLIKSFGIQAGLALNPATGIDCLKYVESNIDRVLIMSVNPGFQKFIPAMLDKAKEISKWISSTDRDILLEIDGGVNPYNIAEIAVCGVNAFVAGSAIFNSDSYKQTIDKMRDELNKV HIQINPSILSADLARLGDDVKAVLAAGADNIHFDVMDNHYVPNLTFGPMVLKALRDYGITAGMDVHLMVKPVDALIESFAKAGATSIVFHPEASEHIDRSLQLIKSFGIQAGLALNPATGIDCLKYVESNIDRVLIMSVNPGFQKFIPAMLDKAKEISKWISSTDRDILLEIDGGVNPYNIAEIAVCGVNAFVAGSAIFNSDSYKQTIDKMRDELNKV 3io0-a1-m2-cA_3io0-a1-m3-cA Crystal structure of EtuB from Clostridium kluyveri A5N734 A5N734 3 X-RAY DIFFRACTION 109 1.0 431943 (Clostridium kluyveri DSM 555) 431943 (Clostridium kluyveri DSM 555) 229 229 3io0-a1-m1-cA_3io0-a1-m2-cA 3io0-a1-m1-cA_3io0-a1-m3-cA PTMTEFVGTAGGDTVGLVIANVDSLLHKHLGLDNTCRSIGIISARVGAPAQMMAADEAVKGTNTEVATIELPRDTKGGAGHGIFIVLKAADVSDARRAVEIALKQTDKYLGNVYLCDAGHLEVQYTARASLIFEKAFGAPSGQAFGIMHAAPAGVGMIVADTALKTADVKLITYGSPTNGVLSYTNEILITISGDSGAVLQSLTAARKAGLSILRSMGQDPVSMSKPTF PTMTEFVGTAGGDTVGLVIANVDSLLHKHLGLDNTCRSIGIISARVGAPAQMMAADEAVKGTNTEVATIELPRDTKGGAGHGIFIVLKAADVSDARRAVEIALKQTDKYLGNVYLCDAGHLEVQYTARASLIFEKAFGAPSGQAFGIMHAAPAGVGMIVADTALKTADVKLITYGSPTNGVLSYTNEILITISGDSGAVLQSLTAARKAGLSILRSMGQDPVSMSKPTF 3io1-a1-m1-cB_3io1-a1-m2-cB Crystal Structure of Aminobenzoyl-glutamate utilization protein from Klebsiella pneumoniae A6T8P4 A6T8P4 2.5 X-RAY DIFFRACTION 13 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 380 380 3io1-a1-m1-cA_3io1-a1-m2-cA LQLDEYLRQLAPSTQWRRDFHLHAESGWLEFRTASKVADILDGLGYQLALGRDVIDADSRGLPDEETLARAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDDALDLDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAVAAGVVDDVDYFTAIHIGTGVPAGTVVCGGDNFATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALGLHAIPPHSAGASRVNVGVQAGTGRNVVPSSALLKVETRGESEAINQYVFERAQHVVAGAAAYEARYELRGAATASAPSPAWVDYLREQAARVPGVQQAVDRIAAPAGSEDATLARVQARGGLASYIFGTESVAVAVETLARVALNFPWQRGV LQLDEYLRQLAPSTQWRRDFHLHAESGWLEFRTASKVADILDGLGYQLALGRDVIDADSRGLPDEETLARAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDDALDLDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAVAAGVVDDVDYFTAIHIGTGVPAGTVVCGGDNFATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALGLHAIPPHSAGASRVNVGVQAGTGRNVVPSSALLKVETRGESEAINQYVFERAQHVVAGAAAYEARYELRGAATASAPSPAWVDYLREQAARVPGVQQAVDRIAAPAGSEDATLARVQARGGLASYIFGTESVAVAVETLARVALNFPWQRGV 3io1-a1-m2-cB_3io1-a1-m1-cA Crystal Structure of Aminobenzoyl-glutamate utilization protein from Klebsiella pneumoniae A6T8P4 A6T8P4 2.5 X-RAY DIFFRACTION 55 0.995 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 380 384 3io1-a1-m1-cB_3io1-a1-m2-cA LQLDEYLRQLAPSTQWRRDFHLHAESGWLEFRTASKVADILDGLGYQLALGRDVIDADSRGLPDEETLARAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDDALDLDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAVAAGVVDDVDYFTAIHIGTGVPAGTVVCGGDNFATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALGLHAIPPHSAGASRVNVGVQAGTGRNVVPSSALLKVETRGESEAINQYVFERAQHVVAGAAAYEARYELRGAATASAPSPAWVDYLREQAARVPGVQQAVDRIAAPAGSEDATLARVQARGGLASYIFGTESVAVAVETLARVALNFPWQRGV LQLDEYLRQLAPSTQWRRDFHLHAESGWLEFRTASKVADILDGLGYQLALGRDVIDADSRGLPDEETLARAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDDALDLCGHDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAVAAGVVDDVDYFTAIHIGTGVPAGTVVCGGDNFATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALGLHAIPPHSAGASRVNVGVQAGTGRNVVPSSALLKVETRGESEAINQYVFERAQHVVAGAAAYEARYELRGAATASAPSPAWVDYLREQAARVPGVQQAVDRIAAPAGSEDATLARVQARGGLASYIFGTELDESVAVAVETLARVALNFPWQR 3io1-a1-m2-cB_3io1-a1-m2-cA Crystal Structure of Aminobenzoyl-glutamate utilization protein from Klebsiella pneumoniae A6T8P4 A6T8P4 2.5 X-RAY DIFFRACTION 106 0.995 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 380 384 3io1-a1-m1-cB_3io1-a1-m1-cA LQLDEYLRQLAPSTQWRRDFHLHAESGWLEFRTASKVADILDGLGYQLALGRDVIDADSRGLPDEETLARAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDDALDLDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAVAAGVVDDVDYFTAIHIGTGVPAGTVVCGGDNFATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALGLHAIPPHSAGASRVNVGVQAGTGRNVVPSSALLKVETRGESEAINQYVFERAQHVVAGAAAYEARYELRGAATASAPSPAWVDYLREQAARVPGVQQAVDRIAAPAGSEDATLARVQARGGLASYIFGTESVAVAVETLARVALNFPWQRGV LQLDEYLRQLAPSTQWRRDFHLHAESGWLEFRTASKVADILDGLGYQLALGRDVIDADSRGLPDEETLARAFERAREQGAPERWLPAFEGGFAGVVATLDTGRPGPTLAFRVDDALDLCGHDGHTAIGLGLAHVLKQYAAQLNGVIKLIFQPAEEGTRGARAVAAGVVDDVDYFTAIHIGTGVPAGTVVCGGDNFATTKFDVQFSGVAAHAGGKPEDGRNALLAAAQAALGLHAIPPHSAGASRVNVGVQAGTGRNVVPSSALLKVETRGESEAINQYVFERAQHVVAGAAAYEARYELRGAATASAPSPAWVDYLREQAARVPGVQQAVDRIAAPAGSEDATLARVQARGGLASYIFGTELDESVAVAVETLARVALNFPWQR 3io3-a2-m1-cA_3io3-a2-m2-cA GEt3 with ADP from D. Hansenii in Closed form Q6BSM0 Q6BSM0 1.8 X-RAY DIFFRACTION 110 1.0 4959 (Debaryomyces hansenii) 4959 (Debaryomyces hansenii) 230 230 DLELEPTLESIVQHDSLKWIFVGGKGGVGKTTTSSSVAVQLALAQPNEQFLLISTDPAHNLSDAFCQKFGKDARKVEGLPNLSCMEIDPYKTIIFDTAPTGHTLRFLQSEVNEQFTNPELTTFICVCISEFLSLYETERMIQELMSYNMDVNSIVVNQLLFAECKRCESRWKMQKKYLDQMGELYEDYHLVKMPLLGCEIRGVENLKKFSKFLLKPYDPKADSDIVFDLE DLELEPTLESIVQHDSLKWIFVGGKGGVGKTTTSSSVAVQLALAQPNEQFLLISTDPAHNLSDAFCQKFGKDARKVEGLPNLSCMEIDPYKTIIFDTAPTGHTLRFLQSEVNEQFTNPELTTFICVCISEFLSLYETERMIQELMSYNMDVNSIVVNQLLFAECKRCESRWKMQKKYLDQMGELYEDYHLVKMPLLGCEIRGVENLKKFSKFLLKPYDPKADSDIVFDLE 3io5-a1-m1-cA_3io5-a1-m1-cB Crystal Structure of a dimeric form of the uvsX Recombinase core domain from Enterobacteria Phage T4 P04529 P04529 2.4 X-RAY DIFFRACTION 82 0.993 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 271 272 VVRTKIPMMNIALSGEITGGMQSGLLILAGPSKSFKSNFGLTMVSSYMRQYPDAVCLFYDSEFGITPAYLRSMGVDPERVIHTPVQSLEQLRIDMVNQLDAIERGEKVVVFIDSLGNLASKMTRAKTMKSLFRIVTPYFSTKNIPCIAINHTTGPMYSADTVFIIGKRYQFVLNVEKSRTVKEKSKFFIDVKFDGGIDPYSGLLDMALELGFVVKPKNGWYAREFLDEETGEMIREEKSWRAKDTNCTTFWGPLFKHQPFRDAIKRAYQLG VVRTKIPMMNIALSGEITGGMQSGLLILAGPSKSFKSNFGLTMVSSYMRQYPDAVCLFYDSEFGITPAYLRSMGVDPERVIHTPVQSLEQLRIDMVNQLDAIERGEKVVVFIDSLGNLASKTRAKTMKSLFRIVTPYFSTKNIPCIAINHTYTGPMYSADTVFIIGKRQFVLNVEKSRTVKEKSKFFIDVKFDGGIDPYSGLLDMALELGFVVKPKNGWYAREFLDEETGEMIREEKSWRAKDTNCTTFWGPLFKHQPFRDAIKRAYQLGAI 3ioy-a1-m1-cB_3ioy-a1-m1-cA Structure of putative short-chain dehydrogenase (Saro_0793) from Novosphingobium aromaticivorans Q2GA85 Q2GA85 1.9 X-RAY DIFFRACTION 225 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 270 277 FAGRTAFVTGGANGVGIGLVRQLLNQGCKVAIADIRQDSIDKALATLEAESGPEVMGVQLDVASREGFKMAADEVEARFGPVSILCNNAGVNLFQPIEESSYDDWDWLLGVNLHGVVNGVTTFVPRMVERVKAGEQKGGHVVNTASMAAFLAAGSPGIYNTTKFAVRGLSESLHYSLLKYEIGVSVLCPGLVKHEFGMEPDVIGARVIEAMKANRLHIFSHPDHKEELREVFDEIIAEYQDYPKDPGYDQRVAFEKFRADSFAEARRQSR LKDFAGRTAFVTGGANGVGIGLVRQLLNQGCKVAIADIRQDSIDKALATLEAEGSGPEVMGVQLDVASREGFKMAADEVEARFGPVSILCNNAGVNLFQPIEESSYDDWDWLLGVNLHGVVNGVTTFVPRMVERVKAGEQKGGHVVNTASMAAFLAAGSPGIYNTTKFAVRGLSESLHYSLLKYEIGVSVLCPGLVKAGVHEFGMEPDVIGARVIEAMKANRLHIFSHPDHKEELREVFDEIIAEYQDYPKDPGYDQRVAFEKFRADSFAEARRQSR 3ip0-a2-m1-cA_3ip0-a2-m2-cA Crystal structure of E. coli HPPK in complex with MgAMPCPP and 6-hydroxymethylpterin/6-carboxypterin P26281 P26281 0.89 X-RAY DIFFRACTION 19 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 158 158 TVAYIAIGSNLASPLEQVNAALKALGDIPESHILTVSSFYRTPPLGPQDQPDYLNAAVALETSLAPEELLNHTQRIELQQGRVRKAERWGPRTLDLDIMLFGNEVINTERLTVPHYDMKNRGFMLWPLFEIAPELVFPDGEMLRQILHTRAFDKLNKW TVAYIAIGSNLASPLEQVNAALKALGDIPESHILTVSSFYRTPPLGPQDQPDYLNAAVALETSLAPEELLNHTQRIELQQGRVRKAERWGPRTLDLDIMLFGNEVINTERLTVPHYDMKNRGFMLWPLFEIAPELVFPDGEMLRQILHTRAFDKLNKW 3ip1-a1-m1-cA_3ip1-a1-m1-cD Structure of putative alcohol dehydrogenase (TM_042) from Thermotoga maritima Q9WYP3 Q9WYP3 2.09 X-RAY DIFFRACTION 98 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 389 389 3ip1-a1-m1-cC_3ip1-a1-m1-cB SLRAVRLHAKWDPRPEFKLGPKDIEGKLTWLGSKVWRYPEVRVEEVPEPRIEKPTEIIIKVKACGICGSDVHAQTDEEGYILYPGLTGFPVTLGHEFSGVVVEAGPEAINRRTNKRFEIGEPVCAEELWCGHCRPCAEGFPNHCENLNELGFNVDGAFAEYVKVDAKYAWSLRELEGVYEGDRLFLAGSLVEPTSVAYNAVIVRGGGIRPGDNVVILGGGPIGLAAVAILKHAGASKVILSEPSEVRRNLAKELGADHVIDPTKENFVEAVLDYTNGLGAKLFLEATGVPQLVWPQIEEVIWRARGINATVAIVARADAKIPLTGEVFQVRRAQIVGSQGHSGHGTFPRVISLASGDTKIISKTVSEEIPEYIKRLQTDKSLVKVTLNE SLRAVRLHAKWDPRPEFKLGPKDIEGKLTWLGSKVWRYPEVRVEEVPEPRIEKPTEIIIKVKACGICGSDVHAQTDEEGYILYPGLTGFPVTLGHEFSGVVVEAGPEAINRRTNKRFEIGEPVCAEELWCGHCRPCAEGFPNHCENLNELGFNVDGAFAEYVKVDAKYAWSLRELEGVYEGDRLFLAGSLVEPTSVAYNAVIVRGGGIRPGDNVVILGGGPIGLAAVAILKHAGASKVILSEPSEVRRNLAKELGADHVIDPTKENFVEAVLDYTNGLGAKLFLEATGVPQLVWPQIEEVIWRARGINATVAIVARADAKIPLTGEVFQVRRAQIVGSQGHSGHGTFPRVISLASGDTKIISKTVSEEIPEYIKRLQTDKSLVKVTLNE 3ip1-a1-m1-cB_3ip1-a1-m1-cD Structure of putative alcohol dehydrogenase (TM_042) from Thermotoga maritima Q9WYP3 Q9WYP3 2.09 X-RAY DIFFRACTION 61 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 389 389 3ip1-a1-m1-cC_3ip1-a1-m1-cA SLRAVRLHAKWDPRPEFKLGPKDIEGKLTWLGSKVWRYPEVRVEEVPEPRIEKPTEIIIKVKACGICGSDVHAQTDEEGYILYPGLTGFPVTLGHEFSGVVVEAGPEAINRRTNKRFEIGEPVCAEELWCGHCRPCAEGFPNHCENLNELGFNVDGAFAEYVKVDAKYAWSLRELEGVYEGDRLFLAGSLVEPTSVAYNAVIVRGGGIRPGDNVVILGGGPIGLAAVAILKHAGASKVILSEPSEVRRNLAKELGADHVIDPTKENFVEAVLDYTNGLGAKLFLEATGVPQLVWPQIEEVIWRARGINATVAIVARADAKIPLTGEVFQVRRAQIVGSQGHSGHGTFPRVISLASGDTKIISKTVSEEIPEYIKRLQTDKSLVKVTLNE SLRAVRLHAKWDPRPEFKLGPKDIEGKLTWLGSKVWRYPEVRVEEVPEPRIEKPTEIIIKVKACGICGSDVHAQTDEEGYILYPGLTGFPVTLGHEFSGVVVEAGPEAINRRTNKRFEIGEPVCAEELWCGHCRPCAEGFPNHCENLNELGFNVDGAFAEYVKVDAKYAWSLRELEGVYEGDRLFLAGSLVEPTSVAYNAVIVRGGGIRPGDNVVILGGGPIGLAAVAILKHAGASKVILSEPSEVRRNLAKELGADHVIDPTKENFVEAVLDYTNGLGAKLFLEATGVPQLVWPQIEEVIWRARGINATVAIVARADAKIPLTGEVFQVRRAQIVGSQGHSGHGTFPRVISLASGDTKIISKTVSEEIPEYIKRLQTDKSLVKVTLNE 3ip1-a1-m1-cC_3ip1-a1-m1-cD Structure of putative alcohol dehydrogenase (TM_042) from Thermotoga maritima Q9WYP3 Q9WYP3 2.09 X-RAY DIFFRACTION 51 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 388 389 3ip1-a1-m1-cA_3ip1-a1-m1-cB SLRAVRLHAKWDPRPEFKLGPKDIEGKLTWLGSKVWRYPEVRVEEVPEPRIEKPTEIIIKVKACGICGSDVHAQTDEEGYILYPGLTGFPVTLGHEFSGVVVEAGPEAINRRTNKRFEIGEPVCAEELWCGHCRPCAEGFPNHCENLNELGFNVDGAFAEYVKVDAKYAWSLRELEGVYEGDRLFLAGSLVEPTSVAYNAVIVRGGGIRPGDNVVILGGGPIGLAAVAILKHAGASKVILSEPSEVRRNLAKELGADHVIDPTKENFVEAVLDYTNGLGAKLFLEATGVPQLVWPQIEEVIWRARGINATVAIVARADAKIPLTGEVFQVRRAQIVGSQGHSGHGTFPRVISLASGDTKIISKTVSEEIPEYIKRLQTDKSLVKVTLN SLRAVRLHAKWDPRPEFKLGPKDIEGKLTWLGSKVWRYPEVRVEEVPEPRIEKPTEIIIKVKACGICGSDVHAQTDEEGYILYPGLTGFPVTLGHEFSGVVVEAGPEAINRRTNKRFEIGEPVCAEELWCGHCRPCAEGFPNHCENLNELGFNVDGAFAEYVKVDAKYAWSLRELEGVYEGDRLFLAGSLVEPTSVAYNAVIVRGGGIRPGDNVVILGGGPIGLAAVAILKHAGASKVILSEPSEVRRNLAKELGADHVIDPTKENFVEAVLDYTNGLGAKLFLEATGVPQLVWPQIEEVIWRARGINATVAIVARADAKIPLTGEVFQVRRAQIVGSQGHSGHGTFPRVISLASGDTKIISKTVSEEIPEYIKRLQTDKSLVKVTLNE 3ip3-a3-m1-cE_3ip3-a3-m1-cF Structure of putative oxidoreductase (TM_0425) from Thermotoga maritima Q9WYQ6 Q9WYQ6 2.14 X-RAY DIFFRACTION 137 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 323 325 3ip3-a1-m1-cA_3ip3-a1-m1-cB 3ip3-a2-m1-cD_3ip3-a2-m1-cC 3ip3-a4-m1-cG_3ip3-a4-m1-cH SLKICVIGSSGHFRYALEGLDEECSITGIAPGVPEEDLSKLEKAISENIKPKKYNNWWELEKEKPDILVINTVFSLNGKILLEALERKIHAFVEKPIATTFEDLEKIRSVYQKVRNEVFFTAFGIRYRPHFLTAKKLVSEGAVGEIRLVNTQKSYKLGQRPDFYKKRETYGGTIPWVGIHAIDWIHWITGKKFLSVYATHSRLHNSGHGELETTALCHFTLENEVFASLSIDYLRPQGAPTHDDDRRIVGTRGIVEVINERVFLTDEKGHREVPLVEKGQIFEDFLREIRGQGKCVTPEDSILTTEIALKARLSADTGQIVLI SLKICVIGSSGHFRYALEGLDEECSITGIAPGVPEEDLSKLEKAISENIKPKKYNNWWELEKEKPDILVINTVFSLNGKILLEALERKIHAFVEKPIATTFEDLEKIRSVYQKVRNEVFFTAFGIRYRPHFLTAKKLVSEGAVGEIRLVNTQKSYKLGQRPDFYKKRETYGGTIPWVGIHAIDWIHWITGKKFLSVYATHSRLHNSGHGELETTALCHFTLENEVFASLSIDYLRPQGAPTHDDDRRIVGTRGIVEVINERVFLTDEKGHREVPLVEKGQIFEDFLREIRGQGKCVTPEDSILTTEIALKARLSADTGQIVLIEG 3ipf-a1-m1-cB_3ipf-a1-m1-cA Crystal structure of the Q251Q8_DESHY protein from Desulfitobacterium hafniense. Northeast Structural Genomics Consortium Target DhR8c. Q251Q8 Q251Q8 1.988 X-RAY DIFFRACTION 54 1.0 138119 (Desulfitobacterium hafniense Y51) 138119 (Desulfitobacterium hafniense Y51) 65 69 2kyi-a1-m1-cA_2kyi-a1-m1-cB NRQFLSLTGVSKVQSFDPKEILLETIQGVLSIKGEKLGIKHLDLKAGQVEVEGLIDALVYPLEHH NRQFLSLTGVSKVQSFDPKEILLETIQGVLSIKGEKLGIKHLDLKAGQVEVEGLIDALVYPLEHHHHHH 3ipi-a1-m1-cA_3ipi-a1-m2-cA Crystal Structure of a Geranyltranstransferase from the Methanosarcina mazei Q8PYS1 Q8PYS1 1.9 X-RAY DIFFRACTION 129 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 261 261 NIEEWEEYRYVEAGIKESITLIEDPGLKKVEHVCHSGGKRIRPIILLLVSEICSGSYSRSLNAALAVEHSASLIHDDLLDQGLVRRNLPSAPEKFGPSGALLCGDYLIAKSIAFISPYGEKVIQDFGKAGDAEGEVLDLKENDYFKCIYKKTASLFAISASIGAYTGGAEEELAERFSHFGNALGTAYQIVDDILEFLEVVEGETLPHIYKSTSKEEALKKSIDCVKLHVAAAKETLETFRECPARDKLFQITDYITVDLE NIEEWEEYRYVEAGIKESITLIEDPGLKKVEHVCHSGGKRIRPIILLLVSEICSGSYSRSLNAALAVEHSASLIHDDLLDQGLVRRNLPSAPEKFGPSGALLCGDYLIAKSIAFISPYGEKVIQDFGKAGDAEGEVLDLKENDYFKCIYKKTASLFAISASIGAYTGGAEEELAERFSHFGNALGTAYQIVDDILEFLEVVEGETLPHIYKSTSKEEALKKSIDCVKLHVAAAKETLETFRECPARDKLFQITDYITVDLE 3ipn-a1-m1-cB_3ipn-a1-m1-cC Crystal Structure of fluorine and methyl modified collagen: (mepFlpgly)7 1.21 X-RAY DIFFRACTION 11 1.0 6 6 3ipn-a1-m1-cA_3ipn-a1-m1-cC 3ipn-a2-m1-cE_3ipn-a2-m1-cF GGGGGG GGGGGG 3ipn-a2-m1-cD_3ipn-a2-m1-cE Crystal Structure of fluorine and methyl modified collagen: (mepFlpgly)7 1.21 X-RAY DIFFRACTION 11 1.0 6 6 GGGGGG GGGGGG 3ipn-a2-m1-cD_3ipn-a2-m1-cF Crystal Structure of fluorine and methyl modified collagen: (mepFlpgly)7 1.21 X-RAY DIFFRACTION 11 1.0 6 6 3ipn-a1-m1-cA_3ipn-a1-m1-cB GGGGGG GGGGGG 3ipo-a2-m1-cA_3ipo-a2-m1-cB Crystal structure of YnjE P78067 P78067 2.4 X-RAY DIFFRACTION 52 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 410 415 3ipo-a1-m1-cA_3ipo-a1-m1-cB AELAKPLTLDQLQQQNGKAIDTRPSAFYNGWPQTLNGPSGHELAALNLSASWLDKMSTEQLNAWIKQHNLKTDAPVALYGNDKDVDAVKTRLQKAGLTHISILSDALSEPSRLQKLPHFEQLVYPQWLHDLQQGKEVTAKPAGDWKVIEAAWGAPKLYLISHIPGADYIDTNEVESEPLWNKVSDEQLKAMLAKHGIRHDTTVILYGRDVYAAARVAQIMLYAGVKDVRLLDGGWQTWSDAGLPVERGTPPKVKAEPDFGVKIPAQPQLMLDMEQARGLLHRQDASLVSIRSWPEFIGTTSGYSYIKPKGEIAGARWGHAGSDSTHMEDFHNPDGTMRSADDITAMWKAWNIKPEQQVSFYGTGWRASETFMYARAMGWKNVSVYDGGWYEWSSDPKNPVATGERGPSSK SSWAAELAKPLTLDQLQQQNGKAIDTRPSAFYNGWPQTLNGPSGHELAALNLSASWLDKMSTEQLNAWIKQHNLKTDAPVALYGNDKDVDAVKTRLQKAGLTHISILSDALSEPSRLQKLPHFEQLVYPQWLHDLQQGKEVTAKPAGDWKVIEAAWGAPKLYLISHIPGADYIDTNEVESEPLWNKVSDEQLKAMLAKHGIRHDTTVILYGRDVYAAARVAQIMLYAGVKDVRLLDGGWQTWSDAGLPVERGTPPKVKAEPDFGVKIPAQPQLMLDMEQARGLLHRQDASLVSIRSWPEFIGTTSGYSYIKPKGEIAGARWGHAGSDSTHMEDFHNPDGTMRSADDITAMWKAWNIKPEQQVSFYGTGWRASETFMYARAMGWKNVSVYDGGWYEWSSDPKNPVATGERGPDSSK 3ipr-a1-m1-cA_3ipr-a1-m1-cB Crystal structure of the Enterococcus faecalis gluconate specific EIIA phosphotransferase system component Q82ZC8 Q82ZC8 2.5 X-RAY DIFFRACTION 174 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 137 140 3ipr-a2-m1-cC_3ipr-a2-m1-cD 3ipr-a3-m1-cE_3ipr-a3-m1-cF MLGIVIATHGALSDGAKDAATVIMGATENIETVNLNSGDDVQALGGQIKTAIENVQQGDGVLVMVDLLSASPYNQAVLVINELEPALQKKIFVVSGTNLPMVLEAINHQLLGTPIAEAAQAIVAQGKESVQAWDISM MLGIVIATHGALSDGAKDAATVIMGATENIETVNLNSGDDVQALGGQIKTAIENVQQGDGVLVMVDLLSASPYNQAVLVINELEPALQKKIFVVSGTNLPMVLEAINHQLLGTPIAEAAQAIVAQGKESVQAWDISMTSF 3ipz-a2-m2-cA_3ipz-a2-m3-cA Crystal structure of Arabidopsis monothiol glutaredoxin AtGRXcp Q84Y95 Q84Y95 2.4 X-RAY DIFFRACTION 28 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 109 109 3ipz-a2-m1-cA_3ipz-a2-m2-cA 3ipz-a2-m1-cA_3ipz-a2-m3-cA SALTPQLKDTLEKLVNSEKVVLFMKGTRDFPMCGFSNTVVQILKNLNVPFEDVNILENEMLRQGLKEYSNWPTFPQLYIGGEFFGGCDITLEAFKTGELQEEVEKAMCS SALTPQLKDTLEKLVNSEKVVLFMKGTRDFPMCGFSNTVVQILKNLNVPFEDVNILENEMLRQGLKEYSNWPTFPQLYIGGEFFGGCDITLEAFKTGELQEEVEKAMCS 3iq0-a1-m1-cA_3iq0-a1-m1-cB Crystal structure of a putative Ribokinase II in complex with ATP and Mg+2 from E.coli A0A0H2VDX9 A0A0H2VDX9 1.79 X-RAY DIFFRACTION 90 0.993 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 299 300 3k9e-a1-m1-cA_3k9e-a1-m1-cB SKVFTIGEILVEIASKIGQPFDQPGIWNGPYPSGAPAIFIDQVTRLGVPCGIISCVGNDGFGDINIHRLAADGVDIRGISVLPLEATGSAFVTYHNRDFIFNIKNAACGKLSAQHVDENILKDCTHFHIGSSLFSFHVDAVKKAVTIVKANGGVISFDPNIRKELDIPERDALHFVLELTDIYPSEGEVLLLSPHSTPERAIAGFLEEGVKEVIVKRGNQGASYYSANEQFHVESYPVEEVDPTGAGDCFGGAWIACRQLGFDAHRALQYANACGALAVTRRGPEGTSRLEIETFIQRH LSKVFTIGEILVEIASKIGQPFDQPGIWNGPYPSGAPAIFIDQVTRLGVPCGIISCVGNDGFGDINIHRLAADGVDIRGISVLPLEATGSAFVTYGDRDFIFNIKNAACGKLSAQHVDENILKDCTHFHIGSSLFSFHVDAVKKAVTIVKANGGVISFDPNIRKELDIPERDALHFVLELTDIYPSEGEVLLLSPHSTPERAIAGFLEEGVKEVIVKRGNQGASYYSANEQFHVESYPVEEVDPTGAGDCFGGAWIACRQLGFDAHRALQYANACGALAVTRRGPEGTSRLEIETFIQRH 3iq1-a1-m1-cB_3iq1-a1-m3-cD Crystal structure of DPS protein from Vibrio cholerae O1, a member of a broad superfamily of ferritin-like diiron-carboxylate proteins Q9KVK4 Q9KVK4 1.67 X-RAY DIFFRACTION 15 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 153 153 3iq1-a1-m1-cA_3iq1-a1-m2-cA 3iq1-a1-m1-cA_3iq1-a1-m3-cA 3iq1-a1-m1-cC_3iq1-a1-m2-cD 3iq1-a1-m1-cC_3iq1-a1-m3-cB 3iq1-a1-m1-cD_3iq1-a1-m2-cB 3iq1-a1-m2-cA_3iq1-a1-m3-cA 3iq1-a1-m2-cC_3iq1-a1-m1-cB 3iq1-a1-m2-cC_3iq1-a1-m3-cD 3iq1-a1-m2-cD_3iq1-a1-m3-cB 3iq1-a1-m3-cC_3iq1-a1-m1-cD 3iq1-a1-m3-cC_3iq1-a1-m2-cB SNAATNLIGLDTTQSQKLANALNNLLANYQVFYNTRGYHWNIQGKEFFELHAKFEEIYTDLQLKIDELAERILTLSARPHSFSGYLKAAQIKEHTDSIDGRSSQGLVDGFSILLHQQRDILELAGETGDEGTSALSDYIREQEKLVWLNAWLK SNAATNLIGLDTTQSQKLANALNNLLANYQVFYNTRGYHWNIQGKEFFELHAKFEEIYTDLQLKIDELAERILTLSARPHSFSGYLKAAQIKEHTDSIDGRSSQGLVDGFSILLHQQRDILELAGETGDEGTSALSDYIREQEKLVWLNAWLK 3iq1-a1-m2-cB_3iq1-a1-m3-cB Crystal structure of DPS protein from Vibrio cholerae O1, a member of a broad superfamily of ferritin-like diiron-carboxylate proteins Q9KVK4 Q9KVK4 1.67 X-RAY DIFFRACTION 35 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 153 153 3iq1-a1-m1-cA_3iq1-a1-m2-cD 3iq1-a1-m1-cA_3iq1-a1-m3-cC 3iq1-a1-m1-cB_3iq1-a1-m2-cB 3iq1-a1-m1-cB_3iq1-a1-m3-cB 3iq1-a1-m1-cC_3iq1-a1-m3-cD 3iq1-a1-m2-cA_3iq1-a1-m1-cC 3iq1-a1-m2-cA_3iq1-a1-m3-cD 3iq1-a1-m2-cC_3iq1-a1-m1-cD 3iq1-a1-m3-cA_3iq1-a1-m1-cD 3iq1-a1-m3-cA_3iq1-a1-m2-cC 3iq1-a1-m3-cC_3iq1-a1-m2-cD SNAATNLIGLDTTQSQKLANALNNLLANYQVFYNTRGYHWNIQGKEFFELHAKFEEIYTDLQLKIDELAERILTLSARPHSFSGYLKAAQIKEHTDSIDGRSSQGLVDGFSILLHQQRDILELAGETGDEGTSALSDYIREQEKLVWLNAWLK SNAATNLIGLDTTQSQKLANALNNLLANYQVFYNTRGYHWNIQGKEFFELHAKFEEIYTDLQLKIDELAERILTLSARPHSFSGYLKAAQIKEHTDSIDGRSSQGLVDGFSILLHQQRDILELAGETGDEGTSALSDYIREQEKLVWLNAWLK 3iq1-a1-m3-cA_3iq1-a1-m3-cD Crystal structure of DPS protein from Vibrio cholerae O1, a member of a broad superfamily of ferritin-like diiron-carboxylate proteins Q9KVK4 Q9KVK4 1.67 X-RAY DIFFRACTION 49 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 150 153 3iq1-a1-m1-cA_3iq1-a1-m1-cD 3iq1-a1-m1-cC_3iq1-a1-m1-cB 3iq1-a1-m2-cA_3iq1-a1-m2-cD 3iq1-a1-m2-cC_3iq1-a1-m2-cB 3iq1-a1-m3-cC_3iq1-a1-m3-cB ATNLIGLDTTQSQKLANALNNLLANYQVFYNTRGYHWNIQGKEFFELHAKFEEIYTDLQLKIDELAERILTLSARPHSFSGYLKAAQIKEHTDSIDGRSSQGLVDGFSILLHQQRDILELAGETGDEGTSALSDYIREQEKLVWLNAWLK SNAATNLIGLDTTQSQKLANALNNLLANYQVFYNTRGYHWNIQGKEFFELHAKFEEIYTDLQLKIDELAERILTLSARPHSFSGYLKAAQIKEHTDSIDGRSSQGLVDGFSILLHQQRDILELAGETGDEGTSALSDYIREQEKLVWLNAWLK 3iqc-a3-m1-cB_3iqc-a3-m1-cA Crystal structure of FliS from H. pylori O25448 O25448 2.7 X-RAY DIFFRACTION 30 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 101 119 PAKLIEMLYEGILRFSSQAKRCIENEDIEKKIYYINRVTDIFTELLNILDYEKGGEVAVYLTGLYTHQIKVLTQANVENDASKIDLVLNVARGLLEAWREI YANAYQAYQHESPAKLIEMLYEGILRFSSQAKRCIENEDIEKKIYYINRVTDIFTELLNILDYEKGGEVAVYLTGLYTHQIKVLTQANVENDASKIDLVLNVARGLLEAWREIHSDELA 3iqw-a1-m1-cB_3iqw-a1-m1-cA AMPPNP complex of C. therm. Get3 G0SFE0 G0SFE0 3 X-RAY DIFFRACTION 68 0.996 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 255 260 3iqx-a1-m1-cB_3iqx-a1-m1-cA SMEPTLQSILDQRSLRWIFVGGKGGVGKTTTSCSLAIQLAKVRRSVLLLSTDPAHNLSDAFSQKFGKEARLVEGFDNLYAMEIDPIDEAMSFAEVLKQVNSLSYETIVFDTAPTGHTLRFLQFPTVLEMEKLDSLRVTISEVNAQFKDERLTTFVCVCIPEFLSLYETERMIQELANYGIDTHCIVVNQLLFPKPGSDCEQCTARRRMQKKYLDQIEELYDEEFNVVKMPLLVEEVRGKERLEKFSEMLIKPFVP SMEPTLQSILDQRSLRWIFVGGKGGVGKTTTSCSLAIQLAKVRRSVLLLSTDPAHNLSDAFSQKFGKEARLVEGFDNLYAMEIDPPGIDEAMSFAEVLKQVNSLSYETIVFDTAPTGHTLRFLQFPTVLDVMEKLDSLRVTISEVNAQFKDERLTTFVCVCIPEFLSLYETERMIQELANYGIDTHCIVVNQLLFPKPGSDCEQCTARRRMQKKYLDQIEELYDEEFNVVKMPLLVEEVRGKERLEKFSEMLIKPFVPPE 3ir3-a1-m1-cB_3ir3-a1-m1-cA Crystal structure of human 3-hydroxyacyl-thioester dehydratase 2 (HTD2) P86397 P86397 1.99 X-RAY DIFFRACTION 77 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 122 126 MHIKVGDRAELRRAFTQTDVATFSELTGDVNPLHNTIVHGVLINGLISALLGTKMPGPGCVFLSQEISFPAPLYIGEVVLASAEVKKLKRFIAIIAVSCSVIESKKTVMEGWVKVMVPEASK MHIKVGDRAELRRAFTQTDVATFSELTGDVNPLHLNEDFTIVHGVLINGLISALLGTKMPGPGCVFLSQEISFPAPLYIGEVVLASAEVKKLKRFIAIIAVSCSVIESKKTVMEGWVKVMVPEASK 3ir9-a1-m1-cB_3ir9-a1-m1-cA C-terminal domain of Peptide Chain Release Factor from Methanosarcina mazei. Q8PX75 Q8PX75 2.207 X-RAY DIFFRACTION 50 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 155 160 AYTDESGLSELVNAAGEKLQDLELGQKNAVRDFFKELIADSGKVAYGESQVRANLEINSVDVLLLSEDLRAERVTTKCSVCGYENKWTRRWKPPAPAAGNCPKCGSSLEVTDVTDIVDEFSELADKSNAKVVFVSGSQLNAFGGIAAILRYNTGV AYTDESGLSELVNAAGEKLQDLELGQKNAVRDFFKELIADSGKVAYGESQVRANLEINSVDVLLLSEDLRAERVTTKCSVCGYENKWTRRWKPPAPAAGNCPKCGSSLEVTDVTDIVDEFSELADKSNAKVVFVSTDFDEGSQLNAFGGIAAILRYNTGV 3irb-a4-m2-cB_3irb-a4-m1-cA Crystal structure of protein with unknown function from DUF35 family (13815350) from SULFOLOBUS SOLFATARICUS at 1.80 A resolution Q97WQ4 Q97WQ4 1.8 X-RAY DIFFRACTION 39 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 133 136 3irb-a4-m1-cB_3irb-a4-m2-cA GSLLRWYDVEAERYEYTGPAGEQFFNGLKQNKIIGSKCSKCGRIFVPARSYCEHCFVKIENYVEINKDEAYVDSYTIIYNDDEGNKLAQPVYIALIRFPNIEGGLLCYAEGNVKVGAKAKILSFQWPLRVKVD KEGSLLRWYDVEAERYEYTVGPAGEQFFNGLKQNKIIGSKCSKCGRIFVPARSYCEHCFVKIENYVEINKDEAYVDSYTIIYNDDEGNKLAQPVYIALIRFPNIEGGLLCYAEGNVKVGAKAKILSFQWPLRVKVD 3irb-a4-m2-cB_3irb-a4-m2-cA Crystal structure of protein with unknown function from DUF35 family (13815350) from SULFOLOBUS SOLFATARICUS at 1.80 A resolution Q97WQ4 Q97WQ4 1.8 X-RAY DIFFRACTION 62 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 133 136 3irb-a3-m1-cB_3irb-a3-m1-cA 3irb-a4-m1-cB_3irb-a4-m1-cA GSLLRWYDVEAERYEYTGPAGEQFFNGLKQNKIIGSKCSKCGRIFVPARSYCEHCFVKIENYVEINKDEAYVDSYTIIYNDDEGNKLAQPVYIALIRFPNIEGGLLCYAEGNVKVGAKAKILSFQWPLRVKVD KEGSLLRWYDVEAERYEYTVGPAGEQFFNGLKQNKIIGSKCSKCGRIFVPARSYCEHCFVKIENYVEINKDEAYVDSYTIIYNDDEGNKLAQPVYIALIRFPNIEGGLLCYAEGNVKVGAKAKILSFQWPLRVKVD 3irc-a2-m2-cA_3irc-a2-m3-cA Crystal structure analysis of dengue-1 envelope protein domain III Q9J7C6 Q9J7C6 2.25 X-RAY DIFFRACTION 41 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 104 104 3irc-a2-m1-cA_3irc-a2-m2-cA 3irc-a2-m1-cA_3irc-a2-m3-cA GMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSTQDEKGATQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKKGSSIG GMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSTQDEKGATQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKKGSSIG 3irm-a2-m1-cD_3irm-a2-m1-cC Trypanosoma cruzi Dihydrofolate Reductase-Thymidylate Synthase COMPLEXED WITH Cycloguanil Q27793 Q27793 2.1 X-RAY DIFFRACTION 98 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 513 516 2h2q-a2-m2-cB_2h2q-a2-m1-cA 3cl9-a1-m1-cA_3cl9-a1-m2-cA 3cl9-a3-m1-cA_3cl9-a3-m2-cA 3cl9-a3-m3-cA_3cl9-a3-m4-cA 3clb-a1-m1-cD_3clb-a1-m1-cA 3clb-a2-m1-cB_3clb-a2-m1-cC 3hbb-a1-m1-cD_3hbb-a1-m1-cA 3hbb-a2-m1-cB_3hbb-a2-m1-cC 3inv-a1-m1-cB_3inv-a1-m1-cA 3irm-a1-m1-cB_3irm-a1-m1-cA 3irn-a1-m1-cA_3irn-a1-m1-cB 3irn-a2-m1-cD_3irn-a2-m1-cC 3iro-a1-m1-cB_3iro-a1-m1-cA 3iro-a2-m1-cD_3iro-a2-m1-cC 3kjs-a1-m1-cA_3kjs-a1-m1-cD 3kjs-a2-m1-cB_3kjs-a2-m1-cC 5t7o-a1-m1-cA_5t7o-a1-m1-cB 5t7o-a2-m1-cC_5t7o-a2-m1-cD LFKIRMPETVAEGTRLALRAFSLVVAVDEHGGIGDGRSIPWNVPEDMKFFRDLTTKLRGKNVKPSPAKRNAVVMGRKTWDSIPPKFRPLPGRLNVVLSSTLTTQHLLDGLPDEEKRNLHADSIVAVNGGLEQALRLLASPNYTPSIETVYCIGGGSVYAEALRPPCVHLLQAIYRTTIRASESSCSVFFRVPESGTEAAAGIEWQRETISEELTSANGNETKYYFEKLIPRNREEEQYLSLVDRIIREGNVKHDRTGVGTLSIFGAQMRFSLRNNRLPLLTTKRVFWRGVCEELLWFLRGETYAKKLSDKGVHIWDDNGSRAFLDSRGLTEYEEMDLGPVYGFQWRHFGAAYTHHDANYDGQGVDQIKAIVETLKTNPDDRRMLFTAWNPSALPRMALPPCHLLAQFYVSNGELSCMLYQRSCDMGLGVPFNIASYALLTILIAKATGLRPGELVHTLGDAHVYSNHVEPCNEQLKRVPRAFPYLVFRREREFLEDYEEGDMEVIDYAPYPPI SLFKIRMPETVAEGTRLALRAFSLVVAVDEHGGIGDGRSIPWNVPEDMKFFRDLTTKLRGKNVKPSPAKRNAVVMGRKTWDSIPPKFRPLPGRLNVVLSSTLTTQHLLDGLPDEEKRNLHADSIVAVNGGLEQALRLLASPNYTPSIETVYCIGGGSVYAEALRPPCVHLLQAIYRTTIRASESSCSVFFRVPESGTEAAAGIEWQRETISEELTSANGNETKYYFEKLIPRNREEEQYLSLVDRIIREGNVKHDRTGVGTLSIFGAQMRFSLRNNRLPLLTTKRVFWRGVCEELLWFLRGETYAKKLSDKGVHIWDDNGSRAFLDSRGLTEYEEMDLGPVYGFQWRHFGAAYTHHDANYDGQGVDQIKAIVETLKTNPDDRRMLFTAWNPSALPRMALPPCHLLAQFYVSNGELSCMLYQRSCDMGLGVPFNIASYALLTILIAKATGLRPGELVHTLGDAHVYSNHVEPCNEQLKRVPRAFPYLVFRREREFLEDYEEGDMEVIDYAPYPPISM 3iru-a1-m2-cA_3iru-a1-m3-cB Crystal structure of phoshonoacetaldehyde hydrolase like protein from Oleispira antarctica D0VWZ7 D0VWZ7 2.3 X-RAY DIFFRACTION 35 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 268 268 3iru-a1-m1-cA_3iru-a1-m2-cB 3iru-a1-m1-cB_3iru-a1-m3-cA HLKANVFCAGPVEALILDWAGTTIDFGSLAPVYAFELFKQEGIEVTQAEAREPGTEKSEHIRRLGNSRIANAWLSIKGQASNEEDIKRLYDLFAPIQTRIVAQRSQLIPGWKEVFDKLIAQGIKVGGNTGYGPGAPALIAAKEQGYTPASTVFATDVVRGRPFPDALKVALELEVGHVNGCIKVDDTLPGIEEGLRAGWTVGVSCSGNEVGLDREDWQALSSDEQQSYRQHAEQRLFNAGAHYVIDSVADLETVITDVNRRLARGEKP HLKANVFCAGPVEALILDWAGTTIDFGSLAPVYAFELFKQEGIEVTQAEAREPGTEKSEHIRRLGNSRIANAWLSIKGQASNEEDIKRLYDLFAPIQTRIVAQRSQLIPGWKEVFDKLIAQGIKVGGNTGYGPGAPALIAAKEQGYTPASTVFATDVVRGRPFPDALKVALELEVGHVNGCIKVDDTLPGIEEGLRAGWTVGVSCSGNEVGLDREDWQALSSDEQQSYRQHAEQRLFNAGAHYVIDSVADLETVITDVNRRLARGEKP 3iru-a2-m1-cA_3iru-a2-m1-cB Crystal structure of phoshonoacetaldehyde hydrolase like protein from Oleispira antarctica D0VWZ7 D0VWZ7 2.3 X-RAY DIFFRACTION 87 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 268 268 3iru-a1-m1-cA_3iru-a1-m1-cB 3iru-a1-m2-cA_3iru-a1-m2-cB 3iru-a1-m3-cA_3iru-a1-m3-cB HLKANVFCAGPVEALILDWAGTTIDFGSLAPVYAFELFKQEGIEVTQAEAREPGTEKSEHIRRLGNSRIANAWLSIKGQASNEEDIKRLYDLFAPIQTRIVAQRSQLIPGWKEVFDKLIAQGIKVGGNTGYGPGAPALIAAKEQGYTPASTVFATDVVRGRPFPDALKVALELEVGHVNGCIKVDDTLPGIEEGLRAGWTVGVSCSGNEVGLDREDWQALSSDEQQSYRQHAEQRLFNAGAHYVIDSVADLETVITDVNRRLARGEKP HLKANVFCAGPVEALILDWAGTTIDFGSLAPVYAFELFKQEGIEVTQAEAREPGTEKSEHIRRLGNSRIANAWLSIKGQASNEEDIKRLYDLFAPIQTRIVAQRSQLIPGWKEVFDKLIAQGIKVGGNTGYGPGAPALIAAKEQGYTPASTVFATDVVRGRPFPDALKVALELEVGHVNGCIKVDDTLPGIEEGLRAGWTVGVSCSGNEVGLDREDWQALSSDEQQSYRQHAEQRLFNAGAHYVIDSVADLETVITDVNRRLARGEKP 3irv-a1-m1-cA_3irv-a1-m2-cA CRYSTAL STRUCTURE OF CYSTEINE HYDROLASE PSPPH_2384 FROM Pseudomonas syringae pv. phaseolicola 1448A Q48J46 Q48J46 1.6 X-RAY DIFFRACTION 134 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 213 213 MSKPLVRWPINPLRTAVIVVDMQKVFCEPTGALYVKSTADIVQPIQKLLQAARAAQVMVIYLRHIVRGDGSDTGRMRDLYPNVDQILARHDPDVEVIEALAPQSDDVIVDKLFYSGFHNTDLDTVLRARDVDTIIVCGTVTNVCCETTIRDGVHREYKVIALSDANAAMDYPDVGFGAVSAADVQRISLTTIAYEFGEVTTTAEVIRRIESAY MSKPLVRWPINPLRTAVIVVDMQKVFCEPTGALYVKSTADIVQPIQKLLQAARAAQVMVIYLRHIVRGDGSDTGRMRDLYPNVDQILARHDPDVEVIEALAPQSDDVIVDKLFYSGFHNTDLDTVLRARDVDTIIVCGTVTNVCCETTIRDGVHREYKVIALSDANAAMDYPDVGFGAVSAADVQRISLTTIAYEFGEVTTTAEVIRRIESAY 3is3-a2-m2-cA_3is3-a2-m4-cA Crystal structure of 17beta-Hydroxysteroid dehydrogenase (Apo form) from fungus Cochliobolus lunatus O93874 O93874 1.48 X-RAY DIFFRACTION 107 1.0 5503 (Curvularia lunata) 5503 (Curvularia lunata) 260 260 3is3-a2-m1-cA_3is3-a2-m3-cA 3itd-a2-m1-cA_3itd-a2-m3-cA 3itd-a2-m2-cA_3itd-a2-m4-cA 4fiz-a2-m1-cA_4fiz-a2-m3-cA 4fiz-a3-m1-cA_4fiz-a3-m3-cA 4fiz-a3-m2-cA_4fiz-a3-m4-cA 4fj0-a3-m1-cB_4fj0-a3-m1-cD 4fj0-a3-m1-cC_4fj0-a3-m1-cA 4fj1-a3-m1-cB_4fj1-a3-m1-cD 4fj1-a3-m1-cC_4fj1-a3-m1-cA 4fj2-a3-m1-cB_4fj2-a3-m1-cD 4fj2-a3-m1-cC_4fj2-a3-m1-cA YIPGRLDGKVALVTGSGRGIGAAVAVHLGRLGAKVVVNYANSTKDAEKVVSEIKALGSDAIAIKADIRQVPEIVKLFDQAVAHFGHLDIAVSNSGVVSFGHLKDVTEEEFDRVFSLNTRGQFFVAREAYRHLTEGGRIVLTSSNTSKDFSVPKHSLYSGSKGAVDSFVRIFSKDCGDKKITVNAVAPGGTVTDMFHEVSHHYIPNGTSYTAEQRQQMAAHASPLHRNGWPQDVANVVGFLVSKEGEWVNGKVLTLDGGAA YIPGRLDGKVALVTGSGRGIGAAVAVHLGRLGAKVVVNYANSTKDAEKVVSEIKALGSDAIAIKADIRQVPEIVKLFDQAVAHFGHLDIAVSNSGVVSFGHLKDVTEEEFDRVFSLNTRGQFFVAREAYRHLTEGGRIVLTSSNTSKDFSVPKHSLYSGSKGAVDSFVRIFSKDCGDKKITVNAVAPGGTVTDMFHEVSHHYIPNGTSYTAEQRQQMAAHASPLHRNGWPQDVANVVGFLVSKEGEWVNGKVLTLDGGAA 3is5-a1-m1-cA_3is5-a1-m1-cF Crystal structure of CDPK kinase domain from toxoplasma Gondii, TGME49_018720 2.55 X-RAY DIFFRACTION 29 0.996 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 260 266 3is5-a1-m1-cC_3is5-a1-m1-cB 3is5-a1-m1-cD_3is5-a1-m1-cA 3is5-a1-m1-cD_3is5-a1-m1-cF 3is5-a1-m1-cE_3is5-a1-m1-cB 3is5-a1-m1-cE_3is5-a1-m1-cC NLYFQGTIDDLFIFKRKLGSGAFGDVHLVEERSSGLERVIKTINKDRSQVPMEQIEAEIEVLKSLDHPNIIKIFEVFEDYHNMYIVMETCEGGELLERIVSAQARGKALSEGYVAELMKQMMNALAYFHSQHVVHKDLKPENILFQDTSPHSPIKIIDFGLAELAGTALYMAPEVFKRDVTFKCDIWSAGVVMYFLLTGCLPFTGTSLEEVQQKATYKEPNYAVRPLTPQAVDLLKQMLTKDPERRPSAAQVLHHEWFKQ ENLYFQGTIDDLFIFKRKLGSGAFGDVHLVEERSSGLERVIKTINKDRSQVPMEQIEAEIEVLKSLDHPNIIKIFEVFEDYHNMYIVMETCEGGELLERIVSAQARGALSEGYVAELMKQMMNALAYFHSQHVVHKDLKPENILFQDTSPHSPIKIIDFGLAELFKAAGTALYMAPEVFKRDVTFKCDIWSAGVVMYFLLTGCLPFTGTSLEEVQQKATYKEPNYAVECRPLTPQAVDLLKQMLTKDPERRPSAAQVLHHEWFKQA 3is5-a1-m1-cD_3is5-a1-m1-cC Crystal structure of CDPK kinase domain from toxoplasma Gondii, TGME49_018720 2.55 X-RAY DIFFRACTION 69 0.992 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 236 259 3is5-a1-m1-cA_3is5-a1-m1-cB 3is5-a1-m1-cE_3is5-a1-m1-cF NLYFQGTIDDLFIFKRKLGSGAFGDVHLVEERSSGLERVIKTINKDRSQVPMEQIEAEIEVLKSLDHPNIIKIFEVFEDYHNMYIVMETCEGGELLERIVSAQARGKALSEGYVAELMKQMMNALAYFHSQHVVHKDLKPENILFQDTSPHSPIKIIDFGALYMAPEVFKRDVTFKCDIWSAGVVMYFLLTGCLPFTGEPNYPLTPQAVDLLKQMLTKDPERRPSAAQVLHHEWFK LYFQGTIDDLFIFKRKLGSGFGDVHLVEERSSGLERVIKTINKDRSQVPMEQIEAEIEVLKSLDHPNIIKIFEVFEDYHNMYIVMETCEGGELLERIVSAQARGKALSEGYVAELMKQMMNALAYFHSQHVVHKDLKPENILFQDTSPHSPIKIIDFGLAELFKAAGTALYMAPEVFKRDVTFKCDIWSAGVVMYFLLTGCLPFTGTSLEEVQQKATYKEPNYAVPLTPQAVDLLKQMLTKDPERRPSAAQVLHHEWFK 3is6-a1-m1-cB_3is6-a1-m1-cA The Crystal Structure of a domain of a putative Permease protein from Porphyromonas gingivalis to 2A Q7MWD8 Q7MWD8 1.95 X-RAY DIFFRACTION 26 0.995 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 208 228 DFPHHDRICIVKTHGLDFSQVSGGVAPAIQEEIPGVELATRTTLYGTSKILEDNKTYETKTLLAEPAFLDFGVELIAGVRDSALRDNTCLISESLARKGGDVLGKRLRPAESKSDRAITIGGVFEDLPHNSSIQADLLPITWPAESLNNWIGNDRYIAYVRLRPGVSPESLDEALLEQKRHQDEVELHYSLTPFNRLDPTLVNLRIQQ ERDFPHHDRICIVKTHGTRQEGDKPEELDFSQVSGGVAPAIQEEIPGVELATRTTLYGTSKILEDNKTYETKTLLAEPAFLDFGVELIAGVRDSALRDNTCLISESLARKGGDVLGKRLRPAESKSDRAITIGGVFEDLPHNSSIQADLLPITWPAESLNNWIGNDRYIAYVRLRPGVSPESLDEALLEQKRHQDEVFRKAGVELHYSLTPFNRLRLEDPTLVNLRIQ 3isa-a1-m1-cD_3isa-a1-m1-cF CRYSTAL STRUCTURE OF putative enoyl-CoA hydratase/isomerase FROM Bordetella parapertussis Q7W3D6 Q7W3D6 1.76 X-RAY DIFFRACTION 50 0.996 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 242 242 3isa-a1-m1-cA_3isa-a1-m1-cD 3isa-a1-m1-cA_3isa-a1-m1-cF 3isa-a1-m1-cB_3isa-a1-m1-cC 3isa-a1-m1-cB_3isa-a1-m1-cE 3isa-a1-m1-cC_3isa-a1-m1-cE SASLPLAIERRPAAWTFTLSRPEKRNALSAELVEALIDGVDAAHREQVPLLVFAGAGRNFSAGFDFTDYETQSEGDLLLRMVRIEMLLQRVAGSPSLTLALAHGRNFGAGVDLFAACKWRYCTPEAGFRMPGLKFGLVLGTRRFRDIVGADQALSILGSARAFDADEARRIGFVRDCAAQAQWPALIDAAAEAATALDPATRATLHRVLRDDHDDADLAALARSAAQPGFKARIRDYLAQPA LSASLPLAIERRPAAWTFTLSRPEKRNALSAELVEALIDGVDAAHREQVPLLVFAGAGRNFSAGFDFTDYETQSEGDLLLRMVRIEMLLQRVAGSPSLTLALAHGRNFGAGVDLFAACKWRYCTPEAGFRMPGLKFGLVLGTRRFRDIVGADQALSILGSARAFDADEARRIGFVRDCAAQAQWPALIDAAAEAATALDPATRATLHRVLRDDHDDADLAALARSAAQPGFKARIRDYLAQP 3isa-a1-m1-cE_3isa-a1-m1-cF CRYSTAL STRUCTURE OF putative enoyl-CoA hydratase/isomerase FROM Bordetella parapertussis Q7W3D6 Q7W3D6 1.76 X-RAY DIFFRACTION 60 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 239 242 3isa-a1-m1-cB_3isa-a1-m1-cD 3isa-a1-m1-cC_3isa-a1-m1-cA SLPLAIERRPAAWTFTLSRPEKRNALSAELVEALIDGVDAAHREQVPLLVFAGAGRNFSAGFDFTDYETQSEGDLLLRMVRIEMLLQRVAGSPSLTLALAHGRNFGAGVDLFAACKWRYCTPEAGFRMPGLKFGLVLGTRRFRDIVGADQALSILGSARAFDADEARRIGFVRDCAAQAQWPALIDAAAEAATALDPATRATLHRVLRDDHDDADLAALARSAAQPGFKARIRDYLAQP LSASLPLAIERRPAAWTFTLSRPEKRNALSAELVEALIDGVDAAHREQVPLLVFAGAGRNFSAGFDFTDYETQSEGDLLLRMVRIEMLLQRVAGSPSLTLALAHGRNFGAGVDLFAACKWRYCTPEAGFRMPGLKFGLVLGTRRFRDIVGADQALSILGSARAFDADEARRIGFVRDCAAQAQWPALIDAAAEAATALDPATRATLHRVLRDDHDDADLAALARSAAQPGFKARIRDYLAQP 3isl-a1-m1-cA_3isl-a1-m1-cB Crystal structure of ureidoglycine-glyoxylate aminotransferase (pucG) from Bacillus subtilis O32148 O32148 2.06 X-RAY DIFFRACTION 222 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 387 387 RELCTPLRTIMTPGPVEVDPRVLRVMSTPVVGQFDPAFTGIMNETMEMLRELFQTKNRWAYPIDGTSRAGIEAVLASVIEPEDDVLIPIYGRFGYLLTEIAERYGANVHMLECEWGTVFDPEDIIREIKKVKPKIVAMVHGETSTGRIHPLKAIGEACRTEDALFIVDAVATIGGCEVKVDEWKIDAAIGGTQKCLSVPSGMAPITYNERVADVIAARNRPITSNYFDLSQLEDYWSERRLNHHTEATTMLYALREGVRLVLEEGLETRFERHRHHEAALAAGIKAMGLRLFGDDSCKMPVVTCVEIPGGIDGESVRDMLLAQFGIEIASSFGPLAGKIWRIGTMGYSCRKENVLFVLAGLEAVLLRHNAGIEAGKALQAALDVYEN RELCTPLRTIMTPGPVEVDPRVLRVMSTPVVGQFDPAFTGIMNETMEMLRELFQTKNRWAYPIDGTSRAGIEAVLASVIEPEDDVLIPIYGRFGYLLTEIAERYGANVHMLECEWGTVFDPEDIIREIKKVKPKIVAMVHGETSTGRIHPLKAIGEACRTEDALFIVDAVATIGGCEVKVDEWKIDAAIGGTQKCLSVPSGMAPITYNERVADVIAARNRPITSNYFDLSQLEDYWSERRLNHHTEATTMLYALREGVRLVLEEGLETRFERHRHHEAALAAGIKAMGLRLFGDDSCKMPVVTCVEIPGGIDGESVRDMLLAQFGIEIASSFGPLAGKIWRIGTMGYSCRKENVLFVLAGLEAVLLRHNAGIEAGKALQAALDVYEN 3ism-a1-m1-cA_3ism-a1-m1-cB Crystal structure of the EndoG/EndoGI complex: Mechanism of EndoG inhibition Q7JXB9 Q7JXB9 2.2 X-RAY DIFFRACTION 76 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 245 247 TATPSRIGQIMKYGFPGLDHVRSHSDYVLSYDRRNRVPHWVFEHLTAESVAKNDAVDRSKCDFKQDESIHPFFRSQNTDYRRSGYDRGHMAAAGNHRLHQKHCDETFYLSNMAPQVGQGFNRDAWNTLEAHVRRLTKTYSNVYVCTGPLYLPHKEDDGKSYVKYEVIGANTVAVPTHFYKVIVGESADHKLHMESYVMPNQVISNDTPISVFQVPPESVERSAGLLFFDQINRKQLTTINGKKVA SLTATPSRIGQIMKYGFPGLDHVRSHSDYVLSYDRRNRVPHWVFEHLTAESVAKNDAVDRSKCDFKQDESIHPFFRSQNTDYRRSGYDRGHMAAAGNHRLHQKHCDETFYLSNMAPQVGQGFNRDAWNTLEAHVRRLTKTYSNVYVCTGPLYLPHKEDDGKSYVKYEVIGANTVAVPTHFYKVIVGESADHKLHMESYVMPNQVISNDTPISVFQVPPESVERSAGLLFFDQINRKQLTTINGKKVA 3iso-a1-m1-cA_3iso-a1-m1-cB Crystal structure of 26 kDa GST of Clonorchis sinensis in P3221 symmetry Q25595 Q25595 1.9 X-RAY DIFFRACTION 86 1.0 79923 (Clonorchis sinensis) 79923 (Clonorchis sinensis) 218 218 4l5l-a1-m1-cA_4l5l-a1-m1-cB 4l5o-a1-m1-cA_4l5o-a1-m1-cB 4l5o-a2-m1-cC_4l5o-a2-m2-cC MAPVLGYWKIRGLAQPIRLLLEYVGDSYEEHSYGRCDGEKWQNDKHNLGLELPNLPYYKDGNFSLTQSLAILRYIADKHNMIGNTPVERAKISMIEGGLVDLRAGVSRIAYQETFEQLKVPYLQQLPSTLRMWSQFLGNNSYLHGSTPTHLDFMFYEALDVIRYLDPTSVEAFPNLMQFIHRIEALPNIKAFMESDRFIKWPLNGWSAYFGGGDAPPK MAPVLGYWKIRGLAQPIRLLLEYVGDSYEEHSYGRCDGEKWQNDKHNLGLELPNLPYYKDGNFSLTQSLAILRYIADKHNMIGNTPVERAKISMIEGGLVDLRAGVSRIAYQETFEQLKVPYLQQLPSTLRMWSQFLGNNSYLHGSTPTHLDFMFYEALDVIRYLDPTSVEAFPNLMQFIHRIEALPNIKAFMESDRFIKWPLNGWSAYFGGGDAPPK 3isp-a1-m2-cB_3isp-a1-m1-cA Crystal structure of ArgP from Mycobacterium tuberculosis P9WMF5 P9WMF5 2.7 X-RAY DIFFRACTION 90 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 263 290 3isp-a1-m1-cB_3isp-a1-m2-cA QLDGPQLAALAAVVELGSFDAAAERLHVTPSAVSQRIKSLEQQVGQVLVVREKPCRATTAGIPLLRLAAQTALLESEALAEMKRTRITIAVNADSMATWFSAVFDGLGDVLLDVRIEDQDHSARLLREGVAMGAVTTERNPVPGCRVHPLGEMRYLPVASRPFVQRHDGFTAAAAAKAPSLAWNPTHFVPTTEGFTAAARAGLGWGMFPEKLAASPLADGSFVRVCDIHLDVPLYWQCWKLDSPIIARITDTVRAAASGLYRG QLDGPQLAALAAVVELGSFDAAAERLHVTPSAVSQRIKSLEQQVGQVLVVREKPCRATTAGIPLLRLAAQTALLESEALAEMGASLKRTRITIAVNADSMATWFSAVFDGLGDVLLDVRIEDQDHSARLLREGVAMGAVTTERNPVPGCRVHPLGEMRYLPVASRPFVQRHLSDGFTAAAAAKAPSLAWNRDDGLQDMLVRKAFRRAITRPTHFVPTTEGFTAAARAGLGWGMFPEKLAASPLADGSFVRVCDIHLDVPLYWQCWKLDSPIIARITDTVRAAASGLYRGQ 3isp-a1-m2-cB_3isp-a1-m2-cA Crystal structure of ArgP from Mycobacterium tuberculosis P9WMF5 P9WMF5 2.7 X-RAY DIFFRACTION 94 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 263 290 3isp-a1-m1-cB_3isp-a1-m1-cA QLDGPQLAALAAVVELGSFDAAAERLHVTPSAVSQRIKSLEQQVGQVLVVREKPCRATTAGIPLLRLAAQTALLESEALAEMKRTRITIAVNADSMATWFSAVFDGLGDVLLDVRIEDQDHSARLLREGVAMGAVTTERNPVPGCRVHPLGEMRYLPVASRPFVQRHDGFTAAAAAKAPSLAWNPTHFVPTTEGFTAAARAGLGWGMFPEKLAASPLADGSFVRVCDIHLDVPLYWQCWKLDSPIIARITDTVRAAASGLYRG QLDGPQLAALAAVVELGSFDAAAERLHVTPSAVSQRIKSLEQQVGQVLVVREKPCRATTAGIPLLRLAAQTALLESEALAEMGASLKRTRITIAVNADSMATWFSAVFDGLGDVLLDVRIEDQDHSARLLREGVAMGAVTTERNPVPGCRVHPLGEMRYLPVASRPFVQRHLSDGFTAAAAAKAPSLAWNRDDGLQDMLVRKAFRRAITRPTHFVPTTEGFTAAARAGLGWGMFPEKLAASPLADGSFVRVCDIHLDVPLYWQCWKLDSPIIARITDTVRAAASGLYRGQ 3isq-a1-m1-cA_3isq-a1-m2-cA Crystal structure of human 4-Hydroxyphenylpyruvate dioxygenase P32754 P32754 1.75 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 AKPERGRFLHFHSVTFWVGNAKQAASFYCSKMGFEPLAYRGLETGSREVVSHVIKQGKIVFVLSSALNPWNKEMGDHLVKHGDGVKDIAFEVEDCDYIVQKARERGAKIMREPWVEQDKFGKVKFAVLQTYGDTTHTLVEKMNYIGQFLPGYEAPAFMDPLLPKLPKCSLEMIDHIVGNQPDQEMVSASEWYLKNLQFHRFWSVDDTQVHTEYSSLRSIVVANYEESIKMPINEPAPGKKKSQIQEYVDYNGGAGVQHIALKTEDIITAIRHLRERGLEFLSVPSTYYKQLREKLKTAKIKVKENIDALEELKILVDYDEKGYLLQIFTKPVQDRPTLFLEVIQRHNHQGFGAGNFNSLFKAFEEEQNLRGNLTNM AKPERGRFLHFHSVTFWVGNAKQAASFYCSKMGFEPLAYRGLETGSREVVSHVIKQGKIVFVLSSALNPWNKEMGDHLVKHGDGVKDIAFEVEDCDYIVQKARERGAKIMREPWVEQDKFGKVKFAVLQTYGDTTHTLVEKMNYIGQFLPGYEAPAFMDPLLPKLPKCSLEMIDHIVGNQPDQEMVSASEWYLKNLQFHRFWSVDDTQVHTEYSSLRSIVVANYEESIKMPINEPAPGKKKSQIQEYVDYNGGAGVQHIALKTEDIITAIRHLRERGLEFLSVPSTYYKQLREKLKTAKIKVKENIDALEELKILVDYDEKGYLLQIFTKPVQDRPTLFLEVIQRHNHQGFGAGNFNSLFKAFEEEQNLRGNLTNM 3isr-a1-m1-cA_3isr-a1-m1-cD The Crystal Structure of a Putative Cysteine Protease from Cytophaga hutchinsonii to 1.9A 1.9 X-RAY DIFFRACTION 29 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 282 285 3isr-a1-m1-cC_3isr-a1-m1-cB QSNAKFKIHSDITYQVSPTTFIFNVHALRTESQHILDESLIVTPPIEIEEFSYNSGTSRFVRLKATENTTFSSYTATVDTQYKVIDQRQELETVPVVDLDGDIIPFLFPSRYCQSDKLQKLAYKEFGKIENVYSKVLAITDWIYNNVEYISGSTNSQTSAFDTITERAGVCRDFAHLGIALCRALSIPARYFTGYAFKLNPPDFHACFEAYIGGNWIIFDATRLVPLNGLVKIATGRDAADAAVASIFGNASSTNHVECASLDTDFTPFWYDKNSLKGLSFQ LYFQSNAKFKIHSDITYQVSPTTFIFNVHALRTESQHILDESLIVTPPIEIEEFSYNSGTSRFVRLKATENTTFSSYTATVDTQYKVIDQRQELETVPVVDLDGDIIPFLFPSRYCQSDKLQKLAYKEFGKIENVYSKVLAITDWIYNNVEYISGSTNSQTSAFDTITERAGVCRDFAHLGIALCRALSIPARYFTGYAFKLNPPDFHACFEAYIGGNWIIFDATRLVPLNGLVKIATGRDAADAAVASIFGNASSTNHVECASLDTDFTPFWYDKNSLKGLSFQ 3isr-a3-m1-cC_3isr-a3-m1-cD The Crystal Structure of a Putative Cysteine Protease from Cytophaga hutchinsonii to 1.9A 1.9 X-RAY DIFFRACTION 85 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 281 285 3isr-a1-m1-cA_3isr-a1-m1-cB 3isr-a1-m1-cC_3isr-a1-m1-cD 3isr-a2-m1-cA_3isr-a2-m1-cB SNAKFKIHSDITYQVSPTTFIFNVHALRTESQHILDESLIVTPPIEIEEFSYNSGTSRFVRLKATENTTFSSYTATVDTQYKVIDQRQELETVPVVDLDGDIIPFLFPSRYCQSDKLQKLAYKEFGKIENVYSKVLAITDWIYNNVEYISGSTNSQTSAFDTITERAGVCRDFAHLGIALCRALSIPARYFTGYAFKLNPPDFHACFEAYIGGNWIIFDATRLVPLNGLVKIATGRDAADAAVASIFGNASSTNHVECASLDTDFTPFWYDKNSLKGLSFQ LYFQSNAKFKIHSDITYQVSPTTFIFNVHALRTESQHILDESLIVTPPIEIEEFSYNSGTSRFVRLKATENTTFSSYTATVDTQYKVIDQRQELETVPVVDLDGDIIPFLFPSRYCQSDKLQKLAYKEFGKIENVYSKVLAITDWIYNNVEYISGSTNSQTSAFDTITERAGVCRDFAHLGIALCRALSIPARYFTGYAFKLNPPDFHACFEAYIGGNWIIFDATRLVPLNGLVKIATGRDAADAAVASIFGNASSTNHVECASLDTDFTPFWYDKNSLKGLSFQ 3ist-a1-m1-cB_3ist-a1-m1-cA Crystal structure of glutamate racemase from Listeria monocytogenes in complex with succinic acid Q8Y7N7 Q8Y7N7 1.65 X-RAY DIFFRACTION 67 0.996 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 259 261 3hfr-a1-m1-cA_3hfr-a1-m1-cB 3isv-a1-m1-cA_3isv-a1-m1-cB KQAIGFIDSGVGGLTVVREVLKQLPHEQVYYLGDTARCPYGPRDKEEVAKFTWETNFLVDRGIKLVIACNTATAAALYDIREKLDIPVIGVIQPGSRAALKATRNNKIGVLGTLGTVESAYPTALKGLNRRVEVDSLACPKFVSVVESGEYKSAIAKKVVAESLLPLKSTKIDTVILGCTHYPLLKPIIENFGDGVAVINSGEETASEVSALLDYHNLLDATDEEIEHRFFTTGSTQIFKDIAKDWLNPDTVEHIKLGK SNAKQAIGFIDSGVGGLTVVREVLKQLPHEQVYYLGDTARCPYGPRDKEEVAKFTWETNFLVDRGIKLVIACNTATAAALYDIREKLDIPVIGVIQPGSRAALKATRNNKIGVLGTLGTVESAYPTALKGLNRRVEVDSLACPKFVSVVESGEYKSAIAKKVVAESLLPLKSTKIDTVILGCTHYPLLKPIIENFGDGVAVINSGEETASEVSALLDYHNLLDATDEEIEHRFFTTGSTQIFKDIAKDWLNPDTVEHIKLG 3isz-a1-m1-cB_3isz-a1-m1-cA Crystal structure of mono-zinc form of succinyl-diaminopimelate desuccinylase from Haemophilus influenzae P44514 P44514 2 X-RAY DIFFRACTION 82 0.995 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 366 369 3ic1-a1-m1-cB_3ic1-a1-m1-cA MKEKVVSLAQDLIRRPSISPNDEGCQQIIAERLEKLGFQIEWMPFNDTLNLWAKHGTSEPVIAFAGHTDVVPTGDENQWSSPPFSAEIIDGMLYGRGAADMKGSLAAMIVAAEEYVKANPNHKGTIALLITSDEEATAKDGTIHVVETLMARDEKITYCMVGEPSSAKNLGDVVKNGRRGSITGNLYIQGIQPHLAENPIHKAALFLQELTTYQWDKGNEFFPPTSLQIANIHAGVIPAELYIQFNLRYCTEVTDEIIKQKVAEMLEKHNLKYRIEWNLSGKPFLTKPGKLLDSITSAIEETIGITPKAETGGGTSDGRFIALMGAEVVEFGPLNSTIHKVNECVSVEDLGKCGEIYHKMLVNLLD MKEKVVSLAQDLIRRPSISPNDEGCQQIIAERLEKLGFQIEWMPFNDTLNLWAKHGTSEPVIAFAGHTDVVPTGDENQWSSPPFSAEIIDGMLYGRGAADMKGSLAAMIVAAEEYVKANPNHKGTIALLITSDEEATAKDGTIHVVETLMARDEKITYCMVGEPSSAKNLGDVVKNGRRGSITGNLYIQGIHLAENPIHKAALFLQELTTYQWDKGNEFFPPTSLQIANIHAGTGSNNVIPAELYIQFNLRYCTEVTDEIIKQKVAEMLEKHNLKYRIEWNLSGKPFLTKPGKLLDSITSAIEETIGITPKAETGGGTSDGRFIALMGAEVVEFGPLNSTIHKVNECVSVEDLGKCGEIYHKMLVNLLD 3it1-a1-m1-cA_3it1-a1-m1-cB Crystal Structure Francisella tularensis histidine acid phosphatase complexed with L(+)-tartrate 1.691 X-RAY DIFFRACTION 107 1.0 376619 (Francisella tularensis subsp. holarctica LVS) 376619 (Francisella tularensis subsp. holarctica LVS) 328 329 3it0-a1-m1-cA_3it0-a1-m1-cB 3it2-a1-m1-cB_3it2-a1-m1-cA 3it3-a1-m1-cB_3it3-a1-m1-cA 4e3w-a1-m1-cA_4e3w-a1-m1-cB SKLIFVSMITRHGDRAPFANIENANYSWGTELSELTPIGMNQEYNLGLQLRKRYIDKFGLLPEHYVDQSIYVLSSHTNRTVVSAQSLLMGLYPAGTGPLIDGDPAIKDRFQPIPIMTLSADSRLIQFPYEQYLAVLKKYVYNSPEWQNKTKEAAPNFAKWQQILGNRISGLNDVITVGDVLIVAQAHGKPLPKGLSQEDADQIIALTDWGLAQQFKSQKVSYIMGGKLTNRMIEDLNNAVNGKSKYKMTYYSGHDLTLLEVMGTLGVPLDTAPGYASNLEMELYKDGDIYTVKLRYNGKYVKLPIMDKNNSCSLDALNKYMQSINEKF SKLIFVSMITRHGDRAPFANIENANYSWGTELSELTPIGMNQEYNLGLQLRKRYIDKFGLLPEHYVDQSIYVLSSHTNRTVVSAQSLLMGLYPAGTGPLIGDGDPAIKDRFQPIPIMTLSADSRLIQFPYEQYLAVLKKYVYNSPEWQNKTKEAAPNFAKWQQILGNRISGLNDVITVGDVLIVAQAHGKPLPKGLSQEDADQIIALTDWGLAQQFKSQKVSYIMGGKLTNRMIEDLNNAVNGKSKYKMTYYSGHDLTLLEVMGTLGVPLDTAPGYASNLEMELYKDGDIYTVKLRYNGKYVKLPIMDKNNSCSLDALNKYMQSINEKF 3it4-a1-m1-cD_3it4-a1-m1-cB The Crystal Structure of Ornithine Acetyltransferase from Mycobacterium tuberculosis (Rv1653) at 1.7 A P9WPZ3 P9WPZ3 1.7 X-RAY DIFFRACTION 74 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 198 202 3it6-a1-m1-cB_3it6-a1-m1-cD TMLCVLTTDAAAEPAALERALRRAAAATFDRLDIDGSCSTNDTVLLLSSGASEIPPAQADLDEAVLRVCDDLCAQLQADAEGVTKRVTVTVTGAATEDDALVAARQIARDSLVKTALFGSDPNWGRVLAAVGMAPITLDPDRISVSFNGAAVCVHGVGAPVDLSDADIDITVDLGVGDGQARIRTTDLSHAYVEENSA TMLCVLTTDAAAEPAALERALRRAAAATFDRLDIDGSCSTNDTVLLLSSGASEIPPAQADLDEAVLRVCDDLCAQLQADAEGVTKRVTVTVTGAATEDDALVAARQIARDSLVKTALFGSDPNWGRVLAAVGMAPITLDPDRISVSFNGAAVCVHGVGAPGAREVDLSDADIDITVDLGVGDGQARIRTTDLSHAYVEENSA 3itb-a3-m1-cL_3itb-a3-m1-cC Crystal structure of Penicillin-Binding Protein 6 (PBP6) from E. coli in complex with a substrate fragment P08506 1.8 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 2 347 AK VEAPSVDARAWILMDYASGKVLAEGNADEKLDPASLTKIMTSYVVGQALKADKIKLTDMVTVGKDAWATGNPALRGSSVMFLKPGDQVSVADLNKGVIIQSGNDACIALADYVAGSQESFIGLMNGYAKKLGLTNTTFQTVHGLDAPGQFSTARDMALLGKALIHDVPEEYAIHKEKEFTFNKIRQPNRNRLLWSSNLNVDGMKTGTTAGAGYNLVASATQGDMRLISVVLGAKTDRIRFNESEKLLTWGFRFFETVTPIKPDATFVTQRVWFGDKSEVNLGAGEAGSVTIPRGQLKNLKASYTLTEPQLTAPLKKGQVVGTIDFQLNGKSIEQRPLIVMENVEEGG 3itf-a1-m1-cA_3itf-a1-m1-cB Structural basis for the inhibitory function of the CPXP adaptor protein P0AE85 P0AE85 1.45 X-RAY DIFFRACTION 76 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 103 103 3qzc-a1-m1-cA_3qzc-a1-m1-cB STQSHFDGISLTEHQRQQRDLQQARHEQPPVNVSELETHRLVTAENFDENAVRAQAEKANEQIARQVEAKVRNQYRLLTPEQQAVLNEKHQQREQLRDVTQWQ STQSHFDGISLTEHQRQQRDLQQARHEQPPVNVSELETHRLVTAENFDENAVRAQAEKANEQIARQVEAKVRNQYRLLTPEQQAVLNEKHQQREQLRDVTQWQ 3itj-a2-m1-cC_3itj-a2-m1-cB Crystal structure of Saccharomyces cerevisiae thioredoxin reductase 1 (Trr1) P29509 P29509 2.4 X-RAY DIFFRACTION 117 0.997 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 314 319 3d8x-a1-m1-cA_3d8x-a1-m1-cB 3itj-a1-m2-cD_3itj-a1-m1-cA SHVHNKVTIIGSGPAAHTAAIYLARAEIKPILYEGMMANGIAAGGQLTTTTEIENFPGFPDGLTGSELMDRMREQSTKFGTEIITETVSKVDLSSKPFKLWTEFNEDAEPVTTDAIILATGASAKRMHLPGEETYWQKGISACAVCDGAVFRNKPLAVIGGGDSACEEAQFLTKYGSKVFMLVRKDHLRASTKRAEKNEKIEILYNTVALEAKGDGKLLNALRIKNTKKNEETDLPVSGLFYAIGHTPATKIVAGQVDTDEAGYIKTVPGSSLTSVPGFFAAGDVQDSKYRQAITSAGSGCMAALDAEKYLTSL HVHNKVTIIGSGPAAHTAAIYLARAEIKPILYEGMMANGIAAGGQLTTTTEIENFPGFPDGLTGSELMDRMREQSTKFGTEIITETVSKVDLSSKPFKLWTEFNEDAEPVTTDAIILATGASAKRMHLPGEETYWQKGISACAVCDGAVPIFRNKPLAVIGGGDSACEEAQFLTKYGSKVFMLVRKDHLRASTIMQKRAEKNEKIEILYNTVALEAKGDGKLLNALRIKNTKKNEETDLPVSGLFYAIGHTPATKIVAGQVDTDEAGYIKTVPGSSLTSVPGFFAAGDVQDSKYRQAITSAGSGCMAALDAEKYLTSLE 3itm-a6-m1-cC_3itm-a6-m1-cD Catalytic domain of hPDE2A O00408 O00408 2.49 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 310 318 3itm-a5-m1-cA_3itm-a5-m1-cB DDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSEKAMMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWT DDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVS 3itu-a5-m2-cC_3itu-a5-m1-cA hPDE2A catalytic domain complexed with IBMX O00408 O00408 1.58 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 327 338 3itu-a6-m3-cD_3itu-a6-m1-cB 4htx-a1-m1-cC_4htx-a1-m1-cA 4htx-a2-m1-cD_4htx-a2-m1-cB 4htz-a1-m1-cC_4htz-a1-m1-cA 4htz-a2-m1-cD_4htz-a2-m1-cB 5vp0-a1-m3-cC_5vp0-a1-m1-cA 5vp0-a2-m1-cB_5vp0-a2-m2-cB 5vp1-a1-m3-cC_5vp1-a1-m1-cA 5vp1-a2-m1-cB_5vp1-a2-m2-cB 5xkm-a1-m1-cE_5xkm-a1-m1-cA 5xkm-a2-m1-cC_5xkm-a2-m1-cB 5xkm-a3-m1-cF_5xkm-a3-m1-cD 6zqz-a1-m2-cC_6zqz-a1-m1-cA 6zqz-a2-m3-cD_6zqz-a2-m1-cB IQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL DDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL 3itw-a1-m1-cA_3itw-a1-m2-cA Crystal structure of TioX from Micromonospora sp. ML1 Q333U2 Q333U2 2.15 X-RAY DIFFRACTION 90 1.0 349725 (Micromonospora sp. ML1) 349725 (Micromonospora sp. ML1) 123 123 GSHMVVELAYTDPDRAVDWLVRVFGFRLLLRQPAIGTIRHADLDTGGGIVMVRRTGEPYTVSCAGGHTCKQVIVWVSDVDEHFMRSTAAGADIVQPLQDKPWGLRQYLVRDLEGHLWEFTRHL GSHMVVELAYTDPDRAVDWLVRVFGFRLLLRQPAIGTIRHADLDTGGGIVMVRRTGEPYTVSCAGGHTCKQVIVWVSDVDEHFMRSTAAGADIVQPLQDKPWGLRQYLVRDLEGHLWEFTRHL 3iuo-a2-m2-cB_3iuo-a2-m3-cB The Crystal Structure of the C-terminal domain of the ATP-dependent DNA helicase RecQ from Porphyromonas gingivalis to 1.6A Q7MX11 Q7MX11 1.6 X-RAY DIFFRACTION 22 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 107 107 3iuo-a2-m1-cA_3iuo-a2-m2-cA 3iuo-a2-m1-cA_3iuo-a2-m3-cA 3iuo-a2-m1-cB_3iuo-a2-m2-cB 3iuo-a2-m1-cB_3iuo-a2-m3-cB 3iuo-a2-m2-cA_3iuo-a2-m3-cA VRTLANKSKKVSIVQQIDRKVALDDIAVSHGLDFPELLSEVETIVYSGTRINIDYFINEVDEDHLEDIFEYFKESTTDSLEEAQELGKDYSEEEIRLVRIKFLSEAN VRTLANKSKKVSIVQQIDRKVALDDIAVSHGLDFPELLSEVETIVYSGTRINIDYFINEVDEDHLEDIFEYFKESTTDSLEEAQELGKDYSEEEIRLVRIKFLSEAN 3iuo-a2-m3-cA_3iuo-a2-m3-cB The Crystal Structure of the C-terminal domain of the ATP-dependent DNA helicase RecQ from Porphyromonas gingivalis to 1.6A Q7MX11 Q7MX11 1.6 X-RAY DIFFRACTION 31 0.991 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 106 107 3iuo-a1-m1-cA_3iuo-a1-m1-cB 3iuo-a2-m1-cA_3iuo-a2-m1-cB 3iuo-a2-m2-cA_3iuo-a2-m2-cB RVRTLANKSKKVSIVQQIDRKVALDDIAVSHGLDFPELLSEVETIVYSGTRINIDYFINEVDEDHLEDIFEYFKESTTDSLEEAQELGKDYSEEEIRLVRIKFLSE VRTLANKSKKVSIVQQIDRKVALDDIAVSHGLDFPELLSEVETIVYSGTRINIDYFINEVDEDHLEDIFEYFKESTTDSLEEAQELGKDYSEEEIRLVRIKFLSEAN 3iup-a1-m1-cB_3iup-a1-m1-cA Crystal structure of Putative NADPH:quinone oxidoreductase (YP_296108.1) from RALSTONIA EUTROPHA JMP134 at 1.70 A resolution Q470B9 Q470B9 1.7 X-RAY DIFFRACTION 62 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 361 362 HSALQLRSRIKSSGELELSLDSIDTPHPGPDEVLIRIEASPLNPSDLGLLFGAADSTAKASGTAERPIVTARVPEGARSAGRLDASPVGNEGAGVVVEAGSSPAAQALGKTVAAIGGAYSQYRCIPADQCLVLPEGATPADGASSFVNPLTALGVETRLEGHSALVHTAAASNLGQLNQICLKDGIKLVNIVRKQEQADLLKAQGAVHVCNAASPTFQDLTEALVSTGATIAFDATGGGKLGGQILTCEAALNKSAREYSRYGSTTHKQVYLYGGLDTSPTEFNRNFGAWGGGWLLFPFLQKIGRERANALKQRVVAELKTTFASHYSKEISLAEVLDLDIAVYNKRATGEKYLINPNKGL HSALQLRSRIKSSGELELSLDSIDTPHPGPDEVLIRIEASPLNPSDLGLLFGAADSTAKASGTAERPIVTARVPEGARSAGRLDASPVGNEGAGVVVEAGSSPAAQALGKTVAAIGGAYSQYRCIPADQCLVLPEGATPADGASSFVNPLTALGVETRLEGHSALVHTAAASNLGQLNQICLKDGIKLVNIVRKQEQADLLKAQGAVHVCNAASPTFQDLTEALVSTGATIAFDATGGGKLGGQILTCEAALNKSAREYSRYGSTTHKQVYLYGGLDTSPTEFNRNFGAWGGGWLLFPFLQKIGRERANALKQRVVAELKTTFASHYSKEISLAEVLDLDIAVYNKRATGEKYLINPNKGLA 3iuw-a1-m1-cA_3iuw-a1-m1-cB Crystal structure of Activating signal cointegrator (NP_814290.1) from ENTEROCOCCUS FAECALIS V583 at 1.58 A resolution Q8KUB7 Q8KUB7 1.58 X-RAY DIFFRACTION 44 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 77 78 QHPTIHTLKIETEFFKAVKERRKTFEIRKNDRNFQVGDILILEEYNGYLDDECEAEVIYITDYAQREGYVVLGIELH QQHPTIHTLKIETEFFKAVKERRKTFEIRKNDRNFQVGDILILEEYNGYLDDECEAEVIYITDYAQREGYVVLGIELH 3iv1-a1-m1-cA_3iv1-a1-m1-cB Coiled-coil domain of tumor susceptibility gene 101 Q99816 Q99816 2.5 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 3iv1-a1-m1-cC_3iv1-a1-m1-cD 3iv1-a2-m1-cE_3iv1-a2-m2-cE 3iv1-a2-m1-cF_3iv1-a2-m2-cF 3iv1-a3-m1-cG_3iv1-a3-m3-cG 3iv1-a3-m1-cH_3iv1-a3-m3-cH GSSLISAVSDKLRWRKEEDRAQAELNALKRTEEDLKKGHQKLEEVTRLDQEVAEVDKNIELLKKKDEELSSALEK GSSLISAVSDKLRWRKEEDRAQAELNALKRTEEDLKKGHQKLEEVTRLDQEVAEVDKNIELLKKKDEELSSALEK 3iv1-a1-m1-cB_3iv1-a1-m1-cD Coiled-coil domain of tumor susceptibility gene 101 Q99816 Q99816 2.5 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 3iv1-a1-m1-cA_3iv1-a1-m1-cC 3iv1-a2-m1-cE_3iv1-a2-m1-cF 3iv1-a2-m2-cE_3iv1-a2-m2-cF 3iv1-a3-m1-cG_3iv1-a3-m1-cH 3iv1-a3-m3-cG_3iv1-a3-m3-cH GSSLISAVSDKLRWRKEEDRAQAELNALKRTEEDLKKGHQKLEEVTRLDQEVAEVDKNIELLKKKDEELSSALEK GSSLISAVSDKLRWRKEEDRAQAELNALKRTEEDLKKGHQKLEEVTRLDQEVAEVDKNIELLKKKDEELSSALEK 3iv2-a2-m1-cB_3iv2-a2-m1-cA Crystal structure of mature apo-Cathepsin L C25A mutant P07711 P07711 2.2 X-RAY DIFFRACTION 39 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 216 219 3iv2-a1-m1-cB_3iv2-a1-m1-cA APRSVDWREKGYVTPVKNQGQCGSAWAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLVVGYGFESNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV PRSVDWREKGYVTPVKNQGQCGSAWAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLVVGYGFESTESDNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV 3iv3-a1-m1-cA_3iv3-a1-m2-cA The Structure of a putative tagatose 1,6-aldolase from Streptococcus mutans Q8DWE5 Q8DWE5 1.8 X-RAY DIFFRACTION 43 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 322 322 ILSQQKYNYLAKVSDSNGVISALAFDQRGALKCLAQYQKEPTVAQEELKVLVSEELTPYASSILLDPEYGLPAAQARDREAGLLLAYEKTGYDANTTSRLPDCLVDWSIKRLKEAGADAVKFLLYYDVDGDPQVNVQKQAYIERIGSECQAEDIPFFLEILTYDETISNNSSVEFAKVKVHKVNDAKVFSAERFGIDVLKVEVPVNVYVEGFAEGEVVYSKEEAAQAFREQEASTDLPYIYLSAGVSAELFQETLVFAHKAGAKFNGVLCGRATWAGSVQVYEEGKEAARQWLRTSGLQNINELNKVLKTTASPWTEKVSVG ILSQQKYNYLAKVSDSNGVISALAFDQRGALKCLAQYQKEPTVAQEELKVLVSEELTPYASSILLDPEYGLPAAQARDREAGLLLAYEKTGYDANTTSRLPDCLVDWSIKRLKEAGADAVKFLLYYDVDGDPQVNVQKQAYIERIGSECQAEDIPFFLEILTYDETISNNSSVEFAKVKVHKVNDAKVFSAERFGIDVLKVEVPVNVYVEGFAEGEVVYSKEEAAQAFREQEASTDLPYIYLSAGVSAELFQETLVFAHKAGAKFNGVLCGRATWAGSVQVYEEGKEAARQWLRTSGLQNINELNKVLKTTASPWTEKVSVG 3iv7-a1-m1-cA_3iv7-a1-m1-cB Crystal structure of Iron-containing alcohol dehydrogenase (NP_602249.1) from Corynebacterium glutamicum ATCC 13032 KITASATO at 2.07 A resolution Q8NL91 Q8NL91 2.07 X-RAY DIFFRACTION 80 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 349 349 NSLAFNHDTLPQKVFGYGKSSAFLKQEVERRGSAKVVIAGERESIAHKVASEIEVAIWHDEVVHVPIEVAERARAVATDNEIDLLVCVGGGSTIGLAKAIATTALPIVAIPTTYAGSEATNVWGLTEAARKTTGVDLKVLPETVIYDSELTSLPVESVASGLNGLAHCIDSLWGPNADPINAVLAAEGIRALNQGLPKIVANPHSIEGRDEALYGAYLAAVSFASAGSGLHHKICHTLGGTFNLPHAQTHATVLPYVLAFNAGDAPEAERRAAAAFGTDTALEGLQRLRLSVNAPKRLSDYGFEASGIAEAVDVTLEKVPANNPRPVTRENLSRLLEAALNGEDPAVLS NSLAFNHDTLPQKVFGYGKSSAFLKQEVERRGSAKVVIAGERESIAHKVASEIEVAIWHDEVVHVPIEVAERARAVATDNEIDLLVCVGGGSTIGLAKAIATTALPIVAIPTTYAGSEATNVWGLTEAARKTTGVDLKVLPETVIYDSELTSLPVESVASGLNGLAHCIDSLWGPNADPINAVLAAEGIRALNQGLPKIVANPHSIEGRDEALYGAYLAAVSFASAGSGLHHKICHTLGGTFNLPHAQTHATVLPYVLAFNAGDAPEAERRAAAAFGTDTALEGLQRLRLSVNAPKRLSDYGFEASGIAEAVDVTLEKVPANNPRPVTRENLSRLLEAALNGEDPAVLS 3iv8-a1-m1-cA_3iv8-a1-m1-cC N-acetylglucosamine-6-phosphate deacetylase from Vibrio cholerae complexed with fructose 6-phosphate O32445 O32445 2.53 X-RAY DIFFRACTION 70 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 379 379 3egj-a2-m2-cB_3egj-a2-m1-cA 3iv8-a2-m1-cD_3iv8-a2-m1-cB AMYALTNCKIYTGNDVLVKHAVIINGDKIEAVCPIESLPSEMNVVDLNGANLSPGFIDLQLNGCGGVMFNDEITAETIDTMHKANLKSGCTSFLPTLITSSDENMRQAIAAAREYQAKYPNQSLGLHLEGPYLNVMKKGIHSVDFIRPSDDTMIDTICANSDVIAKVTLAPENNKPEHIEKLVKAGIVVSIGHTNATYSEARKSFESGITFATHLFNAMTPMVGREPGVVGAIYDTPEVYAGIIADGFHVDYANIRIAHKIKGEKLVLVTDATAPAGAEMDYFIFVGKKVYYRDGKCVDENGTLGGSALTMIEAVQNTVEHVGIALDEALRMATLYPAKAIGVDEKLGRIKKGMIANLTVFDRDFNVKATVVNGQYEQN AMYALTNCKIYTGNDVLVKHAVIINGDKIEAVCPIESLPSEMNVVDLNGANLSPGFIDLQLNGCGGVMFNDEITAETIDTMHKANLKSGCTSFLPTLITSSDENMRQAIAAAREYQAKYPNQSLGLHLEGPYLNVMKKGIHSVDFIRPSDDTMIDTICANSDVIAKVTLAPENNKPEHIEKLVKAGIVVSIGHTNATYSEARKSFESGITFATHLFNAMTPMVGREPGVVGAIYDTPEVYAGIIADGFHVDYANIRIAHKIKGEKLVLVTDATAPAGAEMDYFIFVGKKVYYRDGKCVDENGTLGGSALTMIEAVQNTVEHVGIALDEALRMATLYPAKAIGVDEKLGRIKKGMIANLTVFDRDFNVKATVVNGQYEQN 3ivl-a1-m1-cB_3ivl-a1-m1-cA The Crystal Structure of the Inactive Peptidase Domain of a Putative Zinc Protease from Bordetella parapertussis to 2.2A Q7W521 Q7W521 2.2 X-RAY DIFFRACTION 18 0.989 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 179 183 VTLRRAGGTPLVAAYHLPAAGSPDFVGLDLAATILADTPSGRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVRDAKLDDVQRAAVAYLVRSNRTEGRYIPTEAPL VTLRRAGGTPLVAAYHLPAAGSPDFVGLDLAATILADTPSGRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVRDAKLDDVQRAAVAYLVRSNRTEGRYIPTEKPQRAPL 3ivl-a2-m2-cA_3ivl-a2-m3-cA The Crystal Structure of the Inactive Peptidase Domain of a Putative Zinc Protease from Bordetella parapertussis to 2.2A Q7W521 Q7W521 2.2 X-RAY DIFFRACTION 28 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 183 183 3ih6-a1-m1-cA_3ih6-a1-m1-cB 3ih6-a1-m1-cA_3ih6-a1-m1-cC 3ih6-a1-m1-cB_3ih6-a1-m1-cC 3ih6-a1-m1-cD_3ih6-a1-m1-cE 3ih6-a1-m1-cD_3ih6-a1-m1-cF 3ih6-a1-m1-cF_3ih6-a1-m1-cE 3ivl-a2-m1-cA_3ivl-a2-m2-cA 3ivl-a2-m1-cA_3ivl-a2-m3-cA 3ivl-a3-m1-cB_3ivl-a3-m4-cB 3ivl-a3-m1-cB_3ivl-a3-m5-cB 3ivl-a3-m4-cB_3ivl-a3-m5-cB VTLRRAGGTPLVAAYHLPAAGSPDFVGLDLAATILADTPSGRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVRDAKLDDVQRAAVAYLVRSNRTEGRYIPTEKPQRAPL VTLRRAGGTPLVAAYHLPAAGSPDFVGLDLAATILADTPSGRLYHALVPTKLASGVFGFTDQLDPGLAFGAQLQPGDQDKALQTLTATLESLSSKPFSQEELERARSKWLTAWQQTYADPEKVGVALSEAIASGDWRLFFLQRDRVRDAKLDDVQRAAVAYLVRSNRTEGRYIPTEKPQRAPL 3ivp-a1-m1-cB_3ivp-a1-m1-cA The structure of a possible transposon-related DNA-binding protein from Clostridium difficile 630. Q180H4 Q180H4 2.02 X-RAY DIFFRACTION 117 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 109 113 EDKYDFRALGLAIKEARKKQGLTREQVGAIEIDPRYLTNIENKGQHPSLQVLYDLVSLLNVSVDEFFLPASSQVKSTKRRQLENKIDNFTDADLVIESVADGIVKSKEV KKEDKYDFRALGLAIKEARKKQGLTREQVGAIEIDPRYLTNIENKGQHPSLQVLYDLVSLLNVSVDEFFLPASSQVKSTKRRQLENKIDNFTDADLVIESVADGIVKSKEVGE 3ivp-a2-m1-cC_3ivp-a2-m1-cD The structure of a possible transposon-related DNA-binding protein from Clostridium difficile 630. Q180H4 Q180H4 2.02 X-RAY DIFFRACTION 109 0.991 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 109 112 DKYDFRALGLAIKEARKKQGLTREQVGAIEIDPRYLTNIENKGQHPSLQVLYDLVSLLNVSVDEFFLPASSQVKSTKRRQLENKIDNFTDADLVIESVADGIVKSKEVG RKKEDKYDFRALGLAIKEARKKQGLTREQVGAIEIDPRYLTNIENKGQHPSLQVLYDLVSLLNVSVDEFFLPASSQVKSTKRRQLENKIDNFTDADLVIESVADGIVKSKEV 3ivr-a1-m1-cB_3ivr-a1-m1-cA CRYSTAL STRUCTURE OF PUTATIVE long-chain-fatty-acid CoA ligase FROM Rhodopseudomonas palustris CGA009 Q6NAE3 Q6NAE3 2 X-RAY DIFFRACTION 84 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 393 394 SLHDFTLADVYRRNAALFPDRTAFMVDGVRLTHRDYLARAERLASGLLRDGVHTGDRVAILSQNCSEMIELIGAVALIGAILLPVNYRLNADEIAFVLGDGAPSVVVAGTDYRDIVAGVLPSLGGVKKAYAIGDGSGPFAPFKDLASDTPFSAPEFGAADGFVIIHTAAGRPRGALISQGNLLIAQSSLVDAWRLTEADVNLGMLPLFHVTGLGLMLTLQQAGGASVIAAKFDPAQAARDIEAHKVTVMAEFAPMLGNILDQAAPAQLASLRAVTGLDTPETIERFEATCPNATFWATFGQSETSGLSTFAPYRDRPKSAGRPLFWRTVAVVDAEDRPLPPGEVGEIVLRGPTVFKGYWNNAAATQHAFRNGWHHTGDMGRFDADGYLFYAGR SLHDFTLADVYRRNAALFPDRTAFMVDGVRLTHRDYLARAERLASGLLRDGVHTGDRVAILSQNCSEMIELIGAVALIGAILLPVNYRLNADEIAFVLGDGAPSVVVAGTDYRDIVAGVLPSLGGVKKAYAIGDGSGPFAPFKDLASDTPFSAPEFGAADGFVIIHTAAGRPRGALISQGNLLIAQSSLVDAWRLTEADVNLGMLPLFHVTGLGLMLTLQQAGGASVIAAKFDPAQAARDIEAHKVTVMAEFAPMLGNILDQAAPAQLASLRAVTGLDTPETIERFEATCPNATFWATFGQSETSGLSTFAPYRDRPKSAGRPLFWRTVAVVDAEDRPLPPGEVGEIVLRGPTVFKGYWNNAAATQHAFRNGWHHTGDMGRFDADGYLFYAGRA 3ivt-a1-m1-cA_3ivt-a1-m1-cB Homocitrate Synthase Lys4 bound to 2-OG Q9Y823 Q9Y823 2.67 X-RAY DIFFRACTION 384 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 398 400 3ivs-a1-m1-cB_3ivs-a1-m1-cA 3ivu-a1-m1-cA_3ivu-a1-m1-cB 3mi3-a1-m1-cB_3mi3-a1-m1-cA VSEANGTETIKPPPYGPNPSDFLSRVNNFSIIESTLREGEQFANAFFDTEKKIQIAKALDNFGVDYIELTSPVASEQSRQDCEAICKLGLKCKILTHIRCHMDDARVAVETGVDGVDVVIGTSQYLRKYSHGKDMTYIIDSATEVINFVKSKGIEVRFSSEDSFRSDLVDLLSLYKAVDKIGVNRVGIADTVGCATPRQVYDLIRTLRGVVSCDIECHFHNDTGMAIANAYCALEAGATHIDTSILGIGERNGITPLGALLARMYVTDREYITHKYKLNQLRELENLVADAVEVQIPFNNYITGMCAFTHKAGIHAKAILANPSTYEILKPEDFGMSRYVHVGSRLTGWNAIKSRAEQLNLHLTDAQAKELTVRIKKLADVRTLAMDDVDRVLREYHA VSEANGTETIKPPMPYGPNPSDFLSRVNNFSIIESTLREGEQFANAFFDTEKKIQIAKALDNFGVDYIELTSPVASEQSRQDCEAICKLGLKCKILTHIRCHMDDARVAVETGVDGVDVVIGTSQYLRKYSHGKDMTYIIDSATEVINFVKSKGIEVRFSSEDSFRSDLVDLLSLYKAVDKIGVNRVGIADTVGCATPRQVYDLIRTLRGVVSCDIECHFHNDTGMAIANAYCALEAGATHIDTSILGIGERNGITPLGALLARMYVTDREYITHKYKLNQLRELENLVADAVEVQIPFNNYITGMCAFTHKAGIHAKAILANPSTYEILKPEDFGMSRYVHVGSRLTGWNAIKSRAEQLNLHLTDAQAKELTVRIKKLADVRTLAMDDVDRVLREYHAD 3ivz-a1-m1-cA_3ivz-a1-m1-cB Crystal structure of hyperthermophilic nitrilase Q9UYV8 Q9UYV8 1.57 X-RAY DIFFRACTION 95 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 260 260 3iw3-a1-m1-cA_3iw3-a1-m1-cB 3ki8-a1-m1-cA_3ki8-a1-m1-cB 3klc-a1-m1-cA_3klc-a1-m1-cB VKVAYVQMNPQILEPDKNYSKAEKLIKEASKQGAQLVVLPELFDTGYNFETREEVFEIAQKIPEGETTTFLMDVARDTGVYIVAGTAEKDGDVLYNSAVVVGPRGFIGKYRKIHLFYREKFFFEPGDLGFRVFDLGFMKVGVMIFDWFFPESARTLALKGADVIAHPANLVMPYAPRAMPIRALENKVYTVTADRVGEERGLKFIGKSLIASPKAEVLSMASETEEEVGVAEIDLSLVRNKRINDLNDIFKDRREEYYFR VKVAYVQMNPQILEPDKNYSKAEKLIKEASKQGAQLVVLPELFDTGYNFETREEVFEIAQKIPEGETTTFLMDVARDTGVYIVAGTAEKDGDVLYNSAVVVGPRGFIGKYRKIHLFYREKFFFEPGDLGFRVFDLGFMKVGVMIFDWFFPESARTLALKGADVIAHPANLVMPYAPRAMPIRALENKVYTVTADRVGEERGLKFIGKSLIASPKAEVLSMASETEEEVGVAEIDLSLVRNKRINDLNDIFKDRREEYYFR 3iwa-a1-m1-cA_3iwa-a1-m2-cA Crystal structure of a FAD-dependent pyridine nucleotide-disulphide oxidoreductase from Desulfovibrio vulgaris A0A0H3A4H3 A0A0H3A4H3 2.3 X-RAY DIFFRACTION 119 1.0 391774 (Desulfovibrio vulgaris DP4) 391774 (Desulfovibrio vulgaris DP4) 397 397 KHVVVIGAVALGPKAACRFKRLDPEAHVTMIDQAVEALVETRAHAIDRAAHTVEIENLRTGERRTLKYDKLVLALGSKANRPPVEGMDLAGVTPVTNLDEAEFVQHAISAGEVSKAVIVGGGFIGLEMAVSLADMWGIDTTVVELADQIMPGFTSKSLSQMLRHDLEKNDVVVHTGEKVVRLEGENGKVARVITDKRTLDADLVILAAGVSPNTQLARDAGLELDPRGAIIVDTRMRTSDPDIFAGGDCVTIPNLVTGKPGFFPLGSMANRQGRVIGTNLADGDATFPGAVGSWAVKLFEGSASGAGLTVEGALREGYDAVNVHVEQIMTLQLVVDRPTRRVLGIQGFSTLGDALTARINAVATMLASKPTVEDISNAEVVMDIVNVAGNVADNVLA KHVVVIGAVALGPKAACRFKRLDPEAHVTMIDQAVEALVETRAHAIDRAAHTVEIENLRTGERRTLKYDKLVLALGSKANRPPVEGMDLAGVTPVTNLDEAEFVQHAISAGEVSKAVIVGGGFIGLEMAVSLADMWGIDTTVVELADQIMPGFTSKSLSQMLRHDLEKNDVVVHTGEKVVRLEGENGKVARVITDKRTLDADLVILAAGVSPNTQLARDAGLELDPRGAIIVDTRMRTSDPDIFAGGDCVTIPNLVTGKPGFFPLGSMANRQGRVIGTNLADGDATFPGAVGSWAVKLFEGSASGAGLTVEGALREGYDAVNVHVEQIMTLQLVVDRPTRRVLGIQGFSTLGDALTARINAVATMLASKPTVEDISNAEVVMDIVNVAGNVADNVLA 3iwd-a1-m1-cB_3iwd-a1-m1-cD T. maritima AdoMetDC complex with 5'-Deoxy-5'-dimethyl thioadenosine Q9WZC3 Q9WZC3 1.9 X-RAY DIFFRACTION 29 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 61 61 3iwb-a1-m1-cB_3iwb-a1-m1-cD 3iwc-a1-m1-cB_3iwc-a1-m1-cD KSLGRHLVAEFYECDREVLDNVQLIEQEMKQAAYESGATIVTSTFHRFLPYGVSGVVVISE KSLGRHLVAEFYECDREVLDNVQLIEQEMKQAAYESGATIVTSTFHRFLPYGVSGVVVISE 3iwf-a1-m1-cA_3iwf-a1-m1-cB The Crystal Structure of the N-terminal domain of a RpiR Transcriptional Regulator from Staphylococcus epidermidis to 1.4A A0A0H2VHQ2 A0A0H2VHQ2 1.4 X-RAY DIFFRACTION 30 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 87 88 PNILYKIDNQYPYFTKNEKKIAQFILNYPHKVVNTSQEIANQLETSSTSIIRLSKKVTPGGFNELKTRLSKFLPKEVTQYNNKLHSR PNILYKIDNQYPYFTKNEKKIAQFILNYPHKVVNTSQEIANQLETSSTSIIRLSKKVTPGGFNELKTRLSKFLPKEVTQYNVNKLHSR 3iwg-a1-m1-cB_3iwg-a1-m1-cA Acetyltransferase from GNAT family from Colwellia psychrerythraea. Q47UI6 Q47UI6 2.3 X-RAY DIFFRACTION 56 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 261 262 KIKTIESLSDLTQLKKAYFDSSIVPLDGWHFGFAPAKHFGFYVNKNLVGFCCVNDDGYLLQYYLQPEFQLCSQELFTLISQQNSSVIGEVKGAFVSTAELNYQALCLDNSATFKVNSLYQHNTKLANLEIDQIAGTEQLTAFVTFAAANIGAPEQWLTQYYGNLIERKELFGYWHKGKLLAAGECRLFDQYQTEYADLGIVAQSNRGQGIAKKVLTFLTKHAATQGLTSICSTESNNVAAQKAIAHAGFTSAHRIVQFEFK FKIKTIESLSDLTQLKKAYFDSSIVPLDGWHFGFAPAKHFGFYVNKNLVGFCCVNDDGYLLQYYLQPEFQLCSQELFTLISQQNSSVIGEVKGAFVSTAELNYQALCLDNSATFKVNSLYQHNTKLANLEIDQIAGTEQLTAFVTFAAANIGAPEQWLTQYYGNLIERKELFGYWHKGKLLAAGECRLFDQYQTEYADLGIVAQSNRGQGIAKKVLTFLTKHAATQGLTSICSTESNNVAAQKAIAHAGFTSAHRIVQFEFK 3iwg-a2-m2-cB_3iwg-a2-m1-cA Acetyltransferase from GNAT family from Colwellia psychrerythraea. Q47UI6 Q47UI6 2.3 X-RAY DIFFRACTION 69 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 261 262 KIKTIESLSDLTQLKKAYFDSSIVPLDGWHFGFAPAKHFGFYVNKNLVGFCCVNDDGYLLQYYLQPEFQLCSQELFTLISQQNSSVIGEVKGAFVSTAELNYQALCLDNSATFKVNSLYQHNTKLANLEIDQIAGTEQLTAFVTFAAANIGAPEQWLTQYYGNLIERKELFGYWHKGKLLAAGECRLFDQYQTEYADLGIVAQSNRGQGIAKKVLTFLTKHAATQGLTSICSTESNNVAAQKAIAHAGFTSAHRIVQFEFK FKIKTIESLSDLTQLKKAYFDSSIVPLDGWHFGFAPAKHFGFYVNKNLVGFCCVNDDGYLLQYYLQPEFQLCSQELFTLISQQNSSVIGEVKGAFVSTAELNYQALCLDNSATFKVNSLYQHNTKLANLEIDQIAGTEQLTAFVTFAAANIGAPEQWLTQYYGNLIERKELFGYWHKGKLLAAGECRLFDQYQTEYADLGIVAQSNRGQGIAKKVLTFLTKHAATQGLTSICSTESNNVAAQKAIAHAGFTSAHRIVQFEFK 3iwj-a1-m1-cA_3iwj-a1-m1-cB Crystal structure of aminoaldehyde dehydrogenase 2 from Pisum sativum (PsAMADH2) Q93YB2 Q93YB2 2.15 X-RAY DIFFRACTION 250 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 500 500 PIPTRQLFINGDWKAPVLNKRIPVINPATQNIIGDIPAATKEDVDVAVAAAKTALTRNKGADWATASGAVRARYLRAIAAKVTEKKPELAKLESIDCGKPLDEAAWDIDDVAGCFEYYADLAEKLDARQKAPVSLPMDTFKSHVLREPIGVVGLITPWNYPMLMATWKVAPALAAGCAAILKPSELASLTCLELGEICKEVGLPPGVLNILTGLGPEAGAPLATHPDVDKVAFTGSSATGSKIMTAAAQLVKPVSLELGGKSPLVVFEDVDLDKAAEWAIFGCFWTNGQICSATSRLILHESIATEFLNRIVKWIKNIKISDPLEEGCRLGPVVSEGQYEKILKFVSNAKSEGATILTGGSRPEHLKKGFFIEPTIITDVTTNMQIWREEVFGPVLCVKTFSTEEEAIDLANDTVYGLGAAVISNDLERCERVTKAFKAGIVWVNCSQPCFTQAPWGGVKRSGFGRELGEWGLDNYLSVKQVTQYISEEPWGWYQPPAKL PIPTRQLFINGDWKAPVLNKRIPVINPATQNIIGDIPAATKEDVDVAVAAAKTALTRNKGADWATASGAVRARYLRAIAAKVTEKKPELAKLESIDCGKPLDEAAWDIDDVAGCFEYYADLAEKLDARQKAPVSLPMDTFKSHVLREPIGVVGLITPWNYPMLMATWKVAPALAAGCAAILKPSELASLTCLELGEICKEVGLPPGVLNILTGLGPEAGAPLATHPDVDKVAFTGSSATGSKIMTAAAQLVKPVSLELGGKSPLVVFEDVDLDKAAEWAIFGCFWTNGQICSATSRLILHESIATEFLNRIVKWIKNIKISDPLEEGCRLGPVVSEGQYEKILKFVSNAKSEGATILTGGSRPEHLKKGFFIEPTIITDVTTNMQIWREEVFGPVLCVKTFSTEEEAIDLANDTVYGLGAAVISNDLERCERVTKAFKAGIVWVNCSQPCFTQAPWGGVKRSGFGRELGEWGLDNYLSVKQVTQYISEEPWGWYQPPAKL 3iwk-a6-m1-cK_3iwk-a6-m1-cL Crystal structure of aminoaldehyde dehydrogenase 1 from Pisum sativum (PsAMADH1) Q8VWZ1 Q8VWZ1 2.4 X-RAY DIFFRACTION 247 0.998 3888 (Pisum sativum) 3888 (Pisum sativum) 496 496 3iwk-a1-m1-cA_3iwk-a1-m1-cB 3iwk-a2-m1-cC_3iwk-a2-m1-cD 3iwk-a3-m1-cF_3iwk-a3-m1-cE 3iwk-a4-m1-cG_3iwk-a4-m1-cH 3iwk-a5-m1-cI_3iwk-a5-m1-cJ SRQLFIDGEWRVPILNKRIPNINPSTENIIGDIPAATKEDVDLAVDAAKRAISRKNGRDWSAASGSLRARYLRAIAAKIKEKKDELGKLESIDCGKPLEEALADLDDVVACFEYYAGLAEELDSKQKAPISLPMDTFKSYILKEPIGVVALITPWNYPFLMATWKIAPALAAGCAAILKPSELASVTCLELGEICKEVGLPRGVLNIVTGLGHEAGASLASHPDVDKISFTGSSATGSKIMTTAAQLVKPVSLELGGKSPIVVFEDVDLDKVAEWTVFGCFFTNGQICSATSRLIVHESIAVEFVDKLVKWAENIKISDPLEEGCRLGPIVSEAQYKKVLNCISSAKSEGATILTGGRRPEHLKKGYFVEPTIITDVTTSMQIWREEVFGPVLAVKTFSTEEEAINLANDTHYGLGSAVMSNDLERCERLSKALQAGIVWINCAQPSFIQAPWGGIKRSGFGRELGEWGLENYLSVKQVTRYTSDEPWGWYQPPSK SSRQLFIDGEWRVPILNKRIPNINPSTENIIGDIPAATKEDVDLAVDAAKRAISRKNGRDWSAASGSLRARYLRAIAAKIKEKKDELGKLESIDCGKPLEEALADLDDVVACFEYYAGLAEELDSKQKAPISLPMDTFKSYILKEPIGVVALITPWNYPFLMATWKIAPALAAGCAAILKPSELASVTCLELGEICKEVGLPRGVLNIVTGLGHEAGASLASHPDVDKISFTGSSATGSKIMTTAAQLVKPVSLELGGKSPIVVFEDVDLDKVAEWTVFGCFFTNGQICSATSRLIVHESIAVEFVDKLVKWAENIKISDPLEEGCRLGPIVSEAQYKKVLNCISSAKSEGATILTGGRRPEHLKKGYFVEPTIITDVTTSMQIWREEVFGPVLAVKTFSTEEEAINLANDTHYGLGSAVMSNDLERCERLSKALQAGIVWINCAQPSFIQAPWGGIKRSGFGRELGEWGLENYLSVKQVTRYTSDEPWGWYQPPS 3iwl-a2-m1-cA_3iwl-a2-m2-cA Crystal structure of cisplatin bound to a human copper chaperone (monomer) O00244 O00244 1.6 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 PKHEFSVDMTCGGCAEAVSRVLNKLGGVKYDIDLPNKKVCIESEHSMDTLLATLKKTGKTVSYLGL PKHEFSVDMTCGGCAEAVSRVLNKLGGVKYDIDLPNKKVCIESEHSMDTLLATLKKTGKTVSYLGL 3iwp-a1-m1-cB_3iwp-a1-m1-cD Crystal structure of human copper homeostasis protein CutC Q9NTM9 Q9NTM9 2.5 X-RAY DIFFRACTION 12 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 244 245 3iwp-a1-m1-cC_3iwp-a1-m1-cA 3iwp-a2-m1-cG_3iwp-a2-m1-cE 3iwp-a2-m1-cH_3iwp-a2-m1-cF 3iwp-a3-m1-cJ_3iwp-a3-m1-cL 3iwp-a3-m1-cK_3iwp-a3-m1-cI NGFLMEVCVDSVESAVNAERGGADRIELCSGLSEGGTTPSMGVLQVVKQSVQIPVFVMIRPRGGDFLYSDREIEVMKADIRLAKLYGADGLVFGALTEDGHIDKELCMSLMAICRPLPVTFHRAFDMVHDPMAALETLLTLGFERVLTSGCDSSALEGLPLIKRLIEQAKGRIVVMPGGGITDRNLQRILEGSGATEFHCSARSTRDSGMKFRNSSVAMGCSEYSLKVTDVTKVRTLNAIAKNI GFLMEVCVDSVESAVNAERGGADRIELCSGLSEGGTTPSMGVLQVVKQSVQIPVFVMIRPRGGDFLYSDREIEVMKADIRLAKLYGADGLVFGALTEDGHIDKELCMSLMAICRPLPVTFHRAFDMVHDPMAALETLLTLGFERVLTSGCDSSALEGLPLIKRLIEQAKGRIVVMPGGGITDRNLQRILEGSGATEFHCSARSTRDSGMKFRNSSVAMGSCSEYSLKVTDVTKVRTLNAIAKNIL 3iwp-a6-m1-cF_3iwp-a6-m1-cE Crystal structure of human copper homeostasis protein CutC Q9NTM9 Q9NTM9 2.5 X-RAY DIFFRACTION 194 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 241 242 3iwp-a1-m1-cB_3iwp-a1-m1-cA 3iwp-a1-m1-cD_3iwp-a1-m1-cC 3iwp-a2-m1-cF_3iwp-a2-m1-cE 3iwp-a2-m1-cH_3iwp-a2-m1-cG 3iwp-a3-m1-cJ_3iwp-a3-m1-cI 3iwp-a3-m1-cK_3iwp-a3-m1-cL 3iwp-a4-m1-cB_3iwp-a4-m1-cA 3iwp-a5-m1-cD_3iwp-a5-m1-cC 3iwp-a7-m1-cH_3iwp-a7-m1-cG 3iwp-a8-m1-cJ_3iwp-a8-m1-cI 3iwp-a9-m1-cK_3iwp-a9-m1-cL GFLMEVCVDSVESAVNAERGGADRIELCSGLSEGGTTPSMGVLQVVKQSVQIPVFVMIRPRGGDFLYSDREIEVMKADIRLAKLYGADGLVFGALTEDGHIDKELCMSLMAICRPLPVTFHRAFDMVHDPMAALETLLTLGFERVLTSGCDSSALEGLPLIKRLIEQAKGRIVVMPGGGITDRNLQRILEGSGATEFHCSARSTRDSGMKFRNSSVAMGEYSLKVTDVTKVRTLNAIAKNI NGFLMEVCVDSVESAVNAERGGADRIELCSGLSEGGTTPSMGVLQVVKQSVQIPVFVMIRPRGGDFLYSDREIEVMKADIRLAKLYGADGLVFGALTEDGHIDKELCMSLMAICRPLPVTFHRAFDMVHDPMAALETLLTLGFERVLTSGCDSSALEGLPLIKRLIEQAKGRIVVMPGGGITDRNLQRILEGSGATEFHCSARSTRDSGMKFRNSSVACSEYSLKVTDVTKVRTLNAIAKNI 3iwt-a1-m1-cC_3iwt-a1-m2-cC Structure of hypothetical molybdenum cofactor biosynthesis protein B from Sulfolobus tokodaii Q96Y52 Q96Y52 1.9 X-RAY DIFFRACTION 37 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 166 166 3iwt-a1-m1-cA_3iwt-a1-m2-cB 3iwt-a1-m1-cB_3iwt-a1-m2-cA PKSLNFYVITISTSRYEKLLKKEPIVDESGDIIKQLLIENGHKIIGYSLVPDDKIKILKAFTDALSIDEVDVIISTGGTGYSPTDITVETIRKLFDREIEGFSDVFRLVSFNDPEVKAAAYLTKASAGIIGKKIVYLLPGSPDAVKLALKELILPEVGHLVYLVRS PKSLNFYVITISTSRYEKLLKKEPIVDESGDIIKQLLIENGHKIIGYSLVPDDKIKILKAFTDALSIDEVDVIISTGGTGYSPTDITVETIRKLFDREIEGFSDVFRLVSFNDPEVKAAAYLTKASAGIIGKKIVYLLPGSPDAVKLALKELILPEVGHLVYLVRS 3iwt-a2-m1-cB_3iwt-a2-m1-cC Structure of hypothetical molybdenum cofactor biosynthesis protein B from Sulfolobus tokodaii Q96Y52 Q96Y52 1.9 X-RAY DIFFRACTION 51 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 166 166 3iwt-a1-m1-cA_3iwt-a1-m1-cB 3iwt-a1-m1-cA_3iwt-a1-m1-cC 3iwt-a1-m1-cB_3iwt-a1-m1-cC 3iwt-a1-m2-cA_3iwt-a1-m2-cB 3iwt-a1-m2-cA_3iwt-a1-m2-cC 3iwt-a1-m2-cB_3iwt-a1-m2-cC 3iwt-a2-m1-cA_3iwt-a2-m1-cB 3iwt-a2-m1-cA_3iwt-a2-m1-cC PKSLNFYVITISTSRYEKLLKKEPIVDESGDIIKQLLIENGHKIIGYSLVPDDKIKILKAFTDALSIDEVDVIISTGGTGYSPTDITVETIRKLFDREIEGFSDVFRLVSFNDPEVKAAAYLTKASAGIIGKKIVYLLPGSPDAVKLALKELILPEVGHLVYLVRS PKSLNFYVITISTSRYEKLLKKEPIVDESGDIIKQLLIENGHKIIGYSLVPDDKIKILKAFTDALSIDEVDVIISTGGTGYSPTDITVETIRKLFDREIEGFSDVFRLVSFNDPEVKAAAYLTKASAGIIGKKIVYLLPGSPDAVKLALKELILPEVGHLVYLVRS 3iwz-a2-m1-cB_3iwz-a2-m1-cC The c-di-GMP Responsive Global Regulator CLP Links Cell-Cell Signaling to Virulence Gene Expression in Xanthomonas campestris P22260 P22260 2.3 X-RAY DIFFRACTION 114 0.995 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 207 207 3iwz-a1-m1-cA_3iwz-a1-m1-cD LDAGTIERFLAHSHRRRYPTRTDVFRPGDPAGTLYYVISGSVSIIAEEDDDRELVLGYFGSGEFVGEMGLFIESDTREVILRTRTQCELAEISYERLQQLFQTSLSPDAPRILYAIGVQLSKRLLDTTRKASRLAFLDVTDRIVRTLHDLSKEPEAMSHPQGTQLRVSRQELARLVGCSREMAGRVLKKLQADGLLHARGKTVVLYG DAGTIERFLAHSHRRRYPTRTDVFRPGDPAGTLYYVISGSVSIIAEEDDDRELVLGYFGSGEFVGEMGLFIESDTREVILRTRTQCELAEISYERLQQLFQTSLSPDAPRILYAIGVQLSKRLLDTTRKASRLAFLDVTDRIVRTLHDLSKEPEAMSHPQGTQLRVSRQELARLVGCSREMAGRVLKKLQADGLLHARGKTVVLYGT 3ix0-a2-m1-cC_3ix0-a2-m1-cD Crystal structure of human seminal plasma protein PSP94 P08118 P08118 2.3 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 3ix0-a1-m1-cA_3ix0-a1-m1-cB SCYFIPNEGVPGDSTRKCMDLKGNKHPINSEWQTDNCETCTCYETEISCCTLVSTPVGYDKDNCQRIFKKEDCKYIVVEKKDPKKTCSVSEWII SCYFIPNEGVPGDSTRKCMDLKGNKHPINSEWQTDNCETCTCYETEISCCTLVSTPVGYDKDNCQRIFKKEDCKYIVVEKKDPKKTCSVSEWII 3ix1-a1-m1-cA_3ix1-a1-m1-cB Periplasmic N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine binding protein from Bacillus halodurans Q9K9G5 Q9K9G5 2.4 X-RAY DIFFRACTION 68 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 301 301 ALETVEVMLDWYPNAVHTFLYVAIENGYFAEEGLDVDIVFPTNPTDPIQLTASGAIPLALSYQPDVILARSKDLPVVSVASVVRSPLNHVMFLAEQDFDSPADLVGLTVGYPGIPVNEPILKTMVEAAGGDYEQVHLMDVGFELGASIVSGRADAVVGTYINHEYPVLKHEGHDISYFNPVDYGVPEYDELVLISNEAYVEESGEVLAAFWRAALKGYEWMVENPDEALNVLLTNQDEANFPLIQEVEEESLSILLEKMENPNGPFGGQDAESWEEVISWLDAHDWLEQPVVAEDAFSSIT ALETVEVMLDWYPNAVHTFLYVAIENGYFAEEGLDVDIVFPTNPTDPIQLTASGAIPLALSYQPDVILARSKDLPVVSVASVVRSPLNHVMFLAEQDFDSPADLVGLTVGYPGIPVNEPILKTMVEAAGGDYEQVHLMDVGFELGASIVSGRADAVVGTYINHEYPVLKHEGHDISYFNPVDYGVPEYDELVLISNEAYVEESGEVLAAFWRAALKGYEWMVENPDEALNVLLTNQDEANFPLIQEVEEESLSILLEKMENPNGPFGGQDAESWEEVISWLDAHDWLEQPVVAEDAFSSIT 3ix6-a1-m1-cA_3ix6-a1-m1-cB Crystal structure of Thymidylate synthase thyA from Brucella melitensis P67042 P67042 2.2 X-RAY DIFFRACTION 132 0.984 29459 (Brucella melitensis) 29459 (Brucella melitensis) 244 248 MRTYLDLLQHVLDHGVDRDDGTRSVFGYQMRFDLEEGFPVLKLHLRSIIHELLWFLKGDTNIAYLKENGVTIWDEWADENGDLGPVYGYQWRSWPAPDGRHIDQIANLLKMLHTNPQSRRLIVSAWNPALVDEMALPPCHCLFQFYVANGRLSCQLYQRSADIFLGVPFNIASYALLTMMIAQVTGLKPGEFIHTLGDAHIYSNHFEQARLQLTRTPKKLPVMHINPDVKDLFAFRFEDFRLDG EQIGGMRTYLDLLQHVLDHGVDRGTRSVFGYQMRFDLEEGFPVLTTKHLRSIIHELLWFLKGDTNIAYLKENGVTIWDEWADENGDLGPVYGYQWRSWPAPDGRHIDQIANLLKMLHTNPQSRRLIVSAWNPALVDEMALPPCHCLFQFYVANGRLSCQLYQRSADIFLGVPFNIASYALLTMMIAQVTGLKPGEFIHTLGDAHIYSNHFEQARLQLTRTPKKLPVMHINPDVKDLFAFRFEDFRLDG 3ix7-a1-m1-cB_3ix7-a1-m1-cA Crystal structure of a domain of functionally unknown protein from Thermus thermophilus HB8 Q5SKV3 Q5SKV3 2.15 X-RAY DIFFRACTION 68 0.992 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 129 130 NAPRGGKVLDTSVLVDGRVAEVAAVGFLEGPLWVPHFVLKELQHFADSQDPLRRAKGRRGLETLERLREAAPLEVLETTPKGESVDEKLLFLARDLEAALVTNDHALLQARIYGVKALSIQALAQALRP APRGGKVLDTSVLVDGRVAEVAAVGFLEGPLWVPHFVLKELQHFADSQDPLRRAKGRRGLETLERLREAAPLEVLETTPKGESVDEKLLFLARDLEAALVTNDHALLQARIYGVKALSIQALAQALRPQL 3ix9-a1-m1-cA_3ix9-a1-m1-cB Crystal structure of Streptococcus pneumoniae dihydrofolate reductase - Sp9 mutant Q54801 Q54801 1.95 X-RAY DIFFRACTION 50 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 166 166 TKKIVAIWAQDEEGVIGKDNRLPWYLPAELQHFKETTLNHAILMGRVTFDGMGRRLLPKRETLILTRNPEEKIDGVATFHDVQSVLDWYSAQEKNLYIVGGKQIFQAFEPYLDEVIVTHIHARVEGDTYFPAEFDLSLFETVSSKFYTKDEKNPYDFTIQYRKRKE TKKIVAIWAQDEEGVIGKDNRLPWYLPAELQHFKETTLNHAILMGRVTFDGMGRRLLPKRETLILTRNPEEKIDGVATFHDVQSVLDWYSAQEKNLYIVGGKQIFQAFEPYLDEVIVTHIHARVEGDTYFPAEFDLSLFETVSSKFYTKDEKNPYDFTIQYRKRKE 3ixc-a1-m2-cA_3ixc-a1-m3-cA Crystal structure of hexapeptide transferase family protein from Anaplasma phagocytophilum Q2GIS1 Q2GIS1 1.61 X-RAY DIFFRACTION 53 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 166 166 3ixc-a1-m1-cA_3ixc-a1-m2-cA 3ixc-a1-m1-cA_3ixc-a1-m3-cA MREVLVPYAGVSPSVDSTAFIAGNARIIGDVCIGKNASIWYGTVLRGDVDKIEVGEGTNIQDNTVVHTGDTVIGKFVTIGHSCILHACTLGNNAFVGMGSIVMDRAVMEEGSMLAAGSLLTRGKIVKSGELWAGRPAKFLRMMTEEEILYLQKSAENYIALSRGYL MREVLVPYAGVSPSVDSTAFIAGNARIIGDVCIGKNASIWYGTVLRGDVDKIEVGEGTNIQDNTVVHTGDTVIGKFVTIGHSCILHACTLGNNAFVGMGSIVMDRAVMEEGSMLAAGSLLTRGKIVKSGELWAGRPAKFLRMMTEEEILYLQKSAENYIALSRGYL 3ixg-a3-m1-cA_3ixg-a3-m1-cB X-ray crystal structure of the extended-spectrum AmpC T70I mutant beta-lactamase with and without benzo(b)thiophene-2-boronic acid bound at 2.14 Angstrom resolution P00811 P00811 2.14 X-RAY DIFFRACTION 65 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 317 358 APQQINDIVHRTITPLIEQQKIPGMAVAVIYQGKPYYFTWGYADIAKKQPVTQQTLFELGSVSKTFIGVLGGDAIARGEIKLSDPTTKYWPELTAKQWNGITLLHLATYTAGGLPLQVPDELLRFYQNWQPAWAPGTQRLYANSSIGLFGALAVKPSGLSFEQAMQTRVFQPLKLNHTWINVPGVKSTIEDMARWVQSNLKPLDINEKTLQQGIQLAQSRYWQTGDMYQGLGWEMLDWPVNPDSIIIALAARPVKAITPPTPAVRASWVHKTGATGGFGSYVAFIPEKELGIVMLANKNYPNPARVDAAWQILNALQ APQQINDIVHRTITPLIEQQKIPGMAVAVIYQGKPYYFTWGYADIAKKQPVTQQTLFELGSVSKTFIGVLGGDAIARGEIKLSDPTTKYWPELTAKQWNGITLLHLATYTAGGLPLQVPDEVKSSSDLLRFYQNWQPAWAPGTQRLYANSSIGLFGALAVKPSGLSFEQAMQTRVFQPLKLNHTWINVPPAEEKNYAWGYREGKAVHVSPGALDAEAYGVKSTIEDMARWVQSNLKPLDINEKTLQQGIQLAQSRYWQTGDMYQGLGWEMLDWPVNPDSIINGSDNKIALAARPVKAITPPTPAVRASWVHKTGATGGFGSYVAFIPEKELGIVMLANKNYPNPARVDAAWQILNALQ 3ixq-a1-m1-cA_3ixq-a1-m1-cD Structure of ribose 5-phosphate isomerase a from methanocaldococcus jannaschii Q58998 Q58998 1.78 X-RAY DIFFRACTION 74 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 225 225 3ixq-a1-m1-cB_3ixq-a1-m1-cC SNEDLKLKVAKEAVKLVKDGMVIGLGTGSTAALFIRELGNRIREEELTVFGIPTSFEAKMLAMQYEIPLVTLDEYDVDIAFDGADEVEETTLFLIKGGGGCHTQEKIVDYNANEFVVLVDESKLVKKLGEKFPIPVEVIPSAYRVVIRALSEMGGEAVIRLGDRKRGPVITDNGNMIIDVFMNIDDAIELEKEINNIPGVVENGIFTKVDKVLVGTKKGVKTLKK SNEDLKLKVAKEAVKLVKDGMVIGLGTGSTAALFIRELGNRIREEELTVFGIPTSFEAKMLAMQYEIPLVTLDEYDVDIAFDGADEVEETTLFLIKGGGGCHTQEKIVDYNANEFVVLVDESKLVKKLGEKFPIPVEVIPSAYRVVIRALSEMGGEAVIRLGDRKRGPVITDNGNMIIDVFMNIDDAIELEKEINNIPGVVENGIFTKVDKVLVGTKKGVKTLKK 3ixq-a1-m1-cB_3ixq-a1-m1-cD Structure of ribose 5-phosphate isomerase a from methanocaldococcus jannaschii Q58998 Q58998 1.78 X-RAY DIFFRACTION 12 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 225 225 3ixq-a1-m1-cA_3ixq-a1-m1-cC SNEDLKLKVAKEAVKLVKDGMVIGLGTGSTAALFIRELGNRIREEELTVFGIPTSFEAKMLAMQYEIPLVTLDEYDVDIAFDGADEVEETTLFLIKGGGGCHTQEKIVDYNANEFVVLVDESKLVKKLGEKFPIPVEVIPSAYRVVIRALSEMGGEAVIRLGDRKRGPVITDNGNMIIDVFMNIDDAIELEKEINNIPGVVENGIFTKVDKVLVGTKKGVKTLKK SNEDLKLKVAKEAVKLVKDGMVIGLGTGSTAALFIRELGNRIREEELTVFGIPTSFEAKMLAMQYEIPLVTLDEYDVDIAFDGADEVEETTLFLIKGGGGCHTQEKIVDYNANEFVVLVDESKLVKKLGEKFPIPVEVIPSAYRVVIRALSEMGGEAVIRLGDRKRGPVITDNGNMIIDVFMNIDDAIELEKEINNIPGVVENGIFTKVDKVLVGTKKGVKTLKK 3ixq-a1-m1-cC_3ixq-a1-m1-cD Structure of ribose 5-phosphate isomerase a from methanocaldococcus jannaschii Q58998 Q58998 1.78 X-RAY DIFFRACTION 82 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 225 225 3ixq-a1-m1-cA_3ixq-a1-m1-cB SNEDLKLKVAKEAVKLVKDGMVIGLGTGSTAALFIRELGNRIREEELTVFGIPTSFEAKMLAMQYEIPLVTLDEYDVDIAFDGADEVEETTLFLIKGGGGCHTQEKIVDYNANEFVVLVDESKLVKKLGEKFPIPVEVIPSAYRVVIRALSEMGGEAVIRLGDRKRGPVITDNGNMIIDVFMNIDDAIELEKEINNIPGVVENGIFTKVDKVLVGTKKGVKTLKK SNEDLKLKVAKEAVKLVKDGMVIGLGTGSTAALFIRELGNRIREEELTVFGIPTSFEAKMLAMQYEIPLVTLDEYDVDIAFDGADEVEETTLFLIKGGGGCHTQEKIVDYNANEFVVLVDESKLVKKLGEKFPIPVEVIPSAYRVVIRALSEMGGEAVIRLGDRKRGPVITDNGNMIIDVFMNIDDAIELEKEINNIPGVVENGIFTKVDKVLVGTKKGVKTLKK 3ixv-a1-m1-cA_3ixv-a1-m2-cH Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 20 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cH_3ixv-a1-m2-cA TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m1-cA_3ixv-a1-m2-cI Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 11 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cC_3ixv-a1-m2-cH 3ixv-a1-m1-cH_3ixv-a1-m2-cC 3ixv-a1-m1-cI_3ixv-a1-m2-cA TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m1-cA_3ixv-a1-m2-cJ Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 12 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cD_3ixv-a1-m2-cH 3ixv-a1-m1-cH_3ixv-a1-m2-cD 3ixv-a1-m1-cJ_3ixv-a1-m2-cA TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m1-cC_3ixv-a1-m2-cI Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 74 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cI_3ixv-a1-m2-cC TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m2-cC_3ixv-a1-m2-cI Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 39 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cC_3ixv-a1-m1-cI 3ixw-a1-m1-cC_3ixw-a1-m1-cI TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m2-cD_3ixv-a1-m2-cE Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 99 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cA_3ixv-a1-m1-cC 3ixv-a1-m1-cD_3ixv-a1-m1-cE 3ixv-a1-m1-cF_3ixv-a1-m1-cG 3ixv-a1-m1-cH_3ixv-a1-m1-cI 3ixv-a1-m1-cJ_3ixv-a1-m1-cK 3ixv-a1-m1-cL_3ixv-a1-m1-cM 3ixv-a1-m2-cA_3ixv-a1-m2-cC 3ixv-a1-m2-cF_3ixv-a1-m2-cG 3ixv-a1-m2-cH_3ixv-a1-m2-cI 3ixv-a1-m2-cJ_3ixv-a1-m2-cK 3ixv-a1-m2-cL_3ixv-a1-m2-cM 3ixw-a1-m1-cA_3ixw-a1-m1-cC 3ixw-a1-m1-cD_3ixw-a1-m1-cE 3ixw-a1-m1-cF_3ixw-a1-m1-cG 3ixw-a1-m1-cH_3ixw-a1-m1-cI 3ixw-a1-m1-cJ_3ixw-a1-m1-cK 3ixw-a1-m1-cL_3ixw-a1-m1-cM TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m2-cD_3ixv-a1-m2-cF Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 18 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cA_3ixv-a1-m1-cE 3ixv-a1-m1-cA_3ixv-a1-m1-cG 3ixv-a1-m1-cC_3ixv-a1-m1-cD 3ixv-a1-m1-cC_3ixv-a1-m1-cF 3ixv-a1-m1-cD_3ixv-a1-m1-cF 3ixv-a1-m1-cE_3ixv-a1-m1-cG 3ixv-a1-m1-cH_3ixv-a1-m1-cK 3ixv-a1-m1-cH_3ixv-a1-m1-cM 3ixv-a1-m1-cI_3ixv-a1-m1-cJ 3ixv-a1-m1-cI_3ixv-a1-m1-cL 3ixv-a1-m1-cJ_3ixv-a1-m1-cL 3ixv-a1-m1-cK_3ixv-a1-m1-cM 3ixv-a1-m2-cA_3ixv-a1-m2-cE 3ixv-a1-m2-cA_3ixv-a1-m2-cG 3ixv-a1-m2-cC_3ixv-a1-m2-cD 3ixv-a1-m2-cC_3ixv-a1-m2-cF 3ixv-a1-m2-cE_3ixv-a1-m2-cG 3ixv-a1-m2-cH_3ixv-a1-m2-cK 3ixv-a1-m2-cH_3ixv-a1-m2-cM 3ixv-a1-m2-cI_3ixv-a1-m2-cJ 3ixv-a1-m2-cI_3ixv-a1-m2-cL 3ixv-a1-m2-cJ_3ixv-a1-m2-cL 3ixv-a1-m2-cK_3ixv-a1-m2-cM 3ixw-a1-m1-cA_3ixw-a1-m1-cE 3ixw-a1-m1-cC_3ixw-a1-m1-cD 3ixw-a1-m1-cC_3ixw-a1-m1-cF 3ixw-a1-m1-cD_3ixw-a1-m1-cF 3ixw-a1-m1-cE_3ixw-a1-m1-cG 3ixw-a1-m1-cH_3ixw-a1-m1-cK 3ixw-a1-m1-cH_3ixw-a1-m1-cM 3ixw-a1-m1-cI_3ixw-a1-m1-cJ 3ixw-a1-m1-cI_3ixw-a1-m1-cL 3ixw-a1-m1-cJ_3ixw-a1-m1-cL 3ixw-a1-m1-cK_3ixw-a1-m1-cM TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixv-a1-m2-cE_3ixv-a1-m2-cF Scorpion Hemocyanin resting state pseudo atomic model built based on cryo-EM density map P80476 P80476 6.8 ELECTRON MICROSCOPY 13 1.0 6858 (Androctonus australis) 6858 (Androctonus australis) 626 626 3ixv-a1-m1-cA_3ixv-a1-m1-cD 3ixv-a1-m1-cE_3ixv-a1-m1-cF 3ixv-a1-m1-cH_3ixv-a1-m1-cJ 3ixv-a1-m1-cI_3ixv-a1-m1-cM 3ixv-a1-m1-cK_3ixv-a1-m1-cL 3ixv-a1-m2-cA_3ixv-a1-m2-cD 3ixv-a1-m2-cH_3ixv-a1-m2-cJ 3ixv-a1-m2-cI_3ixv-a1-m2-cM 3ixv-a1-m2-cK_3ixv-a1-m2-cL 3ixw-a1-m1-cA_3ixw-a1-m1-cD 3ixw-a1-m1-cC_3ixw-a1-m1-cG 3ixw-a1-m1-cE_3ixw-a1-m1-cF 3ixw-a1-m1-cH_3ixw-a1-m1-cJ 3ixw-a1-m1-cI_3ixw-a1-m1-cM 3ixw-a1-m1-cK_3ixw-a1-m1-cL TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG TVADKQARLMPLFKHLTALTREKLPLDQRDERLKGVGILPRGTLFSCFHARHLAEATELYVALYGAKDFNDFIHLCEQARQIVNEGMFVYAVSVAVLHREDCKGITVPPIQEVFPDRFVPAETINRANKEASNHPDQQSIVVEAEETGNILDPEYKLSYFREDIGINAHHWHWHIVYPATWNPTVMGKEKDRKGELFFYMHQQMCARYDSERLSNGLQRMIPFHNFDEPLEGYAPHLTSLVSGLQYASRPEGYSIHDLSDVDVQDMVRWRERILDAINMHYIVDKDNNKIPLDIEHGTDILGDIIESSDESKNVEYYGSLHNWGHVMMANITDPDHRFQENPGVMSDTSTSLRDPIFYRWHRFIDNIFQEHKKSFHPYTKEELSFPGVEVVGVSINSKTANVITTLIKESLLELSHGINFGTDQSVKVKYHHLDHEPFTYNIVVENNSGAEKHSTVRIFLAPKYDELNNKLEPDEQRRLFIELDKFFYTLTPGKNTIVRNHQDSSVTISKVRTFDQLGAGEGVSEDSTEYCSCGWPEHMLIPRGSHKGMEFELFVMLTDHDEDTVAGLSENAVCSDAVSYCGARDDRYPDKKAMGFPFDRKIEARTAAEFLTPNMGLTDIKIKFHG 3ixx-a1-m10-cB_3ixx-a1-m9-cC The pseudo-atomic structure of West Nile immature virus in complex with Fab fragments of the anti-fusion loop antibody E53 A7TZT4 A7TZT4 15.0 ELECTRON MICROSCOPY 51 1.0 11082 (West Nile virus) 11082 (West Nile virus) 400 400 2of6-a1-m10-cB_2of6-a1-m9-cC 2of6-a1-m10-cC_2of6-a1-m6-cB 2of6-a1-m11-cB_2of6-a1-m15-cC 2of6-a1-m11-cC_2of6-a1-m12-cB 2of6-a1-m12-cC_2of6-a1-m13-cB 2of6-a1-m13-cC_2of6-a1-m14-cB 2of6-a1-m14-cC_2of6-a1-m15-cB 2of6-a1-m16-cB_2of6-a1-m20-cC 2of6-a1-m16-cC_2of6-a1-m17-cB 2of6-a1-m17-cC_2of6-a1-m18-cB 2of6-a1-m18-cC_2of6-a1-m19-cB 2of6-a1-m19-cC_2of6-a1-m20-cB 2of6-a1-m1-cB_2of6-a1-m5-cC 2of6-a1-m1-cC_2of6-a1-m2-cB 2of6-a1-m21-cB_2of6-a1-m25-cC 2of6-a1-m21-cC_2of6-a1-m22-cB 2of6-a1-m22-cC_2of6-a1-m23-cB 2of6-a1-m23-cC_2of6-a1-m24-cB 2of6-a1-m24-cC_2of6-a1-m25-cB 2of6-a1-m26-cB_2of6-a1-m30-cC 2of6-a1-m26-cC_2of6-a1-m27-cB 2of6-a1-m27-cC_2of6-a1-m28-cB 2of6-a1-m28-cC_2of6-a1-m29-cB 2of6-a1-m29-cC_2of6-a1-m30-cB 2of6-a1-m2-cC_2of6-a1-m3-cB 2of6-a1-m31-cB_2of6-a1-m35-cC 2of6-a1-m31-cC_2of6-a1-m32-cB 2of6-a1-m32-cC_2of6-a1-m33-cB 2of6-a1-m33-cC_2of6-a1-m34-cB 2of6-a1-m34-cC_2of6-a1-m35-cB 2of6-a1-m36-cB_2of6-a1-m40-cC 2of6-a1-m36-cC_2of6-a1-m37-cB 2of6-a1-m37-cC_2of6-a1-m38-cB 2of6-a1-m38-cC_2of6-a1-m39-cB 2of6-a1-m39-cC_2of6-a1-m40-cB 2of6-a1-m3-cC_2of6-a1-m4-cB 2of6-a1-m41-cB_2of6-a1-m45-cC 2of6-a1-m41-cC_2of6-a1-m42-cB 2of6-a1-m42-cC_2of6-a1-m43-cB 2of6-a1-m43-cC_2of6-a1-m44-cB 2of6-a1-m44-cC_2of6-a1-m45-cB 2of6-a1-m46-cB_2of6-a1-m50-cC 2of6-a1-m46-cC_2of6-a1-m47-cB 2of6-a1-m47-cC_2of6-a1-m48-cB 2of6-a1-m48-cC_2of6-a1-m49-cB 2of6-a1-m49-cC_2of6-a1-m50-cB 2of6-a1-m4-cC_2of6-a1-m5-cB 2of6-a1-m51-cB_2of6-a1-m55-cC 2of6-a1-m51-cC_2of6-a1-m52-cB 2of6-a1-m52-cC_2of6-a1-m53-cB 2of6-a1-m53-cC_2of6-a1-m54-cB 2of6-a1-m54-cC_2of6-a1-m55-cB 2of6-a1-m56-cB_2of6-a1-m60-cC 2of6-a1-m56-cC_2of6-a1-m57-cB 2of6-a1-m57-cC_2of6-a1-m58-cB 2of6-a1-m58-cC_2of6-a1-m59-cB 2of6-a1-m59-cC_2of6-a1-m60-cB 2of6-a1-m6-cC_2of6-a1-m7-cB 2of6-a1-m7-cC_2of6-a1-m8-cB 2of6-a1-m8-cC_2of6-a1-m9-cB 3ixx-a1-m10-cC_3ixx-a1-m6-cB 3ixx-a1-m11-cB_3ixx-a1-m15-cC 3ixx-a1-m11-cC_3ixx-a1-m12-cB 3ixx-a1-m12-cC_3ixx-a1-m13-cB 3ixx-a1-m13-cC_3ixx-a1-m14-cB 3ixx-a1-m14-cC_3ixx-a1-m15-cB 3ixx-a1-m16-cB_3ixx-a1-m20-cC 3ixx-a1-m16-cC_3ixx-a1-m17-cB 3ixx-a1-m17-cC_3ixx-a1-m18-cB 3ixx-a1-m18-cC_3ixx-a1-m19-cB 3ixx-a1-m19-cC_3ixx-a1-m20-cB 3ixx-a1-m1-cB_3ixx-a1-m5-cC 3ixx-a1-m1-cC_3ixx-a1-m2-cB 3ixx-a1-m21-cB_3ixx-a1-m25-cC 3ixx-a1-m21-cC_3ixx-a1-m22-cB 3ixx-a1-m22-cC_3ixx-a1-m23-cB 3ixx-a1-m23-cC_3ixx-a1-m24-cB 3ixx-a1-m24-cC_3ixx-a1-m25-cB 3ixx-a1-m26-cB_3ixx-a1-m30-cC 3ixx-a1-m26-cC_3ixx-a1-m27-cB 3ixx-a1-m27-cC_3ixx-a1-m28-cB 3ixx-a1-m28-cC_3ixx-a1-m29-cB 3ixx-a1-m29-cC_3ixx-a1-m30-cB 3ixx-a1-m2-cC_3ixx-a1-m3-cB 3ixx-a1-m31-cB_3ixx-a1-m35-cC 3ixx-a1-m31-cC_3ixx-a1-m32-cB 3ixx-a1-m32-cC_3ixx-a1-m33-cB 3ixx-a1-m33-cC_3ixx-a1-m34-cB 3ixx-a1-m34-cC_3ixx-a1-m35-cB 3ixx-a1-m36-cB_3ixx-a1-m40-cC 3ixx-a1-m36-cC_3ixx-a1-m37-cB 3ixx-a1-m37-cC_3ixx-a1-m38-cB 3ixx-a1-m38-cC_3ixx-a1-m39-cB 3ixx-a1-m39-cC_3ixx-a1-m40-cB 3ixx-a1-m3-cC_3ixx-a1-m4-cB 3ixx-a1-m41-cB_3ixx-a1-m45-cC 3ixx-a1-m41-cC_3ixx-a1-m42-cB 3ixx-a1-m42-cC_3ixx-a1-m43-cB 3ixx-a1-m43-cC_3ixx-a1-m44-cB 3ixx-a1-m44-cC_3ixx-a1-m45-cB 3ixx-a1-m46-cB_3ixx-a1-m50-cC 3ixx-a1-m46-cC_3ixx-a1-m47-cB 3ixx-a1-m47-cC_3ixx-a1-m48-cB 3ixx-a1-m48-cC_3ixx-a1-m49-cB 3ixx-a1-m49-cC_3ixx-a1-m50-cB 3ixx-a1-m4-cC_3ixx-a1-m5-cB 3ixx-a1-m51-cB_3ixx-a1-m55-cC 3ixx-a1-m51-cC_3ixx-a1-m52-cB 3ixx-a1-m52-cC_3ixx-a1-m53-cB 3ixx-a1-m53-cC_3ixx-a1-m54-cB 3ixx-a1-m54-cC_3ixx-a1-m55-cB 3ixx-a1-m56-cB_3ixx-a1-m60-cC 3ixx-a1-m56-cC_3ixx-a1-m57-cB 3ixx-a1-m57-cC_3ixx-a1-m58-cB 3ixx-a1-m58-cC_3ixx-a1-m59-cB 3ixx-a1-m59-cC_3ixx-a1-m60-cB 3ixx-a1-m6-cC_3ixx-a1-m7-cB 3ixx-a1-m7-cC_3ixx-a1-m8-cB 3ixx-a1-m8-cC_3ixx-a1-m9-cB FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVKMMNMEAANLAEVRSYCYLATVSDLSTKAACPTMGEAHNDKRADPAFVCRQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKAIGRTILKENIKYEVAIFVHGPTTVESHGNYSTQVGATQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTNAYYVMTVGTKTFLVHREWFMDLNLPWSSAGSTVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFKFLGTPADTGHGTVVLELQYTGTDGPCKVPISSVASLNDLTPVGRLVTVNPFVSVATANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKS FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVKMMNMEAANLAEVRSYCYLATVSDLSTKAACPTMGEAHNDKRADPAFVCRQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKAIGRTILKENIKYEVAIFVHGPTTVESHGNYSTQVGATQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTNAYYVMTVGTKTFLVHREWFMDLNLPWSSAGSTVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFKFLGTPADTGHGTVVLELQYTGTDGPCKVPISSVASLNDLTPVGRLVTVNPFVSVATANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKS 3ixx-a1-m54-cI_3ixx-a1-m9-cI The pseudo-atomic structure of West Nile immature virus in complex with Fab fragments of the anti-fusion loop antibody E53 15.0 ELECTRON MICROSCOPY 367 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 3ixx-a1-m10-cI_3ixx-a1-m23-cI 3ixx-a1-m11-cI_3ixx-a1-m20-cI 3ixx-a1-m11-cI_3ixx-a1-m38-cI 3ixx-a1-m12-cI_3ixx-a1-m37-cI 3ixx-a1-m12-cI_3ixx-a1-m47-cI 3ixx-a1-m13-cI_3ixx-a1-m45-cI 3ixx-a1-m13-cI_3ixx-a1-m46-cI 3ixx-a1-m14-cI_3ixx-a1-m29-cI 3ixx-a1-m14-cI_3ixx-a1-m44-cI 3ixx-a1-m15-cI_3ixx-a1-m16-cI 3ixx-a1-m15-cI_3ixx-a1-m28-cI 3ixx-a1-m16-cI_3ixx-a1-m28-cI 3ixx-a1-m17-cI_3ixx-a1-m27-cI 3ixx-a1-m17-cI_3ixx-a1-m52-cI 3ixx-a1-m18-cI_3ixx-a1-m51-cI 3ixx-a1-m18-cI_3ixx-a1-m60-cI 3ixx-a1-m19-cI_3ixx-a1-m39-cI 3ixx-a1-m19-cI_3ixx-a1-m59-cI 3ixx-a1-m1-cI_3ixx-a1-m10-cI 3ixx-a1-m1-cI_3ixx-a1-m23-cI 3ixx-a1-m20-cI_3ixx-a1-m38-cI 3ixx-a1-m21-cI_3ixx-a1-m30-cI 3ixx-a1-m21-cI_3ixx-a1-m43-cI 3ixx-a1-m22-cI_3ixx-a1-m42-cI 3ixx-a1-m24-cI_3ixx-a1-m54-cI 3ixx-a1-m24-cI_3ixx-a1-m9-cI 3ixx-a1-m25-cI_3ixx-a1-m26-cI 3ixx-a1-m25-cI_3ixx-a1-m53-cI 3ixx-a1-m26-cI_3ixx-a1-m53-cI 3ixx-a1-m27-cI_3ixx-a1-m52-cI 3ixx-a1-m29-cI_3ixx-a1-m44-cI 3ixx-a1-m2-cI_3ixx-a1-m22-cI 3ixx-a1-m2-cI_3ixx-a1-m42-cI 3ixx-a1-m30-cI_3ixx-a1-m43-cI 3ixx-a1-m31-cI_3ixx-a1-m40-cI 3ixx-a1-m31-cI_3ixx-a1-m58-cI 3ixx-a1-m32-cI_3ixx-a1-m57-cI 3ixx-a1-m32-cI_3ixx-a1-m7-cI 3ixx-a1-m33-cI_3ixx-a1-m5-cI 3ixx-a1-m33-cI_3ixx-a1-m6-cI 3ixx-a1-m34-cI_3ixx-a1-m49-cI 3ixx-a1-m34-cI_3ixx-a1-m4-cI 3ixx-a1-m35-cI_3ixx-a1-m36-cI 3ixx-a1-m35-cI_3ixx-a1-m48-cI 3ixx-a1-m36-cI_3ixx-a1-m48-cI 3ixx-a1-m37-cI_3ixx-a1-m47-cI 3ixx-a1-m39-cI_3ixx-a1-m59-cI 3ixx-a1-m3-cI_3ixx-a1-m41-cI 3ixx-a1-m3-cI_3ixx-a1-m50-cI 3ixx-a1-m40-cI_3ixx-a1-m58-cI 3ixx-a1-m41-cI_3ixx-a1-m50-cI 3ixx-a1-m45-cI_3ixx-a1-m46-cI 3ixx-a1-m4-cI_3ixx-a1-m49-cI 3ixx-a1-m51-cI_3ixx-a1-m60-cI 3ixx-a1-m55-cI_3ixx-a1-m56-cI 3ixx-a1-m55-cI_3ixx-a1-m8-cI 3ixx-a1-m56-cI_3ixx-a1-m8-cI 3ixx-a1-m57-cI_3ixx-a1-m7-cI 3ixx-a1-m5-cI_3ixx-a1-m6-cI EVKLVESGGGLVLPGGSLRLSCATSGFTFTDYYMTWVRQPPGKALEWLGFIGNKANDYTTEYSASVKGRFTISRDDSQSILYLQMSTLRAEDRATYYCATVYGNYPYFDVWGAGTTVAVSSAKTTPPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSGLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR EVKLVESGGGLVLPGGSLRLSCATSGFTFTDYYMTWVRQPPGKALEWLGFIGNKANDYTTEYSASVKGRFTISRDDSQSILYLQMSTLRAEDRATYYCATVYGNYPYFDVWGAGTTVAVSSAKTTPPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSGLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR 3ixx-a1-m54-cJ_3ixx-a1-m9-cJ The pseudo-atomic structure of West Nile immature virus in complex with Fab fragments of the anti-fusion loop antibody E53 15.0 ELECTRON MICROSCOPY 287 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 3ixx-a1-m10-cJ_3ixx-a1-m23-cJ 3ixx-a1-m11-cJ_3ixx-a1-m20-cJ 3ixx-a1-m11-cJ_3ixx-a1-m38-cJ 3ixx-a1-m12-cJ_3ixx-a1-m37-cJ 3ixx-a1-m12-cJ_3ixx-a1-m47-cJ 3ixx-a1-m13-cJ_3ixx-a1-m45-cJ 3ixx-a1-m13-cJ_3ixx-a1-m46-cJ 3ixx-a1-m14-cJ_3ixx-a1-m29-cJ 3ixx-a1-m14-cJ_3ixx-a1-m44-cJ 3ixx-a1-m15-cJ_3ixx-a1-m16-cJ 3ixx-a1-m15-cJ_3ixx-a1-m28-cJ 3ixx-a1-m16-cJ_3ixx-a1-m28-cJ 3ixx-a1-m17-cJ_3ixx-a1-m27-cJ 3ixx-a1-m17-cJ_3ixx-a1-m52-cJ 3ixx-a1-m18-cJ_3ixx-a1-m51-cJ 3ixx-a1-m18-cJ_3ixx-a1-m60-cJ 3ixx-a1-m19-cJ_3ixx-a1-m39-cJ 3ixx-a1-m19-cJ_3ixx-a1-m59-cJ 3ixx-a1-m1-cJ_3ixx-a1-m10-cJ 3ixx-a1-m1-cJ_3ixx-a1-m23-cJ 3ixx-a1-m20-cJ_3ixx-a1-m38-cJ 3ixx-a1-m21-cJ_3ixx-a1-m30-cJ 3ixx-a1-m21-cJ_3ixx-a1-m43-cJ 3ixx-a1-m22-cJ_3ixx-a1-m42-cJ 3ixx-a1-m24-cJ_3ixx-a1-m54-cJ 3ixx-a1-m24-cJ_3ixx-a1-m9-cJ 3ixx-a1-m25-cJ_3ixx-a1-m26-cJ 3ixx-a1-m25-cJ_3ixx-a1-m53-cJ 3ixx-a1-m26-cJ_3ixx-a1-m53-cJ 3ixx-a1-m27-cJ_3ixx-a1-m52-cJ 3ixx-a1-m29-cJ_3ixx-a1-m44-cJ 3ixx-a1-m2-cJ_3ixx-a1-m22-cJ 3ixx-a1-m2-cJ_3ixx-a1-m42-cJ 3ixx-a1-m30-cJ_3ixx-a1-m43-cJ 3ixx-a1-m31-cJ_3ixx-a1-m40-cJ 3ixx-a1-m31-cJ_3ixx-a1-m58-cJ 3ixx-a1-m32-cJ_3ixx-a1-m57-cJ 3ixx-a1-m32-cJ_3ixx-a1-m7-cJ 3ixx-a1-m33-cJ_3ixx-a1-m5-cJ 3ixx-a1-m33-cJ_3ixx-a1-m6-cJ 3ixx-a1-m34-cJ_3ixx-a1-m49-cJ 3ixx-a1-m34-cJ_3ixx-a1-m4-cJ 3ixx-a1-m35-cJ_3ixx-a1-m36-cJ 3ixx-a1-m35-cJ_3ixx-a1-m48-cJ 3ixx-a1-m36-cJ_3ixx-a1-m48-cJ 3ixx-a1-m37-cJ_3ixx-a1-m47-cJ 3ixx-a1-m39-cJ_3ixx-a1-m59-cJ 3ixx-a1-m3-cJ_3ixx-a1-m41-cJ 3ixx-a1-m3-cJ_3ixx-a1-m50-cJ 3ixx-a1-m40-cJ_3ixx-a1-m58-cJ 3ixx-a1-m41-cJ_3ixx-a1-m50-cJ 3ixx-a1-m45-cJ_3ixx-a1-m46-cJ 3ixx-a1-m4-cJ_3ixx-a1-m49-cJ 3ixx-a1-m51-cJ_3ixx-a1-m60-cJ 3ixx-a1-m55-cJ_3ixx-a1-m56-cJ 3ixx-a1-m55-cJ_3ixx-a1-m8-cJ 3ixx-a1-m56-cJ_3ixx-a1-m8-cJ 3ixx-a1-m57-cJ_3ixx-a1-m7-cJ 3ixx-a1-m5-cJ_3ixx-a1-m6-cJ 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3ixx-a1-m1-cE_3ixx-a1-m1-cF 3ixx-a1-m20-cE_3ixx-a1-m20-cF 3ixx-a1-m21-cE_3ixx-a1-m21-cF 3ixx-a1-m22-cE_3ixx-a1-m22-cF 3ixx-a1-m23-cE_3ixx-a1-m23-cF 3ixx-a1-m24-cE_3ixx-a1-m24-cF 3ixx-a1-m25-cE_3ixx-a1-m25-cF 3ixx-a1-m26-cE_3ixx-a1-m26-cF 3ixx-a1-m27-cE_3ixx-a1-m27-cF 3ixx-a1-m28-cE_3ixx-a1-m28-cF 3ixx-a1-m29-cE_3ixx-a1-m29-cF 3ixx-a1-m2-cE_3ixx-a1-m2-cF 3ixx-a1-m30-cE_3ixx-a1-m30-cF 3ixx-a1-m31-cE_3ixx-a1-m31-cF 3ixx-a1-m32-cE_3ixx-a1-m32-cF 3ixx-a1-m33-cE_3ixx-a1-m33-cF 3ixx-a1-m34-cE_3ixx-a1-m34-cF 3ixx-a1-m35-cE_3ixx-a1-m35-cF 3ixx-a1-m36-cE_3ixx-a1-m36-cF 3ixx-a1-m37-cE_3ixx-a1-m37-cF 3ixx-a1-m38-cE_3ixx-a1-m38-cF 3ixx-a1-m39-cE_3ixx-a1-m39-cF 3ixx-a1-m3-cE_3ixx-a1-m3-cF 3ixx-a1-m40-cE_3ixx-a1-m40-cF 3ixx-a1-m41-cE_3ixx-a1-m41-cF 3ixx-a1-m42-cE_3ixx-a1-m42-cF 3ixx-a1-m43-cE_3ixx-a1-m43-cF 3ixx-a1-m44-cE_3ixx-a1-m44-cF 3ixx-a1-m45-cE_3ixx-a1-m45-cF 3ixx-a1-m46-cE_3ixx-a1-m46-cF 3ixx-a1-m47-cE_3ixx-a1-m47-cF 3ixx-a1-m48-cE_3ixx-a1-m48-cF 3ixx-a1-m49-cE_3ixx-a1-m49-cF 3ixx-a1-m4-cE_3ixx-a1-m4-cF 3ixx-a1-m50-cE_3ixx-a1-m50-cF 3ixx-a1-m51-cE_3ixx-a1-m51-cF 3ixx-a1-m52-cE_3ixx-a1-m52-cF 3ixx-a1-m53-cE_3ixx-a1-m53-cF 3ixx-a1-m54-cE_3ixx-a1-m54-cF 3ixx-a1-m55-cE_3ixx-a1-m55-cF 3ixx-a1-m56-cE_3ixx-a1-m56-cF 3ixx-a1-m57-cE_3ixx-a1-m57-cF 3ixx-a1-m58-cE_3ixx-a1-m58-cF 3ixx-a1-m59-cE_3ixx-a1-m59-cF 3ixx-a1-m5-cE_3ixx-a1-m5-cF 3ixx-a1-m60-cE_3ixx-a1-m60-cF 3ixx-a1-m6-cE_3ixx-a1-m6-cF 3ixx-a1-m7-cE_3ixx-a1-m7-cF 3ixx-a1-m8-cE_3ixx-a1-m8-cF LSNFQGKVMMTVNATDVTDVITIPTAAGKNLCIVRAMDVGYMCDDTITYECPVLSAGNDPEDIDCWCTKSAVYVRYGRCT LSNFQGKVMMTVNATDVTDVITIPTAAGKNLCIVRAMDVGYMCDDTITYECPVLSAGNDPEDIDCWCTKSAVYVRYGRCT 3ixy-a1-m54-cI_3ixy-a1-m9-cI The pseudo-atomic structure of dengue immature virus in complex with Fab fragments of the anti-fusion loop antibody E53 23.0 ELECTRON MICROSCOPY 1277 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 3ixy-a1-m10-cI_3ixy-a1-m23-cI 3ixy-a1-m11-cI_3ixy-a1-m20-cI 3ixy-a1-m11-cI_3ixy-a1-m38-cI 3ixy-a1-m12-cI_3ixy-a1-m37-cI 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3ixy-a1-m32-cI_3ixy-a1-m7-cI 3ixy-a1-m33-cI_3ixy-a1-m5-cI 3ixy-a1-m33-cI_3ixy-a1-m6-cI 3ixy-a1-m34-cI_3ixy-a1-m49-cI 3ixy-a1-m34-cI_3ixy-a1-m4-cI 3ixy-a1-m35-cI_3ixy-a1-m36-cI 3ixy-a1-m35-cI_3ixy-a1-m48-cI 3ixy-a1-m36-cI_3ixy-a1-m48-cI 3ixy-a1-m37-cI_3ixy-a1-m47-cI 3ixy-a1-m39-cI_3ixy-a1-m59-cI 3ixy-a1-m3-cI_3ixy-a1-m41-cI 3ixy-a1-m3-cI_3ixy-a1-m50-cI 3ixy-a1-m40-cI_3ixy-a1-m58-cI 3ixy-a1-m41-cI_3ixy-a1-m50-cI 3ixy-a1-m45-cI_3ixy-a1-m46-cI 3ixy-a1-m4-cI_3ixy-a1-m49-cI 3ixy-a1-m51-cI_3ixy-a1-m60-cI 3ixy-a1-m55-cI_3ixy-a1-m56-cI 3ixy-a1-m55-cI_3ixy-a1-m8-cI 3ixy-a1-m56-cI_3ixy-a1-m8-cI 3ixy-a1-m57-cI_3ixy-a1-m7-cI 3ixy-a1-m5-cI_3ixy-a1-m6-cI EVKLVESGGGLVLPGGSLRLSCATSGFTFTDYYMTWVRQPPGKALEWLGFIGNKANDYTTEYSASVKGRFTISRDDSQSILYLQMSTLRAEDRATYYCATVYGNYPYFDVWGAGTTVAVSSAKTTPPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSGLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR 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3iyj-a1-m52-cB_3iyj-a1-m53-cA 3iyj-a1-m53-cB_3iyj-a1-m54-cA 3iyj-a1-m54-cB_3iyj-a1-m55-cA 3iyj-a1-m55-cB_3iyj-a1-m51-cA 3iyj-a1-m56-cB_3iyj-a1-m57-cA 3iyj-a1-m57-cB_3iyj-a1-m58-cA 3iyj-a1-m58-cB_3iyj-a1-m59-cA 3iyj-a1-m59-cB_3iyj-a1-m60-cA 3iyj-a1-m5-cB_3iyj-a1-m1-cA 3iyj-a1-m60-cB_3iyj-a1-m56-cA 3iyj-a1-m6-cB_3iyj-a1-m7-cA 3iyj-a1-m7-cB_3iyj-a1-m8-cA 3iyj-a1-m8-cB_3iyj-a1-m9-cA PTPVSKVLCSETYVQRKSIFYHAETERLLTIGHPYYPVSIGAKTVPKVSANQYRVFKIQLPDPNQFALPDRTVHNPSKERLVWAVIGVQVSRGQPLGGTVTGHPTFNALLDAENVNRKVTTQTTDDRKQTGLDAKQQQILLLGCTPAEGEYWTTARPCVTDRLENGACPPLELKNKHIEDGDMMEIGFGAANFKEINASKSDLPLDIQNEICLYPDYLKMAEDAAGNSMFFFARKEQVYVRHIWTRGGSEKEAPTTDFYLKNNKGDATLKIPSVHFGSPSGSLVSTDNQIFNRPYWLFRAQGMNNGIAWNNLLFLTVGDNTRGTNLTISVASDGTPLTEYDSSKFNVYHRHMEEYKLAFILELCSVEITAQTVSHLQGLMPSVLENWEIGVQPPTSSILEDTYRYIESPATKCASNVIPAKEDPYAGFKFWNIDLKEKLSLDLDQFPLGRRFLAQQGAGCSTVRKRRIS 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3iyj-a1-m6-cB_3iyj-a1-m6-cF 3iyj-a1-m6-cF_3iyj-a1-m7-cA 3iyj-a1-m7-cB_3iyj-a1-m7-cF 3iyj-a1-m7-cF_3iyj-a1-m8-cA 3iyj-a1-m8-cB_3iyj-a1-m8-cF 3iyj-a1-m8-cF_3iyj-a1-m9-cA 3iyj-a1-m9-cF_3iyj-a1-m10-cA PTPVSKVLCSETYVQRKSIFYHAETERLLTIGHPYYPVSIGAKTVPKVSANQYRVFKIQLPDPNQFALPDRTVHNPSKERLVWAVIGVQVSRGQPLGGTVTGHPTFNALLDAENVNRKVTTQTTDDRKQTGLDAKQQQILLLGCTPAEGEYWTTARPCVTDRLENGACPPLELKNKHIEDGDMMEIGFGAANFKEINASKSDLPLDIQNEICLYPDYLKMAEDAAGNSMFFFARKEQVYVRHIWTRGGSEKEAPTTDFYLKNNKGDATLKIPSVHFGSPSGSLVSTDNQIFNRPYWLFRAQGMNNGIAWNNLLFLTVGDNTRGTNLTISVASDGTPLTEYDSSKFNVYHRHMEEYKLAFILELCSVEITAQTVSHLQGLMPSVLENWEIGVQPPTSSILEDTYRYIESPATKCASNVIPAKEDPYAGFKFWNIDLKEKLSLDLDQFPLGRRFLAQQGAGCSTVRKRRIS PTPVSKVLCSETYVQRKSIFYHAETERLLTIGHPYYPVSIGAKTVPKVSANQYRVFKIQLPDPNQFALPDRTVHNPSKERLVWAVIGVQVSRGQPLGGTVTGHPTFNALLDAENVNRKVTTQTTDDRKQTGLDAKQQQILLLGCTPAEGEYWTTARPCVTDRLENGACPPLELKNKHIEDGDMMEIGFGAANFKEINASKSDLPLDIQNEICLYPDYLKMAEDAAGNSMFFFARKEQVYVRHIWTRGGSEKEAPTTDFYLKNNKGDATLKIPSVHFGSPSGSLVSTDNQIFNRPYWLFRAQGMNNGIAWNNLLFLTVGDNTRGTNLTISVASDGTPLTEYDSSKFNVYHRHMEEYKLAFILELCSVEITAQTVSHLQGLMPSVLENWEIGVQPPTSSILEDTYRYIESPATKCASNVIPAKEDPYAGFKFWNIDLKEKLSLDLDQFPLGRRFLAQQGAGCSTVRKRRIS 3iyj-a1-m9-cF_3iyj-a1-m9-cA Bovine papillomavirus type 1 outer capsid P03103 P03103 4.2 ELECTRON MICROSCOPY 160 1.0 469 481 3iyj-a1-m10-cF_3iyj-a1-m10-cA 3iyj-a1-m11-cF_3iyj-a1-m11-cA 3iyj-a1-m12-cF_3iyj-a1-m12-cA 3iyj-a1-m13-cF_3iyj-a1-m13-cA 3iyj-a1-m14-cF_3iyj-a1-m14-cA 3iyj-a1-m15-cF_3iyj-a1-m15-cA 3iyj-a1-m16-cF_3iyj-a1-m16-cA 3iyj-a1-m17-cF_3iyj-a1-m17-cA 3iyj-a1-m18-cF_3iyj-a1-m18-cA 3iyj-a1-m19-cF_3iyj-a1-m19-cA 3iyj-a1-m1-cF_3iyj-a1-m1-cA 3iyj-a1-m20-cF_3iyj-a1-m20-cA 3iyj-a1-m21-cF_3iyj-a1-m21-cA 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3iyj-a1-m52-cF_3iyj-a1-m52-cA 3iyj-a1-m53-cF_3iyj-a1-m53-cA 3iyj-a1-m54-cF_3iyj-a1-m54-cA 3iyj-a1-m55-cF_3iyj-a1-m55-cA 3iyj-a1-m56-cF_3iyj-a1-m56-cA 3iyj-a1-m57-cF_3iyj-a1-m57-cA 3iyj-a1-m58-cF_3iyj-a1-m58-cA 3iyj-a1-m59-cF_3iyj-a1-m59-cA 3iyj-a1-m5-cF_3iyj-a1-m5-cA 3iyj-a1-m60-cF_3iyj-a1-m60-cA 3iyj-a1-m6-cF_3iyj-a1-m6-cA 3iyj-a1-m7-cF_3iyj-a1-m7-cA 3iyj-a1-m8-cF_3iyj-a1-m8-cA PTPVSKVLCSETYVQRKSIFYHAETERLLTIGHPYYPVSIGAKTVPKVSANQYRVFKIQLPDPNQFALPDRTVHNPSKERLVWAVIGVQVSRGQPLGGTVTGHPTFNALLDAENVNRKVTTQTTDDRKQTGLDAKQQQILLLGCTPAEGEYWTTARPCVTDRLENGACPPLELKNKHIEDGDMMEIGFGAANFKEINASKSDLPLDIQNEICLYPDYLKMAEDAAGNSMFFFARKEQVYVRHIWTRGGSEKEAPTTDFYLKNNKGDATLKIPSVHFGSPSGSLVSTDNQIFNRPYWLFRAQGMNNGIAWNNLLFLTVGDNTRGTNLTISVASDGTPLTEYDSSKFNVYHRHMEEYKLAFILELCSVEITAQTVSHLQGLMPSVLENWEIGVQPPTSSILEDTYRYIESPATKCASNVIPAKEDPYAGFKFWNIDLKEKLSLDLDQFPLGRRFLAQQGAGCSTVRKRRIS ALWQQGQKLYLPPTPVSKVLCSETYVQRKSIFYHAETERLLTIGHPYYPVSIGAKTVPKVSANQYRVFKIQLPDPNQFALPDRTVHNPSKERLVWAVIGVQVSRGQPLGGTVTGHPTFNALLDAENVNRKVTTQTTDDRKQTGLDAKQQQILLLGCTPAEGEYWTTARPCVTDRLENGACPPLELKNKHIEDGDMMEIGFGAANFKEINASKSDLPLDIQNEICLYPDYLKMAEDAAGNSMFFFARKEQVYVRHIWTRGGSEKEAPTTDFYLKNNKGDATLKIPSVHFGSPSGSLVSTDNQIFNRPYWLFRAQGMNNGIAWNNLLFLTVGDNTRGTNLTISVASDGTPLTEYDSSKFNVYHRHMEEYKLAFILELCSVEITAQTVSHLQGLMPSVLENWEIGVQPPTSSILEDTYRYIESPATKCASNVIPAKEDPYAGFKFWNIDLKEKLSLDLDQFPLGRRFLAQQGAGCSTVRKRRIS 3iyk-a1-m9-cE_3iyk-a1-m9-cF Bluetongue virus structure reveals a sialic acid binding domain, amphipathic helices and a central coiled coil in the outer capsid proteins C5IWW1 C5IWW1 7.0 ELECTRON MICROSCOPY 53 1.0 40051 (Bluetongue virus) 40051 (Bluetongue virus) 307 307 3iyk-a1-m10-cA_3iyk-a1-m10-cB 3iyk-a1-m10-cA_3iyk-a1-m10-cC 3iyk-a1-m10-cB_3iyk-a1-m10-cC 3iyk-a1-m10-cD_3iyk-a1-m10-cE 3iyk-a1-m10-cD_3iyk-a1-m10-cF 3iyk-a1-m10-cE_3iyk-a1-m10-cF 3iyk-a1-m11-cA_3iyk-a1-m11-cB 3iyk-a1-m11-cA_3iyk-a1-m11-cC 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3iyk-a1-m21-cB_3iyk-a1-m21-cC 3iyk-a1-m21-cD_3iyk-a1-m21-cE 3iyk-a1-m21-cD_3iyk-a1-m21-cF 3iyk-a1-m21-cE_3iyk-a1-m21-cF 3iyk-a1-m22-cA_3iyk-a1-m22-cB 3iyk-a1-m22-cA_3iyk-a1-m22-cC 3iyk-a1-m22-cB_3iyk-a1-m22-cC 3iyk-a1-m22-cD_3iyk-a1-m22-cE 3iyk-a1-m22-cD_3iyk-a1-m22-cF 3iyk-a1-m22-cE_3iyk-a1-m22-cF 3iyk-a1-m23-cA_3iyk-a1-m23-cB 3iyk-a1-m23-cA_3iyk-a1-m23-cC 3iyk-a1-m23-cB_3iyk-a1-m23-cC 3iyk-a1-m23-cD_3iyk-a1-m23-cE 3iyk-a1-m23-cD_3iyk-a1-m23-cF 3iyk-a1-m23-cE_3iyk-a1-m23-cF 3iyk-a1-m24-cA_3iyk-a1-m24-cB 3iyk-a1-m24-cA_3iyk-a1-m24-cC 3iyk-a1-m24-cB_3iyk-a1-m24-cC 3iyk-a1-m24-cD_3iyk-a1-m24-cE 3iyk-a1-m24-cD_3iyk-a1-m24-cF 3iyk-a1-m24-cE_3iyk-a1-m24-cF 3iyk-a1-m25-cA_3iyk-a1-m25-cB 3iyk-a1-m25-cA_3iyk-a1-m25-cC 3iyk-a1-m25-cB_3iyk-a1-m25-cC 3iyk-a1-m25-cD_3iyk-a1-m25-cE 3iyk-a1-m25-cD_3iyk-a1-m25-cF 3iyk-a1-m25-cE_3iyk-a1-m25-cF 3iyk-a1-m26-cA_3iyk-a1-m26-cB 3iyk-a1-m26-cA_3iyk-a1-m26-cC 3iyk-a1-m26-cB_3iyk-a1-m26-cC 3iyk-a1-m26-cD_3iyk-a1-m26-cE 3iyk-a1-m26-cD_3iyk-a1-m26-cF 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3iyk-a1-m6-cB_3iyk-a1-m6-cC 3iyk-a1-m6-cD_3iyk-a1-m6-cE 3iyk-a1-m6-cD_3iyk-a1-m6-cF 3iyk-a1-m6-cE_3iyk-a1-m6-cF 3iyk-a1-m7-cA_3iyk-a1-m7-cB 3iyk-a1-m7-cA_3iyk-a1-m7-cC 3iyk-a1-m7-cB_3iyk-a1-m7-cC 3iyk-a1-m7-cD_3iyk-a1-m7-cE 3iyk-a1-m7-cD_3iyk-a1-m7-cF 3iyk-a1-m7-cE_3iyk-a1-m7-cF 3iyk-a1-m8-cA_3iyk-a1-m8-cB 3iyk-a1-m8-cA_3iyk-a1-m8-cC 3iyk-a1-m8-cB_3iyk-a1-m8-cC 3iyk-a1-m8-cD_3iyk-a1-m8-cE 3iyk-a1-m8-cD_3iyk-a1-m8-cF 3iyk-a1-m8-cE_3iyk-a1-m8-cF 3iyk-a1-m9-cA_3iyk-a1-m9-cB 3iyk-a1-m9-cA_3iyk-a1-m9-cC 3iyk-a1-m9-cB_3iyk-a1-m9-cC 3iyk-a1-m9-cD_3iyk-a1-m9-cE 3iyk-a1-m9-cD_3iyk-a1-m9-cF VIRSLNRFGKKAKKIYSTIGKAAERFAESEIGSAAIDGLVQGSVHSIIYGESVKQAVLLNEQRNELVNDKIKEKFGKENAEIEDEKQFDILNKAVTSYNKILTEEMRRLATALQKEIGERTHAETVMVKEYRDKIDALKNAEIAGMTADVLEAAPLIGAGMATAVATKLKKVINALSIDLTRTPKIPSVVSTILEDNALAVSVLSKNRAIQNEILPRFKKAMDVMMKFIHVYSAPWVFFFHCISHHHANESFFLGFDLIDLVHYEDLGAAQTAAGRTSNAFGTQMHTRRLSLHYDISSDLRGNAQRI 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ASASKAAAFAQGGSSDPVPMPGKYPVVFSTGAGEPTRDQEFALPVHKAFPLFGSVSDKYRRNPRYAEFRAHSEFTDGVFGTHLAVSSLLRLAQQLVHAHVNMGLPLGDFAPLASSDVRIPSALASVVNQFGEFSSPSIGTRFLLRDFEHAVSRVVFLADQLWTNGNSHHIFARSWLPMSNNDGNFKTIVASRLLEFISAGDLSILPTVLEDAVLSGEVPEAWEQVKDLLGDAPGVGQVDRRDRFDFLFKSYADVGQFTTAFTTQAASDVLTELGLPWNSPSAGHLNWQYSTKQRFTFLADTWAKLSAAYSQFFELSSGLATRQSATGSHAQMVDLTSVEGVTVLKAALALSAPEFSLAACFPPSCIFVGGLTRRVVVTTSLSVSQRATEFCQMDWR 3iym-a1-m55-cA_3iym-a1-m9-cB Backbone Trace of the Capsid Protein Dimer of a Fungal Partitivirus from Electron Cryomicroscopy and Homology Modeling Q6YDQ6 Q6YDQ6 4.7 ELECTRON MICROSCOPY 14 1.0 216371 (Penicillium stoloniferum virus S) 216371 (Penicillium stoloniferum virus S) 396 396 3iym-a1-m10-cA_3iym-a1-m24-cB 3iym-a1-m10-cB_3iym-a1-m24-cA 3iym-a1-m11-cA_3iym-a1-m16-cB 3iym-a1-m11-cB_3iym-a1-m16-cA 3iym-a1-m12-cA_3iym-a1-m38-cB 3iym-a1-m12-cB_3iym-a1-m38-cA 3iym-a1-m13-cA_3iym-a1-m47-cB 3iym-a1-m13-cB_3iym-a1-m47-cA 3iym-a1-m14-cA_3iym-a1-m45-cB 3iym-a1-m14-cB_3iym-a1-m45-cA 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ASASKAAAFAQGGSSDPVPMPGKYPVVFSTGAGEPTRDQEFALPVHKAFPLFGSVSDKYRRNPRYAEFRAHSEFTDGVFGTHLAVSSLLRLAQQLVHAHVNMGLPLGDFAPLASSDVRIPSALASVVNQFGEFSSPSIGTRFLLRDFEHAVSRVVFLADQLWTNGNSHHIFARSWLPMSNNDGNFKTIVASRLLEFISAGDLSILPTVLEDAVLSGEVPEAWEQVKDLLGDAPGVGQVDRRDRFDFLFKSYADVGQFTTAFTTQAASDVLTELGLPWNSPSAGHLNWQYSTKQRFTFLADTWAKLSAAYSQFFELSSGLATRQSATGSHAQMVDLTSVEGVTVLKAALALSAPEFSLAACFPPSCIFVGGLTRRVVVTTSLSVSQRATEFCQMDWR 3iym-a1-m8-cA_3iym-a1-m9-cA Backbone Trace of the Capsid Protein Dimer of a Fungal Partitivirus from Electron Cryomicroscopy and Homology Modeling Q6YDQ6 Q6YDQ6 4.7 ELECTRON MICROSCOPY 10 1.0 216371 (Penicillium stoloniferum virus S) 216371 (Penicillium stoloniferum virus S) 396 396 3iym-a1-m10-cA_3iym-a1-m6-cA 3iym-a1-m10-cA_3iym-a1-m9-cA 3iym-a1-m11-cA_3iym-a1-m12-cA 3iym-a1-m11-cA_3iym-a1-m15-cA 3iym-a1-m12-cA_3iym-a1-m13-cA 3iym-a1-m13-cA_3iym-a1-m14-cA 3iym-a1-m14-cA_3iym-a1-m15-cA 3iym-a1-m16-cA_3iym-a1-m17-cA 3iym-a1-m16-cA_3iym-a1-m20-cA 3iym-a1-m17-cA_3iym-a1-m18-cA 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3iym-a1-m47-cA_3iym-a1-m48-cA 3iym-a1-m48-cA_3iym-a1-m49-cA 3iym-a1-m49-cA_3iym-a1-m50-cA 3iym-a1-m4-cA_3iym-a1-m5-cA 3iym-a1-m51-cA_3iym-a1-m52-cA 3iym-a1-m51-cA_3iym-a1-m55-cA 3iym-a1-m52-cA_3iym-a1-m53-cA 3iym-a1-m53-cA_3iym-a1-m54-cA 3iym-a1-m54-cA_3iym-a1-m55-cA 3iym-a1-m56-cA_3iym-a1-m57-cA 3iym-a1-m56-cA_3iym-a1-m60-cA 3iym-a1-m57-cA_3iym-a1-m58-cA 3iym-a1-m58-cA_3iym-a1-m59-cA 3iym-a1-m59-cA_3iym-a1-m60-cA 3iym-a1-m6-cA_3iym-a1-m7-cA 3iym-a1-m7-cA_3iym-a1-m8-cA ASASKAAAFAQGGSSDPVPMPGKYPVVFSTGAGEPTRDQEFALPVHKAFPLFGSVSDKYRRNPRYAEFRAHSEFTDGVFGTHLAVSSLLRLAQQLVHAHVNMGLPLGDFAPLASSDVRIPSALASVVNQFGEFSSPSIGTRFLLRDFEHAVSRVVFLADQLWTNGNSHHIFARSWLPMSNNDGNFKTIVASRLLEFISAGDLSILPTVLEDAVLSGEVPEAWEQVKDLLGDAPGVGQVDRRDRFDFLFKSYADVGQFTTAFTTQAASDVLTELGLPWNSPSAGHLNWQYSTKQRFTFLADTWAKLSAAYSQFFELSSGLATRQSATGSHAQMVDLTSVEGVTVLKAALALSAPEFSLAACFPPSCIFVGGLTRRVVVTTSLSVSQRATEFCQMDWR 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3iym-a1-m4-cA_3iym-a1-m4-cB 3iym-a1-m50-cA_3iym-a1-m50-cB 3iym-a1-m51-cA_3iym-a1-m51-cB 3iym-a1-m52-cA_3iym-a1-m52-cB 3iym-a1-m53-cA_3iym-a1-m53-cB 3iym-a1-m54-cA_3iym-a1-m54-cB 3iym-a1-m55-cA_3iym-a1-m55-cB 3iym-a1-m56-cA_3iym-a1-m56-cB 3iym-a1-m57-cA_3iym-a1-m57-cB 3iym-a1-m58-cA_3iym-a1-m58-cB 3iym-a1-m59-cA_3iym-a1-m59-cB 3iym-a1-m5-cA_3iym-a1-m5-cB 3iym-a1-m60-cA_3iym-a1-m60-cB 3iym-a1-m6-cA_3iym-a1-m6-cB 3iym-a1-m7-cA_3iym-a1-m7-cB 3iym-a1-m8-cA_3iym-a1-m8-cB ASASKAAAFAQGGSSDPVPMPGKYPVVFSTGAGEPTRDQEFALPVHKAFPLFGSVSDKYRRNPRYAEFRAHSEFTDGVFGTHLAVSSLLRLAQQLVHAHVNMGLPLGDFAPLASSDVRIPSALASVVNQFGEFSSPSIGTRFLLRDFEHAVSRVVFLADQLWTNGNSHHIFARSWLPMSNNDGNFKTIVASRLLEFISAGDLSILPTVLEDAVLSGEVPEAWEQVKDLLGDAPGVGQVDRRDRFDFLFKSYADVGQFTTAFTTQAASDVLTELGLPWNSPSAGHLNWQYSTKQRFTFLADTWAKLSAAYSQFFELSSGLATRQSATGSHAQMVDLTSVEGVTVLKAALALSAPEFSLAACFPPSCIFVGGLTRRVVVTTSLSVSQRATEFCQMDWR ASASKAAAFAQGGSSDPVPMPGKYPVVFSTGAGEPTRDQEFALPVHKAFPLFGSVSDKYRRNPRYAEFRAHSEFTDGVFGTHLAVSSLLRLAQQLVHAHVNMGLPLGDFAPLASSDVRIPSALASVVNQFGEFSSPSIGTRFLLRDFEHAVSRVVFLADQLWTNGNSHHIFARSWLPMSNNDGNFKTIVASRLLEFISAGDLSILPTVLEDAVLSGEVPEAWEQVKDLLGDAPGVGQVDRRDRFDFLFKSYADVGQFTTAFTTQAASDVLTELGLPWNSPSAGHLNWQYSTKQRFTFLADTWAKLSAAYSQFFELSSGLATRQSATGSHAQMVDLTSVEGVTVLKAALALSAPEFSLAACFPPSCIFVGGLTRRVVVTTSLSVSQRATEFCQMDWR 3iyo-a1-m23-cD_3iyo-a1-m9-cD Cryo-EM model of virion-sized HEV virion-sized capsid Q1AHV0 Q1AHV0 10.5 ELECTRON MICROSCOPY 396 1.0 461 461 3iyo-a1-m10-cD_3iyo-a1-m5-cD 3iyo-a1-m11-cD_3iyo-a1-m37-cD 3iyo-a1-m12-cD_3iyo-a1-m46-cD 3iyo-a1-m13-cD_3iyo-a1-m44-cD 3iyo-a1-m14-cD_3iyo-a1-m28-cD 3iyo-a1-m15-cD_3iyo-a1-m20-cD 3iyo-a1-m16-cD_3iyo-a1-m27-cD 3iyo-a1-m17-cD_3iyo-a1-m51-cD 3iyo-a1-m18-cD_3iyo-a1-m59-cD 3iyo-a1-m19-cD_3iyo-a1-m38-cD 3iyo-a1-m1-cD_3iyo-a1-m22-cD 3iyo-a1-m21-cD_3iyo-a1-m42-cD 3iyo-a1-m24-cD_3iyo-a1-m53-cD 3iyo-a1-m25-cD_3iyo-a1-m30-cD 3iyo-a1-m26-cD_3iyo-a1-m52-cD 3iyo-a1-m29-cD_3iyo-a1-m43-cD 3iyo-a1-m2-cD_3iyo-a1-m41-cD 3iyo-a1-m31-cD_3iyo-a1-m57-cD 3iyo-a1-m32-cD_3iyo-a1-m6-cD 3iyo-a1-m33-cD_3iyo-a1-m4-cD 3iyo-a1-m34-cD_3iyo-a1-m48-cD 3iyo-a1-m35-cD_3iyo-a1-m40-cD 3iyo-a1-m36-cD_3iyo-a1-m47-cD 3iyo-a1-m39-cD_3iyo-a1-m58-cD 3iyo-a1-m3-cD_3iyo-a1-m49-cD 3iyo-a1-m45-cD_3iyo-a1-m50-cD 3iyo-a1-m54-cD_3iyo-a1-m8-cD 3iyo-a1-m55-cD_3iyo-a1-m60-cD 3iyo-a1-m56-cD_3iyo-a1-m7-cD DTPPVPDVDSRGAILRRQYNLSTSPLTSSVATGTNLVLYAAPLSPLLPLQDGTNTHIMATEASNYAQYRVARATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSTARHRLRRGADGTAELTTTAATRFMKDLYFTSTNGVGEIGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEPAPSRPFSVLRANDVLWLSLTAAEYTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQYSKTFFVLPLRGKLSFWEAGTTKQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPHSA DTPPVPDVDSRGAILRRQYNLSTSPLTSSVATGTNLVLYAAPLSPLLPLQDGTNTHIMATEASNYAQYRVARATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSTARHRLRRGADGTAELTTTAATRFMKDLYFTSTNGVGEIGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEPAPSRPFSVLRANDVLWLSLTAAEYTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQYSKTFFVLPLRGKLSFWEAGTTKQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPHSA 3iyo-a1-m9-cD_3iyo-a1-m24-cB Cryo-EM model of virion-sized HEV virion-sized capsid Q1AHV0 Q1AHV0 10.5 ELECTRON MICROSCOPY 473 1.0 461 468 3iyo-a1-m10-cD_3iyo-a1-m1-cB 3iyo-a1-m11-cD_3iyo-a1-m38-cB 3iyo-a1-m12-cD_3iyo-a1-m47-cB 3iyo-a1-m13-cD_3iyo-a1-m45-cB 3iyo-a1-m14-cD_3iyo-a1-m29-cB 3iyo-a1-m15-cD_3iyo-a1-m16-cB 3iyo-a1-m16-cD_3iyo-a1-m28-cB 3iyo-a1-m17-cD_3iyo-a1-m52-cB 3iyo-a1-m18-cD_3iyo-a1-m60-cB 3iyo-a1-m19-cD_3iyo-a1-m39-cB 3iyo-a1-m1-cD_3iyo-a1-m23-cB 3iyo-a1-m20-cD_3iyo-a1-m11-cB 3iyo-a1-m21-cD_3iyo-a1-m43-cB 3iyo-a1-m22-cD_3iyo-a1-m2-cB 3iyo-a1-m23-cD_3iyo-a1-m10-cB 3iyo-a1-m24-cD_3iyo-a1-m54-cB 3iyo-a1-m25-cD_3iyo-a1-m26-cB 3iyo-a1-m26-cD_3iyo-a1-m53-cB 3iyo-a1-m27-cD_3iyo-a1-m17-cB 3iyo-a1-m28-cD_3iyo-a1-m15-cB 3iyo-a1-m29-cD_3iyo-a1-m44-cB 3iyo-a1-m2-cD_3iyo-a1-m42-cB 3iyo-a1-m30-cD_3iyo-a1-m21-cB 3iyo-a1-m31-cD_3iyo-a1-m58-cB 3iyo-a1-m32-cD_3iyo-a1-m7-cB 3iyo-a1-m33-cD_3iyo-a1-m5-cB 3iyo-a1-m34-cD_3iyo-a1-m49-cB 3iyo-a1-m35-cD_3iyo-a1-m36-cB 3iyo-a1-m36-cD_3iyo-a1-m48-cB 3iyo-a1-m37-cD_3iyo-a1-m12-cB 3iyo-a1-m38-cD_3iyo-a1-m20-cB 3iyo-a1-m39-cD_3iyo-a1-m59-cB 3iyo-a1-m3-cD_3iyo-a1-m50-cB 3iyo-a1-m40-cD_3iyo-a1-m31-cB 3iyo-a1-m41-cD_3iyo-a1-m3-cB 3iyo-a1-m42-cD_3iyo-a1-m22-cB 3iyo-a1-m43-cD_3iyo-a1-m30-cB 3iyo-a1-m44-cD_3iyo-a1-m14-cB 3iyo-a1-m45-cD_3iyo-a1-m46-cB 3iyo-a1-m46-cD_3iyo-a1-m13-cB 3iyo-a1-m47-cD_3iyo-a1-m37-cB 3iyo-a1-m48-cD_3iyo-a1-m35-cB 3iyo-a1-m49-cD_3iyo-a1-m4-cB 3iyo-a1-m4-cD_3iyo-a1-m34-cB 3iyo-a1-m50-cD_3iyo-a1-m41-cB 3iyo-a1-m51-cD_3iyo-a1-m18-cB 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DTPPVPDVDSRGAILRRQYNLSTSPLTSSVATGTNLVLYAAPLSPLLPLQDGTNTHIMATEASNYAQYRVARATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSTARHRLRRGADGTAELTTTAATRFMKDLYFTSTNGVGEIGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQYSKTFFVLPLRGKLSFWEAGTTKQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPHSA 3iyo-a1-m9-cD_3iyo-a1-m9-cA Cryo-EM model of virion-sized HEV virion-sized capsid Q1AHV0 Q1AHV0 10.5 ELECTRON MICROSCOPY 80 1.0 461 468 3iyo-a1-m10-cD_3iyo-a1-m10-cA 3iyo-a1-m11-cD_3iyo-a1-m11-cA 3iyo-a1-m12-cD_3iyo-a1-m12-cA 3iyo-a1-m13-cD_3iyo-a1-m13-cA 3iyo-a1-m14-cD_3iyo-a1-m14-cA 3iyo-a1-m15-cD_3iyo-a1-m15-cA 3iyo-a1-m16-cD_3iyo-a1-m16-cA 3iyo-a1-m17-cD_3iyo-a1-m17-cA 3iyo-a1-m18-cD_3iyo-a1-m18-cA 3iyo-a1-m19-cD_3iyo-a1-m19-cA 3iyo-a1-m1-cD_3iyo-a1-m1-cA 3iyo-a1-m20-cD_3iyo-a1-m20-cA 3iyo-a1-m21-cD_3iyo-a1-m21-cA 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3iyo-a1-m52-cD_3iyo-a1-m52-cA 3iyo-a1-m53-cD_3iyo-a1-m53-cA 3iyo-a1-m54-cD_3iyo-a1-m54-cA 3iyo-a1-m55-cD_3iyo-a1-m55-cA 3iyo-a1-m56-cD_3iyo-a1-m56-cA 3iyo-a1-m57-cD_3iyo-a1-m57-cA 3iyo-a1-m58-cD_3iyo-a1-m58-cA 3iyo-a1-m59-cD_3iyo-a1-m59-cA 3iyo-a1-m5-cD_3iyo-a1-m5-cA 3iyo-a1-m60-cD_3iyo-a1-m60-cA 3iyo-a1-m6-cD_3iyo-a1-m6-cA 3iyo-a1-m7-cD_3iyo-a1-m7-cA 3iyo-a1-m8-cD_3iyo-a1-m8-cA DTPPVPDVDSRGAILRRQYNLSTSPLTSSVATGTNLVLYAAPLSPLLPLQDGTNTHIMATEASNYAQYRVARATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSTARHRLRRGADGTAELTTTAATRFMKDLYFTSTNGVGEIGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEPAPSRPFSVLRANDVLWLSLTAAEYTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQYSKTFFVLPLRGKLSFWEAGTTKQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPHSA DTPPVPDVDSRGAILRRQYNLSTSPLTSSVATGTNLVLYAAPLSPLLPLQDGTNTHIMATEASNYAQYRVARATIRYRPLVPNAVGGYAISISFWPQTTTTPTSVDMNSITSTDVRILVQPGIASELVIPSERLHYRNQGWRSVETSGVAEEEATSGLVMLCIHGSPVNSYTNTPYTGALGLLDFALELEFRNLTPGNTNTRVSRYSSTARHRLRRGADGTAELTTTAATRFMKDLYFTSTNGVGEIGRGIALTLFNLADTLLGGLPTELISSAGGQLFYSRPVVSANGEPTVKLYTSVENAQQDKGIAIPHDIDLGESRVVIQDYDNQHEQDRPTPSPAPSRPFSVLRANDVLWLSLTAAEYTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQYSKTFFVLPLRGKLSFWEAGTTKQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPHSA 3iyp-a1-m8-cF_3iyp-a1-m9-cF The Interaction of Decay-accelerating Factor with Echovirus 7 P08174 P08174 7.2 ELECTRON MICROSCOPY 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 3iyp-a1-m10-cF_3iyp-a1-m6-cF 3iyp-a1-m10-cF_3iyp-a1-m9-cF 3iyp-a1-m11-cF_3iyp-a1-m12-cF 3iyp-a1-m11-cF_3iyp-a1-m15-cF 3iyp-a1-m12-cF_3iyp-a1-m13-cF 3iyp-a1-m13-cF_3iyp-a1-m14-cF 3iyp-a1-m14-cF_3iyp-a1-m15-cF 3iyp-a1-m16-cF_3iyp-a1-m17-cF 3iyp-a1-m16-cF_3iyp-a1-m20-cF 3iyp-a1-m17-cF_3iyp-a1-m18-cF 3iyp-a1-m18-cF_3iyp-a1-m19-cF 3iyp-a1-m19-cF_3iyp-a1-m20-cF 3iyp-a1-m1-cF_3iyp-a1-m2-cF 3iyp-a1-m1-cF_3iyp-a1-m5-cF 3iyp-a1-m21-cF_3iyp-a1-m22-cF 3iyp-a1-m21-cF_3iyp-a1-m25-cF 3iyp-a1-m22-cF_3iyp-a1-m23-cF 3iyp-a1-m23-cF_3iyp-a1-m24-cF 3iyp-a1-m24-cF_3iyp-a1-m25-cF 3iyp-a1-m26-cF_3iyp-a1-m27-cF 3iyp-a1-m26-cF_3iyp-a1-m30-cF 3iyp-a1-m27-cF_3iyp-a1-m28-cF 3iyp-a1-m28-cF_3iyp-a1-m29-cF 3iyp-a1-m29-cF_3iyp-a1-m30-cF 3iyp-a1-m2-cF_3iyp-a1-m3-cF 3iyp-a1-m31-cF_3iyp-a1-m32-cF 3iyp-a1-m31-cF_3iyp-a1-m35-cF 3iyp-a1-m32-cF_3iyp-a1-m33-cF 3iyp-a1-m33-cF_3iyp-a1-m34-cF 3iyp-a1-m34-cF_3iyp-a1-m35-cF 3iyp-a1-m36-cF_3iyp-a1-m37-cF 3iyp-a1-m36-cF_3iyp-a1-m40-cF 3iyp-a1-m37-cF_3iyp-a1-m38-cF 3iyp-a1-m38-cF_3iyp-a1-m39-cF 3iyp-a1-m39-cF_3iyp-a1-m40-cF 3iyp-a1-m3-cF_3iyp-a1-m4-cF 3iyp-a1-m41-cF_3iyp-a1-m42-cF 3iyp-a1-m41-cF_3iyp-a1-m45-cF 3iyp-a1-m42-cF_3iyp-a1-m43-cF 3iyp-a1-m43-cF_3iyp-a1-m44-cF 3iyp-a1-m44-cF_3iyp-a1-m45-cF 3iyp-a1-m46-cF_3iyp-a1-m47-cF 3iyp-a1-m46-cF_3iyp-a1-m50-cF 3iyp-a1-m47-cF_3iyp-a1-m48-cF 3iyp-a1-m48-cF_3iyp-a1-m49-cF 3iyp-a1-m49-cF_3iyp-a1-m50-cF 3iyp-a1-m4-cF_3iyp-a1-m5-cF 3iyp-a1-m51-cF_3iyp-a1-m52-cF 3iyp-a1-m51-cF_3iyp-a1-m55-cF 3iyp-a1-m52-cF_3iyp-a1-m53-cF 3iyp-a1-m53-cF_3iyp-a1-m54-cF 3iyp-a1-m54-cF_3iyp-a1-m55-cF 3iyp-a1-m56-cF_3iyp-a1-m57-cF 3iyp-a1-m56-cF_3iyp-a1-m60-cF 3iyp-a1-m57-cF_3iyp-a1-m58-cF 3iyp-a1-m58-cF_3iyp-a1-m59-cF 3iyp-a1-m59-cF_3iyp-a1-m60-cF 3iyp-a1-m6-cF_3iyp-a1-m7-cF 3iyp-a1-m7-cF_3iyp-a1-m8-cF QDCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTMIGEHSIYCTVNNDEGEWSGPPPECRG QDCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTMIGEHSIYCTVNNDEGEWSGPPPECRG 3iys-a1-m10-cB_3iys-a1-m9-cC Homology model of avian polyomavirus asymmetric unit P13891 P13891 11.3 ELECTRON MICROSCOPY 156 1.0 337 337 3iys-a1-m10-cC_3iys-a1-m6-cB 3iys-a1-m11-cB_3iys-a1-m15-cC 3iys-a1-m11-cC_3iys-a1-m12-cB 3iys-a1-m12-cC_3iys-a1-m13-cB 3iys-a1-m13-cC_3iys-a1-m14-cB 3iys-a1-m14-cC_3iys-a1-m15-cB 3iys-a1-m16-cB_3iys-a1-m20-cC 3iys-a1-m16-cC_3iys-a1-m17-cB 3iys-a1-m17-cC_3iys-a1-m18-cB 3iys-a1-m18-cC_3iys-a1-m19-cB 3iys-a1-m19-cC_3iys-a1-m20-cB 3iys-a1-m1-cB_3iys-a1-m5-cC 3iys-a1-m1-cC_3iys-a1-m2-cB 3iys-a1-m21-cB_3iys-a1-m25-cC 3iys-a1-m21-cC_3iys-a1-m22-cB 3iys-a1-m22-cC_3iys-a1-m23-cB 3iys-a1-m23-cC_3iys-a1-m24-cB 3iys-a1-m24-cC_3iys-a1-m25-cB 3iys-a1-m26-cB_3iys-a1-m30-cC 3iys-a1-m26-cC_3iys-a1-m27-cB 3iys-a1-m27-cC_3iys-a1-m28-cB 3iys-a1-m28-cC_3iys-a1-m29-cB 3iys-a1-m29-cC_3iys-a1-m30-cB 3iys-a1-m2-cC_3iys-a1-m3-cB 3iys-a1-m31-cB_3iys-a1-m35-cC 3iys-a1-m31-cC_3iys-a1-m32-cB 3iys-a1-m32-cC_3iys-a1-m33-cB 3iys-a1-m33-cC_3iys-a1-m34-cB 3iys-a1-m34-cC_3iys-a1-m35-cB 3iys-a1-m36-cB_3iys-a1-m40-cC 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GSCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAPR GSCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAPR 3iys-a1-m54-cD_3iys-a1-m9-cE Homology model of avian polyomavirus asymmetric unit P13891 P13891 11.3 ELECTRON MICROSCOPY 301 1.0 321 337 3iys-a1-m10-cA_3iys-a1-m24-cA 3iys-a1-m10-cD_3iys-a1-m1-cE 3iys-a1-m11-cA_3iys-a1-m16-cA 3iys-a1-m11-cD_3iys-a1-m38-cE 3iys-a1-m12-cA_3iys-a1-m38-cA 3iys-a1-m12-cD_3iys-a1-m47-cE 3iys-a1-m13-cA_3iys-a1-m47-cA 3iys-a1-m13-cD_3iys-a1-m45-cE 3iys-a1-m14-cA_3iys-a1-m45-cA 3iys-a1-m14-cD_3iys-a1-m29-cE 3iys-a1-m15-cA_3iys-a1-m29-cA 3iys-a1-m15-cD_3iys-a1-m16-cE 3iys-a1-m16-cD_3iys-a1-m28-cE 3iys-a1-m17-cA_3iys-a1-m28-cA 3iys-a1-m17-cD_3iys-a1-m52-cE 3iys-a1-m18-cA_3iys-a1-m52-cA 3iys-a1-m18-cD_3iys-a1-m60-cE 3iys-a1-m19-cA_3iys-a1-m60-cA 3iys-a1-m19-cD_3iys-a1-m39-cE 3iys-a1-m1-cA_3iys-a1-m6-cA 3iys-a1-m1-cD_3iys-a1-m23-cE 3iys-a1-m20-cA_3iys-a1-m39-cA 3iys-a1-m20-cD_3iys-a1-m11-cE 3iys-a1-m21-cA_3iys-a1-m26-cA 3iys-a1-m21-cD_3iys-a1-m43-cE 3iys-a1-m22-cA_3iys-a1-m43-cA 3iys-a1-m22-cD_3iys-a1-m2-cE 3iys-a1-m23-cD_3iys-a1-m10-cE 3iys-a1-m24-cD_3iys-a1-m54-cE 3iys-a1-m25-cA_3iys-a1-m54-cA 3iys-a1-m25-cD_3iys-a1-m26-cE 3iys-a1-m26-cD_3iys-a1-m53-cE 3iys-a1-m27-cA_3iys-a1-m53-cA 3iys-a1-m27-cD_3iys-a1-m17-cE 3iys-a1-m28-cD_3iys-a1-m15-cE 3iys-a1-m29-cD_3iys-a1-m44-cE 3iys-a1-m2-cA_3iys-a1-m23-cA 3iys-a1-m2-cD_3iys-a1-m42-cE 3iys-a1-m30-cA_3iys-a1-m44-cA 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3iys-a1-m51-cA_3iys-a1-m56-cA 3iys-a1-m51-cD_3iys-a1-m18-cE 3iys-a1-m52-cD_3iys-a1-m27-cE 3iys-a1-m53-cD_3iys-a1-m25-cE 3iys-a1-m55-cA_3iys-a1-m9-cA 3iys-a1-m55-cD_3iys-a1-m56-cE 3iys-a1-m56-cD_3iys-a1-m8-cE 3iys-a1-m57-cA_3iys-a1-m8-cA 3iys-a1-m57-cD_3iys-a1-m32-cE 3iys-a1-m58-cD_3iys-a1-m40-cE 3iys-a1-m59-cD_3iys-a1-m19-cE 3iys-a1-m5-cD_3iys-a1-m6-cE 3iys-a1-m60-cD_3iys-a1-m51-cE 3iys-a1-m6-cD_3iys-a1-m33-cE 3iys-a1-m7-cD_3iys-a1-m57-cE 3iys-a1-m8-cD_3iys-a1-m55-cE 3iys-a1-m9-cD_3iys-a1-m24-cE GSCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEG GSCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAPR 3iys-a1-m54-cE_3iys-a1-m9-cE Homology model of avian polyomavirus asymmetric unit P13891 P13891 11.3 ELECTRON MICROSCOPY 28 1.0 337 337 3iys-a1-m10-cA_3iys-a1-m24-cB 3iys-a1-m10-cB_3iys-a1-m24-cA 3iys-a1-m10-cE_3iys-a1-m23-cE 3iys-a1-m11-cA_3iys-a1-m16-cB 3iys-a1-m11-cB_3iys-a1-m16-cA 3iys-a1-m11-cE_3iys-a1-m20-cE 3iys-a1-m11-cE_3iys-a1-m38-cE 3iys-a1-m12-cA_3iys-a1-m38-cB 3iys-a1-m12-cB_3iys-a1-m38-cA 3iys-a1-m12-cE_3iys-a1-m37-cE 3iys-a1-m12-cE_3iys-a1-m47-cE 3iys-a1-m13-cA_3iys-a1-m47-cB 3iys-a1-m13-cB_3iys-a1-m47-cA 3iys-a1-m13-cE_3iys-a1-m45-cE 3iys-a1-m13-cE_3iys-a1-m46-cE 3iys-a1-m14-cA_3iys-a1-m45-cB 3iys-a1-m14-cB_3iys-a1-m45-cA 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3iys-a1-m13-cF_3iys-a1-m12-cC 3iys-a1-m13-cF_3iys-a1-m13-cB 3iys-a1-m14-cF_3iys-a1-m13-cC 3iys-a1-m14-cF_3iys-a1-m14-cB 3iys-a1-m15-cF_3iys-a1-m14-cC 3iys-a1-m15-cF_3iys-a1-m15-cB 3iys-a1-m16-cF_3iys-a1-m16-cB 3iys-a1-m16-cF_3iys-a1-m20-cC 3iys-a1-m17-cF_3iys-a1-m16-cC 3iys-a1-m17-cF_3iys-a1-m17-cB 3iys-a1-m18-cF_3iys-a1-m17-cC 3iys-a1-m18-cF_3iys-a1-m18-cB 3iys-a1-m19-cF_3iys-a1-m18-cC 3iys-a1-m19-cF_3iys-a1-m19-cB 3iys-a1-m1-cF_3iys-a1-m1-cB 3iys-a1-m1-cF_3iys-a1-m5-cC 3iys-a1-m20-cF_3iys-a1-m19-cC 3iys-a1-m20-cF_3iys-a1-m20-cB 3iys-a1-m21-cF_3iys-a1-m21-cB 3iys-a1-m21-cF_3iys-a1-m25-cC 3iys-a1-m22-cF_3iys-a1-m21-cC 3iys-a1-m22-cF_3iys-a1-m22-cB 3iys-a1-m23-cF_3iys-a1-m22-cC 3iys-a1-m23-cF_3iys-a1-m23-cB 3iys-a1-m24-cF_3iys-a1-m23-cC 3iys-a1-m24-cF_3iys-a1-m24-cB 3iys-a1-m25-cF_3iys-a1-m24-cC 3iys-a1-m25-cF_3iys-a1-m25-cB 3iys-a1-m26-cF_3iys-a1-m26-cB 3iys-a1-m26-cF_3iys-a1-m30-cC 3iys-a1-m27-cF_3iys-a1-m26-cC 3iys-a1-m27-cF_3iys-a1-m27-cB 3iys-a1-m28-cF_3iys-a1-m27-cC 3iys-a1-m28-cF_3iys-a1-m28-cB 3iys-a1-m29-cF_3iys-a1-m28-cC 3iys-a1-m29-cF_3iys-a1-m29-cB 3iys-a1-m2-cF_3iys-a1-m1-cC 3iys-a1-m2-cF_3iys-a1-m2-cB 3iys-a1-m30-cF_3iys-a1-m29-cC 3iys-a1-m30-cF_3iys-a1-m30-cB 3iys-a1-m31-cF_3iys-a1-m31-cB 3iys-a1-m31-cF_3iys-a1-m35-cC 3iys-a1-m32-cF_3iys-a1-m31-cC 3iys-a1-m32-cF_3iys-a1-m32-cB 3iys-a1-m33-cF_3iys-a1-m32-cC 3iys-a1-m33-cF_3iys-a1-m33-cB 3iys-a1-m34-cF_3iys-a1-m33-cC 3iys-a1-m34-cF_3iys-a1-m34-cB 3iys-a1-m35-cF_3iys-a1-m34-cC 3iys-a1-m35-cF_3iys-a1-m35-cB 3iys-a1-m36-cF_3iys-a1-m36-cB 3iys-a1-m36-cF_3iys-a1-m40-cC 3iys-a1-m37-cF_3iys-a1-m36-cC 3iys-a1-m37-cF_3iys-a1-m37-cB 3iys-a1-m38-cF_3iys-a1-m37-cC 3iys-a1-m38-cF_3iys-a1-m38-cB 3iys-a1-m39-cF_3iys-a1-m38-cC 3iys-a1-m39-cF_3iys-a1-m39-cB 3iys-a1-m3-cF_3iys-a1-m2-cC 3iys-a1-m3-cF_3iys-a1-m3-cB 3iys-a1-m40-cF_3iys-a1-m39-cC 3iys-a1-m40-cF_3iys-a1-m40-cB 3iys-a1-m41-cF_3iys-a1-m41-cB 3iys-a1-m41-cF_3iys-a1-m45-cC 3iys-a1-m42-cF_3iys-a1-m41-cC 3iys-a1-m42-cF_3iys-a1-m42-cB 3iys-a1-m43-cF_3iys-a1-m42-cC 3iys-a1-m43-cF_3iys-a1-m43-cB 3iys-a1-m44-cF_3iys-a1-m43-cC 3iys-a1-m44-cF_3iys-a1-m44-cB 3iys-a1-m45-cF_3iys-a1-m44-cC 3iys-a1-m45-cF_3iys-a1-m45-cB 3iys-a1-m46-cF_3iys-a1-m46-cB 3iys-a1-m46-cF_3iys-a1-m50-cC 3iys-a1-m47-cF_3iys-a1-m46-cC 3iys-a1-m47-cF_3iys-a1-m47-cB 3iys-a1-m48-cF_3iys-a1-m47-cC 3iys-a1-m48-cF_3iys-a1-m48-cB 3iys-a1-m49-cF_3iys-a1-m48-cC 3iys-a1-m49-cF_3iys-a1-m49-cB 3iys-a1-m4-cF_3iys-a1-m3-cC 3iys-a1-m4-cF_3iys-a1-m4-cB 3iys-a1-m50-cF_3iys-a1-m49-cC 3iys-a1-m50-cF_3iys-a1-m50-cB 3iys-a1-m51-cF_3iys-a1-m51-cB 3iys-a1-m51-cF_3iys-a1-m55-cC 3iys-a1-m52-cF_3iys-a1-m51-cC 3iys-a1-m52-cF_3iys-a1-m52-cB 3iys-a1-m53-cF_3iys-a1-m52-cC 3iys-a1-m53-cF_3iys-a1-m53-cB 3iys-a1-m54-cF_3iys-a1-m53-cC 3iys-a1-m54-cF_3iys-a1-m54-cB 3iys-a1-m55-cF_3iys-a1-m54-cC 3iys-a1-m55-cF_3iys-a1-m55-cB 3iys-a1-m56-cF_3iys-a1-m56-cB 3iys-a1-m56-cF_3iys-a1-m60-cC 3iys-a1-m57-cF_3iys-a1-m56-cC 3iys-a1-m57-cF_3iys-a1-m57-cB 3iys-a1-m58-cF_3iys-a1-m57-cC 3iys-a1-m58-cF_3iys-a1-m58-cB 3iys-a1-m59-cF_3iys-a1-m58-cC 3iys-a1-m59-cF_3iys-a1-m59-cB 3iys-a1-m5-cF_3iys-a1-m4-cC 3iys-a1-m5-cF_3iys-a1-m5-cB 3iys-a1-m60-cF_3iys-a1-m59-cC 3iys-a1-m60-cF_3iys-a1-m60-cB 3iys-a1-m6-cF_3iys-a1-m10-cC 3iys-a1-m6-cF_3iys-a1-m6-cB 3iys-a1-m7-cF_3iys-a1-m6-cC 3iys-a1-m7-cF_3iys-a1-m7-cB 3iys-a1-m8-cF_3iys-a1-m7-cC 3iys-a1-m8-cF_3iys-a1-m8-cB 3iys-a1-m9-cF_3iys-a1-m8-cC SCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAP GSCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAPR 3iys-a1-m9-cF_3iys-a1-m9-cC Homology model of avian polyomavirus asymmetric unit P13891 P13891 11.3 ELECTRON MICROSCOPY 55 1.0 335 337 3iys-a1-m10-cF_3iys-a1-m10-cC 3iys-a1-m11-cF_3iys-a1-m11-cC 3iys-a1-m12-cF_3iys-a1-m12-cC 3iys-a1-m13-cF_3iys-a1-m13-cC 3iys-a1-m14-cF_3iys-a1-m14-cC 3iys-a1-m15-cF_3iys-a1-m15-cC 3iys-a1-m16-cF_3iys-a1-m16-cC 3iys-a1-m17-cF_3iys-a1-m17-cC 3iys-a1-m18-cF_3iys-a1-m18-cC 3iys-a1-m19-cF_3iys-a1-m19-cC 3iys-a1-m1-cF_3iys-a1-m1-cC 3iys-a1-m20-cF_3iys-a1-m20-cC 3iys-a1-m21-cF_3iys-a1-m21-cC 3iys-a1-m22-cF_3iys-a1-m22-cC 3iys-a1-m23-cF_3iys-a1-m23-cC 3iys-a1-m24-cF_3iys-a1-m24-cC 3iys-a1-m25-cF_3iys-a1-m25-cC 3iys-a1-m26-cF_3iys-a1-m26-cC 3iys-a1-m27-cF_3iys-a1-m27-cC 3iys-a1-m28-cF_3iys-a1-m28-cC 3iys-a1-m29-cF_3iys-a1-m29-cC 3iys-a1-m2-cF_3iys-a1-m2-cC 3iys-a1-m30-cF_3iys-a1-m30-cC 3iys-a1-m31-cF_3iys-a1-m31-cC 3iys-a1-m32-cF_3iys-a1-m32-cC 3iys-a1-m33-cF_3iys-a1-m33-cC 3iys-a1-m34-cF_3iys-a1-m34-cC 3iys-a1-m35-cF_3iys-a1-m35-cC 3iys-a1-m36-cF_3iys-a1-m36-cC 3iys-a1-m37-cF_3iys-a1-m37-cC 3iys-a1-m38-cF_3iys-a1-m38-cC 3iys-a1-m39-cF_3iys-a1-m39-cC 3iys-a1-m3-cF_3iys-a1-m3-cC 3iys-a1-m40-cF_3iys-a1-m40-cC 3iys-a1-m41-cF_3iys-a1-m41-cC 3iys-a1-m42-cF_3iys-a1-m42-cC 3iys-a1-m43-cF_3iys-a1-m43-cC 3iys-a1-m44-cF_3iys-a1-m44-cC 3iys-a1-m45-cF_3iys-a1-m45-cC 3iys-a1-m46-cF_3iys-a1-m46-cC 3iys-a1-m47-cF_3iys-a1-m47-cC 3iys-a1-m48-cF_3iys-a1-m48-cC 3iys-a1-m49-cF_3iys-a1-m49-cC 3iys-a1-m4-cF_3iys-a1-m4-cC 3iys-a1-m50-cF_3iys-a1-m50-cC 3iys-a1-m51-cF_3iys-a1-m51-cC 3iys-a1-m52-cF_3iys-a1-m52-cC 3iys-a1-m53-cF_3iys-a1-m53-cC 3iys-a1-m54-cF_3iys-a1-m54-cC 3iys-a1-m55-cF_3iys-a1-m55-cC 3iys-a1-m56-cF_3iys-a1-m56-cC 3iys-a1-m57-cF_3iys-a1-m57-cC 3iys-a1-m58-cF_3iys-a1-m58-cC 3iys-a1-m59-cF_3iys-a1-m59-cC 3iys-a1-m5-cF_3iys-a1-m5-cC 3iys-a1-m60-cF_3iys-a1-m60-cC 3iys-a1-m6-cF_3iys-a1-m6-cC 3iys-a1-m7-cF_3iys-a1-m7-cC 3iys-a1-m8-cF_3iys-a1-m8-cC SCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAP GSCPRPQQVPRLLVKGGIEVLDVKSGPDSITTIEAYLQPRPGQKNGYSTVITVQAEGYQDAPHSTEVPCYSCARIPLPTINDDITCPTLLMWEAVSVKTEVVGVSSILNMHSGAFRAFNGYGGGFTICGPRIHFFSVGGEPLDLQACMQNSKTVYPAPLIGPGEGERRETAQVLDTGYKARLDKDGLYPIECWCPDPAKNENTRYYGNLTGGPETPPVLAFTNTTTTILLDENGVGPLCKGDGLFLSAADVAGTYVDQRGRQYWRGLPRYFSIQLRKRNVRNPYPVSGLLNSLFNDLMPRMTGQSMQGSDAQVEEVRVYEGMEGLAPEIDMPPKAPR 3izh-a1-m1-cB_3izh-a1-m1-cP Mm-cpn D386A with ATP Q877G8 Q877G8 11.0 ELECTRON MICROSCOPY 44 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 513 513 3izh-a1-m1-cA_3izh-a1-m1-cI 3izh-a1-m1-cC_3izh-a1-m1-cO 3izh-a1-m1-cD_3izh-a1-m1-cN 3izh-a1-m1-cE_3izh-a1-m1-cM 3izh-a1-m1-cF_3izh-a1-m1-cL 3izh-a1-m1-cG_3izh-a1-m1-cK 3izh-a1-m1-cH_3izh-a1-m1-cJ VLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE VLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE 3izh-a1-m1-cO_3izh-a1-m1-cP Mm-cpn D386A with ATP Q877G8 Q877G8 11.0 ELECTRON MICROSCOPY 36 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 513 513 3izh-a1-m1-cA_3izh-a1-m1-cB 3izh-a1-m1-cA_3izh-a1-m1-cH 3izh-a1-m1-cB_3izh-a1-m1-cC 3izh-a1-m1-cC_3izh-a1-m1-cD 3izh-a1-m1-cD_3izh-a1-m1-cE 3izh-a1-m1-cE_3izh-a1-m1-cF 3izh-a1-m1-cF_3izh-a1-m1-cG 3izh-a1-m1-cG_3izh-a1-m1-cH 3izh-a1-m1-cI_3izh-a1-m1-cJ 3izh-a1-m1-cI_3izh-a1-m1-cP 3izh-a1-m1-cJ_3izh-a1-m1-cK 3izh-a1-m1-cK_3izh-a1-m1-cL 3izh-a1-m1-cL_3izh-a1-m1-cM 3izh-a1-m1-cM_3izh-a1-m1-cN 3izh-a1-m1-cN_3izh-a1-m1-cO VLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE VLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE 3j07-a1-m1-cG_3j07-a1-m1-cX Model of a 24mer alphaB-crystallin multimer P02511 P02511 20.0 SOLID-STATE NMR, SOLUTION SCATTERING, ELECTRON MICROSCOPY 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3j07-a1-m1-cA_3j07-a1-m1-cJ 3j07-a1-m1-cB_3j07-a1-m1-cI 3j07-a1-m1-cC_3j07-a1-m1-cV 3j07-a1-m1-cD_3j07-a1-m1-cU 3j07-a1-m1-cE_3j07-a1-m1-cP 3j07-a1-m1-cF_3j07-a1-m1-cO 3j07-a1-m1-cH_3j07-a1-m1-cW 3j07-a1-m1-cK_3j07-a1-m1-cN 3j07-a1-m1-cL_3j07-a1-m1-cM 3j07-a1-m1-cQ_3j07-a1-m1-cT 3j07-a1-m1-cR_3j07-a1-m1-cS MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 3j07-a1-m1-cI_3j07-a1-m1-cW Model of a 24mer alphaB-crystallin multimer P02511 P02511 20.0 SOLID-STATE NMR, SOLUTION SCATTERING, ELECTRON MICROSCOPY 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3j07-a1-m1-cA_3j07-a1-m1-cK 3j07-a1-m1-cA_3j07-a1-m1-cO 3j07-a1-m1-cC_3j07-a1-m1-cI 3j07-a1-m1-cC_3j07-a1-m1-cW 3j07-a1-m1-cE_3j07-a1-m1-cQ 3j07-a1-m1-cE_3j07-a1-m1-cU 3j07-a1-m1-cG_3j07-a1-m1-cM 3j07-a1-m1-cG_3j07-a1-m1-cS 3j07-a1-m1-cK_3j07-a1-m1-cO 3j07-a1-m1-cM_3j07-a1-m1-cS 3j07-a1-m1-cQ_3j07-a1-m1-cU MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 3j07-a1-m1-cS_3j07-a1-m1-cX Model of a 24mer alphaB-crystallin multimer P02511 P02511 20.0 SOLID-STATE NMR, SOLUTION SCATTERING, ELECTRON MICROSCOPY 170 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3j07-a1-m1-cA_3j07-a1-m1-cF 3j07-a1-m1-cB_3j07-a1-m1-cC 3j07-a1-m1-cD_3j07-a1-m1-cE 3j07-a1-m1-cG_3j07-a1-m1-cL 3j07-a1-m1-cH_3j07-a1-m1-cI 3j07-a1-m1-cJ_3j07-a1-m1-cK 3j07-a1-m1-cM_3j07-a1-m1-cR 3j07-a1-m1-cN_3j07-a1-m1-cO 3j07-a1-m1-cP_3j07-a1-m1-cQ 3j07-a1-m1-cT_3j07-a1-m1-cU 3j07-a1-m1-cV_3j07-a1-m1-cW MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 3j07-a1-m1-cW_3j07-a1-m1-cX Model of a 24mer alphaB-crystallin multimer P02511 P02511 20.0 SOLID-STATE NMR, SOLUTION SCATTERING, ELECTRON MICROSCOPY 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3j07-a1-m1-cA_3j07-a1-m1-cB 3j07-a1-m1-cC_3j07-a1-m1-cD 3j07-a1-m1-cE_3j07-a1-m1-cF 3j07-a1-m1-cG_3j07-a1-m1-cH 3j07-a1-m1-cI_3j07-a1-m1-cJ 3j07-a1-m1-cK_3j07-a1-m1-cL 3j07-a1-m1-cM_3j07-a1-m1-cN 3j07-a1-m1-cO_3j07-a1-m1-cP 3j07-a1-m1-cQ_3j07-a1-m1-cR 3j07-a1-m1-cS_3j07-a1-m1-cT 3j07-a1-m1-cU_3j07-a1-m1-cV MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK MDIAIHHPWIRRPFFPFHSPSRLFDQFFGEHLLESDLFPTSTSLSPFYLRPPSFLRAPSWFDTGLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPITREEKPAVTAAPKK 3j08-a1-m1-cA_3j08-a1-m1-cB High resolution helical reconstruction of the bacterial p-type ATPase copper transporter CopA O29777 O29777 10.0 ELECTRON MICROSCOPY 75 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 645 645 EHLSRMKRKLYVAAFAGVLLLFLAHFISLPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVMYSMGVGAAFLASVLSTAGVLPREYSFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAVVIRDGKEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDEVFGATINNTGVLKIRATRVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLVAISAFIYWYFIAHAPLLFAFTTLIAVLVVACPCAFGLATPTALTVGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLNGDERELLRLAAIAERRSEHPIAEAIVKKALEHGIELGEPEKVEVIAGEGVVADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAKEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRKTMSKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLRNYVPPIRRGGD EHLSRMKRKLYVAAFAGVLLLFLAHFISLPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVMYSMGVGAAFLASVLSTAGVLPREYSFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAVVIRDGKEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDEVFGATINNTGVLKIRATRVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLVAISAFIYWYFIAHAPLLFAFTTLIAVLVVACPCAFGLATPTALTVGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLNGDERELLRLAAIAERRSEHPIAEAIVKKALEHGIELGEPEKVEVIAGEGVVADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAKEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRKTMSKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLRNYVPPIRRGGD 3j09-a1-m1-cA_3j09-a1-m1-cB High resolution helical reconstruction of the bacterial p-type ATPase copper transporter CopA O29777 O29777 10.0 ELECTRON MICROSCOPY 45 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 723 723 PMERTVRVTGMTCAMCVKSIETAVGSLEGVEEVRVNLATETAFIRFDEKRIDFETIKRVIEDLGYGVVDEQAAVSAEVEHLSRMKRKLYVAAFAGVLLLFLAHFISLPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVMYSMGVGAAFLASVLSTAGVLPREYSFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAVVIRDGKEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDEVFGATINNTGVLKIRATRVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLVAISAFIYWYFIAHAPLLFAFTTLIAVLVVACPCAFGLATPTALTVGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLNGDERELLRLAAIAERRSEHPIAEAIVKKALEHGIELGEPEKVEVIAGEGVVADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAKEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRKTMSKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLRNYVPPIRRGGD PMERTVRVTGMTCAMCVKSIETAVGSLEGVEEVRVNLATETAFIRFDEKRIDFETIKRVIEDLGYGVVDEQAAVSAEVEHLSRMKRKLYVAAFAGVLLLFLAHFISLPYEDFVQLLIALPAIFYSGSSIFKAAFSALRRRTLNMDVMYSMGVGAAFLASVLSTAGVLPREYSFYETSVLLLAFLLLGRTLEARAKSRTGEAIKKLVGLQAKTAVVIRDGKEIAVPVEEVAVGDIVIVRPGEKIPVDGVVVEGESYVDESMISGEPVPVLKSKGDEVFGATINNTGVLKIRATRVGGETLLAQIVKLVEDAMGSKPPIQRLADKVVAYFIPTVLLVAISAFIYWYFIAHAPLLFAFTTLIAVLVVACPCAFGLATPTALTVGMGKGAELGILIKNADALEVAEKVTAVIFDKTGTLTKGKPEVTDLVPLNGDERELLRLAAIAERRSEHPIAEAIVKKALEHGIELGEPEKVEVIAGEGVVADGILVGNKRLMEDFGVAVSNEVELALEKLEREAKTAVIVARNGRVEGIIAVSDTLKESAKPAVQELKRMGIKVGMITGDNWRSAEAISRELNLDLVIAEVLPHQKSEEVKKLQAKEVVAFVGDGINDAPALAQADLGIAVGSGSDVAVESGDIVLIRDDLRDVVAAIQLSRKTMSKIKQNIFWALIYNVILIPAAAGLLYPIFGVVFRPEFAGLAMAMSSVSVVANSLLLRNYVPPIRRGGD 3j0a-a1-m1-cB_3j0a-a1-m1-cA Homology model of human Toll-like receptor 5 fitted into an electron microscopy single particle reconstruction O60602 O60602 26.0 ELECTRON MICROSCOPY 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 632 797 SCSFDGRIAFYRFCNLTQVPQVLNTTERLLLSFNYIRTVTASSFPFLEQLQLLELGSQYTPLTIDKEAFRNLPNLRILDLGSSKIYFLHPDAFQGLFHLFELRLYFCGLSDAVLKDGYFRNLKALTRLDLSKNQIRSLYLHPSFGKLNSLKSIDFSSNQIFLVCEHELEPLQGKTLSFFSLAANSLYSRVSVDWGKCMNPFRNMVLEILDVSGNGWTVDITGNFSNAISKSQAFSLILAHHIMGAGFGFHNIKDPDQNTFAGLARSSVRHLDLSHGFVFSLNSRVFETLKDLKVLNLAYNKINKIADEAFYGLDNLQVLNLSYNLLGELYSSNFYGLPKVAYIDLQKNHIAIIQDQTFKFLEKLQTLDLRDNALTTIHFIPSIPDIFLSGNKLVTLPKINLTANLIHLSENRLENLDILYFLLRVPHLQILILNQNRFSSCSGDQTPSENPSLEQLFLGENMLQLAWETELCWDVFEGLSHLQVLYLNHNYLNSLPPGVFSHLTALRGLSLNSNRLTVLSHNDLPANLEILDISRNQLLAPNPDVFVSLSVLDITHNKFICECELSTFINWLNHTNVTIAGPPADIYCVYPDSFSGVSLFSLSTEGCFSLFIVCTVTLTLFLMTILTVTKFR SCSFDGRIAFYRFCNLTQVPQVLNTTERLLLSFNYIRTVTASSFPFLEQLQLLELGSQYTPLTIDKEAFRNLPNLRILDLGSSKIYFLHPDAFQGLFHLFELRLYFCGLSDAVLKDGYFRNLKALTRLDLSKNQIRSLYLHPSFGKLNSLKSIDFSSNQIFLVCEHELEPLQGKTLSFFSLAANSLYSRVSVDWGKCMNPFRNMVLEILDVSGNGWTVDITGNFSNAISKSQAFSLILAHHIMGAGFGFHNIKDPDQNTFAGLARSSVRHLDLSHGFVFSLNSRVFETLKDLKVLNLAYNKINKIADEAFYGLDNLQVLNLSYNLLGELYSSNFYGLPKVAYIDLQKNHIAIIQDQTFKFLEKLQTLDLRDNALTTIHFIPSIPDIFLSGNKLVTLPKINLTANLIHLSENRLENLDILYFLLRVPHLQILILNQNRFSSCSGDQTPSENPSLEQLFLGENMLQLAWETELCWDVFEGLSHLQVLYLNHNYLNSLPPGVFSHLTALRGLSLNSNRLTVLSHNDLPANLEILDISRNQLLAPNPDVFVSLSVLDITHNKFICECELSTFINWLNHTNVTIAGPPADIYCVYPDSFSGVSLFSLSTEGCFSLFIVCTVTLTLFLMTILTVTKFRDHPQGTEPDMYKYDAYLCFSSKDFTWVQNALLKHLDTQYSDQNRFNLCFEERDFVPGENRIANIQDAIWNSRKIVCLVSRHFLRDGWCLEAFSYAQGRCLSDLNSALIMVVVGSLSQYQLMKHQSIRGFVQKQQYLRWPEDFQDVGWFLHKLSQQILKKEKEKKK 3j0f-a1-m10-cE_3j0f-a1-m9-cG Sindbis virion P03316 P03316 7.0 ELECTRON MICROSCOPY 12 1.0 11034 (Sindbis virus) 11034 (Sindbis virus) 439 439 1ld4-a1-m10-cM_1ld4-a1-m10-cN 1ld4-a1-m11-cM_1ld4-a1-m11-cN 1ld4-a1-m12-cM_1ld4-a1-m12-cN 1ld4-a1-m13-cM_1ld4-a1-m13-cN 1ld4-a1-m14-cM_1ld4-a1-m14-cN 1ld4-a1-m15-cM_1ld4-a1-m15-cN 1ld4-a1-m16-cM_1ld4-a1-m16-cN 1ld4-a1-m17-cM_1ld4-a1-m17-cN 1ld4-a1-m18-cM_1ld4-a1-m18-cN 1ld4-a1-m19-cM_1ld4-a1-m19-cN 1ld4-a1-m1-cM_1ld4-a1-m1-cN 1ld4-a1-m20-cM_1ld4-a1-m20-cN 1ld4-a1-m21-cM_1ld4-a1-m21-cN 1ld4-a1-m22-cM_1ld4-a1-m22-cN 1ld4-a1-m23-cM_1ld4-a1-m23-cN 1ld4-a1-m24-cM_1ld4-a1-m24-cN 1ld4-a1-m25-cM_1ld4-a1-m25-cN 1ld4-a1-m26-cM_1ld4-a1-m26-cN 1ld4-a1-m27-cM_1ld4-a1-m27-cN 1ld4-a1-m28-cM_1ld4-a1-m28-cN 1ld4-a1-m29-cM_1ld4-a1-m29-cN 1ld4-a1-m2-cM_1ld4-a1-m2-cN 1ld4-a1-m30-cM_1ld4-a1-m30-cN 1ld4-a1-m31-cM_1ld4-a1-m31-cN 1ld4-a1-m32-cM_1ld4-a1-m32-cN 1ld4-a1-m33-cM_1ld4-a1-m33-cN 1ld4-a1-m34-cM_1ld4-a1-m34-cN 1ld4-a1-m35-cM_1ld4-a1-m35-cN 1ld4-a1-m36-cM_1ld4-a1-m36-cN 1ld4-a1-m37-cM_1ld4-a1-m37-cN 1ld4-a1-m38-cM_1ld4-a1-m38-cN 1ld4-a1-m39-cM_1ld4-a1-m39-cN 1ld4-a1-m3-cM_1ld4-a1-m3-cN 1ld4-a1-m40-cM_1ld4-a1-m40-cN 1ld4-a1-m41-cM_1ld4-a1-m41-cN 1ld4-a1-m42-cM_1ld4-a1-m42-cN 1ld4-a1-m43-cM_1ld4-a1-m43-cN 1ld4-a1-m44-cM_1ld4-a1-m44-cN 1ld4-a1-m45-cM_1ld4-a1-m45-cN 1ld4-a1-m46-cM_1ld4-a1-m46-cN 1ld4-a1-m47-cM_1ld4-a1-m47-cN 1ld4-a1-m48-cM_1ld4-a1-m48-cN 1ld4-a1-m49-cM_1ld4-a1-m49-cN 1ld4-a1-m4-cM_1ld4-a1-m4-cN 1ld4-a1-m50-cM_1ld4-a1-m50-cN 1ld4-a1-m51-cM_1ld4-a1-m51-cN 1ld4-a1-m52-cM_1ld4-a1-m52-cN 1ld4-a1-m53-cM_1ld4-a1-m53-cN 1ld4-a1-m54-cM_1ld4-a1-m54-cN 1ld4-a1-m55-cM_1ld4-a1-m55-cN 1ld4-a1-m56-cM_1ld4-a1-m56-cN 1ld4-a1-m57-cM_1ld4-a1-m57-cN 1ld4-a1-m58-cM_1ld4-a1-m58-cN 1ld4-a1-m59-cM_1ld4-a1-m59-cN 1ld4-a1-m5-cM_1ld4-a1-m5-cN 1ld4-a1-m60-cM_1ld4-a1-m60-cN 1ld4-a1-m6-cM_1ld4-a1-m6-cN 1ld4-a1-m7-cM_1ld4-a1-m7-cN 1ld4-a1-m8-cM_1ld4-a1-m8-cN 1ld4-a1-m9-cM_1ld4-a1-m9-cN 3j0f-a1-m10-cG_3j0f-a1-m6-cE 3j0f-a1-m11-cE_3j0f-a1-m15-cG 3j0f-a1-m11-cG_3j0f-a1-m12-cE 3j0f-a1-m12-cG_3j0f-a1-m13-cE 3j0f-a1-m13-cG_3j0f-a1-m14-cE 3j0f-a1-m14-cG_3j0f-a1-m15-cE 3j0f-a1-m16-cE_3j0f-a1-m20-cG 3j0f-a1-m16-cG_3j0f-a1-m17-cE 3j0f-a1-m17-cG_3j0f-a1-m18-cE 3j0f-a1-m18-cG_3j0f-a1-m19-cE 3j0f-a1-m19-cG_3j0f-a1-m20-cE 3j0f-a1-m1-cE_3j0f-a1-m5-cG 3j0f-a1-m1-cG_3j0f-a1-m2-cE 3j0f-a1-m21-cE_3j0f-a1-m25-cG 3j0f-a1-m21-cG_3j0f-a1-m22-cE 3j0f-a1-m22-cG_3j0f-a1-m23-cE 3j0f-a1-m23-cG_3j0f-a1-m24-cE 3j0f-a1-m24-cG_3j0f-a1-m25-cE 3j0f-a1-m26-cE_3j0f-a1-m30-cG 3j0f-a1-m26-cG_3j0f-a1-m27-cE 3j0f-a1-m27-cG_3j0f-a1-m28-cE 3j0f-a1-m28-cG_3j0f-a1-m29-cE 3j0f-a1-m29-cG_3j0f-a1-m30-cE 3j0f-a1-m2-cG_3j0f-a1-m3-cE 3j0f-a1-m31-cE_3j0f-a1-m35-cG 3j0f-a1-m31-cG_3j0f-a1-m32-cE 3j0f-a1-m32-cG_3j0f-a1-m33-cE 3j0f-a1-m33-cG_3j0f-a1-m34-cE 3j0f-a1-m34-cG_3j0f-a1-m35-cE 3j0f-a1-m36-cE_3j0f-a1-m40-cG 3j0f-a1-m36-cG_3j0f-a1-m37-cE 3j0f-a1-m37-cG_3j0f-a1-m38-cE 3j0f-a1-m38-cG_3j0f-a1-m39-cE 3j0f-a1-m39-cG_3j0f-a1-m40-cE 3j0f-a1-m3-cG_3j0f-a1-m4-cE 3j0f-a1-m41-cE_3j0f-a1-m45-cG 3j0f-a1-m41-cG_3j0f-a1-m42-cE 3j0f-a1-m42-cG_3j0f-a1-m43-cE 3j0f-a1-m43-cG_3j0f-a1-m44-cE 3j0f-a1-m44-cG_3j0f-a1-m45-cE 3j0f-a1-m46-cE_3j0f-a1-m50-cG 3j0f-a1-m46-cG_3j0f-a1-m47-cE 3j0f-a1-m47-cG_3j0f-a1-m48-cE 3j0f-a1-m48-cG_3j0f-a1-m49-cE 3j0f-a1-m49-cG_3j0f-a1-m50-cE 3j0f-a1-m4-cG_3j0f-a1-m5-cE 3j0f-a1-m51-cE_3j0f-a1-m55-cG 3j0f-a1-m51-cG_3j0f-a1-m52-cE 3j0f-a1-m52-cG_3j0f-a1-m53-cE 3j0f-a1-m53-cG_3j0f-a1-m54-cE 3j0f-a1-m54-cG_3j0f-a1-m55-cE 3j0f-a1-m56-cE_3j0f-a1-m60-cG 3j0f-a1-m56-cG_3j0f-a1-m57-cE 3j0f-a1-m57-cG_3j0f-a1-m58-cE 3j0f-a1-m58-cG_3j0f-a1-m59-cE 3j0f-a1-m59-cG_3j0f-a1-m60-cE 3j0f-a1-m6-cG_3j0f-a1-m7-cE 3j0f-a1-m7-cG_3j0f-a1-m8-cE 3j0f-a1-m8-cG_3j0f-a1-m9-cE YEHATTVPNVPQIPYKALVERAGYAPLNLEITVMSSEVLPSTNQEYITCKFTTVVPSPKIKCCGSLECQPAAHADYTCKVFGGVYPFMWGGAQCFCDSENSQMSEAYVELSADCASDHAQAIKVHTAAMKVGLRIVYGNTTSFLDVYVNGVTPGTSKDLKVIAGPISASFTPFDHKVVIHRGLVYNYDFPEYGAMKPGAFGDIQATSLTSKDLIASTDIRLLKPSAKNVHVPYTQASSGFEMWKNNSGRPLQETAPFGCKIAVNPLRAVDCSYGNIPISIDIPNAAFIRTSDAPLVSTVKCEVSECTYSADFGGMATLQYVSDREGQCPVHSHSSTATLQESTVHVLEKGAVTVHFSTASPQANFIVSLCGKKTTCNAECKPPADHIVSTPHKNDQEFQAAISKTSWSWLFALFGGASSLLIIGLMIFACSMMLTSTRR YEHATTVPNVPQIPYKALVERAGYAPLNLEITVMSSEVLPSTNQEYITCKFTTVVPSPKIKCCGSLECQPAAHADYTCKVFGGVYPFMWGGAQCFCDSENSQMSEAYVELSADCASDHAQAIKVHTAAMKVGLRIVYGNTTSFLDVYVNGVTPGTSKDLKVIAGPISASFTPFDHKVVIHRGLVYNYDFPEYGAMKPGAFGDIQATSLTSKDLIASTDIRLLKPSAKNVHVPYTQASSGFEMWKNNSGRPLQETAPFGCKIAVNPLRAVDCSYGNIPISIDIPNAAFIRTSDAPLVSTVKCEVSECTYSADFGGMATLQYVSDREGQCPVHSHSSTATLQESTVHVLEKGAVTVHFSTASPQANFIVSLCGKKTTCNAECKPPADHIVSTPHKNDQEFQAAISKTSWSWLFALFGGASSLLIIGLMIFACSMMLTSTRR 3j0r-a1-m20-cA_3j0r-a1-m9-cA Model of a type III secretion system needle based on a 7 Angstrom resolution cryoEM map P0A223 P0A223 7.7 ELECTRON MICROSCOPY 18 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 82 82 3j0r-a1-m10-cA_3j0r-a1-m21-cA 3j0r-a1-m11-cA_3j0r-a1-m22-cA 3j0r-a1-m13-cA_3j0r-a1-m2-cA 3j0r-a1-m14-cA_3j0r-a1-m3-cA 3j0r-a1-m15-cA_3j0r-a1-m4-cA 3j0r-a1-m16-cA_3j0r-a1-m5-cA 3j0r-a1-m17-cA_3j0r-a1-m6-cA 3j0r-a1-m18-cA_3j0r-a1-m7-cA 3j0r-a1-m19-cA_3j0r-a1-m8-cA SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 3j0r-a1-m3-cA_3j0r-a1-m9-cA Model of a type III secretion system needle based on a 7 Angstrom resolution cryoEM map P0A223 P0A223 7.7 ELECTRON MICROSCOPY 43 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 82 82 3j0r-a1-m10-cA_3j0r-a1-m16-cA 3j0r-a1-m10-cA_3j0r-a1-m4-cA 3j0r-a1-m11-cA_3j0r-a1-m17-cA 3j0r-a1-m11-cA_3j0r-a1-m5-cA 3j0r-a1-m13-cA_3j0r-a1-m19-cA 3j0r-a1-m13-cA_3j0r-a1-m7-cA 3j0r-a1-m14-cA_3j0r-a1-m20-cA 3j0r-a1-m14-cA_3j0r-a1-m8-cA 3j0r-a1-m15-cA_3j0r-a1-m21-cA 3j0r-a1-m15-cA_3j0r-a1-m9-cA 3j0r-a1-m16-cA_3j0r-a1-m22-cA 3j0r-a1-m1-cA_3j0r-a1-m18-cA 3j0r-a1-m1-cA_3j0r-a1-m6-cA 3j0r-a1-m2-cA_3j0r-a1-m8-cA SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 3j0r-a1-m4-cA_3j0r-a1-m9-cA Model of a type III secretion system needle based on a 7 Angstrom resolution cryoEM map P0A223 P0A223 7.7 ELECTRON MICROSCOPY 44 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 82 82 3j0r-a1-m10-cA_3j0r-a1-m15-cA 3j0r-a1-m10-cA_3j0r-a1-m5-cA 3j0r-a1-m11-cA_3j0r-a1-m16-cA 3j0r-a1-m11-cA_3j0r-a1-m6-cA 3j0r-a1-m13-cA_3j0r-a1-m18-cA 3j0r-a1-m13-cA_3j0r-a1-m8-cA 3j0r-a1-m14-cA_3j0r-a1-m19-cA 3j0r-a1-m14-cA_3j0r-a1-m9-cA 3j0r-a1-m15-cA_3j0r-a1-m20-cA 3j0r-a1-m16-cA_3j0r-a1-m21-cA 3j0r-a1-m17-cA_3j0r-a1-m22-cA 3j0r-a1-m1-cA_3j0r-a1-m17-cA 3j0r-a1-m1-cA_3j0r-a1-m7-cA 3j0r-a1-m2-cA_3j0r-a1-m7-cA 3j0r-a1-m3-cA_3j0r-a1-m8-cA SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR SVTVPNDDWTLSSLSETFDDGTQTLQGELTLALDKLAKNPSNPQLLAEYQSKLSEYTLYRNAQSNTVKVIKDVDAAIIQNFR 3j1b-a1-m1-cH_3j1b-a1-m1-cN Cryo-EM structure of 8-fold symmetric rATcpn-alpha in apo state Q877H0 Q877H0 4.9 ELECTRON MICROSCOPY 22 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 519 519 3j1b-a1-m1-cA_3j1b-a1-m1-cM 3j1b-a1-m1-cB_3j1b-a1-m1-cL 3j1b-a1-m1-cC_3j1b-a1-m1-cK 3j1b-a1-m1-cD_3j1b-a1-m1-cJ 3j1b-a1-m1-cE_3j1b-a1-m1-cI 3j1b-a1-m1-cF_3j1b-a1-m1-cP 3j1b-a1-m1-cG_3j1b-a1-m1-cO 3j1c-a1-m1-cA_3j1c-a1-m1-cM 3j1c-a1-m1-cB_3j1c-a1-m1-cL 3j1c-a1-m1-cC_3j1c-a1-m1-cK 3j1c-a1-m1-cD_3j1c-a1-m1-cJ 3j1c-a1-m1-cE_3j1c-a1-m1-cR 3j1c-a1-m1-cF_3j1c-a1-m1-cQ 3j1c-a1-m1-cG_3j1c-a1-m1-cP 3j1c-a1-m1-cH_3j1c-a1-m1-cO 3j1c-a1-m1-cI_3j1c-a1-m1-cN TSRNSGRDALKNNILAARTLAEMLRSSLGPKGLDKMLIDSFGDVTITNDGATIVKEMEIQHPAAKLLVEAAKAQDSEVGDGTTSAVVLAGLFLEKAESLVDQNIHPTIIIEGFKKAFNKSLELLPQLATKVDVSDLNSATARDALKKIVYTTMSSKFMAEGEELNKIMDIVIDAVTTVAEPLPDGGYNVSLDLIKIDKKKGGTIEDSQLIRGIVLDKEVVHAGMPRRVEKAKIAVLDASLEVEKPEISAKISITSPDQIKAFLDEEAKYLKDMVDKLASIGANVVICQKGIDDIAQHFLAKRGILAVRRVKRSDIEKLEKALGARIISSIKDATPEDLGYAELVEERKVGNDKMVFIEGAKNPKAVNILLRGSNDMALDEAERSINDALYSLRNILMEPYIVPGGGAIELELSARLREYARSVGGKEQLAIEAYADALEEIPMILAETAGLEPISALMDLRARHAKGLTNCGVDVINGKIIDDIYSINVVEPIRVTRQVLKSATEAATSIMKIDDLIAA TSRNSGRDALKNNILAARTLAEMLRSSLGPKGLDKMLIDSFGDVTITNDGATIVKEMEIQHPAAKLLVEAAKAQDSEVGDGTTSAVVLAGLFLEKAESLVDQNIHPTIIIEGFKKAFNKSLELLPQLATKVDVSDLNSATARDALKKIVYTTMSSKFMAEGEELNKIMDIVIDAVTTVAEPLPDGGYNVSLDLIKIDKKKGGTIEDSQLIRGIVLDKEVVHAGMPRRVEKAKIAVLDASLEVEKPEISAKISITSPDQIKAFLDEEAKYLKDMVDKLASIGANVVICQKGIDDIAQHFLAKRGILAVRRVKRSDIEKLEKALGARIISSIKDATPEDLGYAELVEERKVGNDKMVFIEGAKNPKAVNILLRGSNDMALDEAERSINDALYSLRNILMEPYIVPGGGAIELELSARLREYARSVGGKEQLAIEAYADALEEIPMILAETAGLEPISALMDLRARHAKGLTNCGVDVINGKIIDDIYSINVVEPIRVTRQVLKSATEAATSIMKIDDLIAA 3j1b-a1-m1-cK_3j1b-a1-m1-cL Cryo-EM structure of 8-fold symmetric rATcpn-alpha in apo state Q877H0 Q877H0 4.9 ELECTRON MICROSCOPY 70 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 519 519 3j1b-a1-m1-cA_3j1b-a1-m1-cB 3j1b-a1-m1-cA_3j1b-a1-m1-cH 3j1b-a1-m1-cB_3j1b-a1-m1-cC 3j1b-a1-m1-cC_3j1b-a1-m1-cD 3j1b-a1-m1-cD_3j1b-a1-m1-cE 3j1b-a1-m1-cE_3j1b-a1-m1-cF 3j1b-a1-m1-cF_3j1b-a1-m1-cG 3j1b-a1-m1-cG_3j1b-a1-m1-cH 3j1b-a1-m1-cI_3j1b-a1-m1-cJ 3j1b-a1-m1-cI_3j1b-a1-m1-cP 3j1b-a1-m1-cJ_3j1b-a1-m1-cK 3j1b-a1-m1-cL_3j1b-a1-m1-cM 3j1b-a1-m1-cM_3j1b-a1-m1-cN 3j1b-a1-m1-cN_3j1b-a1-m1-cO 3j1b-a1-m1-cO_3j1b-a1-m1-cP 3j1c-a1-m1-cA_3j1c-a1-m1-cB 3j1c-a1-m1-cA_3j1c-a1-m1-cI 3j1c-a1-m1-cB_3j1c-a1-m1-cC 3j1c-a1-m1-cC_3j1c-a1-m1-cD 3j1c-a1-m1-cD_3j1c-a1-m1-cE 3j1c-a1-m1-cE_3j1c-a1-m1-cF 3j1c-a1-m1-cF_3j1c-a1-m1-cG 3j1c-a1-m1-cG_3j1c-a1-m1-cH 3j1c-a1-m1-cH_3j1c-a1-m1-cI 3j1c-a1-m1-cJ_3j1c-a1-m1-cK 3j1c-a1-m1-cJ_3j1c-a1-m1-cR 3j1c-a1-m1-cK_3j1c-a1-m1-cL 3j1c-a1-m1-cL_3j1c-a1-m1-cM 3j1c-a1-m1-cM_3j1c-a1-m1-cN 3j1c-a1-m1-cN_3j1c-a1-m1-cO 3j1c-a1-m1-cO_3j1c-a1-m1-cP 3j1c-a1-m1-cP_3j1c-a1-m1-cQ 3j1c-a1-m1-cQ_3j1c-a1-m1-cR TSRNSGRDALKNNILAARTLAEMLRSSLGPKGLDKMLIDSFGDVTITNDGATIVKEMEIQHPAAKLLVEAAKAQDSEVGDGTTSAVVLAGLFLEKAESLVDQNIHPTIIIEGFKKAFNKSLELLPQLATKVDVSDLNSATARDALKKIVYTTMSSKFMAEGEELNKIMDIVIDAVTTVAEPLPDGGYNVSLDLIKIDKKKGGTIEDSQLIRGIVLDKEVVHAGMPRRVEKAKIAVLDASLEVEKPEISAKISITSPDQIKAFLDEEAKYLKDMVDKLASIGANVVICQKGIDDIAQHFLAKRGILAVRRVKRSDIEKLEKALGARIISSIKDATPEDLGYAELVEERKVGNDKMVFIEGAKNPKAVNILLRGSNDMALDEAERSINDALYSLRNILMEPYIVPGGGAIELELSARLREYARSVGGKEQLAIEAYADALEEIPMILAETAGLEPISALMDLRARHAKGLTNCGVDVINGKIIDDIYSINVVEPIRVTRQVLKSATEAATSIMKIDDLIAA TSRNSGRDALKNNILAARTLAEMLRSSLGPKGLDKMLIDSFGDVTITNDGATIVKEMEIQHPAAKLLVEAAKAQDSEVGDGTTSAVVLAGLFLEKAESLVDQNIHPTIIIEGFKKAFNKSLELLPQLATKVDVSDLNSATARDALKKIVYTTMSSKFMAEGEELNKIMDIVIDAVTTVAEPLPDGGYNVSLDLIKIDKKKGGTIEDSQLIRGIVLDKEVVHAGMPRRVEKAKIAVLDASLEVEKPEISAKISITSPDQIKAFLDEEAKYLKDMVDKLASIGANVVICQKGIDDIAQHFLAKRGILAVRRVKRSDIEKLEKALGARIISSIKDATPEDLGYAELVEERKVGNDKMVFIEGAKNPKAVNILLRGSNDMALDEAERSINDALYSLRNILMEPYIVPGGGAIELELSARLREYARSVGGKEQLAIEAYADALEEIPMILAETAGLEPISALMDLRARHAKGLTNCGVDVINGKIIDDIYSINVVEPIRVTRQVLKSATEAATSIMKIDDLIAA 3j1e-a1-m1-cA_3j1e-a1-m1-cM Cryo-EM structure of 9-fold symmetric rATcpn-beta in apo state Q877H2 Q877H2 8.3 ELECTRON MICROSCOPY 22 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 505 505 3j1e-a1-m1-cB_3j1e-a1-m1-cL 3j1e-a1-m1-cC_3j1e-a1-m1-cK 3j1e-a1-m1-cD_3j1e-a1-m1-cS 3j1e-a1-m1-cE_3j1e-a1-m1-cR 3j1e-a1-m1-cF_3j1e-a1-m1-cQ 3j1e-a1-m1-cG_3j1e-a1-m1-cP 3j1e-a1-m1-cH_3j1e-a1-m1-cO 3j1e-a1-m1-cI_3j1e-a1-m1-cN 3j1f-a1-m1-cA_3j1f-a1-m1-cN 3j1f-a1-m1-cB_3j1f-a1-m1-cM 3j1f-a1-m1-cC_3j1f-a1-m1-cL 3j1f-a1-m1-cD_3j1f-a1-m1-cK 3j1f-a1-m1-cE_3j1f-a1-m1-cS 3j1f-a1-m1-cF_3j1f-a1-m1-cR 3j1f-a1-m1-cG_3j1f-a1-m1-cQ 3j1f-a1-m1-cH_3j1f-a1-m1-cP 3j1f-a1-m1-cI_3j1f-a1-m1-cO GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA 3j1p-a1-m13-cB_3j1p-a1-m9-cC Atomic model of rabbit hemorrhagic disease virus F5BXG7 F5BXG7 6.5 ELECTRON MICROSCOPY 73 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 525 525 3j1p-a1-m10-cA_3j1p-a1-m22-cA 3j1p-a1-m10-cA_3j1p-a1-m33-cA 3j1p-a1-m10-cB_3j1p-a1-m12-cC 3j1p-a1-m10-cB_3j1p-a1-m33-cC 3j1p-a1-m10-cC_3j1p-a1-m12-cB 3j1p-a1-m10-cC_3j1p-a1-m22-cB 3j1p-a1-m11-cA_3j1p-a1-m19-cA 3j1p-a1-m11-cA_3j1p-a1-m47-cA 3j1p-a1-m11-cB_3j1p-a1-m47-cC 3j1p-a1-m11-cB_3j1p-a1-m6-cC 3j1p-a1-m11-cC_3j1p-a1-m19-cB 3j1p-a1-m11-cC_3j1p-a1-m6-cB 3j1p-a1-m12-cA_3j1p-a1-m36-cA 3j1p-a1-m12-cA_3j1p-a1-m45-cA 3j1p-a1-m12-cB_3j1p-a1-m45-cC 3j1p-a1-m12-cC_3j1p-a1-m36-cB 3j1p-a1-m13-cA_3j1p-a1-m29-cA 3j1p-a1-m13-cA_3j1p-a1-m50-cA 3j1p-a1-m13-cB_3j1p-a1-m29-cC 3j1p-a1-m13-cC_3j1p-a1-m50-cB 3j1p-a1-m13-cC_3j1p-a1-m9-cB 3j1p-a1-m14-cA_3j1p-a1-m16-cA 3j1p-a1-m14-cA_3j1p-a1-m43-cA 3j1p-a1-m14-cB_3j1p-a1-m16-cC 3j1p-a1-m14-cB_3j1p-a1-m8-cC 3j1p-a1-m14-cC_3j1p-a1-m43-cB 3j1p-a1-m14-cC_3j1p-a1-m8-cB 3j1p-a1-m15-cA_3j1p-a1-m27-cA 3j1p-a1-m15-cA_3j1p-a1-m38-cA 3j1p-a1-m15-cB_3j1p-a1-m38-cC 3j1p-a1-m15-cB_3j1p-a1-m7-cC 3j1p-a1-m15-cC_3j1p-a1-m27-cB 3j1p-a1-m15-cC_3j1p-a1-m7-cB 3j1p-a1-m16-cA_3j1p-a1-m52-cA 3j1p-a1-m16-cB_3j1p-a1-m52-cC 3j1p-a1-m17-cA_3j1p-a1-m26-cA 3j1p-a1-m17-cA_3j1p-a1-m60-cA 3j1p-a1-m17-cB_3j1p-a1-m5-cC 3j1p-a1-m17-cB_3j1p-a1-m60-cC 3j1p-a1-m17-cC_3j1p-a1-m26-cB 3j1p-a1-m17-cC_3j1p-a1-m5-cB 3j1p-a1-m18-cA_3j1p-a1-m39-cA 3j1p-a1-m18-cA_3j1p-a1-m55-cA 3j1p-a1-m18-cB_3j1p-a1-m39-cC 3j1p-a1-m18-cB_3j1p-a1-m4-cC 3j1p-a1-m18-cC_3j1p-a1-m4-cB 3j1p-a1-m18-cC_3j1p-a1-m55-cB 3j1p-a1-m19-cA_3j1p-a1-m58-cA 3j1p-a1-m19-cB_3j1p-a1-m3-cC 3j1p-a1-m19-cC_3j1p-a1-m3-cB 3j1p-a1-m19-cC_3j1p-a1-m58-cB 3j1p-a1-m1-cA_3j1p-a1-m42-cA 3j1p-a1-m1-cA_3j1p-a1-m9-cA 3j1p-a1-m1-cB_3j1p-a1-m16-cC 3j1p-a1-m1-cB_3j1p-a1-m42-cC 3j1p-a1-m1-cC_3j1p-a1-m16-cB 3j1p-a1-m1-cC_3j1p-a1-m9-cB 3j1p-a1-m20-cA_3j1p-a1-m28-cA 3j1p-a1-m20-cA_3j1p-a1-m37-cA 3j1p-a1-m20-cB_3j1p-a1-m28-cC 3j1p-a1-m20-cC_3j1p-a1-m37-cB 3j1p-a1-m21-cA_3j1p-a1-m29-cA 3j1p-a1-m21-cB_3j1p-a1-m36-cC 3j1p-a1-m21-cC_3j1p-a1-m29-cB 3j1p-a1-m21-cC_3j1p-a1-m36-cB 3j1p-a1-m22-cA_3j1p-a1-m41-cA 3j1p-a1-m22-cB_3j1p-a1-m40-cC 3j1p-a1-m22-cC_3j1p-a1-m40-cB 3j1p-a1-m22-cC_3j1p-a1-m41-cB 3j1p-a1-m23-cA_3j1p-a1-m54-cA 3j1p-a1-m23-cA_3j1p-a1-m5-cA 3j1p-a1-m23-cB_3j1p-a1-m39-cC 3j1p-a1-m23-cB_3j1p-a1-m54-cC 3j1p-a1-m23-cC_3j1p-a1-m39-cB 3j1p-a1-m23-cC_3j1p-a1-m5-cB 3j1p-a1-m24-cA_3j1p-a1-m26-cA 3j1p-a1-m24-cA_3j1p-a1-m8-cA 3j1p-a1-m24-cB_3j1p-a1-m26-cC 3j1p-a1-m24-cB_3j1p-a1-m38-cC 3j1p-a1-m24-cC_3j1p-a1-m38-cB 3j1p-a1-m24-cC_3j1p-a1-m8-cB 3j1p-a1-m25-cA_3j1p-a1-m43-cA 3j1p-a1-m25-cA_3j1p-a1-m52-cA 3j1p-a1-m25-cB_3j1p-a1-m37-cC 3j1p-a1-m25-cB_3j1p-a1-m43-cC 3j1p-a1-m25-cC_3j1p-a1-m37-cB 3j1p-a1-m25-cC_3j1p-a1-m52-cB 3j1p-a1-m26-cB_3j1p-a1-m31-cC 3j1p-a1-m26-cC_3j1p-a1-m31-cB 3j1p-a1-m27-cA_3j1p-a1-m51-cA 3j1p-a1-m27-cB_3j1p-a1-m35-cC 3j1p-a1-m27-cC_3j1p-a1-m35-cB 3j1p-a1-m27-cC_3j1p-a1-m51-cB 3j1p-a1-m28-cA_3j1p-a1-m44-cA 3j1p-a1-m28-cB_3j1p-a1-m34-cC 3j1p-a1-m28-cB_3j1p-a1-m44-cC 3j1p-a1-m28-cC_3j1p-a1-m34-cB 3j1p-a1-m29-cB_3j1p-a1-m33-cC 3j1p-a1-m29-cC_3j1p-a1-m33-cB 3j1p-a1-m2-cA_3j1p-a1-m21-cA 3j1p-a1-m2-cA_3j1p-a1-m50-cA 3j1p-a1-m2-cB_3j1p-a1-m20-cC 3j1p-a1-m2-cB_3j1p-a1-m50-cC 3j1p-a1-m2-cC_3j1p-a1-m20-cB 3j1p-a1-m2-cC_3j1p-a1-m21-cB 3j1p-a1-m30-cA_3j1p-a1-m42-cA 3j1p-a1-m30-cA_3j1p-a1-m53-cA 3j1p-a1-m30-cB_3j1p-a1-m32-cC 3j1p-a1-m30-cB_3j1p-a1-m53-cC 3j1p-a1-m30-cC_3j1p-a1-m32-cB 3j1p-a1-m30-cC_3j1p-a1-m42-cB 3j1p-a1-m31-cA_3j1p-a1-m39-cA 3j1p-a1-m31-cA_3j1p-a1-m7-cA 3j1p-a1-m31-cB_3j1p-a1-m7-cC 3j1p-a1-m31-cC_3j1p-a1-m39-cB 3j1p-a1-m32-cA_3j1p-a1-m56-cA 3j1p-a1-m32-cA_3j1p-a1-m5-cA 3j1p-a1-m32-cB_3j1p-a1-m5-cC 3j1p-a1-m32-cC_3j1p-a1-m56-cB 3j1p-a1-m33-cA_3j1p-a1-m49-cA 3j1p-a1-m33-cB_3j1p-a1-m49-cC 3j1p-a1-m34-cA_3j1p-a1-m36-cA 3j1p-a1-m34-cB_3j1p-a1-m36-cC 3j1p-a1-m35-cA_3j1p-a1-m47-cA 3j1p-a1-m35-cA_3j1p-a1-m58-cA 3j1p-a1-m35-cB_3j1p-a1-m58-cC 3j1p-a1-m35-cC_3j1p-a1-m47-cB 3j1p-a1-m37-cA_3j1p-a1-m46-cA 3j1p-a1-m37-cC_3j1p-a1-m46-cB 3j1p-a1-m38-cA_3j1p-a1-m59-cA 3j1p-a1-m38-cB_3j1p-a1-m59-cC 3j1p-a1-m3-cA_3j1p-a1-m34-cA 3j1p-a1-m3-cA_3j1p-a1-m45-cA 3j1p-a1-m3-cB_3j1p-a1-m34-cC 3j1p-a1-m3-cC_3j1p-a1-m45-cB 3j1p-a1-m40-cA_3j1p-a1-m48-cA 3j1p-a1-m40-cA_3j1p-a1-m57-cA 3j1p-a1-m40-cB_3j1p-a1-m48-cC 3j1p-a1-m40-cC_3j1p-a1-m57-cB 3j1p-a1-m41-cA_3j1p-a1-m49-cA 3j1p-a1-m41-cB_3j1p-a1-m56-cC 3j1p-a1-m41-cC_3j1p-a1-m49-cB 3j1p-a1-m41-cC_3j1p-a1-m56-cB 3j1p-a1-m42-cB_3j1p-a1-m60-cC 3j1p-a1-m42-cC_3j1p-a1-m60-cB 3j1p-a1-m43-cB_3j1p-a1-m59-cC 3j1p-a1-m43-cC_3j1p-a1-m59-cB 3j1p-a1-m44-cA_3j1p-a1-m46-cA 3j1p-a1-m44-cB_3j1p-a1-m46-cC 3j1p-a1-m44-cB_3j1p-a1-m58-cC 3j1p-a1-m44-cC_3j1p-a1-m58-cB 3j1p-a1-m45-cB_3j1p-a1-m57-cC 3j1p-a1-m45-cC_3j1p-a1-m57-cB 3j1p-a1-m46-cB_3j1p-a1-m51-cC 3j1p-a1-m46-cC_3j1p-a1-m51-cB 3j1p-a1-m47-cB_3j1p-a1-m55-cC 3j1p-a1-m47-cC_3j1p-a1-m55-cB 3j1p-a1-m48-cB_3j1p-a1-m54-cC 3j1p-a1-m48-cC_3j1p-a1-m54-cB 3j1p-a1-m49-cB_3j1p-a1-m53-cC 3j1p-a1-m49-cC_3j1p-a1-m53-cB 3j1p-a1-m4-cA_3j1p-a1-m48-cA 3j1p-a1-m4-cA_3j1p-a1-m6-cA 3j1p-a1-m4-cB_3j1p-a1-m6-cC 3j1p-a1-m4-cC_3j1p-a1-m48-cB 3j1p-a1-m50-cB_3j1p-a1-m52-cC 3j1p-a1-m50-cC_3j1p-a1-m52-cB 3j1p-a1-m51-cA_3j1p-a1-m59-cA 3j1p-a1-m51-cC_3j1p-a1-m59-cB 3j1p-a1-m53-cA_3j1p-a1-m9-cA 3j1p-a1-m53-cB_3j1p-a1-m9-cC 3j1p-a1-m54-cA_3j1p-a1-m56-cA 3j1p-a1-m54-cB_3j1p-a1-m56-cC 3j1p-a1-m55-cA_3j1p-a1-m7-cA 3j1p-a1-m55-cC_3j1p-a1-m7-cB 3j1p-a1-m57-cA_3j1p-a1-m6-cA 3j1p-a1-m57-cC_3j1p-a1-m6-cB 3j1p-a1-m60-cA_3j1p-a1-m8-cA 3j1p-a1-m60-cB_3j1p-a1-m8-cC NSSASVATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTITMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTNAIQVTVETRPSDDFEFVMIRAPSSKTVDSISPAGLITTPVLTGVGNDNRWDGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYSGNNSANALQFWYANAGSAIDNPISQVAPDGFPDMSFVPFNSPNIPTAGWVGFGGIWNSNNGAPAATTVQAYELGFATGAPNNLQPTTNTSGAQTVAKSIYAVVTGTNQNPTGLFVMASGVISTPNASAVTYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNAAAGSTNGTQYGTGSQPLPVTIGLSLNNYSSALMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGASTTLIDLTELIDVRPVGPRPSKSTLVFNL NSSASVATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTITMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTNAIQVTVETRPSDDFEFVMIRAPSSKTVDSISPAGLITTPVLTGVGNDNRWDGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYSGNNSANALQFWYANAGSAIDNPISQVAPDGFPDMSFVPFNSPNIPTAGWVGFGGIWNSNNGAPAATTVQAYELGFATGAPNNLQPTTNTSGAQTVAKSIYAVVTGTNQNPTGLFVMASGVISTPNASAVTYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNAAAGSTNGTQYGTGSQPLPVTIGLSLNNYSSALMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGASTTLIDLTELIDVRPVGPRPSKSTLVFNL 3j1s-a1-m8-cL_3j1s-a1-m9-cL Structure of adeno-associated virus-2 in complex with neutralizing monoclonal antibody A20 8.5 ELECTRON MICROSCOPY 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 214 214 3j1s-a1-m10-cL_3j1s-a1-m6-cL 3j1s-a1-m10-cL_3j1s-a1-m9-cL 3j1s-a1-m11-cL_3j1s-a1-m12-cL 3j1s-a1-m11-cL_3j1s-a1-m15-cL 3j1s-a1-m12-cL_3j1s-a1-m13-cL 3j1s-a1-m13-cL_3j1s-a1-m14-cL 3j1s-a1-m14-cL_3j1s-a1-m15-cL 3j1s-a1-m16-cL_3j1s-a1-m17-cL 3j1s-a1-m16-cL_3j1s-a1-m20-cL 3j1s-a1-m17-cL_3j1s-a1-m18-cL 3j1s-a1-m18-cL_3j1s-a1-m19-cL 3j1s-a1-m19-cL_3j1s-a1-m20-cL 3j1s-a1-m1-cL_3j1s-a1-m2-cL 3j1s-a1-m1-cL_3j1s-a1-m5-cL 3j1s-a1-m21-cL_3j1s-a1-m22-cL 3j1s-a1-m21-cL_3j1s-a1-m25-cL 3j1s-a1-m22-cL_3j1s-a1-m23-cL 3j1s-a1-m23-cL_3j1s-a1-m24-cL 3j1s-a1-m24-cL_3j1s-a1-m25-cL 3j1s-a1-m26-cL_3j1s-a1-m27-cL 3j1s-a1-m26-cL_3j1s-a1-m30-cL 3j1s-a1-m27-cL_3j1s-a1-m28-cL 3j1s-a1-m28-cL_3j1s-a1-m29-cL 3j1s-a1-m29-cL_3j1s-a1-m30-cL 3j1s-a1-m2-cL_3j1s-a1-m3-cL 3j1s-a1-m31-cL_3j1s-a1-m32-cL 3j1s-a1-m31-cL_3j1s-a1-m35-cL 3j1s-a1-m32-cL_3j1s-a1-m33-cL 3j1s-a1-m33-cL_3j1s-a1-m34-cL 3j1s-a1-m34-cL_3j1s-a1-m35-cL 3j1s-a1-m36-cL_3j1s-a1-m37-cL 3j1s-a1-m36-cL_3j1s-a1-m40-cL 3j1s-a1-m37-cL_3j1s-a1-m38-cL 3j1s-a1-m38-cL_3j1s-a1-m39-cL 3j1s-a1-m39-cL_3j1s-a1-m40-cL 3j1s-a1-m3-cL_3j1s-a1-m4-cL 3j1s-a1-m41-cL_3j1s-a1-m42-cL 3j1s-a1-m41-cL_3j1s-a1-m45-cL 3j1s-a1-m42-cL_3j1s-a1-m43-cL 3j1s-a1-m43-cL_3j1s-a1-m44-cL 3j1s-a1-m44-cL_3j1s-a1-m45-cL 3j1s-a1-m46-cL_3j1s-a1-m47-cL 3j1s-a1-m46-cL_3j1s-a1-m50-cL 3j1s-a1-m47-cL_3j1s-a1-m48-cL 3j1s-a1-m48-cL_3j1s-a1-m49-cL 3j1s-a1-m49-cL_3j1s-a1-m50-cL 3j1s-a1-m4-cL_3j1s-a1-m5-cL 3j1s-a1-m51-cL_3j1s-a1-m52-cL 3j1s-a1-m51-cL_3j1s-a1-m55-cL 3j1s-a1-m52-cL_3j1s-a1-m53-cL 3j1s-a1-m53-cL_3j1s-a1-m54-cL 3j1s-a1-m54-cL_3j1s-a1-m55-cL 3j1s-a1-m56-cL_3j1s-a1-m57-cL 3j1s-a1-m56-cL_3j1s-a1-m60-cL 3j1s-a1-m57-cL_3j1s-a1-m58-cL 3j1s-a1-m58-cL_3j1s-a1-m59-cL 3j1s-a1-m59-cL_3j1s-a1-m60-cL 3j1s-a1-m6-cL_3j1s-a1-m7-cL 3j1s-a1-m7-cL_3j1s-a1-m8-cL DIQMTQSSSSFSVSLGDRVTITCKASEDIHNRLAWYKQKPGNAPRLLISGATSLETGVPSRFSGSGSGKDYTLSITSLQNEDVATYYCQQYWIGPFTFGSGTNLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DIQMTQSSSSFSVSLGDRVTITCKASEDIHNRLAWYKQKPGNAPRLLISGATSLETGVPSRFSGSGSGKDYTLSITSLQNEDVATYYCQQYWIGPFTFGSGTNLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 3j1w-a1-m1-cW_3j1w-a1-m1-cX A refined model of the prototypical Salmonella typhimurium T3SS basal body reveals the molecular basis for its assembly P41783 P41783 11.7 ELECTRON MICROSCOPY 19 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 106 106 3j1w-a1-m1-cA_3j1w-a1-m1-cB 3j1w-a1-m1-cA_3j1w-a1-m1-cX 3j1w-a1-m1-cB_3j1w-a1-m1-cC 3j1w-a1-m1-cC_3j1w-a1-m1-cD 3j1w-a1-m1-cD_3j1w-a1-m1-cE 3j1w-a1-m1-cE_3j1w-a1-m1-cF 3j1w-a1-m1-cF_3j1w-a1-m1-cG 3j1w-a1-m1-cG_3j1w-a1-m1-cH 3j1w-a1-m1-cH_3j1w-a1-m1-cI 3j1w-a1-m1-cI_3j1w-a1-m1-cJ 3j1w-a1-m1-cJ_3j1w-a1-m1-cK 3j1w-a1-m1-cK_3j1w-a1-m1-cL 3j1w-a1-m1-cL_3j1w-a1-m1-cM 3j1w-a1-m1-cM_3j1w-a1-m1-cN 3j1w-a1-m1-cN_3j1w-a1-m1-cO 3j1w-a1-m1-cO_3j1w-a1-m1-cP 3j1w-a1-m1-cP_3j1w-a1-m1-cQ 3j1w-a1-m1-cQ_3j1w-a1-m1-cR 3j1w-a1-m1-cR_3j1w-a1-m1-cS 3j1w-a1-m1-cS_3j1w-a1-m1-cT 3j1w-a1-m1-cT_3j1w-a1-m1-cU 3j1w-a1-m1-cU_3j1w-a1-m1-cV 3j1w-a1-m1-cV_3j1w-a1-m1-cW PYIVRLLNSSLNGCEFPLLTGRTLFVVGQSDALTASGQLPDIPADSFFIPLDHGGVNFEIQVDTDATEIILHELKEGNSESRSVQLNTPIQVGELLILIRPESEPW PYIVRLLNSSLNGCEFPLLTGRTLFVVGQSDALTASGQLPDIPADSFFIPLDHGGVNFEIQVDTDATEIILHELKEGNSESRSVQLNTPIQVGELLILIRPESEPW 3j1z-a1-m1-cP_3j1z-a1-m9-cQ Inward-Facing Conformation of the Zinc Transporter YiiP revealed by Cryo-electron Microscopy Q8E919 Q8E919 13.0 ELECTRON MICROSCOPY 42 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 296 296 3j1z-a1-m11-cP_3j1z-a1-m16-cQ 3j1z-a1-m11-cQ_3j1z-a1-m6-cP 3j1z-a1-m12-cP_3j1z-a1-m17-cQ 3j1z-a1-m12-cQ_3j1z-a1-m4-cP 3j1z-a1-m13-cQ_3j1z-a1-m8-cP 3j1z-a1-m14-cQ_3j1z-a1-m9-cP 3j1z-a1-m15-cQ_3j1z-a1-m7-cP 3j1z-a1-m2-cP_3j1z-a1-m7-cQ 3j1z-a1-m3-cP_3j1z-a1-m8-cQ MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ 3j1z-a1-m12-cP_3j1z-a1-m9-cQ Inward-Facing Conformation of the Zinc Transporter YiiP revealed by Cryo-electron Microscopy Q8E919 Q8E919 13.0 ELECTRON MICROSCOPY 52 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 296 296 3j1z-a1-m11-cP_3j1z-a1-m8-cQ 3j1z-a1-m11-cQ_3j1z-a1-m14-cP 3j1z-a1-m12-cQ_3j1z-a1-m15-cP 3j1z-a1-m13-cQ_3j1z-a1-m16-cP 3j1z-a1-m14-cQ_3j1z-a1-m17-cP 3j1z-a1-m15-cQ_3j1z-a1-m18-cP 3j1z-a1-m1-cQ_3j1z-a1-m4-cP 3j1z-a1-m2-cQ_3j1z-a1-m5-cP 3j1z-a1-m3-cQ_3j1z-a1-m6-cP 3j1z-a1-m4-cQ_3j1z-a1-m7-cP 3j1z-a1-m5-cQ_3j1z-a1-m8-cP 3j1z-a1-m6-cQ_3j1z-a1-m9-cP MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ 3j1z-a1-m14-cP_3j1z-a1-m9-cP Inward-Facing Conformation of the Zinc Transporter YiiP revealed by Cryo-electron Microscopy Q8E919 Q8E919 13.0 ELECTRON MICROSCOPY 11 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 296 296 3j1z-a1-m11-cP_3j1z-a1-m16-cP 3j1z-a1-m11-cP_3j1z-a1-m6-cP 3j1z-a1-m12-cP_3j1z-a1-m17-cP 3j1z-a1-m12-cP_3j1z-a1-m4-cP 3j1z-a1-m13-cP_3j1z-a1-m8-cP 3j1z-a1-m15-cP_3j1z-a1-m7-cP 3j1z-a1-m1-cP_3j1z-a1-m9-cP 3j1z-a1-m2-cP_3j1z-a1-m7-cP 3j1z-a1-m3-cP_3j1z-a1-m8-cP MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ 3j1z-a1-m9-cP_3j1z-a1-m9-cQ Inward-Facing Conformation of the Zinc Transporter YiiP revealed by Cryo-electron Microscopy Q8E919 Q8E919 13.0 ELECTRON MICROSCOPY 135 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 296 296 3j1z-a1-m11-cP_3j1z-a1-m11-cQ 3j1z-a1-m12-cP_3j1z-a1-m12-cQ 3j1z-a1-m13-cP_3j1z-a1-m13-cQ 3j1z-a1-m14-cP_3j1z-a1-m14-cQ 3j1z-a1-m15-cP_3j1z-a1-m15-cQ 3j1z-a1-m16-cP_3j1z-a1-m16-cQ 3j1z-a1-m17-cP_3j1z-a1-m17-cQ 3j1z-a1-m18-cP_3j1z-a1-m18-cQ 3j1z-a1-m1-cP_3j1z-a1-m1-cQ 3j1z-a1-m2-cP_3j1z-a1-m2-cQ 3j1z-a1-m3-cP_3j1z-a1-m3-cQ 3j1z-a1-m4-cP_3j1z-a1-m4-cQ 3j1z-a1-m5-cP_3j1z-a1-m5-cQ 3j1z-a1-m6-cP_3j1z-a1-m6-cQ 3j1z-a1-m7-cP_3j1z-a1-m7-cQ 3j1z-a1-m8-cP_3j1z-a1-m8-cQ 5vrf-a1-m1-cA_5vrf-a1-m1-cB 7kzz-a1-m1-cA_7kzz-a1-m1-cB 8f6e-a1-m1-cA_8f6e-a1-m1-cB 8f6f-a1-m1-cA_8f6f-a1-m1-cB 8f6j-a1-m1-cA_8f6j-a1-m1-cB MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ MTQTSQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEPTTQ 3j26-a1-m1-cC_3j26-a1-m1-cG The 3.5 A resolution structure of the Sputnik virophage by cryo-EM B4YNG0 B4YNG0 3.5 ELECTRON MICROSCOPY 50 1.0 543939 (Sputnik virophage) 543939 (Sputnik virophage) 508 508 3j26-a1-m10-cA_3j26-a1-m10-cE 3j26-a1-m10-cC_3j26-a1-m10-cG 3j26-a1-m10-cC_3j26-a1-m10-cL 3j26-a1-m10-cG_3j26-a1-m10-cL 3j26-a1-m10-cH_3j26-a1-m5-cK 3j26-a1-m10-cK_3j26-a1-m5-cH 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3j26-a1-m9-cF_3j26-a1-m9-cG 3j26-a1-m9-cH_3j26-a1-m9-cI 3j26-a1-m9-cH_3j26-a1-m9-cJ 3j26-a1-m9-cI_3j26-a1-m9-cJ 3j26-a1-m9-cK_3j26-a1-m9-cL 3j26-a1-m9-cL_3j26-a1-m9-cM MSNSAIPLNVVAVQEPRLELNNERTWVVVKGGQQVTYYPFPSTSFSSNQFNFICNPPSAQTVLDRLVFIQVPYDITFTANPSHAGITENLLQPGRDAFRAFPISSITNTLNATINGFPVNIELAQIIHALSRYHTPLKVKNGWMSMQPSFEDNYQSYRDADGANNNPLGVFTSAAGLSELPRGSYTMNVVTNTTTTARITGVLYEQVFLPPFLWDGEQAGGLANLTSLTFNWVLNNNLARIWSHSDITNDVSGNSTIGSMNISFQQPSMYLGFVTPRLNIPIPPRITYPYFKLSRYTTQFQNTLAPNASSTFKSNVVQLDSIPRKLYLFVKQSDNVIYQNLNNQITTPDVFLQINNLNLTWNNQQGILSGASSQNLYDFSVQNGYNKTWSEFNGVTQQFNGVSGQPTKVIGLEGGIVCLELGKDVGLRDDEAEGVIGNFNLQVQMTVTNTNQYVTVTPDMYIVAVYDGTLVISNTSAMASIGVASKEEVLNARITHGVSYNELQRIYG MSNSAIPLNVVAVQEPRLELNNERTWVVVKGGQQVTYYPFPSTSFSSNQFNFICNPPSAQTVLDRLVFIQVPYDITFTANPSHAGITENLLQPGRDAFRAFPISSITNTLNATINGFPVNIELAQIIHALSRYHTPLKVKNGWMSMQPSFEDNYQSYRDADGANNNPLGVFTSAAGLSELPRGSYTMNVVTNTTTTARITGVLYEQVFLPPFLWDGEQAGGLANLTSLTFNWVLNNNLARIWSHSDITNDVSGNSTIGSMNISFQQPSMYLGFVTPRLNIPIPPRITYPYFKLSRYTTQFQNTLAPNASSTFKSNVVQLDSIPRKLYLFVKQSDNVIYQNLNNQITTPDVFLQINNLNLTWNNQQGILSGASSQNLYDFSVQNGYNKTWSEFNGVTQQFNGVSGQPTKVIGLEGGIVCLELGKDVGLRDDEAEGVIGNFNLQVQMTVTNTNQYVTVTPDMYIVAVYDGTLVISNTSAMASIGVASKEEVLNARITHGVSYNELQRIYG 3j2j-a1-m7-cB_3j2j-a1-m9-cB Empty coxsackievirus A9 capsid P21404 P21404 9.54 ELECTRON MICROSCOPY 12 1.0 12067 (Coxsackievirus A9) 12067 (Coxsackievirus A9) 238 238 3j2j-a1-m10-cB_3j2j-a1-m7-cB 3j2j-a1-m10-cB_3j2j-a1-m8-cB 3j2j-a1-m11-cB_3j2j-a1-m13-cB 3j2j-a1-m11-cB_3j2j-a1-m14-cB 3j2j-a1-m12-cB_3j2j-a1-m14-cB 3j2j-a1-m12-cB_3j2j-a1-m15-cB 3j2j-a1-m13-cB_3j2j-a1-m15-cB 3j2j-a1-m16-cB_3j2j-a1-m18-cB 3j2j-a1-m16-cB_3j2j-a1-m19-cB 3j2j-a1-m17-cB_3j2j-a1-m19-cB 3j2j-a1-m17-cB_3j2j-a1-m20-cB 3j2j-a1-m18-cB_3j2j-a1-m20-cB 3j2j-a1-m1-cB_3j2j-a1-m3-cB 3j2j-a1-m1-cB_3j2j-a1-m4-cB 3j2j-a1-m21-cB_3j2j-a1-m23-cB 3j2j-a1-m21-cB_3j2j-a1-m24-cB 3j2j-a1-m22-cB_3j2j-a1-m24-cB 3j2j-a1-m22-cB_3j2j-a1-m25-cB 3j2j-a1-m23-cB_3j2j-a1-m25-cB 3j2j-a1-m26-cB_3j2j-a1-m28-cB 3j2j-a1-m26-cB_3j2j-a1-m29-cB 3j2j-a1-m27-cB_3j2j-a1-m29-cB 3j2j-a1-m27-cB_3j2j-a1-m30-cB 3j2j-a1-m28-cB_3j2j-a1-m30-cB 3j2j-a1-m2-cB_3j2j-a1-m4-cB 3j2j-a1-m2-cB_3j2j-a1-m5-cB 3j2j-a1-m31-cB_3j2j-a1-m33-cB 3j2j-a1-m31-cB_3j2j-a1-m34-cB 3j2j-a1-m32-cB_3j2j-a1-m34-cB 3j2j-a1-m32-cB_3j2j-a1-m35-cB 3j2j-a1-m33-cB_3j2j-a1-m35-cB 3j2j-a1-m36-cB_3j2j-a1-m38-cB 3j2j-a1-m36-cB_3j2j-a1-m39-cB 3j2j-a1-m37-cB_3j2j-a1-m39-cB 3j2j-a1-m37-cB_3j2j-a1-m40-cB 3j2j-a1-m38-cB_3j2j-a1-m40-cB 3j2j-a1-m3-cB_3j2j-a1-m5-cB 3j2j-a1-m41-cB_3j2j-a1-m43-cB 3j2j-a1-m41-cB_3j2j-a1-m44-cB 3j2j-a1-m42-cB_3j2j-a1-m44-cB 3j2j-a1-m42-cB_3j2j-a1-m45-cB 3j2j-a1-m43-cB_3j2j-a1-m45-cB 3j2j-a1-m46-cB_3j2j-a1-m48-cB 3j2j-a1-m46-cB_3j2j-a1-m49-cB 3j2j-a1-m47-cB_3j2j-a1-m49-cB 3j2j-a1-m47-cB_3j2j-a1-m50-cB 3j2j-a1-m48-cB_3j2j-a1-m50-cB 3j2j-a1-m51-cB_3j2j-a1-m53-cB 3j2j-a1-m51-cB_3j2j-a1-m54-cB 3j2j-a1-m52-cB_3j2j-a1-m54-cB 3j2j-a1-m52-cB_3j2j-a1-m55-cB 3j2j-a1-m53-cB_3j2j-a1-m55-cB 3j2j-a1-m56-cB_3j2j-a1-m58-cB 3j2j-a1-m56-cB_3j2j-a1-m59-cB 3j2j-a1-m57-cB_3j2j-a1-m59-cB 3j2j-a1-m57-cB_3j2j-a1-m60-cB 3j2j-a1-m58-cB_3j2j-a1-m60-cB 3j2j-a1-m6-cB_3j2j-a1-m8-cB 3j2j-a1-m6-cB_3j2j-a1-m9-cB GLPTMNTPGSTQFLTSDDFQSPCALPQFDVTPSMNIPGEVKNLMEIAEVDSVVPVNNVQDTTDQMEMFRIPVTINAPLQQQVFGLRLQPGLDSVFKHTLLGEILNYYAHWSGSMKLTFVFCGSAMATGKFLIAYSPPGANPPKTRKDAMLGTHIIWDIGLQSSCVLCVPWISQTHYRLVQQDEYTSAGYVTCWYQTGMIVPPGTPNSSSIMCFASACNDFSVRMLRDTPFISQDNKLQ GLPTMNTPGSTQFLTSDDFQSPCALPQFDVTPSMNIPGEVKNLMEIAEVDSVVPVNNVQDTTDQMEMFRIPVTINAPLQQQVFGLRLQPGLDSVFKHTLLGEILNYYAHWSGSMKLTFVFCGSAMATGKFLIAYSPPGANPPKTRKDAMLGTHIIWDIGLQSSCVLCVPWISQTHYRLVQQDEYTSAGYVTCWYQTGMIVPPGTPNSSSIMCFASACNDFSVRMLRDTPFISQDNKLQ 3j2o-a1-m1-cA_3j2o-a1-m1-cB Model of the bacteriophage T4 fibritin based on the cryo-EM reconstruction of the contracted T4 tail containing the phage collar and whiskers P10104 P10104 25.0 ELECTRON MICROSCOPY 249 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 362 362 1rfo-a1-m1-cA_1rfo-a1-m1-cB 1rfo-a1-m1-cA_1rfo-a1-m1-cC 1rfo-a1-m1-cB_1rfo-a1-m1-cC DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQISLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQISLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL 3j2o-a1-m1-cA_3j2o-a1-m1-cC Model of the bacteriophage T4 fibritin based on the cryo-EM reconstruction of the contracted T4 tail containing the phage collar and whiskers P10104 P10104 25.0 ELECTRON MICROSCOPY 249 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 362 362 DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQISLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQISLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL 3j2o-a1-m1-cB_3j2o-a1-m1-cC Model of the bacteriophage T4 fibritin based on the cryo-EM reconstruction of the contracted T4 tail containing the phage collar and whiskers P10104 P10104 25.0 ELECTRON MICROSCOPY 246 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 362 362 DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQISLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRLSLTIEVGNLREELVYSRLNEIDTKQTTVESDISAIKTSISIITSVNTNTDNIASINLEIKQRLTVIETSIIKGQIKDNTTSILRANVSWLNQISLLNRVSTIETSVSGLNNAVQNLQVEIGNNSAGIKGQVVALNTLVNGTNPNGSTVEERGLTNSIKANETNIASVTQEVNTAKGNISSLQGDVQALQEAGYIPEAPRDGQAYVRKDGEWVFLSTFL 3j2o-a1-m1-cD_3j2o-a1-m1-cE Model of the bacteriophage T4 fibritin based on the cryo-EM reconstruction of the contracted T4 tail containing the phage collar and whiskers P10104 P10104 25.0 ELECTRON MICROSCOPY 92 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 144 144 DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRL 3j2o-a1-m1-cD_3j2o-a1-m1-cF Model of the bacteriophage T4 fibritin based on the cryo-EM reconstruction of the contracted T4 tail containing the phage collar and whiskers P10104 P10104 25.0 ELECTRON MICROSCOPY 92 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 144 144 DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRL DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRL 3j2o-a1-m1-cE_3j2o-a1-m1-cF Model of the bacteriophage T4 fibritin based on the cryo-EM reconstruction of the contracted T4 tail containing the phage collar and whiskers P10104 P10104 25.0 ELECTRON MICROSCOPY 92 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 144 144 DIVLNDLPFVDGPPAEGQSRISWIKNGEEILGADTQYGSEGSMNRPTVSVLRNVEVLDKNIGILKTSLETANSDIKTIQINKKDISDLKTLTSEHTEILNGTNNTVDSILADIIRNDLLWIKRELMKHRIINNTDVITSQGIRL 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3j2z-a1-m14-cC_3j2z-a1-m14-cE 3j2z-a1-m14-cC_3j2z-a1-m14-cG 3j2z-a1-m14-cE_3j2z-a1-m14-cG 3j2z-a1-m15-cA_3j2z-a1-m16-cA 3j2z-a1-m15-cA_3j2z-a1-m28-cA 3j2z-a1-m15-cC_3j2z-a1-m15-cE 3j2z-a1-m15-cC_3j2z-a1-m15-cG 3j2z-a1-m15-cE_3j2z-a1-m15-cG 3j2z-a1-m16-cA_3j2z-a1-m28-cA 3j2z-a1-m16-cC_3j2z-a1-m16-cE 3j2z-a1-m16-cC_3j2z-a1-m16-cG 3j2z-a1-m16-cE_3j2z-a1-m16-cG 3j2z-a1-m17-cA_3j2z-a1-m27-cA 3j2z-a1-m17-cA_3j2z-a1-m52-cA 3j2z-a1-m17-cC_3j2z-a1-m17-cE 3j2z-a1-m17-cC_3j2z-a1-m17-cG 3j2z-a1-m17-cE_3j2z-a1-m17-cG 3j2z-a1-m18-cA_3j2z-a1-m51-cA 3j2z-a1-m18-cA_3j2z-a1-m60-cA 3j2z-a1-m18-cC_3j2z-a1-m18-cE 3j2z-a1-m18-cC_3j2z-a1-m18-cG 3j2z-a1-m18-cE_3j2z-a1-m18-cG 3j2z-a1-m19-cA_3j2z-a1-m39-cA 3j2z-a1-m19-cA_3j2z-a1-m59-cA 3j2z-a1-m19-cC_3j2z-a1-m19-cE 3j2z-a1-m19-cC_3j2z-a1-m19-cG 3j2z-a1-m19-cE_3j2z-a1-m19-cG 3j2z-a1-m1-cA_3j2z-a1-m10-cA 3j2z-a1-m1-cA_3j2z-a1-m23-cA 3j2z-a1-m1-cC_3j2z-a1-m1-cE 3j2z-a1-m1-cC_3j2z-a1-m1-cG 3j2z-a1-m1-cE_3j2z-a1-m1-cG 3j2z-a1-m20-cA_3j2z-a1-m38-cA 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VLQLTLGNSTITTQAANSVVAYGRWPEYLRDSEANPVDQPTEPDVAACRFYTLDTVSWTKESRGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAVPEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDNNQTSPARRFCPVDYLLGNGTLLGNAFVFPHQIINLRTNNCATLVLPYVNSLSIDSMVKHNNWGIAILPLAPLNFASESSPEIPITLTIAPMCCEFNGLR VLQLTLGNSTITTQAANSVVAYGRWPEYLRDSEANPVDQPTEPDVAACRFYTLDTVSWTKESRGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAVPEMCLAGDSNTTTMHTSYQNANPGEKGGTFTGTFTPDNNQTSPARRFCPVDYLLGNGTLLGNAFVFPHQIINLRTNNCATLVLPYVNSLSIDSMVKHNNWGIAILPLAPLNFASESSPEIPITLTIAPMCCEFNGLR 3j3s-a1-m1-cC_3j3s-a1-m1-cF Structural dynamics of the MecA-ClpC complex revealed by cryo-EM P37571 P37571 11.0 ELECTRON MICROSCOPY 10 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 798 798 FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNETGSSAAGTNSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWTAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASELKRNKYVGFNVQDETQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNETGSSAAGTNSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWTAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASELKRNKYVGFNVQDETQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA 3j3u-a1-m1-cD_3j3u-a1-m1-cF Structural dynamics of the MecA-ClpC complex revealed by cryo-EM P37571 P37571 10.0 ELECTRON MICROSCOPY 20 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 798 798 3j3s-a1-m1-cB_3j3s-a1-m1-cF 3j3u-a1-m1-cB_3j3u-a1-m1-cF FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNETGSSAAGTNSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDALHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWTAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASELKRNKYVGFNVQDETQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNETGSSAAGTNSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDALHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWTAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASELKRNKYVGFNVQDETQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA 3j40-a1-m10-cA_3j40-a1-m9-cG Validated Near-Atomic Resolution Structure of Bacteriophage Epsilon15 Derived from Cryo-EM and Modeling Q858G8 Q858G8 4.5 ELECTRON MICROSCOPY 23 1.0 215158 (Salmonella phage epsilon15) 215158 (Salmonella phage epsilon15) 335 335 3j40-a1-m10-cF_3j40-a1-m6-cF 3j40-a1-m10-cF_3j40-a1-m9-cF 3j40-a1-m10-cG_3j40-a1-m6-cA 3j40-a1-m11-cA_3j40-a1-m15-cG 3j40-a1-m11-cF_3j40-a1-m12-cF 3j40-a1-m11-cF_3j40-a1-m15-cF 3j40-a1-m11-cG_3j40-a1-m12-cA 3j40-a1-m12-cF_3j40-a1-m13-cF 3j40-a1-m12-cG_3j40-a1-m13-cA 3j40-a1-m13-cF_3j40-a1-m14-cF 3j40-a1-m13-cG_3j40-a1-m14-cA 3j40-a1-m14-cF_3j40-a1-m15-cF 3j40-a1-m14-cG_3j40-a1-m15-cA 3j40-a1-m16-cA_3j40-a1-m20-cG 3j40-a1-m16-cF_3j40-a1-m17-cF 3j40-a1-m16-cF_3j40-a1-m20-cF 3j40-a1-m16-cG_3j40-a1-m17-cA 3j40-a1-m17-cF_3j40-a1-m18-cF 3j40-a1-m17-cG_3j40-a1-m18-cA 3j40-a1-m18-cF_3j40-a1-m19-cF 3j40-a1-m18-cG_3j40-a1-m19-cA 3j40-a1-m19-cF_3j40-a1-m20-cF 3j40-a1-m19-cG_3j40-a1-m20-cA 3j40-a1-m1-cA_3j40-a1-m5-cG 3j40-a1-m1-cF_3j40-a1-m2-cF 3j40-a1-m1-cF_3j40-a1-m5-cF 3j40-a1-m1-cG_3j40-a1-m2-cA 3j40-a1-m21-cA_3j40-a1-m25-cG 3j40-a1-m21-cF_3j40-a1-m22-cF 3j40-a1-m21-cF_3j40-a1-m25-cF 3j40-a1-m21-cG_3j40-a1-m22-cA 3j40-a1-m22-cF_3j40-a1-m23-cF 3j40-a1-m22-cG_3j40-a1-m23-cA 3j40-a1-m23-cF_3j40-a1-m24-cF 3j40-a1-m23-cG_3j40-a1-m24-cA 3j40-a1-m24-cF_3j40-a1-m25-cF 3j40-a1-m24-cG_3j40-a1-m25-cA 3j40-a1-m26-cA_3j40-a1-m30-cG 3j40-a1-m26-cF_3j40-a1-m27-cF 3j40-a1-m26-cF_3j40-a1-m30-cF 3j40-a1-m26-cG_3j40-a1-m27-cA 3j40-a1-m27-cF_3j40-a1-m28-cF 3j40-a1-m27-cG_3j40-a1-m28-cA 3j40-a1-m28-cF_3j40-a1-m29-cF 3j40-a1-m28-cG_3j40-a1-m29-cA 3j40-a1-m29-cF_3j40-a1-m30-cF 3j40-a1-m29-cG_3j40-a1-m30-cA 3j40-a1-m2-cF_3j40-a1-m3-cF 3j40-a1-m2-cG_3j40-a1-m3-cA 3j40-a1-m31-cA_3j40-a1-m35-cG 3j40-a1-m31-cF_3j40-a1-m32-cF 3j40-a1-m31-cF_3j40-a1-m35-cF 3j40-a1-m31-cG_3j40-a1-m32-cA 3j40-a1-m32-cF_3j40-a1-m33-cF 3j40-a1-m32-cG_3j40-a1-m33-cA 3j40-a1-m33-cF_3j40-a1-m34-cF 3j40-a1-m33-cG_3j40-a1-m34-cA 3j40-a1-m34-cF_3j40-a1-m35-cF 3j40-a1-m34-cG_3j40-a1-m35-cA 3j40-a1-m36-cA_3j40-a1-m40-cG 3j40-a1-m36-cF_3j40-a1-m37-cF 3j40-a1-m36-cF_3j40-a1-m40-cF 3j40-a1-m36-cG_3j40-a1-m37-cA 3j40-a1-m37-cF_3j40-a1-m38-cF 3j40-a1-m37-cG_3j40-a1-m38-cA 3j40-a1-m38-cF_3j40-a1-m39-cF 3j40-a1-m38-cG_3j40-a1-m39-cA 3j40-a1-m39-cF_3j40-a1-m40-cF 3j40-a1-m39-cG_3j40-a1-m40-cA 3j40-a1-m3-cF_3j40-a1-m4-cF 3j40-a1-m3-cG_3j40-a1-m4-cA 3j40-a1-m41-cA_3j40-a1-m45-cG 3j40-a1-m41-cF_3j40-a1-m42-cF 3j40-a1-m41-cF_3j40-a1-m45-cF 3j40-a1-m41-cG_3j40-a1-m42-cA 3j40-a1-m42-cF_3j40-a1-m43-cF 3j40-a1-m42-cG_3j40-a1-m43-cA 3j40-a1-m43-cF_3j40-a1-m44-cF 3j40-a1-m43-cG_3j40-a1-m44-cA 3j40-a1-m44-cF_3j40-a1-m45-cF 3j40-a1-m44-cG_3j40-a1-m45-cA 3j40-a1-m46-cA_3j40-a1-m50-cG 3j40-a1-m46-cF_3j40-a1-m47-cF 3j40-a1-m46-cF_3j40-a1-m50-cF 3j40-a1-m46-cG_3j40-a1-m47-cA 3j40-a1-m47-cF_3j40-a1-m48-cF 3j40-a1-m47-cG_3j40-a1-m48-cA 3j40-a1-m48-cF_3j40-a1-m49-cF 3j40-a1-m48-cG_3j40-a1-m49-cA 3j40-a1-m49-cF_3j40-a1-m50-cF 3j40-a1-m49-cG_3j40-a1-m50-cA 3j40-a1-m4-cF_3j40-a1-m5-cF 3j40-a1-m4-cG_3j40-a1-m5-cA 3j40-a1-m51-cA_3j40-a1-m55-cG 3j40-a1-m51-cF_3j40-a1-m52-cF 3j40-a1-m51-cF_3j40-a1-m55-cF 3j40-a1-m51-cG_3j40-a1-m52-cA 3j40-a1-m52-cF_3j40-a1-m53-cF 3j40-a1-m52-cG_3j40-a1-m53-cA 3j40-a1-m53-cF_3j40-a1-m54-cF 3j40-a1-m53-cG_3j40-a1-m54-cA 3j40-a1-m54-cF_3j40-a1-m55-cF 3j40-a1-m54-cG_3j40-a1-m55-cA 3j40-a1-m56-cA_3j40-a1-m60-cG 3j40-a1-m56-cF_3j40-a1-m57-cF 3j40-a1-m56-cF_3j40-a1-m60-cF 3j40-a1-m56-cG_3j40-a1-m57-cA 3j40-a1-m57-cF_3j40-a1-m58-cF 3j40-a1-m57-cG_3j40-a1-m58-cA 3j40-a1-m58-cF_3j40-a1-m59-cF 3j40-a1-m58-cG_3j40-a1-m59-cA 3j40-a1-m59-cF_3j40-a1-m60-cF 3j40-a1-m59-cG_3j40-a1-m60-cA 3j40-a1-m6-cF_3j40-a1-m7-cF 3j40-a1-m6-cG_3j40-a1-m7-cA 3j40-a1-m7-cF_3j40-a1-m8-cF 3j40-a1-m7-cG_3j40-a1-m8-cA 3j40-a1-m8-cF_3j40-a1-m9-cF 3j40-a1-m8-cG_3j40-a1-m9-cA MALIGQTLPSLLDIYNRTDKNGRIARIVEQLAKTNDILTDAIYVPCNDGSKHKTTIRAGIPEPVWRRYNQGVQPTKTQTVPVTDTTGMLYDLGFVDKALADRSNNAAAFRVSENMGKLQGFNNKVARYSIYGNTDAEPEAFMGLAPRFNTLSTSKAASAENVFSAGGSGSTNTSIWFMSWGENTAHMIYPEGMVAGFQHEDLGDDLVSDGNGGQFRAYRDEFKWDIGLSVRDWRSISRICNIDVTTLTKDASTGADLISMMVDAYYARDVAMLGDGKEVIYANKTIHAWLHKQAMNAKNVNLTIEEYGGKKIVSFLGIPIRRVDAILNTESAVTA MALIGQTLPSLLDIYNRTDKNGRIARIVEQLAKTNDILTDAIYVPCNDGSKHKTTIRAGIPEPVWRRYNQGVQPTKTQTVPVTDTTGMLYDLGFVDKALADRSNNAAAFRVSENMGKLQGFNNKVARYSIYGNTDAEPEAFMGLAPRFNTLSTSKAASAENVFSAGGSGSTNTSIWFMSWGENTAHMIYPEGMVAGFQHEDLGDDLVSDGNGGQFRAYRDEFKWDIGLSVRDWRSISRICNIDVTTLTKDASTGADLISMMVDAYYARDVAMLGDGKEVIYANKTIHAWLHKQAMNAKNVNLTIEEYGGKKIVSFLGIPIRRVDAILNTESAVTA 3j40-a1-m24-cI_3j40-a1-m9-cJ Validated Near-Atomic Resolution Structure of Bacteriophage Epsilon15 Derived from Cryo-EM and Modeling Q858G5 Q858G5 4.5 ELECTRON MICROSCOPY 29 1.0 215158 (Salmonella phage epsilon15) 215158 (Salmonella phage epsilon15) 111 111 3j40-a1-m10-cH_3j40-a1-m9-cL 3j40-a1-m10-cI_3j40-a1-m23-cJ 3j40-a1-m10-cK_3j40-a1-m5-cK 3j40-a1-m10-cL_3j40-a1-m6-cH 3j40-a1-m10-cM_3j40-a1-m10-cN 3j40-a1-m11-cH_3j40-a1-m15-cL 3j40-a1-m11-cI_3j40-a1-m20-cJ 3j40-a1-m11-cJ_3j40-a1-m38-cI 3j40-a1-m11-cK_3j40-a1-m37-cK 3j40-a1-m11-cL_3j40-a1-m12-cH 3j40-a1-m11-cM_3j40-a1-m11-cN 3j40-a1-m12-cI_3j40-a1-m37-cJ 3j40-a1-m12-cJ_3j40-a1-m47-cI 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MKTVNMKTGTDSFVGEDGKPETKDQYPWGLRITLDNESLQRLGLNAKSLPAVGDSVSVMAMANVCSVSTRTTDHGEDNYVELQITDIGLAPQKRDDAKELKDAFYPDGEDD MKTVNMKTGTDSFVGEDGKPETKDQYPWGLRITLDNESLQRLGLNAKSLPAVGDSVSVMAMANVCSVSTRTTDHGEDNYVELQITDIGLAPQKRDDAKELKDAFYPDGEDD 3j40-a1-m54-cB_3j40-a1-m9-cC Validated Near-Atomic Resolution Structure of Bacteriophage Epsilon15 Derived from Cryo-EM and Modeling Q858G8 Q858G8 4.5 ELECTRON MICROSCOPY 21 1.0 215158 (Salmonella phage epsilon15) 215158 (Salmonella phage epsilon15) 335 335 3j40-a1-m10-cA_3j40-a1-m23-cD 3j40-a1-m10-cB_3j40-a1-m9-cD 3j40-a1-m10-cC_3j40-a1-m23-cB 3j40-a1-m10-cC_3j40-a1-m5-cE 3j40-a1-m10-cD_3j40-a1-m6-cB 3j40-a1-m10-cE_3j40-a1-m5-cC 3j40-a1-m10-cE_3j40-a1-m6-cG 3j40-a1-m10-cG_3j40-a1-m9-cE 3j40-a1-m11-cA_3j40-a1-m20-cD 3j40-a1-m11-cB_3j40-a1-m15-cD 3j40-a1-m11-cB_3j40-a1-m38-cC 3j40-a1-m11-cC_3j40-a1-m20-cB 3j40-a1-m11-cC_3j40-a1-m37-cE 3j40-a1-m11-cD_3j40-a1-m12-cB 3j40-a1-m11-cD_3j40-a1-m38-cA 3j40-a1-m11-cE_3j40-a1-m12-cG 3j40-a1-m11-cE_3j40-a1-m37-cC 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3j40-a1-m56-cE_3j40-a1-m7-cC 3j40-a1-m56-cG_3j40-a1-m60-cE 3j40-a1-m57-cA_3j40-a1-m7-cD 3j40-a1-m57-cC_3j40-a1-m7-cB 3j40-a1-m57-cD_3j40-a1-m58-cB 3j40-a1-m57-cE_3j40-a1-m58-cG 3j40-a1-m58-cD_3j40-a1-m59-cB 3j40-a1-m58-cE_3j40-a1-m59-cG 3j40-a1-m59-cD_3j40-a1-m60-cB 3j40-a1-m59-cE_3j40-a1-m60-cG 3j40-a1-m5-cB_3j40-a1-m6-cC 3j40-a1-m5-cD_3j40-a1-m6-cA 3j40-a1-m6-cD_3j40-a1-m7-cB 3j40-a1-m6-cE_3j40-a1-m7-cG 3j40-a1-m7-cD_3j40-a1-m8-cB 3j40-a1-m7-cE_3j40-a1-m8-cG 3j40-a1-m8-cD_3j40-a1-m9-cB 3j40-a1-m8-cE_3j40-a1-m9-cG MALIGQTLPSLLDIYNRTDKNGRIARIVEQLAKTNDILTDAIYVPCNDGSKHKTTIRAGIPEPVWRRYNQGVQPTKTQTVPVTDTTGMLYDLGFVDKALADRSNNAAAFRVSENMGKLQGFNNKVARYSIYGNTDAEPEAFMGLAPRFNTLSTSKAASAENVFSAGGSGSTNTSIWFMSWGENTAHMIYPEGMVAGFQHEDLGDDLVSDGNGGQFRAYRDEFKWDIGLSVRDWRSISRICNIDVTTLTKDASTGADLISMMVDAYYARDVAMLGDGKEVIYANKTIHAWLHKQAMNAKNVNLTIEEYGGKKIVSFLGIPIRRVDAILNTESAVTA MALIGQTLPSLLDIYNRTDKNGRIARIVEQLAKTNDILTDAIYVPCNDGSKHKTTIRAGIPEPVWRRYNQGVQPTKTQTVPVTDTTGMLYDLGFVDKALADRSNNAAAFRVSENMGKLQGFNNKVARYSIYGNTDAEPEAFMGLAPRFNTLSTSKAASAENVFSAGGSGSTNTSIWFMSWGENTAHMIYPEGMVAGFQHEDLGDDLVSDGNGGQFRAYRDEFKWDIGLSVRDWRSISRICNIDVTTLTKDASTGADLISMMVDAYYARDVAMLGDGKEVIYANKTIHAWLHKQAMNAKNVNLTIEEYGGKKIVSFLGIPIRRVDAILNTESAVTA 3j40-a1-m54-cC_3j40-a1-m9-cC Validated Near-Atomic Resolution Structure of Bacteriophage Epsilon15 Derived from Cryo-EM and Modeling Q858G8 Q858G8 4.5 ELECTRON MICROSCOPY 33 1.0 215158 (Salmonella phage epsilon15) 215158 (Salmonella phage epsilon15) 335 335 3j40-a1-m10-cA_3j40-a1-m10-cG 3j40-a1-m10-cA_3j40-a1-m9-cF 3j40-a1-m10-cB_3j40-a1-m23-cD 3j40-a1-m10-cB_3j40-a1-m9-cE 3j40-a1-m10-cC_3j40-a1-m23-cC 3j40-a1-m10-cD_3j40-a1-m5-cE 3j40-a1-m10-cE_3j40-a1-m5-cD 3j40-a1-m10-cE_3j40-a1-m6-cB 3j40-a1-m10-cF_3j40-a1-m6-cA 3j40-a1-m10-cF_3j40-a1-m6-cG 3j40-a1-m10-cG_3j40-a1-m9-cF 3j40-a1-m11-cA_3j40-a1-m11-cG 3j40-a1-m11-cA_3j40-a1-m15-cF 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Bacteriophage Epsilon15 Derived from Cryo-EM and Modeling Q858G8 Q858G8 4.5 ELECTRON MICROSCOPY 151 1.0 215158 (Salmonella phage epsilon15) 215158 (Salmonella phage epsilon15) 335 335 3j40-a1-m10-cG_3j40-a1-m6-cG 3j40-a1-m10-cG_3j40-a1-m9-cG 3j40-a1-m11-cG_3j40-a1-m12-cG 3j40-a1-m11-cG_3j40-a1-m15-cG 3j40-a1-m12-cG_3j40-a1-m13-cG 3j40-a1-m13-cG_3j40-a1-m14-cG 3j40-a1-m14-cG_3j40-a1-m15-cG 3j40-a1-m16-cG_3j40-a1-m17-cG 3j40-a1-m16-cG_3j40-a1-m20-cG 3j40-a1-m17-cG_3j40-a1-m18-cG 3j40-a1-m18-cG_3j40-a1-m19-cG 3j40-a1-m19-cG_3j40-a1-m20-cG 3j40-a1-m1-cG_3j40-a1-m2-cG 3j40-a1-m1-cG_3j40-a1-m5-cG 3j40-a1-m21-cG_3j40-a1-m22-cG 3j40-a1-m21-cG_3j40-a1-m25-cG 3j40-a1-m22-cG_3j40-a1-m23-cG 3j40-a1-m23-cG_3j40-a1-m24-cG 3j40-a1-m24-cG_3j40-a1-m25-cG 3j40-a1-m26-cG_3j40-a1-m27-cG 3j40-a1-m26-cG_3j40-a1-m30-cG 3j40-a1-m27-cG_3j40-a1-m28-cG 3j40-a1-m28-cG_3j40-a1-m29-cG 3j40-a1-m29-cG_3j40-a1-m30-cG 3j40-a1-m2-cG_3j40-a1-m3-cG 3j40-a1-m31-cG_3j40-a1-m32-cG 3j40-a1-m31-cG_3j40-a1-m35-cG 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MALIGQTLPSLLDIYNRTDKNGRIARIVEQLAKTNDILTDAIYVPCNDGSKHKTTIRAGIPEPVWRRYNQGVQPTKTQTVPVTDTTGMLYDLGFVDKALADRSNNAAAFRVSENMGKLQGFNNKVARYSIYGNTDAEPEAFMGLAPRFNTLSTSKAASAENVFSAGGSGSTNTSIWFMSWGENTAHMIYPEGMVAGFQHEDLGDDLVSDGNGGQFRAYRDEFKWDIGLSVRDWRSISRICNIDVTTLTKDASTGADLISMMVDAYYARDVAMLGDGKEVIYANKTIHAWLHKQAMNAKNVNLTIEEYGGKKIVSFLGIPIRRVDAILNTESAVTA MALIGQTLPSLLDIYNRTDKNGRIARIVEQLAKTNDILTDAIYVPCNDGSKHKTTIRAGIPEPVWRRYNQGVQPTKTQTVPVTDTTGMLYDLGFVDKALADRSNNAAAFRVSENMGKLQGFNNKVARYSIYGNTDAEPEAFMGLAPRFNTLSTSKAASAENVFSAGGSGSTNTSIWFMSWGENTAHMIYPEGMVAGFQHEDLGDDLVSDGNGGQFRAYRDEFKWDIGLSVRDWRSISRICNIDVTTLTKDASTGADLISMMVDAYYARDVAMLGDGKEVIYANKTIHAWLHKQAMNAKNVNLTIEEYGGKKIVSFLGIPIRRVDAILNTESAVTA 3j40-a1-m9-cB_3j40-a1-m9-cC Validated Near-Atomic Resolution Structure of Bacteriophage Epsilon15 Derived from Cryo-EM and Modeling Q858G8 Q858G8 4.5 ELECTRON MICROSCOPY 160 1.0 215158 (Salmonella phage epsilon15) 215158 (Salmonella phage epsilon15) 335 335 3j40-a1-m10-cA_3j40-a1-m10-cB 3j40-a1-m10-cA_3j40-a1-m10-cF 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3j42-a1-m54-cE_3j42-a1-m54-cF 3j42-a1-m55-cE_3j42-a1-m55-cF 3j42-a1-m56-cE_3j42-a1-m56-cF 3j42-a1-m57-cE_3j42-a1-m57-cF 3j42-a1-m58-cE_3j42-a1-m58-cF 3j42-a1-m59-cE_3j42-a1-m59-cF 3j42-a1-m5-cE_3j42-a1-m5-cF 3j42-a1-m60-cE_3j42-a1-m60-cF 3j42-a1-m6-cE_3j42-a1-m6-cF 3j42-a1-m7-cE_3j42-a1-m7-cF 3j42-a1-m8-cE_3j42-a1-m8-cF FHLTTRNGEPHMIVSRQEKGKSLLFKTEDGVNMCTLMAMDLGELCEDTITYKCPLLRQNEPEDIDCWCNSTSTWVTYGTCT FHLTTRNGEPHMIVSRQEKGKSLLFKTEDGVNMCTLMAMDLGELCEDTITYKCPLLRQNEPEDIDCWCNSTSTWVTYGTCT 3j4q-a1-m1-cB_3j4q-a1-m1-cC Pseudo-atomic model of the AKAP18-PKA complex in a bent conformation derived from electron microscopy P12367 P12367 35.0 ELECTRON MICROSCOPY 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 382 382 GLTELLQGYTVEVLRQQPPDLVDFAVEYFTRLREARRQESDTFIVSPTTFHTQESSAVPVIEEDGESDSDSEDADLEVPVPSKFTRRVSVCAETFNPDEEEEDVVHPKTDEQRCRLQEACKDILLFKNLDQEQLSQVLDAMFEKIVKTDEHVIDQGDDGDNFYVIERGTYDILVTKDNQTRSVGQYDNRGSFGELALMYNTPRAATIIATSEGSLWGLDRVTFRRIIVKNNAKKRKMFESFIESVPLFKSLEMSERMKIVDVIGEKIYKDGERIIAQGEKADSFYIIESGEVSILIRSKTKSNKNGGNQEVEIAHCHKGQYFGELALVTNKPRAASAYAVGDVKCLVMDVQAFERLLGPCMDIMKRNISHYEEQLVKMFGSN GLTELLQGYTVEVLRQQPPDLVDFAVEYFTRLREARRQESDTFIVSPTTFHTQESSAVPVIEEDGESDSDSEDADLEVPVPSKFTRRVSVCAETFNPDEEEEDVVHPKTDEQRCRLQEACKDILLFKNLDQEQLSQVLDAMFEKIVKTDEHVIDQGDDGDNFYVIERGTYDILVTKDNQTRSVGQYDNRGSFGELALMYNTPRAATIIATSEGSLWGLDRVTFRRIIVKNNAKKRKMFESFIESVPLFKSLEMSERMKIVDVIGEKIYKDGERIIAQGEKADSFYIIESGEVSILIRSKTKSNKNGGNQEVEIAHCHKGQYFGELALVTNKPRAASAYAVGDVKCLVMDVQAFERLLGPCMDIMKRNISHYEEQLVKMFGSN 3j4r-a1-m1-cB_3j4r-a1-m1-cC Pseudo-atomic model of the AKAP18-PKA Complex in a linear conformation derived from electron microscopy P12367 P12367 35.0 ELECTRON MICROSCOPY 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 382 382 GLTELLQGYTVEVLRQQPPDLVDFAVEYFTRLREARRQESDTFIVSPTTFHTQESSAVPVIEEDGESDSDSEDADLEVPVPSKFTRRVSVCAETFNPDEEEEDVVHPKTDEQRCRLQEACKDILLFKNLDQEQLSQVLDAMFEKIVKTDEHVIDQGDDGDNFYVIERGTYDILVTKDNQTRSVGQYDNRGSFGELALMYNTPRAATIIATSEGSLWGLDRVTFRRIIVKNNAKKRKMFESFIESVPLFKSLEMSERMKIVDVIGEKIYKDGERIIAQGEKADSFYIIESGEVSILIRSKTKSNKNGGNQEVEIAHCHKGQYFGELALVTNKPRAASAYAVGDVKCLVMDVQAFERLLGPCMDIMKRNISHYEEQLVKMFGSN GLTELLQGYTVEVLRQQPPDLVDFAVEYFTRLREARRQESDTFIVSPTTFHTQESSAVPVIEEDGESDSDSEDADLEVPVPSKFTRRVSVCAETFNPDEEEEDVVHPKTDEQRCRLQEACKDILLFKNLDQEQLSQVLDAMFEKIVKTDEHVIDQGDDGDNFYVIERGTYDILVTKDNQTRSVGQYDNRGSFGELALMYNTPRAATIIATSEGSLWGLDRVTFRRIIVKNNAKKRKMFESFIESVPLFKSLEMSERMKIVDVIGEKIYKDGERIIAQGEKADSFYIIESGEVSILIRSKTKSNKNGGNQEVEIAHCHKGQYFGELALVTNKPRAASAYAVGDVKCLVMDVQAFERLLGPCMDIMKRNISHYEEQLVKMFGSN 3j4s-a1-m12-cA_3j4s-a1-m9-cA Helical Model of TubZ-Bt four-stranded filament Q8KNP3 Q8KNP3 6.8 ELECTRON MICROSCOPY 30 1.0 1430 (Bacillus thuringiensis serovar israelensis) 1430 (Bacillus thuringiensis serovar israelensis) 414 414 3j4s-a1-m10-cA_3j4s-a1-m11-cA 3j4s-a1-m10-cA_3j4s-a1-m9-cA 3j4s-a1-m11-cA_3j4s-a1-m12-cA 3j4s-a1-m13-cA_3j4s-a1-m14-cA 3j4s-a1-m13-cA_3j4s-a1-m16-cA 3j4s-a1-m14-cA_3j4s-a1-m15-cA 3j4s-a1-m15-cA_3j4s-a1-m16-cA 3j4s-a1-m17-cA_3j4s-a1-m18-cA 3j4s-a1-m17-cA_3j4s-a1-m20-cA 3j4s-a1-m18-cA_3j4s-a1-m19-cA 3j4s-a1-m19-cA_3j4s-a1-m20-cA 3j4s-a1-m1-cA_3j4s-a1-m2-cA 3j4s-a1-m1-cA_3j4s-a1-m4-cA 3j4s-a1-m21-cA_3j4s-a1-m22-cA 3j4s-a1-m21-cA_3j4s-a1-m24-cA 3j4s-a1-m22-cA_3j4s-a1-m23-cA 3j4s-a1-m23-cA_3j4s-a1-m24-cA 3j4s-a1-m2-cA_3j4s-a1-m3-cA 3j4s-a1-m3-cA_3j4s-a1-m4-cA 3j4s-a1-m5-cA_3j4s-a1-m6-cA 3j4s-a1-m5-cA_3j4s-a1-m8-cA 3j4s-a1-m6-cA_3j4s-a1-m7-cA 3j4s-a1-m7-cA_3j4s-a1-m8-cA MLLNSNELEHIHSTNHSVNDISIRWGVIGAGQKGNKEADLFAGYKFSNGTTCYPTLAVNFAESDMMHLQNIIKEDRIHFDGLKGAARTPSVVTDLFDPETNPNANGYLDKLAQELGRKFTNEEGEVIVDQFLICLGAGGGVGTGWGSLVLQLIREQFFPCPVSMLISLPSGDPDEINNALVLLSEIDEFMREQDRLFGNSDIKPLANVIVNDNTQMQRIIESQKGTKDLKNRYVNWKEVANDNVVSTLHEINIIPENYGSDNVTYDPSDLIKLLSIPGRFLTIGKARIAKFDLHSLENSIKRSLDEGFFSAEHQFETATMYGGFVLRPSNADFFKDVNTENRIRNTLGEYKRLDEIAGKFGDPIWDNEYAVCYTIFAGMTMPKRYISLAREGKELAEKQEQLRAEAQRKQDEEK MLLNSNELEHIHSTNHSVNDISIRWGVIGAGQKGNKEADLFAGYKFSNGTTCYPTLAVNFAESDMMHLQNIIKEDRIHFDGLKGAARTPSVVTDLFDPETNPNANGYLDKLAQELGRKFTNEEGEVIVDQFLICLGAGGGVGTGWGSLVLQLIREQFFPCPVSMLISLPSGDPDEINNALVLLSEIDEFMREQDRLFGNSDIKPLANVIVNDNTQMQRIIESQKGTKDLKNRYVNWKEVANDNVVSTLHEINIIPENYGSDNVTYDPSDLIKLLSIPGRFLTIGKARIAKFDLHSLENSIKRSLDEGFFSAEHQFETATMYGGFVLRPSNADFFKDVNTENRIRNTLGEYKRLDEIAGKFGDPIWDNEYAVCYTIFAGMTMPKRYISLAREGKELAEKQEQLRAEAQRKQDEEK 3j4s-a1-m5-cA_3j4s-a1-m9-cA Helical Model of TubZ-Bt four-stranded filament Q8KNP3 Q8KNP3 6.8 ELECTRON MICROSCOPY 32 1.0 1430 (Bacillus thuringiensis serovar israelensis) 1430 (Bacillus thuringiensis serovar israelensis) 414 414 3j4s-a1-m10-cA_3j4s-a1-m14-cA 3j4s-a1-m10-cA_3j4s-a1-m6-cA 3j4s-a1-m11-cA_3j4s-a1-m15-cA 3j4s-a1-m11-cA_3j4s-a1-m7-cA 3j4s-a1-m12-cA_3j4s-a1-m16-cA 3j4s-a1-m12-cA_3j4s-a1-m8-cA 3j4s-a1-m13-cA_3j4s-a1-m17-cA 3j4s-a1-m13-cA_3j4s-a1-m9-cA 3j4s-a1-m14-cA_3j4s-a1-m18-cA 3j4s-a1-m15-cA_3j4s-a1-m19-cA 3j4s-a1-m16-cA_3j4s-a1-m20-cA 3j4s-a1-m17-cA_3j4s-a1-m21-cA 3j4s-a1-m18-cA_3j4s-a1-m22-cA 3j4s-a1-m19-cA_3j4s-a1-m23-cA 3j4s-a1-m1-cA_3j4s-a1-m5-cA 3j4s-a1-m20-cA_3j4s-a1-m24-cA 3j4s-a1-m2-cA_3j4s-a1-m6-cA 3j4s-a1-m3-cA_3j4s-a1-m7-cA 3j4s-a1-m4-cA_3j4s-a1-m8-cA 3j4t-a1-m10-cF_3j4t-a1-m8-cF 3j4t-a1-m1-cF_3j4t-a1-m3-cF 3j4t-a1-m2-cF_3j4t-a1-m4-cF 3j4t-a1-m3-cF_3j4t-a1-m5-cF 3j4t-a1-m4-cF_3j4t-a1-m6-cF 3j4t-a1-m5-cF_3j4t-a1-m7-cF 3j4t-a1-m6-cF_3j4t-a1-m8-cF 3j4t-a1-m7-cF_3j4t-a1-m9-cF MLLNSNELEHIHSTNHSVNDISIRWGVIGAGQKGNKEADLFAGYKFSNGTTCYPTLAVNFAESDMMHLQNIIKEDRIHFDGLKGAARTPSVVTDLFDPETNPNANGYLDKLAQELGRKFTNEEGEVIVDQFLICLGAGGGVGTGWGSLVLQLIREQFFPCPVSMLISLPSGDPDEINNALVLLSEIDEFMREQDRLFGNSDIKPLANVIVNDNTQMQRIIESQKGTKDLKNRYVNWKEVANDNVVSTLHEINIIPENYGSDNVTYDPSDLIKLLSIPGRFLTIGKARIAKFDLHSLENSIKRSLDEGFFSAEHQFETATMYGGFVLRPSNADFFKDVNTENRIRNTLGEYKRLDEIAGKFGDPIWDNEYAVCYTIFAGMTMPKRYISLAREGKELAEKQEQLRAEAQRKQDEEK MLLNSNELEHIHSTNHSVNDISIRWGVIGAGQKGNKEADLFAGYKFSNGTTCYPTLAVNFAESDMMHLQNIIKEDRIHFDGLKGAARTPSVVTDLFDPETNPNANGYLDKLAQELGRKFTNEEGEVIVDQFLICLGAGGGVGTGWGSLVLQLIREQFFPCPVSMLISLPSGDPDEINNALVLLSEIDEFMREQDRLFGNSDIKPLANVIVNDNTQMQRIIESQKGTKDLKNRYVNWKEVANDNVVSTLHEINIIPENYGSDNVTYDPSDLIKLLSIPGRFLTIGKARIAKFDLHSLENSIKRSLDEGFFSAEHQFETATMYGGFVLRPSNADFFKDVNTENRIRNTLGEYKRLDEIAGKFGDPIWDNEYAVCYTIFAGMTMPKRYISLAREGKELAEKQEQLRAEAQRKQDEEK 3j4u-a1-m24-cD_3j4u-a1-m9-cE A new topology of the HK97-like fold revealed in Bordetella bacteriophage: non-covalent chainmail secured by jellyrolls Q775C7 Q775C7 3.5 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3j4u-a1-m60-cJ_3j4u-a1-m60-cK 3j4u-a1-m60-cL_3j4u-a1-m60-cM 3j4u-a1-m6-cH_3j4u-a1-m6-cI 3j4u-a1-m6-cJ_3j4u-a1-m6-cK 3j4u-a1-m6-cL_3j4u-a1-m6-cM 3j4u-a1-m7-cH_3j4u-a1-m7-cI 3j4u-a1-m7-cJ_3j4u-a1-m7-cK 3j4u-a1-m7-cL_3j4u-a1-m7-cM 3j4u-a1-m8-cH_3j4u-a1-m8-cI 3j4u-a1-m8-cJ_3j4u-a1-m8-cK 3j4u-a1-m8-cL_3j4u-a1-m8-cM 3j4u-a1-m9-cH_3j4u-a1-m9-cI 3j4u-a1-m9-cL_3j4u-a1-m9-cM MIIDKLLQVSDGQAVTASAASTDVIDFGQANPNTGMDDRSKMVITVDESADAAGAATVTFSVQDSADNATFADVAATGAIGKANLAAGKQVVIPMPTKLRRYCRVYYTVATGPLTAGKFSAQVVTGIQQNVAYPDSPRIA MIIDKLLQVSDGQAVTASAASTDVIDFGQANPNTGMDDRSKMVITVDESADAAGAATVTFSVQDSADNATFADVAATGAIGKANLAAGKQVVIPMPTKLRRYCRVYYTVATGPLTAGKFSAQVVTGIQQNVAYPDSPRIA 3j5v-a1-m6-ca_3j5v-a1-m9-ca PhuZ201 filament B3FK34 B3FK34 7.1 ELECTRON MICROSCOPY 108 1.0 198110 (Pseudomonas phage 201phi2-1) 198110 (Pseudomonas phage 201phi2-1) 311 311 3j5v-a1-m1-ca_3j5v-a1-m4-ca 3j5v-a1-m3-ca_3j5v-a1-m6-ca 3j5v-a1-m4-ca_3j5v-a1-m7-ca PVKVCLIFAGGTGMNVATKLVDLGEAVHCFDTCDKNVVDVHRSVNVTLTKGTRGNRKVILPLVRPQIPALMDTIPEADFYIVCYSLGGGSGSVLGPLITGQLADRKASFVSFVVGAMESTDNLGNDIDTMKTLEAIAVNKHLPIVVNYVPNTQGRSYESINDEIAEKIRKVVLLVNQNHGRLDVHDVANWVRFTDKHNYLIPQVCELHIETTRKDAENVPEAISQLSLYLDPSKEVAFGTPIYRKVGIMKVDDLDVTDDQIHFVINSVGVVEIMKTITDSKLEMTRQQSKFTQRNPIIDADDNVDEDGMVV PVKVCLIFAGGTGMNVATKLVDLGEAVHCFDTCDKNVVDVHRSVNVTLTKGTRGNRKVILPLVRPQIPALMDTIPEADFYIVCYSLGGGSGSVLGPLITGQLADRKASFVSFVVGAMESTDNLGNDIDTMKTLEAIAVNKHLPIVVNYVPNTQGRSYESINDEIAEKIRKVVLLVNQNHGRLDVHDVANWVRFTDKHNYLIPQVCELHIETTRKDAENVPEAISQLSLYLDPSKEVAFGTPIYRKVGIMKVDDLDVTDDQIHFVINSVGVVEIMKTITDSKLEMTRQQSKFTQRNPIIDADDNVDEDGMVV 3j5v-a1-m7-ca_3j5v-a1-m9-ca PhuZ201 filament B3FK34 B3FK34 7.1 ELECTRON MICROSCOPY 18 1.0 198110 (Pseudomonas phage 201phi2-1) 198110 (Pseudomonas phage 201phi2-1) 311 311 3j5v-a1-m1-ca_3j5v-a1-m3-ca 3j5v-a1-m2-ca_3j5v-a1-m4-ca 3j5v-a1-m4-ca_3j5v-a1-m6-ca 3j5v-a1-m6-ca_3j5v-a1-m8-ca PVKVCLIFAGGTGMNVATKLVDLGEAVHCFDTCDKNVVDVHRSVNVTLTKGTRGNRKVILPLVRPQIPALMDTIPEADFYIVCYSLGGGSGSVLGPLITGQLADRKASFVSFVVGAMESTDNLGNDIDTMKTLEAIAVNKHLPIVVNYVPNTQGRSYESINDEIAEKIRKVVLLVNQNHGRLDVHDVANWVRFTDKHNYLIPQVCELHIETTRKDAENVPEAISQLSLYLDPSKEVAFGTPIYRKVGIMKVDDLDVTDDQIHFVINSVGVVEIMKTITDSKLEMTRQQSKFTQRNPIIDADDNVDEDGMVV PVKVCLIFAGGTGMNVATKLVDLGEAVHCFDTCDKNVVDVHRSVNVTLTKGTRGNRKVILPLVRPQIPALMDTIPEADFYIVCYSLGGGSGSVLGPLITGQLADRKASFVSFVVGAMESTDNLGNDIDTMKTLEAIAVNKHLPIVVNYVPNTQGRSYESINDEIAEKIRKVVLLVNQNHGRLDVHDVANWVRFTDKHNYLIPQVCELHIETTRKDAENVPEAISQLSLYLDPSKEVAFGTPIYRKVGIMKVDDLDVTDDQIHFVINSVGVVEIMKTITDSKLEMTRQQSKFTQRNPIIDADDNVDEDGMVV 3j63-a1-m1-cC_3j63-a1-m1-cO Unified assembly mechanism of ASC-dependent inflammasomes Q9ULZ3 Q9ULZ3 3.8 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 3j63-a1-m1-cA_3j63-a1-m1-cM 3j63-a1-m1-cB_3j63-a1-m1-cN 3j63-a1-m1-cC_3j63-a1-m1-cF 3j63-a1-m1-cD_3j63-a1-m1-cG 3j63-a1-m1-cE_3j63-a1-m1-cH 3j63-a1-m1-cH_3j63-a1-m1-cK 3j63-a1-m1-cI_3j63-a1-m1-cL 3j63-a1-m1-cJ_3j63-a1-m1-cM MGRARDAILDALENLTAEELKKFKLKLLSVPLREGYGRIPRGALLSMDALDLTDKLVSFYLETYGAELTANVLRDMGLQEMAGQLQAATHQ MGRARDAILDALENLTAEELKKFKLKLLSVPLREGYGRIPRGALLSMDALDLTDKLVSFYLETYGAELTANVLRDMGLQEMAGQLQAATHQ 3j63-a1-m1-cD_3j63-a1-m1-cO Unified assembly mechanism of ASC-dependent inflammasomes Q9ULZ3 Q9ULZ3 3.8 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 3j63-a1-m1-cA_3j63-a1-m1-cL 3j63-a1-m1-cB_3j63-a1-m1-cF 3j63-a1-m1-cB_3j63-a1-m1-cM 3j63-a1-m1-cC_3j63-a1-m1-cG 3j63-a1-m1-cC_3j63-a1-m1-cN 3j63-a1-m1-cD_3j63-a1-m1-cH 3j63-a1-m1-cE_3j63-a1-m1-cI 3j63-a1-m1-cG_3j63-a1-m1-cK 3j63-a1-m1-cH_3j63-a1-m1-cL 3j63-a1-m1-cI_3j63-a1-m1-cM 3j63-a1-m1-cJ_3j63-a1-m1-cN MGRARDAILDALENLTAEELKKFKLKLLSVPLREGYGRIPRGALLSMDALDLTDKLVSFYLETYGAELTANVLRDMGLQEMAGQLQAATHQ MGRARDAILDALENLTAEELKKFKLKLLSVPLREGYGRIPRGALLSMDALDLTDKLVSFYLETYGAELTANVLRDMGLQEMAGQLQAATHQ 3j63-a1-m1-cN_3j63-a1-m1-cO Unified assembly mechanism of ASC-dependent inflammasomes Q9ULZ3 Q9ULZ3 3.8 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 3j63-a1-m1-cA_3j63-a1-m1-cB 3j63-a1-m1-cB_3j63-a1-m1-cC 3j63-a1-m1-cC_3j63-a1-m1-cD 3j63-a1-m1-cD_3j63-a1-m1-cE 3j63-a1-m1-cF_3j63-a1-m1-cG 3j63-a1-m1-cG_3j63-a1-m1-cH 3j63-a1-m1-cH_3j63-a1-m1-cI 3j63-a1-m1-cI_3j63-a1-m1-cJ 3j63-a1-m1-cK_3j63-a1-m1-cL 3j63-a1-m1-cL_3j63-a1-m1-cM 3j63-a1-m1-cM_3j63-a1-m1-cN MGRARDAILDALENLTAEELKKFKLKLLSVPLREGYGRIPRGALLSMDALDLTDKLVSFYLETYGAELTANVLRDMGLQEMAGQLQAATHQ MGRARDAILDALENLTAEELKKFKLKLLSVPLREGYGRIPRGALLSMDALDLTDKLVSFYLETYGAELTANVLRDMGLQEMAGQLQAATHQ 3j6d-a1-m1-cu_3j6d-a1-m1-cv Model of the PrgH-PrgK periplasmic rings P41786 P41786 11.7 ELECTRON MICROSCOPY 70 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 148 148 3j6d-a1-m1-ca_3j6d-a1-m1-cb 3j6d-a1-m1-cb_3j6d-a1-m1-cc 3j6d-a1-m1-cc_3j6d-a1-m1-cd 3j6d-a1-m1-cd_3j6d-a1-m1-ce 3j6d-a1-m1-ce_3j6d-a1-m1-cf 3j6d-a1-m1-cf_3j6d-a1-m1-cg 3j6d-a1-m1-cg_3j6d-a1-m1-ch 3j6d-a1-m1-ch_3j6d-a1-m1-ci 3j6d-a1-m1-ci_3j6d-a1-m1-cj 3j6d-a1-m1-cj_3j6d-a1-m1-ck 3j6d-a1-m1-ck_3j6d-a1-m1-cl 3j6d-a1-m1-cl_3j6d-a1-m1-cm 3j6d-a1-m1-cm_3j6d-a1-m1-cn 3j6d-a1-m1-cn_3j6d-a1-m1-co 3j6d-a1-m1-co_3j6d-a1-m1-cp 3j6d-a1-m1-cp_3j6d-a1-m1-cq 3j6d-a1-m1-cq_3j6d-a1-m1-cr 3j6d-a1-m1-cr_3j6d-a1-m1-cs 3j6d-a1-m1-cs_3j6d-a1-m1-ct 3j6d-a1-m1-ct_3j6d-a1-m1-cu 3j6d-a1-m1-cY_3j6d-a1-m1-cv 3j6d-a1-m1-cY_3j6d-a1-m1-cZ 3j6d-a1-m1-cZ_3j6d-a1-m1-ca KDKDLLKGLDQEQANEVIAVLQMHNIEANKIDSGKLGYSITVAEPDFTAAVYWIKTYQSSPRAEKARLYSAIEQRLEQSLQTMEGVLSARVHISYDENGRPPKPVHLSALAVYERGSPLAHQISDIKRFLKNSFADVDYDNISVVLSE KDKDLLKGLDQEQANEVIAVLQMHNIEANKIDSGKLGYSITVAEPDFTAAVYWIKTYQSSPRAEKARLYSAIEQRLEQSLQTMEGVLSARVHISYDENGRPPKPVHLSALAVYERGSPLAHQISDIKRFLKNSFADVDYDNISVVLSE 3j6t-a1-m55-cA_3j6t-a1-m9-cC Cryo-EM structure of Dengue virus serotype 3 at 37 degrees C A9LID6 A9LID6 7.0 ELECTRON MICROSCOPY 28 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 493 493 3j6s-a1-m10-cA_3j6s-a1-m10-cE 3j6s-a1-m10-cA_3j6s-a1-m24-cC 3j6s-a1-m10-cC_3j6s-a1-m24-cA 3j6s-a1-m11-cA_3j6s-a1-m11-cE 3j6s-a1-m11-cA_3j6s-a1-m16-cC 3j6s-a1-m11-cC_3j6s-a1-m16-cA 3j6s-a1-m12-cA_3j6s-a1-m12-cE 3j6s-a1-m12-cA_3j6s-a1-m38-cC 3j6s-a1-m12-cC_3j6s-a1-m38-cA 3j6s-a1-m13-cA_3j6s-a1-m13-cE 3j6s-a1-m13-cA_3j6s-a1-m47-cC 3j6s-a1-m13-cC_3j6s-a1-m47-cA 3j6s-a1-m14-cA_3j6s-a1-m14-cE 3j6s-a1-m14-cA_3j6s-a1-m45-cC 3j6s-a1-m14-cC_3j6s-a1-m45-cA 3j6s-a1-m15-cA_3j6s-a1-m15-cE 3j6s-a1-m15-cA_3j6s-a1-m29-cC 3j6s-a1-m15-cC_3j6s-a1-m29-cA 3j6s-a1-m16-cA_3j6s-a1-m16-cE 3j6s-a1-m17-cA_3j6s-a1-m17-cE 3j6s-a1-m17-cA_3j6s-a1-m28-cC 3j6s-a1-m17-cC_3j6s-a1-m28-cA 3j6s-a1-m18-cA_3j6s-a1-m18-cE 3j6s-a1-m18-cA_3j6s-a1-m52-cC 3j6s-a1-m18-cC_3j6s-a1-m52-cA 3j6s-a1-m19-cA_3j6s-a1-m19-cE 3j6s-a1-m19-cA_3j6s-a1-m60-cC 3j6s-a1-m19-cC_3j6s-a1-m60-cA 3j6s-a1-m1-cA_3j6s-a1-m1-cE 3j6s-a1-m1-cA_3j6s-a1-m6-cC 3j6s-a1-m1-cC_3j6s-a1-m6-cA 3j6s-a1-m20-cA_3j6s-a1-m20-cE 3j6s-a1-m20-cA_3j6s-a1-m39-cC 3j6s-a1-m20-cC_3j6s-a1-m39-cA 3j6s-a1-m21-cA_3j6s-a1-m21-cE 3j6s-a1-m21-cA_3j6s-a1-m26-cC 3j6s-a1-m21-cC_3j6s-a1-m26-cA 3j6s-a1-m22-cA_3j6s-a1-m22-cE 3j6s-a1-m22-cA_3j6s-a1-m43-cC 3j6s-a1-m22-cC_3j6s-a1-m43-cA 3j6s-a1-m23-cA_3j6s-a1-m23-cE 3j6s-a1-m24-cA_3j6s-a1-m24-cE 3j6s-a1-m25-cA_3j6s-a1-m25-cE 3j6s-a1-m25-cA_3j6s-a1-m54-cC 3j6s-a1-m25-cC_3j6s-a1-m54-cA 3j6s-a1-m26-cA_3j6s-a1-m26-cE 3j6s-a1-m27-cA_3j6s-a1-m27-cE 3j6s-a1-m27-cA_3j6s-a1-m53-cC 3j6s-a1-m27-cC_3j6s-a1-m53-cA 3j6s-a1-m28-cA_3j6s-a1-m28-cE 3j6s-a1-m29-cA_3j6s-a1-m29-cE 3j6s-a1-m2-cA_3j6s-a1-m23-cC 3j6s-a1-m2-cA_3j6s-a1-m2-cE 3j6s-a1-m2-cC_3j6s-a1-m23-cA 3j6s-a1-m30-cA_3j6s-a1-m30-cE 3j6s-a1-m30-cA_3j6s-a1-m44-cC 3j6s-a1-m30-cC_3j6s-a1-m44-cA 3j6s-a1-m31-cA_3j6s-a1-m31-cE 3j6s-a1-m31-cA_3j6s-a1-m36-cC 3j6s-a1-m31-cC_3j6s-a1-m36-cA 3j6s-a1-m32-cA_3j6s-a1-m32-cE 3j6s-a1-m32-cA_3j6s-a1-m58-cC 3j6s-a1-m32-cC_3j6s-a1-m58-cA 3j6s-a1-m33-cA_3j6s-a1-m33-cE 3j6s-a1-m33-cA_3j6s-a1-m7-cC 3j6s-a1-m33-cC_3j6s-a1-m7-cA 3j6s-a1-m34-cA_3j6s-a1-m34-cE 3j6s-a1-m34-cA_3j6s-a1-m5-cC 3j6s-a1-m34-cC_3j6s-a1-m5-cA 3j6s-a1-m35-cA_3j6s-a1-m35-cE 3j6s-a1-m35-cA_3j6s-a1-m49-cC 3j6s-a1-m35-cC_3j6s-a1-m49-cA 3j6s-a1-m36-cA_3j6s-a1-m36-cE 3j6s-a1-m37-cA_3j6s-a1-m37-cE 3j6s-a1-m37-cA_3j6s-a1-m48-cC 3j6s-a1-m37-cC_3j6s-a1-m48-cA 3j6s-a1-m38-cA_3j6s-a1-m38-cE 3j6s-a1-m39-cA_3j6s-a1-m39-cE 3j6s-a1-m3-cA_3j6s-a1-m3-cE 3j6s-a1-m3-cA_3j6s-a1-m42-cC 3j6s-a1-m3-cC_3j6s-a1-m42-cA 3j6s-a1-m40-cA_3j6s-a1-m40-cE 3j6s-a1-m40-cA_3j6s-a1-m59-cC 3j6s-a1-m40-cC_3j6s-a1-m59-cA 3j6s-a1-m41-cA_3j6s-a1-m41-cE 3j6s-a1-m41-cA_3j6s-a1-m46-cC 3j6s-a1-m41-cC_3j6s-a1-m46-cA 3j6s-a1-m42-cA_3j6s-a1-m42-cE 3j6s-a1-m43-cA_3j6s-a1-m43-cE 3j6s-a1-m44-cA_3j6s-a1-m44-cE 3j6s-a1-m45-cA_3j6s-a1-m45-cE 3j6s-a1-m46-cA_3j6s-a1-m46-cE 3j6s-a1-m47-cA_3j6s-a1-m47-cE 3j6s-a1-m48-cA_3j6s-a1-m48-cE 3j6s-a1-m49-cA_3j6s-a1-m49-cE 3j6s-a1-m4-cA_3j6s-a1-m4-cE 3j6s-a1-m4-cA_3j6s-a1-m50-cC 3j6s-a1-m4-cC_3j6s-a1-m50-cA 3j6s-a1-m50-cA_3j6s-a1-m50-cE 3j6s-a1-m51-cA_3j6s-a1-m51-cE 3j6s-a1-m51-cA_3j6s-a1-m56-cC 3j6s-a1-m51-cC_3j6s-a1-m56-cA 3j6s-a1-m52-cA_3j6s-a1-m52-cE 3j6s-a1-m53-cA_3j6s-a1-m53-cE 3j6s-a1-m54-cA_3j6s-a1-m54-cE 3j6s-a1-m55-cA_3j6s-a1-m55-cE 3j6s-a1-m55-cA_3j6s-a1-m9-cC 3j6s-a1-m55-cC_3j6s-a1-m9-cA 3j6s-a1-m56-cA_3j6s-a1-m56-cE 3j6s-a1-m57-cA_3j6s-a1-m57-cE 3j6s-a1-m57-cA_3j6s-a1-m8-cC 3j6s-a1-m57-cC_3j6s-a1-m8-cA 3j6s-a1-m58-cA_3j6s-a1-m58-cE 3j6s-a1-m59-cA_3j6s-a1-m59-cE 3j6s-a1-m5-cA_3j6s-a1-m5-cE 3j6s-a1-m60-cA_3j6s-a1-m60-cE 3j6s-a1-m6-cA_3j6s-a1-m6-cE 3j6s-a1-m7-cA_3j6s-a1-m7-cE 3j6s-a1-m8-cA_3j6s-a1-m8-cE 3j6s-a1-m9-cA_3j6s-a1-m9-cE 3j6t-a1-m10-cA_3j6t-a1-m10-cE 3j6t-a1-m10-cA_3j6t-a1-m24-cC 3j6t-a1-m10-cC_3j6t-a1-m24-cA 3j6t-a1-m11-cA_3j6t-a1-m11-cE 3j6t-a1-m11-cA_3j6t-a1-m16-cC 3j6t-a1-m11-cC_3j6t-a1-m16-cA 3j6t-a1-m12-cA_3j6t-a1-m12-cE 3j6t-a1-m12-cA_3j6t-a1-m38-cC 3j6t-a1-m12-cC_3j6t-a1-m38-cA 3j6t-a1-m13-cA_3j6t-a1-m13-cE 3j6t-a1-m13-cA_3j6t-a1-m47-cC 3j6t-a1-m13-cC_3j6t-a1-m47-cA 3j6t-a1-m14-cA_3j6t-a1-m14-cE 3j6t-a1-m14-cA_3j6t-a1-m45-cC 3j6t-a1-m14-cC_3j6t-a1-m45-cA 3j6t-a1-m15-cA_3j6t-a1-m15-cE 3j6t-a1-m15-cA_3j6t-a1-m29-cC 3j6t-a1-m15-cC_3j6t-a1-m29-cA 3j6t-a1-m16-cA_3j6t-a1-m16-cE 3j6t-a1-m17-cA_3j6t-a1-m17-cE 3j6t-a1-m17-cA_3j6t-a1-m28-cC 3j6t-a1-m17-cC_3j6t-a1-m28-cA 3j6t-a1-m18-cA_3j6t-a1-m18-cE 3j6t-a1-m18-cA_3j6t-a1-m52-cC 3j6t-a1-m18-cC_3j6t-a1-m52-cA 3j6t-a1-m19-cA_3j6t-a1-m19-cE 3j6t-a1-m19-cA_3j6t-a1-m60-cC 3j6t-a1-m19-cC_3j6t-a1-m60-cA 3j6t-a1-m1-cA_3j6t-a1-m1-cE 3j6t-a1-m1-cA_3j6t-a1-m6-cC 3j6t-a1-m1-cC_3j6t-a1-m6-cA 3j6t-a1-m20-cA_3j6t-a1-m20-cE 3j6t-a1-m20-cA_3j6t-a1-m39-cC 3j6t-a1-m20-cC_3j6t-a1-m39-cA 3j6t-a1-m21-cA_3j6t-a1-m21-cE 3j6t-a1-m21-cA_3j6t-a1-m26-cC 3j6t-a1-m21-cC_3j6t-a1-m26-cA 3j6t-a1-m22-cA_3j6t-a1-m22-cE 3j6t-a1-m22-cA_3j6t-a1-m43-cC 3j6t-a1-m22-cC_3j6t-a1-m43-cA 3j6t-a1-m23-cA_3j6t-a1-m23-cE 3j6t-a1-m24-cA_3j6t-a1-m24-cE 3j6t-a1-m25-cA_3j6t-a1-m25-cE 3j6t-a1-m25-cA_3j6t-a1-m54-cC 3j6t-a1-m25-cC_3j6t-a1-m54-cA 3j6t-a1-m26-cA_3j6t-a1-m26-cE 3j6t-a1-m27-cA_3j6t-a1-m27-cE 3j6t-a1-m27-cA_3j6t-a1-m53-cC 3j6t-a1-m27-cC_3j6t-a1-m53-cA 3j6t-a1-m28-cA_3j6t-a1-m28-cE 3j6t-a1-m29-cA_3j6t-a1-m29-cE 3j6t-a1-m2-cA_3j6t-a1-m23-cC 3j6t-a1-m2-cA_3j6t-a1-m2-cE 3j6t-a1-m2-cC_3j6t-a1-m23-cA 3j6t-a1-m30-cA_3j6t-a1-m30-cE 3j6t-a1-m30-cA_3j6t-a1-m44-cC 3j6t-a1-m30-cC_3j6t-a1-m44-cA 3j6t-a1-m31-cA_3j6t-a1-m31-cE 3j6t-a1-m31-cA_3j6t-a1-m36-cC 3j6t-a1-m31-cC_3j6t-a1-m36-cA 3j6t-a1-m32-cA_3j6t-a1-m32-cE 3j6t-a1-m32-cA_3j6t-a1-m58-cC 3j6t-a1-m32-cC_3j6t-a1-m58-cA 3j6t-a1-m33-cA_3j6t-a1-m33-cE 3j6t-a1-m33-cA_3j6t-a1-m7-cC 3j6t-a1-m33-cC_3j6t-a1-m7-cA 3j6t-a1-m34-cA_3j6t-a1-m34-cE 3j6t-a1-m34-cA_3j6t-a1-m5-cC 3j6t-a1-m34-cC_3j6t-a1-m5-cA 3j6t-a1-m35-cA_3j6t-a1-m35-cE 3j6t-a1-m35-cA_3j6t-a1-m49-cC 3j6t-a1-m35-cC_3j6t-a1-m49-cA 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3j6t-a1-m8-cC_3j6t-a1-m9-cC Cryo-EM structure of Dengue virus serotype 3 at 37 degrees C A9LID6 A9LID6 7.0 ELECTRON MICROSCOPY 40 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 493 493 3j6s-a1-m10-cC_3j6s-a1-m6-cC 3j6s-a1-m10-cC_3j6s-a1-m9-cC 3j6s-a1-m11-cC_3j6s-a1-m12-cC 3j6s-a1-m11-cC_3j6s-a1-m15-cC 3j6s-a1-m12-cC_3j6s-a1-m13-cC 3j6s-a1-m13-cC_3j6s-a1-m14-cC 3j6s-a1-m14-cC_3j6s-a1-m15-cC 3j6s-a1-m16-cC_3j6s-a1-m17-cC 3j6s-a1-m16-cC_3j6s-a1-m20-cC 3j6s-a1-m17-cC_3j6s-a1-m18-cC 3j6s-a1-m18-cC_3j6s-a1-m19-cC 3j6s-a1-m19-cC_3j6s-a1-m20-cC 3j6s-a1-m1-cC_3j6s-a1-m2-cC 3j6s-a1-m1-cC_3j6s-a1-m5-cC 3j6s-a1-m21-cC_3j6s-a1-m22-cC 3j6s-a1-m21-cC_3j6s-a1-m25-cC 3j6s-a1-m22-cC_3j6s-a1-m23-cC 3j6s-a1-m23-cC_3j6s-a1-m24-cC 3j6s-a1-m24-cC_3j6s-a1-m25-cC 3j6s-a1-m26-cC_3j6s-a1-m27-cC 3j6s-a1-m26-cC_3j6s-a1-m30-cC 3j6s-a1-m27-cC_3j6s-a1-m28-cC 3j6s-a1-m28-cC_3j6s-a1-m29-cC 3j6s-a1-m29-cC_3j6s-a1-m30-cC 3j6s-a1-m2-cC_3j6s-a1-m3-cC 3j6s-a1-m31-cC_3j6s-a1-m32-cC 3j6s-a1-m31-cC_3j6s-a1-m35-cC 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3j6t-a1-m10-cC_3j6t-a1-m6-cC 3j6t-a1-m10-cC_3j6t-a1-m9-cC 3j6t-a1-m11-cC_3j6t-a1-m12-cC 3j6t-a1-m11-cC_3j6t-a1-m15-cC 3j6t-a1-m12-cC_3j6t-a1-m13-cC 3j6t-a1-m13-cC_3j6t-a1-m14-cC 3j6t-a1-m14-cC_3j6t-a1-m15-cC 3j6t-a1-m16-cC_3j6t-a1-m17-cC 3j6t-a1-m16-cC_3j6t-a1-m20-cC 3j6t-a1-m17-cC_3j6t-a1-m18-cC 3j6t-a1-m18-cC_3j6t-a1-m19-cC 3j6t-a1-m19-cC_3j6t-a1-m20-cC 3j6t-a1-m1-cC_3j6t-a1-m2-cC 3j6t-a1-m1-cC_3j6t-a1-m5-cC 3j6t-a1-m21-cC_3j6t-a1-m22-cC 3j6t-a1-m21-cC_3j6t-a1-m25-cC 3j6t-a1-m22-cC_3j6t-a1-m23-cC 3j6t-a1-m23-cC_3j6t-a1-m24-cC 3j6t-a1-m24-cC_3j6t-a1-m25-cC 3j6t-a1-m26-cC_3j6t-a1-m27-cC 3j6t-a1-m26-cC_3j6t-a1-m30-cC 3j6t-a1-m27-cC_3j6t-a1-m28-cC 3j6t-a1-m28-cC_3j6t-a1-m29-cC 3j6t-a1-m29-cC_3j6t-a1-m30-cC 3j6t-a1-m2-cC_3j6t-a1-m3-cC 3j6t-a1-m31-cC_3j6t-a1-m32-cC 3j6t-a1-m31-cC_3j6t-a1-m35-cC 3j6t-a1-m32-cC_3j6t-a1-m33-cC 3j6t-a1-m33-cC_3j6t-a1-m34-cC 3j6t-a1-m34-cC_3j6t-a1-m35-cC 3j6t-a1-m36-cC_3j6t-a1-m37-cC 3j6t-a1-m36-cC_3j6t-a1-m40-cC 3j6t-a1-m37-cC_3j6t-a1-m38-cC 3j6t-a1-m38-cC_3j6t-a1-m39-cC 3j6t-a1-m39-cC_3j6t-a1-m40-cC 3j6t-a1-m3-cC_3j6t-a1-m4-cC 3j6t-a1-m41-cC_3j6t-a1-m42-cC 3j6t-a1-m41-cC_3j6t-a1-m45-cC 3j6t-a1-m42-cC_3j6t-a1-m43-cC 3j6t-a1-m43-cC_3j6t-a1-m44-cC 3j6t-a1-m44-cC_3j6t-a1-m45-cC 3j6t-a1-m46-cC_3j6t-a1-m47-cC 3j6t-a1-m46-cC_3j6t-a1-m50-cC 3j6t-a1-m47-cC_3j6t-a1-m48-cC 3j6t-a1-m48-cC_3j6t-a1-m49-cC 3j6t-a1-m49-cC_3j6t-a1-m50-cC 3j6t-a1-m4-cC_3j6t-a1-m5-cC 3j6t-a1-m51-cC_3j6t-a1-m52-cC 3j6t-a1-m51-cC_3j6t-a1-m55-cC 3j6t-a1-m52-cC_3j6t-a1-m53-cC 3j6t-a1-m53-cC_3j6t-a1-m54-cC 3j6t-a1-m54-cC_3j6t-a1-m55-cC 3j6t-a1-m56-cC_3j6t-a1-m57-cC 3j6t-a1-m56-cC_3j6t-a1-m60-cC 3j6t-a1-m57-cC_3j6t-a1-m58-cC 3j6t-a1-m58-cC_3j6t-a1-m59-cC 3j6t-a1-m59-cC_3j6t-a1-m60-cC 3j6t-a1-m6-cC_3j6t-a1-m7-cC 3j6t-a1-m7-cC_3j6t-a1-m8-cC 3j6u-a1-m10-cC_3j6u-a1-m6-cC 3j6u-a1-m10-cC_3j6u-a1-m9-cC 3j6u-a1-m11-cC_3j6u-a1-m12-cC 3j6u-a1-m11-cC_3j6u-a1-m15-cC 3j6u-a1-m12-cC_3j6u-a1-m13-cC 3j6u-a1-m13-cC_3j6u-a1-m14-cC 3j6u-a1-m14-cC_3j6u-a1-m15-cC 3j6u-a1-m16-cC_3j6u-a1-m17-cC 3j6u-a1-m16-cC_3j6u-a1-m20-cC 3j6u-a1-m17-cC_3j6u-a1-m18-cC 3j6u-a1-m18-cC_3j6u-a1-m19-cC 3j6u-a1-m19-cC_3j6u-a1-m20-cC 3j6u-a1-m1-cC_3j6u-a1-m2-cC 3j6u-a1-m1-cC_3j6u-a1-m5-cC 3j6u-a1-m21-cC_3j6u-a1-m22-cC 3j6u-a1-m21-cC_3j6u-a1-m25-cC 3j6u-a1-m22-cC_3j6u-a1-m23-cC 3j6u-a1-m23-cC_3j6u-a1-m24-cC 3j6u-a1-m24-cC_3j6u-a1-m25-cC 3j6u-a1-m26-cC_3j6u-a1-m27-cC 3j6u-a1-m26-cC_3j6u-a1-m30-cC 3j6u-a1-m27-cC_3j6u-a1-m28-cC 3j6u-a1-m28-cC_3j6u-a1-m29-cC 3j6u-a1-m29-cC_3j6u-a1-m30-cC 3j6u-a1-m2-cC_3j6u-a1-m3-cC 3j6u-a1-m31-cC_3j6u-a1-m32-cC 3j6u-a1-m31-cC_3j6u-a1-m35-cC 3j6u-a1-m32-cC_3j6u-a1-m33-cC 3j6u-a1-m33-cC_3j6u-a1-m34-cC 3j6u-a1-m34-cC_3j6u-a1-m35-cC 3j6u-a1-m36-cC_3j6u-a1-m37-cC 3j6u-a1-m36-cC_3j6u-a1-m40-cC 3j6u-a1-m37-cC_3j6u-a1-m38-cC 3j6u-a1-m38-cC_3j6u-a1-m39-cC 3j6u-a1-m39-cC_3j6u-a1-m40-cC 3j6u-a1-m3-cC_3j6u-a1-m4-cC 3j6u-a1-m41-cC_3j6u-a1-m42-cC 3j6u-a1-m41-cC_3j6u-a1-m45-cC 3j6u-a1-m42-cC_3j6u-a1-m43-cC 3j6u-a1-m43-cC_3j6u-a1-m44-cC 3j6u-a1-m44-cC_3j6u-a1-m45-cC 3j6u-a1-m46-cC_3j6u-a1-m47-cC 3j6u-a1-m46-cC_3j6u-a1-m50-cC 3j6u-a1-m47-cC_3j6u-a1-m48-cC 3j6u-a1-m48-cC_3j6u-a1-m49-cC 3j6u-a1-m49-cC_3j6u-a1-m50-cC 3j6u-a1-m4-cC_3j6u-a1-m5-cC 3j6u-a1-m51-cC_3j6u-a1-m52-cC 3j6u-a1-m51-cC_3j6u-a1-m55-cC 3j6u-a1-m52-cC_3j6u-a1-m53-cC 3j6u-a1-m53-cC_3j6u-a1-m54-cC 3j6u-a1-m54-cC_3j6u-a1-m55-cC 3j6u-a1-m56-cC_3j6u-a1-m57-cC 3j6u-a1-m56-cC_3j6u-a1-m60-cC 3j6u-a1-m57-cC_3j6u-a1-m58-cC 3j6u-a1-m58-cC_3j6u-a1-m59-cC 3j6u-a1-m59-cC_3j6u-a1-m60-cC 3j6u-a1-m6-cC_3j6u-a1-m7-cC 3j6u-a1-m7-cC_3j6u-a1-m8-cC 3j6u-a1-m8-cC_3j6u-a1-m9-cC 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3j6u-a1-m24-cA_3j6u-a1-m9-cE Cryo-EM structure of Dengue virus serotype 3 in complex with human antibody 5J7 Fab A9LID6 A9LID6 9.0 ELECTRON MICROSCOPY 41 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 493 493 3j6s-a1-m10-cA_3j6s-a1-m23-cE 3j6s-a1-m11-cA_3j6s-a1-m20-cE 3j6s-a1-m11-cE_3j6s-a1-m38-cA 3j6s-a1-m12-cA_3j6s-a1-m37-cE 3j6s-a1-m12-cE_3j6s-a1-m47-cA 3j6s-a1-m13-cA_3j6s-a1-m46-cE 3j6s-a1-m13-cE_3j6s-a1-m45-cA 3j6s-a1-m14-cA_3j6s-a1-m44-cE 3j6s-a1-m14-cE_3j6s-a1-m29-cA 3j6s-a1-m15-cA_3j6s-a1-m28-cE 3j6s-a1-m15-cE_3j6s-a1-m16-cA 3j6s-a1-m16-cE_3j6s-a1-m28-cA 3j6s-a1-m17-cA_3j6s-a1-m27-cE 3j6s-a1-m17-cE_3j6s-a1-m52-cA 3j6s-a1-m18-cA_3j6s-a1-m51-cE 3j6s-a1-m18-cE_3j6s-a1-m60-cA 3j6s-a1-m19-cA_3j6s-a1-m59-cE 3j6s-a1-m19-cE_3j6s-a1-m39-cA 3j6s-a1-m1-cA_3j6s-a1-m10-cE 3j6s-a1-m1-cE_3j6s-a1-m23-cA 3j6s-a1-m20-cA_3j6s-a1-m38-cE 3j6s-a1-m21-cA_3j6s-a1-m30-cE 3j6s-a1-m21-cE_3j6s-a1-m43-cA 3j6s-a1-m22-cA_3j6s-a1-m42-cE 3j6s-a1-m24-cA_3j6s-a1-m9-cE 3j6s-a1-m24-cE_3j6s-a1-m54-cA 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3j6t-a1-m3-cA_3j6t-a1-m3-cC 3j6t-a1-m40-cA_3j6t-a1-m40-cC 3j6t-a1-m41-cA_3j6t-a1-m41-cC 3j6t-a1-m42-cA_3j6t-a1-m42-cC 3j6t-a1-m43-cA_3j6t-a1-m43-cC 3j6t-a1-m44-cA_3j6t-a1-m44-cC 3j6t-a1-m45-cA_3j6t-a1-m45-cC 3j6t-a1-m46-cA_3j6t-a1-m46-cC 3j6t-a1-m47-cA_3j6t-a1-m47-cC 3j6t-a1-m48-cA_3j6t-a1-m48-cC 3j6t-a1-m49-cA_3j6t-a1-m49-cC 3j6t-a1-m4-cA_3j6t-a1-m4-cC 3j6t-a1-m50-cA_3j6t-a1-m50-cC 3j6t-a1-m51-cA_3j6t-a1-m51-cC 3j6t-a1-m52-cA_3j6t-a1-m52-cC 3j6t-a1-m53-cA_3j6t-a1-m53-cC 3j6t-a1-m54-cA_3j6t-a1-m54-cC 3j6t-a1-m55-cA_3j6t-a1-m55-cC 3j6t-a1-m56-cA_3j6t-a1-m56-cC 3j6t-a1-m57-cA_3j6t-a1-m57-cC 3j6t-a1-m58-cA_3j6t-a1-m58-cC 3j6t-a1-m59-cA_3j6t-a1-m59-cC 3j6t-a1-m5-cA_3j6t-a1-m5-cC 3j6t-a1-m60-cA_3j6t-a1-m60-cC 3j6t-a1-m6-cA_3j6t-a1-m6-cC 3j6t-a1-m7-cA_3j6t-a1-m7-cC 3j6t-a1-m8-cA_3j6t-a1-m8-cC 3j6t-a1-m9-cA_3j6t-a1-m9-cC 3j6u-a1-m10-cA_3j6u-a1-m10-cC 3j6u-a1-m11-cA_3j6u-a1-m11-cC 3j6u-a1-m12-cA_3j6u-a1-m12-cC 3j6u-a1-m13-cA_3j6u-a1-m13-cC 3j6u-a1-m14-cA_3j6u-a1-m14-cC 3j6u-a1-m15-cA_3j6u-a1-m15-cC 3j6u-a1-m16-cA_3j6u-a1-m16-cC 3j6u-a1-m17-cA_3j6u-a1-m17-cC 3j6u-a1-m18-cA_3j6u-a1-m18-cC 3j6u-a1-m19-cA_3j6u-a1-m19-cC 3j6u-a1-m1-cA_3j6u-a1-m1-cC 3j6u-a1-m20-cA_3j6u-a1-m20-cC 3j6u-a1-m21-cA_3j6u-a1-m21-cC 3j6u-a1-m22-cA_3j6u-a1-m22-cC 3j6u-a1-m23-cA_3j6u-a1-m23-cC 3j6u-a1-m24-cA_3j6u-a1-m24-cC 3j6u-a1-m25-cA_3j6u-a1-m25-cC 3j6u-a1-m26-cA_3j6u-a1-m26-cC 3j6u-a1-m27-cA_3j6u-a1-m27-cC 3j6u-a1-m28-cA_3j6u-a1-m28-cC 3j6u-a1-m29-cA_3j6u-a1-m29-cC 3j6u-a1-m2-cA_3j6u-a1-m2-cC 3j6u-a1-m30-cA_3j6u-a1-m30-cC 3j6u-a1-m31-cA_3j6u-a1-m31-cC 3j6u-a1-m32-cA_3j6u-a1-m32-cC 3j6u-a1-m33-cA_3j6u-a1-m33-cC 3j6u-a1-m34-cA_3j6u-a1-m34-cC 3j6u-a1-m35-cA_3j6u-a1-m35-cC 3j6u-a1-m36-cA_3j6u-a1-m36-cC 3j6u-a1-m37-cA_3j6u-a1-m37-cC 3j6u-a1-m38-cA_3j6u-a1-m38-cC 3j6u-a1-m39-cA_3j6u-a1-m39-cC 3j6u-a1-m3-cA_3j6u-a1-m3-cC 3j6u-a1-m40-cA_3j6u-a1-m40-cC 3j6u-a1-m41-cA_3j6u-a1-m41-cC 3j6u-a1-m42-cA_3j6u-a1-m42-cC 3j6u-a1-m43-cA_3j6u-a1-m43-cC 3j6u-a1-m44-cA_3j6u-a1-m44-cC 3j6u-a1-m45-cA_3j6u-a1-m45-cC 3j6u-a1-m46-cA_3j6u-a1-m46-cC 3j6u-a1-m47-cA_3j6u-a1-m47-cC 3j6u-a1-m48-cA_3j6u-a1-m48-cC 3j6u-a1-m49-cA_3j6u-a1-m49-cC 3j6u-a1-m4-cA_3j6u-a1-m4-cC 3j6u-a1-m50-cA_3j6u-a1-m50-cC 3j6u-a1-m51-cA_3j6u-a1-m51-cC 3j6u-a1-m52-cA_3j6u-a1-m52-cC 3j6u-a1-m53-cA_3j6u-a1-m53-cC 3j6u-a1-m54-cA_3j6u-a1-m54-cC 3j6u-a1-m55-cA_3j6u-a1-m55-cC 3j6u-a1-m56-cA_3j6u-a1-m56-cC 3j6u-a1-m57-cA_3j6u-a1-m57-cC 3j6u-a1-m58-cA_3j6u-a1-m58-cC 3j6u-a1-m59-cA_3j6u-a1-m59-cC 3j6u-a1-m5-cA_3j6u-a1-m5-cC 3j6u-a1-m60-cA_3j6u-a1-m60-cC 3j6u-a1-m6-cA_3j6u-a1-m6-cC 3j6u-a1-m7-cA_3j6u-a1-m7-cC 3j6u-a1-m8-cA_3j6u-a1-m8-cC MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGSAYTALFSGVSWVMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGAVVQA MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGSAYTALFSGVSWVMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGAVVQA 3j7t-a1-m1-cA_3j7t-a1-m2-cA Calcium atpase structure with two bound calcium ions determined by electron crystallography of thin 3D crystals P04191 P04191 3.4 ELECTRON CRYSTALLOGRAPHY 42 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 994 994 MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG MEAAHSKSTEECLAYFGVSETTGLTPDQVKRHLEKYGHNELPAEEGKSLWELVIEQFEDLLVRILLLAACISFVLAWFEEGEETITAFVEPFVILLILIANAIVGVWQERNAENAIEALKEYEPEMGKVYRADRKSVQRIKARDIVPGDIVEVAVGDKVPADIRILSIKSTTLRVDQSILTGESVSVIKHTEPVPDPRAVNQDKKNMLFSGTNIAAGKALGIVATTGVSTEIGKIRDQMAATEQDKTPLQQKLDEFGEQLSKVISLICVAVWLINIGHFNDPVHGGSWIRGAIYYFKIAVALAVAAIPEGLPAVITTCLALGTRRMAKKNAIVRSLPSVETLGCTSVICSDKTGTLTTNQMSVCKMFIIDKVDGDFCSLNEFSITGSTYAPEGEVLKNDKPIRSGQFDGLVELATICALCNDSSLDFNETKGVYEKVGEATETALTTLVEKMNVFNTEVRNLSKVERANACNSVIRQLMKKEFTLEFSRDRKSMSVYCSPAKSSRAAVGNKMFVKGAPEGVIDRCNYVRVGTTRVPMTGPVKEKILSVIKEWGTGRDTLRCLALATRDTPPKREEMVLDDSSRFMEYETDLTFVGVVGMLDPPRKEVMGSIQLCRDAGIRVIMITGDNKGTAIAICRRIGIFGENEEVADRAYTGREFDDLPLAEQREACRRACCFARVEPSHKSKIVEYLQSYDEITAMTGDGVNDAPALKKAEIGIAMGSGTAVAKTASEMVLADDNFSTIVAAVEEGRAIYNNMKQFIRYLISSNVGEVVCIFLTAALGLPEALIPVQLLWVNLVTDGLPATALGFNPPDLDIMDRPPRSPKEPLISGWLFFRYMAIGGYVGAATVGAAAWWFMYAEDGPGVTYHQLTHFMQCTEDHPHFEGLDCEIFEAPEPMTMALSVLVTIEMCNALNSLSENQSLMRMPPWVNIWLLGSICLSMSLHFLILYVDPLPMIFKLKALDLTQWLMVLKISLPVIGLDEILKFIARNYLEG 3j83-a1-m1-cF_3j83-a1-m1-cG Heptameric EspB Rosetta model guided by EM density P9WJD9 P9WJD9 30.0 ELECTRON MICROSCOPY 18 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 276 276 3j83-a1-m1-cA_3j83-a1-m1-cB 3j83-a1-m1-cA_3j83-a1-m1-cG 3j83-a1-m1-cB_3j83-a1-m1-cC 3j83-a1-m1-cC_3j83-a1-m1-cD 3j83-a1-m1-cD_3j83-a1-m1-cE 3j83-a1-m1-cE_3j83-a1-m1-cF QQEILNRANEVEAPMADPPTDVPITPCELTAAKNAAQQLVLSADNMREYLAAGAKERQRLATSLRNAAKAYGEVDEEAATALDNDGEGTVQAESAGAVGGDSSAELTDTPRVATAGEPNFMDLKEAARKLETGDQGASLAHFADGWNTFNLTLQGDVKRFRGFDNWEGDAATACEASLDQQRQWILHMAKLSAAMAKQAQYVAQLHVWARREHPTYEDIVGLERLYAENPSARDQILPVYAEYQQRSEKVLTEYNNKAALEPVNPPKPPPAIKIDP QQEILNRANEVEAPMADPPTDVPITPCELTAAKNAAQQLVLSADNMREYLAAGAKERQRLATSLRNAAKAYGEVDEEAATALDNDGEGTVQAESAGAVGGDSSAELTDTPRVATAGEPNFMDLKEAARKLETGDQGASLAHFADGWNTFNLTLQGDVKRFRGFDNWEGDAATACEASLDQQRQWILHMAKLSAAMAKQAQYVAQLHVWARREHPTYEDIVGLERLYAENPSARDQILPVYAEYQQRSEKVLTEYNNKAALEPVNPPKPPPAIKIDP 3j89-a1-m1-cA_3j89-a1-m1-cE Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cB_3j89-a1-m1-cF Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cC_3j89-a1-m1-cG Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cD_3j89-a1-m1-cH Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cE_3j89-a1-m1-cI Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cF_3j89-a1-m1-cJ Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cG_3j89-a1-m1-cK Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 47 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cH_3j89-a1-m1-cL Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cI_3j89-a1-m1-cM Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cJ_3j89-a1-m1-cN Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 47 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cK_3j89-a1-m1-cO Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cL_3j89-a1-m1-cP Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cM_3j89-a1-m1-cQ Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cN_3j89-a1-m1-cR Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 47 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j89-a1-m1-cO_3j89-a1-m1-cS Structural Plasticity of Helical Nanotubes Based on Coiled-Coil Assemblies 3.6 ELECTRON MICROSCOPY 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 QARILEADAEILRAYARILEAHAEILRAQ QARILEADAEILRAYARILEAHAEILRAQ 3j8d-a1-m9-cA_3j8d-a1-m23-cA Cryoelectron microscopy of dengue-Fab E104 complex at pH 5.5 26.0 ELECTRON MICROSCOPY 128 1.0 10090 (Mus musculus) 10090 (Mus musculus) 425 425 3j8d-a1-m20-cA_3j8d-a1-m15-cA 3j8d-a1-m22-cA_3j8d-a1-m1-cA 3j8d-a1-m27-cA_3j8d-a1-m16-cA 3j8d-a1-m28-cA_3j8d-a1-m14-cA 3j8d-a1-m30-cA_3j8d-a1-m25-cA 3j8d-a1-m37-cA_3j8d-a1-m11-cA 3j8d-a1-m38-cA_3j8d-a1-m19-cA 3j8d-a1-m40-cA_3j8d-a1-m35-cA 3j8d-a1-m41-cA_3j8d-a1-m2-cA 3j8d-a1-m42-cA_3j8d-a1-m21-cA 3j8d-a1-m43-cA_3j8d-a1-m29-cA 3j8d-a1-m44-cA_3j8d-a1-m13-cA 3j8d-a1-m46-cA_3j8d-a1-m12-cA 3j8d-a1-m47-cA_3j8d-a1-m36-cA 3j8d-a1-m48-cA_3j8d-a1-m34-cA 3j8d-a1-m49-cA_3j8d-a1-m3-cA 3j8d-a1-m4-cA_3j8d-a1-m33-cA 3j8d-a1-m50-cA_3j8d-a1-m45-cA 3j8d-a1-m51-cA_3j8d-a1-m17-cA 3j8d-a1-m52-cA_3j8d-a1-m26-cA 3j8d-a1-m53-cA_3j8d-a1-m24-cA 3j8d-a1-m57-cA_3j8d-a1-m31-cA 3j8d-a1-m58-cA_3j8d-a1-m39-cA 3j8d-a1-m59-cA_3j8d-a1-m18-cA 3j8d-a1-m5-cA_3j8d-a1-m10-cA 3j8d-a1-m60-cA_3j8d-a1-m55-cA 3j8d-a1-m6-cA_3j8d-a1-m32-cA 3j8d-a1-m7-cA_3j8d-a1-m56-cA 3j8d-a1-m8-cA_3j8d-a1-m54-cA NIVLTQSPASLAVSLGQRATISCRASESVDSFIYWYQQKPGQPPKLLIYLASNLESGVPARFSGSGSETDFTLTIDSVETDDAATYYCQQNNEDPYTFGGGTKLEIKQVQLLQPGAELVKPGASMKLSCKASGYTFTNWWMHWVRLRPGRGLEWIGRIDPNSDVNKYNEKFENRASLTVDKHSSTAYMQLTSEDSAIYYCARWFFPWYFDVWGTGTTVTVSRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIES NIVLTQSPASLAVSLGQRATISCRASESVDSFIYWYQQKPGQPPKLLIYLASNLESGVPARFSGSGSETDFTLTIDSVETDDAATYYCQQNNEDPYTFGGGTKLEIKQVQLLQPGAELVKPGASMKLSCKASGYTFTNWWMHWVRLRPGRGLEWIGRIDPNSDVNKYNEKFENRASLTVDKHSSTAYMQLTSEDSAIYYCARWFFPWYFDVWGTGTTVTVSRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIES 3j8h-a1-m1-cE_3j8h-a1-m1-cG Structure of the rabbit ryanodine receptor RyR1 in complex with FKBP12 at 3.8 Angstrom resolution P11716 P11716 3.8 ELECTRON MICROSCOPY 230 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 3660 3660 3j8h-a1-m1-cA_3j8h-a1-m1-cC 3j8h-a1-m1-cA_3j8h-a1-m1-cG 3j8h-a1-m1-cC_3j8h-a1-m1-cE QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTLQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRLPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQRRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDLAHRTWGSQNSLVEMLFLRLSLPVQFTYYYSVRVFACVWVGWVTPDYHQHDMNFDLSVTVTMGDEQGNVHSSLKCSNXXXXXSHTDLVIGCLVGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFEAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGLPGVGVTTSLRPPHHFSPPCFVALSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRXXXXXXXXXXXXXXXTSLSSRLRSLLETVRLSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGITPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPEGLLAAIEEAIRIGHAIMSFYAALIDLLGRCAEALRIRAILRSLXXXXXXXXXXXXXXFVPDHKASMVLFLDRVYNQDFLLHVLVGFLPDMRAAASLTEMALALNRYLCLAVLPLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKDDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMIVGSEAFQDYVTDPRGLISKKDFQKAMDSQQFTGPEIQFLLSCSEADENEMINFEEFANRPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQIEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYE QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTLQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRLPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQRRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDLAHRTWGSQNSLVEMLFLRLSLPVQFTYYYSVRVFACVWVGWVTPDYHQHDMNFDLSVTVTMGDEQGNVHSSLKCSNXXXXXSHTDLVIGCLVGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFEAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGLPGVGVTTSLRPPHHFSPPCFVALSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRXXXXXXXXXXXXXXXTSLSSRLRSLLETVRLSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGITPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPEGLLAAIEEAIRIGHAIMSFYAALIDLLGRCAEALRIRAILRSLXXXXXXXXXXXXXXFVPDHKASMVLFLDRVYNQDFLLHVLVGFLPDMRAAASLTEMALALNRYLCLAVLPLIXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKDDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMIVGSEAFQDYVTDPRGLISKKDFQKAMDSQQFTGPEIQFLLSCSEADENEMINFEEFANRPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQIEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYE 3j91-a1-m54-c3_3j91-a1-m9-c3 Cryo-electron microscopy of Enterovirus 71 (EV71) procapsid in complex with Fab fragments of neutralizing antibody 22A12 E5RPG0 E5RPG0 8.8 ELECTRON MICROSCOPY 247 1.0 39054 (Enterovirus A71) 39054 (Enterovirus A71) 240 240 3j91-a1-m10-c3_3j91-a1-m23-c3 3j91-a1-m11-c3_3j91-a1-m20-c3 3j91-a1-m11-c3_3j91-a1-m38-c3 3j91-a1-m12-c3_3j91-a1-m37-c3 3j91-a1-m12-c3_3j91-a1-m47-c3 3j91-a1-m13-c3_3j91-a1-m45-c3 3j91-a1-m13-c3_3j91-a1-m46-c3 3j91-a1-m14-c3_3j91-a1-m29-c3 3j91-a1-m14-c3_3j91-a1-m44-c3 3j91-a1-m15-c3_3j91-a1-m16-c3 3j91-a1-m15-c3_3j91-a1-m28-c3 3j91-a1-m16-c3_3j91-a1-m28-c3 3j91-a1-m17-c3_3j91-a1-m27-c3 3j91-a1-m17-c3_3j91-a1-m52-c3 3j91-a1-m18-c3_3j91-a1-m51-c3 3j91-a1-m18-c3_3j91-a1-m60-c3 3j91-a1-m19-c3_3j91-a1-m39-c3 3j91-a1-m19-c3_3j91-a1-m59-c3 3j91-a1-m1-c3_3j91-a1-m10-c3 3j91-a1-m1-c3_3j91-a1-m23-c3 3j91-a1-m20-c3_3j91-a1-m38-c3 3j91-a1-m21-c3_3j91-a1-m30-c3 3j91-a1-m21-c3_3j91-a1-m43-c3 3j91-a1-m22-c3_3j91-a1-m42-c3 3j91-a1-m24-c3_3j91-a1-m54-c3 3j91-a1-m24-c3_3j91-a1-m9-c3 3j91-a1-m25-c3_3j91-a1-m26-c3 3j91-a1-m25-c3_3j91-a1-m53-c3 3j91-a1-m26-c3_3j91-a1-m53-c3 3j91-a1-m27-c3_3j91-a1-m52-c3 3j91-a1-m29-c3_3j91-a1-m44-c3 3j91-a1-m2-c3_3j91-a1-m22-c3 3j91-a1-m2-c3_3j91-a1-m42-c3 3j91-a1-m30-c3_3j91-a1-m43-c3 3j91-a1-m31-c3_3j91-a1-m40-c3 3j91-a1-m31-c3_3j91-a1-m58-c3 3j91-a1-m32-c3_3j91-a1-m57-c3 3j91-a1-m32-c3_3j91-a1-m7-c3 3j91-a1-m33-c3_3j91-a1-m5-c3 3j91-a1-m33-c3_3j91-a1-m6-c3 3j91-a1-m34-c3_3j91-a1-m49-c3 3j91-a1-m34-c3_3j91-a1-m4-c3 3j91-a1-m35-c3_3j91-a1-m36-c3 3j91-a1-m35-c3_3j91-a1-m48-c3 3j91-a1-m36-c3_3j91-a1-m48-c3 3j91-a1-m37-c3_3j91-a1-m47-c3 3j91-a1-m39-c3_3j91-a1-m59-c3 3j91-a1-m3-c3_3j91-a1-m41-c3 3j91-a1-m3-c3_3j91-a1-m50-c3 3j91-a1-m40-c3_3j91-a1-m58-c3 3j91-a1-m41-c3_3j91-a1-m50-c3 3j91-a1-m45-c3_3j91-a1-m46-c3 3j91-a1-m4-c3_3j91-a1-m49-c3 3j91-a1-m51-c3_3j91-a1-m60-c3 3j91-a1-m55-c3_3j91-a1-m56-c3 3j91-a1-m55-c3_3j91-a1-m8-c3 3j91-a1-m56-c3_3j91-a1-m8-c3 3j91-a1-m57-c3_3j91-a1-m7-c3 3j91-a1-m5-c3_3j91-a1-m6-c3 GFPTELKPGTNQFLTTDDGVSAPILPNFYPTPCIHIPGEVRNLLELCQVETILEVNNVPTNATSLMERLRFPVSAQAGKGELCAVFRADPGRSGPWQSTLLGQLCGYYTQWSGSLEVTFMFTGSFMATGKMLIAYTPPGGPLPKDRATAMLGTHVIWDFGLQSSVTLVIPWISNTHYRAHARDGVFDYYTTGLVSIWYQTNYVVPIGAPNTAYIIALAAAQKNFTMKLCKDASDILQTGT GFPTELKPGTNQFLTTDDGVSAPILPNFYPTPCIHIPGEVRNLLELCQVETILEVNNVPTNATSLMERLRFPVSAQAGKGELCAVFRADPGRSGPWQSTLLGQLCGYYTQWSGSLEVTFMFTGSFMATGKMLIAYTPPGGPLPKDRATAMLGTHVIWDFGLQSSVTLVIPWISNTHYRAHARDGVFDYYTTGLVSIWYQTNYVVPIGAPNTAYIIALAAAQKNFTMKLCKDASDILQTGT 3j91-a1-m8-c1_3j91-a1-m9-c1 Cryo-electron microscopy of Enterovirus 71 (EV71) procapsid in complex with Fab fragments of neutralizing antibody 22A12 E5RPG0 E5RPG0 8.8 ELECTRON MICROSCOPY 81 1.0 39054 (Enterovirus A71) 39054 (Enterovirus A71) 218 218 3j91-a1-m10-c1_3j91-a1-m6-c1 3j91-a1-m10-c1_3j91-a1-m9-c1 3j91-a1-m11-c1_3j91-a1-m12-c1 3j91-a1-m11-c1_3j91-a1-m15-c1 3j91-a1-m12-c1_3j91-a1-m13-c1 3j91-a1-m13-c1_3j91-a1-m14-c1 3j91-a1-m14-c1_3j91-a1-m15-c1 3j91-a1-m16-c1_3j91-a1-m17-c1 3j91-a1-m16-c1_3j91-a1-m20-c1 3j91-a1-m17-c1_3j91-a1-m18-c1 3j91-a1-m18-c1_3j91-a1-m19-c1 3j91-a1-m19-c1_3j91-a1-m20-c1 3j91-a1-m1-c1_3j91-a1-m2-c1 3j91-a1-m1-c1_3j91-a1-m5-c1 3j91-a1-m21-c1_3j91-a1-m22-c1 3j91-a1-m21-c1_3j91-a1-m25-c1 3j91-a1-m22-c1_3j91-a1-m23-c1 3j91-a1-m23-c1_3j91-a1-m24-c1 3j91-a1-m24-c1_3j91-a1-m25-c1 3j91-a1-m26-c1_3j91-a1-m27-c1 3j91-a1-m26-c1_3j91-a1-m30-c1 3j91-a1-m27-c1_3j91-a1-m28-c1 3j91-a1-m28-c1_3j91-a1-m29-c1 3j91-a1-m29-c1_3j91-a1-m30-c1 3j91-a1-m2-c1_3j91-a1-m3-c1 3j91-a1-m31-c1_3j91-a1-m32-c1 3j91-a1-m31-c1_3j91-a1-m35-c1 3j91-a1-m32-c1_3j91-a1-m33-c1 3j91-a1-m33-c1_3j91-a1-m34-c1 3j91-a1-m34-c1_3j91-a1-m35-c1 3j91-a1-m36-c1_3j91-a1-m37-c1 3j91-a1-m36-c1_3j91-a1-m40-c1 3j91-a1-m37-c1_3j91-a1-m38-c1 3j91-a1-m38-c1_3j91-a1-m39-c1 3j91-a1-m39-c1_3j91-a1-m40-c1 3j91-a1-m3-c1_3j91-a1-m4-c1 3j91-a1-m41-c1_3j91-a1-m42-c1 3j91-a1-m41-c1_3j91-a1-m45-c1 3j91-a1-m42-c1_3j91-a1-m43-c1 3j91-a1-m43-c1_3j91-a1-m44-c1 3j91-a1-m44-c1_3j91-a1-m45-c1 3j91-a1-m46-c1_3j91-a1-m47-c1 3j91-a1-m46-c1_3j91-a1-m50-c1 3j91-a1-m47-c1_3j91-a1-m48-c1 3j91-a1-m48-c1_3j91-a1-m49-c1 3j91-a1-m49-c1_3j91-a1-m50-c1 3j91-a1-m4-c1_3j91-a1-m5-c1 3j91-a1-m51-c1_3j91-a1-m52-c1 3j91-a1-m51-c1_3j91-a1-m55-c1 3j91-a1-m52-c1_3j91-a1-m53-c1 3j91-a1-m53-c1_3j91-a1-m54-c1 3j91-a1-m54-c1_3j91-a1-m55-c1 3j91-a1-m56-c1_3j91-a1-m57-c1 3j91-a1-m56-c1_3j91-a1-m60-c1 3j91-a1-m57-c1_3j91-a1-m58-c1 3j91-a1-m58-c1_3j91-a1-m59-c1 3j91-a1-m59-c1_3j91-a1-m60-c1 3j91-a1-m6-c1_3j91-a1-m7-c1 3j91-a1-m7-c1_3j91-a1-m8-c1 HSTAETTLDSFFSRAGLVGEIDLPLEGTTNPNGYANWDIDITGYAQMRRKVELFTYMRFDAEFTFVACTPTGGVVPQLLQYMFVPPGAPKPDSRESLAWQTATNPSVFVKLSDPPAQVSVPFMSPASAYQWFYDGYPTKDLEYGACPNNMMGTFSVRTVGTSKSKYPLVVRIYMRMKHVRAWIPRPMRNQNYLFKANPNYAGNSIKPTGASRTAITTL HSTAETTLDSFFSRAGLVGEIDLPLEGTTNPNGYANWDIDITGYAQMRRKVELFTYMRFDAEFTFVACTPTGGVVPQLLQYMFVPPGAPKPDSRESLAWQTATNPSVFVKLSDPPAQVSVPFMSPASAYQWFYDGYPTKDLEYGACPNNMMGTFSVRTVGTSKSKYPLVVRIYMRMKHVRAWIPRPMRNQNYLFKANPNYAGNSIKPTGASRTAITTL 3j91-a1-m8-c3_3j91-a1-m9-c3 Cryo-electron microscopy of Enterovirus 71 (EV71) procapsid in complex with Fab fragments of neutralizing antibody 22A12 E5RPG0 E5RPG0 8.8 ELECTRON MICROSCOPY 30 1.0 39054 (Enterovirus A71) 39054 (Enterovirus A71) 240 240 3j91-a1-m10-c3_3j91-a1-m6-c3 3j91-a1-m10-c3_3j91-a1-m9-c3 3j91-a1-m11-c3_3j91-a1-m12-c3 3j91-a1-m11-c3_3j91-a1-m15-c3 3j91-a1-m12-c3_3j91-a1-m13-c3 3j91-a1-m13-c3_3j91-a1-m14-c3 3j91-a1-m14-c3_3j91-a1-m15-c3 3j91-a1-m16-c3_3j91-a1-m17-c3 3j91-a1-m16-c3_3j91-a1-m20-c3 3j91-a1-m17-c3_3j91-a1-m18-c3 3j91-a1-m18-c3_3j91-a1-m19-c3 3j91-a1-m19-c3_3j91-a1-m20-c3 3j91-a1-m1-c3_3j91-a1-m2-c3 3j91-a1-m1-c3_3j91-a1-m5-c3 3j91-a1-m21-c3_3j91-a1-m22-c3 3j91-a1-m21-c3_3j91-a1-m25-c3 3j91-a1-m22-c3_3j91-a1-m23-c3 3j91-a1-m23-c3_3j91-a1-m24-c3 3j91-a1-m24-c3_3j91-a1-m25-c3 3j91-a1-m26-c3_3j91-a1-m27-c3 3j91-a1-m26-c3_3j91-a1-m30-c3 3j91-a1-m27-c3_3j91-a1-m28-c3 3j91-a1-m28-c3_3j91-a1-m29-c3 3j91-a1-m29-c3_3j91-a1-m30-c3 3j91-a1-m2-c3_3j91-a1-m3-c3 3j91-a1-m31-c3_3j91-a1-m32-c3 3j91-a1-m31-c3_3j91-a1-m35-c3 3j91-a1-m32-c3_3j91-a1-m33-c3 3j91-a1-m33-c3_3j91-a1-m34-c3 3j91-a1-m34-c3_3j91-a1-m35-c3 3j91-a1-m36-c3_3j91-a1-m37-c3 3j91-a1-m36-c3_3j91-a1-m40-c3 3j91-a1-m37-c3_3j91-a1-m38-c3 3j91-a1-m38-c3_3j91-a1-m39-c3 3j91-a1-m39-c3_3j91-a1-m40-c3 3j91-a1-m3-c3_3j91-a1-m4-c3 3j91-a1-m41-c3_3j91-a1-m42-c3 3j91-a1-m41-c3_3j91-a1-m45-c3 3j91-a1-m42-c3_3j91-a1-m43-c3 3j91-a1-m43-c3_3j91-a1-m44-c3 3j91-a1-m44-c3_3j91-a1-m45-c3 3j91-a1-m46-c3_3j91-a1-m47-c3 3j91-a1-m46-c3_3j91-a1-m50-c3 3j91-a1-m47-c3_3j91-a1-m48-c3 3j91-a1-m48-c3_3j91-a1-m49-c3 3j91-a1-m49-c3_3j91-a1-m50-c3 3j91-a1-m4-c3_3j91-a1-m5-c3 3j91-a1-m51-c3_3j91-a1-m52-c3 3j91-a1-m51-c3_3j91-a1-m55-c3 3j91-a1-m52-c3_3j91-a1-m53-c3 3j91-a1-m53-c3_3j91-a1-m54-c3 3j91-a1-m54-c3_3j91-a1-m55-c3 3j91-a1-m56-c3_3j91-a1-m57-c3 3j91-a1-m56-c3_3j91-a1-m60-c3 3j91-a1-m57-c3_3j91-a1-m58-c3 3j91-a1-m58-c3_3j91-a1-m59-c3 3j91-a1-m59-c3_3j91-a1-m60-c3 3j91-a1-m6-c3_3j91-a1-m7-c3 3j91-a1-m7-c3_3j91-a1-m8-c3 GFPTELKPGTNQFLTTDDGVSAPILPNFYPTPCIHIPGEVRNLLELCQVETILEVNNVPTNATSLMERLRFPVSAQAGKGELCAVFRADPGRSGPWQSTLLGQLCGYYTQWSGSLEVTFMFTGSFMATGKMLIAYTPPGGPLPKDRATAMLGTHVIWDFGLQSSVTLVIPWISNTHYRAHARDGVFDYYTTGLVSIWYQTNYVVPIGAPNTAYIIALAAAQKNFTMKLCKDASDILQTGT GFPTELKPGTNQFLTTDDGVSAPILPNFYPTPCIHIPGEVRNLLELCQVETILEVNNVPTNATSLMERLRFPVSAQAGKGELCAVFRADPGRSGPWQSTLLGQLCGYYTQWSGSLEVTFMFTGSFMATGKMLIAYTPPGGPLPKDRATAMLGTHVIWDFGLQSSVTLVIPWISNTHYRAHARDGVFDYYTTGLVSIWYQTNYVVPIGAPNTAYIIALAAAQKNFTMKLCKDASDILQTGT 3j9k-a1-m1-cJ_3j9k-a1-m1-cf Structure of Dark apoptosome in complex with Dronc CARD domain Q9XYF4 Q9XYF4 4.1 ELECTRON MICROSCOPY 31 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 102 102 3j9k-a1-m1-cB_3j9k-a1-m1-cL 3j9k-a1-m1-cD_3j9k-a1-m1-cZ 3j9k-a1-m1-cF_3j9k-a1-m1-cb 3j9k-a1-m1-cH_3j9k-a1-m1-cd 3j9k-a1-m1-cN_3j9k-a1-m1-cT 3j9k-a1-m1-cP_3j9k-a1-m1-cV 3j9k-a1-m1-cR_3j9k-a1-m1-cX MPKRHREHIRKNLNILVEWTNYERLAMECVQQGILTVQMLRNTQDLNGKPFNMDEKDVRVEQHRRLLLKITQRGPTAYNLLINALRNINCLDAAVLLESVDE MPKRHREHIRKNLNILVEWTNYERLAMECVQQGILTVQMLRNTQDLNGKPFNMDEKDVRVEQHRRLLLKITQRGPTAYNLLINALRNINCLDAAVLLESVDE 3j9l-a1-m1-cE_3j9l-a1-m1-cQ Structure of Dark apoptosome from Drosophila melanogaster Q7KLI1 Q7KLI1 4.0 ELECTRON MICROSCOPY 19 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1062 1063 3j9l-a1-m1-cA_3j9l-a1-m1-cF 3j9l-a1-m1-cC_3j9l-a1-m1-cO 3j9l-a1-m1-cD_3j9l-a1-m1-cP 3j9l-a1-m1-cG_3j9l-a1-m1-cK 3j9l-a1-m1-cH_3j9l-a1-m1-cL 3j9l-a1-m1-cI_3j9l-a1-m1-cM 3j9l-a1-m1-cJ_3j9l-a1-m1-cN YQYKDILSVFEDAFVDNFDCKDVQDMPKSILSKEEIDHIIMSKDAVSGTLRLFWTLLSKQEEMVQKFVEEVLRINYKFLMSPIKTEQRQPSMMTRMYIEQRDRLYNDNQVFAKYNVSRLQPYLKLRQALLELRPAKNVLIDGVLGSGKTWVALDVCLSYKVQCKMDFKIFWLNLKNCNSPETVLEMLQKLLYQIDPNWTSRSDHSSNIKLRIHSIQAELRRLLKSKPYENCLLVLLNVQNAKAWNAFNLSCKILLTTRFKQVTDFLSAATTTHISLDHHSMTLTPDEVKSLLLKYLDCRPQDLPREVLTTNPRRLSIIAESIRDATWDNWKHVNCDKLTTIIESSLNVLEPAEYRKMFDRLSVFPPSAHIPTILLSLISDVMVVVNKLHKYSLVEKQPSTISIPSIYLELKVKLENEYALHRSIVDHYNIPKTFDSDDLIPPYLDQYFYSHIGHHLKNIEHPERMTLFRMVFLDFRFLEQKIRHNTLQQLKFYKPYICDDPKYERLVNAILDFLPKIYTDLLRIALMAEDEAIFEEAHKQVQRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX YQYKDILSVFEDAFVDNFDCKDVQDMPKSILSKEEIDHIIMSKDAVSGTLRLFWTLLSKQEEMVQKFVEEVLRINYKFLMSPIKTEQRQPSMMTRMYIEQRDRLYNDNQVFAKYNVSRLQPYLKLRQALLELRPAKNVLIDGVLGSGKTWVALDVCLSYKVQCKMDFKIFWLNLKNCNSPETVLEMLQKLLYQIDPNWTSRSDHSSNIKLRIHSIQAELRRLLKSKPYENCLLVLLNVQNAKAWNAFNLSCKILLTTRFKQVTDFLSAATTTHISLDHHSMTLTPDEVKSLLLKYLDCRPQDLPREVLTTNPRRLSIIAESIRDATWDNWKHVNCDKLTTIIESSLNVLEPAEYRKMFDRLSVFPPSAHIPTILLSLISDVMVVVNKLHKYSLVEKQPSTISIPSIYLELKVKLENEYALHRSIVDHYNIPKTFDSDDLIPPYLDQYFYSHIGHHLKNIEHPERMTLFRMVFLDFRFLEQKIRHNTLQQLKFYKPYICDDPKYERLVNAILDFLPKIYTDLLRIALMAEDEAIFEEAHKQVQRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 3j9l-a1-m1-cP_3j9l-a1-m1-cQ Structure of Dark apoptosome from Drosophila melanogaster Q7KLI1 Q7KLI1 4.0 ELECTRON MICROSCOPY 76 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1062 1063 3j9k-a1-m1-ca_3j9k-a1-m1-cc 3j9k-a1-m1-cA_3j9k-a1-m1-ce 3j9k-a1-m1-cA_3j9k-a1-m1-cS 3j9k-a1-m1-cc_3j9k-a1-m1-ce 3j9k-a1-m1-cC_3j9k-a1-m1-cE 3j9k-a1-m1-cC_3j9k-a1-m1-cQ 3j9k-a1-m1-cE_3j9k-a1-m1-cG 3j9k-a1-m1-cG_3j9k-a1-m1-cI 3j9k-a1-m1-cI_3j9k-a1-m1-cK 3j9k-a1-m1-cK_3j9k-a1-m1-cM 3j9k-a1-m1-cM_3j9k-a1-m1-cO 3j9k-a1-m1-cO_3j9k-a1-m1-cQ 3j9k-a1-m1-cS_3j9k-a1-m1-cU 3j9k-a1-m1-cU_3j9k-a1-m1-cW 3j9k-a1-m1-cW_3j9k-a1-m1-cY 3j9k-a1-m1-cY_3j9k-a1-m1-ca 3j9l-a1-m1-cA_3j9l-a1-m1-cK 3j9l-a1-m1-cA_3j9l-a1-m1-cQ 3j9l-a1-m1-cC_3j9l-a1-m1-cD 3j9l-a1-m1-cC_3j9l-a1-m1-cJ 3j9l-a1-m1-cD_3j9l-a1-m1-cE 3j9l-a1-m1-cE_3j9l-a1-m1-cF 3j9l-a1-m1-cF_3j9l-a1-m1-cG 3j9l-a1-m1-cG_3j9l-a1-m1-cH 3j9l-a1-m1-cH_3j9l-a1-m1-cI 3j9l-a1-m1-cI_3j9l-a1-m1-cJ 3j9l-a1-m1-cK_3j9l-a1-m1-cL 3j9l-a1-m1-cL_3j9l-a1-m1-cM 3j9l-a1-m1-cM_3j9l-a1-m1-cN 3j9l-a1-m1-cN_3j9l-a1-m1-cO 3j9l-a1-m1-cO_3j9l-a1-m1-cP YQYKDILSVFEDAFVDNFDCKDVQDMPKSILSKEEIDHIIMSKDAVSGTLRLFWTLLSKQEEMVQKFVEEVLRINYKFLMSPIKTEQRQPSMMTRMYIEQRDRLYNDNQVFAKYNVSRLQPYLKLRQALLELRPAKNVLIDGVLGSGKTWVALDVCLSYKVQCKMDFKIFWLNLKNCNSPETVLEMLQKLLYQIDPNWTSRSDHSSNIKLRIHSIQAELRRLLKSKPYENCLLVLLNVQNAKAWNAFNLSCKILLTTRFKQVTDFLSAATTTHISLDHHSMTLTPDEVKSLLLKYLDCRPQDLPREVLTTNPRRLSIIAESIRDATWDNWKHVNCDKLTTIIESSLNVLEPAEYRKMFDRLSVFPPSAHIPTILLSLISDVMVVVNKLHKYSLVEKQPSTISIPSIYLELKVKLENEYALHRSIVDHYNIPKTFDSDDLIPPYLDQYFYSHIGHHLKNIEHPERMTLFRMVFLDFRFLEQKIRHNTLQQLKFYKPYICDDPKYERLVNAILDFLPKIYTDLLRIALMAEDEAIFEEAHKQVQRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX YQYKDILSVFEDAFVDNFDCKDVQDMPKSILSKEEIDHIIMSKDAVSGTLRLFWTLLSKQEEMVQKFVEEVLRINYKFLMSPIKTEQRQPSMMTRMYIEQRDRLYNDNQVFAKYNVSRLQPYLKLRQALLELRPAKNVLIDGVLGSGKTWVALDVCLSYKVQCKMDFKIFWLNLKNCNSPETVLEMLQKLLYQIDPNWTSRSDHSSNIKLRIHSIQAELRRLLKSKPYENCLLVLLNVQNAKAWNAFNLSCKILLTTRFKQVTDFLSAATTTHISLDHHSMTLTPDEVKSLLLKYLDCRPQDLPREVLTTNPRRLSIIAESIRDATWDNWKHVNCDKLTTIIESSLNVLEPAEYRKMFDRLSVFPPSAHIPTILLSLISDVMVVVNKLHKYSLVEKQPSTISIPSIYLELKVKLENEYALHRSIVDHYNIPKTFDSDDLIPPYLDQYFYSHIGHHLKNIEHPERMTLFRMVFLDFRFLEQKIRHNTLQQLKFYKPYICDDPKYERLVNAILDFLPKIYTDLLRIALMAEDEAIFEEAHKQVQRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 3j9o-a1-m7-cB_3j9o-a1-m9-cL CryoEM structure of a type VI secretion system A0Q7I4 A0Q7I4 3.7 ELECTRON MICROSCOPY 32 1.0 401614 (Francisella tularensis subsp. novicida U112) 401614 (Francisella tularensis subsp. novicida U112) 427 427 3j9o-a1-m10-cB_3j9o-a1-m8-cD 3j9o-a1-m10-cD_3j9o-a1-m8-cF 3j9o-a1-m10-cF_3j9o-a1-m8-cH 3j9o-a1-m10-cH_3j9o-a1-m8-cJ 3j9o-a1-m10-cJ_3j9o-a1-m8-cL 3j9o-a1-m10-cL_3j9o-a1-m8-cB 3j9o-a1-m1-cB_3j9o-a1-m3-cL 3j9o-a1-m1-cD_3j9o-a1-m4-cF 3j9o-a1-m1-cD_3j9o-a1-m8-cB 3j9o-a1-m1-cF_3j9o-a1-m3-cD 3j9o-a1-m1-cH_3j9o-a1-m4-cJ 3j9o-a1-m1-cH_3j9o-a1-m8-cF 3j9o-a1-m1-cJ_3j9o-a1-m4-cL 3j9o-a1-m1-cJ_3j9o-a1-m8-cH 3j9o-a1-m1-cL_3j9o-a1-m3-cJ 3j9o-a1-m2-cB_3j9o-a1-m4-cL 3j9o-a1-m2-cD_3j9o-a1-m4-cB 3j9o-a1-m2-cF_3j9o-a1-m4-cD 3j9o-a1-m2-cH_3j9o-a1-m4-cF 3j9o-a1-m2-cJ_3j9o-a1-m4-cH 3j9o-a1-m2-cL_3j9o-a1-m4-cJ 3j9o-a1-m3-cB_3j9o-a1-m5-cL 3j9o-a1-m3-cD_3j9o-a1-m5-cB 3j9o-a1-m3-cF_3j9o-a1-m5-cD 3j9o-a1-m3-cH_3j9o-a1-m5-cF 3j9o-a1-m3-cJ_3j9o-a1-m5-cH 3j9o-a1-m3-cL_3j9o-a1-m5-cJ 3j9o-a1-m5-cB_3j9o-a1-m7-cL 3j9o-a1-m5-cD_3j9o-a1-m7-cB 3j9o-a1-m5-cF_3j9o-a1-m7-cD 3j9o-a1-m5-cH_3j9o-a1-m7-cF 3j9o-a1-m5-cJ_3j9o-a1-m7-cH 3j9o-a1-m5-cL_3j9o-a1-m7-cJ 3j9o-a1-m7-cD_3j9o-a1-m9-cB 3j9o-a1-m7-cF_3j9o-a1-m9-cD 3j9o-a1-m7-cH_3j9o-a1-m9-cF 3j9o-a1-m7-cJ_3j9o-a1-m9-cH 3j9o-a1-m7-cL_3j9o-a1-m9-cJ VIDKLIDLQVNSIISNDEFRALEQEWLKVQEVCQEDYDNVEVSILDVKKEELQYDFERNLYDISSSDFFKKVYVSEFDQYGGEPYGAILGLYNFENTTNDIIWLTGMGMVAKNSHAPFIASIDKSFFGVKDLSEITHIKSFEALLEHPRYKEWNDFRNLDVAAYIGLTVGDFMLRQPYNPENNPVQYKLMEGFNEFVDYDKNESYLWGPASIHLVKNMMRSYDKTRWFQYIRGVESGGYVKNLVACVYDNKGILETKSPLNVLFADYMELSLANIGLIPFVSEKGTSNACFFSVNSAKKVEEFVDGFDSANSRLIANLSYTMCISRISHYIKCVIRDKIGSIVDVESIQKILSDWISEFVTTVYQPTPLEMARYPFRNVSIEVKTIPGKPGWYSCKINVIPHIQFEGMNTTMTIDTRLEPELFGTNN VIDKLIDLQVNSIISNDEFRALEQEWLKVQEVCQEDYDNVEVSILDVKKEELQYDFERNLYDISSSDFFKKVYVSEFDQYGGEPYGAILGLYNFENTTNDIIWLTGMGMVAKNSHAPFIASIDKSFFGVKDLSEITHIKSFEALLEHPRYKEWNDFRNLDVAAYIGLTVGDFMLRQPYNPENNPVQYKLMEGFNEFVDYDKNESYLWGPASIHLVKNMMRSYDKTRWFQYIRGVESGGYVKNLVACVYDNKGILETKSPLNVLFADYMELSLANIGLIPFVSEKGTSNACFFSVNSAKKVEEFVDGFDSANSRLIANLSYTMCISRISHYIKCVIRDKIGSIVDVESIQKILSDWISEFVTTVYQPTPLEMARYPFRNVSIEVKTIPGKPGWYSCKINVIPHIQFEGMNTTMTIDTRLEPELFGTNN 3j9o-a1-m7-cD_3j9o-a1-m9-cL CryoEM structure of a type VI secretion system A0Q7I4 A0Q7I4 3.7 ELECTRON MICROSCOPY 11 1.0 401614 (Francisella tularensis subsp. novicida U112) 401614 (Francisella tularensis subsp. novicida U112) 427 427 3j9o-a1-m10-cB_3j9o-a1-m8-cF 3j9o-a1-m10-cD_3j9o-a1-m8-cH 3j9o-a1-m10-cF_3j9o-a1-m8-cJ 3j9o-a1-m10-cH_3j9o-a1-m8-cL 3j9o-a1-m10-cJ_3j9o-a1-m8-cB 3j9o-a1-m10-cL_3j9o-a1-m8-cD 3j9o-a1-m1-cB_3j9o-a1-m3-cJ 3j9o-a1-m1-cD_3j9o-a1-m4-cH 3j9o-a1-m1-cD_3j9o-a1-m8-cL 3j9o-a1-m1-cF_3j9o-a1-m3-cB 3j9o-a1-m1-cH_3j9o-a1-m4-cL 3j9o-a1-m1-cH_3j9o-a1-m8-cD 3j9o-a1-m1-cJ_3j9o-a1-m4-cB 3j9o-a1-m1-cJ_3j9o-a1-m8-cF 3j9o-a1-m1-cL_3j9o-a1-m3-cH 3j9o-a1-m2-cB_3j9o-a1-m4-cJ 3j9o-a1-m2-cD_3j9o-a1-m4-cL 3j9o-a1-m2-cF_3j9o-a1-m4-cB 3j9o-a1-m2-cH_3j9o-a1-m4-cD 3j9o-a1-m2-cJ_3j9o-a1-m4-cF 3j9o-a1-m2-cL_3j9o-a1-m4-cH 3j9o-a1-m3-cB_3j9o-a1-m5-cJ 3j9o-a1-m3-cD_3j9o-a1-m5-cL 3j9o-a1-m3-cF_3j9o-a1-m5-cB 3j9o-a1-m3-cH_3j9o-a1-m5-cD 3j9o-a1-m3-cJ_3j9o-a1-m5-cF 3j9o-a1-m3-cL_3j9o-a1-m5-cH 3j9o-a1-m5-cB_3j9o-a1-m7-cJ 3j9o-a1-m5-cD_3j9o-a1-m7-cL 3j9o-a1-m5-cF_3j9o-a1-m7-cB 3j9o-a1-m5-cH_3j9o-a1-m7-cD 3j9o-a1-m5-cJ_3j9o-a1-m7-cF 3j9o-a1-m5-cL_3j9o-a1-m7-cH 3j9o-a1-m7-cB_3j9o-a1-m9-cJ 3j9o-a1-m7-cF_3j9o-a1-m9-cB 3j9o-a1-m7-cH_3j9o-a1-m9-cD 3j9o-a1-m7-cJ_3j9o-a1-m9-cF 3j9o-a1-m7-cL_3j9o-a1-m9-cH VIDKLIDLQVNSIISNDEFRALEQEWLKVQEVCQEDYDNVEVSILDVKKEELQYDFERNLYDISSSDFFKKVYVSEFDQYGGEPYGAILGLYNFENTTNDIIWLTGMGMVAKNSHAPFIASIDKSFFGVKDLSEITHIKSFEALLEHPRYKEWNDFRNLDVAAYIGLTVGDFMLRQPYNPENNPVQYKLMEGFNEFVDYDKNESYLWGPASIHLVKNMMRSYDKTRWFQYIRGVESGGYVKNLVACVYDNKGILETKSPLNVLFADYMELSLANIGLIPFVSEKGTSNACFFSVNSAKKVEEFVDGFDSANSRLIANLSYTMCISRISHYIKCVIRDKIGSIVDVESIQKILSDWISEFVTTVYQPTPLEMARYPFRNVSIEVKTIPGKPGWYSCKINVIPHIQFEGMNTTMTIDTRLEPELFGTNN VIDKLIDLQVNSIISNDEFRALEQEWLKVQEVCQEDYDNVEVSILDVKKEELQYDFERNLYDISSSDFFKKVYVSEFDQYGGEPYGAILGLYNFENTTNDIIWLTGMGMVAKNSHAPFIASIDKSFFGVKDLSEITHIKSFEALLEHPRYKEWNDFRNLDVAAYIGLTVGDFMLRQPYNPENNPVQYKLMEGFNEFVDYDKNESYLWGPASIHLVKNMMRSYDKTRWFQYIRGVESGGYVKNLVACVYDNKGILETKSPLNVLFADYMELSLANIGLIPFVSEKGTSNACFFSVNSAKKVEEFVDGFDSANSRLIANLSYTMCISRISHYIKCVIRDKIGSIVDVESIQKILSDWISEFVTTVYQPTPLEMARYPFRNVSIEVKTIPGKPGWYSCKINVIPHIQFEGMNTTMTIDTRLEPELFGTNN 3j9o-a1-m8-cB_3j9o-a1-m9-cL CryoEM structure of a type VI secretion system A0Q7I4 A0Q7I4 3.7 ELECTRON MICROSCOPY 160 1.0 401614 (Francisella tularensis subsp. novicida U112) 401614 (Francisella tularensis subsp. novicida U112) 427 427 3j9o-a1-m10-cB_3j9o-a1-m9-cD 3j9o-a1-m10-cD_3j9o-a1-m9-cF 3j9o-a1-m10-cF_3j9o-a1-m9-cH 3j9o-a1-m10-cH_3j9o-a1-m9-cJ 3j9o-a1-m10-cJ_3j9o-a1-m9-cL 3j9o-a1-m10-cL_3j9o-a1-m9-cB 3j9o-a1-m1-cB_3j9o-a1-m2-cL 3j9o-a1-m1-cD_3j9o-a1-m5-cF 3j9o-a1-m1-cD_3j9o-a1-m7-cB 3j9o-a1-m1-cF_3j9o-a1-m2-cD 3j9o-a1-m1-cH_3j9o-a1-m5-cJ 3j9o-a1-m1-cH_3j9o-a1-m7-cF 3j9o-a1-m1-cJ_3j9o-a1-m5-cL 3j9o-a1-m1-cJ_3j9o-a1-m7-cH 3j9o-a1-m1-cL_3j9o-a1-m2-cJ 3j9o-a1-m2-cB_3j9o-a1-m3-cL 3j9o-a1-m2-cD_3j9o-a1-m3-cB 3j9o-a1-m2-cF_3j9o-a1-m3-cD 3j9o-a1-m2-cH_3j9o-a1-m3-cF 3j9o-a1-m2-cJ_3j9o-a1-m3-cH 3j9o-a1-m2-cL_3j9o-a1-m3-cJ 3j9o-a1-m3-cB_3j9o-a1-m4-cL 3j9o-a1-m3-cD_3j9o-a1-m4-cB 3j9o-a1-m3-cF_3j9o-a1-m4-cD 3j9o-a1-m3-cH_3j9o-a1-m4-cF 3j9o-a1-m3-cJ_3j9o-a1-m4-cH 3j9o-a1-m3-cL_3j9o-a1-m4-cJ 3j9o-a1-m4-cB_3j9o-a1-m5-cL 3j9o-a1-m4-cD_3j9o-a1-m5-cB 3j9o-a1-m4-cF_3j9o-a1-m5-cD 3j9o-a1-m4-cH_3j9o-a1-m5-cF 3j9o-a1-m4-cJ_3j9o-a1-m5-cH 3j9o-a1-m4-cL_3j9o-a1-m5-cJ 3j9o-a1-m7-cB_3j9o-a1-m8-cL 3j9o-a1-m7-cD_3j9o-a1-m8-cB 3j9o-a1-m7-cF_3j9o-a1-m8-cD 3j9o-a1-m7-cH_3j9o-a1-m8-cF 3j9o-a1-m7-cJ_3j9o-a1-m8-cH 3j9o-a1-m7-cL_3j9o-a1-m8-cJ 3j9o-a1-m8-cD_3j9o-a1-m9-cB 3j9o-a1-m8-cF_3j9o-a1-m9-cD 3j9o-a1-m8-cH_3j9o-a1-m9-cF 3j9o-a1-m8-cJ_3j9o-a1-m9-cH 3j9o-a1-m8-cL_3j9o-a1-m9-cJ VIDKLIDLQVNSIISNDEFRALEQEWLKVQEVCQEDYDNVEVSILDVKKEELQYDFERNLYDISSSDFFKKVYVSEFDQYGGEPYGAILGLYNFENTTNDIIWLTGMGMVAKNSHAPFIASIDKSFFGVKDLSEITHIKSFEALLEHPRYKEWNDFRNLDVAAYIGLTVGDFMLRQPYNPENNPVQYKLMEGFNEFVDYDKNESYLWGPASIHLVKNMMRSYDKTRWFQYIRGVESGGYVKNLVACVYDNKGILETKSPLNVLFADYMELSLANIGLIPFVSEKGTSNACFFSVNSAKKVEEFVDGFDSANSRLIANLSYTMCISRISHYIKCVIRDKIGSIVDVESIQKILSDWISEFVTTVYQPTPLEMARYPFRNVSIEVKTIPGKPGWYSCKINVIPHIQFEGMNTTMTIDTRLEPELFGTNN VIDKLIDLQVNSIISNDEFRALEQEWLKVQEVCQEDYDNVEVSILDVKKEELQYDFERNLYDISSSDFFKKVYVSEFDQYGGEPYGAILGLYNFENTTNDIIWLTGMGMVAKNSHAPFIASIDKSFFGVKDLSEITHIKSFEALLEHPRYKEWNDFRNLDVAAYIGLTVGDFMLRQPYNPENNPVQYKLMEGFNEFVDYDKNESYLWGPASIHLVKNMMRSYDKTRWFQYIRGVESGGYVKNLVACVYDNKGILETKSPLNVLFADYMELSLANIGLIPFVSEKGTSNACFFSVNSAKKVEEFVDGFDSANSRLIANLSYTMCISRISHYIKCVIRDKIGSIVDVESIQKILSDWISEFVTTVYQPTPLEMARYPFRNVSIEVKTIPGKPGWYSCKINVIPHIQFEGMNTTMTIDTRLEPELFGTNN 3j9q-a1-m1-cF_3j9q-a1-m1-cm Atomic structures of a bactericidal contractile nanotube in its pre- and post-contraction states Q9S574 Q9S574 3.5 ELECTRON MICROSCOPY 17 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 385 385 3j9q-a1-m1-cA_3j9q-a1-m1-cX 3j9q-a1-m1-cB_3j9q-a1-m1-cd 3j9q-a1-m1-cC_3j9q-a1-m1-ca 3j9q-a1-m1-cD_3j9q-a1-m1-cj 3j9q-a1-m1-cE_3j9q-a1-m1-cg 3j9q-a1-m1-cG_3j9q-a1-m1-cH 3j9q-a1-m1-cI_3j9q-a1-m1-cJ 3j9q-a1-m1-cK_3j9q-a1-m1-cL 3j9q-a1-m1-cM_3j9q-a1-m1-cN 3j9q-a1-m1-cO_3j9q-a1-m1-cP 3j9q-a1-m1-cQ_3j9q-a1-m1-cR 6u5f-a1-m1-cG_6u5f-a1-m1-cg 6u5f-a1-m1-cH_6u5f-a1-m1-ch 6u5f-a1-m1-cI_6u5f-a1-m1-ci 6u5f-a1-m1-cJ_6u5f-a1-m1-cj 6u5f-a1-m1-cK_6u5f-a1-m1-ck 6u5f-a1-m1-cL_6u5f-a1-m1-cl 6u5f-a1-m1-cS_6u5f-a1-m1-cs 6u5f-a1-m1-cT_6u5f-a1-m1-ct 6u5f-a1-m1-cU_6u5f-a1-m1-cu 6u5f-a1-m1-cV_6u5f-a1-m1-cv 6u5f-a1-m1-cW_6u5f-a1-m1-cw 6u5f-a1-m1-cX_6u5f-a1-m1-cx SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA 3j9x-a1-m1-c1_3j9x-a1-m1-cz A Virus that Infects a Hyperthermophile Encapsidates A-Form DNA Q8V9P2 Q8V9P2 3.8 ELECTRON MICROSCOPY 62 1.0 157899 (Sulfolobus islandicus rod-shaped virus 2) 157899 (Sulfolobus islandicus rod-shaped virus 2) 128 128 3j9x-a1-m1-c2_3j9x-a1-m1-c3 3j9x-a1-m1-c4_3j9x-a1-m1-c5 3j9x-a1-m1-cb_3j9x-a1-m1-cc 3j9x-a1-m1-cB_3j9x-a1-m1-cC 3j9x-a1-m1-cd_3j9x-a1-m1-ce 3j9x-a1-m1-cD_3j9x-a1-m1-cE 3j9x-a1-m1-cf_3j9x-a1-m1-cg 3j9x-a1-m1-cF_3j9x-a1-m1-cG 3j9x-a1-m1-ch_3j9x-a1-m1-ci 3j9x-a1-m1-cH_3j9x-a1-m1-cI 3j9x-a1-m1-cj_3j9x-a1-m1-ck 3j9x-a1-m1-cJ_3j9x-a1-m1-cK 3j9x-a1-m1-cl_3j9x-a1-m1-cm 3j9x-a1-m1-cL_3j9x-a1-m1-cM 3j9x-a1-m1-cn_3j9x-a1-m1-co 3j9x-a1-m1-cN_3j9x-a1-m1-cO 3j9x-a1-m1-cp_3j9x-a1-m1-cq 3j9x-a1-m1-cP_3j9x-a1-m1-cQ 3j9x-a1-m1-cr_3j9x-a1-m1-cs 3j9x-a1-m1-cR_3j9x-a1-m1-cS 3j9x-a1-m1-ct_3j9x-a1-m1-cu 3j9x-a1-m1-cT_3j9x-a1-m1-cU 3j9x-a1-m1-cv_3j9x-a1-m1-cw 3j9x-a1-m1-cV_3j9x-a1-m1-cW 3j9x-a1-m1-cx_3j9x-a1-m1-cy 3j9x-a1-m1-cX_3j9x-a1-m1-cY 3j9x-a1-m1-cZ_3j9x-a1-m1-ca SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS 3j9x-a1-m1-cU_3j9x-a1-m1-cz A Virus that Infects a Hyperthermophile Encapsidates A-Form DNA Q8V9P2 Q8V9P2 3.8 ELECTRON MICROSCOPY 36 1.0 157899 (Sulfolobus islandicus rod-shaped virus 2) 157899 (Sulfolobus islandicus rod-shaped virus 2) 128 128 3j9x-a1-m1-c2_3j9x-a1-m1-cW 3j9x-a1-m1-c4_3j9x-a1-m1-cY 3j9x-a1-m1-c6_3j9x-a1-m1-ca 3j9x-a1-m1-cA_3j9x-a1-m1-cf 3j9x-a1-m1-cC_3j9x-a1-m1-ch 3j9x-a1-m1-cE_3j9x-a1-m1-cj 3j9x-a1-m1-cG_3j9x-a1-m1-cl 3j9x-a1-m1-cI_3j9x-a1-m1-cn 3j9x-a1-m1-cK_3j9x-a1-m1-cp 3j9x-a1-m1-cM_3j9x-a1-m1-cr 3j9x-a1-m1-cO_3j9x-a1-m1-ct 3j9x-a1-m1-cQ_3j9x-a1-m1-cv 3j9x-a1-m1-cS_3j9x-a1-m1-cx SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS 3j9x-a1-m1-cw_3j9x-a1-m1-cz A Virus that Infects a Hyperthermophile Encapsidates A-Form DNA Q8V9P2 Q8V9P2 3.8 ELECTRON MICROSCOPY 29 1.0 157899 (Sulfolobus islandicus rod-shaped virus 2) 157899 (Sulfolobus islandicus rod-shaped virus 2) 128 128 3j9x-a1-m1-c1_3j9x-a1-m1-c4 3j9x-a1-m1-c2_3j9x-a1-m1-cy 3j9x-a1-m1-c3_3j9x-a1-m1-c6 3j9x-a1-m1-ca_3j9x-a1-m1-cd 3j9x-a1-m1-cA_3j9x-a1-m1-cD 3j9x-a1-m1-cc_3j9x-a1-m1-cf 3j9x-a1-m1-cC_3j9x-a1-m1-cF 3j9x-a1-m1-ce_3j9x-a1-m1-ch 3j9x-a1-m1-cE_3j9x-a1-m1-cH 3j9x-a1-m1-cg_3j9x-a1-m1-cj 3j9x-a1-m1-cG_3j9x-a1-m1-cJ 3j9x-a1-m1-ci_3j9x-a1-m1-cl 3j9x-a1-m1-cI_3j9x-a1-m1-cL 3j9x-a1-m1-ck_3j9x-a1-m1-cn 3j9x-a1-m1-cK_3j9x-a1-m1-cN 3j9x-a1-m1-cm_3j9x-a1-m1-cp 3j9x-a1-m1-cM_3j9x-a1-m1-cP 3j9x-a1-m1-co_3j9x-a1-m1-cr 3j9x-a1-m1-cO_3j9x-a1-m1-cR 3j9x-a1-m1-cq_3j9x-a1-m1-ct 3j9x-a1-m1-cQ_3j9x-a1-m1-cT 3j9x-a1-m1-cs_3j9x-a1-m1-cv 3j9x-a1-m1-cS_3j9x-a1-m1-cV 3j9x-a1-m1-cu_3j9x-a1-m1-cx 3j9x-a1-m1-cU_3j9x-a1-m1-cX 3j9x-a1-m1-cW_3j9x-a1-m1-cZ 3j9x-a1-m1-cY_3j9x-a1-m1-cb SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS 3j9x-a1-m1-cx_3j9x-a1-m1-cz A Virus that Infects a Hyperthermophile Encapsidates A-Form DNA Q8V9P2 Q8V9P2 3.8 ELECTRON MICROSCOPY 24 1.0 157899 (Sulfolobus islandicus rod-shaped virus 2) 157899 (Sulfolobus islandicus rod-shaped virus 2) 128 128 3j9x-a1-m1-c1_3j9x-a1-m1-c3 3j9x-a1-m1-c1_3j9x-a1-m1-cy 3j9x-a1-m1-c2_3j9x-a1-m1-c4 3j9x-a1-m1-c2_3j9x-a1-m1-cz 3j9x-a1-m1-c3_3j9x-a1-m1-c5 3j9x-a1-m1-c4_3j9x-a1-m1-c6 3j9x-a1-m1-ca_3j9x-a1-m1-cc 3j9x-a1-m1-cA_3j9x-a1-m1-cC 3j9x-a1-m1-cb_3j9x-a1-m1-cd 3j9x-a1-m1-cB_3j9x-a1-m1-cD 3j9x-a1-m1-cc_3j9x-a1-m1-ce 3j9x-a1-m1-cC_3j9x-a1-m1-cE 3j9x-a1-m1-cd_3j9x-a1-m1-cf 3j9x-a1-m1-cD_3j9x-a1-m1-cF 3j9x-a1-m1-ce_3j9x-a1-m1-cg 3j9x-a1-m1-cE_3j9x-a1-m1-cG 3j9x-a1-m1-cf_3j9x-a1-m1-ch 3j9x-a1-m1-cF_3j9x-a1-m1-cH 3j9x-a1-m1-cg_3j9x-a1-m1-ci 3j9x-a1-m1-cG_3j9x-a1-m1-cI 3j9x-a1-m1-ch_3j9x-a1-m1-cj 3j9x-a1-m1-cH_3j9x-a1-m1-cJ 3j9x-a1-m1-ci_3j9x-a1-m1-ck 3j9x-a1-m1-cI_3j9x-a1-m1-cK 3j9x-a1-m1-cj_3j9x-a1-m1-cl 3j9x-a1-m1-cJ_3j9x-a1-m1-cL 3j9x-a1-m1-ck_3j9x-a1-m1-cm 3j9x-a1-m1-cK_3j9x-a1-m1-cM 3j9x-a1-m1-cl_3j9x-a1-m1-cn 3j9x-a1-m1-cL_3j9x-a1-m1-cN 3j9x-a1-m1-cm_3j9x-a1-m1-co 3j9x-a1-m1-cM_3j9x-a1-m1-cO 3j9x-a1-m1-cn_3j9x-a1-m1-cp 3j9x-a1-m1-cN_3j9x-a1-m1-cP 3j9x-a1-m1-co_3j9x-a1-m1-cq 3j9x-a1-m1-cO_3j9x-a1-m1-cQ 3j9x-a1-m1-cp_3j9x-a1-m1-cr 3j9x-a1-m1-cP_3j9x-a1-m1-cR 3j9x-a1-m1-cq_3j9x-a1-m1-cs 3j9x-a1-m1-cQ_3j9x-a1-m1-cS 3j9x-a1-m1-cr_3j9x-a1-m1-ct 3j9x-a1-m1-cR_3j9x-a1-m1-cT 3j9x-a1-m1-cs_3j9x-a1-m1-cu 3j9x-a1-m1-cS_3j9x-a1-m1-cU 3j9x-a1-m1-ct_3j9x-a1-m1-cv 3j9x-a1-m1-cT_3j9x-a1-m1-cV 3j9x-a1-m1-cu_3j9x-a1-m1-cw 3j9x-a1-m1-cU_3j9x-a1-m1-cW 3j9x-a1-m1-cv_3j9x-a1-m1-cx 3j9x-a1-m1-cV_3j9x-a1-m1-cX 3j9x-a1-m1-cw_3j9x-a1-m1-cy 3j9x-a1-m1-cW_3j9x-a1-m1-cY 3j9x-a1-m1-cX_3j9x-a1-m1-cZ 3j9x-a1-m1-cY_3j9x-a1-m1-ca 3j9x-a1-m1-cZ_3j9x-a1-m1-cb SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS 3j9x-a1-m1-cy_3j9x-a1-m1-cz A Virus that Infects a Hyperthermophile Encapsidates A-Form DNA Q8V9P2 Q8V9P2 3.8 ELECTRON MICROSCOPY 96 1.0 157899 (Sulfolobus islandicus rod-shaped virus 2) 157899 (Sulfolobus islandicus rod-shaped virus 2) 128 128 3j9x-a1-m1-c1_3j9x-a1-m1-c2 3j9x-a1-m1-c3_3j9x-a1-m1-c4 3j9x-a1-m1-c5_3j9x-a1-m1-c6 3j9x-a1-m1-ca_3j9x-a1-m1-cb 3j9x-a1-m1-cA_3j9x-a1-m1-cB 3j9x-a1-m1-cc_3j9x-a1-m1-cd 3j9x-a1-m1-cC_3j9x-a1-m1-cD 3j9x-a1-m1-ce_3j9x-a1-m1-cf 3j9x-a1-m1-cE_3j9x-a1-m1-cF 3j9x-a1-m1-cg_3j9x-a1-m1-ch 3j9x-a1-m1-cG_3j9x-a1-m1-cH 3j9x-a1-m1-ci_3j9x-a1-m1-cj 3j9x-a1-m1-cI_3j9x-a1-m1-cJ 3j9x-a1-m1-ck_3j9x-a1-m1-cl 3j9x-a1-m1-cK_3j9x-a1-m1-cL 3j9x-a1-m1-cm_3j9x-a1-m1-cn 3j9x-a1-m1-cM_3j9x-a1-m1-cN 3j9x-a1-m1-co_3j9x-a1-m1-cp 3j9x-a1-m1-cO_3j9x-a1-m1-cP 3j9x-a1-m1-cq_3j9x-a1-m1-cr 3j9x-a1-m1-cQ_3j9x-a1-m1-cR 3j9x-a1-m1-cs_3j9x-a1-m1-ct 3j9x-a1-m1-cS_3j9x-a1-m1-cT 3j9x-a1-m1-cu_3j9x-a1-m1-cv 3j9x-a1-m1-cU_3j9x-a1-m1-cV 3j9x-a1-m1-cw_3j9x-a1-m1-cx 3j9x-a1-m1-cW_3j9x-a1-m1-cX 3j9x-a1-m1-cY_3j9x-a1-m1-cZ SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS SRSYSQRYAKWQAKFNAFSNPTVASTILSNVSPVAQQNFQTNVPKFTSVNENVSAVLTQYGITGPNRAIYQGFGLKVARALNRIGSGPALVNMINGLKGYYISAFNANPQVLDAVVNIITGSPTGYVS 3ja6-a1-m1-cC_3ja6-a1-m1-cE Cryo-electron Tomography and All-atom Molecular Dynamics Simulations Reveal a Novel Kinase Conformational Switch in Bacterial Chemotaxis Signaling Q56310 Q56310 12.7 ELECTRON MICROSCOPY 113 1.0 562 (Escherichia coli) 562 (Escherichia coli) 379 379 SQTVRVDIEKLDNLMDLMGELVIARSRILETLKKYNIKELDESLSHLSRITLDLQNVVMKIRMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKEKVSEVSGRGVGMDVVKNVVESLNGSMGIESEKDKGTKVTIRLPLTLAIIQALLVKVNNLVYAIPIANIDTILSISKEDIQRVQDRDVIVIRGEVIPVYRLWEVLQIEHKEELEEMEAVIVRVGNRKYGIVVDDLLGQDDIVIKSLGKVFSEVKEFSGAAILGDGSIALIINVSGIV SQTVRVDIEKLDNLMDLMGELVIARSRILETLKKYNIKELDESLSHLSRITLDLQNVVMKIRMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKEKVSEVSGRGVGMDVVKNVVESLNGSMGIESEKDKGTKVTIRLPLTLAIIQALLVKVNNLVYAIPIANIDTILSISKEDIQRVQDRDVIVIRGEVIPVYRLWEVLQIEHKEELEEMEAVIVRVGNRKYGIVVDDLLGQDDIVIKSLGKVFSEVKEFSGAAILGDGSIALIINVSGIV 3ja6-a1-m1-cH_3ja6-a1-m1-cK Cryo-electron Tomography and All-atom Molecular Dynamics Simulations Reveal a Novel Kinase Conformational Switch in Bacterial Chemotaxis Signaling Q9X0M7 Q9X0M7 12.7 ELECTRON MICROSCOPY 10 0.997 562 (Escherichia coli) 562 (Escherichia coli) 307 309 3ja6-a1-m1-cJ_3ja6-a1-m1-cG SHMKDVQTETFSVAESIEEISKANEEITNQLLGISKEMDNISTRIESISASVQETTAGSEEISSATKNIADSAQQAASFADQSTQLAKEAGDALKKVIEVTRMISNSAKDVERVVESFQKGAEEITSFVETINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEESQQASENVRRVVNEIRSIAEDAGKVSSEITARVEEGTKLADEADEKLNSIVGAVERINEMLQNIAAAIEEQNAAVDEITTAMTENAKNAEEITNSVKEVNARLQEISASTEEVTSRVQTIRENVQMLKEIVARY GSHMKDVQTETFSVAESIEEISKANEEITNQLLGISKEMDNISTRIESISASVQETTAGSEEISSATKNIADSAQQAASFADQSTQLAKEAGDALKKVIEVTRMISNSAKDVERVVESFQKGAEEITSFVETINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEESQQASENVRRVVNEIRSIAEDAGKVSSEITARVEEGTKLADEADEKLNSIVGAVERINEMLQNIAAAIEEQTAAVDEITTAMTENAKNAEEITNSVKEVNARLQEISASTEEVTSRVQTIRENVQMLKEIVARYK 3ja6-a1-m1-cP_3ja6-a1-m1-cR Cryo-electron Tomography and All-atom Molecular Dynamics Simulations Reveal a Novel Kinase Conformational Switch in Bacterial Chemotaxis Signaling Q9X0M7 Q9X0M7 12.7 ELECTRON MICROSCOPY 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 307 307 SHMKDVQTETFSVAESIEEISKANEEITNQLLGISKEMDNISTRIESISASVQETTAGSEEISSATKNIADSAQQAASFADQSTQLAKEAGDALKKVIEVTRMISNSAKDVERVVESFQKGAEEITSFVETINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEESQQASENVRRVVNEIRSIAEDAGKVSSEITARVEEGTKLADEADEKLNSIVGAVERINEMLQNIAAAIEEQNAAVDEITTAMTENAKNAEEITNSVKEVNARLQEISASTEEVTSRVQTIRENVQMLKEIVARY SHMKDVQTETFSVAESIEEISKANEEITNQLLGISKEMDNISTRIESISASVQETTAGSEEISSATKNIADSAQQAASFADQSTQLAKEAGDALKKVIEVTRMISNSAKDVERVVESFQKGAEEITSFVETINAIAEQTNLLALNAAIEAARAGEAGRGFAVVADEIRKLAEESQQASENVRRVVNEIRSIAEDAGKVSSEITARVEEGTKLADEADEKLNSIVGAVERINEMLQNIAAAIEEQNAAVDEITTAMTENAKNAEEITNSVKEVNARLQEISASTEEVTSRVQTIRENVQMLKEIVARY 3jac-a1-m1-cA_3jac-a1-m1-cC Cryo-EM study of a channel E2JF22 E2JF22 4.8 ELECTRON MICROSCOPY 113 1.0 10090 (Mus musculus) 10090 (Mus musculus) 918 918 3jac-a1-m1-cA_3jac-a1-m1-cB 3jac-a1-m1-cB_3jac-a1-m1-cC 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 3jax-a1-m8-cE_3jax-a1-m8-cF Heavy meromyosin from Schistosoma mansoni muscle thick filament by negative stain EM A0A0R4I958 A0A0R4I958 23.0 ELECTRON MICROSCOPY 103 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 196 196 3dtp-a1-m10-cE_3dtp-a1-m10-cF 3dtp-a1-m11-cE_3dtp-a1-m11-cF 3dtp-a1-m12-cE_3dtp-a1-m12-cF 3dtp-a1-m13-cE_3dtp-a1-m13-cF 3dtp-a1-m14-cE_3dtp-a1-m14-cF 3dtp-a1-m15-cE_3dtp-a1-m15-cF 3dtp-a1-m16-cE_3dtp-a1-m16-cF 3dtp-a1-m18-cE_3dtp-a1-m18-cF 3dtp-a1-m19-cE_3dtp-a1-m19-cF 3dtp-a1-m1-cE_3dtp-a1-m1-cF 3dtp-a1-m20-cE_3dtp-a1-m20-cF 3dtp-a1-m21-cE_3dtp-a1-m21-cF 3dtp-a1-m22-cE_3dtp-a1-m22-cF 3dtp-a1-m23-cE_3dtp-a1-m23-cF 3dtp-a1-m24-cE_3dtp-a1-m24-cF 3dtp-a1-m25-cE_3dtp-a1-m25-cF 3dtp-a1-m26-cE_3dtp-a1-m26-cF 3dtp-a1-m27-cE_3dtp-a1-m27-cF 3dtp-a1-m28-cE_3dtp-a1-m28-cF 3dtp-a1-m29-cE_3dtp-a1-m29-cF 3dtp-a1-m2-cE_3dtp-a1-m2-cF 3dtp-a1-m30-cE_3dtp-a1-m30-cF 3dtp-a1-m31-cE_3dtp-a1-m31-cF 3dtp-a1-m32-cE_3dtp-a1-m32-cF 3dtp-a1-m33-cE_3dtp-a1-m33-cF 3dtp-a1-m34-cE_3dtp-a1-m34-cF 3dtp-a1-m35-cE_3dtp-a1-m35-cF 3dtp-a1-m36-cE_3dtp-a1-m36-cF 3dtp-a1-m3-cE_3dtp-a1-m3-cF 3dtp-a1-m4-cE_3dtp-a1-m4-cF 3dtp-a1-m5-cE_3dtp-a1-m5-cF 3dtp-a1-m6-cE_3dtp-a1-m6-cF 3dtp-a1-m7-cE_3dtp-a1-m7-cF 3dtp-a1-m8-cE_3dtp-a1-m8-cF 3dtp-a1-m9-cE_3dtp-a1-m9-cF 3jax-a1-m10-cE_3jax-a1-m10-cF 3jax-a1-m11-cE_3jax-a1-m11-cF 3jax-a1-m12-cE_3jax-a1-m12-cF 3jax-a1-m13-cE_3jax-a1-m13-cF 3jax-a1-m14-cE_3jax-a1-m14-cF 3jax-a1-m15-cE_3jax-a1-m15-cF 3jax-a1-m16-cE_3jax-a1-m16-cF 3jax-a1-m17-cE_3jax-a1-m17-cF 3jax-a1-m18-cE_3jax-a1-m18-cF 3jax-a1-m19-cE_3jax-a1-m19-cF 3jax-a1-m20-cE_3jax-a1-m20-cF 3jax-a1-m2-cE_3jax-a1-m2-cF 3jax-a1-m3-cE_3jax-a1-m3-cF 3jax-a1-m4-cE_3jax-a1-m4-cF 3jax-a1-m5-cE_3jax-a1-m5-cF 3jax-a1-m6-cE_3jax-a1-m6-cF 3jax-a1-m7-cE_3jax-a1-m7-cF 3jbh-a1-m10-cE_3jbh-a1-m10-cF 3jbh-a1-m10-cK_3jbh-a1-m10-cL 3jbh-a1-m11-cE_3jbh-a1-m11-cF 3jbh-a1-m11-cK_3jbh-a1-m11-cL 3jbh-a1-m12-cE_3jbh-a1-m12-cF 3jbh-a1-m12-cK_3jbh-a1-m12-cL 3jbh-a1-m13-cE_3jbh-a1-m13-cF 3jbh-a1-m13-cK_3jbh-a1-m13-cL 3jbh-a1-m14-cE_3jbh-a1-m14-cF 3jbh-a1-m14-cK_3jbh-a1-m14-cL 3jbh-a1-m15-cE_3jbh-a1-m15-cF 3jbh-a1-m15-cK_3jbh-a1-m15-cL 3jbh-a1-m16-cE_3jbh-a1-m16-cF 3jbh-a1-m16-cK_3jbh-a1-m16-cL 3jbh-a1-m17-cE_3jbh-a1-m17-cF 3jbh-a1-m17-cK_3jbh-a1-m17-cL 3jbh-a1-m18-cE_3jbh-a1-m18-cF 3jbh-a1-m18-cK_3jbh-a1-m18-cL 3jbh-a1-m19-cE_3jbh-a1-m19-cF 3jbh-a1-m19-cK_3jbh-a1-m19-cL 3jbh-a1-m1-cK_3jbh-a1-m1-cL 3jbh-a1-m20-cE_3jbh-a1-m20-cF 3jbh-a1-m20-cK_3jbh-a1-m20-cL 3jbh-a1-m2-cE_3jbh-a1-m2-cF 3jbh-a1-m2-cK_3jbh-a1-m2-cL 3jbh-a1-m3-cE_3jbh-a1-m3-cF 3jbh-a1-m3-cK_3jbh-a1-m3-cL 3jbh-a1-m4-cE_3jbh-a1-m4-cF 3jbh-a1-m4-cK_3jbh-a1-m4-cL 3jbh-a1-m5-cE_3jbh-a1-m5-cF 3jbh-a1-m5-cK_3jbh-a1-m5-cL 3jbh-a1-m6-cE_3jbh-a1-m6-cF 3jbh-a1-m6-cK_3jbh-a1-m6-cL 3jbh-a1-m7-cE_3jbh-a1-m7-cF 3jbh-a1-m7-cK_3jbh-a1-m7-cL 3jbh-a1-m8-cE_3jbh-a1-m8-cF 3jbh-a1-m8-cK_3jbh-a1-m8-cL MGDDEKKEKKKKSKKKAEEEGGDAPAAPPAPKPPSQKRRAQRSGSNVFAMFTQHQVQEFKEAFQLIDQDKDGFISKNDIRATFDSLGRLCTEQELDSMVAEAPGPINFTMFLTIFGDRIAGTDEEDVIVNAFNLFDEGDGKCKEETLKRSLTTWGEKFSQDEVDQALSEAPIDGNGLIDIKKFAQILTKGAKEEGA MGDDEKKEKKKKSKKKAEEEGGDAPAAPPAPKPPSQKRRAQRSGSNVFAMFTQHQVQEFKEAFQLIDQDKDGFISKNDIRATFDSLGRLCTEQELDSMVAEAPGPINFTMFLTIFGDRIAGTDEEDVIVNAFNLFDEGDGKCKEETLKRSLTTWGEKFSQDEVDQALSEAPIDGNGLIDIKKFAQILTKGAKEEGA 3jb4-a1-m23-cB_3jb4-a1-m9-cB Structure of Ljungan virus: insight into picornavirus packaging Q8JV21 Q8JV21 3.8 ELECTRON MICROSCOPY 213 1.0 172315 (Ljungan virus 87-012) 172315 (Ljungan virus 87-012) 222 222 3jb4-a1-m10-cB_3jb4-a1-m5-cB 3jb4-a1-m11-cB_3jb4-a1-m37-cB 3jb4-a1-m12-cB_3jb4-a1-m46-cB 3jb4-a1-m13-cB_3jb4-a1-m44-cB 3jb4-a1-m14-cB_3jb4-a1-m28-cB 3jb4-a1-m15-cB_3jb4-a1-m20-cB 3jb4-a1-m16-cB_3jb4-a1-m27-cB 3jb4-a1-m17-cB_3jb4-a1-m51-cB 3jb4-a1-m18-cB_3jb4-a1-m59-cB 3jb4-a1-m19-cB_3jb4-a1-m38-cB 3jb4-a1-m1-cB_3jb4-a1-m22-cB 3jb4-a1-m21-cB_3jb4-a1-m42-cB 3jb4-a1-m24-cB_3jb4-a1-m53-cB 3jb4-a1-m25-cB_3jb4-a1-m30-cB 3jb4-a1-m26-cB_3jb4-a1-m52-cB 3jb4-a1-m29-cB_3jb4-a1-m43-cB 3jb4-a1-m2-cB_3jb4-a1-m41-cB 3jb4-a1-m31-cB_3jb4-a1-m57-cB 3jb4-a1-m32-cB_3jb4-a1-m6-cB 3jb4-a1-m33-cB_3jb4-a1-m4-cB 3jb4-a1-m34-cB_3jb4-a1-m48-cB 3jb4-a1-m35-cB_3jb4-a1-m40-cB 3jb4-a1-m36-cB_3jb4-a1-m47-cB 3jb4-a1-m39-cB_3jb4-a1-m58-cB 3jb4-a1-m3-cB_3jb4-a1-m49-cB 3jb4-a1-m45-cB_3jb4-a1-m50-cB 3jb4-a1-m54-cB_3jb4-a1-m8-cB 3jb4-a1-m55-cB_3jb4-a1-m60-cB 3jb4-a1-m56-cB_3jb4-a1-m7-cB DRVAASTTTNAGNLVQASVAPTMPVKPDFKNTDDFLSMSYRSTTAPTNPTKMVHLAHGTWTTNQHRQALVASITLLQAFWPNQDFPAWGQSRYFAAVRCGFHIQVQLNVNIGSAGCLIAAYMPKTAHDHMNTYTFGSYTNLPHVLMNAATTSQADLYIPYVFNHNYARTDSDDLGGIYIWVWSALTVPSGSPTTVDVTIFGSLLDLDFQCPRPPGADTVIYT DRVAASTTTNAGNLVQASVAPTMPVKPDFKNTDDFLSMSYRSTTAPTNPTKMVHLAHGTWTTNQHRQALVASITLLQAFWPNQDFPAWGQSRYFAAVRCGFHIQVQLNVNIGSAGCLIAAYMPKTAHDHMNTYTFGSYTNLPHVLMNAATTSQADLYIPYVFNHNYARTDSDDLGGIYIWVWSALTVPSGSPTTVDVTIFGSLLDLDFQCPRPPGADTVIYT 3jb4-a1-m7-cC_3jb4-a1-m9-cC Structure of Ljungan virus: insight into picornavirus packaging Q8JV21 Q8JV21 3.8 ELECTRON MICROSCOPY 32 1.0 172315 (Ljungan virus 87-012) 172315 (Ljungan virus 87-012) 241 241 3jb4-a1-m10-cC_3jb4-a1-m7-cC 3jb4-a1-m10-cC_3jb4-a1-m8-cC 3jb4-a1-m11-cC_3jb4-a1-m13-cC 3jb4-a1-m11-cC_3jb4-a1-m14-cC 3jb4-a1-m12-cC_3jb4-a1-m14-cC 3jb4-a1-m12-cC_3jb4-a1-m15-cC 3jb4-a1-m13-cC_3jb4-a1-m15-cC 3jb4-a1-m16-cC_3jb4-a1-m18-cC 3jb4-a1-m16-cC_3jb4-a1-m19-cC 3jb4-a1-m17-cC_3jb4-a1-m19-cC 3jb4-a1-m17-cC_3jb4-a1-m20-cC 3jb4-a1-m18-cC_3jb4-a1-m20-cC 3jb4-a1-m1-cC_3jb4-a1-m3-cC 3jb4-a1-m1-cC_3jb4-a1-m4-cC 3jb4-a1-m21-cC_3jb4-a1-m23-cC 3jb4-a1-m21-cC_3jb4-a1-m24-cC 3jb4-a1-m22-cC_3jb4-a1-m24-cC 3jb4-a1-m22-cC_3jb4-a1-m25-cC 3jb4-a1-m23-cC_3jb4-a1-m25-cC 3jb4-a1-m26-cC_3jb4-a1-m28-cC 3jb4-a1-m26-cC_3jb4-a1-m29-cC 3jb4-a1-m27-cC_3jb4-a1-m29-cC 3jb4-a1-m27-cC_3jb4-a1-m30-cC 3jb4-a1-m28-cC_3jb4-a1-m30-cC 3jb4-a1-m2-cC_3jb4-a1-m4-cC 3jb4-a1-m2-cC_3jb4-a1-m5-cC 3jb4-a1-m31-cC_3jb4-a1-m33-cC 3jb4-a1-m31-cC_3jb4-a1-m34-cC 3jb4-a1-m32-cC_3jb4-a1-m34-cC 3jb4-a1-m32-cC_3jb4-a1-m35-cC 3jb4-a1-m33-cC_3jb4-a1-m35-cC 3jb4-a1-m36-cC_3jb4-a1-m38-cC 3jb4-a1-m36-cC_3jb4-a1-m39-cC 3jb4-a1-m37-cC_3jb4-a1-m39-cC 3jb4-a1-m37-cC_3jb4-a1-m40-cC 3jb4-a1-m38-cC_3jb4-a1-m40-cC 3jb4-a1-m3-cC_3jb4-a1-m5-cC 3jb4-a1-m41-cC_3jb4-a1-m43-cC 3jb4-a1-m41-cC_3jb4-a1-m44-cC 3jb4-a1-m42-cC_3jb4-a1-m44-cC 3jb4-a1-m42-cC_3jb4-a1-m45-cC 3jb4-a1-m43-cC_3jb4-a1-m45-cC 3jb4-a1-m46-cC_3jb4-a1-m48-cC 3jb4-a1-m46-cC_3jb4-a1-m49-cC 3jb4-a1-m47-cC_3jb4-a1-m49-cC 3jb4-a1-m47-cC_3jb4-a1-m50-cC 3jb4-a1-m48-cC_3jb4-a1-m50-cC 3jb4-a1-m51-cC_3jb4-a1-m53-cC 3jb4-a1-m51-cC_3jb4-a1-m54-cC 3jb4-a1-m52-cC_3jb4-a1-m54-cC 3jb4-a1-m52-cC_3jb4-a1-m55-cC 3jb4-a1-m53-cC_3jb4-a1-m55-cC 3jb4-a1-m56-cC_3jb4-a1-m58-cC 3jb4-a1-m56-cC_3jb4-a1-m59-cC 3jb4-a1-m57-cC_3jb4-a1-m59-cC 3jb4-a1-m57-cC_3jb4-a1-m60-cC 3jb4-a1-m58-cC_3jb4-a1-m60-cC 3jb4-a1-m6-cC_3jb4-a1-m8-cC 3jb4-a1-m6-cC_3jb4-a1-m9-cC TVRKTKTSKFKWVRNKIDIAEGPGAMNIANVLSTTGGQTIALVGERAFYDPRTAGAAVRCKDLMEIARMPSVFLGESTEPDGRRGYFTWSHTISPVNWVFDDHIYLENMPNLRLFSSCYNYWRGSFVIKLTVYASTFNKGRLRMAFFPNREGAYTQDDAQNAIFVVCDIGLNNTFEMTIPYTWGNWMRPTRGNSLGHLRIDVLNRLTYNSSSPNAVNCILQIKMGDDAMFMVPTTSNLVMQ 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3jb4-a1-m24-cA_3jb4-a1-m25-cA 3jb4-a1-m26-cA_3jb4-a1-m27-cA 3jb4-a1-m26-cA_3jb4-a1-m30-cA 3jb4-a1-m27-cA_3jb4-a1-m28-cA 3jb4-a1-m28-cA_3jb4-a1-m29-cA 3jb4-a1-m29-cA_3jb4-a1-m30-cA 3jb4-a1-m2-cA_3jb4-a1-m3-cA 3jb4-a1-m31-cA_3jb4-a1-m32-cA 3jb4-a1-m31-cA_3jb4-a1-m35-cA 3jb4-a1-m32-cA_3jb4-a1-m33-cA 3jb4-a1-m33-cA_3jb4-a1-m34-cA 3jb4-a1-m34-cA_3jb4-a1-m35-cA 3jb4-a1-m36-cA_3jb4-a1-m37-cA 3jb4-a1-m36-cA_3jb4-a1-m40-cA 3jb4-a1-m37-cA_3jb4-a1-m38-cA 3jb4-a1-m38-cA_3jb4-a1-m39-cA 3jb4-a1-m39-cA_3jb4-a1-m40-cA 3jb4-a1-m3-cA_3jb4-a1-m4-cA 3jb4-a1-m41-cA_3jb4-a1-m42-cA 3jb4-a1-m41-cA_3jb4-a1-m45-cA 3jb4-a1-m42-cA_3jb4-a1-m43-cA 3jb4-a1-m43-cA_3jb4-a1-m44-cA 3jb4-a1-m44-cA_3jb4-a1-m45-cA 3jb4-a1-m46-cA_3jb4-a1-m47-cA 3jb4-a1-m46-cA_3jb4-a1-m50-cA 3jb4-a1-m47-cA_3jb4-a1-m48-cA 3jb4-a1-m48-cA_3jb4-a1-m49-cA 3jb4-a1-m49-cA_3jb4-a1-m50-cA 3jb4-a1-m4-cA_3jb4-a1-m5-cA 3jb4-a1-m51-cA_3jb4-a1-m52-cA 3jb4-a1-m51-cA_3jb4-a1-m55-cA 3jb4-a1-m52-cA_3jb4-a1-m53-cA 3jb4-a1-m53-cA_3jb4-a1-m54-cA 3jb4-a1-m54-cA_3jb4-a1-m55-cA 3jb4-a1-m56-cA_3jb4-a1-m57-cA 3jb4-a1-m56-cA_3jb4-a1-m60-cA 3jb4-a1-m57-cA_3jb4-a1-m58-cA 3jb4-a1-m58-cA_3jb4-a1-m59-cA 3jb4-a1-m59-cA_3jb4-a1-m60-cA 3jb4-a1-m6-cA_3jb4-a1-m7-cA 3jb4-a1-m7-cA_3jb4-a1-m8-cA NVEAAQGEELATEVGLRATENDGSLSEQLNMSQPMFLNFKKHKVNIYAATHTKVDHIFGRAWAVGVFNTETAAIQKFDLHFPTSTHGALSRFFCHWTGELNIHILNVSTTNAFLKVAHTWFGTDSGIARTATLESNGTMIIPPNEQMTLCVPYYSEVPLRCVKGSDRNSAGLGSLFTQAVGRTISNRVQIFVSFRCPNFFFPLPAPREATSA NVEAAQGEELATEVGLRATENDGSLSEQLNMSQPMFLNFKKHKVNIYAATHTKVDHIFGRAWAVGVFNTETAAIQKFDLHFPTSTHGALSRFFCHWTGELNIHILNVSTTNAFLKVAHTWFGTDSGIARTATLESNGTMIIPPNEQMTLCVPYYSEVPLRCVKGSDRNSAGLGSLFTQAVGRTISNRVQIFVSFRCPNFFFPLPAPREATSA 3jb4-a1-m8-cC_3jb4-a1-m9-cC Structure of Ljungan virus: insight into picornavirus packaging Q8JV21 Q8JV21 3.8 ELECTRON MICROSCOPY 53 1.0 172315 (Ljungan virus 87-012) 172315 (Ljungan virus 87-012) 241 241 3jb4-a1-m10-cC_3jb4-a1-m6-cC 3jb4-a1-m10-cC_3jb4-a1-m9-cC 3jb4-a1-m11-cC_3jb4-a1-m12-cC 3jb4-a1-m11-cC_3jb4-a1-m15-cC 3jb4-a1-m12-cC_3jb4-a1-m13-cC 3jb4-a1-m13-cC_3jb4-a1-m14-cC 3jb4-a1-m14-cC_3jb4-a1-m15-cC 3jb4-a1-m16-cC_3jb4-a1-m17-cC 3jb4-a1-m16-cC_3jb4-a1-m20-cC 3jb4-a1-m17-cC_3jb4-a1-m18-cC 3jb4-a1-m18-cC_3jb4-a1-m19-cC 3jb4-a1-m19-cC_3jb4-a1-m20-cC 3jb4-a1-m1-cC_3jb4-a1-m2-cC 3jb4-a1-m1-cC_3jb4-a1-m5-cC 3jb4-a1-m21-cC_3jb4-a1-m22-cC 3jb4-a1-m21-cC_3jb4-a1-m25-cC 3jb4-a1-m22-cC_3jb4-a1-m23-cC 3jb4-a1-m23-cC_3jb4-a1-m24-cC 3jb4-a1-m24-cC_3jb4-a1-m25-cC 3jb4-a1-m26-cC_3jb4-a1-m27-cC 3jb4-a1-m26-cC_3jb4-a1-m30-cC 3jb4-a1-m27-cC_3jb4-a1-m28-cC 3jb4-a1-m28-cC_3jb4-a1-m29-cC 3jb4-a1-m29-cC_3jb4-a1-m30-cC 3jb4-a1-m2-cC_3jb4-a1-m3-cC 3jb4-a1-m31-cC_3jb4-a1-m32-cC 3jb4-a1-m31-cC_3jb4-a1-m35-cC 3jb4-a1-m32-cC_3jb4-a1-m33-cC 3jb4-a1-m33-cC_3jb4-a1-m34-cC 3jb4-a1-m34-cC_3jb4-a1-m35-cC 3jb4-a1-m36-cC_3jb4-a1-m37-cC 3jb4-a1-m36-cC_3jb4-a1-m40-cC 3jb4-a1-m37-cC_3jb4-a1-m38-cC 3jb4-a1-m38-cC_3jb4-a1-m39-cC 3jb4-a1-m39-cC_3jb4-a1-m40-cC 3jb4-a1-m3-cC_3jb4-a1-m4-cC 3jb4-a1-m41-cC_3jb4-a1-m42-cC 3jb4-a1-m41-cC_3jb4-a1-m45-cC 3jb4-a1-m42-cC_3jb4-a1-m43-cC 3jb4-a1-m43-cC_3jb4-a1-m44-cC 3jb4-a1-m44-cC_3jb4-a1-m45-cC 3jb4-a1-m46-cC_3jb4-a1-m47-cC 3jb4-a1-m46-cC_3jb4-a1-m50-cC 3jb4-a1-m47-cC_3jb4-a1-m48-cC 3jb4-a1-m48-cC_3jb4-a1-m49-cC 3jb4-a1-m49-cC_3jb4-a1-m50-cC 3jb4-a1-m4-cC_3jb4-a1-m5-cC 3jb4-a1-m51-cC_3jb4-a1-m52-cC 3jb4-a1-m51-cC_3jb4-a1-m55-cC 3jb4-a1-m52-cC_3jb4-a1-m53-cC 3jb4-a1-m53-cC_3jb4-a1-m54-cC 3jb4-a1-m54-cC_3jb4-a1-m55-cC 3jb4-a1-m56-cC_3jb4-a1-m57-cC 3jb4-a1-m56-cC_3jb4-a1-m60-cC 3jb4-a1-m57-cC_3jb4-a1-m58-cC 3jb4-a1-m58-cC_3jb4-a1-m59-cC 3jb4-a1-m59-cC_3jb4-a1-m60-cC 3jb4-a1-m6-cC_3jb4-a1-m7-cC 3jb4-a1-m7-cC_3jb4-a1-m8-cC TVRKTKTSKFKWVRNKIDIAEGPGAMNIANVLSTTGGQTIALVGERAFYDPRTAGAAVRCKDLMEIARMPSVFLGESTEPDGRRGYFTWSHTISPVNWVFDDHIYLENMPNLRLFSSCYNYWRGSFVIKLTVYASTFNKGRLRMAFFPNREGAYTQDDAQNAIFVVCDIGLNNTFEMTIPYTWGNWMRPTRGNSLGHLRIDVLNRLTYNSSSPNAVNCILQIKMGDDAMFMVPTTSNLVMQ TVRKTKTSKFKWVRNKIDIAEGPGAMNIANVLSTTGGQTIALVGERAFYDPRTAGAAVRCKDLMEIARMPSVFLGESTEPDGRRGYFTWSHTISPVNWVFDDHIYLENMPNLRLFSSCYNYWRGSFVIKLTVYASTFNKGRLRMAFFPNREGAYTQDDAQNAIFVVCDIGLNNTFEMTIPYTWGNWMRPTRGNSLGHLRIDVLNRLTYNSSSPNAVNCILQIKMGDDAMFMVPTTSNLVMQ 3jb5-a1-m10-cC_3jb5-a1-m9-cE Capsid Structure of the Propionibacterium acnes Bacteriophage ATCC_Clear A4K473 A4K473 3.7 ELECTRON MICROSCOPY 15 1.0 376758 (Propionibacterium phage PA6) 376758 (Propionibacterium phage PA6) 300 300 3jb5-a1-m10-cA_3jb5-a1-m6-cA 3jb5-a1-m10-cA_3jb5-a1-m9-cA 3jb5-a1-m10-cB_3jb5-a1-m23-cE 3jb5-a1-m10-cD_3jb5-a1-m23-cC 3jb5-a1-m10-cD_3jb5-a1-m5-cF 3jb5-a1-m10-cE_3jb5-a1-m6-cC 3jb5-a1-m10-cF_3jb5-a1-m5-cD 3jb5-a1-m10-cG_3jb5-a1-m6-cB 3jb5-a1-m10-cG_3jb5-a1-m9-cF 3jb5-a1-m11-cA_3jb5-a1-m12-cA 3jb5-a1-m11-cA_3jb5-a1-m15-cA 3jb5-a1-m11-cB_3jb5-a1-m20-cE 3jb5-a1-m11-cC_3jb5-a1-m15-cE 3jb5-a1-m11-cC_3jb5-a1-m38-cD 3jb5-a1-m11-cD_3jb5-a1-m20-cC 3jb5-a1-m11-cD_3jb5-a1-m37-cF 3jb5-a1-m11-cE_3jb5-a1-m12-cC 3jb5-a1-m11-cE_3jb5-a1-m38-cB 3jb5-a1-m11-cF_3jb5-a1-m37-cD 3jb5-a1-m11-cG_3jb5-a1-m12-cB 3jb5-a1-m11-cG_3jb5-a1-m15-cF 3jb5-a1-m12-cA_3jb5-a1-m13-cA 3jb5-a1-m12-cB_3jb5-a1-m37-cE 3jb5-a1-m12-cC_3jb5-a1-m47-cD 3jb5-a1-m12-cD_3jb5-a1-m37-cC 3jb5-a1-m12-cD_3jb5-a1-m46-cF 3jb5-a1-m12-cE_3jb5-a1-m13-cC 3jb5-a1-m12-cE_3jb5-a1-m47-cB 3jb5-a1-m12-cF_3jb5-a1-m46-cD 3jb5-a1-m12-cG_3jb5-a1-m11-cF 3jb5-a1-m12-cG_3jb5-a1-m13-cB 3jb5-a1-m13-cA_3jb5-a1-m14-cA 3jb5-a1-m13-cB_3jb5-a1-m46-cE 3jb5-a1-m13-cC_3jb5-a1-m45-cD 3jb5-a1-m13-cD_3jb5-a1-m44-cF 3jb5-a1-m13-cD_3jb5-a1-m46-cC 3jb5-a1-m13-cE_3jb5-a1-m14-cC 3jb5-a1-m13-cE_3jb5-a1-m45-cB 3jb5-a1-m13-cF_3jb5-a1-m44-cD 3jb5-a1-m13-cG_3jb5-a1-m12-cF 3jb5-a1-m13-cG_3jb5-a1-m14-cB 3jb5-a1-m14-cA_3jb5-a1-m15-cA 3jb5-a1-m14-cB_3jb5-a1-m44-cE 3jb5-a1-m14-cC_3jb5-a1-m29-cD 3jb5-a1-m14-cD_3jb5-a1-m28-cF 3jb5-a1-m14-cD_3jb5-a1-m44-cC 3jb5-a1-m14-cE_3jb5-a1-m15-cC 3jb5-a1-m14-cE_3jb5-a1-m29-cB 3jb5-a1-m14-cF_3jb5-a1-m28-cD 3jb5-a1-m14-cG_3jb5-a1-m13-cF 3jb5-a1-m14-cG_3jb5-a1-m15-cB 3jb5-a1-m15-cB_3jb5-a1-m28-cE 3jb5-a1-m15-cC_3jb5-a1-m16-cD 3jb5-a1-m15-cD_3jb5-a1-m20-cF 3jb5-a1-m15-cD_3jb5-a1-m28-cC 3jb5-a1-m15-cE_3jb5-a1-m16-cB 3jb5-a1-m15-cF_3jb5-a1-m20-cD 3jb5-a1-m15-cG_3jb5-a1-m11-cB 3jb5-a1-m15-cG_3jb5-a1-m14-cF 3jb5-a1-m16-cA_3jb5-a1-m17-cA 3jb5-a1-m16-cA_3jb5-a1-m20-cA 3jb5-a1-m16-cC_3jb5-a1-m20-cE 3jb5-a1-m16-cC_3jb5-a1-m28-cD 3jb5-a1-m16-cD_3jb5-a1-m27-cF 3jb5-a1-m16-cE_3jb5-a1-m17-cC 3jb5-a1-m16-cE_3jb5-a1-m28-cB 3jb5-a1-m16-cF_3jb5-a1-m27-cD 3jb5-a1-m16-cG_3jb5-a1-m17-cB 3jb5-a1-m16-cG_3jb5-a1-m20-cF 3jb5-a1-m17-cA_3jb5-a1-m18-cA 3jb5-a1-m17-cB_3jb5-a1-m27-cE 3jb5-a1-m17-cC_3jb5-a1-m52-cD 3jb5-a1-m17-cD_3jb5-a1-m27-cC 3jb5-a1-m17-cD_3jb5-a1-m51-cF 3jb5-a1-m17-cE_3jb5-a1-m18-cC 3jb5-a1-m17-cE_3jb5-a1-m52-cB 3jb5-a1-m17-cF_3jb5-a1-m51-cD 3jb5-a1-m17-cG_3jb5-a1-m16-cF 3jb5-a1-m17-cG_3jb5-a1-m18-cB 3jb5-a1-m18-cA_3jb5-a1-m19-cA 3jb5-a1-m18-cB_3jb5-a1-m51-cE 3jb5-a1-m18-cC_3jb5-a1-m60-cD 3jb5-a1-m18-cD_3jb5-a1-m51-cC 3jb5-a1-m18-cD_3jb5-a1-m59-cF 3jb5-a1-m18-cE_3jb5-a1-m19-cC 3jb5-a1-m18-cE_3jb5-a1-m60-cB 3jb5-a1-m18-cF_3jb5-a1-m59-cD 3jb5-a1-m18-cG_3jb5-a1-m17-cF 3jb5-a1-m18-cG_3jb5-a1-m19-cB 3jb5-a1-m19-cA_3jb5-a1-m20-cA 3jb5-a1-m19-cB_3jb5-a1-m59-cE 3jb5-a1-m19-cC_3jb5-a1-m39-cD 3jb5-a1-m19-cD_3jb5-a1-m38-cF 3jb5-a1-m19-cD_3jb5-a1-m59-cC 3jb5-a1-m19-cE_3jb5-a1-m20-cC 3jb5-a1-m19-cE_3jb5-a1-m39-cB 3jb5-a1-m19-cF_3jb5-a1-m38-cD 3jb5-a1-m19-cG_3jb5-a1-m18-cF 3jb5-a1-m19-cG_3jb5-a1-m20-cB 3jb5-a1-m1-cA_3jb5-a1-m2-cA 3jb5-a1-m1-cA_3jb5-a1-m5-cA 3jb5-a1-m1-cB_3jb5-a1-m10-cE 3jb5-a1-m1-cC_3jb5-a1-m23-cD 3jb5-a1-m1-cC_3jb5-a1-m5-cE 3jb5-a1-m1-cD_3jb5-a1-m10-cC 3jb5-a1-m1-cD_3jb5-a1-m22-cF 3jb5-a1-m1-cE_3jb5-a1-m23-cB 3jb5-a1-m1-cE_3jb5-a1-m2-cC 3jb5-a1-m1-cF_3jb5-a1-m22-cD 3jb5-a1-m1-cG_3jb5-a1-m2-cB 3jb5-a1-m1-cG_3jb5-a1-m5-cF 3jb5-a1-m20-cB_3jb5-a1-m38-cE 3jb5-a1-m20-cD_3jb5-a1-m38-cC 3jb5-a1-m20-cG_3jb5-a1-m16-cB 3jb5-a1-m20-cG_3jb5-a1-m19-cF 3jb5-a1-m21-cA_3jb5-a1-m22-cA 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3jb5-a1-m8-cE_3jb5-a1-m9-cC 3jb5-a1-m8-cG_3jb5-a1-m7-cF 3jb5-a1-m8-cG_3jb5-a1-m9-cB 3jb5-a1-m9-cG_3jb5-a1-m10-cB 3jb5-a1-m9-cG_3jb5-a1-m8-cF DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE 3jb5-a1-m10-cC_3jb5-a1-m9-cF Capsid Structure of the Propionibacterium acnes Bacteriophage ATCC_Clear A4K473 A4K473 3.7 ELECTRON MICROSCOPY 59 1.0 376758 (Propionibacterium phage PA6) 376758 (Propionibacterium phage PA6) 300 300 3jb5-a1-m10-cA_3jb5-a1-m6-cB 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3jb5-a1-m58-cA_3jb5-a1-m58-cF 3jb5-a1-m58-cB_3jb5-a1-m58-cC 3jb5-a1-m58-cC_3jb5-a1-m58-cD 3jb5-a1-m58-cD_3jb5-a1-m58-cE 3jb5-a1-m58-cE_3jb5-a1-m58-cF 3jb5-a1-m58-cG_3jb5-a1-m59-cG 3jb5-a1-m59-cA_3jb5-a1-m59-cB 3jb5-a1-m59-cA_3jb5-a1-m59-cF 3jb5-a1-m59-cB_3jb5-a1-m59-cC 3jb5-a1-m59-cC_3jb5-a1-m59-cD 3jb5-a1-m59-cD_3jb5-a1-m59-cE 3jb5-a1-m59-cE_3jb5-a1-m59-cF 3jb5-a1-m59-cG_3jb5-a1-m60-cG 3jb5-a1-m5-cA_3jb5-a1-m5-cB 3jb5-a1-m5-cA_3jb5-a1-m5-cF 3jb5-a1-m5-cB_3jb5-a1-m5-cC 3jb5-a1-m5-cC_3jb5-a1-m5-cD 3jb5-a1-m5-cD_3jb5-a1-m5-cE 3jb5-a1-m5-cE_3jb5-a1-m5-cF 3jb5-a1-m60-cA_3jb5-a1-m60-cB 3jb5-a1-m60-cA_3jb5-a1-m60-cF 3jb5-a1-m60-cB_3jb5-a1-m60-cC 3jb5-a1-m60-cC_3jb5-a1-m60-cD 3jb5-a1-m60-cD_3jb5-a1-m60-cE 3jb5-a1-m60-cE_3jb5-a1-m60-cF 3jb5-a1-m6-cA_3jb5-a1-m6-cB 3jb5-a1-m6-cA_3jb5-a1-m6-cF 3jb5-a1-m6-cB_3jb5-a1-m6-cC 3jb5-a1-m6-cC_3jb5-a1-m6-cD 3jb5-a1-m6-cD_3jb5-a1-m6-cE 3jb5-a1-m6-cE_3jb5-a1-m6-cF 3jb5-a1-m6-cG_3jb5-a1-m7-cG 3jb5-a1-m7-cA_3jb5-a1-m7-cB 3jb5-a1-m7-cA_3jb5-a1-m7-cF 3jb5-a1-m7-cB_3jb5-a1-m7-cC 3jb5-a1-m7-cC_3jb5-a1-m7-cD 3jb5-a1-m7-cD_3jb5-a1-m7-cE 3jb5-a1-m7-cE_3jb5-a1-m7-cF 3jb5-a1-m7-cG_3jb5-a1-m8-cG 3jb5-a1-m8-cA_3jb5-a1-m8-cB 3jb5-a1-m8-cA_3jb5-a1-m8-cF 3jb5-a1-m8-cB_3jb5-a1-m8-cC 3jb5-a1-m8-cC_3jb5-a1-m8-cD 3jb5-a1-m8-cD_3jb5-a1-m8-cE 3jb5-a1-m8-cE_3jb5-a1-m8-cF 3jb5-a1-m8-cG_3jb5-a1-m9-cG 3jb5-a1-m9-cA_3jb5-a1-m9-cB 3jb5-a1-m9-cA_3jb5-a1-m9-cF 3jb5-a1-m9-cC_3jb5-a1-m9-cD 3jb5-a1-m9-cD_3jb5-a1-m9-cE 3jb5-a1-m9-cE_3jb5-a1-m9-cF DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE 3jb5-a1-m9-cB_3jb5-a1-m9-cE Capsid Structure of the Propionibacterium acnes Bacteriophage ATCC_Clear A4K473 A4K473 3.7 ELECTRON MICROSCOPY 10 1.0 376758 (Propionibacterium phage PA6) 376758 (Propionibacterium phage PA6) 300 300 3jb5-a1-m10-cB_3jb5-a1-m10-cE 3jb5-a1-m11-cB_3jb5-a1-m11-cE 3jb5-a1-m12-cB_3jb5-a1-m12-cE 3jb5-a1-m13-cB_3jb5-a1-m13-cE 3jb5-a1-m14-cB_3jb5-a1-m14-cE 3jb5-a1-m15-cB_3jb5-a1-m15-cE 3jb5-a1-m16-cB_3jb5-a1-m16-cE 3jb5-a1-m17-cB_3jb5-a1-m17-cE 3jb5-a1-m18-cB_3jb5-a1-m18-cE 3jb5-a1-m19-cB_3jb5-a1-m19-cE 3jb5-a1-m1-cB_3jb5-a1-m1-cE 3jb5-a1-m20-cB_3jb5-a1-m20-cE 3jb5-a1-m21-cB_3jb5-a1-m21-cE 3jb5-a1-m22-cB_3jb5-a1-m22-cE 3jb5-a1-m23-cB_3jb5-a1-m23-cE 3jb5-a1-m24-cB_3jb5-a1-m24-cE 3jb5-a1-m25-cB_3jb5-a1-m25-cE 3jb5-a1-m26-cB_3jb5-a1-m26-cE 3jb5-a1-m27-cB_3jb5-a1-m27-cE 3jb5-a1-m28-cB_3jb5-a1-m28-cE 3jb5-a1-m29-cB_3jb5-a1-m29-cE 3jb5-a1-m2-cB_3jb5-a1-m2-cE 3jb5-a1-m30-cB_3jb5-a1-m30-cE 3jb5-a1-m31-cB_3jb5-a1-m31-cE 3jb5-a1-m32-cB_3jb5-a1-m32-cE 3jb5-a1-m33-cB_3jb5-a1-m33-cE 3jb5-a1-m34-cB_3jb5-a1-m34-cE 3jb5-a1-m35-cB_3jb5-a1-m35-cE 3jb5-a1-m36-cB_3jb5-a1-m36-cE 3jb5-a1-m37-cB_3jb5-a1-m37-cE 3jb5-a1-m38-cB_3jb5-a1-m38-cE 3jb5-a1-m39-cB_3jb5-a1-m39-cE 3jb5-a1-m3-cB_3jb5-a1-m3-cE 3jb5-a1-m40-cB_3jb5-a1-m40-cE 3jb5-a1-m41-cB_3jb5-a1-m41-cE 3jb5-a1-m42-cB_3jb5-a1-m42-cE 3jb5-a1-m43-cB_3jb5-a1-m43-cE 3jb5-a1-m44-cB_3jb5-a1-m44-cE 3jb5-a1-m45-cB_3jb5-a1-m45-cE 3jb5-a1-m46-cB_3jb5-a1-m46-cE 3jb5-a1-m47-cB_3jb5-a1-m47-cE 3jb5-a1-m48-cB_3jb5-a1-m48-cE 3jb5-a1-m49-cB_3jb5-a1-m49-cE 3jb5-a1-m4-cB_3jb5-a1-m4-cE 3jb5-a1-m50-cB_3jb5-a1-m50-cE 3jb5-a1-m51-cB_3jb5-a1-m51-cE 3jb5-a1-m52-cB_3jb5-a1-m52-cE 3jb5-a1-m53-cB_3jb5-a1-m53-cE 3jb5-a1-m54-cB_3jb5-a1-m54-cE 3jb5-a1-m55-cB_3jb5-a1-m55-cE 3jb5-a1-m56-cB_3jb5-a1-m56-cE 3jb5-a1-m57-cB_3jb5-a1-m57-cE 3jb5-a1-m58-cB_3jb5-a1-m58-cE 3jb5-a1-m59-cB_3jb5-a1-m59-cE 3jb5-a1-m5-cB_3jb5-a1-m5-cE 3jb5-a1-m60-cB_3jb5-a1-m60-cE 3jb5-a1-m6-cB_3jb5-a1-m6-cE 3jb5-a1-m7-cB_3jb5-a1-m7-cE 3jb5-a1-m8-cB_3jb5-a1-m8-cE DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE 3jb5-a1-m9-cB_3jb5-a1-m9-cF Capsid Structure of the Propionibacterium acnes Bacteriophage ATCC_Clear A4K473 A4K473 3.7 ELECTRON MICROSCOPY 10 1.0 376758 (Propionibacterium phage PA6) 376758 (Propionibacterium phage PA6) 300 300 3jb5-a1-m10-cB_3jb5-a1-m10-cF 3jb5-a1-m10-cC_3jb5-a1-m10-cE 3jb5-a1-m11-cB_3jb5-a1-m11-cF 3jb5-a1-m11-cC_3jb5-a1-m11-cE 3jb5-a1-m12-cB_3jb5-a1-m12-cF 3jb5-a1-m12-cC_3jb5-a1-m12-cE 3jb5-a1-m13-cB_3jb5-a1-m13-cF 3jb5-a1-m13-cC_3jb5-a1-m13-cE 3jb5-a1-m14-cB_3jb5-a1-m14-cF 3jb5-a1-m14-cC_3jb5-a1-m14-cE 3jb5-a1-m15-cB_3jb5-a1-m15-cF 3jb5-a1-m15-cC_3jb5-a1-m15-cE 3jb5-a1-m16-cB_3jb5-a1-m16-cF 3jb5-a1-m16-cC_3jb5-a1-m16-cE 3jb5-a1-m17-cB_3jb5-a1-m17-cF 3jb5-a1-m17-cC_3jb5-a1-m17-cE 3jb5-a1-m18-cB_3jb5-a1-m18-cF 3jb5-a1-m18-cC_3jb5-a1-m18-cE 3jb5-a1-m19-cB_3jb5-a1-m19-cF 3jb5-a1-m19-cC_3jb5-a1-m19-cE 3jb5-a1-m1-cB_3jb5-a1-m1-cF 3jb5-a1-m1-cC_3jb5-a1-m1-cE 3jb5-a1-m20-cB_3jb5-a1-m20-cF 3jb5-a1-m20-cC_3jb5-a1-m20-cE 3jb5-a1-m21-cB_3jb5-a1-m21-cF 3jb5-a1-m21-cC_3jb5-a1-m21-cE 3jb5-a1-m22-cB_3jb5-a1-m22-cF 3jb5-a1-m22-cC_3jb5-a1-m22-cE 3jb5-a1-m23-cB_3jb5-a1-m23-cF 3jb5-a1-m23-cC_3jb5-a1-m23-cE 3jb5-a1-m24-cB_3jb5-a1-m24-cF 3jb5-a1-m24-cC_3jb5-a1-m24-cE 3jb5-a1-m25-cB_3jb5-a1-m25-cF 3jb5-a1-m25-cC_3jb5-a1-m25-cE 3jb5-a1-m26-cB_3jb5-a1-m26-cF 3jb5-a1-m26-cC_3jb5-a1-m26-cE 3jb5-a1-m27-cB_3jb5-a1-m27-cF 3jb5-a1-m27-cC_3jb5-a1-m27-cE 3jb5-a1-m28-cB_3jb5-a1-m28-cF 3jb5-a1-m28-cC_3jb5-a1-m28-cE 3jb5-a1-m29-cB_3jb5-a1-m29-cF 3jb5-a1-m29-cC_3jb5-a1-m29-cE 3jb5-a1-m2-cB_3jb5-a1-m2-cF 3jb5-a1-m2-cC_3jb5-a1-m2-cE 3jb5-a1-m30-cB_3jb5-a1-m30-cF 3jb5-a1-m30-cC_3jb5-a1-m30-cE 3jb5-a1-m31-cB_3jb5-a1-m31-cF 3jb5-a1-m31-cC_3jb5-a1-m31-cE 3jb5-a1-m32-cB_3jb5-a1-m32-cF 3jb5-a1-m32-cC_3jb5-a1-m32-cE 3jb5-a1-m33-cB_3jb5-a1-m33-cF 3jb5-a1-m33-cC_3jb5-a1-m33-cE 3jb5-a1-m34-cB_3jb5-a1-m34-cF 3jb5-a1-m34-cC_3jb5-a1-m34-cE 3jb5-a1-m35-cB_3jb5-a1-m35-cF 3jb5-a1-m35-cC_3jb5-a1-m35-cE 3jb5-a1-m36-cB_3jb5-a1-m36-cF 3jb5-a1-m36-cC_3jb5-a1-m36-cE 3jb5-a1-m37-cB_3jb5-a1-m37-cF 3jb5-a1-m37-cC_3jb5-a1-m37-cE 3jb5-a1-m38-cB_3jb5-a1-m38-cF 3jb5-a1-m38-cC_3jb5-a1-m38-cE 3jb5-a1-m39-cB_3jb5-a1-m39-cF 3jb5-a1-m39-cC_3jb5-a1-m39-cE 3jb5-a1-m3-cB_3jb5-a1-m3-cF 3jb5-a1-m3-cC_3jb5-a1-m3-cE 3jb5-a1-m40-cB_3jb5-a1-m40-cF 3jb5-a1-m40-cC_3jb5-a1-m40-cE 3jb5-a1-m41-cB_3jb5-a1-m41-cF 3jb5-a1-m41-cC_3jb5-a1-m41-cE 3jb5-a1-m42-cB_3jb5-a1-m42-cF 3jb5-a1-m42-cC_3jb5-a1-m42-cE 3jb5-a1-m43-cB_3jb5-a1-m43-cF 3jb5-a1-m43-cC_3jb5-a1-m43-cE 3jb5-a1-m44-cB_3jb5-a1-m44-cF 3jb5-a1-m44-cC_3jb5-a1-m44-cE 3jb5-a1-m45-cB_3jb5-a1-m45-cF 3jb5-a1-m45-cC_3jb5-a1-m45-cE 3jb5-a1-m46-cB_3jb5-a1-m46-cF 3jb5-a1-m46-cC_3jb5-a1-m46-cE 3jb5-a1-m47-cB_3jb5-a1-m47-cF 3jb5-a1-m47-cC_3jb5-a1-m47-cE 3jb5-a1-m48-cB_3jb5-a1-m48-cF 3jb5-a1-m48-cC_3jb5-a1-m48-cE 3jb5-a1-m49-cB_3jb5-a1-m49-cF 3jb5-a1-m49-cC_3jb5-a1-m49-cE 3jb5-a1-m4-cB_3jb5-a1-m4-cF 3jb5-a1-m4-cC_3jb5-a1-m4-cE 3jb5-a1-m50-cB_3jb5-a1-m50-cF 3jb5-a1-m50-cC_3jb5-a1-m50-cE 3jb5-a1-m51-cB_3jb5-a1-m51-cF 3jb5-a1-m51-cC_3jb5-a1-m51-cE 3jb5-a1-m52-cB_3jb5-a1-m52-cF 3jb5-a1-m52-cC_3jb5-a1-m52-cE 3jb5-a1-m53-cB_3jb5-a1-m53-cF 3jb5-a1-m53-cC_3jb5-a1-m53-cE 3jb5-a1-m54-cB_3jb5-a1-m54-cF 3jb5-a1-m54-cC_3jb5-a1-m54-cE 3jb5-a1-m55-cB_3jb5-a1-m55-cF 3jb5-a1-m55-cC_3jb5-a1-m55-cE 3jb5-a1-m56-cB_3jb5-a1-m56-cF 3jb5-a1-m56-cC_3jb5-a1-m56-cE 3jb5-a1-m57-cB_3jb5-a1-m57-cF 3jb5-a1-m57-cC_3jb5-a1-m57-cE 3jb5-a1-m58-cB_3jb5-a1-m58-cF 3jb5-a1-m58-cC_3jb5-a1-m58-cE 3jb5-a1-m59-cB_3jb5-a1-m59-cF 3jb5-a1-m59-cC_3jb5-a1-m59-cE 3jb5-a1-m5-cB_3jb5-a1-m5-cF 3jb5-a1-m5-cC_3jb5-a1-m5-cE 3jb5-a1-m60-cB_3jb5-a1-m60-cF 3jb5-a1-m60-cC_3jb5-a1-m60-cE 3jb5-a1-m6-cB_3jb5-a1-m6-cF 3jb5-a1-m6-cC_3jb5-a1-m6-cE 3jb5-a1-m7-cB_3jb5-a1-m7-cF 3jb5-a1-m7-cC_3jb5-a1-m7-cE 3jb5-a1-m8-cB_3jb5-a1-m8-cF 3jb5-a1-m8-cC_3jb5-a1-m8-cE 3jb5-a1-m9-cC_3jb5-a1-m9-cE DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE DFLSVGKLELPGSMIGAVRDRAIDSGVLAKLSPEQPTIFGPVKGAVFSGVPRAKIVGEGEVKPSASVDVSAFTAQPIKVVTQQRVSDEFMWADADYRLGVLQDLISPALGASIGRAVDLIAFHGIDPATGKAASAVHTSLNKTKNIVDATDSATADLVKAVGLIAGAGLQVPNGVALDPAFSFALSTEVYPKGSPLAGQPMYPAAGFAGLDNWRGLNVGASSTVSGAPEMSPASGVKAIVGDFSRVHWGFQRNFPIELIEYGDPDQTGRDLKGHNEVMVRAEAVLYVAIESLDSFAVVKE 3jb8-a1-m7-cC_3jb8-a1-m9-cC Insight into Three-dimensional structure of Maize Chlorotic Mottle Virus Revealed by Single Particle Analysis I6QQC4 I6QQC4 3.6 ELECTRON MICROSCOPY 63 1.0 12138 (Maize chlorotic mottle virus) 12138 (Maize chlorotic mottle virus) 183 183 3jb8-a1-m10-cC_3jb8-a1-m7-cC 3jb8-a1-m10-cC_3jb8-a1-m8-cC 3jb8-a1-m11-cC_3jb8-a1-m13-cC 3jb8-a1-m11-cC_3jb8-a1-m14-cC 3jb8-a1-m12-cC_3jb8-a1-m14-cC 3jb8-a1-m12-cC_3jb8-a1-m15-cC 3jb8-a1-m13-cC_3jb8-a1-m15-cC 3jb8-a1-m16-cC_3jb8-a1-m18-cC 3jb8-a1-m16-cC_3jb8-a1-m19-cC 3jb8-a1-m17-cC_3jb8-a1-m19-cC 3jb8-a1-m17-cC_3jb8-a1-m20-cC 3jb8-a1-m18-cC_3jb8-a1-m20-cC 3jb8-a1-m1-cC_3jb8-a1-m3-cC 3jb8-a1-m1-cC_3jb8-a1-m4-cC 3jb8-a1-m21-cC_3jb8-a1-m23-cC 3jb8-a1-m21-cC_3jb8-a1-m24-cC 3jb8-a1-m22-cC_3jb8-a1-m24-cC 3jb8-a1-m22-cC_3jb8-a1-m25-cC 3jb8-a1-m23-cC_3jb8-a1-m25-cC 3jb8-a1-m26-cC_3jb8-a1-m28-cC 3jb8-a1-m26-cC_3jb8-a1-m29-cC 3jb8-a1-m27-cC_3jb8-a1-m29-cC 3jb8-a1-m27-cC_3jb8-a1-m30-cC 3jb8-a1-m28-cC_3jb8-a1-m30-cC 3jb8-a1-m2-cC_3jb8-a1-m4-cC 3jb8-a1-m2-cC_3jb8-a1-m5-cC 3jb8-a1-m31-cC_3jb8-a1-m33-cC 3jb8-a1-m31-cC_3jb8-a1-m34-cC 3jb8-a1-m32-cC_3jb8-a1-m34-cC 3jb8-a1-m32-cC_3jb8-a1-m35-cC 3jb8-a1-m33-cC_3jb8-a1-m35-cC 3jb8-a1-m36-cC_3jb8-a1-m38-cC 3jb8-a1-m36-cC_3jb8-a1-m39-cC 3jb8-a1-m37-cC_3jb8-a1-m39-cC 3jb8-a1-m37-cC_3jb8-a1-m40-cC 3jb8-a1-m38-cC_3jb8-a1-m40-cC 3jb8-a1-m3-cC_3jb8-a1-m5-cC 3jb8-a1-m41-cC_3jb8-a1-m43-cC 3jb8-a1-m41-cC_3jb8-a1-m44-cC 3jb8-a1-m42-cC_3jb8-a1-m44-cC 3jb8-a1-m42-cC_3jb8-a1-m45-cC 3jb8-a1-m43-cC_3jb8-a1-m45-cC 3jb8-a1-m46-cC_3jb8-a1-m48-cC 3jb8-a1-m46-cC_3jb8-a1-m49-cC 3jb8-a1-m47-cC_3jb8-a1-m49-cC 3jb8-a1-m47-cC_3jb8-a1-m50-cC 3jb8-a1-m48-cC_3jb8-a1-m50-cC 3jb8-a1-m51-cC_3jb8-a1-m53-cC 3jb8-a1-m51-cC_3jb8-a1-m54-cC 3jb8-a1-m52-cC_3jb8-a1-m54-cC 3jb8-a1-m52-cC_3jb8-a1-m55-cC 3jb8-a1-m53-cC_3jb8-a1-m55-cC 3jb8-a1-m56-cC_3jb8-a1-m58-cC 3jb8-a1-m56-cC_3jb8-a1-m59-cC 3jb8-a1-m57-cC_3jb8-a1-m59-cC 3jb8-a1-m57-cC_3jb8-a1-m60-cC 3jb8-a1-m58-cC_3jb8-a1-m60-cC 3jb8-a1-m6-cC_3jb8-a1-m8-cC 3jb8-a1-m6-cC_3jb8-a1-m9-cC GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPAL 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3jb8-a1-m27-cB_3jb8-a1-m28-cC 3jb8-a1-m28-cB_3jb8-a1-m29-cC 3jb8-a1-m29-cB_3jb8-a1-m30-cC 3jb8-a1-m2-cB_3jb8-a1-m3-cC 3jb8-a1-m30-cB_3jb8-a1-m26-cC 3jb8-a1-m31-cB_3jb8-a1-m32-cC 3jb8-a1-m32-cB_3jb8-a1-m33-cC 3jb8-a1-m33-cB_3jb8-a1-m34-cC 3jb8-a1-m34-cB_3jb8-a1-m35-cC 3jb8-a1-m35-cB_3jb8-a1-m31-cC 3jb8-a1-m36-cB_3jb8-a1-m37-cC 3jb8-a1-m37-cB_3jb8-a1-m38-cC 3jb8-a1-m38-cB_3jb8-a1-m39-cC 3jb8-a1-m39-cB_3jb8-a1-m40-cC 3jb8-a1-m3-cB_3jb8-a1-m4-cC 3jb8-a1-m40-cB_3jb8-a1-m36-cC 3jb8-a1-m41-cB_3jb8-a1-m42-cC 3jb8-a1-m42-cB_3jb8-a1-m43-cC 3jb8-a1-m43-cB_3jb8-a1-m44-cC 3jb8-a1-m44-cB_3jb8-a1-m45-cC 3jb8-a1-m45-cB_3jb8-a1-m41-cC 3jb8-a1-m46-cB_3jb8-a1-m47-cC 3jb8-a1-m47-cB_3jb8-a1-m48-cC 3jb8-a1-m48-cB_3jb8-a1-m49-cC 3jb8-a1-m49-cB_3jb8-a1-m50-cC 3jb8-a1-m4-cB_3jb8-a1-m5-cC 3jb8-a1-m50-cB_3jb8-a1-m46-cC 3jb8-a1-m51-cB_3jb8-a1-m52-cC 3jb8-a1-m52-cB_3jb8-a1-m53-cC 3jb8-a1-m53-cB_3jb8-a1-m54-cC 3jb8-a1-m54-cB_3jb8-a1-m55-cC 3jb8-a1-m55-cB_3jb8-a1-m51-cC 3jb8-a1-m56-cB_3jb8-a1-m57-cC 3jb8-a1-m57-cB_3jb8-a1-m58-cC 3jb8-a1-m58-cB_3jb8-a1-m59-cC 3jb8-a1-m59-cB_3jb8-a1-m60-cC 3jb8-a1-m5-cB_3jb8-a1-m1-cC 3jb8-a1-m60-cB_3jb8-a1-m56-cC 3jb8-a1-m6-cB_3jb8-a1-m7-cC 3jb8-a1-m7-cB_3jb8-a1-m8-cC 3jb8-a1-m9-cB_3jb8-a1-m10-cC GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPA GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPAL 3jb8-a1-m8-cC_3jb8-a1-m9-cC Insight into Three-dimensional structure of Maize Chlorotic Mottle Virus Revealed by Single Particle Analysis I6QQC4 I6QQC4 3.6 ELECTRON MICROSCOPY 315 1.0 12138 (Maize chlorotic mottle virus) 12138 (Maize chlorotic mottle virus) 183 183 3jb8-a1-m10-cB_3jb8-a1-m6-cA 3jb8-a1-m10-cC_3jb8-a1-m6-cC 3jb8-a1-m10-cC_3jb8-a1-m9-cC 3jb8-a1-m11-cB_3jb8-a1-m12-cA 3jb8-a1-m11-cC_3jb8-a1-m12-cC 3jb8-a1-m11-cC_3jb8-a1-m15-cC 3jb8-a1-m12-cB_3jb8-a1-m13-cA 3jb8-a1-m12-cC_3jb8-a1-m13-cC 3jb8-a1-m13-cB_3jb8-a1-m14-cA 3jb8-a1-m13-cC_3jb8-a1-m14-cC 3jb8-a1-m14-cB_3jb8-a1-m15-cA 3jb8-a1-m14-cC_3jb8-a1-m15-cC 3jb8-a1-m15-cB_3jb8-a1-m11-cA 3jb8-a1-m16-cB_3jb8-a1-m17-cA 3jb8-a1-m16-cC_3jb8-a1-m17-cC 3jb8-a1-m16-cC_3jb8-a1-m20-cC 3jb8-a1-m17-cB_3jb8-a1-m18-cA 3jb8-a1-m17-cC_3jb8-a1-m18-cC 3jb8-a1-m18-cB_3jb8-a1-m19-cA 3jb8-a1-m18-cC_3jb8-a1-m19-cC 3jb8-a1-m19-cB_3jb8-a1-m20-cA 3jb8-a1-m19-cC_3jb8-a1-m20-cC 3jb8-a1-m1-cB_3jb8-a1-m2-cA 3jb8-a1-m1-cC_3jb8-a1-m2-cC 3jb8-a1-m1-cC_3jb8-a1-m5-cC 3jb8-a1-m20-cB_3jb8-a1-m16-cA 3jb8-a1-m21-cB_3jb8-a1-m22-cA 3jb8-a1-m21-cC_3jb8-a1-m22-cC 3jb8-a1-m21-cC_3jb8-a1-m25-cC 3jb8-a1-m22-cB_3jb8-a1-m23-cA 3jb8-a1-m22-cC_3jb8-a1-m23-cC 3jb8-a1-m23-cB_3jb8-a1-m24-cA 3jb8-a1-m23-cC_3jb8-a1-m24-cC 3jb8-a1-m24-cB_3jb8-a1-m25-cA 3jb8-a1-m24-cC_3jb8-a1-m25-cC 3jb8-a1-m25-cB_3jb8-a1-m21-cA 3jb8-a1-m26-cB_3jb8-a1-m27-cA 3jb8-a1-m26-cC_3jb8-a1-m27-cC 3jb8-a1-m26-cC_3jb8-a1-m30-cC 3jb8-a1-m27-cB_3jb8-a1-m28-cA 3jb8-a1-m27-cC_3jb8-a1-m28-cC 3jb8-a1-m28-cB_3jb8-a1-m29-cA 3jb8-a1-m28-cC_3jb8-a1-m29-cC 3jb8-a1-m29-cB_3jb8-a1-m30-cA 3jb8-a1-m29-cC_3jb8-a1-m30-cC 3jb8-a1-m2-cB_3jb8-a1-m3-cA 3jb8-a1-m2-cC_3jb8-a1-m3-cC 3jb8-a1-m30-cB_3jb8-a1-m26-cA 3jb8-a1-m31-cB_3jb8-a1-m32-cA 3jb8-a1-m31-cC_3jb8-a1-m32-cC 3jb8-a1-m31-cC_3jb8-a1-m35-cC 3jb8-a1-m32-cB_3jb8-a1-m33-cA 3jb8-a1-m32-cC_3jb8-a1-m33-cC 3jb8-a1-m33-cB_3jb8-a1-m34-cA 3jb8-a1-m33-cC_3jb8-a1-m34-cC 3jb8-a1-m34-cB_3jb8-a1-m35-cA 3jb8-a1-m34-cC_3jb8-a1-m35-cC 3jb8-a1-m35-cB_3jb8-a1-m31-cA 3jb8-a1-m36-cB_3jb8-a1-m37-cA 3jb8-a1-m36-cC_3jb8-a1-m37-cC 3jb8-a1-m36-cC_3jb8-a1-m40-cC 3jb8-a1-m37-cB_3jb8-a1-m38-cA 3jb8-a1-m37-cC_3jb8-a1-m38-cC 3jb8-a1-m38-cB_3jb8-a1-m39-cA 3jb8-a1-m38-cC_3jb8-a1-m39-cC 3jb8-a1-m39-cB_3jb8-a1-m40-cA 3jb8-a1-m39-cC_3jb8-a1-m40-cC 3jb8-a1-m3-cB_3jb8-a1-m4-cA 3jb8-a1-m3-cC_3jb8-a1-m4-cC 3jb8-a1-m40-cB_3jb8-a1-m36-cA 3jb8-a1-m41-cB_3jb8-a1-m42-cA 3jb8-a1-m41-cC_3jb8-a1-m42-cC 3jb8-a1-m41-cC_3jb8-a1-m45-cC 3jb8-a1-m42-cB_3jb8-a1-m43-cA 3jb8-a1-m42-cC_3jb8-a1-m43-cC 3jb8-a1-m43-cB_3jb8-a1-m44-cA 3jb8-a1-m43-cC_3jb8-a1-m44-cC 3jb8-a1-m44-cB_3jb8-a1-m45-cA 3jb8-a1-m44-cC_3jb8-a1-m45-cC 3jb8-a1-m45-cB_3jb8-a1-m41-cA 3jb8-a1-m46-cB_3jb8-a1-m47-cA 3jb8-a1-m46-cC_3jb8-a1-m47-cC 3jb8-a1-m46-cC_3jb8-a1-m50-cC 3jb8-a1-m47-cB_3jb8-a1-m48-cA 3jb8-a1-m47-cC_3jb8-a1-m48-cC 3jb8-a1-m48-cB_3jb8-a1-m49-cA 3jb8-a1-m48-cC_3jb8-a1-m49-cC 3jb8-a1-m49-cB_3jb8-a1-m50-cA 3jb8-a1-m49-cC_3jb8-a1-m50-cC 3jb8-a1-m4-cB_3jb8-a1-m5-cA 3jb8-a1-m4-cC_3jb8-a1-m5-cC 3jb8-a1-m50-cB_3jb8-a1-m46-cA 3jb8-a1-m51-cB_3jb8-a1-m52-cA 3jb8-a1-m51-cC_3jb8-a1-m52-cC 3jb8-a1-m51-cC_3jb8-a1-m55-cC 3jb8-a1-m52-cB_3jb8-a1-m53-cA 3jb8-a1-m52-cC_3jb8-a1-m53-cC 3jb8-a1-m53-cB_3jb8-a1-m54-cA 3jb8-a1-m53-cC_3jb8-a1-m54-cC 3jb8-a1-m54-cB_3jb8-a1-m55-cA 3jb8-a1-m54-cC_3jb8-a1-m55-cC 3jb8-a1-m55-cB_3jb8-a1-m51-cA 3jb8-a1-m56-cB_3jb8-a1-m57-cA 3jb8-a1-m56-cC_3jb8-a1-m57-cC 3jb8-a1-m56-cC_3jb8-a1-m60-cC 3jb8-a1-m57-cB_3jb8-a1-m58-cA 3jb8-a1-m57-cC_3jb8-a1-m58-cC 3jb8-a1-m58-cB_3jb8-a1-m59-cA 3jb8-a1-m58-cC_3jb8-a1-m59-cC 3jb8-a1-m59-cB_3jb8-a1-m60-cA 3jb8-a1-m59-cC_3jb8-a1-m60-cC 3jb8-a1-m5-cB_3jb8-a1-m1-cA 3jb8-a1-m60-cB_3jb8-a1-m56-cA 3jb8-a1-m6-cB_3jb8-a1-m7-cA 3jb8-a1-m6-cC_3jb8-a1-m7-cC 3jb8-a1-m7-cB_3jb8-a1-m8-cA 3jb8-a1-m7-cC_3jb8-a1-m8-cC 3jb8-a1-m8-cB_3jb8-a1-m9-cA 3jb8-a1-m9-cB_3jb8-a1-m10-cA GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPAL GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPAL 3jb8-a1-m9-cB_3jb8-a1-m9-cC Insight into Three-dimensional structure of Maize Chlorotic Mottle Virus Revealed by Single Particle Analysis I6QQC4 I6QQC4 3.6 ELECTRON MICROSCOPY 53 1.0 12138 (Maize chlorotic mottle virus) 12138 (Maize chlorotic mottle virus) 182 183 3jb8-a1-m10-cB_3jb8-a1-m10-cA 3jb8-a1-m10-cB_3jb8-a1-m10-cC 3jb8-a1-m10-cC_3jb8-a1-m10-cA 3jb8-a1-m11-cB_3jb8-a1-m11-cA 3jb8-a1-m11-cB_3jb8-a1-m11-cC 3jb8-a1-m11-cC_3jb8-a1-m11-cA 3jb8-a1-m12-cB_3jb8-a1-m12-cA 3jb8-a1-m12-cB_3jb8-a1-m12-cC 3jb8-a1-m12-cC_3jb8-a1-m12-cA 3jb8-a1-m13-cB_3jb8-a1-m13-cA 3jb8-a1-m13-cB_3jb8-a1-m13-cC 3jb8-a1-m13-cC_3jb8-a1-m13-cA 3jb8-a1-m14-cB_3jb8-a1-m14-cA 3jb8-a1-m14-cB_3jb8-a1-m14-cC 3jb8-a1-m14-cC_3jb8-a1-m14-cA 3jb8-a1-m15-cB_3jb8-a1-m15-cA 3jb8-a1-m15-cB_3jb8-a1-m15-cC 3jb8-a1-m15-cC_3jb8-a1-m15-cA 3jb8-a1-m16-cB_3jb8-a1-m16-cA 3jb8-a1-m16-cB_3jb8-a1-m16-cC 3jb8-a1-m16-cC_3jb8-a1-m16-cA 3jb8-a1-m17-cB_3jb8-a1-m17-cA 3jb8-a1-m17-cB_3jb8-a1-m17-cC 3jb8-a1-m17-cC_3jb8-a1-m17-cA 3jb8-a1-m18-cB_3jb8-a1-m18-cA 3jb8-a1-m18-cB_3jb8-a1-m18-cC 3jb8-a1-m18-cC_3jb8-a1-m18-cA 3jb8-a1-m19-cB_3jb8-a1-m19-cA 3jb8-a1-m19-cB_3jb8-a1-m19-cC 3jb8-a1-m19-cC_3jb8-a1-m19-cA 3jb8-a1-m1-cB_3jb8-a1-m1-cA 3jb8-a1-m1-cB_3jb8-a1-m1-cC 3jb8-a1-m1-cC_3jb8-a1-m1-cA 3jb8-a1-m20-cB_3jb8-a1-m20-cA 3jb8-a1-m20-cB_3jb8-a1-m20-cC 3jb8-a1-m20-cC_3jb8-a1-m20-cA 3jb8-a1-m21-cB_3jb8-a1-m21-cA 3jb8-a1-m21-cB_3jb8-a1-m21-cC 3jb8-a1-m21-cC_3jb8-a1-m21-cA 3jb8-a1-m22-cB_3jb8-a1-m22-cA 3jb8-a1-m22-cB_3jb8-a1-m22-cC 3jb8-a1-m22-cC_3jb8-a1-m22-cA 3jb8-a1-m23-cB_3jb8-a1-m23-cA 3jb8-a1-m23-cB_3jb8-a1-m23-cC 3jb8-a1-m23-cC_3jb8-a1-m23-cA 3jb8-a1-m24-cB_3jb8-a1-m24-cA 3jb8-a1-m24-cB_3jb8-a1-m24-cC 3jb8-a1-m24-cC_3jb8-a1-m24-cA 3jb8-a1-m25-cB_3jb8-a1-m25-cA 3jb8-a1-m25-cB_3jb8-a1-m25-cC 3jb8-a1-m25-cC_3jb8-a1-m25-cA 3jb8-a1-m26-cB_3jb8-a1-m26-cA 3jb8-a1-m26-cB_3jb8-a1-m26-cC 3jb8-a1-m26-cC_3jb8-a1-m26-cA 3jb8-a1-m27-cB_3jb8-a1-m27-cA 3jb8-a1-m27-cB_3jb8-a1-m27-cC 3jb8-a1-m27-cC_3jb8-a1-m27-cA 3jb8-a1-m28-cB_3jb8-a1-m28-cA 3jb8-a1-m28-cB_3jb8-a1-m28-cC 3jb8-a1-m28-cC_3jb8-a1-m28-cA 3jb8-a1-m29-cB_3jb8-a1-m29-cA 3jb8-a1-m29-cB_3jb8-a1-m29-cC 3jb8-a1-m29-cC_3jb8-a1-m29-cA 3jb8-a1-m2-cB_3jb8-a1-m2-cA 3jb8-a1-m2-cB_3jb8-a1-m2-cC 3jb8-a1-m2-cC_3jb8-a1-m2-cA 3jb8-a1-m30-cB_3jb8-a1-m30-cA 3jb8-a1-m30-cB_3jb8-a1-m30-cC 3jb8-a1-m30-cC_3jb8-a1-m30-cA 3jb8-a1-m31-cB_3jb8-a1-m31-cA 3jb8-a1-m31-cB_3jb8-a1-m31-cC 3jb8-a1-m31-cC_3jb8-a1-m31-cA 3jb8-a1-m32-cB_3jb8-a1-m32-cA 3jb8-a1-m32-cB_3jb8-a1-m32-cC 3jb8-a1-m32-cC_3jb8-a1-m32-cA 3jb8-a1-m33-cB_3jb8-a1-m33-cA 3jb8-a1-m33-cB_3jb8-a1-m33-cC 3jb8-a1-m33-cC_3jb8-a1-m33-cA 3jb8-a1-m34-cB_3jb8-a1-m34-cA 3jb8-a1-m34-cB_3jb8-a1-m34-cC 3jb8-a1-m34-cC_3jb8-a1-m34-cA 3jb8-a1-m35-cB_3jb8-a1-m35-cA 3jb8-a1-m35-cB_3jb8-a1-m35-cC 3jb8-a1-m35-cC_3jb8-a1-m35-cA 3jb8-a1-m36-cB_3jb8-a1-m36-cA 3jb8-a1-m36-cB_3jb8-a1-m36-cC 3jb8-a1-m36-cC_3jb8-a1-m36-cA 3jb8-a1-m37-cB_3jb8-a1-m37-cA 3jb8-a1-m37-cB_3jb8-a1-m37-cC 3jb8-a1-m37-cC_3jb8-a1-m37-cA 3jb8-a1-m38-cB_3jb8-a1-m38-cA 3jb8-a1-m38-cB_3jb8-a1-m38-cC 3jb8-a1-m38-cC_3jb8-a1-m38-cA 3jb8-a1-m39-cB_3jb8-a1-m39-cA 3jb8-a1-m39-cB_3jb8-a1-m39-cC 3jb8-a1-m39-cC_3jb8-a1-m39-cA 3jb8-a1-m3-cB_3jb8-a1-m3-cA 3jb8-a1-m3-cB_3jb8-a1-m3-cC 3jb8-a1-m3-cC_3jb8-a1-m3-cA 3jb8-a1-m40-cB_3jb8-a1-m40-cA 3jb8-a1-m40-cB_3jb8-a1-m40-cC 3jb8-a1-m40-cC_3jb8-a1-m40-cA 3jb8-a1-m41-cB_3jb8-a1-m41-cA 3jb8-a1-m41-cB_3jb8-a1-m41-cC 3jb8-a1-m41-cC_3jb8-a1-m41-cA 3jb8-a1-m42-cB_3jb8-a1-m42-cA 3jb8-a1-m42-cB_3jb8-a1-m42-cC 3jb8-a1-m42-cC_3jb8-a1-m42-cA 3jb8-a1-m43-cB_3jb8-a1-m43-cA 3jb8-a1-m43-cB_3jb8-a1-m43-cC 3jb8-a1-m43-cC_3jb8-a1-m43-cA 3jb8-a1-m44-cB_3jb8-a1-m44-cA 3jb8-a1-m44-cB_3jb8-a1-m44-cC 3jb8-a1-m44-cC_3jb8-a1-m44-cA 3jb8-a1-m45-cB_3jb8-a1-m45-cA 3jb8-a1-m45-cB_3jb8-a1-m45-cC 3jb8-a1-m45-cC_3jb8-a1-m45-cA 3jb8-a1-m46-cB_3jb8-a1-m46-cA 3jb8-a1-m46-cB_3jb8-a1-m46-cC 3jb8-a1-m46-cC_3jb8-a1-m46-cA 3jb8-a1-m47-cB_3jb8-a1-m47-cA 3jb8-a1-m47-cB_3jb8-a1-m47-cC 3jb8-a1-m47-cC_3jb8-a1-m47-cA 3jb8-a1-m48-cB_3jb8-a1-m48-cA 3jb8-a1-m48-cB_3jb8-a1-m48-cC 3jb8-a1-m48-cC_3jb8-a1-m48-cA 3jb8-a1-m49-cB_3jb8-a1-m49-cA 3jb8-a1-m49-cB_3jb8-a1-m49-cC 3jb8-a1-m49-cC_3jb8-a1-m49-cA 3jb8-a1-m4-cB_3jb8-a1-m4-cA 3jb8-a1-m4-cB_3jb8-a1-m4-cC 3jb8-a1-m4-cC_3jb8-a1-m4-cA 3jb8-a1-m50-cB_3jb8-a1-m50-cA 3jb8-a1-m50-cB_3jb8-a1-m50-cC 3jb8-a1-m50-cC_3jb8-a1-m50-cA 3jb8-a1-m51-cB_3jb8-a1-m51-cA 3jb8-a1-m51-cB_3jb8-a1-m51-cC 3jb8-a1-m51-cC_3jb8-a1-m51-cA 3jb8-a1-m52-cB_3jb8-a1-m52-cA 3jb8-a1-m52-cB_3jb8-a1-m52-cC 3jb8-a1-m52-cC_3jb8-a1-m52-cA 3jb8-a1-m53-cB_3jb8-a1-m53-cA 3jb8-a1-m53-cB_3jb8-a1-m53-cC 3jb8-a1-m53-cC_3jb8-a1-m53-cA 3jb8-a1-m54-cB_3jb8-a1-m54-cA 3jb8-a1-m54-cB_3jb8-a1-m54-cC 3jb8-a1-m54-cC_3jb8-a1-m54-cA 3jb8-a1-m55-cB_3jb8-a1-m55-cA 3jb8-a1-m55-cB_3jb8-a1-m55-cC 3jb8-a1-m55-cC_3jb8-a1-m55-cA 3jb8-a1-m56-cB_3jb8-a1-m56-cA 3jb8-a1-m56-cB_3jb8-a1-m56-cC 3jb8-a1-m56-cC_3jb8-a1-m56-cA 3jb8-a1-m57-cB_3jb8-a1-m57-cA 3jb8-a1-m57-cB_3jb8-a1-m57-cC 3jb8-a1-m57-cC_3jb8-a1-m57-cA 3jb8-a1-m58-cB_3jb8-a1-m58-cA 3jb8-a1-m58-cB_3jb8-a1-m58-cC 3jb8-a1-m58-cC_3jb8-a1-m58-cA 3jb8-a1-m59-cB_3jb8-a1-m59-cA 3jb8-a1-m59-cB_3jb8-a1-m59-cC 3jb8-a1-m59-cC_3jb8-a1-m59-cA 3jb8-a1-m5-cB_3jb8-a1-m5-cA 3jb8-a1-m5-cB_3jb8-a1-m5-cC 3jb8-a1-m5-cC_3jb8-a1-m5-cA 3jb8-a1-m60-cB_3jb8-a1-m60-cA 3jb8-a1-m60-cB_3jb8-a1-m60-cC 3jb8-a1-m60-cC_3jb8-a1-m60-cA 3jb8-a1-m6-cB_3jb8-a1-m6-cA 3jb8-a1-m6-cB_3jb8-a1-m6-cC 3jb8-a1-m6-cC_3jb8-a1-m6-cA 3jb8-a1-m7-cB_3jb8-a1-m7-cA 3jb8-a1-m7-cB_3jb8-a1-m7-cC 3jb8-a1-m7-cC_3jb8-a1-m7-cA 3jb8-a1-m8-cB_3jb8-a1-m8-cA 3jb8-a1-m8-cB_3jb8-a1-m8-cC 3jb8-a1-m8-cC_3jb8-a1-m8-cA 3jb8-a1-m9-cB_3jb8-a1-m9-cA 3jb8-a1-m9-cC_3jb8-a1-m9-cA GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPA GTTCSMSEILLAVSATTADQILEIPVCAGIDFPAGTPPRYIGAAKWLAAQSQMWNTIVFNSVRITWETFTADTTSGYISMAFLSDYMLSLPTGVEDVARIVPSATIALKNRGPSIVMPQNRTAFRCIQAGQFAALGSAADKQMYSPGRFIVAIPKASATQAVGQIKISYSVSYRGAAILQPAL 3jb9-a1-m1-cS_3jb9-a1-m1-cU Cryo-EM structure of the yeast spliceosome at 3.6 angstrom resolution O14011 O14011 3.6 ELECTRON MICROSCOPY 26 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 132 430 MFCSISGETPKEPVISRVSGNVYEKRLIEQVIRETSKDPVTQQECTLEDLVPVKVPDFVRPRPPSATSLPALLSLFQEEWDSVALEQFELRRNLTETKQELSTALYSLDAALRVISRLTKERDEAREALAKF MFCSISGETPKEPVISRVSGNVYEKRLIEQVIRETSKDPVTQQECTLEDLVPVKVPDFVRPRPPSATSLPALLSLFQEEWDSVALEQFELRRNLTETKQELSTALYSLDAALRVISRLTKERDEAREALAKFSDNLSSKRKRTKLQPKWATDDAVSQLLQATPSTILENLETESTTSFFPSPENSSFVLCLHKDELLCLDIQSEGSALACCWLTSSKIAVATADAISIFEFPVSSSGLQSVGEIDEKVNFLQAHPSGEYLLAASNEKCYIFSKSQVYNITVAQHITSLAVHPDGNLFVAGLENGELRFFETSSGNELTKFGPHSSPVKTLQFGENGYWLVVTTNSDIFIWDLRKSELVQKIPLQTKVAAVSLDITQLLVSSDGETLYVHIYVKSRCMSQTHVSSISNLVWLNELHQLLFSTSNGAILRLG 3jb9-a1-m1-cV_3jb9-a1-m1-cS Cryo-EM structure of the yeast spliceosome at 3.6 angstrom resolution O14011 O14011 3.6 ELECTRON MICROSCOPY 86 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 131 132 3jb9-a1-m1-cT_3jb9-a1-m1-cU MFCSISGETPKEPVISRVSGNVYEKRLIEQVIRETSKDPVTQQECTLEDLVPVKVPDFVRPRPPSATSLPALLSLFQEEWDSVALEQFELRRNLTETKQELSTALYSLDAALRVISRLTKERDEAREALAK MFCSISGETPKEPVISRVSGNVYEKRLIEQVIRETSKDPVTQQECTLEDLVPVKVPDFVRPRPPSATSLPALLSLFQEEWDSVALEQFELRRNLTETKQELSTALYSLDAALRVISRLTKERDEAREALAKF 3jb9-a1-m1-cV_3jb9-a1-m1-cU Cryo-EM structure of the yeast spliceosome at 3.6 angstrom resolution O14011 O14011 3.6 ELECTRON MICROSCOPY 71 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 131 430 3jb9-a1-m1-cS_3jb9-a1-m1-cT MFCSISGETPKEPVISRVSGNVYEKRLIEQVIRETSKDPVTQQECTLEDLVPVKVPDFVRPRPPSATSLPALLSLFQEEWDSVALEQFELRRNLTETKQELSTALYSLDAALRVISRLTKERDEAREALAK MFCSISGETPKEPVISRVSGNVYEKRLIEQVIRETSKDPVTQQECTLEDLVPVKVPDFVRPRPPSATSLPALLSLFQEEWDSVALEQFELRRNLTETKQELSTALYSLDAALRVISRLTKERDEAREALAKFSDNLSSKRKRTKLQPKWATDDAVSQLLQATPSTILENLETESTTSFFPSPENSSFVLCLHKDELLCLDIQSEGSALACCWLTSSKIAVATADAISIFEFPVSSSGLQSVGEIDEKVNFLQAHPSGEYLLAASNEKCYIFSKSQVYNITVAQHITSLAVHPDGNLFVAGLENGELRFFETSSGNELTKFGPHSSPVKTLQFGENGYWLVVTTNSDIFIWDLRKSELVQKIPLQTKVAAVSLDITQLLVSSDGETLYVHIYVKSRCMSQTHVSSISNLVWLNELHQLLFSTSNGAILRLG 3jbh-a1-m8-cG_3jbh-a1-m8-cH TWO HEAVY MEROMYOSIN INTERACTING-HEADS MOTIFS FLEXIBLE DOCKED INTO TARANTULA THICK FILAMENT 3D-MAP ALLOWS IN DEPTH STUDY OF INTRA- AND INTERMOLECULAR INTERACTIONS A0A140UGH3 A0A140UGH3 20.0 ELECTRON MICROSCOPY 294 1.0 6896 (Aphonopelma) 6896 (Aphonopelma) 962 964 3jbh-a1-m10-cA_3jbh-a1-m10-cB 3jbh-a1-m10-cG_3jbh-a1-m10-cH 3jbh-a1-m11-cA_3jbh-a1-m11-cB 3jbh-a1-m11-cG_3jbh-a1-m11-cH 3jbh-a1-m12-cA_3jbh-a1-m12-cB 3jbh-a1-m12-cG_3jbh-a1-m12-cH 3jbh-a1-m13-cA_3jbh-a1-m13-cB 3jbh-a1-m13-cG_3jbh-a1-m13-cH 3jbh-a1-m14-cA_3jbh-a1-m14-cB 3jbh-a1-m14-cG_3jbh-a1-m14-cH 3jbh-a1-m15-cA_3jbh-a1-m15-cB 3jbh-a1-m15-cG_3jbh-a1-m15-cH 3jbh-a1-m16-cA_3jbh-a1-m16-cB 3jbh-a1-m16-cG_3jbh-a1-m16-cH 3jbh-a1-m17-cA_3jbh-a1-m17-cB 3jbh-a1-m17-cG_3jbh-a1-m17-cH 3jbh-a1-m18-cA_3jbh-a1-m18-cB 3jbh-a1-m18-cG_3jbh-a1-m18-cH 3jbh-a1-m19-cA_3jbh-a1-m19-cB 3jbh-a1-m19-cG_3jbh-a1-m19-cH 3jbh-a1-m1-cA_3jbh-a1-m1-cB 3jbh-a1-m1-cG_3jbh-a1-m1-cH 3jbh-a1-m20-cA_3jbh-a1-m20-cB 3jbh-a1-m20-cG_3jbh-a1-m20-cH 3jbh-a1-m2-cA_3jbh-a1-m2-cB 3jbh-a1-m2-cG_3jbh-a1-m2-cH 3jbh-a1-m3-cA_3jbh-a1-m3-cB 3jbh-a1-m3-cG_3jbh-a1-m3-cH 3jbh-a1-m4-cA_3jbh-a1-m4-cB 3jbh-a1-m4-cG_3jbh-a1-m4-cH 3jbh-a1-m5-cA_3jbh-a1-m5-cB 3jbh-a1-m5-cG_3jbh-a1-m5-cH 3jbh-a1-m6-cA_3jbh-a1-m6-cB 3jbh-a1-m6-cG_3jbh-a1-m6-cH 3jbh-a1-m7-cA_3jbh-a1-m7-cB 3jbh-a1-m7-cG_3jbh-a1-m7-cH 3jbh-a1-m8-cA_3jbh-a1-m8-cB MAEDPDPTEYLYISMEQKRKDQTKPYDGKKMVWVADEKEGYLLGLIKSTQGDICTVDIEGQESRQVKKDLLQQVNPPKYEKCEDMSNLTYLNDASVLHNLKQRYYANLIYTYSGLFCVAINPYKRFPIYTNRTVQIYKGRRRTEVPPHLFAISDGAYSAMLANRENQSMLITGESGAGKTENTKKVIAYYANVGAATPKPGKEAPTKEKKATLEDQVVQTNPVLEAFGNAKTVRNDNSSRFGKFIRIHFGPMGKLAGADIETYLLEKARVISQQTLERSYHIFYQLMSGGIENLKADLLLSDDIYDYHFVSQGKIEIPGVDDAEELRLTDTAFDILGFSHEYKTDVYKITASCMHLGEMKFKQRPREEQAEADGTEEGERVAHLLGVNAADLYKNLVKPKIKVGNEMVTQGRNATQVSYSVGGLAKAMFDRTFKWLVKRLNETLDTKQKRQYFIGVLDIAGFEIFDYNGFEQLCINFTNEKLQQFFNHHMFVLEQEEYKREGIDWVFIDFGLDLAACIELIEKPMGILSILEEESMFPKATDKSFQDKLNANHLGKSPNFVKPKPPKPGQQEAHFSIAHYAGTVPYNITGWLEKNKDPVNDTVVDQFKKGSNKLVQEIFEDHPGLGAEEKGGGGKGGGGRKKGASFQTVSALYREQLNRLMASLHSTQPHFVRCIIPNELKQPGVIDSGLVMHQLTCNGVLEGIRICRKGFPNRMVYPDFKQRYTILAASAVPKGFVDAKKVTEAVLGAIQLDANDYRLGNTKVFFRAGVLGRLEEMRDDRLGKIVTWLQAWIRWYLSKKEFKKLQEQRVALLVIQRNLRKFLTLRNWLWYKLYIKVKPLLTMAKVEDELKALEEKLKKALESLEKEEKVRKDIEVQNVKLLQEKNDLFLQLESERSGAGDVEERLTKAISMKNDLEGQVQELQERLSREEDAHSNLSSVRKKLDGEISNLKKEIEDLQLVI MAEDPDPTEYLYISMEQKRKDQTKPYDGKKMVWVADEKEGYLLGLIKSTQGDICTVDIEGQESRQVKKDLLQQVNPPKYEKCEDMSNLTYLNDASVLHNLKQRYYANLIYTYSGLFCVAINPYKRFPIYTNRTVQIYKGRRRTEVPPHLFAISDGAYSAMLANRENQSMLITGESGAGKTENTKKVIAYYANVGAATPKPGKEAPTKEKKATLEDQVVQTNPVLEAFGNAKTVRNDNSSRFGKFIRIHFGPMGKLAGADIETYLLEKARVISQQTLERSYHIFYQLMSGGIENLKADLLLSDDIYDYHFVSQGKIEIPGVDDAEELRLTDTAFDILGFSHEYKTDVYKITASCMHLGEMKFKQRPREEQAEADGTEEGERVAHLLGVNAADLYKNLVKPKIKVGNEMVTQGRNATQVSYSVGGLAKAMFDRTFKWLVKRLNETLDTKQKRQYFIGVLDIAGFEIFDYNGFEQLCINFTNEKLQQFFNHHMFVLEQEEYKREGIDWVFIDFGLDLAACIELIEKPMGILSILEEESMFPKATDKSFQDKLNANHLGKSPNFVKPKPPKPGQQEAHFSIAHYAGTVPYNITGWLEKNKDPVNDTVVDQFKKGSNKLVQEIFEDHPGLGAEEKGGGGKGGGGRKKGASFQTVSALYREQLNRLMASLHSTQPHFVRCIIPNELKQPGVIDSGLVMHQLTCNGVLEGIRICRKGFPNRMVYPDFKQRYTILAASAVPKGFVDAKKVTEAVLGAIQLDANDYRLGNTKVFFRAGVLGRLEEMRDDRLGKIVTWLQAWIRWYLSKKEFKKLQEQRVALLVIQRNLRKFLTLRNWLWYKLYIKVKPLLTMAKVEDELKALEEKLKKALESLEKEEKVRKDIEVQNVKLLQEKNDLFLQLESERSGAGDVEERLTKAISMKNDLEGQVQELQERLSREEDAHSNLSSVRKKLDGEISNLKKEIEDLQLVIQK 3jbl-a1-m1-cJ_3jbl-a1-m1-cK Cryo-EM Structure of the Activated NAIP2/NLRC4 Inflammasome Reveals Nucleated Polymerization Q3UP24 Q3UP24 4.7 ELECTRON MICROSCOPY 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 908 908 3jbl-a1-m1-cA_3jbl-a1-m1-cB 3jbl-a1-m1-cA_3jbl-a1-m1-cK 3jbl-a1-m1-cB_3jbl-a1-m1-cC 3jbl-a1-m1-cC_3jbl-a1-m1-cD 3jbl-a1-m1-cD_3jbl-a1-m1-cE 3jbl-a1-m1-cE_3jbl-a1-m1-cF 3jbl-a1-m1-cF_3jbl-a1-m1-cG 3jbl-a1-m1-cG_3jbl-a1-m1-cH 3jbl-a1-m1-cH_3jbl-a1-m1-cI 3jbl-a1-m1-cI_3jbl-a1-m1-cJ 6b5b-a1-m1-cB_6b5b-a1-m1-cC VTEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGASGDFARSLDYCGDLALEGVFAHKFDFEPEHGSSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVTKRPLWRQEIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWEFDDYDISAIKGTFKLVTA VTEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGASGDFARSLDYCGDLALEGVFAHKFDFEPEHGSSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVTKRPLWRQEIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWEFDDYDISAIKGTFKLVTA 3jbq-a1-m1-c1_3jbq-a1-m1-c2 Domain Organization and Conformational Plasticity of the G Protein Effector, PDE6 P52731 P52731 11.0 ELECTRON MICROSCOPY 104 1.0 9913 (Bos taurus) 9913 (Bos taurus) 171 171 3jab-a1-m1-cA_3jab-a1-m1-cM RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLAADRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLR 3jbq-a1-m1-cB_3jbq-a1-m1-cF Domain Organization and Conformational Plasticity of the G Protein Effector, PDE6 Q28156 Q28156 11.0 ELECTRON MICROSCOPY 39 1.0 9913 (Bos taurus) 9913 (Bos taurus) 328 328 3jab-a1-m1-cC_3jab-a1-m1-cO SHMEETRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYIQRSEHPLAQLYCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFWEQGDLERTVLQQQPIPMMDRNKRDELPKLQVGFIDFVCTQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQ SHMEETRELQSLAAAVVPSAQTLKITDFSFSDFELSDLETALCTIRMFTDLNLVQNFQMKHEVLCRWILSVKKNYRKNVAYHNWRHAFNTAQCMFAALKAGKIQNKLTDLEILALLIAALSHDLDHRGVNNSYIQRSEHPLAQLYCHSIMEHHHFDQCLMILNSPGNQILSGLSIEEYKTTLKIIKQAILATDLALYIKRRGEFFELIRKNQFNLEDPHQKELFLAMLMTACDLSAITKPWPIQQRIAELVATEFWEQGDLERTVLQQQPIPMMDRNKRDELPKLQVGFIDFVCTQLYEALTHVSEDCFPLLDGCRKNRQKWQALAEQ 3jbq-a1-m1-cC_3jbq-a1-m1-cG Domain Organization and Conformational Plasticity of the G Protein Effector, PDE6 P14099 P14099 11.0 ELECTRON MICROSCOPY 53 1.0 9913 (Bos taurus) 9913 (Bos taurus) 161 161 3jab-a1-m1-cB_3jab-a1-m1-cN QKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVSYEIRIPADQGIAGHVATTGQILNIPDAYRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQYRSHLANEMM QKLKCECQALLQVAKNLFTHLDDVSVLLQEIITEARNLSNAEICSVFLLDQNELVAKVSYEIRIPADQGIAGHVATTGQILNIPDAYRTRNILCFPIKNENQEVIGVAELVNKINGPWFSKFDEDLATAFSIYCGISIAHSLLYKKVNEAQYRSHLANEMM 3jc8-a1-m1-cBa_3jc8-a1-m1-cBf Architectural model of the type IVa pilus machine in a piliated state Q1D098 Q1D098 NOT ELECTRON MICROSCOPY 44 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 452 452 3jc8-a1-m1-cBb_3jc8-a1-m1-cBc 3jc8-a1-m1-cBd_3jc8-a1-m1-cBe IKLVPKEVAEKHLVVPVNRAGPSLIVAMCDPSNIFAVDDLKFLTGYNIETVVASEVSIREAIERYKGPSLEDIVGDVGDDIEVTKEETENIDEMAKAADDAPVVKLVNLILMDAISDIHVEPYEKDFRVRFRIDGVMYEVMRPPMKLRNAITSRLKIMASLDISERRLPQDGRIKIKMGGGKEMDFRVSVCPTLFGEKVVMRLLDKSNLQLDMTKLGFDAQPLAWFKEAIDRPYGMVLVTGPTGSGKTTTLYSALSSLNGLDTNICTAEDPVEFNFAGINQVQMHDDIGLNFAAALRSFLRQDPDIIMIGEIRDFETAEIGVKAALTGHLVLSTLHTNDAPGTVSRLLNMGIEPFLVTASLNLILAQRLARRLCPACKKPAECRDCNDRGYRGRVAIYEVMPFWDGLKELVINGASAAELKQEAIRLGMSSLRMSGLRKATTLEEVVGNTAP IKLVPKEVAEKHLVVPVNRAGPSLIVAMCDPSNIFAVDDLKFLTGYNIETVVASEVSIREAIERYKGPSLEDIVGDVGDDIEVTKEETENIDEMAKAADDAPVVKLVNLILMDAISDIHVEPYEKDFRVRFRIDGVMYEVMRPPMKLRNAITSRLKIMASLDISERRLPQDGRIKIKMGGGKEMDFRVSVCPTLFGEKVVMRLLDKSNLQLDMTKLGFDAQPLAWFKEAIDRPYGMVLVTGPTGSGKTTTLYSALSSLNGLDTNICTAEDPVEFNFAGINQVQMHDDIGLNFAAALRSFLRQDPDIIMIGEIRDFETAEIGVKAALTGHLVLSTLHTNDAPGTVSRLLNMGIEPFLVTASLNLILAQRLARRLCPACKKPAECRDCNDRGYRGRVAIYEVMPFWDGLKELVINGASAAELKQEAIRLGMSSLRMSGLRKATTLEEVVGNTAP 3jc8-a1-m1-cBe_3jc8-a1-m1-cBf Architectural model of the type IVa pilus machine in a piliated state Q1D098 Q1D098 NOT ELECTRON MICROSCOPY 63 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 452 452 3jc8-a1-m1-cBa_3jc8-a1-m1-cBb 3jc8-a1-m1-cBc_3jc8-a1-m1-cBd IKLVPKEVAEKHLVVPVNRAGPSLIVAMCDPSNIFAVDDLKFLTGYNIETVVASEVSIREAIERYKGPSLEDIVGDVGDDIEVTKEETENIDEMAKAADDAPVVKLVNLILMDAISDIHVEPYEKDFRVRFRIDGVMYEVMRPPMKLRNAITSRLKIMASLDISERRLPQDGRIKIKMGGGKEMDFRVSVCPTLFGEKVVMRLLDKSNLQLDMTKLGFDAQPLAWFKEAIDRPYGMVLVTGPTGSGKTTTLYSALSSLNGLDTNICTAEDPVEFNFAGINQVQMHDDIGLNFAAALRSFLRQDPDIIMIGEIRDFETAEIGVKAALTGHLVLSTLHTNDAPGTVSRLLNMGIEPFLVTASLNLILAQRLARRLCPACKKPAECRDCNDRGYRGRVAIYEVMPFWDGLKELVINGASAAELKQEAIRLGMSSLRMSGLRKATTLEEVVGNTAP IKLVPKEVAEKHLVVPVNRAGPSLIVAMCDPSNIFAVDDLKFLTGYNIETVVASEVSIREAIERYKGPSLEDIVGDVGDDIEVTKEETENIDEMAKAADDAPVVKLVNLILMDAISDIHVEPYEKDFRVRFRIDGVMYEVMRPPMKLRNAITSRLKIMASLDISERRLPQDGRIKIKMGGGKEMDFRVSVCPTLFGEKVVMRLLDKSNLQLDMTKLGFDAQPLAWFKEAIDRPYGMVLVTGPTGSGKTTTLYSALSSLNGLDTNICTAEDPVEFNFAGINQVQMHDDIGLNFAAALRSFLRQDPDIIMIGEIRDFETAEIGVKAALTGHLVLSTLHTNDAPGTVSRLLNMGIEPFLVTASLNLILAQRLARRLCPACKKPAECRDCNDRGYRGRVAIYEVMPFWDGLKELVINGASAAELKQEAIRLGMSSLRMSGLRKATTLEEVVGNTAP 3jc8-a1-m1-cMk_3jc8-a1-m1-cMl Architectural model of the type IVa pilus machine in a piliated state Q1D0B0 Q1D0B0 NOT ELECTRON MICROSCOPY 48 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 355 355 3jc8-a1-m1-cMa_3jc8-a1-m1-cMb 3jc8-a1-m1-cMa_3jc8-a1-m1-cMl 3jc8-a1-m1-cMb_3jc8-a1-m1-cMc 3jc8-a1-m1-cMc_3jc8-a1-m1-cMd 3jc8-a1-m1-cMd_3jc8-a1-m1-cMe 3jc8-a1-m1-cMe_3jc8-a1-m1-cMf 3jc8-a1-m1-cMf_3jc8-a1-m1-cMg 3jc8-a1-m1-cMg_3jc8-a1-m1-cMh 3jc8-a1-m1-cMh_3jc8-a1-m1-cMi 3jc8-a1-m1-cMi_3jc8-a1-m1-cMj 3jc8-a1-m1-cMj_3jc8-a1-m1-cMk AKGKLVLGLDIGSTSIKMILLKEQRKRGEVIYALQSFGMKPLPPEAIVDGALMNSTAIVQAVQDLMSELKVKGKDVAIGVSGHSVIIKKIQMPRMSQDELEESIQWEAEQYIPFDVKDVNIDTQILDGGGNDATGQMDVLLVAAKKDMINDYTTVVSEAGLAPVVVDVDAFAVQNMFSVNYDVPERETVVLINAGASVVNINIISNGATVFTRDVTIGGNQFTEEIQKQLNVSYEEAEALKIGGNGADADAVVPQDVERVLSSVAEQVAGEIQRSLDFYAGTAADSNFSKVYLSGGTAKIPALFKTIEARTGVPVEILNPFRKIEVDNRKFDPAFVMDVAPMAAVAVGLALRRPG AKGKLVLGLDIGSTSIKMILLKEQRKRGEVIYALQSFGMKPLPPEAIVDGALMNSTAIVQAVQDLMSELKVKGKDVAIGVSGHSVIIKKIQMPRMSQDELEESIQWEAEQYIPFDVKDVNIDTQILDGGGNDATGQMDVLLVAAKKDMINDYTTVVSEAGLAPVVVDVDAFAVQNMFSVNYDVPERETVVLINAGASVVNINIISNGATVFTRDVTIGGNQFTEEIQKQLNVSYEEAEALKIGGNGADADAVVPQDVERVLSSVAEQVAGEIQRSLDFYAGTAADSNFSKVYLSGGTAKIPALFKTIEARTGVPVEILNPFRKIEVDNRKFDPAFVMDVAPMAAVAVGLALRRPG 3jc8-a1-m1-cNk_3jc8-a1-m1-cNl Architectural model of the type IVa pilus machine in a piliated state Q306N5 Q306N5 NOT ELECTRON MICROSCOPY 42 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 223 223 3jc8-a1-m1-cNa_3jc8-a1-m1-cNb 3jc8-a1-m1-cNa_3jc8-a1-m1-cNl 3jc8-a1-m1-cNb_3jc8-a1-m1-cNc 3jc8-a1-m1-cNc_3jc8-a1-m1-cNd 3jc8-a1-m1-cNd_3jc8-a1-m1-cNe 3jc8-a1-m1-cNe_3jc8-a1-m1-cNf 3jc8-a1-m1-cNf_3jc8-a1-m1-cNg 3jc8-a1-m1-cNg_3jc8-a1-m1-cNh 3jc8-a1-m1-cNh_3jc8-a1-m1-cNi 3jc8-a1-m1-cNi_3jc8-a1-m1-cNj 3jc8-a1-m1-cNj_3jc8-a1-m1-cNk MMIRINLLPVRAVKKREMGRQVLVLFAVVLIGAGVANYLWYDDRQSELEAHQAGVASTKARIAELEKIIGEVKNINTRKAEVEKKLAVLDALRKGRSGPVRMMDALASATPKKVWVKTFSENNNAVSIDGSAVSHDEVAEFMRGLNGVVWTPKGMGRLVDRRRDSKTARVEMLTSDATIEEFPEAQVSPFFKNIDLQTAKQVGGAQVGVPILVEFKITMTSNY MMIRINLLPVRAVKKREMGRQVLVLFAVVLIGAGVANYLWYDDRQSELEAHQAGVASTKARIAELEKIIGEVKNINTRKAEVEKKLAVLDALRKGRSGPVRMMDALASATPKKVWVKTFSENNNAVSIDGSAVSHDEVAEFMRGLNGVVWTPKGMGRLVDRRRDSKTARVEMLTSDATIEEFPEAQVSPFFKNIDLQTAKQVGGAQVGVPILVEFKITMTSNY 3jc8-a1-m1-cOk_3jc8-a1-m1-cOl Architectural model of the type IVa pilus machine in a piliated state Q306N4 Q306N4 NOT ELECTRON MICROSCOPY 15 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 189 189 3jc8-a1-m1-cOa_3jc8-a1-m1-cOb 3jc8-a1-m1-cOa_3jc8-a1-m1-cOl 3jc8-a1-m1-cOb_3jc8-a1-m1-cOc 3jc8-a1-m1-cOc_3jc8-a1-m1-cOd 3jc8-a1-m1-cOd_3jc8-a1-m1-cOe 3jc8-a1-m1-cOe_3jc8-a1-m1-cOf 3jc8-a1-m1-cOf_3jc8-a1-m1-cOg 3jc8-a1-m1-cOg_3jc8-a1-m1-cOh 3jc8-a1-m1-cOh_3jc8-a1-m1-cOi 3jc8-a1-m1-cOi_3jc8-a1-m1-cOj 3jc8-a1-m1-cOj_3jc8-a1-m1-cOk MDKYLDQFVKAPPAIKFGGLAFVVGALTAANFFMVIQPTEEEIGWAVAERRKLDLELADKSEIAQNLNERRREMDVLEQKLSEALTELPEQRDIEELLAQINDIGKKSGLELSSVTPGKESVGGGEFFARIPIKMTVSGNYHEIALFLQEMANMRRIVNVNNIKFDSAKLKNEKVVLQSEFQATTFRFV MDKYLDQFVKAPPAIKFGGLAFVVGALTAANFFMVIQPTEEEIGWAVAERRKLDLELADKSEIAQNLNERRREMDVLEQKLSEALTELPEQRDIEELLAQINDIGKKSGLELSSVTPGKESVGGGEFFARIPIKMTVSGNYHEIALFLQEMANMRRIVNVNNIKFDSAKLKNEKVVLQSEFQATTFRFV 3jc8-a1-m1-cTa_3jc8-a1-m1-cTl Architectural model of the type IVa pilus machine in a piliated state Q1D813 Q1D813 NOT ELECTRON MICROSCOPY 47 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 163 163 3jc8-a1-m1-cTa_3jc8-a1-m1-cTb 3jc8-a1-m1-cTb_3jc8-a1-m1-cTc 3jc8-a1-m1-cTc_3jc8-a1-m1-cTd 3jc8-a1-m1-cTd_3jc8-a1-m1-cTe 3jc8-a1-m1-cTe_3jc8-a1-m1-cTf 3jc8-a1-m1-cTf_3jc8-a1-m1-cTg 3jc8-a1-m1-cTg_3jc8-a1-m1-cTh 3jc8-a1-m1-cTh_3jc8-a1-m1-cTi 3jc8-a1-m1-cTi_3jc8-a1-m1-cTj 3jc8-a1-m1-cTj_3jc8-a1-m1-cTk 3jc8-a1-m1-cTk_3jc8-a1-m1-cTl APRGRESAPGEVHSVESGDTLWDLSQRYLGSPWYWPKVWSYNPEIANPHWIYPGNQVRFFAAKQVDGTVITALVPYLTVLGENHSIVVDKGSADGVELGNTFNILRKGDPSRHVLGHDVRKPSKEEQSFPWRSIGACMVTEVKERTSNCLMTRSLEELVPGDR APRGRESAPGEVHSVESGDTLWDLSQRYLGSPWYWPKVWSYNPEIANPHWIYPGNQVRFFAAKQVDGTVITALVPYLTVLGENHSIVVDKGSADGVELGNTFNILRKGDPSRHVLGHDVRKPSKEEQSFPWRSIGACMVTEVKERTSNCLMTRSLEELVPGDR 3jc9-a1-m1-cCa_3jc9-a1-m1-cCb Architectural model of the type IVa pilus machine in a non-piliated state Q1D0A0 Q1D0A0 NOT ELECTRON MICROSCOPY 46 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 316 316 3jc8-a1-m1-cCa_3jc8-a1-m1-cCb IPGFGGVEGKDILVFTRQFATMIDAGLPLVQCLDILASQMDNPSFKKVLFAIKSKVEQGSTFADALKEHPKVFDELYVQLCAAGEVGGILDAILNRLAAYREKNEKLKSKVKSALVAIGVTAVLLLKVTPVFEKMFADFGSELPGPTQMIVNFSHMAQEYFFHVAGSIVAVVMSFTWSYRQPLFMPVFGPVLRKVAVARFTRTLGTMISSGVPILDALDVTAKTAGNRTVEDAIIYVRGKIAEGKNIAGPLAETKVFPSMVVQMIGVGEATGAMDTMLNKIADFYDDEVDAAAMIEPVLMVFLGGVVGGFLIGMYL IPGFGGVEGKDILVFTRQFATMIDAGLPLVQCLDILASQMDNPSFKKVLFAIKSKVEQGSTFADALKEHPKVFDELYVQLCAAGEVGGILDAILNRLAAYREKNEKLKSKVKSALVAIGVTAVLLLKVTPVFEKMFADFGSELPGPTQMIVNFSHMAQEYFFHVAGSIVAVVMSFTWSYRQPLFMPVFGPVLRKVAVARFTRTLGTMISSGVPILDALDVTAKTAGNRTVEDAIIYVRGKIAEGKNIAGPLAETKVFPSMVVQMIGVGEATGAMDTMLNKIADFYDDEVDAAAMIEPVLMVFLGGVVGGFLIGMYL 3jc9-a1-m1-cMk_3jc9-a1-m1-cMl Architectural model of the type IVa pilus machine in a non-piliated state Q1D0B0 Q1D0B0 NOT ELECTRON MICROSCOPY 83 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 355 355 3jc9-a1-m1-cMa_3jc9-a1-m1-cMb 3jc9-a1-m1-cMa_3jc9-a1-m1-cMl 3jc9-a1-m1-cMb_3jc9-a1-m1-cMc 3jc9-a1-m1-cMc_3jc9-a1-m1-cMd 3jc9-a1-m1-cMd_3jc9-a1-m1-cMe 3jc9-a1-m1-cMe_3jc9-a1-m1-cMf 3jc9-a1-m1-cMf_3jc9-a1-m1-cMg 3jc9-a1-m1-cMg_3jc9-a1-m1-cMh 3jc9-a1-m1-cMh_3jc9-a1-m1-cMi 3jc9-a1-m1-cMi_3jc9-a1-m1-cMj 3jc9-a1-m1-cMj_3jc9-a1-m1-cMk AKGKLVLGLDIGSTSIKMILLKEQRKRGEVIYALQSFGMKPLPPEAIVDGALMNSTAIVQAVQDLMSELKVKGKDVAIGVSGHSVIIKKIQMPRMSQDELEESIQWEAEQYIPFDVKDVNIDTQILDGGGNDATGQMDVLLVAAKKDMINDYTTVVSEAGLAPVVVDVDAFAVQNMFSVNYDVPERETVVLINAGASVVNINIISNGATVFTRDVTIGGNQFTEEIQKQLNVSYEEAEALKIGGNGADADAVVPQDVERVLSSVAEQVAGEIQRSLDFYAGTAADSNFSKVYLSGGTAKIPALFKTIEARTGVPVEILNPFRKIEVDNRKFDPAFVMDVAPMAAVAVGLALRRPG AKGKLVLGLDIGSTSIKMILLKEQRKRGEVIYALQSFGMKPLPPEAIVDGALMNSTAIVQAVQDLMSELKVKGKDVAIGVSGHSVIIKKIQMPRMSQDELEESIQWEAEQYIPFDVKDVNIDTQILDGGGNDATGQMDVLLVAAKKDMINDYTTVVSEAGLAPVVVDVDAFAVQNMFSVNYDVPERETVVLINAGASVVNINIISNGATVFTRDVTIGGNQFTEEIQKQLNVSYEEAEALKIGGNGADADAVVPQDVERVLSSVAEQVAGEIQRSLDFYAGTAADSNFSKVYLSGGTAKIPALFKTIEARTGVPVEILNPFRKIEVDNRKFDPAFVMDVAPMAAVAVGLALRRPG 3jc9-a1-m1-cNk_3jc9-a1-m1-cNl Architectural model of the type IVa pilus machine in a non-piliated state Q306N5 Q306N5 NOT ELECTRON MICROSCOPY 41 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 223 223 3jc9-a1-m1-cNa_3jc9-a1-m1-cNb 3jc9-a1-m1-cNa_3jc9-a1-m1-cNl 3jc9-a1-m1-cNb_3jc9-a1-m1-cNc 3jc9-a1-m1-cNc_3jc9-a1-m1-cNd 3jc9-a1-m1-cNd_3jc9-a1-m1-cNe 3jc9-a1-m1-cNe_3jc9-a1-m1-cNf 3jc9-a1-m1-cNf_3jc9-a1-m1-cNg 3jc9-a1-m1-cNg_3jc9-a1-m1-cNh 3jc9-a1-m1-cNh_3jc9-a1-m1-cNi 3jc9-a1-m1-cNi_3jc9-a1-m1-cNj 3jc9-a1-m1-cNj_3jc9-a1-m1-cNk MMIRINLLPVRAVKKREMGRQVLVLFAVVLIGAGVANYLWYDDRQSELEAHQAGVASTKARIAELEKIIGEVKNINTRKAEVEKKLAVLDALRKGRSGPVRMMDALASATPKKVWVKTFSENNNAVSIDGSAVSHDEVAEFMRGLNGVVWTPKGMGRLVDRRRDSKTARVEMLTSDATIEEFPEAQVSPFFKNIDLQTAKQVGGAQVGVPILVEFKITMTSNY MMIRINLLPVRAVKKREMGRQVLVLFAVVLIGAGVANYLWYDDRQSELEAHQAGVASTKARIAELEKIIGEVKNINTRKAEVEKKLAVLDALRKGRSGPVRMMDALASATPKKVWVKTFSENNNAVSIDGSAVSHDEVAEFMRGLNGVVWTPKGMGRLVDRRRDSKTARVEMLTSDATIEEFPEAQVSPFFKNIDLQTAKQVGGAQVGVPILVEFKITMTSNY 3jc9-a1-m1-cOk_3jc9-a1-m1-cOl Architectural model of the type IVa pilus machine in a non-piliated state Q306N4 Q306N4 NOT ELECTRON MICROSCOPY 15 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 189 189 3jc9-a1-m1-cOa_3jc9-a1-m1-cOb 3jc9-a1-m1-cOa_3jc9-a1-m1-cOl 3jc9-a1-m1-cOb_3jc9-a1-m1-cOc 3jc9-a1-m1-cOc_3jc9-a1-m1-cOd 3jc9-a1-m1-cOd_3jc9-a1-m1-cOe 3jc9-a1-m1-cOe_3jc9-a1-m1-cOf 3jc9-a1-m1-cOf_3jc9-a1-m1-cOg 3jc9-a1-m1-cOg_3jc9-a1-m1-cOh 3jc9-a1-m1-cOh_3jc9-a1-m1-cOi 3jc9-a1-m1-cOi_3jc9-a1-m1-cOj 3jc9-a1-m1-cOj_3jc9-a1-m1-cOk MDKYLDQFVKAPPAIKFGGLAFVVGALTAANFFMVIQPTEEEIGWAVAERRKLDLELADKSEIAQNLNERRREMDVLEQKLSEALTELPEQRDIEELLAQINDIGKKSGLELSSVTPGKESVGGGEFFARIPIKMTVSGNYHEIALFLQEMANMRRIVNVNNIKFDSAKLKNEKVVLQSEFQATTFRFV MDKYLDQFVKAPPAIKFGGLAFVVGALTAANFFMVIQPTEEEIGWAVAERRKLDLELADKSEIAQNLNERRREMDVLEQKLSEALTELPEQRDIEELLAQINDIGKKSGLELSSVTPGKESVGGGEFFARIPIKMTVSGNYHEIALFLQEMANMRRIVNVNNIKFDSAKLKNEKVVLQSEFQATTFRFV 3jc9-a1-m1-cQk_3jc9-a1-m1-cQl Architectural model of the type IVa pilus machine in a non-piliated state Q9ZFG1 Q9ZFG1 NOT ELECTRON MICROSCOPY 45 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 418 418 3jc8-a1-m1-cQa_3jc8-a1-m1-cQb 3jc8-a1-m1-cQa_3jc8-a1-m1-cQl 3jc8-a1-m1-cQb_3jc8-a1-m1-cQc 3jc8-a1-m1-cQc_3jc8-a1-m1-cQd 3jc8-a1-m1-cQd_3jc8-a1-m1-cQe 3jc8-a1-m1-cQe_3jc8-a1-m1-cQf 3jc8-a1-m1-cQf_3jc8-a1-m1-cQg 3jc8-a1-m1-cQg_3jc8-a1-m1-cQh 3jc8-a1-m1-cQh_3jc8-a1-m1-cQi 3jc8-a1-m1-cQi_3jc8-a1-m1-cQj 3jc8-a1-m1-cQj_3jc8-a1-m1-cQk 3jc8-a1-m1-cQk_3jc8-a1-m1-cQl 3jc9-a1-m1-cQa_3jc9-a1-m1-cQb 3jc9-a1-m1-cQa_3jc9-a1-m1-cQl 3jc9-a1-m1-cQb_3jc9-a1-m1-cQc 3jc9-a1-m1-cQc_3jc9-a1-m1-cQd 3jc9-a1-m1-cQd_3jc9-a1-m1-cQe 3jc9-a1-m1-cQe_3jc9-a1-m1-cQf 3jc9-a1-m1-cQf_3jc9-a1-m1-cQg 3jc9-a1-m1-cQg_3jc9-a1-m1-cQh 3jc9-a1-m1-cQh_3jc9-a1-m1-cQi 3jc9-a1-m1-cQi_3jc9-a1-m1-cQj 3jc9-a1-m1-cQj_3jc9-a1-m1-cQk NTLRGLDVSRTGSGAQVVVTGTRPPTFTVFRLSGPERLVVDLSSADATGIKGHHEGSGPVSGVVASQFSDQRASVGRVLLALDKASQYDVRADGNRVVISVDGTSQSVDDTLSIRADGDIARYEVLELADPPRLAVDLFGVGLATRAPRVKSGALRDVRVGAHADKVRLVLDVRGTMKDVRFEESSSGGRIVMKLSGTSGWKVDRPDPRSAVLTLDNARLPKKFERSLDTSALDTPVKMISAFSVPGAGGKVRLVVAADGAIEEKVSQSAGTLSWRLYRGKRVSFEFKDIDIQNLLRVIAEISKKNIVVADDVSGKVTIRLRNVPWDQALDLVLRTKALGKEEFGNIIRIAPDLMVNLLPVNYAVAADMAARVKDVLSERGSVTVDQRTNVLIVKDVRSNTERARSLVRSLDTQTPQV NTLRGLDVSRTGSGAQVVVTGTRPPTFTVFRLSGPERLVVDLSSADATGIKGHHEGSGPVSGVVASQFSDQRASVGRVLLALDKASQYDVRADGNRVVISVDGTSQSVDDTLSIRADGDIARYEVLELADPPRLAVDLFGVGLATRAPRVKSGALRDVRVGAHADKVRLVLDVRGTMKDVRFEESSSGGRIVMKLSGTSGWKVDRPDPRSAVLTLDNARLPKKFERSLDTSALDTPVKMISAFSVPGAGGKVRLVVAADGAIEEKVSQSAGTLSWRLYRGKRVSFEFKDIDIQNLLRVIAEISKKNIVVADDVSGKVTIRLRNVPWDQALDLVLRTKALGKEEFGNIIRIAPDLMVNLLPVNYAVAADMAARVKDVLSERGSVTVDQRTNVLIVKDVRSNTERARSLVRSLDTQTPQV 3jc9-a1-m1-cTk_3jc9-a1-m1-cTl Architectural model of the type IVa pilus machine in a non-piliated state Q1D813 Q1D813 NOT ELECTRON MICROSCOPY 39 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 163 163 3jc9-a1-m1-cTa_3jc9-a1-m1-cTb 3jc9-a1-m1-cTa_3jc9-a1-m1-cTl 3jc9-a1-m1-cTb_3jc9-a1-m1-cTc 3jc9-a1-m1-cTc_3jc9-a1-m1-cTd 3jc9-a1-m1-cTd_3jc9-a1-m1-cTe 3jc9-a1-m1-cTe_3jc9-a1-m1-cTf 3jc9-a1-m1-cTf_3jc9-a1-m1-cTg 3jc9-a1-m1-cTg_3jc9-a1-m1-cTh 3jc9-a1-m1-cTh_3jc9-a1-m1-cTi 3jc9-a1-m1-cTi_3jc9-a1-m1-cTj 3jc9-a1-m1-cTj_3jc9-a1-m1-cTk APRGRESAPGEVHSVESGDTLWDLSQRYLGSPWYWPKVWSYNPEIANPHWIYPGNQVRFFAAKQVDGTVITALVPYLTVLGENHSIVVDKGSADGVELGNTFNILRKGDPSRHVLGHDVRKPSKEEQSFPWRSIGACMVTEVKERTSNCLMTRSLEELVPGDR APRGRESAPGEVHSVESGDTLWDLSQRYLGSPWYWPKVWSYNPEIANPHWIYPGNQVRFFAAKQVDGTVITALVPYLTVLGENHSIVVDKGSADGVELGNTFNILRKGDPSRHVLGHDVRKPSKEEQSFPWRSIGACMVTEVKERTSNCLMTRSLEELVPGDR 3jch-a1-m1-cA_3jch-a1-m1-cE Cryo-EM structure of the magnesium channel CorA in the magnesium-free, asymmetric open state II Q9WZ31 Q9WZ31 7.06 ELECTRON MICROSCOPY 53 0.994 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 331 331 3jcg-a1-m1-cA_3jcg-a1-m1-cE 3jch-a1-m1-cB_3jch-a1-m1-cC YTGKYREDFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFEYMPELRWKWGYPVVLAVMGVIAVIMVVYFKKKK LVYTGKYREDFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFEYMPELRWKWGYPVVLAVMGVIAVIMVVYFKK 3jch-a1-m1-cB_3jch-a1-m1-cA Cryo-EM structure of the magnesium channel CorA in the magnesium-free, asymmetric open state II Q9WZ31 Q9WZ31 7.06 ELECTRON MICROSCOPY 70 0.997 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 330 331 3jcg-a1-m1-cB_3jcg-a1-m1-cA VYTGKYREDFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFEYMPELRWKWGYPVVLAVMGVIAVIMVVYFKK YTGKYREDFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFEYMPELRWKWGYPVVLAVMGVIAVIMVVYFKKKK 3jch-a1-m1-cE_3jch-a1-m1-cD Cryo-EM structure of the magnesium channel CorA in the magnesium-free, asymmetric open state II Q9WZ31 Q9WZ31 7.06 ELECTRON MICROSCOPY 80 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 331 333 3jcg-a1-m1-cB_3jcg-a1-m1-cC LVYTGKYREDFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFEYMPELRWKWGYPVVLAVMGVIAVIMVVYFKK LVYTGKYREDFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELRKTIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFEYMPELRWKWGYPVVLAVMGVIAVIMVVYFKKKK 3jcx-a1-m23-cH_3jcx-a1-m9-cH Canine Parvovirus complexed with Fab E 4.1 ELECTRON MICROSCOPY 97 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 115 115 3jcx-a1-m10-cH_3jcx-a1-m5-cH 3jcx-a1-m11-cH_3jcx-a1-m37-cH 3jcx-a1-m12-cH_3jcx-a1-m46-cH 3jcx-a1-m13-cH_3jcx-a1-m44-cH 3jcx-a1-m14-cH_3jcx-a1-m28-cH 3jcx-a1-m15-cH_3jcx-a1-m20-cH 3jcx-a1-m16-cH_3jcx-a1-m27-cH 3jcx-a1-m17-cH_3jcx-a1-m51-cH 3jcx-a1-m18-cH_3jcx-a1-m59-cH 3jcx-a1-m19-cH_3jcx-a1-m38-cH 3jcx-a1-m1-cH_3jcx-a1-m22-cH 3jcx-a1-m21-cH_3jcx-a1-m42-cH 3jcx-a1-m24-cH_3jcx-a1-m53-cH 3jcx-a1-m25-cH_3jcx-a1-m30-cH 3jcx-a1-m26-cH_3jcx-a1-m52-cH 3jcx-a1-m29-cH_3jcx-a1-m43-cH 3jcx-a1-m2-cH_3jcx-a1-m41-cH 3jcx-a1-m31-cH_3jcx-a1-m57-cH 3jcx-a1-m32-cH_3jcx-a1-m6-cH 3jcx-a1-m33-cH_3jcx-a1-m4-cH 3jcx-a1-m34-cH_3jcx-a1-m48-cH 3jcx-a1-m35-cH_3jcx-a1-m40-cH 3jcx-a1-m36-cH_3jcx-a1-m47-cH 3jcx-a1-m39-cH_3jcx-a1-m58-cH 3jcx-a1-m3-cH_3jcx-a1-m49-cH 3jcx-a1-m45-cH_3jcx-a1-m50-cH 3jcx-a1-m54-cH_3jcx-a1-m8-cH 3jcx-a1-m55-cH_3jcx-a1-m60-cH 3jcx-a1-m56-cH_3jcx-a1-m7-cH SGPGLVQPSQTLSLTCTVSGFSLSSYHVHWVRQPPGKGLEWLGVMWNDGDTSYNLALNSRLSISRDTSKSQVFFKMSSLQTEDTATYYCARPELPGLTYGVWFPYWGQGTLVTVS SGPGLVQPSQTLSLTCTVSGFSLSSYHVHWVRQPPGKGLEWLGVMWNDGDTSYNLALNSRLSISRDTSKSQVFFKMSSLQTEDTATYYCARPELPGLTYGVWFPYWGQGTLVTVS 3jpz-a1-m1-cB_3jpz-a1-m1-cA Crystal Structure of Lombricine Kinase Q8T6T7 Q8T6T7 1.95 X-RAY DIFFRACTION 63 1.0 6431 (Urechis caupo) 6431 (Urechis caupo) 362 364 3jq3-a1-m1-cA_3jq3-a1-m2-cA FQNDAKANFPDYANHGCVVGRHLNFEMYQRLFGKKTAHGVTVDKVIQPSVDNFGNCIGLIAGDEESYEVFKELFDAVINEKHKGFGPNDSQPAPDLDASKLVGGQFDEKYVKSCRIRTGRGIRGLCYPPSCTRGERREVERVITTALAGLSGDLSGTYYPLSKMTPEQENQLIADHFLFQKPTGHLMVNSASVRDWPDARGIWHNNEKTFLIWINEEDHMRVISMQKGGNVKAVFERFGRGLNAIAEQMKKNGREYMWNQRLGYLCACPSNLGTGLRASVHVQLHQLSKHPKFEDIVVALQLQKRGTGGEHTAAVDDVYDISNAARLKKSEREFVQLLIDGVKKLIDMEQALEAGKSIDDLI FQNDAKANFPDYANHGCVVGRHLNFEMYQRLFGKKTAHGVTVDKVIQPSVDNFGNCIGLIAGDEESYEVFKELFDAVINEKHKGFGPNDSQPAPDLDASKLVGGQFDEKYVKSCRIRTGRGIRGLCYPPSCTRGERREVERVITTALAGLSGDLSGTYYPLSKMTPEQENQLIADHFLFQKPTGHLMVNSASVRDWPDARGIWHNNEKTFLIWINEEDHMRVISMQKGGNVKAVFERFGRGLNAIAEQMKKNGREYMWNQRLGYLCACPSNLGTGLRASVHVQLHQLSKHPKFEDIVVALQLQKRGTGGEHTAAVDDVYDISNAARLKKSEREFVQLLIDGVKKLIDMEQALEAGKSIDDLIPA 3jq7-a1-m1-cA_3jq7-a1-m1-cD Crystal structure of pteridine reductase 1 (PTR1) from Trypanosoma brucei in ternary complex with cofactor (NADP+) and inhibitor 6-phenylpteridine-2,4,7-triamine (DX2) Q581W1 Q581W1 1.8 X-RAY DIFFRACTION 37 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 247 247 2wd7-a1-m1-cB_2wd7-a1-m1-cC 3jqa-a1-m1-cB_3jqa-a1-m1-cC 4wcf-a1-m1-cA_4wcf-a1-m1-cD 4wcf-a1-m1-cB_4wcf-a1-m1-cC EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 3jq7-a1-m1-cC_3jq7-a1-m1-cA Crystal structure of pteridine reductase 1 (PTR1) from Trypanosoma brucei in ternary complex with cofactor (NADP+) and inhibitor 6-phenylpteridine-2,4,7-triamine (DX2) Q581W1 Q581W1 1.8 X-RAY DIFFRACTION 125 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 237 247 2wd7-a1-m1-cB_2wd7-a1-m1-cD 3jqa-a1-m1-cB_3jqa-a1-m1-cD 4wcf-a1-m1-cB_4wcf-a1-m1-cD 4wcf-a1-m1-cC_4wcf-a1-m1-cA APAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVGKTVETQVAELIGTNAIAPFLLTMSFAQRQNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 3jqf-a1-m1-cC_3jqf-a1-m1-cD Crystal structure of pteridine reductase 1 (PTR1) from Trypanosoma brucei in ternary complex with cofactor (NADP+) and inhibitor 1,3,5-triazine-2,4,6-triamine (AX2) Q581W1 Q581W1 1.6 X-RAY DIFFRACTION 102 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 247 249 3jq7-a1-m1-cB_3jq7-a1-m1-cA 3jq7-a1-m1-cC_3jq7-a1-m1-cD 3jqg-a1-m1-cC_3jqg-a1-m1-cD 4wcf-a1-m1-cB_4wcf-a1-m1-cA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVGKTVETQVAELIGTNAIAPFLLTMSFAQRQNLSIVNLCDAMVDQPCMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPCMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 3jqh-a1-m21-cA_3jqh-a1-m9-cA Structure of the neck region of the glycan-binding receptor DC-SIGNR Q9H2X3 Q9H2X3 2.201 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 23 3jqh-a1-m10-cA_3jqh-a1-m16-cA 3jqh-a1-m10-cA_3jqh-a1-m22-cA 3jqh-a1-m11-cA_3jqh-a1-m17-cA 3jqh-a1-m11-cA_3jqh-a1-m23-cA 3jqh-a1-m12-cA_3jqh-a1-m18-cA 3jqh-a1-m12-cA_3jqh-a1-m24-cA 3jqh-a1-m13-cA_3jqh-a1-m7-cA 3jqh-a1-m14-cA_3jqh-a1-m2-cA 3jqh-a1-m14-cA_3jqh-a1-m8-cA 3jqh-a1-m15-cA_3jqh-a1-m3-cA 3jqh-a1-m15-cA_3jqh-a1-m9-cA 3jqh-a1-m16-cA_3jqh-a1-m4-cA 3jqh-a1-m17-cA_3jqh-a1-m5-cA 3jqh-a1-m18-cA_3jqh-a1-m6-cA 3jqh-a1-m19-cA_3jqh-a1-m7-cA 3jqh-a1-m1-cA_3jqh-a1-m13-cA 3jqh-a1-m1-cA_3jqh-a1-m19-cA 3jqh-a1-m20-cA_3jqh-a1-m8-cA 3jqh-a1-m21-cA_3jqh-a1-m3-cA 3jqh-a1-m22-cA_3jqh-a1-m4-cA 3jqh-a1-m23-cA_3jqh-a1-m5-cA 3jqh-a1-m24-cA_3jqh-a1-m6-cA 3jqh-a1-m2-cA_3jqh-a1-m20-cA PEKSKLQEIYQELTRLKAAVGEL PEKSKLQEIYQELTRLKAAVGEL 3jqk-a1-m3-cA_3jqk-a1-m6-cA Crystal structure of the molybdenum cofactor biosynthesis protein C (TTHA1789) from Thermus Theromophilus HB8 (H32 FORM) Q5SHE1 Q5SHE1 1.75 X-RAY DIFFRACTION 139 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 143 143 2ide-a1-m1-cC_2ide-a1-m1-cD 2ide-a1-m1-cE_2ide-a1-m1-cB 2ide-a1-m1-cF_2ide-a1-m1-cA 2ide-a2-m1-cG_2ide-a2-m1-cL 2ide-a2-m1-cH_2ide-a2-m1-cK 2ide-a2-m1-cI_2ide-a2-m1-cJ 2iih-a1-m1-cA_2iih-a1-m5-cA 2iih-a1-m2-cA_2iih-a1-m4-cA 2iih-a1-m3-cA_2iih-a1-m6-cA 3jqj-a1-m1-cA_3jqj-a1-m1-cF 3jqj-a1-m1-cC_3jqj-a1-m1-cD 3jqj-a1-m1-cE_3jqj-a1-m1-cB 3jqj-a2-m1-cG_3jqj-a2-m1-cL 3jqj-a2-m1-cI_3jqj-a2-m1-cJ 3jqj-a2-m1-cK_3jqj-a2-m1-cH 3jqk-a1-m1-cA_3jqk-a1-m5-cA 3jqk-a1-m2-cA_3jqk-a1-m4-cA 3jqm-a1-m1-cA_3jqm-a1-m2-cA 3jqm-a1-m1-cB_3jqm-a1-m1-cE 3jqm-a1-m2-cB_3jqm-a1-m2-cE 3jqm-a2-m1-cF_3jqm-a2-m1-cD 3jqm-a2-m1-cG_3jqm-a2-m1-cC 3jqm-a2-m1-cH_3jqm-a2-m1-cI RPRMVDVTEKPETFRTATAEAFVELTEEALSALEKGKGDPLVVAQLAGILAAKKTADLIPLCHPLPLTGVEVRVELLKAEKRVRIEATVKTKAETGVEMEAMTACAVAALTVYDMLKAASKGLVISQVRLLHKAGGKSGEWRR RPRMVDVTEKPETFRTATAEAFVELTEEALSALEKGKGDPLVVAQLAGILAAKKTADLIPLCHPLPLTGVEVRVELLKAEKRVRIEATVKTKAETGVEMEAMTACAVAALTVYDMLKAASKGLVISQVRLLHKAGGKSGEWRR 3jqo-a1-m1-cV_3jqo-a1-m1-cM Crystal structure of the outer membrane complex of a type IV secretion system Q46705 Q46705 2.6 X-RAY DIFFRACTION 15 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 192 3jqo-a1-m1-cA_3jqo-a1-m1-ch 3jqo-a1-m1-cA_3jqo-a1-m1-cJ 3jqo-a1-m1-cb_3jqo-a1-m1-ck 3jqo-a1-m1-cb_3jqo-a1-m1-cS 3jqo-a1-m1-cD_3jqo-a1-m1-ck 3jqo-a1-m1-cD_3jqo-a1-m1-cM 3jqo-a1-m1-cG_3jqo-a1-m1-cn 3jqo-a1-m1-cG_3jqo-a1-m1-cP 3jqo-a1-m1-cJ_3jqo-a1-m1-cS 3jqo-a1-m1-cV_3jqo-a1-m1-ce 3jqo-a1-m1-cY_3jqo-a1-m1-ch 3jqo-a1-m1-cY_3jqo-a1-m1-cP ETSEGSSALAKNLTPARLKASRAGVANPSLTVPKGKIPCGTGTELDTTVPGQVSCRVSQDVYSADGLVRLIDKGSWVDGQITGGIKDGQARVFVLWERIRNDQDGTIVNIDSAGTNSLGSAGIPGQVDAHWERLRGAIISLFSDTLTAQLASEALRSYSIPPTLYDQQGDAVSIFVARDLDFSGVYTLADN ETSEGSSALAKNLTPARLKASRAGVANPSLTVPKGKIPCGTGTELDTTVPGQVSCRVSQDVYSADGLVRLIDKGSWVDGQITGGIKDGQARVFVLWERIRNDQDGTIVNIDSAGTNSLGSAGIPGQVDAHWERLRGAIISLFSDTLTAGQLASEALRSYSIPPTLYDQQGDAVSIFVARDLDFSGVYTLADN 3jqo-a1-m1-cV_3jqo-a1-m1-cP Crystal structure of the outer membrane complex of a type IV secretion system Q46705 Q46705 2.6 X-RAY DIFFRACTION 13 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 192 3jqo-a1-m1-cA_3jqo-a1-m1-ck 3jqo-a1-m1-cb_3jqo-a1-m1-ch 3jqo-a1-m1-cb_3jqo-a1-m1-cV 3jqo-a1-m1-cD_3jqo-a1-m1-cJ 3jqo-a1-m1-cD_3jqo-a1-m1-cn 3jqo-a1-m1-ce_3jqo-a1-m1-ck 3jqo-a1-m1-cG_3jqo-a1-m1-cA 3jqo-a1-m1-cG_3jqo-a1-m1-cM 3jqo-a1-m1-ch_3jqo-a1-m1-cn 3jqo-a1-m1-cJ_3jqo-a1-m1-cP 3jqo-a1-m1-cM_3jqo-a1-m1-cS 3jqo-a1-m1-cY_3jqo-a1-m1-ce 3jqo-a1-m1-cY_3jqo-a1-m1-cS 3zbi-a1-m1-cA_3zbi-a1-m1-cG 3zbi-a1-m1-cA_3zbi-a1-m1-ck 3zbi-a1-m1-cb_3zbi-a1-m1-ch 3zbi-a1-m1-cD_3zbi-a1-m1-cJ 3zbi-a1-m1-cD_3zbi-a1-m1-cn 3zbi-a1-m1-ce_3zbi-a1-m1-ck 3zbi-a1-m1-cG_3zbi-a1-m1-cM 3zbi-a1-m1-ch_3zbi-a1-m1-cn 3zbi-a1-m1-cJ_3zbi-a1-m1-cP 3zbi-a1-m1-cM_3zbi-a1-m1-cS 3zbi-a1-m1-cP_3zbi-a1-m1-cV 3zbi-a1-m1-cS_3zbi-a1-m1-cY 3zbi-a1-m1-cV_3zbi-a1-m1-cb 3zbi-a1-m1-cY_3zbi-a1-m1-ce ETSEGSSALAKNLTPARLKASRAGVANPSLTVPKGKIPCGTGTELDTTVPGQVSCRVSQDVYSADGLVRLIDKGSWVDGQITGGIKDGQARVFVLWERIRNDQDGTIVNIDSAGTNSLGSAGIPGQVDAHWERLRGAIISLFSDTLTAQLASEALRSYSIPPTLYDQQGDAVSIFVARDLDFSGVYTLADN ETSEGSSALAKNLTPARLKASRAGVANPSLTVPKGKIPCGTGTELDTTVPGQVSCRVSQDVYSADGLVRLIDKGSWVDGQITGGIKDGQARVFVLWERIRNDQDGTIVNIDSAGTNSLGSAGIPGQVDAHWERLRGAIISLFSDTLTAGQLASEALRSYSIPPTLYDQQGDAVSIFVARDLDFSGVYTLADN 3jqo-a1-m1-cV_3jqo-a1-m1-cS Crystal structure of the outer membrane complex of a type IV secretion system Q46705 Q46705 2.6 X-RAY DIFFRACTION 175 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 192 3jqo-a1-m1-cA_3jqo-a1-m1-cD 3jqo-a1-m1-cA_3jqo-a1-m1-cn 3jqo-a1-m1-cb_3jqo-a1-m1-ce 3jqo-a1-m1-cG_3jqo-a1-m1-cD 3jqo-a1-m1-cG_3jqo-a1-m1-cJ 3jqo-a1-m1-ch_3jqo-a1-m1-ce 3jqo-a1-m1-ch_3jqo-a1-m1-ck 3jqo-a1-m1-cJ_3jqo-a1-m1-cM 3jqo-a1-m1-cM_3jqo-a1-m1-cP 3jqo-a1-m1-cP_3jqo-a1-m1-cS 3jqo-a1-m1-cY_3jqo-a1-m1-cb 3jqo-a1-m1-cY_3jqo-a1-m1-cV 3zbi-a1-m1-cA_3zbi-a1-m1-cD 3zbi-a1-m1-cA_3zbi-a1-m1-cn 3zbi-a1-m1-cb_3zbi-a1-m1-ce 3zbi-a1-m1-cD_3zbi-a1-m1-cG 3zbi-a1-m1-ce_3zbi-a1-m1-ch 3zbi-a1-m1-cG_3zbi-a1-m1-cJ 3zbi-a1-m1-ch_3zbi-a1-m1-ck 3zbi-a1-m1-cJ_3zbi-a1-m1-cM 3zbi-a1-m1-ck_3zbi-a1-m1-cn 3zbi-a1-m1-cM_3zbi-a1-m1-cP 3zbi-a1-m1-cP_3zbi-a1-m1-cS 3zbi-a1-m1-cS_3zbi-a1-m1-cV 3zbi-a1-m1-cV_3zbi-a1-m1-cY 3zbi-a1-m1-cY_3zbi-a1-m1-cb ETSEGSSALAKNLTPARLKASRAGVANPSLTVPKGKIPCGTGTELDTTVPGQVSCRVSQDVYSADGLVRLIDKGSWVDGQITGGIKDGQARVFVLWERIRNDQDGTIVNIDSAGTNSLGSAGIPGQVDAHWERLRGAIISLFSDTLTAQLASEALRSYSIPPTLYDQQGDAVSIFVARDLDFSGVYTLADN ETSEGSSALAKNLTPARLKASRAGVANPSLTVPKGKIPCGTGTELDTTVPGQVSCRVSQDVYSADGLVRLIDKGSWVDGQITGGIKDGQARVFVLWERIRNDQDGTIVNIDSAGTNSLGSAGIPGQVDAHWERLRGAIISLFSDTLTAGQLASEALRSYSIPPTLYDQQGDAVSIFVARDLDFSGVYTLADN 3jqo-a1-m1-cl_3jqo-a1-m1-co Crystal structure of the outer membrane complex of a type IV secretion system Q46704 Q46704 2.6 X-RAY DIFFRACTION 46 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 127 127 3jqo-a1-m1-cB_3jqo-a1-m1-cE 3jqo-a1-m1-cB_3jqo-a1-m1-co 3jqo-a1-m1-cc_3jqo-a1-m1-cf 3jqo-a1-m1-cE_3jqo-a1-m1-cH 3jqo-a1-m1-cf_3jqo-a1-m1-ci 3jqo-a1-m1-cH_3jqo-a1-m1-cK 3jqo-a1-m1-ci_3jqo-a1-m1-cl 3jqo-a1-m1-cK_3jqo-a1-m1-cN 3jqo-a1-m1-cN_3jqo-a1-m1-cQ 3jqo-a1-m1-cQ_3jqo-a1-m1-cT 3jqo-a1-m1-cT_3jqo-a1-m1-cW 3jqo-a1-m1-cW_3jqo-a1-m1-cZ 3jqo-a1-m1-cZ_3jqo-a1-m1-cc 3zbi-a1-m1-cB_3zbi-a1-m1-cE 3zbi-a1-m1-cB_3zbi-a1-m1-co 3zbi-a1-m1-cc_3zbi-a1-m1-cf 3zbi-a1-m1-cE_3zbi-a1-m1-cH 3zbi-a1-m1-cf_3zbi-a1-m1-ci 3zbi-a1-m1-cH_3zbi-a1-m1-cK 3zbi-a1-m1-ci_3zbi-a1-m1-cl 3zbi-a1-m1-cK_3zbi-a1-m1-cN 3zbi-a1-m1-cl_3zbi-a1-m1-co 3zbi-a1-m1-cN_3zbi-a1-m1-cQ 3zbi-a1-m1-cQ_3zbi-a1-m1-cT 3zbi-a1-m1-cT_3zbi-a1-m1-cW 3zbi-a1-m1-cW_3zbi-a1-m1-cZ 3zbi-a1-m1-cZ_3zbi-a1-m1-cc AADKKRITQKLKQTAFAGAKNYQYVSEQPERSIQPVHVWDNYRFTRFEFPANAELPQVYISASGKETLPNSHVVGENRNIIEVETVAKEWRIRLGDKVVGVRNNNFAPGRGAVATGTASPDVRRVQI AADKKRITQKLKQTAFAGAKNYQYVSEQPERSIQPVHVWDNYRFTRFEFPANAELPQVYISASGKETLPNSHVVGENRNIIEVETVAKEWRIRLGDKVVGVRNNNFAPGRGAVATGTASPDVRRVQI 3jqp-a6-m4-cF_3jqp-a6-m1-cE Crystal structure of the H286L mutant of Ferredoxin-NADP+ reductase from Plasmodium falciparum with 2'P-AMP C6KT68 C6KT68 3 X-RAY DIFFRACTION 64 0.992 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 257 261 3jqp-a5-m1-cC_3jqp-a5-m3-cD FINLYTVKNPLKCKIVDKINLVRPNSPNEVYHLEINHNGLFKYLEGHTCGIIPYYNEQRCARLYSISSSNNMENLSVAIKIHKYENYGYCSGFIKNLKINDDIYLTGAHGYFNLPNDAIQKNTNFIFIATGTGISPYISFLKKLFAYDKNNLYNRNSYTGYITIYYGVYNEDSILYLNELEYFQKMYPNNINIHYVFSYKTSFYVQDEIYKRKTEFLNLFNNYKCELYICGLKSIRYKVMDILKSEKKKKRVHVEVY FINLYTVKNPLKCKIVDKINLVRPNSPNEVYHLEINHNGLFKYLEGHTCGIIPYYNELQRCARLYSISSSNNMENLSVAIKIHKYEQTENNYGYCSGFIKNLKINDDIYLTGAHGYFNLPNDAIQKNTNFIFIATGTGISPYISFLKKLFAYDKNNLYNRNSNYTGYITIYYGVYNEDSILYLNELEYFQKMYPNNINIHYVFSYTSFYVQDEIYKRKTEFLNLFNNYKCELYICGLKSIRYKVMDILKEKKKKRVHVEVY 3jqq-a3-m1-cE_3jqq-a3-m1-cF Crystal structure of the H286K mutant of Ferredoxin-NADP+ reductase from Plasmodium falciparum in complex with 2'P-AMP C6KT68 C6KT68 2.2 X-RAY DIFFRACTION 42 0.984 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 253 254 2ok7-a1-m1-cB_2ok7-a1-m1-cA 2ok7-a2-m1-cD_2ok7-a2-m1-cC 2ok7-a3-m1-cE_2ok7-a3-m1-cF 3jqp-a2-m1-cC_3jqp-a2-m1-cD 3jqp-a3-m1-cF_3jqp-a3-m1-cE 3jqq-a1-m1-cA_3jqq-a1-m1-cB 3jqq-a2-m1-cC_3jqq-a2-m1-cD 3jqr-a1-m1-cA_3jqr-a1-m2-cA NFINLYTVKNPLKCKIVDKINLVRPNSPNEVYHLEINHNGLFKYLEGHTCGIIPYYNQRCARLYSISSSNNMENLSVAIKIHKYENYGYCSGFIKNLKINDDIYLTGAHGYFNLPNDAIQKNTNFIFIATGTGISPYISFLKKLFAYDKNNLYNRNSNYTGYITIYYGVYNEDSILYLNELEYFQKMYPNNINIHYVFSYTSFYVQDEIYKRKTEFLNLFNYKCELYICGKKSIRYKVMDILKSKKRVHVEVY NFINLYTVKNPLKCKIVDKINLVRPNSPNEVYHLEINHNGLFKYLEGHTCGIIPYYNEQRCARLYSISSSNNMENLSVAIKIHKYENYGYCSGFIKNLKINDDIYLTGAHGYFNLPNDAIQKNTNFIFIATGTGISPYISFLKKLFAYDKNNLYNRNSNYTGYITIYYGVYNEDSILYLNELEYFQKMYPNNINIHYVFSYKQATSFYVQDEIYKRKTEFLNLFNYKCELYICGKKSIRYKVMDKKKRVHVEVY 3jqy-a1-m1-cC_3jqy-a1-m1-cB Crystal Structure of the polySia specific acetyltransferase NeuO A1ADJ6 A1ADJ6 1.699 X-RAY DIFFRACTION 65 1.0 562 (Escherichia coli) 562 (Escherichia coli) 216 220 3jqy-a1-m1-cB_3jqy-a1-m1-cA 3jqy-a1-m1-cC_3jqy-a1-m1-cA QDSFSVDDNGSGNVFVCGDLVNSKENKVQFNGNNNKLIIEDDVECRWLTVIFRGDNNYVRIHKNSKIKGDIVATKGSKVIIGRRTTIGAGFEVVTDKCNVTIGHDCMIARDVILRASDGHPIFDIHSKKRINWAKDIIISSYVWVGRNVSIMKGVSVGSGSVIGYGSIVTKDVPSMCAAAGNPAKIIKRNIIWARTDKAELISDDKRCSSYHAKLT KTQDSFSVDDNGSGNVFVCGDLVNSKENKVQFNGNNNKLIIEDDVECRWLTVIFRGDNNYVRIHKNSKIKGDIVATKGSKVIIGRRTTIGAGFEVVTDKCNVTIGHDCMIARDVILRASDGHPIFDIHSKKRINWAKDIIISSYVWVGRNVSIMKGVSVGSGSVIGYGSIVTKDVPSMCAAAGNPAKIIKRNIIWARTDKAELISDDKRCSSYHAKLTQL 3jqz-a1-m1-cA_3jqz-a1-m1-cB Crystal Structure of Human serum albumin complexed with Lidocaine P02768 P02768 3.3 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 582 582 DAHKSEVAHRFKDLGEENFKALVLIAFAQYLQQCPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAETFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAVMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAA DAHKSEVAHRFKDLGEENFKALVLIAFAQYLQQCPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAETFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAVMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAA 3jr8-a1-m1-cA_3jr8-a1-m2-cA Crystal Structure of BthTX-II (Asp49-PLA2 from Bothrops jararacussu snake venom) with calcium ions P45881 P45881 2.1 X-RAY DIFFRACTION 53 1.0 8726 (Bothrops jararacussu) 8726 (Bothrops jararacussu) 122 122 2oqd-a1-m1-cA_2oqd-a1-m2-cA 2oqd-a2-m1-cB_2oqd-a2-m2-cB 3jr8-a2-m1-cB_3jr8-a2-m2-cB 5tfv-a1-m1-cA_5tfv-a1-m1-cB 7rjz-a1-m1-cA_7rjz-a1-m1-cB DLWQFGQMILKETGKLPFPYYTTYGCYCGWGGQGQPKDATDRCCFVHDCCYGKLTNCKPKTDRYSYSRENGVIICGEGTPCEKQICECDKAAAVCFRENLRTYKKRYMAYPDVLCKKPAEKC DLWQFGQMILKETGKLPFPYYTTYGCYCGWGGQGQPKDATDRCCFVHDCCYGKLTNCKPKTDRYSYSRENGVIICGEGTPCEKQICECDKAAAVCFRENLRTYKKRYMAYPDVLCKKPAEKC 3jrt-a1-m1-cA_3jrt-a1-m2-cA Structure from the mobile metagenome of V. paracholerae: Integron cassette protein Vpc_cass2 2.3 X-RAY DIFFRACTION 72 1.0 650003 (Vibrio paracholerae) 650003 (Vibrio paracholerae) 164 164 GVKSDKWIEIEEILSGLIGDLTIAVTVLKDYEGKAFLREPQHQTKRQCIWRLCVYSIVINCRKYVELNQKYGKEIPGHNHIRGVYNNEINKNTAIKKLRNHCVAHVSDKSKYLKPAEVQEEIIKFDGNFADEFLDWICPDNISTTDKSESLVGVIELLRDAVSA GVKSDKWIEIEEILSGLIGDLTIAVTVLKDYEGKAFLREPQHQTKRQCIWRLCVYSIVINCRKYVELNQKYGKEIPGHNHIRGVYNNEINKNTAIKKLRNHCVAHVSDKSKYLKPAEVQEEIIKFDGNFADEFLDWICPDNISTTDKSESLVGVIELLRDAVSA 3jru-a1-m1-cA_3jru-a1-m3-cB Crystal structure of Leucyl Aminopeptidase (pepA) from Xoo0834,Xanthomonas oryzae pv. oryzae KACC10331 Q5H4N2 Q5H4N2 2.6 X-RAY DIFFRACTION 23 1.0 64187 (Xanthomonas oryzae pv. oryzae) 64187 (Xanthomonas oryzae pv. oryzae) 490 490 3jru-a1-m1-cB_3jru-a1-m2-cA 3jru-a1-m2-cB_3jru-a1-m3-cA MALQFTLNQDAPASAAVDCIVVGAFADKTLSPAAQALDSASQGRLTALLARGDVAGKTGSTTLLHDLPGVAAPRVLVVGLGDAGKFGVAPYLKAIGDATRALKTGAVGTALLTLTELTVKARDAAWNIRQAVTVSDHAAYRYTATLGKKKVDETGLTTLAIAGDDARALAVGVATAEGVEFARELGNLPPNYCTPAYLADTAAAFAGKFPGAEAEILDEAQMEALGMGSLLSVARGSANRPRLIVLKWNGGGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMCGGATVIGTFVATVKAELPINLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFNPEALVDVATLTGACMVALGHQTAGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSTFADVYNIGGRWGGAITAGCFLSRFTENQRWAHLDIAGVASDEGKRGMATGRPVGLLTQWLLDRAA MALQFTLNQDAPASAAVDCIVVGAFADKTLSPAAQALDSASQGRLTALLARGDVAGKTGSTTLLHDLPGVAAPRVLVVGLGDAGKFGVAPYLKAIGDATRALKTGAVGTALLTLTELTVKARDAAWNIRQAVTVSDHAAYRYTATLGKKKVDETGLTTLAIAGDDARALAVGVATAEGVEFARELGNLPPNYCTPAYLADTAAAFAGKFPGAEAEILDEAQMEALGMGSLLSVARGSANRPRLIVLKWNGGGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMCGGATVIGTFVATVKAELPINLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFNPEALVDVATLTGACMVALGHQTAGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSTFADVYNIGGRWGGAITAGCFLSRFTENQRWAHLDIAGVASDEGKRGMATGRPVGLLTQWLLDRAA 3jru-a1-m2-cB_3jru-a1-m3-cB Crystal structure of Leucyl Aminopeptidase (pepA) from Xoo0834,Xanthomonas oryzae pv. oryzae KACC10331 Q5H4N2 Q5H4N2 2.6 X-RAY DIFFRACTION 89 1.0 64187 (Xanthomonas oryzae pv. oryzae) 64187 (Xanthomonas oryzae pv. oryzae) 490 490 3jru-a1-m1-cA_3jru-a1-m2-cA 3jru-a1-m1-cA_3jru-a1-m3-cA 3jru-a1-m1-cB_3jru-a1-m2-cB 3jru-a1-m1-cB_3jru-a1-m3-cB 3jru-a1-m2-cA_3jru-a1-m3-cA MALQFTLNQDAPASAAVDCIVVGAFADKTLSPAAQALDSASQGRLTALLARGDVAGKTGSTTLLHDLPGVAAPRVLVVGLGDAGKFGVAPYLKAIGDATRALKTGAVGTALLTLTELTVKARDAAWNIRQAVTVSDHAAYRYTATLGKKKVDETGLTTLAIAGDDARALAVGVATAEGVEFARELGNLPPNYCTPAYLADTAAAFAGKFPGAEAEILDEAQMEALGMGSLLSVARGSANRPRLIVLKWNGGGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMCGGATVIGTFVATVKAELPINLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFNPEALVDVATLTGACMVALGHQTAGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSTFADVYNIGGRWGGAITAGCFLSRFTENQRWAHLDIAGVASDEGKRGMATGRPVGLLTQWLLDRAA MALQFTLNQDAPASAAVDCIVVGAFADKTLSPAAQALDSASQGRLTALLARGDVAGKTGSTTLLHDLPGVAAPRVLVVGLGDAGKFGVAPYLKAIGDATRALKTGAVGTALLTLTELTVKARDAAWNIRQAVTVSDHAAYRYTATLGKKKVDETGLTTLAIAGDDARALAVGVATAEGVEFARELGNLPPNYCTPAYLADTAAAFAGKFPGAEAEILDEAQMEALGMGSLLSVARGSANRPRLIVLKWNGGGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMCGGATVIGTFVATVKAELPINLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFNPEALVDVATLTGACMVALGHQTAGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSTFADVYNIGGRWGGAITAGCFLSRFTENQRWAHLDIAGVASDEGKRGMATGRPVGLLTQWLLDRAA 3jru-a1-m3-cA_3jru-a1-m3-cB Crystal structure of Leucyl Aminopeptidase (pepA) from Xoo0834,Xanthomonas oryzae pv. oryzae KACC10331 Q5H4N2 Q5H4N2 2.6 X-RAY DIFFRACTION 71 1.0 64187 (Xanthomonas oryzae pv. oryzae) 64187 (Xanthomonas oryzae pv. oryzae) 490 490 3jru-a1-m1-cA_3jru-a1-m1-cB 3jru-a1-m2-cA_3jru-a1-m2-cB MALQFTLNQDAPASAAVDCIVVGAFADKTLSPAAQALDSASQGRLTALLARGDVAGKTGSTTLLHDLPGVAAPRVLVVGLGDAGKFGVAPYLKAIGDATRALKTGAVGTALLTLTELTVKARDAAWNIRQAVTVSDHAAYRYTATLGKKKVDETGLTTLAIAGDDARALAVGVATAEGVEFARELGNLPPNYCTPAYLADTAAAFAGKFPGAEAEILDEAQMEALGMGSLLSVARGSANRPRLIVLKWNGGGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMCGGATVIGTFVATVKAELPINLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFNPEALVDVATLTGACMVALGHQTAGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSTFADVYNIGGRWGGAITAGCFLSRFTENQRWAHLDIAGVASDEGKRGMATGRPVGLLTQWLLDRAA MALQFTLNQDAPASAAVDCIVVGAFADKTLSPAAQALDSASQGRLTALLARGDVAGKTGSTTLLHDLPGVAAPRVLVVGLGDAGKFGVAPYLKAIGDATRALKTGAVGTALLTLTELTVKARDAAWNIRQAVTVSDHAAYRYTATLGKKKVDETGLTTLAIAGDDARALAVGVATAEGVEFARELGNLPPNYCTPAYLADTAAAFAGKFPGAEAEILDEAQMEALGMGSLLSVARGSANRPRLIVLKWNGGGDARPYVLVGKGITFDTGGVNLKTQGGIEEMKYDMCGGATVIGTFVATVKAELPINLVVVVPAVENAIDGNAYRPSDVITSMSGKTIEVGNTDAEGRLILCDALTYAERFNPEALVDVATLTGACMVALGHQTAGLMSKHDDLANELLAAGEHVFDRAWRLPLWDEYQGLLDSTFADVYNIGGRWGGAITAGCFLSRFTENQRWAHLDIAGVASDEGKRGMATGRPVGLLTQWLLDRAA 3js2-a2-m1-cB_3js2-a2-m1-cA Crystal structure of minimal kinase domain of fibroblast growth factor receptor 1 in complex with 5-(2-thienyl)nicotinic acid P11362 P11362 2.2 X-RAY DIFFRACTION 36 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 291 295 3js2-a1-m1-cB_3js2-a1-m1-cA GVSEYELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTS ELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPGLHNPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQE 3js9-a1-m1-cA_3js9-a1-m2-cC Crystal structure of nucleoside diphosphate kinase family protein from Babesia bovis A7ANF8 A7ANF8 2.5 X-RAY DIFFRACTION 10 1.0 484906 (Babesia bovis T2Bo) 484906 (Babesia bovis T2Bo) 148 148 3js9-a1-m1-cB_3js9-a1-m2-cB 3js9-a1-m1-cC_3js9-a1-m2-cA MERTYIMVKPDGVQRGLIGEILKRFEMKGLKLIAAKFEHPTMDVVAQHYCEHKDKPFFKDLCDFISHGPVFCMIWEGPEAIKIGRNLVGLTSPVESAAGTIRGDFGVVKNFNIVHASSSAEDAARECALWFTPEQLVTWERSVGGWIY MERTYIMVKPDGVQRGLIGEILKRFEMKGLKLIAAKFEHPTMDVVAQHYCEHKDKPFFKDLCDFISHGPVFCMIWEGPEAIKIGRNLVGLTSPVESAAGTIRGDFGVVKNFNIVHASSSAEDAARECALWFTPEQLVTWERSVGGWIY 3js9-a1-m1-cB_3js9-a1-m2-cC Crystal structure of nucleoside diphosphate kinase family protein from Babesia bovis A7ANF8 A7ANF8 2.5 X-RAY DIFFRACTION 73 1.0 484906 (Babesia bovis T2Bo) 484906 (Babesia bovis T2Bo) 148 148 3js9-a1-m1-cA_3js9-a1-m2-cA 3js9-a1-m1-cC_3js9-a1-m2-cB MERTYIMVKPDGVQRGLIGEILKRFEMKGLKLIAAKFEHPTMDVVAQHYCEHKDKPFFKDLCDFISHGPVFCMIWEGPEAIKIGRNLVGLTSPVESAAGTIRGDFGVVKNFNIVHASSSAEDAARECALWFTPEQLVTWERSVGGWIY MERTYIMVKPDGVQRGLIGEILKRFEMKGLKLIAAKFEHPTMDVVAQHYCEHKDKPFFKDLCDFISHGPVFCMIWEGPEAIKIGRNLVGLTSPVESAAGTIRGDFGVVKNFNIVHASSSAEDAARECALWFTPEQLVTWERSVGGWIY 3js9-a2-m1-cB_3js9-a2-m1-cC Crystal structure of nucleoside diphosphate kinase family protein from Babesia bovis A7ANF8 A7ANF8 2.5 X-RAY DIFFRACTION 55 1.0 484906 (Babesia bovis T2Bo) 484906 (Babesia bovis T2Bo) 148 148 3js9-a1-m1-cA_3js9-a1-m1-cB 3js9-a1-m1-cA_3js9-a1-m1-cC 3js9-a1-m1-cB_3js9-a1-m1-cC 3js9-a1-m2-cA_3js9-a1-m2-cB 3js9-a1-m2-cA_3js9-a1-m2-cC 3js9-a1-m2-cB_3js9-a1-m2-cC 3js9-a2-m1-cA_3js9-a2-m1-cB 3js9-a2-m1-cA_3js9-a2-m1-cC MERTYIMVKPDGVQRGLIGEILKRFEMKGLKLIAAKFEHPTMDVVAQHYCEHKDKPFFKDLCDFISHGPVFCMIWEGPEAIKIGRNLVGLTSPVESAAGTIRGDFGVVKNFNIVHASSSAEDAARECALWFTPEQLVTWERSVGGWIY MERTYIMVKPDGVQRGLIGEILKRFEMKGLKLIAAKFEHPTMDVVAQHYCEHKDKPFFKDLCDFISHGPVFCMIWEGPEAIKIGRNLVGLTSPVESAAGTIRGDFGVVKNFNIVHASSSAEDAARECALWFTPEQLVTWERSVGGWIY 3jsb-a2-m1-cB_3jsb-a2-m3-cB Crystal structure of the N-terminal domain of the Lymphocytic Choriomeningitis Virus L protein P14240 P14240 2.13 X-RAY DIFFRACTION 66 1.0 11624 (Lymphocytic choriomeningitis virus (strain Armstrong)) 11624 (Lymphocytic choriomeningitis virus (strain Armstrong)) 194 194 3jsb-a1-m1-cA_3jsb-a1-m2-cA HHHDEIISELRELCLNYIEQDERLSRQKLNFLGQREPRMVLIEGLKLLSRCIEIDSADKSGCTHNHDDKSVETILVESGIVCPGLPLIIPDGYKLIDNSLILLECFVRSTPASFEKKFIEDTNKLACIREDLAVAGVTLVPIVDGRCDYDNSFMPEWANFKFRDLLFKLLEYSNQDEKVFEESEYFRLCESLKT HHHDEIISELRELCLNYIEQDERLSRQKLNFLGQREPRMVLIEGLKLLSRCIEIDSADKSGCTHNHDDKSVETILVESGIVCPGLPLIIPDGYKLIDNSLILLECFVRSTPASFEKKFIEDTNKLACIREDLAVAGVTLVPIVDGRCDYDNSFMPEWANFKFRDLLFKLLEYSNQDEKVFEESEYFRLCESLKT 3jsj-a2-m1-cC_3jsj-a2-m1-cD Crystal structure of a putative tetr-transcriptional regulator (sav143) from streptomyces avermitilis ma-4680 at 2.10 A resolution Q82RK0 Q82RK0 2.1 X-RAY DIFFRACTION 105 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 180 181 3jsj-a1-m1-cA_3jsj-a1-m1-cB QSPRERLLEAAAALTYRDGVGIGVEALCKAAGVSKRSYQLFESKDELLAASLKERSAAFVAKALPPADDGRSPRERILYVFERVESQAGAPDFQGCRYLAVQIELKDQAHPASRVAYQIKADLAFFRSEAERGGASDPDLLARQLILVFDGASARAGIGADNLTGLIVPTLTTLLDAADH KQSPRERLLEAAAALTYRDGVGIGVEALCKAAGVSKRSYQLFESKDELLAASLKERSAAFVAKALPPADDGRSPRERILYVFERVESQAGAPDFQGCRYLAVQIELKDQAHPASRVAYQIKADLAFFRSEAERGGASDPDLLARQLILVFDGASARAGIGADNLTGLIVPTLTTLLDAADH 3jsk-a2-m1-cK_3jsk-a2-m1-cP Thiazole synthase from Neurospora crassa Q1K6I4 Q1K6I4 2.7 X-RAY DIFFRACTION 94 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 290 290 3jsk-a1-m1-cB_3jsk-a1-m1-cA 3jsk-a1-m1-cD_3jsk-a1-m1-cF 3jsk-a1-m1-cE_3jsk-a1-m1-cG 3jsk-a1-m1-cH_3jsk-a1-m1-cC 3jsk-a2-m1-cI_3jsk-a2-m1-cJ 3jsk-a2-m1-cL_3jsk-a2-m1-cN 3jsk-a2-m1-cM_3jsk-a2-m1-cO GLSKPLLELMPTLGTDAFTFSPIRESTVSRAMTRRYFADLDAHAETDIVIVGAGSCGLSAAYVLSTLRPDLRITIVEAGVAPGGGAWLGGQLFSAMVMRKPADVFLDEVGVPYEDEGDYVVVKHAALFTSTVLSKVLQRPNVKLFNATTVEDLITRKHKVRIAGVVTNWTLVSMHHDDQSMDPNTINAPVIISTTGHDGPFGAFSVKRLVSMKQMERLNGMRGLDMQSAEDAIVNNTREIVPGLIVGGMELSEIDGANRMGPTFGAMALSGVKAAHEAIRVFDLRKAQND GLSKPLLELMPTLGTDAFTFSPIRESTVSRAMTRRYFADLDAHAETDIVIVGAGSCGLSAAYVLSTLRPDLRITIVEAGVAPGGGAWLGGQLFSAMVMRKPADVFLDEVGVPYEDEGDYVVVKHAALFTSTVLSKVLQRPNVKLFNATTVEDLITRKHKVRIAGVVTNWTLVSMHHDDQSMDPNTINAPVIISTTGHDGPFGAFSVKRLVSMKQMERLNGMRGLDMQSAEDAIVNNTREIVPGLIVGGMELSEIDGANRMGPTFGAMALSGVKAAHEAIRVFDLRKAQND 3jsk-a2-m1-cM_3jsk-a2-m1-cP Thiazole synthase from Neurospora crassa Q1K6I4 Q1K6I4 2.7 X-RAY DIFFRACTION 65 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 290 290 3jsk-a1-m1-cA_3jsk-a1-m1-cC 3jsk-a1-m1-cA_3jsk-a1-m1-cF 3jsk-a1-m1-cB_3jsk-a1-m1-cD 3jsk-a1-m1-cB_3jsk-a1-m1-cH 3jsk-a1-m1-cE_3jsk-a1-m1-cD 3jsk-a1-m1-cE_3jsk-a1-m1-cH 3jsk-a1-m1-cG_3jsk-a1-m1-cC 3jsk-a1-m1-cG_3jsk-a1-m1-cF 3jsk-a2-m1-cI_3jsk-a2-m1-cK 3jsk-a2-m1-cI_3jsk-a2-m1-cN 3jsk-a2-m1-cJ_3jsk-a2-m1-cL 3jsk-a2-m1-cJ_3jsk-a2-m1-cP 3jsk-a2-m1-cK_3jsk-a2-m1-cO 3jsk-a2-m1-cL_3jsk-a2-m1-cM 3jsk-a2-m1-cN_3jsk-a2-m1-cO GLSKPLLELMPTLGTDAFTFSPIRESTVSRAMTRRYFADLDAHAETDIVIVGAGSCGLSAAYVLSTLRPDLRITIVEAGVAPGGGAWLGGQLFSAMVMRKPADVFLDEVGVPYEDEGDYVVVKHAALFTSTVLSKVLQRPNVKLFNATTVEDLITRKHKVRIAGVVTNWTLVSMHHDDQSMDPNTINAPVIISTTGHDGPFGAFSVKRLVSMKQMERLNGMRGLDMQSAEDAIVNNTREIVPGLIVGGMELSEIDGANRMGPTFGAMALSGVKAAHEAIRVFDLRKAQND GLSKPLLELMPTLGTDAFTFSPIRESTVSRAMTRRYFADLDAHAETDIVIVGAGSCGLSAAYVLSTLRPDLRITIVEAGVAPGGGAWLGGQLFSAMVMRKPADVFLDEVGVPYEDEGDYVVVKHAALFTSTVLSKVLQRPNVKLFNATTVEDLITRKHKVRIAGVVTNWTLVSMHHDDQSMDPNTINAPVIISTTGHDGPFGAFSVKRLVSMKQMERLNGMRGLDMQSAEDAIVNNTREIVPGLIVGGMELSEIDGANRMGPTFGAMALSGVKAAHEAIRVFDLRKAQND 3jsk-a2-m1-cP_3jsk-a2-m1-cO Thiazole synthase from Neurospora crassa Q1K6I4 Q1K6I4 2.7 X-RAY DIFFRACTION 269 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 290 291 3jsk-a1-m1-cA_3jsk-a1-m1-cD 3jsk-a1-m1-cB_3jsk-a1-m1-cC 3jsk-a1-m1-cE_3jsk-a1-m1-cF 3jsk-a1-m1-cG_3jsk-a1-m1-cH 3jsk-a2-m1-cI_3jsk-a2-m1-cL 3jsk-a2-m1-cJ_3jsk-a2-m1-cK 3jsk-a2-m1-cM_3jsk-a2-m1-cN GLSKPLLELMPTLGTDAFTFSPIRESTVSRAMTRRYFADLDAHAETDIVIVGAGSCGLSAAYVLSTLRPDLRITIVEAGVAPGGGAWLGGQLFSAMVMRKPADVFLDEVGVPYEDEGDYVVVKHAALFTSTVLSKVLQRPNVKLFNATTVEDLITRKHKVRIAGVVTNWTLVSMHHDDQSMDPNTINAPVIISTTGHDGPFGAFSVKRLVSMKQMERLNGMRGLDMQSAEDAIVNNTREIVPGLIVGGMELSEIDGANRMGPTFGAMALSGVKAAHEAIRVFDLRKAQND GLSKPLLELMPTLGTDAFTFSPIRESTVSRAMTRRYFADLDAHAETDIVIVGAGSCGLSAAYVLSTLRPDLRITIVEAGVAPGGGAWLGGQLFSAMVMRKPADVFLDEVGVPYEDEGDYVVVKHAALFTSTVLSKVLQRPNVKLFNATTVEDLITRKHAKVRIAGVVTNWTLVSMHHDDQSMDPNTINAPVIISTTGHDGPFGAFSVKRLVSMKQMERLNGMRGLDMQSAEDAIVNNTREIVPGLIVGGMELSEIDGANRMGPTFGAMALSGVKAAHEAIRVFDLRKAQND 3jsl-a1-m1-cA_3jsl-a1-m1-cB Crystal structure of the adenylation domain of NAD+-dependent DNA ligase from Staphylococcus aureus Q9AIU7 Q9AIU7 1.8 X-RAY DIFFRACTION 36 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 308 308 ADLSSRVNELHDLLNQYSYEYYVEDNPSVPDSEYDKLLHELIKIEEEHPEYKTVDSPTVRVGGEAQASFNKVNHDTPMLSLGNAFNEDDLRKFDQRIREQIGNVEYMCELKIDGLAVSLKYVDGYFVQGLTRGDGTTGEDITENLKTIHAIPLKMKEPLNVEVRGEAYMPRRSFLRLNEEKEKNDEQLFANPRNAAAGSLRQLDSKLTAKRKLSVFIYSVNDFTDFNARSQSEALDELDKLGFTTNKNRARVNNIDGVLEYIEKWTSQRESLPYDIDGIVIKVNDLDQQDEMGFTQKSPRWAIAYKFP ADLSSRVNELHDLLNQYSYEYYVEDNPSVPDSEYDKLLHELIKIEEEHPEYKTVDSPTVRVGGEAQASFNKVNHDTPMLSLGNAFNEDDLRKFDQRIREQIGNVEYMCELKIDGLAVSLKYVDGYFVQGLTRGDGTTGEDITENLKTIHAIPLKMKEPLNVEVRGEAYMPRRSFLRLNEEKEKNDEQLFANPRNAAAGSLRQLDSKLTAKRKLSVFIYSVNDFTDFNARSQSEALDELDKLGFTTNKNRARVNNIDGVLEYIEKWTSQRESLPYDIDGIVIKVNDLDQQDEMGFTQKSPRWAIAYKFP 3jso-a1-m1-cA_3jso-a1-m1-cB Classic Protein With a New Twist: crystal structure of a LexA repressor DNA complex P0A7C2 P0A7C2 2.29 X-RAY DIFFRACTION 92 0.989 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 188 189 1jhe-a1-m1-cA_1jhe-a1-m1-cB 8gms-a1-m1-cB_8gms-a1-m1-cA KALTARQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGVIEIVSGASRGIRLLGLPLVGRVAAGEPLIEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVARLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNG KALTARQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGVIEIVSGASRGIRLLGLPLVGRVAAGEIEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVARLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNGDWL 3jtf-a1-m1-cA_3jtf-a1-m1-cB The CBS Domain Pair Structure of a magnesium and cobalt efflux protein from Bordetella parapertussis in complex with AMP Q7WB69 Q7WB69 2 X-RAY DIFFRACTION 55 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 120 121 ERTVADIVPRSRDLLDISQPLPQLLATIIETAHSRFPVYEDDRDNIIGILLAKDLLRYLEPALDIRSLVRPAVFIPEVKRLNVLLREFRASRNHLAIVIDEGGISGLVTEDVLEQIVGDI ERTVADIVPRSRDLLDISQPLPQLLATIIETAHSRFPVYEDDRDNIIGILLAKDLLRYLEPALDIRSLVRPAVFIPEVKRLNVLLREFRASRNHLAIVIDEHGGISGLVTEDVLEQIVGDI 3jth-a1-m1-cB_3jth-a1-m1-cA Crystal structure of a transcriptional regulator HlyU from Vibrio vulnificus CMCP6 2 X-RAY DIFFRACTION 50 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 88 92 5znx-a1-m1-cA_5znx-a1-m2-cA DEQNSAKAVVLLKAANERRLQILCLHNQELSVGELCAKLQLSQSALSQHLAWLRRDGLVTTRKEAQTVYYTLKSEEVKAIKLLHSLYC MNLKDEQNSAKAVVLLKAANERRLQILCLHNQELSVGELCAKLQLSQSALSQHLAWLRRDGLVTTRKEAQTVYYTLKSEEVKAIKLLHSLYC 3jtj-a1-m1-cA_3jtj-a1-m2-cA 3-deoxy-manno-octulosonate cytidylyltransferase from Yersinia pestis Q8ZGA4 Q8ZGA4 2.18 X-RAY DIFFRACTION 91 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 244 244 SFIAIIPARYASTRLPGKPLADIAGKPVVHVERALASGADRVIVATDHPDVVKAVEAAGGEVCLTRADHQSGTERLAEVIEHYGFADDDIIVNVQGDEPLVPPVIIRQVADNLAACSAGATLAVPIASSEEAFNPNAVKVVDAQGYALYFSRATIPWERERFAQSKETIGDCFLRHIGIYAYRAGFIRRYVNWAPSQLEQIELLEQLRVLWYGEKIHVAVAKAVPAVGVDTQSDLDRVRAILNQ SFIAIIPARYASTRLPGKPLADIAGKPVVHVERALASGADRVIVATDHPDVVKAVEAAGGEVCLTRADHQSGTERLAEVIEHYGFADDDIIVNVQGDEPLVPPVIIRQVADNLAACSAGATLAVPIASSEEAFNPNAVKVVDAQGYALYFSRATIPWERERFAQSKETIGDCFLRHIGIYAYRAGFIRRYVNWAPSQLEQIELLEQLRVLWYGEKIHVAVAKAVPAVGVDTQSDLDRVRAILNQ 3jtw-a2-m1-cB_3jtw-a2-m3-cB Crystal structure of Putative dihydrofolate reductase (YP_805003.1) from PEDIOCOCCUS PENTOSACEUS ATCC 25745 at 1.90 A resolution Q03E11 Q03E11 1.9 X-RAY DIFFRACTION 105 1.0 278197 (Pediococcus pentosaceus ATCC 25745) 278197 (Pediococcus pentosaceus ATCC 25745) 169 169 3jtw-a1-m1-cA_3jtw-a1-m2-cA ARKVILFIASIDNYIADDQGAVDWLEKNVHGTESDDSYEKYSKIDTVIGRTTYEQVTQKKYVYADRQTYIVTSHLGEDTDKIKYWKQSPVELVKRIQKEKGKDVWIVGGAKIIDPLVQANLIDTYILTTVPIFLGSGIRLFDRLEEQVPVRLIDVYQKNELVYSIYQRG ARKVILFIASIDNYIADDQGAVDWLEKNVHGTESDDSYEKYSKIDTVIGRTTYEQVTQKKYVYADRQTYIVTSHLGEDTDKIKYWKQSPVELVKRIQKEKGKDVWIVGGAKIIDPLVQANLIDTYILTTVPIFLGSGIRLFDRLEEQVPVRLIDVYQKNELVYSIYQRG 3jtx-a1-m1-cA_3jtx-a1-m1-cB Crystal structure of Aminotransferase (NP_283882.1) from NEISSERIA MENINGITIDIS Z2491 at 1.91 A resolution 1.91 X-RAY DIFFRACTION 139 0.997 122587 (Neisseria meningitidis Z2491) 122587 (Neisseria meningitidis Z2491) 387 387 GNTLLKQLKPYPFARLHEAQGISAPEGEAVPLHIGEPKHPTPKVITDALTASLHELEKYPLTAGLPELRQACANWLKRRYDGLTVDADNEILPVLGSREALFSFVQTVLNPGIKPAIVSPNPFYQIYEGATLLGGGEIHFANCPAPSFNPDWRSISEEVWKRTKLVFVCSPNNPSGSVLDLDGWKEVFDLQDKYGFIIASDECYSEIYFDGNKPLGCLQAAAQLGRSRQKLLFTSLSRSNVPGLRSGFVAGDAELLKNFLLYRTYHGSASIPVQRASIAAWDDEQHVIDNRRLYQEKFERVIPILQQVFDVKLPDASFYIWLKVPDGDDLAFARNLWQKAAIQVLPGRFLARDTEQGNPGEGYVRIALVADVATCVKAAEDIVSLYR NTLLKQLKPYPFARLHEAQGISAPEGEAVPLHIGEPKHPTPKVITDALTASLHELEKYPLTAGLPELRQACANWLKRRYDGLTVDADNEILPVLGSREALFSFVQTVLNPVGIKPAIVSPNPFYQIYEGATLLGGGEIHFANCPAPSFNPDWRSISEEVWKRTKLVFVCSPNNPSGSVLDLDGWKEVFDLQDKYGFIIASDECYSEIYFDGNKPLGCLQAAAQLGRSRQKLLFTSLSRSNVPGLRSGFVAGDAELLKNFLLYRTYHGSASIPVQRASIAAWDDEQHVIDNRRLYQEKFERVIPILQQVFDVKLPDASFYIWLKVPDGDDLAFARNLWQKAAIQVLPGRFLARDTEQGNPGEGYVRIALVADVATCVKAAEDIVSLYR 3jtz-a1-m1-cA_3jtz-a1-m2-cA Structure of the arm-type binding domain of HPI integrase Q9Z3B4 Q9Z3B4 1.3 X-RAY DIFFRACTION 39 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 77 77 3rmp-a1-m1-cC_3rmp-a1-m1-cA SLTDAKIRTLKPSDKPFKVSDSHGLYLLVKPGGSRHWYLKYRISGKESRIALGAYPAISLSDARQQREGIRKMLALN SLTDAKIRTLKPSDKPFKVSDSHGLYLLVKPGGSRHWYLKYRISGKESRIALGAYPAISLSDARQQREGIRKMLALN 3ju3-a1-m1-cA_3ju3-a1-m4-cA Crystal structure of alpha chain of probable 2-oxoacid ferredoxin oxidoreductase from Thermoplasma acidophilum Q9HK35 Q9HK35 1.9 X-RAY DIFFRACTION 16 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 113 113 3ju3-a1-m2-cA_3ju3-a1-m3-cA AEKAVLIGEKEADITFVTWGSQKGPILDVIEDLKEEGISANLLYLKFSPFPTEFVKNVLSSANLVIDVESNYTAQAAQIKLYTGIDIKNKILKYNGRHTEDEILKSAKEILNK AEKAVLIGEKEADITFVTWGSQKGPILDVIEDLKEEGISANLLYLKFSPFPTEFVKNVLSSANLVIDVESNYTAQAAQIKLYTGIDIKNKILKYNGRHTEDEILKSAKEILNK 3ju3-a1-m2-cA_3ju3-a1-m4-cA Crystal structure of alpha chain of probable 2-oxoacid ferredoxin oxidoreductase from Thermoplasma acidophilum Q9HK35 Q9HK35 1.9 X-RAY DIFFRACTION 10 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 113 113 3ju3-a1-m1-cA_3ju3-a1-m3-cA AEKAVLIGEKEADITFVTWGSQKGPILDVIEDLKEEGISANLLYLKFSPFPTEFVKNVLSSANLVIDVESNYTAQAAQIKLYTGIDIKNKILKYNGRHTEDEILKSAKEILNK AEKAVLIGEKEADITFVTWGSQKGPILDVIEDLKEEGISANLLYLKFSPFPTEFVKNVLSSANLVIDVESNYTAQAAQIKLYTGIDIKNKILKYNGRHTEDEILKSAKEILNK 3ju3-a1-m3-cA_3ju3-a1-m4-cA Crystal structure of alpha chain of probable 2-oxoacid ferredoxin oxidoreductase from Thermoplasma acidophilum Q9HK35 Q9HK35 1.9 X-RAY DIFFRACTION 230 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 113 113 3ju3-a1-m1-cA_3ju3-a1-m2-cA AEKAVLIGEKEADITFVTWGSQKGPILDVIEDLKEEGISANLLYLKFSPFPTEFVKNVLSSANLVIDVESNYTAQAAQIKLYTGIDIKNKILKYNGRHTEDEILKSAKEILNK AEKAVLIGEKEADITFVTWGSQKGPILDVIEDLKEEGISANLLYLKFSPFPTEFVKNVLSSANLVIDVESNYTAQAAQIKLYTGIDIKNKILKYNGRHTEDEILKSAKEILNK 3ju4-a1-m2-cA_3ju4-a1-m3-cA Crystal Structure Analysis of EndosialidaseNF at 0.98 A Resolution Q04830 Q04830 0.98 X-RAY DIFFRACTION 553 1.0 344021 (Escherichia phage K1F) 344021 (Escherichia phage K1F) 670 670 1v0e-a1-m1-cA_1v0e-a1-m1-cB 1v0e-a1-m1-cA_1v0e-a1-m1-cC 1v0e-a1-m1-cB_1v0e-a1-m1-cC 1v0e-a2-m1-cD_1v0e-a2-m1-cE 1v0e-a2-m1-cD_1v0e-a2-m1-cF 1v0e-a2-m1-cE_1v0e-a2-m1-cF 1v0f-a1-m1-cA_1v0f-a1-m1-cB 1v0f-a1-m1-cA_1v0f-a1-m1-cC 1v0f-a1-m1-cB_1v0f-a1-m1-cC 1v0f-a2-m1-cD_1v0f-a2-m1-cE 1v0f-a2-m1-cD_1v0f-a2-m1-cF 1v0f-a2-m1-cE_1v0f-a2-m1-cF 3gvj-a1-m1-cA_3gvj-a1-m2-cA 3gvj-a1-m1-cA_3gvj-a1-m3-cA 3gvj-a1-m2-cA_3gvj-a1-m3-cA 3gvk-a1-m1-cA_3gvk-a1-m1-cB 3gvk-a1-m1-cA_3gvk-a1-m1-cC 3gvk-a1-m1-cB_3gvk-a1-m1-cC 3gvl-a1-m1-cA_3gvl-a1-m2-cA 3gvl-a1-m1-cA_3gvl-a1-m3-cA 3gvl-a1-m2-cA_3gvl-a1-m3-cA 3ju4-a1-m1-cA_3ju4-a1-m2-cA 3ju4-a1-m1-cA_3ju4-a1-m3-cA VPRGSAKGDGVTDDTAALTSALNDTPVGQKINGNGKTYKVTSLPDISRFINTRFVYERIPGQPLYYASEEFVQGELFKITDTPYYNAWPQDKAFVYENVIYAPYMGSDRHGVSRLHVSWVKSGDDGQTWSTPEWLTDLHPDYPTVNYHCMSMGVCRNRLFAMIETRTLAKNALTNCALWDRPMSRSLHLTGGITKAANQRYATIHVPDHGLFVGDFVNFSNSAVTGVSGDMTVATVIDKDNFTVLTPNQQTSDLNNAGKNWHMGTSFHKSPWRKTDLGLIPSVTEVHSFATIDNNGFAMGYHQGDVAPREVGLFYFPDAFNSPSNYVRRQIPSEYEPDASEPCIKYYDGVLYLITRGTRGDRLGSSLHRSRDIGQTWESLRFPHNVHHTTLPFAKVGDDLIMFGSERAENEWEAGAPDDRYKASYPRTFYARLNVNNWNADDIEWVNITDQIYQGGIVNSGVGVGSVVVKDNYIYYMFGGEDHFNPWTYGDNSAKDPFKSDGHPSDLYCYKMKIGPDNRVSRDFRYGAVPNRAVPVFFDTNGVRTVPAPMEFTGDLGLGHVTIRASTSSNIRSEVLMEGEYGFIGKSIPTDNPAGQRIIFCGGEGTSSTTGAQITLYGANNTDSRRIVYNGDEHLFQSADVKPYNDNVTALGGPSNRFTTAYLGSNPIVT VPRGSAKGDGVTDDTAALTSALNDTPVGQKINGNGKTYKVTSLPDISRFINTRFVYERIPGQPLYYASEEFVQGELFKITDTPYYNAWPQDKAFVYENVIYAPYMGSDRHGVSRLHVSWVKSGDDGQTWSTPEWLTDLHPDYPTVNYHCMSMGVCRNRLFAMIETRTLAKNALTNCALWDRPMSRSLHLTGGITKAANQRYATIHVPDHGLFVGDFVNFSNSAVTGVSGDMTVATVIDKDNFTVLTPNQQTSDLNNAGKNWHMGTSFHKSPWRKTDLGLIPSVTEVHSFATIDNNGFAMGYHQGDVAPREVGLFYFPDAFNSPSNYVRRQIPSEYEPDASEPCIKYYDGVLYLITRGTRGDRLGSSLHRSRDIGQTWESLRFPHNVHHTTLPFAKVGDDLIMFGSERAENEWEAGAPDDRYKASYPRTFYARLNVNNWNADDIEWVNITDQIYQGGIVNSGVGVGSVVVKDNYIYYMFGGEDHFNPWTYGDNSAKDPFKSDGHPSDLYCYKMKIGPDNRVSRDFRYGAVPNRAVPVFFDTNGVRTVPAPMEFTGDLGLGHVTIRASTSSNIRSEVLMEGEYGFIGKSIPTDNPAGQRIIFCGGEGTSSTTGAQITLYGANNTDSRRIVYNGDEHLFQSADVKPYNDNVTALGGPSNRFTTAYLGSNPIVT 3ju5-a1-m1-cA_3ju5-a1-m1-cB Crystal Structure of Dimeric Arginine Kinase at 1.75-A Resolution Q9XY07 Q9XY07 1.75 X-RAY DIFFRACTION 102 1.0 307972 (Apostichopus japonicus) 307972 (Apostichopus japonicus) 350 352 3ju5-a2-m1-cD_3ju5-a2-m1-cC 3ju6-a1-m1-cA_3ju6-a1-m1-cB 3ju6-a2-m1-cD_3ju6-a2-m1-cC ANLNQKKYPAKDDFPNFEGHKSLLSKYLTADYAKLRDVATPSGYTLDRAIQNGVDNPDFHLGLLAGDEETYTVFADLFDPVIEEYHNGFKKTDNHKTDLDASKILDDVLDPAYVISSRVRTGRNIRGALSPHVCRSERRAIEKVSEALNSLAADLKGKYYSLKDEKTQQQLIDDHFLFDRPVSRHFTSGGARDFPDGRGIWHNDKKNFLVWINEEDHTRIISQGGNKEVFERFTRGLTEVEKHIKDKTGKEFKNDHLGFVLTCPSNLGTGVRCSVHAKLPHAKDKRFEEICTKRLQKRGTSVGGVYDISNLDRLGSSEVEQVNCVIKGVKVLIEEKKLEKGESIDDLVPK ANLNQKKYPAKDDFPNFEGHKSLLSKYLTADYAKLRDVATPSGYTLDRAIQNGVDNPDFHLGLLAGDEETYTVFADLFDPVIEEYHNGFKKTDNHKTDLDASKILDDVLDPAYVISSRVRTGRNIRGALSPHVCRSERRAIEKVSEALNSLAADLKGKYYSLKDEKTQQQLIDDHFLFDRPVSRHFTSGGARDFPDGRGIWHNDKKNFLVWINEEDHTRIISQGGNKEVFERFTRGLTEVEKHIKDKTGKEFKNDHLGFVLTCPSNLGTGVRCSVHAKLPHAKDKRFEEICTKRLQKRGTSGSVGGVYDISNLDRLGSSEVEQVNCVIKGVKVLIEEKKLEKGESIDDLVPK 3ju7-a1-m1-cA_3ju7-a1-m1-cB Crystal structure of Putative PLP-dependent aminotransferase (NP_978343.1) from Bacillus cereus ATCC 10987 at 2.19 A resolution Q739W0 Q739W0 2.19 X-RAY DIFFRACTION 137 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 351 351 ENIPFLRASTVPVIEYLDELKEIDASHIYTNYGPINQRFEQTISGFFQNRGAVTTVANATLGLAAIQLKKRKKGKYALPSFTFPATPLAAIWCGLEPYFIDISIDDWYDKTVLWDKIEELKEEVAIVVPYATFGSWNLEEYEELEKKGVPVVVDAAPGFGLNGGHYGQDFSGIIYSFHATPFGIGEGGLIYSKNEEDIQRIKRGNFGFDTNRECTGFNCKSEYAAAIGIATKKWDDKLKERTRISEWYKQLLQSNGLKKGWQLQKTEAVIQQFPILCPEEVRNKQVIEDLKKQKIEARLYFSPSCHQQVLFRNYKSTDLTRTNKIAKRIVSLPLWEGTKEIVEQIVICLGQ ENIPFLRASTVPVIEYLDELKEIDASHIYTNYGPINQRFEQTISGFFQNRGAVTTVANATLGLAAIQLKKRKKGKYALPSFTFPATPLAAIWCGLEPYFIDISIDDWYDKTVLWDKIEELKEEVAIVVPYATFGSWNLEEYEELEKKGVPVVVDAAPGFGLNGGHYGQDFSGIIYSFHATPFGIGEGGLIYSKNEEDIQRIKRGNFGFDTNRECTGFNCKSEYAAAIGIATKKWDDKLKERTRISEWYKQLLQSNGLKKGWQLQKTEAVIQQFPILCPEEVRNKQVIEDLKKQKIEARLYFSPSCHQQVLFRNYKSTDLTRTNKIAKRIVSLPLWEGTKEIVEQIVICLGQ 3ju8-a1-m1-cA_3ju8-a1-m1-cB Crystal Structure of Succinylglutamic Semialdehyde Dehydrogenase from Pseudomonas aeruginosa. O50174 O50174 1.82 X-RAY DIFFRACTION 263 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 480 480 STHYIAGQWLAGQGETLESLDPVGQGVVWSGRGADATQVDAAVCAAREAFPAWARRPLEQRIELLERFAATLKSRADELARVIGEETGKPLWESATEVTSVNKVAISVQAFRERTGEKSGPLADATAVLRHKPHGVVAVFGPYNFPGHLPNGHIVPALLAGNCVVFKPSELTPKVAELTLKAWIQAGLPAGVLNLVQGGRETGVALAAHRGLDGLFFTGSSRTGNLLHSQFGGQPQKILALEGGNNPLVVEEVADLDAAVYTIIQSAFISAGQRCTCARRLLVPQGAWGDALLARLVAVSATLRVGRFDEQPAPFGAVISLSAAEHLLKAQEHLIGKGAQPLLATQPIDGAALLTPGILDVSAVAERPDEEFFGPLLQVIRYSDFAAAIREANATQYGLAAGLLSDSRERFEQFLVESRAGIVNWNKQLTGAASSAPFGGIGASGNHRPSAYYAADYCAYPVASLESPSVSLPATLTPGI STHYIAGQWLAGQGETLESLDPVGQGVVWSGRGADATQVDAAVCAAREAFPAWARRPLEQRIELLERFAATLKSRADELARVIGEETGKPLWESATEVTSVNKVAISVQAFRERTGEKSGPLADATAVLRHKPHGVVAVFGPYNFPGHLPNGHIVPALLAGNCVVFKPSELTPKVAELTLKAWIQAGLPAGVLNLVQGGRETGVALAAHRGLDGLFFTGSSRTGNLLHSQFGGQPQKILALEGGNNPLVVEEVADLDAAVYTIIQSAFISAGQRCTCARRLLVPQGAWGDALLARLVAVSATLRVGRFDEQPAPFGAVISLSAAEHLLKAQEHLIGKGAQPLLATQPIDGAALLTPGILDVSAVAERPDEEFFGPLLQVIRYSDFAAAIREANATQYGLAAGLLSDSRERFEQFLVESRAGIVNWNKQLTGAASSAPFGGIGASGNHRPSAYYAADYCAYPVASLESPSVSLPATLTPGI 3juk-a1-m1-cC_3juk-a1-m1-cD The Crystal Structure of UDP-glucose pyrophosphorylase complexed with UDP-glucose O25363 O25363 2.3 X-RAY DIFFRACTION 107 0.996 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 264 264 3juj-a1-m1-cA_3juj-a1-m1-cB 3juj-a1-m1-cC_3juj-a1-m1-cD 3juk-a1-m1-cB_3juk-a1-m1-cA MIKKCLFPAAGYGTRFLPITKTIPKEMLPIVDKPLIQYAVEEAMEAGCEVMAIVTGRNKRSLEDYFDTSYNKENALKSIRNIIEKCCFSYVRQKQMKGLGHAILTGEALIGNEPFAVILADDLCISHDHPSVLKQMTSLYQKYQCSIVAIEEVALEEVSKYGVIRGEWLEEGVYEIKDMVEKPNQEDAPSNLAVIGRYILTPDIFEILSETKPGKNNEIQITDALRTQAKRKRIIAYQFKGKRYDCGSVEGYIEASNAYYKKRL MIKKCLFPAAGYGTRFLPITKTIPKEMLPIVDKPLIQYAVEEAMEAGCEVMAIVTGRNKRSLEDYFDTSYTNKENALKSIRNIIEKCCFSYVRQKQMKGLGHAILTGEALIGNEPFAVILADDLCISHDHPSVLKQMTSLYQKYQCSIVAIEEVALEEVSKYGVIRGEWLEEGVYEIKDMVEKPNQEDAPSNLAVIGRYILTPDIFEILSETKPGKNNEIQITDALRTQAKRKRIIAYQFKGKRYDCGSVEGYIEASNAYYKKR 3juk-a1-m1-cD_3juk-a1-m1-cA The Crystal Structure of UDP-glucose pyrophosphorylase complexed with UDP-glucose O25363 O25363 2.3 X-RAY DIFFRACTION 38 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 264 265 3juj-a1-m1-cA_3juj-a1-m1-cD 3juj-a1-m1-cB_3juj-a1-m1-cC 3juk-a1-m1-cB_3juk-a1-m1-cC MIKKCLFPAAGYGTRFLPITKTIPKEMLPIVDKPLIQYAVEEAMEAGCEVMAIVTGRNKRSLEDYFDTSYTNKENALKSIRNIIEKCCFSYVRQKQMKGLGHAILTGEALIGNEPFAVILADDLCISHDHPSVLKQMTSLYQKYQCSIVAIEEVALEEVSKYGVIRGEWLEEGVYEIKDMVEKPNQEDAPSNLAVIGRYILTPDIFEILSETKPGKNNEIQITDALRTQAKRKRIIAYQFKGKRYDCGSVEGYIEASNAYYKKR MIKKCLFPAAGYGTRFLPITKTIPKEMLPIVDKPLIQYAVEEAMEAGCEVMAIVTGRNKRSLEDYFDTSYTNKENALKSIRNIIEKCCFSYVRQKQMKGLGHAILTGEALIGNEPFAVILADDLCISHDHPSVLKQMTSLYQKYQCSIVAIEEVALEEVSKYGVIRGEWLEEGVYEIKDMVEKPNQEDAPSNLAVIGRYILTPDIFEILSETKPGKNNEIQITDALRTQAKRKRIIAYQFKGKRYDCGSVEGYIEASNAYYKKRL 3jum-a1-m1-cA_3jum-a1-m1-cB Crystal Structure of PhzA/B from Burkholderia cepacia R18194 in complex with 5-bromo-2-((1S,3R)-3-carboxycyclohexylamino)benzoic acid Q396C9 Q396C9 1.45 X-RAY DIFFRACTION 123 1.0 157 158 3b4o-a1-m1-cA_3b4o-a1-m1-cB 3b4p-a1-m1-cA_3b4p-a1-m1-cB 3cnm-a1-m1-cA_3cnm-a1-m1-cB 3dzl-a1-m1-cA_3dzl-a1-m1-cB 3ex9-a1-m1-cA_3ex9-a1-m2-cA 3jun-a1-m1-cA_3jun-a1-m1-cB 3juo-a1-m1-cA_3juo-a1-m1-cB 3jup-a1-m1-cA_3jup-a1-m1-cB 3juq-a1-m1-cA_3juq-a1-m1-cB NTSENRAQVAARQHNRKIVEQYMHTRGEARLKRHLLFTEDGVGGLWTTDSGQPIAIRGREKLGEHAVWSLQCFPDWVWTDIQIFETQDPNWFWVECRGEGAIVFPGYPRGQYRNHFLHSFRFENGLIKEQREFMNPCEQFRSLGIEVPEVRRDGLPS ENTSENRAQVAARQHNRKIVEQYMHTRGEARLKRHLLFTEDGVGGLWTTDSGQPIAIRGREKLGEHAVWSLQCFPDWVWTDIQIFETQDPNWFWVECRGEGAIVFPGYPRGQYRNHFLHSFRFENGLIKEQREFMNPCEQFRSLGIEVPEVRRDGLPS 3jur-a1-m1-cB_3jur-a1-m1-cD The crystal structure of a hyperthermoactive Exopolygalacturonase from Thermotoga maritima Q9WYR8 Q9WYR8 2.05 X-RAY DIFFRACTION 40 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 444 446 3jur-a1-m1-cA_3jur-a1-m1-cC ELAKKIEEEILNHVREPQIPDREVNLLDFGARGDGRTDCSESFKRAIEELSKQGGGRLIVPEGVFLTGPIHLKSNIELHVKGTIKFIPDPERYLPVVLTRFEGIELYNYSPLVYALDCENVAITGSGVLDGSADNEHWWPWKGKKDFGWKEGLPNQQEDVKKLKEMAERGTPVEERVFGKGHYLRPSFVQFYRCRNVLVEGVKIINSPMWCIHPVLSENVIIRNIEISSTGPNNDGIDPESCKYMLIEKCRFDTGDDSVVIKSGRDADGRRIGVPSEYILVRDNLVISQASHGGLVIGSEMSGGVRNVVARNNVYMNVERALRLKTNSRRGGYMENIFFIDNVAVNVSEEVIRINLRYDNEEGEYLPVVRSVFVKNLKATGGKYAVRIEGLENDYVKDILISDTIIEGAKISVLLEFGQLGMENVIMNGSRFEKLYIEGKALLK MEELAKKIEEEILNHVREPQIPDREVNLLDFGARGDGRTDCSESFKRAIEELSKQGGGRLIVPEGVFLTGPIHLKSNIELHVKGTIKFIPDPERYLPVVLTRFEGIELYNYSPLVYALDCENVAITGSGVLDGSADNEHWWPWKGKKDFGWKEGLPNQQEDVKKLKEMAERGTPVEERVFGKGHYLRPSFVQFYRCRNVLVEGVKIINSPMWCIHPVLSENVIIRNIEISSTGPNNDGIDPESCKYMLIEKCRFDTGDDSVVIKSGRDADGRRIGVPSEYILVRDNLVISQASHGGLVIGSEMSGGVRNVVARNNVYMNVERALRLKTNSRRGGYMENIFFIDNVAVNVSEEVIRINLRYDNEEGEYLPVVRSVFVKNLKATGGKYAVRIEGLENDYVKDILISDTIIEGAKISVLLEFGQLGMENVIMNGSRFEKLYIEGKALLK 3jur-a1-m1-cC_3jur-a1-m1-cD The crystal structure of a hyperthermoactive Exopolygalacturonase from Thermotoga maritima Q9WYR8 Q9WYR8 2.05 X-RAY DIFFRACTION 52 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 444 446 3jur-a1-m1-cA_3jur-a1-m1-cB ELAKKIEEEILNHVREPQIPDREVNLLDFGARGDGRTDCSESFKRAIEELSKQGGGRLIVPEGVFLTGPIHLKSNIELHVKGTIKFIPDPERYLPVVLTRFEGIELYNYSPLVYALDCENVAITGSGVLDGSADNEHWWPWKGKKDFGWKEGLPNQQEDVKKLKEMAERGTPVEERVFGKGHYLRPSFVQFYRCRNVLVEGVKIINSPMWCIHPVLSENVIIRNIEISSTGPNNDGIDPESCKYMLIEKCRFDTGDDSVVIKSGRDADGRRIGVPSEYILVRDNLVISQASHGGLVIGSEMSGGVRNVVARNNVYMNVERALRLKTNSRRGGYMENIFFIDNVAVNVSEEVIRINLRYDNEEGEYLPVVRSVFVKNLKATGGKYAVRIEGLENDYVKDILISDTIIEGAKISVLLEFGQLGMENVIMNGSRFEKLYIEGKALLK MEELAKKIEEEILNHVREPQIPDREVNLLDFGARGDGRTDCSESFKRAIEELSKQGGGRLIVPEGVFLTGPIHLKSNIELHVKGTIKFIPDPERYLPVVLTRFEGIELYNYSPLVYALDCENVAITGSGVLDGSADNEHWWPWKGKKDFGWKEGLPNQQEDVKKLKEMAERGTPVEERVFGKGHYLRPSFVQFYRCRNVLVEGVKIINSPMWCIHPVLSENVIIRNIEISSTGPNNDGIDPESCKYMLIEKCRFDTGDDSVVIKSGRDADGRRIGVPSEYILVRDNLVISQASHGGLVIGSEMSGGVRNVVARNNVYMNVERALRLKTNSRRGGYMENIFFIDNVAVNVSEEVIRINLRYDNEEGEYLPVVRSVFVKNLKATGGKYAVRIEGLENDYVKDILISDTIIEGAKISVLLEFGQLGMENVIMNGSRFEKLYIEGKALLK 3jus-a1-m1-cA_3jus-a1-m1-cB Crystal structure of human lanosterol 14alpha-demethylase (CYP51) in complex with econazole Q16850 Q16850 2.9 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 445 445 VKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS VKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS 3juv-a1-m1-cA_3juv-a1-m2-cA Crystal structure of human lanosterol 14alpha-demethylase (CYP51) Q16850 Q16850 3.12 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 448 448 PAGVKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS PAGVKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS 3juw-a2-m1-cC_3juw-a2-m2-cC Putative GnaT-family acetyltransferase from Bordetella pertussis. Q7VZN9 Q7VZN9 2.11 X-RAY DIFFRACTION 57 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 159 159 3juw-a1-m1-cB_3juw-a1-m1-cA RQVLKTDRLVLEPQSARFDQWFAERQRDEAGHRDLTEDQAWLRLCARQGWDAYACGFYYLLDPVSGERGEAGFQFRRRGFGPGFDNHPEAAWAVASAHQGRGLAAEAQALLAHHDRSQRVVALIARSNLPSLRLAERLGFRGYSDVAFDGAAHLLLERA RQVLKTDRLVLEPQSARFDQWFAERQRDEAGHRDLTEDQAWLRLCARQGWDAYACGFYYLLDPVSGERGEAGFQFRRRGFGPGFDNHPEAAWAVASAHQGRGLAAEAQALLAHHDRSQRVVALIARSNLPSLRLAERLGFRGYSDVAFDGAAHLLLERA 3juz-a1-m1-cA_3juz-a1-m2-cA Crystal structure of a mutant of RelB dimerization domain(M5) Q04863 Q04863 2.51 X-RAY DIFFRACTION 343 1.0 10090 (Mus musculus) 10090 (Mus musculus) 101 101 1zk9-a1-m1-cA_1zk9-a1-m2-cA 1zka-a1-m1-cA_1zka-a1-m2-cA 3jss-a1-m1-cA_3jss-a1-m2-cA 3jv0-a1-m1-cA_3jv0-a1-m2-cA TSELRICRIDKESGPCTGGEELYLLCDKVQKEDISVRFSTASWEGRGDFSQADVHRQIAIVFKTPPYEDLEISEPVTVNVQLQRLTDGECSEPLPFTYLPR TSELRICRIDKESGPCTGGEELYLLCDKVQKEDISVRFSTASWEGRGDFSQADVHRQIAIVFKTPPYEDLEISEPVTVNVQLQRLTDGECSEPLPFTYLPR 3jv1-a1-m2-cA_3jv1-a1-m3-cA Crystal structure of the Trypanosoma brucei p22 protein Q584R4 Q584R4 2 X-RAY DIFFRACTION 71 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 182 182 3jv1-a1-m1-cA_3jv1-a1-m2-cA 3jv1-a1-m1-cA_3jv1-a1-m3-cA AVSDQRLSEATLRELEDERQRAGLPEKPEIPEGWTIDRKPGVTHFTMRKSHGDEEIILQLTGEDRSNEEITRTLDVLVVNGGKALVFGMSVEDGEFVINNVCFRHDGKLALDTSAEAQFQKSQLYMGPDLADLEDHLVDSFTSYLSARGVNDTLANFIDQFSLWSEQADYEEWLSSINKFVS AVSDQRLSEATLRELEDERQRAGLPEKPEIPEGWTIDRKPGVTHFTMRKSHGDEEIILQLTGEDRSNEEITRTLDVLVVNGGKALVFGMSVEDGEFVINNVCFRHDGKLALDTSAEAQFQKSQLYMGPDLADLEDHLVDSFTSYLSARGVNDTLANFIDQFSLWSEQADYEEWLSSINKFVS 3jv9-a1-m1-cB_3jv9-a1-m1-cA The structure of a reduced form of OxyR from N. meningitidis Q9K1H8 Q9K1H8 2.39 X-RAY DIFFRACTION 69 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 196 208 EGAFKLGLIFTVAPYLLPKLIVSLRRTAPKPLLEENYTHTLTESLKRGDVDAIIVAEPFQEPGIVTEPLYDEPFFVIVPKGHSFEELDAVSPRLGEEQVLLLTEGNCRDQVLSSCTNTLQGSSINTIRHVASGLAISVLPATALTENDHLFSIIPFEGTPPSRRVVLAYRRNFVRPKALSAKAAIQSQLHGVSFIC EGAFKLGLIFTVAPYLLPKLIVSLRRTAPKPLLEENYTHTLTESLKRGDVDAIIVAEPFQEPGIVTEPLYDEPFFVIVPKGHSFEELDAVSPRLGEEQVLLLTEGNCRDQVLSSCSELAAKQRIQGLTNTLQGSSINTIRHVASGLAISVLPATALTENDHLFSIIPFEGTPPSRRVVLAYRRNFVRPKALSAKAAIQSQLHGVSFIC 3jva-a1-m1-cH_3jva-a1-m1-cA Crystal structure of Dipeptide Epimerase from Enterococcus faecalis V583 Q834W6 Q834W6 1.7 X-RAY DIFFRACTION 12 0.997 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 346 353 3jva-a1-m1-cC_3jva-a1-m1-cF 3jva-a1-m1-cD_3jva-a1-m1-cE 3jva-a1-m1-cG_3jva-a1-m1-cB MKIKQVHVRASKIKLKETESADSAIVEIETEEGLVGYGEGGPGIFITGETLAGTLETIELFGQAIIGLNPFNIEKIHEVMDKISAFAPAAKAAIDIACYDLMGQKAQLPLYQLLGGYDNQVITDITLGIDEPNVMAQKAVEKVKLGFDTLKIKVGTGIEADIARVKAIREAVGFDIKLRLDANQAWTPKDAVKAIQALADYQIELVEQPVKRRDLEGLKYVTSQVNTTIMADESCFDAQDALELVKKGTVDVINIKLMKCGGIHEALKINQICETAGIECMIGCMAEETTIGITAAAHLAAAQKNITRADLDATFGLETAPVTGGVSLEAKPLLELGEAAGLGISH MKIKQVHVRASKIKLKETFTIALGTIESADSAIVEIETEEGLVGYGEGGPGIFITGETLAGTLETIELFGQAIIGLNPFNIEKIHEVMDKISAFAPAAKAAIDIACYDLMGQKAQLPLYQLLGGYDNQVITDITLGIDEPNVMAQKAVEKVKLGFDTLKIKVGTGIEADIARVKAIREAVGFDIKLRLDANQAWTPKDAVKAIQALADYQIELVEQPVKRRDLEGLKYVTSQVNTTIMADESCFDAQDALELVKKGTVDVINIKLMKCGGIHEALKINQICETAGIECMIGCMAEETTIGITAAAHLAAAQKNITRADLDATFGLETAPVTGGVSLEAKPLLELGEAAGLGIS 3jva-a1-m1-cH_3jva-a1-m1-cB Crystal structure of Dipeptide Epimerase from Enterococcus faecalis V583 Q834W6 Q834W6 1.7 X-RAY DIFFRACTION 69 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 346 354 3jva-a1-m1-cA_3jva-a1-m1-cE 3jva-a1-m1-cC_3jva-a1-m1-cG 3jva-a1-m1-cD_3jva-a1-m1-cF MKIKQVHVRASKIKLKETESADSAIVEIETEEGLVGYGEGGPGIFITGETLAGTLETIELFGQAIIGLNPFNIEKIHEVMDKISAFAPAAKAAIDIACYDLMGQKAQLPLYQLLGGYDNQVITDITLGIDEPNVMAQKAVEKVKLGFDTLKIKVGTGIEADIARVKAIREAVGFDIKLRLDANQAWTPKDAVKAIQALADYQIELVEQPVKRRDLEGLKYVTSQVNTTIMADESCFDAQDALELVKKGTVDVINIKLMKCGGIHEALKINQICETAGIECMIGCMAEETTIGITAAAHLAAAQKNITRADLDATFGLETAPVTGGVSLEAKPLLELGEAAGLGISH MKIKQVHVRASKIKLKETFTIALGTIESADSAIVEIETEEGLVGYGEGGPGIFITGETLAGTLETIELFGQAIIGLNPFNIEKIHEVMDKISAFAPAAKAAIDIACYDLMGQKAQLPLYQLLGGYDNQVITDITLGIDEPNVMAQKAVEKVKLGFDTLKIKVGTGIEADIARVKAIREAVGFDIKLRLDANQAWTPKDAVKAIQALADYQIELVEQPVKRRDLEGLKYVTSQVNTTIMADESCFDAQDALELVKKGTVDVINIKLMKCGGIHEALKINQICETAGIECMIGCMAEETTIGITAAAHLAAAQKNITRADLDATFGLETAPVTGGVSLEAKPLLELGEAAGLGISH 3jvb-a1-m11-cA_3jvb-a1-m9-cA Crystal structure of infectious baculovirus polyhedra O37157 O37157 2.17 X-RAY DIFFRACTION 88 1.0 65124 (Wiseana signata nucleopolyhedrovirus) 65124 (Wiseana signata nucleopolyhedrovirus) 204 204 3jvb-a1-m10-cA_3jvb-a1-m12-cA 3jvb-a1-m1-cA_3jvb-a1-m3-cA 3jvb-a1-m2-cA_3jvb-a1-m4-cA 3jvb-a1-m5-cA_3jvb-a1-m7-cA 3jvb-a1-m6-cA_3jvb-a1-m8-cA GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY 3jvb-a1-m12-cA_3jvb-a1-m9-cA Crystal structure of infectious baculovirus polyhedra O37157 O37157 2.17 X-RAY DIFFRACTION 26 1.0 65124 (Wiseana signata nucleopolyhedrovirus) 65124 (Wiseana signata nucleopolyhedrovirus) 204 204 3jvb-a1-m10-cA_3jvb-a1-m11-cA 3jvb-a1-m1-cA_3jvb-a1-m4-cA 3jvb-a1-m2-cA_3jvb-a1-m3-cA 3jvb-a1-m5-cA_3jvb-a1-m8-cA 3jvb-a1-m6-cA_3jvb-a1-m7-cA GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY 3jvb-a1-m5-cA_3jvb-a1-m9-cA Crystal structure of infectious baculovirus polyhedra O37157 O37157 2.17 X-RAY DIFFRACTION 36 1.0 65124 (Wiseana signata nucleopolyhedrovirus) 65124 (Wiseana signata nucleopolyhedrovirus) 204 204 3jvb-a1-m10-cA_3jvb-a1-m3-cA 3jvb-a1-m10-cA_3jvb-a1-m8-cA 3jvb-a1-m11-cA_3jvb-a1-m4-cA 3jvb-a1-m11-cA_3jvb-a1-m6-cA 3jvb-a1-m12-cA_3jvb-a1-m2-cA 3jvb-a1-m12-cA_3jvb-a1-m7-cA 3jvb-a1-m1-cA_3jvb-a1-m5-cA 3jvb-a1-m1-cA_3jvb-a1-m9-cA 3jvb-a1-m2-cA_3jvb-a1-m7-cA 3jvb-a1-m3-cA_3jvb-a1-m8-cA 3jvb-a1-m4-cA_3jvb-a1-m6-cA GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY 3jvb-a1-m7-cA_3jvb-a1-m9-cA Crystal structure of infectious baculovirus polyhedra O37157 O37157 2.17 X-RAY DIFFRACTION 52 1.0 65124 (Wiseana signata nucleopolyhedrovirus) 65124 (Wiseana signata nucleopolyhedrovirus) 204 204 3jvb-a1-m10-cA_3jvb-a1-m2-cA 3jvb-a1-m10-cA_3jvb-a1-m6-cA 3jvb-a1-m11-cA_3jvb-a1-m8-cA 3jvb-a1-m12-cA_3jvb-a1-m3-cA 3jvb-a1-m12-cA_3jvb-a1-m5-cA 3jvb-a1-m1-cA_3jvb-a1-m11-cA 3jvb-a1-m1-cA_3jvb-a1-m8-cA 3jvb-a1-m2-cA_3jvb-a1-m6-cA 3jvb-a1-m3-cA_3jvb-a1-m5-cA 3jvb-a1-m4-cA_3jvb-a1-m7-cA 3jvb-a1-m4-cA_3jvb-a1-m9-cA GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY 3jvb-a1-m8-cA_3jvb-a1-m9-cA Crystal structure of infectious baculovirus polyhedra O37157 O37157 2.17 X-RAY DIFFRACTION 17 1.0 65124 (Wiseana signata nucleopolyhedrovirus) 65124 (Wiseana signata nucleopolyhedrovirus) 204 204 3jvb-a1-m10-cA_3jvb-a1-m4-cA 3jvb-a1-m10-cA_3jvb-a1-m5-cA 3jvb-a1-m11-cA_3jvb-a1-m3-cA 3jvb-a1-m11-cA_3jvb-a1-m7-cA 3jvb-a1-m12-cA_3jvb-a1-m6-cA 3jvb-a1-m1-cA_3jvb-a1-m12-cA 3jvb-a1-m1-cA_3jvb-a1-m6-cA 3jvb-a1-m2-cA_3jvb-a1-m8-cA 3jvb-a1-m2-cA_3jvb-a1-m9-cA 3jvb-a1-m3-cA_3jvb-a1-m7-cA 3jvb-a1-m4-cA_3jvb-a1-m5-cA GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY GKTYVYDNRYWKNLGGVIKNAKRRKHEEKVEREFDSLDKYLVAEDPFCGPGKNQKLTLFKEIRNIKPDTMKLIVNWSGKEFLRETWTRFMEDSFPIVNDQEVMDVFLVINMRSTKPNRCFRFLAQHALRYVPHEIIRIVEPSYVGNNEYRISLATNSFEHFINKPIVYIGTDSAEDEEVLFEVSLVFKIKEFAPDAPLFSGPAY 3jvd-a1-m1-cA_3jvd-a1-m1-cB Crystal structure of putative transcription regulation repressor (LACI family) FROM Corynebacterium glutamicum Q8NNY3 Q8NNY3 2.3 X-RAY DIFFRACTION 95 0.98 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 255 258 SALVGVIVPDLSNEYYSESLQTIQQDLKAAGYQMLVAEANSVQAQDVVMESLISIQAAGIIHVPVVGSIAEGIPMVQLTRPGFPRVLCDDEAGFFQLTESVLGGSGMNIAALVGEESLSTTQERMRGISHAASIYGAEVTFHFGHYSVESGEEMAQVVFNNGLPDALIVASPRLMAGVMRAFTRLNVRVPHDVVIGGYDDPEWYSFVGAGITTFVPPHEEMGKEAVRLLVDLIENPETGDVVLQGQVILRGSSTH SALVGVIVPDLSNEYYSESLQTIQQDLKAAGYQMLVAEANSVQAQDVVMESLISIQAAGIIHVPVAPEGIPMVQLTRGELGPGFPRVLCDDEAGFFQLTESVLGGSGMNIAALVGEESLSTTQERMRGISHAASIYGAEVTFHFGHYSVESGEEMAQVVFNNGLPDALIVASPRLMAGVMRAFTRLNVRVPHDVVIGGYDDPEWYSFVGAGITTFVPPHEEMGKEAVRLLVDLIENPELPTGDVVLQGQVILRGSSTH 3jvn-a1-m1-cA_3jvn-a1-m2-cA Crystal Structure of the acetyltransferase VF_1542 from Vibrio fischeri, Northeast Structural Genomics Consortium Target VfR136 Q5E4K9 Q5E4K9 2.61 X-RAY DIFFRACTION 54 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 115 115 PVIRRAKEIDLYCLNSLYKLHDEHHQQCPDEKSIARYLDDPECVYVAEDDVIIGFITGHFCELISTVSKLVATIDELYIEKEYRREGVAEQLRIEQELKDYGVKEIFVEVWNKGA PVIRRAKEIDLYCLNSLYKLHDEHHQQCPDEKSIARYLDDPECVYVAEDDVIIGFITGHFCELISTVSKLVATIDELYIEKEYRREGVAEQLRIEQELKDYGVKEIFVEVWNKGA 3jvo-a1-m1-cE_3jvo-a1-m1-cF Crystal structure of bacteriophage HK97 gp6 Q9MBY2 Q9MBY2 2.1 X-RAY DIFFRACTION 74 1.0 37554 (Byrnievirus HK97) 37554 (Byrnievirus HK97) 92 92 3jvo-a1-m1-cA_3jvo-a1-m1-cB 3jvo-a1-m1-cA_3jvo-a1-m1-cM 3jvo-a1-m1-cC_3jvo-a1-m1-cB 3jvo-a1-m1-cC_3jvo-a1-m1-cD 3jvo-a1-m1-cD_3jvo-a1-m1-cE 3jvo-a1-m1-cF_3jvo-a1-m1-cG 3jvo-a1-m1-cH_3jvo-a1-m1-cG 3jvo-a1-m1-cI_3jvo-a1-m1-cH 3jvo-a1-m1-cI_3jvo-a1-m1-cJ 3jvo-a1-m1-cJ_3jvo-a1-m1-cK 3jvo-a1-m1-cK_3jvo-a1-m1-cL 3jvo-a1-m1-cL_3jvo-a1-m1-cM AIDVLDVISLSLFKQQIEFEEDDRDELITLYAQAAFDYCRWCDEPAWKVAADIPAAVKGAVLLVFADFEHRTAQSEVQLYENAAAERFIHRN AIDVLDVISLSLFKQQIEFEEDDRDELITLYAQAAFDYCRWCDEPAWKVAADIPAAVKGAVLLVFADFEHRTAQSEVQLYENAAAERFIHRN 3jvv-a1-m1-cA_3jvv-a1-m2-cC Crystal Structure of P. aeruginosa PilT with bound AMP-PCP P24559 P24559 2.6 X-RAY DIFFRACTION 97 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 331 337 3jvu-a1-m1-cB_3jvu-a1-m1-cA 3jvu-a1-m1-cB_3jvu-a1-m1-cC 3jvu-a1-m1-cC_3jvu-a1-m2-cA 3jvu-a1-m2-cB_3jvu-a1-m2-cA 3jvu-a1-m2-cB_3jvu-a1-m2-cC 3jvu-a1-m2-cC_3jvu-a1-m1-cA 3jvv-a1-m1-cB_3jvv-a1-m1-cA 3jvv-a1-m1-cB_3jvv-a1-m1-cC 3jvv-a1-m2-cA_3jvv-a1-m1-cC 3jvv-a1-m2-cB_3jvv-a1-m2-cA 3jvv-a1-m2-cB_3jvv-a1-m2-cC MDITELLAFSAKQGASDLHLSAGLPPMIRVDGDVRRINLPPLEHKQVHALIYDIMNDKQRKDFEEFLETDFSFEVPGVARFRVNAFNQNRGAGAVFRTIPSKVLTMEELGMGEVFKRVSDVPRGLVLVTGPTGSGKSTTLAAMLDYLNNTKYHHILTIEDPIEFVHESKKCLVNQREVHRDTLGFSEALRSALREDPDIILVGEMRDLETIRLALTAAETGHLVFGTLHTTSAAKTIDRVVDVFPAEEKAMVRSMLSESLQSVISQTLIKKRVAAHEIMIGTPAIRNLIREDKVAQMYSAIQTGGSLGMQTLDMCLKGSRENAREKAKIPE MDITELLAFSAKQGASDLHLSAGLPPMIRVDGDVRRINLPPLEHKQVHALIYDIMNDKQRKDFEEFLETDFSFEVPGVARFRVNAFNQNRGAGAVFRTIPSKVLTMEELGMGEVFKRVSDVPRGLVLVTGPTGSGKSTTLAAMLDYLNNTKYHHILTIEDPIEFVHESKKCLVNQREVHRDTLGFSEALRSALREDPDIILVGEMRDLETIRLALTAAETGHLVFGTLHTTSAAKTIDRVVDVFPAEEKAMVRSMLSESLQSVISQTLIKKIGGGRVAAHEIMIGTPAIRNLIREDKVAQMYSAIQTGGSLGMQTLDMCLKGLISRENAREKAKIPE 3jw4-a2-m1-cC_3jw4-a2-m2-cC The structure of a putative MarR family transcriptional regulator from Clostridium acetobutylicum Q97G83 Q97G83 2.1 X-RAY DIFFRACTION 105 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 125 125 3jw4-a1-m1-cA_3jw4-a1-m1-cB DTPYSYLIRSIGKLKTSADARLAELGLNSQQGRIGYIYENQESGIIQKDLAQFFGASITSLQGLEKKGYIERRIPRQKNIYVLPKGAALVEEFNNIFLEVEESITKGLTKDEQKQLSILIKVNRS DTPYSYLIRSIGKLKTSADARLAELGLNSQQGRIGYIYENQESGIIQKDLAQFFGASITSLQGLEKKGYIERRIPRQKNIYVLPKGAALVEEFNNIFLEVEESITKGLTKDEQKQLSILIKVNRS 3jw6-a1-m11-cA_3jw6-a1-m9-cA Crystal structure of AcMNPV baculovirus polyhedra P04871 P04871 2.3 X-RAY DIFFRACTION 66 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 187 187 3jw6-a1-m10-cA_3jw6-a1-m12-cA 3jw6-a1-m1-cA_3jw6-a1-m3-cA 3jw6-a1-m2-cA_3jw6-a1-m4-cA 3jw6-a1-m5-cA_3jw6-a1-m7-cA 3jw6-a1-m6-cA_3jw6-a1-m8-cA GRTYVYDNKYYKNLDAVIPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTKLVVGWKGKEFYRETWTRFEDSFPIVNDQEVDVFLVVNRPTRPNRCYKFLAQHALYVPHDVIRIVEPSWVGSNNEYRISLATNSFEQFIDRVFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY GRTYVYDNKYYKNLDAVIPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTKLVVGWKGKEFYRETWTRFEDSFPIVNDQEVDVFLVVNRPTRPNRCYKFLAQHALYVPHDVIRIVEPSWVGSNNEYRISLATNSFEQFIDRVFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY 3jw6-a1-m5-cA_3jw6-a1-m9-cA Crystal structure of AcMNPV baculovirus polyhedra P04871 P04871 2.3 X-RAY DIFFRACTION 35 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 187 187 3jw6-a1-m10-cA_3jw6-a1-m3-cA 3jw6-a1-m10-cA_3jw6-a1-m8-cA 3jw6-a1-m11-cA_3jw6-a1-m4-cA 3jw6-a1-m11-cA_3jw6-a1-m6-cA 3jw6-a1-m12-cA_3jw6-a1-m2-cA 3jw6-a1-m12-cA_3jw6-a1-m7-cA 3jw6-a1-m1-cA_3jw6-a1-m5-cA 3jw6-a1-m1-cA_3jw6-a1-m9-cA 3jw6-a1-m2-cA_3jw6-a1-m7-cA 3jw6-a1-m3-cA_3jw6-a1-m8-cA 3jw6-a1-m4-cA_3jw6-a1-m6-cA GRTYVYDNKYYKNLDAVIPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTKLVVGWKGKEFYRETWTRFEDSFPIVNDQEVDVFLVVNRPTRPNRCYKFLAQHALYVPHDVIRIVEPSWVGSNNEYRISLATNSFEQFIDRVFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY GRTYVYDNKYYKNLDAVIPLDNYLVAEDPFLGPGKNQKLTLFKEIRNVKPDTKLVVGWKGKEFYRETWTRFEDSFPIVNDQEVDVFLVVNRPTRPNRCYKFLAQHALYVPHDVIRIVEPSWVGSNNEYRISLATNSFEQFIDRVFYKPIVYIGTDSAEEEEILLEVSLVFKVKEFAPDAPLFTGPAY 3jw8-a3-m1-cA_3jw8-a3-m4-cA Crystal structure of human mono-glyceride lipase Q99685 Q99685 2.1 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 3jw8-a3-m2-cA_3jw8-a3-m3-cA 4uuq-a1-m1-cA_4uuq-a1-m4-cA 4uuq-a1-m2-cA_4uuq-a1-m3-cA SPRRTPQSIPYQDLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA SPRRTPQSIPYQDLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA 3jw8-a3-m3-cA_3jw8-a3-m4-cA Crystal structure of human mono-glyceride lipase Q99685 Q99685 2.1 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 3jw8-a3-m1-cA_3jw8-a3-m2-cA 4uuq-a1-m1-cA_4uuq-a1-m3-cA 4uuq-a1-m2-cA_4uuq-a1-m4-cA SPRRTPQSIPYQDLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA SPRRTPQSIPYQDLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA 3jw8-a4-m1-cB_3jw8-a4-m6-cB Crystal structure of human mono-glyceride lipase Q99685 Q99685 2.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 3jw8-a4-m3-cB_3jw8-a4-m5-cB 4uuq-a2-m1-cB_4uuq-a2-m5-cB 4uuq-a2-m2-cB_4uuq-a2-m6-cB DLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA DLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA 3jw8-a4-m3-cB_3jw8-a4-m6-cB Crystal structure of human mono-glyceride lipase Q99685 Q99685 2.1 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 3jw8-a4-m1-cB_3jw8-a4-m5-cB 4uuq-a2-m1-cB_4uuq-a2-m6-cB 4uuq-a2-m2-cB_4uuq-a2-m5-cB DLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA DLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA 3jw8-a4-m5-cB_3jw8-a4-m6-cB Crystal structure of human mono-glyceride lipase Q99685 Q99685 2.1 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 3jw8-a4-m1-cB_3jw8-a4-m3-cB 4uuq-a2-m1-cB_4uuq-a2-m2-cB 4uuq-a2-m5-cB_4uuq-a2-m6-cB DLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA DLPHLVNADGQYLFCRYWKPTGTPKALIFVSHGAGEHSGRYEELARLGLDLLVFAHDHVGHGQSEGERVVSDFHVFVRDVLQHVDSQKDYPGLPVFLLGHSGGAIAILTAAERPGHFAGVLISPLVLANPESATTFKVLAAKVLNLVLPNLSLGPIDSSVLSRNKTEVDIYNSDPLICRAGLKVCFGIQLLNAVSRVERALPKLTVPFLLLQGSADRLCDSKGAYLLELAKSQDKTLKIYEGAYHVLHKELPEVTNSVFHEINWVSQRTA 3jwk-a2-m1-cA_3jwk-a2-m1-cB Crystal structure of Bacillus anthracis (Y102F) dihydrofolate reductase complexed with NADPH and (S)-2,4-diamino-5-(3-methoxy-3-(3,4,5-trimethoxyphenyl)prop-1-ynyl)-6-methylpyrimidine (UCP114A) Q81R22 Q81R22 2.08 X-RAY DIFFRACTION 20 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 165 165 3jvx-a1-m1-cA_3jvx-a1-m1-cB 3jvx-a2-m1-cA_3jvx-a2-m1-cB 3jwc-a1-m1-cA_3jwc-a1-m1-cB 3jwc-a2-m1-cA_3jwc-a2-m1-cB 3jwf-a1-m1-cA_3jwf-a1-m1-cB 3jwf-a2-m1-cA_3jwf-a2-m1-cB 3jwk-a1-m1-cA_3jwk-a1-m1-cB 3jwm-a1-m1-cA_3jwm-a1-m1-cB 3jwm-a2-m1-cA_3jwm-a2-m1-cB HHHMRVSFMVAMDENRVIGKDNNLPWRLPSELQYVKKTTMGHPLIMGRKNYEAIGRPLPGRRNIIVTRNEGYHVEGCEVAHSVEEVFELCKNEEEIFIFGGAQIFDLFLPYVDKLYITKIHHAFEGDTFFPEMDMTNWKEVFVEKGLTDEKNPYTYYYHVYEKQQ HHHMRVSFMVAMDENRVIGKDNNLPWRLPSELQYVKKTTMGHPLIMGRKNYEAIGRPLPGRRNIIVTRNEGYHVEGCEVAHSVEEVFELCKNEEEIFIFGGAQIFDLFLPYVDKLYITKIHHAFEGDTFFPEMDMTNWKEVFVEKGLTDEKNPYTYYYHVYEKQQ 3jwn-a1-m1-cE_3jwn-a1-m1-cF Complex of FimC, FimF, FimG and FimH P08189 P08189 2.69 X-RAY DIFFRACTION 97 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 154 154 3jwn-a2-m1-cK_3jwn-a2-m1-cL 7szo-a1-m1-cE_7szo-a1-m1-cF 7szo-a2-m1-cK_7szo-a2-m1-cL ADSTITIRGYVRDNGCSVAAESTNFTVDLMENAAKQFNNIGATTPVVPFRILLSPCGNAVSAVKVGFTGVADSHNANLLALENTVSAAAGLGIQLLNEQQNQIPLNAPSSALSWTTLTPGKPNTLNFYARLMATQVPVTAGHINATATFTLEYQ ADSTITIRGYVRDNGCSVAAESTNFTVDLMENAAKQFNNIGATTPVVPFRILLSPCGNAVSAVKVGFTGVADSHNANLLALENTVSAAAGLGIQLLNEQQNQIPLNAPSSALSWTTLTPGKPNTLNFYARLMATQVPVTAGHINATATFTLEYQ 3jwp-a1-m2-cA_3jwp-a1-m3-cA Crystal structure of Plasmodium falciparum SIR2A (PF13_0152) in complex with AMP Q8IE47 Q8IE47 2.65 X-RAY DIFFRACTION 62 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 252 252 3jwp-a1-m1-cA_3jwp-a1-m2-cA 3jwp-a1-m1-cA_3jwp-a1-m3-cA KKDTQSITLEELAKIIKKCKHVVALTGSGTSAESNIPSFRGSSNSIWSKYDPRIYGTIWGFWKYPEKIWEVIRDISSDYEIEINNGHVALSTLESLGYLKSVVTQNVDGLHEASGNTKVISLHGNVFEAVCCTCNKIVKLNKILQKTSHFHQLPPECPCGGIFKPNIILFGEVVSSDLLKEAEEEIAKCDLLLVIGTSSTVSTATNLCHFACKKKKKIVEINISKTYITNKSDYHVCAKFSELTKVANILKG KKDTQSITLEELAKIIKKCKHVVALTGSGTSAESNIPSFRGSSNSIWSKYDPRIYGTIWGFWKYPEKIWEVIRDISSDYEIEINNGHVALSTLESLGYLKSVVTQNVDGLHEASGNTKVISLHGNVFEAVCCTCNKIVKLNKILQKTSHFHQLPPECPCGGIFKPNIILFGEVVSSDLLKEAEEEIAKCDLLLVIGTSSTVSTATNLCHFACKKKKKIVEINISKTYITNKSDYHVCAKFSELTKVANILKG 3jx8-a3-m1-cE_3jx8-a3-m1-cF Crystal structure of Putative lipid binding protein (YP_001304415.1) from Parabacteroides distasonis ATCC 8503 at 2.16 A resolution A6LGH9 A6LGH9 2.16 X-RAY DIFFRACTION 135 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 243 243 3jx8-a1-m1-cA_3jx8-a1-m1-cB 3jx8-a2-m1-cD_3jx8-a2-m1-cC DKRIDGNGNPETREIKISDYDEITFVGSADFEYEQSDKAPYLSVTIDENLFDYLVTEVEGGTLKIYPKSIKKGFNNNSYDLRPTVYKIKSNSKELKELNTVGSGSFIISKPTKVNREINAGSGNVELRGPVKGYKLECNAGSGNIIAKDIQLDNLSCSLASSGEIEVIGTVDRASFNVAGSGEIKAFDCQARKAECNIASSGEISVYATQILDANIVGSGEIHYKGDPEISKSIGSGSINKVK DKRIDGNGNPETREIKISDYDEITFVGSADFEYEQSDKAPYLSVTIDENLFDYLVTEVEGGTLKIYPKSIKKGFNNNSYDLRPTVYKIKSNSKELKELNTVGSGSFIISKPTKVNREINAGSGNVELRGPVKGYKLECNAGSGNIIAKDIQLDNLSCSLASSGEIEVIGTVDRASFNVAGSGEIKAFDCQARKAECNIASSGEISVYATQILDANIVGSGEIHYKGDPEISKSIGSGSINKVK 3jx9-a1-m1-cA_3jx9-a1-m1-cB Crystal structure of Putative phosphoheptose isomerase (YP_001815198.1) from Exiguobacterium sp. 255-15 at 1.95 A resolution B1YEL3 B1YEL3 1.95 X-RAY DIFFRACTION 145 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 165 165 GLKILATQFNGKLQTLTKQEDELFDVVRLLAQALVGQGKVYLDAYGEFEGLYPLSDGPDQKRVTKIKDHKTLHAVDRVLIFTPDTERSDLLASLARYDAWHTPYSIITLGDVTETLERSIAPLALKFDKGLLPAEDGSRHGLPSLALGAFLLTHILTQLQETEEW GLKILATQFNGKLQTLTKQEDELFDVVRLLAQALVGQGKVYLDAYGEFEGLYPLSDGPDQKRVTKIKDHKTLHAVDRVLIFTPDTERSDLLASLARYDAWHTPYSIITLGDVTETLERSIAPLALKFDKGLLPAEDGSRHGLPSLALGAFLLTHILTQLQETEEW 3jxe-a1-m1-cA_3jxe-a1-m1-cB Crystal structure of Pyrococcus horikoshii tryptophanyl-tRNA synthetase in complex with TrpAMP O59584 O59584 3 X-RAY DIFFRACTION 127 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 361 363 MVEEFKVTPWEVEGVVDYDKLIKHFGTSPLTEDLLEKTAELTKSELPIFFRRKFFFSHRDYDLILKDYEEGRGFFLYTGRGPSGPMHIGHIIPFFATKWLQEKFGVNLYIQITDDEKFLFKENLTFDDTKRWAYDNILDIIAVGFDPDKTFIFQNSEFTKIYEMAIPIAKKINFSMAKAVFGFTEQSKIGMIFFPAIQIAPTFFERKRCLIPAAIDQDPYWRLQRDFAESLGYYKTAALHSKFVPSLTSLSGKMSASKPETAIYLTDSPEDVEKKVWKFTCVVFKWLEIFFEEDDKKLKERYYACKNGELTCGECKRYLISKIQEFLKEHQRRRKKAEKLVEKFKYTGKLAQEMWNEAIPE MVEEFKVTPWEVEGVVDYDKLIKHFGTSPLTEDLLEKTAELTKSELPIFFRRKFFFSHRDYDLILKDYEEGRGFFLYTGRGPSGPMHIGHIIPFFATKWLQEKFGVNLYIQITDDEKFLFKENLTFDDTKRWAYDNILDIIAVGFDPDKTFIFQNSEFTKIYEMAIPIAKKINFSMAKAVFGFTEQSKIGMIFFPAIQIAPTFFERKRCLIPAAIDQDPYWRLQRDFAESLGYYKTAALHSKFVPSLTSLSGKMSASKPETAIYLTDSPEDVEKKVWKFTLKCVVFKWLEIFFEEDDKKLKERYYACKNGELTCGECKRYLISKIQEFLKEHQRRRKKAEKLVEKFKYTGKLAQEMWNEAIPE 3jxo-a2-m1-cA_3jxo-a2-m2-cB Crystal Structure of an Octomeric Two-Subunit TrkA K+ Channel Ring Gating Assembly, TM1088A:TM1088B, from Thermotoga maritima A0A0F6AN26 A0A0F6AN26 1.55 X-RAY DIFFRACTION 32 1.0 126740 (Thermotoga sp. RQ2) 126740 (Thermotoga sp. RQ2) 84 85 3jxo-a2-m2-cA_3jxo-a2-m1-cB NLYFQGMIPLEQGIEFLSVNVEEDSPVVGKKLKDLPLPRDSIIAAIVRGGVLVVPRGDTEILSGDKLYVIVSAEAKETVEETLL NLYFQGMIPLEQGIEFLSVNVEEDSPVVGKKLKDLPLPRDSIIAAIVRGGVLVVPRGDTEILSGDKLYVIVSAEAKETVEETLLG 3jy6-a2-m1-cC_3jy6-a2-m1-cD Crystal structure of LacI Transcriptional regulator from Lactobacillus brevis Q03T70 Q03T70 1.97 X-RAY DIFFRACTION 81 0.996 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 254 261 3jy6-a1-m1-cB_3jy6-a1-m1-cA KLIAVIVANIDDYFSTELFKGISSILESRGYIGVLFDANADIEREKTLLRAIGSRGFDGLILQSFSNPQTVQEILHQQMPVVSVDREMDACPWPQVVTDNFEAAKAATTAFQQGYQHVVVLTSELELSRTRQERYRGILAAAQDVDVLEVSESSYNHSEVHQRLTQLITKTVAFALKERWLLEFFPNLIISGLIDNQTVTATGFADTDFIRRMKLTLITQNPFLMGASSAEIMLRQLAGEKVAPEKMVIPAKLQ KLIAVIVANIDDYFSTELFKGISSILESRGYIGVLFDANADIEREKTLLRAIGSRGFDGLILQSFSNPQTVQEILHQQMPVVSVDREMDACPWPQVVTDNFEAAKAATTAFRQQGYQHVVVLTSELELSRTRQERYRGILAAAQDVDVLEVSESSYHSEVHQRLTQLITQNDQKTVAFALKERWLLEFFPNLIISGLIDNQTVTATGFADTDFIRRMEPKLTLITQNPFLMGASSAEIMLRQLAGEKVAPEKMVIPAKLQE 3jyf-a3-m1-cA_3jyf-a3-m2-cA The crystal structure of a 2,3-cyclic nucleotide 2-phosphodiesterase/3-nucleotidase bifunctional periplasmic precursor protein from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 A6THC4 A6THC4 2.43 X-RAY DIFFRACTION 46 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 324 324 AATVDLRIETTDLHSNDFDYYKDAATEKFGLVRTASLIEQARAEVKNSVLVDNGDVIQGSPLGDYAAKGLKEGDVHPVYKANTLNYAVGNLGNHEFNYGLDFLHKALAGAKFPYVNANIIDAKTGKPFTPYLIQDTRVVDSDGQIHTLRIGYIGFVPPQITWDKANLNGKVTVNDITETARKYIPERAKGADVVVVVAHSGLSADPYQAAENSVYYLSQVPGVDAIFGHAHAVFPGKDFANIKGADIAKGTLNGVPAVPGWGDHLGVVDLVLNNDSGKWQVTQSKAEARPIYDAVAKKSLAAEDGKLVSVLKADHDATREFVSK AATVDLRIETTDLHSNDFDYYKDAATEKFGLVRTASLIEQARAEVKNSVLVDNGDVIQGSPLGDYAAKGLKEGDVHPVYKANTLNYAVGNLGNHEFNYGLDFLHKALAGAKFPYVNANIIDAKTGKPFTPYLIQDTRVVDSDGQIHTLRIGYIGFVPPQITWDKANLNGKVTVNDITETARKYIPERAKGADVVVVVAHSGLSADPYQAAENSVYYLSQVPGVDAIFGHAHAVFPGKDFANIKGADIAKGTLNGVPAVPGWGDHLGVVDLVLNNDSGKWQVTQSKAEARPIYDAVAKKSLAAEDGKLVSVLKADHDATREFVSK 3jyg-a3-m1-cA_3jyg-a3-m2-cF Crystal structure of uncharacterized protein WS1659 from Wolinella succinogenes Q7MR56 Q7MR56 1.95 X-RAY DIFFRACTION 109 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 178 178 3jyg-a3-m1-cB_3jyg-a3-m2-cC 3jyg-a3-m1-cE_3jyg-a3-m2-cD SLIYQIAKEFDFCYGHRVWSQELNPDFSLDPCLSCRHLHGHQGKVIVHLESRELQRGVTDFAHLNWFKRFIDEVLDHRFIIDIDDPLFPTLLPHFADKSALVWEEGYARVDFERIKGESSPILELYESFVVVRFVPTSESIASWLLELLRSRIQPLGVKVSSVEFLETPKSRARVYNE SLIYQIAKEFDFCYGHRVWSQELNPDFSLDPCLSCRHLHGHQGKVIVHLESRELQRGVTDFAHLNWFKRFIDEVLDHRFIIDIDDPLFPTLLPHFADKSALVWEEGYARVDFERIKGESSPILELYESFVVVRFVPTSESIASWLLELLRSRIQPLGVKVSSVEFLETPKSRARVYNE 3jyg-a3-m2-cD_3jyg-a3-m2-cF Crystal structure of uncharacterized protein WS1659 from Wolinella succinogenes Q7MR56 Q7MR56 1.95 X-RAY DIFFRACTION 81 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 178 178 3jyg-a1-m1-cA_3jyg-a1-m1-cB 3jyg-a1-m1-cA_3jyg-a1-m1-cE 3jyg-a1-m1-cB_3jyg-a1-m1-cE 3jyg-a2-m1-cC_3jyg-a2-m1-cD 3jyg-a2-m1-cC_3jyg-a2-m1-cF 3jyg-a2-m1-cD_3jyg-a2-m1-cF 3jyg-a3-m1-cA_3jyg-a3-m1-cB 3jyg-a3-m1-cA_3jyg-a3-m1-cE 3jyg-a3-m1-cB_3jyg-a3-m1-cE 3jyg-a3-m2-cC_3jyg-a3-m2-cD 3jyg-a3-m2-cC_3jyg-a3-m2-cF SLIYQIAKEFDFCYGHRVWSQELNPDFSLDPCLSCRHLHGHQGKVIVHLESRELQRGVTDFAHLNWFKRFIDEVLDHRFIIDIDDPLFPTLLPHFADKSALVWEEGYARVDFERIKGESSPILELYESFVVVRFVPTSESIASWLLELLRSRIQPLGVKVSSVEFLETPKSRARVYNE SLIYQIAKEFDFCYGHRVWSQELNPDFSLDPCLSCRHLHGHQGKVIVHLESRELQRGVTDFAHLNWFKRFIDEVLDHRFIIDIDDPLFPTLLPHFADKSALVWEEGYARVDFERIKGESSPILELYESFVVVRFVPTSESIASWLLELLRSRIQPLGVKVSSVEFLETPKSRARVYNE 3jyn-a1-m1-cA_3jyn-a1-m2-cA Crystal structures of Pseudomonas syringae pv. Tomato DC3000 quinone oxidoreductase complexed with NADPH Q88B47 Q88B47 2.01 X-RAY DIFFRACTION 92 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 325 325 3jyl-a1-m1-cA_3jyl-a1-m2-cA MAKRIQFSTVGGPEVLEYVDFEPEAPGPQAVVVRNKAIGLNFIDTYYRSGLYPAPFLPSGLGAEGAGVVEAVGDEVTRFKVGDRVAYGTGPLGAYSEVHVLPEANLVKLADSVSFEQAAALMLKGLTVQYLLRQTYQVKPGEIILFHAAAGGVGSLACQWAKALGAKLIGTVSSPEKAAHAKALGAWETIDYSHEDVAKRVLELTDGKKCPVVYDGVGQDTWLTSLDSVAPRGLVVSFGNASGPVSGVNLGILAQKDSVYVTRPTLGSYANNAQNLQTMADELFDMLASGKLKVDGIEQYALKDAAKAQIELSARRTTGSTILIP MAKRIQFSTVGGPEVLEYVDFEPEAPGPQAVVVRNKAIGLNFIDTYYRSGLYPAPFLPSGLGAEGAGVVEAVGDEVTRFKVGDRVAYGTGPLGAYSEVHVLPEANLVKLADSVSFEQAAALMLKGLTVQYLLRQTYQVKPGEIILFHAAAGGVGSLACQWAKALGAKLIGTVSSPEKAAHAKALGAWETIDYSHEDVAKRVLELTDGKKCPVVYDGVGQDTWLTSLDSVAPRGLVVSFGNASGPVSGVNLGILAQKDSVYVTRPTLGSYANNAQNLQTMADELFDMLASGKLKVDGIEQYALKDAAKAQIELSARRTTGSTILIP 3jyq-a1-m1-cA_3jyq-a1-m2-cA Quinate dehydrogenase from Corynebacterium glutamicum in complex with shikimate and NADH Q9X5C9 Q9X5C9 1.16 X-RAY DIFFRACTION 85 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 282 282 2nlo-a1-m1-cA_2nlo-a1-m2-cA 3jyo-a1-m1-cA_3jyo-a1-m2-cA 3jyp-a1-m1-cA_3jyp-a1-m2-cA NDSILLGLIGQGLDLSRTPAMHEAEGLAQGRATVYRRIDTLGSRASGQDLKTLLDAALYLGFNGLNITHPYKQAVLPLLDEVSEQATQLGAVNTVVIDATGHTTGHNTDVSGFGRGMEEGLPNAKLDSVVQVGAGGVGNAVAYALVTHGVQKLQVADLDTSRAQALADVINNAVGREAVVGVDARGIEDVIAAADGVVNATPMGMPAHPGTAFDVSCLTKDHWVGDVVYMPIETELLKAARALGCETLDGTRMAIHQAVDAFRLFTGLEPDVSRMRETFLSL NDSILLGLIGQGLDLSRTPAMHEAEGLAQGRATVYRRIDTLGSRASGQDLKTLLDAALYLGFNGLNITHPYKQAVLPLLDEVSEQATQLGAVNTVVIDATGHTTGHNTDVSGFGRGMEEGLPNAKLDSVVQVGAGGVGNAVAYALVTHGVQKLQVADLDTSRAQALADVINNAVGREAVVGVDARGIEDVIAAADGVVNATPMGMPAHPGTAFDVSCLTKDHWVGDVVYMPIETELLKAARALGCETLDGTRMAIHQAVDAFRLFTGLEPDVSRMRETFLSL 3jyu-a1-m1-cB_3jyu-a1-m1-cA Crystal structure of the N-terminal domains of the ubiquitin specific peptidase 4 (USP4) P35123 P35123 2.37 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 212 216 RPDVETQKTELGALGTTLQRGAQWYLIDSRWFKQWKKYVGFDSWDYNVGEHNLFPGPIDNSGLFSDPESQTLKEHLIDELDYVLVPAEAWNKLLNWYGCVEGQQPIVRKVVEHGLFVKHCKVEVYLLELKLCENSDPTNVLSCHFSKADTIATIEKERKLFNIPAERETRLWNKYSNTYEQLSKLDNTIQDAGLYQGQVLVIEPQNEDGTWP SRERPDVETQKTELGALGTTLQRGAQWYLIDSRWFKQWKKYVGFDSWDYNVGEHNLFPGPIDNSGLFSDPESQTLKEHLIDELDYVLVPAEAWNKLLNWYGCVEGQQPIVRKVVEHGLFVKHCKVEVYLLELKLCENSDPTNVLSCHFSKADTIATIEKERKLFNIPAERETRLWNKYSNTYEQLSKLDNTIQDAGLYQGQVLVIEPQNEDGTWPR 3jz0-a1-m1-cA_3jz0-a1-m1-cB LinB complexed with clindamycin and AMPCPP Q9WVY4 Q9WVY4 2 X-RAY DIFFRACTION 148 1.0 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 266 266 3jyy-a1-m1-cA_3jyy-a1-m1-cB LKQKELIANVKNLTESDERITACMMYGSFTKGEGDQYSDIEFYIFLKHSITSNFDSSNWLFDVAPYLMLYKNEYGTEVVIFDNLIRGEFHFLSEKDMNIIPSFKDSGYIPDTKAMLIYDETGQLENYLSEISGARPNRLTEENANFLLCNFSNLWLMGINVLKRGEYARSLELLSQLQKNTLQLIRMAEKNADNWLNMSKNLEKEISLENYKKFAKTTARLDKVELFEAYKNSLLLVMDLQSHLIEQYNLKVTHDILERLLNYISE LKQKELIANVKNLTESDERITACMMYGSFTKGEGDQYSDIEFYIFLKHSITSNFDSSNWLFDVAPYLMLYKNEYGTEVVIFDNLIRGEFHFLSEKDMNIIPSFKDSGYIPDTKAMLIYDETGQLENYLSEISGARPNRLTEENANFLLCNFSNLWLMGINVLKRGEYARSLELLSQLQKNTLQLIRMAEKNADNWLNMSKNLEKEISLENYKKFAKTTARLDKVELFEAYKNSLLLVMDLQSHLIEQYNLKVTHDILERLLNYISE 3jz3-a1-m1-cA_3jz3-a1-m1-cB Structure of the cytoplasmic segment of histidine kinase QseC P40719 P40719 2.5 X-RAY DIFFRACTION 113 0.98 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 149 157 ALLQLHGIDRATRLVDQLLTLSRLDSLDNLQDVAEIPLEDLLQSSVDIYHTAQQAKIDVRLTLNAHSIKRTGQPLLLSLLVRNLLDNAVRYSPQGSVVDVTLNADNFIVRDNGPLGLSIVQRIAKLHGNVEFGNAEQGGFEAKVSWLEH AQLSDDDPQLLQLHSGIDRATRLVDQLLTLSRLDSLDNLQDVAEIPLEDLLQSSVDIYHTAQQAKIDVRLTLNAHSIKRTGQPLLLSLLVRNLLDNAVRYSPQGSVVDVTLNADNFIVRDNGPGGLSIVQRIAKLHGNVEFGNAEQGGFEAKVSWLE 3jz4-a1-m1-cA_3jz4-a1-m1-cD Crystal structure of E. coli NADP dependent enzyme P25526 P25526 2.3 X-RAY DIFFRACTION 22 1.0 562 (Escherichia coli) 562 (Escherichia coli) 481 481 3jz4-a1-m1-cB_3jz4-a1-m1-cC KLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAMSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL KLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAMSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL 3jz4-a1-m1-cB_3jz4-a1-m1-cD Crystal structure of E. coli NADP dependent enzyme P25526 P25526 2.3 X-RAY DIFFRACTION 69 1.0 562 (Escherichia coli) 562 (Escherichia coli) 481 481 3jz4-a1-m1-cA_3jz4-a1-m1-cC KLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAMSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL KLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAMSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL 3jz4-a1-m1-cC_3jz4-a1-m1-cD Crystal structure of E. coli NADP dependent enzyme P25526 P25526 2.3 X-RAY DIFFRACTION 175 1.0 562 (Escherichia coli) 562 (Escherichia coli) 481 481 3jz4-a1-m1-cA_3jz4-a1-m1-cB KLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAMSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL KLNDSNLFRQQALINGEWLDANNGEAIDVTNPANGDKLGSVPKMGADETRAAIDAANRALPAWRALTAKERATILRNWFNLMMEHQDDLARLMTLEQGKPLAEAKGEISYAASFIEWFAEEGKRIYGDTIPGHQADKRLIVIKQPIGVTAAITPWNFPAAMITRKAGPALAAGCTMVLKPASQTPFSALALAELAIRAGVPAGVFNVVTGSAGAVGNELTSNPLVRKLSFTGSTEIGRQLMEQCAKDIKKVSLELGGNAPFIVFDDADLDKAVEGALASKFRNAGQTCVCANRLYVQDGVYDRFAEKLQQAMSKLHIGDGLDNGVTIGPLIDEKAVAKVEEHIADALEKGARVVCGGKAHERGGNFFQPTILVDVPANAKVSKEETFGPLAPLFRFKDEADVIAQANDTEFGLAAYFYARDLSRVFRVGEALEYGIVGINTGIISNEVAPFGGIKASGLGREGSKYGIEDYLEIKYMCIGL 3jz6-a1-m1-cA_3jz6-a1-m1-cB Crystal structure of Mycobacterium smegmatis Branched Chain Aminotransferase in complex with pyridoxal-5'-phosphate at 1.9 angstrom. A0R066 A0R066 1.9 X-RAY DIFFRACTION 184 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 363 363 3dtf-a1-m1-cA_3dtf-a1-m1-cB 3dtg-a1-m1-cA_3dtg-a1-m1-cB LEFTVSANTNPATDAVRESILANPGFGKYYTDHMVSIDYTVDEGWHNAQVIPYGPIQLDPSAIVLHYGQEIFEGLKAYRWADGSIVSFRPEANAARLQSSARRLAIPELPEEVFIESLRQLIAVDEKWVPPAGGEESLYLRPFVIATEPGLGVRPSNEYRYLLIASPAGAYFKGGIKPVSVWLSHEYVRASPGGTGAAKFGGNYAASLLAQAQAAEMGCDQVVWLDAIERRYVEEMGGMNLFFVFGSGGSARLVTPELSGSLLPGITRDSLLQLATDAGFAVEERKIDVDEWQKKAGAGEITEVFACGTAAVITPVSHVKHHDGEFTIADGQPGEITMALRDTLTGIQRGTFADTHGWMARLN LEFTVSANTNPATDAVRESILANPGFGKYYTDHMVSIDYTVDEGWHNAQVIPYGPIQLDPSAIVLHYGQEIFEGLKAYRWADGSIVSFRPEANAARLQSSARRLAIPELPEEVFIESLRQLIAVDEKWVPPAGGEESLYLRPFVIATEPGLGVRPSNEYRYLLIASPAGAYFKGGIKPVSVWLSHEYVRASPGGTGAAKFGGNYAASLLAQAQAAEMGCDQVVWLDAIERRYVEEMGGMNLFFVFGSGGSARLVTPELSGSLLPGITRDSLLQLATDAGFAVEERKIDVDEWQKKAGAGEITEVFACGTAAVITPVSHVKHHDGEFTIADGQPGEITMALRDTLTGIQRGTFADTHGWMARLN 3jzd-a2-m1-cC_3jzd-a2-m1-cD Crystal structure of Putative alcohol dehedrogenase (YP_298327.1) from RALSTONIA EUTROPHA JMP134 at 2.10 A resolution Q46TQ1 Q46TQ1 2.1 X-RAY DIFFRACTION 59 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 347 347 3jzd-a1-m1-cA_3jzd-a1-m1-cB SQPFIYEAHAARVVFGAGSSSQVAAEVERLGAKRALVLCTPNQQAEAERIADLLGPLSAGVYAGAVHVPIESARDATARAREAGADCAVAVGGGSTTGLGKAIALETGPIVAIPTTYAGSEVTPVYGLTEAGTKRTGRDPRVLPRTVIYDPALTVGLPRGLSVTSALNAIAHAAEGLYARDANPVSLAEEGIRALAAGIPAVFNDPADLDARSQCLYGAWLCGTVLGGVGALHHKLCHTLGGSFNLPHAETHTIVLPHALAYNAAAVPEAARIRRATGAGEQSAAATLFDLAQRHGAPVALRDIGREEDLDRAADIALASPYWNPRPIEREPIRALLQAAYEGVRPD SQPFIYEAHAARVVFGAGSSSQVAAEVERLGAKRALVLCTPNQQAEAERIADLLGPLSAGVYAGAVHVPIESARDATARAREAGADCAVAVGGGSTTGLGKAIALETGPIVAIPTTYAGSEVTPVYGLTEAGTKRTGRDPRVLPRTVIYDPALTVGLPRGLSVTSALNAIAHAAEGLYARDANPVSLAEEGIRALAAGIPAVFNDPADLDARSQCLYGAWLCGTVLGGVGALHHKLCHTLGGSFNLPHAETHTIVLPHALAYNAAAVPEAARIRRATGAGEQSAAATLFDLAQRHGAPVALRDIGREEDLDRAADIALASPYWNPRPIEREPIRALLQAAYEGVRPD 3jze-a2-m1-cD_3jze-a2-m1-cA 1.8 Angstrom resolution crystal structure of dihydroorotase (pyrC) from Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 P06204 P06204 1.8 X-RAY DIFFRACTION 13 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 341 343 3jze-a1-m1-cD_3jze-a1-m1-cA QVLKIRRPDDWHVHLRDGDMLKTVVPYTSEIYGRAIVMPNLASPITTVDAAIAYRQRILDAVPAGHDFTPLMTCYLTDSLDADELERGFHEGVFTAALYPANATTNSSHGVTSVDAIMPVLERMEKLGIPLLVHGEVTHADVDIFDREARFIDTVMEPLRQRLTALKVVFEHITTKDAAQYVRDGNDYLAATITPQHLMFNRNDMLVGGIRPHLYCLPILKRNIHQQALRELVASGFTRAFLGTDSAPHSRHRKETSCGCAGCFNAPSALGSYAAVFEEMNALAHFEAFCSLNGPQFYGLPMNTGWVELVRDEQQIPGNIALADDSLVPFLAGETVRWSVK SQVLKIRRPDDWHVHLRDGDMLKTVVPYTSEIYGRAIVMPNLASPITTVDAAIAYRQRILDAVPAGHDFTPLMTCYLTDSLDADELERGFHEGVFTAALYPANATTNSSHGVTSVDAIMPVLERMEKLGIPLLVHGEVTHADVDIFDREARFIDTVMEPLRQRLTALKVVFEHITTKDAAQYVRDGNDYLAATITPQHLMFNRNDMLVGGIRPHLYCLPILKRNIHQQALRELVASGFTRAFLGTDSAPHSRHRKETSCGCAGCFNAPSALGSYAAVFEEMNALAHFEAFCSLNGPQFYGLPMNTGWVELVRDEQQIPGNIALADDSLVPFLAGETVRWSVKK 3jze-a2-m1-cD_3jze-a2-m1-cC 1.8 Angstrom resolution crystal structure of dihydroorotase (pyrC) from Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 P06204 P06204 1.8 X-RAY DIFFRACTION 74 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 341 343 3jze-a1-m1-cB_3jze-a1-m1-cA 3jze-a1-m1-cD_3jze-a1-m1-cC 3jze-a2-m1-cB_3jze-a2-m1-cA QVLKIRRPDDWHVHLRDGDMLKTVVPYTSEIYGRAIVMPNLASPITTVDAAIAYRQRILDAVPAGHDFTPLMTCYLTDSLDADELERGFHEGVFTAALYPANATTNSSHGVTSVDAIMPVLERMEKLGIPLLVHGEVTHADVDIFDREARFIDTVMEPLRQRLTALKVVFEHITTKDAAQYVRDGNDYLAATITPQHLMFNRNDMLVGGIRPHLYCLPILKRNIHQQALRELVASGFTRAFLGTDSAPHSRHRKETSCGCAGCFNAPSALGSYAAVFEEMNALAHFEAFCSLNGPQFYGLPMNTGWVELVRDEQQIPGNIALADDSLVPFLAGETVRWSVK SQVLKIRRPDDWHVHLRDGDMLKTVVPYTSEIYGRAIVMPNLASPITTVDAAIAYRQRILDAVPAGHDFTPLMTCYLTDSLDADELERGFHEGVFTAALYPANATTNSSHGVTSVDAIMPVLERMEKLGIPLLVHGEVTHADVDIFDREARFIDTVMEPLRQRLTALKVVFEHITTKDAAQYVRDGNDYLAATITPQHLMFNRNDMLVGGIRPHLYCLPILKRNIHQQALRELVASGFTRAFLGTDSAPHSRHRKETSCGCAGCFNAPSALGSYAAVFEEMNALAHFEAFCSLNGPQFYGLPMNTGWVELVRDEQQIPGNIALADDSLVPFLAGETVRWSVKK 3jzf-a1-m1-cA_3jzf-a1-m1-cB Crystal structure of biotin carboxylase from E. Coli in complex with benzimidazoles series P24182 P24182 2.13 X-RAY DIFFRACTION 69 0.989 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 380 447 MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGLQEK RHMLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKASGGGGGRGMRVVRGDAELAQSISMTRAEAKAAFSNDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLG 3jzl-a1-m1-cB_3jzl-a1-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE CYSTATHIONINE BETA-LYASE INVOLVED IN ALUMINUM RESISTANCE (LMOF2365_1314) FROM LISTERIA MONOCYTOGENES STR. 4B F2365 AT 1.91 A RESOLUTION 1.91 X-RAY DIFFRACTION 11 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 385 385 IQAIRKKVETQIDDLQNKTDEIAEFNQAKVLDAFQENKVSDFHFHPSTGYGYDDEGRDTLERVYATVFKTEAALVRPQIISGTHAISTVLFGILRPDDELLYITGQPYDTLEEIVGIRKQGQGSLKDFHIGYSSVPLLENGDVDFPRIAKKTPKTKIGIQRSRGYADRPSFTIEKIKEIVFVKNINPEVIVFVDNCYGEFVEYQEPPEVGADIIAGSLINPGGGLAKTGGYIAGKEALVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPVWDAPRTDLIQSVSFHEKVAFAQAIQAASPVNAHVLPIGAYPGYEDIAAGTFIQGASLELTADGQLYVQGGLTYEHIKIAVTRAIQKI IQAIRKKVETQIDDLQNKTDEIAEFNQAKVLDAFQENKVSDFHFHPSTGYGYDDEGRDTLERVYATVFKTEAALVRPQIISGTHAISTVLFGILRPDDELLYITGQPYDTLEEIVGIRKQGQGSLKDFHIGYSSVPLLENGDVDFPRIAKKTPKTKIGIQRSRGYADRPSFTIEKIKEIVFVKNINPEVIVFVDNCYGEFVEYQEPPEVGADIIAGSLINPGGGLAKTGGYIAGKEALVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPVWDAPRTDLIQSVSFHEKVAFAQAIQAASPVNAHVLPIGAYPGYEDIAAGTFIQGASLELTADGQLYVQGGLTYEHIKIAVTRAIQKI 3jzl-a1-m2-cB_3jzl-a1-m1-cA CRYSTAL STRUCTURE OF A PUTATIVE CYSTATHIONINE BETA-LYASE INVOLVED IN ALUMINUM RESISTANCE (LMOF2365_1314) FROM LISTERIA MONOCYTOGENES STR. 4B F2365 AT 1.91 A RESOLUTION 1.91 X-RAY DIFFRACTION 178 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 385 396 3jzl-a1-m1-cB_3jzl-a1-m2-cA IQAIRKKVETQIDDLQNKTDEIAEFNQAKVLDAFQENKVSDFHFHPSTGYGYDDEGRDTLERVYATVFKTEAALVRPQIISGTHAISTVLFGILRPDDELLYITGQPYDTLEEIVGIRKQGQGSLKDFHIGYSSVPLLENGDVDFPRIAKKTPKTKIGIQRSRGYADRPSFTIEKIKEIVFVKNINPEVIVFVDNCYGEFVEYQEPPEVGADIIAGSLINPGGGLAKTGGYIAGKEALVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPVWDAPRTDLIQSVSFHEKVAFAQAIQAASPVNAHVLPIGAYPGYEDIAAGTFIQGASLELTADGQLYVQGGLTYEHIKIAVTRAIQKI IQAIRKKVETQIDDLQNKTDEIAEFNQAKVLDAFQENKVSDFHFHPSTGYGYDDEGRDTLERVYATVFKTEAALVRPQIISGTHAISTVLFGILRPDDELLYITGQPYDTLEEIVGIRKQGQGSLKDFHIGYSSVPLLENGDVDFPRIAKKTPKTKIGIQRSRGYADRPSFTIEKIKEIVFVKNINPEVIVFVDNCYGEFVEYQEPPEVGADIIAGSLINPGGGLAKTGGYIAGKEALVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPVWDAPRTDLIQSVSFHNKEKVAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHIKIAVTRAIQKIV 3jzl-a1-m2-cB_3jzl-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE CYSTATHIONINE BETA-LYASE INVOLVED IN ALUMINUM RESISTANCE (LMOF2365_1314) FROM LISTERIA MONOCYTOGENES STR. 4B F2365 AT 1.91 A RESOLUTION 1.91 X-RAY DIFFRACTION 109 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 385 396 3jzl-a1-m1-cB_3jzl-a1-m1-cA IQAIRKKVETQIDDLQNKTDEIAEFNQAKVLDAFQENKVSDFHFHPSTGYGYDDEGRDTLERVYATVFKTEAALVRPQIISGTHAISTVLFGILRPDDELLYITGQPYDTLEEIVGIRKQGQGSLKDFHIGYSSVPLLENGDVDFPRIAKKTPKTKIGIQRSRGYADRPSFTIEKIKEIVFVKNINPEVIVFVDNCYGEFVEYQEPPEVGADIIAGSLINPGGGLAKTGGYIAGKEALVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPVWDAPRTDLIQSVSFHEKVAFAQAIQAASPVNAHVLPIGAYPGYEDIAAGTFIQGASLELTADGQLYVQGGLTYEHIKIAVTRAIQKI IQAIRKKVETQIDDLQNKTDEIAEFNQAKVLDAFQENKVSDFHFHPSTGYGYDDEGRDTLERVYATVFKTEAALVRPQIISGTHAISTVLFGILRPDDELLYITGQPYDTLEEIVGIRKQGQGSLKDFHIGYSSVPLLENGDVDFPRIAKKTPKTKIGIQRSRGYADRPSFTIEKIKEIVFVKNINPEVIVFVDNCYGEFVEYQEPPEVGADIIAGSLINPGGGLAKTGGYIAGKEALVDLCGYRLTTPGIGREAGASLYSLLEYQGFFLAPHVTAQAIKGARFTAALAEFGVEADPVWDAPRTDLIQSVSFHNKEKVAFAQAIQAASPVNAHVLPIGAYPGYEDDVIAAGTFIQGASLELTADGPIREPYQLYVQGGLTYEHIKIAVTRAIQKIV 3jzv-a2-m1-cA_3jzv-a2-m6-cA Crystal structure of Rru_A2000 from Rhodospirillum rubrum: A cupin-2 domain. Q2RSU5 Q2RSU5 2.3 X-RAY DIFFRACTION 36 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 144 144 3jzv-a2-m2-cA_3jzv-a2-m4-cA 3jzv-a2-m3-cA_3jzv-a2-m5-cA RPFRPFQSQYRWPGVDLLAYKEESAPFRSVTRQVLFSGNGLTGELRYFEVGPGGHSTLERHQHAHGVILKGRGHAVGRAVSAVAPYDLVTIPGWSWHQFRAPADEALGFLCVNAERDKPQLPTEADLALRADDAVAAFLDGLAG RPFRPFQSQYRWPGVDLLAYKEESAPFRSVTRQVLFSGNGLTGELRYFEVGPGGHSTLERHQHAHGVILKGRGHAVGRAVSAVAPYDLVTIPGWSWHQFRAPADEALGFLCVNAERDKPQLPTEADLALRADDAVAAFLDGLAG 3jzv-a2-m3-cA_3jzv-a2-m6-cA Crystal structure of Rru_A2000 from Rhodospirillum rubrum: A cupin-2 domain. Q2RSU5 Q2RSU5 2.3 X-RAY DIFFRACTION 60 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 144 144 3jzv-a1-m1-cA_3jzv-a1-m2-cA 3jzv-a2-m1-cA_3jzv-a2-m2-cA 3jzv-a2-m4-cA_3jzv-a2-m5-cA RPFRPFQSQYRWPGVDLLAYKEESAPFRSVTRQVLFSGNGLTGELRYFEVGPGGHSTLERHQHAHGVILKGRGHAVGRAVSAVAPYDLVTIPGWSWHQFRAPADEALGFLCVNAERDKPQLPTEADLALRADDAVAAFLDGLAG RPFRPFQSQYRWPGVDLLAYKEESAPFRSVTRQVLFSGNGLTGELRYFEVGPGGHSTLERHQHAHGVILKGRGHAVGRAVSAVAPYDLVTIPGWSWHQFRAPADEALGFLCVNAERDKPQLPTEADLALRADDAVAAFLDGLAG 3jzv-a2-m5-cA_3jzv-a2-m6-cA Crystal structure of Rru_A2000 from Rhodospirillum rubrum: A cupin-2 domain. Q2RSU5 Q2RSU5 2.3 X-RAY DIFFRACTION 33 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 144 144 3jzv-a2-m1-cA_3jzv-a2-m3-cA 3jzv-a2-m1-cA_3jzv-a2-m4-cA 3jzv-a2-m2-cA_3jzv-a2-m5-cA 3jzv-a2-m2-cA_3jzv-a2-m6-cA 3jzv-a2-m3-cA_3jzv-a2-m4-cA RPFRPFQSQYRWPGVDLLAYKEESAPFRSVTRQVLFSGNGLTGELRYFEVGPGGHSTLERHQHAHGVILKGRGHAVGRAVSAVAPYDLVTIPGWSWHQFRAPADEALGFLCVNAERDKPQLPTEADLALRADDAVAAFLDGLAG RPFRPFQSQYRWPGVDLLAYKEESAPFRSVTRQVLFSGNGLTGELRYFEVGPGGHSTLERHQHAHGVILKGRGHAVGRAVSAVAPYDLVTIPGWSWHQFRAPADEALGFLCVNAERDKPQLPTEADLALRADDAVAAFLDGLAG 3k0g-a2-m2-cB_3k0g-a2-m4-cB Crystal Structure of CNG mimicking NaK mutant, NaK-ETPP, Na+ complex Q81HW2 Q81HW2 1.95 X-RAY DIFFRACTION 51 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 95 95 3e83-a1-m1-cA_3e83-a1-m3-cA 3e83-a1-m1-cA_3e83-a1-m4-cA 3e83-a1-m2-cA_3e83-a1-m3-cA 3e83-a1-m2-cA_3e83-a1-m4-cA 3e83-a2-m1-cB_3e83-a2-m3-cB 3e83-a2-m1-cB_3e83-a2-m4-cB 3e83-a2-m2-cB_3e83-a2-m3-cB 3e83-a2-m2-cB_3e83-a2-m4-cB 3e86-a1-m1-cA_3e86-a1-m3-cA 3e86-a1-m1-cA_3e86-a1-m4-cA 3e86-a1-m2-cA_3e86-a1-m3-cA 3e86-a1-m2-cA_3e86-a1-m4-cA 3e86-a2-m1-cB_3e86-a2-m3-cB 3e86-a2-m1-cB_3e86-a2-m4-cB 3e86-a2-m2-cB_3e86-a2-m3-cB 3e86-a2-m2-cB_3e86-a2-m4-cB 3e89-a1-m1-cA_3e89-a1-m3-cA 3e89-a1-m1-cA_3e89-a1-m4-cA 3e89-a1-m2-cA_3e89-a1-m3-cA 3e89-a1-m2-cA_3e89-a1-m4-cA 3e89-a2-m1-cB_3e89-a2-m3-cB 3e89-a2-m1-cB_3e89-a2-m4-cB 3e89-a2-m2-cB_3e89-a2-m3-cB 3e89-a2-m2-cB_3e89-a2-m4-cB 3e8b-a1-m1-cA_3e8b-a1-m3-cA 3e8b-a1-m1-cA_3e8b-a1-m4-cA 3e8b-a1-m2-cA_3e8b-a1-m3-cA 3e8b-a1-m2-cA_3e8b-a1-m4-cA 3e8b-a2-m1-cB_3e8b-a2-m3-cB 3e8b-a2-m1-cB_3e8b-a2-m4-cB 3e8b-a2-m2-cB_3e8b-a2-m3-cB 3e8b-a2-m2-cB_3e8b-a2-m4-cB 3e8f-a1-m1-cA_3e8f-a1-m3-cA 3e8f-a1-m1-cA_3e8f-a1-m4-cA 3e8f-a1-m2-cA_3e8f-a1-m3-cA 3e8f-a1-m2-cA_3e8f-a1-m4-cA 3e8f-a2-m1-cB_3e8f-a2-m3-cB 3e8f-a2-m1-cB_3e8f-a2-m4-cB 3e8f-a2-m2-cB_3e8f-a2-m3-cB 3e8f-a2-m2-cB_3e8f-a2-m4-cB 3e8g-a1-m1-cA_3e8g-a1-m3-cA 3e8g-a1-m1-cA_3e8g-a1-m4-cA 3e8g-a1-m2-cA_3e8g-a1-m3-cA 3e8g-a1-m2-cA_3e8g-a1-m4-cA 3e8g-a2-m1-cB_3e8g-a2-m3-cB 3e8g-a2-m1-cB_3e8g-a2-m4-cB 3e8g-a2-m2-cB_3e8g-a2-m3-cB 3e8g-a2-m2-cB_3e8g-a2-m4-cB 3e8h-a1-m1-cA_3e8h-a1-m3-cA 3e8h-a1-m1-cA_3e8h-a1-m4-cA 3e8h-a1-m2-cA_3e8h-a1-m3-cA 3e8h-a1-m2-cA_3e8h-a1-m4-cA 3e8h-a2-m1-cB_3e8h-a2-m3-cB 3e8h-a2-m1-cB_3e8h-a2-m4-cB 3e8h-a2-m2-cB_3e8h-a2-m3-cB 3e8h-a2-m2-cB_3e8h-a2-m4-cB 3k03-a1-m1-cA_3k03-a1-m3-cA 3k03-a1-m1-cA_3k03-a1-m4-cA 3k03-a1-m2-cA_3k03-a1-m3-cA 3k03-a1-m2-cA_3k03-a1-m4-cA 3k03-a2-m1-cB_3k03-a2-m3-cB 3k03-a2-m1-cB_3k03-a2-m4-cB 3k03-a2-m2-cB_3k03-a2-m3-cB 3k03-a2-m2-cB_3k03-a2-m4-cB 3k04-a1-m1-cA_3k04-a1-m3-cA 3k04-a1-m1-cA_3k04-a1-m4-cA 3k04-a1-m2-cA_3k04-a1-m3-cA 3k04-a1-m2-cA_3k04-a1-m4-cA 3k04-a2-m1-cB_3k04-a2-m3-cB 3k04-a2-m1-cB_3k04-a2-m4-cB 3k04-a2-m2-cB_3k04-a2-m3-cB 3k04-a2-m2-cB_3k04-a2-m4-cB 3k06-a1-m1-cA_3k06-a1-m3-cA 3k06-a1-m1-cA_3k06-a1-m4-cA 3k06-a1-m2-cA_3k06-a1-m3-cA 3k06-a1-m2-cA_3k06-a1-m4-cA 3k06-a2-m1-cB_3k06-a2-m3-cB 3k06-a2-m1-cB_3k06-a2-m4-cB 3k06-a2-m2-cB_3k06-a2-m3-cB 3k06-a2-m2-cB_3k06-a2-m4-cB 3k08-a1-m1-cA_3k08-a1-m3-cA 3k08-a1-m1-cA_3k08-a1-m4-cA 3k08-a1-m2-cA_3k08-a1-m3-cA 3k08-a1-m2-cA_3k08-a1-m4-cA 3k08-a2-m1-cB_3k08-a2-m3-cB 3k08-a2-m1-cB_3k08-a2-m4-cB 3k08-a2-m2-cB_3k08-a2-m3-cB 3k08-a2-m2-cB_3k08-a2-m4-cB 3k0d-a1-m1-cA_3k0d-a1-m3-cA 3k0d-a1-m1-cA_3k0d-a1-m4-cA 3k0d-a1-m2-cA_3k0d-a1-m3-cA 3k0d-a1-m2-cA_3k0d-a1-m4-cA 3k0d-a2-m1-cB_3k0d-a2-m3-cB 3k0d-a2-m1-cB_3k0d-a2-m4-cB 3k0d-a2-m2-cB_3k0d-a2-m3-cB 3k0d-a2-m2-cB_3k0d-a2-m4-cB 3k0g-a1-m1-cA_3k0g-a1-m3-cA 3k0g-a1-m1-cA_3k0g-a1-m4-cA 3k0g-a1-m2-cA_3k0g-a1-m3-cA 3k0g-a1-m2-cA_3k0g-a1-m4-cA 3k0g-a2-m1-cB_3k0g-a2-m3-cB 3k0g-a2-m1-cB_3k0g-a2-m4-cB 3k0g-a2-m2-cB_3k0g-a2-m3-cB 3ouf-a1-m1-cA_3ouf-a1-m3-cA 3ouf-a1-m1-cA_3ouf-a1-m4-cA 3ouf-a1-m2-cA_3ouf-a1-m3-cA 3ouf-a1-m2-cA_3ouf-a1-m4-cA 3ouf-a2-m1-cB_3ouf-a2-m3-cB 3ouf-a2-m1-cB_3ouf-a2-m4-cB 3ouf-a2-m2-cB_3ouf-a2-m3-cB 3ouf-a2-m2-cB_3ouf-a2-m4-cB 3t1c-a1-m1-cA_3t1c-a1-m3-cA 3t1c-a1-m1-cA_3t1c-a1-m4-cA 3t1c-a1-m2-cA_3t1c-a1-m3-cA 3t1c-a1-m2-cA_3t1c-a1-m4-cA 3t1c-a2-m1-cB_3t1c-a2-m3-cB 3t1c-a2-m1-cB_3t1c-a2-m4-cB 3t1c-a2-m2-cB_3t1c-a2-m3-cB 3t1c-a2-m2-cB_3t1c-a2-m4-cB 3t2m-a1-m1-cA_3t2m-a1-m3-cA 3t2m-a1-m1-cA_3t2m-a1-m4-cA 3t2m-a1-m2-cA_3t2m-a1-m3-cA 3t2m-a1-m2-cA_3t2m-a1-m4-cA 3t2m-a2-m1-cB_3t2m-a2-m3-cB 3t2m-a2-m1-cB_3t2m-a2-m4-cB 3t2m-a2-m2-cB_3t2m-a2-m3-cB 3t2m-a2-m2-cB_3t2m-a2-m4-cB 3t4d-a1-m1-cA_3t4d-a1-m3-cA 3t4d-a1-m1-cA_3t4d-a1-m4-cA 3t4d-a1-m2-cA_3t4d-a1-m3-cA 3t4d-a1-m2-cA_3t4d-a1-m4-cA 3t4d-a2-m1-cB_3t4d-a2-m3-cB 3t4d-a2-m1-cB_3t4d-a2-m4-cB 3t4d-a2-m2-cB_3t4d-a2-m3-cB 3t4d-a2-m2-cB_3t4d-a2-m4-cB 3t4z-a1-m1-cA_3t4z-a1-m3-cA 3t4z-a1-m1-cA_3t4z-a1-m4-cA 3t4z-a1-m2-cA_3t4z-a1-m3-cA 3t4z-a1-m2-cA_3t4z-a1-m4-cA 3t4z-a2-m1-cB_3t4z-a2-m3-cB 3t4z-a2-m1-cB_3t4z-a2-m4-cB 3t4z-a2-m2-cB_3t4z-a2-m3-cB 3t4z-a2-m2-cB_3t4z-a2-m4-cB 3tcu-a1-m1-cA_3tcu-a1-m3-cA 3tcu-a1-m1-cA_3tcu-a1-m4-cA 3tcu-a1-m2-cA_3tcu-a1-m3-cA 3tcu-a1-m2-cA_3tcu-a1-m4-cA 3tcu-a2-m1-cB_3tcu-a2-m3-cB 3tcu-a2-m1-cB_3tcu-a2-m4-cB 3tcu-a2-m2-cB_3tcu-a2-m3-cB 3tcu-a2-m2-cB_3tcu-a2-m4-cB 3tet-a1-m1-cA_3tet-a1-m3-cA 3tet-a1-m1-cA_3tet-a1-m4-cA 3tet-a1-m2-cA_3tet-a1-m3-cA 3tet-a1-m2-cA_3tet-a1-m4-cA 3tet-a2-m1-cB_3tet-a2-m3-cB 3tet-a2-m1-cB_3tet-a2-m4-cB 3tet-a2-m2-cB_3tet-a2-m3-cB 3tet-a2-m2-cB_3tet-a2-m4-cB 4pdl-a1-m1-cA_4pdl-a1-m3-cA 4pdl-a1-m1-cA_4pdl-a1-m4-cA 4pdl-a1-m2-cA_4pdl-a1-m3-cA 4pdl-a1-m2-cA_4pdl-a1-m4-cA 4pdl-a2-m1-cB_4pdl-a2-m3-cB 4pdl-a2-m1-cB_4pdl-a2-m4-cB 4pdl-a2-m2-cB_4pdl-a2-m3-cB 4pdl-a2-m2-cB_4pdl-a2-m4-cB 4pdm-a1-m1-cA_4pdm-a1-m3-cA 4pdm-a1-m1-cA_4pdm-a1-m4-cA 4pdm-a1-m2-cA_4pdm-a1-m3-cA 4pdm-a1-m2-cA_4pdm-a1-m4-cA 4pdm-a2-m1-cB_4pdm-a2-m3-cB 4pdm-a2-m1-cB_4pdm-a2-m4-cB 4pdm-a2-m2-cB_4pdm-a2-m3-cB 4pdm-a2-m2-cB_4pdm-a2-m4-cB 4pdr-a1-m1-cA_4pdr-a1-m3-cA 4pdr-a1-m1-cA_4pdr-a1-m4-cA 4pdr-a1-m2-cA_4pdr-a1-m3-cA 4pdr-a1-m2-cA_4pdr-a1-m4-cA 4pdr-a2-m1-cB_4pdr-a2-m3-cB 4pdr-a2-m1-cB_4pdr-a2-m4-cB 4pdr-a2-m2-cB_4pdr-a2-m3-cB 4pdr-a2-m2-cB_4pdr-a2-m4-cB 4pdv-a1-m1-cA_4pdv-a1-m3-cA 4pdv-a1-m1-cA_4pdv-a1-m4-cA 4pdv-a1-m2-cA_4pdv-a1-m3-cA 4pdv-a1-m2-cA_4pdv-a1-m4-cA 4pdv-a2-m1-cB_4pdv-a2-m3-cB 4pdv-a2-m1-cB_4pdv-a2-m4-cB 4pdv-a2-m2-cB_4pdv-a2-m3-cB 4pdv-a2-m2-cB_4pdv-a2-m4-cB 4r50-a1-m1-cA_4r50-a1-m3-cA 4r50-a1-m1-cA_4r50-a1-m4-cA 4r50-a1-m2-cA_4r50-a1-m3-cA 4r50-a1-m2-cA_4r50-a1-m4-cA 4r50-a1-m5-cB_4r50-a1-m7-cB 4r50-a1-m5-cB_4r50-a1-m8-cB 4r50-a1-m6-cB_4r50-a1-m7-cB 4r50-a1-m6-cB_4r50-a1-m8-cB 4r50-a2-m1-cA_4r50-a2-m3-cA 4r50-a2-m1-cA_4r50-a2-m4-cA 4r50-a2-m2-cA_4r50-a2-m3-cA 4r50-a2-m2-cA_4r50-a2-m4-cA 4r50-a3-m1-cB_4r50-a3-m3-cB 4r50-a3-m1-cB_4r50-a3-m4-cB 4r50-a3-m2-cB_4r50-a3-m3-cB 4r50-a3-m2-cB_4r50-a3-m4-cB 4r6z-a1-m1-cA_4r6z-a1-m3-cA 4r6z-a1-m1-cA_4r6z-a1-m4-cA 4r6z-a1-m2-cA_4r6z-a1-m3-cA 4r6z-a1-m2-cA_4r6z-a1-m4-cA 4r6z-a2-m1-cB_4r6z-a2-m3-cB 4r6z-a2-m1-cB_4r6z-a2-m4-cB 4r6z-a2-m2-cB_4r6z-a2-m3-cB 4r6z-a2-m2-cB_4r6z-a2-m4-cB 4r7c-a1-m1-cA_4r7c-a1-m1-cB 4r7c-a1-m1-cA_4r7c-a1-m2-cB 4r7c-a1-m2-cA_4r7c-a1-m1-cB 4r7c-a1-m2-cA_4r7c-a1-m2-cB 4r7c-a2-m1-cC_4r7c-a2-m1-cD 4r7c-a2-m1-cC_4r7c-a2-m3-cD 4r7c-a2-m3-cC_4r7c-a2-m1-cD 4r7c-a2-m3-cC_4r7c-a2-m3-cD 4r8c-a1-m1-cA_4r8c-a1-m3-cA 4r8c-a1-m1-cA_4r8c-a1-m4-cA 4r8c-a1-m2-cA_4r8c-a1-m3-cA 4r8c-a1-m2-cA_4r8c-a1-m4-cA 4r8c-a2-m1-cB_4r8c-a2-m3-cB 4r8c-a2-m1-cB_4r8c-a2-m4-cB 4r8c-a2-m2-cB_4r8c-a2-m3-cB 4r8c-a2-m2-cB_4r8c-a2-m4-cB 4rai-a1-m1-cA_4rai-a1-m3-cA 4rai-a1-m1-cA_4rai-a1-m4-cA 4rai-a1-m2-cA_4rai-a1-m3-cA 4rai-a1-m2-cA_4rai-a1-m4-cA 4rai-a2-m1-cB_4rai-a2-m3-cB 4rai-a2-m1-cB_4rai-a2-m4-cB 4rai-a2-m2-cB_4rai-a2-m3-cB 4rai-a2-m2-cB_4rai-a2-m4-cB 4ro2-a1-m1-cB_4ro2-a1-m1-cA 4ro2-a1-m1-cB_4ro2-a1-m2-cA 4ro2-a1-m2-cB_4ro2-a1-m1-cA 4ro2-a1-m2-cB_4ro2-a1-m2-cA 4zbm-a1-m1-cA_4zbm-a1-m3-cA 4zbm-a1-m1-cA_4zbm-a1-m4-cA 4zbm-a1-m2-cA_4zbm-a1-m3-cA 4zbm-a1-m2-cA_4zbm-a1-m4-cA 4zbm-a2-m1-cB_4zbm-a2-m3-cB 4zbm-a2-m1-cB_4zbm-a2-m4-cB 4zbm-a2-m2-cB_4zbm-a2-m3-cB 4zbm-a2-m2-cB_4zbm-a2-m4-cB 6cpv-a1-m1-cA_6cpv-a1-m3-cA 6cpv-a1-m1-cA_6cpv-a1-m4-cA 6cpv-a1-m2-cA_6cpv-a1-m3-cA 6cpv-a1-m2-cA_6cpv-a1-m4-cA 6cpv-a2-m1-cB_6cpv-a2-m3-cB 6cpv-a2-m1-cB_6cpv-a2-m4-cB 6cpv-a2-m2-cB_6cpv-a2-m3-cB 6cpv-a2-m2-cB_6cpv-a2-m4-cB 6dz1-a1-m1-cA_6dz1-a1-m4-cA 6dz1-a1-m1-cA_6dz1-a1-m6-cA 6dz1-a1-m2-cA_6dz1-a1-m4-cA 6dz1-a1-m2-cA_6dz1-a1-m6-cA 6dz1-a2-m1-cB_6dz1-a2-m5-cB 6dz1-a2-m1-cB_6dz1-a2-m7-cB 6dz1-a2-m3-cB_6dz1-a2-m5-cB 6dz1-a2-m3-cB_6dz1-a2-m7-cB 6fiz-a1-m1-cA_6fiz-a1-m1-cB 6fiz-a1-m1-cA_6fiz-a1-m1-cD 6fiz-a1-m1-cB_6fiz-a1-m1-cC 6fiz-a1-m1-cC_6fiz-a1-m1-cD 6fiz-a2-m1-cE_6fiz-a2-m1-cF 6fiz-a2-m1-cE_6fiz-a2-m1-cH 6fiz-a2-m1-cF_6fiz-a2-m1-cG 6fiz-a2-m1-cG_6fiz-a2-m1-cH 6fiz-a3-m1-cJ_6fiz-a3-m1-cI 6fiz-a3-m1-cJ_6fiz-a3-m1-cK 6fiz-a3-m1-cK_6fiz-a3-m1-cL 6fiz-a3-m1-cL_6fiz-a3-m1-cI 6fiz-a4-m1-cN_6fiz-a4-m1-cM 6fiz-a4-m1-cN_6fiz-a4-m1-cO 6fiz-a4-m1-cO_6fiz-a4-m1-cP 6fiz-a4-m1-cP_6fiz-a4-m1-cM 6ufe-a1-m1-cA_6ufe-a1-m3-cA 6ufe-a1-m1-cA_6ufe-a1-m4-cA 6ufe-a1-m2-cA_6ufe-a1-m3-cA 6ufe-a1-m2-cA_6ufe-a1-m4-cA 6ufe-a2-m1-cB_6ufe-a2-m3-cB 6ufe-a2-m1-cB_6ufe-a2-m4-cB 6ufe-a2-m2-cB_6ufe-a2-m3-cB 6ufe-a2-m2-cB_6ufe-a2-m4-cB 6v8y-a1-m1-cA_6v8y-a1-m1-cB 6v8y-a1-m1-cA_6v8y-a1-m2-cB 6v8y-a1-m2-cA_6v8y-a1-m1-cB 6v8y-a1-m2-cA_6v8y-a1-m2-cB 7oor-a1-m1-cA_7oor-a1-m1-cB 7oor-a1-m1-cA_7oor-a1-m2-cB 7oor-a1-m2-cA_7oor-a1-m1-cB 7oor-a1-m2-cA_7oor-a1-m2-cB 7oou-a1-m1-cA_7oou-a1-m1-cB 7oou-a1-m1-cA_7oou-a1-m2-cB 7oou-a1-m2-cA_7oou-a1-m1-cB 7oou-a1-m2-cA_7oou-a1-m2-cB 7oph-a1-m1-cA_7oph-a1-m1-cB 7oph-a1-m1-cA_7oph-a1-m2-cB 7oph-a1-m2-cA_7oph-a1-m1-cB 7oph-a1-m2-cA_7oph-a1-m2-cB 7oq1-a1-m1-cB_7oq1-a1-m1-cA 7oq1-a1-m1-cB_7oq1-a1-m2-cA 7oq1-a1-m2-cB_7oq1-a1-m1-cA 7oq1-a1-m2-cB_7oq1-a1-m2-cA 7oq2-a1-m1-cA_7oq2-a1-m1-cB 7oq2-a1-m1-cA_7oq2-a1-m2-cB 7oq2-a1-m2-cA_7oq2-a1-m1-cB 7oq2-a1-m2-cA_7oq2-a1-m2-cB 7pa0-a1-m1-cA_7pa0-a1-m1-cB 7pa0-a1-m1-cA_7pa0-a1-m2-cB 7pa0-a1-m2-cA_7pa0-a1-m1-cB 7pa0-a1-m2-cA_7pa0-a1-m2-cB 8a35-a1-m1-cA_8a35-a1-m4-cA 8a35-a1-m1-cA_8a35-a1-m6-cA 8a35-a1-m2-cA_8a35-a1-m4-cA 8a35-a1-m2-cA_8a35-a1-m6-cA 8a35-a2-m1-cB_8a35-a2-m5-cB 8a35-a2-m1-cB_8a35-a2-m7-cB 8a35-a2-m3-cB_8a35-a2-m5-cB 8a35-a2-m3-cB_8a35-a2-m7-cB 8a7x-a1-m1-cA_8a7x-a1-m4-cA 8a7x-a1-m1-cA_8a7x-a1-m6-cA 8a7x-a1-m2-cA_8a7x-a1-m4-cA 8a7x-a1-m2-cA_8a7x-a1-m6-cA 8a7x-a2-m1-cB_8a7x-a2-m5-cB 8a7x-a2-m1-cB_8a7x-a2-m7-cB 8a7x-a2-m3-cB_8a7x-a2-m5-cB 8a7x-a2-m3-cB_8a7x-a2-m7-cB 8ayp-a1-m1-cA_8ayp-a1-m1-cB 8ayp-a1-m1-cA_8ayp-a1-m2-cB 8ayp-a1-m1-cB_8ayp-a1-m2-cA 8ayp-a1-m2-cA_8ayp-a1-m2-cB 8ayp-a2-m1-cC_8ayp-a2-m1-cD 8ayp-a2-m1-cC_8ayp-a2-m3-cD 8ayp-a2-m1-cD_8ayp-a2-m3-cC 8ayp-a2-m3-cC_8ayp-a2-m3-cD 8ayq-a1-m1-cA_8ayq-a1-m1-cB 8ayq-a1-m1-cA_8ayq-a1-m3-cB 8ayq-a1-m1-cB_8ayq-a1-m3-cA 8ayq-a1-m3-cA_8ayq-a1-m3-cB 8ayq-a2-m2-cC_8ayq-a2-m1-cD 8ayq-a2-m2-cC_8ayq-a2-m5-cD 8ayq-a2-m4-cC_8ayq-a2-m1-cD 8ayq-a2-m4-cC_8ayq-a2-m5-cD AKDKEFQVLFVLTILTLISGTIFYSTVEGLRPIDALYFSVVTLTTVGETPPPQTDFGKIFTILYIFIGIGLVFGFIHKLAVNVQLPSILSNLVPR AKDKEFQVLFVLTILTLISGTIFYSTVEGLRPIDALYFSVVTLTTVGETPPPQTDFGKIFTILYIFIGIGLVFGFIHKLAVNVQLPSILSNLVPR 3k0t-a1-m1-cA_3k0t-a1-m1-cB Crystal structure of PSPTO -PSP protein in complex with D-beta-Glucose from Pseudomonas syringae pv. tomato str. DC3000 Q88BE5 Q88BE5 2.1 X-RAY DIFFRACTION 68 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 119 119 3k0t-a1-m1-cA_3k0t-a1-m1-cC 3k0t-a1-m1-cB_3k0t-a1-m1-cC KTVITSDKAPAAIGPYSQAIKAGNTVYSGQIPLDPSTELVEGIEAQITQVFENLKSVAQAAGGSFKDIVKLNIFLTDLGHFAKVNEIGSYFSQPYPARAAIGVAALPRGAQVEDAILVI KTVITSDKAPAAIGPYSQAIKAGNTVYSGQIPLDPSTELVEGIEAQITQVFENLKSVAQAAGGSFKDIVKLNIFLTDLGHFAKVNEIGSYFSQPYPARAAIGVAALPRGAQVEDAILVI 3k0w-a2-m1-cA_3k0w-a2-m4-cA Crystal structure of the tandem IG-like C2-type 2 domains of the human mucosa-associated lymphoid tissue lymphoma translocation protein 1 Q9UDY8 Q9UDY8 2.8 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 3k0w-a2-m2-cA_3k0w-a2-m3-cA SKITVNPESKAVLAGQFVKLCCRATGHPFVQYQWFKMNKEIPNGNTSELIFNAVHVKDAGFYVCRVNNNFTFEFSQWSQLDVCDIPESFQRSVDGVSESKLQICVEPTSQKLMPGSTLVLQCVAVGSPIPHYQWFKNELPLTHETKKLYMVPYVDLEHQGTYWCHVYNDRDSQDSKKVEIIIDE SKITVNPESKAVLAGQFVKLCCRATGHPFVQYQWFKMNKEIPNGNTSELIFNAVHVKDAGFYVCRVNNNFTFEFSQWSQLDVCDIPESFQRSVDGVSESKLQICVEPTSQKLMPGSTLVLQCVAVGSPIPHYQWFKNELPLTHETKKLYMVPYVDLEHQGTYWCHVYNDRDSQDSKKVEIIIDE 3k0w-a2-m3-cA_3k0w-a2-m4-cA Crystal structure of the tandem IG-like C2-type 2 domains of the human mucosa-associated lymphoid tissue lymphoma translocation protein 1 Q9UDY8 Q9UDY8 2.8 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 3k0w-a1-m1-cA_3k0w-a1-m2-cA 3k0w-a2-m1-cA_3k0w-a2-m2-cA SKITVNPESKAVLAGQFVKLCCRATGHPFVQYQWFKMNKEIPNGNTSELIFNAVHVKDAGFYVCRVNNNFTFEFSQWSQLDVCDIPESFQRSVDGVSESKLQICVEPTSQKLMPGSTLVLQCVAVGSPIPHYQWFKNELPLTHETKKLYMVPYVDLEHQGTYWCHVYNDRDSQDSKKVEIIIDE SKITVNPESKAVLAGQFVKLCCRATGHPFVQYQWFKMNKEIPNGNTSELIFNAVHVKDAGFYVCRVNNNFTFEFSQWSQLDVCDIPESFQRSVDGVSESKLQICVEPTSQKLMPGSTLVLQCVAVGSPIPHYQWFKNELPLTHETKKLYMVPYVDLEHQGTYWCHVYNDRDSQDSKKVEIIIDE 3k0z-a1-m1-cA_3k0z-a1-m1-cB Crystal structure of Putative polyketide cyclase (NP_977253.1) from BACILLUS CEREUS ATCC 10987 at 1.91 A resolution Q73CY4 Q73CY4 1.91 X-RAY DIFFRACTION 80 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 146 146 EVQLLKEPKPKATIDPSLSQKEATEVHAAQRFYAFWDTGKEELIPQTVTENFFDHTLPKGRPQGTEGLKFAAQNFRKIVPNIHCEIEDLLVVGDKVTARLSFTGTHNDKKIDFFAIDILHVKDGKITEDWHLEDNLTLKQQLGLIA EVQLLKEPKPKATIDPSLSQKEATEVHAAQRFYAFWDTGKEELIPQTVTENFFDHTLPKGRPQGTEGLKFAAQNFRKIVPNIHCEIEDLLVVGDKVTARLSFTGTHNDKKIDFFAIDILHVKDGKITEDWHLEDNLTLKQQLGLIA 3k11-a1-m2-cA_3k11-a1-m3-cA Crystal structure of Putative glycosyl hydrolase (NP_813087.1) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 1.80 A resolution Q8A045 Q8A045 1.8 X-RAY DIFFRACTION 133 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 429 429 3k11-a1-m1-cA_3k11-a1-m2-cA 3k11-a1-m1-cA_3k11-a1-m3-cA INDSNTPLHLLQPAYQGTYGDLTPEQVKKDIDRVFAYIDKETPARVVDKNTGKVITDYTAGDEAQLERGAFRLASYEWGVTYSALIAAAETTGDKRYTDYVQNRFRFLAEVAPHFKRVYEEKGKTDSQLLQILTPHALDDAGAVCTAIKLRLKDESLPVDGLIQNYFDFIINKEYRLADGTFARNRPQRNTLWLDDFGIPAVAQSRYDKEAKNKYLAEAVKQFLQFADRFIPEKGLYRHGWVESSTDHPAFCWARANGWALLTACELLDVLPEDYPQRPKVDYFRAHVRGVTALQSGEGFWHQLLDCNDSYLETSATAIYVYCLAHAINKGWIDAIAYGPVAQLGWHAVAGKINEEGQVEGTCVGTGAFDPAFYYYRPVNVYAAHGYGPVLWAGAEIRLLNTQHPQNDSAVQYYQEKQKTTAPIFAVDS INDSNTPLHLLQPAYQGTYGDLTPEQVKKDIDRVFAYIDKETPARVVDKNTGKVITDYTAGDEAQLERGAFRLASYEWGVTYSALIAAAETTGDKRYTDYVQNRFRFLAEVAPHFKRVYEEKGKTDSQLLQILTPHALDDAGAVCTAIKLRLKDESLPVDGLIQNYFDFIINKEYRLADGTFARNRPQRNTLWLDDFGIPAVAQSRYDKEAKNKYLAEAVKQFLQFADRFIPEKGLYRHGWVESSTDHPAFCWARANGWALLTACELLDVLPEDYPQRPKVDYFRAHVRGVTALQSGEGFWHQLLDCNDSYLETSATAIYVYCLAHAINKGWIDAIAYGPVAQLGWHAVAGKINEEGQVEGTCVGTGAFDPAFYYYRPVNVYAAHGYGPVLWAGAEIRLLNTQHPQNDSAVQYYQEKQKTTAPIFAVDS 3k12-a2-m1-cF_3k12-a2-m1-cE Crystal structure of an uncharacterized protein A6V7T0 from Pseudomonas aeruginosa Q9I3E9 Q9I3E9 1.49 X-RAY DIFFRACTION 71 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 112 113 3k12-a1-m1-cA_3k12-a1-m1-cC 3k12-a1-m1-cA_3k12-a1-m1-cD 3k12-a1-m1-cC_3k12-a1-m1-cD 3k12-a2-m1-cB_3k12-a2-m1-cE 3k12-a2-m1-cB_3k12-a2-m1-cF HIERFEVVKRRAEALHGNTVYIGGQVADDPSGDIQDQTRQILENIDRLLQSVGSDRGQVLSVRILLAHREDYAGLNQVWDQWFPEGRAPTRACSLAELIDPRWRVEIVVAAR HIERFEVVKRRAEALHGNTVYIGGQVADDPSGDIQDQTRQILENIDRLLQSVGSDRGQVLSVRILLAHREDYAGLNQVWDQWFPEGRAPTRACSLAELIDPRWRVEIVVAARE 3k17-a1-m1-cB_3k17-a1-m1-cC Crystal structure of a Lin0012 protein from Listeria innocua Q92FU1 Q92FU1 2.1 X-RAY DIFFRACTION 28 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 347 347 NKLQVKIPGKLYVAGEYAVVESGHTAILTAVNRYITLTLEDSERNELWIPHYENPVSWPIGGELKPDGEHWTFTAEAINIATTFLKSEGIELTPVKVIETELIDQSGAKYGLGSSAAATVAVINALTKFYPEISLKKFKLAALSHLVVQGNGSCGDIASCYGGWIAYTTFDQEWVKHRLAYKSLEWFKEPWPLQIETLEEPVPTFSVGWTGTPVSTGKLVSQIHAFKQEDSKNYQHFLTRNNEIKQIIQAFHTKDEELLYSSIKENRRILQELGTKAGVNIETSLLKELADSAENGGAGKSSGSGGGDCGIAFSKTKELAEKLVNEWEKLGIKHLPFHTGRVQITEG NKLQVKIPGKLYVAGEYAVVESGHTAILTAVNRYITLTLEDSERNELWIPHYENPVSWPIGGELKPDGEHWTFTAEAINIATTFLKSEGIELTPVKVIETELIDQSGAKYGLGSSAAATVAVINALTKFYPEISLKKFKLAALSHLVVQGNGSCGDIASCYGGWIAYTTFDQEWVKHRLAYKSLEWFKEPWPLQIETLEEPVPTFSVGWTGTPVSTGKLVSQIHAFKQEDSKNYQHFLTRNNEIKQIIQAFHTKDEELLYSSIKENRRILQELGTKAGVNIETSLLKELADSAENGGAGKSSGSGGGDCGIAFSKTKELAEKLVNEWEKLGIKHLPFHTGRVQITEG 3k17-a1-m1-cC_3k17-a1-m1-cD Crystal structure of a Lin0012 protein from Listeria innocua Q92FU1 Q92FU1 2.1 X-RAY DIFFRACTION 69 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 347 347 3k17-a1-m1-cA_3k17-a1-m1-cB NKLQVKIPGKLYVAGEYAVVESGHTAILTAVNRYITLTLEDSERNELWIPHYENPVSWPIGGELKPDGEHWTFTAEAINIATTFLKSEGIELTPVKVIETELIDQSGAKYGLGSSAAATVAVINALTKFYPEISLKKFKLAALSHLVVQGNGSCGDIASCYGGWIAYTTFDQEWVKHRLAYKSLEWFKEPWPLQIETLEEPVPTFSVGWTGTPVSTGKLVSQIHAFKQEDSKNYQHFLTRNNEIKQIIQAFHTKDEELLYSSIKENRRILQELGTKAGVNIETSLLKELADSAENGGAGKSSGSGGGDCGIAFSKTKELAEKLVNEWEKLGIKHLPFHTGRVQITEG NKLQVKIPGKLYVAGEYAVVESGHTAILTAVNRYITLTLEDSERNELWIPHYENPVSWPIGGELKPDGEHWTFTAEAINIATTFLKSEGIELTPVKVIETELIDQSGAKYGLGSSAAATVAVINALTKFYPEISLKKFKLAALSHLVVQGNGSCGDIASCYGGWIAYTTFDQEWVKHRLAYKSLEWFKEPWPLQIETLEEPVPTFSVGWTGTPVSTGKLVSQIHAFKQEDSKNYQHFLTRNNEIKQIIQAFHTKDEELLYSSIKENRRILQELGTKAGVNIETSLLKELADSAENGGAGKSSGSGGGDCGIAFSKTKELAEKLVNEWEKLGIKHLPFHTGRVQITEG 3k1e-a2-m1-cB_3k1e-a2-m1-cA Crystal structure of odorant binding protein 1 (AaegOBP1) from Aedes aegypti Q6Y2R8 Q6Y2R8 1.85 X-RAY DIFFRACTION 20 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 116 124 3k1e-a1-m1-cB_3k1e-a1-m1-cA YPPPEFLEAMKPLREICIKKTGVTEEAIIEFSDGKVHEDENLKCYMNCLFHEAKVVDDTGHVHLEKLHDALPDSMHDIALHMGKRCLYPEGENLCEKAFWLHKCWKESDPKHYFLI VTPRRDAEYPPPEFLEAMKPLREICIKKTGVTEEAIIEFSDGKVHEDENLKCYMNCLFHEAKVVDDTGHVHLEKLHDALPDSMHDIALHMGKRCLYPEGENLCEKAFWLHKCWKESDPKHYFLI 3k1j-a1-m3-cB_3k1j-a1-m3-cA Crystal structure of Lon protease from Thermococcus onnurineus NA1 B6YU74 B6YU74 2 X-RAY DIFFRACTION 165 0.998 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 561 566 3k1j-a1-m1-cB_3k1j-a1-m1-cA 3k1j-a1-m1-cB_3k1j-a1-m3-cA 3k1j-a1-m2-cB_3k1j-a1-m1-cA 3k1j-a1-m2-cB_3k1j-a1-m2-cA 3k1j-a1-m3-cB_3k1j-a1-m2-cA SLELGIEFTTTEEIEVPEKLIDQVIGQEHAVEVIKTAANQKRHVLLIGEPGTGKSMLGQAMAELLPTETLEDILVFPNPEDENMPRIKTVPACQGRRIVEKYREKAKSQTVLVPKLLVDNCGRTKAPFIDATGAHAGALLGDVRHDPFGTPAHERVEPGMIHRAHKGVLFIDEIATLSLKMQQSLLTAMQEKKFPITGQSEMSSGAMVRTEPVPCDFVLVAAGNLDTVDKMHPALRSRIRGYGYEVYMRTTMPDTIENRRKLVQFVAQEVKRDGKIPHFTKEAVEEIVREAQKRAGRKGHLTLRLRDLGGIVRAAGDIAVKKGKKYVEREDVIEAVKMAKPLEKQLADWYIERKKEYQVIKTEGSEIGRVNGLAVIGEQSGIVLPIEAVVAPAASKEEGKIIVTGKLGEIAKEAVQNVSAIIKRYKGEDISRYDIHVQFLQTYEGVEGDAASISVATAVISALEGIPIRQDVAMTGSLSVRGEVLPIGGATPAIEAAIEAGIKMVIIPKSNEKDVFLSKDKAEKIQIFPVETIDEVLEIALEESEKKRELLRRIRETLPLS GESLELGIEFTTTEEIEVPEKLIDQVIGQEHAVEVIKTAANQKRHVLLIGEPGTGKSMLGQAMAELLPTETLEDILVFPNPEDENMPRIKTVPACQGRRIVEKYREKAKSQESVLVPKLLVDNCGRTKAPFIDATGAHAGALLGDVRHDPFLGTPAHERVEPGMIHRAHKGVLFIDEIATLSLKMQQSLLTAMQEKKFPITGQSEMSSGAMVRTEPVPCDFVLVAAGNLDTVDKMHPALRSRIRGYGYEVYMRTTMPDTIENRRKLVQFVAQEVKRDGKIPHFTKEAVEEIVREAQKRAGRKGHLTLRLRDLGGIVRAAGDIAVKKGKKYVEREDVIEAVKMAKPLEKQLADWYIERKKEYQVIKTEGSEIGRVNGLAVIGEQSGIVLPIEAVVAPAASKEEGKIIVTGKLGEIAKEAVQNVSAIIKRYKGEDISRYDIHVQFLQTYEGVEGDAASISVATAVISALEGIPIRQDVAMTGSLSVRGEVLPIGGATPAIEAAIEAGIKMVIIPKSNEKDVFLSKDKAEKIQIFPVETIDEVLEIALEESEKKRELLRRIRETLPLSL 3k1l-a3-m2-cA_3k1l-a3-m3-cA Crystal Structure of FANCL Q8T913 Q8T913 3.2 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 376 376 3k1l-a3-m1-cA_3k1l-a3-m2-cA 3k1l-a3-m1-cA_3k1l-a3-m3-cA EDVERLLCQKYPGLAAELQPSGACIIRGVLGSEDTWRRLKLYLPHHPALHGFQLYVQESLEYKLYTSANLKLQDDWLLEDFLDHLPKILPAQKAPTVPELCREGNIYYDILALYKSNEYCLQVDEACSMIRFSEFTDFEQHYLELKIPSLLLLDHSLPDCVSLGEMLTKSAGNLEEALNLFRKLLEDLRPFYDNFMDIDELCHVLQPSPISSKHKTRLFPLKDRVYLKLTIADPFACIASMSLKIIGPTEEVARLRHVLSDGLSNWDSEMNIHKNLLRMFDLCYFPMPDWSDGPKLDEEDNEELRCNICFAYRLDGGEVPLVSCDNAKCVLKCHAVCLEEWFKTLMDGKTFLEVSFGQCPFCKAKLSTSFAALLND EDVERLLCQKYPGLAAELQPSGACIIRGVLGSEDTWRRLKLYLPHHPALHGFQLYVQESLEYKLYTSANLKLQDDWLLEDFLDHLPKILPAQKAPTVPELCREGNIYYDILALYKSNEYCLQVDEACSMIRFSEFTDFEQHYLELKIPSLLLLDHSLPDCVSLGEMLTKSAGNLEEALNLFRKLLEDLRPFYDNFMDIDELCHVLQPSPISSKHKTRLFPLKDRVYLKLTIADPFACIASMSLKIIGPTEEVARLRHVLSDGLSNWDSEMNIHKNLLRMFDLCYFPMPDWSDGPKLDEEDNEELRCNICFAYRLDGGEVPLVSCDNAKCVLKCHAVCLEEWFKTLMDGKTFLEVSFGQCPFCKAKLSTSFAALLND 3k1l-a3-m3-cB_3k1l-a3-m2-cA Crystal Structure of FANCL Q8T913 Q8T913 3.2 X-RAY DIFFRACTION 24 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 364 376 3k1l-a3-m1-cB_3k1l-a3-m3-cA 3k1l-a3-m2-cB_3k1l-a3-m1-cA DVERLLCQKYPGLAAELQPSGACIIRGVLGSEDTWRRLKLYLPHHPALHGFQLYVQESLEYKLYTSANLKLQDDWLLEDFLDHLPKILPREGNIYYDILALYKSNEYCLQVDEACSMIRFSEFTDFEQHYLELKIPSLLLLDHSLPDCVSLGEMLTKSAGNLEEALNLFRKLLEDLRPFYDNFMDIDELCHVLQPSPISSKHKTRLFPLKDRVYLKLTIADPFACIASMSLKIIGPTEEVARLRHVLSDGLSNWDSEMNIHKNLLRMFDLCYFPMPDWSDGPKLDEEDNEELRCNICFAYRLDGGEVPLVSCDNAKCVLKCHAVCLEEWFKTLMDGKTFLEVSFGQCPFCKAKLSTSFAALLND EDVERLLCQKYPGLAAELQPSGACIIRGVLGSEDTWRRLKLYLPHHPALHGFQLYVQESLEYKLYTSANLKLQDDWLLEDFLDHLPKILPAQKAPTVPELCREGNIYYDILALYKSNEYCLQVDEACSMIRFSEFTDFEQHYLELKIPSLLLLDHSLPDCVSLGEMLTKSAGNLEEALNLFRKLLEDLRPFYDNFMDIDELCHVLQPSPISSKHKTRLFPLKDRVYLKLTIADPFACIASMSLKIIGPTEEVARLRHVLSDGLSNWDSEMNIHKNLLRMFDLCYFPMPDWSDGPKLDEEDNEELRCNICFAYRLDGGEVPLVSCDNAKCVLKCHAVCLEEWFKTLMDGKTFLEVSFGQCPFCKAKLSTSFAALLND 3k1l-a4-m1-cB_3k1l-a4-m1-cA Crystal Structure of FANCL Q8T913 Q8T913 3.2 X-RAY DIFFRACTION 160 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 364 376 3k1l-a3-m1-cB_3k1l-a3-m1-cA 3k1l-a3-m2-cB_3k1l-a3-m2-cA 3k1l-a3-m3-cB_3k1l-a3-m3-cA DVERLLCQKYPGLAAELQPSGACIIRGVLGSEDTWRRLKLYLPHHPALHGFQLYVQESLEYKLYTSANLKLQDDWLLEDFLDHLPKILPREGNIYYDILALYKSNEYCLQVDEACSMIRFSEFTDFEQHYLELKIPSLLLLDHSLPDCVSLGEMLTKSAGNLEEALNLFRKLLEDLRPFYDNFMDIDELCHVLQPSPISSKHKTRLFPLKDRVYLKLTIADPFACIASMSLKIIGPTEEVARLRHVLSDGLSNWDSEMNIHKNLLRMFDLCYFPMPDWSDGPKLDEEDNEELRCNICFAYRLDGGEVPLVSCDNAKCVLKCHAVCLEEWFKTLMDGKTFLEVSFGQCPFCKAKLSTSFAALLND EDVERLLCQKYPGLAAELQPSGACIIRGVLGSEDTWRRLKLYLPHHPALHGFQLYVQESLEYKLYTSANLKLQDDWLLEDFLDHLPKILPAQKAPTVPELCREGNIYYDILALYKSNEYCLQVDEACSMIRFSEFTDFEQHYLELKIPSLLLLDHSLPDCVSLGEMLTKSAGNLEEALNLFRKLLEDLRPFYDNFMDIDELCHVLQPSPISSKHKTRLFPLKDRVYLKLTIADPFACIASMSLKIIGPTEEVARLRHVLSDGLSNWDSEMNIHKNLLRMFDLCYFPMPDWSDGPKLDEEDNEELRCNICFAYRLDGGEVPLVSCDNAKCVLKCHAVCLEEWFKTLMDGKTFLEVSFGQCPFCKAKLSTSFAALLND 3k1m-a1-m1-cA_3k1m-a1-m1-cB Crystal Structure of full-length BenM, R156H mutant O68014 O68014 2.29 X-RAY DIFFRACTION 63 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 300 305 3k1n-a1-m1-cA_3k1n-a1-m1-cB MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTE MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTEPPNWL 3k1m-a2-m1-cA_3k1m-a2-m2-cA Crystal Structure of full-length BenM, R156H mutant O68014 O68014 2.29 X-RAY DIFFRACTION 106 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 300 300 3k1n-a3-m1-cA_3k1n-a3-m5-cA 3k1p-a2-m1-cB_3k1p-a2-m2-cB MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTE MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTE 3k1m-a2-m1-cA_3k1m-a2-m4-cB Crystal Structure of full-length BenM, R156H mutant O68014 O68014 2.29 X-RAY DIFFRACTION 10 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 300 305 3k1m-a2-m2-cA_3k1m-a2-m3-cB 3k1p-a2-m1-cA_3k1p-a2-m2-cB 3k1p-a2-m1-cB_3k1p-a2-m2-cA MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTE MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTEPPNWL 3k1m-a4-m1-cA_3k1m-a4-m3-cB Crystal Structure of full-length BenM, R156H mutant O68014 O68014 2.29 X-RAY DIFFRACTION 64 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 300 305 3k1m-a2-m1-cA_3k1m-a2-m3-cB 3k1m-a2-m2-cA_3k1m-a2-m4-cB 3k1m-a3-m1-cA_3k1m-a3-m3-cB 3k1m-a3-m5-cA_3k1m-a3-m6-cB 3k1n-a2-m1-cA_3k1n-a2-m3-cB 3k1n-a2-m2-cA_3k1n-a2-m4-cB 3k1n-a3-m1-cA_3k1n-a3-m3-cB 3k1n-a3-m5-cA_3k1n-a3-m6-cB 3k1n-a4-m1-cA_3k1n-a4-m3-cB 3k1p-a1-m1-cA_3k1p-a1-m1-cB 3k1p-a2-m1-cA_3k1p-a2-m1-cB 3k1p-a2-m2-cA_3k1p-a2-m2-cB 3m1e-a1-m1-cA_3m1e-a1-m2-cA 4ihs-a1-m1-cA_4ihs-a1-m1-cB 4ihs-a2-m1-cD_4ihs-a2-m1-cC 4ihs-a3-m1-cA_4ihs-a3-m1-cB 4ihs-a3-m1-cD_4ihs-a3-m1-cC 4iht-a1-m1-cA_4iht-a1-m1-cB 4iht-a2-m1-cC_4iht-a2-m1-cD MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTE MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASVEKTIRIGFVGSLLFGLLPRIIHLYRQAHPNLRIELYEMGTKAQTEALKEGRIDAGFGRLKISDPAIKHTLLRNERLMVAVHASHPLNQMKDKGVHLNDLIDEKILLYPSSPKPNFSTHVMNIFSDHGLEPTKINEVREVQLALGLVAAGEGISLVPASTQSIQLFNLSYVPLLDPDAITPIYIAVRNMEESTYIYSLYETIRQIYAYEGFTEPPNWL 3k1s-a4-m2-cB_3k1s-a4-m2-cC Crystal Structure of the PTS Cellobiose Specific Enzyme IIA from Bacillus anthracis A0A6H3A5D1 A0A6H3A5D1 2.3 X-RAY DIFFRACTION 37 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 100 100 3k1s-a1-m1-cB_3k1s-a1-m1-cA 3k1s-a1-m1-cB_3k1s-a1-m1-cC 3k1s-a1-m1-cC_3k1s-a1-m1-cA 3k1s-a2-m1-cE_3k1s-a2-m1-cD 3k1s-a2-m1-cE_3k1s-a2-m1-cF 3k1s-a2-m1-cF_3k1s-a2-m1-cD 3k1s-a3-m1-cG_3k1s-a3-m1-cH 3k1s-a3-m1-cG_3k1s-a3-m1-cI 3k1s-a3-m1-cH_3k1s-a3-m1-cI 3k1s-a4-m1-cB_3k1s-a4-m1-cA 3k1s-a4-m1-cB_3k1s-a4-m1-cC 3k1s-a4-m1-cC_3k1s-a4-m1-cA 3k1s-a4-m2-cB_3k1s-a4-m2-cA 3k1s-a4-m2-cC_3k1s-a4-m2-cA 3k1s-a5-m1-cE_3k1s-a5-m1-cD 3k1s-a5-m1-cE_3k1s-a5-m1-cF 3k1s-a5-m1-cF_3k1s-a5-m1-cD 3k1s-a5-m3-cG_3k1s-a5-m3-cH 3k1s-a5-m3-cG_3k1s-a5-m3-cI 3k1s-a5-m3-cH_3k1s-a5-m3-cI TTAEQIPFQLILNSGNARSFAEALQFAKQGKAEADEAVKAKEAINEAHHFQTELIQSEARGEKTEISVLLIHAQDHLNAITVKELAAEFIDLYKKLEAKG TTAEQIPFQLILNSGNARSFAEALQFAKQGKAEADEAVKAKEAINEAHHFQTELIQSEARGEKTEISVLLIHAQDHLNAITVKELAAEFIDLYKKLEAKG 3k1s-a4-m2-cC_3k1s-a4-m1-cA Crystal Structure of the PTS Cellobiose Specific Enzyme IIA from Bacillus anthracis A0A6H3A5D1 A0A6H3A5D1 2.3 X-RAY DIFFRACTION 32 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 100 103 3k1s-a4-m1-cC_3k1s-a4-m2-cA 3k1s-a5-m1-cF_3k1s-a5-m3-cH 3k1s-a5-m3-cI_3k1s-a5-m1-cD TTAEQIPFQLILNSGNARSFAEALQFAKQGKAEADEAVKAKEAINEAHHFQTELIQSEARGEKTEISVLLIHAQDHLNAITVKELAAEFIDLYKKLEAKG SNATTAEQIPFQLILNSGNARSFAEALQFAKQGKAEADEAVKAKEAINEAHHFQTELIQSEARGEKTEISVLLIHAQDHLNAITVKELAAEFIDLYKKLEAKG 3k1s-a5-m3-cH_3k1s-a5-m1-cD Crystal Structure of the PTS Cellobiose Specific Enzyme IIA from Bacillus anthracis A0A6H3A5D1 A0A6H3A5D1 2.3 X-RAY DIFFRACTION 13 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 100 103 3k1s-a4-m1-cA_3k1s-a4-m2-cA TTAEQIPFQLILNSGNARSFAEALQFAKQGKAEADEAVKAKEAINEAHHFQTELIQSEARGEKTEISVLLIHAQDHLNAITVKELAAEFIDLYKKLEAKG SNATTAEQIPFQLILNSGNARSFAEALQFAKQGKAEADEAVKAKEAINEAHHFQTELIQSEARGEKTEISVLLIHAQDHLNAITVKELAAEFIDLYKKLEAKG 3k1t-a1-m1-cA_3k1t-a1-m2-cA Crystal structure of Putative gamma-glutamylcysteine synthetase (YP_546622.1) from METHYLOBACILLUS FLAGELLATUS KT at 1.90 A resolution Q1GYA6 Q1GYA6 1.9 X-RAY DIFFRACTION 74 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 414 414 GVPHLTTALTGPLLTLEKRLLDNPRIEHWFRSQWQEYGAPFYASVDLRNAGFKLAPVDTNLFPGGFNNLNPDFLPLCIQAAVAVEKICPDARRLLLIPENHTRNTFYLRNVHALTHILRQAGLEVRIGSIAPEITAPTFLETHDGHSILLEPVRRKANRLELDNFDSCAILLNNDLSGGIPDILQGLEQSLIPPLHAGWATRRKSNHFTAYDRVVEEFAPLIDIDPWLLNPYFDTCGGLDFHARLGEEQLAEKVDSLLAKIRRKYAEYGVKQEPFVIVKADAGTYGGITVKSADDVRDLNRKQRNKSVVKEGLKVSEVILQEGVYTFEHLKDAVAEPVIYDHFVVGGFYRVHTSRGADENLNAPGHFEPLTFETPCSTPDCAGAPDAAPNRFYAYGVVARLALLAATIELQETD GVPHLTTALTGPLLTLEKRLLDNPRIEHWFRSQWQEYGAPFYASVDLRNAGFKLAPVDTNLFPGGFNNLNPDFLPLCIQAAVAVEKICPDARRLLLIPENHTRNTFYLRNVHALTHILRQAGLEVRIGSIAPEITAPTFLETHDGHSILLEPVRRKANRLELDNFDSCAILLNNDLSGGIPDILQGLEQSLIPPLHAGWATRRKSNHFTAYDRVVEEFAPLIDIDPWLLNPYFDTCGGLDFHARLGEEQLAEKVDSLLAKIRRKYAEYGVKQEPFVIVKADAGTYGGITVKSADDVRDLNRKQRNKSVVKEGLKVSEVILQEGVYTFEHLKDAVAEPVIYDHFVVGGFYRVHTSRGADENLNAPGHFEPLTFETPCSTPDCAGAPDAAPNRFYAYGVVARLALLAATIELQETD 3k1y-a1-m1-cB_3k1y-a1-m1-cC X-ray structure of oxidoreductase from corynebacterium diphtheriae. orthorombic crystal form, northeast structural genomics consortium target cdr100d Q6NGS1 Q6NGS1 2.5 X-RAY DIFFRACTION 33 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 174 175 3k1y-a1-m1-cF_3k1y-a1-m1-cA 3k1y-a2-m1-cE_3k1y-a2-m1-cD 3k1y-a2-m2-cE_3k1y-a2-m2-cD 3k20-a1-m1-cA_3k20-a1-m4-cA 3k20-a1-m2-cA_3k20-a1-m3-cA RTLAVISAGLSTPSSTRQIADSISEAVTAAVSARGEALSVSTIELSELIPDLTATTRVHTTKLEEITSALSASDGLVVATPVFKASYTGLFKFFDILDTDALTGPTIIAATAGSARHSLVLDYALRPLLSYRAVVVPTGVFAATEDFGGPEGAEFNKRIARAAGELASLIVEES HRTLAVISAGLSTPSSTRQIADSISEAVTAAVSARGEALSVSTIELSELIPDLTATTRVHTTKLEEITSALSASDGLVVATPVFKASYTGLFKFFDILDTDALTGPTIIAATAGSARHSLVLDYALRPLLSYRAVVVPTGVFAATEDFGGPEGAEFNKRIARAAGELASLIVEES 3k1y-a1-m1-cF_3k1y-a1-m1-cC X-ray structure of oxidoreductase from corynebacterium diphtheriae. orthorombic crystal form, northeast structural genomics consortium target cdr100d Q6NGS1 Q6NGS1 2.5 X-RAY DIFFRACTION 56 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 174 175 3k1y-a1-m1-cB_3k1y-a1-m1-cA 3k1y-a2-m1-cE_3k1y-a2-m2-cD 3k1y-a2-m2-cE_3k1y-a2-m1-cD 3k20-a1-m1-cA_3k20-a1-m2-cA 3k20-a1-m3-cA_3k20-a1-m4-cA RTLAVISAGLSTPSSTRQIADSISEAVTAAVSARGEALSVSTIELSELIPDLTATTRVHTTKLEEITSALSASDGLVVATPVFKASYTGLFKFFDILDTDALTGPTIIAATAGSARHSLVLDYALRPLLSYRAVVVPTGVFAATEDFGGPEGAEFNKRIARAAGELASLIVEES HRTLAVISAGLSTPSSTRQIADSISEAVTAAVSARGEALSVSTIELSELIPDLTATTRVHTTKLEEITSALSASDGLVVATPVFKASYTGLFKFFDILDTDALTGPTIIAATAGSARHSLVLDYALRPLLSYRAVVVPTGVFAATEDFGGPEGAEFNKRIARAAGELASLIVEES 3k20-a1-m2-cA_3k20-a1-m4-cA X-ray structure of oxidoreductase from corynebacterium diphtheriae,hexagonal crystal form. northeast structural genomics consortium target cdr100d Q6NGS1 Q6NGS1 2.5 X-RAY DIFFRACTION 24 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 175 175 3k1y-a1-m1-cB_3k1y-a1-m1-cF 3k1y-a1-m1-cC_3k1y-a1-m1-cA 3k1y-a2-m1-cD_3k1y-a2-m2-cD 3k1y-a2-m1-cE_3k1y-a2-m2-cE 3k20-a1-m1-cA_3k20-a1-m3-cA HRTLAVISAGLSTPSSTRQIADSISEAVTAAVSARGEALSVSTIELSELIPDLTATTRVHTTKLEEITSALSASDGLVVATPVFKASYTGLFKFFDILDTDALTGPTIIAATAGSARHSLVLDYALRPLLSYRAVVVPTGVFAATEDFGGPEGAEFNKRIARAAGELASLIVEES HRTLAVISAGLSTPSSTRQIADSISEAVTAAVSARGEALSVSTIELSELIPDLTATTRVHTTKLEEITSALSASDGLVVATPVFKASYTGLFKFFDILDTDALTGPTIIAATAGSARHSLVLDYALRPLLSYRAVVVPTGVFAATEDFGGPEGAEFNKRIARAAGELASLIVEES 3k21-a1-m1-cA_3k21-a1-m2-cA Crystal Structure of carboxy-terminus of PFC0420w. Q9NJU9 Q9NJU9 1.15 X-RAY DIFFRACTION 123 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 178 178 LYFQGIHVLENFKNYGLLLKFQKLAMTIIAQQSNDYDVEKLKSTFLVLDEDGKGYITKEQLKKGLEKDGLKLPYNFDLLLDQIDSDGSGKIDYTEFIAAALDRKQLSKKLIYCAFRVFDVDNDGEITTAELAHILYNGNKKGNITQRDVNRVKRMIRDVDKNNDGKIDFHEFSEMMKL LYFQGIHVLENFKNYGLLLKFQKLAMTIIAQQSNDYDVEKLKSTFLVLDEDGKGYITKEQLKKGLEKDGLKLPYNFDLLLDQIDSDGSGKIDYTEFIAAALDRKQLSKKLIYCAFRVFDVDNDGEITTAELAHILYNGNKKGNITQRDVNRVKRMIRDVDKNNDGKIDFHEFSEMMKL 3k28-a2-m1-cD_3k28-a2-m1-cC Crystal Structure of a glutamate-1-semialdehyde aminotransferase from Bacillus anthracis with bound Pyridoxal 5'Phosphate Q81LD0 Q81LD0 1.95 X-RAY DIFFRACTION 354 0.995 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 406 408 3k28-a1-m1-cB_3k28-a1-m1-cA RKFDKSIAAFEEAQDLPGGVNSPVRAFKSVGNPLFERGKGSKVYDIDGNEYIDYVLSWGPLIHGHANDRVVEALKAVAERGTSFGAPTEIENKLAKLVIERVPSIEIVRVNSGTEATSALRLARGYTGRNKILKFIGCYHGHGDSLLIKALPDSPGVPEGVAKNTITVAYNDLESVKYAFEQFGDDIACVIVEPVAGNGVVPPQPGFLEGLREVTEQNGALLIFDEVTGFRVAYNCGQGYYGVTPDLTCLGKVIGGGLPVGAYGGKAEIRQVAPSGPIYQAGTLSGNPLAAAGYETLVQLTPESYVEFERKAELEAGLRKAAEKHGIPHHINRAGSIGIFFTDEPVINYDAAKSSNLQFFAAYYREVEQGVFLPPSQFEGLFLSTVHSDADIEATIAAAEIASKLK RKFDKSIAAFEEAQDLPGGVNSPVRAFKSVGNPLFERGKGSKVYDIDGNEYIDYVLSWGPLIHGHANDRVVEALKAVAERGTSFGAPTEIENKLAKLVIERVPSIEIVRVNSGTEATSALRLARGYTGRNKILKFIGCYHGHGDSLLIKAGSGVDSPGVPEGVAKNTITVAYNDLESVKYAFEQFGDDIACVIVEPVAGNGVVPPQPGFLEGLREVTEQNGALLIFDEVTGFRVAYNCGQGYYGVTPDLTCLGKVIGGGLPVGAYGGKAEIRQVAPSGPIYQAGTLSGNPLAAAGYETLVQLTPESYVEFERKAELEAGLRKAAEKHGIPHHINRAGSIGIFFTDEPVINYDAAKSSNLQFFAAYYREVEQGVFLPPSQFEGLFLSTVHSDADIEATIAAAEIASKLK 3k2a-a3-m4-cA_3k2a-a3-m8-cB Crystal structure of the homeobox domain of human homeobox protein Meis2 O14770 O14770 1.95 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 54 3k2a-a3-m1-cA_3k2a-a3-m6-cB 3k2a-a3-m1-cA_3k2a-a3-m7-cB 3k2a-a3-m2-cA_3k2a-a3-m5-cB 3k2a-a3-m2-cA_3k2a-a3-m8-cB 3k2a-a3-m3-cA_3k2a-a3-m5-cB 3k2a-a3-m3-cA_3k2a-a3-m7-cB 3k2a-a3-m4-cA_3k2a-a3-m6-cB 3k2a-a3-m5-cA_3k2a-a3-m2-cB 3k2a-a3-m5-cA_3k2a-a3-m3-cB 3k2a-a3-m6-cA_3k2a-a3-m1-cB 3k2a-a3-m6-cA_3k2a-a3-m4-cB 3k2a-a3-m7-cA_3k2a-a3-m1-cB 3k2a-a3-m7-cA_3k2a-a3-m3-cB 3k2a-a3-m8-cA_3k2a-a3-m2-cB 3k2a-a3-m8-cA_3k2a-a3-m4-cB PKVATNIRAWLFQHLTHPYPSEEQKKQLAQDTGLTILQVNNWFINARRRIVQP FPKVATNIRAWLFQHLTHPYPSEEQKKQLAQDTGLTILQVNNWFINARRRIVQP 3k2a-a3-m4-cB_3k2a-a3-m8-cB Crystal structure of the homeobox domain of human homeobox protein Meis2 O14770 O14770 1.95 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 54 54 3k2a-a3-m1-cA_3k2a-a3-m7-cA 3k2a-a3-m1-cB_3k2a-a3-m6-cB 3k2a-a3-m2-cA_3k2a-a3-m8-cA 3k2a-a3-m2-cB_3k2a-a3-m5-cB 3k2a-a3-m3-cA_3k2a-a3-m5-cA 3k2a-a3-m3-cB_3k2a-a3-m7-cB 3k2a-a3-m4-cA_3k2a-a3-m6-cA FPKVATNIRAWLFQHLTHPYPSEEQKKQLAQDTGLTILQVNNWFINARRRIVQP FPKVATNIRAWLFQHLTHPYPSEEQKKQLAQDTGLTILQVNNWFINARRRIVQP 3k2b-a3-m2-cQ_3k2b-a3-m1-cO Crystal structure of photosynthetic A4 isoform glyceraldehyde-3-phosphate dehydrogenase complexed with NAD, from Arabidopsis thaliana P25856 P25856 2.6 X-RAY DIFFRACTION 24 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 336 337 3k2b-a1-m1-cA_3k2b-a1-m1-cB 3k2b-a1-m1-cD_3k2b-a1-m1-cC 3k2b-a2-m1-cE_3k2b-a2-m1-cF 3k2b-a2-m1-cH_3k2b-a2-m1-cG 3k2b-a3-m1-cQ_3k2b-a3-m2-cO 3qv1-a1-m1-cB_3qv1-a1-m1-cA 3qv1-a1-m1-cD_3qv1-a1-m1-cC 3qv1-a2-m1-cE_3qv1-a2-m1-cF 3qv1-a2-m2-cF_3qv1-a2-m2-cE 3rvd-a1-m1-cA_3rvd-a1-m1-cB 3rvd-a1-m1-cD_3rvd-a1-m1-cC 3rvd-a2-m1-cE_3rvd-a2-m1-cF 3rvd-a2-m1-cH_3rvd-a2-m1-cG 3rvd-a3-m1-cQ_3rvd-a3-m2-cO 3rvd-a3-m2-cQ_3rvd-a3-m1-cO 6kez-a1-m1-cA_6kez-a1-m1-cB 6kez-a1-m1-cD_6kez-a1-m1-cC 6kez-a2-m1-cE_6kez-a2-m1-cF 6kez-a2-m1-cG_6kez-a2-m1-cH KLKVAINGFGRIGRNFLRCWHGRKDSPLDIIAINDTGGVKQASHLLKYDSTLGIFDADVKPSGETAISVDGKIIQVVSNRNPSLLPWKELGIDIVIEGTGVFVDREGAGKHIEAGAKKVIITAPGKGDIPTYVVGVNADAYSHDEPIISNASCTTNCLAPFVKVLDQKFGIIKGTMTTTHSYTGDQRLLDASHRDLRRARAAALNIVPTSTGAAKAVALVLPNLKGKLNGIALRVPTPNVSVVDLVVQVSKKTFAEEVNAAFRDSAEKELKGILDVCDEPLVSVDFRCSDFSTTIDSSLTMVMGDDMVKVIAWYDNEWGYSQRVVDLADIVANNWK AKLKVAINGFGRIGRNFLRCWHGRKDSPLDIIAINDTGGVKQASHLLKYDSTLGIFDADVKPSGETAISVDGKIIQVVSNRNPSLLPWKELGIDIVIEGTGVFVDREGAGKHIEAGAKKVIITAPGKGDIPTYVVGVNADAYSHDEPIISNASCTTNCLAPFVKVLDQKFGIIKGTMTTTHSYTGDQRLLDASHRDLRRARAAALNIVPTSTGAAKAVALVLPNLKGKLNGIALRVPTPNVSVVDLVVQVSKKTFAEEVNAAFRDSAEKELKGILDVCDEPLVSVDFRCSDFSTTIDSSLTMVMGDDMVKVIAWYDNEWGYSQRVVDLADIVANNWK 3k2g-a1-m1-cA_3k2g-a1-m1-cD Crystal structure of a Resiniferatoxin-binding protein from Rhodobacter sphaeroides Q3IVY4 Q3IVY4 1.8 X-RAY DIFFRACTION 23 0.994 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 345 345 3k2g-a1-m1-cB_3k2g-a1-m1-cC SELSPCHVRSGRITVDGPIPSSALGHTLHEHLQNDCRCWWNPPQEPERQYLAEAPISIEILSELRQDPFVNKHNIALDDLDLAIAEVKQFAAVGGRSIVDPTCRGIGRDPVKLRRISAETGVQVVGAGYYLASSPETAARLSADDIADEIVAEALEGTDGTDARIGLIGEIGVSSDFTAEEEKSLRGAARAQVRTGLPLVHLPGWFRLAHRVLDLVEEEGADLRHTVLCHNPSHDPVYQATLAQRGAFLEFDIGDFFYADQGVQCPSDDEVARAILGLADHGYLDRILLSHDVFVKLTRYGGNGYAFVTKHFLPRLRRHGLDDAALETLVTNPRRVFDASIEGHH SLSELSPCHVRSGRITVDGPIPSSALGHTLHEHLQNDCRCWWNPPQEPERQYLAEAPISIEILSELRQDPFVNKHNIALDDLDLAIAEVKQFAAVGGRSIVDPTCRGIGRDPVKLRRISAETGVQVVGAGYYLASSPETAARLSADDIADEIVAEALEGTDGTDARIGLIGEIGVSSDFTAEEEKSLRGAARAQVRTGLPLVHLPGWFRLAHRVLDLVEEEGADLRHTVLCHNPSHDPVYQATLAQRGAFLEFDIGDFFYADQGVQCPSDDEVARAILGLADHGYLDRILLSHDVFVKLTRYGGNGYAFVTKHFLPRLRRHGLDDAALETLVTNPRRVFDASIEG 3k2g-a1-m1-cD_3k2g-a1-m1-cC Crystal structure of a Resiniferatoxin-binding protein from Rhodobacter sphaeroides Q3IVY4 Q3IVY4 1.8 X-RAY DIFFRACTION 60 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 345 346 3k2g-a1-m1-cA_3k2g-a1-m1-cB SLSELSPCHVRSGRITVDGPIPSSALGHTLHEHLQNDCRCWWNPPQEPERQYLAEAPISIEILSELRQDPFVNKHNIALDDLDLAIAEVKQFAAVGGRSIVDPTCRGIGRDPVKLRRISAETGVQVVGAGYYLASSPETAARLSADDIADEIVAEALEGTDGTDARIGLIGEIGVSSDFTAEEEKSLRGAARAQVRTGLPLVHLPGWFRLAHRVLDLVEEEGADLRHTVLCHNPSHDPVYQATLAQRGAFLEFDIGDFFYADQGVQCPSDDEVARAILGLADHGYLDRILLSHDVFVKLTRYGGNGYAFVTKHFLPRLRRHGLDDAALETLVTNPRRVFDASIEG SLSELSPCHVRSGRITVDGPIPSSALGHTLHEHLQNDCRCWWNPPQEPERQYLAEAPISIEILSELRQDPFVNKHNIALDDLDLAIAEVKQFAAVGGRSIVDPTCRGIGRDPVKLRRISAETGVQVVGAGYYLASSPETAARLSADDIADEIVAEALEGTDGTDARIGLIGEIGVSSDFTAEEEKSLRGAARAQVRTGLPLVHLPGWFRLAHRVLDLVEEEGADLRHTVLCHNPSHDPVYQATLAQRGAFLEFDIGDFFYADQGVQCPSDDEVARAILGLADHGYLDRILLSHDVFVKLTRYGGNGYAFVTKHFLPRLRRHGLDDAALETLVTNPRRVFDASIEGH 3k2i-a3-m1-cA_3k2i-a3-m1-cB Human Acyl-coenzyme A thioesterase 4 Q8N9L9 Q8N9L9 2.4 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 405 405 ATLILEPCCWNEPVRIAVRGLAPEQRVTLRASLRDEKGALFRAHARYCADACGELDLERAPALGGSFAGLEPMGLLWALEPEKPFWRFLKRDVQIPFVVELEVLDGHDPEPGRLLCQAQHERHFLPPGVWRQSVRAGRVRATLFLPPGPGPFPGIIDIFGIGGGLLEYRASLLAGHGFATLALAYYNFEDLPNNMDNISLEYFEEAVCYMLQHPQVKGPGIGLLGISLGADICLSMASFLKNVSATVSINGSGISGNTAINYKHSSIPPLGYDLRRIKVAFSGLVDIVDIRNALVGGYKNPSMIPIEKAQGPILLIVGQDDHNWRSELYAQTVSERLQAHGKEKPQIICYPGTGHYIEPPYFPLCPASLHRLLNKHVIWGGEPRAHSKAQEDAWKQILAFFCKHL ATLILEPCCWNEPVRIAVRGLAPEQRVTLRASLRDEKGALFRAHARYCADACGELDLERAPALGGSFAGLEPMGLLWALEPEKPFWRFLKRDVQIPFVVELEVLDGHDPEPGRLLCQAQHERHFLPPGVWRQSVRAGRVRATLFLPPGPGPFPGIIDIFGIGGGLLEYRASLLAGHGFATLALAYYNFEDLPNNMDNISLEYFEEAVCYMLQHPQVKGPGIGLLGISLGADICLSMASFLKNVSATVSINGSGISGNTAINYKHSSIPPLGYDLRRIKVAFSGLVDIVDIRNALVGGYKNPSMIPIEKAQGPILLIVGQDDHNWRSELYAQTVSERLQAHGKEKPQIICYPGTGHYIEPPYFPLCPASLHRLLNKHVIWGGEPRAHSKAQEDAWKQILAFFCKHL 3k2j-a3-m1-cA_3k2j-a3-m1-cB Crystal Structure of the 3rd Bromodomain of Human Poly-bromodomain containing protein 1 (PB1) Q86U86 Q86U86 2.2 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 GVDLGTENLYFQSMQLYDTVRSCRNNQGQLIAEPFYHLPSKKKYPDYYQQIKMPISLQQIRTKLKNQEYETLDHLECDLNLMFENAKRYNVPNSAIYKRVLKLQQVMQAKKKELARRDDIE GVDLGTENLYFQSMQLYDTVRSCRNNQGQLIAEPFYHLPSKKKYPDYYQQIKMPISLQQIRTKLKNQEYETLDHLECDLNLMFENAKRYNVPNSAIYKRVLKLQQVMQAKKKELARRDDIE 3k2k-a1-m1-cA_3k2k-a1-m4-cA Crystal structure of putative carboxypeptidase (YP_103406.1) from BURKHOLDERIA MALLEI ATCC 23344 at 2.49 A resolution A0A0H2WJQ2 A0A0H2WJQ2 2.49 X-RAY DIFFRACTION 63 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 376 376 3k2k-a1-m2-cA_3k2k-a1-m3-cA HENLYFQGTLSITSNFDAGAIDVVSCERADAIRLRVRGDNRSEFAQWFYFRLTGARGERCVTFENANDCAYPAGWRDYRAVASYDRVNWFRVPTSYDGQLTIDHTPEFDSIHYAYFEPYSEERHSEFLGAVQQPQASVVELGRTVEGRPSLVVLGTPDAKKKVWIIARQHPGESAEWFIEGLVKRLVGWGDWSGDPVARKLYDHATFYIVPNNPDGSVHGNLRTNAAGANLNREWEPDAERSPEVLVVRDAIHAIGCDLFFDIHGDEDLPYVFAAGSELPGFTEQQRVEQSAFIDSFKRASPDFQDEHGYPPGKYREDAFKLASKYIGHRFGCLSLTLEPFKDNANLPDEHIGWNGARSASLGAALGAILEHVRAF HENLYFQGTLSITSNFDAGAIDVVSCERADAIRLRVRGDNRSEFAQWFYFRLTGARGERCVTFENANDCAYPAGWRDYRAVASYDRVNWFRVPTSYDGQLTIDHTPEFDSIHYAYFEPYSEERHSEFLGAVQQPQASVVELGRTVEGRPSLVVLGTPDAKKKVWIIARQHPGESAEWFIEGLVKRLVGWGDWSGDPVARKLYDHATFYIVPNNPDGSVHGNLRTNAAGANLNREWEPDAERSPEVLVVRDAIHAIGCDLFFDIHGDEDLPYVFAAGSELPGFTEQQRVEQSAFIDSFKRASPDFQDEHGYPPGKYREDAFKLASKYIGHRFGCLSLTLEPFKDNANLPDEHIGWNGARSASLGAALGAILEHVRAF 3k2k-a1-m3-cA_3k2k-a1-m4-cA Crystal structure of putative carboxypeptidase (YP_103406.1) from BURKHOLDERIA MALLEI ATCC 23344 at 2.49 A resolution A0A0H2WJQ2 A0A0H2WJQ2 2.49 X-RAY DIFFRACTION 140 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 376 376 3k2k-a1-m1-cA_3k2k-a1-m2-cA HENLYFQGTLSITSNFDAGAIDVVSCERADAIRLRVRGDNRSEFAQWFYFRLTGARGERCVTFENANDCAYPAGWRDYRAVASYDRVNWFRVPTSYDGQLTIDHTPEFDSIHYAYFEPYSEERHSEFLGAVQQPQASVVELGRTVEGRPSLVVLGTPDAKKKVWIIARQHPGESAEWFIEGLVKRLVGWGDWSGDPVARKLYDHATFYIVPNNPDGSVHGNLRTNAAGANLNREWEPDAERSPEVLVVRDAIHAIGCDLFFDIHGDEDLPYVFAAGSELPGFTEQQRVEQSAFIDSFKRASPDFQDEHGYPPGKYREDAFKLASKYIGHRFGCLSLTLEPFKDNANLPDEHIGWNGARSASLGAALGAILEHVRAF HENLYFQGTLSITSNFDAGAIDVVSCERADAIRLRVRGDNRSEFAQWFYFRLTGARGERCVTFENANDCAYPAGWRDYRAVASYDRVNWFRVPTSYDGQLTIDHTPEFDSIHYAYFEPYSEERHSEFLGAVQQPQASVVELGRTVEGRPSLVVLGTPDAKKKVWIIARQHPGESAEWFIEGLVKRLVGWGDWSGDPVARKLYDHATFYIVPNNPDGSVHGNLRTNAAGANLNREWEPDAERSPEVLVVRDAIHAIGCDLFFDIHGDEDLPYVFAAGSELPGFTEQQRVEQSAFIDSFKRASPDFQDEHGYPPGKYREDAFKLASKYIGHRFGCLSLTLEPFKDNANLPDEHIGWNGARSASLGAALGAILEHVRAF 3k2n-a1-m1-cA_3k2n-a1-m1-cB The crystal structure of sigma-54-dependent transcriptional regulator domain from Chlorobium Tepidum TLS Q8KG60 Q8KG60 2.5 X-RAY DIFFRACTION 94 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 174 174 6oei-a1-m1-cA_6oei-a1-m2-cA SNAALKLQYIGDAIGTIRDPQELFRTVTDKLRLLFAFDSAVIITIDRERREASVFFELRFELPEQLRHQTRSIAGTWLEGHLDDRTVTVASIARDIPSFGADGAPLLWTLHELGRQIVLSPLRSGGRVIGFLSFVSAEEKLWSDGDKSLLSGVSSSIAIAVSNALAYEELRQRE SNAALKLQYIGDAIGTIRDPQELFRTVTDKLRLLFAFDSAVIITIDRERREASVFFELRFELPEQLRHQTRSIAGTWLEGHLDDRTVTVASIARDIPSFGADGAPLLWTLHELGRQIVLSPLRSGGRVIGFLSFVSAEEKLWSDGDKSLLSGVSSSIAIAVSNALAYEELRQRE 3k2o-a1-m1-cA_3k2o-a1-m1-cB Structure of an oxygenase Q6NYC1 Q6NYC1 1.75 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 331 6gdy-a1-m1-cA_6gdy-a1-m1-cB HNHKSKKRIREAKRSARPELKDSLDWTRHNYYESFSLSPAAVADNVERADALQLSVEEFVERYERPYKPVVLLNAQEGWSAQEKWTLERLKRKYRNQKFKCGEDNDGYSVKKKYYIEYESTRDDSPLYIFDSSYGEHPKRRKLLEDYKVPKFFTDDLFQYAGEKRRPPYRWFVGPPRSGTGIHIDPLGTSAWNALVQGHKRWCLFPTSTPRELIKVTRDEGGNQQDEAITWFNVIYPRTQLPTWPPEFKPLEILQKPGETVFVPGGWWHVVLNLDTTIAITQNFASSTNFPVVWHKTVRGRPKLSRKWYRILKQEHPELAVLADSVDLQE HNHKSKKRIREAKRSARPELKDSLDWTRHNYYESFSLSPAAVADNVERADALQLSVEEFVERYERPYKPVVLLNAQEGWSAQEKWTLERLKRKYRNQKFKCGEDNDGYSVKKKYYIEYESTRDDSPLYIFDSSYGEHPKRRKLLEDYKVPKFFTDDLFQYAGEKRRPPYRWFVGPPRSGTGIHIDPLGTSAWNALVQGHKRWCLFPTSTPRELIKVTRDEGGNQQDEAITWFNVIYPRTQLPTWPPEFKPLEILQKPGETVFVPGGWWHVVLNLDTTIAITQNFASSTNFPVVWHKTVRGRPKLSRKWYRILKQEHPELAVLADSVDLQES 3k2q-a2-m1-cB_3k2q-a2-m1-cC Crystal structure of Pyrophosphate-dependent phosphofructokinase from Marinobacter aquaeolei, NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET MqR88 A1U3A9 A1U3A9 2.5 X-RAY DIFFRACTION 190 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 392 392 3k2q-a1-m1-cA_3k2q-a1-m2-cA IKNAFYAQSGGVTAVINASACGVIQTARKHPDQIGKVYAGRNGIIGALKEELIDTSLESDDAIQALIHTPGGAFGSCRYKREYERLIEVFRAHDIGYFFYNGGGDSQDTAYKVSQLADRMGYPITCIGVPKTVDNDLPFTDCCPGFGSVAKYIATSTLEASLDIKSMCETSTKVFILEVMGRHAGWIAAAGGLAGQSEGEPPHVILFPEIPFNREKFLERVDQCVRDYGYCVVVASEGAQYERFGVAPALANMVKQALGHKYHWAVADYLQRAARHIASATDVEQAYAVGKAAVEMALAGKQALMPTIVRDQAKPYRWSIGEANLSEVANQEKKMPIHYITDNGFGITQDCRDYLQPLIAGESFPPFDDGLPRVAKLKNQLVEKKLRTEFEL IKNAFYAQSGGVTAVINASACGVIQTARKHPDQIGKVYAGRNGIIGALKEELIDTSLESDDAIQALIHTPGGAFGSCRYKREYERLIEVFRAHDIGYFFYNGGGDSQDTAYKVSQLADRMGYPITCIGVPKTVDNDLPFTDCCPGFGSVAKYIATSTLEASLDIKSMCETSTKVFILEVMGRHAGWIAAAGGLAGQSEGEPPHVILFPEIPFNREKFLERVDQCVRDYGYCVVVASEGAQYERFGVAPALANMVKQALGHKYHWAVADYLQRAARHIASATDVEQAYAVGKAAVEMALAGKQALMPTIVRDQAKPYRWSIGEANLSEVANQEKKMPIHYITDNGFGITQDCRDYLQPLIAGESFPPFDDGLPRVAKLKNQLVEKKLRTEFEL 3k2s-a1-m1-cA_3k2s-a1-m1-cB Solution structure of double super helix model P02647 P02647 NOT SOLUTION SCATTERING 242 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 243 DEPPQSPWDRVKDLATVYVDVLKDSGRDYVSQFEGSALGKQLNLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ DEPPQSPWDRVKDLATVYVDVLKDSGRDYVSQFEGSALGKQLNLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 3k2v-a1-m1-cB_3k2v-a1-m1-cA Structure of the CBS pair of a putative D-arabinose 5-phosphate isomerase from Klebsiella pneumoniae subsp. pneumoniae. A6TEL6 A6TEL6 1.95 X-RAY DIFFRACTION 60 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 121 123 ALGRKLLLRVNDIHTGDEIPHVGLQATLRDALLEITRKNLGTAICDDDNIIGIFTDGDLRRVFDTGVDRDASIADVTRGGIRIRPGTLAVDALNLQSRHITCVLVADGDHLLGVVHHDLLR GALGRKLLLRVNDIHTGDEIPHVGLQATLRDALLEITRKNLGTAICDDDNIIGIFTDGDLRRVFDTGVDRDASIADVTRGGIRIRPGTLAVDALNLQSRHITCVLVADGDHLLGVVHHDLLRA 3k2w-a2-m1-cF_3k2w-a2-m1-cG CRYSTAL STRUCTURE OF betaine-aldehyde dehydrogenase FROM Pseudoalteromonas atlantica T6c 1.9 X-RAY DIFFRACTION 31 1.0 342610 () 342610 () 483 484 3k2w-a1-m1-cA_3k2w-a1-m1-cD 3k2w-a1-m1-cC_3k2w-a1-m1-cB 3k2w-a2-m1-cE_3k2w-a2-m1-cH DLHFKNKVNFIGGQYVPSNESDTIDILSPSTGKVIGEIPAGCKADAENALEVAQAAQKAWAKLTARTRQNMLRTFANKIRENKHILAPMLVAEQGKLLSVAEMEVDVTATFIDYGCDNALTIEGDILPSDNQDEKIYIHKVPRGVVVGITAWNFPLALAGRKIGPALITGNTMVLKPTQETPLATTELGRIAKEAGLPDGVLNVINGTGSVVGQTLCESPITKMITMTGSTVAGKQIYKTSAEYMTPVMLELGGKAPMVVMDDADLDKAAEDALWGRFANCGQVCTCVERLYVHASVYDEFMAKFLPLVKGLKVGDPMDADSQMGPKCNQREIDNIDHIVHEAIKQGATVATGGKTATVEGFEGGCWYEPTVLVDVKQDNIVVHEETFGPILPIVKVSSMEQAIEFCNDSIYGLSAYVHTQSFANINQAISDLEVGEVYINRGMGEQHQGFHNGWKQSGFGGEDGKFGLEQYLEKKTVYINEA DLHFKNKVNFIGGQYVPSNESDTIDILSPSTGKVIGEIPAGCKADAENALEVAQAAQKAWAKLTARTRQNMLRTFANKIRENKHILAPMLVAEQGKLLSVAEMEVDVTATFIDYGCDNALTIEGDILPSDNQDEKIYIHKVPRGVVVGITAWNFPLALAGRKIGPALITGNTMVLKPTQETPLATTELGRIAKEAGLPDGVLNVINGTGSVVGQTLCESPITKMITMTGSTVAGKQIYKTSAEYMTPVMLELGGKAPMVVMDDADLDKAAEDALWGRFANCGQVCTCVERLYVHASVYDEFMAKFLPLVKGLKVGDPMDADSQMGPKCNQREIDNIDHIVHEAIKQGATVATGGKTATVEGFEGGCWYEPTVLVDVKQDNIVVHEETFGPILPIVKVSSMEQAIEFCNDSIYGLSAYVHTQSFANINQAISDLEVGEVYINRGMGEQHQGFHNGWKQSGFGGEDGKFGLEQYLEKKTVYINEAE 3k2w-a2-m1-cF_3k2w-a2-m1-cH CRYSTAL STRUCTURE OF betaine-aldehyde dehydrogenase FROM Pseudoalteromonas atlantica T6c 1.9 X-RAY DIFFRACTION 142 1.0 342610 () 342610 () 483 486 3k2w-a1-m1-cA_3k2w-a1-m1-cC 3k2w-a1-m1-cD_3k2w-a1-m1-cB 3k2w-a2-m1-cG_3k2w-a2-m1-cE DLHFKNKVNFIGGQYVPSNESDTIDILSPSTGKVIGEIPAGCKADAENALEVAQAAQKAWAKLTARTRQNMLRTFANKIRENKHILAPMLVAEQGKLLSVAEMEVDVTATFIDYGCDNALTIEGDILPSDNQDEKIYIHKVPRGVVVGITAWNFPLALAGRKIGPALITGNTMVLKPTQETPLATTELGRIAKEAGLPDGVLNVINGTGSVVGQTLCESPITKMITMTGSTVAGKQIYKTSAEYMTPVMLELGGKAPMVVMDDADLDKAAEDALWGRFANCGQVCTCVERLYVHASVYDEFMAKFLPLVKGLKVGDPMDADSQMGPKCNQREIDNIDHIVHEAIKQGATVATGGKTATVEGFEGGCWYEPTVLVDVKQDNIVVHEETFGPILPIVKVSSMEQAIEFCNDSIYGLSAYVHTQSFANINQAISDLEVGEVYINRGMGEQHQGFHNGWKQSGFGGEDGKFGLEQYLEKKTVYINEA DLHFKNKVNFIGGQYVPSNESDTIDILSPSTGKVIGEIPAGCKADAENALEVAQAAQKAWAKLTARTRQNMLRTFANKIRENKHILAPMLVAEQGKLLSVAEMEVDVTATFIDYGCDNALTIEGDILPSDNQDEKIYIHKVPRGVVVGITAWNFPLALAGRKIGPALITGNTMVLKPTQETPLATTELGRIAKEAGLPDGVLNVINGTGSVVGQTLCESPITKMITMTGSTVAGKQIYKTSAEYMTPVMLELGGKAPMVVMDDADLDKAAEDALWGRFANCGQVCTCVERLYVHASVYDEFMAKFLPLVKGLKVGDPMDADSQMGPKCNQREIDNIDHIVHEAIKQGATVATGGKTATVEGFEGGCWYEPTVLVDVKQDNIVVHEETFGPILPIVKVSSMEQAIEFCNDSIYGLSAYVHTQSFANINQAISDLEVGEVYINRGMGEQHQGFHNGWKQSGFGGEDGKFGLEQYLEKKTVYINEAEGH 3k2w-a2-m1-cG_3k2w-a2-m1-cH CRYSTAL STRUCTURE OF betaine-aldehyde dehydrogenase FROM Pseudoalteromonas atlantica T6c 1.9 X-RAY DIFFRACTION 64 1.0 342610 () 342610 () 484 486 3k2w-a1-m1-cA_3k2w-a1-m1-cB 3k2w-a1-m1-cD_3k2w-a1-m1-cC 3k2w-a2-m1-cF_3k2w-a2-m1-cE DLHFKNKVNFIGGQYVPSNESDTIDILSPSTGKVIGEIPAGCKADAENALEVAQAAQKAWAKLTARTRQNMLRTFANKIRENKHILAPMLVAEQGKLLSVAEMEVDVTATFIDYGCDNALTIEGDILPSDNQDEKIYIHKVPRGVVVGITAWNFPLALAGRKIGPALITGNTMVLKPTQETPLATTELGRIAKEAGLPDGVLNVINGTGSVVGQTLCESPITKMITMTGSTVAGKQIYKTSAEYMTPVMLELGGKAPMVVMDDADLDKAAEDALWGRFANCGQVCTCVERLYVHASVYDEFMAKFLPLVKGLKVGDPMDADSQMGPKCNQREIDNIDHIVHEAIKQGATVATGGKTATVEGFEGGCWYEPTVLVDVKQDNIVVHEETFGPILPIVKVSSMEQAIEFCNDSIYGLSAYVHTQSFANINQAISDLEVGEVYINRGMGEQHQGFHNGWKQSGFGGEDGKFGLEQYLEKKTVYINEAE DLHFKNKVNFIGGQYVPSNESDTIDILSPSTGKVIGEIPAGCKADAENALEVAQAAQKAWAKLTARTRQNMLRTFANKIRENKHILAPMLVAEQGKLLSVAEMEVDVTATFIDYGCDNALTIEGDILPSDNQDEKIYIHKVPRGVVVGITAWNFPLALAGRKIGPALITGNTMVLKPTQETPLATTELGRIAKEAGLPDGVLNVINGTGSVVGQTLCESPITKMITMTGSTVAGKQIYKTSAEYMTPVMLELGGKAPMVVMDDADLDKAAEDALWGRFANCGQVCTCVERLYVHASVYDEFMAKFLPLVKGLKVGDPMDADSQMGPKCNQREIDNIDHIVHEAIKQGATVATGGKTATVEGFEGGCWYEPTVLVDVKQDNIVVHEETFGPILPIVKVSSMEQAIEFCNDSIYGLSAYVHTQSFANINQAISDLEVGEVYINRGMGEQHQGFHNGWKQSGFGGEDGKFGLEQYLEKKTVYINEAEGH 3k2y-a2-m1-cD_3k2y-a2-m1-cB Crystal structure of protein lp_0118 from Lactobacillus plantarum,northeast structural genomics consortium target LpR91B F9USU1 F9USU1 2.4 X-RAY DIFFRACTION 28 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 101 103 3k2y-a1-m1-cC_3k2y-a1-m1-cA DAAVALDTVTVVGERYVDDIVATLTTLRVGMAVLLQRESGNQYDDNAISVWTLQHAKLGYIARYQNQPYATLMDQGQRLYGIVTVLDQQKQHLELMLWRLE TGDAAVALDTVTVVGERYVDDIVATLTTLRVGMAVLLQRESGNQYDDNAISVWTLQHAKLGYIARYQNQPYATLMDQGQRLYGIVTVLDQQKQHLELMLWRLE 3k2z-a1-m1-cA_3k2z-a1-m1-cB Crystal structure of a LexA protein from Thermotoga maritima O33927 O33927 1.37 X-RAY DIFFRACTION 52 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 192 195 DLTERQRKVLLFIEEFIEKNGYPPSVREIARRFRITPRGALLHLIALEKKGYIERKPRALRISKSIRNKIPLIGEIRAGEKREAIEYLEDYIEIPESFLSSGYDHFLLKVKGESMIEEHICDGDLVLVRRQDWAQNGDIVAAMVDGEVTLAKFYQRGDTVELRPANREMSSMFFRAEKVKILGKVVGVFRKL DLTERQRKVLLFIEEFIEKNGYPPSVREIARRFRITPRGALLHLIALEKKGYIERKNGKPRALRISKSIRNKIPLIGEIRAGEKREAIEYLEDYIEIPESFLSSGYDHFLLKVKGESMIEEHICDGDLVLVRRQDWAQNGDIVAAMVDGEVTLAKFYQRGDTVELRPANREMSSMFFRAEKVKILGKVVGVFRKL 3k30-a1-m1-cA_3k30-a1-m1-cB Histamine dehydrogenase from Nocardiodes simplex Q6IWJ5 Q6IWJ5 2.7 X-RAY DIFFRACTION 239 1.0 2045 (Pimelobacter simplex) 2045 (Pimelobacter simplex) 684 684 VAAPYDVLFEPVQIGPFTTKNRFYQVPHCNGMGYRDPSAQASMRKIKAEGGWSAVCTEQVEIHATSDIAPFIELRIWDDQDLPALKRIADAIHEGGGLAGIELAHNGMNAPNQLSRETPLGPGHLPVAPDTIAPIQARAMTKQDIDDLRRWHRNAVRRSIEAGYDIVYVYGAHGYSGVHHFLSKRYNQRTDEYGGSLENRMRLLRELLEDTLDECAGRAAVACRITVEEEIDGGITREDIEGVLRELGELPDLWDFAMGSWEGDSVTSRFAPEGRQEEFVAGLKKLTTKPVVGVGRFTSPDAMVRQIKAGILDLIGAARPSIADPFLPNKIRDGRLNLIRECIGCNICVSGDLTMSPIRCTQNPSMGEEWRRGWHPERIRAKESDARVLVVGAGPSGLEAARALGVRGYDVVLAEAGRDLGGRVTQESALPGLSAWGRVKEYREAVLAELPNVEIYRESPMTGDDIVEFGFEHVITATGATWRTDGVARFHTTALPIAEGMQVLGPDDLFAGRLPDGKKVVVYDDDHYYLGGVVAELLAQKGYEVSIVTPGAQVSSWTNNTFEVNRIQRRLIENGVARVTDHAVVAVGAGGVTVRDTYASIERELECDAVVMVTARLPREELYLDLVARRDAGEIASVRGIGDAWAPGTIAAAVWSGRRAAEEFDAVLPSNDEVPFRREVTQLA VAAPYDVLFEPVQIGPFTTKNRFYQVPHCNGMGYRDPSAQASMRKIKAEGGWSAVCTEQVEIHATSDIAPFIELRIWDDQDLPALKRIADAIHEGGGLAGIELAHNGMNAPNQLSRETPLGPGHLPVAPDTIAPIQARAMTKQDIDDLRRWHRNAVRRSIEAGYDIVYVYGAHGYSGVHHFLSKRYNQRTDEYGGSLENRMRLLRELLEDTLDECAGRAAVACRITVEEEIDGGITREDIEGVLRELGELPDLWDFAMGSWEGDSVTSRFAPEGRQEEFVAGLKKLTTKPVVGVGRFTSPDAMVRQIKAGILDLIGAARPSIADPFLPNKIRDGRLNLIRECIGCNICVSGDLTMSPIRCTQNPSMGEEWRRGWHPERIRAKESDARVLVVGAGPSGLEAARALGVRGYDVVLAEAGRDLGGRVTQESALPGLSAWGRVKEYREAVLAELPNVEIYRESPMTGDDIVEFGFEHVITATGATWRTDGVARFHTTALPIAEGMQVLGPDDLFAGRLPDGKKVVVYDDDHYYLGGVVAELLAQKGYEVSIVTPGAQVSSWTNNTFEVNRIQRRLIENGVARVTDHAVVAVGAGGVTVRDTYASIERELECDAVVMVTARLPREELYLDLVARRDAGEIASVRGIGDAWAPGTIAAAVWSGRRAAEEFDAVLPSNDEVPFRREVTQLA 3k31-a2-m1-cA_3k31-a2-m2-cA Crystal structure of eonyl-(acyl-carrier-protein) reductase from anaplasma phagocytophilum in complex with nad at 1.9a resolution Q2GKM8 Q2GKM8 1.8 X-RAY DIFFRACTION 119 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 262 262 3k2e-a1-m1-cA_3k2e-a1-m2-cA 3k2e-a1-m1-cB_3k2e-a1-m2-cB 3k31-a2-m1-cB_3k31-a2-m2-cB SMRTGMLMEGKKGVIIGVANDKSLAWGIAKAVCAQGAEVALTYLSETFKKRVDPLAESLGVKLTVPCDVSDAESVDNMFKVLAEEWGSLDFVVHAVAFSDKNELKGRYVDTSLGNFLTSMHISCYSFTYIASKAEPLMTNGGSILTLSYYGAEKVVPHYNVMGVCKAALEASVKYLAVDLGKQQIRVNAISAGPVRTLASSGISDFHYILTWNKYNSPLRRNTTLDDVGGAALYLLSDLGRGTTGETVHVDCGYHVVGMKSV SMRTGMLMEGKKGVIIGVANDKSLAWGIAKAVCAQGAEVALTYLSETFKKRVDPLAESLGVKLTVPCDVSDAESVDNMFKVLAEEWGSLDFVVHAVAFSDKNELKGRYVDTSLGNFLTSMHISCYSFTYIASKAEPLMTNGGSILTLSYYGAEKVVPHYNVMGVCKAALEASVKYLAVDLGKQQIRVNAISAGPVRTLASSGISDFHYILTWNKYNSPLRRNTTLDDVGGAALYLLSDLGRGTTGETVHVDCGYHVVGMKSV 3k31-a2-m2-cB_3k31-a2-m1-cA Crystal structure of eonyl-(acyl-carrier-protein) reductase from anaplasma phagocytophilum in complex with nad at 1.9a resolution Q2GKM8 Q2GKM8 1.8 X-RAY DIFFRACTION 46 0.981 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 260 262 3k2e-a1-m1-cB_3k2e-a1-m2-cA 3k2e-a1-m2-cB_3k2e-a1-m1-cA 3k31-a2-m1-cB_3k31-a2-m2-cA SMRTGMLMEGKKGVIIGVANDKSLAWGIAKAVCAQGAEVALTYLSETFKKRVDPLAESLGVKLTVPCDVSDAESVDNMFKVLAEEWGSLDFVVHAVAFSDKNELKGRYVDTSLGNFLTSMHISCYSFTYIASKAEPLMTNGGSILTLSYYGAEKVVPHYNVMGVCKAALEASVKYLAVDLGKQQIRVNAISAGPVRSDFHYILTWNKYNSPLRRNTTLDDVGGAALYLLSDLGRGTTGETVHVDCGYHVVGMKSVDAPDI SMRTGMLMEGKKGVIIGVANDKSLAWGIAKAVCAQGAEVALTYLSETFKKRVDPLAESLGVKLTVPCDVSDAESVDNMFKVLAEEWGSLDFVVHAVAFSDKNELKGRYVDTSLGNFLTSMHISCYSFTYIASKAEPLMTNGGSILTLSYYGAEKVVPHYNVMGVCKAALEASVKYLAVDLGKQQIRVNAISAGPVRTLASSGISDFHYILTWNKYNSPLRRNTTLDDVGGAALYLLSDLGRGTTGETVHVDCGYHVVGMKSV 3k31-a2-m2-cB_3k31-a2-m2-cA Crystal structure of eonyl-(acyl-carrier-protein) reductase from anaplasma phagocytophilum in complex with nad at 1.9a resolution Q2GKM8 Q2GKM8 1.8 X-RAY DIFFRACTION 106 0.981 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 260 262 3k2e-a1-m1-cB_3k2e-a1-m1-cA 3k2e-a1-m2-cB_3k2e-a1-m2-cA 3k2e-a2-m1-cB_3k2e-a2-m1-cA 3k31-a1-m1-cB_3k31-a1-m1-cA 3k31-a2-m1-cB_3k31-a2-m1-cA SMRTGMLMEGKKGVIIGVANDKSLAWGIAKAVCAQGAEVALTYLSETFKKRVDPLAESLGVKLTVPCDVSDAESVDNMFKVLAEEWGSLDFVVHAVAFSDKNELKGRYVDTSLGNFLTSMHISCYSFTYIASKAEPLMTNGGSILTLSYYGAEKVVPHYNVMGVCKAALEASVKYLAVDLGKQQIRVNAISAGPVRSDFHYILTWNKYNSPLRRNTTLDDVGGAALYLLSDLGRGTTGETVHVDCGYHVVGMKSVDAPDI SMRTGMLMEGKKGVIIGVANDKSLAWGIAKAVCAQGAEVALTYLSETFKKRVDPLAESLGVKLTVPCDVSDAESVDNMFKVLAEEWGSLDFVVHAVAFSDKNELKGRYVDTSLGNFLTSMHISCYSFTYIASKAEPLMTNGGSILTLSYYGAEKVVPHYNVMGVCKAALEASVKYLAVDLGKQQIRVNAISAGPVRTLASSGISDFHYILTWNKYNSPLRRNTTLDDVGGAALYLLSDLGRGTTGETVHVDCGYHVVGMKSV 3k32-a3-m1-cE_3k32-a3-m1-cF The crystal structure of predicted subunit of tRNA methyltransferase from Methanocaldococcus jannaschii DSM Q58102 Q58102 2.5 X-RAY DIFFRACTION 45 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 187 189 3k32-a1-m1-cA_3k32-a1-m1-cB 3k32-a2-m1-cD_3k32-a2-m1-cC DVHVLFSGGKDSSLSAVILKKLGYNPHLITINFGVIPSYKLAEETAKILGFKHKVITLDRKIVEKAADIIEHKYPGPAIQYVHKTVLEILADEYSILADGTRRDDRVPKLSYSEIQSLERKNIQYITPLGFGYKTLRHLASEFFILEEISSDYEAEIRHILKERGESPEKYFPEHKQTRVVGLKKEI LDVHVLFSGGKDSSLSAVILKKLGYNPHLITINFGVIPSYKLAEETAKILGFKHKVITLDRKIVEKAADIIEHKYPGPAIQYVHKTVLEILADEYSILADGTRRDDRVPKLSYSEIQSLERKNIQYITPLGFGYKTLRHLASEFFILEEIKSSDYEAEIRHILKERGESPEKYFPEHKQTRVVGLKKEI 3k33-a1-m2-cD_3k33-a1-m2-cC Crystal structure of the Phd-Doc complex Q06253 Q06253 2.4 X-RAY DIFFRACTION 96 1.0 10678 (Punavirus P1) 10678 (Punavirus P1) 71 73 3hry-a1-m1-cB_3hry-a1-m1-cA 3hs2-a1-m1-cA_3hs2-a1-m1-cB 3hs2-a2-m1-cD_3hs2-a2-m1-cC 3hs2-a3-m1-cE_3hs2-a3-m1-cF 3hs2-a4-m1-cG_3hs2-a4-m1-cH 3k33-a1-m1-cB_3k33-a1-m2-cB 3k33-a1-m1-cD_3k33-a1-m1-cC 3kh2-a1-m1-cE_3kh2-a1-m1-cF 4zlx-a1-m1-cA_4zlx-a1-m1-cB 4zm0-a1-m1-cA_4zm0-a1-m1-cB 4zm0-a2-m1-cD_4zm0-a2-m1-cC 4zm2-a1-m1-cA_4zm2-a1-m1-cB 4zm2-a2-m1-cD_4zm2-a2-m1-cC QSINFRTARGNLSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKKAALDAEFASLFDTLDSTNKELVN MQSINFRTARGNLSEVLNNVEAGEEVEITRRGREPAVIVSKATFEAYKKAALDAEFASLFDTLDSTNKELVNR 3k35-a7-m1-cD_3k35-a7-m4-cC Crystal Structure of Human SIRT6 Q8N6T7 Q8N6T7 2 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 275 3k35-a7-m1-cB_3k35-a7-m5-cE 3k35-a7-m3-cA_3k35-a7-m2-cF 3pkj-a7-m1-cE_3pkj-a7-m1-cB 3pkj-a7-m2-cC_3pkj-a7-m4-cF 3pkj-a7-m3-cD_3pkj-a7-m4-cA 6qcj-a1-m1-cB_6qcj-a1-m1-cA 6zu4-a1-m1-cB_6zu4-a1-m1-cA GKCGLPEIFDPPEELERKVWELARLVWQSSSVVFHTGAGISTASGIPDFRGPHGVWTMEERGLAPKFDTTFESARPTQTHMALVQLERVGLLRFLVSQNVDGLHVRSGFPRDKLAELHGNMFVEECAKCKTQYVRDTVVGTMGLKATGRLCTVCRGELRDTILDWEDSLPDRDLALADEASRNADLSITLGTSLQIRPSGNLPLATKRRGGRLVIVNLQPTKHDRHADLRIHGYVDEVMTRLMKHLGLEIPAWDGPRVLERALPPLPRPPTPK KGKCGLPEIFDPPEELERKVWELARLVWQSSSVVFHTGAGISTASGIPDFRGPHGVWTMEERGLAPKFDTTFESARPTQTHMALVQLERVGLLRFLVSQNVDGLHVRSGFPRDKLAELHGNMFVEECAKCKTQYVRDTVVGTMGLKATGRLCTVACRGELRDTILDWEDSLPDRDLALADEASRNADLSITLGTSLQIRPSGNLPLATKRRGGRLVIVNLQPTKHDRHADLRIHGYVDEVMTRLMKHLGLEIPAWDGPRVLERALPPLPRPPTPK 3k35-a7-m3-cA_3k35-a7-m4-cC Crystal Structure of Human SIRT6 Q8N6T7 Q8N6T7 2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 275 3k35-a7-m1-cB_3k35-a7-m2-cF 3k35-a7-m1-cD_3k35-a7-m1-cB 3k35-a7-m1-cD_3k35-a7-m2-cF 3k35-a7-m3-cA_3k35-a7-m5-cE 3k35-a7-m4-cC_3k35-a7-m5-cE 3pki-a7-m1-cB_3pki-a7-m1-cA 3pki-a7-m1-cB_3pki-a7-m1-cC 3pki-a7-m1-cC_3pki-a7-m1-cA 3pki-a8-m1-cE_3pki-a8-m1-cD 3pki-a8-m1-cF_3pki-a8-m1-cD 3pki-a8-m1-cF_3pki-a8-m1-cE 3pkj-a7-m2-cC_3pkj-a7-m1-cB 3pkj-a7-m2-cC_3pkj-a7-m3-cD 3pkj-a7-m3-cD_3pkj-a7-m1-cB 3pkj-a7-m4-cA_3pkj-a7-m1-cE 3pkj-a7-m4-cA_3pkj-a7-m4-cF 3pkj-a7-m4-cF_3pkj-a7-m1-cE KGKCGLPEIFDPPEELERKVWELARLVWQSSSVVFHTGAGISTASGIPDFRGPHGVWTMEERGLAPKFDTTFESARPTQTHMALVQLERVGLLRFLVSQNVDGLHVRSGFPRDKLAELHGNMFVEECAKCKTQYVRDTVVGTMGLKATGRLCTVCRGELRDTILDWEDSLPDRDLALADEASRNADLSITLGTSLQIRPSGNLPLATKRRGGRLVIVNLQPTKHDRHADLRIHGYVDEVMTRLMKHLGLEIPAWDGPRVLERALPPLPRPPTPK KGKCGLPEIFDPPEELERKVWELARLVWQSSSVVFHTGAGISTASGIPDFRGPHGVWTMEERGLAPKFDTTFESARPTQTHMALVQLERVGLLRFLVSQNVDGLHVRSGFPRDKLAELHGNMFVEECAKCKTQYVRDTVVGTMGLKATGRLCTVACRGELRDTILDWEDSLPDRDLALADEASRNADLSITLGTSLQIRPSGNLPLATKRRGGRLVIVNLQPTKHDRHADLRIHGYVDEVMTRLMKHLGLEIPAWDGPRVLERALPPLPRPPTPK 3k3d-a2-m1-cA_3k3d-a2-m4-cA The N-terminal PAS domain crystal structure of RV1364C from Mycobacterium Tuberculosis at 2.3 angstrom P9WLZ7 P9WLZ7 2.3 X-RAY DIFFRACTION 16 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 125 125 3k3d-a2-m2-cA_3k3d-a2-m3-cA DWDKTVGAAEDVRRIFEHIPAILVGLEGPDHRFVAVNAAYRGFSPLLDTVGQPAREVYPELEGQQIYELDRVYQTGEPQSGSEWRLQTDERYFDFVVTPRRRADGSIEGVQLIVDDVTSRVRARQ DWDKTVGAAEDVRRIFEHIPAILVGLEGPDHRFVAVNAAYRGFSPLLDTVGQPAREVYPELEGQQIYELDRVYQTGEPQSGSEWRLQTDERYFDFVVTPRRRADGSIEGVQLIVDDVTSRVRARQ 3k3d-a2-m2-cA_3k3d-a2-m4-cA The N-terminal PAS domain crystal structure of RV1364C from Mycobacterium Tuberculosis at 2.3 angstrom P9WLZ7 P9WLZ7 2.3 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 125 125 3k3d-a2-m1-cA_3k3d-a2-m3-cA DWDKTVGAAEDVRRIFEHIPAILVGLEGPDHRFVAVNAAYRGFSPLLDTVGQPAREVYPELEGQQIYELDRVYQTGEPQSGSEWRLQTDERYFDFVVTPRRRADGSIEGVQLIVDDVTSRVRARQ DWDKTVGAAEDVRRIFEHIPAILVGLEGPDHRFVAVNAAYRGFSPLLDTVGQPAREVYPELEGQQIYELDRVYQTGEPQSGSEWRLQTDERYFDFVVTPRRRADGSIEGVQLIVDDVTSRVRARQ 3k3d-a2-m3-cA_3k3d-a2-m4-cA The N-terminal PAS domain crystal structure of RV1364C from Mycobacterium Tuberculosis at 2.3 angstrom P9WLZ7 P9WLZ7 2.3 X-RAY DIFFRACTION 125 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 125 125 3k3c-a1-m1-cA_3k3c-a1-m1-cB 3k3c-a2-m1-cC_3k3c-a2-m1-cD 3k3c-a5-m1-cA_3k3c-a5-m1-cB 3k3c-a5-m1-cC_3k3c-a5-m1-cD 3k3d-a1-m1-cA_3k3d-a1-m2-cA 3k3d-a2-m1-cA_3k3d-a2-m2-cA 3kx0-a1-m1-cX_3kx0-a1-m2-cX DWDKTVGAAEDVRRIFEHIPAILVGLEGPDHRFVAVNAAYRGFSPLLDTVGQPAREVYPELEGQQIYELDRVYQTGEPQSGSEWRLQTDERYFDFVVTPRRRADGSIEGVQLIVDDVTSRVRARQ DWDKTVGAAEDVRRIFEHIPAILVGLEGPDHRFVAVNAAYRGFSPLLDTVGQPAREVYPELEGQQIYELDRVYQTGEPQSGSEWRLQTDERYFDFVVTPRRRADGSIEGVQLIVDDVTSRVRARQ 3k3f-a1-m2-cA_3k3f-a1-m3-cA Crystal Structure of the Urea Transporter from Desulfovibrio Vulgaris Q72CX3 Q72CX3 2.3 X-RAY DIFFRACTION 107 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 332 332 3k3f-a1-m1-cA_3k3f-a1-m2-cA 3k3f-a1-m1-cA_3k3f-a1-m3-cA 3k3g-a1-m1-cA_3k3g-a1-m2-cA 3k3g-a1-m1-cA_3k3g-a1-m3-cA 3k3g-a1-m2-cA_3k3g-a1-m3-cA 3m6e-a1-m1-cA_3m6e-a1-m2-cA 3m6e-a1-m1-cA_3m6e-a1-m3-cA 3m6e-a1-m2-cA_3m6e-a1-m3-cA 3me1-a1-m1-cA_3me1-a1-m1-cB 3me1-a1-m1-cC_3me1-a1-m1-cA 3me1-a1-m1-cC_3me1-a1-m1-cB GRAFGEQLLKNPLIEFCDSVCRGCGQVMFQNNTVTGLLFFAGIFYNSTTLGVCAVLGTAASTLTAQLLGVDKPLVRAGLFGFNGTLAGIALPFFFNYEPAMLGYVALNGAFTTIIMASLLNFLGKWGVPALTAPFVLATWLLMFGVYKLSLFHPGALIAPALPSVDMGTVTGRTFMEGLFKGVGEVMFQDNIVTGVIFVVAILVNSRISALFAVIGSLVGLCTALIMHSPETPVRLGLYGFNSVLCGIAMGGIFFYLNIRTFLYALGCMVLGAIATGAFSVLLSPIGMPALTWPFIVVTWLFLFAGSMFRNIAQVPTEKAGTPEDNLRSLAI GRAFGEQLLKNPLIEFCDSVCRGCGQVMFQNNTVTGLLFFAGIFYNSTTLGVCAVLGTAASTLTAQLLGVDKPLVRAGLFGFNGTLAGIALPFFFNYEPAMLGYVALNGAFTTIIMASLLNFLGKWGVPALTAPFVLATWLLMFGVYKLSLFHPGALIAPALPSVDMGTVTGRTFMEGLFKGVGEVMFQDNIVTGVIFVVAILVNSRISALFAVIGSLVGLCTALIMHSPETPVRLGLYGFNSVLCGIAMGGIFFYLNIRTFLYALGCMVLGAIATGAFSVLLSPIGMPALTWPFIVVTWLFLFAGSMFRNIAQVPTEKAGTPEDNLRSLAI 3k3k-a2-m1-cA_3k3k-a2-m2-cA Crystal structure of dimeric abscisic acid (ABA) receptor pyrabactin resistance 1 (PYR1) with ABA-bound closed-lid and ABA-free open-lid subunits O49686 O49686 1.7 X-RAY DIFFRACTION 80 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 183 183 3k90-a1-m1-cC_3k90-a1-m1-cB 3wg8-a2-m1-cA_3wg8-a2-m2-cA MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSG MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSG 3k3k-a2-m1-cA_3k3k-a2-m2-cB Crystal structure of dimeric abscisic acid (ABA) receptor pyrabactin resistance 1 (PYR1) with ABA-bound closed-lid and ABA-free open-lid subunits O49686 O49686 1.7 X-RAY DIFFRACTION 12 0.995 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 183 183 3k3k-a2-m1-cB_3k3k-a2-m2-cA MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSG PSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSGD 3k3k-a2-m1-cB_3k3k-a2-m2-cB Crystal structure of dimeric abscisic acid (ABA) receptor pyrabactin resistance 1 (PYR1) with ABA-bound closed-lid and ABA-free open-lid subunits O49686 O49686 1.7 X-RAY DIFFRACTION 31 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 183 183 3k90-a1-m1-cA_3k90-a1-m1-cD PSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSGD PSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSGD 3k3k-a2-m2-cA_3k3k-a2-m2-cB Crystal structure of dimeric abscisic acid (ABA) receptor pyrabactin resistance 1 (PYR1) with ABA-bound closed-lid and ABA-free open-lid subunits O49686 O49686 1.7 X-RAY DIFFRACTION 49 0.995 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 183 183 3k3k-a1-m1-cA_3k3k-a1-m1-cB 3k3k-a2-m1-cA_3k3k-a2-m1-cB 3k90-a1-m1-cB_3k90-a1-m1-cA 3k90-a1-m1-cC_3k90-a1-m1-cD 3k90-a2-m1-cB_3k90-a2-m1-cA 3k90-a3-m1-cC_3k90-a3-m1-cD 3njo-a1-m1-cA_3njo-a1-m1-cB 3njo-a2-m1-cC_3njo-a2-m2-cC MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSG PSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPEGNSEDDTRMFADTVVKLNLQKLATVAEAMARNSGD 3k3p-a1-m1-cA_3k3p-a1-m1-cB Crystal Structure of the Apo Form of D-Alanine:D-Alanine Ligase (DDl) from Streptococcus mutans P95803 P95803 2.23 X-RAY DIFFRACTION 123 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 317 318 KETLVLLYGGRSAERDVSVLSAESVMRAINYDNFLVKTYFITQAGDFIKTQEFDSQPSDKLMTNDTIIASQKIKPSDIYEEEAVVFPVLHGPMGEDGSIQGFLEVLKMPYVGTNILSSSVAMDKITTNQVLESATTIPQVAYVALIEGEPLESKLAEVEEKLIYPVFVKPANISKAENRTDLKQAIALALKYDSRVLIEQGVDAREIEVGILGNTDVKTTLPGEIVTMAIPAEIDPVIVEKMRDYAATAFRTLGCCGLSRCDFFLTEDGKVYLNELNTMPGFTSMYPLLWENMGLSYSVLIEELVSLAKEMFDKRES KETLVLLYGGRSAERDVSVLSAESVMRAINYDNFLVKTYFITQAGDFIKTQEFDSQPSDKLMTNDTIIASQKIKPSDIYEEEAVVFPVLHGPMGEDGSIQGFLEVLKMPYVGTNILSSSVAMDKITTNQVLESATTIPQVAYVALIEGEPLESKLAEVEEKLIYPVFVKPANGISKAENRTDLKQAIALALKYDSRVLIEQGVDAREIEVGILGNTDVKTTLPGEIVTMAIPAEIDPVIVEKMRDYAATAFRTLGCCGLSRCDFFLTEDGKVYLNELNTMPGFTSMYPLLWENMGLSYSVLIEELVSLAKEMFDKRES 3k3r-a1-m1-cF_3k3r-a1-m1-cE Unrefined crystal structure of a LexA-DNA complex P0A7C2 P0A7C2 3.2 X-RAY DIFFRACTION 58 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 173 174 ALTARQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGVIEIVSGASRGIRLLQEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVARLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNG KALTARQQEVFDLIRDHISQTGMPPTRAEIAQRLGFRSPNAAEEHLKALARKGVIEIVSGASRGIRLLQEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVARLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNG 3k3s-a4-m1-cF_3k3s-a4-m1-cG Crystal structure of altronate hydrolase (fragment 1-84) from Shigella Flexneri. A0A0H2VY20 A0A0H2VY20 2.15 X-RAY DIFFRACTION 30 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 84 84 3k3s-a1-m1-cA_3k3s-a1-m1-cD 3k3s-a2-m1-cB_3k3s-a2-m1-cE 3k3s-a3-m1-cH_3k3s-a3-m1-cC GQYIKIHALDNVAVALADLAEGTEVSVDNQTVTLRQDVARGHKFALTDIAKGANVIKYGLPIGYALADIAAGEHVHAHNTRTNL GQYIKIHALDNVAVALADLAEGTEVSVDNQTVTLRQDVARGHKFALTDIAKGANVIKYGLPIGYALADIAAGEHVHAHNTRTNL 3k3v-a2-m1-cA_3k3v-a2-m2-cA Crystal structure the GYF domain of S. Cerevisiae SMY2 P32909 P32909 1.8 X-RAY DIFFRACTION 85 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 79 79 ESSWRYIDTQGQIHGPFTTQMMSQWYIGGYFASTLQISRLGSTPETLGINDIFITLGELMTKLEKYDTDPFTTFDKLHV ESSWRYIDTQGQIHGPFTTQMMSQWYIGGYFASTLQISRLGSTPETLGINDIFITLGELMTKLEKYDTDPFTTFDKLHV 3k40-a1-m1-cA_3k40-a1-m1-cB Crystal structure of Drosophila 3,4-dihydroxyphenylalanine decarboxylase P05031 P05031 1.75 X-RAY DIFFRACTION 304 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 447 447 MEAPEFKDFAKTMVDFIAEYLENIRERRVLPEVKPGYLKPLIPDAAPEKPEKWQDVMQDIERVIMPGVTHWHSPKFHAYFPTANSYPAIVADMLSGAIACIGFTWIASPACTELEVVMMDWLGKMLELPAEFLACSGGKGGGVIQGTASESTLVALLGAKAKKLKEVKELHPEWDEHTILGKLVGYCSDQAHSSVERAGLLGGVKLRSVQSENHRMRGAALEKAIEQDVAEGLIPFYAVVTLGTTNSCAFDYLDECGPVGNKHNLWIHVDAAYAGSAFICPEYRHLMKGIESADSFNFNPHWMLVNFDCSAMWLKDPSWVPLGRRFRALKLWFVLRLYGVENLQAHIRRHCNFAKQFGDLCVADSRFELAAEINMGLVCFRLKGSNERNEALLKRINGRGHIHLVPAKIKDVYFLRMAICSRFTQSEDMEYSWKEVSAAADEMEQEQ MEAPEFKDFAKTMVDFIAEYLENIRERRVLPEVKPGYLKPLIPDAAPEKPEKWQDVMQDIERVIMPGVTHWHSPKFHAYFPTANSYPAIVADMLSGAIACIGFTWIASPACTELEVVMMDWLGKMLELPAEFLACSGGKGGGVIQGTASESTLVALLGAKAKKLKEVKELHPEWDEHTILGKLVGYCSDQAHSSVERAGLLGGVKLRSVQSENHRMRGAALEKAIEQDVAEGLIPFYAVVTLGTTNSCAFDYLDECGPVGNKHNLWIHVDAAYAGSAFICPEYRHLMKGIESADSFNFNPHWMLVNFDCSAMWLKDPSWVPLGRRFRALKLWFVLRLYGVENLQAHIRRHCNFAKQFGDLCVADSRFELAAEINMGLVCFRLKGSNERNEALLKRINGRGHIHLVPAKIKDVYFLRMAICSRFTQSEDMEYSWKEVSAAADEMEQEQ 3k4h-a1-m1-cB_3k4h-a1-m1-cA CRYSTAL STRUCTURE OF putative transcriptional regulator LacI from Bacillus cereus subsp. cytotoxis NVH 391-98 D0VWZ8 D0VWZ8 2.8 X-RAY DIFFRACTION 42 0.993 315749 (Bacillus cytotoxicus NVH 391-98) 315749 (Bacillus cytotoxicus NVH 391-98) 272 276 NQTTKTLGLVPSSASKAFQNPFFPEVIRGISSFAHVEGYALYSTGETEEEIFNGVVKVQGRQIGGIILLYSRENDRIIQYLHEQNFPFVLIGKPYDRKDEITYVDNDNYTAAREVAEYLISLGHKQIAFIGGGSDLLVTRDRLAGSDALKLADIVLPKEYILHFDFSRESGQQAVEELGLQQPPTAIATDDLIGLGVLSALSKKGFVVPKDVSIVSFNNALLSEIASPPLSTVDVNIYQLGYEAAKALVDKVENAESTAKCIIIPHKLLKRQ TTKTLGLVPSSASKAFQNPFFPEVIRGISSFAHVEGYALYSTGETEEEIFNGVVKVQGRQIGGIILLYSRENDRIIQYLHEQNFPFVLIGKPYDRKDEITYVDNDNYTAAREVAEYLISLGHKQIAFIGGGSDLLVTRDRLAGSDALKLADIVLPKEYILHFDFSRESGQQAVEELGLQQPPTAIATDDLIGLGVLSALSKKGFVVPKDVSIVSFNNALLSEIASPPLSTVDVNIYQLGYEAAKALVDKVENAESTAKCIIIPHKLLKRQTCEGHH 3k4h-a2-m2-cB_3k4h-a2-m1-cA CRYSTAL STRUCTURE OF putative transcriptional regulator LacI from Bacillus cereus subsp. cytotoxis NVH 391-98 D0VWZ8 D0VWZ8 2.8 X-RAY DIFFRACTION 84 0.993 315749 (Bacillus cytotoxicus NVH 391-98) 315749 (Bacillus cytotoxicus NVH 391-98) 272 276 NQTTKTLGLVPSSASKAFQNPFFPEVIRGISSFAHVEGYALYSTGETEEEIFNGVVKVQGRQIGGIILLYSRENDRIIQYLHEQNFPFVLIGKPYDRKDEITYVDNDNYTAAREVAEYLISLGHKQIAFIGGGSDLLVTRDRLAGSDALKLADIVLPKEYILHFDFSRESGQQAVEELGLQQPPTAIATDDLIGLGVLSALSKKGFVVPKDVSIVSFNNALLSEIASPPLSTVDVNIYQLGYEAAKALVDKVENAESTAKCIIIPHKLLKRQ TTKTLGLVPSSASKAFQNPFFPEVIRGISSFAHVEGYALYSTGETEEEIFNGVVKVQGRQIGGIILLYSRENDRIIQYLHEQNFPFVLIGKPYDRKDEITYVDNDNYTAAREVAEYLISLGHKQIAFIGGGSDLLVTRDRLAGSDALKLADIVLPKEYILHFDFSRESGQQAVEELGLQQPPTAIATDDLIGLGVLSALSKKGFVVPKDVSIVSFNNALLSEIASPPLSTVDVNIYQLGYEAAKALVDKVENAESTAKCIIIPHKLLKRQTCEGHH 3k4i-a1-m1-cB_3k4i-a1-m1-cA CRYSTAL STRUCTURE OF uncharacterized protein PSPTO_3204 from Pseudomonas syringae pv. tomato str. DC3000 Q880F6 Q880F6 1.69 X-RAY DIFFRACTION 69 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 196 198 3k4i-a1-m1-cA_3k4i-a1-m1-cC 3k4i-a1-m1-cB_3k4i-a1-m1-cC YTPIAQSVLDECEHLDTASLSDALDSLGIDGGLPGIASQVPGTRCVGIAFTVQYQPVNYIDQVPSGSVIVSSNSGRHDCTVWGDITHFALANGIKGTVIDGVARDIDTVINCNYPLFSRGRFQSAKNRTQLKAVQVPLVIDGITIQPGDLVCDGSGCVVVPQQLAAEVVLRARAVEQTERRIIEAISSGSTLEQAR FEYTPIAQSVLDECEHLDTASLSDALDSLGIDGGLPGIASQVPGTRCVGIAFTVQYQPVNYIDQVPSGSVIVSSNSGRHDCTVWGDITHFALANGIKGTVIDGVARDIDTVINCNYPLFSRGRFQSAKNRTQLKAVQVPLVIDGITIQPGDLVCDGSGCVVVPQQLAAEVVLRARAVEQTERRIIEAISSGSTLEQAR 3k4l-a1-m1-cB_3k4l-a1-m2-cB Pyranose 2-oxidase F454N mutant in complex with 2FG Q7ZA32 Q7ZA32 1.75 X-RAY DIFFRACTION 74 1.0 230624 (Trametes ochracea) 230624 (Trametes ochracea) 567 567 1tt0-a1-m1-cC_1tt0-a1-m1-cB 1tt0-a1-m1-cD_1tt0-a1-m1-cA 1tzl-a1-m1-cA_1tzl-a1-m1-cD 1tzl-a1-m1-cB_1tzl-a1-m1-cC 1tzl-a2-m1-cE_1tzl-a2-m1-cH 1tzl-a2-m1-cF_1tzl-a2-m1-cG 2f5v-a1-m1-cA_2f5v-a1-m4-cA 2f5v-a1-m2-cA_2f5v-a1-m3-cA 2f6c-a1-m1-cA_2f6c-a1-m4-cA 2f6c-a1-m2-cA_2f6c-a1-m3-cA 2igk-a1-m1-cA_2igk-a1-m1-cD 2igk-a1-m1-cB_2igk-a1-m1-cC 2igk-a2-m1-cE_2igk-a2-m1-cH 2igk-a2-m1-cF_2igk-a2-m1-cG 2igm-a1-m1-cA_2igm-a1-m1-cD 2igm-a1-m1-cB_2igm-a1-m1-cC 2igm-a2-m1-cE_2igm-a2-m1-cH 2igm-a2-m1-cF_2igm-a2-m1-cG 2ign-a1-m1-cA_2ign-a1-m1-cD 2ign-a1-m1-cB_2ign-a1-m1-cC 2ign-a2-m1-cE_2ign-a2-m1-cH 2ign-a2-m1-cF_2ign-a2-m1-cG 2igo-a1-m1-cA_2igo-a1-m1-cD 2igo-a1-m1-cB_2igo-a1-m1-cC 2igo-a2-m1-cE_2igo-a2-m1-cH 2igo-a2-m1-cF_2igo-a2-m1-cG 3bg6-a1-m1-cA_3bg6-a1-m1-cD 3bg6-a1-m1-cB_3bg6-a1-m1-cC 3bg6-a2-m1-cE_3bg6-a2-m1-cH 3bg6-a2-m1-cF_3bg6-a2-m1-cG 3bg7-a1-m1-cA_3bg7-a1-m1-cD 3bg7-a1-m1-cB_3bg7-a1-m1-cC 3bg7-a2-m1-cE_3bg7-a2-m1-cH 3bg7-a2-m1-cF_3bg7-a2-m1-cG 3bly-a1-m1-cA_3bly-a1-m4-cA 3bly-a1-m2-cA_3bly-a1-m3-cA 3fdy-a1-m1-cA_3fdy-a1-m4-cA 3fdy-a1-m2-cA_3fdy-a1-m3-cA 3k4b-a1-m1-cA_3k4b-a1-m4-cA 3k4b-a1-m2-cA_3k4b-a1-m3-cA 3k4c-a1-m1-cC_3k4c-a1-m1-cA 3k4c-a1-m1-cD_3k4c-a1-m1-cB 3k4j-a1-m1-cA_3k4j-a1-m4-cA 3k4j-a1-m2-cA_3k4j-a1-m3-cA 3k4k-a1-m1-cA_3k4k-a1-m4-cA 3k4k-a1-m2-cA_3k4k-a1-m3-cA 3k4l-a1-m1-cA_3k4l-a1-m2-cA 3k4m-a1-m1-cA_3k4m-a1-m1-cD 3k4m-a1-m1-cC_3k4m-a1-m1-cB 3k4m-a2-m1-cF_3k4m-a2-m1-cG 3k4m-a2-m1-cH_3k4m-a2-m1-cE 3k4n-a1-m1-cA_3k4n-a1-m2-cA 3k4n-a1-m1-cB_3k4n-a1-m2-cB 3lsh-a1-m1-cC_3lsh-a1-m1-cA 3lsh-a1-m1-cD_3lsh-a1-m1-cB 3lsi-a1-m1-cA_3lsi-a1-m2-cA 3lsi-a1-m1-cB_3lsi-a1-m2-cB 3lsk-a1-m1-cC_3lsk-a1-m1-cA 3lsk-a1-m1-cD_3lsk-a1-m1-cB 3lsm-a1-m1-cA_3lsm-a1-m2-cA 3lsm-a1-m1-cB_3lsm-a1-m2-cB 3pl8-a1-m1-cA_3pl8-a1-m4-cA 3pl8-a1-m2-cA_3pl8-a1-m3-cA 4moe-a1-m1-cC_4moe-a1-m1-cB 4moe-a1-m1-cD_4moe-a1-m1-cA 4mof-a1-m1-cA_4mof-a1-m4-cA 4mof-a1-m2-cA_4mof-a1-m3-cA 4mog-a1-m1-cA_4mog-a1-m3-cA 4mog-a1-m2-cA_4mog-a1-m4-cA 4moh-a1-m1-cA_4moh-a1-m4-cA 4moh-a1-m2-cA_4moh-a1-m3-cA 4moi-a1-m1-cA_4moi-a1-m2-cB 4moi-a1-m1-cB_4moi-a1-m2-cA 4moj-a1-m1-cC_4moj-a1-m1-cB 4moj-a1-m1-cD_4moj-a1-m1-cA 4mok-a1-m1-cC_4mok-a1-m1-cB 4mok-a1-m1-cD_4mok-a1-m1-cA 4mol-a1-m1-cA_4mol-a1-m1-cD 4mol-a1-m1-cC_4mol-a1-m1-cB 4mom-a1-m1-cC_4mom-a1-m1-cB 4mom-a1-m1-cD_4mom-a1-m1-cA 4moo-a1-m1-cA_4moo-a1-m4-cA 4moo-a1-m2-cA_4moo-a1-m3-cA 4mop-a1-m1-cC_4mop-a1-m1-cB 4mop-a1-m1-cD_4mop-a1-m1-cA 4moq-a1-m1-cA_4moq-a1-m2-cA 4moq-a1-m1-cB_4moq-a1-m2-cB 4mor-a1-m1-cA_4mor-a1-m1-cD 4mor-a1-m1-cC_4mor-a1-m1-cB 4mos-a1-m1-cA_4mos-a1-m4-cA 4mos-a1-m2-cA_4mos-a1-m3-cA KYDVVIVGSGPIGCTYARELVGAGYKVAMFDIGEIDSGLKIGAHKKNTVEYQKNIDKFVNVIQGQLMSVSVPVNTLVVDTLSPTSWQASTFFVRNGSNPEQDPLRNLSGQAVTRVVGGMSTHWTCATPRFDREQRPLLVKDDADADDAEWDRLYTKAESYFQTGTDQFKESIRHNLVLNKLTEEYKGQRDFQQIPLAATRRSPTFVEWSSANTVFDLQNRPNTDAPEERFNLFPAVACERVVRNALNSEIESLHIHDLISGDRFEIKADVYVLTAGAVHNTQLLVNSGFGQLGRPNPANPPELLPSLGSYITEQSLVFCQTVMSTELIDSVKSDMTIRGTPGELTYSVTYTPGASTNKHPDWWNEKVKNHMMQHQEDPLPIPFEDPEPQVTTLFQPSHPWHTQIHRDANQSIDSRLIVDWRFFGRTEPKEENKLWFSDKITDAYNMPQPTFDFRFPAGRTSKEAEDMMTDMCVMSAKIGGFLPGSLPQFMEPGLVLHLGGTHRMGFDEKEDNCCVNTDSRVFGFKNLFLGGCGNIPTAYGANPTLTAMSLAIKSCEYIKQNFTPSPF KYDVVIVGSGPIGCTYARELVGAGYKVAMFDIGEIDSGLKIGAHKKNTVEYQKNIDKFVNVIQGQLMSVSVPVNTLVVDTLSPTSWQASTFFVRNGSNPEQDPLRNLSGQAVTRVVGGMSTHWTCATPRFDREQRPLLVKDDADADDAEWDRLYTKAESYFQTGTDQFKESIRHNLVLNKLTEEYKGQRDFQQIPLAATRRSPTFVEWSSANTVFDLQNRPNTDAPEERFNLFPAVACERVVRNALNSEIESLHIHDLISGDRFEIKADVYVLTAGAVHNTQLLVNSGFGQLGRPNPANPPELLPSLGSYITEQSLVFCQTVMSTELIDSVKSDMTIRGTPGELTYSVTYTPGASTNKHPDWWNEKVKNHMMQHQEDPLPIPFEDPEPQVTTLFQPSHPWHTQIHRDANQSIDSRLIVDWRFFGRTEPKEENKLWFSDKITDAYNMPQPTFDFRFPAGRTSKEAEDMMTDMCVMSAKIGGFLPGSLPQFMEPGLVLHLGGTHRMGFDEKEDNCCVNTDSRVFGFKNLFLGGCGNIPTAYGANPTLTAMSLAIKSCEYIKQNFTPSPF 3k4l-a1-m2-cA_3k4l-a1-m2-cB Pyranose 2-oxidase F454N mutant in complex with 2FG Q7ZA32 Q7ZA32 1.75 X-RAY DIFFRACTION 188 1.0 230624 (Trametes ochracea) 230624 (Trametes ochracea) 567 567 1tt0-a1-m1-cA_1tt0-a1-m1-cB 1tt0-a1-m1-cC_1tt0-a1-m1-cD 1tzl-a1-m1-cA_1tzl-a1-m1-cC 1tzl-a1-m1-cB_1tzl-a1-m1-cD 1tzl-a2-m1-cE_1tzl-a2-m1-cG 1tzl-a2-m1-cF_1tzl-a2-m1-cH 2f5v-a1-m1-cA_2f5v-a1-m2-cA 2f5v-a1-m3-cA_2f5v-a1-m4-cA 2f6c-a1-m1-cA_2f6c-a1-m2-cA 2f6c-a1-m3-cA_2f6c-a1-m4-cA 2igk-a1-m1-cA_2igk-a1-m1-cB 2igk-a1-m1-cC_2igk-a1-m1-cD 2igk-a2-m1-cE_2igk-a2-m1-cF 2igk-a2-m1-cG_2igk-a2-m1-cH 2igm-a1-m1-cA_2igm-a1-m1-cB 2igm-a1-m1-cC_2igm-a1-m1-cD 2igm-a2-m1-cE_2igm-a2-m1-cF 2igm-a2-m1-cG_2igm-a2-m1-cH 2ign-a1-m1-cA_2ign-a1-m1-cB 2ign-a1-m1-cC_2ign-a1-m1-cD 2ign-a2-m1-cE_2ign-a2-m1-cF 2ign-a2-m1-cG_2ign-a2-m1-cH 2igo-a1-m1-cA_2igo-a1-m1-cB 2igo-a1-m1-cC_2igo-a1-m1-cD 2igo-a2-m1-cE_2igo-a2-m1-cF 2igo-a2-m1-cG_2igo-a2-m1-cH 3bg6-a1-m1-cA_3bg6-a1-m1-cB 3bg6-a1-m1-cC_3bg6-a1-m1-cD 3bg6-a2-m1-cE_3bg6-a2-m1-cF 3bg6-a2-m1-cG_3bg6-a2-m1-cH 3bg7-a1-m1-cA_3bg7-a1-m1-cB 3bg7-a1-m1-cC_3bg7-a1-m1-cD 3bg7-a2-m1-cE_3bg7-a2-m1-cF 3bg7-a2-m1-cG_3bg7-a2-m1-cH 3bly-a1-m1-cA_3bly-a1-m2-cA 3bly-a1-m3-cA_3bly-a1-m4-cA 3fdy-a1-m1-cA_3fdy-a1-m2-cA 3fdy-a1-m3-cA_3fdy-a1-m4-cA 3k4b-a1-m1-cA_3k4b-a1-m2-cA 3k4b-a1-m3-cA_3k4b-a1-m4-cA 3k4c-a1-m1-cA_3k4c-a1-m1-cB 3k4c-a1-m1-cD_3k4c-a1-m1-cC 3k4j-a1-m1-cA_3k4j-a1-m2-cA 3k4j-a1-m3-cA_3k4j-a1-m4-cA 3k4k-a1-m1-cA_3k4k-a1-m2-cA 3k4k-a1-m3-cA_3k4k-a1-m4-cA 3k4l-a1-m1-cA_3k4l-a1-m1-cB 3k4m-a1-m1-cA_3k4m-a1-m1-cB 3k4m-a1-m1-cC_3k4m-a1-m1-cD 3k4m-a2-m1-cF_3k4m-a2-m1-cE 3k4m-a2-m1-cG_3k4m-a2-m1-cH 3k4n-a1-m1-cA_3k4n-a1-m1-cB 3k4n-a1-m2-cA_3k4n-a1-m2-cB 3lsh-a1-m1-cA_3lsh-a1-m1-cB 3lsh-a1-m1-cD_3lsh-a1-m1-cC 3lsi-a1-m1-cA_3lsi-a1-m1-cB 3lsi-a1-m2-cA_3lsi-a1-m2-cB 3lsk-a1-m1-cA_3lsk-a1-m1-cB 3lsk-a1-m1-cD_3lsk-a1-m1-cC 3lsm-a1-m1-cA_3lsm-a1-m1-cB 3lsm-a1-m2-cA_3lsm-a1-m2-cB 3pl8-a1-m1-cA_3pl8-a1-m2-cA 3pl8-a1-m3-cA_3pl8-a1-m4-cA 4moe-a1-m1-cA_4moe-a1-m1-cB 4moe-a1-m1-cC_4moe-a1-m1-cD 4mof-a1-m1-cA_4mof-a1-m2-cA 4mof-a1-m3-cA_4mof-a1-m4-cA 4mog-a1-m1-cA_4mog-a1-m2-cA 4mog-a1-m3-cA_4mog-a1-m4-cA 4moh-a1-m1-cA_4moh-a1-m2-cA 4moh-a1-m3-cA_4moh-a1-m4-cA 4moi-a1-m1-cA_4moi-a1-m1-cB 4moi-a1-m2-cA_4moi-a1-m2-cB 4moj-a1-m1-cA_4moj-a1-m1-cB 4moj-a1-m1-cC_4moj-a1-m1-cD 4mok-a1-m1-cB_4mok-a1-m1-cA 4mok-a1-m1-cD_4mok-a1-m1-cC 4mol-a1-m1-cA_4mol-a1-m1-cB 4mol-a1-m1-cC_4mol-a1-m1-cD 4mom-a1-m1-cA_4mom-a1-m1-cB 4mom-a1-m1-cC_4mom-a1-m1-cD 4moo-a1-m1-cA_4moo-a1-m2-cA 4moo-a1-m3-cA_4moo-a1-m4-cA 4mop-a1-m1-cA_4mop-a1-m1-cB 4mop-a1-m1-cC_4mop-a1-m1-cD 4moq-a1-m1-cA_4moq-a1-m1-cB 4moq-a1-m2-cA_4moq-a1-m2-cB 4mor-a1-m1-cA_4mor-a1-m1-cB 4mor-a1-m1-cC_4mor-a1-m1-cD 4mos-a1-m1-cA_4mos-a1-m2-cA 4mos-a1-m3-cA_4mos-a1-m4-cA KYDVVIVGSGPIGCTYARELVGAGYKVAMFDIGEIDSGLKIGAHKKNTVEYQKNIDKFVNVIQGQLMSVSVPVNTLVVDTLSPTSWQASTFFVRNGSNPEQDPLRNLSGQAVTRVVGGMSTHWTCATPRFDREQRPLLVKDDADADDAEWDRLYTKAESYFQTGTDQFKESIRHNLVLNKLTEEYKGQRDFQQIPLAATRRSPTFVEWSSANTVFDLQNRPNTDAPEERFNLFPAVACERVVRNALNSEIESLHIHDLISGDRFEIKADVYVLTAGAVHNTQLLVNSGFGQLGRPNPANPPELLPSLGSYITEQSLVFCQTVMSTELIDSVKSDMTIRGTPGELTYSVTYTPGASTNKHPDWWNEKVKNHMMQHQEDPLPIPFEDPEPQVTTLFQPSHPWHTQIHRDANQSIDSRLIVDWRFFGRTEPKEENKLWFSDKITDAYNMPQPTFDFRFPAGRTSKEAEDMMTDMCVMSAKIGGFLPGSLPQFMEPGLVLHLGGTHRMGFDEKEDNCCVNTDSRVFGFKNLFLGGCGNIPTAYGANPTLTAMSLAIKSCEYIKQNFTPSPF KYDVVIVGSGPIGCTYARELVGAGYKVAMFDIGEIDSGLKIGAHKKNTVEYQKNIDKFVNVIQGQLMSVSVPVNTLVVDTLSPTSWQASTFFVRNGSNPEQDPLRNLSGQAVTRVVGGMSTHWTCATPRFDREQRPLLVKDDADADDAEWDRLYTKAESYFQTGTDQFKESIRHNLVLNKLTEEYKGQRDFQQIPLAATRRSPTFVEWSSANTVFDLQNRPNTDAPEERFNLFPAVACERVVRNALNSEIESLHIHDLISGDRFEIKADVYVLTAGAVHNTQLLVNSGFGQLGRPNPANPPELLPSLGSYITEQSLVFCQTVMSTELIDSVKSDMTIRGTPGELTYSVTYTPGASTNKHPDWWNEKVKNHMMQHQEDPLPIPFEDPEPQVTTLFQPSHPWHTQIHRDANQSIDSRLIVDWRFFGRTEPKEENKLWFSDKITDAYNMPQPTFDFRFPAGRTSKEAEDMMTDMCVMSAKIGGFLPGSLPQFMEPGLVLHLGGTHRMGFDEKEDNCCVNTDSRVFGFKNLFLGGCGNIPTAYGANPTLTAMSLAIKSCEYIKQNFTPSPF 3k4u-a3-m1-cA_3k4u-a3-m1-cC CRYSTAL STRUCTURE OF putative binding component of ABC transporter from Wolinella succinogenes DSM 1740 complexed with lysine Q7MAG0 Q7MAG0 2.62 X-RAY DIFFRACTION 10 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 227 227 3k4u-a1-m1-cA_3k4u-a1-m1-cC 3k4u-a2-m1-cA_3k4u-a2-m1-cC LRGELRVGLEPGYLPFEKDKKGNVIGFDVDLAREAKAGVKLKLVPTSWDGLIPGLVTEKFDIIISGTISQERNLRVNFVEPYIVVGQSLLVKKGLEKGVKSYKDLDKPELTLVTKFGVSAEYAAKRLFKNAKLKTYDTEAEAVQEVLNGKADFIFDLPFNVAFAQKGQGYLVHLDTSLTYEPLGWAIKKGDPDFLNWLNHFLAQIKHDGSYDELYERWFVDTKWLEK LRGELRVGLEPGYLPFEKDKKGNVIGFDVDLAREAKAGVKLKLVPTSWDGLIPGLVTEKFDIIISGTISQERNLRVNFVEPYIVVGQSLLVKKGLEKGVKSYKDLDKPELTLVTKFGVSAEYAAKRLFKNAKLKTYDTEAEAVQEVLNGKADFIFDLPFNVAFAQKGQGYLVHLDTSLTYEPLGWAIKKGDPDFLNWLNHFLAQIKHDGSYDELYERWFVDTKWLEK 3k4u-a3-m1-cD_3k4u-a3-m1-cF CRYSTAL STRUCTURE OF putative binding component of ABC transporter from Wolinella succinogenes DSM 1740 complexed with lysine Q7MAG0 Q7MAG0 2.62 X-RAY DIFFRACTION 30 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 227 227 3k4u-a1-m1-cA_3k4u-a1-m1-cB 3k4u-a1-m1-cA_3k4u-a1-m1-cE 3k4u-a1-m1-cB_3k4u-a1-m1-cE 3k4u-a1-m1-cC_3k4u-a1-m1-cD 3k4u-a2-m1-cA_3k4u-a2-m1-cB 3k4u-a2-m1-cA_3k4u-a2-m1-cE 3k4u-a2-m1-cB_3k4u-a2-m1-cE 3k4u-a2-m1-cC_3k4u-a2-m1-cD 3k4u-a2-m1-cC_3k4u-a2-m1-cF 3k4u-a2-m1-cD_3k4u-a2-m1-cF 3k4u-a3-m1-cA_3k4u-a3-m1-cB 3k4u-a3-m1-cA_3k4u-a3-m1-cE 3k4u-a3-m1-cB_3k4u-a3-m1-cE 3k4u-a3-m1-cC_3k4u-a3-m1-cD 3k4u-a3-m1-cC_3k4u-a3-m1-cF LRGELRVGLEPGYLPFEKDKKGNVIGFDVDLAREAKAGVKLKLVPTSWDGLIPGLVTEKFDIIISGTISQERNLRVNFVEPYIVVGQSLLVKKGLEKGVKSYKDLDKPELTLVTKFGVSAEYAAKRLFKNAKLKTYDTEAEAVQEVLNGKADFIFDLPFNVAFAQKGQGYLVHLDTSLTYEPLGWAIKKGDPDFLNWLNHFLAQIKHDGSYDELYERWFVDTKWLEK LRGELRVGLEPGYLPFEKDKKGNVIGFDVDLAREAKAGVKLKLVPTSWDGLIPGLVTEKFDIIISGTISQERNLRVNFVEPYIVVGQSLLVKKGLEKGVKSYKDLDKPELTLVTKFGVSAEYAAKRLFKNAKLKTYDTEAEAVQEVLNGKADFIFDLPFNVAFAQKGQGYLVHLDTSLTYEPLGWAIKKGDPDFLNWLNHFLAQIKHDGSYDELYERWFVDTKWLEK 3k4w-a4-m1-cK_3k4w-a4-m1-cL CRYSTAL STRUCTURE OF Uncharacterized Tim-Barrel Protein Bb4693 From Bordetella Bronchiseptica A0A0H3M034 A0A0H3M034 1.92 X-RAY DIFFRACTION 46 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 281 281 3irs-a1-m1-cA_3irs-a1-m1-cB 3irs-a1-m1-cA_3irs-a1-m1-cC 3irs-a1-m1-cB_3irs-a1-m1-cC 3k4w-a1-m1-cA_3k4w-a1-m1-cB 3k4w-a1-m1-cA_3k4w-a1-m1-cC 3k4w-a1-m1-cB_3k4w-a1-m1-cC 3k4w-a2-m1-cD_3k4w-a2-m1-cE 3k4w-a2-m1-cD_3k4w-a2-m1-cF 3k4w-a2-m1-cE_3k4w-a2-m1-cF 3k4w-a3-m1-cG_3k4w-a3-m1-cH 3k4w-a3-m1-cG_3k4w-a3-m1-cI 3k4w-a3-m1-cH_3k4w-a3-m1-cI 3k4w-a4-m1-cJ_3k4w-a4-m1-cK 3k4w-a4-m1-cJ_3k4w-a4-m1-cL LKIIDFRLRPPAMGFLNARIYTRPDIRNRFTRQLGFEPAPSAEEKSLELMFEEMAAAGIEQGVCVGRNSSVLGSVSNADVAAVAKAYPDKFHPVGSIEAATRKEAMAQMQEILDLGIRIVNLEPGVWATPMHVDDRRLYPLYAFCEDNGIPVIMMTGGNAGPDITYTNPEHIDRVLGDFPDLTVVSSHGNWPWVQEIIHVAFRRPNLYLSPDMYLYNLPGHADFIQAANSFLADRMLFGTAYPMCPLKEYTEWFLTLPIKPDAMEKILHGNAERLLAQAGR LKIIDFRLRPPAMGFLNARIYTRPDIRNRFTRQLGFEPAPSAEEKSLELMFEEMAAAGIEQGVCVGRNSSVLGSVSNADVAAVAKAYPDKFHPVGSIEAATRKEAMAQMQEILDLGIRIVNLEPGVWATPMHVDDRRLYPLYAFCEDNGIPVIMMTGGNAGPDITYTNPEHIDRVLGDFPDLTVVSSHGNWPWVQEIIHVAFRRPNLYLSPDMYLYNLPGHADFIQAANSFLADRMLFGTAYPMCPLKEYTEWFLTLPIKPDAMEKILHGNAERLLAQAGR 3k4y-a2-m1-cB_3k4y-a2-m1-cA Crystal Structure of Isopentenyl Phosphate Kinase from M. jannaschii in complex with IPP Q60352 Q60352 2.54 X-RAY DIFFRACTION 19 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 248 260 3k52-a2-m1-cB_3k52-a2-m1-cA MLTILKLGGSILSDKNVPYSIKWDNLERIAMEIKNALDYYKNQNKEIKLILVHGGGAFGHPVAKKYLKIEDGKKIFINMEKGFWEIQRAMRRFNNIIIDTLQSYDIPAVSIQPSSFVVFGDKLIFDTSAIKEMLKRNLVPVIHGDIVIDDKNGYRIISGDDIVPYLANELKADLILYATDVDGVLIDNKPIKRIDKNNIYKILNYLGMKYKIEMIRKNKCRGFVFNGNKANNIYKALLGEVEGTEIDF MLTILKLGGSILSDKNVPYSIKWDNLERIAMEIKNALDYYKNQNKEIKLILVHGGGAFGHPVAKKYLKIEDGKKIFINMEKGFWEIQRAMRRFNNIIIDTLQSYDIPAVSIQPSSFVVFGDKLIFDTSAIKEMLKRNLVPVIHGDIVIDDKNGYRIISGDDIVPYLANELKADLILYATDVDGVLIDNKPIKRIDKNNIYKILNYLSGSNSIDVTGGMKYKIEMIRKNKCRGFVFNGNKANNIYKALLGEVEGTEIDFSE 3k53-a2-m1-cC_3k53-a2-m1-cD Crystal Structure of NFeoB from P. furiosus Q8U2H8 Q8U2H8 2.7 X-RAY DIFFRACTION 58 0.996 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 267 270 3k53-a1-m1-cB_3k53-a1-m1-cA MVLKTVALVGNPNVGKTTIFNALTGLRQHVGNWPGVTVEKKEGIMEYREKEFLVVDLPGIYSLTAHSIDELIARNFILDGNADVIVDIVDSTCLMRNLFLTLELFEMEVKNIILVLNKFDLLAKIDIKKMRKELGVPVIPTNAKKGEGVEELKRMIALMAEGKVTTNPIIPRYDEDIEREIKHISELLRGTPLAEKYPIRWLALKLLQRDEEVIKLVLKYLGQEKMDEILKHISELEEKYKRPLDIVIASQKYEFLEQLLRKFVVHE MVLKTVALVGNPNVGKTTIFNALTGLRQHVGNWPGVTVEKKEGIMEYREKEFLVVDLPGIYSLTAHSIDELIARNFILDGNADVIVDIVDSTCLMRNLFLTLELFEMEVKNIILVLNKFDLLKKKGAKIDIKKMRKELGVPVIPTNAKKGEGVEELKRMIALMAEGKVTTNPIIPRYDEDIEREIKHISELLRGTPLAEKYPIRWLALKLLQRDEEVIKLVLKYLGQEKMDEILKHISELEEKYKRPLDIVIASQKYEFLEQLLRKFVVH 3k55-a4-m1-cG_3k55-a4-m1-cH Structure of beta hairpin deletion mutant of beta toxin from Staphylococcus aureus A7LAI8 A7LAI8 3.35 X-RAY DIFFRACTION 260 1.0 561307 (Staphylococcus aureus subsp. aureus RN4220) 561307 (Staphylococcus aureus subsp. aureus RN4220) 280 280 3k55-a1-m1-cA_3k55-a1-m1-cB 3k55-a2-m1-cC_3k55-a2-m1-cD 3k55-a3-m1-cE_3k55-a3-m1-cF 3k55-a5-m1-cI_3k55-a5-m1-cJ DTDLKLVSHNVYMLSTVLYPNWGQYKRADLIGQSSYIKNNDVVIFNEAFDNGASDKLLSNVKKEYPYQTPVLGRSQSGWDKTEGSYSSTVAEDGGVAIVSKYPIKEKIQHVFKSGCGFDNDSNKGFVYTKIEKNGKNVHVIGTHTQSEDSRCGAGHDRKIRAEQMKEISDFVKKKNIPKDETVYIGGDLNVNKGTPEFKDMLKNLNVNDVLYAGHNSTWDPQSNSIAKYNYPNGKPEHLDYIFTDKDHKQPKQLVNEVVTEKPKPWNDFSDHYPIKAYSK DTDLKLVSHNVYMLSTVLYPNWGQYKRADLIGQSSYIKNNDVVIFNEAFDNGASDKLLSNVKKEYPYQTPVLGRSQSGWDKTEGSYSSTVAEDGGVAIVSKYPIKEKIQHVFKSGCGFDNDSNKGFVYTKIEKNGKNVHVIGTHTQSEDSRCGAGHDRKIRAEQMKEISDFVKKKNIPKDETVYIGGDLNVNKGTPEFKDMLKNLNVNDVLYAGHNSTWDPQSNSIAKYNYPNGKPEHLDYIFTDKDHKQPKQLVNEVVTEKPKPWNDFSDHYPIKAYSK 3k55-a7-m1-cM_3k55-a7-m1-cN Structure of beta hairpin deletion mutant of beta toxin from Staphylococcus aureus A7LAI8 A7LAI8 3.35 X-RAY DIFFRACTION 254 1.0 561307 (Staphylococcus aureus subsp. aureus RN4220) 561307 (Staphylococcus aureus subsp. aureus RN4220) 280 280 3k55-a6-m1-cK_3k55-a6-m1-cL 3k55-a8-m1-cO_3k55-a8-m1-cP DTDLKLVSHNVYMLSTVLYPNWGQYKRADLIGQSSYIKNNDVVIFNEAFDNGASDKLLSNVKKEYPYQTPVLGRSQSGWDKTEGSYSSTVAEDGGVAIVSKYPIKEKIQHVFKSGCGFDNDSNKGFVYTKIEKNGKNVHVIGTHTQSEDSRCGAGHDRKIRAEQMKEISDFVKKKNIPKDETVYIGGDLNVNKGTPEFKDMLKNLNVNDVLYAGHNSTWDPQSNSIAKYNYPNGKPEHLDYIFTDKDHKQPKQLVNEVVTEKPKPWNDFSDHYPIKAYSK DTDLKLVSHNVYMLSTVLYPNWGQYKRADLIGQSSYIKNNDVVIFNEAFDNGASDKLLSNVKKEYPYQTPVLGRSQSGWDKTEGSYSSTVAEDGGVAIVSKYPIKEKIQHVFKSGCGFDNDSNKGFVYTKIEKNGKNVHVIGTHTQSEDSRCGAGHDRKIRAEQMKEISDFVKKKNIPKDETVYIGGDLNVNKGTPEFKDMLKNLNVNDVLYAGHNSTWDPQSNSIAKYNYPNGKPEHLDYIFTDKDHKQPKQLVNEVVTEKPKPWNDFSDHYPIKAYSK 3k56-a2-m1-cB_3k56-a2-m1-cA Crystal Structure of Isopentenyl Phosphate Kinase from M. jannaschii in complex with IPP beta-S Q60352 Q60352 2.34 X-RAY DIFFRACTION 114 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 248 260 3k4o-a1-m1-cB_3k4o-a1-m1-cA 3k4o-a2-m1-cB_3k4o-a2-m1-cA 3k4y-a1-m1-cB_3k4y-a1-m1-cA 3k52-a1-m1-cB_3k52-a1-m1-cA 3k56-a1-m1-cB_3k56-a1-m1-cA MLTILKLGGSILSDKNVPYSIKWDNLERIAMEIKNALDYYKNQNKEIKLILVHGGGAFGHPVAKKYLKIEDGKKIFINMEKGFWEIQRAMRRFNNIIIDTLQSYDIPAVSIQPSSFVVFGDKLIFDTSAIKEMLKRNLVPVIHGDIVIDDKNGYRIISGDDIVPYLANELKADLILYATDVDGVLIDNKPIKRIDKNNIYKILNYLSMKYKIEMIRKNKCRGFVFNGNKANNIYKALLGEVEGTEIDF MLTILKLGGSILSDKNVPYSIKWDNLERIAMEIKNALDYYKNQNKEIKLILVHGGGAFGHPVAKKYLKIEDGKKIFINMEKGFWEIQRAMRRFNNIIIDTLQSYDIPAVSIQPSSFVVFGDKLIFDTSAIKEMLKRNLVPVIHGDIVIDDKNGYRIISGDDIVPYLANELKADLILYATDVDGVLIDNKPIKRIDKNNIYKILNYLSGSNSIDVTGGMKYKIEMIRKNKCRGFVFNGNKANNIYKALLGEVEGTEIDFSE 3k5i-a1-m1-cB_3k5i-a1-m1-cA Crystal structure of N5-carboxyaminoimidazole synthase from aspergillus clavatus in complex with ADP and 5-aminoimadazole ribonucleotide A1CII2 A1CII2 2 X-RAY DIFFRACTION 109 1.0 5057 (Aspergillus clavatus) 5057 (Aspergillus clavatus) 376 381 3k5h-a1-m1-cB_3k5h-a1-m1-cA 3k5h-a2-m1-cD_3k5h-a2-m1-cC 3k5i-a2-m1-cD_3k5i-a2-m1-cC MWNSRKVGVLGGGQLGRMLVESANRLNIQVNVLDADNSPAKQISAHDGHVTGSFKEREAVRQLAKTCDVVTAEIEHVDTYALEEVASEVKIEPSWQAIRTIQNKFNQKEHLRKYGIPMAEHRELVENTPAELAKVGEQLGYPLMLKSKTRGNFRVNSQDDIPEALEALKDRPLYAEKWAYFKMELAVIVVKTKDEVLSYPTVETVQEDSICKLVYAPARNVSDAINQKAQELARKAVAAFDGKGVFGVEMFLLEDDSIMLCEIASRIHNSGHYTIEGCALSQFDAHLRAILDLPIPAQSLEIRQPSIMLNIIGGAAPDTHLQAAECALSIPNASIHLYSKGAAKPGRKMGHITVTAPTMHEAETHIQPLIDVVDRI MWNSRKVGVLGGGQLGRMLVESANRLNIQVNVLDADNSPAKQISAHDGHVTGSFKEREAVRQLAKTCDVVTAEIEHVDTYALEEVASEVKIEPSWQAIRTIQNKFNQKEHLRKYGIPMAEHRELVENTPAELAKVGEQLGYPLMLKSKTMAYDGRGNFRVNSQDDIPEALEALKDRPLYAEKWAYFKMELAVIVVKTKDEVLSYPTVETVQEDSICKLVYAPARNVSDAINQKAQELARKAVAAFDGKGVFGVEMFLLEDDSIMLCEIASRIHNSGHYTIEGCALSQFDAHLRAILDLPIPAQSLEIRQPSIMLNIIGGAAPDTHLQAAECALSIPNASIHLYSKGAAKPGRKMGHITVTAPTMHEAETHIQPLIDVVDRI 3k5n-a1-m1-cB_3k5n-a1-m1-cA Crystal structure of E.coli Pol II-abasic DNA binary complex P21189 P21189 3.15 X-RAY DIFFRACTION 29 0.992 562 (Escherichia coli) 562 (Escherichia coli) 738 759 HMAQAGFILTRHWRDTPQGTEVSFWLATDNGPLQVTLAPQESVAFIPADQVPRAQHILQGEQGFRLTPLALKDFHRQPVYGLYCRAHRQLMNYEKRLREGGVTVYEADVRPPERYLMERFITSPVWVEGDMHNGTIVNARLKPHPDYRPPLKWVSIDIETTRHGELYCIGLEGCGQRIVYMLGPENGDASSLDFELEYVASRPQLLEKLNAWFANYDPDVIIGWNVVQFDLRMLQKHAERYRLPLRLGRDNSELEWRENGVFFAQAKGRLIIDGIEALKSAFWNFSSFSLETVAQELLGERMDEIDRRFAEDKPALATYNLKNCELVTQIFHKTEIMPFLLERATVNGLPVDRHGGSVAAFGHLYFPRMHRAGYVAPNLGEVPPHDSRPGLYDSVLVLDYKSLYPSIIRTFLIDPVGLVEGMAQPDPEHSTEGFLDAWFSREKHCLPEIVTNIWHGRDEAKRQGNKPLSQALKIIMNAFYGVLGTTACRFFDPRLASSITMRGHQIMRQTKALIEAQGYDVIYGDTDSTFVWLKGAHSEEEAAKIGRALVQHVNAWWAETLQKQRLTSALELEYETHFCRFLMPRYAGLIQEGDKQRMVFKGLETVRTDWTPLAQQFQQELYLRIFRNEPYQEYVRETIDKLMAGELDARLVYRKRLRRPLSEYQRNVPPHVRAARLADEENQKRGRPLQYQNRGTIKYVWTTNGPEPLDYQRSPLDYEHYLTRQLQPVAEGILPFIE MAQAGFILTRHWRDTPQGTEVSFWLATDNGPLQVTLAPQESVAFIPADQVPRAQHILQGEQGFRLTPLALKDFHRQPVYGLYCRAHRQLMNYEKRLREGGVTVYEADVRPPERYLMERFITSPVWVEGDMHNGTIVNARLKPHPDYRPPLKWVSIDIETTRHGELYCIGLEGCGQRIVYMLGPENGDASSLDFELEYVASRPQLLEKLNAWFANYDPDVIIGWNVVQFDLRMLQKHAERYRLPLRLGRDNSELEWFFAQAKGRLIIDGIEALKSAFWNFSSFSLETVAQELLGEGWDRMDEIDRRFAEDKPALATYNLKNCELVTQIFHKTEIMPFLLERATVNGLPVDRHGGSVAAFGHLYFPRMHRAGYVAPNLGEVPPHASPGGYVMDSRPGLYDSVLVLDYKSLYPSIIRTFLIDPVGLVEGMAQPDPEHSTEGFLDAWFSREKHCLPEIVTNIWHGRDEAKRQGNKPLSQALKIIMNAFYGVLGTTACRFFDPRLASSITMRGHQIMRQTKALIEAQGYDVIYGDTDSTFVWLKGAHSEEEAAKIGRALVQHVNAWWAETLQKQRLTSALELEYETHFCRFLMPTKRYAGLIQEGDKQRMVFKGLETVRTDWTPLAQQFQQELYLRIFRNEPYQEYVRETIDKLMAGELDARLVYRKRLRRPLSEYQRNVPPHVRAARLADEENQKRGRPLQYQNRGTIKYVWTTNGPEPLDYQRSPLDYEHYLTRQLQPVAEGILPFIEDNFATLMTGQLGLF 3k5p-a1-m2-cA_3k5p-a1-m4-cA Crystal structure of amino acid-binding ACT: D-isomer specific 2-hydroxyacid dehydrogenase catalytic domain from Brucella melitensis Q2YK82 Q2YK82 2.15 X-RAY DIFFRACTION 197 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 400 400 3k5p-a1-m1-cA_3k5p-a1-m3-cA SRDRINVLLLEGISQTAVEYFKSSGYTNVTHLPKALDKADLIKAISSAHIIGIRSRTQLTEEIFAAANRLIAVGCFSVGTNQVELKAARKRGIPVFNAPFSNTRSVAELVIGEIIMLMRRIFPRSVSAHAGGWEKTAIGSREVRGKTLGIVGYGNIGSQVGNLAESLGMTVRYYDTSDKLQYGNVKPAASLDELLKTSDVVSLHVPSKLITEAKLRKMKKGAFLINNARGSDVDLEALAKVLQEGHLAGAAIDVFPVEPASNGERFSTPLQGLENVILTPHIGGSTEEAQERIGTEVTRKLVEYSDVGSTVGAVNFPQVQLPPRPTGTRFMHVHENRPGILNSLMNVFSHHHINIASQFLQTDGEVGYLVMEADGVGEASDAVLQEIREIPGTIRARLLY SRDRINVLLLEGISQTAVEYFKSSGYTNVTHLPKALDKADLIKAISSAHIIGIRSRTQLTEEIFAAANRLIAVGCFSVGTNQVELKAARKRGIPVFNAPFSNTRSVAELVIGEIIMLMRRIFPRSVSAHAGGWEKTAIGSREVRGKTLGIVGYGNIGSQVGNLAESLGMTVRYYDTSDKLQYGNVKPAASLDELLKTSDVVSLHVPSKLITEAKLRKMKKGAFLINNARGSDVDLEALAKVLQEGHLAGAAIDVFPVEPASNGERFSTPLQGLENVILTPHIGGSTEEAQERIGTEVTRKLVEYSDVGSTVGAVNFPQVQLPPRPTGTRFMHVHENRPGILNSLMNVFSHHHINIASQFLQTDGEVGYLVMEADGVGEASDAVLQEIREIPGTIRARLLY 3k5p-a1-m3-cA_3k5p-a1-m4-cA Crystal structure of amino acid-binding ACT: D-isomer specific 2-hydroxyacid dehydrogenase catalytic domain from Brucella melitensis Q2YK82 Q2YK82 2.15 X-RAY DIFFRACTION 46 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 400 400 3k5p-a1-m1-cA_3k5p-a1-m2-cA SRDRINVLLLEGISQTAVEYFKSSGYTNVTHLPKALDKADLIKAISSAHIIGIRSRTQLTEEIFAAANRLIAVGCFSVGTNQVELKAARKRGIPVFNAPFSNTRSVAELVIGEIIMLMRRIFPRSVSAHAGGWEKTAIGSREVRGKTLGIVGYGNIGSQVGNLAESLGMTVRYYDTSDKLQYGNVKPAASLDELLKTSDVVSLHVPSKLITEAKLRKMKKGAFLINNARGSDVDLEALAKVLQEGHLAGAAIDVFPVEPASNGERFSTPLQGLENVILTPHIGGSTEEAQERIGTEVTRKLVEYSDVGSTVGAVNFPQVQLPPRPTGTRFMHVHENRPGILNSLMNVFSHHHINIASQFLQTDGEVGYLVMEADGVGEASDAVLQEIREIPGTIRARLLY SRDRINVLLLEGISQTAVEYFKSSGYTNVTHLPKALDKADLIKAISSAHIIGIRSRTQLTEEIFAAANRLIAVGCFSVGTNQVELKAARKRGIPVFNAPFSNTRSVAELVIGEIIMLMRRIFPRSVSAHAGGWEKTAIGSREVRGKTLGIVGYGNIGSQVGNLAESLGMTVRYYDTSDKLQYGNVKPAASLDELLKTSDVVSLHVPSKLITEAKLRKMKKGAFLINNARGSDVDLEALAKVLQEGHLAGAAIDVFPVEPASNGERFSTPLQGLENVILTPHIGGSTEEAQERIGTEVTRKLVEYSDVGSTVGAVNFPQVQLPPRPTGTRFMHVHENRPGILNSLMNVFSHHHINIASQFLQTDGEVGYLVMEADGVGEASDAVLQEIREIPGTIRARLLY 3k5s-a1-m1-cA_3k5s-a1-m1-cB Crystal structure of chicken T-cadherin EC1 EC2 P33150 P33150 2.9 X-RAY DIFFRACTION 66 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 217 217 SILATPILIPENQRPPFPRSVGKVIRSEGTEGAKFRLSGKGVDQDPKGIFRINEISGDVSVTRPLDREAIANYQLEVEVTDLSGKIIDGPVRLDISVIDQNDNRPMFKEGPYVGHVMEGSPTGTTVMRMTAFDADDPSTDNALLRYNILKQTPTKPSPNMFYIDPEKGDIVTVVSPVLLDRETMETPKYELVIEAKDMGGHDVGLTGTATATILIDD SILATPILIPENQRPPFPRSVGKVIRSEGTEGAKFRLSGKGVDQDPKGIFRINEISGDVSVTRPLDREAIANYQLEVEVTDLSGKIIDGPVRLDISVIDQNDNRPMFKEGPYVGHVMEGSPTGTTVMRMTAFDADDPSTDNALLRYNILKQTPTKPSPNMFYIDPEKGDIVTVVSPVLLDRETMETPKYELVIEAKDMGGHDVGLTGTATATILIDD 3k5w-a3-m4-cA_3k5w-a3-m8-cA Crystal structure of a Carbohydrate kinase (YjeF family)from Helicobacter pylori P56176 P56176 2.6 X-RAY DIFFRACTION 65 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 454 454 3k5w-a3-m1-cA_3k5w-a3-m6-cA 3k5w-a3-m2-cA_3k5w-a3-m5-cA 3k5w-a3-m3-cA_3k5w-a3-m7-cA SLSVYEKVNALDKRAIEELFLSEDILENAAALERAVLQNASLGAKVIILCGSGDNGGDGYALARRLVGRFRVLVFEKLTKSPCQLQKERAKKAGVVIKTYEENNLECDVLIDCVIGSHFKGKLEPFLNFESLSQKARFKIACDIPSGIDSKGRVDKRAFKADLTISGAIKSCLLSDRAKDYVGELKVGHLGVFNPIYEIPTDTFLLEKSDLKLPLRDKKNAHKGDYGHAHVLLGKHSGAGLLSALSALSFGSGVVSVQALECEITSNNKPLELVFCENFPNLLSAFALGGLENIPKDFNRWLELAPCVLDAGVFYHKEILQALEKEAVLTPHPKEFLSLLNLVGINISLELLDNKLARDFSQKYPKVVLLLKGANTLIAHQGQVFINILGSVALAKAGSGDVLAGLILSLLSQNYTPLDAAINASLAHALASLEFKNNYALTPLDLIEKIKQLE SLSVYEKVNALDKRAIEELFLSEDILENAAALERAVLQNASLGAKVIILCGSGDNGGDGYALARRLVGRFRVLVFEKLTKSPCQLQKERAKKAGVVIKTYEENNLECDVLIDCVIGSHFKGKLEPFLNFESLSQKARFKIACDIPSGIDSKGRVDKRAFKADLTISGAIKSCLLSDRAKDYVGELKVGHLGVFNPIYEIPTDTFLLEKSDLKLPLRDKKNAHKGDYGHAHVLLGKHSGAGLLSALSALSFGSGVVSVQALECEITSNNKPLELVFCENFPNLLSAFALGGLENIPKDFNRWLELAPCVLDAGVFYHKEILQALEKEAVLTPHPKEFLSLLNLVGINISLELLDNKLARDFSQKYPKVVLLLKGANTLIAHQGQVFINILGSVALAKAGSGDVLAGLILSLLSQNYTPLDAAINASLAHALASLEFKNNYALTPLDLIEKIKQLE 3k5w-a3-m6-cA_3k5w-a3-m8-cA Crystal structure of a Carbohydrate kinase (YjeF family)from Helicobacter pylori P56176 P56176 2.6 X-RAY DIFFRACTION 84 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 454 454 3k5w-a2-m1-cA_3k5w-a2-m3-cA 3k5w-a2-m1-cA_3k5w-a2-m4-cA 3k5w-a2-m2-cA_3k5w-a2-m3-cA 3k5w-a2-m2-cA_3k5w-a2-m4-cA 3k5w-a3-m1-cA_3k5w-a3-m3-cA 3k5w-a3-m1-cA_3k5w-a3-m4-cA 3k5w-a3-m2-cA_3k5w-a3-m3-cA 3k5w-a3-m2-cA_3k5w-a3-m4-cA 3k5w-a3-m5-cA_3k5w-a3-m7-cA 3k5w-a3-m5-cA_3k5w-a3-m8-cA 3k5w-a3-m6-cA_3k5w-a3-m7-cA SLSVYEKVNALDKRAIEELFLSEDILENAAALERAVLQNASLGAKVIILCGSGDNGGDGYALARRLVGRFRVLVFEKLTKSPCQLQKERAKKAGVVIKTYEENNLECDVLIDCVIGSHFKGKLEPFLNFESLSQKARFKIACDIPSGIDSKGRVDKRAFKADLTISGAIKSCLLSDRAKDYVGELKVGHLGVFNPIYEIPTDTFLLEKSDLKLPLRDKKNAHKGDYGHAHVLLGKHSGAGLLSALSALSFGSGVVSVQALECEITSNNKPLELVFCENFPNLLSAFALGGLENIPKDFNRWLELAPCVLDAGVFYHKEILQALEKEAVLTPHPKEFLSLLNLVGINISLELLDNKLARDFSQKYPKVVLLLKGANTLIAHQGQVFINILGSVALAKAGSGDVLAGLILSLLSQNYTPLDAAINASLAHALASLEFKNNYALTPLDLIEKIKQLE SLSVYEKVNALDKRAIEELFLSEDILENAAALERAVLQNASLGAKVIILCGSGDNGGDGYALARRLVGRFRVLVFEKLTKSPCQLQKERAKKAGVVIKTYEENNLECDVLIDCVIGSHFKGKLEPFLNFESLSQKARFKIACDIPSGIDSKGRVDKRAFKADLTISGAIKSCLLSDRAKDYVGELKVGHLGVFNPIYEIPTDTFLLEKSDLKLPLRDKKNAHKGDYGHAHVLLGKHSGAGLLSALSALSFGSGVVSVQALECEITSNNKPLELVFCENFPNLLSAFALGGLENIPKDFNRWLELAPCVLDAGVFYHKEILQALEKEAVLTPHPKEFLSLLNLVGINISLELLDNKLARDFSQKYPKVVLLLKGANTLIAHQGQVFINILGSVALAKAGSGDVLAGLILSLLSQNYTPLDAAINASLAHALASLEFKNNYALTPLDLIEKIKQLE 3k5x-a2-m1-cA_3k5x-a2-m2-cA Crystal structure of dipeptidase from Streptomics coelicolor complexed with phosphinate pseudodipeptide L-Ala-D-Asp at 1.4A resolution. Q93J45 Q93J45 1.4 X-RAY DIFFRACTION 69 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 391 391 MTSLEKARELLREFPVVDGHNDLPWALREQVRYDLDARDIAADQSAHLHTDLARLRSGGVGAQYWSVYVRSDLPGAVTATLEQIDCVRRLIDRHPGELRAALTAADMEAARAEGRIASLMGAEGGHSIDNSLATLRALYALGVRYMTLTHNDNNAWADSATDEPGVGGLSAFGREVVREMNREGMLVDLSHVAATTMRDALDTSTAPVIFSHSSSRAVCDHPRNIPDDVLERLSANGGMAMVTFVPKFVLQAAVDWTAEADDNMRAHGFHHLDSSPEAMKVHAAFEERVPRPVATVSTVADHLDHMREVAGVDHLGIGGDYDGTPFTPDGLGDVSGYPNLIAELLDRGWSQSDLAKLTWKNAVRVLDAAEDVSRGLRAARGPSNATIEQLD MTSLEKARELLREFPVVDGHNDLPWALREQVRYDLDARDIAADQSAHLHTDLARLRSGGVGAQYWSVYVRSDLPGAVTATLEQIDCVRRLIDRHPGELRAALTAADMEAARAEGRIASLMGAEGGHSIDNSLATLRALYALGVRYMTLTHNDNNAWADSATDEPGVGGLSAFGREVVREMNREGMLVDLSHVAATTMRDALDTSTAPVIFSHSSSRAVCDHPRNIPDDVLERLSANGGMAMVTFVPKFVLQAAVDWTAEADDNMRAHGFHHLDSSPEAMKVHAAFEERVPRPVATVSTVADHLDHMREVAGVDHLGIGGDYDGTPFTPDGLGDVSGYPNLIAELLDRGWSQSDLAKLTWKNAVRVLDAAEDVSRGLRAARGPSNATIEQLD 3k67-a1-m1-cA_3k67-a1-m1-cB Crystal structure of protein af1124 from archaeoglobus fulgidus O29141 O29141 1.25 X-RAY DIFFRACTION 206 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 156 156 2b3m-a1-m1-cA_2b3m-a1-m2-cA GEVKMMSLLEEMKGIYSKKGGKVKPFEKFEGELKEGYRFEYEKKLCEIDVAMFGLISGDLNPVHFDEDFASKTRFGGRVVHGMLTTSLVSAAVARLPGTVVLLEQSFRYTSPVRIGDVVRVEGVVSGVEKNRYTIDVKCYTGDKVVAEGVVKVLIW GEVKMMSLLEEMKGIYSKKGGKVKPFEKFEGELKEGYRFEYEKKLCEIDVAMFGLISGDLNPVHFDEDFASKTRFGGRVVHGMLTTSLVSAAVARLPGTVVLLEQSFRYTSPVRIGDVVRVEGVVSGVEKNRYTIDVKCYTGDKVVAEGVVKVLIW 3k69-a1-m1-cA_3k69-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE TRANSCRIPTIONAL REGULATOR (LP_0360) FROM LACTOBACILLUS PLANTARUM AT 1.95 A RESOLUTION 1.95 X-RAY DIFFRACTION 142 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 147 147 KLDFSVAVHSILYLDAHRDSKVASRELAQSLHLNPVIRNILSVLHKHGYLTGTVGKNGGYQLDLALADNLGDLYDLTIPPTISYARFITGPSKADQSPIAANISETLTDLFTVADRQYRAYYHQFTADLQADLNHHGTFLQHEQDSE KLDFSVAVHSILYLDAHRDSKVASRELAQSLHLNPVIRNILSVLHKHGYLTGTVGKNGGYQLDLALADNLGDLYDLTIPPTISYARFITGPSKADQSPIAANISETLTDLFTVADRQYRAYYHQFTADLQADLNHHGTFLQHEQDSE 3k6c-a1-m1-cB_3k6c-a1-m1-cJ Crystal structure of protein ne0167 from nitrosomonas europaea Q82XT5 Q82XT5 2.2 X-RAY DIFFRACTION 14 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 88 88 3k6c-a1-m1-cA_3k6c-a1-m1-cC 3k6c-a1-m1-cA_3k6c-a1-m1-cI 3k6c-a1-m1-cB_3k6c-a1-m1-cD 3k6c-a1-m1-cC_3k6c-a1-m1-cE 3k6c-a1-m1-cE_3k6c-a1-m1-cH 3k6c-a1-m1-cF_3k6c-a1-m1-cD 3k6c-a1-m1-cF_3k6c-a1-m1-cG 3k6c-a1-m1-cH_3k6c-a1-m1-cI 3k6c-a1-m1-cJ_3k6c-a1-m1-cG DGYFEPTQELSDETRDHRAIISLREELEAVDLYNQRVNACKDKELKAILAHNRDEEKEHAALLEWIRRCDPAFDKELKDYLFTNKPIA DGYFEPTQELSDETRDHRAIISLREELEAVDLYNQRVNACKDKELKAILAHNRDEEKEHAALLEWIRRCDPAFDKELKDYLFTNKPIA 3k6c-a1-m1-cE_3k6c-a1-m1-cF Crystal structure of protein ne0167 from nitrosomonas europaea Q82XT5 Q82XT5 2.2 X-RAY DIFFRACTION 127 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 89 89 3k6c-a1-m1-cB_3k6c-a1-m1-cA 3k6c-a1-m1-cC_3k6c-a1-m1-cD 3k6c-a1-m1-cG_3k6c-a1-m1-cH 3k6c-a1-m1-cJ_3k6c-a1-m1-cI DGYFEPTQELSDETRDHRAIISLREELEAVDLYNQRVNACKDKELKAILAHNRDEEKEHAALLEWIRRCDPAFDKELKDYLFTNKPIAH DGYFEPTQELSDETRDHRAIISLREELEAVDLYNQRVNACKDKELKAILAHNRDEEKEHAALLEWIRRCDPAFDKELKDYLFTNKPIAH 3k6c-a1-m1-cJ_3k6c-a1-m1-cA Crystal structure of protein ne0167 from nitrosomonas europaea Q82XT5 Q82XT5 2.2 X-RAY DIFFRACTION 67 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 88 89 3k6c-a1-m1-cB_3k6c-a1-m1-cC 3k6c-a1-m1-cE_3k6c-a1-m1-cD 3k6c-a1-m1-cF_3k6c-a1-m1-cH 3k6c-a1-m1-cG_3k6c-a1-m1-cI DGYFEPTQELSDETRDHRAIISLREELEAVDLYNQRVNACKDKELKAILAHNRDEEKEHAALLEWIRRCDPAFDKELKDYLFTNKPIA DGYFEPTQELSDETRDHRAIISLREELEAVDLYNQRVNACKDKELKAILAHNRDEEKEHAALLEWIRRCDPAFDKELKDYLFTNKPIAH 3k6h-a1-m1-cA_3k6h-a1-m1-cB Crystal structure of a nitroreductase family protein from Agrobacterium tumefaciens str. C58 A9CIP6 A9CIP6 3.05 X-RAY DIFFRACTION 175 0.995 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 190 190 TSDIKLLDYLRVRRSTPALQLSEPGPSKGEIEEILRLAVRVPDHGKLAPWRFVVYRGEERVRLSEAALRIALEKNPDLDLQQQEAERTRFTRAPVVIAVISTAKPHFKIPEWEQVSAGAVCLNVIFAANASGFAANWLTEWLAFDPAFLAEIGVSAEEKVAGYIHIGSTTFPPVERPRPELADVVTWVGD SDIKLLDYLRVRRSTPALQLSEPGPSKGEIEEILRLAVRVPDHGKLAPWRFVVYRGEERVRLSEAALRIALEKNPDLDLQQQEAERTRFTRAPVVIAVISTAKPHFKIPEWEQVSAGAVCLNVIFAANASGFAANWLTEWLAFDPAFLAEIGVSAEEKVAGYIHIGSTTFPPVERPRPELADVVTWVGDV 3k6k-a2-m1-cC_3k6k-a2-m1-cD Crystal structure at 2.2 angstrom of HSL-homolog EstE7 from a metagenome library Q0GMU1 Q0GMU1 2.2 X-RAY DIFFRACTION 77 0.99 77133 (uncultured bacterium) 77133 (uncultured bacterium) 290 293 3k6k-a1-m1-cA_3k6k-a1-m1-cB TKMDPRDFLQLLKINAEKADQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARIS MDPRDFLQLLKINAEKAEKNLPLDQKRAGMEALCERFPRAEGVELTLTDLGGVPCIRQATDGAGAAHILYFHGGGYISGSPSTHLVLTTQLAKQSSATLWSLDYRLAPENPFPAAVDDCVAAYRALLKTAGSADRIIIAGDSAGGGLTTASMLKAKEDGLPMPAGLVMLSPFVDLTLSRWSNSNLADRDFLAEPDTLGEMSELYVGGEDRKNPLISPVYADLSGLPEMLIHVGSEEALLSDSTTLAERAGAAGVSVELKIWPDMPHVFQMYGKFVNAADISIKEICHWISARI 3k6n-a1-m2-cA_3k6n-a1-m4-cA Crystal structure of the S225E mutant Kir3.1 cytoplasmic pore domain P63250 P63250 2 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 175 175 1n9p-a1-m1-cA_1n9p-a1-m3-cA 1n9p-a1-m1-cA_1n9p-a1-m4-cA 1n9p-a1-m2-cA_1n9p-a1-m3-cA 1n9p-a1-m2-cA_1n9p-a1-m4-cA 1u4e-a1-m1-cA_1u4e-a1-m3-cA 1u4e-a1-m1-cA_1u4e-a1-m4-cA 1u4e-a1-m2-cA_1u4e-a1-m3-cA 1u4e-a1-m2-cA_1u4e-a1-m4-cA 2qks-a1-m1-cA_2qks-a1-m3-cA 2qks-a1-m1-cA_2qks-a1-m4-cA 2qks-a1-m2-cA_2qks-a1-m3-cA 2qks-a1-m2-cA_2qks-a1-m4-cA 2qks-a2-m1-cB_2qks-a2-m6-cB 2qks-a2-m1-cB_2qks-a2-m7-cB 2qks-a2-m5-cB_2qks-a2-m6-cB 2qks-a2-m5-cB_2qks-a2-m7-cB 3k6n-a1-m1-cA_3k6n-a1-m3-cA 3k6n-a1-m1-cA_3k6n-a1-m4-cA 3k6n-a1-m2-cA_3k6n-a1-m3-cA QRFVDKNGRCNVQHTLMFSEHAVISMRDGKLTLMFRVGNVEAQIRCKLLKSRQTPEGEFLPLDQLELDVGFSTGADQLFLVSPLTICHVIDAKSPFYDLSQRSMQTEQFEVVVILEGIGMTCQARTSYTEDEVLWGHRFFPVISFKVDYSQFHATFEVPTPPYSVKEQEEMLLMS QRFVDKNGRCNVQHTLMFSEHAVISMRDGKLTLMFRVGNVEAQIRCKLLKSRQTPEGEFLPLDQLELDVGFSTGADQLFLVSPLTICHVIDAKSPFYDLSQRSMQTEQFEVVVILEGIGMTCQARTSYTEDEVLWGHRFFPVISFKVDYSQFHATFEVPTPPYSVKEQEEMLLMS 3k6q-a2-m1-cC_3k6q-a2-m1-cD CRYSTAL STRUCTURE OF An antitoxin part of a putative toxin/antitoxin system (SWOL_0700) FROM SYNTROPHOMONAS WOLFEI SUBSP. WOLFEI AT 1.80 A RESOLUTION Q0AZ30 Q0AZ30 1.8 X-RAY DIFFRACTION 86 1.0 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 135 135 3k6q-a1-m1-cB_3k6q-a1-m1-cA QTINATEIRNNFSYYIDTVVRDKPIAVKRNRDVLLFFSEQIIKDLLQDLKIHAELSKEDGIIIGTIDGFDLVVSGESEQEVIQKLAEDLLEYAQDYNDFKLFYNAPNRKTHYPYILKVLLSSNIDEVKGYIYAEV QTINATEIRNNFSYYIDTVVRDKPIAVKRNRDVLLFFSEQIIKDLLQDLKIHAELSKEDGIIIGTIDGFDLVVSGESEQEVIQKLAEDLLEYAQDYNDFKLFYNAPNRKTHYPYILKVLLSSNIDEVKGYIYAEV 3k6s-a5-m1-cC_3k6s-a5-m1-cA Structure of integrin alphaXbeta2 ectodomain P20702 P20702 3.5 X-RAY DIFFRACTION 156 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 885 1082 FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPRSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPRQEQDIVFLIDGSGSISSRNFATMMNFVRAVISQFQRPSTQFSLMQFSNKFQTHFTFEEFRRSSNPLSLLASVHQLQGFTYTATAIQNVVHRLFHASYGARRDAAKILIVITDGKKEGDSLDYKDVIPMADAAGIIRYAIGVGLAFQNRNSWKELNDIASKPSQEHIFKVEDFDALKDIQNQLKEKIFAIEGTETTSSSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK 3k6s-a5-m1-cE_3k6s-a5-m1-cA Structure of integrin alphaXbeta2 ectodomain P20702 P20702 3.5 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 884 1082 FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPRSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPRQEQDIVFLIDGSGSISSRNFATMMNFVRAVISQFQRPSTQFSLMQFSNKFQTHFTFEEFRRSSNPLSLLASVHQLQGFTYTATAIQNVVHRLFHASYGARRDAAKILIVITDGKKEGDSLDYKDVIPMADAAGIIRYAIGVGLAFQNRNSWKELNDIASKPSQEHIFKVEDFDALKDIQNQLKEKIFAIEGTETTSSSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK 3k6s-a5-m1-cG_3k6s-a5-m1-cA Structure of integrin alphaXbeta2 ectodomain P20702 P20702 3.5 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 885 1082 FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPRSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPRQEQDIVFLIDGSGSISSRNFATMMNFVRAVISQFQRPSTQFSLMQFSNKFQTHFTFEEFRRSSNPLSLLASVHQLQGFTYTATAIQNVVHRLFHASYGARRDAAKILIVITDGKKEGDSLDYKDVIPMADAAGIIRYAIGVGLAFQNRNSWKELNDIASKPSQEHIFKVEDFDALKDIQNQLKEKIFAIEGTETTSSSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK 3k6y-a1-m1-cA_3k6y-a1-m2-cA Crystal structure of Rv3671c protease from M. tuberculosis, active form P9WHR9 P9WHR9 1.3 X-RAY DIFFRACTION 63 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 227 227 AVLEPFSRTPVIPVASPDPALVNNPVVAATEPSVVKIRSLAPRCQKVLEGTGFVISPDRVMTNAHVVAGSNNVTVYAGDKPFEATVVSYDPSVDVAILAVPHLPPPPLVFAAEPAKTGADVVVLGYPGGGNFTATPARIREAIRLSGPDIYGDPEPVTRDVYTIRADVEQGDSGGPLIDLNGQVLGVVFGAAIDDAETGFVLTAGEVAGQLAKIGATQPVGTGACVS AVLEPFSRTPVIPVASPDPALVNNPVVAATEPSVVKIRSLAPRCQKVLEGTGFVISPDRVMTNAHVVAGSNNVTVYAGDKPFEATVVSYDPSVDVAILAVPHLPPPPLVFAAEPAKTGADVVVLGYPGGGNFTATPARIREAIRLSGPDIYGDPEPVTRDVYTIRADVEQGDSGGPLIDLNGQVLGVVFGAAIDDAETGFVLTAGEVAGQLAKIGATQPVGTGACVS 3k6y-a2-m1-cA_3k6y-a2-m3-cA Crystal structure of Rv3671c protease from M. tuberculosis, active form P9WHR9 P9WHR9 1.3 X-RAY DIFFRACTION 69 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 227 227 AVLEPFSRTPVIPVASPDPALVNNPVVAATEPSVVKIRSLAPRCQKVLEGTGFVISPDRVMTNAHVVAGSNNVTVYAGDKPFEATVVSYDPSVDVAILAVPHLPPPPLVFAAEPAKTGADVVVLGYPGGGNFTATPARIREAIRLSGPDIYGDPEPVTRDVYTIRADVEQGDSGGPLIDLNGQVLGVVFGAAIDDAETGFVLTAGEVAGQLAKIGATQPVGTGACVS AVLEPFSRTPVIPVASPDPALVNNPVVAATEPSVVKIRSLAPRCQKVLEGTGFVISPDRVMTNAHVVAGSNNVTVYAGDKPFEATVVSYDPSVDVAILAVPHLPPPPLVFAAEPAKTGADVVVLGYPGGGNFTATPARIREAIRLSGPDIYGDPEPVTRDVYTIRADVEQGDSGGPLIDLNGQVLGVVFGAAIDDAETGFVLTAGEVAGQLAKIGATQPVGTGACVS 3k6z-a1-m1-cB_3k6z-a1-m1-cA Crystal structure of Rv3671c protease, inactive form P9WHR9 P9WHR9 1.75 X-RAY DIFFRACTION 81 0.995 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 197 198 3lt3-a3-m2-cB_3lt3-a3-m1-cA IPVASPDPALVNNPVVAATEPSVVKIRSLVLEGTGFVISPDRVMTNAHVVAGSNNVTVYAGDKPFEATVVSYDPSVDVAILAVPHLPPPPLVFAAEPAKTGADVVVLGYPGGGNFTATPARIREAIRLSGPDIYGDPEPVTRDVYTIRADVEQGDSGGPLIDLNGQVLGVVFGAAIAETGFVLTAGEVAGQLAKIGA IPVASPDPALVNNPVVAATEPSVVKIRSLLEGTGFVISPDRVMTNAHVVAGSNNVTVYAGDKPFEATVVSYDPSVDVAILAVPHLPPPPLVFAAEPAKTGADVVVLGYPGGGNFTATPARIREAIRLSGPDIYGDPEPVTRDVYTIRADVEQGDSGGPLIDLNGQVLGVVFGAAIDDAETGFVLTAGEVAGQLAKIGA 3k72-a3-m1-cC_3k72-a3-m2-cC Structure of integrin alphaX beta2 P20702 P20702 3.7 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 882 882 3k6s-a5-m1-cE_3k6s-a5-m1-cC 3k71-a5-m1-cA_3k71-a5-m1-cG 3k71-a5-m1-cE_3k71-a5-m1-cC 3k72-a3-m1-cA_3k72-a3-m2-cA FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK 3k72-a3-m2-cC_3k72-a3-m1-cA Structure of integrin alphaX beta2 P20702 P20702 3.7 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 882 884 3k6s-a5-m1-cC_3k6s-a5-m1-cG 3k71-a5-m1-cA_3k71-a5-m1-cE 3k71-a5-m1-cC_3k71-a5-m1-cG 3k72-a3-m1-cC_3k72-a3-m2-cA FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK 3k72-a3-m2-cC_3k72-a3-m2-cA Structure of integrin alphaX beta2 P20702 P20702 3.7 X-RAY DIFFRACTION 148 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 882 884 3k6s-a5-m1-cE_3k6s-a5-m1-cG 3k71-a5-m1-cA_3k71-a5-m1-cC 3k71-a5-m1-cE_3k71-a5-m1-cG 3k72-a3-m1-cC_3k72-a3-m1-cA FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK FNLDTEELTAFRVDSAGFGDSVVQYANSWVVVGAPQKITAANQTGGLYQCGYSTGACEPIGLQVPPEAVNMSLGLSLASTTSPSQLLACGPTVHHECGRNMYLTGLCFLLGPTQLTQRLPVSRQECPSSFELEMAQEGFSAVFTPDGPVLGAVGSFTWSGGAFLYPPNMSPTFINMSQENVDMRDSYLGYSTELALWKGVQSLVLGAPRYQHTGKAVIFTQVSRQWRMKAEVTGTQIGSYFGASLCSVDVDSDGSTDLVLIGAPHYYEQTRGGQVSVCPLPRGWRRWWCDAVLYGEQGHPWGRFGAALTVLGDVNGDKLTDVVIGAPGEEENRGAVYLFHGVLGPSISPSHSQRIAGSQLSSRLQYFGQALSGGQDLTQDGLVDLAVGARGQVLLLRTRPVLWVGVSMQFIPAEIPRSAFECREQVVSEQTLVQSNICLYIDKRSKNLLGSRDLQSSVTLDLALDPGRLSPRATFQETKNRSLSRVRVLGLKAHCENFNLLLPSCVEDSVTPITLRLNFTLVGKPLLAFRNLRPMLAADAQRYFTASLPFEKNCGADHICQDNLGISFSFPGLKSLLVGSNLELNAEVMVWNDGEDSYGTTITFSHPAGLSYRYVAEGQKQGQLRSLHLTCDSAPVGSQGTWSTSCRINHLIFRGGAQITFLATFDVSPKAVLGDRLLLTANVSSENNTPRTSKTTFQLELPVKYAVYTVVSSHEQFTKYLNFSESEEKESHVAMHRYQVNNLGQRDLPVSINFWVPVELNQEAVWMDVEVSHPQNPSLRCSSEKIAPPASDFLAHIQKNPVLDCSIAGCLRFRCDVPSFSVQEELDFTLKGNLSFGWVRQILQKKVSVVSVAEITFDTSVYSQLPGQEAFMRAQTTTVLEKYK 3k7d-a3-m1-cB_3k7d-a3-m1-cA C-terminal (adenylylation) domain of E.coli Glutamine Synthetase Adenylyltransferase P30870 P30870 2.4 X-RAY DIFFRACTION 63 0.998 562 (Escherichia coli) 562 (Escherichia coli) 495 497 SEQWRELWQDEDDTTPVLAHLSEDDRKQVLTLIADFRKELDKRTIGPRGRQVLDHLMPHLLSDVCAREDAAVTLSRITALLVGIVTRTTYLELLSEFPAALKHLISLCAASPMIASQLARYPLLLDELLDPNTLYQPTATDAYRDELRQYLLRVPEDDEEQQLEALRQFKQAQLLRIAAADIAGTLPVMKVSDHLTWLAEAMIDAVVQQAWVQMVARYGKPNHLNEREGRGFAVVGYGKLGGWELGYSSDLDLIFLHDCPMDAMTDGEREIDGRQFYLRLAQRIMHLFSTRTSSGILYEVDARLRPSGAAGMLVTSAEAFADYQKNEAWTWEHQALVRARVVYGDPQLTAHFDAVRREIMTLPREGKTLQTEVREMREKMRAHLGNKHRDRFDIKADEGGITDIEFITQYLVLRYAHEKPKLTRWSDNVRILELLAQNDIMEEQEAMALTRAYTTLRDELHHLALQELPGHVSEDCFTAERELVRASWQKWLVEE SEQWRELWQDALQEDDTTPVLAHLSEDDRKQVLTLIADFRKELDKRTIGPRGRQVLDHLMPHLLSDVCAREDAAVTLSRITALLVGIVTRTTYLELLSEFPAALKHLISLCAASPMIASQLARYPLLLDELLDPNTLYQPTATDAYRDELRQYLLRVPEDDEEQQLEALRQFKQAQLLRIAAADIAGTLPVMKVSDHLTWLAEAMIDAVVQQAWVQMVARYGKPNHLNEREGRGFAVVGYGKLGGWELGYSSDLDLIFLHDCPMDAMTDGEREIDGRQFYLRLAQRIMHLFSTRTSSGILYEVDARLRPSGAAGMLVTSAEAFADYQKNEAWTWEHQALVRARVVYGDPQLTAHFDAVRREIMTLPREGKTLQTEVREMREKMRAHLGNKHRDRFDIKADEGGITDIEFITQYLVLRYAHEKPKLTRWSDNVRILELLAQNDIMEEQEAMALTRAYTTLRDELHHLALQELPGHVSEDCFTAERELVRASWQKWLVE 3k7e-a1-m1-cB_3k7e-a1-m1-cC Crystal structure of human ligand-free mature caspase-6 P55212 P55212 3 X-RAY DIFFRACTION 15 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 200 212 3k7e-a1-m1-cD_3k7e-a1-m1-cA 3nkf-a1-m1-cA_3nkf-a1-m1-cD 3nkf-a1-m1-cB_3nkf-a1-m1-cC 4fxo-a1-m1-cA_4fxo-a1-m1-cD 4fxo-a1-m1-cC_4fxo-a1-m1-cB DPAEKYKMDHRRRGIALIFNHERFFWHLTLPERRGTCADRDNLTRRFSDLGFEVKCFNDLKAEELLLKIHEVSTVSHADADCFVCVFLSHGEGNHIYAYDAKIEIQTLTGLFKGDKCHSLVGKPKIFIIQACAGADFLMCYSVAEGTVNGSWYIQDLCEMLGKYGSSLEFTELLTLVNRKVSQRVPCFASMLTKKLHFFP DPAEKYKMDHRRRGIALIFNHERFFWHLTLPERRGTCADRDNLTRRFSDLGFEVKCFNDLKAEELLLKIHEVSTVSHADADCFVCVFLSHGEGNHIYAYDAKIEIQTLTGLFKGDKCHSLVGKPKIFIIQTLPAGADFLMCYSVAEGYYSHRETVNGSWYIQDLCEMLGKYGSSLEFTELLTLVNRKVSQRRGKKQVPCFASMLTKKLHFFP 3k7u-a1-m1-cC_3k7u-a1-m2-cC Structure of essential protein from Trypanosoma brucei Q38B90 Q38B90 2.1 X-RAY DIFFRACTION 66 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 98 98 3k81-a1-m1-cC_3k81-a1-m1-cD SVNSVTLVGVVHDIQSGFVYEDAVTQFTLTTTSIEKDHHTIRCFGELFSAEVKQKVKEGNVVCVNGRLRLSPQLEPSYFPYIQVQPPHGQVAVIHGDR SVNSVTLVGVVHDIQSGFVYEDAVTQFTLTTTSIEKDHHTIRCFGELFSAEVKQKVKEGNVVCVNGRLRLSPQLEPSYFPYIQVQPPHGQVAVIHGDR 3k7y-a1-m1-cA_3k7y-a1-m2-cA Aspartate Aminotransferase of Plasmodium falciparum O96142 O96142 2.8 X-RAY DIFFRACTION 215 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 405 405 MDKLLSSLENIEVDNILKTAREFKEDTCEEKINLSIGVCCNDDGDLHIFDSVLNADKLVTENYKEKPYLLGNGTEDFSTLTQNLIFGNNSKYIEDKKICTIQCIGGTGAIFVLLEFLKMLNVETLYVTNPPYINHVNMIESRGFNLKYINFFDYNLIDINYDLFLNDLRNIPNGSSVILQISCYNPCSVNIEEKYFDEIIEIVLHKKHVIIFDIAYQGFGHTNLEEDVLLIRKFEEKNIAFSVCQSFSKNMSLYGERAGALHIVCKNQEEKKIVFNNLCFIVRKFYSSPVIHTNRILCQLLNNQNLKLNWIKELSQLSQRITNNRILFFNKLETYQKKYNLNYDWNVYKKQRGLFSFVPLLAKIAEHLKTHHIYIINNGRINVSGITKNNVDYIADKICLSLSQI MDKLLSSLENIEVDNILKTAREFKEDTCEEKINLSIGVCCNDDGDLHIFDSVLNADKLVTENYKEKPYLLGNGTEDFSTLTQNLIFGNNSKYIEDKKICTIQCIGGTGAIFVLLEFLKMLNVETLYVTNPPYINHVNMIESRGFNLKYINFFDYNLIDINYDLFLNDLRNIPNGSSVILQISCYNPCSVNIEEKYFDEIIEIVLHKKHVIIFDIAYQGFGHTNLEEDVLLIRKFEEKNIAFSVCQSFSKNMSLYGERAGALHIVCKNQEEKKIVFNNLCFIVRKFYSSPVIHTNRILCQLLNNQNLKLNWIKELSQLSQRITNNRILFFNKLETYQKKYNLNYDWNVYKKQRGLFSFVPLLAKIAEHLKTHHIYIINNGRINVSGITKNNVDYIADKICLSLSQI 3k7z-a1-m1-cC_3k7z-a1-m1-cA GCN4-Leucine zipper core mutant as N16A trigonal automatic solution P03069 P03069 1.9 X-RAY DIFFRACTION 30 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 29 31 1rb4-a1-m1-cC_1rb4-a1-m1-cA KQLEDKVEELLSKAYHLENEVARLKKLVG RMKQLEDKVEELLSKAYHLENEVARLKKLVG 3k80-a1-m1-cD_3k80-a1-m1-cC Structure of essential protein from Trypanosoma brucei Q38B90 Q38B90 2.4 X-RAY DIFFRACTION 70 0.98 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 101 103 KSVNSVTLVGVVHDIQSGFVYEDAVTQFTLTTTSIQEVVVEKDHHTIRCFGELFSAEVKQKVKEGNVVCVNGRLRLSPQHFYFPYIQVQPPHGQVAVIHGD SVNSVTLVGVVHDIQSGFVYEDAVTQFTLTTTSIDTTHEVVVEKDHHTIRCFGELFSAEVKQKVKEGNVVCVNGRLRLSPQHFYFPYIQVQPPHGQVAVIHGD 3k85-a2-m1-cB_3k85-a2-m2-cB Crystal structure of a D-glycero-D-manno-heptose 1-phosphate kinase from Bacteriodes thetaiotaomicron Q8AAJ0 Q8AAJ0 2.28 X-RAY DIFFRACTION 54 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 297 297 3k85-a2-m1-cA_3k85-a2-m2-cA LVRSKAPLRLGLAGGGSDVSPYSDIYGGLILNATINLYAYCTIEETNSGRIEINAYDAQCCKSYLSSQLEIDGEASLIKGVYNRIIRDYRLEPKSFKITTYNDAPAGSGLGTSSTVVCILKAFIEWLSLPLGDYETSRLAYEIERKDLGLSGGKQDQYAAAFGGFNYEFLQNDLVIVNPLKKRWIVDELESSVLYFTQTAIEAHKIKQSAIDTKLALLKGDVGEFARILGEGWENKKKEAFDVATGAGAAGKVSGAGFIFVVEPTRKEEVVRALNNLNGFVPFQFIDDGAHGWKIYS LVRSKAPLRLGLAGGGSDVSPYSDIYGGLILNATINLYAYCTIEETNSGRIEINAYDAQCCKSYLSSQLEIDGEASLIKGVYNRIIRDYRLEPKSFKITTYNDAPAGSGLGTSSTVVCILKAFIEWLSLPLGDYETSRLAYEIERKDLGLSGGKQDQYAAAFGGFNYEFLQNDLVIVNPLKKRWIVDELESSVLYFTQTAIEAHKIKQSAIDTKLALLKGDVGEFARILGEGWENKKKEAFDVATGAGAAGKVSGAGFIFVVEPTRKEEVVRALNNLNGFVPFQFIDDGAHGWKIYS 3k85-a2-m2-cA_3k85-a2-m2-cB Crystal structure of a D-glycero-D-manno-heptose 1-phosphate kinase from Bacteriodes thetaiotaomicron Q8AAJ0 Q8AAJ0 2.28 X-RAY DIFFRACTION 33 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 297 297 3k85-a1-m1-cA_3k85-a1-m1-cB 3k85-a2-m1-cA_3k85-a2-m1-cB LVRSKAPLRLGLAGGGSDVSPYSDIYGGLILNATINLYAYCTIEETNSGRIEINAYDAQCCKSYLSSQLEIDGEASLIKGVYNRIIRDYRLEPKSFKITTYNDAPAGSGLGTSSTVVCILKAFIEWLSLPLGDYETSRLAYEIERKDLGLSGGKQDQYAAAFGGFNYEFLQNDLVIVNPLKKRWIVDELESSVLYFTQTAIEAHKIKQSAIDTKLALLKGDVGEFARILGEGWENKKKEAFDVATGAGAAGKVSGAGFIFVVEPTRKEEVVRALNNLNGFVPFQFIDDGAHGWKIYS LVRSKAPLRLGLAGGGSDVSPYSDIYGGLILNATINLYAYCTIEETNSGRIEINAYDAQCCKSYLSSQLEIDGEASLIKGVYNRIIRDYRLEPKSFKITTYNDAPAGSGLGTSSTVVCILKAFIEWLSLPLGDYETSRLAYEIERKDLGLSGGKQDQYAAAFGGFNYEFLQNDLVIVNPLKKRWIVDELESSVLYFTQTAIEAHKIKQSAIDTKLALLKGDVGEFARILGEGWENKKKEAFDVATGAGAAGKVSGAGFIFVVEPTRKEEVVRALNNLNGFVPFQFIDDGAHGWKIYS 3k88-a1-m1-cA_3k88-a1-m1-cB Crystal structure of NADH:FAD oxidoreductase (TftC) - FAD, NADH complex O87008 O87008 2 X-RAY DIFFRACTION 192 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 164 164 3k86-a1-m1-cA_3k86-a1-m1-cB 3k87-a1-m1-cA_3k87-a1-m1-cB FETVASFDFRDALSKASTPVTVVATNGPFGLAGLTCSAVCSVCDRPPTVLLCINRKSYAAGIIKSNGVLSVNWLAAGQAVISQTFAGVGSVPMEERFADKGWQTIATGAPYRMDAAVSFDCTIANIVDVGSHSVIFAEVVARNHAEECTPLIYHRRQYATTRSL FETVASFDFRDALSKASTPVTVVATNGPFGLAGLTCSAVCSVCDRPPTVLLCINRKSYAAGIIKSNGVLSVNWLAAGQAVISQTFAGVGSVPMEERFADKGWQTIATGAPYRMDAAVSFDCTIANIVDVGSHSVIFAEVVARNHAEECTPLIYHRRQYATTRSL 3k8a-a1-m1-cA_3k8a-a1-m1-cB Neisseria gonorrhoeae PriB Q5F924 Q5F924 2.7 X-RAY DIFFRACTION 111 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 100 103 MGFTNLVSLAALIEKAFPIRYTPAGIPVLDIILKHESWQEENGQQCLVQLEIPARILGRQAEEWQYRQGDCATVEGFLAQKSRRSLMPMLRIQNIKEYKG GSHMGFTNLVSLAALIEKAFPIRYTPAGIPVLDIILKHESWQEENGQQCLVQLEIPARILGRQAEEWQYRQGDCATVEGFLAQKSRRSLMPMLRIQNIKEYKG 3k8e-a2-m1-cA_3k8e-a2-m1-cB Crystal structure of E. coli lipopolysaccharide specific CMP-KDO synthetase P04951 P04951 2.51 X-RAY DIFFRACTION 85 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 242 246 1vh1-a1-m1-cB_1vh1-a1-m1-cA 1vh1-a1-m1-cC_1vh1-a1-m1-cD 3k8d-a1-m1-cA_3k8d-a1-m1-cD 3k8d-a2-m1-cB_3k8d-a2-m1-cC 3k8e-a1-m1-cD_3k8e-a1-m1-cC SFVVIIPARYASTRLPGKPLVDINGKPMIVHVLERARESGAERIIVATDHEDVARAVEAAGGEVCMTRADHQSGTERLAEVVEKCAFSDDTVIVNVQGDEPMIPATIIRQVADNLAQRQVGMATLAVPIHNAEEAFNPNAVKVVLDAEGYALYFSRATIPWDRDRFAEGVGDNFLRHLGIYGYRAGFIRRYVNWQPSPLEHIEMLEQLRVLWYGEKIHVAVAQEVPGTGVDTPEDLERVRAE SFVVIIPARYASTRLPGKPLVDINGKPMIVHVLERARESGAERIIVATDHEDVARAVEAAGGEVCMTRADHQSGTERLAEVVEKCAFSDDTVIVNVQGDEPMIPATIIRQVADNLAQRQVGMATLAVPIHNAEEAFNPNAVKVVLDAEGYALYFSRATIPWDRDRFAEGLETVGDNFLRHLGIYGYRAGFIRRYVNWQPSPLEHIEMLEQLRVLWYGEKIHVAVAQEVPGTGVDTPEDLERVRAEM 3k8i-a1-m1-cA_3k8i-a1-m2-cA Structure of crystal form IV of TP0453 O67998 O67998 2.2 X-RAY DIFFRACTION 16 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 247 247 SGAWKASVDPLGVVGSGADVYLYFPVAGNENLISRIIENHESKADIKKIVDRTTAVYGAFFARSKEFRLFGSGSYPYAFTNLIFSRSDGWASTKTEHGITYYESEHTDVSIPAPHFSCVIFGSSKRERMSKMLSRLVNPDRPQLPPRFEKECTSEGTSQTVALYIKNGGHFITKLLNFPQLNLPLGAMELYLTARRNEYLYTLSLQLFPIQFLISRVLNAHIHVEGDRLIIEDGTISAERLASVISS SGAWKASVDPLGVVGSGADVYLYFPVAGNENLISRIIENHESKADIKKIVDRTTAVYGAFFARSKEFRLFGSGSYPYAFTNLIFSRSDGWASTKTEHGITYYESEHTDVSIPAPHFSCVIFGSSKRERMSKMLSRLVNPDRPQLPPRFEKECTSEGTSQTVALYIKNGGHFITKLLNFPQLNLPLGAMELYLTARRNEYLYTLSLQLFPIQFLISRVLNAHIHVEGDRLIIEDGTISAERLASVISS 3k8j-a1-m1-cA_3k8j-a1-m2-cA Structure of crystal form III of TP0453 O67998 O67998 2.2 X-RAY DIFFRACTION 17 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 250 250 3k8h-a1-m2-cB_3k8h-a1-m1-cA KASVDPLGVVGSGADVYLYFPVAGNENLISRIIENHESKADIKKIVDRTTAVYGAFFARSKEFRLFGSGSYPYAFTNLIFSRSDGWASTKTEHGITYYESEHTDVSIPAPHFSCVIFGSSKRERMSKMLSRLVNPDRPQLPPRFEKECTSEGTSQTVALYIKNGGHFITKLLNFPQLNLPLGAMELYLTARRNEYLYTLSLQLGNAKINFPIQFLISRVLNAHIHVEGDRLIIEDGTISAERLASVISSL KASVDPLGVVGSGADVYLYFPVAGNENLISRIIENHESKADIKKIVDRTTAVYGAFFARSKEFRLFGSGSYPYAFTNLIFSRSDGWASTKTEHGITYYESEHTDVSIPAPHFSCVIFGSSKRERMSKMLSRLVNPDRPQLPPRFEKECTSEGTSQTVALYIKNGGHFITKLLNFPQLNLPLGAMELYLTARRNEYLYTLSLQLGNAKINFPIQFLISRVLNAHIHVEGDRLIIEDGTISAERLASVISSL 3k8r-a1-m1-cB_3k8r-a1-m1-cA Crystal structure of protein of unknown function (YP_427503.1) from Rhodospirillum rubrum ATCC 11170 at 2.75 A resolution Q2RRM9 Q2RRM9 2.75 X-RAY DIFFRACTION 45 0.988 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 81 83 NEPRAAKARYDRSSARVIVDLENGCTFAFPPRLAQGLEGASDDQLCAVEILGQGYGLHWETLDVDLSLPGLAGIFGTKAWA EPRAAKARYDRSSARVIVDLENGCTFAFPPRLAQGLEGASDDQLCAVEILGQGYGLHWETLDVDLSLPGLAGIFGTKAWAKRA 3k8v-a3-m2-cB_3k8v-a3-m1-cA Crysatl structure of a bacterial cell-surface flagellin N20C20 Q2PHB2 Q2PHB2 2.1 X-RAY DIFFRACTION 96 1.0 90322 (Sphingomonas sp. A1) 90322 (Sphingomonas sp. A1) 320 323 AGLAISDRMTAQIKGLTQAQRNANDGISLAQTAEGALGEISNNLQRIRELAVQASNGTNTQTDRDALQAEVTQLQSEIQRVAEQTSFNGQKLLDGSFNGVQFQIGANAGETIGVSKIMNAQTASLGGSLTRTTSTIDATDLTKYDTAMAAGDLTINGVDVGKIDAASTAQERAAQLTEAINRVSSQTNVGASYDKTTGQVTLTSNAAIAVAGAANDATVAGWANNATTGTATTTTGINSLTVSSFTNAQQTITQIDNALKDINTARADLGAVQNRFTSTVANLQSMTENLSSARGRVTDADFASETANLSRAQILQQALE DAAGLAISDRMTAQIKGLTQAQRNANDGISLAQTAEGALGEISNNLQRIRELAVQASNGTNTQTDRDALQAEVTQLQSEIQRVAEQTSFNGQKLLDGSFNGVQFQIGANAGETIGVSKIMNAQTASLGGSLTRTTSTIDATDLTKYDTAMAAGDLTINGVDVGKIDAASTAQERAAQLTEAINRVSSQTNVGASYDKTTGQVTLTSNAAIAVAGAANDATVAGWANNATTGTATTTTGINSLTVSSFTNAQQTITQIDNALKDINTARADLGAVQNRFTSTVANLQSMTENLSSARGRVTDADFASETANLSRAQILQQALEH 3k92-a1-m1-cB_3k92-a1-m1-cC Crystal structure of a E93K mutant of the majour Bacillus subtilis glutamate dehydrogenase RocG P39633 P39633 2.3 X-RAY DIFFRACTION 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 409 409 3k92-a1-m1-cD_3k92-a1-m1-cB 3k92-a1-m1-cD_3k92-a1-m1-cC 3k92-a1-m1-cE_3k92-a1-m1-cA 3k92-a1-m1-cF_3k92-a1-m1-cA 3k92-a1-m1-cF_3k92-a1-m1-cE NLFLSTQTIIKEALRKLGYPGDMYELMKEPQRMLTVRIPVKMDNGSVKVFTGYRSQHNDAVGPTKGGVRFHPEVNEEKVKALSIWMTLKCGIANLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPLVLGGSQGRETATAQGVTICIEEAVKKKGIKLQNARIIIQGFGNAGSFLAKFMHDAGAKVIGISDANGGLYNPDGLDIPYLLDKRDSFGMVTNLFTDVITNEELLEKDCDILVPAAISNQITAKNAHNIQASIVVERANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGYYWSEEEVAEKLRSVMVSSFETIYQTAATHKVDMRLAAYMTGIRKSAEASRFRGWV NLFLSTQTIIKEALRKLGYPGDMYELMKEPQRMLTVRIPVKMDNGSVKVFTGYRSQHNDAVGPTKGGVRFHPEVNEEKVKALSIWMTLKCGIANLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPLVLGGSQGRETATAQGVTICIEEAVKKKGIKLQNARIIIQGFGNAGSFLAKFMHDAGAKVIGISDANGGLYNPDGLDIPYLLDKRDSFGMVTNLFTDVITNEELLEKDCDILVPAAISNQITAKNAHNIQASIVVERANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGYYWSEEEVAEKLRSVMVSSFETIYQTAATHKVDMRLAAYMTGIRKSAEASRFRGWV 3k92-a1-m1-cE_3k92-a1-m1-cC Crystal structure of a E93K mutant of the majour Bacillus subtilis glutamate dehydrogenase RocG P39633 P39633 2.3 X-RAY DIFFRACTION 11 0.99 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 396 409 3k92-a1-m1-cD_3k92-a1-m1-cA 3k92-a1-m1-cF_3k92-a1-m1-cB KEALNLFLSTQTIIKEALRKLGYPGDMYELMKEPQRMLTVRIPVKMDNGSVKVFTGYRSQHNDAVGPTKGGVRFHPEVNEEKVKALSIWMTLKCGIANLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPLVLGGSQGRETATAQGVTICIEEAVKKKGIKLQNARIIIQGFGNAGSFLAKFMHDAGAKVIGISDANGGLYNPDGLDIPYLLTNEELLEKDCDILVPAAISNQITAKNAHNIQASIVVERANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGYYWSEEEVAEKLRSVMVSSFETIYQTAATHKVDMRLAAYMTGIRKSAEASRFRGWV NLFLSTQTIIKEALRKLGYPGDMYELMKEPQRMLTVRIPVKMDNGSVKVFTGYRSQHNDAVGPTKGGVRFHPEVNEEKVKALSIWMTLKCGIANLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPLVLGGSQGRETATAQGVTICIEEAVKKKGIKLQNARIIIQGFGNAGSFLAKFMHDAGAKVIGISDANGGLYNPDGLDIPYLLDKRDSFGMVTNLFTDVITNEELLEKDCDILVPAAISNQITAKNAHNIQASIVVERANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGYYWSEEEVAEKLRSVMVSSFETIYQTAATHKVDMRLAAYMTGIRKSAEASRFRGWV 3k92-a1-m1-cE_3k92-a1-m1-cD Crystal structure of a E93K mutant of the majour Bacillus subtilis glutamate dehydrogenase RocG P39633 P39633 2.3 X-RAY DIFFRACTION 65 0.99 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 396 406 3k92-a1-m1-cB_3k92-a1-m1-cA 3k92-a1-m1-cF_3k92-a1-m1-cC KEALNLFLSTQTIIKEALRKLGYPGDMYELMKEPQRMLTVRIPVKMDNGSVKVFTGYRSQHNDAVGPTKGGVRFHPEVNEEKVKALSIWMTLKCGIANLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPLVLGGSQGRETATAQGVTICIEEAVKKKGIKLQNARIIIQGFGNAGSFLAKFMHDAGAKVIGISDANGGLYNPDGLDIPYLLTNEELLEKDCDILVPAAISNQITAKNAHNIQASIVVERANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGYYWSEEEVAEKLRSVMVSSFETIYQTAATHKVDMRLAAYMTGIRKSAEASRFRGWV NLFLSTQTIIKEALRKLGYPGDMYELMKEPQRMLTVRIPVKMDNGSVKVFTGYRSQHNDAVGPTKGGVRFHPEVNEEKVKALSIWMTLKCGIANLPYGGGKGGIICDPRTMSFGELERLSRGYVRAISQIVGPTKDIPAPDVYTNSQIMAWMMDEYSRLREFDSPGFITGKPLVLGGSQGRETATAQGVTICIEEAVKKKGIKLQNARIIIQGFGNAGSFLAKFMHDAGAKVIGISDANGGLYNPDGLDIPYLLDKRDMVTNLFTDVITNEELLEKDCDILVPAAISNQITAKNAHNIQASIVVERANGPTTIDATKILNERGVLLVPDILASAGGVTVSYFEWVQNNQGYYWSEEEVAEKLRSVMVSSFETIYQTAATHKVDMRLAAYMTGIRKSAEASRFRGWV 3k93-a1-m2-cA_3k93-a1-m3-cA Crystal structure of phage related exonuclease (YP_719632.1) from HAEMOPHILUS SOMNUS 129PT at 2.15 A resolution Q0I4G3 Q0I4G3 2.15 X-RAY DIFFRACTION 27 1.0 205914 (Histophilus somni 129PT) 205914 (Histophilus somni 129PT) 218 218 3k93-a1-m1-cA_3k93-a1-m2-cA 3k93-a1-m1-cA_3k93-a1-m3-cA GNNLYHLKVRCSSLHKIIGEPKSKADKEAGKLTDTAKSAVREAKFDLFGYNAFEGNKYTQKGNELEEQAIKLSGVTRGLALKKNTERRENEFITGECDIYVPSRKLIIDTKCSWDIGSHPFFTDEAQEKAKKAGYDIQQGYWLWDCDQAQIDFVLFPTPLNLISAYDSDFKLIDLVEQIPQIRRITTVIIQRDNELIDKIKERVSAAQKYYDQLISES GNNLYHLKVRCSSLHKIIGEPKSKADKEAGKLTDTAKSAVREAKFDLFGYNAFEGNKYTQKGNELEEQAIKLSGVTRGLALKKNTERRENEFITGECDIYVPSRKLIIDTKCSWDIGSHPFFTDEAQEKAKKAGYDIQQGYWLWDCDQAQIDFVLFPTPLNLISAYDSDFKLIDLVEQIPQIRRITTVIIQRDNELIDKIKERVSAAQKYYDQLISES 3k94-a1-m1-cA_3k94-a1-m2-cB Crystal Structure of Thiamin pyrophosphokinase from Geobacillus thermodenitrificans, Northeast Structural Genomics Consortium Target GtR2 A4IM54 A4IM54 2.101 X-RAY DIFFRACTION 88 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 205 206 IIHIVGGGPRELLPDLRFYDGEDVWVGVDRGTTLLEAGFRPVRAFGDFDSLPAEDVVKLQQAFPDLDVWPAEKDKTDEIALDWAVEQTARIRLFGATGGRLDHLFGNVELLLKYADRPIEIVDRQNVLTVHLPGTYTVYDARYCYVSYIPVSETVAEFTLTGFKYPLTNHISRGSTLISNELIQSSGTFSFSEGILIRSSDSSCL IIHIVGGGPRELLPDLRFYDGEDVWVGVDRGTTLLEAGFRPVRAFGDFDSLPAEDVVKLQQAFPDLDVWPAEKDKTDEIALDWAVEQTARIRLFGATGGRLDHLFGNVELLLKYADRPIEIVDRQNVLTVHLPGTYTVYDARYCYVSYIPVSETVAEFTLTGFKYPLTNHISRGSTLISNELIQSSGTFSFSEGILIRSSDSSCLL 3k96-a1-m1-cB_3k96-a1-m1-cA 2.1 Angstrom resolution crystal structure of glycerol-3-phosphate dehydrogenase (gpsA) from Coxiella burnetii Q83BJ0 Q83BJ0 2.1 X-RAY DIFFRACTION 134 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 325 326 PFKHPIAILGAGSWGTALALVLARKGQKVRLWSYESDHVDEMQAEGVNNRYLPNYPFPETLKAYCDLKASLEGVTDILIVVPSFAFHEVITRMKPLIDAKTRIAWGTKGLAKGSRLLHEVVATELGQVPMAVISGPSLATEVAANLPTAVSLASNNSQFSKDLIERLHGQRFRVYKNDDMIGVELCGSVKNILAIATGISDGLKLGSNARAALITRGLTEMGRLVSVFGGKQETLTGLAGLGDLVLTCTDNQSRNRRFGLALGEGVDKKEAQQAIGQAIEGLYNTDQVHALAQKHAIEMPLTFQVHRILHEDLDPQQAVQELLER PFKHPIAILGAGSWGTALALVLARKGQKVRLWSYESDHVDEMQAEGVNNRYLPNYPFPETLKAYCDLKASLEGVTDILIVVPSFAFHEVITRMKPLIDAKTRIAWGTKGLAKGSRLLHEVVATELGQVPMAVISGPSLATEVAANLPTAVSLASNNSQFSKDLIERLHGQRFRVYKNDDMIGVELCGSVKNILAIATGISDGLKLGSNARAALITRGLTEMGRLVSVFGGKQETLTGLAGLGDLVLTCTDNQSRNRRFGLALGEGVDKKEAQQAIGQAIEGLYNTDQVHALAQKHAIEMPLTFQVHRILHEDLDPQQAVQELLERS 3k9a-a1-m2-cA_3k9a-a1-m3-cA Crystal Structure of HIV gp41 with MPER 2.1 X-RAY DIFFRACTION 53 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 82 82 3k9a-a1-m1-cA_3k9a-a1-m2-cA 3k9a-a1-m1-cA_3k9a-a1-m3-cA GSGIVQQQSNLLRAIEAQQHLLQLTVWGIKQGGGGSEWEREISNYTDIIYRLIEESQNQQEKNEQELLALDKWASLWNWFDI GSGIVQQQSNLLRAIEAQQHLLQLTVWGIKQGGGGSEWEREISNYTDIIYRLIEESQNQQEKNEQELLALDKWASLWNWFDI 3k9c-a1-m1-cA_3k9c-a1-m1-cB Crystal structure of LacI Transcriptional regulator from Rhodococcus species. Q0S5Y9 Q0S5Y9 2.14 X-RAY DIFFRACTION 78 0.996 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 261 264 RLLGVVFELQQPFHGDLVEQIYAAATRRGYDVLSAVAPSRAEKVAVQALRERCEAAILLGTRFDTDELGALADRVPALVVARASGLPGVGAVRGDDVAGITLAVDHLTELGHRNIAHIDGADAPGGADRRAGFLAADRHGLSASATVVTGGTTETEGAEGHTLLEPTPPTAVVAFNDRCATGVLDLLVRSGRDVPADISVVGYDDSRLARIPHVQTTISQDATHAEAAVDGALAQISGDKAVDLVLAPHLVRRATTGPVAH QASSRLLGVVFELQQPFHGDLVEQIYAAATRRGYDVLSAVAPSRAEKVAVQALRERCEAAILLGTRFDTDELGALADRVPALVVARASGLPGVGAVRGDDVAGITLAVDHLTELGHRNIAHIDGADAPGGADRRAGFLAADRHGLSASATVVTGGTTETEGAEGHTLLEPTPPTAVVAFNDRCATGVLDLLVRSGRDVPADISVVGYDDSRLARIPHVQTTISQDATHAEAAVDGALAQISGDKAVDLVLAPHLVRRATTGPVA 3k9d-a2-m1-cD_3k9d-a2-m1-cB CRYSTAL STRUCTURE OF PROBABLE ALDEHYDE DEHYDROGENASE FROM Listeria monocytogenes EGD-e Q8Y7U1 Q8Y7U1 2 X-RAY DIFFRACTION 237 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 453 454 3k9d-a1-m1-cA_3k9d-a1-m1-cC EDKDLRSIQEVRNLIESANKAQKELAAMSQQQIDTIVKAIADAGYGAREKLAKMAHEETGFGIWQDKVIKNVFASKHVYNYIKDMKTIGMLKEDNEKKVMEVAVPLGVVAGLIPSTNPTSTVIYKTLISIKAGNSIVFSPHPNALKAILETVRIISEAAEKAGCPKGAISCMTVPTIQGTDQLMKHKDTAVILATGGSAMVKAAYSSGTPAIGVGPGNGPAFIERSANIPRAVKHILDSKTFDNGTICASEQSVVVERVNKEAVIAEFRKQGAHFLSDAEAVQLGKFILRPNGSMNPAIVGKSVQHIANLAGLTVPADARVLIAEETKVGAKIPYSREKLAPILAFYTAETWQEACELSMDILYHEGAGHTLIIHSEDKEIIREFALKKPVSRLLVNTPGALGGIGATTNLVPALTLGCGAVGGSSSSDNIGPENLFNIRRIATGVLELEDIR LEDKDLRSIQEVRNLIESANKAQKELAAMSQQQIDTIVKAIADAGYGAREKLAKMAHEETGFGIWQDKVIKNVFASKHVYNYIKDMKTIGMLKEDNEKKVMEVAVPLGVVAGLIPSTNPTSTVIYKTLISIKAGNSIVFSPHPNALKAILETVRIISEAAEKAGCPKGAISCMTVPTIQGTDQLMKHKDTAVILATGGSAMVKAAYSSGTPAIGVGPGNGPAFIERSANIPRAVKHILDSKTFDNGTICASEQSVVVERVNKEAVIAEFRKQGAHFLSDAEAVQLGKFILRPNGSMNPAIVGKSVQHIANLAGLTVPADARVLIAEETKVGAKIPYSREKLAPILAFYTAETWQEACELSMDILYHEGAGHTLIIHSEDKEIIREFALKKPVSRLLVNTPGALGGIGATTNLVPALTLGCGAVGGSSSSDNIGPENLFNIRRIATGVLELEDIR 3k9h-a1-m1-cA_3k9h-a1-m1-cB Crystal structure of a plasmid partition protein from borrelia burgdorferi at 2.25A resolution O68233 O68233 2.25 X-RAY DIFFRACTION 67 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 229 229 3k9g-a1-m1-cA_3k9g-a1-m2-cA 5tvk-a1-m1-cA_5tvk-a1-m1-cB KKPKIITIASIKGGVGKSTSAIILATLLSKNNKVLLIDMDTQASITSYFYEKIEKLGINFTKFNIYEILKENVDIDSTIINVDNNLDLIPSYLTLHNFSEDKIEHKDFLLKTSLGTLYYKYDYIVIDTNPSLDVTLKNALLCSDYVIIPMTAEKWAVESLDLFNFFVRKLNLFLPIFLIITRFKKNRTHKTLFEILKTKDRFLGTISERENKDYIKEYENILEIFLKKI KKPKIITIASIKGGVGKSTSAIILATLLSKNNKVLLIDMDTQASITSYFYEKIEKLGINFTKFNIYEILKENVDIDSTIINVDNNLDLIPSYLTLHNFSEDKIEHKDFLLKTSLGTLYYKYDYIVIDTNPSLDVTLKNALLCSDYVIIPMTAEKWAVESLDLFNFFVRKLNLFLPIFLIITRFKKNRTHKTLFEILKTKDRFLGTISERENKDYIKEYENILEIFLKKI 3k9i-a1-m1-cA_3k9i-a1-m2-cA Crystal structure of Putative protein binding protein (NP_241345.1) from Bacillus halodurans at 2.71 A resolution Q9KFK0 Q9KFK0 2.71 X-RAY DIFFRACTION 114 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 109 109 AQAVPYYEKAIASGLQGKDLAECYLGLGSTFRTLGEYRKAEAVLANGVKQFPNHQALRVFYAVLYNLGRYEQGVELLLKIIAETSDDETIQSYKQAILFYADKLDETWK AQAVPYYEKAIASGLQGKDLAECYLGLGSTFRTLGEYRKAEAVLANGVKQFPNHQALRVFYAVLYNLGRYEQGVELLLKIIAETSDDETIQSYKQAILFYADKLDETWK 3k9k-a1-m1-cB_3k9k-a1-m1-cA Transposase domain of Metnase Q53H47 Q53H47 2.55 X-RAY DIFFRACTION 65 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 206 211 EKVKKLDKWVPHELTENQKNRRFEVSSSLILRNHNEPFLDRIVTCDEKWILYDNRHPKKVMVTIWWSAAGLIHYSFLNPGETITSEKYAQEIDEMNQKLQRLQRPILLHDNARPHVAQPTLQKLNELGYEVLPHPPYSPDLLPTNYHVFKHLNNFLQGKRFHNQQDAENAFQEFVESQSTDFYWTGINQLISRWQKCVDCNGSYFD KVKKLDKWVPHELTENQKNRRFEVSSSLILRNHNEPFLDRIVTCDEKWILYDNRPKKVMVTIWWSAAGLIHYSFLNPGETITSEKYAQEIDEMNQKLQRLQLALVRRKRPILLHDNARPHVAQPTLQKLNELGYEVLPHPPYSPDLLPTNYHVFKHLNNFLQGKRFHNQQDAENAFQEFVESQSTDFYWTGINQLISRWQKCVDCNGSYFD 3k9r-a1-m1-cB_3k9r-a1-m2-cC X-ray structure of the Rhodanese-like domain of the Alr3790 protein from Anabaena sp. Northeast Structural Genomics Consortium Target NsR437c. Q8YQN0 Q8YQN0 1.96 X-RAY DIFFRACTION 21 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 98 103 DAHVLKSRLEWGEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL IEPQSDAHVLKSRLEWGEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL 3k9r-a1-m2-cD_3k9r-a1-m1-cA X-ray structure of the Rhodanese-like domain of the Alr3790 protein from Anabaena sp. Northeast Structural Genomics Consortium Target NsR437c. Q8YQN0 Q8YQN0 1.96 X-RAY DIFFRACTION 14 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 95 96 DAHVLKSRLEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL SDAHVLKSRLEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL 3k9r-a4-m2-cD_3k9r-a4-m1-cB X-ray structure of the Rhodanese-like domain of the Alr3790 protein from Anabaena sp. Northeast Structural Genomics Consortium Target NsR437c. Q8YQN0 Q8YQN0 1.96 X-RAY DIFFRACTION 34 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 95 98 3k9r-a1-m1-cA_3k9r-a1-m2-cC 3k9r-a1-m2-cD_3k9r-a1-m1-cB 3k9r-a3-m1-cA_3k9r-a3-m2-cC DAHVLKSRLEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL DAHVLKSRLEWGEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL 3k9r-a5-m1-cD_3k9r-a5-m1-cC X-ray structure of the Rhodanese-like domain of the Alr3790 protein from Anabaena sp. Northeast Structural Genomics Consortium Target NsR437c. Q8YQN0 Q8YQN0 1.96 X-RAY DIFFRACTION 54 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 95 103 3k9r-a1-m1-cA_3k9r-a1-m1-cB 3k9r-a1-m2-cD_3k9r-a1-m2-cC 3k9r-a2-m1-cA_3k9r-a2-m1-cB DAHVLKSRLEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL IEPQSDAHVLKSRLEWGEPAFTILDVRDRSTYNDGHIGAAPIEDLVDRASSSLEKSRDIYVYGAGDEQTSQAVNLLRSAGFEHVSELKGGLAAWKAIGGPTEL 3k9t-a1-m2-cA_3k9t-a1-m3-cA Crystal structure of putative peptidase (NP_348812.1) from CLOSTRIDIUM ACETOBUTYLICUM at 2.37 A resolution Q97H19 Q97H19 2.37 X-RAY DIFFRACTION 57 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 410 410 3k9t-a1-m1-cA_3k9t-a1-m2-cA 3k9t-a1-m1-cA_3k9t-a1-m3-cA GEEINKYIQNSSETGGEIYNLIEELFPICRSITGNGVRKTDIIRKHIPLEIHEVKSGTKVFDWTVPKEWNIKDAYVRNSKGEKVIDFKENNLHVSYSVPVHKTTLDELKPYLHTIPGNKDRIPYLTSYYKENWGFSLTQNKFDELCDDDYEVVIDSSLEDGSLTYGEYYIRGELEEEILLTTYTCHPSCNDNLSGVALITFIAKALSKLKTKYSYRFLFAPETIGSITWLSRNEDKLKNIKGLVATCVGDAGIKNYKRTKFGDAEIDKIVEKVLHCGSEYYVADFFPWGSDERQFSSPGINLSVGSLRSCYGFDGYHTSADNLCYNKDGLADSYKTYLEVIYTIENNRTYLNLNPKCEPQLGKRGDEFAFWVLNSDGKNSLLDIAYKSGEFRRIKYAADALYRVELLKLV GEEINKYIQNSSETGGEIYNLIEELFPICRSITGNGVRKTDIIRKHIPLEIHEVKSGTKVFDWTVPKEWNIKDAYVRNSKGEKVIDFKENNLHVSYSVPVHKTTLDELKPYLHTIPGNKDRIPYLTSYYKENWGFSLTQNKFDELCDDDYEVVIDSSLEDGSLTYGEYYIRGELEEEILLTTYTCHPSCNDNLSGVALITFIAKALSKLKTKYSYRFLFAPETIGSITWLSRNEDKLKNIKGLVATCVGDAGIKNYKRTKFGDAEIDKIVEKVLHCGSEYYVADFFPWGSDERQFSSPGINLSVGSLRSCYGFDGYHTSADNLCYNKDGLADSYKTYLEVIYTIENNRTYLNLNPKCEPQLGKRGDEFAFWVLNSDGKNSLLDIAYKSGEFRRIKYAADALYRVELLKLV 3k9u-a1-m1-cA_3k9u-a1-m1-cB Crystal structure of paia acetyltransferase (ta0374) from thermoplasma acidophilum Q9HL57 Q9HL57 2.3 X-RAY DIFFRACTION 11 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 159 159 MSIEIRKLSIEDLETLIEVARESWKWTYAGIYSEEYIESWIREKYSKEKLLNEIVRSQSNLDILFLGAFADSTLIGFIELKIIANKAELLRLYLKPEYTHKKIGKTLLLEAEKIMKKKGILECRLYVHRQNSVGFSFYYKNGFKVEDTDGSDFIMEKKY MSIEIRKLSIEDLETLIEVARESWKWTYAGIYSEEYIESWIREKYSKEKLLNEIVRSQSNLDILFLGAFADSTLIGFIELKIIANKAELLRLYLKPEYTHKKIGKTLLLEAEKIMKKKGILECRLYVHRQNSVGFSFYYKNGFKVEDTDGSDFIMEKKY 3k9v-a3-m1-cA_3k9v-a3-m2-cB Crystal structure of rat mitochondrial P450 24A1 S57D in complex with CHAPS Q09128 Q09128 2.5 X-RAY DIFFRACTION 58 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 464 464 3k9y-a3-m1-cA_3k9y-a3-m2-cB ETRNVTDLPGPTNWPLLGSLLEIFWKGGLKKQHDTLAEYHKKYGQIFRMKLGSFDSVHLGSPSLLEALYRTESAHPQRLEIKPWKAYRDHRNEAYGLMILEGQEWQRVRSAFQKKLMKPVEIMKLDKKINEVLADFLERMDELCDERGRIPDLYSELNKWSFESICLVLYEKRFGLLQKETEEEALTFITAIKTMMSTFGKMMVTPVELHKRLNTKVWQAHTLAWDTIFKSVKPCIDNRLQRYSQQPGADFLCDIYQQDHLSKKELYAAVTELQLAAVETTANSLMWILYNLSRNPQAQRRLLQEVQSVLPDNQTPRAEDLRNMPYLKACLKESMRLTPSVPFTTRTLDKPTVLGEYALPKGTVLTLNTQVLGSSEDNFEDSHKFRPERWLQKEKKINPFAHLPFGIGKRMCIGRRLAELQLHLALCWIIQKYDIVATDNEPVEMLHLGILVPSRELPIAFRPR ETRNVTDLPGPTNWPLLGSLLEIFWKGGLKKQHDTLAEYHKKYGQIFRMKLGSFDSVHLGSPSLLEALYRTESAHPQRLEIKPWKAYRDHRNEAYGLMILEGQEWQRVRSAFQKKLMKPVEIMKLDKKINEVLADFLERMDELCDERGRIPDLYSELNKWSFESICLVLYEKRFGLLQKETEEEALTFITAIKTMMSTFGKMMVTPVELHKRLNTKVWQAHTLAWDTIFKSVKPCIDNRLQRYSQQPGADFLCDIYQQDHLSKKELYAAVTELQLAAVETTANSLMWILYNLSRNPQAQRRLLQEVQSVLPDNQTPRAEDLRNMPYLKACLKESMRLTPSVPFTTRTLDKPTVLGEYALPKGTVLTLNTQVLGSSEDNFEDSHKFRPERWLQKEKKINPFAHLPFGIGKRMCIGRRLAELQLHLALCWIIQKYDIVATDNEPVEMLHLGILVPSRELPIAFRPR 3k9w-a1-m2-cA_3k9w-a1-m6-cA Crystal structure of phosphopantetheine adenylyltransferase from Burkholderia pseudomallei with hydrolyzed 3'-dephospho Coenzyme A Q3JW91 Q3JW91 1.6 X-RAY DIFFRACTION 18 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 163 163 3k9w-a1-m1-cA_3k9w-a1-m4-cA 3k9w-a1-m3-cA_3k9w-a1-m5-cA 3pxu-a1-m1-cA_3pxu-a1-m4-cA 3pxu-a1-m2-cA_3pxu-a1-m6-cA 3pxu-a1-m3-cA_3pxu-a1-m5-cA GSMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAVSDFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA GSMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAVSDFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA 3k9w-a1-m3-cA_3k9w-a1-m6-cA Crystal structure of phosphopantetheine adenylyltransferase from Burkholderia pseudomallei with hydrolyzed 3'-dephospho Coenzyme A Q3JW91 Q3JW91 1.6 X-RAY DIFFRACTION 65 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 163 163 3k9w-a1-m1-cA_3k9w-a1-m5-cA 3k9w-a1-m2-cA_3k9w-a1-m4-cA 3pxu-a1-m1-cA_3pxu-a1-m5-cA 3pxu-a1-m2-cA_3pxu-a1-m4-cA 3pxu-a1-m3-cA_3pxu-a1-m6-cA GSMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAVSDFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA GSMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAVSDFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA 3k9w-a1-m5-cA_3k9w-a1-m6-cA Crystal structure of phosphopantetheine adenylyltransferase from Burkholderia pseudomallei with hydrolyzed 3'-dephospho Coenzyme A Q3JW91 Q3JW91 1.6 X-RAY DIFFRACTION 34 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 163 163 3k9w-a1-m1-cA_3k9w-a1-m2-cA 3k9w-a1-m1-cA_3k9w-a1-m3-cA 3k9w-a1-m2-cA_3k9w-a1-m3-cA 3k9w-a1-m4-cA_3k9w-a1-m5-cA 3k9w-a1-m4-cA_3k9w-a1-m6-cA 3pxu-a1-m1-cA_3pxu-a1-m2-cA 3pxu-a1-m1-cA_3pxu-a1-m3-cA 3pxu-a1-m2-cA_3pxu-a1-m3-cA 3pxu-a1-m4-cA_3pxu-a1-m5-cA 3pxu-a1-m4-cA_3pxu-a1-m6-cA 3pxu-a1-m5-cA_3pxu-a1-m6-cA 3pxu-a2-m10-cA_3pxu-a2-m14-cA 3pxu-a2-m10-cA_3pxu-a2-m9-cA 3pxu-a2-m11-cA_3pxu-a2-m15-cA 3pxu-a2-m11-cA_3pxu-a2-m8-cA 3pxu-a2-m12-cA_3pxu-a2-m13-cA 3pxu-a2-m12-cA_3pxu-a2-m7-cA 3pxu-a2-m13-cA_3pxu-a2-m7-cA 3pxu-a2-m14-cA_3pxu-a2-m9-cA 3pxu-a2-m15-cA_3pxu-a2-m8-cA 3pxu-a2-m16-cA_3pxu-a2-m21-cA 3pxu-a2-m16-cA_3pxu-a2-m27-cA 3pxu-a2-m17-cA_3pxu-a2-m23-cA 3pxu-a2-m17-cA_3pxu-a2-m24-cA 3pxu-a2-m18-cA_3pxu-a2-m22-cA 3pxu-a2-m18-cA_3pxu-a2-m26-cA 3pxu-a2-m19-cA_3pxu-a2-m20-cA 3pxu-a2-m19-cA_3pxu-a2-m25-cA 3pxu-a2-m1-cA_3pxu-a2-m2-cA 3pxu-a2-m1-cA_3pxu-a2-m3-cA 3pxu-a2-m20-cA_3pxu-a2-m25-cA 3pxu-a2-m21-cA_3pxu-a2-m27-cA 3pxu-a2-m22-cA_3pxu-a2-m26-cA 3pxu-a2-m23-cA_3pxu-a2-m24-cA 3pxu-a2-m2-cA_3pxu-a2-m3-cA GSMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAVSDFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA GSMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAVSDFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA 3ka5-a1-m1-cA_3ka5-a1-m1-cB Crystal structure of Ribosome-associated protein Y (PSrp-1) from Clostridium acetobutylicum. Northeast Structural Genomics Consortium target id CaR123A Q97F93 Q97F93 1.8 X-RAY DIFFRACTION 76 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 55 57 EIVKTKRFAIKPSEEEAVLEELLGHNFFVFQNGDSNEVNVVYKRKDGNYGLIEPE EIVKTKRFAIKPSEEEAVLEELLGHNFFVFQNGDSNEVNVVYKRKDGNYGLIEPELE 3kae-a2-m1-cD_3kae-a2-m1-cB Cdc27 N-terminus Q8SQV4 Q8SQV4 2.298 X-RAY DIFFRACTION 99 0.996 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 227 231 3kae-a1-m1-cA_3kae-a1-m1-cC SKLIGKICKSIRYRDYETAIFLAACLLPCKYRMLMSIVLYLNGEYTRALFHLHKLNTCTSKYYESLCYKKKKDYKKAIKSLESILEGKVERDPDVDARIQEMFVDPGDEEFFESLLGDLCTLSGYREEGIGHYVRSFGKSFLFSPVENLLLENKVPQKRGIEEEYVSDSIEFHESLSPSLVKKYMEHVPGIGSYFISNAARRYFNLGMNDKSKACFELVRRKDPMFL KLIGKICKSIRYRDYETAIFLAACLLPCKPEYRMLMSIVLYLNGEYTRALFHLHKLNTCTSKYYESLCYKKKKDYKKAIKSLESILEGKVERDPDVDARIQEMFVDPGDEEFFESLLGDLCTLSGYREEGIGHYVRSFGKSFLFSPVENLLLENKVPQKRDRRGIEEEYVSDSIEFHESLSPSLVKKYMEHVPGIGSYFISNAARRYFNLGMNDKSKACFELVRRKDPMFL 3kal-a1-m1-cB_3kal-a1-m1-cA Structure of homoglutathione synthetase from Glycine max in closed conformation with homoglutathione, ADP, a sulfate ion, and three magnesium ions bound Q9M426 Q9M426 1.9 X-RAY DIFFRACTION 88 1.0 3847 (Glycine max) 3847 (Glycine max) 468 470 3kaj-a1-m1-cB_3kaj-a1-m1-cA APPLFDYHRIDQKLLQNIVYDALVWSTLNCLLVGDKSVQRSGRVPGVGLVHLPLSLLPGPFPESHWKQGCELAPIFNELVDRVSLDGKFLQESLSRTKNADEFTSRLLDIHSKMLQINKKEDIRMGIVRSDYMIDEKTKSLLQIEMNTISTSFALIGCLMTGLHKSLLSQYGKFLGLNSNRVPANNAVDQSAEALAKAWSEYNNPRAAILVVVQVEERNMYEQHYISALLREKHHIRSIRKTLTEIDQEGKILPDGTLSVDGQAISVVYFRAGYTPKDYPSESEWRARLLMEQSSAIKCPTISYHLVGTKKIQQELAKPGVLERFVENKDHIAKLRACFAGLWSLEDSDIVKKAIENPELFVMKPQREGGGNNIYGDELRETLLKEDAAYILMQRIFPATSPAILVRDGNWDTGHVISEAGIFGTYLRNKDKIIINNESGYMVRTKISSSYEGGVLPGFGVVDTVYLT APPLFDYHRIDQKLLQNIVYDALVWSTLNCLLVGDKSVQRSGRVPGVGLVHLPLSLLPGPFPESHWKQGCELAPIFNELVDRVSLDGKFLQESLSRTKNADEFTSRLLDIHSKMLQINKKEDIRMGIVRSDYMIDEKTKSLLQIEMNTISTSFALIGCLMTGLHKSLLSQYGKFLGLNSNRVPANNAVDQSAEALAKAWSEYNNPRAAILVVVQVEERNMYEQHYISALLREKHHIRSIRKTLTEIDQEGKILPDGTLSVDGQAISVVYFRAGYTPKDYPSESEWRARLLMEQSSAIKCPTISYHLVGTKKIQQELAKPGVLERFVENKDHIAKLRACFAGLWSLEDSDIVKKAIENPELFVMKPQREGGGNNIYGDELRETLLKLQEDAAYILMQRIFPATSPAILVRDGNWDTGHVISEAGIFGTYLRNKDKIIINNESGYMVRTKISSSYEGGVLPGFGVVDTVYLT 3kay-a1-m1-cA_3kay-a1-m1-cB Crystal structure of abscisic acid receptor PYL1 Q8VZS8 Q8VZS8 2.4 X-RAY DIFFRACTION 49 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 170 175 SEFTQLSQSIAEFHTYQLGNGRCSSLLAQRIHAPPETVWSVVRRFDRPQIYKHFIKSCNVSEDFEMRVGCTRDVNVISGLPANTSRERLDLLDDDRRVTGFSITGGEHRLRNYKSVTTVHRFERIWTVVLESYVVDVPEGNSEEDTRLFADTVIRLNLQKLASITEAMNR SEFTQLSQSIAEFHTYQLGNGRCSSLLAQRIHAPPETVWSVVRRFDRPQIYKHFIKSCNVSEDFEMRVGCTRDVNVISGLPANTSRERLDLLDDDRRVTGFSITGGEHRLRNYKSVTTVHRFEKEEERIWTVVLESYVVDVPEGNSEEDTRLFADTVIRLNLQKLASITEAMNRN 3kb2-a1-m1-cB_3kb2-a1-m1-cA Crystal Structure of YorR protein in complex with phosphorylated GDP from Bacillus subtilis, Northeast Structural Genomics Consortium Target SR256 O31896 O31896 2.2 X-RAY DIFFRACTION 23 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 166 170 2axp-a1-m1-cA_2axp-a1-m1-cB TLIILEGPDCCFKSTVAAKLSKELKYPIIKGSSFELAKSGNEKLFEHFNKLADEDNVIIDRFVYSNLVYAKKFKDYSILTERQLRFIEDKIKAKAKVVYLHADPSVIKKRLRVRGDEYDIDSILELYREVSNAGLHTYSWDTGQWSSDEIAKDIIFLVELEHHHHH TLIILEGPDCCFKSTVAAKLSKELKYPIIKGSSFELAKSGNEKLFEHFNKLADEDNVIIDRFVYSNLVYAKKFKDYSILTERQLRFIEDKIKAKAKVVYLHADPSVIKKRLRVRGDEYIEGKDIDSILELYREVSNAGLHTYSWDTGQWSSDEIAKDIIFLVELEHHHHH 3kb2-a2-m2-cB_3kb2-a2-m1-cA Crystal Structure of YorR protein in complex with phosphorylated GDP from Bacillus subtilis, Northeast Structural Genomics Consortium Target SR256 O31896 O31896 2.2 X-RAY DIFFRACTION 28 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 166 170 TLIILEGPDCCFKSTVAAKLSKELKYPIIKGSSFELAKSGNEKLFEHFNKLADEDNVIIDRFVYSNLVYAKKFKDYSILTERQLRFIEDKIKAKAKVVYLHADPSVIKKRLRVRGDEYDIDSILELYREVSNAGLHTYSWDTGQWSSDEIAKDIIFLVELEHHHHH TLIILEGPDCCFKSTVAAKLSKELKYPIIKGSSFELAKSGNEKLFEHFNKLADEDNVIIDRFVYSNLVYAKKFKDYSILTERQLRFIEDKIKAKAKVVYLHADPSVIKKRLRVRGDEYIEGKDIDSILELYREVSNAGLHTYSWDTGQWSSDEIAKDIIFLVELEHHHHH 3kb5-a2-m1-cA_3kb5-a2-m2-cA PRY-SPRY domain of human TRIM72 Q6ZMU5 Q6ZMU5 1.5 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 193 RKMFRALMPALEELTFDPSSAHPSLVVSSSGRRVECSEQKAPPAGEDPRQFDKAVAVVAHQQLSEGEHYWEVDVGDKPRWALGVIAAEAPRRGRLHAVPSQGLWLLGLREGKILEAHVEAKEPRALRSPERRPTRIGLYLSFGDGVLSFYDASDADALVPLFAFHERLPRPVYPFFDVCWHDKGKNAQPLLLV RKMFRALMPALEELTFDPSSAHPSLVVSSSGRRVECSEQKAPPAGEDPRQFDKAVAVVAHQQLSEGEHYWEVDVGDKPRWALGVIAAEAPRRGRLHAVPSQGLWLLGLREGKILEAHVEAKEPRALRSPERRPTRIGLYLSFGDGVLSFYDASDADALVPLFAFHERLPRPVYPFFDVCWHDKGKNAQPLLLV 3kb6-a1-m1-cA_3kb6-a1-m1-cD Crystal structure of D-Lactate dehydrogenase from aquifex aeolicus complexed with NAD and Lactic acid O66939 O66939 2.12 X-RAY DIFFRACTION 39 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 327 327 3kb6-a1-m1-cB_3kb6-a1-m1-cC NVLFTSVPQEDVPFYQEALKDLSLKIYTTDVSKVPENELKKAELISVFVYDKLTEELLSKPRLKLIHTRSVGFDHIDLDYCKKKGILVTHIPAYSPESVAEHTFAILTLVKRLKRIEDRVKKLNFSQDSEILARELNRLTLGVIGTGRIGSRVAYGLAFGKVLCYDVVKREDLKEKGCVYTSLDELLKESDVISLHVPYTKETHHINEERISLKDGVYLINTARGKVVDTDALYRAYQRGKFSGLGLDVFEDEEILILKKYTEGKATDKNLKILELACKDNVIITPHIAYYTDKSLERIREETVKVVKAFVKGDLEQIKGNFVVGPS NVLFTSVPQEDVPFYQEALKDLSLKIYTTDVSKVPENELKKAELISVFVYDKLTEELLSKPRLKLIHTRSVGFDHIDLDYCKKKGILVTHIPAYSPESVAEHTFAILTLVKRLKRIEDRVKKLNFSQDSEILARELNRLTLGVIGTGRIGSRVAYGLAFGKVLCYDVVKREDLKEKGCVYTSLDELLKESDVISLHVPYTKETHHINEERISLKDGVYLINTARGKVVDTDALYRAYQRGKFSGLGLDVFEDEEILILKKYTEGKATDKNLKILELACKDNVIITPHIAYYTDKSLERIREETVKVVKAFVKGDLEQIKGNFVVGPS 3kb6-a1-m1-cB_3kb6-a1-m1-cD Crystal structure of D-Lactate dehydrogenase from aquifex aeolicus complexed with NAD and Lactic acid O66939 O66939 2.12 X-RAY DIFFRACTION 14 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 327 327 3kb6-a1-m1-cA_3kb6-a1-m1-cC NVLFTSVPQEDVPFYQEALKDLSLKIYTTDVSKVPENELKKAELISVFVYDKLTEELLSKPRLKLIHTRSVGFDHIDLDYCKKKGILVTHIPAYSPESVAEHTFAILTLVKRLKRIEDRVKKLNFSQDSEILARELNRLTLGVIGTGRIGSRVAYGLAFGKVLCYDVVKREDLKEKGCVYTSLDELLKESDVISLHVPYTKETHHINEERISLKDGVYLINTARGKVVDTDALYRAYQRGKFSGLGLDVFEDEEILILKKYTEGKATDKNLKILELACKDNVIITPHIAYYTDKSLERIREETVKVVKAFVKGDLEQIKGNFVVGPS NVLFTSVPQEDVPFYQEALKDLSLKIYTTDVSKVPENELKKAELISVFVYDKLTEELLSKPRLKLIHTRSVGFDHIDLDYCKKKGILVTHIPAYSPESVAEHTFAILTLVKRLKRIEDRVKKLNFSQDSEILARELNRLTLGVIGTGRIGSRVAYGLAFGKVLCYDVVKREDLKEKGCVYTSLDELLKESDVISLHVPYTKETHHINEERISLKDGVYLINTARGKVVDTDALYRAYQRGKFSGLGLDVFEDEEILILKKYTEGKATDKNLKILELACKDNVIITPHIAYYTDKSLERIREETVKVVKAFVKGDLEQIKGNFVVGPS 3kb6-a1-m1-cC_3kb6-a1-m1-cD Crystal structure of D-Lactate dehydrogenase from aquifex aeolicus complexed with NAD and Lactic acid O66939 O66939 2.12 X-RAY DIFFRACTION 148 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 327 327 3kb6-a1-m1-cA_3kb6-a1-m1-cB NVLFTSVPQEDVPFYQEALKDLSLKIYTTDVSKVPENELKKAELISVFVYDKLTEELLSKPRLKLIHTRSVGFDHIDLDYCKKKGILVTHIPAYSPESVAEHTFAILTLVKRLKRIEDRVKKLNFSQDSEILARELNRLTLGVIGTGRIGSRVAYGLAFGKVLCYDVVKREDLKEKGCVYTSLDELLKESDVISLHVPYTKETHHINEERISLKDGVYLINTARGKVVDTDALYRAYQRGKFSGLGLDVFEDEEILILKKYTEGKATDKNLKILELACKDNVIITPHIAYYTDKSLERIREETVKVVKAFVKGDLEQIKGNFVVGPS NVLFTSVPQEDVPFYQEALKDLSLKIYTTDVSKVPENELKKAELISVFVYDKLTEELLSKPRLKLIHTRSVGFDHIDLDYCKKKGILVTHIPAYSPESVAEHTFAILTLVKRLKRIEDRVKKLNFSQDSEILARELNRLTLGVIGTGRIGSRVAYGLAFGKVLCYDVVKREDLKEKGCVYTSLDELLKESDVISLHVPYTKETHHINEERISLKDGVYLINTARGKVVDTDALYRAYQRGKFSGLGLDVFEDEEILILKKYTEGKATDKNLKILELACKDNVIITPHIAYYTDKSLERIREETVKVVKAFVKGDLEQIKGNFVVGPS 3kbe-a1-m1-cA_3kbe-a1-m2-cA Metal-free C. elegans Cu,Zn Superoxide Dismutase P34697 P34697 1.1 X-RAY DIFFRACTION 69 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 140 140 SNRAVAVLRGETVTGTIWITQKSENDQAVIEGEIKGLTPGLHGFHVHQYGDSTNGCISAGPHFNPFGKTHGGPKSEIRHVGDLGNVEAGADGVAKIKLTDTLVTLYGPNTVVGRSMVVHAGTGNAGARAACGVIALAAPQ SNRAVAVLRGETVTGTIWITQKSENDQAVIEGEIKGLTPGLHGFHVHQYGDSTNGCISAGPHFNPFGKTHGGPKSEIRHVGDLGNVEAGADGVAKIKLTDTLVTLYGPNTVVGRSMVVHAGTGNAGARAACGVIALAAPQ 3kbf-a1-m1-cA_3kbf-a1-m2-cA C. elegans Cu,Zn Superoxide Dismutase P34697 P34697 1.3 X-RAY DIFFRACTION 73 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 156 156 SNRAVAVLRGETVTGTIWITQKSENDQAVIEGEIKGLTPGLHGFHVHQYGDSTNGCISAGPHFNPFGKTHGGPKSEIRHVGDLGNVEAGADGVAKIKLTDTLVTLYGPNTVVGRSMVVHAGQDDLGEGVGDKAEESKKTGNAGARAACGVIALAAP SNRAVAVLRGETVTGTIWITQKSENDQAVIEGEIKGLTPGLHGFHVHQYGDSTNGCISAGPHFNPFGKTHGGPKSEIRHVGDLGNVEAGADGVAKIKLTDTLVTLYGPNTVVGRSMVVHAGQDDLGEGVGDKAEESKKTGNAGARAACGVIALAAP 3kbg-a2-m1-cA_3kbg-a2-m2-cA Crystal structure of the 30S ribosomal protein S4e from Thermoplasma acidophilum. Northeast Structural Genomics Consortium Target TaR28. Q56230 Q56230 1.75 X-RAY DIFFRACTION 73 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 186 186 KDQSVTLLSIIRDYLKLSDKEREAARILANGLVKVDGKTVREKKFAVGFDVIEINGESYRVVYNDQGALVLKETKERASKLLKVRSKVIAPGNRIQLGTHDGRTFITDDKSIKVGDVLAVSVPDKISEIIKQPGNKAYITAGSHVNQTGTISKIEAKEGSNLVHFQEGFSTIKDHVFIGSSKFSFV KDQSVTLLSIIRDYLKLSDKEREAARILANGLVKVDGKTVREKKFAVGFDVIEINGESYRVVYNDQGALVLKETKERASKLLKVRSKVIAPGNRIQLGTHDGRTFITDDKSIKVGDVLAVSVPDKISEIIKQPGNKAYITAGSHVNQTGTISKIEAKEGSNLVHFQEGFSTIKDHVFIGSSKFSFV 3kbh-a2-m1-cB_3kbh-a2-m1-cD Crystal structure of NL63 respiratory coronavirus receptor-binding domain complexed with its human receptor Q9BYF1 Q9BYF1 3.31 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 593 593 3kbh-a1-m1-cA_3kbh-a1-m1-cC STIEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNTEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYA STIEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNTEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYA 3kbo-a1-m1-cA_3kbo-a1-m1-cD 2.14 Angstrom Crystal Structure of Putative Oxidoreductase (ycdW) from Salmonella typhimurium in Complex with NADP Q8ZQ30 Q8ZQ30 2.14 X-RAY DIFFRACTION 77 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 304 304 3kbo-a2-m1-cB_3kbo-a2-m1-cC 3pp8-a1-m1-cA_3pp8-a1-m2-cA EIIFYHPTFNAAWWVNALEKALPHARVREWKVGDNNPADYALVWQPPVELAGRRLKAVFVLGAGVDAILSKLNAHPELDASIPLFRLEDTGGLQQEYAVSQVLHWFRRFDDYQALKNQALWKPLPEYTREEFSVGIGAGVLGAKVAESLQAWGFPLRCWSRSRKSWPGVESYVGREELRAFLNQTRVLINLLPNTAQTVGIINSELLDQLPDGAYVLNLARGVHVQEADLLAALDSGKLKGALDVFSQEPLPQESPLWRHPRVATPHIAAVTRPAEAIDYISRTITQLEKGEPVTGQVDRARGY EIIFYHPTFNAAWWVNALEKALPHARVREWKVGDNNPADYALVWQPPVELAGRRLKAVFVLGAGVDAILSKLNAHPELDASIPLFRLEDTGGLQQEYAVSQVLHWFRRFDDYQALKNQALWKPLPEYTREEFSVGIGAGVLGAKVAESLQAWGFPLRCWSRSRKSWPGVESYVGREELRAFLNQTRVLINLLPNTAQTVGIINSELLDQLPDGAYVLNLARGVHVQEADLLAALDSGKLKGALDVFSQEPLPQESPLWRHPRVATPHIAAVTRPAEAIDYISRTITQLEKGEPVTGQVDRARGY 3kbq-a1-m1-cA_3kbq-a1-m1-cB The crystal structure of the protein CinA with unknown function from Thermoplasma acidophilum Q9HKV6 Q9HKV6 2 X-RAY DIFFRACTION 83 0.994 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 164 169 KNASVITVGNEILKGRTVNTNAAFIGNFLTYHGYQVRRGFVVMDDLDEIGWAFRVALEVSDLVVSSGGLGPTFDDMTVEGFAKCIGQDLRIDEDALAMIKKKYGLTPQRLKMAKIPPSCRPIENPVGTAPGLICAVGGKKVIILPGVPKEMEALLKAMEKDIII SNAKNASVITVGNEILKGRTVNTNAAFIGNFLTYHGYQVRRGFVVMDDLDEIGWAFRVALEVSDLVVSSGGLGPTFDDMTVEGFAKCIGQDLRIDEDALAMIKKKYGQADLTPQRLKMAKIPPSCRPIENPVGTAPGLICAVGGKKVIILPGVPKEMEALLKAMEKDII 3kby-a1-m1-cA_3kby-a1-m1-cB Crystal structure of hypothetical protein from Staphylococcus aureus Q7WTC8 Q7WTC8 1.8 X-RAY DIFFRACTION 56 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 138 138 GSHFNLEQQIIHSQDAHFRSEFFYVNHEHRENYEALLIYYKNSIDNPIVDGACYILALPEIFNSVDVFESELPFSWVYDENGITETKSLSIPLQYLVAAALEVTDVNIFKPSGFTGNNWNIAQRIFWQYTAIIRKEAL GSHFNLEQQIIHSQDAHFRSEFFYVNHEHRENYEALLIYYKNSIDNPIVDGACYILALPEIFNSVDVFESELPFSWVYDENGITETKSLSIPLQYLVAAALEVTDVNIFKPSGFTGNNWNIAQRIFWQYTAIIRKEAL 3kcc-a1-m1-cB_3kcc-a1-m1-cA Crystal structure of D138L mutant of Catabolite Gene Activator Protein P0ACJ8 P0ACJ8 1.66 X-RAY DIFFRACTION 108 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 198 199 1cgp-a1-m1-cA_1cgp-a1-m1-cB 1g6n-a1-m1-cA_1g6n-a1-m1-cB 1hw5-a1-m1-cB_1hw5-a1-m1-cA 1i5z-a1-m1-cA_1i5z-a1-m1-cB 1i6x-a1-m1-cB_1i6x-a1-m1-cA 1j59-a1-m1-cB_1j59-a1-m1-cA 1lb2-a1-m1-cA_1lb2-a1-m2-cA 1o3q-a1-m1-cA_1o3q-a1-m2-cA 1o3r-a1-m1-cA_1o3r-a1-m2-cA 1o3s-a1-m1-cA_1o3s-a1-m2-cA 1o3t-a1-m1-cB_1o3t-a1-m1-cA 1run-a1-m1-cB_1run-a1-m1-cA 1ruo-a1-m1-cA_1ruo-a1-m1-cB 1zrc-a1-m1-cA_1zrc-a1-m1-cB 1zrd-a1-m1-cA_1zrd-a1-m1-cB 1zre-a1-m1-cA_1zre-a1-m1-cB 1zrf-a1-m1-cB_1zrf-a1-m1-cA 2cgp-a1-m1-cA_2cgp-a1-m2-cA 2gzw-a1-m1-cB_2gzw-a1-m1-cA 2gzw-a2-m1-cC_2gzw-a2-m1-cD 2wc2-a1-m1-cA_2wc2-a1-m1-cB 3iyd-a1-m1-cG_3iyd-a1-m1-cH 3n4m-a1-m1-cA_3n4m-a1-m2-cA 3qop-a1-m1-cA_3qop-a1-m1-cB 3rdi-a1-m1-cA_3rdi-a1-m1-cB 3rou-a1-m1-cB_3rou-a1-m1-cA 3rpq-a1-m1-cA_3rpq-a1-m1-cB 3ryp-a1-m1-cA_3ryp-a1-m1-cB 3ryr-a1-m1-cA_3ryr-a1-m1-cB 4ft8-a1-m1-cA_4ft8-a1-m1-cB 4hzf-a1-m1-cA_4hzf-a1-m1-cB 4i01-a1-m1-cB_4i01-a1-m1-cA 4i02-a1-m1-cE_4i02-a1-m1-cA 4i02-a2-m2-cC_4i02-a2-m1-cB 4i02-a3-m3-cF_4i02-a3-m1-cD 4i09-a1-m1-cB_4i09-a1-m1-cA 4i0a-a1-m1-cA_4i0a-a1-m1-cB 4i0b-a1-m1-cA_4i0b-a1-m1-cB 4r8h-a1-m1-cA_4r8h-a1-m1-cB 5ciz-a1-m1-cA_5ciz-a1-m2-cA 6b6h-a1-m1-cG_6b6h-a1-m1-cH 6dt4-a1-m1-cB_6dt4-a1-m1-cA 6pb4-a1-m1-cG_6pb4-a1-m1-cH 6pb5-a1-m1-cG_6pb5-a1-m1-cH 6pb6-a1-m1-cG_6pb6-a1-m1-cH PTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLLVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVY DPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLLVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVY 3kch-a3-m1-cC_3kch-a3-m4-cC Baranase crosslinked by glutaraldehyde P00648 P00648 1.94 X-RAY DIFFRACTION 25 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 108 108 3kch-a1-m1-cA_3kch-a1-m2-cA 3kch-a2-m1-cB_3kch-a2-m3-cB VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR VINTFDGVADYLQTYHKLPDNYITKSEAQALGWVASKGNLADVAPGKSIGGDIFSNREGKLPGKSGRTWREADINYTSGFRNSDRILYSSDWLIYKTTDHYQTFTKIR 3kcn-a1-m1-cA_3kcn-a1-m1-cB The crystal structure of adenylate cyclase from Rhodopirellula baltica Q7UJS6 Q7UJS6 2.45 X-RAY DIFFRACTION 31 1.0 265606 (Rhodopirellula baltica) 265606 (Rhodopirellula baltica) 128 130 LNERILLVDDDYSLLNTLKRNLSFDFEVTTCESGPEALACIKKSDPFSVIVDRPGEGTEVIQKARLISPNSVYLLTGNQDLTTAEAVNEGQVFRFLNKPCQSDIKAAINAGIKQYDLVTSKEELLKKT LNERILLVDDDYSLLNTLKRNLSFDFEVTTCESGPEALACIKKSDPFSVIVDRPGEGTEVIQKARLISPNSVYLLTGNQDLTTAEAVNEGQVFRFLNKPCQSDIKAAINAGIKQYDLVTSKEELLKKTFA 3kcq-a2-m1-cB_3kcq-a2-m3-cD Crystal structure of phosphoribosylglycinamide formyltransferase from anaplasma phagocytophilum Q2GLA4 Q2GLA4 2.2 X-RAY DIFFRACTION 78 0.995 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 204 204 3kcq-a1-m1-cA_3kcq-a1-m2-cC KELRVGVLISGRGSNLEALAKAFSTSVVISCVISNNAEARGLLIAQSYGIPTFVVKRKPLDIEHISTVLREHDVDLVCLAGFMSILPEKFVTDWHHKIINIHPSLLPSFKGLNAQEQAYKAGVKIAGCTLHYVYQELDAGPIIMQAAVPVLREDTAESLASRILAAEHVCYPKGVKLIAQDKIKLCDDGTVQCTGEDELFLFQE KELRVGVLISGRGSNLEALAKAFSSSVVISCVISNNAEARGLLIAQSYGIPTFVVKRKPLDIEHISTVLREHDVDLVCLAGFMSILPEKFVTDWHHKIINIHPSLLPSFKGLNAQEQAYKAGVKIAGCTLHYVYQELDAGPIIMQAAVPVLREDTAESLASRILAAEHVCYPKGVKLIAQDKIKLCDDGTVQCTGEDELFLFQE 3kcu-a1-m1-cA_3kcu-a1-m1-cB Structure of formate channel P0AC25 P0AC25 2.243 X-RAY DIFFRACTION 110 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 252 252 3kcu-a1-m1-cC_3kcu-a1-m1-cB 3kcu-a1-m1-cC_3kcu-a1-m1-cD 3kcu-a1-m1-cD_3kcu-a1-m1-cE 3kcu-a1-m1-cE_3kcu-a1-m1-cA 3kcv-a1-m1-cA_3kcv-a1-m1-cB 3kcv-a1-m1-cA_3kcv-a1-m1-cE 3kcv-a1-m1-cB_3kcv-a1-m1-cC 3kcv-a1-m1-cC_3kcv-a1-m1-cD 3kcv-a1-m1-cD_3kcv-a1-m1-cE 3kcv-a2-m1-cF_3kcv-a2-m1-cG 3kcv-a2-m1-cG_3kcv-a2-m1-cH 3kcv-a2-m1-cH_3kcv-a2-m1-cI 3kcv-a2-m1-cJ_3kcv-a2-m1-cF 3kcv-a2-m1-cJ_3kcv-a2-m1-cI 3q7k-a1-m1-cB_3q7k-a1-m1-cA 3q7k-a1-m1-cB_3q7k-a1-m1-cC 3q7k-a1-m1-cD_3q7k-a1-m1-cC 3q7k-a1-m1-cE_3q7k-a1-m1-cA 3q7k-a1-m1-cE_3q7k-a1-m1-cD 3q7k-a2-m1-cG_3q7k-a2-m1-cH 3q7k-a2-m1-cG_3q7k-a2-m1-cK 3q7k-a2-m1-cI_3q7k-a2-m1-cH 3q7k-a2-m1-cI_3q7k-a2-m1-cJ 3q7k-a2-m1-cK_3q7k-a2-m1-cJ KHPLKTFYLAITAGVFISIAFVFYITATTGTGTMPFGMAKLVGGICFSLGLILCVVCGADLFTSTVLIVVAKASGRITWGQLAKNWLNVYFGNLVGALLFVLLMWLSGEYMTANGQWGLNVLQTADHKVHHTFIEAVCLGILANLMVCLAVWMSYSGRSLMDKAFIMVLPVAMFVASGFEHSIANMFMIPMGIVIRDFASPEFWTAVGSAPENFSHLTVMNFITDNLIPVTIGNIIGGGLLVGLTYWVIYLR KHPLKTFYLAITAGVFISIAFVFYITATTGTGTMPFGMAKLVGGICFSLGLILCVVCGADLFTSTVLIVVAKASGRITWGQLAKNWLNVYFGNLVGALLFVLLMWLSGEYMTANGQWGLNVLQTADHKVHHTFIEAVCLGILANLMVCLAVWMSYSGRSLMDKAFIMVLPVAMFVASGFEHSIANMFMIPMGIVIRDFASPEFWTAVGSAPENFSHLTVMNFITDNLIPVTIGNIIGGGLLVGLTYWVIYLR 3kcw-a1-m1-cA_3kcw-a1-m2-cA Crystal structure of Ganoderma fungal immunomodulatory protein, GMI E7FH75 E7FH75 2 X-RAY DIFFRACTION 102 1.0 34462 (Ganoderma microsporum) 34462 (Ganoderma microsporum) 110 110 7wdm-a1-m1-cA_7wdm-a1-m3-cA 7wdm-a1-m2-cA_7wdm-a1-m4-cA SDTALIFTLAWNVKQLAFDYTPNWGRGRPSSFIDTVTFPTVLTDKAYTYRVVVSGKDLGVRPSYAVESDGSQKINFLEYNSGYGIADTNTIQVYVIDPDTGNNFIVAQWN SDTALIFTLAWNVKQLAFDYTPNWGRGRPSSFIDTVTFPTVLTDKAYTYRVVVSGKDLGVRPSYAVESDGSQKINFLEYNSGYGIADTNTIQVYVIDPDTGNNFIVAQWN 3kd4-a3-m1-cB_3kd4-a3-m2-cB CRYSTAL STRUCTURE OF A PUTATIVE PROTEASE (BDI_1141) FROM PARABACTEROIDES DISTASONIS ATCC 8503 AT 2.00 A RESOLUTION A6LB40 A6LB40 2 X-RAY DIFFRACTION 36 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 497 497 AASEAEYGKVSKAWTLHADGSQEYRSSELTLFTHTANSTYGESFIVYNPDFQTLKIHSSYTRQKDGTIVKTPDNAFVEVLPRFAADAPAYNQLKEVVVHTGLELGATIYLDYSIITKPGYYPALDINERLQETSPVKECKVSISVPEGTPLACGLYGSPVKAVEESHDGIKEVHWTLRNIPASSREAFQPKNREASPHLVASTYPSGKAALATLDKRLKESQGYESKTFAQFLTDKSGNEQEKVNIIRDHILNNLSTCPIPATGYTVRDIDTVLRSAYGTPLEIAQLLNVLNAAGIPSEVLAVYPGHLDTDACGLAAIQTLAVKATVDGKDQYLSASPLTNRGGLDKVVSLSGTSIEIETTPIQIKESRSVAISADQAKDGFAICVLPAISAGIDSWGSALNSKRSNLFELPSLIREEVTYTVTPAEGKLQTSTQEQVISKPFGKVTRTITPRGNTIEVVRTIELNKQQFTPAEYSDVRSLIHEWTNPDNRVLLFSL AASEAEYGKVSKAWTLHADGSQEYRSSELTLFTHTANSTYGESFIVYNPDFQTLKIHSSYTRQKDGTIVKTPDNAFVEVLPRFAADAPAYNQLKEVVVHTGLELGATIYLDYSIITKPGYYPALDINERLQETSPVKECKVSISVPEGTPLACGLYGSPVKAVEESHDGIKEVHWTLRNIPASSREAFQPKNREASPHLVASTYPSGKAALATLDKRLKESQGYESKTFAQFLTDKSGNEQEKVNIIRDHILNNLSTCPIPATGYTVRDIDTVLRSAYGTPLEIAQLLNVLNAAGIPSEVLAVYPGHLDTDACGLAAIQTLAVKATVDGKDQYLSASPLTNRGGLDKVVSLSGTSIEIETTPIQIKESRSVAISADQAKDGFAICVLPAISAGIDSWGSALNSKRSNLFELPSLIREEVTYTVTPAEGKLQTSTQEQVISKPFGKVTRTITPRGNTIEVVRTIELNKQQFTPAEYSDVRSLIHEWTNPDNRVLLFSL 3kd6-a1-m1-cB_3kd6-a1-m1-cA Crystal Structure of Nucleoside Kinase from Chlorobium tepidum in Complex with AMP Q8KDR9 Q8KDR9 1.88 X-RAY DIFFRACTION 23 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 292 294 SLLVIGSLAFDDIETPFGRSDNTLGGSSTYIALSASYFTDEPIRVGVVGSDFGKEHFDLLHAKNIDTRGIQVIEDGKTFRWAGRYHYDNTRDTLDTQLNVFAEFDPHVPQYYRDSKFVCLGNIDPELQLKVLDQIDDPKLVVCDTNFWIEGKPEELKKVLARVDVFIVNDSEARLLSGDPNLVKTARIIREGPKTLIIKKGEHGALLFTDNGIFAAPAFPLESIYDPTGAGDTFAGGFIGHLARCGNTSEAERKAVLYGSAASFCVEQFGPYRYNDLDLLEVDDRYQSFLEL LSLLVIGSLAFDDIETPFGRSDNTLGGSSTYIALSASYFTDEPIRVGVVGSDFGKEHFDLLHAKNIDTRGIQVIEDGKTFRWAGRYHYDNTRDTLDTQLNVFAEFDPHVPQYYRDSKFVCLGNIDPELQLKVLDQIDDPKLVVCDTNFWIEGKPEELKKVLARVDVFIVNDSEARLLSGDPNLVKTARIIREGPKTLIIKKGEHGALLFTDNGIFAAPAFPLESIYDPTGAGDTFAGGFIGHLARCGNTSEAERKAVLYGSAASFCVEQFGPYRYNDLDLLEVDDRYQSFLELS 3kd6-a2-m2-cB_3kd6-a2-m1-cA Crystal Structure of Nucleoside Kinase from Chlorobium tepidum in Complex with AMP Q8KDR9 Q8KDR9 1.88 X-RAY DIFFRACTION 83 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 292 294 SLLVIGSLAFDDIETPFGRSDNTLGGSSTYIALSASYFTDEPIRVGVVGSDFGKEHFDLLHAKNIDTRGIQVIEDGKTFRWAGRYHYDNTRDTLDTQLNVFAEFDPHVPQYYRDSKFVCLGNIDPELQLKVLDQIDDPKLVVCDTNFWIEGKPEELKKVLARVDVFIVNDSEARLLSGDPNLVKTARIIREGPKTLIIKKGEHGALLFTDNGIFAAPAFPLESIYDPTGAGDTFAGGFIGHLARCGNTSEAERKAVLYGSAASFCVEQFGPYRYNDLDLLEVDDRYQSFLEL LSLLVIGSLAFDDIETPFGRSDNTLGGSSTYIALSASYFTDEPIRVGVVGSDFGKEHFDLLHAKNIDTRGIQVIEDGKTFRWAGRYHYDNTRDTLDTQLNVFAEFDPHVPQYYRDSKFVCLGNIDPELQLKVLDQIDDPKLVVCDTNFWIEGKPEELKKVLARVDVFIVNDSEARLLSGDPNLVKTARIIREGPKTLIIKKGEHGALLFTDNGIFAAPAFPLESIYDPTGAGDTFAGGFIGHLARCGNTSEAERKAVLYGSAASFCVEQFGPYRYNDLDLLEVDDRYQSFLELS 3kdk-a1-m1-cB_3kdk-a1-m1-cA Structure of the C-terminal domain of Bacillus subtilis MutL bound to Zn2+ P49850 P49850 2.26 X-RAY DIFFRACTION 56 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 184 186 3gab-a1-m1-cA_3gab-a1-m2-cA 3gab-a2-m1-cB_3gab-a2-m1-cC 3gab-a3-m1-cD_3gab-a3-m2-cD 3kdg-a1-m1-cB_3kdg-a1-m1-cA RVPIMYPIGQMHGTYILAQNENGLYIIDQHAAQERIKYEYFREKVGEVEPEVQEMIVPLTFHYSTNEALIIEQHKQELESVGVFLESFGSNSYIVRCHPAWFPKGEEAELIEEIIQQVLDSKNIDIKKLREEAAIMMSCKRHLRNDEIKALLDDLRSTSDPFTCPHGRPIIIHHSTYEMEKMFK MDRVPIMYPIGQMHGTYILAQNENGLYIIDQHAAQERIKYEYFREKVGEVEPEVQEMIVPLTFHYSTNEALIIEQHKQELESVGVFLESFGSNSYIVRCHPAWFPKGEEAELIEEIIQQVLDSKNIDIKKLREEAAIMMSCKRHLRNDEIKALLDDLRSTSDPFTCPHGRPIIIHHSTYEMEKMFK 3kdn-a1-m1-cD_3kdn-a1-m1-cJ Crystal structure of Type III Rubisco SP4 mutant complexed with 2-CABP O93627 O93627 2.09 X-RAY DIFFRACTION 349 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 436 436 1geh-a1-m1-cA_1geh-a1-m2-cE 1geh-a1-m1-cB_1geh-a1-m2-cD 1geh-a1-m1-cC_1geh-a1-m2-cC 1geh-a1-m1-cD_1geh-a1-m2-cB 1geh-a1-m1-cE_1geh-a1-m2-cA 3a12-a1-m1-cA_3a12-a1-m2-cC 3a12-a1-m1-cB_3a12-a1-m2-cB 3a12-a1-m1-cD_3a12-a1-m2-cE 3a12-a1-m1-cE_3a12-a1-m2-cD 3a12-a1-m2-cA_3a12-a1-m1-cC 3a12-a2-m1-cF_3a12-a2-m3-cH 3a12-a2-m1-cG_3a12-a2-m3-cG 3a12-a2-m1-cI_3a12-a2-m3-cJ 3a12-a2-m3-cF_3a12-a2-m1-cH 3a12-a2-m3-cI_3a12-a2-m1-cJ 3a13-a1-m1-cA_3a13-a1-m2-cC 3a13-a1-m1-cB_3a13-a1-m2-cB 3a13-a1-m1-cE_3a13-a1-m2-cD 3a13-a1-m2-cA_3a13-a1-m1-cC 3a13-a1-m2-cE_3a13-a1-m1-cD 3a13-a2-m1-cF_3a13-a2-m3-cH 3a13-a2-m1-cG_3a13-a2-m3-cG 3a13-a2-m1-cJ_3a13-a2-m3-cI 3a13-a2-m3-cF_3a13-a2-m1-cH 3a13-a2-m3-cJ_3a13-a2-m1-cI 3kdn-a1-m1-cA_3kdn-a1-m1-cH 3kdn-a1-m1-cB_3kdn-a1-m1-cG 3kdn-a1-m1-cC_3kdn-a1-m1-cF 3kdn-a1-m1-cI_3kdn-a1-m1-cE 3kdo-a1-m1-cA_3kdo-a1-m1-cH 3kdo-a1-m1-cD_3kdo-a1-m1-cJ 3kdo-a1-m1-cF_3kdo-a1-m1-cC 3kdo-a1-m1-cG_3kdo-a1-m1-cB 3kdo-a1-m1-cI_3kdo-a1-m1-cE 3wqp-a1-m1-cA_3wqp-a1-m2-cC 3wqp-a1-m1-cB_3wqp-a1-m2-cB 3wqp-a1-m1-cD_3wqp-a1-m2-cE 3wqp-a1-m2-cA_3wqp-a1-m1-cC 3wqp-a1-m2-cD_3wqp-a1-m1-cE 3wqp-a2-m1-cF_3wqp-a2-m3-cH 3wqp-a2-m1-cG_3wqp-a2-m3-cG 3wqp-a2-m1-cI_3wqp-a2-m3-cJ 3wqp-a2-m3-cF_3wqp-a2-m1-cH 3wqp-a2-m3-cI_3wqp-a2-m1-cJ IYDYYVDKGYEPSKKRDIIAVFRVTPAEGYTIEQAAGAVAAESSTGTWTTLYPWYEQERWADLSAKAYDFHDMGDGSWIVRIAYPFHAFEEANLPGLLASIAGNIFGMKRVKGLRLEDLYFPEKLIREFDGPAFGIEGVRKMLEIKDRPIYGVVPKPKVGYSPEEFEKLAYDLLSNGADYMDDENLTSPWYNRFEERAEIMAKIIDKVENETGEKKTWFANITADLLEMEQRLEVLADLGLKHAMVDVVITGWGALRYIRDLAADYGLAIHGHRAMHAAFTRNPYHGISMFVLAKLYRLIGIDQLHVGTAGAGKLEGERDITIQNARILRESHYKPDENDVFHLEQKFYSIKAAFPTSSGGLHPGNIQPVIEALGTDIVLQLGGGTLGHPDGPAAGARAVRQAIDAIMQGIPLDEYAKTHKELARALEKWGHVTPV IYDYYVDKGYEPSKKRDIIAVFRVTPAEGYTIEQAAGAVAAESSTGTWTTLYPWYEQERWADLSAKAYDFHDMGDGSWIVRIAYPFHAFEEANLPGLLASIAGNIFGMKRVKGLRLEDLYFPEKLIREFDGPAFGIEGVRKMLEIKDRPIYGVVPKPKVGYSPEEFEKLAYDLLSNGADYMDDENLTSPWYNRFEERAEIMAKIIDKVENETGEKKTWFANITADLLEMEQRLEVLADLGLKHAMVDVVITGWGALRYIRDLAADYGLAIHGHRAMHAAFTRNPYHGISMFVLAKLYRLIGIDQLHVGTAGAGKLEGERDITIQNARILRESHYKPDENDVFHLEQKFYSIKAAFPTSSGGLHPGNIQPVIEALGTDIVLQLGGGTLGHPDGPAAGARAVRQAIDAIMQGIPLDEYAKTHKELARALEKWGHVTPV 3kdq-a1-m4-cA_3kdq-a1-m4-cD Crystal structure of a functionally unknown conserved protein from Corynebacterium diphtheriae. Q6NFB0 Q6NFB0 3 X-RAY DIFFRACTION 14 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 149 149 3kdq-a1-m1-cA_3kdq-a1-m1-cD 3kdq-a1-m1-cA_3kdq-a1-m3-cC 3kdq-a1-m1-cB_3kdq-a1-m1-cC 3kdq-a1-m1-cB_3kdq-a1-m2-cD 3kdq-a1-m1-cD_3kdq-a1-m2-cB 3kdq-a1-m2-cA_3kdq-a1-m2-cD 3kdq-a1-m2-cA_3kdq-a1-m4-cC 3kdq-a1-m2-cB_3kdq-a1-m2-cC 3kdq-a1-m3-cA_3kdq-a1-m1-cC 3kdq-a1-m3-cA_3kdq-a1-m3-cD 3kdq-a1-m3-cB_3kdq-a1-m3-cC 3kdq-a1-m3-cB_3kdq-a1-m4-cD 3kdq-a1-m3-cD_3kdq-a1-m4-cB 3kdq-a1-m4-cA_3kdq-a1-m2-cC 3kdq-a1-m4-cB_3kdq-a1-m4-cC AYLAEALAQRVEAQRRYSELNQLLLDVAKVQEGDQPAENPHEILTELEELTTRINDLVRRINRTNSVTEFSEGTLADALSVRDALLKKRTLYSDLADQLTSRQDRYSRSEIKYVATDAREIRKKADLAAKEYRQLDVDIQRLNWQTELQ AYLAEALAQRVEAQRRYSELNQLLLDVAKVQEGDQPAENPHEILTELEELTTRINDLVRRINRTNSVTEFSEGTLADALSVRDALLKKRTLYSDLADQLTSRQDRYSRSEIKYVATDAREIRKKADLAAKEYRQLDVDIQRLNWQTELQ 3kdq-a1-m4-cB_3kdq-a1-m4-cD Crystal structure of a functionally unknown conserved protein from Corynebacterium diphtheriae. Q6NFB0 Q6NFB0 3 X-RAY DIFFRACTION 112 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 149 149 3kdq-a1-m1-cA_3kdq-a1-m1-cC 3kdq-a1-m1-cB_3kdq-a1-m1-cD 3kdq-a1-m2-cA_3kdq-a1-m2-cC 3kdq-a1-m2-cB_3kdq-a1-m2-cD 3kdq-a1-m3-cA_3kdq-a1-m3-cC 3kdq-a1-m3-cB_3kdq-a1-m3-cD 3kdq-a1-m4-cA_3kdq-a1-m4-cC AYLAEALAQRVEAQRRYSELNQLLLDVAKVQEGDQPAENPHEILTELEELTTRINDLVRRINRTNSVTEFSEGTLADALSVRDALLKKRTLYSDLADQLTSRQDRYSRSEIKYVATDAREIRKKADLAAKEYRQLDVDIQRLNWQTELQ AYLAEALAQRVEAQRRYSELNQLLLDVAKVQEGDQPAENPHEILTELEELTTRINDLVRRINRTNSVTEFSEGTLADALSVRDALLKKRTLYSDLADQLTSRQDRYSRSEIKYVATDAREIRKKADLAAKEYRQLDVDIQRLNWQTELQ 3kdq-a1-m4-cD_3kdq-a1-m4-cC Crystal structure of a functionally unknown conserved protein from Corynebacterium diphtheriae. Q6NFB0 Q6NFB0 3 X-RAY DIFFRACTION 85 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 149 150 3kdq-a1-m1-cA_3kdq-a1-m3-cA 3kdq-a1-m1-cB_3kdq-a1-m2-cB 3kdq-a1-m1-cD_3kdq-a1-m1-cC 3kdq-a1-m2-cA_3kdq-a1-m4-cA 3kdq-a1-m2-cD_3kdq-a1-m2-cC 3kdq-a1-m3-cB_3kdq-a1-m4-cB 3kdq-a1-m3-cD_3kdq-a1-m3-cC AYLAEALAQRVEAQRRYSELNQLLLDVAKVQEGDQPAENPHEILTELEELTTRINDLVRRINRTNSVTEFSEGTLADALSVRDALLKKRTLYSDLADQLTSRQDRYSRSEIKYVATDAREIRKKADLAAKEYRQLDVDIQRLNWQTELQ NAYLAEALAQRVEAQRRYSELNQLLLDVAKVQEGDQPAENPHEILTELEELTTRINDLVRRINRTNSVTEFSEGTLADALSVRDALLKKRTLYSDLADQLTSRQDRYSRSEIKYVATDAREIRKKADLAAKEYRQLDVDIQRLNWQTELQ 3kdr-a2-m8-cA_3kdr-a2-m9-cA The Crystal Structure of a HK97 Family Phage Portal Protein from Corynebacterium diphtheriae to 2.9A Q6NFR1 Q6NFR1 2.9 X-RAY DIFFRACTION 34 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 277 277 3kdr-a2-m10-cA_3kdr-a2-m3-cA 3kdr-a2-m11-cA_3kdr-a2-m4-cA 3kdr-a2-m12-cA_3kdr-a2-m7-cA 3kdr-a2-m13-cA_3kdr-a2-m19-cA 3kdr-a2-m14-cA_3kdr-a2-m18-cA 3kdr-a2-m15-cA_3kdr-a2-m17-cA 3kdr-a2-m16-cA_3kdr-a2-m20-cA 3kdr-a2-m1-cA_3kdr-a2-m24-cA 3kdr-a2-m22-cA_3kdr-a2-m5-cA 3kdr-a2-m23-cA_3kdr-a2-m6-cA 3kdr-a2-m2-cA_3kdr-a2-m21-cA AVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVGQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT AVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVGQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT 3kdr-a2-m8-cA_3kdr-a2-m9-cC The Crystal Structure of a HK97 Family Phage Portal Protein from Corynebacterium diphtheriae to 2.9A Q6NFR1 Q6NFR1 2.9 X-RAY DIFFRACTION 20 0.996 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 277 279 3kdr-a2-m10-cA_3kdr-a2-m3-cC 3kdr-a2-m11-cA_3kdr-a2-m4-cC 3kdr-a2-m12-cA_3kdr-a2-m7-cC 3kdr-a2-m13-cA_3kdr-a2-m19-cC 3kdr-a2-m14-cA_3kdr-a2-m18-cC 3kdr-a2-m15-cA_3kdr-a2-m17-cC 3kdr-a2-m16-cA_3kdr-a2-m20-cC 3kdr-a2-m17-cA_3kdr-a2-m15-cC 3kdr-a2-m18-cA_3kdr-a2-m14-cC 3kdr-a2-m19-cA_3kdr-a2-m13-cC 3kdr-a2-m1-cA_3kdr-a2-m24-cC 3kdr-a2-m20-cA_3kdr-a2-m16-cC 3kdr-a2-m21-cA_3kdr-a2-m2-cC 3kdr-a2-m22-cA_3kdr-a2-m5-cC 3kdr-a2-m23-cA_3kdr-a2-m6-cC 3kdr-a2-m24-cA_3kdr-a2-m1-cC 3kdr-a2-m2-cA_3kdr-a2-m21-cC 3kdr-a2-m3-cA_3kdr-a2-m10-cC 3kdr-a2-m4-cA_3kdr-a2-m11-cC 3kdr-a2-m5-cA_3kdr-a2-m22-cC 3kdr-a2-m6-cA_3kdr-a2-m23-cC 3kdr-a2-m7-cA_3kdr-a2-m12-cC 3kdr-a2-m9-cA_3kdr-a2-m8-cC AVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVGQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT LGEAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT 3kdr-a2-m8-cB_3kdr-a2-m9-cC The Crystal Structure of a HK97 Family Phage Portal Protein from Corynebacterium diphtheriae to 2.9A Q6NFR1 Q6NFR1 2.9 X-RAY DIFFRACTION 13 0.996 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 275 279 3kdr-a2-m10-cB_3kdr-a2-m3-cC 3kdr-a2-m11-cB_3kdr-a2-m4-cC 3kdr-a2-m12-cB_3kdr-a2-m7-cC 3kdr-a2-m13-cB_3kdr-a2-m19-cC 3kdr-a2-m14-cB_3kdr-a2-m18-cC 3kdr-a2-m15-cB_3kdr-a2-m17-cC 3kdr-a2-m16-cB_3kdr-a2-m20-cC 3kdr-a2-m17-cB_3kdr-a2-m15-cC 3kdr-a2-m18-cB_3kdr-a2-m14-cC 3kdr-a2-m19-cB_3kdr-a2-m13-cC 3kdr-a2-m1-cB_3kdr-a2-m24-cC 3kdr-a2-m20-cB_3kdr-a2-m16-cC 3kdr-a2-m21-cB_3kdr-a2-m2-cC 3kdr-a2-m22-cB_3kdr-a2-m5-cC 3kdr-a2-m23-cB_3kdr-a2-m6-cC 3kdr-a2-m24-cB_3kdr-a2-m1-cC 3kdr-a2-m2-cB_3kdr-a2-m21-cC 3kdr-a2-m3-cB_3kdr-a2-m10-cC 3kdr-a2-m4-cB_3kdr-a2-m11-cC 3kdr-a2-m5-cB_3kdr-a2-m22-cC 3kdr-a2-m6-cB_3kdr-a2-m23-cC 3kdr-a2-m7-cB_3kdr-a2-m12-cC 3kdr-a2-m9-cB_3kdr-a2-m8-cC EAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPTT LGEAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT 3kdr-a3-m25-cA_3kdr-a3-m44-cC The Crystal Structure of a HK97 Family Phage Portal Protein from Corynebacterium diphtheriae to 2.9A Q6NFR1 Q6NFR1 2.9 X-RAY DIFFRACTION 14 0.996 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 277 279 3kdr-a3-m1-cA_3kdr-a3-m42-cC 3kdr-a3-m26-cA_3kdr-a3-m41-cC 3kdr-a3-m27-cA_3kdr-a3-m37-cC 3kdr-a3-m28-cA_3kdr-a3-m40-cC 3kdr-a3-m29-cA_3kdr-a3-m39-cC 3kdr-a3-m2-cA_3kdr-a3-m43-cC 3kdr-a3-m30-cA_3kdr-a3-m38-cC 3kdr-a3-m31-cA_3kdr-a3-m4-cC 3kdr-a3-m32-cA_3kdr-a3-m35-cC 3kdr-a3-m33-cA_3kdr-a3-m36-cC 3kdr-a3-m34-cA_3kdr-a3-m3-cC 3kdr-a3-m35-cA_3kdr-a3-m32-cC 3kdr-a3-m36-cA_3kdr-a3-m33-cC 3kdr-a3-m37-cA_3kdr-a3-m27-cC 3kdr-a3-m38-cA_3kdr-a3-m30-cC 3kdr-a3-m39-cA_3kdr-a3-m29-cC 3kdr-a3-m3-cA_3kdr-a3-m34-cC 3kdr-a3-m40-cA_3kdr-a3-m28-cC 3kdr-a3-m41-cA_3kdr-a3-m26-cC 3kdr-a3-m42-cA_3kdr-a3-m1-cC 3kdr-a3-m43-cA_3kdr-a3-m2-cC 3kdr-a3-m44-cA_3kdr-a3-m25-cC 3kdr-a3-m4-cA_3kdr-a3-m31-cC AVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVGQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT LGEAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT 3kdr-a3-m25-cC_3kdr-a3-m44-cC The Crystal Structure of a HK97 Family Phage Portal Protein from Corynebacterium diphtheriae to 2.9A Q6NFR1 Q6NFR1 2.9 X-RAY DIFFRACTION 35 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 279 279 3kdr-a3-m1-cC_3kdr-a3-m42-cC 3kdr-a3-m26-cC_3kdr-a3-m41-cC 3kdr-a3-m27-cC_3kdr-a3-m37-cC 3kdr-a3-m28-cC_3kdr-a3-m40-cC 3kdr-a3-m29-cC_3kdr-a3-m39-cC 3kdr-a3-m2-cC_3kdr-a3-m43-cC 3kdr-a3-m30-cC_3kdr-a3-m38-cC 3kdr-a3-m31-cC_3kdr-a3-m4-cC 3kdr-a3-m32-cC_3kdr-a3-m35-cC 3kdr-a3-m33-cC_3kdr-a3-m36-cC 3kdr-a3-m3-cC_3kdr-a3-m34-cC LGEAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT LGEAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT 3kdr-a3-m44-cA_3kdr-a3-m44-cC The Crystal Structure of a HK97 Family Phage Portal Protein from Corynebacterium diphtheriae to 2.9A Q6NFR1 Q6NFR1 2.9 X-RAY DIFFRACTION 209 0.996 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 277 279 3kdr-a1-m1-cA_3kdr-a1-m1-cC 3kdr-a1-m1-cB_3kdr-a1-m1-cA 3kdr-a1-m1-cB_3kdr-a1-m4-cC 3kdr-a1-m2-cA_3kdr-a1-m2-cC 3kdr-a1-m2-cB_3kdr-a1-m2-cA 3kdr-a1-m2-cB_3kdr-a1-m3-cC 3kdr-a1-m3-cA_3kdr-a1-m3-cC 3kdr-a1-m3-cB_3kdr-a1-m1-cC 3kdr-a1-m3-cB_3kdr-a1-m3-cA 3kdr-a1-m4-cA_3kdr-a1-m4-cC 3kdr-a1-m4-cB_3kdr-a1-m2-cC 3kdr-a1-m4-cB_3kdr-a1-m4-cA 3kdr-a2-m10-cA_3kdr-a2-m10-cC 3kdr-a2-m10-cB_3kdr-a2-m10-cA 3kdr-a2-m10-cB_3kdr-a2-m14-cC 3kdr-a2-m11-cA_3kdr-a2-m11-cC 3kdr-a2-m11-cB_3kdr-a2-m11-cA 3kdr-a2-m11-cB_3kdr-a2-m16-cC 3kdr-a2-m12-cA_3kdr-a2-m12-cC 3kdr-a2-m12-cB_3kdr-a2-m12-cA 3kdr-a2-m12-cB_3kdr-a2-m15-cC 3kdr-a2-m13-cA_3kdr-a2-m13-cC 3kdr-a2-m13-cB_3kdr-a2-m10-cC 3kdr-a2-m13-cB_3kdr-a2-m13-cA 3kdr-a2-m14-cA_3kdr-a2-m14-cC 3kdr-a2-m14-cB_3kdr-a2-m14-cA 3kdr-a2-m14-cB_3kdr-a2-m9-cC 3kdr-a2-m15-cA_3kdr-a2-m15-cC 3kdr-a2-m15-cB_3kdr-a2-m11-cC 3kdr-a2-m15-cB_3kdr-a2-m15-cA 3kdr-a2-m16-cA_3kdr-a2-m16-cC 3kdr-a2-m16-cB_3kdr-a2-m12-cC 3kdr-a2-m16-cB_3kdr-a2-m16-cA 3kdr-a2-m17-cA_3kdr-a2-m17-cC 3kdr-a2-m17-cB_3kdr-a2-m17-cA 3kdr-a2-m17-cB_3kdr-a2-m22-cC 3kdr-a2-m18-cA_3kdr-a2-m18-cC 3kdr-a2-m18-cB_3kdr-a2-m18-cA 3kdr-a2-m18-cB_3kdr-a2-m21-cC 3kdr-a2-m19-cA_3kdr-a2-m19-cC 3kdr-a2-m19-cB_3kdr-a2-m19-cA 3kdr-a2-m19-cB_3kdr-a2-m23-cC 3kdr-a2-m1-cA_3kdr-a2-m1-cC 3kdr-a2-m1-cB_3kdr-a2-m1-cA 3kdr-a2-m1-cB_3kdr-a2-m4-cC 3kdr-a2-m20-cA_3kdr-a2-m20-cC 3kdr-a2-m20-cB_3kdr-a2-m20-cA 3kdr-a2-m20-cB_3kdr-a2-m24-cC 3kdr-a2-m21-cA_3kdr-a2-m21-cC 3kdr-a2-m21-cB_3kdr-a2-m17-cC 3kdr-a2-m21-cB_3kdr-a2-m21-cA 3kdr-a2-m22-cA_3kdr-a2-m22-cC 3kdr-a2-m22-cB_3kdr-a2-m18-cC 3kdr-a2-m22-cB_3kdr-a2-m22-cA 3kdr-a2-m23-cA_3kdr-a2-m23-cC 3kdr-a2-m23-cB_3kdr-a2-m20-cC 3kdr-a2-m23-cB_3kdr-a2-m23-cA 3kdr-a2-m24-cA_3kdr-a2-m24-cC 3kdr-a2-m24-cB_3kdr-a2-m19-cC 3kdr-a2-m24-cB_3kdr-a2-m24-cA 3kdr-a2-m2-cA_3kdr-a2-m2-cC 3kdr-a2-m2-cB_3kdr-a2-m2-cA 3kdr-a2-m2-cB_3kdr-a2-m3-cC 3kdr-a2-m3-cA_3kdr-a2-m3-cC 3kdr-a2-m3-cB_3kdr-a2-m1-cC 3kdr-a2-m3-cB_3kdr-a2-m3-cA 3kdr-a2-m4-cA_3kdr-a2-m4-cC 3kdr-a2-m4-cB_3kdr-a2-m2-cC 3kdr-a2-m4-cB_3kdr-a2-m4-cA 3kdr-a2-m5-cA_3kdr-a2-m5-cC 3kdr-a2-m5-cB_3kdr-a2-m5-cA 3kdr-a2-m5-cB_3kdr-a2-m7-cC 3kdr-a2-m6-cA_3kdr-a2-m6-cC 3kdr-a2-m6-cB_3kdr-a2-m6-cA 3kdr-a2-m6-cB_3kdr-a2-m8-cC 3kdr-a2-m7-cA_3kdr-a2-m7-cC 3kdr-a2-m7-cB_3kdr-a2-m6-cC 3kdr-a2-m7-cB_3kdr-a2-m7-cA 3kdr-a2-m8-cA_3kdr-a2-m8-cC 3kdr-a2-m8-cB_3kdr-a2-m5-cC 3kdr-a2-m8-cB_3kdr-a2-m8-cA 3kdr-a2-m9-cA_3kdr-a2-m9-cC 3kdr-a2-m9-cB_3kdr-a2-m13-cC 3kdr-a2-m9-cB_3kdr-a2-m9-cA 3kdr-a3-m1-cA_3kdr-a3-m1-cC 3kdr-a3-m1-cB_3kdr-a3-m1-cA 3kdr-a3-m1-cB_3kdr-a3-m4-cC 3kdr-a3-m25-cA_3kdr-a3-m25-cC 3kdr-a3-m25-cB_3kdr-a3-m25-cA 3kdr-a3-m25-cB_3kdr-a3-m35-cC 3kdr-a3-m26-cA_3kdr-a3-m26-cC 3kdr-a3-m26-cB_3kdr-a3-m26-cA 3kdr-a3-m26-cB_3kdr-a3-m36-cC 3kdr-a3-m27-cA_3kdr-a3-m27-cC 3kdr-a3-m27-cB_3kdr-a3-m27-cA 3kdr-a3-m27-cB_3kdr-a3-m42-cC 3kdr-a3-m28-cA_3kdr-a3-m28-cC 3kdr-a3-m28-cB_3kdr-a3-m28-cA 3kdr-a3-m28-cB_3kdr-a3-m41-cC 3kdr-a3-m29-cA_3kdr-a3-m29-cC 3kdr-a3-m29-cB_3kdr-a3-m29-cA 3kdr-a3-m29-cB_3kdr-a3-m43-cC 3kdr-a3-m2-cA_3kdr-a3-m2-cC 3kdr-a3-m2-cB_3kdr-a3-m2-cA 3kdr-a3-m2-cB_3kdr-a3-m3-cC 3kdr-a3-m30-cA_3kdr-a3-m30-cC 3kdr-a3-m30-cB_3kdr-a3-m30-cA 3kdr-a3-m30-cB_3kdr-a3-m44-cC 3kdr-a3-m31-cA_3kdr-a3-m31-cC 3kdr-a3-m31-cB_3kdr-a3-m31-cA 3kdr-a3-m31-cB_3kdr-a3-m37-cC 3kdr-a3-m32-cA_3kdr-a3-m32-cC 3kdr-a3-m32-cB_3kdr-a3-m32-cA 3kdr-a3-m32-cB_3kdr-a3-m38-cC 3kdr-a3-m33-cA_3kdr-a3-m33-cC 3kdr-a3-m33-cB_3kdr-a3-m33-cA 3kdr-a3-m33-cB_3kdr-a3-m40-cC 3kdr-a3-m34-cA_3kdr-a3-m34-cC 3kdr-a3-m34-cB_3kdr-a3-m34-cA 3kdr-a3-m34-cB_3kdr-a3-m39-cC 3kdr-a3-m35-cA_3kdr-a3-m35-cC 3kdr-a3-m35-cB_3kdr-a3-m26-cC 3kdr-a3-m35-cB_3kdr-a3-m35-cA 3kdr-a3-m36-cA_3kdr-a3-m36-cC 3kdr-a3-m36-cB_3kdr-a3-m25-cC 3kdr-a3-m36-cB_3kdr-a3-m36-cA 3kdr-a3-m37-cA_3kdr-a3-m37-cC 3kdr-a3-m37-cB_3kdr-a3-m32-cC 3kdr-a3-m37-cB_3kdr-a3-m37-cA 3kdr-a3-m38-cA_3kdr-a3-m38-cC 3kdr-a3-m38-cB_3kdr-a3-m31-cC 3kdr-a3-m38-cB_3kdr-a3-m38-cA 3kdr-a3-m39-cA_3kdr-a3-m39-cC 3kdr-a3-m39-cB_3kdr-a3-m33-cC 3kdr-a3-m39-cB_3kdr-a3-m39-cA 3kdr-a3-m3-cA_3kdr-a3-m3-cC 3kdr-a3-m3-cB_3kdr-a3-m1-cC 3kdr-a3-m3-cB_3kdr-a3-m3-cA 3kdr-a3-m40-cA_3kdr-a3-m40-cC 3kdr-a3-m40-cB_3kdr-a3-m34-cC 3kdr-a3-m40-cB_3kdr-a3-m40-cA 3kdr-a3-m41-cA_3kdr-a3-m41-cC 3kdr-a3-m41-cB_3kdr-a3-m27-cC 3kdr-a3-m41-cB_3kdr-a3-m41-cA 3kdr-a3-m42-cA_3kdr-a3-m42-cC 3kdr-a3-m42-cB_3kdr-a3-m28-cC 3kdr-a3-m42-cB_3kdr-a3-m42-cA 3kdr-a3-m43-cA_3kdr-a3-m43-cC 3kdr-a3-m43-cB_3kdr-a3-m30-cC 3kdr-a3-m43-cB_3kdr-a3-m43-cA 3kdr-a3-m44-cB_3kdr-a3-m29-cC 3kdr-a3-m44-cB_3kdr-a3-m44-cA 3kdr-a3-m4-cA_3kdr-a3-m4-cC 3kdr-a3-m4-cB_3kdr-a3-m2-cC 3kdr-a3-m4-cB_3kdr-a3-m4-cA AVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVGQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT LGEAVTTRAEALTIPAVLRARNLLSTTVARTPLVCDGTLPPFVPVAAPPGAATQTPFHRLATADDLLFNGVACWALDRDESGTCIGAIHIPLDTWQIEENTVRVNGKAVDPEVCIFVGIHGGLLTHASETFTDARNLVRAAARVAQNPAALIELRQTNNAQLSPDDVDRIINGYVAARRGRNSGVGFSSSGLEVHEHEAKENLLIEGRNAAAVDVARANVPAAFIDATVQNAASRIELVTFGVEPLSAIEARLNQPDHADHLANPLKFDPAALLDAIPT 3kds-a2-m1-cF_3kds-a2-m8-cG apo-FtsH crystal structure Q9WZ49 Q9WZ49 2.601 X-RAY DIFFRACTION 134 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 426 426 3kds-a1-m1-cE_3kds-a1-m5-cE 3kds-a1-m1-cE_3kds-a1-m6-cE 3kds-a1-m2-cE_3kds-a1-m4-cE 3kds-a1-m2-cE_3kds-a1-m6-cE 3kds-a1-m3-cE_3kds-a1-m4-cE 3kds-a1-m3-cE_3kds-a1-m5-cE 3kds-a2-m1-cF_3kds-a2-m1-cG 3kds-a2-m1-cG_3kds-a2-m7-cF 3kds-a2-m7-cF_3kds-a2-m7-cG 3kds-a2-m7-cG_3kds-a2-m8-cF 3kds-a2-m8-cF_3kds-a2-m8-cG 7tdo-a1-m1-cA_7tdo-a1-m1-cB 7tdo-a1-m1-cA_7tdo-a1-m1-cE 7tdo-a1-m1-cB_7tdo-a1-m1-cC 7tdo-a1-m1-cC_7tdo-a1-m1-cD 7tdo-a1-m1-cD_7tdo-a1-m1-cF 7tdo-a1-m1-cE_7tdo-a1-m1-cF KRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGATLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGRHDEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIAGPARKSLLISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIPRGYKALGYTLHLPEEDKYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGKLRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILSE KRVTFKDVGGAEEAIEELKEVVEFLKDPSKFNRIGARMPKGILLVGPPGTGATLLARAVAGEANVPFFHISGSDFVELFVGVGAARVRDLFAQAKAHAPCIVFIDEIDAVGRHDEREQTLNQLLVEMDGFDSKEGIIVMAATNRPDILDPALLRPGRFDKKIVVDPPDMLGRKKILEIHTRNKPLAEDVNLEIIAKRTPGFVGADLENLVNEAALLAAREGRDKITMKDFEEAIDRVIAGPARKSLLISPAEKRIIAYHEAGHAVVSTVVPNGEPVHRISIIPRGYKALGYTLHLPEEDKYLVSRNELLDKLTALLGGRAAEEVVFGDVTSGAANDIERATEIARNMVCQLGMSEELGPLAWGKLRNYSEEVASKIDEEVKKIVTNCYERAKEIIRKYRKQLDNIVEILLEKETIEGDELRRILSE 3kdt-a1-m1-cA_3kdt-a1-m1-cB Crystal structure of peroxisome proliferator-activatedeceptor alpha (PPARalpha) complex with N-3-((2-(4-Chlorophenyl)-5-methyl-1,3-oxazol-4-yl)methoxy)benzyl)-N-(methoxycarbonyl)glycine Q07869 Q07869 2.7 X-RAY DIFFRACTION 12 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 264 271 SETADLKSLAKRIYEAYLKNFNMNKVKARVILSGKASNNPPFVIHDMETLCMAEKTLVAIQNKEAEVRIFHCCQCTSVETVTELTEFAKAIPGFANLDLNDQVTLLKYGVYEAIFAMLSSVMNKDGMLVAYGNGFITREFLKSLRKPFCDIMEPKFDFAMKFNALELDDSDISLFVAAIICCGDRPGLLNVGHIEKMQEGIVHVLRLHLQSNHPDDIFLFPKLLQKMADLRQLVTEHAQLVQIIKKTESDAALHPLLQEIYRDM SHMEDSETADLKSLAKRIYEAYLKNFNMNKVKARVILSGKANNPPFVIHDMETLCMAEKTLVVANGIQNKEAEVRIFHCCQCTSVETVTELTEFAKAIPGFANLDLNDQVTLLKYGVYEAIFAMLSSVMNKDGMLVAYGNGFITREFLKSLRKPFCDIMEPKFDFAMKFNALELDDSDISLFVAAIICCGDRPGLLNVGHIEKMQEGIVHVLRLHLQSNHPDDIFLFPKLLQKMADLRQLVTEHAQLVQIIKKTESDAALHPLLQEIYRDM 3kdw-a1-m1-cA_3kdw-a1-m2-cA Crystal structure of Putative sugar binding protein (YP_001300177.1) from Bacteroides vulgatus ATCC 8482 at 1.70 A resolution A6L4E1 A6L4E1 1.7 X-RAY DIFFRACTION 64 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 201 201 NLYFQGAVDLDREGRDPAYVESIVKRSQKIVDKLELTDTVAAREVTTIIANRYFKLNDIYETRDAKVKLAKETLTGDAKQEAVKAAEAEKDAALYRTHFAFPADLSLYLDAKQIDAVKDGTYGVVVTYKATVDIPTLKEEEKAQIAWLVEAREFADAENSNKKHAAFGKYKGRINNYLSKRGYDLVKERKAWYERIKARGG NLYFQGAVDLDREGRDPAYVESIVKRSQKIVDKLELTDTVAAREVTTIIANRYFKLNDIYETRDAKVKLAKETLTGDAKQEAVKAAEAEKDAALYRTHFAFPADLSLYLDAKQIDAVKDGTYGVVVTYKATVDIPTLKEEEKAQIAWLVEAREFADAENSNKKHAAFGKYKGRINNYLSKRGYDLVKERKAWYERIKARGG 3ke2-a2-m1-cC_3ke2-a2-m2-cC CRYSTAL STRUCTURE OF a DUF2131 family protein (SAMA_2911) FROM SHEWANELLA AMAZONENSIS SB2B AT 2.50 A RESOLUTION A1S9Q7 A1S9Q7 2.5 X-RAY DIFFRACTION 39 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 94 94 3ke2-a1-m1-cB_3ke2-a1-m1-cA VSKQHKAFLRKLYLAHLDDARHNLLSLGKLTGPRRTLQDAIASFADIGIEVEFVQDGERHNAGYYRIRTWGPISSAWDTHVDEVKSLLGVDDAV VSKQHKAFLRKLYLAHLDDARHNLLSLGKLTGPRRTLQDAIASFADIGIEVEFVQDGERHNAGYYRIRTWGPISSAWDTHVDEVKSLLGVDDAV 3ke3-a1-m1-cA_3ke3-a1-m2-cA Crystal structure of Putative serine-pyruvate aminotransferase (YP_263484.1) from PSYCHROBACTER ARCTICUM 273-4 at 2.20 A resolution Q4FVA8 Q4FVA8 2.2 X-RAY DIFFRACTION 231 1.0 259536 (Psychrobacter arcticus 273-4) 259536 (Psychrobacter arcticus 273-4) 362 362 DIDPNGLLEYSVVYTDRALNHSKAFQEVNDLLSNLKTVYNAEAAVIIPGSGTYGEAVARQLTIDEDCLIIRNGWFSYRWTQILEKGKFAKSSTVLTAERTEDTEAPKPFAPVDIETAVAKIKEDKSAIVYAPHVETSSGIILSEEYIKALSEAVHSVGGLLVIDCIASGCVWLDKELGIDVLISAPQGWSSTPCAGLVLSAAAIKKVESTESNCFSLDLKQWLTIRAYENGGHAYHATPTDSLRQFRDAILEAKEIGFDILRDAQWELGNRVRKVLTDKGIESVAAEGFEAPGVVVSYTERDDHKGSAFAEAGLQIAAGVPLKVGEPDNFKTFRLGLFGLDKLTDIDGTVERFEKALDEVLA DIDPNGLLEYSVVYTDRALNHSKAFQEVNDLLSNLKTVYNAEAAVIIPGSGTYGEAVARQLTIDEDCLIIRNGWFSYRWTQILEKGKFAKSSTVLTAERTEDTEAPKPFAPVDIETAVAKIKEDKSAIVYAPHVETSSGIILSEEYIKALSEAVHSVGGLLVIDCIASGCVWLDKELGIDVLISAPQGWSSTPCAGLVLSAAAIKKVESTESNCFSLDLKQWLTIRAYENGGHAYHATPTDSLRQFRDAILEAKEIGFDILRDAQWELGNRVRKVLTDKGIESVAAEGFEAPGVVVSYTERDDHKGSAFAEAGLQIAAGVPLKVGEPDNFKTFRLGLFGLDKLTDIDGTVERFEKALDEVLA 3ke4-a1-m1-cB_3ke4-a1-m1-cC Crystal structure of a PduO-Type ATP:Cob(I)alamin adenosyltransferase from Bacillus cereus Q813T7 Q813T7 1.9 X-RAY DIFFRACTION 69 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 168 169 3ke4-a1-m1-cB_3ke4-a1-m1-cA 3ke4-a1-m1-cC_3ke4-a1-m1-cA 3ke5-a1-m1-cB_3ke5-a1-m1-cA 3ke5-a1-m1-cB_3ke5-a1-m1-cC 3ke5-a1-m1-cC_3ke5-a1-m1-cA GTTSVIGGRVDKDDIRVEAYGTIDEANSHIGYAMTKLQGGAFIDIYNELENIQHELFDCGGDLAIVEQKIPYKVTIVMVESLERKIDLYIEEAPPLERFILPGGSEAAATIHIARTVVRRAERSIVSLQKEVKINEVVLKYVNRLSDYLFAIARVINARLQVKDVEYN GTTSVIGGRVDKDDIRVEAYGTIDEANSHIGYAMTKLQGGAFIDIYNELENIQHELFDCGGDLAIVEQKIPYKVTIVMVESLERKIDLYIEEAPPLERFILPGGSEAAATIHIARTVVRRAERSIVSLQKEVKINEVVLKYVNRLSDYLFAIARVINARLQVKDVEYNR 3ke6-a3-m2-cB_3ke6-a3-m1-cA The crystal structure of the RsbU and RsbW domains of Rv1364c from Mycobacterium tuberculosis P9WLZ7 P9WLZ7 2.6 X-RAY DIFFRACTION 81 0.997 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 348 354 VSVPVVPGADIAAEYLVAAEDTAAGGDWFDALALGDRLVLVVGDVVGHGVEAAAVMSQLRTALRMQISAGYTVVEALEAVDRFHKQVPGSKSATMCVGSLDFTSGEFQYCTAGHPPPLLVTADASARYVEPTGAGPLGSGTGFPVRSEVLNIGDAILFYTDGLIERPGRPLEASTAEFADLAASIASGARPIDRLCSDTLELLLRSTGYNDDVTLLAMQRRAPTPPLHITLDATINAARTVRAQLREWLAEIGADHSDIADIVHAISEFVENAVEHGYATDVSKGIVVAAALAGDGNVRASVIDRGQWGLAMAEALVSEARIMHGAGGTTATLTHRLSRPARFVTDTM LYFQGAMVSVPVVPGADIAAEYLVAAEDTAAGGDWFDALALGDRLVLVVGDVVGHGVEAAAVMSQLRTALRMQISAGYTVVEALEAVDRFHKQVPGSKSATMCVGSLDFTSGEFQYCTAGHPPPLLVTADASARYVEPTGAGPLGSGTGFPVRSEVLNIGDAILFYTDGLIERPGRPLEASTAEFADLAASIASARPIDRLCSDTLELLLRSTGYNDDVTLLAMQRRAPTPPLHITLDATINAARTVRAQLREWLAEIGADHSDIADIVHAISEFVENAVEHGYATDVSKGIVVAAALAGDGNVRASVIDRGQWGLAMAEALVSEARIMHGAGGTTATLTHRLSRPARFVTDTM 3ke7-a1-m1-cA_3ke7-a1-m1-cB Crystal structure of putative ketosteroid isomerase (YP_001303366.1) from Parabacteroides distasonis ATCC 8503 at 1.45 A resolution A6LDI0 A6LDI0 1.45 X-RAY DIFFRACTION 123 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 127 128 QKNENKTLNENIPEIISLEKEALASTDPAFVELSDTDVIYFDPSLETKIEGLEQLRTYYKGQLPPADHFDIRPVVQVAQNIAVLTFNLDSYLSDKVIKWNCTEVYRRNPDNQWKIIQTHWSYVKPLD QQKNENKTLNENIPEIISLEKEALASTDPAFVELSDTDVIYFDPSLETKIEGLEQLRTYYKGQLPPADHFDIRPVVQVAQNIAVLTFNLDSYLSDKVIKWNCTEVYRRNPDNQWKIIQTHWSYVKPLD 3kea-a1-m1-cA_3kea-a1-m1-cB Structure function studies of vaccinia virus host-range protein K1 reveal a novel ankyrin repeat interaction surface for K1s function Q6IV60 Q6IV60 2.3 X-RAY DIFFRACTION 61 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 273 273 GDLSRINTWKSKQLKSFLSSKDTFKADVHGHSASYYAIADNNVRLVCTLLNAGALKNLLENEFPLHQAATLEDTKIVKILLFSGLDDSQFDDKGNTALYYAVDSGNQTVKLFVKKNWRLFYGKTGWKTSFYHAVLNDVSIVSYFLSEIPSTFDLAILLSCIHITIKNGHVDILLLDYTSTNTNNSLLFIPDIKLAIDNKDIELQALFKYDINIYSANLENVLLDDAEIAKIIEKHVEYKSDSYTKDLDIVKNNKLDEIISKNKELRLYVNCVK GDLSRINTWKSKQLKSFLSSKDTFKADVHGHSASYYAIADNNVRLVCTLLNAGALKNLLENEFPLHQAATLEDTKIVKILLFSGLDDSQFDDKGNTALYYAVDSGNQTVKLFVKKNWRLFYGKTGWKTSFYHAVLNDVSIVSYFLSEIPSTFDLAILLSCIHITIKNGHVDILLLDYTSTNTNNSLLFIPDIKLAIDNKDIELQALFKYDINIYSANLENVLLDDAEIAKIIEKHVEYKSDSYTKDLDIVKNNKLDEIISKNKELRLYVNCVK 3keb-a2-m1-cC_3keb-a2-m1-cD Thiol peroxidase from Chromobacterium violaceum Q7NRS2 Q7NRS2 1.8 X-RAY DIFFRACTION 69 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 170 173 3keb-a1-m1-cB_3keb-a1-m1-cA EDFWVQYGDELPVIGDFPRKGDYLPSFLVDDQKHDAALESFSHTPKLIVTLLSVDEDEHAGLLLLRETRRFLDSWPHLKLIVITVDSPSSLARARHEHGLPNIALLSTLRRDFHKRYGVLITEYPLSGYTSPAIILADAANVVHYSERLANTRDFFDFDAIEKLLQEGEQ EDFWVQYGDELPVIGDFPRKGDYLPSFLVDDQKHDAALESFSHTPKLIVTLLSVDEDEHAGLLLLRETRRFLDSWPHLKLIVITVDSPSSLARARHEHGLPNIALLSTLRGRDFHKRYGVLITEYPLSGYTSPAIILADAANVVHYSERLANTRDFFDFDAIEKLLQEGEQQA 3kee-a2-m1-cB_3kee-a2-m1-cD HCV NS3/NS4A complexed with Non-covalent macrocyclic compound TMC435 P90191 P90191 2.4 X-RAY DIFFRACTION 58 1.0 11103 () 11103 () 178 178 3kee-a1-m1-cA_3kee-a1-m1-cC ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR ITAYSQQTRGLLGCIITSLTGRDKNQVEGEVQVVSTATQSFLATCVNGVCWTVYHGAGSKTLAGPKGPITQMYTNVDQDLVGWQAPPGARSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPVSYLKGSSGGPLLCPSGHAVGIFRAAVCTRGVAKAVDFVPVESMETTMR 3kef-a1-m1-cA_3kef-a1-m1-cB Crystal structure of IspH:DMAPP-complex P62623 P62623 1.7 X-RAY DIFFRACTION 39 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 309 3ke8-a1-m1-cA_3ke8-a1-m1-cB 3kel-a1-m1-cA_3kel-a1-m1-cB MQILLANPRGFCAGVDRAISIVENALAIYGAPIYVRHEVVHNRYVVDSLRERGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYSNPEGGMYLVESPDDVWKLTVKNEEKLSFMTQTTLSVDDTSDVIDALRKRFPKIVGPRKDDICYATTNRQEAVRALAEQAEVVLVVGSKNSSNSNRLAELAQRMGKRAFLIDDAKDIQEEWVKEVKCVGVTAGASAPDILVQNVVARLQQLGGGEAIPLEGREENIVFEVPKELR MQILLANPRGFCAGVDRAISIVENALAIYGAPIYVRHEVVHNRYVVDSLRERGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYSNPEGGMYLVESPDDVWKLTVKNEEKLSFMTQTTLSVDDTSDVIDALRKRFPKIVGPRKDDICYATTNRQEAVRALAEQAEVVLVVGSKNSSNSNRLAELAQRMGKRAFLIDDAKDIQEEWVKEVKCVGVTAGASAPDILVQNVVARLQQLGGGEAIPLEGREENIVFEVPKELR 3keg-a2-m1-cA_3keg-a2-m2-cA X-ray Crystallographic Structure of a Y131F mutant of Pseudomonas Aeruginosa Azoreductase in complex with Methyl RED Q9I5F3 Q9I5F3 2.1 X-RAY DIFFRACTION 47 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 192 192 3keg-a2-m1-cB_3keg-a2-m2-cB 3lt5-a1-m1-cA_3lt5-a1-m2-cA 3lt5-a1-m1-cB_3lt5-a1-m2-cB 3r6w-a1-m1-cA_3r6w-a1-m2-cA 3r6w-a1-m1-cB_3r6w-a1-m2-cB SRILAVHASPRGERSQSRRLAEVFLAAYREAHPQARVARREVGRVPLPAVTEAFVAAAFHPQPEQRSLAMQADLALSDQLVGELFDSDLLVISTPMYNFSVPSGLKAWIDQIVRLGVTFDFVQFRPLLRGKRALIVTSRGGHGFGPGGENQAMNHADPWLRTALGFIGIDEVTVVAAEGDEAEQRLLALARS SRILAVHASPRGERSQSRRLAEVFLAAYREAHPQARVARREVGRVPLPAVTEAFVAAAFHPQPEQRSLAMQADLALSDQLVGELFDSDLLVISTPMYNFSVPSGLKAWIDQIVRLGVTFDFVQFRPLLRGKRALIVTSRGGHGFGPGGENQAMNHADPWLRTALGFIGIDEVTVVAAEGDEAEQRLLALARS 3kem-a1-m1-cA_3kem-a1-m1-cB Crystal structure of IspH:IPP complex P62623 P62623 2 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 310 MQILLANPRGFCAGVDRAISIVENALAIYGAPIYVRHEVVHNRYVVDSLRERGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYSNPEGGMYLVESPDDVWKLTVKNEEKLSFMTQTTLSVDDTSDVIDALRKRFPKIVGPRKDDICYATTNRQEAVRALAEQAEVVLVVGSKNSSNSNRLAELAQRMGKRAFLIDDAKDIQEEWVKEVKCVGVTAGASAPDILVQNVVARLQQLGGGEAIPLEGREENIVFEVPKELR MQILLANPRGFCAGVDRAISIVENALAIYGAPIYVRHEVVHNRYVVDSLRERGAIFIEQISEVPDGAILIFSAHGVSQAVRNEAKSRDLTVFDATCPLVTKVHMEVARASRRGEESILIGHAGHPEVEGTMGQYSNPEGGMYLVESPDDVWKLTVKNEEKLSFMTQTTLSVDDTSDVIDALRKRFPKIVGPRKDDICYATTNRQEAVRALAEQAEVVLVVGSKNSSNSNRLAELAQRMGKRAFLIDDAKDIQEEWVKEVKCVGVTAGASAPDILVQNVVARLQQLGGGEAIPLEGREENIVFEVPKELRV 3keq-a1-m1-cA_3keq-a1-m1-cB Crystal structure of a Rex-family transcriptional regulatory protein from Streptococcus agalactiae complexed with NAD+ Q8E565 Q8E565 2.4 X-RAY DIFFRACTION 163 0.99 216495 (Streptococcus agalactiae serogroup III) 216495 (Streptococcus agalactiae serogroup III) 196 204 3keo-a1-m1-cA_3keo-a1-m1-cB 3ket-a1-m1-cA_3ket-a1-m2-cA SIPKATAKRLSLYYRIFKRFNTDGIEKASSKQIADALGIDSATVRRDFSYFGEYDVKKLMNFFAEILNTTNVMLVGCGNIGRALLHYRFHDRNKMQISMAFDLDSNDLVGKTTEDGIPVYGISTINDHLIDSDIETAILTVPSTEAQEVADILVKAGIKGILSFSPVHLTLPKDIIVQYVDLTSELQTLLYFMNQQ SIPKATAKRLSLYYRIFKRFNTDGIEKASSKQIADALGIDSATVRRDFSYFGELGRRGFGYDVKKLMNFFAEILNDHSTTNVMLVGCGNIGRALLHYRFHDRNKMQISMAFDLDSNDLVGKTTEDGIPVYGISTINDHLSDIETAILTVPSTEAQEVADILVKAGIKGILSFSPVHLTLPKDIIVQYVDLTSELQTLLYFMNQQ 3ker-a1-m1-cB_3ker-a1-m1-cC D-Dopachrome tautomerase (D-DT)/ macrophage migration inhibitory factor 2 (MIF2) complexed with inhibitor 4-IPP O35215 O35215 2.78 X-RAY DIFFRACTION 90 1.0 10090 (Mus musculus) 10090 (Mus musculus) 117 117 3ker-a1-m1-cA_3ker-a1-m1-cB 3ker-a1-m1-cA_3ker-a1-m1-cC PFVELETNLPASRIPAGLENRLCAATATILDKPEDRVSVTIRPGMTLLMNKSTEPCAHLLVSSIGVVGTAEQNRTHSASFFKFLTEELSLDQDRIVIRFFPLEAWQIGKKGTVMTFL PFVELETNLPASRIPAGLENRLCAATATILDKPEDRVSVTIRPGMTLLMNKSTEPCAHLLVSSIGVVGTAEQNRTHSASFFKFLTEELSLDQDRIVIRFFPLEAWQIGKKGTVMTFL 3kex-a1-m1-cB_3kex-a1-m1-cA Crystal structure of the catalytically inactive kinase domain of the human epidermal growth factor receptor 3 (HER3) P21860 P21860 2.797 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 283 292 KVLARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHMLAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAKGMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQTPIKWMALESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDVYMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKREGPGIAP KVLARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHMLAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAKGMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQLLTPIKWMALESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDVYMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKRESGPGIAPGPEPHG 3kex-a2-m2-cB_3kex-a2-m1-cA Crystal structure of the catalytically inactive kinase domain of the human epidermal growth factor receptor 3 (HER3) P21860 P21860 2.797 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 283 292 KVLARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHMLAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAKGMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQTPIKWMALESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDVYMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKREGPGIAP KVLARIFKETELRKLKVLGSGVFGTVHKGVWIPEGESIKIPVCIKVIEDKSGRQSFQAVTDHMLAIGSLDHAHIVRLLGLCPGSSLQLVTQYLPLGSLLDHVRQHRGALGPQLLLNWGVQIAKGMYYLEEHGMVHRNLAARNVLLKSPSQVQVADFGVADLLPPDDKQLLTPIKWMALESIHFGKYTHQSDVWSYGVTVWELMTFGAEPYAGLRLAEVPDLLEKGERLAQPQICTIDVYMVMVKCWMIDENIRPTFKELANEFTRMARDPPRYLVIKRESGPGIAPGPEPHG 3kfb-a1-m2-cD_3kfb-a1-m2-cE Crystal structure of a group II chaperonin from Methanococcus maripaludis Q877G8 Q877G8 3.2 X-RAY DIFFRACTION 177 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 509 509 3izi-a1-m1-cA_3izi-a1-m1-cB 3izi-a1-m1-cA_3izi-a1-m1-cH 3izi-a1-m1-cB_3izi-a1-m1-cC 3izi-a1-m1-cC_3izi-a1-m1-cD 3izi-a1-m1-cD_3izi-a1-m1-cE 3izi-a1-m1-cE_3izi-a1-m1-cF 3izi-a1-m1-cF_3izi-a1-m1-cG 3izi-a1-m1-cG_3izi-a1-m1-cH 3izi-a1-m1-cI_3izi-a1-m1-cJ 3izi-a1-m1-cI_3izi-a1-m1-cP 3izi-a1-m1-cJ_3izi-a1-m1-cK 3izi-a1-m1-cK_3izi-a1-m1-cL 3izi-a1-m1-cL_3izi-a1-m1-cM 3izi-a1-m1-cM_3izi-a1-m1-cN 3izi-a1-m1-cN_3izi-a1-m1-cO 3izi-a1-m1-cO_3izi-a1-m1-cP 3izj-a1-m1-cA_3izj-a1-m1-cB 3izj-a1-m1-cA_3izj-a1-m1-cH 3izj-a1-m1-cB_3izj-a1-m1-cC 3izj-a1-m1-cC_3izj-a1-m1-cD 3izj-a1-m1-cD_3izj-a1-m1-cE 3izj-a1-m1-cE_3izj-a1-m1-cF 3izj-a1-m1-cF_3izj-a1-m1-cG 3izj-a1-m1-cG_3izj-a1-m1-cH 3izj-a1-m1-cI_3izj-a1-m1-cJ 3izj-a1-m1-cI_3izj-a1-m1-cP 3izj-a1-m1-cJ_3izj-a1-m1-cK 3izj-a1-m1-cK_3izj-a1-m1-cL 3izj-a1-m1-cL_3izj-a1-m1-cM 3izj-a1-m1-cM_3izj-a1-m1-cN 3izj-a1-m1-cN_3izj-a1-m1-cO 3izj-a1-m1-cO_3izj-a1-m1-cP 3izk-a1-m1-cA_3izk-a1-m1-cB 3izk-a1-m1-cA_3izk-a1-m1-cH 3izk-a1-m1-cB_3izk-a1-m1-cC 3izk-a1-m1-cC_3izk-a1-m1-cD 3izk-a1-m1-cD_3izk-a1-m1-cE 3izk-a1-m1-cE_3izk-a1-m1-cF 3izk-a1-m1-cF_3izk-a1-m1-cG 3izk-a1-m1-cG_3izk-a1-m1-cH 3izk-a1-m1-cI_3izk-a1-m1-cJ 3izk-a1-m1-cI_3izk-a1-m1-cP 3izk-a1-m1-cJ_3izk-a1-m1-cK 3izk-a1-m1-cK_3izk-a1-m1-cL 3izk-a1-m1-cL_3izk-a1-m1-cM 3izk-a1-m1-cM_3izk-a1-m1-cN 3izk-a1-m1-cN_3izk-a1-m1-cO 3izk-a1-m1-cO_3izk-a1-m1-cP 3izl-a1-m1-cA_3izl-a1-m1-cB 3izl-a1-m1-cA_3izl-a1-m1-cH 3izl-a1-m1-cB_3izl-a1-m1-cC 3izl-a1-m1-cC_3izl-a1-m1-cD 3izl-a1-m1-cD_3izl-a1-m1-cE 3izl-a1-m1-cE_3izl-a1-m1-cF 3izl-a1-m1-cF_3izl-a1-m1-cG 3izl-a1-m1-cG_3izl-a1-m1-cH 3izl-a1-m1-cI_3izl-a1-m1-cJ 3izl-a1-m1-cI_3izl-a1-m1-cP 3izl-a1-m1-cJ_3izl-a1-m1-cK 3izl-a1-m1-cK_3izl-a1-m1-cL 3izl-a1-m1-cL_3izl-a1-m1-cM 3izl-a1-m1-cM_3izl-a1-m1-cN 3izl-a1-m1-cN_3izl-a1-m1-cO 3izl-a1-m1-cO_3izl-a1-m1-cP 3izm-a1-m1-cA_3izm-a1-m1-cB 3izm-a1-m1-cA_3izm-a1-m1-cH 3izm-a1-m1-cB_3izm-a1-m1-cC 3izm-a1-m1-cC_3izm-a1-m1-cD 3izm-a1-m1-cD_3izm-a1-m1-cE 3izm-a1-m1-cE_3izm-a1-m1-cF 3izm-a1-m1-cF_3izm-a1-m1-cG 3izm-a1-m1-cG_3izm-a1-m1-cH 3izm-a1-m1-cI_3izm-a1-m1-cJ 3izm-a1-m1-cI_3izm-a1-m1-cP 3izm-a1-m1-cJ_3izm-a1-m1-cK 3izm-a1-m1-cK_3izm-a1-m1-cL 3izm-a1-m1-cL_3izm-a1-m1-cM 3izm-a1-m1-cM_3izm-a1-m1-cN 3izm-a1-m1-cN_3izm-a1-m1-cO 3izm-a1-m1-cO_3izm-a1-m1-cP 3izn-a1-m1-cA_3izn-a1-m1-cB 3izn-a1-m1-cA_3izn-a1-m1-cH 3izn-a1-m1-cB_3izn-a1-m1-cC 3izn-a1-m1-cC_3izn-a1-m1-cD 3izn-a1-m1-cD_3izn-a1-m1-cE 3izn-a1-m1-cE_3izn-a1-m1-cF 3izn-a1-m1-cF_3izn-a1-m1-cG 3izn-a1-m1-cG_3izn-a1-m1-cH 3izn-a1-m1-cI_3izn-a1-m1-cJ 3izn-a1-m1-cI_3izn-a1-m1-cP 3izn-a1-m1-cJ_3izn-a1-m1-cK 3izn-a1-m1-cK_3izn-a1-m1-cL 3izn-a1-m1-cL_3izn-a1-m1-cM 3izn-a1-m1-cM_3izn-a1-m1-cN 3izn-a1-m1-cN_3izn-a1-m1-cO 3izn-a1-m1-cO_3izn-a1-m1-cP 3j03-a1-m1-cA_3j03-a1-m1-cB 3j03-a1-m1-cA_3j03-a1-m1-cH 3j03-a1-m1-cB_3j03-a1-m1-cC 3j03-a1-m1-cC_3j03-a1-m1-cD 3j03-a1-m1-cD_3j03-a1-m1-cE 3j03-a1-m1-cE_3j03-a1-m1-cF 3j03-a1-m1-cF_3j03-a1-m1-cG 3j03-a1-m1-cG_3j03-a1-m1-cH 3j03-a1-m1-cI_3j03-a1-m1-cJ 3j03-a1-m1-cI_3j03-a1-m1-cP 3j03-a1-m1-cJ_3j03-a1-m1-cK 3j03-a1-m1-cK_3j03-a1-m1-cL 3j03-a1-m1-cL_3j03-a1-m1-cM 3j03-a1-m1-cM_3j03-a1-m1-cN 3j03-a1-m1-cN_3j03-a1-m1-cO 3j03-a1-m1-cO_3j03-a1-m1-cP 3j3x-a1-m1-cA_3j3x-a1-m1-cB 3j3x-a1-m1-cA_3j3x-a1-m1-cH 3j3x-a1-m1-cB_3j3x-a1-m1-cC 3j3x-a1-m1-cC_3j3x-a1-m1-cD 3j3x-a1-m1-cD_3j3x-a1-m1-cE 3j3x-a1-m1-cE_3j3x-a1-m1-cF 3j3x-a1-m1-cF_3j3x-a1-m1-cG 3j3x-a1-m1-cG_3j3x-a1-m1-cH 3j3x-a1-m1-cI_3j3x-a1-m1-cJ 3j3x-a1-m1-cI_3j3x-a1-m1-cP 3j3x-a1-m1-cJ_3j3x-a1-m1-cK 3j3x-a1-m1-cK_3j3x-a1-m1-cL 3j3x-a1-m1-cL_3j3x-a1-m1-cM 3j3x-a1-m1-cM_3j3x-a1-m1-cN 3j3x-a1-m1-cN_3j3x-a1-m1-cO 3j3x-a1-m1-cO_3j3x-a1-m1-cP 3kfb-a1-m1-cA_3kfb-a1-m1-cB 3kfb-a1-m1-cA_3kfb-a1-m1-cH 3kfb-a1-m1-cB_3kfb-a1-m1-cC 3kfb-a1-m1-cC_3kfb-a1-m1-cD 3kfb-a1-m1-cD_3kfb-a1-m1-cE 3kfb-a1-m1-cE_3kfb-a1-m1-cF 3kfb-a1-m1-cF_3kfb-a1-m1-cG 3kfb-a1-m1-cG_3kfb-a1-m1-cH 3kfb-a1-m2-cA_3kfb-a1-m2-cB 3kfb-a1-m2-cA_3kfb-a1-m2-cH 3kfb-a1-m2-cB_3kfb-a1-m2-cC 3kfb-a1-m2-cC_3kfb-a1-m2-cD 3kfb-a1-m2-cE_3kfb-a1-m2-cF 3kfb-a1-m2-cF_3kfb-a1-m2-cG 3kfb-a1-m2-cG_3kfb-a1-m2-cH 3kfe-a1-m1-cA_3kfe-a1-m1-cB 3kfe-a1-m1-cA_3kfe-a1-m1-cH 3kfe-a1-m1-cB_3kfe-a1-m1-cC 3kfe-a1-m1-cC_3kfe-a1-m1-cD 3kfe-a1-m1-cD_3kfe-a1-m1-cE 3kfe-a1-m1-cE_3kfe-a1-m1-cF 3kfe-a1-m1-cF_3kfe-a1-m1-cG 3kfe-a1-m1-cG_3kfe-a1-m1-cH 3kfk-a1-m1-cD_3kfk-a1-m1-cC 3kfk-a1-m2-cD_3kfk-a1-m2-cC 3kfk-a1-m3-cD_3kfk-a1-m3-cC 3kfk-a1-m4-cD_3kfk-a1-m4-cC 3los-a1-m1-cA_3los-a1-m1-cB 3los-a1-m1-cA_3los-a1-m1-cH 3los-a1-m1-cB_3los-a1-m1-cC 3los-a1-m1-cC_3los-a1-m1-cD 3los-a1-m1-cD_3los-a1-m1-cE 3los-a1-m1-cE_3los-a1-m1-cF 3los-a1-m1-cF_3los-a1-m1-cG 3los-a1-m1-cG_3los-a1-m1-cH 3los-a1-m1-cI_3los-a1-m1-cJ 3los-a1-m1-cI_3los-a1-m1-cP 3los-a1-m1-cJ_3los-a1-m1-cK 3los-a1-m1-cK_3los-a1-m1-cL 3los-a1-m1-cL_3los-a1-m1-cM 3los-a1-m1-cM_3los-a1-m1-cN 3los-a1-m1-cN_3los-a1-m1-cO 3los-a1-m1-cO_3los-a1-m1-cP 3ruq-a1-m1-cA_3ruq-a1-m1-cB 3ruq-a1-m1-cA_3ruq-a1-m3-cD 3ruq-a1-m1-cB_3ruq-a1-m1-cC 3ruq-a1-m1-cC_3ruq-a1-m1-cD 3ruq-a1-m1-cD_3ruq-a1-m3-cA 3ruq-a1-m2-cA_3ruq-a1-m2-cB 3ruq-a1-m2-cA_3ruq-a1-m4-cD 3ruq-a1-m2-cB_3ruq-a1-m2-cC 3ruq-a1-m2-cC_3ruq-a1-m2-cD 3ruq-a1-m2-cD_3ruq-a1-m4-cA 3ruq-a1-m3-cA_3ruq-a1-m3-cB 3ruq-a1-m3-cB_3ruq-a1-m3-cC 3ruq-a1-m3-cC_3ruq-a1-m3-cD 3ruq-a1-m4-cA_3ruq-a1-m4-cB 3ruq-a1-m4-cB_3ruq-a1-m4-cC 3ruq-a1-m4-cC_3ruq-a1-m4-cD 3rus-a1-m1-cA_3rus-a1-m1-cB 3rus-a1-m1-cA_3rus-a1-m2-cD 3rus-a1-m1-cB_3rus-a1-m1-cC 3rus-a1-m1-cC_3rus-a1-m1-cD 3rus-a1-m1-cD_3rus-a1-m2-cA 3rus-a1-m2-cA_3rus-a1-m2-cB 3rus-a1-m2-cB_3rus-a1-m2-cC 3rus-a1-m2-cC_3rus-a1-m2-cD 3rus-a1-m3-cA_3rus-a1-m3-cB 3rus-a1-m3-cA_3rus-a1-m4-cD 3rus-a1-m3-cB_3rus-a1-m3-cC 3rus-a1-m3-cC_3rus-a1-m3-cD 3rus-a1-m3-cD_3rus-a1-m4-cA 3rus-a1-m4-cA_3rus-a1-m4-cB 3rus-a1-m4-cB_3rus-a1-m4-cC 3rus-a1-m4-cC_3rus-a1-m4-cD 3ruv-a1-m1-cA_3ruv-a1-m1-cB 3ruv-a1-m1-cA_3ruv-a1-m2-cD 3ruv-a1-m1-cB_3ruv-a1-m1-cC 3ruv-a1-m1-cC_3ruv-a1-m1-cD 3ruv-a1-m1-cD_3ruv-a1-m2-cA 3ruv-a1-m2-cA_3ruv-a1-m2-cB 3ruv-a1-m2-cB_3ruv-a1-m2-cC 3ruv-a1-m2-cC_3ruv-a1-m2-cD 3ruv-a1-m3-cA_3ruv-a1-m3-cB 3ruv-a1-m3-cA_3ruv-a1-m4-cD 3ruv-a1-m3-cB_3ruv-a1-m3-cC 3ruv-a1-m3-cC_3ruv-a1-m3-cD 3ruv-a1-m3-cD_3ruv-a1-m4-cA 3ruv-a1-m4-cA_3ruv-a1-m4-cB 3ruv-a1-m4-cB_3ruv-a1-m4-cC 3ruv-a1-m4-cC_3ruv-a1-m4-cD 3ruw-a1-m1-cA_3ruw-a1-m1-cB 3ruw-a1-m1-cA_3ruw-a1-m3-cD 3ruw-a1-m1-cB_3ruw-a1-m1-cC 3ruw-a1-m1-cC_3ruw-a1-m1-cD 3ruw-a1-m1-cD_3ruw-a1-m3-cA 3ruw-a1-m2-cA_3ruw-a1-m2-cB 3ruw-a1-m2-cA_3ruw-a1-m4-cD 3ruw-a1-m2-cB_3ruw-a1-m2-cC 3ruw-a1-m2-cC_3ruw-a1-m2-cD 3ruw-a1-m2-cD_3ruw-a1-m4-cA 3ruw-a1-m3-cA_3ruw-a1-m3-cB 3ruw-a1-m3-cB_3ruw-a1-m3-cC 3ruw-a1-m3-cC_3ruw-a1-m3-cD 3ruw-a1-m4-cA_3ruw-a1-m4-cB 3ruw-a1-m4-cB_3ruw-a1-m4-cC 3ruw-a1-m4-cC_3ruw-a1-m4-cD 5w79-a1-m1-cA_5w79-a1-m1-cB 5w79-a1-m1-cA_5w79-a1-m1-cH 5w79-a1-m1-cB_5w79-a1-m1-cC 5w79-a1-m1-cC_5w79-a1-m1-cD 5w79-a1-m1-cD_5w79-a1-m1-cE 5w79-a1-m1-cE_5w79-a1-m1-cF 5w79-a1-m1-cF_5w79-a1-m1-cG 5w79-a1-m1-cG_5w79-a1-m1-cH NMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE NMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE 3kfc-a2-m1-cC_3kfc-a2-m1-cD Complex Structure of LXR with an agonist P55055 P55055 2.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 233 LTAAQELMIQQLVAAQLQCNKRSFAHFTELAIISVQEIVDFAKQVPGFLQLGREDQIALLKASTIEIMLLETARRYNHETECITFLKDFTYSKDDFINPIFEFSRAMRRLGLDDAEYALLIAINIFSADRPNVQEPGRVEALQQPYVEALLSYTRIKRPQDQLRFPRMLMKLVSLRTLSSVHSEQV LTAAQELMIQQLVAAQLQCNKRSFSDQPKVTPWPLGDARQQRFAHFTELAIISVQEIVDFAKQVPGFLQLGREDQIALLKASTIEIMLLETARRYNHETECITFLKDFTYSKDDFHRAGLQVEFINPIFEFSRAMRRLGLDDAEYALLIAINIFSADRPNVQEPGRVEALQQPYVEALLSYTRIKRPQDQLRFPRMLMKLVSLRTLSSVHSEQVFALRLQDKKLPPLLSEIWD 3kfd-a3-m1-cA_3kfd-a3-m1-cC Ternary complex of TGF-b1 reveals isoform-specific ligand recognition and receptor recruitment in the superfamily P01137 P01137 2.995 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 ALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS ALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS 3kfd-a3-m1-cC_3kfd-a3-m1-cD Ternary complex of TGF-b1 reveals isoform-specific ligand recognition and receptor recruitment in the superfamily P01137 P01137 2.995 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 1kla-a1-m1-cA_1kla-a1-m1-cB 1klc-a1-m1-cA_1klc-a1-m1-cB 1kld-a1-m1-cA_1kld-a1-m1-cB 3kfd-a1-m1-cA_3kfd-a1-m1-cB 3kfd-a2-m1-cC_3kfd-a2-m1-cD 3kfd-a3-m1-cA_3kfd-a3-m1-cB 4kv5-a1-m1-cC_4kv5-a1-m1-cD 4kv5-a2-m1-cA_4kv5-a2-m1-cB ALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS ALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS 3kfw-a1-m1-cX_3kfw-a1-m4-cX Uncharacterized protein Rv0674 from Mycobacterium tuberculosis O53782 O53782 2.5 X-RAY DIFFRACTION 39 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 223 223 3kfw-a1-m2-cX_3kfw-a1-m3-cX SLTARSVVLSVLLGAHPAWATASELIQLTADFGIKETTLRVALTRVGAGDLVRSADGYRLSDRLLARQRRQDEARPRTRAWHGNWHLIVTSIGTDARTRAALRTCHHKRFGELREGVWRPDNLDLDLESDVAARVRLTARDEAPADLAGQLWDLSGWTEAGHRLLGDAAATDPGRFVVAAAVRHLLTDPLPAELLPADWPGAGLRAAYHDFATAAKRRDATQL SLTARSVVLSVLLGAHPAWATASELIQLTADFGIKETTLRVALTRVGAGDLVRSADGYRLSDRLLARQRRQDEARPRTRAWHGNWHLIVTSIGTDARTRAALRTCHHKRFGELREGVWRPDNLDLDLESDVAARVRLTARDEAPADLAGQLWDLSGWTEAGHRLLGDAAATDPGRFVVAAAVRHLLTDPLPAELLPADWPGAGLRAAYHDFATAAKRRDATQL 3kfw-a1-m2-cX_3kfw-a1-m4-cX Uncharacterized protein Rv0674 from Mycobacterium tuberculosis O53782 O53782 2.5 X-RAY DIFFRACTION 68 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 223 223 3kfw-a1-m1-cX_3kfw-a1-m3-cX SLTARSVVLSVLLGAHPAWATASELIQLTADFGIKETTLRVALTRVGAGDLVRSADGYRLSDRLLARQRRQDEARPRTRAWHGNWHLIVTSIGTDARTRAALRTCHHKRFGELREGVWRPDNLDLDLESDVAARVRLTARDEAPADLAGQLWDLSGWTEAGHRLLGDAAATDPGRFVVAAAVRHLLTDPLPAELLPADWPGAGLRAAYHDFATAAKRRDATQL SLTARSVVLSVLLGAHPAWATASELIQLTADFGIKETTLRVALTRVGAGDLVRSADGYRLSDRLLARQRRQDEARPRTRAWHGNWHLIVTSIGTDARTRAALRTCHHKRFGELREGVWRPDNLDLDLESDVAARVRLTARDEAPADLAGQLWDLSGWTEAGHRLLGDAAATDPGRFVVAAAVRHLLTDPLPAELLPADWPGAGLRAAYHDFATAAKRRDATQL 3kfx-a2-m2-cA_3kfx-a2-m2-cB Human dCK complex with 5-Me dC and ADP P27707 P27707 1.96 X-RAY DIFFRACTION 74 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 230 241 1p5z-a1-m1-cB_1p5z-a1-m2-cB 1p60-a1-m1-cB_1p60-a1-m1-cA 1p60-a3-m1-cB_1p60-a3-m1-cA 1p60-a3-m2-cB_1p60-a3-m2-cA 1p61-a1-m1-cB_1p61-a1-m2-cB 1p62-a1-m1-cB_1p62-a1-m2-cB 2a2z-a1-m1-cB_2a2z-a1-m1-cA 2a2z-a2-m1-cD_2a2z-a2-m1-cC 2a30-a1-m1-cB_2a30-a1-m1-cA 2a30-a2-m1-cD_2a30-a2-m1-cC 2a7q-a1-m1-cA_2a7q-a1-m2-cA 2no0-a1-m1-cB_2no0-a1-m1-cA 2no0-a3-m1-cB_2no0-a3-m1-cA 2no0-a3-m2-cB_2no0-a3-m2-cA 2no1-a1-m1-cB_2no1-a1-m1-cA 2no1-a3-m1-cB_2no1-a3-m1-cA 2no1-a3-m2-cB_2no1-a3-m2-cA 2no6-a1-m1-cB_2no6-a1-m1-cA 2no6-a3-m1-cB_2no6-a3-m1-cA 2no6-a3-m2-cB_2no6-a3-m2-cA 2no7-a1-m1-cB_2no7-a1-m1-cA 2no9-a1-m1-cB_2no9-a1-m1-cA 2no9-a3-m1-cB_2no9-a3-m1-cA 2no9-a3-m2-cB_2no9-a3-m2-cA 2noa-a1-m1-cB_2noa-a1-m1-cA 2noa-a3-m1-cB_2noa-a3-m1-cA 2noa-a3-m2-cB_2noa-a3-m2-cA 2qrn-a1-m1-cA_2qrn-a1-m1-cB 2qrn-a2-m1-cC_2qrn-a2-m1-cD 2qro-a1-m1-cA_2qro-a1-m1-cB 2qro-a2-m1-cC_2qro-a2-m1-cD 2zi3-a1-m1-cB_2zi3-a1-m1-cA 2zi4-a1-m1-cA_2zi4-a1-m2-cA 2zi5-a1-m1-cA_2zi5-a1-m1-cB 2zi5-a2-m1-cC_2zi5-a2-m2-cC 2zi5-a3-m1-cD_2zi5-a3-m3-cD 2zi6-a1-m1-cA_2zi6-a1-m1-cB 2zi6-a2-m1-cC_2zi6-a2-m2-cC 2zi6-a3-m1-cD_2zi6-a3-m3-cD 2zi7-a1-m1-cB_2zi7-a1-m1-cA 2zi9-a1-m1-cB_2zi9-a1-m1-cA 3hp1-a1-m1-cA_3hp1-a1-m2-cA 3ipx-a2-m1-cA_3ipx-a2-m2-cA 3ipy-a3-m1-cA_3ipy-a3-m1-cB 3kfx-a1-m1-cA_3kfx-a1-m1-cB 3kfx-a2-m1-cA_3kfx-a2-m1-cB 3mjr-a1-m1-cB_3mjr-a1-m1-cA 3mjr-a2-m1-cD_3mjr-a2-m1-cC 3qej-a1-m1-cA_3qej-a1-m1-cB 3qen-a1-m1-cB_3qen-a1-m1-cA 3qeo-a1-m1-cA_3qeo-a1-m1-cB 4jlj-a1-m1-cA_4jlj-a1-m1-cB 4jlk-a1-m1-cA_4jlk-a1-m1-cB 4jlm-a1-m1-cA_4jlm-a1-m1-cB 4jln-a1-m1-cA_4jln-a1-m1-cB 4kcg-a1-m1-cA_4kcg-a1-m1-cB 4l5b-a1-m1-cB_4l5b-a1-m1-cA 4q18-a1-m1-cA_4q18-a1-m1-cB 4q19-a1-m1-cA_4q19-a1-m1-cB 4q1a-a1-m1-cA_4q1a-a1-m1-cB 4q1b-a1-m1-cB_4q1b-a1-m1-cA 4q1c-a1-m1-cB_4q1c-a1-m1-cA 4q1d-a1-m1-cB_4q1d-a1-m1-cA 4q1e-a1-m1-cA_4q1e-a1-m1-cB 4q1f-a1-m1-cA_4q1f-a1-m1-cB 5mqj-a1-m1-cB_5mqj-a1-m1-cA 5mqj-a2-m1-cD_5mqj-a2-m1-cC 5mql-a1-m1-cB_5mql-a1-m1-cA 5mql-a2-m1-cD_5mql-a2-m1-cC 5mqt-a1-m1-cB_5mqt-a1-m1-cA 5mqt-a2-m1-cD_5mqt-a2-m1-cC TRIKKISIEGNIAAGKSTFVNILKQLSEDWEVVPEPVARWSNVQSTNGGNVLQMMYEKPERWSFTFQTYACLSRIRAQLASLNGKLKDAEKPVLFFERSVYSDRYIFASNLYESESMNETEWTIYQDWHDWMNNQFGQSLELDGIIYLQATPETCLHRIYLRGRNEEQGIPLEYLEKLHYKHESWLLHRTLKTNFDYLQEVPILTLDVNEDFKDKYESLVEKVKEFLSTL RIKKISIEGNIAAGKSTFVNILKQLSEDWEVVPEPVARWSNVQSTQDEFEELTMSQKNGGNVLQMMYEKPERWSFTFQTYACLSRIRAQLASLNGKLKDAEKPVLFFERSVYSDRYIFASNLYESESMNETEWTIYQDWHDWMNNQFGQSLELDGIIYLQATPETCLHRIYLRGRNEEQGIPLEYLEKLHYKHESWLLHRTLKTNFDYLQEVPILTLDVNEDFKDKYESLVEKVKEFLSTL 3kg0-a3-m1-cC_3kg0-a3-m2-cA Crystal structure of SnoaB, a cofactor-independent oxygenase from Streptomyces nogalater, determined to 1.7 resolution O54259 O54259 1.7 X-RAY DIFFRACTION 90 0.99 38314 (Streptomyces nogalater) 38314 (Streptomyces nogalater) 97 97 3kg0-a1-m1-cA_3kg0-a1-m2-cC 3kg0-a2-m1-cB_3kg0-a2-m3-cB 3kg1-a1-m1-cC_3kg1-a1-m2-cA 3kg1-a2-m1-cB_3kg1-a2-m3-cB 3kg1-a3-m1-cC_3kg1-a3-m2-cA 3kng-a1-m1-cA_3kng-a1-m1-cB DADEVTFVNRFTVHGAPAEFESVFARTAAFFARQPGFVRHTLLRERDKDNSYVNIAVWTDHDAFRRALAQPGFLPHATALRALSTSEHGLFTARQTL ADEVTFVNRFTVHGAPAEFESVFARTAAFFARQPGFVRHTLLRERDKDNSYVNIAVWTDHDAFRRALAQPGFLPHATALRALSTSEHGLFTARQTLP 3kg5-a1-m1-cA_3kg5-a1-m1-cB Crystal structure of human Ig-beta homodimer P40259 P40259 3.2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 103 CSRIWQSPRFIARKRGFTVKMHCYMNSASGNVSWLWKQEMDENPQQLKLEKGRMEESQNESLATLTIQGIRFEDNGIYFCQQKCNNTSEVYQGCGTELRVMGF CSRIWQSPRFIARKRGFTVKMHCYMNSASGNVSWLWKQEMDENPQQLKLEKGRMEESQNESLATLTIQGIRFEDNGIYFCQQKCNNTSEVYQGCGTELRVMGF 3kg6-a2-m1-cD_3kg6-a2-m1-cB Dehydratase domain from CurF module of Curacin polyketide synthase Q6DNE7 Q6DNE7 2.7 X-RAY DIFFRACTION 36 0.996 158786 (Lyngbya majuscula) 158786 (Lyngbya majuscula) 278 279 3kg6-a1-m1-cA_3kg6-a1-m1-cC NAHPLLGEKINLAGIEDQHRFQSYIGAESPGYLNHHQVFGKVLFPSTGYLEIAASAGKSLFTSQEQVVVSDVDILQSLVIPETEIKTVQTVVSFAENNSYKFEIFSPSEGTPQWVLHAQGKIYTEPTRNSQAKIDLEKYQAECSQAIEIEEHYREYRSKGIDYGSSFQGIKQLWKGQGKALGEMAFPEELTAQLADYQLHPALLDAAFQIVSYAIPHTETDKIYLPVGVEKFKLYRQTISQVWAIAEIRQTNLTANIFLVDNQGTVLVELEGLRVKVT SNAHPLLGEKINLAGIEDQHRFQSYIGAESPGYLNHHQVFGKVLFPSTGYLEIAASAGKSLFTSQEQVVVSDVDILQSLVIPETEIKTVQTVVSFAENNSYKFEIFSPSETPQWVLHAQGKIYTEPTRNSQAKIDLEKYQAECSQAIEIEEHYREYRSKGIDYGSSFQGIKQLWKGQGKALGEMAFPEELTAQLADYQLHPALLDAAFQIVSYAIPHTETDKIYLPVGVEKFKLYRQTISQVWAIAEIRQTNLTANIFLVDNQGTVLVELEGLRVKVTE 3kg7-a2-m1-cB_3kg7-a2-m1-cD Dehydratase domain from CurH module of Curacin polyketide synthase Q6DNE5 Q6DNE5 2.77 X-RAY DIFFRACTION 28 1.0 158786 (Lyngbya majuscula) 158786 (Lyngbya majuscula) 280 280 3kg7-a1-m1-cA_3kg7-a1-m1-cC HRLLGNKLELASTGQTIYHQDINLNNHPWIGDHRVYDTPVIPGVSYIATLAAVGVPAAVEDINFQQPLFLAESNTTRETQLLHTADNVGKQFVEVFSRDGAKQEEWQQHASSVSENPPPPPTLSVDIPALCEQLRPLDTDTLTEIYASISLVYGPLQAVRQAWIGEETSLLEIEVPKALAFQLAGEPIHPVLIDACTRLTPDLFDFSSDSGVFWAPWRVKETLSHPTPSRFYAYVEEPSRVNEQLQTRSYDIQLLDETGQAFGRINGFTVKRAPSQLFLK HRLLGNKLELASTGQTIYHQDINLNNHPWIGDHRVYDTPVIPGVSYIATLAAVGVPAAVEDINFQQPLFLAESNTTRETQLLHTADNVGKQFVEVFSRDGAKQEEWQQHASSVSENPPPPPTLSVDIPALCEQLRPLDTDTLTEIYASISLVYGPLQAVRQAWIGEETSLLEIEVPKALAFQLAGEPIHPVLIDACTRLTPDLFDFSSDSGVFWAPWRVKETLSHPTPSRFYAYVEEPSRVNEQLQTRSYDIQLLDETGQAFGRINGFTVKRAPSQLFLK 3kgb-a1-m1-cA_3kgb-a1-m2-cA Crystal structure of thymidylate synthase 1/2 from Encephalitozoon cuniculi at 2.2 A resolution O62584 O62584 2.2 X-RAY DIFFRACTION 116 1.0 284813 (Encephalitozoon cuniculi GB-M1) 284813 (Encephalitozoon cuniculi GB-M1) 254 254 HPEHQYLDLVKHILENGARRMTGTLSVFGATMRFSLEDNTFPLLTTRRVFYRGVVEELLFFLRGETDSKVLEKKGVRDLGPIYGFQWRHFGARYETSASSYEGKGVDQIASAIAAIRANPASRRIVVSAWNPTDLGSMALPPCHVLFQFNVTDGKLSCAMYQRSGDMGLGVPFNIASYSLLTILVAHLTGLQPGEFVHFLGDAHVYLDHVDSLRQQIQRPPRAFPKLFVSPKGPRTEPEHFQYEDFELVGYDPH HPEHQYLDLVKHILENGARRMTGTLSVFGATMRFSLEDNTFPLLTTRRVFYRGVVEELLFFLRGETDSKVLEKKGVRDLGPIYGFQWRHFGARYETSASSYEGKGVDQIASAIAAIRANPASRRIVVSAWNPTDLGSMALPPCHVLFQFNVTDGKLSCAMYQRSGDMGLGVPFNIASYSLLTILVAHLTGLQPGEFVHFLGDAHVYLDHVDSLRQQIQRPPRAFPKLFVSPKGPRTEPEHFQYEDFELVGYDPH 3kgk-a1-m1-cA_3kgk-a1-m1-cB Crystal structure of ArsD P46003 P46003 1.4 X-RAY DIFFRACTION 62 1.0 562 (Escherichia coli) 562 (Escherichia coli) 92 98 MKTLMVFDPAQALVDFSTDVQWLKQSGVQIERFNLAQQPMSFVQNEKVKAFIEASGAEGLPLLLLDGETVMAGRYPKRAELARWFGIPLDKV MKTLMVFDPAMDQALVDFSTDVQWLKQSGVQIERFNLAQQPMSFVQNEKVKAFIEASGAEGLPLLLLDGETVMAGRYPKRAELARWFGIPLDKVGLAP 3kgl-a1-m1-cB_3kgl-a1-m1-cC Crystal structure of procruciferin, 11S globulin from Brassica napus Q7XB53 Q7XB53 2.981 X-RAY DIFFRACTION 204 0.99 3708 (Brassica napus) 3708 (Brassica napus) 387 387 3kgl-a1-m1-cB_3kgl-a1-m1-cA 3kgl-a1-m1-cC_3kgl-a1-m1-cA 3kgl-a2-m1-cD_3kgl-a2-m1-cF 3kgl-a2-m1-cE_3kgl-a2-m1-cD 3kgl-a2-m1-cE_3kgl-a2-m1-cF FPNECQLDQLNALEPSHVLKAEAGRIEVWDHHAPQLRCSGVSFVRYIIESKGLYLPSFFSTAKLSFVAKGEGLMGRVVPGCAEDMHQKVEHIRTGDTIATHPGVAQWFYNDGNQPLVIVSVLDLASHQNQLDRNPRPFYLAGNNPQGQVWIEGREQQPQKNILNGFTPEVLAKAFKIDVRTAQQLQNQQDNRGNIIRVQGPFSVIRPPLRSETICSARCTDNLDDPSNADVYKPQLGYISTLNSYDLPILRFLRLSALRGSIRQNAMVLPQWNANANAVLYVTDGEAHVQVVNDNGDRVFDGQVSQGQLLSIPQGFSVVKRATSEQFRWIEFKTNANAQINTLAGRTSVLRGLPLEVISNGYQISLEEARRVKFNTIETTLTHSSGP QQFPNECQLDQLNALEPSHVLKAEAGRIEVWDHHAPQLRCSGVSFVRYIIESKGLYLPSFFSTAKLSFVAKGEGLMGRVVPGCAETRDMHQKVEHIRTGDTIATHPGVAQWFYNDGNQPLVIVSVLDLASHQNQLDRNPRPFYLAGNNPQGQVWIEGREQQPQKNILNGFTPEVLAKAFKIDVRTAQQLQNQQDNRGNIIRVQGPFSVIRPETICSARCTDNLDDPSNADVYKPQLGYISTLNSYDLPILRFLRLSALRGSIRQNAMVLPQWNANANAVLYVTDGEAHVQVVNDNGDRVFDGQVSQGQLLSIPQGFSVVKRATSEQFRWIEFKTNANAQINTLAGRTSVLRGLPLEVISNGYQISLEEARRVKFNTIETTLTHSSGP 3kgw-a1-m1-cA_3kgw-a1-m1-cB Crystal structure of Putative aminotransferase (AAH25799.1) from MUS MUSCULUS at 1.65 A resolution O35423 O35423 1.65 X-RAY DIFFRACTION 284 0.995 10090 (Mus musculus) 10090 (Mus musculus) 386 388 3kgx-a1-m1-cA_3kgx-a1-m1-cB QLLVPPPEALSKPLSVPTRLLLGPGPSNLAPRVLAAGSLRMIGHMQKEMLQIMEEIKQGIQYVFQTRNPLTLVVSGSGHCAMETALFNLLEPGDSFLTGTNGIWGMRAAEIADRIGARVHQMIKKPGEHYTLQEVEEGLAQHKPVLLFLVHGESSTGVVQPLDGFGELCHRYQCLLLVDSVASLGGVPIYMDQQGIDIMYSSSQKVLNAPPGISLISFNDKAKYKVYSRKTKPVSFYTDITYLAKLWGCEGETRVIHHTTPVTSLYCLRESLALIAEQGLENCWRRHREATAHLHKHLQEMGLKFFVKDPEIRLPTITTVTVPAGYNWRDIVSYVLDHFSIEISGGLGPTEERVLRIGLLGYNATTENVDRVAEALREALQHCPKN MGSYQLLVPPPEALSKPLSVPTRLLLGPGPSNLAPRVLAAGSLRMIGHMQKEMLQIMEEIKQGIQYVFQTRNPLTLVVSGSGHCAMETALFNLLEPGDSFLTGTNGIWGMRAAEIADRIGARVHQMIKKPGEHYTLQEVEEGLAQHKPVLLFLVHGESSTGVVQPLDGFGELCHRYQCLLLVDSVASLGGVPIYMDQQGIDIMYSSSQKVLNAPPGISLISFNDKAKYKVYSRKTKPVSFYTDITYLAKLWGCETRVIHHTTPVTSLYCLRESLALIAEQGLENCWRRHREATAHLHKHLQEMGLKFFVKDPEIRLPTITTVTVPAGYNWRDIVSYVLDHFSIEISGGLGPTEERVLRIGLLGYNATTENVDRVAEALREALQHCPKN 3kgy-a1-m1-cA_3kgy-a1-m1-cB Crystal structure of Putative dihydrofolate reductase (YP_001636057.1) from CHLOROFLEXUS AURANTIACUS J-10-FL at 1.50 A resolution A9WHX7 A9WHX7 1.5 X-RAY DIFFRACTION 71 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 210 210 NLYFQGSKVFVNISLSLDGFAPEGDAHFSDPTYKNWGAKWGALAWALSQQYLREKLKLGTGGETGPVNDVRHTFERTGAHIGKRFEGGERGWPEEAPFHTPVYVLTHERRNPWVRPGGTTFYFVNDGPEQALALAREAAGERDIRISGGANVIQQYLNLGLVDELEIALIPVIFGGGRRLFENLHEPLPQFRIDRVLASPTATHLRYVRL NLYFQGSKVFVNISLSLDGFAPEGDAHFSDPTYKNWGAKWGALAWALSQQYLREKLKLGTGGETGPVNDVRHTFERTGAHIGKRFEGGERGWPEEAPFHTPVYVLTHERRNPWVRPGGTTFYFVNDGPEQALALAREAAGERDIRISGGANVIQQYLNLGLVDELEIALIPVIFGGGRRLFENLHEPLPQFRIDRVLASPTATHLRYVRL 3kgz-a1-m1-cA_3kgz-a1-m1-cB Crystal structure of a cupin 2 conserved barrel domain protein from Rhodopseudomonas palustris B3QER1 B3QER1 1.85 X-RAY DIFFRACTION 114 1.0 395960 (Rhodopseudomonas palustris TIE-1) 395960 (Rhodopseudomonas palustris TIE-1) 145 145 SLRAQTAPGRWDGVAVMPYKQTAEAPFQDVSRQLLFADPNLACEWRYFEVDEGGYSTLERHAHVHAVMIHRGHGQCLVGETISDVAQGDLVFIPPMTWHQFRANRGDCLGFLCVVNAARDRPQLPTADDLAELRKDERIADFIRT SLRAQTAPGRWDGVAVMPYKQTAEAPFQDVSRQLLFADPNLACEWRYFEVDEGGYSTLERHAHVHAVMIHRGHGQCLVGETISDVAQGDLVFIPPMTWHQFRANRGDCLGFLCVVNAARDRPQLPTADDLAELRKDERIADFIRT 3kh0-a1-m1-cA_3kh0-a1-m1-cB Crystal structure of the Ras-association (RA) domain of RALGDS Q12967 Q12967 2.1 X-RAY DIFFRACTION 34 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 102 105 NLYFQGNQQVGDCCIIRVSLDVDNGNMYKSILVTSQDKAPAVIRKAMDKHNLEEEEPEDYELLQILSDDRKLKIPENANVFYAMNSTANYDFVLKKRTFKVK NLYFQGNQQVGDCCIIRVSLDVDNGNMYKSILVTSQDKAPAVIRKAMDKHNLEEEEPEDYELLQILSDDRKLKIPENANVFYAMNSTANYDFVLKKRTFGVKVKH 3kh0-a2-m1-cA_3kh0-a2-m2-cB Crystal structure of the Ras-association (RA) domain of RALGDS Q12967 Q12967 2.1 X-RAY DIFFRACTION 76 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 102 105 1lxd-a1-m1-cA_1lxd-a1-m1-cB NLYFQGNQQVGDCCIIRVSLDVDNGNMYKSILVTSQDKAPAVIRKAMDKHNLEEEEPEDYELLQILSDDRKLKIPENANVFYAMNSTANYDFVLKKRTFKVK NLYFQGNQQVGDCCIIRVSLDVDNGNMYKSILVTSQDKAPAVIRKAMDKHNLEEEEPEDYELLQILSDDRKLKIPENANVFYAMNSTANYDFVLKKRTFGVKVKH 3kh1-a1-m1-cB_3kh1-a1-m1-cA Crystal structure of Predicted metal-dependent phosphohydrolase (ZP_00055740.2) from Magnetospirillum magnetotacticum MS-1 at 1.37 A resolution D1MPT5 D1MPT5 1.37 X-RAY DIFFRACTION 117 1.0 272627 (Magnetospirillum magnetotacticum MS-1) 272627 (Magnetospirillum magnetotacticum MS-1) 186 192 ESRLAAQSFVVEIDKLKTILRQTLLTDSSRRENDAEHSWHIATAFLLAEYADEAVQIGRVARLLIHDIVEIDAGDTFIHDDKEERERKAAARLFGLLPPDQAAEYSALWQEYEARETADARFADALDRLQPLLHNFETEGGTWKPHGVTRAKVDKLLPRIEAGSKRLGAYARALVDEAVRRGYLAP IPFPESRLAAQSFVVEIDKLKTILRQTLLTDSSRRENDAEHSWHIATAFLLAEYADEAVQIGRVARLLIHDIVEIDAGDTFIHDEADKEERERKAAARLFGLLPPDQAAEYSALWQEYEARETADARFADALDRLQPLLHNFETEGGTWKPHGVTRAKVDKLLPRIEAGSKRLGAYARALVDEAVRRGYLAP 3kh8-a1-m1-cB_3kh8-a1-m1-cA Crystal structure of MaoC-like dehydratase from Phytophthora Capsici E3T2G3 E3T2G3 2 X-RAY DIFFRACTION 71 1.0 4784 (Phytophthora capsici) 4784 (Phytophthora capsici) 284 295 VNVDKILNSPEATYTATYNQRDLLMYAVGIGESDLQFTYEFDEKFSAFPLYPVCLPFKGQSQDVVPFPPPDGMPNPAMILHGEQSVEILRPLDPSGGTLTGKTKVISFYDKGKGTLMETQTQFEDGNGPVAKLISGSFIRGLTGYEGKGRKLPARVQIPKRQPDFNDEFKTSPHQAQVYRLSGDYNSLHIDPEIAKSVGFKQPILHGLCSMGVASRALFKQFCGGDVARFKSIRVRFSSPCFPGETIQTRMWQEGSGKVLFQAVVKERGAVIVDGGEFVYTQDA VNVDKILNSPEATYTATYNQRDLLMYAVGIGESDLQFTYEFDEKFSAFPLYPVCLPFKGQSQDVVPFPPETISAAPDGMPSFNPAMILHGEQSVEILRPLDPSGGTLTGKTKVISFYDKGKGTLMETQTQFEDGNGPVAKLISGSFIRGLTGYEGKGRKLPARVQIPKRQPDFNDEFKTSPHQAQVYRLSGDYNSLHIDPEIAKSVGFKQPILHGLCSMGVASRALFKQFCGGDVARFKSIRVRFSSPCFPGETIQTRMWQEGSGKVLFQAVVKERGAVIVDGGEFVYTQDASAR 3khc-a1-m1-cA_3khc-a1-m1-cB Crystal Structure of Escherichia coli AlkB in complex with ssDNA containing a 1-methylguanine lesion P05050 P05050 2.2 X-RAY DIFFRACTION 17 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 207 207 PWQEPLAAGAVILRRFAFNAAEQLIRDINDVASQSPFRQMVTPGGYTMSVAMTNCGHLGWTTHRQGYLYSPIDPQTNKPWPAMPQSFHNLCQRAATAAGYPDFQPDACLINRYAPGAKLSLHQDKAEPDLRAPIVSVSLGLPAIFQFGGLKRNDPLKRLLLEHGDVVVWGGESRLFYHGIQPLKAGFHPLTIDCRYNLTFRQAGKKE EPWQEPLAAGAVILRRFAFNAAEQLIRDINDVASQSPFRQMVTPGGYTMSVAMTNCGHLGWTTHRQGYLYSPIDPQTNKPWPAMPQSFHNLCQRAATAAGYPDFQPDACLINRYAPGAKLSLHQDKAEPDLRAPIVSVSLGLPAIFQFGGLKRNDPLKRLLLEHGDVVVWGGESRLFYHGIQPLKAGFHPLTIDCRYNLTFRQAGKK 3khf-a3-m1-cA_3khf-a3-m1-cB The crystal structure of the PDZ domain of human Microtubule Associated Serine/Threonine Kinase 3 (MAST3) O60307 O60307 1.2 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 97 RPPIVIHSGKKYGFSLRAIRVYMGDSDVYTVHHVVWSVEDGSPAQEAGLRAGDLITHINGESVLGLVHMDVVELLLKSGNKISLRTTALENTETSV RPPIVIHSSGKKYGFSLRAIRVYMGDSDVYTVHHVVWSVEDGSPAQEAGLRAGDLITHINGESVLGLVHMDVVELLLKSGNKISLRTTALENTETSV 3khn-a1-m1-cB_3khn-a1-m1-cA Crystal structure of putative MotB like protein DVU_2228 from Desulfovibrio vulgaris. Q729W9 Q729W9 2.03 X-RAY DIFFRACTION 70 0.994 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 156 161 RLQRELIEAQRQTYNERTYFTVNGVEGVIGAVFDEGVITLRVPSEVLFAPGAVELAPGADRVLATLKDLFIRRREQNINIKGFTDDVQPSANARFKDNWEVSALRSVNVLRYFLGAGIEPARLTATGLGELDPLFPNTSDENRARNRRVEFVLERR RLQRELIEAQRQTYNERTYFTVNGVEGVIGAVFDEGVITLRVPSEVLFAPGAVELAPGADRVLATLKDLFIRRREQNINIKGFTDDVQPSANARFKDNWEVSALRSVNVLRYFLGAGIEPARLTATGLGELDPLFPNTSDENRARNRRVEFVLEREGHHHH 3khp-a3-m2-cC_3khp-a3-m1-cB Crystal structure of a possible dehydrogenase from Mycobacterium tuberculosis at 2.3A resolution I6YBZ8 I6YBZ8 2.3 X-RAY DIFFRACTION 31 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 261 286 3khp-a3-m1-cD_3khp-a3-m2-cA IDPNSIGAVTEPMLFEWTDRDTLLYAIGVGAGTGDLAFTTENSHGIDQQVLPTYAVICCPAFGAAAKVLLHGSQGIRLHAPLPAAGKLSVVTEVADIQDAIVVLRGRGCDPESGSLVAETLTTLVLERPAAPEFPDRHPDARIDMPTREDQALIYRLSGDRNPLHSDPWFATQLAGFPKPILHGLCTYGVAGRALVAELGGGVAANITSIAARFTKPVFPGETLSTVIWRTEPGRAVFRTEVAGSAEARVVLDDGAVEYVA SMAIDPNSIGAVTEPMLFEWTDRDTLLYAIGVGAGTGDLAFTTENSHGIDQQVLPTYAVICCPAFGAAAKVGTFNPAALLHGSQGIRLHAPLPAAGKLSVVTEVADIQDKGEGKNAIVVLRGRGCDPESGSLVAETLTTLVLRGQGGFGGARGERPAAPEFPDRHPDARIDMPTREDQALIYRLSGDRNPLHSDPWFATQLAGFPKPILHGLCTYGVAGRALVAELGGGVAANITSIAARFTKPVFPGETLSTVIWRTEPGRAVFRTEVAGEARVVLDDGAVEYVA 3khp-a3-m2-cC_3khp-a3-m2-cA Crystal structure of a possible dehydrogenase from Mycobacterium tuberculosis at 2.3A resolution I6YBZ8 I6YBZ8 2.3 X-RAY DIFFRACTION 86 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 261 288 3khp-a1-m1-cC_3khp-a1-m1-cA 3khp-a2-m1-cD_3khp-a2-m1-cB 3khp-a3-m1-cD_3khp-a3-m1-cB IDPNSIGAVTEPMLFEWTDRDTLLYAIGVGAGTGDLAFTTENSHGIDQQVLPTYAVICCPAFGAAAKVLLHGSQGIRLHAPLPAAGKLSVVTEVADIQDAIVVLRGRGCDPESGSLVAETLTTLVLERPAAPEFPDRHPDARIDMPTREDQALIYRLSGDRNPLHSDPWFATQLAGFPKPILHGLCTYGVAGRALVAELGGGVAANITSIAARFTKPVFPGETLSTVIWRTEPGRAVFRTEVAGSAEARVVLDDGAVEYVA PGSMAIDPNSIGAVTEPMLFEWTDRDTLLYAIGVGAGTGDLAFTTENSHGIDQQVLPTYAVICCPAFGAAAKVGTFNPAALLHGSQGIRLHAPLPAAGKLSVVTEVADIQDKGEGKNAIVVLRGRGCDPESGSLVAETLTTLVLRGQGGFGGARGERPAAPEFPDRHPDARIDMPTREDQALIYRLSGDRNPLHSDPWFATQLAGFPKPILHGLCTYGVAGRALVAELGGGVAANITSIAARFTKPVFPGETLSTVIWRTEPGRAVFRTEVAGEARVVLDDGAVEYVA 3khs-a2-m2-cD_3khs-a2-m3-cD Crystal structure of grouper iridovirus purine nucleoside phosphorylase Q5YBA4 Q5YBA4 2.38 X-RAY DIFFRACTION 90 1.0 127569 (Grouper iridovirus) 127569 (Grouper iridovirus) 262 262 3khs-a1-m1-cA_3khs-a1-m1-cB 3khs-a1-m1-cA_3khs-a1-m1-cC 3khs-a1-m1-cB_3khs-a1-m1-cC 3khs-a2-m1-cD_3khs-a2-m2-cD 3khs-a2-m1-cD_3khs-a2-m3-cD MTDYDLAKETAAWLNKQLQIRPVLGIVCGSGLGKIGDSLETSITVAYSDIPNFPVGSLIFGSVNGVSCVCMKGRFHLYEGHTAARATFPMRVFKALGVKIVVLTNAAGGLNPSYRPGDFMVVRDHINLPGLAGANPLTGPNDDTEGERFPSMTSVYDKTLRKYAISAARELGMSYATHEGVYCCVNGPSFETPAECKILRLMGSDAVGMSTAPETIVAKHGGMRCLAVSLISNVIASNCEAGEEASARMTALVKLVIEKIRG MTDYDLAKETAAWLNKQLQIRPVLGIVCGSGLGKIGDSLETSITVAYSDIPNFPVGSLIFGSVNGVSCVCMKGRFHLYEGHTAARATFPMRVFKALGVKIVVLTNAAGGLNPSYRPGDFMVVRDHINLPGLAGANPLTGPNDDTEGERFPSMTSVYDKTLRKYAISAARELGMSYATHEGVYCCVNGPSFETPAECKILRLMGSDAVGMSTAPETIVAKHGGMRCLAVSLISNVIASNCEAGEEASARMTALVKLVIEKIRG 3kht-a2-m1-cA_3kht-a2-m2-cA Crystal structure of response regulator from Hahella chejuensis Q2SI73 Q2SI73 2.1 X-RAY DIFFRACTION 54 1.0 349521 (Hahella chejuensis KCTC 2396) 349521 (Hahella chejuensis KCTC 2396) 130 130 SKRVLVVEDNPDDIALIRRVLDRKDIHCQLEFVDNGAKALYQVQQAKYDLIILDIGLPIANGFEVSAVRKPGANQHTPIVILTDNVSDDRAKQCAAGASSVVDKSSNNVTDFYGRIYAIFSYWLTVNHCQ SKRVLVVEDNPDDIALIRRVLDRKDIHCQLEFVDNGAKALYQVQQAKYDLIILDIGLPIANGFEVSAVRKPGANQHTPIVILTDNVSDDRAKQCAAGASSVVDKSSNNVTDFYGRIYAIFSYWLTVNHCQ 3khu-a1-m1-cF_3khu-a1-m1-cD Crystal structure of human UDP-glucose dehydrogenase Glu161Gln, in complex with thiohemiacetal intermediate O60701 O60701 2.3 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 464 2q3e-a1-m1-cA_2q3e-a1-m1-cC 2q3e-a1-m1-cB_2q3e-a1-m1-cF 2q3e-a1-m1-cD_2q3e-a1-m1-cB 2q3e-a1-m1-cD_2q3e-a1-m1-cF 2q3e-a1-m1-cE_2q3e-a1-m1-cA 2q3e-a1-m1-cE_2q3e-a1-m1-cC 2q3e-a2-m1-cG_2q3e-a2-m1-cI 2q3e-a2-m1-cG_2q3e-a2-m1-cK 2q3e-a2-m1-cH_2q3e-a2-m1-cJ 2q3e-a2-m1-cH_2q3e-a2-m1-cL 2q3e-a2-m1-cI_2q3e-a2-m1-cK 2q3e-a2-m1-cJ_2q3e-a2-m1-cL 2qg4-a1-m1-cA_2qg4-a1-m2-cA 2qg4-a1-m1-cA_2qg4-a1-m3-cA 2qg4-a1-m1-cB_2qg4-a1-m2-cB 2qg4-a1-m1-cB_2qg4-a1-m3-cB 2qg4-a1-m2-cA_2qg4-a1-m3-cA 2qg4-a1-m2-cB_2qg4-a1-m3-cB 2qg4-a4-m1-cG_2qg4-a4-m2-cG 2qg4-a4-m1-cG_2qg4-a4-m3-cG 2qg4-a4-m1-cH_2qg4-a4-m2-cH 2qg4-a4-m1-cH_2qg4-a4-m3-cH 2qg4-a4-m2-cG_2qg4-a4-m3-cG 2qg4-a4-m2-cH_2qg4-a4-m3-cH 2qg4-a5-m1-cC_2qg4-a5-m4-cC 2qg4-a5-m1-cC_2qg4-a5-m5-cC 2qg4-a5-m1-cD_2qg4-a5-m4-cD 2qg4-a5-m1-cD_2qg4-a5-m5-cD 2qg4-a5-m4-cC_2qg4-a5-m5-cC 2qg4-a5-m4-cD_2qg4-a5-m5-cD 2qg4-a6-m1-cE_2qg4-a6-m4-cE 2qg4-a6-m1-cE_2qg4-a6-m5-cE 2qg4-a6-m1-cF_2qg4-a6-m4-cF 2qg4-a6-m1-cF_2qg4-a6-m5-cF 2qg4-a6-m4-cE_2qg4-a6-m5-cE 2qg4-a6-m4-cF_2qg4-a6-m5-cF 3itk-a1-m1-cA_3itk-a1-m1-cC 3itk-a1-m1-cA_3itk-a1-m1-cE 3itk-a1-m1-cB_3itk-a1-m1-cD 3itk-a1-m1-cB_3itk-a1-m1-cF 3itk-a1-m1-cD_3itk-a1-m1-cF 3itk-a1-m1-cE_3itk-a1-m1-cC 3khu-a1-m1-cA_3khu-a1-m1-cC 3khu-a1-m1-cA_3khu-a1-m1-cE 3khu-a1-m1-cD_3khu-a1-m1-cB 3khu-a1-m1-cE_3khu-a1-m1-cC 3khu-a1-m1-cF_3khu-a1-m1-cB 3prj-a1-m1-cA_3prj-a1-m1-cC 3prj-a1-m1-cA_3prj-a1-m1-cE 3prj-a1-m1-cB_3prj-a1-m1-cF 3prj-a1-m1-cD_3prj-a1-m1-cB 3ptz-a1-m1-cA_3ptz-a1-m1-cE 3ptz-a1-m1-cB_3ptz-a1-m1-cD 3ptz-a1-m1-cB_3ptz-a1-m1-cF 3ptz-a1-m1-cC_3ptz-a1-m1-cA 3tdk-a1-m1-cA_3tdk-a1-m1-cC 3tdk-a1-m1-cB_3tdk-a1-m1-cD 3tdk-a1-m1-cB_3tdk-a1-m1-cF 3tdk-a1-m1-cE_3tdk-a1-m1-cA 3tdk-a2-m1-cG_3tdk-a2-m1-cI 3tdk-a2-m1-cH_3tdk-a2-m1-cJ 3tdk-a2-m1-cH_3tdk-a2-m1-cL 3tdk-a2-m1-cK_3tdk-a2-m1-cG 3tf5-a1-m1-cA_3tf5-a1-m1-cC 3tf5-a1-m1-cB_3tf5-a1-m1-cA 3tf5-a1-m1-cB_3tf5-a1-m1-cC 3tf5-a1-m2-cA_3tf5-a1-m2-cC 3tf5-a1-m2-cB_3tf5-a1-m2-cA 3tf5-a1-m2-cB_3tf5-a1-m2-cC 4rjt-a1-m1-cA_4rjt-a1-m1-cB 4rjt-a1-m1-cA_4rjt-a1-m1-cC 4rjt-a1-m1-cB_4rjt-a1-m1-cC 4rjt-a1-m2-cA_4rjt-a1-m2-cB 4rjt-a1-m2-cA_4rjt-a1-m2-cC 4rjt-a1-m2-cB_4rjt-a1-m2-cC 5tjh-a1-m1-cA_5tjh-a1-m1-cB 5tjh-a1-m1-cA_5tjh-a1-m1-cC 5tjh-a1-m1-cB_5tjh-a1-m1-cC 5tjh-a1-m1-cD_5tjh-a1-m1-cE 5tjh-a1-m1-cD_5tjh-a1-m1-cF 5tjh-a1-m1-cE_5tjh-a1-m1-cF 5vr8-a1-m1-cB_5vr8-a1-m1-cC 5vr8-a1-m1-cD_5vr8-a1-m1-cB 5vr8-a1-m1-cE_5vr8-a1-m1-cA 5vr8-a1-m1-cF_5vr8-a1-m1-cA 5w4x-a1-m1-cA_5w4x-a1-m1-cB 5w4x-a1-m1-cA_5w4x-a1-m1-cC 5w4x-a1-m1-cB_5w4x-a1-m1-cC 5w4x-a1-m2-cA_5w4x-a1-m2-cB 5w4x-a1-m2-cA_5w4x-a1-m2-cC 5w4x-a1-m2-cB_5w4x-a1-m2-cC 6c4j-a1-m1-cA_6c4j-a1-m1-cC 6c4j-a1-m1-cA_6c4j-a1-m1-cE 6c4j-a1-m1-cB_6c4j-a1-m1-cD 6c4j-a1-m1-cB_6c4j-a1-m1-cF 6c4j-a1-m1-cC_6c4j-a1-m1-cE 6c4j-a1-m1-cD_6c4j-a1-m1-cF 6c4j-a2-m1-cG_6c4j-a2-m1-cI 6c4j-a2-m1-cG_6c4j-a2-m1-cK 6c4j-a2-m1-cH_6c4j-a2-m1-cL 6c4j-a2-m1-cI_6c4j-a2-m1-cK 6c4j-a2-m1-cJ_6c4j-a2-m1-cH 6c4j-a2-m1-cJ_6c4j-a2-m1-cL 6c4k-a1-m1-cA_6c4k-a1-m1-cB 6c4k-a1-m1-cC_6c4k-a1-m1-cA 6c4k-a1-m1-cC_6c4k-a1-m1-cB 6c4k-a2-m1-cA_6c4k-a2-m1-cB 6c4k-a2-m1-cC_6c4k-a2-m1-cA 6c4k-a2-m1-cC_6c4k-a2-m1-cB 6c4k-a2-m2-cA_6c4k-a2-m2-cB 6c4k-a2-m2-cC_6c4k-a2-m2-cA 6c4k-a2-m2-cC_6c4k-a2-m2-cB 6c58-a1-m1-cA_6c58-a1-m1-cC 6c58-a1-m1-cB_6c58-a1-m1-cF 6c58-a1-m1-cD_6c58-a1-m1-cB 6c58-a1-m1-cE_6c58-a1-m1-cA 6c5a-a1-m1-cA_6c5a-a1-m1-cC 6c5a-a1-m1-cB_6c5a-a1-m1-cD 6c5a-a1-m1-cB_6c5a-a1-m1-cF 6c5a-a1-m1-cD_6c5a-a1-m1-cF 6c5a-a1-m1-cE_6c5a-a1-m1-cA 6c5a-a1-m1-cE_6c5a-a1-m1-cC 6c5z-a1-m1-cA_6c5z-a1-m1-cC 6c5z-a1-m1-cA_6c5z-a1-m1-cE 6c5z-a1-m1-cD_6c5z-a1-m1-cF 6c5z-a1-m1-cE_6c5z-a1-m1-cC SMFEIKKICCIGAGYVGGPTCSVIAHMCPEIRVTVVDVNESRINAWNSPTLPIYEPGLKEVVESCRGKNLFFSTNIDDAIKEADLVFISVNTPTKTYGMGKGRAADLKYIEACARRIVQNSNGYKIVTEKSTVPVRAAESIRRIFDANTKPNLNLQVLSNPQFLAEGTAIKDLKNPDRVLIGGDETPEGQRAVQALCAVYEHWVPREKILTTNTWSSELSKLAANAFLAQRISSINSISALCEATGADVEEVATAIGMDQRIGNKFLKASVGFGGSCFQKDVLNLVYLCEALNLPEVARYWQQVIDMNDYQRRRFASRIIDSLFNTVTDKKIAILGFAFKKDTGDTRESSSIYISKYLMDEGAHLHIYDPKVPREQIVVDLSHPDQVSRLVTISKDPYEACDGAHAVVICTEWDMFKELDYERIHKKMLKPAFIFDGRRVLDGLHNELQTIGFQIETIGKKV SMFEIKKICCIGAGYVGGPTCSVIAHMCPEIRVTVVDVNESRINAWNSPTLPIYEPGLKEVVESCRGKNLFFSTNIDDAIKEADLVFISVNTPTKTYGMGKGRAADLKYIEACARRIVQNSNGYKIVTEKSTVPVRAAESIRRIFDANTKPNLNLQVLSNPQFLAEGTAIKDLKNPDRVLIGGDETPEGQRAVQALCAVYEHWVPREKILTTNTWSSELSKLAANAFLAQRISSINSISALCEATGADVEEVATAIGMDQRIGNKFLKASVGFGGSCFQKDVLNLVYLCEALNLPEVARYWQQVIDMNDYQRRRFASRIIDSLFNTVTDKKIAILGFAFKKDTGDTRESSSIYISKYLMDEGAHLHIYDPKVPREQIVVDLSHPEDDQVSRLVTISKDPYEACDGAHAVVICTEWDMFKELDYERIHKKMLKPAFIFDGRRVLDGLHNELQTIGFQIETIGKKV 3khy-a1-m1-cA_3khy-a1-m1-cB Crystal Structure of a propionate kinase from Francisella tularensis subsp. tularensis SCHU S4 Q5NE95 Q5NE95 1.978 X-RAY DIFFRACTION 213 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 373 373 SEILVLNCGSSSVKFALINPHTSQSLVTGLAENIATKNCKVVFKAEHKIVKYLENGSYKDVFELKDFLVENKHLEKIVAIGHRVVHGGQYFSKSVLINADSLEKIKACIALAPLHNPAHIEGIRFCQQIFPELPQVAVFDTAFHQTPSYIAEYAIPYELTHKHNIRKYGAHGTSHKYVSEQAAKILTQQKANVIVAHLGNGCSITAVVDGKSIDTSGLTPLDGLVGTRSGCIDPSIFAYISDNLGWSVTEITNLNKQSGLLGICGHNDREVSQLAAKGDSLAKLAIEIFSHRVAKFVASYIYFNKLDALVFTGGIGENAANIRKNIISKLANLGFIDHQKNSNSETFINSKNSHNIVIATNEELIAQETQNLI SEILVLNCGSSSVKFALINPHTSQSLVTGLAENIATKNCKVVFKAEHKIVKYLENGSYKDVFELKDFLVENKHLEKIVAIGHRVVHGGQYFSKSVLINADSLEKIKACIALAPLHNPAHIEGIRFCQQIFPELPQVAVFDTAFHQTPSYIAEYAIPYELTHKHNIRKYGAHGTSHKYVSEQAAKILTQQKANVIVAHLGNGCSITAVVDGKSIDTSGLTPLDGLVGTRSGCIDPSIFAYISDNLGWSVTEITNLNKQSGLLGICGHNDREVSQLAAKGDSLAKLAIEIFSHRVAKFVASYIYFNKLDALVFTGGIGENAANIRKNIISKLANLGFIDHQKNSNSETFINSKNSHNIVIATNEELIAQETQNLI 3kic-a1-m2-cG_3kic-a1-m3-cT Crystal structure of adeno-associated virus serotype 3B O56139 O56139 2.603 X-RAY DIFFRACTION 83 1.0 68742 (Adeno-associated virus 3B) 68742 (Adeno-associated virus 3B) 520 520 3kic-a1-m1-cA_3kic-a1-m1-cB 3kic-a1-m1-cC_3kic-a1-m1-cO 3kic-a1-m1-cD_3kic-a1-m1-cE 3kic-a1-m1-cF_3kic-a1-m1-cI 3kic-a1-m1-cG_3kic-a1-m2-cT 3kic-a1-m1-cH_3kic-a1-m2-cK 3kic-a1-m1-cJ_3kic-a1-m3-cM 3kic-a1-m1-cK_3kic-a1-m3-cH 3kic-a1-m1-cL_3kic-a1-m3-cP 3kic-a1-m1-cM_3kic-a1-m2-cJ 3kic-a1-m1-cN_3kic-a1-m2-cS 3kic-a1-m1-cP_3kic-a1-m2-cL 3kic-a1-m1-cQ_3kic-a1-m1-cR 3kic-a1-m1-cS_3kic-a1-m3-cN 3kic-a1-m1-cT_3kic-a1-m3-cG 3kic-a1-m2-cA_3kic-a1-m2-cB 3kic-a1-m2-cC_3kic-a1-m2-cO 3kic-a1-m2-cD_3kic-a1-m2-cE 3kic-a1-m2-cF_3kic-a1-m2-cI 3kic-a1-m2-cH_3kic-a1-m3-cK 3kic-a1-m2-cM_3kic-a1-m3-cJ 3kic-a1-m2-cN_3kic-a1-m3-cS 3kic-a1-m2-cP_3kic-a1-m3-cL 3kic-a1-m2-cQ_3kic-a1-m2-cR 3kic-a1-m3-cA_3kic-a1-m3-cB 3kic-a1-m3-cC_3kic-a1-m3-cO 3kic-a1-m3-cD_3kic-a1-m3-cE 3kic-a1-m3-cF_3kic-a1-m3-cI 3kic-a1-m3-cQ_3kic-a1-m3-cR 3kie-a1-m1-cA_3kie-a1-m1-cB 3kie-a1-m1-cC_3kie-a1-m1-cO 3kie-a1-m1-cD_3kie-a1-m1-cE 3kie-a1-m1-cF_3kie-a1-m1-cI 3kie-a1-m1-cG_3kie-a1-m2-cT 3kie-a1-m1-cH_3kie-a1-m2-cK 3kie-a1-m1-cJ_3kie-a1-m3-cM 3kie-a1-m1-cK_3kie-a1-m3-cH 3kie-a1-m1-cL_3kie-a1-m3-cP 3kie-a1-m1-cM_3kie-a1-m2-cJ 3kie-a1-m1-cN_3kie-a1-m2-cS 3kie-a1-m1-cP_3kie-a1-m2-cL 3kie-a1-m1-cQ_3kie-a1-m1-cR 3kie-a1-m1-cS_3kie-a1-m3-cN 3kie-a1-m1-cT_3kie-a1-m3-cG 3kie-a1-m2-cA_3kie-a1-m2-cB 3kie-a1-m2-cC_3kie-a1-m2-cO 3kie-a1-m2-cD_3kie-a1-m2-cE 3kie-a1-m2-cF_3kie-a1-m2-cI 3kie-a1-m2-cG_3kie-a1-m3-cT 3kie-a1-m2-cH_3kie-a1-m3-cK 3kie-a1-m2-cM_3kie-a1-m3-cJ 3kie-a1-m2-cN_3kie-a1-m3-cS 3kie-a1-m2-cP_3kie-a1-m3-cL 3kie-a1-m2-cQ_3kie-a1-m2-cR 3kie-a1-m3-cA_3kie-a1-m3-cB 3kie-a1-m3-cC_3kie-a1-m3-cO 3kie-a1-m3-cD_3kie-a1-m3-cE 3kie-a1-m3-cF_3kie-a1-m3-cI 3kie-a1-m3-cQ_3kie-a1-m3-cR 7l6h-a1-m1-c1_7l6h-a1-m1-cu 7l6h-a1-m1-c2_7l6h-a1-m1-c4 7l6h-a1-m1-c3_7l6h-a1-m1-ca 7l6h-a1-m1-c5_7l6h-a1-m1-ct 7l6h-a1-m1-c6_7l6h-a1-m1-co 7l6h-a1-m1-c7_7l6h-a1-m1-c8 7l6h-a1-m1-cA_7l6h-a1-m1-cF 7l6h-a1-m1-cb_7l6h-a1-m1-cc 7l6h-a1-m1-cB_7l6h-a1-m1-cI 7l6h-a1-m1-cC_7l6h-a1-m1-cL 7l6h-a1-m1-cD_7l6h-a1-m1-cM 7l6h-a1-m1-cd_7l6h-a1-m1-cn 7l6h-a1-m1-ce_7l6h-a1-m1-cf 7l6h-a1-m1-cE_7l6h-a1-m1-cP 7l6h-a1-m1-cG_7l6h-a1-m1-cH 7l6h-a1-m1-cg_7l6h-a1-m1-cz 7l6h-a1-m1-ch_7l6h-a1-m1-ck 7l6h-a1-m1-ci_7l6h-a1-m1-cl 7l6h-a1-m1-cJ_7l6h-a1-m1-cK 7l6h-a1-m1-cj_7l6h-a1-m1-cw 7l6h-a1-m1-cm_7l6h-a1-m1-cr 7l6h-a1-m1-cN_7l6h-a1-m1-cO 7l6h-a1-m1-cp_7l6h-a1-m1-cs 7l6h-a1-m1-cQ_7l6h-a1-m1-cR 7l6h-a1-m1-cq_7l6h-a1-m1-cx 7l6h-a1-m1-cS_7l6h-a1-m1-cT 7l6h-a1-m1-cU_7l6h-a1-m1-cV 7l6h-a1-m1-cv_7l6h-a1-m1-cy 7l6h-a1-m1-cW_7l6h-a1-m1-cX 7l6h-a1-m1-cY_7l6h-a1-m1-cZ 7l6i-a1-m1-c1_7l6i-a1-m1-cu 7l6i-a1-m1-c2_7l6i-a1-m1-c4 7l6i-a1-m1-c3_7l6i-a1-m1-ca 7l6i-a1-m1-c5_7l6i-a1-m1-ct 7l6i-a1-m1-c6_7l6i-a1-m1-co 7l6i-a1-m1-c7_7l6i-a1-m1-c8 7l6i-a1-m1-cA_7l6i-a1-m1-cF 7l6i-a1-m1-cb_7l6i-a1-m1-cc 7l6i-a1-m1-cB_7l6i-a1-m1-cI 7l6i-a1-m1-cC_7l6i-a1-m1-cL 7l6i-a1-m1-cD_7l6i-a1-m1-cM 7l6i-a1-m1-cd_7l6i-a1-m1-cn 7l6i-a1-m1-ce_7l6i-a1-m1-cf 7l6i-a1-m1-cE_7l6i-a1-m1-cP 7l6i-a1-m1-cG_7l6i-a1-m1-cH 7l6i-a1-m1-cg_7l6i-a1-m1-cz 7l6i-a1-m1-ch_7l6i-a1-m1-ck 7l6i-a1-m1-ci_7l6i-a1-m1-cl 7l6i-a1-m1-cJ_7l6i-a1-m1-cK 7l6i-a1-m1-cj_7l6i-a1-m1-cw 7l6i-a1-m1-cm_7l6i-a1-m1-cr 7l6i-a1-m1-cN_7l6i-a1-m1-cO 7l6i-a1-m1-cp_7l6i-a1-m1-cs 7l6i-a1-m1-cQ_7l6i-a1-m1-cR 7l6i-a1-m1-cq_7l6i-a1-m1-cx 7l6i-a1-m1-cS_7l6i-a1-m1-cT 7l6i-a1-m1-cU_7l6i-a1-m1-cV 7l6i-a1-m1-cv_7l6i-a1-m1-cy 7l6i-a1-m1-cW_7l6i-a1-m1-cX 7l6i-a1-m1-cY_7l6i-a1-m1-cZ 8a9u-a1-m10-c0_8a9u-a1-m60-c0 8a9u-a1-m11-c0_8a9u-a1-m20-c0 8a9u-a1-m12-c0_8a9u-a1-m23-c0 8a9u-a1-m13-c0_8a9u-a1-m16-c0 8a9u-a1-m14-c0_8a9u-a1-m21-c0 8a9u-a1-m15-c0_8a9u-a1-m2-c0 8a9u-a1-m17-c0_8a9u-a1-m47-c0 8a9u-a1-m18-c0_8a9u-a1-m43-c0 8a9u-a1-m19-c0_8a9u-a1-m36-c0 8a9u-a1-m1-c0_8a9u-a1-m53-c0 8a9u-a1-m22-c0_8a9u-a1-m30-c0 8a9u-a1-m24-c0_8a9u-a1-m28-c0 8a9u-a1-m25-c0_8a9u-a1-m45-c0 8a9u-a1-m26-c0_8a9u-a1-m48-c0 8a9u-a1-m27-c0_8a9u-a1-m49-c0 8a9u-a1-m29-c0_8a9u-a1-m50-c0 8a9u-a1-m31-c0_8a9u-a1-m41-c0 8a9u-a1-m32-c0_8a9u-a1-m51-c0 8a9u-a1-m33-c0_8a9u-a1-m52-c0 8a9u-a1-m34-c0_8a9u-a1-m58-c0 8a9u-a1-m35-c0_8a9u-a1-m54-c0 8a9u-a1-m37-c0_8a9u-a1-m42-c0 8a9u-a1-m38-c0_8a9u-a1-m5-c0 8a9u-a1-m39-c0_8a9u-a1-m46-c0 8a9u-a1-m3-c0_8a9u-a1-m55-c0 8a9u-a1-m40-c0_8a9u-a1-m6-c0 8a9u-a1-m4-c0_8a9u-a1-m44-c0 8a9u-a1-m56-c0_8a9u-a1-m8-c0 8a9u-a1-m57-c0_8a9u-a1-m9-c0 8a9u-a1-m59-c0_8a9u-a1-m7-c0 GADGVGNSSGNWHCDSQWLGDRVITTSTRTWALPTYNNHLYKQISSQSGASNDNHYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKKLSFKLFNIQVKEVTQNDGTTTIANNLTSTVQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMVPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFSYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLNRTQGTTSGTTNQSRLLFSQAGPQSMSLQARNWLPGPCYRQQRLSKTANDNNNSNFPWTAASKYHLNGRDSLVNPGPAMASHKDDEEKFFPMHGNLIFGKEGTTASNAELDNVMITDEEEIRTTNPVATEQYGTVANNLQSSNTAPTTRTVNDQGALPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQIMIKNTPVPANPPTTFSPAKFASFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYNKSVNVDFTVDTNGVYSEPRPIGTRYLTRNL GADGVGNSSGNWHCDSQWLGDRVITTSTRTWALPTYNNHLYKQISSQSGASNDNHYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKKLSFKLFNIQVKEVTQNDGTTTIANNLTSTVQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMVPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFSYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLNRTQGTTSGTTNQSRLLFSQAGPQSMSLQARNWLPGPCYRQQRLSKTANDNNNSNFPWTAASKYHLNGRDSLVNPGPAMASHKDDEEKFFPMHGNLIFGKEGTTASNAELDNVMITDEEEIRTTNPVATEQYGTVANNLQSSNTAPTTRTVNDQGALPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQIMIKNTPVPANPPTTFSPAKFASFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYNKSVNVDFTVDTNGVYSEPRPIGTRYLTRNL 3kic-a1-m2-cP_3kic-a1-m3-cT Crystal structure of adeno-associated virus serotype 3B O56139 O56139 2.603 X-RAY DIFFRACTION 382 1.0 68742 (Adeno-associated virus 3B) 68742 (Adeno-associated virus 3B) 520 520 3kic-a1-m1-cA_3kic-a1-m1-cC 3kic-a1-m1-cA_3kic-a1-m1-cD 3kic-a1-m1-cB_3kic-a1-m1-cH 3kic-a1-m1-cB_3kic-a1-m2-cS 3kic-a1-m1-cC_3kic-a1-m1-cD 3kic-a1-m1-cE_3kic-a1-m1-cI 3kic-a1-m1-cE_3kic-a1-m1-cQ 3kic-a1-m1-cF_3kic-a1-m1-cP 3kic-a1-m1-cF_3kic-a1-m2-cT 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GADGVGNSSGNWHCDSQWLGDRVITTSTRTWALPTYNNHLYKQISSQSGASNDNHYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKKLSFKLFNIQVKEVTQNDGTTTIANNLTSTVQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMVPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFSYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLNRTQGTTSGTTNQSRLLFSQAGPQSMSLQARNWLPGPCYRQQRLSKTANDNNNSNFPWTAASKYHLNGRDSLVNPGPAMASHKDDEEKFFPMHGNLIFGKEGTTASNAELDNVMITDEEEIRTTNPVATEQYGTVANNLQSSNTAPTTRTVNDQGALPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQIMIKNTPVPANPPTTFSPAKFASFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYNKSVNVDFTVDTNGVYSEPRPIGTRYLTRNL 3kic-a1-m3-cR_3kic-a1-m3-cT Crystal structure of adeno-associated virus serotype 3B O56139 O56139 2.603 X-RAY DIFFRACTION 172 1.0 68742 (Adeno-associated virus 3B) 68742 (Adeno-associated virus 3B) 520 520 3kic-a1-m1-cA_3kic-a1-m1-cE 3kic-a1-m1-cA_3kic-a1-m1-cH 3kic-a1-m1-cB_3kic-a1-m1-cC 3kic-a1-m1-cB_3kic-a1-m1-cN 3kic-a1-m1-cC_3kic-a1-m1-cJ 3kic-a1-m1-cD_3kic-a1-m1-cO 3kic-a1-m1-cD_3kic-a1-m1-cQ 3kic-a1-m1-cE_3kic-a1-m1-cF 3kic-a1-m1-cF_3kic-a1-m1-cG 3kic-a1-m1-cG_3kic-a1-m1-cH 3kic-a1-m1-cI_3kic-a1-m1-cP 3kic-a1-m1-cI_3kic-a1-m1-cR 3kic-a1-m1-cJ_3kic-a1-m1-cM 3kic-a1-m1-cK_3kic-a1-m1-cQ 3kic-a1-m1-cK_3kic-a1-m1-cS 3kic-a1-m1-cL_3kic-a1-m1-cP 3kic-a1-m1-cL_3kic-a1-m1-cT 3kic-a1-m1-cM_3kic-a1-m1-cN 3kic-a1-m1-cO_3kic-a1-m1-cS 3kic-a1-m1-cR_3kic-a1-m1-cT 3kic-a1-m2-cA_3kic-a1-m2-cE 3kic-a1-m2-cA_3kic-a1-m2-cH 3kic-a1-m2-cB_3kic-a1-m2-cC 3kic-a1-m2-cB_3kic-a1-m2-cN 3kic-a1-m2-cC_3kic-a1-m2-cJ 3kic-a1-m2-cD_3kic-a1-m2-cO 3kic-a1-m2-cD_3kic-a1-m2-cQ 3kic-a1-m2-cE_3kic-a1-m2-cF 3kic-a1-m2-cF_3kic-a1-m2-cG 3kic-a1-m2-cG_3kic-a1-m2-cH 3kic-a1-m2-cI_3kic-a1-m2-cP 3kic-a1-m2-cI_3kic-a1-m2-cR 3kic-a1-m2-cJ_3kic-a1-m2-cM 3kic-a1-m2-cK_3kic-a1-m2-cQ 3kic-a1-m2-cK_3kic-a1-m2-cS 3kic-a1-m2-cL_3kic-a1-m2-cP 3kic-a1-m2-cL_3kic-a1-m2-cT 3kic-a1-m2-cM_3kic-a1-m2-cN 3kic-a1-m2-cO_3kic-a1-m2-cS 3kic-a1-m2-cR_3kic-a1-m2-cT 3kic-a1-m3-cA_3kic-a1-m3-cE 3kic-a1-m3-cA_3kic-a1-m3-cH 3kic-a1-m3-cB_3kic-a1-m3-cC 3kic-a1-m3-cB_3kic-a1-m3-cN 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8a9u-a1-m17-c0_8a9u-a1-m46-c0 8a9u-a1-m18-c0_8a9u-a1-m55-c0 8a9u-a1-m19-c0_8a9u-a1-m20-c0 8a9u-a1-m1-c0_8a9u-a1-m14-c0 8a9u-a1-m1-c0_8a9u-a1-m18-c0 8a9u-a1-m20-c0_8a9u-a1-m21-c0 8a9u-a1-m22-c0_8a9u-a1-m40-c0 8a9u-a1-m23-c0_8a9u-a1-m29-c0 8a9u-a1-m23-c0_8a9u-a1-m58-c0 8a9u-a1-m24-c0_8a9u-a1-m35-c0 8a9u-a1-m24-c0_8a9u-a1-m59-c0 8a9u-a1-m25-c0_8a9u-a1-m57-c0 8a9u-a1-m26-c0_8a9u-a1-m27-c0 8a9u-a1-m27-c0_8a9u-a1-m45-c0 8a9u-a1-m28-c0_8a9u-a1-m32-c0 8a9u-a1-m28-c0_8a9u-a1-m50-c0 8a9u-a1-m29-c0_8a9u-a1-m7-c0 8a9u-a1-m2-c0_8a9u-a1-m21-c0 8a9u-a1-m30-c0_8a9u-a1-m4-c0 8a9u-a1-m32-c0_8a9u-a1-m36-c0 8a9u-a1-m33-c0_8a9u-a1-m37-c0 8a9u-a1-m34-c0_8a9u-a1-m39-c0 8a9u-a1-m34-c0_8a9u-a1-m6-c0 8a9u-a1-m35-c0_8a9u-a1-m8-c0 8a9u-a1-m36-c0_8a9u-a1-m41-c0 8a9u-a1-m37-c0_8a9u-a1-m54-c0 8a9u-a1-m38-c0_8a9u-a1-m4-c0 8a9u-a1-m38-c0_8a9u-a1-m53-c0 8a9u-a1-m39-c0_8a9u-a1-m60-c0 8a9u-a1-m3-c0_8a9u-a1-m42-c0 8a9u-a1-m3-c0_8a9u-a1-m9-c0 8a9u-a1-m41-c0_8a9u-a1-m50-c0 8a9u-a1-m42-c0_8a9u-a1-m56-c0 8a9u-a1-m43-c0_8a9u-a1-m57-c0 8a9u-a1-m43-c0_8a9u-a1-m5-c0 8a9u-a1-m44-c0_8a9u-a1-m60-c0 8a9u-a1-m44-c0_8a9u-a1-m6-c0 8a9u-a1-m45-c0_8a9u-a1-m46-c0 8a9u-a1-m47-c0_8a9u-a1-m58-c0 8a9u-a1-m47-c0_8a9u-a1-m7-c0 8a9u-a1-m48-c0_8a9u-a1-m59-c0 8a9u-a1-m48-c0_8a9u-a1-m8-c0 8a9u-a1-m49-c0_8a9u-a1-m56-c0 8a9u-a1-m49-c0_8a9u-a1-m9-c0 8a9u-a1-m51-c0_8a9u-a1-m54-c0 8a9u-a1-m52-c0_8a9u-a1-m55-c0 GADGVGNSSGNWHCDSQWLGDRVITTSTRTWALPTYNNHLYKQISSQSGASNDNHYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKKLSFKLFNIQVKEVTQNDGTTTIANNLTSTVQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMVPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFSYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLNRTQGTTSGTTNQSRLLFSQAGPQSMSLQARNWLPGPCYRQQRLSKTANDNNNSNFPWTAASKYHLNGRDSLVNPGPAMASHKDDEEKFFPMHGNLIFGKEGTTASNAELDNVMITDEEEIRTTNPVATEQYGTVANNLQSSNTAPTTRTVNDQGALPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQIMIKNTPVPANPPTTFSPAKFASFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYNKSVNVDFTVDTNGVYSEPRPIGTRYLTRNL GADGVGNSSGNWHCDSQWLGDRVITTSTRTWALPTYNNHLYKQISSQSGASNDNHYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKKLSFKLFNIQVKEVTQNDGTTTIANNLTSTVQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMVPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFSYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLNRTQGTTSGTTNQSRLLFSQAGPQSMSLQARNWLPGPCYRQQRLSKTANDNNNSNFPWTAASKYHLNGRDSLVNPGPAMASHKDDEEKFFPMHGNLIFGKEGTTASNAELDNVMITDEEEIRTTNPVATEQYGTVANNLQSSNTAPTTRTVNDQGALPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQIMIKNTPVPANPPTTFSPAKFASFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYNKSVNVDFTVDTNGVYSEPRPIGTRYLTRNL 3kif-a1-m1-cG_3kif-a1-m1-cA The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib1-B7-18 and Lib2-D2-15) Q27084 Q27084 2.5 X-RAY DIFFRACTION 26 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 93 WMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPP DSDNWMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPV 3kif-a3-m1-cG_3kif-a3-m1-cF The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib1-B7-18 and Lib2-D2-15) Q27084 Q27084 2.5 X-RAY DIFFRACTION 61 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 92 3kif-a1-m1-cB_3kif-a1-m1-cA 3kif-a1-m1-cD_3kif-a1-m1-cE 3kif-a1-m1-cG_3kif-a1-m1-cF 3kif-a2-m1-cB_3kif-a2-m1-cA 3kif-a2-m1-cD_3kif-a2-m1-cE WMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPP SDNWMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPV 3kif-a3-m1-cG_3kif-a3-m1-cJ The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib1-B7-18 and Lib2-D2-15) Q27084 Q27084 2.5 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 93 3kif-a1-m1-cG_3kif-a1-m1-cJ WMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPP NWMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPVSNQ 3kif-a3-m1-cH_3kif-a3-m1-cF The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib1-B7-18 and Lib2-D2-15) Q27084 Q27084 2.5 X-RAY DIFFRACTION 64 0.988 32630 (synthetic construct) 32630 (synthetic construct) 85 92 3kif-a1-m1-cC_3kif-a1-m1-cA 3kif-a1-m1-cH_3kif-a1-m1-cF 3kif-a2-m1-cC_3kif-a2-m1-cA KEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPVS SDNWMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPV 3kif-a3-m1-cH_3kif-a3-m1-cI The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib1-B7-18 and Lib2-D2-15) Q27084 Q27084 2.5 X-RAY DIFFRACTION 73 1.0 32630 (synthetic construct) 32630 (synthetic construct) 85 94 3kif-a1-m1-cC_3kif-a1-m1-cD 3kif-a1-m1-cH_3kif-a1-m1-cI 3kif-a2-m1-cC_3kif-a2-m1-cD KEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPVS DSDNWMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPVS 3kif-a3-m1-cH_3kif-a3-m1-cJ The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib1-B7-18 and Lib2-D2-15) Q27084 Q27084 2.5 X-RAY DIFFRACTION 88 1.0 32630 (synthetic construct) 32630 (synthetic construct) 85 93 3kif-a1-m1-cC_3kif-a1-m1-cE 3kif-a1-m1-cH_3kif-a1-m1-cJ 3kif-a2-m1-cC_3kif-a2-m1-cE KEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPVS NWMGRAKEIGNGGWDQFQFLFFDPNGYLYAVSNDKLYKASPPQSDTDNWIARATEIGSGGWSGFKFLFFHPNGYLYAVRGQRFYKALPPVSNQ 3kih-a1-m1-cA_3kih-a1-m1-cC The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib2-D2-15) Q27084 Q27084 2.49 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 90 91 GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIG GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIGS 3kih-a1-m1-cC_3kih-a1-m1-cB The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib2-D2-15) Q27084 Q27084 2.49 X-RAY DIFFRACTION 36 1.0 32630 (synthetic construct) 32630 (synthetic construct) 91 95 GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIGS GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIGSGG 3kih-a1-m1-cE_3kih-a1-m1-cB The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib2-D2-15) Q27084 Q27084 2.49 X-RAY DIFFRACTION 17 1.0 32630 (synthetic construct) 32630 (synthetic construct) 90 95 GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIG GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIGSGG 3kih-a1-m1-cE_3kih-a1-m1-cC The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib2-D2-15) Q27084 Q27084 2.49 X-RAY DIFFRACTION 93 1.0 32630 (synthetic construct) 32630 (synthetic construct) 90 91 GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIG GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIGS 3kih-a1-m1-cE_3kih-a1-m1-cD The crystal structures of two fragments truncated from 5-bladed beta-propeller lectin, tachylectin-2 (Lib2-D2-15) Q27084 Q27084 2.49 X-RAY DIFFRACTION 40 0.989 32630 (synthetic construct) 32630 (synthetic construct) 90 91 3kih-a1-m1-cA_3kih-a1-m1-cB GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEIG GWSNFKFLFLSPGGELYGVLNDKIYKGTPPTHDNDNWLGRAKKIGDGGWNQFQFLFFDPNGYLYAVSKDKLYKAPPPQSDTDNWIARATEI 3kin-a1-m1-cD_3kin-a1-m1-cB KINESIN (DIMERIC) FROM RATTUS NORVEGICUS Q6QLM7 Q6QLM7 3.1 X-RAY DIFFRACTION 55 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 115 117 NKSLSALGNVISALAEGTKTHVPYRDSKMTRILQDSLGGNCRTTIVICCSPSVFNEAETKSTLMFGQRAKTIKNTVSVNLELTAEEWKKKYEKEKEKNKALKSVIQHLEVELNRW NKSLSALGNVISALAEGTKTHVPYRDSKMTRILQDSLGGNCRTTIVICCSPSVFNEAETKSTLMFGQRAKTIKNTVSVNLELTAEEWKKKYEKEKEKNKALKSVIQHLEVELNRWRN 3kin-a2-m1-cA_3kin-a2-m2-cC KINESIN (DIMERIC) FROM RATTUS NORVEGICUS P56536 P56536 3.1 X-RAY DIFFRACTION 28 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 238 238 ADPAECSIKVMCRFRPLNEAEILRGDKFIPKFKGEETVVIGQGKPYVFDRVLPPNTTQEQVYNACAKQIVKDVLEGYNGTIFAYGQTSSGKTHTMEGKLHDPQLMGIIPRIAHDIFDHIYSMDENLEFHIKVSYFEIYLDKIRDLLDVSKTNLAVHEDKNRVPYVKGCTERFVSSPEEVMDVIDEGKANRHVAVTNMNEHSSRSHSIFLINIKQENVETEKKLSGKLYLVDLAGSEKV ADPAECSIKVMCRFRPLNEAEILRGDKFIPKFKGEETVVIGQGKPYVFDRVLPPNTTQEQVYNACAKQIVKDVLEGYNGTIFAYGQTSSGKTHTMEGKLHDPQLMGIIPRIAHDIFDHIYSMDENLEFHIKVSYFEIYLDKIRDLLDVSKTNLAVHEDKNRVPYVKGCTERFVSSPEEVMDVIDEGKANRHVAVTNMNEHSSRSHSIFLINIKQENVETEKKLSGKLYLVDLAGSEKV 3kip-a3-m1-cA_3kip-a3-m1-cG Crystal structure of type-II 3-dehydroquinase from C. albicans Q59Z17 Q59Z17 2.95 X-RAY DIFFRACTION 69 1.0 5476 (Candida albicans) 5476 (Candida albicans) 143 143 3kip-a1-m1-cA_3kip-a1-m1-cG 3kip-a1-m1-cB_3kip-a1-m1-cE 3kip-a1-m1-cC_3kip-a1-m1-cL 3kip-a1-m1-cF_3kip-a1-m1-cI 3kip-a1-m1-cH_3kip-a1-m1-cK 3kip-a1-m1-cJ_3kip-a1-m1-cD 3kip-a2-m1-cM_3kip-a2-m1-cS 3kip-a2-m1-cN_3kip-a2-m1-cQ 3kip-a2-m1-cO_3kip-a2-m1-cX 3kip-a2-m1-cT_3kip-a2-m1-cW 3kip-a2-m1-cU_3kip-a2-m1-cR 3kip-a2-m1-cV_3kip-a2-m1-cP 3kip-a3-m1-cB_3kip-a3-m1-cE 3kip-a3-m1-cC_3kip-a3-m1-cL 3kip-a3-m1-cF_3kip-a3-m1-cI 3kip-a3-m1-cH_3kip-a3-m1-cK 3kip-a3-m1-cJ_3kip-a3-m1-cD 3kip-a3-m1-cM_3kip-a3-m1-cS 3kip-a3-m1-cN_3kip-a3-m1-cQ 3kip-a3-m1-cO_3kip-a3-m1-cX 3kip-a3-m1-cT_3kip-a3-m1-cW 3kip-a3-m1-cU_3kip-a3-m1-cR 3kip-a3-m1-cV_3kip-a3-m1-cP LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQ LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQ 3kip-a3-m1-cA_3kip-a3-m1-cN Crystal structure of type-II 3-dehydroquinase from C. albicans Q59Z17 Q59Z17 2.95 X-RAY DIFFRACTION 29 1.0 5476 (Candida albicans) 5476 (Candida albicans) 143 144 3kip-a3-m1-cB_3kip-a3-m1-cM LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQ LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQL 3kip-a3-m1-cB_3kip-a3-m1-cC Crystal structure of type-II 3-dehydroquinase from C. albicans Q59Z17 Q59Z17 2.95 X-RAY DIFFRACTION 52 1.0 5476 (Candida albicans) 5476 (Candida albicans) 143 143 3kip-a1-m1-cA_3kip-a1-m1-cB 3kip-a1-m1-cA_3kip-a1-m1-cC 3kip-a1-m1-cB_3kip-a1-m1-cC 3kip-a1-m1-cD_3kip-a1-m1-cE 3kip-a1-m1-cD_3kip-a1-m1-cF 3kip-a1-m1-cE_3kip-a1-m1-cF 3kip-a1-m1-cG_3kip-a1-m1-cH 3kip-a1-m1-cG_3kip-a1-m1-cI 3kip-a1-m1-cH_3kip-a1-m1-cI 3kip-a1-m1-cJ_3kip-a1-m1-cK 3kip-a1-m1-cJ_3kip-a1-m1-cL 3kip-a1-m1-cK_3kip-a1-m1-cL 3kip-a2-m1-cM_3kip-a2-m1-cN 3kip-a2-m1-cM_3kip-a2-m1-cO 3kip-a2-m1-cN_3kip-a2-m1-cO 3kip-a2-m1-cP_3kip-a2-m1-cQ 3kip-a2-m1-cP_3kip-a2-m1-cR 3kip-a2-m1-cQ_3kip-a2-m1-cR 3kip-a2-m1-cS_3kip-a2-m1-cT 3kip-a2-m1-cU_3kip-a2-m1-cS 3kip-a2-m1-cU_3kip-a2-m1-cT 3kip-a2-m1-cV_3kip-a2-m1-cW 3kip-a2-m1-cV_3kip-a2-m1-cX 3kip-a2-m1-cW_3kip-a2-m1-cX 3kip-a3-m1-cA_3kip-a3-m1-cB 3kip-a3-m1-cA_3kip-a3-m1-cC 3kip-a3-m1-cD_3kip-a3-m1-cE 3kip-a3-m1-cD_3kip-a3-m1-cF 3kip-a3-m1-cE_3kip-a3-m1-cF 3kip-a3-m1-cG_3kip-a3-m1-cH 3kip-a3-m1-cG_3kip-a3-m1-cI 3kip-a3-m1-cH_3kip-a3-m1-cI 3kip-a3-m1-cJ_3kip-a3-m1-cK 3kip-a3-m1-cJ_3kip-a3-m1-cL 3kip-a3-m1-cK_3kip-a3-m1-cL 3kip-a3-m1-cM_3kip-a3-m1-cN 3kip-a3-m1-cM_3kip-a3-m1-cO 3kip-a3-m1-cN_3kip-a3-m1-cO 3kip-a3-m1-cP_3kip-a3-m1-cQ 3kip-a3-m1-cP_3kip-a3-m1-cR 3kip-a3-m1-cQ_3kip-a3-m1-cR 3kip-a3-m1-cS_3kip-a3-m1-cT 3kip-a3-m1-cU_3kip-a3-m1-cS 3kip-a3-m1-cU_3kip-a3-m1-cT 3kip-a3-m1-cV_3kip-a3-m1-cW 3kip-a3-m1-cV_3kip-a3-m1-cX 3kip-a3-m1-cW_3kip-a3-m1-cX LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQ LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQ 3kip-a3-m1-cB_3kip-a3-m1-cO Crystal structure of type-II 3-dehydroquinase from C. albicans Q59Z17 Q59Z17 2.95 X-RAY DIFFRACTION 14 1.0 5476 (Candida albicans) 5476 (Candida albicans) 143 144 3kip-a3-m1-cC_3kip-a3-m1-cN LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQ LVKKVLLINGPNLNLLGTRYGTTSLSDIEQAAIEQAKLKNNDSEVLVFQSNTEGFIIDRIHEAKRQGVGFVVINAGAYTHTSVGIRDALLGTAIPFIEVHITNVHQREPFRHQSYLSDKAVAVICGLGVYGYTAAIEYALNYQL 3kiz-a1-m1-cA_3kiz-a1-m1-cB Crystal structure of Putative phosphoribosylformylglycinamidine cyclo-ligase (YP_676759.1) from CYTOPHAGA HUTCHINSONII ATCC 33406 at 1.50 A resolution 1.5 X-RAY DIFFRACTION 149 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 357 361 DKGIYPRAFCKIIPDILGGDPEYCNIHADGAGTKSSLAYVYWKETGDISVWKGIAQDAVINIDDLICVGAVDNILLSSTIGRNKNLIPGEVLAAIINGTEEVLQLRDNGIGIYSTGGETADVGDLVRTIIVDSTVTCRKRQDVISNENIKAGNVIVGFASYGQTSYETEYNGGGSNGLTSARHDVFNNVLASKYPESFDPKVPENLVYSGENLTDPYLNVPLDAGKLVLSPTRTYAPLKEIIHQYKGKLDGVVHCSGGGQTKVLHFTDATTHIIKDNLFDVPPLFQLIQGQSNTPWEEYKVFNGHRLEIYTDAAHAEGIAIAKKFNIEAKIIGRVEAPVAGKRLTITGPQGTEYTYA IKSIDKGIYPRAFCKIIPDILGGDPEYCNIHADGAGTKSSLAYVYWKETGDISVWKGIAQDAVINIDDLICVGAVDNILLSSTIGRNKNLIPGEVLAAIINGTEEVLQLRDNGIGIYSTGGETADVGDLVRTIIVDSTVTCRKRQDVISNENIKAGNVIVGFASYGQTSYETEYNGGGSNGLTSARHDVFNNVLASKYPESFDPKVPENLVYSGENLTDPYLNVPLDAGKLVLSPTRTYAPLKEIIHQYKGKLDGVVHCSGGGQTKVLHFTDATTHIIKDNLFDVPPLFQLIQGQSNTPWEEYKVFNGHRLEIYTDAAHAEGIAIAKKFNIEAKIIGRVEAPVAGKRLTITGPQGTEYTYA 3kjg-a2-m1-cB_3kjg-a2-m2-cB ADP-bound state of CooC1 Q3ACS5 Q3ACS5 2.3 X-RAY DIFFRACTION 25 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 254 254 MKLAVAGKGGVGKTTVAAGLIKIMASDYDKIYAVDGDPDSCLGQTLGLSIEEAYAITPLIEMKDEIREKTGDGGLLILNPKVDGDLDKYGRYIDDKIFLIRMGEIKKGGSQCYCRENSFLGSVVSALFLDKKEAVVMDMGAGIEHLTRGTAKAVDMMIAVIEPNLNSIKTGLNIEKLAGDLGIKKVRYVINKVRNIKEEKLIKKHLPEDKILGIIPYNELFIELSLKGEEIWQSTNPAFVNLHDIYQKLRLEVG MKLAVAGKGGVGKTTVAAGLIKIMASDYDKIYAVDGDPDSCLGQTLGLSIEEAYAITPLIEMKDEIREKTGDGGLLILNPKVDGDLDKYGRYIDDKIFLIRMGEIKKGGSQCYCRENSFLGSVVSALFLDKKEAVVMDMGAGIEHLTRGTAKAVDMMIAVIEPNLNSIKTGLNIEKLAGDLGIKKVRYVINKVRNIKEEKLIKKHLPEDKILGIIPYNELFIELSLKGEEIWQSTNPAFVNLHDIYQKLRLEVG 3kjh-a1-m1-cA_3kjh-a1-m2-cA Zn-bound state of CooC1 Q3ACS5 Q3ACS5 1.9 X-RAY DIFFRACTION 36 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 254 254 MKLAVAGKGGVGKTTVAAGLIKIMASDYDKIYAVDGDPDSCLGQTLGLSIEEAYAITPLIEMKDEIREKTGDGGLLILNPKVDGDLDKYGRYIDDKIFLIRMGEIKKGGSQCYCRENSFLGSVVSALFLDKKEAVVMDMGAGIEHLTRGTAKAVDMMIAVIEPNLNSIKTGLNIEKLAGDLGIKKVRYVINKVRNIKEEKLIKKHLPEDKILGIIPYNELFIELSLKGEEIWQSTNPAFVNLHDIYQKLRLEVG MKLAVAGKGGVGKTTVAAGLIKIMASDYDKIYAVDGDPDSCLGQTLGLSIEEAYAITPLIEMKDEIREKTGDGGLLILNPKVDGDLDKYGRYIDDKIFLIRMGEIKKGGSQCYCRENSFLGSVVSALFLDKKEAVVMDMGAGIEHLTRGTAKAVDMMIAVIEPNLNSIKTGLNIEKLAGDLGIKKVRYVINKVRNIKEEKLIKKHLPEDKILGIIPYNELFIELSLKGEEIWQSTNPAFVNLHDIYQKLRLEVG 3kji-a2-m1-cB_3kji-a2-m3-cB Zn and ADP bound state of CooC1 Q3ACS5 Q3ACS5 2.13 X-RAY DIFFRACTION 17 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 254 254 3kji-a1-m1-cA_3kji-a1-m2-cA MKLAVAGKGGVGKTTVAAGLIKIMASDYDKIYAVDGDPDSCLGQTLGLSIEEAYAITPLIEMKDEIREKTGDGGLLILNPKVDGDLDKYGRYIDDKIFLIRMGEIKKGGSQCYCRENSFLGSVVSALFLDKKEAVVMDMGAGIEHLTRGTAKAVDMMIAVIEPNLNSIKTGLNIEKLAGDLGIKKVRYVINKVRNIKEEKLIKKHLPEDKILGIIPYNELFIELSLKGEEIWQSTNPAFVNLHDIYQKLRLEVG MKLAVAGKGGVGKTTVAAGLIKIMASDYDKIYAVDGDPDSCLGQTLGLSIEEAYAITPLIEMKDEIREKTGDGGLLILNPKVDGDLDKYGRYIDDKIFLIRMGEIKKGGSQCYCRENSFLGSVVSALFLDKKEAVVMDMGAGIEHLTRGTAKAVDMMIAVIEPNLNSIKTGLNIEKLAGDLGIKKVRYVINKVRNIKEEKLIKKHLPEDKILGIIPYNELFIELSLKGEEIWQSTNPAFVNLHDIYQKLRLEVG 3kjj-a5-m4-cK_3kjj-a5-m5-cK Crystal structure of NMB1025, a member of YjgF protein family, from Neisseria meningitidis (hexagonal crystal form) Q9JZJ4 Q9JZJ4 1.9 X-RAY DIFFRACTION 77 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 115 115 3kjj-a1-m1-cA_3kjj-a1-m1-cB 3kjj-a1-m1-cA_3kjj-a1-m1-cC 3kjj-a1-m1-cB_3kjj-a1-m1-cC 3kjj-a2-m1-cE_3kjj-a2-m1-cD 3kjj-a2-m1-cE_3kjj-a2-m1-cF 3kjj-a2-m1-cF_3kjj-a2-m1-cD 3kjj-a3-m1-cG_3kjj-a3-m1-cH 3kjj-a3-m1-cG_3kjj-a3-m1-cI 3kjj-a3-m1-cH_3kjj-a3-m1-cI 3kjj-a4-m1-cJ_3kjj-a4-m2-cJ 3kjj-a4-m1-cJ_3kjj-a4-m3-cJ 3kjj-a4-m2-cJ_3kjj-a4-m3-cJ 3kjj-a5-m1-cK_3kjj-a5-m4-cK 3kjj-a5-m1-cK_3kjj-a5-m5-cK 3kjj-a6-m1-cL_3kjj-a6-m6-cL 3kjj-a6-m1-cL_3kjj-a6-m7-cL 3kjj-a6-m6-cL_3kjj-a6-m7-cL 3kjk-a1-m1-cA_3kjk-a1-m1-cB 3kjk-a1-m1-cA_3kjk-a1-m1-cC 3kjk-a1-m1-cB_3kjk-a1-m1-cC 3kjk-a2-m1-cE_3kjk-a2-m1-cD 3kjk-a2-m1-cE_3kjk-a2-m1-cF 3kjk-a2-m1-cF_3kjk-a2-m1-cD 3kjk-a3-m1-cG_3kjk-a3-m1-cH 3kjk-a3-m1-cG_3kjk-a3-m1-cI 3kjk-a3-m1-cH_3kjk-a3-m1-cI 3kjk-a4-m1-cJ_3kjk-a4-m1-cK 3kjk-a4-m1-cJ_3kjk-a4-m1-cL 3kjk-a4-m1-cK_3kjk-a4-m1-cL HHDIRYFGTTPRYSEAVGANGLIFLSGVPENGETAAEQTADVLAQIDRWLAECGSDKAHVLDAVIYLRDGDYAENGVWDAWVAAGRTPARACVEARLARPEWRVEIKITAVKRDA HHDIRYFGTTPRYSEAVGANGLIFLSGVPENGETAAEQTADVLAQIDRWLAECGSDKAHVLDAVIYLRDGDYAENGVWDAWVAAGRTPARACVEARLARPEWRVEIKITAVKRDA 3kjx-a2-m1-cC_3kjx-a2-m1-cD Crystal structure of a transcriptional regulator, Lacl family protein from Silicibacter pomeroyi Q5LM80 Q5LM80 2.33 X-RAY DIFFRACTION 154 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 320 322 3kjx-a1-m1-cA_3kjx-a1-m1-cB PLTLRDVSEASGVSETVSRVLRNRGDVSDATRARVLAAAKELGYVPNKIAGALASNRVNLVAVIIPSLSNVFPEVLTGINQVLEDTELQPVVGVTDYLPEKEEKVLYELSWRPSGVIIAGLEHSEAARALDAAGIPVVEIDSDGKPVDAVGISHRRAGREAQAILKAGYRRIGFGTKPLDYRARKRFEGFTEVLGKNGVEIEDREFYSGGSALAKGRETQALERSPDLDFLYYSNDIAAGGLLYLLEQGIDIPGQIGLAGFNNVELLQGLPRKLATDACRLEIGRKAAEIIAKRLEDPEAEIETRITLEPKISYGDTLKR KRPLTLRDVSEASGVSETVSRVLRNRGDVSDATRARVLAAAKELGYVPNKIAGALASNRVNLVAVIIPSLSNVFPEVLTGINQVLEDTELQPVVGVTDYLPEKEEKVLYELSWRPSGVIIAGLEHSEAARALDAAGIPVVEIDSDGKPVDAVGISHRRAGREAQAILKAGYRRIGFGTKPLDYRARKRFEGFTEVLGKNGVEIEDREFYSGGSALAKGRETQALERSPDLDFLYYSNDIAAGGLLYLLEQGIDIPGQIGLAGFNNVELLQGLPRKLATDACRLEIGRKAAEIIAKRLEDPEAEIETRITLEPKISYGDTLKR 3kk4-a2-m1-cC_3kk4-a2-m1-cD uncharacterized protein BP1543 from Bordetella pertussis Tohama I Q7VY20 Q7VY20 1.95 X-RAY DIFFRACTION 189 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 122 122 3kk4-a1-m1-cA_3kk4-a1-m1-cB SNAEIFIRANQRSYSVQARSLRLHGVATSVRLEQLFWDVLEEIAARDGRVTQLIERLYDELVQYRGEAANFTSFLRVCCLRYQVLQAEGRIPADATVPIRSLDAQAVLRGLPANLYDSRPLG SNAEIFIRANQRSYSVQARSLRLHGVATSVRLEQLFWDVLEEIAARDGRVTQLIERLYDELVQYRGEAANFTSFLRVCCLRYQVLQAEGRIPADATVPIRSLDAQAVLRGLPANLYDSRPLG 3kk8-a1-m1-cA_3kk8-a1-m2-cA CaMKII Substrate Complex A O62305 O62305 1.72 X-RAY DIFFRACTION 67 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 283 283 STKFSDNYDVKEELGKGAFSVVRRCVHKTTGLEFAAKIINTKKLSARDFQKLEREARICRKLQHPNIVRLHDSIQEESFHYLVFDLVTGGELFEDIVAREFYSEADASHCIQQILESIAYCHSNGIVHRNLKPENLLLASKAKGAAVKLADFGLAIEVNDSEAWHGFAGTPGYLSPEVLKKDPYSKPVDIWACGVILYILLVGYPPFWDEDQHRLYAQIKAGAYDYPSPEWDTVTPEAKSLIDSMLTVNPKKRITADQALKVPWICNRERVASAIHRQDVDCL STKFSDNYDVKEELGKGAFSVVRRCVHKTTGLEFAAKIINTKKLSARDFQKLEREARICRKLQHPNIVRLHDSIQEESFHYLVFDLVTGGELFEDIVAREFYSEADASHCIQQILESIAYCHSNGIVHRNLKPENLLLASKAKGAAVKLADFGLAIEVNDSEAWHGFAGTPGYLSPEVLKKDPYSKPVDIWACGVILYILLVGYPPFWDEDQHRLYAQIKAGAYDYPSPEWDTVTPEAKSLIDSMLTVNPKKRITADQALKVPWICNRERVASAIHRQDVDCL 3kk9-a1-m1-cA_3kk9-a1-m2-cA CaMKII Substrate Complex B O62305 O62305 3.206 X-RAY DIFFRACTION 31 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 275 275 TKFSDNYDVKEELGKGAFSVVRRCVHKTTGLEFAAKIINTKKLSARDFQKLEREARICRKLQHPNIVRLHDSIQEESFHYLVFDLVTGGELFEDIVAREFYSEADASHCIQQILESIAYCHSNGIVHRNLKPENLLLASKAKGAAVKLADFGLAIEVNDSEAWHGFAGTPGYLSPEVLKKDPYSKPVDIWACGVILYILLVGYPPFWDEDQHRLYAQIKAGAYDYPSPEWDTVTPEAKSLIDSMLTVNPKKRITADQALKVPWICNAIHRQDVDC TKFSDNYDVKEELGKGAFSVVRRCVHKTTGLEFAAKIINTKKLSARDFQKLEREARICRKLQHPNIVRLHDSIQEESFHYLVFDLVTGGELFEDIVAREFYSEADASHCIQQILESIAYCHSNGIVHRNLKPENLLLASKAKGAAVKLADFGLAIEVNDSEAWHGFAGTPGYLSPEVLKKDPYSKPVDIWACGVILYILLVGYPPFWDEDQHRLYAQIKAGAYDYPSPEWDTVTPEAKSLIDSMLTVNPKKRITADQALKVPWICNAIHRQDVDC 3kkc-a2-m1-cC_3kkc-a2-m1-cD The crystal structure OF TetR transcriptional regulator from Streptococcus agalactiae 2603V Q9F8C4 Q9F8C4 2.5 X-RAY DIFFRACTION 44 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 173 173 3kkc-a1-m1-cA_3kkc-a1-m1-cB NAVKDRQIQKTKVAIYNAFISLLQENDYSKITVQDVIGLANVGRSTFYSHYESKEVLLKELCEDLFHHLFKQGRDVTFEEYLVHILKHFEQNQDSIATLLLSDDPYFLLRFRSELEHDVYPRLREEYITKVDIPEDFLKQFLLSSFIETLKWWLHQRQKTVEDLLKYYLTVER NAVKDRQIQKTKVAIYNAFISLLQENDYSKITVQDVIGLANVGRSTFYSHYESKEVLLKELCEDLFHHLFKQGRDVTFEEYLVHILKHFEQNQDSIATLLLSDDPYFLLRFRSELEHDVYPRLREEYITKVDIPEDFLKQFLLSSFIETLKWWLHQRQKTVEDLLKYYLTVER 3kkd-a3-m1-cA_3kkd-a3-m1-cC Structure of a putative tetr transcriptional regulator (pa3699) from pseudomonas aeruginosa pa01 Q9HXU1 Q9HXU1 2.1 X-RAY DIFFRACTION 37 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 193 201 QRRQAILDAARLIVRDGVRAVRHRAVAAEAQVPLSATDIDDLITDTFALFVERNAEALSAFWSSVEGDLQEAAVLADDPGARGSLVERIVELAVQYVQVQLTERREHLLAEQAFRQEALLNPRLRELADAHQRILSLGAVHFFQVLGSGQPEQDAKVLTSIILQEYQGLVDGVEQLAVDERAILRRYLNLVGL GSEQRRQAILDAARLIVRDGVRAVRHRAVAAEAQVPLSATTYYFKDIDDLITDTFALFVERNAEALSAFWSSVEGDLQEAAVLADDPGARGSLVERIVELAVQYVQVQLTERREHLLAEQAFRQEALLNPRLRELADAHQRILSLGAVHFFQVLGSGQPEQDAKVLTSIILQEYQGLVDGVEQLAVDERAILRRYLNLVGL 3kkd-a3-m1-cB_3kkd-a3-m1-cC Structure of a putative tetr transcriptional regulator (pa3699) from pseudomonas aeruginosa pa01 Q9HXU1 Q9HXU1 2.1 X-RAY DIFFRACTION 112 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 199 201 3kkd-a1-m1-cA_3kkd-a1-m2-cA 3kkd-a2-m1-cB_3kkd-a2-m1-cC GSEQRRQAILDAARLIVRDGVRAVRHRAVAAEAQVPLSATTYYFKDIDDLITDTFALFVERNAEALSAFWSSVEGDLQEAAVLADDPGARGSLVERIVELAVQYVQVQLTERREHLLAEQAFRQEALLNPRLRELADAHQRILSLGAVHFFQVLGSGQPEQDAKVLTSIILQEYQGLVDGQLAVDERAILRRYLNLVGL GSEQRRQAILDAARLIVRDGVRAVRHRAVAAEAQVPLSATTYYFKDIDDLITDTFALFVERNAEALSAFWSSVEGDLQEAAVLADDPGARGSLVERIVELAVQYVQVQLTERREHLLAEQAFRQEALLNPRLRELADAHQRILSLGAVHFFQVLGSGQPEQDAKVLTSIILQEYQGLVDGVEQLAVDERAILRRYLNLVGL 3kke-a2-m1-cC_3kke-a2-m1-cB Crystal structure of a LacI family transcriptional regulator from Mycobacterium smegmatis A0QPR6 A0QPR6 2.2 X-RAY DIFFRACTION 85 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 285 291 3kke-a1-m1-cD_3kke-a1-m1-cA ALRHSRSGTIGLIVPDVNNAVFADMFSGVQMAASGHSTDVLLGQIDAPPRGTQQLSRLVSEGRVDGVLLQRREDFDDDMLAAVLEGVPAVTINSRVPGRVGSVILDDQKGGGIATEHLITLGHSRIAFISGTAIHDTAQRRKEGYLETLASAGLRSEAAWVVDAGWEADAGSAALNTLYRGANLGKPDGPTAVVVASVNAAVGALSTALRLGLRVPEDLSIVGINTTWVSDTVYPALTTVRLPLQRLGEVAADVLMEHLGGRALTDTVVTQPTPELLVRETTAPP NARARALRHSRSGTIGLIVPDVNNAVFADMFSGVQMAASGHSTDVLLGQIDAPPRGTQQLSRLVSEGRVDGVLLQRREDFDDDMLAAVLEGVPAVTINSRVPGRVGSVILDDQKGGGIATEHLITLGHSRIAFISGTAIHDTAQRRKEGYLETLASAGLRSEAAWVVDAGWEADAGSAALNTLYRGANLGKPDGPTAVVVASVNAAVGALSTALRLGLRVPEDLSIVGINTTWVSDTVYPALTTVRLPLQRLGEVAADVLMEHLGGRALTDTVVTQPTPELLVRETTAPPT 3kkf-a2-m1-cA_3kkf-a2-m6-cA Crystal structure of Putative antibiotic biosynthesis monooxygenase (NP_810307.1) from Bacteriodes thetaiotaomicron VPI-5482 at 1.30 A resolution Q8A7Y0 Q8A7Y0 1.3 X-RAY DIFFRACTION 11 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 100 100 3kkf-a2-m2-cA_3kkf-a2-m4-cA 3kkf-a2-m3-cA_3kkf-a2-m5-cA GAENNVRLSRIIIDPERLEEYNAYLKEEIEVSRLEPGVLVLYAVAEKERPNHVTILEIYADEAAYKSHIATPHFKKYKEGTLDVQLELIDATPLIPGLKK GAENNVRLSRIIIDPERLEEYNAYLKEEIEVSRLEPGVLVLYAVAEKERPNHVTILEIYADEAAYKSHIATPHFKKYKEGTLDVQLELIDATPLIPGLKK 3kkf-a2-m3-cA_3kkf-a2-m6-cA Crystal structure of Putative antibiotic biosynthesis monooxygenase (NP_810307.1) from Bacteriodes thetaiotaomicron VPI-5482 at 1.30 A resolution Q8A7Y0 Q8A7Y0 1.3 X-RAY DIFFRACTION 90 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 100 100 3kkf-a1-m1-cA_3kkf-a1-m2-cA 3kkf-a2-m1-cA_3kkf-a2-m2-cA 3kkf-a2-m4-cA_3kkf-a2-m5-cA GAENNVRLSRIIIDPERLEEYNAYLKEEIEVSRLEPGVLVLYAVAEKERPNHVTILEIYADEAAYKSHIATPHFKKYKEGTLDVQLELIDATPLIPGLKK GAENNVRLSRIIIDPERLEEYNAYLKEEIEVSRLEPGVLVLYAVAEKERPNHVTILEIYADEAAYKSHIATPHFKKYKEGTLDVQLELIDATPLIPGLKK 3kkg-a1-m1-cA_3kkg-a1-m2-cA Crystal structure of Putative SnoaL-like polyketide cyclase (YP_509242.1) from Jannaschia Sp. CCS1 at 1.40 A resolution Q28SU5 Q28SU5 1.4 X-RAY DIFFRACTION 82 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 139 139 GQDRSPIEQNVETVLRLFDEGWGAQDGWRDVWRETTPGFRSIFHSNQAVEGIEQAIAFNAVLFEGFPRLEVVVENVTVEGDNVVVQARLTGAQDGPFLGVPPSGQVDVPDVTLFTLADGQVIERYFTDLLAVTAISAPP GQDRSPIEQNVETVLRLFDEGWGAQDGWRDVWRETTPGFRSIFHSNQAVEGIEQAIAFNAVLFEGFPRLEVVVENVTVEGDNVVVQARLTGAQDGPFLGVPPSGQVDVPDVTLFTLADGQVIERYFTDLLAVTAISAPP 3kki-a1-m1-cA_3kki-a1-m1-cB PLP-Dependent Acyl-CoA transferase CqsA Q9KM65 Q9KM65 1.8 X-RAY DIFFRACTION 237 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 386 386 2wk7-a1-m1-cB_2wk7-a1-m1-cA 2wk8-a1-m1-cB_2wk8-a1-m1-cA 2wk9-a1-m1-cB_2wk9-a1-m1-cA 2wka-a1-m1-cB_2wka-a1-m1-cA 3hqt-a1-m1-cA_3hqt-a1-m1-cB PQLPDFIQNKIDHYIENYFDINKNGKHLVLGKQASPDDIILQSNDYLALANHPLIKARLAKSLLEEQQSLFMSASFLQNDYDKPMIEKRLAKFTGFDECLLSQSGWNANVGLLQTICQPNTNVYIDFFAHMSLWEGARYANAQAHPFMHNNCDHLRMLIQRHGPGIIVVDSIYSTLGTIAPLAELVNISKEFGCALLVDESHSLGTHGPNGAGLLAELGLTREVHFMTASLAKTFAYRAGAIWCNNEVNRCVPFISYPAIFSSTLLPYEAAGLETTLEIIESADNRRQHLDRMARKLRIGLSQLGLTIRSESQIIGLETGDERNTEKVRDYLESNGVFGSVFCRPATSKNKNIIRLSLNSDVNDEQIAKIIEVCSDAVNYGDFYFR PQLPDFIQNKIDHYIENYFDINKNGKHLVLGKQASPDDIILQSNDYLALANHPLIKARLAKSLLEEQQSLFMSASFLQNDYDKPMIEKRLAKFTGFDECLLSQSGWNANVGLLQTICQPNTNVYIDFFAHMSLWEGARYANAQAHPFMHNNCDHLRMLIQRHGPGIIVVDSIYSTLGTIAPLAELVNISKEFGCALLVDESHSLGTHGPNGAGLLAELGLTREVHFMTASLAKTFAYRAGAIWCNNEVNRCVPFISYPAIFSSTLLPYEAAGLETTLEIIESADNRRQHLDRMARKLRIGLSQLGLTIRSESQIIGLETGDERNTEKVRDYLESNGVFGSVFCRPATSKNKNIIRLSLNSDVNDEQIAKIIEVCSDAVNYGDFYFR 3kkk-a1-m1-cA_3kkk-a1-m1-cD Y92C catalytic residue mutant of Phosphoglycerate Mutase from Plasmodium falciparum Q8IIG6 Q8IIG6 2.08 X-RAY DIFFRACTION 38 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 230 230 1xq9-a1-m1-cB_1xq9-a1-m2-cA 1xq9-a1-m2-cB_1xq9-a1-m1-cA 3kkk-a1-m1-cC_3kkk-a1-m1-cB TTYTLVLLRHGESTWNKENKFTGWTDVPLSEKGEEEAIAAGKYLKEKNFKFDVVYTSVLKRAICTAWNVLKTADLLHVPVVKTWRLNERHCGSLQGLNKSETAKKYGEEQVKIWRRSYDIPPPKLDKEDNRWPGHNVVYKNVPKDALPFTECLKDTVERVLPFWFDHIAPDILANKKVMVAAHGNSLRGLVKHLDNLSEADVLELNIPTGVPLVYELDENLKPIKHYYLL TTYTLVLLRHGESTWNKENKFTGWTDVPLSEKGEEEAIAAGKYLKEKNFKFDVVYTSVLKRAICTAWNVLKTADLLHVPVVKTWRLNERHCGSLQGLNKSETAKKYGEEQVKIWRRSYDIPPPKLDKEDNRWPGHNVVYKNVPKDALPFTECLKDTVERVLPFWFDHIAPDILANKKVMVAAHGNSLRGLVKHLDNLSEADVLELNIPTGVPLVYELDENLKPIKHYYLL 3kkk-a1-m1-cC_3kkk-a1-m1-cD Y92C catalytic residue mutant of Phosphoglycerate Mutase from Plasmodium falciparum Q8IIG6 Q8IIG6 2.08 X-RAY DIFFRACTION 28 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 230 230 1xq9-a1-m1-cB_1xq9-a1-m1-cA 1xq9-a1-m2-cB_1xq9-a1-m2-cA 3kkk-a1-m1-cA_3kkk-a1-m1-cB TTYTLVLLRHGESTWNKENKFTGWTDVPLSEKGEEEAIAAGKYLKEKNFKFDVVYTSVLKRAICTAWNVLKTADLLHVPVVKTWRLNERHCGSLQGLNKSETAKKYGEEQVKIWRRSYDIPPPKLDKEDNRWPGHNVVYKNVPKDALPFTECLKDTVERVLPFWFDHIAPDILANKKVMVAAHGNSLRGLVKHLDNLSEADVLELNIPTGVPLVYELDENLKPIKHYYLL TTYTLVLLRHGESTWNKENKFTGWTDVPLSEKGEEEAIAAGKYLKEKNFKFDVVYTSVLKRAICTAWNVLKTADLLHVPVVKTWRLNERHCGSLQGLNKSETAKKYGEEQVKIWRRSYDIPPPKLDKEDNRWPGHNVVYKNVPKDALPFTECLKDTVERVLPFWFDHIAPDILANKKVMVAAHGNSLRGLVKHLDNLSEADVLELNIPTGVPLVYELDENLKPIKHYYLL 3kkl-a1-m1-cA_3kkl-a1-m1-cB Crystal structure of functionally unknown HSP33 from Saccharomyces cerevisiae Q08914 Q08914 2.03 X-RAY DIFFRACTION 41 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 215 216 PKRALISLTSYHGPFYKDGAKTGVFVVEILRSFDTFEKHGFEVDFVSETGGFGWDEHYFNKALARIKTANEVNASDYKVFFASAGHGALFDYPKAKNLQDIASKIYANGGVIAAICHGPLLFDGLIDIKTTRPLIEGKAITGFPLEGEIALGVDDILRSRKLTTVERVANKNGAKYLAPIHPWDDYSITDGKLVTGVNANSSYSTTIRAINALYS TPKRALISLTSYHGPFYKDGAKTGVFVVEILRSFDTFEKHGFEVDFVSETGGFGWDEHYFNKALARIKTANEVNASDYKVFFASAGHGALFDYPKAKNLQDIASKIYANGGVIAAICHGPLLFDGLIDIKTTRPLIEGKAITGFPLEGEIALGVDDILRSRKLTTVERVANKNGAKYLAPIHPWDDYSITDGKLVTGVNANSSYSTTIRAINALYS 3kks-a4-m1-cB_3kks-a4-m3-cB Crystal structure of catalytic core domain of BIV integrase in crystal form II P19560 P19560 2.2 X-RAY DIFFRACTION 51 1.0 417296 (Bovine immunodeficiency virus R29) 417296 (Bovine immunodeficiency virus R29) 152 152 3kkr-a2-m1-cA_3kkr-a2-m2-cA 3kks-a3-m1-cA_3kks-a3-m2-cA GSHLWQMDNTHWNKTIIWVAVETNSGLVEAQVIPEETALQVALCILQLIQRYTVLHLHSDNGPCFTAHRIENLCKYLGITKTTGIPYNPQSQGVVERAHRDLKDRLAAYQGDCETVEAALSLALVSLNKKRGGIGGHTPYEIYLESEHTKYQ GSHLWQMDNTHWNKTIIWVAVETNSGLVEAQVIPEETALQVALCILQLIQRYTVLHLHSDNGPCFTAHRIENLCKYLGITKTTGIPYNPQSQGVVERAHRDLKDRLAAYQGDCETVEAALSLALVSLNKKRGGIGGHTPYEIYLESEHTKYQ 3kky-a1-m1-cA_3kky-a1-m1-cB Structure of Manganese Superoxide Dismutase from Deinococcus Radiodurans in the orthorhombic space group P212121: A case study of mistaken identity Q9RUV2 Q9RUV2 1.8 X-RAY DIFFRACTION 45 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 203 204 1y67-a1-m1-cB_1y67-a1-m1-cA 1y67-a2-m1-cC_1y67-a2-m1-cD 2aw9-a1-m1-cB_2aw9-a1-m1-cA AYTLPQLPYAYDALEPHIDARTMEIHHTKHHQTYVDNANKALEGTEFADLPVEQLIQQLDRVPADKKGALRNNAGGHANHSMFWQIMGQANQPSGELLDAINSAFGSFDAFKKFEDAAKTRFGSGWAWLVVKDGKLDVVSTANQDNPLMGEAIAGVSGTPILGVDVWEHAYYLNYQNRRPDYLAAFWNVVNWDEVSKRYAAAK AYTLPQLPYAYDALEPHIDARTMEIHHTKHHQTYVDNANKALEGTEFADLPVEQLIQQLDRVPADKKGALRNNAGGHANHSMFWQIMGQANQPSGELLDAINSAFGSFDAFKQKFEDAAKTRFGSGWAWLVVKDGKLDVVSTANQDNPLMGEAIAGVSGTPILGVDVWEHAYYLNYQNRRPDYLAAFWNVVNWDEVSKRYAAAK 3kkz-a3-m1-cB_3kkz-a3-m1-cA Crystal structure of the Q5LES9_BACFN protein from Bacteroides fragilis. Northeast Structural Genomics Consortium Target BfR250. Q5LES9 Q5LES9 1.677 X-RAY DIFFRACTION 68 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 245 251 ELNLICDFFSNERQGPGSPEVTLKALSFIDNLTEKSLIADIGCGTGGQTVLAGHVTGQVTGLDFLSGFIDIFNRNARQSGLQNRVTGIVGSDDLPFRNEELDLIWSEGAIYNIGFERGLNEWRKYLKKGGYLAVSECSWFTDERPAEINDFWDAYPEIDTIPNQVAKIHKAGYLPVATFILPENCWTDHYFTPKVAAQKIFLTKYAGNKIAEEFSLQSIEEELYHKYKEYYGYTFFIAKKIRLLE KTIHDFELNLICDFFSNERQGPGSPEVTLKALSFIDNLTEKSLIADIGCGTGGQTVLAGHVTGQVTGLDFLSGFIDIFNRNARQSGLQNRVTGIVGSDDLPFRNEELDLIWSEGAIYNIGFERGLNEWRKYLKKGGYLAVSECSWFTDERPAEINDFWDAYPEIDTIPNQVAKIHKAGYLPVATFILPENCWTDHYFTPKVAAQKIFLTKYAGNKIAEEFSLQSIEEELYHKYKEYYGYTFFIAKKIRLLE 3kl2-a3-m1-cI_3kl2-a3-m1-cL Crystal structure of a putative isochorismatase from Streptomyces avermitilis Q82NB5 Q82NB5 2.3 X-RAY DIFFRACTION 15 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 199 200 3kl2-a1-m1-cB_3kl2-a1-m1-cC 3kl2-a1-m1-cD_3kl2-a1-m1-cA 3kl2-a2-m1-cG_3kl2-a2-m1-cF 3kl2-a2-m1-cH_3kl2-a2-m1-cE 3kl2-a3-m1-cJ_3kl2-a3-m1-cK ELDPARTAIVLIEYQNEFTSDGGVLHGAVADVMQHTGMLANTVAVVDAARQAGVPIMHAPITFAEGYGELTRHPYGILKGVVDGKAFVKGTWGAAIVDELAPVNGDIVIEGKRGLDTFASTNLDFILRSKGVDTIVLGGFLTNCCVESTMRTGYERGFRVITLTDCVAATSQEEHNNAISYDFPMFSVPMTSADVIAAL ELDPARTAIVLIEYQNEFTSDGGVLHGAVADVMQHTGMLANTVAVVDAARQAGVPIMHAPITFAEGYGELTRHPYGILKGVVDGKAFVKGTWGAAIVDELAPVNGDIVIEGKRGLDTFASTNLDFILRSKGVDTIVLGGFLTNCCVESTMRTGYERGFRVITLTDCVAATSQEEHNNAISYDFPMFSVPMTSADVIAALE 3kl2-a3-m1-cJ_3kl2-a3-m1-cL Crystal structure of a putative isochorismatase from Streptomyces avermitilis Q82NB5 Q82NB5 2.3 X-RAY DIFFRACTION 69 0.995 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 200 200 3kl2-a1-m1-cB_3kl2-a1-m1-cD 3kl2-a1-m1-cC_3kl2-a1-m1-cA 3kl2-a2-m1-cG_3kl2-a2-m1-cE 3kl2-a2-m1-cH_3kl2-a2-m1-cF 3kl2-a3-m1-cI_3kl2-a3-m1-cK LELDPARTAIVLIEYQNEFTSDGGVLHGAVADVMQHTGMLANTVAVVDAARQAGVPIMHAPITFAEGYGELTRHPYGILKGVVDGKAFVKGTWGAAIVDELAPVNGDIVIEGKRGLDTFASTNLDFILRSKGVDTIVLGGFLTNCCVESTMRTGYERGFRVITLTDCVAATSQEEHNNAISYDFPMFSVPMTSADVIAAL ELDPARTAIVLIEYQNEFTSDGGVLHGAVADVMQHTGMLANTVAVVDAARQAGVPIMHAPITFAEGYGELTRHPYGILKGVVDGKAFVKGTWGAAIVDELAPVNGDIVIEGKRGLDTFASTNLDFILRSKGVDTIVLGGFLTNCCVESTMRTGYERGFRVITLTDCVAATSQEEHNNAISYDFPMFSVPMTSADVIAALE 3kl2-a3-m1-cK_3kl2-a3-m1-cL Crystal structure of a putative isochorismatase from Streptomyces avermitilis Q82NB5 Q82NB5 2.3 X-RAY DIFFRACTION 72 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 200 200 3kl2-a1-m1-cB_3kl2-a1-m1-cA 3kl2-a1-m1-cC_3kl2-a1-m1-cD 3kl2-a2-m1-cF_3kl2-a2-m1-cE 3kl2-a2-m1-cG_3kl2-a2-m1-cH 3kl2-a3-m1-cI_3kl2-a3-m1-cJ ELDPARTAIVLIEYQNEFTSDGGVLHGAVADVMQHTGMLANTVAVVDAARQAGVPIMHAPITFAEGYGELTRHPYGILKGVVDGKAFVKGTWGAAIVDELAPVNGDIVIEGKRGLDTFASTNLDFILRSKGVDTIVLGGFLTNCCVESTMRTGYERGFRVITLTDCVAATSQEEHNNAISYDFPMFSVPMTSADVIAALE ELDPARTAIVLIEYQNEFTSDGGVLHGAVADVMQHTGMLANTVAVVDAARQAGVPIMHAPITFAEGYGELTRHPYGILKGVVDGKAFVKGTWGAAIVDELAPVNGDIVIEGKRGLDTFASTNLDFILRSKGVDTIVLGGFLTNCCVESTMRTGYERGFRVITLTDCVAATSQEEHNNAISYDFPMFSVPMTSADVIAALE 3kl9-a1-m1-cH_3kl9-a1-m1-cL Crystal structure of PepA from Streptococcus pneumoniae Q8DNJ7 Q8DNJ7 2.7 X-RAY DIFFRACTION 72 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 337 337 3kl9-a1-m1-cB_3kl9-a1-m1-cA 3kl9-a1-m1-cB_3kl9-a1-m1-cC 3kl9-a1-m1-cC_3kl9-a1-m1-cA 3kl9-a1-m1-cF_3kl9-a1-m1-cE 3kl9-a1-m1-cF_3kl9-a1-m1-cG 3kl9-a1-m1-cG_3kl9-a1-m1-cE 3kl9-a1-m1-cH_3kl9-a1-m1-cD 3kl9-a1-m1-cI_3kl9-a1-m1-cJ 3kl9-a1-m1-cI_3kl9-a1-m1-cK 3kl9-a1-m1-cJ_3kl9-a1-m1-cK 3kl9-a1-m1-cL_3kl9-a1-m1-cD TLFSKIKEVTELAAVSGHEAPVRAYLREKLTPHVDEVVTDGLGGIFGIKHSEAVDAPRVLVASHMDEVGFMVSEIKPDGTFRVVEIGGWNPMVVSSQRFKLLTRDGHEIPVISGPAIADIVFDGGFADKAEAESFGIRPGDTIVPDSSAILTANEKNIISKAWDNRYGVLMVSELAEALSGQKLGNELYLGSNVQEEVGLRGAHTSTTKFDPEVFLAVDCSPAGDVYGGQGKIGDGTLIRFYDPGHLLLPGMKDFLLTTAEEAGIKYQYYCGKGGTDAGAAHLKNGGVPSTTIGVCARYIHSHQTLYAMDDFLEAQAFLQALVKKLDRSTVDLIKHY TLFSKIKEVTELAAVSGHEAPVRAYLREKLTPHVDEVVTDGLGGIFGIKHSEAVDAPRVLVASHMDEVGFMVSEIKPDGTFRVVEIGGWNPMVVSSQRFKLLTRDGHEIPVISGPAIADIVFDGGFADKAEAESFGIRPGDTIVPDSSAILTANEKNIISKAWDNRYGVLMVSELAEALSGQKLGNELYLGSNVQEEVGLRGAHTSTTKFDPEVFLAVDCSPAGDVYGGQGKIGDGTLIRFYDPGHLLLPGMKDFLLTTAEEAGIKYQYYCGKGGTDAGAAHLKNGGVPSTTIGVCARYIHSHQTLYAMDDFLEAQAFLQALVKKLDRSTVDLIKHY 3kl9-a1-m1-cI_3kl9-a1-m1-cL Crystal structure of PepA from Streptococcus pneumoniae Q8DNJ7 Q8DNJ7 2.7 X-RAY DIFFRACTION 123 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 337 337 3kl9-a1-m1-cA_3kl9-a1-m1-cD 3kl9-a1-m1-cB_3kl9-a1-m1-cG 3kl9-a1-m1-cC_3kl9-a1-m1-cJ 3kl9-a1-m1-cF_3kl9-a1-m1-cK 3kl9-a1-m1-cH_3kl9-a1-m1-cE TLFSKIKEVTELAAVSGHEAPVRAYLREKLTPHVDEVVTDGLGGIFGIKHSEAVDAPRVLVASHMDEVGFMVSEIKPDGTFRVVEIGGWNPMVVSSQRFKLLTRDGHEIPVISGPAIADIVFDGGFADKAEAESFGIRPGDTIVPDSSAILTANEKNIISKAWDNRYGVLMVSELAEALSGQKLGNELYLGSNVQEEVGLRGAHTSTTKFDPEVFLAVDCSPAGDVYGGQGKIGDGTLIRFYDPGHLLLPGMKDFLLTTAEEAGIKYQYYCGKGGTDAGAAHLKNGGVPSTTIGVCARYIHSHQTLYAMDDFLEAQAFLQALVKKLDRSTVDLIKHY TLFSKIKEVTELAAVSGHEAPVRAYLREKLTPHVDEVVTDGLGGIFGIKHSEAVDAPRVLVASHMDEVGFMVSEIKPDGTFRVVEIGGWNPMVVSSQRFKLLTRDGHEIPVISGPAIADIVFDGGFADKAEAESFGIRPGDTIVPDSSAILTANEKNIISKAWDNRYGVLMVSELAEALSGQKLGNELYLGSNVQEEVGLRGAHTSTTKFDPEVFLAVDCSPAGDVYGGQGKIGDGTLIRFYDPGHLLLPGMKDFLLTTAEEAGIKYQYYCGKGGTDAGAAHLKNGGVPSTTIGVCARYIHSHQTLYAMDDFLEAQAFLQALVKKLDRSTVDLIKHY 3klo-a1-m2-cB_3klo-a1-m1-cA Vibrio cholerae VpsT bound to c-di-GMP Q9KKZ8 Q9KKZ8 2.802 X-RAY DIFFRACTION 57 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 216 217 3kln-a5-m2-cB_3kln-a5-m1-cA 3kln-a6-m3-cD_3kln-a6-m1-cC 3klo-a2-m3-cD_3klo-a2-m1-cC ENKLNVRMLSDVCMQSRLLKEALESKLPLALEITPFSELWLEENKPESRSIQMLVIDYSRISDDVLTDYSSFKHISCPDAKEVIINCPQDIEHKLLFKWNNLAGVFYIDDDMDTLIKGMSKILQDEMWLTRKLAQEYILHYRAGNSVVTSQMYAKLTKREQQIIKLLGSGASNIEIADKLFVSENTVKTHLHNVFKKINAKNRLQALIWAKNNIGI DENKLNVRMLSDVCMQSRLLKEALESKLPLALEITPFSELWLEENKPESRSIQMLVIDYSRISDDVLTDYSSFKHISCPDAKEVIINCPQDIEHKLLFKWNNLAGVFYIDDDMDTLIKGMSKILQDEMWLTRKLAQEYILHYRAGNSVVTSQMYAKLTKREQQIIKLLGSGASNIEIADKLFVSENTVKTHLHNVFKKINAKNRLQALIWAKNNIGI 3klt-a1-m1-cD_3klt-a1-m1-cA Crystal structure of a vimentin fragment P08670 P08670 2.7 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 71 3klt-a1-m1-cB_3klt-a1-m1-cC LTAALRDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTCEVDALK DLTAALRDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTCEVDALK 3klt-a1-m1-cD_3klt-a1-m1-cB Crystal structure of a vimentin fragment P08670 P08670 2.7 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 71 3klt-a1-m1-cA_3klt-a1-m1-cC LTAALRDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTCEVDALK DLTAALRDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTCEVDALK 3klt-a3-m1-cD_3klt-a3-m1-cC Crystal structure of a vimentin fragment P08670 P08670 2.7 X-RAY DIFFRACTION 47 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 70 71 3klt-a1-m1-cA_3klt-a1-m1-cB 3klt-a1-m1-cD_3klt-a1-m1-cC 3klt-a2-m1-cA_3klt-a2-m1-cB LTAALRDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTCEVDALK PDLTAALRDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTCEVDAL 3kly-a1-m1-cE_3kly-a1-m1-cA Pentameric formate channel Q9KRE7 Q9KRE7 2.1 X-RAY DIFFRACTION 111 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 256 257 3kly-a1-m1-cB_3kly-a1-m1-cA 3kly-a1-m1-cB_3kly-a1-m1-cC 3kly-a1-m1-cD_3kly-a1-m1-cC 3kly-a1-m1-cD_3kly-a1-m1-cE 3klz-a1-m1-cB_3klz-a1-m1-cA 3klz-a1-m1-cC_3klz-a1-m1-cB 3klz-a1-m1-cC_3klz-a1-m1-cD 3klz-a1-m1-cD_3klz-a1-m1-cE 3klz-a1-m1-cE_3klz-a1-m1-cA EGKAKKAAYKSFLLAISAGIQIGIAFVFYTVVTTGAHDMPYGVTKLLGGLAFSLGLILVVITGGELFTSSVLILVAKASGKISWKELVRNWTVVYFGNLCGSIILVFIMLATRQFMEDGGQLGLNAMAISQHKLHHTFLQAFALGLMCNILVCLAVWMTFSARSLTDKVMVLILPVAMFVSSGFEHCIANMFQVPMAIGIKYFAPESFWAMTGANIAQYADLNFVNFIVNNLIPVTLGNIVGGGVFVGMWYWLIYL GEGKAKKAAYKSFLLAISAGIQIGIAFVFYTVVTTGAHDMPYGVTKLLGGLAFSLGLILVVITGGELFTSSVLILVAKASGKISWKELVRNWTVVYFGNLCGSIILVFIMLATRQFMEDGGQLGLNAMAISQHKLHHTFLQAFALGLMCNILVCLAVWMTFSARSLTDKVMVLILPVAMFVSSGFEHCIANMFQVPMAIGIKYFAPESFWAMTGANIAQYADLNFVNFIVNNLIPVTLGNIVGGGVFVGMWYWLIYL 3km2-a8-m1-cO_3km2-a8-m1-cP As-isolated TOMATO CHLOROPLAST SUPEROXIDE DISMUTASE P14831 P14831 3.1 X-RAY DIFFRACTION 66 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 153 153 1srd-a1-m1-cA_1srd-a1-m1-cB 1srd-a1-m1-cC_1srd-a1-m1-cD 3km2-a10-m1-cS_3km2-a10-m1-cT 3km2-a11-m1-cU_3km2-a11-m1-cV 3km2-a12-m1-cW_3km2-a12-m1-cX 3km2-a1-m1-cA_3km2-a1-m1-cB 3km2-a2-m1-cC_3km2-a2-m1-cD 3km2-a3-m1-cE_3km2-a3-m1-cF 3km2-a4-m1-cG_3km2-a4-m1-cH 3km2-a5-m1-cI_3km2-a5-m1-cJ 3km2-a6-m1-cK_3km2-a6-m1-cL 3km2-a7-m1-cM_3km2-a7-m1-cN 3km2-a9-m1-cQ_3km2-a9-m1-cR ATKKAVAVLKGNSNVEGVVTLSQDDDGPTTVNVRITGLAPGLHGFHLHEYGDTTNGCMSTGAHFNPNKLTHGAPGDEIRHAGDLGNIVANADGVAEVTLVDNQIPLTGPNSVVGRALVVHELEDDLGKGGHELSLTTGNAGGRLACGVVGLTP ATKKAVAVLKGNSNVEGVVTLSQDDDGPTTVNVRITGLAPGLHGFHLHEYGDTTNGCMSTGAHFNPNKLTHGAPGDEIRHAGDLGNIVANADGVAEVTLVDNQIPLTGPNSVVGRALVVHELEDDLGKGGHELSLTTGNAGGRLACGVVGLTP 3km3-a1-m2-cB_3km3-a1-m3-cB Crystal structure of eoxycytidine triphosphate deaminase from anaplasma phagocytophilum at 2.1A resolution Q2GLJ4 Q2GLJ4 2.1 X-RAY DIFFRACTION 101 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 156 156 3km3-a1-m1-cA_3km3-a1-m2-cA 3km3-a1-m1-cA_3km3-a1-m3-cA 3km3-a1-m1-cB_3km3-a1-m2-cB 3km3-a1-m1-cB_3km3-a1-m3-cB 3km3-a1-m2-cA_3km3-a1-m3-cA SMSVMPDHWIKERALKDGMISPFVDHKEGVLSYGLSSYGYDARLDNKFKIFANTHSVVVDPKNFSQDSFVDREGDFCIIPPNSFMLAKTVEYFNIPRDVMVVCVGKSTYARCGIVVNVTPLEPGWSGYVTLEFSNTSPLPVKVYAFEGACQFLFFS SMSVMPDHWIKERALKDGMISPFVDHKEGVLSYGLSSYGYDARLDNKFKIFANTHSVVVDPKNFSQDSFVDREGDFCIIPPNSFMLAKTVEYFNIPRDVMVVCVGKSTYARCGIVVNVTPLEPGWSGYVTLEFSNTSPLPVKVYAFEGACQFLFFS 3km3-a1-m3-cB_3km3-a1-m3-cA Crystal structure of eoxycytidine triphosphate deaminase from anaplasma phagocytophilum at 2.1A resolution Q2GLJ4 Q2GLJ4 2.1 X-RAY DIFFRACTION 28 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 156 161 3km3-a1-m1-cB_3km3-a1-m1-cA 3km3-a1-m2-cB_3km3-a1-m2-cA SMSVMPDHWIKERALKDGMISPFVDHKEGVLSYGLSSYGYDARLDNKFKIFANTHSVVVDPKNFSQDSFVDREGDFCIIPPNSFMLAKTVEYFNIPRDVMVVCVGKSTYARCGIVVNVTPLEPGWSGYVTLEFSNTSPLPVKVYAFEGACQFLFFS PGSMSVMPDHWIKERALKDGMISPFVDHKEGTGVLSYGLSSYGYDARLDNKFKIFANTHSVVVDPKNFSQDSFVDREGDFCIIPPNSFMLAKTVEYFNIPRDVMVVCVGKSTYARCGIVVNVTPLEPGWSGYVTLEFSNTSPLPVKVYAFEGACQFLFFSG 3km4-a1-m1-cB_3km4-a1-m1-cA Optimization of Orally Bioavailable Alkyl Amine Renin Inhibitors P00797 P00797 1.9 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 333 337 1rne-a1-m2-cA_1rne-a1-m1-cA 5vrp-a3-m1-cA_5vrp-a3-m1-cB GNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR GNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 3kmh-a1-m1-cA_3kmh-a1-m1-cB Crystal Structure of a Novel Sugar Isomerase from E. coli O157:H7 Q8X5Q7 Q8X5Q7 1.58 X-RAY DIFFRACTION 120 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 215 219 3mpb-a1-m1-cA_3mpb-a1-m1-cB KRSAINDILGHTRQFFSQHDVHLPPFASFSPAQWQQLDTAAWEEVFDLKLGWDVTAFGRNNFAAHGLTLFTLRNGSAKGPYVKCYAEKIHVRDAQVTPHFHWRKREDIINRGGGNLIVELWNADSNEQTADSDITVVIDGCRQKHTAGSQLRLSPGESICLPPGLYHSFWAEAGFGDVLVGEVSSVNDDDHDNHFLQPLLIDEDEPAQLVLCNEY KRSAINDILGHTRQFFSQHDVHLPPFASFSPAQWQQLDTAAWEEVFDLKLGWDVTAFGRNNFAAHGLTLFTLRNGSAKGPYVKCYAEKIHVRDAQVTPHFHWRKREDIINRGGGNLIVELWNADSNEQTADSDITVVIDGCRQKHTAGSQLRLSPGESICLPPGLYHSFWAEAGFGDVLVGEVSSVNDDDHDNHFLQPLDRYNLIDEDEPAQLVLCNEY 3kmi-a1-m1-cB_3kmi-a1-m1-cA Crystal structure of putative membrane protein from Clostridium difficile 630 Q184N1 Q184N1 1.96 X-RAY DIFFRACTION 51 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 164 168 KIHEVQKKLQEEVSIVLIDIADIIVNPKKENGYSRDLYTLNSLIDSSISETYDNINNTLLSDTRFFLEHDIIKSQRDILENLYSYVSQLNSTPPQAHILSAFIHKIGYTEFEETGNLLLEELKRLISKNQPLPVDRTEFENRAILFLCLTELKQFLVNRKHAQL NIHKIHEVQKKLQEEVSIVLIDIADIIVNPKKENGYSRDLYTLNSLIDSSISETYDNINNTLLSDTRFFLEHDIIKSQRDILENLYSYVSQLNSTPPQAHILSAFIHKIGYTEFEAETGNLLLEELKRLISKNQPLPVDRTEFENRAILFLCLTELKQFLVNRKHAQL 3kmt-a5-m1-cC_3kmt-a5-m2-cC Crystal structure of vSET/SAH/H3 ternary complex O41094 O41094 1.78 X-RAY DIFFRACTION 71 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 119 119 2g46-a1-m1-cA_2g46-a1-m1-cB 3kma-a1-m1-cA_3kma-a1-m1-cB 3kmj-a1-m1-cA_3kmj-a1-m2-cA 3kmt-a4-m1-cA_3kmt-a4-m1-cB MFNDRVIVKKSPLGGYGVFARKSFEKGELVEECLCIVRHNDDWGTALEDYLFSRKNMSAMALGFGAIFNHSKDPNARHELTAGLKRMRIFTIKPIAIGEEITISYGDDYWLSRPRLTQN MFNDRVIVKKSPLGGYGVFARKSFEKGELVEECLCIVRHNDDWGTALEDYLFSRKNMSAMALGFGAIFNHSKDPNARHELTAGLKRMRIFTIKPIAIGEEITISYGDDYWLSRPRLTQN 3kmz-a1-m1-cA_3kmz-a1-m1-cB Crystal structure of RARalpha ligand binding domain in complex with the inverse agonist BMS493 and a corepressor fragment P10276 P10276 2.1 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 TPEVGELIEKVRKAHQETFPALCQLGKYTTNNSSEQRVSLDIDLWDKFSELSTKCIIKTVEFAKQLPGFTTLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFAFANQLLPLEMDDAETGLLSAICLICGDRQDLEQPDRVDMLQEPLLEALKVYVRKRRPSRPHMFPKMLMKITDLRSISAKGAERVITLKME TPEVGELIEKVRKAHQETFPALCQLGKYTTNNSSEQRVSLDIDLWDKFSELSTKCIIKTVEFAKQLPGFTTLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFAFANQLLPLEMDDAETGLLSAICLICGDRQDLEQPDRVDMLQEPLLEALKVYVRKRRPSRPHMFPKMLMKITDLRSISAKGAERVITLKME 3kmz-a3-m1-cA_3kmz-a3-m3-cA Crystal structure of RARalpha ligand binding domain in complex with the inverse agonist BMS493 and a corepressor fragment P10276 P10276 2.1 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 3kmz-a2-m1-cB_3kmz-a2-m2-cB 7apo-a1-m1-cA_7apo-a1-m1-cB TPEVGELIEKVRKAHQETFPALCQLGKYTTNNSSEQRVSLDIDLWDKFSELSTKCIIKTVEFAKQLPGFTTLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFAFANQLLPLEMDDAETGLLSAICLICGDRQDLEQPDRVDMLQEPLLEALKVYVRKRRPSRPHMFPKMLMKITDLRSISAKGAERVITLKME TPEVGELIEKVRKAHQETFPALCQLGKYTTNNSSEQRVSLDIDLWDKFSELSTKCIIKTVEFAKQLPGFTTLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFAFANQLLPLEMDDAETGLLSAICLICGDRQDLEQPDRVDMLQEPLLEALKVYVRKRRPSRPHMFPKMLMKITDLRSISAKGAERVITLKME 3kn1-a2-m15-cA_3kn1-a2-m9-cA Crystal Structure of Golgi Phosphoprotein 3 N-term Truncation Variant Q9H4A6 Q9H4A6 2.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 3kn1-a2-m10-cA_3kn1-a2-m14-cA 3kn1-a2-m10-cA_3kn1-a2-m16-cA 3kn1-a2-m11-cA_3kn1-a2-m13-cA 3kn1-a2-m11-cA_3kn1-a2-m15-cA 3kn1-a2-m12-cA_3kn1-a2-m14-cA 3kn1-a2-m12-cA_3kn1-a2-m16-cA 3kn1-a2-m13-cA_3kn1-a2-m9-cA 3kn1-a2-m17-cA_3kn1-a2-m6-cA 3kn1-a2-m17-cA_3kn1-a2-m8-cA 3kn1-a2-m18-cA_3kn1-a2-m5-cA 3kn1-a2-m18-cA_3kn1-a2-m7-cA 3kn1-a2-m19-cA_3kn1-a2-m6-cA 3kn1-a2-m19-cA_3kn1-a2-m8-cA 3kn1-a2-m1-cA_3kn1-a2-m21-cA 3kn1-a2-m1-cA_3kn1-a2-m23-cA 3kn1-a2-m20-cA_3kn1-a2-m5-cA 3kn1-a2-m20-cA_3kn1-a2-m7-cA 3kn1-a2-m21-cA_3kn1-a2-m3-cA 3kn1-a2-m22-cA_3kn1-a2-m4-cA 3kn1-a2-m23-cA_3kn1-a2-m3-cA 3kn1-a2-m24-cA_3kn1-a2-m4-cA 3kn1-a2-m2-cA_3kn1-a2-m22-cA 3kn1-a2-m2-cA_3kn1-a2-m24-cA RLTLEEVLLLGLKDREGYTSFWNDCISSGLRGCLIELALRGRLQLEACGRRKSLLTRKVICKSDAPTGDVLLDEALKHVKETQPPETVQNWIELLSGETWNPLKLHYQLRNVRERLAKNLVEKGVLTTEKQNFLLFDTTHPLTNNNIKQRLIKKVQEAVLDKWVNDPHRDRRLLALIYLAHASDVLENAFAPLLDEQYDLATKRVRQLLDLDPEVECLKANTNEVLWAVVAAFT RLTLEEVLLLGLKDREGYTSFWNDCISSGLRGCLIELALRGRLQLEACGRRKSLLTRKVICKSDAPTGDVLLDEALKHVKETQPPETVQNWIELLSGETWNPLKLHYQLRNVRERLAKNLVEKGVLTTEKQNFLLFDTTHPLTNNNIKQRLIKKVQEAVLDKWVNDPHRDRRLLALIYLAHASDVLENAFAPLLDEQYDLATKRVRQLLDLDPEVECLKANTNEVLWAVVAAFT 3kn1-a2-m24-cA_3kn1-a2-m9-cA Crystal Structure of Golgi Phosphoprotein 3 N-term Truncation Variant Q9H4A6 Q9H4A6 2.9 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 3kn1-a2-m10-cA_3kn1-a2-m22-cA 3kn1-a2-m11-cA_3kn1-a2-m23-cA 3kn1-a2-m12-cA_3kn1-a2-m21-cA 3kn1-a2-m13-cA_3kn1-a2-m7-cA 3kn1-a2-m14-cA_3kn1-a2-m5-cA 3kn1-a2-m15-cA_3kn1-a2-m8-cA 3kn1-a2-m16-cA_3kn1-a2-m6-cA 3kn1-a2-m17-cA_3kn1-a2-m2-cA 3kn1-a2-m18-cA_3kn1-a2-m4-cA 3kn1-a2-m1-cA_3kn1-a2-m19-cA 3kn1-a2-m20-cA_3kn1-a2-m3-cA RLTLEEVLLLGLKDREGYTSFWNDCISSGLRGCLIELALRGRLQLEACGRRKSLLTRKVICKSDAPTGDVLLDEALKHVKETQPPETVQNWIELLSGETWNPLKLHYQLRNVRERLAKNLVEKGVLTTEKQNFLLFDTTHPLTNNNIKQRLIKKVQEAVLDKWVNDPHRDRRLLALIYLAHASDVLENAFAPLLDEQYDLATKRVRQLLDLDPEVECLKANTNEVLWAVVAAFT RLTLEEVLLLGLKDREGYTSFWNDCISSGLRGCLIELALRGRLQLEACGRRKSLLTRKVICKSDAPTGDVLLDEALKHVKETQPPETVQNWIELLSGETWNPLKLHYQLRNVRERLAKNLVEKGVLTTEKQNFLLFDTTHPLTNNNIKQRLIKKVQEAVLDKWVNDPHRDRRLLALIYLAHASDVLENAFAPLLDEQYDLATKRVRQLLDLDPEVECLKANTNEVLWAVVAAFT 3kn1-a2-m8-cA_3kn1-a2-m9-cA Crystal Structure of Golgi Phosphoprotein 3 N-term Truncation Variant Q9H4A6 Q9H4A6 2.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 3kn1-a2-m10-cA_3kn1-a2-m4-cA 3kn1-a2-m10-cA_3kn1-a2-m5-cA 3kn1-a2-m11-cA_3kn1-a2-m3-cA 3kn1-a2-m11-cA_3kn1-a2-m7-cA 3kn1-a2-m12-cA_3kn1-a2-m6-cA 3kn1-a2-m13-cA_3kn1-a2-m18-cA 3kn1-a2-m13-cA_3kn1-a2-m24-cA 3kn1-a2-m14-cA_3kn1-a2-m20-cA 3kn1-a2-m14-cA_3kn1-a2-m21-cA 3kn1-a2-m15-cA_3kn1-a2-m19-cA 3kn1-a2-m15-cA_3kn1-a2-m23-cA 3kn1-a2-m16-cA_3kn1-a2-m17-cA 3kn1-a2-m16-cA_3kn1-a2-m22-cA 3kn1-a2-m17-cA_3kn1-a2-m22-cA 3kn1-a2-m18-cA_3kn1-a2-m24-cA 3kn1-a2-m19-cA_3kn1-a2-m23-cA 3kn1-a2-m1-cA_3kn1-a2-m12-cA 3kn1-a2-m1-cA_3kn1-a2-m6-cA 3kn1-a2-m20-cA_3kn1-a2-m21-cA 3kn1-a2-m2-cA_3kn1-a2-m8-cA 3kn1-a2-m2-cA_3kn1-a2-m9-cA 3kn1-a2-m3-cA_3kn1-a2-m7-cA 3kn1-a2-m4-cA_3kn1-a2-m5-cA RLTLEEVLLLGLKDREGYTSFWNDCISSGLRGCLIELALRGRLQLEACGRRKSLLTRKVICKSDAPTGDVLLDEALKHVKETQPPETVQNWIELLSGETWNPLKLHYQLRNVRERLAKNLVEKGVLTTEKQNFLLFDTTHPLTNNNIKQRLIKKVQEAVLDKWVNDPHRDRRLLALIYLAHASDVLENAFAPLLDEQYDLATKRVRQLLDLDPEVECLKANTNEVLWAVVAAFT RLTLEEVLLLGLKDREGYTSFWNDCISSGLRGCLIELALRGRLQLEACGRRKSLLTRKVICKSDAPTGDVLLDEALKHVKETQPPETVQNWIELLSGETWNPLKLHYQLRNVRERLAKNLVEKGVLTTEKQNFLLFDTTHPLTNNNIKQRLIKKVQEAVLDKWVNDPHRDRRLLALIYLAHASDVLENAFAPLLDEQYDLATKRVRQLLDLDPEVECLKANTNEVLWAVVAAFT 3kn2-a3-m1-cD_3kn2-a3-m1-cB HCV NS3 Protease Domain with ketoamide inhibitor Q9WMX2 Q9WMX2 2.3 X-RAY DIFFRACTION 22 1.0 333284 (Hepatitis C virus (isolate Con1)) 333284 (Hepatitis C virus (isolate Con1)) 16 22 1n1l-a3-m1-cD_1n1l-a3-m1-cC 1rgq-a1-m1-cD_1rgq-a1-m1-cC 1rtl-a1-m1-cD_1rtl-a1-m1-cC 2a4g-a1-m1-cD_2a4g-a1-m1-cB 2a4q-a1-m1-cD_2a4q-a1-m1-cB 2a4r-a1-m1-cD_2a4r-a1-m1-cB 2f9u-a1-m1-cD_2f9u-a1-m1-cB 2f9v-a1-m1-cD_2f9v-a1-m1-cB 2fm2-a1-m1-cD_2fm2-a1-m1-cB 2gvf-a3-m1-cD_2gvf-a3-m1-cB 2o8m-a1-m1-cD_2o8m-a1-m1-cC 2obo-a1-m1-cD_2obo-a1-m1-cB 2obq-a1-m1-cD_2obq-a1-m1-cB 2oc0-a1-m1-cD_2oc0-a1-m1-cB 2oc1-a1-m1-cD_2oc1-a1-m1-cB 2oc7-a1-m1-cD_2oc7-a1-m1-cB 2oc8-a1-m1-cD_2oc8-a1-m1-cB 2xcf-a1-m1-cD_2xcf-a1-m1-cC 2xcn-a1-m1-cD_2xcn-a1-m1-cC 2xni-a1-m1-cD_2xni-a1-m1-cC 3eyd-a3-m1-cD_3eyd-a3-m1-cB 3lon-a1-m1-cD_3lon-a1-m1-cB 3lox-a1-m1-cD_3lox-a1-m1-cB GSVVIVGRIVLSGKPA KGSVVIVGRIVLSGKPAIIPKK 3knt-a1-m1-cD_3knt-a1-m1-cB Crystal structure of Methanocaldococcus jannaschii 8-oxoguanine glycosylase/lyase in complex with 15mer DNA containing 8-oxoguanine Q58134 Q58134 2.7 X-RAY DIFFRACTION 18 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 206 207 MLIKKIEELKNSEIKDIIDKRIQEFKSFKNKSNEEWFKELCFCILTANFTAEGGIRIQKEIGDGFLTLPREELEEKLKNLGHRFYRKRAEYIVLARRFKNIKDIVESFENEKVAREFLVRNIKGIGYQEASHFLRNVGYDDVAIIDRHILRELYENNYIDEIPKTLSRRKYLEIENILRDIGEEVNLKLSELDLYIWYLRTGKVLK MMLIKKIEELKNSEIKDIIDKRIQEFKSFKNKSNEEWFKELCFCILTANFTAEGGIRIQKEIGDGFLTLPREELEEKLKNLGHRFYRKRAEYIVLARRFKNIKDIVESFENEKVAREFLVRNIKGIGYQEASHFLRNVGYDDVAIIDRHILRELYENNYIDEIPKTLSRRKYLEIENILRDIGEEVNLKLSELDLYIWYLRTGKVLK 3knu-a1-m1-cA_3knu-a1-m1-cB Crystal structure of tRNA (guanine-N1)-methyltransferase from Anaplasma phagocytophilum Q2GIL5 Q2GIL5 2.25 X-RAY DIFFRACTION 192 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 192 197 3knu-a2-m1-cD_3knu-a2-m1-cC 4ig6-a1-m1-cA_4ig6-a1-m2-cA 6uev-a1-m1-cA_6uev-a1-m2-cA SMIFNVLTIFPQMFPGPLGVSNLGSALKKGLWTLNVFDIRAFATVDDTPYGGGPGMLLRADVLGRCIDEVLSLHPNTKLMFTSPRGVSFTQDIARQTMNFDNITLLCGRFEGIDERVVDFYKLQEVSIGDYVLSGGELAAMVIIDTCVRMVPGVIEYPQYTRPASWKGMEVPEVLLTGNHGEIEKWRRNASL SMIFNVLTIFPQMFPGPLGVSNLGSALKKGLWTLNVFDIRAFANNKHNTVDDTPYGGGPGMLLRADVLGRCIDEVLSLHPNTKLMFTSPRGVSFTQDIARQTMNFDNITLLCGRFEGIDERVVDFYKLQEVSIGDYVLSGGELAAMVIIDTCVRMVPGVIEYPQYTRPASWKGMEVPEVLLTGNHGEIEKWRRNASL 3knw-a1-m1-cB_3knw-a1-m1-cA Crystal structure of a putative transcriptional regulator (TetR/AcrR family member) from putative transcriptional regulator (TetR/AcrR family) Q6F8X8 Q6F8X8 2.45 X-RAY DIFFRACTION 90 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 169 174 KRQHILDSGFHLVLRKGFVGVGLQEILKTSGVPKGSFYHYFESKEAFGCELLKHYISDYQIRLNQLWTTETSARDKLNYLQCWVKSCLIVKAAEVADLSEDRLINDGVKRLIARADLIRIGQQEGSIQTSVVPDVLAQVIYQYLGAALLSKLYKHKAPLFQALESTKLD SEAKRQHILDSGFHLVLRKGFVGVGLQEILKTSGVPKGSFYHYFESKEAFGCELLKHYISDYQIRLNQLWTTETSARDKLNYLQCWVKDESCLIVKAAEVADLSEDRLINDGVKRLIARADLIRIGQQEGSIQTSVVPDVLAQVIYQYLGAALLSKLYKHKAPLFQALESTKLD 3kny-a2-m1-cA_3kny-a2-m2-cA Crystal structure of a two domain protein with unknown function (bt_3535) from bacteroides thetaiotaomicron vpi-5482 at 2.60 A resolution Q8A1X3 Q8A1X3 2.6 X-RAY DIFFRACTION 73 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 191 191 NEDWVVNEPQSFEENPEYAPLNTIPDWVSEKVTPKEYELWRTSSRYEINYSFLKKDISEKRKKEIYDCINNICERIEKGQINKYEGFLNIADEDGTAEYKTNGCTLYTHSLGPYIKAAVTYKKSDDDVTITSSSVYTGSPYLGNDPSFSGASSVSYDKDKKLIAASCSGTLSFKDGSRKVEVTVQKTGFIP NEDWVVNEPQSFEENPEYAPLNTIPDWVSEKVTPKEYELWRTSSRYEINYSFLKKDISEKRKKEIYDCINNICERIEKGQINKYEGFLNIADEDGTAEYKTNGCTLYTHSLGPYIKAAVTYKKSDDDVTITSSSVYTGSPYLGNDPSFSGASSVSYDKDKKLIAASCSGTLSFKDGSRKVEVTVQKTGFIP 3knz-a2-m1-cC_3knz-a2-m1-cD Crystal structure of Putative sugar binding protein (NP_459565.1) from Salmonella typhimurium LT2 at 2.50 A resolution Q8ZR49 Q8ZR49 2.5 X-RAY DIFFRACTION 69 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 310 311 3knz-a1-m1-cB_3knz-a1-m1-cA 3knz-a3-m1-cF_3knz-a3-m1-cE NLYFQGNETPLRLLELTQTREDLWRAAQALTERGVTRIILTGSGTSYHGALTARTFQRWCALPVDVCWPFLDDETLARSGKALVVGISQGGGSLSTLAAERARNVGHITASAGVAPATIDRAADYILTVPCGTKGYHCTVLNLLLALAVAGQQQRLDGEQRRSLLLREKTFNHLPALVTASQAWAQTNALALRDSADIRLTGPATLFGTVQEGALKLETLRCPVSGYEFEEFIHGIYNAFNAQSALILDPQPDARQDRLAQILGEWTPSIYRIGPQVENNGLNLNFPFVNDEDFAVFEYIIPLQLCAILP NLYFQGNETPLRLLELTQTREDLWRAAQALTERGVTRIILTGSGTSYHGALTARTFQRWCALPVDVCWPFLDDETLARSGKALVVGISQGGGSLSTLAAERARNVGHITASAGVAPATIDRAADYILTVPCGETKGYHCTVLNLLLALAVAGQQQRLDGEQRRSLLLREKTFNHLPALVTASQAWAQTNALALRDSADIRLTGPATLFGTVQEGALKLETLRCPVSGYEFEEFIHGIYNAFNAQSALILDPQPDARQDRLAQILGEWTPSIYRIGPQVENNGLNLNFPFVNDEDFAVFEYIIPLQLCAILP 3ko1-a1-m1-cC_3ko1-a1-m2-cI Cystal structure of thermosome from Acidianus tengchongensis strain S5 Q877H2 Q877H2 3.7 X-RAY DIFFRACTION 38 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 505 505 3ko1-a1-m1-cA_3ko1-a1-m2-cB 3ko1-a1-m1-cB_3ko1-a1-m2-cA 3ko1-a1-m1-cD_3ko1-a1-m2-cH 3ko1-a1-m1-cE_3ko1-a1-m2-cG 3ko1-a1-m1-cF_3ko1-a1-m2-cF 3ko1-a1-m1-cG_3ko1-a1-m2-cE 3ko1-a1-m1-cH_3ko1-a1-m2-cD 3ko1-a1-m1-cI_3ko1-a1-m2-cC GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA 3ko1-a1-m1-cE_3ko1-a1-m2-cH Cystal structure of thermosome from Acidianus tengchongensis strain S5 Q877H2 Q877H2 3.7 X-RAY DIFFRACTION 41 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 505 505 3ko1-a1-m1-cA_3ko1-a1-m2-cC 3ko1-a1-m1-cB_3ko1-a1-m2-cB 3ko1-a1-m1-cC_3ko1-a1-m2-cA 3ko1-a1-m1-cD_3ko1-a1-m2-cI 3ko1-a1-m1-cF_3ko1-a1-m2-cG 3ko1-a1-m1-cG_3ko1-a1-m2-cF 3ko1-a1-m1-cH_3ko1-a1-m2-cE 3ko1-a1-m1-cI_3ko1-a1-m2-cD GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA 3ko1-a1-m2-cH_3ko1-a1-m2-cI Cystal structure of thermosome from Acidianus tengchongensis strain S5 Q877H2 Q877H2 3.7 X-RAY DIFFRACTION 50 1.0 146920 (Acidianus tengchongensis) 146920 (Acidianus tengchongensis) 505 505 3j1e-a1-m1-cA_3j1e-a1-m1-cB 3j1e-a1-m1-cA_3j1e-a1-m1-cI 3j1e-a1-m1-cB_3j1e-a1-m1-cC 3j1e-a1-m1-cC_3j1e-a1-m1-cD 3j1e-a1-m1-cD_3j1e-a1-m1-cE 3j1e-a1-m1-cE_3j1e-a1-m1-cF 3j1e-a1-m1-cF_3j1e-a1-m1-cG 3j1e-a1-m1-cG_3j1e-a1-m1-cH 3j1e-a1-m1-cH_3j1e-a1-m1-cI 3j1e-a1-m1-cK_3j1e-a1-m1-cL 3j1e-a1-m1-cK_3j1e-a1-m1-cS 3j1e-a1-m1-cL_3j1e-a1-m1-cM 3j1e-a1-m1-cM_3j1e-a1-m1-cN 3j1e-a1-m1-cN_3j1e-a1-m1-cO 3j1e-a1-m1-cO_3j1e-a1-m1-cP 3j1e-a1-m1-cP_3j1e-a1-m1-cQ 3j1e-a1-m1-cQ_3j1e-a1-m1-cR 3j1e-a1-m1-cR_3j1e-a1-m1-cS 3j1f-a1-m1-cA_3j1f-a1-m1-cB 3j1f-a1-m1-cA_3j1f-a1-m1-cI 3j1f-a1-m1-cB_3j1f-a1-m1-cC 3j1f-a1-m1-cC_3j1f-a1-m1-cD 3j1f-a1-m1-cD_3j1f-a1-m1-cE 3j1f-a1-m1-cE_3j1f-a1-m1-cF 3j1f-a1-m1-cF_3j1f-a1-m1-cG 3j1f-a1-m1-cG_3j1f-a1-m1-cH 3j1f-a1-m1-cH_3j1f-a1-m1-cI 3j1f-a1-m1-cK_3j1f-a1-m1-cL 3j1f-a1-m1-cK_3j1f-a1-m1-cS 3j1f-a1-m1-cL_3j1f-a1-m1-cM 3j1f-a1-m1-cM_3j1f-a1-m1-cN 3j1f-a1-m1-cN_3j1f-a1-m1-cO 3j1f-a1-m1-cO_3j1f-a1-m1-cP 3j1f-a1-m1-cP_3j1f-a1-m1-cQ 3j1f-a1-m1-cQ_3j1f-a1-m1-cR 3j1f-a1-m1-cR_3j1f-a1-m1-cS 3ko1-a1-m1-cA_3ko1-a1-m1-cB 3ko1-a1-m1-cA_3ko1-a1-m1-cI 3ko1-a1-m1-cB_3ko1-a1-m1-cC 3ko1-a1-m1-cC_3ko1-a1-m1-cD 3ko1-a1-m1-cD_3ko1-a1-m1-cE 3ko1-a1-m1-cE_3ko1-a1-m1-cF 3ko1-a1-m1-cF_3ko1-a1-m1-cG 3ko1-a1-m1-cG_3ko1-a1-m1-cH 3ko1-a1-m1-cH_3ko1-a1-m1-cI 3ko1-a1-m2-cA_3ko1-a1-m2-cB 3ko1-a1-m2-cA_3ko1-a1-m2-cI 3ko1-a1-m2-cB_3ko1-a1-m2-cC 3ko1-a1-m2-cC_3ko1-a1-m2-cD 3ko1-a1-m2-cD_3ko1-a1-m2-cE 3ko1-a1-m2-cE_3ko1-a1-m2-cF 3ko1-a1-m2-cF_3ko1-a1-m2-cG 3ko1-a1-m2-cG_3ko1-a1-m2-cH GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA GKEAVRANIAAVKAVEEALKSTYGPRGMDKMLVDSLGDITITNDGATILDKMDLQHPAAKLLVQIAKGQDEETADGTKTAVIFSGELVKKAEDLLYKDVHPTIIISGYKKAEEVALQTIQELAQTVSINDTDLLRKIAMTSLSSKAVAGAREYIADIVVKAVTQVAELRGDKWYVDLDNIQIVKKAGGSINDTQLVYGIVVDKEVVHPGMPKRLENAKIALIDASLEVEKPELDAEIRINDPTQMQKFLDEEENLIKEKVDKILATGANVIICQKGIDEVAQSYLAKKGVLAVRRAKKSDLEKLARATGGRVVSNIDEISEQDLGYASLIEERKVGEDKMVFVEGAKNPKSISILIRGGLERLVDETERALRDALGTVADVIKDGRAIAGGGAVEIEIAKKLRKYAPQVGGKEQLAVEAYANALESLVSILIENAGFDPIDLLMKLRSTHENENNKWYGIDLYAGQPVDMWQKGVIEPALVKMNAIKAATEAATLVLRIDDVVSA 3ko8-a1-m1-cA_3ko8-a1-m2-cA Crystal Structure of UDP-galactose 4-epimerase A3MUJ4 A3MUJ4 1.8 X-RAY DIFFRACTION 72 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 297 297 3aw9-a1-m1-cA_3aw9-a1-m2-cA 3aw9-a2-m1-cC_3aw9-a2-m1-cB 3icp-a1-m1-cA_3icp-a1-m2-cA MRIVVTGGAGFIGSHLVDKLVELGYEVVVVDNLSSGRREFVNPSAELHVRDLKDYSWGAGIKGDVVFHFAANPEVRLSTTEPIVHFNENVVATFNVLEWARQTGVRTVVFASSSTVYGDADVIPTPEEEPYKPISVYGAAKAAGEVMCATYARLFGVRCLAVRYANVVGPRLRHGVIYDFIMKLRRNPNVLEVLQRKSYLYVRDAVEATLAAWKKFEEMDAPFLALNVGNVDAVRVLDIAQIVAEVLGLRPEIRLVGDVKYMTLAVTKLMKLTGWRPTMTSAEAVKKTAEDLAKELW MRIVVTGGAGFIGSHLVDKLVELGYEVVVVDNLSSGRREFVNPSAELHVRDLKDYSWGAGIKGDVVFHFAANPEVRLSTTEPIVHFNENVVATFNVLEWARQTGVRTVVFASSSTVYGDADVIPTPEEEPYKPISVYGAAKAAGEVMCATYARLFGVRCLAVRYANVVGPRLRHGVIYDFIMKLRRNPNVLEVLQRKSYLYVRDAVEATLAAWKKFEEMDAPFLALNVGNVDAVRVLDIAQIVAEVLGLRPEIRLVGDVKYMTLAVTKLMKLTGWRPTMTSAEAVKKTAEDLAKELW 3kol-a1-m1-cA_3kol-a1-m2-cA Crystal structure of a glyoxalase/dioxygenase from Nostoc punctiforme B2IY64 B2IY64 1.9 X-RAY DIFFRACTION 250 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 144 144 SVNSVLAPGNLRKVHHIALNVQDQASRYFYGTILGLHELTDDEVPATLTELVASGKVANFITPDGTILDLFGEPELSPPDPNPEKTFTRAYHLAFDIDPQLFDRAVTVIGENKIAIAHGPVTRTGRGVYFYDPDGFIEIRCDPE SVNSVLAPGNLRKVHHIALNVQDQASRYFYGTILGLHELTDDEVPATLTELVASGKVANFITPDGTILDLFGEPELSPPDPNPEKTFTRAYHLAFDIDPQLFDRAVTVIGENKIAIAHGPVTRTGRGVYFYDPDGFIEIRCDPE 3kom-a1-m1-cB_3kom-a1-m1-cA Crystal structure of apo transketolase from Francisella tularensis Q5NF74 Q5NF74 1.6 X-RAY DIFFRACTION 251 0.998 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 627 633 SIPREFSNAIRFLSIDATLKAKSGHPGPGADIATVLWTKFLKHNPNNPHWINRDRFVLSNGHGSLLYSLLHLTGYDLSIEDIKNFRQLHSKTPGHPEYGYTPGVETTTGPLGQGVANAVGALGEKLLSDRYNTPDLKVIDHHTYVFLGDGLEGVSHEACSLAGTLGLNKLVAFWDDNNTKGWFSDNTPERFRAYGWHVIENVDGHDFVAIEKAINEAHSQQQKPTLICCKTVIGFGSPEKAGGSPLSDQERASAAKELNWDYQAFEIPQDVYKYWDAREKGQALEANWQGQRNLFKDSPKFDEFERVLSKELPVGLESAINDYIASQLSNPVKVATRKASQVLEVLCKNPEFGGSADLTSNNTNWSGSVWLNNTQEGANYLSYGVREFGAAINGLSLYGGIKPYGGTFLVFSDYSRNAIRSALKQPVVHVSHDSIGLGEDGPTHQPIEHVPSLRLIPNLSVWRPADTIETIAWKEAVKSKDTPSVVLTRQNLPVVQTQHQVANIARGGYLVKDNPDAKLTIVATGSEVELAVKVANEFEKKGIKLNVASIPCVEVFATQAHEYKKTVIKDDIPAVFVEAQPDWYKYPKAGGEVKGIYSFGESAPAEDLFKRFGFTVENISNIVAKYV LSIPREFSNAIRFLSIDATLKAKSGHPGPGADIATVLWTKFLKHNPNNPHWINRDRFVLSNGHGSLLYSLLHLTGYDLSIEDIKNFRQLHSKTPGHPEYGYTPGVETTTGPLGQGVANAVGALGEKLLSDRYNTPDLKVIDHHTYVFLGDGLEGVSHEACSLAGTLGLNKLVAFWDDNNDTKGWFSDNTPERFRAYGWHVIENVDGHDFVAIEKAINEAHSQQQKPTLICCKTVIGFGSPEKAGTASVHGSPLSDQERASAAKELNWDYQAFEIPQDVYKYWDAREKGQALEANWQGQRNLFKDSPKFDEFERVLSKELPVGLESAINDYIASQLSNPVKVATRKASQVLEVLCKNPEFGGSADLSNNTNWSGSVWLNNTQEGANYLSYGVREFGAAINGLSLYGGIKPYGGTFLVFSDYSRNAIRSALKQPVVHVSHDSIGLGEDGPTHQPIEHVPSLRLIPNLSVWRPADTIETIAWKEAVKSKDTPSVVLTRQNLPVVQTQHQVANIARGGYLVKDNPDAKLTIVATGSEVELAVKVANEFEKKGIKLNVASIPCVEVFATQAHEYKKTVIKDDIPAVFVEAQPDWYKYPKAGGEVKGIYSFGESAPAEDLFKRFGFTVENISNIVAKYV 3kop-a1-m1-cB_3kop-a1-m1-cD Crystal structure of Protein with a cyclophilin-like fold (YP_831253.1) from Arthrobacter sp. FB24 at 1.90 A resolution A0JVT3 A0JVT3 1.9 X-RAY DIFFRACTION 26 0.987 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 153 155 3kop-a1-m1-cA_3kop-a1-m1-cE 3kop-a1-m1-cB_3kop-a1-m1-cC 3kop-a1-m1-cD_3kop-a1-m1-cC ARYINITLEKRGVTCKALLLDDVAPRTSKAVWDALPQSSQVFHGKYARNEIYNLVPAFAPKEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHVQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEAAACQDIWGGARDETLTFSRAE GARYINITLEKRGVTCKALLLDDVAPRTSKAVWDALPQSSQVFHGKYARNEIYNLVPAFAPKEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHGYEQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEAAACQDIWGGARDETLTFSRA 3kop-a1-m1-cB_3kop-a1-m1-cE Crystal structure of Protein with a cyclophilin-like fold (YP_831253.1) from Arthrobacter sp. FB24 at 1.90 A resolution A0JVT3 A0JVT3 1.9 X-RAY DIFFRACTION 22 1.0 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 153 162 3kop-a1-m1-cA_3kop-a1-m1-cD ARYINITLEKRGVTCKALLLDDVAPRTSKAVWDALPQSSQVFHGKYARNEIYNLVPAFAPKEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHVQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEAAACQDIWGGARDETLTFSRAE NLYFQGARYINITLEKRGVTCKALLLDDVAPRTSKAVWDALPQSSQVFHGKYARNEIYNLVPAFAPKEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHGYEVQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEAAACQDIWGGARDETLTFSRAE 3kop-a1-m1-cC_3kop-a1-m1-cE Crystal structure of Protein with a cyclophilin-like fold (YP_831253.1) from Arthrobacter sp. FB24 at 1.90 A resolution A0JVT3 A0JVT3 1.9 X-RAY DIFFRACTION 82 0.994 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 162 162 3kop-a1-m1-cB_3kop-a1-m1-cA ENLYFQGARYINITLEKRGVTCKALLLDDVAPRTSKAVWDALPQSSQVFHGKYARNEIYNLVPAFAPKEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHGYEQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEAAACQDIWGGARDETLTFSRAE NLYFQGARYINITLEKRGVTCKALLLDDVAPRTSKAVWDALPQSSQVFHGKYARNEIYNLVPAFAPKEPGAENTTVTPIPGDVCYFTFTSNDLKTPSHGYEVQTIVDLAVFYGRNNLLLNGDTGWVPGNVFATIVEGLDEAAACQDIWGGARDETLTFSRAE 3kor-a2-m1-cC_3kor-a2-m1-cB Crystal structure of a putative Trp repressor from Staphylococcus aureus 1.6 X-RAY DIFFRACTION 147 1.0 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 96 97 3kor-a1-m1-cA_3kor-a1-m1-cD GSQIEKLRGAALDELFDAILTLENREECYQFFDDLCTVNEIQSLSQRLQVAKIKQGYTYATIEQESGASTATISRVKRSLQWGNDAYTILDRNIET GSQIEKLRGAALDELFDAILTLENREECYQFFDDLCTVNEIQSLSQRLQVAKIKQGYTYATIEQESGASTATISRVKRSLQWGNDAYTILDRNIETN 3kox-a2-m1-cB_3kox-a2-m1-cD Crystal Structure of ornithine 4,5 aminomutase in complex with 2,4-diaminobutyrate (Anaerobic) E3PY95 E3PY95 2.4 X-RAY DIFFRACTION 442 1.0 1511 (Acetoanaerobium sticklandii) 1511 (Acetoanaerobium sticklandii) 728 728 3kow-a5-m1-cA_3kow-a5-m1-cC 3kow-a6-m1-cD_3kow-a6-m1-cB 3kox-a1-m1-cA_3kox-a1-m1-cC 3koy-a5-m1-cA_3koy-a5-m1-cC 3koy-a6-m1-cB_3koy-a6-m1-cD 3koz-a5-m1-cA_3koz-a5-m1-cC 3koz-a6-m1-cB_3koz-a6-m1-cD 3kp0-a5-m1-cA_3kp0-a5-m1-cC 3kp0-a6-m1-cD_3kp0-a6-m1-cB 3kp1-a1-m1-cA_3kp1-a1-m1-cC 3kp1-a2-m1-cB_3kp1-a2-m1-cD LQLRVNEKLDVENILKDLDKYTPKRRGWTWRQPAENLQMGPFIYKDASTPLENSVALPSAKYFGDIDPQPLPVITTEIASGRFEDDIRRMRMAAWHGADHIMVIRTAGQSHYDGLIEGTPQGIGGVPITRKQVRAQRKALDLIEEEVGRPINYHSYVSGVAGPDIAVMFAEEGVNGAHQDPQYNVLYRNINMIRSFIDACESKTIMAWADMAQIDGAHNANATAREAWKVMPELMVQHALNSIFSLKVGMKKSNICLSTVPPTAPPAPSMYLDLPYAVALREMFEGYRMRAQMNTKYMEASTREATVTHVLNLLISKLTRADIQSTITPDEGRNVPWHIYNIEACDTAKQALIGMDGLMDMVQLKREGVLGDTVRELKERAVLFMEEIIEAGGYFNAVEQGFFVDSGYYPERNGDGIARQINGGIGAGTVFERDEDYMAPVTAHFGYNNVKQYDEALVSEPSKLIDGCTLEVPEKIVYIDELDENDNVNVRMEETKEFRSMIKPEVEWQADGTVLLTMFLPTSKRVAEFAAIEFAKKMNLEEVEVINREVMQEAEGTRIELKGRVPFSIDINSLVIPPILSEDEIREDIEKTPLKIVAATVGEDEHSVGLREVIDIKHGGIEKYGVEVHYLGTSVPVEKLVDAAIELKADAILASTIISHDDIHYKNMKRIHELAVEKGIRDKIMIGCGGTQVTPEVAVKQGVDAGFGRGSKGIHVATFLVKKRREMR LQLRVNEKLDVENILKDLDKYTPKRRGWTWRQPAENLQMGPFIYKDASTPLENSVALPSAKYFGDIDPQPLPVITTEIASGRFEDDIRRMRMAAWHGADHIMVIRTAGQSHYDGLIEGTPQGIGGVPITRKQVRAQRKALDLIEEEVGRPINYHSYVSGVAGPDIAVMFAEEGVNGAHQDPQYNVLYRNINMIRSFIDACESKTIMAWADMAQIDGAHNANATAREAWKVMPELMVQHALNSIFSLKVGMKKSNICLSTVPPTAPPAPSMYLDLPYAVALREMFEGYRMRAQMNTKYMEASTREATVTHVLNLLISKLTRADIQSTITPDEGRNVPWHIYNIEACDTAKQALIGMDGLMDMVQLKREGVLGDTVRELKERAVLFMEEIIEAGGYFNAVEQGFFVDSGYYPERNGDGIARQINGGIGAGTVFERDEDYMAPVTAHFGYNNVKQYDEALVSEPSKLIDGCTLEVPEKIVYIDELDENDNVNVRMEETKEFRSMIKPEVEWQADGTVLLTMFLPTSKRVAEFAAIEFAKKMNLEEVEVINREVMQEAEGTRIELKGRVPFSIDINSLVIPPILSEDEIREDIEKTPLKIVAATVGEDEHSVGLREVIDIKHGGIEKYGVEVHYLGTSVPVEKLVDAAIELKADAILASTIISHDDIHYKNMKRIHELAVEKGIRDKIMIGCGGTQVTPEVAVKQGVDAGFGRGSKGIHVATFLVKKRREMR 3kpb-a2-m1-cC_3kpb-a2-m1-cD Crystal Structure of the CBS domain pair of protein MJ0100 in complex with 5 -methylthioadenosine and S-adenosyl-L-methionine. Q57564 Q57564 1.6 X-RAY DIFFRACTION 52 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 119 119 3kpb-a1-m1-cA_3kpb-a1-m1-cB TLVKDILSKPPITAHSNISIMEAAKILIKHNINHLPIVDEHGKLVGIITSWDIAKALAQNKKTIEEIMTRNVITAHEDEPVDHVAIKMSKYNISGVPVVDDYRRVVGIVTSEDISRLFG TLVKDILSKPPITAHSNISIMEAAKILIKHNINHLPIVDEHGKLVGIITSWDIAKALAQNKKTIEEIMTRNVITAHEDEPVDHVAIKMSKYNISGVPVVDDYRRVVGIVTSEDISRLFG 3kpc-a1-m1-cA_3kpc-a1-m2-cA Crystal Structure of the CBS domain pair of protein MJ0100 in complex with 5 -methylthioadenosine and S-adenosyl-L-methionine Q57564 Q57564 1.79 X-RAY DIFFRACTION 132 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 124 124 3kpd-a1-m1-cA_3kpd-a1-m2-cA 3kpd-a2-m1-cC_3kpd-a2-m1-cB 3kpd-a3-m1-cD_3kpd-a3-m3-cD PITLVKDILSKPPITAHSNISIMEAAKILIKHNINHLPIVDEHGKLVGIITSWDIAKALAQNKKTIEEIMTRNVITAHEDEPVDHVAIKMSKYNISGVPVVDDYRRVVGIVTSEDISRLFGGKK PITLVKDILSKPPITAHSNISIMEAAKILIKHNINHLPIVDEHGKLVGIITSWDIAKALAQNKKTIEEIMTRNVITAHEDEPVDHVAIKMSKYNISGVPVVDDYRRVVGIVTSEDISRLFGGKK 3kph-a1-m1-cB_3kph-a1-m1-cA Crystal structure of Mycoplasma arthritidis-derived mitogen Q48898 Q48898 2.8 X-RAY DIFFRACTION 180 1.0 2111 (Metamycoplasma arthritidis) 2111 (Metamycoplasma arthritidis) 194 196 LNNVVFTNKELEDIYNLSNKEETKEVLKLFKLKVNQFYRHAFGIVNDYNGLLEYKEIFNMMFLKLSVVFDTQRKEANNVEQIKRNIAILDEIMAKADNDLSYFISQNKNFQELWDKAVKLTKEMKIKLKGQKLDLRDGEVAINKVRELFGSDKNVKELWWFRSLLVKGVYLIKRYYEGDIELATTSDFAKAVFE QNLNNVVFTNKELEDIYNLSNKEETKEVLKLFKLKVNQFYRHAFGIVNDYNGLLEYKEIFNMMFLKLSVVFDTQRKEANNVEQIKRNIAILDEIMAKADNDLSYFISQNKNFQELWDKAVKLTKEMKIKLKGQKLDLRDGEVAINKVRELFGSDKNVKELWWFRSLLVKGVYLIKRYYEGDIELATTSDFAKAVFE 3kq5-a1-m1-cA_3kq5-a1-m2-cA Crystal structure of an uncharacterized protein from Coxiella burnetii Q83DY0 Q83DY0 2 X-RAY DIFFRACTION 76 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 360 360 NQFYKPGMLVPVFSAAGLLKNGRYQFLLQQIETLSLLPTEQYAQLYEALVYRFVEFVQVLPIRLDEPLCSLMNEGLLRGVNSLNHYIQNHPEATPLERYALFSAGLLLEVAHAVVNQKIFITDEEGNFIKQWNPFSGPLIDDVETKHYKIMPLSSYYQRNIPSITPILVRQLLPDEGFLWLTSDMRVFSDWMQALRDDGRFEHVLQLFKHKNIDGLFNTLPALPVNLQDSPATAHADAFLNWLKEALATNQIKVNTSDAGVHVIPEGVFLEKTGIFKQYIDLHVNVPVNLFTVYQQFGNLFGLTKLSGIDYRFEQLFDALKRKSKMGFAGLSPTREGVLIADPNLIFTRGEIPSATYLKL NQFYKPGMLVPVFSAAGLLKNGRYQFLLQQIETLSLLPTEQYAQLYEALVYRFVEFVQVLPIRLDEPLCSLMNEGLLRGVNSLNHYIQNHPEATPLERYALFSAGLLLEVAHAVVNQKIFITDEEGNFIKQWNPFSGPLIDDVETKHYKIMPLSSYYQRNIPSITPILVRQLLPDEGFLWLTSDMRVFSDWMQALRDDGRFEHVLQLFKHKNIDGLFNTLPALPVNLQDSPATAHADAFLNWLKEALATNQIKVNTSDAGVHVIPEGVFLEKTGIFKQYIDLHVNVPVNLFTVYQQFGNLFGLTKLSGIDYRFEQLFDALKRKSKMGFAGLSPTREGVLIADPNLIFTRGEIPSATYLKL 3kqf-a2-m1-cE_3kqf-a2-m1-cF 1.8 Angstrom Resolution Crystal Structure of Enoyl-CoA Hydratase from Bacillus anthracis. A0A6L8PDF4 A0A6L8PDF4 1.8 X-RAY DIFFRACTION 131 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 253 253 3kqf-a1-m1-cA_3kqf-a1-m1-cC 3kqf-a1-m1-cB_3kqf-a1-m1-cA 3kqf-a1-m1-cB_3kqf-a1-m1-cC 3kqf-a2-m1-cD_3kqf-a2-m1-cE 3kqf-a2-m1-cD_3kqf-a2-m1-cF LQNISVDYATPHVVKISLNRERQANSLSLALLEELQNILTQINEEANTRVVILTGAGEKAFCAGADLKERAGNEEQVRHAVSIRTTEVEQLPQPVIAAINGIALGGGTELSLACDFRIAAESASLGLTETTLAIIPGAGGTQRLPRLIGVGRAKELIYTGRRISAQEAKEYGLVEFVVPVHLLEEKAIEIAEKIASNGPIAVRLAKEAISNGIQVDLHTGLQEKQAYEGVIHTKDRLEGLQAFKEKRTPYKGE LQNISVDYATPHVVKISLNRERQANSLSLALLEELQNILTQINEEANTRVVILTGAGEKAFCAGADLKERAGNEEQVRHAVSIRTTEVEQLPQPVIAAINGIALGGGTELSLACDFRIAAESASLGLTETTLAIIPGAGGTQRLPRLIGVGRAKELIYTGRRISAQEAKEYGLVEFVVPVHLLEEKAIEIAEKIASNGPIAVRLAKEAISNGIQVDLHTGLQEKQAYEGVIHTKDRLEGLQAFKEKRTPYKGE 3kqi-a2-m1-cA_3kqi-a2-m2-cA crystal structure of PHF2 PHD domain complexed with H3K4Me3 peptide O75151 O75151 1.78 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 GSMATVPVYCVCRLPYDVTRFMIECDACKDWFHGSCVGVEEEEAPDIDIYHCPNCEKTHGKSTLKKKRTWH GSMATVPVYCVCRLPYDVTRFMIECDACKDWFHGSCVGVEEEEAPDIDIYHCPNCEKTHGKSTLKKKRTWH 3kqu-a2-m1-cD_3kqu-a2-m1-cF Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism Q9WMX2 Q9WMX2 2.4 X-RAY DIFFRACTION 17 1.0 333284 (Hepatitis C virus (isolate Con1)) 333284 (Hepatitis C virus (isolate Con1)) 437 437 3kqu-a1-m1-cA_3kqu-a1-m1-cC SPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGAPITYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSSTGEIPFYGKAIPIETIKGGRHLIFCHSKKKCDELAAKLSGLGLNAVAYYRGLDVSVIPTSGDVIVVATDALMTGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRMGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTTTHPITKYIMACMSA SPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGAPITYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSSTGEIPFYGKAIPIETIKGGRHLIFCHSKKKCDELAAKLSGLGLNAVAYYRGLDVSVIPTSGDVIVVATDALMTGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRMGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTTTHPITKYIMACMSA 3kqu-a2-m1-cE_3kqu-a2-m1-cF Three Conformational Snapshots of the Hepatitis C Virus NS3 Helicase Reveal a Ratchet Translocation Mechanism Q9WMX2 Q9WMX2 2.4 X-RAY DIFFRACTION 40 1.0 333284 (Hepatitis C virus (isolate Con1)) 333284 (Hepatitis C virus (isolate Con1)) 437 437 3kqu-a1-m1-cA_3kqu-a1-m1-cB 3kqu-a1-m1-cB_3kqu-a1-m1-cC 3kqu-a2-m1-cD_3kqu-a2-m1-cE SPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGAPITYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSSTGEIPFYGKAIPIETIKGGRHLIFCHSKKKCDELAAKLSGLGLNAVAYYRGLDVSVIPTSGDVIVVATDALMTGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRMGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTTTHPITKYIMACMSA SPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGIDPNIRTGVRTITTGAPITYSTYGKFLADGGCSGGAYDIIICDECHSTDSTTILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSSTGEIPFYGKAIPIETIKGGRHLIFCHSKKKCDELAAKLSGLGLNAVAYYRGLDVSVIPTSGDVIVVATDALMTGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTVPQDAVSRSQRRGRTGRGRMGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTTTHPITKYIMACMSA 3krb-a1-m1-cA_3krb-a1-m1-cB Structure of Aldose Reductase from Giardia Lamblia at 1.75A Resolution A8BGX6 A8BGX6 1.75 X-RAY DIFFRACTION 41 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 307 307 SMQYPPRLGFGTWQAPPEAVQTAVETALMTGYRHIDCAYVYQNEEAIGRAFGKIFKDASSGIKREDVWITSKLWNYNHRPELVREQCKKTMSDLQVDYLDLFLVHWPLAFVRNDVGDLFPKDAEGRAMLEKVPLADTWRAMEQLVEEGLVKHIGVSNYTVPLLADLLNYAKIKPLVNQIEIHPWHPNDATVKFCLDNGIGVTAYSPMGGSYATQKNVILECKTLKAIADAKGTSPHCVALAWHVKKWNTSMYSVIPKSQTPARIEANFKCTEVQLSDDDMDAINNIHLNKRIRFCDPAIFWKVPLFD SMQYPPRLGFGTWQAPPEAVQTAVETALMTGYRHIDCAYVYQNEEAIGRAFGKIFKDASSGIKREDVWITSKLWNYNHRPELVREQCKKTMSDLQVDYLDLFLVHWPLAFVRNDVGDLFPKDAEGRAMLEKVPLADTWRAMEQLVEEGLVKHIGVSNYTVPLLADLLNYAKIKPLVNQIEIHPWHPNDATVKFCLDNGIGVTAYSPMGGSYATQKNVILECKTLKAIADAKGTSPHCVALAWHVKKWNTSMYSVIPKSQTPARIEANFKCTEVQLSDDDMDAINNIHLNKRIRFCDPAIFWKVPLFD 3krb-a2-m1-cA_3krb-a2-m2-cB Structure of Aldose Reductase from Giardia Lamblia at 1.75A Resolution A8BGX6 A8BGX6 1.75 X-RAY DIFFRACTION 72 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 307 307 SMQYPPRLGFGTWQAPPEAVQTAVETALMTGYRHIDCAYVYQNEEAIGRAFGKIFKDASSGIKREDVWITSKLWNYNHRPELVREQCKKTMSDLQVDYLDLFLVHWPLAFVRNDVGDLFPKDAEGRAMLEKVPLADTWRAMEQLVEEGLVKHIGVSNYTVPLLADLLNYAKIKPLVNQIEIHPWHPNDATVKFCLDNGIGVTAYSPMGGSYATQKNVILECKTLKAIADAKGTSPHCVALAWHVKKWNTSMYSVIPKSQTPARIEANFKCTEVQLSDDDMDAINNIHLNKRIRFCDPAIFWKVPLFD SMQYPPRLGFGTWQAPPEAVQTAVETALMTGYRHIDCAYVYQNEEAIGRAFGKIFKDASSGIKREDVWITSKLWNYNHRPELVREQCKKTMSDLQVDYLDLFLVHWPLAFVRNDVGDLFPKDAEGRAMLEKVPLADTWRAMEQLVEEGLVKHIGVSNYTVPLLADLLNYAKIKPLVNQIEIHPWHPNDATVKFCLDNGIGVTAYSPMGGSYATQKNVILECKTLKAIADAKGTSPHCVALAWHVKKWNTSMYSVIPKSQTPARIEANFKCTEVQLSDDDMDAINNIHLNKRIRFCDPAIFWKVPLFD 3krd-a1-m1-cC_3krd-a1-m1-cJ Crystal Structure of Mycobacterium Tuberculosis Proteasome in complex with Fellutamide B P9WHT9 P9WHT9 2.5 X-RAY DIFFRACTION 23 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 222 222 2fhg-a1-m1-c2_2fhg-a1-m1-cT 2fhg-a1-m1-c2_2fhg-a1-m1-cV 2fhg-a1-m1-cC_2fhg-a1-m1-cH 2fhg-a1-m1-cC_2fhg-a1-m1-cJ 2fhg-a1-m1-cE_2fhg-a1-m1-cL 2fhg-a1-m1-cE_2fhg-a1-m1-cR 2fhg-a1-m1-cG_2fhg-a1-m1-cN 2fhg-a1-m1-cG_2fhg-a1-m1-cX 2fhg-a1-m1-cH_2fhg-a1-m1-cP 2fhg-a1-m1-cJ_2fhg-a1-m1-cT 2fhg-a1-m1-cL_2fhg-a1-m1-cN 2fhg-a1-m1-cP_2fhg-a1-m1-cV 2fhg-a1-m1-cR_2fhg-a1-m1-cZ 2fhg-a1-m1-cX_2fhg-a1-m1-cZ 2fhh-a1-m1-c2_2fhh-a1-m1-cT 2fhh-a1-m1-c2_2fhh-a1-m1-cV 2fhh-a1-m1-cC_2fhh-a1-m1-cH 2fhh-a1-m1-cC_2fhh-a1-m1-cJ 2fhh-a1-m1-cE_2fhh-a1-m1-cL 2fhh-a1-m1-cE_2fhh-a1-m1-cR 2fhh-a1-m1-cG_2fhh-a1-m1-cN 2fhh-a1-m1-cG_2fhh-a1-m1-cX 2fhh-a1-m1-cH_2fhh-a1-m1-cP 2fhh-a1-m1-cJ_2fhh-a1-m1-cT 2fhh-a1-m1-cL_2fhh-a1-m1-cN 2fhh-a1-m1-cP_2fhh-a1-m1-cV 2fhh-a1-m1-cR_2fhh-a1-m1-cZ 2fhh-a1-m1-cX_2fhh-a1-m1-cZ 3h6f-a1-m1-c2_3h6f-a1-m1-cT 3h6f-a1-m1-c2_3h6f-a1-m1-cV 3h6f-a1-m1-cC_3h6f-a1-m1-cJ 3h6f-a1-m1-cE_3h6f-a1-m1-cL 3h6f-a1-m1-cE_3h6f-a1-m1-cR 3h6f-a1-m1-cG_3h6f-a1-m1-cX 3h6f-a1-m1-cH_3h6f-a1-m1-cC 3h6f-a1-m1-cH_3h6f-a1-m1-cP 3h6f-a1-m1-cJ_3h6f-a1-m1-cT 3h6f-a1-m1-cN_3h6f-a1-m1-cG 3h6f-a1-m1-cN_3h6f-a1-m1-cL 3h6f-a1-m1-cP_3h6f-a1-m1-cV 3h6f-a1-m1-cZ_3h6f-a1-m1-cR 3h6f-a1-m1-cZ_3h6f-a1-m1-cX 3h6i-a1-m1-c2_3h6i-a1-m1-cT 3h6i-a1-m1-c2_3h6i-a1-m1-cV 3h6i-a1-m1-cC_3h6i-a1-m1-cJ 3h6i-a1-m1-cE_3h6i-a1-m1-cL 3h6i-a1-m1-cE_3h6i-a1-m1-cR 3h6i-a1-m1-cG_3h6i-a1-m1-cX 3h6i-a1-m1-cH_3h6i-a1-m1-cC 3h6i-a1-m1-cH_3h6i-a1-m1-cP 3h6i-a1-m1-cJ_3h6i-a1-m1-cT 3h6i-a1-m1-cN_3h6i-a1-m1-cG 3h6i-a1-m1-cN_3h6i-a1-m1-cL 3h6i-a1-m1-cP_3h6i-a1-m1-cV 3h6i-a1-m1-cZ_3h6i-a1-m1-cR 3h6i-a1-m1-cZ_3h6i-a1-m1-cX 3hf9-a1-m1-c2_3hf9-a1-m1-cT 3hf9-a1-m1-c2_3hf9-a1-m1-cV 3hf9-a1-m1-cC_3hf9-a1-m1-cH 3hf9-a1-m1-cC_3hf9-a1-m1-cJ 3hf9-a1-m1-cE_3hf9-a1-m1-cL 3hf9-a1-m1-cE_3hf9-a1-m1-cR 3hf9-a1-m1-cG_3hf9-a1-m1-cN 3hf9-a1-m1-cG_3hf9-a1-m1-cX 3hf9-a1-m1-cH_3hf9-a1-m1-cP 3hf9-a1-m1-cJ_3hf9-a1-m1-cT 3hf9-a1-m1-cL_3hf9-a1-m1-cN 3hf9-a1-m1-cP_3hf9-a1-m1-cV 3hf9-a1-m1-cR_3hf9-a1-m1-cZ 3hf9-a1-m1-cX_3hf9-a1-m1-cZ 3hf9-a2-m1-c4_3hf9-a2-m1-ct 3hf9-a2-m1-c4_3hf9-a2-m1-cv 3hf9-a2-m1-cc_3hf9-a2-m1-cj 3hf9-a2-m1-ce_3hf9-a2-m1-cl 3hf9-a2-m1-ce_3hf9-a2-m1-cr 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6wnk-a1-m1-cZ_6wnk-a1-m1-cY 7pxa-a1-m1-ca_7pxa-a1-m1-cU 7pxa-a1-m1-cb_7pxa-a1-m1-cW 7pxa-a1-m1-cH_7pxa-a1-m1-cM 7pxa-a1-m1-cH_7pxa-a1-m1-cN 7pxa-a1-m1-cJ_7pxa-a1-m1-cP 7pxa-a1-m1-cJ_7pxa-a1-m1-cU 7pxa-a1-m1-cL_7pxa-a1-m1-cR 7pxa-a1-m1-cL_7pxa-a1-m1-cY 7pxa-a1-m1-cM_7pxa-a1-m1-cS 7pxa-a1-m1-cN_7pxa-a1-m1-cV 7pxa-a1-m1-cR_7pxa-a1-m1-cP 7pxa-a1-m1-cS_7pxa-a1-m1-cW 7pxa-a1-m1-cV_7pxa-a1-m1-cb 7pxa-a1-m1-cY_7pxa-a1-m1-ca 7pxc-a1-m1-ca_7pxc-a1-m1-cU 7pxc-a1-m1-cb_7pxc-a1-m1-cW 7pxc-a1-m1-cH_7pxc-a1-m1-cM 7pxc-a1-m1-cH_7pxc-a1-m1-cN 7pxc-a1-m1-cJ_7pxc-a1-m1-cP 7pxc-a1-m1-cJ_7pxc-a1-m1-cU 7pxc-a1-m1-cL_7pxc-a1-m1-cR 7pxc-a1-m1-cL_7pxc-a1-m1-cY 7pxc-a1-m1-cM_7pxc-a1-m1-cS 7pxc-a1-m1-cN_7pxc-a1-m1-cV 7pxc-a1-m1-cR_7pxc-a1-m1-cP 7pxc-a1-m1-cS_7pxc-a1-m1-cW 7pxc-a1-m1-cV_7pxc-a1-m1-cb 7pxc-a1-m1-cY_7pxc-a1-m1-ca 7pxd-a1-m1-ca_7pxd-a1-m1-cU 7pxd-a1-m1-cb_7pxd-a1-m1-cW 7pxd-a1-m1-cH_7pxd-a1-m1-cM 7pxd-a1-m1-cH_7pxd-a1-m1-cN 7pxd-a1-m1-cJ_7pxd-a1-m1-cP 7pxd-a1-m1-cJ_7pxd-a1-m1-cU 7pxd-a1-m1-cL_7pxd-a1-m1-cR 7pxd-a1-m1-cL_7pxd-a1-m1-cY 7pxd-a1-m1-cM_7pxd-a1-m1-cS 7pxd-a1-m1-cN_7pxd-a1-m1-cV 7pxd-a1-m1-cR_7pxd-a1-m1-cP 7pxd-a1-m1-cS_7pxd-a1-m1-cW 7pxd-a1-m1-cV_7pxd-a1-m1-cb 7pxd-a1-m1-cY_7pxd-a1-m1-ca 8d6v-a1-m1-ca_8d6v-a1-m1-cb 8d6v-a1-m1-cb_8d6v-a1-m1-cc 8d6v-a1-m1-cP_8d6v-a1-m1-cQ 8d6v-a1-m1-cP_8d6v-a1-m1-cV 8d6v-a1-m1-cQ_8d6v-a1-m1-cR 8d6v-a1-m1-cR_8d6v-a1-m1-cS 8d6v-a1-m1-cS_8d6v-a1-m1-cT 8d6v-a1-m1-cT_8d6v-a1-m1-cU 8d6v-a1-m1-cU_8d6v-a1-m1-cV 8d6v-a1-m1-cW_8d6v-a1-m1-cc 8d6v-a1-m1-cW_8d6v-a1-m1-cX 8d6v-a1-m1-cX_8d6v-a1-m1-cY 8d6v-a1-m1-cY_8d6v-a1-m1-cZ 8d6v-a1-m1-cZ_8d6v-a1-m1-ca 8d6w-a1-m1-ca_8d6w-a1-m1-cb 8d6w-a1-m1-cb_8d6w-a1-m1-cc 8d6w-a1-m1-cP_8d6w-a1-m1-cQ 8d6w-a1-m1-cP_8d6w-a1-m1-cV 8d6w-a1-m1-cQ_8d6w-a1-m1-cR 8d6w-a1-m1-cR_8d6w-a1-m1-cS 8d6w-a1-m1-cS_8d6w-a1-m1-cT 8d6w-a1-m1-cT_8d6w-a1-m1-cU 8d6w-a1-m1-cU_8d6w-a1-m1-cV 8d6w-a1-m1-cW_8d6w-a1-m1-cc 8d6w-a1-m1-cW_8d6w-a1-m1-cX 8d6w-a1-m1-cX_8d6w-a1-m1-cY 8d6w-a1-m1-cY_8d6w-a1-m1-cZ 8d6w-a1-m1-cZ_8d6w-a1-m1-ca 8d6x-a1-m1-ca_8d6x-a1-m1-cb 8d6x-a1-m1-cb_8d6x-a1-m1-cc 8d6x-a1-m1-cP_8d6x-a1-m1-cQ 8d6x-a1-m1-cP_8d6x-a1-m1-cV 8d6x-a1-m1-cQ_8d6x-a1-m1-cR 8d6x-a1-m1-cR_8d6x-a1-m1-cS 8d6x-a1-m1-cS_8d6x-a1-m1-cT 8d6x-a1-m1-cT_8d6x-a1-m1-cU 8d6x-a1-m1-cU_8d6x-a1-m1-cV 8d6x-a1-m1-cW_8d6x-a1-m1-cc 8d6x-a1-m1-cW_8d6x-a1-m1-cX 8d6x-a1-m1-cX_8d6x-a1-m1-cY 8d6x-a1-m1-cY_8d6x-a1-m1-cZ 8d6x-a1-m1-cZ_8d6x-a1-m1-ca 8d6y-a1-m1-ca_8d6y-a1-m1-cb 8d6y-a1-m1-cb_8d6y-a1-m1-cc 8d6y-a1-m1-cP_8d6y-a1-m1-cQ 8d6y-a1-m1-cP_8d6y-a1-m1-cV 8d6y-a1-m1-cQ_8d6y-a1-m1-cR 8d6y-a1-m1-cR_8d6y-a1-m1-cS 8d6y-a1-m1-cS_8d6y-a1-m1-cT 8d6y-a1-m1-cT_8d6y-a1-m1-cU 8d6y-a1-m1-cU_8d6y-a1-m1-cV 8d6y-a1-m1-cW_8d6y-a1-m1-cc 8d6y-a1-m1-cW_8d6y-a1-m1-cX 8d6y-a1-m1-cX_8d6y-a1-m1-cY 8d6y-a1-m1-cY_8d6y-a1-m1-cZ 8d6y-a1-m1-cZ_8d6y-a1-m1-ca TTIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARLYAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHASDPQSAGRIVSFDAAGGWNIEEEGYQAVGSGSLFAKSSMKKLYSQVTDGDSGLRVAVEALYDAADDDSATGGPDLVRGIFPTAVIIDADGAVDVPESRIAELARAIIESRS TTIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARLYAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHASDPQSAGRIVSFDAAGGWNIEEEGYQAVGSGSLFAKSSMKKLYSQVTDGDSGLRVAVEALYDAADDDSATGGPDLVRGIFPTAVIIDADGAVDVPESRIAELARAIIESRS 3kre-a2-m1-cA_3kre-a2-m2-cA Crystal structure of phosphoribosylaminoimidazole-succinocarboxamide synthase from Ehrlichia chaffeensis at 1.8A resolution Q2GHH2 Q2GHH2 1.8 X-RAY DIFFRACTION 59 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 237 237 EKIYEGKAKIIFATLNPLEVIQHFKDEITAFNNKKAAIIHEKGILNNYISSFLMKKLIDKGIKTHFISLLNQREQLVKKITIIPIEVVIRNLAAGNFSKRFQIADGTPFKSPIIEFYYKNDELSDPMVSEGHILSFQWLTNQELEKIKILSLKINNILSELFFNVGIKLVDFKLEFGKLHNDEQSDLFLADEISPDTCRLWDISTNKRLDKDRYRLNLGNVIEGYREVAHKLNAIPN EKIYEGKAKIIFATLNPLEVIQHFKDEITAFNNKKAAIIHEKGILNNYISSFLMKKLIDKGIKTHFISLLNQREQLVKKITIIPIEVVIRNLAAGNFSKRFQIADGTPFKSPIIEFYYKNDELSDPMVSEGHILSFQWLTNQELEKIKILSLKINNILSELFFNVGIKLVDFKLEFGKLHNDEQSDLFLADEISPDTCRLWDISTNKRLDKDRYRLNLGNVIEGYREVAHKLNAIPN 3krm-a5-m2-cB_3krm-a5-m1-cA Imp1 kh34 Q9NZI8 Q9NZI8 2.75 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 158 3krm-a4-m2-cB_3krm-a4-m1-cA QEMVQVFIPAQAVGAIIGKKGQHIKQLSRFASASIKIAPPETPDSKVRMVIITGPPEAQFKAQGRIYGKLKEENFFGEEVKLETHIRVPASAAGRVIGKGGKTVNELQNLTAAEVVVPRDQTPDENDQVIVKIIGHFYASQMAQRKIRDILAQVKQ QEMVQVFIPAQAVGAIIGKKGQHIKQLSRFASASIKIAPPETPDSKVRMVIITGPPEAQFKAQGRIYGKLKEENFFGPKEEVKLETHIRVPASAAGRVIGKGGKTVNELQNLTAAEVVVPRDQTPDENDQVIVKIIGHFYASQMAQRKIRDILAQVKQ 3krm-a6-m1-cC_3krm-a6-m1-cA Imp1 kh34 Q9NZI8 Q9NZI8 2.75 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 158 3krm-a4-m1-cC_3krm-a4-m1-cA QEMVQVFIPAQAVGAIIGKKGQHIKQLSRFASASIKIAPPETPDSKVRMVIITGPPEAQFKAQGRIYGKLKEENFFGPEEVKLETHIRVPASAAGRVIGKGGKTVNELQNLTAAEVVVPRDQTPDENDQVIVKIIGHFYASQMAQRKIRDILAQVKQ QEMVQVFIPAQAVGAIIGKKGQHIKQLSRFASASIKIAPPETPDSKVRMVIITGPPEAQFKAQGRIYGKLKEENFFGPKEEVKLETHIRVPASAAGRVIGKGGKTVNELQNLTAAEVVVPRDQTPDENDQVIVKIIGHFYASQMAQRKIRDILAQVKQ 3krs-a1-m1-cA_3krs-a1-m1-cB Structure of Triosephosphate Isomerase from Cryptosporidium Parvum at 1.55A Resolution Q5CSE7 Q5CSE7 1.55 X-RAY DIFFRACTION 131 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 249 249 SRKYFVGGNFKCNGTKESLKTLIDSFKQVESSNSEVYVFPTSLHISLVKEFFGNDHPGVFKIGSQNISCTGNGAFTGEVSCEMLKDMDVDCSLVGHSERRQYYSETDQIVNNKVKKGLENGLKIVLCIGESLSERETGKTNDVIQKQLTEALKDVSDLSNLVIAYEPIWAIGTGVVATPGQAQEAHAFIREYVTRMYNPQVSSNLRIIYGGSVTPDNCNELIKCADIDGFLVGGASLKPTFAKIIESAQ SRKYFVGGNFKCNGTKESLKTLIDSFKQVESSNSEVYVFPTSLHISLVKEFFGNDHPGVFKIGSQNISCTGNGAFTGEVSCEMLKDMDVDCSLVGHSERRQYYSETDQIVNNKVKKGLENGLKIVLCIGESLSERETGKTNDVIQKQLTEALKDVSDLSNLVIAYEPIWAIGTGVVATPGQAQEAHAFIREYVTRMYNPQVSSNLRIIYGGSVTPDNCNELIKCADIDGFLVGGASLKPTFAKIIESAQ 3kru-a1-m1-cB_3kru-a1-m1-cD Crystal Structure of the Thermostable Old Yellow Enzyme from Thermoanaerobacter pseudethanolicus E39 B0KAH1 B0KAH1 1.6 X-RAY DIFFRACTION 51 1.0 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 335 335 3kru-a1-m1-cC_3kru-a1-m1-cA 3krz-a1-m1-cB_3krz-a1-m1-cD 3krz-a1-m1-cC_3krz-a1-m1-cA SILHMPLKIKDITIKNRIMMSPMCMYSASTDGMPNDWHIVHYATRAIGGVGLIMQEATAVESRGRITDHDLGIWNDEQVKELKKIVDICKANGAVMGIQLAHAGRKCNISYEDVVGPSPIKAGDRYKLPRELSVEEIKSIVKAFGEAAKRANLAGYDVVEIHAAHGYLIHEFLSPLSNKRKDEYGNSIENRARFLIEVIDEVRKNWPENKPIFVRVSADDYMEGGINIDMMVEYINMIKDKVDLIDVSSGGLLNVDINLYPGYQVKYAETIKKRCNIKTSAVGLITTQELAEEILSNERADLVALGRELLRNPYWVLHTYTSKEDWPKQYERAFK SILHMPLKIKDITIKNRIMMSPMCMYSASTDGMPNDWHIVHYATRAIGGVGLIMQEATAVESRGRITDHDLGIWNDEQVKELKKIVDICKANGAVMGIQLAHAGRKCNISYEDVVGPSPIKAGDRYKLPRELSVEEIKSIVKAFGEAAKRANLAGYDVVEIHAAHGYLIHEFLSPLSNKRKDEYGNSIENRARFLIEVIDEVRKNWPENKPIFVRVSADDYMEGGINIDMMVEYINMIKDKVDLIDVSSGGLLNVDINLYPGYQVKYAETIKKRCNIKTSAVGLITTQELAEEILSNERADLVALGRELLRNPYWVLHTYTSKEDWPKQYERAFK 3kru-a1-m1-cC_3kru-a1-m1-cD Crystal Structure of the Thermostable Old Yellow Enzyme from Thermoanaerobacter pseudethanolicus E39 B0KAH1 B0KAH1 1.6 X-RAY DIFFRACTION 63 1.0 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 334 335 3kru-a1-m1-cA_3kru-a1-m1-cB 3krz-a1-m1-cB_3krz-a1-m1-cA 3krz-a1-m1-cC_3krz-a1-m1-cD SILHMPLKIKDITIKNRIMMSPMCMYSASTDGMPNDWHIVHYATRAIGGVGLIMQEATAVESRGRITDHDLGIWNDEQVKELKKIVDICKANGAVMGIQLAHAGRKCNISYEDVVGPSPIKAGDRYKLPRELSVEEIKSIVKAFGEAAKRANLAGYDVVEIHAAHGYLIHEFLSPLSNKRKDEYGNSIENRARFLIEVIDEVRKNWPENKPIFVRVSADDYMEGGINIDMMVEYINMIKDKVDLIDVSSGGLLNVDINLYPGYQVKYAETIKKRCNIKTSAVGLITTQELAEEILSNERADLVALGRELLRNPYWVLHTYTSKEDWPKQYERAF SILHMPLKIKDITIKNRIMMSPMCMYSASTDGMPNDWHIVHYATRAIGGVGLIMQEATAVESRGRITDHDLGIWNDEQVKELKKIVDICKANGAVMGIQLAHAGRKCNISYEDVVGPSPIKAGDRYKLPRELSVEEIKSIVKAFGEAAKRANLAGYDVVEIHAAHGYLIHEFLSPLSNKRKDEYGNSIENRARFLIEVIDEVRKNWPENKPIFVRVSADDYMEGGINIDMMVEYINMIKDKVDLIDVSSGGLLNVDINLYPGYQVKYAETIKKRCNIKTSAVGLITTQELAEEILSNERADLVALGRELLRNPYWVLHTYTSKEDWPKQYERAFK 3ks2-a2-m1-cC_3ks2-a2-m1-cD Crystal Structure of Type-III Secretion Chaperone IpgC from Shigella flexneri (residues 10-155) P0A2U4 P0A2U4 3.3 X-RAY DIFFRACTION 62 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 137 137 3ks2-a1-m1-cA_3ks2-a1-m1-cB 3ks2-a3-m1-cE_3ks2-a3-m1-cF 3ks2-a4-m1-cG_3ks2-a4-m1-cH 3ks2-a5-m1-cI_3ks2-a5-m1-cJ 3ks2-a6-m1-cK_3ks2-a6-m1-cL 3ks2-a7-m1-cM_3ks2-a7-m1-cN 3ks2-a8-m1-cO_3ks2-a8-m1-cP 3ks2-a9-m1-cQ_3ks2-a9-m1-cR AINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAIQDIK AINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAIQDIK 3ks7-a2-m1-cC_3ks7-a2-m1-cD Crystal structure of Putative Peptide:N-glycosidase F (PNGase F) (YP_210507.1) from Bacteroides fragilis NCTC 9343 at 2.30 A resolution Q5LH31 Q5LH31 2.3 X-RAY DIFFRACTION 120 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 384 386 3ks7-a1-m1-cB_3ks7-a1-m1-cA LPAKGDLHIPVFENVNVRFSPDTYPDNYNEADGTGVYHLVNGRIILKKITLPEYKRNVSVSLKVTLASNGDRWDKSGSCFVLPKSSAINLLTIARDGKFPSVDSLKLEKVGIVPGKDYLPTVELRFTPFGIGHYSNNNDSLSSKRRPVYIPKWESNVTWQQDITDLYPLLEGEAYVGIYIDTWTSEGYLVNADIDVKESRLACDVLPKRHVEPLNTVYYGQSYPDIFARRDVSTDFTVPKGAKNIRLKYIVTGHGGHSGGDEFVQKRNIISVDGKEVLNFIPWRDDCASFRRFNPATGVWLIKRLASYIGEKGYTEKEVEEPLASSDLSRSNWCPGSDVVPEEAVIGTLAPGKHTFTVSIPEAQAVDGNKLNHWLVSAYLVWEE KNLPAKGDLHIPVFENVNVRFSPDTYPDNYNEADGTGVYHLVNGRIILKKITLPEYKRNVSVSLKVTLASNGDRWDKSGSCFVLPKSSAINLLTIARDGKFPSVDSLKLEKVGIVPGKDYLPTVELRFTPFGIGHYSNNNDSLSSKRRPVYIPKWESNVTWQQDITDLYPLLEGEAYVGIYIDTWTSEGYLVNADIDVKESRLACDVLPKRHVEPLNTVYYGQSYPDIFARRDVSTDFTVPKGAKNIRLKYIVTGHGGHSGGDEFVQKRNIISVDGKEVLNFIPWRDDCASFRRFNPATGVWLIKRLASYIGEKGYTEKEVEEPLASSDLSRSNWCPGSDVVPEEAVIGTLAPGKHTFTVSIPEAQAVDGNKLNHWLVSAYLVWEE 3ks8-a2-m1-cC_3ks8-a2-m1-cD Crystal structure of Reston ebolavirus VP35 RNA binding domain in complex with 18bp dsRNA Q8JPY0 Q8JPY0 2.401 X-RAY DIFFRACTION 11 1.0 129003 (Reston ebolavirus - Reston) 129003 (Reston ebolavirus - Reston) 122 124 3ks8-a1-m1-cA_3ks8-a1-m1-cB ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI PYISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI 3ksc-a2-m1-cD_3ksc-a2-m1-cF Crystal structure of pea prolegumin, an 11S seed globulin from Pisum sativum L. P02857 P02857 2.606 X-RAY DIFFRACTION 197 0.997 3888 (Pisum sativum) 3888 (Pisum sativum) 376 377 3ksc-a1-m1-cA_3ksc-a1-m1-cB 3ksc-a1-m1-cC_3ksc-a1-m1-cA 3ksc-a1-m1-cC_3ksc-a1-m1-cB 3ksc-a2-m1-cD_3ksc-a2-m1-cE 3ksc-a2-m1-cF_3ksc-a2-m1-cE NECQLERLDALEPDNRIESEGGLIETWNPNNKQFRCAGVALSRATLQRNALRRPYYSNAPQEIFIQQGNGYFGMVFPGCPETDRHQKVNRFREGDIIAVPTGIVFWMYNDQDTPVIAVSLTDIRSSNNQLDQMPRRFYLAGNHEQEFLQYQHEGNNIFSGFKRDFLEDAFNVNRHIVDRLQGRNEDEEKGAIVKVKGGLSIITVCTAKLRLNIGPSSSPDIYNPEAGRIKTVTSLDLPVLRWLKLSAEHGSLHKNAMFVPHYNLNANSIIYALKGRARLQVVNCNGNTVFDGELEAGRALTVPQNYAVAAKSLSDRFSYVAFKTNDRAGIARLAGTSSVINNLPLDVVAATFNLQRNEARQLKSNNPFKFLVPARE QNECQLERLDALEPDNRIESEGGLIETWNPNNKQFRCAGVALSRATLQRNALRRPYYSNAPQEIFIQQGNGYFGMVFPGCPEDRHQKVNRFREGDIIAVPTGIVFWMYNDQDTPVIAVSLTDIRSSNNQLDQMPRRFYLAGNHEQEFLQYQHQEGNNIFSGFKRDFLEDAFNVNRHIVDRLQGRNEDEEKGAIVKVKGGLSIITVCTAKLRLNIGPSSSPDIYNPEAGRIKTVTSLDLPVLRWLKLSAEHGSLHKNAMFVPHYNLNANSIIYALKGRARLQVVNCNGNTVFDGELEAGRALTVPQNYAVAAKSLSDRFSYVAFKTNDRAGIARLAGTSSVINNLPLDVVAATFNLQRNEARQLKSNNPFKFLVPARE 3ksf-a3-m1-cE_3ksf-a3-m1-cF structure of fRMsr of Staphylococcus aureus (reduced form) 1.9 X-RAY DIFFRACTION 72 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 152 152 3ksf-a1-m1-cA_3ksf-a1-m1-cB 3ksf-a2-m1-cC_3ksf-a2-m1-cD 3ksf-a4-m1-cG_3ksf-a4-m1-cH 3ksg-a1-m1-cA_3ksg-a1-m1-cB 3ksh-a1-m1-cA_3ksh-a1-m2-cA 3ksi-a1-m1-cA_3ksi-a1-m2-cA TINPTNYTLLKKQAASLIEDEHHMIAILSNMSALLNDNLDQINWVGFYLLEQNELILGPFQGHPACVHIPIGKGVCGTAVSERRTQVVADVHQFKGHIACDANSKSEIVVPIFKDDKIIGVLDIDAPITDRFDDNDKEHLEAIVKIIEKQLA TINPTNYTLLKKQAASLIEDEHHMIAILSNMSALLNDNLDQINWVGFYLLEQNELILGPFQGHPACVHIPIGKGVCGTAVSERRTQVVADVHQFKGHIACDANSKSEIVVPIFKDDKIIGVLDIDAPITDRFDDNDKEHLEAIVKIIEKQLA 3ksk-a1-m2-cB_3ksk-a1-m1-cA Crystal Structure of single chain PvuII P23657 P23657 2.35 X-RAY DIFFRACTION 31 1.0 183417 (Proteus hauseri) 183417 (Proteus hauseri) 311 313 3ksk-a1-m1-cB_3ksk-a1-m2-cA SHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYGSGGSHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYG SHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYGSGGSHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYGS 3ksk-a1-m2-cB_3ksk-a1-m2-cA Crystal Structure of single chain PvuII P23657 P23657 2.35 X-RAY DIFFRACTION 42 1.0 183417 (Proteus hauseri) 183417 (Proteus hauseri) 311 313 3ksk-a1-m1-cB_3ksk-a1-m1-cA SHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYGSGGSHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYG SHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYGSGGSHPDLNKLLELWPHIQEYQDLALKHGINDIFQDNGGKLLQVLLITGLTVLPGGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIYGS 3ksm-a1-m1-cB_3ksm-a1-m1-cA Crystal structure of ABC-type sugar transport system, periplasmic component from Hahella chejuensis Q2S7D2 Q2S7D2 1.9 X-RAY DIFFRACTION 33 1.0 349521 (Hahella chejuensis KCTC 2396) 349521 (Hahella chejuensis KCTC 2396) 270 272 KLLLVLKGDSNAYWRQVYLGAQKAADEAGVTLLHRSTKDDGDIAGQIQILSYHLSQAPDALILAPNSAEDLTPSVAQYRARNIPVLVVDSDLAGDAHQGLVATDNYAAGQLAARALLATLDLSKERNIALLRLRAGNASTDQREQGFLDVLRKHDKIRIIAAPYAGDDRGAARSELRLLKETPTIDGLFTPNESTTIGALVAIRQSGSKQFGFIGFDQTEELEAAYAGEISNLVVQNPEYGYLAVQRALDLVRGKPIPAFTDTGVRLLQE PKLLLVLKGDSNAYWRQVYLGAQKAADEAGVTLLHRSTKDDGDIAGQIQILSYHLSQAPPDALILAPNSAEDLTPSVAQYRARNIPVLVVDSDLAGDAHQGLVATDNYAAGQLAARALLATLDLSKERNIALLRLRAGNASTDQREQGFLDVLRKHDKIRIIAAPYAGDDRGAARSELRLLKETPTIDGLFTPNESTTIGALVAIRQSGSKQFGFIGFDQTEELEAAYAGEISNLVVQNPEYGYLAVQRALDLVRGKPIPAFTDTGVRLLQE 3ksp-a1-m1-cA_3ksp-a1-m2-cA Crystal structure of a putative ca/calmodulin-dependent kinase ii association domain (exig_1688) from exiguobacterium sibiricum 255-15 at 2.59 A resolution B1YH80 B1YH80 2.59 X-RAY DIFFRACTION 65 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 124 124 GEPSAKHLQLQTLLSERHAYLEGNREAHQLLSSDFSFIDGQGRQFDAETYLDHYVDPDQIQWSNQISESVVEVFETTALVQEIVEDHFSYGRSYIGRFRSVSLYHWANEGWKWHFHQLTPLDPS GEPSAKHLQLQTLLSERHAYLEGNREAHQLLSSDFSFIDGQGRQFDAETYLDHYVDPDQIQWSNQISESVVEVFETTALVQEIVEDHFSYGRSYIGRFRSVSLYHWANEGWKWHFHQLTPLDPS 3ksr-a1-m1-cA_3ksr-a1-m2-cA CRYSTAL STRUCTURE OF A PUTATIVE SERINE HYDROLASE (XCC3885) FROM XANTHOMONAS CAMPESTRIS PV. CAMPESTRIS AT 2.69 A RESOLUTION Q8P431 Q8P431 2.69 X-RAY DIFFRACTION 130 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 236 236 EAKLSSIEIPVGQDELSGTLLTPTGPGVLFVHGWGGSQHHSLVRAREAVGLGCICTFDLRGHEGYASRQSVTRAQNLDDIKAAYDQLASLPYVDAHSIAVVGLSYGGYLSALLTRERPVEWLALRSPALYKDAHWDQPKVSLNADPDLDYRRRALAPGDNLALAACAQYKGDVLLVEAENDVIVPHPVRNYADAFTNARSLTSRVIAGADHALSVKEHQQEYTRALIDWLTEVVGR EAKLSSIEIPVGQDELSGTLLTPTGPGVLFVHGWGGSQHHSLVRAREAVGLGCICTFDLRGHEGYASRQSVTRAQNLDDIKAAYDQLASLPYVDAHSIAVVGLSYGGYLSALLTRERPVEWLALRSPALYKDAHWDQPKVSLNADPDLDYRRRALAPGDNLALAACAQYKGDVLLVEAENDVIVPHPVRNYADAFTNARSLTSRVIAGADHALSVKEHQQEYTRALIDWLTEVVGR 3ksu-a1-m1-cB_3ksu-a1-m1-cA Crystal structure of short-chain dehydrogenase from oenococcus oeni psu-1 Q04HJ2 Q04HJ2 2.3 X-RAY DIFFRACTION 71 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 223 234 KYHDLKNKVIVIAGGIKNLGALTAKTFALESVNLVLHYHQAKDSDTANKLKDELEDQGAKVALYQSDLSNEEEVAKLFDFAEKEFGKVDIAINTVGKVLKKPIVETSEAEFDAMDTINNKVAYFFIKQAAKHMNPNGHIITIATSLLAAYTGFYSTAPVEHYTRAASKELMKQQISVNAIAPGPMDTSFNQLTKIEDIAPIIKFLTTDGWWINGQTIFANGGY TKYHDLKNKVIVIAGGIKNLGALTAKTFALESVNLVLHYHQAKDSDTANKLKDELEDQGAKVALYQSDLSNEEEVAKLFDFAEKEFGKVDIAINTVGKVLKKPIVETSEAEFDAMDTINNKVAYFFIKQAAKHMNPNGHIITIATSLLAAYTGFYSTAPVEHYTRAASKELMKQQISVNAIAPGPMDTSFFYGQEMGNQLTKIEDIAPIIKFLTTDGWWINGQTIFANGGYTTR 3ksv-a1-m1-cA_3ksv-a1-m2-cA Hypothetical protein from Leishmania major Q4QFW1 Q4QFW1 1.9 X-RAY DIFFRACTION 247 1.0 5664 (Leishmania major) 5664 (Leishmania major) 141 141 MAANCIFCKIIKGDIPCAKVAETSKALAFMDINPLSRGHMLVIPKEHASCLHELGMEDAADVGVLLAKASRAVAGPDGSMQYNVLQNNGSLAHQEVPHVHFHIIPKTDEKTGLKIGWDTVKVASDELAEDAKRYSEAIAKI MAANCIFCKIIKGDIPCAKVAETSKALAFMDINPLSRGHMLVIPKEHASCLHELGMEDAADVGVLLAKASRAVAGPDGSMQYNVLQNNGSLAHQEVPHVHFHIIPKTDEKTGLKIGWDTVKVASDELAEDAKRYSEAIAKI 3ksy-a2-m1-cA_3ksy-a2-m2-cA Crystal structure of the Histone domain, DH-PH unit, and catalytic unit of the Ras activator Son of Sevenless (SOS) Q07889 Q07889 3.178 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1007 1007 LPYEFFSEENAPKWRGLLVPALKKVQGQVHPTLESNDDALQYVEELILQLLNMLCQAQPRSASDVEERVQKSFPHPIDKWAIADAQSAIEKRKRRNPLSLPVEKIHPLLKEVLGYKIDHQVSVYIVAVLEYISADILKLVGNYVRNIRHYEITKQDIKVAMCADKVLMDMFHTSGEQTYYDLVKAFMAEIRQYIRELNLIIKVFREPFVSNSKLFSANDVENIFSRIVDIHELSVKLLGHIEDTVEMTDEGSPHPLVGSCFEDLAEELAFDPYESYARDILRPGFHDRFLSQLSKPGAALYLQSIGEGFKEAVQYVLPRLLLAPVYHCLHYFELLKQLEEKSEDQEDKECLKQAITALLNVQSGMEKICSKSLAKRRLSESAAIKKMNEIQKNIDGWEGKDIGQCCNEFIMEGTLTRVGAKHERHIFLFDGLMICCKSNHGQPRLPGASNAEYRLKEKFFMRKVQINDKDDTNEYKHAFEIILKDENSVIFSAKSAEEKNNWMAALISLQYRSTLERMLDVTMLQEEKEEQMRLPSADVYRFAEPDSEENIIFEENMQPKAGIPIIKAGTVIKLIERLTYHMYADPNFVRTFLTTYRSFCKPQELLSLIIERFEIPEPEPTEADRIAIENGDQPLSAELKRFRKEYIQPVQLRVLNVCRHWVEHHFYDFERDAYLLQRMEEFIGTVRGKAMKKWVESITKIIQRKKIARDNHNITFQSSPPTVEWHISRPGHIETFDLLTLHPIEIARQLTLLESDLYRAVQPSELVGSVWTKEDKEINSPNLLKMIRHTTNLTLWFEKCIVETENLEERVAVVSRIIEILQVFQELNNFNGVLEVVSAMNSSPVYRLDHTFEQIPSRQKKILEEAHELSEDHYKKYLAKLRSINPPCVPFFGIYLTNILKTEEGNPEVLKRHGKELINFSKRRKVAEITGEIQQYQNQPYCLRVESDIKRFFENLNPMGNSMEKEFTDYLFNKSLEIEPRNPKPLPRFPKKYSYPLKSPGVRPSNP LPYEFFSEENAPKWRGLLVPALKKVQGQVHPTLESNDDALQYVEELILQLLNMLCQAQPRSASDVEERVQKSFPHPIDKWAIADAQSAIEKRKRRNPLSLPVEKIHPLLKEVLGYKIDHQVSVYIVAVLEYISADILKLVGNYVRNIRHYEITKQDIKVAMCADKVLMDMFHTSGEQTYYDLVKAFMAEIRQYIRELNLIIKVFREPFVSNSKLFSANDVENIFSRIVDIHELSVKLLGHIEDTVEMTDEGSPHPLVGSCFEDLAEELAFDPYESYARDILRPGFHDRFLSQLSKPGAALYLQSIGEGFKEAVQYVLPRLLLAPVYHCLHYFELLKQLEEKSEDQEDKECLKQAITALLNVQSGMEKICSKSLAKRRLSESAAIKKMNEIQKNIDGWEGKDIGQCCNEFIMEGTLTRVGAKHERHIFLFDGLMICCKSNHGQPRLPGASNAEYRLKEKFFMRKVQINDKDDTNEYKHAFEIILKDENSVIFSAKSAEEKNNWMAALISLQYRSTLERMLDVTMLQEEKEEQMRLPSADVYRFAEPDSEENIIFEENMQPKAGIPIIKAGTVIKLIERLTYHMYADPNFVRTFLTTYRSFCKPQELLSLIIERFEIPEPEPTEADRIAIENGDQPLSAELKRFRKEYIQPVQLRVLNVCRHWVEHHFYDFERDAYLLQRMEEFIGTVRGKAMKKWVESITKIIQRKKIARDNHNITFQSSPPTVEWHISRPGHIETFDLLTLHPIEIARQLTLLESDLYRAVQPSELVGSVWTKEDKEINSPNLLKMIRHTTNLTLWFEKCIVETENLEERVAVVSRIIEILQVFQELNNFNGVLEVVSAMNSSPVYRLDHTFEQIPSRQKKILEEAHELSEDHYKKYLAKLRSINPPCVPFFGIYLTNILKTEEGNPEVLKRHGKELINFSKRRKVAEITGEIQQYQNQPYCLRVESDIKRFFENLNPMGNSMEKEFTDYLFNKSLEIEPRNPKPLPRFPKKYSYPLKSPGVRPSNP 3kt3-a2-m1-cC_3kt3-a2-m1-cD Crystal structure of S. cerevisiae tryptophanyl-tRNA synthetase in complex with TrpAMP Q12109 Q12109 2.6 X-RAY DIFFRACTION 112 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 403 409 3kt0-a1-m1-cA_3kt0-a1-m2-cA 3kt3-a1-m1-cB_3kt3-a1-m1-cA 3kt6-a1-m1-cB_3kt6-a1-m1-cA 3kt6-a2-m1-cC_3kt6-a2-m1-cD 3kt8-a1-m1-cB_3kt8-a1-m1-cA 3kt8-a2-m1-cC_3kt8-a2-m1-cD KEQVVTPWDVEGGVDEQGRAQNIDYDKLIKQFGTKPVNEETLKRFKQVTGREPHHFLRKGLFFSERDFTKILDLYEQGKPFFLYTGRGPSSDSMHLGHMIPFVFTKWLQEVFDVPLVIELTDDEKFLFKHKLTINDVKNFARENAKDIIAVGFDPKNTFIFSDLQYMGGAFYETVVRVSRQITGSTAKAVFGFNDSDCIGKFHFASIQIATAFPSSFPNVLGLPDKTPCLIPCAIDQDPYFRVCRDVADKLKYSKPALLHSRFFPALQGSTTKMSASDDTTAIFMTDTPKQIQKKINKYAFSGGQVSADLHRELGGNPDVDVAYQYLSFFKDDDVFLKECYDKYKSGELLSGEMKKLCIETLQEFVKAFQERRAQVDEETLDKFMVPHKLVWGEKERLVAPKP LKSTDVKEQVVTPWDVEGGVDEQGRAQNIDYDKLIKQFGTKPVNEETLKRFKQVTGREPHHFLRKGLFFSERDFTKILDLYEQGKPFFLYTGRGPSSDSMHLGHMIPFVFTKWLQEVFDVPLVIELTDDEKFLFKHKLTINDVKNFARENAKDIIAVGFDPKNTFIFSDLQYMGGAFYETVVRVSRQITGSTAKAVFGFNDSDCIGKFHFASIQIATAFPSSFPNVLGLPDKTPCLIPCAIDQDPYFRVCRDVADKLKYSKPALLHSRFFPALQGSTTKMSASDDTTAIFMTDTPKQIQKKINKYAFSGGQVSADLHRELGGNPDVDVAYQYLSFFKDDDVFLKECYDKYKSGELLSGEMKKLCIETLQEFVKAFQERRAQVDEETLDKFMVPHKLVWGEKERLVAPKP 3kt7-a1-m1-cA_3kt7-a1-m2-cA Crystal structure of Tpa1 from Saccharomyces cerevisiae, a component of the messenger ribonucleoprotein complex P40032 P40032 1.77 X-RAY DIFFRACTION 115 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 557 557 3kt1-a1-m1-cA_3kt1-a1-m2-cA 3kt4-a1-m1-cA_3kt4-a1-m2-cA 3mgu-a1-m1-cA_3mgu-a1-m2-cA DKIKGMFNPKIWDKTFQDGLKKEIEDSQPYNWGTIHELVNDDLLRAVRKEIETEIHFTKKETDIYRVNQSGDLANLSGLDWDDLSRLPNLFKLRQILYSKQYRDFFGYVTKAGKLSGSKTDMSINTYTKGCHLLTHDDVIGSRRISFILYLPDPDRKWKSHYGGGLRLFPSILPNVPHSDPSAKLVPQFNQIAFFKVLPGFSFHDEEVKVDKHRLSIQGWYHIPQVGEEGYIPGEEEAWVRNNTSNVLEDFEFPKDERNILSFHEVKHFEKMLKVKLSEAEFTYLSQYISPEHLSSKGIEKLQKQFVENSSLQIESFLNDDKSELLKKVIKQKELEQECPYHSKDVKAPWKTAIPPHKARYLYIDGKEYRNFQTEADILEALNNNDLPNFQFTKDAIKIISDASGNSRENNFDAELALIDLAVFHKSTIFKKYLALLTSLCPVSEQILIRRFRPGMDFTLATKCRFNELLKSNPDIIDAVLEGTLCLTPSAGWESGELGGYELYMMDDSVLINDPPAWNTFNLVLRDESVLEFVKYVSWSAKSSRWDVKMKWDVKSC DKIKGMFNPKIWDKTFQDGLKKEIEDSQPYNWGTIHELVNDDLLRAVRKEIETEIHFTKKETDIYRVNQSGDLANLSGLDWDDLSRLPNLFKLRQILYSKQYRDFFGYVTKAGKLSGSKTDMSINTYTKGCHLLTHDDVIGSRRISFILYLPDPDRKWKSHYGGGLRLFPSILPNVPHSDPSAKLVPQFNQIAFFKVLPGFSFHDEEVKVDKHRLSIQGWYHIPQVGEEGYIPGEEEAWVRNNTSNVLEDFEFPKDERNILSFHEVKHFEKMLKVKLSEAEFTYLSQYISPEHLSSKGIEKLQKQFVENSSLQIESFLNDDKSELLKKVIKQKELEQECPYHSKDVKAPWKTAIPPHKARYLYIDGKEYRNFQTEADILEALNNNDLPNFQFTKDAIKIISDASGNSRENNFDAELALIDLAVFHKSTIFKKYLALLTSLCPVSEQILIRRFRPGMDFTLATKCRFNELLKSNPDIIDAVLEGTLCLTPSAGWESGELGGYELYMMDDSVLINDPPAWNTFNLVLRDESVLEFVKYVSWSAKSSRWDVKMKWDVKSC 3ktb-a1-m2-cD_3ktb-a1-m4-cD Crystal Structure of Arsenical Resistance Operon Trans-acting Repressor from Bacteroides vulgatus ATCC 8482 A6L7X2 A6L7X2 2.1 X-RAY DIFFRACTION 17 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 100 100 3ktb-a1-m1-cD_3ktb-a1-m3-cD 3ktb-a1-m1-cD_3ktb-a1-m4-cD 3ktb-a1-m2-cD_3ktb-a1-m3-cD AKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD AKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD 3ktb-a1-m4-cC_3ktb-a1-m1-cA Crystal Structure of Arsenical Resistance Operon Trans-acting Repressor from Bacteroides vulgatus ATCC 8482 A6L7X2 A6L7X2 2.1 X-RAY DIFFRACTION 19 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 100 102 3ktb-a1-m1-cC_3ktb-a1-m3-cA 3ktb-a1-m2-cC_3ktb-a1-m4-cA 3ktb-a1-m3-cC_3ktb-a1-m2-cA AKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD SNAKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD 3ktb-a2-m1-cB_3ktb-a2-m1-cD Crystal Structure of Arsenical Resistance Operon Trans-acting Repressor from Bacteroides vulgatus ATCC 8482 A6L7X2 A6L7X2 2.1 X-RAY DIFFRACTION 12 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 98 100 3ktb-a1-m1-cB_3ktb-a1-m1-cD 3ktb-a1-m2-cB_3ktb-a1-m2-cD 3ktb-a1-m3-cB_3ktb-a1-m3-cD 3ktb-a1-m4-cB_3ktb-a1-m4-cD KKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNL AKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD 3ktb-a2-m1-cC_3ktb-a2-m1-cD Crystal Structure of Arsenical Resistance Operon Trans-acting Repressor from Bacteroides vulgatus ATCC 8482 A6L7X2 A6L7X2 2.1 X-RAY DIFFRACTION 34 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 100 100 3ktb-a1-m1-cB_3ktb-a1-m1-cA 3ktb-a1-m1-cC_3ktb-a1-m1-cD 3ktb-a1-m2-cB_3ktb-a1-m2-cA 3ktb-a1-m2-cC_3ktb-a1-m2-cD 3ktb-a1-m3-cB_3ktb-a1-m3-cA 3ktb-a1-m3-cC_3ktb-a1-m3-cD 3ktb-a1-m4-cB_3ktb-a1-m4-cA 3ktb-a1-m4-cC_3ktb-a1-m4-cD 3ktb-a2-m1-cB_3ktb-a2-m1-cA AKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD AKKIEIFDPACCPTGLCGTNINPELRIAVVIESLKKQGIIVTRHNLRDEPQVYVSNKTVNDFLQKHGADALPITLVDGEIAVSQTYPTTKQSEWTGVNLD 3ktc-a1-m1-cA_3ktc-a1-m2-cB Crystal structure of Putative sugar isomerase (YP_050048.1) from ERWINIA CAROTOVORA ATROSEPTICA SCRI1043 at 1.54 A resolution Q6D5T7 Q6D5T7 1.54 X-RAY DIFFRACTION 76 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 325 325 3ktc-a1-m1-cB_3ktc-a1-m2-cA ATYNYPEFGAGLWHFANYIDRYAVDGYGPALSTIDQINAAKEVGELSYVDLPYPFTPGVTLSEVKDALKDAGLKAIGITPEIYLQKWSRGAFTNPDPAARAAAFELHESAGIVRELGANYVKVWPGQDGWDYPFQVSHKNLWKLAVDGRDLAGANPDVKFAIEYKPREPRVKTWDSAARTLLGIEDIGLDNVGVLLDFGHALYGGESPADSAQLIIDRGRLFGDVNDNLRGWDDDLVVGTVHTEIFEFFYVLKINNWQGVWQLDQFPFRENHVEAAQLSIRFLKHIYRALDKLDIPALQAAQEAQNPLQAQRIVQDALLSSITVS ATYNYPEFGAGLWHFANYIDRYAVDGYGPALSTIDQINAAKEVGELSYVDLPYPFTPGVTLSEVKDALKDAGLKAIGITPEIYLQKWSRGAFTNPDPAARAAAFELHESAGIVRELGANYVKVWPGQDGWDYPFQVSHKNLWKLAVDGRDLAGANPDVKFAIEYKPREPRVKTWDSAARTLLGIEDIGLDNVGVLLDFGHALYGGESPADSAQLIIDRGRLFGDVNDNLRGWDDDLVVGTVHTEIFEFFYVLKINNWQGVWQLDQFPFRENHVEAAQLSIRFLKHIYRALDKLDIPALQAAQEAQNPLQAQRIVQDALLSSITVS 3ktc-a1-m1-cB_3ktc-a1-m2-cB Crystal structure of Putative sugar isomerase (YP_050048.1) from ERWINIA CAROTOVORA ATROSEPTICA SCRI1043 at 1.54 A resolution Q6D5T7 Q6D5T7 1.54 X-RAY DIFFRACTION 96 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 325 325 3ktc-a1-m1-cA_3ktc-a1-m2-cA ATYNYPEFGAGLWHFANYIDRYAVDGYGPALSTIDQINAAKEVGELSYVDLPYPFTPGVTLSEVKDALKDAGLKAIGITPEIYLQKWSRGAFTNPDPAARAAAFELHESAGIVRELGANYVKVWPGQDGWDYPFQVSHKNLWKLAVDGRDLAGANPDVKFAIEYKPREPRVKTWDSAARTLLGIEDIGLDNVGVLLDFGHALYGGESPADSAQLIIDRGRLFGDVNDNLRGWDDDLVVGTVHTEIFEFFYVLKINNWQGVWQLDQFPFRENHVEAAQLSIRFLKHIYRALDKLDIPALQAAQEAQNPLQAQRIVQDALLSSITVS ATYNYPEFGAGLWHFANYIDRYAVDGYGPALSTIDQINAAKEVGELSYVDLPYPFTPGVTLSEVKDALKDAGLKAIGITPEIYLQKWSRGAFTNPDPAARAAAFELHESAGIVRELGANYVKVWPGQDGWDYPFQVSHKNLWKLAVDGRDLAGANPDVKFAIEYKPREPRVKTWDSAARTLLGIEDIGLDNVGVLLDFGHALYGGESPADSAQLIIDRGRLFGDVNDNLRGWDDDLVVGTVHTEIFEFFYVLKINNWQGVWQLDQFPFRENHVEAAQLSIRFLKHIYRALDKLDIPALQAAQEAQNPLQAQRIVQDALLSSITVS 3ktc-a1-m2-cA_3ktc-a1-m2-cB Crystal structure of Putative sugar isomerase (YP_050048.1) from ERWINIA CAROTOVORA ATROSEPTICA SCRI1043 at 1.54 A resolution Q6D5T7 Q6D5T7 1.54 X-RAY DIFFRACTION 128 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 325 325 3ktc-a1-m1-cA_3ktc-a1-m1-cB ATYNYPEFGAGLWHFANYIDRYAVDGYGPALSTIDQINAAKEVGELSYVDLPYPFTPGVTLSEVKDALKDAGLKAIGITPEIYLQKWSRGAFTNPDPAARAAAFELHESAGIVRELGANYVKVWPGQDGWDYPFQVSHKNLWKLAVDGRDLAGANPDVKFAIEYKPREPRVKTWDSAARTLLGIEDIGLDNVGVLLDFGHALYGGESPADSAQLIIDRGRLFGDVNDNLRGWDDDLVVGTVHTEIFEFFYVLKINNWQGVWQLDQFPFRENHVEAAQLSIRFLKHIYRALDKLDIPALQAAQEAQNPLQAQRIVQDALLSSITVS ATYNYPEFGAGLWHFANYIDRYAVDGYGPALSTIDQINAAKEVGELSYVDLPYPFTPGVTLSEVKDALKDAGLKAIGITPEIYLQKWSRGAFTNPDPAARAAAFELHESAGIVRELGANYVKVWPGQDGWDYPFQVSHKNLWKLAVDGRDLAGANPDVKFAIEYKPREPRVKTWDSAARTLLGIEDIGLDNVGVLLDFGHALYGGESPADSAQLIIDRGRLFGDVNDNLRGWDDDLVVGTVHTEIFEFFYVLKINNWQGVWQLDQFPFRENHVEAAQLSIRFLKHIYRALDKLDIPALQAAQEAQNPLQAQRIVQDALLSSITVS 3ktd-a2-m1-cC_3ktd-a2-m1-cD CRYSTAL STRUCTURE OF A PUTATIVE PREPHENATE DEHYDROGENASE (CGL0226) FROM CORYNEBACTERIUM GLUTAMICUM ATCC 13032 AT 2.60 A RESOLUTION Q8NTS6 Q8NTS6 2.6 X-RAY DIFFRACTION 366 0.997 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 312 315 3ktd-a1-m1-cB_3ktd-a1-m1-cA DISRPVCILGLGLIGGSLLRDLHAANHSVFGYNRSRSGAKSAVDEGFDVSADLEATLQRAAAEDALIVLAVPTAIDSLLDAVHTHAPNNGFTDVVSVKTAVYDAVKARNQHRYVGSHPAGTANGWSASDGLFKRAVWVVTFDQLFDGTDINSTWISIWKDVVQALAVGAEVVPSRVGPHDAAAARVSHLTHILAETLAIVGDNGGALSLSLAAGSYRDSTRVAGTDPGLVRACESNAGPLVKALDEALAILHEAREGLTAEQPNIEQLADNGYRSRIRYEARRPVLRLHPGTPNWEKQLIHAETLGARIEVF DISRPVCILGLGLIGGSLLRDLHAANHSVFGYNRSRSGAKSAVDEGFDVSADLEATLQRAAAEDALIVLAVPTAIDSLLDAVHTHAPNNGFTDVVSVKTAVYDAVKARNQHRYVGSHPAGTASGWSASDGLFKRAVWVVTFDQLFDGTDINSTWISIWKDVVQALAVGAEVVPSRVGPHDAAAARVSHLTHILAETLAIVGDNGGALSLSLAAGSYRDSTRVAGTDPGLVRACESNAGPLVKALDEALAILHEAREGLTAEQPNIEQLADNGYRSRIRYEARSSSRPVLRLHPGTPNWEKQLIHAETLGARIEVF 3ktg-a1-m1-cC_3ktg-a1-m1-cD Structure of ClpP from Bacillus subtilis in monoclinic crystal form P80244 P80244 2.4 X-RAY DIFFRACTION 95 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 188 188 3ktg-a1-m1-cA_3ktg-a1-m1-cB 3ktg-a1-m1-cA_3ktg-a1-m1-cG 3ktg-a1-m1-cB_3ktg-a1-m1-cC 3ktg-a1-m1-cD_3ktg-a1-m1-cE 3ktg-a1-m1-cE_3ktg-a1-m1-cF 3ktg-a1-m1-cF_3ktg-a1-m1-cG 3kth-a1-m1-cA_3kth-a1-m1-cB 3kth-a1-m1-cA_3kth-a1-m1-cG 3kth-a1-m1-cC_3kth-a1-m1-cB 3kth-a1-m1-cC_3kth-a1-m1-cD 3kth-a1-m1-cD_3kth-a1-m1-cE 3kth-a1-m1-cE_3kth-a1-m1-cF 3kth-a1-m1-cG_3kth-a1-m1-cF 3kti-a1-m1-cA_3kti-a1-m1-cB 3kti-a1-m1-cA_3kti-a1-m1-cG 3kti-a1-m1-cB_3kti-a1-m1-cC 3kti-a1-m1-cC_3kti-a1-m1-cD 3kti-a1-m1-cD_3kti-a1-m1-cE 3kti-a1-m1-cE_3kti-a1-m1-cF 3kti-a1-m1-cF_3kti-a1-m1-cG 3ktj-a1-m1-cA_3ktj-a1-m1-cB 3ktj-a1-m1-cA_3ktj-a1-m1-cG 3ktj-a1-m1-cB_3ktj-a1-m1-cC 3ktj-a1-m1-cC_3ktj-a1-m1-cD 3ktj-a1-m1-cD_3ktj-a1-m1-cE 3ktj-a1-m1-cE_3ktj-a1-m1-cF 3ktj-a1-m1-cF_3ktj-a1-m1-cG 3ktk-a1-m1-cA_3ktk-a1-m1-cB 3ktk-a1-m1-cA_3ktk-a1-m1-cG 3ktk-a1-m1-cB_3ktk-a1-m1-cC 3ktk-a1-m1-cC_3ktk-a1-m1-cD 3ktk-a1-m1-cD_3ktk-a1-m1-cE 3ktk-a1-m1-cE_3ktk-a1-m1-cF 3ktk-a1-m1-cF_3ktk-a1-m1-cG 3ktk-a1-m1-cH_3ktk-a1-m1-cI 3ktk-a1-m1-cH_3ktk-a1-m1-cN 3ktk-a1-m1-cI_3ktk-a1-m1-cJ 3ktk-a1-m1-cJ_3ktk-a1-m1-cK 3ktk-a1-m1-cK_3ktk-a1-m1-cL 3ktk-a1-m1-cL_3ktk-a1-m1-cM 3ktk-a1-m1-cM_3ktk-a1-m1-cN 3tt6-a1-m1-cE_3tt6-a1-m1-cF 3tt6-a1-m2-cE_3tt6-a1-m2-cF 3tt7-a1-m1-cA_3tt7-a1-m1-cC 3tt7-a1-m1-cA_3tt7-a1-m1-cD 3tt7-a1-m1-cB_3tt7-a1-m1-cC 3tt7-a1-m1-cB_3tt7-a1-m1-cG 3tt7-a1-m1-cD_3tt7-a1-m1-cE 3tt7-a1-m1-cE_3tt7-a1-m1-cF 3tt7-a1-m1-cF_3tt7-a1-m1-cG 3tt7-a1-m2-cA_3tt7-a1-m2-cC 3tt7-a1-m2-cA_3tt7-a1-m2-cD 3tt7-a1-m2-cB_3tt7-a1-m2-cC 3tt7-a1-m2-cB_3tt7-a1-m2-cG 3tt7-a1-m2-cD_3tt7-a1-m2-cE 3tt7-a1-m2-cE_3tt7-a1-m2-cF 3tt7-a1-m2-cF_3tt7-a1-m2-cG 7fep-a1-m1-cA_7fep-a1-m1-cB 7fep-a1-m1-cA_7fep-a1-m1-cG 7fep-a1-m1-cB_7fep-a1-m1-cC 7fep-a1-m1-cC_7fep-a1-m1-cD 7fep-a1-m1-cD_7fep-a1-m1-cE 7fep-a1-m1-cE_7fep-a1-m1-cF 7fep-a1-m1-cF_7fep-a1-m1-cG 7fep-a1-m1-cH_7fep-a1-m1-cI 7fep-a1-m1-cH_7fep-a1-m1-cN 7fep-a1-m1-cI_7fep-a1-m1-cJ 7fep-a1-m1-cJ_7fep-a1-m1-cK 7fep-a1-m1-cK_7fep-a1-m1-cL 7fep-a1-m1-cL_7fep-a1-m1-cM 7fep-a1-m1-cM_7fep-a1-m1-cN 7feq-a1-m1-cA_7feq-a1-m1-cB 7feq-a1-m1-cA_7feq-a1-m1-cG 7feq-a1-m1-cB_7feq-a1-m1-cC 7feq-a1-m1-cC_7feq-a1-m1-cD 7feq-a1-m1-cD_7feq-a1-m1-cE 7feq-a1-m1-cE_7feq-a1-m1-cF 7feq-a1-m1-cF_7feq-a1-m1-cG 7feq-a1-m1-cH_7feq-a1-m1-cI 7feq-a1-m1-cH_7feq-a1-m1-cN 7feq-a1-m1-cI_7feq-a1-m1-cJ 7feq-a1-m1-cJ_7feq-a1-m1-cK 7feq-a1-m1-cK_7feq-a1-m1-cL 7feq-a1-m1-cL_7feq-a1-m1-cM 7feq-a1-m1-cM_7feq-a1-m1-cN 7fer-a1-m1-cA_7fer-a1-m1-cB 7fer-a1-m1-cA_7fer-a1-m1-cG 7fer-a1-m1-cB_7fer-a1-m1-cC 7fer-a1-m1-cC_7fer-a1-m1-cD 7fer-a1-m1-cD_7fer-a1-m1-cE 7fer-a1-m1-cE_7fer-a1-m1-cF 7fer-a1-m1-cF_7fer-a1-m1-cG 7fer-a1-m1-cH_7fer-a1-m1-cI 7fer-a1-m1-cH_7fer-a1-m1-cN 7fer-a1-m1-cI_7fer-a1-m1-cJ 7fer-a1-m1-cJ_7fer-a1-m1-cK 7fer-a1-m1-cK_7fer-a1-m1-cL 7fer-a1-m1-cL_7fer-a1-m1-cM 7fer-a1-m1-cM_7fer-a1-m1-cN 7p80-a1-m1-cD_7p80-a1-m1-cC 7p81-a1-m1-cA_7p81-a1-m1-cG 7p81-a1-m1-cC_7p81-a1-m1-cB 7p81-a1-m1-cD_7p81-a1-m1-cC 7p81-a1-m1-cF_7p81-a1-m1-cE 7p81-a1-m1-cF_7p81-a1-m1-cG 7p81-a1-m1-cK_7p81-a1-m1-cJ 7p81-a1-m1-cM_7p81-a1-m1-cL 7p81-a2-m1-ca_7p81-a2-m1-cb 7p81-a2-m1-cQ_7p81-a2-m1-cP 7p81-a2-m1-cR_7p81-a2-m1-cQ 7p81-a2-m1-cT_7p81-a2-m1-cS 7p81-a2-m1-cX_7p81-a2-m1-cW 7p81-a2-m1-cY_7p81-a2-m1-cX IPTVIAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLAAEDPEKEISLYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGGAQGQATEIEIAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSAEEALEYGLIDKILTHLEHHHHH IPTVIAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLAAEDPEKEISLYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGGAQGQATEIEIAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSAEEALEYGLIDKILTHLEHHHHH 3ktm-a4-m1-cG_3ktm-a4-m1-cE Structure of the Heparin-induced E1-Dimer of the Amyloid Precursor Protein (APP) P05067 P05067 2.7 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 177 3ktm-a1-m1-cC_3ktm-a1-m1-cA 3ktm-a2-m1-cB_3ktm-a2-m1-cD 3ktm-a3-m1-cF_3ktm-a3-m1-cH LLAEPQIAMFCGRLNMHMNVQNGKWDSDPSGTKTCIDTKEGILQYCQEVYPELQITNVVEANQPVTIQNWCKRGRKQCKTHPHFVIPYRCLVGEFVSDALLVPDKCKFLHQERMDVCETHLHWHTVAKETCSEKSTNLHDYGMLLPCGIDKFRGVEFVCCPLAIEGRKLAAALE AGLLAEPQIAMFCGRLNMHMNVQNGKWDSDPSGTKTCIDTKEGILQYCQEVYPELQITNVVEANQPVTIQNWCKRGRKQCKTHPHFVIPYRCLVGEFVSDALLVPDKCKFLHQERMDVCETHLHWHTVAKETCSEKSTNLHDYGMLLPCGIDKFRGVEFVCCPLAIEGRKLAAALEH 3ktn-a1-m1-cA_3ktn-a1-m6-cA Crystal Structure of a putative 2-Keto-3-deoxygluconate Kinase from Enterococcus faecalis Q837J7 Q837J7 2.26 X-RAY DIFFRACTION 26 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 333 333 3ktn-a1-m2-cA_3ktn-a1-m5-cA 3ktn-a1-m3-cA_3ktn-a1-m4-cA SLKIAAFGEVLRFTPPEYLLEQTEQLRNFVGTGVNLLANLAHFQLETALITKLPANRLGEAGKAALRKLGISDQWVGEKGDHIGSFFAEGYGIRPTQVTYQNRHQSAFGISEAKDYDFEAFLAEVDVHICGISLSLTEKTRDAALILAQKAHAYQKKVCFDFNYRPSLNTANSALFRQQYERILPYCDIVFGSRRDLVELLGFIPREDLEGEAQETELIQRFSQYNLEWFAGTTRSHSQNQNYLSGYLYTQNEYQQSEKRPLLNLDRIGAGDAYAAGILYGYSQNWSLEKAVTFATVNGVLAHTIQGDIPLTTVKQVNHVLEHPNIDLIREGH SLKIAAFGEVLRFTPPEYLLEQTEQLRNFVGTGVNLLANLAHFQLETALITKLPANRLGEAGKAALRKLGISDQWVGEKGDHIGSFFAEGYGIRPTQVTYQNRHQSAFGISEAKDYDFEAFLAEVDVHICGISLSLTEKTRDAALILAQKAHAYQKKVCFDFNYRPSLNTANSALFRQQYERILPYCDIVFGSRRDLVELLGFIPREDLEGEAQETELIQRFSQYNLEWFAGTTRSHSQNQNYLSGYLYTQNEYQQSEKRPLLNLDRIGAGDAYAAGILYGYSQNWSLEKAVTFATVNGVLAHTIQGDIPLTTVKQVNHVLEHPNIDLIREGH 3ktn-a1-m3-cA_3ktn-a1-m6-cA Crystal Structure of a putative 2-Keto-3-deoxygluconate Kinase from Enterococcus faecalis Q837J7 Q837J7 2.26 X-RAY DIFFRACTION 64 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 333 333 3ktn-a1-m1-cA_3ktn-a1-m5-cA 3ktn-a1-m2-cA_3ktn-a1-m4-cA SLKIAAFGEVLRFTPPEYLLEQTEQLRNFVGTGVNLLANLAHFQLETALITKLPANRLGEAGKAALRKLGISDQWVGEKGDHIGSFFAEGYGIRPTQVTYQNRHQSAFGISEAKDYDFEAFLAEVDVHICGISLSLTEKTRDAALILAQKAHAYQKKVCFDFNYRPSLNTANSALFRQQYERILPYCDIVFGSRRDLVELLGFIPREDLEGEAQETELIQRFSQYNLEWFAGTTRSHSQNQNYLSGYLYTQNEYQQSEKRPLLNLDRIGAGDAYAAGILYGYSQNWSLEKAVTFATVNGVLAHTIQGDIPLTTVKQVNHVLEHPNIDLIREGH SLKIAAFGEVLRFTPPEYLLEQTEQLRNFVGTGVNLLANLAHFQLETALITKLPANRLGEAGKAALRKLGISDQWVGEKGDHIGSFFAEGYGIRPTQVTYQNRHQSAFGISEAKDYDFEAFLAEVDVHICGISLSLTEKTRDAALILAQKAHAYQKKVCFDFNYRPSLNTANSALFRQQYERILPYCDIVFGSRRDLVELLGFIPREDLEGEAQETELIQRFSQYNLEWFAGTTRSHSQNQNYLSGYLYTQNEYQQSEKRPLLNLDRIGAGDAYAAGILYGYSQNWSLEKAVTFATVNGVLAHTIQGDIPLTTVKQVNHVLEHPNIDLIREGH 3ktn-a1-m5-cA_3ktn-a1-m6-cA Crystal Structure of a putative 2-Keto-3-deoxygluconate Kinase from Enterococcus faecalis Q837J7 Q837J7 2.26 X-RAY DIFFRACTION 71 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 333 333 3ktn-a1-m1-cA_3ktn-a1-m2-cA 3ktn-a1-m1-cA_3ktn-a1-m3-cA 3ktn-a1-m2-cA_3ktn-a1-m3-cA 3ktn-a1-m4-cA_3ktn-a1-m5-cA 3ktn-a1-m4-cA_3ktn-a1-m6-cA SLKIAAFGEVLRFTPPEYLLEQTEQLRNFVGTGVNLLANLAHFQLETALITKLPANRLGEAGKAALRKLGISDQWVGEKGDHIGSFFAEGYGIRPTQVTYQNRHQSAFGISEAKDYDFEAFLAEVDVHICGISLSLTEKTRDAALILAQKAHAYQKKVCFDFNYRPSLNTANSALFRQQYERILPYCDIVFGSRRDLVELLGFIPREDLEGEAQETELIQRFSQYNLEWFAGTTRSHSQNQNYLSGYLYTQNEYQQSEKRPLLNLDRIGAGDAYAAGILYGYSQNWSLEKAVTFATVNGVLAHTIQGDIPLTTVKQVNHVLEHPNIDLIREGH SLKIAAFGEVLRFTPPEYLLEQTEQLRNFVGTGVNLLANLAHFQLETALITKLPANRLGEAGKAALRKLGISDQWVGEKGDHIGSFFAEGYGIRPTQVTYQNRHQSAFGISEAKDYDFEAFLAEVDVHICGISLSLTEKTRDAALILAQKAHAYQKKVCFDFNYRPSLNTANSALFRQQYERILPYCDIVFGSRRDLVELLGFIPREDLEGEAQETELIQRFSQYNLEWFAGTTRSHSQNQNYLSGYLYTQNEYQQSEKRPLLNLDRIGAGDAYAAGILYGYSQNWSLEKAVTFATVNGVLAHTIQGDIPLTTVKQVNHVLEHPNIDLIREGH 3kto-a1-m1-cA_3kto-a1-m1-cB Crystal structure of response regulator receiver protein from Pseudoalteromonas atlantica 1.98 X-RAY DIFFRACTION 24 1.0 342610 () 342610 () 118 118 3kto-a1-m1-cC_3kto-a1-m1-cA 3kto-a1-m1-cC_3kto-a1-m1-cB PIIYLVDHQKDARAALSKLLSPLDVTIQCFASAESFRQQISDDAIGIIEAHLEDKKDSGIELLETLVKRGFHLPTIVASSSDIPTAVRARASAADFIEKPFIEHVLVHDVQQIINGAK PIIYLVDHQKDARAALSKLLSPLDVTIQCFASAESFRQQISDDAIGIIEAHLEDKKDSGIELLETLVKRGFHLPTIVASSSDIPTAVRARASAADFIEKPFIEHVLVHDVQQIINGAK 3kty-a2-m1-cC_3kty-a2-m1-cB Crystal Structure of Probable Methyltransferase from Bordetella pertussis Tohama I Q7VXA3 Q7VXA3 2.302 X-RAY DIFFRACTION 48 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 166 169 3kty-a1-m1-cA_3kty-a1-m2-cA TQAFSRVRFITQPSHPGNVGSAARAIKTGFGELVLVAPRFPDTAQPEAVALASGALDVLERAAVHDTLEEALAPVTLAFALTTRVRDLGPPPCDIREAAGLARRHLDDTEAGVVAIVLGTERAGLTNAQIELCHRICHIPANPQYSSLNVAQALQLAAWELRYALL SNATQAFSRVRFITQPSHPGNVGSAARAIKTGFGELVLVAPRFPDTAQPEAVALASGALDVLERAAVHDTLEEALAPVTLAFALTTRVRDLGPPPCDIREAAGLARRHLDDTEAGVVAIVLGTERAGLTNAQIELCHRICHIPANPQYSSLNVAQALQLAAWELRYALL 3ku5-a1-m2-cB_3ku5-a1-m3-cB Crystal structure of a H2N2 influenza virus hemagglutinin, human like C7S226 C7S226 1.73 X-RAY DIFFRACTION 57 1.0 387161 (Influenza A virus (A/Japan/305/1957(H2N2))) 387161 (Influenza A virus (A/Japan/305/1957(H2N2))) 172 172 1jsm-a2-m1-cB_1jsm-a2-m2-cB 1jsm-a2-m1-cB_1jsm-a2-m3-cB 1jsm-a2-m2-cB_1jsm-a2-m3-cB 1jso-a2-m1-cB_1jso-a2-m2-cB 1jso-a2-m1-cB_1jso-a2-m3-cB 1jso-a2-m2-cB_1jso-a2-m3-cB 3ku3-a1-m1-cB_3ku3-a1-m2-cB 3ku3-a1-m1-cB_3ku3-a1-m3-cB 3ku3-a1-m2-cB_3ku3-a1-m3-cB 3ku5-a1-m1-cB_3ku5-a1-m2-cB 3ku5-a1-m1-cB_3ku5-a1-m3-cB 3ku6-a1-m1-cB_3ku6-a1-m2-cB 3ku6-a1-m1-cB_3ku6-a1-m3-cB 3ku6-a1-m2-cB_3ku6-a1-m3-cB 3qqb-a1-m1-cB_3qqb-a1-m2-cB 3qqb-a1-m1-cB_3qqb-a1-m3-cB 3qqb-a1-m2-cB_3qqb-a1-m3-cB 3qqe-a1-m1-cB_3qqe-a1-m2-cB 3qqe-a1-m1-cB_3qqe-a1-m3-cB 3qqe-a1-m2-cB_3qqe-a1-m3-cB 3qqo-a1-m1-cB_3qqo-a1-m1-cD 3qqo-a1-m1-cB_3qqo-a1-m1-cF 3qqo-a1-m1-cD_3qqo-a1-m1-cF 4hf5-a1-m1-cB_4hf5-a1-m2-cB 4hf5-a1-m1-cB_4hf5-a1-m3-cB 4hf5-a1-m2-cB_4hf5-a1-m3-cB 4hfu-a1-m1-cB_4hfu-a1-m2-cB 4hfu-a1-m1-cB_4hfu-a1-m3-cB 4hfu-a1-m2-cB_4hfu-a1-m3-cB 4hfu-a2-m1-cB_4hfu-a2-m2-cB 4hfu-a2-m1-cB_4hfu-a2-m3-cB 4hfu-a2-m2-cB_4hfu-a2-m3-cB 4hfu-a2-m4-cB_4hfu-a2-m5-cB 4hfu-a2-m4-cB_4hfu-a2-m6-cB 4hfu-a2-m5-cB_4hfu-a2-m6-cB 4hg4-a1-m1-ca_4hg4-a1-m1-cc 4hg4-a1-m1-cb_4hg4-a1-m1-ca 4hg4-a1-m1-cb_4hg4-a1-m1-cc 4hg4-a2-m1-cd_4hg4-a2-m1-ce 4hg4-a2-m1-cd_4hg4-a2-m1-cf 4hg4-a2-m1-ce_4hg4-a2-m1-cf 4hg4-a3-m1-cg_4hg4-a3-m1-ci 4hg4-a3-m1-ch_4hg4-a3-m1-cg 4hg4-a3-m1-ch_4hg4-a3-m1-ci 4hlz-a1-m1-cB_4hlz-a1-m1-cD 4hlz-a1-m1-cB_4hlz-a1-m1-cF 4hlz-a1-m1-cD_4hlz-a1-m1-cF 4w8n-a1-m1-cB_4w8n-a1-m1-cD 4w8n-a1-m1-cF_4w8n-a1-m1-cB 4w8n-a1-m1-cF_4w8n-a1-m1-cD 7l0l-a1-m1-cB_7l0l-a1-m1-cE 7l0l-a1-m1-cB_7l0l-a1-m1-cF 7l0l-a1-m1-cE_7l0l-a1-m1-cF GLFGAIAGFIEGGWQGMVDGWYGYHHSNDQGSGYAADKESTQKAFDGITNKVNSVIEKMNTQFEAVGKEFSNLERRLENLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRMQLRDNVKELGNGCFEFYHKCDDECMNSVKNGTYDYPKYEEESKLNRNE GLFGAIAGFIEGGWQGMVDGWYGYHHSNDQGSGYAADKESTQKAFDGITNKVNSVIEKMNTQFEAVGKEFSNLERRLENLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRMQLRDNVKELGNGCFEFYHKCDDECMNSVKNGTYDYPKYEEESKLNRNE 3ku7-a1-m1-cB_3ku7-a1-m1-cA Crystal structure of Helicobacter pylori MinE, a cell division topological specificity factor O25099 O25099 2.8 X-RAY DIFFRACTION 60 0.983 210 (Helicobacter pylori) 210 (Helicobacter pylori) 58 61 3mcd-a1-m1-cB_3mcd-a1-m1-cA ATDRLKLILAKERTLNLPYMEEMRKEIIAVIQKYTKSSDIHFKTLSVETIEVEIILPR AATATDRLKLILAKERTLNLPYMEEMRKEIIAVIQKYTKSSDIHFKTLQSVETIEVEIILP 3kum-a4-m1-cH_3kum-a4-m1-cG Crystal structure of Dipeptide Epimerase from Enterococcus faecalis V583 complexed with Mg and dipeptide L-Arg-L-Tyr Q834W6 Q834W6 1.9 X-RAY DIFFRACTION 88 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 353 354 3jva-a1-m1-cA_3jva-a1-m1-cB 3jva-a1-m1-cC_3jva-a1-m1-cD 3jva-a1-m1-cE_3jva-a1-m1-cF 3jva-a1-m1-cG_3jva-a1-m1-cH 3jzu-a10-m1-cC_3jzu-a10-m1-cD 3jzu-a11-m1-cE_3jzu-a11-m1-cF 3jzu-a12-m1-cG_3jzu-a12-m1-cH 3jzu-a9-m1-cA_3jzu-a9-m1-cB 3k1g-a10-m1-cC_3k1g-a10-m1-cD 3k1g-a11-m1-cE_3k1g-a11-m1-cF 3k1g-a12-m1-cH_3k1g-a12-m1-cG 3k1g-a9-m1-cB_3k1g-a9-m1-cA 3kum-a1-m1-cB_3kum-a1-m1-cA 3kum-a2-m1-cC_3kum-a2-m1-cD 3kum-a3-m1-cE_3kum-a3-m1-cF MKIKQVHVRASKIKLKETFTIALGTIESADSAIVEIETEEGLVGYGEGGPGIFITGETLAGTLETIELFGQAIIGLNPFNIEKIHEVMDKISAFAPAAKAAIDIACYDLMGQKAQLPLYQLLGGYDNQVITDITLGIDEPNVMAQKAVEKVKLGFDTLKIKVGTGIEADIARVKAIREAVGFDIKLRLDANQAWTPKDAVKAIQALADYQIELVEQPVKRRDLEGLKYVTSQVNTTIMADESCFDAQDALELVKKGTVDVINIKLMKCGGIHEALKINQICETAGIECMIGCMAEETTIGITAAAHLAAAQKNITRADLDATFGLETAPVTGGVSLEAKPLLELGEAAGLGIS MKIKQVHVRASKIKLKETFTIALGTIESADSAIVEIETEEGLVGYGEGGPGIFITGETLAGTLETIELFGQAIIGLNPFNIEKIHEVMDKISAFAPAAKAAIDIACYDLMGQKAQLPLYQLLGGYDNQVITDITLGIDEPNVMAQKAVEKVKLGFDTLKIKVGTGIEADIARVKAIREAVGFDIKLRLDANQAWTPKDAVKAIQALADYQIELVEQPVKRRDLEGLKYVTSQVNTTIMADESCFDAQDALELVKKGTVDVINIKLMKCGGIHEALKINQICETAGIECMIGCMAEETTIGITAAAHLAAAQKNITRADLDATFGLETAPVTGGVSLEAKPLLELGEAAGLGISH 3kup-a1-m1-cA_3kup-a1-m1-cB Crystal Structure of the CBX3 Chromo Shadow Domain Q13185 Q13185 1.77 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 62 5t1i-a1-m1-cA_5t1i-a1-m1-cB 6hw2-a1-m1-cC_6hw2-a1-m1-cB PRGFARGLDPERIIGATDSSGELMFLMKWKDSDEADLVLAKEANMKCPQIVIAFYEERL DKPRGFARGLDPERIIGATDSSGELMFLMKWKDSDEADLVLAKEANMKCPQIVIAFYEERLT 3kuu-a5-m2-cB_3kuu-a5-m4-cB Structure of the PurE Phosphoribosylaminoimidazole Carboxylase Catalytic Subunit from Yersinia pestis A0A2S9PDM1 A0A2S9PDM1 1.41 X-RAY DIFFRACTION 38 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 158 158 3kuu-a5-m1-cA_3kuu-a5-m3-cA 3kuu-a5-m1-cA_3kuu-a5-m4-cA 3kuu-a5-m1-cB_3kuu-a5-m3-cB 3kuu-a5-m1-cB_3kuu-a5-m4-cB 3kuu-a5-m2-cA_3kuu-a5-m3-cA 3kuu-a5-m2-cA_3kuu-a5-m4-cA 3kuu-a5-m2-cB_3kuu-a5-m3-cB 3kuu-a6-m1-cD_3kuu-a6-m5-cC 3kuu-a6-m1-cD_3kuu-a6-m7-cC 3kuu-a6-m5-cD_3kuu-a6-m1-cC 3kuu-a6-m5-cD_3kuu-a6-m6-cC 3kuu-a6-m6-cD_3kuu-a6-m5-cC 3kuu-a6-m6-cD_3kuu-a6-m7-cC 3kuu-a6-m7-cD_3kuu-a6-m1-cC 3kuu-a6-m7-cD_3kuu-a6-m6-cC GVKIAIVGSKSDWATQFAADVLTTLNVPFHVEVVSAHRTPDRLFSFAEQAEANGLHVIIAGNGGAAHLPGLAAKTLVPVLGVPVQSAALSGVDSLYSIVQPRGIPVGTLAIGKAGAANAALLAAQILALHDTELAGRLAHWRQSQTDDVLDNPDPREE GVKIAIVGSKSDWATQFAADVLTTLNVPFHVEVVSAHRTPDRLFSFAEQAEANGLHVIIAGNGGAAHLPGLAAKTLVPVLGVPVQSAALSGVDSLYSIVQPRGIPVGTLAIGKAGAANAALLAAQILALHDTELAGRLAHWRQSQTDDVLDNPDPREE 3kuu-a6-m1-cD_3kuu-a6-m7-cD Structure of the PurE Phosphoribosylaminoimidazole Carboxylase Catalytic Subunit from Yersinia pestis A0A2S9PDM1 A0A2S9PDM1 1.41 X-RAY DIFFRACTION 109 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 161 161 3kuu-a5-m1-cB_3kuu-a5-m1-cA 3kuu-a5-m2-cB_3kuu-a5-m2-cA 3kuu-a5-m3-cB_3kuu-a5-m3-cA 3kuu-a5-m4-cB_3kuu-a5-m4-cA 3kuu-a6-m1-cC_3kuu-a6-m5-cC 3kuu-a6-m5-cD_3kuu-a6-m6-cD 3kuu-a6-m6-cC_3kuu-a6-m7-cC AAGVKIAIVGSKSDWATQFAADVLTTLNVPFHVEVVSAHRTPDRLFSFAEQAEANGLHVIIAGNGGAAHLPGLAAKTLVPVLGVPVQSAALSGVDSLYSIVQPRGIPVGTLAIGKAGAANAALLAAQILALHDTELAGRLAHWRQSQTDDVLDNPDPREEA AAGVKIAIVGSKSDWATQFAADVLTTLNVPFHVEVVSAHRTPDRLFSFAEQAEANGLHVIIAGNGGAAHLPGLAAKTLVPVLGVPVQSAALSGVDSLYSIVQPRGIPVGTLAIGKAGAANAALLAAQILALHDTELAGRLAHWRQSQTDDVLDNPDPREEA 3kuu-a6-m7-cD_3kuu-a6-m7-cC Structure of the PurE Phosphoribosylaminoimidazole Carboxylase Catalytic Subunit from Yersinia pestis A0A2S9PDM1 A0A2S9PDM1 1.41 X-RAY DIFFRACTION 78 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 161 163 3kuu-a5-m1-cB_3kuu-a5-m3-cA 3kuu-a5-m2-cB_3kuu-a5-m4-cA 3kuu-a5-m3-cB_3kuu-a5-m2-cA 3kuu-a5-m4-cB_3kuu-a5-m1-cA 3kuu-a6-m1-cD_3kuu-a6-m1-cC 3kuu-a6-m5-cD_3kuu-a6-m5-cC 3kuu-a6-m6-cD_3kuu-a6-m6-cC AAGVKIAIVGSKSDWATQFAADVLTTLNVPFHVEVVSAHRTPDRLFSFAEQAEANGLHVIIAGNGGAAHLPGLAAKTLVPVLGVPVQSAALSGVDSLYSIVQPRGIPVGTLAIGKAGAANAALLAAQILALHDTELAGRLAHWRQSQTDDVLDNPDPREEA AYAAGVKIAIVGSKSDWATQFAADVLTTLNVPFHVEVVSAHRTPDRLFSFAEQAEANGLHVIIAGNGGAAHLPGLAAKTLVPVLGVPVQSAALSGVDSLYSIVQPRGIPVGTLAIGKAGAANAALLAAQILALHDTELAGRLAHWRQSQTDDVLDNPDPREEA 3kux-a2-m1-cA_3kux-a2-m2-cA Structure of the YPO2259 putative oxidoreductase from Yersinia pestis A0A3N4BF22 A0A3N4BF22 2.75 X-RAY DIFFRACTION 128 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 343 343 SNAADKIKVGLLGYGYASKTFHAPLIGTPGLELAGVSSSDASKVHADWPAIPVVSDPQLFNDPSIDLIVIPTPNDTHFPLAQSALAAGKHVVVDKPFTVTLSQANALKEHADDAGLLLSVFHNRRWDSDFLTLKTLLAEGSLGNVVYFESHFDRYRPEIRQRWREQGGGIWYDLGPHLLDQALQLFGLPETLNVDLGLRPGSQSVDYFHAVLSYPGQRVVLHSTVLAAAETARYIVHGTQGSYIKFGVDPQEDRLKAGERLPQADWGYDRDGIVTLSHDNVLTEKPLLTLPGNYPAYYAGIRDAIWGTAPNPVPATEAIKVELIELGIASDQQKKALPIIAKN SNAADKIKVGLLGYGYASKTFHAPLIGTPGLELAGVSSSDASKVHADWPAIPVVSDPQLFNDPSIDLIVIPTPNDTHFPLAQSALAAGKHVVVDKPFTVTLSQANALKEHADDAGLLLSVFHNRRWDSDFLTLKTLLAEGSLGNVVYFESHFDRYRPEIRQRWREQGGGIWYDLGPHLLDQALQLFGLPETLNVDLGLRPGSQSVDYFHAVLSYPGQRVVLHSTVLAAAETARYIVHGTQGSYIKFGVDPQEDRLKAGERLPQADWGYDRDGIVTLSHDNVLTEKPLLTLPGNYPAYYAGIRDAIWGTAPNPVPATEAIKVELIELGIASDQQKKALPIIAKN 3kux-a3-m1-cA_3kux-a3-m3-cA Structure of the YPO2259 putative oxidoreductase from Yersinia pestis A0A3N4BF22 A0A3N4BF22 2.75 X-RAY DIFFRACTION 33 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 343 343 SNAADKIKVGLLGYGYASKTFHAPLIGTPGLELAGVSSSDASKVHADWPAIPVVSDPQLFNDPSIDLIVIPTPNDTHFPLAQSALAAGKHVVVDKPFTVTLSQANALKEHADDAGLLLSVFHNRRWDSDFLTLKTLLAEGSLGNVVYFESHFDRYRPEIRQRWREQGGGIWYDLGPHLLDQALQLFGLPETLNVDLGLRPGSQSVDYFHAVLSYPGQRVVLHSTVLAAAETARYIVHGTQGSYIKFGVDPQEDRLKAGERLPQADWGYDRDGIVTLSHDNVLTEKPLLTLPGNYPAYYAGIRDAIWGTAPNPVPATEAIKVELIELGIASDQQKKALPIIAKN SNAADKIKVGLLGYGYASKTFHAPLIGTPGLELAGVSSSDASKVHADWPAIPVVSDPQLFNDPSIDLIVIPTPNDTHFPLAQSALAAGKHVVVDKPFTVTLSQANALKEHADDAGLLLSVFHNRRWDSDFLTLKTLLAEGSLGNVVYFESHFDRYRPEIRQRWREQGGGIWYDLGPHLLDQALQLFGLPETLNVDLGLRPGSQSVDYFHAVLSYPGQRVVLHSTVLAAAETARYIVHGTQGSYIKFGVDPQEDRLKAGERLPQADWGYDRDGIVTLSHDNVLTEKPLLTLPGNYPAYYAGIRDAIWGTAPNPVPATEAIKVELIELGIASDQQKKALPIIAKN 3kuz-a1-m1-cB_3kuz-a1-m1-cA Crystal structure of the ubiquitin like domain of PLXNC1 O60486 O60486 2.3 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 110 GTVALNVVFEKIPENESADVCRNISVNVLDCDTIGQAKEKIFQAFLSKNGSPYGLQLNEIGLELQMGTRQKELLDIDSSSVILEDGITKLNTIGHYEISNGSTIKVFKK QGTVALNVVFEKIPENESADVCRNISVNVLDCDTIGQAKEKIFQAFLSKNGSPYGLQLNEIGLELQMGTRQKELLDIDSSSVILEDGITKLNTIGHYEISNGSTIKVFKK 3kv0-a2-m1-cA_3kv0-a2-m2-cA Crystal structure of HET-C2: A FUNGAL GLYCOLIPID TRANSFER PROTEIN (GLTP) Q01494 Q01494 1.9 X-RAY DIFFRACTION 49 1.0 177 177 TFLETFSFVDVPIDAEGNAISTAEFLEAAESLTTMFDVLGSIAFSPVTDMLGNVEIRRMLAAPLESQNIQDLVRNELTSHTATEGLLWLVRGLEFTCIALSNIGSTEELADSFRGSYRVTLPHHSFLVPIFSAAMSACPYRDFYALGDDEQVQEELREYLVALDIVNILRFLESEAW TFLETFSFVDVPIDAEGNAISTAEFLEAAESLTTMFDVLGSIAFSPVTDMLGNVEIRRMLAAPLESQNIQDLVRNELTSHTATEGLLWLVRGLEFTCIALSNIGSTEELADSFRGSYRVTLPHHSFLVPIFSAAMSACPYRDFYALGDDEQVQEELREYLVALDIVNILRFLESEAW 3kv1-a1-m1-cA_3kv1-a1-m2-cA Crystal Structure of Putative Sugar-Binding Domain of Transcriptional Repressor from Vibrio fischeri Q5E0H6 Q5E0H6 1.7 X-RAY DIFFRACTION 58 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 244 244 SVQLEQKLVEKFNLKRALISLDQPNTNEQRKQVAALVSSYLNNNLQEGAVAVGQGQNVAAVADHAGIVTQRNARFVSAIGGTHIINADHICRRLAKKYGGSSETLYAPAYVNDPSLRSAFEHATIKETLSQARKAEFALVGIGDDENSHVKLGFFTPKEFVEARLNDGIVGDIGGFDFFKLDGTDADTLRGRVIGLEEDLRQIPNVVAASESRKALSIGALRTGVIDVLATSVSCAALLNLAEN SVQLEQKLVEKFNLKRALISLDQPNTNEQRKQVAALVSSYLNNNLQEGAVAVGQGQNVAAVADHAGIVTQRNARFVSAIGGTHIINADHICRRLAKKYGGSSETLYAPAYVNDPSLRSAFEHATIKETLSQARKAEFALVGIGDDENSHVKLGFFTPKEFVEARLNDGIVGDIGGFDFFKLDGTDADTLRGRVIGLEEDLRQIPNVVAASESRKALSIGALRTGVIDVLATSVSCAALLNLAEN 3kv3-a1-m1-cO_3kv3-a1-m1-cP Crystal structure of C151S mutant of Glyceraldehyde-3-phosphate dehydrogenase 1 (GAPDH 1)from methicillin resistant Staphylococcus aureus MRSA252 complexed with NAD and G3P Q6GIL8 Q6GIL8 2.5 X-RAY DIFFRACTION 131 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 334 334 3hq4-a1-m1-cO_3hq4-a1-m1-cP 3hq4-a1-m1-cQ_3hq4-a1-m1-cR 3k73-a1-m1-cO_3k73-a1-m1-cP 3k73-a1-m1-cQ_3k73-a1-m1-cR 3k9q-a1-m1-cO_3k9q-a1-m1-cP 3k9q-a1-m1-cQ_3k9q-a1-m1-cR 3ksd-a1-m1-cO_3ksd-a1-m1-cP 3ksd-a1-m1-cQ_3ksd-a1-m1-cR 3ksz-a1-m1-cO_3ksz-a1-m1-cP 3ksz-a1-m1-cQ_3ksz-a1-m1-cR 3kv3-a1-m1-cQ_3kv3-a1-m1-cR 3l4s-a1-m1-cP_3l4s-a1-m1-cO 3l4s-a1-m1-cQ_3l4s-a1-m1-cR 3l6o-a1-m1-cO_3l6o-a1-m1-cP 3l6o-a1-m1-cQ_3l6o-a1-m1-cR 3lc1-a1-m1-cO_3lc1-a1-m1-cP 3lc1-a1-m1-cQ_3lc1-a1-m1-cR 3lc2-a1-m1-cO_3lc2-a1-m1-cP 3lc2-a1-m1-cQ_3lc2-a1-m1-cR 3lc7-a1-m1-cP_3lc7-a1-m1-cO 3lc7-a1-m1-cR_3lc7-a1-m1-cQ 3lvf-a1-m1-cO_3lvf-a1-m1-cP 3lvf-a1-m1-cQ_3lvf-a1-m1-cR 3vaz-a1-m1-cO_3vaz-a1-m1-cP 3vaz-a2-m1-cQ_3vaz-a2-m1-cR 3vaz-a3-m1-cA_3vaz-a3-m1-cB 5t73-a1-m1-cA_5t73-a1-m1-cB 5t73-a1-m1-cC_5t73-a1-m1-cD MAVKVAINGFGRIGRLAFRRIQEVEGLEVVAVNDLTDDDMLAHLLKYDTMQGRFTGEVEVVDGGFRVNGKEVKSFSEPDASKLPWKDLNIDVVLECTGFYTDKDKAQAHIEAGAKKVLISAPATGDLKTIVFNTNHQELDGSETVVSGASSTTNSLAPVAKVLNDDFGLVEGLMTTIHAYTGDQNTQDAPHRKGDKRRARAAAENIIPNSTGAAKAIGKVIPEIDGKLDGGAQRVPVATGSLTELTVVLEKQDVTVEQVNEAMKNASNESFGYTEDEIVSSDVVGMTYGSLFDATQTRVMSVGDRQLVKVAAWYDNEMSYTAQLVRTLAYLAEL MAVKVAINGFGRIGRLAFRRIQEVEGLEVVAVNDLTDDDMLAHLLKYDTMQGRFTGEVEVVDGGFRVNGKEVKSFSEPDASKLPWKDLNIDVVLECTGFYTDKDKAQAHIEAGAKKVLISAPATGDLKTIVFNTNHQELDGSETVVSGASSTTNSLAPVAKVLNDDFGLVEGLMTTIHAYTGDQNTQDAPHRKGDKRRARAAAENIIPNSTGAAKAIGKVIPEIDGKLDGGAQRVPVATGSLTELTVVLEKQDVTVEQVNEAMKNASNESFGYTEDEIVSSDVVGMTYGSLFDATQTRVMSVGDRQLVKVAAWYDNEMSYTAQLVRTLAYLAEL 3kv3-a1-m1-cP_3kv3-a1-m1-cQ Crystal structure of C151S mutant of Glyceraldehyde-3-phosphate dehydrogenase 1 (GAPDH 1)from methicillin resistant Staphylococcus aureus MRSA252 complexed with NAD and G3P Q6GIL8 Q6GIL8 2.5 X-RAY DIFFRACTION 111 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 334 334 3hq4-a1-m1-cO_3hq4-a1-m1-cR 3hq4-a1-m1-cP_3hq4-a1-m1-cQ 3k73-a1-m1-cO_3k73-a1-m1-cR 3k73-a1-m1-cP_3k73-a1-m1-cQ 3k9q-a1-m1-cO_3k9q-a1-m1-cR 3k9q-a1-m1-cP_3k9q-a1-m1-cQ 3ksd-a1-m1-cO_3ksd-a1-m1-cR 3ksd-a1-m1-cQ_3ksd-a1-m1-cP 3ksz-a1-m1-cO_3ksz-a1-m1-cR 3ksz-a1-m1-cQ_3ksz-a1-m1-cP 3kv3-a1-m1-cO_3kv3-a1-m1-cR 3l4s-a1-m1-cO_3l4s-a1-m1-cR 3l4s-a1-m1-cP_3l4s-a1-m1-cQ 3l6o-a1-m1-cO_3l6o-a1-m1-cR 3l6o-a1-m1-cP_3l6o-a1-m1-cQ 3lc1-a1-m1-cO_3lc1-a1-m1-cR 3lc1-a1-m1-cQ_3lc1-a1-m1-cP 3lc2-a1-m1-cO_3lc2-a1-m1-cR 3lc2-a1-m1-cP_3lc2-a1-m1-cQ 3lc7-a1-m1-cO_3lc7-a1-m1-cR 3lc7-a1-m1-cP_3lc7-a1-m1-cQ 3lvf-a1-m1-cO_3lvf-a1-m1-cR 3lvf-a1-m1-cQ_3lvf-a1-m1-cP 5t73-a1-m1-cA_5t73-a1-m1-cD 5t73-a1-m1-cB_5t73-a1-m1-cC MAVKVAINGFGRIGRLAFRRIQEVEGLEVVAVNDLTDDDMLAHLLKYDTMQGRFTGEVEVVDGGFRVNGKEVKSFSEPDASKLPWKDLNIDVVLECTGFYTDKDKAQAHIEAGAKKVLISAPATGDLKTIVFNTNHQELDGSETVVSGASSTTNSLAPVAKVLNDDFGLVEGLMTTIHAYTGDQNTQDAPHRKGDKRRARAAAENIIPNSTGAAKAIGKVIPEIDGKLDGGAQRVPVATGSLTELTVVLEKQDVTVEQVNEAMKNASNESFGYTEDEIVSSDVVGMTYGSLFDATQTRVMSVGDRQLVKVAAWYDNEMSYTAQLVRTLAYLAEL MAVKVAINGFGRIGRLAFRRIQEVEGLEVVAVNDLTDDDMLAHLLKYDTMQGRFTGEVEVVDGGFRVNGKEVKSFSEPDASKLPWKDLNIDVVLECTGFYTDKDKAQAHIEAGAKKVLISAPATGDLKTIVFNTNHQELDGSETVVSGASSTTNSLAPVAKVLNDDFGLVEGLMTTIHAYTGDQNTQDAPHRKGDKRRARAAAENIIPNSTGAAKAIGKVIPEIDGKLDGGAQRVPVATGSLTELTVVLEKQDVTVEQVNEAMKNASNESFGYTEDEIVSSDVVGMTYGSLFDATQTRVMSVGDRQLVKVAAWYDNEMSYTAQLVRTLAYLAEL 3kv3-a1-m1-cP_3kv3-a1-m1-cR Crystal structure of C151S mutant of Glyceraldehyde-3-phosphate dehydrogenase 1 (GAPDH 1)from methicillin resistant Staphylococcus aureus MRSA252 complexed with NAD and G3P Q6GIL8 Q6GIL8 2.5 X-RAY DIFFRACTION 29 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 334 334 3hq4-a1-m1-cO_3hq4-a1-m1-cQ 3hq4-a1-m1-cP_3hq4-a1-m1-cR 3k73-a1-m1-cO_3k73-a1-m1-cQ 3k73-a1-m1-cP_3k73-a1-m1-cR 3k9q-a1-m1-cO_3k9q-a1-m1-cQ 3k9q-a1-m1-cP_3k9q-a1-m1-cR 3ksd-a1-m1-cO_3ksd-a1-m1-cQ 3ksd-a1-m1-cR_3ksd-a1-m1-cP 3ksz-a1-m1-cP_3ksz-a1-m1-cR 3ksz-a1-m1-cQ_3ksz-a1-m1-cO 3kv3-a1-m1-cO_3kv3-a1-m1-cQ 3l4s-a1-m1-cO_3l4s-a1-m1-cQ 3l4s-a1-m1-cP_3l4s-a1-m1-cR 3l6o-a1-m1-cO_3l6o-a1-m1-cQ 3l6o-a1-m1-cP_3l6o-a1-m1-cR 3lc1-a1-m1-cO_3lc1-a1-m1-cQ 3lc1-a1-m1-cP_3lc1-a1-m1-cR 3lc2-a1-m1-cO_3lc2-a1-m1-cQ 3lc2-a1-m1-cP_3lc2-a1-m1-cR 3lc7-a1-m1-cO_3lc7-a1-m1-cQ 3lc7-a1-m1-cP_3lc7-a1-m1-cR 3lvf-a1-m1-cO_3lvf-a1-m1-cQ 3lvf-a1-m1-cR_3lvf-a1-m1-cP 5t73-a1-m1-cA_5t73-a1-m1-cC 5t73-a1-m1-cB_5t73-a1-m1-cD MAVKVAINGFGRIGRLAFRRIQEVEGLEVVAVNDLTDDDMLAHLLKYDTMQGRFTGEVEVVDGGFRVNGKEVKSFSEPDASKLPWKDLNIDVVLECTGFYTDKDKAQAHIEAGAKKVLISAPATGDLKTIVFNTNHQELDGSETVVSGASSTTNSLAPVAKVLNDDFGLVEGLMTTIHAYTGDQNTQDAPHRKGDKRRARAAAENIIPNSTGAAKAIGKVIPEIDGKLDGGAQRVPVATGSLTELTVVLEKQDVTVEQVNEAMKNASNESFGYTEDEIVSSDVVGMTYGSLFDATQTRVMSVGDRQLVKVAAWYDNEMSYTAQLVRTLAYLAEL MAVKVAINGFGRIGRLAFRRIQEVEGLEVVAVNDLTDDDMLAHLLKYDTMQGRFTGEVEVVDGGFRVNGKEVKSFSEPDASKLPWKDLNIDVVLECTGFYTDKDKAQAHIEAGAKKVLISAPATGDLKTIVFNTNHQELDGSETVVSGASSTTNSLAPVAKVLNDDFGLVEGLMTTIHAYTGDQNTQDAPHRKGDKRRARAAAENIIPNSTGAAKAIGKVIPEIDGKLDGGAQRVPVATGSLTELTVVLEKQDVTVEQVNEAMKNASNESFGYTEDEIVSSDVVGMTYGSLFDATQTRVMSVGDRQLVKVAAWYDNEMSYTAQLVRTLAYLAEL 3kv5-a3-m2-cD_3kv5-a3-m1-cA Structure of KIAA1718, human Jumonji demethylase, in complex with N-oxalylglycine Q6ZMT4 Q6ZMT4 2.39 X-RAY DIFFRACTION 35 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 445 447 3kv6-a3-m1-cA_3kv6-a3-m2-cD PPPPPPVYCVCRQPYDVNRFMIECDICKDWFHGSCVGVEEHHAVDIDLYHCPNCAVLHGSSLMKKRRNWHRHDYTEIDDGSKPVQAGTRTFIKELRSRVFPSADEIIIKMHGSQLTQRYLEKHGFDVPIMVPKLDDLGLRLPSPTFSVMDVERYVGGDKVIDVIDVARQADSKMTLHNYVKYFMNPNRPKVLNVISLEFSDTKMSELVEVPDIAKKLSWVENYWPDDSVFPKPFVQKYCLMGVQDSYTDFHIDFGGTSVWYHVLWGEKIFYLIKPTDENLARYESWSSSVTQSEVFFGDKVDKCYKCVVKQGHTLFVPTGWIHAVLTSQDCMAFGGNFLHNLNIGMQLRCYEMEKRLKTPDLFKFPFFEAICWFVAKNLLETLKELREDGFQPQTYLVQGVKALHTALKLWMKKELHAFEIPDNVRPGHLIKELSKVIRAIEEEN PPPPPVYCVCRQPYDVNRFMIECDICKDWFHGSCVGVEEHHAVDIDLYHCPNCAVLHGSSLMKKRRNWHRHDYTEIDDGSKPVQAGTRTFIKELRSRVFPSADEIIIKMHGSQLTQRYLEKHGFDVPIMVPKLDDLGLRLPSPTFSVMDVERYVGGDKVIDVIDVARQADSKMTLHNYVKYFMNPNRPKVLNVISLEFSDTKMSELVEVPDIAKKLSWVENYWPDDSVFPKPFVQKYCLMGVQDSYTDFHIDFGGTSVWYHVLWGEKIFYLIKPTDENLARYESWSSSVTQSEVFFGDKVDKCYKCVVKQGHTLFVPTGWIHAVLTSQDCMAFGGNFLHNLNIGMQLRCYEMEKRLKTPDLFKFPFFEAICWFVAKNLLETLKELREDGFQPQTYLVQGVKALHTALKLWMKKELVSEHAFEIPDNVRPGHLIKELSKVIRAIEEEN 3kv9-a2-m1-cA_3kv9-a2-m2-cA Structure of KIAA1718 Jumonji domain Q6ZMT4 Q6ZMT4 2.29 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 366 366 3kva-a2-m1-cA_3kva-a2-m2-cA 3kvb-a2-m1-cA_3kvb-a2-m2-cA PVQAGTRTFIKELRSRVFPSADEIIIKMHGSQLTQRYLEKHGFDVPIMVPKLDDLGLRLPSPTFSVMDVERYVGGDKVIDVIDVARQADSKMTLHNYVKYFMNPNRPKVLNVISLEFSDTKMSELVEVPDIAKKLSWVENYWPDDSVFPKPFVQKYCLMGVQDSYTDFHIDFGGTSVWYHVLWGEKIFYLIKPTDENLARYESWSSSVTQSEVFFGDKVDKCYKCVVKQGHTLFVPTGWIHAVLTSQDCMAFGGNFLHNLNIGMQLRCYEMEKRLKTPDLFKFPFFEAICWFVAKNLLETLKELREDGFQPQTYLVQGVKALHTALKLWMKKELVSEHAFEIPDNVRPGHLIKELSKVIRAIEEEN PVQAGTRTFIKELRSRVFPSADEIIIKMHGSQLTQRYLEKHGFDVPIMVPKLDDLGLRLPSPTFSVMDVERYVGGDKVIDVIDVARQADSKMTLHNYVKYFMNPNRPKVLNVISLEFSDTKMSELVEVPDIAKKLSWVENYWPDDSVFPKPFVQKYCLMGVQDSYTDFHIDFGGTSVWYHVLWGEKIFYLIKPTDENLARYESWSSSVTQSEVFFGDKVDKCYKCVVKQGHTLFVPTGWIHAVLTSQDCMAFGGNFLHNLNIGMQLRCYEMEKRLKTPDLFKFPFFEAICWFVAKNLLETLKELREDGFQPQTYLVQGVKALHTALKLWMKKELVSEHAFEIPDNVRPGHLIKELSKVIRAIEEEN 3kve-a1-m1-cA_3kve-a1-m1-cD Structure of native L-amino acid oxidase from Vipera ammodytes ammodytes: stabilization of the quaternary structure by divalent ions and structural changes in the dynamic active site P0DI84 P0DI84 2.57 X-RAY DIFFRACTION 20 1.0 8705 (Vipera ammodytes ammodytes) 8705 (Vipera ammodytes ammodytes) 484 484 3kve-a1-m1-cB_3kve-a1-m1-cC DRNPLEECFRETDYEEFLEIARNGLKKTSNPKHVVVVGAGMSGLSAAYVLAGAGHKVTVLEASERAGGRVRTHRNSKEGWYANLGPMRIPEKHRIVREYIRKFGLNLNEFSQENDNAWYFIKNIRKRVGEVNKDPGLLKYPVKPSEEGKSAGQLYEESLGSAVKDLKRTNCSYILNKYDTYSTKEYLIKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDQLPTSMYRAIEEKVKFNARVIKIQQNANQVTVTYQTPEKDTSSNTADYVIVCTTSRAARRIQFEPPLPPKKQHALRSVHYRSGTKIFLTCSSKFWEDDGIHGGKSTTDLPSRFIYYPNHNFSTGVGVIIAYGIGDDANFFQALKFKDCADIVFNDLSLIHQLPKEEIQSFCYPSMIQKWSLDKYAMGAITTFTPYQFQRFSEALTAPQGRIFFAGEYTAEAHGWIDSTIKSGLTAARDVNRASEQ DRNPLEECFRETDYEEFLEIARNGLKKTSNPKHVVVVGAGMSGLSAAYVLAGAGHKVTVLEASERAGGRVRTHRNSKEGWYANLGPMRIPEKHRIVREYIRKFGLNLNEFSQENDNAWYFIKNIRKRVGEVNKDPGLLKYPVKPSEEGKSAGQLYEESLGSAVKDLKRTNCSYILNKYDTYSTKEYLIKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDQLPTSMYRAIEEKVKFNARVIKIQQNANQVTVTYQTPEKDTSSNTADYVIVCTTSRAARRIQFEPPLPPKKQHALRSVHYRSGTKIFLTCSSKFWEDDGIHGGKSTTDLPSRFIYYPNHNFSTGVGVIIAYGIGDDANFFQALKFKDCADIVFNDLSLIHQLPKEEIQSFCYPSMIQKWSLDKYAMGAITTFTPYQFQRFSEALTAPQGRIFFAGEYTAEAHGWIDSTIKSGLTAARDVNRASEQ 3kve-a1-m1-cB_3kve-a1-m1-cD Structure of native L-amino acid oxidase from Vipera ammodytes ammodytes: stabilization of the quaternary structure by divalent ions and structural changes in the dynamic active site P0DI84 P0DI84 2.57 X-RAY DIFFRACTION 11 1.0 8705 (Vipera ammodytes ammodytes) 8705 (Vipera ammodytes ammodytes) 484 484 DRNPLEECFRETDYEEFLEIARNGLKKTSNPKHVVVVGAGMSGLSAAYVLAGAGHKVTVLEASERAGGRVRTHRNSKEGWYANLGPMRIPEKHRIVREYIRKFGLNLNEFSQENDNAWYFIKNIRKRVGEVNKDPGLLKYPVKPSEEGKSAGQLYEESLGSAVKDLKRTNCSYILNKYDTYSTKEYLIKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDQLPTSMYRAIEEKVKFNARVIKIQQNANQVTVTYQTPEKDTSSNTADYVIVCTTSRAARRIQFEPPLPPKKQHALRSVHYRSGTKIFLTCSSKFWEDDGIHGGKSTTDLPSRFIYYPNHNFSTGVGVIIAYGIGDDANFFQALKFKDCADIVFNDLSLIHQLPKEEIQSFCYPSMIQKWSLDKYAMGAITTFTPYQFQRFSEALTAPQGRIFFAGEYTAEAHGWIDSTIKSGLTAARDVNRASEQ DRNPLEECFRETDYEEFLEIARNGLKKTSNPKHVVVVGAGMSGLSAAYVLAGAGHKVTVLEASERAGGRVRTHRNSKEGWYANLGPMRIPEKHRIVREYIRKFGLNLNEFSQENDNAWYFIKNIRKRVGEVNKDPGLLKYPVKPSEEGKSAGQLYEESLGSAVKDLKRTNCSYILNKYDTYSTKEYLIKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDQLPTSMYRAIEEKVKFNARVIKIQQNANQVTVTYQTPEKDTSSNTADYVIVCTTSRAARRIQFEPPLPPKKQHALRSVHYRSGTKIFLTCSSKFWEDDGIHGGKSTTDLPSRFIYYPNHNFSTGVGVIIAYGIGDDANFFQALKFKDCADIVFNDLSLIHQLPKEEIQSFCYPSMIQKWSLDKYAMGAITTFTPYQFQRFSEALTAPQGRIFFAGEYTAEAHGWIDSTIKSGLTAARDVNRASEQ 3kve-a1-m1-cC_3kve-a1-m1-cD Structure of native L-amino acid oxidase from Vipera ammodytes ammodytes: stabilization of the quaternary structure by divalent ions and structural changes in the dynamic active site P0DI84 P0DI84 2.57 X-RAY DIFFRACTION 130 1.0 8705 (Vipera ammodytes ammodytes) 8705 (Vipera ammodytes ammodytes) 484 484 3kve-a1-m1-cA_3kve-a1-m1-cB DRNPLEECFRETDYEEFLEIARNGLKKTSNPKHVVVVGAGMSGLSAAYVLAGAGHKVTVLEASERAGGRVRTHRNSKEGWYANLGPMRIPEKHRIVREYIRKFGLNLNEFSQENDNAWYFIKNIRKRVGEVNKDPGLLKYPVKPSEEGKSAGQLYEESLGSAVKDLKRTNCSYILNKYDTYSTKEYLIKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDQLPTSMYRAIEEKVKFNARVIKIQQNANQVTVTYQTPEKDTSSNTADYVIVCTTSRAARRIQFEPPLPPKKQHALRSVHYRSGTKIFLTCSSKFWEDDGIHGGKSTTDLPSRFIYYPNHNFSTGVGVIIAYGIGDDANFFQALKFKDCADIVFNDLSLIHQLPKEEIQSFCYPSMIQKWSLDKYAMGAITTFTPYQFQRFSEALTAPQGRIFFAGEYTAEAHGWIDSTIKSGLTAARDVNRASEQ DRNPLEECFRETDYEEFLEIARNGLKKTSNPKHVVVVGAGMSGLSAAYVLAGAGHKVTVLEASERAGGRVRTHRNSKEGWYANLGPMRIPEKHRIVREYIRKFGLNLNEFSQENDNAWYFIKNIRKRVGEVNKDPGLLKYPVKPSEEGKSAGQLYEESLGSAVKDLKRTNCSYILNKYDTYSTKEYLIKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDQLPTSMYRAIEEKVKFNARVIKIQQNANQVTVTYQTPEKDTSSNTADYVIVCTTSRAARRIQFEPPLPPKKQHALRSVHYRSGTKIFLTCSSKFWEDDGIHGGKSTTDLPSRFIYYPNHNFSTGVGVIIAYGIGDDANFFQALKFKDCADIVFNDLSLIHQLPKEEIQSFCYPSMIQKWSLDKYAMGAITTFTPYQFQRFSEALTAPQGRIFFAGEYTAEAHGWIDSTIKSGLTAARDVNRASEQ 3kvo-a3-m1-cA_3kvo-a3-m1-cB Crystal structure of the catalytic domain of human Hydroxysteroid dehydrogenase like 2 (HSDL2) Q6YN16 Q6YN16 2.25 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 276 MLPNTGRLAGCTVFITGASRGIGKAIALKAAKDGANIVIAAKTAQPHPKLLGTIYTAAEEIEAVGGKALPCIVDVRDEQQISAAVEKAIKKFGGIDILVNNASAISLTNTLDTPTKRLDLMMNVNTRGTYLASKACIPYLKKSKVAHILNISPPLNLNPVWFKQHCAYTIAKYGMSMYVLGMAEEFKGEIAVNALWPKTAIHTAAMDMLGGIESQCRKVDIIADAAYSIFQKPKSFTGNFVIDENILKEEGIENFDVYAIKPGHPLQPDFFLD MLPNTGRLAGCTVFITGASRGIGKAIALKAAKDGANIVIAAKTAQPHPKLLGTIYTAAEEIEAVGGKALPCIVDVRDEQQISAAVEKAIKKFGGIDILVNNASAISLTNTLDTPTKRLDLMMNVNTRGTYLASKACIPYLKKSKVAHILNISPPLNLNPVWFKQHCAYTIAKYGMSMYVLGMAEEFKGEIAVNALWPKTAIHTAAMDMLGGPGIESQCRKVDIIADAAYSIFQKPKSFTGNFVIDENILKEEGIENFDVYAIKPGHPLQPDFFLDE 3kvp-a1-m1-cE_3kvp-a1-m1-cC Crystal Structure of Uncharacterized protein ymzC Precursor from Bacillus subtilis, Northeast Structural Genomics Consortium Target SR378A O31797 O31797 2.404 X-RAY DIFFRACTION 44 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 42 44 3kvp-a1-m1-cC_3kvp-a1-m1-cD 3kvp-a1-m1-cF_3kvp-a1-m1-cA 3kvp-a1-m1-cF_3kvp-a1-m1-cB QPTSFPLEHNHFGVEDGYIKIYEYNESRNEVKLKKEYADDEL QPTSFPLEHNHFGVEDGYIKIYEYNESRNEVKLKKEYADDELEL 3kvq-a1-m1-cA_3kvq-a1-m2-cA Crystal structure of VEGFR2 extracellular domain D7 P35968 P35968 2.7 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 PTITGNLENQTTSIGESIEVSCTASPQIMWFKDNETLVEDSGIVLKDGNRNLTIRRVRKEDEGLYTCQACCAKVEAFFIIEG PTITGNLENQTTSIGESIEVSCTASPQIMWFKDNETLVEDSGIVLKDGNRNLTIRRVRKEDEGLYTCQACCAKVEAFFIIEG 3kvs-a1-m2-cA_3kvs-a1-m6-cA The high resolution structure of C-Phycocyanin from Galdieria Sulphuraria P00306 P00306 1.5 X-RAY DIFFRACTION 23 1.0 130081 (Galdieria sulphuraria) 130081 (Galdieria sulphuraria) 160 160 1phn-a2-m1-cA_1phn-a2-m6-cA 1phn-a2-m2-cA_1phn-a2-m5-cA 1phn-a2-m3-cA_1phn-a2-m4-cA 1phn-a4-m3-cA_1phn-a4-m4-cA 3brp-a1-m1-cA_3brp-a1-m4-cA 3brp-a1-m2-cA_3brp-a1-m6-cA 3brp-a1-m3-cA_3brp-a1-m5-cA 3kvs-a1-m1-cA_3kvs-a1-m4-cA 3kvs-a1-m3-cA_3kvs-a1-m5-cA KTPITEAIAAADNQGRFLSNTELQAVNGRYQRAAASLEAARSLTNAQRLINGAAQAVYSKFPYTSQMPGPQYASSAVGKAKCARDIGYYLRMVTYCLVVGGTGPMDEYLIAGLEEINRTFDLSPSWYVEALNYVKSNHGLSGQAANEANTYIDYAINALS KTPITEAIAAADNQGRFLSNTELQAVNGRYQRAAASLEAARSLTNAQRLINGAAQAVYSKFPYTSQMPGPQYASSAVGKAKCARDIGYYLRMVTYCLVVGGTGPMDEYLIAGLEEINRTFDLSPSWYVEALNYVKSNHGLSGQAANEANTYIDYAINALS 3kvt-a1-m2-cA_3kvt-a1-m4-cA TETRAMERIZATION DOMAIN FROM AKV3.1 (SHAW-SUBFAMILY) VOLTAGE-GATED POTASSIUM CHANNEL O76457 O76457 2 X-RAY DIFFRACTION 49 1.0 6500 (Aplysia californica) 6500 (Aplysia californica) 103 103 3kvt-a1-m1-cA_3kvt-a1-m3-cA 3kvt-a1-m1-cA_3kvt-a1-m4-cA 3kvt-a1-m2-cA_3kvt-a1-m3-cA ENRVIINVGGIRHETYKATLKKIPATRLSRLTEGMLNYDPVLNEYFFDRHPGVFAQIINYYRSGKLHYPTDVCGPLFEEELEFWGLDSNQVEPCCWMTYTAHR ENRVIINVGGIRHETYKATLKKIPATRLSRLTEGMLNYDPVLNEYFFDRHPGVFAQIINYYRSGKLHYPTDVCGPLFEEELEFWGLDSNQVEPCCWMTYTAHR 3kvv-a1-m1-cD_3kvv-a1-m1-cC Trapping of an oxocarbenium ion intermediate in UP crystals P12758 P12758 1.8 X-RAY DIFFRACTION 146 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 240 241 1k3f-a1-m1-cA_1k3f-a1-m1-cD 1k3f-a1-m1-cB_1k3f-a1-m1-cF 1k3f-a1-m1-cC_1k3f-a1-m1-cE 1lx7-a1-m1-cB_1lx7-a1-m1-cA 1lx7-a1-m2-cB_1lx7-a1-m2-cA 1lx7-a1-m3-cB_1lx7-a1-m3-cA 1rxc-a1-m1-cA_1rxc-a1-m1-cB 1rxc-a1-m1-cC_1rxc-a1-m1-cD 1rxc-a1-m1-cE_1rxc-a1-m1-cF 1rxc-a2-m1-cH_1rxc-a2-m1-cG 1rxc-a2-m1-cI_1rxc-a2-m1-cJ 1rxc-a2-m1-cK_1rxc-a2-m1-cL 1rxs-a1-m1-ca_1rxs-a1-m1-cA 1rxs-a1-m1-cb_1rxs-a1-m1-cB 1rxs-a1-m1-cc_1rxs-a1-m1-cC 1rxs-a2-m1-cD_1rxs-a2-m1-cd 1rxs-a2-m1-ce_1rxs-a2-m1-cE 1rxs-a2-m1-cF_1rxs-a2-m1-cR 1rxs-a3-m1-cG_1rxs-a3-m1-cP 1rxs-a3-m1-ch_1rxs-a3-m1-cH 1rxs-a3-m1-cI_1rxs-a3-m1-ci 1rxs-a4-m1-cj_1rxs-a4-m1-cJ 1rxs-a4-m1-ck_1rxs-a4-m1-cK 1rxs-a4-m1-cl_1rxs-a4-m1-cL 1rxs-a5-m1-cM_1rxs-a5-m1-cm 1rxs-a5-m1-cN_1rxs-a5-m1-cQ 1rxs-a5-m1-cO_1rxs-a5-m1-co 1rxu-a1-m1-cA_1rxu-a1-m1-cB 1rxu-a1-m1-cC_1rxu-a1-m1-cD 1rxu-a1-m1-cE_1rxu-a1-m1-cF 1rxu-a2-m1-cG_1rxu-a2-m1-cH 1rxu-a2-m1-cI_1rxu-a2-m1-cJ 1rxu-a2-m1-cK_1rxu-a2-m1-cL 1rxu-a3-m1-cM_1rxu-a3-m1-cN 1rxu-a3-m1-cO_1rxu-a3-m1-cP 1rxu-a3-m1-cQ_1rxu-a3-m1-cR 1rxy-a1-m1-cA_1rxy-a1-m1-cB 1rxy-a1-m2-cA_1rxy-a1-m2-cB 1rxy-a1-m3-cA_1rxy-a1-m3-cB 1ryz-a1-m1-cA_1ryz-a1-m1-cF 1ryz-a1-m1-cB_1ryz-a1-m1-cD 1ryz-a1-m1-cC_1ryz-a1-m1-cE 1ryz-a2-m1-cA_1ryz-a2-m1-cF 1ryz-a2-m1-cB_1ryz-a2-m1-cD 1ryz-a2-m2-cC_1ryz-a2-m2-cE 1ryz-a4-m1-cC_1ryz-a4-m1-cE 1sj9-a1-m1-cA_1sj9-a1-m1-cF 1sj9-a1-m1-cB_1sj9-a1-m1-cD 1sj9-a1-m1-cC_1sj9-a1-m1-cE 1tgv-a1-m1-cB_1tgv-a1-m1-cA 1tgv-a1-m2-cB_1tgv-a1-m2-cA 1tgv-a1-m3-cB_1tgv-a1-m3-cA 1tgy-a1-m1-cA_1tgy-a1-m1-cB 1tgy-a1-m2-cA_1tgy-a1-m2-cB 1tgy-a1-m3-cA_1tgy-a1-m3-cB 1u1c-a1-m1-cB_1u1c-a1-m1-cA 1u1c-a1-m1-cD_1u1c-a1-m1-cC 1u1c-a1-m1-cF_1u1c-a1-m1-cE 1u1d-a1-m1-cB_1u1d-a1-m1-cA 1u1d-a1-m1-cC_1u1d-a1-m1-cD 1u1d-a1-m1-cF_1u1d-a1-m1-cE 1u1e-a1-m1-cB_1u1e-a1-m1-cA 1u1e-a1-m1-cC_1u1e-a1-m1-cD 1u1e-a1-m1-cF_1u1e-a1-m1-cE 1u1f-a1-m1-cA_1u1f-a1-m1-cB 1u1f-a1-m1-cC_1u1f-a1-m1-cD 1u1f-a1-m1-cE_1u1f-a1-m1-cF 1u1g-a1-m1-cA_1u1g-a1-m1-cB 1u1g-a1-m1-cC_1u1g-a1-m1-cD 1u1g-a1-m1-cE_1u1g-a1-m1-cF 1y1q-a1-m1-cB_1y1q-a1-m1-cD 1y1q-a1-m1-cC_1y1q-a1-m1-cF 1y1q-a1-m1-cE_1y1q-a1-m1-cA 1y1r-a1-m1-cE_1y1r-a1-m1-cC 1y1r-a1-m1-cF_1y1r-a1-m1-cA 1y1s-a1-m1-cA_1y1s-a1-m1-cF 1y1s-a1-m1-cB_1y1s-a1-m1-cD 1y1s-a1-m1-cC_1y1s-a1-m1-cE 1y1t-a1-m1-cF_1y1t-a1-m1-cA 1y1t-a1-m2-cF_1y1t-a1-m2-cA 1y1t-a1-m3-cF_1y1t-a1-m3-cA 1zl2-a1-m1-cE_1zl2-a1-m1-cC 1zl2-a1-m1-cF_1zl2-a1-m1-cA 2hn9-a1-m1-cB_2hn9-a1-m1-cD 2hn9-a1-m1-cC_2hn9-a1-m1-cE 2hn9-a1-m1-cF_2hn9-a1-m1-cA 2hrd-a1-m1-cC_2hrd-a1-m1-cE 2hrd-a1-m1-cD_2hrd-a1-m1-cB 2hrd-a1-m1-cF_2hrd-a1-m1-cA 2hsw-a1-m1-cB_2hsw-a1-m1-cA 2hsw-a1-m2-cB_2hsw-a1-m2-cA 2hsw-a1-m3-cB_2hsw-a1-m3-cA 2hwu-a1-m1-cB_2hwu-a1-m1-cD 2hwu-a1-m1-cE_2hwu-a1-m1-cC 2hwu-a1-m1-cF_2hwu-a1-m1-cA 2i8a-a1-m1-cB_2i8a-a1-m1-cE 2i8a-a1-m1-cC_2i8a-a1-m1-cF 2i8a-a1-m1-cD_2i8a-a1-m1-cA 2iq5-a1-m1-cB_2iq5-a1-m1-cA 2iq5-a1-m2-cB_2iq5-a1-m2-cA 2iq5-a1-m3-cB_2iq5-a1-m3-cA 2oec-a1-m1-cB_2oec-a1-m1-cA 2oec-a1-m1-cC_2oec-a1-m1-cD 2oec-a1-m1-cF_2oec-a1-m1-cE 2oxf-a1-m1-cF_2oxf-a1-m1-cA 2oxf-a1-m2-cF_2oxf-a1-m2-cA 2oxf-a1-m3-cF_2oxf-a1-m3-cA 2pga-a1-m1-cE_2pga-a1-m1-cC 2pga-a1-m1-cF_2pga-a1-m1-cA 2qdk-a1-m1-cB_2qdk-a1-m1-cE 2qdk-a1-m1-cC_2qdk-a1-m1-cF 2qdk-a1-m1-cD_2qdk-a1-m1-cA 2rj3-a1-m1-cC_2rj3-a1-m1-cE 2rj3-a1-m1-cD_2rj3-a1-m1-cB 2rj3-a1-m1-cF_2rj3-a1-m1-cA 3c74-a1-m1-cA_3c74-a1-m1-cF 3c74-a1-m1-cB_3c74-a1-m1-cD 3c74-a1-m1-cE_3c74-a1-m1-cC 3ddo-a1-m1-cA_3ddo-a1-m1-cF 3ddo-a1-m1-cB_3ddo-a1-m1-cD 3ddo-a1-m1-cE_3ddo-a1-m1-cC 3dps-a1-m1-cF_3dps-a1-m1-cA 3dps-a1-m2-cF_3dps-a1-m2-cA 3dps-a1-m3-cF_3dps-a1-m3-cA 3fwp-a1-m1-cE_3fwp-a1-m1-cC 3fwp-a1-m1-cF_3fwp-a1-m1-cA 3kvv-a1-m1-cA_3kvv-a1-m1-cB 3kvv-a1-m1-cF_3kvv-a1-m1-cE 4e1v-a1-m1-cB_4e1v-a1-m1-cA 4e1v-a1-m1-cD_4e1v-a1-m1-cC 4e1v-a1-m1-cF_4e1v-a1-m1-cE 4e1v-a2-m1-cG_4e1v-a2-m1-cH 4e1v-a2-m1-cI_4e1v-a2-m2-cI 4e1v-a2-m2-cG_4e1v-a2-m2-cH 4i2v-a1-m1-cA_4i2v-a1-m1-cB 4i2v-a1-m2-cA_4i2v-a1-m2-cB 4i2v-a1-m3-cA_4i2v-a1-m3-cB 4i2v-a2-m1-cC_4i2v-a2-m1-cD 4i2v-a2-m4-cC_4i2v-a2-m4-cD 4i2v-a2-m5-cC_4i2v-a2-m5-cD 4i2v-a3-m1-cE_4i2v-a3-m1-cF 4i2v-a3-m6-cE_4i2v-a3-m6-cF 4i2v-a3-m7-cE_4i2v-a3-m7-cF 4jp5-a1-m1-cA_4jp5-a1-m1-cE 4jp5-a1-m1-cC_4jp5-a1-m1-cB 4jp5-a1-m1-cD_4jp5-a1-m1-cF 4ny1-a1-m1-cA_4ny1-a1-m1-cB 4ny1-a1-m2-cA_4ny1-a1-m2-cB 4ny1-a1-m3-cA_4ny1-a1-m3-cB 4of4-a1-m1-cA_4of4-a1-m1-cB 4of4-a1-m2-cA_4of4-a1-m2-cB 4of4-a1-m3-cA_4of4-a1-m3-cB 4ogk-a1-m1-cA_4ogk-a1-m1-cB 4ogk-a1-m1-cC_4ogk-a1-m1-cD 4ogk-a1-m1-cF_4ogk-a1-m1-cE 7q1i-a1-m1-cAAA_7q1i-a1-m1-cBBB 7q1i-a1-m2-cAAA_7q1i-a1-m2-cBBB 7q1i-a1-m3-cAAA_7q1i-a1-m3-cBBB 7q1j-a1-m1-cAAA_7q1j-a1-m1-cBBB 7q1j-a1-m2-cAAA_7q1j-a1-m2-cBBB 7q1j-a1-m3-cAAA_7q1j-a1-m3-cBBB 7q31-a1-m1-cAAA_7q31-a1-m1-cBBB 7q31-a1-m2-cAAA_7q31-a1-m2-cBBB 7q31-a1-m3-cAAA_7q31-a1-m3-cBBB 7q32-a1-m1-cAAA_7q32-a1-m1-cBBB 7q32-a1-m2-cAAA_7q32-a1-m2-cBBB 7q32-a1-m3-cAAA_7q32-a1-m3-cBBB SDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRHFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQQTESHAVKIVVEAARRLL SDVFHLGLTKNDLQGATLAIVPGDPDRVEKIAALMDKPVKLASHREFTTWRAELDGKPVIVCSTGIGGPSTSIAVEELAQLGIRTFLRIGTTGAIQPHINVGDVLVTTASVRLDGASLHFAPLEFPAVADFECTTALVEAAKSIGATTHVGVTASSDTFYPGQERYDTYSGRVVRHFKGSMEEWQAMGVMNYEMESATLLTMCASQGLRAGMVAGVIVNRTQKQTESHAVKIVVEAARRLL 3kvy-a1-m1-cA_3kvy-a1-m1-cB Trapping of an oxocarbenium ion intermediate in UP crystals A5PJH9 A5PJH9 2.3 X-RAY DIFFRACTION 196 1.0 9913 (Bos taurus) 9913 (Bos taurus) 290 293 3ku4-a1-m1-cA_3ku4-a1-m1-cB 3ku4-a2-m1-cC_3ku4-a2-m1-cD 3kuk-a1-m1-cA_3kuk-a1-m1-cB 3kvr-a1-m1-cA_3kvr-a1-m1-cB DLVQLCNPHIAAMKEDILYHFSLSTSTHDFPAMFGDVKFVCVGGSPSRMKAFIKYVAMELGFAADYPNICEGTDRYAMFKVGPVLSVSHGMGVPSIAIMLHELIKLLYHAHCSGVTLIRIGTSGGIGLEPGSVVITRQAVDPCFKPEFEQIVLGKREVRNTDLDEQLVQELARCSAELGEFPTVVGNTMCTLDFYEGQGRLDGALCSYTEKDKQDYLRAAYAAGIRNIEMEASVFAAMCNACGLRAAVVCVTLLNRLEGDQISSPHDVLAEYQQRPQRLVGQFIKKRLMQ HNDLVQLCNPHIAAMKEDILYHFSLSTSTHDFPAMFGDVKFVCVGGSPSRMKAFIKYVAMELGFAHADYPNICEGTDRYAMFKVGPVLSVSHGMGVPSIAIMLHELIKLLYHAHCSGVTLIRIGTSGGIGLEPGSVVITRQAVDPCFKPEFEQIVLGKREVRNTDLDEQLVQELARCSAELGEFPTVVGNTMCTLDFYEGQGRLDGALCSYTEKDKQDYLRAAYAAGIRNIEMEASVFAAMCNACGLRAAVVCVTLLNRLEGDQISSPHDVLAEYQQRPQRLVGQFIKKRLMQ 3kw0-a1-m1-cD_3kw0-a1-m1-cB Crystal structure of Cysteine peptidase (NP_982244.1) from BACILLUS CEREUS ATCC 10987 at 2.50 A resolution Q74NK7 Q74NK7 2.5 X-RAY DIFFRACTION 64 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 186 193 3kw0-a1-m1-cA_3kw0-a1-m1-cC GGTDKFNNIKIDKYENLINVLKTGDIFLCSGNYLVSKLIKKVSESFSHTGIIVKWGEHTLIESVEDDGVRIVPLEHYIKNYENSNNRYNGSLFIARHELLQNVNDDSEIRNLIKVGFSLLNSGYDKNEIAQIVARIGLGIGRHEDNNEYICSEFVNECFKKIGVEFFIFPEHIAADHHVLPIAQIE YFQGGTDKFNNIKIDKYENLINVLKTGDIFLCSGNYLVSKLIKKVSESFSHTGIIVKWGEHTLIESVEDDGVRIVPLEHYIKNYENSNNRYNGSLFIARHELLQNVNDDSEIRNLIKVGFSLLNSGYDKNEIAQIVARIGLGIGRHEDNNEYICSEFVNECFKKIGVEFLTDSFIFPEHIAADHHVLPIAQIE 3kw0-a1-m1-cD_3kw0-a1-m1-cC Crystal structure of Cysteine peptidase (NP_982244.1) from BACILLUS CEREUS ATCC 10987 at 2.50 A resolution Q74NK7 Q74NK7 2.5 X-RAY DIFFRACTION 52 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 186 193 3kw0-a1-m1-cA_3kw0-a1-m1-cB GGTDKFNNIKIDKYENLINVLKTGDIFLCSGNYLVSKLIKKVSESFSHTGIIVKWGEHTLIESVEDDGVRIVPLEHYIKNYENSNNRYNGSLFIARHELLQNVNDDSEIRNLIKVGFSLLNSGYDKNEIAQIVARIGLGIGRHEDNNEYICSEFVNECFKKIGVEFFIFPEHIAADHHVLPIAQIE LYFQGGTDKFNNIKIDKYENLINVLKTGDIFLCSGNYLVSKLIKKVSESFSHTGIIVKWGEHTLIESVEDDGVRIVPLEHYIKNYENSNNRYNGSLFIARHELLQNVNDDSEIRNLIKVGFSLLNSGYDKNEIAQIVARIGLGIGRHEDNNEYICSEFVNECFKKIGVEFLTDFIFPEHIAADHHVLPIAQIE 3kw2-a1-m1-cB_3kw2-a1-m1-cA Crystal structure of probable rRNA-methyltransferase from Porphyromonas gingivalis B2RH75 B2RH75 2 X-RAY DIFFRACTION 89 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 234 236 LPLFYAPDIEQSDRLPDDEAGHILRVLRQAGDRLRLTDGRGSFFDAVIETADRKSCYVSVCGQESWQKPWRDRITIAIAPTKQSEREWLEKLVEIGVDEVVFIESEHSERRRIKAERLERIAISAKQSLKASFPVIRVNIPIQTVIADTPKAAVRLIAYVDEAVRGRGYPSDFYHVGQDVLILIGPEGDFSPSEVESALLAGFAPVSLGESRLRTETAGLVACQWIHTLQACYR LPLFYAPDIEQSDRLPDDEAGHILRVLRQAGDRLRLTDGRGSFFDAVIETADRKSCYVSVCGQESWQKPWRDRITIAIAPTKQSEREWLEKLVEIGVDEVVFIESEHSERRRIKAERLERIAISAKQSLKASFPVIRVNIPIQTVIADTPKAAVRLIAYVDEAVRGRGYPSDFYHVGQDVLILIGPEGDFSPSEVESALLAGFAPVSLGESRLRTETAGLVACQWIHTLQACYRIG 3kw3-a1-m1-cA_3kw3-a1-m1-cB Crystal structure of alanine racemase from Bartonella henselae with covalently bound pyridoxal phosphate A0A0H3LZE4 A0A0H3LZE4 2.04 X-RAY DIFFRACTION 183 0.997 38323 (Bartonella henselae) 38323 (Bartonella henselae) 343 358 FPATAIATIDVRAIVANYRTLAQHVAPTECSAVVANAYGLGAHKIAPALYQAGCRTFFVAQIEEALQLKAVLPENVMIALLNGFPHKAEEFVAQSGIIPLLNSWSTIEDWQTLCQKKNKKFPAIIQVDTNMSRLGLDKKELQKLIKNPTIFEKAEIKYILSHLANGEDASHSSNNKQLAAFKRVLAQLPTCKVSFANSGGIFLGSDFYFDLVRPGIALYGVDPHGKHPTPLKAVVKVEAQVLQSRFIPSTLATISIGYADGWPRILSNKGTVYFNGHKLPIVGHISMDSIIVDATDLDKKPQRGDWVELIGPHQPLEKVSTDTNTIPHEILTSLGKRYKRIYI PATAIATIDVRAIVANYRTLAQHVAPTECSAVVANAYGLGAHKIAPALYQAGCRTFFVAQIEEALQLKAVLPENVMIALLNGFPHKAEEFVAQSGIIPLLNSWSTIEDWQTLCQKKNKKFPAIIQVDTNMSRLGLDKKELQKLIKNPTIFEKAEIKYILSHLANGEDASHSSNNKQLAAFKRVLAQLPTCKVSFANSGGIFLGSDFYFDLVRPGIALYGVDPHGKHPTPLKAVVKVEAQVLQSRFIDAGIPVGYRESFMTRRPSTLATISIGYADGWPRILSNKGTVYFNGHKLPIVGHISMDSIIVDATDLDKKPQRGDWVELIGPHQPLEKVSTDTNTIPHEILTSLGKRYKRIYI 3kwd-a1-m2-cA_3kwd-a1-m3-cA Inactive truncation of the beta-carboxysomal gamma-Carbonic Anhydrase, CcmM, form 1 Q8DKB5 Q8DKB5 1.1 X-RAY DIFFRACTION 44 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 166 166 3kwc-a1-m1-cA_3kwc-a1-m1-cC 3kwc-a1-m1-cB_3kwc-a1-m1-cA 3kwc-a1-m1-cB_3kwc-a1-m1-cC 3kwc-a2-m1-cD_3kwc-a2-m1-cE 3kwc-a2-m1-cF_3kwc-a2-m1-cD 3kwc-a2-m1-cF_3kwc-a2-m1-cE 3kwd-a1-m1-cA_3kwd-a1-m2-cA 3kwd-a1-m1-cA_3kwd-a1-m3-cA 3kwe-a1-m1-cA_3kwe-a1-m2-cA 3kwe-a1-m1-cA_3kwe-a1-m3-cA 3kwe-a1-m2-cA_3kwe-a1-m3-cA LAEPEIAPTAYVHSFSNLIGDVRIKDYVHIAPGTSIRADEGTPFHIGSRTNIQDGVVIHGLQQGRVIGDDGQEYSVWIGDNVSITHMALIHGPAYIGDGCFIGFRSTVFNARVGAGCVVMMHVLIQDVEIPPGKYVPSGMVITTQQQADRLPNVEESDIHFAQHVV LAEPEIAPTAYVHSFSNLIGDVRIKDYVHIAPGTSIRADEGTPFHIGSRTNIQDGVVIHGLQQGRVIGDDGQEYSVWIGDNVSITHMALIHGPAYIGDGCFIGFRSTVFNARVGAGCVVMMHVLIQDVEIPPGKYVPSGMVITTQQQADRLPNVEESDIHFAQHVV 3kwk-a1-m1-cA_3kwk-a1-m2-cA Crystal structure of Putative NADH dehydrogenase/NAD(P)H nitroreductase (NP_809094.1) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 1.54 A resolution Q8ABC9 Q8ABC9 1.54 X-RAY DIFFRACTION 194 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 162 162 TGNAALDNIFERKSVRTYLNKGVEKEKIDLLRAGSAPSGKDVRPWEFVVVSDRAKLDSAAALPYAKLTQARNAIIVCGDSARSFYWYLDCSAAAQNILLAAESGLGAVWTAAYPYEDREVVRKYTHLPENILPLCVIPFGYPATKEQPKQKYDEKKIHYNQY TGNAALDNIFERKSVRTYLNKGVEKEKIDLLRAGSAPSGKDVRPWEFVVVSDRAKLDSAAALPYAKLTQARNAIIVCGDSARSFYWYLDCSAAAQNILLAAESGLGAVWTAAYPYEDREVVRKYTHLPENILPLCVIPFGYPATKEQPKQKYDEKKIHYNQY 3kwo-a1-m2-cB_3kwo-a1-m3-cC Crystal Structure of Putative Bacterioferritin from Campylobacter jejuni Q0P891 Q0P891 1.985 X-RAY DIFFRACTION 27 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 142 142 3kwo-a1-m1-cB_3kwo-a1-m1-cA 3kwo-a1-m1-cB_3kwo-a1-m2-cC 3kwo-a1-m1-cC_3kwo-a1-m3-cA 3kwo-a1-m1-cC_3kwo-a1-m3-cB 3kwo-a1-m1-cD_3kwo-a1-m2-cD 3kwo-a1-m1-cD_3kwo-a1-m3-cD 3kwo-a1-m2-cB_3kwo-a1-m2-cA 3kwo-a1-m2-cC_3kwo-a1-m1-cA 3kwo-a1-m2-cD_3kwo-a1-m3-cD 3kwo-a1-m3-cB_3kwo-a1-m3-cA 3kwo-a1-m3-cC_3kwo-a1-m2-cA SVTKQLLQQADAHHLWVKFHNYHWNVKGLQFFSIHEYTEKAYEEAELFDSCAERVLQLGEKAITCQKVLENAKSPKVAKDCFTPLEVIELIKQDYEYLLAEFKKLNEAAEKESDTTTAAFAQENIAKYEKSLWIGATLQGAC SVTKQLLQQADAHHLWVKFHNYHWNVKGLQFFSIHEYTEKAYEEAELFDSCAERVLQLGEKAITCQKVLENAKSPKVAKDCFTPLEVIELIKQDYEYLLAEFKKLNEAAEKESDTTTAAFAQENIAKYEKSLWIGATLQGAC 3kwo-a1-m2-cB_3kwo-a1-m3-cD Crystal Structure of Putative Bacterioferritin from Campylobacter jejuni Q0P891 Q0P891 1.985 X-RAY DIFFRACTION 54 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 142 143 3kwo-a1-m1-cB_3kwo-a1-m2-cD 3kwo-a1-m1-cC_3kwo-a1-m1-cA 3kwo-a1-m2-cC_3kwo-a1-m2-cA 3kwo-a1-m3-cB_3kwo-a1-m1-cD 3kwo-a1-m3-cC_3kwo-a1-m3-cA SVTKQLLQQADAHHLWVKFHNYHWNVKGLQFFSIHEYTEKAYEEAELFDSCAERVLQLGEKAITCQKVLENAKSPKVAKDCFTPLEVIELIKQDYEYLLAEFKKLNEAAEKESDTTTAAFAQENIAKYEKSLWIGATLQGAC ASVTKQLLQQADAHHLWVKFHNYHWNVKGLQFFSIHEYTEKAYEEAELFDSCAERVLQLGEKAITCQKVLENAKSPKVAKDCFTPLEVIELIKQDYEYLLAEFKKLNEAAEKESDTTTAAFAQENIAKYEKSLWIGATLQGAC 3kwo-a1-m3-cC_3kwo-a1-m3-cD Crystal Structure of Putative Bacterioferritin from Campylobacter jejuni Q0P891 Q0P891 1.985 X-RAY DIFFRACTION 20 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 142 143 3kwo-a1-m1-cA_3kwo-a1-m2-cA 3kwo-a1-m1-cA_3kwo-a1-m3-cA 3kwo-a1-m1-cB_3kwo-a1-m1-cC 3kwo-a1-m1-cB_3kwo-a1-m1-cD 3kwo-a1-m1-cC_3kwo-a1-m1-cD 3kwo-a1-m2-cA_3kwo-a1-m3-cA 3kwo-a1-m2-cB_3kwo-a1-m2-cC 3kwo-a1-m2-cB_3kwo-a1-m2-cD 3kwo-a1-m2-cC_3kwo-a1-m2-cD 3kwo-a1-m3-cB_3kwo-a1-m3-cC 3kwo-a1-m3-cB_3kwo-a1-m3-cD SVTKQLLQQADAHHLWVKFHNYHWNVKGLQFFSIHEYTEKAYEEAELFDSCAERVLQLGEKAITCQKVLENAKSPKVAKDCFTPLEVIELIKQDYEYLLAEFKKLNEAAEKESDTTTAAFAQENIAKYEKSLWIGATLQGAC ASVTKQLLQQADAHHLWVKFHNYHWNVKGLQFFSIHEYTEKAYEEAELFDSCAERVLQLGEKAITCQKVLENAKSPKVAKDCFTPLEVIELIKQDYEYLLAEFKKLNEAAEKESDTTTAAFAQENIAKYEKSLWIGATLQGAC 3kwp-a1-m1-cA_3kwp-a1-m2-cA Crystal structure of putative methyltransferase from Lactobacillus brevis Q03SR9 Q03SR9 2.29 X-RAY DIFFRACTION 153 1.0 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 225 225 TGGHLYLVPTPIGNLDDTFRAVKTLTAVDLIAAEDTRNTQKLLNHFEITTKQISFHEHNTQERIPQLIAKLKQGQIAQVSDAGPSISDPGHELVNACIDAHIPVVPLPGANAGLTALIASGLAPQPFYFYGFLDRKPKDRKAEIAGLAQRPETLIFYEAPHRLKKTLQNLAAGFGDERPAVLCRELTKRYEEFLRGSLAELANWAATDTVRGEFVVLVGGNPAPT TGGHLYLVPTPIGNLDDTFRAVKTLTAVDLIAAEDTRNTQKLLNHFEITTKQISFHEHNTQERIPQLIAKLKQGQIAQVSDAGPSISDPGHELVNACIDAHIPVVPLPGANAGLTALIASGLAPQPFYFYGFLDRKPKDRKAEIAGLAQRPETLIFYEAPHRLKKTLQNLAAGFGDERPAVLCRELTKRYEEFLRGSLAELANWAATDTVRGEFVVLVGGNPAPT 3kwr-a1-m1-cB_3kwr-a1-m1-cA Crystal structure of Putative RNA-binding protein (NP_785364.1) from LACTOBACILLUS PLANTARUM at 1.45 A resolution F9UPE7 F9UPE7 1.45 X-RAY DIFFRACTION 49 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 81 82 EVKYPAIFRDEGTYWDVRFPDVPAAQTFGASVQVAADNAANALAIALFEQSLPPASDPQYWRLASTEFVVWITADVQFGPG EVKYPAIFRDEGTYWDVRFPDVPAAQTFGASVQVAADNAANALAIALFEQSLPPASDPQYWRLASTEFVVWITADVQFGPGA 3kws-a1-m1-cA_3kws-a1-m1-cB Crystal structure of Putative sugar isomerase (YP_001305149.1) from Parabacteroides distasonis ATCC 8503 at 1.68 A resolution A6LIL3 A6LIL3 1.68 X-RAY DIFFRACTION 80 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 255 255 DLELKLSFQEGIAPGESLNEKLDFEKLGVVGFEPGGGGLAGRVNEIKQALNGRNIKVSAICAGFKGFILSTDPAIRKECDTKEIIAAAGELGSTGVIIVPAFNGQVPALPHTETRDFLCEQFNEGTFAAQHGTSVIFEPLNRKECFYLRQVADAASLCRDINNPGVRCGDFWHTWEETSDGAFISGGEYLQHVHVASRKRRSPGEDGDADNYINGFKGLKIGYNNYVSFECGCQGDRNVVVPAAVKLLREQWEQA DLELKLSFQEGIAPGESLNEKLDFEKLGVVGFEPGGGGLAGRVNEIKQALNGRNIKVSAICAGFKGFILSTDPAIRKECDTKEIIAAAGELGSTGVIIVPAFNGQVPALPHTETRDFLCEQFNEGTFAAQHGTSVIFEPLNRKECFYLRQVADAASLCRDINNPGVRCGDFWHTWEETSDGAFISGGEYLQHVHVASRKRRSPGEDGDADNYINGFKGLKIGYNNYVSFECGCQGDRNVVVPAAVKLLREQWEQA 3kx6-a1-m1-cC_3kx6-a1-m1-cD Crystal structure of fructose-1,6-bisphosphate aldolase from Babesia bovis at 2.1A resolution A7AV51 A7AV51 2.1 X-RAY DIFFRACTION 74 0.997 5865 (Babesia bovis) 5865 (Babesia bovis) 343 343 3kx6-a1-m1-cB_3kx6-a1-m1-cA VKLSQERAKELAENASFIASPGKGILAADESTGTIQKRFDNVGVENTEKNRAEYRSILFTTKGLGKYISGCILFEETLFQQAPNGQNMVDLLRAEGILPGIKVDKGLVTIPNTDEEVSTTGLDGLAERCQKYYNAGARFAKWRAVLSIDVKKNKPSNLSILETAHTLARYAAICQENGLVPIVEPEILADGDHSIEVCAEVTERVLAAVFKALNDHKVLLEGALLKPNMVTQGVDCKDKPAPQTVGFLTSRALRRTVPPALPGVMFLSGGQSESMATRHLNEINKCNKHPWSLSFSYGRALQSSVLKTWNGSMSNAAAAQDVLMKLAQQNSEASLGSLAKYIY KLSQERAKELAENASFIASPGKGILAADESTGTIQKRFDNVGVENTEKNRAEYRSILFTTKGLGKYISGCILFEETLFQQAPNGQNMVDLLRAEGILPGIKVDKGLVTIPNTDEEVSTTGLDGLAERCQKYYNAGARFAKWRAVLSIDVKKNKPSNLSILETAHTLARYAAICQENGLVPIVEPEILADGDHSIEVCAEVTERVLAAVFKALNDHKVLLEGALLKPNMVTQGVDCKDKPAPQTVGFLTSRALRRTVPPALPGVMFLSGGQSESMATRHLNEINKCNKHPWSLSFSYGRALQSSVLKTWNGSMSNAAAAQDVLMKLAQQNSEASLGSLKAKYIY 3kx6-a1-m1-cD_3kx6-a1-m1-cA Crystal structure of fructose-1,6-bisphosphate aldolase from Babesia bovis at 2.1A resolution A7AV51 A7AV51 2.1 X-RAY DIFFRACTION 69 0.994 5865 (Babesia bovis) 5865 (Babesia bovis) 343 344 3kx6-a1-m1-cB_3kx6-a1-m1-cC KLSQERAKELAENASFIASPGKGILAADESTGTIQKRFDNVGVENTEKNRAEYRSILFTTKGLGKYISGCILFEETLFQQAPNGQNMVDLLRAEGILPGIKVDKGLVTIPNTDEEVSTTGLDGLAERCQKYYNAGARFAKWRAVLSIDVKKNKPSNLSILETAHTLARYAAICQENGLVPIVEPEILADGDHSIEVCAEVTERVLAAVFKALNDHKVLLEGALLKPNMVTQGVDCKDKPAPQTVGFLTSRALRRTVPPALPGVMFLSGGQSESMATRHLNEINKCNKHPWSLSFSYGRALQSSVLKTWNGSMSNAAAAQDVLMKLAQQNSEASLGSLKAKYIY MQVKLSQERAKELAENASFIASPGKGILAADESTGTIQKRFDNVGVENTEKNRAEYRSILFTTKGLGKYISGCILFEETLFQQAPNGQNMVDLLRAEGILPGIKVDKGLVTIPNTDEEVSTTGLDGLAERCQKYYNAGARFAKWRAVLSIDVKKNKPSNLSILETAHTLARYAAICQENGLVPIVEPEILADGDHSIEVCAEVTERVLAAVFKALNDHKVLLEGALLKPNMVTQGVDCKDKPAPQTVGFLTSRALRRTVPPALPGVMFLSGGQSESMATRHLNEINKCNKHPWSLSFSYGRALQSSVLKTWNGSMSNAAAAQDVLMKLAQQNSEASLGSLKYIY 3kx8-a3-m1-cE_3kx8-a3-m1-cF Structural basis of the activity and substrate specificity of the fluoroacetyl-CoA thioesterase FlK Q1EMV2 Q1EMV2 2.35 X-RAY DIFFRACTION 130 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 129 129 3kuv-a1-m1-cA_3kuv-a1-m1-cB 3kuw-a1-m1-cA_3kuw-a1-m1-cB 3kv7-a1-m1-cA_3kv7-a1-m1-cB 3kv8-a1-m1-cA_3kv8-a1-m1-cB 3kvi-a1-m1-cA_3kvi-a1-m1-cB 3kvu-a1-m1-cA_3kvu-a1-m1-cB 3kvu-a2-m1-cC_3kvu-a2-m1-cD 3kvz-a1-m1-cA_3kvz-a1-m1-cB 3kvz-a2-m1-cC_3kvz-a2-m1-cD 3kvz-a3-m1-cE_3kvz-a3-m1-cF 3kvz-a4-m1-cG_3kvz-a4-m1-cH 3kw1-a1-m1-cA_3kw1-a1-m1-cB 3kw1-a2-m1-cC_3kw1-a2-m1-cD 3kw1-a3-m1-cE_3kw1-a3-m1-cF 3kw1-a4-m1-cG_3kw1-a4-m1-cH 3kx7-a1-m1-cA_3kx7-a1-m1-cB 3kx8-a1-m1-cA_3kx8-a1-m1-cB 3kx8-a2-m1-cC_3kx8-a2-m1-cD 3kx8-a4-m1-cG_3kx8-a4-m1-cH 3p2q-a1-m1-cA_3p2q-a1-m1-cB 3p2r-a1-m1-cA_3p2r-a1-m1-cB 3p2s-a1-m1-cA_3p2s-a1-m1-cB 3p3f-a1-m1-cB_3p3f-a1-m1-cA 3p3f-a2-m1-cD_3p3f-a2-m1-cC 3p3f-a3-m1-cE_3p3f-a3-m1-cF 3p3i-a1-m1-cB_3p3i-a1-m1-cA 3p3i-a2-m1-cD_3p3i-a2-m1-cC 3p3i-a3-m1-cE_3p3i-a3-m1-cF RVGERFTHDFVVPPHKTVRHLYPESPEFAEFPEVFATGFVGLEWACVRAAPYLEPGEGSLGTAICVTHTAATPPGLTVTVTAELRSVEGRRLSWRVSAHDGVDEIGSGTHERAVIHLEKFNAKVRQKTP RVGERFTHDFVVPPHKTVRHLYPESPEFAEFPEVFATGFVGLEWACVRAAPYLEPGEGSLGTAICVTHTAATPPGLTVTVTAELRSVEGRRLSWRVSAHDGVDEIGSGTHERAVIHLEKFNAKVRQKTP 3kxa-a2-m1-cD_3kxa-a2-m1-cC Crystal Structure of NGO0477 from Neisseria gonorrhoeae Q5F9C2 Q5F9C2 2.8 X-RAY DIFFRACTION 107 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 127 128 3kxa-a1-m1-cB_3kxa-a1-m1-cA IPVTHIKCLRINGQIKCVKPISPNTTPAAEHIEHVRKNPRRKAADRAAARIADKIALKAGGETFVSLRKKGFTQSELATAAGLPQPYLSRIENSKQSLQDKTVQKLANALGVSPLEVRAAFERRYEY IPVTHIKCLRINGQIKCVKPISPNTTPAAEHIEHVRKNPRRKAADRAAARIADKIALKAGGETFVSLRKKGFTQSELATAAGLPQPYLSRIENSKQSLQDKTVQKLANALGVSPLEVRAAFERRYEYE 3kxe-a1-m1-cA_3kxe-a1-m1-cB A conserved mode of protein recognition and binding in a ParD-ParE toxin-antitoxin complex Q9A9T8 Q9A9T8 2.6 X-RAY DIFFRACTION 44 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 91 91 KPYRLSRRAKADLDDIWTYSEQRWGVEQAADYARELQATIEIAEHPGGQPDENLRAGYRRCASGSHVVFYRVGVRVEIIRVLHQSNARAHL KPYRLSRRAKADLDDIWTYSEQRWGVEQAADYARELQATIEIAEHPGGQPDENLRAGYRRCASGSHVVFYRVGVRVEIIRVLHQSNARAHL 3kxe-a1-m1-cD_3kxe-a1-m1-cC A conserved mode of protein recognition and binding in a ParD-ParE toxin-antitoxin complex P58091 P58091 2.6 X-RAY DIFFRACTION 74 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 74 75 NTSVVLGDHFQAFIDSQVADGRYGSASEVIRAGLRLLEENEAKLAALRAALIEGEESGFIEDFDFDAFIEERSR NTSVVLGDHFQAFIDSQVADGRYGSASEVIRAGLRLLEENEAKLAALRAALIEGEESGFIEDFDFDAFIEERSRA 3kxk-a1-m1-cB_3kxk-a1-m1-cA Crystal structure of SsGBP mutation variant G235P Q980M3 Q980M3 2.35 X-RAY DIFFRACTION 30 0.993 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 286 293 3kxl-a1-m1-cB_3kxl-a1-m1-cA KTAALFVSKEFEEEAIALVEGANYKVTSIYKLPKSPNVKFYIQYDKLQQIKNDEEISTLIIFEQLKPRHFINIRRELKGKEVLDKILLLLEIFALHAGSKEAKMQIELARLKYELPIIKETNIPSIGIVGYTNSGKTSLFNSLTGLSPKRYAIPINNRKIMLVDTVPFIRGIPPQIVDAFFVTLSEAKYSDALILVIDSTFSENLLIETLQSSFEILREIGVSGKPILVTLNKIDKINGDLYKKLDLVEKLSKELYSPIFDVIPISALKRTNLELLRDKIYQLATQ MKTAALFVSKEFEEEAIALVEGANYKVTSIYKLPKSPNVKFYIQYDKLQQIKNDEEISTLIIFEQLKPRHFINIRRELKKEVLDKILLLLEIFALHAGSKEAKMQIELARLKYELPIIKETNNIPSIGIVGYTNSGKTSLFNSLTGLSPKRYAIPINNRKIMLVDTVPFIRGIPPQIVDAFFVTLSEAKYSDALILVIDSTFSENLLIETLQSSFEILREIGVSGKPILVTLNKIDKNGDLYKKLDLVEKLSKELYSPIFDVIPISALKRTNLELLRDKIYQLATQLSLEHHH 3kxp-a1-m1-cA_3kxp-a1-m1-cL Crystal Structure of E-2-(Acetamidomethylene)succinate Hydrolase Q988D4 Q988D4 2.26 X-RAY DIFFRACTION 74 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 265 265 3kxp-a2-m1-cB_3kxp-a2-m1-cC 3kxp-a3-m1-cD_3kxp-a3-m1-cE 3kxp-a4-m1-cF_3kxp-a4-m1-cG 3kxp-a5-m1-cH_3kxp-a5-m1-cJ 3kxp-a6-m1-cI_3kxp-a6-m1-cK HFISRRVDIGRITLNVREKGSGPLLFFHGITSNSAVFEPLIRLSDRFTTIAVDQRGHGLSDKPETGYEANDYADDIAGLIRTLARGHAILVGHSLGARNSVTAAAKYPDLVRSVVAIDFTPYIETEALDALEARVNAGSQLFEDIKAVEAYLAGRYPNIPADAIRIRAESGYQPVDGGLRPLASSAAAQTARGLRSDLVPAYRDVTKPVLIVRGESSKLVSAAALAKTSRLRPDLPVVVVPGADHYVNEVSPEITLKAITNFIDA HFISRRVDIGRITLNVREKGSGPLLFFHGITSNSAVFEPLIRLSDRFTTIAVDQRGHGLSDKPETGYEANDYADDIAGLIRTLARGHAILVGHSLGARNSVTAAAKYPDLVRSVVAIDFTPYIETEALDALEARVNAGSQLFEDIKAVEAYLAGRYPNIPADAIRIRAESGYQPVDGGLRPLASSAAAQTARGLRSDLVPAYRDVTKPVLIVRGESSKLVSAAALAKTSRLRPDLPVVVVPGADHYVNEVSPEITLKAITNFIDA 3kxq-a1-m1-cA_3kxq-a1-m1-cB Crystal structure of triosephosphate isomerase from bartonella henselae at 1.6A resolution Q8L1Z5 Q8L1Z5 1.6 X-RAY DIFFRACTION 133 0.992 38323 (Bartonella henselae) 38323 (Bartonella henselae) 237 237 IRPFIAGNWKMNGTGESLGELRAIAAGISRLFEALICVPATLLSRAFDILGGENILLGGQNCHFDDYGPYTGDISAFMLKEAGASHVIIGHSERRTVYQESDAIVRAKVQAAWRAGLVALICVGETLEERKSNKVLDVLTRQLEGSLPDGATAENIIIAYEPVWTSADVAEVHAFIHHKMHSRFGDEGAKIRLLYGGSVKPSNAFELLSTAHVNGALIGGASLKAIDFLTICDVYRK IRPFIAGNWKMNGTGESLGELRAIAAGISFEALICVPATLLSRAFDILGGENILLGGQNCHFDDYGPYTGDISAFMLKEAGASHVIIGHSERRTVYQESDAIVRAKVQAAWRAGLVALICVGETLEERKSNKVLDVLTRQLEGSLPDGATAENIIIAYEPVWAATSADVAEVHAFIHHKMHSRFGDEGAKIRLLYGGSVKPSNAFELLSTAHVNGALIGGASLKAIDFLTICDVYRK 3kxr-a1-m2-cA_3kxr-a1-m3-cA Structure of the cystathionine beta-synthase pair domain of the putative Mg2+ transporter SO5017 from Shewanella oneidensis MR-1. Q8EGN5 Q8EGN5 2.41 X-RAY DIFFRACTION 36 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 169 169 3kxr-a1-m1-cA_3kxr-a1-m2-cA 3kxr-a1-m1-cA_3kxr-a1-m3-cA DLLFAQLSPEDLIEWSDYLPESFTDRALAQGERQRQRFELYDQYSENEIGRYTDHQLVLSDKATVAQAQRFFRRIELDCNDNLFIVDEADKYLGTVRRYDIFKHEPHEPLISLLSEDSRALTANTTLLDAAEAIEHSREIELPVIDDAGELIGRVTLRAATALVREHYE DLLFAQLSPEDLIEWSDYLPESFTDRALAQGERQRQRFELYDQYSENEIGRYTDHQLVLSDKATVAQAQRFFRRIELDCNDNLFIVDEADKYLGTVRRYDIFKHEPHEPLISLLSEDSRALTANTTLLDAAEAIEHSREIELPVIDDAGELIGRVTLRAATALVREHYE 3kxx-a6-m1-cC_3kxx-a6-m1-cB Structure of the mutant Fibroblast Growth Factor receptor 1 P11362 P11362 3.2 X-RAY DIFFRACTION 115 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 286 305 3kxx-a5-m1-cD_3kxx-a5-m1-cA AGVSEYELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQALSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTS VSEYELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQAREPPGLEYSYNPSHNPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGLARDIHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQ 3kxy-a1-m1-cH_3kxy-a1-m1-cG Crystal Structure of the ExsC-ExsE Complex P26995 P26995 2.804 X-RAY DIFFRACTION 71 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 130 133 3kxy-a2-m1-cB_3kxy-a2-m1-cA 3kxy-a3-m1-cD_3kxy-a3-m1-cC 3kxy-a4-m1-cF_3kxy-a4-m1-cE 3kxy-a5-m1-cJ_3kxy-a5-m1-cI 3kxy-a6-m1-cL_3kxy-a6-m1-cK DLTSKVNRLLAEFAGRIGLPSLSLDEEGMASLLFDEQVGVTLLLLAERERLLLEADVVGIDVLGEGIFRQLASFNRHWHRFDLHFGFDELTGKVQLYAQILAAQLTLECFEATLANLLDHAEFWQRLLPC MDLTSKVNRLLAEFAGRIGLPSLSLDEEGMASLLFDEQVGVTLLLLAERERLLLEADVVGIDVLGEGIFRQLASFNRHWHRFDLHFGFDELTGKVQLYAQILAAQLTLECFEATLANLLDHAEFWQRLLPCAS 3ky7-a1-m1-cA_3ky7-a1-m2-cA 2.35 Angstrom resolution crystal structure of a putative tRNA (guanine-7-)-methyltransferase (trmD) from Staphylococcus aureus subsp. aureus MRSA252 Q6GHJ5 Q6GHJ5 2.35 X-RAY DIFFRACTION 197 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 228 228 MKIDYLTLFPEMFDGVLNHSIMKRAQENNKLQINTVNFRDYANKHNQVDDYPYGGGQGMVLKPEPVFNAMEDLDVTEQARVILMPQGEPFSHQKAVELSKADHIVFICGHYEGYDERIRTHLVTDEISMGDYVLTGGELPAMTMTDAIVRLIPGSDGLLEFPQYTRPREFKGLTVPDVLLSGNHANIDAWRHEQKLIRTYNKRPDLIEKYPLTNADKQILERYKIGLK MKIDYLTLFPEMFDGVLNHSIMKRAQENNKLQINTVNFRDYANKHNQVDDYPYGGGQGMVLKPEPVFNAMEDLDVTEQARVILMPQGEPFSHQKAVELSKADHIVFICGHYEGYDERIRTHLVTDEISMGDYVLTGGELPAMTMTDAIVRLIPGSDGLLEFPQYTRPREFKGLTVPDVLLSGNHANIDAWRHEQKLIRTYNKRPDLIEKYPLTNADKQILERYKIGLK 3ky8-a1-m1-cB_3ky8-a1-m1-cA Crystal structure of Putative riboflavin biosynthesis protein (YP_001092907.1) from SHEWANELLA SP. PV-4 at 2.12 A resolution A3QB00 A3QB00 2.12 X-RAY DIFFRACTION 100 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 171 178 ANIVFIATSLDGYIADKRGKLDWLHSVPNPNNVDTGFVALERVDGLVGRNTLDVLSFDCDWPYSKPVFVLSNTTEVPQGYEDKVFLVKGKLVDIIADLNAKGFNELYIDGGVTIQNFLKEDLIDEVITRFPILLGGGVPLFGELESSLSFNVIKSEVVLDSLTQTTYHRKR ENLYFQGANIVFIATSLDGYIADKRGKLDWLHSVPNPNNVDTGFVALERVDGLVGRNTLDVLSFDCDWPYSKPVFVLSNTTEVPQGYEDKVFLVKGKLVDIIADLNAKGFNELYIDGGVTIQNFLKEDLIDEVITRFPILLGGGVPLFGELESSLSFNVIKSEVVLDSLTQTTYHRKR 3kya-a1-m1-cA_3kya-a1-m2-cA Crystal structure of Putative phosphatase (NP_812416.1) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 1.77 A resolution Q8A204 Q8A204 1.77 X-RAY DIFFRACTION 25 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 464 464 VETGAFDPSKPVAISDFTPKEGGAYQKLLIYGENFGTDVSKVKVKIGGKDAIVINVKSTYVYCFVPSGAFSGEIEITVGEGENAVTTTASTTFSYEKKVVGTLCGYRNNRDDQGWRDGPFDGPEGVKCCGFSDNGRLAFDPLNKDHLYICYDGHKAIQLIDLKNRLSSPLNINTIPTNRIRSIAFNKKIEGYADEAEYIVAIDYDGKGDESPSVYIIKRNADGTFDDRSDIQLIAAYKQCNGATIHPINGELYFNSYEKGQVFRLDLVDYFKTIKNGGSWDPIVKNNPNTFKQLFTIADPSWEFQIFIHPTGKYAYFGVINNHYFRSDYDEIKKEFITPYNFVGGYKQSGYRDDVGTEARNNPCQGVFVKNPDYTGEEEYDFYFVDRLNFCVRKVTPEGIVSTYAGRGASTSLADGNQWGTDDGDLREVARFRDVSGLVYDDVKEFYVHDQVGHTIRTISEQEE VETGAFDPSKPVAISDFTPKEGGAYQKLLIYGENFGTDVSKVKVKIGGKDAIVINVKSTYVYCFVPSGAFSGEIEITVGEGENAVTTTASTTFSYEKKVVGTLCGYRNNRDDQGWRDGPFDGPEGVKCCGFSDNGRLAFDPLNKDHLYICYDGHKAIQLIDLKNRLSSPLNINTIPTNRIRSIAFNKKIEGYADEAEYIVAIDYDGKGDESPSVYIIKRNADGTFDDRSDIQLIAAYKQCNGATIHPINGELYFNSYEKGQVFRLDLVDYFKTIKNGGSWDPIVKNNPNTFKQLFTIADPSWEFQIFIHPTGKYAYFGVINNHYFRSDYDEIKKEFITPYNFVGGYKQSGYRDDVGTEARNNPCQGVFVKNPDYTGEEEYDFYFVDRLNFCVRKVTPEGIVSTYAGRGASTSLADGNQWGTDDGDLREVARFRDVSGLVYDDVKEFYVHDQVGHTIRTISEQEE 3kye-a2-m1-cC_3kye-a2-m1-cD Crystal Structure of Roadblock/LC7 Domain from Streptomyces avermitilis Q82MM8 Q82MM8 2.15 X-RAY DIFFRACTION 108 0.991 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 115 115 3kye-a1-m1-cA_3kye-a1-m1-cB SDLDWLSGLVQRVPHTTSAVLLSCDGLVKSVHGLDPDSADHAALASGLYSLGRSAGIRFGDGGDVRQVVVELDSTLLFVSTAGSGTCLAVLAGREADAAVLGYEALVKSVRPYLT VSDLDWLSGLVQRVPHTTSAVLLSCDGLVKSVHGLDPDSADHAALASGLYSLGRSAGIRFGDGGDVRQVVVELDSTLLFVSTAGSGTCLAVLAGREADAAVLGYEALVKSVRPYL 3kyf-a2-m1-cA_3kyf-a2-m2-cA Crystal structure of P4397 complexed with c-di-GMP Q88EQ6 Q88EQ6 2.1 X-RAY DIFFRACTION 94 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 231 231 PQPPKVLSTPLEIAANLRQLQESHDPLIITFHDRSHRFQSYVVHVDRESNTLALDEMIPRDGEKFIENGEHFRVEGFHDGVRIAWECDHALKISEVDGHRCYSGPLPQEVTYHQRRNAFRAALKLSQLVDIILDGAHLKGNGAMRGKLLDISATGCKLRFEGNVEDRLQLGQVYERFKAGNPLGLVDTMVELRHLHYEERINTTFAGVRFHNLSGQAQRKIESFVYQLQRE PQPPKVLSTPLEIAANLRQLQESHDPLIITFHDRSHRFQSYVVHVDRESNTLALDEMIPRDGEKFIENGEHFRVEGFHDGVRIAWECDHALKISEVDGHRCYSGPLPQEVTYHQRRNAFRAALKLSQLVDIILDGAHLKGNGAMRGKLLDISATGCKLRFEGNVEDRLQLGQVYERFKAGNPLGLVDTMVELRHLHYEERINTTFAGVRFHNLSGQAQRKIESFVYQLQRE 3kyg-a1-m1-cA_3kyg-a1-m1-cB Crystal structure of VCA0042 (L135R) complexed with c-di-GMP Q9KNC3 Q9KNC3 2.1 X-RAY DIFFRACTION 88 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 227 227 SKTVSTINSTDALAMVEHSSELTLSITTPVGTKFVCRTPFIGTHTDKFLLVEMPKISADDLQYFFQEGFWMNIRAISPRGEGALIHFRSQLMHILQEPVPMAFLSIPNTMQVSQRRKEPRFELNLAGKVLFDEHRGDCELRDLSRSGCRFITPPLGKTYQVGDLVALEIFSDLRGTKTFPPLTGKICNLQRSLHHARYGLEFNEEGRNNAKNLLAQLKFNGTKLTLN SKTVSTINSTDALAMVEHSSELTLSITTPVGTKFVCRTPFIGTHTDKFLLVEMPKISADDLQYFFQEGFWMNIRAISPRGEGALIHFRSQLMHILQEPVPMAFLSIPNTMQVSQRRKEPRFELNLAGKVLFDEHRGDCELRDLSRSGCRFITPPLGKTYQVGDLVALEIFSDLRGTKTFPPLTGKICNLQRSLHHARYGLEFNEEGRNNAKNLLAQLKFNGTKLTLN 3kyz-a1-m1-cA_3kyz-a1-m2-cA The crystal structure of the sensor domain of two-component sensor PfeS from Pseudomonas aeruginosa PA01 Q04804 Q04804 1.497 X-RAY DIFFRACTION 36 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 110 110 YFLAPADRHYLADYARQAEDAWRREGAAGAERFRKELSAKEDTWVALVGPHLESLGSTPLSAEESSHLTFRKLDWPSRRLQDELPYVSIEFPGHPEQGRLVIQLPERLLP YFLAPADRHYLADYARQAEDAWRREGAAGAERFRKELSAKEDTWVALVGPHLESLGSTPLSAEESSHLTFRKLDWPSRRLQDELPYVSIEFPGHPEQGRLVIQLPERLLP 3kz3-a1-m1-cA_3kz3-a1-m1-cB A structure of a lambda repressor fragment mutant P03034 P03034 1.64 X-RAY DIFFRACTION 32 1.0 10710 (Lambdavirus lambda) 10710 (Lambdavirus lambda) 80 80 SLTQEQLEDARRLKAIWEKKKNELGLSYESVADKMGMGQSAVAALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIR SLTQEQLEDARRLKAIWEKKKNELGLSYESVADKMGMGQSAVAALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIR 3kz5-a2-m1-cA_3kz5-a2-m2-cA Structure of cdomain P62558 P62558 1.58 X-RAY DIFFRACTION 81 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 47 47 3kz5-a1-m1-cB_3kz5-a1-m1-cE SSRHQFAPGATVLYKGDKMVLNLDRSRVPTECIEKIEAILKELEKPA SSRHQFAPGATVLYKGDKMVLNLDRSRVPTECIEKIEAILKELEKPA 3kza-a1-m1-cA_3kza-a1-m1-cB Crystal structure of Gyuba, a patched chimera of b-lactglobulin P02758 P02758 2 X-RAY DIFFRACTION 20 1.0 9913 (Bos taurus) 9913 (Bos taurus) 149 149 IPQTMQDLDLQEVAGTWYSLAMAASDISLLDSESAPLRVYVEELKPTPEGDLEILLQKAQKKIIAEKTESPAEFKIDALDENKVLVLDTDYKNYLLFCMENAATPGQSLACQALVRTQMVDDEALEKFDKALQPLPMHIRLSFNPTRMA IPQTMQDLDLQEVAGTWYSLAMAASDISLLDSESAPLRVYVEELKPTPEGDLEILLQKAQKKIIAEKTESPAEFKIDALDENKVLVLDTDYKNYLLFCMENAATPGQSLACQALVRTQMVDDEALEKFDKALQPLPMHIRLSFNPTRMA 3kzb-a1-m1-cA_3kzb-a1-m2-cA Crystal structure of xylulokinase from Chromobacterium violaceum Q7NWW7 Q7NWW7 2.705 X-RAY DIFFRACTION 68 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 491 491 SLAFYIATFDIGTTEVKAALADRDGGLHFQRSIALETYGDGNGPVEQDAGDWYDAVQRIASSWWQSGVDARRVSAIVLSGQQNFLPLDQDHEPLHRAVLYSDKRPLKEAEEINARHGADNLWSALENPTAASILPKLVFWRASFPQAFGRLRHVVLGAKDYVVLRLTGRHATDRTNASTTGLYRPKDDAWHVELLADYGFSLDLPRLLEPGEQVGGVSALAARQTGFVSGTPVLCGLGDAGAATLGVGVLDDEDAYLHLGTTGWLARLTQTDPVGDPVGTIFRLAGIIAGKTLQVAPVLNAGNILQWALTLVGHRPGEDCAEYFHAAAEVQGVTVPDGLLFVPYLHAERCPVELPAPRGALLGVTGATTRAQILLAVLEGAALSLRWCAELLGEKVGLLKVVGGGARSEAWLRIADNLNVSLLVKPDAHLHPLRGLAALAAVELEWSHSIQDFLREADLRESNILHPQPCDEGRRRRKFERFKQCVETLGR SLAFYIATFDIGTTEVKAALADRDGGLHFQRSIALETYGDGNGPVEQDAGDWYDAVQRIASSWWQSGVDARRVSAIVLSGQQNFLPLDQDHEPLHRAVLYSDKRPLKEAEEINARHGADNLWSALENPTAASILPKLVFWRASFPQAFGRLRHVVLGAKDYVVLRLTGRHATDRTNASTTGLYRPKDDAWHVELLADYGFSLDLPRLLEPGEQVGGVSALAARQTGFVSGTPVLCGLGDAGAATLGVGVLDDEDAYLHLGTTGWLARLTQTDPVGDPVGTIFRLAGIIAGKTLQVAPVLNAGNILQWALTLVGHRPGEDCAEYFHAAAEVQGVTVPDGLLFVPYLHAERCPVELPAPRGALLGVTGATTRAQILLAVLEGAALSLRWCAELLGEKVGLLKVVGGGARSEAWLRIADNLNVSLLVKPDAHLHPLRGLAALAAVELEWSHSIQDFLREADLRESNILHPQPCDEGRRRRKFERFKQCVETLGR 3kze-a1-m1-cC_3kze-a1-m1-cA Crystal Structure of T-cell Lymphoma Invasion and Metastasis-1 PDZ in Complex With SSRKEYYA Peptide Q13009 Q13009 1.8 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 93 3kze-a1-m1-cA_3kze-a1-m1-cB MGKVTHSIHIEKSDADTYGFSLSSVEGIRRLYVNSVKETGLASKKGLKAGDEILEINNRAADALNSSMLKDFLSQPSLGLLVRTYPE AMGKVTHSIHIEKSDTAADTYGFSLSSVEEDGIRRLYVNSVKETGLASKKGLKAGDEILEINNRAADALNSSMLKDFLSQPSLGLLVRTYPEL 3kzg-a1-m1-cA_3kzg-a1-m1-cB Crystal structure of an arginine 3rd transport system periplasmic binding protein from Legionella pneumophila Q5ZV85 Q5ZV85 2.06 X-RAY DIFFRACTION 10 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 220 220 SLNLTIGTSKFNPPFEVWSGNNSSLYGFDIDLQEICRRLHATCTFEAYIFDDLFPALKNREVDLVIASIITDERKKHFIFSLPYESNSQYITTVDSKISTFDDLHGKKIGVRKGTPYARQVLSENRNNQVIFYELIQDLLGLSNNQVDASLDYEAAKYWASEPYAYKLIGKKYKLIGKKISIGEGYSIANPDQFVLIKKINKILLEEADGTYLRLYSEYF SLNLTIGTSKFNPPFEVWSGNNSSLYGFDIDLQEICRRLHATCTFEAYIFDDLFPALKNREVDLVIASIITDERKKHFIFSLPYESNSQYITTVDSKISTFDDLHGKKIGVRKGTPYARQVLSENRNNQVIFYELIQDLLGLSNNQVDASLDYEAAKYWASEPYAYKLIGKKYKLIGKKISIGEGYSIANPDQFVLIKKINKILLEEADGTYLRLYSEYF 3kzg-a1-m1-cB_3kzg-a1-m1-cD Crystal structure of an arginine 3rd transport system periplasmic binding protein from Legionella pneumophila Q5ZV85 Q5ZV85 2.06 X-RAY DIFFRACTION 39 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 220 220 3kzg-a1-m1-cA_3kzg-a1-m1-cC SLNLTIGTSKFNPPFEVWSGNNSSLYGFDIDLQEICRRLHATCTFEAYIFDDLFPALKNREVDLVIASIITDERKKHFIFSLPYESNSQYITTVDSKISTFDDLHGKKIGVRKGTPYARQVLSENRNNQVIFYELIQDLLGLSNNQVDASLDYEAAKYWASEPYAYKLIGKKYKLIGKKISIGEGYSIANPDQFVLIKKINKILLEEADGTYLRLYSEYF SLNLTIGTSKFNPPFEVWSGNNSSLYGFDIDLQEICRRLHATCTFEAYIFDDLFPALKNREVDLVIASIITDERKKHFIFSLPYESNSQYITTVDSKISTFDDLHGKKIGVRKGTPYARQVLSENRNNQVIFYELIQDLLGLSNNQVDASLDYEAAKYWASEPYAYKLIGKKYKLIGKKISIGEGYSIANPDQFVLIKKINKILLEEADGTYLRLYSEYF 3kzg-a1-m1-cC_3kzg-a1-m1-cD Crystal structure of an arginine 3rd transport system periplasmic binding protein from Legionella pneumophila Q5ZV85 Q5ZV85 2.06 X-RAY DIFFRACTION 23 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 220 220 SLNLTIGTSKFNPPFEVWSGNNSSLYGFDIDLQEICRRLHATCTFEAYIFDDLFPALKNREVDLVIASIITDERKKHFIFSLPYESNSQYITTVDSKISTFDDLHGKKIGVRKGTPYARQVLSENRNNQVIFYELIQDLLGLSNNQVDASLDYEAAKYWASEPYAYKLIGKKYKLIGKKISIGEGYSIANPDQFVLIKKINKILLEEADGTYLRLYSEYF SLNLTIGTSKFNPPFEVWSGNNSSLYGFDIDLQEICRRLHATCTFEAYIFDDLFPALKNREVDLVIASIITDERKKHFIFSLPYESNSQYITTVDSKISTFDDLHGKKIGVRKGTPYARQVLSENRNNQVIFYELIQDLLGLSNNQVDASLDYEAAKYWASEPYAYKLIGKKYKLIGKKISIGEGYSIANPDQFVLIKKINKILLEEADGTYLRLYSEYF 3kzh-a1-m1-cB_3kzh-a1-m1-cA Crystal structure of a putative sugar kinase from Clostridium perfringens Q8XKB8 Q8XKB8 2.45 X-RAY DIFFRACTION 106 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 301 303 KEPYLLVFGASVVDVFGFSKASYRPYNSTPGHVKISFGGVCRNIAENARVGVNTNFSILGNDEHGKSIVEHSKKIGYHDDSVIEGGSTPTYLAILDENGEVSAIADKSIGANTDFIDSKREIFENAEYTVLDSDNPEIEYLLKNFKDKTNFILDPVSAEKASWVKHLIKDFHTIKPNRHEAEILAGFPITDTDDLIKASNYFLGLGIKKVFISLDADGIFYNDGVSCGKIKATEVDVKNVTGAGDSFVAGLGYGYNKPIEDIVKFATSNITISHEEIHPDALDTVLAKLEKTTWEEEKYDL RKEPYLLVFGASVVDVFGFSKASYRPYNSTPGHVKISFGGVCRNIAENARVGVNTNFSILGNDEHGKSIVEHSKKIGYHDDSVIEGGSTPTYLAILDENGEVSAIADKSIGANTDFIDSKREIFENAEYTVLDSDNPEIEYLLKNFKDKTNFILDPVSAEKASWVKHLIKDFHTIKPNRHEAEILAGFPITDTDDLIKASNYFLGLGIKKVFISLDADGIFYNDGVSCGKIKATEVDVKNVTGAGDSFVAGLGYGYNKPIEDIVKFATSNITISHEETIHPDALDTVLAKLEKTTWEEEKYDL 3kzj-a1-m1-cA_3kzj-a1-m4-cA Structure of complement Factor H variant R1203A P08603 P08603 1.65 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 2g7i-a1-m1-cA_2g7i-a1-m4-cA 2g7i-a1-m2-cA_2g7i-a1-m3-cA 3kxv-a1-m1-cA_3kxv-a1-m4-cA 3kxv-a1-m2-cA_3kxv-a1-m3-cA 3kzj-a1-m2-cA_3kzj-a1-m3-cA TGKCGPPPPIDNGDITSFPLSVYAPASSVEYQCQNLYQLEGNKRITCRNGQWSEPPKCLHPCVISREIMENYNIALRWTAKQKLYSRTGESVEFVCKAGYRLSSRSHTLRTTCWDGKLEYPTCAK TGKCGPPPPIDNGDITSFPLSVYAPASSVEYQCQNLYQLEGNKRITCRNGQWSEPPKCLHPCVISREIMENYNIALRWTAKQKLYSRTGESVEFVCKAGYRLSSRSHTLRTTCWDGKLEYPTCAK 3kzj-a1-m3-cA_3kzj-a1-m4-cA Structure of complement Factor H variant R1203A P08603 P08603 1.65 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 2g7i-a1-m1-cA_2g7i-a1-m2-cA 2g7i-a1-m3-cA_2g7i-a1-m4-cA 3kxv-a1-m1-cA_3kxv-a1-m2-cA 3kxv-a1-m3-cA_3kxv-a1-m4-cA 3kzj-a1-m1-cA_3kzj-a1-m2-cA 4muc-a1-m1-cA_4muc-a1-m1-cB TGKCGPPPPIDNGDITSFPLSVYAPASSVEYQCQNLYQLEGNKRITCRNGQWSEPPKCLHPCVISREIMENYNIALRWTAKQKLYSRTGESVEFVCKAGYRLSSRSHTLRTTCWDGKLEYPTCAK TGKCGPPPPIDNGDITSFPLSVYAPASSVEYQCQNLYQLEGNKRITCRNGQWSEPPKCLHPCVISREIMENYNIALRWTAKQKLYSRTGESVEFVCKAGYRLSSRSHTLRTTCWDGKLEYPTCAK 3kzl-a2-m1-cC_3kzl-a2-m1-cD Crystal structure of BA2930 mutant (H183G) in complex with AcCoA A0A1J9VPY4 A0A1J9VPY4 2.1 X-RAY DIFFRACTION 90 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 255 257 3e4f-a1-m1-cB_3e4f-a1-m1-cA 3ijw-a1-m1-cB_3ijw-a1-m1-cA 3kzl-a1-m1-cA_3kzl-a1-m1-cB 3n0m-a1-m1-cB_3n0m-a1-m1-cA 3n0s-a1-m1-cA_3n0s-a1-m1-cB 3n0s-a2-m1-cC_3n0s-a2-m1-cD 3slb-a1-m1-cA_3slb-a1-m1-cB 3slb-a2-m1-cC_3slb-a2-m1-cD 3slf-a1-m1-cB_3slf-a1-m1-cA ANDIVASTQLPNTIKTITNDLRKLGLKKGTVIVHSSLSSIGWISGGAVAVVEALEVITEEGTIIPTQSSDLSDPKHWSRPPVPEEWWQIIRDNVPAFEPHITPTRAGKVVECFRTYPNVVRSNHPLGSFAAWGRHAEEITVNQSLSSLGEESPLRKIYDLDGYILLIGVGYDSNTSVGLSEVRSGACELIKVGAPIIENGERVWKEFVDDYDSDKFVEIGVEFEQKGTVTGKIGNAKCRLKQRDIVDFGTEWFRK SNANDIVASTQLPNTIKTITNDLRKLGLKKGTVIVHSSLSSIGWISGGAVAVVEALEVITEEGTIIPTQSSDLSDPKHWSRPPVPEEWWQIIRDNVPAFEPHITPTRAGKVVECFRTYPNVVRSNHPLGSFAAWGRHAEEITVNQSLSSLGEESPLRKIYDLDGYILLIGVGYDSNTSVGLSEVRSGACELIKVGAPIIENGERVWKEFVDDYDSDKFVEIGVEFEQKGTVTGKIGNAKCRLKQRDIVDFGTEWFRK 3kzo-a1-m2-cA_3kzo-a1-m3-cA Crystal structure of N-acetyl-L-ornithine transcarbamylase complexed with carbamyl phosphate and N-acetyl-L-norvaline Q8P8J2 Q8P8J2 1.9 X-RAY DIFFRACTION 89 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 331 331 3kzc-a1-m1-cA_3kzc-a1-m2-cA 3kzc-a1-m1-cA_3kzc-a1-m3-cA 3kzc-a1-m2-cA_3kzc-a1-m3-cA 3kzk-a1-m1-cA_3kzk-a1-m2-cA 3kzk-a1-m1-cA_3kzk-a1-m3-cA 3kzk-a1-m2-cA_3kzk-a1-m3-cA 3kzm-a1-m1-cA_3kzm-a1-m2-cA 3kzm-a1-m1-cA_3kzm-a1-m3-cA 3kzm-a1-m2-cA_3kzm-a1-m3-cA 3kzn-a1-m1-cA_3kzn-a1-m2-cA 3kzn-a1-m1-cA_3kzn-a1-m3-cA 3kzn-a1-m2-cA_3kzn-a1-m3-cA 3kzo-a1-m1-cA_3kzo-a1-m2-cA 3kzo-a1-m1-cA_3kzo-a1-m3-cA 3l02-a1-m1-cA_3l02-a1-m2-cA 3l02-a1-m1-cA_3l02-a1-m3-cA 3l02-a1-m2-cA_3l02-a1-m3-cA 3l04-a1-m1-cA_3l04-a1-m2-cA 3l04-a1-m1-cA_3l04-a1-m3-cA 3l04-a1-m2-cA_3l04-a1-m3-cA 3l05-a1-m1-cA_3l05-a1-m2-cA 3l05-a1-m1-cA_3l05-a1-m3-cA 3l05-a1-m2-cA_3l05-a1-m3-cA 3l06-a1-m1-cA_3l06-a1-m2-cA 3l06-a1-m1-cA_3l06-a1-m3-cA 3l06-a1-m2-cA_3l06-a1-m3-cA 3m4j-a1-m1-cA_3m4j-a1-m2-cA 3m4j-a1-m1-cA_3m4j-a1-m3-cA 3m4j-a1-m2-cA_3m4j-a1-m3-cA 3m4n-a1-m1-cA_3m4n-a1-m2-cA 3m4n-a1-m1-cA_3m4n-a1-m3-cA 3m4n-a1-m2-cA_3m4n-a1-m3-cA 3m5c-a1-m1-cA_3m5c-a1-m2-cA 3m5c-a1-m1-cA_3m5c-a1-m3-cA 3m5c-a1-m2-cA_3m5c-a1-m3-cA 3m5d-a1-m1-cA_3m5d-a1-m2-cA 3m5d-a1-m1-cA_3m5d-a1-m3-cA 3m5d-a1-m2-cA_3m5d-a1-m3-cA LKHFLNTQDWSRAELDALLTQAALFKRNKLGSELKGKSIALVFFNPSMRTRTSFELGAFQLGGHAVVLQPGKDAWPIEFNLGTVMDGDTEEHIAEVARVLGRYVDLIGVRAFPKFVDWSKDREDQVLKSFAKYSPVPVINMETITHPCQELAHALALQEHFGTPDLRGKKYVLTWTYHPKPLNTAVANSALTIATRMGMDVTLLCPTPDYILDERYMDWAAQNVAESGGSLQVSHDIDSAYAGADVVYAKSWGALPFFGNWEPEKPIRDQYQHFIVDERKMALTNNGVFSHCLPLRRNVATDAVMDSPNCIAIDEAENRLHVQKAIMAALV LKHFLNTQDWSRAELDALLTQAALFKRNKLGSELKGKSIALVFFNPSMRTRTSFELGAFQLGGHAVVLQPGKDAWPIEFNLGTVMDGDTEEHIAEVARVLGRYVDLIGVRAFPKFVDWSKDREDQVLKSFAKYSPVPVINMETITHPCQELAHALALQEHFGTPDLRGKKYVLTWTYHPKPLNTAVANSALTIATRMGMDVTLLCPTPDYILDERYMDWAAQNVAESGGSLQVSHDIDSAYAGADVVYAKSWGALPFFGNWEPEKPIRDQYQHFIVDERKMALTNNGVFSHCLPLRRNVATDAVMDSPNCIAIDEAENRLHVQKAIMAALV 3kzp-a1-m1-cA_3kzp-a1-m1-cB Crystal structure of putative diguanylate cyclase/phosphodiesterase from Listaria monocytigenes Q8YAK7 Q8YAK7 2 X-RAY DIFFRACTION 97 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 228 228 KFQLFIQPKLDVLQGNIVEYEILLRDDSAVPRFPLSELEAVLADEELYLAFSEWFSEAFLDVLKKYPNDRFAINIAPQQLFYIETLHWLDKLKSESHRITVETEDIFDVPGHKRHLNANDKNAFILNKIKVIHGLGYHIAIDDVSCGLNSLERVSYLPYIIEIKFSLIHFKNIPLEDLLLFIKAWANFAQKNKLDFVVEGIETKETTLLESHGVSIFQGYLVNKPFPV KFQLFIQPKLDVLQGNIVEYEILLRDDSAVPRFPLSELEAVLADEELYLAFSEWFSEAFLDVLKKYPNDRFAINIAPQQLFYIETLHWLDKLKSESHRITVETEDIFDVPGHKRHLNANDKNAFILNKIKVIHGLGYHIAIDDVSCGLNSLERVSYLPYIIEIKFSLIHFKNIPLEDLLLFIKAWANFAQKNKLDFVVEGIETKETTLLESHGVSIFQGYLVNKPFPV 3kzq-a3-m1-cC_3kzq-a3-m3-cD The crystal structure of the protein with unknown function from Vibrio parahaemolyticus RIMD 2210633 Q87MW5 Q87MW5 2.1 X-RAY DIFFRACTION 22 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 206 206 3kzq-a1-m1-cA_3kzq-a1-m1-cE 3kzq-a2-m1-cB_3kzq-a2-m2-cF MNIKLYYVHDPMCSWCWGYKPTIEKLKQQLPGVIQFEYVVGGLAPDTNLPMPPEMQQKLEGIWKQIETQLGTKFNYDFWKLCTPVRSTYQSCRAVIAAGFQDSYEQMLEAIQHAYYLRAMPPHEEATHLQLAKEIGLNVQQFKNDMDGTLLEGVFQDQLSLAKSLGVNSYPSLVLQINDAYFPIEVDYLSTEPTLKLIRERIIENM MNIKLYYVHDPMCSWCWGYKPTIEKLKQQLPGVIQFEYVVGGLAPDTNLPMPPEMQQKLEGIWKQIETQLGTKFNYDFWKLCTPVRSTYQSCRAVIAAGFQDSYEQMLEAIQHAYYLRAMPPHEEATHLQLAKEIGLNVQQFKNDMDGTLLEGVFQDQLSLAKSLGVNSYPSLVLQINDAYFPIEVDYLSTEPTLKLIRERIIENM 3kzt-a1-m1-cB_3kzt-a1-m1-cA Crystal structure of Protein of unknown function (NP_812423.1) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 2.10 A resolution Q8A1Z7 Q8A1Z7 2.1 X-RAY DIFFRACTION 41 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 127 129 DVQANVSDSSRIEQEAIGIEDFYEAYAASFSTGKEALALGDSIKQKFLTKELIEKVDRLIEATDADPIIRAQDLGENDKTLSVKHLNDNWYEVNYTSAKGSQYERAVSIPVRVVNVDGQYLIDDITP ADVQANVSDSSRIEQEAIGIEDFYEAYAASFSTGKEALALGDSIKQKFLTKELIEKVDRLIEATDADPIIRAQDLGENDKTLSVKHLNDNWYEVNYTSAKGSQYERAVSIPVRVVNVDGQYLIDDITPE 3kzu-a2-m1-cC_3kzu-a2-m2-cC Crystal structure of 3-oxoacyl-(acyl carrier protein) synthase II from Brucella melitensis Q8YFP7 Q8YFP7 1.75 X-RAY DIFFRACTION 280 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 420 420 3kzu-a1-m1-cA_3kzu-a1-m1-cB MRRVVITGLGLVSPLASGVEETWKRLLAGESGARRVTEFEVDDLACQIACRIPVGDGTNGTFNPDLHMDPKEQRKVDPFIVYAVGAADQALDDAGWHPENDEDQVRTGVLIGSGIGGIEGIVEAGYTLRDKGPRRISPFFIPGRLINLASGHVSIKHKLRGPNHSVVTACATGTHAIGDAARLIAFGDADVMVAGGTESPVSRISLAGFAACKALSTERNDDPTAASRPYDEDRDGFVMGEGAGIVVLEELEHALARGAKIYAEVIGYGMSGDAFHITAPTESGEGAQRCMVAALKRAGIVPDEIDYINAHGTSTMADTIELGAVERVVGEAAAKISMSSTKSSIGHLLGAAGAAEAVFSTLAIRDNIAPATLNLDNPAAQTRIDLVPHKPRERKIDVALSNSFGFGGTNASLVLRRYTA MRRVVITGLGLVSPLASGVEETWKRLLAGESGARRVTEFEVDDLACQIACRIPVGDGTNGTFNPDLHMDPKEQRKVDPFIVYAVGAADQALDDAGWHPENDEDQVRTGVLIGSGIGGIEGIVEAGYTLRDKGPRRISPFFIPGRLINLASGHVSIKHKLRGPNHSVVTACATGTHAIGDAARLIAFGDADVMVAGGTESPVSRISLAGFAACKALSTERNDDPTAASRPYDEDRDGFVMGEGAGIVVLEELEHALARGAKIYAEVIGYGMSGDAFHITAPTESGEGAQRCMVAALKRAGIVPDEIDYINAHGTSTMADTIELGAVERVVGEAAAKISMSSTKSSIGHLLGAAGAAEAVFSTLAIRDNIAPATLNLDNPAAQTRIDLVPHKPRERKIDVALSNSFGFGGTNASLVLRRYTA 3kzv-a1-m1-cA_3kzv-a1-m4-cA The crystal structure of a cytoplasmic protein with unknown function from Saccharomyces cerevisiae P40579 P40579 2 X-RAY DIFFRACTION 72 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 249 249 3kzv-a1-m2-cA_3kzv-a1-m3-cA 6uhx-a1-m1-cA_6uhx-a1-m1-cB GKVILVTGVSRGIGKSIVDVLFSLDKDTVVYGVARSEAPLKKLKEKYGDRFFYVVGDITEDSVLKQLVNAAVKGHGKIDSLVANAGVLEPVQNVNEIDVNAWKKLYDINFFSIVSLVGIALPELKKTNGNVVFVSSDACNMYFSSWGAYGSSKAALNHFAMTLANEERQVKAIAVAPGIVDTDMQVNIRENVGPSSMSAEQLKMFRGLKENNSSVPATVYAKLALHGIPDGVNGQYLSYNDPALADFMP GKVILVTGVSRGIGKSIVDVLFSLDKDTVVYGVARSEAPLKKLKEKYGDRFFYVVGDITEDSVLKQLVNAAVKGHGKIDSLVANAGVLEPVQNVNEIDVNAWKKLYDINFFSIVSLVGIALPELKKTNGNVVFVSSDACNMYFSSWGAYGSSKAALNHFAMTLANEERQVKAIAVAPGIVDTDMQVNIRENVGPSSMSAEQLKMFRGLKENNSSVPATVYAKLALHGIPDGVNGQYLSYNDPALADFMP 3kzv-a1-m2-cA_3kzv-a1-m4-cA The crystal structure of a cytoplasmic protein with unknown function from Saccharomyces cerevisiae P40579 P40579 2 X-RAY DIFFRACTION 94 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 249 249 3kzv-a1-m1-cA_3kzv-a1-m3-cA GKVILVTGVSRGIGKSIVDVLFSLDKDTVVYGVARSEAPLKKLKEKYGDRFFYVVGDITEDSVLKQLVNAAVKGHGKIDSLVANAGVLEPVQNVNEIDVNAWKKLYDINFFSIVSLVGIALPELKKTNGNVVFVSSDACNMYFSSWGAYGSSKAALNHFAMTLANEERQVKAIAVAPGIVDTDMQVNIRENVGPSSMSAEQLKMFRGLKENNSSVPATVYAKLALHGIPDGVNGQYLSYNDPALADFMP GKVILVTGVSRGIGKSIVDVLFSLDKDTVVYGVARSEAPLKKLKEKYGDRFFYVVGDITEDSVLKQLVNAAVKGHGKIDSLVANAGVLEPVQNVNEIDVNAWKKLYDINFFSIVSLVGIALPELKKTNGNVVFVSSDACNMYFSSWGAYGSSKAALNHFAMTLANEERQVKAIAVAPGIVDTDMQVNIRENVGPSSMSAEQLKMFRGLKENNSSVPATVYAKLALHGIPDGVNGQYLSYNDPALADFMP 3kzw-a2-m1-cL_3kzw-a2-m1-cG Crystal structure of cytosol aminopeptidase from Staphylococcus aureus COL A0A0H2WYH0 A0A0H2WYH0 2.7 X-RAY DIFFRACTION 35 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 493 494 3kzw-a1-m1-cA_3kzw-a1-m1-cE 3kzw-a1-m1-cB_3kzw-a1-m1-cD 3kzw-a1-m1-cC_3kzw-a1-m1-cF 3kzw-a2-m1-cH_3kzw-a2-m1-cK 3kzw-a2-m1-cI_3kzw-a2-m1-cJ NAMNFKLNNTLSNEINTLIIGIPEHLNQLERISFNHIDITESLERLKHQHIIGSKVGKIYTTAFDVQDQTYRLITVGLGNLKTRSYQDMLKIWGHLFQYIKSEHIEDTYLLMDSFISKYDQLSDVLMACGIQSERATYEFDHYKSSKKAPFKTNLNLISESLIELDFIHEGISIGQSINLARDFSNMPPNVLTPQTFAEDIVNHFKNTKVKVDVKDYDTLVSEGFGLLQAVGKGSKHKPRLVTITYNGKDKDEAPIALVGKGITYDSGGYSIKTKNGMATMKFDMCGAANVVGIIEAASRLQLPVNIVGVLACAENMINEASMKPDDVFTALSGETVEVMNTDAEGRLVLADAVFYANQYQPSVIMDFATLTGAAIVALGDDKAAAFESNSKVILNDILQISSEVDEMVFELPITATERASIKHSDIADLVNHTNGQGKALFAASFVTHFSGQTPHIHFDIAGPATTNKASYNGPKGPTGFMIPTIVQWLKQQ SNAMNFKLNNTLSNEINTLIIGIPEHLNQLERISFNHIDITESLERLKHQHIIGSKVGKIYTTAFDVQDQTYRLITVGLGNLKTRSYQDMLKIWGHLFQYIKSEHIEDTYLLMDSFISKYDQLSDVLMACGIQSERATYEFDHYKSSKKAPFKTNLNLISESLIELDFIHEGISIGQSINLARDFSNMPPNVLTPQTFAEDIVNHFKNTKVKVDVKDYDTLVSEGFGLLQAVGKGSKHKPRLVTITYNGKDKDEAPIALVGKGITYDSGGYSIKTKNGMATMKFDMCGAANVVGIIEAASRLQLPVNIVGVLACAENMINEASMKPDDVFTALSGETVEVMNTDAEGRLVLADAVFYANQYQPSVIMDFATLTGAAIVALGDDKAAAFESNSKVILNDILQISSEVDEMVFELPITATERASIKHSDIADLVNHTNGQGKALFAASFVTHFSGQTPHIHFDIAGPATTNKASYNGPKGPTGFMIPTIVQWLKQQ 3kzw-a2-m1-cL_3kzw-a2-m1-cH Crystal structure of cytosol aminopeptidase from Staphylococcus aureus COL A0A0H2WYH0 A0A0H2WYH0 2.7 X-RAY DIFFRACTION 67 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 493 494 3kzw-a1-m1-cA_3kzw-a1-m1-cD 3kzw-a1-m1-cB_3kzw-a1-m1-cF 3kzw-a1-m1-cC_3kzw-a1-m1-cE 3kzw-a2-m1-cG_3kzw-a2-m1-cJ 3kzw-a2-m1-cI_3kzw-a2-m1-cK NAMNFKLNNTLSNEINTLIIGIPEHLNQLERISFNHIDITESLERLKHQHIIGSKVGKIYTTAFDVQDQTYRLITVGLGNLKTRSYQDMLKIWGHLFQYIKSEHIEDTYLLMDSFISKYDQLSDVLMACGIQSERATYEFDHYKSSKKAPFKTNLNLISESLIELDFIHEGISIGQSINLARDFSNMPPNVLTPQTFAEDIVNHFKNTKVKVDVKDYDTLVSEGFGLLQAVGKGSKHKPRLVTITYNGKDKDEAPIALVGKGITYDSGGYSIKTKNGMATMKFDMCGAANVVGIIEAASRLQLPVNIVGVLACAENMINEASMKPDDVFTALSGETVEVMNTDAEGRLVLADAVFYANQYQPSVIMDFATLTGAAIVALGDDKAAAFESNSKVILNDILQISSEVDEMVFELPITATERASIKHSDIADLVNHTNGQGKALFAASFVTHFSGQTPHIHFDIAGPATTNKASYNGPKGPTGFMIPTIVQWLKQQ SNAMNFKLNNTLSNEINTLIIGIPEHLNQLERISFNHIDITESLERLKHQHIIGSKVGKIYTTAFDVQDQTYRLITVGLGNLKTRSYQDMLKIWGHLFQYIKSEHIEDTYLLMDSFISKYDQLSDVLMACGIQSERATYEFDHYKSSKKAPFKTNLNLISESLIELDFIHEGISIGQSINLARDFSNMPPNVLTPQTFAEDIVNHFKNTKVKVDVKDYDTLVSEGFGLLQAVGKGSKHKPRLVTITYNGKDKDEAPIALVGKGITYDSGGYSIKTKNGMATMKFDMCGAANVVGIIEAASRLQLPVNIVGVLACAENMINEASMKPDDVFTALSGETVEVMNTDAEGRLVLADAVFYANQYQPSVIMDFATLTGAAIVALGDDKAAAFESNSKVILNDILQISSEVDEMVFELPITATERASIKHSDIADLVNHTNGQGKALFAASFVTHFSGQTPHIHFDIAGPATTNKASYNGPKGPTGFMIPTIVQWLKQQ 3kzw-a2-m1-cL_3kzw-a2-m1-cK Crystal structure of cytosol aminopeptidase from Staphylococcus aureus COL A0A0H2WYH0 A0A0H2WYH0 2.7 X-RAY DIFFRACTION 72 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 493 494 3kzw-a1-m1-cA_3kzw-a1-m1-cB 3kzw-a1-m1-cA_3kzw-a1-m1-cC 3kzw-a1-m1-cB_3kzw-a1-m1-cC 3kzw-a1-m1-cD_3kzw-a1-m1-cE 3kzw-a1-m1-cD_3kzw-a1-m1-cF 3kzw-a1-m1-cE_3kzw-a1-m1-cF 3kzw-a2-m1-cG_3kzw-a2-m1-cH 3kzw-a2-m1-cG_3kzw-a2-m1-cI 3kzw-a2-m1-cH_3kzw-a2-m1-cI 3kzw-a2-m1-cJ_3kzw-a2-m1-cK 3kzw-a2-m1-cL_3kzw-a2-m1-cJ NAMNFKLNNTLSNEINTLIIGIPEHLNQLERISFNHIDITESLERLKHQHIIGSKVGKIYTTAFDVQDQTYRLITVGLGNLKTRSYQDMLKIWGHLFQYIKSEHIEDTYLLMDSFISKYDQLSDVLMACGIQSERATYEFDHYKSSKKAPFKTNLNLISESLIELDFIHEGISIGQSINLARDFSNMPPNVLTPQTFAEDIVNHFKNTKVKVDVKDYDTLVSEGFGLLQAVGKGSKHKPRLVTITYNGKDKDEAPIALVGKGITYDSGGYSIKTKNGMATMKFDMCGAANVVGIIEAASRLQLPVNIVGVLACAENMINEASMKPDDVFTALSGETVEVMNTDAEGRLVLADAVFYANQYQPSVIMDFATLTGAAIVALGDDKAAAFESNSKVILNDILQISSEVDEMVFELPITATERASIKHSDIADLVNHTNGQGKALFAASFVTHFSGQTPHIHFDIAGPATTNKASYNGPKGPTGFMIPTIVQWLKQQ SNAMNFKLNNTLSNEINTLIIGIPEHLNQLERISFNHIDITESLERLKHQHIIGSKVGKIYTTAFDVQDQTYRLITVGLGNLKTRSYQDMLKIWGHLFQYIKSEHIEDTYLLMDSFISKYDQLSDVLMACGIQSERATYEFDHYKSSKKAPFKTNLNLISESLIELDFIHEGISIGQSINLARDFSNMPPNVLTPQTFAEDIVNHFKNTKVKVDVKDYDTLVSEGFGLLQAVGKGSKHKPRLVTITYNGKDKDEAPIALVGKGITYDSGGYSIKTKNGMATMKFDMCGAANVVGIIEAASRLQLPVNIVGVLACAENMINEASMKPDDVFTALSGETVEVMNTDAEGRLVLADAVFYANQYQPSVIMDFATLTGAAIVALGDDKAAAFESNSKVILNDILQISSEVDEMVFELPITATERASIKHSDIADLVNHTNGQGKALFAASFVTHFSGQTPHIHFDIAGPATTNKASYNGPKGPTGFMIPTIVQWLKQQ 3l07-a1-m1-cA_3l07-a1-m1-cB Methylenetetrahydrofolate dehydrogenase/methenyltetrahydrofolate cyclohydrolase, putative bifunctional protein folD from Francisella tularensis. Q5NGF3 Q5NGF3 1.88 X-RAY DIFFRACTION 95 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 282 285 AMILIDGKSLSKDLKERLATQVQEYKHHTAITPKLVAIIVGNDPASKTYVASKEKACAQVGIDSQVITLPEHTTESELLELIDQLNNDSSVHAILVQLPLPAHINKNNVIYSIKPEKDVDGFHPTNVGRLQLRDKKCLESCTPKGIMTMLREYGIKTEGAYAVVVGASNVVGKPVSQLLLNAKATVTTCHRFTTDLKSHTTKADILIVAVGKPNFITADMVKEGAVVIDVGINHVDGKIVGDVDFAAVKDKVAAITPVPGGVGPMTITELLYNTFQCAQELN SNAMILIDGKSLSKDLKERLATQVQEYKHHTAITPKLVAIIVGNDPASKTYVASKEKACAQVGIDSQVITLPEHTTESELLELIDQLNNDSSVHAILVQLPLPAHINKNNVIYSIKPEKDVDGFHPTNVGRLQLRDKKCLESCTPKGIMTMLREYGIKTEGAYAVVVGASNVVGKPVSQLLLNAKATVTTCHRFTTDLKSHTTKADILIVAVGKPNFITADMVKEGAVVIDVGINHVDGKIVGDVDFAAVKDKVAAITPVPGGVGPMTITELLYNTFQCAQELNR 3l08-a1-m1-cA_3l08-a1-m2-cA Structure of Pi3K gamma with a potent inhibitor: GSK2126458 P48736 P48736 2.7 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 828 828 SEESQAFQRQLTALIGYDVTDVSNVHDDELEFTRRGLVTPRMAEVASRDPKLYAMHPWVTSKPLPEYLWKKIANNCIFIVIHRSTTSQTIKVSPDDTPGAILQSFFTKDFVLRVCGRDEYLVGETPIKNFQWVRHCLKNGEEIHVVLDTPPDPALDEVRKEVSLWDCDRKFRVKIRGIDIPVLTVFVEANIQHGQQVLCQRRTSPKPFTEEVLWNVWLEFSIKIKDLPKGALLNLQIYCGVQLLYYVNLLLIDHRFLLRRGEYVLHMWQISGSFNADKLTSATNPDKENSMSISILLIALPKHQRAEMPNQLRKQLEAIIATDPLNPLTAEDKELLWHFRYESLKHPKAYPKLFSSVKWGQQEIVAKTYQLLARREVWDQSALDVGLTMQLLDCNFSDENVRAIAVQKLESLEDDDVLHYLLQLVQAVKFEPYHDSALARFLLKRGLRNKRIGHFLFWFLRSEIAQSRHYQQRFAVILEAYLRGCGTAMLHDFTQQVQVIEMLQKVTLDIKSLDVSSQVISQLKQKLENLQNLPESFRVPYDPGLKAGALAIEKCKVMASKKKPLWLEFKCADPTALSNETIGIIFKHGDDLRQDMLILQILRIMESIWETESLDLCLLPYGCISTGDKIGMIEIVKDATTIAKIQQSGAFKDEVLNHWLKEKSPTEEKFQAAVERFVYSCAGYCVATFVLGIGDRHNDNIMITETGNLFHIDFGHILGRVPFVLTPDFLFVMGTSGKKTSPHFQKFQDICVKAYLALRHHTNLLIILFSMMLMTGMPQLTSKEDIEYIRDALTVGKNEEDAKKYFLDQIEVCRDKGWTVQFNWFLHL SEESQAFQRQLTALIGYDVTDVSNVHDDELEFTRRGLVTPRMAEVASRDPKLYAMHPWVTSKPLPEYLWKKIANNCIFIVIHRSTTSQTIKVSPDDTPGAILQSFFTKDFVLRVCGRDEYLVGETPIKNFQWVRHCLKNGEEIHVVLDTPPDPALDEVRKEVSLWDCDRKFRVKIRGIDIPVLTVFVEANIQHGQQVLCQRRTSPKPFTEEVLWNVWLEFSIKIKDLPKGALLNLQIYCGVQLLYYVNLLLIDHRFLLRRGEYVLHMWQISGSFNADKLTSATNPDKENSMSISILLIALPKHQRAEMPNQLRKQLEAIIATDPLNPLTAEDKELLWHFRYESLKHPKAYPKLFSSVKWGQQEIVAKTYQLLARREVWDQSALDVGLTMQLLDCNFSDENVRAIAVQKLESLEDDDVLHYLLQLVQAVKFEPYHDSALARFLLKRGLRNKRIGHFLFWFLRSEIAQSRHYQQRFAVILEAYLRGCGTAMLHDFTQQVQVIEMLQKVTLDIKSLDVSSQVISQLKQKLENLQNLPESFRVPYDPGLKAGALAIEKCKVMASKKKPLWLEFKCADPTALSNETIGIIFKHGDDLRQDMLILQILRIMESIWETESLDLCLLPYGCISTGDKIGMIEIVKDATTIAKIQQSGAFKDEVLNHWLKEKSPTEEKFQAAVERFVYSCAGYCVATFVLGIGDRHNDNIMITETGNLFHIDFGHILGRVPFVLTPDFLFVMGTSGKKTSPHFQKFQDICVKAYLALRHHTNLLIILFSMMLMTGMPQLTSKEDIEYIRDALTVGKNEEDAKKYFLDQIEVCRDKGWTVQFNWFLHL 3l09-a2-m1-cB_3l09-a2-m1-cD Crystal structure of Putative transcriptional regulator (JANN_22DEC04_CONTIG27_REVISED_GENE3569) from Jannaschia sp. CCS1 at 2.81 A resolution Q28UN6 Q28UN6 2.81 X-RAY DIFFRACTION 38 0.992 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 248 248 3l09-a2-m1-cA_3l09-a2-m1-cC SDPIRPLVEALNAEAPLKLWSVLVTCLGDVSRDGVIEVSGVALSSFVERGLQPQARVALHRLKRDGWVESRRLGRVGFHRLSDSALTQTRAVAGRIYGPGAGPAPWHLAGPPDAPDGLSLLPDTLSATPISRRFALICGPLEDVPEDWLLTAPSGRGLPVWVQDVVVEAGCEAEFKALERTLAQIDKVPDTRLERFTLRVLVLHAWRRLILRSSPAAEAALGGARAEISCRARVHQLLDQLGSVEPDW DASDPIRPLVEALNAEAPLKLWSVLVTCLGDVSRDGVIEVSGVALSSFVERGLQPQARVALHRLKRDGWVESRRLGRVGFHRLSDSALTQTRAVAGRIYGPGAGPAPWHLAGPPDAPDGLSLLPDTLSATPISRRFALICGPLEDVPEDWLLTAPSGRGLPVWVQDVVVEAGCEAEFKALERTLAQIDKVPDTRLERFTLRVLVLHAWRRLILRSSPAAEAALGGARAEISCRARVHQLLDQLGSVEP 3l09-a3-m1-cD_3l09-a3-m1-cC Crystal structure of Putative transcriptional regulator (JANN_22DEC04_CONTIG27_REVISED_GENE3569) from Jannaschia sp. CCS1 at 2.81 A resolution Q28UN6 Q28UN6 2.81 X-RAY DIFFRACTION 73 1.0 290400 (Jannaschia sp. CCS1) 290400 (Jannaschia sp. CCS1) 248 250 3l09-a1-m1-cA_3l09-a1-m1-cB 3l09-a2-m1-cA_3l09-a2-m1-cB 3l09-a2-m1-cD_3l09-a2-m1-cC DASDPIRPLVEALNAEAPLKLWSVLVTCLGDVSRDGVIEVSGVALSSFVERGLQPQARVALHRLKRDGWVESRRLGRVGFHRLSDSALTQTRAVAGRIYGPGAGPAPWHLAGPPDAPDGLSLLPDTLSATPISRRFALICGPLEDVPEDWLLTAPSGRGLPVWVQDVVVEAGCEAEFKALERTLAQIDKVPDTRLERFTLRVLVLHAWRRLILRSSPAAEAALGGARAEISCRARVHQLLDQLGSVEP DASDPIRPLVEALNAEAPLKLWSVLVTCLGDVSRDGVIEVSGVALSSFVERGLQPQARVALHRLKRDGWVESRRLGRVGFHRLSDSALTQTRAVAGRIYGPGAGPAPWHLAGPPDAPDGLSLLPDTLSATPISRRFALICGPLEDVPEDWLLTAPSGRGLPVWVQDVVVEAGCEAEFKALERTLAQIDKVPDTRLERFTLRVLVLHAWRRLILRSSPAAEAALGGARAEISCRARVHQLLDQLGSVEPDW 3l0a-a1-m2-cA_3l0a-a1-m3-cA Crystal structure of Putative exonuclease (RER070207002219) from Eubacterium rectale at 2.19 A resolution C4ZCC6 C4ZCC6 2.19 X-RAY DIFFRACTION 55 1.0 515619 ([Eubacterium] rectale ATCC 33656) 515619 ([Eubacterium] rectale ATCC 33656) 253 253 3l0a-a1-m1-cA_3l0a-a1-m2-cA 3l0a-a1-m1-cA_3l0a-a1-m3-cA GQLTSENYYSQEANKEYSVSGYKDFAGTYGKPCEFYGEKLNGRWEDEKSTALLVGSYVDSYFEGSLDQFKKDNPEIFTQKGELKANFKQAEEIIARIERDEYFKYSGQKQVITGELFGAKWKIKDSYIPGVAIVDLKVASITDLKWVKDIGYLDFVRYWGYDIQGAVYQEIVRQNTGEKLPFFIAGATKQTEPDIRIIHVTDNYLQEALHVENPRILRVKNGEVEPDRCELCDCCRHNRVLKKPISIDLTAGI GQLTSENYYSQEANKEYSVSGYKDFAGTYGKPCEFYGEKLNGRWEDEKSTALLVGSYVDSYFEGSLDQFKKDNPEIFTQKGELKANFKQAEEIIARIERDEYFKYSGQKQVITGELFGAKWKIKDSYIPGVAIVDLKVASITDLKWVKDIGYLDFVRYWGYDIQGAVYQEIVRQNTGEKLPFFIAGATKQTEPDIRIIHVTDNYLQEALHVENPRILRVKNGEVEPDRCELCDCCRHNRVLKKPISIDLTAGI 3l0d-a2-m1-cB_3l0d-a2-m2-cB Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Bartonella henselae with bound NAD Q8L201 Q8L201 2.5 X-RAY DIFFRACTION 20 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 332 332 3l0d-a2-m1-cA_3l0d-a2-m2-cA MSVRVAINGFGRIGRNILRAIIESGRQDIEVVALNDLGSVETNAHLLRYDSVHGCFPGTVQVVGDAIDILIKVFAERDPAQLPWKALDIDIALECTGIFTARDKASAHLDAGAKRVLVSAPSEGADLTVVYGVNHQFLSKEHHVISNASCTTNCLAPVAQVLHNTVGIEKGFMTTIHSYTGDQPVLDTMHRDLYRARAAALSMIPTSTGAAKAVGLVLPELKGLLDGVSIRVPTPNVSVVDLTFTAKRSTTIEEINTAIRTAAQGSLKGILDYTDEKLVSCDFNHNPHSAIFHNDQTKVIDGQLCRVLVWYDNEWGFSNRMCDTAVAFAKTI MSVRVAINGFGRIGRNILRAIIESGRQDIEVVALNDLGSVETNAHLLRYDSVHGCFPGTVQVVGDAIDILIKVFAERDPAQLPWKALDIDIALECTGIFTARDKASAHLDAGAKRVLVSAPSEGADLTVVYGVNHQFLSKEHHVISNASCTTNCLAPVAQVLHNTVGIEKGFMTTIHSYTGDQPVLDTMHRDLYRARAAALSMIPTSTGAAKAVGLVLPELKGLLDGVSIRVPTPNVSVVDLTFTAKRSTTIEEINTAIRTAAQGSLKGILDYTDEKLVSCDFNHNPHSAIFHNDQTKVIDGQLCRVLVWYDNEWGFSNRMCDTAVAFAKTI 3l0d-a2-m2-cA_3l0d-a2-m2-cB Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Bartonella henselae with bound NAD Q8L201 Q8L201 2.5 X-RAY DIFFRACTION 131 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 332 332 3l0d-a1-m1-cA_3l0d-a1-m1-cB 3l0d-a2-m1-cA_3l0d-a2-m1-cB MSVRVAINGFGRIGRNILRAIIESGRQDIEVVALNDLGSVETNAHLLRYDSVHGCFPGTVQVVGDAIDILIKVFAERDPAQLPWKALDIDIALECTGIFTARDKASAHLDAGAKRVLVSAPSEGADLTVVYGVNHQFLSKEHHVISNASCTTNCLAPVAQVLHNTVGIEKGFMTTIHSYTGDQPVLDTMHRDLYRARAAALSMIPTSTGAAKAVGLVLPELKGLLDGVSIRVPTPNVSVVDLTFTAKRSTTIEEINTAIRTAAQGSLKGILDYTDEKLVSCDFNHNPHSAIFHNDQTKVIDGQLCRVLVWYDNEWGFSNRMCDTAVAFAKTI MSVRVAINGFGRIGRNILRAIIESGRQDIEVVALNDLGSVETNAHLLRYDSVHGCFPGTVQVVGDAIDILIKVFAERDPAQLPWKALDIDIALECTGIFTARDKASAHLDAGAKRVLVSAPSEGADLTVVYGVNHQFLSKEHHVISNASCTTNCLAPVAQVLHNTVGIEKGFMTTIHSYTGDQPVLDTMHRDLYRARAAALSMIPTSTGAAKAVGLVLPELKGLLDGVSIRVPTPNVSVVDLTFTAKRSTTIEEINTAIRTAAQGSLKGILDYTDEKLVSCDFNHNPHSAIFHNDQTKVIDGQLCRVLVWYDNEWGFSNRMCDTAVAFAKTI 3l0d-a3-m1-cA_3l0d-a3-m2-cB Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Bartonella henselae with bound NAD Q8L201 Q8L201 2.5 X-RAY DIFFRACTION 102 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 332 332 3l0d-a2-m1-cA_3l0d-a2-m2-cB 3l0d-a2-m1-cB_3l0d-a2-m2-cA MSVRVAINGFGRIGRNILRAIIESGRQDIEVVALNDLGSVETNAHLLRYDSVHGCFPGTVQVVGDAIDILIKVFAERDPAQLPWKALDIDIALECTGIFTARDKASAHLDAGAKRVLVSAPSEGADLTVVYGVNHQFLSKEHHVISNASCTTNCLAPVAQVLHNTVGIEKGFMTTIHSYTGDQPVLDTMHRDLYRARAAALSMIPTSTGAAKAVGLVLPELKGLLDGVSIRVPTPNVSVVDLTFTAKRSTTIEEINTAIRTAAQGSLKGILDYTDEKLVSCDFNHNPHSAIFHNDQTKVIDGQLCRVLVWYDNEWGFSNRMCDTAVAFAKTI MSVRVAINGFGRIGRNILRAIIESGRQDIEVVALNDLGSVETNAHLLRYDSVHGCFPGTVQVVGDAIDILIKVFAERDPAQLPWKALDIDIALECTGIFTARDKASAHLDAGAKRVLVSAPSEGADLTVVYGVNHQFLSKEHHVISNASCTTNCLAPVAQVLHNTVGIEKGFMTTIHSYTGDQPVLDTMHRDLYRARAAALSMIPTSTGAAKAVGLVLPELKGLLDGVSIRVPTPNVSVVDLTFTAKRSTTIEEINTAIRTAAQGSLKGILDYTDEKLVSCDFNHNPHSAIFHNDQTKVIDGQLCRVLVWYDNEWGFSNRMCDTAVAFAKTI 3l0g-a1-m1-cC_3l0g-a1-m1-cD Crystal structure of Nicotinate-nucleotide pyrophosphorylase from Ehrlichia chaffeensis at 2.05A resolution Q2GI74 Q2GI74 2.05 X-RAY DIFFRACTION 25 0.996 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 274 274 MKISFSEIIHNALKEDLGDKGDITTNSILINEKVNFAINTRENLVVCGIPILEEVFNMNKEHVKYEIHKKDGDITGKNSTLVSGEALAIYLLPIERVILNFIQHASGIASITRQFVDEVSGTKVKIRSTRKTTPGLRMLDKYSVCIGGGESYRDNLCDGVLIKDNHIASCGSITLAIQRLRKNLKNEYIAIECDNISQVEESLSNNVDMILLDNMSISEIKKAVDIVNGKSVLEVSGCVNIRNVRNIALTGVDYISIGCITNSFQNKDIGLDIE KISFSEIIHNALKEDLGDKGDITTNSILINEKVNFAINTRENLVVCGIPILEEVFNMNKEHVKYEIHKKDGDITGKNSTLVSGEALAIYLLPIERVILNFIQHASGIASITRQFVDEVSGTKVKIRSTRKTTPGLRMLDKYSVCIGGGESYRDNLCDGVLIKDNHIASCGSITLAIQRLRKNLKNEYIAIECDNISQVEESLSNNVDMILLDNMSISEIKKAVDIVNGKSVLEVSGCVNIRNVRNIALTGVDYISIGCITNSFQNKDIGLDIEY 3l0g-a3-m1-cB_3l0g-a3-m1-cD Crystal structure of Nicotinate-nucleotide pyrophosphorylase from Ehrlichia chaffeensis at 2.05A resolution Q2GI74 Q2GI74 2.05 X-RAY DIFFRACTION 214 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 273 274 3l0g-a1-m1-cA_3l0g-a1-m1-cC 3l0g-a1-m1-cB_3l0g-a1-m1-cD 3l0g-a2-m1-cA_3l0g-a2-m1-cC ISFSEIIHNALKEDLGDKGDITTNSILINEKVNFAINTRENLVVCGIPILEEVFNMNKEHVKYEIHKKDGDITGKNSTLVSGEALAIYLLPIERVILNFIQHASGIASITRQFVDEVSGTKVKIRSTRKTTPGLRMLDKYSVCIGGGESYRDNLCDGVLIKDNHIASCGSITLAIQRLRKNLKNEYIAIECDNISQVEESLSNNVDMILLDNMSISEIKKAVDIVNGKSVLEVSGCVNIRNVRNIALTGVDYISIGCITNSFQNKDIGLDIEY KISFSEIIHNALKEDLGDKGDITTNSILINEKVNFAINTRENLVVCGIPILEEVFNMNKEHVKYEIHKKDGDITGKNSTLVSGEALAIYLLPIERVILNFIQHASGIASITRQFVDEVSGTKVKIRSTRKTTPGLRMLDKYSVCIGGGESYRDNLCDGVLIKDNHIASCGSITLAIQRLRKNLKNEYIAIECDNISQVEESLSNNVDMILLDNMSISEIKKAVDIVNGKSVLEVSGCVNIRNVRNIALTGVDYISIGCITNSFQNKDIGLDIEY 3l0o-a1-m1-cB_3l0o-a1-m1-cA Structure of RNA-free Rho transcription termination factor from Thermotoga maritima P38527 P38527 2.35 X-RAY DIFFRACTION 44 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 347 413 GEGVLEIHPEGFGFLRRIEDNLLPSNDDIYISPSQIRKFNLNTGDIISGVIAMIKIEAINYRPRVNFDNLTPDYPRERFILETDPKIYSTRLIDLFAPIGKGQRGMIVAPPKAGKTTILKEIANGIAENHPDTIRIILLIDERPEEVTDIRESTNAIVIAAPFDMPPDKQVKVAELTLEMAKRLVEFNYDVVILLDSLTRLARVYNIVVPPSGKLLTGGVDPAALYKPKRFFGAARNTREGGSLTIIATALVETGSKMDEVIFEEFKGTGNMELVLSRQLANKRIFPAINLLLSGTRREELLLDEETLKKVWLLRRMLSAMTEEEGLTLILNKLSETSSNEEFLKLI EQKTISISELESMNIKQLYEIAKSLGIPRYTSMRKRDLIFAILKAQTESTGYFFGEGVLEIHPEGFGFLRRIEDNLLPSNDDIYISPSQIRKFNLNTGDIISGVIRKPKEGEKYFAMIKIEAINYRPVDRVNFDNLTPDYPRERFILETDPKIYSTRLIDLFAPIGKGQRGMIVAPPKAGKTTILKEIANGIAENHPDTIRIILLIDERPEEVTDIRESTNAIVIAAPFDMPPDKQVKVAELTLEMAKRLVEFNYDVVILLDSLTRLARVYNIVVPPSGKLLTGGVDPAALYKPKRFFGAARNTREGGSLTIIATALVETGSKMDEVIFEEFKGTGNMELVLSRQLANKRIFPAINLLLSGTRREELLLDEETLKKVWLLRRMLSAMTEEEGLTLILNKLSETSSNEEFLKLI 3l0q-a1-m1-cA_3l0q-a1-m1-cB The crystal structure of xlylulose kinase from Yersinia pseudotuberculosis Q665C6 Q665C6 1.61 X-RAY DIFFRACTION 41 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 517 518 ASYFIGVDVGTGSARAGVFDLQGRVGQASREITFKPKADFVEQSSENIWQAVCNAVRDAVNQADINPIQVKGLGFDATCSLVVLDKEGNPLTVSPSGRNEQNVIVWDHRAITQAERINATKHPVLEFVGGVISPEQTPKLLWLKQHPNTWSNVGHLFDLPDFLTWRATKDETRSLCSTVCKWTYLGHEDRWDPSYFKLVGLADLLDNNAAKIGATVKPGAPLGHGLSQRAASEGLIPGTAVSVSIIDAHAGTIGILGASGVTGENANFDRRIALIGGTSTAHASRSAHFISGIWGPYYSAILPEYWLNEGGQSATGALIDHIIQSHPCYPALLEQAKNKGETIYEALNYILRQAGEPENIAFLTNDIHLPYFHGNRSPRANPNLTGIITGLKLSTTPEDALRYLATIQALALGTRHIIETNQNGYNIDTASGGGTKNPIFVQEHANATGCALLPEESEALLGSAGTVAAGVFESLPEAAASRIGKTVTPQTNKIKAYYDRKYRVFHQYHDHRYQALQ LASYFIGVDVGTGSARAGVFDLQGRVGQASREITFKPKADFVEQSSENIWQAVCNAVRDAVNQADINPIQVKGLGFDATCSLVVLDKEGNPLTVSPSGRNEQNVIVWDHRAITQAERINATKHPVLEFVGGVISPEQTPKLLWLKQHPNTWSNVGHLFDLPDFLTWRATKDETRSLCSTVCKWTYLGHEDRWDPSYFKLVGLADLLDNNAAKIGATVKPGAPLGHGLSQRAASEGLIPGTAVSVSIIDAHAGTIGILGASGVTGENANFDRRIALIGGTSTAHASRSAHFISGIWGPYYSAILPEYWLNEGGQSATGALIDHIIQSHPCYPALLEQAKNKGETIYEALNYILRQAGEPENIAFLTNDIHLPYFHGNRSPRANPNLTGIITGLKLSTTPEDALRYLATIQALALGTRHIIETNQNGYNIDTASGGGTKNPIFVQEHANATGCALLPEESEALLGSAGTVAAGVFESLPEAAASRIGKTVTPQTNKIKAYYDRKYRVFHQYHDHRYQALQ 3l0q-a2-m2-cA_3l0q-a2-m1-cB The crystal structure of xlylulose kinase from Yersinia pseudotuberculosis Q665C6 Q665C6 1.61 X-RAY DIFFRACTION 90 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 517 518 3gg4-a3-m1-cB_3gg4-a3-m2-cA ASYFIGVDVGTGSARAGVFDLQGRVGQASREITFKPKADFVEQSSENIWQAVCNAVRDAVNQADINPIQVKGLGFDATCSLVVLDKEGNPLTVSPSGRNEQNVIVWDHRAITQAERINATKHPVLEFVGGVISPEQTPKLLWLKQHPNTWSNVGHLFDLPDFLTWRATKDETRSLCSTVCKWTYLGHEDRWDPSYFKLVGLADLLDNNAAKIGATVKPGAPLGHGLSQRAASEGLIPGTAVSVSIIDAHAGTIGILGASGVTGENANFDRRIALIGGTSTAHASRSAHFISGIWGPYYSAILPEYWLNEGGQSATGALIDHIIQSHPCYPALLEQAKNKGETIYEALNYILRQAGEPENIAFLTNDIHLPYFHGNRSPRANPNLTGIITGLKLSTTPEDALRYLATIQALALGTRHIIETNQNGYNIDTASGGGTKNPIFVQEHANATGCALLPEESEALLGSAGTVAAGVFESLPEAAASRIGKTVTPQTNKIKAYYDRKYRVFHQYHDHRYQALQ LASYFIGVDVGTGSARAGVFDLQGRVGQASREITFKPKADFVEQSSENIWQAVCNAVRDAVNQADINPIQVKGLGFDATCSLVVLDKEGNPLTVSPSGRNEQNVIVWDHRAITQAERINATKHPVLEFVGGVISPEQTPKLLWLKQHPNTWSNVGHLFDLPDFLTWRATKDETRSLCSTVCKWTYLGHEDRWDPSYFKLVGLADLLDNNAAKIGATVKPGAPLGHGLSQRAASEGLIPGTAVSVSIIDAHAGTIGILGASGVTGENANFDRRIALIGGTSTAHASRSAHFISGIWGPYYSAILPEYWLNEGGQSATGALIDHIIQSHPCYPALLEQAKNKGETIYEALNYILRQAGEPENIAFLTNDIHLPYFHGNRSPRANPNLTGIITGLKLSTTPEDALRYLATIQALALGTRHIIETNQNGYNIDTASGGGTKNPIFVQEHANATGCALLPEESEALLGSAGTVAAGVFESLPEAAASRIGKTVTPQTNKIKAYYDRKYRVFHQYHDHRYQALQ 3l12-a1-m1-cB_3l12-a1-m1-cA Crystal structure of Putative glycerophosphoryl diester phosphodiesterase (YP_165505.1) from Silicibacter pomeroyi DSS-3 at 1.60 A resolution Q5LX22 Q5LX22 1.6 X-RAY DIFFRACTION 60 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 285 286 GFSQLEGLRGHPSVVRVIGHRGARGVPENTLEGFAFTLAAGVRALEFDVVTADGVPVVTHNHHLANATRDGQGHWLTGAERQVAETYAEIRALDVGGLDGRTVYGRRFPDQAFLTGIHVPRLGELLDLCAGYGDQAPYLLLELKSDPAHDHAARAEVAAVLADVRRYREPRTVHSFDWALLGECRRQAPDLPTSYLSQLPEGPDYDRTESLPQAVASAGGQLWCPYFLDVTPELVAEAHDLGLIVLTWTVNEPEDIRRATTGVDGIVTDYPGRTQRILIDGLSWT GFSQLEGLRGHPSVVRVIGHRGARGVPENTLEGFAFTLAAGVRALEFDVVTADGVPVVTHNHHLANATRDGQGHWLTGAERQVAETYAEIRALDVGGLDGRTVYGRRFPDQAFLTGIHVPRLGELLDLCAGYGDQAPYLLLELKSDPALHDHAARAEVAAVLADVRRYREPRTVHSFDWALLGECRRQAPDLPTSYLSQLPEGPDYDRTESLPQAVASAGGQLWCPYFLDVTPELVAEAHDLGLIVLTWTVNEPEDIRRATTGVDGIVTDYPGRTQRILIDGLSWT 3l14-a1-m1-cA_3l14-a1-m2-cA Human Carbonic Anhydrase II complexed with Althiazide P00918 P00918 1.22 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 257 HWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK HWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK 3l18-a1-m1-cB_3l18-a1-m1-cA Ton1285, an Intracellular Protease from Thermococcus onnurineus NA1 B6YXG0 B6YXG0 1.78 X-RAY DIFFRACTION 48 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 167 168 SMKVLFLSADGFEDLELIYPLHRIKEEGHEVYVASFQRGKITGKHGYSVNVDLTFEEVDPDEFDALVLPGGKAPEIVRLNEKAVMITRRMFEDDKPVASICHGPQILISAKVLKGRRGTSTITIRDDVINAGAEWIDAEVVVDGNWVSSRHPGDLYAWMREFVKLLH ASMKVLFLSADGFEDLELIYPLHRIKEEGHEVYVASFQRGKITGKHGYSVNVDLTFEEVDPDEFDALVLPGGKAPEIVRLNEKAVMITRRMFEDDKPVASICHGPQILISAKVLKGRRGTSTITIRDDVINAGAEWIDAEVVVDGNWVSSRHPGDLYAWMREFVKLLH 3l19-a2-m1-cB_3l19-a2-m3-cB Crystal structure of calcium binding domain of CpCDPK3, cgd5_820 Q5CS01 Q5CS01 2.14 X-RAY DIFFRACTION 64 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 179 179 3l19-a1-m1-cA_3l19-a1-m2-cA ELPSLANAIENMRKFQNSQKLAQAALLYMASKLTSQEETKELTDIFRHIDKNGDGQLDRQELIDGYSKLSEVAVFDLPQIESEVDAILGAADFDRNGYIDYSEFVTVAMDRKSLLSKDKLESAFQKFDQDGNGKISVDELASVFGESKTWKEMIIDSNNDGDVDFEEFCKMIQKLCSNN ELPSLANAIENMRKFQNSQKLAQAALLYMASKLTSQEETKELTDIFRHIDKNGDGQLDRQELIDGYSKLSEVAVFDLPQIESEVDAILGAADFDRNGYIDYSEFVTVAMDRKSLLSKDKLESAFQKFDQDGNGKISVDELASVFGESKTWKEMIIDSNNDGDVDFEEFCKMIQKLCSNN 3l1g-a1-m1-cA_3l1g-a1-m2-cA Human AlphaB crystallin P02511 P02511 3.32 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 MRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPIT MRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQVSGPERTIPIT 3l1p-a1-m1-cB_3l1p-a1-m1-cA POU protein:DNA complex P20263 P20263 2.8 X-RAY DIFFRACTION 23 0.993 10090 (Mus musculus) 10090 (Mus musculus) 145 147 KALQKELEQFAKLLKQKRITLGYTQADVGLTLGVLFGKVFSQTTISRFEALQLSLKNMSKLRPLLEKWVEEADNNENLQEISKSQARKRKRTSIENRVRWSLETMFLKSPKPSLQQITHIANQLGLEKDVVRVWFSNRRQKGKRS DMKALQKELEQFAKLLKQKRITLGYTQADVGLTLGVLFGKVFSQTTISRFEALQLSLKNMSKLRPLLEKWVEEADNNENLQEISKSVQARKRKRTSIENRVRWSLETMFLKSPKPSLQQITHIANQLGLEKDVVRVWFSNRRQKGKR 3l1w-a3-m1-cE_3l1w-a3-m1-cF The crystal structure of a functionally unknown conserved protein from Enterococcus faecalis V583 Q835Y1 Q835Y1 1.6 X-RAY DIFFRACTION 33 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 249 249 3l1w-a1-m1-cA_3l1w-a1-m1-cB 3l1w-a2-m1-cC_3l1w-a2-m1-cD KIATYNVRVDTEYDQDWQWSFRKEAVCQLINFHDWSLCCIQEVRPNQVRDLKAYTTFTCLSAEREGDGQGEGLAILYNEQKVQAIDTGYFWLSETPQQPSIHPEAGCPRIALWGLFKETTQNTPFLVINVHLDHISAHARLAGTVILEELHDKIAQYPTLLGDFNAESGEEVHQLVQKKFQDSKNLATHYGPRGTFQNFTYTKPWAELEEIDYIYVKGWQVQQTASLTDSIDGRFPSDHFPLEAEVAGE KIATYNVRVDTEYDQDWQWSFRKEAVCQLINFHDWSLCCIQEVRPNQVRDLKAYTTFTCLSAEREGDGQGEGLAILYNEQKVQAIDTGYFWLSETPQQPSIHPEAGCPRIALWGLFKETTQNTPFLVINVHLDHISAHARLAGTVILEELHDKIAQYPTLLGDFNAESGEEVHQLVQKKFQDSKNLATHYGPRGTFQNFTYTKPWAELEEIDYIYVKGWQVQQTASLTDSIDGRFPSDHFPLEAEVAGE 3l23-a2-m1-cA_3l23-a2-m2-cA Crystal structure of Sugar phosphate isomerase/epimerase (YP_001303399.1) from Parabacteroides distasonis ATCC 8503 at 1.70 A resolution A6LDL3 A6LDL3 1.7 X-RAY DIFFRACTION 44 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 263 263 GKEIGLQIYSLSQELYKGDVAANLRKVKDGYSKLELAGYGKGAIGGVPDFKKAEDAGLKIISSHVNPVDTSISDPFKAIFKYSKEVTPKIEYWKATAADHAKLGCKYLIQPPTITTHDEAKLVCDIFNQASDVIKAEGIATGFGYHNHNEFNRVATKEQQFKVGDQIYDLLKDTDPSKVYFEDVYWTVGQNDPVEYQKHPDRIKVLHIKDRAVFGQSGNFEIFKQYANGIKDYFVELEQPDGRTQFAGVKDCADYLIKAPFVK GKEIGLQIYSLSQELYKGDVAANLRKVKDGYSKLELAGYGKGAIGGVPDFKKAEDAGLKIISSHVNPVDTSISDPFKAIFKYSKEVTPKIEYWKATAADHAKLGCKYLIQPPTITTHDEAKLVCDIFNQASDVIKAEGIATGFGYHNHNEFNRVATKEQQFKVGDQIYDLLKDTDPSKVYFEDVYWTVGQNDPVEYQKHPDRIKVLHIKDRAVFGQSGNFEIFKQYANGIKDYFVELEQPDGRTQFAGVKDCADYLIKAPFVK 3l2b-a1-m1-cB_3l2b-a1-m1-cA Crystal structure of the CBS and DRTGG domains of the regulatory region of Clostridium perfringens pyrophosphatase complexed with activator, diadenosine tetraphosphate Q8XIQ9 Q8XIQ9 2.27 X-RAY DIFFRACTION 93 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 230 233 3l31-a1-m1-cB_3l31-a1-m1-cA KLKVEDLEMDKIAPLAPEVSLKMAWNIMRDKNLKSIPVADGNNHLLGMLSTSNITATYMDIWDSNILAKSATSLDNILDTLSAEAQNINEERKVFPGKVVVAAMQAESLKEFISEGDIAIAGDRAEIQAELIELKVSLLIVTGGHTPSKEIIELAKKNNITVITTPHDSFTASRLIVQSLPVDYVMTKDNLVAVSTDDLVEDVKVTMSETRYSNYPVIDENNKVVGSIAR MVKLKVEDLEMDKIAPLAPEVSLKMAWNIMRDKNLKSIPVADGNNHLLGMLSTSNITATYMDIWDSNILAKSATSLDNILDTLSAEAQNINEERKVFPGKVVVAAMQAESLKEFISEGDIAIAGDRAEIQAELIELKVSLLIVTGGHTPSKEIIELAKKNNITVITTPHDSFTASRLIVQSLPVDYVMTKDNLVAVSTDDLVEDVKVTMSETRYSNYPVIDENNKVVGSIARF 3l2d-a4-m1-cC_3l2d-a4-m1-cB Glycocyamine kinase, beta-beta homodimer from marine worm Namalycastis sp. Q6AW42 Q6AW42 2.4 X-RAY DIFFRACTION 85 1.0 243920 (Namalycastis sp. ST01) 243920 (Namalycastis sp. ST01) 367 379 3l2d-a3-m1-cA_3l2d-a3-m2-cD KFKAADNFPDLSKHNNVMASQLTKELYEKYWDKVTPNGVTFDKCIQTGVDNPGNKFYGKKTGCVFGDEYSYECYKEFFDKCIEEIHHFKPSDKHPAPDLDHNKLVGGVFEDKYVKSCRIRCGRSVKGVCLPPAMSRAERRLVEKVVSDALGGLKGDLAGKYYPLTTMNEKDQEQLIEDHFLFEKPTGALLTTSGCARDWPDGRGIWHNNEKNFLVWINEEDHIRVISMQKGGDLKAVFSRFARGLLEVERLMKECGHGLMHNDRLGYICTCPTNMGTVVRASVHLRLAFLEKHPRFDEMLGKLRLGKRGTGGESSLATDSTYDISNWARLGKSERELVQVLVDGVNLLIACDKKLEAGQSIDDMIPK NRVGHSKPWESGKFKAADNFPDLSKHNNVMASQLTKELYEKYWDKVTPNGVTFDKCIQTGVDNPGNKFYGKKTGCVFGDEYSYECYKEFFDKCIEEIHHFKPSDKHPAPDLDHNKLVGGVFEDKYVKSCRIRCGRSVKGVCLPPAMSRAERRLVEKVVSDALGGLKGDLAGKYYPLTTMNEKDQEQLIEDHFLFEKPTGALLTTSGCARDWPDGRGIWHNNEKNFLVWINEEDHIRVISMQKGGDLKAVFSRFARGLLEVERLMKECGHGLMHNDRLGYICTCPTNMGTVVRASVHLRLAFLEKHPRFDEMLGKLRLGKRGTGGESSLATDSTYDISNWARLGKSERELVQVLVDGVNLLIACDKKLEAGQSIDDMIPK 3l2h-a1-m1-cD_3l2h-a1-m1-cA Crystal structure of Putative sugar phosphate isomerase (AFE_0303) from Acidithiobacillus ferrooxidans ATCC 23270 at 1.85 A resolution B7J8Z8 B7J8Z8 1.85 X-RAY DIFFRACTION 125 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 152 153 3l2h-a1-m1-cC_3l2h-a1-m1-cB DTRKLLLTAQEISRKGEHKVHFLNPGAVRVNKSLGDAVGLRHGIHLIQIEPGKESTEYHLHHYEEEAVYVLSGKGTLTENDQYPIAPGDFVGFPCHAAAHSISNDGTETLVCLVIGQRLDQDVVDYPNQHKRLYRNNGEWNLVDADIRVLRE GDTRKLLLTAQEISRKGEHKVHFLNPGAVRVNKSLGDAVGLRHGIHLIQIEPGKESTEYHLHHYEEEAVYVLSGKGTLTENDQYPIAPGDFVGFPCHAAAHSISNDGTETLVCLVIGQRLDQDVVDYPNQHKRLYRNNGEWNLVDADIRVLRE 3l2h-a1-m1-cD_3l2h-a1-m1-cB Crystal structure of Putative sugar phosphate isomerase (AFE_0303) from Acidithiobacillus ferrooxidans ATCC 23270 at 1.85 A resolution B7J8Z8 B7J8Z8 1.85 X-RAY DIFFRACTION 63 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 152 154 3l2h-a1-m1-cA_3l2h-a1-m1-cC DTRKLLLTAQEISRKGEHKVHFLNPGAVRVNKSLGDAVGLRHGIHLIQIEPGKESTEYHLHHYEEEAVYVLSGKGTLTENDQYPIAPGDFVGFPCHAAAHSISNDGTETLVCLVIGQRLDQDVVDYPNQHKRLYRNNGEWNLVDADIRVLRE GDTRKLLLTAQEISRKGEHKVHFLNPGAVRVNKSLGDAVGLRHGIHLIQIEPGKESTEYHLHHYEEEAVYVLSGKGTLTENDQYPIAPGDFVGFPCHAAAHSISNDGTETLVCLVIGQRLDQDVVDYPNQHKRLYRNNGEWNLVDADIRVLREP 3l2j-a1-m1-cA_3l2j-a1-m1-cB Dimeric structure of the ligand-free extracellular domain of the human parathyroid hormone receptor (PTH1R) Q03431 Q03431 3.24 X-RAY DIFFRACTION 227 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 484 484 EEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFDDVMTKEEQIFLLHRAQAQCEKRLKEVLQRRPCLPEWDHILCWPLGAPGEVVAVPCPDYIYDFNHKGHAYRRCDRNGSWELVPGHNRTWANYSECVKFLTNETREREVFDRLHH EEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFDDVMTKEEQIFLLHRAQAQCEKRLKEVLQRRPCLPEWDHILCWPLGAPGEVVAVPCPDYIYDFNHKGHAYRRCDRNGSWELVPGHNRTWANYSECVKFLTNETREREVFDRLHH 3l2k-a1-m1-cA_3l2k-a1-m1-cB Structure of phenazine antibiotic biosynthesis protein with substrate Q8GPH0 Q8GPH0 2.8 X-RAY DIFFRACTION 94 1.0 549 (Pantoea agglomerans) 549 (Pantoea agglomerans) 352 352 3hgu-a1-m1-cB_3hgu-a1-m1-cA 3hgv-a1-m1-cB_3hgv-a1-m1-cA DYSLEIDAVMKAAQINDTNNFVQALMRWHFSKETGSPFWLGMREQLNFDPIKDVKTINDLRQFSDISHCLRQEPVANLVPQGLPADSHPQVYESGGTTGAPKYVVAYDAWIEALISWRMSGYQHRPGRPSGNTLAAIPTGPHIVGAINKERALRLGGMFFSIDIDPRWVKRSLSEGDTATVRKYTHHLVDQVQNTLMNQDIRFLVTTPPVLRELLKRPEVVLQMKQSLAQITLGGTELNLDEIKFIASEILPDCEFSASYGSTSALGVSRSLLITSESQQVIYDSFSPFITYDVVDSITAQTVEYGERGNVIVTHLSPWAFYPRVAERDTAIRLPGVSGFAGDRLADIEPLK DYSLEIDAVMKAAQINDTNNFVQALMRWHFSKETGSPFWLGMREQLNFDPIKDVKTINDLRQFSDISHCLRQEPVANLVPQGLPADSHPQVYESGGTTGAPKYVVAYDAWIEALISWRMSGYQHRPGRPSGNTLAAIPTGPHIVGAINKERALRLGGMFFSIDIDPRWVKRSLSEGDTATVRKYTHHLVDQVQNTLMNQDIRFLVTTPPVLRELLKRPEVVLQMKQSLAQITLGGTELNLDEIKFIASEILPDCEFSASYGSTSALGVSRSLLITSESQQVIYDSFSPFITYDVVDSITAQTVEYGERGNVIVTHLSPWAFYPRVAERDTAIRLPGVSGFAGDRLADIEPLK 3l2n-a1-m1-cB_3l2n-a1-m2-cB Crystal structure of Putative carboxypeptidase A (YP_562911.1) from SHEWANELLA DENITRIFICANS OS-217 at 2.39 A resolution Q12MY8 Q12MY8 2.39 X-RAY DIFFRACTION 52 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 369 369 3l2n-a1-m1-cA_3l2n-a1-m2-cA RISANFDGGNIETISLANPDDIQLAIRPDAGGEFYQWFNFRFEATIGKTYTLNILNAGGASYLKGWEDYQAVASYDRQTWFRLPTEYKDGKLSISVELDCEAIQIAYFTPYSYERHLDLISAVQLHPLVSTEHLGLTLDGRDTLVKVGDDDPSKKSIWITARQHPGETAEWLVEGLLNQLLDNDCPTSKALLDKANFYIVPNNPDGSVRGHLRTNAVGANLNREWQTPSLERSPEVYYVVNKHETGVDLFYDVHGDEGLPYVFLAGCEGIPNYSDKLASLQQDFVAALSLASADFQTEFGYDKDEPGKANLTVACNWVANTFKCLSNTLEPFKDNANLADPFQGWSPERSVYFGEASLIARAVIDKIGQ RISANFDGGNIETISLANPDDIQLAIRPDAGGEFYQWFNFRFEATIGKTYTLNILNAGGASYLKGWEDYQAVASYDRQTWFRLPTEYKDGKLSISVELDCEAIQIAYFTPYSYERHLDLISAVQLHPLVSTEHLGLTLDGRDTLVKVGDDDPSKKSIWITARQHPGETAEWLVEGLLNQLLDNDCPTSKALLDKANFYIVPNNPDGSVRGHLRTNAVGANLNREWQTPSLERSPEVYYVVNKHETGVDLFYDVHGDEGLPYVFLAGCEGIPNYSDKLASLQQDFVAALSLASADFQTEFGYDKDEPGKANLTVACNWVANTFKCLSNTLEPFKDNANLADPFQGWSPERSVYFGEASLIARAVIDKIGQ 3l2n-a1-m2-cA_3l2n-a1-m2-cB Crystal structure of Putative carboxypeptidase A (YP_562911.1) from SHEWANELLA DENITRIFICANS OS-217 at 2.39 A resolution Q12MY8 Q12MY8 2.39 X-RAY DIFFRACTION 97 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 369 369 3l2n-a1-m1-cA_3l2n-a1-m1-cB RISANFDGGNIETISLANPDDIQLAIRPDAGGEFYQWFNFRFEATIGKTYTLNILNAGGASYLKGWEDYQAVASYDRQTWFRLPTEYKDGKLSISVELDCEAIQIAYFTPYSYERHLDLISAVQLHPLVSTEHLGLTLDGRDTLVKVGDDDPSKKSIWITARQHPGETAEWLVEGLLNQLLDNDCPTSKALLDKANFYIVPNNPDGSVRGHLRTNAVGANLNREWQTPSLERSPEVYYVVNKHETGVDLFYDVHGDEGLPYVFLAGCEGIPNYSDKLASLQQDFVAALSLASADFQTEFGYDKDEPGKANLTVACNWVANTFKCLSNTLEPFKDNANLADPFQGWSPERSVYFGEASLIARAVIDKIGQ RISANFDGGNIETISLANPDDIQLAIRPDAGGEFYQWFNFRFEATIGKTYTLNILNAGGASYLKGWEDYQAVASYDRQTWFRLPTEYKDGKLSISVELDCEAIQIAYFTPYSYERHLDLISAVQLHPLVSTEHLGLTLDGRDTLVKVGDDDPSKKSIWITARQHPGETAEWLVEGLLNQLLDNDCPTSKALLDKANFYIVPNNPDGSVRGHLRTNAVGANLNREWQTPSLERSPEVYYVVNKHETGVDLFYDVHGDEGLPYVFLAGCEGIPNYSDKLASLQQDFVAALSLASADFQTEFGYDKDEPGKANLTVACNWVANTFKCLSNTLEPFKDNANLADPFQGWSPERSVYFGEASLIARAVIDKIGQ 3l2o-a2-m1-cB_3l2o-a2-m2-cB Structure-Based Mechanism of Dimerization-Dependent Ubiquitination by the SCFFbx4 Ubiquitin Ligase Q9UKT5 Q9UKT5 2.8 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 AASTLTRLPIDVQLYILSFLSPHDLCQLGSTNHYWNETVRDPILWRYFLLRDLPSWSSVDWKSLPDLEILKKPISEVFFDYMAVYRMCCPYLIIQNEPRFAMFGPGLEELNTSLVLSLMSSEELCPTAGLPQRQIDGIGSGVNFQLNNQHKFNILILYSTTRRYSVIPQIQKVCEVVDGFIYVANAEAHKRHEWQDEFSHIMAMTDPAFGSSGRPLLVLSCISQGDVKRMPCFYLAHELHLNLLNHPWLVQDTEAETLTGFLNGIEWILEEVES AASTLTRLPIDVQLYILSFLSPHDLCQLGSTNHYWNETVRDPILWRYFLLRDLPSWSSVDWKSLPDLEILKKPISEVFFDYMAVYRMCCPYLIIQNEPRFAMFGPGLEELNTSLVLSLMSSEELCPTAGLPQRQIDGIGSGVNFQLNNQHKFNILILYSTTRRYSVIPQIQKVCEVVDGFIYVANAEAHKRHEWQDEFSHIMAMTDPAFGSSGRPLLVLSCISQGDVKRMPCFYLAHELHLNLLNHPWLVQDTEAETLTGFLNGIEWILEEVES 3l32-a1-m1-cA_3l32-a1-m1-cB Structure of the dimerisation domain of the rabies virus phosphoprotein Q0GBY3 Q0GBY3 1.5 X-RAY DIFFRACTION 45 1.0 445791 (Rabies virus China/MRV) 445791 (Rabies virus China/MRV) 44 45 8fuq-a1-m1-cA_8fuq-a1-m1-cB 8fuq-a2-m1-cD_8fuq-a2-m1-cC 8fuq-a3-m1-cF_8fuq-a3-m1-cE NLLFQSYLDNVGVQIVRQMRSGERFLKIWSQTVEEIVSYVTVNF MNLLFQSYLDNVGVQIVRQMRSGERFLKIWSQTVEEIVSYVTVNF 3l34-a1-m1-cA_3l34-a1-m1-cB The crystal structure of a two-component sensor domain (2nd form) from Pseudomonas aeruginosa PA01 Q9HT87 Q9HT87 1.7 X-RAY DIFFRACTION 154 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 118 122 3kkb-a1-m1-cA_3kkb-a1-m1-cB 3l34-a2-m1-cD_3l34-a2-m1-cC 3l34-a3-m1-cF_3l34-a3-m1-cE 3l34-a4-m1-cH_3l34-a4-m1-cG 3n24-a2-m1-cD_3n24-a2-m1-cC 4lle-a2-m1-cC_4lle-a2-m1-cD AQEQRSHHYATIEVSQQLRQLLGDQLVILLRETPDGQALERSQNDFRRVLEQGRANTVDSAEQAALDGVRDAYLQLQAHTPALLEAPADNDGFSEAFNGLRLRLQDLQQLALAGISEA SNAQEQRSHHYATIEVSQQLRQLLGDQLVILLRETPDGQALERSQNDFRRVLEQGRANTVDSAEQAALDGVRDAYLQLQAHTPALLEAPADNDGFSEAFNGLRLRLQDLQQLALAGISEAET 3l39-a1-m2-cA_3l39-a1-m3-cA Crystal structure of Putative PhoU-like phosphate regulatory protein (BT4638) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 1.93 A resolution Q89YU3 Q89YU3 1.93 X-RAY DIFFRACTION 36 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 209 209 3l39-a1-m1-cA_3l39-a1-m2-cA 3l39-a1-m1-cA_3l39-a1-m3-cA SKFTPKEPKFFPLLKQLSDVLSASSVLLVESMEHDLPTERADYYKQIKDMEREGDRLTHLIFDELSTTFITPFDREDIHDLASCMDDVIDGINSSAKRIVIYNPRPISESGKELSRLIHEEAINIGKAMDELETFRKNPKPLRDYCTQLHDIENQADDVYELFITKLFEEEKDCIELIKIKEIMHELEKTTDAAEHVGKILKNLIVKYS SKFTPKEPKFFPLLKQLSDVLSASSVLLVESMEHDLPTERADYYKQIKDMEREGDRLTHLIFDELSTTFITPFDREDIHDLASCMDDVIDGINSSAKRIVIYNPRPISESGKELSRLIHEEAINIGKAMDELETFRKNPKPLRDYCTQLHDIENQADDVYELFITKLFEEEKDCIELIKIKEIMHELEKTTDAAEHVGKILKNLIVKYS 3l3b-a1-m1-cA_3l3b-a1-m1-cB Crystal structure of isoprenoid biosynthesis protein with amidotransferase-like domain from Ehrlichia Chaffeensis at 1.90A resolution Q2GI86 Q2GI86 1.9 X-RAY DIFFRACTION 82 0.986 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 210 213 LNSAVILAGCGHMDGSEIREAVLVMLELDRHNVNFKCFAPNKNQKQVVDHKKKESVGEVRNILVESARIARGSVYDIEQIRVEEFDMLVIPGGYGVAKNFSNLFDEDNDYILPEFKNAVREFYNAKKPIGAVCISPAVVVALLKDIAKVKVTIGELIDKMGGVHVDCPTIKSVKDDVNRIFSCSAYMRNDSLYNVYLGIQDMISSMVNYL ALNSAVILAGCGHMDGSEIREAVLVMLELDRHNVNFKCFAPNKNQKQVVDHKKKESVGEVRNILVESARIARGSVYDIEQIRVEEFDMLVIPGGYGVAKNFSNLFDDYILPEFKNAVREFYNAKKPIGAVCISPAVVVALLKDIAKVKVTIGEDSNGLIDKMGGVHVDCPTIKSVKDDVNRIFSCSAYMRNDSLYNVYLGIQDMISSMVNYLK 3l3p-a1-m1-cA_3l3p-a1-m2-cA Crystal structure of the C-terminal domain of Shigella type III effector IpaH9.8, with a novel domain swap Q8VSC3 Q8VSC3 3.2 X-RAY DIFFRACTION 81 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 263 263 SLADAVTAWFPENKQSDVSQIWHAFEHEEHANTFSAFLDRLSDTVSTSGFREQVAAWLEKLSASAELRQQSFAVAADATESCEDRVALTWNNLRKTLLVHQASEGLFDNDTGALLSLGREMFRLEILEDIARDKVEIEVYLAFQTMLAEKLQLSTVSGVTANDLRTAEAMVRSREENEFTDWFSLWGPWHAVLKRTEADRWAQAEEQKYEMLENEYPQRVADRLKASGLSGDADAEREAGAQVMRETEQQIYRQLTDEVLALR SLADAVTAWFPENKQSDVSQIWHAFEHEEHANTFSAFLDRLSDTVSTSGFREQVAAWLEKLSASAELRQQSFAVAADATESCEDRVALTWNNLRKTLLVHQASEGLFDNDTGALLSLGREMFRLEILEDIARDKVEIEVYLAFQTMLAEKLQLSTVSGVTANDLRTAEAMVRSREENEFTDWFSLWGPWHAVLKRTEADRWAQAEEQKYEMLENEYPQRVADRLKASGLSGDADAEREAGAQVMRETEQQIYRQLTDEVLALR 3l3s-a3-m1-cG_3l3s-a3-m1-cI Crystal structure of an enoyl-CoA hydrotase/isomerase family protein from Silicibacter pomeroyi Q5LQZ3 Q5LQZ3 2.32 X-RAY DIFFRACTION 98 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 225 226 3l3s-a1-m1-cA_3l3s-a1-m1-cB 3l3s-a1-m1-cA_3l3s-a1-m1-cC 3l3s-a1-m1-cB_3l3s-a1-m1-cC 3l3s-a2-m1-cE_3l3s-a2-m1-cD 3l3s-a2-m1-cE_3l3s-a2-m1-cF 3l3s-a2-m1-cF_3l3s-a2-m1-cD 3l3s-a3-m1-cH_3l3s-a3-m1-cG 3l3s-a3-m1-cH_3l3s-a3-m1-cI 3l3s-a4-m1-cK_3l3s-a4-m1-cJ 3l3s-a4-m1-cL_3l3s-a4-m1-cJ 3l3s-a4-m1-cL_3l3s-a4-m1-cK LLGEVLSEGVLTLTLGRAPAHPLSRAIAALHDALRRAGDDHVHVLVIHGPGRIFCAGHDLKEIGEGRAFVTDLFEACSALLDLAHCPKPTIALVEGIATAAGLQLAACDLAYASPAARFCLPGVQNGGFTTPAVAVSRVIGRRAVTEALTGATYDADWALAAGLINRILPEAALATHVADLAGALAARNQAPLRRGLETLNRHLELPLEQAYALATPVVEHFDPG GLLGEVLSEGVLTLTLGRAPAHPLSRAIAALHDALRRAGDDHVHVLVIHGPGRIFCAGHDLKEIGEGRAFVTDLFEACSALLDLAHCPKPTIALVEGIATAAGLQLAACDLAYASPAARFCLPGVQNGGFTTPAVAVSRVIGRRAVTEALTGATYDADWALAAGLINRILPEAALATHVADLAGALAARNQAPLRRGLETLNRHLELPLEQAYALATPVVEHFDPG 3l43-a2-m1-cC_3l43-a2-m1-cB Crystal structure of the dynamin 3 GTPase domain bound with GDP Q9UQ16 Q9UQ16 2.27 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 238 246 3l43-a1-m1-cD_3l43-a1-m1-cA QIAVVGGQSAGKSSVLENFVGRDFLPRTRRPLVLQLITSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQ PQIAVVGGQSAGKSSVLENFVGRDFLPRVTRRPLVLQLITSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLT 3l44-a1-m1-cA_3l44-a1-m1-cB Crystal structure of Bacillus anthracis HemL-1, glutamate semialdehyde aminotransferase Q81YV0 Q81YV0 2.05 X-RAY DIFFRACTION 355 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 413 421 VVKFTKSEALHKEALEHIVGGVNSPSRSFKAVGGGAPIAERGKGAYFWDVDGNKYIDYLAAYGPIITGHAHPHITKAITTAAENGVLYGTPTALEVKFAKLKEAPALDKVRFVNSGTEAVTTIRVARAYTGRTKIKFAGCYHGHSDLVLVALGTPDSAGVPQSIAQEVITVPFNNVETLKEALDKWGHEVAAILVEPIVGNFGIVEPKPGFLEKVNELVHEAGALVIYDEVITAFRFYGGAQDLLGVTPDLTALGVIGGGLPIGAYGGKKEIEQVAPLGPAYQAGTAGNPASASGIACLEVLQQEGLYEKLDELGATLEKGILEQAAKHNIDITLNRLKGALTVYFTTNTIEDYDAAQDTDGEFGKFFKLLQEGVNLAPSKYEAWFLTTEHTKEDIEYTIEAVGRAFAALADN VVKFTKSEALHKEALEHIVGGVNSPSRSFKAVGGGAPIAERGKGAYFWDVDGNKYIDYLAAYGPIITGHAHPHITKAITTAAENGVLYGTPTALEVKFAKLKEAPALDKVRFVNSGTEAVTTIRVARAYTGRTKIKFAGCYHGHSDLVLVAAGSGPSTLGTPDSAGVPQSIAQEVITVPFNNVETLKEALDKWGHEVAAILVEPIVGNFGIVEPKPGFLEKVNELVHEAGALVIYDEVITAFRFYGGAQDLLGVTPDLTALGVIGGGLPIGAYGGKKEIEQVAPLGPAYQAGTAGNPASASGIACLEVLQQEGLYEKLDELGATLEKGILEQAAKHNIDITLNRLKGALTVYFTTNTIEDYDAAQDTDGEFGKFFKLLQEGVNLAPSKYEAWFLTTEHTKEDIEYTIEAVGRAFAALADNK 3l46-a1-m1-cA_3l46-a1-m1-cB Crystal structure of the second BRCT domain of epithelial cell transforming 2 (ECT2) Q9H8V3 Q9H8V3 1.482 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 95 GVPPFQDCILSFLGFSDEEKTNMEEMTEMQGGKYLPLGDERCTHLVVEENIVKDLPFEPSKKLYVVKQEWFWGSIQMDARAGETMYLYEK GVPPFQDCILSFLGFSDEEKTNMEEMTEMQGGKYLPLGDERCTHLVVEENIVKDLPFEPSKKLYVVKQEWFWGSIQMDARAGETMYLYEKANTPE 3l49-a6-m1-cC_3l49-a6-m1-cD CRYSTAL STRUCTURE OF ABC SUGAR TRANSPORTER SUBUNIT FROM Rhodobacter sphaeroides 2.4.1 Q3J3W0 Q3J3W0 2.3 X-RAY DIFFRACTION 55 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 282 282 3l49-a5-m1-cA_3l49-a5-m1-cB SLEGKTIGITAIGTDHDWDLKAYQAQIAEIERLGGTAIALDAGRNDQTQVSQIQTLIAQKPDAIIEQLGNLDVLNPWLQKINDAGIPLFTVDTATPHAINNTTSNNYSIGAELALQMVADLGGKGNVLVFNGFYSVPVCKIRYDQMKYVLEAFPDVKIIEPELRDVIPNTIQSAYSNVTDMLTKYPNEGDVGAIWACWDVPMIGATQALQAAGRTDIRTYGVDGSPEFVEMVADPESPAGAVAAQQPSEIGKLAVQNVARHLAGQEVKPFTFAPAVLITKEN SLEGKTIGITAIGTDHDWDLKAYQAQIAEIERLGGTAIALDAGRNDQTQVSQIQTLIAQKPDAIIEQLGNLDVLNPWLQKINDAGIPLFTVDTATPHAINNTTSNNYSIGAELALQMVADLGGKGNVLVFNGFYSVPVCKIRYDQMKYVLEAFPDVKIIEPELRDVIPNTIQSAYSNVTDMLTKYPNEGDVGAIWACWDVPMIGATQALQAAGRTDIRTYGVDGSPEFVEMVADPESPAGAVAAQQPSEIGKLAVQNVARHLAGQEVKPFTFAPAVLITKEN 3l4b-a1-m1-cF_3l4b-a1-m1-cA Crystal Structure of an Octomeric Two-Subunit TrkA K+ Channel Ring Gating Assembly, TM1088A:TM1088B, from Thermotoga maritima D3KFX7 D3KFX7 3.45 X-RAY DIFFRACTION 63 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 128 131 KYIVIFGCGRLGSLIANLASSSGHSVVVVDKNEYAFHRLNSEFSGFTVVGDAAEFETLKECGMEKADMVFAFTNDDSTNFFISMNARYMFNVENVIARVYDPEKIKIFEENGIKTICPAVLMIEKVKE SKYIVIFGCGRLGSLIANLASSSGHSVVVVDKNEYAFHRLNSEFSGFTVVGDAAEFETLKECGMEKADMVFAFTNDDSTNFFISMNARYMFNVENVIARVYDPEKIKIFEENGIKTICPAVLMIEKVKEFI 3l4b-a1-m1-cH_3l4b-a1-m1-cG Crystal Structure of an Octomeric Two-Subunit TrkA K+ Channel Ring Gating Assembly, TM1088A:TM1088B, from Thermotoga maritima D3KFX8 D3KFX8 3.45 X-RAY DIFFRACTION 159 0.995 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 205 211 3jxo-a1-m1-cA_3jxo-a1-m1-cB 3jxo-a2-m1-cA_3jxo-a2-m1-cB 3jxo-a2-m2-cA_3jxo-a2-m2-cB 3l4b-a1-m1-cC_3l4b-a1-m1-cD MKVIIIGGETTAYYLARSMLSRKYGVVIINKDRELCEEFAKKLKATIIHGDGSHKEILRDAEVSKNDVVVILTPRDEVNLFIAQLVMKDFGVKRVVSLVNDPGNMEIFKKMGITTVLNLTTLITNTVEALIFPDEFSSIIPLEQGIEFLSVNSPVVGKKLKDLPLPRDSIIAAIVRGGVLVVPRGDTEKLYVIVSAEAKETVEET MKVIIIGGETTAYYLARSMLSRKYGVVIINKDRELCEEFAKKLKATIIHGDGSHKEILRDAEVSKNDVVVILTPRDEVNLFIAQLVMKDFGVKRVVSLVNDPGNMEIFKKMGITTVLNLTTLITNTVEALIFPDEFSSIIPLEQGIEFLSVDSPVVGKKLKDLPLPRDSIIAAIVRGGVLVVPRGDTEILSDKLYVIVSAEAKETVEETLL 3l4d-a1-m1-cC_3l4d-a1-m1-cA Crystal structure of sterol 14-alpha demethylase (CYP51) from Leishmania infantum in complex with fluconazole A2TEF2 A2TEF2 2.75 X-RAY DIFFRACTION 16 1.0 5671 (Leishmania infantum) 5671 (Leishmania infantum) 447 448 GKLPPVVHGTTPFVGHIIQFGKDPLGFMLKAKKKYGGIFTMNICGNRITVVGDVHQHSKFFTPRNEILSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTVAKFQNFAPSIQHEVRKFMKANWNKDEGEINILDDCSAMIINTACQCLFGEDLRKRLDARQFAQLLAKMESCLIPAAVFLPWILKLPLPQSYRCRDARAELQDILSEIIIAREKEEAQKDTTSDLLAGLLGAVYRDGTRMSQHEVCGMIVAAMFAGQHTSTITTTWSLLHLMDPRNKRHLAKLHQEIDEFPAQLNYDNVMEEMPFAEQCARESIRRDPPLVMLMRKVLKPVQVGKYVVPEGDIIACSPLLSHQDEEAFPNPREWNPERNMKLVDGAFCGFGAGVHKCIGEKFGLLQVKTVLATVLRDYDFELLGPLPEPNYHTMVVGPTASQCRVKYIKKK GKLPPVVHGTTPFVGHIIQFGKDPLGFMLKAKKKYGGIFTMNICGNRITVVGDVHQHSKFFTPRNEILSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTVAKFQNFAPSIQHEVRKFMKANWNKDEGEINILDDCSAMIINTACQCLFGEDLRKRLDARQFAQLLAKMESCLIPAAVFLPWILKLPLPQSYRCRDARAELQDILSEIIIAREKEEAQKDTNTSDLLAGLLGAVYRDGTRMSQHEVCGMIVAAMFAGQHTSTITTTWSLLHLMDPRNKRHLAKLHQEIDEFPAQLNYDNVMEEMPFAEQCARESIRRDPPLVMLMRKVLKPVQVGKYVVPEGDIIACSPLLSHQDEEAFPNPREWNPERNMKLVDGAFCGFGAGVHKCIGEKFGLLQVKTVLATVLRDYDFELLGPLPEPNYHTMVVGPTASQCRVKYIKKK 3l4d-a1-m1-cD_3l4d-a1-m1-cA Crystal structure of sterol 14-alpha demethylase (CYP51) from Leishmania infantum in complex with fluconazole A2TEF2 A2TEF2 2.75 X-RAY DIFFRACTION 48 0.998 5671 (Leishmania infantum) 5671 (Leishmania infantum) 445 448 3l4d-a1-m1-cC_3l4d-a1-m1-cB KGKLPPVVHGTTPFVGHIIQFGKDPLGFMLKAKKKYGGIFTMNICGNRITVVGDVHQHSKFFTPRNEILSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTVAKFQNFAPSIQHEVRKFMKANWNKDEGEINILDDCSAMIINTACQCLFGEDLRKRLDARQFAQLLAKMESCLIPAAVFLPWILKLPLPQSYRCRDARAELQDILSEIIIAREKEEANTSDLLAGLLGAVYRDGTRMSQHEVCGMIVAAMFAGQHTSTITTTWSLLHLMDPRNKRHLAKLHQEIDEFPAQLNYDNVMEEMPFAEQCARESIRRDPPLVMLMRKVLKPVQVGKYVVPEGDIIACSPLLSHQDEEAFPNPREWNPERNMKLVDGAFCGFGAGVHKCIGEKFGLLQVKTVLATVLRDYDFELLGPLPEPNYHTMVVGPTASQCRVKYIKKK GKLPPVVHGTTPFVGHIIQFGKDPLGFMLKAKKKYGGIFTMNICGNRITVVGDVHQHSKFFTPRNEILSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTVAKFQNFAPSIQHEVRKFMKANWNKDEGEINILDDCSAMIINTACQCLFGEDLRKRLDARQFAQLLAKMESCLIPAAVFLPWILKLPLPQSYRCRDARAELQDILSEIIIAREKEEAQKDTNTSDLLAGLLGAVYRDGTRMSQHEVCGMIVAAMFAGQHTSTITTTWSLLHLMDPRNKRHLAKLHQEIDEFPAQLNYDNVMEEMPFAEQCARESIRRDPPLVMLMRKVLKPVQVGKYVVPEGDIIACSPLLSHQDEEAFPNPREWNPERNMKLVDGAFCGFGAGVHKCIGEKFGLLQVKTVLATVLRDYDFELLGPLPEPNYHTMVVGPTASQCRVKYIKKK 3l4d-a1-m1-cD_3l4d-a1-m1-cC Crystal structure of sterol 14-alpha demethylase (CYP51) from Leishmania infantum in complex with fluconazole A2TEF2 A2TEF2 2.75 X-RAY DIFFRACTION 63 0.996 5671 (Leishmania infantum) 5671 (Leishmania infantum) 445 447 3l4d-a1-m1-cA_3l4d-a1-m1-cB KGKLPPVVHGTTPFVGHIIQFGKDPLGFMLKAKKKYGGIFTMNICGNRITVVGDVHQHSKFFTPRNEILSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTVAKFQNFAPSIQHEVRKFMKANWNKDEGEINILDDCSAMIINTACQCLFGEDLRKRLDARQFAQLLAKMESCLIPAAVFLPWILKLPLPQSYRCRDARAELQDILSEIIIAREKEEANTSDLLAGLLGAVYRDGTRMSQHEVCGMIVAAMFAGQHTSTITTTWSLLHLMDPRNKRHLAKLHQEIDEFPAQLNYDNVMEEMPFAEQCARESIRRDPPLVMLMRKVLKPVQVGKYVVPEGDIIACSPLLSHQDEEAFPNPREWNPERNMKLVDGAFCGFGAGVHKCIGEKFGLLQVKTVLATVLRDYDFELLGPLPEPNYHTMVVGPTASQCRVKYIKKK GKLPPVVHGTTPFVGHIIQFGKDPLGFMLKAKKKYGGIFTMNICGNRITVVGDVHQHSKFFTPRNEILSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTVAKFQNFAPSIQHEVRKFMKANWNKDEGEINILDDCSAMIINTACQCLFGEDLRKRLDARQFAQLLAKMESCLIPAAVFLPWILKLPLPQSYRCRDARAELQDILSEIIIAREKEEAQKDTTSDLLAGLLGAVYRDGTRMSQHEVCGMIVAAMFAGQHTSTITTTWSLLHLMDPRNKRHLAKLHQEIDEFPAQLNYDNVMEEMPFAEQCARESIRRDPPLVMLMRKVLKPVQVGKYVVPEGDIIACSPLLSHQDEEAFPNPREWNPERNMKLVDGAFCGFGAGVHKCIGEKFGLLQVKTVLATVLRDYDFELLGPLPEPNYHTMVVGPTASQCRVKYIKKK 3l4g-a2-m1-cE_3l4g-a2-m1-cG Crystal structure of Homo Sapiens cytoplasmic Phenylalanyl-tRNA synthetase Q9Y285 Q9Y285 3.3 X-RAY DIFFRACTION 10 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 309 309 TELSPEMISSGSWRDRPFKPYNFLAHGVLPDSGHLHPLLKVRSQFRQIFLEMGFTEMPTDNFIESSFWNFDALFQPQQHPARDQHDTFFLRDPAEALQLPMDYVQRVKRTHSQGGYGSQGYKYNWKLDEARKNLLRTHTTSASARALYRLAQKKPFTPVKYFSIDRVFRNETLDATHLAEFHQIEGVVADHGLTLGHLMGVLREFFTKLGITQLRFKPAYNPYTEPSMEVFSYHQGLKKWVEVGNSGVFRPEMLLPMGLPENVSVIAWGLSLERPTMIKYGINNIRELVGHKVNLQMVYDSPLCRLDAE QETELSPEMISSGSWRDRPFKPYNFLAHGVLPDSGHLHPLLKVRSQFRQIFLEMGFTEMPTDNFIESSFWNFDALFQPQQHPARDQHDTFFLRDPAEALQLPMDYVQRVKRTHSQGGYGSQGYKYNWKLDEARKNLLRTHTTSASARALYRLAQKKPFTPVKYFSIDRVFRNETLDATHLAEFHQIEGVVADHGLTLGHLMGVLREFFTKLGITQLRFKPAYNPYTEPSMEVFSYHQGLKKWVEVGNSGVFRPEMLLPMGLPENVSVIAWGLSLERPTMIKYGINNIRELVGHKVNLQMVYDSPLCRLD 3l4g-a2-m1-cF_3l4g-a2-m1-cH Crystal structure of Homo Sapiens cytoplasmic Phenylalanyl-tRNA synthetase Q9NSD9 Q9NSD9 3.3 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 589 589 3l4g-a1-m1-cB_3l4g-a1-m1-cD 3l4g-a3-m1-cJ_3l4g-a3-m1-cL 3l4g-a4-m1-cN_3l4g-a4-m1-cP MPTVSVKRDLLFQALGRTYTDEEFDELCFEFGLELDEITSEKEIISKEQGNVKAAGASDVVLYKIDVPANRYDLLCLEGLVRGLQVFKERIKAPVYKRVMPDGKIQKLIITEETAKIRPFAVAAVLRNIKFTKDRYDSFIELQEKLHQNICRKRALVAIGTHDLDTLSGPFTYTAKRPSDIKFKPLNKTKEYTACELMNIYKTDNHLKHYLHIIENKPLYPVIYDSNGVVLSMPPIINGDHSRITVNTRNIFIECTGTDFTKAKIVLDIIVTMFSEYCENQFTVEAAEVVFPNGKSHTFPELAYRKEMVRADLINKKVGIRETPENLAKLLTRMYLKSEVIGDGNQIEIEIPPTRADIIHACDIVEDAAIAYGYNNIQMTLPKTYTIANQFPLNKLTELLRHDMAAAGFTEALTFALCSQEDIADKLGVDISATKAVHISNPKTAEFQVARTTLLPGLLKTIAANRKMPLPLKLFEISDIVIKDSNTDVGAKNYRHLCAVYYNKNPGFEIIHGLLDRIMQLLDVPPGEDKGGYVIKASEGPAFFPGRCAEIFARGQSVGKLGVLHPDVITKFELTMPCSSLEINIGPFL MPTVSVKRDLLFQALGRTYTDEEFDELCFEFGLELDEITSEKEIISKEQGNVKAAGASDVVLYKIDVPANRYDLLCLEGLVRGLQVFKERIKAPVYKRVMPDGKIQKLIITEETAKIRPFAVAAVLRNIKFTKDRYDSFIELQEKLHQNICRKRALVAIGTHDLDTLSGPFTYTAKRPSDIKFKPLNKTKEYTACELMNIYKTDNHLKHYLHIIENKPLYPVIYDSNGVVLSMPPIINGDHSRITVNTRNIFIECTGTDFTKAKIVLDIIVTMFSEYCENQFTVEAAEVVFPNGKSHTFPELAYRKEMVRADLINKKVGIRETPENLAKLLTRMYLKSEVIGDGNQIEIEIPPTRADIIHACDIVEDAAIAYGYNNIQMTLPKTYTIANQFPLNKLTELLRHDMAAAGFTEALTFALCSQEDIADKLGVDISATKAVHISNPKTAEFQVARTTLLPGLLKTIAANRKMPLPLKLFEISDIVIKDSNTDVGAKNYRHLCAVYYNKNPGFEIIHGLLDRIMQLLDVPPGEDKGGYVIKASEGPAFFPGRCAEIFARGQSVGKLGVLHPDVITKFELTMPCSSLEINIGPFL 3l5o-a3-m1-cB_3l5o-a3-m1-cA Crystal structure of protein with unknown function from DUF364 family (ZP_00559375.1) from Desulfitobacterium hafniense DCB-2 at 2.01 A resolution B8FUJ5 B8FUJ5 2.01 X-RAY DIFFRACTION 35 0.992 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 238 241 LYFQGWEIYDAINGIPEDFLVDELVCGTTHSVIRSGNGVGLGPNRPFETRPLTQNLLGLPLRVAAGCVKSWNYVEASIGLAAINAYYNNPQVAREHGVIFSDASQNEVKGKKVGVVGHFPHLESLLEPICDLSILEWSPEEGDYPLPASEFILPECDYVYITCASVVDKTLPRLLELSRNARRITLVGPGTPLAPVLFEHGLQELSGFVKDNARAFRIVAGAEKVKIYSAGQKVTIKK FQGWEIYDAINGIPEDFLVDELVCGTTHSVIRSGNGVGLGPNRPFETRPLTQNLLGLPLRVAAGCVKSWNYVEASIGLAAINAYYNNPQVAREHGVIFSDANDPFISQNEVKGKKVGVVGHFPHLESLLEPICDLSILEWSPEEGDYPLPASEFILPECDYVYITCASVVDKTLPRLLELSRNARRITLVGPGTPLAPVLFEHGLQELSGFVKDNARAFRIVAGAEKVKIYSAGQKVTIKK 3l5z-a1-m1-cA_3l5z-a1-m1-cB Crystal structure of transcriptional regulator, GntR family from Bacillus cereus Q734I1 Q734I1 2.9 X-RAY DIFFRACTION 57 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 139 139 SEVESKIIEFTIVGADEIIAEKLGISVGDFVYKIIRLRIIHSIPTIEHTWPIAVIPGVEASVLEESIYSYIQNKLGLKVGTSVVRVKGIRPDDKEKQFNLTNQDFLRVEQVAYLTDGRTFEYSYADHLPETFEFETVIT SEVESKIIEFTIVGADEIIAEKLGISVGDFVYKIIRLRIIHSIPTIEHTWPIAVIPGVEASVLEESIYSYIQNKLGLKVGTSVVRVKGIRPDDKEKQFNLTNQDFLRVEQVAYLTDGRTFEYSYADHLPETFEFETVIT 3l6d-a1-m1-cA_3l6d-a1-m1-cB Crystal structure of putative oxidoreductase from Pseudomonas putida KT2440 Q88J51 Q88J51 1.9 X-RAY DIFFRACTION 308 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 287 289 SLSDESFEFDVSVIGLGAGTIAQVLLKQGKRVAIWNRSPGKAAALVAAGAHLCESVKAALSASPATIFVLLDNHATHEVLGPGVARALAHRTIVDYTTNAQDEGLALQGLVNQAGGHYVKGIVAYPRNVGHRESHSIHTGDREAFEQHRALLEGLAGHTVFLPWDEALAFATVLHAHAFAAVTFFEAVGAGDRFGLPVSKTARLLLETSRFFVADALEEAVRRLETQDFKGDQARLDVHADAFAHIAQSLHAQGVWTPVFDAVCQVVQRAAAGYGDQDIAATTKSFA SLSDESFEFDVSVIGLGAGTIAQVLLKQGKRVAIWNRSPGKAAALVAAGAHLCESVKAALSASPATIFVLLDNHATHEVLGPGVARALAHRTIVDYTTNAQDEGLALQGLVNQAGGHYVKGIVAYPRNVGHRESHSIHTGDREAFEQHRALLEGLAGHTVFLPWDEALAFATVLHAHAFAAVTFFEAVGAGDRFGLPVSKTARLLLETSRFFVADALEEAVRRLETQDFKGDQARLDVHADAFAHIAQSLHAQGVWTPVFDAVCQVVQRAAAGYGDQDIAATTKSFARE 3l6e-a2-m2-cA_3l6e-a2-m2-cB Crystal structure of putative short chain dehydrogenase/reductase family oxidoreductase from Aeromonas hydrophila subsp. hydrophila ATCC 7966 A0KPA6 A0KPA6 2.3 X-RAY DIFFRACTION 94 0.99 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 204 204 3l6e-a1-m1-cA_3l6e-a1-m1-cB 3l6e-a2-m1-cA_3l6e-a2-m1-cB LGHIIVTGAGSGLGRALTIGLVERGHQVSGRRYQRLQQQELLLGNAVIGIVADLAHHEDVDVAFAAAVEWGGLPELVLHCAGTGVYTAEQIRRVESNLVSTILVAQQTVRLIGERGGVLANVLSSAAQVGKANESLYCASKWGRGFLESLRAELKDSPLRLVNLYPSGIRSEFFTPEDAAAYLDALEARSSCHVTDLFIGRNEG LGHIIVTGAGSGLGRALTIGLVERGHQVSGRRYQRLQQQELLLGNAVIGIVADLAHHEDVDVAFAAAVEWGGLPELVLHCAGTGEFYTAEQIRRVESNLVSTILVAQQTVRLIGERGGVLANVLSSAAQVGKANESLYCASKWGRGFLESLRAELKDSPLRLVNLYPSGIRSEFFTPEDAAAYLDALEARSSCHVTDLFIGRNE 3l6e-a4-m1-cB_3l6e-a4-m2-cB Crystal structure of putative short chain dehydrogenase/reductase family oxidoreductase from Aeromonas hydrophila subsp. hydrophila ATCC 7966 A0KPA6 A0KPA6 2.3 X-RAY DIFFRACTION 83 1.0 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 204 204 3l6e-a2-m1-cA_3l6e-a2-m2-cA 3l6e-a2-m1-cB_3l6e-a2-m2-cB 3l6e-a3-m1-cA_3l6e-a3-m2-cA LGHIIVTGAGSGLGRALTIGLVERGHQVSGRRYQRLQQQELLLGNAVIGIVADLAHHEDVDVAFAAAVEWGGLPELVLHCAGTGEFYTAEQIRRVESNLVSTILVAQQTVRLIGERGGVLANVLSSAAQVGKANESLYCASKWGRGFLESLRAELKDSPLRLVNLYPSGIRSEFFTPEDAAAYLDALEARSSCHVTDLFIGRNE LGHIIVTGAGSGLGRALTIGLVERGHQVSGRRYQRLQQQELLLGNAVIGIVADLAHHEDVDVAFAAAVEWGGLPELVLHCAGTGEFYTAEQIRRVESNLVSTILVAQQTVRLIGERGGVLANVLSSAAQVGKANESLYCASKWGRGFLESLRAELKDSPLRLVNLYPSGIRSEFFTPEDAAAYLDALEARSSCHVTDLFIGRNE 3l6i-a3-m1-cA_3l6i-a3-m2-cB Crystal structure of the uncharacterized lipoprotein yceb from e. coli at the resolution 2.0a. northeast structural genomics consortium target er542 P0AB26 P0AB26 2.011 X-RAY DIFFRACTION 42 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 164 165 HHSHNQLTQYTITEQEINQSLAKHNNFSKDIGLPGVADAHIVLTNLTSQIGREEPNKVTLTGDANLDNSLFGSQKATKLKLKALPVFDKEKGAIFLKEEVVDATVQPEKQTVQTLLPYLNQALRNYFNQQPAYVLREDGSQGEAAKKLAKGIEVKPGEIVIPFT HHHSHNQLTQYTITEQEINQSLAKHNNFSKDIGLPGVADAHIVLTNLTSQIGREEPNKVTLTGDANLDNSLFGSQKATKLKLKALPVFDKEKGAIFLKEEVVDATVQPEKQTVQTLLPYLNQALRNYFNQQPAYVLREDGSQGEAAKKLAKGIEVKPGEIVIPFT 3l6u-a1-m1-cA_3l6u-a1-m1-cB Crystal structure of abc-type sugar transport system, Periplasmic component from exiguobacterium sibiricum B1YL86 B1YL86 1.9 X-RAY DIFFRACTION 83 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 266 266 NIVGFTIVNDKHEFAQRLINAFKAEAKANKYEALVATSQNSRISEREQILEFVHLKVDAIFITTLDDVYIGSAIEEAKKAGIPVFAIDRIRSDAVVSSITSNNQIGEQLASYIKNELIKQTGRSTGRIVEITGTANVYTTNERHRGFLKGIENEPTLSIVDSVSGNYDPVTSERVRQVIDSGIPFDAVYCHNDDIAGVLEALKKAKISGKIVVGIDGNRAILEAVDKSDATVVQSAEEKVAFSALKLHTKNKKIPDRFYTYSYLYD NIVGFTIVNDKHEFAQRLINAFKAEAKANKYEALVATSQNSRISEREQILEFVHLKVDAIFITTLDDVYIGSAIEEAKKAGIPVFAIDRIRSDAVVSSITSNNQIGEQLASYIKNELIKQTGRSTGRIVEITGTANVYTTNERHRGFLKGIENEPTLSIVDSVSGNYDPVTSERVRQVIDSGIPFDAVYCHNDDIAGVLEALKKAKISGKIVVGIDGNRAILEAVDKSDATVVQSAEEKVAFSALKLHTKNKKIPDRFYTYSYLYD 3l74-a1-m1-cP_3l74-a1-m1-cC Cytochrome BC1 complex from chicken with famoxadone bound P18946 P18946 2.76 X-RAY DIFFRACTION 56 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 379 380 1bcc-a1-m1-cC_1bcc-a1-m2-cC 3bcc-a1-m1-cC_3bcc-a1-m2-cC 3cwb-a1-m1-cP_3cwb-a1-m1-cC 3h1h-a1-m1-cP_3h1h-a1-m1-cC 3h1i-a1-m1-cP_3h1i-a1-m1-cC 3h1j-a1-m1-cP_3h1j-a1-m1-cC 3h1k-a1-m1-cP_3h1k-a1-m1-cC 3h1l-a1-m1-cP_3h1l-a1-m1-cC 3l70-a1-m1-cP_3l70-a1-m1-cC 3l71-a1-m1-cP_3l71-a1-m1-cC 3l72-a1-m1-cP_3l72-a1-m1-cC 3l73-a1-m1-cP_3l73-a1-m1-cC 3l75-a1-m1-cP_3l75-a1-m1-cC 3tgu-a1-m1-cC_3tgu-a1-m1-cP 4u3f-a1-m1-cP_4u3f-a1-m1-cC APNIRKSHPLLKMINNSLIDLPAPSNISAWWNFGSLLAVCLMTQILTGLLLAMHYTADTSLAFSSVAHTCRNVQYGWLIRNLHANGASFFFICIFLHIGRGLYYGSYLYKETWNTGVILLLTLMATAFVGYVLPWGQMSFWGATVITNLFSAIPYIGHTLVEWAWGGFSVDNPTLTRFFALHFLLPFAIAGITIIHLTFLHESGSNNPLGISSDSDKIPFHPYYSFKDILGLTLMLTPFLTLALFSPNLLGDPENFTPANPLVTPPHIKPEWYFLFAYAILRSIPNKLGGVLALAASVLILFLIPFLHKSKQRTMTFRPLSQTLFWLLVANLLILTWIGSQPVEHPFIIIGQMASLSYFTILLILFPTIGTLENKMLNY MAPNIRKSHPLLKMINNSLIDLPAPSNISAWWNFGSLLAVCLMTQILTGLLLAMHYTADTSLAFSSVAHTCRNVQYGWLIRNLHANGASFFFICIFLHIGRGLYYGSYLYKETWNTGVILLLTLMATAFVGYVLPWGQMSFWGATVITNLFSAIPYIGHTLVEWAWGGFSVDNPTLTRFFALHFLLPFAIAGITIIHLTFLHESGSNNPLGISSDSDKIPFHPYYSFKDILGLTLMLTPFLTLALFSPNLLGDPENFTPANPLVTPPHIKPEWYFLFAYAILRSIPNKLGGVLALAASVLILFLIPFLHKSKQRTMTFRPLSQTLFWLLVANLLILTWIGSQPVEHPFIIIGQMASLSYFTILLILFPTIGTLENKMLNY 3l76-a1-m1-cB_3l76-a1-m1-cA Crystal Structure of Aspartate Kinase from Synechocystis P74569 P74569 2.54 X-RAY DIFFRACTION 108 0.997 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 581 585 ALIVQKFGGTSVGTVERIQAVAQRIKRTVQGGNSLVVVVSAMGKSTDVLVDLAQQISPNPCRREMDMLLSTGEQVSIALLSLALQEIDQPAISLTGAQVGIVTELEIRPDRLEHHLREGKVVVVAGFQGISEHLEITTLGRGGSDTSAVALAAALKADFCEIYTDVPGILTTDPRLVPEAQLMAEITCDEMLELASLGAKVLHPRAVEIARNYGIPLVVRSSWSDEPGTKVVAPPVRSLVGLEIAKAVDGVEYDADQAKVALLRVPDRPGVASKLFRDIAQQQVDIDLIIQSIHDGNSNDIAFTVVKDLLNTAEAVTSAIAPALRSYPEADQEAEIIVEKGIAKIAIAGAGMIGRPGIAAKMFKTLADVGVNIEMISTSEVKVSCVIDQRDADRAIAALSNAFGVTLSPPKNLPAVRGVALDQDQAQIAIRHVPDRPGMAAQLFTALAEANISVDMIIQSQRCRINQGTPCRDIAFMVAEGDSSQAEAILQPLIKDWLDAAIVVNKAIAKVSIVGSGMIGHPGVAAHFFAALAQENINIEMIATSEIKISCVVPQDRGVDALKAAHSAFNLAGTKTVTVPA ALIVQKFGGTSVGTVERIQAVAQRIKRTVQGGNSLVVVVSAMGKSTDVLVDLAQQISPNPCRREMDMLLSTGEQVSIALLSLALQEIDQPAISLTGAQVGIVTEILEIRPDRLEHHLREGKVVVVAGFQGIHLEITTLGRGGSDTSAVALAAALKADFCEIYTDVPGILTTDPRLVPEAQLMAEITCDEMLELASLGAKVLHPRAVEIARNYGIPLVVRSSWSDEPGTKVVAPPVQNRSLVGLEIAKAVDGVEYDADQAKVALLRVPDRPGVASKLFRDIAQQQVDIDLIIQSIHDGNSNDIAFTVVKDLLNTAEAVTSAIAPALRSYPEADQEAEIIVEKGIAKIAIAGAGMIGRPGIAAKMFKTLADVGVNIEMISTSEVKVSCVIDQRDADRAIAALSNAFGVTLSPPKNQTDLPAVRGVALDQDQAQIAIRHVPDRPGMAAQLFTALAEANISVDMIIQSQRCRINQGTPCRDIAFMVAEGDSSQAEAILQPLIKDWLDAAIVVNKAIAKVSIVGSGMIGHPGVAAHFFAALAQENINIEMIATSEIKISCVVPQDRGVDALKAAHSAFNLAGTKTVTVPA 3l77-a1-m2-cA_3l77-a1-m4-cA X-ray structure alcohol dehydrogenase from archaeon Thermococcus sibiricus complexed with 5-hydroxy-NADP C6A190 C6A190 1.55 X-RAY DIFFRACTION 95 1.0 604354 (Thermococcus sibiricus MM 739) 604354 (Thermococcus sibiricus MM 739) 234 234 3l77-a1-m1-cA_3l77-a1-m3-cA 3tn7-a1-m1-cA_3tn7-a1-m2-cB 3tn7-a1-m1-cB_3tn7-a1-m2-cA EMKVAVITGASRGIGEAIARALARDGYALALGARSVDRLEKIAHELMQEQGVEVFYHHLDVSKAESVEEFSKVLERFGDVDVVVANAGLGYFKRLEELSEEEFHEMIEVNLLGVWRTLKAFLDSLKRTGGLALVTTSDVSARLIPYGGGYVSTKWAARALVRTFQIENPDVRFFELRPGAVDTYFGGSKPGKPKEKGYLKPDEIAEAVRCLLKLPKDVRVEELMLRSVYQRPEY EMKVAVITGASRGIGEAIARALARDGYALALGARSVDRLEKIAHELMQEQGVEVFYHHLDVSKAESVEEFSKVLERFGDVDVVVANAGLGYFKRLEELSEEEFHEMIEVNLLGVWRTLKAFLDSLKRTGGLALVTTSDVSARLIPYGGGYVSTKWAARALVRTFQIENPDVRFFELRPGAVDTYFGGSKPGKPKEKGYLKPDEIAEAVRCLLKLPKDVRVEELMLRSVYQRPEY 3l77-a1-m3-cA_3l77-a1-m4-cA X-ray structure alcohol dehydrogenase from archaeon Thermococcus sibiricus complexed with 5-hydroxy-NADP C6A190 C6A190 1.55 X-RAY DIFFRACTION 110 1.0 604354 (Thermococcus sibiricus MM 739) 604354 (Thermococcus sibiricus MM 739) 234 234 3l77-a1-m1-cA_3l77-a1-m2-cA 3tn7-a1-m1-cA_3tn7-a1-m1-cB 3tn7-a1-m2-cA_3tn7-a1-m2-cB EMKVAVITGASRGIGEAIARALARDGYALALGARSVDRLEKIAHELMQEQGVEVFYHHLDVSKAESVEEFSKVLERFGDVDVVVANAGLGYFKRLEELSEEEFHEMIEVNLLGVWRTLKAFLDSLKRTGGLALVTTSDVSARLIPYGGGYVSTKWAARALVRTFQIENPDVRFFELRPGAVDTYFGGSKPGKPKEKGYLKPDEIAEAVRCLLKLPKDVRVEELMLRSVYQRPEY EMKVAVITGASRGIGEAIARALARDGYALALGARSVDRLEKIAHELMQEQGVEVFYHHLDVSKAESVEEFSKVLERFGDVDVVVANAGLGYFKRLEELSEEEFHEMIEVNLLGVWRTLKAFLDSLKRTGGLALVTTSDVSARLIPYGGGYVSTKWAARALVRTFQIENPDVRFFELRPGAVDTYFGGSKPGKPKEKGYLKPDEIAEAVRCLLKLPKDVRVEELMLRSVYQRPEY 3l7i-a1-m1-cD_3l7i-a1-m1-cB Structure of the Wall Teichoic Acid Polymerase TagF Q5HLM5 Q5HLM5 2.7 X-RAY DIFFRACTION 23 0.998 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 408 411 3l7i-a1-m1-cA_3l7i-a1-m1-cC 3l7j-a1-m1-cD_3l7j-a1-m1-cB 3l7k-a1-m1-cD_3l7k-a1-m1-cB 3l7l-a1-m1-cD_3l7l-a1-m1-cB 3l7m-a1-m1-cB_3l7m-a1-m1-cD AFKVNQFRKTLRHVKNIVLRRKNKERSLYDLTDKEDNVKPKTIVFESFGGKNYSDSPKYIYEYMQKYYPNYRYIWSFKNPDKNVVPGSAEKVKRNSAEYYQAYSEASHWVSNARTPLYLNKKENQTYIQTWHGTPLKRLANDMKVVRMPGTTTPKYKRNFNRETSRWDYLISPNRYSTEIFRSAFWMDEERILEIGYPRNDVLVNRANDQEYLDEIRTHLNLPSDKKVIMYAPTWRDDEFVYLFELKIDLDNLYKELGDDYVILLRMHYLISNALDLSGYENFAIDVSNYNDVSELFLISDCLITDYSSVMFDYGILKRPQFFFAYDIDKYDKGLRGFYMNYMEDLPGPIYTEPYGLAKELKNLDKVQQQYQEKIDAFYDRFCSVDNGKASQYIGDLIHKDIKEQLEH AFKVNQFRKTLRHVKNIVLRRKNKERSLYDLTDKEDNVKPKTIVFESFGGKNYSDSPKYIYEYMQKYYPNYRYIWSFKNPDKNVVPGSAEKVKRNSAEYYQAYSEASHWVSNARTPLYLNKKENQTYIQTWHGTPLKRLANDMKVVRMPGTTTPKYKRNFNRETSRWDYLISPNRYSTEIFRSAFWMDEERILEIGYPRNDVLVNRANDQEYLDEIRTHLNLPSDKKVIMYAPTWRDDEFVSKGKYLFELKIDLDNLYKELGDDYVILLRMHYLISNALDLSGYENFAIDVSNYNDVSELFLISDCLITDYSSVMFDYGILKRPQFFFAYDIDKYDKGLRGFYMNYMEDLPGPIYTEPYGLAKELKNLDKVQQQYQEKIDAFYDRFCSVDNGKASQYIGDLIHKDIKEQLE 3l7i-a3-m1-cD_3l7i-a3-m1-cC Structure of the Wall Teichoic Acid Polymerase TagF Q5HLM5 Q5HLM5 2.7 X-RAY DIFFRACTION 34 0.998 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 408 411 3l7i-a1-m1-cA_3l7i-a1-m1-cB 3l7i-a1-m1-cD_3l7i-a1-m1-cC 3l7i-a2-m1-cA_3l7i-a2-m1-cB 3l7j-a1-m1-cA_3l7j-a1-m1-cB 3l7j-a1-m1-cC_3l7j-a1-m1-cD 3l7j-a2-m1-cA_3l7j-a2-m1-cB 3l7j-a3-m1-cC_3l7j-a3-m1-cD 3l7k-a1-m1-cB_3l7k-a1-m1-cA 3l7k-a1-m1-cD_3l7k-a1-m1-cC 3l7k-a2-m1-cB_3l7k-a2-m1-cA 3l7k-a3-m1-cD_3l7k-a3-m1-cC 3l7l-a1-m1-cA_3l7l-a1-m1-cB 3l7l-a1-m1-cD_3l7l-a1-m1-cC 3l7l-a2-m1-cA_3l7l-a2-m1-cB 3l7l-a3-m1-cD_3l7l-a3-m1-cC 3l7m-a1-m1-cA_3l7m-a1-m1-cB 3l7m-a1-m1-cC_3l7m-a1-m1-cD 3l7m-a2-m1-cA_3l7m-a2-m1-cB 3l7m-a3-m1-cC_3l7m-a3-m1-cD AFKVNQFRKTLRHVKNIVLRRKNKERSLYDLTDKEDNVKPKTIVFESFGGKNYSDSPKYIYEYMQKYYPNYRYIWSFKNPDKNVVPGSAEKVKRNSAEYYQAYSEASHWVSNARTPLYLNKKENQTYIQTWHGTPLKRLANDMKVVRMPGTTTPKYKRNFNRETSRWDYLISPNRYSTEIFRSAFWMDEERILEIGYPRNDVLVNRANDQEYLDEIRTHLNLPSDKKVIMYAPTWRDDEFVYLFELKIDLDNLYKELGDDYVILLRMHYLISNALDLSGYENFAIDVSNYNDVSELFLISDCLITDYSSVMFDYGILKRPQFFFAYDIDKYDKGLRGFYMNYMEDLPGPIYTEPYGLAKELKNLDKVQQQYQEKIDAFYDRFCSVDNGKASQYIGDLIHKDIKEQLEH AFKVNQFRKTLRHVKNIVLRRKNKERSLYDLTDKEDNVKPKTIVFESFGGKNYSDSPKYIYEYMQKYYPNYRYIWSFKNPDKNVVPGSAEKVKRNSAEYYQAYSEASHWVSNARTPLYLNKKENQTYIQTWHGTPLKRLANDMKVVRMPGTTTPKYKRNFNRETSRWDYLISPNRYSTEIFRSAFWMDEERILEIGYPRNDVLVNRANDQEYLDEIRTHLNLPSDKKVIMYAPTWRDDEFVSKGKYLFELKIDLDNLYKELGDDYVILLRMHYLISNALDLSGYENFAIDVSNYNDVSELFLISDCLITDYSSVMFDYGILKRPQFFFAYDIDKYDKGLRGFYMNYMEDLPGPIYTEPYGLAKELKNLDKVQQQYQEKIDAFYDRFCSVDNGKASQYIGDLIHKDIKEQLE 3l7j-a1-m1-cA_3l7j-a1-m1-cD Structure of the Wall Teichoic Acid Polymerase TagF, H444N variant Q5HLM5 Q5HLM5 2.81 X-RAY DIFFRACTION 13 1.0 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 410 411 3l7i-a1-m1-cB_3l7i-a1-m1-cC 3l7i-a1-m1-cD_3l7i-a1-m1-cA 3l7j-a1-m1-cC_3l7j-a1-m1-cB 3l7k-a1-m1-cB_3l7k-a1-m1-cC 3l7k-a1-m1-cD_3l7k-a1-m1-cA 3l7l-a1-m1-cB_3l7l-a1-m1-cC 3l7l-a1-m1-cD_3l7l-a1-m1-cA 3l7m-a1-m1-cA_3l7m-a1-m1-cD 3l7m-a1-m1-cB_3l7m-a1-m1-cC FKVNQFRKTLRHVKNIVLRRKNKERSLYDLTDKEDNVKPKTIVFESFGGKNYSDSPKYIYEYMQKYYPNYRYIWSFKNPDKNVVPGSAEKVKRNSAEYYQAYSEASHWVSNARTPLYLNKKENQTYIQTWNGTPLKRLANDMKVVRMPGTTTPKYKRNFNRETSRWDYLISPNRYSTEIFRSAFWMDEERILEIGYPRNDVLVNRANDQEYLDEIRTHLNLPSDKKVIMYAPTWRDDEFVSKGKYLFELKIDLDNLYKELGDDYVILLRMHYLISNALDLSGYENFAIDVSNYNDVSELFLISDCLITDYSSVMFDYGILKRPQFFFAYDIDKYDKGLRGFYMNYMEDLPGPIYTEPYGLAKELKNLDKVQQQYQEKIDAFYDRFCSVDNGKASQYIGDLIHKDIKEQLE FKVNQFRKTLRHVKNIVLRRKNKERSLYDLTDKEDNVKPKTIVFESFGGKNYSDSPKYIYEYMQKYYPNYRYIWSFKNPDKNVVPGSAEKVKRNSAEYYQAYSEASHWVSNARTPLYLNKKENQTYIQTWNGTPLKRLANDMKVVRMPGTTTPKYKRNFNRETSRWDYLISPNRYSTEIFRSAFWMDEERILEIGYPRNDVLVNRANDQEYLDEIRTHLNLPSDKKVIMYAPTWRDDEFVSKGKYLFELKIDLDNLYKELGDDYVILLRMHYLISNALDLSGYENFAIDVSNYNDVSELFLISDCLITDYSSVMFDYGILKRPQFFFAYDIDKYDKGLRGFYMNYMEDLPGPIYTEPYGLAKELKNLDKVQQQYQEKIDAFYDRFCSVDNGKASQYIGDLIHKDIKEQLEH 3l7o-a1-m1-cA_3l7o-a1-m1-cB Crystal structure of Ribose-5-phosphate isomerase A from streptococcus mutans UA159 Q8DTT9 Q8DTT9 1.7 X-RAY DIFFRACTION 75 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 221 224 EELKKIAGVRAAQYVEDGMIVGLGTGSTAYYFVEEVGRRVQEEGLQVIGVTTSSRTTAQAQALGIPLKSIDEVDSVDVTVDGADEVDPNFNGIKGGGGALLMEKIVGTLTKDYIWVVDESKMVDTLGAFRLPVEVVQYGAERLFREFEKKGYKPSFREYDGVRFVTDMKNFIIDLDLGSIPDPIAFGNMLDHQVGVVEHGLFNGMVNRVIVAGVRILEANK EELKKIAGVRAAQYVEDGMIVGLGTGSTAYYFVEEVGRRVQEEGLQVIGVTTSSRTTAQAQALGIPLKSIDEVDSVDVTVDGADEVDPNFNGIKGGGGALLMEKIVGTLTKDYIWVVDESKMVDTLGAFRLPVEVVQYGAERLFREFEKKGYKPSFREYDGVRFVTDMKNFIIDLDLGSIPDPIAFGNMLDHQVGVVEHGLFNGMVNRVIVAGKDGVRILEANK 3l7p-a1-m1-cB_3l7p-a1-m1-cF Crystal structure of SMU.1657c, Putative nitrogen regulatory protein PII from streptococcus mutans Q8DSV2 Q8DSV2 2 X-RAY DIFFRACTION 72 0.989 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 88 88 3l7p-a1-m1-cA_3l7p-a1-m1-cC 3l7p-a1-m1-cA_3l7p-a1-m1-cD MKKIEAIIRSDKLEDLKAALVQSGFIKGMTISQVLGFGTLLAKVKVEIVAHDAAVEEMITTISQAVKTGEVGDGKIFVSPVDEIVRIR SMKKIEAIIRSDKLEDLKAALVQSGFIKGMTISQVLGFGTLLAKVKVEIVAHDAAVEEMITTISQAVKTGEVGDGKIFVSPVDEIVRI 3l7p-a1-m1-cF_3l7p-a1-m1-cC Crystal structure of SMU.1657c, Putative nitrogen regulatory protein PII from streptococcus mutans Q8DSV2 Q8DSV2 2 X-RAY DIFFRACTION 42 0.989 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 88 91 3l7p-a1-m1-cA_3l7p-a1-m1-cB 3l7p-a1-m1-cE_3l7p-a1-m1-cD SMKKIEAIIRSDKLEDLKAALVQSGFIKGMTISQVLGFGTLLAKVKVEIVAHDAAVEEMITTISQAVKTGEVGDGKIFVSPVDEIVRI SMKKIEAIIRSDKLEDLKAALVQSGFIKGMTISQVLGFGNTPTLLAKVKVEIVAHDAAVEEMITTISQAVKTGEGDGKIFVSPVDEIVRIR 3l7q-a1-m1-cA_3l7q-a1-m1-cC Crystal structure of AldR from streptococcus mutans Q8DTM5 Q8DTM5 2.5 X-RAY DIFFRACTION 67 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 124 124 3l7q-a1-m1-cA_3l7q-a1-m1-cB 3l7q-a1-m1-cB_3l7q-a1-m1-cC 3l7q-a2-m1-cD_3l7q-a2-m1-cE 3l7q-a2-m1-cD_3l7q-a2-m1-cF 3l7q-a2-m1-cE_3l7q-a2-m1-cF 3l7q-a3-m1-cG_3l7q-a3-m1-cH 3l7q-a3-m1-cG_3l7q-a3-m1-cI 3l7q-a3-m1-cH_3l7q-a3-m1-cI KKIHTDKAPAAIGPYVQGKIVGNLLFASGQVPLSPETGQVIGTTIEEQTQQVLKNISAILTEAGTDFDHVVKTTCFLSDIDDFVPFNEVYATAFKSDFPARSAVEVARLPKDVKIEIEVIAELI KKIHTDKAPAAIGPYVQGKIVGNLLFASGQVPLSPETGQVIGTTIEEQTQQVLKNISAILTEAGTDFDHVVKTTCFLSDIDDFVPFNEVYATAFKSDFPARSAVEVARLPKDVKIEIEVIAELI 3l7t-a2-m1-cB_3l7t-a2-m1-cC Crystal structure of SMU.1112c Q8DU42 Q8DU42 1.8 X-RAY DIFFRACTION 193 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 133 133 3l7t-a1-m1-cA_3l7t-a1-m1-cD KLKAVHHVALIVSDYDKSYEFYVNQLGFEVIRENHRPKRHDYKLDLKCGDIELEIFGNKLTDSNYCAPPERISWPREACGLRHLAFYVEDVEASRQELIALGIRVEEVRYDDYTGKKMAFFFDPDGLPLELHE KLKAVHHVALIVSDYDKSYEFYVNQLGFEVIRENHRPKRHDYKLDLKCGDIELEIFGNKLTDSNYCAPPERISWPREACGLRHLAFYVEDVEASRQELIALGIRVEEVRYDDYTGKKMAFFFDPDGLPLELHE 3l7w-a1-m1-cA_3l7w-a1-m2-cA The Crystal Structure of smu.1704 from Streptococcus mutans UA159 Q8DSR7 Q8DSR7 2.2 X-RAY DIFFRACTION 104 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 104 104 YYPVSALLIEYLILAIVSKHDSYGYDISQTIKLIASIKESTLYPILKKLEKAGYLSTYTQEHQGRRRKYYHLTDSGEKHLVYLTKEWSVYKTIDGIVEGRIRHD YYPVSALLIEYLILAIVSKHDSYGYDISQTIKLIASIKESTLYPILKKLEKAGYLSTYTQEHQGRRRKYYHLTDSGEKHLVYLTKEWSVYKTIDGIVEGRIRHD 3l7x-a1-m1-cA_3l7x-a1-m2-cA The Crystal Structure of SMU.412c from Streptococcus mutans UA159 Q8DVQ8 Q8DVQ8 1.699 X-RAY DIFFRACTION 254 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 157 157 LVPRGSHMASMTGGQQMGGSMNDCLFCKIVAGDIPSSKVYEDEDVLAFLDISQATKGHTLVIPKEHVRNALEMTQTQAANLFARIPKIARALQKATKADGLNIINNNEETAGQTVFHAHVHLVPRFASDEFDIRFVQHEPDFTRLGQLAEDIQKEIE LVPRGSHMASMTGGQQMGGSMNDCLFCKIVAGDIPSSKVYEDEDVLAFLDISQATKGHTLVIPKEHVRNALEMTQTQAANLFARIPKIARALQKATKADGLNIINNNEETAGQTVFHAHVHLVPRFASDEFDIRFVQHEPDFTRLGQLAEDIQKEIE 3l84-a1-m1-cA_3l84-a1-m2-cA High resolution crystal structure of transketolase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q0P7Y3 Q0P7Y3 1.36 X-RAY DIFFRACTION 305 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 623 623 3m34-a1-m1-cA_3m34-a1-m2-cA 3m6l-a1-m1-cA_3m6l-a1-m2-cA 3m7i-a1-m1-cA_3m7i-a1-m2-cA NIQILQEQANTLRFLSADVQKANSGHPGAPLGLADILSVLSYHLKHNPKNPTWLNRDRLVFSGGHASALLYSFLHLSGYDLSLEDLKNFRQLHSKTPGHPEISTLGVEIATGPLGQGVANAVGFAAAKKAQNLLGSDLIDHKIYCLCGDGDLQEGISYEACSLAGLHKLDNFILIYDSNNISIEGDVGLAFNENVKRFEAQGFEVLSINGHDYEEINKALEQAKKSTKPCLIIAKTTIAKGAGELEGSHKSHGAPLGEEVIKKAKEQAGFDPNISFHIPQASKIRFESAVELGDLEEAKWKDKLEKSAKKELLERLLNPDFNKIAYPDFKGKDLATRDSNGEILNVLAKNLEGFLGGSADLGPSNKTELHSGDFVEGKNIHFGIREHAAAINNAFARYGIFLPFSATFFIFSEYLKPAARIAALKIKHFFIFTHDSIGVGEDGPTHQPIEQLSTFRAPNFLTFRPADGVENVKAWQIALNADIPSAFVLSRQKLKALNEPVFGDVKNGAYLLKESKEAKFTLLASGSEVWLCLESANELEKQGFACNVVSPCFELFEKQDKAYQERLLKGEVIGVEAAHSNELYKFCHKVYGIESFGESGKDKDVFERFGFSVSKLVNFILSK NIQILQEQANTLRFLSADVQKANSGHPGAPLGLADILSVLSYHLKHNPKNPTWLNRDRLVFSGGHASALLYSFLHLSGYDLSLEDLKNFRQLHSKTPGHPEISTLGVEIATGPLGQGVANAVGFAAAKKAQNLLGSDLIDHKIYCLCGDGDLQEGISYEACSLAGLHKLDNFILIYDSNNISIEGDVGLAFNENVKRFEAQGFEVLSINGHDYEEINKALEQAKKSTKPCLIIAKTTIAKGAGELEGSHKSHGAPLGEEVIKKAKEQAGFDPNISFHIPQASKIRFESAVELGDLEEAKWKDKLEKSAKKELLERLLNPDFNKIAYPDFKGKDLATRDSNGEILNVLAKNLEGFLGGSADLGPSNKTELHSGDFVEGKNIHFGIREHAAAINNAFARYGIFLPFSATFFIFSEYLKPAARIAALKIKHFFIFTHDSIGVGEDGPTHQPIEQLSTFRAPNFLTFRPADGVENVKAWQIALNADIPSAFVLSRQKLKALNEPVFGDVKNGAYLLKESKEAKFTLLASGSEVWLCLESANELEKQGFACNVVSPCFELFEKQDKAYQERLLKGEVIGVEAAHSNELYKFCHKVYGIESFGESGKDKDVFERFGFSVSKLVNFILSK 3l88-a3-m1-cG_3l88-a3-m1-cI Crystal structure of the human Adenovirus type 21 fiber knob Q2KS96 Q2KS96 2.5 X-RAY DIFFRACTION 58 1.0 32608 (Human adenovirus 21) 32608 (Human adenovirus 21) 183 183 3bq4-a1-m1-cA_3bq4-a1-m1-cB 3bq4-a1-m1-cA_3bq4-a1-m1-cD 3bq4-a1-m1-cB_3bq4-a1-m1-cD 3bq4-a2-m1-cE_3bq4-a2-m1-cF 3bq4-a2-m1-cE_3bq4-a2-m1-cG 3bq4-a2-m1-cF_3bq4-a2-m1-cG 3l88-a1-m1-cA_3l88-a1-m1-cB 3l88-a1-m1-cA_3l88-a1-m1-cC 3l88-a1-m1-cB_3l88-a1-m1-cC 3l88-a2-m1-cD_3l88-a2-m1-cE 3l88-a2-m1-cD_3l88-a2-m1-cF 3l88-a2-m1-cE_3l88-a2-m1-cF 3l88-a3-m1-cG_3l88-a3-m1-cH 3l88-a4-m1-cL_3l88-a4-m1-cK 3l89-a2-m1-cE_3l89-a2-m1-cF INTLWTGIKPPPNCQIVENTDTNDGKLTLVLVKNGGLVNGYVSLVGVSDTVNQMFTQKSATIQLRLYFDSSGNLLTDESNLKIPLKNKSSSSKAFMPSTTAYPFNTTTRDSENYIHGICYYMTSYDRSLVPLNISIMLNSRTISSNVAYAIQFEWNLNAKESPESNIATLTTSPFFFSYIRED INTLWTGIKPPPNCQIVENTDTNDGKLTLVLVKNGGLVNGYVSLVGVSDTVNQMFTQKSATIQLRLYFDSSGNLLTDESNLKIPLKNKSSSSKAFMPSTTAYPFNTTTRDSENYIHGICYYMTSYDRSLVPLNISIMLNSRTISSNVAYAIQFEWNLNAKESPESNIATLTTSPFFFSYIRED 3l89-a4-m1-cK_3l89-a4-m1-cL Human Adenovirus type 21 knob in complex with domains SCR1 and SCR2 of CD46 (membrane cofactor protein, MCP) Q2KS96 Q2KS96 3.5 X-RAY DIFFRACTION 65 1.0 32608 (Human adenovirus 21) 32608 (Human adenovirus 21) 185 186 2qlk-a1-m1-cA_2qlk-a1-m2-cA 2qlk-a1-m1-cA_2qlk-a1-m3-cA 2qlk-a1-m2-cA_2qlk-a1-m3-cA 3l88-a3-m1-cH_3l88-a3-m1-cI 3l88-a4-m1-cJ_3l88-a4-m1-cK 3l88-a4-m1-cJ_3l88-a4-m1-cL 3l89-a1-m1-cA_3l89-a1-m1-cB 3l89-a1-m1-cA_3l89-a1-m1-cC 3l89-a1-m1-cB_3l89-a1-m1-cC 3l89-a2-m1-cD_3l89-a2-m1-cE 3l89-a2-m1-cD_3l89-a2-m1-cF 3l89-a3-m1-cG_3l89-a3-m1-cH 3l89-a3-m1-cG_3l89-a3-m1-cI 3l89-a3-m1-cH_3l89-a3-m1-cI 3l89-a4-m1-cJ_3l89-a4-m1-cK 3l89-a4-m1-cJ_3l89-a4-m1-cL SINTLWTGIKPPPNCQIVENTDTNDGKLTLVLVKNGGLVNGYVSLVGVSDTVNQMFTQKSATIQLRLYFDSSGNLLTDESNLKIPLKNKSSSKAFMPSTTAYPFNTTTRDSENYIHGICYYMTSYDRSLVPLNISIMLNSRTISSNVAYAIQFEWNLNAKESPESNIATLTTSPFFFSYIREDDN SINTLWTGIKPPPNCQIVENTDTNDGKLTLVLVKNGGLVNGYVSLVGVSDTVNQMFTQKSATIQLRLYFDSSGNLLTDESNLKIPLKNKSSSSKAFMPSTTAYPFNTTTRDSENYIHGICYYMTSYDRSLVPLNISIMLNSRTISSNVAYAIQFEWNLNAKESPESNIATLTTSPFFFSYIREDDN 3l8a-a1-m1-cA_3l8a-a1-m1-cB Crystal structure of MetC from Streptococcus mutans Q8DST5 Q8DST5 1.539 X-RAY DIFFRACTION 197 0.997 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 382 384 YDFTTRPDRLNQFTYKWKTSENNPELLQMWVADMDFLPVPEIKEAIINYGREHIFGYNYFNDDLYQAVIDWERKEHDYAVVKEDILFIDGVVPAISIALQAFSEKGDAVLINSPVYYPFARTIRLNDHRLVENSLQIINGRFEIDFEQLEKDIIDNNVKIYLLCSPHNPGGRVWDNDDLIKIAELCKKHGVILVSDEIHQDLALFGNTHHSLNTLDASYKDFTIILSSATKTFNIAGTKNSFAIIQNESLRRKFQYRQLANNQHEVPTVGMIATQAAFQYGKPWLEELKTVIEGNIKLVIKELEAKTKIKVMEPEGTYLVWLDFSAYAIAQPQLSEKLQNEAKVVLNDGAHFGKEGKYFARLNVATPKNTVQEALSRIISVF RYDFTTRPDRLNQFTYKWKTSENNPELLQMWVADMDFLPVPEIKEAIINYGREHIFGYNYFNDDLYQAVIDWERKEHDYAVVKEDILFIDGVVPAISIALQAFSEKGDAVLINSPVYYPFARTIRLNDHRLVENSLQIINGRFEIDFEQLEKDIIDNNVKIYLLCSPHNPGGRVWDNDDLIKIAELCKKHGVILVSDEIHQDLALFGNTHHSLNTLDASYKDFTIILSSATKTFNIAGTKNSFAIIQNESLRRKFQYRQLANNQHEVPTVGMIATQAAFQYGKPWLEELKTVIEGNIKLVIKELEAKTKIKVMEPEGTYLVWLDFSAYAIAQPQLSEKLQNEAKVVLNDGAHFGKEGYFARLNVATPKNTVQEALSRIISVFGK 3l8d-a1-m1-cA_3l8d-a1-m2-cA Crystal structure of methyltransferase from Bacillus Thuringiensis A0RD96 A0RD96 1.7 X-RAY DIFFRACTION 60 1.0 412694 (Bacillus thuringiensis str. Al Hakam) 412694 (Bacillus thuringiensis str. Al Hakam) 195 195 QEWDSGSRSTIIPFFEQYVKKEAEVLDVGCGDGYGTYKLSRTGYKAVGVDISEVIQKGKERGEGPDLSFIKGDLSSLPFENEQFEAIAINSLEWTEEPLRALNEIKRVLKSDGYACIAILGPTAKPRENSYPRLYGKDVVCNTPWEFEQLVKEQGFKVVDGIGVYKRGVNEKLGQLSTDLQQSLTFLWVFLKRHK QEWDSGSRSTIIPFFEQYVKKEAEVLDVGCGDGYGTYKLSRTGYKAVGVDISEVIQKGKERGEGPDLSFIKGDLSSLPFENEQFEAIAINSLEWTEEPLRALNEIKRVLKSDGYACIAILGPTAKPRENSYPRLYGKDVVCNTPWEFEQLVKEQGFKVVDGIGVYKRGVNEKLGQLSTDLQQSLTFLWVFLKRHK 3l8i-a4-m1-cD_3l8i-a4-m1-cC Crystal structure of CCM3, a cerebral cavernous malformation protein critical for vascular integrity Q9BUL8 Q9BUL8 2.5 X-RAY DIFFRACTION 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 203 212 3ajm-a1-m1-cB_3ajm-a1-m1-cA 3l8i-a1-m1-cA_3l8i-a1-m1-cB 3l8i-a2-m1-cD_3l8i-a2-m1-cC 3l8i-a3-m1-cA_3l8i-a3-m1-cB 3l8i-a3-m2-cD_3l8i-a3-m2-cC 3l8i-a4-m1-cA_3l8i-a4-m1-cB 3l8j-a1-m1-cA_3l8j-a1-m2-cA 3rqg-a1-m1-cA_3rqg-a1-m1-cB 3rqg-a2-m1-cA_3rqg-a2-m1-cB 3rqg-a2-m1-cD_3rqg-a2-m1-cC 3rqg-a3-m1-cD_3rqg-a3-m1-cC 3rqg-a3-m3-cA_3rqg-a3-m3-cB 3rqg-a4-m1-cD_3rqg-a4-m1-cC 4tvq-a2-m1-cD_4tvq-a2-m1-cC MKNEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT GHMRMTMEEMKNEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT 3l8k-a1-m1-cB_3l8k-a1-m2-cB Crystal structure of a dihydrolipoyl dehydrogenase from Sulfolobus solfataricus Q97XZ3 Q97XZ3 2.5 X-RAY DIFFRACTION 52 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 455 455 SLKYDVVVIGAGGAGYHGAFRLAKAKYNVLMADPKGELGGNCLYSGCVPSKTVREVIQTAWRLTNIAIPLDFSTVQDRKDYVQELRFKQHKRNMSQYETLTFYKGYVKIKDPTHVIVKTDEGKEIEAETRYMIIASGAETAKLRLPGVEYCLTSDDIFGYKTSFRKLPQDMVIIGAGYIGLEIASIFRLMGVQTHIIEMLDRALITLEDQDIVNTLLSILKLNIKFNSPVTEVKKIKDDEYEVIYSTKDGSKKSIFTNSVVLAAGRRPVIPEGAREIGLSISKTGIVVDETMKTNIPNVFATGDANGLAPYYHAAVRMSIAAANNIMANGMPVDYVDVKSIPVTIYTIPSLSYVGILPSKARKMGIEIVEAEYNMEEDVSAQIYGQKEGVLKLIFERGSMRLIGAWMIGVHSQYLINELGLAVAYGLNAKQLASFAEQHPSTNEIISYTARKVIE SLKYDVVVIGAGGAGYHGAFRLAKAKYNVLMADPKGELGGNCLYSGCVPSKTVREVIQTAWRLTNIAIPLDFSTVQDRKDYVQELRFKQHKRNMSQYETLTFYKGYVKIKDPTHVIVKTDEGKEIEAETRYMIIASGAETAKLRLPGVEYCLTSDDIFGYKTSFRKLPQDMVIIGAGYIGLEIASIFRLMGVQTHIIEMLDRALITLEDQDIVNTLLSILKLNIKFNSPVTEVKKIKDDEYEVIYSTKDGSKKSIFTNSVVLAAGRRPVIPEGAREIGLSISKTGIVVDETMKTNIPNVFATGDANGLAPYYHAAVRMSIAAANNIMANGMPVDYVDVKSIPVTIYTIPSLSYVGILPSKARKMGIEIVEAEYNMEEDVSAQIYGQKEGVLKLIFERGSMRLIGAWMIGVHSQYLINELGLAVAYGLNAKQLASFAEQHPSTNEIISYTARKVIE 3l8k-a1-m2-cB_3l8k-a1-m2-cA Crystal structure of a dihydrolipoyl dehydrogenase from Sulfolobus solfataricus Q97XZ3 Q97XZ3 2.5 X-RAY DIFFRACTION 183 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 455 458 3l8k-a1-m1-cB_3l8k-a1-m1-cA SLKYDVVVIGAGGAGYHGAFRLAKAKYNVLMADPKGELGGNCLYSGCVPSKTVREVIQTAWRLTNIAIPLDFSTVQDRKDYVQELRFKQHKRNMSQYETLTFYKGYVKIKDPTHVIVKTDEGKEIEAETRYMIIASGAETAKLRLPGVEYCLTSDDIFGYKTSFRKLPQDMVIIGAGYIGLEIASIFRLMGVQTHIIEMLDRALITLEDQDIVNTLLSILKLNIKFNSPVTEVKKIKDDEYEVIYSTKDGSKKSIFTNSVVLAAGRRPVIPEGAREIGLSISKTGIVVDETMKTNIPNVFATGDANGLAPYYHAAVRMSIAAANNIMANGMPVDYVDVKSIPVTIYTIPSLSYVGILPSKARKMGIEIVEAEYNMEEDVSAQIYGQKEGVLKLIFERGSMRLIGAWMIGVHSQYLINELGLAVAYGLNAKQLASFAEQHPSTNEIISYTARKVIE SLKYDVVVIGAGGAGYHGAFRLAKAKYNVLMADPKGELGGNCLYSGCVPSKTVREVIQTAWRLTNIANVKIPLDFSTVQDRKDYVQELRFKQHKRNMSQYETLTFYKGYVKIKDPTHVIVKTDEGKEIEAETRYMIIASGAETAKLRLPGVEYCLTSDDIFGYKTSFRKLPQDMVIIGAGYIGLEIASIFRLMGVQTHIIEMLDRALITLEDQDIVNTLLSILKLNIKFNSPVTEVKKIKDDEYEVIYSTKDGSKKSIFTNSVVLAAGRRPVIPEGAREIGLSISKTGIVVDETMKTNIPNVFATGDANGLAPYYHAAVRMSIAAANNIMANGMPVDYVDVKSIPVTIYTIPSLSYVGILPSKARKMGIEIVEAEYNMEEDVSAQIYGQKEGVLKLIFERGSMRLIGAWMIGVHSQYLINELGLAVAYGLNAKQLASFAEQHPSTNEIISYTARKVIE 3l8m-a1-m2-cA_3l8m-a1-m3-cA Crystal Structure of a probable thiamine pyrophosphokinase from Staphylococcus saprophyticus subsp. saprophyticus. Northeast Structural Genomics Consortium target id SyR86 Q49X04 Q49X04 2.4 X-RAY DIFFRACTION 10 1.0 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 189 189 3l8m-a1-m1-cA_3l8m-a1-m2-cA 3l8m-a1-m1-cA_3l8m-a1-m3-cA KANLLCGNRNLPKHILVEHKHEHWIGIDRGTLILLESGITPQFAVGDFDSISDSERNFIQQQIEINPYNDDTDLALGIDQAVKRGYRNIDVYGATGGRLDHFGALQILEKPEYAKNINIKLIDDTNEIQFIQKGQFNVFPYISFIPVIPTVISLKGFKYNLQNELTISNELCGNIEIIEGSVLIRSKDE KANLLCGNRNLPKHILVEHKHEHWIGIDRGTLILLESGITPQFAVGDFDSISDSERNFIQQQIEINPYNDDTDLALGIDQAVKRGYRNIDVYGATGGRLDHFGALQILEKPEYAKNINIKLIDDTNEIQFIQKGQFNVFPYISFIPVIPTVISLKGFKYNLQNELTISNELCGNIEIIEGSVLIRSKDE 3l8r-a2-m1-cD_3l8r-a2-m1-cF The crystal structure of PtcA from S. mutans Q8DT03 Q8DT03 2.5 X-RAY DIFFRACTION 49 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 102 102 3l8r-a1-m1-cA_3l8r-a1-m1-cB 3l8r-a1-m1-cA_3l8r-a1-m1-cC 3l8r-a1-m1-cB_3l8r-a1-m1-cC 3l8r-a2-m1-cD_3l8r-a2-m1-cE 3l8r-a2-m1-cE_3l8r-a2-m1-cF 3l8r-a3-m1-cG_3l8r-a3-m2-cG 3l8r-a3-m1-cG_3l8r-a3-m3-cG 3l8r-a3-m2-cG_3l8r-a3-m3-cG 3l8r-a4-m1-cH_3l8r-a4-m4-cH 3l8r-a4-m1-cH_3l8r-a4-m5-cH 3l8r-a4-m4-cH_3l8r-a4-m5-cH MNTEELQVAAFEIILNSGNARSIVHEAFDAMREKNYILAEQKLQEANDELLKAHQAQTDLLQEYASGTEIKIEIIMVHAQDHLMTTMTLREVAIEMLELYKK MNTEELQVAAFEIILNSGNARSIVHEAFDAMREKNYILAEQKLQEANDELLKAHQAQTDLLQEYASGTEIKIEIIMVHAQDHLMTTMTLREVAIEMLELYKK 3l8u-a1-m1-cB_3l8u-a1-m1-cA Crystal structure of SMU.1707c, a putative rRNA methyltransferase from streptococcus mutans UA159 Q8DSR4 Q8DSR4 2 X-RAY DIFFRACTION 101 0.987 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 153 154 LGRNHVVLFQPQIPANTGNIARTCAATNTSLHIIRPMGFPIDDKKMLDVHFYDSLNDFMNICSGKLHLITKFANKTYSDENYDDSEHHYFLFGREDKGLPEEFMRQHSEKALRIPVNDQHVRSLNLSNTVCMIVYEALRQQDFIGLELSHTYA LGRNHVVLFQPQIPANTGNIARTCAATNTSLHIIRPMGFPIDDKKMYWDLDVHFYDSLNDFMNICSGKLHLITKFANKTYSDENYDDSEHHYFLFGREDKGLPEEFMRQHSEKALRIPVNDQHVRSLNLSNTVCMIVYEALRQQDFIGLELSHT 3l92-a1-m1-cA_3l92-a1-m6-cA Phosphopantetheine adenylyltransferase from Yersinia pestis complexed with coenzyme A. Q8ZJN9 Q8ZJN9 1.89 X-RAY DIFFRACTION 13 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 159 159 3l92-a1-m2-cA_3l92-a1-m5-cA 3l92-a1-m3-cA_3l92-a1-m4-cA MITKAIYPGTFDPITNGHLDLVTRASAMFSHVILAIADSSSKKPMFTLDERVALAKKVTAPLKNVEVLGFSELMAEFAKKHNANILVRGLRSVSDFEYEWQLANMNRHLMPKLESVFLIPSEKWSFISSSLVKEVARHGGDITPFLPKPVTKALLAKLA MITKAIYPGTFDPITNGHLDLVTRASAMFSHVILAIADSSSKKPMFTLDERVALAKKVTAPLKNVEVLGFSELMAEFAKKHNANILVRGLRSVSDFEYEWQLANMNRHLMPKLESVFLIPSEKWSFISSSLVKEVARHGGDITPFLPKPVTKALLAKLA 3l92-a2-m2-cA_3l92-a2-m3-cA Phosphopantetheine adenylyltransferase from Yersinia pestis complexed with coenzyme A. Q8ZJN9 Q8ZJN9 1.89 X-RAY DIFFRACTION 29 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 159 159 3l92-a1-m1-cA_3l92-a1-m2-cA 3l92-a1-m1-cA_3l92-a1-m3-cA 3l92-a1-m2-cA_3l92-a1-m3-cA 3l92-a1-m4-cA_3l92-a1-m5-cA 3l92-a1-m4-cA_3l92-a1-m6-cA 3l92-a1-m5-cA_3l92-a1-m6-cA 3l92-a2-m1-cA_3l92-a2-m2-cA 3l92-a2-m1-cA_3l92-a2-m3-cA 3l93-a1-m1-cA_3l93-a1-m2-cA 3l93-a1-m1-cA_3l93-a1-m3-cA 3l93-a1-m2-cA_3l93-a1-m3-cA 3l93-a1-m4-cA_3l93-a1-m5-cA 3l93-a1-m4-cA_3l93-a1-m6-cA 3l93-a1-m5-cA_3l93-a1-m6-cA 3l93-a2-m1-cA_3l93-a2-m2-cA 3l93-a2-m1-cA_3l93-a2-m3-cA 3l93-a2-m2-cA_3l93-a2-m3-cA MITKAIYPGTFDPITNGHLDLVTRASAMFSHVILAIADSSSKKPMFTLDERVALAKKVTAPLKNVEVLGFSELMAEFAKKHNANILVRGLRSVSDFEYEWQLANMNRHLMPKLESVFLIPSEKWSFISSSLVKEVARHGGDITPFLPKPVTKALLAKLA MITKAIYPGTFDPITNGHLDLVTRASAMFSHVILAIADSSSKKPMFTLDERVALAKKVTAPLKNVEVLGFSELMAEFAKKHNANILVRGLRSVSDFEYEWQLANMNRHLMPKLESVFLIPSEKWSFISSSLVKEVARHGGDITPFLPKPVTKALLAKLA 3l92-a3-m1-cA_3l92-a3-m4-cA Phosphopantetheine adenylyltransferase from Yersinia pestis complexed with coenzyme A. Q8ZJN9 Q8ZJN9 1.89 X-RAY DIFFRACTION 61 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 159 159 3l92-a1-m1-cA_3l92-a1-m4-cA 3l92-a1-m2-cA_3l92-a1-m6-cA 3l92-a1-m3-cA_3l92-a1-m5-cA 3l93-a1-m1-cA_3l93-a1-m4-cA 3l93-a1-m2-cA_3l93-a1-m6-cA 3l93-a1-m3-cA_3l93-a1-m5-cA 3l93-a3-m1-cA_3l93-a3-m4-cA MITKAIYPGTFDPITNGHLDLVTRASAMFSHVILAIADSSSKKPMFTLDERVALAKKVTAPLKNVEVLGFSELMAEFAKKHNANILVRGLRSVSDFEYEWQLANMNRHLMPKLESVFLIPSEKWSFISSSLVKEVARHGGDITPFLPKPVTKALLAKLA MITKAIYPGTFDPITNGHLDLVTRASAMFSHVILAIADSSSKKPMFTLDERVALAKKVTAPLKNVEVLGFSELMAEFAKKHNANILVRGLRSVSDFEYEWQLANMNRHLMPKLESVFLIPSEKWSFISSSLVKEVARHGGDITPFLPKPVTKALLAKLA 3l95-a2-m1-cY_3l95-a2-m1-cX Crystal structure of the human Notch1 Negative Regulatory Region (NRR) bound to the fab fragment of an antagonist antibody P46531 P46531 2.19 X-RAY DIFFRACTION 36 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 215 230 3i08-a3-m1-cA_3i08-a3-m2-cC 3l95-a1-m1-cY_3l95-a1-m1-cX NKVCSLQCNNHACGWDGGDCSLNFNDPWKNCTQSLQCWKYFSDGHCDSQCNSAGCLFDGFDCQGQCNPLYDQYCKDHFSDGHCDQGCNSAECEWDGLDCAEHVPERLAAGTLVVVVLMPPEQLRNSSFHFLRELSRVLHTNVVFKRDAHGQQMIFPYYGDVRGSIVYLEIDNRQCVQASSQCFQSATDVAAFLGALASLGSLNIPYKIEAVQSET GSACELPECQEDAGNKVCSLQCNNHACGWDGGDCSLNFNDPWKNCTQSLQCWKYFSDGHCDSQCNSAGCLFDGFDCQRAEGQCNPLYDQYCKDHFSDGHCDQGCNSAECEWDGLDCAEHVPERLAAGTLVVVVLMPPEQLRNSSFHFLRELSRVLHTNVVFKRDAHGQQMIFPYYGDVRGSIVYLEIDNRQCVSQCFQSATDVAAFLGALASLGSLNIPYKIEAVQSETV 3l9a-a1-m2-cX_3l9a-a1-m4-cX Structure of the C-terminal domain from a Streptococcus mutans hypothetical A2V8B8 A2V8B8 1.3 X-RAY DIFFRACTION 30 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 80 80 3l9a-a1-m1-cX_3l9a-a1-m3-cX 3l9a-a1-m1-cX_3l9a-a1-m4-cX 3l9a-a1-m2-cX_3l9a-a1-m3-cX RDFFVITNSEYTFAGVHYAKGAVLHVSPTQKRAFWVIADQENFIKQVNKNIEYVEKNASPAFLQRIVEIYQVKFEGKNVH RDFFVITNSEYTFAGVHYAKGAVLHVSPTQKRAFWVIADQENFIKQVNKNIEYVEKNASPAFLQRIVEIYQVKFEGKNVH 3l9e-a2-m1-cC_3l9e-a2-m1-cD Crystal structures of holo and Cu-deficient Cu/ZnSOD from the silkworm Bombyx mori and the implications in Amyotrophic lateral sclerosis P82205 P82205 2.05 X-RAY DIFFRACTION 66 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 154 154 3l9e-a1-m1-cA_3l9e-a1-m1-cB 3l9y-a1-m1-cA_3l9y-a1-m1-cB MPAKAVCVLRGDVSGTVFFDQQDEKSPVVVSGEVQGLTKGKHGFHVHEFGDNTNGCTSAGAHFNPEKQDHGGPSSAVRHVGDLGNIEAIEDSGVTKVSIQDSQISLHGPNSIIGRTLVVHADPDDLGLGGHELSKTTGNAGGRIACGVIGLAKI MPAKAVCVLRGDVSGTVFFDQQDEKSPVVVSGEVQGLTKGKHGFHVHEFGDNTNGCTSAGAHFNPEKQDHGGPSSAVRHVGDLGNIEAIEDSGVTKVSIQDSQISLHGPNSIIGRTLVVHADPDDLGLGGHELSKTTGNAGGRIACGVIGLAKI 3l9f-a2-m1-cB_3l9f-a2-m1-cC The Crystal Structure of smu.1604c from Streptococcus mutans UA159 Q8DSZ7 Q8DSZ7 1.8 X-RAY DIFFRACTION 180 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 170 170 3l9f-a1-m1-cA_3l9f-a1-m1-cD MQGKDIILGILSKKERSGYEINDILQNQLSYFYDGTYGMIYPTLRKLEKDGKITKEVVIQDGRPNKNIYAITESGKKELASYLQSDVNDEIFKSDFLMRLFFGNSLNDDDLEQLIREEIERKEEKIKRLSENLEIWKKKGELTPTQEITIKYGLAQYKSTKKVLEEELAK MQGKDIILGILSKKERSGYEINDILQNQLSYFYDGTYGMIYPTLRKLEKDGKITKEVVIQDGRPNKNIYAITESGKKELASYLQSDVNDEIFKSDFLMRLFFGNSLNDDDLEQLIREEIERKEEKIKRLSENLEIWKKKGELTPTQEITIKYGLAQYKSTKKVLEEELAK 3l9k-a6-m1-cC_3l9k-a6-m1-cD Insights into dynein assembly from a dynein intermediate chain-light chain roadblock structure Q7KMS3 Q7KMS3 3 X-RAY DIFFRACTION 71 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 95 95 3l7h-a1-m1-cA_3l7h-a1-m1-cC 3l7h-a2-m1-cD_3l7h-a2-m1-cB 3l9k-a5-m1-cA_3l9k-a5-m1-cB QEVEETLKRIQSHKGVVGTIVVNNEGIPVKSTLDNTTTVQYAGLMSQLADKARSVVRDLDPSNDMTFLRVRSKKHEIMVAPDKDFILIVIQNPTD QEVEETLKRIQSHKGVVGTIVVNNEGIPVKSTLDNTTTVQYAGLMSQLADKARSVVRDLDPSNDMTFLRVRSKKHEIMVAPDKDFILIVIQNPTD 3l9q-a1-m2-cB_3l9q-a1-m1-cA Crystal structure of human polymerase alpha-primase p58 iron-sulfur cluster domain P49643 P49643 1.698 X-RAY DIFFRACTION 59 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 167 171 3l9q-a1-m1-cB_3l9q-a1-m2-cA 6dhw-a2-m1-cB_6dhw-a2-m2-cA SLDQIDLLSTKSFPPCMRQLHKALRENHHLRHGGRMQYGLFLKGIGLTLEQALQFWKQEFSYNIRHSFRTDYTPFSCLKIILSNPPSQGDYHGCPFRHSDPELLKQKLQSYKISPGGISQILDLVKGTHYQVACQKYFEMIHNVDDCGFSLNHPNQFFCESQRILNG NSSLDQIDLLSTKSFPPCMRQLHKALRENHHLRHGGRMQYGLFLKGIGLTLEQALQFWKQFDKGYSYNIRHSFTDYTPFSCLKIILSNPPSQGDYHGCPFRHSDPELLKQKLQSYKISPGGISQILDLVKGTHYQVACQKYFEMIHNVDDCGFSLNHPNQFFCESQRILNG 3l9q-a2-m1-cB_3l9q-a2-m1-cA Crystal structure of human polymerase alpha-primase p58 iron-sulfur cluster domain P49643 P49643 1.698 X-RAY DIFFRACTION 58 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 167 171 3l9q-a1-m1-cB_3l9q-a1-m1-cA 3l9q-a1-m2-cB_3l9q-a1-m2-cA 5dqo-a1-m1-cB_5dqo-a1-m1-cA 5dqo-a2-m1-cC_5dqo-a2-m1-cD 5i7m-a1-m1-cB_5i7m-a1-m1-cA 6dhw-a1-m1-cB_6dhw-a1-m1-cA SLDQIDLLSTKSFPPCMRQLHKALRENHHLRHGGRMQYGLFLKGIGLTLEQALQFWKQEFSYNIRHSFRTDYTPFSCLKIILSNPPSQGDYHGCPFRHSDPELLKQKLQSYKISPGGISQILDLVKGTHYQVACQKYFEMIHNVDDCGFSLNHPNQFFCESQRILNG NSSLDQIDLLSTKSFPPCMRQLHKALRENHHLRHGGRMQYGLFLKGIGLTLEQALQFWKQFDKGYSYNIRHSFTDYTPFSCLKIILSNPPSQGDYHGCPFRHSDPELLKQKLQSYKISPGGISQILDLVKGTHYQVACQKYFEMIHNVDDCGFSLNHPNQFFCESQRILNG 3l9w-a1-m1-cA_3l9w-a1-m1-cB KefC C-terminal domain in complex with KefF and GSH P0A754 P0A754 1.75 X-RAY DIFFRACTION 315 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 338 357 3eyw-a1-m1-cA_3eyw-a1-m1-cB 3l9x-a1-m1-cA_3l9x-a1-m1-cB GMRVIIAGFGRFGQITGRLLLSSGVKMVVLDHDPDHIETLRKFGMKVFYGDATRMDLLESAGAAKAEVLINAIDDPQTNLQLTEMVKEHFPHLQIIARARDVDHYIRLRQAGVEKPERETFEGALKTGRLALESLGLGPYEARERADVFRRFNIQMVEEMAMVGMILIIYAHPYPHHSHANKRMLEQARTLEGVEIRSLYQLYPDFNIDIAAEQEALSRADLIVWQHPMQWYSIPPLLKLWIDKVFSHGWAYGHGGTALHGKHLLWAVTTGGGESHFEIGAHPGFDVLSQPLQATAIYCGLNWLPPFAMHCTFICDDETLEGQARHYKQRLLEWQEAH GMRVIIAGFGRFGQITGRLLLSSGVKMVVLDHDPDHIETLRKFGMKVFYGDATRMDLLESAGAAKAEVLINAIDDPQTNLQLTEMVKEHFPHLQIIARARDVDHYIRLRQAGVEKPERETFEGALKTGRLALESLGLGPYEARERADVFRRFNIQMVEEMAMVENDTKARAAVYKRTSAMLSGMILIIYAHPYPHHSHANKRMLEQARTLEGVEIRSLYQLYPDFNIDIAAEQEALSRADLIVWQHPMQWYSIPPLLKLWIDKVFSHGWAYGHGGTALHGKHLLWAVTTGGGESHFEIGAHPGFDVLSQPLQATAIYCGLNWLPPFAMHCTFICDDETLEGQARHYKQRLLEWQEAH 3la0-a3-m1-cC_3la0-a3-m1-cA Crystal Structure of UreE from Helicobacter pylori (metal of unknown identity bound) Q09064 Q09064 2.86 X-RAY DIFFRACTION 69 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 147 148 3l9z-a1-m1-cA_3l9z-a1-m2-cA 3la0-a1-m1-cC_3la0-a1-m1-cA 3la0-a2-m1-cD_3la0-a2-m1-cB 3la0-a3-m1-cD_3la0-a3-m1-cB 3nxz-a1-m1-cA_3nxz-a1-m1-cD 3nxz-a1-m1-cB_3nxz-a1-m1-cC 3ny0-a1-m1-cA_3ny0-a1-m1-cD 3ny0-a1-m1-cC_3ny0-a1-m1-cB 3tj8-a1-m1-cA_3tj8-a1-m1-cB 3tj9-a1-m1-cB_3tj9-a1-m1-cA 3tj9-a2-m1-cC_3tj9-a2-m1-cD 3tja-a1-m1-cA_3tja-a1-m1-cB 3tja-a2-m1-cC_3tja-a2-m1-cD IIERLVGNLRDLNPLDFSVDHVDLEWFETRKKIARFKTRQGKDIAIRLKDAPKLGLSQGDILFKEEKEIIAVNILDSEVIHIQAKSVAEVAKICYEIGNRHAALYYGESQFEFKTPFEKPTLALLEKLGVQNRVLSSKLDSKERLTV MIIERLVGNLRDLNPLDFSVDHVDLEWFETRKKIARFKTRQGKDIAIRLKDAPKLGLSQGDILFKEEKEIIAVNILDSEVIHIQAKSVAEVAKICYEIGNRHAALYYGESQFEFKTPFEKPTLALLEKLGVQNRVLSSKLDSKERLTV 3la3-a1-m1-cB_3la3-a1-m1-cA Crystal structure of NtcA in complex with 2,2-difluoropentanedioic acid P0A4U6 P0A4U6 2.4 X-RAY DIFFRACTION 119 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 197 198 3la2-a1-m1-cA_3la2-a1-m1-cB 3la7-a1-m1-cB_3la7-a1-m1-cA VETFERNKTIFFPGDPAERVYFLLKGAVKLSRVYEAGEEITVALLRENSVFGVLSLLTGNKSDRFYHAVAFTPVELLSAPIEQVEQALKENPELSMLMLRGLSSRILQTEMMIETLAHRDMGSRLVSFLLILCRDFGVPCADGITIDLKLSHQAIAEAIGSTRVTVTRLLGDLREKKMISIHKKKITVHKPVTLSRQ VETFERNKTIFFPGDPAERVYFLLKGAVKLSRVYEAGEEITVALLRENSVFGVLSLLTGNKSDRFYHAVAFTPVELLSAPIEQVEQALKENPELSMLMLRGLSSRILQTEMMIETLAHRDMGSRLVSFLLILCRDFGVPCADGITIDLKLSHQAIAEAIGSTRVTVTRLLGDLREKKMISIHKKKITVHKPVTLSRQF 3la4-a1-m1-cA_3la4-a1-m6-cA Crystal structure of the first plant urease from Jack bean (Canavalia ensiformis) P07374 P07374 2.05 X-RAY DIFFRACTION 42 1.0 3823 (Canavalia ensiformis) 3823 (Canavalia ensiformis) 833 833 3la4-a1-m2-cA_3la4-a1-m5-cA 3la4-a1-m3-cA_3la4-a1-m4-cA 4goa-a1-m1-cA_4goa-a1-m5-cA 4goa-a1-m2-cA_4goa-a1-m4-cA 4goa-a1-m3-cA_4goa-a1-m6-cA 7kns-a1-m1-cA_7kns-a1-m1-cF 7kns-a1-m1-cB_7kns-a1-m1-cE 7kns-a1-m1-cC_7kns-a1-m1-cD MKLSPREVEKLGLHNAGYLAQKRLARGVRLNYTEAVALIASQIMEYARDGEKTVAQLMLGQHLLGRRQVLPAVPHLLNAVQVEATFPDGTKLVTVHDPISRENGELQEALFGSLLPVPSLDKFAEDNRIPGEILCEDECLTLNIGRKAVILKVTSKGDRPIQVGSHYHFIEVNPYLTFDRRKAYGMRLNIAAGTAVRFEPGDKSVTLVSIEGNKVIRGGNAIADGPVNETNLEAAMHAVRSKGFGHEEEKDASEGFTKEDPNCPFNTFIHRKEYANKYGPTTGDKIRLGDTNLLAEIEKDYALYGDECVFGGGKVIRDGMGQSCGHPPAISLDTVITNAVIIDYTGIIKADIGIKDGLIASIGKAGNPDIMNGVFSNMIIGANTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAISSGITTLVGGGTGPAAGTRATTCTPSPTQMRLMLQSTDDLPLNFGFTGKGSSSKPDELHEIIKAGAMGLLHEDWGSTPAAIDNCLTIAEHHDIQINIHTDTLNEAGFVEHSIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGIKNVLPSSTNPTRPLTSNTIDEHLDMLMVHHLDREIPEDLAFAHSRIRKKTIAAEDVLNDIGAISIISSDSQAMGRVGEVISRTWQTADKMKAQTGPLKCDSSDNDNFRIRRYIAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGTKPEMVIKGGMVAWADIGDPNASIPTPEPVKMRPMYGTLGKAGGALSIAFVSKAALDQRVNVLYGLNKRVEAVSNVRKLTKLDMKLNDALPEITVDPESYTVKADGKLLCVSEATTVPLSRNYFLF MKLSPREVEKLGLHNAGYLAQKRLARGVRLNYTEAVALIASQIMEYARDGEKTVAQLMLGQHLLGRRQVLPAVPHLLNAVQVEATFPDGTKLVTVHDPISRENGELQEALFGSLLPVPSLDKFAEDNRIPGEILCEDECLTLNIGRKAVILKVTSKGDRPIQVGSHYHFIEVNPYLTFDRRKAYGMRLNIAAGTAVRFEPGDKSVTLVSIEGNKVIRGGNAIADGPVNETNLEAAMHAVRSKGFGHEEEKDASEGFTKEDPNCPFNTFIHRKEYANKYGPTTGDKIRLGDTNLLAEIEKDYALYGDECVFGGGKVIRDGMGQSCGHPPAISLDTVITNAVIIDYTGIIKADIGIKDGLIASIGKAGNPDIMNGVFSNMIIGANTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAISSGITTLVGGGTGPAAGTRATTCTPSPTQMRLMLQSTDDLPLNFGFTGKGSSSKPDELHEIIKAGAMGLLHEDWGSTPAAIDNCLTIAEHHDIQINIHTDTLNEAGFVEHSIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGIKNVLPSSTNPTRPLTSNTIDEHLDMLMVHHLDREIPEDLAFAHSRIRKKTIAAEDVLNDIGAISIISSDSQAMGRVGEVISRTWQTADKMKAQTGPLKCDSSDNDNFRIRRYIAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGTKPEMVIKGGMVAWADIGDPNASIPTPEPVKMRPMYGTLGKAGGALSIAFVSKAALDQRVNVLYGLNKRVEAVSNVRKLTKLDMKLNDALPEITVDPESYTVKADGKLLCVSEATTVPLSRNYFLF 3la6-a2-m1-cJ_3la6-a2-m1-cI Octameric kinase domain of the E. coli tyrosine kinase Wzc with bound ADP P76387 P76387 3.2 X-RAY DIFFRACTION 72 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 259 260 3la6-a1-m1-cA_3la6-a1-m1-cB 3la6-a1-m1-cA_3la6-a1-m1-cH 3la6-a1-m1-cB_3la6-a1-m1-cC 3la6-a1-m1-cD_3la6-a1-m1-cC 3la6-a1-m1-cD_3la6-a1-m1-cE 3la6-a1-m1-cF_3la6-a1-m1-cE 3la6-a1-m1-cF_3la6-a1-m1-cG 3la6-a1-m1-cG_3la6-a1-m1-cH 3la6-a2-m1-cK_3la6-a2-m1-cJ 3la6-a2-m1-cK_3la6-a2-m1-cL 3la6-a2-m1-cM_3la6-a2-m1-cL 3la6-a2-m1-cM_3la6-a2-m1-cN 3la6-a2-m1-cN_3la6-a2-m1-cO 3la6-a2-m1-cP_3la6-a2-m1-cI 3la6-a2-m1-cP_3la6-a2-m1-cO NRGIESPQVLEEHGISVYASIPLSEWQKARDSVKQSQLLAVGNPTDLAIEAIRSLRTSLHFAMMQAQNNVLMMTGVSPSIGMTFVCANLAAVISQTNKRVLLIDCDMRKGYTHELLGTNNVNGLSEILIGQGDITTAAKPTSIAKFDLIPRGQVPPNPSELLMSERFAELVNWASKNYDLVLIDTPPILAVTDAAIVGRHVGTTLMVARYAVNTLKEVETSLSRFEQNGIPVKGVILNSIFRRASAYQDYGYYEYEYKS NRGIESPQVLEEHGISVYASIPLSEWQKARDSVKQSQLLAVGNPTDLAIEAIRSLRTSLHFAMMQAQNNVLMMTGVSPSIGMTFVCANLAAVISQTNKRVLLIDCDMRKGYTHELLGTNNVNGLSEILIGQGDITTAAKPTSIAKFDLIPRGQVPPNPSELLMSERFAELVNWASKNYDLVLIDTPPILAVTDAAIVGRHVGTTLMVARYAVNTLKEVETSLSRFEQNGIPVKGVILNSIFRRASAYQDYGYYEYEYKSD 3laa-a1-m2-cA_3laa-a1-m3-cA Crystal structure of the trimeric autotransporter adhesin head domain BpaA from Burkholderia pseudomallei Q3JLD6 Q3JLD6 1.35 X-RAY DIFFRACTION 306 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 169 169 3la9-a1-m1-cA_3la9-a1-m2-cA 3la9-a1-m1-cA_3la9-a1-m3-cA 3la9-a1-m2-cA_3la9-a1-m3-cA 3laa-a1-m1-cA_3laa-a1-m2-cA 3laa-a1-m1-cA_3laa-a1-m3-cA STSISSITTNTTNLGNSTAAALGGGATYDPATGAISAPSYTTYNANGTTATNTSVGAAIDNINANGIKYFHANSTDPDSVATGTNSVAIGPNAVANVDYSVAIGSGATTSAAVPVASASFGGFAGSAPIGVFSVGAPGAERQITNVAAGRISAASTDAVNGSQLYATNS STSISSITTNTTNLGNSTAAALGGGATYDPATGAISAPSYTTYNANGTTATNTSVGAAIDNINANGIKYFHANSTDPDSVATGTNSVAIGPNAVANVDYSVAIGSGATTSAAVPVASASFGGFAGSAPIGVFSVGAPGAERQITNVAAGRISAASTDAVNGSQLYATNS 3lac-a2-m1-cB_3lac-a2-m2-cB Crystal structure of Bacillus anthracis pyrrolidone-carboxylate peptidase, pcP Q81NT5 Q81NT5 2 X-RAY DIFFRACTION 64 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 198 198 3lac-a2-m1-cA_3lac-a2-m2-cA KTVLLTGFDPFGGESINPAWEVAKSLHEKTIGEYKIISKQVPTVFHKSISVLKEYIEELAPEFIICIGQAGGRPDITIERVAINIDDARIADNEGNQPVDVPVVEEGPAAYWSTLPKAIVKKLQEEGIPASVSQTAGTFVNHLFYGLHELEKHDTKKGGFIHIPFLPEQASNYPGQPSSLSTIRKGIELAVEVTTTVE KTVLLTGFDPFGGESINPAWEVAKSLHEKTIGEYKIISKQVPTVFHKSISVLKEYIEELAPEFIICIGQAGGRPDITIERVAINIDDARIADNEGNQPVDVPVVEEGPAAYWSTLPKAIVKKLQEEGIPASVSQTAGTFVNHLFYGLHELEKHDTKKGGFIHIPFLPEQASNYPGQPSSLSTIRKGIELAVEVTTTVE 3lac-a2-m2-cA_3lac-a2-m2-cB Crystal structure of Bacillus anthracis pyrrolidone-carboxylate peptidase, pcP Q81NT5 Q81NT5 2 X-RAY DIFFRACTION 39 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 198 198 3lac-a1-m1-cA_3lac-a1-m1-cB 3lac-a2-m1-cA_3lac-a2-m1-cB KTVLLTGFDPFGGESINPAWEVAKSLHEKTIGEYKIISKQVPTVFHKSISVLKEYIEELAPEFIICIGQAGGRPDITIERVAINIDDARIADNEGNQPVDVPVVEEGPAAYWSTLPKAIVKKLQEEGIPASVSQTAGTFVNHLFYGLHELEKHDTKKGGFIHIPFLPEQASNYPGQPSSLSTIRKGIELAVEVTTTVE KTVLLTGFDPFGGESINPAWEVAKSLHEKTIGEYKIISKQVPTVFHKSISVLKEYIEELAPEFIICIGQAGGRPDITIERVAINIDDARIADNEGNQPVDVPVVEEGPAAYWSTLPKAIVKKLQEEGIPASVSQTAGTFVNHLFYGLHELEKHDTKKGGFIHIPFLPEQASNYPGQPSSLSTIRKGIELAVEVTTTVE 3lad-a1-m1-cA_3lad-a1-m1-cB REFINED CRYSTAL STRUCTURE OF LIPOAMIDE DEHYDROGENASE FROM AZOTOBACTER VINELANDII AT 2.2 ANGSTROMS RESOLUTION. A COMPARISON WITH THE STRUCTURE OF GLUTATHIONE REDUCTASE P18925 P18925 2.2 X-RAY DIFFRACTION 245 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 472 472 SQKFDVIVIGAGPGGYVAAIKSAQLGLKTALIEKYKGKEGKTALGGTCLNVGCIPSKALLDSSYKFHEAHESFKLHGISTGEVAIDVPTMIARKDQIVRNLTGGVASLIKANGVTLFEGHGKLLAGKKVEVTAADGSSQVLDTENVILASGSKPVEIPPAPVDQDVIVDSTGALDFQNVPGKLGVIGAGVIGLELGSVWARLGAEVTVLEAMDKFLPAVDEQVAKEAQKILTKQGLKILLGARVTGTEVKNKQVTVKFVDAEGEKSQAFDKLIVAVGRRPVTTDLLAADSGVTLDERGFIYVDDYCATSVPGVYAIGDVVRGAMLAHKASEEGVVVAERIAGHKAQMNYDLIPAVIYTHPEIAGVGKTEQALKAEGVAINVGVFPFAASGRAMAANDTAGFVKVIADAKTDRVLGVHVIGPSAAELVQQGAIAMEFGTSAEDLGMMVFAHPALSEALHEAALAVSGHAIHVA SQKFDVIVIGAGPGGYVAAIKSAQLGLKTALIEKYKGKEGKTALGGTCLNVGCIPSKALLDSSYKFHEAHESFKLHGISTGEVAIDVPTMIARKDQIVRNLTGGVASLIKANGVTLFEGHGKLLAGKKVEVTAADGSSQVLDTENVILASGSKPVEIPPAPVDQDVIVDSTGALDFQNVPGKLGVIGAGVIGLELGSVWARLGAEVTVLEAMDKFLPAVDEQVAKEAQKILTKQGLKILLGARVTGTEVKNKQVTVKFVDAEGEKSQAFDKLIVAVGRRPVTTDLLAADSGVTLDERGFIYVDDYCATSVPGVYAIGDVVRGAMLAHKASEEGVVVAERIAGHKAQMNYDLIPAVIYTHPEIAGVGKTEQALKAEGVAINVGVFPFAASGRAMAANDTAGFVKVIADAKTDRVLGVHVIGPSAAELVQQGAIAMEFGTSAEDLGMMVFAHPALSEALHEAALAVSGHAIHVA 3lag-a1-m1-cA_3lag-a1-m1-cB The crystal structure of a functionally unknown protein RPA4178 from Rhodopseudomonas palustris CGA009 Q6N272 Q6N272 1.15 X-RAY DIFFRACTION 52 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 92 93 GTVAAKSEIQIDNDEVRVTEWRLPPGSATGHHTHGDYVVVPADGETIVAPDGTRSLAQLKTGRSYARKAGVQHDVRNESTAEIVFLEIELKA GTVAAKSEIQIDNDEVRVTEWRLPPGSATGHHTHGDYVVVPADGETIVAPDGTRSLAQLKTGRSYARKAGVQHDVRNESTAEIVFLEIELKAG 3lao-a1-m1-cC_3lao-a1-m1-cA Crystal Structure of Enoyl-CoA Hydratase from Pseudomonas aeruginosa PA01 Q9I498 Q9I498 2.4 X-RAY DIFFRACTION 83 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 212 217 3lao-a1-m1-cA_3lao-a1-m1-cB 3lao-a1-m1-cC_3lao-a1-m1-cB EANSGPGRVTREQRGHLFLIGLDRAGKRNAFDSALADLALAGEYERSEESRCAVLFAHGEHFTAGLDLELAPKLAFRYPDGGVDPWGVVQPRRSKPLVVAVQGTCWTAGIELLNADIAVAARGTRFAHLEVLRGIPPLGGSTVRFPRAAGWTDARYILTGDEFDADEALRRLLTEVVEPGEELARALEYAERIARAAPLAVRAALQSAFQGR SEANSGPGRVTREQRGHLFLIGLDRAGKRNAFDSALADLALAGEYERSEESRCAVLFAHGEHFTAGLDLELAPKLAASGFRYPDGGVDPWGVVQPRRSKPLVVAVQGTCWTAGIELLNADIAVAARGTRFAHLEVLRGIPPLGGSTVRFPRAAGWTDARYILTGDEFDADEALRRLLTEVVEPGEELARALEYAERIARAAPLAVRAALQSAFQGRD 3lap-a1-m1-cA_3lap-a1-m1-cF The Structure of the Intermediate Complex of the Arginine Repressor from Mycobacterium tuberculosis Bound to its DNA Operator and L-canavanine. P9WPY9 P9WPY9 2.15 X-RAY DIFFRACTION 48 0.993 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 149 154 2zfz-a1-m1-cB_2zfz-a1-m1-cE 2zfz-a1-m1-cC_2zfz-a1-m1-cD 3cag-a1-m1-cB_3cag-a1-m1-cE 3cag-a1-m1-cD_3cag-a1-m1-cC 3laj-a1-m1-cA_3laj-a1-m1-cF 3laj-a1-m1-cB_3laj-a1-m1-cE 3laj-a1-m1-cC_3laj-a1-m1-cD 3lap-a1-m1-cB_3lap-a1-m1-cE 3lap-a1-m1-cC_3lap-a1-m1-cD ANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR NRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3lap-a1-m1-cB_3lap-a1-m1-cF The Structure of the Intermediate Complex of the Arginine Repressor from Mycobacterium tuberculosis Bound to its DNA Operator and L-canavanine. P9WPY9 P9WPY9 2.15 X-RAY DIFFRACTION 64 0.993 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 149 154 3laj-a1-m1-cA_3laj-a1-m1-cD 3laj-a1-m1-cB_3laj-a1-m1-cF 3laj-a1-m1-cC_3laj-a1-m1-cE 3lap-a1-m1-cA_3lap-a1-m1-cD 3lap-a1-m1-cC_3lap-a1-m1-cE ANRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR NRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3lap-a1-m1-cE_3lap-a1-m1-cF The Structure of the Intermediate Complex of the Arginine Repressor from Mycobacterium tuberculosis Bound to its DNA Operator and L-canavanine. P9WPY9 P9WPY9 2.15 X-RAY DIFFRACTION 33 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 154 154 3laj-a1-m1-cD_3laj-a1-m1-cF 3laj-a1-m1-cE_3laj-a1-m1-cD 3laj-a1-m1-cE_3laj-a1-m1-cF 3lap-a1-m1-cD_3lap-a1-m1-cE 3lap-a1-m1-cD_3lap-a1-m1-cF NRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR NRAGRQARIVAILSSAQVRSQNELAALLAAEGIEVTQATLSRDLEELGAVKLRGADGGTGIYVVPEDGSPVRGVSGGTDRMARLLGELLVSTDDSGNLAVLRTPPGAAHYLASAIDRAALPQVVGTIAGDDTILVVAREPTTGAQLAGMFENLR 3las-a1-m1-cA_3las-a1-m1-cB Crystal structure of carbonic anhydrase from streptococcus mutans to 1.4 angstrom resolution Q8DVY1 Q8DVY1 1.4 X-RAY DIFFRACTION 258 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 166 166 MVMSYFDNFIKANQAYVDLHGTAHLPLKPKTRVAIVTCMDSRLHVAPALGLALGDAHILRNAGGRVTDDVIRSLVISEQQLGTSEIVVLHHTDCGAQTFTNAEFTEQLKRDLAVDAGDQDFLPFTDIEESVREDIALLKNSPLIPEDIIISGAIYDVDTGRVREVN MVMSYFDNFIKANQAYVDLHGTAHLPLKPKTRVAIVTCMDSRLHVAPALGLALGDAHILRNAGGRVTDDVIRSLVISEQQLGTSEIVVLHHTDCGAQTFTNAEFTEQLKRDLAVDAGDQDFLPFTDIEESVREDIALLKNSPLIPEDIIISGAIYDVDTGRVREVN 3lay-a1-m1-cA_3lay-a1-m1-cB Alpha-Helical barrel formed by the decamer of the zinc resistance-associated protein (STM4172) from Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 Q9L9I0 Q9L9I0 2.7 X-RAY DIFFRACTION 45 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 79 79 3lay-a1-m1-cD_3lay-a1-m1-cC 3lay-a1-m1-cE_3lay-a1-m1-cF 3lay-a1-m1-cG_3lay-a1-m1-cH 3lay-a1-m1-cI_3lay-a1-m1-cJ LTTEQQATAQKIYDDYYTQTSALRQQLISKRYEYNALLTASSPDTAKINAVAKEMESLGQKLDEQRVKRDVAMAQAGIP LTTEQQATAQKIYDDYYTQTSALRQQLISKRYEYNALLTASSPDTAKINAVAKEMESLGQKLDEQRVKRDVAMAQAGIP 3lay-a1-m1-cG_3lay-a1-m1-cF Alpha-Helical barrel formed by the decamer of the zinc resistance-associated protein (STM4172) from Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 Q9L9I0 Q9L9I0 2.7 X-RAY DIFFRACTION 35 0.987 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 77 78 3lay-a1-m1-cA_3lay-a1-m1-cJ 3lay-a1-m1-cB_3lay-a1-m1-cC 3lay-a1-m1-cD_3lay-a1-m1-cE 3lay-a1-m1-cI_3lay-a1-m1-cH TEQQATAQKIYDDYYTQTSALRQQLISKRYEYNALLTASSPDTAKINAVAKEMESLGQKLDEQRVKRDVAMAQAGIP LTTEQQATAQKIYDDYYTQTSALRQQLISKRYEYNALLTASSPDTAKINAVAKEMESLGQKLDEQRVKRDVAMAQAGI 3laz-a2-m1-cB_3laz-a2-m3-cB The crystal structure of the N-terminal domain of D-galactarate dehydratase from Escherichia coli CFT073 P39829 P39829 1.921 X-RAY DIFFRACTION 71 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 94 94 3laz-a1-m1-cA_3laz-a1-m2-cA SNAANIKIRQETPTAFYIKVHDTDNVAIIVNDNGLKAGTRFPDGLELIEHIPQGHKVALLDIPANGEIIRYGEVIGYAVRAIPRGSWIDESVVL SNAANIKIRQETPTAFYIKVHDTDNVAIIVNDNGLKAGTRFPDGLELIEHIPQGHKVALLDIPANGEIIRYGEVIGYAVRAIPRGSWIDESVVL 3lb5-a2-m1-cD_3lb5-a2-m1-cC Crystal structure of Hit-like protein involved in cell-cycle regulation from Bartonella henselae with unknown ligand A0A0H3M325 A0A0H3M325 1.9 X-RAY DIFFRACTION 108 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 129 136 3lb5-a1-m1-cA_3lb5-a1-m1-cB AYDNNNIFAKLIRNEIPSVRVYEDDDVIAFMDIMPQAPGHTLVIPKKGSRNLLDADTETLFPVIKAVQKIAKAVKKAFQADGITVMQFNEAASQQTVYHLHFHIIPRMEGIITPTEILEENAKKIRAAL QAYDNNNIFAKLIRNEIPSVRVYEDDDVIAFMDIMPQAPGHTLVIPKKGSRNLLDADTETLFPVIKAVQKIAKAVKKAFQADGITVMQFNEAASQQTVYHLHFHIIPRMEGIELTPNIITPTEILEENAKKIRAAL 3lb9-a3-m1-cC_3lb9-a3-m2-cC Crystal structure of the B. circulans cpA123 circular permutant P09850 P09850 3 X-RAY DIFFRACTION 76 1.0 1397 (Niallia circulans) 1397 (Niallia circulans) 182 182 ATFTQYWSVRQSKRPTGSNATITFTNHVNAWKSHGMNLGSNWAYQVMATEGYQSSGSSNVTVWGASTDYWQNWTDGGGIVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTRYNAPSI ATFTQYWSVRQSKRPTGSNATITFTNHVNAWKSHGMNLGSNWAYQVMATEGYQSSGSSNVTVWGASTDYWQNWTDGGGIVNAVNGSGGNYSVNWSNTGNFVVGKGWTTGSPFRTINYNAGVWAPNGNGYLTLYGWTRSPLIEYYVVDSWGTYRPTGTYKGTVKSDGGTYDIYTTTRYNAPSI 3lbe-a2-m1-cC_3lbe-a2-m1-cD The Crystal Structure of smu.793 from Streptococcus mutans UA159 bound to acetyl CoA Q8DUV0 Q8DUV0 1.7 X-RAY DIFFRACTION 80 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 122 123 3lbb-a1-m1-cA_3lbb-a1-m1-cB 3lbe-a1-m1-cA_3lbe-a1-m1-cB HLHEIRVFENFDMVSFEKGHVIVTTEVVDKSLNYYGFAHGGYIFTLCDQISGLVSISTGFDAVTLQSSINYLKSGKLGDTLLIDGRCVHDGRTTKVVDVTVTNQLKQEVAKATFTMFVTGKR NHLHEIRVFENFDMVSFEKGHVIVTTEVVDKSLNYYGFAHGGYIFTLCDQISGLVSISTGFDAVTLQSSINYLKSGKLGDTLLIDGRCVHDGRTTKVVDVTVTNQLKQEVAKATFTMFVTGKR 3lby-a1-m1-cB_3lby-a1-m1-cA Crystal structure of SMU.1697c, a putative methyltransferase from streptococcus mutans in complex with SAH Q8DSS3 Q8DSS3 2 X-RAY DIFFRACTION 69 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 148 176 MIKRPIELSHDFLSQVLDKNSIAIDATMGNGNDTVFLSHLAKKVYAFDVQEQLNIKNVQLILDGHQTINKYVTEPIRAAIFNLGYLPSTLTAIKKILERLEIGGRLAIMVYAVLNFVKELDQQHFTVMLYQPLNQINTPPFLVMIEKL MIKRPIELSHDFLSQVLDKNSIAIDATMGNGNDTVFLSHLAKKVYAFDVQEQALIKTREKLEQLNIKNVQLILDGHQTINKYVTEPIRAAIFNLGYLPSASVITQPATTLTAIKKILERLEIGGRLAIMVYYGGDKEKDAVLNFVKELDQQHFTVMLYQPLNQINTPPFLVMIEKL 3lcb-a3-m3-cA_3lcb-a3-m3-cB The crystal structure of isocitrate dehydrogenase kinase/phosphatase in complex with its substrate, isocitrate dehydrogenase, from Escherichia coli. Q8X607 Q8X607 2.9 X-RAY DIFFRACTION 80 0.998 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 554 561 3lc6-a1-m1-cB_3lc6-a1-m1-cA 3lcb-a3-m1-cA_3lcb-a3-m1-cB 3lcb-a3-m2-cA_3lcb-a3-m2-cB GLELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKNRIHLYDHHVGLVVEQLRCITNEFLLRVKEHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPRPLAKDFHPDHGWESLLMRVISDLPLRLHWQNKSRDIHYIIRHLTETLGPENLSKSHLQVANELFYRNKAAWLVGKLITPSGTLPFLLPIHQTDDGELFIDTCLTTTAEASIVFGFARSYFMVYAPLPAALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLVYLQGCNEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDKFAPQKEMSAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRHISPALMELLLQEAAEKITDLGEQIVIRHLYIERRMVPLNIWLEQVEGQQLRDAIEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRDIPPPRYPEDELASEPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLFRADYWRALQNRIREGHVEDVYAYRRRQRFSV LELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKNRIHLYDHHVGLVVEQLRCITNEFLLRVKEHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPERRFRTIPRPLAKDFHPDHGWESLLMRVISDLPLRLHWQNKSRDIHYIIRHLTETLGPENLSKSHLQVANELFYRNKAAWLVGKLITPSGTLPFLLPIHQTDDGELFIDTCLTTTAEASIVFGFARSYFMVYAPLPAALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLVYLQGCNEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDKFAPQKEMSAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRHISPALMELLLQEAAEKITDLGEQIVIRHLYIERRMVPLNIWLEQVEGQQLRDAIEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRDIPPPRYPEDELASEPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLFRADYWRALQNRIREGHVEDVYAYRRRQRFSV 3lcn-a3-m1-cB_3lcn-a3-m2-cB Nab2:Gfd1 complex P32505 P32505 2 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 97 97 EQYTENLKVIVAEKLAGIPNFNEDIKYVAEYIVLLIVNGGTVESVVDELASLFDSVSRDTLANVVQTAFFALEALQQGESAENIVSKIRMMNAQSLG EQYTENLKVIVAEKLAGIPNFNEDIKYVAEYIVLLIVNGGTVESVVDELASLFDSVSRDTLANVVQTAFFALEALQQGESAENIVSKIRMMNAQSLG 3lcn-a4-m1-cA_3lcn-a4-m1-cB Nab2:Gfd1 complex P32505 P32505 2 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 96 97 3lcn-a3-m1-cA_3lcn-a3-m1-cB 3lcn-a3-m2-cA_3lcn-a3-m2-cB QYTENLKVIVAEKLAGIPNFNEDIKYVAEYIVLLIVNGGTVESVVDELASLFDSVSRDTLANVVQTAFFALEALQQGESAENIVSKIRMMNAQSLG EQYTENLKVIVAEKLAGIPNFNEDIKYVAEYIVLLIVNGGTVESVVDELASLFDSVSRDTLANVVQTAFFALEALQQGESAENIVSKIRMMNAQSLG 3lcr-a1-m1-cA_3lcr-a1-m1-cB Thioesterase from Tautomycetin Biosynthhetic Pathway A4KCE5 A4KCE5 2 X-RAY DIFFRACTION 56 1.0 404220 (Streptomyces sp. CK4412) 404220 (Streptomyces sp. CK4412) 273 278 SDYFGELFLQAMRTGELAQAQQLMAGAAQLRLKYGEAVPEIVRLGRGQLGPQLILVCPTVMTTGPQVYSRLAEELDAGRRVSALVPPGFHGGQALPATLTVLVRSLADVVQAEVADGEFALAGHSSGGVVAYEVARELEARGLAPRGVVLIDSYSFDGDGGRPEELFRSALNERFVEYLRLTGGGNLSQRITAQVWCLELLRGWRPEGLTAPTLYVRPAQPLVEQEKPEWRGDVLAAMGQVVEAPGDHFTIIEGEHVASTAHIVGDWLREAHA SDYFGELFLQAMRTGELAQAQQLMAGAAQLRLKYGDPAGPEAVPEIVRLGRGQLGPQLILVCPTVMTTGPQVYSRLAEELDAGRRVSALVPPGFHGGQALPATLTVLVRSLADVVQAEVADGEFALAGHSSGGVVAYEVARELEARGLAPRGVVLIDSYSFDGDGGRPEELFRSALNERFVEYLRLTGGGNLSQRITAQVWCLELLRGWRPEGLTAPTLYVRPAQPLVEQEKPEWRGDVLAAMGQVVEAPGDHFTIIEGEHVASTAHIVGDWLREAHA 3lcz-a1-m3-cA_3lcz-a1-m3-cD B.licheniformis Anti-TRAP can assemble into two types of dodecameric particles with the same symmetry but inverted orientation of trimers Q65NU7 Q65NU7 2.06 X-RAY DIFFRACTION 38 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 53 53 3lcz-a1-m1-cA_3lcz-a1-m1-cD 3lcz-a1-m1-cB_3lcz-a1-m3-cC 3lcz-a1-m1-cC_3lcz-a1-m2-cB 3lcz-a1-m2-cA_3lcz-a1-m2-cD 3lcz-a1-m2-cC_3lcz-a1-m3-cB MVIATDDLETTCPNCNGSGREEPEPCPKCLGKGVILTAQGSTLLHFIKKHIHE MVIATDDLETTCPNCNGSGREEPEPCPKCLGKGVILTAQGSTLLHFIKKHIHE 3ld0-a1-m1-cB_3ld0-a1-m1-cD Crystal structure of B.licheniformis Anti-TRAP protein, an antagonist of TRAP-RNA interactions Q65NU7 Q65NU7 2.2 X-RAY DIFFRACTION 41 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 53 53 3ld0-a1-m1-cA_3ld0-a1-m1-cJ 3ld0-a1-m1-cC_3ld0-a1-m1-cI 3ld0-a1-m1-cE_3ld0-a1-m1-cL 3ld0-a1-m1-cG_3ld0-a1-m1-cF 3ld0-a1-m1-cH_3ld0-a1-m1-cK 3ld0-a2-m1-cM_3ld0-a2-m1-cV 3ld0-a2-m1-cN_3ld0-a2-m1-cP 3ld0-a2-m1-cO_3ld0-a2-m1-cU 3ld0-a2-m1-cQ_3ld0-a2-m1-cX 3ld0-a2-m1-cR_3ld0-a2-m1-cS 3ld0-a2-m1-cT_3ld0-a2-m1-cW 3ld0-a3-m1-c1_3ld0-a3-m1-c7 3ld0-a3-m1-c2_3ld0-a3-m1-cZ 3ld0-a3-m1-c3_3ld0-a3-m1-ca 3ld0-a3-m1-c4_3ld0-a3-m1-c5 3ld0-a3-m1-c6_3ld0-a3-m1-c9 3ld0-a3-m1-c8_3ld0-a3-m1-cY 3ld0-a4-m1-cb_3ld0-a4-m1-ck 3ld0-a4-m1-cc_3ld0-a4-m1-ce 3ld0-a4-m1-cd_3ld0-a4-m1-cj 3ld0-a4-m1-cf_3ld0-a4-m1-cm 3ld0-a4-m1-cg_3ld0-a4-m1-ch 3ld0-a4-m1-cl_3ld0-a4-m1-ci MVIATDDLETTCPNCNGSGREEPEPCPKCLGKGVILTAQGSTLLHFIKKHIHE MVIATDDLETTCPNCNGSGREEPEPCPKCLGKGVILTAQGSTLLHFIKKHIHE 3ld0-a3-m1-c2_3ld0-a3-m1-c4 Crystal structure of B.licheniformis Anti-TRAP protein, an antagonist of TRAP-RNA interactions Q65NU7 Q65NU7 2.2 X-RAY DIFFRACTION 34 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 52 52 3lcz-a1-m1-cA_3lcz-a1-m1-cB 3lcz-a1-m1-cA_3lcz-a1-m1-cC 3lcz-a1-m1-cB_3lcz-a1-m1-cC 3lcz-a1-m1-cD_3lcz-a1-m2-cD 3lcz-a1-m1-cD_3lcz-a1-m3-cD 3lcz-a1-m2-cA_3lcz-a1-m2-cB 3lcz-a1-m2-cA_3lcz-a1-m2-cC 3lcz-a1-m2-cB_3lcz-a1-m2-cC 3lcz-a1-m2-cD_3lcz-a1-m3-cD 3lcz-a1-m3-cA_3lcz-a1-m3-cB 3lcz-a1-m3-cA_3lcz-a1-m3-cC 3lcz-a1-m3-cB_3lcz-a1-m3-cC 3ld0-a1-m1-cA_3ld0-a1-m1-cB 3ld0-a1-m1-cA_3ld0-a1-m1-cC 3ld0-a1-m1-cB_3ld0-a1-m1-cC 3ld0-a1-m1-cD_3ld0-a1-m1-cE 3ld0-a1-m1-cD_3ld0-a1-m1-cF 3ld0-a1-m1-cE_3ld0-a1-m1-cF 3ld0-a1-m1-cG_3ld0-a1-m1-cH 3ld0-a1-m1-cG_3ld0-a1-m1-cI 3ld0-a1-m1-cH_3ld0-a1-m1-cI 3ld0-a1-m1-cJ_3ld0-a1-m1-cK 3ld0-a1-m1-cJ_3ld0-a1-m1-cL 3ld0-a1-m1-cK_3ld0-a1-m1-cL 3ld0-a2-m1-cM_3ld0-a2-m1-cO 3ld0-a2-m1-cN_3ld0-a2-m1-cM 3ld0-a2-m1-cN_3ld0-a2-m1-cO 3ld0-a2-m1-cP_3ld0-a2-m1-cQ 3ld0-a2-m1-cP_3ld0-a2-m1-cR 3ld0-a2-m1-cQ_3ld0-a2-m1-cR 3ld0-a2-m1-cS_3ld0-a2-m1-cT 3ld0-a2-m1-cS_3ld0-a2-m1-cU 3ld0-a2-m1-cT_3ld0-a2-m1-cU 3ld0-a2-m1-cV_3ld0-a2-m1-cW 3ld0-a2-m1-cV_3ld0-a2-m1-cX 3ld0-a2-m1-cW_3ld0-a2-m1-cX 3ld0-a3-m1-c1_3ld0-a3-m1-cY 3ld0-a3-m1-c2_3ld0-a3-m1-c3 3ld0-a3-m1-c4_3ld0-a3-m1-c3 3ld0-a3-m1-c5_3ld0-a3-m1-c6 3ld0-a3-m1-c5_3ld0-a3-m1-c7 3ld0-a3-m1-c6_3ld0-a3-m1-c7 3ld0-a3-m1-c8_3ld0-a3-m1-c9 3ld0-a3-m1-c8_3ld0-a3-m1-ca 3ld0-a3-m1-c9_3ld0-a3-m1-ca 3ld0-a3-m1-cZ_3ld0-a3-m1-c1 3ld0-a3-m1-cZ_3ld0-a3-m1-cY 3ld0-a4-m1-cb_3ld0-a4-m1-cc 3ld0-a4-m1-cb_3ld0-a4-m1-cd 3ld0-a4-m1-cc_3ld0-a4-m1-cd 3ld0-a4-m1-ce_3ld0-a4-m1-cf 3ld0-a4-m1-ce_3ld0-a4-m1-cg 3ld0-a4-m1-cf_3ld0-a4-m1-cg 3ld0-a4-m1-ch_3ld0-a4-m1-ci 3ld0-a4-m1-ch_3ld0-a4-m1-cj 3ld0-a4-m1-ci_3ld0-a4-m1-cj 3ld0-a4-m1-ck_3ld0-a4-m1-cm 3ld0-a4-m1-cl_3ld0-a4-m1-ck 3ld0-a4-m1-cl_3ld0-a4-m1-cm MVIATDDLETTCPNCNGSGREEPEPCPKCLGKGVILTAQGSTLLHFIKKHIH MVIATDDLETTCPNCNGSGREEPEPCPKCLGKGVILTAQGSTLLHFIKKHIH 3ld3-a1-m1-cA_3ld3-a1-m3-cB Crystal structure of inorganic phosphatase from anaplasma phagocytophilum at 1.75a resolution Q2GJ02 Q2GJ02 1.75 X-RAY DIFFRACTION 21 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 171 171 3ld3-a1-m1-cB_3ld3-a1-m2-cA 3ld3-a1-m2-cB_3ld3-a1-m3-cA DIGSGSNAPEEVNVVIEVSQDSHPVKYEFDEKNGALWVDRFLPTAMYYPCNYGFIPNTIAGDGDPVDVLVLARFPVMPGAVICVRPVGVLMMNDEKGEDAKVLAVPATKVDQYYGNIVNYSDLPSSFLDSISHFFSFYKKLEKDKFVSVGCWQDAASAKELIRSAIIAAKK DIGSGSNAPEEVNVVIEVSQDSHPVKYEFDEKNGALWVDRFLPTAMYYPCNYGFIPNTIAGDGDPVDVLVLARFPVMPGAVICVRPVGVLMMNDEKGEDAKVLAVPATKVDQYYGNIVNYSDLPSSFLDSISHFFSFYKKLEKDKFVSVGCWQDAASAKELIRSAIIAAKK 3ld3-a1-m2-cB_3ld3-a1-m3-cB Crystal structure of inorganic phosphatase from anaplasma phagocytophilum at 1.75a resolution Q2GJ02 Q2GJ02 1.75 X-RAY DIFFRACTION 45 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 171 171 3ld3-a1-m1-cA_3ld3-a1-m2-cA 3ld3-a1-m1-cA_3ld3-a1-m3-cA 3ld3-a1-m1-cB_3ld3-a1-m2-cB 3ld3-a1-m1-cB_3ld3-a1-m3-cB 3ld3-a1-m2-cA_3ld3-a1-m3-cA DIGSGSNAPEEVNVVIEVSQDSHPVKYEFDEKNGALWVDRFLPTAMYYPCNYGFIPNTIAGDGDPVDVLVLARFPVMPGAVICVRPVGVLMMNDEKGEDAKVLAVPATKVDQYYGNIVNYSDLPSSFLDSISHFFSFYKKLEKDKFVSVGCWQDAASAKELIRSAIIAAKK DIGSGSNAPEEVNVVIEVSQDSHPVKYEFDEKNGALWVDRFLPTAMYYPCNYGFIPNTIAGDGDPVDVLVLARFPVMPGAVICVRPVGVLMMNDEKGEDAKVLAVPATKVDQYYGNIVNYSDLPSSFLDSISHFFSFYKKLEKDKFVSVGCWQDAASAKELIRSAIIAAKK 3ld3-a1-m3-cA_3ld3-a1-m3-cB Crystal structure of inorganic phosphatase from anaplasma phagocytophilum at 1.75a resolution Q2GJ02 Q2GJ02 1.75 X-RAY DIFFRACTION 51 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 171 171 3ld3-a1-m1-cA_3ld3-a1-m1-cB 3ld3-a1-m2-cA_3ld3-a1-m2-cB DIGSGSNAPEEVNVVIEVSQDSHPVKYEFDEKNGALWVDRFLPTAMYYPCNYGFIPNTIAGDGDPVDVLVLARFPVMPGAVICVRPVGVLMMNDEKGEDAKVLAVPATKVDQYYGNIVNYSDLPSSFLDSISHFFSFYKKLEKDKFVSVGCWQDAASAKELIRSAIIAAKK DIGSGSNAPEEVNVVIEVSQDSHPVKYEFDEKNGALWVDRFLPTAMYYPCNYGFIPNTIAGDGDPVDVLVLARFPVMPGAVICVRPVGVLMMNDEKGEDAKVLAVPATKVDQYYGNIVNYSDLPSSFLDSISHFFSFYKKLEKDKFVSVGCWQDAASAKELIRSAIIAAKK 3ld6-a2-m2-cB_3ld6-a2-m1-cA Crystal structure of human lanosterol 14alpha-demethylase (CYP51) in complex with ketoconazole Q16850 Q16850 2.8 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 444 445 3jus-a2-m1-cA_3jus-a2-m2-cB VKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRR VKSPPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS 3ld9-a1-m1-cC_3ld9-a1-m1-cD Crystal structure of thymidylate kinase from Ehrlichia chaffeensis at 2.15A resolution Q2GHN3 Q2GHN3 2.15 X-RAY DIFFRACTION 65 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 175 184 3ld9-a1-m1-cB_3ld9-a1-m1-cA PGSMFITFEGIDGSGKTTQSHLLAEYLSEIYGVNNVVLTREPGGTLLNESVRNLLFKAQGLDSLSELLFFIAMRREHFVKIIKPSLMQKKIVICDRFIDSTIAYQGYGQGIDCSLIDQLNDLVIDVYPDITFIIDVDDMEFYYRVRDGFYDIAKKNPHRCHVITFVHLEVIKVLQ PGSMFITFEGIDGSGKTTQSHLLAEYLSEIYGVNNVVLTREPGGTLLNESVRNLLFKAQGLDSLSELLFFIAMRREHFVKIIKPSLMQKKIVICDRFIDSTIAYQGYGQGIDCSLIDQLNDLVIDVYPDITFIIDVDDMEFYYRVRDGFYDIAKKNPHRCHVITTYDIDDINFVHLEVIKVLQM 3ld9-a1-m1-cD_3ld9-a1-m1-cA Crystal structure of thymidylate kinase from Ehrlichia chaffeensis at 2.15A resolution Q2GHN3 Q2GHN3 2.15 X-RAY DIFFRACTION 15 0.995 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 184 187 3ld9-a1-m1-cC_3ld9-a1-m1-cB PGSMFITFEGIDGSGKTTQSHLLAEYLSEIYGVNNVVLTREPGGTLLNESVRNLLFKAQGLDSLSELLFFIAMRREHFVKIIKPSLMQKKIVICDRFIDSTIAYQGYGQGIDCSLIDQLNDLVIDVYPDITFIIDVDDMEFYYRVRDGFYDIAKKNPHRCHVITTYDIDDINFVHLEVIKVLQM PGSMFITFEGIDGSGKTTQSHLLAEYLSEIYGVNNVVLTREPGGTLLNESVRNLLFKAQGLDSLSELLFFIAMRREHFVKIIKPSLMQKKIVICDRFIDSTIAYQGYGQGIDCSLIDQLNDLVIDVYPDITFIIDVDDMEFYYRVRDGFYDIAKKNPHRCHVITDKSETYDIDDINFVHLEVIKVLQ 3ldh-a1-m4-cA_3ldh-a1-m1-cA A comparison of the structures of apo dogfish m4 lactate dehydrogenase and its ternary complexes P00341 P00341 3 X-RAY DIFFRACTION 108 1.0 7797 (Squalus acanthias) 7797 (Squalus acanthias) 329 329 3ldh-a1-m2-cA_3ldh-a1-m3-cA TALKDKLIGHLATSQEPRSYNKITVVGCDAVGMADAISVLMKDLADEVALVDVMEDKLKGEMMDLEHGSLFLHTAKIVSGKDYSVSAGSKLVVITAGARQQEGESRLNLVQRNVNIFKFIIPNIVKHSPDCLKELHPELGTDKNKQDWKLSGLPMHRIIGSGCNLDSARFRYLMGERLGVHSCLVIGWVIGQHGDSVPSVWSGMWDAKLHKDVVDSAYEVIKLKGYTSWAIGLVVSNPVDVLTYVAWKGCSVADLAQTIMKDLCRVHPVSTMVKDFYGIKDNVFLSLPCVLNNGISHCNIVKMKLKPDEEQQLQKSATTLWDIQKDLKF TALKDKLIGHLATSQEPRSYNKITVVGCDAVGMADAISVLMKDLADEVALVDVMEDKLKGEMMDLEHGSLFLHTAKIVSGKDYSVSAGSKLVVITAGARQQEGESRLNLVQRNVNIFKFIIPNIVKHSPDCLKELHPELGTDKNKQDWKLSGLPMHRIIGSGCNLDSARFRYLMGERLGVHSCLVIGWVIGQHGDSVPSVWSGMWDAKLHKDVVDSAYEVIKLKGYTSWAIGLVVSNPVDVLTYVAWKGCSVADLAQTIMKDLCRVHPVSTMVKDFYGIKDNVFLSLPCVLNNGISHCNIVKMKLKPDEEQQLQKSATTLWDIQKDLKF 3ldh-a1-m4-cA_3ldh-a1-m2-cA A comparison of the structures of apo dogfish m4 lactate dehydrogenase and its ternary complexes P00341 P00341 3 X-RAY DIFFRACTION 71 1.0 7797 (Squalus acanthias) 7797 (Squalus acanthias) 329 329 3ldh-a1-m1-cA_3ldh-a1-m3-cA TALKDKLIGHLATSQEPRSYNKITVVGCDAVGMADAISVLMKDLADEVALVDVMEDKLKGEMMDLEHGSLFLHTAKIVSGKDYSVSAGSKLVVITAGARQQEGESRLNLVQRNVNIFKFIIPNIVKHSPDCLKELHPELGTDKNKQDWKLSGLPMHRIIGSGCNLDSARFRYLMGERLGVHSCLVIGWVIGQHGDSVPSVWSGMWDAKLHKDVVDSAYEVIKLKGYTSWAIGLVVSNPVDVLTYVAWKGCSVADLAQTIMKDLCRVHPVSTMVKDFYGIKDNVFLSLPCVLNNGISHCNIVKMKLKPDEEQQLQKSATTLWDIQKDLKF TALKDKLIGHLATSQEPRSYNKITVVGCDAVGMADAISVLMKDLADEVALVDVMEDKLKGEMMDLEHGSLFLHTAKIVSGKDYSVSAGSKLVVITAGARQQEGESRLNLVQRNVNIFKFIIPNIVKHSPDCLKELHPELGTDKNKQDWKLSGLPMHRIIGSGCNLDSARFRYLMGERLGVHSCLVIGWVIGQHGDSVPSVWSGMWDAKLHKDVVDSAYEVIKLKGYTSWAIGLVVSNPVDVLTYVAWKGCSVADLAQTIMKDLCRVHPVSTMVKDFYGIKDNVFLSLPCVLNNGISHCNIVKMKLKPDEEQQLQKSATTLWDIQKDLKF 3ldh-a1-m4-cA_3ldh-a1-m3-cA A comparison of the structures of apo dogfish m4 lactate dehydrogenase and its ternary complexes P00341 P00341 3 X-RAY DIFFRACTION 168 1.0 7797 (Squalus acanthias) 7797 (Squalus acanthias) 329 329 3ldh-a1-m1-cA_3ldh-a1-m2-cA TALKDKLIGHLATSQEPRSYNKITVVGCDAVGMADAISVLMKDLADEVALVDVMEDKLKGEMMDLEHGSLFLHTAKIVSGKDYSVSAGSKLVVITAGARQQEGESRLNLVQRNVNIFKFIIPNIVKHSPDCLKELHPELGTDKNKQDWKLSGLPMHRIIGSGCNLDSARFRYLMGERLGVHSCLVIGWVIGQHGDSVPSVWSGMWDAKLHKDVVDSAYEVIKLKGYTSWAIGLVVSNPVDVLTYVAWKGCSVADLAQTIMKDLCRVHPVSTMVKDFYGIKDNVFLSLPCVLNNGISHCNIVKMKLKPDEEQQLQKSATTLWDIQKDLKF TALKDKLIGHLATSQEPRSYNKITVVGCDAVGMADAISVLMKDLADEVALVDVMEDKLKGEMMDLEHGSLFLHTAKIVSGKDYSVSAGSKLVVITAGARQQEGESRLNLVQRNVNIFKFIIPNIVKHSPDCLKELHPELGTDKNKQDWKLSGLPMHRIIGSGCNLDSARFRYLMGERLGVHSCLVIGWVIGQHGDSVPSVWSGMWDAKLHKDVVDSAYEVIKLKGYTSWAIGLVVSNPVDVLTYVAWKGCSVADLAQTIMKDLCRVHPVSTMVKDFYGIKDNVFLSLPCVLNNGISHCNIVKMKLKPDEEQQLQKSATTLWDIQKDLKF 3ldt-a1-m1-cA_3ldt-a1-m2-cA Crystal structure of an Outer membrane protein(OmpA)from Legionella pneumophila Q5ZXS4 Q5ZXS4 2.3 X-RAY DIFFRACTION 40 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 141 141 GLVASIYRDSKRKIIRDLQKQDIQYVEYGDTRTLIIPTDKYFSSPRLNEICYPGLNNVIRLLNFYPQSTIYVAGFTDNVGSRKRKLSQAQAETTFLWANGIAAKRLKAEGYGDKNAISDNAIIHGSAQNRRIEIQWFTSEG GLVASIYRDSKRKIIRDLQKQDIQYVEYGDTRTLIIPTDKYFSSPRLNEICYPGLNNVIRLLNFYPQSTIYVAGFTDNVGSRKRKLSQAQAETTFLWANGIAAKRLKAEGYGDKNAISDNAIIHGSAQNRRIEIQWFTSEG 3ldv-a1-m1-cB_3ldv-a1-m1-cA 1.77 Angstrom resolution crystal structure of orotidine 5'-phosphate decarboxylase from Vibrio cholerae O1 biovar eltor str. N16961 Q9KQT7 Q9KQT7 1.77 X-RAY DIFFRACTION 134 0.996 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 224 231 3uwq-a1-m1-cA_3uwq-a1-m1-cB NDPKVIVALDYDNLADALAFVDKIDPSTCRLKVGKEMFTLFGPDFVRELHKRGFSVFLDLKFHDIPNTCSKAVKAAAELGVWMVNVHASGGERMMAASREILEPYGKERPLLIGVTVLTSMESADLQGIGILSAPQDHVLRLATLTKNAGLDGVVCSAQEASLLKQHLGREFKLVTPGIRPAQRRIMTPAQAIASGSDYLVIGRPITQAAHPEVVLEEINSSLV AMNDPKVIVALDYDNLADALAFVDKIDPSTCRLKVGKEMFTLFGPDFVRELHKRGFSVFLDLKFHDIPNTCSKAVKAAAELGVWMVNVHASGGERMMAASREILEPYGKERPLLIGVTVLTSMESADLQGIGILSAPQDHVLRLATLTKNAGLDGVVCSAQEASLLKQHLGREFKLVTPGIRPAGSEQGDQRRIMTPAQAIASGSDYLVIGRPITQAAHPEVVLEEINSSL 3le2-a2-m1-cA_3le2-a2-m2-cA Structure of Arabidopsis AtSerpin1. Native Stressed Conformation Q9S7T8 Q9S7T8 2.2 X-RAY DIFFRACTION 66 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 393 393 AGMDVRESISLQNQVSMNLAKHVITTVSQNSNVIFSPASINVVLSIIAAGSAGATKDQILSFLKFSSTDQLNSFSSEIVSAVLADGSANGGPKLSVANGAWIDKSLSFKPSFKQLLEDSYKAASNQADFQSKAVEVIAEVNSWAEKETNGLITEVLPEGSADSMTKLIFANALYFKGTWNEKFDESLTQEGEFHLLDGNKVTAPFMTSKKKQYVSAYDGFKVLGLPYLQGQDKRQFSMYFYLPDANNGLSDLLDKIVSTPGFLDNHIPRRQVKVREFKIPKFKFSFGFDASNVLKGLGLTSPFSGEEGLTEMVESPEMGKNLCVSNIFHKACIEVNEEGTEAAAASAGVIKLRGLLMEEDEIDFVADHPFLLVVTENITGVVLFIGQVVDPLH AGMDVRESISLQNQVSMNLAKHVITTVSQNSNVIFSPASINVVLSIIAAGSAGATKDQILSFLKFSSTDQLNSFSSEIVSAVLADGSANGGPKLSVANGAWIDKSLSFKPSFKQLLEDSYKAASNQADFQSKAVEVIAEVNSWAEKETNGLITEVLPEGSADSMTKLIFANALYFKGTWNEKFDESLTQEGEFHLLDGNKVTAPFMTSKKKQYVSAYDGFKVLGLPYLQGQDKRQFSMYFYLPDANNGLSDLLDKIVSTPGFLDNHIPRRQVKVREFKIPKFKFSFGFDASNVLKGLGLTSPFSGEEGLTEMVESPEMGKNLCVSNIFHKACIEVNEEGTEAAAASAGVIKLRGLLMEEDEIDFVADHPFLLVVTENITGVVLFIGQVVDPLH 3le4-a1-m1-cA_3le4-a1-m2-cA Crystal structure of the DGCR8 dimerization domain Q8WYQ5 Q8WYQ5 1.701 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 4e5r-a1-m1-cA_4e5r-a1-m2-cA PPTEPLPDGWIMTFHNSGVPVYLHRESRVVTWSRPYFLGTGSIRKHDPPLSSIPC PPTEPLPDGWIMTFHNSGVPVYLHRESRVVTWSRPYFLGTGSIRKHDPPLSSIPC 3le5-a2-m1-cB_3le5-a2-m3-cB Crystal structure of HPr dimer from Thermoanaerobacter tengcongensis Q8R910 Q8R910 2 X-RAY DIFFRACTION 191 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 87 87 3le5-a1-m1-cA_3le5-a1-m2-cA MKEVTIEIKNKTGLHARPAALFVQTASKFSSQIWVEKDNKKVNAKSIMGIMSLGVSQGNVVKLSAEGDDEEEAIKALVDLIESKFGE MKEVTIEIKNKTGLHARPAALFVQTASKFSSQIWVEKDNKKVNAKSIMGIMSLGVSQGNVVKLSAEGDDEEEAIKALVDLIESKFGE 3lec-a2-m1-cA_3lec-a2-m2-cA The Crystal Structure of a protein in the NADB-Rossmann Superfamily from Streptococcus agalactiae to 1.8A Q8DZA6 Q8DZA6 1.8 X-RAY DIFFRACTION 65 1.0 216466 (Streptococcus agalactiae serogroup V) 216466 (Streptococcus agalactiae serogroup V) 220 220 NADLQLSKRLQKVANYVPKGARLLDVGSDHAYLPIFLLQGYCDFAIAGEVVNGPYQSALKNVSEHGLTSKIDVRLANGLSAFEEADNIDTITICGGGRLIADILNNDIDKLQHVKTLVLQPNNREDDLRKWLAANDFEIVAEDILTEKRYEILVVKHGHNLTAKELRFGPFLLSNNTTVFKEKWQNELNKLTFALNSIPNSKEERAILEDKIQDIKEVLD NADLQLSKRLQKVANYVPKGARLLDVGSDHAYLPIFLLQGYCDFAIAGEVVNGPYQSALKNVSEHGLTSKIDVRLANGLSAFEEADNIDTITICGGGRLIADILNNDIDKLQHVKTLVLQPNNREDDLRKWLAANDFEIVAEDILTEKRYEILVVKHGHNLTAKELRFGPFLLSNNTTVFKEKWQNELNKLTFALNSIPNSKEERAILEDKIQDIKEVLD 3led-a1-m1-cA_3led-a1-m1-cB Crystal structure of 3-oxoacyl-(acyl carrier protein) synthase III from Rhodopseudomonas palustris CGA009 Q6NA87 Q6NA87 1.45 X-RAY DIFFRACTION 254 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 365 365 YFQGVRPAVIAATGLYTPPDSVSNAELVEAFNTYVANFNAANKARIEAGEIEPLQPSSSEFIEKASGIKSRYVVAKPGIVDPDVRPIIPERSNDELSILAEAVTAAEQAIERWGKPRERIGAVLCACSNQRAYPAAIEVQNALGLGGFAFDNVACSSATFGLKTAADFVGGGSVDAVLVNPEICSGHLNFRDRDSHFIFGDVATAAIVERADDAQGGWSILGTKLKTQFSNNIRNNAGFLNRAWPEGRDKADKLFVQQGRKVFKEVVPLVSEIIEHAREIGIDPHGLKRWLHQANINNEIIGRKVLGRDPTRDENVIILDDYANTSSAGSIIAFHKHQDDAQGDLGLICSFGAGYSAGTVFVQKR YFQGVRPAVIAATGLYTPPDSVSNAELVEAFNTYVANFNAANKARIEAGEIEPLQPSSSEFIEKASGIKSRYVVAKPGIVDPDVRPIIPERSNDELSILAEAVTAAEQAIERWGKPRERIGAVLCACSNQRAYPAAIEVQNALGLGGFAFDNVACSSATFGLKTAADFVGGGSVDAVLVNPEICSGHLNFRDRDSHFIFGDVATAAIVERADDAQGGWSILGTKLKTQFSNNIRNNAGFLNRAWPEGRDKADKLFVQQGRKVFKEVVPLVSEIIEHAREIGIDPHGLKRWLHQANINNEIIGRKVLGRDPTRDENVIILDDYANTSSAGSIIAFHKHQDDAQGDLGLICSFGAGYSAGTVFVQKR 3lef-a1-m1-cA_3lef-a1-m2-cA Crystal structure of HIV epitope-scaffold 4E10_S0_1Z6NA_001 2.3 X-RAY DIFFRACTION 45 1.0 32630 (synthetic construct) 32630 (synthetic construct) 165 165 ASYAELFDIGEDFAAFVGHGLATEQGAVARFRQKLESNGLPSALTERLQRIERRYRLLVAGEMWCPDCQINLAALDFAQRLQPNIELAIISKGRAEDDLRQRLALERIAIPLVLVLDEEFNLLGRFVERPQAVLDGGWFDITAYLWGGHLEHAIGDVLAIIEGAA ASYAELFDIGEDFAAFVGHGLATEQGAVARFRQKLESNGLPSALTERLQRIERRYRLLVAGEMWCPDCQINLAALDFAQRLQPNIELAIISKGRAEDDLRQRLALERIAIPLVLVLDEEFNLLGRFVERPQAVLDGGWFDITAYLWGGHLEHAIGDVLAIIEGAA 3leq-a2-m1-cA_3leq-a2-m2-cA The Crystal Structure of the Roadblock/LC7 domain from Streptomyces avermitillis to 1.85A Q82L23 Q82L23 1.85 X-RAY DIFFRACTION 30 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 98 98 HSQLDQLLTGLVDRVAEVDHAVVLSEDGLVVSKSTGFLRDDAERLAATASGLSLRQALIEGKGYLILTAAGPGAHLVVLTRQGADVGVVAYQNLVKKI HSQLDQLLTGLVDRVAEVDHAVVLSEDGLVVSKSTGFLRDDAERLAATASGLSLRQALIEGKGYLILTAAGPGAHLVVLTRQGADVGVVAYQNLVKKI 3lez-a2-m1-cA_3lez-a2-m2-cA Crystal structure of a halotolerant bacterial beta-lactamase Q8EMP8 Q8EMP8 1.25 X-RAY DIFFRACTION 22 1.0 182710 (Oceanobacillus iheyensis) 182710 (Oceanobacillus iheyensis) 260 260 GSEDLKKLEEEFDVRLGVYAIDTGADKEISYRENERFAYTSTFKPLAVGAVLQTKSDEELEETITYSEEDLVTYSPITEQHVDEGMTLVEIADAAIRYSDNTAGNLLLEAMGGPDELETILRDIGDETIEMDRYETELNEAKPGDIRDTSTAKAMATTLQQYVLEDVLDADRREVLTNMLINNTTGDALIRAGVPDGWTVGDKTGAGGYGTRNDIGIIWPEGDEEPIVIAIMSSRDEEDADYDDKLIEKATEIVLQELRN GSEDLKKLEEEFDVRLGVYAIDTGADKEISYRENERFAYTSTFKPLAVGAVLQTKSDEELEETITYSEEDLVTYSPITEQHVDEGMTLVEIADAAIRYSDNTAGNLLLEAMGGPDELETILRDIGDETIEMDRYETELNEAKPGDIRDTSTAKAMATTLQQYVLEDVLDADRREVLTNMLINNTTGDALIRAGVPDGWTVGDKTGAGGYGTRNDIGIIWPEGDEEPIVIAIMSSRDEEDADYDDKLIEKATEIVLQELRN 3lf0-a1-m1-cC_3lf0-a1-m1-cB Crystal structure of the ATP bound Mycobacterium tuberculosis nitrogen regulatory PII protein P9WN31 P9WN31 2.4 X-RAY DIFFRACTION 78 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 101 112 HMKLITAIVKPFTLDDVKTSLEDAGVLGMTVSEIQGYGRYSVDFVPKVRIEVVVDDSIVDKVVDSIVRAARTGKIGDGKVWVSPVDTIVRVRTGERGHDAL HMKLITAIVKPFTLDDVKTSLEDAGVLGMTVSEIQGYGRQGHTEVYRGAEYSVDFVPKVRIEVVVDDSIVDKVVDSIVRAARTGKIGDGKVWVSPVDTIVRVRTGERGHDAL 3lf1-a1-m1-cA_3lf1-a1-m2-cB Apo structure of The Short Chain Oxidoreductase Q9HYA2 from Pseudomonas aeruginosa PAO1 Containing an Atypical Catalytic Center Q9HYA2 Q9HYA2 2.315 X-RAY DIFFRACTION 22 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 262 262 3lf1-a1-m1-cB_3lf1-a1-m2-cA 3lf2-a1-m1-cA_3lf2-a1-m1-cC 3lf2-a1-m1-cD_3lf2-a1-m1-cB YDLSEAVAVVTGGSSGIGLATVELLLEAGAAVAFCARDGERLRAAESALRQRFPGARLFASVCDVLDALQVRAFAEACERTLGCASILVNNAGQGRVSTFAETTDEAWSEELQLKFFSVIHPVRAFLPQLESRADAAIVCVNSLLASQPEPHMVATSAARAGVKNLVRSMAFEFAPKGVRVNGILIGLVESGQWRRRFEAREERELDWAQWTAQLARNKQIPLGRLGKPIEAARAILFLASPLSAYTTGSHIDVSGGLSRHA YDLSEAVAVVTGGSSGIGLATVELLLEAGAAVAFCARDGERLRAAESALRQRFPGARLFASVCDVLDALQVRAFAEACERTLGCASILVNNAGQGRVSTFAETTDEAWSEELQLKFFSVIHPVRAFLPQLESRADAAIVCVNSLLASQPEPHMVATSAARAGVKNLVRSMAFEFAPKGVRVNGILIGLVESGQWRRRFEAREERELDWAQWTAQLARNKQIPLGRLGKPIEAARAILFLASPLSAYTTGSHIDVSGGLSRHA 3lf1-a1-m1-cB_3lf1-a1-m2-cB Apo structure of The Short Chain Oxidoreductase Q9HYA2 from Pseudomonas aeruginosa PAO1 Containing an Atypical Catalytic Center Q9HYA2 Q9HYA2 2.315 X-RAY DIFFRACTION 91 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 262 262 3lf1-a1-m1-cA_3lf1-a1-m2-cA 3lf2-a1-m1-cA_3lf2-a1-m1-cD 3lf2-a1-m1-cC_3lf2-a1-m1-cB YDLSEAVAVVTGGSSGIGLATVELLLEAGAAVAFCARDGERLRAAESALRQRFPGARLFASVCDVLDALQVRAFAEACERTLGCASILVNNAGQGRVSTFAETTDEAWSEELQLKFFSVIHPVRAFLPQLESRADAAIVCVNSLLASQPEPHMVATSAARAGVKNLVRSMAFEFAPKGVRVNGILIGLVESGQWRRRFEAREERELDWAQWTAQLARNKQIPLGRLGKPIEAARAILFLASPLSAYTTGSHIDVSGGLSRHA YDLSEAVAVVTGGSSGIGLATVELLLEAGAAVAFCARDGERLRAAESALRQRFPGARLFASVCDVLDALQVRAFAEACERTLGCASILVNNAGQGRVSTFAETTDEAWSEELQLKFFSVIHPVRAFLPQLESRADAAIVCVNSLLASQPEPHMVATSAARAGVKNLVRSMAFEFAPKGVRVNGILIGLVESGQWRRRFEAREERELDWAQWTAQLARNKQIPLGRLGKPIEAARAILFLASPLSAYTTGSHIDVSGGLSRHA 3lf1-a1-m2-cA_3lf1-a1-m2-cB Apo structure of The Short Chain Oxidoreductase Q9HYA2 from Pseudomonas aeruginosa PAO1 Containing an Atypical Catalytic Center Q9HYA2 Q9HYA2 2.315 X-RAY DIFFRACTION 99 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 262 262 3lf1-a1-m1-cA_3lf1-a1-m1-cB 3lf2-a1-m1-cA_3lf2-a1-m1-cB 3lf2-a1-m1-cC_3lf2-a1-m1-cD YDLSEAVAVVTGGSSGIGLATVELLLEAGAAVAFCARDGERLRAAESALRQRFPGARLFASVCDVLDALQVRAFAEACERTLGCASILVNNAGQGRVSTFAETTDEAWSEELQLKFFSVIHPVRAFLPQLESRADAAIVCVNSLLASQPEPHMVATSAARAGVKNLVRSMAFEFAPKGVRVNGILIGLVESGQWRRRFEAREERELDWAQWTAQLARNKQIPLGRLGKPIEAARAILFLASPLSAYTTGSHIDVSGGLSRHA YDLSEAVAVVTGGSSGIGLATVELLLEAGAAVAFCARDGERLRAAESALRQRFPGARLFASVCDVLDALQVRAFAEACERTLGCASILVNNAGQGRVSTFAETTDEAWSEELQLKFFSVIHPVRAFLPQLESRADAAIVCVNSLLASQPEPHMVATSAARAGVKNLVRSMAFEFAPKGVRVNGILIGLVESGQWRRRFEAREERELDWAQWTAQLARNKQIPLGRLGKPIEAARAILFLASPLSAYTTGSHIDVSGGLSRHA 3lf5-a1-m1-cA_3lf5-a1-m1-cB Structure of Human NADH cytochrome b5 oxidoreductase (Ncb5or) b5 Domain to 1.25A Resolution Q7L1T6 Q7L1T6 1.25 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 KGRLIEVTEEELKKHNKKDDCWICIRGFVYNVSPYMEYHPGGEDELMRAAGSDGTELFDQVHRWVNYESMLKECLVGRMAIKPAVLK KGRLIEVTEEELKKHNKKDDCWICIRGFVYNVSPYMEYHPGGEDELMRAAGSDGTELFDQVHRWVNYESMLKECLVGRMAIKPAVLK 3lf6-a1-m1-cA_3lf6-a1-m1-cB Crystal structure of HIV epitope-scaffold 4E10_1XIZA_S0_001_N 1.9 X-RAY DIFFRACTION 69 1.0 32630 (synthetic construct) 32630 (synthetic construct) 154 157 NAMQGIHFRRHYVRHLPKEVSQNDIIKALASPLINDGMVVSDFADHVITREQNFPTGLPVEPVGVAIPHTDSKYVRQNAISVGILAEPVNFEDAGGEPDPVPVRVVFMLALGNWFDITNVLWWIMDVIQDEDFMQQLLVMNDDEIYQSIYTRIS HHHNAMQGIHFRRHYVRHLPKEVSQNDIIKALASPLINDGMVVSDFADHVITREQNFPTGLPVEPVGVAIPHTDSKYVRQNAISVGILAEPVNFEDAGGEPDPVPVRVVFMLALGNWFDITNVLWWIMDVIQDEDFMQQLLVMNDDEIYQSIYTRIS 3lfr-a1-m1-cA_3lfr-a1-m1-cB The Crystal Structure of a CBS Domain from a Putative Metal Ion Transporter Bound to AMP from Pseudomonas syringae to 1.55A Q87VX8 Q87VX8 1.53 X-RAY DIFFRACTION 66 0.983 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 120 125 LQVRDIVPRSQISIKATQTPREFLPAVIDAAHSRYPVIGESHDDVLGVLLAKDLLPLILKADGDSDDVKKLLRPATFVPESKRLNVLLREFRANHNHAIVIDEYGGVAGLVTIEDVLEQI ADLQVRDIVPRSQISIKATQTPREFLPAVIDAAHSRYPVIGESHDDVLGVLLAKDLLPLILKAGDSDVKKLLRPATFVPESKRLNVLLREFRANHNHAIVIDEYGGVAGLVTIEDVLEQIVGDIE 3lfv-a1-m1-cB_3lfv-a1-m1-cA crystal structure of unliganded PDE5A GAF domain O76074 O76074 2.8 X-RAY DIFFRACTION 180 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 380 391 3mf0-a1-m1-cB_3mf0-a1-m1-cA AMEHMASMTRKISASEFDRPLRPIVVKDSEGTVSFLSDSEKDQSSRLLELVKDISSHLDVTALCHKIFLHIHGLISADRYSLFLVCEDSSNDKFLISRLFDVANNCIRLEWNKGIVGHVAALGEPLNIKDAYEDPRFNAEVDQITGYKTQSILCMPIKNHREEVVGVAQAINKKSGNGGTFTEKDEKDFAAYLAFCGIVLHNAQLYETSLLENKRNQVLLDLASLIFEEQQSLEVILKKIAATIISFMQVQKCTIFIVDEDCSDSFSSVFHMECEELEKSYMYAQYVKNTMEPLNIPDVSKDKRFPCIRSLLCTPIKNGKKNKVIGVCQLVNKMEENTGKVKPFNRNDEQFLEAFVIFCGLGIQNTQMYEAVERAMAKRN AMEHMASMTRKISASEFDRPLRPIVVKDSEGTVSFLSDGDQSSRLLELVKDISSHLDVTALCHKIFLHIHGLISADRYSLFLVCEDSSNDKFLISRLFDVAEGSTLEEVSNNCIRLEWNKGIVGHVAALGEPLNIKDAYEDPRFNAEVDQITGYKTQSILCMPIKNHREEVVGVAQAINKKSGNGGTFTEKDEKDFAAYLAFCGIVLHNAQLYETSLLENKRNQVLLDLASLIFEEQQSLEVILKKIAATIISFMQVQKCTIFIVDEDCSDSFSSVFHMECEELEKSINYMYAQYVKNTMEPLNIPDVSKDKRFPWQCIRSLLCTPIKNGKKNKVIGVCQLVNKMEENTGKVKPFNRNDEQFLEAFVIFCGLGIQNTQMYEAVERAMAKRN 3lg0-a2-m1-cC_3lg0-a2-m1-cD Structure of Plasmodium falciparum ornithine delta-aminotransferase Q6LFH8 Q6LFH8 2.3 X-RAY DIFFRACTION 280 0.997 5836 (Plasmodium falciparum CDC/Honduras) 5836 (Plasmodium falciparum CDC/Honduras) 385 387 3lg0-a1-m1-cA_3lg0-a1-m1-cB 3ntj-a1-m1-cA_3ntj-a1-m1-cB 3ntj-a2-m1-cD_3ntj-a2-m1-cC KSSQDYMNNELTYGAHNYDPIPVVLKRGKGVFVYDIEDRRYYDFLSAYSSVNQGHCHPDILNAMINQAKKLTICSRAFFSDSLGVCERYLTNLFGYDKVLMMNTGAEASETAYKLCRKWGYEVKKIPENSAKIIVCNNNFSVPNFLKVPYDDLEALEKELQDPNVCAFIVEPVQGEAGVIVPSDSYFPGVASLCKKYNVLFVADEVQTGLGRTGKLLCTHHYGVKPDVILLGKALSGGHYPISAILANDDVMLVLKPGEHGSTYGGNPLAAAICVEALKVLINEKLCENADKLGAPFLQNLKEQLKDSKVVREVRGKGLLCAIEFKNDLVNVWDICLKFKENGLITRSVHDKTVRLTPPLCITKEQLDECTEIIVKTVKFFDDNL KSSQDYMNNELTYGAHNYDPIPVVLKRGKGVFVYDIEDRRYYDFLSAYSSVNQGHCHPDILNAMINQAKKLTICSRAFFSDSLGVCERYLTNLFGYDKVLMMNTGAEASETAYKLCRKWGYEVKKIPENSAKIIVCNNNFGPFVPNFLKVPYDDLEALEKELQDPNVCAFIVEPVQGEAGVIVPSDSYFPGVASLCKKYNVLFVADEVQTGLGRTGKLLCTHHYGVKPDVILLGKALSGGHYPISAILANDDVMLVLKPGEHGSTYGGNPLAAAICVEALKVLINEKLCENADKLGAPFLQNLKEQLKDSKVVREVRGKGLLCAIEFKNDLVNVWDICLKFKENGLITRSVHDKTVRLTPPLCITKEQLDECTEIIVKTVKFFDDNL 3lg3-a1-m1-cB_3lg3-a1-m2-cB 1.4A Crystal Structure of Isocitrate Lyase from Yersinia pestis CO92 A0A2S9PCG6 A0A2S9PCG6 1.4 X-RAY DIFFRACTION 107 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 406 406 3lg3-a1-m1-cA_3lg3-a1-m2-cA TISRTQQIQQLEQEWTSPRWKNITRPYSAEDVIKLRGSVNPECTFAQNGAKKLWELLHGGSRKGYINCLGALTGGQALQQAKAGVEAIYSGWQVAADANTASSYPDQSLYPVDSVPAVVKRINNSFRRADQIQWSNNIEPGSKGYTDYFLPIVADAEAGFGGVLNAFELKAIEAGAAGVHFEDQLAAVKKCGGKVLVPTQEAIQKLVAARLAADVLGVPTLLIARTDADAADLLTSDCDPYDREFITGDRTAEGFFRTRAGIEQAISRGLAYAPYADLVWCETSTPDLALAKRFADAVHAQFPGKLLAYNCSPSFNWKKNLTDQQIASFQDELSAGYKYQFITLAGIHSWFNFDLAHAYAQGEGKHYVEKVQQPEFASVDRGYTFASHQQEVGTGYFDKVTNIIQG TISRTQQIQQLEQEWTSPRWKNITRPYSAEDVIKLRGSVNPECTFAQNGAKKLWELLHGGSRKGYINCLGALTGGQALQQAKAGVEAIYSGWQVAADANTASSYPDQSLYPVDSVPAVVKRINNSFRRADQIQWSNNIEPGSKGYTDYFLPIVADAEAGFGGVLNAFELKAIEAGAAGVHFEDQLAAVKKCGGKVLVPTQEAIQKLVAARLAADVLGVPTLLIARTDADAADLLTSDCDPYDREFITGDRTAEGFFRTRAGIEQAISRGLAYAPYADLVWCETSTPDLALAKRFADAVHAQFPGKLLAYNCSPSFNWKKNLTDQQIASFQDELSAGYKYQFITLAGIHSWFNFDLAHAYAQGEGKHYVEKVQQPEFASVDRGYTFASHQQEVGTGYFDKVTNIIQG 3lg3-a1-m2-cB_3lg3-a1-m1-cA 1.4A Crystal Structure of Isocitrate Lyase from Yersinia pestis CO92 A0A2S9PCG6 A0A2S9PCG6 1.4 X-RAY DIFFRACTION 265 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 406 409 3lg3-a1-m1-cB_3lg3-a1-m2-cA TISRTQQIQQLEQEWTSPRWKNITRPYSAEDVIKLRGSVNPECTFAQNGAKKLWELLHGGSRKGYINCLGALTGGQALQQAKAGVEAIYSGWQVAADANTASSYPDQSLYPVDSVPAVVKRINNSFRRADQIQWSNNIEPGSKGYTDYFLPIVADAEAGFGGVLNAFELKAIEAGAAGVHFEDQLAAVKKCGGKVLVPTQEAIQKLVAARLAADVLGVPTLLIARTDADAADLLTSDCDPYDREFITGDRTAEGFFRTRAGIEQAISRGLAYAPYADLVWCETSTPDLALAKRFADAVHAQFPGKLLAYNCSPSFNWKKNLTDQQIASFQDELSAGYKYQFITLAGIHSWFNFDLAHAYAQGEGKHYVEKVQQPEFASVDRGYTFASHQQEVGTGYFDKVTNIIQG TISRTQQIQQLEQEWTSPRWKNITRPYSAEDVIKLRGSVNPECTFAQNGAKKLWELLHGGSRKGYINCLGALTGGQALQQAKAGVEAIYSGWQVAADANTASSYPDQSLYPVDSVPAVVKRINNSFRRADQIQWSNNIEPGSKGYTDYFLPIVADAEAGFGGVLNAFELKAIEAGAAGVHFEDQLAAVKKCGHGGKVLVPTQEAIQKLVAARLAADVLGVPTLLIARTDADAADLLTSDCDPYDREFITGDRTAEGFFRTRAGIEQAISRGLAYAPYADLVWCETSTPDLALAKRFADAVHAQFPGKLLAYNCSPSFNWKKNLTDQQIASFQDELSAGYKYQFITLAGIHSWFNFDLAHAYAQGEGKHYVEKVQQPEFASVDRGYTFASHQQEVGTGYFDKVTNIIQGG 3lg3-a1-m2-cB_3lg3-a1-m2-cA 1.4A Crystal Structure of Isocitrate Lyase from Yersinia pestis CO92 A0A2S9PCG6 A0A2S9PCG6 1.4 X-RAY DIFFRACTION 48 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 406 409 3lg3-a1-m1-cB_3lg3-a1-m1-cA TISRTQQIQQLEQEWTSPRWKNITRPYSAEDVIKLRGSVNPECTFAQNGAKKLWELLHGGSRKGYINCLGALTGGQALQQAKAGVEAIYSGWQVAADANTASSYPDQSLYPVDSVPAVVKRINNSFRRADQIQWSNNIEPGSKGYTDYFLPIVADAEAGFGGVLNAFELKAIEAGAAGVHFEDQLAAVKKCGGKVLVPTQEAIQKLVAARLAADVLGVPTLLIARTDADAADLLTSDCDPYDREFITGDRTAEGFFRTRAGIEQAISRGLAYAPYADLVWCETSTPDLALAKRFADAVHAQFPGKLLAYNCSPSFNWKKNLTDQQIASFQDELSAGYKYQFITLAGIHSWFNFDLAHAYAQGEGKHYVEKVQQPEFASVDRGYTFASHQQEVGTGYFDKVTNIIQG TISRTQQIQQLEQEWTSPRWKNITRPYSAEDVIKLRGSVNPECTFAQNGAKKLWELLHGGSRKGYINCLGALTGGQALQQAKAGVEAIYSGWQVAADANTASSYPDQSLYPVDSVPAVVKRINNSFRRADQIQWSNNIEPGSKGYTDYFLPIVADAEAGFGGVLNAFELKAIEAGAAGVHFEDQLAAVKKCGHGGKVLVPTQEAIQKLVAARLAADVLGVPTLLIARTDADAADLLTSDCDPYDREFITGDRTAEGFFRTRAGIEQAISRGLAYAPYADLVWCETSTPDLALAKRFADAVHAQFPGKLLAYNCSPSFNWKKNLTDQQIASFQDELSAGYKYQFITLAGIHSWFNFDLAHAYAQGEGKHYVEKVQQPEFASVDRGYTFASHQQEVGTGYFDKVTNIIQGG 3lg7-a1-m1-cC_3lg7-a1-m1-cB Crystal structure of HIV epitope-scaffold 4E10_S0_1EZ3A_002_C 2.5 X-RAY DIFFRACTION 36 1.0 32630 (synthetic construct) 32630 (synthetic construct) 122 123 3lg7-a1-m1-cA_3lg7-a1-m1-cB 3lg7-a1-m1-cC_3lg7-a1-m1-cA RDKFMDEFFKQVEEIRQYIDRIAENVEEVARQHQAILASPNPNWFDISQLLWLMADIKETANEVRKKLKEIEQSIEQEESSADLKIRKRQHEELERKFREVMKEYNATQQDYRKRARKRNLE RDKFMDEFFKQVEEIRQYIDRIAENVEEVARQHQAILASPNPNWFDISQLLWLMADIKETANEVRKKLKEIEQSIEQEEKSSADLKIRKRQHEELERKFREVMKEYNATQQDYRKRARKRNLE 3lga-a1-m1-cC_3lga-a1-m1-cD Crystal structure of P. abyssi tRNA m1A58 methyltransferase in complex with S-adenosyl-L-homocysteine Q9V1J7 Q9V1J7 2.05 X-RAY DIFFRACTION 153 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 253 253 3lga-a1-m1-cA_3lga-a1-m1-cB 3lhd-a1-m1-cA_3lhd-a1-m1-cB 3lhd-a1-m1-cC_3lhd-a1-m1-cD 3mb5-a1-m1-cA_3mb5-a1-m4-cA 3mb5-a1-m2-cA_3mb5-a1-m3-cA MIREGDKVVLVDPRGKRYLITVSKRDFHTDLGILKLEEIIGRNFGEAIKSHKGHEFKILRPRIVDYLDKMKRGPQIVHPKDAALIVAYAGISPGDFIVEAGVGSGALTLFLANIVGPEGRVVSYEIREDFAKLAWENIKWAGFDDRVTIKLKDIYEGIEEENVDHVILDLPQPERVVEHAAKALKPGGFFVAYTPCSNQVMRLHEKLREFKDYFMKPRTINVLVFDQEVKKECMRPRTTALVHTGYITFARRI MIREGDKVVLVDPRGKRYLITVSKRDFHTDLGILKLEEIIGRNFGEAIKSHKGHEFKILRPRIVDYLDKMKRGPQIVHPKDAALIVAYAGISPGDFIVEAGVGSGALTLFLANIVGPEGRVVSYEIREDFAKLAWENIKWAGFDDRVTIKLKDIYEGIEEENVDHVILDLPQPERVVEHAAKALKPGGFFVAYTPCSNQVMRLHEKLREFKDYFMKPRTINVLVFDQEVKKECMRPRTTALVHTGYITFARRI 3lgd-a1-m1-cA_3lgd-a1-m1-cB Crystal structure of human adenosine deaminase growth factor, adenosine deaminase type 2 (ADA2) Q9NZK5 Q9NZK5 2 X-RAY DIFFRACTION 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 482 482 3lgg-a1-m1-cA_3lgg-a1-m1-cB SIDETRAHLLLKEKMMRLGGRLVLNTKEELANERLMTLKIAEMKEAMRTLIFPPSMHFFQAKHLIERSQVFNILRMMPKGAALHLHDIGIVTMDWLVRNVTYRPHCHICFTPRGIMQFRFAHPTPRPSEKCSKWILLEDYRKRVQNVTEFDDSLLRNFTLVTQHPEVIYTNQNVVWSKFETIFFTISGLIHYAPVFRDYVFRSMQEFYEDNVLYMEIRARLLPVYELSGEHHDEEWSVKTYQEVAQKFVETHPEFIGIKIIYSDHRSKDVAVIAESIRMAMGLRIKFPTVVAGFDLVGHEDTGHSLHDYKEALMIPAKDGVKLPYFFHAGETDWQGTSIDRNILDALMLNTTRIGHGFALSKHPAVRTYSWKKDIPIEVCPISNQVLKLVSDLRNHPVATLMATGHPMVISSDDPAMFGAKGLSYDFYEVFMGIGGMKADLRTLKQLAMNSIKYSTLLESEKNTFMEIWKKRWDKFIADVAT SIDETRAHLLLKEKMMRLGGRLVLNTKEELANERLMTLKIAEMKEAMRTLIFPPSMHFFQAKHLIERSQVFNILRMMPKGAALHLHDIGIVTMDWLVRNVTYRPHCHICFTPRGIMQFRFAHPTPRPSEKCSKWILLEDYRKRVQNVTEFDDSLLRNFTLVTQHPEVIYTNQNVVWSKFETIFFTISGLIHYAPVFRDYVFRSMQEFYEDNVLYMEIRARLLPVYELSGEHHDEEWSVKTYQEVAQKFVETHPEFIGIKIIYSDHRSKDVAVIAESIRMAMGLRIKFPTVVAGFDLVGHEDTGHSLHDYKEALMIPAKDGVKLPYFFHAGETDWQGTSIDRNILDALMLNTTRIGHGFALSKHPAVRTYSWKKDIPIEVCPISNQVLKLVSDLRNHPVATLMATGHPMVISSDDPAMFGAKGLSYDFYEVFMGIGGMKADLRTLKQLAMNSIKYSTLLESEKNTFMEIWKKRWDKFIADVAT 3lgj-a1-m1-cA_3lgj-a1-m1-cB Crystal structure of single-stranded binding protein (ssb) from Bartonella henselae A0A0G2Q8L7 A0A0G2Q8L7 2.5 X-RAY DIFFRACTION 71 0.989 38323 (Bartonella henselae) 38323 (Bartonella henselae) 95 97 GSMLNKVMLIGYLGDDPESKTMTSGAEVVNFRMATFEKTEWHSVVVFNPHFAKIALQYLHKGSKVYIEGKLQTRKWYTTEIVLPQYKGELHLLDA GSMLNKVMLIGYLGDDPESKTMTSGAEVVNFRMATFEEKTEWHSVVVFNPHFAKIALQYLHKGSKVYIEGKLQTRKWQDYTTEIVLPQYKGELHLLD 3lgn-a1-m1-cB_3lgn-a1-m1-cA Crystal structure of IsdI in complex with heme Q7A827 Q7A827 1.5 X-RAY DIFFRACTION 85 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 109 110 1sqe-a1-m1-cA_1sqe-a1-m1-cB 2zdp-a1-m1-cA_2zdp-a1-m1-cB 3lgm-a1-m1-cA_3lgm-a1-m1-cB 3qgp-a1-m1-cA_3qgp-a1-m1-cB 4fnh-a1-m1-cA_4fnh-a1-m1-cB 4fni-a1-m1-cA_4fni-a1-m1-cB HMFMAENRLQLQKGSAEETIERFYNRQGIETIEGFQQMFVTKTLNTEDTDEVKILTIWESEDSFNNWLNSDVFKEAHKNVRLKSDDDGQQSPILSNKVFKYDIGYHYQK AHMFMAENRLQLQKGSAEETIERFYNRQGIETIEGFQQMFVTKTLNTEDTDEVKILTIWESEDSFNNWLNSDVFKEAHKNVRLKSDDDGQQSPILSNKVFKYDIGYHYQK 3lgo-a1-m1-cA_3lgo-a1-m4-cA Structure of Gse1p, member of the GSE/EGO complex P38247 P38247 2.85 X-RAY DIFFRACTION 34 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 140 140 3lgo-a1-m2-cA_3lgo-a1-m3-cA LHSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNSVNNLKMMSLLIKDKWSEDENDTHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFG LHSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNSVNNLKMMSLLIKDKWSEDENDTHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFG 3lgo-a1-m2-cA_3lgo-a1-m4-cA Structure of Gse1p, member of the GSE/EGO complex P38247 P38247 2.85 X-RAY DIFFRACTION 35 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 140 140 3lgo-a1-m1-cA_3lgo-a1-m3-cA LHSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNSVNNLKMMSLLIKDKWSEDENDTHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFG LHSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNSVNNLKMMSLLIKDKWSEDENDTHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFG 3lgo-a2-m1-cA_3lgo-a2-m2-cA Structure of Gse1p, member of the GSE/EGO complex P38247 P38247 2.85 X-RAY DIFFRACTION 129 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 140 140 3lgo-a1-m1-cA_3lgo-a1-m2-cA 3lgo-a1-m3-cA_3lgo-a1-m4-cA LHSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNSVNNLKMMSLLIKDKWSEDENDTHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFG LHSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNSVNNLKMMSLLIKDKWSEDENDTHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFG 3lgu-a1-m2-cA_3lgu-a1-m3-cA Y162A mutant of the DegS-deltaPDZ protease P0AEE3 P0AEE3 2.46 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 191 2qgr-a1-m1-cA_2qgr-a1-m2-cA 2qgr-a1-m1-cA_2qgr-a1-m3-cA 2qgr-a1-m2-cA_2qgr-a1-m3-cA 3lgt-a1-m1-cA_3lgt-a1-m2-cA 3lgt-a1-m1-cA_3lgt-a1-m3-cA 3lgt-a1-m2-cA_3lgt-a1-m3-cA 3lgu-a1-m1-cA_3lgu-a1-m2-cA 3lgu-a1-m1-cA_3lgu-a1-m3-cA 3lgw-a1-m1-cA_3lgw-a1-m2-cA 3lgw-a1-m1-cA_3lgw-a1-m3-cA 3lgw-a1-m2-cA_3lgw-a1-m3-cA 3lgy-a1-m1-cA_3lgy-a1-m2-cA 3lgy-a1-m1-cA_3lgy-a1-m3-cA 3lgy-a1-m2-cA_3lgy-a1-m3-cA STDETPASYNLAVRRAAPAVVNVYNRGLLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPTIPINARRVPHIGDVVLAIGNPGQTITQGIISATGGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSPEGIGFAIPFQLATKIMDKLIRDGRVI STDETPASYNLAVRRAAPAVVNVYNRGLLEIRTLGSGVIMDQRGYIITNKHVINDADQIIVALQDGRVFEALLVGSDSLTDLAVLKINATGGLPTIPINARRVPHIGDVVLAIGNPGQTITQGIISATGGRQNFLQTDASINHGNSGGALVNSLGELMGINTLSPEGIGFAIPFQLATKIMDKLIRDGRVI 3lh2-a2-m1-cT_3lh2-a2-m1-cU Crystal structure of HIV epitope-scaffold 4E10_1VI7A_S0_002_N 4E10 Fv complex 2.65 X-RAY DIFFRACTION 225 1.0 32630 (synthetic construct) 32630 (synthetic construct) 67 68 3lh2-a1-m1-cS_3lh2-a1-m1-cV LTEYTLQANWFDITGILWLLGQVDGKIINSDVQAFVLLRVALPAAKVAEFSAKLADFSGGSLQLLAI LTEYTLQANWFDITGILWLLGQVDGKIINSDVQAFVLLRVALPAAKVAEFSAKLADFSGGSLQLLAIE 3lhb-a6-m1-cK_3lhb-a6-m1-cL THE 2.7 ANGSTROM CRYSTAL STRUCTURE OF DEOXYGENATED HEMOGLOBIN FROM THE SEA LAMPREY (PETROMYZON MARINUS) P02208 P02208 2.7 X-RAY DIFFRACTION 17 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 149 149 1f5o-a1-m1-cA_1f5o-a1-m1-cB 1f5o-a2-m1-cC_1f5o-a2-m1-cD 1f5o-a3-m1-cE_1f5o-a3-m1-cF 1f5p-a1-m1-cA_1f5p-a1-m1-cB 1f5p-a2-m1-cC_1f5p-a2-m1-cD 1f5p-a3-m1-cE_1f5p-a3-m1-cF 1uc3-a1-m1-cA_1uc3-a1-m1-cB 1uc3-a2-m1-cC_1uc3-a2-m1-cD 1uc3-a3-m1-cE_1uc3-a3-m1-cF 1uc3-a4-m1-cG_1uc3-a4-m1-cH 1uc3-a5-m1-cI_1uc3-a5-m1-cJ 1uc3-a6-m1-cK_1uc3-a6-m1-cL 3lhb-a1-m1-cA_3lhb-a1-m1-cB 3lhb-a2-m1-cC_3lhb-a2-m1-cD 3lhb-a3-m1-cE_3lhb-a3-m1-cF 3lhb-a4-m1-cG_3lhb-a4-m1-cH 3lhb-a5-m1-cI_3lhb-a5-m1-cJ PIVDTGSVAPLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTTADELKKSADVRWHAERIINAVDDAVASMDDTEKMSMKLRNLSGKHAKSFQVDPEYFKVLAAVIADTVAAGDAGFEKLMSMICILLRSAY PIVDTGSVAPLSAAEKTKIRSAWAPVYSTYETSGVDILVKFFTSTPAAQEFFPKFKGLTTADELKKSADVRWHAERIINAVDDAVASMDDTEKMSMKLRNLSGKHAKSFQVDPEYFKVLAAVIADTVAAGDAGFEKLMSMICILLRSAY 3lhc-a1-m1-cA_3lhc-a1-m2-cA Crystal structure of cyanovirin-n swapping domain b mutant P81180 P81180 1.34 X-RAY DIFFRACTION 253 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 100 100 LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIAAVDGSLKWPSNFIEACRNTQLAGSSELAAECKTAAGQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIAAVDGSLKWPSNFIEACRNTQLAGSSELAAECKTAAGQFVSTKINLDDHIANIDGTLKYE 3lhf-a3-m1-cA_3lhf-a3-m1-cD The Crystal Structure of a Serine Recombinase from Sulfolobus solfataricus to 2.3A Q97XB5 Q97XB5 2.3 X-RAY DIFFRACTION 104 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 136 140 3lhf-a1-m1-cA_3lhf-a1-m1-cD 3lhf-a2-m1-cB_3lhf-a2-m1-cC 3lhf-a3-m1-cB_3lhf-a3-m1-cC RKVILYARVSSSTQKDDLVNQVKYLEEQVKEYDQVITDIGSGLNMKRKGFLKLLRMILNNEVSRVVVAYPDRLVRFGFEILEEVCKAHGCEIVVINKEEELVEDLVSILVSFSGKLYGMRSHKYEKVKKCVEELKN KRKVILYARVSSSTQKDDLVNQVKYLEEQVKEYDQVITDIGSGLNMKRKGFLKLLRMILNNEVSRVVVAYPDRLVRFGFEILEEVCKAHGCEIVVINQEDKEEELVEDLVSILVSFSGKLYGMRSHKYEKVKKCVEELKN 3lhk-a2-m1-cC_3lhk-a2-m1-cD Crystal structure of putative DNA binding protein from Methanocaldococcus jannaschii. Q60329 Q60329 2.2 X-RAY DIFFRACTION 72 0.993 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 142 142 3lhk-a1-m1-cB_3lhk-a1-m1-cA NAKIIGYARVSFNAQKDDLERQIQLIKSYAEENGWDIQILKDIGSGLNEKRKNYKKLLKVNRKVEKVIIAYPDRLTRFGFETLKEFFKSYGTEIVIINKKHKTPQEELVEDLITIVSHFAGKLYGHSHKYKKLTKTVKEIVR AKIIGYARVSFNAQKDDLERQIQLIKSYAEENGWDIQILKDIGSGLNEKRKNYKKLLKVNRKVEKVIIAYPDRLTRFGFETLKEFFKSYGTEIVIINKKHKTPQEELVEDLITIVSHFAGKLYGHSHKYKKLTKTVKEIVRE 3lhl-a2-m2-cA_3lhl-a2-m3-cA Crystal structure of a putative agmatinase from Clostridium difficile Q18A84 Q18A84 2.3 X-RAY DIFFRACTION 58 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 272 272 3lhl-a2-m1-cA_3lhl-a2-m2-cA 3lhl-a2-m1-cA_3lhl-a2-m3-cA NYEESNLIVFGVGFDGTTSNRPGARFASSSRKEFYGLETYSPFLDLDLEDYNICDYGDLEISVGSTEQVLKEIYQETYKIVRDSKVPFIGGEHLVTLPAFKAVHEKYNDIYVIHFDAHTDLREEYNNSKNSHATVIKRIWDIVGDNKIFQFGIRSGTKEEFKFATEEKHTYEIGGIDTFENIVNLNGKNIYLTIDLDVLDASVFPGTGTPEPGGVNYREFQEIFKIIKNSNINIVGCDIVELSPDYDTTGVSTVIACKILRELCLIISDKIK NYEESNLIVFGVGFDGTTSNRPGARFASSSRKEFYGLETYSPFLDLDLEDYNICDYGDLEISVGSTEQVLKEIYQETYKIVRDSKVPFIGGEHLVTLPAFKAVHEKYNDIYVIHFDAHTDLREEYNNSKNSHATVIKRIWDIVGDNKIFQFGIRSGTKEEFKFATEEKHTYEIGGIDTFENIVNLNGKNIYLTIDLDVLDASVFPGTGTPEPGGVNYREFQEIFKIIKNSNINIVGCDIVELSPDYDTTGVSTVIACKILRELCLIISDKIK 3lhn-a1-m1-cB_3lhn-a1-m2-cB Crystal structure of putative lipoprotein (NP_718719.1) from Shewanella oneidensis at 1.42 A resolution Q8ECH9 Q8ECH9 1.42 X-RAY DIFFRACTION 38 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 105 105 3lhn-a1-m1-cA_3lhn-a1-m2-cA GDTSQNALDWPGVYEGVLPCASCEGIQTTLTLQADNSFELKSIYLGKDESIFKVAGKFDWDSNGSKITLSDGSKYLVGENQLLLDTEGNRITGGLAEHYILKKKG GDTSQNALDWPGVYEGVLPCASCEGIQTTLTLQADNSFELKSIYLGKDESIFKVAGKFDWDSNGSKITLSDGSKYLVGENQLLLDTEGNRITGGLAEHYILKKKG 3lhn-a1-m2-cB_3lhn-a1-m1-cA Crystal structure of putative lipoprotein (NP_718719.1) from Shewanella oneidensis at 1.42 A resolution Q8ECH9 Q8ECH9 1.42 X-RAY DIFFRACTION 17 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 105 106 3lhn-a1-m1-cB_3lhn-a1-m2-cA GDTSQNALDWPGVYEGVLPCASCEGIQTTLTLQADNSFELKSIYLGKDESIFKVAGKFDWDSNGSKITLSDGSKYLVGENQLLLDTEGNRITGGLAEHYILKKKG LGDTSQNALDWPGVYEGVLPCASCEGIQTTLTLQADNSFELKSIYLGKDESIFKVAGKFDWDSNGSKITLSDGSKYLVGENQLLLDTEGNRITGGLAEHYILKKKG 3lhn-a2-m1-cB_3lhn-a2-m1-cA Crystal structure of putative lipoprotein (NP_718719.1) from Shewanella oneidensis at 1.42 A resolution Q8ECH9 Q8ECH9 1.42 X-RAY DIFFRACTION 74 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 105 106 3lhn-a1-m1-cB_3lhn-a1-m1-cA 3lhn-a1-m2-cB_3lhn-a1-m2-cA GDTSQNALDWPGVYEGVLPCASCEGIQTTLTLQADNSFELKSIYLGKDESIFKVAGKFDWDSNGSKITLSDGSKYLVGENQLLLDTEGNRITGGLAEHYILKKKG LGDTSQNALDWPGVYEGVLPCASCEGIQTTLTLQADNSFELKSIYLGKDESIFKVAGKFDWDSNGSKITLSDGSKYLVGENQLLLDTEGNRITGGLAEHYILKKKG 3lhq-a1-m1-cB_3lhq-a1-m1-cA DNA-binding transcriptional repressor AcrR from Salmonella typhimurium. Q7CR15 Q7CR15 1.56 X-RAY DIFFRACTION 134 0.995 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 210 211 ARKTKQQALETRQHILDVALRLFSQQGVSATSLAEIANAAGVTRGAIYWHFKNKSDLFSEIWELSESNIGELEIEYQAKFPDDPLSVLREILVHILEATVTEERRRLLMEIIFHKCEFVGEMVVVQQAQRSLCLESYDRIEQTLKHCINAKMLPENLLTRRAAILMRSFISGLMENWLFAPQSFDLKKEARAYVTILLEMYQLCPTLRAS AMARKTKQQALETRQHILDVALRLFSQQGVSATSLAEIANAAGVTRGAIYWHFKNKSDLFSEIWELSESNIGELEIEYQAKFPDDPLSVLREILVHILEATVTEERRRLLMEIIFHKCEFVGEMVVVQQAQRSLCLESYDRIEQTLKHCINAKMLPENLLTRRAAILMRSFISGLMENWLFAPQSFDLKKEARAYVTILLEMYQLCPTLRA 3lhr-a1-m1-cA_3lhr-a1-m1-cB Crystal structure of the SCAN domain from Human ZNF24 P17028 P17028 1.9 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 93 GSPDPEIFRQRFRQFGYQDSPGPREAVSQLRELCRLWLRPETHTKEQILELVVLEQFVAILPKELQTWVRDHHPENGEEAVTVLEDLESELD GSPDPEIFRQRFRQFGYQDSPGPREAVSQLRELCRLWLRPETHTKEQILELVVLEQFVAILPKELQTWVRDHHPENGEEAVTVLEDLESELDD 3lhx-a1-m1-cB_3lhx-a1-m1-cA Crystal structure of a Ketodeoxygluconokinase (kdgk) from Shigella flexneri A0A0H2V4A7 A0A0H2V4A7 1.87 X-RAY DIFFRACTION 31 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 290 295 SKKIAVIGECIELSVKRGFGGDTLNTSVYIARQVDPAALTVHYVTALGTDSFSQQLDAWHGENVDTSLTQRENRLPGLYYIETFYYWRNEAAAKFWLASEQSAAICEELANFDYLYLSGISLAILSPTSREKLLSLLRECRAKGGKVIFDNNYRPRLWASKEETQQVYQQLECTDIAFLTLDDEDALWGQQPVEDVIARTHNAGVKEVVVKRGADSCLVSIAGEALVDVPAVKLPKEKVIDTTAAGDSFSAGYLAVRLTGGSAENAAKRGHLTASTVIQYRGAIIPREAP SKKIAVIGECIELSEDVKRGFGGDTLNTSVYIARQVDPAALTVHYVTALGTDSFSQQLDAWHGENVDTSLTQRENRLPGLYYIETERTFYYWRNEAAAKFWLASEQSAAICEELANFDYLYLSGISLAILSPTSREKLLSLLRECRAKGGKVIFDNNYRPRLWASKEETQQVYQQLECTDIAFLTLDDEDALWGQQPVEDVIARTHNAGVKEVVVKRGADSCLVSIAGEALVDVPAVKLPKEKVIDTTAAGDSFSAGYLAVRLTGGSAENAAKRGHLTASTVIQYRGAIIPREAP 3li9-a2-m1-cA_3li9-a2-m2-cA Crystal Structure of the extracellular domain of the putative histidine kinase mmHK1S-Z2 Q8PSW8 Q8PSW8 1.7 X-RAY DIFFRACTION 106 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 254 254 3li8-a2-m1-cA_3li8-a2-m2-cA 3lia-a3-m1-cA_3lia-a3-m1-cB KLAYEKSIEAGNYANQFDAQEANQAIARTLACTAEYGSQDREEASIIKRILNENPQLIGVYLGYEPDAFDGRDKNYINAPGHDSTGRFVPYCNKINGPVIIEPLVHYDSSDYYQLPKTTGKDTLTEPYFYEGIFVSYDSPIFKNGEFAGIAGVDVPLEYVDDVASSIRTFDTGYAFVSNTGIFLSHPTQKNWIGEKSLSDFDVEEIKNAASDIREGIGGHVEIKDPITGKTVIFYEPVKTGDFSFVLVVPKEEL KLAYEKSIEAGNYANQFDAQEANQAIARTLACTAEYGSQDREEASIIKRILNENPQLIGVYLGYEPDAFDGRDKNYINAPGHDSTGRFVPYCNKINGPVIIEPLVHYDSSDYYQLPKTTGKDTLTEPYFYEGIFVSYDSPIFKNGEFAGIAGVDVPLEYVDDVASSIRTFDTGYAFVSNTGIFLSHPTQKNWIGEKSLSDFDVEEIKNAASDIREGIGGHVEIKDPITGKTVIFYEPVKTGDFSFVLVVPKEEL 3lib-a15-m1-cI_3lib-a15-m1-cJ Crystal Structure of the extracellular domain of the putative histidine kinase mmHK1S-Z3 Q8PSW1 Q8PSW1 2.99 X-RAY DIFFRACTION 96 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 271 271 3lib-a11-m1-cA_3lib-a11-m1-cB 3lib-a12-m1-cC_3lib-a12-m1-cD 3lib-a13-m1-cE_3lib-a13-m1-cF 3lib-a14-m1-cH_3lib-a14-m1-cG EKLAYQQSVEMASNYANQFDADMKANLAIARTISTTMESYETADRDEALLILENLLRDNPHLLGTYVAFEPDAFDGKDAEYTNSPAHDGTGRFVPYWNKMNGTASVAPLLHYDSSDYYQLPKATEKDVLTEPYFYEGVFMVSYVSPIMKEGEFAGIGGVDVSLEYVDEVVSKVRTFDTGYAFMVSNSGVILSHPTHKDWIGKKDLYDFGGEELEKASRDIKNGIGGHLETADPTTGKTVILFYEPVETGDFAFVLVVPKEEMLAGVADLRE EKLAYQQSVEMASNYANQFDADMKANLAIARTISTTMESYETADRDEALLILENLLRDNPHLLGTYVAFEPDAFDGKDAEYTNSPAHDGTGRFVPYWNKMNGTASVAPLLHYDSSDYYQLPKATEKDVLTEPYFYEGVFMVSYVSPIMKEGEFAGIGGVDVSLEYVDEVVSKVRTFDTGYAFMVSNSGVILSHPTHKDWIGKKDLYDFGGEELEKASRDIKNGIGGHLETADPTTGKTVILFYEPVETGDFAFVLVVPKEEMLAGVADLRE 3lic-a2-m1-cA_3lic-a2-m2-cA Crystal Structure of the extracellular domain of the putative histidine kinase soHK1S-Z6 Q8EII0 Q8EII0 2.3 X-RAY DIFFRACTION 65 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 263 263 ENYLSIEKRLYENLAQESSHSASRLQFLLEHAQANTQGLSDFIGLLADKDDINNPEKLKTVLTNRIQRNPDFFGSAIAFKPNTFPNKKLFSPYVYRSGSGFNYLDIGADGYDYTDGNWDWWSKAINQVGGYWSKAYFDEGAGNVLITYAVPFGVQPDYFGVTTVDLALDRLPEQLGIAPSRLVVLDDQGRLIFHSDKEKVLAGWLDKQNIKNIAFATLLNDGQAGQASFVDDKGTVYLASVAEVAKLKWRVVVVPKHELFASL ENYLSIEKRLYENLAQESSHSASRLQFLLEHAQANTQGLSDFIGLLADKDDINNPEKLKTVLTNRIQRNPDFFGSAIAFKPNTFPNKKLFSPYVYRSGSGFNYLDIGADGYDYTDGNWDWWSKAINQVGGYWSKAYFDEGAGNVLITYAVPFGVQPDYFGVTTVDLALDRLPEQLGIAPSRLVVLDDQGRLIFHSDKEKVLAGWLDKQNIKNIAFATLLNDGQAGQASFVDDKGTVYLASVAEVAKLKWRVVVVPKHELFASL 3lid-a3-m1-cB_3lid-a3-m1-cA Crystal Structure of the extracellular domain of the putative histidine kinase vpHK1S-Z8 Q87SR8 Q87SR8 1.76 X-RAY DIFFRACTION 75 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 276 279 NVENTAKEALHQLAYTGREYNNIQDQIETISDLLGHSQSLYDYLREPSKANLTILENMWSSVARNQKLYKQIRFLDTSGTEKVRIKYDFKTSIAGPSLILRDKSAREYFKYAQSLDNEQISAWGIELERDKGELVYPLSPSLRILMPISVNDVRQGYLVLNVDIEYLSSLLNYSPVRDFHIELVKHKGFYIASPDESRLYGDIIPERSQFNFSNMYPDIWPRVVSEQAGYSYSGEHLIAFSSIKFVSNEPLHLIIDLSNEQLSKRATRDINDLIQE LANNVENTAKEALHQLAYTGREYNNIQDQIETISDLLGHSQSLYDYLREPSKANLTILENMWSSVARNQKLYKQIRFLDTSGTEKVRIKYDFKTSIAGPSLILRDKSAREYFKYAQSLDNEQISAWGIELERDKGELVYPLSPSLRILMPISVNDVRQGYLVLNVDIEYLSSLLNYSPVRDFHIELVKHKGFYIASPDESRLYGDIIPERSQFNFSNMYPDIWPRVVSEQAGYSYSGEHLIAFSSIKFVSNEPLHLIIDLSNEQLSKRATRDINDLIQE 3lig-a2-m1-cA_3lig-a2-m2-cA Crystal structure of fructosyltransferase (D191A) from A. japonicus Q1W3Z7 Q1W3Z7 1.8 X-RAY DIFFRACTION 59 1.0 34381 (Aspergillus japonicus) 34381 (Aspergillus japonicus) 634 634 3ldk-a2-m1-cA_3ldk-a2-m2-cA 3ldr-a2-m1-cA_3ldr-a2-m2-cA 3lem-a2-m1-cA_3lem-a2-m2-cA 3lf7-a2-m1-cA_3lf7-a2-m2-cA 3lfi-a1-m1-cA_3lfi-a1-m1-cB 3lih-a2-m1-cA_3lih-a2-m2-cA SYHLDTTAPPPTNLSTLPNNTLFHLWRPRAHILPAEGQIGDPCAHYTDPSTGLFHVGFLHDGDGIAGATTANLATYTDTSDNGSFLIQPGGKNDPVAVFDGAVIPVGVNNTPTLLYTSVSFLPIHWSIPYTRGSETQSLAVARDGGRRFDKLDQGPVIADHPFAVDVTAFRAPFVFRSARLDVLLSLDEEVARNETAVQQAVDGWTEKNAPWYVAVSGGVHGVGPAQFLYRQNGGNASEFQYWEYLGEWWQEATNSSWGDEGTWAGRWGFNFETGNVLFLTEEGHDPQTGEVFVTLGTEGSGLPIVPQVSSIHDMLWAAGEVGVGSEQEGAKVEFSPSMAGFLDWGFSAYAAAGKVLPASSAVSKTSGVEVDRYVSFVWLTGDQYEQADGFPTAQQGWTGSLLLPRELKVQTVENVVDNELVREEGVSWVVGESDNQTATLRTLGITIARETKAALLANGSVTAEEDRTLQTAAVVPFAQSPSSKFFVLTAQLEFPASARSSPLQSGFEILASELERTAIYYQFSNESLVVDRSQTSAAAPTNPGLDSFTESGKLRLFDVIENGQEQVETLDLTVVVDNAVVEVYANGRFALSTWARSWYDNSTQIRFFHNGEGEVQFRNVSVSEGLYNAWPER SYHLDTTAPPPTNLSTLPNNTLFHLWRPRAHILPAEGQIGDPCAHYTDPSTGLFHVGFLHDGDGIAGATTANLATYTDTSDNGSFLIQPGGKNDPVAVFDGAVIPVGVNNTPTLLYTSVSFLPIHWSIPYTRGSETQSLAVARDGGRRFDKLDQGPVIADHPFAVDVTAFRAPFVFRSARLDVLLSLDEEVARNETAVQQAVDGWTEKNAPWYVAVSGGVHGVGPAQFLYRQNGGNASEFQYWEYLGEWWQEATNSSWGDEGTWAGRWGFNFETGNVLFLTEEGHDPQTGEVFVTLGTEGSGLPIVPQVSSIHDMLWAAGEVGVGSEQEGAKVEFSPSMAGFLDWGFSAYAAAGKVLPASSAVSKTSGVEVDRYVSFVWLTGDQYEQADGFPTAQQGWTGSLLLPRELKVQTVENVVDNELVREEGVSWVVGESDNQTATLRTLGITIARETKAALLANGSVTAEEDRTLQTAAVVPFAQSPSSKFFVLTAQLEFPASARSSPLQSGFEILASELERTAIYYQFSNESLVVDRSQTSAAAPTNPGLDSFTESGKLRLFDVIENGQEQVETLDLTVVVDNAVVEVYANGRFALSTWARSWYDNSTQIRFFHNGEGEVQFRNVSVSEGLYNAWPER 3lio-a1-m1-cA_3lio-a1-m1-cB X-ray structure of the iron superoxide dismutase from pseudoalteromonas haloplanktis (crystal form I) P84612 P84612 1.5 X-RAY DIFFRACTION 48 1.0 326442 (Pseudoalteromonas translucida TAC125) 326442 (Pseudoalteromonas translucida TAC125) 192 192 3lj9-a1-m1-cA_3lj9-a1-m1-cB 3ljf-a1-m1-cA_3ljf-a1-m1-cB 3ljf-a2-m1-cC_3ljf-a2-m1-cD 4l2a-a1-m1-cA_4l2a-a1-m1-cB 4l2b-a1-m1-cA_4l2b-a1-m1-cB 4l2c-a1-m1-cA_4l2c-a1-m1-cB 4l2c-a2-m1-cC_4l2c-a2-m1-cD 4l2d-a1-m1-cA_4l2d-a1-m1-cB 4l2d-a2-m1-cC_4l2d-a2-m1-cD AFELPSLPYAIDALEPHISKETLEFHHGKHHNTYVVKLNGLIPGTKFENKSLEEIVCSSDGGVFNNAAQIWNHTFYWNSLSPNGGGAPTGAVADAINAKWGSFDAFKEALNDKAVNNFGSSWTWLVKLADGSLDIVNTSNAATPLTDDGVTPILTVDLWEHAYYIDYRNVRPDYLKGFWSLVNWEFANANFA AFELPSLPYAIDALEPHISKETLEFHHGKHHNTYVVKLNGLIPGTKFENKSLEEIVCSSDGGVFNNAAQIWNHTFYWNSLSPNGGGAPTGAVADAINAKWGSFDAFKEALNDKAVNNFGSSWTWLVKLADGSLDIVNTSNAATPLTDDGVTPILTVDLWEHAYYIDYRNVRPDYLKGFWSLVNWEFANANFA 3ljd-a3-m1-cA_3ljd-a3-m2-cB The X-ray structure of zebrafish RNase1 from a new crystal form at pH 4.5 E7FH76 E7FH76 1.38 X-RAY DIFFRACTION 62 1.0 7955 (Danio rerio) 7955 (Danio rerio) 126 126 3ln8-a3-m1-cA_3ln8-a3-m2-cB MHVKERYKNFLNQHVGPDMSVQRCNSEIGPNNRKITLSGTDNGCKPVNTFILANKRLIKTVCGRAGSPQGNMVRSNQPFPVVKCVLNNGERHPYCEYRGTRSTRYIVLKCEEGWPVHYHEDEVNVG MHVKERYKNFLNQHVGPDMSVQRCNSEIGPNNRKITLSGTDNGCKPVNTFILANKRLIKTVCGRAGSPQGNMVRSNQPFPVVKCVLNNGERHPYCEYRGTRSTRYIVLKCEEGWPVHYHEDEVNVG 3ljl-a1-m1-cA_3ljl-a1-m1-cB The crystal structure of the full-length transcriptional regulator LuxT from Vibrio parahaemolyticus RIMD 2210633. Q87J33 Q87J33 3.2 X-RAY DIFFRACTION 56 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 144 144 SKEDTEITIQKIDAVVDQLLRLGYDKSYTTLSQQTGVSRTGISHHFPKKTDFTAALDGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK SKEDTEITIQKIDAVVDQLLRLGYDKSYTTLSQQTGVSRTGISHHFPKKTDFTAALDGRIFKFIEHLEFEKGLDAFSQSWIKALEDSEFLAILRLLFHHIVTSESAHEFAANGIDRLYKVESQFGSGGDKELEWLIGRSLIQSK 3ljq-a1-m1-cA_3ljq-a1-m1-cC Crystal Structure of the Glycosylasparaginase T152C apo-precursor Q47898 Q47898 1.9 X-RAY DIFFRACTION 126 1.0 238 (Elizabethkingia meningoseptica) 238 (Elizabethkingia meningoseptica) 281 288 1ayy-a1-m1-cB_1ayy-a1-m1-cD 2gac-a1-m1-cB_2gac-a1-m1-cD 2gaw-a1-m1-cB_2gaw-a1-m1-cD 2gl9-a1-m1-cB_2gl9-a1-m1-cD 4r4y-a1-m1-cB_4r4y-a1-m1-cA 5v2i-a1-m1-cB_5v2i-a1-m1-cA 6dey-a1-m1-cB_6dey-a1-m1-cD 6nq6-a1-m1-cB_6nq6-a1-m1-cD 9gaa-a3-m1-cA_9gaa-a3-m1-cC 9gac-a1-m1-cA_9gac-a1-m1-cC 9gaf-a1-m1-cA_9gaf-a1-m1-cC TNKPIVLSTWNFGLHANVEAWKVLSKGGKALDAVEKGVRLVEDDPTERSVGYGGRPDRDGRVTLDACIMDENYNIGSVACMEHIKNPISVARAVMEKTPHVMLVGDGALEFALSQGFKKENLLTAESEKEWKEWLKDCIGMIALDAQGNLSGACTTSGMAYKMHGRVGDSPIIGAGLFVDNEIGAATATGHGEEVIRTVGTHLVVELMNQGRTPQQACKEAVERIVKIVNRRGKNLKDIQVGFIALNKKGEYGAYCIQDGFNFAVHDQKGNRLETPGFALK SEPSTTNKPIVLSTWNFGLHANVEAWKVLSKGGKALDAVEKGVRLVEDDPTERSVGYGGRPDRDGRVTLDACIMDENYNIGSVACMEHIKNPISVARAVMEKTPHVMLVGDGALEFALSQGFKKENLLTAESEKEWKEWLKNHDCIGMIALDAQGNLSGACTTSGMAYKMHGRVGDSPIIGAGLFVDNEIGAATATGHGEEVIRTVGTHLVVELMNQGRTPQQACKEAVERIVKIVNRRGKNLKDIQVGFIALNKKGEYGAYCIQDGFNFAVHDQKGNRLETPGFALK 3ljs-a1-m2-cA_3ljs-a1-m1-cB Crystal structure of Fructokinase from Xylella fastidiosa Q87CC0 Q87CC0 1.97 X-RAY DIFFRACTION 41 0.997 183190 (Xylella fastidiosa Temecula1) 183190 (Xylella fastidiosa Temecula1) 303 315 3lki-a1-m2-cA_3lki-a1-m1-cB KKTILCFGEALIDLAQPLVKKGPRAFLQCAGGAPANVAVAVARLGGAVQFVGLGSDFGDFLFDSFAEAGVVTDGIVRTSTAKTALAFVALDAHGERSFSFYRPPAADLLFRVEHFQDASFSDALIFHACSNSTDADIAEVTFEGRRAQAAGAIVSFDLNFRPLWPNGENPASRLWKGLSLADVVKLSSEELDYLANTLAADANAVIQQLWQGRAQLLLVTDAAGPVHWYTRTAGGEVPTGDAFVGGLYTFAQQFDDAAALIDFCHDPESIVSTLRFAAAVGALAVAFTAPLSEVLSLIQEQSE LKKTILCFGEALIDLAQPLVKKGPRAFLQCAGGAPANVAVAVARLGGAVQFVGLGSDFGDFLFDSFAEAGVVTDGIVRTSTAKTALAFVALDAHGERSFSFYRPPAADLLFRVEHFQDASFSDALIFHACSNSTDADIAEVTFEGRRAQAAGAIVSFDLNFRPLWPNGENPASRLWKGLSLADVVKLSSEELDYLANTLAADANAVIQQLWQGRAQLLLVTDAAGPVHWYTRTAGGEVPTFRVQVNAAGDAFVGGLYTFAQQFDDAAALIDFCHDPESIVSTLRFAAAVGALAVTRQGAFTAPLSEVLSLIQEQS 3ljs-a2-m1-cA_3ljs-a2-m1-cB Crystal structure of Fructokinase from Xylella fastidiosa Q87CC0 Q87CC0 1.97 X-RAY DIFFRACTION 67 0.997 183190 (Xylella fastidiosa Temecula1) 183190 (Xylella fastidiosa Temecula1) 303 315 3lki-a2-m1-cA_3lki-a2-m1-cB KKTILCFGEALIDLAQPLVKKGPRAFLQCAGGAPANVAVAVARLGGAVQFVGLGSDFGDFLFDSFAEAGVVTDGIVRTSTAKTALAFVALDAHGERSFSFYRPPAADLLFRVEHFQDASFSDALIFHACSNSTDADIAEVTFEGRRAQAAGAIVSFDLNFRPLWPNGENPASRLWKGLSLADVVKLSSEELDYLANTLAADANAVIQQLWQGRAQLLLVTDAAGPVHWYTRTAGGEVPTGDAFVGGLYTFAQQFDDAAALIDFCHDPESIVSTLRFAAAVGALAVAFTAPLSEVLSLIQEQSE LKKTILCFGEALIDLAQPLVKKGPRAFLQCAGGAPANVAVAVARLGGAVQFVGLGSDFGDFLFDSFAEAGVVTDGIVRTSTAKTALAFVALDAHGERSFSFYRPPAADLLFRVEHFQDASFSDALIFHACSNSTDADIAEVTFEGRRAQAAGAIVSFDLNFRPLWPNGENPASRLWKGLSLADVVKLSSEELDYLANTLAADANAVIQQLWQGRAQLLLVTDAAGPVHWYTRTAGGEVPTFRVQVNAAGDAFVGGLYTFAQQFDDAAALIDFCHDPESIVSTLRFAAAVGALAVTRQGAFTAPLSEVLSLIQEQS 3lk5-a1-m1-cA_3lk5-a1-m2-cA Crystal structure of putative Geranylgeranyl pyrophosphate synthase from Corynebacterium glutamicum Q8NNM1 Q8NNM1 1.9 X-RAY DIFFRACTION 139 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 330 330 3qqv-a1-m1-cA_3qqv-a1-m2-cA SSFDAHDLDLDKFPEVVRDRLTQFLDAQELTIADIGAPVTDAVAHLRSFVLNGGKRIRPLYAWAGFLAAQGHKNSSEKLESVLDAAASLEFIQACALIHDDIIDSFGVSVSILAGDALVWAEDLQDSGLSAEALARTRDAWRGRTEVIGGQLLDIYLESHANESVELADSVNRFKTAAYTIARPLHLGASIAGGSPQLIDALLHYGHDIGIAFQLRDDLLGVFGDPAITGKPAGDDIREGKRTVLLALALQRADKQSPEAATAIRAGVGKVTSPEDIAVITEHIRATGAEEEVEQRISQLTESGLAHLDDVDIPDEVRAQLRALAIRSTE SSFDAHDLDLDKFPEVVRDRLTQFLDAQELTIADIGAPVTDAVAHLRSFVLNGGKRIRPLYAWAGFLAAQGHKNSSEKLESVLDAAASLEFIQACALIHDDIIDSFGVSVSILAGDALVWAEDLQDSGLSAEALARTRDAWRGRTEVIGGQLLDIYLESHANESVELADSVNRFKTAAYTIARPLHLGASIAGGSPQLIDALLHYGHDIGIAFQLRDDLLGVFGDPAITGKPAGDDIREGKRTVLLALALQRADKQSPEAATAIRAGVGKVTSPEDIAVITEHIRATGAEEEVEQRISQLTESGLAHLDDVDIPDEVRAQLRALAIRSTE 3lkb-a1-m1-cA_3lkb-a1-m1-cB Crystal structure of a branched chain amino acid ABC transporter from Thermus thermophilus with bound valine Q5SL42 Q5SL42 2.4 X-RAY DIFFRACTION 51 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 382 382 LGQQQVTLFWSGAITGPTSDAGAPYGAAVEDYCKWANERKLVPGVVFNCVVRDDQYNNANTQRFFEEAVDRFKIPVFLSYATGANLQLKPLIQELRIPTIPASMHIELIDPPNNDYIFLPTTSYSEQVVALLEYIAREKKGAKVALVVHPSPFGRAPVEDARKAARELGLQIVDVQEVGSGNLDNTALLKRFEQAGVEYVVHQNVAGPVANILKDAKRLGLKMRHLGAHYTGGPDLIALAGDAAEGFLWATSFYMAHEDTPGIRLQKEIGRKYGRPENFIESVNYTNGMLAAAIAVEAIRRAQERFKRITNETVYQAIVGMNGPNAFKPGFAVSTKQGVEIDFTKSEHTGAEGLRILEAKGGRFVPVTEPFTSALFRKVHYG LGQQQVTLFWSGAITGPTSDAGAPYGAAVEDYCKWANERKLVPGVVFNCVVRDDQYNNANTQRFFEEAVDRFKIPVFLSYATGANLQLKPLIQELRIPTIPASMHIELIDPPNNDYIFLPTTSYSEQVVALLEYIAREKKGAKVALVVHPSPFGRAPVEDARKAARELGLQIVDVQEVGSGNLDNTALLKRFEQAGVEYVVHQNVAGPVANILKDAKRLGLKMRHLGAHYTGGPDLIALAGDAAEGFLWATSFYMAHEDTPGIRLQKEIGRKYGRPENFIESVNYTNGMLAAAIAVEAIRRAQERFKRITNETVYQAIVGMNGPNAFKPGFAVSTKQGVEIDFTKSEHTGAEGLRILEAKGGRFVPVTEPFTSALFRKVHYG 3lke-a1-m1-cB_3lke-a1-m1-cC Crystal structure of enoyl-CoA hydratase from Bacillus halodurans Q9KBS5 Q9KBS5 1.7 X-RAY DIFFRACTION 68 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 251 252 3lke-a1-m1-cA_3lke-a1-m1-cC 3lke-a1-m1-cB_3lke-a1-m1-cA SYVHTEIQNDALYITLDYPEKKNGLDAELGTSLLEAIRAGNNETSIHSIILQSKHRAYFSSGPRLEDLLICASDQSDVRLREVLHVLNHCVLEIFTSPKVTVALINGYAYGGGFNMMLACDRRIALRRAKFLENFHKMGISPDLGASYFLPRIIGYEQTMNLLLEGKLFTSEEALRLGLIQEICENKQELQERVKNYLKAVSEGYVPAIAATKKLLKGKAAEELKQQLEQETEELVALFKQTEIKKRLEAL LSYVHTEIQNDALYITLDYPEKKNGLDAELGTSLLEAIRAGNNETSIHSIILQSKHRAYFSSGPRLEDLLICASDQSDVRLREVLHVLNHCVLEIFTSPKVTVALINGYAYGGGFNMMLACDRRIALRRAKFLENFHKMGISPDLGASYFLPRIIGYEQTMNLLLEGKLFTSEEALRLGLIQEICENKQELQERVKNYLKAVSEGYVPAIAATKKLLKGKAAEELKQQLEQETEELVALFKQTEIKKRLEAL 3lkl-a1-m2-cB_3lkl-a1-m1-cA Crystal structure of the C-terminal domain of Anti-Sigma factor antagonist STAS from Rhodobacter sphaeroides Q3HKG0 Q3HKG0 2.15 X-RAY DIFFRACTION 36 0.988 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 85 90 AFAVSSELARTYRVEGQLFYGSVEDFAAFDFREPLERVTIDVSRAHIWDISSVQALDAVLKFRREGAEVRIVGNEASETLVDRLA NAFAVSSELSACGRARTYRVEGQLFYGSVEDFAAFDFREPLERVTIDVSRAHIWDISSVQALDAVLKFRREGAEVRIVGNEASETLVDRL 3lkv-a1-m1-cA_3lkv-a1-m2-cA Crystal structure of conserved domain protein from vibrio cholerae o1 biovar eltor str. n16961 Q9KT04 Q9KT04 2.2 X-RAY DIFFRACTION 19 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 294 294 KTAKVAVSQIVEHPALDATRQGLLDGLKAKGYEEGKNLEFDYKTAQGNPAIAVQIARQFVGENPDVLVGIATPTAQALVSATKTIPIVFTAVTDPVGAKLVKQLEQPGKNVTGLSDLSPVEQHVELIKEILPNVKSIGVVYNPGEANAVSLELLKLSAAKHGIKLVEATALKSADVQSATQAIAEKSDVIYALIDNTVASAIEGIVAANQAKTPVFGAATSYVERGAIASLGFDYYQIGVQTADYVAAILEGKEPGSLDVQVAKGSDLVINKTAAEQLGITIPEAVLARATSTK KTAKVAVSQIVEHPALDATRQGLLDGLKAKGYEEGKNLEFDYKTAQGNPAIAVQIARQFVGENPDVLVGIATPTAQALVSATKTIPIVFTAVTDPVGAKLVKQLEQPGKNVTGLSDLSPVEQHVELIKEILPNVKSIGVVYNPGEANAVSLELLKLSAAKHGIKLVEATALKSADVQSATQAIAEKSDVIYALIDNTVASAIEGIVAANQAKTPVFGAATSYVERGAIASLGFDYYQIGVQTADYVAAILEGKEPGSLDVQVAKGSDLVINKTAAEQLGITIPEAVLARATSTK 3lkw-a1-m1-cA_3lkw-a1-m2-cA Crystal Structure of Dengue Virus 1 NS2B/NS3 protease active site mutant P17763 P17763 2 X-RAY DIFFRACTION 116 1.0 33741 (Dengue virus 1 Singapore/S275/1990) 33741 (Dengue virus 1 Singapore/S275/1990) 211 211 3l6p-a1-m1-cA_3l6p-a1-m2-cA HMADLSLEKAAEVSWEEEAEHSGASHNILVEVQDDGTMKIKVLWDTPSPGIYRILQRGLLGRSQVGVGVFQEGVFHTMWHVTRGAVLMYQGKRLEPSWASVKKDLISYGGGWRFQGSWNAGEEVQVIAVEPGKNPKNVQTAPGTFKTPEGEVGAIALDFKPGTAGSPIVNREGKIVGLYGNGVVTTSGTYVSAIAQAKASQEGPLPEIEDE HMADLSLEKAAEVSWEEEAEHSGASHNILVEVQDDGTMKIKVLWDTPSPGIYRILQRGLLGRSQVGVGVFQEGVFHTMWHVTRGAVLMYQGKRLEPSWASVKKDLISYGGGWRFQGSWNAGEEVQVIAVEPGKNPKNVQTAPGTFKTPEGEVGAIALDFKPGTAGSPIVNREGKIVGLYGNGVVTTSGTYVSAIAQAKASQEGPLPEIEDE 3lkw-a2-m1-cA_3lkw-a2-m5-cA Crystal Structure of Dengue Virus 1 NS2B/NS3 protease active site mutant P17763 P17763 2 X-RAY DIFFRACTION 13 1.0 33741 (Dengue virus 1 Singapore/S275/1990) 33741 (Dengue virus 1 Singapore/S275/1990) 211 211 3l6p-a2-m1-cA_3l6p-a2-m5-cA 3l6p-a2-m3-cA_3l6p-a2-m4-cA 3lkw-a2-m3-cA_3lkw-a2-m4-cA HMADLSLEKAAEVSWEEEAEHSGASHNILVEVQDDGTMKIKVLWDTPSPGIYRILQRGLLGRSQVGVGVFQEGVFHTMWHVTRGAVLMYQGKRLEPSWASVKKDLISYGGGWRFQGSWNAGEEVQVIAVEPGKNPKNVQTAPGTFKTPEGEVGAIALDFKPGTAGSPIVNREGKIVGLYGNGVVTTSGTYVSAIAQAKASQEGPLPEIEDE HMADLSLEKAAEVSWEEEAEHSGASHNILVEVQDDGTMKIKVLWDTPSPGIYRILQRGLLGRSQVGVGVFQEGVFHTMWHVTRGAVLMYQGKRLEPSWASVKKDLISYGGGWRFQGSWNAGEEVQVIAVEPGKNPKNVQTAPGTFKTPEGEVGAIALDFKPGTAGSPIVNREGKIVGLYGNGVVTTSGTYVSAIAQAKASQEGPLPEIEDE 3lkw-a2-m4-cA_3lkw-a2-m5-cA Crystal Structure of Dengue Virus 1 NS2B/NS3 protease active site mutant P17763 P17763 2 X-RAY DIFFRACTION 51 1.0 33741 (Dengue virus 1 Singapore/S275/1990) 33741 (Dengue virus 1 Singapore/S275/1990) 211 211 3l6p-a2-m1-cA_3l6p-a2-m3-cA 3l6p-a2-m4-cA_3l6p-a2-m5-cA 3lkw-a2-m1-cA_3lkw-a2-m3-cA HMADLSLEKAAEVSWEEEAEHSGASHNILVEVQDDGTMKIKVLWDTPSPGIYRILQRGLLGRSQVGVGVFQEGVFHTMWHVTRGAVLMYQGKRLEPSWASVKKDLISYGGGWRFQGSWNAGEEVQVIAVEPGKNPKNVQTAPGTFKTPEGEVGAIALDFKPGTAGSPIVNREGKIVGLYGNGVVTTSGTYVSAIAQAKASQEGPLPEIEDE HMADLSLEKAAEVSWEEEAEHSGASHNILVEVQDDGTMKIKVLWDTPSPGIYRILQRGLLGRSQVGVGVFQEGVFHTMWHVTRGAVLMYQGKRLEPSWASVKKDLISYGGGWRFQGSWNAGEEVQVIAVEPGKNPKNVQTAPGTFKTPEGEVGAIALDFKPGTAGSPIVNREGKIVGLYGNGVVTTSGTYVSAIAQAKASQEGPLPEIEDE 3ll3-a1-m1-cB_3ll3-a1-m1-cA The crystal structure of ligand bound xylulose kinase from Lactobacillus acidophilus Q5FM28 Q5FM28 2.002 X-RAY DIFFRACTION 87 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 480 482 3gbt-a2-m1-cA_3gbt-a2-m2-cA LKYIIGDVGTTATKGVLYDINGKAVASVSKGYPLIQTKVGQAEEDPKLIFDAVQEIIFDLTQKIDGKIAAISWSSQHSLIGLGSDDELLTNSITWADNCAKSIVQDAKNRGFAQQIYRKTGPHPAPIYKLLWLKNKKTEVFSQAQKWIGIKEYIIFRLTGKLVTDTTAAGTGILNLKTLTWDQELLDILKIKKEQLPKIAQPTKVIFPIKTEYVKKLGIDSDTKIILGASDGYLSTIGVNAIDSDHCALNVGTSGAIRTIVDQPKIDPSASYFCYPADKTHYLLGGPVNNGGIVFNWARQTLFADETPQDFLDVAQTAPAGSRNLIFLPYLGGERAPIWDANARGSFVGLTRHQKPEARAVIEGIIFNLYDAASNLIKNTKKPVAINATGGFLKSDFVRQLCANIFNVPIVTKEQQSGTLAAFLARQALGLNQDLSEIGQFAQADKVYFPNPKEAATYQKLFPLYCEIRNALAASYGKFS SLKYIIGDVGTTATKGVLYDINGKAVASVSKGYPLIQTKVGQAEEDPKLIFDAVQEIIFDLTQKIDGKIAAISWSSQHSLIGLGSDDELLTNSITWADNCAKSIVQDAKNRGFAQQIYRKTGPHPAPIYKLLWLKNKKTEVFSQAQKWIGIKEYIIFRLTGKLVTDTTAAGTGILNLKTLTWDQELLDILKIKKEQLPKIAQPTKVIFPIKTEYVKKLGIDSDTKIILGASDGYLSTIGVNAIDSDHCALNVGTSGAIRTIVDQPKIDPSASYFCYPADKTHYLLGGPVNNGGIVFNWARQTLFDADETPQDFLDVAQTAPAGSRNLIFLPYLGGERAPIWDANARGSFVGLTRHQKPEARAVIEGIIFNLYDAASNLIKNTKKPVAINATGGFLKSDFVRQLCANIFNVPIVTKEQQSGTLAAFLARQALGLNQDLSEIGQFAQADKVYFPNPKEAATYQKLFPLYCEIRNALAASYGKFS 3ll5-a2-m1-cB_3ll5-a2-m1-cD Crystal structure of T. acidophilum isopentenyl phosphate kinase product complex Q9HLX1 Q9HLX1 1.987 X-RAY DIFFRACTION 94 0.995 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 222 222 3lkk-a1-m1-cA_3lkk-a1-m1-cB 3ll5-a1-m1-cA_3ll5-a1-m1-cC TILKIGGSVITDKSAYRTARTYAIRSIVKVLSGIEDLVCVVHGGGSFGHIKAEFGLPGPKNPRSSIGYSIVHRDENLDLVIDAIEGRPISVPISALRYDGRFDYTPLIRYIDAGFVPVSYGDVYIKDEHSYGIYSGDDIADAELLKPDVAVFLTDVDGIYSKDPKRNPDAVLLRDIDTNGIGKKFESVKKSSVKNGVYLINGNHPERIGDIGKESFIGTVIR FTILKIGGSVITDKSAYRTARTYAIRSIVKVLSGIEDLVCVVHGGGSFGHIKAEFGLPGPKNPRSSIGYSIVHRDENLDLVIDAIEGRPISVPISALRYDGRFDYTPLIRYIDAGFVPVSYGDVYIKDEHSYGIYSGDDIADAELLKPDVAVFLTDVDGIYSKDPKRNPDAVLLRDIDTNIGKKFESVKKSSVKNGVYLINGNHPERIGDIGKESFIGTVIR 3ll8-a3-m1-cA_3ll8-a3-m1-cC Crystal Structure of Calcineurin in Complex with AKAP79 Peptide Q08209 Q08209 2 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 357 357 TDRVVKAVPFPPSHRLTAKEVFDNDGKPRVDILKAHLMKEGRLEESVALRIITEGASILRQEKNLLDIDAPVTVCGDIHGQFFDLMKLFEVGGSPANTRYLFLGDYVDRGYFSIECVLYLWALKILYPKTLFLLRGNHECRHLTEYFTFKQECKIKYSERVYDACMDAFDCLPLAALMNQQFLCVHGGLSPEINTLDDIRKLDRFKEPPAYGPMCDILWSDPLEDFGNEKTQEHFTHNTVRGCSYFYSYPAVCEFLQHNNLLSILRAHEAQDAGYRMYRKSQTTGFPSLITIFSAPNYLDVYNNKAAVLKYENNVMNIRQFNCSPHPYWLPNFMDVFTWSLPFVGEKVTEMLVNVLN TDRVVKAVPFPPSHRLTAKEVFDNDGKPRVDILKAHLMKEGRLEESVALRIITEGASILRQEKNLLDIDAPVTVCGDIHGQFFDLMKLFEVGGSPANTRYLFLGDYVDRGYFSIECVLYLWALKILYPKTLFLLRGNHECRHLTEYFTFKQECKIKYSERVYDACMDAFDCLPLAALMNQQFLCVHGGLSPEINTLDDIRKLDRFKEPPAYGPMCDILWSDPLEDFGNEKTQEHFTHNTVRGCSYFYSYPAVCEFLQHNNLLSILRAHEAQDAGYRMYRKSQTTGFPSLITIFSAPNYLDVYNNKAAVLKYENNVMNIRQFNCSPHPYWLPNFMDVFTWSLPFVGEKVTEMLVNVLN 3ll9-a1-m1-cA_3ll9-a1-m1-cB X-ray structures of isopentenyl phosphate kinase O26153 O26153 2.148 X-RAY DIFFRACTION 98 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 238 243 HIILKLGGSVITRKDSEEPAIDRDNLERIASEIGNASPSSLIVHGAGSFGHPFAGEYRIGSEIENEEDLRRRRFGFALTQNWVKKLNSHVCDALLAEGIPAVSQPSAFIRAHAGRISHADISLIRSYLEEGVPVVYGDVVLDSDRRLKFSVISGDQLINHFSLRLPERVILGTDVDGVYTRNPKKHPDARLLDVIGVGKIRELLLLAEKGVESEIINAAVPGNIERALLGEEVRGTRI HIILKLGGSVITRKDSEEPAIDRDNLERIASEIGNASPSSLIVHGAGSFGHPFAGEYRIGSEIENEEDLRRRRFGFALTQNWVKKLNSHVCDALLAEGIPAVSQPSAFIRAHAGRISHADISLIRSYLEEGVPVVYGDVVLDSDRRLKFSVISGDQLINHFSLRLPERVILGTDVDGVYTRNPKKHPDARLLDVIGSLDGVGKIRELLLLAEKGVESEIINAAVPGNIERALLGEEVRGTRIT 3lll-a1-m1-cA_3lll-a1-m1-cB Crystal structure of mouse pacsin2 F-BAR domain Q9WVE8 Q9WVE8 3.3 X-RAY DIFFRACTION 235 1.0 10090 (Mus musculus) 10090 (Mus musculus) 287 287 3haj-a1-m1-cB_3haj-a1-m1-cA 4bne-a1-m1-cB_4bne-a1-m1-cA DSFWEVGNYKRTVKRIDDGHRLCGDLMNCLHERARIEKAYAQQLTEWARRWRQLVEKGPQYGTVEKAWIAVMSEAERVSELHLEVKASLMNEDFEKIKNWQKEAFHKQMMGGFKETKEAEDGFRKAQKPWAKKLKEVEAAKKAHHTACKEEKLAISREANSKADPSLNPEQLKKLQDKIEKCKQDVLKTKDKYEKSLKELDQTTPQYMENMEQVFEQCQQFEEKRLRFFREVLLEVQKHLDLSNVASYKTIYRELEQSIKAADAVEDLRWFRANHGPGMAMNWPQFE DSFWEVGNYKRTVKRIDDGHRLCGDLMNCLHERARIEKAYAQQLTEWARRWRQLVEKGPQYGTVEKAWIAVMSEAERVSELHLEVKASLMNEDFEKIKNWQKEAFHKQMMGGFKETKEAEDGFRKAQKPWAKKLKEVEAAKKAHHTACKEEKLAISREANSKADPSLNPEQLKKLQDKIEKCKQDVLKTKDKYEKSLKELDQTTPQYMENMEQVFEQCQQFEEKRLRFFREVLLEVQKHLDLSNVASYKTIYRELEQSIKAADAVEDLRWFRANHGPGMAMNWPQFE 3llm-a1-m1-cA_3llm-a1-m1-cB Crystal Structure Analysis of a RNA Helicase Q08211 Q08211 2.8 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 VVPWSPPQSNWNPWTSSNIDEGPLAFATPEQISDLKNELYQLEQDHDLQAILQERELLPVKKFESEILEAISQNSVVIIRGATGCGKTTQVPQFILDDFIQNDRAAECNIVVTQPRRISAVSVAERVAFERGEEPGKSCGYSVRFESILPRPHASIFCTVGVLLRKLEAGIRGISHVIVDEIHERDINTDFLLVVLRDVVQAYPEVRIVLSATIDTSFCEYFFNCPIIEV VVPWSPPQSNWNPWTSSNIDEGPLAFATPEQISDLKNELYQLEQDHDLQAILQERELLPVKKFESEILEAISQNSVVIIRGATGCGKTTQVPQFILDDFIQNDRAAECNIVVTQPRRISAVSVAERVAFERGEEPGKSCGYSVRFESILPRPHASIFCTVGVLLRKLEAGIRGISHVIVDEIHERDINTDFLLVVLRDVVQAYPEVRIVLSATIDTSFCEYFFNCPIIEV 3llq-a1-m2-cA_3llq-a1-m2-cB Aquaporin structure from plant pathogen Agrobacterium Tumerfaciens Q8UJW4 Q8UJW4 2.01 X-RAY DIFFRACTION 126 0.996 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 228 233 3llq-a1-m1-cA_3llq-a1-m1-cB 3llq-a1-m1-cA_3llq-a1-m2-cB 3llq-a1-m2-cA_3llq-a1-m1-cB MGRKLLAEFFGTFWLVFGGCGSAVFAAAFPELGIGFTGVALAFGLTVLTMAYAVGGISGGHFNPAVSVGLTVAGRFPASSLVPYVIAQVAGAIVAAAALYVIATGKAGIDLGGFASNGYGEHSPGGYSLVSALLIEIILTAFFLIVILGSTHGRVPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTGQALFVGGWALQQLWLFWLAPIVGGAAGAVIWKLFGEKD YFQSYVMGRKLLAEFFGTFWLVFGGCGSAVFAAAFPELGIGFTGVALAFGLTVLTMAYAVGGISGGHFNPAVSVGLTVAGRFPASSLVPYVIAQVAGAIVAAAALYVIATGKAGIDLGGFASNGYGEHSPGGYSLVSALLIEIILTAFFLIVILGSTHGRVPAGFAPIAIGLALTLIHLISIPVTNTSVNPARSTGQALFVGGWALQQLWLFWLAPIVGGAAGAVIWKLFGEK 3llu-a1-m2-cA_3llu-a1-m4-cA Crystal structure of the nucleotide-binding domain of Ras-related GTP-binding protein C Q9HB90 Q9HB90 1.4 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 177 3llu-a1-m1-cA_3llu-a1-m3-cA 3llu-a1-m1-cA_3llu-a1-m4-cA 3llu-a1-m2-cA_3llu-a1-m3-cA KPRILLMGLRRSGKSSIQKVVFHKMSPNETLFLESTNKIYKDDISNSSFVNFQIWDFPGQMDFFDPTFDYEMIFRGTGALIYVIDAQDDYMEALTRLHITVSKAYKVNPDMNFEVFIHKVDGLSDDHKIETQRDIHQRANDDLADAGLEKLHLSFYLTSIYDHSIFEAFSKVVQKLI KPRILLMGLRRSGKSSIQKVVFHKMSPNETLFLESTNKIYKDDISNSSFVNFQIWDFPGQMDFFDPTFDYEMIFRGTGALIYVIDAQDDYMEALTRLHITVSKAYKVNPDMNFEVFIHKVDGLSDDHKIETQRDIHQRANDDLADAGLEKLHLSFYLTSIYDHSIFEAFSKVVQKLI 3llv-a2-m1-cA_3llv-a2-m2-cA The Crystal Structure of the NAD(P)-binding domain of an Exopolyphosphatase-related protein from Archaeoglobus fulgidus to 1.7A O28250 O28250 1.7 X-RAY DIFFRACTION 84 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 131 131 RYEYIVIGSEAAGVGLVRELTAAGKKVLAVDKSKEKIELLEDEGFDAVIADPTDESFYRSLDLEGVSAVLITGSDDEFNLKILKALRSVSDVYAIVRVSSPKKKEEFEEAGANLVVLVADAVKQAFDKIKK RYEYIVIGSEAAGVGLVRELTAAGKKVLAVDKSKEKIELLEDEGFDAVIADPTDESFYRSLDLEGVSAVLITGSDDEFNLKILKALRSVSDVYAIVRVSSPKKKEEFEEAGANLVVLVADAVKQAFDKIKK 3llw-a2-m1-cC_3llw-a2-m1-cD Crystal structure of geranyltransferase from helicobacter pylori 26695 O25583 O25583 2.3 X-RAY DIFFRACTION 157 0.993 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 286 289 3llw-a1-m1-cA_3llw-a1-m1-cB 3q1o-a1-m1-cA_3q1o-a1-m2-cA 3q1o-a2-m1-cB_3q1o-a2-m3-cB 3q1o-a3-m1-cD_3q1o-a3-m1-cC SLSSPNLSFYYNECERFESFLKNHHLHLESFHPYLEKAFFEMVLNGGKRFRPKLFLAVLCALVGQKDYSNQQTEYFKIALSIECLHTYSLIHDDLPCMDNAALRRNHPTLHAKYDETTAVLIGDALNTYSFELLSNALLESHIIVELIKILSANGGIKGMILGQALDCYFENTPLNLEQLTFLHEHKTAKLISASLIMGLVASGIKDEELFKWLQAFGLKMGLCFQVLDDIIDVTKNSFVNLLGLERANNYAQTLKTEVLNDLDALKPAYPLLQENLNALLNTLFK SSPNLSFYYNECERFESFLKNHHLHLESFHPYLEKAFFEMVLNGGKRFRPKLFLAVLCALVGQKDYSNQQTEYFKIALSIECLHTYSLIHDDLPCMDNAALRRNHPTLHAKYDETTAVLIGDALNTYSFELLSNALLESHIIVELIKILSANGGIKGMILGQALDCYFENTPLNLEQLTFLHEHKTAKLISASLIMGLVASGIKDEELFKWLQAFGLKMGLCFQVLDDIIDVTQLDSAKNSFVNLLGLERANNYAQTLKTEVLNDLDALKPAYPLLQENLNALLNTLFK 3llx-a1-m1-cA_3llx-a1-m2-cA Crystal structure of an ala racemase-like protein (il1761) from idiomarina loihiensis at 1.50 A resolution Q5QX87 Q5QX87 1.5 X-RAY DIFFRACTION 128 1.0 283942 (Idiomarina loihiensis L2TR) 283942 (Idiomarina loihiensis L2TR) 365 365 SAPDWIAHPDTPYLLIDEAKLKSNINYLKQRVESLGSHLRPHLTLRTLEAAGYLLDSKSAPATVSTLAEAEAYAKAGYTDLLYAVGIAPAKLKRVAALRQQGINLHILLDNITQAQAVVDYAAEFGQDFSVFIEIDSDDHRGGIKPSDSKLLTIAKTLGEHFTGLTHAGGSYACNTEQGLKNFAKQECDAVRIARNNLETAGIHCAITSVGSTPTAHFGEDFSDISEVRAGVYTTFDLVKNIGVCDFSHIASVVTTVIGHNKEKNWLLTDSGWALSRDSGTAGQNRDFGYGQVCKIDGSVLDGLCVNSTSQEHGVIELSDAYQLEDFPVGHQLRIPNHACATAAHPVYHVLSDGSHNTWQRITGW SAPDWIAHPDTPYLLIDEAKLKSNINYLKQRVESLGSHLRPHLTLRTLEAAGYLLDSKSAPATVSTLAEAEAYAKAGYTDLLYAVGIAPAKLKRVAALRQQGINLHILLDNITQAQAVVDYAAEFGQDFSVFIEIDSDDHRGGIKPSDSKLLTIAKTLGEHFTGLTHAGGSYACNTEQGLKNFAKQECDAVRIARNNLETAGIHCAITSVGSTPTAHFGEDFSDISEVRAGVYTTFDLVKNIGVCDFSHIASVVTTVIGHNKEKNWLLTDSGWALSRDSGTAGQNRDFGYGQVCKIDGSVLDGLCVNSTSQEHGVIELSDAYQLEDFPVGHQLRIPNHACATAAHPVYHVLSDGSHNTWQRITGW 3lm2-a1-m1-cB_3lm2-a1-m1-cA Crystal structure of Putative kinase. (17743352) from AGROBACTERIUM TUMEFACIENS str. C58 (Dupont) at 1.70 A resolution A9CH74 A9CH74 1.7 X-RAY DIFFRACTION 54 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 212 214 DQTVLAIDIGGSHVKIGLSTDGEERKVESGKTTGPEVAAVTAAKDTYDVIAGYPGPVVHNKPLREPVNLGEGWVGYDYEGAFGRPVRIVNDALQAIGSYNGGRLFLGLGTGLGAAIVENVAQPEIAHLPYRKGKTYEHYVSEAYREKKGNAKWQKRVQDVVERLSAALEPDEVVIGGGNVERLENLPPKCRRGDNAAFEGGFRLWKNADLIV AEDQTVLAIDIGGSHVKIGLSTDGEERKVESGKTTGPEVAAVTAAKDTYDVIAGYPGPVVHNKPLREPVNLGEGWVGYDYEGAFGRPVRIVNDALQAIGSYNGGRLFLGLGTGLGAAIVENVAQPEIAHLPYRKGKTYEHYVSEAYREKKGNAKWQKRVQDVVERLSAALEPDEVVIGGGNVERLENLPPKCRRGDNAAFEGGFRLWKNADLIV 3lm6-a1-m1-cB_3lm6-a1-m1-cA Crystal Structure of Stage V sporulation protein AD (spoVAD) from Bacillus subtilis, Northeast Structural Genomics Consortium Target SR525 P40869 P40869 2.5 X-RAY DIFFRACTION 136 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 313 325 KLTGKQTWVFEHPIFVNSAGTAAGPKEKDGPLGSLFDKTYDEHCNQKSWEAERQLEDAVNVALQKNNLTKDDIDLLLAGDLLNQNVTANYVARHLKIPFLCFGACSTSETVAVASALVDGGFAKRALAATSSHNATAERPDTATSTVTGSGAVVISQTPGDIQITSATVGKVSDLGITDPFDGSAAPAAADTIKQHFKDLNRTADDYDLILTGDLSGVGSPIVKDILKEDGYPVGTKHDDCGLLIYTPDQQVFAGGSGCACSAVVTYSHIFKQLREGKLNRVFVVATGALLSPTIQQKETIPTIAHGVVFERA KLTGKQTWVFEHPIFVNSAGTAAGPKEKDGPLGSLFDKTYDEHCNQKSWEAERQLEDAVNVALQKNNLTKDDIDLLLAGDLLNQNVTANYVARHLKIPFLCFGACSTSETVAVASALVDGGFAKRALAATSSHNATAERQFRYPTEYGGQKPDTATSTVTGSGAVVISQTPGDIQITSATVGKVSDLGITDPFDGSAAPAAADTIKQHFKDLNRTADDYDLILTGDLSGVGSPIVKDILKEDGYPVGTKHDDCGLLIYTPDQQVFAGGSGCACSAVVTYSHIFKQLREGKLNRVFVVATGALLSPTIQQKETIPTIAHGVVFERA 3lm7-a1-m1-cB_3lm7-a1-m1-cA Crystal Structure of DUF1341 representative, from Yersinia enterocolitica subsp. enterocolitica 8081 A1JRF3 A1JRF3 1.9 X-RAY DIFFRACTION 28 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 240 243 KLTPNYYRDRVCLNVLAGSKDNARAIYQAAEGHVLVGVLSKNYPDVDSAVKDREYAALIDNALSVGLGAGDPRQSVVSQISQQVQPQHVNQVFTGVGASRALLGQHDTVVNGLISPTGKVGYVKISTGPLSSQQKDAIVPVTTAIALKDGGSSVKFFPNGLDSIDEYRFVAEACAATGFWLEPTGGIDLDNFEQIVQIALDAGVTKVIPHIYSSIIDSKTGNTRPEDVKTLLDIVKKIVQ SNAKLTPNYYRDRVCLNVLAGSKDNARAIYQAAEGHVLVGVLSKNYPDVDSAVKDREYAALIDNALSVGLGAGDPRQSVVSQISQQVQPQHVNQVFTGVGASRALLGQHDTVVNGLISPTGKVGYVKISTGPLSSQQKDAIVPVTTAIALKDGGSSVKFFPNGLDSIDEYRFVAEACAATGFWLEPTGGIDLDNFEQIVQIALDAGVTKVIPHIYSSIIDSKTGNTRPEDVKTLLDIVKKIVQ 3lm7-a2-m2-cB_3lm7-a2-m1-cA Crystal Structure of DUF1341 representative, from Yersinia enterocolitica subsp. enterocolitica 8081 A1JRF3 A1JRF3 1.9 X-RAY DIFFRACTION 87 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 240 243 KLTPNYYRDRVCLNVLAGSKDNARAIYQAAEGHVLVGVLSKNYPDVDSAVKDREYAALIDNALSVGLGAGDPRQSVVSQISQQVQPQHVNQVFTGVGASRALLGQHDTVVNGLISPTGKVGYVKISTGPLSSQQKDAIVPVTTAIALKDGGSSVKFFPNGLDSIDEYRFVAEACAATGFWLEPTGGIDLDNFEQIVQIALDAGVTKVIPHIYSSIIDSKTGNTRPEDVKTLLDIVKKIVQ SNAKLTPNYYRDRVCLNVLAGSKDNARAIYQAAEGHVLVGVLSKNYPDVDSAVKDREYAALIDNALSVGLGAGDPRQSVVSQISQQVQPQHVNQVFTGVGASRALLGQHDTVVNGLISPTGKVGYVKISTGPLSSQQKDAIVPVTTAIALKDGGSSVKFFPNGLDSIDEYRFVAEACAATGFWLEPTGGIDLDNFEQIVQIALDAGVTKVIPHIYSSIIDSKTGNTRPEDVKTLLDIVKKIVQ 3lm8-a6-m1-cD_3lm8-a6-m1-cB Crystal Structure of Thiamine pyrophosphokinase from Bacillus subtilis, Northeast Structural Genomics Consortium Target SR677 O34664 O34664 2.6 X-RAY DIFFRACTION 103 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 210 212 3lm8-a5-m1-cC_3lm8-a5-m1-cA KTINIVAGGPKNLIPDLTGYTDEHTLWIGVDKGTVTLLDAGIIPVEAFGDFDSITEQERRRIEKAAPALHVYQADQTDLDLALDWALEKQPDIIQIFGITGGRADHFLGNIQLLYKGVKTNIKIRLIDKQNHIQFPPGEYDIEKDENKRYISFIPFSEDIHELTLTGFKYPLNNCHITLGSTLCISNELIHSRGTFSFVKGILIIRSTDL KTINIVAGGPKNLIPDLTGYTDEHTLWIGVDKGTVTLLDAGIIPVEAFGDFDSITEQERRRIEKAAPALHVYQAEKDQTDLDLALDWALEKQPDIIQIFGITGGRADHFLGNIQLLYKGVKTNIKIRLIDKQNHIQFPPGEYDIEKDENKRYISFIPFSEDIHELTLTGFKYPLNNCHITLGSTLCISNELIHSRGTFSFVKGILIIRSTDL 3lma-a2-m1-cB_3lma-a2-m1-cC Crystal structure of the stage V sporulation protein AD (SpoVAD) from Bacillus licheniformis. Northeast Structural Genomics Consortium Target BiR6. Q65HU8 Q65HU8 1.993 X-RAY DIFFRACTION 160 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 303 319 3lma-a1-m1-cA_3lma-a1-m1-cD KLTGKQTWEFENPLFVNSSGTAVGPKEKEGPLGHLFDKSYDEHCNQKNWEAERKLEDAVQSALSKQNLKKEDIDIFLAGDLLNQNVTANYVARHLKIPFLCLFGACSTSESIAISSALIDGGFAKRALAATSSHNATAERQFRYTVTGSGAVVLSQQPGGIKITSATVGRVIDLGITDSQDGSAAPAAADTIKQHLEDLGRTPDDYDLILTGDLSGVGSPILKDLLKEEGINVGTKHNDCGLIYTPDCACSAVVTFAHIFKEIEAGRLNRVLVVATGALLSPTIIQQKESIPCIAHGVVFERA KLTGKQTWEFENPLFVNSSGTAVGPKEKEGPLGHLFDKSYDEHCNQKNWEAERKLEDAVQSALSKQNLKKEDIDIFLAGDLLNQNVTANYVARHLKIPFLCLFGACSTSESIAISSALIDGGFAKRALAATSSHNATAERQFRYPTEYGGQKPGTATSTVTGSGAVVLSQQPGGIKITSATVGRVIDLGITDSQDGSAAPAAADTIKQHLEDLGRTPDDYDLILTGDLSGVGSPILKDLLKEEGINVGTKHNDCGLIYTPDSGCACSAVVTFAHIFKEIEAGRLNRVLVVATGALLSPTIIQQKESIPCIAHGVVFERA 3lmb-a1-m1-cA_3lmb-a1-m1-cB The crystal structure of the protein OLEI01261 with unknown function from Chlorobaculum tepidum TLS 2.1 X-RAY DIFFRACTION 83 1.0 698738 (Oleispira antarctica RB-8) 698738 (Oleispira antarctica RB-8) 158 158 NASLTPDQVSKKLKQFFSDHLPISQFGLEIESYDGDTLILTAPLEPNINDKQTAFGGSLYNAAVACWGVYLKTQEENIACNQVVTEGNKYIAPVYGRIRAICHAPDEEELANFFDHFERKGKARISLEAAIYNDACVKIEPETKPSVKFNGQYAILKN NASLTPDQVSKKLKQFFSDHLPISQFGLEIESYDGDTLILTAPLEPNINDKQTAFGGSLYNAAVACWGVYLKTQEENIACNQVVTEGNKYIAPVYGRIRAICHAPDEEELANFFDHFERKGKARISLEAAIYNDACVKIEPETKPSVKFNGQYAILKN 3lme-a4-m1-cJ_3lme-a4-m1-cK Structure of probable translation initiation inhibitor from (RPA2473) from Rhodopseudomonas palustris Q6N6Z0 Q6N6Z0 2.74 X-RAY DIFFRACTION 80 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 129 129 3lme-a1-m1-cA_3lme-a1-m1-cB 3lme-a1-m1-cC_3lme-a1-m1-cA 3lme-a1-m1-cC_3lme-a1-m1-cB 3lme-a2-m1-cD_3lme-a2-m1-cE 3lme-a2-m1-cF_3lme-a2-m1-cD 3lme-a2-m1-cF_3lme-a2-m1-cE 3lme-a3-m1-cG_3lme-a3-m1-cH 3lme-a3-m1-cI_3lme-a3-m1-cG 3lme-a3-m1-cI_3lme-a3-m1-cH 3lme-a4-m1-cL_3lme-a4-m1-cJ 3lme-a4-m1-cL_3lme-a4-m1-cK SLKIIAPTDKTITPSGTWSIGARAGDFVFIGGMHGTDRVTGKMVDGDEARIRRMFDNMLAAAEAAGATKADAVRLTVFVTDVAKYRPVVNKVQKDIWGDGPYPPRTVLQVPALDQGDIAEIDGTFYAPA SLKIIAPTDKTITPSGTWSIGARAGDFVFIGGMHGTDRVTGKMVDGDEARIRRMFDNMLAAAEAAGATKADAVRLTVFVTDVAKYRPVVNKVQKDIWGDGPYPPRTVLQVPALDQGDIAEIDGTFYAPA 3lmf-a1-m1-cA_3lmf-a1-m4-cA Crystal Structure of Nmul_A1745 protein from Nitrosospira multiformis, Northeast Structural Genomics Consortium Target NmR72 Q2Y879 Q2Y879 2.3 X-RAY DIFFRACTION 48 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 102 102 3lmf-a1-m2-cA_3lmf-a1-m3-cA TDQNLQACIDACNHCYRTCLRANHCLEAGGKHVEADHLRLNCAEICQTSLNFLSGSRFSPKVCGVCAEICDACAKSCEQLDGEECVQTCRQCAEHCRKAALE TDQNLQACIDACNHCYRTCLRANHCLEAGGKHVEADHLRLNCAEICQTSLNFLSGSRFSPKVCGVCAEICDACAKSCEQLDGEECVQTCRQCAEHCRKAALE 3lmf-a1-m2-cA_3lmf-a1-m4-cA Crystal Structure of Nmul_A1745 protein from Nitrosospira multiformis, Northeast Structural Genomics Consortium Target NmR72 Q2Y879 Q2Y879 2.3 X-RAY DIFFRACTION 22 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 102 102 3lmf-a1-m1-cA_3lmf-a1-m3-cA TDQNLQACIDACNHCYRTCLRANHCLEAGGKHVEADHLRLNCAEICQTSLNFLSGSRFSPKVCGVCAEICDACAKSCEQLDGEECVQTCRQCAEHCRKAALE TDQNLQACIDACNHCYRTCLRANHCLEAGGKHVEADHLRLNCAEICQTSLNFLSGSRFSPKVCGVCAEICDACAKSCEQLDGEECVQTCRQCAEHCRKAALE 3lmf-a1-m3-cA_3lmf-a1-m4-cA Crystal Structure of Nmul_A1745 protein from Nitrosospira multiformis, Northeast Structural Genomics Consortium Target NmR72 Q2Y879 Q2Y879 2.3 X-RAY DIFFRACTION 13 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 102 102 3lmf-a1-m1-cA_3lmf-a1-m2-cA TDQNLQACIDACNHCYRTCLRANHCLEAGGKHVEADHLRLNCAEICQTSLNFLSGSRFSPKVCGVCAEICDACAKSCEQLDGEECVQTCRQCAEHCRKAALE TDQNLQACIDACNHCYRTCLRANHCLEAGGKHVEADHLRLNCAEICQTSLNFLSGSRFSPKVCGVCAEICDACAKSCEQLDGEECVQTCRQCAEHCRKAALE 3lmk-a1-m1-cA_3lmk-a1-m1-cB Ligand Binding Domain of Metabotropoc glutamate receptor mGluR5 complexed with glutamate P41594 P41594 2.44 X-RAY DIFFRACTION 29 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 438 439 6n51-a1-m1-cA_6n51-a1-m1-cB 7fd8-a1-m1-cA_7fd8-a1-m1-cB RRVVAHMPGDIIIGALFSVHHQPTVDKVHERKCGAVREQYGIQRVEAMLHTLERINSDPTLLPNITLGCEIRDSCWHSAVALEQSIEFIRDKPIVGVIGPGSSSVAIQVQNLLQLFNIPQIAYSATSMDLSDKTLFKYFMRVVPSDAQQARAMVDIVKRYNWTYVSAVHTEGNYGESGMEAFKDMSAKEGISIAHSYKIYSNAGEQSFDKLLKKLTSHLPKARVVACFCEGMTVRGLLMAMRRLGLAGEFLLLGSDGWADRYDVTDGYQREAVGGITIKLQSPDVKWFDDYYLKLRPETNHRNPWFQEFWQHRFQCRLEGNKTCNSSLTLKTHHVQDSKMGFVINAIYSMAYGLHNMQMSLCPGYAGLCDAMKPIDGRKLLESLMKTNFTGVSGDTILFDENGDSPGRYEIMNFKEMGKDYFDYINVGSWDNGELKMD RVVAHMPGDIIIGALFSVHHQPTVDKVHERKCGAVREQYGIQRVEAMLHTLERINSDPTLLPNITLGCEIRDSCWHSAVALEQSIEFIRDKPIVGVIGPGSSSVAIQVQNLLQLFNIPQIAYSATSMDLSDKTLFKYFMRVVPSDAQQARAMVDIVKRYNWTYVSAVHTEGNYGESGMEAFKDMSAKEGISIAHSYKIYSNAGEQSFDKLLKKLTSHLPKARVVACFCEGMTVRGLLMAMRRLGLAGEFLLLGSDGWADRYDVTDGYQREAVGGITIKLQSPDVKWFDDYYLKLRPETNHRNPWFQEFWQHRFQCRLEGKYNKTCNSSLTLKTHHVQDSKMGFVINAIYSMAYGLHNMQMSLCPGYAGLCDAMKPIDGRKLLESLMKTNFTGVSGDTILFDENGDSPGRYEIMNFKEMGKDYFDYINVGSWDNGELKMD 3lmn-a1-m1-cA_3lmn-a1-m4-cA Oligomeric structure of the DUSP domain of human USP15 Q9Y4E8 Q9Y4E8 2.15 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 132 3lmn-a1-m2-cA_3lmn-a1-m3-cA AEGGAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGDAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL AEGGAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGDAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL 3lmn-a2-m3-cB_3lmn-a2-m3-cA Oligomeric structure of the DUSP domain of human USP15 Q9Y4E8 Q9Y4E8 2.15 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 132 3lmn-a1-m1-cB_3lmn-a1-m1-cA 3lmn-a1-m2-cB_3lmn-a1-m2-cA 3lmn-a1-m3-cB_3lmn-a1-m3-cA 3lmn-a1-m4-cB_3lmn-a1-m4-cA 3lmn-a2-m1-cB_3lmn-a2-m1-cA GAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL AEGGAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGDAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL 3lmn-a3-m3-cB_3lmn-a3-m1-cA Oligomeric structure of the DUSP domain of human USP15 Q9Y4E8 Q9Y4E8 2.15 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 132 3lmn-a1-m1-cB_3lmn-a1-m3-cA 3lmn-a1-m2-cB_3lmn-a1-m4-cA 3lmn-a1-m3-cB_3lmn-a1-m1-cA 3lmn-a1-m4-cB_3lmn-a1-m2-cA 3lmn-a2-m1-cB_3lmn-a2-m3-cA 3lmn-a2-m3-cB_3lmn-a2-m1-cA GAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL AEGGAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGDAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL 3lmn-a4-m1-cB_3lmn-a4-m3-cB Oligomeric structure of the DUSP domain of human USP15 Q9Y4E8 Q9Y4E8 2.15 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 3lmn-a1-m1-cB_3lmn-a1-m3-cB 3lmn-a1-m2-cB_3lmn-a1-m4-cB 3lmn-a2-m1-cB_3lmn-a2-m3-cB GAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL GAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDGAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL 3lmo-a1-m1-cA_3lmo-a1-m2-cA Crystal Structure of specialized acyl carrier protein (RPA2022) from Rhodopseudomonas palustris, Northeast Structural Genomics Consortium Target RpR324 Q6N882 Q6N882 2 X-RAY DIFFRACTION 48 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 94 94 TSTFDRVATIIAETCDIPRETITPESHAIDDLGIDSLDFLDIAFAIDKAFGIKLPLEKWTQEVNDGKATTEQYFVLKNLAARIDELVAAKGALE TSTFDRVATIIAETCDIPRETITPESHAIDDLGIDSLDFLDIAFAIDKAFGIKLPLEKWTQEVNDGKATTEQYFVLKNLAARIDELVAAKGALE 3lmz-a1-m1-cA_3lmz-a1-m2-cA Crystal structure of Putative sugar isomerase. (YP_001305105.1) from Parabacteroides distasonis ATCC 8503 at 1.44 A resolution A6LIG9 A6LIG9 1.44 X-RAY DIFFRACTION 116 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 243 243 VKPKAPKAVNPFHLGAGYTFVNFDLDTTLKTLERLDIHYLCIKDFHLPLNSTDEQIRAFHDKCAAHKVTGYAVGPIYKSEEEIDRAFDYAKRVGVKLIVGVPNYELLPYVDKKVKEYDFHYAIHLHGPDIKTYPDATDVWVHTKDLDPRIGCLDVGHDLRNGCDPVADLKKYHTRVFDHIKDVTDSSKAGVGIEIGRGKIDFPALIRREVNYTGCSLEYEKDKDPFLGIAESIGYFKAVSDLT VKPKAPKAVNPFHLGAGYTFVNFDLDTTLKTLERLDIHYLCIKDFHLPLNSTDEQIRAFHDKCAAHKVTGYAVGPIYKSEEEIDRAFDYAKRVGVKLIVGVPNYELLPYVDKKVKEYDFHYAIHLHGPDIKTYPDATDVWVHTKDLDPRIGCLDVGHDLRNGCDPVADLKKYHTRVFDHIKDVTDSSKAGVGIEIGRGKIDFPALIRREVNYTGCSLEYEKDKDPFLGIAESIGYFKAVSDLT 3ln2-a1-m1-cA_3ln2-a1-m1-cB Crystal Structure of a Charge Engineered Human Lysozyme Variant P61626 P61626 2.037 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 5lvk-a1-m1-cA_5lvk-a1-m1-cB KVFERCELARTLKRLGMDGYRGISLANWMCLAKWESGYNTRATNYNAGDRSTDYGIFQINSRYWCNDGKTPGAVNACHLSCSALLQDNIADAVACAKRVVDDPQGIRAWVAWRNHCQNRDVRQYVQGCGV KVFERCELARTLKRLGMDGYRGISLANWMCLAKWESGYNTRATNYNAGDRSTDYGIFQINSRYWCNDGKTPGAVNACHLSCSALLQDNIADAVACAKRVVDDPQGIRAWVAWRNHCQNRDVRQYVQGCGV 3ln3-a2-m1-cA_3ln3-a2-m2-cA Crystal structure of Putative reductase (NP_038806.2) from MUS MUSCULUS at 1.18 A resolution Q8VC28 Q8VC28 1.18 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 287 287 QHCVLNDGHLIPALGFGTYPEVPSSLEAACLALDVGYRHVDTAYAYQVEEEIGQAIQSIAGVVREDLFVTTKLWCTCFRPELVPALESLLQLDYVDLYIHYPVPSGDNDFPVNEQGSLLDTVDFCDTWERLEECDAGLVSIGVSNFNHRQLERILNPGLYPVCNQVECHLYLNQRLLDYCESDIVLVAYGALGTQRYEWVDQNSPVLLNDPVLCDVANRSPALIALRYLIQRGIVPLAQSFENERENLQVFGFQLSPEDTLDGLNNFRYLPAEFLVDHPEYPFVEEY QHCVLNDGHLIPALGFGTYPEVPSSLEAACLALDVGYRHVDTAYAYQVEEEIGQAIQSIAGVVREDLFVTTKLWCTCFRPELVPALESLLQLDYVDLYIHYPVPSGDNDFPVNEQGSLLDTVDFCDTWERLEECDAGLVSIGVSNFNHRQLERILNPGLYPVCNQVECHLYLNQRLLDYCESDIVLVAYGALGTQRYEWVDQNSPVLLNDPVLCDVANRSPALIALRYLIQRGIVPLAQSFENERENLQVFGFQLSPEDTLDGLNNFRYLPAEFLVDHPEYPFVEEY 3ln6-a1-m1-cA_3ln6-a1-m2-cA Crystal structure of a bifunctional glutathione synthetase from Streptococcus agalactiae Q8DXM9 Q8DXM9 2.95 X-RAY DIFFRACTION 72 1.0 216466 (Streptococcus agalactiae serogroup V) 216466 (Streptococcus agalactiae serogroup V) 743 743 DRLLQRSHSHLPILQATFGLERESLRIHQPTQRVAQTPHPKTLGSRNYHPYIQTDYSEPQLELITPIAKDSQEAIRFLKAISDVAGRSINHDEYLWPLSMPPKVREEDIQIAQLEDAFEYDYRKYLEKTYGKLIQSISGIHYNLGLGQELLTSLFELSQADNAIDFQNQLYMKLSQNFLRYRWLLTYLYGASPVAEEDFLDQKLNNPVRSLRNSHLGYVNHKDIRISYTSLKDYVNDLENAVKSGQAEKEFYSPVRLRGSKACRNYLEKGITYLEFRTFDLNPFSPIGITQETVDTVHLFLLALLWIDSHIDQDIKEANRLNDLIALSHPLEKLPNQAPVSDLVDAMQSVIQHFNLSPYYQDLLESVKRQIQSPELTVAGQLLEMIEGLSLETFGQRQGQIYHDYAWEAPYALKGYETMELSTQLLLFDVIQKGVNFEVLDEQDQFLKLWHNSHIEYVKNGNMTSKDNYIVPLAMANKVVTKKILDEKHFPTPFGDEFTDRKEALNYFSQIQDKPIVVKPKSTNFGLGISIFKTSANLASYEKAIDIAFTEDSAILVEEYIEGTEYRFFVLEGDCIAVLLRVAANVVGDGIHTISQLVKLKNQNPLRGYDHRSPLEVIELGEVEQLMLEQQGYTVNSIPPEGTKIELRRNSNISTGGDSIDVTNTMDPTYKQLAAEMAEAMGAWVCGVDLIIPNATQAYSKDKKNATCIELNFNPLMYMHTYCQEGPGQSITPRILAKLFPEL DRLLQRSHSHLPILQATFGLERESLRIHQPTQRVAQTPHPKTLGSRNYHPYIQTDYSEPQLELITPIAKDSQEAIRFLKAISDVAGRSINHDEYLWPLSMPPKVREEDIQIAQLEDAFEYDYRKYLEKTYGKLIQSISGIHYNLGLGQELLTSLFELSQADNAIDFQNQLYMKLSQNFLRYRWLLTYLYGASPVAEEDFLDQKLNNPVRSLRNSHLGYVNHKDIRISYTSLKDYVNDLENAVKSGQAEKEFYSPVRLRGSKACRNYLEKGITYLEFRTFDLNPFSPIGITQETVDTVHLFLLALLWIDSHIDQDIKEANRLNDLIALSHPLEKLPNQAPVSDLVDAMQSVIQHFNLSPYYQDLLESVKRQIQSPELTVAGQLLEMIEGLSLETFGQRQGQIYHDYAWEAPYALKGYETMELSTQLLLFDVIQKGVNFEVLDEQDQFLKLWHNSHIEYVKNGNMTSKDNYIVPLAMANKVVTKKILDEKHFPTPFGDEFTDRKEALNYFSQIQDKPIVVKPKSTNFGLGISIFKTSANLASYEKAIDIAFTEDSAILVEEYIEGTEYRFFVLEGDCIAVLLRVAANVVGDGIHTISQLVKLKNQNPLRGYDHRSPLEVIELGEVEQLMLEQQGYTVNSIPPEGTKIELRRNSNISTGGDSIDVTNTMDPTYKQLAAEMAEAMGAWVCGVDLIIPNATQAYSKDKKNATCIELNFNPLMYMHTYCQEGPGQSITPRILAKLFPEL 3ln7-a1-m1-cB_3ln7-a1-m1-cA Crystal structure of a bifunctional glutathione synthetase from Pasteurella multocida Q9CM00 Q9CM00 3.2 X-RAY DIFFRACTION 102 0.992 747 (Pasteurella multocida) 747 (Pasteurella multocida) 710 728 KIQHIIHENQLGLLFQQGSFGLEKESQRVTADGAIVTTPHPAVFGNRRYHPYIQTDFAESQLELITPPTKKLEDTFRWLSVIHEVVQRSLPEEEYIFPLSPAGLPAEEQIRVAQREYLVKIYGKNKQVSGIHYNFQLSPDLITRLFRLQNEYQSAVDFQNDLYLKAKNFLRYQWILLYLLAATPTVESFKDGSQFVRSLRSSQYGYVNPEINVSFDSVEKYVESLEHWVSAEKEFYSNVRLRGAKKAREFLTTGIQYLEFRLFDLNPFEIYGISLKDAKFIHVFALFIWDHDQEEVELGKARLAEVAFEHPLEKTAYAVEGELVLLELLSLEQIGAEPELFEIVKEKLTQFTDPSKTVAGRLVRAIEQAGSDQQLGAQLAQQYKAQAFERFYALSAFDNELSTQALLFDVIQKGIHTEILDENDQFLCLKYGDHIEYVKNGNTSHDSYISPLIENKVVTKKVLQKAGFNVPQSVEFTSLEKAVASYALFRAVVIKPKSTNYGLGITIFQQGVQNREDFAKALEIAFREDKEVVEDYLVGTEYRFFVLGDETLAVLLRVPANVVGDSVHSVAELVAKNDHPLRGDGSRTPLKKIALGEIEQLQLKEQGLTIDSIPAKDQLVQLRANSNISTGGDSIDTDEHESYKQLAVGITKAGAAVCGVDLIIPDLKQPATPNLTSWGVIEANFNPHIFPYAGKSRRLTQNVIKLFPEL KIQHIIHENQLGLLFQQGSFGLEKESQRVTADGAIVTTPHPAVFGNRRYHPYIQTDFAESQLELITPPTKKLEDTFRWLSVIHEVVQRSLPEEEYIFPLSPAGLPAIRVAQLDNPEDVAYREYLVKIYGKNKQVSGIHYNFQLSPDLITRLFRLQNEYQSAVDFQNDLYLKAKNFLRYQWILLYLLAATPTYFKDGSPLAKGQFVRSLRSSQYGYVNDPEINVSFDSVEKYVESLEHWVSTKLIAEKEFYSNVRLRGAKKAREFLTTGIQYLEFRLFDLNPFEIYGISLKDAKFIHVFALFIWDHTADQEEVELGKARLAEVAFEHPLEKTAYAVEGELVLLELLSLEQIGAEPELFEIVKEKLTQFTDPSKTVAGRLVRAIEQAGSDQQLGAQLAQQYKAQAFERFYALSAFDNELSTQALLFDVIQKGIHTEILDENDQFLCLKYGDHIEYVKNGNTSHDSYISPLIENKVVTKKVLQKAGFNVPQSVEFTSLEKAVASYALFENRAVVIKPKSTNYGLGITIFQQGVQNREDFAKALEIAFREDKEVVEDYLVGTEYRFFVLGDETLAVLLRVPANVVGDSVHSVAELVAKNDHPLRGDGSRTPLKKIALGEIEQLQLKEQGLTIDSIPAKDQLVQLRANSNISTGGDSIDTDEHESYKQLAVGITKAGAAVCGVDLIIPDLKQPATPNLTSWGVIEANFNPHIFPYAGKSRRLTQNVIKLFPEL 3lnc-a1-m1-cA_3lnc-a1-m1-cB Crystal structure of guanylate kinase from Anaplasma phagocytophilum Q2GLF7 Q2GLF7 1.95 X-RAY DIFFRACTION 112 0.989 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 188 188 MLKSVGVILVLSSPSGTVANKLLENIVKSVSVTTRAARKGEKEGKDYYFVDREEFLRLCSNGEIIEHAEVFGNFYGVPRKNLEDNVDKGVSTLLVIDWQGAFKFMEMMREHVVSIFIMPPSMEELRRRRLKGAAFEISHCEAYDYVIVNEDIEETADRISNILRAEQMKTCRQVGLRELLESRFPIED SMLKSVGVILVLSSPSTVANKLLENIVKSVSVTTRAARKGEKEGKDYYFVDREEFLRLCSNGEIIEHAEVFGNFYGVPRKNLEDNVDKGVSTLLVIDWQGAFKFMEMMREHVVSIFIMPPSMEELRRRARLKGAAFEISHCEAYDYVIVNEDIEETADRISNILRAEQMKTCRQVGLRELLESRFPIE 3lnd-a2-m1-cC_3lnd-a2-m1-cD Crystal structure of cadherin-6 EC12 W4A P97326 P97326 2.82 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 199 202 3lnd-a1-m1-cA_3lnd-a1-m1-cB ANQFFLLEEYTGSDYQYVGKLHSDQDRGDGSLKYILSGDGAGDLFIINENTGDIQATKRLDREEKPVYILRAQAVNRRTGRPVEPESEFIIKIHDINDNEPIFTKDVYTATVPEMADVGTFVVQVTATDADDPTYGNSAKVVYSILQGQPYFSVESETGIIKTALLNREQYQVVIQAKDMGGQMGGLSGTTTVNITLTD SWMANQFFLLEEYTGSDYQYVGKLHSDQDRGDGSLKYILSGDGAGDLFIINENTGDIQATKRLDREEKPVYILRAQAVNRRTGRPVEPESEFIIKIHDINDNEPIFTKDVYTATVPEMADVGTFVVQVTATDADDPTYGNSAKVVYSILQGQPYFSVESETGIIKTALLNREQYQVVIQAKDMGGQMGGLSGTTTVNITLTD 3lne-a1-m1-cA_3lne-a1-m2-cA Crystal structure of E-cadherin EC12 K14E P09803 P09803 2 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 1q1p-a2-m1-cA_1q1p-a2-m2-cA DWVIPPISCPENEEGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD DWVIPPISCPENEEGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD 3lnl-a1-m2-cA_3lnl-a1-m3-cA Crystal structure of Staphylococcus aureus protein SA1388 P67273 P67273 2 X-RAY DIFFRACTION 12 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 307 307 2nyd-a1-m1-cA_2nyd-a1-m2-cA 2nyd-a1-m1-cA_2nyd-a1-m3-cA 2nyd-a1-m2-cA_2nyd-a1-m3-cA 3lnl-a1-m1-cA_3lnl-a1-m2-cA 3lnl-a1-m1-cA_3lnl-a1-m3-cA DPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI DPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI 3lnl-a1-m2-cA_3lnl-a1-m3-cB Crystal structure of Staphylococcus aureus protein SA1388 P67273 P67273 2 X-RAY DIFFRACTION 69 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 307 349 2nyd-a1-m1-cA_2nyd-a1-m2-cB 2nyd-a1-m2-cA_2nyd-a1-m3-cB 3lnl-a1-m1-cA_3lnl-a1-m2-cB DPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI AMDPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQTYIPKDNVGPFKDKLSENGLAQEYCFFESEGRGQEDVDEVKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI 3lnl-a1-m2-cB_3lnl-a1-m3-cB Crystal structure of Staphylococcus aureus protein SA1388 P67273 P67273 2 X-RAY DIFFRACTION 31 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 349 349 2nyd-a1-m1-cB_2nyd-a1-m2-cB 2nyd-a1-m1-cB_2nyd-a1-m3-cB 2nyd-a1-m2-cB_2nyd-a1-m3-cB 3lnl-a1-m1-cB_3lnl-a1-m2-cB 3lnl-a1-m1-cB_3lnl-a1-m3-cB AMDPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQTYIPKDNVGPFKDKLSENGLAQEYCFFESEGRGQEDVDEVKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI AMDPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQTYIPKDNVGPFKDKLSENGLAQEYCFFESEGRGQEDVDEVKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI 3lnl-a1-m3-cA_3lnl-a1-m1-cB Crystal structure of Staphylococcus aureus protein SA1388 P67273 P67273 2 X-RAY DIFFRACTION 69 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 307 349 2nyd-a1-m3-cA_2nyd-a1-m1-cB DPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI AMDPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQTYIPKDNVGPFKDKLSENGLAQEYCFFESEGRGQEDVDEVKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI 3lnl-a1-m3-cA_3lnl-a1-m3-cB Crystal structure of Staphylococcus aureus protein SA1388 P67273 P67273 2 X-RAY DIFFRACTION 105 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 307 349 2nyd-a1-m1-cA_2nyd-a1-m1-cB 2nyd-a1-m2-cA_2nyd-a1-m2-cB 2nyd-a1-m3-cA_2nyd-a1-m3-cB 3lnl-a1-m1-cA_3lnl-a1-m1-cB 3lnl-a1-m2-cA_3lnl-a1-m2-cB DPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI AMDPMKIADLMTLLDHHVPFSTAESWDNVGLLIGDEDVEVTGVLTALDCTLEVVNEAIEKGYNTIISHHPLIFKGVTSLKANGYGLIIRKLIQHDINLIAMHTNLDVNPHGVNMMLAKVMGLKNISIINNQQDVYYKVQTYIPKDNVGPFKDKLSENGLAQEYCFFESEGRGQEDVDEVKIEFMIDAYQKSRAEQLIKQYHPYETPVFDFIEIKQTSLYGLGVMAEVDNQMTLEDFAADIKSKLNIPSVRFVGESNQKIKRIAIIGGSGIGYEYQAVQQGADVFVTGDIKHHDALDAKIHGVNLIDINHYSEYVMKEGLKTLLMNWFNIEKINIDVEASTINTDPFQYI 3lnm-a1-m6-cD_3lnm-a1-m8-cD F233W mutant of the Kv2.1 paddle-Kv1.2 chimera channel P63142 P63142 2.9 X-RAY DIFFRACTION 118 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 318 318 3lnm-a1-m5-cD_3lnm-a1-m7-cD 3lnm-a1-m5-cD_3lnm-a1-m8-cD 3lnm-a1-m6-cD_3lnm-a1-m7-cD 5wie-a2-m1-cH_5wie-a2-m3-cH 5wie-a2-m1-cH_5wie-a2-m4-cH 5wie-a2-m2-cH_5wie-a2-m3-cH 5wie-a2-m2-cH_5wie-a2-m4-cH SSERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGYPESSGPARIIAIVSVMVILISIVSFCLETLPIFRFHTYSQTDPFFIVETLCIIWWSFEFLVTNIMNIIDIVAIIPYYVTIFSNKSRVVQIFRIMRILRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET SSERVVINISGLRFETQLKTLAQFPETLLGDPKKRMRYFDPLRNEYFFDRNRPSFDAILYYYQSGGRLRRPVNVPLDIFSEEIRFYELGEEAMEMFREDEGYPESSGPARIIAIVSVMVILISIVSFCLETLPIFRFHTYSQTDPFFIVETLCIIWWSFEFLVTNIMNIIDIVAIIPYYVTIFSNKSRVVQIFRIMRILRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET 3lnn-a4-m1-cA_3lnn-a4-m4-cA Crystal structure of ZneB from Cupriavidus metallidurans Q1LCD7 Q1LCD7 2.796 X-RAY DIFFRACTION 14 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 341 341 3lnn-a4-m2-cA_3lnn-a4-m3-cA ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND 3lnn-a4-m2-cA_3lnn-a4-m4-cA Crystal structure of ZneB from Cupriavidus metallidurans Q1LCD7 Q1LCD7 2.796 X-RAY DIFFRACTION 86 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 341 341 3lnn-a4-m1-cA_3lnn-a4-m3-cA ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND 3lnn-a4-m3-cA_3lnn-a4-m4-cA Crystal structure of ZneB from Cupriavidus metallidurans Q1LCD7 Q1LCD7 2.796 X-RAY DIFFRACTION 69 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 341 341 3lnn-a3-m1-cA_3lnn-a3-m2-cA 3lnn-a4-m1-cA_3lnn-a4-m2-cA ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND 3lnn-a4-m3-cB_3lnn-a4-m4-cB Crystal structure of ZneB from Cupriavidus metallidurans Q1LCD7 Q1LCD7 2.796 X-RAY DIFFRACTION 51 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 245 245 3lnn-a3-m1-cB_3lnn-a3-m2-cB 3lnn-a4-m1-cB_3lnn-a4-m2-cB TVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQ TVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQ 3lnn-a4-m4-cB_3lnn-a4-m2-cA Crystal structure of ZneB from Cupriavidus metallidurans Q1LCD7 Q1LCD7 2.796 X-RAY DIFFRACTION 13 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 245 341 3lnn-a4-m1-cB_3lnn-a4-m3-cA 3lnn-a4-m2-cB_3lnn-a4-m4-cA 3lnn-a4-m3-cB_3lnn-a4-m1-cA TVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQ ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND 3lnn-a4-m4-cB_3lnn-a4-m4-cA Crystal structure of ZneB from Cupriavidus metallidurans Q1LCD7 Q1LCD7 2.796 X-RAY DIFFRACTION 103 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 245 341 3lnn-a3-m1-cB_3lnn-a3-m1-cA 3lnn-a3-m2-cB_3lnn-a3-m2-cA 3lnn-a4-m1-cB_3lnn-a4-m1-cA 3lnn-a4-m2-cB_3lnn-a4-m2-cA 3lnn-a4-m3-cB_3lnn-a4-m3-cA TVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQ ALRHEGERLVVPAESPLRRTLAVAPATRETVAAPFNLPAMIEADPAKLVKVLPPLAGRIVSLNKQLGDEVKAGDVLFTIDSADLAQANSDAAKARAAMTMARRNLDRQRELDKSEIAAKRDFEQAQSDYDQAASESQRADARLAQLGAKGGGTLQAGGGHILAVRSPINGRVVDLNAATGAYWNDTTASLMTVADLSHVFVTANAQEKDLGHVYVGQSATVKFDAYDDPQPGKVRYVGQILDADTRTTKVRMVFDNPDGRLRPGMFAQATFLSQPHEGIVVPMSAIVQSGFYTRAFVEVAPWQFEPRVIKLGAQIGDRMEVKSGLSAGDRVVVKEGVLLND 3lnp-a1-m1-cA_3lnp-a1-m2-cA Crystal Structure of Amidohydrolase family Protein OLEI01672_1_465 from Oleispira antarctica D3KFX9 D3KFX9 2.1 X-RAY DIFFRACTION 207 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 429 429 AHADLRINSHWIIPIENTVSNILIDHCLLIKDGIILAIEPQSSCQIPATETLDLGQQVLPGWVNAHGHAASLFRGLADDLPLTWLQEHVWPAEAQHVDEHFVKQGTELAIAEIQSGTTTFADYFYPQQSGEAALAAGIRAVCFAPVLDFPTNYAQNADEYIRKAIECNDRFNNHPNEQGLVQIGFGPHAPYTVSDEPLKEITLSDQLDPVQIHLHETDFEVSESLETFNKRPTQRLADIGFLNERVSCVHTQVDDGDIKILQKTGASIIHCPESNLKLASGFCPIAKLSAANIPLAIGTDGAASNNDLDFSETKTAALLAKGVSQDASAIPAIEALTATLGGARALGIDDITGSLKPGKAADIQAIDLNTLSSQPVFDPVSHVYCTKSTQVSHVWVNGRCLLKNGELTTLNEETLINHAKAWASAIRTP AHADLRINSHWIIPIENTVSNILIDHCLLIKDGIILAIEPQSSCQIPATETLDLGQQVLPGWVNAHGHAASLFRGLADDLPLTWLQEHVWPAEAQHVDEHFVKQGTELAIAEIQSGTTTFADYFYPQQSGEAALAAGIRAVCFAPVLDFPTNYAQNADEYIRKAIECNDRFNNHPNEQGLVQIGFGPHAPYTVSDEPLKEITLSDQLDPVQIHLHETDFEVSESLETFNKRPTQRLADIGFLNERVSCVHTQVDDGDIKILQKTGASIIHCPESNLKLASGFCPIAKLSAANIPLAIGTDGAASNNDLDFSETKTAALLAKGVSQDASAIPAIEALTATLGGARALGIDDITGSLKPGKAADIQAIDLNTLSSQPVFDPVSHVYCTKSTQVSHVWVNGRCLLKNGELTTLNEETLINHAKAWASAIRTP 3lnr-a1-m2-cA_3lnr-a1-m1-cA Crystal structure of poly-HAMP domains from the P. aeruginosa soluble receptor Aer2 Q9I6V6 Q9I6V6 2.64 X-RAY DIFFRACTION 224 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 160 160 4i3m-a1-m1-cA_4i3m-a1-m2-cA 4i44-a1-m1-cA_4i44-a1-m2-cA GSHMGLFNAHAVAQQRADRIATLLQSFADGQLDTAVGEAPAPGYERLYDSLRALQRQLREQRAELQQVESLEAGLAEMSRQHEAGWIDQTIPAERLEGRAARIAKGVNELVAAHIAVKMKVVSVVTAYGQGNFEPLMDRLPGKKAQITEAIDGVRERLRG GSHMGLFNAHAVAQQRADRIATLLQSFADGQLDTAVGEAPAPGYERLYDSLRALQRQLREQRAELQQVESLEAGLAEMSRQHEAGWIDQTIPAERLEGRAARIAKGVNELVAAHIAVKMKVVSVVTAYGQGNFEPLMDRLPGKKAQITEAIDGVRERLRG 3lny-a1-m3-cA_3lny-a1-m6-cA Second PDZ domain from human PTP1E in complex with RA-GEF2 peptide Q12923 Q12923 1.3 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 3lnx-a1-m1-cA_3lnx-a1-m1-cB 3lnx-a1-m1-cC_3lnx-a1-m1-cE 3lnx-a1-m1-cD_3lnx-a1-m1-cF 3lny-a1-m1-cA_3lny-a1-m5-cA 3lny-a1-m2-cA_3lny-a1-m4-cA PKPGDIFEVELAKNDNSLGISVTGGVNTSVRHGGIYVKAVIPQGAAESDGRIHKGDRVLAVNGVSLEGATHKQAVETLRNTGQVVHLLLEKGQS PKPGDIFEVELAKNDNSLGISVTGGVNTSVRHGGIYVKAVIPQGAAESDGRIHKGDRVLAVNGVSLEGATHKQAVETLRNTGQVVHLLLEKGQS 3lny-a1-m5-cA_3lny-a1-m6-cA Second PDZ domain from human PTP1E in complex with RA-GEF2 peptide Q12923 Q12923 1.3 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 3lnx-a1-m1-cA_3lnx-a1-m1-cE 3lnx-a1-m1-cA_3lnx-a1-m1-cF 3lnx-a1-m1-cB_3lnx-a1-m1-cC 3lnx-a1-m1-cB_3lnx-a1-m1-cD 3lnx-a1-m1-cC_3lnx-a1-m1-cD 3lnx-a1-m1-cE_3lnx-a1-m1-cF 3lny-a1-m1-cA_3lny-a1-m2-cA 3lny-a1-m1-cA_3lny-a1-m3-cA 3lny-a1-m2-cA_3lny-a1-m3-cA 3lny-a1-m4-cA_3lny-a1-m5-cA 3lny-a1-m4-cA_3lny-a1-m6-cA PKPGDIFEVELAKNDNSLGISVTGGVNTSVRHGGIYVKAVIPQGAAESDGRIHKGDRVLAVNGVSLEGATHKQAVETLRNTGQVVHLLLEKGQS PKPGDIFEVELAKNDNSLGISVTGGVNTSVRHGGIYVKAVIPQGAAESDGRIHKGDRVLAVNGVSLEGATHKQAVETLRNTGQVVHLLLEKGQS 3lo0-a1-m1-cA_3lo0-a1-m6-cA Crystal structure of inorganic pyrophosphatase from Ehrlichia chaffeensis Q2GFI3 Q2GFI3 1.95 X-RAY DIFFRACTION 41 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 156 156 3lo0-a1-m2-cA_3lo0-a1-m5-cA 3lo0-a1-m3-cA_3lo0-a1-m4-cA DNVTGGDNVPKEINVIIEISQNSCPVKYEFDKEKNLFCVDRFLPTSMYYPCNYGFIPHTCAGDGDPVDVLVASRFPVMSGAVIRARPVGVLVMHDEDVKILAVPTHKVDQYYNNIKDYSDFPVSFLNSISHFFTFYVSVEGWKDVTVAEKLILSAL DNVTGGDNVPKEINVIIEISQNSCPVKYEFDKEKNLFCVDRFLPTSMYYPCNYGFIPHTCAGDGDPVDVLVASRFPVMSGAVIRARPVGVLVMHDEDVKILAVPTHKVDQYYNNIKDYSDFPVSFLNSISHFFTFYVSVEGWKDVTVAEKLILSAL 3lo0-a1-m2-cA_3lo0-a1-m6-cA Crystal structure of inorganic pyrophosphatase from Ehrlichia chaffeensis Q2GFI3 Q2GFI3 1.95 X-RAY DIFFRACTION 24 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 156 156 3lo0-a1-m1-cA_3lo0-a1-m4-cA 3lo0-a1-m3-cA_3lo0-a1-m5-cA DNVTGGDNVPKEINVIIEISQNSCPVKYEFDKEKNLFCVDRFLPTSMYYPCNYGFIPHTCAGDGDPVDVLVASRFPVMSGAVIRARPVGVLVMHDEDVKILAVPTHKVDQYYNNIKDYSDFPVSFLNSISHFFTFYVSVEGWKDVTVAEKLILSAL DNVTGGDNVPKEINVIIEISQNSCPVKYEFDKEKNLFCVDRFLPTSMYYPCNYGFIPHTCAGDGDPVDVLVASRFPVMSGAVIRARPVGVLVMHDEDVKILAVPTHKVDQYYNNIKDYSDFPVSFLNSISHFFTFYVSVEGWKDVTVAEKLILSAL 3lo0-a1-m5-cA_3lo0-a1-m6-cA Crystal structure of inorganic pyrophosphatase from Ehrlichia chaffeensis Q2GFI3 Q2GFI3 1.95 X-RAY DIFFRACTION 52 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 156 156 3lo0-a1-m1-cA_3lo0-a1-m2-cA 3lo0-a1-m1-cA_3lo0-a1-m3-cA 3lo0-a1-m2-cA_3lo0-a1-m3-cA 3lo0-a1-m4-cA_3lo0-a1-m5-cA 3lo0-a1-m4-cA_3lo0-a1-m6-cA DNVTGGDNVPKEINVIIEISQNSCPVKYEFDKEKNLFCVDRFLPTSMYYPCNYGFIPHTCAGDGDPVDVLVASRFPVMSGAVIRARPVGVLVMHDEDVKILAVPTHKVDQYYNNIKDYSDFPVSFLNSISHFFTFYVSVEGWKDVTVAEKLILSAL DNVTGGDNVPKEINVIIEISQNSCPVKYEFDKEKNLFCVDRFLPTSMYYPCNYGFIPHTCAGDGDPVDVLVASRFPVMSGAVIRARPVGVLVMHDEDVKILAVPTHKVDQYYNNIKDYSDFPVSFLNSISHFFTFYVSVEGWKDVTVAEKLILSAL 3lo3-a1-m1-cA_3lo3-a1-m1-cB The crystal structure of a conserved functionally unknown protein from Colwellia psychrerythraea 34H. Q484V4 Q484V4 2.383 X-RAY DIFFRACTION 81 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 93 93 3lo3-a10-m1-cU_3lo3-a10-m1-cV 3lo3-a11-m1-cW_3lo3-a11-m1-cX 3lo3-a12-m1-cY_3lo3-a12-m1-cZ 3lo3-a13-m1-ca_3lo3-a13-m1-cb 3lo3-a14-m1-cO_3lo3-a14-m1-cP 3lo3-a2-m1-cC_3lo3-a2-m1-cD 3lo3-a3-m1-cE_3lo3-a3-m1-cF 3lo3-a4-m1-cG_3lo3-a4-m1-cH 3lo3-a5-m1-cI_3lo3-a5-m1-cJ 3lo3-a6-m1-cK_3lo3-a6-m1-cL 3lo3-a7-m1-cM_3lo3-a7-m1-cN 3lo3-a8-m1-cQ_3lo3-a8-m1-cR 3lo3-a9-m1-cS_3lo3-a9-m1-cT SNATAYIIVGLTPKDAEKLQQYGARVASTLAKYSGEVLVKGSVEQLHGKFEHKAQVILEFPSREDAYNWYHSEEYQALISTRDLGDSQFQLIG SNATAYIIVGLTPKDAEKLQQYGARVASTLAKYSGEVLVKGSVEQLHGKFEHKAQVILEFPSREDAYNWYHSEEYQALISTRDLGDSQFQLIG 3lof-a3-m1-cF_3lof-a3-m1-cE C-terminal domain of human heat shock 70kDa protein 1B. P0DMV8 P0DMV8 2.4 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 81 3lof-a2-m1-cD_3lof-a2-m1-cC NAAAERVSAKNALESYAFNKSAVEDKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQGA NAAAERVSAKNALESYAFNKSAVEDKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQGAGG 3loi-a1-m1-cA_3loi-a1-m2-cA Crystal structures of Cupin superfamily BbDUF985 from Branchiostoma belcheri tsingtauense in the apo and GDP-bound forms Q6WRH7 Q6WRH7 2.1 X-RAY DIFFRACTION 87 1.0 155462 (Branchiostoma belcheri tsingtauense) 155462 (Branchiostoma belcheri tsingtauense) 161 161 3lzz-a1-m1-cA_3lzz-a1-m1-cB EEVKRLIALYELTPHPASGGWFRETYRSDVQVEAEGFDGKRSVLTMIYYLMQAGQPDPFHRVKSDETFVHNLGGSMKIHMIHPDGSYSCSILGNPLEHPEARHQVVVPRRVWFAQEVDGYCLASVLVAPGFDFKDFSLGKREELIKEYPQHRDVIMRCTSS EEVKRLIALYELTPHPASGGWFRETYRSDVQVEAEGFDGKRSVLTMIYYLMQAGQPDPFHRVKSDETFVHNLGGSMKIHMIHPDGSYSCSILGNPLEHPEARHQVVVPRRVWFAQEVDGYCLASVLVAPGFDFKDFSLGKREELIKEYPQHRDVIMRCTSS 3lom-a1-m1-cB_3lom-a1-m1-cA CRYSTAL STRUCTURE OF GERANYLTRANSFERASE FROM Legionella pneumophila Q5ZT35 Q5ZT35 2.3 X-RAY DIFFRACTION 172 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 285 288 NSTQMNKQVIDKYTQRHELYLEQLLNEIIIPAPQIRSALHYALFSGGKRIRPILVYLAGDLIDVDQGVLDIIAAALELTHCYSLIHDDLPAMDNDDLRRGKPSCHKAFDEATAILVGDGMQALAIEVLLMRLSPLLPAAQVVAITQVLVNASGISGMVSGQSLDLSELAKSSVTEEQLREIHLLKTGKLILACFEMVLAAQHEVSEQIKSALRTYGKHIGLVFQMQDDYLDLYAKTTFATLFNKQQLEEEIAVHYQIAMDSLRLFGSKAAALIELTKQLQNRSNL NSTQMNKQVIDKYTQRHELYLEQLLNEIIIPAPQIRSALHYALFSGGKRIRPILVYLAGDLIDVDQGVLDIIAAALELTHCYSLIHDDLPAMDNDDLRRGKPSCHKAFDEATAILVGDGMQALAIEVLLMRLSPLLPAAQVVAITQVLVNASGISGMVSGQSLDLSELAKSSVTEEQLREIHLLKTGKLILACFEMVLAAQHEVSEQIKSALRTYGKHIGLVFQMQDDYLDLYAPKTTFATLFNKQQLEEEIAVHYQIAMDSLRLFGSKAAALIELTKQLQNRSNLSE 3lor-a1-m1-cD_3lor-a1-m1-cA The Crystal Structure of a Thiol-disulfide Isomerase from Corynebacterium glutamicum to 2.2A Q8NRX7 Q8NRX7 2.2 X-RAY DIFFRACTION 53 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 145 149 3lor-a1-m1-cC_3lor-a1-m1-cB PLLELDVQEWVNHEGLSNEDLRGKVVVVEVFQLCPGCVNHGVPQAQKIHRIDESQVQVIGLHSVFEHHDVTPEALKVFIDEFGIKFPVAVDPREGQRIPSTKKYRLEGTPSIILADRKGRIRQVQFGQVDDFVLGLLLGSLLSET LDNAPLLELDVQEWVNHEGLSNEDLRGKVVVVEVFQLCPGCVNHGVPQAQKIHRIDESQVQVIGLHSVFEHHDVTPEALKVFIDEFGIKFPVAVDPREGQRIPSTKKYRLEGTPSIILADRKGRIRQVQFGQVDDFVLGLLLGSLLSET 3lor-a1-m1-cD_3lor-a1-m1-cC The Crystal Structure of a Thiol-disulfide Isomerase from Corynebacterium glutamicum to 2.2A Q8NRX7 Q8NRX7 2.2 X-RAY DIFFRACTION 32 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 145 147 3lor-a1-m1-cA_3lor-a1-m1-cB PLLELDVQEWVNHEGLSNEDLRGKVVVVEVFQLCPGCVNHGVPQAQKIHRIDESQVQVIGLHSVFEHHDVTPEALKVFIDEFGIKFPVAVDPREGQRIPSTKKYRLEGTPSIILADRKGRIRQVQFGQVDDFVLGLLLGSLLSET NAPLLELDVQEWVNHEGLSNEDLRGKVVVVEVFQLCPGCVNHGVPQAQKIHRIDESQVQVIGLHSVFEHHDVTPEALKVFIDEFGIKFPVAVDPREGQRIPSTKKYRLEGTPSIILADRKGRIRQVQFGQVDDFVLGLLLGSLLSET 3los-a1-m1-cB_3los-a1-m1-cP Atomic Model of Mm-cpn in the Closed State Q877G8 Q877G8 4.3 ELECTRON MICROSCOPY 14 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 532 532 3los-a1-m1-cA_3los-a1-m1-cO 3los-a1-m1-cC_3los-a1-m1-cI 3los-a1-m1-cD_3los-a1-m1-cJ 3los-a1-m1-cE_3los-a1-m1-cK 3los-a1-m1-cF_3los-a1-m1-cL 3los-a1-m1-cG_3los-a1-m1-cM 3los-a1-m1-cH_3los-a1-m1-cN MSQQPGVLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAEKLRGAPDMGDMGG MSQQPGVLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAEKLRGAPDMGDMGG 3lot-a1-m1-cA_3lot-a1-m1-cD Crystal structure of PROTEIN OF UNKNOWN FUNCTION (NP_070038.1) from ARCHAEOGLOBUS FULGIDUS at 1.89 A resolution O29058 O29058 1.89 X-RAY DIFFRACTION 37 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 300 302 3lot-a1-m1-cC_3lot-a1-m1-cB DDVVIVTCAITGAIHTPSSPYLPVTPDQIVEEAVKAAEAGAGVHIHARDPKDGRPTTDVEVFRYICREIKKQSDVVINVTTGGGGTLGIPVEERAKVVPALKPEIATFNGSNFAIHPLLKKYKEFKYDWEPEYLETRDIVFRNTFKDLEALSRIFKENDTKPELECYDIGQIYNTAFFHEGYLEPPLRLQFIHGILGGIGTAVEDVLFKQTADRLIGRENYTWSLVGAGRFQPLGTLAVIGGDVRVGLEDSLYIERGKLAKSNAEQVEKVRIVKELGKRPATPDEVREILGLKGKERVNF RKDDVVIVTCAITGAIHTPSSPYLPVTPDQIVEEAVKAAEAGAGVHIHARDPKDGRPTTDVEVFRYICREIKKQSDVVINVTTGGGGTLGIPVEERAKVVPALKPEIATFNGSNFAIHPLLKKYKEFKYDWEPEYLETRDIVFRNTFKDLEALSRIFKENDTKPELECYDIGQIYNTAFFHEGYLEPPLRLQFIHGILGGIGTAVEDVLFKQTADRLIGRENYTWSLVGAGRFQPLGTLAVIGGDVRVGLEDSLYIERGKLAKSNAEQVEKVRIVKELGKRPATPDEVREILGLKGKERVNF 3lot-a1-m1-cB_3lot-a1-m1-cD Crystal structure of PROTEIN OF UNKNOWN FUNCTION (NP_070038.1) from ARCHAEOGLOBUS FULGIDUS at 1.89 A resolution O29058 O29058 1.89 X-RAY DIFFRACTION 106 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 301 302 3lot-a1-m1-cA_3lot-a1-m1-cC KDDVVIVTCAITGAIHTPSSPYLPVTPDQIVEEAVKAAEAGAGVHIHARDPKDGRPTTDVEVFRYICREIKKQSDVVINVTTGGGGTLGIPVEERAKVVPALKPEIATFNGSNFAIHPLLKKYKEFKYDWEPEYLETRDIVFRNTFKDLEALSRIFKENDTKPELECYDIGQIYNTAFFHEGYLEPPLRLQFIHGILGGIGTAVEDVLFKQTADRLIGRENYTWSLVGAGRFQPLGTLAVIGGDVRVGLEDSLYIERGKLAKSNAEQVEKVRIVKELGKRPATPDEVREILGLKGKERVNF RKDDVVIVTCAITGAIHTPSSPYLPVTPDQIVEEAVKAAEAGAGVHIHARDPKDGRPTTDVEVFRYICREIKKQSDVVINVTTGGGGTLGIPVEERAKVVPALKPEIATFNGSNFAIHPLLKKYKEFKYDWEPEYLETRDIVFRNTFKDLEALSRIFKENDTKPELECYDIGQIYNTAFFHEGYLEPPLRLQFIHGILGGIGTAVEDVLFKQTADRLIGRENYTWSLVGAGRFQPLGTLAVIGGDVRVGLEDSLYIERGKLAKSNAEQVEKVRIVKELGKRPATPDEVREILGLKGKERVNF 3lou-a1-m1-cD_3lou-a1-m1-cA Crystal structure of Formyltetrahydrofolate deformylase (YP_105254.1) from BURKHOLDERIA MALLEI ATCC 23344 at 1.90 A resolution A0A0H2WCF8 A0A0H2WCF8 1.9 X-RAY DIFFRACTION 33 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 274 276 3lou-a1-m1-cB_3lou-a1-m1-cC HQFVLTLSCPSAAGQVAAVVGLLDRHRCYVDELTVFDDDLSARFFVRCVFHATLRVDALRREFEPIAERFRQWAIHDVAARPKVLIVSKLEHCLADLLFRWKGELKDIVGIVSNHPDFAPLAAQHGLPFRHFPITADTKAQQEAQWLDVFETSGAELVILARYQVLSPEASARLANRAINIHHSFLPGFKGAKPYHQAHARGVKLIGATAHFVTDDLDEGPIIEQVVERVDHSYRPEQLLAVGRDVECITLARAVKAFIERRVFLNGDRTVVFQ PHQFVLTLSCPSAAGQVAAVVGLLDRHRCYVDELTVFDDDLSARFFVRCVFHATDLRVDALRREFEPIAERFRQWAIHDVAARPKVLIVSKLEHCLADLLFRWKGELKDIVGIVSNHPDFAPLAAQHGLPFRHFPITADTKAQQEAQWLDVFETSGAELVILARYQVLSPEASARLANRAINIHHSFLPGFKGAKPYHQAHARGVKLIGATAHFVTDDLDEGPIIEQVVERVDHSYRPEQLLAVGRDVECITLARAVKAFIERRVFLNGDRTVVFQ 3lou-a3-m1-cD_3lou-a3-m1-cC Crystal structure of Formyltetrahydrofolate deformylase (YP_105254.1) from BURKHOLDERIA MALLEI ATCC 23344 at 1.90 A resolution A0A0H2WCF8 A0A0H2WCF8 1.9 X-RAY DIFFRACTION 80 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 274 276 3lou-a1-m1-cB_3lou-a1-m1-cA 3lou-a1-m1-cD_3lou-a1-m1-cC 3lou-a2-m1-cB_3lou-a2-m1-cA HQFVLTLSCPSAAGQVAAVVGLLDRHRCYVDELTVFDDDLSARFFVRCVFHATLRVDALRREFEPIAERFRQWAIHDVAARPKVLIVSKLEHCLADLLFRWKGELKDIVGIVSNHPDFAPLAAQHGLPFRHFPITADTKAQQEAQWLDVFETSGAELVILARYQVLSPEASARLANRAINIHHSFLPGFKGAKPYHQAHARGVKLIGATAHFVTDDLDEGPIIEQVVERVDHSYRPEQLLAVGRDVECITLARAVKAFIERRVFLNGDRTVVFQ PHQFVLTLSCPSAAGQVAAVVGLLDRHRCYVDELTVFDDDLSARFFVRCVFHATDLRVDALRREFEPIAERFRQWAIHDVAARPKVLIVSKLEHCLADLLFRWKGELKDIVGIVSNHPDFAPLAAQHGLPFRHFPITADTKAQQEAQWLDVFETSGAELVILARYQVLSPEASARLANRAINIHHSFLPGFKGAKPYHQAHARGVKLIGATAHFVTDDLDEGPIIEQVVERVDHSYRPEQLLAVGRDVECITLARAVKAFIERRVFLNGDRTVVFQ 3loy-a2-m1-cC_3loy-a2-m2-cC Crystal structure of a Copper-containing benzylamine oxidase from Hansenula Polymorpha 2 X-RAY DIFFRACTION 461 1.0 632 632 3loy-a1-m1-cA_3loy-a1-m1-cB VHPYDPISDAELQLTSQLIKDATKGPERPHFIQIDRLDPPKKDMIRYLEAERTGKPLPHISRMTYVYYYIGLDFYKALVNVSYGHIITNQKQPKGVIGPLIAEDIQEIEELATTHPIVKAEIEKLKLPPHVRVVCDPWMNGTDSKEDRMLIQCYMYLASAAHPESNHYSLPLKFSPVFECLTKKFVRMDYLPGGADETVTETQAWDEFPFVEYHPDLNGETIVPLKPLIVQQPEGPSFNVDGHKISWQGWEFFVIPTVREGFAIYDIHFKGRSVVYRLSLSEMTVPYGDPRAPFHRKQAFDLGDCGFGATGNSLALGCDCLGVIKYMDCRRVNTNGDSVLIPNTVCLHEQDGGLLYKHTNYRTNVPVIARRREFVVQTIATVANEYMLNIIFDQAGEIRIHVRATGILSTMPLDKDVTVPWGTNVGPRVMAAYHQHMLSFRIDPAVDGYENTVVFDDVIRMEKNTKLNPYNVGFVTERTVVEKPGYVEQSPFTNRSYKIINENKINPISKKPVAYKIMMPARQMLLADEDSYNNKRAQFATQQVWVTKYRDNELYAAGEFTNQSQTDTGLGVWARRDENVRNDNPVVWATLGFTHIPRVEDFPVMPVEAHEIALVPFGFFDKNPALSVPQST VHPYDPISDAELQLTSQLIKDATKGPERPHFIQIDRLDPPKKDMIRYLEAERTGKPLPHISRMTYVYYYIGLDFYKALVNVSYGHIITNQKQPKGVIGPLIAEDIQEIEELATTHPIVKAEIEKLKLPPHVRVVCDPWMNGTDSKEDRMLIQCYMYLASAAHPESNHYSLPLKFSPVFECLTKKFVRMDYLPGGADETVTETQAWDEFPFVEYHPDLNGETIVPLKPLIVQQPEGPSFNVDGHKISWQGWEFFVIPTVREGFAIYDIHFKGRSVVYRLSLSEMTVPYGDPRAPFHRKQAFDLGDCGFGATGNSLALGCDCLGVIKYMDCRRVNTNGDSVLIPNTVCLHEQDGGLLYKHTNYRTNVPVIARRREFVVQTIATVANEYMLNIIFDQAGEIRIHVRATGILSTMPLDKDVTVPWGTNVGPRVMAAYHQHMLSFRIDPAVDGYENTVVFDDVIRMEKNTKLNPYNVGFVTERTVVEKPGYVEQSPFTNRSYKIINENKINPISKKPVAYKIMMPARQMLLADEDSYNNKRAQFATQQVWVTKYRDNELYAAGEFTNQSQTDTGLGVWARRDENVRNDNPVVWATLGFTHIPRVEDFPVMPVEAHEIALVPFGFFDKNPALSVPQST 3loz-a1-m1-cD_3loz-a1-m3-cC Crystal structure of Beta 2 Microglobulin amyloidogenic segment LSFSKD P61769 P61769 1.8 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 LSFSKD LSFSKD 3loz-a1-m3-cC_3loz-a1-m3-cD Crystal structure of Beta 2 Microglobulin amyloidogenic segment LSFSKD P61769 P61769 1.8 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3loz-a1-m1-cC_3loz-a1-m1-cD LSFSKD LSFSKD 3lp6-a1-m2-cA_3lp6-a1-m2-cC Crystal Structure of Rv3275c-E60A from Mycobacterium tuberculosis at 1.7A resolution P9WHM1 P9WHM1 1.702 X-RAY DIFFRACTION 116 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 164 170 3lp6-a1-m1-cA_3lp6-a1-m1-cC 3lp6-a1-m1-cB_3lp6-a1-m2-cB 3lp6-a1-m1-cD_3lp6-a1-m2-cD ERPRVGVIMGSDSDWPVMADAAAALAEFDIPAEVRVVSAHRTPEAMFSYARGAAARGLEVIIAGAGGAAHLPGMVAAATPLPVIGVPVPLGRLDGLDSLLSIVQMPAGVPVATVSIGGAGNAGLLAVRMLGAANPQLRARIVAFQDRLADVVAAKDAELQRLAG AGERPRVGVIMGSDSDWPVMADAAAALAEFDIPAEVRVVSAHRTPEAMFSYARGAAARGLEVIIAGAGGAAHLPGMVAAATPLPVIGVPVPLGRLDGLDSLLSIVQMPAGVPVATVSIGGAGNAGLLAVRMLGAANPQLRARIVAFQDRLADVVAAKDAELQRLAGKLTR 3lp6-a1-m2-cA_3lp6-a1-m2-cD Crystal Structure of Rv3275c-E60A from Mycobacterium tuberculosis at 1.7A resolution P9WHM1 P9WHM1 1.702 X-RAY DIFFRACTION 100 0.994 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 164 168 3lp6-a1-m1-cA_3lp6-a1-m1-cD 3lp6-a1-m1-cB_3lp6-a1-m1-cC 3lp6-a1-m2-cB_3lp6-a1-m2-cC ERPRVGVIMGSDSDWPVMADAAAALAEFDIPAEVRVVSAHRTPEAMFSYARGAAARGLEVIIAGAGGAAHLPGMVAAATPLPVIGVPVPLGRLDGLDSLLSIVQMPAGVPVATVSIGGAGNAGLLAVRMLGAANPQLRARIVAFQDRLADVVAAKDAELQRLAG MTPAGERPRVGVIMGSDSDWPVMADAAAALAEFDIPAEVRVVSAHRTPEAMFSYARGAAARGLEVIIAGAGGAAHLPGMVAAATPLPVIGVPVPLGRLDGLDSLLSIVQMPAGVPVATVSIGGAGNAGLLAVRMLGAANPQLRARIVAFQDRLADVVAAKDAELQRLA 3lp6-a2-m1-cB_3lp6-a2-m2-cC Crystal Structure of Rv3275c-E60A from Mycobacterium tuberculosis at 1.7A resolution P9WHM1 P9WHM1 1.702 X-RAY DIFFRACTION 52 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 167 170 3lp6-a1-m1-cA_3lp6-a1-m1-cB 3lp6-a1-m1-cA_3lp6-a1-m2-cD 3lp6-a1-m1-cB_3lp6-a1-m2-cC 3lp6-a1-m1-cD_3lp6-a1-m1-cC 3lp6-a1-m2-cA_3lp6-a1-m1-cD 3lp6-a1-m2-cA_3lp6-a1-m2-cB 3lp6-a1-m2-cB_3lp6-a1-m1-cC 3lp6-a1-m2-cD_3lp6-a1-m2-cC 3lp6-a2-m1-cA_3lp6-a2-m1-cB 3lp6-a2-m1-cA_3lp6-a2-m2-cD 3lp6-a2-m2-cD_3lp6-a2-m2-cC RPRVGVIMGSDSDWPVMADAAAALAEFDIPAEVRVVSAHRTPEAMFSYARGAAARGLEVIIAGAGGAAHLPGMVAAATPLPVIGVPVPLGRLDGLDSLLSIVQMPAGVPVATVSIGGAGNAGLLAVRMLGAANPQLRARIVAFQDRLADVVAAKDAELQRLAGKLTR AGERPRVGVIMGSDSDWPVMADAAAALAEFDIPAEVRVVSAHRTPEAMFSYARGAAARGLEVIIAGAGGAAHLPGMVAAATPLPVIGVPVPLGRLDGLDSLLSIVQMPAGVPVATVSIGGAGNAGLLAVRMLGAANPQLRARIVAFQDRLADVVAAKDAELQRLAGKLTR 3lp9-a2-m1-cB_3lp9-a2-m1-cD Crystal structure of LS24, A Seed Albumin from Lathyrus sativus D4AEP7 D4AEP7 2.2 X-RAY DIFFRACTION 31 1.0 3860 (Lathyrus sativus) 3860 (Lathyrus sativus) 227 227 3lp9-a1-m1-cA_3lp9-a1-m1-cC TKPGYINAAFRSSKNNEAYFFINDKYVLLDYAPGSSRDKVLYGPTPVRDGFKSLNQTIFGSYGIDCSFDTENNEAFIFYENFCALIDYAPHSKKDKIILGPKKIADVFPFFEGTVFESGIDAAYRSTRGKEVYLFKGDQYARIDYGSNSMVNKEIKSISSGYPCFRNTIFESGADAAFASHKTNEVYFFKDDHYARVKVTPXXKLXIMDGVREIVDYWPSLKDIVPL TKPGYINAAFRSSKNNEAYFFINDKYVLLDYAPGSSRDKVLYGPTPVRDGFKSLNQTIFGSYGIDCSFDTENNEAFIFYENFCALIDYAPHSKKDKIILGPKKIADVFPFFEGTVFESGIDAAYRSTRGKEVYLFKGDQYARIDYGSNSMVNKEIKSISSGYPCFRNTIFESGADAAFASHKTNEVYFFKDDHYARVKVTPXXKLXIMDGVREIVDYWPSLKDIVPL 3lph-a2-m1-cD_3lph-a2-m1-cC Crystal structure of the HIV-1 Rev dimer P69718 P69718 2.5 X-RAY DIFFRACTION 32 1.0 11707 (Human immunodeficiency virus type 1 (HXB3 ISOLATE)) 11707 (Human immunodeficiency virus type 1 (HXB3 ISOLATE)) 57 58 3lph-a1-m1-cB_3lph-a1-m1-cA SDEDSLKAVRLIKFLYQSNPPPNPEGTRQARRNRRRRWRERQRQIHSISERIRSTYL SDEDSLKAVRLIKFLYQSNPPPNPEGTRQARRNRRRRWRERQRQIHSISERIRSTYLG 3lpm-a1-m1-cA_3lpm-a1-m1-cB Crystal structure of putative methyltransferase small domain protein from Listeria monocytogenes 2.4 X-RAY DIFFRACTION 54 1.0 219 219 KLKLIGDERLDYLLAENLRIIQSPSVFSFSIDAVLLAKFSYLPIRKGKIIDLCSGNGIIPLLLSTRTKAKIVGVEIQERLADAKRSVAYNQLEDQIEIIEYDLKKITDLIPKERADIVTCNPPCTLEDTIRVAASLLKQGGKANFVHRPERLLDIIDIRKYRLEPKRIQFVHPRSDREANTVLVEGIKDGKPGVKYVPPVIVYDELGEYTPVIKEILYG KLKLIGDERLDYLLAENLRIIQSPSVFSFSIDAVLLAKFSYLPIRKGKIIDLCSGNGIIPLLLSTRTKAKIVGVEIQERLADAKRSVAYNQLEDQIEIIEYDLKKITDLIPKERADIVTCNPPCTLEDTIRVAASLLKQGGKANFVHRPERLLDIIDIRKYRLEPKRIQFVHPRSDREANTVLVEGIKDGKPGVKYVPPVIVYDELGEYTPVIKEILYG 3lpx-a1-m1-cB_3lpx-a1-m1-cA Crystal structure of GyrA Q482G7 Q482G7 2.6 X-RAY DIFFRACTION 124 0.998 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 458 462 ALPDVRDGLKPVHRRVLFAMDVLGNDWNKAYKKSARVVGDVIGKYHPHGDTAVYDTIVRMAQPFSLRYMLVDGQGNFGSVDGDSAAAMRYTEIRMSKIAHSILADLDKETVDFVPNYDGTEHIPAVMPTRVPNLLVNGTSATNIPPHNLTEVINACLALIDNSELTFEEILEHIPGPDFPTAGIISGRAGIEEAYRTGRGKIKIRARASIDVGKETIIVHELPYQVNKARLIEKMAELVKDKRLEGISALRDESDKDGMRMVIEIKRGEVGEVVLNNLYKLTQMQVSFGLNMVALTNGQPKIFNIKEMLEAFVLHRREVVTRRTIFELRKARDRAHILEGLSIALANIDPIIEMIKNSNNRKESEEKLISQGWELGDAARPEWLEPTAEQAKAIVDLQLYKLSGMEHDKILSEYKALLDLIAELMHILATPARLMEVICEELVAIRDEFGDERRTEIT ALPDVRDGLKPVHRRVLFAMDVLGNDWNKAYKKSARVVGDVIGKYHPHGDTAVYDTIVRMAQPFSLRYMLVDGQGNFGSVDGDSAAAMRYTEIRMSKIAHSILADLDKETVDFVPNYDGTEHIPAVMPTRVPNLLVNGTATNIPPHNLTEVINACLALIDNSELTFEEILEHIPGPDFPTAGIISGRAGIEEAYRTGRGKIKIRARASIDVHETTGKETIIVHELPYQVNKARLIEKMAELVKDKRLEGISALRDESDKDGMRMVIEIKRGEVGEVVLNNLYKLTQMQVSFGLNMVALTNGQPKIFNIKEMLEAFVLHRREVVTRRTIFELRKARDRAHILEGLSIALANIDPIIEMIKNSNNRKESEEKLISQGWELGDAARPEWLEPETAEQAKAIVDLQLYKLSGMEHDKILSEYKALLDLIAELMHILATPARLMEVICEELVAIRDEFGDERRTEIT 3lq1-a3-m1-cA_3lq1-a3-m2-cB Crystal structure of 2-succinyl-6-hydroxy-2,4-cyclohexadiene 1-carboxylic acid synthase/2-oxoglutarate decarboxylase FROM Listeria monocytogenes str. 4b F2365 Q71YZ2 Q71YZ2 2.6 X-RAY DIFFRACTION 28 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 513 518 3lq1-a3-m2-cA_3lq1-a3-m1-cB TNHEQVLTDYLAAFIEELVQAGVKEAIISPGSRSTPLALMMAEHPILKIYVDVDERSAGFFALGLAKASKRPVVLLCTSGTAAANYFPAVAEANLSQIPLIVLTADRPHELRNVGAPQAMDQLHLYGSHVKDFTDMALPENSEEMLRYAKWHGSRAVDIAMKTPRGPVHLNFPLREPLVPILEPSPFYYTHEVLDDSSIQKMVTECTGKKGVFVVGPIDKKELEQPMVDLAKKLGWPILADPLSGLRSYGALDEVVIDQYDAFLKEAEIIDKLTPEVVIRFGSMPVSKPLKNWLEQLSDIRFYVVDPGAAWKDPIKAVTDMIHCDERFLLDIMQQNMPDDAKDAAWLNGWTSYNKVAREIVLAEMANEEGKIVAELRRLLPDKAGLFIGNSMPIRDVDTYFSQIDKKIKMLANRGANGIDGVVSSALGASVVFQPMFLLIGDLSFYHDMNGLLMAKKYKMNLTIVIVNNDELDFRFAAAFYDADYHEAKSVDELEEAIDKASYHKGLDIIEVK TNHEQVLTDYLAAFIEELVQAGVKEAIISPGSRSTPLALMMAEHPILKIYVDVDERSAGFFALGLAKASKRPVVLLCTSGTAAANYFPAVAEANLSQIPLIVLTADRPHELRNVGAPQAMDQLHLYGSHVKDFTDMALPENSEEMLRYAKWHGSRAVDIAMKTPRGPVHLNFPLREPLVPILEPSPFTYYTHEVLDDSSIQKMVTECTGKKGVFVVGPIDKKELEQPMVDLAKKLGWPILADPLSGLRSYGALDEVVIDQYDAFLKEAEIIDKLTPEVVIRFGSMPVSKPLKNWLEQLSDIRFYVVDPGAAWKDPIKAVTDMIHCDERFLLDIMQQNMPDDAKDAAWLNGWTSYNKVAREIVLAEMANTTILEEGKIVAELRRLLPDKAGLFIGNSMPIRDVDTYFSQIDKKIKMLANRGANGIDGVVSSALGASVVFQPMFLLIGDLSFYHDMNGLLMAKKYKMNLTIVIVNNDELDFRFAAAFYDADYHEAKSVDELEEAIDKASYHKGLDIIEVK 3lq1-a3-m1-cB_3lq1-a3-m2-cB Crystal structure of 2-succinyl-6-hydroxy-2,4-cyclohexadiene 1-carboxylic acid synthase/2-oxoglutarate decarboxylase FROM Listeria monocytogenes str. 4b F2365 Q71YZ2 Q71YZ2 2.6 X-RAY DIFFRACTION 163 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 518 518 3lq1-a1-m1-cA_3lq1-a1-m2-cA 3lq1-a2-m1-cB_3lq1-a2-m2-cB 3lq1-a3-m1-cA_3lq1-a3-m2-cA TNHEQVLTDYLAAFIEELVQAGVKEAIISPGSRSTPLALMMAEHPILKIYVDVDERSAGFFALGLAKASKRPVVLLCTSGTAAANYFPAVAEANLSQIPLIVLTADRPHELRNVGAPQAMDQLHLYGSHVKDFTDMALPENSEEMLRYAKWHGSRAVDIAMKTPRGPVHLNFPLREPLVPILEPSPFTYYTHEVLDDSSIQKMVTECTGKKGVFVVGPIDKKELEQPMVDLAKKLGWPILADPLSGLRSYGALDEVVIDQYDAFLKEAEIIDKLTPEVVIRFGSMPVSKPLKNWLEQLSDIRFYVVDPGAAWKDPIKAVTDMIHCDERFLLDIMQQNMPDDAKDAAWLNGWTSYNKVAREIVLAEMANTTILEEGKIVAELRRLLPDKAGLFIGNSMPIRDVDTYFSQIDKKIKMLANRGANGIDGVVSSALGASVVFQPMFLLIGDLSFYHDMNGLLMAKKYKMNLTIVIVNNDELDFRFAAAFYDADYHEAKSVDELEEAIDKASYHKGLDIIEVK TNHEQVLTDYLAAFIEELVQAGVKEAIISPGSRSTPLALMMAEHPILKIYVDVDERSAGFFALGLAKASKRPVVLLCTSGTAAANYFPAVAEANLSQIPLIVLTADRPHELRNVGAPQAMDQLHLYGSHVKDFTDMALPENSEEMLRYAKWHGSRAVDIAMKTPRGPVHLNFPLREPLVPILEPSPFTYYTHEVLDDSSIQKMVTECTGKKGVFVVGPIDKKELEQPMVDLAKKLGWPILADPLSGLRSYGALDEVVIDQYDAFLKEAEIIDKLTPEVVIRFGSMPVSKPLKNWLEQLSDIRFYVVDPGAAWKDPIKAVTDMIHCDERFLLDIMQQNMPDDAKDAAWLNGWTSYNKVAREIVLAEMANTTILEEGKIVAELRRLLPDKAGLFIGNSMPIRDVDTYFSQIDKKIKMLANRGANGIDGVVSSALGASVVFQPMFLLIGDLSFYHDMNGLLMAKKYKMNLTIVIVNNDELDFRFAAAFYDADYHEAKSVDELEEAIDKASYHKGLDIIEVK 3lq1-a4-m1-cA_3lq1-a4-m1-cB Crystal structure of 2-succinyl-6-hydroxy-2,4-cyclohexadiene 1-carboxylic acid synthase/2-oxoglutarate decarboxylase FROM Listeria monocytogenes str. 4b F2365 Q71YZ2 Q71YZ2 2.6 X-RAY DIFFRACTION 81 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 513 518 3lq1-a3-m1-cA_3lq1-a3-m1-cB 3lq1-a3-m2-cA_3lq1-a3-m2-cB TNHEQVLTDYLAAFIEELVQAGVKEAIISPGSRSTPLALMMAEHPILKIYVDVDERSAGFFALGLAKASKRPVVLLCTSGTAAANYFPAVAEANLSQIPLIVLTADRPHELRNVGAPQAMDQLHLYGSHVKDFTDMALPENSEEMLRYAKWHGSRAVDIAMKTPRGPVHLNFPLREPLVPILEPSPFYYTHEVLDDSSIQKMVTECTGKKGVFVVGPIDKKELEQPMVDLAKKLGWPILADPLSGLRSYGALDEVVIDQYDAFLKEAEIIDKLTPEVVIRFGSMPVSKPLKNWLEQLSDIRFYVVDPGAAWKDPIKAVTDMIHCDERFLLDIMQQNMPDDAKDAAWLNGWTSYNKVAREIVLAEMANEEGKIVAELRRLLPDKAGLFIGNSMPIRDVDTYFSQIDKKIKMLANRGANGIDGVVSSALGASVVFQPMFLLIGDLSFYHDMNGLLMAKKYKMNLTIVIVNNDELDFRFAAAFYDADYHEAKSVDELEEAIDKASYHKGLDIIEVK TNHEQVLTDYLAAFIEELVQAGVKEAIISPGSRSTPLALMMAEHPILKIYVDVDERSAGFFALGLAKASKRPVVLLCTSGTAAANYFPAVAEANLSQIPLIVLTADRPHELRNVGAPQAMDQLHLYGSHVKDFTDMALPENSEEMLRYAKWHGSRAVDIAMKTPRGPVHLNFPLREPLVPILEPSPFTYYTHEVLDDSSIQKMVTECTGKKGVFVVGPIDKKELEQPMVDLAKKLGWPILADPLSGLRSYGALDEVVIDQYDAFLKEAEIIDKLTPEVVIRFGSMPVSKPLKNWLEQLSDIRFYVVDPGAAWKDPIKAVTDMIHCDERFLLDIMQQNMPDDAKDAAWLNGWTSYNKVAREIVLAEMANTTILEEGKIVAELRRLLPDKAGLFIGNSMPIRDVDTYFSQIDKKIKMLANRGANGIDGVVSSALGASVVFQPMFLLIGDLSFYHDMNGLLMAKKYKMNLTIVIVNNDELDFRFAAAFYDADYHEAKSVDELEEAIDKASYHKGLDIIEVK 3lq3-a1-m1-cA_3lq3-a1-m2-cA Crystal structure of human choline kinase beta in complex with phosphorylated hemicholinium-3 and adenosine nucleotide Q9Y259 Q9Y259 1.42 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 339 339 2ig7-a1-m1-cA_2ig7-a1-m1-cB 3feg-a1-m1-cA_3feg-a1-m2-cA SRDAERRAYQWCREYLGGAWRRVQPEELRVYPVNLLFRCSLPDHLPSVGEEPREVLLRLYGAILQGVDSLVLESVMFAILAERSLGPQLYGVFPEGRLEQYIPSRPLKTQELREPVLSAAIATKMAQFHGMEMPFTKEPHWLFGTMERYLKQIQDLPPTGLPEMNLLEMYSLKDEMGNLRKLLESTPSPVVFCHNDIQEGNILLLSEPDSLMLVDFEYSSYNYRGFDIGNHFCEWVYDYTHEEWPFYKARPTDYPTQEQQLHFIRHYLAEAKKGETLSQEEQRKLEEDLLVEVSRYALASHFFWGLWSILQASMSTIEFGYLDYAQSRFQFYFQQKGQL SRDAERRAYQWCREYLGGAWRRVQPEELRVYPVNLLFRCSLPDHLPSVGEEPREVLLRLYGAILQGVDSLVLESVMFAILAERSLGPQLYGVFPEGRLEQYIPSRPLKTQELREPVLSAAIATKMAQFHGMEMPFTKEPHWLFGTMERYLKQIQDLPPTGLPEMNLLEMYSLKDEMGNLRKLLESTPSPVVFCHNDIQEGNILLLSEPDSLMLVDFEYSSYNYRGFDIGNHFCEWVYDYTHEEWPFYKARPTDYPTQEQQLHFIRHYLAEAKKGETLSQEEQRKLEEDLLVEVSRYALASHFFWGLWSILQASMSTIEFGYLDYAQSRFQFYFQQKGQL 3lqk-a2-m2-cA_3lqk-a2-m3-cA Crystal structure of dipicolinate synthase subunit B from Bacillus halodurans C Q9KA88 Q9KA88 2.1 X-RAY DIFFRACTION 38 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 185 185 3lqk-a1-m1-cA_3lqk-a1-m2-cA 3lqk-a1-m1-cA_3lqk-a1-m3-cA 3lqk-a1-m2-cA_3lqk-a1-m3-cA 3lqk-a1-m4-cA_3lqk-a1-m5-cA 3lqk-a1-m4-cA_3lqk-a1-m6-cA 3lqk-a1-m5-cA_3lqk-a1-m6-cA 3lqk-a2-m1-cA_3lqk-a2-m2-cA 3lqk-a2-m1-cA_3lqk-a2-m3-cA NFAGKHVGFGLTGSHCTYHEVLPQERLVELGAKVTPFVTHTVQTTDTKFGESSEWINKIKQITEEPIVDSVKAEPFGPKTPLDCVIAPTGNSTSKFANATDSPVLGAKATLRNGKPVVVGISTNDALGLNGINIRLATKNIYFIPFGQDNPQVKPNSLVAREALPETIEAALRGQQYQPVLIEKF NFAGKHVGFGLTGSHCTYHEVLPQERLVELGAKVTPFVTHTVQTTDTKFGESSEWINKIKQITEEPIVDSVKAEPFGPKTPLDCVIAPTGNSTSKFANATDSPVLGAKATLRNGKPVVVGISTNDALGLNGINIRLATKNIYFIPFGQDNPQVKPNSLVAREALPETIEAALRGQQYQPVLIEKF 3lqk-a3-m1-cA_3lqk-a3-m4-cA Crystal structure of dipicolinate synthase subunit B from Bacillus halodurans C Q9KA88 Q9KA88 2.1 X-RAY DIFFRACTION 45 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 185 185 3lqk-a1-m1-cA_3lqk-a1-m4-cA 3lqk-a1-m2-cA_3lqk-a1-m6-cA 3lqk-a1-m3-cA_3lqk-a1-m5-cA NFAGKHVGFGLTGSHCTYHEVLPQERLVELGAKVTPFVTHTVQTTDTKFGESSEWINKIKQITEEPIVDSVKAEPFGPKTPLDCVIAPTGNSTSKFANATDSPVLGAKATLRNGKPVVVGISTNDALGLNGINIRLATKNIYFIPFGQDNPQVKPNSLVAREALPETIEAALRGQQYQPVLIEKF NFAGKHVGFGLTGSHCTYHEVLPQERLVELGAKVTPFVTHTVQTTDTKFGESSEWINKIKQITEEPIVDSVKAEPFGPKTPLDCVIAPTGNSTSKFANATDSPVLGAKATLRNGKPVVVGISTNDALGLNGINIRLATKNIYFIPFGQDNPQVKPNSLVAREALPETIEAALRGQQYQPVLIEKF 3lqn-a1-m1-cA_3lqn-a1-m2-cA Crystal Structure of CBS Domain-containing Protein of Unknown Function from Bacillus anthracis str. Ames Ancestor A0A3P1U8K3 A0A3P1U8K3 1.8 X-RAY DIFFRACTION 71 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 138 138 PKDEFQQIFVKDLMISSEKVAHVQIGNGLEHALLVLVKSGYSAIPVLDPMYKLHGLISTAMILDGILGLERIEFERLEEMKVEQVMKQDIPVLKLEDSFAKALEMTIDHPFICAVNEDGYFEGILTRRAILKLLNKKV PKDEFQQIFVKDLMISSEKVAHVQIGNGLEHALLVLVKSGYSAIPVLDPMYKLHGLISTAMILDGILGLERIEFERLEEMKVEQVMKQDIPVLKLEDSFAKALEMTIDHPFICAVNEDGYFEGILTRRAILKLLNKKV 3lqs-a1-m1-cA_3lqs-a1-m1-cB Complex Structure of D-Amino Acid Aminotransferase and 4-amino-4,5-dihydro-thiophenecarboxylic acid (ADTA) P19938 P19938 1.9 X-RAY DIFFRACTION 144 1.0 72579 (Bacillus sp. YM-1) 72579 (Bacillus sp. YM-1) 280 280 1a0g-a1-m1-cA_1a0g-a1-m1-cB 1daa-a1-m1-cA_1daa-a1-m1-cB 1g2w-a1-m1-cA_1g2w-a1-m1-cB 2daa-a1-m1-cA_2daa-a1-m1-cB 2dab-a1-m1-cA_2dab-a1-m1-cB 3daa-a1-m1-cA_3daa-a1-m1-cB 4daa-a1-m1-cA_4daa-a1-m1-cB 5daa-a1-m1-cA_5daa-a1-m1-cB GYTLWNDQIVKDEEVKIDKEDRGYQFGDGVYEVVKVYNGEMFTVNEHIDRLYASAEKIRITIPYTKDKFHQLLHELVEKNELNTGHIYFQVTRGTSPRAHQFPENTVKPVIIGYTKENPRPLENLEKGVKATFVEDIRWLRCDIKSLNLLGAVLAKQEAHEKGCYEAILHRNNTVTEGSSSNVFGIKDGILYTHPANNMILKGITRDVVIACANEINMPVKEIPFTTHEALKMDELFVTSTTSEITPVIEIDGKLIRDGKVGEWTRKLQKQFETKIPKPL GYTLWNDQIVKDEEVKIDKEDRGYQFGDGVYEVVKVYNGEMFTVNEHIDRLYASAEKIRITIPYTKDKFHQLLHELVEKNELNTGHIYFQVTRGTSPRAHQFPENTVKPVIIGYTKENPRPLENLEKGVKATFVEDIRWLRCDIKSLNLLGAVLAKQEAHEKGCYEAILHRNNTVTEGSSSNVFGIKDGILYTHPANNMILKGITRDVVIACANEINMPVKEIPFTTHEALKMDELFVTSTTSEITPVIEIDGKLIRDGKVGEWTRKLQKQFETKIPKPL 3lqw-a1-m2-cA_3lqw-a1-m3-cA Crystal structure of deoxyuridine 5-triphosphate nucleotidohydrolase from Entamoeba histolytica C4M4M6 C4M4M6 1.3 X-RAY DIFFRACTION 112 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 129 129 3lqw-a1-m1-cA_3lqw-a1-m2-cA 3lqw-a1-m1-cA_3lqw-a1-m3-cA DEVLLVKKLVEDAIVPTRGSKCAAGIDLYSNTNFIIQPHERFLVSTGVSVQIPHQCYGRIAPRSSLALKYGIDVGAGVIDEDYRGEIKVILFNHSNEIFNGRKGDRIAQLIIERISYCRISEVKELNTT DEVLLVKKLVEDAIVPTRGSKCAAGIDLYSNTNFIIQPHERFLVSTGVSVQIPHQCYGRIAPRSSLALKYGIDVGAGVIDEDYRGEIKVILFNHSNEIFNGRKGDRIAQLIIERISYCRISEVKELNTT 3lqy-a2-m1-cA_3lqy-a2-m2-cA Crystal structure of putative isochorismatase hydrolase from Oleispira antarctica L7MTK1 L7MTK1 1.75 X-RAY DIFFRACTION 90 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 182 182 GTTENTTALLLIDFQNDYFSTYNGAKNPLVGTEAAAEQGAKLLAKFRQQGLPVVHVRHEFTDEAPFFLPGSDGAKIHPSVAAQEGEAVVLKHQINSFRDTDLKKVLDDAIKKLVIVGATHIDAVTRAAEDLGYECAVAHDACATLDLEFNGITVPAAQVHAAFSALSFAYANVASADELIAG GTTENTTALLLIDFQNDYFSTYNGAKNPLVGTEAAAEQGAKLLAKFRQQGLPVVHVRHEFTDEAPFFLPGSDGAKIHPSVAAQEGEAVVLKHQINSFRDTDLKKVLDDAIKKLVIVGATHIDAVTRAAEDLGYECAVAHDACATLDLEFNGITVPAAQVHAAFSALSFAYANVASADELIAG 3lr0-a1-m1-cA_3lr0-a1-m2-cA Periplasmic domain of the risS sensor protein from Burkholderia pseudomallei, iodide phased at low pH Q63T74 Q63T74 1.9 X-RAY DIFFRACTION 61 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 102 102 3lr3-a1-m1-cA_3lr3-a1-m2-cA 3lr4-a1-m1-cA_3lr4-a1-m2-cA 3te8-a1-m1-cA_3te8-a1-m1-cB AQRVALQLVAIVKLTRTALLYSDPDLRRALLQDLESNEGVRVYPREKTDKFKLQPDESVNRLIEHDIRSRLGDDTVIAQSVNDIPGVWISFKIDDDDYWVAL AQRVALQLVAIVKLTRTALLYSDPDLRRALLQDLESNEGVRVYPREKTDKFKLQPDESVNRLIEHDIRSRLGDDTVIAQSVNDIPGVWISFKIDDDDYWVAL 3lr2-a1-m1-cA_3lr2-a1-m1-cB Self-assembly of spider silk proteins is controlled by a pH-sensitive relay Q05H60 Q05H60 1.7 X-RAY DIFFRACTION 98 1.0 332052 (Euprosthenops australis) 332052 (Euprosthenops australis) 125 129 2lth-a1-m1-cA_2lth-a1-m1-cB 3lr6-a1-m1-cA_3lr6-a1-m1-cB 3lr8-a1-m1-cB_3lr8-a1-m1-cA 3lrd-a1-m1-cB_3lrd-a1-m1-cA 6r9d-a1-m1-cB_6r9d-a1-m1-cA 6r9d-a2-m1-cC_6r9d-a2-m1-cD 6r9d-a3-m1-cF_6r9d-a3-m1-cE HTTPWTNPGLAENFMNSFMQGLSSMPGFTASQLDDMSTIAQSMVQSIQSLAAQGRTSPNKLQALNMAFASSMAEIAASEEGGGSLSTKTSSIASAMSNAFLQTTGVVNQPFINEITQLVSMFAQA HTTPWTNPGLAENFMNSFMQGLSSMPGFTASQLDDMSTIAQSMVQSIQSLAAQGRTSPNKLQALNMAFASSMAEIAASEEGGGSLSTKTSSIASAMSNAFLQTTGVVNQPFINEITQLVSMFAQAGMND 3lrj-a1-m1-cB_3lrj-a1-m1-cA Crystal structure of 3,4-Dihydroxy-2-butanone 4-phosphate synthase in complex with sulfate ion. P66032 P66032 2.803 X-RAY DIFFRACTION 130 0.995 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 198 199 1g57-a1-m1-cA_1g57-a1-m1-cB 1g58-a1-m1-cA_1g58-a1-m1-cB 3lqu-a1-m1-cB_3lqu-a1-m1-cA 3lrj-a2-m1-cC_3lrj-a2-m1-cD 3ls6-a1-m1-cB_3ls6-a1-m1-cA 7tye-a1-m1-cA_7tye-a1-m2-cA 7tye-a2-m1-cC_7tye-a2-m1-cB TPFERVELALDALREGRGVMVLDDNEGDMIFPAETMTVEQMALTIRHGSGIVCLCITEDRRKQLDLPMMVENNTSAYGTGFTVTIEAAEGVTTGVSAADRVTTVRAAIKDGAKPSDLNRPGHVFPLRAQAGGVLTRGGHTEATIDLMTLAGFKPAGVLCELTNDDGTMARAPECIAFAGQHNMAVVTIEDLVAYRQAH FGTPFERVELALDALREGRGVMVLDNEGDMIFPAETMTVEQMALTIRHGSGIVCLCITEDRRKQLDLPMMVENNTSAYGTGFTVTIEAAEGVTTGVSAADRVTTVRAAIKDGAKPSDLNRPGHVFPLRAQAGGVLTRGGHTEATIDLMTLAGFKPAGVLCELTNDDGTMARAPECIAFAGQHNMAVVTIEDLVAYRQAH 3lrk-a1-m2-cA_3lrk-a1-m4-cA Structure of alfa-galactosidase (MEL1) from Saccharomyces cerevisiae P04824 P04824 1.95 X-RAY DIFFRACTION 66 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 452 452 3lrk-a1-m1-cA_3lrk-a1-m3-cA 3lrk-a1-m1-cA_3lrk-a1-m4-cA 3lrk-a1-m2-cA_3lrk-a1-m3-cA 3lrl-a1-m1-cA_3lrl-a1-m3-cA 3lrl-a1-m1-cA_3lrl-a1-m4-cA 3lrl-a1-m2-cA_3lrl-a1-m3-cA 3lrl-a1-m2-cA_3lrl-a1-m4-cA 3lrm-a1-m1-cA_3lrm-a1-m1-cB 3lrm-a1-m1-cA_3lrm-a1-m1-cD 3lrm-a1-m1-cB_3lrm-a1-m1-cC 3lrm-a1-m1-cC_3lrm-a1-m1-cD VSPSYNGLGLTPQMGWDNWNTFACDVSEQLLLDTADRISDLGLKDMGYKYIILDDCWSSGRDSDGFLVADEQKFPNGMGHVADHLHNNSFLFGMYSSAGEYTCAGYPGSLGREEEDAQFFANNRVDYLKYDNCYNKGQFGTPEISYHRYKAMSDALNKTGRPVFYSLCNWGQDLTFYWGSGIANSWRMSGDVTAEFTRPDSRCPCDGDEYDCKYAGFHCSIMNILNKAAPMGQNAGVGGWNDLDNLEVGVGNLTDDEEKAHFSMWAMVKSPLIIGANVNNLKASSYSIYSQASVIAINQDSNGIPATRVWRYYVSDTDEYGQGEIQMWSGPLDNGDQVVALLNGGSVSRPMNTTLEEIFFDSNLGSKKLTSTWDIYDLWANRVDNSTASAILGRNKTATGILYNATEQSYKDGLSKNDTRLFGQKIGSLSPNAILNTTVPAHGIAFYRLRPS VSPSYNGLGLTPQMGWDNWNTFACDVSEQLLLDTADRISDLGLKDMGYKYIILDDCWSSGRDSDGFLVADEQKFPNGMGHVADHLHNNSFLFGMYSSAGEYTCAGYPGSLGREEEDAQFFANNRVDYLKYDNCYNKGQFGTPEISYHRYKAMSDALNKTGRPVFYSLCNWGQDLTFYWGSGIANSWRMSGDVTAEFTRPDSRCPCDGDEYDCKYAGFHCSIMNILNKAAPMGQNAGVGGWNDLDNLEVGVGNLTDDEEKAHFSMWAMVKSPLIIGANVNNLKASSYSIYSQASVIAINQDSNGIPATRVWRYYVSDTDEYGQGEIQMWSGPLDNGDQVVALLNGGSVSRPMNTTLEEIFFDSNLGSKKLTSTWDIYDLWANRVDNSTASAILGRNKTATGILYNATEQSYKDGLSKNDTRLFGQKIGSLSPNAILNTTVPAHGIAFYRLRPS 3lrp-a2-m1-cA_3lrp-a2-m2-cA Crystal Structure of Plasmodium falciparum ADP-Ribosylation Factor 1 Q7KQL3 Q7KQL3 2.5 X-RAY DIFFRACTION 25 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 181 181 MGLYVSRLFNRLFQKKDVRILMVGLDAAGKTTILYKVKLGEVVTTIPTIGFNVETVEFRNISFTVWDVGGQDKIRPLWRHYYSNTDGLIFVVDSNDRERIDDAREELHRMINEEELKDAIILVFANKQDLPNAMSAAEVTEKLHLNTIRERNWFIQSTCATRGDGLYEGFDWLTTHLNNAK MGLYVSRLFNRLFQKKDVRILMVGLDAAGKTTILYKVKLGEVVTTIPTIGFNVETVEFRNISFTVWDVGGQDKIRPLWRHYYSNTDGLIFVVDSNDRERIDDAREELHRMINEEELKDAIILVFANKQDLPNAMSAAEVTEKLHLNTIRERNWFIQSTCATRGDGLYEGFDWLTTHLNNAK 3lrq-a2-m1-cB_3lrq-a2-m1-cC Crystal structure of the U-box domain of human ubiquitin-protein ligase (E3), NORTHEAST STRUCTURAL GENOMICS CONSORTIUM TARGET HR4604D. O94972 O94972 2.292 X-RAY DIFFRACTION 50 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 78 80 3lrq-a1-m1-cA_3lrq-a1-m1-cD HDEQSVESIAEVFRCFICEKLRDARLCPHCSKLCCFSCIRRWLTEQRAQCPHCRAPLQLRELVNCRWAEEVTQQLDTL DEQSVESIAEVFRCFICEKLRDARLCPHCSKLCCFSCIRRWLTEQRAQCPHCRAPLQLRELVNCRWAEEVTQQLDTLQLC 3lru-a1-m1-cB_3lru-a1-m1-cA hPRP8 Non-Native Subdomain Q6P2Q9 Q6P2Q9 1.85 X-RAY DIFFRACTION 223 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 160 WKTAEEVAALIRSPVEEQPKQIIVTRKGMLDPLEVHLLDFPNIVIKGSEFQACLKVEKFGDLEPQMVLFNLYDDWLKTISSYTAFSRLILILRALHVNNDRAKVILKPTTITEPHHIWPTLTDEEWIKVEVQLKDLILAD KRLGQLAKWKTAEEVAALIRSLPVEEQPKQIIVTRKGMLDPLEVHLLDFPNIVIKGSELQLPFQACLKVEKFGDLILKATEPQMVLFNLYDDWLKTISSYTAFSRLILILRALHVNNDRAKVILKPDKTTITEPHHIWPTLTDEEWIKVEVQLKDLILAD 3ls2-a2-m1-cC_3ls2-a2-m1-cD Crystal structure of an S-formylglutathione hydrolase from Pseudoalteromonas haloplanktis TAC125 Q3IL66 Q3IL66 2.2 X-RAY DIFFRACTION 59 1.0 326442 (Pseudoalteromonas translucida TAC125) 326442 (Pseudoalteromonas translucida TAC125) 278 278 3ls2-a1-m1-cA_3ls2-a1-m1-cB LENISSVKVSGGWHKQYTHSAVSTHCTMRFAVFLPPGASESNKVPVLYWLSGLTCTDENFMQKAGAFKKAAELGIAIVAPDTSPRGDNVPNEDSYDFAQGAGFYVNATQAPYNTHFNMYDYVVNELPALIEQHFPVTSTKAISGHSMGGHGALMIALKNPQDYVSASAFSPIVNPINCPWGVKAFTGYLGADKTTWAQYDSCKLMAKAEQSNYLPMLVSQGDADNFLDEQLKPQNLVAVAKQKDYPLTLEMQTGYDHSYFFISSFIDQHLVFHHQYLS LENISSVKVSGGWHKQYTHSAVSTHCTMRFAVFLPPGASESNKVPVLYWLSGLTCTDENFMQKAGAFKKAAELGIAIVAPDTSPRGDNVPNEDSYDFAQGAGFYVNATQAPYNTHFNMYDYVVNELPALIEQHFPVTSTKAISGHSMGGHGALMIALKNPQDYVSASAFSPIVNPINCPWGVKAFTGYLGADKTTWAQYDSCKLMAKAEQSNYLPMLVSQGDADNFLDEQLKPQNLVAVAKQKDYPLTLEMQTGYDHSYFFISSFIDQHLVFHHQYLS 3ls9-a1-m1-cA_3ls9-a1-m1-cB Crystal structure of atrazine chlorohydrolase TrzN from Arthrobacter aurescens TC1 complexed with zinc Q6SJY7 Q6SJY7 1.4 X-RAY DIFFRACTION 239 1.0 43663 (Paenarthrobacter aurescens) 43663 (Paenarthrobacter aurescens) 453 453 3lsb-a1-m1-cA_3lsb-a1-m1-cB 3lsc-a1-m1-cA_3lsc-a1-m1-cB 4l9x-a1-m1-cA_4l9x-a1-m1-cB 4lh8-a1-m1-cB_4lh8-a1-m1-cA 5hmd-a3-m1-cB_5hmd-a3-m1-cA 5hme-a3-m1-cB_5hme-a3-m1-cA 5hmf-a3-m1-cB_5hmf-a3-m1-cA MILIRGLTRVITFDDQERELEDADILIDGPKIVAVGKDLSDRSVSRTIDGRGMIALPGLINSHQHLYEGAMRAIPQLERVTMASWLEGVLTRSAGWWRDGKFGPDVIREVARAVLLESLLGGITTVADQHLFFPGATADSYIDATIEAATDLGIRFHAARSSMTLGKSEGGFCDDLFVEPVDRVVQHCLGLIDQYHEPEPFGMVRIALGPCGVPYDKPELFEAFAQMAADYDVRLHTHFYEPLDAGMSDHLYGMTPWRFLEKHGWASDRVWLAHAVVPPREEIPEFADAGVAIAHLIAPDLRMGWGLAPIREYLDAGITVGFGTTGSASNDGGNLLGDLRLAALAHRPADPNEPEKWLSARELLRMATRGSAECLGRPDLGVLEEGRAADIACWRLDGVDRVGVHDPAIGLIMTGLSDRASLVVVNGQVLVENERPVLADLERIVANTTALIP MILIRGLTRVITFDDQERELEDADILIDGPKIVAVGKDLSDRSVSRTIDGRGMIALPGLINSHQHLYEGAMRAIPQLERVTMASWLEGVLTRSAGWWRDGKFGPDVIREVARAVLLESLLGGITTVADQHLFFPGATADSYIDATIEAATDLGIRFHAARSSMTLGKSEGGFCDDLFVEPVDRVVQHCLGLIDQYHEPEPFGMVRIALGPCGVPYDKPELFEAFAQMAADYDVRLHTHFYEPLDAGMSDHLYGMTPWRFLEKHGWASDRVWLAHAVVPPREEIPEFADAGVAIAHLIAPDLRMGWGLAPIREYLDAGITVGFGTTGSASNDGGNLLGDLRLAALAHRPADPNEPEKWLSARELLRMATRGSAECLGRPDLGVLEEGRAADIACWRLDGVDRVGVHDPAIGLIMTGLSDRASLVVVNGQVLVENERPVLADLERIVANTTALIP 3lsg-a2-m1-cD_3lsg-a2-m1-cC The crystal structure of the C-terminal domain of the two-component response regulator yesN from Fusobacterium nucleatum subsp. nucleatum ATCC 25586 Q8RGT8 Q8RGT8 2.049 X-RAY DIFFRACTION 59 0.989 76856 (Fusobacterium nucleatum subsp. nucleatum) 76856 (Fusobacterium nucleatum subsp. nucleatum) 93 100 3lsg-a1-m1-cA_3lsg-a1-m1-cB SNAKELIQNIIEESYTDSQFTLSVLSEKLDLSSGYLSIFKKNFGIPFQDYLLQKREKAKLLLLTTELKNYEIAEQVGFEDVNYFITKFKKYYQ NAKELIQNIIEESYTDSQFTLSVLSEKLDLSSGYLSIFKKNFGIPFQDYLLQKREKAKLLLLTTELKNYEIAEQVGFEDVNYFITKFKKYYQITPKQYRE 3lsn-a1-m1-cA_3lsn-a1-m2-cA Crystal structure of putative geranyltranstransferase from PSEUDOMONAS fluorescens PF-5 complexed with magnesium Q4K5A6 Q4K5A6 1.35 X-RAY DIFFRACTION 141 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 273 273 3lji-a1-m1-cA_3lji-a1-m2-cA 3p41-a1-m1-cA_3p41-a1-m2-cA SLTAYQASSQARVDAAHTLFTAPSPELARLYEARYSVNGGKRVRPLLAYAACEALGGKPEQANGAACAVELIHAYSLVHDDLPADDDDLRRGQPTTHKAFDEACAILAGDGLQSLAFSALLDPALSDASAEIRLRVTTLAQAAGPAGVGGQAIDLGSVGLKLDQQALEYHRHKTGALIEASVILGALASGRAEKGELKALQTYAQAIGLAFQVQDDILDVESDTATLPTYPALLGLAAAKEYALELRDQALHALRPFDAAAEPLRELARYIVE SLTAYQASSQARVDAAHTLFTAPSPELARLYEARYSVNGGKRVRPLLAYAACEALGGKPEQANGAACAVELIHAYSLVHDDLPADDDDLRRGQPTTHKAFDEACAILAGDGLQSLAFSALLDPALSDASAEIRLRVTTLAQAAGPAGVGGQAIDLGSVGLKLDQQALEYHRHKTGALIEASVILGALASGRAEKGELKALQTYAQAIGLAFQVQDDILDVESDTATLPTYPALLGLAAAKEYALELRDQALHALRPFDAAAEPLRELARYIVE 3lsp-a2-m1-cA_3lsp-a2-m2-cA Crystal Structure of DesT bound to desCB promoter and oleoyl-CoA Q9HUS3 Q9HUS3 2.66 X-RAY DIFFRACTION 112 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 194 194 3lsj-a1-m1-cB_3lsj-a1-m1-cA 3lsp-a1-m1-cA_3lsp-a1-m2-cA 3lsr-a1-m1-cA_3lsr-a1-m2-cA PRAEQKQQTRHALMSAARHLMESGRGFGSLSLREVTRAAGIVPAGFYRHFSDMDQLGLALVAEVDETFRATLRAVRRNEFELGGLIDASVRIFLDAVGANRSQFLFLAREQYGGSLPIRQAIASLRQRITDDLAADLALLNKMPHLDGAALDVFADLVVKTVFATLPELIDHLMPAAKITHQLRFIMIGGKHWH PRAEQKQQTRHALMSAARHLMESGRGFGSLSLREVTRAAGIVPAGFYRHFSDMDQLGLALVAEVDETFRATLRAVRRNEFELGGLIDASVRIFLDAVGANRSQFLFLAREQYGGSLPIRQAIASLRQRITDDLAADLALLNKMPHLDGAALDVFADLVVKTVFATLPELIDHLMPAAKITHQLRFIMIGGKHWH 3lst-a2-m1-cB_3lst-a2-m3-cB Crystal Structure of CalO1, Methyltransferase in Calicheamicin Biosynthesis, SAH bound form Q8KNE5 Q8KNE5 2.4 X-RAY DIFFRACTION 295 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 322 322 3lst-a1-m1-cA_3lst-a1-m2-cA DDRLQSALALYEEAGYTYAAALRAAAAVGVADHLVDGPRTPAELAAATGTDADALRRVLRLLAVRDVVRESDGRFALTDKGAALRSDSPVPARAGILFTDTFWTSHRVASALGPERPAFADIFGSSLDAYFDGDAEVEALYYEGETVSAAEHLILARAGDFPATGTVADVGGGRGGFLLTVLREHPGLQGVLLDRAEVVARHRLDAPDVAGRWKVVEGDFLREVPHADVHVLKRILHNWGDEDSVRILTNCRRVPAHGRVLVIDAVVPEGNDAHQSKEDFLAARTGQERTAAELEPLFTAAGLRLDRVVGTSSVSIAVGVPA DDRLQSALALYEEAGYTYAAALRAAAAVGVADHLVDGPRTPAELAAATGTDADALRRVLRLLAVRDVVRESDGRFALTDKGAALRSDSPVPARAGILFTDTFWTSHRVASALGPERPAFADIFGSSLDAYFDGDAEVEALYYEGETVSAAEHLILARAGDFPATGTVADVGGGRGGFLLTVLREHPGLQGVLLDRAEVVARHRLDAPDVAGRWKVVEGDFLREVPHADVHVLKRILHNWGDEDSVRILTNCRRVPAHGRVLVIDAVVPEGNDAHQSKEDFLAARTGQERTAAELEPLFTAAGLRLDRVVGTSSVSIAVGVPA 3lsz-a1-m1-cD_3lsz-a1-m1-cA Crystal structure of glutathione s-transferase from Rhodobacter sphaeroides Q3IZT6 Q3IZT6 1.7 X-RAY DIFFRACTION 17 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 211 220 LKIYGVYRSRASRPLWLLAELDLPFEHVPVIQANRVAHPHEAPLNTASAAYLAVNPLGQIPCLEEEGLILTESLAITLHIARTQGGQLGPRSEPEDALVSWSLFAATAVEPPALEIQLIQRSGGGTSPEGQAAIAIAAERLRRPLARLERHFAAEDYLVGGRFTVADLNLAETLRYGQAHPALLEPFPAVAAWLDRCQSRPAFRLERRAAE SLKIYGVYRSRASRPLWLLAELDLPFEHVPVIQANRVAHPHGPEAPLNTASAAYLAVNPLGQIPCLEEEGLILTESLAITLHIARTQGGQLGPRSEPEDALVSWSLFAATAVEPPALEIQLIQRSGGGTSPEGQAAIAIAAERLRRPLARLERHFAAEDYLVGGRFTVADLNLAETLRYGQAHPALLEPFPAVAAWLDRCQSRPAFRLERRAAEGHHHHH 3lsz-a1-m1-cD_3lsz-a1-m1-cB Crystal structure of glutathione s-transferase from Rhodobacter sphaeroides Q3IZT6 Q3IZT6 1.7 X-RAY DIFFRACTION 84 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 211 217 3lsz-a1-m1-cC_3lsz-a1-m1-cA LKIYGVYRSRASRPLWLLAELDLPFEHVPVIQANRVAHPHEAPLNTASAAYLAVNPLGQIPCLEEEGLILTESLAITLHIARTQGGQLGPRSEPEDALVSWSLFAATAVEPPALEIQLIQRSGGGTSPEGQAAIAIAAERLRRPLARLERHFAAEDYLVGGRFTVADLNLAETLRYGQAHPALLEPFPAVAAWLDRCQSRPAFRLERRAAE LKIYGVYRSRASRPLWLLAELDLPFEHVPVIQANRVAHPHGPEAPLNTASAAYLAVNPLGQIPCLEEEGLILTESLAITLHIARTQGGQLGPRSEPEDALVSWSLFAATAVEPPALEIQLIQRSGGGTSPEGQAAIAIAAERLRRPLARLERHFAAEDYLVGGRFTVADLNLAETLRYGQAHPALLEPFPAVAAWLDRCQSRPAFRLERRAAEGHHH 3lsz-a1-m1-cD_3lsz-a1-m1-cC Crystal structure of glutathione s-transferase from Rhodobacter sphaeroides Q3IZT6 Q3IZT6 1.7 X-RAY DIFFRACTION 24 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 211 214 3lsz-a1-m1-cB_3lsz-a1-m1-cA LKIYGVYRSRASRPLWLLAELDLPFEHVPVIQANRVAHPHEAPLNTASAAYLAVNPLGQIPCLEEEGLILTESLAITLHIARTQGGQLGPRSEPEDALVSWSLFAATAVEPPALEIQLIQRSGGGTSPEGQAAIAIAAERLRRPLARLERHFAAEDYLVGGRFTVADLNLAETLRYGQAHPALLEPFPAVAAWLDRCQSRPAFRLERRAAE SLKIYGVYRSRASRPLWLLAELDLPFEHVPVIQANRVAHPHGPEAPLNTASAAYLAVNPLGQIPCLEEEGLILTESLAITLHIARTQGGQLGPRSEPEDALVSWSLFAATAVEPPALEIQLIQRSGGGTSPEGQAAIAIAAERLRRPLARLERHFAAEDYLVGGRFTVADLNLAETLRYGQAHPALLEPFPAVAAWLDRCQSRPAFRLERRAAE 3lt4-a1-m1-cA_3lt4-a1-m2-cA Enoyl-ACP Reductase from Plasmodium falciparum (PfENR) in complex with triclosan variant PB4 Q9BJJ9 Q9BJJ9 2.25 X-RAY DIFFRACTION 110 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 286 286 1nhg-a2-m1-cA_1nhg-a2-m2-cA 1nhg-a2-m1-cB_1nhg-a2-m2-cB 1nhw-a2-m1-cA_1nhw-a2-m2-cA 1nhw-a2-m1-cB_1nhw-a2-m2-cB 1nnu-a2-m1-cA_1nnu-a2-m2-cA 1nnu-a2-m1-cB_1nnu-a2-m2-cB 1uh5-a1-m1-cA_1uh5-a1-m2-cA 1uh5-a1-m1-cB_1uh5-a1-m2-cB 1v35-a1-m1-cA_1v35-a1-m2-cA 1v35-a1-m1-cB_1v35-a1-m2-cB 1vrw-a2-m1-cA_1vrw-a2-m2-cA 1vrw-a2-m1-cB_1vrw-a2-m2-cB 1zsn-a1-m1-cA_1zsn-a1-m2-cA 1zsn-a1-m1-cB_1zsn-a1-m2-cB 1zw1-a1-m1-cA_1zw1-a1-m2-cA 1zw1-a1-m1-cB_1zw1-a1-m2-cB 1zxb-a1-m1-cA_1zxb-a1-m2-cA 1zxb-a1-m1-cB_1zxb-a1-m2-cB 1zxl-a1-m1-cA_1zxl-a1-m2-cA 1zxl-a1-m1-cB_1zxl-a1-m2-cB 2foi-a2-m1-cA_2foi-a2-m2-cA 2foi-a2-m1-cB_2foi-a2-m2-cB 2nq8-a1-m1-cA_2nq8-a1-m2-cA 2nq8-a1-m1-cB_2nq8-a1-m2-cB 2o2y-a1-m1-cA_2o2y-a1-m1-cB 2o2y-a1-m1-cD_2o2y-a1-m1-cC 2ol4-a1-m1-cA_2ol4-a1-m2-cA 2ol4-a1-m1-cB_2ol4-a1-m2-cB 2oos-a1-m1-cA_2oos-a1-m2-cA 2oos-a1-m1-cB_2oos-a1-m2-cB 2op0-a1-m1-cA_2op0-a1-m2-cA 2op0-a1-m1-cB_2op0-a1-m2-cB 2op1-a1-m1-cA_2op1-a1-m2-cA 2op1-a1-m1-cB_2op1-a1-m2-cB 3am3-a1-m1-cA_3am3-a1-m2-cA 3am3-a1-m1-cB_3am3-a1-m2-cB 3am4-a1-m1-cA_3am4-a1-m2-cA 3am4-a1-m1-cB_3am4-a1-m2-cB 3am5-a1-m1-cA_3am5-a1-m2-cA 3am5-a1-m1-cB_3am5-a1-m2-cB 3lsy-a1-m1-cA_3lsy-a1-m2-cA 3lsy-a1-m1-cB_3lsy-a1-m2-cB 3lt0-a1-m1-cA_3lt0-a1-m2-cA 3lt0-a1-m1-cB_3lt0-a1-m2-cB 3lt1-a1-m1-cA_3lt1-a1-m2-cA 3lt1-a1-m1-cB_3lt1-a1-m2-cB 3lt2-a1-m1-cA_3lt2-a1-m2-cA 3lt2-a1-m1-cB_3lt2-a1-m2-cB 3lt4-a1-m1-cB_3lt4-a1-m2-cB EDICFIAGIGDTNGYGWGIAKELSKRNVKIIFGIWPPVYNIFMKNYKNGKFDNDMIIDKDKKMNILDMLPFDASFDTANDIDEETKNNKRYNMLQNYTIEDVANLIHQKYGKINMLVHSLANAKEVQKDLLNTSRKGYLDALSKSSYSLISLCKYFVNIMKPQSSIISLTYHASQKVVPGYGGGMSSAKAALESDTRVLAYHLGRNYNIRINTISAGPLKSRAATAINTFIDYAIEYSEKYAPLRQKLLSTDIGSVASFLLSRESRAITGQTIYVDNGLNIMFLPD EDICFIAGIGDTNGYGWGIAKELSKRNVKIIFGIWPPVYNIFMKNYKNGKFDNDMIIDKDKKMNILDMLPFDASFDTANDIDEETKNNKRYNMLQNYTIEDVANLIHQKYGKINMLVHSLANAKEVQKDLLNTSRKGYLDALSKSSYSLISLCKYFVNIMKPQSSIISLTYHASQKVVPGYGGGMSSAKAALESDTRVLAYHLGRNYNIRINTISAGPLKSRAATAINTFIDYAIEYSEKYAPLRQKLLSTDIGSVASFLLSRESRAITGQTIYVDNGLNIMFLPD 3lt6-a2-m1-cE_3lt6-a2-m1-cF A transition from strong right-handed to canonical left-handed supercoiling in a conserved coiled coil segment of trimeric autotransporter adhesins - the Mutant 4 structure P0C2W0 P0C2W0 1.8 X-RAY DIFFRACTION 61 0.982 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 56 62 KSSHTLKTANSYTDVTVSNSTKKAIRESNQYTDHKHQLENRLDKLEKRLLKLLASS SSHTLKTANSYTDVTVSNSTKKAIRESNQYTDHKHQLENRLDKLEKRLLKLLASSAALNSLF 3lte-a2-m1-cC_3lte-a2-m1-cD CRYSTAL STRUCTURE OF RESPONSE REGULATOR (SIGNAL RECEIVER DOMAIN) FROM Bermanella marisrubri Q1N036 Q1N036 2 X-RAY DIFFRACTION 65 1.0 207949 (Bermanella marisrubri) 207949 (Bermanella marisrubri) 119 123 3lte-a10-m1-cT_3lte-a10-m1-cS 3lte-a11-m1-cV_3lte-a11-m1-cU 3lte-a12-m1-cX_3lte-a12-m1-cW 3lte-a1-m1-cA_3lte-a1-m1-cB 3lte-a3-m1-cE_3lte-a3-m1-cF 3lte-a4-m1-cG_3lte-a4-m1-cH 3lte-a5-m1-cI_3lte-a5-m1-cJ 3lte-a6-m1-cL_3lte-a6-m1-cK 3lte-a7-m1-cM_3lte-a7-m1-cN 3lte-a8-m1-cO_3lte-a8-m1-cP 3lte-a9-m1-cQ_3lte-a9-m1-cR SKRILVVDDDQAMAAAIERVLKRDHWQVEIAHNGFDAGIKLSTFEPAIMTLDLSMPKLDGLDVIRSLRQNKVANQPKILVVSGLDKAKLQQAVTEGADDYLEKPFDNDALLDRIHDLVN SLKQSKRILVVDDDQAMAAAIERVLKRDHWQVEIAHNGFDAGIKLSTFEPAIMTLDLSMPKLDGLDVIRSLRQNKVANQPKILVVSGLDKAKLQQAVTEGADDYLEKPFDNDALLDRIHDLVN 3ltf-a1-m1-cA_3ltf-a1-m1-cC Crystal Structure of the Drosophila Epidermal Growth Factor Receptor ectodomain in complex with Spitz P04412 P04412 3.2 X-RAY DIFFRACTION 103 0.99 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 522 531 3ltg-a1-m1-cA_3ltg-a1-m1-cC HHHKICIGTKSRLSVPSNKEHHYRNLRDRYTNCTYVDGNLELTWLPNENLDLSFLDNIREVTGYILISHVDVKKVVFPKLQIIRGRTLFSLSEEKYALFVTYSKMYTLEIPDLRDVLNGQVGFHNNYNLCHMRTIQWSEIVSNGTDAYAPERECPKCHESCTHGCWGEGPKNCQKFSKLTCSPQCAGGRCYGPKPRECCHLFCAGGCTGPTQKDCIACKNFFDEGVCKEECPPMRKYNPTTYVLETNPEGKYAYGATCVKECPGHLLRDNGACVRSCPQDKMDKGGECVPCNGPCPKTCPGVTVLHAGNIDSFRNCTVIDGNIRILDQTFSGFQDVYANYTMGPRYIPLDPERLEVFSTVKEITGYLNIEGTHPQFRNLSYFRNLETIHGRQLMESMFAALAIVKSSLYSLEMRNLKQISSGSVVIQHNRDLCYVSNIRWPAIQKEPEQKVWVNENLRADLCEKNGTICSDQCNEDGCWGAGTDQCLNCKNFNFNGTCIADCGYISNAYKFDNRTCKICHCN HKICIGTKSRLSVPSNKEHHYRNLRDRYTNCTYVDGNLELTWLPNENLDLSFLDNIREVTGYILISHVDVKKVVFPKLQIIRGRTLFSLSVEEEKYALFVTYSKMYTLEIPDLRDVLNGQVGFHNNYNLCHMRTIQWSEIVSNGTAPERECPKCHESCTHGCWGEGPKNCQKFSKLTCSPQCAGGRCYGPKPRECCHLFCAGGCTGPTQKDCIACKNFFDEGVCKEECPPMRKYNPTTYVLETNPEGKYAYGATCVKECPGHLLRDNGACVRSCPQDKMDKGGECVPCNGPCPKTCPGVTVLHAGNIDSFRNCTVIDGNIRILDQTFSGFQDVYANYTMGPRYIPLDPERLEVFSTVKEITGYLNIEGTHPQFRNLSYFRNLETIHGRQLMESMFAALAIVKSSLYSLEMRNLKQISSGSVVIQHNRDLCYVSNIRWPAIQKEPEQKVWVNENLRADLCEKNGTICSDQCNEDGCWGAGTDQCLNCKNFNFNGTCIADCGYISNAYKFDNRTCKICHPECRTCNGAGADHC 3lto-a1-m1-cA_3lto-a1-m1-cB Crystal structure of a mevalonate diphosphate decarboxylase from Legionella pneumophila Q5ZTW8 Q5ZTW8 2.27 X-RAY DIFFRACTION 26 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 311 311 HWFAQAPANIALIKYGKKDENSNLPDNSSLSYTLSNLLSSVKLEKLPTKKDIWEPLTIPGAPEFNLSVEAQKRFIDHLVRLKEYFGYVGGFLIQSSNNFPHSSGLASSASSFAALTKCASIALSELTQKPLPSIDEQAQLSRLGSGSSCRSFYAPWALWTGDKVSAIDLPYKDLLHQVIVISSQEKEIPSRVAHKLVKTSPFYETRSERAEANLKLLLNAFENKDWTSIYQICWHEFLDHQLFKTCEKPFSYITDNTLHILSVIEKFWNEKGDGPVVTDAGPNVHLLYRSDQTDLARQFKSDHLVGNYDVL HWFAQAPANIALIKYGKKDENSNLPDNSSLSYTLSNLLSSVKLEKLPTKKDIWEPLTIPGAPEFNLSVEAQKRFIDHLVRLKEYFGYVGGFLIQSSNNFPHSSGLASSASSFAALTKCASIALSELTQKPLPSIDEQAQLSRLGSGSSCRSFYAPWALWTGDKVSAIDLPYKDLLHQVIVISSQEKEIPSRVAHKLVKTSPFYETRSERAEANLKLLLNAFENKDWTSIYQICWHEFLDHQLFKTCEKPFSYITDNTLHILSVIEKFWNEKGDGPVVTDAGPNVHLLYRSDQTDLARQFKSDHLVGNYDVL 3ltw-a2-m1-cA_3ltw-a2-m2-cA The structure of mycobacterium marinum arylamine n-acetyltransferase in complex with hydralazine B2HIZ6 B2HIZ6 2.1 X-RAY DIFFRACTION 38 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 272 272 DLTGYLDRINYRGATDPTLDVLRDLVSAHTGAIAFENLDPLMGVPVDDLSAEALADKLVDRRRGGYCYEHNGLIGYVLAELGYRVRRLAGRVVWLAPPDAPTPAQTHTVLAVTFPGCQGPYLVDVGFGGMTPTAPLRLETGTVQQTALEPYRLDDRGDGLVLQAMVRDEWQALYEFSTLTRPQVDLRVGSWFVSTHPTSHFVTGLMAATVADDARWNLMGRNLAIHRRGGTEKILLEDAAAVVDTLGDRFGINVADVGERGRLEARIDKVCF DLTGYLDRINYRGATDPTLDVLRDLVSAHTGAIAFENLDPLMGVPVDDLSAEALADKLVDRRRGGYCYEHNGLIGYVLAELGYRVRRLAGRVVWLAPPDAPTPAQTHTVLAVTFPGCQGPYLVDVGFGGMTPTAPLRLETGTVQQTALEPYRLDDRGDGLVLQAMVRDEWQALYEFSTLTRPQVDLRVGSWFVSTHPTSHFVTGLMAATVADDARWNLMGRNLAIHRRGGTEKILLEDAAAVVDTLGDRFGINVADVGERGRLEARIDKVCF 3lu2-a1-m1-cA_3lu2-a1-m1-cB Structure of lmo2462, a Listeria monocytogenes amidohydrolase family putative dipeptidase Q8Y4H9 Q8Y4H9 2.2 X-RAY DIFFRACTION 65 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 302 302 ARVIDTHCDALYKLQAGKGKYTFQDAEELDVNFERLIEAKLLQGFAIFLDEDIPVEHKWKKAVEQVNIFKQHVLHKGGIIHHVKKWCDLENLPEDKIGALTLEGIEPIGRDLDKLTQLLDGGVLSVGLTWNNANLAADGIEERGAGLTRFGKDIIHLLNERKVFTDVSHLSVKAFWETLEQAEFVIASHSSAKAICAHPRNLDDEQIKAIEHDAIHVIFHPLFTTNDGVADIEDVIRHIDHICELGGKNIGFGSDFDGIPDHVKGLEHAGKYQNFLETLGKHYTKEEVEGFASRNFLNHLPK ARVIDTHCDALYKLQAGKGKYTFQDAEELDVNFERLIEAKLLQGFAIFLDEDIPVEHKWKKAVEQVNIFKQHVLHKGGIIHHVKKWCDLENLPEDKIGALTLEGIEPIGRDLDKLTQLLDGGVLSVGLTWNNANLAADGIEERGAGLTRFGKDIIHLLNERKVFTDVSHLSVKAFWETLEQAEFVIASHSSAKAICAHPRNLDDEQIKAIEHDAIHVIFHPLFTTNDGVADIEDVIRHIDHICELGGKNIGFGSDFDGIPDHVKGLEHAGKYQNFLETLGKHYTKEEVEGFASRNFLNHLPK 3lub-a2-m1-cG_3lub-a2-m1-cL Crystal structure of Putative creatinine amidohydrolase (YP_211512.1) from Bacteroides fragilis NCTC 9343 at 2.11 A resolution Q5LE76 Q5LE76 2.11 X-RAY DIFFRACTION 148 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 246 246 3lub-a1-m1-cA_3lub-a1-m1-cF 3lub-a1-m1-cB_3lub-a1-m1-cC 3lub-a1-m1-cD_3lub-a1-m1-cE 3lub-a2-m1-cH_3lub-a2-m1-cI 3lub-a2-m1-cJ_3lub-a2-m1-cK NKEVDLSVSCLGKVKELKYDVIILPWGATEPHNLHLPYLTDCILPHDIAVEAAELALSRSGVRCVPPVPFGAHNPGQRELPFCIHTRYATQQAILEDIVSSLHVQGFRKLLILSGHGGNNFKGIRDLAFEYPDFLIAAANWFEVVSPKGYFEAEIDDHAGESETSVHYHPELVNLAEAGDGESKPFAIASLNEKVAWVPRHWDKATVDSGVGNPKKATAEKGERYVKPIVEKLAGLFEEAQHDLYE NKEVDLSVSCLGKVKELKYDVIILPWGATEPHNLHLPYLTDCILPHDIAVEAAELALSRSGVRCVPPVPFGAHNPGQRELPFCIHTRYATQQAILEDIVSSLHVQGFRKLLILSGHGGNNFKGIRDLAFEYPDFLIAAANWFEVVSPKGYFEAEIDDHAGESETSVHYHPELVNLAEAGDGESKPFAIASLNEKVAWVPRHWDKATVDSGVGNPKKATAEKGERYVKPIVEKLAGLFEEAQHDLYE 3lub-a2-m1-cK_3lub-a2-m1-cL Crystal structure of Putative creatinine amidohydrolase (YP_211512.1) from Bacteroides fragilis NCTC 9343 at 2.11 A resolution Q5LE76 Q5LE76 2.11 X-RAY DIFFRACTION 149 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 246 246 3lub-a1-m1-cA_3lub-a1-m1-cB 3lub-a1-m1-cC_3lub-a1-m1-cD 3lub-a1-m1-cE_3lub-a1-m1-cF 3lub-a2-m1-cG_3lub-a2-m1-cH 3lub-a2-m1-cI_3lub-a2-m1-cJ NKEVDLSVSCLGKVKELKYDVIILPWGATEPHNLHLPYLTDCILPHDIAVEAAELALSRSGVRCVPPVPFGAHNPGQRELPFCIHTRYATQQAILEDIVSSLHVQGFRKLLILSGHGGNNFKGIRDLAFEYPDFLIAAANWFEVVSPKGYFEAEIDDHAGESETSVHYHPELVNLAEAGDGESKPFAIASLNEKVAWVPRHWDKATVDSGVGNPKKATAEKGERYVKPIVEKLAGLFEEAQHDLYE NKEVDLSVSCLGKVKELKYDVIILPWGATEPHNLHLPYLTDCILPHDIAVEAAELALSRSGVRCVPPVPFGAHNPGQRELPFCIHTRYATQQAILEDIVSSLHVQGFRKLLILSGHGGNNFKGIRDLAFEYPDFLIAAANWFEVVSPKGYFEAEIDDHAGESETSVHYHPELVNLAEAGDGESKPFAIASLNEKVAWVPRHWDKATVDSGVGNPKKATAEKGERYVKPIVEKLAGLFEEAQHDLYE 3luf-a1-m1-cA_3luf-a1-m1-cB Structure of probable two-component system response regulator/GGDEF domain protein A4SNL2 A4SNL2 1.76 X-RAY DIFFRACTION 98 1.0 382245 (Aeromonas salmonicida subsp. salmonicida A449) 382245 (Aeromonas salmonicida subsp. salmonicida A449) 238 240 3mf4-a1-m1-cA_3mf4-a1-m1-cB KQKILIVEDSTIRRLIQAIAQQTGLEIDAFDTLEGARHCQGDEYVVALVDLTLPDAPSGEAVKVLLERGLPVVILTADSEDKREAWLEAGVLDYVKDSRHSLQYAVGLVHRLYLNQQIEVLVVDDSRTSRHRTAQLRKQLLQVHEASHAREALATLEQHPAIRLVLVDYYPEIDGISLVRLRERYSKQQLAIIGISVSDKRGLSARYLKQGANDFLNQPFEPEELQCRVSHNLEALEQ KQKILIVEDSTIRRLIQAIAQQTGLEIDAFDTLEGARHCQGDEYVVALVDLTLPDAPSGEAVKVLLERGLPVVILTADISEDKREAWLEAGVLDYVKDSRHSLQYAVGLVHRLYLNQQIEVLVVDDSRTSRHRTAQLRKQLLQVHEASHAREALATLEQHPAIRLVLVDYYPEIDGISLVRLRERYSKQQLAIIGISVSDKRGLSARYLKQGANDFLNQPFEPEELQCRVSHNLEALEQF 3lul-a1-m1-cA_3lul-a1-m1-cB Crystal structure of Putative 4-amino-4-deoxychorismate lyase. (YP_094631.1) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 1.78 A resolution Q5ZXY5 Q5ZXY5 1.78 X-RAY DIFFRACTION 135 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 263 264 PTRVIEDKTPSFGIDDRIFLGEGLFETIRVNSSKPSFAYHWERLGNSARQLGIPFEISFDDWFEHLIQKIQKDNLYHGGIKAILSGGPASRGLAERGQVSQLIFQTFNYSIQKHPVRLISINWLRDKANPLYQLSVNYLEAIIAQRQAIAVGADDALFFNTENHVTETTCANLFLIENNILYTPRVEDGILPGITRARLISHCQQHKSVQEISLTKKRIEDADAVFLTNSLQGIRRVLSLDNIIFEVNHPIIDKLIFLLNQDE PTRVIEDKTPSFGIDDRIFLGEGLFETIRVNSSKPSFAYHWERLGNSARQLGIPFEISFDDWFEHLIQKIQKDNLYHGGIKAILSGGPASRGLAERGQVSQLIFQTFNYSIQKHPVRLISINWLRDKANPLYQLSVNYLEAIIAQRQAIAVGADDALFFNTENHVTETTCANLFLIENNILYTPRVEDGILPGITRARLISHCQQHKSVQEISLTKKRIEDADAVFLTNSLQGIRRVLSLDNIIFEVNHPIIDKLIFLLNQDES 3lum-a7-m1-cD_3lum-a7-m3-cD Structure of ulilysin mutant M290L Q8TL28 Q8TL28 1.7 X-RAY DIFFRACTION 76 1.0 2214 (Methanosarcina acetivorans) 2214 (Methanosarcina acetivorans) 262 262 2cki-a1-m1-cA_2cki-a1-m1-cB 2cki-a2-m1-cA_2cki-a2-m1-cB 2j83-a1-m1-cA_2j83-a1-m1-cB 3lum-a5-m1-cA_3lum-a5-m1-cC 3lum-a6-m1-cB_3lum-a6-m2-cB 3lun-a3-m1-cA_3lun-a3-m1-cB RMEIVKIPVVVHVVWNEEEENISDAQIQSQIDILNKDFRKLNSDVSQVPSVWSNLIADLGIEFFLATKDPNGNQTTGITRTQTSVTFFTTSDEVKFASSGGEDAWPADRYLNIWVCHVLKSEIGQDILGYAQFPGGPAETDGVVIVDAAFGTTGTALPPFDKGRTATHEIGHWLNLYHIWGDELRFEDPCSRSDEVDDTPNQADPNFGCPSYPHVSCSNGPNGDMFMNYLDYVDDKCMVMFTQGQATRVNACLDGPRSSFLA RMEIVKIPVVVHVVWNEEEENISDAQIQSQIDILNKDFRKLNSDVSQVPSVWSNLIADLGIEFFLATKDPNGNQTTGITRTQTSVTFFTTSDEVKFASSGGEDAWPADRYLNIWVCHVLKSEIGQDILGYAQFPGGPAETDGVVIVDAAFGTTGTALPPFDKGRTATHEIGHWLNLYHIWGDELRFEDPCSRSDEVDDTPNQADPNFGCPSYPHVSCSNGPNGDMFMNYLDYVDDKCMVMFTQGQATRVNACLDGPRSSFLA 3luq-a2-m1-cA_3luq-a2-m1-cB The Crystal Structure of a PAS Domain from a Sensory Box Histidine Kinase Regulator from Geobacter sulfurreducens to 2.5A Q74DA3 Q74DA3 2.49 X-RAY DIFFRACTION 15 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 109 111 3luq-a1-m1-cA_3luq-a1-m1-cB 3luq-a1-m1-cD_3luq-a1-m1-cC SDERLRLFTEHAPAALAFDRERYLAVSRRWREDYGLGDGDILGSHYDIFPEIGEEWKSVHRRGLAGEVIRVEEDCFVRGRTQWLRWEVRPWYEGEGRVGGVVIFTEDIT SDERLRLFTEHAPAALAFDRERYLAVSRRWREDYGLGDGDILGSHYDIFPEIGEEWKSVHRRGLAGEVIRVEEDCFVRADGRTQWLRWEVRPWYEGEGRVGGVVIFTEDIT 3luq-a2-m1-cB_3luq-a2-m1-cC The Crystal Structure of a PAS Domain from a Sensory Box Histidine Kinase Regulator from Geobacter sulfurreducens to 2.5A Q74DA3 Q74DA3 2.49 X-RAY DIFFRACTION 20 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 111 111 3luq-a1-m1-cB_3luq-a1-m1-cC 3luq-a1-m1-cD_3luq-a1-m1-cA SDERLRLFTEHAPAALAFDRERYLAVSRRWREDYGLGDGDILGSHYDIFPEIGEEWKSVHRRGLAGEVIRVEEDCFVRADGRTQWLRWEVRPWYEGEGRVGGVVIFTEDIT SDERLRLFTEHAPAALAFDRERYLAVSRRWREDYGLGDGDILGSHYDIFPEIGEEWKSVHRRGLAGEVIRVEEDCFVRADGRTQWLRWEVRPWYEGEGRVGGVVIFTEDIT 3luy-a1-m1-cA_3luy-a1-m2-cA Putative chorismate mutase from Bifidobacterium adolescentis A1A2B5 A1A2B5 2 X-RAY DIFFRACTION 245 1.0 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 320 320 SARKLFYLGPQGTFTHQAAVNAAQELARFEPQGFDLPDDVPQILDAAQHGDGWGIVAWENNVEGYVVPNLDALIDAKDLVGFARVGVNVEFDAYVAQGADPAEARIATAHPHGLAQCKRFIAEHRLSTQPATSNAAACRDLIPGEIAFGPAICGELYDITRIGTAIQDYQGAATDFLVLSPRAEVARLLAKPRAEANVEYESVLTLIPLVTGPGVLANLLDVFRDAGLNTSFISRPIKGRTGTYSFIVTLDAAPWEERFRDALVEIAEHGDWAKTLAVYPRREHPNPPVTSWLPQGGVRLDDSHLPDDWQNDETVRRELW SARKLFYLGPQGTFTHQAAVNAAQELARFEPQGFDLPDDVPQILDAAQHGDGWGIVAWENNVEGYVVPNLDALIDAKDLVGFARVGVNVEFDAYVAQGADPAEARIATAHPHGLAQCKRFIAEHRLSTQPATSNAAACRDLIPGEIAFGPAICGELYDITRIGTAIQDYQGAATDFLVLSPRAEVARLLAKPRAEANVEYESVLTLIPLVTGPGVLANLLDVFRDAGLNTSFISRPIKGRTGTYSFIVTLDAAPWEERFRDALVEIAEHGDWAKTLAVYPRREHPNPPVTSWLPQGGVRLDDSHLPDDWQNDETVRRELW 3lv0-a1-m1-cB_3lv0-a1-m1-cA Crystal structure of extragenic suppressor protein suhB from Bartonella henselae, native A0A0H3M6W8 A0A0H3M6W8 1.85 X-RAY DIFFRACTION 102 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 254 258 3luz-a1-m1-cB_3luz-a1-m1-cA SAVMNVMVQAAMKAGRSLVRDYGLQVSLKGPADYVSQADRKAEKIIFNELSKARPKFGFLMEESEEIIGEDSQHRFIVDPLDGTTNFLHGIPFFAVSIALESQGKIVAGVIYNPINDELFTAERGSGAFFNDRRCRVSARRRLEDCVIATGMPHLPGHGTYLIELRNVMAEVSGIRRFGTAALDLAYVAAGRTDGFWEDNLQIWDMAAGILMVREAGGFVTDKEGGNDIFRKKNIIAGNEHIRIKLERALKKGI SAVMNVMVQAAMKAGRSLVRDYGEVQNLQVSLKGPADYVSQADRKAEKIIFNELSKARPKFGFLMEESEEIIGEDSQHRFIVDPLDGTTNFLHGIPFFAVSIALESQGKIVAGVIYNPINDELFTAERGSGAFFNDRRCRVSARRRLEDCVIATGMPHLPGHGTYLIELRNVMAEVSGIRRFGTAALDLAYVAAGRTDGFWEDNLQIWDMAAGILMVREAGGFVTDKEGGNDIFRKKNIIAGNEHIRIKLERALKKGI 3lv4-a3-m2-cB_3lv4-a3-m1-cA Crystal structure of the glycoside hydrolase, family 43 YxiA protein from Bacillus licheniformis. Northeast Structural Genomics Consortium Target BiR14. Q65D31 Q65D31 1.695 X-RAY DIFFRACTION 87 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 429 431 KPVFSEVTVHDPSIIKANGTYYVFGSHLASAKSTDLNWTQISSSVHDGNPLIPNVYEELKETFEWAESDTLWAPDVTQLEDGKFYYYNACRGDSPRSALGLAVADDIEGPYKNKGIFLKSGDGISNDGTPYDATKHPNVVDPHTFFDQNGKLWVYGSYSGGIFILEDKKTGFPLPGQGYGKKLIGGNHSRIEGAYILYHPETQYYYLYSFGGLAADGGYNIRVARSKNPDGPYYDAEGHAIDVRGKEGTLFDDRSIEPYGVKLGNFSFNNKNGYVSPGHNSAFYDEKSGKSYLIFHTRFPGRGEEHEVRVHQLLNKQGWPVVAPHRYAGEKLEKVKKSDVIGDYELVRHGKDISADIKESKEIRLNQNGKITGAVAGTWKNTGHNKIELKIDGKTYDGVFLRQWDAASERKVTFSALSREGDAVWGSSL KPVFSEVTVHDPSIIKANGTYYVFGSHLASAKSTDLNWTQISSSVHDGNPLIPNVYEELKETFEWAESDTLWAPDVTQLEDGKFYYYNACRGDSPRSALGLAVADDIEGPYKNKGIFLKSGDGISNDGTPYDATKHPNVVDPHTFFDQNGKLWVYGSYSGGIFILEDKKTGFPLPGQGYGKKLIGGNHSRIEGAYILYHPETQYYYLYSFGGLAADGGYNIRVARSKNPDGPYYDAEGHAIDVRGKEGTLFDDRSIEPYGVKLGNFSFNNKNGYVSPGHNSAFYDEKSGKSYLIFHTRFPGRGEEHEVRVHQLLNKQGWPVVAPHRYAGEKLEKVKKSDVIGDYELVRHGKDISADIKESKEIRLNQNGKITGAVAGTWKNTGHNKIELKIDGKTYDGVFLRQWDAASERKVTFSALSREGDAVWGSSLKR 3lv8-a1-m1-cA_3lv8-a1-m2-cA 1.8 Angstrom resolution crystal structure of a thymidylate kinase (tmk) from Vibrio cholerae O1 biovar eltor str. N16961 in complex with TMP, thymidine-5'-diphosphate and ADP Q9KQI2 Q9KQI2 1.8 X-RAY DIFFRACTION 72 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 204 204 3n2i-a1-m1-cA_3n2i-a1-m1-cB NAKFIVIEGLEGAGKSTAIQVVVETLQQNGIDHITRTREPGGTLLAEKLRALVKEEHPGEELQDITELLLVYAARVQLVENVIKPALARGEWVVGDRHDMSSQAYQGGGRQIAPSTMQSLKQTALGDFKPDLTLYLDIDPKLGLERELDRIEKMDISFFERARERYLELANSDDSVVMIDAAQSIEQVTADIRRALQDWLSQVN NAKFIVIEGLEGAGKSTAIQVVVETLQQNGIDHITRTREPGGTLLAEKLRALVKEEHPGEELQDITELLLVYAARVQLVENVIKPALARGEWVVGDRHDMSSQAYQGGGRQIAPSTMQSLKQTALGDFKPDLTLYLDIDPKLGLERELDRIEKMDISFFERARERYLELANSDDSVVMIDAAQSIEQVTADIRRALQDWLSQVN 3lv9-a1-m1-cA_3lv9-a1-m2-cA Crystal structure of CBS domain of a putative transporter from Clostridium difficile 630 Q183U2 Q183U2 2.4 X-RAY DIFFRACTION 46 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 128 128 FEFEEKKIREIVPRTDVCIYESDSEEKILAILKEEGVTRYPVCRKNKDDILGFVHIRDLYNQKINENKIELEEILRDIIYISENLTIDKALERIRKEKLQLAIVVDEYGGTSGVVTIEDILEEIVGEI FEFEEKKIREIVPRTDVCIYESDSEEKILAILKEEGVTRYPVCRKNKDDILGFVHIRDLYNQKINENKIELEEILRDIIYISENLTIDKALERIRKEKLQLAIVVDEYGGTSGVVTIEDILEEIVGEI 3lve-a2-m3-cA_3lve-a2-m1-cA LEN Q38E MUTANT: A DOMAIN FLIP FROM A SINGLE AMINO ACID SUBSTITUTION P06312 P06312 2 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 2lve-a1-m2-cA_2lve-a1-m1-cA DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNSKNYLAWYQEKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQQYYSTPYSFGQGTKLEIKR DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNSKNYLAWYQEKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQQYYSTPYSFGQGTKLEIKR 3lvx-a3-m14-cA_3lvx-a3-m9-cB Crystal structure of human alpha-defensin 1 (I6A mutant) P59665 P59665 1.63 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 3lvx-a3-m10-cA_3lvx-a3-m14-cB 3lvx-a3-m10-cB_3lvx-a3-m13-cA 3lvx-a3-m11-cA_3lvx-a3-m16-cB 3lvx-a3-m11-cB_3lvx-a3-m15-cA 3lvx-a3-m12-cA_3lvx-a3-m15-cB 3lvx-a3-m12-cB_3lvx-a3-m16-cA 3lvx-a3-m13-cB_3lvx-a3-m9-cA 3lvx-a3-m17-cA_3lvx-a3-m22-cB 3lvx-a3-m17-cB_3lvx-a3-m21-cA 3lvx-a3-m18-cA_3lvx-a3-m21-cB 3lvx-a3-m18-cB_3lvx-a3-m22-cA 3lvx-a3-m19-cA_3lvx-a3-m23-cB 3lvx-a3-m19-cB_3lvx-a3-m24-cA 3lvx-a3-m1-cA_3lvx-a3-m8-cB 3lvx-a3-m1-cB_3lvx-a3-m7-cA 3lvx-a3-m20-cA_3lvx-a3-m24-cB 3lvx-a3-m20-cB_3lvx-a3-m23-cA 3lvx-a3-m2-cA_3lvx-a3-m7-cB 3lvx-a3-m2-cB_3lvx-a3-m8-cA 3lvx-a3-m3-cA_3lvx-a3-m5-cB 3lvx-a3-m3-cB_3lvx-a3-m6-cA 3lvx-a3-m4-cA_3lvx-a3-m6-cB 3lvx-a3-m4-cB_3lvx-a3-m5-cA ACYCRAPACIAGERRYGTCIYQGRLWAFCC ACYCRAPACIAGERRYGTCIYQGRLWAFCC 3lvx-a3-m20-cA_3lvx-a3-m9-cA Crystal structure of human alpha-defensin 1 (I6A mutant) P59665 P59665 1.63 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 3lvx-a3-m10-cA_3lvx-a3-m17-cA 3lvx-a3-m10-cA_3lvx-a3-m4-cA 3lvx-a3-m11-cA_3lvx-a3-m19-cA 3lvx-a3-m11-cA_3lvx-a3-m3-cA 3lvx-a3-m12-cA_3lvx-a3-m18-cA 3lvx-a3-m13-cA_3lvx-a3-m22-cA 3lvx-a3-m13-cA_3lvx-a3-m8-cA 3lvx-a3-m14-cA_3lvx-a3-m24-cA 3lvx-a3-m14-cA_3lvx-a3-m5-cA 3lvx-a3-m15-cA_3lvx-a3-m23-cA 3lvx-a3-m15-cA_3lvx-a3-m7-cA 3lvx-a3-m16-cA_3lvx-a3-m21-cA 3lvx-a3-m16-cA_3lvx-a3-m6-cA 3lvx-a3-m17-cA_3lvx-a3-m4-cA 3lvx-a3-m19-cA_3lvx-a3-m3-cA 3lvx-a3-m1-cA_3lvx-a3-m12-cA 3lvx-a3-m1-cA_3lvx-a3-m18-cA 3lvx-a3-m21-cA_3lvx-a3-m6-cA 3lvx-a3-m22-cA_3lvx-a3-m8-cA 3lvx-a3-m23-cA_3lvx-a3-m7-cA 3lvx-a3-m24-cA_3lvx-a3-m5-cA 3lvx-a3-m2-cA_3lvx-a3-m20-cA 3lvx-a3-m2-cA_3lvx-a3-m9-cA ACYCRAPACIAGERRYGTCIYQGRLWAFCC ACYCRAPACIAGERRYGTCIYQGRLWAFCC 3lvx-a3-m9-cA_3lvx-a3-m9-cB Crystal structure of human alpha-defensin 1 (I6A mutant) P59665 P59665 1.63 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1zmh-a2-m1-cC_1zmh-a2-m1-cD 1zmh-a4-m1-cC_1zmh-a4-m1-cD 1zmh-a4-m3-cC_1zmh-a4-m3-cD 1zmi-a1-m1-cA_1zmi-a1-m1-cB 1zmi-a2-m1-cC_1zmi-a2-m1-cD 1zmi-a3-m1-cA_1zmi-a3-m1-cB 1zmi-a3-m2-cA_1zmi-a3-m2-cB 1zmi-a3-m3-cC_1zmi-a3-m3-cD 1zmi-a3-m4-cC_1zmi-a3-m4-cD 1zmi-a4-m1-cA_1zmi-a4-m1-cB 1zmi-a4-m4-cC_1zmi-a4-m4-cD 1zmi-a5-m1-cA_1zmi-a5-m1-cB 1zmi-a5-m5-cC_1zmi-a5-m5-cD 1zmi-a6-m1-cA_1zmi-a6-m1-cB 1zmi-a6-m3-cC_1zmi-a6-m3-cD 1zmk-a1-m1-cA_1zmk-a1-m1-cB 1zmk-a2-m1-cA_1zmk-a2-m1-cB 1zmk-a2-m2-cA_1zmk-a2-m2-cB 1zmk-a2-m3-cA_1zmk-a2-m3-cB 1zmk-a2-m4-cA_1zmk-a2-m4-cB 3hj2-a1-m1-cA_3hj2-a1-m1-cB 3lo4-a3-m1-cA_3lo4-a3-m1-cB 3lvx-a3-m10-cA_3lvx-a3-m10-cB 3lvx-a3-m11-cA_3lvx-a3-m11-cB 3lvx-a3-m12-cA_3lvx-a3-m12-cB 3lvx-a3-m13-cA_3lvx-a3-m13-cB 3lvx-a3-m14-cA_3lvx-a3-m14-cB 3lvx-a3-m15-cA_3lvx-a3-m15-cB 3lvx-a3-m16-cA_3lvx-a3-m16-cB 3lvx-a3-m17-cA_3lvx-a3-m17-cB 3lvx-a3-m18-cA_3lvx-a3-m18-cB 3lvx-a3-m19-cA_3lvx-a3-m19-cB 3lvx-a3-m1-cA_3lvx-a3-m1-cB 3lvx-a3-m20-cA_3lvx-a3-m20-cB 3lvx-a3-m21-cA_3lvx-a3-m21-cB 3lvx-a3-m22-cA_3lvx-a3-m22-cB 3lvx-a3-m23-cA_3lvx-a3-m23-cB 3lvx-a3-m24-cA_3lvx-a3-m24-cB 3lvx-a3-m2-cA_3lvx-a3-m2-cB 3lvx-a3-m3-cA_3lvx-a3-m3-cB 3lvx-a3-m4-cA_3lvx-a3-m4-cB 3lvx-a3-m5-cA_3lvx-a3-m5-cB 3lvx-a3-m6-cA_3lvx-a3-m6-cB 3lvx-a3-m7-cA_3lvx-a3-m7-cB 3lvx-a3-m8-cA_3lvx-a3-m8-cB ACYCRAPACIAGERRYGTCIYQGRLWAFCC ACYCRAPACIAGERRYGTCIYQGRLWAFCC 3lvy-a1-m1-cB_3lvy-a1-m1-cA Crystal Structure of Carboxymuconolactone Decarboxylase Family Protein SMU.961 from Streptococcus mutans Q8DUG8 Q8DUG8 2.1 X-RAY DIFFRACTION 135 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 180 181 3lvy-a2-m1-cD_3lvy-a2-m1-cC 3lvy-a3-m1-cE_3lvy-a3-m1-cF SKFTIHTIETAPERVKETLRTVKKDNGGYIPNLIGLLANAPTALETYRTVGEINRRNSLTPTEREVVQITAAVTNGCAFCVAGHTAFSIKQIQAPDLLEALRNATPIDDDPKLDTLAKFTIAVINTKGRVGDEAFADFLEVGYTPENALDVVLGVSLASLCNYANNADTPINPELQQYVK SKFTIHTIETAPERVKETLRTVKKDNGGYIPNLIGLLANAPTALETYRTVGEINRRNSLTPTEREVVQITAAVTNGCAFCVAGHTAFSIKQIQAPDLLEALRNATPIDDDPKLDTLAKFTIAVINTKGRVGDEAFADFLEVGYTPENALDVVLGVSLASLCNYANNADTPINPELQQYVKG 3lw3-a1-m1-cA_3lw3-a1-m1-cB Crystal structure of HP0420-homologue from Helicobacter felis D5MNX8 D5MNX8 1.6 X-RAY DIFFRACTION 109 1.0 214 (Helicobacter felis) 214 (Helicobacter felis) 121 137 3lwg-a1-m1-cA_3lwg-a1-m1-cB EEGLLVCTRLDQNLCAELISFGSGKATVCLTPKEFMLCEDDVVHAGFIVGAASFAALCALNKKNSLISSMKVNLLAPIEIKQEIYFNATITHTSSKKSTIRVEGEFMEIKVFEGDFEILVF GAMEMNMADAPLEEGLLVCTRLDQNLCAELISFGSGKATVCLTPKEFMLCEDDVVHAGFIVGAASFAALCALNKKNSLISSMKVNLLAPIEIKQEIYFNATITHTSSKKSTIRVEGEFMEIKVFEGDFEILVFRPFK 3lw9-a4-m2-cB_3lw9-a4-m4-cB Structure of a Cytoplasmic Domain of Salmonella InvA P0A1I3 P0A1I3 1.85 X-RAY DIFFRACTION 56 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 163 163 3lw9-a3-m1-cA_3lw9-a3-m3-cA 3lw9-a3-m1-cA_3lw9-a3-m4-cA 3lw9-a3-m2-cA_3lw9-a3-m3-cA 3lw9-a3-m2-cA_3lw9-a3-m4-cA 3lw9-a4-m1-cB_3lw9-a4-m3-cB 3lw9-a4-m1-cB_3lw9-a4-m4-cB 3lw9-a4-m2-cB_3lw9-a4-m3-cB TVPLILLVPKSRREDLEKAQLAERRSQFFIDYGVRLPEVLLRDGEGLDDNSIVLLINEIRVEQFTVYFDLRVVNYSDEVVSFGINPTIHQQGSSQYFWVTHEEGEKLREGYVLRNALDELYHCLAVTLARNVNEYFGIQETKHLDQLEAKFPDLLKEVLRHAT TVPLILLVPKSRREDLEKAQLAERRSQFFIDYGVRLPEVLLRDGEGLDDNSIVLLINEIRVEQFTVYFDLRVVNYSDEVVSFGINPTIHQQGSSQYFWVTHEEGEKLREGYVLRNALDELYHCLAVTLARNVNEYFGIQETKHLDQLEAKFPDLLKEVLRHAT 3lw9-a4-m3-cB_3lw9-a4-m4-cB Structure of a Cytoplasmic Domain of Salmonella InvA P0A1I3 P0A1I3 1.85 X-RAY DIFFRACTION 24 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 163 163 3lw9-a3-m1-cA_3lw9-a3-m2-cA 3lw9-a3-m3-cA_3lw9-a3-m4-cA 3lw9-a4-m1-cB_3lw9-a4-m2-cB TVPLILLVPKSRREDLEKAQLAERRSQFFIDYGVRLPEVLLRDGEGLDDNSIVLLINEIRVEQFTVYFDLRVVNYSDEVVSFGINPTIHQQGSSQYFWVTHEEGEKLREGYVLRNALDELYHCLAVTLARNVNEYFGIQETKHLDQLEAKFPDLLKEVLRHAT TVPLILLVPKSRREDLEKAQLAERRSQFFIDYGVRLPEVLLRDGEGLDDNSIVLLINEIRVEQFTVYFDLRVVNYSDEVVSFGINPTIHQQGSSQYFWVTHEEGEKLREGYVLRNALDELYHCLAVTLARNVNEYFGIQETKHLDQLEAKFPDLLKEVLRHAT 3lwb-a1-m1-cB_3lwb-a1-m1-cA Crystal Structure of apo D-alanine:D-alanine Ligase (Ddl) from Mycobacterium tuberculosis P9WP31 P9WP31 2.1 X-RAY DIFFRACTION 40 0.98 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 298 323 RVRVAVVFHAISCVSAGSILRNLDSRRFDVIAVGITPVLESVDVVFPVLHTIQGLLELAGVPYVGAGVLASAVGMDKEFTKKLLAADGLPVGAYAVLRPPRSTLHRQECERLGLPVFVKPARGGSSIGVSRVSSWDQLPAAVARARRHDPKVIVEAAISGRELECGVLEMPDGTLEASTLGEIRVAGVRGREDSFYDFATKYLDDAAELDVPAKVDDQVAEAIRQLAIRAFAAIDCRGLARVDFFLTDDGPVINEINTMPGFTTISMYPRMWAASGVDYPTLLATMIETTLARGVGLH RDRRVRVAVVFGGAISCVSAGSILRNLDSRRFDVIAVGITPAGSWVLTDANVSLPPGAGEVLESVDVVFPVLHGPYGEDGTIQGLLELAGVPYVGAGVLASAVGMDKEFTKKLLAADGLPVGAYAVLRPPRSTLHRQECERLGLPVFVKPARGGSSIGVSRVSSWDQLPAAVARARRHDPKVIVEAAISGRELECGVLEMPDGTLEASTLGEIRVAGVRGREDSFYDFATKYLDDAAELDVPAKVDDQVAEAIRQLAIRAFAAIDCRGLARVDFFLTDDGPVINEINTMPGFTTISMYPRMWAASGVDYPTLLATMIETTLAR 3lwc-a1-m1-cA_3lwc-a1-m2-cA Crystal structure of Structural Genomics, unknown function (YP_766765.1) from Rhizobium leguminosarum BV. viciae 3841 at 1.40 A resolution Q1MK54 Q1MK54 1.4 X-RAY DIFFRACTION 75 1.0 216596 (Rhizobium leguminosarum bv. viciae 3841) 216596 (Rhizobium leguminosarum bv. viciae 3841) 99 99 KRKFTIADASLERSPGQEADISVGNLGPITIGYGRYAPGQSLTETAVDDVIVLEGRLSVSTDGETVTAGPGEIVYPKGETVTIRSHEEGALTAYVTYPH KRKFTIADASLERSPGQEADISVGNLGPITIGYGRYAPGQSLTETAVDDVIVLEGRLSVSTDGETVTAGPGEIVYPKGETVTIRSHEEGALTAYVTYPH 3lwd-a1-m1-cA_3lwd-a1-m2-cA Crystal structure of Putative 6-phosphogluconolactonase (YP_574786.1) from Chromohalobacter salexigens DSM 3043 at 1.88 A resolution Q1QTX1 Q1QTX1 1.75 X-RAY DIFFRACTION 96 1.0 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 222 222 NTTQEGRQRLAERLADTVAQALEADLAKRERALLVVSGGSTPKPFFTSLAAKALPWARVDVTLADERWVTADDADSNARLVRETLLVGPAAEACFHPLTTDDDTPEAGVETVAERLESLPWPASAVILGGGDGHTASLFPDSEQLATALETTSAAVVVHAPSVPQARITLSASRLADAGLHVLHITGNDKRRVLAEALAGDDVRQLPIRAFLSQPIATYWAP NTTQEGRQRLAERLADTVAQALEADLAKRERALLVVSGGSTPKPFFTSLAAKALPWARVDVTLADERWVTADDADSNARLVRETLLVGPAAEACFHPLTTDDDTPEAGVETVAERLESLPWPASAVILGGGDGHTASLFPDSEQLATALETTSAAVVVHAPSVPQARITLSASRLADAGLHVLHITGNDKRRVLAEALAGDDVRQLPIRAFLSQPIATYWAP 3lwe-a3-m2-cB_3lwe-a3-m1-cA The crystal structure of MPP8 Q99549 Q99549 2.05 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 61 3svm-a2-m1-cA_3svm-a2-m2-cA GEDVFEVEKILDMKTEGGKVLYKVRWKGYTSDDDTWEPEIHLEDCKEVLLEFRKKIAEN GEDVFEVEKILDMKTEGGKVLYKVRWKGYTSDDDTWEPEIHLEDCKEVLLEFRKKIAENKA 3lwe-a4-m1-cB_3lwe-a4-m1-cA The crystal structure of MPP8 Q99549 Q99549 2.05 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 61 GEDVFEVEKILDMKTEGGKVLYKVRWKGYTSDDDTWEPEIHLEDCKEVLLEFRKKIAEN GEDVFEVEKILDMKTEGGKVLYKVRWKGYTSDDDTWEPEIHLEDCKEVLLEFRKKIAENKA 3lwf-a4-m2-cA_3lwf-a4-m2-cD Crystal structure of Putative transcriptional regulator (NP_470886.1) from LISTERIA INNOCUA at 2.06 A resolution Q92BJ8 Q92BJ8 2.06 X-RAY DIFFRACTION 15 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 140 140 3lwf-a4-m1-cA_3lwf-a4-m1-cD 3lwf-a4-m1-cA_3lwf-a4-m2-cB 3lwf-a4-m1-cB_3lwf-a4-m1-cC 3lwf-a4-m1-cB_3lwf-a4-m2-cA 3lwf-a4-m1-cC_3lwf-a4-m2-cD 3lwf-a4-m1-cD_3lwf-a4-m2-cC 3lwf-a4-m2-cB_3lwf-a4-m2-cC YFQGKITTKGRYGLTITLELAKRIGDGPISLRSIAQDKNLSEHYLEQLIGPLRNAGIVKSIRGAHGGYVLNGDPEKITAGDIIRTLEGPIVLVESEDEEAAQRELWTRRNAVRDVLDQTTLSDLLKHSTDSELTDGYFYI YFQGKITTKGRYGLTITLELAKRIGDGPISLRSIAQDKNLSEHYLEQLIGPLRNAGIVKSIRGAHGGYVLNGDPEKITAGDIIRTLEGPIVLVESEDEEAAQRELWTRRNAVRDVLDQTTLSDLLKHSTDSELTDGYFYI 3lwf-a4-m2-cB_3lwf-a4-m2-cD Crystal structure of Putative transcriptional regulator (NP_470886.1) from LISTERIA INNOCUA at 2.06 A resolution Q92BJ8 Q92BJ8 2.06 X-RAY DIFFRACTION 163 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 140 140 3lwf-a1-m1-cA_3lwf-a1-m2-cA 3lwf-a2-m1-cB_3lwf-a2-m1-cD 3lwf-a3-m1-cC_3lwf-a3-m2-cC 3lwf-a4-m1-cA_3lwf-a4-m2-cA 3lwf-a4-m1-cB_3lwf-a4-m1-cD 3lwf-a4-m1-cC_3lwf-a4-m2-cC YFQGKITTKGRYGLTITLELAKRIGDGPISLRSIAQDKNLSEHYLEQLIGPLRNAGIVKSIRGAHGGYVLNGDPEKITAGDIIRTLEGPIVLVESEDEEAAQRELWTRRNAVRDVLDQTTLSDLLKHSTDSELTDGYFYI YFQGKITTKGRYGLTITLELAKRIGDGPISLRSIAQDKNLSEHYLEQLIGPLRNAGIVKSIRGAHGGYVLNGDPEKITAGDIIRTLEGPIVLVESEDEEAAQRELWTRRNAVRDVLDQTTLSDLLKHSTDSELTDGYFYI 3lwf-a4-m2-cC_3lwf-a4-m2-cD Crystal structure of Putative transcriptional regulator (NP_470886.1) from LISTERIA INNOCUA at 2.06 A resolution Q92BJ8 Q92BJ8 2.06 X-RAY DIFFRACTION 29 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 140 140 3lwf-a4-m1-cA_3lwf-a4-m1-cB 3lwf-a4-m1-cC_3lwf-a4-m1-cD 3lwf-a4-m2-cA_3lwf-a4-m2-cB YFQGKITTKGRYGLTITLELAKRIGDGPISLRSIAQDKNLSEHYLEQLIGPLRNAGIVKSIRGAHGGYVLNGDPEKITAGDIIRTLEGPIVLVESEDEEAAQRELWTRRNAVRDVLDQTTLSDLLKHSTDSELTDGYFYI YFQGKITTKGRYGLTITLELAKRIGDGPISLRSIAQDKNLSEHYLEQLIGPLRNAGIVKSIRGAHGGYVLNGDPEKITAGDIIRTLEGPIVLVESEDEEAAQRELWTRRNAVRDVLDQTTLSDLLKHSTDSELTDGYFYI 3lwj-a1-m1-cA_3lwj-a1-m2-cA Crystal structure of Putative TetR-family transcriptional regulator (YP_752756.1) from Syntrophomonas wolfei str. Goettingen at 2.07 A resolution Q0B0W9 Q0B0W9 2.07 X-RAY DIFFRACTION 142 1.0 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 190 190 QNKERRQKILTCSLDLFIEKGYYNTSIRDIIALSEVGTGTFYNYFVDKEDILKNLLEDFAKQIISSISEYYLVEKDLYERFIETKRLTEVFAQNETLSEIYSRVAGSSAPIDQCLKQFEDRLLEFYSRNIEYGIKKGVFKNVPVSPIAHSILAIEKFSLYKWVVLKAITKEEIEVLSFHKTLAVGLLVVN QNKERRQKILTCSLDLFIEKGYYNTSIRDIIALSEVGTGTFYNYFVDKEDILKNLLEDFAKQIISSISEYYLVEKDLYERFIETKRLTEVFAQNETLSEIYSRVAGSSAPIDQCLKQFEDRLLEFYSRNIEYGIKKGVFKNVPVSPIAHSILAIEKFSLYKWVVLKAITKEEIEVLSFHKTLAVGLLVVN 3lwk-a1-m1-cA_3lwk-a1-m2-cA Crystal structure of human Beta-crystallin A4 (CRYBA4) P53673 P53673 1.7 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 182 SMSAGPWKMVVWDEDGFQGRRHEFTAECPSVLELGFETVRSLKVLSGAWVGFEHAGFQGQQYILERGEYPSWDAWGGAERLTSFRPAACANHRDSRLTIFEQENFLGKKGELSDDYPSLQAMGWEGNEVGSFHVHSGAWVCSQFPGYRGFQYVLECDHHSGDYKHFREWPTFQVQSIRRIQQ SMSAGPWKMVVWDEDGFQGRRHEFTAECPSVLELGFETVRSLKVLSGAWVGFEHAGFQGQQYILERGEYPSWDAWGGAERLTSFRPAACANHRDSRLTIFEQENFLGKKGELSDDYPSLQAMGWEGNEVGSFHVHSGAWVCSQFPGYRGFQYVLECDHHSGDYKHFREWPTFQVQSIRRIQQ 3lws-a3-m1-cE_3lws-a3-m1-cF Crystal structure of Putative aromatic amino acid beta-eliminating lyase/threonine aldolase. (YP_001813866.1) from Exiguobacterium sp. 255-15 at 2.00 A resolution B1YFH3 B1YFH3 2 X-RAY DIFFRACTION 150 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 346 348 3lws-a1-m1-cA_3lws-a1-m1-cB 3lws-a2-m1-cD_3lws-a2-m1-cC NRLRTSFQQTTGQISGHGKRNVGVLKTAFAAVADEASDQYGTGAIIEPFEQKFADVLGDDAVFFPSGTAQQVALRIWSDETDNRTVAYHPLCHLEIHEQDGLKELHPIETILVGAADRLTLDEIKALPDIACLLLELPQREIGGVAPAFSELETISRYCRERGIRLHLDGARLFELPYYEKTAAEIAGLFDSIYISFYGLGGIAGAILAGPAAFCQTARIWKRRYGGDLISLYPYIVSADYYYELRKDRGQYYEQAKQLAEQFNALPGVHTTPEVPVSNFHLHFDGQAADISPKLEQVQEETGLGFVGYLVDKDGYCSTEISVGDAYGELDQQTRDAGFARLRQAF GNRLRTSFQQTTGQISGHGKRNVGVLKTAFAAVADEASDQYGTGAIIEPFEQKFADVLGDDAVFFPSGTAQQVALRIWSDETDNRTVAYHPLCHLEIHEQDGLKELHPIETILVGAADRLTLDEIKALPDIACLLLELPQREIGGVAPAFSELETISRYCRERGIRLHLDGARLFELPYYEKTAAEIAGLFDSIYISFYGLGGIAGAILAGPAAFCQTARIWKRRYGGDLISLYPYIVSADYYYELRKDRGQYYEQAKQLAEQFNALPGVHTTPEVPVSNFHLHFDGQAADISPKLEQVQEETGLGFVGYLVDKDGYCSTEISVGDAYGELDQQTRDAGFARLRQAFS 3lwt-a2-m1-cX_3lwt-a2-m2-cX Crystal structure of the Yeast Sac1: Implications for its phosphoinositide phosphatase function P32368 P32368 1.956 X-RAY DIFFRACTION 107 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 457 457 SMTGPIVYVQNADGIFFKLAEGKGTNDAVIHLANQDQGVRVLGAEEFPVQGEVVKIASLMGFIKLKLNRYAIIANTVEETGRFNGHVFYRVLQHSIVSTKFNSRIDSEEAEYIKLLELHLKNSTFYFSYTYDLTNSLQRNEKVGPAASWKTADERFFWNHYLTEDLRNFAHQDPRIDSFIQPVIYGYAKTVDAVLNATPIVLGLITRRSIFRAGTRYFRRGVDKDGNVGNFNETEQILLAENPESEKIHVFSFLQTRGSVPIYWAEINNLKYKPNLVLGENSLDATKKHFDQQKELYGDNYLVNLVNQKGHELPVKEGYESVVHALNDPKIHYVYFDFHHECRKMQWHRVKLLIDHLEKLGLSNEDFFHKVIDSNGNTVEIVNEQHSVVRTNCMDCLDRTNVVQSVLAQWVLQKEFESADVVATGSTWEDNAPLLTSYQNLWADNADAVSVAYSGTG SMTGPIVYVQNADGIFFKLAEGKGTNDAVIHLANQDQGVRVLGAEEFPVQGEVVKIASLMGFIKLKLNRYAIIANTVEETGRFNGHVFYRVLQHSIVSTKFNSRIDSEEAEYIKLLELHLKNSTFYFSYTYDLTNSLQRNEKVGPAASWKTADERFFWNHYLTEDLRNFAHQDPRIDSFIQPVIYGYAKTVDAVLNATPIVLGLITRRSIFRAGTRYFRRGVDKDGNVGNFNETEQILLAENPESEKIHVFSFLQTRGSVPIYWAEINNLKYKPNLVLGENSLDATKKHFDQQKELYGDNYLVNLVNQKGHELPVKEGYESVVHALNDPKIHYVYFDFHHECRKMQWHRVKLLIDHLEKLGLSNEDFFHKVIDSNGNTVEIVNEQHSVVRTNCMDCLDRTNVVQSVLAQWVLQKEFESADVVATGSTWEDNAPLLTSYQNLWADNADAVSVAYSGTG 3lwu-a1-m1-cA_3lwu-a1-m4-cA Crystal structure of Putative succinylglutamate desuccinylase/aspartoacylase (YP_749235.1) from Shewanella frigidimarinA NCIMB 400 at 2.10 A resolution Q088B8 Q088B8 2.1 X-RAY DIFFRACTION 130 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 363 363 3lwu-a1-m2-cA_3lwu-a1-m3-cA TKAIQSSVQVGELATGQALTVPIYSFGSENSAPSVYIQANVHGAEVQGNAVIYQLTLLEGYQVLGDITLAPLANPLGINQKSGEFTLGRFDPITGVNWNREYFDHNVDIQNWYAEHQHLTNSELFCAYRSLVETCQARLTHSFGISTGHRLAVNLQAAHQADIVLDLHTGPKSCKHLYCPEYDIDAARFFSIPYTLIIPNSFGGADEATFCPWWQLTEYATSQGREFSVPVSAFTLELASQERIDLADALEDAKGILAYLSHRGVIAEKVNPASERFGCYLKDYKKFHAPKAGLIEYCASVGEPLTAGKPLVNILRIDLYGSEQAYQAISLPDCVPILHFASASVLQGTELYKVTNVFPLQPS TKAIQSSVQVGELATGQALTVPIYSFGSENSAPSVYIQANVHGAEVQGNAVIYQLTLLEGYQVLGDITLAPLANPLGINQKSGEFTLGRFDPITGVNWNREYFDHNVDIQNWYAEHQHLTNSELFCAYRSLVETCQARLTHSFGISTGHRLAVNLQAAHQADIVLDLHTGPKSCKHLYCPEYDIDAARFFSIPYTLIIPNSFGGADEATFCPWWQLTEYATSQGREFSVPVSAFTLELASQERIDLADALEDAKGILAYLSHRGVIAEKVNPASERFGCYLKDYKKFHAPKAGLIEYCASVGEPLTAGKPLVNILRIDLYGSEQAYQAISLPDCVPILHFASASVLQGTELYKVTNVFPLQPS 3lwu-a1-m2-cA_3lwu-a1-m4-cA Crystal structure of Putative succinylglutamate desuccinylase/aspartoacylase (YP_749235.1) from Shewanella frigidimarinA NCIMB 400 at 2.10 A resolution Q088B8 Q088B8 2.1 X-RAY DIFFRACTION 38 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 363 363 3lwu-a1-m1-cA_3lwu-a1-m3-cA TKAIQSSVQVGELATGQALTVPIYSFGSENSAPSVYIQANVHGAEVQGNAVIYQLTLLEGYQVLGDITLAPLANPLGINQKSGEFTLGRFDPITGVNWNREYFDHNVDIQNWYAEHQHLTNSELFCAYRSLVETCQARLTHSFGISTGHRLAVNLQAAHQADIVLDLHTGPKSCKHLYCPEYDIDAARFFSIPYTLIIPNSFGGADEATFCPWWQLTEYATSQGREFSVPVSAFTLELASQERIDLADALEDAKGILAYLSHRGVIAEKVNPASERFGCYLKDYKKFHAPKAGLIEYCASVGEPLTAGKPLVNILRIDLYGSEQAYQAISLPDCVPILHFASASVLQGTELYKVTNVFPLQPS TKAIQSSVQVGELATGQALTVPIYSFGSENSAPSVYIQANVHGAEVQGNAVIYQLTLLEGYQVLGDITLAPLANPLGINQKSGEFTLGRFDPITGVNWNREYFDHNVDIQNWYAEHQHLTNSELFCAYRSLVETCQARLTHSFGISTGHRLAVNLQAAHQADIVLDLHTGPKSCKHLYCPEYDIDAARFFSIPYTLIIPNSFGGADEATFCPWWQLTEYATSQGREFSVPVSAFTLELASQERIDLADALEDAKGILAYLSHRGVIAEKVNPASERFGCYLKDYKKFHAPKAGLIEYCASVGEPLTAGKPLVNILRIDLYGSEQAYQAISLPDCVPILHFASASVLQGTELYKVTNVFPLQPS 3lwu-a1-m3-cA_3lwu-a1-m4-cA Crystal structure of Putative succinylglutamate desuccinylase/aspartoacylase (YP_749235.1) from Shewanella frigidimarinA NCIMB 400 at 2.10 A resolution Q088B8 Q088B8 2.1 X-RAY DIFFRACTION 107 1.0 318167 (Shewanella frigidimarina NCIMB 400) 318167 (Shewanella frigidimarina NCIMB 400) 363 363 3lwu-a1-m1-cA_3lwu-a1-m2-cA TKAIQSSVQVGELATGQALTVPIYSFGSENSAPSVYIQANVHGAEVQGNAVIYQLTLLEGYQVLGDITLAPLANPLGINQKSGEFTLGRFDPITGVNWNREYFDHNVDIQNWYAEHQHLTNSELFCAYRSLVETCQARLTHSFGISTGHRLAVNLQAAHQADIVLDLHTGPKSCKHLYCPEYDIDAARFFSIPYTLIIPNSFGGADEATFCPWWQLTEYATSQGREFSVPVSAFTLELASQERIDLADALEDAKGILAYLSHRGVIAEKVNPASERFGCYLKDYKKFHAPKAGLIEYCASVGEPLTAGKPLVNILRIDLYGSEQAYQAISLPDCVPILHFASASVLQGTELYKVTNVFPLQPS TKAIQSSVQVGELATGQALTVPIYSFGSENSAPSVYIQANVHGAEVQGNAVIYQLTLLEGYQVLGDITLAPLANPLGINQKSGEFTLGRFDPITGVNWNREYFDHNVDIQNWYAEHQHLTNSELFCAYRSLVETCQARLTHSFGISTGHRLAVNLQAAHQADIVLDLHTGPKSCKHLYCPEYDIDAARFFSIPYTLIIPNSFGGADEATFCPWWQLTEYATSQGREFSVPVSAFTLELASQERIDLADALEDAKGILAYLSHRGVIAEKVNPASERFGCYLKDYKKFHAPKAGLIEYCASVGEPLTAGKPLVNILRIDLYGSEQAYQAISLPDCVPILHFASASVLQGTELYKVTNVFPLQPS 3lwz-a1-m3-cA_3lwz-a1-m3-cD 1.65 Angstrom Resolution Crystal Structure of Type II 3-Dehydroquinate Dehydratase (aroQ) from Yersinia pestis Q8ZAX1 Q8ZAX1 1.65 X-RAY DIFFRACTION 73 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 146 147 3lwz-a1-m1-cA_3lwz-a1-m1-cD 3lwz-a1-m1-cB_3lwz-a1-m3-cC 3lwz-a1-m2-cA_3lwz-a1-m2-cD 3lwz-a1-m2-cB_3lwz-a1-m1-cC 3lwz-a1-m3-cB_3lwz-a1-m2-cC KFHILLLNGPNLNLLGTREPEKYGYTTLAEIVSQLEIQAQGMDVALSHLQSNAEHALIDSIHQARGNTDFILINPAAFTHTSVALRDALLGVQIPFIEIHLSNVHAREPFRHHSYLSDIAVGVICGLGADGYNFALQAAVNRLSKS DKFHILLLNGPNLNLLGTREPEKYGYTTLAEIVSQLEIQAQGMDVALSHLQSNAEHALIDSIHQARGNTDFILINPAAFTHTSVALRDALLGVQIPFIEIHLSNVHAREPFRHHSYLSDIAVGVICGLGADGYNFALQAAVNRLSKS 3lwz-a1-m3-cB_3lwz-a1-m3-cA 1.65 Angstrom Resolution Crystal Structure of Type II 3-Dehydroquinate Dehydratase (aroQ) from Yersinia pestis Q8ZAX1 Q8ZAX1 1.65 X-RAY DIFFRACTION 52 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 145 146 3lwz-a1-m1-cA_3lwz-a1-m1-cC 3lwz-a1-m1-cB_3lwz-a1-m1-cA 3lwz-a1-m1-cB_3lwz-a1-m1-cC 3lwz-a1-m1-cD_3lwz-a1-m2-cD 3lwz-a1-m1-cD_3lwz-a1-m3-cD 3lwz-a1-m2-cA_3lwz-a1-m2-cC 3lwz-a1-m2-cB_3lwz-a1-m2-cA 3lwz-a1-m2-cB_3lwz-a1-m2-cC 3lwz-a1-m2-cD_3lwz-a1-m3-cD 3lwz-a1-m3-cA_3lwz-a1-m3-cC 3lwz-a1-m3-cB_3lwz-a1-m3-cC KFHILLLNGPNLNLLGTREPEKYGYTTLAEIVSQLEIQAQGMDVALSHLQSNAEHALIDSIHQARGNTDFILINPAAFTHTSVALRDALLGVQIPFIEIHLSNVHAREPFRHHSYLSDIAVGVICGLGADGYNFALQAAVNRLSK KFHILLLNGPNLNLLGTREPEKYGYTTLAEIVSQLEIQAQGMDVALSHLQSNAEHALIDSIHQARGNTDFILINPAAFTHTSVALRDALLGVQIPFIEIHLSNVHAREPFRHHSYLSDIAVGVICGLGADGYNFALQAAVNRLSKS 3lx2-a1-m1-cB_3lx2-a1-m1-cC Crystal Structure analysis of PCNA from Thermococcus kodakaraensis tk0582 Q5JFD3 Q5JFD3 2.4 X-RAY DIFFRACTION 46 1.0 311400 (Thermococcus kodakarensis) 311400 (Thermococcus kodakarensis) 246 246 3lx2-a1-m1-cB_3lx2-a1-m1-cA 3lx2-a1-m1-cC_3lx2-a1-m1-cA TFEIVFDSAREFESLIATLEKFFDEAVFQVNMEGIQMRAIDPSRVVLVDLNLPEMLFSKYSVESEEAIAFDLKRFLKVLKLARSRDTLVLRKGGENFLEVGLLGDENTWFKLPLIDANTPEIEIPSLPWTVKAVVLAGALKRAVKAAKLVSDSIYFMATPEKLTFKAEGNDSEVRTVLTMEDPGLLDLEHKMTKAKSAYGVAYLEDILRSLADADEVIIRFGFDIPLLLKYMVRDAGEVSFLIAPR TFEIVFDSAREFESLIATLEKFFDEAVFQVNMEGIQMRAIDPSRVVLVDLNLPEMLFSKYSVESEEAIAFDLKRFLKVLKLARSRDTLVLRKGGENFLEVGLLGDENTWFKLPLIDANTPEIEIPSLPWTVKAVVLAGALKRAVKAAKLVSDSIYFMATPEKLTFKAEGNDSEVRTVLTMEDPGLLDLEHKMTKAKSAYGVAYLEDILRSLADADEVIIRFGFDIPLLLKYMVRDAGEVSFLIAPR 3lx3-a1-m1-cA_3lx3-a1-m6-cA Plasmodium vivax 6-pyruvoyltetrahydropterin synthase (PTPS) in complex with xanthopterin A5K2B2 A5K2B2 1.55 X-RAY DIFFRACTION 95 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 163 163 2a0s-a1-m1-cA_2a0s-a1-m1-cB 2a0s-a1-m2-cA_2a0s-a1-m2-cB 2a0s-a1-m3-cA_2a0s-a1-m3-cB 3lx3-a1-m2-cA_3lx3-a1-m5-cA 3lx3-a1-m3-cA_3lx3-a1-m4-cA 3lze-a1-m1-cA_3lze-a1-m6-cA 3lze-a1-m2-cA_3lze-a1-m5-cA 3lze-a1-m3-cA_3lze-a1-m4-cA 3m0n-a1-m1-cA_3m0n-a1-m6-cA 3m0n-a1-m2-cA_3m0n-a1-m5-cA 3m0n-a1-m3-cA_3m0n-a1-m4-cA DQIAELLVESPLFSFNCAHFIAFKGFRETLHGHNYNVSLRLRGNIQGDGYVIDFSILKEKVRKVCKQLDHHFILPMYSDVLNIQEVNDNFKITCEDNSEYSFPKRDCVQIPIKHSSTEEIGLYILNQLIEEIDLPFLKTRSVNYMEVTVSESPSQKATVHRNI DQIAELLVESPLFSFNCAHFIAFKGFRETLHGHNYNVSLRLRGNIQGDGYVIDFSILKEKVRKVCKQLDHHFILPMYSDVLNIQEVNDNFKITCEDNSEYSFPKRDCVQIPIKHSSTEEIGLYILNQLIEEIDLPFLKTRSVNYMEVTVSESPSQKATVHRNI 3lx3-a1-m5-cA_3lx3-a1-m6-cA Plasmodium vivax 6-pyruvoyltetrahydropterin synthase (PTPS) in complex with xanthopterin A5K2B2 A5K2B2 1.55 X-RAY DIFFRACTION 55 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 163 163 2a0s-a1-m1-cA_2a0s-a1-m2-cA 2a0s-a1-m1-cA_2a0s-a1-m3-cA 2a0s-a1-m1-cB_2a0s-a1-m2-cB 2a0s-a1-m1-cB_2a0s-a1-m3-cB 2a0s-a1-m2-cA_2a0s-a1-m3-cA 2a0s-a1-m2-cB_2a0s-a1-m3-cB 3lx3-a1-m1-cA_3lx3-a1-m2-cA 3lx3-a1-m1-cA_3lx3-a1-m3-cA 3lx3-a1-m2-cA_3lx3-a1-m3-cA 3lx3-a1-m4-cA_3lx3-a1-m5-cA 3lx3-a1-m4-cA_3lx3-a1-m6-cA 3lze-a1-m1-cA_3lze-a1-m2-cA 3lze-a1-m1-cA_3lze-a1-m3-cA 3lze-a1-m2-cA_3lze-a1-m3-cA 3lze-a1-m4-cA_3lze-a1-m5-cA 3lze-a1-m4-cA_3lze-a1-m6-cA 3lze-a1-m5-cA_3lze-a1-m6-cA 3m0n-a1-m1-cA_3m0n-a1-m2-cA 3m0n-a1-m1-cA_3m0n-a1-m3-cA 3m0n-a1-m2-cA_3m0n-a1-m3-cA 3m0n-a1-m4-cA_3m0n-a1-m5-cA 3m0n-a1-m4-cA_3m0n-a1-m6-cA 3m0n-a1-m5-cA_3m0n-a1-m6-cA DQIAELLVESPLFSFNCAHFIAFKGFRETLHGHNYNVSLRLRGNIQGDGYVIDFSILKEKVRKVCKQLDHHFILPMYSDVLNIQEVNDNFKITCEDNSEYSFPKRDCVQIPIKHSSTEEIGLYILNQLIEEIDLPFLKTRSVNYMEVTVSESPSQKATVHRNI DQIAELLVESPLFSFNCAHFIAFKGFRETLHGHNYNVSLRLRGNIQGDGYVIDFSILKEKVRKVCKQLDHHFILPMYSDVLNIQEVNDNFKITCEDNSEYSFPKRDCVQIPIKHSSTEEIGLYILNQLIEEIDLPFLKTRSVNYMEVTVSESPSQKATVHRNI 3lx7-a1-m1-cA_3lx7-a1-m2-cA Crystal structure of a Novel Tudor domain-containing protein SGF29 Q96ES7 Q96ES7 1.78 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 143 GRENLYFKPPPLCGAIPASGDYVARPGDKVAARVQWILAEVVSYSHATNKYEVDDIERHTLSRRRVIPLPQWKANPETDPEALFQKEQLVLALYPQTTCFYRALIHAPPQRPQDDYSVLFEDTSYADGYSPPLNVAQRYVVAC GRENLYFKPPPLCGAIPASGDYVARPGDKVAARVQWILAEVVSYSHATNKYEVDDIERHTLSRRRVIPLPQWKANPETDPEALFQKEQLVLALYPQTTCFYRALIHAPPQRPQDDYSVLFEDTSYADGYSPPLNVAQRYVVAC 3lxf-a1-m1-cC_3lxf-a1-m2-cE Crystal Structure of [2Fe-2S] Ferredoxin Arx from Novosphingobium aromaticivorans Q2G8A3 Q2G8A3 2.3 X-RAY DIFFRACTION 11 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 104 104 3lxf-a1-m1-cA_3lxf-a1-m2-cA 3lxf-a1-m1-cB_3lxf-a1-m2-cD 3lxf-a1-m1-cD_3lxf-a1-m2-cB 3lxf-a1-m1-cE_3lxf-a1-m2-cC TAILVTTRDGTRTEIQAEPGLSLMEALRDAGIDELLALCGGCCSCATCHVLVAPAFADRLPALSGDENDLLDSSDHRTPHSRLSCQITINDKLEGLEVEIAPED TAILVTTRDGTRTEIQAEPGLSLMEALRDAGIDELLALCGGCCSCATCHVLVAPAFADRLPALSGDENDLLDSSDHRTPHSRLSCQITINDKLEGLEVEIAPED 3lxf-a1-m1-cE_3lxf-a1-m2-cE Crystal Structure of [2Fe-2S] Ferredoxin Arx from Novosphingobium aromaticivorans Q2G8A3 Q2G8A3 2.3 X-RAY DIFFRACTION 48 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 104 104 3lxf-a1-m1-cA_3lxf-a1-m2-cB 3lxf-a1-m1-cB_3lxf-a1-m2-cA 3lxf-a1-m1-cC_3lxf-a1-m2-cD 3lxf-a1-m1-cD_3lxf-a1-m2-cC TAILVTTRDGTRTEIQAEPGLSLMEALRDAGIDELLALCGGCCSCATCHVLVAPAFADRLPALSGDENDLLDSSDHRTPHSRLSCQITINDKLEGLEVEIAPED TAILVTTRDGTRTEIQAEPGLSLMEALRDAGIDELLALCGGCCSCATCHVLVAPAFADRLPALSGDENDLLDSSDHRTPHSRLSCQITINDKLEGLEVEIAPED 3lxf-a1-m2-cD_3lxf-a1-m2-cE Crystal Structure of [2Fe-2S] Ferredoxin Arx from Novosphingobium aromaticivorans Q2G8A3 Q2G8A3 2.3 X-RAY DIFFRACTION 30 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 104 104 3lxf-a1-m1-cA_3lxf-a1-m1-cB 3lxf-a1-m1-cA_3lxf-a1-m1-cD 3lxf-a1-m1-cB_3lxf-a1-m1-cC 3lxf-a1-m1-cC_3lxf-a1-m1-cE 3lxf-a1-m1-cD_3lxf-a1-m1-cE 3lxf-a1-m2-cA_3lxf-a1-m2-cB 3lxf-a1-m2-cA_3lxf-a1-m2-cD 3lxf-a1-m2-cB_3lxf-a1-m2-cC 3lxf-a1-m2-cC_3lxf-a1-m2-cE TAILVTTRDGTRTEIQAEPGLSLMEALRDAGIDELLALCGGCCSCATCHVLVAPAFADRLPALSGDENDLLDSSDHRTPHSRLSCQITINDKLEGLEVEIAPED TAILVTTRDGTRTEIQAEPGLSLMEALRDAGIDELLALCGGCCSCATCHVLVAPAFADRLPALSGDENDLLDSSDHRTPHSRLSCQITINDKLEGLEVEIAPED 3lxm-a1-m1-cC_3lxm-a1-m1-cB 2.00 Angstrom resolution crystal structure of a catalytic subunit of an aspartate carbamoyltransferase (pyrB) from Yersinia pestis CO92 Q8ZB39 Q8ZB39 2 X-RAY DIFFRACTION 43 0.993 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 277 282 3lxm-a1-m1-cB_3lxm-a1-m1-cA 3lxm-a1-m1-cC_3lxm-a1-m1-cA NPLYHKHIISINDLSRDELELVLRTAASLKKTPQPELLKHKVIASCFFEASTRTRLSFETSIHRLGASVVGFSDSGETLADTMSVISTYVDAIVMRHPQEGASRLAAQFSGNVPIVNAGDGANPTQTLLDLFTIQETQGRLDNINIAMVGDLKYGRTVHSLTQALAKFNGNHFFFIAPDALAMPAYILQMLEEKEIEYSLHESLEEVVPELDILYMTILRSSDLTGARDNLKVLHPLPRIDEITTDVDKTPYAYYFQQAGNGIFARQALLALVLNAE ANPLYHKHIISINDLSRDELELVLRTAASLKKTPQPELLKHKVIASCFFEASTRTRLSFETSIHRLGASVVGFSDSTLADTMSVISTYVDAIVMRHPQEGASRLAAQFSGNVPIVNAGDGANQHPTQTLLDLFTIQETQGRLDNINIAMVGDLKYGRTVHSLTQALAKFNGNHFFFIAPDALAMPAYILQMLEEKEIEYSLHESLEEVVPELDILYMTRQFILRSSDLTGARDNLKVLHPLPRIDEITTDVDKTPYAYYFQQAGNGIFARQALLALVLNAEL 3lxu-a1-m1-cX_3lxu-a1-m2-cX Crystal Structure of Tripeptidyl Peptidase 2 (TPP II) Q9V6K1 Q9V6K1 3.14 X-RAY DIFFRACTION 175 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1192 1192 KAETGVLNFLQKYPEYDGRDVTIAIFDSGVDPRATGLETLCDGKTVKVIERYDCSGCGDVDKKKVTPDENGEKAVRVGLKSFSDLLPSKVRNNIVAQAKLKHWDKPHKTATANASRKIVEFESQNPGEASKLPWDKKILKENLDFELELNSYEKVYGDIKTSYDCILFPTADGWLTIVDTTEQGDLDQALRIGEYSRTHETRNVDDFLSISVNVHDEGNVLEVVGSSPHGTHVSSIASGNHSSRDVDGVAPNAKIVSTIGDGRLGSETGTALVRATKVELCRDGRRIDVINSYGEHANWSNSGRIGELNEVVNKYGVVWVASAGNHGPALCTVGTPPDISQPSLIGVGAYVSPQEANVYTWTSRDPCIDGGQGVTVCAPGLNGTSAAPHVAGAVALLISGLKQQNIEYSPYSIKRAISVTATKLGYVDPFAQGHGLLNVEKAFEHLTEHRQSKDNLRFSVRVGNNADKGIHLRQGVQRNSIDYNVYIEPIFYNDKEADPKDKFNFNVRLNLIASQPWVQCGAFLDLSYGTRSIAVRVDPTGLQPGVHSAVIRAYDTDCVQKGSLFEIPVTVVQPHVLESDQNTPVFEPASSKGDNSVEFQPNTIQRDFILVPERATWAELRRITDPNRGEDIGKFFVHTNQLLPKQSCRKLETKIVSVGSENESIAFKVKSGRILELCIAKYWSNYGQSHLKYSLRFRGVEAHNPNAYVHAGRGIHKLEIEALVAEDVQPQLQLKNAEVVLKPTEAKISPLSATRDVIPDGRQVYQNLLAFNLNVAKAADVSIYAPIFNDLLYEAEFESQWLFDANKALVATGDAHSHTSFTKLDKGEYTIRLQVRHEKRDLLEKISEANLVASFKLTSPLTLDFYENYNQCIVGGRKYVSSPLRLSTRVLYIAPITQERLTKANLPAQCAWLSGNLVFPQDEVGRRVAQHPFTYILNPAEGKANADDYAESFRDFQCSQIVKCELEAEKIYNDVVAAHPKHLQANLLLIQNIESNQLKSQLPLTFVNAQKTSPPEAGESADKQKEDQKKVRSALERIVKLADKVIQETDSEALLSYYGLKNDTRADAAKIKTNDKQKNTLIEALSKKGIAVAKLAVLDDCIKDSLAEINELYTEIIKFVDANDSKAIQFALWHAYAHGHYGRYKYVVKLIEEKRTRDHFVELAAINGALGHEHIRTVINRITAFPSSFRLF KAETGVLNFLQKYPEYDGRDVTIAIFDSGVDPRATGLETLCDGKTVKVIERYDCSGCGDVDKKKVTPDENGEKAVRVGLKSFSDLLPSKVRNNIVAQAKLKHWDKPHKTATANASRKIVEFESQNPGEASKLPWDKKILKENLDFELELNSYEKVYGDIKTSYDCILFPTADGWLTIVDTTEQGDLDQALRIGEYSRTHETRNVDDFLSISVNVHDEGNVLEVVGSSPHGTHVSSIASGNHSSRDVDGVAPNAKIVSTIGDGRLGSETGTALVRATKVELCRDGRRIDVINSYGEHANWSNSGRIGELNEVVNKYGVVWVASAGNHGPALCTVGTPPDISQPSLIGVGAYVSPQEANVYTWTSRDPCIDGGQGVTVCAPGLNGTSAAPHVAGAVALLISGLKQQNIEYSPYSIKRAISVTATKLGYVDPFAQGHGLLNVEKAFEHLTEHRQSKDNLRFSVRVGNNADKGIHLRQGVQRNSIDYNVYIEPIFYNDKEADPKDKFNFNVRLNLIASQPWVQCGAFLDLSYGTRSIAVRVDPTGLQPGVHSAVIRAYDTDCVQKGSLFEIPVTVVQPHVLESDQNTPVFEPASSKGDNSVEFQPNTIQRDFILVPERATWAELRRITDPNRGEDIGKFFVHTNQLLPKQSCRKLETKIVSVGSENESIAFKVKSGRILELCIAKYWSNYGQSHLKYSLRFRGVEAHNPNAYVHAGRGIHKLEIEALVAEDVQPQLQLKNAEVVLKPTEAKISPLSATRDVIPDGRQVYQNLLAFNLNVAKAADVSIYAPIFNDLLYEAEFESQWLFDANKALVATGDAHSHTSFTKLDKGEYTIRLQVRHEKRDLLEKISEANLVASFKLTSPLTLDFYENYNQCIVGGRKYVSSPLRLSTRVLYIAPITQERLTKANLPAQCAWLSGNLVFPQDEVGRRVAQHPFTYILNPAEGKANADDYAESFRDFQCSQIVKCELEAEKIYNDVVAAHPKHLQANLLLIQNIESNQLKSQLPLTFVNAQKTSPPEAGESADKQKEDQKKVRSALERIVKLADKVIQETDSEALLSYYGLKNDTRADAAKIKTNDKQKNTLIEALSKKGIAVAKLAVLDDCIKDSLAEINELYTEIIKFVDANDSKAIQFALWHAYAHGHYGRYKYVVKLIEEKRTRDHFVELAAINGALGHEHIRTVINRITAFPSSFRLF 3lxx-a1-m1-cA_3lxx-a1-m2-cA Crystal structure of human GTPase IMAP family member 4 Q9NUV9 Q9NUV9 2.15 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 SQLRIVLVGKTGAGKSATGNSILGRKVFHSTKKCEKRSSSWKETELVVVDTPGIFNAETSKEIIRCILLTSPGPHALLLVVPLGRYTEEEHKATEKILKFGERARSFILIFTRKDDLPEDIQDLDIFGDRYCALNNKATGAEQEAQRAQLLGLIQRVVRENKEGCY SQLRIVLVGKTGAGKSATGNSILGRKVFHSTKKCEKRSSSWKETELVVVDTPGIFNAETSKEIIRCILLTSPGPHALLLVVPLGRYTEEEHKATEKILKFGERARSFILIFTRKDDLPEDIQDLDIFGDRYCALNNKATGAEQEAQRAQLLGLIQRVVRENKEGCY 3lxy-a1-m1-cA_3lxy-a1-m2-cA Crystal structure of 4-hydroxythreonine-4-phosphate dehydrogenase from Yersinia pestis CO92 P58719 P58719 1.7 X-RAY DIFFRACTION 117 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 329 329 MHNHNNRLVITPGEPAGVGPDLAITLAQQDWPVELVVCADPALLLARASQLNLPLQLREYQADQPAIAQQAGSLTILPVKTAVNVVPGKLDVGNSHYVVETLAKACDGAISGEFAALVTGPVQKSIINDAGIPFIGHTEFFADRSHCQRVVMMLATEELRVALATTHLPLLAVPGAITQASLHEVITILDNDLKTKFGITQPQIYVCGLNPHAGEGGHMGHEEIDTIIPALNTLRQQGINLIGPLPADTLFQPKYLQHADAVLAMYHDQGLPVLKYQGFGRAVNITLGLPFIRTSVDHGTALELAATGTADVGSFITALNLAIKMINNS MHNHNNRLVITPGEPAGVGPDLAITLAQQDWPVELVVCADPALLLARASQLNLPLQLREYQADQPAIAQQAGSLTILPVKTAVNVVPGKLDVGNSHYVVETLAKACDGAISGEFAALVTGPVQKSIINDAGIPFIGHTEFFADRSHCQRVVMMLATEELRVALATTHLPLLAVPGAITQASLHEVITILDNDLKTKFGITQPQIYVCGLNPHAGEGGHMGHEEIDTIIPALNTLRQQGINLIGPLPADTLFQPKYLQHADAVLAMYHDQGLPVLKYQGFGRAVNITLGLPFIRTSVDHGTALELAATGTADVGSFITALNLAIKMINNS 3lxz-a2-m1-cD_3lxz-a2-m1-cC Structure of probable Glutathione S-transferase(PP0183) from Pseudomonas putida Q88RE7 Q88RE7 1.76 X-RAY DIFFRACTION 86 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 209 210 3lxz-a1-m2-cB_3lxz-a1-m1-cA 3pr8-a1-m1-cB_3pr8-a1-m2-cA 3pr8-a2-m1-cC_3pr8-a2-m1-cD SLKLYGFSVSNYYNVKLALLEKGLTFEEVTFYGGQAPQALEVSPRGKVPVLETEHGFLSETSVILDYIEQTQGGKALLPADPFGQAKVRELLKEIELYIELPARTCYAESFFGSVEPLIKEKARADLLAGFATLKRNGRFAPYVAGEQLTLADLFCFSVDLANAVGKKVLNIDFLADFPQAKALLQLGENPHPRILADKEASPAFEIRS SLKLYGFSVSNYYNVKLALLEKGLTFEEVTFYGGQAPQALEVSPRGKVPVLETEHGFLSETSVILDYIEQTQGGKALLPADPFGQAKVRELLKEIELYIELPARTCYAESFFGSVEPLIKEKARADLLAGFATLKRNGRFAPYVAGEQLTLADLFCFSVDLANAVGKKVLNIDFLADFPQAKALLQLGENPHPRILADKEASPAFEIRSG 3ly1-a2-m1-cC_3ly1-a2-m1-cD Crystal structure of Putative histidinol-phosphate aminotransferase (YP_050345.1) from Erwinia carotovora atroseptica SCRI1043 at 1.80 A resolution Q6D4Z0 Q6D4Z0 1.8 X-RAY DIFFRACTION 127 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 334 341 3ly1-a1-m1-cA_3ly1-a1-m1-cB AAFTAPSTDNPIRINFNENPLGSPKAQAAARDAVVKANRYAKNEILLGNKLAAHHQVEAPSILLTAGSSEGIRAAIEAYASLEAQLVIPELTYGDGEHFAKIAGKVTKVKLDNWAFDIEGLKAAVAAYSGPSIVYLVNPNNPTGTITPADVIEPWIASKPANTFIVDEAYAEFVNDPRFRSISPITQGAENIILLKTFSKIHAAGRVGYAVAHPTVIALGRYVAGEKINFSGVDAALASNDSAFITYSKKSNDVSRQILLKALEDLKLPYLPSEGNFVFHQLVVPLKDYQTHADAGVLIGRAFPPADNWCRISLGTPQEQWVADTREFRKKSWI GETQPESAAFTAPSTDNPIRINFNENPLGSPKAQAAARDAVVKANRYAKNEILLGNKLAAHHQVEAPSILLTAGSSEGIRAAIEAYASLEAQLVIPELTYGDGEHFAKIAGKVTKVKLDNWAFDIEGLKAAVAAYSGPSIVYLVNPNNPTGTITPADVIEPWIASKPANTFIVDEAYAEFVNDPRFRSISPITQGAENIILLKTFSKIHAAGRVGYAVAHPTVIALGRYVAGEKINFSGVDAALASNDSAFITYSKKSNDVSRQILLKALEDLKLPYLPSEGNFVFHQLVVPLKDYQTHADAGVLIGRAFPPADNWCRISLGTPQEQWVADTREFRKKSWI 3ly7-a1-m1-cA_3ly7-a1-m2-cA Crystal structure of the periplasmic domain of CadC P23890 P23890 1.8 X-RAY DIFFRACTION 91 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 322 322 3ly8-a1-m1-cA_3ly8-a1-m2-cA 3ly9-a1-m1-cA_3ly9-a1-m2-cA 3lya-a1-m1-cA_3lya-a1-m2-cA SRILLNPRDIDINMVNKSCNSWSSPYQLSYAIGVGDLVATSLNTFSTFMVHDKINYNIDEPSSSGKTLSIAFVNQRQYRAQQCFMSIKLVDNADGSTMLDKRYVITNGNQLAIQNDLLESLSKALNQPWPQRMQETLQKILPHRGALLTNFYQAHDYLLHGDDKSLNRASELLGEIVQSSPEFTYARAEKALVDIVRHSQHPLDEKQLAALNTEIDNIVTLPELNNLSIIYQIKAVSALVKGKTDESYQAINTGIDLEMSWLNYVLLGKVYEMKGMNREAADAYLTAFNLRPGANTLYWIENGIFQTSVPYVVPYLDKFLAS SRILLNPRDIDINMVNKSCNSWSSPYQLSYAIGVGDLVATSLNTFSTFMVHDKINYNIDEPSSSGKTLSIAFVNQRQYRAQQCFMSIKLVDNADGSTMLDKRYVITNGNQLAIQNDLLESLSKALNQPWPQRMQETLQKILPHRGALLTNFYQAHDYLLHGDDKSLNRASELLGEIVQSSPEFTYARAEKALVDIVRHSQHPLDEKQLAALNTEIDNIVTLPELNNLSIIYQIKAVSALVKGKTDESYQAINTGIDLEMSWLNYVLLGKVYEMKGMNREAADAYLTAFNLRPGANTLYWIENGIFQTSVPYVVPYLDKFLAS 3lyb-a1-m3-cD_3lyb-a1-m1-cB Structure of putative endoribonuclease(KP1_3112) from Klebsiella pneumoniae 2.66 X-RAY DIFFRACTION 28 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 133 135 3lyb-a1-m1-cC_3lyb-a1-m1-cA 3lyb-a1-m1-cD_3lyb-a1-m2-cB 3lyb-a1-m2-cC_3lyb-a1-m2-cA 3lyb-a1-m2-cD_3lyb-a1-m3-cB 3lyb-a1-m3-cC_3lyb-a1-m3-cA YAAWRRAGDFIFLSGIIPVNTGTIVNGFQDVPEPVRELLGATGEFSTDAKQGPILAQSWYVLESIRRTVASAGGQSDVIKLVQYFRNLDHFPYYSRVRKLFYPDQPPVSTVVQVSELPDATVLIEVEATVWLP YAAWRRAGDFIFLSGIIPVNPLTGTIVNGFQDVPEPVRELLGATGEFSTDAKQGPILAQSWYVLESIRRTVASAGGQSDVIKLVQYFRNLDHFPYYSRVRKLFYPDQPPVSTVVQVSELPDATVLIEVEATVWLP 3lyb-a3-m2-cB_3lyb-a3-m3-cB Structure of putative endoribonuclease(KP1_3112) from Klebsiella pneumoniae 2.66 X-RAY DIFFRACTION 48 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 135 135 3lyb-a1-m1-cB_3lyb-a1-m2-cB 3lyb-a1-m1-cB_3lyb-a1-m3-cB 3lyb-a1-m1-cC_3lyb-a1-m3-cA 3lyb-a1-m1-cC_3lyb-a1-m3-cD 3lyb-a1-m1-cD_3lyb-a1-m1-cA 3lyb-a1-m2-cB_3lyb-a1-m3-cB 3lyb-a1-m2-cC_3lyb-a1-m1-cA 3lyb-a1-m2-cC_3lyb-a1-m1-cD 3lyb-a1-m2-cD_3lyb-a1-m2-cA 3lyb-a1-m3-cC_3lyb-a1-m2-cA 3lyb-a1-m3-cC_3lyb-a1-m2-cD 3lyb-a1-m3-cD_3lyb-a1-m3-cA 3lyb-a2-m1-cD_3lyb-a2-m1-cA 3lyb-a2-m2-cC_3lyb-a2-m1-cA 3lyb-a2-m2-cC_3lyb-a2-m1-cD 3lyb-a3-m1-cB_3lyb-a3-m2-cB 3lyb-a3-m1-cB_3lyb-a3-m3-cB YAAWRRAGDFIFLSGIIPVNPLTGTIVNGFQDVPEPVRELLGATGEFSTDAKQGPILAQSWYVLESIRRTVASAGGQSDVIKLVQYFRNLDHFPYYSRVRKLFYPDQPPVSTVVQVSELPDATVLIEVEATVWLP YAAWRRAGDFIFLSGIIPVNPLTGTIVNGFQDVPEPVRELLGATGEFSTDAKQGPILAQSWYVLESIRRTVASAGGQSDVIKLVQYFRNLDHFPYYSRVRKLFYPDQPPVSTVVQVSELPDATVLIEVEATVWLP 3lyc-a8-m1-cP_3lyc-a8-m1-cO Crystal structure of Putative pectinase (YP_001304412.1) from Parabacteroides distasonis ATCC 8503 at 2.30 A resolution A6LGH6 A6LGH6 2.3 X-RAY DIFFRACTION 155 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 227 235 3lyc-a1-m1-cB_3lyc-a1-m1-cA 3lyc-a2-m1-cD_3lyc-a2-m1-cC 3lyc-a3-m1-cF_3lyc-a3-m1-cE 3lyc-a4-m1-cG_3lyc-a4-m1-cH 3lyc-a5-m1-cJ_3lyc-a5-m1-cI 3lyc-a6-m1-cL_3lyc-a6-m1-cK 3lyc-a7-m1-cN_3lyc-a7-m1-cM NITTENIPVSEYDCLELEGGGVVNYTQSDAPEGLEIKTDRNIFEKYEFNVENHKLKIRPKKEFRKPTEFVTANSRNLKKLAAAGSTHVNINSPLQAEEFEAGLAGSGIIQFHDTASFTNLKIEIAGSGDFVGHKVYCEELNGDAGSNTIVLGGTVGIAEFSIAGSGTVRAFDCTDELECKIAGSGDIEAFVVNKIKAEIAGSGSVKYKGDPQDIQKKVGSGKIEKVE GGDGNITTENIPVSEYDCLELEGGGVVNYTQSDAPEGLEIKTDRNIFEKYEFNVENHKLKIRPKKEFRKHNFRPTEFVTANSRNLKKLAAAGSTHVNINSPLQAEEFEAGLAGSGIIQFHDTASFTNLKIEIAGSGDFVGHKVYCEELNGDAGSNTIVLGGTVGIAEFSIAGSGTVRAFDCTDELECKIAGSGDIEAFVVNKIKAEIAGSGSVKYKGDPQDIQKKVGSGKIEKVE 3lyd-a1-m1-cA_3lyd-a1-m1-cB Crystal structure of Putative uncharacterized protein from Jonesia denitrificans C7QYG7 C7QYG7 1.45 X-RAY DIFFRACTION 105 1.0 471856 (Jonesia denitrificans DSM 20603) 471856 (Jonesia denitrificans DSM 20603) 154 156 PSIRYPSTEFPALTGFTVPIPETWQPDPTGTQFAARPHTPPQGFTPNIIGTVRRAATGALHNQRTELDQRATQLPDYAERGRTETTVDGFPAYHIEYAYRHHGTITIAQITLVEVSHPHAVDIIQLTATCAGDQTADYWDTFRLHADLTVQPHG NAPSIRYPSTEFPALTGFTVPIPETWQPDPTGTQFAARPHTPPQGFTPNIIGTVRRAATGALHNQRTELDQRATQLPDYAERGRTETTVDGFPAYHIEYAYRHHGTITIAQITLVEVSHPHAVDIIQLTATCAGDQTADYWDTFRLHADLTVQPHG 3lye-a1-m1-cA_3lye-a1-m4-cA Crystal structure of oxaloacetate acetylhydrolase 1.3 X-RAY DIFFRACTION 78 1.0 5116 (Cryphonectria parasitica) 5116 (Cryphonectria parasitica) 285 285 3lye-a1-m2-cA_3lye-a1-m3-cA 3m0j-a1-m1-cA_3m0j-a1-m4-cA 3m0j-a1-m2-cA_3m0j-a1-m3-cA 3m0k-a1-m1-cA_3m0k-a1-m4-cA 3m0k-a1-m2-cA_3m0k-a1-m3-cA EPFSGAKKLRHLLENTDELIVCPGVYDGLSARTAMELGFKSLYMTGAGTTASRLGQPDLAIAQLHDMRDNADMIANLDPFGPPLIADMDTGYGGPIMVARTVEHYIRSGVAGAHLEDQILTKKVVSRDEYLVRIRAAVATKRRLRSDFVLIARTDALQSLGYEECIERLRAARDEGADVGLLEGFRSKEQAAAAVAALAPWPLLLNSVENGHSPLITVEEAKAMGFRIMIFSFATLAPAYAAIRETLVRLRDHGVVGTPDGITPVRLFEVCGLQDAMEVDNGAGG EPFSGAKKLRHLLENTDELIVCPGVYDGLSARTAMELGFKSLYMTGAGTTASRLGQPDLAIAQLHDMRDNADMIANLDPFGPPLIADMDTGYGGPIMVARTVEHYIRSGVAGAHLEDQILTKKVVSRDEYLVRIRAAVATKRRLRSDFVLIARTDALQSLGYEECIERLRAARDEGADVGLLEGFRSKEQAAAAVAALAPWPLLLNSVENGHSPLITVEEAKAMGFRIMIFSFATLAPAYAAIRETLVRLRDHGVVGTPDGITPVRLFEVCGLQDAMEVDNGAGG 3lye-a1-m2-cA_3lye-a1-m4-cA Crystal structure of oxaloacetate acetylhydrolase 1.3 X-RAY DIFFRACTION 249 1.0 5116 (Cryphonectria parasitica) 5116 (Cryphonectria parasitica) 285 285 3lye-a1-m1-cA_3lye-a1-m3-cA 3m0j-a1-m1-cA_3m0j-a1-m3-cA 3m0j-a1-m2-cA_3m0j-a1-m4-cA 3m0k-a1-m1-cA_3m0k-a1-m3-cA 3m0k-a1-m2-cA_3m0k-a1-m4-cA EPFSGAKKLRHLLENTDELIVCPGVYDGLSARTAMELGFKSLYMTGAGTTASRLGQPDLAIAQLHDMRDNADMIANLDPFGPPLIADMDTGYGGPIMVARTVEHYIRSGVAGAHLEDQILTKKVVSRDEYLVRIRAAVATKRRLRSDFVLIARTDALQSLGYEECIERLRAARDEGADVGLLEGFRSKEQAAAAVAALAPWPLLLNSVENGHSPLITVEEAKAMGFRIMIFSFATLAPAYAAIRETLVRLRDHGVVGTPDGITPVRLFEVCGLQDAMEVDNGAGG EPFSGAKKLRHLLENTDELIVCPGVYDGLSARTAMELGFKSLYMTGAGTTASRLGQPDLAIAQLHDMRDNADMIANLDPFGPPLIADMDTGYGGPIMVARTVEHYIRSGVAGAHLEDQILTKKVVSRDEYLVRIRAAVATKRRLRSDFVLIARTDALQSLGYEECIERLRAARDEGADVGLLEGFRSKEQAAAAVAALAPWPLLLNSVENGHSPLITVEEAKAMGFRIMIFSFATLAPAYAAIRETLVRLRDHGVVGTPDGITPVRLFEVCGLQDAMEVDNGAGG 3lye-a1-m3-cA_3lye-a1-m4-cA Crystal structure of oxaloacetate acetylhydrolase 1.3 X-RAY DIFFRACTION 35 1.0 5116 (Cryphonectria parasitica) 5116 (Cryphonectria parasitica) 285 285 3lye-a1-m1-cA_3lye-a1-m2-cA 3m0j-a1-m1-cA_3m0j-a1-m2-cA 3m0j-a1-m3-cA_3m0j-a1-m4-cA 3m0k-a1-m1-cA_3m0k-a1-m2-cA 3m0k-a1-m3-cA_3m0k-a1-m4-cA EPFSGAKKLRHLLENTDELIVCPGVYDGLSARTAMELGFKSLYMTGAGTTASRLGQPDLAIAQLHDMRDNADMIANLDPFGPPLIADMDTGYGGPIMVARTVEHYIRSGVAGAHLEDQILTKKVVSRDEYLVRIRAAVATKRRLRSDFVLIARTDALQSLGYEECIERLRAARDEGADVGLLEGFRSKEQAAAAVAALAPWPLLLNSVENGHSPLITVEEAKAMGFRIMIFSFATLAPAYAAIRETLVRLRDHGVVGTPDGITPVRLFEVCGLQDAMEVDNGAGG EPFSGAKKLRHLLENTDELIVCPGVYDGLSARTAMELGFKSLYMTGAGTTASRLGQPDLAIAQLHDMRDNADMIANLDPFGPPLIADMDTGYGGPIMVARTVEHYIRSGVAGAHLEDQILTKKVVSRDEYLVRIRAAVATKRRLRSDFVLIARTDALQSLGYEECIERLRAARDEGADVGLLEGFRSKEQAAAAVAALAPWPLLLNSVENGHSPLITVEEAKAMGFRIMIFSFATLAPAYAAIRETLVRLRDHGVVGTPDGITPVRLFEVCGLQDAMEVDNGAGG 3lyf-a2-m1-cD_3lyf-a2-m1-cC Crystal Structure of the Rift Valley Fever Virus Nucleocapsid Protein D3K5I7 D3K5I7 1.93 X-RAY DIFFRACTION 39 1.0 11588 (Rift Valley fever virus) 11588 (Rift Valley fever virus) 238 241 3lyf-a1-m1-cA_3lyf-a1-m1-cB MDNYQELAIQFAAQAEIEQWVREQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGRTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA MDNYQELAIQFAAQAEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGRTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA 3lyg-a1-m1-cA_3lyg-a1-m2-cA Crystal structure of NTF2-like protein of unknown function (YP_270605.1) from Colwellia psychrerythraea 34H at 1.61 A resolution Q47X65 Q47X65 1.61 X-RAY DIFFRACTION 74 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 116 116 GNLANIVQRGWEALGAGDFDTLVTDYVEKIFIPGQADVLKGRQAFRSALDNLGEILPPGFEITGLRQLEGENEIVSIVEWKSDKIASQLSVLFKFEGDQIYEERWFVDTEQWKSVF GNLANIVQRGWEALGAGDFDTLVTDYVEKIFIPGQADVLKGRQAFRSALDNLGEILPPGFEITGLRQLEGENEIVSIVEWKSDKIASQLSVLFKFEGDQIYEERWFVDTEQWKSVF 3lyh-a1-m1-cA_3lyh-a1-m1-cB Crystal structure of Putative cobalamin (vitamin B12) biosynthesis CbiX protein (YP_958415.1) from Marinobacter aquaeolei VT8 at 1.60 A resolution A1TZQ9 A1TZQ9 1.6 X-RAY DIFFRACTION 155 0.992 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 118 120 PHQIILLAHGSSDARWCETFEKLAEPTVESIENAAIAYELAEPSLDTIVNRAKGQGVEQFTVVPLFLAAGRHLRKDVPAIERLEAEHGVTIRLAEPIGKNPRLGLAIRDVVKEELERS QPHQIILLAHGSSDARWCETFEKLAEPTVESIENAAIAYELAEPSLDTIVNRAKGQGVEQFTVVPLFLAAGHLRKDVPAIERLEAEHGVTIRLAEPIGKNPRLGLAIRDVVKEELERSEH 3lyk-a1-m1-cA_3lyk-a1-m1-cB Structure of stringent starvation protein A homolog from Haemophilus influenzae P45207 P45207 2.1 X-RAY DIFFRACTION 51 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 184 188 VTLFSNKDDIYCHQVKIVLAEKGVLYENAEVDLQALPEDLELNPYGTVPTLVDRDLVLFNSRIIEYLDERFPHPPLQVYPVSRAKDRLLLRIEQDWYPTLAKAENGTEKEKTSALKQLKEELLGIAPIFQQPYFNEEFGLVDCYVAPLLWKLKHLGVEFTGTGSKAIKAYERVFTRDSFLQSVG SLRSVTLFSNKDDIYCHQVKIVLAEKGVLYENAEVDLQALPEDLELNPYGTVPTLVDRDLVLFNSRIIEYLDERFPHPPLQVYPVSRAKDRLLLRIEQDWYPTLAKAENGTEKEKTSALKQLKEELLGIAPIFQQPYFNEEFGLVDCYVAPLLWKLKHLGVEFTGTGSKAIKAYERVFTRDSFLQSVG 3lyl-a1-m1-cD_3lyl-a1-m1-cB Structure of 3-oxoacyl-acylcarrier protein reductase, FabG from Francisella tularensis Q5NF68 Q5NF68 1.95 X-RAY DIFFRACTION 85 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 230 233 3lyl-a1-m1-cA_3lyl-a1-m1-cC SLNEKVALVTGASRGIGFEVAHALASKGATVVGTATSQASAEKFENSKEKGFKARGLVLNISDIESIQNFFAEIKAENLAIDILVNNAGITRDNLRSEDEWQSVINTNLSSIFRSKECVRGKKRWGRIISIGSVVGSAGNPGQTNYCAAKAGVIGFSKSLAYEVASRNITVNVVAPGFIATDEQKSFIATKIPSGQIGEPKDIAAAVAFLASEEAKYITGQTLHVNGGYA SLNEKVALVTGASRGIGFEVAHALASKGATVVGTATSQASAEKFENSKEKGFKARGLVLNISDIESIQNFFAEIKAENLAIDILVNNAGITRDNLRSEDEWQSVINTNLSSIFRSKECVRGKKRWGRIISIGSVVGSAGNPGQTNYCAAKAGVIGFSKSLAYEVASRNITVNVVAPGFIATKLTDEQKSFIATKIPSGQIGEPKDIAAAVAFLASEEAKYITGQTLHVNGGYA 3lyl-a1-m1-cD_3lyl-a1-m1-cC Structure of 3-oxoacyl-acylcarrier protein reductase, FabG from Francisella tularensis Q5NF68 Q5NF68 1.95 X-RAY DIFFRACTION 111 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 230 236 3lyl-a1-m1-cB_3lyl-a1-m1-cA SLNEKVALVTGASRGIGFEVAHALASKGATVVGTATSQASAEKFENSKEKGFKARGLVLNISDIESIQNFFAEIKAENLAIDILVNNAGITRDNLRSEDEWQSVINTNLSSIFRSKECVRGKKRWGRIISIGSVVGSAGNPGQTNYCAAKAGVIGFSKSLAYEVASRNITVNVVAPGFIATDEQKSFIATKIPSGQIGEPKDIAAAVAFLASEEAKYITGQTLHVNGGYA SLNEKVALVTGASRGIGFEVAHALASKGATVVGTATSQASAEKFENSKEKGFKARGLVLNISDIESIQNFFAEIKAENLAIDILVNNAGITRDNLRSEDEWQSVINTNLSSIFRSKECVRGKKRWGRIISIGSVVGSAGNPGQTNYCAAKAGVIGFSKSLAYEVASRNITVNVVAPGFIATDTDKLTDEQKSFIATKIPSGQIGEPKDIAAAVAFLASEEAKYITGQTLHVNGGYA 3lyn-a1-m1-cA_3lyn-a1-m1-cB STRUCTURE OF GREEN ABALONE LYSIN DIMER Q01381 Q01381 1.7 X-RAY DIFFRACTION 27 1.0 6456 (Haliotis fulgens) 6456 (Haliotis fulgens) 122 124 INKAYEVTMKIQIISGFDRQLTAWLRVHGRRLTNNQKKTLFFVNRRYMQTHWQNYMLWVKRKIKALGRPAAVGDYTRLGAEIGRRVDMVFFYNFLSGRKMIPPYSAYMAKLNALRPADVPVK INKAYEVTMKIQIISGFDRQLTAWLRVHGRRLTNNQKKTLFFVNRRYMQTHWQNYMLWVKRKIKALGRPAAVGDYTRLGAEIGRRVDMVFFYNFLSGRKMIPPYSAYMAKLNALRPADVPVKNH 3lyp-a1-m1-cA_3lyp-a1-m1-cB Structure of stringent starvation protein A homolog from Pseudomonas fluorescens Q4K6H7 Q4K6H7 1.6 X-RAY DIFFRACTION 56 0.99 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 193 194 RLACYSDPADHYSHRVRIVLAEKGVSAEIISVEQPPKLIEVNPYGSLPTLVDRLALWESTVVEYLDERYPHPPLLPVYPVARANSRLLIHRIQRDWCGQVDLILDPRTKEAARVQARKELRESLTGVSPLFADKPFFLSEEQSLVDCCLLPILWRLPVLGIELPRQAKPLLDYERQFAREAFQASLSGVERDR LACYSDPADHYSHRVRIVLAEKGVSAEIISVEAGPPKLIEVNPYGSLPTLVDRDLALWESTVVEYLDERYPHPPLLPVYPVARANSRLLIHRIQRDWCGQVDLILDPRTKEAARVQARKELRESLTGVSPLFADKPFFLSEEQSLVDCCLLPILWRLPVLGIELPRQAKPLLDYERQFAREAFQASLSGVERDR 3lyu-a1-m1-cD_3lyu-a1-m1-cE Crystal Structure of the C-terminal domain (residues 83-215) of PF1911 hydrogenase from Pyrococcus furiosus, Northeast Structural Genomics Consortium Target PfR246A Q8TZS3 Q8TZS3 2.3 X-RAY DIFFRACTION 35 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 126 126 3lrx-a1-m1-cC_3lrx-a1-m1-cA 3lrx-a1-m1-cF_3lrx-a1-m1-cB 3lyu-a1-m1-cA_3lyu-a1-m1-cF 3lyu-a1-m1-cC_3lyu-a1-m1-cB GPLGTPVPEKFGKILAIGAYTGIVEVYPIAKAWQEIGNDVTTLHVTFEPVILKEELEKAVTRHIVEPVPLNPNQDFLANKNVSQRLKEKVRELLESEDWDLVFVGPVGDQKQVFEVVKEYGVPLEH GPLGTPVPEKFGKILAIGAYTGIVEVYPIAKAWQEIGNDVTTLHVTFEPVILKEELEKAVTRHIVEPVPLNPNQDFLANKNVSQRLKEKVRELLESEDWDLVFVGPVGDQKQVFEVVKEYGVPLEH 3lyu-a4-m1-cE_3lyu-a4-m1-cF Crystal Structure of the C-terminal domain (residues 83-215) of PF1911 hydrogenase from Pyrococcus furiosus, Northeast Structural Genomics Consortium Target PfR246A Q8TZS3 Q8TZS3 2.3 X-RAY DIFFRACTION 57 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 126 126 3lrx-a1-m1-cA_3lrx-a1-m1-cB 3lrx-a1-m1-cC_3lrx-a1-m1-cD 3lrx-a2-m1-cA_3lrx-a2-m1-cB 3lrx-a3-m1-cC_3lrx-a3-m1-cD 3lyu-a1-m1-cA_3lyu-a1-m1-cB 3lyu-a1-m1-cC_3lyu-a1-m1-cD 3lyu-a1-m1-cE_3lyu-a1-m1-cF 3lyu-a2-m1-cA_3lyu-a2-m1-cB 3lyu-a3-m1-cC_3lyu-a3-m1-cD GPLGTPVPEKFGKILAIGAYTGIVEVYPIAKAWQEIGNDVTTLHVTFEPVILKEELEKAVTRHIVEPVPLNPNQDFLANKNVSQRLKEKVRELLESEDWDLVFVGPVGDQKQVFEVVKEYGVPLEH GPLGTPVPEKFGKILAIGAYTGIVEVYPIAKAWQEIGNDVTTLHVTFEPVILKEELEKAVTRHIVEPVPLNPNQDFLANKNVSQRLKEKVRELLESEDWDLVFVGPVGDQKQVFEVVKEYGVPLEH 3lyv-a4-m1-cB_3lyv-a4-m3-cA Crystal structure of a domain of ribosome-associated factor Y from streptococcus pyogenes serotype M6. Northeast Structural Genomics Consortium target id DR64A Q5XAQ7 Q5XAQ7 2.7 X-RAY DIFFRACTION 74 1.0 301450 (Streptococcus pyogenes serotype M6) 301450 (Streptococcus pyogenes serotype M6) 56 57 3lyv-a1-m2-cB_3lyv-a1-m1-cA 3lyv-a2-m1-cF_3lyv-a2-m1-cC QVVRTKNVTLKPDVEEARLQELLGHDFFIYTDSEDGATNILYRREDGNLGLIEAKL QVVRTKNVTLKPDVEEARLQELLGHDFFIYTDSEDGATNILYRREDGNLGLIEAKLE 3lyx-a1-m1-cA_3lyx-a1-m1-cB Crystal structure of the PAS domain of the protein CPS_1291 from Colwellia psychrerythraea. Northeast Structural Genomics Consortium target id CsR222B Q486I1 Q486I1 2 X-RAY DIFFRACTION 83 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 118 120 DILKQRAKAFDYVFDAIVVTDLQGFIIDWNKGSETLYGYSKEQAIGQPVNMLHVPGDTEHITSEVISAVENQGKWTGEIRMLHKDGHIGWIESMCVPIYGENYQMVGALGINRDITKR NVDILKQRAKAFDYVFDAIVVTDLQGFIIDWNKGSETLYGYSKEQAIGQPVNMLHVPGDTEHITSEVISAVENQGKWTGEIRMLHKDGHIGWIESMCVPIYGENYQMVGALGINRDITKR 3lyy-a1-m2-cB_3lyy-a1-m1-cA Crystal structure of the MucBP domain of the adhesion protein PEPE_0118 from Pediococcus pentosaceus. Northeast Structural Genomics Consortium target id PtR41A Q03HU7 Q03HU7 1.9 X-RAY DIFFRACTION 46 1.0 278197 (Pediococcus pentosaceus ATCC 25745) 278197 (Pediococcus pentosaceus ATCC 25745) 99 101 ATSTETIHYVNEDGDQVFEDGGGKLDFTRTVTIDDVTNEVVEYGEWTPVTDDEFAAVTSPDKDGYTPDTSEVAAQKPDTDGPDGTVKDVEVTVTYTANP THATSTETIHYVNEDGDQVFEDGGGKLDFTRTVTIDDVTNEVVEYGEWTPVTDDEFAAVTSPDKDGYTPDTSEVAAQKPDTDGPDGTVKDVEVTVTYTANP 3lz6-a1-m1-cA_3lz6-a1-m1-cC Guinea Pig 11beta hydroxysteroid dehydrogenase with PF-877423 Q6QLL4 Q6QLL4 1.84 X-RAY DIFFRACTION 10 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 263 263 KFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEFLSAAEYNWDN KFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEFLSAAEYNWDN 3lz6-a1-m1-cC_3lz6-a1-m1-cD Guinea Pig 11beta hydroxysteroid dehydrogenase with PF-877423 Q6QLL4 Q6QLL4 1.84 X-RAY DIFFRACTION 175 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 263 263 1xse-a1-m1-cA_1xse-a1-m1-cB 3dwf-a1-m1-cA_3dwf-a1-m1-cB 3dwf-a1-m1-cC_3dwf-a1-m1-cD 3dwf-a2-m1-cA_3dwf-a2-m1-cB 3dwf-a3-m1-cC_3dwf-a3-m1-cD 3g49-a1-m1-cA_3g49-a1-m1-cB 3g49-a2-m1-cC_3g49-a2-m1-cD 3lz6-a1-m1-cA_3lz6-a1-m1-cB KFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEFLSAAEYNWDN KFRPEMLQGKKVIVTGASKGIGREIAYHLAKMGAHVVVTARSKEALQKVVARCLELGAASAHYIAGSMEDMTFAEEFVAEAGNLMGGLDMLILNHVLYNRLTFFHGEIDNVRKSMEVNFHSFVVLSVAAMPMLMQSQGSIAVVSSVAGKITYPLIAPYSASKFALDGFFSTLRSEFLVNKVNVSITLCILGLIDTETAIKATSGIYLGPASPKEECALEIIKGTALRQDEMYYVGSRWVPYLLGNPGRKIMEFLSAAEYNWDN 3lza-a2-m1-cC_3lza-a2-m1-cD Crystal structure of Putative SnoaL-like polyketide cyclase (YP_563807.1) from SHEWANELLA DENITRIFICANS OS-217 at 1.70 A resolution Q12KE2 Q12KE2 1.7 X-RAY DIFFRACTION 47 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 132 133 3lza-a1-m1-cA_3lza-a1-m1-cB RPIEQQLALGYIKALTEHDYQTLSKYYNRDSVFYDKTADTKYIGTRSIIAFLQRSHEGVLEFDFNIEHFNTGPLVVIGNYHLRGPGEQFGKPGKIIDIAIPGVTTLKFDPNTQRLTEQVDLDYQTSDQLQSQ DRPIEQQLALGYIKALTEHDYQTLSKYYNRDSVFYDKTADTKYIGTRSIIAFLQRSHEGVLEFDFNIEHFNTGPLVVIGNYHLRGPGEQFGKPGKIIDIAIPGVTTLKFDPNTQRLTEQVDLDYQTSDQLQSQ 3lzd-a1-m1-cB_3lzd-a1-m1-cA Crystal structure of Dph2 from Pyrococcus horikoshii with 4Fe-4S cluster O58832 O58832 2.1 X-RAY DIFFRACTION 99 0.997 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 337 340 3lzc-a1-m1-cB_3lzc-a1-m1-cA 6bxk-a1-m1-cB_6bxk-a1-m1-cA 6bxl-a1-m1-cB_6bxl-a1-m1-cA MLHEIPKSEILKELKRIGAKRVLIQSPEGLRREAEELAGFLEENNIEVFLHGEINYGACDPADREAKLVGCDALIHLGHSYMKLPLEVPTIFVPAFARVSVVEALKENIGEIKKLGRKIIVTTTAQHIHQLKEAKEFLESEGFEVSIGRGDSRISWPGQVLGCNYSVAKVRGEGILFIGSGIFHPLGLAVATRKKVLAIDPYTKAFSWIDPERFIRKRWAQIAKAMDAKKFGVIVSIKKGQLRLAEAKRIVKLLKKHGREARLIVMNDVNYHKLEGFPFEAYVVVACPRVPLDWRKPVLTPKEVEILLGLREEYEFDEILGGPRESDEPFGISIHST LHEIPKSEILKELKRIGAKRVLIQSPEGLRREAEELAGFLEENNIEVFLHGEINYGACDPADREAKLVGCDALIHLGHSYMKLPLEVPTIFVPAFARVSVVEALKENIGEIKKLGRKIIVTTTAQHIHQLKEAKEFLESEGFEVSIGRGDSRISWPGQVLGCNYSVAKVRGEGILFIGSGIFHPLGLAVATRKKVLAIDPYTKAFSWIDPERFIRKRWAQIAKAMDAKKFGVIVSIKKGQLRLAEAKRIVKLLKKHGREARLIVMNDVNYHKLEGFPFEAYVVVACPRVPLDDYGAWRKPVLTPKEVEILLGLREEYEFDEILGGPRESDEPFGISIHST 3lzk-a2-m1-cD_3lzk-a2-m1-cC The crystal structure of a probably aromatic amino acid degradation proteiN from Sinorhizobium meliloti 1021 Q92LT4 Q92LT4 1.9 X-RAY DIFFRACTION 125 0.997 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 330 333 3lzk-a1-m1-cB_3lzk-a1-m1-cA QGKLATLKDSTRDGKLVVVSKDLTRCSEVGHIARTLQAALDDWAHAGPRLERVAEGIETGAQPTRFHEHDAASPLPRAFQWADGSAYVNHVELVRKARNAEPASFWTDPLIYQGGSDSFLGPRDPILADDAWGIDEGEAAVIVDDVPGATLDEAKAAIRLVLVNDVSLRGLIPGELAKGFGFYQSKPSSAFSPVAVTPEELGEAWDGGKLHLPLHVDLNGEPFGRANAGIDTFDFPQLIVHAARTRPLSAGTIIGSGTVSNKLEGGPGRPVSEGGAGYSCIAELRIETIEGGAPKTQFLKFGDVVRIEKDRTGHSIFGAIEQKVGKYERG NLYFQGKLATLKDSTRDGKLVVVSKDLTRCSEVGHIARTLQAALDDWAHAGPRLERVAEGIETGAQPTRFHEHDAASPLPRAFQWADGSAYVNHVELVRKARNAEPASFWTDPLIYQGGSDSFLGPRDPILADDAWGIDEGEAAVIVDDVPGATLDEAKAAIRLVLVNDVSLRGLIPGELAKGFGFYQSKPSSAFSPVAVTPEELGEAWDGGKLHLPLHVDLNGEPFGRANAGIDTFDFPQLIVHAARTRPLSAGTIIGSGTVSNKLEGGPGRPVSEGGAGYSCIAELRIETIEGGAPKTQFLKFGDVVRIEKDRTGHSIFGAIEQKVGKYER 3lzw-a1-m1-cA_3lzw-a1-m2-cA Crystal structure of ferredoxin-NADP+ oxidoreductase from bacillus subtilis (form I) O05268 O05268 1.8 X-RAY DIFFRACTION 150 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 329 329 3lzx-a1-m1-cA_3lzx-a1-m1-cB MREDTKVYDITIIGGGPVGLFTAFYGGMRQASVKIIESLPQLGGQLSALYPEKYIYDVAGFPKIRAQELINNLKEQMAKFDQTICLEQAVESVEKQADGVFKLVTNEETHYSKTVIITAGNGAFKPRKLELENAEQYEGKNLHYFVDDLQKFAGRRVAILGGGDSAVDWALMLEPIAKEVSIIHRRDKFRAHEHSVENLHASKVNVLTPFVPAELIGEDKIEQLVLEEVKGDRKEILEIDDLIVNYGFVSSLGPIKNWGLDIEKNSIVVKSTMETNIEGFFAAGDICTYEGKVNLIASGFGEAPTAVNNAKAYMDPKARVQPLHSTSLF MREDTKVYDITIIGGGPVGLFTAFYGGMRQASVKIIESLPQLGGQLSALYPEKYIYDVAGFPKIRAQELINNLKEQMAKFDQTICLEQAVESVEKQADGVFKLVTNEETHYSKTVIITAGNGAFKPRKLELENAEQYEGKNLHYFVDDLQKFAGRRVAILGGGDSAVDWALMLEPIAKEVSIIHRRDKFRAHEHSVENLHASKVNVLTPFVPAELIGEDKIEQLVLEEVKGDRKEILEIDDLIVNYGFVSSLGPIKNWGLDIEKNSIVVKSTMETNIEGFFAAGDICTYEGKVNLIASGFGEAPTAVNNAKAYMDPKARVQPLHSTSLF 3m05-a1-m1-cC_3m05-a1-m1-cB The crystal structure of a functionally unknown protein PEPE_1480 from Pediococcus pentosaceus ATCC 25745 Q03E61 Q03E61 3.145 X-RAY DIFFRACTION 66 1.0 278197 (Pediococcus pentosaceus ATCC 25745) 278197 (Pediococcus pentosaceus ATCC 25745) 96 97 3m05-a1-m1-cA_3m05-a1-m1-cB 3m05-a1-m1-cA_3m05-a1-m1-cC ATKLVIAIVQDKDANYLSDQFIDQNVRATKLSTTGGFLQSGNTTFIGIEEERVPEVLEIIKKASHTREEFTPSYPIKVQVGGATVLVLPVDQFERF AATKLVIAIVQDKDANYLSDQFIDQNVRATKLSTTGGFLQSGNTTFIGIEEERVPEVLEIIKKASHTREEFTPSYPIKVQVGGATVLVLPVDQFERF 3m05-a3-m3-cC_3m05-a3-m1-cB The crystal structure of a functionally unknown protein PEPE_1480 from Pediococcus pentosaceus ATCC 25745 Q03E61 Q03E61 3.145 X-RAY DIFFRACTION 38 1.0 278197 (Pediococcus pentosaceus ATCC 25745) 278197 (Pediococcus pentosaceus ATCC 25745) 96 97 3m05-a2-m1-cA_3m05-a2-m2-cA ATKLVIAIVQDKDANYLSDQFIDQNVRATKLSTTGGFLQSGNTTFIGIEEERVPEVLEIIKKASHTREEFTPSYPIKVQVGGATVLVLPVDQFERF AATKLVIAIVQDKDANYLSDQFIDQNVRATKLSTTGGFLQSGNTTFIGIEEERVPEVLEIIKKASHTREEFTPSYPIKVQVGGATVLVLPVDQFERF 3m0d-a2-m1-cA_3m0d-a2-m1-cB Crystal structure of the TRAF1:TRAF2:cIAP2 complex Q12933 Q12933 2.8 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 3m06-a1-m1-cA_3m06-a1-m1-cB 3m06-a1-m1-cA_3m06-a1-m1-cC 3m06-a1-m1-cB_3m06-a1-m1-cC 3m06-a2-m1-cD_3m06-a2-m1-cE 3m06-a2-m1-cD_3m06-a2-m1-cF 3m06-a2-m1-cE_3m06-a2-m1-cF 3m0a-a1-m1-cA_3m0a-a1-m1-cB 3m0a-a1-m1-cA_3m0a-a1-m1-cC 3m0a-a1-m1-cB_3m0a-a1-m1-cC 3m0d-a1-m1-cA_3m0d-a1-m1-cB ELLQRCESLEKKTATFENIVCVLNREVERVAMTAEACSRQHRLDQDKIEALSSKVQQLERSIG ELLQRCESLEKKTATFENIVCVLNREVERVAMTAEACSRQHRLDQDKIEALSSKVQQLERSIG 3m0f-a1-m1-cB_3m0f-a1-m1-cA Crystal structure of Glutathione S Transferase in complex with glutathione from Pseudomonas fluorescens Q4KDJ6 Q4KDJ6 1.6 X-RAY DIFFRACTION 112 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 202 203 3lxt-a1-m1-cA_3lxt-a1-m1-cD 3lxt-a2-m1-cB_3lxt-a2-m1-cC LKLIGMLDSPYVRRVAISLKSLGLPFEHHSLSVFSTFEQFKAINPVVKAPTLVCEGGEVLMDSSLIIDYLETLAGPQRSLMPTALPQRLRELRLVGLALAACEKSVQIVYERNLRPAEKQHGPWLERVGGQLQAAYGELEQELQKQPLPRDGSLGQAGISLAVAWSFSQMMVADQFNPGQFPAVRGFAEYAEQLPVFLATPA LKLIGMLDSPYVRRVAISLKSLGLPFEHHSLSVFSTFEQFKAINPVVKAPTLVCEGGEVLMDSSLIIDYLETLAGPQRSLMPTALPQRLRELRLVGLALAACEKSVQIVYERNLRPAEKQHGPWLERVGGQLQAAYGELEQELQKQPLPRDGSLGQAGISLAVAWSFSQMMVADQFNPGQFPAVRGFAEYAEQLPVFLATPAT 3m0g-a1-m1-cA_3m0g-a1-m1-cB CRYSTAL STRUCTURE OF putative farnesyl diphosphate synthase from Rhodobacter capsulatus Q9KWR7 Q9KWR7 1.9 X-RAY DIFFRACTION 132 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 257 261 3lvs-a1-m1-cA_3lvs-a1-m1-cB SLSERLKEVQDAVETAAAAIGRLPAGDLRDAAYAAQGGKRLRAFLAIESAAIHGISAQAPAALAVEALHAYSLVHDDPCDNDDLRRGLPTVHKKWDDATAVLAGDALQTLAFELCTDPVLGSAENRVALVAALAQASGAEGVYGQALDIAAETAAVPLTLDEIIRLQAGKTGALISFAAQAGAILAGADRGPLTAYATALGLAFQIADDILATFVSLLGLAGAKSRAADLVAEAEAALAPYGEAASTLRACARYVIE SLSERLKEVQDAVETAAAAIGRLPAGDLRDAAYAAQGGKRLRAFLAIESAAIHGISAQAPAALAVEALHAYSLVHDDPCDNDDLRRGLPTVHKKWDDATAVLAGDALQTLAFELCTDPVLGSAENRVALVAALAQASGAEGVYGQALDIAAETAAVPLTLDEIIRLQAGKTGALISFAAQAGAILAGADRGPLTAYATALGLAFQIADDILDVKATFVSLLGLAGAKSRAADLVAEAEAALAPYGEAASTLRACARYVIER 3m0m-a1-m1-cD_3m0m-a1-m1-cA Crystal structure of Pseudomonas stutzeri L-rhamnose isomerase mutant S329F in complex with D-allose Q75WH8 Q75WH8 1.45 X-RAY DIFFRACTION 78 0.998 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 419 421 2hcv-a1-m1-cB_2hcv-a1-m1-cC 2hcv-a1-m1-cD_2hcv-a1-m1-cA 2i56-a1-m1-cB_2i56-a1-m1-cC 2i56-a1-m1-cD_2i56-a1-m1-cA 2i57-a1-m1-cA_2i57-a1-m1-cD 2i57-a1-m1-cB_2i57-a1-m1-cC 3itl-a1-m1-cB_3itl-a1-m1-cC 3itl-a1-m1-cD_3itl-a1-m1-cA 3ito-a1-m1-cB_3ito-a1-m1-cC 3ito-a1-m1-cD_3ito-a1-m1-cA 3itt-a1-m1-cA_3itt-a1-m1-cD 3itt-a1-m1-cB_3itt-a1-m1-cC 3itv-a1-m1-cB_3itv-a1-m1-cC 3itv-a1-m1-cD_3itv-a1-m1-cA 3itx-a1-m1-cB_3itx-a1-m1-cC 3itx-a1-m1-cD_3itx-a1-m1-cA 3ity-a1-m1-cB_3ity-a1-m1-cC 3ity-a1-m1-cD_3ity-a1-m1-cA 3iud-a1-m1-cA_3iud-a1-m1-cD 3iud-a1-m1-cB_3iud-a1-m1-cC 3iuh-a1-m1-cA_3iuh-a1-m1-cD 3iuh-a1-m1-cB_3iuh-a1-m1-cC 3iui-a1-m1-cA_3iui-a1-m1-cD 3iui-a1-m1-cB_3iui-a1-m1-cC 3m0h-a1-m1-cB_3m0h-a1-m1-cC 3m0h-a1-m1-cD_3m0h-a1-m1-cA 3m0l-a1-m1-cB_3m0l-a1-m1-cC 3m0l-a1-m1-cD_3m0l-a1-m1-cA 3m0m-a1-m1-cB_3m0m-a1-m1-cC 3m0v-a1-m1-cA_3m0v-a1-m1-cD 3m0v-a1-m1-cB_3m0v-a1-m1-cC 3m0x-a1-m1-cB_3m0x-a1-m1-cC 3m0x-a1-m1-cD_3m0x-a1-m1-cA 3m0y-a1-m1-cB_3m0y-a1-m1-cC 3m0y-a1-m1-cD_3m0y-a1-m1-cA 4gji-a1-m1-cB_4gji-a1-m1-cC 4gji-a1-m1-cD_4gji-a1-m1-cA 4gjj-a1-m1-cB_4gjj-a1-m1-cC 4gjj-a1-m1-cD_4gjj-a1-m1-cA EFRIAQDVVARENDRRASALKEDYEALGANLARRGVDIEAVTAKVEKFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVIQQLTRATPNVSLHIPWDKADPKELKARGDALGLGFDAMNSNTFSDAPGQAHSYKYGSLSHTNAATRAQAVEHNLECIEIGKAIGSKALTVWIGDGSNFPGQSNFTRAFERYLSAMAEIYKGLPDDWKLFSEHKMYEPAFYSTVVQDWGTNYLIAQTLGPKAQCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPYRLFLVFNELVDAEARGVKGFHPAHMIDQFHNVTDPIESLINSANEIRRAYAQALLVDRAALSGYQEDNDALMATETLKRAYRTDVEPILAEARRRTGGAVDPVATYRASGYRARVAAERPA FRIAQDVVARENDRRASALKEDYEALGANLARRGVDIEAVTAKVEKFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVIQQLTRATPNVSLHIPWDKADPKELKARGDALGLGFDAMNSNTFSDAPGQAHSYKYGSLSHTNAATRAQAVEHNLECIEIGKAIGSKALTVWIGDGSNFPGQSNFTRAFERYLSAMAEIYKGLPDDWKLFSEHKMYEPAFYSTVVQDWGTNYLIAQTLGPKAQCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPYRLFLVFNELVDAEARGVKGFHPAHMIDQFHNVTDPIESLINSANEIRRAYAQALLVDRAALSGYQEDNDALMATETLKRAYRTDVEPILAEARRRTGGAVDPVATYRASGYRARVAAERPASVA 3m0m-a1-m1-cD_3m0m-a1-m1-cB Crystal structure of Pseudomonas stutzeri L-rhamnose isomerase mutant S329F in complex with D-allose Q75WH8 Q75WH8 1.45 X-RAY DIFFRACTION 149 0.998 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 419 421 2hcv-a1-m1-cA_2hcv-a1-m1-cC 2hcv-a1-m1-cD_2hcv-a1-m1-cB 2i56-a1-m1-cA_2i56-a1-m1-cC 2i56-a1-m1-cD_2i56-a1-m1-cB 2i57-a1-m1-cA_2i57-a1-m1-cC 2i57-a1-m1-cD_2i57-a1-m1-cB 3itl-a1-m1-cA_3itl-a1-m1-cC 3itl-a1-m1-cD_3itl-a1-m1-cB 3ito-a1-m1-cA_3ito-a1-m1-cC 3ito-a1-m1-cD_3ito-a1-m1-cB 3itt-a1-m1-cA_3itt-a1-m1-cC 3itt-a1-m1-cB_3itt-a1-m1-cD 3itv-a1-m1-cA_3itv-a1-m1-cC 3itv-a1-m1-cD_3itv-a1-m1-cB 3itx-a1-m1-cB_3itx-a1-m1-cD 3itx-a1-m1-cC_3itx-a1-m1-cA 3ity-a1-m1-cA_3ity-a1-m1-cC 3ity-a1-m1-cD_3ity-a1-m1-cB 3iud-a1-m1-cA_3iud-a1-m1-cC 3iud-a1-m1-cD_3iud-a1-m1-cB 3iuh-a1-m1-cA_3iuh-a1-m1-cC 3iuh-a1-m1-cB_3iuh-a1-m1-cD 3iui-a1-m1-cA_3iui-a1-m1-cC 3iui-a1-m1-cB_3iui-a1-m1-cD 3m0h-a1-m1-cA_3m0h-a1-m1-cC 3m0h-a1-m1-cD_3m0h-a1-m1-cB 3m0l-a1-m1-cA_3m0l-a1-m1-cC 3m0l-a1-m1-cD_3m0l-a1-m1-cB 3m0m-a1-m1-cA_3m0m-a1-m1-cC 3m0v-a1-m1-cA_3m0v-a1-m1-cC 3m0v-a1-m1-cB_3m0v-a1-m1-cD 3m0x-a1-m1-cA_3m0x-a1-m1-cC 3m0x-a1-m1-cD_3m0x-a1-m1-cB 3m0y-a1-m1-cA_3m0y-a1-m1-cC 3m0y-a1-m1-cD_3m0y-a1-m1-cB 4gji-a1-m1-cA_4gji-a1-m1-cC 4gji-a1-m1-cD_4gji-a1-m1-cB 4gjj-a1-m1-cA_4gjj-a1-m1-cC 4gjj-a1-m1-cD_4gjj-a1-m1-cB EFRIAQDVVARENDRRASALKEDYEALGANLARRGVDIEAVTAKVEKFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVIQQLTRATPNVSLHIPWDKADPKELKARGDALGLGFDAMNSNTFSDAPGQAHSYKYGSLSHTNAATRAQAVEHNLECIEIGKAIGSKALTVWIGDGSNFPGQSNFTRAFERYLSAMAEIYKGLPDDWKLFSEHKMYEPAFYSTVVQDWGTNYLIAQTLGPKAQCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPYRLFLVFNELVDAEARGVKGFHPAHMIDQFHNVTDPIESLINSANEIRRAYAQALLVDRAALSGYQEDNDALMATETLKRAYRTDVEPILAEARRRTGGAVDPVATYRASGYRARVAAERPA FRIAQDVVARENDRRASALKEDYEALGANLARRGVDIEAVTAKVEKFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVIQQLTRATPNVSLHIPWDKADPKELKARGDALGLGFDAMNSNTFSDAPGQAHSYKYGSLSHTNAATRAQAVEHNLECIEIGKAIGSKALTVWIGDGSNFPGQSNFTRAFERYLSAMAEIYKGLPDDWKLFSEHKMYEPAFYSTVVQDWGTNYLIAQTLGPKAQCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPYRLFLVFNELVDAEARGVKGFHPAHMIDQFHNVTDPIESLINSANEIRRAYAQALLVDRAALSGYQEDNDALMATETLKRAYRTDVEPILAEARRRTGGAVDPVATYRASGYRARVAAERPASVA 3m0v-a1-m1-cD_3m0v-a1-m1-cC Crystal structure of Pseudomonas stutzeri L-rhamnose isomerase mutant S329L in complex with L-rhamnose Q75WH8 Q75WH8 1.79 X-RAY DIFFRACTION 192 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 429 433 2hcv-a1-m1-cB_2hcv-a1-m1-cA 2hcv-a1-m1-cD_2hcv-a1-m1-cC 2i56-a1-m1-cA_2i56-a1-m1-cB 2i56-a1-m1-cD_2i56-a1-m1-cC 2i57-a1-m1-cA_2i57-a1-m1-cB 2i57-a1-m1-cD_2i57-a1-m1-cC 3itl-a1-m1-cA_3itl-a1-m1-cB 3itl-a1-m1-cD_3itl-a1-m1-cC 3ito-a1-m1-cA_3ito-a1-m1-cB 3ito-a1-m1-cD_3ito-a1-m1-cC 3itt-a1-m1-cB_3itt-a1-m1-cA 3itt-a1-m1-cC_3itt-a1-m1-cD 3itv-a1-m1-cB_3itv-a1-m1-cA 3itv-a1-m1-cD_3itv-a1-m1-cC 3itx-a1-m1-cB_3itx-a1-m1-cA 3itx-a1-m1-cC_3itx-a1-m1-cD 3ity-a1-m1-cA_3ity-a1-m1-cB 3ity-a1-m1-cD_3ity-a1-m1-cC 3iud-a1-m1-cA_3iud-a1-m1-cB 3iud-a1-m1-cD_3iud-a1-m1-cC 3iuh-a1-m1-cA_3iuh-a1-m1-cB 3iuh-a1-m1-cD_3iuh-a1-m1-cC 3iui-a1-m1-cA_3iui-a1-m1-cB 3iui-a1-m1-cC_3iui-a1-m1-cD 3m0h-a1-m1-cB_3m0h-a1-m1-cA 3m0h-a1-m1-cD_3m0h-a1-m1-cC 3m0l-a1-m1-cA_3m0l-a1-m1-cB 3m0l-a1-m1-cD_3m0l-a1-m1-cC 3m0m-a1-m1-cA_3m0m-a1-m1-cB 3m0m-a1-m1-cD_3m0m-a1-m1-cC 3m0v-a1-m1-cA_3m0v-a1-m1-cB 3m0x-a1-m1-cA_3m0x-a1-m1-cB 3m0x-a1-m1-cD_3m0x-a1-m1-cC 3m0y-a1-m1-cA_3m0y-a1-m1-cB 3m0y-a1-m1-cD_3m0y-a1-m1-cC 4gji-a1-m1-cA_4gji-a1-m1-cB 4gji-a1-m1-cD_4gji-a1-m1-cC 4gjj-a1-m1-cA_4gjj-a1-m1-cB 4gjj-a1-m1-cD_4gjj-a1-m1-cC EFRIAQDVVARENDRRASALKEDYEALGANLARRGVDIEAVTAKVEKFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVIQQLTRATPNVSLHIPWDKADPKELKARGDALGLGFDAMNSNTFSDAPGQAHSYKYGSLSHTNAATRAQAVEHNLECIEIGKAIGSKALTVWIGDGSNFPGQSNFTRAFERYLSAMAEIYKGLPDDWKLFSEHKMYEPAFYSTVVQDWGTNYLIAQTLGPKAQCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPYRLFLVFNELVDAEARGVKGFHPAHMIDQLHNVTDPIESLINSANEIRRAYAQALLVDRAALSGYQEDNDALMATETLKRAYRTDVEPILAEARRRTGGAVDPVATYRASGYRARVAAERPASVAGGGGIIG EFRIAQDVVARENDRRASALKEDYEALGANLARRGVDIEAVTAKVEKFFVAVPSWGVGTGGTRFARFPGTGEPRGIFDKLDDCAVIQQLTRATPNVSLHIPWDKADPKELKARGDALGLGFDAMNSNTFSDAPGQAHSYKYGSLSHTNAATRAQAVEHNLECIEIGKAIGSKALTVWIGDGSNFPGQSNFTRAFERYLSAMAEIYKGLPDDWKLFSEHKMYEPAFYSTVVQDWGTNYLIAQTLGPKAQCLVDLGHHAPNTNIEMIVARLIQFGKLGGFHFNDSKYGDDDLDAGAIEPYRLFLVFNELVDAEARGVKGFHPAHMIDQLHNVTDPIESLINSANEIRRAYAQALLVDRAALSGYQEDNDALMATETLKRAYRTDVEPILAEARRRTGGAVDPVATYRASGYRARVAAERPASVAGGGGIIGSHHH 3m0z-a1-m1-cA_3m0z-a1-m1-cD Crystal structure of putative aldolase from Klebsiella pneumoniae. A6THF7 A6THF7 1.2 X-RAY DIFFRACTION 25 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 241 242 3m0z-a1-m1-cB_3m0z-a1-m1-cC NAKLTPNFYRDRVCLNVLAGSKDNAREIYDAAEGHVLVGVLSKNYPDVASAVVDRDYAKLIDNALSVGLGAGDPNQSAVSEISRQVQPQHVNQVFTGVATSRALLGQNETVVNGLVSPTGTPGVKISTGPLSSGAADGIVPLETAIALLKDGGSSIKYFPGGLKHRAEFEAVAKACAAHDFWLEPTGGIDLENYSEILKIALDAGVSKIIPHIYSSIIDKASGNTRPADVRQLLETKQLVK SNAKLTPNFYRDRVCLNVLAGSKDNAREIYDAAEGHVLVGVLSKNYPDVASAVVDRDYAKLIDNALSVGLGAGDPNQSAVSEISRQVQPQHVNQVFTGVATSRALLGQNETVVNGLVSPTGTPGVKISTGPLSSGAADGIVPLETAIALLKDGGSSIKYFPGGLKHRAEFEAVAKACAAHDFWLEPTGGIDLENYSEILKIALDAGVSKIIPHIYSSIIDKASGNTRPADVRQLLETKQLVK 3m0z-a1-m1-cC_3m0z-a1-m1-cD Crystal structure of putative aldolase from Klebsiella pneumoniae. A6THF7 A6THF7 1.2 X-RAY DIFFRACTION 105 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 241 242 3m0z-a1-m1-cB_3m0z-a1-m1-cA NAKLTPNFYRDRVCLNVLAGSKDNAREIYDAAEGHVLVGVLSKNYPDVASAVVDRDYAKLIDNALSVGLGAGDPNQSAVSEISRQVQPQHVNQVFTGVATSRALLGQNETVVNGLVSPTGTPGVKISTGPLSSGAADGIVPLETAIALLKDGGSSIKYFPGGLKHRAEFEAVAKACAAHDFWLEPTGGIDLENYSEILKIALDAGVSKIIPHIYSSIIDKASGNTRPADVRQLLETKQLVK SNAKLTPNFYRDRVCLNVLAGSKDNAREIYDAAEGHVLVGVLSKNYPDVASAVVDRDYAKLIDNALSVGLGAGDPNQSAVSEISRQVQPQHVNQVFTGVATSRALLGQNETVVNGLVSPTGTPGVKISTGPLSSGAADGIVPLETAIALLKDGGSSIKYFPGGLKHRAEFEAVAKACAAHDFWLEPTGGIDLENYSEILKIALDAGVSKIIPHIYSSIIDKASGNTRPADVRQLLETKQLVK 3m16-a1-m1-cA_3m16-a1-m2-cA Structure of a Transaldolase from Oleispira antarctica U3KRE8 U3KRE8 2.79 X-RAY DIFFRACTION 42 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 320 320 GSAAKNKLEALKATTVVADTGDIEAIKQFKPVDATTNPSLILKAAKLANYQHLIEEAIDWALQIKGNKNSQTTLENVGDKLAVNIGCEVLTSIPGVISTEVDARLSFDTQATVAKARKLIRLYQDAGIDSDRILIKIASTWEGIQAAKILEAEGIHCNLTLLFHFAQAQACAEAGTTLISPFVGRILDWYKANSGQSEYSASEDPGVVSVTEIYNFYKSHGFKTIVGASFRNTGEIEELAGCDRLTISPELLAQLEADTSPLEQKLFPIKETKDTPELLTEASFRWANNDPAHDKLADGIRRFAADQVTLESLSKKISQR GSAAKNKLEALKATTVVADTGDIEAIKQFKPVDATTNPSLILKAAKLANYQHLIEEAIDWALQIKGNKNSQTTLENVGDKLAVNIGCEVLTSIPGVISTEVDARLSFDTQATVAKARKLIRLYQDAGIDSDRILIKIASTWEGIQAAKILEAEGIHCNLTLLFHFAQAQACAEAGTTLISPFVGRILDWYKANSGQSEYSASEDPGVVSVTEIYNFYKSHGFKTIVGASFRNTGEIEELAGCDRLTISPELLAQLEADTSPLEQKLFPIKETKDTPELLTEASFRWANNDPAHDKLADGIRRFAADQVTLESLSKKISQR 3m1a-a1-m1-cF_3m1a-a1-m1-cI The Crystal Structure of a Short-chain Dehydrogenase from Streptomyces avermitilis to 2A Q82PV2 Q82PV2 2 X-RAY DIFFRACTION 80 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 267 268 3m1a-a1-m1-cA_3m1a-a1-m1-cC 3m1a-a1-m1-cB_3m1a-a1-m1-cE 3m1a-a1-m1-cH_3m1a-a1-m1-cD 3m1a-a1-m1-cJ_3m1a-a1-m1-cG AKVWLVTGASSGFGRAIAEAAVAAGDTVIGTARRTEALDDLVAAYPDRAEAISLDVTDGERIDVVAADVLARYGRVDVLVNNAGRTQVGAFEETTERELRDLFELHVFGPARLTRALLPQRERGSGSVVNISSFGGQLSFAGFSAYSATKAALEQLSEGLADEVAPFGIKVLIVEPGAFRTNLFGKGAAYFSEENPAYAEKVGPTRQLVQQPGDPAKAAAAIRLALDTEKTPLRLALGGDAVDFLTGHLDSVRAELTEWEKVSRGTD AKVWLVTGASSGFGRAIAEAAVAAGDTVIGTARRTEALDDLVAAYPDRAEAISLDVTDGERIDVVAADVLARYGRVDVLVNNAGRTQVGAFEETTERELRDLFELHVFGPARLTRALLPQRERGSGSVVNISSFGGQLSFAGFSAYSATKAALEQLSEGLADEVAPFGIKVLIVEPGAFRTNLFGKGAAYFSEENPAYAEKVGPTRQLVQQPGDPAKAAAAIRLALDTEKTPLRLALGGDAVDFLTGHLDSVRAELTEWEKVSRGTDF 3m1a-a6-m1-cJ_3m1a-a6-m1-cH The Crystal Structure of a Short-chain Dehydrogenase from Streptomyces avermitilis to 2A Q82PV2 Q82PV2 2 X-RAY DIFFRACTION 260 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 266 267 3m1a-a1-m1-cA_3m1a-a1-m1-cB 3m1a-a1-m1-cE_3m1a-a1-m1-cD 3m1a-a1-m1-cF_3m1a-a1-m1-cC 3m1a-a1-m1-cI_3m1a-a1-m1-cG 3m1a-a1-m1-cJ_3m1a-a1-m1-cH 3m1a-a2-m1-cA_3m1a-a2-m1-cB 3m1a-a3-m1-cF_3m1a-a3-m1-cC 3m1a-a4-m1-cE_3m1a-a4-m1-cD 3m1a-a5-m1-cI_3m1a-a5-m1-cG AKVWLVTGASSGFGRAIAEAAVAAGDTVIGTARRTEALDDLVAAYPDRAEAISLDVTDGERIDVVAADVLARYGRVDVLVNNAGRTQVGAFEETTERELRDLFELHVFGPARLTRALLPQRERGSGSVVNISSFGGQLSFAGFSAYSATKAALEQLSEGLADEVAPFGIKVLIVEPGAFRTNLFGKGAAYFSEENPAYAEKVGPTRQLVQPGDPAKAAAAIRLALDTEKTPLRLALGGDAVDFLTGHLDSVRAELTEWEKVSRGTD AKVWLVTGASSGFGRAIAEAAVAAGDTVIGTARRTEALDDLVAAYPDRAEAISLDVTDGERIDVVAADVLARYGRVDVLVNNAGRTQVGAFEETTERELRDLFELHVFGPARLTRALLPQRERGSGSVVNISSFGGQLSFAGFSAYSATKAALEQLSEGLADEVAPFGIKVLIVEPGAFRTNLFGKGAAYFSEENPAYAEKVGPTRQLVQGPGDPAKAAAAIRLALDTEKTPLRLALGGDAVDFLTGHLDSVRAELTEWEKVSRGTD 3m1g-a2-m1-cB_3m1g-a2-m1-cC The structure of a putative glutathione S-transferase from Corynebacterium glutamicum Q8NR03 Q8NR03 2.1 X-RAY DIFFRACTION 78 0.997 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 293 293 3m1g-a1-m1-cA_3m1g-a1-m2-cA NYIDDRIVADVPAGSEPIAQEDGTFHWPVEAGRYRLVAARACPWAHRTVITRRLLGLENVISLGLTGPTHDITVPALVEESSKKVVTNDYPSITIDFNLEWKQFHREGAPNLYPAELREEAPVKRIFTEVNNGVYRTGFAGSQEAHNEAYKRLWVALDWLEDRLSTRRYLGDHITEADIRLYPTLVRFDAVYHGHFKCGRNKITEPNLWGYLRDLFQTPGFGDTTDFTEIKQHYYITHAEINPTRIVPVGPDLSGFATPHGREKLGGSPFAEGVTLPGPIPAGEEVKNPEPFQ NYIDDRIVADVPAGSEPIAQEDGTFHWPVEAGRYRLVAARACPWAHRTVITRRLLGLENVISLGLTGPTHITVPALVEESSKKVVTNDYPSITIDFNLEWKQFHREGAPNLYPAELREEAPVKRIFTEVNNGVYRTGFAGSQEAHNEAYKRLWVALDWLEDRLSTRRYLGDHITEADIRLYPTLVRFDAVYHGHFKCGRNKITEPNLWGYLRDLFQTPGFGDTTDFTEIKQHYYITHAEINPTRIVPVGPDLSGFATPHGREKLGGSPFAEGVTLPGPIPAGEEVKNPEPFQK 3m1r-a1-m1-cB_3m1r-a1-m1-cD The crystal structure of formimidoylglutamase from Bacillus subtilis subsp. subtilis str. 168 P42068 P42068 2.199 X-RAY DIFFRACTION 87 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 309 313 3m1r-a1-m1-cC_3m1r-a1-m1-cE 3m1r-a1-m1-cF_3m1r-a1-m1-cA DKYPFLREAGSSFKDRDVTKSDLIATWDGQDIKGPALIGVPLSKSSISHSGASFAPGTIRQALKHSSAYSAELGEHVVSELLYDLGDIDIHVTDIVKSHHHIFQTHALLSDHPDWVPLILGGDNSISYSTIKAIAQTKGTTAVIQFDAHHDVRNTEDGGPTNGTPFRRLLDEEIIEGQHLIQLGIREFSNSQAYEAYAKKHNVNIHTDIREKGLIPTIKEILPVVQDKTDFIFISVDDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLDFRDTSRAAAHVLLHALKGKLSP SNADKYPFLREAGSSFKDRDVTKSDLIATWDGQDIKGPALIGVPLSKSSISHSGASFAPGTIRQALKHSSAYSAELGEHVVSELLYDLGDIDIHVTDIVKSHHHIFQTHALLSDHPDWVPLILGGDNSISYSTIKAIAQTKGTTAVIQFDAHHDVRNTEDGGPTNGTPFRRLLDEEIIEGQHLIQLGIREFSNSQAYEAYAKKHNVNIHTDIREKGLIPTIKEILPVVQDKTDFIFISVDDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLDFRDTSRAAAHVLLHALKGKLSPF 3m1r-a1-m1-cC_3m1r-a1-m1-cF The crystal structure of formimidoylglutamase from Bacillus subtilis subsp. subtilis str. 168 P42068 P42068 2.199 X-RAY DIFFRACTION 43 0.997 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 309 309 3m1r-a1-m1-cA_3m1r-a1-m1-cD 3m1r-a1-m1-cB_3m1r-a1-m1-cE DKYPFLREAGSSFKDRDVTKSDLIATWDGQDIKGPALIGVPLSKSSISHSGASFAPGTIRQALKHSSAYSAELGEHVVSELLYDLGDIDIHVTDIVKSHHHIFQTHALLSDHPDWVPLILGGDNSISYSTIKAIAQTKGTTAVIQFDAHHDVRNTEDGGPTNGTPFRRLLDEEIIEGQHLIQLGIREFSNSQAYEAYAKKHNVNIHTDIREKGLIPTIKEILPVVQDKTDFIFISVDDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLDFRDTSRAAAHVLLHALKGKLSP KYPFLREAGSSFKDRDVTKSDLIATWDGQDIKGPALIGVPLSKSSISHSGASFAPGTIRQALKHSSAYSAELGEHVVSELLYDLGDIDIHVTDIVKSHHHIFQTHALLSDHPDWVPLILGGDNSISYSTIKAIAQTKGTTAVIQFDAHHDVRNTEDGGPTNGTPFRRLLDEEIIEGQHLIQLGIREFSNSQAYEAYAKKHNVNIHTDIREKGLIPTIKEILPVVQDKTDFIFISVDDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLDFRDTSRAAAHVLLHALKGKLSPF 3m1r-a3-m1-cE_3m1r-a3-m1-cF The crystal structure of formimidoylglutamase from Bacillus subtilis subsp. subtilis str. 168 P42068 P42068 2.199 X-RAY DIFFRACTION 72 0.997 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 309 309 3m1r-a1-m1-cB_3m1r-a1-m1-cA 3m1r-a1-m1-cB_3m1r-a1-m1-cC 3m1r-a1-m1-cC_3m1r-a1-m1-cA 3m1r-a1-m1-cE_3m1r-a1-m1-cD 3m1r-a1-m1-cE_3m1r-a1-m1-cF 3m1r-a1-m1-cF_3m1r-a1-m1-cD 3m1r-a2-m1-cB_3m1r-a2-m1-cA 3m1r-a2-m1-cB_3m1r-a2-m1-cC 3m1r-a2-m1-cC_3m1r-a2-m1-cA 3m1r-a3-m1-cE_3m1r-a3-m1-cD 3m1r-a3-m1-cF_3m1r-a3-m1-cD DKYPFLREAGSSFKDRDVTKSDLIATWDGQDIKGPALIGVPLSKSSISHSGASFAPGTIRQALKHSSAYSAELGEHVVSELLYDLGDIDIHVTDIVKSHHHIFQTHALLSDHPDWVPLILGGDNSISYSTIKAIAQTKGTTAVIQFDAHHDVRNTEDGGPTNGTPFRRLLDEEIIEGQHLIQLGIREFSNSQAYEAYAKKHNVNIHTDIREKGLIPTIKEILPVVQDKTDFIFISVDDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLDFRDTSRAAAHVLLHALKGKLSP KYPFLREAGSSFKDRDVTKSDLIATWDGQDIKGPALIGVPLSKSSISHSGASFAPGTIRQALKHSSAYSAELGEHVVSELLYDLGDIDIHVTDIVKSHHHIFQTHALLSDHPDWVPLILGGDNSISYSTIKAIAQTKGTTAVIQFDAHHDVRNTEDGGPTNGTPFRRLLDEEIIEGQHLIQLGIREFSNSQAYEAYAKKHNVNIHTDIREKGLIPTIKEILPVVQDKTDFIFISVDDVLDQSHAPGCPAIGPGGLYTDELLEAVKYIAQQPNVAGIEIVEVDPTLDFRDTSRAAAHVLLHALKGKLSPF 3m1u-a1-m1-cB_3m1u-a1-m1-cA Crystal structure of a Putative gamma-D-glutamyl-L-diamino acid endopeptidase (DVU_0896) from DESULFOVIBRIO VULGARIS HILDENBOROUGH at 1.75 A resolution Q72DN3 Q72DN3 1.75 X-RAY DIFFRACTION 123 0.988 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 405 410 PSREGHVADLDRFPQDLRVYAKAGADRQLLPFTEQAAQDARWNRRFFAPWRTRISVPVKDVAAPFGTDGRPRGYAENLLPWDVTRWGALASGAALDLYPSQAWKGIVVSNSALREVPTLRPFTAPTRAGQGYPFDFQRTAVWGTPVFVGHATADRAWLYVETAFAAGWPAADVARVDDAFTRYESGSLAAILRDDTSLNGADGTHLATAHIGTVLPLSGASQVGRTVLVPVRAPEGHAVVVPVLLTSGEAAQKPVPLTPGNAELGNRGQPYGWGGLYEDRDCSSTLRDLFTPFGLWLPRNSASQAKAGRYVDIAKLDADDKEARIVAEGVPFTLLWLRGHITLYLGLHEGQAAFHNWGIRTHRGGVEGRYVLGRAVVTSTRPGLDVPGNDNADGLLGRQGSILPG SRPATPPVTPPSREGHVADLDRFPQDLRVYAKAGADRQLLPFTEQAAQDARWNRRFFAPWRTRISVPVKDVAAPFGTDGRPRGYAENLLPWDVTRWGALASGAALDLYPSQAWKGIVVSNSALREVPTLRPFTAPTRAGQGYPFDFQRTAVWGTPVFVGHATADRAWLYVETAFAAGWPAADVARVDDAFTRYESGSLAAILRDDTSLNGADGTHLATAHIGTVLPLSGRTVLVPVRAPEGHAVVVPVLLTSGEAAQKPVPLTPGNAELGNRGQPYGWGGLYEDRDCSSTLRDLFTPFGLWLPRNSASQAKAGRYVDIAKLDADDKEARIVAEGVPFTLLWLRGHITLYLGLHEGQAAFHNWGIRTHRGGVEGRYVLGRAVVTSTRPGLDVPGNDNADGLLGRQGSILPG 3m1y-a2-m1-cD_3m1y-a2-m1-cC Crystal Structure of a Phosphoserine phosphatase (SerB) from Helicobacter pylori O25367 O25367 2.4 X-RAY DIFFRACTION 24 0.995 210 (Helicobacter pylori) 210 (Helicobacter pylori) 200 202 3m1y-a1-m1-cA_3m1y-a1-m1-cB SLQKLAVFDFDSTLVNAETIESLARAWGVFDEVKTITLKANETDFHKSLILRVSKLKNPLKLAKEVCESLPLFEGALELVSALKEKNYKVVCFSGGFDLATNHYRDLLHLDAAFSNTLIVENDALNGLVTGHFSHSKGELLVLQRLLNISKTNTLVVGDGANDLSFKHAHIKIAFNAKEVLKQHATHCINEPDLALIKPL SLQKLAVFDFDSTLVNAETIESLARAWGVFDEVKTITLKANGTDFHKSLILRVSKLKNPLKLAKEVCESLPLFEGALELVSALKEKNYKVVCFSGGFDLATNHYRDLLHLDAAFSNTLIVENDALNGLVTGHFSHSKGELLVLQRLLNISKTNTLVVGDGANDLSFKHAHIKIAFNAKEVLKQHATHCINEPDLALIKPLIE 3m20-a1-m1-cB_3m20-a1-m2-cC Crystal structure of DmpI from Archaeoglobus fulgidus determined to 2.37 Angstroms resolution O29588 O29588 2.37 X-RAY DIFFRACTION 53 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 58 58 3m20-a1-m1-cA_3m20-a1-m2-cA 3m20-a1-m1-cC_3m20-a1-m2-cB PVLIVYGPKLDVGKKREFVERLTSVAAEIYGMDRSAITILIHEPPAENVGVGGKLIAD PVLIVYGPKLDVGKKREFVERLTSVAAEIYGMDRSAITILIHEPPAENVGVGGKLIAD 3m20-a1-m2-cB_3m20-a1-m2-cC Crystal structure of DmpI from Archaeoglobus fulgidus determined to 2.37 Angstroms resolution O29588 O29588 2.37 X-RAY DIFFRACTION 47 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 58 58 3m20-a1-m1-cB_3m20-a1-m1-cA 3m20-a1-m1-cB_3m20-a1-m1-cC 3m20-a1-m1-cC_3m20-a1-m1-cA 3m20-a1-m2-cB_3m20-a1-m2-cA 3m20-a1-m2-cC_3m20-a1-m2-cA PVLIVYGPKLDVGKKREFVERLTSVAAEIYGMDRSAITILIHEPPAENVGVGGKLIAD PVLIVYGPKLDVGKKREFVERLTSVAAEIYGMDRSAITILIHEPPAENVGVGGKLIAD 3m21-a1-m1-cB_3m21-a1-m1-cF Crystal structure of DmpI from Helicobacter pylori Determined to 1.9 Angstroms resolution O25581 O25581 1.9 X-RAY DIFFRACTION 47 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 66 67 2orm-a1-m1-cB_2orm-a1-m1-cD 2orm-a1-m1-cC_2orm-a1-m1-cA 2orm-a1-m1-cC_2orm-a1-m1-cE 2orm-a1-m1-cE_2orm-a1-m1-cA 2orm-a1-m1-cF_2orm-a1-m1-cB 2orm-a1-m1-cF_2orm-a1-m1-cD 3m21-a1-m1-cA_3m21-a1-m1-cE 3m21-a1-m1-cB_3m21-a1-m1-cD 3m21-a1-m1-cC_3m21-a1-m1-cA 3m21-a1-m1-cC_3m21-a1-m1-cE 3m21-a1-m1-cD_3m21-a1-m1-cF PFINIKLVPENGGPTNEQKQQLIEGVSDLMVKVLNKNKASIVVIIDEVDSNNYGLGGESVHHLRQK PFINIKLVPENGGPTNEQKQQLIEGVSDLMVKVLNKNKASIVVIIDEVDSNNYGLGGESVHHLRQKN 3m21-a1-m1-cC_3m21-a1-m1-cD Crystal structure of DmpI from Helicobacter pylori Determined to 1.9 Angstroms resolution O25581 O25581 1.9 X-RAY DIFFRACTION 65 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 63 66 2orm-a1-m1-cB_2orm-a1-m1-cA 2orm-a1-m1-cC_2orm-a1-m1-cD 2orm-a1-m1-cF_2orm-a1-m1-cE 3m21-a1-m1-cA_3m21-a1-m1-cB 3m21-a1-m1-cE_3m21-a1-m1-cF PFINIKLVPENGGPTNEQKQQLIEGVSDLMVKVLNKNKASIVVIIDEVDSNNYGLGGESVHHL PFINIKLVPENGGPTNEQKQQLIEGVSDLMVKVLNKNKASIVVIIDEVDSNNYGLGGESVHHLRQK 3m2p-a1-m1-cB_3m2p-a1-m1-cA The crystal structure of UDP-N-acetylglucosamine 4-epimerase from Bacillus cereus Q814Z6 Q814Z6 2.95 X-RAY DIFFRACTION 67 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 251 283 3m2p-a2-m1-cF_3m2p-a2-m1-cC 3m2p-a3-m1-cE_3m2p-a3-m1-cD SLKIAVTGGTGFLGQYVVESIKNDGNTPIILTRSIGYEYRVSDYTLEDLINQLNDVDAVVHLAATRGSQGKISEFHDNEILTQNLYDACYENNISNIVYASTISAYSDETSLPWNEKELPLPDLYGVSKLACEHIGNIYSRKKGLCIKNLRFAHLYGFNENYINRFAKREFLYAKDAAKSVIYALKQEKVSGTFNIGSGDALTNYEVANTINNAFGNIHSSYDSSKAKELLDFSTDYNFATAVEEIHLLRG SLKIAVTGGTGFLGQYVVESIKNDGNTPIILTRSIGDYEYRVSDYTLEDLINQLNDVDAVVHLAATRGSQGKISEFHDNEILTQNLYDACYENNISNIVYASTISAYSDETSLPWNEKELPLPDLYGVSKLACEHIGNIYSRKKGLCIKNLRFAHLYGFNENYINRFFRQAFHGEQLTLHANSVAKREFLYAKDAAKSVIYALKQEKVSGTFNIGSGDALTNYEVANTINNAFGNKDNLLVKNPNANEGIHSSYDSSKAKELLDFSTDYNFATAVEEIHLLRG 3m2t-a1-m1-cA_3m2t-a1-m2-cB The crystal structure of dehydrogenase from Chromobacterium violaceum Q7NY68 Q7NY68 2.3 X-RAY DIFFRACTION 68 0.997 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 332 332 3m2t-a1-m1-cB_3m2t-a1-m2-cA LSLIKVGLVGIGAQQENLLPSLLQQDIRIVAACDSDLERARRVHRFISDIPVLDNVPALNQVPLDAVVAGPPQLHFEGLLASKGVNVFVEKPPCATLEELETLIDAARRSDVVSGVGNFKFARPVRQLRETQVDEFGETLHIQLNHYANKPRAPLWGLDSTLRSFLLAQAIHTIDLAITFGDGELRRVQSSVQRHDDALIVRADAFSSGATASLLAGTSFPYFEFDKLVSSSSTLVELDNLWNITLHEPEHATRPTGAAKRWRGAWQPGPLDSGYERSGYHGELHQFFQAIREHRRFEADFASLLPTYRVIEEICSADAVAQGLQNAHSRIR SLSLIKVGLVGIGAQQENLLPSLLQQDIRIVAACDSDLERARRVHRFISDIPVLDNVPALNQVPLDAVVAGPPQLHFEGLLASKGVNVFVEKPPCATLEELETLIDAARRSDVVSGVGNFKFARPVRQLRETQVDEFGETLHIQLNHYANKPRAPLWGLDSTLRSFLLAQAIHTIDLAITFGDGELRRVQSSVQRHDDALIVRADAFSSGATASLLAGTSFPYFEFDKLVSSSSTLVELDNLWNITLHEPEHATRPTGAKRWRGAWQPGPLDSGYERSGYHGELHQFFQAIREHRRFEADFASLLPTYRVIEEICSADAVAQGLQNAHSRIR 3m2t-a1-m1-cB_3m2t-a1-m2-cB The crystal structure of dehydrogenase from Chromobacterium violaceum Q7NY68 Q7NY68 2.3 X-RAY DIFFRACTION 95 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 332 332 3m2t-a1-m1-cA_3m2t-a1-m2-cA SLSLIKVGLVGIGAQQENLLPSLLQQDIRIVAACDSDLERARRVHRFISDIPVLDNVPALNQVPLDAVVAGPPQLHFEGLLASKGVNVFVEKPPCATLEELETLIDAARRSDVVSGVGNFKFARPVRQLRETQVDEFGETLHIQLNHYANKPRAPLWGLDSTLRSFLLAQAIHTIDLAITFGDGELRRVQSSVQRHDDALIVRADAFSSGATASLLAGTSFPYFEFDKLVSSSSTLVELDNLWNITLHEPEHATRPTGAKRWRGAWQPGPLDSGYERSGYHGELHQFFQAIREHRRFEADFASLLPTYRVIEEICSADAVAQGLQNAHSRIR SLSLIKVGLVGIGAQQENLLPSLLQQDIRIVAACDSDLERARRVHRFISDIPVLDNVPALNQVPLDAVVAGPPQLHFEGLLASKGVNVFVEKPPCATLEELETLIDAARRSDVVSGVGNFKFARPVRQLRETQVDEFGETLHIQLNHYANKPRAPLWGLDSTLRSFLLAQAIHTIDLAITFGDGELRRVQSSVQRHDDALIVRADAFSSGATASLLAGTSFPYFEFDKLVSSSSTLVELDNLWNITLHEPEHATRPTGAKRWRGAWQPGPLDSGYERSGYHGELHQFFQAIREHRRFEADFASLLPTYRVIEEICSADAVAQGLQNAHSRIR 3m2t-a1-m2-cA_3m2t-a1-m2-cB The crystal structure of dehydrogenase from Chromobacterium violaceum Q7NY68 Q7NY68 2.3 X-RAY DIFFRACTION 81 0.997 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 332 332 3m2t-a1-m1-cA_3m2t-a1-m1-cB LSLIKVGLVGIGAQQENLLPSLLQQDIRIVAACDSDLERARRVHRFISDIPVLDNVPALNQVPLDAVVAGPPQLHFEGLLASKGVNVFVEKPPCATLEELETLIDAARRSDVVSGVGNFKFARPVRQLRETQVDEFGETLHIQLNHYANKPRAPLWGLDSTLRSFLLAQAIHTIDLAITFGDGELRRVQSSVQRHDDALIVRADAFSSGATASLLAGTSFPYFEFDKLVSSSSTLVELDNLWNITLHEPEHATRPTGAAKRWRGAWQPGPLDSGYERSGYHGELHQFFQAIREHRRFEADFASLLPTYRVIEEICSADAVAQGLQNAHSRIR SLSLIKVGLVGIGAQQENLLPSLLQQDIRIVAACDSDLERARRVHRFISDIPVLDNVPALNQVPLDAVVAGPPQLHFEGLLASKGVNVFVEKPPCATLEELETLIDAARRSDVVSGVGNFKFARPVRQLRETQVDEFGETLHIQLNHYANKPRAPLWGLDSTLRSFLLAQAIHTIDLAITFGDGELRRVQSSVQRHDDALIVRADAFSSGATASLLAGTSFPYFEFDKLVSSSSTLVELDNLWNITLHEPEHATRPTGAKRWRGAWQPGPLDSGYERSGYHGELHQFFQAIREHRRFEADFASLLPTYRVIEEICSADAVAQGLQNAHSRIR 3m31-a2-m1-cA_3m31-a2-m2-cA Structure of the C150A/C295A mutant of S. cerevisiae Ero1p Q03103 Q03103 1.85 X-RAY DIFFRACTION 66 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 357 357 GSFNELNAINENIRDDLSALLKSDFFKYFRLDLYKQCSFWDANDGLCLNRACSVDWDTLPEYWQPEILGSFNNDTMKEADDSDDECKFLDQLANYCDVNDFNGKNAVLIDLTANPERFTGYGGKQAGQIWSTIYQDNCFTIGETGESLAKDAFYRLVSGFHASIGTHLSKEYLNTKTGKWEPNLDLFMARIGNFPDRVTNMYFNYAVVAKALWKIQPYLPEFSFADLVNKEIKNKMDNVISQLDTKIFNEDLVFANDLSLTLKDEFRSRFKNVTKIMDCVQCDRCRLWGKIQTTGYATALKILFEINDADEFTKQHIVGKLTKYELIALLQTFGRLSESIESVNMFEKMYGKRLLER GSFNELNAINENIRDDLSALLKSDFFKYFRLDLYKQCSFWDANDGLCLNRACSVDWDTLPEYWQPEILGSFNNDTMKEADDSDDECKFLDQLANYCDVNDFNGKNAVLIDLTANPERFTGYGGKQAGQIWSTIYQDNCFTIGETGESLAKDAFYRLVSGFHASIGTHLSKEYLNTKTGKWEPNLDLFMARIGNFPDRVTNMYFNYAVVAKALWKIQPYLPEFSFADLVNKEIKNKMDNVISQLDTKIFNEDLVFANDLSLTLKDEFRSRFKNVTKIMDCVQCDRCRLWGKIQTTGYATALKILFEINDADEFTKQHIVGKLTKYELIALLQTFGRLSESIESVNMFEKMYGKRLLER 3m33-a4-m1-cB_3m33-a4-m2-cB The crystal structure of a functionally unknown protein from Deinococcus radiodurans R1 Q9RX47 Q9RX47 2.195 X-RAY DIFFRACTION 68 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 207 207 3m33-a3-m1-cA_3m33-a3-m2-cA SYDRLARELGGYRHPWARVLSGPDPELTFDLWLSRLLTPQTRVLEAGCGHGPDAARFGPQAARWAAYDFSPELLKLARANAPHADVYEWNGKGELPAGLGAPFGLIVSRRGPTSVILRLPELAAPDAHFLYVGPRLNVPEVPERLAAVGWDIVAEDHVSVLAHAPTWEDWQRGEFGKLARRADWDAEATVRGPYREERHLVLARQLG SYDRLARELGGYRHPWARVLSGPDPELTFDLWLSRLLTPQTRVLEAGCGHGPDAARFGPQAARWAAYDFSPELLKLARANAPHADVYEWNGKGELPAGLGAPFGLIVSRRGPTSVILRLPELAAPDAHFLYVGPRLNVPEVPERLAAVGWDIVAEDHVSVLAHAPTWEDWQRGEFGKLARRADWDAEATVRGPYREERHLVLARQLG 3m3i-a4-m1-cG_3m3i-a4-m1-cD Hypothetical protein from Leishmania major E9AES8 E9AES8 2.35 X-RAY DIFFRACTION 114 1.0 5664 (Leishmania major) 5664 (Leishmania major) 176 179 3m3i-a1-m1-cA_3m3i-a1-m1-cH 3m3i-a2-m1-cB_3m3i-a2-m1-cE 3m3i-a3-m1-cF_3m3i-a3-m1-cC NTAEFWIKRLQLVPHPEGGYYSEVVRSAHKVDNEEGNRRHAYTTIYFLCTPESPSHLHRLCSDETWMYHAGDPLQLHVILKDPQDEDRRPKYQVYRRVLVGARVERGELLQYTVPGGAIFGSSVAADGADGQAGYSLVSCIVSPGFDYRDFEIFTQAQLMELYPQHEAVIKQMAYE PPQNTAEFWIKRLQLVPHPEGGYYSEVVRSAHKVDNEEGNRRHAYTTIYFLCTPESPSHLHRLCSDETWMYHAGDPLQLHVILKDPQDEDRRPKYQVYRRVLVGARVERGELLQYTVPGGAIFGSSVAADGADGQAGYSLVSCIVSPGFDYRDFEIFTQAQLMELYPQHEAVIKQMAYE 3m3m-a2-m1-cA_3m3m-a2-m2-cA Crystal structure of glutathione S-transferase from Pseudomonas fluorescens [Pf-5] Q4K8I0 Q4K8I0 1.75 X-RAY DIFFRACTION 87 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 197 197 SLYKVYGDYRSGNCYKIKLLNLLGLPYEWQAVDILGGDTQTEAFLAKNPNGKIPVLELEDGTCLWESNAILNFLADGSQFLPSEPRLRTQVLQWQFFEQYSHEPYIAVARFIQLYEGLPEERREEYLKLHKRGYKALDVEKQLSRTPYLVGEHYSIADIALYAYTHVADEGGFDLSRYPGIQAWQRVQSHPRHVPLD SLYKVYGDYRSGNCYKIKLLNLLGLPYEWQAVDILGGDTQTEAFLAKNPNGKIPVLELEDGTCLWESNAILNFLADGSQFLPSEPRLRTQVLQWQFFEQYSHEPYIAVARFIQLYEGLPEERREEYLKLHKRGYKALDVEKQLSRTPYLVGEHYSIADIALYAYTHVADEGGFDLSRYPGIQAWQRVQSHPRHVPLD 3m45-a2-m1-cC_3m45-a2-m1-cB Crystal structure of Ig1 domain of mouse SynCAM 2 Q8BLQ9 Q8BLQ9 2.21 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 97 101 3m45-a1-m1-cD_3m45-a1-m1-cA QFPLTQNVTVVEGGTAILTCRVDQNDNTSLQWSNPAQQTLYFDDKKALRDNRIELVRASWHELSISVSDVSLSDEGQYTCSLFTMPVKTSKAYLTVL GQFPLTQNVTVVEGGTAILTCRVDQNDNTSLQWSNPAQQTLYFDDKKALRDNRIELVRASWHELSISVSDVSLSDEGQYTCSLFTMPVKTSKAYLTVLGVP 3m48-a1-m1-cA_3m48-a1-m2-cA GCN4 Leucine Zipper Peptide Mutant P03069 P03069 1.451 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 30 30 3i1g-a1-m1-cA_3i1g-a1-m2-cA AQLEAKVEELLSKNWNLENEVARLKKLVGE AQLEAKVEELLSKNWNLENEVARLKKLVGE 3m49-a1-m1-cB_3m49-a1-m1-cA Crystal Structure of Transketolase Complexed with Thiamine Diphosphate from Bacillus anthracis A0A6L7H165 A0A6L7H165 2 X-RAY DIFFRACTION 294 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 643 644 3hyl-a1-m1-cA_3hyl-a1-m1-cB HSIEQLSINTIRTLSIDAIEKANSGHPGPGAAPAYTLWTQFKHNPNNPTWFNRDRFVLSAGHGSLLYSLLHLSGYDVTDDLKNFRQWGSKTPGHPEYGHTAGVDATTGPLGQGIATAVGAAERHLAAKYNRDAYNIVDHYTYAICGDGDLEGVSAEASSLAAHLQLGRLVVLYDSNDISLDGDLNRSFSESVEDRYKAYGWQVIRVEDGNDIEAIAKAIEEAKADEKRPTLIEVRTTIGFGSPNKSGKSASHGSPLGVEETKLTKEAYAWTAEQDFHVAEEVYENFRKTVQDVGETAQAEWNTLGEYAQAYPELANELQAANGLLPEGWEQNLPTYELGSKAATRNSSGAVINAIAESVPSFFGGSADLAGSNKTYNNEKDFTRDDYSGKNIWYGVREFAGAANGIALHGGLKTYGGTFFVFSDYLRPAIRLAALQLPVTYVFTHDSIAVGEDGPTHEPIEQLAALRAPNVSVIRPADGNESVAAWRLALESTNKPTALVLTRQDLPTLEGAKDDTYEKVAKGAYVVSASKKETADVILLATGSEVSLAVEAQKALAVDGVDASVVSPSDRFEAQTAEYKESVLPKAVTKRFAIEGATFGWHRYVGLEGDVLGIDTFGASAPGEKIEEYGFTVENVVRKVKEL SHSIEQLSINTIRTLSIDAIEKANSGHPGPGAAPAYTLWTQFKHNPNNPTWFNRDRFVLSAGHGSLLYSLLHLSGYDVTDDLKNFRQWGSKTPGHPEYGHTAGVDATTGPLGQGIATAVGAAERHLAAKYNRDAYNIVDHYTYAICGDGDLEGVSAEASSLAAHLQLGRLVVLYDSNDISLDGDLNRSFSESVEDRYKAYGWQVIRVEDGNDIEAIAKAIEEAKADEKRPTLIEVRTTIGFGSPNKSGKSASHGSPLGVEETKLTKEAYAWTAEQDFHVAEEVYENFRKTVQDVGETAQAEWNTLGEYAQAYPELANELQAANGLLPEGWEQNLPTYELGSKAATRNSSGAVINAIAESVPSFFGGSADLAGSNKTYNNEKDFTRDDYSGKNIWYGVREFAGAANGIALHGGLKTYGGTFFVFSDYLRPAIRLAALQLPVTYVFTHDSIAVGEDGPTHEPIEQLAALRAPNVSVIRPADGNESVAAWRLALESTNKPTALVLTRQDLPTLEGAKDDTYEKVAKGAYVVSASKKETADVILLATGSEVSLAVEAQKALAVDGVDASVVSPSDRFEAQTAEYKESVLPKAVTKRFAIEGATFGWHRYVGLEGDVLGIDTFGASAPGEKIEEYGFTVENVVRKVKEL 3m4c-a1-m2-cE_3m4c-a1-m3-cD A Zn-mediated tetrahedral protein lattice cage encapsulating a microperoxidase P0ABE7 1.9 X-RAY DIFFRACTION 13 1.0 32630 (synthetic construct) 562 (Escherichia coli) 9 106 3m4c-a1-m1-cE_3m4c-a1-m2-cD KTTCNACHQ ADLEDNMETLNDNLKVIEKADNAAQVKDALTKMAAAAADAWSATPPKLEDKSPDSPEMHDFRHGFWCLIGQIHAALHLANEGKVKEAQAAAEQLKTTCNACHQKYR 3m4p-a2-m1-cC_3m4p-a2-m1-cD Entamoeba histolytica asparaginyl-tRNA synthetase (AsnRS) in complex with asparaginyl-adenylate C4LWW8 C4LWW8 2.83 X-RAY DIFFRACTION 246 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 429 435 3m4p-a1-m1-cA_3m4p-a1-m1-cB 3m4q-a1-m1-cA_3m4q-a1-m1-cB TPIVCNIRDAAGLEGKLVTFKGWAYHIRKARKTLIFVELRDGSGYCQCVIFGKELCEPEKVKLLTRECSLEITGRLNAYAGKNHPPEIADILNLEMQVTEWKVIGESPIDLENIINKDSSIPQKMQNRHIVIRSEHTQQVLQLRSEIQWYFRKYYHDNHFTEIQPPTIVKTLFKLQYFNEPAYLTQSSQLYLESVIASLGKSFCMLSSYRAEQSRTVRHLAEYLHLEAELPFISFEDLLNHLEDLVCTVIDNVMAVHGDKIRKMNPHLKLPTRPFKRMTYADAIKYCNDHDKPFEYGEDISEKPERQMTDEIGCPIFMIHFPSKMKAFYMSKVPGHPDLTESVDLLMPGVGEIVGGSMRIWNYDELMGAYKANGLNPDPYYWYTQQRKYGSCPHGGYGLGVERLVMWLLGEDHIRKVCLYPRYLERCEP TPIVCNIRDAAGLEGKLVTFKGWAYHIRKARKTLIFVELRDGSGYCQCVIFGKELCEPEKVKLLTRECSLEITGRLNAYAGKNHPPEIADILNLEMQVTEWKVIGESPIDLENIINKDSSIPQKMQNRHIVIRSEHTQQVLQLRSEIQWYFRKYYHDNHFTEIQPPTIVKTTLFKLQYFNEPAYLTQSSQLYLESVIASLGKSFCMLSSYRAEQSRTVRHLAEYLHLEAELPFISFEDLLNHLEDLVCTVIDNVMAVHGDKIRKMNPHLKLPTRPFKRMTYADAIKYCNDHGILNKDKPFEYGEDISEKPERQMTDEIGCPIFMIHFPSKMKAFYMSKVPGHPDLTESVDLLMPGVGEIVGGSMRIWNYDELMGAYKANGLNPDPYYWYTQQRKYGSCPHGGYGLGVERLVMWLLGEDHIRKVCLYPRYLERCEP 3m4s-a2-m1-cD_3m4s-a2-m1-cE Crystal structure of a putative endoribonuclease L-PSP from Entamoeba histolytica, orthorhombic form C4LXT9 C4LXT9 2.3 X-RAY DIFFRACTION 79 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 125 125 3m1x-a1-m1-cA_3m1x-a1-m2-cA 3m1x-a1-m1-cA_3m1x-a1-m3-cA 3m1x-a1-m2-cA_3m1x-a1-m3-cA 3m4s-a1-m1-cA_3m4s-a1-m1-cB 3m4s-a1-m1-cA_3m4s-a1-m1-cC 3m4s-a1-m1-cB_3m4s-a1-m1-cC 3m4s-a2-m1-cD_3m4s-a2-m1-cF 3m4s-a2-m1-cE_3m4s-a2-m1-cF 3mqw-a1-m1-cA_3mqw-a1-m1-cB 3mqw-a1-m1-cA_3mqw-a1-m1-cC 3mqw-a1-m1-cC_3mqw-a1-m1-cB 3mqw-a2-m1-cE_3mqw-a2-m1-cD 3mqw-a2-m1-cF_3mqw-a2-m1-cD 3mqw-a2-m1-cF_3mqw-a2-m1-cE KLTVVASPLAPEAVGAYSQAIICNGMVYCSGQIGLDRKTGDFAGKTIEEQSKQVMTNLKYVLEEAGSSMDKVVKTTCLLADIKDFGVFNGIYAEAFGNHKPARACFAAAALPKGALVEVECIATL KLTVVASPLAPEAVGAYSQAIICNGMVYCSGQIGLDRKTGDFAGKTIEEQSKQVMTNLKYVLEEAGSSMDKVVKTTCLLADIKDFGVFNGIYAEAFGNHKPARACFAAAALPKGALVEVECIATL 3m4w-a1-m1-cC_3m4w-a1-m1-cA Structural basis for the negative regulation of bacterial stress response by RseB P0AFX9 P0AFX9 2.3 X-RAY DIFFRACTION 60 0.996 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 276 284 2v42-a1-m1-cB_2v42-a1-m1-cA 2v43-a1-m1-cA_2v43-a1-m1-cB 2v43-a2-m1-cC_2v43-a2-m2-cC 3m4w-a2-m1-cD_3m4w-a2-m1-cB TPASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPLLAKFSWTPTWLPQGFSEVSSSRRIESRLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKFG PASGALLQQMNLASQSLNYELSFISINKQGVESLRYRHARLDNRPLAQLLQMDGPRREVVQRGNEISYFEPGLEPFTLNGDYIVDSLPSLIYTDFKRLSPYYDFISVGRTRIADRLCEVIRVVARDGTRYSYIVWMDTESKLPMRVDLLDRDGETLEQFRVIAFNVNQDISSSMQTLAKANLPPLLSVPVGEKAKFSWTPTWLPQGFSEVSSSRRMPIESRLYSDGLFSFSVNVNRATPSSTDQMLRTGRRTVSTSVRDNAEITIVGELPPQTAKRIAENIKFG 3m5b-a2-m1-cB_3m5b-a2-m3-cB Crystal structure of the BTB domain from FAZF/ZBTB32 Q9Y2Y4 Q9Y2Y4 2 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 3m5b-a1-m1-cA_3m5b-a1-m2-cA PIRLPSPYGSDRLVQLAARLRPALCDTLITVGSQEFPAHSLVLAGVSQQLGRRGQWALGEGISPSTFAQLLNFVYGESVELQPGELRPLQEAARALGVQSLEEACWRAR PIRLPSPYGSDRLVQLAARLRPALCDTLITVGSQEFPAHSLVLAGVSQQLGRRGQWALGEGISPSTFAQLLNFVYGESVELQPGELRPLQEAARALGVQSLEEACWRAR 3m5h-a1-m1-cF_3m5h-a1-m1-cD Crystal structure of a H7 influenza virus hemagglutinin complexed with 3SLN B7NYS1 B7NYS1 2.7 X-RAY DIFFRACTION 56 1.0 490450 (Influenza A virus (A/environment/New York/30732-1/2005(H7N2))) 490450 (Influenza A virus (A/environment/New York/30732-1/2005(H7N2))) 171 172 3m5g-a1-m1-cD_3m5g-a1-m1-cB 3m5g-a1-m1-cF_3m5g-a1-m1-cB 3m5g-a1-m1-cF_3m5g-a1-m1-cD 3m5h-a1-m1-cD_3m5h-a1-m1-cB 3m5h-a1-m1-cF_3m5h-a1-m1-cB 3m5i-a1-m1-cD_3m5i-a1-m1-cB 3m5i-a1-m1-cF_3m5i-a1-m1-cB 3m5i-a1-m1-cF_3m5i-a1-m1-cD 3m5j-a1-m1-cD_3m5j-a1-m1-cB 3m5j-a1-m1-cF_3m5j-a1-m1-cB 3m5j-a1-m1-cF_3m5j-a1-m1-cD 6mlm-a1-m1-cC_6mlm-a1-m1-cD 6mlm-a1-m1-cC_6mlm-a1-m1-cJ 6mlm-a1-m1-cD_6mlm-a1-m1-cJ GLFGAIAGFIENGWEGLINGWYGFRHQNAQGEGTAADYKSTQSAIDQITGKLNRLIGKTNQQFELIDNEFNEIEQQIGNVINWTRDAMTEIWSYNAELLVAMENQHTIDLADSEMSKLYERVKKQLRENAEEDGTGCFEIFHKCDDQCMESIRNNTYDHTQYRTESLQNRI GLFGAIAGFIENGWEGLINGWYGFRHQNAQGEGTAADYKSTQSAIDQITGKLNRLIGKTNQQFELIDNEFNEIEQQIGNVINWTRDAMTEIWSYNAELLVAMENQHTIDLADSEMSKLYERVKKQLRENAEEDGTGCFEIFHKCDDQCMESIRNNTYDHTQYRTESLQNRIQ 3m5j-a1-m1-cE_3m5j-a1-m1-cC Crystal structure of a H7 influenza virus hemagglutinin complexed with LSTb B7NY59 B7NY59 2.6 X-RAY DIFFRACTION 18 1.0 490450 (Influenza A virus (A/environment/New York/30732-1/2005(H7N2))) 490450 (Influenza A virus (A/environment/New York/30732-1/2005(H7N2))) 309 309 3m5g-a1-m1-cC_3m5g-a1-m1-cA 3m5g-a1-m1-cE_3m5g-a1-m1-cA 3m5g-a1-m1-cE_3m5g-a1-m1-cC 3m5h-a1-m1-cC_3m5h-a1-m1-cA 3m5h-a1-m1-cE_3m5h-a1-m1-cA 3m5h-a1-m1-cE_3m5h-a1-m1-cC 3m5i-a1-m1-cA_3m5i-a1-m1-cC 3m5i-a1-m1-cE_3m5i-a1-m1-cA 3m5i-a1-m1-cE_3m5i-a1-m1-cC 3m5j-a1-m1-cC_3m5j-a1-m1-cA 3m5j-a1-m1-cE_3m5j-a1-m1-cA GDKICLGHHAVANGTKVNTLTERGIEVVNATETVETTNIKKICTQGKRPTDLGQCGLLGTLIGPPQCDQFLEFSSDLIIERREGTDICYPGRFTNEESLRQILRRSGGIGKESMGFTYSGIRTNGATSACTRSGSSFYAEMKWLLSNSDNAAFPQMTKAYRNPRNKPALIIWGVHHSESVSEQTKLYGSGNKLITVRSSKYQQSFTPNPGARRIDFHWLLLDPNDTVTFTFNGAFIAPDRTSFFRGESLGVQSDAPLDSSCRGDCFHSGGTIVSSLPFQNINSRTVGKCPRYVKQKSLLLATGMRNVPE GDKICLGHHAVANGTKVNTLTERGIEVVNATETVETTNIKKICTQGKRPTDLGQCGLLGTLIGPPQCDQFLEFSSDLIIERREGTDICYPGRFTNEESLRQILRRSGGIGKESMGFTYSGIRTNGATSACTRSGSSFYAEMKWLLSNSDNAAFPQMTKAYRNPRNKPALIIWGVHHSESVSEQTKLYGSGNKLITVRSSKYQQSFTPNPGARRIDFHWLLLDPNDTVTFTFNGAFIAPDRTSFFRGESLGVQSDAPLDSSCRGDCFHSGGTIVSSLPFQNINSRTVGKCPRYVKQKSLLLATGMRNVPE 3m5k-a1-m1-cA_3m5k-a1-m1-cB Crystal structure of Putative NADH dehydrogenase/NAD(P)H nitroreductase (BDI_1728) from Parabacteroides distasonis ATCC 8503 at 1.86 A resolution A6LCR1 A6LCR1 1.86 X-RAY DIFFRACTION 180 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 162 162 ENQTLETILNRKSVRKYKDRPVEKEKIDKLIRAGAAPSSRDRRPWEFIIVTDRKALDTAEGLPFARLKETRQAIVVCGDTIKSSNAWFLDCSAASQNLLLAAESGLGAVWTAVYPYPDRIEIVRKELRLPDHIPLNVIPVGYPQKETPKNKYNVQQIHHNGW ENQTLETILNRKSVRKYKDRPVEKEKIDKLIRAGAAPSSRDRRPWEFIIVTDRKALDTAEGLPFARLKETRQAIVVCGDTIKSSNAWFLDCSAASQNLLLAAESGLGAVWTAVYPYPDRIEIVRKELRLPDHIPLNVIPVGYPQKETPKNKYNVQQIHHNGW 3m5p-a1-m1-cA_3m5p-a1-m2-cA Glucose-6-phosphate isomerase from Francisella tularensis complexed with fructose-6-phosphate. Q5NFC4 Q5NFC4 1.65 X-RAY DIFFRACTION 416 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 532 532 3ljk-a1-m1-cA_3ljk-a1-m2-cA 3q7i-a1-m1-cA_3q7i-a1-m2-cA 3q88-a1-m1-cA_3q88-a1-m2-cA NALFCDDSKKYLKEQNINLKNEFDKDDKRVEKFSLKHQNIYFDYSKNLINDYILKSLLESAEKSSLKDKIKQFNGAKINSTEHRAVLHTALRDLSSTPLIVDGQDIRQEVTKEKQRVKELVEKVVSGRWRGFSGKKITDIVNIGIGGSDLGPKVVRALQPYHCTDLKVHFVSNVDADSLLQALHVVDPETTLLIIASKSFSTEETLLNSISAREWLLDHYEDEKAVANHFVAISSKLDKVKEFGIDLEHCYKWDWVGGRYSLWSSIGSIAFAIGYDNFEKLLAGAYSVDKHFKETEFSKNIPVIALLASYYSCTYNSQSQALLPYDERLCYFVDYLQQADESNGKSVNIAGETVNYQTGVVLWGGVGTNGQHAFHQLLHQGNIFIPVDFIAIATSHHNYDNHQQALLANCFAQSQALFGQSYDVYNELLKSGLNETQAKELAAHKVIPGNRPSTTILLDELSPYSLGALIALYEHKIFVQGVLWDINSYDQWGVELGKKLGKNILKANDDSSDEYQNLDDSTRQLIAKVKNK NALFCDDSKKYLKEQNINLKNEFDKDDKRVEKFSLKHQNIYFDYSKNLINDYILKSLLESAEKSSLKDKIKQFNGAKINSTEHRAVLHTALRDLSSTPLIVDGQDIRQEVTKEKQRVKELVEKVVSGRWRGFSGKKITDIVNIGIGGSDLGPKVVRALQPYHCTDLKVHFVSNVDADSLLQALHVVDPETTLLIIASKSFSTEETLLNSISAREWLLDHYEDEKAVANHFVAISSKLDKVKEFGIDLEHCYKWDWVGGRYSLWSSIGSIAFAIGYDNFEKLLAGAYSVDKHFKETEFSKNIPVIALLASYYSCTYNSQSQALLPYDERLCYFVDYLQQADESNGKSVNIAGETVNYQTGVVLWGGVGTNGQHAFHQLLHQGNIFIPVDFIAIATSHHNYDNHQQALLANCFAQSQALFGQSYDVYNELLKSGLNETQAKELAAHKVIPGNRPSTTILLDELSPYSLGALIALYEHKIFVQGVLWDINSYDQWGVELGKKLGKNILKANDDSSDEYQNLDDSTRQLIAKVKNK 3m5r-a2-m1-cD_3m5r-a2-m1-cE Crystal Structure of Swine Flu Virus NS1 Effector Domain from H1N1 Influenza A/California/07/2009 C3W611 C3W611 2 X-RAY DIFFRACTION 34 1.0 641809 (Influenza A virus (A/California/07/2009(H1N1))) 641809 (Influenza A virus (A/California/07/2009(H1N1))) 121 121 3m5r-a1-m1-cA_3m5r-a1-m1-cB 3m5r-a3-m1-cF_3m5r-a3-m1-cG SVPTSRYLSDMTLEEMSRDWFMLMPRQKIIGPLCVRLDQAIMEKNIVLKANFSVIFNRLETLILLRAFTEEGAIVGEISPLPSLPGHTYEDVKNAVGVLIGGLEWNGNTVRVSENIQRFAW SVPTSRYLSDMTLEEMSRDWFMLMPRQKIIGPLCVRLDQAIMEKNIVLKANFSVIFNRLETLILLRAFTEEGAIVGEISPLPSLPGHTYEDVKNAVGVLIGGLEWNGNTVRVSENIQRFAW 3m5u-a1-m1-cA_3m5u-a1-m1-cB Crystal Structure of Phosphoserine Aminotransferase from Campylobacter jejuni Q9PIH3 Q9PIH3 2.152 X-RAY DIFFRACTION 160 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 346 346 RKINFSAGPSTLPLEILEQAQKELCDYQGRGYSIEISHRTKVFEEVHFGAQEKAKKLYELNDDYEVLFLQGGASLQFAIPNLALNGVCEYANTGVWTKKAIKEAQILGVNVKTVASSEESNFDHIPRVEFSDNADYAYICSNNTIYGTQYQNYPKTKTPLIVDASSDFFSRKVDFSNIALFYGGVQKNAGISGLSCIFIRKDLERSKNKQIPSLNYLTHAENQSLFNTPPTFAIYFNLEDWLLNQGGLDKVHEKNSQKATLYECIDLSNGFYKGHADKKDRSLNVSFNIAKNKDLEPLFVKEAEEAGIGLKGHRILGGIRASIYNALNLDQVKTLCEFKEFQGKYA RKINFSAGPSTLPLEILEQAQKELCDYQGRGYSIEISHRTKVFEEVHFGAQEKAKKLYELNDDYEVLFLQGGASLQFAIPNLALNGVCEYANTGVWTKKAIKEAQILGVNVKTVASSEESNFDHIPRVEFSDNADYAYICSNNTIYGTQYQNYPKTKTPLIVDASSDFFSRKVDFSNIALFYGGVQKNAGISGLSCIFIRKDLERSKNKQIPSLNYLTHAENQSLFNTPPTFAIYFNLEDWLLNQGGLDKVHEKNSQKATLYECIDLSNGFYKGHADKKDRSLNVSFNIAKNKDLEPLFVKEAEEAGIGLKGHRILGGIRASIYNALNLDQVKTLCEFKEFQGKYA 3m65-a3-m1-cA_3m65-a3-m1-cB Crystal structure of Bacillus subtilis Lon N-terminal domain P37945 P37945 2.6 X-RAY DIFFRACTION 199 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 204 204 ELKRSIPLLPLRGLLVYPTMVLHLDVGRDKSVQALEQAMMHDHMIFLATQQDISIDEPGEDEIFTVGTYTKIKQMLKLPNGTIRVLVEGLKRAHIVKYNEHEDYTSVDIQLIHEDKDTEDEALMRTLLDHFDQYIKISKKISAETYAAVTDIEEPGRMADIVASHLPLKLKDKQDILETADVKDRLNKVIDFINNEKEVLEIEK ELKRSIPLLPLRGLLVYPTMVLHLDVGRDKSVQALEQAMMHDHMIFLATQQDISIDEPGEDEIFTVGTYTKIKQMLKLPNGTIRVLVEGLKRAHIVKYNEHEDYTSVDIQLIHEDKDTEDEALMRTLLDHFDQYIKISKKISAETYAAVTDIEEPGRMADIVASHLPLKLKDKQDILETADVKDRLNKVIDFINNEKEVLEIEK 3m6a-a1-m1-cA_3m6a-a1-m1-cC Crystal structure of Bacillus subtilis Lon C-terminal domain P37945 P37945 3.4 X-RAY DIFFRACTION 89 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 496 496 3m6a-a1-m1-cA_3m6a-a1-m1-cD 3m6a-a1-m1-cB_3m6a-a1-m1-cE 3m6a-a1-m1-cB_3m6a-a1-m1-cF 3m6a-a1-m1-cC_3m6a-a1-m1-cE TGEVQTLTEKIEEAGMPDHVKETALKELNRYEKIPSSSAESSVIRNYIDWLVALPWTDETDDKLDLKEAGRLLDEEHHGLEKVKERILEYLAVQKLTKSLKGPILCLAGPPGVGKTSLAKSIAKSLGRKFVRISLGGRIIQGMKKAGKLNPVFLLDEIDKMSAMLEVLDPEQNSSFSDHYIEETFDLSKVLFIATANNLATIPGPLRDRMEIINIAGYTEIEKLEIVKDHLLPKQIKEHGLKKSNLQLRDQAILDIIRYYTREAGVRSLERQLAAICRKAAKAIVAEERKRITVTEKNLQDFIGKRIFRYGQAETEDQVGVVTGLAYTTVGGDTLSIEVSLSPGKGKLILTGKLGDVMRESAQAAFSYVRSKTEELGIEPDFHEKYDIHIHVPEGAVPKDGPAAGITMATALVSALTGRAVSREVGMTGEITLRGRVLPIGGLKEKALGAHRAGLTTIIAPKDNEKDIEDIPESVREGLTFILASHLDEVLEHALV TGEVQTLTEKIEEAGMPDHVKETALKELNRYEKIPSSSAESSVIRNYIDWLVALPWTDETDDKLDLKEAGRLLDEEHHGLEKVKERILEYLAVQKLTKSLKGPILCLAGPPGVGKTSLAKSIAKSLGRKFVRISLGGRIIQGMKKAGKLNPVFLLDEIDKMSAMLEVLDPEQNSSFSDHYIEETFDLSKVLFIATANNLATIPGPLRDRMEIINIAGYTEIEKLEIVKDHLLPKQIKEHGLKKSNLQLRDQAILDIIRYYTREAGVRSLERQLAAICRKAAKAIVAEERKRITVTEKNLQDFIGKRIFRYGQAETEDQVGVVTGLAYTTVGGDTLSIEVSLSPGKGKLILTGKLGDVMRESAQAAFSYVRSKTEELGIEPDFHEKYDIHIHVPEGAVPKDGPAAGITMATALVSALTGRAVSREVGMTGEITLRGRVLPIGGLKEKALGAHRAGLTTIIAPKDNEKDIEDIPESVREGLTFILASHLDEVLEHALV 3m6i-a2-m1-cB_3m6i-a2-m6-cB L-arabinitol 4-dehydrogenase Q7SI09 Q7SI09 2.6 X-RAY DIFFRACTION 26 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 358 358 3m6i-a1-m1-cA_3m6i-a1-m2-cA 3m6i-a1-m3-cA_3m6i-a1-m4-cA 3m6i-a2-m3-cB_3m6i-a2-m5-cB ASKTNIGVFTNPQHDLWISEASPSLESVQKGEELKEGEVTVAVRSTGICGSDVHFWKHGCIGPMIVECDHVLGHESAGEVIAVHPSVKSIKVGDRVAIEPQVICNACEPCLTGRYNGCERVDFLSTPPVPGLLRRYVNHPAVWCHKIGNMSYENGAMLEPLSVALAGLQRAGVRLGDPVLICGAGPIGLITMLCAKAAGACPLVITDIDEGRLKFAKEICPEVVTHKVERLSAEESAKKIVESFGGIEPAVALECTGVESSIAAAIWAVKFGGKVFVIGVGKNEIQIPFMRASVREVDLQFQYRYCNTWPRAIRLVENGLVDLTRLVTHRFPLEDALKAFETASDPKTGAIKVQIQSL ASKTNIGVFTNPQHDLWISEASPSLESVQKGEELKEGEVTVAVRSTGICGSDVHFWKHGCIGPMIVECDHVLGHESAGEVIAVHPSVKSIKVGDRVAIEPQVICNACEPCLTGRYNGCERVDFLSTPPVPGLLRRYVNHPAVWCHKIGNMSYENGAMLEPLSVALAGLQRAGVRLGDPVLICGAGPIGLITMLCAKAAGACPLVITDIDEGRLKFAKEICPEVVTHKVERLSAEESAKKIVESFGGIEPAVALECTGVESSIAAAIWAVKFGGKVFVIGVGKNEIQIPFMRASVREVDLQFQYRYCNTWPRAIRLVENGLVDLTRLVTHRFPLEDALKAFETASDPKTGAIKVQIQSL 3m6i-a2-m3-cB_3m6i-a2-m6-cB L-arabinitol 4-dehydrogenase Q7SI09 Q7SI09 2.6 X-RAY DIFFRACTION 112 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 358 358 3m6i-a1-m1-cA_3m6i-a1-m4-cA 3m6i-a1-m2-cA_3m6i-a1-m3-cA 3m6i-a2-m1-cB_3m6i-a2-m5-cB ASKTNIGVFTNPQHDLWISEASPSLESVQKGEELKEGEVTVAVRSTGICGSDVHFWKHGCIGPMIVECDHVLGHESAGEVIAVHPSVKSIKVGDRVAIEPQVICNACEPCLTGRYNGCERVDFLSTPPVPGLLRRYVNHPAVWCHKIGNMSYENGAMLEPLSVALAGLQRAGVRLGDPVLICGAGPIGLITMLCAKAAGACPLVITDIDEGRLKFAKEICPEVVTHKVERLSAEESAKKIVESFGGIEPAVALECTGVESSIAAAIWAVKFGGKVFVIGVGKNEIQIPFMRASVREVDLQFQYRYCNTWPRAIRLVENGLVDLTRLVTHRFPLEDALKAFETASDPKTGAIKVQIQSL ASKTNIGVFTNPQHDLWISEASPSLESVQKGEELKEGEVTVAVRSTGICGSDVHFWKHGCIGPMIVECDHVLGHESAGEVIAVHPSVKSIKVGDRVAIEPQVICNACEPCLTGRYNGCERVDFLSTPPVPGLLRRYVNHPAVWCHKIGNMSYENGAMLEPLSVALAGLQRAGVRLGDPVLICGAGPIGLITMLCAKAAGACPLVITDIDEGRLKFAKEICPEVVTHKVERLSAEESAKKIVESFGGIEPAVALECTGVESSIAAAIWAVKFGGKVFVIGVGKNEIQIPFMRASVREVDLQFQYRYCNTWPRAIRLVENGLVDLTRLVTHRFPLEDALKAFETASDPKTGAIKVQIQSL 3m6i-a2-m5-cB_3m6i-a2-m6-cB L-arabinitol 4-dehydrogenase Q7SI09 Q7SI09 2.6 X-RAY DIFFRACTION 63 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 358 358 3m6i-a1-m1-cA_3m6i-a1-m3-cA 3m6i-a1-m2-cA_3m6i-a1-m4-cA 3m6i-a2-m1-cB_3m6i-a2-m3-cB ASKTNIGVFTNPQHDLWISEASPSLESVQKGEELKEGEVTVAVRSTGICGSDVHFWKHGCIGPMIVECDHVLGHESAGEVIAVHPSVKSIKVGDRVAIEPQVICNACEPCLTGRYNGCERVDFLSTPPVPGLLRRYVNHPAVWCHKIGNMSYENGAMLEPLSVALAGLQRAGVRLGDPVLICGAGPIGLITMLCAKAAGACPLVITDIDEGRLKFAKEICPEVVTHKVERLSAEESAKKIVESFGGIEPAVALECTGVESSIAAAIWAVKFGGKVFVIGVGKNEIQIPFMRASVREVDLQFQYRYCNTWPRAIRLVENGLVDLTRLVTHRFPLEDALKAFETASDPKTGAIKVQIQSL ASKTNIGVFTNPQHDLWISEASPSLESVQKGEELKEGEVTVAVRSTGICGSDVHFWKHGCIGPMIVECDHVLGHESAGEVIAVHPSVKSIKVGDRVAIEPQVICNACEPCLTGRYNGCERVDFLSTPPVPGLLRRYVNHPAVWCHKIGNMSYENGAMLEPLSVALAGLQRAGVRLGDPVLICGAGPIGLITMLCAKAAGACPLVITDIDEGRLKFAKEICPEVVTHKVERLSAEESAKKIVESFGGIEPAVALECTGVESSIAAAIWAVKFGGKVFVIGVGKNEIQIPFMRASVREVDLQFQYRYCNTWPRAIRLVENGLVDLTRLVTHRFPLEDALKAFETASDPKTGAIKVQIQSL 3m6j-a2-m1-cC_3m6j-a2-m1-cD Crystal structure of unknown function protein from Leptospirillum rubarum 1.9 X-RAY DIFFRACTION 40 0.992 419542 (Leptospirillum rubarum) 419542 (Leptospirillum rubarum) 131 133 3m6j-a1-m1-cB_3m6j-a1-m1-cA PAGRPLTVHRNVGRWLSEILHASIRDTGVSSRIEFVRRTLHGWVREEYSETELPNAVYRNLYFPVLDAQHAGSGKIETISECDRLKNLVRNVTDTLVENYPQGLESEALLIALDGVKLELARIRKDIEYGD PAGRPLTVHRNVGRWLSEILHASIRDTGVSSRIEFVRRTLHGWVREEYSETELPNAVYRNLYFPVLDAQAGSGKIETISECDRLKNLVRNVTDTLVENYPQGLESEALLIALDGVKLELARIRKDIEYGDPRK 3m6m-a1-m1-cC_3m6m-a1-m1-cB Crystal structure of RpfF complexed with REC domain of RpfC Q7CLS3 Q7CLS3 2.5 X-RAY DIFFRACTION 55 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 262 263 3m6m-a1-m1-cA_3m6m-a1-m1-cB 3m6m-a1-m1-cA_3m6m-a1-m1-cC 3m6n-a1-m1-cA_3m6n-a1-m1-cB 3m6n-a1-m1-cA_3m6n-a1-m1-cC 3m6n-a1-m1-cC_3m6n-a1-m1-cB STLRIIEEPQRDVYWIHMHADLRACFSTRLVDDITGYQTNLGQRLNTAGVLAPHVVLASDSDVFNLGGDLALFCQLIREGDRARLLDYAQRCVRGVHAFHVGLGARAHSIALVQGNALGGGFEAALSCHTIIAEEGVMMGLPEVLFDLFPGMGAYSFMCQRISAHLAQKIMLEGNLYSAEQLLGMGLVDRVVPRGQGVAAVEQVIRESKRTPHAWAAMQQVREMTTAVPLEEMMRITEIWVDTAMQLGEKSLRTMDRLVRAQ STLRIIEEPQRDVYWIHMHADLARACFSTRLVDDITGYQTNLGQRLNTAGVLAPHVVLASDSDVFNLGGDLALFCQLIREGDRARLLDYAQRCVRGVHAFHVGLGARAHSIALVQGNALGGGFEAALSCHTIIAEEGVMMGLPEVLFDLFPGMGAYSFMCQRISAHLAQKIMLEGNLYSAEQLLGMGLVDRVVPRGQGVAAVEQVIRESKRTPHAWAAMQQVREMTTAVPLEEMMRITEIWVDTAMQLGEKSLRTMDRLVRAQ 3m6s-a1-m1-cC_3m6s-a1-m1-cA Crystal structure of H1N1pdm Hemagglutinin C5MV42 C5MV42 2.8 X-RAY DIFFRACTION 26 1.0 650110 (Influenza A virus (A/Darwin/2001/2009(H1N1))) 650110 (Influenza A virus (A/Darwin/2001/2009(H1N1))) 323 325 3lzg-a1-m1-cA_3lzg-a1-m1-cC 3lzg-a1-m1-cE_3lzg-a1-m1-cA 3lzg-a1-m1-cE_3lzg-a1-m1-cC 3lzg-a2-m1-cG_3lzg-a2-m1-cI 3lzg-a2-m1-cK_3lzg-a2-m1-cG 3lzg-a2-m1-cK_3lzg-a2-m1-cI 3m6s-a1-m1-cC_3m6s-a1-m1-cE 3m6s-a1-m1-cE_3m6s-a1-m1-cA 3m6s-a2-m1-cI_3m6s-a2-m2-cG 3m6s-a2-m1-cK_3m6s-a2-m1-cI 3m6s-a2-m1-cK_3m6s-a2-m2-cG 3ube-a1-m1-cC_3ube-a1-m1-cA 3ube-a1-m1-cE_3ube-a1-m1-cA 3ube-a1-m1-cE_3ube-a1-m1-cC 3ube-a2-m1-cI_3ube-a2-m1-cG 3ube-a2-m1-cK_3ube-a2-m1-cG 3ube-a2-m1-cK_3ube-a2-m1-cI 3ubj-a1-m1-cC_3ubj-a1-m1-cA 3ubj-a1-m1-cE_3ubj-a1-m1-cA 3ubj-a1-m1-cE_3ubj-a1-m1-cC 3ubj-a2-m1-cI_3ubj-a2-m1-cG 3ubj-a2-m1-cK_3ubj-a2-m1-cG 3ubj-a2-m1-cK_3ubj-a2-m1-cI 3ubn-a1-m1-cC_3ubn-a1-m1-cA 3ubn-a1-m1-cE_3ubn-a1-m1-cA 3ubn-a1-m1-cE_3ubn-a1-m1-cC 3ubn-a2-m1-cI_3ubn-a2-m1-cG 3ubn-a2-m1-cK_3ubn-a2-m1-cG 3ubn-a2-m1-cK_3ubn-a2-m1-cI 3ubq-a1-m1-cC_3ubq-a1-m1-cA 3ubq-a1-m1-cE_3ubq-a1-m1-cA 3ubq-a1-m1-cE_3ubq-a1-m1-cC 3ubq-a2-m1-cI_3ubq-a2-m1-cG 3ubq-a2-m1-cK_3ubq-a2-m1-cG 3ubq-a2-m1-cK_3ubq-a2-m1-cI 3ztn-a1-m1-cA_3ztn-a1-m2-cA 3ztn-a1-m1-cA_3ztn-a1-m3-cA 3ztn-a1-m2-cA_3ztn-a1-m3-cA 4f3z-a1-m1-cC_4f3z-a1-m1-cA 4f3z-a1-m1-cE_4f3z-a1-m1-cA 4jtv-a1-m1-cA_4jtv-a1-m1-cC 4jtv-a1-m1-cA_4jtv-a1-m1-cE 4jtv-a1-m1-cC_4jtv-a1-m1-cE 4jtv-a2-m1-cG_4jtv-a2-m1-cI 4jtv-a2-m1-cG_4jtv-a2-m1-cK 4jtv-a2-m1-cI_4jtv-a2-m1-cK 4jtx-a1-m1-cC_4jtx-a1-m1-cA 4jtx-a1-m1-cE_4jtx-a1-m1-cA 4jtx-a1-m1-cE_4jtx-a1-m1-cC 4jtx-a2-m1-cG_4jtx-a2-m1-cI 4jtx-a2-m1-cG_4jtx-a2-m1-cK 4jtx-a2-m1-cI_4jtx-a2-m1-cK 4ju0-a1-m1-cC_4ju0-a1-m1-cA 4ju0-a1-m1-cC_4ju0-a1-m1-cE 4ju0-a1-m1-cE_4ju0-a1-m1-cA 4ju0-a2-m1-cI_4ju0-a2-m1-cG 4ju0-a2-m1-cI_4ju0-a2-m1-cK 4ju0-a2-m1-cK_4ju0-a2-m1-cG 4lxv-a1-m1-cA_4lxv-a1-m1-cC 4lxv-a1-m1-cA_4lxv-a1-m1-cE 4lxv-a1-m1-cC_4lxv-a1-m1-cE 4lxv-a2-m1-cG_4lxv-a2-m1-cI 4lxv-a2-m1-cG_4lxv-a2-m1-cK 4lxv-a2-m1-cI_4lxv-a2-m1-cK 4m4y-a1-m1-cC_4m4y-a1-m1-cA 4m4y-a1-m1-cE_4m4y-a1-m1-cA 4m4y-a1-m1-cE_4m4y-a1-m1-cC 5gjs-a1-m1-cA_5gjs-a1-m2-cA 5gjs-a1-m1-cA_5gjs-a1-m3-cA 5gjs-a1-m2-cA_5gjs-a1-m3-cA 5gjt-a1-m1-cA_5gjt-a1-m2-cA 5gjt-a1-m1-cA_5gjt-a1-m3-cA 5gjt-a1-m2-cA_5gjt-a1-m3-cA 5wko-a1-m1-cN_5wko-a1-m1-cM 5wko-a1-m1-cO_5wko-a1-m1-cM 5wko-a1-m1-cO_5wko-a1-m1-cN 5wko-a2-m1-cT_5wko-a2-m1-cS 5wko-a2-m1-cU_5wko-a2-m1-cS 5wko-a2-m1-cU_5wko-a2-m1-cT 6wj1-a1-m1-cA_6wj1-a1-m1-cC 6wj1-a1-m1-cE_6wj1-a1-m1-cA 6wj1-a1-m1-cE_6wj1-a1-m1-cC 6xgc-a1-m1-cA_6xgc-a1-m1-cC 6xgc-a1-m1-cA_6xgc-a1-m1-cE 6xgc-a1-m1-cC_6xgc-a1-m1-cE 7kna-a1-m1-cA_7kna-a1-m1-cB 7kna-a1-m1-cC_7kna-a1-m1-cA 7kna-a1-m1-cC_7kna-a1-m1-cB 7mem-a1-m1-cC_7mem-a1-m1-cE 7mem-a1-m1-cF_7mem-a1-m1-cC 7mem-a1-m1-cF_7mem-a1-m1-cE 7t3d-a1-m1-cA_7t3d-a1-m1-cE 7t3d-a1-m1-cF_7t3d-a1-m1-cA 7t3d-a1-m1-cF_7t3d-a1-m1-cE 7x6o-a1-m1-cA_7x6o-a1-m1-cE 7x6o-a1-m1-cA_7x6o-a1-m1-cF 7x6o-a1-m1-cE_7x6o-a1-m1-cF GDTLCIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDKHNGKLCKLRGVAPLHLGKCNIAGWILGNPECESLSTASSWSYIVETSSSDNGTCYPGDFIDYEELREQLSSVSSFERFEIFPKTSSWPNHDSNKGVTAACPHAGAKSFYKNLIWLVKKGNSYPKLSKSYINDKGKEVLVLWGIHHPSTSADQQSLYQNADAYVFVGTSKYSKKFKPEIAIRPKVRDQEGRMNYYWTLVEPGDKITFEATGNLVVPRYAFAMERNAGSGIIISDTPVHDCNTTCQTPKGAINTSLPFQNIHPITIGKCPKYVKSTKLRLATGLRNVP DPGDTLCIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDKHNGKLCKLRGVAPLHLGKCNIAGWILGNPECESLSTASSWSYIVETSSSDNGTCYPGDFIDYEELREQLSSVSSFERFEIFPKTSSWPNHDSNKGVTAACPHAGAKSFYKNLIWLVKKGNSYPKLSKSYINDKGKEVLVLWGIHHPSTSADQQSLYQNADAYVFVGTSKYSKKFKPEIAIRPKVRDQEGRMNYYWTLVEPGDKITFEATGNLVVPRYAFAMERNAGSGIIISDTPVHDCNTTCQTPKGAINTSLPFQNIHPITIGKCPKYVKSTKLRLATGLRNVP 3m6w-a2-m1-cA_3m6w-a2-m2-cA Multi-site-specific 16S rRNA methyltransferase RsmF from Thermus thermophilus in space group P21212 in complex with S-Adenosyl-L-Methionine Q5SII2 Q5SII2 1.3 X-RAY DIFFRACTION 36 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 459 459 3m6x-a2-m1-cA_3m6x-a2-m2-cA LPKAFLSRMAELLGEEFPAFLKALTEGKRTYGLRVNTLKLPPEAFQRISPWPLRPIPWCQEGFYYPEEARPGPHPFFYAGLYYIQEPSAQAVGVLLDPKPGERVLDLAAAPGGKTTHLAARMGGKGLLLANEVDGKRVRGLLENVERWGAPLAVTQAPPRALAEAFGTYFHRVLLDAPCSGEGMFRKDREAARHWGPSAPKRMAEVQKALLAQASRLLGPGGVLVYSTCTFAPEENEGVVAHFLKAHPEFRLEDARLHPLFAPGVPEWGEGNPELLKTARLWPHRLEGEGHFLARFRKEGGAWSTPRLERPSPLSQEALRAFRGFLEEAGLTLEGPVLDRAGHLYLLPEGLPTLLGLKAPAPGLYLGKVQKGRFLPARALALAFGATLPWPEGLPRLALTPEDPRALAFATGEGVAWEGEDHPLALVVLKTAAGEFPLDFGKAKRGVLRPVGVGLRSHH LPKAFLSRMAELLGEEFPAFLKALTEGKRTYGLRVNTLKLPPEAFQRISPWPLRPIPWCQEGFYYPEEARPGPHPFFYAGLYYIQEPSAQAVGVLLDPKPGERVLDLAAAPGGKTTHLAARMGGKGLLLANEVDGKRVRGLLENVERWGAPLAVTQAPPRALAEAFGTYFHRVLLDAPCSGEGMFRKDREAARHWGPSAPKRMAEVQKALLAQASRLLGPGGVLVYSTCTFAPEENEGVVAHFLKAHPEFRLEDARLHPLFAPGVPEWGEGNPELLKTARLWPHRLEGEGHFLARFRKEGGAWSTPRLERPSPLSQEALRAFRGFLEEAGLTLEGPVLDRAGHLYLLPEGLPTLLGLKAPAPGLYLGKVQKGRFLPARALALAFGATLPWPEGLPRLALTPEDPRALAFATGEGVAWEGEDHPLALVVLKTAAGEFPLDFGKAKRGVLRPVGVGLRSHH 3m6y-a2-m2-cB_3m6y-a2-m1-cA Structure of 4-hydroxy-2-oxoglutarate aldolase from bacillus cereus at 1.45 a resolution. Q812M4 Q812M4 1.45 X-RAY DIFFRACTION 12 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 247 248 TNIQKRFYKGRVALNVLANNIENAKDIFEAAEGYVVVGVLSKDYPTVEEAVTAKAYGKEIDDAVSIGLGAGDNRQAAVVAEIAKHYPGSHINQVFPSVGATRANLGEKDSWINSLVSPTGKVGYVNISTGPISAAGEEKAIVPIKTAIALVRDGGNSLKYFPKGLAHEEEYRAVAKACAEEGFALEPTGGIDKENFETIVRIALEANVEQVIPHVYSSIIDKETGNTKVEAVRELLAVVKKLVDQYA ATNIQKRFYKGRVALNVLANNIENAKDIFEAAEGYVVVGVLSKDYPTVEEAVTAKAYGKEIDDAVSIGLGAGDNRQAAVVAEIAKHYPGSHINQVFPSVGATRANLGEKDSWINSLVSPTGKVGYVNISTGPISAAGEEKAIVPIKTAIALVRDGGNSLKYFPKGLAHEEEYRAVAKACAEEGFALEPTGGIDKENFETIVRIALEANVEQVIPHVYSSIIDKETGNTKVEAVRELLAVVKKLVDQYA 3m6y-a4-m1-cC_3m6y-a4-m1-cB Structure of 4-hydroxy-2-oxoglutarate aldolase from bacillus cereus at 1.45 a resolution. Q812M4 Q812M4 1.45 X-RAY DIFFRACTION 95 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 245 247 3m6y-a1-m1-cC_3m6y-a1-m1-cB 3m6y-a1-m1-cD_3m6y-a1-m1-cA 3m6y-a2-m1-cD_3m6y-a2-m1-cA 3m6y-a2-m2-cC_3m6y-a2-m2-cB 3m6y-a3-m1-cD_3m6y-a3-m1-cA 3mux-a1-m1-cB_3mux-a1-m1-cA NIQKRFYKGRVALNVLANNIENAKDIFEAAEGYVVVGVLSKDYPTVEEAVTAKAYGKEIDDAVSIGLGAGDNRQAAVVAEIAKHYPGSHINQVFPSVGATRANLGEKDSWINSLVSPTGKVGYVNISTGPISAAGEEKAIVPIKTAIALVRDGGNSLKYFPKGLAHEEEYRAVAKACAEEGFALEPTGGIDKENFETIVRIALEANVEQVIPHVYSSIIDKETGNTKVEAVRELLAVVKKLVDQY TNIQKRFYKGRVALNVLANNIENAKDIFEAAEGYVVVGVLSKDYPTVEEAVTAKAYGKEIDDAVSIGLGAGDNRQAAVVAEIAKHYPGSHINQVFPSVGATRANLGEKDSWINSLVSPTGKVGYVNISTGPISAAGEEKAIVPIKTAIALVRDGGNSLKYFPKGLAHEEEYRAVAKACAEEGFALEPTGGIDKENFETIVRIALEANVEQVIPHVYSSIIDKETGNTKVEAVRELLAVVKKLVDQYA 3m7b-a1-m2-cA_3m7b-a1-m3-cA Crystal Structure of Plant SLAC1 homolog TehA P44741 P44741 1.5 X-RAY DIFFRACTION 96 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 308 308 3m71-a1-m1-cA_3m71-a1-m2-cA 3m71-a1-m1-cA_3m71-a1-m3-cA 3m71-a1-m2-cA_3m71-a1-m3-cA 3m72-a1-m1-cA_3m72-a1-m2-cA 3m72-a1-m1-cA_3m72-a1-m3-cA 3m72-a1-m2-cA_3m72-a1-m3-cA 3m73-a1-m1-cA_3m73-a1-m2-cA 3m73-a1-m1-cA_3m73-a1-m3-cA 3m73-a1-m2-cA_3m73-a1-m3-cA 3m74-a1-m1-cA_3m74-a1-m2-cA 3m74-a1-m1-cA_3m74-a1-m3-cA 3m74-a1-m2-cA_3m74-a1-m3-cA 3m75-a1-m1-cA_3m75-a1-m2-cA 3m75-a1-m1-cA_3m75-a1-m3-cA 3m75-a1-m2-cA_3m75-a1-m3-cA 3m76-a1-m1-cA_3m76-a1-m2-cA 3m76-a1-m1-cA_3m76-a1-m3-cA 3m76-a1-m2-cA_3m76-a1-m3-cA 3m77-a1-m1-cA_3m77-a1-m2-cA 3m77-a1-m1-cA_3m77-a1-m3-cA 3m77-a1-m2-cA_3m77-a1-m3-cA 3m78-a1-m1-cA_3m78-a1-m2-cA 3m78-a1-m1-cA_3m78-a1-m3-cA 3m78-a1-m2-cA_3m78-a1-m3-cA 3m7b-a1-m1-cA_3m7b-a1-m2-cA 3m7b-a1-m1-cA_3m7b-a1-m3-cA 3m7c-a1-m1-cA_3m7c-a1-m2-cA 3m7c-a1-m1-cA_3m7c-a1-m3-cA 3m7c-a1-m2-cA_3m7c-a1-m3-cA 3m7e-a1-m1-cA_3m7e-a1-m2-cA 3m7e-a1-m1-cA_3m7e-a1-m3-cA 3m7e-a1-m2-cA_3m7e-a1-m3-cA 3m7l-a1-m1-cA_3m7l-a1-m2-cA 3m7l-a1-m1-cA_3m7l-a1-m3-cA 3m7l-a1-m2-cA_3m7l-a1-m3-cA 4ycr-a1-m1-cA_4ycr-a1-m2-cA 4ycr-a1-m1-cA_4ycr-a1-m3-cA 4ycr-a1-m2-cA_4ycr-a1-m3-cA 8en9-a1-m1-cA_8en9-a1-m2-cA 8en9-a1-m1-cA_8en9-a1-m3-cA 8en9-a1-m2-cA_8en9-a1-m3-cA KPFPLPTGYFGIPLGLAALSLAWFHLENLFPAARMVSDVLGIVASAVWILFILMYAYKLRYYFEEVRAEYHSPVRFSFIALIPITTMLVGDILYRWNPLIAEVLIWIGTIGQLLFSTLRVSELWQGGVFEQKSTHPSFYLPAVAANFTSASLALLGYHDLGYLFFGAGMIAWIIFEPVLLQHLRISSLEPQFRATMGIVLAPAFVCVSAYLSINHGEVDTLAKILWGYGFLQLFFLLRLFPWIVEKGLNIGLWAFSFGLASMANSATAFYHGNVLQGVSIFAFVFSNVMIGLLVLMTIYKLTKGQFFL KPFPLPTGYFGIPLGLAALSLAWFHLENLFPAARMVSDVLGIVASAVWILFILMYAYKLRYYFEEVRAEYHSPVRFSFIALIPITTMLVGDILYRWNPLIAEVLIWIGTIGQLLFSTLRVSELWQGGVFEQKSTHPSFYLPAVAANFTSASLALLGYHDLGYLFFGAGMIAWIIFEPVLLQHLRISSLEPQFRATMGIVLAPAFVCVSAYLSINHGEVDTLAKILWGYGFLQLFFLLRLFPWIVEKGLNIGLWAFSFGLASMANSATAFYHGNVLQGVSIFAFVFSNVMIGLLVLMTIYKLTKGQFFL 3m7k-a1-m1-cA_3m7k-a1-m2-cA Crystal structure of PacI-DNA Enzyme product complex D5MNX7 D5MNX7 1.92 X-RAY DIFFRACTION 29 1.0 43263 (Pseudomonas alcaligenes) 43263 (Pseudomonas alcaligenes) 142 142 3ldy-a1-m1-cA_3ldy-a1-m2-cA MTQCPRCQRNLAADEFYAGSSKMCKGCMTWQNLSYNANKEGHANTFTKATFLAWYGLSAQRHCGYCGISEAGFTSLHRTNPRGYHIQCLGVDRSDSFEGYSPQNARLACFICNRIKSNIFSASEMDVLGEAISKAWHGRGIA MTQCPRCQRNLAADEFYAGSSKMCKGCMTWQNLSYNANKEGHANTFTKATFLAWYGLSAQRHCGYCGISEAGFTSLHRTNPRGYHIQCLGVDRSDSFEGYSPQNARLACFICNRIKSNIFSASEMDVLGEAISKAWHGRGIA 3m7p-a1-m1-cA_3m7p-a1-m2-cA Fibronectin fragment P02751 P02751 2.5 X-RAY DIFFRACTION 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 301 QPHPQPPPYGHCVTDSGVVYSVGMQWLKTQGNKQMLCTCLGNGVSCQETAVTQTYGGNSNGEPCVLPFTYNGRTFYSCTTEGRQDGHLWCSTTSNYEQDQKYSFCTDHTVLVQTRGGNSNGALCHFPFLYNNHNYTDCTSEGRRDNMKWCGTTQNYDADQKFGFCPMAAHEEICTTNEGVMYRIGDQWDKQHDMGHMMRCTCVGNGRGEWTCIAYSQLRDQCIVDDITYNVNDTFHKRHEEGHMLNCTCWKCDPVDQCQDSETGTFYQIGDSWEKYVHGVRYQCYCYGRGIGEWHCQPLQT QPHPQPPPYGHCVTDSGVVYSVGMQWLKTQGNKQMLCTCLGNGVSCQETAVTQTYGGNSNGEPCVLPFTYNGRTFYSCTTEGRQDGHLWCSTTSNYEQDQKYSFCTDHTVLVQTRGGNSNGALCHFPFLYNNHNYTDCTSEGRRDNMKWCGTTQNYDADQKFGFCPMAAHEEICTTNEGVMYRIGDQWDKQHDMGHMMRCTCVGNGRGEWTCIAYSQLRDQCIVDDITYNVNDTFHKRHEEGHMLNCTCWKCDPVDQCQDSETGTFYQIGDSWEKYVHGVRYQCYCYGRGIGEWHCQPLQT 3m83-a1-m1-cA_3m83-a1-m1-cB Crystal structure of Acetyl xylan esterase (TM0077) from THERMOTOGA MARITIMA at 2.12 A resolution (paraoxon inhibitor complex structure) Q9WXT2 Q9WXT2 2.12 X-RAY DIFFRACTION 73 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 324 324 1vlq-a1-m1-cA_1vlq-a1-m1-cB 1vlq-a1-m1-cC_1vlq-a1-m1-cD 1vlq-a1-m1-cE_1vlq-a1-m1-cF 1vlq-a2-m1-cG_1vlq-a2-m1-cH 1vlq-a2-m1-cI_1vlq-a2-m1-cJ 1vlq-a2-m1-cK_1vlq-a2-m1-cL 3m81-a1-m1-cA_3m81-a1-m1-cB 3m81-a1-m1-cD_3m81-a1-m1-cF 3m81-a1-m1-cE_3m81-a1-m1-cC 3m82-a1-m1-cA_3m82-a1-m1-cB 3m82-a1-m1-cC_3m82-a1-m1-cE 3m82-a1-m1-cD_3m82-a1-m1-cF 3m83-a1-m1-cD_3m83-a1-m1-cF 3m83-a1-m1-cE_3m83-a1-m1-cC 5fdf-a1-m1-cA_5fdf-a1-m1-cF 5fdf-a1-m1-cC_5fdf-a1-m1-cE 5fdf-a1-m1-cD_5fdf-a1-m1-cB 5gma-a1-m1-cA_5gma-a1-m1-cF 5gma-a1-m1-cC_5gma-a1-m1-cE 5gma-a1-m1-cD_5gma-a1-m1-cB 5jib-a1-m1-cA_5jib-a1-m1-cF 5jib-a1-m1-cB_5jib-a1-m1-cD 5jib-a1-m1-cE_5jib-a1-m1-cC HMAFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGYNGGRGFPHDWLFWPSMGYICFVMDTRGQGSGWLKGDTPDYPEGPVDPQYPGFMTRGILDPRTYYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFEK HMAFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGYNGGRGFPHDWLFWPSMGYICFVMDTRGQGSGWLKGDTPDYPEGPVDPQYPGFMTRGILDPRTYYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFEK 3m83-a1-m1-cA_3m83-a1-m1-cC Crystal structure of Acetyl xylan esterase (TM0077) from THERMOTOGA MARITIMA at 2.12 A resolution (paraoxon inhibitor complex structure) Q9WXT2 Q9WXT2 2.12 X-RAY DIFFRACTION 95 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 324 324 1vlq-a1-m1-cA_1vlq-a1-m1-cF 1vlq-a1-m1-cB_1vlq-a1-m1-cC 1vlq-a1-m1-cD_1vlq-a1-m1-cE 1vlq-a2-m1-cG_1vlq-a2-m1-cL 1vlq-a2-m1-cH_1vlq-a2-m1-cI 1vlq-a2-m1-cJ_1vlq-a2-m1-cK 3m81-a1-m1-cA_3m81-a1-m1-cC 3m81-a1-m1-cB_3m81-a1-m1-cD 3m81-a1-m1-cE_3m81-a1-m1-cF 3m82-a1-m1-cA_3m82-a1-m1-cC 3m82-a1-m1-cB_3m82-a1-m1-cD 3m82-a1-m1-cE_3m82-a1-m1-cF 3m83-a1-m1-cD_3m83-a1-m1-cB 3m83-a1-m1-cE_3m83-a1-m1-cF 5fdf-a1-m1-cA_5fdf-a1-m1-cD 5fdf-a1-m1-cB_5fdf-a1-m1-cE 5fdf-a1-m1-cC_5fdf-a1-m1-cF 5gma-a1-m1-cA_5gma-a1-m1-cD 5gma-a1-m1-cB_5gma-a1-m1-cE 5gma-a1-m1-cC_5gma-a1-m1-cF 5jib-a1-m1-cA_5jib-a1-m1-cD 5jib-a1-m1-cB_5jib-a1-m1-cE 5jib-a1-m1-cC_5jib-a1-m1-cF HMAFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGYNGGRGFPHDWLFWPSMGYICFVMDTRGQGSGWLKGDTPDYPEGPVDPQYPGFMTRGILDPRTYYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFEK HMAFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGYNGGRGFPHDWLFWPSMGYICFVMDTRGQGSGWLKGDTPDYPEGPVDPQYPGFMTRGILDPRTYYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFEK 3m83-a1-m1-cC_3m83-a1-m1-cF Crystal structure of Acetyl xylan esterase (TM0077) from THERMOTOGA MARITIMA at 2.12 A resolution (paraoxon inhibitor complex structure) Q9WXT2 Q9WXT2 2.12 X-RAY DIFFRACTION 38 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 324 324 1vlq-a1-m1-cA_1vlq-a1-m1-cC 1vlq-a1-m1-cA_1vlq-a1-m1-cE 1vlq-a1-m1-cB_1vlq-a1-m1-cD 1vlq-a1-m1-cB_1vlq-a1-m1-cF 1vlq-a1-m1-cC_1vlq-a1-m1-cE 1vlq-a1-m1-cD_1vlq-a1-m1-cF 1vlq-a2-m1-cG_1vlq-a2-m1-cI 1vlq-a2-m1-cG_1vlq-a2-m1-cK 1vlq-a2-m1-cH_1vlq-a2-m1-cJ 1vlq-a2-m1-cH_1vlq-a2-m1-cL 1vlq-a2-m1-cI_1vlq-a2-m1-cK 1vlq-a2-m1-cJ_1vlq-a2-m1-cL 3m81-a1-m1-cA_3m81-a1-m1-cD 3m81-a1-m1-cB_3m81-a1-m1-cC 3m81-a1-m1-cB_3m81-a1-m1-cF 3m81-a1-m1-cC_3m81-a1-m1-cF 3m81-a1-m1-cE_3m81-a1-m1-cA 3m81-a1-m1-cE_3m81-a1-m1-cD 3m82-a1-m1-cA_3m82-a1-m1-cD 3m82-a1-m1-cA_3m82-a1-m1-cE 3m82-a1-m1-cB_3m82-a1-m1-cC 3m82-a1-m1-cB_3m82-a1-m1-cF 3m82-a1-m1-cC_3m82-a1-m1-cF 3m82-a1-m1-cD_3m82-a1-m1-cE 3m83-a1-m1-cB_3m83-a1-m1-cC 3m83-a1-m1-cB_3m83-a1-m1-cF 3m83-a1-m1-cD_3m83-a1-m1-cA 3m83-a1-m1-cD_3m83-a1-m1-cE 3m83-a1-m1-cE_3m83-a1-m1-cA 5fdf-a1-m1-cA_5fdf-a1-m1-cB 5fdf-a1-m1-cA_5fdf-a1-m1-cC 5fdf-a1-m1-cB_5fdf-a1-m1-cC 5fdf-a1-m1-cD_5fdf-a1-m1-cE 5fdf-a1-m1-cD_5fdf-a1-m1-cF 5fdf-a1-m1-cE_5fdf-a1-m1-cF 5gma-a1-m1-cA_5gma-a1-m1-cB 5gma-a1-m1-cA_5gma-a1-m1-cC 5gma-a1-m1-cB_5gma-a1-m1-cC 5gma-a1-m1-cD_5gma-a1-m1-cE 5gma-a1-m1-cD_5gma-a1-m1-cF 5gma-a1-m1-cE_5gma-a1-m1-cF 5jib-a1-m1-cA_5jib-a1-m1-cB 5jib-a1-m1-cA_5jib-a1-m1-cC 5jib-a1-m1-cB_5jib-a1-m1-cC 5jib-a1-m1-cD_5jib-a1-m1-cE 5jib-a1-m1-cD_5jib-a1-m1-cF 5jib-a1-m1-cE_5jib-a1-m1-cF HMAFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGYNGGRGFPHDWLFWPSMGYICFVMDTRGQGSGWLKGDTPDYPEGPVDPQYPGFMTRGILDPRTYYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFEK HMAFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGYNGGRGFPHDWLFWPSMGYICFVMDTRGQGSGWLKGDTPDYPEGPVDPQYPGFMTRGILDPRTYYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFEK 3m84-a1-m1-cA_3m84-a1-m1-cB Crystal Structure of Phosphoribosylaminoimidazole Synthetase from Francisella tularensis Q5NGF2 Q5NGF2 1.699 X-RAY DIFFRACTION 193 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 334 336 3qty-a1-m1-cB_3qty-a1-m1-cA AAGLKYEDAGVNIEAGNQAVERKQHVKKTFTQDVLTGLGSFGSLYSLKNIINNYDDPVLVQSIDGVGTKTKVAVCGKFENLGYDLFSAATNDIVVGAKPITFLDYVAHDKLDPAIEELVKGSKACAECGVSLVGGETAEPGVYQAGEIDVGVITGIVDRKRIINGENIKEGDIVFGLSSSGLHTNGYSFARKLFFDVAGNKHTDTYPELEGKTIGDVLLEPHINYTNIIHDFLDNGVDIKGAHITGGGFIENIPRVLPQGLGAQIDKDSFATPAIFKLQRIGDISEFEYRSFNGIGTIIASQDQFDKQELAKKHTNTKLYQIGKITNSGKVEII SNAAGLKYEDAGVNIEAGNQAVERKQHVKKTFTQDVLTGLGSFGSLYSLKNIINNYDDPVLVQSIDGVGTKTKVAVCGKFENLGYDLFSAATNDIVVGAKPITFLDYVAHDKLDPAIEELVKGSKACAECGVSLVGGETAEPGVYQAGEIDVGVITGIVDRKRIINGENIKEGDIVFGLSSSGLHTNGYSFARKLFFDVAGNKHTDTYPELEGKTIGDVLLEPHINYTNIIHDFLDNGVDIKGAHITGGGFIENIPRVLPQGLGAQIDKDSFATPAIFKLQRIGDISEFEYRSFNGIGTIIASQDQFDKQELAKKHTNTKLYQIGKITNSGKVEII 3m86-a3-m1-cB_3m86-a3-m2-cB Crystal structure of the cysteine protease inhibitor, EhICP2, from Entamoeba histolytica C4M2H5 C4M2H5 1.65 X-RAY DIFFRACTION 37 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 104 104 3m86-a3-m1-cA_3m86-a3-m2-cA GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR 3m86-a3-m2-cB_3m86-a3-m1-cA Crystal structure of the cysteine protease inhibitor, EhICP2, from Entamoeba histolytica C4M2H5 C4M2H5 1.65 X-RAY DIFFRACTION 42 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 104 111 3m86-a3-m1-cB_3m86-a3-m2-cA GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPHPSGMVGFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR 3m86-a3-m2-cB_3m86-a3-m2-cA Crystal structure of the cysteine protease inhibitor, EhICP2, from Entamoeba histolytica C4M2H5 C4M2H5 1.65 X-RAY DIFFRACTION 15 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 104 111 3m86-a3-m1-cB_3m86-a3-m1-cA GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPHPSGMVGFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR 3m88-a3-m1-cB_3m88-a3-m1-cA Crystal structure of the cysteine protease inhibitor, EhICP2, from Entamoeba histolytica C4M2H5 C4M2H5 1.9 X-RAY DIFFRACTION 41 0.99 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 103 110 GPHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR PHMAIHILTEKEDHATLHISFNDLIKIQLRTNPSTGYAWNIEYPTDTFSLSQDTIKAEPHPSGMVGFPSIREIQLKPLKVGTTTIKLGYSRPWEKGKEPLRSLTYSVVIR 3m8j-a1-m1-cB_3m8j-a1-m1-cA Crystal structure of E.coli FocB at 1.4 A resolution Q93K76 Q93K76 1.4 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 88 90 GGDAFLLKLRESALSSGSMSEEQFFLLIGISSIHSDRVILAMKDYLVSGHSRKDVCEKYQMNNGYFSTTLGRLTRLNVLVARLAPYYT GGDAFLLKLRESALSSGSMSEEQFFLLIGISSIHSDRVILAMKDYLVSGHSRKDVCEKYQMNNGYFSTTLGRLTRLNVLVARLAPYYTDS 3m8l-a1-m54-cB_3m8l-a1-m9-cC Crystal Structure Analysis of the Feline Calicivirus Capsid Protein A2T4Q0 A2T4Q0 3.4 X-RAY DIFFRACTION 20 1.0 11978 (Feline calicivirus) 11978 (Feline calicivirus) 530 534 3m8l-a1-m10-cA_3m8l-a1-m55-cC 3m8l-a1-m10-cB_3m8l-a1-m1-cC 3m8l-a1-m10-cB_3m8l-a1-m7-cA 3m8l-a1-m10-cC_3m8l-a1-m25-cA 3m8l-a1-m11-cA_3m8l-a1-m29-cC 3m8l-a1-m11-cB_3m8l-a1-m13-cA 3m8l-a1-m11-cB_3m8l-a1-m38-cC 3m8l-a1-m11-cC_3m8l-a1-m17-cA 3m8l-a1-m12-cA_3m8l-a1-m16-cC 3m8l-a1-m12-cB_3m8l-a1-m14-cA 3m8l-a1-m12-cB_3m8l-a1-m47-cC 3m8l-a1-m12-cC_3m8l-a1-m39-cA 3m8l-a1-m13-cA_3m8l-a1-m38-cC 3m8l-a1-m13-cB_3m8l-a1-m15-cA 3m8l-a1-m13-cB_3m8l-a1-m45-cC 3m8l-a1-m13-cC_3m8l-a1-m48-cA 3m8l-a1-m14-cA_3m8l-a1-m47-cC 3m8l-a1-m14-cB_3m8l-a1-m11-cA 3m8l-a1-m14-cB_3m8l-a1-m29-cC 3m8l-a1-m14-cC_3m8l-a1-m41-cA 3m8l-a1-m15-cA_3m8l-a1-m45-cC 3m8l-a1-m15-cB_3m8l-a1-m12-cA 3m8l-a1-m15-cB_3m8l-a1-m16-cC 3m8l-a1-m15-cC_3m8l-a1-m30-cA 3m8l-a1-m16-cA_3m8l-a1-m39-cC 3m8l-a1-m16-cB_3m8l-a1-m18-cA 3m8l-a1-m16-cB_3m8l-a1-m28-cC 3m8l-a1-m17-cB_3m8l-a1-m19-cA 3m8l-a1-m17-cB_3m8l-a1-m52-cC 3m8l-a1-m17-cC_3m8l-a1-m29-cA 3m8l-a1-m18-cA_3m8l-a1-m28-cC 3m8l-a1-m18-cB_3m8l-a1-m20-cA 3m8l-a1-m18-cB_3m8l-a1-m60-cC 3m8l-a1-m18-cC_3m8l-a1-m53-cA 3m8l-a1-m19-cA_3m8l-a1-m52-cC 3m8l-a1-m19-cB_3m8l-a1-m16-cA 3m8l-a1-m19-cB_3m8l-a1-m39-cC 3m8l-a1-m19-cC_3m8l-a1-m56-cA 3m8l-a1-m1-cA_3m8l-a1-m34-cC 3m8l-a1-m1-cB_3m8l-a1-m23-cC 3m8l-a1-m1-cB_3m8l-a1-m3-cA 3m8l-a1-m1-cC_3m8l-a1-m7-cA 3m8l-a1-m20-cA_3m8l-a1-m60-cC 3m8l-a1-m20-cB_3m8l-a1-m11-cC 3m8l-a1-m20-cB_3m8l-a1-m17-cA 3m8l-a1-m20-cC_3m8l-a1-m40-cA 3m8l-a1-m21-cA_3m8l-a1-m54-cC 3m8l-a1-m21-cB_3m8l-a1-m23-cA 3m8l-a1-m21-cB_3m8l-a1-m43-cC 3m8l-a1-m21-cC_3m8l-a1-m27-cA 3m8l-a1-m22-cA_3m8l-a1-m26-cC 3m8l-a1-m22-cB_3m8l-a1-m24-cA 3m8l-a1-m22-cB_3m8l-a1-m2-cC 3m8l-a1-m22-cC_3m8l-a1-m44-cA 3m8l-a1-m23-cA_3m8l-a1-m43-cC 3m8l-a1-m23-cB_3m8l-a1-m10-cC 3m8l-a1-m23-cB_3m8l-a1-m25-cA 3m8l-a1-m23-cC_3m8l-a1-m3-cA 3m8l-a1-m24-cB_3m8l-a1-m21-cA 3m8l-a1-m24-cB_3m8l-a1-m54-cC 3m8l-a1-m24-cC_3m8l-a1-m6-cA 3m8l-a1-m25-cB_3m8l-a1-m22-cA 3m8l-a1-m25-cB_3m8l-a1-m26-cC 3m8l-a1-m25-cC_3m8l-a1-m55-cA 3m8l-a1-m26-cA_3m8l-a1-m44-cC 3m8l-a1-m26-cB_3m8l-a1-m28-cA 3m8l-a1-m26-cB_3m8l-a1-m53-cC 3m8l-a1-m27-cB_3m8l-a1-m17-cC 3m8l-a1-m27-cB_3m8l-a1-m29-cA 3m8l-a1-m27-cC_3m8l-a1-m54-cA 3m8l-a1-m28-cA_3m8l-a1-m53-cC 3m8l-a1-m28-cB_3m8l-a1-m15-cC 3m8l-a1-m28-cB_3m8l-a1-m30-cA 3m8l-a1-m29-cB_3m8l-a1-m26-cA 3m8l-a1-m29-cB_3m8l-a1-m44-cC 3m8l-a1-m2-cA_3m8l-a1-m6-cC 3m8l-a1-m2-cB_3m8l-a1-m42-cC 3m8l-a1-m2-cB_3m8l-a1-m4-cA 3m8l-a1-m2-cC_3m8l-a1-m24-cA 3m8l-a1-m30-cB_3m8l-a1-m21-cC 3m8l-a1-m30-cB_3m8l-a1-m27-cA 3m8l-a1-m30-cC_3m8l-a1-m45-cA 3m8l-a1-m31-cA_3m8l-a1-m49-cC 3m8l-a1-m31-cB_3m8l-a1-m33-cA 3m8l-a1-m31-cB_3m8l-a1-m58-cC 3m8l-a1-m31-cC_3m8l-a1-m37-cA 3m8l-a1-m32-cA_3m8l-a1-m36-cC 3m8l-a1-m32-cB_3m8l-a1-m34-cA 3m8l-a1-m32-cB_3m8l-a1-m7-cC 3m8l-a1-m32-cC_3m8l-a1-m59-cA 3m8l-a1-m33-cA_3m8l-a1-m58-cC 3m8l-a1-m33-cB_3m8l-a1-m35-cA 3m8l-a1-m33-cB_3m8l-a1-m5-cC 3m8l-a1-m33-cC_3m8l-a1-m8-cA 3m8l-a1-m34-cA_3m8l-a1-m7-cC 3m8l-a1-m34-cB_3m8l-a1-m31-cA 3m8l-a1-m34-cB_3m8l-a1-m49-cC 3m8l-a1-m35-cA_3m8l-a1-m5-cC 3m8l-a1-m35-cB_3m8l-a1-m32-cA 3m8l-a1-m35-cB_3m8l-a1-m36-cC 3m8l-a1-m35-cC_3m8l-a1-m50-cA 3m8l-a1-m36-cA_3m8l-a1-m59-cC 3m8l-a1-m36-cB_3m8l-a1-m38-cA 3m8l-a1-m36-cB_3m8l-a1-m48-cC 3m8l-a1-m37-cB_3m8l-a1-m12-cC 3m8l-a1-m37-cB_3m8l-a1-m39-cA 3m8l-a1-m37-cC_3m8l-a1-m49-cA 3m8l-a1-m38-cA_3m8l-a1-m48-cC 3m8l-a1-m38-cB_3m8l-a1-m20-cC 3m8l-a1-m38-cB_3m8l-a1-m40-cA 3m8l-a1-m39-cB_3m8l-a1-m36-cA 3m8l-a1-m39-cB_3m8l-a1-m59-cC 3m8l-a1-m3-cB_3m8l-a1-m50-cC 3m8l-a1-m3-cB_3m8l-a1-m5-cA 3m8l-a1-m3-cC_3m8l-a1-m43-cA 3m8l-a1-m40-cB_3m8l-a1-m31-cC 3m8l-a1-m40-cB_3m8l-a1-m37-cA 3m8l-a1-m40-cC_3m8l-a1-m60-cA 3m8l-a1-m41-cB_3m8l-a1-m3-cC 3m8l-a1-m41-cB_3m8l-a1-m43-cA 3m8l-a1-m41-cC_3m8l-a1-m47-cA 3m8l-a1-m42-cA_3m8l-a1-m46-cC 3m8l-a1-m42-cB_3m8l-a1-m22-cC 3m8l-a1-m42-cB_3m8l-a1-m44-cA 3m8l-a1-m43-cB_3m8l-a1-m30-cC 3m8l-a1-m43-cB_3m8l-a1-m45-cA 3m8l-a1-m44-cB_3m8l-a1-m14-cC 3m8l-a1-m44-cB_3m8l-a1-m41-cA 3m8l-a1-m45-cB_3m8l-a1-m42-cA 3m8l-a1-m45-cB_3m8l-a1-m46-cC 3m8l-a1-m46-cB_3m8l-a1-m13-cC 3m8l-a1-m46-cB_3m8l-a1-m48-cA 3m8l-a1-m47-cB_3m8l-a1-m37-cC 3m8l-a1-m47-cB_3m8l-a1-m49-cA 3m8l-a1-m48-cB_3m8l-a1-m35-cC 3m8l-a1-m48-cB_3m8l-a1-m50-cA 3m8l-a1-m49-cB_3m8l-a1-m46-cA 3m8l-a1-m49-cB_3m8l-a1-m4-cC 3m8l-a1-m4-cA_3m8l-a1-m42-cC 3m8l-a1-m4-cB_3m8l-a1-m1-cA 3m8l-a1-m4-cB_3m8l-a1-m34-cC 3m8l-a1-m4-cC_3m8l-a1-m46-cA 3m8l-a1-m50-cB_3m8l-a1-m41-cC 3m8l-a1-m50-cB_3m8l-a1-m47-cA 3m8l-a1-m51-cA_3m8l-a1-m9-cC 3m8l-a1-m51-cB_3m8l-a1-m18-cC 3m8l-a1-m51-cB_3m8l-a1-m53-cA 3m8l-a1-m51-cC_3m8l-a1-m57-cA 3m8l-a1-m52-cA_3m8l-a1-m56-cC 3m8l-a1-m52-cB_3m8l-a1-m27-cC 3m8l-a1-m52-cB_3m8l-a1-m54-cA 3m8l-a1-m53-cB_3m8l-a1-m25-cC 3m8l-a1-m53-cB_3m8l-a1-m55-cA 3m8l-a1-m54-cB_3m8l-a1-m51-cA 3m8l-a1-m55-cB_3m8l-a1-m52-cA 3m8l-a1-m55-cB_3m8l-a1-m56-cC 3m8l-a1-m56-cB_3m8l-a1-m58-cA 3m8l-a1-m56-cB_3m8l-a1-m8-cC 3m8l-a1-m57-cB_3m8l-a1-m32-cC 3m8l-a1-m57-cB_3m8l-a1-m59-cA 3m8l-a1-m57-cC_3m8l-a1-m9-cA 3m8l-a1-m58-cA_3m8l-a1-m8-cC 3m8l-a1-m58-cB_3m8l-a1-m40-cC 3m8l-a1-m58-cB_3m8l-a1-m60-cA 3m8l-a1-m59-cB_3m8l-a1-m19-cC 3m8l-a1-m59-cB_3m8l-a1-m56-cA 3m8l-a1-m5-cA_3m8l-a1-m50-cC 3m8l-a1-m5-cB_3m8l-a1-m2-cA 3m8l-a1-m5-cB_3m8l-a1-m6-cC 3m8l-a1-m60-cB_3m8l-a1-m51-cC 3m8l-a1-m60-cB_3m8l-a1-m57-cA 3m8l-a1-m6-cB_3m8l-a1-m33-cC 3m8l-a1-m6-cB_3m8l-a1-m8-cA 3m8l-a1-m7-cB_3m8l-a1-m57-cC 3m8l-a1-m7-cB_3m8l-a1-m9-cA 3m8l-a1-m8-cB_3m8l-a1-m10-cA 3m8l-a1-m8-cB_3m8l-a1-m55-cC 3m8l-a1-m9-cB_3m8l-a1-m24-cC 3m8l-a1-m9-cB_3m8l-a1-m6-cA PEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR SITTPEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR 3m8l-a1-m8-cB_3m8l-a1-m9-cC Crystal Structure Analysis of the Feline Calicivirus Capsid Protein A2T4Q0 A2T4Q0 3.4 X-RAY DIFFRACTION 71 1.0 11978 (Feline calicivirus) 11978 (Feline calicivirus) 530 534 3m8l-a1-m10-cA_3m8l-a1-m6-cA 3m8l-a1-m10-cA_3m8l-a1-m9-cA 3m8l-a1-m10-cB_3m8l-a1-m24-cC 3m8l-a1-m10-cB_3m8l-a1-m6-cC 3m8l-a1-m11-cA_3m8l-a1-m12-cA 3m8l-a1-m11-cA_3m8l-a1-m15-cA 3m8l-a1-m11-cB_3m8l-a1-m12-cC 3m8l-a1-m11-cB_3m8l-a1-m16-cC 3m8l-a1-m12-cA_3m8l-a1-m13-cA 3m8l-a1-m12-cB_3m8l-a1-m13-cC 3m8l-a1-m12-cB_3m8l-a1-m38-cC 3m8l-a1-m13-cA_3m8l-a1-m14-cA 3m8l-a1-m13-cB_3m8l-a1-m14-cC 3m8l-a1-m13-cB_3m8l-a1-m47-cC 3m8l-a1-m14-cA_3m8l-a1-m15-cA 3m8l-a1-m14-cB_3m8l-a1-m15-cC 3m8l-a1-m14-cB_3m8l-a1-m45-cC 3m8l-a1-m15-cB_3m8l-a1-m11-cC 3m8l-a1-m15-cB_3m8l-a1-m29-cC 3m8l-a1-m16-cA_3m8l-a1-m17-cA 3m8l-a1-m16-cA_3m8l-a1-m20-cA 3m8l-a1-m16-cB_3m8l-a1-m11-cC 3m8l-a1-m16-cB_3m8l-a1-m17-cC 3m8l-a1-m17-cA_3m8l-a1-m18-cA 3m8l-a1-m17-cB_3m8l-a1-m18-cC 3m8l-a1-m17-cB_3m8l-a1-m28-cC 3m8l-a1-m18-cA_3m8l-a1-m19-cA 3m8l-a1-m18-cB_3m8l-a1-m19-cC 3m8l-a1-m18-cB_3m8l-a1-m52-cC 3m8l-a1-m19-cA_3m8l-a1-m20-cA 3m8l-a1-m19-cB_3m8l-a1-m20-cC 3m8l-a1-m19-cB_3m8l-a1-m60-cC 3m8l-a1-m1-cA_3m8l-a1-m2-cA 3m8l-a1-m1-cA_3m8l-a1-m5-cA 3m8l-a1-m1-cB_3m8l-a1-m2-cC 3m8l-a1-m1-cB_3m8l-a1-m6-cC 3m8l-a1-m20-cB_3m8l-a1-m16-cC 3m8l-a1-m20-cB_3m8l-a1-m39-cC 3m8l-a1-m21-cA_3m8l-a1-m22-cA 3m8l-a1-m21-cA_3m8l-a1-m25-cA 3m8l-a1-m21-cB_3m8l-a1-m22-cC 3m8l-a1-m21-cB_3m8l-a1-m26-cC 3m8l-a1-m22-cA_3m8l-a1-m23-cA 3m8l-a1-m22-cB_3m8l-a1-m23-cC 3m8l-a1-m22-cB_3m8l-a1-m43-cC 3m8l-a1-m23-cA_3m8l-a1-m24-cA 3m8l-a1-m23-cB_3m8l-a1-m24-cC 3m8l-a1-m23-cB_3m8l-a1-m2-cC 3m8l-a1-m24-cA_3m8l-a1-m25-cA 3m8l-a1-m24-cB_3m8l-a1-m10-cC 3m8l-a1-m24-cB_3m8l-a1-m25-cC 3m8l-a1-m25-cB_3m8l-a1-m21-cC 3m8l-a1-m25-cB_3m8l-a1-m54-cC 3m8l-a1-m26-cA_3m8l-a1-m27-cA 3m8l-a1-m26-cA_3m8l-a1-m30-cA 3m8l-a1-m26-cB_3m8l-a1-m21-cC 3m8l-a1-m26-cB_3m8l-a1-m27-cC 3m8l-a1-m27-cA_3m8l-a1-m28-cA 3m8l-a1-m27-cB_3m8l-a1-m28-cC 3m8l-a1-m27-cB_3m8l-a1-m53-cC 3m8l-a1-m28-cA_3m8l-a1-m29-cA 3m8l-a1-m28-cB_3m8l-a1-m17-cC 3m8l-a1-m28-cB_3m8l-a1-m29-cC 3m8l-a1-m29-cA_3m8l-a1-m30-cA 3m8l-a1-m29-cB_3m8l-a1-m15-cC 3m8l-a1-m29-cB_3m8l-a1-m30-cC 3m8l-a1-m2-cA_3m8l-a1-m3-cA 3m8l-a1-m2-cB_3m8l-a1-m23-cC 3m8l-a1-m2-cB_3m8l-a1-m3-cC 3m8l-a1-m30-cB_3m8l-a1-m26-cC 3m8l-a1-m30-cB_3m8l-a1-m44-cC 3m8l-a1-m31-cA_3m8l-a1-m32-cA 3m8l-a1-m31-cA_3m8l-a1-m35-cA 3m8l-a1-m31-cB_3m8l-a1-m32-cC 3m8l-a1-m31-cB_3m8l-a1-m36-cC 3m8l-a1-m32-cA_3m8l-a1-m33-cA 3m8l-a1-m32-cB_3m8l-a1-m33-cC 3m8l-a1-m32-cB_3m8l-a1-m58-cC 3m8l-a1-m33-cA_3m8l-a1-m34-cA 3m8l-a1-m33-cB_3m8l-a1-m34-cC 3m8l-a1-m33-cB_3m8l-a1-m7-cC 3m8l-a1-m34-cA_3m8l-a1-m35-cA 3m8l-a1-m34-cB_3m8l-a1-m35-cC 3m8l-a1-m34-cB_3m8l-a1-m5-cC 3m8l-a1-m35-cB_3m8l-a1-m31-cC 3m8l-a1-m35-cB_3m8l-a1-m49-cC 3m8l-a1-m36-cA_3m8l-a1-m37-cA 3m8l-a1-m36-cA_3m8l-a1-m40-cA 3m8l-a1-m36-cB_3m8l-a1-m31-cC 3m8l-a1-m36-cB_3m8l-a1-m37-cC 3m8l-a1-m37-cA_3m8l-a1-m38-cA 3m8l-a1-m37-cB_3m8l-a1-m38-cC 3m8l-a1-m37-cB_3m8l-a1-m48-cC 3m8l-a1-m38-cA_3m8l-a1-m39-cA 3m8l-a1-m38-cB_3m8l-a1-m12-cC 3m8l-a1-m38-cB_3m8l-a1-m39-cC 3m8l-a1-m39-cA_3m8l-a1-m40-cA 3m8l-a1-m39-cB_3m8l-a1-m20-cC 3m8l-a1-m39-cB_3m8l-a1-m40-cC 3m8l-a1-m3-cA_3m8l-a1-m4-cA 3m8l-a1-m3-cB_3m8l-a1-m42-cC 3m8l-a1-m3-cB_3m8l-a1-m4-cC 3m8l-a1-m40-cB_3m8l-a1-m36-cC 3m8l-a1-m40-cB_3m8l-a1-m59-cC 3m8l-a1-m41-cA_3m8l-a1-m42-cA 3m8l-a1-m41-cA_3m8l-a1-m45-cA 3m8l-a1-m41-cB_3m8l-a1-m42-cC 3m8l-a1-m41-cB_3m8l-a1-m46-cC 3m8l-a1-m42-cA_3m8l-a1-m43-cA 3m8l-a1-m42-cB_3m8l-a1-m3-cC 3m8l-a1-m42-cB_3m8l-a1-m43-cC 3m8l-a1-m43-cA_3m8l-a1-m44-cA 3m8l-a1-m43-cB_3m8l-a1-m22-cC 3m8l-a1-m43-cB_3m8l-a1-m44-cC 3m8l-a1-m44-cA_3m8l-a1-m45-cA 3m8l-a1-m44-cB_3m8l-a1-m30-cC 3m8l-a1-m44-cB_3m8l-a1-m45-cC 3m8l-a1-m45-cB_3m8l-a1-m14-cC 3m8l-a1-m45-cB_3m8l-a1-m41-cC 3m8l-a1-m46-cA_3m8l-a1-m47-cA 3m8l-a1-m46-cA_3m8l-a1-m50-cA 3m8l-a1-m46-cB_3m8l-a1-m41-cC 3m8l-a1-m46-cB_3m8l-a1-m47-cC 3m8l-a1-m47-cA_3m8l-a1-m48-cA 3m8l-a1-m47-cB_3m8l-a1-m13-cC 3m8l-a1-m47-cB_3m8l-a1-m48-cC 3m8l-a1-m48-cA_3m8l-a1-m49-cA 3m8l-a1-m48-cB_3m8l-a1-m37-cC 3m8l-a1-m48-cB_3m8l-a1-m49-cC 3m8l-a1-m49-cA_3m8l-a1-m50-cA 3m8l-a1-m49-cB_3m8l-a1-m35-cC 3m8l-a1-m49-cB_3m8l-a1-m50-cC 3m8l-a1-m4-cA_3m8l-a1-m5-cA 3m8l-a1-m4-cB_3m8l-a1-m50-cC 3m8l-a1-m4-cB_3m8l-a1-m5-cC 3m8l-a1-m50-cB_3m8l-a1-m46-cC 3m8l-a1-m50-cB_3m8l-a1-m4-cC 3m8l-a1-m51-cA_3m8l-a1-m52-cA 3m8l-a1-m51-cA_3m8l-a1-m55-cA 3m8l-a1-m51-cB_3m8l-a1-m52-cC 3m8l-a1-m51-cB_3m8l-a1-m56-cC 3m8l-a1-m52-cA_3m8l-a1-m53-cA 3m8l-a1-m52-cB_3m8l-a1-m18-cC 3m8l-a1-m52-cB_3m8l-a1-m53-cC 3m8l-a1-m53-cA_3m8l-a1-m54-cA 3m8l-a1-m53-cB_3m8l-a1-m27-cC 3m8l-a1-m53-cB_3m8l-a1-m54-cC 3m8l-a1-m54-cA_3m8l-a1-m55-cA 3m8l-a1-m54-cB_3m8l-a1-m25-cC 3m8l-a1-m54-cB_3m8l-a1-m55-cC 3m8l-a1-m55-cB_3m8l-a1-m51-cC 3m8l-a1-m55-cB_3m8l-a1-m9-cC 3m8l-a1-m56-cA_3m8l-a1-m57-cA 3m8l-a1-m56-cA_3m8l-a1-m60-cA 3m8l-a1-m56-cB_3m8l-a1-m51-cC 3m8l-a1-m56-cB_3m8l-a1-m57-cC 3m8l-a1-m57-cA_3m8l-a1-m58-cA 3m8l-a1-m57-cB_3m8l-a1-m58-cC 3m8l-a1-m57-cB_3m8l-a1-m8-cC 3m8l-a1-m58-cA_3m8l-a1-m59-cA 3m8l-a1-m58-cB_3m8l-a1-m32-cC 3m8l-a1-m58-cB_3m8l-a1-m59-cC 3m8l-a1-m59-cA_3m8l-a1-m60-cA 3m8l-a1-m59-cB_3m8l-a1-m40-cC 3m8l-a1-m59-cB_3m8l-a1-m60-cC 3m8l-a1-m5-cB_3m8l-a1-m1-cC 3m8l-a1-m5-cB_3m8l-a1-m34-cC 3m8l-a1-m60-cB_3m8l-a1-m19-cC 3m8l-a1-m60-cB_3m8l-a1-m56-cC 3m8l-a1-m6-cA_3m8l-a1-m7-cA 3m8l-a1-m6-cB_3m8l-a1-m1-cC 3m8l-a1-m6-cB_3m8l-a1-m7-cC 3m8l-a1-m7-cA_3m8l-a1-m8-cA 3m8l-a1-m7-cB_3m8l-a1-m33-cC 3m8l-a1-m7-cB_3m8l-a1-m8-cC 3m8l-a1-m8-cA_3m8l-a1-m9-cA 3m8l-a1-m8-cB_3m8l-a1-m57-cC 3m8l-a1-m9-cB_3m8l-a1-m10-cC 3m8l-a1-m9-cB_3m8l-a1-m55-cC PEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR SITTPEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR 3m8l-a1-m9-cB_3m8l-a1-m10-cA Crystal Structure Analysis of the Feline Calicivirus Capsid Protein A2T4Q0 A2T4Q0 3.4 X-RAY DIFFRACTION 269 1.0 11978 (Feline calicivirus) 11978 (Feline calicivirus) 530 534 3m8l-a1-m10-cB_3m8l-a1-m6-cA 3m8l-a1-m10-cC_3m8l-a1-m24-cC 3m8l-a1-m11-cB_3m8l-a1-m12-cA 3m8l-a1-m11-cC_3m8l-a1-m16-cC 3m8l-a1-m12-cB_3m8l-a1-m13-cA 3m8l-a1-m12-cC_3m8l-a1-m38-cC 3m8l-a1-m13-cB_3m8l-a1-m14-cA 3m8l-a1-m13-cC_3m8l-a1-m47-cC 3m8l-a1-m14-cB_3m8l-a1-m15-cA 3m8l-a1-m14-cC_3m8l-a1-m45-cC 3m8l-a1-m15-cB_3m8l-a1-m11-cA 3m8l-a1-m15-cC_3m8l-a1-m29-cC 3m8l-a1-m16-cB_3m8l-a1-m17-cA 3m8l-a1-m17-cB_3m8l-a1-m18-cA 3m8l-a1-m17-cC_3m8l-a1-m28-cC 3m8l-a1-m18-cB_3m8l-a1-m19-cA 3m8l-a1-m18-cC_3m8l-a1-m52-cC 3m8l-a1-m19-cB_3m8l-a1-m20-cA 3m8l-a1-m19-cC_3m8l-a1-m60-cC 3m8l-a1-m1-cB_3m8l-a1-m2-cA 3m8l-a1-m1-cC_3m8l-a1-m6-cC 3m8l-a1-m20-cB_3m8l-a1-m16-cA 3m8l-a1-m20-cC_3m8l-a1-m39-cC 3m8l-a1-m21-cB_3m8l-a1-m22-cA 3m8l-a1-m21-cC_3m8l-a1-m26-cC 3m8l-a1-m22-cB_3m8l-a1-m23-cA 3m8l-a1-m22-cC_3m8l-a1-m43-cC 3m8l-a1-m23-cB_3m8l-a1-m24-cA 3m8l-a1-m24-cB_3m8l-a1-m25-cA 3m8l-a1-m25-cB_3m8l-a1-m21-cA 3m8l-a1-m25-cC_3m8l-a1-m54-cC 3m8l-a1-m26-cB_3m8l-a1-m27-cA 3m8l-a1-m27-cB_3m8l-a1-m28-cA 3m8l-a1-m27-cC_3m8l-a1-m53-cC 3m8l-a1-m28-cB_3m8l-a1-m29-cA 3m8l-a1-m29-cB_3m8l-a1-m30-cA 3m8l-a1-m2-cB_3m8l-a1-m3-cA 3m8l-a1-m2-cC_3m8l-a1-m23-cC 3m8l-a1-m30-cB_3m8l-a1-m26-cA 3m8l-a1-m30-cC_3m8l-a1-m44-cC 3m8l-a1-m31-cB_3m8l-a1-m32-cA 3m8l-a1-m31-cC_3m8l-a1-m36-cC 3m8l-a1-m32-cB_3m8l-a1-m33-cA 3m8l-a1-m32-cC_3m8l-a1-m58-cC 3m8l-a1-m33-cB_3m8l-a1-m34-cA 3m8l-a1-m33-cC_3m8l-a1-m7-cC 3m8l-a1-m34-cB_3m8l-a1-m35-cA 3m8l-a1-m34-cC_3m8l-a1-m5-cC 3m8l-a1-m35-cB_3m8l-a1-m31-cA 3m8l-a1-m35-cC_3m8l-a1-m49-cC 3m8l-a1-m36-cB_3m8l-a1-m37-cA 3m8l-a1-m37-cB_3m8l-a1-m38-cA 3m8l-a1-m37-cC_3m8l-a1-m48-cC 3m8l-a1-m38-cB_3m8l-a1-m39-cA 3m8l-a1-m39-cB_3m8l-a1-m40-cA 3m8l-a1-m3-cB_3m8l-a1-m4-cA 3m8l-a1-m3-cC_3m8l-a1-m42-cC 3m8l-a1-m40-cB_3m8l-a1-m36-cA 3m8l-a1-m40-cC_3m8l-a1-m59-cC 3m8l-a1-m41-cB_3m8l-a1-m42-cA 3m8l-a1-m41-cC_3m8l-a1-m46-cC 3m8l-a1-m42-cB_3m8l-a1-m43-cA 3m8l-a1-m43-cB_3m8l-a1-m44-cA 3m8l-a1-m44-cB_3m8l-a1-m45-cA 3m8l-a1-m45-cB_3m8l-a1-m41-cA 3m8l-a1-m46-cB_3m8l-a1-m47-cA 3m8l-a1-m47-cB_3m8l-a1-m48-cA 3m8l-a1-m48-cB_3m8l-a1-m49-cA 3m8l-a1-m49-cB_3m8l-a1-m50-cA 3m8l-a1-m4-cB_3m8l-a1-m5-cA 3m8l-a1-m4-cC_3m8l-a1-m50-cC 3m8l-a1-m50-cB_3m8l-a1-m46-cA 3m8l-a1-m51-cB_3m8l-a1-m52-cA 3m8l-a1-m51-cC_3m8l-a1-m56-cC 3m8l-a1-m52-cB_3m8l-a1-m53-cA 3m8l-a1-m53-cB_3m8l-a1-m54-cA 3m8l-a1-m54-cB_3m8l-a1-m55-cA 3m8l-a1-m55-cB_3m8l-a1-m51-cA 3m8l-a1-m55-cC_3m8l-a1-m9-cC 3m8l-a1-m56-cB_3m8l-a1-m57-cA 3m8l-a1-m57-cB_3m8l-a1-m58-cA 3m8l-a1-m57-cC_3m8l-a1-m8-cC 3m8l-a1-m58-cB_3m8l-a1-m59-cA 3m8l-a1-m59-cB_3m8l-a1-m60-cA 3m8l-a1-m5-cB_3m8l-a1-m1-cA 3m8l-a1-m60-cB_3m8l-a1-m56-cA 3m8l-a1-m6-cB_3m8l-a1-m7-cA 3m8l-a1-m7-cB_3m8l-a1-m8-cA 3m8l-a1-m8-cB_3m8l-a1-m9-cA PEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR SITTPEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR 3m8l-a1-m9-cB_3m8l-a1-m9-cC Crystal Structure Analysis of the Feline Calicivirus Capsid Protein A2T4Q0 A2T4Q0 3.4 X-RAY DIFFRACTION 81 1.0 11978 (Feline calicivirus) 11978 (Feline calicivirus) 530 534 3m8l-a1-m10-cA_3m8l-a1-m10-cC 3m8l-a1-m10-cB_3m8l-a1-m10-cA 3m8l-a1-m10-cB_3m8l-a1-m10-cC 3m8l-a1-m11-cA_3m8l-a1-m11-cC 3m8l-a1-m11-cB_3m8l-a1-m11-cA 3m8l-a1-m11-cB_3m8l-a1-m11-cC 3m8l-a1-m12-cA_3m8l-a1-m12-cC 3m8l-a1-m12-cB_3m8l-a1-m12-cA 3m8l-a1-m12-cB_3m8l-a1-m12-cC 3m8l-a1-m13-cA_3m8l-a1-m13-cC 3m8l-a1-m13-cB_3m8l-a1-m13-cA 3m8l-a1-m13-cB_3m8l-a1-m13-cC 3m8l-a1-m14-cA_3m8l-a1-m14-cC 3m8l-a1-m14-cB_3m8l-a1-m14-cA 3m8l-a1-m14-cB_3m8l-a1-m14-cC 3m8l-a1-m15-cA_3m8l-a1-m15-cC 3m8l-a1-m15-cB_3m8l-a1-m15-cA 3m8l-a1-m15-cB_3m8l-a1-m15-cC 3m8l-a1-m16-cA_3m8l-a1-m16-cC 3m8l-a1-m16-cB_3m8l-a1-m16-cA 3m8l-a1-m16-cB_3m8l-a1-m16-cC 3m8l-a1-m17-cA_3m8l-a1-m17-cC 3m8l-a1-m17-cB_3m8l-a1-m17-cA 3m8l-a1-m17-cB_3m8l-a1-m17-cC 3m8l-a1-m18-cA_3m8l-a1-m18-cC 3m8l-a1-m18-cB_3m8l-a1-m18-cA 3m8l-a1-m18-cB_3m8l-a1-m18-cC 3m8l-a1-m19-cA_3m8l-a1-m19-cC 3m8l-a1-m19-cB_3m8l-a1-m19-cA 3m8l-a1-m19-cB_3m8l-a1-m19-cC 3m8l-a1-m1-cA_3m8l-a1-m1-cC 3m8l-a1-m1-cB_3m8l-a1-m1-cA 3m8l-a1-m1-cB_3m8l-a1-m1-cC 3m8l-a1-m20-cA_3m8l-a1-m20-cC 3m8l-a1-m20-cB_3m8l-a1-m20-cA 3m8l-a1-m20-cB_3m8l-a1-m20-cC 3m8l-a1-m21-cA_3m8l-a1-m21-cC 3m8l-a1-m21-cB_3m8l-a1-m21-cA 3m8l-a1-m21-cB_3m8l-a1-m21-cC 3m8l-a1-m22-cA_3m8l-a1-m22-cC 3m8l-a1-m22-cB_3m8l-a1-m22-cA 3m8l-a1-m22-cB_3m8l-a1-m22-cC 3m8l-a1-m23-cA_3m8l-a1-m23-cC 3m8l-a1-m23-cB_3m8l-a1-m23-cA 3m8l-a1-m23-cB_3m8l-a1-m23-cC 3m8l-a1-m24-cA_3m8l-a1-m24-cC 3m8l-a1-m24-cB_3m8l-a1-m24-cA 3m8l-a1-m24-cB_3m8l-a1-m24-cC 3m8l-a1-m25-cA_3m8l-a1-m25-cC 3m8l-a1-m25-cB_3m8l-a1-m25-cA 3m8l-a1-m25-cB_3m8l-a1-m25-cC 3m8l-a1-m26-cA_3m8l-a1-m26-cC 3m8l-a1-m26-cB_3m8l-a1-m26-cA 3m8l-a1-m26-cB_3m8l-a1-m26-cC 3m8l-a1-m27-cA_3m8l-a1-m27-cC 3m8l-a1-m27-cB_3m8l-a1-m27-cA 3m8l-a1-m27-cB_3m8l-a1-m27-cC 3m8l-a1-m28-cA_3m8l-a1-m28-cC 3m8l-a1-m28-cB_3m8l-a1-m28-cA 3m8l-a1-m28-cB_3m8l-a1-m28-cC 3m8l-a1-m29-cA_3m8l-a1-m29-cC 3m8l-a1-m29-cB_3m8l-a1-m29-cA 3m8l-a1-m29-cB_3m8l-a1-m29-cC 3m8l-a1-m2-cA_3m8l-a1-m2-cC 3m8l-a1-m2-cB_3m8l-a1-m2-cA 3m8l-a1-m2-cB_3m8l-a1-m2-cC 3m8l-a1-m30-cA_3m8l-a1-m30-cC 3m8l-a1-m30-cB_3m8l-a1-m30-cA 3m8l-a1-m30-cB_3m8l-a1-m30-cC 3m8l-a1-m31-cA_3m8l-a1-m31-cC 3m8l-a1-m31-cB_3m8l-a1-m31-cA 3m8l-a1-m31-cB_3m8l-a1-m31-cC 3m8l-a1-m32-cA_3m8l-a1-m32-cC 3m8l-a1-m32-cB_3m8l-a1-m32-cA 3m8l-a1-m32-cB_3m8l-a1-m32-cC 3m8l-a1-m33-cA_3m8l-a1-m33-cC 3m8l-a1-m33-cB_3m8l-a1-m33-cA 3m8l-a1-m33-cB_3m8l-a1-m33-cC 3m8l-a1-m34-cA_3m8l-a1-m34-cC 3m8l-a1-m34-cB_3m8l-a1-m34-cA 3m8l-a1-m34-cB_3m8l-a1-m34-cC 3m8l-a1-m35-cA_3m8l-a1-m35-cC 3m8l-a1-m35-cB_3m8l-a1-m35-cA 3m8l-a1-m35-cB_3m8l-a1-m35-cC 3m8l-a1-m36-cA_3m8l-a1-m36-cC 3m8l-a1-m36-cB_3m8l-a1-m36-cA 3m8l-a1-m36-cB_3m8l-a1-m36-cC 3m8l-a1-m37-cA_3m8l-a1-m37-cC 3m8l-a1-m37-cB_3m8l-a1-m37-cA 3m8l-a1-m37-cB_3m8l-a1-m37-cC 3m8l-a1-m38-cA_3m8l-a1-m38-cC 3m8l-a1-m38-cB_3m8l-a1-m38-cA 3m8l-a1-m38-cB_3m8l-a1-m38-cC 3m8l-a1-m39-cA_3m8l-a1-m39-cC 3m8l-a1-m39-cB_3m8l-a1-m39-cA 3m8l-a1-m39-cB_3m8l-a1-m39-cC 3m8l-a1-m3-cA_3m8l-a1-m3-cC 3m8l-a1-m3-cB_3m8l-a1-m3-cA 3m8l-a1-m3-cB_3m8l-a1-m3-cC 3m8l-a1-m40-cA_3m8l-a1-m40-cC 3m8l-a1-m40-cB_3m8l-a1-m40-cA 3m8l-a1-m40-cB_3m8l-a1-m40-cC 3m8l-a1-m41-cA_3m8l-a1-m41-cC 3m8l-a1-m41-cB_3m8l-a1-m41-cA 3m8l-a1-m41-cB_3m8l-a1-m41-cC 3m8l-a1-m42-cA_3m8l-a1-m42-cC 3m8l-a1-m42-cB_3m8l-a1-m42-cA 3m8l-a1-m42-cB_3m8l-a1-m42-cC 3m8l-a1-m43-cA_3m8l-a1-m43-cC 3m8l-a1-m43-cB_3m8l-a1-m43-cA 3m8l-a1-m43-cB_3m8l-a1-m43-cC 3m8l-a1-m44-cA_3m8l-a1-m44-cC 3m8l-a1-m44-cB_3m8l-a1-m44-cA 3m8l-a1-m44-cB_3m8l-a1-m44-cC 3m8l-a1-m45-cA_3m8l-a1-m45-cC 3m8l-a1-m45-cB_3m8l-a1-m45-cA 3m8l-a1-m45-cB_3m8l-a1-m45-cC 3m8l-a1-m46-cA_3m8l-a1-m46-cC 3m8l-a1-m46-cB_3m8l-a1-m46-cA 3m8l-a1-m46-cB_3m8l-a1-m46-cC 3m8l-a1-m47-cA_3m8l-a1-m47-cC 3m8l-a1-m47-cB_3m8l-a1-m47-cA 3m8l-a1-m47-cB_3m8l-a1-m47-cC 3m8l-a1-m48-cA_3m8l-a1-m48-cC 3m8l-a1-m48-cB_3m8l-a1-m48-cA 3m8l-a1-m48-cB_3m8l-a1-m48-cC 3m8l-a1-m49-cA_3m8l-a1-m49-cC 3m8l-a1-m49-cB_3m8l-a1-m49-cA 3m8l-a1-m49-cB_3m8l-a1-m49-cC 3m8l-a1-m4-cA_3m8l-a1-m4-cC 3m8l-a1-m4-cB_3m8l-a1-m4-cA 3m8l-a1-m4-cB_3m8l-a1-m4-cC 3m8l-a1-m50-cA_3m8l-a1-m50-cC 3m8l-a1-m50-cB_3m8l-a1-m50-cA 3m8l-a1-m50-cB_3m8l-a1-m50-cC 3m8l-a1-m51-cA_3m8l-a1-m51-cC 3m8l-a1-m51-cB_3m8l-a1-m51-cA 3m8l-a1-m51-cB_3m8l-a1-m51-cC 3m8l-a1-m52-cA_3m8l-a1-m52-cC 3m8l-a1-m52-cB_3m8l-a1-m52-cA 3m8l-a1-m52-cB_3m8l-a1-m52-cC 3m8l-a1-m53-cA_3m8l-a1-m53-cC 3m8l-a1-m53-cB_3m8l-a1-m53-cA 3m8l-a1-m53-cB_3m8l-a1-m53-cC 3m8l-a1-m54-cA_3m8l-a1-m54-cC 3m8l-a1-m54-cB_3m8l-a1-m54-cA 3m8l-a1-m54-cB_3m8l-a1-m54-cC 3m8l-a1-m55-cA_3m8l-a1-m55-cC 3m8l-a1-m55-cB_3m8l-a1-m55-cA 3m8l-a1-m55-cB_3m8l-a1-m55-cC 3m8l-a1-m56-cA_3m8l-a1-m56-cC 3m8l-a1-m56-cB_3m8l-a1-m56-cA 3m8l-a1-m56-cB_3m8l-a1-m56-cC 3m8l-a1-m57-cA_3m8l-a1-m57-cC 3m8l-a1-m57-cB_3m8l-a1-m57-cA 3m8l-a1-m57-cB_3m8l-a1-m57-cC 3m8l-a1-m58-cA_3m8l-a1-m58-cC 3m8l-a1-m58-cB_3m8l-a1-m58-cA 3m8l-a1-m58-cB_3m8l-a1-m58-cC 3m8l-a1-m59-cA_3m8l-a1-m59-cC 3m8l-a1-m59-cB_3m8l-a1-m59-cA 3m8l-a1-m59-cB_3m8l-a1-m59-cC 3m8l-a1-m5-cA_3m8l-a1-m5-cC 3m8l-a1-m5-cB_3m8l-a1-m5-cA 3m8l-a1-m5-cB_3m8l-a1-m5-cC 3m8l-a1-m60-cA_3m8l-a1-m60-cC 3m8l-a1-m60-cB_3m8l-a1-m60-cA 3m8l-a1-m60-cB_3m8l-a1-m60-cC 3m8l-a1-m6-cA_3m8l-a1-m6-cC 3m8l-a1-m6-cB_3m8l-a1-m6-cA 3m8l-a1-m6-cB_3m8l-a1-m6-cC 3m8l-a1-m7-cA_3m8l-a1-m7-cC 3m8l-a1-m7-cB_3m8l-a1-m7-cA 3m8l-a1-m7-cB_3m8l-a1-m7-cC 3m8l-a1-m8-cA_3m8l-a1-m8-cC 3m8l-a1-m8-cB_3m8l-a1-m8-cA 3m8l-a1-m8-cB_3m8l-a1-m8-cC 3m8l-a1-m9-cA_3m8l-a1-m9-cC 3m8l-a1-m9-cB_3m8l-a1-m9-cA PEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR SITTPEQGTTVGGVIAEPSVQMSAAADMATGKSVDSEWEAFFSFHTSVNWSTSETQGKILFKQSLGPLLNPYLTHLAKLYVAWSGSIEVRFSISGSGVFGGKLAAIVVPPGIEPIQSTSMLQYPHVLFDARQVEPVIFTIPDLRSTLYHLMSDTDTTSLVIMIYNDLINPYANDSNSSGCIVTVETKPGPDFKFHLLKPPGSMLTHGSVPCDLIPKSSSLWIGNRFWSDITDFVIRPFVFQANRHFDFNQETAGWSTPRFRPITVTISQKEGEMLGIGVATDYIVPGIPDGWPDTTIPNELIPAGDYAITNQSGNDIQTKEEYESAMIISNNTNFKSMYICGSLQRAWGNKKVSNTAFITTATVKENKLIPSNTIDQTKIAIFQDNHVNRDVQTSDDTLALLGYTGIGEEAIGADREKVVRIGVLPEAGARGGNHPIFYRNSMKLGYVIKSIDVFNSQILHTSRQLSLNNYLLSPDSFAVYRIIDSNGSWFDIGIDSDGFSFVGVSSIGKLEFPLTASYMGNQLAKIRLASNIR 3m8n-a2-m1-cC_3m8n-a2-m1-cD Crystal structure of a possible gutathione S-tranferase from Rhodopseudomonas palustris Q6N1S2 Q6N1S2 2.04 X-RAY DIFFRACTION 71 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 188 217 3m8n-a1-m1-cB_3m8n-a1-m1-cA SLYKLYSQRSGNSYKVRLALALLDAPYRAVEVDILRGESRTPDFLAKNPSGQVPLLETAPGRYLAESNAILWYLAVGTSLAPDTRDRAEALQWFFEQHALEPNIGSAYFWLCLLEDWLERGYAALQVENHLKTNDYFAAGQLTIADIALYGYTHVADQCDFDLSTFPAVNAWLRRVEQTPGFITDWTP SLYKLYSQRSGNSYKVRLALALLDAPYRAVEVDILRGESRTPDFLAKNPSGQVPLLETAPGRYLAESNAILWYLAVGTSLAPDTRDRAEALQWFFEQHALEPNIGSAYFWLCLVKGGRDLQTHALEDWLERGYAALQVENHLKTNDYFAAGQLTIADIALYGYTHVADQCDFDLSTFPAVNAWLRRVEQTPGFITDWTPIAADPTSFAAEGHHHHHH 3m92-a1-m1-cA_3m92-a1-m1-cB The structure of yciN, an unchracterized protein from Shigella flexneri. P0AB64 P0AB64 2.05 X-RAY DIFFRACTION 113 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 79 80 KETQPIDRETLLKEANKIIREHEDTLAGIEATGVTQRNGVLVFTGDYFLDEQGLPTAKSTAVFNFKHLAHVLSEKYHLV NKETQPIDRETLLKEANKIIREHEDTLAGIEATGVTQRNGVLVFTGDYFLDEQGLPTAKSTAVFNFKHLAHVLSEKYHLV 3m9a-a1-m1-cA_3m9a-a1-m2-cA Protein structure of type III plasmid segregation TubR Q8KNP2 Q8KNP2 2.5 X-RAY DIFFRACTION 93 1.0 1430 (Bacillus thuringiensis serovar israelensis) 1430 (Bacillus thuringiensis serovar israelensis) 93 93 3m8e-a1-m1-cB_3m8e-a1-m1-cA 3m8f-a1-m1-cA_3m8f-a1-m1-cB 4aso-a1-m1-cA_4aso-a1-m1-cB 4aso-a2-m1-cC_4aso-a2-m1-cD 4aso-a3-m1-cE_4aso-a3-m1-cF 4aso-a4-m1-cG_4aso-a4-m1-cH 4aso-a5-m1-cI_4aso-a5-m1-cJ 4aso-a6-m1-cK_4aso-a6-m1-cL 4aso-a7-m1-cM_4aso-a7-m1-cN 4aso-a8-m1-cO_4aso-a8-m1-cP 4ass-a1-m1-cA_4ass-a1-m1-cB 4ass-a1-m1-cC_4ass-a1-m1-cD 4ass-a1-m1-cE_4ass-a1-m1-cF 4ass-a1-m1-cG_4ass-a1-m1-cH FYTLNIAEIAERIGNDDCAYQVLMAFINENGEAQMLNKTAVAEMIQLSKPTVFATVNSFYCAGYIDETRVGRSKIYTLSDLGVEIVECFKQKA FYTLNIAEIAERIGNDDCAYQVLMAFINENGEAQMLNKTAVAEMIQLSKPTVFATVNSFYCAGYIDETRVGRSKIYTLSDLGVEIVECFKQKA 3m9b-a2-m1-cI_3m9b-a2-m1-cL Crystal structure of the amino terminal coiled coil domain and the inter domain of the Mycobacterium tuberculosis proteasomal ATPase Mpa P9WQN5 P9WQN5 3.94 X-RAY DIFFRACTION 65 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 186 186 3m9b-a1-m1-cA_3m9b-a1-m1-cD 3m9b-a1-m1-cB_3m9b-a1-m1-cE 3m9b-a1-m1-cC_3m9b-a1-m1-cF 3m9b-a2-m1-cG_3m9b-a2-m1-cJ 3m9b-a2-m1-cH_3m9b-a2-m1-cK 3m9d-a1-m1-cA_3m9d-a1-m1-cD 3m9d-a1-m1-cB_3m9d-a1-m1-cE 3m9d-a1-m1-cC_3m9d-a1-m1-cF 3m9d-a2-m1-cJ_3m9d-a2-m1-cM 3m9d-a2-m1-cK_3m9d-a2-m1-cN 3m9d-a2-m1-cL_3m9d-a2-m1-cO SARDIHQLEARIDSLAARNSKLMETLKEARQQLLALREEVDRLGQPPSGYGVLLATHDDDTVDVFTSGRKMRLTCSPNIDAASLKKGQTVRLNEALTVVEAGTFEAVGEISTLREILADGHRALVVGHADEERVVWLADPLIAEDLPDGLPEALNDDTRPRKLRPGDSLLVDTKAGYAFERIPLVP SARDIHQLEARIDSLAARNSKLMETLKEARQQLLALREEVDRLGQPPSGYGVLLATHDDDTVDVFTSGRKMRLTCSPNIDAASLKKGQTVRLNEALTVVEAGTFEAVGEISTLREILADGHRALVVGHADEERVVWLADPLIAEDLPDGLPEALNDDTRPRKLRPGDSLLVDTKAGYAFERIPLVP 3m9b-a2-m1-cK_3m9b-a2-m1-cL Crystal structure of the amino terminal coiled coil domain and the inter domain of the Mycobacterium tuberculosis proteasomal ATPase Mpa P9WQN5 P9WQN5 3.94 X-RAY DIFFRACTION 127 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 186 186 3m91-a1-m1-cA_3m91-a1-m1-cC 3m9b-a1-m1-cA_3m9b-a1-m1-cB 3m9b-a1-m1-cC_3m9b-a1-m1-cD 3m9b-a1-m1-cE_3m9b-a1-m1-cF 3m9b-a2-m1-cG_3m9b-a2-m1-cH 3m9b-a2-m1-cI_3m9b-a2-m1-cJ 3m9d-a1-m1-cA_3m9d-a1-m1-cB 3m9d-a1-m1-cC_3m9d-a1-m1-cD 3m9d-a1-m1-cE_3m9d-a1-m1-cF 3m9d-a2-m1-cJ_3m9d-a2-m1-cK 3m9d-a2-m1-cL_3m9d-a2-m1-cM 3m9d-a2-m1-cN_3m9d-a2-m1-cO SARDIHQLEARIDSLAARNSKLMETLKEARQQLLALREEVDRLGQPPSGYGVLLATHDDDTVDVFTSGRKMRLTCSPNIDAASLKKGQTVRLNEALTVVEAGTFEAVGEISTLREILADGHRALVVGHADEERVVWLADPLIAEDLPDGLPEALNDDTRPRKLRPGDSLLVDTKAGYAFERIPLVP SARDIHQLEARIDSLAARNSKLMETLKEARQQLLALREEVDRLGQPPSGYGVLLATHDDDTVDVFTSGRKMRLTCSPNIDAASLKKGQTVRLNEALTVVEAGTFEAVGEISTLREILADGHRALVVGHADEERVVWLADPLIAEDLPDGLPEALNDDTRPRKLRPGDSLLVDTKAGYAFERIPLVP 3m9h-a3-m5-cF_3m9h-a3-m7-cF Crystal structure of the amino terminal coiled coil domain of the Mycobacterium tuberculosis proteasomal ATPase Mpa P9WQN5 P9WQN5 2 X-RAY DIFFRACTION 53 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 43 43 3m9h-a1-m1-cA_3m9h-a1-m1-cC 3m9h-a1-m1-cA_3m9h-a1-m1-cD 3m9h-a1-m1-cB_3m9h-a1-m1-cC 3m9h-a1-m1-cB_3m9h-a1-m1-cD 3m9h-a2-m1-cE_3m9h-a2-m2-cE 3m9h-a2-m1-cE_3m9h-a2-m3-cE 3m9h-a2-m2-cE_3m9h-a2-m4-cE 3m9h-a2-m3-cE_3m9h-a2-m4-cE 3m9h-a3-m1-cF_3m9h-a3-m6-cF 3m9h-a3-m1-cF_3m9h-a3-m7-cF 3m9h-a3-m5-cF_3m9h-a3-m6-cF SARDIHQLEARIDSLAARNSKLMETLKEARQQLLALREEVDRL SARDIHQLEARIDSLAARNSKLMETLKEARQQLLALREEVDRL 3m9l-a1-m1-cA_3m9l-a1-m2-cA Crystal structure of probable had family hydrolase from pseudomonas fluorescens pf-5 Q4K5L5 Q4K5L5 1.6 X-RAY DIFFRACTION 95 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 197 197 2ybd-a1-m1-cA_2ybd-a1-m2-cA 3r09-a1-m1-cA_3r09-a1-m2-cA SLSEIKHWVFDDGTLTIAVHDFAAIREALSIPAEDDILTHLAALPADESAAKHAWLLEHERDLAQGSRPAPGAVELVRELAGRGYRLGILTRNARELAHVTLEAIGLADCFAEADVLGRDEAPPKPHPGGLLKLAEAWDVSPSRVVGDYRFDLDCGRAAGTRTVLVNLPDNPWPELTDWHARDCAQLRDLLSAEGHH SLSEIKHWVFDDGTLTIAVHDFAAIREALSIPAEDDILTHLAALPADESAAKHAWLLEHERDLAQGSRPAPGAVELVRELAGRGYRLGILTRNARELAHVTLEAIGLADCFAEADVLGRDEAPPKPHPGGLLKLAEAWDVSPSRVVGDYRFDLDCGRAAGTRTVLVNLPDNPWPELTDWHARDCAQLRDLLSAEGHH 3m9u-a3-m1-cC_3m9u-a3-m1-cB Crystal structure of geranylgeranyl pyrophosphate synthase from lactobacillus brevis atcc 367 Q03RR4 Q03RR4 1.77 X-RAY DIFFRACTION 51 0.996 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 284 285 3m9u-a1-m1-cC_3m9u-a1-m1-cB SLINARLIAFEDQWVPALNAPLKQAILADSQDAQLAAAMTYSVLAGGKRLRPLLTVATMQSLGVTFVPERHWRPVMALELLHTYSLIHDDLPAMDNDALRRGEPTNHVKFGAGMATLAGDGLLTLAFQWLTATDLPATMQAALVQALATAAGPSGMVAGQAKDIQSEHVNLPLSQLRVLHKEKTGALLHYAVQAGLILGQAPEAQWPAYLQFADAFGLAFQIYDDILDVVSSAKNTYPGKLGLIGANQALIDTIHSGQAALQGLPTSTQRDDLAAFFSYFDTER SLINARLIAFEDQWVPALNAPLKQAILADSQDAQLAAAMTYSVLAGGKRLRPLLTVATMQSLGVTFVPERHWRPVMALELLHTYSLIHDDLPAMDNDALRRGEPTNHVKFGAGMATLAGDGLLTLAFQWLTATDLPATMQAALVQALATAAGPSGMVAGQAKDIQSEHVNLPLSQLRVLHKEKTGALLHYAVQAGLILGQAPEAQWPAYLQFADAFGLAFQIYDDILDVVSDEAKNTYPGKLGLIGANQALIDTIHSGQAALQGLPTSTQRDDLAAFFSYFDTER 3m9z-a1-m1-cA_3m9z-a1-m2-cA Crystal Structure of extracellular domain of mouse NKR-P1A P27811 P27811 1.7 X-RAY DIFFRACTION 112 1.0 10090 (Mus musculus) 10090 (Mus musculus) 124 124 3t3a-a2-m1-cA_3t3a-a2-m2-cA 3t3a-a2-m1-cB_3t3a-a2-m2-cB LECPQDWLSHRDKCFHVSQVSNTWEEGLVDCDGKGATLMLIQDQEELRFLLDSIKEKYNSFWIGLRYTLPDMNWKWINGSTLNSDVLKITGDTENDSCAAISGDKVTFESCNSDNRWICQKELY LECPQDWLSHRDKCFHVSQVSNTWEEGLVDCDGKGATLMLIQDQEELRFLLDSIKEKYNSFWIGLRYTLPDMNWKWINGSTLNSDVLKITGDTENDSCAAISGDKVTFESCNSDNRWICQKELY 3mab-a1-m1-cA_3mab-a1-m1-cB CRYSTAL STRUCTURE OF AN UNCHARACTERIZED PROTEIN FROM LISTERIA MONOCYTOGENES, Triclinic FORM 1.42 X-RAY DIFFRACTION 28 0.988 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 85 88 LANLSELPNIGKVLEQDLIKAGIKTPVELKDVGSKEAFLRIWENDSSVCMSELYALEGAVQGIRWHGLDEAKKIELKKFHQSLEG ANLSELPNIGKVLEQDLIKAGIKTPVELKDVGSKEAFLRIWENDSSVCMSELYALEGAVQGIRWHGLDEAKKIELKKFHQSLEGHHHH 3mad-a1-m1-cA_3mad-a1-m1-cB Crystal structure of StSPL (symmetric form) Q67PY4 Q67PY4 2 X-RAY DIFFRACTION 431 0.998 2734 (Symbiobacterium thermophilum) 2734 (Symbiobacterium thermophilum) 450 450 3maf-a1-m1-cB_3maf-a1-m1-cA 3mau-a1-m1-cB_3mau-a1-m1-cA 3mau-a2-m1-cC_3mau-a2-m1-cD 3mbb-a1-m1-cA_3mbb-a1-m1-cB 5eud-a1-m1-cB_5eud-a1-m1-cA 5eue-a1-m1-cB_5eue-a1-m1-cA KPYRDRFPSHARLPRAGLPRAEILAEIAAMGAAESPAWRDGYASGAVYHGDEHHIAFLNEVYALQSQSNPLHPDLWPSTAKFEAEVVAMTAHMLGGDAAGGTVCGTVTSGGTESLLLAMKTYRDWARATKGITAPEAVVPVSAHAAFDKAAQYFGIKLVRTPLDADYRADVAAMREAITPNTVVVAGSAPGYPHGVVDPIPEIAALAAEHGIGCHVDACLGGFILPWAERLGYPVPPFDFRLEGVTSVSADTHYGYGAKGTSVILYRRPDLLHYQYFIAADWPGGLYFSPTFAGSRPGALSATAWAAMLSLGEEGYLDATRRILQAADRLKAGVRAIPSLKILGDPLWVIAVASDELNIYQVMEEMAGRGWRLNGLHRPPAFHVALTLRHTEPGVVDRFLADLQDAVAQVRAHPEKATGMAPVYGMAAAAPPELVRQVLTGFIDLLYEVH IKPYRDRFPSHARLPRAGLPRAEILAEIAAMGAAESPAWRDGYASGAVYHGDEHHIAFLNEVYALQSQSNPLHPDLWPSTAKFEAEVVAMTAHMLGGDAAGGTVCGTVTSGGTESLLLAMKTYRDWARATKGITAPEAVVPVSAHAAFDKAAQYFGIKLVRTPLDADYRADVAAMREAITPNTVVVAGSAPGYPHGVVDPIPEIAALAAEHGIGCHVDACLGGFILPWAERLGYPVPPFDFRLEGVTSVSADTHYGYGAKGTSVILYRRPDLLHYQYFIAADWPGGLYFSPTFAGSRPGALSATAWAAMLSLGEEGYLDATRRILQAADRLKAGVRAIPSLKILGDPLWVIAVASDELNIYQVMEEMAGRGWRLNGLHRPPAFHVALTLRHTEPGVVDRFLADLQDAVAQVRAHPEKATGMAPVYGMAAAAPPELVRQVLTGFIDLLYEV 3mae-a1-m1-cC_3mae-a1-m1-cB CRYSTAL STRUCTURE OF PROBABLE DIHYDROLIPOAMIDE ACETYLTRANSFERASE FROM LISTERIA MONOCYTOGENES 4b F2365 2.5 X-RAY DIFFRACTION 123 1.0 265669 (Listeria monocytogenes serotype 4b str. F2365) 265669 (Listeria monocytogenes serotype 4b str. F2365) 239 240 3mae-a1-m1-cA_3mae-a1-m1-cB 3mae-a1-m1-cA_3mae-a1-m1-cC PPVRSAAGDKEIPINGVRKAIAKHMSVSKQEIPHAWMMVEVDATGLVRYRNAVKDSFKKEEGYSLTYFAFFIKAVAQALKEFPQLNSTWAGDKIIEHANINISIAIAAGDLLYVPVIKNADEKSIKGIAREISELAGKARNGKLSQADMEGGTFTVNSTGSFGSVQSMGIINHPQAAILQVESIVKRPVIIDDMIAVRDMVNLCLSIDHRILDGLLAGKFLQAIKANVEKISKENTALY TPPVRSAAGDKEIPINGVRKAIAKHMSVSKQEIPHAWMMVEVDATGLVRYRNAVKDSFKKEEGYSLTYFAFFIKAVAQALKEFPQLNSTWAGDKIIEHANINISIAIAAGDLLYVPVIKNADEKSIKGIAREISELAGKARNGKLSQADMEGGTFTVNSTGSFGSVQSMGIINHPQAAILQVESIVKRPVIIDDMIAVRDMVNLCLSIDHRILDGLLAGKFLQAIKANVEKISKENTALY 3mag-a1-m1-cA_3mag-a1-m2-cA VACCINIA METHYLTRANSFERASE VP39 COMPLEXED WITH M3ADE AND S-ADENOSYLHOMOCYSTEINE P07617 P07617 1.8 X-RAY DIFFRACTION 40 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 291 291 1b42-a1-m1-cA_1b42-a1-m2-cA 1bky-a1-m1-cA_1bky-a1-m2-cA 1eqa-a1-m1-cA_1eqa-a1-m2-cA 1p39-a1-m1-cA_1p39-a1-m2-cA 1v39-a1-m1-cA_1v39-a1-m2-cA 1vp3-a1-m1-cA_1vp3-a1-m2-cA 1vp9-a1-m1-cA_1vp9-a1-m2-cA 1vpt-a1-m1-cA_1vpt-a1-m2-cA 2vp3-a1-m1-cA_2vp3-a1-m2-cA 3mct-a1-m1-cA_3mct-a1-m2-cA MDVVSLDKPFMYFEEIDNELDYEPESANEVAKKLPYQGQLKLLLGELFFLSKLQRHGILDGATVVYIGSAPGTHIRYLRDHFYNLGVIIKWMLIDGRHHDPILNGLRDVTLVTRFVDEEYLRSIKKQLHPSKIILISDVRSPSTADLLSNYALQNVMISILNPVASSLKWRCPFPDQWIKDFYIPHGNKMLQPFAPSYSAEMRLLSIYTGENMRLTRVTKSDAVNYEKKMYYLNKIVRNKVVVNFDYPNQEYDYFHMYFMLRTVYCNKTFPTTKAKVLFLQQSIFRFLNIP MDVVSLDKPFMYFEEIDNELDYEPESANEVAKKLPYQGQLKLLLGELFFLSKLQRHGILDGATVVYIGSAPGTHIRYLRDHFYNLGVIIKWMLIDGRHHDPILNGLRDVTLVTRFVDEEYLRSIKKQLHPSKIILISDVRSPSTADLLSNYALQNVMISILNPVASSLKWRCPFPDQWIKDFYIPHGNKMLQPFAPSYSAEMRLLSIYTGENMRLTRVTKSDAVNYEKKMYYLNKIVRNKVVVNFDYPNQEYDYFHMYFMLRTVYCNKTFPTTKAKVLFLQQSIFRFLNIP 3mah-a1-m1-cA_3mah-a1-m2-cA A putative c-terminal regulatory domain of aspartate kinase from porphyromonas gingivalis w83. Q7MT13 Q7MT13 2.31 X-RAY DIFFRACTION 158 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 135 135 DCIKAVAAKDGITVIKVKSSNKLLSWHFRKLFEIFEFYQEPVDVATSEVGVSLTIDNDKNLPDIVRALSDIGDVTVDKDVIICIVGVGFEARIINALKGVPVRISYGGSNYNVSVLVKAEDKKKALIALSNKLFN DCIKAVAAKDGITVIKVKSSNKLLSWHFRKLFEIFEFYQEPVDVATSEVGVSLTIDNDKNLPDIVRALSDIGDVTVDKDVIICIVGVGFEARIINALKGVPVRISYGGSNYNVSVLVKAEDKKKALIALSNKLFN 3maj-a1-m1-cA_3maj-a1-m2-cA Crystal structure of putative DNA processing protein DprA from Rhodopseudomonas palustris CGA009 Q6N563 Q6N563 2.05 X-RAY DIFFRACTION 57 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 349 349 GTTVLTEAQRIDWRLIRAENVGPRTFRSLINHFGSARAALERLPELARRGGAARAGRIPSEDEARREIEAGRRIGVELVAPGETGYPTRLATIDDAPPLLGVHALPEALAVARPIAIVGSRNASGAGLKFAGQLAADLGAAGFVVISGLARGIDQAAHRASLSSGTVAVLAGGHDKIYPAEHEDLLLDIIQTRGAAISEPLGHVPRGKDFPRRNRLISGASVGVAVIEAAYRSGSLITARRAADQGREVFAVPGSPLDPRAAGTNDLIKQGATLITSASDIVEAVASILEGEPDTGDRTRILALLGPSPVGIDDLIRLSGISPAVVRTILLELELAGRLERHGGSLVSL GTTVLTEAQRIDWRLIRAENVGPRTFRSLINHFGSARAALERLPELARRGGAARAGRIPSEDEARREIEAGRRIGVELVAPGETGYPTRLATIDDAPPLLGVHALPEALAVARPIAIVGSRNASGAGLKFAGQLAADLGAAGFVVISGLARGIDQAAHRASLSSGTVAVLAGGHDKIYPAEHEDLLLDIIQTRGAAISEPLGHVPRGKDFPRRNRLISGASVGVAVIEAAYRSGSLITARRAADQGREVFAVPGSPLDPRAAGTNDLIKQGATLITSASDIVEAVASILEGEPDTGDRTRILALLGPSPVGIDDLIRLSGISPAVVRTILLELELAGRLERHGGSLVSL 3mat-a1-m1-cI_3mat-a1-m1-cA E.COLI METHIONINE AMINOPEPTIDASE TRANSITION-STATE INHIBITOR COMPLEX P0AE18 2 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 2 264 AL AISIKTPEDIEKMRVAGRLAAEVLEMIEPYVKPGVSTGELDRICNDYIVNEQHAVSACLGYHGYPKSVCISINEVVCHGIPDDAKLLKDGDIVNIDVTVIKDGFHGDTSKMFIVGKPTIMGERLCRITQESLYLALRMVKPGINLREIGAAIQKFVEAEGFSVVREYCGHGIGQGFHEEPQVLHYDSRETNVVLKPGMTFTIEPMVNAGKKEIRTMKDGWTVKTKDRSLSAQYEHTIVVTDNGCEILTLRKDDTIPAIISHDEL 3may-a2-m1-cE_3may-a2-m1-cG Crystal structure of a secreted Mycobacterium tuberculosis heme-binding protein O53654 O53654 2.5 X-RAY DIFFRACTION 41 0.989 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 94 97 3may-a1-m1-cB_3may-a1-m1-cC DPCAASEVARTVGSVAKSMGDYLDSHPETNQVMTAVLQQQVGPGSVASLKAHFEANPKVASDLHALSQPLTDLSTRCSLPISGLQAIGLMQAVQ PCAASEVARTVGSVAKSMGDYLDSHPETNQVMTAVLQQQVGPGSVASLKAHFEANPKVASDLHALSQPLTDLSTRCSLPISGLQAIGLMQAVQGARR 3may-a2-m1-cE_3may-a2-m1-cH Crystal structure of a secreted Mycobacterium tuberculosis heme-binding protein O53654 O53654 2.5 X-RAY DIFFRACTION 35 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 94 96 3may-a1-m1-cB_3may-a1-m1-cD DPCAASEVARTVGSVAKSMGDYLDSHPETNQVMTAVLQQQVGPGSVASLKAHFEANPKVASDLHALSQPLTDLSTRCSLPISGLQAIGLMQAVQ DPCAASEVARTVGSVAKSMGDYLDSHPETNQVMTAVLQQQVGPGSVASLKAHFEANPKVASDLHALSQPLTDLSTRCSLPISGLQAIGLMQAVQGA 3may-a2-m1-cH_3may-a2-m1-cG Crystal structure of a secreted Mycobacterium tuberculosis heme-binding protein O53654 O53654 2.5 X-RAY DIFFRACTION 147 0.99 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 96 97 3may-a1-m1-cA_3may-a1-m1-cB 3may-a1-m1-cD_3may-a1-m1-cC 3may-a2-m1-cF_3may-a2-m1-cE DPCAASEVARTVGSVAKSMGDYLDSHPETNQVMTAVLQQQVGPGSVASLKAHFEANPKVASDLHALSQPLTDLSTRCSLPISGLQAIGLMQAVQGA PCAASEVARTVGSVAKSMGDYLDSHPETNQVMTAVLQQQVGPGSVASLKAHFEANPKVASDLHALSQPLTDLSTRCSLPISGLQAIGLMQAVQGARR 3mb2-a1-m1-cA_3mb2-a1-m1-cE Kinetic and Structural Characterization of a Heterohexamer 4-Oxalocrotonate Tautomerase from Chloroflexus aurantiacus J-10-fl: Implications for Functional and Structural Diversity in the Tautomerase Superfamily A9W9U6 A9W9U6 2.41 X-RAY DIFFRACTION 43 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 61 61 3mb2-a1-m1-cA_3mb2-a1-m1-cC 3mb2-a1-m1-cE_3mb2-a1-m1-cC 3mb2-a2-m1-cG_3mb2-a2-m1-cK 3mb2-a2-m1-cI_3mb2-a2-m1-cG 3mb2-a2-m1-cI_3mb2-a2-m1-cK MLLLRITMLEGRSTEQKAELARALSAAAAAAFDVPLAEVRLIIQEVPPTHWTVGGISMAEL MLLLRITMLEGRSTEQKAELARALSAAAAAAFDVPLAEVRLIIQEVPPTHWTVGGISMAEL 3mb2-a1-m1-cF_3mb2-a1-m1-cD Kinetic and Structural Characterization of a Heterohexamer 4-Oxalocrotonate Tautomerase from Chloroflexus aurantiacus J-10-fl: Implications for Functional and Structural Diversity in the Tautomerase Superfamily A9W9V0 A9W9V0 2.41 X-RAY DIFFRACTION 30 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 54 58 3mb2-a1-m1-cD_3mb2-a1-m1-cB 3mb2-a1-m1-cF_3mb2-a1-m1-cB 3mb2-a2-m1-cH_3mb2-a2-m1-cJ 3mb2-a2-m1-cL_3mb2-a2-m1-cH 3mb2-a2-m1-cL_3mb2-a2-m1-cJ PMLEVFYSGDRPPDRTRKQAFAAEASAIFQRVIGTPPGRLQLIIQIVSPENTLA PMLEVFYSGDRPPDRTRKQAFAAEASAIFQRVIGTPPGRLQLIIQIVSPENTLAVIDL 3mb5-a1-m3-cA_3mb5-a1-m4-cA Crystal structure of P. abyssi tRNA m1A58 methyltransferase in complex with S-adenosyl-L-methionine Q9V1J7 Q9V1J7 1.6 X-RAY DIFFRACTION 57 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 255 255 3lga-a1-m1-cA_3lga-a1-m1-cC 3lga-a1-m1-cB_3lga-a1-m1-cD 3lhd-a1-m1-cA_3lhd-a1-m1-cC 3lhd-a1-m1-cB_3lhd-a1-m1-cD 3mb5-a1-m1-cA_3mb5-a1-m2-cA MIREGDKVVLVDPRGKRYLITVSKRDFHTDLGILKLEEIIGRNFGEAIKSHKGHEFKILRPRIVDYLDKMKRGPQIVHPKDAALIVAYAGISPGDFIVEAGVGSGALTLFLANIVGPEGRVVSYEIREDFAKLAWENIKWAGFDDRVTIKLKDIYEGIEEENVDHVILDLPQPERVVEHAAKALKPGGFFVAYTPCSNQVMRLHEKLREFKDYFMKPRTINVLVFDQEVKKECMRPRTTALVHTGYITFARRILE MIREGDKVVLVDPRGKRYLITVSKRDFHTDLGILKLEEIIGRNFGEAIKSHKGHEFKILRPRIVDYLDKMKRGPQIVHPKDAALIVAYAGISPGDFIVEAGVGSGALTLFLANIVGPEGRVVSYEIREDFAKLAWENIKWAGFDDRVTIKLKDIYEGIEEENVDHVILDLPQPERVVEHAAKALKPGGFFVAYTPCSNQVMRLHEKLREFKDYFMKPRTINVLVFDQEVKKECMRPRTTALVHTGYITFARRILE 3mb8-a1-m1-cA_3mb8-a1-m3-cB Crystal structure of purine nucleoside phosphorylase from toxoplasma gondii in complex with immucillin-H Q2HXR2 Q2HXR2 1.9 X-RAY DIFFRACTION 76 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 248 248 3mb8-a1-m1-cB_3mb8-a1-m2-cA 3mb8-a1-m2-cB_3mb8-a1-m3-cA LMQGMEVQPHIRLRKEDVEPVVIIVGDPARTEEVANMCEKKQELAYNREYRSFRVVYDSQPITVISHGIGCPGTSIAIEELAYLGAKVIIRAGTCGSLKPKTLKQGDVCVTYAAVNETGLISNILPEGFPCVATPHVYQALMDAAKELGIEAASGIGVTQDYFYQNGILPSKLEMYSKCCDVIDMEMSGVLGLCQARGIATCGILAVDGSPLQWDEGDYDATGVKATTGKENMVKITLKACANLRRQY LMQGMEVQPHIRLRKEDVEPVVIIVGDPARTEEVANMCEKKQELAYNREYRSFRVVYDSQPITVISHGIGCPGTSIAIEELAYLGAKVIIRAGTCGSLKPKTLKQGDVCVTYAAVNETGLISNILPEGFPCVATPHVYQALMDAAKELGIEAASGIGVTQDYFYQNGILPSKLEMYSKCCDVIDMEMSGVLGLCQARGIATCGILAVDGSPLQWDEGDYDATGVKATTGKENMVKITLKACANLRRQY 3mb8-a1-m3-cA_3mb8-a1-m3-cB Crystal structure of purine nucleoside phosphorylase from toxoplasma gondii in complex with immucillin-H Q2HXR2 Q2HXR2 1.9 X-RAY DIFFRACTION 141 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 248 248 3mb8-a1-m1-cA_3mb8-a1-m1-cB 3mb8-a1-m2-cA_3mb8-a1-m2-cB LMQGMEVQPHIRLRKEDVEPVVIIVGDPARTEEVANMCEKKQELAYNREYRSFRVVYDSQPITVISHGIGCPGTSIAIEELAYLGAKVIIRAGTCGSLKPKTLKQGDVCVTYAAVNETGLISNILPEGFPCVATPHVYQALMDAAKELGIEAASGIGVTQDYFYQNGILPSKLEMYSKCCDVIDMEMSGVLGLCQARGIATCGILAVDGSPLQWDEGDYDATGVKATTGKENMVKITLKACANLRRQY LMQGMEVQPHIRLRKEDVEPVVIIVGDPARTEEVANMCEKKQELAYNREYRSFRVVYDSQPITVISHGIGCPGTSIAIEELAYLGAKVIIRAGTCGSLKPKTLKQGDVCVTYAAVNETGLISNILPEGFPCVATPHVYQALMDAAKELGIEAASGIGVTQDYFYQNGILPSKLEMYSKCCDVIDMEMSGVLGLCQARGIATCGILAVDGSPLQWDEGDYDATGVKATTGKENMVKITLKACANLRRQY 3mbh-a1-m1-cA_3mbh-a1-m1-cF Crystal structure of a putative phosphomethylpyrimidine kinase (BT_4458) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 2.00 A resolution (orthorhombic form with pyridoxal) Q89ZB9 Q89ZB9 2 X-RAY DIFFRACTION 25 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 279 279 3mbh-a1-m1-cC_3mbh-a1-m1-cE YANKVKKIAAVHDLSGGRVSLTVVIPILSSGFQVCPLPTAVLSNHTQYPGFSFLDLTDEPKIIAEWKKLEVQFDAIYTGYLGSPRQIQIVSDFIKDFRQPDSLIVADPVLGDNGRLYTNFDEVKERHLITKADVITPNLTELFYLLDEPYKADSTDEELKEYLRLLSDKGPQVVIITSVPVHDEPHKTSVYAYNRQGNRYWKVTCPYLPAHYPGTGDTFTSVITGSLQGDSLPALDRATQFILQGIRATFGYEYDNREGILLEKVLHNLDPIQASYELI YANKVKKIAAVHDLSGGRVSLTVVIPILSSGFQVCPLPTAVLSNHTQYPGFSFLDLTDEPKIIAEWKKLEVQFDAIYTGYLGSPRQIQIVSDFIKDFRQPDSLIVADPVLGDNGRLYTNFDEVKERHLITKADVITPNLTELFYLLDEPYKADSTDEELKEYLRLLSDKGPQVVIITSVPVHDEPHKTSVYAYNRQGNRYWKVTCPYLPAHYPGTGDTFTSVITGSLQGDSLPALDRATQFILQGIRATFGYEYDNREGILLEKVLHNLDPIQASYELI 3mbh-a1-m1-cD_3mbh-a1-m1-cF Crystal structure of a putative phosphomethylpyrimidine kinase (BT_4458) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 2.00 A resolution (orthorhombic form with pyridoxal) Q89ZB9 Q89ZB9 2 X-RAY DIFFRACTION 130 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 276 279 3mbh-a1-m1-cA_3mbh-a1-m1-cC 3mbh-a1-m1-cB_3mbh-a1-m1-cE 3mbj-a1-m1-cA_3mbj-a1-m6-cA 3mbj-a1-m2-cA_3mbj-a1-m5-cA 3mbj-a1-m3-cA_3mbj-a1-m4-cA KVKKIAAVHDLSGGRVSLTVVIPILSSGFQVCPLPTAVLSNHTQYPGFSFLDLTDEPKIIAEWKKLEVQFDAIYTGYLGSPRQIQIVSDFIKDFRQPDSLIVADPVLGDNGRLYTNFDEVKERHLITKADVITPNLTELFYLLDEPYKADSTDEELKEYLRLLSDKGPQVVIITSVPVHDEPHKTSVYAYNRQGNRYWKVTCPYLPAHYPGTGDTFTSVITGSLQGDSLPALDRATQFILQGIRATFGYEYDNREGILLEKVLHNLDPIQASYELI YANKVKKIAAVHDLSGGRVSLTVVIPILSSGFQVCPLPTAVLSNHTQYPGFSFLDLTDEPKIIAEWKKLEVQFDAIYTGYLGSPRQIQIVSDFIKDFRQPDSLIVADPVLGDNGRLYTNFDEVKERHLITKADVITPNLTELFYLLDEPYKADSTDEELKEYLRLLSDKGPQVVIITSVPVHDEPHKTSVYAYNRQGNRYWKVTCPYLPAHYPGTGDTFTSVITGSLQGDSLPALDRATQFILQGIRATFGYEYDNREGILLEKVLHNLDPIQASYELI 3mbj-a1-m5-cA_3mbj-a1-m6-cA Crystal structure of a putative phosphomethylpyrimidine kinase (BT_4458) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 2.10 A resolution (rhombohedral form) Q89ZB9 Q89ZB9 2.1 X-RAY DIFFRACTION 29 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 277 277 3mbh-a1-m1-cA_3mbh-a1-m1-cE 3mbh-a1-m1-cB_3mbh-a1-m1-cC 3mbh-a1-m1-cB_3mbh-a1-m1-cF 3mbh-a1-m1-cC_3mbh-a1-m1-cF 3mbh-a1-m1-cD_3mbh-a1-m1-cA 3mbh-a1-m1-cD_3mbh-a1-m1-cE 3mbj-a1-m1-cA_3mbj-a1-m2-cA 3mbj-a1-m1-cA_3mbj-a1-m3-cA 3mbj-a1-m2-cA_3mbj-a1-m3-cA 3mbj-a1-m4-cA_3mbj-a1-m5-cA 3mbj-a1-m4-cA_3mbj-a1-m6-cA GYANKVKKIAAVHDLSGGRVSLTVVIPILSSGFQVCPLPTAVLSNHTQYPGFSFLDLTDEPKIIAEWKKLEVQFDAIYTGYLGSPRQIQIVSDFIKDFRQPDSLIVADPVLGDNGRLYTNFDEVKERHLITKADVITPNLTELFYLLDEPYKADSTDEELKEYLRLLSDKGPQVVIITSVPVHHKTSVYAYNRQGNRYWKVTCPYLPAHYPGTGDTFTSVITGSLQGDSLPALDRATQFILQGIRATFGYEYDNREGILLEKVLHNLDPIQASYELI GYANKVKKIAAVHDLSGGRVSLTVVIPILSSGFQVCPLPTAVLSNHTQYPGFSFLDLTDEPKIIAEWKKLEVQFDAIYTGYLGSPRQIQIVSDFIKDFRQPDSLIVADPVLGDNGRLYTNFDEVKERHLITKADVITPNLTELFYLLDEPYKADSTDEELKEYLRLLSDKGPQVVIITSVPVHHKTSVYAYNRQGNRYWKVTCPYLPAHYPGTGDTFTSVITGSLQGDSLPALDRATQFILQGIRATFGYEYDNREGILLEKVLHNLDPIQASYELI 3mc1-a3-m2-cB_3mc1-a3-m1-cA Crystal structure of a predicted phosphatase from Clostridium acetobutylicum Q97LY2 Q97LY2 1.93 X-RAY DIFFRACTION 52 0.995 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 211 212 YNYVLFDLDGTLTDSAEGITKSVKYSLNKFDIQVEDLSSLNKFVGPPLKTSFEYYNFDEETATVAIDYYRDYFKAKGFENKVYDGIEALLSSLKDYGFHLVVATSKPTVFSKQILEHFKLAFYFDAIVGSSLDGKLSTKEDVIRYAESLNIKSDDAIIGDREYDVIGALKNNLPSIGVTYGFGSYEELKNAGANYIVNSVDELHKKILELR SLYNYVLFDLDGTLTDSAEGITKSVKYSLNKFDIQVEDLSSLNKFVGPPLKTSFEYYNFDEETATVAIDYYRDYFKAKGFENKVYDGIEALLSSLKDYGFHLVVATSKPTVFSKQILEHFKLAFYFDAIVGSSLDGKLSTKEDVIRYAESLNIKSDDAIIGDREYDVIGALKNNLPSIGVTYGFGSYEELKNAGANYIVNSVDELHKKILEL 3mc3-a1-m2-cA_3mc3-a1-m3-cA Crystal structure of DsrE/DsrF-like family protein (NP_342589.1) from SULFOLOBUS SOLFATARICUS at 1.49 A resolution Q97Z18 Q97Z18 1.49 X-RAY DIFFRACTION 28 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 100 100 3mc3-a1-m1-cA_3mc3-a1-m2-cA 3mc3-a1-m1-cA_3mc3-a1-m3-cA QILIVVTHGPEDLDRTYAPLFASISASEYETSVFFIGPLLDWQEEERGGNPFIHFFDAENGVYVVQSLDCHEDDVVEGIELVGGSTLIDLTLEADRTLFF QILIVVTHGPEDLDRTYAPLFASISASEYETSVFFIGPLLDWQEEERGGNPFIHFFDAENGVYVVQSLDCHEDDVVEGIELVGGSTLIDLTLEADRTLFF 3mc6-a2-m1-cC_3mc6-a2-m3-cC Crystal structure of ScDPL1 Q05567 Q05567 3.15 X-RAY DIFFRACTION 429 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 424 424 3mc6-a1-m1-cA_3mc6-a1-m2-cA SQLMNFPQLPSNGIPQDDVIEELNKLNDLIPHTQWKEGKVSGAVYHGGDDLIHLQTIAYEKYCVANQLHPDVFPAVRKMESEVVSMVLRMFNAPSDTGCGTTTSGGTESLLLACLSAKMYALHHRGITEPEIIAPVTAHAGFDKAAYYFGMKLRHVELDPTTYQVDLGKVKKFINKNTVLLVGSAPNFPHGIADDIEGLGKIAQKYKLPLHVDSCLGSFIVSFMEKAGYKNLPLLDFRVPGVTSISCDTHKYGFAPKGSSVIMYRNSDLRMHQYYVNPAWTGGLYGSPTLAGSRPGAIVVGCWATMVNMGENGYIESCQEIVGAAMKFKKYIQENIPDLDIMGNPRYSVISFSSKTLNIHELSDRLSKKGWHFNALQKPVALHMAFTRLSAHVVDEICDILRTTVQELKSEDKLIVGFLDALYK SQLMNFPQLPSNGIPQDDVIEELNKLNDLIPHTQWKEGKVSGAVYHGGDDLIHLQTIAYEKYCVANQLHPDVFPAVRKMESEVVSMVLRMFNAPSDTGCGTTTSGGTESLLLACLSAKMYALHHRGITEPEIIAPVTAHAGFDKAAYYFGMKLRHVELDPTTYQVDLGKVKKFINKNTVLLVGSAPNFPHGIADDIEGLGKIAQKYKLPLHVDSCLGSFIVSFMEKAGYKNLPLLDFRVPGVTSISCDTHKYGFAPKGSSVIMYRNSDLRMHQYYVNPAWTGGLYGSPTLAGSRPGAIVVGCWATMVNMGENGYIESCQEIVGAAMKFKKYIQENIPDLDIMGNPRYSVISFSSKTLNIHELSDRLSKKGWHFNALQKPVALHMAFTRLSAHVVDEICDILRTTVQELKSEDKLIVGFLDALYK 3mc9-a3-m1-cA_3mc9-a3-m1-cB POTRA1-2 of the periplasmic domain of Omp85 from Anabaena Q8YUR6 Q8YUR6 2.2 X-RAY DIFFRACTION 87 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 161 165 TEPRVLVSEVLVRPQSGQLTPELETQVYNVIRTQPGRTTTRSQLQEDINAIFGTGFFSNVQASPEDTPLGVRVSFIVQPNPVLSKVEIQANPPSVLPQATADEIFRAQYGKILNLRDLQEGIKELTKRYQDQGYVLANVVGAPQVSENGVVTLQVAEGVVE TEPRVLVSEVLVRPQSGQLTPELETQVYNVIRTQPGRTTTRSQLQEDINAIFGTGFFSNVQASPEDTPLGVRVSFIVQPNPVLSKVEIQANPGTNVPSVLPQATADEIFRAQYGKILNLRDLQEGIKELTKRYQDQGYVLANVVGAPQVSENGVVTLQVAEGVVE 3mce-a2-m1-cD_3mce-a2-m1-cC Crystal structure of the NAC domain of alpha subunit of nascent polypeptide-associated complex(NAC) Q13765 Q13765 2.396 X-RAY DIFFRACTION 81 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 57 59 3mce-a1-m1-cA_3mce-a1-m1-cB SPEFSKLGLRQVTGVTRVTIRKSKNILFVITKPDVYKSPASDTYIVFGEAKIEDLSQ PLGSPEFSKLGLRQVTGVTRVTIRKSKNILFVITKPDVYKSPASDTYIVFGEAKIEDLS 3mch-a1-m1-cA_3mch-a1-m1-cC Crystal structure of the molybdopterin biosynthesis enzyme MoaB (TTHA0341) from thermus theromophilus HB8 Q5SLF2 Q5SLF2 1.64 X-RAY DIFFRACTION 51 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 159 159 2is8-a1-m1-cA_2is8-a1-m1-cB 2is8-a1-m1-cA_2is8-a1-m1-cC 2is8-a1-m1-cC_2is8-a1-m1-cB 3mch-a1-m1-cA_3mch-a1-m1-cB 3mch-a1-m1-cC_3mch-a1-m1-cB MFRVGILTVSDKGFRGERQDTTHLAIREVLAGGPFEVAAYELVPDEPPMIKKVLRLWADREGLDLILTNGGTGLAPRDRTPEATRELLDREVPGLAELMRLVGLRKTPMAALSRGVAGVRGRTLILNLPGSPKGARESLEAVLPVLPHALSLVTGKPWK MFRVGILTVSDKGFRGERQDTTHLAIREVLAGGPFEVAAYELVPDEPPMIKKVLRLWADREGLDLILTNGGTGLAPRDRTPEATRELLDREVPGLAELMRLVGLRKTPMAALSRGVAGVRGRTLILNLPGSPKGARESLEAVLPVLPHALSLVTGKPWK 3mcp-a1-m1-cA_3mcp-a1-m2-cA Crystal structure of Glucokinase (BDI_1628) from Parabacteroides distasonis ATCC 8503 at 3.00 A resolution A6LCG6 A6LCG6 3 X-RAY DIFFRACTION 192 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 346 346 YTNDNRIVTLDAGGTNFVFSAIQGGKEIADPVVLPACADCLDKCLGNLVEGFKAIQAGLPEAPVAISFAFPGPADYQAGIIGDLPNFPSFRGGVALGPFLEDIFGIPVFINNDGSLFAYGEALTGVLPEINRRLREAGSTKRYKNLLGVTLGTGFGAGVVIDGELLRGDNAAGGYVWCLRNKKYPEYIVEESVSIRAVRVYAERSGDAGARTPKEIFEIAEGIRPGNREAAIAAFEELGEAGDALASAITLIDGLIVIGGGLSGASKYILPVLLKENAQTGQKEVYDLDEEKSFAGFARGEAVEVLVPGTNRKVGYDPCKRIGVTFSKQGANRSIAGAYVFALNHL YTNDNRIVTLDAGGTNFVFSAIQGGKEIADPVVLPACADCLDKCLGNLVEGFKAIQAGLPEAPVAISFAFPGPADYQAGIIGDLPNFPSFRGGVALGPFLEDIFGIPVFINNDGSLFAYGEALTGVLPEINRRLREAGSTKRYKNLLGVTLGTGFGAGVVIDGELLRGDNAAGGYVWCLRNKKYPEYIVEESVSIRAVRVYAERSGDAGARTPKEIFEIAEGIRPGNREAAIAAFEELGEAGDALASAITLIDGLIVIGGGLSGASKYILPVLLKENAQTGQKEVYDLDEEKSFAGFARGEAVEVLVPGTNRKVGYDPCKRIGVTFSKQGANRSIAGAYVFALNHL 3mcq-a1-m1-cA_3mcq-a1-m2-cA Crystal structure of Thiamine-monophosphate kinase (Mfla_0573) from METHYLOBACILLUS FLAGELLATUS KT at 1.91 A resolution Q1H3U4 Q1H3U4 1.91 X-RAY DIFFRACTION 181 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 295 295 LIQRYFRRAHPSAVLGVGDDAALIQPSPGELAVSADLVANTHFYPNIDPWLIGWKSLAVNISDAAGAQPRWATLTIALPEADEDWISKFAAGFFACAAQFDIALIGGDTTRGPLTISVQIGETPPGASLLRSTARADDDIWVSGPLGDAALALAAIQGRYPLSDTELAACGKALHQPQPRVVLGQALRGLAHSALDISDGLLADLGHILEHSQVGAEVWLKAIPKSEVVSAHSQEVAIQKILSGGDDYELCFTASTQHRQQIADIGRQLSLDAVIGRITDTQQLVIHGLDDAPLT LIQRYFRRAHPSAVLGVGDDAALIQPSPGELAVSADLVANTHFYPNIDPWLIGWKSLAVNISDAAGAQPRWATLTIALPEADEDWISKFAAGFFACAAQFDIALIGGDTTRGPLTISVQIGETPPGASLLRSTARADDDIWVSGPLGDAALALAAIQGRYPLSDTELAACGKALHQPQPRVVLGQALRGLAHSALDISDGLLADLGHILEHSQVGAEVWLKAIPKSEVVSAHSQEVAIQKILSGGDDYELCFTASTQHRQQIADIGRQLSLDAVIGRITDTQQLVIHGLDDAPLT 3mcr-a2-m1-cA_3mcr-a2-m2-cA Crystal structure of NADH dehydrogenase subunit C (Tfu_2693) from THERMOBIFIDA FUSCA YX-ER1 at 2.65 A resolution Q47LE6 Q47LE6 2.65 X-RAY DIFFRACTION 33 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 154 154 PAAAQRPYSDPSDPRTAYFDEVADALERSLKEIGTPYDTAISRVVVDRGEITFHVQREHLLDVATRLRDDPALRFELCLGVTGVHYPEDEGNELHAVYALRSITHNYEIRLEVSCPDSDPHIPSIVSVYPTNDWHEREAWDFFGIIFDGHPALT PAAAQRPYSDPSDPRTAYFDEVADALERSLKEIGTPYDTAISRVVVDRGEITFHVQREHLLDVATRLRDDPALRFELCLGVTGVHYPEDEGNELHAVYALRSITHNYEIRLEVSCPDSDPHIPSIVSVYPTNDWHEREAWDFFGIIFDGHPALT 3mcu-a1-m1-cB_3mcu-a1-m1-cD Crystal structure of the dipicolinate synthase chain B from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR215. Q819Z6 Q819Z6 2.303 X-RAY DIFFRACTION 40 0.994 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 177 178 3mcu-a1-m1-cA_3mcu-a1-m1-cC 3mcu-a1-m1-cA_3mcu-a1-m1-cF 3mcu-a1-m1-cC_3mcu-a1-m1-cF 3mcu-a1-m1-cE_3mcu-a1-m1-cB 3mcu-a1-m1-cE_3mcu-a1-m1-cD SLKGKRIGFGFTGSHCTYEEVPHLEKLIAEGAEVRPVVSYTGAEWIKKIEEITGFKAINSIVGAEPLGPKIPLDCVIAPLTGNSSKFANATDSPVLAAKATLRNGKPVVLAVSTNDALGLNGVNLRLATKNIYFVPFGQDAPEKKPNSVARELLEDTVLEALQGKQLQPVVVEKFRY SLKGKRIGFGFTGSHCTYEEVPHLEKLIAEGAEVRPVVSYTAEWIKKIEEITGFKAINSIVGAEPLGPKIPLDCVIAPLTGNSSKFANATDSPVLAAKATLRNGKPVVLAVSTNDALGLNGVNLRLATKNIYFVPFGQDAPEKKPNSVARELLEDTVLEALQGKQLQPVVVEKFRYNL 3mcu-a1-m1-cE_3mcu-a1-m1-cF Crystal structure of the dipicolinate synthase chain B from Bacillus cereus. Northeast Structural Genomics Consortium Target BcR215. Q819Z6 Q819Z6 2.303 X-RAY DIFFRACTION 51 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 173 177 3mcu-a1-m1-cA_3mcu-a1-m1-cB 3mcu-a1-m1-cC_3mcu-a1-m1-cD SLKGKRIGFGFTGSHCTYEEVPHLEKLIAEGAEVRPVVSYWIKKIEEITGFKAINSIVGAEPLGPKIPLDCVIAPLTGNSSKFANATDSPVLAAKATLRNGKPVVLAVSTNDALGLNGVNLRLATKNIYFVPFGQDAPEKKPNSVARELLEDTVLEALQGKQLQPVVVEKFRY SLKGKRIGFGFTGSHCTYEEVPHLEKLIAEGAEVRPVVSYTAEWIKKIEEITGFKAINSIVGAEPLGPKIPLDCVIAPLTGNSSKFANATDSPVLAAKATLRNGKPVVLAVSTNDALGLNGVNLRLATKNIYFVPFGQDAPEKKPNSVARELLEDTVLEALQGKQLQPVVVEKFRYN 3mcw-a1-m1-cB_3mcw-a1-m1-cA Crystal structure of an a putative hydrolase of the isochorismatase family (CV_1320) from Chromobacterium violaceum ATCC 12472 at 1.06 A resolution Q7NYF4 Q7NYF4 1.06 X-RAY DIFFRACTION 76 0.995 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 189 192 PAPLRFSSDKPLLLLIDQQAVDDPSWGPRNHPQAEQACAGLLQAWRARGLPLIHIRHDSVEPNSTYRPGQPGHAFKPEVEPRPGETVIAKQTNSAFIGTGLEALLRANGWLELVVAGVSTSNSVEATVRAGNLGFAVCLAEDGCFTFDKTDWHGRRRSADEVHASLANLDGEYCRVCGSADILAALGNI APLRFSSDKPLLLLIDQQAVDDPSWGPRNHPQAEQACAGLLQAWRARGLPLIHIRHDSVEPNSTYRPGQPGHAFKPEVEPRPGETVIAKQTNSAFIGTGLEALLRANGWLELVVAGVSTSNSVEATVRAGNLGFAVCLAEDGCFTFDKTDWHGRRRSADEVHASLANLDGEYCRVCGSADILAALGNIAGAA 3mcz-a1-m1-cB_3mcz-a1-m1-cA The Structure of an O-methyltransferase family protein from Burkholderia thailandensis. Q2T5S3 Q2T5S3 1.9 X-RAY DIFFRACTION 219 0.997 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 324 333 ALTSVVDLVKLSDQYRQSAILHYAVADKLFDLTQTGRTPAEVAASFGVEGKAAILLHALAALGLLTKEGDAFRNTALTERYLTTTSADYIGPIVEHQYLQWDNWPRLGEILRSEKPLAFQQESRFAHDTRARDAFNDAVRLSQPVDVVSELGVFARARTVIDLAGGHGTYLAQVLRRHPQLTGQIWDLPTTRDAARKTIHAHDLGGRVEFFEKNLLDARNFEGGAADVVLNDCLHYFDAREAREVIGHAAGLVKPGGALLILTTNDDRVTPALSADFSLHVNTNHGELHPTPWIAGVVRDAGLAVGERSIGRYTLLIGQRSSGE TIYESTEDKAALTSVVDLVKLSDQYRQSAILHYAVADKLFDLTQTGRTPAEVAASFGVEGKAAILLHALAALGLLTKEGDAFRNTALTERYLTTTSADYIGPIVEHQYLQWDNWPRLGEILRSEKPLAFQQESRFAHDTRARDAFNDAVRLSQPVDVVSELGVFARARTVIDLAGGHGTYLAQVLRRHPQLTGQIWDLPTTRDAARKTIHAHDLGGRVEFFEKNLLDARNFEGGAADVVLNDCLHYFDAREAREVIGHAAGLVKPGGALLILTTNDDRVTPALSADFSLHVNTNHGELHPTPWIAGVVRDAGLAVGERSIGRYTLLIGQRSSG 3md1-a4-m4-cB_3md1-a4-m5-cB Crystal Structure of the Second RRM Domain of Yeast Poly(U)-Binding Protein (Pub1) P32588 P32588 1.6 X-RAY DIFFRACTION 37 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 79 79 3md1-a3-m1-cA_3md1-a3-m2-cA 3md1-a3-m1-cA_3md1-a3-m3-cA 3md1-a3-m2-cA_3md1-a3-m3-cA 3md1-a4-m1-cB_3md1-a4-m4-cB 3md1-a4-m1-cB_3md1-a4-m5-cB TFNLFVGDLNVNVDDETLRNAFKDFPSYLSGHVMWDMQTGSSRGYGFVSFTSQDDAQNAMDSMQGQDLNGRPLRINWAA TFNLFVGDLNVNVDDETLRNAFKDFPSYLSGHVMWDMQTGSSRGYGFVSFTSQDDAQNAMDSMQGQDLNGRPLRINWAA 3md3-a2-m1-cA_3md3-a2-m2-cA Crystal Structure of the First Two RRM Domains of Yeast Poly(U) Binding Protein (Pub1) P32588 P32588 2.7 X-RAY DIFFRACTION 163 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 165 165 RVLYVGNLDKAITEDILKQYFQVGGPIANIKIMIDKNKNVNYAFVEYHQSHDANIALQTLNGKQIENNIVKINWAFQSQQSSSDDTFNLFVGDLNVNVDDETLRNAFKDFPSYLSGHVMWDMQTGSSRGYGFVSFTSQDDAQNAMDSMQGQDLNGRPLRINWAAK RVLYVGNLDKAITEDILKQYFQVGGPIANIKIMIDKNKNVNYAFVEYHQSHDANIALQTLNGKQIENNIVKINWAFQSQQSSSDDTFNLFVGDLNVNVDDETLRNAFKDFPSYLSGHVMWDMQTGSSRGYGFVSFTSQDDAQNAMDSMQGQDLNGRPLRINWAAK 3md7-a1-m1-cA_3md7-a1-m2-cA Crystal structure of a beta-lactamase-like protein bound to GMP from brucella melitensis Q2YQ74 Q2YQ74 1.27 X-RAY DIFFRACTION 85 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 270 270 3py5-a1-m1-cA_3py5-a1-m2-cA 3py6-a1-m1-cA_3py6-a1-m2-cA 3qh8-a1-m1-cA_3qh8-a1-m2-cA SPRNCLRFTLLGCGSSPGVPRINGDWGKCDPKNPKNRRRRASLLVERYDAEGNNTVVVIDTGPDFRMQMIDSGVHMLDAAVYTHPHADHIHGIDDLRTYVVDNGRLMDVYANRLTRNRLYDTFGYCFETPVGSSYPPILSMHDIAPETPFSIEGAGGAIRFEPFSQVHGDIESLGFRIGSVVYCTDVSAFPEQSLQYIKDADVLIIGALQYRPHPSHFSLGEALEWIEKLSPKRAILTHMHVPLDYETVMRETPHHVEPGYDGLRFEVAV SPRNCLRFTLLGCGSSPGVPRINGDWGKCDPKNPKNRRRRASLLVERYDAEGNNTVVVIDTGPDFRMQMIDSGVHMLDAAVYTHPHADHIHGIDDLRTYVVDNGRLMDVYANRLTRNRLYDTFGYCFETPVGSSYPPILSMHDIAPETPFSIEGAGGAIRFEPFSQVHGDIESLGFRIGSVVYCTDVSAFPEQSLQYIKDADVLIIGALQYRPHPSHFSLGEALEWIEKLSPKRAILTHMHVPLDYETVMRETPHHVEPGYDGLRFEVAV 3mde-a1-m1-cA_3mde-a1-m2-cB CRYSTAL STRUCTURES OF MEDIUM CHAIN ACYL-COA DEHYDROGENASE FROM PIG LIVER MITOCHONDRIA WITH AND WITHOUT SUBSTRATE P41367 P41367 2.4 X-RAY DIFFRACTION 132 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 385 385 1udy-a1-m1-cA_1udy-a1-m1-cD 1udy-a1-m1-cB_1udy-a1-m1-cC 3mdd-a1-m1-cA_3mdd-a1-m2-cB 3mdd-a1-m1-cB_3mdd-a1-m2-cA 3mde-a1-m1-cB_3mde-a1-m2-cA GFSFELTEQQKEFQATARKFAREEIIPVAAEYDRTGEYPVPLLKRAWELGLMNTHIPESFGGLGLGIIDSCLITEELAYGCTGVQTAIEANTLGQVPLIIGGNYQQQKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPASKAFTGFIVEADTPGVQIGRKEINMGQRCSDTRGIVFEDVRVPKENVLTGEGAGFKIAMGTFDKTRPPVAAGAVGLAQRALDEATKYALERKTFGKLLAEHQGISFLLADMAMKVELARLSYQRAAWEIDSGRRNTYYASIAKAYAADIANQLATDAVQVFGGNGFNTEYPVEKLMRDAKIYQIYEGTAQIQRIIIAREHIGRYK GFSFELTEQQKEFQATARKFAREEIIPVAAEYDRTGEYPVPLLKRAWELGLMNTHIPESFGGLGLGIIDSCLITEELAYGCTGVQTAIEANTLGQVPLIIGGNYQQQKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPASKAFTGFIVEADTPGVQIGRKEINMGQRCSDTRGIVFEDVRVPKENVLTGEGAGFKIAMGTFDKTRPPVAAGAVGLAQRALDEATKYALERKTFGKLLAEHQGISFLLADMAMKVELARLSYQRAAWEIDSGRRNTYYASIAKAYAADIANQLATDAVQVFGGNGFNTEYPVEKLMRDAKIYQIYEGTAQIQRIIIAREHIGRYK 3mde-a1-m2-cA_3mde-a1-m2-cB CRYSTAL STRUCTURES OF MEDIUM CHAIN ACYL-COA DEHYDROGENASE FROM PIG LIVER MITOCHONDRIA WITH AND WITHOUT SUBSTRATE P41367 P41367 2.4 X-RAY DIFFRACTION 93 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 385 385 1udy-a1-m1-cB_1udy-a1-m1-cA 1udy-a1-m1-cC_1udy-a1-m1-cD 3mdd-a1-m1-cA_3mdd-a1-m1-cB 3mdd-a1-m2-cA_3mdd-a1-m2-cB 3mde-a1-m1-cA_3mde-a1-m1-cB GFSFELTEQQKEFQATARKFAREEIIPVAAEYDRTGEYPVPLLKRAWELGLMNTHIPESFGGLGLGIIDSCLITEELAYGCTGVQTAIEANTLGQVPLIIGGNYQQQKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPASKAFTGFIVEADTPGVQIGRKEINMGQRCSDTRGIVFEDVRVPKENVLTGEGAGFKIAMGTFDKTRPPVAAGAVGLAQRALDEATKYALERKTFGKLLAEHQGISFLLADMAMKVELARLSYQRAAWEIDSGRRNTYYASIAKAYAADIANQLATDAVQVFGGNGFNTEYPVEKLMRDAKIYQIYEGTAQIQRIIIAREHIGRYK GFSFELTEQQKEFQATARKFAREEIIPVAAEYDRTGEYPVPLLKRAWELGLMNTHIPESFGGLGLGIIDSCLITEELAYGCTGVQTAIEANTLGQVPLIIGGNYQQQKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPASKAFTGFIVEADTPGVQIGRKEINMGQRCSDTRGIVFEDVRVPKENVLTGEGAGFKIAMGTFDKTRPPVAAGAVGLAQRALDEATKYALERKTFGKLLAEHQGISFLLADMAMKVELARLSYQRAAWEIDSGRRNTYYASIAKAYAADIANQLATDAVQVFGGNGFNTEYPVEKLMRDAKIYQIYEGTAQIQRIIIAREHIGRYK 3mdk-a1-m1-cA_3mdk-a1-m1-cB Structure of stringent starvation protein A (sspA) from Pseudomonas putida Q88N92 Q88N92 1.85 X-RAY DIFFRACTION 52 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 194 200 RLACYSDPADHYSHRVRLVLAEKGVSVQLIDVDPAHLPRKLAEVNPYGSVPTLVDRDLALYESTVVEYLEERYPHPPLPVYPVARGNSRLLHRIQRDWCALADTVLDPRSSEAARTEARKALRESLTGVSPLFSEFACFSDEQSLVDCCLLPILWRLPVLGIELPRQAKPLLDYERQFAREPFQASLSSVERER LGATNRLACYSDPADHYSHRVRLVLAEKGVSVQLIDVDPAHLPRKLAEVNPYGSVPTLVDRDLALYESTVVEYLEERYPHPPLPVYPVARGNSRLLHRIQRDWCALADTVLDPRSSEAARTEARKALRESLTGVSPLFSEFACFSDEQSLVDCCLLPILWRLPVLGIELPRQAKPLLDYERQFAREPFQASLSSVERERK 3mdn-a1-m1-cA_3mdn-a1-m1-cD Structure of glutamine aminotransferase class-II domain protein (SPO2029) from silicibacter pomeroyi Q5LRU5 Q5LRU5 2.09 X-RAY DIFFRACTION 24 0.995 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 214 219 3mdn-a1-m1-cB_3mdn-a1-m1-cC CRWAAYHGTPIFLEDVIGFGVAWYDARPEPGLYRDVYPAWSDPNLRAVAHHVRSGLFLSHVCHPFAARRWCFHNGQVGGFEAFRKQADAIADEFYTYRKGSTDSEVLFLLALSEGLEHDPHGALARAIARLEGLSRAHGTTPHRLSAAFSDGQTLYAARYSSDHIAPSVYYRYSHARQGWAVVSEPLDEGDWTELRPGRLTIGAEGAAERDFAP CRWAAYHGTPIFLEDVIFGVAWYDARPEPGLYRDVYPAWSDPNLRAVAHHVRSGLFLSHVNNCHPFAARRWCFHNGQVGGFEAFRKQADAIADEFYTYRKGSTDSEVLFLLALSEGLEHDPHGALARAIARLEGLSRAHGTTPHRLSAAFSDGQTLYAARYSSDHIAPSVYYRYSHARQGWAVVSEPLETDEGDWTELRPGRLTIGAEGAAERDFAPAD 3mdn-a1-m1-cB_3mdn-a1-m1-cD Structure of glutamine aminotransferase class-II domain protein (SPO2029) from silicibacter pomeroyi Q5LRU5 Q5LRU5 2.09 X-RAY DIFFRACTION 41 0.995 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 210 219 3mdn-a1-m1-cC_3mdn-a1-m1-cA CRWAAYHGTPIFLEDVIGFGVAWYDARPEPGLYRDVYPAWSDPNLRAVAHHVRSGLFLSHVNNCHPFAARRWCFHNGQVGGFEAFRKQADAIADEFYTYRKGSTDSEVLFLLALSEGLEHDPHGALARAIARLEGLSRAHGTTPHRLSAAFSDGQTLYAARYSSDHIAPSVYYRYSHARQGWAVVSEWTELRPGRLTIGAEGAAERDFAP CRWAAYHGTPIFLEDVIFGVAWYDARPEPGLYRDVYPAWSDPNLRAVAHHVRSGLFLSHVNNCHPFAARRWCFHNGQVGGFEAFRKQADAIADEFYTYRKGSTDSEVLFLLALSEGLEHDPHGALARAIARLEGLSRAHGTTPHRLSAAFSDGQTLYAARYSSDHIAPSVYYRYSHARQGWAVVSEPLETDEGDWTELRPGRLTIGAEGAAERDFAPAD 3mdn-a1-m1-cC_3mdn-a1-m1-cD Structure of glutamine aminotransferase class-II domain protein (SPO2029) from silicibacter pomeroyi Q5LRU5 Q5LRU5 2.09 X-RAY DIFFRACTION 11 0.991 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 212 219 CRWAAYHGTPIFLEDVIDGFGVAWYDARPEPGLYRDVYPAWSDPNLRAVAHHVRSGLFLSHVNNCHPFAARRWCFHNGQVGGFEAFRKQADAIADEFYTYRKGSTDSEVLFLLALSEGLEHDPHGALARAIARLEGLSRAHGTTPHRLSAAFSDGQTLYAARYSSDHIAPSVYYRYSHARQGWAVVSEPWTELRPGRLTIGAEGAAERDFAP CRWAAYHGTPIFLEDVIFGVAWYDARPEPGLYRDVYPAWSDPNLRAVAHHVRSGLFLSHVNNCHPFAARRWCFHNGQVGGFEAFRKQADAIADEFYTYRKGSTDSEVLFLLALSEGLEHDPHGALARAIARLEGLSRAHGTTPHRLSAAFSDGQTLYAARYSSDHIAPSVYYRYSHARQGWAVVSEPLETDEGDWTELRPGRLTIGAEGAAERDFAPAD 3mdo-a1-m1-cB_3mdo-a1-m1-cA Crystal structure of a Putative phosphoribosylformylglycinamidine cyclo-ligase (BDI_2101) from Parabacteroides distasonis ATCC 8503 at 1.91 A resolution A6LDR8 A6LDR8 1.91 X-RAY DIFFRACTION 152 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 351 353 DKGIFPKAFCKIIPDILGGDPEYCNIHADGAGTKSSLAYYWKETGDLSVWKGIAQDALINIDDLLCVGAVDNILVSSTIGRNKLLVPGEVISAIINGTDELLAELREGVGCYATGGETADVGDLVRTIIVDSTVTCRKRSDVIDNKNIQGGDVIVGLASSGQATYEKEYNGGGSNGLTSARHDVFSKYLAKKYPESYDAAVPKELVYSGGLKLTDKIEELGIDAGKVLSPTRTYAPVIKVLLDKLRSQIHGVHCSGGAQTKVHFVENKRVTKDNLFPIPPLFRTIQEQSGTDWSEYKVFNGHREIYIAPEHAEEVIGISKSFGIDAQIVGFVEEADKNELIIESEKGRFTY NIDKGIFPKAFCKIIPDILGGDPEYCNIHADGAGTKSSLAYYWKETGDLSVWKGIAQDALINIDDLLCVGAVDNILVSSTIGRNKLLVPGEVISAIINGTDELLAELREGVGCYATGGETADVGDLVRTIIVDSTVTCRKRSDVIDNKNIQGGDVIVGLASSGQATYEKEYNGGGSNGLTSARHDVFSKYLAKKYPESYDAAVPKELVYSGGLKLTDKIEELGIDAGKVLSPTRTYAPVIKVLLDKLRSQIHGVHCSGGAQTKVHFVENKRVTKDNLFPIPPLFRTIQEQSGTDWSEYKVFNGHREIYIAPEHAEEVIGISKSFGIDAQIVGFVEEADKNELIIESEKGRFTY 3mdp-a1-m1-cA_3mdp-a1-m2-cA Crystal structure of a Putative Cyclic nucleotide-binding protein (Gmet_1532) from Geobacter metallireducens GS-15 at 1.90 A resolution Q39VF8 Q39VF8 1.9 X-RAY DIFFRACTION 49 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 128 128 ISPERLRVYRFFASLTDEQLKDIALISEEKSFPTGSVIFKENSKADNLLLLEGGVELFYSSTVCSVVPGAIFGVSSLIKPYHYTSSARATKPVRVVDINGARLRESENNQALGQVLNNVAAAVLARLH ISPERLRVYRFFASLTDEQLKDIALISEEKSFPTGSVIFKENSKADNLLLLEGGVELFYSSTVCSVVPGAIFGVSSLIKPYHYTSSARATKPVRVVDINGARLRESENNQALGQVLNNVAAAVLARLH 3mds-a1-m1-cB_3mds-a1-m2-cB MAGANESE SUPEROXIDE DISMUTASE FROM THERMUS THERMOPHILUS P61503 P61503 1.8 X-RAY DIFFRACTION 44 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 203 203 1mng-a1-m1-cA_1mng-a1-m2-cA 1mng-a1-m1-cB_1mng-a1-m2-cB 3mds-a1-m1-cA_3mds-a1-m2-cA PYPFKLPDLGYPYEALEPHIDAKTMEIHHQKHHGAYVTNLNAALEKYPYLHGVEVEVLLRHLAALPQDIQTAVRNNGGGHLNHSLFWRLLTPGGAKEPVGELKKAIDEQFGGFQALKEKLTQAAMGRFGSGWAWLVKDPFGKLHVLSTPNQDNPVMEGFTPIVGIDVWEHAYYLKYQNRRADYLQAIWNVLNWDVAEEFFKKA PYPFKLPDLGYPYEALEPHIDAKTMEIHHQKHHGAYVTNLNAALEKYPYLHGVEVEVLLRHLAALPQDIQTAVRNNGGGHLNHSLFWRLLTPGGAKEPVGELKKAIDEQFGGFQALKEKLTQAAMGRFGSGWAWLVKDPFGKLHVLSTPNQDNPVMEGFTPIVGIDVWEHAYYLKYQNRRADYLQAIWNVLNWDVAEEFFKKA 3mds-a1-m2-cA_3mds-a1-m2-cB MAGANESE SUPEROXIDE DISMUTASE FROM THERMUS THERMOPHILUS P61503 P61503 1.8 X-RAY DIFFRACTION 50 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 203 203 1mng-a1-m1-cA_1mng-a1-m1-cB 1mng-a1-m2-cA_1mng-a1-m2-cB 3mds-a1-m1-cA_3mds-a1-m1-cB PYPFKLPDLGYPYEALEPHIDAKTMEIHHQKHHGAYVTNLNAALEKYPYLHGVEVEVLLRHLAALPQDIQTAVRNNGGGHLNHSLFWRLLTPGGAKEPVGELKKAIDEQFGGFQALKEKLTQAAMGRFGSGWAWLVKDPFGKLHVLSTPNQDNPVMEGFTPIVGIDVWEHAYYLKYQNRRADYLQAIWNVLNWDVAEEFFKKA PYPFKLPDLGYPYEALEPHIDAKTMEIHHQKHHGAYVTNLNAALEKYPYLHGVEVEVLLRHLAALPQDIQTAVRNNGGGHLNHSLFWRLLTPGGAKEPVGELKKAIDEQFGGFQALKEKLTQAAMGRFGSGWAWLVKDPFGKLHVLSTPNQDNPVMEGFTPIVGIDVWEHAYYLKYQNRRADYLQAIWNVLNWDVAEEFFKKA 3mdu-a2-m1-cA_3mdu-a2-m2-cA The structure of N-formimino-L-Glutamate Iminohydrolase from Pseudomonas aeruginosa complexed with N-Guanidino-L-Glutamate Q9HU77 Q9HU77 1.4003 X-RAY DIFFRACTION 184 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 450 450 3mdw-a5-m1-cA_3mdw-a5-m1-cB 3mdw-a6-m1-cC_3mdw-a6-m1-cD 4rdv-a1-m1-cA_4rdv-a1-m1-cB 4rdv-a2-m1-cC_4rdv-a2-m1-cD 4rdw-a1-m1-cA_4rdw-a1-m2-cA 4rzb-a1-m1-cA_4rzb-a1-m1-cB SAIFAERALLPEGWARNVRFEISADGVLAEIRPDANADGAERLGGAVLPGMPNLHSHAFQRAMAGLAEVAGNPNDSFWTWRELMYRMVARLSPEQIEVIACQLYIEMLKAGYTAVAEFHYVHHDLDGRSYADPAELSLRISRAASAAGIGLTLLPVLYSHAGFGGQPASEGQRRFINGSEAYLELLQRLRAPLEAAGHSLGLCFHSLRAVTPQQIATVLAAGHDDLPVHIHIAEQQKEVDDCQAWSGRRPLQWLYENVAVDQRWCLVHATHADPAEVAAMARSGAVAGLCLSTEANLGDGIFPATDFLAQGGRLGIGSDSHVSLSVVEELRWLEYGQRLRDRKRNRLYRDDQPMIGRTLYDAALAGGAQALGQPIGSLAVGRRADLLVLDGNDPYLASAEGDALLNRWLFAGGDRQVRDVMVAGRWVVRDGRHAGEERSARAFVQVLGEL SAIFAERALLPEGWARNVRFEISADGVLAEIRPDANADGAERLGGAVLPGMPNLHSHAFQRAMAGLAEVAGNPNDSFWTWRELMYRMVARLSPEQIEVIACQLYIEMLKAGYTAVAEFHYVHHDLDGRSYADPAELSLRISRAASAAGIGLTLLPVLYSHAGFGGQPASEGQRRFINGSEAYLELLQRLRAPLEAAGHSLGLCFHSLRAVTPQQIATVLAAGHDDLPVHIHIAEQQKEVDDCQAWSGRRPLQWLYENVAVDQRWCLVHATHADPAEVAAMARSGAVAGLCLSTEANLGDGIFPATDFLAQGGRLGIGSDSHVSLSVVEELRWLEYGQRLRDRKRNRLYRDDQPMIGRTLYDAALAGGAQALGQPIGSLAVGRRADLLVLDGNDPYLASAEGDALLNRWLFAGGDRQVRDVMVAGRWVVRDGRHAGEERSARAFVQVLGEL 3mdx-a1-m2-cA_3mdx-a1-m3-cA Crystal structure of deoxyuridine 5-triphosphate nucleotidohydrolase from Brucella melitensis, rhombohedral crystal form Q2YRG4 Q2YRG4 1.45 X-RAY DIFFRACTION 149 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 139 139 3mbq-a1-m1-cA_3mbq-a1-m1-cC 3mbq-a1-m1-cB_3mbq-a1-m1-cA 3mbq-a1-m1-cB_3mbq-a1-m1-cC 3mdx-a1-m1-cA_3mdx-a1-m2-cA 3mdx-a1-m1-cA_3mdx-a1-m3-cA APTLGIIRLEHAKGLDLPAYETAGSAGMDLRAAVAEDRQIVLLPGRRTLVPTGLILEIPQGYEVQIRPRSGLAFKNGITCLNTPGTIDSDYRGEVKVLLINLGDDDFRIERGMRIAQAVFAPVIQPKIEERAKRGAGGF APTLGIIRLEHAKGLDLPAYETAGSAGMDLRAAVAEDRQIVLLPGRRTLVPTGLILEIPQGYEVQIRPRSGLAFKNGITCLNTPGTIDSDYRGEVKVLLINLGDDDFRIERGMRIAQAVFAPVIQPKIEERAKRGAGGF 3me2-a1-m2-cA_3me2-a1-m3-cA Crystal structure of mouse RANKL-RANK complex O35235 O35235 2.8 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 156 156 1iqa-a1-m1-cA_1iqa-a1-m1-cB 1iqa-a1-m1-cA_1iqa-a1-m1-cC 1iqa-a1-m1-cB_1iqa-a1-m1-cC 1jtz-a1-m1-cX_1jtz-a1-m1-cY 1jtz-a1-m1-cX_1jtz-a1-m1-cZ 1jtz-a1-m1-cY_1jtz-a1-m1-cZ 1s55-a1-m1-cA_1s55-a1-m1-cB 1s55-a1-m1-cA_1s55-a1-m1-cC 1s55-a1-m1-cB_1s55-a1-m1-cC 3me2-a1-m1-cA_3me2-a1-m2-cA 3me2-a1-m1-cA_3me2-a1-m3-cA 3qbq-a1-m1-cA_3qbq-a1-m2-cA 3qbq-a1-m1-cA_3qbq-a1-m3-cA 3qbq-a1-m2-cA_3qbq-a1-m3-cA 3qbq-a2-m1-cC_3qbq-a2-m4-cC 3qbq-a2-m1-cC_3qbq-a2-m5-cC 3qbq-a2-m4-cC_3qbq-a2-m5-cC 3urf-a1-m1-cA_3urf-a1-m2-cA 3urf-a1-m1-cA_3urf-a1-m3-cA 3urf-a1-m2-cA_3urf-a1-m3-cA 4e4d-a1-m1-cX_4e4d-a1-m3-cX 4e4d-a2-m1-cX_4e4d-a2-m3-cX 4giq-a1-m1-cA_4giq-a1-m2-cA 4giq-a1-m1-cA_4giq-a1-m3-cA 4giq-a1-m2-cA_4giq-a1-m3-cA 5bnq-a1-m1-cA_5bnq-a1-m2-cA 5bnq-a1-m1-cA_5bnq-a1-m3-cA 5bnq-a1-m2-cA_5bnq-a1-m3-cA AQPFAHLTINAASIPSGSHKVTLSSWYHDRGWAKISNMTLSNGKLRVNQDGFYYLYANICFRHHETSGSVPTDYLQLMVYVVKTSIKIPSSHNLMKGGSTKNWSGNSEFHFYSINVGGFFKLRAGEEISIQVSNPSLLDPDQDATYFGAFKVQDID AQPFAHLTINAASIPSGSHKVTLSSWYHDRGWAKISNMTLSNGKLRVNQDGFYYLYANICFRHHETSGSVPTDYLQLMVYVVKTSIKIPSSHNLMKGGSTKNWSGNSEFHFYSINVGGFFKLRAGEEISIQVSNPSLLDPDQDATYFGAFKVQDID 3me4-a1-m1-cB_3me4-a1-m1-cA Crystal structure of mouse RANK O35305 O35305 2.01 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 150 169 TQERHYEHLGRCCSRCEPGKYLSSKCTPTSDSVCLPCGPDEYLDTWNEEDKCLLHKVCDAGKALVAVDPGNHTAPRRCACTAGYHWNSDCECCRRNTECAPGFGAQHPLQLNKDTVCTPCLLGFFSDVFSSTDKCKPWTNCQGTTESDVV PPCTQERHYEHLGRCCSRCEPGKYLSSKCTPTSDSVCLPCGPDEYLDTWNEEDKCLLHKVCDAGKALVAVDPGNHTAPRRCACTAGYHWNSDCECCRRNTECAPGFGAQHPLQLNKDTVCTPCLLGFFSDVFSSTDKCKPWTNCTLLGKLEAHQGTTESDVVCSSSMTL 3me9-a1-m2-cA_3me9-a1-m1-cB Crystal structure of SGF29 in complex with H3K4me3 peptide Q96ES7 Q96ES7 1.37 X-RAY DIFFRACTION 31 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 172 174 3meu-a1-m1-cD_3meu-a1-m1-cB GRRGVLTLLQQSATLPLWIGKPGDKPPPLCGAIPASGDYVARPGDKVAARVKAVDGDEQWILAEVVSYSHATNKYEVDDIDEEGKERHTLSRRRVIPLPQWKANPETDPEALFQKEQLVLALYPQTTCFYRALIHAPPQRPQDDYSVLFEDTSYADGYSPPLNVAQRYVVAC RGVLTLLQQSATLPLWIGKPGDKPPPLCGAIPASGDYVARPGDKVAARVKAVDGDEQWILAEVVSYSHATNKYEVDDIDEEGKERHTLSRRRVIPLPQWKANPETDPEALFQKEQLVLALYPQTTCFYRALIHAPPQRPQDDYSVLFEDTSYADGYSPPLNVAQRYVVACKEPK 3meb-a1-m1-cA_3meb-a1-m1-cB Structure of cytoplasmic aspartate aminotransferase from giardia lamblia A8B1V5 A8B1V5 1.9 X-RAY DIFFRACTION 250 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 426 426 MSVFSGFPASPPDAILNLTVLYNADTNPKKVNLGVGAYRDESGKPWILPAVKEAEAIISSDLSKYNKEYPPVAGFPLFLEAAQFLMFGKDSKAAQEGRIASCQSLSGTGSLHIGFEFLHLWMPKAEFYMPSTTWPNHYGIYDKVFNKLKVPYKEYTYLRKDGELEIDFSNTKKDIQSAPEKSIFLFHACAHNPSGIDFTEAQWKELLPIMKEKKHIAFFDSAYQGFATGSFEADAFAVRMFVDAGVEVLVAQSFSKNFGLYGERIGCLHVVHAGVEGSVEKNKALSAAMVSGMTLQIRKTWSMSAIHGAYIVQVIVHDKRLLQMFYDNVKEMSARIHRMRSLLHASLAKRKTPGPGSKGTWDHILTAIGMFTFTGLTPEHVDYLKEKWSIYLVKAGGRMSMCGLTESNCDYVAEAIHDAVTKLPFK MSVFSGFPASPPDAILNLTVLYNADTNPKKVNLGVGAYRDESGKPWILPAVKEAEAIISSDLSKYNKEYPPVAGFPLFLEAAQFLMFGKDSKAAQEGRIASCQSLSGTGSLHIGFEFLHLWMPKAEFYMPSTTWPNHYGIYDKVFNKLKVPYKEYTYLRKDGELEIDFSNTKKDIQSAPEKSIFLFHACAHNPSGIDFTEAQWKELLPIMKEKKHIAFFDSAYQGFATGSFEADAFAVRMFVDAGVEVLVAQSFSKNFGLYGERIGCLHVVHAGVEGSVEKNKALSAAMVSGMTLQIRKTWSMSAIHGAYIVQVIVHDKRLLQMFYDNVKEMSARIHRMRSLLHASLAKRKTPGPGSKGTWDHILTAIGMFTFTGLTPEHVDYLKEKWSIYLVKAGGRMSMCGLTESNCDYVAEAIHDAVTKLPFK 3mel-a2-m1-cC_3mel-a2-m1-cD Crystal Structure of Thiamin pyrophosphokinase family protein from Enterococcus faecalis, Northeast Structural Genomics Consortium Target EfR150 Q82ZE3 Q82ZE3 2.788 X-RAY DIFFRACTION 104 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 211 211 3mel-a1-m1-cA_3mel-a1-m1-cB SRVLLVAGGNPSDWPTIEPATYDYFVGIDRGCLHLLEADLPLQLAVGDFDSLSREEYHFVQETTETLIQAPAEKDDTDTQLALQEALQRFPQAETIIGATGGRIDHLLANLWLPFEPRFQGVLRQIRLCDRQNSIQYYAPGSYIVPKEPDKEYLAYCCLTPVENLTLRRSKYLLTNQDVPYPTSYASNEFIEEAAAFSFDAGIAVIQSKDK SRVLLVAGGNPSDWPTIEPATYDYFVGIDRGCLHLLEADLPLQLAVGDFDSLSREEYHFVQETTETLIQAPAEKDDTDTQLALQEALQRFPQAETIIGATGGRIDHLLANLWLPFEPRFQGVLRQIRLCDRQNSIQYYAPGSYIVPKEPDKEYLAYCCLTPVENLTLRRSKYLLTNQDVPYPTSYASNEFIEEAAAFSFDAGIAVIQSKDK 3men-a2-m1-cC_3men-a2-m1-cD Crystal structure of acetylpolyamine aminohydrolase from Burkholderia pseudomallei, iodide soak Q3JUN4 Q3JUN4 2.2 X-RAY DIFFRACTION 138 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 337 339 3men-a1-m1-cA_3men-a1-m1-cB SMLTYFHPDQSLHHPRTYFSRGRMRMPQEVPERAARLVAAAFAMGFPVREPDDFGIAPIAAVHDTHYLRFLETVHREWKAMPEDWGDEAMSNIFVREPNALRGVLAQAARHLADGSCPVGEHTWRAAYWSAQSALAAAAAVRDGAPAAYALCRPPGHHARVDAAGGFCYLNNAAIAAQALRARHARVAVLDTDMHHGQGIQEIFYARRDVLYVSIHGDPTNFYPAVAGFDDERGAGEGLGYNVNLPMPHGSSEAAFFERVDDALRELRRFAPDALVLSLGFDVYRDDPQSQVAVTTDGFGRLGHLIGALRLPTVIVQEGGYHIESLEANARSFFGGF SMLTYFHPDQSLHHPRTYFSRGRMRMPQEVPERAARLVAAAFAMGFPVREPDDFGIAPIAAVHDTHYLRFLETVHREWKAMPEDWGDEAMSNIFVREPNALRGVLAQAARHLADGSCPVGEHTWRAAYWSAQSALAAAAAVRDGAPAAYALCRPPGHHARVDAAGGFCYLNNAAIAAQALRARHARVAVLDTDMHHGQGIQEIFYARRDVLYVSIHGDPTNFYPAVAGFDDERGAGEGLGYNVNLPMPHGSSEAAFFERVDDALRELRRFAPDALVLSLGFDVYRDDPQSQVAVTTDGFGRLGHLIGALRLPTVIVQEGGYHIESLEANARSFFGGFGA 3mep-a2-m1-cC_3mep-a2-m1-cB Crystal Structure of ECA2234 protein from Erwinia carotovora, Northeast Structural Genomics Consortium Target EwR44 Q6D507 Q6D507 2.3 X-RAY DIFFRACTION 70 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 175 176 3mep-a1-m1-cA_3mep-a1-m2-cA NTWINRPEYSEVSEDRIVIVSDANTDFWENTYYDFSHYTGHVYGKETESDFTFQVRVKADFSALYDQAGIFIGGTETAWIKAGIEFNDGQPSIGCVVTNNNSDWSTGLFPGNPGDFWRVTSKSDVIRIQYSIDGKNWPLLRLCTWPGTRKRFIGVCCSPKRKGLSAEFTEILLTT NTWINRPEYSEVSEDRIVIVSDANTDFWENTYYDFSHYTGHVYGKETESDFTFQVRVKADFSALYDQAGIFIGGTETAWIKAGIEFNDGQPSIGCVVTNNNSDWSTGLFPGNPGDFWRVTSKSDVIRIQYSIDGKNWPLLRLCTWPGTRKRFIGVCCSPKRKGLSAEFTEILLTTP 3meq-a1-m1-cB_3meq-a1-m1-cD Crystal structure of alcohol dehydrogenase from Brucella melitensis A0A0H3G9R2 A0A0H3G9R2 2 X-RAY DIFFRACTION 22 1.0 29461 (Brucella suis) 29461 (Brucella suis) 337 337 3meq-a1-m1-cC_3meq-a1-m1-cA KTMKAAVVRAFGKPLTIDEVPIPQPGPGQIQVAIQASGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGFVSAVGSGVKHVKEGDRVGIPWLYTACGHCRHCLGGWETLCEEQLNTGYSVNGGFAEYVVADPNFVGHLPKNIDFNEIAPVLCAGVTVYKGLKVTDTKPGDWVVISGIGGLGHMAVQYARAMGLNVAAVDIDDRKLDLARRLGATVTVNAKTVADPAAYIRKETDGGAQGVLVTAVSPKAFEQALGMVARGGTVSLNGLPPGDFPLSIFNMVLNGVTVRGSIVGTRLDLQESLDFAADGKVKATIQTGKLEDINAIFDDMRGRIVMDLTQ KTMKAAVVRAFGKPLTIDEVPIPQPGPGQIQVAIQASGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGFVSAVGSGVKHVKEGDRVGIPWLYTACGHCRHCLGGWETLCEEQLNTGYSVNGGFAEYVVADPNFVGHLPKNIDFNEIAPVLCAGVTVYKGLKVTDTKPGDWVVISGIGGLGHMAVQYARAMGLNVAAVDIDDRKLDLARRLGATVTVNAKTVADPAAYIRKETDGGAQGVLVTAVSPKAFEQALGMVARGGTVSLNGLPPGDFPLSIFNMVLNGVTVRGSIVGTRLDLQESLDFAADGKVKATIQTGKLEDINAIFDDMRGRIVMDLTQ 3meq-a1-m1-cC_3meq-a1-m1-cD Crystal structure of alcohol dehydrogenase from Brucella melitensis A0A0H3G9R2 A0A0H3G9R2 2 X-RAY DIFFRACTION 30 1.0 29461 (Brucella suis) 29461 (Brucella suis) 336 337 3meq-a1-m1-cB_3meq-a1-m1-cA KTMKAAVVRAFGKPLTIDEVPIPQPGPGQIQVAIQASGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGFVSAVGSGVKHVKEGDRVGIPWLYTACGHCRHCLGGWETLCEEQLNTGYSVNGGFAEYVVADPNFVGHLPKNIDFNEIAPVLCAGVTVYKGLKVTDTKPGDWVVISGIGGLGHMAVQYARAMGLNVAAVDIDDRKLDLARRLGATVTVNAKTVADPAAYIRKETDGGAQGVLVTAVSPKAFEQALGMVARGGTVSLNGLPPGDFPLSIFNMVLNGVTVRGSIVGTRLDLQESLDFAADGKVKATIQTGKLEDINAIFDDMRGRIVMDLT KTMKAAVVRAFGKPLTIDEVPIPQPGPGQIQVAIQASGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGFVSAVGSGVKHVKEGDRVGIPWLYTACGHCRHCLGGWETLCEEQLNTGYSVNGGFAEYVVADPNFVGHLPKNIDFNEIAPVLCAGVTVYKGLKVTDTKPGDWVVISGIGGLGHMAVQYARAMGLNVAAVDIDDRKLDLARRLGATVTVNAKTVADPAAYIRKETDGGAQGVLVTAVSPKAFEQALGMVARGGTVSLNGLPPGDFPLSIFNMVLNGVTVRGSIVGTRLDLQESLDFAADGKVKATIQTGKLEDINAIFDDMRGRIVMDLTQ 3meq-a1-m1-cD_3meq-a1-m1-cA Crystal structure of alcohol dehydrogenase from Brucella melitensis A0A0H3G9R2 A0A0H3G9R2 2 X-RAY DIFFRACTION 113 0.997 29461 (Brucella suis) 29461 (Brucella suis) 337 341 3meq-a1-m1-cC_3meq-a1-m1-cB KTMKAAVVRAFGKPLTIDEVPIPQPGPGQIQVAIQASGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGFVSAVGSGVKHVKEGDRVGIPWLYTACGHCRHCLGGWETLCEEQLNTGYSVNGGFAEYVVADPNFVGHLPKNIDFNEIAPVLCAGVTVYKGLKVTDTKPGDWVVISGIGGLGHMAVQYARAMGLNVAAVDIDDRKLDLARRLGATVTVNAKTVADPAAYIRKETDGGAQGVLVTAVSPKAFEQALGMVARGGTVSLNGLPPGDFPLSIFNMVLNGVTVRGSIVGTRLDLQESLDFAADGKVKATIQTGKLEDINAIFDDMRGRIVMDLTQ KTMKAAVVRAFGKPLTIDEVPIPQPGPGQIQVAIQASGVCHTDLHAAEGDWPVKPNPPFIPGHEGVGFVSAVGSGVKHVKEGDRVGIPWLYTACGHCRHCLGGWETLCEEQLNTGYSVNGGFAEYVVADPNFVGHLPKNIDFNEIAPVLCAGVTVYKGLKVTDTKPGDWVVISGIGGLGHMAVQYARAMGLNVAAVDIDDRKLDLARRLGATVTVNAKTVADPAAYIRKETDGGAQGVLVTAVSPKAFEQALGMVARGGTVSLNGLPPGDFPLSIFNMVLNGVTVRGSIVGTRLDLQESLDFAADGKVKATIQTGKLEDINAIFDDMRQGNIEGRIVMDLT 3mes-a1-m1-cA_3mes-a1-m1-cB Crystal structure of choline kinase from Cryptosporidium parvum Iowa II, cgd3_2030 Q5CUP2 Q5CUP2 2.35 X-RAY DIFFRACTION 77 0.997 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 357 358 DTEIIIGICRKNIPGWKEINESYIEVKQIFSGLTNQLFVVSIVNELKHPRILFRIYGKHVKFYDSKVELDVFRYLSNINIAPNIIADFPEGRIEEFIDGEPLTTKQLQLTHICVEVAKNMGSLHIINSKRADFPSRFDKEPILFKRIYLWREEAKIQVSKNNIDKELYSKILEEIDQLEELIMGGEKFSMERALELKLYSPAFSLVFAHNDLQENNLLQTQNNIRMIDYEYSAINFAGADIANYFCEYIYDYCSEKQPYFKFKYEDYPCEELRKLFISVYLSQTLQEQVMPSQQIVHIMTKAVEVFTLISHITWGLWSIAVEFDFTEYANTRFTHYLQKKKELIDQGILPLNSWLFN DTEIIIGICRKNIPGWKEINESYIEVKQIFSGLTNQLFVVSIVNELKHPRILFRIYGKHVFYDSKVELDVFRYLSNINIAPNIIADFPEGRIEEFIDGEPLTTKQLQLTHICVEVAKNMGSLHIINSKRADFPSRFDKEPILFKRIYLWREEAKIQVSKNNQIDKELYSKILEEIDQLEELIMGGEKFSMERALELKLYSPAFSLVFAHNDLQENNLLQTQNNIRMIDYEYSAINFAGADIANYFCEYIYDYCSEKQPYFKFKYEDYPCEELRKLFISVYLSQTLQEQVMPSQQIVHIMTKAVEVFTLISHITWGLWSIASVEFDFTEYANTRFTHYLQKKKELIDQGILPLNSWLFN 3meu-a1-m1-cA_3meu-a1-m1-cB Crystal structure of SGF29 in complex with H3R2me2sK4me3 Q96ES7 Q96ES7 1.28 X-RAY DIFFRACTION 52 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 173 174 3mev-a1-m1-cA_3mev-a1-m1-cB GRRGVLTLLQQSATLPLWIGKPGDKPPPLCGAIPASGDYVARPGDKVAARVKAVDGDEQWILAEVVSYSHATNKYEVDDIDEEGKERHTLSRRRVIPLPQWKANPETDPEALFQKEQLVLALYPQTTCFYRALIHAPPQRPQDDYSVLFEDTSYADGYSPPLNVAQRYVVACK RGVLTLLQQSATLPLWIGKPGDKPPPLCGAIPASGDYVARPGDKVAARVKAVDGDEQWILAEVVSYSHATNKYEVDDIDEEGKERHTLSRRRVIPLPQWKANPETDPEALFQKEQLVLALYPQTTCFYRALIHAPPQRPQDDYSVLFEDTSYADGYSPPLNVAQRYVVACKEPK 3mez-a1-m1-cD_3mez-a1-m1-cB X-ray structural analysis of a mannose specific lectin from dutch crocus (crocus vernus) P86626 P86626 1.94 X-RAY DIFFRACTION 46 1.0 87752 (Crocus vernus) 87752 (Crocus vernus) 112 113 NIPRVRNVLFSSQVMYDNAQLATRDYSLVMRDDCNLVLTKGSKTNIVWESGTSGRGQHCFMRLGHSGELDITDDRLNTVFVSNTVGQEGDYVLILQINGQAVVYGPAVWSTA NIPRVRNVLFSSQVMYDNAQLATRDYSLVMRDDCNLVLTKGSKTNIVWESGTSGRGQHCFMRLGHSGELDITDDRLNTVFVSNTVGQEGDYVLILQINGQAVVYGPAVWSTAA 3mf5-a2-m1-cA_3mf5-a2-m1-cB Hepatitis C virus polymerase NS5B (BK) with amide bioisostere thumb site inhibitor P26663 P26663 2 X-RAY DIFFRACTION 39 1.0 11105 (Hepatitis C virus (isolate BK)) 11105 (Hepatitis C virus (isolate BK)) 557 557 3mf5-a1-m1-cA_3mf5-a1-m1-cB HMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPIPAASRLDLSGWFVAGYSGGDIYH HMSYTWTGALITPCAAEESKLPINALSNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPIPAASRLDLSGWFVAGYSGGDIYH 3mfn-a2-m1-cD_3mfn-a2-m1-cB Dfer_2879 protein of unknown function from Dyadobacter fermentans C6W4J3 C6W4J3 2.02 X-RAY DIFFRACTION 59 1.0 471854 (Dyadobacter fermentans DSM 18053) 471854 (Dyadobacter fermentans DSM 18053) 118 124 3mfn-a1-m1-cA_3mfn-a1-m1-cC LSAQEAVIEAKRYLNNAKDILRDKGGKEDGFYQDSKYVKAGHTAYSGVLFALDHYFGKDVDWYKSNLAQQDKKILNTFVSVYEQLHLVAYDGVGDAEVVKLGFQRAEIIIDWVERRLA LSAQEAVIEAKRYLNNAKDILRDKGGKEDGFYQDSKYVKAGHTAYSGVLFALDHYFGKKTKGRKDVDWYKSNLAQQDKKILNTFVSVYEQLHLVAYDGVGDAEVVKLGFQRAEIIIDWVERRLA 3mfx-a2-m1-cC_3mfx-a2-m2-cC Crystal Structure of the sensory box domain of the sensory-box/GGDEF protein SO_1695 from Shewanella oneidensis, Northeast Structural Genomics Consortium Target SoR288B Q8EGB0 Q8EGB0 2.4 X-RAY DIFFRACTION 65 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 108 108 3mfx-a1-m1-cA_3mfx-a1-m1-cB SSLETIELFIQHLTEAILVNANGFIRSCNQRSAELLDCPQVSLKGQDWRNFLTEHHQARYDNLLSHDGQPVQHPAQETTLICASGKAKDVELSISYIPGHEPFVVHDL SSLETIELFIQHLTEAILVNANGFIRSCNQRSAELLDCPQVSLKGQDWRNFLTEHHQARYDNLLSHDGQPVQHPAQETTLICASGKAKDVELSISYIPGHEPFVVHDL 3mg9-a1-m1-cA_3mg9-a1-m2-cA Teg 12 Binary Structure Complexed with the Teicoplanin Aglycone B7T1D7 B7T1D7 2.27 X-RAY DIFFRACTION 72 1.0 164851 (uncultured soil bacterium) 164851 (uncultured soil bacterium) 255 255 XXXXSMNGIRWIASYPKAGNTWVRCMLAAYITGKAPQVWNDIDAESLTLEAMLRFGDLPPAEPMEPVLVKTHLKADVPVLGLYGEATAKVLYLVRNPRDMLLSSMRMASISRDDVEKSRDFARKFIANEGLGWNGGVGLGSWPENVRSWTESSSDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGGPVDIEDIRRAVAASTLERMRELEKRSEGRYDQSLSFLGEDIESDYQELLHGDSGFALYAKQYGYAG XXXXSMNGIRWIASYPKAGNTWVRCMLAAYITGKAPQVWNDIDAESLTLEAMLRFGDLPPAEPMEPVLVKTHLKADVPVLGLYGEATAKVLYLVRNPRDMLLSSMRMASISRDDVEKSRDFARKFIANEGLGWNGGVGLGSWPENVRSWTESSSDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGGPVDIEDIRRAVAASTLERMRELEKRSEGRYDQSLSFLGEDIESDYQELLHGDSGFALYAKQYGYAG 3mgb-a1-m1-cB_3mgb-a1-m1-cA Teg 12 Ternary Structure Complexed with PAP and the Teicoplanin Aglycone B7T1D7 B7T1D7 2.04 X-RAY DIFFRACTION 52 0.985 164851 (uncultured soil bacterium) 164851 (uncultured soil bacterium) 264 286 MNGIRWIASYPKAGNTWVRCMLAAYITGKAPQVWNDIDAESLTLEAMLRFGDLPPAEPMEPVLVKTHLKADVPVLGLYGEATAKVLYLVRNPRDMLLSSMRMASISRDDVEKSRDFARKFIANEGLGWNGVGLGSWPENVRSWTESSSDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGGPVDIEDIRRAVAASTLERMRELEKRSEQQGGGSPIRPQFVGEGRYDQSLSFLGEDIESDYQELLHGDSGFALYAKQYGYAG SSHHHHHHSSSMNGIRWIASYPKAGNTWVRCMLAAYITGKAPQVWNDIDAESLTLEAMLRFGDLPPAEPMEPVLVKTHLKADVPVLGLYGEATAKVLYLVRNPRDMLLSSMRMASISRDDVEKSRDFARKFIANEGLGWNALGAGGGVGLGSWPENVRSWTESSSDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGGPVDIEDIRRAVAASTLERMRELEKRSGGSPIMMKGGPGGARPQFVGEGRYDQSLSFLGEDIESDYQELLHGDSGFALYAKQYGYAG 3mgc-a2-m1-cA_3mgc-a2-m2-cA Teg12 Apo B7T1D7 B7T1D7 2.91 X-RAY DIFFRACTION 174 1.0 164851 (uncultured soil bacterium) 164851 (uncultured soil bacterium) 255 255 SSHHHHHHSSGLVPRGSHMASMSMNGIRWIASYPKAGNTWVRCMLAAYITGKAPQVWNDIDAESLTLEAMLRFGDLPPAEPMEPVLVKTHLKADVPVLGLYGEATAKVLYLVRNPRDMLLSSMRMASISRDDVEKSRDFARKFIANEGLGWNGVGLGSWPENVRSWTESSSDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGGPVDIEDIRRAVAASQSLSFLGEDIESDYQELLHGDSGFALYAKQYGYAG SSHHHHHHSSGLVPRGSHMASMSMNGIRWIASYPKAGNTWVRCMLAAYITGKAPQVWNDIDAESLTLEAMLRFGDLPPAEPMEPVLVKTHLKADVPVLGLYGEATAKVLYLVRNPRDMLLSSMRMASISRDDVEKSRDFARKFIANEGLGWNGVGLGSWPENVRSWTESSSDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGGPVDIEDIRRAVAASQSLSFLGEDIESDYQELLHGDSGFALYAKQYGYAG 3mgd-a2-m1-cB_3mgd-a2-m3-cB Crystal Structure of predicted acetyltransferase with acetyl-CoA from Clostridium acetobutylicum at the resolution 1.9A, Northeast Structural Genomics Consortium Target CaR165 Q97MN4 Q97MN4 1.9 X-RAY DIFFRACTION 169 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 149 149 3mgd-a1-m1-cA_3mgd-a1-m2-cA NYRKADKDISLLVSIRKRQLIDEGIEPNIDIDKELTRYFNNKLANNLLVEWIAEENNQIIATAAIAFIDFPPTYTNKTGRKGYITNYTEPTSRGNGIATGLDRLVNEAKERNIHKICLVASKLGRPVYKKYGFQDTDEWLELNLLEHHH NYRKADKDISLLVSIRKRQLIDEGIEPNIDIDKELTRYFNNKLANNLLVEWIAEENNQIIATAAIAFIDFPPTYTNKTGRKGYITNYTEPTSRGNGIATGLDRLVNEAKERNIHKICLVASKLGRPVYKKYGFQDTDEWLELNLLEHHH 3mgg-a1-m1-cA_3mgg-a1-m1-cB Crystal Structure of Methyl Transferase from Methanosarcina mazei Q8PVL4 Q8PVL4 1.86 X-RAY DIFFRACTION 74 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 242 249 ETLEKLLHHDTVYPPGAKVLEAGCGIGAQTVILAKNNPDAEITSIDISPESLEKARENTEKNGIKNVKFLQANIFSLPFEDSSFDHIFVCFVLEHLQSPEEALKSLKKVLKPGGTITVIEGDHGSCYFHPEGKKAIEAWNCLIRVQAYKGNSLVGRQIYPLLQESGFEKIRVEPRVYIDSSKPELVDGFILKTIIPVEGVKEQSLKQIIKEEEWEKGIEELHKTAEHGGTFCYTFFKGWGTK LSEQAETLEKLLHHDTVYPPGAKVLEAGCGIGAQTVILAKNNPDAEITSIDISPESLEKARENTEKNGIKNVKFLQANIFSLPFEDSSFDHIFVCFVLEHLQSPEEALKSLKKVLKPGGTITVIEGDHGSCYFHPEGKKAIEAWNCLIRVQAYKGNSLVGRQIYPLLQESGFEKIRVEPRVYIDSSKPELVDGFILKTIIPVEGVKEQSLKQIIKEEEWEKGIEELHKTAEHGGTFCYTFFKGWGTKEG 3mgj-a1-m1-cB_3mgj-a1-m1-cA Crystal structure of the Saccharop_dh_N domain of MJ1480 protein from Methanococcus jannaschii. Northeast Structural Genomics Consortium Target MjR83a. Q58875 Q58875 2.703 X-RAY DIFFRACTION 32 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 83 93 FREIELRGHIIDSLILPKVFDKILDGGDYKVLEFEIGKRKTDPSYAKILVIGRDERHVDEILNELRDLGAEIPEIEEVELQPA FREIELRGHIIDSLILPKVFDKILDGGDYKVLEFEIGKRKTDPSYAKILVIGRDERHVDEILNELRDLGAEIPEIEEVELQPAEKDVLPEGFY 3mgk-a1-m1-cA_3mgk-a1-m1-cB CRYSTAL STRUCTURE OF PROBABLE PROTEASE/AMIDASE FROM Clostridium acetobutylicum ATCC 824 Q97FB4 Q97FB4 2 X-RAY DIFFRACTION 114 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 199 201 SYRIDVLLFNKFETLDVFGPVEIFGNLQDDFELNFISSDGGLVESSQKVRVETSLYTRDENIEKILFVPGGSGTREKVNDDNFINFIGNMVKESKYIISVCTGSALLSKAGILNGKRATTNKRSFKWVTEQNEDVLWVKEARWVKDGNIYTSSGVSAGIDMTLGFIEDLIGKEKALEISRSIEYFWNEDSNYDPFSKIY SLSYRIDVLLFNKFETLDVFGPVEIFGNLQDDFELNFISSDGGLVESSQKVRVETSLYTRDENIEKILFVPGGSGTREKVNDDNFINFIGNMVKESKYIISVCTGSALLSKAGILNGKRATTNKRSFKWVTEQNEDVLWVKEARWVKDGNIYTSSGVSAGIDMTLGFIEDLIGKEKALEISRSIEYFWNEDSNYDPFSKIY 3mh4-a2-m11-cB_3mh4-a2-m9-cB HtrA proteases are activated by a conserved mechanism that can be triggered by distinct molecular cues P0C0V0 P0C0V0 3.1 X-RAY DIFFRACTION 59 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 383 383 1ky9-a2-m10-cB_1ky9-a2-m11-cB 1ky9-a2-m10-cB_1ky9-a2-m9-cB 1ky9-a2-m11-cB_1ky9-a2-m9-cB 1ky9-a2-m1-cB_1ky9-a2-m7-cB 1ky9-a2-m1-cB_1ky9-a2-m8-cB 1ky9-a2-m7-cB_1ky9-a2-m8-cB 2zle-a1-m1-cA_2zle-a1-m1-cB 2zle-a1-m1-cA_2zle-a1-m1-cC 2zle-a1-m1-cB_2zle-a1-m1-cC 2zle-a1-m1-cE_2zle-a1-m1-cF 2zle-a1-m1-cE_2zle-a1-m1-cG 2zle-a1-m1-cF_2zle-a1-m1-cG 2zle-a1-m1-cH_2zle-a1-m1-cI 2zle-a1-m1-cH_2zle-a1-m1-cJ 2zle-a1-m1-cI_2zle-a1-m1-cJ 2zle-a1-m1-cK_2zle-a1-m1-cL 2zle-a1-m1-cK_2zle-a1-m1-cM 2zle-a1-m1-cL_2zle-a1-m1-cM 3mh4-a2-m10-cB_3mh4-a2-m11-cB 3mh4-a2-m10-cB_3mh4-a2-m9-cB 3mh4-a2-m1-cB_3mh4-a2-m7-cB 3mh4-a2-m1-cB_3mh4-a2-m8-cB 3mh4-a2-m7-cB_3mh4-a2-m8-cB 3mh5-a1-m1-cA_3mh5-a1-m2-cA 3mh5-a1-m1-cA_3mh5-a1-m3-cA 3mh5-a1-m2-cA_3mh5-a1-m3-cA 3mh5-a1-m4-cA_3mh5-a1-m5-cA 3mh5-a1-m4-cA_3mh5-a1-m6-cA 3mh5-a1-m5-cA_3mh5-a1-m6-cA 3mh5-a2-m10-cB_3mh5-a2-m11-cB 3mh5-a2-m10-cB_3mh5-a2-m9-cB 3mh5-a2-m11-cB_3mh5-a2-m9-cB 3mh5-a2-m1-cB_3mh5-a2-m7-cB 3mh5-a2-m1-cB_3mh5-a2-m8-cB 3mh5-a2-m7-cB_3mh5-a2-m8-cB QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNAGGALVNLNGELIGINTAILAIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNAGGALVNLNGELIGINTAILAIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL 3mh4-a2-m7-cB_3mh4-a2-m9-cB HtrA proteases are activated by a conserved mechanism that can be triggered by distinct molecular cues P0C0V0 P0C0V0 3.1 X-RAY DIFFRACTION 49 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 383 383 1ky9-a2-m10-cB_1ky9-a2-m8-cB 1ky9-a2-m11-cB_1ky9-a2-m7-cB 1ky9-a2-m1-cB_1ky9-a2-m9-cB 3mh4-a2-m11-cB_3mh4-a2-m8-cB 3mh4-a2-m1-cB_3mh4-a2-m10-cB 3mh5-a2-m11-cB_3mh5-a2-m8-cB 3mh5-a2-m1-cB_3mh5-a2-m10-cB 3mh5-a2-m7-cB_3mh5-a2-m9-cB QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNAGGALVNLNGELIGINTAILAIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL QMPSLAPMLEKVMPSVVSINVEGSTTVNTPRMPGQQQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRENFIQTDAAINRGNAGGALVNLNGELIGINTAILAIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLL 3mhp-a1-m1-cB_3mhp-a1-m1-cA FNR-recruitment to the thylakoid P10933 P10933 1.7 X-RAY DIFFRACTION 25 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 289 296 SKKQDENIVVNKFKPKEPYVGRCLLNTKITGDDAPGETWHMVFSTEGEVPYREGQSIGIVPDGIDKNGKPHKLRLYSIASSAIGDFGDSKTVSLCVKRLVYVKGVCSNFLCDLKPGSEVKITGPVGKEMLMPKDPNATVIMLGTGTGIAPFRSFLWKMFFEKHEDYQFNGLAWLFLGVPTSSSLLYKEEFEKMKEKAPENFRLDFAVSREQVNDKGEKMYIQTRMAQYAEELWELLKKDNTFVYMCGLKGMEKGIDDIMVSLAAKDGIDWIEYKRTLKKAEQWNVEVYL SKKQDENIVVNKFKPKEPYVGRCLLNTKITGDDAPGETWHMVFSTEGEVPYREGQSIGIVPDGIDKNGKPHKLRLYSIASSAIGDFGDSKTVSLCVKRLVYTNDAGEVVKGVCSNFLCDLKPGSEVKITGPVGKEMLMPKDPNATVIMLGTGTGIAPFRSFLWKMFFEKHEDYQFNGLAWLFLGVPTSSSLLYKEEFEKMKEKAPENFRLDFAVSREQVNDKGEKMYIQTRMAQYAEELWELLKKDNTFVYMCGLKGMEKGIDDIMVSLAAKDGIDWIEYKRTLKKAEQWNVEVYL 3mhx-a1-m1-cB_3mhx-a1-m1-cA Crystal Structure of Stenotrophomonas maltophilia FeoA complexed with Zinc: A Unique Procaryotic SH3 Domain Protein Possibly Acting as a Bacterial Ferrous Iron Transport Activating Factor B2FQ63 B2FQ63 1.7 X-RAY DIFFRACTION 15 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 81 85 AMTLSELPLHTSAVVESVQDLHANDAIARRLRELGFVKGEEVRMVAKGEPLLVQVGFTRFALRISEAKRVVVDAASQERRA AMTLSELPLHTSAVVESVQDLHANDAIARRLRELGFVKGEEVRMVAKGPVGGEPLLVQVGFTRFALRISEAKRVVVDAASQERRA 3mi0-a1-m1-cN_3mi0-a1-m1-cP Crystal Structure of Mycobacterium Tuberculosis Proteasome at 2.2 A P9WHT9 P9WHT9 2.2 X-RAY DIFFRACTION 39 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 222 222 2fhg-a1-m1-c2_2fhg-a1-m1-cX 2fhg-a1-m1-cC_2fhg-a1-m1-cE 2fhg-a1-m1-cG_2fhg-a1-m1-cV 2fhg-a1-m1-cH_2fhg-a1-m1-cL 2fhg-a1-m1-cJ_2fhg-a1-m1-cR 2fhg-a1-m1-cN_2fhg-a1-m1-cP 2fhg-a1-m1-cT_2fhg-a1-m1-cZ 2fhh-a1-m1-c2_2fhh-a1-m1-cX 2fhh-a1-m1-cC_2fhh-a1-m1-cE 2fhh-a1-m1-cG_2fhh-a1-m1-cV 2fhh-a1-m1-cH_2fhh-a1-m1-cL 2fhh-a1-m1-cJ_2fhh-a1-m1-cR 2fhh-a1-m1-cN_2fhh-a1-m1-cP 2fhh-a1-m1-cT_2fhh-a1-m1-cZ 3h6f-a1-m1-c2_3h6f-a1-m1-cX 3h6f-a1-m1-cC_3h6f-a1-m1-cE 3h6f-a1-m1-cG_3h6f-a1-m1-cV 3h6f-a1-m1-cH_3h6f-a1-m1-cL 3h6f-a1-m1-cJ_3h6f-a1-m1-cR 3h6f-a1-m1-cN_3h6f-a1-m1-cP 3h6f-a1-m1-cZ_3h6f-a1-m1-cT 3h6i-a1-m1-c2_3h6i-a1-m1-cX 3h6i-a1-m1-cC_3h6i-a1-m1-cE 3h6i-a1-m1-cG_3h6i-a1-m1-cV 3h6i-a1-m1-cH_3h6i-a1-m1-cL 3h6i-a1-m1-cJ_3h6i-a1-m1-cR 3h6i-a1-m1-cN_3h6i-a1-m1-cP 3h6i-a1-m1-cZ_3h6i-a1-m1-cT 3hf9-a1-m1-c2_3hf9-a1-m1-cX 3hf9-a1-m1-cC_3hf9-a1-m1-cE 3hf9-a1-m1-cG_3hf9-a1-m1-cV 3hf9-a1-m1-cH_3hf9-a1-m1-cL 3hf9-a1-m1-cJ_3hf9-a1-m1-cR 3hf9-a1-m1-cN_3hf9-a1-m1-cP 3hf9-a1-m1-cT_3hf9-a1-m1-cZ 3hf9-a2-m1-c4_3hf9-a2-m1-cx 3hf9-a2-m1-cc_3hf9-a2-m1-ce 3hf9-a2-m1-cg_3hf9-a2-m1-cv 3hf9-a2-m1-ch_3hf9-a2-m1-cl 3hf9-a2-m1-cj_3hf9-a2-m1-cr 3hf9-a2-m1-cn_3hf9-a2-m1-cp 3hf9-a2-m1-ct_3hf9-a2-m1-cz 3hfa-a1-m1-c2_3hfa-a1-m1-cX 3hfa-a1-m1-cC_3hfa-a1-m1-cE 3hfa-a1-m1-cG_3hfa-a1-m1-cV 3hfa-a1-m1-cJ_3hfa-a1-m1-cR 3hfa-a1-m1-cL_3hfa-a1-m1-cH 3hfa-a1-m1-cP_3hfa-a1-m1-cN 3hfa-a1-m1-cT_3hfa-a1-m1-cZ 3krd-a1-m1-c2_3krd-a1-m1-cX 3krd-a1-m1-cC_3krd-a1-m1-cE 3krd-a1-m1-cG_3krd-a1-m1-cV 3krd-a1-m1-cH_3krd-a1-m1-cL 3krd-a1-m1-cJ_3krd-a1-m1-cR 3krd-a1-m1-cN_3krd-a1-m1-cP 3krd-a1-m1-cT_3krd-a1-m1-cZ 3mfe-a1-m1-c2_3mfe-a1-m1-cX 3mfe-a1-m1-cC_3mfe-a1-m1-cE 3mfe-a1-m1-cG_3mfe-a1-m1-cV 3mfe-a1-m1-cH_3mfe-a1-m1-cL 3mfe-a1-m1-cJ_3mfe-a1-m1-cR 3mfe-a1-m1-cN_3mfe-a1-m1-cP 3mfe-a1-m1-cT_3mfe-a1-m1-cZ 3mi0-a1-m1-c2_3mi0-a1-m1-cX 3mi0-a1-m1-cC_3mi0-a1-m1-cE 3mi0-a1-m1-cG_3mi0-a1-m1-cV 3mi0-a1-m1-cH_3mi0-a1-m1-cL 3mi0-a1-m1-cJ_3mi0-a1-m1-cR 3mi0-a1-m1-cT_3mi0-a1-m1-cZ 3mka-a1-m1-c2_3mka-a1-m1-cX 3mka-a1-m1-cE_3mka-a1-m1-cC 3mka-a1-m1-cH_3mka-a1-m1-cL 3mka-a1-m1-cP_3mka-a1-m1-cN 3mka-a1-m1-cR_3mka-a1-m1-cJ 3mka-a1-m1-cV_3mka-a1-m1-cG 3mka-a1-m1-cZ_3mka-a1-m1-cT 5lzp-a1-m1-cA_5lzp-a1-m1-cC 5lzp-a1-m1-cE_5lzp-a1-m1-cP 5lzp-a1-m1-cF_5lzp-a1-m1-cI 5lzp-a1-m1-cG_5lzp-a1-m1-cN 5lzp-a1-m1-cK_5lzp-a1-m1-cL 5lzp-a1-m1-cO_5lzp-a1-m1-cT 5lzp-a1-m1-cR_5lzp-a1-m1-cU 5tho-a1-m1-cH_5tho-a1-m1-cY 5tho-a1-m1-cI_5tho-a1-m1-cX 5tho-a1-m1-cJ_5tho-a1-m1-cW 5tho-a1-m1-cK_5tho-a1-m1-cV 5tho-a1-m1-cL_5tho-a1-m1-cb 5tho-a1-m1-cM_5tho-a1-m1-ca 5tho-a1-m1-cN_5tho-a1-m1-cZ 5trg-a1-m1-cH_5trg-a1-m1-cY 5trg-a1-m1-cI_5trg-a1-m1-cX 5trg-a1-m1-cJ_5trg-a1-m1-cW 5trg-a1-m1-cK_5trg-a1-m1-cV 5trg-a1-m1-cL_5trg-a1-m1-cb 5trg-a1-m1-cM_5trg-a1-m1-ca 5trg-a1-m1-cZ_5trg-a1-m1-cN 5trr-a1-m1-cH_5trr-a1-m1-cY 5trr-a1-m1-cI_5trr-a1-m1-cX 5trr-a1-m1-cJ_5trr-a1-m1-cW 5trr-a1-m1-cK_5trr-a1-m1-cV 5trr-a1-m1-cL_5trr-a1-m1-cb 5trr-a1-m1-cM_5trr-a1-m1-ca 5trr-a1-m1-cZ_5trr-a1-m1-cN 5trs-a1-m1-cH_5trs-a1-m1-cY 5trs-a1-m1-cI_5trs-a1-m1-cX 5trs-a1-m1-cJ_5trs-a1-m1-cW 5trs-a1-m1-cK_5trs-a1-m1-cV 5trs-a1-m1-cL_5trs-a1-m1-cb 5trs-a1-m1-cM_5trs-a1-m1-ca 5trs-a1-m1-cZ_5trs-a1-m1-cN 5try-a1-m1-cH_5try-a1-m1-cY 5try-a1-m1-cI_5try-a1-m1-cX 5try-a1-m1-cJ_5try-a1-m1-cW 5try-a1-m1-cK_5try-a1-m1-cV 5try-a1-m1-cL_5try-a1-m1-cb 5try-a1-m1-cM_5try-a1-m1-ca 5try-a1-m1-cZ_5try-a1-m1-cN 5ts0-a1-m1-cH_5ts0-a1-m1-cY 5ts0-a1-m1-cI_5ts0-a1-m1-cX 5ts0-a1-m1-cJ_5ts0-a1-m1-cW 5ts0-a1-m1-cK_5ts0-a1-m1-cV 5ts0-a1-m1-cL_5ts0-a1-m1-cb 5ts0-a1-m1-cM_5ts0-a1-m1-ca 5ts0-a1-m1-cZ_5ts0-a1-m1-cN 6bgl-a1-m1-cP_6bgl-a1-m1-cc 6bgl-a1-m1-cQ_6bgl-a1-m1-cb 6bgl-a1-m1-cR_6bgl-a1-m1-ca 6bgl-a1-m1-cS_6bgl-a1-m1-cZ 6bgl-a1-m1-cT_6bgl-a1-m1-cY 6bgl-a1-m1-cU_6bgl-a1-m1-cX 6bgl-a1-m1-cV_6bgl-a1-m1-cW 6bgo-a1-m1-cP_6bgo-a1-m1-cc 6bgo-a1-m1-cQ_6bgo-a1-m1-cb 6bgo-a1-m1-cR_6bgo-a1-m1-ca 6bgo-a1-m1-cS_6bgo-a1-m1-cZ 6bgo-a1-m1-cT_6bgo-a1-m1-cY 6bgo-a1-m1-cU_6bgo-a1-m1-cX 6bgo-a1-m1-cV_6bgo-a1-m1-cW 6ocw-a1-m1-cb_6ocw-a1-m1-cL 6ocw-a1-m1-cH_6ocw-a1-m1-cY 6ocw-a1-m1-cI_6ocw-a1-m1-cX 6ocw-a1-m1-cJ_6ocw-a1-m1-cW 6ocw-a1-m1-cK_6ocw-a1-m1-cV 6ocw-a1-m1-cM_6ocw-a1-m1-ca 6ocw-a1-m1-cZ_6ocw-a1-m1-cN 6ocz-a1-m1-cH_6ocz-a1-m1-cY 6ocz-a1-m1-cI_6ocz-a1-m1-cX 6ocz-a1-m1-cJ_6ocz-a1-m1-cW 6ocz-a1-m1-cK_6ocz-a1-m1-cV 6ocz-a1-m1-cL_6ocz-a1-m1-cb 6ocz-a1-m1-cM_6ocz-a1-m1-ca 6ocz-a1-m1-cZ_6ocz-a1-m1-cN 6ode-a1-m1-cH_6ode-a1-m1-cY 6ode-a1-m1-cI_6ode-a1-m1-cX 6ode-a1-m1-cJ_6ode-a1-m1-cW 6ode-a1-m1-cK_6ode-a1-m1-cV 6ode-a1-m1-cL_6ode-a1-m1-cb 6ode-a1-m1-cM_6ode-a1-m1-ca 6ode-a1-m1-cN_6ode-a1-m1-cZ 6wnk-a1-m1-cI_6wnk-a1-m1-cX 6wnk-a1-m1-cJ_6wnk-a1-m1-cW 6wnk-a1-m1-cL_6wnk-a1-m1-cb 6wnk-a1-m1-cM_6wnk-a1-m1-ca 6wnk-a1-m1-cN_6wnk-a1-m1-cZ 6wnk-a1-m1-cV_6wnk-a1-m1-cK 6wnk-a1-m1-cY_6wnk-a1-m1-cH 7pxa-a1-m1-cH_7pxa-a1-m1-cJ 7pxa-a1-m1-cL_7pxa-a1-m1-cW 7pxa-a1-m1-cM_7pxa-a1-m1-cP 7pxa-a1-m1-cN_7pxa-a1-m1-cU 7pxa-a1-m1-cR_7pxa-a1-m1-cS 7pxa-a1-m1-cV_7pxa-a1-m1-ca 7pxa-a1-m1-cY_7pxa-a1-m1-cb 7pxc-a1-m1-cH_7pxc-a1-m1-cJ 7pxc-a1-m1-cL_7pxc-a1-m1-cW 7pxc-a1-m1-cM_7pxc-a1-m1-cP 7pxc-a1-m1-cN_7pxc-a1-m1-cU 7pxc-a1-m1-cR_7pxc-a1-m1-cS 7pxc-a1-m1-cV_7pxc-a1-m1-ca 7pxc-a1-m1-cY_7pxc-a1-m1-cb 7pxd-a1-m1-cH_7pxd-a1-m1-cJ 7pxd-a1-m1-cL_7pxd-a1-m1-cW 7pxd-a1-m1-cM_7pxd-a1-m1-cP 7pxd-a1-m1-cN_7pxd-a1-m1-cU 7pxd-a1-m1-cR_7pxd-a1-m1-cS 7pxd-a1-m1-cV_7pxd-a1-m1-ca 7pxd-a1-m1-cY_7pxd-a1-m1-cb 8d6v-a1-m1-cP_8d6v-a1-m1-cc 8d6v-a1-m1-cQ_8d6v-a1-m1-cb 8d6v-a1-m1-cR_8d6v-a1-m1-ca 8d6v-a1-m1-cS_8d6v-a1-m1-cZ 8d6v-a1-m1-cT_8d6v-a1-m1-cY 8d6v-a1-m1-cU_8d6v-a1-m1-cX 8d6v-a1-m1-cV_8d6v-a1-m1-cW 8d6w-a1-m1-cP_8d6w-a1-m1-cc 8d6w-a1-m1-cQ_8d6w-a1-m1-cb 8d6w-a1-m1-cR_8d6w-a1-m1-ca 8d6w-a1-m1-cS_8d6w-a1-m1-cZ 8d6w-a1-m1-cT_8d6w-a1-m1-cY 8d6w-a1-m1-cU_8d6w-a1-m1-cX 8d6w-a1-m1-cV_8d6w-a1-m1-cW 8d6x-a1-m1-cP_8d6x-a1-m1-cc 8d6x-a1-m1-cQ_8d6x-a1-m1-cb 8d6x-a1-m1-cR_8d6x-a1-m1-ca 8d6x-a1-m1-cS_8d6x-a1-m1-cZ 8d6x-a1-m1-cT_8d6x-a1-m1-cY 8d6x-a1-m1-cU_8d6x-a1-m1-cX 8d6x-a1-m1-cV_8d6x-a1-m1-cW 8d6y-a1-m1-cP_8d6y-a1-m1-cc 8d6y-a1-m1-cQ_8d6y-a1-m1-cb 8d6y-a1-m1-cR_8d6y-a1-m1-ca 8d6y-a1-m1-cS_8d6y-a1-m1-cZ 8d6y-a1-m1-cT_8d6y-a1-m1-cY 8d6y-a1-m1-cU_8d6y-a1-m1-cX 8d6y-a1-m1-cV_8d6y-a1-m1-cW TTIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARLYAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHASDPQSAGRIVSFDAAGGWNIEEEGYQAVGSGSLFAKSSMKKLYSQVTDGDSGLRVAVEALYDAADDDSATGGPDLVRGIFPTAVIIDADGAVDVPESRIAELARAIIESRS TTIVALKYPGGVVMAGDRRSTQGNMISGRDVRKVYITDDYTATGIAGTAAVAVEFARLYAVELEHYEKLEGVPLTFAGKINRLAIMVRGNLAAAMQGLLALPLLAGYDIHASDPQSAGRIVSFDAAGGWNIEEEGYQAVGSGSLFAKSSMKKLYSQVTDGDSGLRVAVEALYDAADDDSATGGPDLVRGIFPTAVIIDADGAVDVPESRIAELARAIIESRS 3mi6-a1-m1-cB_3mi6-a1-m1-cD Crystal structure of the alpha-galactosidase from Lactobacillus brevis, Northeast Structural Genomics Consortium Target LbR11. Q03PP7 Q03PP7 2.704 X-RAY DIFFRACTION 82 0.999 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 712 719 3mi6-a1-m1-cC_3mi6-a1-m1-cA SIHVNEANLTFHLQTDHTSYIFQIKNGEAGQIYYGPRIHVQPTYQNLSQEWRDATPSLNEENPNFQPATIKAEYASLGKGDFRQPAFQVTQANGSRITELTYDHYQLLTGKQRLANLPSTFDDTDDDAQTLVVSFNDRITGLALDLNYSIFPHQDVIVKSAKFTNPSSEKLVLNRALSSQLDLPDANYDLIQFSGTWARERHLYRHPLRPGQSISSLRASSHQQNPFLARPQTTDEQGAVFGFNLVYSGNFLDAIEVDQYSTSRILTGINPDEFGWNLAPQATFQTPEAILSYTSAGNQLSQQASFYQQHLVNPRFAHEERPVLINNWEATYFDFNEAKLTIVNQAKRLGIEFVLDDGWFGHRDDDTTSLGDWFVDQRKFPDGIEHFSQAVHQQGKFGLWFEPEVSVDSDLYQQHPDWLIHAPKSTPTPGRHQFVLDARPEVVDYLFKLSQIESANLDYIKWDNRYATEFSSRLTSDQQLELPHRYILGVYQLYARLTQAYPNVLFESCASGGGRFDLGYYAPQAWTSDDTDAAERLLIQFGTSYGYPQAGAHVSAVPNDQGRITSLKTRGAVAFFGDLGYELDITKAPTELDQVKKQVAFYKCYRQLFQFGKFYRIDSPFVEDGNVTSWQVVSDDQKQAIAARYQLLNHPNAPYTRFYFKGLRPNQRYQINDDPSTYYGDELNAGYFVPTILADGQESKDFYTQLFVVTAI IHVNEANLTFHLQTDHTSYIFQIKNGEAGQIYYGPRIHVQPTYQNLSQEWRDATPSLNEENPNFQPATIKAEYASLGKGDFRQPAFQVTQANGSRITELTYDHYQLLTGKQRLANLPSTFDDTDDDAQTLVVSFNDRITGLALDLNYSIFPHQDVIVKSAKFTNPSSEKLVLNRALSSQLDLPDANYDLIQFSGTWARERHLYRHPLRPGQSISSLRASSHQQNPFLARPQTTDEQGAVFGFNLVYSGNFLDAIEVDQYSTSRILTGINPDEFGWNLAPQATFQTPEAILSYTSAGNQLSQQASFYQQHLVNPRFAHEERPVLINNWEATYFDFNEAKLTIVNQAKRLGIEFVLDDGWFGHRDDDTTSLGDWFVDQRKFPDGIEHFSQAVHQQGKFGLWFEPEVSVDSDLYQQHPDWLIHAPKSTPTPGRHQFVLDARPEVVDYLFKLSQIESANLDYIKWDNRYATEFSSRLTSDQQLELPHRYILGVYQLYARLTQAYPNVLFESCASGGGRFDLGYYAPQAWTSDDTDAAERLLIQFGTSYGYPQAGAHVSAVPNDQGRITSLKTRGAVAFFGDLGYELDITKAPTELDQVKKQVAFYKCYRQLFQFGKFYRIDSPFVEDGNVTSWQVVSDDQKQAIAARYQLLNHPNAPYTRFYFKGLRPNQRYQINDDPSTYYGDELNAGYFVPTILADGQESKDFYTQLFVVTAILEHHHHHH 3mi6-a1-m1-cC_3mi6-a1-m1-cD Crystal structure of the alpha-galactosidase from Lactobacillus brevis, Northeast Structural Genomics Consortium Target LbR11. Q03PP7 Q03PP7 2.704 X-RAY DIFFRACTION 108 0.999 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 713 719 3mi6-a1-m1-cB_3mi6-a1-m1-cA SIHVNEANLTFHLQTDHTSYIFQIKNGEAGQIYYGPRIHVQPTYQNLSQEWRDATPSLNEENPNFQPATIKAEYASLGKGDFRQPAFQVTQANGSRITELTYDHYQLLTGKQRLANLPSTFDDTDDDAQTLVVSFNDRITGLALDLNYSIFPHQDVIVKSAKFTNPSSEKLVLNRALSSQLDLPDANYDLIQFSGTWARERHLYRHPLRPGQSISSLRASSHQQNPFLARPQTTDEQGAVFGFNLVYSGNFLDAIEVDQYSTSRILTGINPDEFGWNLAPQATFQTPEAILSYTSAGNQLSQQASFYQQHLVNPRFAHEERPVLINNWEATYFDFNEAKLTIVNQAKRLGIEFVLDDGWFGHRDDDTTSLGDWFVDQRKFPDGIEHFSQAVHQQGKFGLWFEPEVSVDSDLYQQHPDWLIHAPKSTPTPGRHQFVLDARPEVVDYLFKLSQIESANLDYIKWDNRYATEFSSRLTSDQQLELPHRYILGVYQLYARLTQAYPNVLFESCASGGGRFDLGYYAPQAWTSDDTDAAERLLIQFGTSYGYPQAGAHVSAVPNDQGRITSLKTRGAVAFFGDLGYELDITKAPTELDQVKKQVAFYKCYRQLFQFGKFYRIDSPFVEDGNVTSWQVVSDDQKQAIAARYQLLNHPNAPYTRFYFKGLRPNQRYQINDDPSTYYGDELNAGYFVPTILADGQESKDFYTQLFVVTAIL IHVNEANLTFHLQTDHTSYIFQIKNGEAGQIYYGPRIHVQPTYQNLSQEWRDATPSLNEENPNFQPATIKAEYASLGKGDFRQPAFQVTQANGSRITELTYDHYQLLTGKQRLANLPSTFDDTDDDAQTLVVSFNDRITGLALDLNYSIFPHQDVIVKSAKFTNPSSEKLVLNRALSSQLDLPDANYDLIQFSGTWARERHLYRHPLRPGQSISSLRASSHQQNPFLARPQTTDEQGAVFGFNLVYSGNFLDAIEVDQYSTSRILTGINPDEFGWNLAPQATFQTPEAILSYTSAGNQLSQQASFYQQHLVNPRFAHEERPVLINNWEATYFDFNEAKLTIVNQAKRLGIEFVLDDGWFGHRDDDTTSLGDWFVDQRKFPDGIEHFSQAVHQQGKFGLWFEPEVSVDSDLYQQHPDWLIHAPKSTPTPGRHQFVLDARPEVVDYLFKLSQIESANLDYIKWDNRYATEFSSRLTSDQQLELPHRYILGVYQLYARLTQAYPNVLFESCASGGGRFDLGYYAPQAWTSDDTDAAERLLIQFGTSYGYPQAGAHVSAVPNDQGRITSLKTRGAVAFFGDLGYELDITKAPTELDQVKKQVAFYKCYRQLFQFGKFYRIDSPFVEDGNVTSWQVVSDDQKQAIAARYQLLNHPNAPYTRFYFKGLRPNQRYQINDDPSTYYGDELNAGYFVPTILADGQESKDFYTQLFVVTAILEHHHHHH 3mi6-a3-m1-cB_3mi6-a3-m1-cC Crystal structure of the alpha-galactosidase from Lactobacillus brevis, Northeast Structural Genomics Consortium Target LbR11. Q03PP7 Q03PP7 2.704 X-RAY DIFFRACTION 203 1.0 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 712 713 3mi6-a1-m1-cA_3mi6-a1-m1-cD 3mi6-a1-m1-cB_3mi6-a1-m1-cC 3mi6-a2-m1-cA_3mi6-a2-m1-cD SIHVNEANLTFHLQTDHTSYIFQIKNGEAGQIYYGPRIHVQPTYQNLSQEWRDATPSLNEENPNFQPATIKAEYASLGKGDFRQPAFQVTQANGSRITELTYDHYQLLTGKQRLANLPSTFDDTDDDAQTLVVSFNDRITGLALDLNYSIFPHQDVIVKSAKFTNPSSEKLVLNRALSSQLDLPDANYDLIQFSGTWARERHLYRHPLRPGQSISSLRASSHQQNPFLARPQTTDEQGAVFGFNLVYSGNFLDAIEVDQYSTSRILTGINPDEFGWNLAPQATFQTPEAILSYTSAGNQLSQQASFYQQHLVNPRFAHEERPVLINNWEATYFDFNEAKLTIVNQAKRLGIEFVLDDGWFGHRDDDTTSLGDWFVDQRKFPDGIEHFSQAVHQQGKFGLWFEPEVSVDSDLYQQHPDWLIHAPKSTPTPGRHQFVLDARPEVVDYLFKLSQIESANLDYIKWDNRYATEFSSRLTSDQQLELPHRYILGVYQLYARLTQAYPNVLFESCASGGGRFDLGYYAPQAWTSDDTDAAERLLIQFGTSYGYPQAGAHVSAVPNDQGRITSLKTRGAVAFFGDLGYELDITKAPTELDQVKKQVAFYKCYRQLFQFGKFYRIDSPFVEDGNVTSWQVVSDDQKQAIAARYQLLNHPNAPYTRFYFKGLRPNQRYQINDDPSTYYGDELNAGYFVPTILADGQESKDFYTQLFVVTAI SIHVNEANLTFHLQTDHTSYIFQIKNGEAGQIYYGPRIHVQPTYQNLSQEWRDATPSLNEENPNFQPATIKAEYASLGKGDFRQPAFQVTQANGSRITELTYDHYQLLTGKQRLANLPSTFDDTDDDAQTLVVSFNDRITGLALDLNYSIFPHQDVIVKSAKFTNPSSEKLVLNRALSSQLDLPDANYDLIQFSGTWARERHLYRHPLRPGQSISSLRASSHQQNPFLARPQTTDEQGAVFGFNLVYSGNFLDAIEVDQYSTSRILTGINPDEFGWNLAPQATFQTPEAILSYTSAGNQLSQQASFYQQHLVNPRFAHEERPVLINNWEATYFDFNEAKLTIVNQAKRLGIEFVLDDGWFGHRDDDTTSLGDWFVDQRKFPDGIEHFSQAVHQQGKFGLWFEPEVSVDSDLYQQHPDWLIHAPKSTPTPGRHQFVLDARPEVVDYLFKLSQIESANLDYIKWDNRYATEFSSRLTSDQQLELPHRYILGVYQLYARLTQAYPNVLFESCASGGGRFDLGYYAPQAWTSDDTDAAERLLIQFGTSYGYPQAGAHVSAVPNDQGRITSLKTRGAVAFFGDLGYELDITKAPTELDQVKKQVAFYKCYRQLFQFGKFYRIDSPFVEDGNVTSWQVVSDDQKQAIAARYQLLNHPNAPYTRFYFKGLRPNQRYQINDDPSTYYGDELNAGYFVPTILADGQESKDFYTQLFVVTAIL 3mii-a1-m1-cA_3mii-a1-m1-cB Crystal structure of Y0R391Cp/HSP33 from Saccharomyces cerevisiae Q08914 Q08914 2.4 X-RAY DIFFRACTION 26 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 233 234 KRALISLTSYHGPFYKDGAKTGVFVVEILRSFDTFEKHGFEVDFVSETGGFGWDEHYLPKSFIGGEDKMNFETKNSAFNKALARIKTANEVNASDYKVFFASAGHGALFDYPKAKNLQDIASKIYANGGVIAAIHGPLLFDGLIDIKTTRPLIEGKAITGFPLEGEIALGVDDILRSRKLTTVERVANKNGAKYLAPIHPWDDYSITDGKLVTGVNANSSYSTTIRAINALYS PKRALISLTSYHGPFYKDGAKTGVFVVEILRSFDTFEKHGFEVDFVSETGGFGWDEHYLPKSFIGGEDKMNFETKNSAFNKALARIKTANEVNASDYKVFFASAGHGALFDYPKAKNLQDIASKIYANGGVIAAIHGPLLFDGLIDIKTTRPLIEGKAITGFPLEGEIALGVDDILRSRKLTTVERVANKNGAKYLAPIHPWDDYSITDGKLVTGVNANSSYSTTIRAINALYS 3mil-a1-m1-cB_3mil-a1-m1-cA Crystal structure of isoamyl acetate-hydrolyzing esterase from Saccharomyces cerevisiae P41734 P41734 1.6 X-RAY DIFFRACTION 136 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 238 240 MDYEKFLLFGDSITEFAFNTRPIEDGKDQYALGAALVNEYTRKMDILQRGFKGYTSRWALKILPEILKHESNIVMATIFLGANDACSAGPQSVPLPEFIDNIRQMVSLMKSYHIRPIIIGPGLVDREKWEKEKSEEIALGYFRTNENFAIYSDALAKLANEEKVPFVALNKAFQQEGGDAWQQLLTDGLHFSGKGYKIFHDELLKVIETFYPQYHPKNMQYKLKDWRDVLDDGSNIMS MDYEKFLLFGDSITEFAFNTRPIEDGKDQYALGAALVNEYTRKMDILQRGFKGYTSRWALKILPEILKHESNIVMATIFLGANDACSAGPQSVPLPEFIDNIRQMVSLMKSYHIRPIIIGPGLVDREKWEKEKSEEIALGYFRTNENFAIYSDALAKLANEEKVPFVALNKAFQQEGGDAWQQLLTDGLHFSGKGYKIFHDELLKVIETFYPQYHPKNMQYKLKDWRDVLDDGSNIMSLE 3mio-a2-m1-cB_3mio-a2-m3-cB Crystal structure of 3,4-dihydroxy-2-butanone 4-phosphate synthase domain from Mycobacterium tuberculosis at pH 6.00 A5U2B7 A5U2B7 1.8 X-RAY DIFFRACTION 89 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 194 194 3mio-a1-m1-cA_3mio-a1-m2-cA MTRLDSVERAVADIAAGKAVIVIDDEDRENEGDLIFAAEKATPEMVAFMVRYTSGYLCVPLDGAICDRLGLLPMTVTVDARNGIGTGISASDRATTMRLLADPTSVADDFTRPGHVVPLRAKDGGVLRRPGHTEAAVDLARMAGLQPAGAICEIVSQKDEGSMAHTDELRVFADEHGLALITIADLIEWRRKHE MTRLDSVERAVADIAAGKAVIVIDDEDRENEGDLIFAAEKATPEMVAFMVRYTSGYLCVPLDGAICDRLGLLPMTVTVDARNGIGTGISASDRATTMRLLADPTSVADDFTRPGHVVPLRAKDGGVLRRPGHTEAAVDLARMAGLQPAGAICEIVSQKDEGSMAHTDELRVFADEHGLALITIADLIEWRRKHE 3miw-a2-m1-cJ_3miw-a2-m1-cA Crystal Structure of Rotavirus NSP4 Q82035 Q82035 2.5 X-RAY DIFFRACTION 62 1.0 10960 (Human rotavirus G4 strain St. Thomas 3) 10960 (Human rotavirus G4 strain St. Thomas 3) 42 43 3miw-a1-m1-cB_3miw-a1-m1-cC 3miw-a1-m1-cE_3miw-a1-m1-cC 3miw-a1-m1-cG_3miw-a1-m1-cE 3miw-a1-m1-cG_3miw-a1-m1-cI 3miw-a1-m1-cI_3miw-a1-m1-cB 3miw-a2-m1-cA_3miw-a2-m1-cD 3miw-a2-m1-cF_3miw-a2-m1-cD 3miw-a2-m1-cH_3miw-a2-m1-cF MIEQQMDRIVKEMRRQLEMIDKLTTREIEQIELLKRIHDNLI MIEQQMDRIVKEMRRQLEMIDKLTTREIEQIELLKRIHDNLIT 3miz-a2-m1-cB_3miz-a2-m3-cB Crystal structure of a putative transcriptional regulator protein, Lacl family from Rhizobium etli Q2K0Z9 Q2K0Z9 1.91 X-RAY DIFFRACTION 84 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 272 272 3miz-a1-m1-cA_3miz-a1-m2-cA SNTFGIITDYVSTTPYSVDIVRGIQDWANANGKTILIANTGGSSEREVEIWKFQSHRIDGVLYVTYRRIVDPESGDVSIPTVINCRPQTRELLPSIEPDDYQGARDLTRYLLERGHRRIGYIRLNPILLGAELRLDAFRRTTSEFGLTENDLSISLGDGPVGAENNYVFAAATELKQDDRPTAISGNDEAIQIYIAAALGLRIPQDVSIVGFDDFRTVTALKPELTTAALPYYDLGREGAKWLNDLIAGEKIYPGSRVVSCKLVERSSAAFG SNTFGIITDYVSTTPYSVDIVRGIQDWANANGKTILIANTGGSSEREVEIWKFQSHRIDGVLYVTYRRIVDPESGDVSIPTVINCRPQTRELLPSIEPDDYQGARDLTRYLLERGHRRIGYIRLNPILLGAELRLDAFRRTTSEFGLTENDLSISLGDGPVGAENNYVFAAATELKQDDRPTAISGNDEAIQIYIAAALGLRIPQDVSIVGFDDFRTVTALKPELTTAALPYYDLGREGAKWLNDLIAGEKIYPGSRVVSCKLVERSSAAFG 3mj5-a3-m1-cB_3mj5-a3-m1-cA Severe Acute Respiratory Syndrome-Coronavirus Papain-Like Protease Inhibitors: Design, Synthesis, Protein-Ligand X-ray Structure and Biological Evaluation P0C6U8 P0C6U8 2.63 X-RAY DIFFRACTION 60 0.996 262 312 TFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTIK KTIKVFTTVDNTNLHTQLVDMSMTYGQQFGPTYLDGADVTKIKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI 3mjd-a2-m1-cC_3mjd-a2-m1-cD 1.9 Angstrom Crystal Structure of Orotate Phosphoribosyltransferase (pyrE) Francisella tularensis. Q5NHL5 Q5NHL5 1.9 X-RAY DIFFRACTION 129 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 202 209 3mjd-a1-m1-cB_3mjd-a1-m1-cA AMFIEFALKNQVLKFGEFTLKSGRISPYFFNAGLFNTGAQLATLADYYAQLIIKSDVKYDILFGPAYKGIPLVAAISTVLALKYNIDMPYAFDRKEGVFVGADMTNKKVLLIDDVMTAGTAFYESYNKLKIINAKIAGVVLSIDRQEKAKDSDISATKKISQDFNIPVLAVTNFESIFEYVKENLDETMIDKFKQYRQKYGS TENLYFQAMFIEFALKNQVLKFGEFTLKSGRISPYFFNAGLFNTGAQLATLADYYAQLIIKSDVKYDILFGPAYKGIPLVAAISTVLALKYNIDMPYAFDRKEGVFVGADMTNKKVLLIDDVMTAGTAFYESYNKLKIINAKIAGVVLSIDRQEKAKDSDISATKKISQDFNIPVLAVTNFESIFEYVKENLDETMIDKFKQYRQKYGS 3mjg-a2-m1-cA_3mjg-a2-m1-cB The structure of a platelet derived growth factor receptor complex P01127 P01127 2.3 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 101 3mjg-a1-m1-cA_3mjg-a1-m1-cB 4hqu-a1-m1-cA_4hqu-a1-m2-cA 4hqx-a1-m1-cA_4hqx-a1-m2-cA 6t9e-a1-m1-cCCC_6t9e-a1-m1-cDDD TIAEPAMIAECKTRTEVFEISRRLIDRTNANFLVWPPCVEVQRCSGCCNNRNVQCRPTQVQLRPVQVRKIEIVRKKPIFKKATVTLEDHLACKCETV LGSLTIAEPAMIAECKTRTEVFEISRRLIDRTNANFLVWPPCVEVQRCSGCCNNRNVQCRPTQVQLRPVQVRKIEIVRKKPIFKKATVTLEDHLACKCETV 3mjk-a3-m1-cX_3mjk-a3-m1-cY Structure of a growth factor precursor P04085 P04085 2.4 X-RAY DIFFRACTION 163 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 129 3mjk-a2-m1-cE_3mjk-a2-m1-cF AEIPREVIERLARSQIHSIRDLQRLLEIEEAVPAVCKTRTVIYEIPRSQVDPTSANFLIWPPCVEVKRCTGCCNTSSVKCQPSRVHHRSVKVAKVEYVRKKPKLKEVQVRLEEHLECACAT AEIPREVIERLARSQIHSIRDLQRLLEIDSVGSSIEEAVPAVCKTRTVIYEIPRSQVDPTSANFLIWPPCVEVKRCTGCCNTSSVKCQPSRVHHRSVKVAKVEYVRKKPKLKEVQVRLEEHLECACATT 3mjq-a1-m1-cB_3mjq-a1-m1-cA Crystal structure of the PAS domain of Q24QT8_DESHY protein from Desulfitobacterium hafniense. Northeast Structural Genomics Consortium Target DhR85c. Q24QT8 Q24QT8 2.601 X-RAY DIFFRACTION 35 1.0 138119 (Desulfitobacterium hafniense Y51) 138119 (Desulfitobacterium hafniense Y51) 102 103 KNFLETIEDILIINREGRLLYANTAVPKKLGYTHEELSHILTITSAGKAEGEKILAELFAGKKESLPLSLEKKEGTSIPAKARIWQGKWHNEPCLFAIIKDL KNFLETIEDILIINREGRLLYANTAVPKKLGYTHEELSHILTITSAGKAEGEKILAELFAGKKESLPLSLEKKEGTSIPAKARIWQGKWHNEPCLFAIIKDLS 3mju-a1-m1-cA_3mju-a1-m2-cA Crystal structure determination of pigeon (columba livia) haemoglobin at 3.5 angstrom resolution P21871 P21871 3.5 X-RAY DIFFRACTION 10 1.0 8932 (Columba livia) 8932 (Columba livia) 141 141 2r80-a1-m1-cC_2r80-a1-m1-cA 3dhr-a1-m1-cA_3dhr-a1-m1-cC VLSANDKSNVKAVFAKIGGQAGDLGGEALERLFITYPQTKTYFPHFDLSHGSAQIKGHGKKVAEALVEAANHIDDIAGALSKLSDLHAQKLRVDPVNFKLLGHCFLVVVAVHFPSLLTPEVHASLDKFVLAVGTVLTAKYR VLSANDKSNVKAVFAKIGGQAGDLGGEALERLFITYPQTKTYFPHFDLSHGSAQIKGHGKKVAEALVEAANHIDDIAGALSKLSDLHAQKLRVDPVNFKLLGHCFLVVVAVHFPSLLTPEVHASLDKFVLAVGTVLTAKYR 3mk1-a1-m1-cA_3mk1-a1-m2-cA Refinement of placental alkaline phosphatase complexed with nitrophenyl P05187 P05187 1.57 X-RAY DIFFRACTION 354 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 480 480 1ew2-a1-m1-cA_1ew2-a1-m2-cA 1zeb-a1-m1-cA_1zeb-a1-m2-cA 1zed-a1-m1-cA_1zed-a1-m2-cA 1zef-a1-m1-cA_1zef-a1-m2-cA 2glq-a1-m1-cA_2glq-a1-m2-cA 3mk0-a1-m1-cA_3mk0-a1-m2-cA 3mk2-a1-m1-cA_3mk2-a1-m2-cA IIPVEEENPDFWNREAAEALGAAKKLQPAQTAAKNLIIFLGDGMGVSTVTAARILKGQKKDKLGPEIPLAMDRFPYVALSKTYNVDKHVPDGATATAYLCGVKGNFQTIGLSAAARFNQCNTTRGNEVISVMNRAKKAGKSVGVVTTTRVQHASPAGTYAHTVNRNWYSDADVPASARQEGCQDIATQLISNMDIDVILGGGRKYMFRMGTPDPEYPDDYSQGGTRLDGKNLVQEWLAKRQGARYVWNRTELMQASLDPSVTHLMGLFEPGDMKYEIHRDSTLDPSLMEMTEAALRLLSRNPRGFFLFVEGGRIDHGHHESRAYRALTETIMFDDAIERAGQLTSEEDTLSLVTADHSHVFSFGGYPLRGSSIFGLAPGKARDRKAYTVLLYGNGPGYVLKDGARPDVTESESGSPEYRQQSAVPLDEETHAGEDVAVFARGPQAHLVHGVQEQTFIAHVMAFAACLEPYTACDLAPPAG IIPVEEENPDFWNREAAEALGAAKKLQPAQTAAKNLIIFLGDGMGVSTVTAARILKGQKKDKLGPEIPLAMDRFPYVALSKTYNVDKHVPDGATATAYLCGVKGNFQTIGLSAAARFNQCNTTRGNEVISVMNRAKKAGKSVGVVTTTRVQHASPAGTYAHTVNRNWYSDADVPASARQEGCQDIATQLISNMDIDVILGGGRKYMFRMGTPDPEYPDDYSQGGTRLDGKNLVQEWLAKRQGARYVWNRTELMQASLDPSVTHLMGLFEPGDMKYEIHRDSTLDPSLMEMTEAALRLLSRNPRGFFLFVEGGRIDHGHHESRAYRALTETIMFDDAIERAGQLTSEEDTLSLVTADHSHVFSFGGYPLRGSSIFGLAPGKARDRKAYTVLLYGNGPGYVLKDGARPDVTESESGSPEYRQQSAVPLDEETHAGEDVAVFARGPQAHLVHGVQEQTFIAHVMAFAACLEPYTACDLAPPAG 3mka-a1-m1-cW_3mka-a1-m1-cM Crystal Structure of Mycobacterium Tuberculosis Proteasome with propetide and an T1A mutation at beta-subunit P9WHU1 P9WHU1 2.51 X-RAY DIFFRACTION 10 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 221 224 3mka-a1-m1-cD_3mka-a1-m1-cM FPYFISPEQAMRERSELARKGIARAKSVVALAYAGGVLFVAENPSRSLQKISELYDRVGFAAAGKFNEFDNLRRGGIQFADTRGYAYDRRDVTGRQLANVYAQTLGTIFTEQAKPYEVELCVAEVAHYGETKRPELYRITYDGSIADEPHFVVMGGTTEPIANALKESYAENASLTDALRIAVAALRAGGVASLEVAVLDANRPRRAFRRITGSALQALLV SFPYFISPEQAMRERSELARKGIARAKSVVALAYAGGVLFVAENPSRSLQKISELYDRVGFAAAGKFNEFDNLRRGGIQFADTRGYAYDRRDVTGRQLANVYAQTLGTIFTEQAKPYEVELCVAEVAHYGETKRPELYRITYDGSIADEPHFVVMGGTTEPIANALKESYAENASLTDALRIAVAALRAGSLGVASLEVAVLDANRPRRAFRRITGSALQALLV 3mkc-a2-m6-cA_3mkc-a2-m8-cA Crystal structure of a putative racemase B6R2Z6 B6R2Z6 1.77 X-RAY DIFFRACTION 14 1.0 439495 (Pseudovibrio sp. JE062) 439495 (Pseudovibrio sp. JE062) 371 371 3mkc-a2-m1-cA_3mkc-a2-m3-cA 3mkc-a2-m1-cA_3mkc-a2-m4-cA 3mkc-a2-m2-cA_3mkc-a2-m3-cA 3mkc-a2-m2-cA_3mkc-a2-m4-cA 3mkc-a2-m5-cA_3mkc-a2-m7-cA 3mkc-a2-m5-cA_3mkc-a2-m8-cA 3mkc-a2-m6-cA_3mkc-a2-m7-cA 3nzg-a1-m1-cA_3nzg-a1-m1-cD 3nzg-a1-m1-cA_3nzg-a1-m2-cC 3nzg-a1-m1-cB_3nzg-a1-m1-cC 3nzg-a1-m1-cB_3nzg-a1-m2-cD 3nzg-a1-m1-cC_3nzg-a1-m2-cA 3nzg-a1-m2-cA_3nzg-a1-m2-cD 3nzg-a1-m2-cB_3nzg-a1-m1-cD 3nzg-a1-m2-cB_3nzg-a1-m2-cC SLALNPAVAPIKSIEFIPVNYQSQNTVVVKVTDENGVYGLGEADGSPDAILAYANIETEHKWLTNITEKAIGRLPIEINAIWDAYDATQWQGRGLGFALSGIDALYDLAGKQLGVPAYQLLGGTNKDKVHPYLTLYPAIPDASLDVAIKGYAPLLEKAKAHNIRAVKVCVPIKADWSTKEVAYYLRELRGILGHDTDVDYLYRFTDWYEVARLLNSIEDLELYFAEATLQHDDLSGHAKLVENTRSRICGAESTTRFEAEEWITKGKVHLLQSDYNRCGGLTELRRITEATANNVQVPHNWKTGITSAAAIHYQFAVGNAPYFEYVHPEFCDGELRKYLVTPEAELVDGGFAKPTAPGLGIDLNQEFLASL SLALNPAVAPIKSIEFIPVNYQSQNTVVVKVTDENGVYGLGEADGSPDAILAYANIETEHKWLTNITEKAIGRLPIEINAIWDAYDATQWQGRGLGFALSGIDALYDLAGKQLGVPAYQLLGGTNKDKVHPYLTLYPAIPDASLDVAIKGYAPLLEKAKAHNIRAVKVCVPIKADWSTKEVAYYLRELRGILGHDTDVDYLYRFTDWYEVARLLNSIEDLELYFAEATLQHDDLSGHAKLVENTRSRICGAESTTRFEAEEWITKGKVHLLQSDYNRCGGLTELRRITEATANNVQVPHNWKTGITSAAAIHYQFAVGNAPYFEYVHPEFCDGELRKYLVTPEAELVDGGFAKPTAPGLGIDLNQEFLASL 3mkc-a3-m1-cA_3mkc-a3-m6-cA Crystal structure of a putative racemase B6R2Z6 B6R2Z6 1.77 X-RAY DIFFRACTION 82 1.0 439495 (Pseudovibrio sp. JE062) 439495 (Pseudovibrio sp. JE062) 371 371 3mkc-a2-m1-cA_3mkc-a2-m6-cA 3mkc-a2-m2-cA_3mkc-a2-m5-cA 3mkc-a2-m3-cA_3mkc-a2-m7-cA 3mkc-a2-m4-cA_3mkc-a2-m8-cA 3nzg-a1-m1-cA_3nzg-a1-m1-cC 3nzg-a1-m1-cB_3nzg-a1-m1-cD 3nzg-a1-m2-cA_3nzg-a1-m2-cC 3nzg-a1-m2-cB_3nzg-a1-m2-cD SLALNPAVAPIKSIEFIPVNYQSQNTVVVKVTDENGVYGLGEADGSPDAILAYANIETEHKWLTNITEKAIGRLPIEINAIWDAYDATQWQGRGLGFALSGIDALYDLAGKQLGVPAYQLLGGTNKDKVHPYLTLYPAIPDASLDVAIKGYAPLLEKAKAHNIRAVKVCVPIKADWSTKEVAYYLRELRGILGHDTDVDYLYRFTDWYEVARLLNSIEDLELYFAEATLQHDDLSGHAKLVENTRSRICGAESTTRFEAEEWITKGKVHLLQSDYNRCGGLTELRRITEATANNVQVPHNWKTGITSAAAIHYQFAVGNAPYFEYVHPEFCDGELRKYLVTPEAELVDGGFAKPTAPGLGIDLNQEFLASL SLALNPAVAPIKSIEFIPVNYQSQNTVVVKVTDENGVYGLGEADGSPDAILAYANIETEHKWLTNITEKAIGRLPIEINAIWDAYDATQWQGRGLGFALSGIDALYDLAGKQLGVPAYQLLGGTNKDKVHPYLTLYPAIPDASLDVAIKGYAPLLEKAKAHNIRAVKVCVPIKADWSTKEVAYYLRELRGILGHDTDVDYLYRFTDWYEVARLLNSIEDLELYFAEATLQHDDLSGHAKLVENTRSRICGAESTTRFEAEEWITKGKVHLLQSDYNRCGGLTELRRITEATANNVQVPHNWKTGITSAAAIHYQFAVGNAPYFEYVHPEFCDGELRKYLVTPEAELVDGGFAKPTAPGLGIDLNQEFLASL 3mkc-a4-m1-cA_3mkc-a4-m7-cA Crystal structure of a putative racemase B6R2Z6 B6R2Z6 1.77 X-RAY DIFFRACTION 102 1.0 439495 (Pseudovibrio sp. JE062) 439495 (Pseudovibrio sp. JE062) 371 371 3mkc-a2-m1-cA_3mkc-a2-m7-cA 3mkc-a2-m2-cA_3mkc-a2-m8-cA 3mkc-a2-m3-cA_3mkc-a2-m5-cA 3mkc-a2-m4-cA_3mkc-a2-m6-cA 3nzg-a1-m1-cA_3nzg-a1-m1-cB 3nzg-a1-m1-cC_3nzg-a1-m2-cC 3nzg-a1-m1-cD_3nzg-a1-m2-cD 3nzg-a1-m2-cA_3nzg-a1-m2-cB SLALNPAVAPIKSIEFIPVNYQSQNTVVVKVTDENGVYGLGEADGSPDAILAYANIETEHKWLTNITEKAIGRLPIEINAIWDAYDATQWQGRGLGFALSGIDALYDLAGKQLGVPAYQLLGGTNKDKVHPYLTLYPAIPDASLDVAIKGYAPLLEKAKAHNIRAVKVCVPIKADWSTKEVAYYLRELRGILGHDTDVDYLYRFTDWYEVARLLNSIEDLELYFAEATLQHDDLSGHAKLVENTRSRICGAESTTRFEAEEWITKGKVHLLQSDYNRCGGLTELRRITEATANNVQVPHNWKTGITSAAAIHYQFAVGNAPYFEYVHPEFCDGELRKYLVTPEAELVDGGFAKPTAPGLGIDLNQEFLASL SLALNPAVAPIKSIEFIPVNYQSQNTVVVKVTDENGVYGLGEADGSPDAILAYANIETEHKWLTNITEKAIGRLPIEINAIWDAYDATQWQGRGLGFALSGIDALYDLAGKQLGVPAYQLLGGTNKDKVHPYLTLYPAIPDASLDVAIKGYAPLLEKAKAHNIRAVKVCVPIKADWSTKEVAYYLRELRGILGHDTDVDYLYRFTDWYEVARLLNSIEDLELYFAEATLQHDDLSGHAKLVENTRSRICGAESTTRFEAEEWITKGKVHLLQSDYNRCGGLTELRRITEATANNVQVPHNWKTGITSAAAIHYQFAVGNAPYFEYVHPEFCDGELRKYLVTPEAELVDGGFAKPTAPGLGIDLNQEFLASL 3mkh-a1-m1-cA_3mkh-a1-m1-cD Podospora anserina Nitroalkane Oxidase B2AM55 B2AM55 1.995 X-RAY DIFFRACTION 160 1.0 426 426 3mkh-a1-m1-cB_3mkh-a1-m1-cC AIDFHLSASQKGTYQAARSLARNLLMPARQTYLQHPPNSPLRFQSTQPTYAAAVSAGILKGQISPAHGGTGGTLIESAILVEECYSVEPSAALTIFATGLGLTPINLAAGPQHAEFLAPFLSGEGSPLASLVFSEPGGVANALEKGAPGFQTTARLEGDEWVINGEKMWATNCAGWDFKGCDLACVVCRDATTPLEEGQDPENKVMIILVTRADLDRNGEGSFEVLRHVATPGHTSVSGPHVRYTNVRVPTKNVLCPAGQGAKVAFGAFDGSAVLVGAMGVGLMRAAFDAALKFAKEDNRGGAVPLLERQAFADLLSGVKIQTEAARALTWKAAHAMENGPGDYDARRELALAAKVFCSEAAVKACTDVINAVGISAYDLQRPFSDLLNTAVVLPIFDGGNVGIRRRHLQQLMLKPTYDAWSSTYG AIDFHLSASQKGTYQAARSLARNLLMPARQTYLQHPPNSPLRFQSTQPTYAAAVSAGILKGQISPAHGGTGGTLIESAILVEECYSVEPSAALTIFATGLGLTPINLAAGPQHAEFLAPFLSGEGSPLASLVFSEPGGVANALEKGAPGFQTTARLEGDEWVINGEKMWATNCAGWDFKGCDLACVVCRDATTPLEEGQDPENKVMIILVTRADLDRNGEGSFEVLRHVATPGHTSVSGPHVRYTNVRVPTKNVLCPAGQGAKVAFGAFDGSAVLVGAMGVGLMRAAFDAALKFAKEDNRGGAVPLLERQAFADLLSGVKIQTEAARALTWKAAHAMENGPGDYDARRELALAAKVFCSEAAVKACTDVINAVGISAYDLQRPFSDLLNTAVVLPIFDGGNVGIRRRHLQQLMLKPTYDAWSSTYG 3mkh-a1-m1-cC_3mkh-a1-m1-cD Podospora anserina Nitroalkane Oxidase B2AM55 B2AM55 1.995 X-RAY DIFFRACTION 160 1.0 426 426 3mkh-a1-m1-cA_3mkh-a1-m1-cB AIDFHLSASQKGTYQAARSLARNLLMPARQTYLQHPPNSPLRFQSTQPTYAAAVSAGILKGQISPAHGGTGGTLIESAILVEECYSVEPSAALTIFATGLGLTPINLAAGPQHAEFLAPFLSGEGSPLASLVFSEPGGVANALEKGAPGFQTTARLEGDEWVINGEKMWATNCAGWDFKGCDLACVVCRDATTPLEEGQDPENKVMIILVTRADLDRNGEGSFEVLRHVATPGHTSVSGPHVRYTNVRVPTKNVLCPAGQGAKVAFGAFDGSAVLVGAMGVGLMRAAFDAALKFAKEDNRGGAVPLLERQAFADLLSGVKIQTEAARALTWKAAHAMENGPGDYDARRELALAAKVFCSEAAVKACTDVINAVGISAYDLQRPFSDLLNTAVVLPIFDGGNVGIRRRHLQQLMLKPTYDAWSSTYG AIDFHLSASQKGTYQAARSLARNLLMPARQTYLQHPPNSPLRFQSTQPTYAAAVSAGILKGQISPAHGGTGGTLIESAILVEECYSVEPSAALTIFATGLGLTPINLAAGPQHAEFLAPFLSGEGSPLASLVFSEPGGVANALEKGAPGFQTTARLEGDEWVINGEKMWATNCAGWDFKGCDLACVVCRDATTPLEEGQDPENKVMIILVTRADLDRNGEGSFEVLRHVATPGHTSVSGPHVRYTNVRVPTKNVLCPAGQGAKVAFGAFDGSAVLVGAMGVGLMRAAFDAALKFAKEDNRGGAVPLLERQAFADLLSGVKIQTEAARALTWKAAHAMENGPGDYDARRELALAAKVFCSEAAVKACTDVINAVGISAYDLQRPFSDLLNTAVVLPIFDGGNVGIRRRHLQQLMLKPTYDAWSSTYG 3mki-a3-m2-cC_3mki-a3-m2-cD Crystal Structure of Ketosteroid Isomerase D38ED99N from Pseudomonas Testosteroni (tKSI) P00947 P00947 2 X-RAY DIFFRACTION 85 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 124 124 1buq-a1-m1-cA_1buq-a1-m1-cB 1isk-a1-m1-cA_1isk-a1-m1-cB 1ocv-a1-m1-cA_1ocv-a1-m1-cB 1ocv-a2-m1-cC_1ocv-a2-m1-cD 1ogz-a1-m1-cA_1ogz-a1-m2-cA 1ohp-a1-m1-cA_1ohp-a1-m1-cB 1ohp-a2-m1-cC_1ohp-a2-m1-cD 1ohs-a1-m1-cA_1ohs-a1-m1-cB 1ohs-a2-m1-cC_1ohs-a2-m1-cD 1qjg-a1-m1-cC_1qjg-a1-m1-cD 1qjg-a2-m1-cA_1qjg-a2-m1-cB 1qjg-a3-m1-cE_1qjg-a3-m1-cF 3m8c-a1-m1-cA_3m8c-a1-m1-cB 3m8c-a2-m1-cC_3m8c-a2-m1-cD 3mhe-a1-m1-cA_3mhe-a1-m1-cB 3mki-a1-m1-cA_3mki-a1-m1-cB 3mki-a2-m1-cC_3mki-a2-m1-cD 3mki-a3-m1-cA_3mki-a3-m1-cB 3mki-a3-m1-cC_3mki-a3-m1-cD 3mki-a3-m2-cA_3mki-a3-m2-cB 3myt-a1-m1-cA_3myt-a1-m1-cC 3myt-a2-m1-cD_3myt-a2-m1-cB 3myt-a3-m1-cA_3myt-a3-m1-cC 3myt-a3-m1-cD_3myt-a3-m1-cB 3myt-a3-m2-cA_3myt-a3-m2-cC 3myt-a3-m2-cD_3myt-a3-m2-cB 3myt-a4-m1-cD_3myt-a4-m1-cB 3myt-a4-m2-cA_3myt-a4-m2-cC 3nbr-a1-m1-cA_3nbr-a1-m2-cA 3nhx-a1-m1-cA_3nhx-a1-m2-cA 3nm2-a1-m1-cA_3nm2-a1-m2-cA 3nuv-a1-m1-cB_3nuv-a1-m1-cA 3nuv-a2-m1-cB_3nuv-a2-m1-cA 3nuv-a2-m2-cB_3nuv-a2-m2-cA 3nxj-a1-m1-cA_3nxj-a1-m1-cB 3nxj-a2-m1-cA_3nxj-a2-m1-cB 3nxj-a2-m2-cA_3nxj-a2-m2-cB 3ov4-a1-m1-cA_3ov4-a1-m1-cB 3ov4-a2-m1-cC_3ov4-a2-m1-cD 3t8u-a1-m1-cA_3t8u-a1-m1-cB 3t8u-a2-m1-cC_3t8u-a2-m1-cD 3unl-a1-m1-cA_3unl-a1-m1-cB 3unl-a2-m1-cC_3unl-a2-m1-cD 4l7k-a1-m1-cA_4l7k-a1-m1-cB 4l7k-a2-m1-cJ_4l7k-a2-m1-cC 4l7k-a3-m1-cD_4l7k-a3-m1-cI 4l7k-a4-m1-cE_4l7k-a4-m1-cG 4l7k-a5-m1-cK_4l7k-a5-m1-cF 4l7k-a6-m1-cO_4l7k-a6-m1-cH 5dre-a1-m1-cA_5dre-a1-m2-cA 5ugi-a1-m1-cA_5ugi-a1-m2-cA 8cho-a1-m1-cA_8cho-a1-m2-cA MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEEPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAG MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEEPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAG 3mkq-a1-m1-cE_3mkq-a1-m1-cC Crystal structure of yeast alpha/betaprime-COP subcomplex of the COPI vesicular coat A6ZU46 A6ZU46 2.5 X-RAY DIFFRACTION 12 0.999 307796 (Saccharomyces cerevisiae YJM789) 307796 (Saccharomyces cerevisiae YJM789) 810 811 MKLDIKKTFSNRSDRVKGIDFHPTEPWVLTTLYSGRVEIWNYETQVEVRSIQVTETPVRAGKFIARKNWIIVGSDDFRIRVFNYNTGEKVVDFEAHPDYIRSIAVHPTKPYVLSGSDDLTVKLWNWENNWALEQTFEGHEHFVMCVAFNPKDPSTFASGCLDRTVKVWSLGQSTPNFTLTTGQERGVNYVDYYPLPDKPYMITASDDLTIKIWDYQTKSCVATLEGHMSNVSFAVFHPTLPIIISGSEDGTLKIWNSSTYKVEKTLNVGLERSWCIATHPTGRKNYIASGFDNGFTVLSLGNDEPTLSLDPVGKLVWSGGKNAAASDIFTAVIRGNEEVEQDEPLSLQTKELGSVDVFPQSLAHSPNGRFVTVVGDGEYVIYTALAWRNKAFGKCQDFVWGPDSNSYALIDETGQIKYYKNFKEVTSWSVPMHSAIDRLFSGALLGVKSDGFVYFFDWDNGTLVRRIDVNAKDVIWSDNGELVMIVNTNSEASGYTLLFNKDAYLEAANNGNIDDSEGVDEAFDVLYELSESITSGKWVGDVFIFTTATNRLNYFVGGKTYNLAHYTKEMYLLGYLARDNKVYLADREVHVYGYEISLEVLEFQTLTLRGEIEEAIENVLPNVEGKDSLTKIARFLEGQEYYEEALNISPDQDQKFELALKVGQLTLARDLLTDESAEMKWRALGDASLQRFNFKLAIEAFTNAHDLESLFLLHSSFNNKEGLVTLAKDAETTGKFNLAFNAYWIAGDIQGAKDLLIKSQRFSEAAFLGSTYGLGDNEVNDIVTKWKENLILNGKNTVSERVCGAEGLPG KLDIKKTFSNRSDRVKGIDFHPTEPWVLTTLYSGRVEIWNYETQVEVRSIQVTETPVRAGKFIARKNWIIVGSDDFRIRVFNYNTGEKVVDFEAHPDYIRSIAVHPTKPYVLSGSDDLTVKLWNWENNWALEQTFEGHEHFVMCVAFNPKDPSTFASGCLDRTVKVWSLGQSTPNFTLTTGQERGVNYVDYYPLPDKPYMITASDDLTIKIWDYQTKSCVATLEGHMSNVSFAVFHPTLPIIISGSEDGTLKIWNSSTYKVEKTLNVGLERSWCIATHPTGRKNYIASGFDNGFTVLSLGNDEPTLSLDPVGKLVWSGGKNAAASDIFTAVIRGNEEVEQDEPLSLQTKELGSVDVFPQSLAHSPNGRFVTVVGDGEYVIYTALAWRNKAFGKCQDFVWGPDSNSYALIDETGQIKYYKNFKEVTSWSVPMHSAIDRLFSGALLGVKSDGFVYFFDWDNGTLVRRIDVNAKDVIWSDNGELVMIVNTNSNEASGYTLLFNKDAYLEAANNGNIDDSEGVDEAFDVLYELSESITSGKWVGDVFIFTTATNRLNYFVGGKTYNLAHYTKEMYLLGYLARDNKVYLADREVHVYGYEISLEVLEFQTLTLRGEIEEAIENVLPNVEGKDSLTKIARFLEGQEYYEEALNISPDQDQKFELALKVGQLTLARDLLTDESAEMKWRALGDASLQRFNFKLAIEAFTNAHDLESLFLLHSSFNNKEGLVTLAKDAETTGKFNLAFNAYWIAGDIQGAKDLLIKSQRFSEAAFLGSTYGLGDNEVNDIVTKWKENLILNGKNTVSERVCGAEGLPGS 3mkv-a1-m1-cC_3mkv-a1-m1-cH Crystal structure of amidohydrolase eaj56179 B2T4I1 B2T4I1 2.4 X-RAY DIFFRACTION 64 1.0 32644 (unidentified) 32644 (unidentified) 412 412 3mkv-a1-m1-cB_3mkv-a1-m1-cA 3mkv-a1-m1-cD_3mkv-a1-m1-cG 3mkv-a1-m1-cE_3mkv-a1-m1-cF TTFLFRNGALLDPDHPDLLQGFEILIEDGFIREVSDKPIKSSNAHVIDVKGKTIMPGLIDLHVHVVAIEFNLPRVATLPNVLVTLRAVPIMRAMLRRGFTTVRDAGGAGYPFKQAVESGLVEGPRLFVSGRALSQTGGHADPRARSDYMPPDSPCGCCVRVGALGRVADGVDEVRRAVREELQMGADQIIMASGGVASPTDPVGVFGYSEDEIRAIVAEAQGRGTYVLAHAYTPAAIARAVRCGVRTIEHGNLIDDETARLVAEHGAYVVPTLVTYDALASEGEKYGLPPESIAKIADVHGAGLHSIEIMKRAGVKMGFGTDLLGEAQRLQSDEFRILAEVLSPAEVIASATIVSAEVLGMQDKLGRIVPGAHADVLVVDGNPLKSVDCLLGQGEHIPLVMKDGRLFVNELE TTFLFRNGALLDPDHPDLLQGFEILIEDGFIREVSDKPIKSSNAHVIDVKGKTIMPGLIDLHVHVVAIEFNLPRVATLPNVLVTLRAVPIMRAMLRRGFTTVRDAGGAGYPFKQAVESGLVEGPRLFVSGRALSQTGGHADPRARSDYMPPDSPCGCCVRVGALGRVADGVDEVRRAVREELQMGADQIIMASGGVASPTDPVGVFGYSEDEIRAIVAEAQGRGTYVLAHAYTPAAIARAVRCGVRTIEHGNLIDDETARLVAEHGAYVVPTLVTYDALASEGEKYGLPPESIAKIADVHGAGLHSIEIMKRAGVKMGFGTDLLGEAQRLQSDEFRILAEVLSPAEVIASATIVSAEVLGMQDKLGRIVPGAHADVLVVDGNPLKSVDCLLGQGEHIPLVMKDGRLFVNELE 3mkv-a1-m1-cE_3mkv-a1-m1-cH Crystal structure of amidohydrolase eaj56179 B2T4I1 B2T4I1 2.4 X-RAY DIFFRACTION 58 1.0 32644 (unidentified) 32644 (unidentified) 412 412 3mkv-a1-m1-cB_3mkv-a1-m1-cD 3mkv-a1-m1-cB_3mkv-a1-m1-cH 3mkv-a1-m1-cC_3mkv-a1-m1-cA 3mkv-a1-m1-cC_3mkv-a1-m1-cF 3mkv-a1-m1-cD_3mkv-a1-m1-cE 3mkv-a1-m1-cF_3mkv-a1-m1-cG 3mkv-a1-m1-cG_3mkv-a1-m1-cA TTFLFRNGALLDPDHPDLLQGFEILIEDGFIREVSDKPIKSSNAHVIDVKGKTIMPGLIDLHVHVVAIEFNLPRVATLPNVLVTLRAVPIMRAMLRRGFTTVRDAGGAGYPFKQAVESGLVEGPRLFVSGRALSQTGGHADPRARSDYMPPDSPCGCCVRVGALGRVADGVDEVRRAVREELQMGADQIIMASGGVASPTDPVGVFGYSEDEIRAIVAEAQGRGTYVLAHAYTPAAIARAVRCGVRTIEHGNLIDDETARLVAEHGAYVVPTLVTYDALASEGEKYGLPPESIAKIADVHGAGLHSIEIMKRAGVKMGFGTDLLGEAQRLQSDEFRILAEVLSPAEVIASATIVSAEVLGMQDKLGRIVPGAHADVLVVDGNPLKSVDCLLGQGEHIPLVMKDGRLFVNELE TTFLFRNGALLDPDHPDLLQGFEILIEDGFIREVSDKPIKSSNAHVIDVKGKTIMPGLIDLHVHVVAIEFNLPRVATLPNVLVTLRAVPIMRAMLRRGFTTVRDAGGAGYPFKQAVESGLVEGPRLFVSGRALSQTGGHADPRARSDYMPPDSPCGCCVRVGALGRVADGVDEVRRAVREELQMGADQIIMASGGVASPTDPVGVFGYSEDEIRAIVAEAQGRGTYVLAHAYTPAAIARAVRCGVRTIEHGNLIDDETARLVAEHGAYVVPTLVTYDALASEGEKYGLPPESIAKIADVHGAGLHSIEIMKRAGVKMGFGTDLLGEAQRLQSDEFRILAEVLSPAEVIASATIVSAEVLGMQDKLGRIVPGAHADVLVVDGNPLKSVDCLLGQGEHIPLVMKDGRLFVNELE 3mkv-a1-m1-cF_3mkv-a1-m1-cH Crystal structure of amidohydrolase eaj56179 B2T4I1 B2T4I1 2.4 X-RAY DIFFRACTION 20 1.0 32644 (unidentified) 32644 (unidentified) 412 412 3mkv-a1-m1-cB_3mkv-a1-m1-cC 3mkv-a1-m1-cD_3mkv-a1-m1-cA 3mkv-a1-m1-cE_3mkv-a1-m1-cG TTFLFRNGALLDPDHPDLLQGFEILIEDGFIREVSDKPIKSSNAHVIDVKGKTIMPGLIDLHVHVVAIEFNLPRVATLPNVLVTLRAVPIMRAMLRRGFTTVRDAGGAGYPFKQAVESGLVEGPRLFVSGRALSQTGGHADPRARSDYMPPDSPCGCCVRVGALGRVADGVDEVRRAVREELQMGADQIIMASGGVASPTDPVGVFGYSEDEIRAIVAEAQGRGTYVLAHAYTPAAIARAVRCGVRTIEHGNLIDDETARLVAEHGAYVVPTLVTYDALASEGEKYGLPPESIAKIADVHGAGLHSIEIMKRAGVKMGFGTDLLGEAQRLQSDEFRILAEVLSPAEVIASATIVSAEVLGMQDKLGRIVPGAHADVLVVDGNPLKSVDCLLGQGEHIPLVMKDGRLFVNELE TTFLFRNGALLDPDHPDLLQGFEILIEDGFIREVSDKPIKSSNAHVIDVKGKTIMPGLIDLHVHVVAIEFNLPRVATLPNVLVTLRAVPIMRAMLRRGFTTVRDAGGAGYPFKQAVESGLVEGPRLFVSGRALSQTGGHADPRARSDYMPPDSPCGCCVRVGALGRVADGVDEVRRAVREELQMGADQIIMASGGVASPTDPVGVFGYSEDEIRAIVAEAQGRGTYVLAHAYTPAAIARAVRCGVRTIEHGNLIDDETARLVAEHGAYVVPTLVTYDALASEGEKYGLPPESIAKIADVHGAGLHSIEIMKRAGVKMGFGTDLLGEAQRLQSDEFRILAEVLSPAEVIASATIVSAEVLGMQDKLGRIVPGAHADVLVVDGNPLKSVDCLLGQGEHIPLVMKDGRLFVNELE 3mky-a1-m1-cP_3mky-a1-m1-cB Structure of SopB(155-323)-18mer DNA complex, I23 form P62558 P62558 2.86 X-RAY DIFFRACTION 42 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 114 115 3mkw-a1-m1-cB_3mkw-a1-m1-cP PTSAYERGQRYASRLQNEFAGNISALADAENISRKIITRCINTAKLPKSVVALFSHPGELSARSGDALQKAFTDKEELLKQQASNLHEQKKAGVIFEADEVITLLTSVLKTSSA PTSAYERGQRYASRLQNEFAGNISALADAENISRKIITRCINTAKLPKSVVALFSHPGELSARSGDALQKAFTDKEELLKQQASNLHEQKKAGVIFEADEVITLLTSVLKTSSAS 3ml4-a2-m1-cD_3ml4-a2-m1-cC Crystal structure of a complex between Dok7 PH-PTB and the MuSK juxtamembrane region Q18PE0 Q18PE0 2.6 X-RAY DIFFRACTION 87 1.0 10090 (Mus musculus) 10090 (Mus musculus) 201 203 3ml4-a1-m1-cA_3ml4-a1-m1-cB EAALVEGQVKLRDKWKSRWLVLRKPSPVADCLLLVYKDKCERSKGLRERSSLTLEDICGLEPALPYEGLAHTLAIICLSQAVLGFDSHEACAWDTRIRYALGEVHRFHVTVAPGTKLESGPATLHLCNDILVLARDIPPTVGQWKLSDLRRYGAVPNGFIFEGGTRCGYWAGVFFLSSAEGEQSFLFDCIVRGISPTKGPF EAALVEGQVKLRDGKKWKSRWLVLRKPSPVADCLLLVYKDKCERSKGLRERSSLTLEDICGLEPALPYEGLAHTLAIICLSQAVLGFDSHEACAWDTRIRYALGEVHRFHVTVAPGTKLESGPATLHLCNDILVLARDIPPTVGQWKLSDLRRYGAVPNGFIFEGGTRCGYWAGVFFLSSAEGEQSFLFDCIVRGISPTKGPF 3mla-a2-m2-cB_3mla-a2-m2-cA BaNadD in complex with inhibitor 1_02 C3L5T6 C3L5T6 1.75 X-RAY DIFFRACTION 102 0.995 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 184 188 3hfj-a1-m1-cA_3hfj-a1-m1-cB 3mla-a1-m1-cB_3mla-a1-m1-cA 3mla-a2-m1-cB_3mla-a2-m1-cA 3mlb-a1-m1-cB_3mlb-a1-m1-cA 3mlb-a2-m1-cB_3mlb-a2-m1-cA 3mlb-a2-m2-cB_3mlb-a2-m2-cA MRKIGIIGGTFDPPHYGHLLIANEVYHALNLEEVWFLPNQIPPNITSVESRLQMLELATEAEEHFSICLEELSRKGPSYTYDTMLQLTKKYPDVQFHFIIGGDMVEYLPKWYNIEALLDLVTFVGVARPGYKLRTPYPITTVEIPEFAVSSSLLRERYKEKKTCKYLLPEKVQVYIERNGLYES MRKIGIIGGTFDPPHYGHLLIANEVYHALNLEEVWFLPNQIPPHKQGRNITSVESRLQMLELATEAEEHFSICLEELSRKGPSYTYDTMLQLTKKYPDVQFHFIIGGDMVEYLPKWYNIEALLDLVTFVGVARPGYKLRTPYPITTVEIPEFAVSSSLLRERYKEKKTCKYLLPEKVQVYIERNGLYE 3mlb-a2-m2-cB_3mlb-a2-m1-cA BaNadD in complex with inhibitor 1_02_1 C3L5T6 C3L5T6 1.8 X-RAY DIFFRACTION 48 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 185 189 2qtm-a1-m1-cA_2qtm-a1-m1-cB 2qtn-a1-m1-cA_2qtn-a1-m1-cB 2qtr-a1-m1-cA_2qtr-a1-m2-cA 2qtr-a2-m1-cB_2qtr-a2-m1-cC 3dv2-a1-m1-cC_3dv2-a1-m1-cD 3dv2-a2-m1-cA_3dv2-a2-m1-cB 3e27-a1-m1-cA_3e27-a1-m1-cB 3e27-a2-m1-cD_3e27-a2-m1-cC 3mla-a2-m1-cB_3mla-a2-m2-cA 3mla-a2-m2-cB_3mla-a2-m1-cA 3mlb-a2-m1-cB_3mlb-a2-m2-cA 3mmx-a1-m1-cA_3mmx-a1-m1-cE 3mmx-a2-m1-cF_3mmx-a2-m1-cB 3mmx-a3-m1-cH_3mmx-a3-m1-cC 3mmx-a4-m1-cG_3mmx-a4-m1-cD MRKIGIIGGTFDPPHYGHLLIANEVYHALNLEEVWFLPNQIPPHNITSVESRLQMLELATEAEEHFSICLEELSRKGPSYTYDTMLQLTKKYPDVQFHFIIGGDMVEYLPKWYNIEALLDLVTFVGVARPGYKLRTPYPITTVEIPEFAVSSSLLRERYKEKKTCKYLLPEKVQVYIERNGLYES MRKIGIIGGTFDPPHYGHLLIANEVYHALNLEEVWFLPNQIPPHKQGRNITSVESRLQMLELATEAEEHFSICLEELSRKGPSYTYDTMLQLTKKYPDVQFHFIIGGDMVEYLPKWYNIEALLDLVTFVGVARPGYKLRTPYPITTVEIPEFAVSSSLLRERYKEKKTCKYLLPEKVQVYIERNGLYES 3mlf-a1-m1-cB_3mlf-a1-m1-cA Putative transcriptional regulator from Staphylococcus aureus. 2.6 X-RAY DIFFRACTION 54 1.0 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 89 92 3mlf-a2-m1-cC_3mlf-a2-m1-cD 3mlf-a3-m1-cE_3mlf-a3-m2-cE NLYFQSNAKTLKELRTDYGLTQKELGDLFKVSSRTIQNEKDSTNIKDSLLSKYSAFNVKYDDIFLGNEYENFVFTNDKKKSIILAFKEK TENLYFQSNAKTLKELRTDYGLTQKELGDLFKVSSRTIQNEKDSTNIKDSLLSKYSAFNVKYDDIFLGNEYENFVFTNDKKKSIILAFKEKQ 3mlg-a3-m1-cA_3mlg-a3-m2-cB 2ouf-2x, a designed knotted protein O25025 O25025 2.29 X-RAY DIFFRACTION 54 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 161 161 NPLDKWNDIIFHASKKLSKKELERLLELLALLETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSMANILSGGNPLDKWNDIIFHASKKLSKKELERLLELLALLETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSMANILSG NPLDKWNDIIFHASKKLSKKELERLLELLALLETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSMANILSGGNPLDKWNDIIFHASKKLSKKELERLLELLALLETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSMANILSG 3mli-a3-m2-cA_3mli-a3-m1-cD 2ouf-ds, a disulfide-linked dimer of Helicobacter pylori protein HP0242 O25025 O25025 2.9 X-RAY DIFFRACTION 63 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 91 94 DYSELEIFEGNPLDKWNDIIFHASKKLSKKELERLLELLALCETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSMANILSGL DYSELEIFEGNPLDKWNDIIFHASKKLSKKELERLLELLALCETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSMANILSGLEHH 3mln-a1-m1-cA_3mln-a1-m1-cB DNA binding domain of Early B-cell Factor 1 (Ebf1) bound to DNA (crystal form II) Q07802 Q07802 2.4 X-RAY DIFFRACTION 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 206 213 3mlo-a1-m1-cA_3mlo-a1-m1-cB 3mlp-a2-m1-cF_3mlp-a2-m1-cE GVLDANTAAQSGVGLARAHFEKQPPSNLRKSNFFHFVLALYDRQGQPVEIERTAFVGFVEKEKEANSEKTNNGIHYRLQLLYSNGIRTEQDFYVRLIDSMTKQAIVYEGQDKNPEMCRVLLTHEIMCSRCCDKKSCGNRNETPSDPVIIDRFFLKFFLKCNQNCLKNAGNPRDMRRFQVVVSTTVNVDGHVLAVSDNMFVHNNSKH GVLDANTAAQSGVGLARAHFEKQPPSNLRKSNFFHFVLALYDRQGQPVEIERTAFVGFVEKEKEANSEKTNNGIHYRLQLLYSNGIRTEQDFYVRLIDSMTKQAIVYEGQDKNPEMCRVLLTHEIMCSRCCDKKSCGNRNETPSDPVIIDRFFLKFFLKCNQNCLKNAGNPRDMRRFQVVVSTTVNVDGHVLAVSDNMFVHNNSKHGENLYFQ 3mm5-a1-m1-cA_3mm5-a1-m1-cD Dissimilatory sulfite reductase in complex with the substrate sulfite Q59109 Q59109 1.8 X-RAY DIFFRACTION 12 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 417 417 3mm6-a1-m1-cA_3mm6-a1-m1-cD 3mm7-a1-m1-cA_3mm7-a1-m1-cD 3mm8-a1-m1-cA_3mm8-a1-m1-cD 3mm9-a1-m1-cA_3mm9-a1-m1-cD 3mma-a1-m1-cA_3mma-a1-m1-cD 3mmb-a1-m1-cA_3mmb-a1-m1-cD 3mmc-a1-m1-cA_3mmc-a1-m1-cD SETPLLDELEKGPWPSFVKEIKKTAELMEKAAAEGKDVKMPKGARGLLKQLEISYKDKKTHWKHGGIVSVVGYGGGVIGRYSDLGEQIPEVEHFHTMRINQPSGWFYSTKALRGLCDVWEKWGSGLTNFHGSTGDIIFLGTRSEYLQPCFEDLGNLEIPFDIGGSGSDLRTPSACMGPALCEFACYDTLELCYDLTMTYQDELHRPMWPYKFKIKCAGCPNDCVASKARSDFAIIGTWKDDIKVDQEAVKEYASWMDIENEVVKLCPTGAIKWDGKELTIDNRECVRCMHCINKMPKALKPGDERGATILIGGKAPFVEGAVIGWVAVPFVEVEKPYDEIKEILEAIWDWWDEEGKFRERIGELIWRKGMREFLKVIGREADVRMVKAPRNNPFMFFEKDELKPSAYTEELKKRGMW SETPLLDELEKGPWPSFVKEIKKTAELMEKAAAEGKDVKMPKGARGLLKQLEISYKDKKTHWKHGGIVSVVGYGGGVIGRYSDLGEQIPEVEHFHTMRINQPSGWFYSTKALRGLCDVWEKWGSGLTNFHGSTGDIIFLGTRSEYLQPCFEDLGNLEIPFDIGGSGSDLRTPSACMGPALCEFACYDTLELCYDLTMTYQDELHRPMWPYKFKIKCAGCPNDCVASKARSDFAIIGTWKDDIKVDQEAVKEYASWMDIENEVVKLCPTGAIKWDGKELTIDNRECVRCMHCINKMPKALKPGDERGATILIGGKAPFVEGAVIGWVAVPFVEVEKPYDEIKEILEAIWDWWDEEGKFRERIGELIWRKGMREFLKVIGREADVRMVKAPRNNPFMFFEKDELKPSAYTEELKKRGMW 3mm5-a1-m1-cB_3mm5-a1-m1-cE Dissimilatory sulfite reductase in complex with the substrate sulfite Q59110 Q59110 1.8 X-RAY DIFFRACTION 43 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 363 363 3mm6-a1-m1-cB_3mm6-a1-m1-cE 3mm7-a1-m1-cB_3mm7-a1-m1-cE 3mm8-a1-m1-cB_3mm8-a1-m1-cE 3mm9-a1-m1-cB_3mm9-a1-m1-cE 3mma-a1-m1-cB_3mma-a1-m1-cE 3mmb-a1-m1-cB_3mmb-a1-m1-cE 3mmc-a1-m1-cB_3mmc-a1-m1-cE EGVKTDFGPPYFRDLLHPVIAKNYGKWKYHEVVKPGVIKRVAESGDVIYVVRFGTPRLLSIYTVRELCDIADKYSDGYLRWTSRNNVEFFVTDESKIDDLINEVQERVGFPCGGTWDAVKGEYGLSNIVHTQGWIHCHTPAIDASGIVKAVMDELYEYFTDHKLPAMCRISLACCANMCGAVHASDIAIVGIHRTPPIPNDEAIRKTCEIPSTVAACPTGALKPDMKNKTIKVDVEKCMYCGNCYTMCPGMPLFDPENDGAAIMVGGKLSEARRMPELSKVVVPWVPNEPPRWPTLVKYVKQILEAWAANANKHERLIEWVDRIGWERFFELTGLEFTQHLIDDYRITPYFYSEFRASTQFKW EGVKTDFGPPYFRDLLHPVIAKNYGKWKYHEVVKPGVIKRVAESGDVIYVVRFGTPRLLSIYTVRELCDIADKYSDGYLRWTSRNNVEFFVTDESKIDDLINEVQERVGFPCGGTWDAVKGEYGLSNIVHTQGWIHCHTPAIDASGIVKAVMDELYEYFTDHKLPAMCRISLACCANMCGAVHASDIAIVGIHRTPPIPNDEAIRKTCEIPSTVAACPTGALKPDMKNKTIKVDVEKCMYCGNCYTMCPGMPLFDPENDGAAIMVGGKLSEARRMPELSKVVVPWVPNEPPRWPTLVKYVKQILEAWAANANKHERLIEWVDRIGWERFFELTGLEFTQHLIDDYRITPYFYSEFRASTQFKW 3mmg-a3-m1-cB_3mmg-a3-m1-cA Crystal structure of tobacco vein mottling virus protease P09814 P09814 1.7 X-RAY DIFFRACTION 122 1.0 12228 (Tobacco vein mottling virus) 12228 (Tobacco vein mottling virus) 214 217 ALLKGVRDFNPISACVCLLENSSDGHSERLFGIGFGPYIIANQHLFRRNNGELTIKTMHGEFAVANSTQLQMKPVEGRDIIVIKMAKDFPPFPQKLKFRQPTIKDRVCMVSTNFQQKSVSSLVSESSHIVHKEDTSFWQHWITTKDGQAGSPLVSIIDGNILGIHSLTHTTNGSNYFVEFPEKFVATYLDAADGWCKNWKFNADKISWGSFTLV SKALLKGVRDFNPISACVCLLENSSDGHSERLFGIGFGPYIIANQHLFRRNNGELTIKTMHGEFAVANSTQLQMKPVEGRDIIVIKMAKDFPPFPQKLKFRQPTIKDRVCMVSTNFQQKSVSSLVSESSHIVHKEDTSFWQHWITTKDGQAGSPLVSIIDGNILGIHSLTHTTNGSNYFVEFPEKFVATYLDAADGWCKNWKFNADKISWGSFTLVE 3mmh-a1-m1-cA_3mmh-a1-m1-cB X-ray structure of free methionine-R-sulfoxide reductase from neisseria meningitidis in complex with its substrate 1.25 X-RAY DIFFRACTION 97 1.0 604162 (Neisseria meningitidis 8013) 604162 (Neisseria meningitidis 8013) 167 167 MHALHFSASDKAALYREVLPQIESVVADETDWVANLANTAAVLKEAFGWFWVGFYLVDTRSDELVLAPFQGPLACTRIPFGRGVCGQAWAKGGTVVVGDVDAHPDHIACSSLSRSEIVVPLFSDGRCIGVLDADSEHLAQFDETDALYLGELAKILEKRFEASRQAV MHALHFSASDKAALYREVLPQIESVVADETDWVANLANTAAVLKEAFGWFWVGFYLVDTRSDELVLAPFQGPLACTRIPFGRGVCGQAWAKGGTVVVGDVDAHPDHIACSSLSRSEIVVPLFSDGRCIGVLDADSEHLAQFDETDALYLGELAKILEKRFEASRQAV 3mmi-a3-m1-cA_3mmi-a3-m1-cB Crystal structure of the globular tail of Myo4p P32492 P32492 2.3 X-RAY DIFFRACTION 65 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 326 346 DLLELLMDLNCYTLEVTEGYLKKVNVTEVNGLGPIHVITTVVSSLVRNGLLIQSSKFISKVLLTVESIVMSLPKDETMLGGIFWLSNLSRLPAFAANQKTLYDKLTLIYLNDLENETLKVFDKIYSTWLVKFMKHASAHIEIFDMVLNEKLFKNSGDEKFAKLFTFLNEFDAVLCKFQVVDSMHTKIFNDTLKYLNVMLFNDLITKCPALNWKYGYEVDRNIERLVSWFEPRIEDVRPNLIQIIQAVKILQLKISNLNEFKLLFDFWYALNPAQIQAILLKYKPAGVPNEILNYLANVIKRENLSLPGKMEIMLSAQFDSAKNHLR NPDLLELLMDLNCYTLEVTEGYLKKVNVTEVNGDNVLGPIHVITTVVSSLVRNGLLIQSSKFISKVLLTVESIVMSLPKDETMLGGIFWLSNLSRLPAFAANQKTLYKDKLTLIYLNDLENETLKVFDKIYSTWLVKFMKHASAHIEIFDMVLNEKLFKNSGDEKFAKLFTFLNEFDAVLCKFQVVDSMHTKIFNDTLKYLNVMLFNDLITKCPALNWKYGYEVDRNIERLVSWFEPRIEDVRPNLIQIIQAVKILQLKISNLNEFKLLFDFWYALNPAQIQAILLKYKPANAGVPNEILNYLANVIKRENLSLPGKMEIMLSAQFDSAKNHLRYGLATVSKIIKL 3mml-a2-m1-cG_3mml-a2-m1-cE Allophanate Hydrolase Complex from Mycobacterium smegmatis, Msmeg0435-Msmeg0436 A0QPL0 A0QPL0 2.5 X-RAY DIFFRACTION 120 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 284 288 3mml-a1-m1-cA_3mml-a1-m1-cC GTTLEVLRTGPLALVEDLGRPGLAHGVTRSGAADRRSHTLANRLVANPGESATIEVTFGGFSARVCGGDVAIAVTGADTDPAVNGIPFGTNSIHHVHDGQVISLGAPHSGLRSYLAVRGGIDVTPVLGSRSYDVSAIGPSPLRPGDVLPVGEHTDEFPELDQAPVAAIAEDVVELQVVPGPRDDWFVDPDILVRTNWLVTNRSDRVGRLVGPLEYRNPDRQLPSEGATRGAIQVPPNGFPVILGPDHPVTGGYPVIGVVTEEDIDKLGQVRPGQTVRLHWAYPR GTTLEVLRTGPLALVEDLGRPGLAHGVTRSGAADRRSHTLANRLVANPGESATIEVTFGGFSARVCGGDVAIAVTGADTDPAVNGIPFGTNSIHHVHDGQVISLGAPHSGLRSYLAVRGGIDVTPVLGSRSYDVSAIGPSPLRPGDVLPVGEHTDEFPELDQAPVAAIAEDVVELQVVPGPRDDWFVDPDILVRTNWLVTNRSDRVGRLVGPLEYRNPDRQLPSEGATRGAIQVPPNGFPVILGPDHPVTGGYPVIGVVTEEDIDKLGQVRPGQTVRLHWAYPRRPFE 3mmp-a3-m1-cF_3mmp-a3-m1-cG Structure of the Qb replicase, an RNA-dependent RNA polymerase consisting of viral and host proteins P14647 P14647 2.5 X-RAY DIFFRACTION 38 1.0 39803 (Qubevirus durum) 39803 (Qubevirus durum) 549 549 SRNSLSAQLRRAANTRIEVEGNLALSIANDLLLAYGQSPFNSEAECISFSPRFDGTPDDFRINYLKAEIMSKYDDFSLGIDTEAVAWEKFLAAEAECALTNARLYRPFNFSLGESCIHMARRKIAKLIGDVPSVEGMLRHCRFSGGATTTNNRSYGHPSFKFALPQACTPRALKYVLALRASTHFDTRISDISPFNKAVTVPKNSKTDRCIAIEPGWNMFFQLGIGGILRDRLRCWGIDLNDQTINQRRAHEGSVTNNLATVDLSAASDSISLALCELLLPPGWFEVLMDLRSPKGRLPDGSVVTYEKISSMGNGYTFELESLIFASLARSVCEILDLDSSEVTVYGDDIILPSCAVPALREVFKYVGFTTNTKKTFSEGPFRESCGKHYYSGVDVTPFYIRHRIVSPADLILVLNNLYRWATIDGVWDPRAHSVYLKYRKLLPKQLQRNTIPDGYGDGALVGSVLINPFAKNRGWIRYVPVITDHTRDRERAELGSYLYDLFSRCLSCDSADLFAIDQLICRSNPTKISRSTGKFDIQYIACSSRVLA SRNSLSAQLRRAANTRIEVEGNLALSIANDLLLAYGQSPFNSEAECISFSPRFDGTPDDFRINYLKAEIMSKYDDFSLGIDTEAVAWEKFLAAEAECALTNARLYRPFNFSLGESCIHMARRKIAKLIGDVPSVEGMLRHCRFSGGATTTNNRSYGHPSFKFALPQACTPRALKYVLALRASTHFDTRISDISPFNKAVTVPKNSKTDRCIAIEPGWNMFFQLGIGGILRDRLRCWGIDLNDQTINQRRAHEGSVTNNLATVDLSAASDSISLALCELLLPPGWFEVLMDLRSPKGRLPDGSVVTYEKISSMGNGYTFELESLIFASLARSVCEILDLDSSEVTVYGDDIILPSCAVPALREVFKYVGFTTNTKKTFSEGPFRESCGKHYYSGVDVTPFYIRHRIVSPADLILVLNNLYRWATIDGVWDPRAHSVYLKYRKLLPKQLQRNTIPDGYGDGALVGSVLINPFAKNRGWIRYVPVITDHTRDRERAELGSYLYDLFSRCLSCDSADLFAIDQLICRSNPTKISRSTGKFDIQYIACSSRVLA 3mmt-a1-m1-cA_3mmt-a1-m1-cD Crystal structure of fructose bisphosphate aldolase from Bartonella henselae, bound to fructose bisphosphate Q8L207 Q8L207 2.35 X-RAY DIFFRACTION 65 0.997 38323 (Bartonella henselae) 38323 (Bartonella henselae) 341 341 3mmt-a1-m1-cB_3mmt-a1-m1-cC GSMNERLEDIALTLVGAGKGILAADESTATIGKRFESIGVECTEDNRRAYREMLFTAKEAMESAISGVILFDETLRQKASTGQMLTDLIRDAGAVPGIKVDTGAKPLAAFPQETITEGLDGLRERLKDYYTLGARFAKWRAVIAIDAQTLPTRGAISQNAQALARYAALCQEAGLVPIVEPEVLMDGPSRQHSITRCFEVTKVVLHTVFKELFEARVLFEGMILKPNMVIDGKDARIASVEEVAEKTVHVLKQTVPAAVPGIAFLSGGQTDEEATAHLSAMNALGALPWKLTFSYGRALQAAALKAWAGKNENIVVAQKAFCHRARMNHLAALGQWTKDQE SMNERLEDIALTLVGAGKGILAADESTATIGKRFESIGVECTEDNRRAYREMLFTAKEAMESAISGVILFDETLRQKASTGQMLTDLIRDAGAVPGIKVDTGAKPLAAFPQETITEGLDGLRERLKDYYTLGARFAKWRAVIAIDAQTLPTRGAISQNAQALARYAALCQEAGLVPIVEPEVLMDGPSRQHSITRCFEVTKVVLHTVFKELFEARVLFEGMILKPNMVIDGKDARIASVEEVAEKTVHVLKQTVPAAVPGIAFLSGGQTDEEATAHLSAMNALGALPWKLTFSYGRALQAAALKAWAGKNENIVVAQKAFCHRARMNHLAALGQWTKDQEK 3mmt-a1-m1-cC_3mmt-a1-m1-cD Crystal structure of fructose bisphosphate aldolase from Bartonella henselae, bound to fructose bisphosphate Q8L207 Q8L207 2.35 X-RAY DIFFRACTION 34 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 341 341 3mmt-a1-m1-cB_3mmt-a1-m1-cA SMNERLEDIALTLVGAGKGILAADESTATIGKRFESIGVECTEDNRRAYREMLFTAKEAMESAISGVILFDETLRQKASTGQMLTDLIRDAGAVPGIKVDTGAKPLAAFPQETITEGLDGLRERLKDYYTLGARFAKWRAVIAIDAQTLPTRGAISQNAQALARYAALCQEAGLVPIVEPEVLMDGPSRQHSITRCFEVTKVVLHTVFKELFEARVLFEGMILKPNMVIDGKDARIASVEEVAEKTVHVLKQTVPAAVPGIAFLSGGQTDEEATAHLSAMNALGALPWKLTFSYGRALQAAALKAWAGKNENIVVAQKAFCHRARMNHLAALGQWTKDQEK SMNERLEDIALTLVGAGKGILAADESTATIGKRFESIGVECTEDNRRAYREMLFTAKEAMESAISGVILFDETLRQKASTGQMLTDLIRDAGAVPGIKVDTGAKPLAAFPQETITEGLDGLRERLKDYYTLGARFAKWRAVIAIDAQTLPTRGAISQNAQALARYAALCQEAGLVPIVEPEVLMDGPSRQHSITRCFEVTKVVLHTVFKELFEARVLFEGMILKPNMVIDGKDARIASVEEVAEKTVHVLKQTVPAAVPGIAFLSGGQTDEEATAHLSAMNALGALPWKLTFSYGRALQAAALKAWAGKNENIVVAQKAFCHRARMNHLAALGQWTKDQEK 3mmw-a6-m1-cC_3mmw-a6-m1-cD Crystal structure of endoglucanase Cel5A from the hyperthermophilic Thermotoga maritima Q9X273 Q9X273 1.85 X-RAY DIFFRACTION 76 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 309 309 3mmu-a10-m1-cC_3mmu-a10-m1-cD 3mmu-a11-m1-cE_3mmu-a11-m1-cF 3mmu-a12-m1-cG_3mmu-a12-m1-cH 3mmu-a9-m1-cA_3mmu-a9-m1-cB 3mmw-a5-m1-cA_3mmw-a5-m1-cB VDPFERNKILGRGINIGNALEAPNEGDWGVVIKDEFFDIIKEAGFSHVRIPIRWSTHAYAFPPYKIMDRFFKRVDEVINGALKRGLAVVINIHHYEELMNDPEEHKERFLALWKQIADRYKDYPETLFFEILNEPHGNLTPEKWNELLEEALKVIRSIDKKHTIIIGTAEWGGISALEKLSVPKWEKNSIVTIHYYNPFEFTHQGAEWVEGSEKWLGRKWGSPDDQKHLIEEFNFIEEWSKKNKRPIYIGEFGAYRKADLESRIKWTSFVVREMEKRRWSWAYWEFCSGFGVYDTLRKTWNKDLLEALI VDPFERNKILGRGINIGNALEAPNEGDWGVVIKDEFFDIIKEAGFSHVRIPIRWSTHAYAFPPYKIMDRFFKRVDEVINGALKRGLAVVINIHHYEELMNDPEEHKERFLALWKQIADRYKDYPETLFFEILNEPHGNLTPEKWNELLEEALKVIRSIDKKHTIIIGTAEWGGISALEKLSVPKWEKNSIVTIHYYNPFEFTHQGAEWVEGSEKWLGRKWGSPDDQKHLIEEFNFIEEWSKKNKRPIYIGEFGAYRKADLESRIKWTSFVVREMEKRRWSWAYWEFCSGFGVYDTLRKTWNKDLLEALI 3mmz-a1-m1-cC_3mmz-a1-m2-cD CRYSTAL STRUCTURE OF putative HAD family hydrolase from Streptomyces avermitilis MA-4680 Q82HY3 Q82HY3 1.84 X-RAY DIFFRACTION 19 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 161 173 3mmz-a1-m2-cC_3mmz-a1-m1-cD LGALPTAEDIDAVVLDFDGTQTDDRVLIDSDGREFVSVHRGDGLGIAALRKSGLTLILSTEQNPVVAARARKLKIPVLHGIDRKDLALKQWCEEQGIAPERVLYVGNDVNDLPCFALVGWPVAVASAHDVVRGAARAVTTVPGGDGAIREIASWILGPSLD SLGALPTAEDIDAVVLDFDGTQTDDRVLIDSDGREFVSVHRGDGLGIAALRKSGLTLILSTEQNPVVAARARKLKIPVLHGIDRKDLALKQWCEEQGIAPERVLYVGNDVNDLPCFALVGWPVAVASAHDVVRGAARAVTTVPGGDGAIREIASWILGPSLDSLDKEGHHHHH 3mmz-a1-m2-cA_3mmz-a1-m2-cD CRYSTAL STRUCTURE OF putative HAD family hydrolase from Streptomyces avermitilis MA-4680 Q82HY3 Q82HY3 1.84 X-RAY DIFFRACTION 48 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 162 173 3mmz-a1-m1-cA_3mmz-a1-m1-cD 3mmz-a1-m1-cC_3mmz-a1-m1-cB 3mmz-a1-m2-cC_3mmz-a1-m2-cB SLGALPTAEDIDAVVLDFDGTQTDDRVLIDSDGREFVSVHRGDGLGIAALRKSGLTLILSTEQNPVVAARARKLKIPVLHGIDRKDLALKQWCEEQGIAPERVLYVGNDVNDLPCFALVGWPVAVASAHDVVRGAARAVTTVPGGDGAIREIASWILGPSLD SLGALPTAEDIDAVVLDFDGTQTDDRVLIDSDGREFVSVHRGDGLGIAALRKSGLTLILSTEQNPVVAARARKLKIPVLHGIDRKDLALKQWCEEQGIAPERVLYVGNDVNDLPCFALVGWPVAVASAHDVVRGAARAVTTVPGGDGAIREIASWILGPSLDSLDKEGHHHHH 3mmz-a1-m2-cC_3mmz-a1-m2-cA CRYSTAL STRUCTURE OF putative HAD family hydrolase from Streptomyces avermitilis MA-4680 Q82HY3 Q82HY3 1.84 X-RAY DIFFRACTION 49 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 161 162 3mmz-a1-m1-cB_3mmz-a1-m1-cD 3mmz-a1-m1-cB_3mmz-a1-m2-cD 3mmz-a1-m1-cC_3mmz-a1-m1-cA 3mmz-a1-m1-cC_3mmz-a1-m2-cA 3mmz-a1-m2-cB_3mmz-a1-m1-cD 3mmz-a1-m2-cB_3mmz-a1-m2-cD 3mmz-a1-m2-cC_3mmz-a1-m1-cA LGALPTAEDIDAVVLDFDGTQTDDRVLIDSDGREFVSVHRGDGLGIAALRKSGLTLILSTEQNPVVAARARKLKIPVLHGIDRKDLALKQWCEEQGIAPERVLYVGNDVNDLPCFALVGWPVAVASAHDVVRGAARAVTTVPGGDGAIREIASWILGPSLD SLGALPTAEDIDAVVLDFDGTQTDDRVLIDSDGREFVSVHRGDGLGIAALRKSGLTLILSTEQNPVVAARARKLKIPVLHGIDRKDLALKQWCEEQGIAPERVLYVGNDVNDLPCFALVGWPVAVASAHDVVRGAARAVTTVPGGDGAIREIASWILGPSLD 3mn3-a2-m1-cA_3mn3-a2-m2-cA An inhibited conformation for the protein kinase domain of the Saccharomyces cerevisiae AMPK homolog Snf1 P06782 P06782 2.38 X-RAY DIFFRACTION 89 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 252 252 2fh9-a1-m1-cA_2fh9-a1-m2-cA AHIGNYQIVKTLGEGSFGKVKLAYHTTTGQKVALKIINIEREISYLRLLRHPHIIKLYDVIKSKDEIIMVIEYAGNELFDYIVQRDKMSEQEARRFFQQIISAVEYCHRHKIVHRDLKPENLLLDEHLNVKIADFGLNFLKTSCGSPNYAAPEVISGKLYAGPEVDVWSCGVILYVMLCRRLPFDDESIPVLFKNISNGVYTLPKFLSPGAAGLIKRMLIVNPLNRISIHEIMQDDWFKVDLPEYLLPPDLK AHIGNYQIVKTLGEGSFGKVKLAYHTTTGQKVALKIINIEREISYLRLLRHPHIIKLYDVIKSKDEIIMVIEYAGNELFDYIVQRDKMSEQEARRFFQQIISAVEYCHRHKIVHRDLKPENLLLDEHLNVKIADFGLNFLKTSCGSPNYAAPEVISGKLYAGPEVDVWSCGVILYVMLCRRLPFDDESIPVLFKNISNGVYTLPKFLSPGAAGLIKRMLIVNPLNRISIHEIMQDDWFKVDLPEYLLPPDLK 3mnd-a1-m1-cA_3mnd-a1-m1-cB Crystallographic analysis of the cystosolic cu/zn Superoxide dismutase from taenia solium Q8WRF5 Q8WRF5 2.2 X-RAY DIFFRACTION 60 1.0 6204 (Taenia solium) 6204 (Taenia solium) 152 152 MKAVCVMRGEEGVKGVVHFTQAGDAVKVHAEFEGLKPGKHGFHVHEFGDTTQGCTSAGAHFNPHGKNHGAPDAAERHVGDLGNVTAGADGKATLDLTDKMISLTGEHSVIGRSLVIHVDPDDLGLGGHELSLITGNAGGRVACGIIGIAKSE MKAVCVMRGEEGVKGVVHFTQAGDAVKVHAEFEGLKPGKHGFHVHEFGDTTQGCTSAGAHFNPHGKNHGAPDAAERHVGDLGNVTAGADGKATLDLTDKMISLTGEHSVIGRSLVIHVDPDDLGLGGHELSLITGNAGGRVACGIIGIAKSE 3mnf-a1-m2-cA_3mnf-a1-m6-cA Crystal structure of PAC2 family protein from Streptomyces avermitilis MA Q828L9 Q828L9 2.97 X-RAY DIFFRACTION 32 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 232 232 3mnf-a1-m1-cA_3mnf-a1-m4-cA 3mnf-a1-m3-cA_3mnf-a1-m5-cA DPVVAAFEGWNDAGDAASTAVAHLDREWKGEVFAALDAEDYYDFQVNRPTVWLDGGVRKITWPTTRLSVVRVGGEKPRDLVLVRGIEPSRWRSFCNELLAFAHELGVELVVVLGALLGDTPHTRPVPVSGVTSDPDLARTDLEETKYEGPTGIVGILQEACTHAGVPAVSLWAAVPHYVSQPPNPKATLALLNRLEDLIDVRIPLGELPEDARAWQVGVDQLADSEVAEYVQ DPVVAAFEGWNDAGDAASTAVAHLDREWKGEVFAALDAEDYYDFQVNRPTVWLDGGVRKITWPTTRLSVVRVGGEKPRDLVLVRGIEPSRWRSFCNELLAFAHELGVELVVVLGALLGDTPHTRPVPVSGVTSDPDLARTDLEETKYEGPTGIVGILQEACTHAGVPAVSLWAAVPHYVSQPPNPKATLALLNRLEDLIDVRIPLGELPEDARAWQVGVDQLADSEVAEYVQ 3mnf-a1-m5-cA_3mnf-a1-m6-cA Crystal structure of PAC2 family protein from Streptomyces avermitilis MA Q828L9 Q828L9 2.97 X-RAY DIFFRACTION 46 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 232 232 3mnf-a1-m1-cA_3mnf-a1-m2-cA 3mnf-a1-m1-cA_3mnf-a1-m3-cA 3mnf-a1-m2-cA_3mnf-a1-m3-cA 3mnf-a1-m4-cA_3mnf-a1-m5-cA 3mnf-a1-m4-cA_3mnf-a1-m6-cA DPVVAAFEGWNDAGDAASTAVAHLDREWKGEVFAALDAEDYYDFQVNRPTVWLDGGVRKITWPTTRLSVVRVGGEKPRDLVLVRGIEPSRWRSFCNELLAFAHELGVELVVVLGALLGDTPHTRPVPVSGVTSDPDLARTDLEETKYEGPTGIVGILQEACTHAGVPAVSLWAAVPHYVSQPPNPKATLALLNRLEDLIDVRIPLGELPEDARAWQVGVDQLADSEVAEYVQ DPVVAAFEGWNDAGDAASTAVAHLDREWKGEVFAALDAEDYYDFQVNRPTVWLDGGVRKITWPTTRLSVVRVGGEKPRDLVLVRGIEPSRWRSFCNELLAFAHELGVELVVVLGALLGDTPHTRPVPVSGVTSDPDLARTDLEETKYEGPTGIVGILQEACTHAGVPAVSLWAAVPHYVSQPPNPKATLALLNRLEDLIDVRIPLGELPEDARAWQVGVDQLADSEVAEYVQ 3mnm-a5-m1-cC_3mnm-a5-m2-cC Crystal structure of GAE domain of GGA2p from Saccharomyces cerevisiae P38817 P38817 1.73 X-RAY DIFFRACTION 55 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 107 107 3mnm-a4-m1-cA_3mnm-a4-m1-cB PARTLVNQSPNLKIEFEISRESNSVIRISFFTNLSSSPISNLVFLLAVPKSMSLLQPQSSNFMIGNAKDGISQEGTIENAALVKWKVNYSVNSTQAEETAVFTLPNV PARTLVNQSPNLKIEFEISRESNSVIRISFFTNLSSSPISNLVFLLAVPKSMSLLQPQSSNFMIGNAKDGISQEGTIENAALVKWKVNYSVNSTQAEETAVFTLPNV 3mog-a1-m1-cB_3mog-a1-m1-cC Crystal structure of 3-hydroxybutyryl-CoA dehydrogenase from Escherichia coli K12 substr. MG1655 P76083 P76083 2.2 X-RAY DIFFRACTION 52 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 470 472 3mog-a1-m1-cA_3mog-a1-m1-cB 3mog-a1-m1-cA_3mog-a1-m1-cC NVQTVAVIGSGTMGAGIAEVAASHGHQVLLYDISAEALTRAIDGIHARLNSRVTRGKLTAETCERTLKRLIPVTDIHALAAADLVIEAASERLEVKKALFAQLAEVCPPQTLLTTNTSSISITAIAAEIKNPERVAGLHFFNPAPVMKLVEVVSGLATAAEVVEQLCELTLSWGKQPVRCHSTPGFIVNRVARPYYSEAWRALEEQVAAPEVIDAALRDGAGFPMGPLELTDLIGQDVNFAVTCSVFNAFWQERRFLPSLVQQELVIGGRLGKKSGLGVYDWRAEREAVVGLEAVSDSFSPMKVEKKSDGVTEIDDVLLIETQGETAQALAIRLARPVVVIDKMAGKVVTIAAAAVNPDSATRKAIYYLQQQGKTVLQIADYPGMLIWRTVAMIINEALDALQKGVASEQDIDTAMRLGVNYPYGPLAWGAQLGWQRILRLLENLQHHYGEERYRPCSLLRQRALLESGY LNVQTVAVIGSGTMGAGIAEVAASHGHQVLLYDISAEALTRAIDGIHARLNSRVTRGKLTAETCERTLKRLIPVTDIHALAAADLVIEAASERLEVKKALFAQLAEVCPPQTLLTTNTSSISITAIAAEIKNPERVAGLHFFNPAPVMKLVEVVSGLATAAEVVEQLCELTLSWGKQPVRCHSTPGFIVNRVARPYYSEAWRALEEQVAAPEVIDAALRDGAGFPMGPLELTDLIGQDVNFAVTCSVFNAFWQERRFLPSLVQQELVIGGRLGKKSGLGVYDWRAEREAVVGLEAVSDSFSPMKVEKKSDGVTEIDDVLLIETQGETAQALAIRLARPVVVIDKMAGKVVTIAAAAVNPDSATRKAIYYLQQQGKTVLQIADYPGMLIWRTVAMIINEALDALQKGVASEQDIDTAMRLGVNYPYGPLAWGAQLGWQRILRLLENLQHHYGEERYRPCSLLRQRALLESGYE 3moi-a1-m1-cA_3moi-a1-m2-cA The crystal structure of the putative dehydrogenase from Bordetella bronchiseptica RB50 A0A0H3LRN8 A0A0H3LRN8 2.5 X-RAY DIFFRACTION 135 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 381 381 MKIRFGICGLGFAGSVLMAPAMRHHPDAQIVAACDPNEDVRERFGKEYGIPVFATLAEMMQHVQMDAVYIASPHQFHCEHVVQASEQGLHIIVEKPLTLSRDEADRMIEAVERAGVHLVVGTSRSHDPVVRTLRAIVQEGSVGRVSMLNCFNYTDFLYRPRRPEELDTSKGGGIIYNQLPHQIDSIKTITGQRITAVRAMTGRLDPKRPTEGNCAAMLTLEDGACAVMVYSGYDHFDSDEMHFWLAEGGRAKQPNHGGARKVLRQLEGDEAELRRSRYGFGGPISKSDRKQPHFGVMLVTCEHADLRASPEGVLVYGDEGVREVPAITGRGPFSQGDTIDELRDAIAGVAPALRDARWGKDTLEVCLAVLESSATGRQVER MKIRFGICGLGFAGSVLMAPAMRHHPDAQIVAACDPNEDVRERFGKEYGIPVFATLAEMMQHVQMDAVYIASPHQFHCEHVVQASEQGLHIIVEKPLTLSRDEADRMIEAVERAGVHLVVGTSRSHDPVVRTLRAIVQEGSVGRVSMLNCFNYTDFLYRPRRPEELDTSKGGGIIYNQLPHQIDSIKTITGQRITAVRAMTGRLDPKRPTEGNCAAMLTLEDGACAVMVYSGYDHFDSDEMHFWLAEGGRAKQPNHGGARKVLRQLEGDEAELRRSRYGFGGPISKSDRKQPHFGVMLVTCEHADLRASPEGVLVYGDEGVREVPAITGRGPFSQGDTIDELRDAIAGVAPALRDARWGKDTLEVCLAVLESSATGRQVER 3mom-a2-m1-cA_3mom-a2-m2-cA Structure of holo HasAp H32A mutant complexed with imidazole from Pseudomonas aeruginosa to 2.25A Resolution G3XD33 G3XD33 2.25 X-RAY DIFFRACTION 17 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 175 175 SISISYSTTYSGWTVADYLADWSAYFGDGQVVDGSNTGGFNPGPFDGSQYALKSTASDAAFIAGGDLHYTLFSNPSHTLWGKLDSIALGDTLTGGASSGGYALDSQEVSFSNLGLDSPIAQGRDGTVHKVVYGLMSGDSSALQGQIDALLKAVDPSLSINSTFDQLAAAGVAHAT SISISYSTTYSGWTVADYLADWSAYFGDGQVVDGSNTGGFNPGPFDGSQYALKSTASDAAFIAGGDLHYTLFSNPSHTLWGKLDSIALGDTLTGGASSGGYALDSQEVSFSNLGLDSPIAQGRDGTVHKVVYGLMSGDSSALQGQIDALLKAVDPSLSINSTFDQLAAAGVAHAT 3mom-a2-m2-cA_3mom-a2-m2-cB Structure of holo HasAp H32A mutant complexed with imidazole from Pseudomonas aeruginosa to 2.25A Resolution G3XD33 G3XD33 2.25 X-RAY DIFFRACTION 44 0.989 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 175 176 3mom-a1-m1-cA_3mom-a1-m1-cB 3mom-a2-m1-cA_3mom-a2-m1-cB SISISYSTTYSGWTVADYLADWSAYFGDGQVVDGSNTGGFNPGPFDGSQYALKSTASDAAFIAGGDLHYTLFSNPSHTLWGKLDSIALGDTLTGGASSGGYALDSQEVSFSNLGLDSPIAQGRDGTVHKVVYGLMSGDSSALQGQIDALLKAVDPSLSINSTFDQLAAAGVAHAT SISISYSTTYSGWTVADYLADWSAYFGDVVVDGSNTGGFNPGPFDGSQYALKSTASDAAFIAGGDLHYTLFSNPSHTLWGKLDSIALGDTLTGGASSGGYALDSQEVSFSNLGLDSPIAQGRDGTVHKVVYGLMSGDSSALQGQIDALLKAVDPSLSINSTFDQLAAAGVAHATPA 3mop-a1-m1-cB_3mop-a1-m1-cE The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 Q99836 Q99836 3.4 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 3mop-a1-m1-cA_3mop-a1-m1-cD 3mop-a1-m1-cC_3mop-a1-m1-cF 6i3n-a1-m1-cA_6i3n-a1-m1-cD 6i3n-a1-m1-cB_6i3n-a1-m1-cE 6i3n-a1-m1-cC_6i3n-a1-m1-cF 6i3n-a1-m1-cD_6i3n-a1-m1-cG 6i3n-a1-m1-cE_6i3n-a1-m1-cH 6i3n-a1-m1-cF_6i3n-a1-m1-cI 6i3n-a1-m1-cG_6i3n-a1-m1-cJ 6i3n-a1-m1-cH_6i3n-a1-m1-cK 6i3n-a1-m1-cI_6i3n-a1-m1-cL 6i3n-a1-m1-cJ_6i3n-a1-m1-cM MLPLAALNMRVRRRLSLFLNVRTQVAADWTALAEEMDFEYLEIRQLETQADPTGRLLDAWQGRPGASVGRLLELLTKLGRDDVLLELGPSIEEDCQKYIAAALEH MLPLAALNMRVRRRLSLFLNVRTQVAADWTALAEEMDFEYLEIRQLETQADPTGRLLDAWQGRPGASVGRLLELLTKLGRDDVLLELGPSIEEDCQKYIAAALEH 3mop-a1-m1-cB_3mop-a1-m1-cF The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 Q99836 Q99836 3.4 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 3mop-a1-m1-cA_3mop-a1-m1-cE 6i3n-a1-m1-cA_6i3n-a1-m1-cE 6i3n-a1-m1-cB_6i3n-a1-m1-cF 6i3n-a1-m1-cC_6i3n-a1-m1-cG 6i3n-a1-m1-cD_6i3n-a1-m1-cH 6i3n-a1-m1-cE_6i3n-a1-m1-cI 6i3n-a1-m1-cF_6i3n-a1-m1-cJ 6i3n-a1-m1-cG_6i3n-a1-m1-cK 6i3n-a1-m1-cH_6i3n-a1-m1-cL 6i3n-a1-m1-cI_6i3n-a1-m1-cM MLPLAALNMRVRRRLSLFLNVRTQVAADWTALAEEMDFEYLEIRQLETQADPTGRLLDAWQGRPGASVGRLLELLTKLGRDDVLLELGPSIEEDCQKYIAAALEH MLPLAALNMRVRRRLSLFLNVRTQVAADWTALAEEMDFEYLEIRQLETQADPTGRLLDAWQGRPGASVGRLLELLTKLGRDDVLLELGPSIEEDCQKYIAAALEH 3mop-a1-m1-cE_3mop-a1-m1-cF The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 Q99836 Q99836 3.4 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 3mop-a1-m1-cA_3mop-a1-m1-cB 3mop-a1-m1-cB_3mop-a1-m1-cC 3mop-a1-m1-cC_3mop-a1-m1-cD 3mop-a1-m1-cD_3mop-a1-m1-cE 6i3n-a1-m1-cA_6i3n-a1-m1-cB 6i3n-a1-m1-cB_6i3n-a1-m1-cC 6i3n-a1-m1-cC_6i3n-a1-m1-cD 6i3n-a1-m1-cD_6i3n-a1-m1-cE 6i3n-a1-m1-cE_6i3n-a1-m1-cF 6i3n-a1-m1-cF_6i3n-a1-m1-cG 6i3n-a1-m1-cG_6i3n-a1-m1-cH 6i3n-a1-m1-cH_6i3n-a1-m1-cI 6i3n-a1-m1-cI_6i3n-a1-m1-cJ 6i3n-a1-m1-cJ_6i3n-a1-m1-cK 6i3n-a1-m1-cK_6i3n-a1-m1-cL 6i3n-a1-m1-cL_6i3n-a1-m1-cM MLPLAALNMRVRRRLSLFLNVRTQVAADWTALAEEMDFEYLEIRQLETQADPTGRLLDAWQGRPGASVGRLLELLTKLGRDDVLLELGPSIEEDCQKYIAAALEH MLPLAALNMRVRRRLSLFLNVRTQVAADWTALAEEMDFEYLEIRQLETQADPTGRLLDAWQGRPGASVGRLLELLTKLGRDDVLLELGPSIEEDCQKYIAAALEH 3mop-a1-m1-cG_3mop-a1-m1-cJ The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 Q9NWZ3 Q9NWZ3 3.4 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 MGPITPSTYVRCLNVGLIRKLSDFIDPQEGWKKLAVAIKKPSGDDRYNQFHIRRFEALLQTGKSPTSELLFDWGTTNCTVGDLVDLLIQNEFFAPASLLLPDAVPLE MGPITPSTYVRCLNVGLIRKLSDFIDPQEGWKKLAVAIKKPSGDDRYNQFHIRRFEALLQTGKSPTSELLFDWGTTNCTVGDLVDLLIQNEFFAPASLLLPDAVPLE 3mop-a1-m1-cI_3mop-a1-m1-cJ The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 Q9NWZ3 Q9NWZ3 3.4 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 3mop-a1-m1-cG_3mop-a1-m1-cH 3mop-a1-m1-cH_3mop-a1-m1-cI MGPITPSTYVRCLNVGLIRKLSDFIDPQEGWKKLAVAIKKPSGDDRYNQFHIRRFEALLQTGKSPTSELLFDWGTTNCTVGDLVDLLIQNEFFAPASLLLPDAVPLE MGPITPSTYVRCLNVGLIRKLSDFIDPQEGWKKLAVAIKKPSGDDRYNQFHIRRFEALLQTGKSPTSELLFDWGTTNCTVGDLVDLLIQNEFFAPASLLLPDAVPLE 3mop-a1-m1-cK_3mop-a1-m1-cN The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 O43187 O43187 3.4 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 ACYIYQLPSWVLDDLCRNMDALSEWDWMEFASYVITDLTQLRKIKSMEWVQGVSITRELLWWWGMRQATVQQLVDLLCRLELYRAAQIILNWK ACYIYQLPSWVLDDLCRNMDALSEWDWMEFASYVITDLTQLRKIKSMEWVQGVSITRELLWWWGMRQATVQQLVDLLCRLELYRAAQIILNWK 3mop-a1-m1-cM_3mop-a1-m1-cN The ternary Death Domain complex of MyD88, IRAK4, and IRAK2 O43187 O43187 3.4 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 3mop-a1-m1-cK_3mop-a1-m1-cL 3mop-a1-m1-cL_3mop-a1-m1-cM ACYIYQLPSWVLDDLCRNMDALSEWDWMEFASYVITDLTQLRKIKSMEWVQGVSITRELLWWWGMRQATVQQLVDLLCRLELYRAAQIILNWK ACYIYQLPSWVLDDLCRNMDALSEWDWMEFASYVITDLTQLRKIKSMEWVQGVSITRELLWWWGMRQATVQQLVDLLCRLELYRAAQIILNWK 3moq-a5-m1-cA_3moq-a5-m1-cD Amyloid beta(18-41) peptide fusion with new antigen receptor variable domain from sharks Q6X1E6 Q6X1E6 2.054 X-RAY DIFFRACTION 16 1.0 168098 (Orectolobus maculatus) 168098 (Orectolobus maculatus) 126 126 3moq-a5-m1-cB_3moq-a5-m1-cC AWVDQTPRTATKETGESLTINCVLRDASFELKDTGWYRTKLGSTNEQSISIGGRYVETVNKGSKSFSLRISDLRVEDSGTYKCQAFYVFFAEDVGSNKGAIIGLMVGGVVIGGEKGAGTALTVKAA AWVDQTPRTATKETGESLTINCVLRDASFELKDTGWYRTKLGSTNEQSISIGGRYVETVNKGSKSFSLRISDLRVEDSGTYKCQAFYVFFAEDVGSNKGAIIGLMVGGVVIGGEKGAGTALTVKAA 3moq-a5-m1-cB_3moq-a5-m1-cD Amyloid beta(18-41) peptide fusion with new antigen receptor variable domain from sharks Q6X1E6 Q6X1E6 2.054 X-RAY DIFFRACTION 38 1.0 168098 (Orectolobus maculatus) 168098 (Orectolobus maculatus) 126 126 3moq-a5-m1-cA_3moq-a5-m1-cC AWVDQTPRTATKETGESLTINCVLRDASFELKDTGWYRTKLGSTNEQSISIGGRYVETVNKGSKSFSLRISDLRVEDSGTYKCQAFYVFFAEDVGSNKGAIIGLMVGGVVIGGEKGAGTALTVKAA AWVDQTPRTATKETGESLTINCVLRDASFELKDTGWYRTKLGSTNEQSISIGGRYVETVNKGSKSFSLRISDLRVEDSGTYKCQAFYVFFAEDVGSNKGAIIGLMVGGVVIGGEKGAGTALTVKAA 3moq-a5-m1-cC_3moq-a5-m1-cD Amyloid beta(18-41) peptide fusion with new antigen receptor variable domain from sharks Q6X1E6 Q6X1E6 2.054 X-RAY DIFFRACTION 13 1.0 168098 (Orectolobus maculatus) 168098 (Orectolobus maculatus) 126 126 3moq-a5-m1-cA_3moq-a5-m1-cB AWVDQTPRTATKETGESLTINCVLRDASFELKDTGWYRTKLGSTNEQSISIGGRYVETVNKGSKSFSLRISDLRVEDSGTYKCQAFYVFFAEDVGSNKGAIIGLMVGGVVIGGEKGAGTALTVKAA AWVDQTPRTATKETGESLTINCVLRDASFELKDTGWYRTKLGSTNEQSISIGGRYVETVNKGSKSFSLRISDLRVEDSGTYKCQAFYVFFAEDVGSNKGAIIGLMVGGVVIGGEKGAGTALTVKAA 3moy-a1-m2-cA_3moy-a1-m3-cA Crystal structure of probable enoyl-CoA hydratase from Mycobacterium smegmatis A0R747 A0R747 1.5 X-RAY DIFFRACTION 157 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 258 258 3moy-a1-m1-cA_3moy-a1-m2-cA 3moy-a1-m1-cA_3moy-a1-m3-cA TTYTTIATSRPVAGVGLIRLDRPDALNALNQTLEAEVLDAARDFDADLEIGAIVVTGSERAFAAGADIAEMVTLTPHQARERNLLSGWDSLTQVRKPIVAAVAGYALGGGCELAMLCDLVIAADTARFGQPEITLGILPGLGGTQRLTRAVGKAKAMDLCLTGRSLTAEEAERVGLVSRIVPAADLLDEALAVAQRIARMSRPAGRAVKDAINEAFERPLSAGMRYERDAFYAMFDTHDQTEGMTAFLEKRTPEFTDR TTYTTIATSRPVAGVGLIRLDRPDALNALNQTLEAEVLDAARDFDADLEIGAIVVTGSERAFAAGADIAEMVTLTPHQARERNLLSGWDSLTQVRKPIVAAVAGYALGGGCELAMLCDLVIAADTARFGQPEITLGILPGLGGTQRLTRAVGKAKAMDLCLTGRSLTAEEAERVGLVSRIVPAADLLDEALAVAQRIARMSRPAGRAVKDAINEAFERPLSAGMRYERDAFYAMFDTHDQTEGMTAFLEKRTPEFTDR 3moz-a1-m1-cB_3moz-a1-m1-cA Structure of the PTP-like phytase from Selenomonas ruminantium in complex with myo-inositol (1,2,3,5,6)pentakisphosphate Q7WUJ1 Q7WUJ1 1.6 X-RAY DIFFRACTION 56 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 313 314 2psz-a1-m1-cA_2psz-a1-m1-cB 3d1h-a1-m1-cA_3d1h-a1-m1-cB 3d1o-a1-m1-cA_3d1o-a1-m1-cB 3d1q-a1-m1-cA_3d1q-a1-m1-cB 3mmj-a1-m1-cB_3mmj-a1-m1-cA 3o3l-a1-m1-cA_3o3l-a1-m1-cB 4jbc-a3-m1-cB_4jbc-a3-m1-cA 4wty-a1-m1-cA_4wty-a1-m1-cB 4wu2-a1-m1-cA_4wu2-a1-m1-cB TVTEPVGSYARAERPQDFEGFVWRLDNDGKEALPRNFRTSADALRAPEKKFHLDAAYVPSREGMDALHISGSSAFTPAQLKNVAAKLREKTAGPIYDVDLRQESHGYLDGIPVSWYGERDWANLGKSQHEALADERHRLHAALHKTVYIAPLGKHKLPEGGEVRRVQKVQTEQEVAEAAGMRYFRIAATDHVWPTPENIDRFLAFYRTLPQDAWLHFHAEAGVGRTTAFMVMTDMLKNPSVSLKDILYRQHEIGGFYYGEFPIKTKDKDSWKTKYYREKIVMIEQFYRYVQENRADGYQTPWSVWLKSHPAKA QTVTEPVGSYARAERPQDFEGFVWRLDNDGKEALPRNFRTSADALRAPEKKFHLDAAYVPSREGMDALHISGSSAFTPAQLKNVAAKLREKTAGPIYDVDLRQESHGYLDGIPVSWYGERDWANLGKSQHEALADERHRLHAALHKTVYIAPLGKHKLPEGGEVRRVQKVQTEQEVAEAAGMRYFRIAATDHVWPTPENIDRFLAFYRTLPQDAWLHFHAEAGVGRTTAFMVMTDMLKNPSVSLKDILYRQHEIGGFYYGEFPIKTKDKDSWKTKYYREKIVMIEQFYRYVQENRADGYQTPWSVWLKSHPAKA 3mp9-a3-m1-cA_3mp9-a3-m2-cB Structure of Streptococcal protein G B1 domain at pH 3.0 P06654 P06654 1.2 X-RAY DIFFRACTION 49 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 61 61 HHHAMDTYKLILNGKTLKGETTTEAVDAATAEKVFKQYANDNGVDGEWTYDDATKTFTVTE HHHAMDTYKLILNGKTLKGETTTEAVDAATAEKVFKQYANDNGVDGEWTYDDATKTFTVTE 3mpd-a2-m2-cB_3mpd-a2-m3-cB Crystal structure of nucleoside diphosphate kinase from encephalitozoon cuniculi, cubic form, apo Q8SRM7 Q8SRM7 2.08 X-RAY DIFFRACTION 47 1.0 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 147 147 3mpd-a2-m1-cA_3mpd-a2-m2-cA 3mpd-a2-m1-cA_3mpd-a2-m3-cA 3mpd-a2-m1-cB_3mpd-a2-m2-cB 3mpd-a2-m1-cB_3mpd-a2-m3-cB 3mpd-a2-m2-cA_3mpd-a2-m3-cA MERTFIMIKPDAIKRRLISRIIQRFEEKGLYLAASKCVIPKREVLETHYSHLSSMPFFSEMVEDMMSGMVLAMVWVGKDAVSIGRKLIGETNPQAASVGTIRGDYGVSTGKNIIHGSDCVENAEKEIKLWIGDDVQPVSFFDKEWIY MERTFIMIKPDAIKRRLISRIIQRFEEKGLYLAASKCVIPKREVLETHYSHLSSMPFFSEMVEDMMSGMVLAMVWVGKDAVSIGRKLIGETNPQAASVGTIRGDYGVSTGKNIIHGSDCVENAEKEIKLWIGDDVQPVSFFDKEWIY 3mpd-a2-m3-cA_3mpd-a2-m3-cB Crystal structure of nucleoside diphosphate kinase from encephalitozoon cuniculi, cubic form, apo Q8SRM7 Q8SRM7 2.08 X-RAY DIFFRACTION 72 1.0 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 147 147 3mpd-a1-m1-cA_3mpd-a1-m1-cB 3mpd-a2-m1-cA_3mpd-a2-m1-cB 3mpd-a2-m2-cA_3mpd-a2-m2-cB MERTFIMIKPDAIKRRLISRIIQRFEEKGLYLAASKCVIPKREVLETHYSHLSSMPFFSEMVEDMMSGMVLAMVWVGKDAVSIGRKLIGETNPQAASVGTIRGDYGVSTGKNIIHGSDCVENAEKEIKLWIGDDVQPVSFFDKEWIY MERTFIMIKPDAIKRRLISRIIQRFEEKGLYLAASKCVIPKREVLETHYSHLSSMPFFSEMVEDMMSGMVLAMVWVGKDAVSIGRKLIGETNPQAASVGTIRGDYGVSTGKNIIHGSDCVENAEKEIKLWIGDDVQPVSFFDKEWIY 3mpi-a1-m2-cB_3mpi-a1-m1-cA Structure of the glutaryl-coenzyme A dehydrogenase glutaryl-CoA complex C3UVB0 C3UVB0 2.05 X-RAY DIFFRACTION 13 1.0 897 (Desulfococcus multivorans) 897 (Desulfococcus multivorans) 390 391 3mpi-a1-m1-cB_3mpi-a1-m2-cA 3mpi-a2-m1-cD_3mpi-a2-m3-cC 3mpi-a2-m3-cD_3mpi-a2-m1-cC 3mpj-a1-m1-cA_3mpj-a1-m2-cA 3mpj-a1-m1-cB_3mpj-a1-m2-cB 3mpj-a2-m1-cD_3mpj-a2-m1-cF 3mpj-a2-m1-cG_3mpj-a2-m1-cE MDFNLSKELQMLQKEVRNFVNKKIVPFADQWDNENHFPYEEAVRPMGELGFFGTVIPEEYGGEGMDQGWLAAMIVTEEIARGSSALRVQLNMEVLGCAYTILTYGSEALKKKYVPKLSSAEFLGGFGITEPDAGSDVMAMSSTAEDKGDHWLLNGSKTWISNAAQADVLIYYAYTDKAAGSRGLSAFVIEPRNFPGIKTSNLEKLGSHASPTGELFLDNVKVPKENILGKPGDGARIVFGSLNHTRLSAAAGGVGLAQACLDAAIKYCNERRQFGKPIGDFQMNQDMIAQMAVEVEAARLLAYKAAAAKDEGRLNNGLDVAMAKYAAGEAVSKCANYAMRILGAYGYSTEYPVARFYRDAPTYYMVEGSANICKMIIALDQLGVRKANRK MDFNLSKELQMLQKEVRNFVNKKIVPFADQWDNENHFPYEEAVRPMGELGFFGTVIPEEYGGEGMDQGWLAAMIVTEEIARGSSALRVQLNMEVLGCAYTILTYGSEALKKKYVPKLSSAEFLGGFGITEPDAGSDVMAMSSTAEDKGDHWLLNGSKTWISNAAQADVLIYYAYTDKAAGSRGLSAFVIEPRNFPGIKTSNLEKLGSHASPTGELFLDNVKVPKENILGKPGDGARIVFGSLNHTRLSAAAGGVGLAQACLDAAIKYCNERRQFGKPIGDFQMNQDMIAQMAVEVEAARLLAYKAAAAKDEGRLNNGLDVAMAKYAAGEAVSKCANYAMRILGAYGYSTEYPVARFYRDAPTYYMVEGSANICKMIIALDQLGVRKANRKG 3mpi-a1-m2-cB_3mpi-a1-m2-cA Structure of the glutaryl-coenzyme A dehydrogenase glutaryl-CoA complex C3UVB0 C3UVB0 2.05 X-RAY DIFFRACTION 125 1.0 897 (Desulfococcus multivorans) 897 (Desulfococcus multivorans) 390 391 3mpi-a1-m1-cB_3mpi-a1-m1-cA 3mpi-a2-m1-cD_3mpi-a2-m1-cC 3mpi-a2-m3-cD_3mpi-a2-m3-cC 3mpj-a1-m1-cA_3mpj-a1-m1-cB 3mpj-a1-m2-cA_3mpj-a1-m2-cB 3mpj-a2-m1-cF_3mpj-a2-m1-cE 3mpj-a2-m1-cG_3mpj-a2-m1-cD MDFNLSKELQMLQKEVRNFVNKKIVPFADQWDNENHFPYEEAVRPMGELGFFGTVIPEEYGGEGMDQGWLAAMIVTEEIARGSSALRVQLNMEVLGCAYTILTYGSEALKKKYVPKLSSAEFLGGFGITEPDAGSDVMAMSSTAEDKGDHWLLNGSKTWISNAAQADVLIYYAYTDKAAGSRGLSAFVIEPRNFPGIKTSNLEKLGSHASPTGELFLDNVKVPKENILGKPGDGARIVFGSLNHTRLSAAAGGVGLAQACLDAAIKYCNERRQFGKPIGDFQMNQDMIAQMAVEVEAARLLAYKAAAAKDEGRLNNGLDVAMAKYAAGEAVSKCANYAMRILGAYGYSTEYPVARFYRDAPTYYMVEGSANICKMIIALDQLGVRKANRK MDFNLSKELQMLQKEVRNFVNKKIVPFADQWDNENHFPYEEAVRPMGELGFFGTVIPEEYGGEGMDQGWLAAMIVTEEIARGSSALRVQLNMEVLGCAYTILTYGSEALKKKYVPKLSSAEFLGGFGITEPDAGSDVMAMSSTAEDKGDHWLLNGSKTWISNAAQADVLIYYAYTDKAAGSRGLSAFVIEPRNFPGIKTSNLEKLGSHASPTGELFLDNVKVPKENILGKPGDGARIVFGSLNHTRLSAAAGGVGLAQACLDAAIKYCNERRQFGKPIGDFQMNQDMIAQMAVEVEAARLLAYKAAAAKDEGRLNNGLDVAMAKYAAGEAVSKCANYAMRILGAYGYSTEYPVARFYRDAPTYYMVEGSANICKMIIALDQLGVRKANRKG 3mpi-a2-m1-cD_3mpi-a2-m3-cD Structure of the glutaryl-coenzyme A dehydrogenase glutaryl-CoA complex C3UVB0 C3UVB0 2.05 X-RAY DIFFRACTION 102 1.0 897 (Desulfococcus multivorans) 897 (Desulfococcus multivorans) 390 390 3mpi-a1-m1-cA_3mpi-a1-m2-cA 3mpi-a1-m1-cB_3mpi-a1-m2-cB 3mpi-a2-m1-cC_3mpi-a2-m3-cC 3mpj-a1-m1-cA_3mpj-a1-m2-cB 3mpj-a1-m2-cA_3mpj-a1-m1-cB 3mpj-a2-m1-cD_3mpj-a2-m1-cE 3mpj-a2-m1-cG_3mpj-a2-m1-cF MDFNLSKELQMLQKEVRNFVNKKIVPFADQWDNENHFPYEEAVRPMGELGFFGTVIPEEYGGEGMDQGWLAAMIVTEEIARGSSALRVQLNMEVLGCAYTILTYGSEALKKKYVPKLSSAEFLGGFGITEPDAGSDVMAMSSTAEDKGDHWLLNGSKTWISNAAQADVLIYYAYTDKAAGSRGLSAFVIEPRNFPGIKTSNLEKLGSHASPTGELFLDNVKVPKENILGKPGDGARIVFGSLNHTRLSAAAGGVGLAQACLDAAIKYCNERRQFGKPIGDFQMNQDMIAQMAVEVEAARLLAYKAAAAKDEGRLNNGLDVAMAKYAAGEAVSKCANYAMRILGAYGYSTEYPVARFYRDAPTYYMVEGSANICKMIIALDQLGVRKANRK MDFNLSKELQMLQKEVRNFVNKKIVPFADQWDNENHFPYEEAVRPMGELGFFGTVIPEEYGGEGMDQGWLAAMIVTEEIARGSSALRVQLNMEVLGCAYTILTYGSEALKKKYVPKLSSAEFLGGFGITEPDAGSDVMAMSSTAEDKGDHWLLNGSKTWISNAAQADVLIYYAYTDKAAGSRGLSAFVIEPRNFPGIKTSNLEKLGSHASPTGELFLDNVKVPKENILGKPGDGARIVFGSLNHTRLSAAAGGVGLAQACLDAAIKYCNERRQFGKPIGDFQMNQDMIAQMAVEVEAARLLAYKAAAAKDEGRLNNGLDVAMAKYAAGEAVSKCANYAMRILGAYGYSTEYPVARFYRDAPTYYMVEGSANICKMIIALDQLGVRKANRK 3mpr-a1-m1-cB_3mpr-a1-m1-cA Crystal Structure of endonuclease/exonuclease/phosphatase family protein from Bacteroides thetaiotaomicron, Northeast Structural Genomics Consortium Target BtR318A Q8A183 Q8A183 1.899 X-RAY DIFFRACTION 68 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 267 278 YQPTSLTVASYNLRNANGSDSARGDGWGQRYPVIAQVQYHDFDIFGTQECFLHQLKDKEALPGYDYIGVGRDDGKDKGEHSAIFYRTDKFDIVEKGDFWLSETPDVPSKGWDAVLPRICSWGHFKCKDTGFEFLFFNLHDHIGKKARVESAFLVQEKKELGRLPAILTGDFNVDQTHQSYDAFVSKGVLCDSYEKCDYRYALNGTFNNFDPNSFTESRIDHIFVSPSFHVKRYGVLTDTYRSVREKAYEARTPSDHFPVKVELVFDL SYQPTSLTVASYNLRNANGSDSARGDGWGQRYPVIAQVQYHDFDIFGTQECFLHQLKDKEALPGYDYIGVGRDDGKDKGEHSAIFYRTDKFDIVEKGDFWLSETPDVPSKGWDAVLPRICSWGHFKCKDTGFEFLFFNLHDHIGKKARVESAFLVQEKKELGRGKNLPAILTGDFNVDQTHQSYDAFVSKGVLCDSYEKCDYRYALNGTFNNFDPNSFTESRIDHIFVSPSFHVKRYGVLTDTYRSVREKAYEARTPSDHFPVKVELVFDLEHHHHHH 3mpv-a2-m2-cB_3mpv-a2-m3-cB Structure of EUTL in the zinc-induced open form P76541 P76541 2.6 X-RAY DIFFRACTION 28 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 200 200 3mpv-a1-m1-cA_3mpv-a1-m2-cA 3mpv-a1-m1-cA_3mpv-a1-m3-cA 3mpv-a1-m2-cA_3mpv-a1-m3-cA 3mpv-a2-m1-cB_3mpv-a2-m2-cB 3mpv-a2-m1-cB_3mpv-a2-m3-cB PALDLIRPSVTAMRVIASVNADFARELKLPPHIRSLGLISADSDDVTYIAADEATKQAMVEVVYGRSLEVLIMLGGPNPAEVRAGLDAMIAHIENGAAFQWANDAQDTAFLAHVVSRTGSYLSSTAGITLGDPMAYLVAPPLEATYGIDAALKSADVQLATYVPPPTNYSAAFLTGSQAACKAACNAFTDAVLEIARNPI PALDLIRPSVTAMRVIASVNADFARELKLPPHIRSLGLISADSDDVTYIAADEATKQAMVEVVYGRSLEVLIMLGGPNPAEVRAGLDAMIAHIENGAAFQWANDAQDTAFLAHVVSRTGSYLSSTAGITLGDPMAYLVAPPLEATYGIDAALKSADVQLATYVPPPTNYSAAFLTGSQAACKAACNAFTDAVLEIARNPI 3mpy-a1-m2-cA_3mpy-a1-m6-cA Structure of EUTM in 2-D protein membrane P0ABF4 P0ABF4 2 X-RAY DIFFRACTION 75 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 96 96 3i6p-a1-m1-cA_3i6p-a1-m1-cB 3i6p-a1-m1-cA_3i6p-a1-m1-cF 3i6p-a1-m1-cB_3i6p-a1-m1-cC 3i6p-a1-m1-cC_3i6p-a1-m1-cD 3i6p-a1-m1-cD_3i6p-a1-m1-cE 3i6p-a1-m1-cE_3i6p-a1-m1-cF 3mpw-a1-m1-cH_3mpw-a1-m1-cG 3mpw-a1-m1-cH_3mpw-a1-m1-cI 3mpw-a1-m1-cI_3mpw-a1-m1-cJ 3mpw-a1-m1-cJ_3mpw-a1-m1-cK 3mpw-a1-m1-cK_3mpw-a1-m1-cL 3mpw-a1-m1-cL_3mpw-a1-m1-cG 3mpw-a2-m1-cB_3mpw-a2-m1-cA 3mpw-a2-m1-cC_3mpw-a2-m1-cB 3mpw-a2-m1-cC_3mpw-a2-m1-cD 3mpw-a2-m1-cE_3mpw-a2-m1-cD 3mpw-a2-m1-cE_3mpw-a2-m1-cF 3mpw-a2-m1-cF_3mpw-a2-m1-cA 3mpy-a1-m1-cA_3mpy-a1-m5-cA 3mpy-a1-m1-cA_3mpy-a1-m6-cA 3mpy-a1-m2-cA_3mpy-a1-m4-cA 3mpy-a1-m3-cA_3mpy-a1-m4-cA 3mpy-a1-m3-cA_3mpy-a1-m5-cA EALGMIETRGLVALIEASDAMVKAARVKLVGVKQIGGGLCTAMVRGDVAACKAATDAGAAAAQRIGELVSVHVIPRPHGDLEEVFPIGLKGDSSNL EALGMIETRGLVALIEASDAMVKAARVKLVGVKQIGGGLCTAMVRGDVAACKAATDAGAAAAQRIGELVSVHVIPRPHGDLEEVFPIGLKGDSSNL 3mpz-a1-m1-cB_3mpz-a1-m1-cD Crystal structure of CYTIDINE DEAMINASE from Mycobacterium smegmatis A0QT11 A0QT11 1.7 X-RAY DIFFRACTION 45 0.992 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 121 122 3mpz-a1-m1-cC_3mpz-a1-m1-cA VNWNALRSKAIEVSRHAYAPYSGFPVGAAALVDDGRTVTGCNVENVSYGLGLCAECAVVCALHSGGGGRLVALSCVGPDGGVLMPCGRCRQVLLEHGGPELLIDHAHGPRPLRELLPDAFG SMVNWNALRSKAIEVSRHAYAPYSGFPVGAAALVDDGRTVTGCNVENVSYGLGLCAECAVVCALHSGGGGRLVALSCVGPDGGVLMPCGRCRQVLLEHGGPELLIDHAHGPRPLRELLPDAF 3mpz-a1-m1-cD_3mpz-a1-m1-cA Crystal structure of CYTIDINE DEAMINASE from Mycobacterium smegmatis A0QT11 A0QT11 1.7 X-RAY DIFFRACTION 98 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 122 125 3mpz-a1-m1-cB_3mpz-a1-m1-cC SMVNWNALRSKAIEVSRHAYAPYSGFPVGAAALVDDGRTVTGCNVENVSYGLGLCAECAVVCALHSGGGGRLVALSCVGPDGGVLMPCGRCRQVLLEHGGPELLIDHAHGPRPLRELLPDAF GSMVNWNALRSKAIEVSRHAYAPYSGFPVGAAALVDDGRTVTGCNVENVSYGLGLCAECAVVCALHSGGGGRLVALSCVGPDGGVLMPCGRCRQVLLEHGGPELLIDHAHGPRPLRELLPDAFGP 3mpz-a1-m1-cD_3mpz-a1-m1-cC Crystal structure of CYTIDINE DEAMINASE from Mycobacterium smegmatis A0QT11 A0QT11 1.7 X-RAY DIFFRACTION 42 0.984 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 122 123 3mpz-a1-m1-cB_3mpz-a1-m1-cA SMVNWNALRSKAIEVSRHAYAPYSGFPVGAAALVDDGRTVTGCNVENVSYGLGLCAECAVVCALHSGGGGRLVALSCVGPDGGVLMPCGRCRQVLLEHGGPELLIDHAHGPRPLRELLPDAF VNWNALRSKAIEVSRHAYAPYSGFPVGAAALVDDGRTVTGCNVENVSYGLGLCAECAVVCALHSGGGGRLVALSCVGPDGGVLMPCGRCRQVLLEHGGPELLIDHAHGPRPLRELLPDAFGPD 3mq0-a1-m1-cA_3mq0-a1-m1-cB Crystal Structure of Agobacterium tumefaciens repressor BlcR Q8VPD8 Q8VPD8 1.793 X-RAY DIFFRACTION 135 0.988 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 243 248 SQISDTVPALRRAVRILDLVAGSPRDLTAAELTRFLDLPSAHGLLAVMTELDLLARSADGTLRIGPHSLRWANGFLSHLDIVSTFNDHLAQRHDLDPYTVTLTVREGGEVVYIGCRNHTFRIGMRLPAPFTATGKILLSDLGPGELRMLFSQFPQPLTSRSVAGLSQLEEELALTRARGYSIDDGQIREGMLCIGAAIRDYSGAASAGIAISLIRSEASDEKIAYLGEELRTTANALSEKLGY SDTVPALRRAVRILDLVAGSPRDLTAAELTRFLDLPKSSAHGLLAVMTELDLLARSADGTLRIGPHSLRWANGFLSHLDIVSTFNDHLAQRHDLDPYTVTLTVREGGEVVYIGCRNSAQPHTFRIGMRLPAPFTATGKILLSDLGPGELRMLFSQFPQPLTSRSVAGLSQLEEELALTRARGYSIDDGQIREGMLCIGAAIRDYSGAASAGIAISLIRSEASDEKIAYLGEELRTTANALSEKLGYRS 3mq1-a4-m1-cE_3mq1-a4-m1-cF Crystal Structure of Dust Mite Allergen Der p 5 P14004 P14004 2.8 X-RAY DIFFRACTION 86 0.99 6956 (Dermatophagoides pteronyssinus) 6956 (Dermatophagoides pteronyssinus) 100 100 3mq1-a1-m1-cA_3mq1-a1-m1-cB 3mq1-a1-m1-cC_3mq1-a1-m1-cD 3mq1-a1-m1-cE_3mq1-a1-m1-cF 3mq1-a2-m1-cA_3mq1-a2-m1-cB 3mq1-a3-m1-cC_3mq1-a3-m1-cD NSLMERIHEQIKKGELALFYLQEQINHFEEKPTKEMKDKIVAEMDTIIAMIDGVRGVLDRLMQRKDLDIFEQYNLEMAKKSGDILERDLKKEEARVKKIE SLMERIHEQIKKGELALFYLQEQINHFEEKPTKEMKDKIVAEMDTIIAMIDGVRGVLDRLMQRKDLDIFEQYNLEMAKKSGDILERDLKKEEARVKKIEV 3mq4-a1-m1-cA_3mq4-a1-m2-cA Metabotropic glutamate receptor mGluR7 complexed with LY341495 antagonist Q14831 Q14831 2.8 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 386 HSIRIEGDVTLGGLFPVHAKGCGDIKRENGIHRLEAMLYALDQINSDPNLLPNVTLGARILDTCSRDTYALEQSLTFVQALIQKDTKPEKVVGVIGASGSSVSIMVANILRLFQIPQISYASTAPELSDDRRYDFFSRVVPPDSFQAQAMVDIVKALGWNYVSTLGSYGEKGVESFTQISGGLSIAQSVRIPQEDFDRIIKQLLDTAVVIFANDEDIKQILHFLWVGSEGAITIQPKRATVEGFDAYFTSRTLENNRRNVWFAEYWEENFNCKLKCTGQERIGKDSNYEQEGKVQFVIDAVYAMAHALHHMNKDLCAVCPEMEQAGGKKLLKYIRNVNFNGSAGTPVMFNKNGDAPGRYDIFQYQNPGYRLIGQWTDELQLNIEDM HSIRIEGDVTLGGLFPVHAKGCGDIKRENGIHRLEAMLYALDQINSDPNLLPNVTLGARILDTCSRDTYALEQSLTFVQALIQKDTKPEKVVGVIGASGSSVSIMVANILRLFQIPQISYASTAPELSDDRRYDFFSRVVPPDSFQAQAMVDIVKALGWNYVSTLGSYGEKGVESFTQISGGLSIAQSVRIPQEDFDRIIKQLLDTAVVIFANDEDIKQILHFLWVGSEGAITIQPKRATVEGFDAYFTSRTLENNRRNVWFAEYWEENFNCKLKCTGQERIGKDSNYEQEGKVQFVIDAVYAMAHALHHMNKDLCAVCPEMEQAGGKKLLKYIRNVNFNGSAGTPVMFNKNGDAPGRYDIFQYQNPGYRLIGQWTDELQLNIEDM 3mqb-a1-m1-cB_3mqb-a1-m2-cE Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (C2) Q10589 Q10589 3.2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYP SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYP 3mqb-a1-m2-cE_3mqb-a1-m1-cA Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (C2) Q10589 Q10589 3.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 109 SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYP SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYPSSQ 3mqb-a1-m2-cF_3mqb-a1-m1-cA Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (C2) Q10589 Q10589 3.2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 109 SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADK SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYPSSQ 3mqb-a2-m3-cB_3mqb-a2-m1-cA Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (C2) Q10589 Q10589 3.2 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 109 3mqb-a2-m1-cB_3mqb-a2-m3-cA 3mqb-a3-m1-cE_3mqb-a3-m4-cE 3mqb-a3-m1-cF_3mqb-a3-m4-cF 3mqc-a1-m1-cA_3mqc-a1-m1-cD 3mqc-a1-m1-cB_3mqc-a1-m1-cC 3nwh-a1-m1-cC_3nwh-a1-m1-cB 3nwh-a1-m1-cD_3nwh-a1-m1-cA SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYP SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYPSSQ 3mqb-a2-m3-cB_3mqb-a2-m3-cA Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (C2) Q10589 Q10589 3.2 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 109 2x7a-a1-m1-cA_2x7a-a1-m1-cB 2x7a-a2-m1-cC_2x7a-a2-m1-cD 2x7a-a3-m1-cE_2x7a-a3-m1-cF 2x7a-a4-m1-cG_2x7a-a4-m1-cH 2x7a-a5-m1-cI_2x7a-a5-m1-cJ 2xg7-a1-m1-cC_2xg7-a1-m1-cA 3mqb-a1-m1-cB_3mqb-a1-m1-cA 3mqb-a1-m2-cF_3mqb-a1-m2-cE 3mqb-a2-m1-cB_3mqb-a2-m1-cA 3mqb-a3-m1-cF_3mqb-a3-m1-cE 3mqb-a3-m4-cF_3mqb-a3-m4-cE 3mqc-a1-m1-cA_3mqc-a1-m1-cB 3mqc-a1-m1-cC_3mqc-a1-m1-cD 3nwh-a1-m1-cC_3nwh-a1-m1-cA 3nwh-a1-m1-cD_3nwh-a1-m1-cB SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYP SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYPSSQ 3mqb-a3-m4-cF_3mqb-a3-m1-cE Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (C2) Q10589 Q10589 3.2 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 106 3mqb-a2-m1-cB_3mqb-a2-m3-cB 3mqb-a3-m1-cF_3mqb-a3-m4-cE SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADK SEACRDGLRAVMECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVMALMASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIADKKYYP 3mqc-a2-m1-cA_3mqc-a2-m1-cC Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (P21) Q10589 Q10589 2.8 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 3mqc-a1-m1-cA_3mqc-a1-m1-cC 3nwh-a1-m1-cD_3nwh-a1-m1-cC SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA 3mqc-a2-m1-cA_3mqc-a2-m2-cD Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (P21) Q10589 Q10589 2.8 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA 3mqc-a2-m1-cC_3mqc-a2-m2-cD Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (P21) Q10589 Q10589 2.8 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 3mqc-a2-m1-cA_3mqc-a2-m2-cB SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA 3mqc-a2-m2-cB_3mqc-a2-m2-cD Crystal Structure of Ectodomain of BST-2/Tetherin/CD317 (P21) Q10589 Q10589 2.8 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 3mqb-a2-m1-cA_3mqb-a2-m3-cA 3mqc-a1-m1-cB_3mqc-a1-m1-cD 3nwh-a1-m1-cA_3nwh-a1-m1-cB SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA SEACRDGLRAVECRNVTHLLQQELTEAQKGFQDVEAQAATCNHTVALASLDAEKAQGQKKVEELEGEITTLNHKLQDASAEVERLRRENQVLSVRIA 3mqg-a1-m1-cA_3mqg-a1-m1-cB crystal structure of the 3-N-acetyl transferase WlbB from Bordetella petrii in complex with acetyl-CoA A9IH93 A9IH93 1.43 X-RAY DIFFRACTION 83 1.0 340100 (Bordetella petrii DSM 12804) 340100 (Bordetella petrii DSM 12804) 190 190 3mqg-a1-m1-cA_3mqg-a1-m1-cC 3mqg-a1-m1-cB_3mqg-a1-m1-cC 3mqg-a2-m1-cE_3mqg-a2-m1-cD 3mqg-a2-m1-cF_3mqg-a2-m1-cD 3mqg-a2-m1-cF_3mqg-a2-m1-cE 3mqh-a1-m1-cA_3mqh-a1-m1-cC 3mqh-a1-m1-cB_3mqh-a1-m1-cA 3mqh-a1-m1-cB_3mqh-a1-m1-cC 3mqh-a2-m1-cD_3mqh-a2-m1-cE 3mqh-a2-m1-cF_3mqh-a2-m1-cD 3mqh-a2-m1-cF_3mqh-a2-m1-cE MATIHPTAIVDEGARIGAHSRIWHWVHICGGAEIGEGCSLGQNVFVGNRVRIGNRVKIQNNVSVYDNVFLEDDVFCGPSMVFTNVYNPRAAIERKSEYRDTIVRQGATLGANCTVVCGATIGRYAFVGAGAVVNKDVPDFALVVGVPARQIGWMSRHGEQLDLPLRGNAEATCPHTGERYILTDGVCRLA MATIHPTAIVDEGARIGAHSRIWHWVHICGGAEIGEGCSLGQNVFVGNRVRIGNRVKIQNNVSVYDNVFLEDDVFCGPSMVFTNVYNPRAAIERKSEYRDTIVRQGATLGANCTVVCGATIGRYAFVGAGAVVNKDVPDFALVVGVPARQIGWMSRHGEQLDLPLRGNAEATCPHTGERYILTDGVCRLA 3mqi-a2-m1-cC_3mqi-a2-m2-cC Human early B-cell factor 1 (EBF1) IPT/TIG domain Q9UH73 Q9UH73 2.3 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 3mqi-a1-m1-cA_3mqi-a1-m1-cB HATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVIFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGTPGRFIYTAL HATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVIFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGTPGRFIYTAL 3mqm-a3-m1-cA_3mqm-a3-m2-cB Crystal Structure of the Bromodomain of human ASH1L Q9NR48 Q9NR48 2.54 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 SMEVARAARLAQIFKEICDGIISYKDSSRQALAAPLLNLPPKKKNADYYEKISDPLDLITIEKQILTGYYKTVEAFDADMLKVFRNAEKYYGRKSPVGRDVCRLRKAYYNARHEASAQIDEIVGET SMEVARAARLAQIFKEICDGIISYKDSSRQALAAPLLNLPPKKKNADYYEKISDPLDLITIEKQILTGYYKTVEAFDADMLKVFRNAEKYYGRKSPVGRDVCRLRKAYYNARHEASAQIDEIVGET 3mqq-a1-m1-cA_3mqq-a1-m1-cB The Crystal Structure of the PAS domain in complex with Ethanol of a Transcriptional Regulator in the LuxR family from Burkholderia thailandensis to 1.65A Q2SVC5 Q2SVC5 1.65 X-RAY DIFFRACTION 87 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 111 116 3mqo-a1-m1-cA_3mqo-a1-m1-cB IDYKTAFHLAPIGLVLSRDRVIEDCNDELAAIFRCARADLIGRSFEVLYPSSDEFERIGERISPVIAHGSYADDRIKRAGGELFWCHVTGRALDRTAPLAAGVWTFEDLSA IDYKTAFHLAPIGLVLSRDRVIEDCNDELAAIFRCARADLIGRSFEVLYPSSDEFERIGERISPVIAHGSYADDRIKRAGGELFWCHVTGRALDRTAPLAAGVWTFEDLSATRRVA 3mqt-a3-m1-cS_3mqt-a3-m1-cX Crystal structure of a mandelate racemase/muconate lactonizing enzyme from Shewanella pealeana A8H7M5 A8H7M5 2.1 X-RAY DIFFRACTION 21 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 377 377 3mqt-a1-m1-cA_3mqt-a1-m1-cB 3mqt-a1-m1-cA_3mqt-a1-m1-cF 3mqt-a1-m1-cB_3mqt-a1-m1-cE 3mqt-a1-m1-cC_3mqt-a1-m1-cD 3mqt-a1-m1-cC_3mqt-a1-m1-cH 3mqt-a1-m1-cD_3mqt-a1-m1-cG 3mqt-a1-m1-cE_3mqt-a1-m1-cF 3mqt-a1-m1-cG_3mqt-a1-m1-cH 3mqt-a2-m1-cI_3mqt-a2-m1-cJ 3mqt-a2-m1-cK_3mqt-a2-m1-cL 3mqt-a2-m1-cK_3mqt-a2-m1-cV 3mqt-a2-m1-cL_3mqt-a2-m1-cW 3mqt-a2-m1-cM_3mqt-a2-m1-cJ 3mqt-a2-m1-cM_3mqt-a2-m1-cN 3mqt-a2-m1-cN_3mqt-a2-m1-cI 3mqt-a2-m1-cV_3mqt-a2-m1-cW 3mqt-a3-m1-cO_3mqt-a3-m1-cP 3mqt-a3-m1-cO_3mqt-a3-m1-cU 3mqt-a3-m1-cP_3mqt-a3-m1-cT 3mqt-a3-m1-cQ_3mqt-a3-m1-cR 3mqt-a3-m1-cS_3mqt-a3-m1-cQ 3mqt-a3-m1-cT_3mqt-a3-m1-cU 3mqt-a3-m1-cX_3mqt-a3-m1-cR ANIVSVEFIPVNVAENTVIVKVTDENGVYGLGEADGPPECMKAFSEIENEHKWLNNIKEAVIGRDPLEFRANYNRMYDTTKWIGMRGLGLFAISGIDMALYDLAGKQLGVPAYKLMGGAQKAQLTPYFTLYPSVAADATLSEIVEAYKPLIAKAKERGAKAVKVCIIPNDKVSDKEIVAYLRELREVIGWDMDMMVDCLYRWTDWQKARWTFRQLEDIDLYFIEACLQHDDLIGHQKLAAAINTRLCGAEMSTTRFEAQEWLEKTGISVVQSDYNRCGGVTELLRIMDICEHHNAQLMPHNWKTGITAAAARHFGIVCHISEYVEYLHPDFWNGTLTQQLTLNEPKIIDGAIEVSDKPGLGIELNIEFVEQVTGHKF ANIVSVEFIPVNVAENTVIVKVTDENGVYGLGEADGPPECMKAFSEIENEHKWLNNIKEAVIGRDPLEFRANYNRMYDTTKWIGMRGLGLFAISGIDMALYDLAGKQLGVPAYKLMGGAQKAQLTPYFTLYPSVAADATLSEIVEAYKPLIAKAKERGAKAVKVCIIPNDKVSDKEIVAYLRELREVIGWDMDMMVDCLYRWTDWQKARWTFRQLEDIDLYFIEACLQHDDLIGHQKLAAAINTRLCGAEMSTTRFEAQEWLEKTGISVVQSDYNRCGGVTELLRIMDICEHHNAQLMPHNWKTGITAAAARHFGIVCHISEYVEYLHPDFWNGTLTQQLTLNEPKIIDGAIEVSDKPGLGIELNIEFVEQVTGHKF 3mqt-a3-m1-cX_3mqt-a3-m1-cP Crystal structure of a mandelate racemase/muconate lactonizing enzyme from Shewanella pealeana A8H7M5 A8H7M5 2.1 X-RAY DIFFRACTION 92 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 377 378 3mqt-a1-m1-cA_3mqt-a1-m1-cD 3mqt-a1-m1-cB_3mqt-a1-m1-cG 3mqt-a1-m1-cC_3mqt-a1-m1-cF 3mqt-a1-m1-cE_3mqt-a1-m1-cH 3mqt-a2-m1-cI_3mqt-a2-m1-cL 3mqt-a2-m1-cJ_3mqt-a2-m1-cW 3mqt-a2-m1-cM_3mqt-a2-m1-cV 3mqt-a2-m1-cN_3mqt-a2-m1-cK 3mqt-a3-m1-cQ_3mqt-a3-m1-cU 3mqt-a3-m1-cR_3mqt-a3-m1-cT 3mqt-a3-m1-cS_3mqt-a3-m1-cO ANIVSVEFIPVNVAENTVIVKVTDENGVYGLGEADGPPECMKAFSEIENEHKWLNNIKEAVIGRDPLEFRANYNRMYDTTKWIGMRGLGLFAISGIDMALYDLAGKQLGVPAYKLMGGAQKAQLTPYFTLYPSVAADATLSEIVEAYKPLIAKAKERGAKAVKVCIIPNDKVSDKEIVAYLRELREVIGWDMDMMVDCLYRWTDWQKARWTFRQLEDIDLYFIEACLQHDDLIGHQKLAAAINTRLCGAEMSTTRFEAQEWLEKTGISVVQSDYNRCGGVTELLRIMDICEHHNAQLMPHNWKTGITAAAARHFGIVCHISEYVEYLHPDFWNGTLTQQLTLNEPKIIDGAIEVSDKPGLGIELNIEFVEQVTGHKF ANIVSVEFIPVNVASENTVIVKVTDENGVYGLGEADGPPECMKAFSEIENEHKWLNNIKEAVIGRDPLEFRANYNRMYDTTKWIGMRGLGLFAISGIDMALYDLAGKQLGVPAYKLMGGAQKAQLTPYFTLYPSVAADATLSEIVEAYKPLIAKAKERGAKAVKVCIIPNDKVSDKEIVAYLRELREVIGWDMDMMVDCLYRWTDWQKARWTFRQLEDIDLYFIEACLQHDDLIGHQKLAAAINTRLCGAEMSTTRFEAQEWLEKTGISVVQSDYNRCGGVTELLRIMDICEHHNAQLMPHNWKTGITAAAARHFGIVCHISEYVEYLHPDFWNGTLTQQLTLNEPKIIDGAIEVSDKPGLGIELNIEFVEQVTGHKF 3mqt-a3-m1-cX_3mqt-a3-m1-cT Crystal structure of a mandelate racemase/muconate lactonizing enzyme from Shewanella pealeana A8H7M5 A8H7M5 2.1 X-RAY DIFFRACTION 56 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 377 378 3mqt-a1-m1-cA_3mqt-a1-m1-cC 3mqt-a1-m1-cB_3mqt-a1-m1-cD 3mqt-a1-m1-cF_3mqt-a1-m1-cH 3mqt-a1-m1-cG_3mqt-a1-m1-cE 3mqt-a2-m1-cI_3mqt-a2-m1-cK 3mqt-a2-m1-cJ_3mqt-a2-m1-cL 3mqt-a2-m1-cM_3mqt-a2-m1-cW 3mqt-a2-m1-cN_3mqt-a2-m1-cV 3mqt-a3-m1-cO_3mqt-a3-m1-cQ 3mqt-a3-m1-cR_3mqt-a3-m1-cU 3mqt-a3-m1-cS_3mqt-a3-m1-cP ANIVSVEFIPVNVAENTVIVKVTDENGVYGLGEADGPPECMKAFSEIENEHKWLNNIKEAVIGRDPLEFRANYNRMYDTTKWIGMRGLGLFAISGIDMALYDLAGKQLGVPAYKLMGGAQKAQLTPYFTLYPSVAADATLSEIVEAYKPLIAKAKERGAKAVKVCIIPNDKVSDKEIVAYLRELREVIGWDMDMMVDCLYRWTDWQKARWTFRQLEDIDLYFIEACLQHDDLIGHQKLAAAINTRLCGAEMSTTRFEAQEWLEKTGISVVQSDYNRCGGVTELLRIMDICEHHNAQLMPHNWKTGITAAAARHFGIVCHISEYVEYLHPDFWNGTLTQQLTLNEPKIIDGAIEVSDKPGLGIELNIEFVEQVTGHKF ANIVSVEFIPVNVASENTVIVKVTDENGVYGLGEADGPPECMKAFSEIENEHKWLNNIKEAVIGRDPLEFRANYNRMYDTTKWIGMRGLGLFAISGIDMALYDLAGKQLGVPAYKLMGGAQKAQLTPYFTLYPSVAADATLSEIVEAYKPLIAKAKERGAKAVKVCIIPNDKVSDKEIVAYLRELREVIGWDMDMMVDCLYRWTDWQKARWTFRQLEDIDLYFIEACLQHDDLIGHQKLAAAINTRLCGAEMSTTRFEAQEWLEKTGISVVQSDYNRCGGVTELLRIMDICEHHNAQLMPHNWKTGITAAAARHFGIVCHISEYVEYLHPDFWNGTLTQQLTLNEPKIIDGAIEVSDKPGLGIELNIEFVEQVTGHKF 3mqy-a1-m1-cA_3mqy-a1-m1-cB SgrAI with cleaved DNA and Magnesium bound Q9F6L0 Q9F6L0 2 X-RAY DIFFRACTION 93 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 338 338 3dpg-a1-m1-cA_3dpg-a1-m1-cB 3dvo-a1-m1-cA_3dvo-a1-m1-cB 3dvo-a2-m1-cC_3dvo-a2-m1-cD 3dw9-a1-m1-cB_3dw9-a1-m1-cA 3mq6-a1-m1-cA_3mq6-a1-m1-cB 3mq6-a2-m1-cD_3mq6-a2-m1-cC 3mq6-a3-m1-cE_3mq6-a3-m1-cF 3mq6-a4-m1-cG_3mq6-a4-m1-cH 3n78-a1-m1-cB_3n78-a1-m1-cA 3n7b-a1-m1-cB_3n7b-a1-m1-cA 4c3g-a1-m1-cA_4c3g-a1-m1-cB 6obj-a1-m10-cA_6obj-a1-m10-cB 6obj-a1-m1-cA_6obj-a1-m1-cB 6obj-a1-m2-cA_6obj-a1-m2-cB 6obj-a1-m3-cA_6obj-a1-m3-cB 6obj-a1-m4-cA_6obj-a1-m4-cB 6obj-a1-m5-cA_6obj-a1-m5-cB 6obj-a1-m6-cA_6obj-a1-m6-cB 6obj-a1-m7-cA_6obj-a1-m7-cB 6obj-a1-m8-cA_6obj-a1-m8-cB 6obj-a1-m9-cA_6obj-a1-m9-cB 7ss5-a1-m1-cA_7ss5-a1-m1-cB PFTYSIEATRNLATTERCIQDIRNAPVRNRSTQFQLAQQNMLAYTFGEVIPGFASAGINGMDYRDVIGRPVENAVTEGTHFFRDDFRVDSNAKAKVAGDIFEIVSSAVMWNCAARWNSLMVGEGWRSQPRYSRPTLSPSPRRQVAVLNLPRSFDWVSLLVPESQEVIEEFRAGLRKDGLGLPTSTPDLAVVVLPEEFQNDEMWREEIAGLTRPNQILLSGAYQRLQGRVQPGEISLAVAFKRSLRSDRLYQPLYEANVMQLLLEGKLGAPKVEFEVHTLAPEGTNAFVTYEAASLYGLAEGRSAVHRAIRELYVPPTAADLARRFFAFLNERMELVNG PFTYSIEATRNLATTERCIQDIRNAPVRNRSTQFQLAQQNMLAYTFGEVIPGFASAGINGMDYRDVIGRPVENAVTEGTHFFRDDFRVDSNAKAKVAGDIFEIVSSAVMWNCAARWNSLMVGEGWRSQPRYSRPTLSPSPRRQVAVLNLPRSFDWVSLLVPESQEVIEEFRAGLRKDGLGLPTSTPDLAVVVLPEEFQNDEMWREEIAGLTRPNQILLSGAYQRLQGRVQPGEISLAVAFKRSLRSDRLYQPLYEANVMQLLLEGKLGAPKVEFEVHTLAPEGTNAFVTYEAASLYGLAEGRSAVHRAIRELYVPPTAADLARRFFAFLNERMELVNG 3mr7-a2-m1-cC_3mr7-a2-m2-cC Crystal Structure of Adenylate/Guanylate Cyclase/Hydrolase from Silicibacter pomeroyi Q5LP28 Q5LP28 2.6 X-RAY DIFFRACTION 64 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 165 165 3mr7-a1-m1-cB_3mr7-a1-m1-cA AERRLCAILAADAGYSRLETDVLNRQKLYRRELIDPAIAQAGGQIVKTTGDGLARFDTAQAALRCALEIQQAQQREEDTPRKERIQYRIGINIGDIVLEDGDIFGDAVNVAARLEAISEPGAICVSDIVHQITQDRVSEPFTDLGLQKVKNITRPIRVWQWVPDA AERRLCAILAADAGYSRLETDVLNRQKLYRRELIDPAIAQAGGQIVKTTGDGLARFDTAQAALRCALEIQQAQQREEDTPRKERIQYRIGINIGDIVLEDGDIFGDAVNVAARLEAISEPGAICVSDIVHQITQDRVSEPFTDLGLQKVKNITRPIRVWQWVPDA 3mse-a1-m1-cB_3mse-a1-m2-cB Crystal structure of C-terminal domain of PF110239. Q8IID5 Q8IID5 2.1 X-RAY DIFFRACTION 165 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 168 168 ISPNVLNNMKSYMKHSNIRNIIINIMAHELSVINNHIKYINELFYKLDTNHNGSLSHREIYTVLASVGIKKWDINRILQALDINDRGNITYTEFMAGCYRWKNITFLKAAFNKIDKDEDGYISKSDIVSLVHDKVLDNNDIDNFFLSVHSIINKISFQEFKDYMLSTF ISPNVLNNMKSYMKHSNIRNIIINIMAHELSVINNHIKYINELFYKLDTNHNGSLSHREIYTVLASVGIKKWDINRILQALDINDRGNITYTEFMAGCYRWKNITFLKAAFNKIDKDEDGYISKSDIVSLVHDKVLDNNDIDNFFLSVHSIINKISFQEFKDYMLSTF 3msh-a1-m1-cA_3msh-a1-m2-cA Crystal structure of Hepatitis B X-Interacting Protein at high resolution O43504 O43504 1.51 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 3ms6-a1-m1-cA_3ms6-a1-m2-cA MEATLEQHLEDTMKNPSIVGVLCTDSQGLNLGCRGTLSDEHAGVISVLAQQAAKLTSDPTDIPVVCLESDNGNIMIQKHDGITVAVHKMA MEATLEQHLEDTMKNPSIVGVLCTDSQGLNLGCRGTLSDEHAGVISVLAQQAAKLTSDPTDIPVVCLESDNGNIMIQKHDGITVAVHKMA 3mso-a1-m1-cB_3mso-a1-m2-cB Crystal structure of a STEROID DELTA-ISOMERASE (NP_250810.1) from PSEUDOMONAS AERUGINOSA at 2.57 A resolution Q9I1Z5 Q9I1Z5 2.57 X-RAY DIFFRACTION 33 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 131 131 SLPLEANAAATLAEWHGLIARRDLSGLPRLLHPDAVFRSPAHKPYAGAPVVSILNTVLTVFEDFAYHRQLASADGRSVVLEFSARVGERELKGIDIRFDDDGRIVDFEVVRPSGLQALGEEGRRLASYLAA SLPLEANAAATLAEWHGLIARRDLSGLPRLLHPDAVFRSPAHKPYAGAPVVSILNTVLTVFEDFAYHRQLASADGRSVVLEFSARVGERELKGIDIRFDDDGRIVDFEVVRPSGLQALGEEGRRLASYLAA 3mso-a1-m2-cA_3mso-a1-m2-cB Crystal structure of a STEROID DELTA-ISOMERASE (NP_250810.1) from PSEUDOMONAS AERUGINOSA at 2.57 A resolution Q9I1Z5 Q9I1Z5 2.57 X-RAY DIFFRACTION 63 0.992 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 128 131 3mso-a1-m1-cA_3mso-a1-m1-cB TSLPLEANAAATLAEWHGLIARRDLSGLPRLLHPDAVFRSPAHKPYAGAPVVSILNTVLTVFEDFAYHRQLASADGRSVVLEFSARVGERELKGIDIRFDDDGRIVDFEVVRPSGLQALGEEGRRLAS SLPLEANAAATLAEWHGLIARRDLSGLPRLLHPDAVFRSPAHKPYAGAPVVSILNTVLTVFEDFAYHRQLASADGRSVVLEFSARVGERELKGIDIRFDDDGRIVDFEVVRPSGLQALGEEGRRLASYLAA 3msp-a1-m1-cA_3msp-a1-m1-cB MOTILE MAJOR SPERM PROTEIN (MSP) OF ASCARIS SUUM, NMR, 20 STRUCTURES P27439 P27439 NOT SOLUTION NMR 47 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 126 126 AQSVPPGDINTQPSQKIVFNAPYDDKHTYHIKITNAGGRRIGWAIKTTNMRRLSVDPPCGVLDPKEKVLMAVSCDTFNAATEDLNNDRITIEWTNTPDGAAKQFRREWFQGDGMVRRKNLPIEYNL AQSVPPGDINTQPSQKIVFNAPYDDKHTYHIKITNAGGRRIGWAIKTTNMRRLSVDPPCGVLDPKEKVLMAVSCDTFNAATEDLNNDRITIEWTNTPDGAAKQFRREWFQGDGMVRRKNLPIEYNL 3msq-a3-m1-cB_3msq-a3-m3-cC Crystal structure of a Putative ubiquinone biosynthesis protein (Npun02000094) from Nostoc punctiforme PCC 73102 at 2.85 A resolution B2J5W7 B2J5W7 2.85 X-RAY DIFFRACTION 11 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 200 200 3msq-a1-m1-cA_3msq-a1-m1-cD 3msq-a1-m2-cA_3msq-a1-m2-cD 3msq-a3-m1-cC_3msq-a3-m3-cB TYNNDKGLLAYIQFLASSAQGNTDRVFDFEDALDQTQAQLAVDELKKIPEVNALFSERWLPAPFNLDDLAKLPEGTLGHVYAREKARFYKKVPVVDDISYLKLWRSTHDIYHVVAGFDTNVFGEIGLQAFFLAQTPIPISVLLSFGVISLYQPTNFKALTEISRGYRVGSHTPGKLIAQKWDQLWDVQVSEIRERLGVNS TYNNDKGLLAYIQFLASSAQGNTDRVFDFEDALDQTQAQLAVDELKKIPEVNALFSERWLPAPFNLDDLAKLPEGTLGHVYAREKARFYKKVPVVDDISYLKLWRSTHDIYHVVAGFDTNVFGEIGLQAFFLAQTPIPISVLLSFGVISLYQPTNFKALTEISRGYRVGSHTPGKLIAQKWDQLWDVQVSEIRERLGVNS 3msq-a3-m3-cB_3msq-a3-m3-cC Crystal structure of a Putative ubiquinone biosynthesis protein (Npun02000094) from Nostoc punctiforme PCC 73102 at 2.85 A resolution B2J5W7 B2J5W7 2.85 X-RAY DIFFRACTION 32 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 200 200 3msq-a1-m1-cA_3msq-a1-m2-cD 3msq-a1-m1-cD_3msq-a1-m2-cA 3msq-a3-m1-cB_3msq-a3-m1-cC TYNNDKGLLAYIQFLASSAQGNTDRVFDFEDALDQTQAQLAVDELKKIPEVNALFSERWLPAPFNLDDLAKLPEGTLGHVYAREKARFYKKVPVVDDISYLKLWRSTHDIYHVVAGFDTNVFGEIGLQAFFLAQTPIPISVLLSFGVISLYQPTNFKALTEISRGYRVGSHTPGKLIAQKWDQLWDVQVSEIRERLGVNS TYNNDKGLLAYIQFLASSAQGNTDRVFDFEDALDQTQAQLAVDELKKIPEVNALFSERWLPAPFNLDDLAKLPEGTLGHVYAREKARFYKKVPVVDDISYLKLWRSTHDIYHVVAGFDTNVFGEIGLQAFFLAQTPIPISVLLSFGVISLYQPTNFKALTEISRGYRVGSHTPGKLIAQKWDQLWDVQVSEIRERLGVNS 3msq-a6-m1-cD_3msq-a6-m2-cD Crystal structure of a Putative ubiquinone biosynthesis protein (Npun02000094) from Nostoc punctiforme PCC 73102 at 2.85 A resolution B2J5W7 B2J5W7 2.85 X-RAY DIFFRACTION 64 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 200 200 3msq-a1-m1-cA_3msq-a1-m2-cA 3msq-a1-m1-cD_3msq-a1-m2-cD 3msq-a2-m1-cA_3msq-a2-m2-cA 3msq-a3-m1-cB_3msq-a3-m3-cB 3msq-a3-m1-cC_3msq-a3-m3-cC 3msq-a4-m1-cB_3msq-a4-m3-cB 3msq-a5-m1-cC_3msq-a5-m3-cC TYNNDKGLLAYIQFLASSAQGNTDRVFDFEDALDQTQAQLAVDELKKIPEVNALFSERWLPAPFNLDDLAKLPEGTLGHVYAREKARFYKKVPVVDDISYLKLWRSTHDIYHVVAGFDTNVFGEIGLQAFFLAQTPIPISVLLSFGVISLYQPTNFKALTEISRGYRVGSHTPGKLIAQKWDQLWDVQVSEIRERLGVNS TYNNDKGLLAYIQFLASSAQGNTDRVFDFEDALDQTQAQLAVDELKKIPEVNALFSERWLPAPFNLDDLAKLPEGTLGHVYAREKARFYKKVPVVDDISYLKLWRSTHDIYHVVAGFDTNVFGEIGLQAFFLAQTPIPISVLLSFGVISLYQPTNFKALTEISRGYRVGSHTPGKLIAQKWDQLWDVQVSEIRERLGVNS 3msu-a1-m1-cA_3msu-a1-m1-cB Crystal Structure of Citrate Synthase from Francisella tularensis Q5NIJ6 Q5NIJ6 1.843 X-RAY DIFFRACTION 503 1.0 263 (Francisella tularensis) 263 (Francisella tularensis) 415 426 NAMEVMLMSKYATLKYADKNIEIELPVYSPSLGNDCIDVSSLVKHGIFTYDPGFMSTAACESKITYIDGGKGVLLHRGYPIEEWTQKSNYRTLCYALIYGELPTDEQVKSFRQEIINKMPVCEHVKAAIAAMPQHTHPMSSLIAGVNVLAAEHIHNGQKESQDEVAKNIVAKIATIAAMAYRHNHGKKFLEPKMEYGYAENFLYMMFADDESYKPDELHIKAMDTIFMLHADHEQNASTSTVRLSGSTGNSPYAAIIAGITALWGPAHGGANEAVLKMLSEIGSTENIDKYIAKAKDKLMGFGHRVYKNTDPRATAMKKNCEEILAKLGHSDNPLLTVAKKLEEIALERKLFSNVDFYSGIILKAMGIPEDMFTAIFALARTSGWISQWIEMVNDPAQKIGRPRQLYTGATNRNF NAMEVMLMSKYATLKYADKNIEIELPVYSPSLGNDCIDVSSLVKHGIFTYDPGFMSTAACESKITYIDGGKGVLLHRGYPIEEWTQKSNYRTLCYALIYGELPTDEQVKSFRQEIINKMPVCEHVKAAIAAMPQHTHPMSSLIAGVNVLAAEHIHNGQKESQDEVAKNIVAKIATIAAMAYRHNHGKKFLEPKMEYGYAENFLYMMFADDESYKPDELHIKAMDTIFMLHADHEQNASTSTVRLSGSTGNSPYAAIIAGITALWGPAHGGANEAVLKMLSEIGSTENIDKYIAKAKDKDDPFRLMGFGHRVYKNTDPRATAMKKNCEEILAKLGHSDNPLLTVAKKLEEIALQDEFFIERKLFSNVDFYSGIILKAMGIPEDMFTAIFALARTSGWISQWIEMVNDPAQKIGRPRQLYTGATNRNF 3msv-a3-m1-cB_3msv-a3-m1-cA The hypoxic regulator of sterol synthesis Nro1 is a nuclear import adaptor Q9USJ7 Q9USJ7 2.18 X-RAY DIFFRACTION 68 0.991 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 348 352 KKQQQLEKQKQEASYELSVYTEEDNISQLWGLYEMSREKLENDDIDASVSLVFGTIHEADRILRNTEDISTLPKDFHAAYSSALLAVSELFEIAQKRLKETNTEESYIDAAIERAQLGLDAPGNESRLFLALARAYLEKVRVLVWRHDNEESLANIPVTQLVNPYIEKAIQYLRPLAQDSTEYFDALTPDSLRPLYILSSYLFQFGDQFSEAFLLDVCSIITALWLKSVVDPNTPAYYKLIAQEAVLNNYTTFAEYYMDLLDNVDDLINKASSWLNNSVDTWNVIYTLDKSPERLLKLADIKMDLAQIVQDEASQDNYLKEACNAIKEAQGSGVELSPDYVEFVEAYS ASLKKQQQLEKQKQEASYELSEEDNISQLWGLYEMSREKLENDDIDASVSLVFGTIHEADRILRNTEDISTLPKDFHAAYSSALLAVSELFEIAQKRLKETNTEESYIDAAIERAQLGLDAPGNESRLFLALARAYLEKVRVLVWRHDNEESLANIPVTQLVNPYIEKAIQYLRPLAQDSTEYFDALTPDSLRPLYILSSYLFQFGDQFSEAFLLDVCSIITALWLKSVVDPNTPAYYKLIAQEAVLNNYTTFAEYYMDLLDNSESNVDDLINKASSWLNNSVDTWNVIYTLDKSPERLLKLADIKMDLAQIVQDEASQDNYLKEACNAIKEAQGSGVELSPDYVEFVEAYS 3mt1-a1-m1-cA_3mt1-a1-m1-cB Crystal structure of putative carboxynorspermidine decarboxylase protein from Sinorhizobium meliloti Q92TG9 Q92TG9 2.5 X-RAY DIFFRACTION 168 0.997 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 336 337 IETPYYLIDKAKLTRNERIAHVREKSGAKALLALKCFATWSVFDLRDYDGTTSSSLFEVRLGRERFGKETHAYSVAYGDNEIDEVVSHADKIIFNSISQLERFADKAAGIARGLRLNPQRLGEWDVPKVERVDRINGFIHNNNKDFGLFDRLGEIEERFGALIARVDWVSLGGGIHFTGDDYPVDAFSARLRAFSDRYGVQIYLEPGEASITKSTTLEVTVLDTLYNGKNLAIVDSSIEAHLDLLIYRETAKVLPNEGSHSYICGKSCLAGDVFGEFRFAEELKVGDRISFQDAAGYTVKKNWFNGVKPAIAIRELDGSVRTVREFTYADYEQSLS IETPYYLIDKAKLTRNERIAHVREKSGAKALLALKCFATWSVFDLRDYDGTTSSSLFEVRLGRERFGKETHAYSVAYGDNEIDEVVSHADKIIFNSISQLERFADKAAGIARGLRLNPQRLGEWDVPKVERVDRINGFIHNNCENKDFGLFDRLGEIEERFGALIARVDWVSLGGGIHFTGDDYPVDAFSARLRAFSDRYGVQIYLEPGEASITKSTTLEVTVLDTLYNKNLAIVDSSIEAHLDLLIYRETAKVLPNEGSHSYICGKSCLAGDVFGEFRFAEELKVGDRISFQDAAGYTVKKNWFNGVKPAIAIRELDGSVRTVREFTYADYEQSLS 3mtg-a1-m1-cB_3mtg-a1-m2-cB Crystal structure of human S-adenosyl homocysteine hydrolase-like 1 protein O43865 O43865 2.64 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 423 423 3gvp-a1-m1-cB_3gvp-a1-m1-cC 3gvp-a1-m1-cD_3gvp-a1-m1-cA 3mtg-a1-m1-cA_3mtg-a1-m2-cA GSSNFCVKNIKQAEFGRREIEIAEQDMSALISLRKRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAGVAVFAWKGESEDDFWWCIDRCVNMQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEESVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQVVVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCTGNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRVVLLAEGRLLNTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVASLHLPSFDAHLTELADDQAKYLGLNKNGPFKPNYYRY GSSNFCVKNIKQAEFGRREIEIAEQDMSALISLRKRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAGVAVFAWKGESEDDFWWCIDRCVNMQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEESVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQVVVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCTGNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRVVLLAEGRLLNTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVASLHLPSFDAHLTELADDQAKYLGLNKNGPFKPNYYRY 3mtg-a1-m2-cB_3mtg-a1-m1-cA Crystal structure of human S-adenosyl homocysteine hydrolase-like 1 protein O43865 O43865 2.64 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 423 430 3gvp-a1-m1-cB_3gvp-a1-m1-cA 3gvp-a1-m1-cD_3gvp-a1-m1-cC 3mtg-a1-m1-cB_3mtg-a1-m2-cA GSSNFCVKNIKQAEFGRREIEIAEQDMSALISLRKRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAGVAVFAWKGESEDDFWWCIDRCVNMQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEESVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQVVVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCTGNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRVVLLAEGRLLNTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVASLHLPSFDAHLTELADDQAKYLGLNKNGPFKPNYYRY GSSNFCVKNIKQAEFGRREIEIAEQDMSALISLRKRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAGVAVFAWKGESEDDFWWCIDRCVNMDGWQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEESVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQVVVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCTGNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRVVLLAEGRLLNLSCSTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVASLHLPSFDAHLTELADDQAKYLGLNKNGPFKPNYYRY 3mtg-a1-m2-cB_3mtg-a1-m2-cA Crystal structure of human S-adenosyl homocysteine hydrolase-like 1 protein O43865 O43865 2.64 X-RAY DIFFRACTION 152 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 423 430 3gvp-a1-m1-cC_3gvp-a1-m1-cA 3gvp-a1-m1-cD_3gvp-a1-m1-cB 3mtg-a1-m1-cB_3mtg-a1-m1-cA GSSNFCVKNIKQAEFGRREIEIAEQDMSALISLRKRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAGVAVFAWKGESEDDFWWCIDRCVNMQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEESVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQVVVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCTGNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRVVLLAEGRLLNTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVASLHLPSFDAHLTELADDQAKYLGLNKNGPFKPNYYRY GSSNFCVKNIKQAEFGRREIEIAEQDMSALISLRKRAQGEKPLAGAKIVGCTHITAQTAVLIETLCALGAQCRWSACNIYSTQNEVAAALAEAGVAVFAWKGESEDDFWWCIDRCVNMDGWQANMILDDGGDLTHWVYKKYPNVFKKIRGIVEESVTGVHRLYQLSKAGKLCVPAMNVNDSVTKQKFDNLYCCRESILDGLKRTTDVMFGGKQVVVCGYGEVGKGCCAALKALGAIVYITEIDPICALQACMDGFRVVKLNEVIRQVDVVITCTGNKNVVTREHLDRMKNSCIVCNMGHSNTEIDVTSLRTPELTWERVRSQVDHVIWPDGKRVVLLAEGRLLNLSCSTVPTFVLSITATTQALALIELYNAPEGRYKQDVYLLPKKMDEYVASLHLPSFDAHLTELADDQAKYLGLNKNGPFKPNYYRY 3mti-a1-m1-cA_3mti-a1-m1-cB The Crystal Structure of a rRNA Methylase from Streptococcus thermophilus to 1.95A Q5M2Z6 Q5M2Z6 1.95 X-RAY DIFFRACTION 58 1.0 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 159 173 AIKRPIHSHDFLAEVLDDESIVVDATGNGNDTAFLAGLSKKVYAFDVQEQALGKTSQRLSDLGIENTELILDGHENLDHYVREPIRAAIFNLGKPHTTLEAIEKILDRLEVGGRLAIIYDEKDAVLEYVIGLDQRVFTALYQPLNQINTPPFLVLEKLQ AIKRPIHSHDFLAEVLDDESIVVDATGNGNDTAFLAGLSKKVYAFDVQEQALGKTSQRLSDLGIENTELILDGHENLDHYVREPIRAAIFNLGYLPSADKSKPHTTLEAIEKILDRLEVGGRLAIIYYGHDGGDEKDAVLEYVIGLDQRVFTALYQPLNQINTPPFLVLEKLQ 3mtj-a1-m1-cA_3mtj-a1-m4-cA The Crystal Structure of a Homoserine Dehydrogenase from Thiobacillus denitrificans to 2.15A Q3SKI5 Q3SKI5 2.15 X-RAY DIFFRACTION 46 1.0 292415 (Thiobacillus denitrificans ATCC 25259) 292415 (Thiobacillus denitrificans ATCC 25259) 422 422 3mtj-a1-m2-cA_3mtj-a1-m3-cA FQGKPIHVGLLGLGTVGGGTLTVLRRNAEEITRRAGREIRVVRAAVRNLDKAEALAGGLPLTTNPFDVVDDPEIDIVVELIGGLEPARELVQAIANGKHVVTANKHLVAKYGNEIFAAAQAKGVVTFEAAVAGGIPIIKALREGLTANRIEWLAGIINGTSNFILSERDKGAAFDDVLKEAQRLGYAEADPTFDIEGIDAAHKLTILSAIAFGIPQFERAYTEGISQLTREDVRYAEELGYRIKLLGIARRAENGIELRVHPTLIPERRLIANVDGANAVLVKGDAVGPTLYYGAGAGSEPTASAVVADLVDVTRLHTADPHHRVPHLAFQPDQLADTPILPEAVRTAYYLRLRAFRPGVLADITRILADSSISIDAVQKEQVDIILLTHVTLEKNVNAAIAKIEALDAVAGKVRIRLEDLG FQGKPIHVGLLGLGTVGGGTLTVLRRNAEEITRRAGREIRVVRAAVRNLDKAEALAGGLPLTTNPFDVVDDPEIDIVVELIGGLEPARELVQAIANGKHVVTANKHLVAKYGNEIFAAAQAKGVVTFEAAVAGGIPIIKALREGLTANRIEWLAGIINGTSNFILSERDKGAAFDDVLKEAQRLGYAEADPTFDIEGIDAAHKLTILSAIAFGIPQFERAYTEGISQLTREDVRYAEELGYRIKLLGIARRAENGIELRVHPTLIPERRLIANVDGANAVLVKGDAVGPTLYYGAGAGSEPTASAVVADLVDVTRLHTADPHHRVPHLAFQPDQLADTPILPEAVRTAYYLRLRAFRPGVLADITRILADSSISIDAVQKEQVDIILLTHVTLEKNVNAAIAKIEALDAVAGKVRIRLEDLG 3mtj-a2-m1-cA_3mtj-a2-m2-cA The Crystal Structure of a Homoserine Dehydrogenase from Thiobacillus denitrificans to 2.15A Q3SKI5 Q3SKI5 2.15 X-RAY DIFFRACTION 196 1.0 292415 (Thiobacillus denitrificans ATCC 25259) 292415 (Thiobacillus denitrificans ATCC 25259) 422 422 3mtj-a1-m1-cA_3mtj-a1-m2-cA 3mtj-a1-m3-cA_3mtj-a1-m4-cA FQGKPIHVGLLGLGTVGGGTLTVLRRNAEEITRRAGREIRVVRAAVRNLDKAEALAGGLPLTTNPFDVVDDPEIDIVVELIGGLEPARELVQAIANGKHVVTANKHLVAKYGNEIFAAAQAKGVVTFEAAVAGGIPIIKALREGLTANRIEWLAGIINGTSNFILSERDKGAAFDDVLKEAQRLGYAEADPTFDIEGIDAAHKLTILSAIAFGIPQFERAYTEGISQLTREDVRYAEELGYRIKLLGIARRAENGIELRVHPTLIPERRLIANVDGANAVLVKGDAVGPTLYYGAGAGSEPTASAVVADLVDVTRLHTADPHHRVPHLAFQPDQLADTPILPEAVRTAYYLRLRAFRPGVLADITRILADSSISIDAVQKEQVDIILLTHVTLEKNVNAAIAKIEALDAVAGKVRIRLEDLG FQGKPIHVGLLGLGTVGGGTLTVLRRNAEEITRRAGREIRVVRAAVRNLDKAEALAGGLPLTTNPFDVVDDPEIDIVVELIGGLEPARELVQAIANGKHVVTANKHLVAKYGNEIFAAAQAKGVVTFEAAVAGGIPIIKALREGLTANRIEWLAGIINGTSNFILSERDKGAAFDDVLKEAQRLGYAEADPTFDIEGIDAAHKLTILSAIAFGIPQFERAYTEGISQLTREDVRYAEELGYRIKLLGIARRAENGIELRVHPTLIPERRLIANVDGANAVLVKGDAVGPTLYYGAGAGSEPTASAVVADLVDVTRLHTADPHHRVPHLAFQPDQLADTPILPEAVRTAYYLRLRAFRPGVLADITRILADSSISIDAVQKEQVDIILLTHVTLEKNVNAAIAKIEALDAVAGKVRIRLEDLG 3mtk-a3-m1-cA_3mtk-a3-m1-cB X-Ray Structure of Diguanylate cyclase/phosphodiesterase from Caldicellulosiruptor saccharolyticus, Northeast Structural Genomics Consortium Target ClR27C A4XHQ4 A4XHQ4 2.24 X-RAY DIFFRACTION 35 1.0 351627 (Caldicellulosiruptor saccharolyticus DSM 8903) 351627 (Caldicellulosiruptor saccharolyticus DSM 8903) 160 160 KLEFLAFYDELTGLPNKNSLIRWLNLKVSQDCIDTYLIFLEVRDLEKLNVTYGYDLVDELIIHISKRIKDIAGEGNKAFKIGFDRFAIICKSENISDFIERLSQLLLPYNVNGNLIRVNFNIGAAQIEAAANLRRCDLALIKAKEEGLNEYVIFKPIEIQ KLEFLAFYDELTGLPNKNSLIRWLNLKVSQDCIDTYLIFLEVRDLEKLNVTYGYDLVDELIIHISKRIKDIAGEGNKAFKIGFDRFAIICKSENISDFIERLSQLLLPYNVNGNLIRVNFNIGAAQIEAAANLRRCDLALIKAKEEGLNEYVIFKPIEIQ 3mtl-a2-m1-cA_3mtl-a2-m2-cA Crystal structure of the PCTAIRE1 kinase in complex with Indirubin E804 Q00536 Q00536 2.4 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 METYIKLDKLGEGTYATVYKGKSKLTDNLVALKEIRLPCTAIREVSLLKDLKHANIVTLHDIIHTEKSLTLVFEYLDKDLKQYLDDCGNIINMHNVKLFLFQLLRGLAYCHRQKVLHRDLKPQNLLINERGELKLADFGLARAKTLWYRPPDILLGSTDYSTQIDMWGVGCIFYEMATGRPLFPGSTVEEQLHFIFRILGTPTEETWPGILSNEEFKTYNYPKYRAEALLSHAPRLDSDGADLLTKLLQFEGRNRISAEDAMKHPFFLSLGERIHKLPDTTSIFALKEIQLQKE METYIKLDKLGEGTYATVYKGKSKLTDNLVALKEIRLPCTAIREVSLLKDLKHANIVTLHDIIHTEKSLTLVFEYLDKDLKQYLDDCGNIINMHNVKLFLFQLLRGLAYCHRQKVLHRDLKPQNLLINERGELKLADFGLARAKTLWYRPPDILLGSTDYSTQIDMWGVGCIFYEMATGRPLFPGSTVEEQLHFIFRILGTPTEETWPGILSNEEFKTYNYPKYRAEALLSHAPRLDSDGADLLTKLLQFEGRNRISAEDAMKHPFFLSLGERIHKLPDTTSIFALKEIQLQKE 3mtq-a1-m1-cB_3mtq-a1-m1-cA Crystal structure of a putative phosphoenolpyruvate-dependent sugar phosphotransferase system (PTS) permease (KPN_04802) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 1.70 A resolution A6THW4 A6THW4 1.7 X-RAY DIFFRACTION 161 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 136 138 NLYFQGKRHYIFASHGSFANGLLNSVELILGKQPDIHTLCAYVEEEVDLTQQVEALVARFPAQDELIVITDIFAGSVNNEFVRFLSRPHFHLLSGLNLPLIIDLLISAAEDNTEKLITEALTNAKESIQYCNQTIA NLYFQGKRHYIFASHGSFANGLLNSVELILGKQPDIHTLCAYVEEEVDLTQQVEALVARFPAQDELIVITDIFAGSVNNEFVRFLSRPHFHLLSGLNLPLIIDLLISAAEDNTEKLITEALTNAKESIQYCNQTIASA 3mtr-a1-m1-cA_3mtr-a1-m1-cB Crystal structure of the Ig5-FN1 tandem of human NCAM P13591 P13591 1.8 X-RAY DIFFRACTION 69 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 SHMYAPKLQGPVAVYTWEGNQVNITCEVFAYPSATISWFRDGQLLPSSNYSNIKIYNTPSASYLEVTPDSENDFGNYNCTAVNRIGQESLEFILVQADTPSSPSIDQVEPYSSTAQVQFDEPEATGGVPILKYKAEWRAVGEEVWHSKWYDAKEASMEGIVTIVGLKPETTYAVRLAALNGKGLGEISAASEFKTQP MYAPKLQGPVAVYTWEGNQVNITCEVFAYPSATISWFRDGQLLPSSNYSNIKIYNTPSASYLEVTPDSENDFGNYNCTAVNRIGQESLEFILVQADTPSSPSIDQVEPYSSTAQVQFDEPEATGGVPILKYKAEWRAVGEEVWHSKWYDAKEASMEGIVTIVGLKPETTYAVRLAALNGKGLGEISAASEFKTQPVQ 3mtu-a1-m1-cE_3mtu-a1-m1-cF Structure of the Tropomyosin Overlap Complex from Chicken Smooth Muscle P04268 P04268 2.1 X-RAY DIFFRACTION 54 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 64 64 PEEHEDILNKLLDPQSERTEALQQLRVNYGSFVSEYNDLEEKVAHAKEENLNHQLDQTLLELNN PEEHEDILNKLLDPQSERTEALQQLRVNYGSFVSEYNDLEEKVAHAKEENLNHQLDQTLLELNN 3mtu-a2-m1-cB_3mtu-a2-m1-cA Structure of the Tropomyosin Overlap Complex from Chicken Smooth Muscle Q15691 Q15691 2.1 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 72 3mtu-a1-m1-cB_3mtu-a1-m1-cA 3mtu-a1-m1-cC_3mtu-a1-m1-cD 3mtu-a2-m1-cC_3mtu-a2-m1-cD 3mud-a1-m1-cC_3mud-a1-m1-cD GASDAIKKKQLKLDKENALDRAEQAEADKDFYFGKLRNIELICQENEGENDPVLQRIVDILYATD GASDAIKKKQLKLDKENALDRAEQAEADKDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFVIPD 3mtu-a2-m1-cD_3mtu-a2-m1-cB Structure of the Tropomyosin Overlap Complex from Chicken Smooth Muscle Q15691 Q15691 2.1 X-RAY DIFFRACTION 22 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 64 65 3mtu-a1-m1-cC_3mtu-a1-m1-cA 3mtu-a1-m1-cD_3mtu-a1-m1-cB 3mtu-a2-m1-cC_3mtu-a2-m1-cA SDAIKKKQLKLDKENALDRAEQAEADKDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDE GASDAIKKKQLKLDKENALDRAEQAEADKDFYFGKLRNIELICQENEGENDPVLQRIVDILYATD 3mtv-a1-m1-cA_3mtv-a1-m2-cA The Crystal Structure of the PRRSV Nonstructural Protein Nsp1 B2ZAB4 B2ZAB4 2.8 X-RAY DIFFRACTION 66 1.0 28344 (Porcine reproductive and respiratory syndrome virus) 28344 (Porcine reproductive and respiratory syndrome virus) 203 203 ADVYDIGRGAVMYVAGGKVSWAPRGGNEVKFEPVPKELKLVANRLHTSFPPHHVVDMSKFTFITPGSGVSMRVEYQYGCLPADTVPEGNCWWRLLDSLPPEVQYKEIRHANQFGYQTKHGVPGKYLQRRLQVNGLRAVTDTHGPIVIQYFSVKESWIRHLKLVEEPSLPGFEDLLRIRVEPNTSPLAGKDEKIFRFGSHKWYG ADVYDIGRGAVMYVAGGKVSWAPRGGNEVKFEPVPKELKLVANRLHTSFPPHHVVDMSKFTFITPGSGVSMRVEYQYGCLPADTVPEGNCWWRLLDSLPPEVQYKEIRHANQFGYQTKHGVPGKYLQRRLQVNGLRAVTDTHGPIVIQYFSVKESWIRHLKLVEEPSLPGFEDLLRIRVEPNTSPLAGKDEKIFRFGSHKWYG 3mtw-a2-m4-cA_3mtw-a2-m8-cA Crystal structure of L-Lysine, L-Arginine carboxypeptidase Cc2672 from Caulobacter Crescentus CB15 complexed with N-methyl phosphonate derivative of L-Arginine Q9A4Z9 Q9A4Z9 1.7 X-RAY DIFFRACTION 83 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 402 402 3mtw-a1-m1-cA_3mtw-a1-m2-cA 3mtw-a2-m1-cA_3mtw-a2-m2-cA 3mtw-a2-m3-cA_3mtw-a2-m7-cA 3mtw-a2-m5-cA_3mtw-a2-m6-cA AEIKAVSAARLLDVASGKYVDNPLVIVTDGRITSIGKKGDAVPAGATAVDLPGVTLLPGLIDMHVHLDSLAEVGGYNSLEYSDRFWSVVQTANAKKTLEAGFTTVRNVGAADYDDVGLREAIDAGYVPGPRIVTAAISFGATGGHCDSTFFPPSMDQKNPFNSDSPDEARKAVRTLKKYGAQVIICATGGVFSRGNEPGQQQLTYEEMKAVVDEAHMAGIKVAAHAHGASGIREAVRAGVDTIEHASLVDDEGIKLAVQKGAYFSMDIYNTDYTQAEGKKNGVLEDNLRKDRDIGELQRENFRKALKAGVKMVYGTDAGIYPHGDNAKQFAVMVRYGATPLQAIQSATLTAAEALGRSKDVGQVAVGRYGDMIAVAGDPLADVTTLEKPVFVMKGGAVVKAP AEIKAVSAARLLDVASGKYVDNPLVIVTDGRITSIGKKGDAVPAGATAVDLPGVTLLPGLIDMHVHLDSLAEVGGYNSLEYSDRFWSVVQTANAKKTLEAGFTTVRNVGAADYDDVGLREAIDAGYVPGPRIVTAAISFGATGGHCDSTFFPPSMDQKNPFNSDSPDEARKAVRTLKKYGAQVIICATGGVFSRGNEPGQQQLTYEEMKAVVDEAHMAGIKVAAHAHGASGIREAVRAGVDTIEHASLVDDEGIKLAVQKGAYFSMDIYNTDYTQAEGKKNGVLEDNLRKDRDIGELQRENFRKALKAGVKMVYGTDAGIYPHGDNAKQFAVMVRYGATPLQAIQSATLTAAEALGRSKDVGQVAVGRYGDMIAVAGDPLADVTTLEKPVFVMKGGAVVKAP 3mtw-a2-m5-cA_3mtw-a2-m8-cA Crystal structure of L-Lysine, L-Arginine carboxypeptidase Cc2672 from Caulobacter Crescentus CB15 complexed with N-methyl phosphonate derivative of L-Arginine Q9A4Z9 Q9A4Z9 1.7 X-RAY DIFFRACTION 34 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 402 402 3mtw-a2-m1-cA_3mtw-a2-m6-cA 3mtw-a2-m1-cA_3mtw-a2-m7-cA 3mtw-a2-m2-cA_3mtw-a2-m3-cA 3mtw-a2-m2-cA_3mtw-a2-m5-cA 3mtw-a2-m3-cA_3mtw-a2-m8-cA 3mtw-a2-m4-cA_3mtw-a2-m6-cA 3mtw-a2-m4-cA_3mtw-a2-m7-cA AEIKAVSAARLLDVASGKYVDNPLVIVTDGRITSIGKKGDAVPAGATAVDLPGVTLLPGLIDMHVHLDSLAEVGGYNSLEYSDRFWSVVQTANAKKTLEAGFTTVRNVGAADYDDVGLREAIDAGYVPGPRIVTAAISFGATGGHCDSTFFPPSMDQKNPFNSDSPDEARKAVRTLKKYGAQVIICATGGVFSRGNEPGQQQLTYEEMKAVVDEAHMAGIKVAAHAHGASGIREAVRAGVDTIEHASLVDDEGIKLAVQKGAYFSMDIYNTDYTQAEGKKNGVLEDNLRKDRDIGELQRENFRKALKAGVKMVYGTDAGIYPHGDNAKQFAVMVRYGATPLQAIQSATLTAAEALGRSKDVGQVAVGRYGDMIAVAGDPLADVTTLEKPVFVMKGGAVVKAP AEIKAVSAARLLDVASGKYVDNPLVIVTDGRITSIGKKGDAVPAGATAVDLPGVTLLPGLIDMHVHLDSLAEVGGYNSLEYSDRFWSVVQTANAKKTLEAGFTTVRNVGAADYDDVGLREAIDAGYVPGPRIVTAAISFGATGGHCDSTFFPPSMDQKNPFNSDSPDEARKAVRTLKKYGAQVIICATGGVFSRGNEPGQQQLTYEEMKAVVDEAHMAGIKVAAHAHGASGIREAVRAGVDTIEHASLVDDEGIKLAVQKGAYFSMDIYNTDYTQAEGKKNGVLEDNLRKDRDIGELQRENFRKALKAGVKMVYGTDAGIYPHGDNAKQFAVMVRYGATPLQAIQSATLTAAEALGRSKDVGQVAVGRYGDMIAVAGDPLADVTTLEKPVFVMKGGAVVKAP 3mtw-a2-m6-cA_3mtw-a2-m8-cA Crystal structure of L-Lysine, L-Arginine carboxypeptidase Cc2672 from Caulobacter Crescentus CB15 complexed with N-methyl phosphonate derivative of L-Arginine Q9A4Z9 Q9A4Z9 1.7 X-RAY DIFFRACTION 34 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 402 402 3mtw-a2-m1-cA_3mtw-a2-m5-cA 3mtw-a2-m2-cA_3mtw-a2-m7-cA 3mtw-a2-m3-cA_3mtw-a2-m4-cA AEIKAVSAARLLDVASGKYVDNPLVIVTDGRITSIGKKGDAVPAGATAVDLPGVTLLPGLIDMHVHLDSLAEVGGYNSLEYSDRFWSVVQTANAKKTLEAGFTTVRNVGAADYDDVGLREAIDAGYVPGPRIVTAAISFGATGGHCDSTFFPPSMDQKNPFNSDSPDEARKAVRTLKKYGAQVIICATGGVFSRGNEPGQQQLTYEEMKAVVDEAHMAGIKVAAHAHGASGIREAVRAGVDTIEHASLVDDEGIKLAVQKGAYFSMDIYNTDYTQAEGKKNGVLEDNLRKDRDIGELQRENFRKALKAGVKMVYGTDAGIYPHGDNAKQFAVMVRYGATPLQAIQSATLTAAEALGRSKDVGQVAVGRYGDMIAVAGDPLADVTTLEKPVFVMKGGAVVKAP AEIKAVSAARLLDVASGKYVDNPLVIVTDGRITSIGKKGDAVPAGATAVDLPGVTLLPGLIDMHVHLDSLAEVGGYNSLEYSDRFWSVVQTANAKKTLEAGFTTVRNVGAADYDDVGLREAIDAGYVPGPRIVTAAISFGATGGHCDSTFFPPSMDQKNPFNSDSPDEARKAVRTLKKYGAQVIICATGGVFSRGNEPGQQQLTYEEMKAVVDEAHMAGIKVAAHAHGASGIREAVRAGVDTIEHASLVDDEGIKLAVQKGAYFSMDIYNTDYTQAEGKKNGVLEDNLRKDRDIGELQRENFRKALKAGVKMVYGTDAGIYPHGDNAKQFAVMVRYGATPLQAIQSATLTAAEALGRSKDVGQVAVGRYGDMIAVAGDPLADVTTLEKPVFVMKGGAVVKAP 3mue-a2-m1-cC_3mue-a2-m1-cD Crystal Structure of Pantoate-beta-Alanine Ligase from Salmonella typhimurium Q8ZRR1 Q8ZRR1 2.701 X-RAY DIFFRACTION 69 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 283 284 3mue-a1-m1-cA_3mue-a1-m1-cB AMLIIETLPLLRQHIRRLRQEGKRVALVPTMGNLHDGHMKLVDEAKARADVVIVSIFVNPMQFDRPDDLVRYPRTLQEDCEKLNKRKVDYVFAPAVEEIYPHGLEGQTYVDVPGLSTMLEGASRPGHFRGVSTIVSKLFNLIQPDIACFGEKDFQQLALIRKMVADMSYDIEIVGVPIIRAKDGLALSSRNAYLTAEQRKIAPGLYNVMNSIAEKLIAGNRELQEIIAIAEQELNEKGFRADDIQIRDADTLLELTETSKRAVILAAAWLGQARLIDNQSVTL NAMLIIETLPLLRQHIRRLRQEGKRVALVPTMGNLHDGHMKLVDEAKARADVVIVSIFVNPMQFDRPDDLVRYPRTLQEDCEKLNKRKVDYVFAPAVEEIYPHGLEGQTYVDVPGLSTMLEGASRPGHFRGVSTIVSKLFNLIQPDIACFGEKDFQQLALIRKMVADMSYDIEIVGVPIIRAKDGLALSSRNAYLTAEQRKIAPGLYNVMNSIAEKLIAGNRELQEIIAIAEQELNEKGFRADDIQIRDADTLLELTETSKRAVILAAAWLGQARLIDNQSVTL 3muj-a1-m1-cA_3muj-a1-m1-cB Early B-cell factor 3 (EBF3) IPT/TIG and dimerization helices Q9H4W6 Q9H4W6 1.92 X-RAY DIFFRACTION 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 ATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGM ATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGM 3mup-a1-m1-cB_3mup-a1-m1-cD cIAP1-BIR3 domain in complex with the Smac-mimetic compound Smac037 Q13490 Q13490 2.6 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 102 3mup-a1-m1-cA_3mup-a1-m1-cC 4eb9-a1-m1-cA_4eb9-a1-m1-cC 4eb9-a2-m1-cB_4eb9-a2-m1-cD ISNLSMQTHAARMRTFMYWPSSVPVQPEQLASAGFYYVGRNDDVKCFCCDGGLRCWESGDDPWVEHAKWFPRCEFLIRMKGQEFVDEIQGRYPHLLEQLL SISNLSMQTHAARMRTFMYWPSSVPVQPEQLASAGFYYVGRNDDVKCFCCDGGLRCWESGDDPWVEHAKWFPRCEFLIRMKGQEFVDEIQGRYPHLLEQLLS 3mup-a1-m1-cD_3mup-a1-m1-cC cIAP1-BIR3 domain in complex with the Smac-mimetic compound Smac037 Q13490 Q13490 2.6 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 103 3mup-a1-m1-cB_3mup-a1-m1-cA SISNLSMQTHAARMRTFMYWPSSVPVQPEQLASAGFYYVGRNDDVKCFCCDGGLRCWESGDDPWVEHAKWFPRCEFLIRMKGQEFVDEIQGRYPHLLEQLLS SISNLSMQTHAARMRTFMYWPSSVPVQPEQLASAGFYYVGRNDDVKCFCCDGGLRCWESGDDPWVEHAKWFPRCEFLIRMKGQEFVDEIQGRYPHLLEQLLST 3muq-a2-m1-cA_3muq-a2-m2-cB The crystal structure of a conserved functionally unknown protein from Vibrio parahaemolyticus RIMD 2210633 Q87PK2 Q87PK2 2.053 X-RAY DIFFRACTION 19 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 225 225 3muq-a2-m1-cB_3muq-a2-m2-cA EHVRLATTTSTYHSGLLDYLLPQFEKDTGYKVDVIAAGTGKALKGENGDVDLVTHAPKAEGTFVEKGYGVLPRKLYNDFVIVGPKADPAKIKDDESVLDVFKEIANKNATFISRGDDSGTHKKEGFWAQTKIEPNFGGYRSVGQGGPTLNASEQGYTSDRGTWLAYQNKLDLEILFQGDEKLFNPYQVILVNPERYPTINYQGAKAFSDWLVNPRGQELINGFRL EHVRLATTTSTYHSGLLDYLLPQFEKDTGYKVDVIAAGTGKALKGENGDVDLVTHAPKAEGTFVEKGYGVLPRKLYNDFVIVGPKADPAKIKDDESVLDVFKEIANKNATFISRGDDSGTHKKEGFWAQTKIEPNFGGYRSVGQGGPTLNASEQGYTSDRGTWLAYQNKLDLEILFQGDEKLFNPYQVILVNPERYPTINYQGAKAFSDWLVNPRGQELINGFRL 3muq-a2-m2-cA_3muq-a2-m2-cB The crystal structure of a conserved functionally unknown protein from Vibrio parahaemolyticus RIMD 2210633 Q87PK2 Q87PK2 2.053 X-RAY DIFFRACTION 86 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 225 225 3muq-a1-m1-cA_3muq-a1-m1-cB 3muq-a2-m1-cA_3muq-a2-m1-cB EHVRLATTTSTYHSGLLDYLLPQFEKDTGYKVDVIAAGTGKALKGENGDVDLVTHAPKAEGTFVEKGYGVLPRKLYNDFVIVGPKADPAKIKDDESVLDVFKEIANKNATFISRGDDSGTHKKEGFWAQTKIEPNFGGYRSVGQGGPTLNASEQGYTSDRGTWLAYQNKLDLEILFQGDEKLFNPYQVILVNPERYPTINYQGAKAFSDWLVNPRGQELINGFRL EHVRLATTTSTYHSGLLDYLLPQFEKDTGYKVDVIAAGTGKALKGENGDVDLVTHAPKAEGTFVEKGYGVLPRKLYNDFVIVGPKADPAKIKDDESVLDVFKEIANKNATFISRGDDSGTHKKEGFWAQTKIEPNFGGYRSVGQGGPTLNASEQGYTSDRGTWLAYQNKLDLEILFQGDEKLFNPYQVILVNPERYPTINYQGAKAFSDWLVNPRGQELINGFRL 3muu-a2-m1-cF_3muu-a2-m1-cE Crystal structure of the Sindbis virus E2-E1 heterodimer at low pH P03316 P03316 3.29 X-RAY DIFFRACTION 49 1.0 11034 (Sindbis virus) 11034 (Sindbis virus) 608 613 3muu-a1-m1-cB_3muu-a1-m1-cA 3muu-a1-m1-cB_3muu-a1-m1-cC 3muu-a1-m1-cC_3muu-a1-m1-cA 3muu-a2-m1-cD_3muu-a2-m1-cE 3muu-a2-m1-cF_3muu-a2-m1-cD 3muw-a1-m10-cX_3muw-a1-m10-cY 3muw-a1-m10-cX_3muw-a1-m10-cZ 3muw-a1-m10-cY_3muw-a1-m10-cZ 3muw-a1-m11-cX_3muw-a1-m11-cY 3muw-a1-m11-cX_3muw-a1-m11-cZ 3muw-a1-m11-cY_3muw-a1-m11-cZ 3muw-a1-m12-cX_3muw-a1-m12-cY 3muw-a1-m12-cX_3muw-a1-m12-cZ 3muw-a1-m12-cY_3muw-a1-m12-cZ 3muw-a1-m13-cX_3muw-a1-m13-cY 3muw-a1-m13-cX_3muw-a1-m13-cZ 3muw-a1-m13-cY_3muw-a1-m13-cZ 3muw-a1-m14-cX_3muw-a1-m14-cY 3muw-a1-m14-cX_3muw-a1-m14-cZ 3muw-a1-m14-cY_3muw-a1-m14-cZ 3muw-a1-m15-cX_3muw-a1-m15-cY 3muw-a1-m15-cX_3muw-a1-m15-cZ 3muw-a1-m15-cY_3muw-a1-m15-cZ 3muw-a1-m16-cX_3muw-a1-m16-cY 3muw-a1-m16-cX_3muw-a1-m16-cZ 3muw-a1-m16-cY_3muw-a1-m16-cZ 3muw-a1-m17-cX_3muw-a1-m17-cY 3muw-a1-m17-cX_3muw-a1-m17-cZ 3muw-a1-m17-cY_3muw-a1-m17-cZ 3muw-a1-m18-cX_3muw-a1-m18-cY 3muw-a1-m18-cX_3muw-a1-m18-cZ 3muw-a1-m18-cY_3muw-a1-m18-cZ 3muw-a1-m19-cX_3muw-a1-m19-cY 3muw-a1-m19-cX_3muw-a1-m19-cZ 3muw-a1-m19-cY_3muw-a1-m19-cZ 3muw-a1-m1-cX_3muw-a1-m1-cY 3muw-a1-m1-cX_3muw-a1-m1-cZ 3muw-a1-m1-cY_3muw-a1-m1-cZ 3muw-a1-m20-cX_3muw-a1-m20-cY 3muw-a1-m20-cX_3muw-a1-m20-cZ 3muw-a1-m20-cY_3muw-a1-m20-cZ 3muw-a1-m21-cX_3muw-a1-m21-cY 3muw-a1-m21-cX_3muw-a1-m21-cZ 3muw-a1-m21-cY_3muw-a1-m21-cZ 3muw-a1-m22-cX_3muw-a1-m22-cY 3muw-a1-m22-cX_3muw-a1-m22-cZ 3muw-a1-m22-cY_3muw-a1-m22-cZ 3muw-a1-m23-cX_3muw-a1-m23-cY 3muw-a1-m23-cX_3muw-a1-m23-cZ 3muw-a1-m23-cY_3muw-a1-m23-cZ 3muw-a1-m24-cX_3muw-a1-m24-cY 3muw-a1-m24-cX_3muw-a1-m24-cZ 3muw-a1-m24-cY_3muw-a1-m24-cZ 3muw-a1-m25-cX_3muw-a1-m25-cY 3muw-a1-m25-cX_3muw-a1-m25-cZ 3muw-a1-m25-cY_3muw-a1-m25-cZ 3muw-a1-m26-cX_3muw-a1-m26-cY 3muw-a1-m26-cX_3muw-a1-m26-cZ 3muw-a1-m26-cY_3muw-a1-m26-cZ 3muw-a1-m27-cX_3muw-a1-m27-cY 3muw-a1-m27-cX_3muw-a1-m27-cZ 3muw-a1-m27-cY_3muw-a1-m27-cZ 3muw-a1-m28-cX_3muw-a1-m28-cY 3muw-a1-m28-cX_3muw-a1-m28-cZ 3muw-a1-m28-cY_3muw-a1-m28-cZ 3muw-a1-m29-cX_3muw-a1-m29-cY 3muw-a1-m29-cX_3muw-a1-m29-cZ 3muw-a1-m29-cY_3muw-a1-m29-cZ 3muw-a1-m2-cX_3muw-a1-m2-cY 3muw-a1-m2-cX_3muw-a1-m2-cZ 3muw-a1-m2-cY_3muw-a1-m2-cZ 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FTLTSPYLGTCSYCHHTVPCFSPVKIEQVWDEADDNTIRIQTSAQFGYDQSGAASANKYRYSLKQDHTVKEGTDDIKISTSGPCRRLSYKGYFLLAKCPPGDSVTVSIVSSNSATSCTLARKIKPKFVGREKYDLPPVHGKKIPCTVYDRLPFKLIPSTCVPVAHAPNVIHGFKHISLQLDTDHLTLLTTRRLGANPEPTTEWIVGKTVRNFTVDRDGLEYIWGNHEPVRVYAQGYEHATTVPNVPQIPYKALVERAGYAPLNLEITVSSEVLPSTNQEYITCKFTTVVPSPKIKCCGSLECQPAAHAGYTCKVFGGVYPFWGGAQCFCDSENSQSEAYVELSADCASDHAQAIKVHTAAKVGLRIVYGNTTSFLDVYVNGVTPGTSKDLKVIAGPISASFTPFDHKVVIHRGLVYNYDFPEYGAKPGAFGDIQATSLTSKDLIASTDIRLLKPSAKNVHVPYTQASSGFEWKNNSGRPLQETAPFGCKIAVNPLRAVDCSYGNIPISIDIPNAAFIRTSDAPLVSTVKCEVSECTYSADFGGATLQYVSDREGQCPVHSHSSTATLQESTVHVLEKGAVTVHFSTASPQANFIVSLCGKKTTCNAEC FTLTSPYLGTCSYCHHTVPCFSPVKIEQVWDEADDNTIRIQTSAQFGYDQSGAASANKYRYSLKQDHTVKEGTDDIKISTSGPCRRLSYKGYFLLAKCPPGDSVTVSIVSSNSATSCTLARKIKPKFVGREKYDLPPVHGKKIPCTVYDRLLHLPFKLIPSTCVPVAHAPNVIHGFKHISLQLDTDHLTLLTTRRLGANPEPTTEWIVGKTVRNFTVDRDGLEYIWGNHEPVRVYAQGGGYEHATTVPNVPQIPYKALVERAGYAPLNLEITVSSEVLPSTNQEYITCKFTTVVPSPKIKCCGSLECQPAAHAGYTCKVFGGVYPFWGGAQCFCDSENSQSEAYVELSADCASDHAQAIKVHTAAKVGLRIVYGNTTSFLDVYVNGVTPGTSKDLKVIAGPISASFTPFDHKVVIHRGLVYNYDFPEYGAKPGAFGDIQATSLTSKDLIASTDIRLLKPSAKNVHVPYTQASSGFEWKNNSGRPLQETAPFGCKIAVNPLRAVDCSYGNIPISIDIPNAAFIRTSDAPLVSTVKCEVSECTYSADFGGATLQYVSDREGQCPVHSHSSTATLQESTVHVLEKGAVTVHFSTASPQANFIVSLCGKKTTCNAEC 3muw-a1-m8-cF_3muw-a1-m9-cF Pseudo-atomic structure of the E2-E1 protein shell in Sindbis virus P03316 P03316 9.0 ELECTRON MICROSCOPY 28 1.0 11034 (Sindbis virus) 11034 (Sindbis virus) 380 380 1ld4-a1-m10-cN_1ld4-a1-m23-cM 1ld4-a1-m10-cP_1ld4-a1-m6-cP 1ld4-a1-m10-cP_1ld4-a1-m9-cP 1ld4-a1-m11-cM_1ld4-a1-m38-cN 1ld4-a1-m11-cN_1ld4-a1-m20-cM 1ld4-a1-m11-cP_1ld4-a1-m12-cP 1ld4-a1-m11-cP_1ld4-a1-m15-cP 1ld4-a1-m12-cM_1ld4-a1-m47-cN 1ld4-a1-m12-cN_1ld4-a1-m37-cM 1ld4-a1-m12-cP_1ld4-a1-m13-cP 1ld4-a1-m13-cM_1ld4-a1-m45-cN 1ld4-a1-m13-cN_1ld4-a1-m46-cM 1ld4-a1-m13-cP_1ld4-a1-m14-cP 1ld4-a1-m14-cM_1ld4-a1-m29-cN 1ld4-a1-m14-cN_1ld4-a1-m44-cM 1ld4-a1-m14-cP_1ld4-a1-m15-cP 1ld4-a1-m15-cM_1ld4-a1-m16-cN 1ld4-a1-m15-cN_1ld4-a1-m28-cM 1ld4-a1-m16-cM_1ld4-a1-m28-cN 1ld4-a1-m16-cP_1ld4-a1-m17-cP 1ld4-a1-m16-cP_1ld4-a1-m20-cP 1ld4-a1-m17-cM_1ld4-a1-m52-cN 1ld4-a1-m17-cN_1ld4-a1-m27-cM 1ld4-a1-m17-cP_1ld4-a1-m18-cP 1ld4-a1-m18-cM_1ld4-a1-m60-cN 1ld4-a1-m18-cN_1ld4-a1-m51-cM 1ld4-a1-m18-cP_1ld4-a1-m19-cP 1ld4-a1-m19-cM_1ld4-a1-m39-cN 1ld4-a1-m19-cN_1ld4-a1-m59-cM 1ld4-a1-m19-cP_1ld4-a1-m20-cP 1ld4-a1-m1-cM_1ld4-a1-m23-cN 1ld4-a1-m1-cN_1ld4-a1-m10-cM 1ld4-a1-m1-cP_1ld4-a1-m2-cP 1ld4-a1-m1-cP_1ld4-a1-m5-cP 1ld4-a1-m20-cN_1ld4-a1-m38-cM 1ld4-a1-m21-cM_1ld4-a1-m43-cN 1ld4-a1-m21-cN_1ld4-a1-m30-cM 1ld4-a1-m21-cP_1ld4-a1-m22-cP 1ld4-a1-m21-cP_1ld4-a1-m25-cP 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1ld4-a1-m35-cM_1ld4-a1-m36-cN 1ld4-a1-m35-cN_1ld4-a1-m48-cM 1ld4-a1-m36-cM_1ld4-a1-m48-cN 1ld4-a1-m36-cP_1ld4-a1-m37-cP 1ld4-a1-m36-cP_1ld4-a1-m40-cP 1ld4-a1-m37-cN_1ld4-a1-m47-cM 1ld4-a1-m37-cP_1ld4-a1-m38-cP 1ld4-a1-m38-cP_1ld4-a1-m39-cP 1ld4-a1-m39-cM_1ld4-a1-m59-cN 1ld4-a1-m39-cP_1ld4-a1-m40-cP 1ld4-a1-m3-cM_1ld4-a1-m50-cN 1ld4-a1-m3-cN_1ld4-a1-m41-cM 1ld4-a1-m3-cP_1ld4-a1-m4-cP 1ld4-a1-m40-cN_1ld4-a1-m58-cM 1ld4-a1-m41-cN_1ld4-a1-m50-cM 1ld4-a1-m41-cP_1ld4-a1-m42-cP 1ld4-a1-m41-cP_1ld4-a1-m45-cP 1ld4-a1-m42-cP_1ld4-a1-m43-cP 1ld4-a1-m43-cP_1ld4-a1-m44-cP 1ld4-a1-m44-cP_1ld4-a1-m45-cP 1ld4-a1-m45-cM_1ld4-a1-m46-cN 1ld4-a1-m46-cP_1ld4-a1-m47-cP 1ld4-a1-m46-cP_1ld4-a1-m50-cP 1ld4-a1-m47-cP_1ld4-a1-m48-cP 1ld4-a1-m48-cP_1ld4-a1-m49-cP 1ld4-a1-m49-cP_1ld4-a1-m50-cP 1ld4-a1-m4-cN_1ld4-a1-m49-cM 1ld4-a1-m4-cP_1ld4-a1-m5-cP 1ld4-a1-m51-cN_1ld4-a1-m60-cM 1ld4-a1-m51-cP_1ld4-a1-m52-cP 1ld4-a1-m51-cP_1ld4-a1-m55-cP 1ld4-a1-m52-cP_1ld4-a1-m53-cP 1ld4-a1-m53-cP_1ld4-a1-m54-cP 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YEHATTVPNVPQIPYKALVERAGYAPLNLEITVMSSEVLPSTNQEYITCKFTTVVPSPKIKCCGSLECQPAAHADYTCKVFGGVYPFMWGGAQCFCDSENSQMSEAYVELSADCASDHAQAIKVHTAAMKVGLRIVYGNTTSFLDVYVNGVTPGTSKDLKVIAGPISASFTPFDHKVVIHRGLVYNYDFPEYGAMKPGAFGDIQATSLTSKDLIASTDIRLLKPSAKNVHVPYTQASSGFEMWKNNSGRPLQETAPFGCKIAVNPLRAVDCSYGNIPISIDIPNAAFIRTSDAPLVSTVKCEVSECTYSADFGGMATLQYVSDREGQCPVHSHSSTATLQESTVHVLEKGAVTVHFSTASPQANFIVSLCGKKTTCNAEC YEHATTVPNVPQIPYKALVERAGYAPLNLEITVMSSEVLPSTNQEYITCKFTTVVPSPKIKCCGSLECQPAAHADYTCKVFGGVYPFMWGGAQCFCDSENSQMSEAYVELSADCASDHAQAIKVHTAAMKVGLRIVYGNTTSFLDVYVNGVTPGTSKDLKVIAGPISASFTPFDHKVVIHRGLVYNYDFPEYGAMKPGAFGDIQATSLTSKDLIASTDIRLLKPSAKNVHVPYTQASSGFEMWKNNSGRPLQETAPFGCKIAVNPLRAVDCSYGNIPISIDIPNAAFIRTSDAPLVSTVKCEVSECTYSADFGGMATLQYVSDREGQCPVHSHSSTATLQESTVHVLEKGAVTVHFSTASPQANFIVSLCGKKTTCNAEC 3mve-a1-m1-cB_3mve-a1-m1-cA Crystal structure of a novel pyruvate decarboxylase Q8DF91 Q8DF91 2.2 X-RAY DIFFRACTION 54 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 395 396 KETSALTQYMPTSQSLLDEIKEKNGFSWYRNLRRLQWVWQGVDPIEQEQVLARIASSKHSRTDEQWLDTVMGYHSGNWAYEWTRLGMEHQKRAGEMTNEAASEALFSASLCYSIAGYPHLKSDNLAIQAQVLANSAYLEAAKKSKYIIKQLEIPFEKGKITAHLHLTNTDKPHPVVIVSAGLDSLQTDMWRLFRDHLAKHDIAMLTVDMPSVGYSSKYPLTEDYSRLHQAVLNELFSIPYVDHHRVGLIGFRFGGNAMVRLSFLEQEKIKACVILGAPIHDIFASPQKLQQMPKMYLDVLASRLGKSVVDIYSLSGQMAAWSLKVQGFLSSRKTKVPILAMSLEGDPVSPYSDNQMVAFFSTYGKAKKISSKTITQGYEQSLDLAIKWLEDELLR AKETSALTQYMPTSQSLLDEIKEKNGFSWYRNLRRLQWVWQGVDPIEQEQVLARIASSKHSRTDEQWLDTVMGYHSGNWAYEWTRLGMEHQKRAGEMTNEAASEALFSASLCYSIAGYPHLKSDNLAIQAQVLANSAYLEAAKKSKYIIKQLEIPFEKGKITAHLHLTNTDKPHPVVIVSAGLDSLQTDMWRLFRDHLAKHDIAMLTVDMPSVGYSSKYPLTEDYSRLHQAVLNELFSIPYVDHHRVGLIGFRFGGNAMVRLSFLEQEKIKACVILGAPIHDIFASPQKLQQMPKMYLDVLASRLGKSVVDIYSLSGQMAAWSLKVQGFLSSRKTKVPILAMSLEGDPVSPYSDNQMVAFFSTYGKAKKISSKTITQGYEQSLDLAIKWLEDELLR 3mvf-a2-m1-cA_3mvf-a2-m2-cA Crystal Structure of Nitrophorin 4 from Rhodnius prolixus Complexed with Nitrite at pH 7.4 Q94734 Q94734 1.4 X-RAY DIFFRACTION 55 1.0 13249 (Rhodnius prolixus) 13249 (Rhodnius prolixus) 184 184 ACTKNAIAQTGFNKDKYFNGDVWYVTDYLDLEPDDVPKRYCAALAAGTASGKLKEALYHYDPKTQDTFYDVSELQVESLGKYTANFKKVDKNGNVKVAVTAGNYYTFTVMYADDSSALIHTCLHKGNKDLGDLYAVLNRNKDAAAGDKVKSAVSAATLEFSKFISTKENNCAYDNDSLKSLLTK ACTKNAIAQTGFNKDKYFNGDVWYVTDYLDLEPDDVPKRYCAALAAGTASGKLKEALYHYDPKTQDTFYDVSELQVESLGKYTANFKKVDKNGNVKVAVTAGNYYTFTVMYADDSSALIHTCLHKGNKDLGDLYAVLNRNKDAAAGDKVKSAVSAATLEFSKFISTKENNCAYDNDSLKSLLTK 3mvg-a1-m1-cB_3mvg-a1-m1-cA Native structure of IRIP, a type I ribosome inactivating protein from Iris hollandica var. at 1.25 A O04358 O04358 1.25 X-RAY DIFFRACTION 85 1.0 35876 (Iris x hollandica) 35876 (Iris x hollandica) 250 251 IETVEFRVTGTTRRSYSDFLQNLRNRLSSGTSVHDIPLLPAQSGSQQDLLFVRLFDWGNRPITLVLNRVNAYVVAYQAQNRFYLLSDTPANPQVYGNNPHRLTFTGSYGALQNVAKSNRENIDLGINPLATAITTLHNWSPPTVETSVARSLIVLIQLVSETARFRAIEQRVTNNIIDQVTPIRYDNFRPRVGIIDLQTNWQTLSTEVQRAEGGRFLQPVKLQVSVQQTVVISDVEKARTFCGLALLLRW IETVEFRVTGTTRRSYSDFLQNLRNRLSSGTSVHDIPLLPAQSGSQQDLLFVRLFDWGNRPITLVLNRVNAYVVAYQAQNRFYLLSDTPANPQVYGNNPHRLTFTGSYGALQNVAKSNRENIDLGINPLATAITTLHNWSPPTVETSVARSLIVLIQLVSETARFRAIEQRVTNNIIDQVTPIRYDNFRPRVGIIDLQTNWQTLSTEVQRAEGGRFLQPVKLQVSVQQTVVISDVEKARTFCGLALLLRWR 3mvk-a1-m1-cF_3mvk-a1-m1-cJ The Crystal Structure of FucU from Bifidobacterium longum to 1.65A B7GNK7 B7GNK7 1.65 X-RAY DIFFRACTION 32 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 137 138 3mvk-a1-m1-cA_3mvk-a1-m1-cB 3mvk-a1-m1-cC_3mvk-a1-m1-cG 3mvk-a1-m1-cD_3mvk-a1-m1-cH 3mvk-a1-m1-cE_3mvk-a1-m1-cI IPKIIPPELLKVLCEGHGDQLVIADGNFPAESIGKNAIVVRDGHGGGEILKAILTVFPLDTYVDKPATLEKVPGDTVATPIWDVYAGLIKEHDERGADAIGSLERFAFYEQAKNAYCVIASGESAQYANLILQKGVV IPKIIPPELLKVLCEGHGDQLVIADGNFPAESIGKNAIVVRDGHGGGEILKAILTVFPLDTYVDKPATLEKVPGDTVATPIWDVYAGLIKEHDERGADAIGSLERFAFYEQAKNAYCVIASGESAQYANLILQKGVVF 3mvk-a1-m1-cH_3mvk-a1-m1-cJ The Crystal Structure of FucU from Bifidobacterium longum to 1.65A B7GNK7 B7GNK7 1.65 X-RAY DIFFRACTION 27 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 138 138 3mvk-a1-m1-cA_3mvk-a1-m1-cG 3mvk-a1-m1-cA_3mvk-a1-m1-cI 3mvk-a1-m1-cB_3mvk-a1-m1-cC 3mvk-a1-m1-cB_3mvk-a1-m1-cE 3mvk-a1-m1-cD_3mvk-a1-m1-cE 3mvk-a1-m1-cD_3mvk-a1-m1-cF 3mvk-a1-m1-cF_3mvk-a1-m1-cC 3mvk-a1-m1-cH_3mvk-a1-m1-cI 3mvk-a1-m1-cJ_3mvk-a1-m1-cG IPKIIPPELLKVLCEGHGDQLVIADGNFPAESIGKNAIVVRDGHGGGEILKAILTVFPLDTYVDKPATLEKVPGDTVATPIWDVYAGLIKEHDERGADAIGSLERFAFYEQAKNAYCVIASGESAQYANLILQKGVVF IPKIIPPELLKVLCEGHGDQLVIADGNFPAESIGKNAIVVRDGHGGGEILKAILTVFPLDTYVDKPATLEKVPGDTVATPIWDVYAGLIKEHDERGADAIGSLERFAFYEQAKNAYCVIASGESAQYANLILQKGVVF 3mvk-a3-m1-cB_3mvk-a3-m1-cG The Crystal Structure of FucU from Bifidobacterium longum to 1.65A B7GNK7 B7GNK7 1.65 X-RAY DIFFRACTION 15 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 137 140 3mvk-a1-m1-cA_3mvk-a1-m1-cE 3mvk-a1-m1-cB_3mvk-a1-m1-cG 3mvk-a1-m1-cC_3mvk-a1-m1-cJ 3mvk-a1-m1-cD_3mvk-a1-m1-cI 3mvk-a1-m1-cF_3mvk-a1-m1-cH 3mvk-a2-m1-cA_3mvk-a2-m1-cE 3mvk-a4-m1-cC_3mvk-a4-m1-cJ 3mvk-a5-m1-cD_3mvk-a5-m1-cI 3mvk-a6-m1-cF_3mvk-a6-m1-cH IPKIIPPELLKVLCEGHGDQLVIADGNFPAESIGKNAIVVRDGHGGGEILKAILTVFPLDTYVDKPATLEKVPGDTVATPIWDVYAGLIKEHDERGADAIGSLERFAFYEQAKNAYCVIASGESAQYANLILQKGVV KGIPKIIPPELLKVLCEGHGDQLVIADGNFPAESIGKNAIVVRDGHGGGEILKAILTVFPLDTYVDKPATLEKVPGDTVATPIWDVYAGLIKEHDERGADAIGSLERFAFYEQAKNAYCVIASGESAQYANLILQKGVVF 3mvp-a1-m1-cB_3mvp-a1-m1-cA The Crystal Structure of a TetR/AcrR transcriptional regulator from Streptococcus mutans to 1.85A Q8DWD0 Q8DWD0 1.85 X-RAY DIFFRACTION 77 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 193 203 SIEKRNKILQVAKDLFSDKTYFNVTTNEIAKKADVSVGTLYAYFASKEDILTALLKRYNDFFLTTIFADINSQDSLDRFKKNPKEWLNVLINQLLAAEDKIFHAQIELAYAIPQAKALLEEHNNNLKNLTYKCLLYYSDQAANPSFKTLSLVVFDFISALVDELLYHEHTQEEAHQIKKTGIDSLDLIIKSYL KNIRKPKQERSIEKRNKILQVAKDLFSDKTYFNVTTNEIAKKADVSVGTLYAYFASKEDILTALLKRYNDFFLTTIFADINSQDSLDRFKKNPKEWLNVLINQLLAAEDKIFHAQIELAYAIPQAKALLEEHNNNLKNLTYKCLLYYSDQAANPSFKTLSLVVFDFISALVDELLYHEHTQEEAHQIKKTGIDSLDLIIKSYL 3mvu-a1-m1-cA_3mvu-a1-m4-cA Crystal structure of a TenA family transcription regulator (TM1040_3656) from SILICIBACTER SP. TM1040 at 1.80 A resolution Q1GL43 Q1GL43 1.8 X-RAY DIFFRACTION 36 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 219 219 3mvu-a1-m2-cA_3mvu-a1-m3-cA SEPYGKAFSLRAEAEPAWRAYTHHAFVEGLKAGTLPREAFLHYLQQDYVFLIHFSRAWALAVVKSETHSELAAVGTVNALVAEEQLHIGICEASGISQEALFATRERAENLAYTRFVLEAGYSGDLLDLLAALAPCVGYGEIGKRLTAEATSTLYGDWIDTYGGDDYQAACKAVGTLLDDALERRLGAEFTSSPRWSRLCQTFHTATELEVGFWQGLTP SEPYGKAFSLRAEAEPAWRAYTHHAFVEGLKAGTLPREAFLHYLQQDYVFLIHFSRAWALAVVKSETHSELAAVGTVNALVAEEQLHIGICEASGISQEALFATRERAENLAYTRFVLEAGYSGDLLDLLAALAPCVGYGEIGKRLTAEATSTLYGDWIDTYGGDDYQAACKAVGTLLDDALERRLGAEFTSSPRWSRLCQTFHTATELEVGFWQGLTP 3mvu-a1-m2-cA_3mvu-a1-m4-cA Crystal structure of a TenA family transcription regulator (TM1040_3656) from SILICIBACTER SP. TM1040 at 1.80 A resolution Q1GL43 Q1GL43 1.8 X-RAY DIFFRACTION 44 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 219 219 3mvu-a1-m1-cA_3mvu-a1-m3-cA SEPYGKAFSLRAEAEPAWRAYTHHAFVEGLKAGTLPREAFLHYLQQDYVFLIHFSRAWALAVVKSETHSELAAVGTVNALVAEEQLHIGICEASGISQEALFATRERAENLAYTRFVLEAGYSGDLLDLLAALAPCVGYGEIGKRLTAEATSTLYGDWIDTYGGDDYQAACKAVGTLLDDALERRLGAEFTSSPRWSRLCQTFHTATELEVGFWQGLTP SEPYGKAFSLRAEAEPAWRAYTHHAFVEGLKAGTLPREAFLHYLQQDYVFLIHFSRAWALAVVKSETHSELAAVGTVNALVAEEQLHIGICEASGISQEALFATRERAENLAYTRFVLEAGYSGDLLDLLAALAPCVGYGEIGKRLTAEATSTLYGDWIDTYGGDDYQAACKAVGTLLDDALERRLGAEFTSSPRWSRLCQTFHTATELEVGFWQGLTP 3mvu-a1-m3-cA_3mvu-a1-m4-cA Crystal structure of a TenA family transcription regulator (TM1040_3656) from SILICIBACTER SP. TM1040 at 1.80 A resolution Q1GL43 Q1GL43 1.8 X-RAY DIFFRACTION 51 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 219 219 3mvu-a1-m1-cA_3mvu-a1-m2-cA SEPYGKAFSLRAEAEPAWRAYTHHAFVEGLKAGTLPREAFLHYLQQDYVFLIHFSRAWALAVVKSETHSELAAVGTVNALVAEEQLHIGICEASGISQEALFATRERAENLAYTRFVLEAGYSGDLLDLLAALAPCVGYGEIGKRLTAEATSTLYGDWIDTYGGDDYQAACKAVGTLLDDALERRLGAEFTSSPRWSRLCQTFHTATELEVGFWQGLTP SEPYGKAFSLRAEAEPAWRAYTHHAFVEGLKAGTLPREAFLHYLQQDYVFLIHFSRAWALAVVKSETHSELAAVGTVNALVAEEQLHIGICEASGISQEALFATRERAENLAYTRFVLEAGYSGDLLDLLAALAPCVGYGEIGKRLTAEATSTLYGDWIDTYGGDDYQAACKAVGTLLDDALERRLGAEFTSSPRWSRLCQTFHTATELEVGFWQGLTP 3mw6-a3-m1-cD_3mw6-a3-m2-cE Crystal structure of NMB1681 from Neisseria meningitidis MC58, a FinO-like RNA chaperone Q9JY98 Q9JY98 2.209 X-RAY DIFFRACTION 10 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 115 116 ATQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQALQ NATQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQALQ 3mw6-a3-m3-cF_3mw6-a3-m1-cD Crystal structure of NMB1681 from Neisseria meningitidis MC58, a FinO-like RNA chaperone Q9JY98 Q9JY98 2.209 X-RAY DIFFRACTION 18 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 113 115 TQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQAL ATQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQALQ 3mw6-a3-m3-cF_3mw6-a3-m2-cE Crystal structure of NMB1681 from Neisseria meningitidis MC58, a FinO-like RNA chaperone Q9JY98 Q9JY98 2.209 X-RAY DIFFRACTION 26 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 113 116 TQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQAL NATQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQALQ 3mw6-a4-m1-cF_3mw6-a4-m1-cE Crystal structure of NMB1681 from Neisseria meningitidis MC58, a FinO-like RNA chaperone Q9JY98 Q9JY98 2.209 X-RAY DIFFRACTION 32 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 113 116 3mw6-a1-m1-cB_3mw6-a1-m1-cA 3mw6-a2-m1-cC_3mw6-a2-m1-cD TQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQAL NATQETALGAALKSAVQTSKKKQTEIADHIYGKYDVFKRFKPLALGIDQDLIAALPQYDAALIARVLANHCRRPRYLKALARGGKRFDLNNRFKGEVTPEEQAIAQNHPFVQQALQ 3mwb-a1-m2-cB_3mwb-a1-m1-cA The Crystal Structure of Prephenate dehydratase in complex with L-Phe from Arthrobacter aurescens to 2.0A A1R118 A1R118 2 X-RAY DIFFRACTION 80 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 299 302 3mwb-a1-m1-cB_3mwb-a1-m2-cA VTYTFLGPQGTFTEAALQVPGAADATRIPCTNVNTALERVRAGEADAAVPIENSVEGGVTATLDAIATGQELRIIREALVPITFVLVARPGVELSDIKRISTHGHAWAQCRLWVDEHLPNADYVPGSSTAASAGLLEDDAPYEAAICAPLIAAEQPGLNVLAEDIGDNPDAVTRFILVSRPGALPERTGADKTTVVVPLPEDHPGALEILDQFASRGVNLSRIESRPTLGHYFFSIDADGHATDSRVADALAGLHRISPATRFLGSYARADKQPAVVAPHTSDAAFASAHAWVDSILKG VTYTFLGPQGTFTEAALQVPGAADATRIPCTNVNTALERVRAGEADAAVPIENSVEGGVTATLDAIATGQELRIIREALVPITFVLVARPGVELSDIKRISTHGHAWAQCRLWVDEHLPNADYVPGSSTAASAGLLEDDAPYEAAICAPLIAAEQPGLNVLAEDIGDNPDAVTRFILVSRPGALPERTGADKTTVVVPLPEDHPGALEILDQFASRGVNLSRIESRPTGQYLGHYFFSIDADGHATDSRVADALAGLHRISPATRFLGSYARADKQPAVVAPHTSDAAFASAHAWVDSILKG 3mwb-a2-m1-cB_3mwb-a2-m1-cA The Crystal Structure of Prephenate dehydratase in complex with L-Phe from Arthrobacter aurescens to 2.0A A1R118 A1R118 2 X-RAY DIFFRACTION 94 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 299 302 3mwb-a1-m1-cB_3mwb-a1-m1-cA 3mwb-a1-m2-cB_3mwb-a1-m2-cA VTYTFLGPQGTFTEAALQVPGAADATRIPCTNVNTALERVRAGEADAAVPIENSVEGGVTATLDAIATGQELRIIREALVPITFVLVARPGVELSDIKRISTHGHAWAQCRLWVDEHLPNADYVPGSSTAASAGLLEDDAPYEAAICAPLIAAEQPGLNVLAEDIGDNPDAVTRFILVSRPGALPERTGADKTTVVVPLPEDHPGALEILDQFASRGVNLSRIESRPTLGHYFFSIDADGHATDSRVADALAGLHRISPATRFLGSYARADKQPAVVAPHTSDAAFASAHAWVDSILKG VTYTFLGPQGTFTEAALQVPGAADATRIPCTNVNTALERVRAGEADAAVPIENSVEGGVTATLDAIATGQELRIIREALVPITFVLVARPGVELSDIKRISTHGHAWAQCRLWVDEHLPNADYVPGSSTAASAGLLEDDAPYEAAICAPLIAAEQPGLNVLAEDIGDNPDAVTRFILVSRPGALPERTGADKTTVVVPLPEDHPGALEILDQFASRGVNLSRIESRPTGQYLGHYFFSIDADGHATDSRVADALAGLHRISPATRFLGSYARADKQPAVVAPHTSDAAFASAHAWVDSILKG 3mwc-a1-m1-cA_3mwc-a1-m2-cA Crystal structure of probable o-succinylbenzoic acid synthetase from kosmotoga olearia C5CFI0 C5CFI0 1.8 X-RAY DIFFRACTION 85 1.0 521045 (Kosmotoga olearia TBF 19.5.1) 521045 (Kosmotoga olearia TBF 19.5.1) 388 388 LTESARIDGVSLYEIVIPMKIPFQISSGTCYTRRSLVVEIREGDLFGYGESAPFEEPFYLGETLETTKVILKNHLLPMILGKEPLSIEEFNHLIKNGIRGNHFARCGVENAYWDLIAKKNKISLKAMIEKKMKNLGVKQEYLASNNYIESGAALGIPEDGRIETLIHQVEESLQEGYRRIKIKIKPGWDVEPLQETRRAVGDHFPLWTDANSSFELDQWETFKAMDAAKCLFHEQPLHYEALLDLKELGERIETPICLDESLISSRVAEFVAKLGISNIWNIKIQRVGGLLEAIKIYKIATDNGIKLWGGTMPESGLGARFLISLASFRGFVFPADVAASEKWYGKGNDLVENTMTDGKIYVPDEPGASFDMTLSHLEALGKKIWESQ LTESARIDGVSLYEIVIPMKIPFQISSGTCYTRRSLVVEIREGDLFGYGESAPFEEPFYLGETLETTKVILKNHLLPMILGKEPLSIEEFNHLIKNGIRGNHFARCGVENAYWDLIAKKNKISLKAMIEKKMKNLGVKQEYLASNNYIESGAALGIPEDGRIETLIHQVEESLQEGYRRIKIKIKPGWDVEPLQETRRAVGDHFPLWTDANSSFELDQWETFKAMDAAKCLFHEQPLHYEALLDLKELGERIETPICLDESLISSRVAEFVAKLGISNIWNIKIQRVGGLLEAIKIYKIATDNGIKLWGGTMPESGLGARFLISLASFRGFVFPADVAASEKWYGKGNDLVENTMTDGKIYVPDEPGASFDMTLSHLEALGKKIWESQ 3mwj-a1-m1-cA_3mwj-a1-m1-cB Q28E mutant of HERA N-terminal RecA-like domain, apo form Q72GF3 Q72GF3 1.4 X-RAY DIFFRACTION 62 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 207 207 3mwk-a1-m1-cA_3mwk-a1-m1-cB 3mwl-a1-m1-cA_3mwl-a1-m1-cB 3nbf-a2-m1-cD_3nbf-a2-m1-cC 4kbg-a3-m1-cA_4kbg-a3-m1-cB MEFKDFPLKPEILEALHGRGLTTPTPIEAAALPLALEGKDLIGQARTGTGKTLAFALPIAERLAPSQERGRKPRALVLTPTRELALQVASELTAVAPHLKVVAVYGGTGYGKQKEALLRGADAVVATPGRALDYLRQGVLDLSRVEVAVLDEADEMLSMGFEEEVEALLSATPPSRQTLLFSATLPSWAKRLAERYMKNPVLINVIK MEFKDFPLKPEILEALHGRGLTTPTPIEAAALPLALEGKDLIGQARTGTGKTLAFALPIAERLAPSQERGRKPRALVLTPTRELALQVASELTAVAPHLKVVAVYGGTGYGKQKEALLRGADAVVATPGRALDYLRQGVLDLSRVEVAVLDEADEMLSMGFEEEVEALLSATPPSRQTLLFSATLPSWAKRLAERYMKNPVLINVIK 3mws-a1-m1-cA_3mws-a1-m1-cB Crystal Structure of Group N HIV-1 Protease Q673V0 Q673V0 1.09 X-RAY DIFFRACTION 140 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 PQITLWQRPVITVKIGKEVREALLDTGADDTVIEEIQLEGKWKPKMIGGIGGFIKVRQYDNVTIDIQGRKAVGTVLVGPTPVNIIGRNFLTQIGATLNF PQITLWQRPVITVKIGKEVREALLDTGADDTVIEEIQLEGKWKPKMIGGIGGFIKVRQYDNVTIDIQGRKAVGTVLVGPTPVNIIGRNFLTQIGATLNF 3mwt-a1-m1-cB_3mwt-a1-m1-cA Crystal structure of Lassa fever virus nucleoprotein in complex with Mn2+ P13699 P13699 1.982 X-RAY DIFFRACTION 45 0.996 11622 (Lassa virus Josiah) 11622 (Lassa virus Josiah) 512 513 3mwp-a1-m1-cA_3mwp-a1-m1-cB 3mx2-a1-m1-cA_3mx2-a1-m1-cB 3r3l-a1-m1-cA_3r3l-a1-m1-cB KSFLWTQSLRRELSGYCSNIKLQVVKDAQALLHGLDFSEVSNVQRLMRKERRDDNDLKRLRDLNQAVNNLVELKSTQQKSILRVGTLTSDDLLILAADLEKLKSKVIRTERPLSAGVYMGNLSSQQLDQRRALLNMIGMSDGVVRVWDVKNAELLNNQFGTMPSLTLACLTKQGQVDLNDAVQALTDLGLIYTAKYPNTSDLDRLTQSHPILNMIDTKSSLNISGYNFSLGAAVKAGACMLDGGNMLETIKVSPQTMDGILKSILKVKKALGMFISDTPGERNPYENILYKICLSGDGWPYIASRTSITGRAWENTVVDGLTYSQLMTLKDAMLQLDPNAKTWMDIEGRPEDPVEIALYQPSSGCYIHFFREPTDLKQFKQDAKYSHGIDVTDLFATQPGLTSAVIDALPRNMVITCQGSDDIRKLLESQGRKDIKLIDIALSKTDSRKYENAVWDQYKDLCHMHTGVVVEKKEEITPHCALMDCIMFDAAVSGGLNTSVLRAVLPRDMVFR IKSFLWTQSLRRELSGYCSNIKLQVVKDAQALLHGLDFSEVSNVQRLMRKERRDDNDLKRLRDLNQAVNNLVELKSTQQKSILRVGTLTSDDLLILAADLEKLKSKVIRTERPLSAGVYMGNLSSQQLDQRRALLNMIGMDGVVRVWDVKNAELLNNQFGTMPSLTLACLTKQGQVDLNDAVQALTDLGLIYTAKYPNTSDLDRLTQSHPILNMIDTKKSSLNISGYNFSLGAAVKAGACMLDGGNMLETIKVSPQTMDGILKSILKVKKALGMFISDTPGERNPYENILYKICLSGDGWPYIASRTSITGRAWENTVVDLGLTYSQLMTLKDAMLQLDPNAKTWMDIEGRPEDPVEIALYQPSSGCYIHFFREPTDLKQFKQDAKYSHGIDVTDLFATQPGLTSAVIDALPRNMVITCQGSDDIRKLLESQGRKDIKLIDIALSKTDSRKYENAVWDQYKDLCHMHTGVVVEKKEEITPHCALMDCIMFDAAVSGGLTSVLRAVLPRDMVFR 3mwy-a2-m1-cW_3mwy-a2-m2-cW Crystal structure of the chromodomain-ATPase portion of the yeast Chd1 chromatin remodeler P32657 P32657 3.7 X-RAY DIFFRACTION 97 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 696 696 DFHGIDIVINHRLKTSKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQNRENSKILPQYSSNYTSQRPRFEKLSVQPPFIKGGELRDFQLTGINWMAFLWSKGDNGILADEMGLGKTVQTVAFISWLIFARRQNGPHIIVVPLSTMPAWLDTFEKWAPDLNCICYMGNQKSRDTIREYEFYTNPKTMKFNVLLTTYEYILKDRAELGSIKWQFMAVDEAHRLKNAESSLYESLNSFKVANRMLITGTPLQNNIKELAALVNFLMPGRFNQDEEQEEYIHDLHRRIQPFILRRLKKDVEKSLPSKTERILRVELSDVQTEYYKNILTKNYSFSLLNIMNELKKASNHPYLFDNAEERVLQKFMTRENVLRGLIMSSGKMVLLDQLLTRLKKDGHRVLIFSQMVRMLDILGDYLSIKGINFQRLDGTVPSAQRRISIDHFNSPDSNDFVFLLSTRAGGLGINLMTADTVVIFDSDWNPQADLQAMARAHRIGQKNHVMVYRLVSKDTVEEEVLERARKKMILEYNEPNAGELSAILKFGAGNMFTATDNQKKLEDLNLDDVLNHAEDHVTTPDLGESHLGGEEFLKQFE DFHGIDIVINHRLKTSKTVPDLNNCKENYEFLIKWTDESHLHNTWETYESIGQVRGLKRLDNYCKQFIIEDQQVRLDPYVTAEDIEIMDMERERRLDEFEEFHVPERIIDSQRASLEDGTSQLQYLVKWRRLNYDEATWENATDIVKLAPEQVKHFQNRENSKILPQYSSNYTSQRPRFEKLSVQPPFIKGGELRDFQLTGINWMAFLWSKGDNGILADEMGLGKTVQTVAFISWLIFARRQNGPHIIVVPLSTMPAWLDTFEKWAPDLNCICYMGNQKSRDTIREYEFYTNPKTMKFNVLLTTYEYILKDRAELGSIKWQFMAVDEAHRLKNAESSLYESLNSFKVANRMLITGTPLQNNIKELAALVNFLMPGRFNQDEEQEEYIHDLHRRIQPFILRRLKKDVEKSLPSKTERILRVELSDVQTEYYKNILTKNYSFSLLNIMNELKKASNHPYLFDNAEERVLQKFMTRENVLRGLIMSSGKMVLLDQLLTRLKKDGHRVLIFSQMVRMLDILGDYLSIKGINFQRLDGTVPSAQRRISIDHFNSPDSNDFVFLLSTRAGGLGINLMTADTVVIFDSDWNPQADLQAMARAHRIGQKNHVMVYRLVSKDTVEEEVLERARKKMILEYNEPNAGELSAILKFGAGNMFTATDNQKKLEDLNLDDVLNHAEDHVTTPDLGESHLGGEEFLKQFE 3mx1-a1-m1-cA_3mx1-a1-m2-cA The structure of GIY-YIG endonuclease R.Eco29kI Q46944 Q46944 2.3 X-RAY DIFFRACTION 103 1.0 562 (Escherichia coli) 562 (Escherichia coli) 208 208 NKKFDRSEHVYRNDSFLELIKDAVRFFSGTPVHSLPPPERFQGAGVYALYYTGHYSLYDEYSRINRLAYNLPIYVGKAVPAGWRQSRISDHETRAGSELSNRIREHGRNIAKTSNLDLCDFSCRFVIFEATGSDMISTVQAALIKIYKPLWNTVVDGFGNHTPGAGRFAQAKSDWDVIHPGREWAEKCTGVHSEPYFIEERIKQYFSK NKKFDRSEHVYRNDSFLELIKDAVRFFSGTPVHSLPPPERFQGAGVYALYYTGHYSLYDEYSRINRLAYNLPIYVGKAVPAGWRQSRISDHETRAGSELSNRIREHGRNIAKTSNLDLCDFSCRFVIFEATGSDMISTVQAALIKIYKPLWNTVVDGFGNHTPGAGRFAQAKSDWDVIHPGREWAEKCTGVHSEPYFIEERIKQYFSK 3mxl-a1-m1-cB_3mxl-a1-m1-cD Crystal structure of nitrososynthase from Micromonospora carbonacea var. africana B5APQ9 B5APQ9 3.15 X-RAY DIFFRACTION 97 0.989 219305 (Micromonospora sp. ATCC 39149) 219305 (Micromonospora sp. ATCC 39149) 370 391 3mxl-a1-m1-cC_3mxl-a1-m1-cA MAADLRAPLTPAGRTVVDLLAGVIPRISAEAADRDRTGTFPVEAFEQFAKLGLMGATVPAELGGLGLTRLYDVATALMRLAEADASTALAWHVQLSRGLTLTYEWQHGTPPVRAMAERLLRAMAEGEAAVCGALKDAPGVVTWLLSGRKVLVSMAPIATHFFVHAQRLAVPVVHRDAPGLTVLDNWDGLGMRASGTLEVVFDRCPVRADELARRDAVLAGQTVSSITMLGIYAGIAQAARDIAVGFCAGRGGEPRAGARALVAGLDTRLYALRTTVGAALTNADAASVDLSGDPDERGRRMMTPFQYAKMTVNELAPAVVDDCLSLVGGLAYTAGHPLSRLYRDVRAGGFMQPYSYVDAVDYLSGQALGL MAADLRAPLTPAGRTVVDLLAGVIPRISAEAADRDRTGTFPVEAFEQFAKLGLMGATVPAELGGLGLTRLYDVATALMRLAEADASTALAWHVQLSRGLTLTYEWQHGTPPVRAMAERLLRAMAEGEAAVCGALKDAPGVVTELHSDGAGGWLLSGRKVLVSMAPIATHFFVHAQRRDDDGSVFLAVPVVHRDAPGLTVLDNWDGLGMRASGTLEVVFDRCPVRALLERGPVGARRDAVLAGQTVSSITMLGIYAGIAQAARDIAVGFCAGRGGEPRAGARALVAGLDTRLYALRTTVGAALTNADAASVDLSDPDERGRRMMTPFQYAKMTVNELAPAVVDDCLSLVGGLAYTAGHPLSRLYRDVRAGGFMQPYSYVDAVDYLSGQALGL 3mxl-a1-m1-cC_3mxl-a1-m1-cD Crystal structure of nitrososynthase from Micromonospora carbonacea var. africana B5APQ9 B5APQ9 3.15 X-RAY DIFFRACTION 127 0.992 219305 (Micromonospora sp. ATCC 39149) 219305 (Micromonospora sp. ATCC 39149) 369 391 3mxl-a1-m1-cB_3mxl-a1-m1-cA MAADLRAPLTPAGRTVVDLLAGVIPRISAEAADRDRTGTFPVEAFEQFAKLGLMGATVPAELGGLGLTRLYDVATALMRLAEADASTALAWHVQLSRGLTLTYEWQHGTPPVRAMAERLLRAMAEGEAAVCGALKDAPGVVTERKVLVSMAPIATHFFVHAQVFLAVPVVHRDAPGLTVLDNWDGLGMRASGTLEVVPVRADELLERGPVARRDAVLAGQTVSSITMLGIYAGIAQAARDIAVGFCAGRGGEPRAGARALVAGLDTRLYALRTTVGAALTNADAASVDLSGDPDERGRRMMTPFQYAKMTVNELAPAVVDDCLSLVGGLAYTAGHPLSRLYRDVRAGGFMQPYSYVDAVDYLSGQALGL MAADLRAPLTPAGRTVVDLLAGVIPRISAEAADRDRTGTFPVEAFEQFAKLGLMGATVPAELGGLGLTRLYDVATALMRLAEADASTALAWHVQLSRGLTLTYEWQHGTPPVRAMAERLLRAMAEGEAAVCGALKDAPGVVTELHSDGAGGWLLSGRKVLVSMAPIATHFFVHAQRRDDDGSVFLAVPVVHRDAPGLTVLDNWDGLGMRASGTLEVVFDRCPVRALLERGPVGARRDAVLAGQTVSSITMLGIYAGIAQAARDIAVGFCAGRGGEPRAGARALVAGLDTRLYALRTTVGAALTNADAASVDLSDPDERGRRMMTPFQYAKMTVNELAPAVVDDCLSLVGGLAYTAGHPLSRLYRDVRAGGFMQPYSYVDAVDYLSGQALGL 3mxl-a1-m1-cD_3mxl-a1-m1-cA Crystal structure of nitrososynthase from Micromonospora carbonacea var. africana B5APQ9 B5APQ9 3.15 X-RAY DIFFRACTION 13 1.0 219305 (Micromonospora sp. ATCC 39149) 219305 (Micromonospora sp. ATCC 39149) 391 394 MAADLRAPLTPAGRTVVDLLAGVIPRISAEAADRDRTGTFPVEAFEQFAKLGLMGATVPAELGGLGLTRLYDVATALMRLAEADASTALAWHVQLSRGLTLTYEWQHGTPPVRAMAERLLRAMAEGEAAVCGALKDAPGVVTELHSDGAGGWLLSGRKVLVSMAPIATHFFVHAQRRDDDGSVFLAVPVVHRDAPGLTVLDNWDGLGMRASGTLEVVFDRCPVRALLERGPVGARRDAVLAGQTVSSITMLGIYAGIAQAARDIAVGFCAGRGGEPRAGARALVAGLDTRLYALRTTVGAALTNADAASVDLSDPDERGRRMMTPFQYAKMTVNELAPAVVDDCLSLVGGLAYTAGHPLSRLYRDVRAGGFMQPYSYVDAVDYLSGQALGL MAADLRAPLTPAGRTVVDLLAGVIPRISAEAADRDRTGTFPVEAFEQFAKLGLMGATVPAELGGLGLTRLYDVATALMRLAEADASTALAWHVQLSRGLTLTYEWQHGTPPVRAMAERLLRAMAEGEAAVCGALKDAPGVVTELHSDGAGGWLLSGRKVLVSMAPIATHFFVHAQRRDDDGSVFLAVPVVHRDAPGLTVLDNWDGLGMRASGTLEVVFDRCPVRADELLERGPVGARRDAVLAGQTVSSITMLGIYAGIAQAARDIAVGFCAGRGGEPRAGARALVAGLDTRLYALRTTVGAALTNADAASVDLSGDPDERGRRMMTPFQYAKMTVNELAPAVVDDCLSLVGGLAYTAGHPLSRLYRDVRAGGFMQPYSYVDAVDYLSGQALGL 3mxq-a1-m1-cD_3mxq-a1-m1-cA Crystal structure of sensory box sensor histidine kinase from Vibrio cholerae Q9KT21 Q9KT21 2.78 X-RAY DIFFRACTION 27 0.982 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 114 123 LYFQSNAAKSRLLLSELLDQLSFALCIVRNDYVIVKVNEYFESRVIGETQGKNILELFPESADYLKRKIDTALVIESSSFSSEQKPHLYQNLEVIPIHSEDGTIEHVCLCVYDV FQSNAAKSRLLLSELLDQLSFALCIVRNDYVIVKVNEYFESRVIFDGETQGKNILELFPESADYLKRKIDTALVIESSSFSSWEQKPHLLPFEQYQNLEVIPIHSEDGTIEHVCLCVYDVTIQ 3mxq-a1-m1-cD_3mxq-a1-m1-cC Crystal structure of sensory box sensor histidine kinase from Vibrio cholerae Q9KT21 Q9KT21 2.78 X-RAY DIFFRACTION 73 0.982 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 114 122 LYFQSNAAKSRLLLSELLDQLSFALCIVRNDYVIVKVNEYFESRVIGETQGKNILELFPESADYLKRKIDTALVIESSSFSSEQKPHLYQNLEVIPIHSEDGTIEHVCLCVYDV FQSNAAKSRLLLSELLDQLSFALCIVRNDYVIVKVNEYFESRVIFDGETQGKNILELFPESADYLKRKIDTALVIESSSFSSWEQKPHLLPFKQYQNLEVIPIHSEDGTIEHVCLCVYDVTI 3mxt-a1-m1-cA_3mxt-a1-m2-cA Crystal Structure of Pantoate-Beta-alanine Ligase from Campylobacter jejuni Q9PIK2 Q9PIK2 1.85 X-RAY DIFFRACTION 72 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 272 272 3uy4-a1-m1-cA_3uy4-a1-m2-cA AQVITSVKEAKQIVKDWKSHQLSIGYVPTGFLHDGHLSLVKHAKTQDKVIVSIFVNPQFGPNEDFSSYPRDLERDIKCQDNGVDVFIPDATQYLKNFSTYVDNTITDKLCGAKRPGHFRGVCTVLTKFFNILNPDIVYGQKDAQQCVVVRHVDDLNFDLKIQICPIIREEDGLAKSSRNVYLSKEERKASLAISQSIFLAEKLVREGEKNTSKIIQAKDILEKEKLIKIDYIELVDFNTENIENITDNVLGAVAAFVGKTRLIDNFLVQGLK AQVITSVKEAKQIVKDWKSHQLSIGYVPTGFLHDGHLSLVKHAKTQDKVIVSIFVNPQFGPNEDFSSYPRDLERDIKCQDNGVDVFIPDATQYLKNFSTYVDNTITDKLCGAKRPGHFRGVCTVLTKFFNILNPDIVYGQKDAQQCVVVRHVDDLNFDLKIQICPIIREEDGLAKSSRNVYLSKEERKASLAISQSIFLAEKLVREGEKNTSKIIQAKDILEKEKLIKIDYIELVDFNTENIENITDNVLGAVAAFVGKTRLIDNFLVQGLK 3mxu-a2-m2-cA_3mxu-a2-m3-cA Crystal structure of glycine cleavage system protein H from Bartonella henselae Q6G2F0 Q6G2F0 1.8 X-RAY DIFFRACTION 29 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 134 134 3mxu-a2-m1-cA_3mxu-a2-m2-cA 3mxu-a2-m1-cA_3mxu-a2-m3-cA MGTLEAQTQGPGSMSKTYFTQDHEWLSVEGQVVTVGITDYAQEQLGDLVFIDLPQNGTKLSKGDAAAVVESVKAASDVYAPLDGEVVEINAALAESPELVNQKAETEGWLWKMTVQDETQLERLLDEAAYKELI MGTLEAQTQGPGSMSKTYFTQDHEWLSVEGQVVTVGITDYAQEQLGDLVFIDLPQNGTKLSKGDAAAVVESVKAASDVYAPLDGEVVEINAALAESPELVNQKAETEGWLWKMTVQDETQLERLLDEAAYKELI 3my2-a2-m1-cA_3my2-a2-m2-cA Crystal structure of LptC P0ADV9 P0ADV9 2.2 X-RAY DIFFRACTION 42 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 124 124 4b54-a1-m1-cA_4b54-a1-m1-cB SYRLIAQHVEYYSDQAVSWFTQPVLTTFDKDKIPTWSVKADKAKLTNDRLYLYGHVEVNALVPDSQLRRITTDNAQINLVTQDVTSEDLVTLYGTTFNSSGLKRGNLRSKNAELIEKVRTSYEI SYRLIAQHVEYYSDQAVSWFTQPVLTTFDKDKIPTWSVKADKAKLTNDRLYLYGHVEVNALVPDSQLRRITTDNAQINLVTQDVTSEDLVTLYGTTFNSSGLKRGNLRSKNAELIEKVRTSYEI 3my7-a2-m1-cB_3my7-a2-m1-cC The Crystal Structure of the ACDH domain of an Alcohol Dehydrogenase from Vibrio parahaemolyticus to 2.25A Q87MW0 Q87MW0 2.3 X-RAY DIFFRACTION 82 0.995 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 404 405 PVTNAELDAIARVKKAQEEFATYSQEQVDKIFRAASLAANQARIPLAQQAVEESGGIVEDKVIKNHFASEFIYNKYKDEQTCGILEEDDNLGTTIAEPVGIICGIVPTTNPTSTAIFKSLISLKTRNGIIFSPHPRAKNSTNDAAKLVLDAAVAAGAPKDIIGWIDQPSVELSNALKHDDIALILATGGPGVKAAYSSGKPAIGVGNVPVVIDETADIKRAVASVLSKTFDNGVVCASEQAVIVVDEVYDEVKERFASHKAHVLSKTDADKVRKVLLIALNAKIVGQPATAIAEAGVKVPADTKVLIGEGLGKVSYDDAFAHEKLSPTLGFRADNFEDAVAQAVTVEIGGIGHTSGLYTNQDVNADRIRYFGDKKTARILINIPTTHNVGPKHLINKKTVAKRA PVTNAELDAIARVKKAQEEFATYSQEQVDKIFRAASLAANQARIPLAQQAVEESGGIVEDKVIKNHFASEFIYNKYKDEQTCGILEEDDGTTIAEPVGIICGIVPTTNPTSTAIFKSLISLKTRNGIIFSPHPRAKNSTNDAAKLVLDAAVAAGAPKDIIGWIDQPSVELSNALKHDDIALILATGGPGVKAAYSSGKPAIGVGAGNVPVVIDETADIKRAVASVLSKTFDNGVVCASEQAVIVVDEVYDEVKERFASHKAHVLSKTDADKVRKVLLIALNAKIVGQPATAIAEAGVKVPADTKVLIGEGLGKVSYDDAFAHEKLSPTLGFRADNFEDAVAQAVTVEIGGIGHTSGLYTNQDVNADRIRYFGDKKTARILINIPTTHENVGPKHLINKKTVAKRA 3my9-a1-m4-cA_3my9-a1-m8-cA Crystal structure of a muconate cycloisomerase from Azorhizobium caulinodans A8HTB8 A8HTB8 2.2 X-RAY DIFFRACTION 22 1.0 438753 (Azorhizobium caulinodans ORS 571) 438753 (Azorhizobium caulinodans ORS 571) 357 357 3my9-a1-m1-cA_3my9-a1-m6-cA 3my9-a1-m2-cA_3my9-a1-m5-cA 3my9-a1-m3-cA_3my9-a1-m7-cA SWDSVVERIRIFLVESPIKMGSVKRVLLEVTSADGIVGWGEAAPWTPEAAFSALDIYLRPLILGAPIKRVRELMARMDKMLVGHGEAKAAVEMALLDILGKATGLSVADLLGGRVRDRIPLSFSIADPDFDADLERMRAMVPAGHTVFKMKTGVKPHAEELRILETMRGEFGERIDLRLDFNQALTPFGAMKILRDVDAFRPTFIEQPVPRRHLDAMAGFAAALDTPILADESCFDAVDLMEVVRRQAADAISVKIMKCGGLMKAQSLMAIADTAGLPGYGGTLWEGGIALAAGTQLIAATPGISLGCEFYMPHHVLTEDVLEERIANSAGHVIVPDGPGLGISISEASLRGNAKIL SWDSVVERIRIFLVESPIKMGSVKRVLLEVTSADGIVGWGEAAPWTPEAAFSALDIYLRPLILGAPIKRVRELMARMDKMLVGHGEAKAAVEMALLDILGKATGLSVADLLGGRVRDRIPLSFSIADPDFDADLERMRAMVPAGHTVFKMKTGVKPHAEELRILETMRGEFGERIDLRLDFNQALTPFGAMKILRDVDAFRPTFIEQPVPRRHLDAMAGFAAALDTPILADESCFDAVDLMEVVRRQAADAISVKIMKCGGLMKAQSLMAIADTAGLPGYGGTLWEGGIALAAGTQLIAATPGISLGCEFYMPHHVLTEDVLEERIANSAGHVIVPDGPGLGISISEASLRGNAKIL 3my9-a1-m6-cA_3my9-a1-m8-cA Crystal structure of a muconate cycloisomerase from Azorhizobium caulinodans A8HTB8 A8HTB8 2.2 X-RAY DIFFRACTION 24 1.0 438753 (Azorhizobium caulinodans ORS 571) 438753 (Azorhizobium caulinodans ORS 571) 357 357 3my9-a1-m1-cA_3my9-a1-m3-cA 3my9-a1-m1-cA_3my9-a1-m4-cA 3my9-a1-m2-cA_3my9-a1-m3-cA 3my9-a1-m2-cA_3my9-a1-m4-cA 3my9-a1-m5-cA_3my9-a1-m7-cA 3my9-a1-m5-cA_3my9-a1-m8-cA 3my9-a1-m6-cA_3my9-a1-m7-cA SWDSVVERIRIFLVESPIKMGSVKRVLLEVTSADGIVGWGEAAPWTPEAAFSALDIYLRPLILGAPIKRVRELMARMDKMLVGHGEAKAAVEMALLDILGKATGLSVADLLGGRVRDRIPLSFSIADPDFDADLERMRAMVPAGHTVFKMKTGVKPHAEELRILETMRGEFGERIDLRLDFNQALTPFGAMKILRDVDAFRPTFIEQPVPRRHLDAMAGFAAALDTPILADESCFDAVDLMEVVRRQAADAISVKIMKCGGLMKAQSLMAIADTAGLPGYGGTLWEGGIALAAGTQLIAATPGISLGCEFYMPHHVLTEDVLEERIANSAGHVIVPDGPGLGISISEASLRGNAKIL SWDSVVERIRIFLVESPIKMGSVKRVLLEVTSADGIVGWGEAAPWTPEAAFSALDIYLRPLILGAPIKRVRELMARMDKMLVGHGEAKAAVEMALLDILGKATGLSVADLLGGRVRDRIPLSFSIADPDFDADLERMRAMVPAGHTVFKMKTGVKPHAEELRILETMRGEFGERIDLRLDFNQALTPFGAMKILRDVDAFRPTFIEQPVPRRHLDAMAGFAAALDTPILADESCFDAVDLMEVVRRQAADAISVKIMKCGGLMKAQSLMAIADTAGLPGYGGTLWEGGIALAAGTQLIAATPGISLGCEFYMPHHVLTEDVLEERIANSAGHVIVPDGPGLGISISEASLRGNAKIL 3my9-a2-m1-cA_3my9-a2-m7-cA Crystal structure of a muconate cycloisomerase from Azorhizobium caulinodans A8HTB8 A8HTB8 2.2 X-RAY DIFFRACTION 94 1.0 438753 (Azorhizobium caulinodans ORS 571) 438753 (Azorhizobium caulinodans ORS 571) 357 357 3my9-a1-m1-cA_3my9-a1-m7-cA 3my9-a1-m2-cA_3my9-a1-m8-cA 3my9-a1-m3-cA_3my9-a1-m5-cA 3my9-a1-m4-cA_3my9-a1-m6-cA SWDSVVERIRIFLVESPIKMGSVKRVLLEVTSADGIVGWGEAAPWTPEAAFSALDIYLRPLILGAPIKRVRELMARMDKMLVGHGEAKAAVEMALLDILGKATGLSVADLLGGRVRDRIPLSFSIADPDFDADLERMRAMVPAGHTVFKMKTGVKPHAEELRILETMRGEFGERIDLRLDFNQALTPFGAMKILRDVDAFRPTFIEQPVPRRHLDAMAGFAAALDTPILADESCFDAVDLMEVVRRQAADAISVKIMKCGGLMKAQSLMAIADTAGLPGYGGTLWEGGIALAAGTQLIAATPGISLGCEFYMPHHVLTEDVLEERIANSAGHVIVPDGPGLGISISEASLRGNAKIL SWDSVVERIRIFLVESPIKMGSVKRVLLEVTSADGIVGWGEAAPWTPEAAFSALDIYLRPLILGAPIKRVRELMARMDKMLVGHGEAKAAVEMALLDILGKATGLSVADLLGGRVRDRIPLSFSIADPDFDADLERMRAMVPAGHTVFKMKTGVKPHAEELRILETMRGEFGERIDLRLDFNQALTPFGAMKILRDVDAFRPTFIEQPVPRRHLDAMAGFAAALDTPILADESCFDAVDLMEVVRRQAADAISVKIMKCGGLMKAQSLMAIADTAGLPGYGGTLWEGGIALAAGTQLIAATPGISLGCEFYMPHHVLTEDVLEERIANSAGHVIVPDGPGLGISISEASLRGNAKIL 3myb-a1-m1-cB_3myb-a1-m1-cC Crystal structure of enoyl-coa hydratase mycobacterium smegmatis A0QST4 A0QST4 1.55 X-RAY DIFFRACTION 140 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 257 259 3myb-a1-m1-cA_3myb-a1-m1-cC 3myb-a1-m1-cB_3myb-a1-m1-cA EPLLLQDRDERGVVTLTLNRPQAFNALSEAMLAALGEAFGTLAEDESVRAVVLAASGKAFCAGHDLKEMRAEPSREYYEKLFARCTDVMLAIQRLPAPVIARVHGIATAAGCQLVAMCDLAVATRDARFAVSGINVGLFCSTPGVALSRNVGRKAAFEMLVTGEFVSADDAKGLGLVNRVVAPKALDDEIEAMVSKIVAKPRAAVAMGKALFYRQIETDIESAYADAGTTMACNMMDPSALEGVSAFLEKRRPEWHT EPLLLQDRDERGVVTLTLNRPQAFNALSEAMLAALGEAFGTLAEDESVRAVVLAASGKAFCAGHDLKEMRAEPSREYYEKLFARCTDVMLAIQRLPAPVIARVHGIATAAGCQLVAMCDLAVATRDARFAVSGINVGLFCSTPGVALSRNVGRKAAFEMLVTGEFVSADDAKGLGLVNRVVAPKALDDEIEAMVSKIVAKPRAAVAMGKALFYRQIETDIESAYADAGTTMACNMMDPSALEGVSAFLEKRRPEWHTPQ 3myf-a3-m1-cC_3myf-a3-m1-cA The Crystal Structure of the HPT domain from the Hpt Sensor Hybrid Histidine Kinase from Shewanella to 1.80A 1.8 X-RAY DIFFRACTION 18 1.0 351745 (Shewanella sp. W3-18-1) 351745 (Shewanella sp. W3-18-1) 111 114 DLHTLNWDLCLTQANHKSNLALELKLLDSLPETVEKIQTALGQNDQATLSTIHKLHGASCYCGVPTTQRLCQEIESALKRQTPVEDLEPEILELLDELTKVESAVKQVLSQ DLHTLNWDLCLTQANHKSNLALELKLLDSLPETVEKIQTALGQNDQATLSTIHKLHGASCYCGVPTTQRLCQEIESALKRQTPVEDLEPEILELLDELTKVESAVKQVLSQLSA 3myf-a3-m1-cC_3myf-a3-m1-cD The Crystal Structure of the HPT domain from the Hpt Sensor Hybrid Histidine Kinase from Shewanella to 1.80A 1.8 X-RAY DIFFRACTION 36 1.0 351745 (Shewanella sp. W3-18-1) 351745 (Shewanella sp. W3-18-1) 111 113 3myf-a1-m1-cB_3myf-a1-m1-cA 3myf-a2-m1-cC_3myf-a2-m1-cD 3myf-a3-m1-cB_3myf-a3-m1-cA DLHTLNWDLCLTQANHKSNLALELKLLDSLPETVEKIQTALGQNDQATLSTIHKLHGASCYCGVPTTQRLCQEIESALKRQTPVEDLEPEILELLDELTKVESAVKQVLSQ DLHTLNWDLCLTQANHKSNLALELKLLDSLPETVEKIQTALGQNDQATLSTIHKLHGASCYCGVPTTQRLCQEIESALKRQTPVEDLEPEILELLDELTKVESAVKQVLSQLS 3myo-a1-m1-cA_3myo-a1-m1-cB Crystal structure of tagatose-1,6-bisphosphate aldolase from Streptococcus pyogenes P63703 P63703 2.5 X-RAY DIFFRACTION 61 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 328 328 TITANKRHYLEKVSHQGIISALAFDQRGALKQMMAAHQEGEATVTQIETLKVLVSEELTPYASSILLDPEYGLLATKVRANQTGLLLAYEKTGYDATTTSRLPDCLVEWSVKRLKAAGADAIKFLLYYDVDGDEQINLQKQAYIERIGSECTAEDIPFFLELLSYDERISDNNSAAYAKLKPHKVNGAMSVFSDKRFGVDVLKVEVPVNMAYVEGFTEGEVHYSQAEAIKAFQDQEAASHLPYIYLSAGVSAKLFQETLYFAAAAGAQFSGVLCGRATWAGSVPVYITKGEDEARKWLCTEGFQNIDELNRVLEETASPWTEKILEHH TITANKRHYLEKVSHQGIISALAFDQRGALKQMMAAHQEGEATVTQIETLKVLVSEELTPYASSILLDPEYGLLATKVRANQTGLLLAYEKTGYDATTTSRLPDCLVEWSVKRLKAAGADAIKFLLYYDVDGDEQINLQKQAYIERIGSECTAEDIPFFLELLSYDERISDNNSAAYAKLKPHKVNGAMSVFSDKRFGVDVLKVEVPVNMAYVEGFTEGEVHYSQAEAIKAFQDQEAASHLPYIYLSAGVSAKLFQETLYFAAAAGAQFSGVLCGRATWAGSVPVYITKGEDEARKWLCTEGFQNIDELNRVLEETASPWTEKILEHH 3myp-a2-m1-cB_3myp-a2-m1-cD Crystal structure of tagatose-1,6-bisphosphate aldolase from Staphylococcus aureus Q5HE13 Q5HE13 2.99 X-RAY DIFFRACTION 66 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 317 317 3kao-a1-m1-cA_3kao-a1-m2-cA 3myp-a1-m1-cA_3myp-a1-m1-cC SNQKIASIEQLSNNEGIISALAFDQRGALKRAKHQTEEPTVAQIEQLKVLVAEELTQYASSILLDPEYGLPASDARNKDCGLLLAYEKTGYDVNAKGRLPDCLVEWSAKRLKEQGANAVKFLLYYDVDDAEEINIQKKAYIERIGSECVAEDIPFFLEVLTYDDNIPDNGSVEFAKVKPRKVNEAKLFSEPRFNVDVLKVEVPVNKYVEGFAEGEVVYTKEEAAQHFKDQDAATHLPYIYLSAGVSAELFQETLKFAHEAGAKFNGVLCGRATWSGAVQVYIEQGEDAAREWLRTTGFKNIDDLNKVLKDTATSWKQ SNQKIASIEQLSNNEGIISALAFDQRGALKRAKHQTEEPTVAQIEQLKVLVAEELTQYASSILLDPEYGLPASDARNKDCGLLLAYEKTGYDVNAKGRLPDCLVEWSAKRLKEQGANAVKFLLYYDVDDAEEINIQKKAYIERIGSECVAEDIPFFLEVLTYDDNIPDNGSVEFAKVKPRKVNEAKLFSEPRFNVDVLKVEVPVNKYVEGFAEGEVVYTKEEAAQHFKDQDAATHLPYIYLSAGVSAELFQETLKFAHEAGAKFNGVLCGRATWSGAVQVYIEQGEDAAREWLRTTGFKNIDDLNKVLKDTATSWKQ 3myr-a6-m1-cE_3myr-a6-m1-cG Crystal structure of [NiFe] hydrogenase from Allochromatium vinosum in its Ni-A state D3RV29 D3RV29 2.1 X-RAY DIFFRACTION 28 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 268 268 3myr-a5-m1-cA_3myr-a5-m1-cC ARRPSVIWLSFQECTGCTESLTRAHAPTLEDLILDFISLDYHHTLQAASGEAAEAARLQAMDENRGQYLVIVDGSIPGPDANPGFSTVAGHSNYSILMETVEHAAAVIAVGTCAAFGGLPQARPNPTGAMSVMDLVRDKPVINVPGCPPIPMVITGVIAHYLVFGRLPELDGYGRPLAFYGQSIHDRCYRRPFYDKGLFAESFDDEGAKQGWCLYRLGCKGPTTYNACATMKWNDGTSWPVEAGHPCLGCSEPQFWDAGGFYEPVSVP ARRPSVIWLSFQECTGCTESLTRAHAPTLEDLILDFISLDYHHTLQAASGEAAEAARLQAMDENRGQYLVIVDGSIPGPDANPGFSTVAGHSNYSILMETVEHAAAVIAVGTCAAFGGLPQARPNPTGAMSVMDLVRDKPVINVPGCPPIPMVITGVIAHYLVFGRLPELDGYGRPLAFYGQSIHDRCYRRPFYDKGLFAESFDDEGAKQGWCLYRLGCKGPTTYNACATMKWNDGTSWPVEAGHPCLGCSEPQFWDAGGFYEPVSVP 3myr-a6-m1-cH_3myr-a6-m1-cF Crystal structure of [NiFe] hydrogenase from Allochromatium vinosum in its Ni-A state D3RV26 D3RV26 2.1 X-RAY DIFFRACTION 46 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 559 561 3myr-a5-m1-cB_3myr-a5-m1-cD ERIVVDPITRIEGHLRIEAQMDGATIAQAYSSGTMVRGIETILKGRDPRDAWAFVQRICGVCTLVHGIASVRAVEDALRIELPLNAQLIRNLMIGAQYIHDHVMHFYHLHALDWVDVVSALSADPRATSELAQSISAWPKSSPGYFADTQKRIKTFVESGQLGIFANGYWGHPAYRLPPEANLMAVAHYLEALAWQRDTAKFHAIFGGKNPHPNFVVGGVPSPIDLDSDSALNAKRLAEVRNLIQSMRTFVDQVYVPDTLAIAGFYKDWGERGEGLGNFLCYGDLPTGASLDPATFLFPRGAILDRDLSTIHEVDLEATGEIQEFVNHSWYEYSVGNDRGLHPYEGQTNLEYDRRGGVAPPYKQLDVSDGYSWLKAPRWKGRSVEVGPLARVLMLYATGHDQARELVDSTLSRLDLPVDALYSTLGRTAARALESKILVDAMQGWYDGLIANVKSGDTKTFNETLWEPSSWPSRAQGVGIMEAPRGALGHWIVIEDGRIANYQAVVPSTWNAGPRDGRGQAGAYEAALQDNHQLVDVKQPIEILRTIHSFDPCIACAVH MSERIVVDPITRIEGHLRIEAQMDGATIAQAYSSGTMVRGIETILKGRDPRDAWAFVQRICGVCTLVHGIASVRAVEDALRIELPLNAQLIRNLMIGAQYIHDHVMHFYHLHALDWVDVVSALSADPRATSELAQSISAWPKSSPGYFADTQKRIKTFVESGQLGIFANGYWGHPAYRLPPEANLMAVAHYLEALAWQRDTAKFHAIFGGKNPHPNFVVGGVPSPIDLDSDSALNAKRLAEVRNLIQSMRTFVDQVYVPDTLAIAGFYKDWGERGEGLGNFLCYGDLPTGASLDPATFLFPRGAILDRDLSTIHEVDLEATGEIQEFVNHSWYEYSVGNDRGLHPYEGQTNLEYDRRGGVAPPYKQLDVSDGYSWLKAPRWKGRSVEVGPLARVLMLYATGHDQARELVDSTLSRLDLPVDALYSTLGRTAARALESKILVDAMQGWYDGLIANVKSGDTKTFNETLWEPSSWPSRAQGVGIMEAPRGALGHWIVIEDGRIANYQAVVPSTWNAGPRDGRGQAGAYEAALQDNHQLVDVKQPIEILRTIHSFDPCIACAVH 3myt-a3-m1-cB_3myt-a3-m2-cB Crystal structure of Ketosteroid Isomerase D38HD99N from Pseudomonas testosteroni (tKSI) P00947 P00947 1.961 X-RAY DIFFRACTION 32 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 125 125 3mki-a3-m1-cB_3mki-a3-m2-cB MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEHPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEHPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA 3myt-a3-m1-cD_3myt-a3-m2-cD Crystal structure of Ketosteroid Isomerase D38HD99N from Pseudomonas testosteroni (tKSI) P00947 P00947 1.961 X-RAY DIFFRACTION 41 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 124 124 3mki-a3-m1-cA_3mki-a3-m2-cA MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEHPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAG MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEHPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAG 3myt-a4-m1-cB_3myt-a4-m2-cC Crystal structure of Ketosteroid Isomerase D38HD99N from Pseudomonas testosteroni (tKSI) P00947 P00947 1.961 X-RAY DIFFRACTION 23 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 125 125 3mki-a3-m1-cB_3mki-a3-m1-cD 3mki-a3-m2-cB_3mki-a3-m2-cD 3myt-a3-m1-cB_3myt-a3-m2-cC 3myt-a3-m1-cC_3myt-a3-m2-cB MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEHPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVEHPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA 3myw-a1-m1-cB_3myw-a1-m1-cA The Bowman-Birk type inhibitor from mung bean in ternary complex with porcine trypsin P00761 P00761 2.5 X-RAY DIFFRACTION 10 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 223 223 1uhb-a1-m1-cP_1uhb-a1-m1-cB IVGGYTCAANSVPYQVSLNSGSHFCGGSLINSQWVVSAAHCYKSRIQVRLGEHNIDVLEGNEQFINAAKIITHPNFNGNTLDNDIMLIKLSSPATLNSRVATVSLPRSCAAAGTECLISGWGNTKSSGSSYPSLLQCLKAPVLSDSSCKSAYPGQITGNMICVGFLEGGKDSCQGDSGGPVVCNGQLQGIVSWGYGCAQKNKPGVYTKVCNYVNWIQQTIAAN IVGGYTCAANSVPYQVSLNSGSHFCGGSLINSQWVVSAAHCYKSRIQVRLGEHNIDVLEGNEQFINAAKIITHPNFNGNTLDNDIMLIKLSSPATLNSRVATVSLPRSCAAAGTECLISGWGNTKSSGSSYPSLLQCLKAPVLSDSSCKSAYPGQITGNMICVGFLEGGKDSCQGDSGGPVVCNGQLQGIVSWGYGCAQKNKPGVYTKVCNYVNWIQQTIAAN 3myy-a1-m1-cA_3myy-a1-m1-cB Structure of E. Coli CheY mutant A113P bound to Beryllium fluoride P0AE67 P0AE67 2.1 X-RAY DIFFRACTION 30 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 128 128 ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTPATLEEKLNKIFEKLGM ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVTAEAKKENIIAAAQAGASGYVVKPFTPATLEEKLNKIFEKLGM 3mz1-a2-m1-cC_3mz1-a2-m1-cD The crystal structure of a possible TRANSCRIPTION REGULATOR PROTEIN from Sinorhizobium meliloti 1021 Q92SG7 Q92SG7 1.88 X-RAY DIFFRACTION 106 0.995 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 197 205 3mz1-a1-m1-cA_3mz1-a1-m1-cB LPKGRLRVETASAFANLVIIPALPEFHKKYPDIQIDLGVSDRYLAENVDCAIRAGTSLIARRITEKFVACASRDFLERHPVPQHPSDLEKNCYVVGYFLPKQQPFHFRRGNEEIEVSGRYTAANESTTYLAAARAGLGVIQAPLFVREDLRNGTVPVLPDWQVEPPIYLVYPPNRHLSSRLRVFADWVVKVAQSQNG LPKGRLRVETASAFANLVIIPALPEFHKKYPDIQIDLGVSDRTIDYLAENVDCAIRAGTLTDQSLIARRITEKFVACASRDFLERHPVPQHPSDLEKNCYVVGYFLPKTGQQPFHFRRGNEEIEVSGRYTAANESTTYLAAARAGLGVIQAPLFVREDLRNGTVPVLPDWQVEPPIYLVYPPNRHLSSRLRVFADWVVKVAQSQN 3mz2-a1-m1-cA_3mz2-a1-m1-cB Crystal structure of a Glycerophosphoryl diester phosphodiesterase (BDI_3922) from Parabacteroides distasonis ATCC 8503 at 1.55 A resolution A6LIT8 A6LIT8 1.55 X-RAY DIFFRACTION 33 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 274 274 GNTLQISNVDDLISFYQYADDRIPLISGHRGGRGKGYPENSETFENTLSYTPATFEIDPRLTKDSVIVLFHDDTLERTSNGTGKVSDYTWEELQNFRLKDPEGNITNYRIPTLEEAIRWARGKTILILDKKDVPERTAQLITDQAEPYVITVHDGASARFFYEKNPNFFEAFVKTKEAVQDYEDNGIPWSHIAYVGPKITPEVREVIDLHERGVCISTAPSDDKLSTPESRAEAYRIIRQGVDIIESDRPIEVAEAISSLIPVSSSKGKFFSTL GNTLQISNVDDLISFYQYADDRIPLISGHRGGRGKGYPENSETFENTLSYTPATFEIDPRLTKDSVIVLFHDDTLERTSNGTGKVSDYTWEELQNFRLKDPEGNITNYRIPTLEEAIRWARGKTILILDKKDVPERTAQLITDQAEPYVITVHDGASARFFYEKNPNFFEAFVKTKEAVQDYEDNGIPWSHIAYVGPKITPEVREVIDLHERGVCISTAPSDDKLSTPESRAEAYRIIRQGVDIIESDRPIEVAEAISSLIPVSSSKGKFFSTL 3mzk-a1-m1-cC_3mzk-a1-m1-cB Sec13/Sec16 complex, S.cerevisiae P48415 P48415 2.69 X-RAY DIFFRACTION 139 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 381 385 RRQFPIFHWSAANKVVYAVPPIVQEIKVTPIDQIIKPNDMLKSFPGPLGSAKLKKKDLTKWMETTIKSISENESSTDMTIWQLLEMKLNDKVNWKNISKLLYNSDELLMYLSQPFPNGDMIPNAYRLDINCQMRVLAFLQTGNHDEALRLALSKRDYAIALLVGSLMGKDRWSEVIQKYLYEGKELAHFLLLIFQVFVGNSKMAIKSFYTNNETSQWASENWKSIVAAVLINIPENNEDPLLIPPVVLEFLIEFGIFLTKKGLTAAASTLFIIGNVPLSNEPVMADSDVIFESIGNMNTFESILWDEIYEYIFSYDPKFKGFSSILPQKIYHASLLQEQGLNSLGTKYTDYLSSSVRKLPKKDILTINLTRELSEVASRLS LLRRQFPIFHWSAANKVVYAVPPIVQEIKVTPIDQIIKPNDMLKSFPGPLGSAKLKKKDLTKWMETTIKSISENESSTDMTIWQLLEMKLNDKVNWKNISKLLYNSDELLMYLSQPFPNGDMIPNAYRLDINCQMRVLAFLQTGNHDEALRLALSKRDYAIALLVGSLMGKDRWSEVIQKYLYEGDQKELAHFLLLIFQVFVGNSKMAIKSFYTNNETSQWASENWKSIVAAVLINIPENNEDPLLIPPVVLEFLIEFGIFLTKKGLTAAASTLFIIGNVPLSNEPVMADSDVIFESIGNMNTFESILWDEIYEYIFSYDPKFKGFSSILPQKIYHASLLQEQGLNSLGTKYTDYLSSSVRKLPKKDILTINLTRELSEVASRLS 3mzl-a2-m1-cF_3mzl-a2-m1-cH Sec13/Sec31 edge element, loop deletion mutant P38968 P38968 2.8 X-RAY DIFFRACTION 280 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 329 329 3mzl-a1-m1-cB_3mzl-a1-m1-cD WYGEPSPAAHWAFGGKLVQITPDGKGVSITNPKISGLESNTTLSEALKTKDFKPLINQRLVKVIDDVNEEDWNLLEKLSMDGTEEFLKEALAFDGNIEQTISKNLVSGNIKSAVKNSLENDLLMEAMVIALDSNNERLKESVKNAYFAKYGSKSSLSRILYSISKREVDDLVENLDVSQWKFISKAIQNLYPNDIAQRNEMLIKLGDRLKENGHRQDSLTLYLAAGSLDKVASIWLSEFPDLEDKLKKDNKTIYEAHSECLTEFIERFTVFSNFINGINNEQLIAKFLEFINLTTSTGNFELATEFLNSLPSDNEEVKTEKARVLIASG WYGEPSPAAHWAFGGKLVQITPDGKGVSITNPKISGLESNTTLSEALKTKDFKPLINQRLVKVIDDVNEEDWNLLEKLSMDGTEEFLKEALAFDGNIEQTISKNLVSGNIKSAVKNSLENDLLMEAMVIALDSNNERLKESVKNAYFAKYGSKSSLSRILYSISKREVDDLVENLDVSQWKFISKAIQNLYPNDIAQRNEMLIKLGDRLKENGHRQDSLTLYLAAGSLDKVASIWLSEFPDLEDKLKKDNKTIYEAHSECLTEFIERFTVFSNFINGINNEQLIAKFLEFINLTTSTGNFELATEFLNSLPSDNEEVKTEKARVLIASG 3mzn-a1-m1-cA_3mzn-a1-m1-cB Crystal structure of probable glucarate dehydratase from chromohalobacter salexigens dsm 3043 Q1QUN0 Q1QUN0 1.85 X-RAY DIFFRACTION 62 0.998 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 446 446 3nfu-a1-m1-cA_3nfu-a1-m1-cB LFPKITKMNVVPVAGEDGFLLNLSGGHEPWFIRCVLVLEDESGNRGVGEIPSSEGILNGLEKCRSLVEGARVNEVKQVLSRARGLLAQGGPEERGRQTFDLRVAVHVITAIESALFDLFGQALGMPVADLLGQYGRQRDEVEALGYLFLLGDPDKTDLPYPRVADPVDAWDEVRYREAMTPEAVANLARAAYDRYGFKDFKLKGGVLRGEEEADCIRALHEAFPEARLALDPNGAWKLDEAVRVLEPIKHLLSYAEDPCGQEGGFSGRETMAEFKKRTGLPTATNMIATDYKQLQYAVQLNSVDIPLADCHFWTMQGAVAVGELCNEWGMTWGSHSNNHFDISLAMMTHVAAACPGEITAIDTHWIWQDGQRITREPFQIRDGKLTVPKTPGLGIELDDDKLMEAHETYKRLDVTQRNDAMAMQYLIPGWEFDPKRPALVEGHHHH SLFPKITKMNVVPVAGEDGFLLNLSGGHEPWFIRCVLVLEDESGNRGVGEIPSSEGILNGLEKCRSLVEGARVNEVKQVLSRARGLLAQGGPEERGRQTFDLRVAVHVITAIESALFDLFGQALGMPVADLLGQYGRQRDEVEALGYLFLLGDPDKTDLPYPRVADPVDAWDEVRYREAMTPEAVANLARAAYDRYGFKDFKLKGGVLRGEEEADCIRALHEAFPEARLALDPNGAWKLDEAVRVLEPIKHLLSYAEDPCGQEGGFSGRETMAEFKKRTGLPTATNMIATDYKQLQYAVQLNSVDIPLADCHFWTMQGAVAVGELCNEWGMTWGSHSNNHFDISLAMMTHVAAACPGEITAIDTHWIWQDGQRITREPFQIRDGKLTVPKTPGLGIELDDDKLMEAHETYKRLDVTQRNDAMAMQYLIPGWEFDPKRPALVEGHHH 3mzo-a1-m2-cA_3mzo-a1-m2-cB Crystal structure of a HD-domain phosphohydrolase (lin2634) from LISTERIA INNOCUA at 1.98 A resolution Q928A2 Q928A2 1.98 X-RAY DIFFRACTION 69 0.995 1642 (Listeria innocua) 1642 (Listeria innocua) 205 206 3mzo-a1-m1-cA_3mzo-a1-m1-cB 3mzo-a1-m1-cC_3mzo-a1-m2-cC GGIHQYFQSLSDLENIYRCPGKFKYQEHSVAEHSYKVTSIAQFFGAVEEDAGNEVNWRALYEKALNHDYSELFIGDIKTPVKYATTELRELSEVEESTKNFISREIPATFQPIYRHLLKEGKDSTLEGKILAISDKVDLLYESFGEIQKGNPENIFVEIYSEALATIYEYREASVKYFLKEILPDLAEKGIEKTELPQLTTEITT GIHQYFQSLSDLENIYRCPGKFKYQEHSVAEHSYKVTSIAQFFGAVEEDAGNEVNWRALYEKALNHDYSELFIGDIKTPVKYATTELRELSEVEESTKNFISREIPATFQPIYRHLLKEGKDSTLEGKILAISDKVDLLYESFGEIQKGNPENIFVEIYSEALATIYEYREASVKYFLKEILPDLAEKGIEKTELPQLTTEITTKA 3mzo-a1-m2-cC_3mzo-a1-m2-cA Crystal structure of a HD-domain phosphohydrolase (lin2634) from LISTERIA INNOCUA at 1.98 A resolution Q928A2 Q928A2 1.98 X-RAY DIFFRACTION 13 0.995 1642 (Listeria innocua) 1642 (Listeria innocua) 191 205 3mzo-a1-m1-cA_3mzo-a1-m2-cB 3mzo-a1-m1-cC_3mzo-a1-m1-cA 3mzo-a1-m2-cA_3mzo-a1-m1-cB GGIHQYFQSLSDLENIYRCPGKFKYQEHSVAEHSYKVTSIAQFFGAVEEDAGNEVNWRALYEKALNHDYSELFIELSEVEESTKNFISREIPATFQPIYRHLLKEGKDSTLEGKILAISDKVDLLYESFGEIQKGNPENIFVEIYSEALATIYEYREASVKYFLKEILPDLAEKGIEKTELPQLTTEITTK GGIHQYFQSLSDLENIYRCPGKFKYQEHSVAEHSYKVTSIAQFFGAVEEDAGNEVNWRALYEKALNHDYSELFIGDIKTPVKYATTELRELSEVEESTKNFISREIPATFQPIYRHLLKEGKDSTLEGKILAISDKVDLLYESFGEIQKGNPENIFVEIYSEALATIYEYREASVKYFLKEILPDLAEKGIEKTELPQLTTEITT 3mzo-a3-m1-cC_3mzo-a3-m1-cB Crystal structure of a HD-domain phosphohydrolase (lin2634) from LISTERIA INNOCUA at 1.98 A resolution Q928A2 Q928A2 1.98 X-RAY DIFFRACTION 126 0.995 1642 (Listeria innocua) 1642 (Listeria innocua) 191 206 3mzo-a1-m1-cA_3mzo-a1-m2-cA 3mzo-a1-m1-cC_3mzo-a1-m1-cB 3mzo-a1-m2-cC_3mzo-a1-m2-cB 3mzo-a2-m1-cA_3mzo-a2-m2-cA GGIHQYFQSLSDLENIYRCPGKFKYQEHSVAEHSYKVTSIAQFFGAVEEDAGNEVNWRALYEKALNHDYSELFIELSEVEESTKNFISREIPATFQPIYRHLLKEGKDSTLEGKILAISDKVDLLYESFGEIQKGNPENIFVEIYSEALATIYEYREASVKYFLKEILPDLAEKGIEKTELPQLTTEITTK GIHQYFQSLSDLENIYRCPGKFKYQEHSVAEHSYKVTSIAQFFGAVEEDAGNEVNWRALYEKALNHDYSELFIGDIKTPVKYATTELRELSEVEESTKNFISREIPATFQPIYRHLLKEGKDSTLEGKILAISDKVDLLYESFGEIQKGNPENIFVEIYSEALATIYEYREASVKYFLKEILPDLAEKGIEKTELPQLTTEITTKA 3mzv-a1-m1-cA_3mzv-a1-m1-cB Crystal structure of a decaprenyl diphosphate synthase from Rhodobacter capsulatus Q07D00 Q07D00 1.9 X-RAY DIFFRACTION 139 0.997 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 309 325 KPHDRLAQALAEDMAAVNALIRERMSSEHAPRIPEVTAHLIEAGGKRLRPMLTLAAARLVGYGGPFHVHLAATVEFIHTATLLHDDVRRGRPTANLLWDNKSSVLVGDYLFARSFQLMTDTGNMRVMEILANASAVIAEGEVLQLTAAQNLATTEDIYLRVIRGKTAALFSAATEVGGIIGGAPEDQVQALFDYGDALGIAFQIVDDLLDYTGDDFRERKLTMPVIKAVALADEAERAFWKRVIEKGDQQDGDLEHAMALMTKHGTLEATRLAAIGWTDTARKALAKLPDHPLRQMLDDLADYVVERVR PHDRLAQALAEDMAAVNALIRERMSSEHAPRIPEVTAHLIEAGGKRLRPMLTLAAARLVGYGGPFHVHLAATVEFIHTATLLHDDVVDESRQRRGRPTANLLWDNKSSVLVGDYLFARSFQLMTDTGNMRVMEILANASAVIAEGEVLQLTAAQNLATTEDIYLRVIRGKTAALFSAATEVGGIIGGAPEDQVQALFDYGDALGIAFQIVDDLLDYGGKSAEIGKNTGDDFRERKLTMPVIKAVALADEAERAFWKRVIEKGDQQDGDLEHAMALMTKHGTLEATRLAAIGWTDTARKALAKLPDHPLRQMLDDLADYVVERVRE 3n00-a1-m1-cA_3n00-a1-m2-cA Crystal Structure of a deletion mutant of human Reverba ligand binding domain bound with an NCoR ID1 peptide determined to 2.60A P20393 P20393 2.6 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 PTVEDVISQVARAHREIFVQEIWEDFSMSFTPAVREVVEFAKHIPGFRDLSQHDQVTLLKAGTFEVLMVRFASLFNVKDELGAMGMGDLLSAMFDFSEKLNSLALTEEELGLFTAVVLVSADRSGMENSASVEQLQETLLRALRALVLKNRPLETSRFTKLLLKLPDLRTLNNMHSEKLLSFRV PTVEDVISQVARAHREIFVQEIWEDFSMSFTPAVREVVEFAKHIPGFRDLSQHDQVTLLKAGTFEVLMVRFASLFNVKDELGAMGMGDLLSAMFDFSEKLNSLALTEEELGLFTAVVLVSADRSGMENSASVEQLQETLLRALRALVLKNRPLETSRFTKLLLKLPDLRTLNNMHSEKLLSFRV 3n00-a1-m1-cB_3n00-a1-m2-cB Crystal Structure of a deletion mutant of human Reverba ligand binding domain bound with an NCoR ID1 peptide determined to 2.60A O75376 O75376 2.6 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 THRLITLADHICQIITQDFAR THRLITLADHICQIITQDFAR 3n01-a1-m1-cB_3n01-a1-m1-cA Crystal structure of an abridged form of the mature ectodomain of the Human Receptor-Type Protein Tyrosine Phosphatase ICA512/IA-2 at pH 8.5 Q16849 Q16849 1.3 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 87 2qt7-a1-m1-cA_2qt7-a1-m1-cB 2qt7-a1-m2-cA_2qt7-a1-m2-cB 2qt7-a2-m1-cA_2qt7-a2-m1-cB 3n4w-a1-m1-cB_3n4w-a1-m1-cA 3ng8-a1-m1-cA_3ng8-a1-m1-cB EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQ EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQ 3n01-a2-m1-cB_3n01-a2-m2-cA Crystal structure of an abridged form of the mature ectodomain of the Human Receptor-Type Protein Tyrosine Phosphatase ICA512/IA-2 at pH 8.5 Q16849 Q16849 1.3 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 87 2qt7-a1-m1-cA_2qt7-a1-m2-cB 3n4w-a2-m2-cB_3n4w-a2-m1-cA 3ng8-a2-m1-cB_3ng8-a2-m2-cA 3np5-a2-m1-cA_3np5-a2-m2-cC 3np5-a3-m1-cB_3np5-a3-m3-cD EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQ EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQ 3n05-a1-m1-cB_3n05-a1-m1-cA CRYSTAL STRUCTURE OF NH3-DEPENDENT NAD+ SYNTHETASE FROM STREPTOMYCES AVERMITILIS Q82AV7 Q82AV7 2.35 X-RAY DIFFRACTION 189 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 563 568 SLQLRLALNQIDSTVGDIAGNAEAILRWTRHSAEQGAHLVAFPEMALTGYPVEDLALRSSFVEASRTALRELAARLAEEGFGELPVLVGYLDRSESAQPKYGQPAGAPRNAAAVLHRGRVALTFAKHHLPNYGVFDEFRYFVPGDTMPIVRLHGVDIALAICEDLWQDGGRVPAARSAGAGLLLSVNASPYERDKDDTRLELVRKRAQEAGCTTAYLAMIGGQDELVFDGDSIVVDRDGEVVARAPQFSEGCVVLDLDLPAAEAEPPTGVVDDGLRIDRLVISEEPLPAYEAELAGGYADRLDADEEVYSALVVGLRAYVAKNGFRSVLIGLSGGIDSALVAAIACDALGAQNVYGVSMPSKYSSDHSKGDAAELARRTGLNFRTVSIEPMFDAYMASLGLTGLAEENLQSRLRGTTLMAISNQEGHIVLAPGNKSELAVGYSSVGAYGPIKDVYKTSIFRLAEWRNRAAAERGQTPPIPEASITKPDYPVLDAILELYVDRDTGADAIVAAGYDRELVVKTLRMVDTAEYKRRQYPPGTKISAKGFGKDRRLPITNRWREGH SLQLRLALNQIDSTVGDIAGNAEAILRWTRHSAEQGAHLVAFPEMALTGYPVEDLALRSSFVEASRTALRELAARLAEEGFGELPVLVGYLDRSESAQPKYGQPAGAPRNAAAVLHRGRVALTFAKHHLPNYGVFDEFRYFVPGDTMPIVRLHGVDIALAICEDLWQDGGRVPAARSAGAGLLLSVNASPYERDKDDTRLELVRKRAQEAGCTTAYLAMIGGQDELVFDGDSIVVDRDGEVVARAPQFSEGCVVLDLDLPAAEAEPPTGVVDDGLRIDRLVISEEPLPAYEAELAGGYADRLDADEEVYSALVVGLRAYVAKNGFRSVLIGLSGGIDSALVAAIACDALGAQNVYGVSMPSKYSSDHSKGDAAELARRTGLNFRTVSIEPMFDAYMASLGLTGLAEENLQSRLRGTTLMAISNQEGHIVLAPGNKSELAVGYSTLYGDSVGAYGPIKDVYKTSIFRLAEWRNRAAAERGQTPPIPEASITKPDYPVLDAILELYVDRDTGADAIVAAGYDRELVVKTLRMVDTAEYKRRQYPPGTKISAKGFGKDRRLPITNRWREGH 3n07-a1-m1-cB_3n07-a1-m1-cC Structure of putative 3-deoxy-D-manno-octulosonate 8-phosphate phosphatase from Vibrio cholerae Q9KP52 Q9KP52 1.76 X-RAY DIFFRACTION 56 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 172 172 3n07-a1-m1-cB_3n07-a1-m1-cD 3n07-a1-m1-cC_3n07-a1-m1-cA 3n07-a1-m1-cD_3n07-a1-m1-cA SSTVSTLYGEVEPSLLEIAKQIKLLICDVDGVFSDGLIYGNQGEELKTFHTRDGYGVKALNAGIEIAIITGRRSQIVENRKALGISLIYQGQDDKVQAYYDICQKLAIAPEQTGYIGDDLIDWPVEKVALRVCVADGHPLLAQRANYVTHIKGGHGAVREVCDLILQARNEL SSTVSTLYGEVEPSLLEIAKQIKLLICDVDGVFSDGLIYGNQGEELKTFHTRDGYGVKALNAGIEIAIITGRRSQIVENRKALGISLIYQGQDDKVQAYYDICQKLAIAPEQTGYIGDDLIDWPVEKVALRVCVADGHPLLAQRANYVTHIKGGHGAVREVCDLILQARNEL 3n08-a1-m1-cA_3n08-a1-m1-cB Crystal Structure of a Putative PhosphatidylEthanolamine-Binding Protein (PEBP) Homolog CT736 from Chlamydia trachomatis D/UW-3/CX O84741 O84741 1.25 X-RAY DIFFRACTION 44 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 151 153 NAMQLTSQAFSYGRPIPKKYSCQGVGISPPLSFSDVPREAKSLVLIVEDPDVPPSVREDGLWIHWIVYNLSPVVSNLAEGAQIFAVQGLNTAGEIGYCPPCPPDAKHRYYFYAYALDVVLSDEEGVTKEQLLEAMDGHIIATAELMGTYEK SNAMQLTSQAFSYGRPIPKKYSCQGVGISPPLSFSDVPREAKSLVLIVEDPDVPPSVREDGLWIHWIVYNLSPVVSNLAEGAQIFAVQGLNTAGEIGYCPPCPPDAKHRYYFYAYALDVVLSDEEGVTKEQLLEAMDGHIIATAELMGTYEKD 3n0l-a1-m1-cA_3n0l-a1-m1-cB Crystal structure of serine hydroxymethyltransferase from Campylobacter jejuni P24531 P24531 1.8 X-RAY DIFFRACTION 209 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 387 388 NASLEFDKEIFDLTNKELERQCEGLEIASENFTLPEVEVGSILTNKYAEGYPGKRYYGGCEFVDEIETLAIERCKKLFNCKFANVQPNSGSQANQGVYAALINPGDKILGDLKYESCFYGVELDGRIDYEKVREIAKKEKPKLIVCGASAYARVIDFAKFREIADEIGAYLFADIAHIAGLVVAGEHPSPFPYAHVVSSTTHKTLRGPRGGIITNDEELAKKINSAIFPGIQGGPLHVIAAKAVGFKFNLSDEWKVYAKQVRTNAQVLANVLDRKFKLVSDGTDNHLVLSFLDREFSGKDADLALGNAGITANKNTVPGEIRSPFITSGLRLGTPALTARGFKEKEEIVSNYIADILDDVNNEKLQENIKQELKKLASNFIIYERAF SNASLEFDKEIFDLTNKELERQCEGLEIASENFTLPEVEVGSILTNKYAEGYPGKRYYGGCEFVDEIETLAIERCKKLFNCKFANVQPNSGSQANQGVYAALINPGDKILGDLKYESCFYGVELDGRIDYEKVREIAKKEKPKLIVCGASAYARVIDFAKFREIADEIGAYLFADIAHIAGLVVAGEHPSPFPYAHVVSSTTHKTLRGPRGGIITNDEELAKKINSAIFPGIQGGPLHVIAAKAVGFKFNLSDEWKVYAKQVRTNAQVLANVLDRKFKLVSDGTDNHLVLSFLDREFSGKDADLALGNAGITANKNTVPGEIRSPFITSGLRLGTPALTARGFKEKEEIVSNYIADILDDVNNEKLQENIKQELKKLASNFIIYERAF 3n0q-a1-m2-cA_3n0q-a1-m3-cA Crystal structure of a Putative aromatic-ring hydroxylating dioxygenase (TM1040_3219) from SILICIBACTER SP. TM1040 at 1.80 A resolution Q1GMC3 Q1GMC3 1.8 X-RAY DIFFRACTION 73 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 396 396 3n0q-a1-m1-cA_3n0q-a1-m2-cA 3n0q-a1-m1-cA_3n0q-a1-m3-cA HSNINTLIANHRAGHALDQAFYTDAEVFQTDLQEIFYKEWLFAIPACELDKPGSYVTHQVGNYNVIIVRGADNVIRAFHNACRHRGSVICKAKKGNNPKLVCPYHQWTYELDGRLLWARDGPDFEPSRHGLKTVHCRELAGLIYICLADEAPDFERFAEVARPYLEVHDLSNAKVAHESSIVERGNWKLVWENNRECYHCGGNHPALCRTFPDDPSVTGIEGGETPSNLQAHFDRCEQAGPSGFHLSGDGQFRVARPLKEGAESYTDGKTAVRRWLGRAAFADAGSLLKFHYPTTWNHFLSDHSIVFRVTPISPTETEVTTKWLVHKDAVEGVDYDLQRLTEVWIATNDEDREVVEFNQGINSPAYEPGPYSPTQESGVLQFVEWYLSTLKRNSGP HSNINTLIANHRAGHALDQAFYTDAEVFQTDLQEIFYKEWLFAIPACELDKPGSYVTHQVGNYNVIIVRGADNVIRAFHNACRHRGSVICKAKKGNNPKLVCPYHQWTYELDGRLLWARDGPDFEPSRHGLKTVHCRELAGLIYICLADEAPDFERFAEVARPYLEVHDLSNAKVAHESSIVERGNWKLVWENNRECYHCGGNHPALCRTFPDDPSVTGIEGGETPSNLQAHFDRCEQAGPSGFHLSGDGQFRVARPLKEGAESYTDGKTAVRRWLGRAAFADAGSLLKFHYPTTWNHFLSDHSIVFRVTPISPTETEVTTKWLVHKDAVEGVDYDLQRLTEVWIATNDEDREVVEFNQGINSPAYEPGPYSPTQESGVLQFVEWYLSTLKRNSGP 3n0v-a1-m1-cA_3n0v-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (PP_0327) from PSEUDOMONAS PUTIDA KT2440 at 2.25 A resolution Q88R07 Q88R07 2.25 X-RAY DIFFRACTION 11 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 274 274 3n0v-a1-m1-cB_3n0v-a1-m1-cC DTWILTADCPSLGTVDVVTRYLFEQRCYVTEHHSFDDRQSGRFFIRVEFRQPDDFDEAGFRAGLAERSEAFGAFELTAPNHRPKVVIVSKADHCLNDLLYRQRIGQLGDVVAVVSNHPDLEPLAHWHKIPYYHFALDPKDKPGQERKVLQVIEETGAELVILARYQVLSPELCRRLDGWAINIHHSLLPGFKGAKPYHQAYNKGVKVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIECLTLARAVGYHIERRVFLNANRTVVL DTWILTADCPSLGTVDVVTRYLFEQRCYVTEHHSFDDRQSGRFFIRVEFRQPDDFDEAGFRAGLAERSEAFGAFELTAPNHRPKVVIVSKADHCLNDLLYRQRIGQLGDVVAVVSNHPDLEPLAHWHKIPYYHFALDPKDKPGQERKVLQVIEETGAELVILARYQVLSPELCRRLDGWAINIHHSLLPGFKGAKPYHQAYNKGVKVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIECLTLARAVGYHIERRVFLNANRTVVL 3n0v-a1-m1-cB_3n0v-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (PP_0327) from PSEUDOMONAS PUTIDA KT2440 at 2.25 A resolution Q88R07 Q88R07 2.25 X-RAY DIFFRACTION 62 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 272 274 3n0v-a1-m1-cC_3n0v-a1-m1-cA DTWILTADCPSLGTVDVVTRYLFEQRCYVTEHHSFDDRQSGRFFIRVEFRQPDDFDEAGFRAGLAERSEAFGAFELTAPNHRPKVVIVSKADHCLNDLLYRQRIGQLGDVVAVVSNHPDLEPLAHWHKIPYYHFALDPKDKPGQERKVLQVIEETGAELVILARYQVLSPELCRRLDGWAINIHHSLLFKGAKPYHQAYNKGVKVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIECLTLARAVGYHIERRVFLNANRTVVL DTWILTADCPSLGTVDVVTRYLFEQRCYVTEHHSFDDRQSGRFFIRVEFRQPDDFDEAGFRAGLAERSEAFGAFELTAPNHRPKVVIVSKADHCLNDLLYRQRIGQLGDVVAVVSNHPDLEPLAHWHKIPYYHFALDPKDKPGQERKVLQVIEETGAELVILARYQVLSPELCRRLDGWAINIHHSLLPGFKGAKPYHQAYNKGVKVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIECLTLARAVGYHIERRVFLNANRTVVL 3n0v-a1-m1-cC_3n0v-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (PP_0327) from PSEUDOMONAS PUTIDA KT2440 at 2.25 A resolution Q88R07 Q88R07 2.25 X-RAY DIFFRACTION 65 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 273 274 3n0v-a1-m1-cB_3n0v-a1-m1-cA DTWILTADCPSLGTVDVVTRYLFEQRCYVTEHHSFDDRQSGRFFIRVEFRQPDDFDEAGFRAGLAERSEAFGAFELTAPNHRPKVVIVSKADHCLNDLLYRQRIGQLGDVVAVVSNHPDLEPLAHWHKIPYYHFALDPKDKPGQERKVLQVIEETGAELVILARYQVLSPELCRRLDGWAINIHHSLLGFKGAKPYHQAYNKGVKVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIECLTLARAVGYHIERRVFLNANRTVVL DTWILTADCPSLGTVDVVTRYLFEQRCYVTEHHSFDDRQSGRFFIRVEFRQPDDFDEAGFRAGLAERSEAFGAFELTAPNHRPKVVIVSKADHCLNDLLYRQRIGQLGDVVAVVSNHPDLEPLAHWHKIPYYHFALDPKDKPGQERKVLQVIEETGAELVILARYQVLSPELCRRLDGWAINIHHSLLPGFKGAKPYHQAYNKGVKVGATAHYINNDLDEGPIIAQGVEVVDHSHYPEDLIAKGRDIECLTLARAVGYHIERRVFLNANRTVVL 3n10-a1-m1-cA_3n10-a1-m1-cB Product complex of adenylate cyclase class IV A0A5P8YEL9 A0A5P8YEL9 1.6 X-RAY DIFFRACTION 48 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 176 176 2fjt-a1-m1-cB_2fjt-a1-m1-cA 3n0y-a1-m1-cA_3n0y-a1-m1-cB 3n0z-a1-m1-cA_3n0z-a1-m1-cB HFVGKYEVELKFRVMDLTTLHEQLVAQKATAFTLNNHEKDIYLDANGQDLAKQQISMVLREMNPSGIRLWIVKGPGAERCEASNIEDVSKVQSMLATLGYHPAFTIEKQRSIYFVGKFHITVDHLTGLGDFAEIAIMTDDATELDKLKAECRDFANTFGLQVDQQEPRSYRQLLGF HFVGKYEVELKFRVMDLTTLHEQLVAQKATAFTLNNHEKDIYLDANGQDLAKQQISMVLREMNPSGIRLWIVKGPGAERCEASNIEDVSKVQSMLATLGYHPAFTIEKQRSIYFVGKFHITVDHLTGLGDFAEIAIMTDDATELDKLKAECRDFANTFGLQVDQQEPRSYRQLLGF 3n1e-a3-m1-cA_3n1e-a3-m2-cB Vps54 C-terminal domain Q5SPW0 Q5SPW0 1.702 X-RAY DIFFRACTION 71 1.0 10090 (Mus musculus) 10090 (Mus musculus) 140 141 3n1b-a3-m1-cA_3n1b-a3-m2-cB DQWSMLRHFDHITKDYHDHIAEISAKLVAIMDSLFDKLLSKYEVKAPVPSPCFRNICKQMTKMHEAIFDLLPEEQTQMLFLRINASYKLHLKKQLSHLNVINDGGPQNGLVTADVAFYTGNLQALKGLKDLDLNMAEIWE MDQWSMLRHFDHITKDYHDHIAEISAKLVAIMDSLFDKLLSKYEVKAPVPSPCFRNICKQMTKMHEAIFDLLPEEQTQMLFLRINASYKLHLKKQLSHLNVINDGGPQNGLVTADVAFYTGNLQALKGLKDLDLNMAEIWE 3n1e-a4-m1-cA_3n1e-a4-m1-cB Vps54 C-terminal domain Q5SPW0 Q5SPW0 1.702 X-RAY DIFFRACTION 75 1.0 10090 (Mus musculus) 10090 (Mus musculus) 140 141 DQWSMLRHFDHITKDYHDHIAEISAKLVAIMDSLFDKLLSKYEVKAPVPSPCFRNICKQMTKMHEAIFDLLPEEQTQMLFLRINASYKLHLKKQLSHLNVINDGGPQNGLVTADVAFYTGNLQALKGLKDLDLNMAEIWE MDQWSMLRHFDHITKDYHDHIAEISAKLVAIMDSLFDKLLSKYEVKAPVPSPCFRNICKQMTKMHEAIFDLLPEEQTQMLFLRINASYKLHLKKQLSHLNVINDGGPQNGLVTADVAFYTGNLQALKGLKDLDLNMAEIWE 3n1i-a1-m19-cA_3n1i-a1-m9-cA Crystal Structure of a StWhy2-ERE32 complex D9J034 D9J034 2.2 X-RAY DIFFRACTION 18 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 161 161 3n1h-a2-m10-cA_3n1h-a2-m23-cA 3n1h-a2-m11-cA_3n1h-a2-m21-cA 3n1h-a2-m12-cA_3n1h-a2-m22-cA 3n1h-a2-m13-cA_3n1h-a2-m20-cA 3n1h-a2-m14-cA_3n1h-a2-m19-cA 3n1h-a2-m15-cA_3n1h-a2-m5-cA 3n1h-a2-m17-cA_3n1h-a2-m2-cA 3n1h-a2-m18-cA_3n1h-a2-m6-cA 3n1h-a2-m1-cA_3n1h-a2-m16-cA 3n1h-a2-m24-cA_3n1h-a2-m7-cA 3n1h-a2-m3-cA_3n1h-a2-m9-cA 3n1h-a2-m4-cA_3n1h-a2-m8-cA 3n1i-a1-m10-cA_3n1i-a1-m20-cA 3n1i-a1-m11-cA_3n1i-a1-m18-cA 3n1i-a1-m12-cA_3n1i-a1-m17-cA 3n1i-a1-m13-cA_3n1i-a1-m2-cA 3n1i-a1-m15-cA_3n1i-a1-m3-cA 3n1i-a1-m16-cA_3n1i-a1-m4-cA 3n1i-a1-m1-cA_3n1i-a1-m14-cA 3n1i-a1-m21-cA_3n1i-a1-m7-cA 3n1i-a1-m22-cA_3n1i-a1-m8-cA 3n1i-a1-m23-cA_3n1i-a1-m6-cA 3n1i-a1-m24-cA_3n1i-a1-m5-cA 3n1j-a1-m10-cA_3n1j-a1-m20-cA 3n1j-a1-m11-cA_3n1j-a1-m18-cA 3n1j-a1-m12-cA_3n1j-a1-m17-cA 3n1j-a1-m13-cA_3n1j-a1-m2-cA 3n1j-a1-m15-cA_3n1j-a1-m3-cA 3n1j-a1-m16-cA_3n1j-a1-m4-cA 3n1j-a1-m19-cA_3n1j-a1-m9-cA 3n1j-a1-m1-cA_3n1j-a1-m14-cA 3n1j-a1-m21-cA_3n1j-a1-m7-cA 3n1j-a1-m22-cA_3n1j-a1-m8-cA 3n1j-a1-m23-cA_3n1j-a1-m6-cA 3n1j-a1-m24-cA_3n1j-a1-m5-cA 3r9y-a2-m10-cA_3r9y-a2-m23-cA 3r9y-a2-m11-cA_3r9y-a2-m21-cA 3r9y-a2-m12-cA_3r9y-a2-m22-cA 3r9y-a2-m13-cA_3r9y-a2-m20-cA 3r9y-a2-m14-cA_3r9y-a2-m19-cA 3r9y-a2-m15-cA_3r9y-a2-m5-cA 3r9y-a2-m17-cA_3r9y-a2-m2-cA 3r9y-a2-m18-cA_3r9y-a2-m6-cA 3r9y-a2-m1-cA_3r9y-a2-m16-cA 3r9y-a2-m24-cA_3r9y-a2-m7-cA 3r9y-a2-m3-cA_3r9y-a2-m9-cA 3r9y-a2-m4-cA_3r9y-a2-m8-cA 3ra0-a2-m10-cA_3ra0-a2-m23-cA 3ra0-a2-m11-cA_3ra0-a2-m21-cA 3ra0-a2-m12-cA_3ra0-a2-m22-cA 3ra0-a2-m13-cA_3ra0-a2-m20-cA 3ra0-a2-m14-cA_3ra0-a2-m19-cA 3ra0-a2-m15-cA_3ra0-a2-m5-cA 3ra0-a2-m17-cA_3ra0-a2-m2-cA 3ra0-a2-m18-cA_3ra0-a2-m6-cA 3ra0-a2-m1-cA_3ra0-a2-m16-cA 3ra0-a2-m24-cA_3ra0-a2-m7-cA 3ra0-a2-m3-cA_3ra0-a2-m9-cA 3ra0-a2-m4-cA_3ra0-a2-m8-cA GRVFAPYSVFKGKAALSAEPRLPTFNRLDSGGVKLNRRGVIMLTFWPSVGERKYDWEKRQLFALSATEVGSLISMGTRDSSEFFHDPSMLSSNAGQVRKSLSIKPNADGSGYFISLSVVNNNLKTNDRFTVPVTTAEFAVMRTAFSFALPHIMGWDRFTNR GRVFAPYSVFKGKAALSAEPRLPTFNRLDSGGVKLNRRGVIMLTFWPSVGERKYDWEKRQLFALSATEVGSLISMGTRDSSEFFHDPSMLSSNAGQVRKSLSIKPNADGSGYFISLSVVNNNLKTNDRFTVPVTTAEFAVMRTAFSFALPHIMGWDRFTNR 3n1i-a1-m6-cA_3n1i-a1-m9-cA Crystal Structure of a StWhy2-ERE32 complex D9J034 D9J034 2.2 X-RAY DIFFRACTION 19 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 161 161 3n1h-a2-m10-cA_3n1h-a2-m14-cA 3n1h-a2-m10-cA_3n1h-a2-m6-cA 3n1h-a2-m11-cA_3n1h-a2-m2-cA 3n1h-a2-m11-cA_3n1h-a2-m8-cA 3n1h-a2-m12-cA_3n1h-a2-m9-cA 3n1h-a2-m13-cA_3n1h-a2-m5-cA 3n1h-a2-m13-cA_3n1h-a2-m7-cA 3n1h-a2-m14-cA_3n1h-a2-m6-cA 3n1h-a2-m15-cA_3n1h-a2-m21-cA 3n1h-a2-m15-cA_3n1h-a2-m23-cA 3n1h-a2-m16-cA_3n1h-a2-m19-cA 3n1h-a2-m16-cA_3n1h-a2-m4-cA 3n1h-a2-m17-cA_3n1h-a2-m20-cA 3n1h-a2-m17-cA_3n1h-a2-m3-cA 3n1h-a2-m18-cA_3n1h-a2-m22-cA 3n1h-a2-m18-cA_3n1h-a2-m24-cA 3n1h-a2-m19-cA_3n1h-a2-m4-cA 3n1h-a2-m1-cA_3n1h-a2-m12-cA 3n1h-a2-m1-cA_3n1h-a2-m9-cA 3n1h-a2-m20-cA_3n1h-a2-m3-cA 3n1h-a2-m21-cA_3n1h-a2-m23-cA 3n1h-a2-m22-cA_3n1h-a2-m24-cA 3n1h-a2-m2-cA_3n1h-a2-m8-cA 3n1h-a2-m5-cA_3n1h-a2-m7-cA 3n1i-a1-m10-cA_3n1i-a1-m7-cA 3n1i-a1-m11-cA_3n1i-a1-m2-cA 3n1i-a1-m11-cA_3n1i-a1-m5-cA 3n1i-a1-m12-cA_3n1i-a1-m4-cA 3n1i-a1-m12-cA_3n1i-a1-m8-cA 3n1i-a1-m13-cA_3n1i-a1-m19-cA 3n1i-a1-m13-cA_3n1i-a1-m22-cA 3n1i-a1-m14-cA_3n1i-a1-m17-cA 3n1i-a1-m14-cA_3n1i-a1-m23-cA 3n1i-a1-m15-cA_3n1i-a1-m18-cA 3n1i-a1-m15-cA_3n1i-a1-m21-cA 3n1i-a1-m16-cA_3n1i-a1-m20-cA 3n1i-a1-m16-cA_3n1i-a1-m24-cA 3n1i-a1-m17-cA_3n1i-a1-m23-cA 3n1i-a1-m18-cA_3n1i-a1-m21-cA 3n1i-a1-m19-cA_3n1i-a1-m22-cA 3n1i-a1-m1-cA_3n1i-a1-m10-cA 3n1i-a1-m1-cA_3n1i-a1-m7-cA 3n1i-a1-m20-cA_3n1i-a1-m24-cA 3n1i-a1-m2-cA_3n1i-a1-m5-cA 3n1i-a1-m3-cA_3n1i-a1-m6-cA 3n1i-a1-m3-cA_3n1i-a1-m9-cA 3n1i-a1-m4-cA_3n1i-a1-m8-cA 3n1j-a1-m10-cA_3n1j-a1-m7-cA 3n1j-a1-m11-cA_3n1j-a1-m2-cA 3n1j-a1-m11-cA_3n1j-a1-m5-cA 3n1j-a1-m12-cA_3n1j-a1-m4-cA 3n1j-a1-m12-cA_3n1j-a1-m8-cA 3n1j-a1-m13-cA_3n1j-a1-m19-cA 3n1j-a1-m13-cA_3n1j-a1-m22-cA 3n1j-a1-m14-cA_3n1j-a1-m17-cA 3n1j-a1-m14-cA_3n1j-a1-m23-cA 3n1j-a1-m15-cA_3n1j-a1-m18-cA 3n1j-a1-m15-cA_3n1j-a1-m21-cA 3n1j-a1-m16-cA_3n1j-a1-m20-cA 3n1j-a1-m16-cA_3n1j-a1-m24-cA 3n1j-a1-m17-cA_3n1j-a1-m23-cA 3n1j-a1-m18-cA_3n1j-a1-m21-cA 3n1j-a1-m19-cA_3n1j-a1-m22-cA 3n1j-a1-m1-cA_3n1j-a1-m10-cA 3n1j-a1-m1-cA_3n1j-a1-m7-cA 3n1j-a1-m20-cA_3n1j-a1-m24-cA 3n1j-a1-m2-cA_3n1j-a1-m5-cA 3n1j-a1-m3-cA_3n1j-a1-m6-cA 3n1j-a1-m3-cA_3n1j-a1-m9-cA 3n1j-a1-m4-cA_3n1j-a1-m8-cA 3n1j-a1-m6-cA_3n1j-a1-m9-cA 3r9y-a2-m10-cA_3r9y-a2-m14-cA 3r9y-a2-m10-cA_3r9y-a2-m6-cA 3r9y-a2-m11-cA_3r9y-a2-m2-cA 3r9y-a2-m11-cA_3r9y-a2-m8-cA 3r9y-a2-m12-cA_3r9y-a2-m9-cA 3r9y-a2-m13-cA_3r9y-a2-m5-cA 3r9y-a2-m13-cA_3r9y-a2-m7-cA 3r9y-a2-m14-cA_3r9y-a2-m6-cA 3r9y-a2-m15-cA_3r9y-a2-m21-cA 3r9y-a2-m15-cA_3r9y-a2-m23-cA 3r9y-a2-m16-cA_3r9y-a2-m19-cA 3r9y-a2-m16-cA_3r9y-a2-m4-cA 3r9y-a2-m17-cA_3r9y-a2-m20-cA 3r9y-a2-m17-cA_3r9y-a2-m3-cA 3r9y-a2-m18-cA_3r9y-a2-m22-cA 3r9y-a2-m18-cA_3r9y-a2-m24-cA 3r9y-a2-m19-cA_3r9y-a2-m4-cA 3r9y-a2-m1-cA_3r9y-a2-m12-cA 3r9y-a2-m1-cA_3r9y-a2-m9-cA 3r9y-a2-m20-cA_3r9y-a2-m3-cA 3r9y-a2-m21-cA_3r9y-a2-m23-cA 3r9y-a2-m22-cA_3r9y-a2-m24-cA 3r9y-a2-m2-cA_3r9y-a2-m8-cA 3r9y-a2-m5-cA_3r9y-a2-m7-cA 3ra0-a2-m10-cA_3ra0-a2-m14-cA 3ra0-a2-m10-cA_3ra0-a2-m6-cA 3ra0-a2-m11-cA_3ra0-a2-m2-cA 3ra0-a2-m11-cA_3ra0-a2-m8-cA 3ra0-a2-m12-cA_3ra0-a2-m9-cA 3ra0-a2-m13-cA_3ra0-a2-m5-cA 3ra0-a2-m13-cA_3ra0-a2-m7-cA 3ra0-a2-m14-cA_3ra0-a2-m6-cA 3ra0-a2-m15-cA_3ra0-a2-m21-cA 3ra0-a2-m15-cA_3ra0-a2-m23-cA 3ra0-a2-m16-cA_3ra0-a2-m19-cA 3ra0-a2-m16-cA_3ra0-a2-m4-cA 3ra0-a2-m17-cA_3ra0-a2-m20-cA 3ra0-a2-m17-cA_3ra0-a2-m3-cA 3ra0-a2-m18-cA_3ra0-a2-m22-cA 3ra0-a2-m18-cA_3ra0-a2-m24-cA 3ra0-a2-m19-cA_3ra0-a2-m4-cA 3ra0-a2-m1-cA_3ra0-a2-m12-cA 3ra0-a2-m1-cA_3ra0-a2-m9-cA 3ra0-a2-m20-cA_3ra0-a2-m3-cA 3ra0-a2-m21-cA_3ra0-a2-m23-cA 3ra0-a2-m22-cA_3ra0-a2-m24-cA 3ra0-a2-m2-cA_3ra0-a2-m8-cA 3ra0-a2-m5-cA_3ra0-a2-m7-cA GRVFAPYSVFKGKAALSAEPRLPTFNRLDSGGVKLNRRGVIMLTFWPSVGERKYDWEKRQLFALSATEVGSLISMGTRDSSEFFHDPSMLSSNAGQVRKSLSIKPNADGSGYFISLSVVNNNLKTNDRFTVPVTTAEFAVMRTAFSFALPHIMGWDRFTNR GRVFAPYSVFKGKAALSAEPRLPTFNRLDSGGVKLNRRGVIMLTFWPSVGERKYDWEKRQLFALSATEVGSLISMGTRDSSEFFHDPSMLSSNAGQVRKSLSIKPNADGSGYFISLSVVNNNLKTNDRFTVPVTTAEFAVMRTAFSFALPHIMGWDRFTNR 3n1i-a2-m23-cA_3n1i-a2-m3-cA Crystal Structure of a StWhy2-ERE32 complex D9J034 D9J034 2.2 X-RAY DIFFRACTION 78 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 161 161 3n1h-a1-m1-cA_3n1h-a1-m3-cA 3n1h-a1-m1-cA_3n1h-a1-m4-cA 3n1h-a1-m2-cA_3n1h-a1-m3-cA 3n1h-a1-m2-cA_3n1h-a1-m4-cA 3n1h-a2-m10-cA_3n1h-a2-m19-cA 3n1h-a2-m10-cA_3n1h-a2-m21-cA 3n1h-a2-m11-cA_3n1h-a2-m15-cA 3n1h-a2-m11-cA_3n1h-a2-m17-cA 3n1h-a2-m12-cA_3n1h-a2-m16-cA 3n1h-a2-m12-cA_3n1h-a2-m18-cA 3n1h-a2-m13-cA_3n1h-a2-m15-cA 3n1h-a2-m13-cA_3n1h-a2-m17-cA 3n1h-a2-m14-cA_3n1h-a2-m16-cA 3n1h-a2-m14-cA_3n1h-a2-m18-cA 3n1h-a2-m19-cA_3n1h-a2-m8-cA 3n1h-a2-m1-cA_3n1h-a2-m3-cA 3n1h-a2-m1-cA_3n1h-a2-m4-cA 3n1h-a2-m20-cA_3n1h-a2-m7-cA 3n1h-a2-m20-cA_3n1h-a2-m9-cA 3n1h-a2-m21-cA_3n1h-a2-m8-cA 3n1h-a2-m22-cA_3n1h-a2-m7-cA 3n1h-a2-m22-cA_3n1h-a2-m9-cA 3n1h-a2-m23-cA_3n1h-a2-m5-cA 3n1h-a2-m23-cA_3n1h-a2-m6-cA 3n1h-a2-m24-cA_3n1h-a2-m5-cA 3n1h-a2-m24-cA_3n1h-a2-m6-cA 3n1h-a2-m2-cA_3n1h-a2-m3-cA 3n1h-a2-m2-cA_3n1h-a2-m4-cA 3n1i-a1-m10-cA_3n1i-a1-m14-cA 3n1i-a1-m10-cA_3n1i-a1-m16-cA 3n1i-a1-m11-cA_3n1i-a1-m13-cA 3n1i-a1-m11-cA_3n1i-a1-m15-cA 3n1i-a1-m12-cA_3n1i-a1-m14-cA 3n1i-a1-m12-cA_3n1i-a1-m16-cA 3n1i-a1-m13-cA_3n1i-a1-m9-cA 3n1i-a1-m15-cA_3n1i-a1-m9-cA 3n1i-a1-m17-cA_3n1i-a1-m6-cA 3n1i-a1-m17-cA_3n1i-a1-m8-cA 3n1i-a1-m18-cA_3n1i-a1-m5-cA 3n1i-a1-m18-cA_3n1i-a1-m7-cA 3n1i-a1-m19-cA_3n1i-a1-m6-cA 3n1i-a1-m19-cA_3n1i-a1-m8-cA 3n1i-a1-m1-cA_3n1i-a1-m21-cA 3n1i-a1-m1-cA_3n1i-a1-m23-cA 3n1i-a1-m20-cA_3n1i-a1-m5-cA 3n1i-a1-m20-cA_3n1i-a1-m7-cA 3n1i-a1-m21-cA_3n1i-a1-m3-cA 3n1i-a1-m22-cA_3n1i-a1-m4-cA 3n1i-a1-m23-cA_3n1i-a1-m3-cA 3n1i-a1-m24-cA_3n1i-a1-m4-cA 3n1i-a1-m2-cA_3n1i-a1-m22-cA 3n1i-a1-m2-cA_3n1i-a1-m24-cA 3n1i-a2-m1-cA_3n1i-a2-m21-cA 3n1i-a2-m1-cA_3n1i-a2-m23-cA 3n1i-a2-m21-cA_3n1i-a2-m3-cA 3n1j-a1-m10-cA_3n1j-a1-m14-cA 3n1j-a1-m10-cA_3n1j-a1-m16-cA 3n1j-a1-m11-cA_3n1j-a1-m13-cA 3n1j-a1-m11-cA_3n1j-a1-m15-cA 3n1j-a1-m12-cA_3n1j-a1-m14-cA 3n1j-a1-m12-cA_3n1j-a1-m16-cA 3n1j-a1-m13-cA_3n1j-a1-m9-cA 3n1j-a1-m15-cA_3n1j-a1-m9-cA 3n1j-a1-m17-cA_3n1j-a1-m6-cA 3n1j-a1-m17-cA_3n1j-a1-m8-cA 3n1j-a1-m18-cA_3n1j-a1-m5-cA 3n1j-a1-m18-cA_3n1j-a1-m7-cA 3n1j-a1-m19-cA_3n1j-a1-m6-cA 3n1j-a1-m19-cA_3n1j-a1-m8-cA 3n1j-a1-m1-cA_3n1j-a1-m21-cA 3n1j-a1-m1-cA_3n1j-a1-m23-cA 3n1j-a1-m20-cA_3n1j-a1-m5-cA 3n1j-a1-m20-cA_3n1j-a1-m7-cA 3n1j-a1-m21-cA_3n1j-a1-m3-cA 3n1j-a1-m22-cA_3n1j-a1-m4-cA 3n1j-a1-m23-cA_3n1j-a1-m3-cA 3n1j-a1-m24-cA_3n1j-a1-m4-cA 3n1j-a1-m2-cA_3n1j-a1-m22-cA 3n1j-a1-m2-cA_3n1j-a1-m24-cA 3n1j-a2-m1-cA_3n1j-a2-m21-cA 3n1j-a2-m1-cA_3n1j-a2-m23-cA 3n1j-a2-m21-cA_3n1j-a2-m3-cA 3n1j-a2-m23-cA_3n1j-a2-m3-cA 3n1k-a1-m1-cA_3n1k-a1-m3-cA 3n1k-a1-m1-cA_3n1k-a1-m4-cA 3n1k-a1-m2-cA_3n1k-a1-m3-cA 3n1k-a1-m2-cA_3n1k-a1-m4-cA 3n1l-a1-m1-cA_3n1l-a1-m3-cA 3n1l-a1-m1-cA_3n1l-a1-m4-cA 3n1l-a1-m2-cA_3n1l-a1-m3-cA 3n1l-a1-m2-cA_3n1l-a1-m4-cA 3r9y-a1-m1-cA_3r9y-a1-m3-cA 3r9y-a1-m1-cA_3r9y-a1-m4-cA 3r9y-a1-m2-cA_3r9y-a1-m3-cA 3r9y-a1-m2-cA_3r9y-a1-m4-cA 3r9y-a2-m10-cA_3r9y-a2-m19-cA 3r9y-a2-m10-cA_3r9y-a2-m21-cA 3r9y-a2-m11-cA_3r9y-a2-m15-cA 3r9y-a2-m11-cA_3r9y-a2-m17-cA 3r9y-a2-m12-cA_3r9y-a2-m16-cA 3r9y-a2-m12-cA_3r9y-a2-m18-cA 3r9y-a2-m13-cA_3r9y-a2-m15-cA 3r9y-a2-m13-cA_3r9y-a2-m17-cA 3r9y-a2-m14-cA_3r9y-a2-m16-cA 3r9y-a2-m14-cA_3r9y-a2-m18-cA 3r9y-a2-m19-cA_3r9y-a2-m8-cA 3r9y-a2-m1-cA_3r9y-a2-m3-cA 3r9y-a2-m1-cA_3r9y-a2-m4-cA 3r9y-a2-m20-cA_3r9y-a2-m7-cA 3r9y-a2-m20-cA_3r9y-a2-m9-cA 3r9y-a2-m21-cA_3r9y-a2-m8-cA 3r9y-a2-m22-cA_3r9y-a2-m7-cA 3r9y-a2-m22-cA_3r9y-a2-m9-cA 3r9y-a2-m23-cA_3r9y-a2-m5-cA 3r9y-a2-m23-cA_3r9y-a2-m6-cA 3r9y-a2-m24-cA_3r9y-a2-m5-cA 3r9y-a2-m24-cA_3r9y-a2-m6-cA 3r9y-a2-m2-cA_3r9y-a2-m3-cA 3r9y-a2-m2-cA_3r9y-a2-m4-cA 3r9z-a1-m1-cA_3r9z-a1-m3-cA 3r9z-a1-m1-cA_3r9z-a1-m4-cA 3r9z-a1-m2-cA_3r9z-a1-m3-cA 3r9z-a1-m2-cA_3r9z-a1-m4-cA 3ra0-a1-m1-cA_3ra0-a1-m3-cA 3ra0-a1-m1-cA_3ra0-a1-m4-cA 3ra0-a1-m2-cA_3ra0-a1-m3-cA 3ra0-a1-m2-cA_3ra0-a1-m4-cA 3ra0-a2-m10-cA_3ra0-a2-m19-cA 3ra0-a2-m10-cA_3ra0-a2-m21-cA 3ra0-a2-m11-cA_3ra0-a2-m15-cA 3ra0-a2-m11-cA_3ra0-a2-m17-cA 3ra0-a2-m12-cA_3ra0-a2-m16-cA 3ra0-a2-m12-cA_3ra0-a2-m18-cA 3ra0-a2-m13-cA_3ra0-a2-m15-cA 3ra0-a2-m13-cA_3ra0-a2-m17-cA 3ra0-a2-m14-cA_3ra0-a2-m16-cA 3ra0-a2-m14-cA_3ra0-a2-m18-cA 3ra0-a2-m19-cA_3ra0-a2-m8-cA 3ra0-a2-m1-cA_3ra0-a2-m3-cA 3ra0-a2-m1-cA_3ra0-a2-m4-cA 3ra0-a2-m20-cA_3ra0-a2-m7-cA 3ra0-a2-m20-cA_3ra0-a2-m9-cA 3ra0-a2-m21-cA_3ra0-a2-m8-cA 3ra0-a2-m22-cA_3ra0-a2-m7-cA 3ra0-a2-m22-cA_3ra0-a2-m9-cA 3ra0-a2-m23-cA_3ra0-a2-m5-cA 3ra0-a2-m23-cA_3ra0-a2-m6-cA 3ra0-a2-m24-cA_3ra0-a2-m5-cA 3ra0-a2-m24-cA_3ra0-a2-m6-cA 3ra0-a2-m2-cA_3ra0-a2-m3-cA 3ra0-a2-m2-cA_3ra0-a2-m4-cA GRVFAPYSVFKGKAALSAEPRLPTFNRLDSGGVKLNRRGVIMLTFWPSVGERKYDWEKRQLFALSATEVGSLISMGTRDSSEFFHDPSMLSSNAGQVRKSLSIKPNADGSGYFISLSVVNNNLKTNDRFTVPVTTAEFAVMRTAFSFALPHIMGWDRFTNR GRVFAPYSVFKGKAALSAEPRLPTFNRLDSGGVKLNRRGVIMLTFWPSVGERKYDWEKRQLFALSATEVGSLISMGTRDSSEFFHDPSMLSSNAGQVRKSLSIKPNADGSGYFISLSVVNNNLKTNDRFTVPVTTAEFAVMRTAFSFALPHIMGWDRFTNR 3n1s-a4-m1-cM_3n1s-a4-m1-cN Crystal structure of wild type ecHint GMP complex P0ACE7 P0ACE7 1.45 X-RAY DIFFRACTION 173 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 3n1s-a1-m1-cA_3n1s-a1-m1-cB 3n1s-a2-m1-cE_3n1s-a2-m1-cF 3n1s-a3-m1-cI_3n1s-a3-m1-cJ 3n1t-a1-m1-cA_3n1t-a1-m1-cB 3n1t-a2-m1-cE_3n1t-a2-m1-cF AEETIFSKIIRREIPSDIVYQDDLVTAFRDISPQAPTHILIIPNILIPTVNDVSAEHEQALGRMITVAAKIAEQEGIAEDGYRLIMNTNRHGGQEVYHIHMHLLGGRPLGPMLAH AEETIFSKIIRREIPSDIVYQDDLVTAFRDISPQAPTHILIIPNILIPTVNDVSAEHEQALGRMITVAAKIAEQEGIAEDGYRLIMNTNRHGGQEVYHIHMHLLGGRPLGPMLAH 3n1u-a1-m2-cA_3n1u-a1-m4-cA Structure of putative HAD superfamily (subfamily III A) hydrolase from Legionella pneumophila Q5ZX93 Q5ZX93 1.8 X-RAY DIFFRACTION 58 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 178 178 3n1u-a1-m1-cA_3n1u-a1-m3-cA 3n1u-a1-m1-cA_3n1u-a1-m4-cA 3n1u-a1-m2-cA_3n1u-a1-m3-cA SLNTEIENELLEKAKKIKCLICDVDGVLSDGLLHIDNHGNELKSFHVQDGGLKLLAAGIQVAIITTAQNAVVDHREQLGITHYYKGQVDKRSAYQHLKKTLGLNDDEFAYIGDDLPDLPLIQQVGLGVAVSNAVPQVLEFADWRTERTGGRGAVRELCDLILNAQNKAELAITGYLKQ SLNTEIENELLEKAKKIKCLICDVDGVLSDGLLHIDNHGNELKSFHVQDGGLKLLAAGIQVAIITTAQNAVVDHREQLGITHYYKGQVDKRSAYQHLKKTLGLNDDEFAYIGDDLPDLPLIQQVGLGVAVSNAVPQVLEFADWRTERTGGRGAVRELCDLILNAQNKAELAITGYLKQ 3n24-a3-m1-cE_3n24-a3-m1-cF The crystal structure of a two-component sensor domain (3rd form) from Pseudomonas aeruginosa PA01 Q9HT87 Q9HT87 2.056 X-RAY DIFFRACTION 146 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 101 113 QEQRSHHYATIEVSQQLRQLLGDQLVILLRGQALERSQNDFRRVLEQGRANTVDSAEQAALDGVRDAYLQLQAHNDGFSEAFNGLRLRLQDLQQLALAGIS QEQRSHHYATIEVSQQLRQLLGDQLVILLRETPDGQALERSQNDFRRVLEQGRANTVDSAEQAALDGVRDAYLQLQAHTPALNDGFSEAFNGLRLRLQDLQQLALAGISEAET 3n27-a1-m1-cC_3n27-a1-m1-cB Molecular Basis of the Inhibition of Henipa Viruses Q9IH63 Q9IH63 1.8 X-RAY DIFFRACTION 94 0.986 121791 () 121791 () 70 79 3n27-a1-m1-cA_3n27-a1-m1-cB AMKNADNINKLKSSIESTNEAVVKLQETAEKTVYVLTALDISIELNKAKSDLEESKEWIRRSNQKLDSIG MKNADNINKLKSSIESTNEAVVKLQETAEKTVYVLTALQDYSGGSGGIDISIELNKAKSDLEESKEWIRRSNQKLDSIG 3n29-a1-m1-cB_3n29-a1-m1-cA Crystal structure of carboxynorspermidine decarboxylase complexed with Norspermidine from Campylobacter jejuni A8FNH9 A8FNH9 1.9 X-RAY DIFFRACTION 214 1.0 407148 (Campylobacter jejuni subsp. jejuni 81116) 407148 (Campylobacter jejuni subsp. jejuni 81116) 367 371 IQTPAYILEEDKLRKNCELLASVGEKSGAKVLLALKGFAFSGAMKIVGEYLKGCTCSGLWEAKFAKEYMDKEIHTYSPAFKEDEIGEIASLSHHIVFNSLAQFHKFQSKTQKNSLGLRCNVEFSGRYSRLGIRAKDFENVDLNAIEGLHFHALCEESADALEAVLKVFEEKFGKWIGQMKWVNFGGGHHITKKGYDVEKLIALCKNFSDKYGVQVYLEPGEAVGWQTGNLVASVVDIIENEKQIAILDTSSEAHMPDTIIMPYTSEVLNARILATRENEKISDLKENEFAYLLTGNTCLAGDVMGEYAFDKKLKIGDKIVFLDQIHYTIVKNTTFNGIRLPNLMLLDHKNELQMIREFSYKDYSLRN FYEKIQTPAYILEEDKLRKNCELLASVGEKSGAKVLLALKGFAFSGAMKIVGEYLKGCTCSGLWEAKFAKEYMDKEIHTYSPAFKEDEIGEIASLSHHIVFNSLAQFHKFQSKTQKNSLGLRCNVEFSGRYSRLGIRAKDFENVDLNAIEGLHFHALCEESADALEAVLKVFEEKFGKWIGQMKWVNFGGGHHITKKGYDVEKLIALCKNFSDKYGVQVYLEPGEAVGWQTGNLVASVVDIIENEKQIAILDTSSEAHMPDTIIMPYTSEVLNARILATRENEKISDLKENEFAYLLTGNTCLAGDVMGEYAFDKKLKIGDKIVFLDQIHYTIVKNTTFNGIRLPNLMLLDHKNELQMIREFSYKDYSLRN 3n2b-a2-m1-cD_3n2b-a2-m1-cC 1.8 Angstrom Resolution Crystal Structure of Diaminopimelate Decarboxylase (lysA) from Vibrio cholerae. Q9KVL7 Q9KVL7 1.8 X-RAY DIFFRACTION 228 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 398 411 MDYFNYQEDGQLWAEQVPLADLANQYGTPLYVYSRATLERHWHAFDKSVGDYPHLICYAVKANSNLGVLNTLARLGSGFDIVSVGELERVLAAGGDPSKVVFSGVGKTEAEMKRALQLKIKCFNVESEPELQRLNKVAGELGVKAPISLRINPDVDAKTHPYISTGLRDNKFGITFDRAAQVYRLAHSLPNLDVHGIDCHIGSQLTALAPFIDATDRLLALIDSLKAEGIHIRHLDVGGGLSEYAKALLDRLERHRDLELIFEPGRAIAANAGVLVTKVEFLKHTEHKNFAIIDAAMNDLIWQDIIPLRPRQGEAQTYDLVGPVCETSDFLGKDRDLVLQEGDLLAVRSSGAYGFTMSSNYNTRPRVAEVMVDGNKTYLVRQREELSSLWALESVLPE LYFQSNAMDYFNYQEDGQLWAEQVPLADLANQYGTPLYVYSRATLERHWHAFDKSVGDYPHLICYAVKANSNLGVLNTLARLGSGFDIVSVGELERVLAAGGDPSKVVFSGVGKTEAEMKRALQLKIKCFNVESEPELQRLNKVAGELGVKAPISLRINPDVDAKTHPYISTGLRDNKFGITFDRAAQVYRLAHSLPNLDVHGIDCHIGSQLTALAPFIDATDRLLALIDSLKAEGIHIRHLDVGGGLGVVQPSEYAKALLDRLERHRDLELIFEPGRAIAANAGVLVTKVEFLKHTEHKNFAIIDAAMNDLIRWQDIIPLRPRQGEAQTYDLVGPVCETSDFLGKDRDLVLQEGDLLAVRSSGAYGFTMSSNYNTRPRVAEVMVDGNKTYLVRQREELSSLWALESVLPE 3n2c-a1-m1-cA_3n2c-a1-m1-cG Crystal structure of prolidase eah89906 complexed with n-methylphosphonate-l-proline Q393A1 Q393A1 2.81 X-RAY DIFFRACTION 47 1.0 32644 (unidentified) 32644 (unidentified) 407 407 3feq-a1-m1-cA_3feq-a1-m1-cC 3feq-a1-m1-cA_3feq-a1-m1-cG 3feq-a1-m1-cB_3feq-a1-m1-cD 3feq-a1-m1-cB_3feq-a1-m1-cH 3feq-a1-m1-cD_3feq-a1-m1-cE 3feq-a1-m1-cE_3feq-a1-m1-cH 3feq-a1-m1-cF_3feq-a1-m1-cC 3feq-a1-m1-cF_3feq-a1-m1-cG 3feq-a2-m1-cJ_3feq-a2-m1-cL 3feq-a2-m1-cJ_3feq-a2-m1-cP 3feq-a2-m1-cK_3feq-a2-m1-cI 3feq-a2-m1-cK_3feq-a2-m1-cN 3feq-a2-m1-cL_3feq-a2-m1-cM 3feq-a2-m1-cO_3feq-a2-m1-cI 3feq-a2-m1-cO_3feq-a2-m1-cN 3feq-a2-m1-cP_3feq-a2-m1-cM 3n2c-a1-m1-cA_3n2c-a1-m1-cC 3n2c-a1-m1-cB_3n2c-a1-m1-cD 3n2c-a1-m1-cB_3n2c-a1-m1-cH 3n2c-a1-m1-cC_3n2c-a1-m1-cF 3n2c-a1-m1-cD_3n2c-a1-m1-cE 3n2c-a1-m1-cE_3n2c-a1-m1-cH 3n2c-a1-m1-cF_3n2c-a1-m1-cG 3n2c-a2-m1-cI_3n2c-a2-m1-cK 3n2c-a2-m1-cI_3n2c-a2-m1-cO 3n2c-a2-m1-cJ_3n2c-a2-m1-cL 3n2c-a2-m1-cJ_3n2c-a2-m1-cP 3n2c-a2-m1-cK_3n2c-a2-m1-cN 3n2c-a2-m1-cL_3n2c-a2-m1-cM 3n2c-a2-m1-cM_3n2c-a2-m1-cP 3n2c-a2-m1-cN_3n2c-a2-m1-cO TITVLQGGNVLDLERGVLLEHHHVVIDGERIVEVTDRPVDLPNAQAIDVRGKTVMPGFIDCHVHVLASNANLGVNATQPNILAAIRSLPILDAMLSRGFTSVRDAGGADWSLMQAVETGLVSGPRIFPSGKALSQTGGHGDFRPRGDLLEPCSCCFRTGAIARVVDGVEGVRLAVREEIQKGATQIIMASGGVASPTDPIANTQYSEDEIRAIVDEAEAANTYVMAHAYTGRAIARAVRCGVRTIEHGNLVDEAAAKLMHEHGAFVVPTLVTYDALAKHGAEFGMPPESVAKVASVQQKGRESLEIYANAGVKMGFGSDLLGEMHAFQSGEFRIRAEVLGNLEALRSATTVAAEIVNMQGQLGVIAVGAIADLVVLDGNPLEDIGVVADEGARVEYVLQRGTLVKRQ TITVLQGGNVLDLERGVLLEHHHVVIDGERIVEVTDRPVDLPNAQAIDVRGKTVMPGFIDCHVHVLASNANLGVNATQPNILAAIRSLPILDAMLSRGFTSVRDAGGADWSLMQAVETGLVSGPRIFPSGKALSQTGGHGDFRPRGDLLEPCSCCFRTGAIARVVDGVEGVRLAVREEIQKGATQIIMASGGVASPTDPIANTQYSEDEIRAIVDEAEAANTYVMAHAYTGRAIARAVRCGVRTIEHGNLVDEAAAKLMHEHGAFVVPTLVTYDALAKHGAEFGMPPESVAKVASVQQKGRESLEIYANAGVKMGFGSDLLGEMHAFQSGEFRIRAEVLGNLEALRSATTVAAEIVNMQGQLGVIAVGAIADLVVLDGNPLEDIGVVADEGARVEYVLQRGTLVKRQ 3n2c-a1-m1-cD_3n2c-a1-m1-cG Crystal structure of prolidase eah89906 complexed with n-methylphosphonate-l-proline Q393A1 Q393A1 2.81 X-RAY DIFFRACTION 50 1.0 32644 (unidentified) 32644 (unidentified) 407 407 3feq-a1-m1-cA_3feq-a1-m1-cB 3feq-a1-m1-cD_3feq-a1-m1-cG 3feq-a1-m1-cE_3feq-a1-m1-cF 3feq-a1-m1-cH_3feq-a1-m1-cC 3feq-a2-m1-cJ_3feq-a2-m1-cI 3feq-a2-m1-cK_3feq-a2-m1-cP 3feq-a2-m1-cN_3feq-a2-m1-cM 3feq-a2-m1-cO_3feq-a2-m1-cL 3n2c-a1-m1-cA_3n2c-a1-m1-cB 3n2c-a1-m1-cC_3n2c-a1-m1-cH 3n2c-a1-m1-cE_3n2c-a1-m1-cF 3n2c-a2-m1-cI_3n2c-a2-m1-cJ 3n2c-a2-m1-cK_3n2c-a2-m1-cP 3n2c-a2-m1-cL_3n2c-a2-m1-cO 3n2c-a2-m1-cM_3n2c-a2-m1-cN TITVLQGGNVLDLERGVLLEHHHVVIDGERIVEVTDRPVDLPNAQAIDVRGKTVMPGFIDCHVHVLASNANLGVNATQPNILAAIRSLPILDAMLSRGFTSVRDAGGADWSLMQAVETGLVSGPRIFPSGKALSQTGGHGDFRPRGDLLEPCSCCFRTGAIARVVDGVEGVRLAVREEIQKGATQIIMASGGVASPTDPIANTQYSEDEIRAIVDEAEAANTYVMAHAYTGRAIARAVRCGVRTIEHGNLVDEAAAKLMHEHGAFVVPTLVTYDALAKHGAEFGMPPESVAKVASVQQKGRESLEIYANAGVKMGFGSDLLGEMHAFQSGEFRIRAEVLGNLEALRSATTVAAEIVNMQGQLGVIAVGAIADLVVLDGNPLEDIGVVADEGARVEYVLQRGTLVKRQ TITVLQGGNVLDLERGVLLEHHHVVIDGERIVEVTDRPVDLPNAQAIDVRGKTVMPGFIDCHVHVLASNANLGVNATQPNILAAIRSLPILDAMLSRGFTSVRDAGGADWSLMQAVETGLVSGPRIFPSGKALSQTGGHGDFRPRGDLLEPCSCCFRTGAIARVVDGVEGVRLAVREEIQKGATQIIMASGGVASPTDPIANTQYSEDEIRAIVDEAEAANTYVMAHAYTGRAIARAVRCGVRTIEHGNLVDEAAAKLMHEHGAFVVPTLVTYDALAKHGAEFGMPPESVAKVASVQQKGRESLEIYANAGVKMGFGSDLLGEMHAFQSGEFRIRAEVLGNLEALRSATTVAAEIVNMQGQLGVIAVGAIADLVVLDGNPLEDIGVVADEGARVEYVLQRGTLVKRQ 3n2c-a1-m1-cE_3n2c-a1-m1-cG Crystal structure of prolidase eah89906 complexed with n-methylphosphonate-l-proline Q393A1 Q393A1 2.81 X-RAY DIFFRACTION 19 1.0 32644 (unidentified) 32644 (unidentified) 407 407 3feq-a1-m1-cA_3feq-a1-m1-cD 3feq-a1-m1-cB_3feq-a1-m1-cC 3feq-a2-m1-cJ_3feq-a2-m1-cK 3n2c-a1-m1-cA_3n2c-a1-m1-cD 3n2c-a1-m1-cB_3n2c-a1-m1-cC 3n2c-a1-m1-cF_3n2c-a1-m1-cH 3n2c-a2-m1-cI_3n2c-a2-m1-cL 3n2c-a2-m1-cJ_3n2c-a2-m1-cK 3n2c-a2-m1-cM_3n2c-a2-m1-cO 3n2c-a2-m1-cN_3n2c-a2-m1-cP TITVLQGGNVLDLERGVLLEHHHVVIDGERIVEVTDRPVDLPNAQAIDVRGKTVMPGFIDCHVHVLASNANLGVNATQPNILAAIRSLPILDAMLSRGFTSVRDAGGADWSLMQAVETGLVSGPRIFPSGKALSQTGGHGDFRPRGDLLEPCSCCFRTGAIARVVDGVEGVRLAVREEIQKGATQIIMASGGVASPTDPIANTQYSEDEIRAIVDEAEAANTYVMAHAYTGRAIARAVRCGVRTIEHGNLVDEAAAKLMHEHGAFVVPTLVTYDALAKHGAEFGMPPESVAKVASVQQKGRESLEIYANAGVKMGFGSDLLGEMHAFQSGEFRIRAEVLGNLEALRSATTVAAEIVNMQGQLGVIAVGAIADLVVLDGNPLEDIGVVADEGARVEYVLQRGTLVKRQ TITVLQGGNVLDLERGVLLEHHHVVIDGERIVEVTDRPVDLPNAQAIDVRGKTVMPGFIDCHVHVLASNANLGVNATQPNILAAIRSLPILDAMLSRGFTSVRDAGGADWSLMQAVETGLVSGPRIFPSGKALSQTGGHGDFRPRGDLLEPCSCCFRTGAIARVVDGVEGVRLAVREEIQKGATQIIMASGGVASPTDPIANTQYSEDEIRAIVDEAEAANTYVMAHAYTGRAIARAVRCGVRTIEHGNLVDEAAAKLMHEHGAFVVPTLVTYDALAKHGAEFGMPPESVAKVASVQQKGRESLEIYANAGVKMGFGSDLLGEMHAFQSGEFRIRAEVLGNLEALRSATTVAAEIVNMQGQLGVIAVGAIADLVVLDGNPLEDIGVVADEGARVEYVLQRGTLVKRQ 3n2l-a6-m1-cF_3n2l-a6-m1-cE 2.1 Angstrom resolution crystal structure of an Orotate Phosphoribosyltransferase (pyrE) from Vibrio cholerae O1 biovar eltor str. N16961 Q9KVD5 Q9KVD5 2.1 X-RAY DIFFRACTION 107 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 177 205 3n2l-a1-m1-cB_3n2l-a1-m1-cA 3n2l-a2-m1-cD_3n2l-a2-m1-cC 3n2l-a3-m1-cF_3n2l-a3-m1-cE 3n2l-a4-m1-cH_3n2l-a4-m1-cG 3n2l-a5-m1-cB_3n2l-a5-m1-cA 3n2l-a5-m1-cD_3n2l-a5-m1-cC 3n2l-a6-m1-cH_3n2l-a6-m1-cG MKAYQREFIEFALEKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLARLGRFYAAALVDSGIEFDVLFGPAYKGIPIATTTAVALADHHDVDTPYCFNRKENLVGSKLEGRVMLVDDVITAGTAIRESMELIQANKADLAGVLVAIDRQAIQEVERDFGCAVISIVSLTDLITYLEQ MKAYQREFIEFALEKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLARLGRFYAAALVDSGIEFDVLFGPAYKGIPIATTTAVALADHHDVDTPYCFNRKENLVGSKLEGRVMLVDDVITAGTAIRESMELIQANKADLAGVLVAIDRQEKGKGELSAIQEVERDFGCAVISIVSLTDLITYLEQQGNNTEHLEAVKAYRAQYGI 3n2l-a6-m1-cG_3n2l-a6-m1-cE 2.1 Angstrom resolution crystal structure of an Orotate Phosphoribosyltransferase (pyrE) from Vibrio cholerae O1 biovar eltor str. N16961 Q9KVD5 Q9KVD5 2.1 X-RAY DIFFRACTION 96 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 194 205 3n2l-a5-m1-cC_3n2l-a5-m1-cA MKAYQREFIEFALEKQVLKFGEFTLRKSPYFFNAGLFNTGRDLARLGRFYAAALVDSGIEFDVLFGPAYKGIPIATTTAVALADHHDVDTPYCFNRKNLVGSKLEGRVMLVDDVITAIRESMELIQANKADLAGVLVAIDRQEKGSAIQEVERDFGCAVISIVSLTDLITYLEQQGNNTEHLEAVKAYRAQYGI MKAYQREFIEFALEKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLARLGRFYAAALVDSGIEFDVLFGPAYKGIPIATTTAVALADHHDVDTPYCFNRKENLVGSKLEGRVMLVDDVITAGTAIRESMELIQANKADLAGVLVAIDRQEKGKGELSAIQEVERDFGCAVISIVSLTDLITYLEQQGNNTEHLEAVKAYRAQYGI 3n2l-a6-m1-cH_3n2l-a6-m1-cE 2.1 Angstrom resolution crystal structure of an Orotate Phosphoribosyltransferase (pyrE) from Vibrio cholerae O1 biovar eltor str. N16961 Q9KVD5 Q9KVD5 2.1 X-RAY DIFFRACTION 11 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 169 205 3n2l-a5-m1-cD_3n2l-a5-m1-cA MKAYQREFIEFALEKQVLKFGEFTKSPYFFNAGLFNTGRDLARLGRFYAAALVDSGIEFDVLFGPAYKGIPIATTTAVALADHHDVDTPYCFNRKNLVGSKLEGRVMLVDDVITTAIRESMELIQANKADLAGVLVAIDRQAIQEVERDFGCAVISIVSLTDLITYLEQ MKAYQREFIEFALEKQVLKFGEFTLKSGRKSPYFFNAGLFNTGRDLARLGRFYAAALVDSGIEFDVLFGPAYKGIPIATTTAVALADHHDVDTPYCFNRKENLVGSKLEGRVMLVDDVITAGTAIRESMELIQANKADLAGVLVAIDRQEKGKGELSAIQEVERDFGCAVISIVSLTDLITYLEQQGNNTEHLEAVKAYRAQYGI 3n2n-a1-m1-cC_3n2n-a1-m1-cF The Crystal Structure of Tumor Endothelial Marker 8 (TEM8) extracellular domain Q9H6X2 Q9H6X2 1.8 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 3n2n-a1-m1-cA_3n2n-a1-m1-cD 3n2n-a1-m1-cB_3n2n-a1-m1-cE SMACYGGFDLYFILDKSGSVLHHWNEIYYFVEQLAHKFISPQLRMSFIVFSTRGTTLMKLTEDREQIRQGLEELQKVLPGGDTYMHEGFERASEQIYYENRQGYRTASVIIALTDGELHEDLFFYSEREANRSRDLGAIVYAVGVKDFNETQLARIADSKDHVFPVNDGFQALQGIIHSILKKSC SMACYGGFDLYFILDKSGSVLHHWNEIYYFVEQLAHKFISPQLRMSFIVFSTRGTTLMKLTEDREQIRQGLEELQKVLPGGDTYMHEGFERASEQIYYENRQGYRTASVIIALTDGELHEDLFFYSEREANRSRDLGAIVYAVGVKDFNETQLARIADSKDHVFPVNDGFQALQGIIHSILKKSC 3n2n-a1-m1-cE_3n2n-a1-m1-cF The Crystal Structure of Tumor Endothelial Marker 8 (TEM8) extracellular domain Q9H6X2 Q9H6X2 1.8 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 3n2n-a1-m1-cA_3n2n-a1-m1-cB 3n2n-a1-m1-cA_3n2n-a1-m1-cC 3n2n-a1-m1-cB_3n2n-a1-m1-cC 3n2n-a1-m1-cD_3n2n-a1-m1-cE 3n2n-a1-m1-cD_3n2n-a1-m1-cF SMACYGGFDLYFILDKSGSVLHHWNEIYYFVEQLAHKFISPQLRMSFIVFSTRGTTLMKLTEDREQIRQGLEELQKVLPGGDTYMHEGFERASEQIYYENRQGYRTASVIIALTDGELHEDLFFYSEREANRSRDLGAIVYAVGVKDFNETQLARIADSKDHVFPVNDGFQALQGIIHSILKKSC SMACYGGFDLYFILDKSGSVLHHWNEIYYFVEQLAHKFISPQLRMSFIVFSTRGTTLMKLTEDREQIRQGLEELQKVLPGGDTYMHEGFERASEQIYYENRQGYRTASVIIALTDGELHEDLFFYSEREANRSRDLGAIVYAVGVKDFNETQLARIADSKDHVFPVNDGFQALQGIIHSILKKSC 3n2o-a2-m1-cC_3n2o-a2-m1-cD X-ray crystal structure of arginine decarboxylase complexed with Arginine from Vibrio vulnificus Q7MK24 Q7MK24 2.3 X-RAY DIFFRACTION 362 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 628 629 3n2o-a1-m1-cB_3n2o-a1-m1-cA DRVRADYNVHYWSQGFYGIDDQGEMYVSPRSDNAHQIQLSKIVKQLEERQLNVPVLVRFPQILHQRVHSICDAFNQAIEEYQYPNKYLLVYPIKVNQQREVVDEILASQAQLETKQLGLEAGSKPELLAVLAMAQHASSVIVCNGYKDREYIRLALIGEKLGHKVFIVLEKMSELDLVLREAKSLGVTPRLGIRIRLASQGAGKWQASGGEKSKFGLSASQVLNVISRLKKENQLDTLQLVHFHLGSQMANIRDVRNGVNESARFYCELRTLGANITYFDVGGGLAIDYDGTRSQSSNSMNYGLVEYARNIVNTVGDVCKDYKQPMPVIISESGRSLTAHHAVLISNVIGTETYKPETVTEPEEDFPLLLNNMWRSWLNLHNGTDARALIEIYNDTQSDLAEVHSQFATGVLTLEHRAWAEQTSLRIYYELNRLMSTKNRFHRPILDELSERLADKFFVNFSLFQSLPDSWGIDQVFPVLPLSGLQNAADRRAVMLDITCDSDGAIDAYVDGQGIESTLPVPAWNEDEPYLMGFFLVGAYQEILGDMHNLFGDTHSVVVNVGDQGEINIDFINEGDTVEDMMRYVHIDVDQIRKNYHSLVSQRVDQEEQQQILAELEQGLSGYTYLED LDRVRADYNVHYWSQGFYGIDDQGEMYVSPRSDNAHQIQLSKIVKQLEERQLNVPVLVRFPQILHQRVHSICDAFNQAIEEYQYPNKYLLVYPIKVNQQREVVDEILASQAQLETKQLGLEAGSKPELLAVLAMAQHASSVIVCNGYKDREYIRLALIGEKLGHKVFIVLEKMSELDLVLREAKSLGVTPRLGIRIRLASQGAGKWQASGGEKSKFGLSASQVLNVISRLKKENQLDTLQLVHFHLGSQMANIRDVRNGVNESARFYCELRTLGANITYFDVGGGLAIDYDGTRSQSSNSMNYGLVEYARNIVNTVGDVCKDYKQPMPVIISESGRSLTAHHAVLISNVIGTETYKPETVTEPEEDFPLLLNNMWRSWLNLHNGTDARALIEIYNDTQSDLAEVHSQFATGVLTLEHRAWAEQTSLRIYYELNRLMSTKNRFHRPILDELSERLADKFFVNFSLFQSLPDSWGIDQVFPVLPLSGLQNAADRRAVMLDITCDSDGAIDAYVDGQGIESTLPVPAWNEDEPYLMGFFLVGAYQEILGDMHNLFGDTHSVVVNVGDQGEINIDFINEGDTVEDMMRYVHIDVDQIRKNYHSLVSQRVDQEEQQQILAELEQGLSGYTYLED 3n2q-a1-m1-cA_3n2q-a1-m2-cA Crystal structure of Sex pheromone staph-cAM373 precursor Q816Y4 Q816Y4 2.55 X-RAY DIFFRACTION 151 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 275 275 NAPLKEQKVINTANIKTNSKLDLAEYENGLINIATQQFDTESHVLQLNQYIPEKLIDELVAKVEAPVLTNIIEQDYFGKNELSLSGVIGLASSSVSNEEASKGTEVAKQLIEAINKNDKYNKSPITFAIFKQESTSSLKNGTYIASATVQKNDTNLGNWSTIDEKSYSYPSDEFTQAHGEDNTKINNFAKEIKGFNGDFIPVNAKVSYKKDQDTLNNIVIKYNGKTELALTQLAAQGLDKLPKDAKVQLQIKSESKIEAVIIKEKNSDKPFVSFL NAPLKEQKVINTANIKTNSKLDLAEYENGLINIATQQFDTESHVLQLNQYIPEKLIDELVAKVEAPVLTNIIEQDYFGKNELSLSGVIGLASSSVSNEEASKGTEVAKQLIEAINKNDKYNKSPITFAIFKQESTSSLKNGTYIASATVQKNDTNLGNWSTIDEKSYSYPSDEFTQAHGEDNTKINNFAKEIKGFNGDFIPVNAKVSYKKDQDTLNNIVIKYNGKTELALTQLAAQGLDKLPKDAKVQLQIKSESKIEAVIIKEKNSDKPFVSFL 3n2s-a2-m1-cD_3n2s-a2-m1-cC Structure of NfrA1 nitroreductase from B. subtilis P39605 P39605 1.95 X-RAY DIFFRACTION 284 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 241 242 3n2s-a1-m1-cA_3n2s-a1-m1-cB NTIETILNHRSIRSFTDQLLTAEEIDTLVKSAQAASTSSYVQAYSIIGVSDPEKKRELSVLAGNQPYVEKNGHFFVFCADLYRHQQLAEEKGEHISELLENTEFVSLIDAALAAQNSIAAESGLGICYIGGIRNELDKVTEVLQTPDHVLPLFGLAVGHPANLSGKKPRLPKQAVYHENTYNVNTDDFRHTNTYDKTISDYYRERTNGKREETWSDQILNFKQKPRTYLNDYVKEKGFNKN NNTIETILNHRSIRSFTDQLLTAEEIDTLVKSAQAASTSSYVQAYSIIGVSDPEKKRELSVLAGNQPYVEKNGHFFVFCADLYRHQQLAEEKGEHISELLENTEFVSLIDAALAAQNSIAAESGLGICYIGGIRNELDKVTEVLQTPDHVLPLFGLAVGHPANLSGKKPRLPKQAVYHENTYNVNTDDFRHTNTYDKTISDYYRERTNGKREETWSDQILNFKQKPRTYLNDYVKEKGFNKN 3n2w-a1-m1-cD_3n2w-a1-m1-cB Crystal structure of the N-terminal beta-aminopeptidase BapA from Sphingosinicella xenopeptidilytica Q52VH2 Q52VH2 1.45 X-RAY DIFFRACTION 101 1.0 364098 (Sphingosinicella xenopeptidilytica) 364098 (Sphingosinicella xenopeptidilytica) 361 365 3n2w-a1-m1-cA_3n2w-a1-m1-cC 3n33-a1-m1-cA_3n33-a1-m1-cD 3n33-a1-m1-cB_3n33-a1-m1-cC 3n5i-a1-m1-cA_3n5i-a1-m1-cB 3n5i-a1-m1-cC_3n5i-a1-m1-cD 3ndv-a1-m1-cA_3ndv-a1-m1-cD 3ndv-a1-m1-cB_3ndv-a1-m1-cC 3nfb-a1-m1-cB_3nfb-a1-m1-cC 3nfb-a1-m1-cD_3nfb-a1-m1-cA GPRARDLGVPFEGTPGALNAITDVAGVEVGHTTVISGDGAMVIGKGPYRTGVTIIHPLGKTSLDGVAAGRAVINGTGEWTGMHLVDEVGQFLGPIALTGTGNVGLVHQSMMDWSVGKVPEEALFSRLLPVVAETLDNRLNDVFGHGLTRDHVFAALDGAKGGPVAEGNVGGGTGMIAYTFKGGIGTSSRVVSAGDTRYTVGVLVQANHGDRNDLRIAGVQIGKEIKGAWPEVNGIVAAGSLLIVIATDAPLMPHQLERMARRAALGVGRNGSTAGALSGEFALAFSTSHVIPLGGKPRLPAIINDTDSETMNALFRGVVQATEEALVNQLVASETMTGANNAKVYGIPHDQLARIMKARFP GPRARDLGVPFEGTPGALNAITDVAGVEVGHTTVISGDGAMVIGKGPYRTGVTIIHPLGKTSLDGVAAGRAVINGTGEWTGMHLVDEVGQFLGPIALTGTGNVGLVHQSMMDWSVGKVPEEALFSRLLPVVAETLDNRLNDVFGHGLTRDHVFAALDGAKGGPVAEGNVGGGTGMIAYTFKGGIGTSSRVVSAGDTRYTVGVLVQANHGDRNDLRIAGVQIGKEIKGAWPEVNGIVAAGPDAGSLLIVIATDAPLMPHQLERMARRAALGVGRNGSTAGALSGEFALAFSTSHVIPLGGKPRLPAIINDTDSETMNALFRGVVQATEEALVNQLVASETMTGANNAKVYGIPHDQLARIMKARFP 3n2z-a1-m1-cB_3n2z-a1-m2-cB The Structure of Human Prolylcarboxypeptidase at 2.80 Angstroms Resolution P42785 P42785 2.79 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 KNYSVLYFQQKVDHFGFNTVKTFNQRYLVADKYWKKNGGSILFYTGNEGDIIWFCNNTGFMWDVAEELKAMLVFAEHRYYGESLPFGDNSFKDSRHLNFLTSEQALADFAELIKHLKRTIPGAENQPVIAIGGSYGGMLAAWFRMKYPHMVVGALAASAPIWQFEDLVPCGVFMKIVTTDFRKSGPHCSESIHRSWDAINRLSNTGSGLQWLTGALHLCSPLTSQDIQHLKDWISETWVNLAMVDYPYASNFLQPLPAWPIKVVCQYLKNPNVSDSLLLQNIFQALNVYYNYSGQVKCLNISESLGTLGWSYQACTEVVMPFCTNGVDDMFEPHSWNLKELSDDCFQQWGVRPRPSWITTMYGGKNISSHTNIVFSNGELDPWSGGGVTKDITDTLVAVTISEGAHHLDLRTKNALDPMSVLLARSLEVRHMKNWIRDFYDS KNYSVLYFQQKVDHFGFNTVKTFNQRYLVADKYWKKNGGSILFYTGNEGDIIWFCNNTGFMWDVAEELKAMLVFAEHRYYGESLPFGDNSFKDSRHLNFLTSEQALADFAELIKHLKRTIPGAENQPVIAIGGSYGGMLAAWFRMKYPHMVVGALAASAPIWQFEDLVPCGVFMKIVTTDFRKSGPHCSESIHRSWDAINRLSNTGSGLQWLTGALHLCSPLTSQDIQHLKDWISETWVNLAMVDYPYASNFLQPLPAWPIKVVCQYLKNPNVSDSLLLQNIFQALNVYYNYSGQVKCLNISESLGTLGWSYQACTEVVMPFCTNGVDDMFEPHSWNLKELSDDCFQQWGVRPRPSWITTMYGGKNISSHTNIVFSNGELDPWSGGGVTKDITDTLVAVTISEGAHHLDLRTKNALDPMSVLLARSLEVRHMKNWIRDFYDS 3n33-a1-m1-cA_3n33-a1-m1-cC Crystal structure of the N-terminal beta-aminopeptidase BapA in complex with pefabloc SC (AEBSF) Q52VH2 Q52VH2 1.8 X-RAY DIFFRACTION 54 1.0 364098 (Sphingosinicella xenopeptidilytica) 364098 (Sphingosinicella xenopeptidilytica) 367 367 3n2w-a1-m1-cB_3n2w-a1-m1-cC 3n2w-a1-m1-cD_3n2w-a1-m1-cA 3n33-a1-m1-cB_3n33-a1-m1-cD 3n5i-a1-m1-cA_3n5i-a1-m1-cD 3n5i-a1-m1-cB_3n5i-a1-m1-cC 3ndv-a1-m1-cB_3ndv-a1-m1-cD 3ndv-a1-m1-cC_3ndv-a1-m1-cA 3nfb-a1-m1-cB_3nfb-a1-m1-cA 3nfb-a1-m1-cD_3nfb-a1-m1-cC GPRARDLGVPFEGTPGALNAITDVAGVEVGHTTVISGDGAMVIGKGPYRTGVTIIHPLGKTSLDGVAAGRAVINGTGEWTGMHLVDEVGQFLGPIALTGTGNVGLVHQSMMDWSVGKVPEEALFSRLLPVVAETLDNRLNDVFGHGLTRDHVFAALDGAKGGPVAEGNVGGGTGMIAYTFKGGIGTSSRVVSAGDTRYTVGVLVQANHGDRNDLRIAGVQIGKEIKGAWPEVNGIVAAGPDAGKPSLLIVIATDAPLMPHQLERMARRAALGVGRNGSTAGALSGEFALAFSTSHVIPLGGKPRLPAIINDTDSETMNALFRGVVQATEEALVNQLVASETMTGANNAKVYGIPHDQLARIMKARFP GPRARDLGVPFEGTPGALNAITDVAGVEVGHTTVISGDGAMVIGKGPYRTGVTIIHPLGKTSLDGVAAGRAVINGTGEWTGMHLVDEVGQFLGPIALTGTGNVGLVHQSMMDWSVGKVPEEALFSRLLPVVAETLDNRLNDVFGHGLTRDHVFAALDGAKGGPVAEGNVGGGTGMIAYTFKGGIGTSSRVVSAGDTRYTVGVLVQANHGDRNDLRIAGVQIGKEIKGAWPEVNGIVAAGPDAGKPSLLIVIATDAPLMPHQLERMARRAALGVGRNGSTAGALSGEFALAFSTSHVIPLGGKPRLPAIINDTDSETMNALFRGVVQATEEALVNQLVASETMTGANNAKVYGIPHDQLARIMKARFP 3n33-a1-m1-cC_3n33-a1-m1-cD Crystal structure of the N-terminal beta-aminopeptidase BapA in complex with pefabloc SC (AEBSF) Q52VH2 Q52VH2 1.8 X-RAY DIFFRACTION 106 1.0 364098 (Sphingosinicella xenopeptidilytica) 364098 (Sphingosinicella xenopeptidilytica) 367 367 3n2w-a1-m1-cB_3n2w-a1-m1-cA 3n2w-a1-m1-cD_3n2w-a1-m1-cC 3n33-a1-m1-cA_3n33-a1-m1-cB 3n5i-a1-m1-cA_3n5i-a1-m1-cC 3n5i-a1-m1-cB_3n5i-a1-m1-cD 3ndv-a1-m1-cB_3ndv-a1-m1-cA 3ndv-a1-m1-cC_3ndv-a1-m1-cD 3nfb-a1-m1-cB_3nfb-a1-m1-cD 3nfb-a1-m1-cC_3nfb-a1-m1-cA GPRARDLGVPFEGTPGALNAITDVAGVEVGHTTVISGDGAMVIGKGPYRTGVTIIHPLGKTSLDGVAAGRAVINGTGEWTGMHLVDEVGQFLGPIALTGTGNVGLVHQSMMDWSVGKVPEEALFSRLLPVVAETLDNRLNDVFGHGLTRDHVFAALDGAKGGPVAEGNVGGGTGMIAYTFKGGIGTSSRVVSAGDTRYTVGVLVQANHGDRNDLRIAGVQIGKEIKGAWPEVNGIVAAGPDAGKPSLLIVIATDAPLMPHQLERMARRAALGVGRNGSTAGALSGEFALAFSTSHVIPLGGKPRLPAIINDTDSETMNALFRGVVQATEEALVNQLVASETMTGANNAKVYGIPHDQLARIMKARFP GPRARDLGVPFEGTPGALNAITDVAGVEVGHTTVISGDGAMVIGKGPYRTGVTIIHPLGKTSLDGVAAGRAVINGTGEWTGMHLVDEVGQFLGPIALTGTGNVGLVHQSMMDWSVGKVPEEALFSRLLPVVAETLDNRLNDVFGHGLTRDHVFAALDGAKGGPVAEGNVGGGTGMIAYTFKGGIGTSSRVVSAGDTRYTVGVLVQANHGDRNDLRIAGVQIGKEIKGAWPEVNGIVAAGPDAGKPSLLIVIATDAPLMPHQLERMARRAALGVGRNGSTAGALSGEFALAFSTSHVIPLGGKPRLPAIINDTDSETMNALFRGVVQATEEALVNQLVASETMTGANNAKVYGIPHDQLARIMKARFP 3n3b-a1-m1-cA_3n3b-a1-m1-cB Ribonucleotide Reductase Dimanganese(II)-NrdF from Escherichia coli in Complex with Reduced NrdI with a Trapped Peroxide P37146 P37146 2.36 X-RAY DIFFRACTION 123 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 284 284 3n37-a1-m1-cA_3n37-a1-m2-cA 3n38-a1-m1-cA_3n38-a1-m2-cA 3n39-a1-m1-cA_3n39-a1-m1-cB 3n3a-a1-m1-cA_3n3a-a1-m1-cB 4m1f-a1-m1-cA_4m1f-a1-m2-cA RISAINWNKISDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLTVVEQQLTMRVFTGLTLLDTLQNVIGAPSLMPDALTPHEEAVLSNISFMEAVHARSYSSIFSTLCQTKDVDAAYAWSEENAPLQRKAQIIQQHYRGDDPLKKKIASVFLESFLFYSGFWLPMYFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQKNMEKISLGQREELKSFAFDLLLELYDNELQYTDELYAETPWADDVKAFLCYNANKALMNLGYEPLFPAEMAEVNPAILAALSP RISAINWNKISDDKDLEVWNRLTSNFWLPEKVPLSNDIPAWQTLTVVEQQLTMRVFTGLTLLDTLQNVIGAPSLMPDALTPHEEAVLSNISFMEAVHARSYSSIFSTLCQTKDVDAAYAWSEENAPLQRKAQIIQQHYRGDDPLKKKIASVFLESFLFYSGFWLPMYFSSRGKLTNTADLIRLIIRDEAVHGYYIGYKYQKNMEKISLGQREELKSFAFDLLLELYDNELQYTDELYAETPWADDVKAFLCYNANKALMNLGYEPLFPAEMAEVNPAILAALSP 3n3e-a1-m1-cB_3n3e-a1-m1-cA Zebrafish AlphaA crystallin Q8UUZ6 Q8UUZ6 1.75 X-RAY DIFFRACTION 53 1.0 7955 (Danio rerio) 7955 (Danio rerio) 104 106 VSEVRSDREKFTVYLDVKHFSPDELSVKVTDDYVEIQGKHGERQDDHGYISREFHRRYRLPSNVDQSAITCTLSADGLLTLCGPKTSGIDAGRGDRTIPVTRED GVSEVRSDREKFTVYLDVKHFSPDELSVKVTDDYVEIQGKHGERQDDHGYISREFHRRYRLPSNVDQSAITCTLSADGLLTLCGPKTSGIDAGRGDRTIPVTREDK 3n3f-a2-m4-cB_3n3f-a2-m5-cB Crystal Structure of the Human Collagen XV Trimerization Domain: A Potent Trimerizing Unit Common to Multiplexin Collagens P39059 P39059 2.005 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 3n3f-a1-m1-cA_3n3f-a1-m2-cA 3n3f-a1-m1-cA_3n3f-a1-m3-cA 3n3f-a1-m2-cA_3n3f-a1-m3-cA 3n3f-a2-m1-cB_3n3f-a2-m4-cB 3n3f-a2-m1-cB_3n3f-a2-m5-cB LVTAFSNMDDMLQKAHLVIEGTFIYLRDSTEFFIRVRDGWKKLQLGELIPIPA LVTAFSNMDDMLQKAHLVIEGTFIYLRDSTEFFIRVRDGWKKLQLGELIPIPA 3n3y-a1-m1-cA_3n3y-a1-m1-cB Crystal structure of Thymidylate Synthase X (ThyX) from Helicobacter pylori with FAD and dUMP at 2.31A resolution Q5UVJ4 Q5UVJ4 2.307 X-RAY DIFFRACTION 111 1.0 102617 (Helicobacter pylori SS1) 102617 (Helicobacter pylori SS1) 209 209 3ah5-a1-m1-cB_3ah5-a1-m1-cD 3ah5-a1-m1-cC_3ah5-a1-m1-cA 3ah5-a2-m1-cE_3ah5-a2-m2-cF 3ah5-a2-m1-cF_3ah5-a2-m2-cE 3n3y-a1-m1-cC_3n3y-a1-m1-cD FMEVICKHYTPLDIASQAIRTCWQSFEYSDDGGCKDKELIHRVGNIFRHSSTLEHLYYNFEIKGLSRGALQELSRHRIASLSVKSSRYTLRELKEVESFLPLNETNLERAREFLVFVDNEKVNAMSVLALENLRVLLSEHNIKNDLAKYAMPESYKTHLAYSINARSLQNLLTLRSSNKALKEMQDLAKALFDALPGEHQYLFEDCLKH FMEVICKHYTPLDIASQAIRTCWQSFEYSDDGGCKDKELIHRVGNIFRHSSTLEHLYYNFEIKGLSRGALQELSRHRIASLSVKSSRYTLRELKEVESFLPLNETNLERAREFLVFVDNEKVNAMSVLALENLRVLLSEHNIKNDLAKYAMPESYKTHLAYSINARSLQNLLTLRSSNKALKEMQDLAKALFDALPGEHQYLFEDCLKH 3n3y-a1-m1-cD_3n3y-a1-m1-cA Crystal structure of Thymidylate Synthase X (ThyX) from Helicobacter pylori with FAD and dUMP at 2.31A resolution Q5UVJ4 Q5UVJ4 2.307 X-RAY DIFFRACTION 98 1.0 102617 (Helicobacter pylori SS1) 102617 (Helicobacter pylori SS1) 208 209 3ah5-a1-m1-cB_3ah5-a1-m1-cC 3ah5-a1-m1-cD_3ah5-a1-m1-cA 3ah5-a2-m1-cE_3ah5-a2-m1-cF 3ah5-a2-m2-cE_3ah5-a2-m2-cF 3n3y-a1-m1-cC_3n3y-a1-m1-cB MEVICKHYTPLDIASQAIRTCWQSFEYSDDGGCKDKELIHRVGNIFRHSSTLEHLYYNFEIKGLSRGALQELSRHRIASLSVKSSRYTLRELKEVESFLPLNETNLERAREFLVFVDNEKVNAMSVLALENLRVLLSEHNIKNDLAKYAMPESYKTHLAYSINARSLQNLLTLRSSNKALKEMQDLAKALFDALPGEHQYLFEDCLKH FMEVICKHYTPLDIASQAIRTCWQSFEYSDDGGCKDKELIHRVGNIFRHSSTLEHLYYNFEIKGLSRGALQELSRHRIASLSVKSSRYTLRELKEVESFLPLNETNLERAREFLVFVDNEKVNAMSVLALENLRVLLSEHNIKNDLAKYAMPESYKTHLAYSINARSLQNLLTLRSSNKALKEMQDLAKALFDALPGEHQYLFEDCLKH 3n4j-a1-m1-cA_3n4j-a1-m2-cA Putative RNA methyltransferase from Yersinia pestis Q74Y93 Q74Y93 1.47 X-RAY DIFFRACTION 102 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 161 161 3n4k-a1-m1-cB_3n4k-a1-m1-cA AMLNIVLFEPEIPPNTGNIIRLCANTGCQLHLIKPLGFTWDDKRLRRAGLDYHEFADIKHHHDYQAFLDSEKLDSTQPARLFALTTKGTPAHSAVSYQANDYLLFGPETRGLPAYILDALPAQQKIRIPMQADSRSMNLSNAVSVVVYEAWRQLGYPGALL AMLNIVLFEPEIPPNTGNIIRLCANTGCQLHLIKPLGFTWDDKRLRRAGLDYHEFADIKHHHDYQAFLDSEKLDSTQPARLFALTTKGTPAHSAVSYQANDYLLFGPETRGLPAYILDALPAQQKIRIPMQADSRSMNLSNAVSVVVYEAWRQLGYPGALL 3n4p-a1-m1-cA_3n4p-a1-m1-cB Human cytomegalovirus terminase nuclease domain P16732 P16732 2.15 X-RAY DIFFRACTION 40 0.995 10363 (Human herpesvirus 5 strain Towne) 10363 (Human herpesvirus 5 strain Towne) 216 227 3n4p-a2-m1-cD_3n4p-a2-m1-cC 3n4q-a1-m1-cA_3n4q-a1-m1-cB 3n4q-a2-m1-cD_3n4q-a2-m1-cC LITDQSREEFDILRYSTLNTNAYDYFGKTLYVYLDPAGTGVAAVGAYRHQFLIYGLEHFFLSESSEVAIAECAAHMIISVLSLHPYLDELRIAVEGNTNQAAAVRIACLIRQSVQSSTLIRVLFYHTPDQNHIEQPFYLMGRDKALAVEQFISRFNSGYIKASQELVSYTIKLSHDPIEYLLEQIQNLHRSDDLIIAVIMATYLCDDIHAIRFRVS LITDQSREEFDILRYSTLNTNAYDYFGKTLYVYLDPAFTTNRKASGTGVAAVGAYRHQFLIYGLEHFFLESSEVAIAECAAHMIISVLSLHPYLDELRIAVEGNTNQAAAVRIACLIRQSVQSSTLIRVLFYHTPDQNHIEQPFYLMGRDKALAVEQFISRFNSGYIKASQELVSYTIKLSHDPIEYLLEQIQNLHRVNRISDDLIIAVIMATYLCDDIHAIRFRVS 3n4r-a1-m1-cA_3n4r-a1-m1-cB Structure of Csm1 C-terminal domain, R3 form P25651 P25651 2.602 X-RAY DIFFRACTION 59 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 91 96 NSEVIKDLYEYLCNVRVHKSYSGLWFDISQGTYSIDYKLGFVEVIYAPVLKQRSTEELYSLQSKLPEYFETLSFPLSSLNQFYNKIAKSLN NSEVIKDLYEYLCNVRVHKSYEDDSGLWFDISQGTYSIDYKLGFVKGEVIYAPVLKQRSTEELYSLQSKLPEYFETLSFPLSSLNQFYNKIAKSLN 3n50-a4-m2-cF_3n50-a4-m3-cD Human Early B-cell factor 3 (EBF3) IPT/TIG and HLHLH domains Q9H4W6 Q9H4W6 3.102 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 3n50-a4-m1-cB_3n50-a4-m2-cF 3n50-a4-m1-cB_3n50-a4-m3-cD ATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGMPHNNQEIILKRAADIAEALYS ATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGMPHNNQEIILKRAADIAEALYS 3n50-a4-m3-cC_3n50-a4-m1-cB Human Early B-cell factor 3 (EBF3) IPT/TIG and HLHLH domains Q9H4W6 Q9H4W6 3.102 X-RAY DIFFRACTION 24 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 146 154 3n50-a4-m1-cA_3n50-a4-m2-cF 3n50-a4-m2-cE_3n50-a4-m3-cD EATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGMILKRAADIAEAL ATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGMPHNNQEIILKRAADIAEALYS 3n50-a4-m3-cC_3n50-a4-m3-cD Human Early B-cell factor 3 (EBF3) IPT/TIG and HLHLH domains Q9H4W6 Q9H4W6 3.102 X-RAY DIFFRACTION 149 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 146 154 3n50-a1-m1-cA_3n50-a1-m1-cB 3n50-a2-m1-cC_3n50-a2-m1-cD 3n50-a3-m1-cE_3n50-a3-m1-cF 3n50-a4-m1-cA_3n50-a4-m1-cB 3n50-a4-m2-cE_3n50-a4-m2-cF EATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGMILKRAADIAEAL ATPCIKAISPSEGWTTGGATVIIIGDNFFDGLQVVFGTMLVWSELITPHAIRVQTPPRHIPGVVEVTLSYKSKQFCKGAPGRFVYTALNEPTIDYGFQRLQKVIPRHPGDPERLPKEVLLKRAADLVEALYGMPHNNQEIILKRAADIAEALYS 3n52-a3-m1-cC_3n52-a3-m1-cD crystal Structure analysis of MIP2 P10889 P10889 1.9 X-RAY DIFFRACTION 84 0.985 10090 (Mus musculus) 10090 (Mus musculus) 67 70 3n52-a1-m1-cA_3n52-a1-m1-cB 3n52-a2-m1-cC_3n52-a2-m1-cD 3n52-a3-m1-cA_3n52-a3-m1-cB SELRCQCLKTLPRVDFKNIQSLSVTPPGPHCAQTEVIATLKGGQKVCLDPEAPLVQKIIQKILNKGK AVVASELRCQCLKTLPRVDFKNIQSLSVTPPGPHCAQTEVIATLKGGQKVCLDPEAPLVQKIIQKILNKG 3n52-a3-m1-cD_3n52-a3-m1-cB crystal Structure analysis of MIP2 P10889 P10889 1.9 X-RAY DIFFRACTION 50 0.986 10090 (Mus musculus) 10090 (Mus musculus) 70 71 3n52-a3-m1-cA_3n52-a3-m1-cC AVVASELRCQCLKTLPRVDFKNIQSLSVTPPGPHCAQTEVIATLKGGQKVCLDPEAPLVQKIIQKILNKG VVASELRCQCLKTLPRVDFKNIQSLSVTPPGPHCAQTEVIATLKGGQKVCLDPEAPLVQKIIQKILNKGKA 3n54-a3-m1-cB_3n54-a3-m6-cB Crystal Structure of the GerBC protein P39571 P39571 2.3 X-RAY DIFFRACTION 48 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 311 311 3n54-a3-m2-cB_3n54-a3-m4-cB 3n54-a3-m3-cB_3n54-a3-m5-cB DIEQLSFARGLAIDETNDHQYKLTYQNLLPQSGKPEFVNVTSHGKTILEAVSDVSIKDPPVYSDHLKVILLGEKLMRNQNVDQVLNHFIRDDELRRSSYLMAARGNAADVFTKGNPKIMIPLRIGRASVYSQNGYSYLIQAVKNEKGKAKYDGAGIIKRGSNKLVGFLSADETQTLSWVMGTIQGGVMPTTDKGHPITFEIKKSKTKIKPVIENGKPVFHISVKTKGILTEDQNFSKSYLHRLENIFEKKLERDVKQVMDKLQHEYKTDPVFLSDHIRIQHPDYWNKVKGHWDEIFSETDFKYDISFKIIN DIEQLSFARGLAIDETNDHQYKLTYQNLLPQSGKPEFVNVTSHGKTILEAVSDVSIKDPPVYSDHLKVILLGEKLMRNQNVDQVLNHFIRDDELRRSSYLMAARGNAADVFTKGNPKIMIPLRIGRASVYSQNGYSYLIQAVKNEKGKAKYDGAGIIKRGSNKLVGFLSADETQTLSWVMGTIQGGVMPTTDKGHPITFEIKKSKTKIKPVIENGKPVFHISVKTKGILTEDQNFSKSYLHRLENIFEKKLERDVKQVMDKLQHEYKTDPVFLSDHIRIQHPDYWNKVKGHWDEIFSETDFKYDISFKIIN 3n54-a3-m3-cB_3n54-a3-m6-cB Crystal Structure of the GerBC protein P39571 P39571 2.3 X-RAY DIFFRACTION 228 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 311 311 3n54-a2-m1-cB_3n54-a2-m2-cB 3n54-a3-m1-cB_3n54-a3-m2-cB 3n54-a3-m4-cB_3n54-a3-m5-cB DIEQLSFARGLAIDETNDHQYKLTYQNLLPQSGKPEFVNVTSHGKTILEAVSDVSIKDPPVYSDHLKVILLGEKLMRNQNVDQVLNHFIRDDELRRSSYLMAARGNAADVFTKGNPKIMIPLRIGRASVYSQNGYSYLIQAVKNEKGKAKYDGAGIIKRGSNKLVGFLSADETQTLSWVMGTIQGGVMPTTDKGHPITFEIKKSKTKIKPVIENGKPVFHISVKTKGILTEDQNFSKSYLHRLENIFEKKLERDVKQVMDKLQHEYKTDPVFLSDHIRIQHPDYWNKVKGHWDEIFSETDFKYDISFKIIN DIEQLSFARGLAIDETNDHQYKLTYQNLLPQSGKPEFVNVTSHGKTILEAVSDVSIKDPPVYSDHLKVILLGEKLMRNQNVDQVLNHFIRDDELRRSSYLMAARGNAADVFTKGNPKIMIPLRIGRASVYSQNGYSYLIQAVKNEKGKAKYDGAGIIKRGSNKLVGFLSADETQTLSWVMGTIQGGVMPTTDKGHPITFEIKKSKTKIKPVIENGKPVFHISVKTKGILTEDQNFSKSYLHRLENIFEKKLERDVKQVMDKLQHEYKTDPVFLSDHIRIQHPDYWNKVKGHWDEIFSETDFKYDISFKIIN 3n54-a3-m5-cB_3n54-a3-m6-cB Crystal Structure of the GerBC protein P39571 P39571 2.3 X-RAY DIFFRACTION 49 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 311 311 3n54-a3-m1-cB_3n54-a3-m3-cB 3n54-a3-m1-cB_3n54-a3-m4-cB 3n54-a3-m2-cB_3n54-a3-m5-cB 3n54-a3-m2-cB_3n54-a3-m6-cB 3n54-a3-m3-cB_3n54-a3-m4-cB DIEQLSFARGLAIDETNDHQYKLTYQNLLPQSGKPEFVNVTSHGKTILEAVSDVSIKDPPVYSDHLKVILLGEKLMRNQNVDQVLNHFIRDDELRRSSYLMAARGNAADVFTKGNPKIMIPLRIGRASVYSQNGYSYLIQAVKNEKGKAKYDGAGIIKRGSNKLVGFLSADETQTLSWVMGTIQGGVMPTTDKGHPITFEIKKSKTKIKPVIENGKPVFHISVKTKGILTEDQNFSKSYLHRLENIFEKKLERDVKQVMDKLQHEYKTDPVFLSDHIRIQHPDYWNKVKGHWDEIFSETDFKYDISFKIIN DIEQLSFARGLAIDETNDHQYKLTYQNLLPQSGKPEFVNVTSHGKTILEAVSDVSIKDPPVYSDHLKVILLGEKLMRNQNVDQVLNHFIRDDELRRSSYLMAARGNAADVFTKGNPKIMIPLRIGRASVYSQNGYSYLIQAVKNEKGKAKYDGAGIIKRGSNKLVGFLSADETQTLSWVMGTIQGGVMPTTDKGHPITFEIKKSKTKIKPVIENGKPVFHISVKTKGILTEDQNFSKSYLHRLENIFEKKLERDVKQVMDKLQHEYKTDPVFLSDHIRIQHPDYWNKVKGHWDEIFSETDFKYDISFKIIN 3n58-a1-m1-cA_3n58-a1-m1-cD Crystal structure of S-ADENOSYL-L-HOMOCYSTEINE hydrolase from brucella melitensis in ternary complex with NAD and adenosine, orthorhombic form Q2YQX8 Q2YQX8 2.39 X-RAY DIFFRACTION 24 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 460 461 3n58-a1-m1-cB_3n58-a1-m1-cC MVVKDISLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLKVLGAEVRWASCNIFSTQDHAAAAIAATGTPVFAVKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPQSEEEEVLFAQIKKRMAATPGFFTKQRAAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIVVTTTGNKDVITIDHMRKMKDMCIVGNIGHFDNEIQVAALRNLKWTNVKPQVDLIEFPDGKRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTRTDAYKNEVYVLPKHLDEKVARLHLDKLGAKLTVLSEEQAAYIGVTPQGPFKSEHYRY SMVVKDISLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLKVLGAEVRWASCNIFSTQDHAAAAIAATGTPVFAVKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPQSEEEEVLFAQIKKRMAATPGFFTKQRAAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIVVTTTGNKDVITIDHMRKMKDMCIVGNIGHFDNEIQVAALRNLKWTNVKPQVDLIEFPDGKRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTRTDAYKNEVYVLPKHLDEKVARLHLDKLGAKLTVLSEEQAAYIGVTPQGPFKSEHYRY 3n58-a1-m1-cB_3n58-a1-m1-cD Crystal structure of S-ADENOSYL-L-HOMOCYSTEINE hydrolase from brucella melitensis in ternary complex with NAD and adenosine, orthorhombic form Q2YQX8 Q2YQX8 2.39 X-RAY DIFFRACTION 80 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 461 461 3n58-a1-m1-cA_3n58-a1-m1-cC SMVVKDISLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLKVLGAEVRWASCNIFSTQDHAAAAIAATGTPVFAVKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPQSEEEEVLFAQIKKRMAATPGFFTKQRAAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIVVTTTGNKDVITIDHMRKMKDMCIVGNIGHFDNEIQVAALRNLKWTNVKPQVDLIEFPDGKRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTRTDAYKNEVYVLPKHLDEKVARLHLDKLGAKLTVLSEEQAAYIGVTPQGPFKSEHYRY SMVVKDISLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLKVLGAEVRWASCNIFSTQDHAAAAIAATGTPVFAVKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPQSEEEEVLFAQIKKRMAATPGFFTKQRAAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIVVTTTGNKDVITIDHMRKMKDMCIVGNIGHFDNEIQVAALRNLKWTNVKPQVDLIEFPDGKRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTRTDAYKNEVYVLPKHLDEKVARLHLDKLGAKLTVLSEEQAAYIGVTPQGPFKSEHYRY 3n58-a1-m1-cC_3n58-a1-m1-cD Crystal structure of S-ADENOSYL-L-HOMOCYSTEINE hydrolase from brucella melitensis in ternary complex with NAD and adenosine, orthorhombic form Q2YQX8 Q2YQX8 2.39 X-RAY DIFFRACTION 156 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 461 461 3n58-a1-m1-cA_3n58-a1-m1-cB SMVVKDISLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLKVLGAEVRWASCNIFSTQDHAAAAIAATGTPVFAVKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPQSEEEEVLFAQIKKRMAATPGFFTKQRAAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIVVTTTGNKDVITIDHMRKMKDMCIVGNIGHFDNEIQVAALRNLKWTNVKPQVDLIEFPDGKRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTRTDAYKNEVYVLPKHLDEKVARLHLDKLGAKLTVLSEEQAAYIGVTPQGPFKSEHYRY SMVVKDISLADWGRKELDIAETEMPGLMAAREEFGKSQPLKGARISGSLHMTIQTAVLIETLKVLGAEVRWASCNIFSTQDHAAAAIAATGTPVFAVKGETLEEYWTYTDQIFQWPDGEPSNMILDDGGDATMYILIGARAEAGEDVLSNPQSEEEEVLFAQIKKRMAATPGFFTKQRAAIKGVTEETTTGVNRLYQLQKKGLLPFPAINVNDSVTKSKFDNKYGCKESLVDGIRRGTDVMMAGKVAVVCGYGDVGKGSAQSLAGAGARVKVTEVDPICALQAAMDGFEVVTLDDAASTADIVVTTTGNKDVITIDHMRKMKDMCIVGNIGHFDNEIQVAALRNLKWTNVKPQVDLIEFPDGKRLILLSEGRLLNLGNATGHPSFVMSASFTNQVLGQIELFTRTDAYKNEVYVLPKHLDEKVARLHLDKLGAKLTVLSEEQAAYIGVTPQGPFKSEHYRY 3n5b-a1-m2-cA_3n5b-a1-m3-cA The complex of PII and PipX from Anabaena Q9L422 Q9L422 1.9 X-RAY DIFFRACTION 80 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 112 112 3n5b-a1-m1-cA_3n5b-a1-m2-cA 3n5b-a1-m1-cA_3n5b-a1-m3-cA MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFGRQKGQTERYRGSEYTVEFLQKLKVEIVVEDNQVDMVVDKIIAAARTGEIGDGKIFISPVEQVIRIRTGEKNTEAV MKKVEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFGRQKGQTERYRGSEYTVEFLQKLKVEIVVEDNQVDMVVDKIIAAARTGEIGDGKIFISPVEQVIRIRTGEKNTEAV 3n5b-a1-m2-cB_3n5b-a1-m3-cB The complex of PII and PipX from Anabaena Q8YZH5 Q8YZH5 1.9 X-RAY DIFFRACTION 18 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 86 86 3n5b-a1-m1-cB_3n5b-a1-m2-cB 3n5b-a1-m1-cB_3n5b-a1-m3-cB SETYINHPTWGLLYRICMVDESQDLFTTLYAQRLFFLVGNDIKAIKFQPIGRTEARMLLENRLRNLRRNGQSQEYDQLQSVFQRTF SETYINHPTWGLLYRICMVDESQDLFTTLYAQRLFFLVGNDIKAIKFQPIGRTEARMLLENRLRNLRRNGQSQEYDQLQSVFQRTF 3n5f-a1-m1-cA_3n5f-a1-m1-cB Crystal Structure of L-N-carbamoylase from Geobacillus stearothermophilus CECT43 Q53389 Q53389 2.75 X-RAY DIFFRACTION 172 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 406 406 QGERLWQRLMELGEVGKQPSGGVTRLSFTAEERRAKDLVASYMREAGLFVYEDAAGNLIGRKEGTNPDATVVLVGSHLDSVYNGGCFDGPLGVLAGVEVVQTMNEHGVVTHHPIEVVAFTDEEGARFRFGMIGSRAMAGTLPPEALECRDAEGISLAEAMKQAGLDPDRLPQAARKPGTVKAYVELHIEQGRVLEETGLPVGIVTGIAGLIWVKFTIEGKAEHAGATPMSLRRDPMAAAAQIIIVIEEEARRTGTTVGTVGQLHVYPGGINVIPERVEFVLDLRDLKAEVRDQVWKAIAVRAETIAKERNVRVTTERLQEMPPVLCSDEVKRAAEAACQKLGYPSFWLPSGAAHDSVQLAPICPIGMIFVRSQDGVSHSPAEWSTKEDCAAGAEVLYHTVWQLAQG QGERLWQRLMELGEVGKQPSGGVTRLSFTAEERRAKDLVASYMREAGLFVYEDAAGNLIGRKEGTNPDATVVLVGSHLDSVYNGGCFDGPLGVLAGVEVVQTMNEHGVVTHHPIEVVAFTDEEGARFRFGMIGSRAMAGTLPPEALECRDAEGISLAEAMKQAGLDPDRLPQAARKPGTVKAYVELHIEQGRVLEETGLPVGIVTGIAGLIWVKFTIEGKAEHAGATPMSLRRDPMAAAAQIIIVIEEEARRTGTTVGTVGQLHVYPGGINVIPERVEFVLDLRDLKAEVRDQVWKAIAVRAETIAKERNVRVTTERLQEMPPVLCSDEVKRAAEAACQKLGYPSFWLPSGAAHDSVQLAPICPIGMIFVRSQDGVSHSPAEWSTKEDCAAGAEVLYHTVWQLAQG 3n5m-a1-m1-cD_3n5m-a1-m1-cA Crystals structure of a Bacillus anthracis aminotransferase 2.05 X-RAY DIFFRACTION 361 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 434 435 3n5m-a1-m1-cB_3n5m-a1-m1-cC NAKTKQTDELLAKDEQYVWHGRPFSPNSTTVGAKAEGCWVEDIQGKRYLDGSGLWCVNSGYGRKELAEAAYKQLQTLSYFPSQSHEPAIKLAEKLNEWLGGEYVIFFSNSGSEANETAFKIARQYYAQKGEPHRYKFSRYRGYHGNTATAATGQAQRRYQYEPFASGFLHVTPPDCYRPGIERENIYDVECVKEVDRVTWELSETIAAFIEPIITGGGILAPQDYKAVHETCQKHGALLISDEVICGFGRTGKAFGFNYDVKPDIITAKGITSAYLPLSATAVKREIYEAFKGKGEYEFFRHINTFGGNPAACALALKNLEIIENENLIERSAQGSLLLEQLKEEIGEHPLVGDIRGKGLLVGIELVNDKETKEPIDNDKIASVVNACKEKGLIIGRNGTTAGYNNILTLAPPLVISSEEIAFVIGTLKTAERI SNAKTKQTDELLAKDEQYVWHGRPFSPNSTTVGAKAEGCWVEDIQGKRYLDGSGLWCVNSGYGRKELAEAAYKQLQTLSYFPSQSHEPAIKLAEKLNEWLGGEYVIFFSNSGSEANETAFKIARQYYAQKGEPHRYKFSRYRGYHGNTATAATGQAQRRYQYEPFASGFLHVTPPDCYRPGIERENIYDVECVKEVDRVTWELSETIAAFIEPIITGGGILAPQDYKAVHETCQKHGALLISDEVICGFGRTGKAFGFNYDVKPDIITAKGITSAYLPLSATAVKREIYEAFKGKGEYEFFRHINTFGGNPAACALALKNLEIIENENLIERSAQGSLLLEQLKEEIGEHPLVGDIRGKGLLVGIELVNDKETKEPIDNDKIASVVNACKEKGLIIGRNGTTAGYNNILTLAPPLVISSEEIAFVIGTLKTAERI 3n5m-a1-m1-cD_3n5m-a1-m1-cC Crystals structure of a Bacillus anthracis aminotransferase 2.05 X-RAY DIFFRACTION 77 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 434 435 3n5m-a1-m1-cB_3n5m-a1-m1-cA NAKTKQTDELLAKDEQYVWHGRPFSPNSTTVGAKAEGCWVEDIQGKRYLDGSGLWCVNSGYGRKELAEAAYKQLQTLSYFPSQSHEPAIKLAEKLNEWLGGEYVIFFSNSGSEANETAFKIARQYYAQKGEPHRYKFSRYRGYHGNTATAATGQAQRRYQYEPFASGFLHVTPPDCYRPGIERENIYDVECVKEVDRVTWELSETIAAFIEPIITGGGILAPQDYKAVHETCQKHGALLISDEVICGFGRTGKAFGFNYDVKPDIITAKGITSAYLPLSATAVKREIYEAFKGKGEYEFFRHINTFGGNPAACALALKNLEIIENENLIERSAQGSLLLEQLKEEIGEHPLVGDIRGKGLLVGIELVNDKETKEPIDNDKIASVVNACKEKGLIIGRNGTTAGYNNILTLAPPLVISSEEIAFVIGTLKTAERI SNAKTKQTDELLAKDEQYVWHGRPFSPNSTTVGAKAEGCWVEDIQGKRYLDGSGLWCVNSGYGRKELAEAAYKQLQTLSYFPSQSHEPAIKLAEKLNEWLGGEYVIFFSNSGSEANETAFKIARQYYAQKGEPHRYKFSRYRGYHGNTATAATGQAQRRYQYEPFASGFLHVTPPDCYRPGIERENIYDVECVKEVDRVTWELSETIAAFIEPIITGGGILAPQDYKAVHETCQKHGALLISDEVICGFGRTGKAFGFNYDVKPDIITAKGITSAYLPLSATAVKREIYEAFKGKGEYEFFRHINTFGGNPAACALALKNLEIIENENLIERSAQGSLLLEQLKEEIGEHPLVGDIRGKGLLVGIELVNDKETKEPIDNDKIASVVNACKEKGLIIGRNGTTAGYNNILTLAPPLVISSEEIAFVIGTLKTAERI 3n5o-a2-m1-cB_3n5o-a2-m2-cB Crystal structure of putative glutathione transferase from Coccidioides immitis bound to glutathione D2YW48 D2YW48 1.85 X-RAY DIFFRACTION 34 1.0 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 214 214 TPNFELYGYFRSSCSGRLRIAFHLKSIPYTRHPVNLLNTVPLLVVSNINNTVSPSSASFSIGQSLAALEYLEEALPTNARPLLPPISNPVARAHVRTICNIIACDVQPVTNLKIQKKVKALDGDPTVWSRDLATQGFGAVEKLLELSAGRFCVGDEITLADVCLVPAVWAAERVGMDLARFPITKRVFEEMLKEEAVQKAHWQKQEDTPEDLRA TPNFELYGYFRSSCSGRLRIAFHLKSIPYTRHPVNLLNTVPLLVVSNINNTVSPSSASFSIGQSLAALEYLEEALPTNARPLLPPISNPVARAHVRTICNIIACDVQPVTNLKIQKKVKALDGDPTVWSRDLATQGFGAVEKLLELSAGRFCVGDEITLADVCLVPAVWAAERVGMDLARFPITKRVFEEMLKEEAVQKAHWQKQEDTPEDLRA 3n5o-a2-m2-cB_3n5o-a2-m2-cA Crystal structure of putative glutathione transferase from Coccidioides immitis bound to glutathione D2YW48 D2YW48 1.85 X-RAY DIFFRACTION 141 0.995 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 214 228 3lg6-a1-m1-cB_3lg6-a1-m1-cA 3lg6-a2-m1-cD_3lg6-a2-m1-cC 3n5o-a1-m1-cB_3n5o-a1-m1-cA 3n5o-a2-m1-cB_3n5o-a2-m1-cA TPNFELYGYFRSSCSGRLRIAFHLKSIPYTRHPVNLLNTVPLLVVSNINNTVSPSSASFSIGQSLAALEYLEEALPTNARPLLPPISNPVARAHVRTICNIIACDVQPVTNLKIQKKVKALDGDPTVWSRDLATQGFGAVEKLLELSAGRFCVGDEITLADVCLVPAVWAAERVGMDLARFPITKRVFEEMLKEEAVQKAHWQKQEDTPEDLRA TPNFELYGYFRSSCSGRLRIAFHLKSIPYTRHPVNLLKGEQHSDTYKSLNPTNTVPLLVVSNINNTVSPSSASFSIGQSLAALEYLEEALPTNARPLLPPISNPVARAHVRTICNIIACDVQPVTNLKIQKKVKALDGDPTVWSRDLATQGFGAVEKLLELSAGRFCVGDEITLADVCLVPAVWAAERVGMDLARFPITKRVFEEMLKEEAVQKAHWQKQEDTPEDLR 3n6h-a1-m1-cC_3n6h-a1-m1-cA Crystal structure of Mandelate racemase/muconate lactonizing protein from Actinobacillus succinogenes 130Z complexed with magnesium/sulfate A6VQF6 A6VQF6 2.3 X-RAY DIFFRACTION 16 1.0 339671 (Actinobacillus succinogenes 130Z) 339671 (Actinobacillus succinogenes 130Z) 412 415 3n6h-a1-m1-cD_3n6h-a1-m1-cB 3n6j-a1-m1-cA_3n6j-a1-m1-cC 3n6j-a1-m1-cB_3n6j-a1-m1-cD SVPVITDKVIPVAGHDSLNVGGAHSPYFTRNIVILTDNSGHTGVGEAPGGATIENALTEAIPHVVGRPISILNKIVNDHNTFELRVNAVAALEAALLDLGQFLGVPVAELLGPGKQRDEVTVLGYLFYVGDDKITDLPYQQPVTGKHEWYDIRRKKADTQAVIELAAASKDRYGFKDFKLKGGVFEGSKEIDTVIELKKHFPDARITLDPNGCWSLDEAIQLCKGLNDVLTYAEDPCIGENGYSGREIAEFRRRTGIPTATNIATNWRECHAILQSVDIPLADPHFWTLTGASRVAQLCNEWGLTWGCHSNNHFDISLAFSHVGAAAPGNPTALDTHWIWQEGDFYLTKNPLEIKDGKIKLNDKPGLGIELNDNVLKAHELHKKLPNGARNDAIPQFYYPGWKFDRKRPAVR SVPVITDKVIPVAGHDSLNVGGAHSPYFTRNIVILTDNSGHTGVGEAPGGATIENALTEAIPHVVGRPISILNKIVNDHNAWTFELRVNAVAALEAALLDLGQFLGVPVAELLGPGKQRDEVTVLGYLFYVGDDKITDLPYQQPVTGKHEWYDIRRKKADTQAVIELAAASKDRYGFKDFKLKGGVFEGSKEIDTVIELKKHFPDARITLDPNGCWSLDEAIQLCKGLNDVLTYAEDPCIGENGYSGREIAEFRRRTGIPTATNIATNWRECHAILQSVDIPLADPHFWTLTGASRVAQLCNEWGLTWGCHSNNHFDISLAFSHVGAAAPGNPTALDTHWIWQEGDFYLTKNPLEIKDGKIKLNDKPGLGIELNDNVLKAHELHKKLPNGARNDAIPQFYYPGWKFDRKRPAVRE 3n6h-a1-m1-cC_3n6h-a1-m1-cB Crystal structure of Mandelate racemase/muconate lactonizing protein from Actinobacillus succinogenes 130Z complexed with magnesium/sulfate A6VQF6 A6VQF6 2.3 X-RAY DIFFRACTION 19 1.0 339671 (Actinobacillus succinogenes 130Z) 339671 (Actinobacillus succinogenes 130Z) 412 418 3n6h-a1-m1-cD_3n6h-a1-m1-cA 3n6j-a1-m1-cB_3n6j-a1-m1-cC 3n6j-a1-m1-cD_3n6j-a1-m1-cA SVPVITDKVIPVAGHDSLNVGGAHSPYFTRNIVILTDNSGHTGVGEAPGGATIENALTEAIPHVVGRPISILNKIVNDHNTFELRVNAVAALEAALLDLGQFLGVPVAELLGPGKQRDEVTVLGYLFYVGDDKITDLPYQQPVTGKHEWYDIRRKKADTQAVIELAAASKDRYGFKDFKLKGGVFEGSKEIDTVIELKKHFPDARITLDPNGCWSLDEAIQLCKGLNDVLTYAEDPCIGENGYSGREIAEFRRRTGIPTATNIATNWRECHAILQSVDIPLADPHFWTLTGASRVAQLCNEWGLTWGCHSNNHFDISLAFSHVGAAAPGNPTALDTHWIWQEGDFYLTKNPLEIKDGKIKLNDKPGLGIELNDNVLKAHELHKKLPNGARNDAIPQFYYPGWKFDRKRPAVR QSVPVITDKVIPVAGHDSLNVGGAHSPYFTRNIVILTDNSGHTGVGEAPGGATIENALTEAIPHVVGRPISILNKIVNDHNGYWTFELRVNAVAALEAALLDLGQFLGVPVAELLGPGKQRDEVTVLGYLFYVGDDKITDLPYQQPVTGKHEWYDIRRKKADTQAVIELAAASKDRYGFKDFKLKGGVFEGSKEIDTVIELKKHFPDARITLDPNGCWSLDEAIQLCKGLNDVLTYAEDPCIGENGYSGREIAEFRRRTGIPTATNIATNWRECHAILQSVDIPLADPHFWTLTGASRVAQLCNEWGLTWGCHSNNHFDISLAFSHVGAAAPGNPTALDTHWIWQEGDFYLTKNPLEIKDGKIKLNDKPGLGIELNDNVLKAHELHKKLPNGARNDAIPQFYYPGWKFDRKRPAVREG 3n6q-a3-m2-cF_3n6q-a3-m2-cG Crystal structure of YghZ from E. coli Q46851 Q46851 1.8 X-RAY DIFFRACTION 57 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 313 313 3n6q-a1-m1-cA_3n6q-a1-m1-cB 3n6q-a1-m1-cA_3n6q-a1-m1-cD 3n6q-a1-m1-cC_3n6q-a1-m1-cB 3n6q-a1-m1-cC_3n6q-a1-m1-cD 3n6q-a2-m1-cE_3n6q-a2-m1-cF 3n6q-a2-m1-cF_3n6q-a2-m1-cG 3n6q-a2-m1-cH_3n6q-a2-m1-cE 3n6q-a2-m1-cH_3n6q-a2-m1-cG 3n6q-a3-m1-cA_3n6q-a3-m1-cB 3n6q-a3-m1-cA_3n6q-a3-m1-cD 3n6q-a3-m1-cC_3n6q-a3-m1-cB 3n6q-a3-m1-cC_3n6q-a3-m1-cD 3n6q-a3-m2-cE_3n6q-a3-m2-cF 3n6q-a3-m2-cH_3n6q-a3-m2-cE 3n6q-a3-m2-cH_3n6q-a3-m2-cG 4ast-a1-m1-cA_4ast-a1-m1-cB 4ast-a1-m1-cC_4ast-a1-m1-cB 4ast-a1-m1-cE_4ast-a1-m1-cD 4ast-a1-m1-cF_4ast-a1-m1-cA 4ast-a1-m1-cF_4ast-a1-m1-cC 4ast-a1-m1-cG_4ast-a1-m1-cE 4ast-a1-m1-cH_4ast-a1-m1-cD 4ast-a1-m1-cH_4ast-a1-m1-cG 4aub-a1-m1-cA_4aub-a1-m1-cC 4aub-a1-m1-cC_4aub-a1-m1-cB 4aub-a1-m1-cD_4aub-a1-m1-cA 4aub-a1-m1-cD_4aub-a1-m1-cB 4aub-a1-m1-cE_4aub-a1-m1-cG 4aub-a1-m1-cE_4aub-a1-m1-cH 4aub-a1-m1-cF_4aub-a1-m1-cG VWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELN VWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELN 3n6q-a3-m2-cG_3n6q-a3-m1-cA Crystal structure of YghZ from E. coli Q46851 Q46851 1.8 X-RAY DIFFRACTION 10 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 313 314 3n6q-a3-m2-cE_3n6q-a3-m1-cC 3n6q-a3-m2-cF_3n6q-a3-m1-cD 3n6q-a3-m2-cH_3n6q-a3-m1-cB 4ast-a1-m1-cA_4ast-a1-m1-cE 4ast-a1-m1-cF_4ast-a1-m1-cD 4ast-a1-m1-cG_4ast-a1-m1-cB 4ast-a1-m1-cH_4ast-a1-m1-cC VWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELN VWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELN 3n6q-a3-m2-cG_3n6q-a3-m1-cB Crystal structure of YghZ from E. coli Q46851 Q46851 1.8 X-RAY DIFFRACTION 21 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 313 315 3n6q-a3-m2-cE_3n6q-a3-m1-cD 3n6q-a3-m2-cF_3n6q-a3-m1-cA 3n6q-a3-m2-cH_3n6q-a3-m1-cC 4ast-a1-m1-cA_4ast-a1-m1-cD 4ast-a1-m1-cE_4ast-a1-m1-cB 4ast-a1-m1-cG_4ast-a1-m1-cC 4ast-a1-m1-cH_4ast-a1-m1-cF 4aub-a1-m1-cA_4aub-a1-m1-cG 4aub-a1-m1-cE_4aub-a1-m1-cC 4aub-a1-m1-cF_4aub-a1-m1-cD 4aub-a1-m1-cH_4aub-a1-m1-cB VWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELN VWLANPERYGQMQYRYCGKSGLRLPALSLGLWHNFGHVNALESQRAILRKAFDLGITHFDLANNYGPPPGSAEENFGRLLREDFAAYRDELIISTKAGYDMWPGPYGSGGSRKYLLASLDQSLKRMGLEYVDIFYSHRVDENTPMEETASALAHAVQSGKALYVGISSYSPERTQKMVELLREWKIPLLIHQPSYNLLNRWVDKSGLLDTLQNNGVGCIAFTPLAQGLLTGKYLMLTEANLNSLRLLNEMAQQRGQSMAQMALSWLLKDDRVTSVLIGASRAEQLEENVQALNNLTFSTKELAQIDQHIADGELN 3n6r-a1-m1-cL_3n6r-a1-m1-cD CRYSTAL STRUCTURE OF the holoenzyme of PROPIONYL-COA CARBOXYLASE (PCC) Q168G2 Q168G2 3.2 X-RAY DIFFRACTION 354 1.0 375451 (Roseobacter denitrificans OCh 114) 375451 (Roseobacter denitrificans OCh 114) 506 506 3n6r-a1-m1-cB_3n6r-a1-m1-cJ 3n6r-a1-m1-cF_3n6r-a1-m1-cH LEQLEDRRAAARLGGGQKRIDAQHGRGKLTARERVDLLLDEGSFEEFDMFVTHRCTDFNMQDQKPAGDGVVTGWGTINGRVVYVFSQDFTVLGGSVSETHSKKICKIMDMAMQNGAPVIGINDSGGARIQEGVDSLAGYGEVFQRNIMASGVVPQISMIMGPCAGGAVYSPAMTDFIFMVKDSSYMFVTGPDVVKTVTNEQVSAEELGGATTHTRKSSVADAAFENDVEALAEVRRLVDFLPLNNREKPPVRPFFDDPDRIEPSLDTLVPDNPNTPYDMKELIHKLADEGDFYEIQEEFAKNIITGFIRLEGRTVGVVANQPLVLAGCLDIDSSRKAARFVRFCDAFEIPLLTLIDVPGFLPGTSQEYGGVIKHGAKLLYAYGEATVPMVTVITRKAYGGAYVVMSSKHLRADFNYAWPTAEVAVMGAKGATEIIHRGDLGDPEKIAQHTADYEERFANPFVASERGFVDEVIQPRSTRKRVARAFASLRNKSVQMPWKKHDNIPL LEQLEDRRAAARLGGGQKRIDAQHGRGKLTARERVDLLLDEGSFEEFDMFVTHRCTDFNMQDQKPAGDGVVTGWGTINGRVVYVFSQDFTVLGGSVSETHSKKICKIMDMAMQNGAPVIGINDSGGARIQEGVDSLAGYGEVFQRNIMASGVVPQISMIMGPCAGGAVYSPAMTDFIFMVKDSSYMFVTGPDVVKTVTNEQVSAEELGGATTHTRKSSVADAAFENDVEALAEVRRLVDFLPLNNREKPPVRPFFDDPDRIEPSLDTLVPDNPNTPYDMKELIHKLADEGDFYEIQEEFAKNIITGFIRLEGRTVGVVANQPLVLAGCLDIDSSRKAARFVRFCDAFEIPLLTLIDVPGFLPGTSQEYGGVIKHGAKLLYAYGEATVPMVTVITRKAYGGAYVVMSSKHLRADFNYAWPTAEVAVMGAKGATEIIHRGDLGDPEKIAQHTADYEERFANPFVASERGFVDEVIQPRSTRKRVARAFASLRNKSVQMPWKKHDNIPL 3n6r-a1-m1-cL_3n6r-a1-m1-cJ CRYSTAL STRUCTURE OF the holoenzyme of PROPIONYL-COA CARBOXYLASE (PCC) Q168G2 Q168G2 3.2 X-RAY DIFFRACTION 46 1.0 375451 (Roseobacter denitrificans OCh 114) 375451 (Roseobacter denitrificans OCh 114) 506 506 3n6r-a1-m1-cB_3n6r-a1-m1-cD 3n6r-a1-m1-cB_3n6r-a1-m1-cF 3n6r-a1-m1-cD_3n6r-a1-m1-cF 3n6r-a1-m1-cH_3n6r-a1-m1-cJ 3n6r-a1-m1-cL_3n6r-a1-m1-cH LEQLEDRRAAARLGGGQKRIDAQHGRGKLTARERVDLLLDEGSFEEFDMFVTHRCTDFNMQDQKPAGDGVVTGWGTINGRVVYVFSQDFTVLGGSVSETHSKKICKIMDMAMQNGAPVIGINDSGGARIQEGVDSLAGYGEVFQRNIMASGVVPQISMIMGPCAGGAVYSPAMTDFIFMVKDSSYMFVTGPDVVKTVTNEQVSAEELGGATTHTRKSSVADAAFENDVEALAEVRRLVDFLPLNNREKPPVRPFFDDPDRIEPSLDTLVPDNPNTPYDMKELIHKLADEGDFYEIQEEFAKNIITGFIRLEGRTVGVVANQPLVLAGCLDIDSSRKAARFVRFCDAFEIPLLTLIDVPGFLPGTSQEYGGVIKHGAKLLYAYGEATVPMVTVITRKAYGGAYVVMSSKHLRADFNYAWPTAEVAVMGAKGATEIIHRGDLGDPEKIAQHTADYEERFANPFVASERGFVDEVIQPRSTRKRVARAFASLRNKSVQMPWKKHDNIPL LEQLEDRRAAARLGGGQKRIDAQHGRGKLTARERVDLLLDEGSFEEFDMFVTHRCTDFNMQDQKPAGDGVVTGWGTINGRVVYVFSQDFTVLGGSVSETHSKKICKIMDMAMQNGAPVIGINDSGGARIQEGVDSLAGYGEVFQRNIMASGVVPQISMIMGPCAGGAVYSPAMTDFIFMVKDSSYMFVTGPDVVKTVTNEQVSAEELGGATTHTRKSSVADAAFENDVEALAEVRRLVDFLPLNNREKPPVRPFFDDPDRIEPSLDTLVPDNPNTPYDMKELIHKLADEGDFYEIQEEFAKNIITGFIRLEGRTVGVVANQPLVLAGCLDIDSSRKAARFVRFCDAFEIPLLTLIDVPGFLPGTSQEYGGVIKHGAKLLYAYGEATVPMVTVITRKAYGGAYVVMSSKHLRADFNYAWPTAEVAVMGAKGATEIIHRGDLGDPEKIAQHTADYEERFANPFVASERGFVDEVIQPRSTRKRVARAFASLRNKSVQMPWKKHDNIPL 3n6x-a2-m1-cA_3n6x-a2-m2-cA Crystal structure of a Putative glutathionylspermidine synthase (Mfla_0391) from METHYLOBACILLUS FLAGELLATUS KT at 2.35 A resolution Q1H4C5 Q1H4C5 2.35 X-RAY DIFFRACTION 58 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 439 439 TKPFDEFLQDEVIRPIYAEYAAWLQDVPHQQLESKRQEAELLFRRVGITFLIPFDVVPRILSASEWARLSDGAIQRVKALNFLHDVYHDQEIIKAGIVPSSILANAQYRPEFGVDVPGGVYAHIAGVDLVRTGENDFYVLEDNLRTPSGVSYLENRKRLFPELFRRYPVAPVEHYPQVLLNNLRAVAQAGVHEPTVVLLTPGAYNSAYFEHAFIAQQGIELVEGQDLFVRNNAVYRTTEGPKRVDVIYRRIDDDFIDPLSFRPDSLGVPGLLSVYRNGGVTLANAVGTGVADDKDTYIYVPEIRFYLGEEPILSNVPTYQLSKADDLKYVLDNLAELVVKEVQGLVGPAASKQELEDFRQRILANPANYIAQPTLALSTCPTLVETGIAPRHVDLRPFVLSGKTVSLVPGALCRVALREGSLVVNSSQGGGTKDTWILK TKPFDEFLQDEVIRPIYAEYAAWLQDVPHQQLESKRQEAELLFRRVGITFLIPFDVVPRILSASEWARLSDGAIQRVKALNFLHDVYHDQEIIKAGIVPSSILANAQYRPEFGVDVPGGVYAHIAGVDLVRTGENDFYVLEDNLRTPSGVSYLENRKRLFPELFRRYPVAPVEHYPQVLLNNLRAVAQAGVHEPTVVLLTPGAYNSAYFEHAFIAQQGIELVEGQDLFVRNNAVYRTTEGPKRVDVIYRRIDDDFIDPLSFRPDSLGVPGLLSVYRNGGVTLANAVGTGVADDKDTYIYVPEIRFYLGEEPILSNVPTYQLSKADDLKYVLDNLAELVVKEVQGLVGPAASKQELEDFRQRILANPANYIAQPTLALSTCPTLVETGIAPRHVDLRPFVLSGKTVSLVPGALCRVALREGSLVVNSSQGGGTKDTWILK 3n6y-a3-m1-cB_3n6y-a3-m1-cA Crystal structure of an immunoglobulin-like protein (PA1606) from PSEUDOMONAS AERUGINOSA at 1.50 A resolution Q9I3B5 Q9I3B5 1.5 X-RAY DIFFRACTION 36 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 120 121 GAQAEVRIDGPIEYGVFESSEQNIQQTTEVPAKLGTKFGRYQLSGKQEGDTPLTLLYLTPGVVTPDGQRHDKFEVVQKLVPGAPTDVAYEFTEPHEVVKGEWRLVFQGDRLLAEKSFDVR GAQAEVRIDGPIEYGVFESRSEQNIQQTTEVPAKLGTKFGRYQLSGKQEGDTPLTLLYLTPGVVTPDGQRHDKFEVVQKLVPGAPTDVAYEFTEPHEVVKGEWRLVFQGDRLLAEKSFDVR 3n6z-a2-m1-cA_3n6z-a2-m2-cA Crystal structure of a putative immunoglobulin A1 protease (BACOVA_03286) from Bacteroides ovatus at 1.30 A resolution A7LZL0 A7LZL0 1.3 X-RAY DIFFRACTION 81 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 334 334 DSYTRVPGDGAGGLFEKGNGTDSKPYINATQIRNRSVLKSGKVYFQLGADIDAGIDDWQSLNGSGDFPYEIDFDGDSHVIKNFKCSAGDYPSFFGVLCGDCRNVGFVNASVSSARQGIGIITGYLGLKDKGNGNKTGRIVNCYTTGEVIGSGAAGGIAGVLANSYDGQESYIKNCYSNATVSDRAASGGKAGGIAGRKVGVGGFIENCYAYGAVSATKGGVGGILGQIDKSCDIAIKNSAAWSNLTGVDASSTVGRIVGVSASLGSYENCYACESIVLKVNEKTITASDESSATGTTFHGVAKSAEELGNIIVAWNPNLWKKGTNGYPIFQWSE DSYTRVPGDGAGGLFEKGNGTDSKPYINATQIRNRSVLKSGKVYFQLGADIDAGIDDWQSLNGSGDFPYEIDFDGDSHVIKNFKCSAGDYPSFFGVLCGDCRNVGFVNASVSSARQGIGIITGYLGLKDKGNGNKTGRIVNCYTTGEVIGSGAAGGIAGVLANSYDGQESYIKNCYSNATVSDRAASGGKAGGIAGRKVGVGGFIENCYAYGAVSATKGGVGGILGQIDKSCDIAIKNSAAWSNLTGVDASSTVGRIVGVSASLGSYENCYACESIVLKVNEKTITASDESSATGTTFHGVAKSAEELGNIIVAWNPNLWKKGTNGYPIFQWSE 3n74-a1-m1-cA_3n74-a1-m1-cD Crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase from Brucella melitensis Q2YJS1 Q2YJS1 2.2 X-RAY DIFFRACTION 94 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 227 227 3n74-a1-m1-cB_3n74-a1-m1-cC MSLEGKVALITGAGSGFGEGMAKRFAKGGAKVVIVDRDKAGAERVAGEIGDAALAVAADISKEADVDAAVEAALSKFGKVDILVNNAGIGHKPQNAELVEPEEFDRIVGVNVRGVYLMTSKLIPHFKENGAKGQECVILNVASTGAGRPRPNLAWYNATKGWVVSVTKALAIELAPAKIRVVALNPVIPMGRLLKPDDLAEAAAFLCSPQASMITGVALDVDGGRSI MSLEGKVALITGAGSGFGEGMAKRFAKGGAKVVIVDRDKAGAERVAGEIGDAALAVAADISKEADVDAAVEAALSKFGKVDILVNNAGIGHKPQNAELVEPEEFDRIVGVNVRGVYLMTSKLIPHFKENGAKGQECVILNVASTGAGRPRPNLAWYNATKGWVVSVTKALAIELAPAKIRVVALNPVIPMGRLLKPDDLAEAAAFLCSPQASMITGVALDVDGGRSI 3n74-a1-m1-cD_3n74-a1-m1-cC Crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase from Brucella melitensis Q2YJS1 Q2YJS1 2.2 X-RAY DIFFRACTION 129 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 227 235 3n74-a1-m1-cA_3n74-a1-m1-cB MSLEGKVALITGAGSGFGEGMAKRFAKGGAKVVIVDRDKAGAERVAGEIGDAALAVAADISKEADVDAAVEAALSKFGKVDILVNNAGIGHKPQNAELVEPEEFDRIVGVNVRGVYLMTSKLIPHFKENGAKGQECVILNVASTGAGRPRPNLAWYNATKGWVVSVTKALAIELAPAKIRVVALNPVIPMGRLLKPDDLAEAAAFLCSPQASMITGVALDVDGGRSI MSLEGKVALITGAGSGFGEGMAKRFAKGGAKVVIVDRDKAGAERVAGEIGDAALAVAADISKEADVDAAVEAALSKFGKVDILVNNAGIGHKPQNAELVEPEEFDRIVGVNVRGVYLMTSKLIPHFKENGAKGQECVILNVASTGAGRPRPNLAWYNATKGWVVSVTKALAIELAPAKIRVVALNPVTFMGEDSSIPMGRLLKPDDLAEAAAFLCSPQASMITGVALDVDGGRSI 3n77-a3-m1-cA_3n77-a3-m2-cB Crystal structure of Idp01880, putative NTP pyrophosphohydrolase of Salmonella typhimurium LT2 Q8ZNF5 Q8ZNF5 1.86 X-RAY DIFFRACTION 44 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 141 141 MRQRTIVCPLIQNDGCYLLCKMADNRGVFPGQWALSGGGVEPGERIEEALRREIREELGEQLILSDITPWTFRDDIRIKTYADGRQEEIYMIYLIFDCVSANRDICINDEFQDYAWVAPAALALYDLNVATRHTLALKGLL MRQRTIVCPLIQNDGCYLLCKMADNRGVFPGQWALSGGGVEPGERIEEALRREIREELGEQLILSDITPWTFRDDIRIKTYADGRQEEIYMIYLIFDCVSANRDICINDEFQDYAWVAPAALALYDLNVATRHTLALKGLL 3n7d-a1-m1-cB_3n7d-a1-m1-cA Crystal structure of CopK bound to Cu(I) and Cu(II) Q58AD3 Q58AD3 2.149 X-RAY DIFFRACTION 41 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 55 59 3dso-a2-m1-cA_3dso-a2-m2-cA 3dsp-a1-m1-cA_3dsp-a1-m2-cA 3n7e-a1-m1-cA_3n7e-a1-m1-cB VVKTYDLQDGSKVHVFKMGMENKFGKSMNMPEGKVMETRDGTKIIMKGNEIFRLD NVVKTYDLQDGSKVHVFKDGKMGMENKFGKSMNMPEGKVMETRDGTKIIMKGNEIFRLD 3n7n-a1-m1-cF_3n7n-a1-m1-cE Structure of Csm1/Lrs4 complex Q04087 Q04087 3.9 X-RAY DIFFRACTION 19 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 30 31 TLLQLLSNYYKAKLDSERIYNEYVQSQYEF TLLQLLSNYYKAKLDSERIYNEYVQSQYEFA 3n7t-a2-m1-cA_3n7t-a2-m2-cA Crystal structure of a macrophage binding protein from Coccidioides immitis Q9HEU1 Q9HEU1 2.1 X-RAY DIFFRACTION 27 1.0 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 241 241 PLPRKALLAITSAHPPFWPDGKRTGLFFSEALHPFNELTAAGFEVDVASETGTFGWDEHSLTQEYLSKEDEKVLHSEHNHFMEKMNKQVFKAGDLAPHDYGLMFVCGGHGALYDFPHAKHLQNIAQDIYKRGGVIGAVCHGPAMLPGIHDENGDSVIKDKTVTGFTTKGEIMIKVIDKMREDHLHTIADMAQTANAEYVPPEDPWDDFCKVDGRIVTGANPQSATNTARDTIKVYEGIVNE PLPRKALLAITSAHPPFWPDGKRTGLFFSEALHPFNELTAAGFEVDVASETGTFGWDEHSLTQEYLSKEDEKVLHSEHNHFMEKMNKQVFKAGDLAPHDYGLMFVCGGHGALYDFPHAKHLQNIAQDIYKRGGVIGAVCHGPAMLPGIHDENGDSVIKDKTVTGFTTKGEIMIKVIDKMREDHLHTIADMAQTANAEYVPPEDPWDDFCKVDGRIVTGANPQSATNTARDTIKVYEGIVNE 3n7u-a5-m1-cI_3n7u-a5-m1-cJ NAD-dependent formate dehydrogenase from higher-plant Arabidopsis thaliana in complex with NAD and azide Q9S7E4 Q9S7E4 2 X-RAY DIFFRACTION 199 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 351 351 3jtm-a2-m1-cA_3jtm-a2-m2-cA 3n7u-a1-m1-cA_3n7u-a1-m1-cB 3n7u-a2-m1-cC_3n7u-a2-m1-cD 3n7u-a3-m1-cE_3n7u-a3-m1-cF 3n7u-a4-m1-cG_3n7u-a4-m1-cH 3n7u-a6-m1-cK_3n7u-a6-m1-cL 3naq-a1-m1-cA_3naq-a1-m1-cB DSKKIVGVFYKANEYATKNPNFLGCVENALGIRDWLESQGHQYIVTDDKEGPDCELEKHIPDLHVLISTPFHPAYVTAERIKKAKNLKLLLTAGIGSDHIDLQAAAAAGLTVAEVTGSNVVSVAEDELMRILILMRNFVPGYNQVVKGEWNVAGIAYRAYDLEGKTIGTVGAGRIGKLLLQRLKPFGCNLLYHDRLQMAPELEKETGAKFVEDLNEMLPKCDVIVINMPLTEKTRGMFNKELIGKLKKGVLIVNNARGAIMERQAVVDAVESGHIGGYSGDVWDPQPAPKDHPWRYMPNQAMTPHTSGTTIDAQLRYAAGTKDMLERYFKGEDFPTENYIVKDGELAPQYR DSKKIVGVFYKANEYATKNPNFLGCVENALGIRDWLESQGHQYIVTDDKEGPDCELEKHIPDLHVLISTPFHPAYVTAERIKKAKNLKLLLTAGIGSDHIDLQAAAAAGLTVAEVTGSNVVSVAEDELMRILILMRNFVPGYNQVVKGEWNVAGIAYRAYDLEGKTIGTVGAGRIGKLLLQRLKPFGCNLLYHDRLQMAPELEKETGAKFVEDLNEMLPKCDVIVINMPLTEKTRGMFNKELIGKLKKGVLIVNNARGAIMERQAVVDAVESGHIGGYSGDVWDPQPAPKDHPWRYMPNQAMTPHTSGTTIDAQLRYAAGTKDMLERYFKGEDFPTENYIVKDGELAPQYR 3n7x-a1-m54-cA_3n7x-a1-m9-cA Crystal structure of Penaeus stylirostris densovirus capsid Q9E2G5 Q9E2G5 2.5 X-RAY DIFFRACTION 98 1.0 299 299 3n7x-a1-m10-cA_3n7x-a1-m23-cA 3n7x-a1-m11-cA_3n7x-a1-m20-cA 3n7x-a1-m11-cA_3n7x-a1-m38-cA 3n7x-a1-m12-cA_3n7x-a1-m37-cA 3n7x-a1-m12-cA_3n7x-a1-m47-cA 3n7x-a1-m13-cA_3n7x-a1-m45-cA 3n7x-a1-m13-cA_3n7x-a1-m46-cA 3n7x-a1-m14-cA_3n7x-a1-m29-cA 3n7x-a1-m14-cA_3n7x-a1-m44-cA 3n7x-a1-m15-cA_3n7x-a1-m16-cA 3n7x-a1-m15-cA_3n7x-a1-m28-cA 3n7x-a1-m16-cA_3n7x-a1-m28-cA 3n7x-a1-m17-cA_3n7x-a1-m27-cA 3n7x-a1-m17-cA_3n7x-a1-m52-cA 3n7x-a1-m18-cA_3n7x-a1-m51-cA 3n7x-a1-m18-cA_3n7x-a1-m60-cA 3n7x-a1-m19-cA_3n7x-a1-m39-cA 3n7x-a1-m19-cA_3n7x-a1-m59-cA 3n7x-a1-m1-cA_3n7x-a1-m10-cA 3n7x-a1-m1-cA_3n7x-a1-m23-cA 3n7x-a1-m20-cA_3n7x-a1-m38-cA 3n7x-a1-m21-cA_3n7x-a1-m30-cA 3n7x-a1-m21-cA_3n7x-a1-m43-cA 3n7x-a1-m22-cA_3n7x-a1-m42-cA 3n7x-a1-m24-cA_3n7x-a1-m54-cA 3n7x-a1-m24-cA_3n7x-a1-m9-cA 3n7x-a1-m25-cA_3n7x-a1-m26-cA 3n7x-a1-m25-cA_3n7x-a1-m53-cA 3n7x-a1-m26-cA_3n7x-a1-m53-cA 3n7x-a1-m27-cA_3n7x-a1-m52-cA 3n7x-a1-m29-cA_3n7x-a1-m44-cA 3n7x-a1-m2-cA_3n7x-a1-m22-cA 3n7x-a1-m2-cA_3n7x-a1-m42-cA 3n7x-a1-m30-cA_3n7x-a1-m43-cA 3n7x-a1-m31-cA_3n7x-a1-m40-cA 3n7x-a1-m31-cA_3n7x-a1-m58-cA 3n7x-a1-m32-cA_3n7x-a1-m57-cA 3n7x-a1-m32-cA_3n7x-a1-m7-cA 3n7x-a1-m33-cA_3n7x-a1-m5-cA 3n7x-a1-m33-cA_3n7x-a1-m6-cA 3n7x-a1-m34-cA_3n7x-a1-m49-cA 3n7x-a1-m34-cA_3n7x-a1-m4-cA 3n7x-a1-m35-cA_3n7x-a1-m36-cA 3n7x-a1-m35-cA_3n7x-a1-m48-cA 3n7x-a1-m36-cA_3n7x-a1-m48-cA 3n7x-a1-m37-cA_3n7x-a1-m47-cA 3n7x-a1-m39-cA_3n7x-a1-m59-cA 3n7x-a1-m3-cA_3n7x-a1-m41-cA 3n7x-a1-m3-cA_3n7x-a1-m50-cA 3n7x-a1-m40-cA_3n7x-a1-m58-cA 3n7x-a1-m41-cA_3n7x-a1-m50-cA 3n7x-a1-m45-cA_3n7x-a1-m46-cA 3n7x-a1-m4-cA_3n7x-a1-m49-cA 3n7x-a1-m51-cA_3n7x-a1-m60-cA 3n7x-a1-m55-cA_3n7x-a1-m56-cA 3n7x-a1-m55-cA_3n7x-a1-m8-cA 3n7x-a1-m56-cA_3n7x-a1-m8-cA 3n7x-a1-m57-cA_3n7x-a1-m7-cA 3n7x-a1-m5-cA_3n7x-a1-m6-cA GPDPHRCLQFNTGDSIHITFQTRRYFEFDAANDGNFDGKNLYCLPLHWMNLYLYGLKSSDSSATETQRYKMVKSMMKTYGWKVHKAGVVMHSMVPLMKDLKVSGGTSFETLTFTDTPYLEIFKDTTGLHNQLSTKETDVTLAKWIQNPQLVTVQSTAANYEDPIQQFGFMEQMRTGDRKAYTIHGDTRNWYGGEIPTTGPTFIPKWGGQIKWDKPSLGNLVYPADHHTNDWQQIFMRMSPIKGPNGDELKLGCRVQADFFLHLEVRLPPQGCVASLGMLQYLHAPCTGQLNKCYIMHTN GPDPHRCLQFNTGDSIHITFQTRRYFEFDAANDGNFDGKNLYCLPLHWMNLYLYGLKSSDSSATETQRYKMVKSMMKTYGWKVHKAGVVMHSMVPLMKDLKVSGGTSFETLTFTDTPYLEIFKDTTGLHNQLSTKETDVTLAKWIQNPQLVTVQSTAANYEDPIQQFGFMEQMRTGDRKAYTIHGDTRNWYGGEIPTTGPTFIPKWGGQIKWDKPSLGNLVYPADHHTNDWQQIFMRMSPIKGPNGDELKLGCRVQADFFLHLEVRLPPQGCVASLGMLQYLHAPCTGQLNKCYIMHTN 3n7x-a1-m55-cA_3n7x-a1-m9-cA Crystal structure of Penaeus stylirostris densovirus capsid Q9E2G5 Q9E2G5 2.5 X-RAY DIFFRACTION 114 1.0 299 299 3n7x-a1-m10-cA_3n7x-a1-m24-cA 3n7x-a1-m11-cA_3n7x-a1-m16-cA 3n7x-a1-m12-cA_3n7x-a1-m38-cA 3n7x-a1-m13-cA_3n7x-a1-m47-cA 3n7x-a1-m14-cA_3n7x-a1-m45-cA 3n7x-a1-m15-cA_3n7x-a1-m29-cA 3n7x-a1-m17-cA_3n7x-a1-m28-cA 3n7x-a1-m18-cA_3n7x-a1-m52-cA 3n7x-a1-m19-cA_3n7x-a1-m60-cA 3n7x-a1-m1-cA_3n7x-a1-m6-cA 3n7x-a1-m20-cA_3n7x-a1-m39-cA 3n7x-a1-m21-cA_3n7x-a1-m26-cA 3n7x-a1-m22-cA_3n7x-a1-m43-cA 3n7x-a1-m25-cA_3n7x-a1-m54-cA 3n7x-a1-m27-cA_3n7x-a1-m53-cA 3n7x-a1-m2-cA_3n7x-a1-m23-cA 3n7x-a1-m30-cA_3n7x-a1-m44-cA 3n7x-a1-m31-cA_3n7x-a1-m36-cA 3n7x-a1-m32-cA_3n7x-a1-m58-cA 3n7x-a1-m33-cA_3n7x-a1-m7-cA 3n7x-a1-m34-cA_3n7x-a1-m5-cA 3n7x-a1-m35-cA_3n7x-a1-m49-cA 3n7x-a1-m37-cA_3n7x-a1-m48-cA 3n7x-a1-m3-cA_3n7x-a1-m42-cA 3n7x-a1-m40-cA_3n7x-a1-m59-cA 3n7x-a1-m41-cA_3n7x-a1-m46-cA 3n7x-a1-m4-cA_3n7x-a1-m50-cA 3n7x-a1-m51-cA_3n7x-a1-m56-cA 3n7x-a1-m57-cA_3n7x-a1-m8-cA GPDPHRCLQFNTGDSIHITFQTRRYFEFDAANDGNFDGKNLYCLPLHWMNLYLYGLKSSDSSATETQRYKMVKSMMKTYGWKVHKAGVVMHSMVPLMKDLKVSGGTSFETLTFTDTPYLEIFKDTTGLHNQLSTKETDVTLAKWIQNPQLVTVQSTAANYEDPIQQFGFMEQMRTGDRKAYTIHGDTRNWYGGEIPTTGPTFIPKWGGQIKWDKPSLGNLVYPADHHTNDWQQIFMRMSPIKGPNGDELKLGCRVQADFFLHLEVRLPPQGCVASLGMLQYLHAPCTGQLNKCYIMHTN GPDPHRCLQFNTGDSIHITFQTRRYFEFDAANDGNFDGKNLYCLPLHWMNLYLYGLKSSDSSATETQRYKMVKSMMKTYGWKVHKAGVVMHSMVPLMKDLKVSGGTSFETLTFTDTPYLEIFKDTTGLHNQLSTKETDVTLAKWIQNPQLVTVQSTAANYEDPIQQFGFMEQMRTGDRKAYTIHGDTRNWYGGEIPTTGPTFIPKWGGQIKWDKPSLGNLVYPADHHTNDWQQIFMRMSPIKGPNGDELKLGCRVQADFFLHLEVRLPPQGCVASLGMLQYLHAPCTGQLNKCYIMHTN 3n7x-a1-m8-cA_3n7x-a1-m9-cA Crystal structure of Penaeus stylirostris densovirus capsid Q9E2G5 Q9E2G5 2.5 X-RAY DIFFRACTION 103 1.0 299 299 3n7x-a1-m10-cA_3n7x-a1-m6-cA 3n7x-a1-m10-cA_3n7x-a1-m9-cA 3n7x-a1-m11-cA_3n7x-a1-m12-cA 3n7x-a1-m11-cA_3n7x-a1-m15-cA 3n7x-a1-m12-cA_3n7x-a1-m13-cA 3n7x-a1-m13-cA_3n7x-a1-m14-cA 3n7x-a1-m14-cA_3n7x-a1-m15-cA 3n7x-a1-m16-cA_3n7x-a1-m17-cA 3n7x-a1-m16-cA_3n7x-a1-m20-cA 3n7x-a1-m17-cA_3n7x-a1-m18-cA 3n7x-a1-m18-cA_3n7x-a1-m19-cA 3n7x-a1-m19-cA_3n7x-a1-m20-cA 3n7x-a1-m1-cA_3n7x-a1-m2-cA 3n7x-a1-m1-cA_3n7x-a1-m5-cA 3n7x-a1-m21-cA_3n7x-a1-m22-cA 3n7x-a1-m21-cA_3n7x-a1-m25-cA 3n7x-a1-m22-cA_3n7x-a1-m23-cA 3n7x-a1-m23-cA_3n7x-a1-m24-cA 3n7x-a1-m24-cA_3n7x-a1-m25-cA 3n7x-a1-m26-cA_3n7x-a1-m27-cA 3n7x-a1-m26-cA_3n7x-a1-m30-cA 3n7x-a1-m27-cA_3n7x-a1-m28-cA 3n7x-a1-m28-cA_3n7x-a1-m29-cA 3n7x-a1-m29-cA_3n7x-a1-m30-cA 3n7x-a1-m2-cA_3n7x-a1-m3-cA 3n7x-a1-m31-cA_3n7x-a1-m32-cA 3n7x-a1-m31-cA_3n7x-a1-m35-cA 3n7x-a1-m32-cA_3n7x-a1-m33-cA 3n7x-a1-m33-cA_3n7x-a1-m34-cA 3n7x-a1-m34-cA_3n7x-a1-m35-cA 3n7x-a1-m36-cA_3n7x-a1-m37-cA 3n7x-a1-m36-cA_3n7x-a1-m40-cA 3n7x-a1-m37-cA_3n7x-a1-m38-cA 3n7x-a1-m38-cA_3n7x-a1-m39-cA 3n7x-a1-m39-cA_3n7x-a1-m40-cA 3n7x-a1-m3-cA_3n7x-a1-m4-cA 3n7x-a1-m41-cA_3n7x-a1-m42-cA 3n7x-a1-m41-cA_3n7x-a1-m45-cA 3n7x-a1-m42-cA_3n7x-a1-m43-cA 3n7x-a1-m43-cA_3n7x-a1-m44-cA 3n7x-a1-m44-cA_3n7x-a1-m45-cA 3n7x-a1-m46-cA_3n7x-a1-m47-cA 3n7x-a1-m46-cA_3n7x-a1-m50-cA 3n7x-a1-m47-cA_3n7x-a1-m48-cA 3n7x-a1-m48-cA_3n7x-a1-m49-cA 3n7x-a1-m49-cA_3n7x-a1-m50-cA 3n7x-a1-m4-cA_3n7x-a1-m5-cA 3n7x-a1-m51-cA_3n7x-a1-m52-cA 3n7x-a1-m51-cA_3n7x-a1-m55-cA 3n7x-a1-m52-cA_3n7x-a1-m53-cA 3n7x-a1-m53-cA_3n7x-a1-m54-cA 3n7x-a1-m54-cA_3n7x-a1-m55-cA 3n7x-a1-m56-cA_3n7x-a1-m57-cA 3n7x-a1-m56-cA_3n7x-a1-m60-cA 3n7x-a1-m57-cA_3n7x-a1-m58-cA 3n7x-a1-m58-cA_3n7x-a1-m59-cA 3n7x-a1-m59-cA_3n7x-a1-m60-cA 3n7x-a1-m6-cA_3n7x-a1-m7-cA 3n7x-a1-m7-cA_3n7x-a1-m8-cA GPDPHRCLQFNTGDSIHITFQTRRYFEFDAANDGNFDGKNLYCLPLHWMNLYLYGLKSSDSSATETQRYKMVKSMMKTYGWKVHKAGVVMHSMVPLMKDLKVSGGTSFETLTFTDTPYLEIFKDTTGLHNQLSTKETDVTLAKWIQNPQLVTVQSTAANYEDPIQQFGFMEQMRTGDRKAYTIHGDTRNWYGGEIPTTGPTFIPKWGGQIKWDKPSLGNLVYPADHHTNDWQQIFMRMSPIKGPNGDELKLGCRVQADFFLHLEVRLPPQGCVASLGMLQYLHAPCTGQLNKCYIMHTN GPDPHRCLQFNTGDSIHITFQTRRYFEFDAANDGNFDGKNLYCLPLHWMNLYLYGLKSSDSSATETQRYKMVKSMMKTYGWKVHKAGVVMHSMVPLMKDLKVSGGTSFETLTFTDTPYLEIFKDTTGLHNQLSTKETDVTLAKWIQNPQLVTVQSTAANYEDPIQQFGFMEQMRTGDRKAYTIHGDTRNWYGGEIPTTGPTFIPKWGGQIKWDKPSLGNLVYPADHHTNDWQQIFMRMSPIKGPNGDELKLGCRVQADFFLHLEVRLPPQGCVASLGMLQYLHAPCTGQLNKCYIMHTN 3n7z-a1-m1-cE_3n7z-a1-m1-cA Crystal structure of acetyltransferase from Bacillus anthracis 2.75 X-RAY DIFFRACTION 59 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 366 369 3n7z-a1-m1-cC_3n7z-a1-m1-cF 3n7z-a1-m1-cD_3n7z-a1-m1-cB NVIRLKEDKFREALRLSEYAFQYKVEDRLQQQITKKESHEVYGIEGENLAAKLHLIPFHIYIGKEKFKGGVAGVATYPEYRRSGYVKELLQHSLQTKKDGYTVSLHPFAVSFYRKYGWELCANLLVCHTKSDLVKKQVNGTVKRFNKESHPEEVEKLYETFAELFSGLVRNEKWWLQAVYDDLTLAIYYDENQTAAGYLYKIENYKTVEEFVPLHNEARNGLWNFICQHDSIKDLETVSENEPLLYTLQEPRVKTEIKPYFGRIVDVEQFLKQYELNWQEVILHITDSFAQWNNITVRIANHEITIIEEPIDKGIKLDINALSTILFGYRRPLELNELELISGSEEEIRAFESVVPVRKPFIYDFF NVIRLKEDKFREALRLSEYAFQYKVDEDRLQQQITKKESHEVYGIEGENLAAKLHLIPFHIYIGKEKFKGGVAGVATYPEYRRSGYVKELLQHSLQTKKDGYTVSLHPFAVSFYRKYGWELCANLLVCHTKSDLVKKQVNGTVKRFNKESHPEEVEKLYETFAELFSGLVRNEKWWLQAVYDDLTLAIYYDENQTAAGYLYKIENYKTVEEFVPLHNEARNGLWNFICQHDSIKDLETVSENEPLLYTLQEPRVKTEIKPYFGRIVDVEQFLKQYELNWNQQEVILHITDSFAQWNNITVRIANHEITIIEEPIDKGIKLDINALSTILFGYRRPLELNELELISGSEEEIRAFESVVPVRKPFIYDFF 3n7z-a1-m1-cE_3n7z-a1-m1-cF Crystal structure of acetyltransferase from Bacillus anthracis 2.75 X-RAY DIFFRACTION 20 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 366 370 3n7z-a1-m1-cA_3n7z-a1-m1-cB 3n7z-a1-m1-cC_3n7z-a1-m1-cA 3n7z-a1-m1-cC_3n7z-a1-m1-cB 3n7z-a1-m1-cD_3n7z-a1-m1-cF 3n7z-a1-m1-cE_3n7z-a1-m1-cD NVIRLKEDKFREALRLSEYAFQYKVEDRLQQQITKKESHEVYGIEGENLAAKLHLIPFHIYIGKEKFKGGVAGVATYPEYRRSGYVKELLQHSLQTKKDGYTVSLHPFAVSFYRKYGWELCANLLVCHTKSDLVKKQVNGTVKRFNKESHPEEVEKLYETFAELFSGLVRNEKWWLQAVYDDLTLAIYYDENQTAAGYLYKIENYKTVEEFVPLHNEARNGLWNFICQHDSIKDLETVSENEPLLYTLQEPRVKTEIKPYFGRIVDVEQFLKQYELNWQEVILHITDSFAQWNNITVRIANHEITIIEEPIDKGIKLDINALSTILFGYRRPLELNELELISGSEEEIRAFESVVPVRKPFIYDFF NVIRLKEDKFREALRLSEYAFQYKVDEDRLQQQITKKESHEVYGIEGENLAAKLHLIPFHIYIGKEKFKGGVAGVATYPEYRRSGYVKELLQHSLQTKKDGYTVSLHPFAVSFYRKYGWELCANLLVCHTKSDLVKKQVNGTVKRFNKESHPEEVEKLYETFAELFSGLVRNEKWWLQAVYDDLTLAIYYDENQTAAGYLYKIENYKTVEEFVPLHNEARNGLWNFICQHDSIKDLETVSENEPLLYTLQEPRVKTEIKPYFGRIVDVEQFLKQYELNWNNQQEVILHITDSFAQWNNITVRIANHEITIIEEPIDKGIKLDINALSTILFGYRRPLELNELELISGSEEEIRAFESVVPVRKPFIYDFF 3n85-a1-m2-cA_3n85-a1-m3-cA Crystallographic trimer of HER2 extracellular regions in complex with tryptophan-rich antibody fragment P04626 P04626 3.2 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 605 605 3n85-a1-m1-cA_3n85-a1-m2-cA 3n85-a1-m1-cA_3n85-a1-m3-cA TQVCTGTDMKLRLPASPETHLDMLRHLYQGCQVVQGNLELTYLPTNASLSFLQDIQEVQGYVLIAHNQVRQVPLQRLRIVRGTQLFEDNYALAVLDNGDPSPGGLRELQLRSLTEILKGGVLIQRNPQLCYQDTILWKDIFHKNNQLALTLIDTNRSRACHPCSPMCKGSRCWGESSEDCQSLTRTVCAGGCARCKGPLPTDCCHEQCAAGCTGPKHSDCLACLHFNHSGICELHCPNTDTFESMPNPEGRYTFGASCVTACPYNYLSTDVGSCTLVCPLHNQEVTAEDGTQRCEKCSKPCARVCYGLGMEHLREVRAVTSANIQEFAGCKKIFGSLAFLPESFDGDPASNTAPLQPEQLQVFETLEEITGYLYISAWPDSLPDLSVFQNLQVIRGRILHNGAYSLTLQGLGISWLGLRSLRELGSGLALIHHNTHLCFVHTVPWDQLFRNPHQALLHTANRPEDECVGEGLACHQLCARGHCWGPGPTQCVNCSQFLRGQECVEECRVLQGLPREYVNARHCLPCHPECQPQNGSVTCFGPEADQCVACAHYKDPPFCVARCPSGVKPDLSYMPIWKFPDEEGACQPCPINCTHSCVDLDDKGC TQVCTGTDMKLRLPASPETHLDMLRHLYQGCQVVQGNLELTYLPTNASLSFLQDIQEVQGYVLIAHNQVRQVPLQRLRIVRGTQLFEDNYALAVLDNGDPSPGGLRELQLRSLTEILKGGVLIQRNPQLCYQDTILWKDIFHKNNQLALTLIDTNRSRACHPCSPMCKGSRCWGESSEDCQSLTRTVCAGGCARCKGPLPTDCCHEQCAAGCTGPKHSDCLACLHFNHSGICELHCPNTDTFESMPNPEGRYTFGASCVTACPYNYLSTDVGSCTLVCPLHNQEVTAEDGTQRCEKCSKPCARVCYGLGMEHLREVRAVTSANIQEFAGCKKIFGSLAFLPESFDGDPASNTAPLQPEQLQVFETLEEITGYLYISAWPDSLPDLSVFQNLQVIRGRILHNGAYSLTLQGLGISWLGLRSLRELGSGLALIHHNTHLCFVHTVPWDQLFRNPHQALLHTANRPEDECVGEGLACHQLCARGHCWGPGPTQCVNCSQFLRGQECVEECRVLQGLPREYVNARHCLPCHPECQPQNGSVTCFGPEADQCVACAHYKDPPFCVARCPSGVKPDLSYMPIWKFPDEEGACQPCPINCTHSCVDLDDKGC 3n89-a3-m2-cB_3n89-a3-m1-cA KH domains Q95ZK7 Q95ZK7 2.789 X-RAY DIFFRACTION 73 0.991 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 319 337 HIHLPSNIPMIEINPTRVTLNMEFESQYYSLMTSDNGDHENVASIMAETNTLIQLPTTPDPFAQQVTITGYFGDVDRARMLMRRNCHFTVFMALSKMKMPLHELQAHVRQNPIQNVEMSFVDTTYLRITAREKNQHELIEAAKRLNEILFENNFTLHFTLSTYYVDQVLGSSSTAQLMPVIERETTTIISYPGNIYEIKVVGNIDNVLKARRYIMDLLPISMCFNIKNTDMAEPNIHMIIDESGIILKMTPSVYEPAEVPLNCASLRSKEFNIKKLYTAYQKVLSKKFDFIAPQPNDYDNSIWHHSLPANFLKNFNMPC HIHGLPLPSNIPMIEINPTRVTLNMEFESQYYSLMTSDNGDHENVASIMAETNTLIQLPDRSVGGTTPDPFAQQVTITGYFGDVDRARMLMRRNCHFTVFMALSKMKMPLHELQAHVRQNPIQNVEMSFVDAPVTTYLRITAREKNQHELIEAAKRLNEILFRPAPENNFTLHFTLSTYYVDQVLGSSSTAQLMPVIERETTTIISYPGNIYEIKVVGNIDNVLKARRYIMDLLPISMCFNIKNTDMANIHMIIDESGIILKMTPSVYEPADLLSGEVPLNCASLRSKEFNIKKLYTAYQKVLSKKFDFIAPQPNDYDNSIWHHSLPANFLKNFNMP 3n8e-a2-m1-cA_3n8e-a2-m2-cB Substrate binding domain of the human Heat Shock 70kDa protein 9 (mortalin) P38646 P38646 2.8 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 3n8e-a1-m1-cA_3n8e-a1-m2-cB 3n8e-a2-m1-cB_3n8e-a2-m2-cA DVTPLSLGIETLGGVFTKLINRNTTIPTKKSQVFSTAADGQTQVEIKVCQGEREMAGDNKLLGQFTLIGIPPAPRGVPQIEVTFDIDANGIVHVSAKDKGTGREQQIVIQSSGGLSKDDIENMVKNAEKYAEEDRRKKERVEAVNMAEGIIHDTETKME DVTPLSLGIETLGGVFTKLINRNTTIPTKKSQVFSTAADGQTQVEIKVCQGEREMAGDNKLLGQFTLIGIPPAPRGVPQIEVTFDIDANGIVHVSAKDKGTGREQQIVIQSSGGLSKDDIENMVKNAEKYAEEDRRKKERVEAVNMAEGIIHDTETKME 3n8e-a2-m2-cA_3n8e-a2-m2-cB Substrate binding domain of the human Heat Shock 70kDa protein 9 (mortalin) P38646 P38646 2.8 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 3n8e-a2-m1-cA_3n8e-a2-m1-cB DVTPLSLGIETLGGVFTKLINRNTTIPTKKSQVFSTAADGQTQVEIKVCQGEREMAGDNKLLGQFTLIGIPPAPRGVPQIEVTFDIDANGIVHVSAKDKGTGREQQIVIQSSGGLSKDDIENMVKNAEKYAEEDRRKKERVEAVNMAEGIIHDTETKME DVTPLSLGIETLGGVFTKLINRNTTIPTKKSQVFSTAADGQTQVEIKVCQGEREMAGDNKLLGQFTLIGIPPAPRGVPQIEVTFDIDANGIVHVSAKDKGTGREQQIVIQSSGGLSKDDIENMVKNAEKYAEEDRRKKERVEAVNMAEGIIHDTETKME 3n8h-a1-m1-cA_3n8h-a1-m1-cB Crystal Structure of Pantoate-beta-alanine Ligase from Francisella tularensis Q5NF57 Q5NF57 2.001 X-RAY DIFFRACTION 73 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 258 258 3qtt-a1-m2-cB_3qtt-a1-m1-cA 5hg0-a1-m1-cA_5hg0-a1-m1-cB AIIADNIKQFHSIRNSLIKQQKIGFVPTGALHNGHISLIKKAKSENDVVIVSIFVNPTQFNNPNDYQTYPNQLQQDIQILASLDVDVLFNPSEKDIYPDGNLLRIEPKLEIANILEGKSRPGHFSGLTVVLKLLQITKPNNLYLGEKDYQQVLIKQLVKDFFINTKIIVCPTQRQPSGLPLSSRNKNLTSTDIEIANKIYEILRQDDFSNLEELTNKINSTGAKLQYIQKLNNRIFLAFYIGKVRLIDNFLKETGPSC AIIADNIKQFHSIRNSLIKQQKIGFVPTGALHNGHISLIKKAKSENDVVIVSIFVNPTQFNNPNDYQTYPNQLQQDIQILASLDVDVLFNPSEKDIYPDGNLLRIEPKLEIANILEGKSRPGHFSGLTVVLKLLQITKPNNLYLGEKDYQQVLIKQLVKDFFINTKIIVCPTQRQPSGLPLSSRNKNLTSTDIEIANKIYEILRQDDFSNLEELTNKINSTGAKLQYIQKLNNRIFLAFYIGKVRLIDNFLKETGPSC 3n9i-a1-m1-cA_3n9i-a1-m1-cB Crystal structure of tryptophanyl-tRNA synthetase from Yersinia pestis CO92 Q8ZJF2 Q8ZJF2 1.95 X-RAY DIFFRACTION 165 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 332 332 KPIVFSGAQPSGELTIGNYMGALRQWVQMQDDYDCIYCIVDLHAITARQDPALLRKRTLDTLALYLACGIDPKKSTIFVQSHVPEHSQLSWALNCYTYFGELSRMTQFKDKSARYAENINAGLFDYPVLMAADILLYQTNQVPVGEDQKQHLELSRDIASRFNNLYGDIFKIPEPFIPKAGARVMSLQDPTKKMSKSDDNRNNVIELLEDPKSVVKKIKRAMTDSDEPALIRYDVEKKAGVSNLLDILSGVTGQSIPELEAQFTGQMYGHLKGAVADAVSGMLSELQERYRTYREDEALLQDVMREGAAKARARAQVTLAKVYEAIGFVAQP KPIVFSGAQPSGELTIGNYMGALRQWVQMQDDYDCIYCIVDLHAITARQDPALLRKRTLDTLALYLACGIDPKKSTIFVQSHVPEHSQLSWALNCYTYFGELSRMTQFKDKSARYAENINAGLFDYPVLMAADILLYQTNQVPVGEDQKQHLELSRDIASRFNNLYGDIFKIPEPFIPKAGARVMSLQDPTKKMSKSDDNRNNVIELLEDPKSVVKKIKRAMTDSDEPALIRYDVEKKAGVSNLLDILSGVTGQSIPELEAQFTGQMYGHLKGAVADAVSGMLSELQERYRTYREDEALLQDVMREGAAKARARAQVTLAKVYEAIGFVAQP 3n9t-a1-m1-cA_3n9t-a1-m2-cA Cryatal structure of Hydroxyquinol 1,2-dioxygenase from Pseudomonas putida DLL-E4 C6FI44 C6FI44 2 X-RAY DIFFRACTION 196 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 286 286 YKAVEALISDQAVDSFETSPNPRFKQIMQSLVRHLHDFVSEVELTEQEWFEGIRFLTATGQKCDGKVRQEFILLSDTLGVSMLVDAINHRQSTNATETTVFGPFFIEGMPDRGYGENMALTDGVPALVYGRVLDVQGRPVVGAVLDVWQTADNGMYSGQDPDQPFGNLRGRYRSDNDGCFAIQTTVPVCYPIPTDGPVGEMLDAANRHAWRPAHLHFMIQAPGYRKLVTHLFNSDDPYLDSDAVFGVKGSLQVKYEDRPAHDEDAGGLDMPYPYKSAYYEFVMEAE YKAVEALISDQAVDSFETSPNPRFKQIMQSLVRHLHDFVSEVELTEQEWFEGIRFLTATGQKCDGKVRQEFILLSDTLGVSMLVDAINHRQSTNATETTVFGPFFIEGMPDRGYGENMALTDGVPALVYGRVLDVQGRPVVGAVLDVWQTADNGMYSGQDPDQPFGNLRGRYRSDNDGCFAIQTTVPVCYPIPTDGPVGEMLDAANRHAWRPAHLHFMIQAPGYRKLVTHLFNSDDPYLDSDAVFGVKGSLQVKYEDRPAHDEDAGGLDMPYPYKSAYYEFVMEAE 3n9x-a1-m1-cA_3n9x-a1-m1-cB Crystal structure of Map Kinase from plasmodium berghei, PB000659.00.0 2.05 X-RAY DIFFRACTION 96 0.992 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 374 374 RENLYFQGIKNVHVPDNYIIKHLIGRGSYGYVYLAYDKNTEKNVAIKKVNRMFEDLIDCKRILREITILNRLKSDYIIRLYDLIIPDDLLKFDELYIVLEIADSDLKKLFKTPIFLTEEHIKTILYNLLLGENFIHESGIIHRDLKPANCLLNQDCSVKVCDFGLARTIHVVTRWYRAPELILLQENYTKSIDIWSTGCIFAELLNMLQSHINDPTNRFPLFPGSSCFPHEKSNRDQLNIIFNIIGTPTEDDLKNINKPEVIKYIKLFPHRKPINLKQKYPSISDDGINLLESMLKFNPNKRITIDQALDHPYLKDVRKKKLETKKIILPFDDWMVLSETQLRYIFLKEVQSFHPELVIPSVFTIHENNFYNNE GRENLYFQGIKNVHVPDNYIIKHLIGRGSYGYVYLAYDKNTEKNVAIKKVNRMFEDLIDCKRILREITILNRLKSDYIIRLYDLIIPDDLLKFDELYIVLEIADSDLKKLFKTPIFLTEEHIKTILYNLLLGENFIHESGIIHRDLKPANCLLNQDCSVKVCDFGLARTINSHVVTRWYRAPELILLQENYTKSIDIWSTGCIFAELLNMLQSHINDPTNRFPLFPGSSCFHEKSNRDQLNIIFNIIGTPTEDDLKNIKPEVIKYIKLFPHRKPINLKQKYPSISDDGINLLESMLKFNPNKRITIDQALDHPYLKDVRKKKLETKKIILPFDDWMVLSETQLRYIFLKEVQSFHPELVIPSVFTIHENNFYNN 3na2-a2-m3-cC_3na2-a2-m1-cD Crystal Structure of Protein of Unknown Function from Mine Drainage Metagenome Leptospirillum rubarum 2.293 X-RAY DIFFRACTION 102 1.0 419542 (Leptospirillum rubarum) 419542 (Leptospirillum rubarum) 125 131 3na2-a1-m2-cB_3na2-a1-m1-cA GVTDRIGQILEFRTGCLFSVRSPGGVAELYGGEARKVEITGTSLTIEREDWHLHCKLETVETVVFDLSPKGIRAVVFRDKHQAPVLRAAWLPRLPETPSPPEQFWAFTQRYIDLPVVDARNRQLV PGVTDRIGQILEFRTGCLFSVRSPGGVAELYGGEARKVEITGTSLTIEREDWHLHCKLETVETVVFDLSPKDNGGIRAVVFRDKHQAPVLRAAWLPRLPETPSPPEQFWAFTQRYIDLPVVDARNRQLVFP 3na2-a4-m1-cC_3na2-a4-m1-cD Crystal Structure of Protein of Unknown Function from Mine Drainage Metagenome Leptospirillum rubarum 2.293 X-RAY DIFFRACTION 36 1.0 419542 (Leptospirillum rubarum) 419542 (Leptospirillum rubarum) 125 131 3na2-a3-m1-cB_3na2-a3-m1-cA GVTDRIGQILEFRTGCLFSVRSPGGVAELYGGEARKVEITGTSLTIEREDWHLHCKLETVETVVFDLSPKGIRAVVFRDKHQAPVLRAAWLPRLPETPSPPEQFWAFTQRYIDLPVVDARNRQLV PGVTDRIGQILEFRTGCLFSVRSPGGVAELYGGEARKVEITGTSLTIEREDWHLHCKLETVETVVFDLSPKDNGGIRAVVFRDKHQAPVLRAAWLPRLPETPSPPEQFWAFTQRYIDLPVVDARNRQLVFP 3na5-a1-m1-cA_3na5-a1-m1-cB Crystal structure of a bacterial phosphoglucomutase, an enzyme important in the virulence of several human pathogens. Q8ZQW9 Q8ZQW9 1.7 X-RAY DIFFRACTION 84 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 544 544 2fuv-a1-m1-cA_2fuv-a1-m1-cB 3olp-a1-m1-cA_3olp-a1-m1-cB AIHNRAGQPAQQSDLINVAQLTAQYYVLKPEAGNAEHAVKFGTSGHRGSAGRHSFNEPHILAIAQAIAEERAKNGITGPCYVGKDTHALSEPAFISVLEVLAANGVDVIVQENNGFTPTPAVSNAILVHNKKGGPLADGIVITPSHNPPEDGGIKYNPPNGGPADTNVTKVVEDRANALLAGGLQGVKRISLDAAMASGHVKAVDLVQPFVEGLADIVDMAAIQKAGLTLGVDPLGGSGIEYWKRIAEHYKLNLTLVNDQVDQTFRFMHLDKDGAIRMDCSSEAMAGLLALRDKFDLAFANDPDYDRHGIVTPAGLMNPNHYLAVAINYLFQHRPLWGKDVAVGKTLVSSAMIDRVVNDLGRKLVEVPVGFKWFVDGLFDGSFGFGGEESAGASFLRFDGTPWSTDKDGIIMCLLAAEITAVTGKNPQEHYNELAARFGAPSYNRLQASATSAQKAALSKLSPEMVSASTLAGDPITARLTAAPGNGASIGGLKVMTDNGWFAARPSGTEDAYKIYCESFLGEEHRKQIEKEAVEIVSEVLKNA AIHNRAGQPAQQSDLINVAQLTAQYYVLKPEAGNAEHAVKFGTSGHRGSAGRHSFNEPHILAIAQAIAEERAKNGITGPCYVGKDTHALSEPAFISVLEVLAANGVDVIVQENNGFTPTPAVSNAILVHNKKGGPLADGIVITPSHNPPEDGGIKYNPPNGGPADTNVTKVVEDRANALLAGGLQGVKRISLDAAMASGHVKAVDLVQPFVEGLADIVDMAAIQKAGLTLGVDPLGGSGIEYWKRIAEHYKLNLTLVNDQVDQTFRFMHLDKDGAIRMDCSSEAMAGLLALRDKFDLAFANDPDYDRHGIVTPAGLMNPNHYLAVAINYLFQHRPLWGKDVAVGKTLVSSAMIDRVVNDLGRKLVEVPVGFKWFVDGLFDGSFGFGGEESAGASFLRFDGTPWSTDKDGIIMCLLAAEITAVTGKNPQEHYNELAARFGAPSYNRLQASATSAQKAALSKLSPEMVSASTLAGDPITARLTAAPGNGASIGGLKVMTDNGWFAARPSGTEDAYKIYCESFLGEEHRKQIEKEAVEIVSEVLKNA 3na6-a1-m1-cA_3na6-a1-m6-cA Crystal structure of a succinylglutamate desuccinylase (TM1040_2694) from SILICIBACTER SP. TM1040 at 2.00 A resolution Q1GD40 Q1GD40 2 X-RAY DIFFRACTION 117 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 318 318 3na6-a1-m2-cA_3na6-a1-m5-cA 3na6-a1-m3-cA_3na6-a1-m4-cA KDNPISPTIPLDQDGVHHGFLKLPYSRDDSAWGSVIPITVIQNGAGKTALLTGANHGDEYEGPVALQELAATTRAEDVTGRLIIVPYFNYPAFRASARTSPIDRGNLNRAFPGRPDGTVTQKIADYFQRTLLPADVAVDFHSGGKTLDFVPFAAAHILEDKVLQDACFAAQAFNAPYSVQLLEIDSEGYDTAVEEGKVLVTTELGGGGSTARSNAIAKKGLRNVLIHFGILQGEQIDPSVTLDPDGDCYLFSEHDGLFEIIDLGEPVQEGDLVARVWSPDRTGEAPVEYRARRSGVLISRHFPGIKSGDCAAVIGVVE KDNPISPTIPLDQDGVHHGFLKLPYSRDDSAWGSVIPITVIQNGAGKTALLTGANHGDEYEGPVALQELAATTRAEDVTGRLIIVPYFNYPAFRASARTSPIDRGNLNRAFPGRPDGTVTQKIADYFQRTLLPADVAVDFHSGGKTLDFVPFAAAHILEDKVLQDACFAAQAFNAPYSVQLLEIDSEGYDTAVEEGKVLVTTELGGGGSTARSNAIAKKGLRNVLIHFGILQGEQIDPSVTLDPDGDCYLFSEHDGLFEIIDLGEPVQEGDLVARVWSPDRTGEAPVEYRARRSGVLISRHFPGIKSGDCAAVIGVVE 3na6-a1-m5-cA_3na6-a1-m6-cA Crystal structure of a succinylglutamate desuccinylase (TM1040_2694) from SILICIBACTER SP. TM1040 at 2.00 A resolution Q1GD40 Q1GD40 2 X-RAY DIFFRACTION 45 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 318 318 3na6-a1-m1-cA_3na6-a1-m2-cA 3na6-a1-m1-cA_3na6-a1-m3-cA 3na6-a1-m2-cA_3na6-a1-m3-cA 3na6-a1-m4-cA_3na6-a1-m5-cA 3na6-a1-m4-cA_3na6-a1-m6-cA KDNPISPTIPLDQDGVHHGFLKLPYSRDDSAWGSVIPITVIQNGAGKTALLTGANHGDEYEGPVALQELAATTRAEDVTGRLIIVPYFNYPAFRASARTSPIDRGNLNRAFPGRPDGTVTQKIADYFQRTLLPADVAVDFHSGGKTLDFVPFAAAHILEDKVLQDACFAAQAFNAPYSVQLLEIDSEGYDTAVEEGKVLVTTELGGGGSTARSNAIAKKGLRNVLIHFGILQGEQIDPSVTLDPDGDCYLFSEHDGLFEIIDLGEPVQEGDLVARVWSPDRTGEAPVEYRARRSGVLISRHFPGIKSGDCAAVIGVVE KDNPISPTIPLDQDGVHHGFLKLPYSRDDSAWGSVIPITVIQNGAGKTALLTGANHGDEYEGPVALQELAATTRAEDVTGRLIIVPYFNYPAFRASARTSPIDRGNLNRAFPGRPDGTVTQKIADYFQRTLLPADVAVDFHSGGKTLDFVPFAAAHILEDKVLQDACFAAQAFNAPYSVQLLEIDSEGYDTAVEEGKVLVTTELGGGGSTARSNAIAKKGLRNVLIHFGILQGEQIDPSVTLDPDGDCYLFSEHDGLFEIIDLGEPVQEGDLVARVWSPDRTGEAPVEYRARRSGVLISRHFPGIKSGDCAAVIGVVE 3na8-a1-m1-cD_3na8-a1-m1-cA Crystal Structure of a putative dihydrodipicolinate synthetase from Pseudomonas aeruginosa Q9I6R5 Q9I6R5 1.85 X-RAY DIFFRACTION 78 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 284 285 3na8-a1-m1-cB_3na8-a1-m1-cC SIHGIIGYTITPFAADGGLDLPALGRSIERLIDGGVHAIAPLGSTGEGAYLSDPEWDEVVDFTLKTVAHRVPTIVSVSDLTTAKTVRRAQFAESLGAEAVVLPISYWKLNEAEVFQHYRAVGEAIGVPVLYNNPGTSGIDSVELILRIVREVDNVTVKESTGDIQRHKLRLLGEGRVPFYNGNPLALEAFVAGAKGWCSAAPNLIPTLNGQLYQAVLDGDLEKARALFYRQLPLLDFILRRGLPTTIKAGLGLSGLEVGAPRLPVQALDTEGCRYLQGLLEELR ASIHGIIGYTITPFAADGGLDLPALGRSIERLIDGGVHAIAPLGSTGEGAYLSDPEWDEVVDFTLKTVAHRVPTIVSVSDLTTAKTVRRAQFAESLGAEAVVLPISYWKLNEAEVFQHYRAVGEAIGVPVLYNNPGTSGIDSVELILRIVREVDNVTVKESTGDIQRHKLRLLGEGRVPFYNGNPLALEAFVAGAKGWCSAAPNLIPTLNGQLYQAVLDGDLEKARALFYRQLPLLDFILRRGLPTTIKAGLGLSGLEVGAPRLPVQALDTEGCRYLQGLLEELR 3na8-a1-m1-cD_3na8-a1-m1-cC Crystal Structure of a putative dihydrodipicolinate synthetase from Pseudomonas aeruginosa Q9I6R5 Q9I6R5 1.85 X-RAY DIFFRACTION 56 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 284 285 3na8-a1-m1-cB_3na8-a1-m1-cA SIHGIIGYTITPFAADGGLDLPALGRSIERLIDGGVHAIAPLGSTGEGAYLSDPEWDEVVDFTLKTVAHRVPTIVSVSDLTTAKTVRRAQFAESLGAEAVVLPISYWKLNEAEVFQHYRAVGEAIGVPVLYNNPGTSGIDSVELILRIVREVDNVTVKESTGDIQRHKLRLLGEGRVPFYNGNPLALEAFVAGAKGWCSAAPNLIPTLNGQLYQAVLDGDLEKARALFYRQLPLLDFILRRGLPTTIKAGLGLSGLEVGAPRLPVQALDTEGCRYLQGLLEELR ASIHGIIGYTITPFAADGGLDLPALGRSIERLIDGGVHAIAPLGSTGEGAYLSDPEWDEVVDFTLKTVAHRVPTIVSVSDLTTAKTVRRAQFAESLGAEAVVLPISYWKLNEAEVFQHYRAVGEAIGVPVLYNNPGTSGIDSVELILRIVREVDNVTVKESTGDIQRHKLRLLGEGRVPFYNGNPLALEAFVAGAKGWCSAAPNLIPTLNGQLYQAVLDGDLEKARALFYRQLPLLDFILRRGLPTTIKAGLGLSGLEVGAPRLPVQALDTEGCRYLQGLLEELR 3nad-a1-m1-cB_3nad-a1-m1-cA Crystal Structure of Phenolic Acid Decarboxylase from Bacillus pumilus UI-670 Q45361 Q45361 1.69 X-RAY DIFFRACTION 82 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 159 161 MDQFVGLHMIYTYENGWEYEIYIKNDHTIDYRIHSGMVGGRWVRDQEVNIVKLTKGVYKVSWTEPTGTDVSLNFMPEEKRMHGVIFFPKWVHERPDITVCYQNDYIDLMKESREKYETYPKYVVPEFADITYIHHAGVNDETIIAEAPYEGMTDEIRAG MDQFVGLHMIYTYENGWEYEIYIKNDHTIDYRIHSGMVGGRWVRDQEVNIVKLTKGVYKVSWTEPTGTDVSLNFMPEEKRMHGVIFFPKWVHERPDITVCYQNDYIDLMKESREKYETYPKYVVPEFADITYIHHAGVNDETIIAEAPYEGMTDEIRAGRK 3nag-a1-m1-cB_3nag-a1-m2-cB Crystal structure of the phosphoribosylpyrophosphate (PRPP) synthetase from Thermoplasma Volcanium in complex with ADP Q97CA5 Q97CA5 1.75 X-RAY DIFFRACTION 39 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 286 286 3nag-a1-m1-cA_3nag-a1-m2-cA MKIIALRSSLKLAARIAEELKTEPVMPDERRFPDGELYLRYDEDLTGHNIFIIGNTHSDAEVMEMILTLSAIQDYRTKSVNIIAPYYGYARQHQRYKNGEPISSQILTEIYSSYSNSIATVDIHDEKTLSYSKVKFSDLHANDAIVRYYKNVDVDYVVSPDDGGLARVADISAKLGKKHFFIEKKRIDDRTVEMKVPNVDVNGKKLLIVDDIISTGGTIAKSSGLLREKGASKIYVSAVHGLFVNGSENKILQNADEIHVTDTVESKFSDISVYQEVCNYIRDIDA MKIIALRSSLKLAARIAEELKTEPVMPDERRFPDGELYLRYDEDLTGHNIFIIGNTHSDAEVMEMILTLSAIQDYRTKSVNIIAPYYGYARQHQRYKNGEPISSQILTEIYSSYSNSIATVDIHDEKTLSYSKVKFSDLHANDAIVRYYKNVDVDYVVSPDDGGLARVADISAKLGKKHFFIEKKRIDDRTVEMKVPNVDVNGKKLLIVDDIISTGGTIAKSSGLLREKGASKIYVSAVHGLFVNGSENKILQNADEIHVTDTVESKFSDISVYQEVCNYIRDIDA 3nag-a2-m1-cA_3nag-a2-m1-cB Crystal structure of the phosphoribosylpyrophosphate (PRPP) synthetase from Thermoplasma Volcanium in complex with ADP Q97CA5 Q97CA5 1.75 X-RAY DIFFRACTION 123 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 284 286 3lpn-a1-m1-cA_3lpn-a1-m1-cB 3lrt-a1-m1-cA_3lrt-a1-m1-cB 3mbi-a1-m1-cC_3mbi-a1-m1-cA 3mbi-a2-m1-cD_3mbi-a2-m1-cB 3nag-a1-m1-cA_3nag-a1-m1-cB 3nag-a1-m2-cA_3nag-a1-m2-cB MKIIALRSSLKLAARIAEELKTEPVMPDERRFPDGELYLRYDEDLTGHNIFIIGNTHSDAEVMEMILTLSAIQDYRTKSVNIIAPYYGYARQHQRYKNGEPISSQILTEIYSSYSNSIATVDIHDEKTLSYSKVKFSDLHANDAIVRYYKNVDVDYVVSPDDGGLARVADISAKLGKKHFFIEKKRIDDRTVEMKVPNVDVNGKKLLIVDDIISTGGTIAKSSGLLREKGASKIYVSAVHGLFVNGSENKILQNADEIHVTDTVESKFSDISVYQEVCNYIRDI MKIIALRSSLKLAARIAEELKTEPVMPDERRFPDGELYLRYDEDLTGHNIFIIGNTHSDAEVMEMILTLSAIQDYRTKSVNIIAPYYGYARQHQRYKNGEPISSQILTEIYSSYSNSIATVDIHDEKTLSYSKVKFSDLHANDAIVRYYKNVDVDYVVSPDDGGLARVADISAKLGKKHFFIEKKRIDDRTVEMKVPNVDVNGKKLLIVDDIISTGGTIAKSSGLLREKGASKIYVSAVHGLFVNGSENKILQNADEIHVTDTVESKFSDISVYQEVCNYIRDIDA 3nap-a1-m23-cB_3nap-a1-m9-cB Structure of Triatoma Virus (TrV) Q9QEY5 Q9QEY5 2.5 X-RAY DIFFRACTION 246 1.0 103442 (Triatoma virus) 103442 (Triatoma virus) 247 247 3nap-a1-m10-cB_3nap-a1-m5-cB 3nap-a1-m11-cB_3nap-a1-m37-cB 3nap-a1-m12-cB_3nap-a1-m46-cB 3nap-a1-m13-cB_3nap-a1-m44-cB 3nap-a1-m14-cB_3nap-a1-m28-cB 3nap-a1-m15-cB_3nap-a1-m20-cB 3nap-a1-m16-cB_3nap-a1-m27-cB 3nap-a1-m17-cB_3nap-a1-m51-cB 3nap-a1-m18-cB_3nap-a1-m59-cB 3nap-a1-m19-cB_3nap-a1-m38-cB 3nap-a1-m1-cB_3nap-a1-m22-cB 3nap-a1-m21-cB_3nap-a1-m42-cB 3nap-a1-m24-cB_3nap-a1-m53-cB 3nap-a1-m25-cB_3nap-a1-m30-cB 3nap-a1-m26-cB_3nap-a1-m52-cB 3nap-a1-m29-cB_3nap-a1-m43-cB 3nap-a1-m2-cB_3nap-a1-m41-cB 3nap-a1-m31-cB_3nap-a1-m57-cB 3nap-a1-m32-cB_3nap-a1-m6-cB 3nap-a1-m33-cB_3nap-a1-m4-cB 3nap-a1-m34-cB_3nap-a1-m48-cB 3nap-a1-m35-cB_3nap-a1-m40-cB 3nap-a1-m36-cB_3nap-a1-m47-cB 3nap-a1-m39-cB_3nap-a1-m58-cB 3nap-a1-m3-cB_3nap-a1-m49-cB 3nap-a1-m45-cB_3nap-a1-m50-cB 3nap-a1-m54-cB_3nap-a1-m8-cB 3nap-a1-m55-cB_3nap-a1-m60-cB 3nap-a1-m56-cB_3nap-a1-m7-cB 5l7o-a1-m10-cB_5l7o-a1-m5-cB 5l7o-a1-m11-cB_5l7o-a1-m37-cB 5l7o-a1-m12-cB_5l7o-a1-m46-cB 5l7o-a1-m13-cB_5l7o-a1-m44-cB 5l7o-a1-m14-cB_5l7o-a1-m28-cB 5l7o-a1-m15-cB_5l7o-a1-m20-cB 5l7o-a1-m16-cB_5l7o-a1-m27-cB 5l7o-a1-m17-cB_5l7o-a1-m51-cB 5l7o-a1-m18-cB_5l7o-a1-m59-cB 5l7o-a1-m19-cB_5l7o-a1-m38-cB 5l7o-a1-m1-cB_5l7o-a1-m22-cB 5l7o-a1-m21-cB_5l7o-a1-m42-cB 5l7o-a1-m23-cB_5l7o-a1-m9-cB 5l7o-a1-m24-cB_5l7o-a1-m53-cB 5l7o-a1-m25-cB_5l7o-a1-m30-cB 5l7o-a1-m26-cB_5l7o-a1-m52-cB 5l7o-a1-m29-cB_5l7o-a1-m43-cB 5l7o-a1-m2-cB_5l7o-a1-m41-cB 5l7o-a1-m31-cB_5l7o-a1-m57-cB 5l7o-a1-m32-cB_5l7o-a1-m6-cB 5l7o-a1-m33-cB_5l7o-a1-m4-cB 5l7o-a1-m34-cB_5l7o-a1-m48-cB 5l7o-a1-m35-cB_5l7o-a1-m40-cB 5l7o-a1-m36-cB_5l7o-a1-m47-cB 5l7o-a1-m39-cB_5l7o-a1-m58-cB 5l7o-a1-m3-cB_5l7o-a1-m49-cB 5l7o-a1-m45-cB_5l7o-a1-m50-cB 5l7o-a1-m54-cB_5l7o-a1-m8-cB 5l7o-a1-m55-cB_5l7o-a1-m60-cB 5l7o-a1-m56-cB_5l7o-a1-m7-cB KQMNVNSSQDTTFEQRSQEKVQAGEINESIEFRNQITTFVHDNPIITEQLIGDSPQPSGDVRSVSDARTHSIIDFLERPQFIGSFLWNTSDIENKEIFSLKLPDALMSPMIREKLSGFTSFSASTVFHIQVNAHPFQCGRLVLAAVPVPDILPLHRLNMLSFDVSNVITLPHVQLDISKETEVLLKIPYVSPFVQYDLVTKFTPWAAFLAHVYAPLNTPSAASLQVNVFAHFEDIKLGFPTSAIVAQ KQMNVNSSQDTTFEQRSQEKVQAGEINESIEFRNQITTFVHDNPIITEQLIGDSPQPSGDVRSVSDARTHSIIDFLERPQFIGSFLWNTSDIENKEIFSLKLPDALMSPMIREKLSGFTSFSASTVFHIQVNAHPFQCGRLVLAAVPVPDILPLHRLNMLSFDVSNVITLPHVQLDISKETEVLLKIPYVSPFVQYDLVTKFTPWAAFLAHVYAPLNTPSAASLQVNVFAHFEDIKLGFPTSAIVAQ 3nap-a1-m5-cB_3nap-a1-m9-cB Structure of Triatoma Virus (TrV) Q9QEY5 Q9QEY5 2.5 X-RAY DIFFRACTION 34 1.0 103442 (Triatoma virus) 103442 (Triatoma virus) 247 247 3nap-a1-m10-cB_3nap-a1-m32-cB 3nap-a1-m10-cB_3nap-a1-m4-cB 3nap-a1-m11-cB_3nap-a1-m36-cB 3nap-a1-m11-cB_3nap-a1-m46-cB 3nap-a1-m12-cB_3nap-a1-m44-cB 3nap-a1-m12-cB_3nap-a1-m50-cB 3nap-a1-m13-cB_3nap-a1-m28-cB 3nap-a1-m13-cB_3nap-a1-m43-cB 3nap-a1-m14-cB_3nap-a1-m20-cB 3nap-a1-m14-cB_3nap-a1-m27-cB 3nap-a1-m15-cB_3nap-a1-m19-cB 3nap-a1-m15-cB_3nap-a1-m37-cB 3nap-a1-m16-cB_3nap-a1-m26-cB 3nap-a1-m16-cB_3nap-a1-m51-cB 3nap-a1-m17-cB_3nap-a1-m55-cB 3nap-a1-m17-cB_3nap-a1-m59-cB 3nap-a1-m18-cB_3nap-a1-m38-cB 3nap-a1-m18-cB_3nap-a1-m58-cB 3nap-a1-m19-cB_3nap-a1-m37-cB 3nap-a1-m1-cB_3nap-a1-m21-cB 3nap-a1-m1-cB_3nap-a1-m41-cB 3nap-a1-m20-cB_3nap-a1-m27-cB 3nap-a1-m21-cB_3nap-a1-m41-cB 3nap-a1-m22-cB_3nap-a1-m5-cB 3nap-a1-m22-cB_3nap-a1-m9-cB 3nap-a1-m23-cB_3nap-a1-m53-cB 3nap-a1-m23-cB_3nap-a1-m8-cB 3nap-a1-m24-cB_3nap-a1-m30-cB 3nap-a1-m24-cB_3nap-a1-m52-cB 3nap-a1-m25-cB_3nap-a1-m29-cB 3nap-a1-m25-cB_3nap-a1-m42-cB 3nap-a1-m26-cB_3nap-a1-m51-cB 3nap-a1-m28-cB_3nap-a1-m43-cB 3nap-a1-m29-cB_3nap-a1-m42-cB 3nap-a1-m2-cB_3nap-a1-m45-cB 3nap-a1-m2-cB_3nap-a1-m49-cB 3nap-a1-m30-cB_3nap-a1-m52-cB 3nap-a1-m31-cB_3nap-a1-m56-cB 3nap-a1-m31-cB_3nap-a1-m6-cB 3nap-a1-m32-cB_3nap-a1-m4-cB 3nap-a1-m33-cB_3nap-a1-m48-cB 3nap-a1-m34-cB_3nap-a1-m40-cB 3nap-a1-m34-cB_3nap-a1-m47-cB 3nap-a1-m35-cB_3nap-a1-m39-cB 3nap-a1-m35-cB_3nap-a1-m57-cB 3nap-a1-m36-cB_3nap-a1-m46-cB 3nap-a1-m38-cB_3nap-a1-m58-cB 3nap-a1-m39-cB_3nap-a1-m57-cB 3nap-a1-m3-cB_3nap-a1-m33-cB 3nap-a1-m3-cB_3nap-a1-m48-cB 3nap-a1-m40-cB_3nap-a1-m47-cB 3nap-a1-m44-cB_3nap-a1-m50-cB 3nap-a1-m45-cB_3nap-a1-m49-cB 3nap-a1-m53-cB_3nap-a1-m8-cB 3nap-a1-m54-cB_3nap-a1-m60-cB 3nap-a1-m54-cB_3nap-a1-m7-cB 3nap-a1-m55-cB_3nap-a1-m59-cB 3nap-a1-m56-cB_3nap-a1-m6-cB 3nap-a1-m60-cB_3nap-a1-m7-cB KQMNVNSSQDTTFEQRSQEKVQAGEINESIEFRNQITTFVHDNPIITEQLIGDSPQPSGDVRSVSDARTHSIIDFLERPQFIGSFLWNTSDIENKEIFSLKLPDALMSPMIREKLSGFTSFSASTVFHIQVNAHPFQCGRLVLAAVPVPDILPLHRLNMLSFDVSNVITLPHVQLDISKETEVLLKIPYVSPFVQYDLVTKFTPWAAFLAHVYAPLNTPSAASLQVNVFAHFEDIKLGFPTSAIVAQ KQMNVNSSQDTTFEQRSQEKVQAGEINESIEFRNQITTFVHDNPIITEQLIGDSPQPSGDVRSVSDARTHSIIDFLERPQFIGSFLWNTSDIENKEIFSLKLPDALMSPMIREKLSGFTSFSASTVFHIQVNAHPFQCGRLVLAAVPVPDILPLHRLNMLSFDVSNVITLPHVQLDISKETEVLLKIPYVSPFVQYDLVTKFTPWAAFLAHVYAPLNTPSAASLQVNVFAHFEDIKLGFPTSAIVAQ 3nap-a1-m7-cC_3nap-a1-m9-cC Structure of Triatoma Virus (TrV) Q9QEY5 Q9QEY5 2.5 X-RAY DIFFRACTION 30 1.0 103442 (Triatoma virus) 103442 (Triatoma virus) 276 276 3nap-a1-m10-cC_3nap-a1-m7-cC 3nap-a1-m10-cC_3nap-a1-m8-cC 3nap-a1-m11-cC_3nap-a1-m13-cC 3nap-a1-m11-cC_3nap-a1-m14-cC 3nap-a1-m12-cC_3nap-a1-m14-cC 3nap-a1-m12-cC_3nap-a1-m15-cC 3nap-a1-m13-cC_3nap-a1-m15-cC 3nap-a1-m16-cC_3nap-a1-m18-cC 3nap-a1-m16-cC_3nap-a1-m19-cC 3nap-a1-m17-cC_3nap-a1-m19-cC 3nap-a1-m17-cC_3nap-a1-m20-cC 3nap-a1-m18-cC_3nap-a1-m20-cC 3nap-a1-m1-cC_3nap-a1-m3-cC 3nap-a1-m1-cC_3nap-a1-m4-cC 3nap-a1-m21-cC_3nap-a1-m23-cC 3nap-a1-m21-cC_3nap-a1-m24-cC 3nap-a1-m22-cC_3nap-a1-m24-cC 3nap-a1-m22-cC_3nap-a1-m25-cC 3nap-a1-m23-cC_3nap-a1-m25-cC 3nap-a1-m26-cC_3nap-a1-m28-cC 3nap-a1-m26-cC_3nap-a1-m29-cC 3nap-a1-m27-cC_3nap-a1-m29-cC 3nap-a1-m27-cC_3nap-a1-m30-cC 3nap-a1-m28-cC_3nap-a1-m30-cC 3nap-a1-m2-cC_3nap-a1-m4-cC 3nap-a1-m2-cC_3nap-a1-m5-cC 3nap-a1-m31-cC_3nap-a1-m33-cC 3nap-a1-m31-cC_3nap-a1-m34-cC 3nap-a1-m32-cC_3nap-a1-m34-cC 3nap-a1-m32-cC_3nap-a1-m35-cC 3nap-a1-m33-cC_3nap-a1-m35-cC 3nap-a1-m36-cC_3nap-a1-m38-cC 3nap-a1-m36-cC_3nap-a1-m39-cC 3nap-a1-m37-cC_3nap-a1-m39-cC 3nap-a1-m37-cC_3nap-a1-m40-cC 3nap-a1-m38-cC_3nap-a1-m40-cC 3nap-a1-m3-cC_3nap-a1-m5-cC 3nap-a1-m41-cC_3nap-a1-m43-cC 3nap-a1-m41-cC_3nap-a1-m44-cC 3nap-a1-m42-cC_3nap-a1-m44-cC 3nap-a1-m42-cC_3nap-a1-m45-cC 3nap-a1-m43-cC_3nap-a1-m45-cC 3nap-a1-m46-cC_3nap-a1-m48-cC 3nap-a1-m46-cC_3nap-a1-m49-cC 3nap-a1-m47-cC_3nap-a1-m49-cC 3nap-a1-m47-cC_3nap-a1-m50-cC 3nap-a1-m48-cC_3nap-a1-m50-cC 3nap-a1-m51-cC_3nap-a1-m53-cC 3nap-a1-m51-cC_3nap-a1-m54-cC 3nap-a1-m52-cC_3nap-a1-m54-cC 3nap-a1-m52-cC_3nap-a1-m55-cC 3nap-a1-m53-cC_3nap-a1-m55-cC 3nap-a1-m56-cC_3nap-a1-m58-cC 3nap-a1-m56-cC_3nap-a1-m59-cC 3nap-a1-m57-cC_3nap-a1-m59-cC 3nap-a1-m57-cC_3nap-a1-m60-cC 3nap-a1-m58-cC_3nap-a1-m60-cC 3nap-a1-m6-cC_3nap-a1-m8-cC 3nap-a1-m6-cC_3nap-a1-m9-cC 5l7o-a1-m10-cC_5l7o-a1-m7-cC 5l7o-a1-m10-cC_5l7o-a1-m8-cC 5l7o-a1-m11-cC_5l7o-a1-m13-cC 5l7o-a1-m11-cC_5l7o-a1-m14-cC 5l7o-a1-m12-cC_5l7o-a1-m14-cC 5l7o-a1-m12-cC_5l7o-a1-m15-cC 5l7o-a1-m13-cC_5l7o-a1-m15-cC 5l7o-a1-m16-cC_5l7o-a1-m18-cC 5l7o-a1-m16-cC_5l7o-a1-m19-cC 5l7o-a1-m17-cC_5l7o-a1-m19-cC 5l7o-a1-m17-cC_5l7o-a1-m20-cC 5l7o-a1-m18-cC_5l7o-a1-m20-cC 5l7o-a1-m1-cC_5l7o-a1-m3-cC 5l7o-a1-m1-cC_5l7o-a1-m4-cC 5l7o-a1-m21-cC_5l7o-a1-m23-cC 5l7o-a1-m21-cC_5l7o-a1-m24-cC 5l7o-a1-m22-cC_5l7o-a1-m24-cC 5l7o-a1-m22-cC_5l7o-a1-m25-cC 5l7o-a1-m23-cC_5l7o-a1-m25-cC 5l7o-a1-m26-cC_5l7o-a1-m28-cC 5l7o-a1-m26-cC_5l7o-a1-m29-cC 5l7o-a1-m27-cC_5l7o-a1-m29-cC 5l7o-a1-m27-cC_5l7o-a1-m30-cC 5l7o-a1-m28-cC_5l7o-a1-m30-cC 5l7o-a1-m2-cC_5l7o-a1-m4-cC 5l7o-a1-m2-cC_5l7o-a1-m5-cC 5l7o-a1-m31-cC_5l7o-a1-m33-cC 5l7o-a1-m31-cC_5l7o-a1-m34-cC 5l7o-a1-m32-cC_5l7o-a1-m34-cC 5l7o-a1-m32-cC_5l7o-a1-m35-cC 5l7o-a1-m33-cC_5l7o-a1-m35-cC 5l7o-a1-m36-cC_5l7o-a1-m38-cC 5l7o-a1-m36-cC_5l7o-a1-m39-cC 5l7o-a1-m37-cC_5l7o-a1-m39-cC 5l7o-a1-m37-cC_5l7o-a1-m40-cC 5l7o-a1-m38-cC_5l7o-a1-m40-cC 5l7o-a1-m3-cC_5l7o-a1-m5-cC 5l7o-a1-m41-cC_5l7o-a1-m43-cC 5l7o-a1-m41-cC_5l7o-a1-m44-cC 5l7o-a1-m42-cC_5l7o-a1-m44-cC 5l7o-a1-m42-cC_5l7o-a1-m45-cC 5l7o-a1-m43-cC_5l7o-a1-m45-cC 5l7o-a1-m46-cC_5l7o-a1-m48-cC 5l7o-a1-m46-cC_5l7o-a1-m49-cC 5l7o-a1-m47-cC_5l7o-a1-m49-cC 5l7o-a1-m47-cC_5l7o-a1-m50-cC 5l7o-a1-m48-cC_5l7o-a1-m50-cC 5l7o-a1-m51-cC_5l7o-a1-m53-cC 5l7o-a1-m51-cC_5l7o-a1-m54-cC 5l7o-a1-m52-cC_5l7o-a1-m54-cC 5l7o-a1-m52-cC_5l7o-a1-m55-cC 5l7o-a1-m53-cC_5l7o-a1-m55-cC 5l7o-a1-m56-cC_5l7o-a1-m58-cC 5l7o-a1-m56-cC_5l7o-a1-m59-cC 5l7o-a1-m57-cC_5l7o-a1-m59-cC 5l7o-a1-m57-cC_5l7o-a1-m60-cC 5l7o-a1-m58-cC_5l7o-a1-m60-cC 5l7o-a1-m6-cC_5l7o-a1-m8-cC 5l7o-a1-m6-cC_5l7o-a1-m9-cC 5l7o-a1-m7-cC_5l7o-a1-m9-cC SKPLTTIPPTIVVQRPSQYFNNADGVDQGLPLSLKYGNEVILKTPFAGTSSDEMALEYVLKIPNYFSRFKYSSTSLPKQVLWTSPVHPQIIRNHVTVVDAPGQPTLLAYATGFFKYWRGGLVYTFRFVKTNYHSGRVQITFHPFVGYDDVMDSDGKIVRDEYVYRVVVDLRDQTEATLVVPFTSLTPYKVCADVFNSANRPKYNYEPRDFKVYDNTTDQFFTGTLCVSALTPLVSSSAVVSSTIDVLVEVKASDDFEVAVPNTPLWLPVDSLTERP SKPLTTIPPTIVVQRPSQYFNNADGVDQGLPLSLKYGNEVILKTPFAGTSSDEMALEYVLKIPNYFSRFKYSSTSLPKQVLWTSPVHPQIIRNHVTVVDAPGQPTLLAYATGFFKYWRGGLVYTFRFVKTNYHSGRVQITFHPFVGYDDVMDSDGKIVRDEYVYRVVVDLRDQTEATLVVPFTSLTPYKVCADVFNSANRPKYNYEPRDFKVYDNTTDQFFTGTLCVSALTPLVSSSAVVSSTIDVLVEVKASDDFEVAVPNTPLWLPVDSLTERP 3nap-a1-m8-cA_3nap-a1-m9-cA Structure of Triatoma Virus (TrV) Q9QEY5 Q9QEY5 2.5 X-RAY DIFFRACTION 99 1.0 103442 (Triatoma virus) 103442 (Triatoma virus) 264 264 3nap-a1-m10-cA_3nap-a1-m6-cA 3nap-a1-m10-cA_3nap-a1-m9-cA 3nap-a1-m11-cA_3nap-a1-m12-cA 3nap-a1-m11-cA_3nap-a1-m15-cA 3nap-a1-m12-cA_3nap-a1-m13-cA 3nap-a1-m13-cA_3nap-a1-m14-cA 3nap-a1-m14-cA_3nap-a1-m15-cA 3nap-a1-m16-cA_3nap-a1-m17-cA 3nap-a1-m16-cA_3nap-a1-m20-cA 3nap-a1-m17-cA_3nap-a1-m18-cA 3nap-a1-m18-cA_3nap-a1-m19-cA 3nap-a1-m19-cA_3nap-a1-m20-cA 3nap-a1-m1-cA_3nap-a1-m2-cA 3nap-a1-m1-cA_3nap-a1-m5-cA 3nap-a1-m21-cA_3nap-a1-m22-cA 3nap-a1-m21-cA_3nap-a1-m25-cA 3nap-a1-m22-cA_3nap-a1-m23-cA 3nap-a1-m23-cA_3nap-a1-m24-cA 3nap-a1-m24-cA_3nap-a1-m25-cA 3nap-a1-m26-cA_3nap-a1-m27-cA 3nap-a1-m26-cA_3nap-a1-m30-cA 3nap-a1-m27-cA_3nap-a1-m28-cA 3nap-a1-m28-cA_3nap-a1-m29-cA 3nap-a1-m29-cA_3nap-a1-m30-cA 3nap-a1-m2-cA_3nap-a1-m3-cA 3nap-a1-m31-cA_3nap-a1-m32-cA 3nap-a1-m31-cA_3nap-a1-m35-cA 3nap-a1-m32-cA_3nap-a1-m33-cA 3nap-a1-m33-cA_3nap-a1-m34-cA 3nap-a1-m34-cA_3nap-a1-m35-cA 3nap-a1-m36-cA_3nap-a1-m37-cA 3nap-a1-m36-cA_3nap-a1-m40-cA 3nap-a1-m37-cA_3nap-a1-m38-cA 3nap-a1-m38-cA_3nap-a1-m39-cA 3nap-a1-m39-cA_3nap-a1-m40-cA 3nap-a1-m3-cA_3nap-a1-m4-cA 3nap-a1-m41-cA_3nap-a1-m42-cA 3nap-a1-m41-cA_3nap-a1-m45-cA 3nap-a1-m42-cA_3nap-a1-m43-cA 3nap-a1-m43-cA_3nap-a1-m44-cA 3nap-a1-m44-cA_3nap-a1-m45-cA 3nap-a1-m46-cA_3nap-a1-m47-cA 3nap-a1-m46-cA_3nap-a1-m50-cA 3nap-a1-m47-cA_3nap-a1-m48-cA 3nap-a1-m48-cA_3nap-a1-m49-cA 3nap-a1-m49-cA_3nap-a1-m50-cA 3nap-a1-m4-cA_3nap-a1-m5-cA 3nap-a1-m51-cA_3nap-a1-m52-cA 3nap-a1-m51-cA_3nap-a1-m55-cA 3nap-a1-m52-cA_3nap-a1-m53-cA 3nap-a1-m53-cA_3nap-a1-m54-cA 3nap-a1-m54-cA_3nap-a1-m55-cA 3nap-a1-m56-cA_3nap-a1-m57-cA 3nap-a1-m56-cA_3nap-a1-m60-cA 3nap-a1-m57-cA_3nap-a1-m58-cA 3nap-a1-m58-cA_3nap-a1-m59-cA 3nap-a1-m59-cA_3nap-a1-m60-cA 3nap-a1-m6-cA_3nap-a1-m7-cA 3nap-a1-m7-cA_3nap-a1-m8-cA 5l7o-a1-m10-cA_5l7o-a1-m6-cA 5l7o-a1-m10-cA_5l7o-a1-m9-cA 5l7o-a1-m11-cA_5l7o-a1-m12-cA 5l7o-a1-m11-cA_5l7o-a1-m15-cA 5l7o-a1-m12-cA_5l7o-a1-m13-cA 5l7o-a1-m13-cA_5l7o-a1-m14-cA 5l7o-a1-m14-cA_5l7o-a1-m15-cA 5l7o-a1-m16-cA_5l7o-a1-m17-cA 5l7o-a1-m16-cA_5l7o-a1-m20-cA 5l7o-a1-m17-cA_5l7o-a1-m18-cA 5l7o-a1-m18-cA_5l7o-a1-m19-cA 5l7o-a1-m19-cA_5l7o-a1-m20-cA 5l7o-a1-m1-cA_5l7o-a1-m2-cA 5l7o-a1-m1-cA_5l7o-a1-m5-cA 5l7o-a1-m21-cA_5l7o-a1-m22-cA 5l7o-a1-m21-cA_5l7o-a1-m25-cA 5l7o-a1-m22-cA_5l7o-a1-m23-cA 5l7o-a1-m23-cA_5l7o-a1-m24-cA 5l7o-a1-m24-cA_5l7o-a1-m25-cA 5l7o-a1-m26-cA_5l7o-a1-m27-cA 5l7o-a1-m26-cA_5l7o-a1-m30-cA 5l7o-a1-m27-cA_5l7o-a1-m28-cA 5l7o-a1-m28-cA_5l7o-a1-m29-cA 5l7o-a1-m29-cA_5l7o-a1-m30-cA 5l7o-a1-m2-cA_5l7o-a1-m3-cA 5l7o-a1-m31-cA_5l7o-a1-m32-cA 5l7o-a1-m31-cA_5l7o-a1-m35-cA 5l7o-a1-m32-cA_5l7o-a1-m33-cA 5l7o-a1-m33-cA_5l7o-a1-m34-cA 5l7o-a1-m34-cA_5l7o-a1-m35-cA 5l7o-a1-m36-cA_5l7o-a1-m37-cA 5l7o-a1-m36-cA_5l7o-a1-m40-cA 5l7o-a1-m37-cA_5l7o-a1-m38-cA 5l7o-a1-m38-cA_5l7o-a1-m39-cA 5l7o-a1-m39-cA_5l7o-a1-m40-cA 5l7o-a1-m3-cA_5l7o-a1-m4-cA 5l7o-a1-m41-cA_5l7o-a1-m42-cA 5l7o-a1-m41-cA_5l7o-a1-m45-cA 5l7o-a1-m42-cA_5l7o-a1-m43-cA 5l7o-a1-m43-cA_5l7o-a1-m44-cA 5l7o-a1-m44-cA_5l7o-a1-m45-cA 5l7o-a1-m46-cA_5l7o-a1-m47-cA 5l7o-a1-m46-cA_5l7o-a1-m50-cA 5l7o-a1-m47-cA_5l7o-a1-m48-cA 5l7o-a1-m48-cA_5l7o-a1-m49-cA 5l7o-a1-m49-cA_5l7o-a1-m50-cA 5l7o-a1-m4-cA_5l7o-a1-m5-cA 5l7o-a1-m51-cA_5l7o-a1-m52-cA 5l7o-a1-m51-cA_5l7o-a1-m55-cA 5l7o-a1-m52-cA_5l7o-a1-m53-cA 5l7o-a1-m53-cA_5l7o-a1-m54-cA 5l7o-a1-m54-cA_5l7o-a1-m55-cA 5l7o-a1-m56-cA_5l7o-a1-m57-cA 5l7o-a1-m56-cA_5l7o-a1-m60-cA 5l7o-a1-m57-cA_5l7o-a1-m58-cA 5l7o-a1-m58-cA_5l7o-a1-m59-cA 5l7o-a1-m59-cA_5l7o-a1-m60-cA 5l7o-a1-m6-cA_5l7o-a1-m7-cA 5l7o-a1-m7-cA_5l7o-a1-m8-cA 5l7o-a1-m8-cA_5l7o-a1-m9-cA VGFASAGTRDIRSSYVEGKFIPQDITGMSRNHELDEQPSQECIGERILSFSELIKRNSWRYVSDEKSLIYPAYAFDNPAAMYTAADKLPVWTLTPRSGFPTLLTSIGAMYAFYRGGIRLKIVPGVADQPKPLVEVALFTMQDQGYIIKANDYSTDFCSSNIYENFVTKGIAEVQTPYYSRVNTSVVSAPVLYNAGNISPLMPNVMYKITSNSSNILLGHSAADDFRFGFLLGAPLAISATALRDNFTGSSATVSLPTFSNFYLS VGFASAGTRDIRSSYVEGKFIPQDITGMSRNHELDEQPSQECIGERILSFSELIKRNSWRYVSDEKSLIYPAYAFDNPAAMYTAADKLPVWTLTPRSGFPTLLTSIGAMYAFYRGGIRLKIVPGVADQPKPLVEVALFTMQDQGYIIKANDYSTDFCSSNIYENFVTKGIAEVQTPYYSRVNTSVVSAPVLYNAGNISPLMPNVMYKITSNSSNILLGHSAADDFRFGFLLGAPLAISATALRDNFTGSSATVSLPTFSNFYLS 3nap-a1-m8-cC_3nap-a1-m9-cC Structure of Triatoma Virus (TrV) Q9QEY5 Q9QEY5 2.5 X-RAY DIFFRACTION 46 1.0 103442 (Triatoma virus) 103442 (Triatoma virus) 276 276 3nap-a1-m10-cC_3nap-a1-m6-cC 3nap-a1-m10-cC_3nap-a1-m9-cC 3nap-a1-m11-cC_3nap-a1-m12-cC 3nap-a1-m11-cC_3nap-a1-m15-cC 3nap-a1-m12-cC_3nap-a1-m13-cC 3nap-a1-m13-cC_3nap-a1-m14-cC 3nap-a1-m14-cC_3nap-a1-m15-cC 3nap-a1-m16-cC_3nap-a1-m17-cC 3nap-a1-m16-cC_3nap-a1-m20-cC 3nap-a1-m17-cC_3nap-a1-m18-cC 3nap-a1-m18-cC_3nap-a1-m19-cC 3nap-a1-m19-cC_3nap-a1-m20-cC 3nap-a1-m1-cC_3nap-a1-m2-cC 3nap-a1-m1-cC_3nap-a1-m5-cC 3nap-a1-m21-cC_3nap-a1-m22-cC 3nap-a1-m21-cC_3nap-a1-m25-cC 3nap-a1-m22-cC_3nap-a1-m23-cC 3nap-a1-m23-cC_3nap-a1-m24-cC 3nap-a1-m24-cC_3nap-a1-m25-cC 3nap-a1-m26-cC_3nap-a1-m27-cC 3nap-a1-m26-cC_3nap-a1-m30-cC 3nap-a1-m27-cC_3nap-a1-m28-cC 3nap-a1-m28-cC_3nap-a1-m29-cC 3nap-a1-m29-cC_3nap-a1-m30-cC 3nap-a1-m2-cC_3nap-a1-m3-cC 3nap-a1-m31-cC_3nap-a1-m32-cC 3nap-a1-m31-cC_3nap-a1-m35-cC 3nap-a1-m32-cC_3nap-a1-m33-cC 3nap-a1-m33-cC_3nap-a1-m34-cC 3nap-a1-m34-cC_3nap-a1-m35-cC 3nap-a1-m36-cC_3nap-a1-m37-cC 3nap-a1-m36-cC_3nap-a1-m40-cC 3nap-a1-m37-cC_3nap-a1-m38-cC 3nap-a1-m38-cC_3nap-a1-m39-cC 3nap-a1-m39-cC_3nap-a1-m40-cC 3nap-a1-m3-cC_3nap-a1-m4-cC 3nap-a1-m41-cC_3nap-a1-m42-cC 3nap-a1-m41-cC_3nap-a1-m45-cC 3nap-a1-m42-cC_3nap-a1-m43-cC 3nap-a1-m43-cC_3nap-a1-m44-cC 3nap-a1-m44-cC_3nap-a1-m45-cC 3nap-a1-m46-cC_3nap-a1-m47-cC 3nap-a1-m46-cC_3nap-a1-m50-cC 3nap-a1-m47-cC_3nap-a1-m48-cC 3nap-a1-m48-cC_3nap-a1-m49-cC 3nap-a1-m49-cC_3nap-a1-m50-cC 3nap-a1-m4-cC_3nap-a1-m5-cC 3nap-a1-m51-cC_3nap-a1-m52-cC 3nap-a1-m51-cC_3nap-a1-m55-cC 3nap-a1-m52-cC_3nap-a1-m53-cC 3nap-a1-m53-cC_3nap-a1-m54-cC 3nap-a1-m54-cC_3nap-a1-m55-cC 3nap-a1-m56-cC_3nap-a1-m57-cC 3nap-a1-m56-cC_3nap-a1-m60-cC 3nap-a1-m57-cC_3nap-a1-m58-cC 3nap-a1-m58-cC_3nap-a1-m59-cC 3nap-a1-m59-cC_3nap-a1-m60-cC 3nap-a1-m6-cC_3nap-a1-m7-cC 3nap-a1-m7-cC_3nap-a1-m8-cC 5l7o-a1-m10-cC_5l7o-a1-m6-cC 5l7o-a1-m10-cC_5l7o-a1-m9-cC 5l7o-a1-m11-cC_5l7o-a1-m12-cC 5l7o-a1-m11-cC_5l7o-a1-m15-cC 5l7o-a1-m12-cC_5l7o-a1-m13-cC 5l7o-a1-m13-cC_5l7o-a1-m14-cC 5l7o-a1-m14-cC_5l7o-a1-m15-cC 5l7o-a1-m16-cC_5l7o-a1-m17-cC 5l7o-a1-m16-cC_5l7o-a1-m20-cC 5l7o-a1-m17-cC_5l7o-a1-m18-cC 5l7o-a1-m18-cC_5l7o-a1-m19-cC 5l7o-a1-m19-cC_5l7o-a1-m20-cC 5l7o-a1-m1-cC_5l7o-a1-m2-cC 5l7o-a1-m1-cC_5l7o-a1-m5-cC 5l7o-a1-m21-cC_5l7o-a1-m22-cC 5l7o-a1-m21-cC_5l7o-a1-m25-cC 5l7o-a1-m22-cC_5l7o-a1-m23-cC 5l7o-a1-m23-cC_5l7o-a1-m24-cC 5l7o-a1-m24-cC_5l7o-a1-m25-cC 5l7o-a1-m26-cC_5l7o-a1-m27-cC 5l7o-a1-m26-cC_5l7o-a1-m30-cC 5l7o-a1-m27-cC_5l7o-a1-m28-cC 5l7o-a1-m28-cC_5l7o-a1-m29-cC 5l7o-a1-m29-cC_5l7o-a1-m30-cC 5l7o-a1-m2-cC_5l7o-a1-m3-cC 5l7o-a1-m31-cC_5l7o-a1-m32-cC 5l7o-a1-m31-cC_5l7o-a1-m35-cC 5l7o-a1-m32-cC_5l7o-a1-m33-cC 5l7o-a1-m33-cC_5l7o-a1-m34-cC 5l7o-a1-m34-cC_5l7o-a1-m35-cC 5l7o-a1-m36-cC_5l7o-a1-m37-cC 5l7o-a1-m36-cC_5l7o-a1-m40-cC 5l7o-a1-m37-cC_5l7o-a1-m38-cC 5l7o-a1-m38-cC_5l7o-a1-m39-cC 5l7o-a1-m39-cC_5l7o-a1-m40-cC 5l7o-a1-m3-cC_5l7o-a1-m4-cC 5l7o-a1-m41-cC_5l7o-a1-m42-cC 5l7o-a1-m41-cC_5l7o-a1-m45-cC 5l7o-a1-m42-cC_5l7o-a1-m43-cC 5l7o-a1-m43-cC_5l7o-a1-m44-cC 5l7o-a1-m44-cC_5l7o-a1-m45-cC 5l7o-a1-m46-cC_5l7o-a1-m47-cC 5l7o-a1-m46-cC_5l7o-a1-m50-cC 5l7o-a1-m47-cC_5l7o-a1-m48-cC 5l7o-a1-m48-cC_5l7o-a1-m49-cC 5l7o-a1-m49-cC_5l7o-a1-m50-cC 5l7o-a1-m4-cC_5l7o-a1-m5-cC 5l7o-a1-m51-cC_5l7o-a1-m52-cC 5l7o-a1-m51-cC_5l7o-a1-m55-cC 5l7o-a1-m52-cC_5l7o-a1-m53-cC 5l7o-a1-m53-cC_5l7o-a1-m54-cC 5l7o-a1-m54-cC_5l7o-a1-m55-cC 5l7o-a1-m56-cC_5l7o-a1-m57-cC 5l7o-a1-m56-cC_5l7o-a1-m60-cC 5l7o-a1-m57-cC_5l7o-a1-m58-cC 5l7o-a1-m58-cC_5l7o-a1-m59-cC 5l7o-a1-m59-cC_5l7o-a1-m60-cC 5l7o-a1-m6-cC_5l7o-a1-m7-cC 5l7o-a1-m7-cC_5l7o-a1-m8-cC 5l7o-a1-m8-cC_5l7o-a1-m9-cC SKPLTTIPPTIVVQRPSQYFNNADGVDQGLPLSLKYGNEVILKTPFAGTSSDEMALEYVLKIPNYFSRFKYSSTSLPKQVLWTSPVHPQIIRNHVTVVDAPGQPTLLAYATGFFKYWRGGLVYTFRFVKTNYHSGRVQITFHPFVGYDDVMDSDGKIVRDEYVYRVVVDLRDQTEATLVVPFTSLTPYKVCADVFNSANRPKYNYEPRDFKVYDNTTDQFFTGTLCVSALTPLVSSSAVVSSTIDVLVEVKASDDFEVAVPNTPLWLPVDSLTERP SKPLTTIPPTIVVQRPSQYFNNADGVDQGLPLSLKYGNEVILKTPFAGTSSDEMALEYVLKIPNYFSRFKYSSTSLPKQVLWTSPVHPQIIRNHVTVVDAPGQPTLLAYATGFFKYWRGGLVYTFRFVKTNYHSGRVQITFHPFVGYDDVMDSDGKIVRDEYVYRVVVDLRDQTEATLVVPFTSLTPYKVCADVFNSANRPKYNYEPRDFKVYDNTTDQFFTGTLCVSALTPLVSSSAVVSSTIDVLVEVKASDDFEVAVPNTPLWLPVDSLTERP 3nat-a1-m1-cB_3nat-a1-m1-cA Crystal Structure of Conserved Protein of Unknown Function EF_1977 from Enterococcus faecalis Q833H6 Q833H6 2.925 X-RAY DIFFRACTION 22 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 137 153 SNAKKATLTYLEEQLEKHLGDYEVGLDWDRKNHTIEVIVRLYEFEDGLLFYNPQKSVVDDEEYLVTIPYEGKKGLRKAVLDGFIHYLKVVLDEGQSDLLDFLSDETAEVFELHWEPADFEAIKKVAETEKEQWIAYP SNAKKATLTYLEEQLEKHLGDYEVGLDWDRKNHTIEVIVRLYAENNEQVAIDDVEFIEFEDGLLFYNPQKSVVDDEEYLVTIPYEGKKGLRKAVLDGFIHYLKVVLDEGQSDLLDFLSDETAEVFELHWEPADFEAIKKVAETEKEQWIAYPS 3nau-a1-m1-cA_3nau-a1-m1-cB Crystal structure of ZHX2 HD2 (zinc-fingers and homeoboxes protein 2, homeodomain 2) Q9Y6X8 Q9Y6X8 2.7 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 56 KTKEQIAHLKASFLQSQFPDDAEVYRLIEVTGLARSEIKKWFSDHRYRCQRGIVHI KTKEQIAHLKASFLQSQFPDDAEVYRLIEVTGLARSEIKKWFSDHRYRCQRGIVHI 3nav-a1-m1-cB_3nav-a1-m1-cA Crystal structure of an alpha subunit of tryptophan synthase from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KST7 Q9KST7 2.1 X-RAY DIFFRACTION 56 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 258 261 AMNRYQALFQRLSAAQQGAFVPFVTIGDPNPEQSLAIMQTLIDAGADALELGMPFSDPLADGPTIQGANLRALAAKTTPDICFELIAQIRARNPETPIGLLMYANLVYARGIDDFYQRCQKAGVDSVLIADVPTNESQPFVAAAEKFGIQPIFIAPPTASDETLRAVAQLGKGYTYLLSRAPVHALLERLQQFDAPPALLGFGISEPAQVKQAIEAGAAGAISGSAVVKIIETHLDNPAKQLTELANFTQAMKKATKI AMNRYQALFQRLSAAQQGAFVPFVTIGDPNPEQSLAIMQTLIDAGADALELGMPFSDPLADGPTIQGANLRALAAKTTPDICFELIAQIRARNPETPIGLLMYANLVYARGIDDFYQRCQKAGVDSVLIADVPTNESQPFVAAAEKFGIQPIFIAPPTASDETLRAVAQLGKGYTYLLSRAANMPVHALLERLQQFDAPPALLGFGISEPAQVKQAIEAGAAGAISGSAVVKIIETHLDNPAKQLTELANFTQAMKKATKI 3naw-a3-m1-cA_3naw-a3-m1-cB Crystal structure of E. coli O157:H7 effector protein NleL A0A0H3JDV8 A0A0H3JDV8 2.5 X-RAY DIFFRACTION 108 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 607 610 LSKAELTADLIWLSANRTGEESAEELNYSGCDLSGLSLVGLNLSSVNFSGAVLDDTDLRMSDLSQAVLENCSFKNSILNECNFCYANLSNCIIRALFENSNFSNSNLKNASFKGSSYIQYPPILNEADLTGAIIIPGMVLSGAILGDVKELFSEKSNTINLGGCYIDLSDIQENILSVLDNYTKSNKSILLTMNTSDDKYNHDKVRAAEELIKKISLDELAAFRPYVKMSLADSFSIHPYLNNANIQQWLEPICDDFFDTIMSWFNNSIMMYMENGSLLQAGMYFERHPGAMVSYNSSFIQIVMNGSRRDGMQERFRELYEVYLKNEKVYPVTQQSDFGLCDGSGKPDWDDDSDLAYNWVLLSSQDDGMAMMCSLSHMVDMLSPNTSTNWMSFFLYKDGEVQNTFGYSLSNLFSESFPIFSIPYHKAFSQNFVSGILDILISDNELKERFIEALNSNKSDYKMIADDQQRKLACVWNPFLDGWELNAQHVDMIMGSHVLKDMPLRKQAEILFCLGGVFCKYSSSDMFGTEYDSPEILRRYANGLIEQAYKTDPQVFGSVYYYNDILDRLQGRNNVFTCTAVLTDMLTEHAKESFPEIFSLYYPVAWR RACLSKAELTADLIWLSANRTGEESAEELNYSGCDLSGLSLVGLNLSSVNFSGAVLDDTDLRMSDLSQAVLENCSFKNSILNECNFCYANLSNCIIRALFENSNFSNSNLKNASFKGSSYIQYPPILNEADLTGAIIIPGMVLSGAILGDVKELFSEKSNTINLGGCYIDLSDIQENILSVLDNYTKSNKSILLTMNTSDDKYNHDKVRAAEELIKKISLDELAAFRPYVKMSLADSFSIHPYLNNANIQQWLEPICDDFFDTIMSWFNNSIMMYMENGSLLQAGMYFERHPGAMVSYNSSFIQIVMNGSRRDGMQERFRELYEVYLKNEKVYPVTQQSDFGLCDGSGKPDWDDDSDLAYNWVLLSSQDDGMAMMCSLSHMVDMLSPNTSTNWMSFFLYKDGEVQNTFGYSLSNLFSESFPIFSIPYHKAFSQNFVSGILDILISDNELKERFIEALNSNKSDYKMIADDQQRKLACVWNPFLDGWELNAQHVDMIMGSHVLKDMPLRKQAEILFCLGGVFCKYSSSDMFGTEYDSPEILRRYANGLIEQAYKTDPQVFGSVYYYNDILDRLQGRNNVFTCTAVLTDMLTEHAKESFPEIFSLYYPVAWR 3nb3-a1-m23-cC_3nb3-a1-m9-cC The host outer membrane proteins OmpA and OmpC are packed at specific sites in the Shigella phage Sf6 virion as structural components P0A910 P0A910 19.0 ELECTRON MICROSCOPY 1055 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 137 137 3nb3-a1-m10-cC_3nb3-a1-m5-cC 3nb3-a1-m11-cC_3nb3-a1-m37-cC 3nb3-a1-m12-cC_3nb3-a1-m46-cC 3nb3-a1-m13-cC_3nb3-a1-m44-cC 3nb3-a1-m14-cC_3nb3-a1-m28-cC 3nb3-a1-m15-cC_3nb3-a1-m20-cC 3nb3-a1-m16-cC_3nb3-a1-m27-cC 3nb3-a1-m17-cC_3nb3-a1-m51-cC 3nb3-a1-m18-cC_3nb3-a1-m59-cC 3nb3-a1-m19-cC_3nb3-a1-m38-cC 3nb3-a1-m1-cC_3nb3-a1-m22-cC 3nb3-a1-m21-cC_3nb3-a1-m42-cC 3nb3-a1-m24-cC_3nb3-a1-m53-cC 3nb3-a1-m25-cC_3nb3-a1-m30-cC 3nb3-a1-m26-cC_3nb3-a1-m52-cC 3nb3-a1-m29-cC_3nb3-a1-m43-cC 3nb3-a1-m2-cC_3nb3-a1-m41-cC 3nb3-a1-m31-cC_3nb3-a1-m57-cC 3nb3-a1-m32-cC_3nb3-a1-m6-cC 3nb3-a1-m33-cC_3nb3-a1-m4-cC 3nb3-a1-m34-cC_3nb3-a1-m48-cC 3nb3-a1-m35-cC_3nb3-a1-m40-cC 3nb3-a1-m36-cC_3nb3-a1-m47-cC 3nb3-a1-m39-cC_3nb3-a1-m58-cC 3nb3-a1-m3-cC_3nb3-a1-m49-cC 3nb3-a1-m45-cC_3nb3-a1-m50-cC 3nb3-a1-m54-cC_3nb3-a1-m8-cC 3nb3-a1-m55-cC_3nb3-a1-m60-cC 3nb3-a1-m56-cC_3nb3-a1-m7-cC APKDNTWYTGAKLGWSQHENKLGAGAFGGYQVNPYVGFEMGYDWLGRMPYAYKAQGVQLTAKLGYPITDDLDIYTRLGGMVWRADTYSNVYGKNHDTGVSPVFAGGVEYAITPEIATRLEYQWTNGMLSLGVSYRFG APKDNTWYTGAKLGWSQHENKLGAGAFGGYQVNPYVGFEMGYDWLGRMPYAYKAQGVQLTAKLGYPITDDLDIYTRLGGMVWRADTYSNVYGKNHDTGVSPVFAGGVEYAITPEIATRLEYQWTNGMLSLGVSYRFG 3nb3-a1-m54-cD_3nb3-a1-m9-cD The host outer membrane proteins OmpA and OmpC are packed at specific sites in the Shigella phage Sf6 virion as structural components P06996 P06996 19.0 ELECTRON MICROSCOPY 2595 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 346 346 3nb3-a1-m10-cD_3nb3-a1-m23-cD 3nb3-a1-m11-cD_3nb3-a1-m20-cD 3nb3-a1-m11-cD_3nb3-a1-m38-cD 3nb3-a1-m12-cD_3nb3-a1-m37-cD 3nb3-a1-m12-cD_3nb3-a1-m47-cD 3nb3-a1-m13-cD_3nb3-a1-m45-cD 3nb3-a1-m13-cD_3nb3-a1-m46-cD 3nb3-a1-m14-cD_3nb3-a1-m29-cD 3nb3-a1-m14-cD_3nb3-a1-m44-cD 3nb3-a1-m15-cD_3nb3-a1-m16-cD 3nb3-a1-m15-cD_3nb3-a1-m28-cD 3nb3-a1-m16-cD_3nb3-a1-m28-cD 3nb3-a1-m17-cD_3nb3-a1-m27-cD 3nb3-a1-m17-cD_3nb3-a1-m52-cD 3nb3-a1-m18-cD_3nb3-a1-m51-cD 3nb3-a1-m18-cD_3nb3-a1-m60-cD 3nb3-a1-m19-cD_3nb3-a1-m39-cD 3nb3-a1-m19-cD_3nb3-a1-m59-cD 3nb3-a1-m1-cD_3nb3-a1-m10-cD 3nb3-a1-m1-cD_3nb3-a1-m23-cD 3nb3-a1-m20-cD_3nb3-a1-m38-cD 3nb3-a1-m21-cD_3nb3-a1-m30-cD 3nb3-a1-m21-cD_3nb3-a1-m43-cD 3nb3-a1-m22-cD_3nb3-a1-m42-cD 3nb3-a1-m24-cD_3nb3-a1-m54-cD 3nb3-a1-m24-cD_3nb3-a1-m9-cD 3nb3-a1-m25-cD_3nb3-a1-m26-cD 3nb3-a1-m25-cD_3nb3-a1-m53-cD 3nb3-a1-m26-cD_3nb3-a1-m53-cD 3nb3-a1-m27-cD_3nb3-a1-m52-cD 3nb3-a1-m29-cD_3nb3-a1-m44-cD 3nb3-a1-m2-cD_3nb3-a1-m22-cD 3nb3-a1-m2-cD_3nb3-a1-m42-cD 3nb3-a1-m30-cD_3nb3-a1-m43-cD 3nb3-a1-m31-cD_3nb3-a1-m40-cD 3nb3-a1-m31-cD_3nb3-a1-m58-cD 3nb3-a1-m32-cD_3nb3-a1-m57-cD 3nb3-a1-m32-cD_3nb3-a1-m7-cD 3nb3-a1-m33-cD_3nb3-a1-m5-cD 3nb3-a1-m33-cD_3nb3-a1-m6-cD 3nb3-a1-m34-cD_3nb3-a1-m49-cD 3nb3-a1-m34-cD_3nb3-a1-m4-cD 3nb3-a1-m35-cD_3nb3-a1-m36-cD 3nb3-a1-m35-cD_3nb3-a1-m48-cD 3nb3-a1-m36-cD_3nb3-a1-m48-cD 3nb3-a1-m37-cD_3nb3-a1-m47-cD 3nb3-a1-m39-cD_3nb3-a1-m59-cD 3nb3-a1-m3-cD_3nb3-a1-m41-cD 3nb3-a1-m3-cD_3nb3-a1-m50-cD 3nb3-a1-m40-cD_3nb3-a1-m58-cD 3nb3-a1-m41-cD_3nb3-a1-m50-cD 3nb3-a1-m45-cD_3nb3-a1-m46-cD 3nb3-a1-m4-cD_3nb3-a1-m49-cD 3nb3-a1-m51-cD_3nb3-a1-m60-cD 3nb3-a1-m55-cD_3nb3-a1-m56-cD 3nb3-a1-m55-cD_3nb3-a1-m8-cD 3nb3-a1-m56-cD_3nb3-a1-m8-cD 3nb3-a1-m57-cD_3nb3-a1-m7-cD 3nb3-a1-m5-cD_3nb3-a1-m6-cD AEVYNKDGNKLDLYGKVDGLHYFSDNKDVDGDQTYMRLGFKGETQVTDQLTGYGQWEYQIQGNSAENENNSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNTDFFGLVDGLNFAVQYQGKNGNPSGEGFTSGVTNNGRDALRQNGDGVGGSITYDYEGFGIGGAISSSKRTDAQNTAAYIGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNQFTRDAGINTDNIVALGLVYQF AEVYNKDGNKLDLYGKVDGLHYFSDNKDVDGDQTYMRLGFKGETQVTDQLTGYGQWEYQIQGNSAENENNSWTRVAFAGLKFQDVGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNTDFFGLVDGLNFAVQYQGKNGNPSGEGFTSGVTNNGRDALRQNGDGVGGSITYDYEGFGIGGAISSSKRTDAQNTAAYIGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGSLGWANKAQNFEAVAQYQFDFGLRPSLAYLQSKGKNLGRGYDDEDILKYVDVGATYYFNKNMSTYVDYKINLLDDNQFTRDAGINTDNIVALGLVYQF 3nbc-a1-m1-cA_3nbc-a1-m1-cB Clitocybe nebularis ricin B-like lectin (CNL) in complex with lactose, crystallized at pH 4.4 B2ZRS9 B2ZRS9 1.01 X-RAY DIFFRACTION 43 1.0 117024 (Clitocybe nebularis) 117024 (Clitocybe nebularis) 148 148 3nbd-a1-m1-cA_3nbd-a1-m1-cB 3nbe-a1-m1-cA_3nbe-a1-m1-cB SITPGTYNITNVAYTNRLIDLTGSNPAENTLIIGHHLNKTPSGYGNQQWTLVQLPHTTIYTMQAVNPQSYVRVRDDNLVDGAALVGSQQPTPVSIESAGNSGQFRIKIPNLGLALTLPSDANSTPIVLGEVDETSTNQLWAFESVSAV SITPGTYNITNVAYTNRLIDLTGSNPAENTLIIGHHLNKTPSGYGNQQWTLVQLPHTTIYTMQAVNPQSYVRVRDDNLVDGAALVGSQQPTPVSIESAGNSGQFRIKIPNLGLALTLPSDANSTPIVLGEVDETSTNQLWAFESVSAV 3nbq-a2-m1-cC_3nbq-a2-m1-cD Human uridine phosphorylase 1 (hUPP1) with 5-fluorouracil Q16831 Q16831 2.3 X-RAY DIFFRACTION 189 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 3eue-a1-m1-cA_3eue-a1-m2-cA 3euf-a1-m1-cA_3euf-a1-m1-cB 3euf-a2-m1-cC_3euf-a2-m1-cD 3nbq-a1-m1-cA_3nbq-a1-m1-cB DCPVRLLNPNIAKMKEDILYHFNLTTSRHNFPALFGDVKFVCVGGSPSRMKAFIRCVGAELGLDCPGRDYPNICAGTDRYAMYKVGPVLSVSHGMGIPSISIMLHELIKLLYYARCSNVTIIRIGTSGGIGLEPGTVVITEQAVDTCFKAEFEQIVLGKRVIRKTDLNKKLVQELLLCSAELSEFTTVVGNTMCTLDFYEGQGRLDGALCSYTEKDKQAYLEAAYAAGVRNIEMESSVFAAMCSACGLQAAVVCVTLLNRLEGDQISSPRNVLSEYQQRPQRLVSYFIKKKLS DCPVRLLNPNIAKMKEDILYHFNLTTSRHNFPALFGDVKFVCVGGSPSRMKAFIRCVGAELGLDCPGRDYPNICAGTDRYAMYKVGPVLSVSHGMGIPSISIMLHELIKLLYYARCSNVTIIRIGTSGGIGLEPGTVVITEQAVDTCFKAEFEQIVLGKRVIRKTDLNKKLVQELLLCSAELSEFTTVVGNTMCTLDFYEGQGRLDGALCSYTEKDKQAYLEAAYAAGVRNIEMESSVFAAMCSACGLQAAVVCVTLLNRLEGDQISSPRNVLSEYQQRPQRLVSYFIKKKLS 3nbt-a1-m1-cE_3nbt-a1-m1-cF Crystal structure of trimeric cytochrome c from horse heart P00004 P00004 2.1 X-RAY DIFFRACTION 86 1.0 9796 (Equus caballus) 9796 (Equus caballus) 104 104 3nbt-a1-m1-cA_3nbt-a1-m1-cE 3nbt-a1-m1-cA_3nbt-a1-m1-cF 3nbt-a2-m1-cB_3nbt-a2-m1-cC 3nbt-a2-m1-cB_3nbt-a2-m1-cD 3nbt-a2-m1-cC_3nbt-a2-m1-cD GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE 3nbu-a3-m1-cE_3nbu-a3-m1-cF Crystal structure of pGI glucosephosphate isomerase P0A6T1 P0A6T1 2.05 X-RAY DIFFRACTION 496 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 549 549 3nbu-a1-m1-cA_3nbu-a1-m1-cB 3nbu-a2-m1-cC_3nbu-a2-m1-cD MKNINPTQTAAWQALQKHFDEMKDVTIADLFAKDGDRFSKFSATFDDQMLVDYSKNRITEETLAKLQDLAKECDLAGAIKSMFSGEKINRTENRAVLHVALRNRSNTPILVDGKDVMPEVNAVLEKMKTFSEAIISGEWKGYTGKAITDVVNIGIGGSDLGPYMVTEALRPYKNHLNMHFVSNVDGTHIAEVLKKVNPETTLFLVASKTFTTQETMTNAHSARDWFLKAAGDEKHVAKHFTALSTNAKAVGEFGIDTANMFEFWDWVGGRYSLWSAIGLSIVLSIGFDNFVELLSGAHAMDKHFSTTPAEKNLPVLLALIGIWYNNFFGAETEAILPYDQYMHRFAAYFQQGNMESNGKYVDRNGNVVDYQTGPIIWGEPGTNGQHAFYQLIHQGTKMVPCDFIAPAITHNPLSDHHQKLLSNFFAQTEALAFGKSREVVEQEYRDQGKDPATLDYVVPFKVFEGNRPTNSILLREITPFSLGALIALYEHKIFTQGVILNIFTFDQWGVELGKQLANRILPELKDDKEISSHDSSTNGLINRYKAWRG MKNINPTQTAAWQALQKHFDEMKDVTIADLFAKDGDRFSKFSATFDDQMLVDYSKNRITEETLAKLQDLAKECDLAGAIKSMFSGEKINRTENRAVLHVALRNRSNTPILVDGKDVMPEVNAVLEKMKTFSEAIISGEWKGYTGKAITDVVNIGIGGSDLGPYMVTEALRPYKNHLNMHFVSNVDGTHIAEVLKKVNPETTLFLVASKTFTTQETMTNAHSARDWFLKAAGDEKHVAKHFTALSTNAKAVGEFGIDTANMFEFWDWVGGRYSLWSAIGLSIVLSIGFDNFVELLSGAHAMDKHFSTTPAEKNLPVLLALIGIWYNNFFGAETEAILPYDQYMHRFAAYFQQGNMESNGKYVDRNGNVVDYQTGPIIWGEPGTNGQHAFYQLIHQGTKMVPCDFIAPAITHNPLSDHHQKLLSNFFAQTEALAFGKSREVVEQEYRDQGKDPATLDYVVPFKVFEGNRPTNSILLREITPFSLGALIALYEHKIFTQGVILNIFTFDQWGVELGKQLANRILPELKDDKEISSHDSSTNGLINRYKAWRG 3nc0-a2-m1-cA_3nc0-a2-m1-cD Crystal structure of the HIV-1 Rev NES-CRM1-RanGTP nuclear export complex (crystal II) Q6P5F9 Q6P5F9 2.9 X-RAY DIFFRACTION 24 0.999 10090 (Mus musculus) 10090 (Mus musculus) 1038 1041 3nc0-a1-m1-cA_3nc0-a1-m1-cD HAARQLLDFSQKLDINLLDNVVNCLYHGEGAQQRMAQEVLTHLKEHPDAWTRVDTIQNMNTKYYGLQILENVIKTRWKILPRNQCEGIKKYVVGLIIKTSSDPTCVEKEKVYIGKLNMILVQILKQEWPKHWPTFISDIVGASRTSESLCQNNMVILKLLSEEVFDFSSGQITQVKAKHLKDSMCNEFSQIFQLCQFVMENSQNAPLVHATLETLLRFLNWIPLGYIFETKLISTLIYKFLNVPMFRNVSLKCLTEIAGVSVSQYEEQFETLFTLTMMQLKQMLPLNTNIRLAYSNGKDDEQNFIQNLSLFLCTFLKEHGQLLEKRLNLREALMEALHYMLLVSEVEETEIFKICLEYWNHLAAELYRESPFSTSASPLLSGSQHFDIPPRRQLYLTVLSKVRLLMVSRMAKPEEVLVVENDQGEVVREFMKDTDSINLYKNMRETLVYLTHLDYVDTEIIMTKKLQNQVNGTEWSWKNLNTLCWAIGSISGAMHEEDEKRFLVTVIKDLLGLCEQKRGKDNKAIIASNIMYIVGQYPRFLRAHWKFLKTVVNKLFEFMHETHDGVQDMACDTFIKIAQKCRRHFVQVQVGEVMPFIDEILNNINTIICDLQPQQVHTFYEAVGYMIGAQTDQTVQEHLIEKYMLLPNQVWDSIIQQATKNVDILKDPETVKQLGSILKTNVRACKAVGHPFVIQLGRIYLDMLNVYKCLSENISAAIQANGEMVTKQPLIRSMRTVKRETLKLISGWVSRSNDPQMVAENFVPPLLDAVLIDYQRNVPAAREPEVLSTMAIIVNKLGGHITAEIPQIFDAVFECTLNMINKDFEEYPEHRTNFFLLLQAVNSHCFPAFLAIPPAQFKLVLDSIIWAFKHTMRNVADTGLQILFTLLQNVAQEEAAAQSFYQTYFCDILQHIFSVVTDTSHTAGLTMHASILAYMFNLVEEGKISTPLNPGNPVNNQMFIQDYVANLLKSAFPHLQDAQVKLFVTGLFSLNQDIPAFKEHLRDFLVQIKEFAGEDTSDLFLEERETALRQAQEEKHKL LADHAARQLLDFSQKLDINLLDNVVNCLYHGEGAQQRMAQEVLTHLKEHPDAWTRVDTILNMNTKYYGLQILENVIKTRWKILPRNQCEGIKKYVVGLIIKTSSDPTCVEKEKVYIGKLNMILVQILKQEWPKHWPTFISDIVGASRTSESLCQNNMVILKLLSEEVFDFSSGQITQVKAKHLKDSMCNEFSQIFQLCQFVMENSQNAPLVHATLETLLRFLNWIPLGYIFETKLISTLIYKFLNVPMFRNVSLKCLTEIAGVSVSQYEEQFETLFTLTMMQLKQMLPLNTNIRLAYSNGKDDEQNFIQNLSLFLCTFLKEHGQLLEKRLNLREALMEALHYMLLVSEVEETEIFKICLEYWNHLAAELYRESPFSTSASPLLSGSQHFDIPPRRQLYLTVLSKVRLLMVSRMAKPEEVLVVENDQGEVVREFMKDTDSINLYKNMRETLVYLTHLDYVDTEIIMTKKLQNQVNGTEWSWKNLNTLCWAIGSISGAMHEEDEKRFLVTVIKDLLGLCEQKRGKDNKAIIASNIMYIVGQYPRFLRAHWKFLKTVVNKLFEFMHETHDGVQDMACDTFIKIAQKCRRHFVQVQVGEVMPFIDEILNNINTIICDLQPQQVHTFYEAVGYMIGAQTDQTVQEHLIEKYMLLPNQVWDSIIQQATKNVDILKDPETVKQLGSILKTNVRACKAVGHPFVIQLGRIYLDMLNVYKCLSENISAAIQANGEMVTKQPLIRSMRTVKRETLKLISGWVSRSNDPQMVAENFVPPLLDAVLIDYQRNVPAAREPEVLSTMAIIVNKLGGHITAEIPQIFDAVFECTLNMINKDFEEYPEHRTNFFLLLQAVNSHCFPAFLAIPPAQFKLVLDSIIWAFKHTMRNVADTGLQILFTLLQNVAQEEAAAQSFYQTYFCDILQHIFSVVTDTSHTAGLTMHASILAYMFNLVEEGKISTPLNPGNPVNNQMFIQDYVANLLKSAFPHLQDAQVKLFVTGLFSLNQDIPAFKEHLRDFLVQIKEFAGEDTSDLFLEERETALRQAQEEKHKL 3ncp-a6-m4-cD_3ncp-a6-m5-cD GlnK2 from Archaeoglobus fulgidus O28527 O28527 2.35 X-RAY DIFFRACTION 70 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 99 99 3ncp-a1-m1-cA_3ncp-a1-m2-cA 3ncp-a1-m1-cA_3ncp-a1-m3-cA 3ncp-a1-m2-cA_3ncp-a1-m3-cA 3ncp-a2-m1-cB_3ncp-a2-m2-cB 3ncp-a2-m1-cB_3ncp-a2-m3-cB 3ncp-a2-m2-cB_3ncp-a2-m3-cB 3ncp-a3-m1-cC_3ncp-a3-m4-cC 3ncp-a3-m1-cC_3ncp-a3-m5-cC 3ncp-a3-m4-cC_3ncp-a3-m5-cC 3ncp-a4-m1-cD_3ncp-a4-m4-cD 3ncp-a4-m1-cD_3ncp-a4-m5-cD 3ncp-a4-m4-cD_3ncp-a4-m5-cD 3ncp-a5-m1-cA_3ncp-a5-m2-cA 3ncp-a5-m1-cA_3ncp-a5-m3-cA 3ncp-a5-m1-cB_3ncp-a5-m2-cB 3ncp-a5-m1-cB_3ncp-a5-m3-cB 3ncp-a5-m2-cA_3ncp-a5-m3-cA 3ncp-a5-m2-cB_3ncp-a5-m3-cB 3ncp-a6-m1-cC_3ncp-a6-m4-cC 3ncp-a6-m1-cC_3ncp-a6-m5-cC 3ncp-a6-m1-cD_3ncp-a6-m4-cD 3ncp-a6-m1-cD_3ncp-a6-m5-cD 3ncp-a6-m4-cC_3ncp-a6-m5-cC 3ncq-a1-m1-cA_3ncq-a1-m1-cB 3ncq-a1-m1-cA_3ncq-a1-m1-cC 3ncq-a1-m1-cB_3ncq-a1-m1-cC 3ncq-a2-m1-cA_3ncq-a2-m1-cB 3ncq-a2-m1-cA_3ncq-a2-m1-cC 3ncq-a2-m1-cB_3ncq-a2-m1-cC 3ncq-a2-m2-cA_3ncq-a2-m2-cB 3ncq-a2-m2-cA_3ncq-a2-m2-cC 3ncq-a2-m2-cB_3ncq-a2-m2-cC 3ncr-a1-m1-cA_3ncr-a1-m1-cC 3ncr-a1-m1-cB_3ncr-a1-m1-cA 3ncr-a1-m1-cB_3ncr-a1-m1-cC 3ncr-a2-m1-cA_3ncr-a2-m1-cC 3ncr-a2-m1-cB_3ncr-a2-m1-cA 3ncr-a2-m1-cB_3ncr-a2-m1-cC 3ncr-a2-m2-cA_3ncr-a2-m2-cC 3ncr-a2-m2-cB_3ncr-a2-m2-cA 3ncr-a2-m2-cB_3ncr-a2-m2-cC MKKIEAIVRAEKFPEVKAALEERGFYGMTVTDVKGRGQEVTLLPKVKLEIVVKDDAVEEVIGLIVNSAFTGSPGDGKIFIIPVEDVVRIRTGERGDDSL MKKIEAIVRAEKFPEVKAALEERGFYGMTVTDVKGRGQEVTLLPKVKLEIVVKDDAVEEVIGLIVNSAFTGSPGDGKIFIIPVEDVVRIRTGERGDDSL 3ncp-a6-m5-cD_3ncp-a6-m4-cC GlnK2 from Archaeoglobus fulgidus O28527 O28527 2.35 X-RAY DIFFRACTION 16 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 99 100 3ncp-a5-m1-cB_3ncp-a5-m2-cA 3ncp-a5-m2-cB_3ncp-a5-m3-cA 3ncp-a5-m3-cB_3ncp-a5-m1-cA 3ncp-a6-m1-cD_3ncp-a6-m5-cC 3ncp-a6-m4-cD_3ncp-a6-m1-cC 3ncq-a2-m1-cA_3ncq-a2-m2-cC 3ncq-a2-m1-cB_3ncq-a2-m2-cB 3ncq-a2-m2-cA_3ncq-a2-m1-cC 3ncr-a2-m1-cA_3ncr-a2-m2-cC 3ncr-a2-m1-cB_3ncr-a2-m2-cB 3ncr-a2-m2-cA_3ncr-a2-m1-cC MKKIEAIVRAEKFPEVKAALEERGFYGMTVTDVKGRGQEVTLLPKVKLEIVVKDDAVEEVIGLIVNSAFTGSPGDGKIFIIPVEDVVRIRTGERGDDSL MKKIEAIVRAEKFPEVKAALEERGFYGMTVTDVKGRGQEVTLLPKVKLEIVVKDDAVEEVIGLIVNSAFTGSPGDGKIFIIPVEDVVRIRTGERGDDSLE 3nct-a2-m1-cB_3nct-a2-m1-cD X-ray crystal structure of the bacterial conjugation factor PsiB, a negative regulator of reca P10031 P10031 2.2 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 135 136 3nct-a1-m1-cA_3nct-a1-m1-cC LTLNVLQTNAQEYEDIRAAGSDERRELTHAVRELDAPDNWTNGEYGSEFGGFFPVQVRFTPAHERFHLALCSPGDVSQVWVLVLVNAGGEPFAVVQVQRRFASEAVSHSLALAASLDTQGYSVNDIIHILAEGGQ ELTLNVLQTNAQEYEDIRAAGSDERRELTHAVRELDAPDNWTNGEYGSEFGGFFPVQVRFTPAHERFHLALCSPGDVSQVWVLVLVNAGGEPFAVVQVQRRFASEAVSHSLALAASLDTQGYSVNDIIHILAEGGQ 3ncv-a1-m1-cA_3ncv-a1-m1-cB NgoL Q5F8M6 Q5F8M6 2.4 X-RAY DIFFRACTION 53 0.995 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 187 188 ELPPLGFAIAQLLGIYILAQAEDSLLLIDMHAAAERVNYEKMKRQRQENGNLQSQHLLIPVTFAASHEECAALADHAETLAGFGLELSDMGGNTLAVRAAPVMLGKSDVVSLARDVLGELAQVGASHENRILATMSCHGSIRAGRRLTLPEMNALLRDMENTPRSNQCNHGRPTWVKLTLKELDTLF LPPLGFAIAQLLGIYILAQAEDSLLLIDMHAAAERVNYEKMKRQRQENGNLQSQHLLIPVTFAASHEECAALADHAETLAGFGLELSDMGGNTLAVRAAPVMLGKSDVVSLARDVLGELAQVGASHENRILATMSCHGSIRAGRRLTLPEMNALLRDMENTPRSNQCNHGRPTWVKLTLKELDTLFLR 3nd0-a1-m1-cA_3nd0-a1-m1-cB X-ray crystal structure of a slow cyanobacterial Cl-/H+ antiporter P73745 P73745 3.2 X-RAY DIFFRACTION 102 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 425 425 3q17-a1-m1-cA_3q17-a1-m1-cB SLHPRTLVAAIVVGLITGVLGAGFKSAVNNMLQWRSQLAQILAPIPPLAWLVTALISGGMVALSFWLMKRFAPDTSGSGIPQIEGHLEGKLPLVWQRVLPIKLVGGFLSLGAGMLAGFEGPTIQMGGSIGQMTGGWFKATQENQRILIAVGAGAGLATAFNAPLAGVALIGEEMHPRFRSQTLAYHSLLFGCVMATIILRMIRGQSAIISLTEFKRVPLDSLWMFIILGILFGVMGYTFNRGLFKVLDWFDRLPPLATKWKGFLLGSIIGILSLFPLPLTDGGDNAVLWAFNSQSHFSTLILVFCGRFLLTLICYGSGAIGGIFAPMLGIASIVSVAMARHFHLLFPSQIPEPAVMAIAGMGALVAATVRAPLTAILLTIEMTDNYFVILPLLVTCLVASVVAEALGGKPIYTVLLERTLAKQNR SLHPRTLVAAIVVGLITGVLGAGFKSAVNNMLQWRSQLAQILAPIPPLAWLVTALISGGMVALSFWLMKRFAPDTSGSGIPQIEGHLEGKLPLVWQRVLPIKLVGGFLSLGAGMLAGFEGPTIQMGGSIGQMTGGWFKATQENQRILIAVGAGAGLATAFNAPLAGVALIGEEMHPRFRSQTLAYHSLLFGCVMATIILRMIRGQSAIISLTEFKRVPLDSLWMFIILGILFGVMGYTFNRGLFKVLDWFDRLPPLATKWKGFLLGSIIGILSLFPLPLTDGGDNAVLWAFNSQSHFSTLILVFCGRFLLTLICYGSGAIGGIFAPMLGIASIVSVAMARHFHLLFPSQIPEPAVMAIAGMGALVAATVRAPLTAILLTIEMTDNYFVILPLLVTCLVASVVAEALGGKPIYTVLLERTLAKQNR 3nd1-a1-m1-cA_3nd1-a1-m1-cB Crystal structure of Precorrin-6A synthase from Rhodobacter capsulatus D5AV00 D5AV00 1.5 X-RAY DIFFRACTION 155 1.0 272942 (Rhodobacter capsulatus SB 1003) 272942 (Rhodobacter capsulatus SB 1003) 244 249 HMIELSLIGIGTGNPRHITGQAVDAMNAADLILIPLKGADKSDLAGLRRQICAAHLTNPATKVIDFALPVRGVDDWHDAIAETWLSEITAHVPGLEGRVALLVWGDPSLYDSTLRIAERLKSRLPLTTKVIPGITAIQALCAAHAIPLNDIGAPVVITTGRQLRDHGWPAGTETVVAMLDGECSFQSLPPDGLTIFWGACVAMPEEVLIRGPVAEVTDEILQARADLRARHGWVMDIYLLRRNV HMIELSLIGIGTGNPRHITGQAVDAMNAADLILIPLKGADKSDLAGLRRQICAAHLTNPATKVIDFALPVRDASNKGVDDWHDAIAETWLSEITAHVPGLEGRVALLVWGDPSLYDSTLRIAERLKSRLPLTTKVIPGITAIQALCAAHAIPLNDIGAPVVITTGRQLRDHGWPAGTETVVAMLDGECSFQSLPPDGLTIFWGACVAMPEEVLIRGPVAEVTDEILQARADLRARHGWVMDIYLLRRNV 3nd5-a1-m1-cC_3nd5-a1-m1-cD Crystal structure of phosphopantetheine adenylyltransferase (PPAT) from Enterococcus faecalis Q831P9 Q831P9 2.3 X-RAY DIFFRACTION 51 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 152 152 3nd5-a1-m1-cA_3nd5-a1-m1-cB 3nd5-a1-m1-cE_3nd5-a1-m1-cF 3nd6-a1-m1-cA_3nd6-a1-m1-cB 3nd6-a1-m1-cC_3nd6-a1-m1-cD 3nd6-a1-m1-cE_3nd6-a1-m1-cF 3nd7-a1-m1-cA_3nd7-a1-m1-cB 3nd7-a1-m1-cC_3nd7-a1-m1-cD 3nd7-a1-m1-cE_3nd7-a1-m1-cF MRKIALFPGSFDPMTNGHLNLIERSAKLFDEVIIGVFILFTPEEKKYLIEEATKEMPNVRVIMQETQLTVESAKSLGANFLIRGIRNVKDYEYEKDIAKMNQHLAPEIETVFLLAEEPYAHVSSSLLKEVLRFGGDVSDYLPPNIYHALKQK MRKIALFPGSFDPMTNGHLNLIERSAKLFDEVIIGVFILFTPEEKKYLIEEATKEMPNVRVIMQETQLTVESAKSLGANFLIRGIRNVKDYEYEKDIAKMNQHLAPEIETVFLLAEEPYAHVSSSLLKEVLRFGGDVSDYLPPNIYHALKQK 3nd5-a1-m1-cC_3nd5-a1-m1-cE Crystal structure of phosphopantetheine adenylyltransferase (PPAT) from Enterococcus faecalis Q831P9 Q831P9 2.3 X-RAY DIFFRACTION 29 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 152 152 3nd5-a1-m1-cA_3nd5-a1-m1-cC 3nd5-a1-m1-cA_3nd5-a1-m1-cE 3nd5-a1-m1-cB_3nd5-a1-m1-cD 3nd5-a1-m1-cB_3nd5-a1-m1-cF 3nd5-a1-m1-cD_3nd5-a1-m1-cF 3nd6-a1-m1-cA_3nd6-a1-m1-cC 3nd6-a1-m1-cA_3nd6-a1-m1-cE 3nd6-a1-m1-cB_3nd6-a1-m1-cD 3nd6-a1-m1-cB_3nd6-a1-m1-cF 3nd6-a1-m1-cC_3nd6-a1-m1-cE 3nd6-a1-m1-cD_3nd6-a1-m1-cF 3nd7-a1-m1-cA_3nd7-a1-m1-cC 3nd7-a1-m1-cA_3nd7-a1-m1-cE 3nd7-a1-m1-cB_3nd7-a1-m1-cD 3nd7-a1-m1-cB_3nd7-a1-m1-cF 3nd7-a1-m1-cC_3nd7-a1-m1-cE 3nd7-a1-m1-cD_3nd7-a1-m1-cF MRKIALFPGSFDPMTNGHLNLIERSAKLFDEVIIGVFILFTPEEKKYLIEEATKEMPNVRVIMQETQLTVESAKSLGANFLIRGIRNVKDYEYEKDIAKMNQHLAPEIETVFLLAEEPYAHVSSSLLKEVLRFGGDVSDYLPPNIYHALKQK MRKIALFPGSFDPMTNGHLNLIERSAKLFDEVIIGVFILFTPEEKKYLIEEATKEMPNVRVIMQETQLTVESAKSLGANFLIRGIRNVKDYEYEKDIAKMNQHLAPEIETVFLLAEEPYAHVSSSLLKEVLRFGGDVSDYLPPNIYHALKQK 3ndc-a1-m1-cB_3ndc-a1-m1-cA Crystal structure of Precorrin-4 C11-methyltransferase from Rhodobacter capsulatus O68100 O68100 2 X-RAY DIFFRACTION 229 0.987 272942 (Rhodobacter capsulatus SB 1003) 272942 (Rhodobacter capsulatus SB 1003) 231 236 3nei-a1-m1-cB_3nei-a1-m1-cA MTVHFIGAGPGAADLITIRGRDLIASCPVCLYAGSLVPEALLAHCPPGAKIVNTAPMSLDAIIDTIAEAHAAGQDVARLHSGDLSIWSAMGEQLRRLRALNIPYDVTPGVPSFAAAAATLGAELTLPGVAQSVILTRTSGRASAMPAGETLENFARTGAVLAIHLSVHVLDEVVQKLVPHYGEDCPVAIVWRASWPDQRVVRATLATLQTLERTALILVGRSLATEDFDES GSHMTVHFIGAGPGAADLITIRGRDLIASCPVCLYAGSLVPEALLAHCPPGAKIVNTAPMSLDAIIDTIAEAHAAGQDVARLHSGDLSIWSAMGEQLRRLRALNIPYDVTPGVPSFAAAAATLGAELTLPGVAQSVILTRTSGRASAMPAGETLENFARTGAVLAIHLSVHVLDEVVQKLVPHYGEDCPVAIVWRASWPDQRVVRATLATLQTSLGAELERTALILVGRSLATEDF 3ndh-a1-m1-cB_3ndh-a1-m1-cA Restriction endonuclease in complex with substrate DNA Q9HJY3 Q9HJY3 1.3 X-RAY DIFFRACTION 135 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 208 214 DHLKDLFRDRLIIDKVQRRLPYMFQLAELESSRAGKVGMEVGSLRERIISSLLIYKFGEKNVETDLPITEPEIDVKLFGSPISIKTITGKEPAGVKLIWTVDATKARQFLETWHPRFDLILVHINWSSLGGVYYIPDYVQQRIFDEIGKDKYIKLPKQGTNPRGVEISNEALKEIMTDEETMSIKIEWKKTNVQYNAFKRWVDLWSEG HHHHEFDHLKDLFRDRLIIDKVQRRLPYMFQLAELESSRAGKVGMEVGSLRERIISSLLIYKFGEKNVETDLPITEPEIDVKLFGSPISIKTITGKEPAGVKLIWTVDATKARQFLETWHPRFDLILVHINWSSLGGVYYIPDYVQQRIFDEIGKDKYIKLPKQGTNPRGVEISNEALKEIMTDEETMSIKIEWKKTNVQYNAFKRWVDLWSEG 3ndn-a1-m1-cA_3ndn-a1-m1-cD Crystal structure of O-succinylhomoserine sulfhydrylase from Mycobacterium tuberculosis covalently bound to pyridoxal-5-phosphate P9WGB5 P9WGB5 1.85 X-RAY DIFFRACTION 212 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 400 400 3ndn-a1-m1-cB_3ndn-a1-m1-cC SVRTPKALPDGVSQATVGVRGGMLRSGFEETAEAMYLTSGYVYGSAAVAEKSFAGELDHYVYSRYGNPTVSVFEERLRLIEGAPAAFATASGMAAVFTSLGALLGAGDRLVAARSLFGSCFVVCSEILPRWGVQTVFVDGDDLSQWERALSVPTQAVFFETPSNPMQSLVDIAAVTELAHAAGAKVVLDNVFATPLLQQGFPLGVDVVVYSGTHIDGQGRVLGGAILGDREYIDGPVQKLMRHTGPAMSAFNAWVLLKGLETLAIRVQHSNASAQRIAEFLNGHPSVRWVRYPYLPSHPQYDLAKRQMSGGGTVVTFALDCPEDVAKQRAFEVLDKMRLIDISNNLGDAKSLVTHPATTTHRAMGPEGRAAIGLGDGVVRISVGLEDTDDLIADIDRALS SVRTPKALPDGVSQATVGVRGGMLRSGFEETAEAMYLTSGYVYGSAAVAEKSFAGELDHYVYSRYGNPTVSVFEERLRLIEGAPAAFATASGMAAVFTSLGALLGAGDRLVAARSLFGSCFVVCSEILPRWGVQTVFVDGDDLSQWERALSVPTQAVFFETPSNPMQSLVDIAAVTELAHAAGAKVVLDNVFATPLLQQGFPLGVDVVVYSGTHIDGQGRVLGGAILGDREYIDGPVQKLMRHTGPAMSAFNAWVLLKGLETLAIRVQHSNASAQRIAEFLNGHPSVRWVRYPYLPSHPQYDLAKRQMSGGGTVVTFALDCPEDVAKQRAFEVLDKMRLIDISNNLGDAKSLVTHPATTTHRAMGPEGRAAIGLGDGVVRISVGLEDTDDLIADIDRALS 3ndn-a1-m1-cB_3ndn-a1-m1-cD Crystal structure of O-succinylhomoserine sulfhydrylase from Mycobacterium tuberculosis covalently bound to pyridoxal-5-phosphate P9WGB5 P9WGB5 1.85 X-RAY DIFFRACTION 83 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 400 400 3ndn-a1-m1-cA_3ndn-a1-m1-cC SVRTPKALPDGVSQATVGVRGGMLRSGFEETAEAMYLTSGYVYGSAAVAEKSFAGELDHYVYSRYGNPTVSVFEERLRLIEGAPAAFATASGMAAVFTSLGALLGAGDRLVAARSLFGSCFVVCSEILPRWGVQTVFVDGDDLSQWERALSVPTQAVFFETPSNPMQSLVDIAAVTELAHAAGAKVVLDNVFATPLLQQGFPLGVDVVVYSGTHIDGQGRVLGGAILGDREYIDGPVQKLMRHTGPAMSAFNAWVLLKGLETLAIRVQHSNASAQRIAEFLNGHPSVRWVRYPYLPSHPQYDLAKRQMSGGGTVVTFALDCPEDVAKQRAFEVLDKMRLIDISNNLGDAKSLVTHPATTTHRAMGPEGRAAIGLGDGVVRISVGLEDTDDLIADIDRALS SVRTPKALPDGVSQATVGVRGGMLRSGFEETAEAMYLTSGYVYGSAAVAEKSFAGELDHYVYSRYGNPTVSVFEERLRLIEGAPAAFATASGMAAVFTSLGALLGAGDRLVAARSLFGSCFVVCSEILPRWGVQTVFVDGDDLSQWERALSVPTQAVFFETPSNPMQSLVDIAAVTELAHAAGAKVVLDNVFATPLLQQGFPLGVDVVVYSGTHIDGQGRVLGGAILGDREYIDGPVQKLMRHTGPAMSAFNAWVLLKGLETLAIRVQHSNASAQRIAEFLNGHPSVRWVRYPYLPSHPQYDLAKRQMSGGGTVVTFALDCPEDVAKQRAFEVLDKMRLIDISNNLGDAKSLVTHPATTTHRAMGPEGRAAIGLGDGVVRISVGLEDTDDLIADIDRALS 3ndn-a1-m1-cC_3ndn-a1-m1-cD Crystal structure of O-succinylhomoserine sulfhydrylase from Mycobacterium tuberculosis covalently bound to pyridoxal-5-phosphate P9WGB5 P9WGB5 1.85 X-RAY DIFFRACTION 105 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 400 400 3ndn-a1-m1-cA_3ndn-a1-m1-cB SVRTPKALPDGVSQATVGVRGGMLRSGFEETAEAMYLTSGYVYGSAAVAEKSFAGELDHYVYSRYGNPTVSVFEERLRLIEGAPAAFATASGMAAVFTSLGALLGAGDRLVAARSLFGSCFVVCSEILPRWGVQTVFVDGDDLSQWERALSVPTQAVFFETPSNPMQSLVDIAAVTELAHAAGAKVVLDNVFATPLLQQGFPLGVDVVVYSGTHIDGQGRVLGGAILGDREYIDGPVQKLMRHTGPAMSAFNAWVLLKGLETLAIRVQHSNASAQRIAEFLNGHPSVRWVRYPYLPSHPQYDLAKRQMSGGGTVVTFALDCPEDVAKQRAFEVLDKMRLIDISNNLGDAKSLVTHPATTTHRAMGPEGRAAIGLGDGVVRISVGLEDTDDLIADIDRALS SVRTPKALPDGVSQATVGVRGGMLRSGFEETAEAMYLTSGYVYGSAAVAEKSFAGELDHYVYSRYGNPTVSVFEERLRLIEGAPAAFATASGMAAVFTSLGALLGAGDRLVAARSLFGSCFVVCSEILPRWGVQTVFVDGDDLSQWERALSVPTQAVFFETPSNPMQSLVDIAAVTELAHAAGAKVVLDNVFATPLLQQGFPLGVDVVVYSGTHIDGQGRVLGGAILGDREYIDGPVQKLMRHTGPAMSAFNAWVLLKGLETLAIRVQHSNASAQRIAEFLNGHPSVRWVRYPYLPSHPQYDLAKRQMSGGGTVVTFALDCPEDVAKQRAFEVLDKMRLIDISNNLGDAKSLVTHPATTTHRAMGPEGRAAIGLGDGVVRISVGLEDTDDLIADIDRALS 3ndo-a1-m1-cA_3ndo-a1-m1-cB Crystal structure of deoxyribose phosphate aldolase from mycobacterium smegmatis A0QQY7 A0QQY7 1.25 X-RAY DIFFRACTION 96 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 225 225 DHTRAQVAALVDHTLLKPEATPSDVTALVDEAADLGVFAVCVSPPLVSVAAGVAPSGLAIAAVAGFPSGKHVPGIKATEAELAVAAGATEIDMVIDVGAALAGDLDAVSADITAVRKAVRAATLKVIVESAALLEFSGEPLLADVCRVARDAGADFVKTSTGFHPSGGASVQAVEIMARTVGERLGVKASGGIRTAEQAAAMLDAGATRLGLSGSRAVLDGFGSA DHTRAQVAALVDHTLLKPEATPSDVTALVDEAADLGVFAVCVSPPLVSVAAGVAPSGLAIAAVAGFPSGKHVPGIKATEAELAVAAGATEIDMVIDVGAALAGDLDAVSADITAVRKAVRAATLKVIVESAALLEFSGEPLLADVCRVARDAGADFVKTSTGFHPSGGASVQAVEIMARTVGERLGVKASGGIRTAEQAAAMLDAGATRLGLSGSRAVLDGFGSA 3ndp-a3-m1-cB_3ndp-a3-m2-cB Crystal structure of human AK4(L171P) P27144 P27144 2.3 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 206 3ndp-a3-m1-cA_3ndp-a3-m2-cA KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYLEHHHHHH KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYLEHHHHHH 3ndp-a3-m2-cB_3ndp-a3-m1-cA Crystal structure of human AK4(L171P) P27144 P27144 2.3 X-RAY DIFFRACTION 43 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 206 214 3ndp-a3-m1-cB_3ndp-a3-m2-cA KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYLEHHHHHH LLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYLEHHHHHH 3ndp-a3-m2-cB_3ndp-a3-m2-cA Crystal structure of human AK4(L171P) P27144 P27144 2.3 X-RAY DIFFRACTION 41 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 206 214 3ndp-a3-m1-cB_3ndp-a3-m1-cA KLLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDDAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYLEHHHHHH LLRAVILGPPGSGKGTVCQRIAQNFGLQHLSSGHFLRENIKASTEVGEMAKQYIEKSLLVPDHVITRLMMSELENRRGQHWLLDGFPRTLGQAEALDKICEVDLVISLNIPFETLKDRLSRRWIHPPSGRVYNLDFNPPHVHGIDDVTGEPLVQQEDKDVAKPVIELYKSRGVLHQFSGTETNKIWPYVYTLFSNKITPIQSKEAYLEHHHHHH 3ndz-a1-m1-cA_3ndz-a1-m1-cD The structure of the catalytic and carbohydrate binding domain of endoglucanase D from Clostridium cellulovorans bound to cellotriose P28623 P28623 2.08 X-RAY DIFFRACTION 47 1.0 1493 (Clostridium cellulovorans) 1493 (Clostridium cellulovorans) 345 345 3ndy-a1-m1-cA_3ndy-a1-m1-cD 3ndy-a1-m1-cC_3ndy-a1-m1-cB 3ndz-a1-m1-cB_3ndz-a1-m1-cC STAFTGVRDVPAQQIVNEMKVGWNLGNTMDAIGGETNWGNPMTTHAMINKIKEAGFNTLRLPVTWDGHMGAAPEYTIDQTWMKRVEEIANYAFDNDMYVIINLHHENEWLKPFYANEAQVKAQLTKVWTQIANNFKKYGDHLIFETMNEPRPVGASLQWTGGSYENREVVNRYNLTAVNAIRATGGNNATRYIMVPTLAASAMSTTINDLVIPNNDSKVIVSLHMYSPYFFAMDINGTSSWGSDYDKSSLDSEFDAVYNKFVKNGRAVVIGEMGSINKNNTAARVTHAEYYAKSAKARGLTPIWWDNGYSVAGKAETFGIFNRSNLTWDAPEVMKAFIKGIGGSS STAFTGVRDVPAQQIVNEMKVGWNLGNTMDAIGGETNWGNPMTTHAMINKIKEAGFNTLRLPVTWDGHMGAAPEYTIDQTWMKRVEEIANYAFDNDMYVIINLHHENEWLKPFYANEAQVKAQLTKVWTQIANNFKKYGDHLIFETMNEPRPVGASLQWTGGSYENREVVNRYNLTAVNAIRATGGNNATRYIMVPTLAASAMSTTINDLVIPNNDSKVIVSLHMYSPYFFAMDINGTSSWGSDYDKSSLDSEFDAVYNKFVKNGRAVVIGEMGSINKNNTAARVTHAEYYAKSAKARGLTPIWWDNGYSVAGKAETFGIFNRSNLTWDAPEVMKAFIKGIGGSS 3ndz-a1-m1-cB_3ndz-a1-m1-cD The structure of the catalytic and carbohydrate binding domain of endoglucanase D from Clostridium cellulovorans bound to cellotriose P28623 P28623 2.08 X-RAY DIFFRACTION 61 1.0 1493 (Clostridium cellulovorans) 1493 (Clostridium cellulovorans) 345 345 3ndy-a1-m1-cB_3ndy-a1-m1-cD 3ndy-a1-m1-cC_3ndy-a1-m1-cA 3ndz-a1-m1-cA_3ndz-a1-m1-cC STAFTGVRDVPAQQIVNEMKVGWNLGNTMDAIGGETNWGNPMTTHAMINKIKEAGFNTLRLPVTWDGHMGAAPEYTIDQTWMKRVEEIANYAFDNDMYVIINLHHENEWLKPFYANEAQVKAQLTKVWTQIANNFKKYGDHLIFETMNEPRPVGASLQWTGGSYENREVVNRYNLTAVNAIRATGGNNATRYIMVPTLAASAMSTTINDLVIPNNDSKVIVSLHMYSPYFFAMDINGTSSWGSDYDKSSLDSEFDAVYNKFVKNGRAVVIGEMGSINKNNTAARVTHAEYYAKSAKARGLTPIWWDNGYSVAGKAETFGIFNRSNLTWDAPEVMKAFIKGIGGSS STAFTGVRDVPAQQIVNEMKVGWNLGNTMDAIGGETNWGNPMTTHAMINKIKEAGFNTLRLPVTWDGHMGAAPEYTIDQTWMKRVEEIANYAFDNDMYVIINLHHENEWLKPFYANEAQVKAQLTKVWTQIANNFKKYGDHLIFETMNEPRPVGASLQWTGGSYENREVVNRYNLTAVNAIRATGGNNATRYIMVPTLAASAMSTTINDLVIPNNDSKVIVSLHMYSPYFFAMDINGTSSWGSDYDKSSLDSEFDAVYNKFVKNGRAVVIGEMGSINKNNTAARVTHAEYYAKSAKARGLTPIWWDNGYSVAGKAETFGIFNRSNLTWDAPEVMKAFIKGIGGSS 3ndz-a1-m1-cE_3ndz-a1-m1-cF The structure of the catalytic and carbohydrate binding domain of endoglucanase D from Clostridium cellulovorans bound to cellotriose P28623 P28623 2.08 X-RAY DIFFRACTION 52 1.0 1493 (Clostridium cellulovorans) 1493 (Clostridium cellulovorans) 107 107 3ndy-a1-m1-cE_3ndy-a1-m1-cF 3ndy-a1-m1-cG_3ndy-a1-m1-cH 3ndz-a1-m1-cG_3ndz-a1-m1-cH SAVEVTYAITNSWGSGASVNVTIKNNGTTPINGWTLKWTMPINQTITNMWSASFVASGTTLSVTNAGYNGTIAANGGTQSFGFNINYSGVLSKPTGFTVNGTECTVK SAVEVTYAITNSWGSGASVNVTIKNNGTTPINGWTLKWTMPINQTITNMWSASFVASGTTLSVTNAGYNGTIAANGGTQSFGFNINYSGVLSKPTGFTVNGTECTVK 3ne2-a2-m1-cG_3ne2-a2-m1-cH Archaeoglobus fulgidus aquaporin O28846 O28846 3 X-RAY DIFFRACTION 153 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 244 244 3ne2-a1-m1-cA_3ne2-a1-m1-cB 3ne2-a1-m1-cA_3ne2-a1-m1-cC 3ne2-a1-m1-cB_3ne2-a1-m1-cD 3ne2-a1-m1-cD_3ne2-a1-m1-cC 3ne2-a2-m1-cF_3ne2-a2-m1-cE 3ne2-a2-m1-cF_3ne2-a2-m1-cH 3ne2-a2-m1-cG_3ne2-a2-m1-cE TMTLAKRFTAEVVGTFILVFFGPGAAVITLMIANGADKPNEFNIGIGALGGLGDWFAIGMAFALAIAAVIYSLGRISGAHINPAVTIALWSIGRFPGREVVPYIVAQFIGAALGSLLFLACVGPAAATVGGLGATAPFPGIGYGQAILTEAIGTFLLMLVIMGVAVDERAPPGFAGLVIGLTVGGIITTIGNITGSSLNPARTFGPYLGDSLMGINLWQYFPIYVIGPIVGAVAAAWLYNYLAK TMTLAKRFTAEVVGTFILVFFGPGAAVITLMIANGADKPNEFNIGIGALGGLGDWFAIGMAFALAIAAVIYSLGRISGAHINPAVTIALWSIGRFPGREVVPYIVAQFIGAALGSLLFLACVGPAAATVGGLGATAPFPGIGYGQAILTEAIGTFLLMLVIMGVAVDERAPPGFAGLVIGLTVGGIITTIGNITGSSLNPARTFGPYLGDSLMGINLWQYFPIYVIGPIVGAVAAAWLYNYLAK 3ne3-a2-m2-cB_3ne3-a2-m3-cB Mycobacterium tuberculosis Acyl Carrier Protein Synthase Apo structure P9WQD3 P9WQD3 1.9 X-RAY DIFFRACTION 46 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 129 129 3h7q-a1-m1-cA_3h7q-a1-m2-cA 3h7q-a1-m1-cA_3h7q-a1-m3-cA 3h7q-a1-m2-cA_3h7q-a1-m3-cA 3ne1-a1-m1-cA_3ne1-a1-m1-cB 3ne1-a1-m1-cA_3ne1-a1-m1-cC 3ne1-a1-m1-cB_3ne1-a1-m1-cC 3ne3-a2-m1-cB_3ne3-a2-m2-cB 3ne3-a2-m1-cB_3ne3-a2-m3-cB GIVGVGIDLVSIPDFAEQVDQPGTVFAETFTPGERRDASDKSSSAARHLAARWAAKEAVIKAWSGSRFAQRPVLPEDIHRDIEVVTDMWGRPRVRLTGAIAEYLADVTIHVSLTHEGDTAAAVAILEAP GIVGVGIDLVSIPDFAEQVDQPGTVFAETFTPGERRDASDKSSSAARHLAARWAAKEAVIKAWSGSRFAQRPVLPEDIHRDIEVVTDMWGRPRVRLTGAIAEYLADVTIHVSLTHEGDTAAAVAILEAP 3ne5-a1-m2-cA_3ne5-a1-m3-cA Crystal structure of the CusBA heavy-metal efflux complex from Escherichia coli P38054 P38054 2.898 X-RAY DIFFRACTION 186 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 1028 1028 3k07-a1-m1-cA_3k07-a1-m2-cA 3k07-a1-m1-cA_3k07-a1-m3-cA 3k07-a1-m2-cA_3k07-a1-m3-cA 3k0i-a1-m1-cA_3k0i-a1-m2-cA 3k0i-a1-m1-cA_3k0i-a1-m3-cA 3k0i-a1-m2-cA_3k0i-a1-m3-cA 3kso-a1-m1-cA_3kso-a1-m2-cA 3kso-a1-m1-cA_3kso-a1-m3-cA 3kso-a1-m2-cA_3kso-a1-m3-cA 3kss-a1-m1-cA_3kss-a1-m2-cA 3kss-a1-m1-cA_3kss-a1-m3-cA 3kss-a1-m2-cA_3kss-a1-m3-cA 3ne5-a1-m1-cA_3ne5-a1-m2-cA 3ne5-a1-m1-cA_3ne5-a1-m3-cA 3t51-a2-m1-cA_3t51-a2-m2-cA 3t51-a2-m1-cA_3t51-a2-m3-cA 3t51-a2-m2-cA_3t51-a2-m3-cA 3t53-a2-m1-cA_3t53-a2-m2-cA 3t53-a2-m1-cA_3t53-a2-m3-cA 3t53-a2-m2-cA_3t53-a2-m3-cA 3t56-a2-m1-cA_3t56-a2-m2-cA 3t56-a2-m1-cA_3t56-a2-m3-cA 3t56-a2-m2-cA_3t56-a2-m3-cA 4dnr-a1-m1-cA_4dnr-a1-m2-cA 4dnr-a1-m1-cA_4dnr-a1-m3-cA 4dnr-a1-m2-cA_4dnr-a1-m3-cA 4dnt-a1-m1-cA_4dnt-a1-m2-cA 4dnt-a1-m1-cA_4dnt-a1-m3-cA 4dnt-a1-m2-cA_4dnt-a1-m3-cA 4dop-a1-m1-cA_4dop-a1-m2-cA 4dop-a1-m1-cA_4dop-a1-m3-cA 4dop-a1-m2-cA_4dop-a1-m3-cA 7kf5-a1-m1-cA_7kf5-a1-m1-cB 7kf5-a1-m1-cA_7kf5-a1-m1-cC 7kf5-a1-m1-cB_7kf5-a1-m1-cC 7kf6-a1-m1-cA_7kf6-a1-m1-cB 7kf6-a1-m1-cA_7kf6-a1-m1-cC 7kf6-a1-m1-cB_7kf6-a1-m1-cC 7kf7-a1-m1-cA_7kf7-a1-m1-cC 7kf7-a1-m1-cB_7kf7-a1-m1-cA 7kf7-a1-m1-cB_7kf7-a1-m1-cC 7kf8-a1-m1-cB_7kf8-a1-m1-cA 7kf8-a1-m1-cB_7kf8-a1-m1-cC 7kf8-a1-m1-cC_7kf8-a1-m1-cA WIIRRSVANRFLVLMGALFLSIWGTWTIINTPVDALPDLSDVQVIIKTSYPGQAPQIVENQVTYPLTTTMLSVPGAKTVRGFSQFGDSYVYVIFEDGTDPYWARSRVLEYLNQVQGKLPAGVSAELGPDATGVGWIYEYALVDRSGKHDLADLRSLQDWFLKYELKTIPDVAEVASVGGVVKEYQVVIDPQRLAQYGISLAEVKSALDASNQEAGGSSIELAEAEYMVRASGYLQTLDDFNHIVLKASENGVPVYLRDVAKVQIGPEMRRGIAELNGEGEVAGGVVILRSGKNAREVIAAVKDKLETLKSSLPEGVEIVTTYDRSQLIDRAIDNLSGKLLEEFIVVAVVCALFLWHVRSALVAIISLPLGLCIAFIVMHFQGLNANIMSLGGIAIAVGAMVDAAIVMIENAHKRLEEWQHQHPDATLDNKTRWQVITDASVEVGPALFISLLIITLSFIPIFTLEGQEGRLFGPLAFTKTYAMAGAALLAIVVIPILMGYWLNRFLIRVYHPLLLKVLHWPKTTLLVAALSVLTVLWPLNKVGGEFLPQINEGDLLYMPSTLPGISAAEAASMLQKTDKLIMSVPEVARVFGKTGKAETATDSAPLEMVETTIQLKPQEQWRPGMTMDKIIEELDNTVRLPGLANLWVPPIRNRIDMLSTGIKSPIGIKVSGTVLADIDAMAEQIEEVARTVPGVASALAERLEGGRYINVEINREKAARYGMTVADVQLFVTSAVGGAMVGETVEGIARYPINLRYPQSWRDSPQALRQLPILTPMKQQITLADVADIKVSTGPSMLKTENARPTSWIYIDARDRDMVSVVHDLQKAIAEKVQLKPGTSVAFSGQFELLERANHKLKLMVPMTLMIIFVLLYLAFRRVGEALLIISSVPFALVGGIWLLWWMGFHLSVATGTGFIALAGVAAEFGVVMLMYLRHAIEAVPSLNNPQTFSEQKLDEALYHGAVLRVRPKAMTVAVIIAGLLPILWGTGAGSEVMSRIAAPMIGGMITAPLLSLFIIPAAYKLMWLHRH WIIRRSVANRFLVLMGALFLSIWGTWTIINTPVDALPDLSDVQVIIKTSYPGQAPQIVENQVTYPLTTTMLSVPGAKTVRGFSQFGDSYVYVIFEDGTDPYWARSRVLEYLNQVQGKLPAGVSAELGPDATGVGWIYEYALVDRSGKHDLADLRSLQDWFLKYELKTIPDVAEVASVGGVVKEYQVVIDPQRLAQYGISLAEVKSALDASNQEAGGSSIELAEAEYMVRASGYLQTLDDFNHIVLKASENGVPVYLRDVAKVQIGPEMRRGIAELNGEGEVAGGVVILRSGKNAREVIAAVKDKLETLKSSLPEGVEIVTTYDRSQLIDRAIDNLSGKLLEEFIVVAVVCALFLWHVRSALVAIISLPLGLCIAFIVMHFQGLNANIMSLGGIAIAVGAMVDAAIVMIENAHKRLEEWQHQHPDATLDNKTRWQVITDASVEVGPALFISLLIITLSFIPIFTLEGQEGRLFGPLAFTKTYAMAGAALLAIVVIPILMGYWLNRFLIRVYHPLLLKVLHWPKTTLLVAALSVLTVLWPLNKVGGEFLPQINEGDLLYMPSTLPGISAAEAASMLQKTDKLIMSVPEVARVFGKTGKAETATDSAPLEMVETTIQLKPQEQWRPGMTMDKIIEELDNTVRLPGLANLWVPPIRNRIDMLSTGIKSPIGIKVSGTVLADIDAMAEQIEEVARTVPGVASALAERLEGGRYINVEINREKAARYGMTVADVQLFVTSAVGGAMVGETVEGIARYPINLRYPQSWRDSPQALRQLPILTPMKQQITLADVADIKVSTGPSMLKTENARPTSWIYIDARDRDMVSVVHDLQKAIAEKVQLKPGTSVAFSGQFELLERANHKLKLMVPMTLMIIFVLLYLAFRRVGEALLIISSVPFALVGGIWLLWWMGFHLSVATGTGFIALAGVAAEFGVVMLMYLRHAIEAVPSLNNPQTFSEQKLDEALYHGAVLRVRPKAMTVAVIIAGLLPILWGTGAGSEVMSRIAAPMIGGMITAPLLSLFIIPAAYKLMWLHRH 3ne5-a1-m2-cB_3ne5-a1-m3-cC Crystal structure of the CusBA heavy-metal efflux complex from Escherichia coli P77239 P77239 2.898 X-RAY DIFFRACTION 77 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 322 324 3ne5-a1-m1-cB_3ne5-a1-m2-cC 3ne5-a1-m3-cB_3ne5-a1-m1-cC 3t51-a2-m1-cB_3t51-a2-m2-cC 3t51-a2-m1-cC_3t51-a2-m3-cB 3t51-a2-m2-cB_3t51-a2-m3-cC 3t53-a2-m1-cB_3t53-a2-m2-cC 3t53-a2-m2-cB_3t53-a2-m3-cC 3t53-a2-m3-cB_3t53-a2-m1-cC 3t56-a2-m1-cB_3t56-a2-m2-cC 3t56-a2-m2-cB_3t56-a2-m3-cC 3t56-a2-m3-cB_3t56-a2-m1-cC 4dnr-a1-m1-cB_4dnr-a1-m2-cC 4dnr-a1-m2-cB_4dnr-a1-m3-cC 4dnr-a1-m3-cB_4dnr-a1-m1-cC 4dnt-a1-m1-cB_4dnt-a1-m2-cC 4dnt-a1-m2-cB_4dnt-a1-m3-cC 4dnt-a1-m3-cB_4dnt-a1-m1-cC 4dop-a1-m1-cB_4dop-a1-m2-cC 4dop-a1-m2-cB_4dop-a1-m3-cC 4dop-a1-m3-cB_4dop-a1-m1-cC ASGVRIDPTQTQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLIDSEANISGALERMRS ASGVRIDPTQTQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLIDSEANISGALERMRSES 3ne5-a1-m3-cB_3ne5-a1-m3-cC Crystal structure of the CusBA heavy-metal efflux complex from Escherichia coli P77239 P77239 2.898 X-RAY DIFFRACTION 111 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 322 324 3ne5-a1-m1-cB_3ne5-a1-m1-cC 3ne5-a1-m2-cB_3ne5-a1-m2-cC 3t51-a1-m1-cB_3t51-a1-m1-cC 3t51-a2-m1-cB_3t51-a2-m1-cC 3t51-a2-m2-cB_3t51-a2-m2-cC 3t51-a2-m3-cB_3t51-a2-m3-cC 3t53-a1-m1-cB_3t53-a1-m1-cC 3t53-a2-m1-cB_3t53-a2-m1-cC 3t53-a2-m2-cB_3t53-a2-m2-cC 3t53-a2-m3-cB_3t53-a2-m3-cC 3t56-a1-m1-cB_3t56-a1-m1-cC 3t56-a2-m1-cB_3t56-a2-m1-cC 3t56-a2-m2-cB_3t56-a2-m2-cC 3t56-a2-m3-cB_3t56-a2-m3-cC 4dnr-a1-m1-cB_4dnr-a1-m1-cC 4dnr-a1-m2-cB_4dnr-a1-m2-cC 4dnr-a1-m3-cB_4dnr-a1-m3-cC 4dnt-a1-m1-cB_4dnt-a1-m1-cC 4dnt-a1-m2-cB_4dnt-a1-m2-cC 4dnt-a1-m3-cB_4dnt-a1-m3-cC 4dop-a1-m1-cB_4dop-a1-m1-cC 4dop-a1-m2-cB_4dop-a1-m2-cC 4dop-a1-m3-cB_4dop-a1-m3-cC ASGVRIDPTQTQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLIDSEANISGALERMRS ASGVRIDPTQTQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLIDSEANISGALERMRSES 3ne8-a1-m1-cA_3ne8-a1-m2-cA The crystal structure of a domain from N-acetylmuramoyl-l-alanine amidase of Bartonella henselae str. Houston-1 A0A0H3M3F4 A0A0H3M3F4 1.239 X-RAY DIFFRACTION 55 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 224 224 ASFRVVLDPGHGGIDGGARGVTGILEKDVTLAFARALRDELQKGSHTIVALTRDSDIFLRLSERVKKAQEFDADLFISIHADTIDVHSLRGATVYTISDEASDAIAKSLAESENKVDLLDGLPKEDILLDLTRRETHAFSINFANNVVSNLSKSHINLINNPHRYADFQVLKAPDVPSVLIEIGYLSNKEDEKLLNNPQWRKQAASIAYSIRQFAEYRQKIQPL ASFRVVLDPGHGGIDGGARGVTGILEKDVTLAFARALRDELQKGSHTIVALTRDSDIFLRLSERVKKAQEFDADLFISIHADTIDVHSLRGATVYTISDEASDAIAKSLAESENKVDLLDGLPKEDILLDLTRRETHAFSINFANNVVSNLSKSHINLINNPHRYADFQVLKAPDVPSVLIEIGYLSNKEDEKLLNNPQWRKQAASIAYSIRQFAEYRQKIQPL 3nek-a1-m1-cA_3nek-a1-m1-cB Crystal structure of a nitrogen repressor-like protein MJ0159 from Methanococcus jannaschii Q57623 Q57623 2.5 X-RAY DIFFRACTION 55 0.995 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 215 216 RIKTALSKFNAAKVTYDIDEADGDVIVNTAFIDKKYLDEAFDILKEAYKKGLGISDRFGIVEENDRIKIQTICAVTLDGIFLRNSVPLIPKYGGILEITEDKERFIDIIGYDGSSLDPHEVFFNFVDCEKTFLAGFREVHRVAREKLEEVLKKLNWNGIKAIGEPNNELYGIGVNKDCGVVTGGINPLVLLKENEIPIELKAHEVVRFSDLKSYK NIRIKTALSKFNAAKVTYDIDEADGDVIVNTAFIDKKYLDEAFDILKEAYKKGLGISDRFGIVEENDRIKIQTICAVTLDGIFLRNSVPLIPKYGGILEITEDKERFIDIIGYDGSSLDPHEVFFNFVDCEKTFLAGFREVHRVAREKLEEVLKKLNWNGIKAIGEPNNELYGIGVNKDCGVVTGGINPLVLLKENEIPIELKAHEVVRFSDLKSY 3nem-a1-m1-cA_3nem-a1-m1-cB Aspartyl-tRNA synthetase complexed with aspartyl adenylate Q52428 Q52428 1.89 X-RAY DIFFRACTION 261 1.0 311400 (Thermococcus kodakarensis) 311400 (Thermococcus kodakarensis) 438 438 1b8a-a1-m1-cA_1b8a-a1-m1-cB 3nel-a1-m1-cA_3nel-a1-m1-cB 3nen-a1-m1-cA_3nen-a1-m1-cB MYRTHYSSEITEELNGQKVKVAGWVWEVKDLGGIKFLWIRDRDGIVQITAPKKKVDPELFKLIPKLRSEDVVAVEGVVNFTPKAKLGFEILPEKIVVLNRAETPLPLDPTGKVKAELDTRLDNRFMDLRRPEVMAIFKIRSSVFKAVRDFFHENGFIEIHTPKIIATATEGGTELFPMKYFEEDAFLAQSPQLYKQIMMASGLDRVYEIAPIFRAEEHNTTRHLNEAWSIDSEMAFIEDEEEVMSFLERLVAHAINYVREHNAKELDILNFELEEPKLPFPRVSYDKALEILGDLGKEIPWGEDIDTEGERLLGKYMMENENAPLYFLYQYPSEAKPFYIMKYDNKPEICRAFDLEYRGVEISSGGQREHRHDILVEQIKEKGLNPESFEFYLKAFRYGMPPHGGFGLGAERLIKQMLDLPNIREVILFPRDRRRLTP MYRTHYSSEITEELNGQKVKVAGWVWEVKDLGGIKFLWIRDRDGIVQITAPKKKVDPELFKLIPKLRSEDVVAVEGVVNFTPKAKLGFEILPEKIVVLNRAETPLPLDPTGKVKAELDTRLDNRFMDLRRPEVMAIFKIRSSVFKAVRDFFHENGFIEIHTPKIIATATEGGTELFPMKYFEEDAFLAQSPQLYKQIMMASGLDRVYEIAPIFRAEEHNTTRHLNEAWSIDSEMAFIEDEEEVMSFLERLVAHAINYVREHNAKELDILNFELEEPKLPFPRVSYDKALEILGDLGKEIPWGEDIDTEGERLLGKYMMENENAPLYFLYQYPSEAKPFYIMKYDNKPEICRAFDLEYRGVEISSGGQREHRHDILVEQIKEKGLNPESFEFYLKAFRYGMPPHGGFGLGAERLIKQMLDLPNIREVILFPRDRRRLTP 3nep-a1-m4-cX_3nep-a1-m1-cX 1.55A resolution structure of malate dehydrogenase from Salinibacter ruber Q2S289 Q2S289 1.551 X-RAY DIFFRACTION 128 1.0 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 305 305 3nep-a1-m2-cX_3nep-a1-m3-cX MKVTVIGAGNVGATVAECVARQDVAKEVVMVDIKDGMPQGKALDMRESSPIHGFDTRVTGTNDYGPTEDSDVCIITAGLRDDLLAKNTEIVGGVTEQFVEGSPDSTIIVVANPLDVMTYVAYEASGFPTNRVMGMAGVLDTGRFRSFIAEELDVSVRDVQALLMGGHGDTMVPLPRYTTVGGIPVPQLIDDARIEEIVERTKGAGGEIVDLMGTSAWYAPGAAAAEMTEAILKDNKRILPCAAYCDGEYGLDDLFIGVPVKLGAGGVEEVIEVDLDADEKAQLKTSAGHVHSNLDDLQRLRDEGK MKVTVIGAGNVGATVAECVARQDVAKEVVMVDIKDGMPQGKALDMRESSPIHGFDTRVTGTNDYGPTEDSDVCIITAGLRDDLLAKNTEIVGGVTEQFVEGSPDSTIIVVANPLDVMTYVAYEASGFPTNRVMGMAGVLDTGRFRSFIAEELDVSVRDVQALLMGGHGDTMVPLPRYTTVGGIPVPQLIDDARIEEIVERTKGAGGEIVDLMGTSAWYAPGAAAAEMTEAILKDNKRILPCAAYCDGEYGLDDLFIGVPVKLGAGGVEEVIEVDLDADEKAQLKTSAGHVHSNLDDLQRLRDEGK 3nep-a1-m4-cX_3nep-a1-m2-cX 1.55A resolution structure of malate dehydrogenase from Salinibacter ruber Q2S289 Q2S289 1.551 X-RAY DIFFRACTION 13 1.0 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 305 305 3nep-a1-m1-cX_3nep-a1-m3-cX MKVTVIGAGNVGATVAECVARQDVAKEVVMVDIKDGMPQGKALDMRESSPIHGFDTRVTGTNDYGPTEDSDVCIITAGLRDDLLAKNTEIVGGVTEQFVEGSPDSTIIVVANPLDVMTYVAYEASGFPTNRVMGMAGVLDTGRFRSFIAEELDVSVRDVQALLMGGHGDTMVPLPRYTTVGGIPVPQLIDDARIEEIVERTKGAGGEIVDLMGTSAWYAPGAAAAEMTEAILKDNKRILPCAAYCDGEYGLDDLFIGVPVKLGAGGVEEVIEVDLDADEKAQLKTSAGHVHSNLDDLQRLRDEGK MKVTVIGAGNVGATVAECVARQDVAKEVVMVDIKDGMPQGKALDMRESSPIHGFDTRVTGTNDYGPTEDSDVCIITAGLRDDLLAKNTEIVGGVTEQFVEGSPDSTIIVVANPLDVMTYVAYEASGFPTNRVMGMAGVLDTGRFRSFIAEELDVSVRDVQALLMGGHGDTMVPLPRYTTVGGIPVPQLIDDARIEEIVERTKGAGGEIVDLMGTSAWYAPGAAAAEMTEAILKDNKRILPCAAYCDGEYGLDDLFIGVPVKLGAGGVEEVIEVDLDADEKAQLKTSAGHVHSNLDDLQRLRDEGK 3nep-a1-m4-cX_3nep-a1-m3-cX 1.55A resolution structure of malate dehydrogenase from Salinibacter ruber Q2S289 Q2S289 1.551 X-RAY DIFFRACTION 70 1.0 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 305 305 3nep-a1-m1-cX_3nep-a1-m2-cX MKVTVIGAGNVGATVAECVARQDVAKEVVMVDIKDGMPQGKALDMRESSPIHGFDTRVTGTNDYGPTEDSDVCIITAGLRDDLLAKNTEIVGGVTEQFVEGSPDSTIIVVANPLDVMTYVAYEASGFPTNRVMGMAGVLDTGRFRSFIAEELDVSVRDVQALLMGGHGDTMVPLPRYTTVGGIPVPQLIDDARIEEIVERTKGAGGEIVDLMGTSAWYAPGAAAAEMTEAILKDNKRILPCAAYCDGEYGLDDLFIGVPVKLGAGGVEEVIEVDLDADEKAQLKTSAGHVHSNLDDLQRLRDEGK MKVTVIGAGNVGATVAECVARQDVAKEVVMVDIKDGMPQGKALDMRESSPIHGFDTRVTGTNDYGPTEDSDVCIITAGLRDDLLAKNTEIVGGVTEQFVEGSPDSTIIVVANPLDVMTYVAYEASGFPTNRVMGMAGVLDTGRFRSFIAEELDVSVRDVQALLMGGHGDTMVPLPRYTTVGGIPVPQLIDDARIEEIVERTKGAGGEIVDLMGTSAWYAPGAAAAEMTEAILKDNKRILPCAAYCDGEYGLDDLFIGVPVKLGAGGVEEVIEVDLDADEKAQLKTSAGHVHSNLDDLQRLRDEGK 3neq-a3-m1-cB_3neq-a3-m2-cA Crystal structure of the chimeric muscarinic toxin MT7 with loop 3 from MT1 Q8QGR0 Q8QGR0 1.25 X-RAY DIFFRACTION 17 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 66 66 LTCVKSNSIWFPTSEDCPDGQNLCFKRWQYISPRMYDFTRGCAATCPKPTNVRETIRCCGTDKCNK LTCVKSNSIWFPTSEDCPDGQNLCFKRWQYISPRMYDFTRGCAATCPKPTNVRETIRCCGTDKCNK 3net-a1-m1-cB_3net-a1-m1-cA Crystal structure of histidyl-tRNA synthetase from Nostoc sp. PCC 7120 Q8YMC2 Q8YMC2 2.7 X-RAY DIFFRACTION 246 0.99 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 410 426 NFSTPSGFPEFLPSEKRLELYLLDTIRRVYESYGFTPIETPAVERLEVLQAKGNQDNIIYGLEPILEARALKFDQTVPLAAYIARHLNDLTFPFARYQDVVFRGERFRQFRQCDIDVVGREKLSLLYDAQPAIITEIFEAVNIGDFVIRINNRKVLTGFFQSLNISETQIKSCISIIDNLEVKLELEKETQKIIDFVKIDGSVDDVLDKLKHLSQTLSEQFNLGVSELETVITGVRNLGVPDKRFCIDLAIAYYTGTVYETTLIGHEALGSICSGGRYEELVGTFIGEKPGVGISIGLTRLISRLLKAGILNTLPPTPAQVVVVNQDELPTYLKVSQQLRQAGLNVITNFEKRQLGKQFQAADKQGIRFCVIIGADEAAAQKSSLKDLQSGEQVEVALADLAEEIKRRLT KINFSTPSGFPEFLPSEKRLELYLLDTIRRVYESYGFTPIETPAVERLEVLQAKGNQNIIYGLEPILEARALKFDQTVPLAAYIARHLNDLTFPFARYQDVVFRGEFRQFRQCDIDVVGREKLSLLYDAQPAIITEIFEAVNIGDFVIRINNRKVLTGFFQSLNISETQIKSCISIIDNLEKIGEAKVKLELEKEGINPEQTQKIIDFVKIDGSVDDVLDKLKHLSQTLPESEQFNLGVSELETVITGVRNLGVPDKRFCIDLAIARGLNYYTGTVYETTLIGHEALGSICSGGRYEELVGTFIGEKPGVGISIGLTRLISRLLKAGILNTLPPTPAQVVVVNQDELPTYLKVSQQLRQAGLNVITNFEKRQLGKQFQAADKQGIRFCVIIGADEAAAQKSSLKDLQSGEQVEVAADLAEEIKRRL 3neu-a1-m1-cA_3neu-a1-m2-cA The crystal structure of a functionally-unknown protein lin1836 from Listeria innocua Clip11262 Q92AT3 Q92AT3 1.58 X-RAY DIFFRACTION 89 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 115 115 NPTFHADKPIYSQISDWKKQITGEWKGEDKLPSVREGVKLAVNPNTVSRAYQELERAGYIYAKRGGSFVTSDKALFDQLKKELADAITERFLEEAKSIGLDDQTAIELLIKRSRN NPTFHADKPIYSQISDWKKQITGEWKGEDKLPSVREGVKLAVNPNTVSRAYQELERAGYIYAKRGGSFVTSDKALFDQLKKELADAITERFLEEAKSIGLDDQTAIELLIKRSRN 3nf2-a1-m1-cA_3nf2-a1-m2-cA Crystal structure of polyprenyl synthetase from Streptomyces coelicolor A3(2) Q9X7V8 Q9X7V8 2.2 X-RAY DIFFRACTION 112 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 338 338 DVTALLERGRTLATPVLRAAVDRLAPPMDTVAAYHFGWIDAQGNPADGDGGKAVRPALAVLSAEVTGAAPEVGVPGAVAVELVHNFSLLHDDLMDGDEQRRHRDTVWKVHGPAQAILVGDALFALANEVLLELGTVEAGRATRRLTKASRSLIDGQAQDISYEHRDRVSVEECLEMEGNKTGALLACASSIGAVLGGADERTADTLEKYGYHLGLAFQAVDDLLGIWGDPDATGKQTWSDLRQRKKSLPVVAALAAGGAASERLGEILTADAKASDFANFSEEEFAARAALIEEAGGREWTADEARRQHTIAIEALDAVDMPDRVRDRFTALADFVVV DVTALLERGRTLATPVLRAAVDRLAPPMDTVAAYHFGWIDAQGNPADGDGGKAVRPALAVLSAEVTGAAPEVGVPGAVAVELVHNFSLLHDDLMDGDEQRRHRDTVWKVHGPAQAILVGDALFALANEVLLELGTVEAGRATRRLTKASRSLIDGQAQDISYEHRDRVSVEECLEMEGNKTGALLACASSIGAVLGGADERTADTLEKYGYHLGLAFQAVDDLLGIWGDPDATGKQTWSDLRQRKKSLPVVAALAAGGAASERLGEILTADAKASDFANFSEEEFAARAALIEEAGGREWTADEARRQHTIAIEALDAVDMPDRVRDRFTALADFVVV 3nf4-a1-m2-cB_3nf4-a1-m1-cA Crystal structure of acyl-CoA dehydrogenase from Mycobacterium thermoresistibile bound to flavin adenine dinucleotide G7CDN2 G7CDN2 2.35 X-RAY DIFFRACTION 105 0.981 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 367 369 3nf4-a1-m1-cB_3nf4-a1-m2-cA MAVDRLLPSQEAAELIELTREIADKVLDPIVDRHEKDETYPEGVFEQLGAAGLLSLPQPEEWGGGGQPYEVYLQVLEEIAARWASVAVAVSVHSLSSHPLLVFGTEEQKKRWLPGMLSGEQIGAYSLSEPRCAATPTDGGYVINGSKSWITHGGKADFYTLFARTGSRGVSCFLVPADQPGLSFGKPEEKMGLHAVPTTSAFYDNARIDADRRIGEEGQGLQIAFSALDSGRLGIAAVATGLAQAALDEAVAYANERTAFGRKIIDHQGLGFLLADMAAAVATARATYLDAARRRDQGRPYSQQASIAKLTATDAAMKVTTDAVQVFGGVGYTRDYRVERYMREAKIMQIFEGTNQIQRLVIARGLT MAVDRLLPSQEAAELIELTREIADKVLDPIVDRHEKDETYPEGVFEQLGAAGLLSLPQPEEWGGGGQPYEVYLQVLEEIAARWASVAVAVSVHSLSSHPLLVFGTEEQKKRWLPGMLSGEQIGAYSLSEPQAGSDAAALRCAATPTDGGYVINGSKSWITHGGKADFYTLFARTGSRGVSCFLVPADQPGLSFGKPEEKMGLHAVPTTSAFYDNARIDADRRIGEEGQGLQIAFSALDSGRLGIAAVATGLAQAALDEAVAYANEKIIDHGLGFLLADMAAAVATARATYLDAARRRDQGRPYSQQASIAKLTATDAAMKVTTDAVQVFGGVGYTRDYRVERYMREAKIMQIFEGTNQIQRLVIARGLT 3nf4-a1-m2-cB_3nf4-a1-m2-cA Crystal structure of acyl-CoA dehydrogenase from Mycobacterium thermoresistibile bound to flavin adenine dinucleotide G7CDN2 G7CDN2 2.35 X-RAY DIFFRACTION 87 0.981 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 367 369 3nf4-a1-m1-cB_3nf4-a1-m1-cA MAVDRLLPSQEAAELIELTREIADKVLDPIVDRHEKDETYPEGVFEQLGAAGLLSLPQPEEWGGGGQPYEVYLQVLEEIAARWASVAVAVSVHSLSSHPLLVFGTEEQKKRWLPGMLSGEQIGAYSLSEPRCAATPTDGGYVINGSKSWITHGGKADFYTLFARTGSRGVSCFLVPADQPGLSFGKPEEKMGLHAVPTTSAFYDNARIDADRRIGEEGQGLQIAFSALDSGRLGIAAVATGLAQAALDEAVAYANERTAFGRKIIDHQGLGFLLADMAAAVATARATYLDAARRRDQGRPYSQQASIAKLTATDAAMKVTTDAVQVFGGVGYTRDYRVERYMREAKIMQIFEGTNQIQRLVIARGLT MAVDRLLPSQEAAELIELTREIADKVLDPIVDRHEKDETYPEGVFEQLGAAGLLSLPQPEEWGGGGQPYEVYLQVLEEIAARWASVAVAVSVHSLSSHPLLVFGTEEQKKRWLPGMLSGEQIGAYSLSEPQAGSDAAALRCAATPTDGGYVINGSKSWITHGGKADFYTLFARTGSRGVSCFLVPADQPGLSFGKPEEKMGLHAVPTTSAFYDNARIDADRRIGEEGQGLQIAFSALDSGRLGIAAVATGLAQAALDEAVAYANEKIIDHGLGFLLADMAAAVATARATYLDAARRRDQGRPYSQQASIAKLTATDAAMKVTTDAVQVFGGVGYTRDYRVERYMREAKIMQIFEGTNQIQRLVIARGLT 3nfc-a2-m1-cB_3nfc-a2-m1-cC Crystal structure of E.coli MazF Toxin P0AE70 P0AE70 2 X-RAY DIFFRACTION 50 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 92 93 3nfc-a1-m1-cA_3nfc-a1-m2-cA 3nfc-a3-m1-cD_3nfc-a3-m1-cE 3nfc-a4-m1-cF_3nfc-a4-m3-cF 5cke-a1-m1-cA_5cke-a1-m1-cB 5co7-a2-m1-cC_5co7-a2-m1-cD YVPDMGDLIWVDFRPAVVLSPFMYNNKTGMCLCVPCTTQSKGYPFEVVLSGGVALADQVKSIAWRARGATKKGTVAPEELQLIKAKINVLIG YVPDMGDLIWVDFHRPAVVLSPFMYNNKTGMCLCVPCTTQSKGYPFEVVLSGGVALADQVKSIAWRARGATKKGTVAPEELQLIKAKINVLIG 3nfd-a2-m1-cD_3nfd-a2-m1-cF Chronobacterium ammoniagenes ACPS-CoA complex O31302 O31302 1.89 X-RAY DIFFRACTION 58 1.0 1697 (Corynebacterium ammoniagenes) 1697 (Corynebacterium ammoniagenes) 133 135 3nfd-a1-m1-cA_3nfd-a1-m1-cB 3nfd-a1-m1-cA_3nfd-a1-m1-cC 3nfd-a1-m1-cB_3nfd-a1-m1-cC 3nfd-a2-m1-cD_3nfd-a2-m1-cE 3nfd-a2-m1-cF_3nfd-a2-m1-cE EATVGVDLVHIPGFAEQLSRPGSTFEQVFSPLERRHAQTRSRTEHLAGRWAAKEAFIKAWSQAIYGKPPVIEPDLVNFAEIEVLPDRWGRVALQLKGEVAAKLQESIGDVELALSISHDGDYATALCLLRYQR EATVGVDLVHIPGFAEQLSRPGSTFEQVFSPLERRHAQTRAGSRTEHLAGRWAAKEAFIKAWSQAIYGKPPVIEPDLVNFAEIEVLPDRWGRVALQLKGEVAAKLQESIGDVELALSISHDGDYATALCLLRYQR 3nfg-a4-m1-cM_3nfg-a4-m1-cK Crystal structure of Dimerization module of RNA polymerase I subcomplex A49/A34.5 Q6FNZ9 Q6FNZ9 2.51 X-RAY DIFFRACTION 189 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 93 94 3nff-a1-m1-cE_3nff-a1-m1-cA 3nff-a2-m1-cC_3nff-a2-m1-cG 3nfg-a1-m1-cA_3nfg-a1-m1-cO 3nfg-a2-m1-cI_3nfg-a2-m1-cC 3nfg-a3-m1-cG_3nfg-a3-m1-cE RSIAIDSYQEDPSVVVSNFFKGVRVPKDTEFQLYKKRKQDQFVLHGENERLEYDGETDELTTKTNQYVGLYDKQSGKINLYRAPVVTSKIVSK RSIAIDSYQEDPSVVVSNFFKGVRVPKDTEFQLYKKRKQDQFVLHGENERLEYDGETDELTTKTNQYVGLYDKQSGKINLYRAPVVTSKIVSKF 3nfk-a3-m1-cB_3nfk-a3-m1-cA Crystal structure of the PTPN4 PDZ domain complexed with the C-terminus of a rabies virus G protein P29074 P29074 1.43 X-RAY DIFFRACTION 27 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 91 92 HDNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDIAEHTHDQVVLFIKASCESGELMLLVRPN DNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDIAEHTHDQVVLFIKASCERHSGELMLLVRPN 3nfl-a5-m2-cD_3nfl-a5-m1-cA Crystal structure of the PTPN4 PDZ domain complexed with the C-terminus of the GluN2A NMDA receptor subunit P29074 P29074 1.91 X-RAY DIFFRACTION 38 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 89 92 DNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDIAEHTHDQVVLFIKASCEGELMLLVRPN HDNLVLIRMKPDENGRFGFNVKGGYDQKMPVIVSRVAPGTPADLCVPRLNEGDQVVLINGRDIAEHTHDQVVLFIKASCERHSGELMLLVRP 3nft-a1-m1-cA_3nft-a1-m2-cA Near-atomic resolution analysis of BipD- A component of the type-III secretion system of Burkholderia pseudomallei Q63K37 Q63K37 1.51 X-RAY DIFFRACTION 99 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 262 262 AMTDDDLRAAGVDRRVPEQKLGAAIDEFASLRLPDRIDGRFVDGRRANLTVFDDARVAVRGHARAQRNLLERLETELLGGGIQPDPILQGLVDVIGQGKSDIDAYATIVEGLTKYFQSVADVMSKLQDYISAKDDKNMKIDGGKIKALIQQVIDHLPTMQLPKGADIARWRKELGDAVSISDSGVVTINPDKLIKMRDSLPPDGTVWDTARYQAWNTAFSGQKDNIQNDVQTLVEKYSHQNSNFDNLVKVLSGAISTLTDTA AMTDDDLRAAGVDRRVPEQKLGAAIDEFASLRLPDRIDGRFVDGRRANLTVFDDARVAVRGHARAQRNLLERLETELLGGGIQPDPILQGLVDVIGQGKSDIDAYATIVEGLTKYFQSVADVMSKLQDYISAKDDKNMKIDGGKIKALIQQVIDHLPTMQLPKGADIARWRKELGDAVSISDSGVVTINPDKLIKMRDSLPPDGTVWDTARYQAWNTAFSGQKDNIQNDVQTLVEKYSHQNSNFDNLVKVLSGAISTLTDTA 3nfw-a2-m1-cC_3nfw-a2-m1-cD Crystal structure of nitrilotriacetate monooxygenase component B (A0R521 homolog) from Mycobacterium thermoresistibile E5Q9D7 E5Q9D7 1.6 X-RAY DIFFRACTION 297 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 181 182 3nfw-a1-m1-cA_3nfw-a1-m1-cB TAEAIDQRTFRRVLGQFCTGVTIITTVHEGNPVGFACQSFAALSLDPPLVLFCPTKVSRSWKAIEASGRFCVNILHEKQQHVSARFGSREPDKFAGIDWRPSDLGSPIIDGSLAHIDCTVHDVHDGGDHFVVFGKVHGLSEVPERKPRPLLFYRGEYTGIEPEKNTPAQWRDDLEAFLTAT VTAEAIDQRTFRRVLGQFCTGVTIITTVHEGNPVGFACQSFAALSLDPPLVLFCPTKVSRSWKAIEASGRFCVNILHEKQQHVSARFGSREPDKFAGIDWRPSDLGSPIIDGSLAHIDCTVHDVHDGGDHFVVFGKVHGLSEVPERKPRPLLFYRGEYTGIEPEKNTPAQWRDDLEAFLTAT 3ng0-a1-m11-cA_3ng0-a1-m9-cA Crystal Structure of Glutamine Synthetase from Synechocystis sp. PCC 6803 P77961 P77961 2.8 X-RAY DIFFRACTION 127 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 465 465 3ng0-a1-m10-cA_3ng0-a1-m8-cA 3ng0-a1-m10-cA_3ng0-a1-m9-cA 3ng0-a1-m11-cA_3ng0-a1-m7-cA 3ng0-a1-m12-cA_3ng0-a1-m7-cA 3ng0-a1-m12-cA_3ng0-a1-m8-cA 3ng0-a1-m1-cA_3ng0-a1-m5-cA 3ng0-a1-m1-cA_3ng0-a1-m6-cA 3ng0-a1-m2-cA_3ng0-a1-m4-cA 3ng0-a1-m2-cA_3ng0-a1-m6-cA 3ng0-a1-m3-cA_3ng0-a1-m4-cA 3ng0-a1-m3-cA_3ng0-a1-m5-cA RTPQEVLKWIQDENIKIIDLKFIDTPGIWQHCSFYYDQLDENSFTEGIPFDGSSIRGWKAINESDMCMVPDPNTATIDPFCKEPTLSMICSIKEPRTGEWYNRDPRTIAAKAAEYLRGTGIADTVYFGPEAEFFLFDDIRFGQTENSSYYFADSVEGRWNTGREEEGGNLGYKPGYKQGYFPVAPTDTAQDIRTEMLLTMAAFGVPIEKHHHEVASGGQNELGIKFDKLVNSADNLMIYKYVIKNVAKKYGKTVTFMPKPIFNDNGSGMHVHQSLWKDGQPLFAGDKYAGFSQMGLWYIGGILKHAPALLAFTNPTTNSYKRLVPGFEAPVNLAYSQGNRSASVRIPLSGGNPKAKRLEFRCPDATSNPYLAFAAMLCAGIDGIKNQIDPGEPLDVDIELAKIPSTPGSLEAALEALEKDHEFLTGTGVFSPDFVESWIEYKLDNEVNPMRLRPHPYEFSLYYDC RTPQEVLKWIQDENIKIIDLKFIDTPGIWQHCSFYYDQLDENSFTEGIPFDGSSIRGWKAINESDMCMVPDPNTATIDPFCKEPTLSMICSIKEPRTGEWYNRDPRTIAAKAAEYLRGTGIADTVYFGPEAEFFLFDDIRFGQTENSSYYFADSVEGRWNTGREEEGGNLGYKPGYKQGYFPVAPTDTAQDIRTEMLLTMAAFGVPIEKHHHEVASGGQNELGIKFDKLVNSADNLMIYKYVIKNVAKKYGKTVTFMPKPIFNDNGSGMHVHQSLWKDGQPLFAGDKYAGFSQMGLWYIGGILKHAPALLAFTNPTTNSYKRLVPGFEAPVNLAYSQGNRSASVRIPLSGGNPKAKRLEFRCPDATSNPYLAFAAMLCAGIDGIKNQIDPGEPLDVDIELAKIPSTPGSLEAALEALEKDHEFLTGTGVFSPDFVESWIEYKLDNEVNPMRLRPHPYEFSLYYDC 3ng0-a1-m2-cA_3ng0-a1-m9-cA Crystal Structure of Glutamine Synthetase from Synechocystis sp. PCC 6803 P77961 P77961 2.8 X-RAY DIFFRACTION 12 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 465 465 3ng0-a1-m10-cA_3ng0-a1-m4-cA 3ng0-a1-m11-cA_3ng0-a1-m6-cA 3ng0-a1-m12-cA_3ng0-a1-m5-cA 3ng0-a1-m1-cA_3ng0-a1-m7-cA 3ng0-a1-m3-cA_3ng0-a1-m8-cA RTPQEVLKWIQDENIKIIDLKFIDTPGIWQHCSFYYDQLDENSFTEGIPFDGSSIRGWKAINESDMCMVPDPNTATIDPFCKEPTLSMICSIKEPRTGEWYNRDPRTIAAKAAEYLRGTGIADTVYFGPEAEFFLFDDIRFGQTENSSYYFADSVEGRWNTGREEEGGNLGYKPGYKQGYFPVAPTDTAQDIRTEMLLTMAAFGVPIEKHHHEVASGGQNELGIKFDKLVNSADNLMIYKYVIKNVAKKYGKTVTFMPKPIFNDNGSGMHVHQSLWKDGQPLFAGDKYAGFSQMGLWYIGGILKHAPALLAFTNPTTNSYKRLVPGFEAPVNLAYSQGNRSASVRIPLSGGNPKAKRLEFRCPDATSNPYLAFAAMLCAGIDGIKNQIDPGEPLDVDIELAKIPSTPGSLEAALEALEKDHEFLTGTGVFSPDFVESWIEYKLDNEVNPMRLRPHPYEFSLYYDC RTPQEVLKWIQDENIKIIDLKFIDTPGIWQHCSFYYDQLDENSFTEGIPFDGSSIRGWKAINESDMCMVPDPNTATIDPFCKEPTLSMICSIKEPRTGEWYNRDPRTIAAKAAEYLRGTGIADTVYFGPEAEFFLFDDIRFGQTENSSYYFADSVEGRWNTGREEEGGNLGYKPGYKQGYFPVAPTDTAQDIRTEMLLTMAAFGVPIEKHHHEVASGGQNELGIKFDKLVNSADNLMIYKYVIKNVAKKYGKTVTFMPKPIFNDNGSGMHVHQSLWKDGQPLFAGDKYAGFSQMGLWYIGGILKHAPALLAFTNPTTNSYKRLVPGFEAPVNLAYSQGNRSASVRIPLSGGNPKAKRLEFRCPDATSNPYLAFAAMLCAGIDGIKNQIDPGEPLDVDIELAKIPSTPGSLEAALEALEKDHEFLTGTGVFSPDFVESWIEYKLDNEVNPMRLRPHPYEFSLYYDC 3ng0-a1-m6-cA_3ng0-a1-m9-cA Crystal Structure of Glutamine Synthetase from Synechocystis sp. PCC 6803 P77961 P77961 2.8 X-RAY DIFFRACTION 218 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 465 465 3ng0-a1-m10-cA_3ng0-a1-m2-cA 3ng0-a1-m12-cA_3ng0-a1-m3-cA 3ng0-a1-m1-cA_3ng0-a1-m11-cA 3ng0-a1-m4-cA_3ng0-a1-m8-cA 3ng0-a1-m5-cA_3ng0-a1-m7-cA RTPQEVLKWIQDENIKIIDLKFIDTPGIWQHCSFYYDQLDENSFTEGIPFDGSSIRGWKAINESDMCMVPDPNTATIDPFCKEPTLSMICSIKEPRTGEWYNRDPRTIAAKAAEYLRGTGIADTVYFGPEAEFFLFDDIRFGQTENSSYYFADSVEGRWNTGREEEGGNLGYKPGYKQGYFPVAPTDTAQDIRTEMLLTMAAFGVPIEKHHHEVASGGQNELGIKFDKLVNSADNLMIYKYVIKNVAKKYGKTVTFMPKPIFNDNGSGMHVHQSLWKDGQPLFAGDKYAGFSQMGLWYIGGILKHAPALLAFTNPTTNSYKRLVPGFEAPVNLAYSQGNRSASVRIPLSGGNPKAKRLEFRCPDATSNPYLAFAAMLCAGIDGIKNQIDPGEPLDVDIELAKIPSTPGSLEAALEALEKDHEFLTGTGVFSPDFVESWIEYKLDNEVNPMRLRPHPYEFSLYYDC RTPQEVLKWIQDENIKIIDLKFIDTPGIWQHCSFYYDQLDENSFTEGIPFDGSSIRGWKAINESDMCMVPDPNTATIDPFCKEPTLSMICSIKEPRTGEWYNRDPRTIAAKAAEYLRGTGIADTVYFGPEAEFFLFDDIRFGQTENSSYYFADSVEGRWNTGREEEGGNLGYKPGYKQGYFPVAPTDTAQDIRTEMLLTMAAFGVPIEKHHHEVASGGQNELGIKFDKLVNSADNLMIYKYVIKNVAKKYGKTVTFMPKPIFNDNGSGMHVHQSLWKDGQPLFAGDKYAGFSQMGLWYIGGILKHAPALLAFTNPTTNSYKRLVPGFEAPVNLAYSQGNRSASVRIPLSGGNPKAKRLEFRCPDATSNPYLAFAAMLCAGIDGIKNQIDPGEPLDVDIELAKIPSTPGSLEAALEALEKDHEFLTGTGVFSPDFVESWIEYKLDNEVNPMRLRPHPYEFSLYYDC 3ng3-a1-m1-cB_3ng3-a1-m1-cD Crystal structure of deoxyribose phosphate aldolase from mycobacterium avium 104 in a schiff base with an unknown aldehyde A0QLL2 A0QLL2 2.15 X-RAY DIFFRACTION 38 0.995 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 216 218 3ng3-a1-m1-cA_3ng3-a1-m1-cC PTRAQLAAFVDHTLLKPEATAADVAALVTEAAELGVYAVCVSPPMVPAAVQARVASVAGFPSGKHVSAVKAHEAALAVASGAAEIDMVIDVGAALAGDLDGVRADIAAVRGAVGGAVLKVIVESSALLALADEHTLVRVCRAAEDAGADFVKTSTGFHPSGGASVRAVALMAEAVGGRLGVKASGGIRTAADALAMLDAGATRLGLSGTRAVLDGL TPTRAQLAAFVDHTLLKPEATAADVAALVTEAAELGVYAVCVSPPMVPAAVQAGVRVASVAGFPSGKHVSAVKAHEAALAVASGAAEIDMVIDVGAALAGDLDGVRADIAAVRGAVGGAVLKVIVESSALLALADEHTLVRVCRAAEDAGADFVKTSTGFHPSGGASVRAVALMAEAVGGRLGVKASGGIRTAADALAMLDAGATRLGLSGTRAVLDG 3ng3-a1-m1-cD_3ng3-a1-m1-cA Crystal structure of deoxyribose phosphate aldolase from mycobacterium avium 104 in a schiff base with an unknown aldehyde A0QLL2 A0QLL2 2.15 X-RAY DIFFRACTION 11 0.995 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 218 219 TPTRAQLAAFVDHTLLKPEATAADVAALVTEAAELGVYAVCVSPPMVPAAVQAGVRVASVAGFPSGKHVSAVKAHEAALAVASGAAEIDMVIDVGAALAGDLDGVRADIAAVRGAVGGAVLKVIVESSALLALADEHTLVRVCRAAEDAGADFVKTSTGFHPSGGASVRAVALMAEAVGGRLGVKASGGIRTAADALAMLDAGATRLGLSGTRAVLDG TPTRAQLAAFVDHTLLKPEATAADVAALVTEAAELGVYAVCVSPPMVPAAVQAGARVASVAGFPSGKHVSAVKAHEAALAVASGAAEIDMVIDVGAALAGDLDGVRADIAAVRGAVGGAVLKVIVESSALLALADEHTLVRVCRAAEDAGADFVKTSTGFHPSGGASVRAVALMAEAVGGRLGVKASGGIRTAADALAMLDAGATRLGLSGTRAVLDGL 3ng3-a1-m1-cD_3ng3-a1-m1-cC Crystal structure of deoxyribose phosphate aldolase from mycobacterium avium 104 in a schiff base with an unknown aldehyde A0QLL2 A0QLL2 2.15 X-RAY DIFFRACTION 99 0.995 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 218 220 3ng3-a1-m1-cB_3ng3-a1-m1-cA TPTRAQLAAFVDHTLLKPEATAADVAALVTEAAELGVYAVCVSPPMVPAAVQAGVRVASVAGFPSGKHVSAVKAHEAALAVASGAAEIDMVIDVGAALAGDLDGVRADIAAVRGAVGGAVLKVIVESSALLALADEHTLVRVCRAAEDAGADFVKTSTGFHPSGGASVRAVALMAEAVGGRLGVKASGGIRTAADALAMLDAGATRLGLSGTRAVLDG PTRAQLAAFVDHTLLKPEATAADVAALVTEAAELGVYAVCVSPPMVPAAVQAGAGVRVASVAGFPSGKHVSAVKAHEAALAVASGAAEIDMVIDVGAALAGDLDGVRADIAAVRGAVGGAVLKVIVESSALLALADEHTLVRVCRAAEDAGADFVKTSTGFHPSGGASVRAVALMAEAVGGRLGVKASGGIRTAADALAMLDAGATRLGLSGTRAVLDGL 3ng7-a1-m1-cX_3ng7-a1-m2-cX Complex of dithionite-reduced 6-hydroxy-L-nicotine oxidase with substrate bound at active site and inhibitor at exit cavity Q93NH4 Q93NH4 1.95 X-RAY DIFFRACTION 43 1.0 29320 (Paenarthrobacter nicotinovorans) 29320 (Paenarthrobacter nicotinovorans) 427 427 3k7m-a1-m1-cX_3k7m-a1-m2-cX 3k7q-a1-m1-cX_3k7q-a1-m2-cX 3k7t-a1-m1-cA_3k7t-a1-m1-cB 3ngc-a1-m1-cX_3ngc-a1-m2-cX 3nh3-a1-m1-cX_3nh3-a1-m2-cX 3nho-a1-m1-cX_3nho-a1-m2-cX 3nk0-a1-m1-cX_3nk0-a1-m2-cX 3nk1-a1-m1-cX_3nk1-a1-m2-cX 3nk2-a1-m1-cX_3nk2-a1-m2-cX 3nn0-a1-m1-cX_3nn0-a1-m2-cX 3nn6-a1-m1-cX_3nn6-a1-m2-cX MYDAIVVGGGFSGLKAARDLTNAGKKVLLLEGGERLGGRAYSRESRNVPGLRVEIGGAYLHRKHHPRLAAELDRYGIPTAAASEFTSFRHRLGPTAVDQAFPIPGSEAVAVEAATYTLLRDAHRIDLEKGLENQDLEDLDIPLNEYVDKLDLPPVSRQFLLAWAWNMLGQPADQASALWMLQLVAAHHYSILGVVLSLDEVFSNGSADLVDAMSQEIPEIRLQTVVTGIDQSGDVVNVTVKDGHAFQAHSVIVATPMNTWRRIVFTPALPERRRSVIEEGHGGQGLKILIHVRGAEAGIECVGDGIFPTLYDYCEVSESERLLVAFTDSGSFDPTDIGAVKDAVLYYLPEVEVLGIDYHDWIADPLFEGPWVAPRVGQFSRVHKELGEPAGRIHFVGSDVSLEFPGYIEGALETAECAVNAILHSHH MYDAIVVGGGFSGLKAARDLTNAGKKVLLLEGGERLGGRAYSRESRNVPGLRVEIGGAYLHRKHHPRLAAELDRYGIPTAAASEFTSFRHRLGPTAVDQAFPIPGSEAVAVEAATYTLLRDAHRIDLEKGLENQDLEDLDIPLNEYVDKLDLPPVSRQFLLAWAWNMLGQPADQASALWMLQLVAAHHYSILGVVLSLDEVFSNGSADLVDAMSQEIPEIRLQTVVTGIDQSGDVVNVTVKDGHAFQAHSVIVATPMNTWRRIVFTPALPERRRSVIEEGHGGQGLKILIHVRGAEAGIECVGDGIFPTLYDYCEVSESERLLVAFTDSGSFDPTDIGAVKDAVLYYLPEVEVLGIDYHDWIADPLFEGPWVAPRVGQFSRVHKELGEPAGRIHFVGSDVSLEFPGYIEGALETAECAVNAILHSHH 3ngh-a1-m1-cA_3ngh-a1-m2-cB Molecular Analysis of the Interaction of the HDL Receptor SR-BI with the Adaptor Protein PDZK1 Q9JIL4 Q9JIL4 1.8 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 106 106 GPRESKLSKQEGQNYGFFLRIEKDTDGHLIRVIEEGSPAEKAGLLDGDRVLRINGVFVDKEEHAQVVELVRKSGNSVTLLVLDGDSYEKAVKNQVDLKELDQEAKL GPRESKLSKQEGQNYGFFLRIEKDTDGHLIRVIEEGSPAEKAGLLDGDRVLRINGVFVDKEEHAQVVELVRKSGNSVTLLVLDGDSYEKAVKNQVDLKELDQEAKL 3ngj-a1-m1-cA_3ngj-a1-m1-cD Crystal structure of a putative deoxyribose-phosphate aldolase from Entamoeba histolytica C4M5C6 C4M5C6 1.7 X-RAY DIFFRACTION 106 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 218 222 3ngj-a1-m1-cB_3ngj-a1-m1-cC MDKATLAKYIDHTLLKADATEEQIRKLCSEAAEYKFASVCVNPTWVPLCAELLKGTGVKVCTVIGFPLGATPSEVKAYETKVAVEQGAEEVDMVINIGMVKAKKYDDVEKDVKAVVDASGKALTKVIIECCYLTNEEKVEVCKRCVAAGAEYVKTSTGFGTHGATPEDVKLMKDTVGDKALVKAAGGIRTFDDAMKMINNGASRIGASAGIAILNGIH GPGSMDKATLAKYIDHTLLKADATEEQIRKLCSEAAEYKFASVCVNPTWVPLCAELLKGTGVKVCTVIGFPLGATPSEVKAYETKVAVEQGAEEVDMVINIGMVKAKKYDDVEKDVKAVVDASGKALTKVIIECCYLTNEEKVEVCKRCVAAGAEYVKTSTGFGTHGATPEDVKLMKDTVGDKALVKAAGGIRTFDDAMKMINNGASRIGASAGIAILNGIH 3ngt-a5-m1-cD_3ngt-a5-m1-cE Structure of Leishmania NDKb complexed with AMP. Q9U1E1 Q9U1E1 2.57 X-RAY DIFFRACTION 75 1.0 5664 (Leishmania major) 5664 (Leishmania major) 150 150 3ngs-a1-m1-cB_3ngs-a1-m1-cA 3ngs-a1-m1-cC_3ngs-a1-m2-cC 3ngs-a1-m2-cB_3ngs-a1-m2-cA 3ngt-a1-m1-cC_3ngt-a1-m1-cF 3ngt-a1-m1-cD_3ngt-a1-m1-cE 3ngt-a2-m1-cH_3ngt-a2-m1-cG 3ngt-a2-m1-cJ_3ngt-a2-m1-cK 3ngt-a2-m1-cL_3ngt-a2-m1-cI 3ngt-a3-m1-cB_3ngt-a3-m1-cA 3ngt-a4-m1-cC_3ngt-a4-m1-cF 3ngt-a6-m1-cH_3ngt-a6-m1-cG 3ngt-a7-m1-cL_3ngt-a7-m1-cI 3ngt-a8-m1-cM_3ngt-a8-m1-cN 3ngu-a1-m1-cA_3ngu-a1-m1-cB 3ngu-a1-m2-cA_3ngu-a1-m2-cB 3ngu-a1-m3-cA_3ngu-a1-m3-cB 4kpc-a1-m1-cB_4kpc-a1-m1-cA 4kpc-a1-m2-cB_4kpc-a1-m2-cA 4kpc-a1-m3-cB_4kpc-a1-m3-cA 4kpc-a2-m1-cB_4kpc-a2-m1-cA 5c7p-a1-m1-cA_5c7p-a1-m1-cB 5c7p-a1-m1-cC_5c7p-a1-m2-cC 5c7p-a1-m2-cA_5c7p-a1-m2-cB 5caa-a1-m1-cA_5caa-a1-m1-cB 5cab-a1-m1-cB_5cab-a1-m1-cA 5cab-a1-m2-cB_5cab-a1-m2-cA 5cab-a1-m3-cB_5cab-a1-m3-cA SSERTFIAVKPDGVQRGLVGEIIARFERKGYKLVALKILQPTTEQAQGHYKDLCSKPFFPALVKYFSSGPIVCMVWEGKNVVKSGRVLLGATNPADSQPGTIRGDFAVDVGRNVCHGSDSVESAEREIAFWFKADEIASWTSHSVSQIYE SSERTFIAVKPDGVQRGLVGEIIARFERKGYKLVALKILQPTTEQAQGHYKDLCSKPFFPALVKYFSSGPIVCMVWEGKNVVKSGRVLLGATNPADSQPGTIRGDFAVDVGRNVCHGSDSVESAEREIAFWFKADEIASWTSHSVSQIYE 3ngu-a1-m2-cB_3ngu-a1-m3-cB Structure of Leishmania NDKb complexed with ADP. Q9U1E1 Q9U1E1 2.29 X-RAY DIFFRACTION 52 1.0 5664 (Leishmania major) 5664 (Leishmania major) 151 151 3ngs-a1-m1-cA_3ngs-a1-m2-cC 3ngs-a1-m1-cB_3ngs-a1-m1-cC 3ngs-a1-m1-cB_3ngs-a1-m2-cA 3ngs-a1-m1-cC_3ngs-a1-m2-cA 3ngs-a1-m2-cB_3ngs-a1-m1-cA 3ngs-a1-m2-cB_3ngs-a1-m2-cC 3ngt-a1-m1-cB_3ngt-a1-m1-cD 3ngt-a1-m1-cB_3ngt-a1-m1-cF 3ngt-a1-m1-cC_3ngt-a1-m1-cE 3ngt-a1-m1-cD_3ngt-a1-m1-cF 3ngt-a2-m1-cG_3ngt-a2-m1-cI 3ngt-a2-m1-cG_3ngt-a2-m1-cK 3ngt-a2-m1-cH_3ngt-a2-m1-cJ 3ngt-a2-m1-cK_3ngt-a2-m1-cI 3ngt-a2-m1-cL_3ngt-a2-m1-cH 3ngt-a2-m1-cL_3ngt-a2-m1-cJ 3ngu-a1-m1-cA_3ngu-a1-m2-cA 3ngu-a1-m1-cA_3ngu-a1-m3-cA 3ngu-a1-m1-cB_3ngu-a1-m2-cB 3ngu-a1-m1-cB_3ngu-a1-m3-cB 3ngu-a1-m2-cA_3ngu-a1-m3-cA 4kpc-a1-m1-cA_4kpc-a1-m2-cA 4kpc-a1-m1-cA_4kpc-a1-m3-cA 4kpc-a1-m1-cB_4kpc-a1-m2-cB 4kpc-a1-m1-cB_4kpc-a1-m3-cB 4kpc-a1-m2-cA_4kpc-a1-m3-cA 4kpc-a1-m2-cB_4kpc-a1-m3-cB 5c7p-a1-m1-cA_5c7p-a1-m2-cB 5c7p-a1-m1-cA_5c7p-a1-m2-cC 5c7p-a1-m1-cC_5c7p-a1-m1-cB 5c7p-a1-m1-cC_5c7p-a1-m2-cA 5c7p-a1-m2-cA_5c7p-a1-m1-cB 5c7p-a1-m2-cC_5c7p-a1-m2-cB 5cab-a1-m1-cA_5cab-a1-m2-cA 5cab-a1-m1-cA_5cab-a1-m3-cA 5cab-a1-m1-cB_5cab-a1-m2-cB 5cab-a1-m1-cB_5cab-a1-m3-cB 5cab-a1-m2-cA_5cab-a1-m3-cA 5cab-a1-m2-cB_5cab-a1-m3-cB MSSERTFIAVKPDGVQRGLVGEIIARFERKGYKLVALKILQPTTEQAQGHYKDLCSKPFFPALVKYFSSGPIVCMVWEGKNVVKSGRVLLGATNPADSQPGTIRGDFAVDVGRNVCHGSDSVESAEREIAFWFKADEIASWTSHSVSQIYE MSSERTFIAVKPDGVQRGLVGEIIARFERKGYKLVALKILQPTTEQAQGHYKDLCSKPFFPALVKYFSSGPIVCMVWEGKNVVKSGRVLLGATNPADSQPGTIRGDFAVDVGRNVCHGSDSVESAEREIAFWFKADEIASWTSHSVSQIYE 3ngw-a2-m1-cA_3ngw-a2-m2-cA Crystal Structure of Molybdopterin-guanine dinucleotide biosynthesis protein A from Archaeoglobus fulgidus, Northeast Structural Genomics Consortium Target GR189 O28274 O28274 2.31 X-RAY DIFFRACTION 63 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 190 190 KVAVLVGGVGRRIGEKTEVLCGKKLIEWVLEKYSPFQTVFVCRDEKQAEKLSSRYEAEFIWDLHKGVGSIAGIHAALRHFGSCVVAAIDPFVKPEVLEHLYKEGEKAGCDALIPKHDYPEPLLAYYAESAADELERAILQGIRKILVPLERLNVVYYPVEKLRKFDKELISFFNINTPDDLKRAEEICSK KVAVLVGGVGRRIGEKTEVLCGKKLIEWVLEKYSPFQTVFVCRDEKQAEKLSSRYEAEFIWDLHKGVGSIAGIHAALRHFGSCVVAAIDPFVKPEVLEHLYKEGEKAGCDALIPKHDYPEPLLAYYAESAADELERAILQGIRKILVPLERLNVVYYPVEKLRKFDKELISFFNINTPDDLKRAEEICSK 3ngx-a1-m1-cA_3ngx-a1-m1-cB Crystal structure of bifunctional 5,10-methylenetetrahydrofolate dehydrogenase / cyclohydrolase from Thermoplasma acidophilum Q05213 Q05213 2.3 X-RAY DIFFRACTION 97 1.0 2303 (Thermoplasma acidophilum) 2303 (Thermoplasma acidophilum) 275 275 3ngl-a1-m1-cC_3ngl-a1-m1-cA KILRGEEIAEKKAENLHGIIERSGLEPSLKLIQIGDNEAASIYARAKIRRGKKIGIAVDLEKYDDISMKDLLKRIDDLAKDPQINGIMIENPLPKGFDYYEIVRNIPYYKDVDALSPYNQGLIALNREFLVPATPRAVIDIMDYYGYHENTVTIVNRSPVVGRPLSMMLLNRNYTVSVCHSKTKDIGSMTRSSKIVVVAVGRPGFLNREMVTPGSVVIDVGINYVNDKVVGDANFEDLSEYVEAITPVPGGVGPITATNILENVVKAAEFQKNNL KILRGEEIAEKKAENLHGIIERSGLEPSLKLIQIGDNEAASIYARAKIRRGKKIGIAVDLEKYDDISMKDLLKRIDDLAKDPQINGIMIENPLPKGFDYYEIVRNIPYYKDVDALSPYNQGLIALNREFLVPATPRAVIDIMDYYGYHENTVTIVNRSPVVGRPLSMMLLNRNYTVSVCHSKTKDIGSMTRSSKIVVVAVGRPGFLNREMVTPGSVVIDVGINYVNDKVVGDANFEDLSEYVEAITPVPGGVGPITATNILENVVKAAEFQKNNL 3ngy-a2-m1-cC_3ngy-a2-m1-cD Crystal structure of RNase T (E92G mutant) P30014 P30014 2.204 X-RAY DIFFRACTION 84 0.995 562 (Escherichia coli) 562 (Escherichia coli) 182 202 GLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDTTLHFHVEPFVGGAVSGYEALHEIFKVVRKGIKASGCNRAIMVAHNANFDHSFMMAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGMDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLS TGLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSGYEALHEIFKVVRKGIKASGCNRAIMVAHNANFDHSFMMAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGMDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPL 3nh2-a2-m1-cB_3nh2-a2-m1-cE Crystal structure of RNase T in complex with a stem DNA with a 3' overhang P30014 P30014 2.3 X-RAY DIFFRACTION 13 1.0 562 (Escherichia coli) 562 (Escherichia coli) 206 206 GLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIMVAHNANFDHSFMMAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGMDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSAAEE GLCDRFRGFYPVVIDVETAGFNAKTDALLEIAAITLKMDEQGWLMPDTTLHFHVEPFVGANLQPEALAFNGIDPNDPDRGAVSEYEALHEIFKVVRKGIKASGCNRAIMVAHNANFDHSFMMAAAERASLKRNPFHPFATFDTAALAGLALGQTVLSKACQTAGMDFDSTQAHSALYDTERTAVLFCEIVNRWKRLGGWPLSAAEE 3nh4-a1-m1-cA_3nh4-a1-m2-cA Crystal structure of murine aminoacylase 3 Q91XE4 Q91XE4 2 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 303 303 3nfz-a1-m1-cA_3nfz-a1-m2-cA 3nh5-a1-m1-cA_3nh5-a1-m2-cA 3nh8-a1-m1-cA_3nh8-a1-m2-cA SREPLLRVAVTGGTHGNEMCGVYLARYWLQNPGELQRPSFSAMPVLANPAATAACCRYLDRDLNRSCTLTFLGSTATPDDPYEVKRARELNQLLGPKGTGQAFDFTLDLHNTTANTGVCLISESNISFNLHLCHYLQRQNPGMPCRLFLYEPAGTETFSVESISKNGICLEMGPQPQGVLRADLFSRMRALVASILDFIELFNQGMDLPAFEMDIYRNLGSVDFPRTADGDLAGTVHPQLQDHDFEPLRPGEPIFKLFSGEDVLYEGDSIVYPVFINEAAYYEKHVAFLKSEKIRVTVPALLR SREPLLRVAVTGGTHGNEMCGVYLARYWLQNPGELQRPSFSAMPVLANPAATAACCRYLDRDLNRSCTLTFLGSTATPDDPYEVKRARELNQLLGPKGTGQAFDFTLDLHNTTANTGVCLISESNISFNLHLCHYLQRQNPGMPCRLFLYEPAGTETFSVESISKNGICLEMGPQPQGVLRADLFSRMRALVASILDFIELFNQGMDLPAFEMDIYRNLGSVDFPRTADGDLAGTVHPQLQDHDFEPLRPGEPIFKLFSGEDVLYEGDSIVYPVFINEAAYYEKHVAFLKSEKIRVTVPALLR 3nhd-a1-m4-cB_3nhd-a1-m6-cA GYVLGS segment 127-132 from human prion with V129 P04156 P04156 1.92 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3nhd-a1-m1-cA_3nhd-a1-m2-cB 3nhd-a1-m1-cB_3nhd-a1-m3-cA 3nhd-a1-m4-cA_3nhd-a1-m5-cB GYVLGS GYVLGS 3nhd-a1-m6-cA_3nhd-a1-m6-cB GYVLGS segment 127-132 from human prion with V129 P04156 P04156 1.92 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3nhd-a1-m1-cA_3nhd-a1-m1-cB 3nhd-a1-m2-cA_3nhd-a1-m2-cB 3nhd-a1-m3-cA_3nhd-a1-m3-cB 3nhd-a1-m4-cA_3nhd-a1-m4-cB 3nhd-a1-m5-cA_3nhd-a1-m5-cB GYVLGS GYVLGS 3nhm-a3-m1-cA_3nhm-a3-m1-cB Crystal structure of a response regulator from Myxococcus xanthus Q1CZZ7 Q1CZZ7 2.19 X-RAY DIFFRACTION 28 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 112 112 PKVLIVENSWTRETLRLLLSGEFDCTTAADGASGLQQALAHPPDVLISDVNDGDGYALCGHFRSEPTLKHIPVIFVSGYAPADQPVPDAYLVKPVKPPVLIAQLHALLARAE PKVLIVENSWTRETLRLLLSGEFDCTTAADGASGLQQALAHPPDVLISDVNDGDGYALCGHFRSEPTLKHIPVIFVSGYAPADQPVPDAYLVKPVKPPVLIAQLHALLARAE 3nhq-a4-m1-cH_3nhq-a4-m1-cG The dark Pfr structure of the photosensory core module of P. aeruginosa Bacteriophytochrome Q9HWR3 Q9HWR3 2.55 X-RAY DIFFRACTION 115 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 481 482 3c2w-a1-m1-cF_3c2w-a1-m1-cE 3c2w-a2-m1-cD_3c2w-a2-m1-cC 3c2w-a3-m1-cH_3c2w-a3-m1-cG 3c2w-a4-m1-cB_3c2w-a4-m1-cA 3g6o-a1-m1-cA_3g6o-a1-m1-cB 3ibr-a1-m1-cA_3ibr-a1-m1-cB 3nhq-a1-m1-cB_3nhq-a1-m1-cA 3nhq-a2-m1-cD_3nhq-a2-m1-cC 3nhq-a3-m1-cF_3nhq-a3-m1-cE TPVTLANCEDEPIHVPGAIQPHGALVTLRADGMVLAASENIQALLGFVASPGSYLTQEQVGPEVLRMLEEGLTGNGPWSNSVETRIGEHLFDVIGHSYKEVFYLEFEIRTADTLSITSFTLNAQRIIAQVQLHNDTASLLSNVTDELRRMTGYDRVMAYRFRHDDSGEVVAESRREDLESYLGQRYPASDIPAQARRLYIQNPIRLIADVAYTPMRVFPALNPETNESFDLSYSVLRSVSPIHCEYLTNMGVRASMSISIVVGGKLWGLFSCHHMSPKLIPYPVRMSFQIFSQVCSAIVERLEQGRIAELLRVSTERRLALARRARDADDLFGALAHPDDGIAALIPCDGALVMLGGRTLSIRGDFERQAGNVLQRLQRDPERDIYHTDNWDCCGVLAIRFHRQESGWIFWFRHEEVHRIRWGGKPEKLLTIGPSGPRLTPRGSFEAWEEVVRGHSTPWSETDLAIAEKLRLDLMELCLNH TPVTLANCEDEPIHVPGAIQPHGALVTLRADGMVLAASENIQALLGFVASPGSYLTQEQVGPEVLRMLEEGLTGNGPWSNSVETRIGEHLFDVIGHSYKEVFYLEFEIRTADTLSITSFTLNAQRIIAQVQLHNDTASLLSNVTDELRRMTGYDRVMAYRFRHDDSGEVVAESRREDLESYLGQRYPASDIPAQARRLYIQNPIRLIADVAYTPMRVFPALNPETNESFDLSYSVLRSVSPIHCEYLTNMGVRASMSISIVVGGKLWGLFSCHHMSPKLIPYPVRMSFQIFSQVCSAIVERLEQGRIAELLRVSTERRLALARRARDADDLFGALAHPDDGIAALIPCDGALVMLGGRTLSIRGDFERQAGNVLQRLQRDPERDIYHTDNWDCCGVLAIRFHRQESGWIFWFRHEEVHRIRWGGKPEKLLTIGPSGPRLTPRGSFEAWEEVVRGHSTPWSETDLAIAEKLRLDLMELCLNHA 3nhv-a3-m4-cE_3nhv-a3-m5-cE Crystal Structure of BH2092 protein from Bacillus halodurans, Northeast Structural Genomics Consortium Target BhR228F Q9KB42 Q9KB42 2.5 X-RAY DIFFRACTION 62 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 131 131 3nhv-a1-m1-cA_3nhv-a1-m1-cB 3nhv-a1-m1-cA_3nhv-a1-m1-cC 3nhv-a1-m1-cC_3nhv-a1-m1-cB 3nhv-a2-m1-cD_3nhv-a2-m2-cD 3nhv-a2-m1-cD_3nhv-a2-m3-cD 3nhv-a2-m2-cD_3nhv-a2-m3-cD 3nhv-a3-m1-cE_3nhv-a3-m4-cE 3nhv-a3-m1-cE_3nhv-a3-m5-cE 3o3w-a1-m1-cA_3o3w-a1-m1-cC 3o3w-a1-m1-cB_3o3w-a1-m1-cA 3o3w-a1-m1-cB_3o3w-a1-m1-cC 3o3w-a2-m1-cD_3o3w-a2-m1-cE 3o3w-a2-m1-cD_3o3w-a2-m1-cF 3o3w-a2-m1-cE_3o3w-a2-m1-cF 3o3w-a3-m1-cG_3o3w-a3-m1-cH 3o3w-a3-m1-cI_3o3w-a3-m1-cH NPNEAYRHYKKLSYETDIADLSIDIKKGYEGIIVVDVRDAEAYKECHIPTAISIPGNKINEDTTKRLSKEKVIITYCWGPACNGATKAAAKFAQLGFRVKELIGGIEYWRKENGEVEGTLGAKADLFWNKK NPNEAYRHYKKLSYETDIADLSIDIKKGYEGIIVVDVRDAEAYKECHIPTAISIPGNKINEDTTKRLSKEKVIITYCWGPACNGATKAAAKFAQLGFRVKELIGGIEYWRKENGEVEGTLGAKADLFWNKK 3ni0-a1-m1-cB_3ni0-a1-m1-cA Crystal Structure of Mouse BST-2/Tetherin Ectodomain Q8R2Q8 Q8R2Q8 1.601 X-RAY DIFFRACTION 117 1.0 10090 (Mus musculus) 10090 (Mus musculus) 87 95 CRDGLRAQAECRNTTHLLQRQLTRTQDSLLQAETQANSCNLTVVTLQESLEKKVSQALEQQARIKELENEVTKLNQELENLRIQKET ACRDGLRAQAECRNTTHLLQRQLTRTQDSLLQAETQANSCNLTVVTLQESLEKKVSQALEQQARIKELENEVTKLNQELENLRIQKETSSTVQVN 3ni3-a2-m1-cC_3ni3-a2-m1-cD 54-Membered ring macrocyclic beta-sheet peptide 1.34 X-RAY DIFFRACTION 15 1.0 7 7 3ni3-a1-m1-cA_3ni3-a1-m1-cB 3ni3-a3-m1-cE_3ni3-a3-m1-cF 3ni3-a4-m1-cG_3ni3-a4-m1-cH 3ni3-a5-m1-cI_3ni3-a5-m1-cJ 3ni3-a6-m1-cK_3ni3-a6-m1-cL TYFTYSK TYFTYSK 3ni7-a1-m1-cB_3ni7-a1-m1-cA Crystal structure of the TetR transcriptional regulator from Nitrosomonas europaea ATCC 19718 Q82XH4 Q82XH4 2.78 X-RAY DIFFRACTION 67 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 164 165 DPRDAIVDTAVELAAHTSWEAVRLYDIAARLAVSLDEIRLYFREKDELIDAWFDRADSRLKEAESAGFLDLVASERIHHLIIWLDALAVQRKVTRQISKLEHIHIQIPAVRVSRTVQWVREAAQRLEESTLTTIYLTFFFWRDESENSRHTRQFLKRHLTAAWL DPRDAIVDTAVELAAHTSWEAVRLYDIAARLAVSLDEIRLYFREKDELIDAWFDRADSRLKEAESAGFLDLVASERIHHLIIWLDALAVQRKVTRQISKLEHIHIQIPAVRVSRTVQWVREAAQRALEESTLTTIYLTFFFWRDESENSRHTRQFLKRHLTAAWL 3nib-a1-m1-cA_3nib-a1-m2-cA Teg14 Apo B7T1D9 B7T1D9 2.7 X-RAY DIFFRACTION 50 1.0 164851 (uncultured soil bacterium) 164851 (uncultured soil bacterium) 238 238 SMNGIRWIASYPKAGNTWLRCMLAAYITGKAPQTWKDMETVSLELEGMLHLGDMPPTEPTKPVLVKTHLKADVPVLGLYSEATAKVLYLVRNPRDILLSAMRDMESSRTFARDFIANEGLRGGAGLGSWPENVRIWTESSRDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGDPVDIEDIRRAVAACTLERMRELEKRSQQSLSFLGEDIESAYQELLHGDSEFAHYAKQYGYAG SMNGIRWIASYPKAGNTWLRCMLAAYITGKAPQTWKDMETVSLELEGMLHLGDMPPTEPTKPVLVKTHLKADVPVLGLYSEATAKVLYLVRNPRDILLSAMRDMESSRTFARDFIANEGLRGGAGLGSWPENVRIWTESSRDRFPNADVLTMRYEDLKGDPVARFSEIVEFLDLGDPVDIEDIRRAVAACTLERMRELEKRSQQSLSFLGEDIESAYQELLHGDSEFAHYAKQYGYAG 3nic-a2-m1-cD_3nic-a2-m1-cB DNA binding and cleavage by the GIY-YIG endonuclease R.Eco29kI inactive variant Y49F Q46944 Q46944 2.8 X-RAY DIFFRACTION 175 1.0 562 (Escherichia coli) 562 (Escherichia coli) 209 210 3mx4-a1-m1-cH_3mx4-a1-m1-cA 3mx4-a2-m1-cE_3mx4-a2-m1-cB 3mx4-a3-m1-cC_3mx4-a3-m1-cG 3mx4-a4-m1-cD_3mx4-a4-m1-cF 3nic-a1-m1-cH_3nic-a1-m1-cA 3nic-a3-m1-cC_3nic-a3-m1-cG 3nic-a4-m1-cE_3nic-a4-m1-cF HNKKFDRSEHVYRNDSFLELIKDAVRFFSGTPVHSLPPPERFQGAGVFALYYTGHYSLYDEYSRINRKAYNLPIYVGKAVPAGWRQSRISDHETRAGSELSNRIREHGRNIAKTSNLDLCDFSCRFVIFEATGSDMISTVEAALIKIYKPLWNTVVDGFGNHTPGAGRFAQAKSDWDVIHPGREWAEKCTGVHSEPYFIEERIKQYFSK HNKKFDRSEHVYRNDSFLELIKDAVRFFSGTPVHSLPPPERFQGAGVFALYYTGHYSLYDEYSRINRKAYNLPIYVGKAVPAGWRQSRISDHETRAGSELSNRIREHGRNIAKTSNLDLCDFSCRFVIFEATGSDMISTVEAALIKIYKPLWNTVVDGFGNHTPGAGRFAQAKSDWDVIHPGREWAEKCTGVHSEPYFIEERIKQYFSKS 3nie-a3-m1-cB_3nie-a3-m1-cA Crystal Structure of PF11_0147 Q7KQK7 Q7KQK7 2.3 X-RAY DIFFRACTION 95 0.984 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 367 369 AIIKNVKVPDNYEIKHLIGRGSYGYVYLAYDKNANKNVAIKKVNRMFEDLIDCKRILREITILNRLKSDYIIRLHDLIIPEDLLKFDELYIVLEIADSDLKKLFKTPIFLTEQHVKTILYNLLLGEKFIHESGIIHRDLKPANCLLNQDCSVKICDFGLARTITSHVVTRWYRAPELILLQENYTNSIDIWSTGCIFAELLNMMKSHINNPTNRFPLFPGSSCFPHEKSNRDQLNIIFNVIGTPPEEDLKTKQEVIKYIKLFPTRDGIDLSKKYSSISKEGIDLLESMLRFNAQKRITIDKALSHPYLKDVRKENLENFSTEKIILPFDDWMVLSETQLRYIFLKEIQSFHADLIIPAKLNIHQKSF LYFQGAIIKNVKVPDNYEIKHLIGRGSYGYVYLAYDKNANKNVAIKKVNRMFEDLIDCKRILREITILNRLKSDYIIRLHDLIIPEDLLKFDELYIVLEIADSDLKKLFKTPIFLTEQHVKTILYNLLLGEKFIHESGIIHRDLKPANCLLNQDCSVKICDFGLARTINTSHVVTRWYRAPELILLQENYTNSIDIWSTGCIFAELLNMMKSHINNPTNRFPLFPGSSCFPHEKSNRDQLNIIFNVIGTPPEEDLKCITKQEVIKYIKLFPTRDGIDLSKKYSSISKEGIDLLESMLRFNAQKRITIDKALSHPYLKDVRKENLENFSTEKIILPFDDWMVLSETQLRYIFLKEIQSFHADLIIPAKLN 3nio-a1-m1-cB_3nio-a1-m1-cF Crystal structure of Pseudomonas aeruginosa guanidinobutyrase Q9I3S3 Q9I3S3 2 X-RAY DIFFRACTION 52 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 309 309 3nio-a1-m1-cA_3nio-a1-m1-cD 3nio-a1-m1-cC_3nio-a1-m1-cE NLHQPLGGNEMPRFGGIATMMRLPHVQSPAELDALDAAFVGVPLDIGTSLRSGTRFGPREIRAESVMIRPYNMATGAAPFDSLNVADIGDVAINTFNLLEAVRIIEQEYDRILGHGILPLTLGGDHTITLPILRAIKHGVGLVHVDAHADVNDHMFGEIAHGTTFRRAVEEDLLDCDRVVQIGLRAQGYTAEDFNWSRQGFRVVQAEECWHSLEPLMAEVREVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVRR NLHQPLGGNEMPRFGGIATMMRLPHVQSPAELDALDAAFVGVPLDIGTSLRSGTRFGPREIRAESVMIRPYNMATGAAPFDSLNVADIGDVAINTFNLLEAVRIIEQEYDRILGHGILPLTLGGDHTITLPILRAIKHGVGLVHVDAHADVNDHMFGEIAHGTTFRRAVEEDLLDCDRVVQIGLRAQGYTAEDFNWSRQGFRVVQAEECWHSLEPLMAEVREVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVRR 3nio-a1-m1-cC_3nio-a1-m1-cF Crystal structure of Pseudomonas aeruginosa guanidinobutyrase Q9I3S3 Q9I3S3 2 X-RAY DIFFRACTION 46 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 309 309 3nio-a1-m1-cA_3nio-a1-m1-cE 3nio-a1-m1-cB_3nio-a1-m1-cD NLHQPLGGNEMPRFGGIATMMRLPHVQSPAELDALDAAFVGVPLDIGTSLRSGTRFGPREIRAESVMIRPYNMATGAAPFDSLNVADIGDVAINTFNLLEAVRIIEQEYDRILGHGILPLTLGGDHTITLPILRAIKHGVGLVHVDAHADVNDHMFGEIAHGTTFRRAVEEDLLDCDRVVQIGLRAQGYTAEDFNWSRQGFRVVQAEECWHSLEPLMAEVREVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVRR NLHQPLGGNEMPRFGGIATMMRLPHVQSPAELDALDAAFVGVPLDIGTSLRSGTRFGPREIRAESVMIRPYNMATGAAPFDSLNVADIGDVAINTFNLLEAVRIIEQEYDRILGHGILPLTLGGDHTITLPILRAIKHGVGLVHVDAHADVNDHMFGEIAHGTTFRRAVEEDLLDCDRVVQIGLRAQGYTAEDFNWSRQGFRVVQAEECWHSLEPLMAEVREVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVRR 3nio-a1-m1-cE_3nio-a1-m1-cF Crystal structure of Pseudomonas aeruginosa guanidinobutyrase Q9I3S3 Q9I3S3 2 X-RAY DIFFRACTION 64 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 309 309 3nio-a1-m1-cA_3nio-a1-m1-cB 3nio-a1-m1-cA_3nio-a1-m1-cC 3nio-a1-m1-cB_3nio-a1-m1-cC 3nio-a1-m1-cD_3nio-a1-m1-cE 3nio-a1-m1-cD_3nio-a1-m1-cF NLHQPLGGNEMPRFGGIATMMRLPHVQSPAELDALDAAFVGVPLDIGTSLRSGTRFGPREIRAESVMIRPYNMATGAAPFDSLNVADIGDVAINTFNLLEAVRIIEQEYDRILGHGILPLTLGGDHTITLPILRAIKHGVGLVHVDAHADVNDHMFGEIAHGTTFRRAVEEDLLDCDRVVQIGLRAQGYTAEDFNWSRQGFRVVQAEECWHSLEPLMAEVREVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVRR NLHQPLGGNEMPRFGGIATMMRLPHVQSPAELDALDAAFVGVPLDIGTSLRSGTRFGPREIRAESVMIRPYNMATGAAPFDSLNVADIGDVAINTFNLLEAVRIIEQEYDRILGHGILPLTLGGDHTITLPILRAIKHGVGLVHVDAHADVNDHMFGEIAHGTTFRRAVEEDLLDCDRVVQIGLRAQGYTAEDFNWSRQGFRVVQAEECWHSLEPLMAEVREVGGGPVYLSFDIDGIDPAWAPGTGTPEIGGLTTIQAMEIIRGCQGLDLIGCDLVEVSPPYDTTGNTSLLGANLLYEMLCVLPGVVRR 3niq-a1-m2-cB_3niq-a1-m3-cB Crystal structure of Pseudomonas aeruginosa guanidinopropionase Q9I6K2 Q9I6K2 2.07 X-RAY DIFFRACTION 81 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 313 313 3nip-a1-m1-cA_3nip-a1-m1-cD 3nip-a1-m1-cA_3nip-a1-m1-cF 3nip-a1-m1-cB_3nip-a1-m1-cC 3nip-a1-m1-cB_3nip-a1-m1-cE 3nip-a1-m1-cC_3nip-a1-m1-cE 3nip-a1-m1-cD_3nip-a1-m1-cF 3niq-a1-m1-cA_3niq-a1-m2-cA 3niq-a1-m1-cA_3niq-a1-m3-cA 3niq-a1-m1-cB_3niq-a1-m2-cB 3niq-a1-m1-cB_3niq-a1-m3-cB 3niq-a1-m2-cA_3niq-a1-m3-cA DHPQPLDAAEIPRFAGIPTFMRLPAFTDPAALQVGLIGVPWDGGTTNRAGARHGPREVRNLSSLMRKVHHVSRIAPYDLVRVGDLGDAPVNPIDLLDSLRRIEGFYRQVHAAGTLPLSVGGDHLVTLPIFRALGRERPLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEGLLDPLRTVQIGIRGSVYSPDDDAFARECGIRVIHMEEFVELGVEATLAEARRVVGAGPTYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFDVGGATALVGATMMFELLCLLAESAAR DHPQPLDAAEIPRFAGIPTFMRLPAFTDPAALQVGLIGVPWDGGTTNRAGARHGPREVRNLSSLMRKVHHVSRIAPYDLVRVGDLGDAPVNPIDLLDSLRRIEGFYRQVHAAGTLPLSVGGDHLVTLPIFRALGRERPLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEGLLDPLRTVQIGIRGSVYSPDDDAFARECGIRVIHMEEFVELGVEATLAEARRVVGAGPTYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFDVGGATALVGATMMFELLCLLAESAAR 3niq-a1-m3-cB_3niq-a1-m2-cA Crystal structure of Pseudomonas aeruginosa guanidinopropionase Q9I6K2 Q9I6K2 2.07 X-RAY DIFFRACTION 70 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 313 315 3nip-a1-m1-cA_3nip-a1-m1-cB 3nip-a1-m1-cC_3nip-a1-m1-cF 3nip-a1-m1-cD_3nip-a1-m1-cE 3niq-a1-m1-cB_3niq-a1-m3-cA 3niq-a1-m2-cB_3niq-a1-m1-cA DHPQPLDAAEIPRFAGIPTFMRLPAFTDPAALQVGLIGVPWDGGTTNRAGARHGPREVRNLSSLMRKVHHVSRIAPYDLVRVGDLGDAPVNPIDLLDSLRRIEGFYRQVHAAGTLPLSVGGDHLVTLPIFRALGRERPLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEGLLDPLRTVQIGIRGSVYSPDDDAFARECGIRVIHMEEFVELGVEATLAEARRVVGAGPTYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFDVGGATALVGATMMFELLCLLAESAAR DHPQPLDAAEIPRFAGIPTFMRLPAFTDPAALQVGLIGVPWDGGTTNRAGARHGPREVRNLSSLMRKVHHVSRIAPYDLVRVGDLGDAPVNPIDLLDSLRRIEGFYRQVHAAGTLPLSVGGDHLVTLPIFRALGRERPLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEGLLDPLRTVQIGIRGSVYSPDDDAFARECGIRVIHMEEFVELGVEATLAEARRVVGAGPTYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFDVGGATALVGATMMFELLCLLAESAARSA 3niq-a1-m3-cB_3niq-a1-m3-cA Crystal structure of Pseudomonas aeruginosa guanidinopropionase Q9I6K2 Q9I6K2 2.07 X-RAY DIFFRACTION 58 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 313 315 3nip-a1-m1-cA_3nip-a1-m1-cE 3nip-a1-m1-cB_3nip-a1-m1-cF 3nip-a1-m1-cC_3nip-a1-m1-cD 3niq-a1-m1-cB_3niq-a1-m1-cA 3niq-a1-m2-cB_3niq-a1-m2-cA DHPQPLDAAEIPRFAGIPTFMRLPAFTDPAALQVGLIGVPWDGGTTNRAGARHGPREVRNLSSLMRKVHHVSRIAPYDLVRVGDLGDAPVNPIDLLDSLRRIEGFYRQVHAAGTLPLSVGGDHLVTLPIFRALGRERPLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEGLLDPLRTVQIGIRGSVYSPDDDAFARECGIRVIHMEEFVELGVEATLAEARRVVGAGPTYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFDVGGATALVGATMMFELLCLLAESAAR DHPQPLDAAEIPRFAGIPTFMRLPAFTDPAALQVGLIGVPWDGGTTNRAGARHGPREVRNLSSLMRKVHHVSRIAPYDLVRVGDLGDAPVNPIDLLDSLRRIEGFYRQVHAAGTLPLSVGGDHLVTLPIFRALGRERPLGMVHFDAHSDTNDRYFGDNPYTHGTPFRRAIEEGLLDPLRTVQIGIRGSVYSPDDDAFARECGIRVIHMEEFVELGVEATLAEARRVVGAGPTYVSFDVDVLDPAFAPGTGTPEIGGMTSLQAQQLVRGLRGLDLVGADVVEVSPPFDVGGATALVGATMMFELLCLLAESAARSA 3niv-a1-m1-cB_3niv-a1-m1-cA The crystal structure of Glutathione S-transferase from Legionella pneumophila Q5ZT82 Q5ZT82 2.3 X-RAY DIFFRACTION 93 0.995 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 182 185 LILYDYFRSTACYRVRIALNLKKIAYEKIEVVPSLDINGQILSQSAIIDYLEEIHPEPLLPKDPFKATLKSALIVACDHPLNNLRVLNRLKEQFNANEEQVLEWYHHWLKTGFDAFEEKLGALERDKPVCFGSEVGLADVCLIPQVYNAHRFHFDASYPIINEINEYCLTLPAFHDAAPEAI ILYDYFRSTACYRVRIALNLKKIAYEKIEVHLLVPSLDINGQILSQSAIIDYLEEIHPEPLLPKDPFKATLKSALIVACDHPLNNLRVLNRLKEQFNANEEQVLEWYHHWLKTGFDAFEEKLGALERDKPVCFGSEVGLADVCLIPQVYNAHRFHFDASYPIINEINEYCLTLPAFHDAAPEAIS 3niz-a2-m1-cA_3niz-a2-m2-cA Cryptosporidium parvum cyclin-dependent kinase cgd5_2510 with ADP bound. Q5CRJ8 Q5CRJ8 2.4 X-RAY DIFFRACTION 49 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 288 288 YFQGLMEKYQKLEKVGEGTYGVVYKAKDSQGRIVALKRIRGIPSTAIREISLLKELHHPNIVSLIDVIHSERCLTLVFEFMEKDLKKVLDENKTGLQDSQIKIYLYQLLRGVAHCHQHRILHRDLKPQNLLINSDGALKLADFGLARAFGIPVRHEVVTLWYRAPDVLMGSKKYSTSVDIWSIGCIFAEMITGKPLFPGVTDDDQLPKIFSILGTPNPREWPQVQELPLWKQRTFQVFEKKPWSSIIPGFCQEGIDLLSNMLCFDPNKRISARDAMNHPYFKDLDPQI YFQGLMEKYQKLEKVGEGTYGVVYKAKDSQGRIVALKRIRGIPSTAIREISLLKELHHPNIVSLIDVIHSERCLTLVFEFMEKDLKKVLDENKTGLQDSQIKIYLYQLLRGVAHCHQHRILHRDLKPQNLLINSDGALKLADFGLARAFGIPVRHEVVTLWYRAPDVLMGSKKYSTSVDIWSIGCIFAEMITGKPLFPGVTDDDQLPKIFSILGTPNPREWPQVQELPLWKQRTFQVFEKKPWSSIIPGFCQEGIDLLSNMLCFDPNKRISARDAMNHPYFKDLDPQI 3nj2-a1-m1-cA_3nj2-a1-m1-cB Crystal structure of cce_0566 from the cyanobacterium Cyanothece 51142, a protein associated with nitrogen fixation from the DUF269 family B1WPD5 B1WPD5 1.59 X-RAY DIFFRACTION 52 1.0 43989 (Crocosphaera subtropica ATCC 51142) 43989 (Crocosphaera subtropica ATCC 51142) 151 152 SETNTLLVEQSPFLQSLVQQIRAYDHYGVYRTWTDELVIAPYVIPKKKRREISLEGDIDPTTKLRILCYFRAIAALIEKETGLLCQVVVDLNHEGFGWALVWGGKLMVVSRSLRDAHRFGFDTLEKLNDQGTKLANAGIELVNKFPEVARL NSETNTLLVEQSPFLQSLVQQIRAYDHYGVYRTWTDELVIAPYVIPKKKRREISLEGDIDPTTKLRILCYFRAIAALIEKETGLLCQVVVDLNHEGFGWALVWGGKLMVVSRSLRDAHRFGFDTLEKLNDQGTKLANAGIELVNKFPEVARL 3nja-a3-m3-cD_3nja-a3-m1-cC The crystal structure of the PAS domain of a GGDEF family protein from Chromobacterium violaceum ATCC 12472. Q7NXP4 Q7NXP4 2.368 X-RAY DIFFRACTION 12 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 103 106 3nja-a1-m1-cA_3nja-a1-m2-cB 3nja-a1-m2-cA_3nja-a1-m1-cB 3nja-a3-m1-cD_3nja-a3-m3-cC IGSWVLHESGRLEWSQAVHDIFGTDSATFDATEDAYFQRVHPDDRARVRRELDRHVLGDRPFDVEYRIVRPDGQVRELLERNHIQRQASGQVDHLWGTVIDTE AGIGSWVLHESGRLEWSQAVHDIFGTDSATFDATEDAYFQRVHPDDRARVRRELDRHVLGDRPFDVEYRIVRPDGQVRELLERNHIQRQASGQVDHLWGTVIDTEH 3nja-a4-m1-cD_3nja-a4-m1-cC The crystal structure of the PAS domain of a GGDEF family protein from Chromobacterium violaceum ATCC 12472. Q7NXP4 Q7NXP4 2.368 X-RAY DIFFRACTION 150 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 103 106 3nja-a1-m1-cA_3nja-a1-m1-cB 3nja-a1-m2-cA_3nja-a1-m2-cB 3nja-a2-m1-cA_3nja-a2-m1-cB 3nja-a3-m1-cD_3nja-a3-m1-cC 3nja-a3-m3-cD_3nja-a3-m3-cC IGSWVLHESGRLEWSQAVHDIFGTDSATFDATEDAYFQRVHPDDRARVRRELDRHVLGDRPFDVEYRIVRPDGQVRELLERNHIQRQASGQVDHLWGTVIDTE AGIGSWVLHESGRLEWSQAVHDIFGTDSATFDATEDAYFQRVHPDDRARVRRELDRHVLGDRPFDVEYRIVRPDGQVRELLERNHIQRQASGQVDHLWGTVIDTEH 3njc-a1-m1-cB_3njc-a1-m1-cA Crystal structure of the yslB protein from Bacillus subtilis. Northeast Structural Genomics Consortium Target SR460. P42955 P42955 1.693 X-RAY DIFFRACTION 128 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 140 146 HSHKSKFEASIDNLKEIENAYAYELIREIVLPDLGQDYSSYWAGKHLARKFPLESWEEFPAFFEEAGWGTLTNVSAKKQELEFELEGPIISNRLKHQKEPCFQLEAGFIAEQIQLNDQIAESYEQVKKRADKVVLTVKWD HHHHHHSHKSKFEASIDNLKEIENAYAYELIREIVLPDLGQDYSSYWAGKHLARKFPLESWEEFPAFFEEAGWGTLTNVSAKKQELEFELEGPIISNRLKHQKEPCFQLEAGFIAEQIQLNDQIAESYEQVKKRADKVVLTVKWDK 3njd-a2-m2-cA_3njd-a2-m3-cB Crystal structure of enoyl-coa hydratase from mycobacterium smegmatis A0QS86 A0QS86 1.75 X-RAY DIFFRACTION 39 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 290 292 3njd-a2-m1-cA_3njd-a2-m2-cB 3njd-a2-m3-cA_3njd-a2-m1-cB VDFDNLKTMTYEVTDRVARITFNRPEKGNAIVADTPLELSALVERADLDPDVHVILVSGRGEGFCAGFDPYEGTVLSGKTQALNHLPDEPWDPMVDYQMMSRFVRGFASLMHCDKPTVVKIHGYCVAGGTDIALHADQVIAAADAKIGYPPMRVWGVPAAGLWAHRLGDQRAKRLLFTGDCITGAQAAEWGLAVEAPDPADLDARTERLVERIAAMPVNQLIMAKLACNTALLNQGVATSQMVSTVFDGIARHTPEGHAFVATAREHGFREAVRRRDEPMGDHGRRASDV PVDFDNLKTMTYEVTDRVARITFNRPEKGNAIVADTPLELSALVERADLDPDVHVILVSGRGEGFCAGFDLPYEGTVLSGKTQALNHLPDEPWDPMVDYQMMSRFVRGFASLMHCDKPTVVKIHGYCVAGGTDIALHADQVIAAADAKIGYPPMRVWGVPAAGLWAHRLGDQRAKRLLFTGDCITGAQAAEWGLAVEAPDPADLDARTERLVERIAAMPVNQLIMAKLACNTALLNQGVATSQMVSTVFDGIARHTPEGHAFVATAREHGFREAVRRRDEPMGDHGRRASDV 3njd-a2-m3-cA_3njd-a2-m3-cB Crystal structure of enoyl-coa hydratase from mycobacterium smegmatis A0QS86 A0QS86 1.75 X-RAY DIFFRACTION 78 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 290 292 3njb-a1-m1-cA_3njb-a1-m1-cB 3njd-a1-m1-cA_3njd-a1-m1-cB 3njd-a2-m1-cA_3njd-a2-m1-cB 3njd-a2-m2-cA_3njd-a2-m2-cB VDFDNLKTMTYEVTDRVARITFNRPEKGNAIVADTPLELSALVERADLDPDVHVILVSGRGEGFCAGFDPYEGTVLSGKTQALNHLPDEPWDPMVDYQMMSRFVRGFASLMHCDKPTVVKIHGYCVAGGTDIALHADQVIAAADAKIGYPPMRVWGVPAAGLWAHRLGDQRAKRLLFTGDCITGAQAAEWGLAVEAPDPADLDARTERLVERIAAMPVNQLIMAKLACNTALLNQGVATSQMVSTVFDGIARHTPEGHAFVATAREHGFREAVRRRDEPMGDHGRRASDV PVDFDNLKTMTYEVTDRVARITFNRPEKGNAIVADTPLELSALVERADLDPDVHVILVSGRGEGFCAGFDLPYEGTVLSGKTQALNHLPDEPWDPMVDYQMMSRFVRGFASLMHCDKPTVVKIHGYCVAGGTDIALHADQVIAAADAKIGYPPMRVWGVPAAGLWAHRLGDQRAKRLLFTGDCITGAQAAEWGLAVEAPDPADLDARTERLVERIAAMPVNQLIMAKLACNTALLNQGVATSQMVSTVFDGIARHTPEGHAFVATAREHGFREAVRRRDEPMGDHGRRASDV 3njd-a3-m2-cA_3njd-a3-m3-cA Crystal structure of enoyl-coa hydratase from mycobacterium smegmatis A0QS86 A0QS86 1.75 X-RAY DIFFRACTION 99 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 290 290 3njd-a2-m1-cA_3njd-a2-m2-cA 3njd-a2-m1-cA_3njd-a2-m3-cA 3njd-a2-m1-cB_3njd-a2-m2-cB 3njd-a2-m1-cB_3njd-a2-m3-cB 3njd-a2-m2-cA_3njd-a2-m3-cA 3njd-a2-m2-cB_3njd-a2-m3-cB 3njd-a3-m1-cA_3njd-a3-m2-cA 3njd-a3-m1-cA_3njd-a3-m3-cA VDFDNLKTMTYEVTDRVARITFNRPEKGNAIVADTPLELSALVERADLDPDVHVILVSGRGEGFCAGFDPYEGTVLSGKTQALNHLPDEPWDPMVDYQMMSRFVRGFASLMHCDKPTVVKIHGYCVAGGTDIALHADQVIAAADAKIGYPPMRVWGVPAAGLWAHRLGDQRAKRLLFTGDCITGAQAAEWGLAVEAPDPADLDARTERLVERIAAMPVNQLIMAKLACNTALLNQGVATSQMVSTVFDGIARHTPEGHAFVATAREHGFREAVRRRDEPMGDHGRRASDV VDFDNLKTMTYEVTDRVARITFNRPEKGNAIVADTPLELSALVERADLDPDVHVILVSGRGEGFCAGFDPYEGTVLSGKTQALNHLPDEPWDPMVDYQMMSRFVRGFASLMHCDKPTVVKIHGYCVAGGTDIALHADQVIAAADAKIGYPPMRVWGVPAAGLWAHRLGDQRAKRLLFTGDCITGAQAAEWGLAVEAPDPADLDARTERLVERIAAMPVNQLIMAKLACNTALLNQGVATSQMVSTVFDGIARHTPEGHAFVATAREHGFREAVRRRDEPMGDHGRRASDV 3njj-a2-m1-cA_3njj-a2-m4-cA P115A mutant of SO1698 protein, an aspartic peptidase from Shewanella oneidensis Q8EGA7 Q8EGA7 1.56 X-RAY DIFFRACTION 103 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 111 111 3n55-a1-m1-cA_3n55-a1-m4-cA 3n55-a1-m2-cA_3n55-a1-m6-cA 3n55-a1-m3-cA_3n55-a1-m5-cA 3n55-a2-m1-cA_3n55-a2-m4-cA 3n55-a5-m1-cA_3n55-a5-m4-cA 3n55-a5-m2-cA_3n55-a5-m6-cA 3n55-a5-m3-cA_3n55-a5-m5-cA 3n55-a6-m1-cA_3n55-a6-m4-cA 3njf-a1-m1-cA_3njf-a1-m3-cC 3njf-a1-m1-cC_3njf-a1-m2-cA 3njf-a1-m2-cC_3njf-a1-m3-cA 3njf-a4-m1-cA_3njf-a4-m3-cC 3njf-a4-m1-cC_3njf-a4-m2-cA 3njf-a4-m2-cC_3njf-a4-m3-cA 3njg-a1-m1-cA_3njg-a1-m5-cA 3njg-a1-m2-cA_3njg-a1-m4-cA 3njg-a1-m3-cA_3njg-a1-m6-cA 3njg-a2-m1-cA_3njg-a2-m5-cA 3njg-a5-m1-cA_3njg-a5-m5-cA 3njg-a5-m2-cA_3njg-a5-m4-cA 3njg-a5-m3-cA_3njg-a5-m6-cA 3njh-a1-m1-cA_3njh-a1-m1-cB 3njh-a2-m1-cC_3njh-a2-m1-cD 3njh-a2-m2-cC_3njh-a2-m2-cD 3njh-a2-m3-cC_3njh-a2-m3-cD 3njh-a3-m1-cC_3njh-a3-m1-cD 3njj-a1-m1-cA_3njj-a1-m4-cA 3njj-a1-m2-cA_3njj-a1-m6-cA 3njj-a1-m3-cA_3njj-a1-m5-cA 3njk-a1-m1-cA_3njk-a1-m4-cA 3njk-a1-m2-cA_3njk-a1-m6-cA 3njk-a1-m3-cA_3njk-a1-m5-cA 3njk-a2-m1-cA_3njk-a2-m4-cA 3njl-a1-m1-cA_3njl-a1-m4-cA 3njl-a1-m2-cA_3njl-a1-m6-cA 3njl-a1-m3-cA_3njl-a1-m5-cA 3njl-a2-m1-cA_3njl-a2-m4-cA 3njm-a1-m1-cA_3njm-a1-m6-cA 3njm-a1-m2-cA_3njm-a1-m5-cA 3njm-a1-m3-cA_3njm-a1-m4-cA 3njm-a2-m1-cA_3njm-a2-m6-cA 3njn-a1-m1-cA_3njn-a1-m1-cC 3njn-a1-m2-cA_3njn-a1-m2-cC 3njn-a1-m3-cA_3njn-a1-m3-cC 3njn-a2-m1-cA_3njn-a2-m1-cC GLAQFIKVNVTLENGEPVFIYTDANGQVCQGDITVTQAGTITYLLNDQTLKGLKFVGVGFVTPFDGIIDAVTISSDGMLVQLVDLDKTPGTTKFQFVLSNTANTLLVLSAD GLAQFIKVNVTLENGEPVFIYTDANGQVCQGDITVTQAGTITYLLNDQTLKGLKFVGVGFVTPFDGIIDAVTISSDGMLVQLVDLDKTPGTTKFQFVLSNTANTLLVLSAD 3njj-a3-m1-cA_3njj-a3-m6-cA P115A mutant of SO1698 protein, an aspartic peptidase from Shewanella oneidensis Q8EGA7 Q8EGA7 1.56 X-RAY DIFFRACTION 62 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 111 111 3n55-a1-m1-cA_3n55-a1-m6-cA 3n55-a1-m2-cA_3n55-a1-m5-cA 3n55-a1-m3-cA_3n55-a1-m4-cA 3n55-a3-m1-cA_3n55-a3-m6-cA 3n55-a5-m1-cA_3n55-a5-m6-cA 3n55-a5-m2-cA_3n55-a5-m5-cA 3n55-a5-m3-cA_3n55-a5-m4-cA 3n55-a7-m1-cA_3n55-a7-m6-cA 3njf-a1-m1-cA_3njf-a1-m1-cC 3njf-a1-m2-cA_3njf-a1-m2-cC 3njf-a1-m3-cA_3njf-a1-m3-cC 3njf-a2-m1-cA_3njf-a2-m1-cC 3njf-a4-m1-cA_3njf-a4-m1-cC 3njf-a4-m2-cA_3njf-a4-m2-cC 3njf-a4-m3-cA_3njf-a4-m3-cC 3njg-a1-m1-cA_3njg-a1-m6-cA 3njg-a1-m2-cA_3njg-a1-m5-cA 3njg-a1-m3-cA_3njg-a1-m4-cA 3njg-a3-m1-cA_3njg-a3-m6-cA 3njg-a5-m1-cA_3njg-a5-m6-cA 3njg-a5-m2-cA_3njg-a5-m5-cA 3njg-a5-m3-cA_3njg-a5-m4-cA 3njh-a2-m1-cC_3njh-a2-m2-cD 3njh-a2-m2-cC_3njh-a2-m3-cD 3njh-a2-m3-cC_3njh-a2-m1-cD 3njj-a1-m1-cA_3njj-a1-m6-cA 3njj-a1-m2-cA_3njj-a1-m5-cA 3njj-a1-m3-cA_3njj-a1-m4-cA 3njk-a1-m1-cA_3njk-a1-m5-cA 3njk-a1-m2-cA_3njk-a1-m4-cA 3njk-a1-m3-cA_3njk-a1-m6-cA 3njk-a3-m1-cA_3njk-a3-m5-cA 3njl-a1-m1-cA_3njl-a1-m6-cA 3njl-a1-m2-cA_3njl-a1-m5-cA 3njl-a1-m3-cA_3njl-a1-m4-cA 3njl-a3-m1-cA_3njl-a3-m6-cA 3njm-a1-m1-cA_3njm-a1-m4-cA 3njm-a1-m2-cA_3njm-a1-m6-cA 3njm-a1-m3-cA_3njm-a1-m5-cA 3njm-a3-m1-cA_3njm-a3-m4-cA 3njn-a1-m1-cA_3njn-a1-m2-cC 3njn-a1-m1-cC_3njn-a1-m3-cA 3njn-a1-m2-cA_3njn-a1-m3-cC 3njn-a3-m1-cC_3njn-a3-m3-cA GLAQFIKVNVTLENGEPVFIYTDANGQVCQGDITVTQAGTITYLLNDQTLKGLKFVGVGFVTPFDGIIDAVTISSDGMLVQLVDLDKTPGTTKFQFVLSNTANTLLVLSAD GLAQFIKVNVTLENGEPVFIYTDANGQVCQGDITVTQAGTITYLLNDQTLKGLKFVGVGFVTPFDGIIDAVTISSDGMLVQLVDLDKTPGTTKFQFVLSNTANTLLVLSAD 3njq-a2-m5-cB_3njq-a2-m5-cA Crystal structure of Kaposi's sarcoma-associated herpesvirus protease in complex with dimer disruptor P88911 P88911 2 X-RAY DIFFRACTION 62 0.984 435895 (Human herpesvirus 8 type M) 435895 (Human herpesvirus 8 type M) 187 189 3njq-a2-m1-cB_3njq-a2-m1-cA 3njq-a2-m3-cB_3njq-a2-m3-cA 3njq-a2-m4-cB_3njq-a2-m4-cA GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPREPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSRLEDLSTPNFVSPLETL GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPRELSQTPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPL 3njq-a3-m3-cB_3njq-a3-m5-cB Crystal structure of Kaposi's sarcoma-associated herpesvirus protease in complex with dimer disruptor P88911 P88911 2 X-RAY DIFFRACTION 56 1.0 435895 (Human herpesvirus 8 type M) 435895 (Human herpesvirus 8 type M) 187 187 3njq-a2-m1-cB_3njq-a2-m4-cB 3njq-a2-m3-cB_3njq-a2-m5-cB 3njq-a3-m1-cB_3njq-a3-m4-cB 4p2t-a3-m3-cB_4p2t-a3-m4-cB 4p3h-a3-m3-cB_4p3h-a3-m4-cB GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPREPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSRLEDLSTPNFVSPLETL GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPREPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSRLEDLSTPNFVSPLETL 3njq-a3-m3-cB_3njq-a3-m8-cA Crystal structure of Kaposi's sarcoma-associated herpesvirus protease in complex with dimer disruptor P88911 P88911 2 X-RAY DIFFRACTION 35 0.984 435895 (Human herpesvirus 8 type M) 435895 (Human herpesvirus 8 type M) 187 189 3njq-a1-m1-cB_3njq-a1-m2-cA 3njq-a3-m1-cB_3njq-a3-m2-cA 3njq-a3-m4-cB_3njq-a3-m7-cA 3njq-a3-m5-cB_3njq-a3-m6-cA 4p2t-a3-m3-cB_4p2t-a3-m2-cA 4p2t-a3-m4-cB_4p2t-a3-m1-cA 4p3h-a3-m3-cB_4p3h-a3-m2-cA 4p3h-a3-m4-cB_4p3h-a3-m1-cA GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPREPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSRLEDLSTPNFVSPLETL GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPRELSQTPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPL 3njq-a3-m5-cB_3njq-a3-m8-cA Crystal structure of Kaposi's sarcoma-associated herpesvirus protease in complex with dimer disruptor P88911 P88911 2 X-RAY DIFFRACTION 54 0.984 435895 (Human herpesvirus 8 type M) 435895 (Human herpesvirus 8 type M) 187 189 3njq-a3-m1-cB_3njq-a3-m7-cA 3njq-a3-m3-cB_3njq-a3-m6-cA 3njq-a3-m4-cB_3njq-a3-m2-cA 4p2t-a3-m3-cB_4p2t-a3-m1-cA 4p2t-a3-m4-cB_4p2t-a3-m2-cA 4p3h-a3-m3-cB_4p3h-a3-m1-cA 4p3h-a3-m4-cB_4p3h-a3-m2-cA GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPREPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSRLEDLSTPNFVSPLETL GLYVGGFVDVVSPKLEQELYLDPDQVTDYLPVTEPLPITIEHLPETEVGWTLGLFQVSHGIFCTGAITSPAFLELASRLADTSHVARAPVKNLPKEPLLEILHTWLPGLSLSSIHPRELSQTPSGPVFQHVSLCALGRRRGTVAVYGHDAEWVVSRFSSVSKSERAHILQHVSSCRLEDLSTPNFVSPL 3njr-a1-m1-cA_3njr-a1-m2-cB Crystal structure of C-terminal domain of precorrin-6Y C5,15-methyltransferase from Rhodobacter capsulatus D5AV04 D5AV04 2.7 X-RAY DIFFRACTION 12 1.0 272942 (Rhodobacter capsulatus SB 1003) 272942 (Rhodobacter capsulatus SB 1003) 184 184 3njr-a1-m1-cB_3njr-a1-m2-cA MSQVPGRPESAFAHDGQITKSPMRALTLAALAPRRGELLWDIGGGSGSVSVEWCLAGGRAITIEPRADRIENIQKNIDTYGLSPRMRAVQGTAPAALADLPLPEAVFIGGGGSQALYDRLWEWLAPGTRIVANAVTLESETLLTQLHARHGGQLLRIDIAQAEPLGRMRGWSASRPQLQWSGQR MSQVPGRPESAFAHDGQITKSPMRALTLAALAPRRGELLWDIGGGSGSVSVEWCLAGGRAITIEPRADRIENIQKNIDTYGLSPRMRAVQGTAPAALADLPLPEAVFIGGGGSQALYDRLWEWLAPGTRIVANAVTLESETLLTQLHARHGGQLLRIDIAQAEPLGRMRGWSASRPQLQWSGQR 3njr-a1-m1-cB_3njr-a1-m2-cB Crystal structure of C-terminal domain of precorrin-6Y C5,15-methyltransferase from Rhodobacter capsulatus D5AV04 D5AV04 2.7 X-RAY DIFFRACTION 38 1.0 272942 (Rhodobacter capsulatus SB 1003) 272942 (Rhodobacter capsulatus SB 1003) 184 184 3njr-a1-m1-cA_3njr-a1-m2-cA MSQVPGRPESAFAHDGQITKSPMRALTLAALAPRRGELLWDIGGGSGSVSVEWCLAGGRAITIEPRADRIENIQKNIDTYGLSPRMRAVQGTAPAALADLPLPEAVFIGGGGSQALYDRLWEWLAPGTRIVANAVTLESETLLTQLHARHGGQLLRIDIAQAEPLGRMRGWSASRPQLQWSGQR MSQVPGRPESAFAHDGQITKSPMRALTLAALAPRRGELLWDIGGGSGSVSVEWCLAGGRAITIEPRADRIENIQKNIDTYGLSPRMRAVQGTAPAALADLPLPEAVFIGGGGSQALYDRLWEWLAPGTRIVANAVTLESETLLTQLHARHGGQLLRIDIAQAEPLGRMRGWSASRPQLQWSGQR 3njr-a2-m1-cA_3njr-a2-m1-cB Crystal structure of C-terminal domain of precorrin-6Y C5,15-methyltransferase from Rhodobacter capsulatus D5AV04 D5AV04 2.7 X-RAY DIFFRACTION 111 1.0 272942 (Rhodobacter capsulatus SB 1003) 272942 (Rhodobacter capsulatus SB 1003) 184 184 3njr-a1-m1-cA_3njr-a1-m1-cB 3njr-a1-m2-cA_3njr-a1-m2-cB MSQVPGRPESAFAHDGQITKSPMRALTLAALAPRRGELLWDIGGGSGSVSVEWCLAGGRAITIEPRADRIENIQKNIDTYGLSPRMRAVQGTAPAALADLPLPEAVFIGGGGSQALYDRLWEWLAPGTRIVANAVTLESETLLTQLHARHGGQLLRIDIAQAEPLGRMRGWSASRPQLQWSGQR MSQVPGRPESAFAHDGQITKSPMRALTLAALAPRRGELLWDIGGGSGSVSVEWCLAGGRAITIEPRADRIENIQKNIDTYGLSPRMRAVQGTAPAALADLPLPEAVFIGGGGSQALYDRLWEWLAPGTRIVANAVTLESETLLTQLHARHGGQLLRIDIAQAEPLGRMRGWSASRPQLQWSGQR 3nk4-a1-m1-cB_3nk4-a1-m1-cA Crystal structure of full-length sperm receptor ZP3 at 2.0 A resolution P79762 P79762 2 X-RAY DIFFRACTION 72 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 268 277 3nk3-a1-m1-cB_3nk3-a1-m1-cA TPVAVQCQEAQLVVTVHRDLFGTGRLINAADLTLGPAACKHSSLNAAHNTVTFAAGLHECGSVVQVTPDTLIYRTLINYDPSPASNPVIIRTNPAVIPIECHYPRRLVFSLRLMSDDWSTERPFTGFQLGDILNIQAEVSTENHVPLRLFVDSCVAALSPDGDSSPHYAIIDFNGCLVDGRVDDTSSAFITPRPREDVLRFRIDVFRFAGDNRNLIYITCHLKVTPADQGPDPQNKACSFNKARNTWVPVEGSRDVCNCCETGNCEPP YTPVAVQCQEAQLVVTVHRDLFGTGRLINAADLTLGPAACKHSSLNAAHNTVTFAAGLHECGSVVQVTPDTLIYRTLINYDPSPASNPVIIRTNPAVIPIECHYPRPTWSPFNERLVFSLRLMSDDWSTERPFTGFQLGDILNIQAEVSTENHVPLRLFVDSCVAALSPDGDSSPHYAIIDFNGCLVDGRVDDTSSAFITPRPREDVLRFRIDVFRFAGDNRNLIYITCHLKVTPADQGPDPQNKACSFNKARNTWVPVEGSRDVCNCCETGNCEPP 3nk6-a1-m1-cB_3nk6-a1-m1-cA Structure of the Nosiheptide-resistance methyltransferase P52391 P52391 2 X-RAY DIFFRACTION 75 0.992 1885 (Streptomyces actuosus) 1885 (Streptomyces actuosus) 257 264 IITNASDPAVQRIIDVTKASIKTTLIEDTEPLMECIRAGVQFIEVYGSSGTPLDPALLDLCRQREIPVRLIDVSIVNQLFAKVFGIARVPRPARLADIAERGGDVVVLDGVKIVGNIGAIVRTSLALGAAGIVLVDSDLATIADRRLLRASRGYVFSLPVVLADREEAVSFLRDNDIALMVLDTDGDLGVKDLGDRADRMALVFGSEGGPSGLFQEASAGTVSIPMLSSTESLNVSVSVGIALHERSARNFAVRRAA TEPAIITNASDPAVQRIIDVTKHSKTTLIEDTEPLMECIRAGVQFIEVYGSSGTPLDPALLDLCRQREIPVRLIDVSIVNQLFAKVFGIARVPRPARLADIAERGGDVVVLDGVKIVGNIGAIVRTSLALGAAGIVLVDSDLATIADRRLLRASRGYVFSLPVVLADREEAVSFLRDNDIALMVLDTDGDLGVKDLGDRADRMALVFGSEKGGPSGLFQEASAGTVSIPMLSSTESLNVSVSVGIALHERSARNFAVRRAAAQA 3nkh-a1-m1-cA_3nkh-a1-m1-cB Crystal Structure of Integrase from MRSA strain Staphylococcus aureus 2.502 X-RAY DIFFRACTION 67 1.0 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 212 216 QSNAYLELNEIESIIKDINTKAQKHSGIHKRFYLFVALTEFQALNGRIGELAIQNEDIDFDNKSLNINGTIHWFHDESGGFGVKDTTSSYRTIGLSSRSCEILKKAILENKKDSKWNDGYLNRNFVFTNHKGNPQTERFNKILREAAKDVGIDKEVSSHILRHSHISLLSQQGVSLKAIDRVGHSDHRTTLSIYSHVTEQDKDNKLEQVKLG FQSNAYLELNEIESIIKDINTKAQKHSGIHKRFYLFVALTEFQALNGRIGELAIQNEDIDFDNKSLNINGTIHWFHDESGGFGVKDTTKTESSYRTIGLSSRSCEILKKAILENKKDSKWNDGYLNRNFVFTNHKGNPQTERFNKILREAAKDVGIDKEVSSHILRHSHISLLSQQGVSLKAIDRVGHSDHRTTLSIYSHVTEQDKDNKLEQVKLG 3nkl-a1-m1-cA_3nkl-a1-m1-cB Crystal Structure of UDP-D-Quinovosamine 4-Dehydrogenase from Vibrio fischeri Q5E8F4 Q5E8F4 1.9 X-RAY DIFFRACTION 46 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 120 121 AKKKVLIYGAGSAGLQLANLRQGKEFHPIAFIDDDRKKHKTTQGITIYRPKYLERLIKKHCISTVLLAVPSASQVQKKVIIESLAKLHVEVLTIPNLDDLVNGKLSIGQLKEVSIDDLLG AKKKVLIYGAGSAGLQLANLRQGKEFHPIAFIDDDRKKHKTTQGITIYRPKYLERLIKKHCISTVLLAVPSASQVQKKVIIESLAKLHVEVLTIPNLDDLVNGKLSIGQLKEVSIDDLLGR 3nks-a2-m1-cA_3nks-a2-m2-cA Structure of human protoporphyrinogen IX oxidase P50336 P50336 1.9 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 465 465 4ivm-a2-m1-cB_4ivm-a2-m2-cB 4ivo-a2-m1-cB_4ivo-a2-m2-cB GRTVVVLGGGISGLAASYHLSRAPCPPKVVLVESSERLGGWIRSVRGPNGAIFELGPRGIRPAGALGARTLLLVSELGLDSEVLPVRGDHPAAQNRFLYVGGALHALPTGLRGPSPPFSKPLFWAGLRELTKPRGKEPDETVHSFAQRRLGPEVASLAMDSLCRGVFAGNSRELSIRSCFPSLFQAEQTHRSILLGLLLGQPDSALIRQALAERWSQWSLRGGLEMLPQALETHLTSRGVSVLRGQPVCGLSLQAEGRWKVSLRDSSLEADHVISAIPASVLSELLPAEAAPLARALSAITAVSVAVVNLQYQGAHLPVQGFGHLVPSSEDPGVLGIVYDSVAFPEQDGSPPGLRVTVMLGGSWLQTLEASGCVLSQELFQQRAQEAAATQLGLKEMPSHCLVHLHKNCIPQYTLGHWQKLESARQFLTAHRLPLTLAGASYEGVAVNDCIESGRQAAVSVLGTE GRTVVVLGGGISGLAASYHLSRAPCPPKVVLVESSERLGGWIRSVRGPNGAIFELGPRGIRPAGALGARTLLLVSELGLDSEVLPVRGDHPAAQNRFLYVGGALHALPTGLRGPSPPFSKPLFWAGLRELTKPRGKEPDETVHSFAQRRLGPEVASLAMDSLCRGVFAGNSRELSIRSCFPSLFQAEQTHRSILLGLLLGQPDSALIRQALAERWSQWSLRGGLEMLPQALETHLTSRGVSVLRGQPVCGLSLQAEGRWKVSLRDSSLEADHVISAIPASVLSELLPAEAAPLARALSAITAVSVAVVNLQYQGAHLPVQGFGHLVPSSEDPGVLGIVYDSVAFPEQDGSPPGLRVTVMLGGSWLQTLEASGCVLSQELFQQRAQEAAATQLGLKEMPSHCLVHLHKNCIPQYTLGHWQKLESARQFLTAHRLPLTLAGASYEGVAVNDCIESGRQAAVSVLGTE 3nkz-a1-m1-cC_3nkz-a1-m1-cA The crystal structure of a flagella protein from Yersinia enterocolitica subsp. enterocolitica 8081 A1JSR8 A1JSR8 2.112 X-RAY DIFFRACTION 25 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 91 93 SNAERHQHLLSEYQQILTLSEQLVLATEGNWDALVDLETYLKAVESTANITISSCSSLLQDLLREKLRAILDNEIEIKRLLQLRLDRLSDL SNAERHQHLLSEYQQILTLSEQLVLATEGNWDALVDLETYLKAVESTANITISSCSSLLQDLLREKLRAILDNEIEIKRLLQLRLDRLSDLVG 3nkz-a1-m1-cD_3nkz-a1-m1-cA The crystal structure of a flagella protein from Yersinia enterocolitica subsp. enterocolitica 8081 A1JSR8 A1JSR8 2.112 X-RAY DIFFRACTION 12 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 92 93 SNAERHQHLLSEYQQILTLSEQLVLATEGNWDALVDLETYLKAVESTANITISSCSSLLQDLLREKLRAILDNEIEIKRLLQLRLDRLSDLV SNAERHQHLLSEYQQILTLSEQLVLATEGNWDALVDLETYLKAVESTANITISSCSSLLQDLLREKLRAILDNEIEIKRLLQLRLDRLSDLVG 3nkz-a3-m1-cC_3nkz-a3-m1-cD The crystal structure of a flagella protein from Yersinia enterocolitica subsp. enterocolitica 8081 A1JSR8 A1JSR8 2.112 X-RAY DIFFRACTION 104 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 91 92 3nkz-a1-m1-cA_3nkz-a1-m1-cB 3nkz-a1-m1-cC_3nkz-a1-m1-cD 3nkz-a2-m1-cA_3nkz-a2-m1-cB SNAERHQHLLSEYQQILTLSEQLVLATEGNWDALVDLETYLKAVESTANITISSCSSLLQDLLREKLRAILDNEIEIKRLLQLRLDRLSDL SNAERHQHLLSEYQQILTLSEQLVLATEGNWDALVDLETYLKAVESTANITISSCSSLLQDLLREKLRAILDNEIEIKRLLQLRLDRLSDLV 3nl2-a1-m1-cD_3nl2-a1-m1-cE The Crystal Structure of Candida glabrata THI6, a Bifunctional Enzyme involved in Thiamin Biosyhthesis of Eukaryotes Q6FV03 Q6FV03 3.08 X-RAY DIFFRACTION 57 0.996 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 501 503 3nl2-a1-m1-cA_3nl2-a1-m1-cB 3nl2-a1-m1-cC_3nl2-a1-m1-cA 3nl2-a1-m1-cC_3nl2-a1-m1-cB 3nl2-a1-m1-cF_3nl2-a1-m1-cD 3nl2-a1-m1-cF_3nl2-a1-m1-cE 3nl3-a1-m1-cB_3nl3-a1-m1-cC 3nl3-a1-m1-cB_3nl3-a1-m1-cD 3nl3-a1-m1-cD_3nl3-a1-m1-cC 3nl3-a1-m1-cE_3nl3-a1-m1-cA 3nl3-a1-m1-cE_3nl3-a1-m1-cF 3nl3-a1-m1-cF_3nl3-a1-m1-cA 3nl5-a1-m1-cB_3nl5-a1-m1-cA 3nl5-a1-m1-cB_3nl5-a1-m1-cC 3nl5-a1-m1-cC_3nl5-a1-m1-cA 3nl5-a1-m2-cB_3nl5-a1-m2-cA 3nl5-a1-m2-cB_3nl5-a1-m2-cC 3nl5-a1-m2-cC_3nl5-a1-m2-cA 3nl6-a1-m1-cB_3nl6-a1-m1-cA 3nl6-a1-m1-cC_3nl6-a1-m1-cA 3nl6-a1-m1-cC_3nl6-a1-m1-cB 3nl6-a1-m2-cB_3nl6-a1-m2-cA 3nl6-a1-m2-cC_3nl6-a1-m2-cA 3nl6-a1-m2-cC_3nl6-a1-m2-cB 3nm1-a1-m1-cA_3nm1-a1-m1-cB 3nm1-a1-m1-cA_3nm1-a1-m1-cC 3nm1-a1-m1-cB_3nm1-a1-m1-cC 3nm1-a1-m1-cD_3nm1-a1-m1-cF 3nm1-a1-m1-cE_3nm1-a1-m1-cD 3nm1-a1-m1-cE_3nm1-a1-m1-cF 3nm3-a1-m1-cB_3nm3-a1-m1-cC 3nm3-a1-m1-cB_3nm3-a1-m1-cD 3nm3-a1-m1-cC_3nm3-a1-m1-cD 3nm3-a1-m1-cE_3nm3-a1-m1-cA 3nm3-a1-m1-cE_3nm3-a1-m1-cF 3nm3-a1-m1-cF_3nm3-a1-m1-cA KFSKEQFDYSLYLVTDSGMIPEGKTLYGQVEAGLQNGVTLVQIREKDADTKFFIEEALQIKELCHAHNVPLIINDRIDVAMAIGADGIHVGQDDMPIPMIRKLVGPDMVIGWSVGFPEEVDELSKMGPDMVDYIGVGTLFPTMGTAGAIRVLDALERNNAHWCRTVGIGGLHPDNIERVLYQCVSSNGKRSLDGICVVSDIIASLDAAKSTKILRGLIDKTDYKFVNIGLSTKNSLTTTDEIQSIISNTLKARPLVQHITNVHQNFGANVTLALGSSPIMSEIQSEVNDLAAIPHATLLLNTGSVAPPEMLKAAIRAYNDVKRPIVFDPVGSATETRLLLNNKLLTFGQFSCIKGNSSEILGLAELSNELLIQATKIVAFKYKTVAVCTGEFDFIADGTIEGKYSLSKGTNGTSVEDIPCVAVEAGCSLGSTIACMIGGQPSEGNLFHAVVAGVMLYKAAGKIASEKCNGSGSFQVELIDALYRLTRENTPVTWAPKLTHT KFSKEQFDYSLYLVTDSGMIPEGKTLYGQVEAGLQNGVTLVQIREKDADTKFFIEEALQIKELCHAHNVPLIINDRIDVAMAIGADGIHVGQDDMPIPMIRKLVGPDMVIGWSVGFPEEVDELSKMGPDMVDYIGVGTLFPTMGTAGAIRVLDALERNNAHWCRTVGIGGLHPDNIERVLYQCVSSNGKRSLDGICVVSDIIASLDAAKSTKILRGLIDKTDYKFVNIGLSTKNSLTTTDEIQSIISNTLKARPLVQHITNVHQNFGANVTLALGSSPIMSEIQSEVNDLAAIPHATLLLNTGSVAPPEMLKAAIRAYNDVKRPIVFDPVGYTETRLLLNNKLLTFGQFSCIKGNSSEILGLAELSNELLIQATKIVAFKYKTVAVCTGEFDFIADGTIEGKYSLSKGTNGTSVEDIPCVAVEAGPIGCSLGSTIACMIGGQPSEGNLFHAVVAGVMLYKAAGKIASEKCNGSGSFQVELIDALYRLTRENTPVTWAPKLTHT 3nl2-a1-m1-cE_3nl2-a1-m1-cA The Crystal Structure of Candida glabrata THI6, a Bifunctional Enzyme involved in Thiamin Biosyhthesis of Eukaryotes Q6FV03 Q6FV03 3.08 X-RAY DIFFRACTION 51 0.998 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 503 505 3nl2-a1-m1-cC_3nl2-a1-m1-cD 3nl2-a1-m1-cF_3nl2-a1-m1-cB 3nl3-a1-m1-cC_3nl3-a1-m1-cA 3nl3-a1-m1-cE_3nl3-a1-m1-cD 3nl3-a1-m1-cF_3nl3-a1-m1-cB 3nl5-a1-m1-cA_3nl5-a1-m2-cA 3nl5-a1-m1-cB_3nl5-a1-m2-cC 3nl5-a1-m2-cB_3nl5-a1-m1-cC 3nl6-a1-m1-cA_3nl6-a1-m2-cA 3nl6-a1-m1-cC_3nl6-a1-m2-cB 3nl6-a1-m2-cC_3nl6-a1-m1-cB 3nm1-a1-m1-cB_3nm1-a1-m1-cF 3nm1-a1-m1-cC_3nm1-a1-m1-cD 3nm1-a1-m1-cE_3nm1-a1-m1-cA 3nm3-a1-m1-cA_3nm3-a1-m1-cC 3nm3-a1-m1-cE_3nm3-a1-m1-cD 3nm3-a1-m1-cF_3nm3-a1-m1-cB KFSKEQFDYSLYLVTDSGMIPEGKTLYGQVEAGLQNGVTLVQIREKDADTKFFIEEALQIKELCHAHNVPLIINDRIDVAMAIGADGIHVGQDDMPIPMIRKLVGPDMVIGWSVGFPEEVDELSKMGPDMVDYIGVGTLFPTMGTAGAIRVLDALERNNAHWCRTVGIGGLHPDNIERVLYQCVSSNGKRSLDGICVVSDIIASLDAAKSTKILRGLIDKTDYKFVNIGLSTKNSLTTTDEIQSIISNTLKARPLVQHITNVHQNFGANVTLALGSSPIMSEIQSEVNDLAAIPHATLLLNTGSVAPPEMLKAAIRAYNDVKRPIVFDPVGYTETRLLLNNKLLTFGQFSCIKGNSSEILGLAELSNELLIQATKIVAFKYKTVAVCTGEFDFIADGTIEGKYSLSKGTNGTSVEDIPCVAVEAGPIGCSLGSTIACMIGGQPSEGNLFHAVVAGVMLYKAAGKIASEKCNGSGSFQVELIDALYRLTRENTPVTWAPKLTHT KFSKEQFDYSLYLVTDSGMIPEGKTLYGQVEAGLQNGVTLVQIREKDADTKFFIEEALQIKELCHAHNVPLIINDRIDVAMAIGADGIHVGQDDMPIPMIRKLVGPDMVIGWSVGFPEEVDELSKMGPDMVDYIGVGTLFPTMGTAGAIRVLDALERNNAHWCRTVGIGGLHPDNIERVLYQCVSSNGKRSLDGICVVSDIIASLDAAKSTKILRGLIDKTDYKFVNIGLSTKNSLTTTDEIQSIISNTLKARPLVQHITNKVHQNFGANVTLALGSSPIMSEIQSEVNDLAAIPHATLLLNTGSVAPPEMLKAAIRAYNDVKRPIVFDPVGSATETRLLLNNKLLTFGQFSCIKGNSSEILGLAELSNELLIQATKIVAFKYKTVAVCTGEFDFIADGTIEGKYSLSKGTNGTSVEDIPCVAVEAGPIGCSLGSTIACMIGGQPSEGNLFHAVVAGVMLYKAAGKIASEKCNGSGSFQVELIDALYRLTRENTPVTWAPKLTHT 3nl9-a1-m1-cA_3nl9-a1-m2-cA Crystal structure of a putative NTP pyrophosphohydrolase (Exig_1061) from EXIGUOBACTERIUM SP. 255-15 at 1.78 A resolution B1YMF4 B1YMF4 1.78 X-RAY DIFFRACTION 382 1.0 262543 (Exiguobacterium sibiricum 255-15) 262543 (Exiguobacterium sibiricum 255-15) 165 165 KQPNYYQDVKQFHQTFHHPGADQPTAIPLDRGVKRATWTAEEAVVEFLHQSSQNETEFLAAIETFKAGLDQAVKKSLKETYPVTEVERLVGQGDALTDALYFIGSFVEAGLEPGPLFEIVQQANAKLGPDGQPIFRESDQKVKPDGWLPPEPQLEAEVVRQKEKA KQPNYYQDVKQFHQTFHHPGADQPTAIPLDRGVKRATWTAEEAVVEFLHQSSQNETEFLAAIETFKAGLDQAVKKSLKETYPVTEVERLVGQGDALTDALYFIGSFVEAGLEPGPLFEIVQQANAKLGPDGQPIFRESDQKVKPDGWLPPEPQLEAEVVRQKEKA 3nm7-a2-m1-cC_3nm7-a2-m1-cD Crystal Structure of Borrelia burgdorferi Pur-alpha O51076 O51076 2.2 X-RAY DIFFRACTION 126 0.987 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 75 76 3nm7-a1-m1-cB_3nm7-a1-m1-cA ERGEVYSEKLFTESERTYFFNVKENRKGDYFLNIVESKRSPSGDFERHSIFVYEENINEFESNLLKAIAVIKQKV RGEVYSEKLFTESERTYFFNVKENRKGDYFLNIVESKRSPSGDFERHSIFVYEENINEFESNLLKAIAVIKQKVST 3nm9-a1-m1-cD_3nm9-a1-m1-cM HMGD(M13A)-DNA complex Q05783 Q05783 2.85 X-RAY DIFFRACTION 20 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 73 73 SDKPKRPLSAYALWLNSARESIKRENPGIKVTEVAKRGGELWRAMKDKSEWEAKAAKAKDDYDRAVKEFEANG SDKPKRPLSAYALWLNSARESIKRENPGIKVTEVAKRGGELWRAMKDKSEWEAKAAKAKDDYDRAVKEFEANG 3nm9-a1-m1-cD_3nm9-a1-m1-cP HMGD(M13A)-DNA complex Q05783 Q05783 2.85 X-RAY DIFFRACTION 25 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 73 73 3nm9-a1-m1-cG_3nm9-a1-m1-cJ SDKPKRPLSAYALWLNSARESIKRENPGIKVTEVAKRGGELWRAMKDKSEWEAKAAKAKDDYDRAVKEFEANG SDKPKRPLSAYALWLNSARESIKRENPGIKVTEVAKRGGELWRAMKDKSEWEAKAAKAKDDYDRAVKEFEANG 3nmd-a3-m1-cE_3nmd-a3-m2-cE Crystal structure of the leucine zipper domain of cGMP dependent protein kinase I beta Q13976 Q13976 2.272 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 50 50 3nmd-a1-m1-cB_3nmd-a1-m1-cA 3nmd-a2-m1-cD_3nmd-a2-m1-cC SLRDLQYALQEKIEELRQRDALIDELELELDQKDELIQLQNELDKYRSVI SLRDLQYALQEKIEELRQRDALIDELELELDQKDELIQLQNELDKYRSVI 3nme-a1-m1-cB_3nme-a1-m1-cA Structure of a plant phosphatase Q9FEB5 Q9FEB5 2.4 X-RAY DIFFRACTION 52 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 283 284 YRHELGNYNFIRPDLIVGSCLQTPEDVDKLRKIGVKTIFCLQQDPDLEYFGVDISSIQAYAKKYSDIQHIRCEIRDFDAFDLRRLPAVVGTLYKAVKRNGGVTYVHSTAGGRAPAVALTYFWVQGYKLEAHKLLSKRSCFPKLDAIRNATIDILTGLKRKTVTLTLKDKGFSRVEISGLDIGWGQRIPLTLGKGTGFWILKRELPEGQFEYKYIIDGEWTHNEAEPFIGPNKDGHTNNYAKVVDDPTSVDGTTRERLSSEDPELLEEERSKLIQFLETCSEAE YRHELGNYNFIRPDLIVGSCLQTPEDVDKLRKIGVKTIFCLQQDPDLEYFGVDISSIQAYAKKYSDIQHIRCEIRDFDAFDLRRLPAVVGTLYKAVKRNGGVTYVHSTAGGRAPAVALTYFWVQGYKLEAHKLLSKRSCFPKLDAIRNATIDILTGLKRKTVTLTLKDKGFSRVEISGLDIGWGQRIPLTLGKGTGFWILKRELPEGQFEYKYIIDGEWTHNEAEPFIGPNKDGHTNNYAKVVDDPTSVDGTTRERLSSEDPELLEEERSKLIQFLETCSEAEV 3nmz-a1-m1-cB_3nmz-a1-m1-cA Crystal structure of APC complexed with Asef P25054 P25054 3.01 X-RAY DIFFRACTION 28 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 400 406 DKDDMSRTLLAMSSSQDSCISMRQSGCLPLLIQLLHGNDKNSRGSKEARARASAALHNIIHSQPDDKRGRREIRVLHLLEQIRAYCETCWEWQEAHEPGMDQDKNPAPVEHQICPAVCVLMKLSFDEEHRHAMNELGGLQAIAELLQVDCEMYGLTNDHYSITLRRYAGMALTNLTFGDVANKATLCSMKGCMRALVAQLKSESEDLQQVIASVLRNLSWRADVNSKKTLREVGSVKALMECALEVKKESTLKSVLSALWNLSAHCTENKADICAVDGALAFLVGTLTYRSQTNTLAIIESGGGILRNVSSLIATNEDHRQILRENNCLQTLLQHLKSHSLTIVSNACGTLWNLSARNPKDQEALWDMGAVSMLKNLIHSKHKMIAMGSAAALRNLMANR DKDDMSRTLLAMSSSQDSCISMRQSGCLPLLIQLLHGNDKDSVLSRGSKEARARASAALHNIIHSQPDDKRGRREIRVLHLLEQIRAYCETCWEWQEAHEPGMDQDKNPAPVEHQICPAVCVLMKLSFDEEHRHAMNELGGLQAIAELLQVDCEMYGLTNDHYSITLRRYAGMALTNLTFGDVANKATLCSMKGCMRALVAQLKSESEDLQQVIASVLRNLSWRADVNSKKTLREVGSVKALMECALEVKKESTLKSVLSALWNLSAHCTENKADICAVDGALAFLVGTLTYRSQTNTLAIIESGGGILRNVSSLIATNEDHRQILRENNCLQTLLQHLKSHSLTIVSNACGTLWNLSARNPKDQEALWDMGAVSMLKNLIHSKHKMIAMGSAAALRNLMANRPAK 3nmz-a1-m1-cD_3nmz-a1-m1-cC Crystal structure of APC complexed with Asef Q9NR80 Q9NR80 3.01 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 85 SHHYSHPGGGGEQLAINELISDGSVVCAEALWDHVTMDDQELGFKAGDVIEVMDATNREWWWGRVADGEGWFPASFVRLRVNQD SSHHYSHPGGGGEQLAINELISDGSVVCAEALWDHVTMDDQELGFKAGDVIEVMDATNREWWWGRVADGEGWFPASFVRLRVNQD 3nnc-a2-m2-cA_3nnc-a2-m4-cA Crystal Structure of CUGBP1 RRM1/2-RNA Complex Q92879 Q92879 2.2005 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3nnc-a2-m1-cA_3nnc-a2-m3-cA SDAIKMFVGQVPRTWSEKDLRELFEQYGAVYEINVLRDRSQNPPQSKGCCFVTFYTRKAALEAQNALHNMKVLPGMHHPIQMKPADSEKNNAVEDRKLFIGMISKKCTENDIRVMFSSFGQIEECRILRGPDGLSRGCAFVTFTTRAMAQTAIKAMHQAQTMEGCSSPMVVKFAD SDAIKMFVGQVPRTWSEKDLRELFEQYGAVYEINVLRDRSQNPPQSKGCCFVTFYTRKAALEAQNALHNMKVLPGMHHPIQMKPADSEKNNAVEDRKLFIGMISKKCTENDIRVMFSSFGQIEECRILRGPDGLSRGCAFVTFTTRAMAQTAIKAMHQAQTMEGCSSPMVVKFAD 3nnc-a2-m3-cA_3nnc-a2-m4-cA Crystal Structure of CUGBP1 RRM1/2-RNA Complex Q92879 Q92879 2.2005 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3nnc-a2-m1-cA_3nnc-a2-m2-cA SDAIKMFVGQVPRTWSEKDLRELFEQYGAVYEINVLRDRSQNPPQSKGCCFVTFYTRKAALEAQNALHNMKVLPGMHHPIQMKPADSEKNNAVEDRKLFIGMISKKCTENDIRVMFSSFGQIEECRILRGPDGLSRGCAFVTFTTRAMAQTAIKAMHQAQTMEGCSSPMVVKFAD SDAIKMFVGQVPRTWSEKDLRELFEQYGAVYEINVLRDRSQNPPQSKGCCFVTFYTRKAALEAQNALHNMKVLPGMHHPIQMKPADSEKNNAVEDRKLFIGMISKKCTENDIRVMFSSFGQIEECRILRGPDGLSRGCAFVTFTTRAMAQTAIKAMHQAQTMEGCSSPMVVKFAD 3nnd-a1-m1-cD_3nnd-a1-m1-cA The crystal structure of ABC transporter from Rhodopseudomonas palustris Q6N1K8 Q6N1K8 2.8 X-RAY DIFFRACTION 32 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 318 329 3nnd-a1-m1-cC_3nnd-a1-m1-cB DLKIALIYGKTGPLEAYAKQTETGLGLEYATKGTTLDGRKIVVITKDDQSKPDLSKAALAEAYQDDGADIAIGTSSSAAALADLPVAEENKKILIVEPANRYIFRTGRNSSQDAISNAVAIGKQGVTIATLAQDYAFGRDGVAAFKEALAKTGATLATEEYVPTTAVGQRLFDALKDKPGKKIIWVIWPLTKLQDDPKRYGIELSTGGNILPALAAYKEGATYYYYDIPKNPINEWLVTEHQKRFNAPPDFFTAGGFSAAAVVTAVQKAKSTDTEKLIAAEGEFDTPKGKVFRKEDHQALQSYHFKVKVDPAVAWAVL DLKIALIYGKTGPLEAYAKQTETGLGLEYATKGTTLDGRKIVVITKDDQSKPDLSKAALAEAYQDDGADIAIGTSSSAAALADLPVAEENKKILIVEPANRYIFRTGRNSSQDAISNAVAIGKQGVTIATLAQDYAFGRDGVAAFKEALAKTGATLATEEYVPTTTTDFTAVGQRLFDALKDKPGKKIIWVIWAPLTKLQDDPKRYGIELSTGGNILPALAAYKRLEGATYYYYDIPKNPINEWLVTEHQKRFNAPPDFFTAGGFSAAAVVTAVQKAKSTDTEKLIAAEGEFDTPKGKVFRKEDHQALQSYHFKVKVDPAVAWAVLEEG 3nnd-a1-m1-cD_3nnd-a1-m1-cB The crystal structure of ABC transporter from Rhodopseudomonas palustris Q6N1K8 Q6N1K8 2.8 X-RAY DIFFRACTION 34 0.991 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 318 320 3nnd-a1-m1-cC_3nnd-a1-m1-cA DLKIALIYGKTGPLEAYAKQTETGLGLEYATKGTTLDGRKIVVITKDDQSKPDLSKAALAEAYQDDGADIAIGTSSSAAALADLPVAEENKKILIVEPANRYIFRTGRNSSQDAISNAVAIGKQGVTIATLAQDYAFGRDGVAAFKEALAKTGATLATEEYVPTTAVGQRLFDALKDKPGKKIIWVIWPLTKLQDDPKRYGIELSTGGNILPALAAYKEGATYYYYDIPKNPINEWLVTEHQKRFNAPPDFFTAGGFSAAAVVTAVQKAKSTDTEKLIAAEGEFDTPKGKVFRKEDHQALQSYHFKVKVDPAVAWAVL DLKIALIYGKTGPLEAYAKQTETGLGLEYATKGTTLDGRKIVVITKDDQSKPDLSKAALAEAYQDDGADIAIGTSSSAAALADLPVAEENKKILIVEPANRYIFRTGRNSSQDAISNAVAIGKQGVTIATLAQDYAFGRDGVAAFKEALAKTGATLATEEYVPTTDFTAVGQRLFDALKDKPGKIIWVIWAPLTKLQDDKRYGIELSTGGNILPALAAYGEGATYYYYDIPKNPINEWLVTEHQKRFNAPPDFFTAGGFSAAAVVTAVQKAKSTDTEKLIAAEGEFDTPKGKVFRKEDHQALQSYHFKVKVDPAVAWAVL 3nnd-a3-m1-cD_3nnd-a3-m1-cC The crystal structure of ABC transporter from Rhodopseudomonas palustris Q6N1K8 Q6N1K8 2.8 X-RAY DIFFRACTION 206 0.991 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 318 319 3nnd-a1-m1-cB_3nnd-a1-m1-cA 3nnd-a1-m1-cD_3nnd-a1-m1-cC 3nnd-a2-m1-cB_3nnd-a2-m1-cA DLKIALIYGKTGPLEAYAKQTETGLGLEYATKGTTLDGRKIVVITKDDQSKPDLSKAALAEAYQDDGADIAIGTSSSAAALADLPVAEENKKILIVEPANRYIFRTGRNSSQDAISNAVAIGKQGVTIATLAQDYAFGRDGVAAFKEALAKTGATLATEEYVPTTAVGQRLFDALKDKPGKKIIWVIWPLTKLQDDPKRYGIELSTGGNILPALAAYKEGATYYYYDIPKNPINEWLVTEHQKRFNAPPDFFTAGGFSAAAVVTAVQKAKSTDTEKLIAAEGEFDTPKGKVFRKEDHQALQSYHFKVKVDPAVAWAVL DLKIALIYGKTGPLEAYAKQTETGLGLEYATKGTTLDGRKIVVITKDDQSKPDLSKAALAEAYQDDGADIAIGTSSSAAALADLPVAEENKKILIVEPANRYIFRTGRNSSQDAISNAVAIGKQGVTIATLAQDAFGRDGVAAFKEALAKTGATLATEEYVPTTDFTAVGQRLFDALKDKPGKKIIWVIPLTKLQDDPKRYGIELSTGGNILPALAAYGEGATYYYYDIPKNPINEWLVTEHQKRFNAPPDFFTAGGFSAAAVVTAVQKAKSTDTEKLIAAEGEFDTPKGKVFRKEDHQALQSYHFKVKVDPAVAWAVL 3nnf-a1-m1-cA_3nnf-a1-m2-cA Halogenase domain from CurA module with Fe, chloride, and alpha-ketoglutarate Q6DNF2 Q6DNF2 2.201 X-RAY DIFFRACTION 50 1.0 158786 (Lyngbya majuscula) 158786 (Lyngbya majuscula) 318 318 3nnl-a1-m1-cB_3nnl-a1-m1-cA 3nnm-a1-m1-cA_3nnm-a1-m1-cB MNREQVEQLKQEYEEKGYCQIKKIFDFSAIKTIQKTLDQAKQESQISKEKVTLKLGGIDDIDTNDHAYDLVKYDFVSSFIQEKLALLNYITGKNLMIMHNALFSVEPNHKGLPWHVGVGSFSFTKTEDFGASIWIPLDKITKEHRGGMQYVSTKIFPGQFYYSVFDLHLKNNIKWDESQGDLNEYVANANTIYNKITEDVIDYTIKDGYEEDEYNLGDAFFFNKYVLHQSVPLKPGLHKLRRAFVIRLVDYDTRVDEERLGLFSKYSQLHSRYYKTLPRYNKDSVLVMVSRAVQKGLKSPYLRDIPHVQQTLAARMAA MNREQVEQLKQEYEEKGYCQIKKIFDFSAIKTIQKTLDQAKQESQISKEKVTLKLGGIDDIDTNDHAYDLVKYDFVSSFIQEKLALLNYITGKNLMIMHNALFSVEPNHKGLPWHVGVGSFSFTKTEDFGASIWIPLDKITKEHRGGMQYVSTKIFPGQFYYSVFDLHLKNNIKWDESQGDLNEYVANANTIYNKITEDVIDYTIKDGYEEDEYNLGDAFFFNKYVLHQSVPLKPGLHKLRRAFVIRLVDYDTRVDEERLGLFSKYSQLHSRYYKTLPRYNKDSVLVMVSRAVQKGLKSPYLRDIPHVQQTLAARMAA 3nnj-a1-m1-cB_3nnj-a1-m1-cA Halogenase domain from CurA module (apo Hal) Q6DNF2 Q6DNF2 2.601 X-RAY DIFFRACTION 49 1.0 158786 (Lyngbya majuscula) 158786 (Lyngbya majuscula) 296 298 GTENLYFQSNANREQVEQLKQEYEEKGYCQIKKIFDFSAIKTIQKTLDQAYDLVKYDFVSSFIQEKLALLNYITGKNLIHNALFSVEPNHKGLPWHVGVGSFSFTKTEDFGASIWIPLDKITKEHRGGQYVSTKIFPGQFYYSVFDLHLKNNIKWDESQGDLNEYVANANTIYNKITEDVIDYTIKDGYEEDEYNLGDAFFFNKYVLHQSVPLKPGLHKLRRAFVIRLVDYDTRVDEERLGLFSKYSQLHSRYYKTLPRYNKDSVLVVSRAVQKGLKSPYLRDIPHVQQTLAARAA LGTENLYFQSNANREQVEQLKQEYEEKGYCQIKKIFDFSAIKTIQKTLDQHAYDLVKYDFVSSFIQEKLALLNYITGKNLIHNALFSVEPNHKGLPWHVGVGSFSFTKTEDFGASIWIPLDKITKEHRGGQYVSTKIFPGQFYYSVFDLHLKNNIKWDESQGDLNEYVANANTIYNKITEDVIDYTIKDGYEEDEYNLGDAFFFNKYVLHQSVPLKPGLHKLRRAFVIRLVDYDTRVDEERLGLFSKYSQLHSRYYKTLPRYNKDSVLVVSRAVQKGLKSPYLRDIPHVQQTLAARAA 3nnk-a4-m1-cO_3nnk-a4-m1-cS Biochemical and Structural Characterization of a Ureidoglycine Aminotransferase in the Klebsiella pneumoniae Uric Acid Catabolic Pathway B5B0L4 B5B0L4 2.58 X-RAY DIFFRACTION 14 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 409 409 3nnk-a1-m1-cB_3nnk-a1-m1-cC 3nnk-a1-m1-cD_3nnk-a1-m1-cA 3nnk-a2-m1-cE_3nnk-a2-m1-cH 3nnk-a2-m1-cF_3nnk-a2-m1-cG 3nnk-a3-m1-cJ_3nnk-a3-m1-cM 3nnk-a3-m1-cL_3nnk-a3-m1-cK 3nnk-a4-m1-cP_3nnk-a4-m1-cR DITQFSQLNPPSRLLMGPGPINADPRVLRAMSSQLIGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAVKRIRPRLLLTVQGDTSTTMLQPLAELGEICRRYDALFYTDATASLGGNPLETDVWGLDAVSAGMQCLGGPSGTSPITLSARMEEAIRRRKCVEEGIRTDAHRDGDEEMIYSNYFDLGMVMDYWGPERLNHHTEATTALFGARECARLILQEGLDYGIARHKLHGDALVKGIQAMGLETFGDLKHKMNNVLGVVIPQGINGDQARKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMTTLSALEAVLNYLKFPTTQGAAMQAAWDHYRSER DITQFSQLNPPSRLLMGPGPINADPRVLRAMSSQLIGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAVKRIRPRLLLTVQGDTSTTMLQPLAELGEICRRYDALFYTDATASLGGNPLETDVWGLDAVSAGMQCLGGPSGTSPITLSARMEEAIRRRKCVEEGIRTDAHRDGDEEMIYSNYFDLGMVMDYWGPERLNHHTEATTALFGARECARLILQEGLDYGIARHKLHGDALVKGIQAMGLETFGDLKHKMNNVLGVVIPQGINGDQARKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMTTLSALEAVLNYLKFPTTQGAAMQAAWDHYRSER 3nnk-a4-m1-cP_3nnk-a4-m1-cS Biochemical and Structural Characterization of a Ureidoglycine Aminotransferase in the Klebsiella pneumoniae Uric Acid Catabolic Pathway B5B0L4 B5B0L4 2.58 X-RAY DIFFRACTION 80 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 409 409 3nnk-a1-m1-cB_3nnk-a1-m1-cD 3nnk-a1-m1-cC_3nnk-a1-m1-cA 3nnk-a2-m1-cE_3nnk-a2-m1-cG 3nnk-a2-m1-cF_3nnk-a2-m1-cH 3nnk-a3-m1-cK_3nnk-a3-m1-cM 3nnk-a3-m1-cL_3nnk-a3-m1-cJ 3nnk-a4-m1-cO_3nnk-a4-m1-cR DITQFSQLNPPSRLLMGPGPINADPRVLRAMSSQLIGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAVKRIRPRLLLTVQGDTSTTMLQPLAELGEICRRYDALFYTDATASLGGNPLETDVWGLDAVSAGMQCLGGPSGTSPITLSARMEEAIRRRKCVEEGIRTDAHRDGDEEMIYSNYFDLGMVMDYWGPERLNHHTEATTALFGARECARLILQEGLDYGIARHKLHGDALVKGIQAMGLETFGDLKHKMNNVLGVVIPQGINGDQARKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMTTLSALEAVLNYLKFPTTQGAAMQAAWDHYRSER DITQFSQLNPPSRLLMGPGPINADPRVLRAMSSQLIGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAVKRIRPRLLLTVQGDTSTTMLQPLAELGEICRRYDALFYTDATASLGGNPLETDVWGLDAVSAGMQCLGGPSGTSPITLSARMEEAIRRRKCVEEGIRTDAHRDGDEEMIYSNYFDLGMVMDYWGPERLNHHTEATTALFGARECARLILQEGLDYGIARHKLHGDALVKGIQAMGLETFGDLKHKMNNVLGVVIPQGINGDQARKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMTTLSALEAVLNYLKFPTTQGAAMQAAWDHYRSER 3nnk-a4-m1-cR_3nnk-a4-m1-cS Biochemical and Structural Characterization of a Ureidoglycine Aminotransferase in the Klebsiella pneumoniae Uric Acid Catabolic Pathway B5B0L4 B5B0L4 2.58 X-RAY DIFFRACTION 261 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 409 409 3nnk-a1-m1-cB_3nnk-a1-m1-cA 3nnk-a1-m1-cC_3nnk-a1-m1-cD 3nnk-a2-m1-cE_3nnk-a2-m1-cF 3nnk-a2-m1-cG_3nnk-a2-m1-cH 3nnk-a3-m1-cJ_3nnk-a3-m1-cK 3nnk-a3-m1-cL_3nnk-a3-m1-cM 3nnk-a4-m1-cO_3nnk-a4-m1-cP DITQFSQLNPPSRLLMGPGPINADPRVLRAMSSQLIGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAVKRIRPRLLLTVQGDTSTTMLQPLAELGEICRRYDALFYTDATASLGGNPLETDVWGLDAVSAGMQCLGGPSGTSPITLSARMEEAIRRRKCVEEGIRTDAHRDGDEEMIYSNYFDLGMVMDYWGPERLNHHTEATTALFGARECARLILQEGLDYGIARHKLHGDALVKGIQAMGLETFGDLKHKMNNVLGVVIPQGINGDQARKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMTTLSALEAVLNYLKFPTTQGAAMQAAWDHYRSER DITQFSQLNPPSRLLMGPGPINADPRVLRAMSSQLIGQYDPAMTHYMNEVMALYRGVFRTENRWTMLVDGTSRAGIEAILVSAIRPGDKVLVPVFGRFGHLLCEIARRCRAEVHTIEVPWGEVFTPDQVEDAVKRIRPRLLLTVQGDTSTTMLQPLAELGEICRRYDALFYTDATASLGGNPLETDVWGLDAVSAGMQCLGGPSGTSPITLSARMEEAIRRRKCVEEGIRTDAHRDGDEEMIYSNYFDLGMVMDYWGPERLNHHTEATTALFGARECARLILQEGLDYGIARHKLHGDALVKGIQAMGLETFGDLKHKMNNVLGVVIPQGINGDQARKLMLEDFGIEIGTSFGPLHGKVWRIGTMGYNARKDCVMTTLSALEAVLNYLKFPTTQGAAMQAAWDHYRSER 3nnn-a1-m1-cA_3nnn-a1-m1-cB BeF3 Activated DrrD Receiver Domain Q9WYN0 Q9WYN0 2.2 X-RAY DIFFRACTION 48 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 119 119 NVRVLVVEDERDLADLITEALKKEMFTVDVCYDGEEGMYMALNEPFDVVILDIMLPVHDGWEILKSMRESGVNTPVLMLTALSDVEYRVKGLNMGADDYLPKPFDLRELIARVRALIRR NVRVLVVEDERDLADLITEALKKEMFTVDVCYDGEEGMYMALNEPFDVVILDIMLPVHDGWEILKSMRESGVNTPVLMLTALSDVEYRVKGLNMGADDYLPKPFDLRELIARVRALIRR 3nnq-a1-m1-cA_3nnq-a1-m2-cB Crystal Structure of the N-terminal domain of Moloney murine leukemia virus integrase, Northeast Structural Genomics Consortium Target OR3 P03355 P03355 2.693 X-RAY DIFFRACTION 19 1.0 11801 (Moloney murine leukemia virus) 11801 (Moloney murine leukemia virus) 92 92 3nnq-a1-m1-cB_3nnq-a1-m2-cA 4nzg-a1-m1-cA_4nzg-a1-m1-cD 4nzg-a1-m1-cB_4nzg-a1-m1-cC HFHYTVTDIKDLTKLGAIYDKTKKYWVYQGKPVPDQFTFELLDFLHQLTHLSFSKKALLERSHSPYYLNRDRTLKNITETCKACAQVNASKS HFHYTVTDIKDLTKLGAIYDKTKKYWVYQGKPVPDQFTFELLDFLHQLTHLSFSKKALLERSHSPYYLNRDRTLKNITETCKACAQVNASKS 3nnq-a1-m2-cA_3nnq-a1-m2-cB Crystal Structure of the N-terminal domain of Moloney murine leukemia virus integrase, Northeast Structural Genomics Consortium Target OR3 P03355 P03355 2.693 X-RAY DIFFRACTION 24 1.0 11801 (Moloney murine leukemia virus) 11801 (Moloney murine leukemia virus) 92 92 3nnq-a1-m1-cA_3nnq-a1-m1-cB 4nzg-a1-m1-cA_4nzg-a1-m1-cB 4nzg-a1-m1-cC_4nzg-a1-m1-cD HFHYTVTDIKDLTKLGAIYDKTKKYWVYQGKPVPDQFTFELLDFLHQLTHLSFSKKALLERSHSPYYLNRDRTLKNITETCKACAQVNASKS HFHYTVTDIKDLTKLGAIYDKTKKYWVYQGKPVPDQFTFELLDFLHQLTHLSFSKKALLERSHSPYYLNRDRTLKNITETCKACAQVNASKS 3nnr-a1-m1-cA_3nnr-a1-m2-cA Crystal structure of a TetR-family transcriptional regulator (Maqu_3571) from MARINOBACTER AQUAEOLEI VT8 at 2.49 A resolution A1U6M1 A1U6M1 2.49 X-RAY DIFFRACTION 79 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 199 199 KTRDKILLSSLELFNDKGERNITTNHIAAHLAISPGNLYYHFRNKSDIIYEIFQEYEKLVDYYLDIPEDRPITLEDTFYLESVFDGLWSYRFFHRDLEYLLDSDPRLRQDYREFTNRCLAAINRIFAKLADAGIIQPQPEDLRSASLNVWLVITNWAFLKTAHLTELKQGIYQVLTLEVPYLTPEYRERVLALREKYRP KTRDKILLSSLELFNDKGERNITTNHIAAHLAISPGNLYYHFRNKSDIIYEIFQEYEKLVDYYLDIPEDRPITLEDTFYLESVFDGLWSYRFFHRDLEYLLDSDPRLRQDYREFTNRCLAAINRIFAKLADAGIIQPQPEDLRSASLNVWLVITNWAFLKTAHLTELKQGIYQVLTLEVPYLTPEYRERVLALREKYRP 3nns-a1-m1-cA_3nns-a1-m1-cB BeF3 Activated DrrB Receiver Domain Q9WXY0 Q9WXY0 1.9 X-RAY DIFFRACTION 39 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 113 113 WKIAVVDDDKNILKKVSEKLQQLGRVKTFLTGEDFLNDEEAFHVVVLDVLPDYSGYEICRIKETRPETWVILLTLLSDDESVLKGFEAGADDYVTKPFNPEILLARVKRFLER WKIAVVDDDKNILKKVSEKLQQLGRVKTFLTGEDFLNDEEAFHVVVLDVLPDYSGYEICRIKETRPETWVILLTLLSDDESVLKGFEAGADDYVTKPFNPEILLARVKRFLER 3no4-a1-m1-cC_3no4-a1-m2-cC Crystal structure of a creatinine amidohydrolase (Npun_F1913) from Nostoc punctiforme PCC 73102 at 2.00 A resolution B2J3U5 B2J3U5 2 X-RAY DIFFRACTION 168 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 246 246 3no4-a1-m1-cB_3no4-a1-m1-cA 3no4-a1-m2-cB_3no4-a1-m2-cA QGLLHLSTWQEVEAYLQQSKGIIFPIGSTEQHGPTGLIGTDAICAEAIAAGVGDATGAIVGPTINVGALHHTAFPGTISLRPSTLIQVVRDYVTCLAKAGFSKFYFINGHGGNIATLKAAFSETYAHLEDLQIANAQQVQCQVANWFCGSVYKLAKELYGDQEGSHATPSEVALTQYVYPEAIKQAPLSPEVASGHRIYSAADFRVRYPDGRGSNPGLATPEHGKQFYDLAVKELSNGYLEFVNAD QGLLHLSTWQEVEAYLQQSKGIIFPIGSTEQHGPTGLIGTDAICAEAIAAGVGDATGAIVGPTINVGALHHTAFPGTISLRPSTLIQVVRDYVTCLAKAGFSKFYFINGHGGNIATLKAAFSETYAHLEDLQIANAQQVQCQVANWFCGSVYKLAKELYGDQEGSHATPSEVALTQYVYPEAIKQAPLSPEVASGHRIYSAADFRVRYPDGRGSNPGLATPEHGKQFYDLAVKELSNGYLEFVNAD 3no4-a1-m2-cC_3no4-a1-m2-cB Crystal structure of a creatinine amidohydrolase (Npun_F1913) from Nostoc punctiforme PCC 73102 at 2.00 A resolution B2J3U5 B2J3U5 2 X-RAY DIFFRACTION 103 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 246 252 3no4-a1-m1-cA_3no4-a1-m2-cA 3no4-a1-m1-cC_3no4-a1-m1-cB QGLLHLSTWQEVEAYLQQSKGIIFPIGSTEQHGPTGLIGTDAICAEAIAAGVGDATGAIVGPTINVGALHHTAFPGTISLRPSTLIQVVRDYVTCLAKAGFSKFYFINGHGGNIATLKAAFSETYAHLEDLQIANAQQVQCQVANWFCGSVYKLAKELYGDQEGSHATPSEVALTQYVYPEAIKQAPLSPEVASGHRIYSAADFRVRYPDGRGSNPGLATPEHGKQFYDLAVKELSNGYLEFVNAD HENLYFQGLLHLSTWQEVEAYLQQSKGIIFPIGSTEQHGPTGLIGTDAICAEAIAAGVGDATGAIVGPTINVGALHHTAFPGTISLRPSTLIQVVRDYVTCLAKAGFSKFYFINGHGGNIATLKAAFSETYAHLEDLQIANAQQVQCQVANWFCGSVYKLAKELYGDQEGSHATPSEVALTQYVYPEAIKQAPLSPEVASGHRIYSAADFRVRYPDGRGSNPGLATPEHGKQFYDLAVKELSNGYLEFVNAD 3no5-a3-m1-cF_3no5-a3-m1-cE Crystal structure of a Pfam DUF849 domain containing protein (Reut_A1631) from Ralstonia eutropha JMP134 at 1.90 A resolution Q471D6 Q471D6 1.9 X-RAY DIFFRACTION 87 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 263 264 3no5-a1-m1-cB_3no5-a1-m1-cA 3no5-a2-m1-cD_3no5-a2-m1-cC NKPCIISVAITGSLPRKKDNPAVPITVSEQVESTQAAFEAGATLVHLHVRNDDETPTSNPDRFALVLEGIRKHAPGITQVSTGGRSGAGNERGALSLRPDASLATGSVNFPTRVYDNPPELVDWLAAEKTYGIKPEVEAFDLSIFQAAAQAAGAIVGPLHIQFVGIKNAPVDREVLEFYVQTLKRLSPDATWTGAGIGRHQLTARWSLELGGHCRTGLEDNVRLDKNTLAPSNAALVRQVAELCEEYGRPVATAAQAREISLG GNKPCIISVAITGSLPRKKDNPAVPITVSEQVESTQAAFEAGATLVHLHVRNDDETPTSNPDRFALVLEGIRKHAPGITQVSTGGRSGAGNERGALSLRPDASLATGSVNFPTRVYDNPPELVDWLAAEKTYGIKPEVEAFDLSIFQAAAQAAGAIVGPLHIQFVGIKNAPVDREVLEFYVQTLKRLSPDATWTGAGIGRHQLTARWSLELGGHCRTGLEDNVRLDKNTLAPSNAALVRQVAELCEEYGRPVATAAQAREISLG 3no6-a1-m1-cB_3no6-a1-m1-cD Crystal structure of a putative thiaminase II (SE1693) from Staphylococcus epidermidis ATCC 12228 at 1.65 A resolution Q8CNK1 Q8CNK1 1.65 X-RAY DIFFRACTION 26 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 215 216 3no6-a1-m1-cC_3no6-a1-m1-cA TFSKELREASRPIIDDIYNDGFIQDLLAGKLSNQAVRQYLRADASYLKEFTNIYALIPKSSEDVKFLVEQIEFLEGEVEAHEVLADFINEPYEEIVKEKVWPPSGDHYIKHYFNAFARENAAFTIAAAPCPYVYAVIGKRAEDPKLNKESVTSKWFQFYSTEDELVDVFDQLDRLTKHCSETEKKEIKENFLQSTIHERHFFNAYINEKWEYGGN TFSKELREASRPIIDDIYNDGFIQDLLAGKLSNQAVRQYLRADASYLKEFTNIYALIPKSSEDVKFLVEQIEFLEGEVEAHEVLADFINEPYEEIVKEKVWPPSGDHYIKHYFNAFARENAAFTIAAAPCPYVYAVIGKRAEDPKLNKESVTSKWFQFYSTEDELVDVFDQLDRLTKHCSETEKKEIKENFLQSTIHERHFFNAYINEKWEYGGNN 3no6-a1-m1-cC_3no6-a1-m1-cD Crystal structure of a putative thiaminase II (SE1693) from Staphylococcus epidermidis ATCC 12228 at 1.65 A resolution Q8CNK1 Q8CNK1 1.65 X-RAY DIFFRACTION 69 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 215 216 3no6-a1-m1-cB_3no6-a1-m1-cA TFSKELREASRPIIDDIYNDGFIQDLLAGKLSNQAVRQYLRADASYLKEFTNIYALIPKSSEDVKFLVEQIEFLEGEVEAHEVLADFINEPYEEIVKEKVWPPSGDHYIKHYFNAFARENAAFTIAAAPCPYVYAVIGKRAEDPKLNKESVTSKWFQFYSTEDELVDVFDQLDRLTKHCSETEKKEIKENFLQSTIHERHFFNAYINEKWEYGGN TFSKELREASRPIIDDIYNDGFIQDLLAGKLSNQAVRQYLRADASYLKEFTNIYALIPKSSEDVKFLVEQIEFLEGEVEAHEVLADFINEPYEEIVKEKVWPPSGDHYIKHYFNAFARENAAFTIAAAPCPYVYAVIGKRAEDPKLNKESVTSKWFQFYSTEDELVDVFDQLDRLTKHCSETEKKEIKENFLQSTIHERHFFNAYINEKWEYGGNN 3no6-a1-m1-cD_3no6-a1-m1-cA Crystal structure of a putative thiaminase II (SE1693) from Staphylococcus epidermidis ATCC 12228 at 1.65 A resolution Q8CNK1 Q8CNK1 1.65 X-RAY DIFFRACTION 10 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 216 224 TFSKELREASRPIIDDIYNDGFIQDLLAGKLSNQAVRQYLRADASYLKEFTNIYALIPKSSEDVKFLVEQIEFLEGEVEAHEVLADFINEPYEEIVKEKVWPPSGDHYIKHYFNAFARENAAFTIAAAPCPYVYAVIGKRAEDPKLNKESVTSKWFQFYSTEDELVDVFDQLDRLTKHCSETEKKEIKENFLQSTIHERHFFNAYINEKWEYGGNN HENLYFQGTFSKELREASRPIIDDIYNDGFIQDLLAGKLSNQAVRQYLRADASYLKEFTNIYALIPKSSEDVKFLVEQIEFLEGEVEAHEVLADFINEPYEEIVKEKVWPPSGDHYIKHYFNAFARENAAFTIAAAPCPYVYAVIGKRAEDPKLNKESVTSKWFQFYSTEDELVDVFDQLDRLTKHCSETEKKEIKENFLQSTIHERHFFNAYINEKWEYGGNN 3no7-a1-m1-cB_3no7-a1-m1-cA Crystal structure of the centromere-binding protein ParB from plasmid pCXC100 Q6EEF9 Q6EEF9 1.4 X-RAY DIFFRACTION 114 1.0 31966 (Leifsonia xyli subsp. cynodontis) 31966 (Leifsonia xyli subsp. cynodontis) 59 60 KMTVTVGEERRARLRTAYTLTHLQEGHRTFSGFIAAALDAEVQRLEQRYNEGRRFENAE VKMTVTVGEERRARLRTAYTLTHLQEGHRTFSGFIAAALDAEVQRLEQRYNEGRRFENAE 3noi-a1-m1-cA_3noi-a1-m2-cB Crystal Structure of Natural Killer Cell Cytotoxicity Receptor NKp30 (NCR3) O14931 O14931 1.842 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 120 NLYFQGALWVSQPPEIRTLEGSSAFLPCSFNASQGRLAIGSVTWFRDEVVPGKEVRNGTPEFRGRLAPLASSRFLHDHQAELHIRDVRGHDASIYVCRVEVLGLGVGTGNGTRLVVEKE ENLYFQGALWVSQPPEIRTLEGSSAFLPCSFNASQGRLAIGSVTWFRDEVVPGKEVRNGTPEFRGRLAPLASSRFLHDHQAELHIRDVRGHDASIYVCRVEVLGLGVGTGNGTRLVVEKE 3noi-a2-m1-cA_3noi-a2-m1-cB Crystal Structure of Natural Killer Cell Cytotoxicity Receptor NKp30 (NCR3) O14931 O14931 1.842 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 120 NLYFQGALWVSQPPEIRTLEGSSAFLPCSFNASQGRLAIGSVTWFRDEVVPGKEVRNGTPEFRGRLAPLASSRFLHDHQAELHIRDVRGHDASIYVCRVEVLGLGVGTGNGTRLVVEKE ENLYFQGALWVSQPPEIRTLEGSSAFLPCSFNASQGRLAIGSVTWFRDEVVPGKEVRNGTPEFRGRLAPLASSRFLHDHQAELHIRDVRGHDASIYVCRVEVLGLGVGTGNGTRLVVEKE 3noj-a1-m2-cA_3noj-a1-m6-cA The structure of HMG/CHA aldolase from the protocatechuate degradation pathway of Pseudomonas putida A5W059 A5W059 1.82 X-RAY DIFFRACTION 13 1.0 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 235 235 3noj-a1-m1-cA_3noj-a1-m4-cA 3noj-a1-m3-cA_3noj-a1-m5-cA NTLIGKTGIVVRNIQRAELDSIDALGRLGVATVHEAQNRKGLLSSKMRPIQQGTSLAGSAVTVLVAPGDNWMFHVAVEQCRPGDVLVVSPSSPCTDGYFGDLLATSLQARGVRALIVDAGVRDTQTLRDMGFAVWARAINAQGTVKETLGSVNLPVICGGQLINPGDIVVADDDGVVVVRRDECESTLVAAAERAGLEEEKRLRLAAGELGLDIYKMRERLEAKGLRYVDNIEDL NTLIGKTGIVVRNIQRAELDSIDALGRLGVATVHEAQNRKGLLSSKMRPIQQGTSLAGSAVTVLVAPGDNWMFHVAVEQCRPGDVLVVSPSSPCTDGYFGDLLATSLQARGVRALIVDAGVRDTQTLRDMGFAVWARAINAQGTVKETLGSVNLPVICGGQLINPGDIVVADDDGVVVVRRDECESTLVAAAERAGLEEEKRLRLAAGELGLDIYKMRERLEAKGLRYVDNIEDL 3noj-a1-m3-cA_3noj-a1-m6-cA The structure of HMG/CHA aldolase from the protocatechuate degradation pathway of Pseudomonas putida A5W059 A5W059 1.82 X-RAY DIFFRACTION 42 1.0 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 235 235 3noj-a1-m1-cA_3noj-a1-m5-cA 3noj-a1-m2-cA_3noj-a1-m4-cA NTLIGKTGIVVRNIQRAELDSIDALGRLGVATVHEAQNRKGLLSSKMRPIQQGTSLAGSAVTVLVAPGDNWMFHVAVEQCRPGDVLVVSPSSPCTDGYFGDLLATSLQARGVRALIVDAGVRDTQTLRDMGFAVWARAINAQGTVKETLGSVNLPVICGGQLINPGDIVVADDDGVVVVRRDECESTLVAAAERAGLEEEKRLRLAAGELGLDIYKMRERLEAKGLRYVDNIEDL NTLIGKTGIVVRNIQRAELDSIDALGRLGVATVHEAQNRKGLLSSKMRPIQQGTSLAGSAVTVLVAPGDNWMFHVAVEQCRPGDVLVVSPSSPCTDGYFGDLLATSLQARGVRALIVDAGVRDTQTLRDMGFAVWARAINAQGTVKETLGSVNLPVICGGQLINPGDIVVADDDGVVVVRRDECESTLVAAAERAGLEEEKRLRLAAGELGLDIYKMRERLEAKGLRYVDNIEDL 3noj-a2-m2-cA_3noj-a2-m3-cA The structure of HMG/CHA aldolase from the protocatechuate degradation pathway of Pseudomonas putida A5W059 A5W059 1.82 X-RAY DIFFRACTION 111 1.0 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 235 235 3noj-a1-m1-cA_3noj-a1-m2-cA 3noj-a1-m1-cA_3noj-a1-m3-cA 3noj-a1-m2-cA_3noj-a1-m3-cA 3noj-a1-m4-cA_3noj-a1-m5-cA 3noj-a1-m4-cA_3noj-a1-m6-cA 3noj-a1-m5-cA_3noj-a1-m6-cA 3noj-a2-m1-cA_3noj-a2-m2-cA 3noj-a2-m1-cA_3noj-a2-m3-cA NTLIGKTGIVVRNIQRAELDSIDALGRLGVATVHEAQNRKGLLSSKMRPIQQGTSLAGSAVTVLVAPGDNWMFHVAVEQCRPGDVLVVSPSSPCTDGYFGDLLATSLQARGVRALIVDAGVRDTQTLRDMGFAVWARAINAQGTVKETLGSVNLPVICGGQLINPGDIVVADDDGVVVVRRDECESTLVAAAERAGLEEEKRLRLAAGELGLDIYKMRERLEAKGLRYVDNIEDL NTLIGKTGIVVRNIQRAELDSIDALGRLGVATVHEAQNRKGLLSSKMRPIQQGTSLAGSAVTVLVAPGDNWMFHVAVEQCRPGDVLVVSPSSPCTDGYFGDLLATSLQARGVRALIVDAGVRDTQTLRDMGFAVWARAINAQGTVKETLGSVNLPVICGGQLINPGDIVVADDDGVVVVRRDECESTLVAAAERAGLEEEKRLRLAAGELGLDIYKMRERLEAKGLRYVDNIEDL 3now-a2-m2-cA_3now-a2-m3-cA UNC-45 from Drosophila melanogaster Q960B1 Q960B1 2.992 X-RAY DIFFRACTION 66 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 786 786 3now-a2-m1-cA_3now-a2-m2-cA 3now-a2-m1-cA_3now-a2-m3-cA NAKTSTKVKQMMDLTFDLATPIDKRRAAANNLVVLAKEQTGAELLYKDHCIAKVASLTKVEKDQDIYVNMVHLVAALCENSVERTKGVLTELGVPWFMRVLDQKHENCVSTAQFCLQTILNALSGLKNKPDSKPDKELCTRNNREIDTLLTCLVYSITDRTISGAARDGVIELITRNVHYTALEWAERLVEIRGLCRLLDVCSELEDYKYESAMDITGSSSTIASVCLARIYENMYYDEAKARFTDQIDEYIKDKLLAPDMESKVRVTVAITALLNGPLDVGNQVVAREGILQMILAMATTDDELQQRVACECLIAASSKKDKAKALCEQGVDILKRLYHSKNDGIRVRALVGLCKLGSYGGQDAAIRPFGDGAALKLAEACRRFLIKPGKDKDIRRWAADGLAYLTLDAECKEKLIEDKASIHALMDLARGGNQSCLYGVVTTFVNLCNAYEKQEMLPEMIELAKFAKQHIPEEHELDDVDFINKRITVLANEGITTALCALAKTESHNSQELIARVLNAVCGLKELRGKVVQEGGVKALLRMALEGTEKGKRHATQALARIGITINPEVSFSGQRSLDVIRPLLNLLQQDCTALENFESLMALTNLASMNESVRQRIIKEQGVSKIEYYLMEDHLYLTRAAAQCLCNLVMSEDVIKMFEGNNDRVKFLALLCEDEDEETATACAGALAIITSVSVKCCEKILAIASWLDILHTLIANPSPAVQHRGIVIILNMINAGEEIAKKLFETDIMELLSGLGQLPDDTRAKAREVATQCLAAAERYRII NAKTSTKVKQMMDLTFDLATPIDKRRAAANNLVVLAKEQTGAELLYKDHCIAKVASLTKVEKDQDIYVNMVHLVAALCENSVERTKGVLTELGVPWFMRVLDQKHENCVSTAQFCLQTILNALSGLKNKPDSKPDKELCTRNNREIDTLLTCLVYSITDRTISGAARDGVIELITRNVHYTALEWAERLVEIRGLCRLLDVCSELEDYKYESAMDITGSSSTIASVCLARIYENMYYDEAKARFTDQIDEYIKDKLLAPDMESKVRVTVAITALLNGPLDVGNQVVAREGILQMILAMATTDDELQQRVACECLIAASSKKDKAKALCEQGVDILKRLYHSKNDGIRVRALVGLCKLGSYGGQDAAIRPFGDGAALKLAEACRRFLIKPGKDKDIRRWAADGLAYLTLDAECKEKLIEDKASIHALMDLARGGNQSCLYGVVTTFVNLCNAYEKQEMLPEMIELAKFAKQHIPEEHELDDVDFINKRITVLANEGITTALCALAKTESHNSQELIARVLNAVCGLKELRGKVVQEGGVKALLRMALEGTEKGKRHATQALARIGITINPEVSFSGQRSLDVIRPLLNLLQQDCTALENFESLMALTNLASMNESVRQRIIKEQGVSKIEYYLMEDHLYLTRAAAQCLCNLVMSEDVIKMFEGNNDRVKFLALLCEDEDEETATACAGALAIITSVSVKCCEKILAIASWLDILHTLIANPSPAVQHRGIVIILNMINAGEEIAKKLFETDIMELLSGLGQLPDDTRAKAREVATQCLAAAERYRII 3noy-a2-m1-cD_3noy-a2-m1-cC Crystal structure of IspG (gcpE) O67496 O67496 2.7 X-RAY DIFFRACTION 132 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 350 351 3noy-a1-m1-cA_3noy-a1-m1-cB IQKRKTRQIRVGNVKIGGDAPIVVQSMTSTKTHDVEATLNQIKRLYEAGCEIVRVAVPHKEDVEALEEIVKKSPMPVIADIHFAPSYAFLSMEKGVHGIRINPGNIGKEEIVREIVEEAKRRGVAVRIGVNSGSLEKDLLEKYGYPSAEALAESALRWSEKFEKWGFTNYKVSIKGSDVLQNVRANLIFAERTDVPLHIGITEAGMGTKGIIKSSVGIGILLYMGIGDTVRVSLTDDPVVEVETAYEILKSLGLRRRGVEIVACPTCGRIEVDLPKVVKEVQEKLSGVKTPLKVAVMGCVVNAIGEAREADIGLACGRGFAWLFKHGKPIKKVDESEMVDELLKEIQNME MIQKRKTRQIRVGNVKIGGDAPIVVQSMTSTKTHDVEATLNQIKRLYEAGCEIVRVAVPHKEDVEALEEIVKKSPMPVIADIHFAPSYAFLSMEKGVHGIRINPGNIGKEEIVREIVEEAKRRGVAVRIGVNSGSLEKDLLEKYGYPSAEALAESALRWSEKFEKWGFTNYKVSIKGSDVLQNVRANLIFAERTDVPLHIGITEAGMGTKGIIKSSVGIGILLYMGIGDTVRVSLTDDPVVEVETAYEILKSLGLRRRGVEIVACPTCGRIEVDLPKVVKEVQEKLSGVKTPLKVAVMGCVVNAIGEAREADIGLACGRGFAWLFKHGKPIKKVDESEMVDELLKEIQNME 3np5-a1-m1-cB_3np5-a1-m1-cD Crystal structure of an abridged form of the mature ectodomain of the human receptor-type protein tyrosine phosphatase ICA512/IA-2 AT pH 4.5 Q16849 Q16849 1.8 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 3np5-a1-m1-cA_3np5-a1-m1-cC EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQRE EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQRE 3np5-a1-m1-cC_3np5-a1-m1-cB Crystal structure of an abridged form of the mature ectodomain of the human receptor-type protein tyrosine phosphatase ICA512/IA-2 AT pH 4.5 Q16849 Q16849 1.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 89 EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQR EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQRE 3np5-a1-m1-cC_3np5-a1-m1-cD Crystal structure of an abridged form of the mature ectodomain of the human receptor-type protein tyrosine phosphatase ICA512/IA-2 AT pH 4.5 Q16849 Q16849 1.8 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 89 3np5-a1-m1-cA_3np5-a1-m1-cB EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQR EYGYIVTDQKPLSLAAGVKLLEILAEHVHMSSGSFINISVVGPALTFRIRHNEQNLSLADVTQQAGLVKSELEAQTGLQILQTGVGQRE 3npc-a3-m2-cB_3npc-a3-m1-cA Crystal structure of JNK2 complexed with BIRB796 P45984 P45984 2.35 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 357 NQFYSVEVADSTFTVLKRYQQLKPIGSGAQGIVCAAFDTVLGINVAVKKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTACTNFMMTPYVVTRYYRAPEVILGMGYAANVDIWSVGCIMGELVKGCVIFQGTDHIDQWNKVIEQLGTPSAEFMAALQPTVRNYVENRPKYPGIKFEELFPDWIFPSESERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAEAEAPPPQIYDAQLEEREHAIEEWKELIYKEVMDW DNQFYSVEVADSTFTVLKRYQQLKPIGSGAQGIVCAAFDTVLGINVAVKKLSRPFQNQTHAKRAYRELVLLKCVNHKNIISLLNVFTPQKTLEEFQDVYLVMELMDANLCQVIHMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTACTNFMMTPYVVTRYYRAPEVILGMGYAANVDIWSVGCIMGELVKGCVIFQGTDHIDQWNKVIEQLGTPSAEFMAALQPTVRNYVENRPKYPGIKFEELFPDWIFPSESERDKIKTSQARDLLSKMLVIDPDKRISVDEALRHPYITVWYDPAEAEAPPPQIYDAQLEEREHAIEEWKELIYKEVMDW 3npf-a1-m1-cB_3npf-a1-m1-cA Crystal structure of a putative dipeptidyl-peptidase VI (BACOVA_00612) from Bacteroides ovatus at 1.72 A resolution A7LS31 A7LS31 1.72 X-RAY DIFFRACTION 78 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 287 294 DSAYGVVHISVCNLREEGKFTSGSTQALLGPVKVLQYNGWYEIQTPDDYTGWVHRVITPSKERYDEWNRAEKIVVTSHYGFAYEKPDESSQPVSDVVAGNRLKWEGSKGHFYQVSYPDGRKAYLSKSISQPEAGWRASLKQDVESIIETAYSGIPYLWAGTSSKGVDSGLVRTVLFHDIIIPRDASQQAYVGEHIDIAPDFSNVKRGDLVFFGRKATAERKEGISHVGIYLGNKQFIHALGDVHVSSNPADQNYDEFNTKRLLFAVRFLPYINKEKGNTTNKNPFYQ QEIRPPADSAYGVVHISVCNLREEGKFTSGSTQALLGPVKVLQYNGWYEIQTPDDYTGWVHRVITPSKERYDEWNRAEKIVVTSHYGFAYEKPDESSQPVSDVVAGNRLKWEGSKGHFYQVSYPDGRKAYLSKSISQPEAGWRASLKQDVESIIETAYSGIPYLWAGTSSKGVDSGLVRTVLFHDIIIPRDASQQAYVGEHIDIAPDFSNVKRGDLVFFGRKATAERKEGISHVGIYLGNKQFIHALGDVHVSSNPADQNYDEFNTKRLLFAVRFLPYINKEKGNTTNKNPFYQ 3npg-a1-m1-cB_3npg-a1-m1-cD Crystal structure of a protein with unknown function from DUF364 family (PH1506) from PYROCOCCUS HORIKOSHII at 2.70 A resolution O59175 O59175 2.7 X-RAY DIFFRACTION 42 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 233 238 3npg-a1-m1-cC_3npg-a1-m1-cA LLSRIKKKAELAEDLKLVDFSFGLPYTWVLVEGIEGRALGVATLPEEVQRYTNSIEEPSLLEFIDKADSLNIIERTLGVAAINAVSQYYIDLREAKWTELIDEIKRIAIIGNPPVVRTLKEKYEVYVFERNKLWDRDTYSDTLEYHILPEVDGIIASASCIVNGTLDILDRAKKAKLIVITGPTGQLLPEFLKGTKVTHLASKVTNIEKALVKLKLGSFKGFESESIKYVIEV LLSRIKKKAELAEDLKLVDFSFGLPYTWVLVEGIEGRALGVATLPEEVQRYTNSIEEPSLLEFIDKADSLNIIERTLGVAAINAVSQYYIDLREAKWIDVTELIQQDEIKRIAIIGNPPVVRTLKEKYEVYVFERNKLWDRDTYSDTLEYHILPEVDGIIASASCIVNGTLDILDRAKKAKLIVITGPTGQLLPEFLKGTKVTHLASKVTNIEKALVKLKLGSFKGFESESIKYVIEV 3npg-a1-m1-cD_3npg-a1-m1-cC Crystal structure of a protein with unknown function from DUF364 family (PH1506) from PYROCOCCUS HORIKOSHII at 2.70 A resolution O59175 O59175 2.7 X-RAY DIFFRACTION 77 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 238 239 3npg-a1-m1-cB_3npg-a1-m1-cA LLSRIKKKAELAEDLKLVDFSFGLPYTWVLVEGIEGRALGVATLPEEVQRYTNSIEEPSLLEFIDKADSLNIIERTLGVAAINAVSQYYIDLREAKWIDVTELIQQDEIKRIAIIGNPPVVRTLKEKYEVYVFERNKLWDRDTYSDTLEYHILPEVDGIIASASCIVNGTLDILDRAKKAKLIVITGPTGQLLPEFLKGTKVTHLASKVTNIEKALVKLKLGSFKGFESESIKYVIEV GLLSRIKKKAELAEDLKLVDFSFGLPYTWVLVEGIEGRALGVATLPEEVQRYTNSIEEPSLLEFIDKADSLNIIERTLGVAAINAVSQYYIDLREAKWIDVTELIQQDEIKRIAIIGNPPVVRTLKEKYEVYVFERNKLWDRDTYSDTLEYHILPEVDGIIASASCIVNGTLDILDRAKKAKLIVITGPTGQLLPEFLKGTKVTHLASKVTNIEKALVKLKLGSFKGFESESIKYVIEV 3npi-a1-m1-cB_3npi-a1-m1-cA Crystal structure of a TetR family regulatory protein (DIP1788) from CORYNEBACTERIUM DIPHTHERIAE at 2.96 A resolution Q6NFU8 Q6NFU8 2.96 X-RAY DIFFRACTION 175 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 200 203 VSTDTVLDIALSLFSELGFSDAKLEAIAKKSGSKRIHYHFGDKRGLYICCLEEAVRRLRPTAEEYLASAVPVEGVRTIVEAVFHRYVQHPEAVRLQENLHHYGKVAEASPLSDQSAITLQLDRLLLGQDAGAFRPGISAQDVFTLIASIAVFRINSRSTTLNLYGIDNGDNTDGRRAVDTVLAFLTSNLKSADEDSYLSR TEVSTDTVLDIALSLFSELGFSDAKLEAIAKKSGSKRIHYHFGDKRGLYICCLEEAVRRLRPTAEEYLASAVPVEGVRTIVEAVFHRYVQHPEAVRLQENLHHYGKVAEASPLSDQSAITLQLDRLLLGQDAGAFRPGISAQDVFTLIASIAVFRINSRSTTLNLYGIDNGDNTDGRRAVDTVLAFLTSNLKSADEDSYLSRP 3npk-a1-m1-cB_3npk-a1-m1-cA The crystal structure of geranyltranstransferase from Campylobacter jejuni 1.5 X-RAY DIFFRACTION 152 0.996 195099 (Campylobacter jejuni RM1221) 195099 (Campylobacter jejuni RM1221) 256 260 SLNLKELFIHHLEKNLPKVESFHPFFNEALALLKAGGKHFRAQLLLSVVQSNKPELLNQALDVALALEFIHTYSLIHDDLPADNADFRRGIPTLHKSYDETTAILVGDALNTEAFLVLSHAHLKDEIKIKLIKTLAFNAGLNGVIGQAIDCFFEDKRLSLNELEFLHTHKTARLIAAALKGCEICELNNEESNQIYKLGLKLGLIFQINDDIIDNSFVNLLGLEQAIKTKENLLNECEQDLEKLNEKLAQIQNLII LNLKELFIHHLEKNLPKVESFHPFFNEALALLKAGGKHFRAQLLLSVVQSNKPELLNQALDVALALEFIHTYSLIHDDLPADNADFRRGIPTLHKSYDETTAILVGDALNTEAFLVLSHAHLKDEIKIKLIKTLAFNAGLNGVIGQAIDCFFEDKRLSLNELEFLHTHKTARLIAAALKGCEICELNNEESNQIYKLGLKLGLIFQINDDIIDVTNSFVNLLGLEQAIKTKENLLNECEQDLEKLNEKLAQIQNLIIQYL 3npp-a2-m2-cB_3npp-a2-m3-cB Crystal structure of a Pfam DUF1093 family protein (BSU39620) from Bacillus subtilis at 2.15 A resolution P54940 P54940 2.15 X-RAY DIFFRACTION 32 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 86 86 3npp-a2-m1-cA_3npp-a2-m2-cA 3npp-a2-m1-cA_3npp-a2-m3-cA 3npp-a2-m1-cB_3npp-a2-m2-cB 3npp-a2-m1-cB_3npp-a2-m3-cB 3npp-a2-m2-cA_3npp-a2-m3-cA GRFNPFIHQQDVYVQIDRDGRHLSPGGTEYTLDGYNASGKKEEVTFFAGKELRKNAYLKVKAKGKYVETWEEVKFEDPDSVQSKLK GRFNPFIHQQDVYVQIDRDGRHLSPGGTEYTLDGYNASGKKEEVTFFAGKELRKNAYLKVKAKGKYVETWEEVKFEDPDSVQSKLK 3npp-a2-m3-cA_3npp-a2-m3-cB Crystal structure of a Pfam DUF1093 family protein (BSU39620) from Bacillus subtilis at 2.15 A resolution P54940 P54940 2.15 X-RAY DIFFRACTION 72 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 86 86 3npp-a1-m1-cA_3npp-a1-m1-cB 3npp-a2-m1-cA_3npp-a2-m1-cB 3npp-a2-m2-cA_3npp-a2-m2-cB GRFNPFIHQQDVYVQIDRDGRHLSPGGTEYTLDGYNASGKKEEVTFFAGKELRKNAYLKVKAKGKYVETWEEVKFEDPDSVQSKLK GRFNPFIHQQDVYVQIDRDGRHLSPGGTEYTLDGYNASGKKEEVTFFAGKELRKNAYLKVKAKGKYVETWEEVKFEDPDSVQSKLK 3npz-a1-m1-cC_3npz-a1-m1-cB Prolactin Receptor (PRLR) Complexed with the Natural Hormone (PRL) P05710 P05710 3.35 X-RAY DIFFRACTION 32 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 199 202 1f6f-a1-m1-cC_1f6f-a1-m1-cB 3ew3-a1-m1-cC_3ew3-a1-m1-cB QSPPGKPEIHKCRSPDKETFTCWWNPGTDGGLPTNYSLTYSKEGEKTTYECPDYKTSGPNSCFFSKQYTSIWKIYIITVNATNQMGSSSSDPLYVDVTYIVEPEPPRNLTLEVKQKKTYLWVKWSPPTITDVKTGWFTMEYEIRLKPEEEWEIHFTGHQTQFKVFDLYPGQKYLVQTRCKPDHGYWSRWSQESSVEMPN QSPPGKPEIHKCRSPDKETFTCWWNPGTDGGLPTNYSLTYSKEGEKTTYECPDYKTSGPNSCFFSKQYTSIWKIYIITVNATNQMGSSSSDPLYVDVTYIVEPEPPRNLTLEVKQLKKTYLWVKWSPPTITDVKTGWFTMEYEIRLKPEEAEEWEIHFTGHQTQFKVFDLYPGQKYLVQTRCKPDHGYWSRWSQESSVEMPN 3nq4-a1-m1-cG_3nq4-a1-m2-cZ 30mer structure of Lumazine synthase from Salmonella typhimurium LT2 P66038 P66038 3.5 X-RAY DIFFRACTION 21 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 154 154 3mk3-a1-m1-c1_3mk3-a1-m1-c5 3mk3-a1-m1-c2_3mk3-a1-m1-ch 3mk3-a1-m1-c3_3mk3-a1-m1-cT 3mk3-a1-m1-c4_3mk3-a1-m1-cX 3mk3-a1-m1-c6_3mk3-a1-m1-cp 3mk3-a1-m1-c7_3mk3-a1-m1-cm 3mk3-a1-m1-c8_3mk3-a1-m1-ce 3mk3-a1-m1-c9_3mk3-a1-m1-ci 3mk3-a1-m1-ca_3mk3-a1-m1-cl 3mk3-a1-m1-cA_3mk3-a1-m1-cv 3mk3-a1-m1-cB_3mk3-a1-m1-cU 3mk3-a1-m1-cC_3mk3-a1-m1-cR 3mk3-a1-m1-cd_3mk3-a1-m1-cj 3mk3-a1-m1-cD_3mk3-a1-m1-cJ 3mk3-a1-m1-cE_3mk3-a1-m1-cN 3mk3-a1-m1-cF_3mk3-a1-m1-cQ 3mk3-a1-m1-cG_3mk3-a1-m1-cf 3mk3-a1-m1-cH_3mk3-a1-m1-cc 3mk3-a1-m1-cI_3mk3-a1-m1-cO 3mk3-a1-m1-cK_3mk3-a1-m1-cb 3mk3-a1-m1-cL_3mk3-a1-m1-ck 3mk3-a1-m1-cM_3mk3-a1-m1-cw 3mk3-a1-m1-cn_3mk3-a1-m1-ct 3mk3-a1-m1-co_3mk3-a1-m1-cx 3mk3-a1-m1-cP_3mk3-a1-m1-cg 3mk3-a1-m1-cs_3mk3-a1-m1-cy 3mk3-a1-m1-cS_3mk3-a1-m1-cY 3mk3-a1-m1-cV_3mk3-a1-m1-cu 3mk3-a1-m1-cW_3mk3-a1-m1-cr 3mk3-a1-m1-cZ_3mk3-a1-m1-cq 3nq4-a1-m1-c1_3nq4-a1-m2-cP 3nq4-a1-m1-c2_3nq4-a1-m2-c2 3nq4-a1-m1-c3_3nq4-a1-m1-cT 3nq4-a1-m1-c4_3nq4-a1-m1-cX 3nq4-a1-m1-cA_3nq4-a1-m2-cL 3nq4-a1-m1-cB_3nq4-a1-m1-cU 3nq4-a1-m1-cC_3nq4-a1-m1-cR 3nq4-a1-m1-cD_3nq4-a1-m1-cJ 3nq4-a1-m1-cE_3nq4-a1-m1-cN 3nq4-a1-m1-cF_3nq4-a1-m1-cQ 3nq4-a1-m1-cH_3nq4-a1-m2-cW 3nq4-a1-m1-cI_3nq4-a1-m1-cO 3nq4-a1-m1-cK_3nq4-a1-m2-cV 3nq4-a1-m1-cL_3nq4-a1-m2-cA 3nq4-a1-m1-cM_3nq4-a1-m2-cM 3nq4-a1-m1-cP_3nq4-a1-m2-c1 3nq4-a1-m1-cS_3nq4-a1-m1-cY 3nq4-a1-m1-cV_3nq4-a1-m2-cK 3nq4-a1-m1-cW_3nq4-a1-m2-cH 3nq4-a1-m1-cZ_3nq4-a1-m2-cG 3nq4-a1-m2-c3_3nq4-a1-m2-cT 3nq4-a1-m2-c4_3nq4-a1-m2-cX 3nq4-a1-m2-cB_3nq4-a1-m2-cU 3nq4-a1-m2-cC_3nq4-a1-m2-cR 3nq4-a1-m2-cD_3nq4-a1-m2-cJ 3nq4-a1-m2-cE_3nq4-a1-m2-cN 3nq4-a1-m2-cF_3nq4-a1-m2-cQ 3nq4-a1-m2-cI_3nq4-a1-m2-cO 3nq4-a1-m2-cS_3nq4-a1-m2-cY MNIIKANVAAPDARVAITIARFNQFINDSLLDGAVDALTRIGQVKDDNITVVWVPGAYELPLATEALAKSGKYDAVVALGTVIRGGTAHFEYVAGGASNGLASVAQDSGVPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAI MNIIKANVAAPDARVAITIARFNQFINDSLLDGAVDALTRIGQVKDDNITVVWVPGAYELPLATEALAKSGKYDAVVALGTVIRGGTAHFEYVAGGASNGLASVAQDSGVPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAI 3nq4-a1-m2-c4_3nq4-a1-m2-cZ 30mer structure of Lumazine synthase from Salmonella typhimurium LT2 P66038 P66038 3.5 X-RAY DIFFRACTION 87 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 154 154 3mk3-a1-m1-c1_3mk3-a1-m1-c2 3mk3-a1-m1-c1_3mk3-a1-m1-cZ 3mk3-a1-m1-c2_3mk3-a1-m1-c3 3mk3-a1-m1-c3_3mk3-a1-m1-c4 3mk3-a1-m1-c4_3mk3-a1-m1-cZ 3mk3-a1-m1-c5_3mk3-a1-m1-c6 3mk3-a1-m1-c5_3mk3-a1-m1-c9 3mk3-a1-m1-c6_3mk3-a1-m1-c7 3mk3-a1-m1-c7_3mk3-a1-m1-c8 3mk3-a1-m1-c8_3mk3-a1-m1-c9 3mk3-a1-m1-ca_3mk3-a1-m1-cb 3mk3-a1-m1-cA_3mk3-a1-m1-cB 3mk3-a1-m1-ca_3mk3-a1-m1-ce 3mk3-a1-m1-cA_3mk3-a1-m1-cE 3mk3-a1-m1-cb_3mk3-a1-m1-cc 3mk3-a1-m1-cB_3mk3-a1-m1-cC 3mk3-a1-m1-cc_3mk3-a1-m1-cd 3mk3-a1-m1-cC_3mk3-a1-m1-cD 3mk3-a1-m1-cd_3mk3-a1-m1-ce 3mk3-a1-m1-cD_3mk3-a1-m1-cE 3mk3-a1-m1-cf_3mk3-a1-m1-cg 3mk3-a1-m1-cF_3mk3-a1-m1-cG 3mk3-a1-m1-cf_3mk3-a1-m1-cj 3mk3-a1-m1-cF_3mk3-a1-m1-cJ 3mk3-a1-m1-cg_3mk3-a1-m1-ch 3mk3-a1-m1-cG_3mk3-a1-m1-cH 3mk3-a1-m1-ch_3mk3-a1-m1-ci 3mk3-a1-m1-cH_3mk3-a1-m1-cI 3mk3-a1-m1-ci_3mk3-a1-m1-cj 3mk3-a1-m1-cI_3mk3-a1-m1-cJ 3mk3-a1-m1-ck_3mk3-a1-m1-cl 3mk3-a1-m1-cK_3mk3-a1-m1-cL 3mk3-a1-m1-ck_3mk3-a1-m1-co 3mk3-a1-m1-cK_3mk3-a1-m1-cO 3mk3-a1-m1-cl_3mk3-a1-m1-cm 3mk3-a1-m1-cL_3mk3-a1-m1-cM 3mk3-a1-m1-cm_3mk3-a1-m1-cn 3mk3-a1-m1-cM_3mk3-a1-m1-cN 3mk3-a1-m1-cn_3mk3-a1-m1-co 3mk3-a1-m1-cN_3mk3-a1-m1-cO 3mk3-a1-m1-cp_3mk3-a1-m1-cq 3mk3-a1-m1-cP_3mk3-a1-m1-cQ 3mk3-a1-m1-cp_3mk3-a1-m1-ct 3mk3-a1-m1-cP_3mk3-a1-m1-cT 3mk3-a1-m1-cq_3mk3-a1-m1-cr 3mk3-a1-m1-cQ_3mk3-a1-m1-cR 3mk3-a1-m1-cr_3mk3-a1-m1-cs 3mk3-a1-m1-cR_3mk3-a1-m1-cS 3mk3-a1-m1-cs_3mk3-a1-m1-ct 3mk3-a1-m1-cS_3mk3-a1-m1-cT 3mk3-a1-m1-cu_3mk3-a1-m1-cv 3mk3-a1-m1-cU_3mk3-a1-m1-cV 3mk3-a1-m1-cu_3mk3-a1-m1-cy 3mk3-a1-m1-cU_3mk3-a1-m1-cY 3mk3-a1-m1-cv_3mk3-a1-m1-cw 3mk3-a1-m1-cV_3mk3-a1-m1-cW 3mk3-a1-m1-cw_3mk3-a1-m1-cx 3mk3-a1-m1-cW_3mk3-a1-m1-cX 3mk3-a1-m1-cx_3mk3-a1-m1-cy 3mk3-a1-m1-cX_3mk3-a1-m1-cY 3nq4-a1-m1-c1_3nq4-a1-m1-c2 3nq4-a1-m1-c1_3nq4-a1-m1-cZ 3nq4-a1-m1-c2_3nq4-a1-m1-c3 3nq4-a1-m1-c3_3nq4-a1-m1-c4 3nq4-a1-m1-c4_3nq4-a1-m1-cZ 3nq4-a1-m1-cA_3nq4-a1-m1-cB 3nq4-a1-m1-cA_3nq4-a1-m1-cE 3nq4-a1-m1-cB_3nq4-a1-m1-cC 3nq4-a1-m1-cC_3nq4-a1-m1-cD 3nq4-a1-m1-cD_3nq4-a1-m1-cE 3nq4-a1-m1-cF_3nq4-a1-m1-cG 3nq4-a1-m1-cF_3nq4-a1-m1-cJ 3nq4-a1-m1-cG_3nq4-a1-m1-cH 3nq4-a1-m1-cH_3nq4-a1-m1-cI 3nq4-a1-m1-cI_3nq4-a1-m1-cJ 3nq4-a1-m1-cK_3nq4-a1-m1-cL 3nq4-a1-m1-cK_3nq4-a1-m1-cO 3nq4-a1-m1-cL_3nq4-a1-m1-cM 3nq4-a1-m1-cM_3nq4-a1-m1-cN 3nq4-a1-m1-cN_3nq4-a1-m1-cO 3nq4-a1-m1-cP_3nq4-a1-m1-cQ 3nq4-a1-m1-cP_3nq4-a1-m1-cT 3nq4-a1-m1-cQ_3nq4-a1-m1-cR 3nq4-a1-m1-cR_3nq4-a1-m1-cS 3nq4-a1-m1-cS_3nq4-a1-m1-cT 3nq4-a1-m1-cU_3nq4-a1-m1-cV 3nq4-a1-m1-cU_3nq4-a1-m1-cY 3nq4-a1-m1-cV_3nq4-a1-m1-cW 3nq4-a1-m1-cW_3nq4-a1-m1-cX 3nq4-a1-m1-cX_3nq4-a1-m1-cY 3nq4-a1-m2-c1_3nq4-a1-m2-c2 3nq4-a1-m2-c1_3nq4-a1-m2-cZ 3nq4-a1-m2-c2_3nq4-a1-m2-c3 3nq4-a1-m2-c3_3nq4-a1-m2-c4 3nq4-a1-m2-cA_3nq4-a1-m2-cB 3nq4-a1-m2-cA_3nq4-a1-m2-cE 3nq4-a1-m2-cB_3nq4-a1-m2-cC 3nq4-a1-m2-cC_3nq4-a1-m2-cD 3nq4-a1-m2-cD_3nq4-a1-m2-cE 3nq4-a1-m2-cF_3nq4-a1-m2-cG 3nq4-a1-m2-cF_3nq4-a1-m2-cJ 3nq4-a1-m2-cG_3nq4-a1-m2-cH 3nq4-a1-m2-cH_3nq4-a1-m2-cI 3nq4-a1-m2-cI_3nq4-a1-m2-cJ 3nq4-a1-m2-cK_3nq4-a1-m2-cL 3nq4-a1-m2-cK_3nq4-a1-m2-cO 3nq4-a1-m2-cL_3nq4-a1-m2-cM 3nq4-a1-m2-cM_3nq4-a1-m2-cN 3nq4-a1-m2-cN_3nq4-a1-m2-cO 3nq4-a1-m2-cP_3nq4-a1-m2-cQ 3nq4-a1-m2-cP_3nq4-a1-m2-cT 3nq4-a1-m2-cQ_3nq4-a1-m2-cR 3nq4-a1-m2-cR_3nq4-a1-m2-cS 3nq4-a1-m2-cS_3nq4-a1-m2-cT 3nq4-a1-m2-cU_3nq4-a1-m2-cV 3nq4-a1-m2-cU_3nq4-a1-m2-cY 3nq4-a1-m2-cV_3nq4-a1-m2-cW 3nq4-a1-m2-cW_3nq4-a1-m2-cX 3nq4-a1-m2-cX_3nq4-a1-m2-cY MNIIKANVAAPDARVAITIARFNQFINDSLLDGAVDALTRIGQVKDDNITVVWVPGAYELPLATEALAKSGKYDAVVALGTVIRGGTAHFEYVAGGASNGLASVAQDSGVPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAI MNIIKANVAAPDARVAITIARFNQFINDSLLDGAVDALTRIGQVKDDNITVVWVPGAYELPLATEALAKSGKYDAVVALGTVIRGGTAHFEYVAGGASNGLASVAQDSGVPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAI 3nq4-a1-m2-cX_3nq4-a1-m2-cZ 30mer structure of Lumazine synthase from Salmonella typhimurium LT2 P66038 P66038 3.5 X-RAY DIFFRACTION 32 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 154 154 3mk3-a1-m1-c1_3mk3-a1-m1-c6 3mk3-a1-m1-c1_3mk3-a1-m1-cq 3mk3-a1-m1-c2_3mk3-a1-m1-c5 3mk3-a1-m1-c2_3mk3-a1-m1-ci 3mk3-a1-m1-c3_3mk3-a1-m1-ch 3mk3-a1-m1-c3_3mk3-a1-m1-cP 3mk3-a1-m1-c4_3mk3-a1-m1-cT 3mk3-a1-m1-c4_3mk3-a1-m1-cY 3mk3-a1-m1-c5_3mk3-a1-m1-ci 3mk3-a1-m1-c6_3mk3-a1-m1-cq 3mk3-a1-m1-c7_3mk3-a1-m1-cn 3mk3-a1-m1-c7_3mk3-a1-m1-cp 3mk3-a1-m1-c8_3mk3-a1-m1-ca 3mk3-a1-m1-c8_3mk3-a1-m1-cm 3mk3-a1-m1-c9_3mk3-a1-m1-ce 3mk3-a1-m1-c9_3mk3-a1-m1-cj 3mk3-a1-m1-ca_3mk3-a1-m1-cm 3mk3-a1-m1-cA_3mk3-a1-m1-cN 3mk3-a1-m1-cA_3mk3-a1-m1-cw 3mk3-a1-m1-cb_3mk3-a1-m1-cl 3mk3-a1-m1-cB_3mk3-a1-m1-cv 3mk3-a1-m1-cB_3mk3-a1-m1-cV 3mk3-a1-m1-cC_3mk3-a1-m1-cS 3mk3-a1-m1-cC_3mk3-a1-m1-cU 3mk3-a1-m1-cd_3mk3-a1-m1-cf 3mk3-a1-m1-cD_3mk3-a1-m1-cF 3mk3-a1-m1-cD_3mk3-a1-m1-cR 3mk3-a1-m1-ce_3mk3-a1-m1-cj 3mk3-a1-m1-cE_3mk3-a1-m1-cJ 3mk3-a1-m1-cE_3mk3-a1-m1-cO 3mk3-a1-m1-cF_3mk3-a1-m1-cR 3mk3-a1-m1-cG_3mk3-a1-m1-cg 3mk3-a1-m1-cG_3mk3-a1-m1-cQ 3mk3-a1-m1-cH_3mk3-a1-m1-cd 3mk3-a1-m1-cH_3mk3-a1-m1-cf 3mk3-a1-m1-cI_3mk3-a1-m1-cc 3mk3-a1-m1-cI_3mk3-a1-m1-cK 3mk3-a1-m1-cJ_3mk3-a1-m1-cO 3mk3-a1-m1-cK_3mk3-a1-m1-cc 3mk3-a1-m1-ck_3mk3-a1-m1-cx 3mk3-a1-m1-cL_3mk3-a1-m1-cb 3mk3-a1-m1-cL_3mk3-a1-m1-cl 3mk3-a1-m1-cM_3mk3-a1-m1-ck 3mk3-a1-m1-cM_3mk3-a1-m1-cx 3mk3-a1-m1-cn_3mk3-a1-m1-cp 3mk3-a1-m1-cN_3mk3-a1-m1-cw 3mk3-a1-m1-co_3mk3-a1-m1-ct 3mk3-a1-m1-co_3mk3-a1-m1-cy 3mk3-a1-m1-cP_3mk3-a1-m1-ch 3mk3-a1-m1-cQ_3mk3-a1-m1-cg 3mk3-a1-m1-cs_3mk3-a1-m1-cu 3mk3-a1-m1-cS_3mk3-a1-m1-cU 3mk3-a1-m1-ct_3mk3-a1-m1-cy 3mk3-a1-m1-cT_3mk3-a1-m1-cY 3mk3-a1-m1-cV_3mk3-a1-m1-cv 3mk3-a1-m1-cW_3mk3-a1-m1-cs 3mk3-a1-m1-cW_3mk3-a1-m1-cu 3mk3-a1-m1-cX_3mk3-a1-m1-cr 3mk3-a1-m1-cX_3mk3-a1-m1-cZ 3mk3-a1-m1-cZ_3mk3-a1-m1-cr 3nq4-a1-m1-c1_3nq4-a1-m2-cG 3nq4-a1-m1-c1_3nq4-a1-m2-cQ 3nq4-a1-m1-c2_3nq4-a1-m2-c3 3nq4-a1-m1-c2_3nq4-a1-m2-cP 3nq4-a1-m1-c3_3nq4-a1-m1-cP 3nq4-a1-m1-c3_3nq4-a1-m2-c2 3nq4-a1-m1-c4_3nq4-a1-m1-cT 3nq4-a1-m1-c4_3nq4-a1-m1-cY 3nq4-a1-m1-cA_3nq4-a1-m1-cN 3nq4-a1-m1-cA_3nq4-a1-m2-cM 3nq4-a1-m1-cB_3nq4-a1-m1-cV 3nq4-a1-m1-cB_3nq4-a1-m2-cL 3nq4-a1-m1-cC_3nq4-a1-m1-cS 3nq4-a1-m1-cC_3nq4-a1-m1-cU 3nq4-a1-m1-cD_3nq4-a1-m1-cF 3nq4-a1-m1-cD_3nq4-a1-m1-cR 3nq4-a1-m1-cE_3nq4-a1-m1-cJ 3nq4-a1-m1-cE_3nq4-a1-m1-cO 3nq4-a1-m1-cF_3nq4-a1-m1-cR 3nq4-a1-m1-cG_3nq4-a1-m1-cQ 3nq4-a1-m1-cG_3nq4-a1-m2-c1 3nq4-a1-m1-cH_3nq4-a1-m2-cX 3nq4-a1-m1-cH_3nq4-a1-m2-cZ 3nq4-a1-m1-cI_3nq4-a1-m1-cK 3nq4-a1-m1-cI_3nq4-a1-m2-cW 3nq4-a1-m1-cJ_3nq4-a1-m1-cO 3nq4-a1-m1-cK_3nq4-a1-m2-cW 3nq4-a1-m1-cL_3nq4-a1-m2-cB 3nq4-a1-m1-cL_3nq4-a1-m2-cV 3nq4-a1-m1-cM_3nq4-a1-m2-cA 3nq4-a1-m1-cM_3nq4-a1-m2-cN 3nq4-a1-m1-cN_3nq4-a1-m2-cM 3nq4-a1-m1-cP_3nq4-a1-m2-c2 3nq4-a1-m1-cQ_3nq4-a1-m2-c1 3nq4-a1-m1-cS_3nq4-a1-m1-cU 3nq4-a1-m1-cT_3nq4-a1-m1-cY 3nq4-a1-m1-cV_3nq4-a1-m2-cL 3nq4-a1-m1-cW_3nq4-a1-m2-cI 3nq4-a1-m1-cW_3nq4-a1-m2-cK 3nq4-a1-m1-cX_3nq4-a1-m1-cZ 3nq4-a1-m1-cX_3nq4-a1-m2-cH 3nq4-a1-m1-cZ_3nq4-a1-m2-cH 3nq4-a1-m2-c3_3nq4-a1-m2-cP 3nq4-a1-m2-c4_3nq4-a1-m2-cT 3nq4-a1-m2-c4_3nq4-a1-m2-cY 3nq4-a1-m2-cA_3nq4-a1-m2-cN 3nq4-a1-m2-cB_3nq4-a1-m2-cV 3nq4-a1-m2-cC_3nq4-a1-m2-cS 3nq4-a1-m2-cC_3nq4-a1-m2-cU 3nq4-a1-m2-cD_3nq4-a1-m2-cF 3nq4-a1-m2-cD_3nq4-a1-m2-cR 3nq4-a1-m2-cE_3nq4-a1-m2-cJ 3nq4-a1-m2-cE_3nq4-a1-m2-cO 3nq4-a1-m2-cF_3nq4-a1-m2-cR 3nq4-a1-m2-cG_3nq4-a1-m2-cQ 3nq4-a1-m2-cI_3nq4-a1-m2-cK 3nq4-a1-m2-cJ_3nq4-a1-m2-cO 3nq4-a1-m2-cS_3nq4-a1-m2-cU 3nq4-a1-m2-cT_3nq4-a1-m2-cY MNIIKANVAAPDARVAITIARFNQFINDSLLDGAVDALTRIGQVKDDNITVVWVPGAYELPLATEALAKSGKYDAVVALGTVIRGGTAHFEYVAGGASNGLASVAQDSGVPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAI MNIIKANVAAPDARVAITIARFNQFINDSLLDGAVDALTRIGQVKDDNITVVWVPGAYELPLATEALAKSGKYDAVVALGTVIRGGTAHFEYVAGGASNGLASVAQDSGVPVAFGVLTTESIEQAIERAGTKAGNKGAEAALTALEMINVLKAI 3nqb-a1-m1-cA_3nqb-a1-m2-cB Crystal Structure of Adenine Deaminase from Agrobacterium tumefaciens (str. C 58) Q7CUX4 Q7CUX4 2.21 X-RAY DIFFRACTION 175 0.998 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 571 571 3t81-a1-m1-cB_3t81-a1-m1-cA 3t8l-a1-m1-cA_3t8l-a1-m1-cB EPADLNDDTLRARAVAAARGDQRFDVLITGGTLVDVVTGELRPADIGIVGALIASVHEPASRRDAAQVIDAGGAYVSPGLIDTHHIESSITPAAYAAAVVARGVTTIVWDPHEFGNVHGVDGVRWAAKAIENLPLRAILLAPSCVPSAPGLERGGADFDAAILADLLSWPEIGGIAEINRGVIERDPRSGIVQAGLAAEKLVCGHARGLKNADLNAFAAGVSSDHELVSGEDLAKLRAGLTIELRGSHDHLLPEFVAALNTLGHLPQTVTLCTDDVFPDDLLQGGGLDDVVRRLVRYGLKPEWALRAATLNAAQRLGRSDLGLIAAGRRADIVVFEDLNGFSARHVLASGRAVAEGGRLVDIPTCDTTVLKGSKLPLRANDFLVKSQGAKVRLATIDRPRFTQWGETEADVKDGFVVPPEGATISVTHRHGAEPTTKTGFLTGWGRWNGAFATTVSHDSHNLTVFGGNAGDALAANAVIGTGGGAVASEGKVTAILPLPLSGLVSDAPLEEVARAFEDLREAVGKVVEWQPPYLVFKACFGATLACNIGPHQTDGIADVLTGKVESPVIEV AEPADLNDDTLRARAVAAARGDQRFDVLITGGTLVDVVTGELRPADIGIVGALIASVHEPASRRDAAQVIDAGGAYVSPGLIDTHHIESSITPAAYAAAVVARGVTTIVWDPHEFGNVHGVDGVRWAAKAIENLPLRAILLAPSCVPSAPGLERGGADFDAAILADLLSWPEIGGIAEINRGVIERDPRSGIVQAGLAAEKLVCGHARGLKNADLNAFAAGVSSDHELVSGEDLAKLRAGLTIELRGSHDHLLPEFVAALNTLGHLPQTVTLCTDDVFPDDLLQGGGLDDVVRRLVRYGLKPEWALRAATLNAAQRLGRSDLGLIAAGRRADIVVFEDLNGFSARHVLASGRAVAEGGRLVDIPTCDTTVLKGSKLPLRANDFLVKSQGAKVRLATIDRPRFTQWGETEADVKDGFVVPPEGATISVTHRHGAEPTTKTGFLTGWGRWNGAFATTVSHDSHNLTVFGGNAGDALAANAVIGTGGGAVASEGKVTAILPLPLSGLVSDAPLEEVARAFEDLREAVGKVVEWQPPYLVFKACFGATLACNIGPHQTDGIADVLTGKVESPVIE 3nqh-a2-m1-cA_3nqh-a2-m2-cA Crystal structure of a glycosyl hydrolase (BT_2959) from BACTEROIDES THETAIOTAOMICRON VPI-5482 at 2.11 A resolution Q8A3J5 Q8A3J5 2.11 X-RAY DIFFRACTION 39 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 426 426 KTEKVVNNGIPWFDDRGEIVNAHGACIVEENGRYYLFGEYKSDKSNAFPGFSCYSSDDLVNWKFERVVLPQSSGILGPDRVGERVKVKCPSTGEYVYHADDNYKDPHIGYATCSTIAGEYKLHGPLLYEGKPIRRWDGTYQDTDGTGYLLLHGGIVYRLSKDYRTAEEKVVSGVGGSHGESPAFKKDGTYFFLFSNLTSWEKNDNFYFTAPSVKGPWTRQGLFAPEGSLTYNSQTTFVFPLKCGEDTIPFGDRWSYPHQASAATYVWPQVDGTKLSIPEYWPSWDVDKLKPVNPLRKGKTVDLKKITFSKEADWKVEEGRISSNVKGSTLSIPFTGSCVAVGETNCHSGYARNILDKKGEKIYSSLVDFYSKANDHATRFKTPQLAEGEYTLVIEVTGISPTWTDKTKRIYGSDDCFVTITDIVKL KTEKVVNNGIPWFDDRGEIVNAHGACIVEENGRYYLFGEYKSDKSNAFPGFSCYSSDDLVNWKFERVVLPQSSGILGPDRVGERVKVKCPSTGEYVYHADDNYKDPHIGYATCSTIAGEYKLHGPLLYEGKPIRRWDGTYQDTDGTGYLLLHGGIVYRLSKDYRTAEEKVVSGVGGSHGESPAFKKDGTYFFLFSNLTSWEKNDNFYFTAPSVKGPWTRQGLFAPEGSLTYNSQTTFVFPLKCGEDTIPFGDRWSYPHQASAATYVWPQVDGTKLSIPEYWPSWDVDKLKPVNPLRKGKTVDLKKITFSKEADWKVEEGRISSNVKGSTLSIPFTGSCVAVGETNCHSGYARNILDKKGEKIYSSLVDFYSKANDHATRFKTPQLAEGEYTLVIEVTGISPTWTDKTKRIYGSDDCFVTITDIVKL 3nqi-a5-m1-cA_3nqi-a5-m2-cA Crystal structure of a Putative lipoprotein (BF3042) from Bacteroides fragilis NCTC 9343 at 1.87 A resolution A0A380YR22 A0A380YR22 1.87 X-RAY DIFFRACTION 17 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 230 230 3nqi-a5-m1-cB_3nqi-a5-m2-cB 3nqi-a6-m1-cC_3nqi-a6-m3-cC 3nqi-a6-m1-cD_3nqi-a6-m3-cD PQQWAGVVKVNDRGYVTFTDAAGTELIPTNTIPVTLNARAYIYCQVDEGQKSIKITLLADPTGIDATAITTPKVGESGDVTTNAPVGSLSFVSGYSTVAPFQFSENTIVLPVLYRVKNVTTTEDIKNELAKHTFTLVCYTDDIKSGDTILKLYLRYKVEDEPAAIAERATRTSSFKAYEISQILREYTLKSGQTKPAKITIVAQQNEYNNKLEDTSTIEKVYEIEYKTAE PQQWAGVVKVNDRGYVTFTDAAGTELIPTNTIPVTLNARAYIYCQVDEGQKSIKITLLADPTGIDATAITTPKVGESGDVTTNAPVGSLSFVSGYSTVAPFQFSENTIVLPVLYRVKNVTTTEDIKNELAKHTFTLVCYTDDIKSGDTILKLYLRYKVEDEPAAIAERATRTSSFKAYEISQILREYTLKSGQTKPAKITIVAQQNEYNNKLEDTSTIEKVYEIEYKTAE 3nqi-a6-m1-cC_3nqi-a6-m3-cD Crystal structure of a Putative lipoprotein (BF3042) from Bacteroides fragilis NCTC 9343 at 1.87 A resolution A0A380YR22 A0A380YR22 1.87 X-RAY DIFFRACTION 27 0.996 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 228 228 3nqi-a5-m1-cB_3nqi-a5-m2-cA 3nqi-a5-m2-cB_3nqi-a5-m1-cA 3nqi-a6-m1-cD_3nqi-a6-m3-cC PQQWAGVVKVNDRGYVTFTDAAGTELIPTNTIPVTLNARAYIYCQVDEKSIKITLLADPTGIDATAITTPKVGESGDVTTNAPVGSLSFVSGYSTVAPFQFSENTIVLPVLYRVKNVTTTEDIKNELAKHTFTLVCYTDDIKSGDTILKLYLRYKVEDEPAAIAERATRTSSFKAYEISQILREYTLKSGQTKPAKITIVAQQNEYNNKLEDTSTIEKVYEIEYKTAE QQWAGVVKVNDRGYVTFTDAAGTELIPTNTIPVTLNARAYIYCQVDEPKSIKITLLADPTGIDATAITTPKVGESGDVTTNAPVGSLSFVSGYSTVAPFQFSENTIVLPVLYRVKNVTTTEDIKNELAKHTFTLVCYTDDIKSGDTILKLYLRYKVEDEPAAIAERATRTSSFKAYEISQILREYTLKSGQTKPAKITIVAQQNEYNNKLEDTSTIEKVYEIEYKTAE 3nqi-a6-m3-cC_3nqi-a6-m3-cD Crystal structure of a Putative lipoprotein (BF3042) from Bacteroides fragilis NCTC 9343 at 1.87 A resolution A0A380YR22 A0A380YR22 1.87 X-RAY DIFFRACTION 35 0.996 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 228 228 3nqi-a5-m1-cB_3nqi-a5-m1-cA 3nqi-a5-m2-cB_3nqi-a5-m2-cA 3nqi-a6-m1-cC_3nqi-a6-m1-cD PQQWAGVVKVNDRGYVTFTDAAGTELIPTNTIPVTLNARAYIYCQVDEKSIKITLLADPTGIDATAITTPKVGESGDVTTNAPVGSLSFVSGYSTVAPFQFSENTIVLPVLYRVKNVTTTEDIKNELAKHTFTLVCYTDDIKSGDTILKLYLRYKVEDEPAAIAERATRTSSFKAYEISQILREYTLKSGQTKPAKITIVAQQNEYNNKLEDTSTIEKVYEIEYKTAE QQWAGVVKVNDRGYVTFTDAAGTELIPTNTIPVTLNARAYIYCQVDEPKSIKITLLADPTGIDATAITTPKVGESGDVTTNAPVGSLSFVSGYSTVAPFQFSENTIVLPVLYRVKNVTTTEDIKNELAKHTFTLVCYTDDIKSGDTILKLYLRYKVEDEPAAIAERATRTSSFKAYEISQILREYTLKSGQTKPAKITIVAQQNEYNNKLEDTSTIEKVYEIEYKTAE 3nqk-a1-m1-cA_3nqk-a1-m2-cA Crystal structure of a STRUCTURAL GENOMICS, UNKNOWN FUNCTION (BACOVA_03322) from Bacteroides ovatus at 2.61 A resolution A7LZP6 A7LZP6 2.61 X-RAY DIFFRACTION 80 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 295 295 QYVSFKAPIASGSDGVTTIYVRYKDNGKVTYQLPIIVSGSTVNSQDRDIHIAVDKDTLKTLNIERFSLYRPELWYTEEEDKYEFPETVHIPAGSCVELLNIDFNLQDIDLEKWVLPLTIVDDGSYAYQKNYAKALLKVVPFNNYSGSYTASSKVYTYINGKPDTNARTTDKRTGYVVDNNSIFFYAGLINEDDKDRKKYKINVHFKEDGTLDKQDDPSNEEFELIGTPTYSSTSVDATRPYLERRYVQIFEYDFQDFTYGGSGTEVIPIKYRVAGSTLLRNINTQIPDEDQQIEW QYVSFKAPIASGSDGVTTIYVRYKDNGKVTYQLPIIVSGSTVNSQDRDIHIAVDKDTLKTLNIERFSLYRPELWYTEEEDKYEFPETVHIPAGSCVELLNIDFNLQDIDLEKWVLPLTIVDDGSYAYQKNYAKALLKVVPFNNYSGSYTASSKVYTYINGKPDTNARTTDKRTGYVVDNNSIFFYAGLINEDDKDRKKYKINVHFKEDGTLDKQDDPSNEEFELIGTPTYSSTSVDATRPYLERRYVQIFEYDFQDFTYGGSGTEVIPIKYRVAGSTLLRNINTQIPDEDQQIEW 3nqo-a1-m1-cB_3nqo-a1-m1-cA Crystal structure of a MarR family transcriptional regulator (CD1569) from Clostridium difficile 630 at 2.20 A resolution Q186C2 Q186C2 2.2 X-RAY DIFFRACTION 172 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 171 176 YSNELKELFLNQTYATLFTLTNKIQIEGDKYFGILTSRQYTILSILHLPEEETTLNNIARKGTSKQNINRLVANLEKNGYVDVIPSPHDKRAINVKVTDLGKKVVTCSRTGINFADVFHEFTKDELETLWSLLKKYRFNGEEQDGFEEIDKIKSEALEEFAKRRNRVNKND DYSNELKELFLNQTYATLFTLTNKIQIEGDKYFGILTSRQYTILSILHLPEEETTLNNIARKGTSKQNINRLVANLEKNGYVDVIPSPHDKRAINVKVTDLGKKVVTCSRTGINFADVFHEFTKDELETLWSLLKKYRFNGEEQDGFEEDANEIDKIKSEALEEFAKRRNRVNKND 3nqr-a1-m1-cA_3nqr-a1-m2-cD A putative CBS domain-containing protein from Salmonella typhimurium LT2 P0A2L3 P0A2L3 2 X-RAY DIFFRACTION 39 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 115 116 3nqr-a2-m1-cB_3nqr-a2-m3-cC 4hg0-a1-m1-cA_4hg0-a1-m2-cA 5yz2-a1-m1-cA_5yz2-a1-m1-cB QRVRDIIPRSQITLKRNQTLDECLDVIIESAHSRFPVISEDKDHIEGILAKDLLPFRSDAEAFSDKVLRTAVVVPESKRVDRLKEFRSQRYHAIVIDEFGGVSGLVTIEDILELI QRVRDIIPRSQITLKRNQTLDECLDVIIESAHSRFPVISEDKDHIEGILAKDLLPFRSDAEAFSDKVLRTAVVVPESKRVDRLKEFRSQRYHAIVIDEFGGVSGLVTIEDILELIV 3nqw-a1-m1-cA_3nqw-a1-m1-cB A metazoan ortholog of SpoT hydrolyzes ppGpp and plays a role in starvation responses Q9VAM9 Q9VAM9 2.9 X-RAY DIFFRACTION 103 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 178 178 ATYPSAKFMECLQYAAFKHRQQRRKDPQETPYVNHVINVSTILSVEACITDEGVLMAALLHDVVEDTDASFEDVEKLFGPDVCGLVREVTDDKSLEKQERKRLQIENAAKSSCRAKLIKLADKLDNLRDLQVNTPTGWTQERRDQYFVWAKKVVDNLRGTNANLELKLDEIFRQRGLL ATYPSAKFMECLQYAAFKHRQQRRKDPQETPYVNHVINVSTILSVEACITDEGVLMAALLHDVVEDTDASFEDVEKLFGPDVCGLVREVTDDKSLEKQERKRLQIENAAKSSCRAKLIKLADKLDNLRDLQVNTPTGWTQERRDQYFVWAKKVVDNLRGTNANLELKLDEIFRQRGLL 3nr1-a1-m1-cA_3nr1-a1-m1-cB A metazoan ortholog of SpoT hydrolyzes ppGpp and plays a role in starvation responses Q8N4P3 Q8N4P3 1.9 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 178 5vxa-a3-m1-cA_5vxa-a3-m1-cB GSEAAQLLEAADFAARKHRQQRRKDPEGTPYINHPIGVARILTHEAGITDIVVLQAALLHDTVEDTDTTLDEVELHFGAQVRRLVEEVTDDKTLPKLERKRLQVEQAPHSSPGAKLVKLADKLYNLRDLNRCTPEGWSEHRVQEYFEWAAQVVKGLQGTNRQLEEALKHLFKQRGLTI GSEAAQLLEAADFAARKHRQQRRKDPEGTPYINHPIGVARILTHEAGITDIVVLQAALLHDTVEDTDTTLDEVELHFGAQVRRLVEEVTDDKTLPKLERKRLQVEQAPHSSPGAKLVKLADKLYNLRDLNRCTPEGWSEHRVQEYFEWAAQVVKGLQGTNRQLEEALKHLFKQRGLTI 3nr6-a2-m2-cB_3nr6-a2-m4-cB Crystal structure of xenotropic murine leukemia virus-related virus (XMRV) protease A1Z651 A1Z651 1.97 X-RAY DIFFRACTION 21 1.0 373193 (Xenotropic MuLV-related virus VP62) 373193 (Xenotropic MuLV-related virus VP62) 114 114 3nr6-a2-m1-cA_3nr6-a2-m3-cA 3nr6-a2-m1-cA_3nr6-a2-m4-cA 3nr6-a2-m1-cB_3nr6-a2-m3-cB 3nr6-a2-m1-cB_3nr6-a2-m4-cB 3nr6-a2-m2-cA_3nr6-a2-m3-cA 3nr6-a2-m2-cA_3nr6-a2-m4-cA 3nr6-a2-m2-cB_3nr6-a2-m3-cB TLGDQPPPEPRITLKVGGQPVTFLVDTGAQHSVLTQNPGPLSDKSAWVGKRYRWTTDRKVHLATGKVTHSFLHVPDCPYPLLGRDLLTKLKAQIHFEGSGAQVVGPMGQPLQVL TLGDQPPPEPRITLKVGGQPVTFLVDTGAQHSVLTQNPGPLSDKSAWVGKRYRWTTDRKVHLATGKVTHSFLHVPDCPYPLLGRDLLTKLKAQIHFEGSGAQVVGPMGQPLQVL 3nr6-a2-m4-cB_3nr6-a2-m4-cA Crystal structure of xenotropic murine leukemia virus-related virus (XMRV) protease A1Z651 A1Z651 1.97 X-RAY DIFFRACTION 73 0.991 373193 (Xenotropic MuLV-related virus VP62) 373193 (Xenotropic MuLV-related virus VP62) 114 120 3nr6-a1-m1-cB_3nr6-a1-m1-cA 3nr6-a2-m1-cB_3nr6-a2-m1-cA 3nr6-a2-m2-cB_3nr6-a2-m2-cA 3nr6-a2-m3-cB_3nr6-a2-m3-cA 3slz-a1-m1-cA_3slz-a1-m1-cB 3sm1-a1-m1-cB_3sm1-a1-m1-cA 3sm1-a1-m1-cJ_3sm1-a1-m1-cB 3sm1-a1-m1-cM_3sm1-a1-m1-cA 3sm2-a1-m1-cA_3sm2-a1-m1-cB 4exh-a1-m1-cB_4exh-a1-m1-cA 4exh-a1-m1-cJ_4exh-a1-m1-cB 4exh-a1-m1-cM_4exh-a1-m1-cA 4exh-a2-m1-cB_4exh-a2-m1-cA TLGDQPPPEPRITLKVGGQPVTFLVDTGAQHSVLTQNPGPLSDKSAWVGKRYRWTTDRKVHLATGKVTHSFLHVPDCPYPLLGRDLLTKLKAQIHFEGSGAQVVGPMGQPLQVL TLGDQGGQGQEPPPEPRITLKVGGQPVTFLVDTGAQHSVLTQNPGPLSDKSAWVQGKRYRWTTDRKVHLATGKVTHSFLHVPDCPYPLLGRDLLTKLKAQIHFEGSGAQVVGPMGQPLQV 3nr7-a1-m1-cA_3nr7-a1-m2-cB Crystal structure of S. typhimurium H-NS 1-83 P0A1S2 P0A1S2 3.7 X-RAY DIFFRACTION 31 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 81 81 SEALKILNNIRTLRAQARESTLETLEEMLEKLEVVVNERREEESAAAAEVEERTRKLQQYREMLIADGIDPNELLNSMAAA SEALKILNNIRTLRAQARESTLETLEEMLEKLEVVVNERREEESAAAAEVEERTRKLQQYREMLIADGIDPNELLNSMAAA 3nr9-a2-m1-cB_3nr9-a2-m3-cC Structure of human CDC2-like kinase 2 (CLK2) P49760 P49760 2.89 X-RAY DIFFRACTION 95 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 347 347 3nr9-a1-m1-cA_3nr9-a1-m2-cA SSRRAKSVEDDAEGHLIYHVGDWLQERYEIVSTLGEGTFGRVVQCVDHRRGGARVALKIIKNVEKYKEAARLEINVLEKINEKDPDNKNLCVQMFDWFDYHGHMCISFELLGLSTFDFLKDNNYLPYPIHQVRHMAFQLCQAVKFLHDNKLTHTDLKPENILFVNSDYELTYNLEKKRDERSVKSTAVRVVDFGSATFDHEHHSTIVSTRHYRAPEVILELGWSQPCDVWSIGCIIFEYYVGFTLFQTHDNREHLAMMERILGPIPSRMIRKTRKQKYFYRGRLDWDENTSAGRYVRENCKPLRRYLTSEAEEHHQLFDLIESMLEYEPAKRLTLGEALQHPFFARL SRRAKSVEDDAEGHLIYHVGDWLQERYEIVSTLGEGTFGRVVQCVDHRRGGARVALKIIKNVEKYKEAARLEINVLEKINEKDPDNKNLCVQMFDWFDYHGHMCISFELLGLSTFDFLKDNNYLPYPIHQVRHMAFQLCQAVKFLHDNKLTHTDLKPENILFVNSDYELTYNLEKKRDERSVKSTAVRVVDFGSATFDHEHHSTIVSTRHYRAPEVILELGWSQPCDVWSIGCIIFEYYVGFTLFQTHDNREHLAMMERILGPIPSRMIRKTRKQKYFYRGRLDWDENTSAGRYVRENCKPLRRYLTSEAEEHHQLFDLIESMLEYEPAKRLTLGEALQHPFFARLR 3nra-a1-m1-cA_3nra-a1-m1-cB Crystal structure of an aspartate aminotransferase (YP_354942.1) from Rhodobacter sphaeroides 2.4.1 at 2.15 A resolution Q3IWP3 Q3IWP3 2.15 X-RAY DIFFRACTION 158 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 384 390 SIEAKFKKLGLEALIRGAPIEGRPVDFSHGDVDAHEPTPGAFDLFSAGVQSGGVQAYTEYRGDLGIRDLLAPRLAAFTGAPVDARDGLIITPGTQGALFLAVAATVARGDKVAIVQPDYFANRKLVEFFEGEVPVQLDYVSADETRAGLDLTGLEEAFKAGARVFLFSNPNNPAGVVYSAEEIGQIAALAARYGATVIADQLYSRLRYAGASYTHLRAEAAVDAENVVTIGPSTESLSGYRLGVAFGSRAIIAREKLQAIVSLRAAGYSQAVLRGWFDEAPGWEDRIARHQAIRDELLHVLRGEGVFARTPQAGSYLFPRLPKLAVAPAEFVKILRLQAGVVVTPGTEFSPHTADSVRLNFSQDHEAAVAAARRIVTLVERYRA SIEAKFKKLGRQSAAGLEALIRGAPIEGRPVDFSHGDVDAHEPTPGAFDLFSAGVQSGGVQAYTEYRGDLGIRDLLAPRLAAFTGAPVDARDGLIITPGTQGALFLAVAATVARGDKVAIVQPDYFANRKLVEFFEGEVPVQLDYVSADETRAGLDLTGLEEAFKAGARVFLFSNPNNPAGVVYSAEEIGQIAALAARYGATVIADQLYSRLRYAGASYTHLRAEAAVDAENVVTIGPSTESLSGYRLGVAFGSRAIIAREKLQAIVSLRAAGYSQAVLRGWFDEAPGWEDRIARHQAIRDELLHVLRGEGVFARTPQAGSYLFPRLPKLAVAPAEFVKILRLQAGVVVTPGTEFSPHTADSVRLNFSQDHEAAVAAARRIVTLVERYRA 3nrb-a1-m1-cA_3nrb-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (purU, PP_1943) from PSEUDOMONAS PUTIDA KT2440 at 2.05 A resolution Q88LI9 Q88LI9 2.05 X-RAY DIFFRACTION 51 0.996 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 277 279 3nrb-a1-m1-cB_3nrb-a1-m1-cC KNNQYVLSLACQDAPGIVSEVSTFLFNNGANIVEAEQFNDEDSSKFFRVSVEIPVNDFNSAFGKVVEKYNAEWWFRPRTDRKKVVIVSKFDHCLGDLLYRHRLGELDEVVGIISNHPREALSVSLVGDIPFHYLPVTPATKAAQESQIKNIVTQSQADLIVLARYQILSDDLSAFLSGRCINIHHSFLPGFKGAKPYHQAHTRGVKLIGATAHFVTADLDEGPIIAQDVEHVSHRDSAEDLVRKGRDIERRVLSRAVLLFLEDRLIVNGERTVVFAD NNQYVLSLACQDAPGIVSEVSTFLFNNGANIVEAEQFNDEDSSKFFRVSVEIPVAGVNDFNSAFGKVVEKYNAEWWFRPRTDRKKVVIVSKFDHCLGDLLYRHRLGELDEVVGIISNHPREALSVSLVGDIPFHYLPVTPATKAAQESQIKNIVTQSQADLIVLARYQILSDDLSAFLSGRCINIHHSFLPGFKGAKPYHQAHTRGVKLIGATAHFVTADLDEGPIIAQDVEHVSHRDSAEDLVRKGRDIERRVLSRAVLLFLEDRLIVNGERTVVFAD 3nrb-a1-m1-cB_3nrb-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (purU, PP_1943) from PSEUDOMONAS PUTIDA KT2440 at 2.05 A resolution Q88LI9 Q88LI9 2.05 X-RAY DIFFRACTION 31 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 276 279 3nrb-a1-m1-cA_3nrb-a1-m1-cC NQYVLSLACQDAPGIVSEVSTFLFNNGANIVEAEQFNDEDSSKFFRVSVEIPVAGVNDFNSAFGKVVEKYNAEWWFRPRTDRKKVVIVSKFDHCLGDLLYRHRLGELDEVVGIISNHPREALSVSLVGDIPFHYLPVTPATKAAQESQIKNIVTQSQADLIVLARYQILSDDLSAFLSGRCINIHHSFLPGFKGAKPYHQAHTRGVKLIGATAHFVTADLGPIIAQDVEHVSHRDSAEDLVRKGRDIERRVLSRAVLLFLEDRLIVNGERTVVFAD NNQYVLSLACQDAPGIVSEVSTFLFNNGANIVEAEQFNDEDSSKFFRVSVEIPVAGVNDFNSAFGKVVEKYNAEWWFRPRTDRKKVVIVSKFDHCLGDLLYRHRLGELDEVVGIISNHPREALSVSLVGDIPFHYLPVTPATKAAQESQIKNIVTQSQADLIVLARYQILSDDLSAFLSGRCINIHHSFLPGFKGAKPYHQAHTRGVKLIGATAHFVTADLDEGPIIAQDVEHVSHRDSAEDLVRKGRDIERRVLSRAVLLFLEDRLIVNGERTVVFAD 3nrb-a1-m1-cC_3nrb-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (purU, PP_1943) from PSEUDOMONAS PUTIDA KT2440 at 2.05 A resolution Q88LI9 Q88LI9 2.05 X-RAY DIFFRACTION 75 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 278 279 3nrb-a1-m1-cB_3nrb-a1-m1-cA NNQYVLSLACQDAPGIVSEVSTFLFNNGANIVEAEQFNDEDSSKFFRVSVEIPVAGVNDFNSAFGKVVEKYNAEWWFRPRTDRKKVVIVSKFDHCLGDLLYRHRLGELDEVVGIISNHPREALSVSLVGDIPFHYLPVTPATKAAQESQIKNIVTQSQADLIVLARYQILSDDLSAFLSGRCINIHHSFLPGFKGAKPYHQAHTRGVKLIGATAHFVTALDEGPIIAQDVEHVSHRDSAEDLVRKGRDIERRVLSRAVLLFLEDRLIVNGERTVVFAD NNQYVLSLACQDAPGIVSEVSTFLFNNGANIVEAEQFNDEDSSKFFRVSVEIPVAGVNDFNSAFGKVVEKYNAEWWFRPRTDRKKVVIVSKFDHCLGDLLYRHRLGELDEVVGIISNHPREALSVSLVGDIPFHYLPVTPATKAAQESQIKNIVTQSQADLIVLARYQILSDDLSAFLSGRCINIHHSFLPGFKGAKPYHQAHTRGVKLIGATAHFVTADLDEGPIIAQDVEHVSHRDSAEDLVRKGRDIERRVLSRAVLLFLEDRLIVNGERTVVFAD 3nrd-a4-m1-cC_3nrd-a4-m2-cC Crystal structure of a histidine triad (HIT) protein (SMc02904) from SINORHIZOBIUM MELILOTI 1021 at 2.06 A resolution Q92KT3 Q92KT3 2.06 X-RAY DIFFRACTION 10 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 129 129 3nrd-a4-m1-cB_3nrd-a4-m2-cB TTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL TTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL 3nrd-a4-m1-cD_3nrd-a4-m2-cD Crystal structure of a histidine triad (HIT) protein (SMc02904) from SINORHIZOBIUM MELILOTI 1021 at 2.06 A resolution Q92KT3 Q92KT3 2.06 X-RAY DIFFRACTION 36 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 130 130 3nrd-a4-m1-cA_3nrd-a4-m2-cA GTTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL GTTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL 3nrd-a4-m2-cB_3nrd-a4-m2-cC Crystal structure of a histidine triad (HIT) protein (SMc02904) from SINORHIZOBIUM MELILOTI 1021 at 2.06 A resolution Q92KT3 Q92KT3 2.06 X-RAY DIFFRACTION 32 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 129 129 3nrd-a3-m1-cB_3nrd-a3-m1-cC 3nrd-a4-m1-cB_3nrd-a4-m1-cC TTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL TTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL 3nrd-a4-m2-cC_3nrd-a4-m2-cD Crystal structure of a histidine triad (HIT) protein (SMc02904) from SINORHIZOBIUM MELILOTI 1021 at 2.06 A resolution Q92KT3 Q92KT3 2.06 X-RAY DIFFRACTION 101 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 129 130 3nrd-a1-m1-cB_3nrd-a1-m1-cA 3nrd-a2-m1-cC_3nrd-a2-m1-cD 3nrd-a3-m1-cB_3nrd-a3-m1-cA 3nrd-a3-m1-cC_3nrd-a3-m1-cD 3nrd-a4-m1-cB_3nrd-a4-m1-cA 3nrd-a4-m1-cC_3nrd-a4-m1-cD 3nrd-a4-m2-cB_3nrd-a4-m2-cA TTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL GTTFTLDERLERDGIPIGTLGLCQRLNDRRWPWLILVPQRADIKEVFELTPLDQALTFETNLVAAGLKKATGAEKINIGALGNIVRQLHVHVIARREGDPNWPGPVWGFGKAEPWPEEEHRTFAARIENL 3nrg-a6-m1-cA_3nrg-a6-m2-cA Crystal structure of a TetR family transcriptional regulator (Caur_2714) from CHLOROFLEXUS AURANTIACUS J-10-FL at 2.56 A resolution A9WJL5 A9WJL5 2.56 X-RAY DIFFRACTION 84 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 212 212 3nrg-a7-m1-cB_3nrg-a7-m1-cC 3nrg-a8-m1-cD_3nrg-a8-m1-cE GPTETFFNLPEEKRSRLIDVLLDEFAQNDYDSVSINRITERAGIAKGSFYQYFADKKDCYLYLIQLGIEQKTAFLRQTPPASTTDFAYLRWLLDVGIQFQFHNPRLAQIAYKALYDDVPLPAETQVIRHGSFAYFKQLVEQGIADGSLVPDLDADTAAFVLNVVFTELGNHLIERFAVNPAELLREGGIVLLQPARRVIEQVIDILERGRRR GPTETFFNLPEEKRSRLIDVLLDEFAQNDYDSVSINRITERAGIAKGSFYQYFADKKDCYLYLIQLGIEQKTAFLRQTPPASTTDFAYLRWLLDVGIQFQFHNPRLAQIAYKALYDDVPLPAETQVIRHGSFAYFKQLVEQGIADGSLVPDLDADTAAFVLNVVFTELGNHLIERFAVNPAELLREGGIVLLQPARRVIEQVIDILERGRRR 3nrh-a2-m4-cB_3nrh-a2-m1-cA Crystal Structure of protein BF1032 from Bacteroides fragilis, Northeast Structural Genomics Consortium Target BfR309 Q64XJ4 Q64XJ4 1.8 X-RAY DIFFRACTION 37 1.0 295405 (Bacteroides fragilis YCH46) 295405 (Bacteroides fragilis YCH46) 147 153 3nrh-a2-m2-cB_3nrh-a2-m3-cA QVIFDKNVIEFVTVAAEFCAFLERAESKRSTFVDTTLKILPLLYLKASLPKCEIGDESPETYVTEEIYEVLRINLASILAEKDDYLEKKNISEDLADIYQDIKDFIFVFQLGLNETNDSLAICQENFGLLWGQKLVNTRALHDVKYS QVIFDKNVIEFVTVAAEFCAFLERAESKRSTFVDTTLKILPLLYLKASLPKCEIGDESPETYVTEEIYEVLRINLASILAEKDDYLEIKKNISEDLADIYQDIKDFIFVFQLGLNETNDSLAICQENFGLLWGQKLVNTRALHDVKYSPKARL 3nrh-a2-m4-cB_3nrh-a2-m3-cA Crystal Structure of protein BF1032 from Bacteroides fragilis, Northeast Structural Genomics Consortium Target BfR309 Q64XJ4 Q64XJ4 1.8 X-RAY DIFFRACTION 47 1.0 295405 (Bacteroides fragilis YCH46) 295405 (Bacteroides fragilis YCH46) 147 153 3nrh-a1-m2-cB_3nrh-a1-m1-cA 3nrh-a2-m2-cB_3nrh-a2-m1-cA QVIFDKNVIEFVTVAAEFCAFLERAESKRSTFVDTTLKILPLLYLKASLPKCEIGDESPETYVTEEIYEVLRINLASILAEKDDYLEKKNISEDLADIYQDIKDFIFVFQLGLNETNDSLAICQENFGLLWGQKLVNTRALHDVKYS QVIFDKNVIEFVTVAAEFCAFLERAESKRSTFVDTTLKILPLLYLKASLPKCEIGDESPETYVTEEIYEVLRINLASILAEKDDYLEIKKNISEDLADIYQDIKDFIFVFQLGLNETNDSLAICQENFGLLWGQKLVNTRALHDVKYSPKARL 3nrh-a3-m1-cB_3nrh-a3-m1-cA Crystal Structure of protein BF1032 from Bacteroides fragilis, Northeast Structural Genomics Consortium Target BfR309 Q64XJ4 Q64XJ4 1.8 X-RAY DIFFRACTION 47 1.0 295405 (Bacteroides fragilis YCH46) 295405 (Bacteroides fragilis YCH46) 147 153 QVIFDKNVIEFVTVAAEFCAFLERAESKRSTFVDTTLKILPLLYLKASLPKCEIGDESPETYVTEEIYEVLRINLASILAEKDDYLEKKNISEDLADIYQDIKDFIFVFQLGLNETNDSLAICQENFGLLWGQKLVNTRALHDVKYS QVIFDKNVIEFVTVAAEFCAFLERAESKRSTFVDTTLKILPLLYLKASLPKCEIGDESPETYVTEEIYEVLRINLASILAEKDDYLEIKKNISEDLADIYQDIKDFIFVFQLGLNETNDSLAICQENFGLLWGQKLVNTRALHDVKYSPKARL 3nrj-a1-m1-cD_3nrj-a1-m1-cH Crystal structure of probable yrbi family phosphatase from pseudomonas syringae pv.phaseolica 1448a complexed with magnesium Q48EB9 Q48EB9 1.9 X-RAY DIFFRACTION 60 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 172 172 3mn1-a1-m1-cC_3mn1-a1-m1-cA 3mn1-a1-m1-cC_3mn1-a1-m1-cD 3mn1-a1-m1-cH_3mn1-a1-m1-cA 3mn1-a1-m1-cH_3mn1-a1-m1-cD 3mn1-a2-m1-cB_3mn1-a2-m1-cJ 3mn1-a2-m1-cB_3mn1-a2-m1-cK 3mn1-a2-m1-cL_3mn1-a2-m1-cJ 3mn1-a2-m1-cL_3mn1-a2-m1-cK 3mn1-a3-m1-cE_3mn1-a3-m1-cF 3mn1-a3-m1-cE_3mn1-a3-m1-cI 3mn1-a3-m1-cG_3mn1-a3-m1-cF 3mn1-a3-m1-cG_3mn1-a3-m1-cI 3nrj-a1-m1-cC_3nrj-a1-m1-cA 3nrj-a1-m1-cD_3nrj-a1-m1-cC 3nrj-a1-m1-cH_3nrj-a1-m1-cA 3nrj-a2-m1-cJ_3nrj-a2-m1-cB 3nrj-a2-m1-cJ_3nrj-a2-m1-cL 3nrj-a2-m1-cK_3nrj-a2-m1-cB 3nrj-a2-m1-cK_3nrj-a2-m1-cL 3nrj-a3-m1-cE_3nrj-a3-m1-cI 3nrj-a3-m1-cF_3nrj-a3-m1-cE 3nrj-a3-m1-cG_3nrj-a3-m1-cF 3nrj-a3-m1-cG_3nrj-a3-m1-cI DLMQRGKAIKLAVFDVDGVLTDGRLYFMEDGSEIKTFNTLDGQGIKMLIASGVTTAIISGRKTAIVERRAKSLGIEHLFQGREDKLVVLDKLLAELQLGYEQVAYLGDDLPDLPVIRRVGLGMAVANAASFVREHAHGITRAQGGEGAAREFCELILSAQGNLEAAHSVYLE DLMQRGKAIKLAVFDVDGVLTDGRLYFMEDGSEIKTFNTLDGQGIKMLIASGVTTAIISGRKTAIVERRAKSLGIEHLFQGREDKLVVLDKLLAELQLGYEQVAYLGDDLPDLPVIRRVGLGMAVANAASFVREHAHGITRAQGGEGAAREFCELILSAQGNLEAAHSVYLE 3nrk-a2-m2-cA_3nrk-a2-m3-cA The crystal structure of the leptospiral hypothetical protein LIC12922 Q72NB3 Q72NB3 3.1 X-RAY DIFFRACTION 75 1.0 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 312 312 3nrk-a2-m1-cA_3nrk-a2-m2-cA 3nrk-a2-m1-cA_3nrk-a2-m3-cA LNRVIATVGTVSISELDLDDATEKYNRLQKHLKHEDYRKSFRTRIIDFLIDRAIVDVVAEEESIQVNEQRVDSEIEKRMEVMGITNRKQFEKTMETSSGMPFELWVTELPYQIKKGQLLQLKIAVPPPNEQEIRSWYNQNKDKVGFEIRYRIISIAPENDSIQEENRLYKEVSEIRKSILADPSSFALIAGSPRNDPALRARRGMVEWISSFDLYKYSKITATIAAPLPNGGVSEVFRDERKRYCILKIEGKRPTPMENLRGGIQNILYRDKEEDTFHRWLKESRAEIPIQIFDEAYRKENKIPLKEETFHL LNRVIATVGTVSISELDLDDATEKYNRLQKHLKHEDYRKSFRTRIIDFLIDRAIVDVVAEEESIQVNEQRVDSEIEKRMEVMGITNRKQFEKTMETSSGMPFELWVTELPYQIKKGQLLQLKIAVPPPNEQEIRSWYNQNKDKVGFEIRYRIISIAPENDSIQEENRLYKEVSEIRKSILADPSSFALIAGSPRNDPALRARRGMVEWISSFDLYKYSKITATIAAPLPNGGVSEVFRDERKRYCILKIEGKRPTPMENLRGGIQNILYRDKEEDTFHRWLKESRAEIPIQIFDEAYRKENKIPLKEETFHL 3nrl-a1-m1-cA_3nrl-a1-m1-cB Crystal Structure of protein RUMGNA_01417 from Ruminococcus gnavus, Northeast Structural Genomics Consortium Target UgR76 A7B1J1 A7B1J1 1.9 X-RAY DIFFRACTION 46 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 67 67 REGTLFYDTETGRYDIRFDLESFYGGLHCGECFDVKVKDVWVPVRIEGDDWYLVGLNVSRLDGLRVR REGTLFYDTETGRYDIRFDLESFYGGLHCGECFDVKVKDVWVPVRIEGDDWYLVGLNVSRLDGLRVR 3nrp-a2-m1-cC_3nrp-a2-m1-cD Crystal structure of 'as isolated' uropathogenic E. coli strain F11 FetP recombinantly expressed in the periplasm of E. coli BL21(DE3) 1.6 X-RAY DIFFRACTION 146 1.0 340197 (Escherichia coli F11) 340197 (Escherichia coli F11) 151 151 3nrp-a1-m1-cB_3nrp-a1-m1-cA 3nrq-a1-m1-cB_3nrq-a1-m1-cA 5i0x-a1-m1-cA_5i0x-a1-m1-cB 5i0y-a1-m1-cA_5i0y-a1-m1-cB GFKEYPAGEPVTMNEMELAAVYLQPIDMEPRGMGLPAAKADVHLEADIHAVEGNKNGFGAGEWIPYLTISYTLVNNDTGEKQEGTFMPMVASDGPHYGANIKMMGVGNYKVTYHIEPPSKAGMHRHTDSETGVGRWWKPFDVSYEFKYVGL GFKEYPAGEPVTMNEMELAAVYLQPIDMEPRGMGLPAAKADVHLEADIHAVEGNKNGFGAGEWIPYLTISYTLVNNDTGEKQEGTFMPMVASDGPHYGANIKMMGVGNYKVTYHIEPPSKAGMHRHTDSETGVGRWWKPFDVSYEFKYVGL 3nrr-a1-m1-cB_3nrr-a1-m1-cA Co-crystal structure of dihydrofolate reductase-thymidylate synthase from Babesia bovis with dUMP, Raltitrexed and NADP A7ASX7 A7ASX7 1.8 X-RAY DIFFRACTION 181 1.0 5865 (Babesia bovis) 5865 (Babesia bovis) 501 503 3i3r-a1-m1-cB_3i3r-a1-m1-cA 3k2h-a1-m1-cA_3k2h-a1-m1-cB 3kjr-a1-m1-cB_3kjr-a1-m1-cA SYEGCGDLTIFVAVALNKVIGHKNQIPWPHITHDFRFLRNGTTYIPPEVLSKNPDIQNVVIFGRKTYESIPKASLPLKNRINVILSRTVKEVPGCLVYEDLSTAIRDLRANVPHNKIFILGGSFLYKEVLDNGLCDKIYLTRLNKEYPGDTYFPDIPDTFEITAISPTFSTDFVSYDFVIYERKDPPFDQLLMTGTDISVPKPKYVACPGVRIRNHEEFQYLDILADVLSHGVLKPNRTGTDAYSKFGYQMRFDLSRSFPLLTTKKVALRSIIEELLWFIKGSTNGNDLLAKNVRIWELNGRRDFLDKNGFTDREEHDLGPIYGFQWRHFGAEYLDMHADYTGKGIDQLAEIINRIKTNPNDRRLIVCSWNVSDLKKMALPPCHCFFQFYVSDNKLSCMMHQRSCDLGLGVPFNIASYSILTAMVAQVCGLGLGEFVHNLADAHIYVDHVDAVTTQIARIPHPFPRLRLNPDIRNIEDFTIDDIVVEDYVSHPPIPMAMSA NSYEGCGDLTIFVAVALNKVIGHKNQIPWPHITHDFRFLRNGTTYIPPEVLSKNPDIQNVVIFGRKTYESIPKASLPLKNRINVILSRTVKEVPGCLVYEDLSTAIRDLRANVPHNKIFILGGSFLYKEVLDNGLCDKIYLTRLNKEYPGDTYFPDIPDTFEITAISPTFSTDFVSYDFVIYERKDDPPFDQLLMTGTDISVPKPKYVACPGVRIRNHEEFQYLDILADVLSHGVLKPNRTGTDAYSKFGYQMRFDLSRSFPLLTTKKVALRSIIEELLWFIKGSTNGNDLLAKNVRIWELNGRRDFLDKNGFTDREEHDLGPIYGFQWRHFGAEYLDMHADYTGKGIDQLAEIINRIKTNPNDRRLIVCSWNVSDLKKMALPPCHCFFQFYVSDNKLSCMMHQRSCDLGLGVPFNIASYSILTAMVAQVCGLGLGEFVHNLADAHIYVDHVDAVTTQIARIPHPFPRLRLNPDIRNIEDFTIDDIVVEDYVSHPPIPMAMSA 3nrv-a2-m1-cB_3nrv-a2-m1-cD Crystal structure of MarR/EmrR family transcriptional regulator from Acinetobacter sp. ADP1 Q6FBB7 Q6FBB7 2.001 X-RAY DIFFRACTION 186 0.984 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 125 137 3nrv-a1-m1-cA_3nrv-a1-m1-cC QKINIDRHATAQINLANKLLYTQKFGIGTEWRIISVLSSASDCSVQKISDILGLDKAAVSRTVKKLEEKKYIEVYAINLTEGQELYEVASDFAIEREKQLLEEFEEAEKDQLFILLKKLRNKVDQ INIDRHATAQINLANKLLKSSTAYTQKFGIGTEWRIISVLSSASDCSVQKISDILGLDKAAVSRTVKKLEEKKYIEVNGHSEDKRTYAINLTEGQELYEVASDFAIEREKQLLEEFEEAEKDQLFILLKKLRNKVDQ 3ns2-a2-m1-cC_3ns2-a2-m2-cC High-resolution structure of pyrabactin-bound PYL2 O80992 O80992 1.634 X-RAY DIFFRACTION 54 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 181 181 3kaz-a1-m1-cA_3kaz-a1-m1-cB 3kaz-a2-m1-cC_3kaz-a2-m2-cC 3kb0-a1-m1-cA_3kb0-a1-m2-cA 3kdh-a1-m1-cB_3kdh-a1-m1-cA 3kdh-a2-m1-cC_3kdh-a2-m2-cC 3kdi-a1-m1-cA_3kdi-a1-m2-cA 3kl1-a1-m1-cB_3kl1-a1-m1-cA 3nj0-a1-m1-cA_3nj0-a1-m1-cB 3nj0-a2-m1-cC_3nj0-a2-m2-cC 3nj1-a1-m1-cA_3nj1-a1-m2-cA 3nmh-a1-m1-cA_3nmh-a1-m1-cB 3nmh-a2-m1-cC_3nmh-a2-m2-cC 3nmp-a1-m1-cA_3nmp-a1-m1-cB 3nmp-a2-m1-cC_3nmp-a2-m2-cC 3nr4-a1-m1-cB_3nr4-a1-m1-cA 3nr4-a2-m1-cC_3nr4-a2-m2-cC 3ns2-a1-m1-cB_3ns2-a1-m1-cA KGLTDEEQKTLEPVIKTYHQFEPDPTTCTSLITQRIHAPASVVWPLIRRFDNPERYKHFVKRCRLISGDGDVGSVREVTVISGLPASTSTERLEFVDDDHRVLSFRVVGGEHRLKNYKSVTSVNEFLNQDSGKVYTVVLESYTVDIPEGNTEEDTKMFVDTVVKLNLQKLGVAATSAPMHD KGLTDEEQKTLEPVIKTYHQFEPDPTTCTSLITQRIHAPASVVWPLIRRFDNPERYKHFVKRCRLISGDGDVGSVREVTVISGLPASTSTERLEFVDDDHRVLSFRVVGGEHRLKNYKSVTSVNEFLNQDSGKVYTVVLESYTVDIPEGNTEEDTKMFVDTVVKLNLQKLGVAATSAPMHD 3ns4-a2-m1-cA_3ns4-a2-m2-cA Structure of a C-terminal fragment of its Vps53 subunit suggests similarity of GARP to a family of tethering complexes P47061 P47061 2.9 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 201 201 FILSQFNRDVYKWNFLDKVIDITTNFVSNTIRLLQPVPPFSLAGSKRKFETRTVVNIGEQLLLDLELLKEIFHTLPESVSNDSDLRENTSYKRVKRHADNNIDQLLKFIKLLAPLDSADDYYETYSKLTNNNPDSAVWSFVLALKGIPWDLALWKKWSAYNLETNRDLFIFKWDKVLLGQFENNLARQDPNWSKFVRQDLK FILSQFNRDVYKWNFLDKVIDITTNFVSNTIRLLQPVPPFSLAGSKRKFETRTVVNIGEQLLLDLELLKEIFHTLPESVSNDSDLRENTSYKRVKRHADNNIDQLLKFIKLLAPLDSADDYYETYSKLTNNNPDSAVWSFVLALKGIPWDLALWKKWSAYNLETNRDLFIFKWDKVLLGQFENNLARQDPNWSKFVRQDLK 3ns6-a3-m1-cA_3ns6-a3-m1-cB Crystal structure of hte RNA recognition motif of yeast eIF3b residues 76-170 P06103 P06103 1.25 X-RAY DIFFRACTION 53 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 99 99 GPLGSDQYIVVNGAPVIPSAKVPVLKKALTSLFSKAGKVVNMEFPIDEATGKTKGFLFVECGSMNDAKKIIKSFHGKRLDLKHRLFLYTMKDVERYNSD GPLGSDQYIVVNGAPVIPSAKVPVLKKALTSLFSKAGKVVNMEFPIDEATGKTKGFLFVECGSMNDAKKIIKSFHGKRLDLKHRLFLYTMKDVERYNSD 3nsl-a3-m1-cD_3nsl-a3-m1-cC Crystal Structure of S100A3 C30A+C68A double mutant expressed in insect cell P33764 P33764 1.5 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 93 1kso-a1-m1-cA_1kso-a1-m1-cB 3nsi-a1-m1-cA_3nsi-a1-m1-cB 3nsk-a1-m1-cA_3nsk-a1-m1-cB 3nsl-a1-m1-cB_3nsl-a1-m1-cA 3nsl-a2-m1-cE_3nsl-a2-m1-cF 3nso-a1-m1-cB_3nso-a1-m1-cA RPLEQAVAAIVCTFQEYAGRCGDKYKLAQAELKELLQKELATWTPTEFRECDYNKFMSVLDTNKDAEVDFVEYVRSLACLCLYCHEYFKDCP ARPLEQAVAAIVCTFQEYAGRCGDKYKLAQAELKELLQKELATWTPTEFRECDYNKFMSVLDTNKDAEVDFVEYVRSLACLCLYCHEYFKDCP 3nt2-a1-m1-cA_3nt2-a1-m2-cA Crystal structure of myo-inositol dehydrogenase from Bacillus subtilis with bound cofactor P26935 P26935 2.3003 X-RAY DIFFRACTION 86 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 337 337 3mz0-a1-m1-cA_3mz0-a1-m3-cA 3mz0-a1-m2-cA_3mz0-a1-m4-cA 3nt2-a1-m1-cB_3nt2-a1-m2-cB 3nt4-a1-m1-cA_3nt4-a1-m2-cA 3nt4-a1-m1-cB_3nt4-a1-m2-cB 3nt5-a1-m1-cA_3nt5-a1-m2-cA 3nt5-a1-m1-cB_3nt5-a1-m2-cB 3nto-a1-m1-cA_3nto-a1-m3-cA 3nto-a1-m2-cA_3nto-a1-m4-cA 3ntq-a1-m1-cA_3ntq-a1-m2-cA 3ntq-a1-m1-cB_3ntq-a1-m2-cB 3ntr-a1-m1-cA_3ntr-a1-m2-cA 3ntr-a1-m1-cB_3ntr-a1-m2-cB 4l8v-a1-m1-cA_4l8v-a1-m1-cC 4l8v-a1-m1-cB_4l8v-a1-m1-cD 4l9r-a1-m1-cA_4l9r-a1-m3-cA 4l9r-a1-m2-cA_4l9r-a1-m4-cA MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ 3nt2-a2-m3-cB_3nt2-a2-m4-cB Crystal structure of myo-inositol dehydrogenase from Bacillus subtilis with bound cofactor P26935 P26935 2.3003 X-RAY DIFFRACTION 25 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 337 337 3nt2-a2-m1-cB_3nt2-a2-m3-cB 3nt2-a2-m1-cB_3nt2-a2-m4-cB 3nt4-a2-m1-cB_3nt4-a2-m3-cB 3nt4-a2-m1-cB_3nt4-a2-m4-cB 3nt4-a2-m3-cB_3nt4-a2-m4-cB 3nt5-a2-m1-cB_3nt5-a2-m3-cB 3nt5-a2-m1-cB_3nt5-a2-m4-cB 3nt5-a2-m3-cB_3nt5-a2-m4-cB 3ntr-a2-m1-cB_3ntr-a2-m3-cB 3ntr-a2-m1-cB_3ntr-a2-m4-cB 3ntr-a2-m3-cB_3ntr-a2-m4-cB MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ 3nt2-a2-m4-cA_3nt2-a2-m4-cB Crystal structure of myo-inositol dehydrogenase from Bacillus subtilis with bound cofactor P26935 P26935 2.3003 X-RAY DIFFRACTION 88 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 337 337 3mz0-a1-m1-cA_3mz0-a1-m2-cA 3mz0-a1-m3-cA_3mz0-a1-m4-cA 3nt2-a1-m1-cA_3nt2-a1-m1-cB 3nt2-a1-m2-cA_3nt2-a1-m2-cB 3nt2-a2-m1-cA_3nt2-a2-m1-cB 3nt2-a2-m3-cA_3nt2-a2-m3-cB 3nt4-a1-m1-cA_3nt4-a1-m1-cB 3nt4-a1-m2-cA_3nt4-a1-m2-cB 3nt4-a2-m1-cA_3nt4-a2-m1-cB 3nt4-a2-m3-cA_3nt4-a2-m3-cB 3nt4-a2-m4-cA_3nt4-a2-m4-cB 3nt5-a1-m1-cA_3nt5-a1-m1-cB 3nt5-a1-m2-cA_3nt5-a1-m2-cB 3nt5-a2-m1-cA_3nt5-a2-m1-cB 3nt5-a2-m3-cA_3nt5-a2-m3-cB 3nt5-a2-m4-cA_3nt5-a2-m4-cB 3nto-a1-m1-cA_3nto-a1-m2-cA 3nto-a1-m3-cA_3nto-a1-m4-cA 3ntq-a1-m1-cA_3ntq-a1-m1-cB 3ntq-a1-m2-cA_3ntq-a1-m2-cB 3ntq-a2-m1-cA_3ntq-a2-m1-cB 3ntq-a2-m3-cA_3ntq-a2-m3-cB 3ntq-a2-m4-cA_3ntq-a2-m4-cB 3ntr-a1-m1-cA_3ntr-a1-m1-cB 3ntr-a1-m2-cA_3ntr-a1-m2-cB 3ntr-a2-m1-cA_3ntr-a2-m1-cB 3ntr-a2-m3-cA_3ntr-a2-m3-cB 3ntr-a2-m4-cA_3ntr-a2-m4-cB 4l8v-a1-m1-cA_4l8v-a1-m1-cB 4l8v-a1-m1-cC_4l8v-a1-m1-cD 4l9r-a1-m1-cA_4l9r-a1-m2-cA 4l9r-a1-m3-cA_4l9r-a1-m4-cA MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ 3ntd-a1-m1-cA_3ntd-a1-m1-cB Structure of the Shewanella loihica PV-4 NADH-dependent persulfide reductase C531S Mutant A3QAV3 A3QAV3 1.99 X-RAY DIFFRACTION 230 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 565 565 3nt6-a1-m1-cA_3nt6-a1-m1-cB 3nta-a1-m1-cA_3nta-a1-m1-cB 4ocg-a1-m1-cA_4ocg-a1-m1-cB 4ocg-a2-m1-cA_4ocg-a2-m1-cB 4ocg-a2-m2-cA_4ocg-a2-m2-cB 4ocg-a2-m3-cA_4ocg-a2-m3-cB MKKILIIGGVAGGASAAARARRLSETAEIIMFERGEYVSFANCGLPYHISGEIAQRSALVLQTPESFKARFNVEVRVKHEVVAIDRAAKLVTVRRLLDGSEYQESYDTLLLSPGAAPIVPPIPGVDNPLTHSLRNIPDMDRILQTIQMNNVEHATVVGGGFIGLEMMESLHHLGIKTTLLELADQVMTPVDREMAGFAHQAIRDQGVDLRLGTALSEVSYQVQTHVASDAAGEDTAHQHIKGHLSLTLSNGELLETDLLIMAIGVRPETQLARDAGLAIGELGGIKVNAMMQTSDPAIYAVGDAVEEQDFVTGQACLVPLAGPANRQGRMAADNMFGREERYQGTQGTAICKVFDLAVGATGKNEKQLKQAGIAFEKVYVHTASHASYYPGAEVVSFKLLFDPVKGTIFGAQAVGKDGIDKRIDVMAVAQRAGMTVEQLQHLELSYAPPYGSAKDVINQAAFVASNIIKGDATPIHFDQIDNLSEDQLLLDVRNPGELQNGGLEGAVNIPVDELRDRMHELPKDKEIIIFSQVGLRGNVAYRQLVNNGYRARNLIGGYRTYKFAS MKKILIIGGVAGGASAAARARRLSETAEIIMFERGEYVSFANCGLPYHISGEIAQRSALVLQTPESFKARFNVEVRVKHEVVAIDRAAKLVTVRRLLDGSEYQESYDTLLLSPGAAPIVPPIPGVDNPLTHSLRNIPDMDRILQTIQMNNVEHATVVGGGFIGLEMMESLHHLGIKTTLLELADQVMTPVDREMAGFAHQAIRDQGVDLRLGTALSEVSYQVQTHVASDAAGEDTAHQHIKGHLSLTLSNGELLETDLLIMAIGVRPETQLARDAGLAIGELGGIKVNAMMQTSDPAIYAVGDAVEEQDFVTGQACLVPLAGPANRQGRMAADNMFGREERYQGTQGTAICKVFDLAVGATGKNEKQLKQAGIAFEKVYVHTASHASYYPGAEVVSFKLLFDPVKGTIFGAQAVGKDGIDKRIDVMAVAQRAGMTVEQLQHLELSYAPPYGSAKDVINQAAFVASNIIKGDATPIHFDQIDNLSEDQLLLDVRNPGELQNGGLEGAVNIPVDELRDRMHELPKDKEIIIFSQVGLRGNVAYRQLVNNGYRARNLIGGYRTYKFAS 3ntl-a1-m1-cB_3ntl-a1-m1-cA Crystal Structure of Glucose-1-phosphatase (AgpE) from Enterobacter cloacae Q6EV19 Q6EV19 1.88 X-RAY DIFFRACTION 81 0.997 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 387 388 EGYQLEQVLIMSRANLRAPLANNGSVLEQSTPKQWPEWEVPGGQLTTKGGVLEVYMGHYMREWLAQQGMVKTGECPAADSVYAYANSLQRTVATAQFFITGAFPGCDVPVHHQEKMGTMDPTFNPVITDNSPEFREKALKAMETERQKMQLTESYKLLEQMTNYADSPSCKEKKVCSLADAKDTFSADYEKEPGVSGPLKVGNSLVDAFTLQYYEGFPADQVAWGEIKTDQQWRVLSKLKNGYQDSLFTSTEVAQNVAKPLVKYIDKTLVTEQAKAPKITLLVGHDSNIASLLTALDFKPYQLHDQQERTPIGGKIVFQRWHDKNANQELMKIEYVYQSSEQLRNASVLSLQSPAQRVTLELKGCPVDANGFCPVDKFNAVMNNAAK SPEGYQLEQVLIMSRANLRAPLANNGSVLEQSTPKQWPEWEVPGGQLTTKGGVLEVYMGHYMREWLAQQGMVKTGECPAADSVYAYANSLQRTVATAQFFITGAFPGCDVPVHHQEKMGTMDPTFNPVITDNSPEFREKALKAMETERQKMQLTESYKLLEQMTNYADSPSCKEKKVCSLADAKDTFSADYEKEPGVSGPLKVGNSLVDAFTLQYYEGFPADQVAWGEIKTDQQWRVLSKLKNGYQDSLFTSTEVAQNVAKPLVKYIDKTLVTEQAKAPKITLLVGHDSNIASLLTALDFKPYQLHDQQERTPIGGKIVFQRWHDKNANQELMKIEYVYQSSEQLRNASVLSLQSPAQRVTLELKGCPVDANGFCPVDKFNAVMNNAA 3ntn-a1-m1-cA_3ntn-a1-m1-cC Crystal Structure of UspA1 head and neck domain from Moraxella catarrhalis Q9XD56 Q9XD56 2.2 X-RAY DIFFRACTION 312 1.0 480 (Moraxella catarrhalis) 480 (Moraxella catarrhalis) 211 211 3ntn-a1-m1-cA_3ntn-a1-m1-cB 3ntn-a1-m1-cC_3ntn-a1-m1-cB 3pr7-a1-m1-cA_3pr7-a1-m1-cB 3pr7-a1-m1-cA_3pr7-a1-m1-cC 3pr7-a1-m1-cB_3pr7-a1-m1-cC ENSTVGGGGYNQAKGRNSTVAGGYNNEATGTDSTIAGGRKNQATGKGSFAAGIDNKANADNAVALGNKNTIEGENSVAIGSNNTVKKGQQNVFILGSNTDTTNAQNGSVLLGHNTAGKAATIVNSAEVGGLSLTGFAGASNGTVSVGKKGKERQIVHVGAGEISDTSTDAVNGSQLHALATVVAQNKADIKDLDDEVGLLGEEINKHHHHH ENSTVGGGGYNQAKGRNSTVAGGYNNEATGTDSTIAGGRKNQATGKGSFAAGIDNKANADNAVALGNKNTIEGENSVAIGSNNTVKKGQQNVFILGSNTDTTNAQNGSVLLGHNTAGKAATIVNSAEVGGLSLTGFAGASNGTVSVGKKGKERQIVHVGAGEISDTSTDAVNGSQLHALATVVAQNKADIKDLDDEVGLLGEEINKHHHHH 3ntq-a2-m3-cA_3ntq-a2-m4-cA Crystal structure of K97V mutant myo-inositol dehydrogenase from Bacillus subtilis with bound cofactor NAD P26935 P26935 2.6004 X-RAY DIFFRACTION 17 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 337 337 3ntq-a2-m1-cA_3ntq-a2-m3-cA 3ntq-a2-m1-cA_3ntq-a2-m4-cA MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEVPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ MSLRIGVIGTGAIGKEHINRITNKLSGAEIVAVTDVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEVPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ 3ntu-a1-m2-cA_3ntu-a1-m6-cA RADA RECOMBINASE D302K MUTANT IN COMPLEX with AMP-PNP O73948 O73948 1.9 X-RAY DIFFRACTION 90 1.0 523842 (Methanococcus voltae PS) 523842 (Methanococcus voltae PS) 310 310 3ntu-a1-m1-cA_3ntu-a1-m6-cA 3ntu-a1-m2-cA_3ntu-a1-m4-cA 3ntu-a1-m3-cA_3ntu-a1-m4-cA 3ntu-a1-m3-cA_3ntu-a1-m5-cA GLTDLPGVGPSTAEKLVEAGYIDFMKIATATVGELTDIEGISEKAAAKMIMGARDLCDLGFKSGIDLLKQRSTVWKLSTSSSELDSVLGGGLESQSVTEFAGVFGSGKTQIMHQSCVNLQNPEFLFYDEEAVSKGEVAQPKAVYIDTEGTFRPERIMQMAEHAGIDGQTVLDNTFVARAYNSDMQMLFAEKIEDLIQEGNNIKLVVIDSLTSTFRNEYTGKLAERQQKLGRHMATLNKLADLFNCVVLVTNQVSAKAEQAIGGHIVGHAATFRFFVRKGKGDKRVAKLYKSPHLPDAEAIFRITEKGIQD GLTDLPGVGPSTAEKLVEAGYIDFMKIATATVGELTDIEGISEKAAAKMIMGARDLCDLGFKSGIDLLKQRSTVWKLSTSSSELDSVLGGGLESQSVTEFAGVFGSGKTQIMHQSCVNLQNPEFLFYDEEAVSKGEVAQPKAVYIDTEGTFRPERIMQMAEHAGIDGQTVLDNTFVARAYNSDMQMLFAEKIEDLIQEGNNIKLVVIDSLTSTFRNEYTGKLAERQQKLGRHMATLNKLADLFNCVVLVTNQVSAKAEQAIGGHIVGHAATFRFFVRKGKGDKRVAKLYKSPHLPDAEAIFRITEKGIQD 3ntv-a1-m1-cB_3ntv-a1-m1-cA Crystal structure of a putative caffeoyl-CoA O-methyltransferase from Staphylococcus aureus A0A0H3JWL8 A0A0H3JWL8 1.55 X-RAY DIFFRACTION 93 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 204 205 DLNKKYLIDLHQHQNSSIEVLREFAEVNEVPIVDRLTLDLIKQLIRNNVKNILEIGTAIGYSSQFASISDDIHVTTIERNETIQYAKQNLATYHFENQVRIIEGNALEQFENVNDKVYDIFIDAAKAQSKKFFEIYTPLLKHQGLVITDNVLYHGFVSDIGIVRSRNVRQVKKVQDYNEWLIKQPGYTTNFLNIDDGLAISIKG DDLNKKYLIDLHQHQNSSIEVLREFAEVNEVPIVDRLTLDLIKQLIRNNVKNILEIGTAIGYSSQFASISDDIHVTTIERNETIQYAKQNLATYHFENQVRIIEGNALEQFENVNDKVYDIFIDAAKAQSKKFFEIYTPLLKHQGLVITDNVLYHGFVSDIGIVRSRNVRQVKKVQDYNEWLIKQPGYTTNFLNIDDGLAISIKG 3ntx-a2-m1-cB_3ntx-a2-m3-cB Crystal Structure of L-asparaginase I from Yersinia pestis A0A3N4B0Q2 A0A3N4B0Q2 1.9 X-RAY DIFFRACTION 178 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 322 322 3ntx-a1-m1-cA_3ntx-a1-m2-cA 7r69-a1-m1-cB_7r69-a1-m1-cA 7r69-a1-m1-cD_7r69-a1-m1-cC 7r6a-a1-m1-cB_7r6a-a1-m1-cA 7r6a-a2-m1-cC_7r6a-a2-m1-cD QKKSIYVAYTGGTIGQRSDNGYIPVSGHLQRQLALPEFHRPEPDFTIHEYAPLIDSSDTPEDWQHIANDIQQNYDLYDGFVILHGTDTAFTASALSFLENLAKPVIITGSQIPLAELRSDGQTNLLNALYLAANHPVNEVSLFFNNQLFRGNRTTKAHADGFDTFASPNLSVLLEAGIHIRRQSSVVSPTSNGPLIVHRITPQPIGVVTIYPGISGAVVRNFLLQPVKALILRSYGVGNAPQKAELLDELKNASDRGIVVVNLTQCISGSVNGNALAQAGVISGFDTVEAALTKLHYLLSQSLSPNEIRQLQQNLRGELTDT QKKSIYVAYTGGTIGQRSDNGYIPVSGHLQRQLALPEFHRPEPDFTIHEYAPLIDSSDTPEDWQHIANDIQQNYDLYDGFVILHGTDTAFTASALSFLENLAKPVIITGSQIPLAELRSDGQTNLLNALYLAANHPVNEVSLFFNNQLFRGNRTTKAHADGFDTFASPNLSVLLEAGIHIRRQSSVVSPTSNGPLIVHRITPQPIGVVTIYPGISGAVVRNFLLQPVKALILRSYGVGNAPQKAELLDELKNASDRGIVVVNLTQCISGSVNGNALAQAGVISGFDTVEAALTKLHYLLSQSLSPNEIRQLQQNLRGELTDT 3nua-a1-m1-cA_3nua-a1-m1-cB Crystal Structure of Phosphoribosylaminoimidazole-Succinocarboxamide Synthase from Clostridium perfringens Q0TTB4 Q0TTB4 1.4 X-RAY DIFFRACTION 72 1.0 195103 (Clostridium perfringens ATCC 13124) 195103 (Clostridium perfringens ATCC 13124) 236 237 AMVNQLEMLYEGKAKKIYATDKEDMVIVHYKDDATAFNGEKKAQIESKGVLNNEITSLIFEMLNKEGIKTHFVEKLNDRDQLCKKVEIVPLEVIVRNVAAGSMAKRLGLEEGYELKTTVFELSYKDDSLGDPLINDYHAVGIGATTFEELNKIYEITAKVNEILKEAFKKQNINLIDFKLEFGRYNGEILLADEISPDTCRFWDATTGEKMDKDRFRRDMGNVINGYREVLNRLRN NAMVNQLEMLYEGKAKKIYATDKEDMVIVHYKDDATAFNGEKKAQIESKGVLNNEITSLIFEMLNKEGIKTHFVEKLNDRDQLCKKVEIVPLEVIVRNVAAGSMAKRLGLEEGYELKTTVFELSYKDDSLGDPLINDYHAVGIGATTFEELNKIYEITAKVNEILKEAFKKQNINLIDFKLEFGRYNGEILLADEISPDTCRFWDATTGEKMDKDRFRRDMGNVINGYREVLNRLRN 3nuf-a3-m1-cB_3nuf-a3-m1-cA Crystal structure of a PRD-containing transcription regulator (LSEI_2718) from Lactobacillus casei ATCC 334 at 1.38 A resolution Q034D9 Q034D9 1.38 X-RAY DIFFRACTION 21 1.0 321967 (Lacticaseibacillus paracasei ATCC 334) 321967 (Lacticaseibacillus paracasei ATCC 334) 109 114 NVELPTEVKAIEQSSDAQAATALVNYVIKLAAAAEIHFTDLQLQVLTNHLIELGRSKSGEQLPAVDPTFAEVSQKSLDLADQVVQHIGHLEVAEKYVLSIHFEAAQDKI TPLDANVELPTEVKAIEQSSDAQAATALVNYVIKLAAAAEIHFTDLQLQVLTNHLIELGRSKSGEQLPAVDPTFAEVSQKSLDLADQVVQHIGHLEVAEKYVLSIHFEAAQDKI 3nur-a2-m1-cA_3nur-a2-m2-cA Crystal structure of a putative amidohydrolase from Staphylococcus aureus A0A0H3K164 A0A0H3K164 1.75 X-RAY DIFFRACTION 153 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 299 299 KSITFEEHYVIEDIQKETNADELSHHDERIQFNNQDVQIQVLSYGNGSPSNLVGQKAIELCQKANDQLANYIAQYPNRFVGFATLPINEPEAAAREFERCINDLGFKGALIGRAQDGFLDQDKYDIIFKTAENLDVPIYLHPAPVNSDIYQSYYKGNYPEVTAATFACFGYGWHIDVGIHAIHLVLSGIFDRYPKLNIIGHWGEFIPFFLERDEALFAEHLNHSVSYYFKNSFYITPSGLTKPQFDLVKKEVGIDRILYAADYPYIEPEKLGVFLDELGLTDEEKEKISYTNGAKLLGL KSITFEEHYVIEDIQKETNADELSHHDERIQFNNQDVQIQVLSYGNGSPSNLVGQKAIELCQKANDQLANYIAQYPNRFVGFATLPINEPEAAAREFERCINDLGFKGALIGRAQDGFLDQDKYDIIFKTAENLDVPIYLHPAPVNSDIYQSYYKGNYPEVTAATFACFGYGWHIDVGIHAIHLVLSGIFDRYPKLNIIGHWGEFIPFFLERDEALFAEHLNHSVSYYFKNSFYITPSGLTKPQFDLVKKEVGIDRILYAADYPYIEPEKLGVFLDELGLTDEEKEKISYTNGAKLLGL 3nut-a2-m1-cB_3nut-a2-m1-cC Crystal structure of the methyltransferase CobJ O68097 O68097 2.22 X-RAY DIFFRACTION 212 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 240 242 3nut-a1-m1-cD_3nut-a1-m1-cA GWVTVAGLGPGREDLVTPEVTAALAEATDIVGYIPYVARIAPREGLTLHPTDNRVELDRATHALEMAAEGRRVVVVSSGDPGVFAMASALFEALEAHPEHAGTEIRILPGITAMLAAAAAAGAPLGHDFCAINLSDNLKPFEILEKRLRHAARGDFAMAFYNPRSKSRPHQFTRVLEILREECEPGRLILFARAVTTPEQAISVVELRDATPEMADMRTVVLVGNAATRRVGPWVYTPRG MSGWVTVAGLGPGREDLVTPEVTAALAEATDIVGYIPYVARIAPREGLTLHPTDNRVELDRATHALEMAAEGRRVVVVSSGDPGVFAMASALFEALEAHPEHAGTEIRILPGITAMLAAAAAAGAPLGHDFCAINLSDNLKPFEILEKRLRHAARGDFAMAFYNPRSKSRPHQFTRVLEILREECEPGRLILFARAVTTPEQAISVVELRDATPEMADMRTVVLVGNAATRRVGPWVYTPRG 3nuv-a2-m1-cB_3nuv-a2-m2-cB Crystal structure of ketosteroid isomerase D38ND99N from Pseudomonas testosteroni (tKSI) with 4-Androstene-3,17-dione Bound P00947 P00947 1.76 X-RAY DIFFRACTION 12 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 124 124 3nxj-a2-m1-cA_3nxj-a2-m2-cA NTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVENPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA NTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVENPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA 3nuv-a2-m2-cB_3nuv-a2-m1-cA Crystal structure of ketosteroid isomerase D38ND99N from Pseudomonas testosteroni (tKSI) with 4-Androstene-3,17-dione Bound P00947 P00947 1.76 X-RAY DIFFRACTION 29 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 124 125 3nuv-a2-m1-cB_3nuv-a2-m2-cA 3nxj-a2-m1-cA_3nxj-a2-m2-cB 3nxj-a2-m1-cB_3nxj-a2-m2-cA NTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVENPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA MNTPEHMTAVVQRYVAALNAGDLDGIVALFADDATVENPVGSEPRSGTAAIREFYANSLKLPLAVELTQEVRAVANEAAFAFTVSFEYQGRKTVVAPINHFRFNGAGKVVSMRALFGEKNIHAGA 3nuz-a3-m1-cE_3nuz-a3-m1-cF Crystal structure of a putative acetyl xylan esterase (BF1801) from Bacteroides fragilis NCTC 9343 at 2.30 A resolution Q5LEF1 Q5LEF1 2.3 X-RAY DIFFRACTION 188 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 375 376 3nuz-a1-m1-cA_3nuz-a1-m1-cB 3nuz-a2-m1-cC_3nuz-a2-m1-cD WSPKDHNLIKSVREDGRFLSSYGVVHALRNTEPRYAFHRDFSPKEFRKWQKGLRHAEEIKFPSPAPVCIKREQREGYRLEKWEFYPLPKCVSTFLVLIPDNINKPVPAILCIPGSGGNKEGLAGEPGIAPKLNDRYKDPKLTQALNFVKEGYIAVAVDNPAAGEASDLERYTLGSNYDYDVVSRYLLELGWSYLGYASYLDQVLNWKTQKHIRKDRIVVSGFSLGTEPVLGTLDTSIYAFVYNDFLCQTQERAEVTPDKNGRRPFPNSIRHLIPDFWKNFNFPDIVAALAPRPIILTEGGLDRDLDLVRKAYAIVGTPDNVKIYHYKKFSDPDTRKNVEYLPEGLDRNEYFRVNVDGPNHYFKSELVVPWLRKLL WSPKDHNLIKSVREDGRFLSSYGVVHALRNTEPRYAFHRDFSPKEFRKWQKGLRHAEEIKFPQSPAPVCIKREQREGYRLEKWEFYPLPKCVSTFLVLIPDNINKPVPAILCIPGSGGNKEGLAGEPGIAPKLNDRYKDPKLTQALNFVKEGYIAVAVDNPAAGEASDLERYTLGSNYDYDVVSRYLLELGWSYLGYASYLDQVLNWKTQKHIRKDRIVVSGFSLGTEPVLGTLDTSIYAFVYNDFLCQTQERAEVTPDKNGRRPFPNSIRHLIPDFWKNFNFPDIVAALAPRPIILTEGGLDRDLDLVRKAYAIVGTPDNVKIYHYKKFSDPDTRKNVEYLPEGLDRNEYFRVNVDGPNHYFKSELVVPWLRKLL 3nv2-a1-m2-cA_3nv2-a1-m3-cA Crystal structure of human galectin-9 C-terminal CRD in complex with N-acetyllactosamine O00182 O00182 2.34 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 136 3nv2-a1-m1-cA_3nv2-a1-m2-cA 3nv2-a1-m1-cA_3nv2-a1-m3-cA HPAYPMPFITTILGGLYPSKSILLSGTVLPSAQRFHINLCSGNHIAFHLNPRFDENAVVRNTQIDNSWGSEERSLPRKMPFVRGQSFSVWILCEAHCLKVAVDGQHLFEYYHRLRNLPTINRLEVGGDIQLTHVQT HPAYPMPFITTILGGLYPSKSILLSGTVLPSAQRFHINLCSGNHIAFHLNPRFDENAVVRNTQIDNSWGSEERSLPRKMPFVRGQSFSVWILCEAHCLKVAVDGQHLFEYYHRLRNLPTINRLEVGGDIQLTHVQT 3nv7-a1-m1-cA_3nv7-a1-m4-cA Crystal structure of H.pylori phosphopantetheine adenylyltransferase mutant I4V/N76Y O26010 O26010 1.75 X-RAY DIFFRACTION 18 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 155 155 3nv7-a1-m2-cA_3nv7-a1-m3-cA KVGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLAYLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISKA KVGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLAYLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISKA 3nv7-a1-m2-cA_3nv7-a1-m4-cA Crystal structure of H.pylori phosphopantetheine adenylyltransferase mutant I4V/N76Y O26010 O26010 1.75 X-RAY DIFFRACTION 244 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 155 155 3nv7-a1-m1-cA_3nv7-a1-m3-cA KVGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLAYLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISKA KVGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLAYLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISKA 3nv7-a1-m3-cA_3nv7-a1-m4-cA Crystal structure of H.pylori phosphopantetheine adenylyltransferase mutant I4V/N76Y O26010 O26010 1.75 X-RAY DIFFRACTION 25 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 155 155 3nv7-a1-m1-cA_3nv7-a1-m2-cA KVGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLAYLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISKA KVGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLAYLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISKA 3nv8-a1-m2-cA_3nv8-a1-m2-cB The structure of 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase in complex with phosphoenol pyruvate and manganese (thesit-free) O53512 O53512 2.25 X-RAY DIFFRACTION 151 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 462 464 2b7o-a1-m1-cA_2b7o-a1-m1-cB 2w19-a1-m1-cB_2w19-a1-m1-cA 2w19-a1-m2-cB_2w19-a1-m2-cA 2w1a-a1-m1-cB_2w1a-a1-m1-cA 2w1a-a1-m2-cB_2w1a-a1-m2-cA 2ypo-a1-m1-cB_2ypo-a1-m1-cA 2ypo-a1-m2-cB_2ypo-a1-m2-cA 2ypp-a1-m1-cB_2ypp-a1-m1-cA 2ypp-a1-m2-cB_2ypp-a1-m2-cA 2ypq-a1-m1-cB_2ypq-a1-m1-cA 2ypq-a1-m2-cB_2ypq-a1-m2-cA 3kgf-a1-m1-cA_3kgf-a1-m1-cB 3kgf-a1-m2-cA_3kgf-a1-m2-cB 3nud-a1-m1-cA_3nud-a1-m1-cB 3nud-a1-m2-cA_3nud-a1-m2-cB 3nue-a1-m1-cB_3nue-a1-m1-cA 3nue-a1-m2-cB_3nue-a1-m2-cA 3nv8-a1-m1-cA_3nv8-a1-m1-cB 3pfp-a1-m1-cA_3pfp-a1-m1-cB 3pfp-a1-m2-cA_3pfp-a1-m2-cB 3rzi-a1-m1-cA_3rzi-a1-m1-cB 3rzi-a1-m2-cA_3rzi-a1-m2-cB 5ckv-a1-m1-cA_5ckv-a1-m1-cB 5ckv-a1-m2-cA_5ckv-a1-m2-cB 5ckx-a1-m1-cA_5ckx-a1-m1-cB 5ckx-a1-m2-cA_5ckx-a1-m2-cB 5e2l-a1-m1-cB_5e2l-a1-m1-cA 5e2l-a1-m2-cB_5e2l-a1-m2-cA 5e40-a1-m1-cB_5e40-a1-m1-cA 5e40-a1-m2-cB_5e40-a1-m2-cA 5e4n-a1-m1-cB_5e4n-a1-m1-cA 5e4n-a1-m2-cB_5e4n-a1-m2-cA 5e5g-a1-m1-cB_5e5g-a1-m1-cA 5e5g-a1-m2-cB_5e5g-a1-m2-cA 5e7z-a1-m1-cB_5e7z-a1-m1-cA 5e7z-a1-m2-cB_5e7z-a1-m2-cA 5ex4-a1-m1-cA_5ex4-a1-m1-cB 5ex4-a1-m2-cA_5ex4-a1-m2-cB 6pbj-a1-m1-cB_6pbj-a1-m1-cA 6pbj-a1-m2-cB_6pbj-a1-m2-cA MNWTVDIPIDQLPSLPPLPTDLRTRLDAALAKPAAQQPTWPADQALAMRTVLESVPPVTVPSEIVRLQEQLAQVAKGEAFLLQGGDCAETFMDNTEPHIRGNVRALLQMAVVLTYGASMPVVKVARIAGQYAKPRSADIDALGLRSYRGDMINGFAPDAAAREHDPSRLVRAYANASAAMNLVRALTSSGLASLHLVHDWNREFVRTSPAGARYEALATEIDRGLRFMSACGVADRNLQTAEIYASHEALVLDYERAMLRLSDGDDGEPQLFDLSAHTVWIGERTRQIDGAHIAFAQVIANPVGVKLGPNMTPELAVEYVERLDPHNKPGRLTLVSRMGNHKVRDLLPPIVEKVQATGHQVIWQCDPMHGNTHESSTGFKTRHFDRIVDEVQGFFEVHRALGTHPGGIHVEITGENVTECLGGAQDISETDLAGRYETACDPRLNTQQSLELAFLVAEMLRD GAMNWTVDIPIDQLPSLPPLPTDLRTRLDAALAKPAAQQPTWPADQALAMRTVLESVPPVTVPSEIVRLQEQLAQVAKGEAFLLQGGDCAETFMDNTEPHIRGNVRALLQMAVVLTYGASMPVVKVARIAGQYAKPRSADIDALGLRSYRGDMINGFAPDAAAREHDPSRLVRAYANASAAMNLVRALTSSGLASLHLVHDWNREFVRTSPAGARYEALATEIDRGLRFMSACGVADRNLQTAEIYASHEALVLDYERAMLRLSDGDDGEPQLFDLSAHTVWIGERTRQIDGAHIAFAQVIANPVGVKLGPNMTPELAVEYVERLDPHNKPGRLTLVSRMGNHKVRDLLPPIVEKVQATGHQVIWQCDPMHGNTHESSTGFKTRHFDRIVDEVQGFFEVHRALGTHPGGIHVEITGENVTECLGGAQDISETDLAGRYETACDPRLNTQQSLELAFLVAEMLRD 3nv9-a1-m1-cA_3nv9-a1-m1-cB Crystal structure of Entamoeba histolytica Malic Enzyme Q9NH04 Q9NH04 2.25 X-RAY DIFFRACTION 476 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 486 486 MAQLKADLSNLEECLPSTLSQEQRAVAKTQFYKELAEKVHKFYKGKIQIMPKCTLAGFNWFNAYYTPGVSRISTNIRDNNDSSLFYSLRGNFVGVVSDSTRVLGDGDVTPPGGLGVMEGKALLMKYLGGIDAVPICIDSKNKEGKNDPDAVIEFVQRIQHTFGAINLEDISQPNCYKILDVLRESCDIPVWHDDQQGTASVTLAGLLNALKLVKKDIHECRMVFIGAGSSNTTCLRLIVTAGADPKKIVMFDSKGSLHNGREDIKKDTRFYRKWEICETTNPSKFGSIAEACVGADVLISLSTPGPGVVKAEWIKSMGEKPIVFCCANPVPEIYPYEAKEAGAYIVATGRGDFPNQVNNSVGFPGILKGALIVRARKITDNMAIAASRALAEFAEKRGINPDNIIGTMDEPGIFPKEAADVAMQAIKDGVARVTDLTWQQVYDIAEHDIKEARESAQLLQDSKHIVDFPQETLNECLAYAINKVTG MAQLKADLSNLEECLPSTLSQEQRAVAKTQFYKELAEKVHKFYKGKIQIMPKCTLAGFNWFNAYYTPGVSRISTNIRDNNDSSLFYSLRGNFVGVVSDSTRVLGDGDVTPPGGLGVMEGKALLMKYLGGIDAVPICIDSKNKEGKNDPDAVIEFVQRIQHTFGAINLEDISQPNCYKILDVLRESCDIPVWHDDQQGTASVTLAGLLNALKLVKKDIHECRMVFIGAGSSNTTCLRLIVTAGADPKKIVMFDSKGSLHNGREDIKKDTRFYRKWEICETTNPSKFGSIAEACVGADVLISLSTPGPGVVKAEWIKSMGEKPIVFCCANPVPEIYPYEAKEAGAYIVATGRGDFPNQVNNSVGFPGILKGALIVRARKITDNMAIAASRALAEFAEKRGINPDNIIGTMDEPGIFPKEAADVAMQAIKDGVARVTDLTWQQVYDIAEHDIKEARESAQLLQDSKHIVDFPQETLNECLAYAINKVTG 3nva-a1-m1-cA_3nva-a1-m1-cB Dimeric form of CTP synthase from Sulfolobus solfataricus Q980S6 Q980S6 2.504 X-RAY DIFFRACTION 95 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 533 533 PNKYIVVTGGVLSSVGKGTLVASIGMLLKRRGYNVTAVKIDPYINVDAGTMNPYMHGEVFVTEDGAETDLDLGHYERFMDVNMTKYNNITAGKVYFEVIKKEREGKYLGQTVQIIPHVTDQIKDMIRYASKINNAEITLVEIGGTVGDIESLPFLEAVRQLKLEEGEDNVIFVHIALVEYLSVTGELKTKPLQHSVQELRRIGIQPDFIVGRATLPLDDETRRKIALFTNVKVDHIVSSYDVETSYEVPIILESQKLVSKILSRLKLEDRQVDLTDWISFVNNIKGINSKKTINIALVGKYTKLKDSYISIKEAIYHASAYIGVRPKLIWIESTDLESDTKNLNEILGNVNGIIVLPGFGSRGAEGKIKAIKYAREHNIPFLGICFGFQLSIVEFARDVLGLSEANSTEINPNTKDPVITLLDEQKNVTQLGGTMRLGAQKIILKEGTIAYQLYGKKVVYERHRHRYEVNPKYVDILEDAGLVVSGISENGLVEIIELPSNKFFVATQAHPEFKSRPTNPSPIYLGFIRAVAS PNKYIVVTGGVLSSVGKGTLVASIGMLLKRRGYNVTAVKIDPYINVDAGTMNPYMHGEVFVTEDGAETDLDLGHYERFMDVNMTKYNNITAGKVYFEVIKKEREGKYLGQTVQIIPHVTDQIKDMIRYASKINNAEITLVEIGGTVGDIESLPFLEAVRQLKLEEGEDNVIFVHIALVEYLSVTGELKTKPLQHSVQELRRIGIQPDFIVGRATLPLDDETRRKIALFTNVKVDHIVSSYDVETSYEVPIILESQKLVSKILSRLKLEDRQVDLTDWISFVNNIKGINSKKTINIALVGKYTKLKDSYISIKEAIYHASAYIGVRPKLIWIESTDLESDTKNLNEILGNVNGIIVLPGFGSRGAEGKIKAIKYAREHNIPFLGICFGFQLSIVEFARDVLGLSEANSTEINPNTKDPVITLLDEQKNVTQLGGTMRLGAQKIILKEGTIAYQLYGKKVVYERHRHRYEVNPKYVDILEDAGLVVSGISENGLVEIIELPSNKFFVATQAHPEFKSRPTNPSPIYLGFIRAVAS 3nve-a1-m4-cB_3nve-a1-m6-cA MMHFGN segment 138-143 from Syrian Hamster prion P04273 P04273 1.7 X-RAY DIFFRACTION 18 1.0 10036 (Mesocricetus auratus) 10036 (Mesocricetus auratus) 6 6 3nve-a1-m1-cA_3nve-a1-m2-cB 3nve-a1-m1-cB_3nve-a1-m3-cA 3nve-a1-m4-cA_3nve-a1-m5-cB MMHFGN MMHFGN 3nve-a1-m6-cA_3nve-a1-m6-cB MMHFGN segment 138-143 from Syrian Hamster prion P04273 P04273 1.7 X-RAY DIFFRACTION 17 1.0 10036 (Mesocricetus auratus) 10036 (Mesocricetus auratus) 6 6 3nve-a1-m1-cA_3nve-a1-m1-cB 3nve-a1-m2-cA_3nve-a1-m2-cB 3nve-a1-m3-cA_3nve-a1-m3-cB 3nve-a1-m4-cA_3nve-a1-m4-cB 3nve-a1-m5-cA_3nve-a1-m5-cB MMHFGN MMHFGN 3nvf-a1-m8-cA_3nvf-a1-m9-cA IIHFGS segment 138-143 from human prion P04156 P04156 1.8 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3nvf-a1-m10-cA_3nvf-a1-m9-cA 3nvf-a1-m1-cA_3nvf-a1-m3-cA 3nvf-a1-m1-cA_3nvf-a1-m4-cA 3nvf-a1-m2-cA_3nvf-a1-m3-cA 3nvf-a1-m4-cA_3nvf-a1-m5-cA 3nvf-a1-m6-cA_3nvf-a1-m7-cA 3nvf-a1-m7-cA_3nvf-a1-m8-cA IIHFGS IIHFGS 3nvg-a1-m8-cA_3nvg-a1-m9-cA MIHFGN segment 137-142 from mouse prion P04925 P04925 1.48 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 6 6 3nvg-a1-m10-cA_3nvg-a1-m9-cA 3nvg-a1-m1-cA_3nvg-a1-m3-cA 3nvg-a1-m1-cA_3nvg-a1-m4-cA 3nvg-a1-m2-cA_3nvg-a1-m3-cA 3nvg-a1-m4-cA_3nvg-a1-m5-cA 3nvg-a1-m6-cA_3nvg-a1-m7-cA 3nvg-a1-m7-cA_3nvg-a1-m8-cA MIHFGN MIHFGN 3nvh-a1-m8-cA_3nvh-a1-m9-cA MIHFGND segment 137-143 from mouse prion P04925 P04925 1.61 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 7 7 3nvh-a1-m10-cA_3nvh-a1-m9-cA 3nvh-a1-m1-cA_3nvh-a1-m3-cA 3nvh-a1-m1-cA_3nvh-a1-m4-cA 3nvh-a1-m2-cA_3nvh-a1-m3-cA 3nvh-a1-m4-cA_3nvh-a1-m5-cA 3nvh-a1-m6-cA_3nvh-a1-m7-cA 3nvh-a1-m7-cA_3nvh-a1-m8-cA MIHFGND MIHFGND 3nvo-a1-m1-cB_3nvo-a1-m1-cA The Soluble Domain Structure of the ZntB Zn2+ Efflux System Q9EYX5 Q9EYX5 2.3 X-RAY DIFFRACTION 38 0.984 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 247 250 GHMEAIKGSDVNVPDAVFAWLLDGRGGVKPLEDNDVIDSQHPCWLHLNYTHPDSARWLASTPLLPNNVRDALAGESSRPRVSRMGEGTLITLRCILVAMRLYMDERFIVSTRQRKVLALDDVVSDLQEGTGPVDCGGWLVDVCDALTDHASEFIEELHDKIIDLEDNLLDQPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDHRRRMQDIADRLGRGLDEIDACIARTGIMADEIAQV GHMEAIKGSDVNVPDAVFAWLLDGRGGVKPLEDNDVIDSQHPCWLHLNYTHPDSARWLASTPLLPNNVRDALAGESSRPRVSRMGEGTLITLRCILVAMRLYMDERFIVSTRQRKVLALDDVVSDLQEGTGPVDCGGWLVDVCDALTDHASEFIEELHDKIIDLEDNQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDHRRRMQDIADRLGRGLDEIDACIARTGIMADEIAQVMQES 3nvo-a2-m2-cB_3nvo-a2-m1-cA The Soluble Domain Structure of the ZntB Zn2+ Efflux System Q9EYX5 Q9EYX5 2.3 X-RAY DIFFRACTION 38 0.984 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 247 250 GHMEAIKGSDVNVPDAVFAWLLDGRGGVKPLEDNDVIDSQHPCWLHLNYTHPDSARWLASTPLLPNNVRDALAGESSRPRVSRMGEGTLITLRCILVAMRLYMDERFIVSTRQRKVLALDDVVSDLQEGTGPVDCGGWLVDVCDALTDHASEFIEELHDKIIDLEDNLLDQPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDHRRRMQDIADRLGRGLDEIDACIARTGIMADEIAQV GHMEAIKGSDVNVPDAVFAWLLDGRGGVKPLEDNDVIDSQHPCWLHLNYTHPDSARWLASTPLLPNNVRDALAGESSRPRVSRMGEGTLITLRCILVAMRLYMDERFIVSTRQRKVLALDDVVSDLQEGTGPVDCGGWLVDVCDALTDHASEFIEELHDKIIDLEDNQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDHRRRMQDIADRLGRGLDEIDACIARTGIMADEIAQVMQES 3nvq-a1-m1-cA_3nvq-a1-m1-cE Molecular mechanism of guidance cue recognition O75326 O75326 2.4 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 588 588 GHLRSGPRIFAVWKGHVGQDRVDFGQTEPHTVLFHEPGSSSVWVGGRGKVYLFDFPEGKNASVRTVNIGSTKGSCLDKRDCENYITLLERRSEGLLACGTNARHPSCWNLVNGTVVPLGEMRGYAPFSPDENSLVLFEGDEVYSTIRKQEYNGKIPRFRRIRGESELYTSDTVMQNPQFIKATIVHQDQAYDDKIYYFFREDNPDKNPEAPLNVSRVAQLCRGDQGGESSLSVSKWNTFLKAMLVCSDAATNKNFNRLQDVFLLPDPSGQWRDTRVYGVFSNPWNYSAVCVYSLGDIDKVFRTSSLKGYHSSLPNPRPGKCLPDQQPIPTETFQVADRHPEVAQRVEPMGPLKTPLFHSKYHYQKVAVHRMQASHGETFHVLYLTTDRGTIHKVVEPGEQEHSFAFNIMEIQPFRRAAAIQTMSLDAERRKLYVSSQWEVSQVPLDLCEVYGGGCHGCLMSRDPYCGWDQGRCISIYSSERSVLQSINPAEPHKECPNPKPDKAPLQKVSLAPNSRYYLSCPMESRHATYSWRHKENVEQSCEPGHQSPNCILFIENLTAQQYGHYFCEAQEGSYFREAQHWQLLPED GHLRSGPRIFAVWKGHVGQDRVDFGQTEPHTVLFHEPGSSSVWVGGRGKVYLFDFPEGKNASVRTVNIGSTKGSCLDKRDCENYITLLERRSEGLLACGTNARHPSCWNLVNGTVVPLGEMRGYAPFSPDENSLVLFEGDEVYSTIRKQEYNGKIPRFRRIRGESELYTSDTVMQNPQFIKATIVHQDQAYDDKIYYFFREDNPDKNPEAPLNVSRVAQLCRGDQGGESSLSVSKWNTFLKAMLVCSDAATNKNFNRLQDVFLLPDPSGQWRDTRVYGVFSNPWNYSAVCVYSLGDIDKVFRTSSLKGYHSSLPNPRPGKCLPDQQPIPTETFQVADRHPEVAQRVEPMGPLKTPLFHSKYHYQKVAVHRMQASHGETFHVLYLTTDRGTIHKVVEPGEQEHSFAFNIMEIQPFRRAAAIQTMSLDAERRKLYVSSQWEVSQVPLDLCEVYGGGCHGCLMSRDPYCGWDQGRCISIYSSERSVLQSINPAEPHKECPNPKPDKAPLQKVSLAPNSRYYLSCPMESRHATYSWRHKENVEQSCEPGHQSPNCILFIENLTAQQYGHYFCEAQEGSYFREAQHWQLLPED 3nvu-a1-m1-cA_3nvu-a1-m1-cB Modulating Heme Redox Potential Through Protein-Induced Porphyrin Distortion Q8RBX6 Q8RBX6 2.038 X-RAY DIFFRACTION 32 1.0 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 188 188 3nvr-a1-m1-cB_3nvr-a1-m1-cA MKGTLVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPARLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFEYKKN MKGTLVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPARLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFEYKKN 3nwc-a2-m1-cB_3nwc-a2-m2-cB Crystal Structure of the Pyrococcus furiosus SMC Protein Hinge Domain Q8TZY2 Q8TZY2 1.6961 X-RAY DIFFRACTION 120 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 173 173 3nwc-a1-m1-cA_3nwc-a1-m2-cA 4rsj-a1-m1-cB_4rsj-a1-m1-cA 4rsj-a2-m1-cD_4rsj-a2-m1-cC ELESSERELIAAEAQREVRGNRAAEELKRSGIGGIYGTLAELIKVKDEAYALAIEVALGNRADNVVVEDELVAEKAIKYLKEHKLGRLTFLPLNKIKPKHVDSSVGLPAVDVIEYDQKIENAVKFALGDTVIVNSEEARPHIGKVRVTIEGELYERSGAITGGHFRARGLAVD ELESSERELIAAEAQREVRGNRAAEELKRSGIGGIYGTLAELIKVKDEAYALAIEVALGNRADNVVVEDELVAEKAIKYLKEHKLGRLTFLPLNKIKPKHVDSSVGLPAVDVIEYDQKIENAVKFALGDTVIVNSEEARPHIGKVRVTIEGELYERSGAITGGHFRARGLAVD 3nwg-a1-m1-cA_3nwg-a1-m6-cA The crystal structure of a microcomparments protein from Desulfitobacterium hafniense DCB B8G1Q4 B8G1Q4 2.7 X-RAY DIFFRACTION 19 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 174 174 3nwg-a1-m2-cA_3nwg-a1-m5-cA 3nwg-a1-m3-cA_3nwg-a1-m4-cA AESIGLVEVNSIARGIEAADALKAAQVDLLEAKPVCPGKYIVLICGDVAAVQSSVTAGKTAAHSVLDDFILPNVHPQVLTAISAATPLTLIKALGIIETFSIASLIVAADTAAKTGQVDLVEIRIGGIGGKSFVTLTGDVASVESSVAAGVLASERGLVDKVVIPSPHDHLKRC AESIGLVEVNSIARGIEAADALKAAQVDLLEAKPVCPGKYIVLICGDVAAVQSSVTAGKTAAHSVLDDFILPNVHPQVLTAISAATPLTLIKALGIIETFSIASLIVAADTAAKTGQVDLVEIRIGGIGGKSFVTLTGDVASVESSVAAGVLASERGLVDKVVIPSPHDHLKRC 3nwg-a1-m3-cA_3nwg-a1-m6-cA The crystal structure of a microcomparments protein from Desulfitobacterium hafniense DCB B8G1Q4 B8G1Q4 2.7 X-RAY DIFFRACTION 17 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 174 174 3nwg-a1-m1-cA_3nwg-a1-m5-cA 3nwg-a1-m2-cA_3nwg-a1-m4-cA AESIGLVEVNSIARGIEAADALKAAQVDLLEAKPVCPGKYIVLICGDVAAVQSSVTAGKTAAHSVLDDFILPNVHPQVLTAISAATPLTLIKALGIIETFSIASLIVAADTAAKTGQVDLVEIRIGGIGGKSFVTLTGDVASVESSVAAGVLASERGLVDKVVIPSPHDHLKRC AESIGLVEVNSIARGIEAADALKAAQVDLLEAKPVCPGKYIVLICGDVAAVQSSVTAGKTAAHSVLDDFILPNVHPQVLTAISAATPLTLIKALGIIETFSIASLIVAADTAAKTGQVDLVEIRIGGIGGKSFVTLTGDVASVESSVAAGVLASERGLVDKVVIPSPHDHLKRC 3nwg-a2-m2-cA_3nwg-a2-m3-cA The crystal structure of a microcomparments protein from Desulfitobacterium hafniense DCB B8G1Q4 B8G1Q4 2.7 X-RAY DIFFRACTION 53 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 174 174 3nwg-a1-m1-cA_3nwg-a1-m2-cA 3nwg-a1-m1-cA_3nwg-a1-m3-cA 3nwg-a1-m2-cA_3nwg-a1-m3-cA 3nwg-a1-m4-cA_3nwg-a1-m5-cA 3nwg-a1-m4-cA_3nwg-a1-m6-cA 3nwg-a1-m5-cA_3nwg-a1-m6-cA 3nwg-a2-m1-cA_3nwg-a2-m2-cA 3nwg-a2-m1-cA_3nwg-a2-m3-cA AESIGLVEVNSIARGIEAADALKAAQVDLLEAKPVCPGKYIVLICGDVAAVQSSVTAGKTAAHSVLDDFILPNVHPQVLTAISAATPLTLIKALGIIETFSIASLIVAADTAAKTGQVDLVEIRIGGIGGKSFVTLTGDVASVESSVAAGVLASERGLVDKVVIPSPHDHLKRC AESIGLVEVNSIARGIEAADALKAAQVDLLEAKPVCPGKYIVLICGDVAAVQSSVTAGKTAAHSVLDDFILPNVHPQVLTAISAATPLTLIKALGIIETFSIASLIVAADTAAKTGQVDLVEIRIGGIGGKSFVTLTGDVASVESSVAAGVLASERGLVDKVVIPSPHDHLKRC 3nwi-a1-m1-cE_3nwi-a1-m1-cD The Soluble Domain Structure of the ZntB Zn2+ Efflux System Q9EYX5 Q9EYX5 3.13 X-RAY DIFFRACTION 27 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 248 249 3nwi-a1-m1-cA_3nwi-a1-m1-cB 3nwi-a1-m1-cA_3nwi-a1-m1-cC 3nwi-a1-m1-cB_3nwi-a1-m1-cE 3nwi-a1-m1-cC_3nwi-a1-m1-cD HMEAIKGSDVNVPDAVFAWLLDGRGGVKPLEDNDVIDSQHPCWLHLNYTHPDSARWLASTPLLPNNVRDALAGESSRPRVSRMGEGTLITLRCILVAMRLYMDERFIVSTRQRKVLALDDVVSDLQEGTGPVDCGGWLVDVCDALTDHASEFIEELHDKIIDLEDNQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDHRRRMQDIADRLGRGLDEIDACIARTGIMADEIAQVMQE HMEAIKGSDVNVPDAVFAWLLDGRGGVKPLEDNDVIDSQHPCWLHLNYTHPDSARWLASTPLLPNNVRDALAGESSRPRVSRMGEGTLITLRCILVAMRLYMDERFIVSTRQRKVLALDDVVSDLQEGTGPVDCGGWLVDVCDALTDHASEFIEELHDKIIDLEDNQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDHRRRMQDIADRLGRGLDEIDACIARTGIMADEIAQVMQES 3nwj-a3-m1-cB_3nwj-a3-m1-cA Crystal structure of shikimate kinase from Arabidopsis thaliana (AtSK2) Q8GY88 Q8GY88 2.35 X-RAY DIFFRACTION 80 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 192 194 QQILKKKAEEVKPYLNGRSMYLVGMMGSGKTTVGKIMARSLGYTFFDCDTLIEQAMKGTSVAEIFEHFGESVFREKETEALKKLSLMYHQVVVSTGGGAVIRPINWKYMHKGISIWLDVPLEALAHRITYTAALNRLSTIWDARGEAYTKASARVSLENITLKLGYRSVSDLTPAEIAIEAFEQVQSYLEKE QQILKKKAEEVKPYLNGRSMYLVGMMGSGKTTVGKIMARSLGYTFFDCDTLIEQAMKGTSVAEIFEHFGESVFREKETEALKKLSLMYHQVVVSTGGGAVIRPINWKYMHKGISIWLDVPLEALAHRIAATYTAALNRLSTIWDARGEAYTKASARVSLENITLKLGYRSVSDLTPAEIAIEAFEQVQSYLEKE 3nwn-a1-m2-cA_3nwn-a1-m3-cA Crystal structure of the human KIF9 motor domain in complex with ADP Q9HAQ2 Q9HAQ2 2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 308 3nwn-a1-m1-cA_3nwn-a1-m2-cA 3nwn-a1-m1-cA_3nwn-a1-m3-cA KKVHAFVRVKPTDDFAHEMIRYGDDKRSIDIHLKKDIRRGVVNNQQTDWSFKLDGVLHDASQDLVYETVAKDVVSQALDGYNGTIMCYGQTGAGKTYTMMGATENYKHRGILPRALQQVFRMIEERPTHAITVRVSYLEIYNESLFDLLSTLPYVGPSVTPMTIVENPQGVFIKGLSVHLTSQEEDAFSLLFEGETNRIIASHTMNKNSSRSHCIFTIYLEAHKYITSKINLVDLAGSEYINKSLSFLEQAIIALGDIPFRQCKLTHALKDSLGGNCNMVLVTNIYGEAAQLEETLSSLRFASRMKLV KKVHAFVRVKPTDDFAHEMIRYGDDKRSIDIHLKKDIRRGVVNNQQTDWSFKLDGVLHDASQDLVYETVAKDVVSQALDGYNGTIMCYGQTGAGKTYTMMGATENYKHRGILPRALQQVFRMIEERPTHAITVRVSYLEIYNESLFDLLSTLPYVGPSVTPMTIVENPQGVFIKGLSVHLTSQEEDAFSLLFEGETNRIIASHTMNKNSSRSHCIFTIYLEAHKYITSKINLVDLAGSEYINKSLSFLEQAIIALGDIPFRQCKLTHALKDSLGGNCNMVLVTNIYGEAAQLEETLSSLRFASRMKLV 3nwr-a1-m1-cA_3nwr-a1-m2-cA Crystal structure of a rubisco-like protein from Burkholderia fungorum D9N172 D9N172 1.498 X-RAY DIFFRACTION 321 1.0 134537 (Paraburkholderia fungorum) 134537 (Paraburkholderia fungorum) 403 403 EDTLEADYLIETPLDPARVADVMAGEQSSGARSRASVLRIEELEAAARPSLPNAWLERQGTPGPWRRARITLSFPLANIDANLPTLAATVAGNLYDLGEVTGVRLLSLRLPASYRARFELPRHGVAGTRALTDVKDRPMIGTIIKPNVGLSAAETAALVRELCEAGVDFIDDEVCANPAHAPLAERVRAVMSEVRRYRERSGRPVMVAFNITDDLDAMRRHAELVEREGGSCVMASINWCGFSAIQSLRRTTPLVLHAHRNGYGMMSRDPALGMSFQAYQTLWRLSGVDHMHVHGLAGKFAQSDAEVIESARDCATPLAAGCDDAVLPAFSSGQWAGTVQATFDAVRSTDLLFMSGGGILAHPDGPAAGVTSVRQAWAAVQAGTPLPVYAEHMPELRRALAFF EDTLEADYLIETPLDPARVADVMAGEQSSGARSRASVLRIEELEAAARPSLPNAWLERQGTPGPWRRARITLSFPLANIDANLPTLAATVAGNLYDLGEVTGVRLLSLRLPASYRARFELPRHGVAGTRALTDVKDRPMIGTIIKPNVGLSAAETAALVRELCEAGVDFIDDEVCANPAHAPLAERVRAVMSEVRRYRERSGRPVMVAFNITDDLDAMRRHAELVEREGGSCVMASINWCGFSAIQSLRRTTPLVLHAHRNGYGMMSRDPALGMSFQAYQTLWRLSGVDHMHVHGLAGKFAQSDAEVIESARDCATPLAAGCDDAVLPAFSSGQWAGTVQATFDAVRSTDLLFMSGGGILAHPDGPAAGVTSVRQAWAAVQAGTPLPVYAEHMPELRRALAFF 3nws-a2-m1-cB_3nws-a2-m1-cD Crystal structure of the N-terminal domain of the yeast telomere-binding and telomerase regulatory protein Cdc13 P32797 P32797 2.5 X-RAY DIFFRACTION 84 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 195 195 3nws-a1-m1-cA_3nws-a1-m1-cC 3nwt-a1-m1-cA_3nwt-a1-m2-cA 3oip-a1-m1-cA_3oip-a1-m2-cA 3oiq-a1-m1-cA_3oiq-a1-m2-cA KNRIFVSSSKDFEGYPSKAIVPVQFVALLTSIHLTETKCLLGFSNFERRGDQSQEDQYLIKLKFKDRGSERLARITISLLCQYFDIELPDLDSTVILRDIHLERLCFSSCKALYVSKHGNYTLFLEDIKPLDLVSVISTISSELISECDLNNSLVDIFNNLIEMNRDEKNRFKFVKLIHYDIELKKFVQDQQKVL KNRIFVSSSKDFEGYPSKAIVPVQFVALLTSIHLTETKCLLGFSNFERRGDQSQEDQYLIKLKFKDRGSERLARITISLLCQYFDIELPDLDSTVILRDIHLERLCFSSCKALYVSKHGNYTLFLEDIKPLDLVSVISTISSELISECDLNNSLVDIFNNLIEMNRDEKNRFKFVKLIHYDIELKKFVQDQQKVL 3nwu-a2-m1-cA_3nwu-a2-m2-cA Substrate induced remodeling of the active site regulates HtrA1 activity Q92743 Q92743 3.2 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 190 DPNSLRHKYNFIADVVEKIAPAVVHIELFRKLPFSKREVPVASGSGFIVSEDGLIVTNAHVVTNKHRVKVELKNGATYEAKIKDVDEKADIALIKIDHQGKLPVLLLGRSSELRPGEFVVAIGSPFSLQNTVTTGIVSTTDYIQTDAIINYGNSGGPLVNLDGEVIGINTLKVTAGISFAIPSDKIKKFL DPNSLRHKYNFIADVVEKIAPAVVHIELFRKLPFSKREVPVASGSGFIVSEDGLIVTNAHVVTNKHRVKVELKNGATYEAKIKDVDEKADIALIKIDHQGKLPVLLLGRSSELRPGEFVVAIGSPFSLQNTVTTGIVSTTDYIQTDAIINYGNSGGPLVNLDGEVIGINTLKVTAGISFAIPSDKIKKFL 3nwu-a2-m2-cC_3nwu-a2-m1-cA Substrate induced remodeling of the active site regulates HtrA1 activity Q92743 Q92743 3.2 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 190 3nwu-a2-m1-cB_3nwu-a2-m2-cB 3nwu-a2-m1-cC_3nwu-a2-m2-cA SLRHKYNFIADVVEKIAPAVVHIELFRKLPEVPVASGSGFIVSEDGLIVTNAHVVTNKHRVKVELKNGATYEAKIKDVDEKADIALIKIDHQGKLPVLLLGRSSELRPGEFVVAIGSPFSLQNTVTTGIVSTTDYIQTDAIINYGNSGGPLVNLDGEVIGINTLKVTAGISFAIPSDKIKKFL DPNSLRHKYNFIADVVEKIAPAVVHIELFRKLPFSKREVPVASGSGFIVSEDGLIVTNAHVVTNKHRVKVELKNGATYEAKIKDVDEKADIALIKIDHQGKLPVLLLGRSSELRPGEFVVAIGSPFSLQNTVTTGIVSTTDYIQTDAIINYGNSGGPLVNLDGEVIGINTLKVTAGISFAIPSDKIKKFL 3nwz-a1-m1-cD_3nwz-a1-m1-cA Crystal Structure of BH2602 protein from Bacillus halodurans with CoA, Northeast Structural Genomics Consortium Target BhR199 Q9K9P3 Q9K9P3 2.566 X-RAY DIFFRACTION 14 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 136 149 KERFANEEEKDVLSSIVDGLLAKQERRYATYLASLTQIESQEVRLPIGPLVNNPLNVHGGITATLLDTAGQVNRQLPDGQSAVTSELNIHYVKPGGTYLRAVASIVHQGKQRIVVEGKVYTDQGETVAGTGSFFVL IVDKERFLSTANEEEKDVLSSIVDGLLAKQERRYATYLASLTQIESQEREDGRFEVRLPIGPLVNNPLNVHGGITATLLDTAGQVNRQLPDGQSAVTSELNIHYVKPGGTYLRAVASIVHQGKQRIVVEGKVYTDQGETVAGTGSFFVL 3nwz-a1-m1-cD_3nwz-a1-m1-cC Crystal Structure of BH2602 protein from Bacillus halodurans with CoA, Northeast Structural Genomics Consortium Target BhR199 Q9K9P3 Q9K9P3 2.566 X-RAY DIFFRACTION 36 0.993 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 136 145 KERFANEEEKDVLSSIVDGLLAKQERRYATYLASLTQIESQEVRLPIGPLVNNPLNVHGGITATLLDTAGQVNRQLPDGQSAVTSELNIHYVKPGGTYLRAVASIVHQGKQRIVVEGKVYTDQGETVAGTGSFFVL IVDKERFLSTANEEEKDVLSSIVDGLLAKQERRYATYLASLTQIESDGRFEVRLPIGPLVNNPLNVHGGITATLLDTAGQVNRQLPDGQSAVTSELNIHYVKPGGTYLRAVASIVHQGKQRIVVEGKVYTDQGETVAGTGSFFVL 3nwz-a2-m1-cC_3nwz-a2-m1-cA Crystal Structure of BH2602 protein from Bacillus halodurans with CoA, Northeast Structural Genomics Consortium Target BhR199 Q9K9P3 Q9K9P3 2.566 X-RAY DIFFRACTION 128 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 145 149 3nwz-a1-m1-cC_3nwz-a1-m1-cA IVDKERFLSTANEEEKDVLSSIVDGLLAKQERRYATYLASLTQIESDGRFEVRLPIGPLVNNPLNVHGGITATLLDTAGQVNRQLPDGQSAVTSELNIHYVKPGGTYLRAVASIVHQGKQRIVVEGKVYTDQGETVAGTGSFFVL IVDKERFLSTANEEEKDVLSSIVDGLLAKQERRYATYLASLTQIESQEREDGRFEVRLPIGPLVNNPLNVHGGITATLLDTAGQVNRQLPDGQSAVTSELNIHYVKPGGTYLRAVASIVHQGKQRIVVEGKVYTDQGETVAGTGSFFVL 3nx3-a1-m1-cB_3nx3-a1-m1-cA Crystal structure of acetylornithine aminotransferase (argD) from Campylobacter jejuni Q9PIR7 Q9PIR7 1.8 X-RAY DIFFRACTION 242 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 375 383 KRFDIVLEKGQGVYLFDDKAKKYLDFSSGIGVCALGYNHAKFNAKIKAQVDKLLHTSNLYYNENIAAAAKNLAKASALERVFFTNSGTESIEGAKTARKYAFNKGVKGGQFIAFKHSFHGRTLGALSLTANEKYQKPFKPLISGVKFAKYNDISSVEKLVNEKTCAIILESVQGEGGINPANKDFYKALRKLCDEKDILLIADEIQCGGRSGKFFAYEHAQILPDITSAKALGCGLSVGAFVINQKVASNSLEAGDHGSTYGGNPLVCAGVNAVFEIFKEEKILENVNKLTPYLEQSLDELINEFDFCKKRKGLGFQGLSLDKSVKVAKVIQKCQENALLLISCGENDLRFLPPLILQKEHIDESEKLRKALKSF QSHIIPTYKRFDIVLEKGQGVYLFDDKAKKYLDFSSGIGVCALGYNHAKFNAKIKAQVDKLLHTSNLYYNENIAAAAKNLAKASALERVFFTNSGTESIEGAKTARKYAFNKGVKGGQFIAFKHSFHGRTLGALSLTANEKYQKPFKPLISGVKFAKYNDISSVEKLVNEKTCAIILESVQGEGGINPANKDFYKALRKLCDEKDILLIADEIQCGGRSGKFFAYEHAQILPDITSAKALGCGLSVGAFVINQKVASNSLEAGDHGSTYGGNPLVCAGVNAVFEIFKEEKILENVNKLTPYLEQSLDELINEFDFCKKRKGLGFQGLSLDKSVKVAKVIQKCQENALLLISCGENDLRFLPPLILQKEHIDESEKLRKALKSF 3nx4-a1-m1-cA_3nx4-a1-m1-cB Crystal structure of the yhdH oxidoreductase from Salmonella enterica in complex with NADP Q7CPM2 Q7CPM2 1.9 X-RAY DIFFRACTION 86 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 316 316 QALILEQQDGKTLASVQHLEESQLPAGDVTVDVHWSSLNYKDALAITGKGKIIRHFPIPGIDFAGTVHASEDPRFHAGQEVLLTGWGVGENHWGGLAERARVKGDWLVALPAGLSSRNAIIGTAGFTALCVALEDAGIRPQDGEVVVTGASGGVGSTAVALLHKLGYQVAAVSGRESTHGYLKSLGANRILSRDEFAESRPLEKQLWAGAIDTVGDKVLAKVLAQNYGGCVAACGLAGGFALPTTVPFILRNVRLQGVDSVTPPARRAEAWARLVKDLPESFYAQAATEITLADAPKFADAIINNQVQGRTLVKIK QALILEQQDGKTLASVQHLEESQLPAGDVTVDVHWSSLNYKDALAITGKGKIIRHFPIPGIDFAGTVHASEDPRFHAGQEVLLTGWGVGENHWGGLAERARVKGDWLVALPAGLSSRNAIIGTAGFTALCVALEDAGIRPQDGEVVVTGASGGVGSTAVALLHKLGYQVAAVSGRESTHGYLKSLGANRILSRDEFAESRPLEKQLWAGAIDTVGDKVLAKVLAQNYGGCVAACGLAGGFALPTTVPFILRNVRLQGVDSVTPPARRAEAWARLVKDLPESFYAQAATEITLADAPKFADAIINNQVQGRTLVKIK 3nxa-a2-m1-cD_3nxa-a2-m1-cC X-ray structure of the apo form of human S100A16 Q96FQ6 Q96FQ6 2.1 X-RAY DIFFRACTION 111 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 74 97 2l50-a1-m1-cA_2l50-a1-m1-cB 2l51-a1-m1-cA_2l51-a1-m1-cB 3nxa-a1-m1-cB_3nxa-a1-m1-cA CYTELEKAVIVLVENFYKYVSKYSLVKNKISKSSFREMLQKELNHMLGRISFDEYWTLIGGITGPIAKLIHEQE YTELEKAVIVLVENFYKYVSKYSLVKNKISKSSFREMLQKELNHMLSDTGNRKAADKLIQNLDANHDGRISFDEYWTLIGGITGPIAKLIHEQEQQS 3nxk-a1-m1-cD_3nxk-a1-m1-cB Crystal Structure of Probable Cytoplasmic L-asparaginase from Campylobacter jejuni Q0PC96 Q0PC96 2.4 X-RAY DIFFRACTION 47 0.997 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 320 322 3nxk-a1-m1-cA_3nxk-a1-m1-cC 3nxk-a2-m1-cE_3nxk-a2-m1-cG 3nxk-a2-m1-cF_3nxk-a2-m1-cH AKSRIAILGTGGTIAGFIDSTIATTGGAIDIDVLIKAVPQIRDLADISWEQIANIDSSNCDEIWLRLAKKIAKLFAEGIDGVVITHGTDTEETAYFLNLTIKSDKPVVLVGARPSTAISADGPKNLYNAVALVVNKEAKNKGVVAINDKILSARGVVKTHSLNVDAFSSPDFGDLGYIVDGKVFFYNNVIKAHTKNAPFDVSKLTSLPKVDILYSYSNDGSGVAAKALFEHGTKGIVVAGSGAGSIHKNQKDVLKELLKKGLKVVVSSRVVAGCVAVSDSDEKLGFISAEDLNPQKARVLLLALTKTSDPKKIQEYFLKY KSRIAILGTGGTIAGFIDSTIATTGYAAGAIDIDVLIKAVPQIRDLADISWEQIANIDSSNCDEIWLRLAKKIAKLFAEGIDGVVITHGTDTEETAYFLNLTIKSDKPVVLVGARPSTAISADGPKNLYNAVALVVNKEAKNKGVVAINDKILSARGVVKTHSLNVDAFSSPDFGDLGYIVDGKVFFYNNVIKAHTKNAPFDVSKLTSLPKVDILYSYSNDGSGVAAKALFEHGTKGIVVAGSGAGSIHKNQKDVLKELLKKGLKVVVSSRVVAGCVAVSDSDEKLGFISAEDLNPQKARVLLLALTKTSDPKKIQEYFLKY 3nxk-a2-m1-cE_3nxk-a2-m1-cH Crystal Structure of Probable Cytoplasmic L-asparaginase from Campylobacter jejuni Q0PC96 Q0PC96 2.4 X-RAY DIFFRACTION 170 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 309 322 3nxk-a1-m1-cB_3nxk-a1-m1-cC 3nxk-a1-m1-cD_3nxk-a1-m1-cA 3nxk-a2-m1-cF_3nxk-a2-m1-cG KSRIAILGTGGTIAGFAIDIDVLIKAVPQIRDLADISWEQIANIDSSNCDEIWLRLAKKIAKLFAEGIDGVVITHGTDTEETAYFLNLTIKSDKPVVLVGARPSTAISADGPKNLYNAVALVVNKEAKNKGVVAINDKILSARGVVKTHSLNVDAFSSPDFGDLGYIVDGKVFFYNNVIKAHTKNAPFDVSKLTSLPKVDILYSYSNDGSGVAAKALFEHGTKGIVVAGSGAGSIHKNQKDVLKELLKKGLKVVVSSRVVAGCVAVSDSDEKLGFISAEDLNPQKARVLLLALTKTSDPKKIQEYFLKY KSRIAILGTGGTIAGFIDSTIATTGYAAGAIDIDVLIKAVPQIRDLADISWEQIANIDSSNCDEIWLRLAKKIAKLFAEGIDGVVITHGTDTEETAYFLNLTIKSDKPVVLVGARPSTAISADGPKNLYNAVALVVNKEAKNKGVVAINDKILSARGVVKTHSLNVDAFSSPDFGDLGYIVDGKVFFYNNVIKAHTKNAPFDVSKLTSLPKVDILYSYSNDGSGVAAKALFEHGTKGIVVAGSGAGSIHKNQKDVLKELLKKGLKVVVSSRVVAGCVAVSDSDEKLGFISAEDLNPQKARVLLLALTKTSDPKKIQEYFLKY 3nxk-a2-m1-cG_3nxk-a2-m1-cH Crystal Structure of Probable Cytoplasmic L-asparaginase from Campylobacter jejuni Q0PC96 Q0PC96 2.4 X-RAY DIFFRACTION 68 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 319 322 3nxk-a1-m1-cA_3nxk-a1-m1-cB 3nxk-a1-m1-cD_3nxk-a1-m1-cC 3nxk-a2-m1-cF_3nxk-a2-m1-cE KSRIAILGTGGTIAGFIDSTIATTGGAIDIDVLIKAVPQIRDLADISWEQIANIDSSNCDEIWLRLAKKIAKLFAEGIDGVVITHGTDTEETAYFLNLTIKSDKPVVLVGARPSTAISADGPKNLYNAVALVVNKEAKNKGVVAINDKILSARGVVKTHSLNVDAFSSPDFGDLGYIVDGKVFFYNNVIKAHTKNAPFDVSKLTSLPKVDILYSYSNDGSGVAAKALFEHGTKGIVVAGSGAGSIHKNQKDVLKELLKKGLKVVVSSRVVAGCVAVSDSDEKLGFISAEDLNPQKARVLLLALTKTSDPKKIQEYFLKY KSRIAILGTGGTIAGFIDSTIATTGYAAGAIDIDVLIKAVPQIRDLADISWEQIANIDSSNCDEIWLRLAKKIAKLFAEGIDGVVITHGTDTEETAYFLNLTIKSDKPVVLVGARPSTAISADGPKNLYNAVALVVNKEAKNKGVVAINDKILSARGVVKTHSLNVDAFSSPDFGDLGYIVDGKVFFYNNVIKAHTKNAPFDVSKLTSLPKVDILYSYSNDGSGVAAKALFEHGTKGIVVAGSGAGSIHKNQKDVLKELLKKGLKVVVSSRVVAGCVAVSDSDEKLGFISAEDLNPQKARVLLLALTKTSDPKKIQEYFLKY 3nxl-a2-m1-cB_3nxl-a2-m1-cD Crystal structure of Glucarate dehydratase from Burkholderia cepacia complexed with magnesium Q39KL8 Q39KL8 1.885 X-RAY DIFFRACTION 76 1.0 410 412 3nxl-a1-m1-cA_3nxl-a1-m1-cC TPRVTRQVIPVAGRDSLLNLCGAHAPYFTRNLVILDDSSGHTGVGEVPGGEGIRHALERTDLVVGQSIGRYQATLNAVRAALRLDNVITAIEAALLDLLGQHLDVPVAALLGEGQQRDAVPLAYLFYIGDRGRTDLPYRDEAQARTPWFRLRNEEALTPAAIARQAEAAVDRYGFADFKLKGGVAGADEEAIAAIKACFPDARATLDPNGAWSLDEAVALCRGQGHLLAYAEDPCGPEGGYSGREVAEFRRATGIPTATNIATDWRQDHAVRLQAVDIPLADPHFWTQGSVRLAQLCRDWGLTWGSHSNNHFDVSLAFTHAAAAAPGTITAIDTHWIWQEGDARLTREPLKIVGGQVAVPERPGLGIELDAQVEAAHALYKEVGGTARDDAVARYLVPGWTYDPKRPSFG GTPRVTRQVIPVAGRDSLLNLCGAHAPYFTRNLVILDDSSGHTGVGEVPGGEGIRHALERTDLVVGQSIGRYQATLNAVRAALSRLDNVITAIEAALLDLLGQHLDVPVAALLGEGQQRDAVPLAYLFYIGDRGRTDLPYRDEAQARTPWFRLRNEEALTPAAIARQAEAAVDRYGFADFKLKGGVAGADEEAIAAIKACFPDARATLDPNGAWSLDEAVALCRGQGHLLAYAEDPCGPEGGYSGREVAEFRRATGIPTATNIATDWRQDHAVRLQAVDIPLADPHFWTQGSVRLAQLCRDWGLTWGSHSNNHFDVSLAFTHAAAAAPGTITAIDTHWIWQEGDARLTREPLKIVGGQVAVPERPGLGIELDAQVEAAHALYKEVGGTARDDAVARYLVPGWTYDPKRPSFG 3nxs-a1-m1-cA_3nxs-a1-m2-cA Crystal structure of LAO/AO transport system from Mycobacterium smegmatis bound to GDP A0QX37 A0QX37 2.3 X-RAY DIFFRACTION 147 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 306 306 NVHELAQSIRDGDRSALARAITLVESTRADHREQAQQLLLDLMPEAGSAMHVGITGVPGVGKSTTIEALGMHLIEAGHRVAVLAVDRMARLAVHPDAYIRPSPTSGTLGGVAKATRETIVLLEAAGYDVILVETVGVGQSEVTVAGMVDTFVFLTLARTGDQLQGIKKGVLELADVIVVNKADGEHAVEAKAAARELSGAIRLIYPRESLWRPPVLTMSAVEGTGLPELWETVLRHREVLEEAGEFEARRRTQQVEWTWSMVRDAVLDRVMNHPEVRRIRDDVEQRVRLGELTPALAAQEILDAAQ NVHELAQSIRDGDRSALARAITLVESTRADHREQAQQLLLDLMPEAGSAMHVGITGVPGVGKSTTIEALGMHLIEAGHRVAVLAVDRMARLAVHPDAYIRPSPTSGTLGGVAKATRETIVLLEAAGYDVILVETVGVGQSEVTVAGMVDTFVFLTLARTGDQLQGIKKGVLELADVIVVNKADGEHAVEAKAAARELSGAIRLIYPRESLWRPPVLTMSAVEGTGLPELWETVLRHREVLEEAGEFEARRRTQQVEWTWSMVRDAVLDRVMNHPEVRRIRDDVEQRVRLGELTPALAAQEILDAAQ 3ny5-a2-m2-cD_3ny5-a2-m1-cC Crystal structure of the RBD domain of serine/threonine-protein kinase B-raf from Homo sapiens. Northeast Structural Genomics Consortium Target HR4694F P15056 P15056 1.993 X-RAY DIFFRACTION 64 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 75 78 3ny5-a1-m1-cA_3ny5-a1-m1-cB HQKPIVRVFLPNKQRTVVPARCGVTVRDSLKKALRGLIPECCAVYRIKKPIGWDTDISWLTGEELHVEVLENVPL QKPIVRVFLPNKQRTVVPARCGVTVRDSLKKALRGLIPECCAVYRIQKKPIGWDTDISWLTGEELHVEVLENVPLTTH 3ny5-a3-m1-cD_3ny5-a3-m1-cC Crystal structure of the RBD domain of serine/threonine-protein kinase B-raf from Homo sapiens. Northeast Structural Genomics Consortium Target HR4694F P15056 P15056 1.993 X-RAY DIFFRACTION 15 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 75 78 HQKPIVRVFLPNKQRTVVPARCGVTVRDSLKKALRGLIPECCAVYRIKKPIGWDTDISWLTGEELHVEVLENVPL QKPIVRVFLPNKQRTVVPARCGVTVRDSLKKALRGLIPECCAVYRIQKKPIGWDTDISWLTGEELHVEVLENVPLTTH 3nyj-a1-m1-cA_3nyj-a1-m2-cA Crystal Structure Analysis of APP E2 domain P05067 P05067 3.2 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 LETPGDENEHAHFQKAKERLEAKHRERSQVREWEEAERQAKNLPKADKKAVIQHFQEKVESLEQEAANERQQLVETHARVEALNDRRRLALENYITALQAVPPRPRHVFNLKKYVRAEQKDRQHTLKHFEHVRVDPKKAAQIRSQVTHLRVIYERNQSLSLLYNVPAVAEEIQ LETPGDENEHAHFQKAKERLEAKHRERSQVREWEEAERQAKNLPKADKKAVIQHFQEKVESLEQEAANERQQLVETHARVEALNDRRRLALENYITALQAVPPRPRHVFNLKKYVRAEQKDRQHTLKHFEHVRVDPKKAAQIRSQVTHLRVIYERNQSLSLLYNVPAVAEEIQ 3nyl-a1-m1-cA_3nyl-a1-m2-cA The X-ray structure of an antiparallel dimer of the human amyloid precursor protein E2 domain P05067 P05067 2.8 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 TPDAVDKYLETPGDENEHAHFQKAKERLEAKHRERMSQVMREWEEAERQAKNLPKADKKAVIQHFQEKVESLEQEAANERQQLVETHMARVEAMLNDRRRLALENYITALQAVPPRPRHVFNMLKKYVRAEQKDRQHTLKHFEHVRMVDPKKAAQIRSQVMTHLRVIYERMNQSLSLLYNVPAVAEEIQDEVDELL TPDAVDKYLETPGDENEHAHFQKAKERLEAKHRERMSQVMREWEEAERQAKNLPKADKKAVIQHFQEKVESLEQEAANERQQLVETHMARVEAMLNDRRRLALENYITALQAVPPRPRHVFNMLKKYVRAEQKDRQHTLKHFEHVRMVDPKKAAQIRSQVMTHLRVIYERMNQSLSLLYNVPAVAEEIQDEVDELL 3nym-a1-m1-cA_3nym-a1-m1-cB The crystal structure of functionally unknown protein from Neisseria meningitidis MC58 Q9JS17 Q9JS17 1.9 X-RAY DIFFRACTION 91 0.991 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 113 113 AETLNDIKILINVGLYQGFDLTDPKVSEEVNHETANWIDYTSDGNWDNEFKEDLNFLDYEVCQLALNDNFIASNSLFAIYAGNLSLIFDSIKTDISTLLSAEYKKNSFSWPSL ETLNDIKILINVGLYQGFDLTDPKVSEEVNHETANWIDYTSDGNWDNEFKEDLNFLDYEVCQLALNDNFIASNSLFAIYAGNLSLIFDSIKTDISTLLSAEYKKNSFSWPSLD 3nyn-a3-m1-cA_3nyn-a3-m1-cB Crystal Structure of G Protein-Coupled Receptor Kinase 6 in Complex with Sangivamycin P43250 P43250 2.72 X-RAY DIFFRACTION 175 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 553 553 2acx-a1-m1-cB_2acx-a1-m1-cA 3nyo-a3-m1-cA_3nyo-a3-m1-cB ELENIVANTVLLKAREGGGGNRKGKSKKWRQMLQFPHISQCEELRLSLERDYHSLCERQPIGRLLFREFCATRPELSRCVAFLDGVAEYEVTPDDKRKACGRQLTQNFLSHTGPDLIPEVPRQLVTNCTQRLEQGPCKDLFQELTRLTHEYLSVAPFADYLDSIYFNRFLQWKWLERQPVTKNTFRQYRVLGKGGFGEVCACQVRATGKMYACKKLEKKRIKKRKGEAMALNEKQILEKVNSRFVVSLAYAYETKDALCLVLTLMNGGDLKFHIYHMGQAGFPEARAVFYAAEICCGLEDLHRERIVYRDLKPENILLDDHGHIRISDLGLAVHVPEGQTIKGRVGTVGYMAPEVVKNERYTFSPDWWALGCLLYEMIAGQSPFQKKIKREEVERLVKEVPEEYSERFSPQARSLCSQLLCKDPAERLGCRGGSAREVKEHPLFKKLNFKRLGAGMLEPPFKPDPQAIYCKDVLDIEQFSTVKGVELEPTDQDFYQKFATGSVPIPWQNEMVETECFQELNVFGLDGSVPPDLDWKGQPPAPPKKGLLQRLFS ELENIVANTVLLKAREGGGGNRKGKSKKWRQMLQFPHISQCEELRLSLERDYHSLCERQPIGRLLFREFCATRPELSRCVAFLDGVAEYEVTPDDKRKACGRQLTQNFLSHTGPDLIPEVPRQLVTNCTQRLEQGPCKDLFQELTRLTHEYLSVAPFADYLDSIYFNRFLQWKWLERQPVTKNTFRQYRVLGKGGFGEVCACQVRATGKMYACKKLEKKRIKKRKGEAMALNEKQILEKVNSRFVVSLAYAYETKDALCLVLTLMNGGDLKFHIYHMGQAGFPEARAVFYAAEICCGLEDLHRERIVYRDLKPENILLDDHGHIRISDLGLAVHVPEGQTIKGRVGTVGYMAPEVVKNERYTFSPDWWALGCLLYEMIAGQSPFQKKIKREEVERLVKEVPEEYSERFSPQARSLCSQLLCKDPAERLGCRGGSAREVKEHPLFKKLNFKRLGAGMLEPPFKPDPQAIYCKDVLDIEQFSTVKGVELEPTDQDFYQKFATGSVPIPWQNEMVETECFQELNVFGLDGSVPPDLDWKGQPPAPPKKGLLQRLFS 3nyq-a2-m1-cA_3nyq-a2-m2-cA Malonyl-CoA Ligase Ternary Product Complex with Methylmalonyl-CoA and AMP bound Q9L0A2 Q9L0A2 1.43 X-RAY DIFFRACTION 115 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 460 460 3nyr-a2-m1-cA_3nyr-a2-m2-cA LFPALSPAPTGAPADRPALRFGERSLTYAELAAAAGATAGRIGRVAVWATPAMETGVAVVAALLAGVAAVPLNPKSGDKELAHILSDSAPSLVLAPPDAELPPALGALERVDVDVRARGAVPEDGADDGDPALVVYTSGTTGPPKGAVIPRRALATTLDALADAWQWTGEDVLVQGLPLFHVHGLVLGILGPLRRGGSVRHLGRFSTEGAARELNDGATMLFGVPTMYHRIAETLPADPELAKALAGARLLVSGSAALPVHDHERIAAATGRRVIERYGMTETLMNTSVRADGEPRAGTVGVPLPGVELRLVPIAALDGESVGEIQVRGPNLFTEYLNRPDATAAAFTEDGFFRTGDMAVRDPDGYVRIVGRKATDLIKSGGYKIGAGEIENALLEHPEVREAAVTGEPDPDLGERIVAWIVPADPAAPPALGTLADHVAARLAPHKRPRVVRYLDAVPR LFPALSPAPTGAPADRPALRFGERSLTYAELAAAAGATAGRIGRVAVWATPAMETGVAVVAALLAGVAAVPLNPKSGDKELAHILSDSAPSLVLAPPDAELPPALGALERVDVDVRARGAVPEDGADDGDPALVVYTSGTTGPPKGAVIPRRALATTLDALADAWQWTGEDVLVQGLPLFHVHGLVLGILGPLRRGGSVRHLGRFSTEGAARELNDGATMLFGVPTMYHRIAETLPADPELAKALAGARLLVSGSAALPVHDHERIAAATGRRVIERYGMTETLMNTSVRADGEPRAGTVGVPLPGVELRLVPIAALDGESVGEIQVRGPNLFTEYLNRPDATAAAFTEDGFFRTGDMAVRDPDGYVRIVGRKATDLIKSGGYKIGAGEIENALLEHPEVREAAVTGEPDPDLGERIVAWIVPADPAAPPALGTLADHVAARLAPHKRPRVVRYLDAVPR 3nyt-a1-m1-cA_3nyt-a1-m2-cA X-ray crystal structure of the WlbE (WpbE) aminotransferase from pseudomonas aeruginosa, mutation K185A, in complex with the PLP external aldimine adduct with UDP-3-amino-2-N-acetyl-glucuronic acid, at 1.3 angstrom resolution Q9HZ76 Q9HZ76 1.301 X-RAY DIFFRACTION 143 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 359 359 3nu7-a1-m1-cA_3nu7-a1-m1-cB 3nu8-a1-m1-cA_3nu8-a1-m1-cB 3nub-a1-m1-cA_3nub-a1-m1-cB 3nys-a1-m1-cA_3nys-a1-m2-cA 3nyu-a1-m1-cB_3nyu-a1-m1-cA 3nyu-a2-m1-cC_3nyu-a2-m1-cD MIEFIDLKNQQARIKDKIDAGIQRVLRHGQYILGPEVTELEDRLADFVGAKYCISCANGTDALQIVQMALGVGPGDEVITPGFTYVATAETVALLGAKPVYVDIDPRTYNLDPQLLEAAITPRTKAIIPVSLYGQCADFDAINAIASKYGIPVIEDAAQSFGASYKGKRSCNLSTVACTSFFPSAPLGCYGDGGAIFTNDDELATAIRQIARHGQDRRYHHIRVGVNSRLDTLQAAILLPKLEIFEEEIALRQKVAAEYDLSLKQVGIGTPFIEVNNISVYAQYTVRMDNRESVQASLKAAGVPTAVHYPIPLNKQPAVADEKAKLPVGDKAATQVMSLPMHPYLDTASIKIICAALTN MIEFIDLKNQQARIKDKIDAGIQRVLRHGQYILGPEVTELEDRLADFVGAKYCISCANGTDALQIVQMALGVGPGDEVITPGFTYVATAETVALLGAKPVYVDIDPRTYNLDPQLLEAAITPRTKAIIPVSLYGQCADFDAINAIASKYGIPVIEDAAQSFGASYKGKRSCNLSTVACTSFFPSAPLGCYGDGGAIFTNDDELATAIRQIARHGQDRRYHHIRVGVNSRLDTLQAAILLPKLEIFEEEIALRQKVAAEYDLSLKQVGIGTPFIEVNNISVYAQYTVRMDNRESVQASLKAAGVPTAVHYPIPLNKQPAVADEKAKLPVGDKAATQVMSLPMHPYLDTASIKIICAALTN 3nyw-a1-m1-cD_3nyw-a1-m1-cB Crystal Structure of a betaketoacyl-[ACP] reductase (FabG) from Bacteroides thetaiotaomicron Q8A562 Q8A562 2.16 X-RAY DIFFRACTION 87 0.99 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 206 212 3nyw-a1-m1-cC_3nyw-a1-m1-cA QKGLAIITGASQGIGAVIAAGLATDGYRVVLIARSKQNLEKVHDEIRSNKHVQEPIVLPLDITDCTKADTEIKDIHQKYGAVDILVNAAAFEPVDNFRKIEINVIAQYGILKTVTEIKVQKNGYIFNVASRDGGIYGSTKFALLGLAESLYRELAPLGIRVTTLCPGWVNDEEIQPDDLLNTIRCLLNLSENVCIKDIVFEKKSII QKGLAIITGASQGIGAVIAAGLATDGYRVVLIARSKQNLEKVHDEIRSNKHVQEPIVLPLDITDCTKADTEIKDIHQKYGAVDILVNAAAFEPVDNFRKIEINVIAQYGILKTVTEIKVQKNGYIFNVAADGGIYGSTKFALLGLAESLYRELAPLGIRVTTLCPGWVNTDAKKFKDEEIQPDDLLNTIRCLLNLSENVCIKDIVFEKKSII 3nyw-a1-m1-cD_3nyw-a1-m1-cC Crystal Structure of a betaketoacyl-[ACP] reductase (FabG) from Bacteroides thetaiotaomicron Q8A562 Q8A562 2.16 X-RAY DIFFRACTION 97 0.995 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 206 220 3nyw-a1-m1-cB_3nyw-a1-m1-cA QKGLAIITGASQGIGAVIAAGLATDGYRVVLIARSKQNLEKVHDEIRSNKHVQEPIVLPLDITDCTKADTEIKDIHQKYGAVDILVNAAAFEPVDNFRKIEINVIAQYGILKTVTEIKVQKNGYIFNVASRDGGIYGSTKFALLGLAESLYRELAPLGIRVTTLCPGWVNDEEIQPDDLLNTIRCLLNLSENVCIKDIVFEKKSII QKGLAIITGASQGIGAVIAAGLATDGYRVVLIARSKQNLEKVHDEIRSNKHVQEPIVLPLDITDCTKADTEIKDIHQKYGAVDILVNAAAFSEPVDNFRKIEINVIAQYGILKTVTEIKVQKNGYIFNVASFADGGIYGSTKFALLGLAESLYRELAPLGIRVTTLCPGWVNTDAKKAGTPFKDEEIQPDDLLNTIRCLLNLSENVCIKDIVFEKKSIIE 3nyy-a1-m1-cA_3nyy-a1-m2-cA Crystal structure of a putative glycyl-glycine endopeptidase lytM (RUMGNA_02482) from Ruminococcus gnavus ATCC 29149 at 1.60 A resolution A7B4J8 A7B4J8 1.6 X-RAY DIFFRACTION 33 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 245 245 GVSGFQRLQKPVVSQPDFRRQPVSETQVYLKQAADPGRDVGLYWATDFENRRFPGKVSPSGFQKLYRQWRNQTGWDAYVQSCRAIWNDVKYFPIPQSLDDTEDKISYVDSWFERNYGGKRGHEGTDIAEKNTPGYYPVVSTDGVVTEKGWLEKGGWRIGITAPTGAYFYYAHLDSYAELEKGDPVKAGDLLGYGDSGYGEEGTTGEFPVHLHLGIYLKEGTEEISVNPYPVLRYAENARIKCVYS GVSGFQRLQKPVVSQPDFRRQPVSETQVYLKQAADPGRDVGLYWATDFENRRFPGKVSPSGFQKLYRQWRNQTGWDAYVQSCRAIWNDVKYFPIPQSLDDTEDKISYVDSWFERNYGGKRGHEGTDIAEKNTPGYYPVVSTDGVVTEKGWLEKGGWRIGITAPTGAYFYYAHLDSYAELEKGDPVKAGDLLGYGDSGYGEEGTTGEFPVHLHLGIYLKEGTEEISVNPYPVLRYAENARIKCVYS 3nz2-a2-m1-cH_3nz2-a2-m1-cL Crystal Structure of Hexapeptide-Repeat containing-Acetyltransferase VCA0836 Complexed with Acetyl Co Enzyme A from Vibrio cholerae O1 biovar eltor Q9KLB0 Q9KLB0 2.35 X-RAY DIFFRACTION 21 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 179 179 3nz2-a1-m1-cA_3nz2-a1-m1-cD 3nz2-a1-m1-cC_3nz2-a1-m1-cE 3nz2-a2-m1-cG_3nz2-a2-m1-cK SELEKLKGEHFDGASAEIEALRSQAGRLKLEINQSLDEAERYALQRELFGHLGHKSCVQPPFHCEFGKTIRIGDHTFINNVVLDGAPITIGDHVLIGPSTQFYTASHSLDYRRRQAWETICKPIVIEDDVWIGGNVVINQGVTIGARSVVAANSVVNQDVPPDTLVGGTPARILRSLKD SELEKLKGEHFDGASAEIEALRSQAGRLKLEINQSLDEAERYALQRELFGHLGHKSCVQPPFHCEFGKTIRIGDHTFINNVVLDGAPITIGDHVLIGPSTQFYTASHSLDYRRRQAWETICKPIVIEDDVWIGGNVVINQGVTIGARSVVAANSVVNQDVPPDTLVGGTPARILRSLKD 3nz2-a6-m1-cK_3nz2-a6-m1-cL Crystal Structure of Hexapeptide-Repeat containing-Acetyltransferase VCA0836 Complexed with Acetyl Co Enzyme A from Vibrio cholerae O1 biovar eltor Q9KLB0 Q9KLB0 2.35 X-RAY DIFFRACTION 59 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 179 179 3ect-a1-m1-cA_3ect-a1-m2-cA 3ect-a1-m1-cA_3ect-a1-m3-cA 3ect-a1-m2-cA_3ect-a1-m3-cA 3nz2-a1-m1-cA_3nz2-a1-m1-cB 3nz2-a1-m1-cA_3nz2-a1-m1-cC 3nz2-a1-m1-cB_3nz2-a1-m1-cC 3nz2-a1-m1-cD_3nz2-a1-m1-cE 3nz2-a1-m1-cD_3nz2-a1-m1-cF 3nz2-a1-m1-cE_3nz2-a1-m1-cF 3nz2-a2-m1-cG_3nz2-a2-m1-cH 3nz2-a2-m1-cG_3nz2-a2-m1-cI 3nz2-a2-m1-cH_3nz2-a2-m1-cI 3nz2-a2-m1-cK_3nz2-a2-m1-cJ 3nz2-a2-m1-cK_3nz2-a2-m1-cL 3nz2-a2-m1-cL_3nz2-a2-m1-cJ 3nz2-a3-m1-cA_3nz2-a3-m1-cB 3nz2-a3-m1-cA_3nz2-a3-m1-cC 3nz2-a3-m1-cB_3nz2-a3-m1-cC 3nz2-a4-m1-cD_3nz2-a4-m1-cE 3nz2-a4-m1-cD_3nz2-a4-m1-cF 3nz2-a4-m1-cE_3nz2-a4-m1-cF 3nz2-a5-m1-cG_3nz2-a5-m1-cH 3nz2-a5-m1-cG_3nz2-a5-m1-cI 3nz2-a5-m1-cH_3nz2-a5-m1-cI 3nz2-a6-m1-cK_3nz2-a6-m1-cJ 3nz2-a6-m1-cL_3nz2-a6-m1-cJ SELEKLKGEHFDGASAEIEALRSQAGRLKLEINQSLDEAERYALQRELFGHLGHKSCVQPPFHCEFGKTIRIGDHTFINNVVLDGAPITIGDHVLIGPSTQFYTASHSLDYRRRQAWETICKPIVIEDDVWIGGNVVINQGVTIGARSVVAANSVVNQDVPPDTLVGGTPARILRSLKD SELEKLKGEHFDGASAEIEALRSQAGRLKLEINQSLDEAERYALQRELFGHLGHKSCVQPPFHCEFGKTIRIGDHTFINNVVLDGAPITIGDHVLIGPSTQFYTASHSLDYRRRQAWETICKPIVIEDDVWIGGNVVINQGVTIGARSVVAANSVVNQDVPPDTLVGGTPARILRSLKD 3nze-a3-m2-cA_3nze-a3-m1-cB The crystal structure of a domain of a possible sugar-binding transcriptional regulator from Arthrobacter aurescens TC1. A1R6X9 A1R6X9 1.697 X-RAY DIFFRACTION 76 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 249 255 ASPFDTGPELESQIRNQYGVDVHVVPVLDTLNEAETLDRVAQAARTIGPLVDSNAIIGVAWGATLSAVSRHLTRKTHDSIVVQLNGAGNQTTGITYASDIRRFGSAYGARVEQFPVPAFFDHASTKTAWNERSVQRILDLQARSIAIFGVGSVDHVYAGGYLDEHDLTLAADDVVGDVATVFFRSDGSSDGITLNERSTGPSHEQLRQVRRRICVVSGASKINGLQGALAAGLATDLILDEASARRLVS ASPFDTGPELESQIRNQYGVDVHVVPVLDTLNEAETLDRVAQAARTIGPLVDSNAIIGVAWGATLSAVSRHLTRKTHDSIVVQLNGAGNQTTGITYASDIRRFGSAYGARVEQFPVPAFFDHASTKTAWNERSVQRILDLQARSIAIFGVGSVDSDYPSHVYAGGYLDEHDLTLAADDVVGDVATVFFRSDGSSDGITLNERSTGPSHEQLRQVRRRICVVSGASKINGLQGALAAGLATDLILDEASARRLVSF 3nzn-a1-m1-cA_3nzn-a1-m2-cA The crystal structure of the Glutaredoxin from Methanosarcina mazei Go1 Q8PS17 Q8PS17 1.1 X-RAY DIFFRACTION 10 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 103 103 SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF 3nzn-a1-m2-cA_3nzn-a1-m4-cB The crystal structure of the Glutaredoxin from Methanosarcina mazei Go1 Q8PS17 Q8PS17 1.1 X-RAY DIFFRACTION 37 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 103 103 3nzn-a1-m1-cA_3nzn-a1-m3-cB SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF 3nzn-a2-m1-cA_3nzn-a2-m4-cB The crystal structure of the Glutaredoxin from Methanosarcina mazei Go1 Q8PS17 Q8PS17 1.1 X-RAY DIFFRACTION 24 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 103 103 3nzn-a1-m1-cA_3nzn-a1-m4-cB 3nzn-a1-m2-cA_3nzn-a1-m3-cB 3nzn-a2-m1-cB_3nzn-a2-m4-cA SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF 3nzn-a2-m1-cB_3nzn-a2-m4-cB The crystal structure of the Glutaredoxin from Methanosarcina mazei Go1 Q8PS17 Q8PS17 1.1 X-RAY DIFFRACTION 24 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 103 103 SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF 3nzn-a2-m4-cA_3nzn-a2-m4-cB The crystal structure of the Glutaredoxin from Methanosarcina mazei Go1 Q8PS17 Q8PS17 1.1 X-RAY DIFFRACTION 31 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 103 103 3nzn-a2-m1-cA_3nzn-a2-m1-cB SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF SNAVNLFGQKDRGNHVSGVDRGKVIMYGLSTCVWCKKTKKLLTDLGVDFDYVYVDRLEGKEEEEAVEEVRRFNPSVSFPTTIINDEKAIVGFKEKEIRESLGF 3nzp-a1-m1-cA_3nzp-a1-m1-cB Crystal Structure of the Biosynthetic Arginine decarboxylase SpeA from Campylobacter jejuni, Northeast Structural Genomics Consortium Target BR53 Q0PAC6 Q0PAC6 3 X-RAY DIFFRACTION 295 0.997 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 573 581 DYGIDIWGNENFIIKNGKVCINYEKKPAIIDIVKELRDDGYKGPLLLRFPHLIQKQIENIYGNFNKARKEFGYKGGFNAVYPLKVNQYPGFVKNLVKLGKDYNYGLEAGSKAELLLAAYNNEGAPITVNGFKDRELINIGFIAAEGHNITLTIEGLNELEAIIDIAKERFKPKPNIGLRVRLHSAKFGLTSTELIEAVNLLKENKLLEQFTIHFHLGSQITEIHPLKKALNEAGNIYTELRKGAKNLKAINLGGGLAVEYSQFKNEKSRNYTLREYANDVVFILKNIAEQKKDLEPDIFIESGRFVAANHAVLIAPVLELFSQEYAENKLILKKQNPKLIDELYDLYKSIKPSNALEYLHDSIDHLESILTLFDLGYVDLQDRSNAEILTHLITKKAILLLGEVQERYLVNFSLFQSPDFWGLEQNFPIPLDRLDEEPTRSASIWDITCDSDGEISYSKDKPLFLHDVDVEKENYFLGFFLVGAYQEVLGKHNLFTHPTEAIISINEKGYEVEGIIEAQSILDTLEDLDYDIHAIDILNERISNSKLVNDKQKKHILGELYLFLNDNGYLKSI DYGIDIWGNENFIIKNGKVCINYEKKPAIIDIVKELRDDGYKGPLLLRFPHLIQKQIENIYGNFNKARKEFGYKGGFNAVYPLKVNQYPGFVKNLVKLGKDYNYGLEAGSKAELLLAAYNNEGAPITVNGFKDRELINIGFIAAEGHNITLTIEGLNELEAIIDIAKERFKPKPNIGLRVRLHSKFGLTSTELIEAVNLLKENKLLEQFTIHFHLGSQITEIHPLKKALNEAGNIYTELRKGAKNLKAINLGGGLAVEYSQFKNEKSRNYTLREYANDVVFILKNIAEQKKDLEPDIFIESGRFVAANHAVLIAPVLELFSQEYAENKLILKKQNPKLIDELYDLYKSIKPSNALEYLHDSIDHLESILTLFDLGYVDLQDRSNAEILTHLITKKAILLLGVQERYLVNFSLFQSPDFWGLEQNFPIPLDRLDEEPTRSASIWDITCDSDGEISYSKDKPLFLHDVDVEKENYFLGFFLVGAYQEVLGKHNLFTHPTEAIISINEKGYEVEGIIEAQSILDTLEDLDYDIHAIDILNERISNSKLVNDKQKKHILGELYLFLNDNGYLKSIGVLEHHHHHH 3nzp-a2-m2-cA_3nzp-a2-m1-cB Crystal Structure of the Biosynthetic Arginine decarboxylase SpeA from Campylobacter jejuni, Northeast Structural Genomics Consortium Target BR53 Q0PAC6 Q0PAC6 3 X-RAY DIFFRACTION 66 0.997 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 573 581 DYGIDIWGNENFIIKNGKVCINYEKKPAIIDIVKELRDDGYKGPLLLRFPHLIQKQIENIYGNFNKARKEFGYKGGFNAVYPLKVNQYPGFVKNLVKLGKDYNYGLEAGSKAELLLAAYNNEGAPITVNGFKDRELINIGFIAAEGHNITLTIEGLNELEAIIDIAKERFKPKPNIGLRVRLHSAKFGLTSTELIEAVNLLKENKLLEQFTIHFHLGSQITEIHPLKKALNEAGNIYTELRKGAKNLKAINLGGGLAVEYSQFKNEKSRNYTLREYANDVVFILKNIAEQKKDLEPDIFIESGRFVAANHAVLIAPVLELFSQEYAENKLILKKQNPKLIDELYDLYKSIKPSNALEYLHDSIDHLESILTLFDLGYVDLQDRSNAEILTHLITKKAILLLGEVQERYLVNFSLFQSPDFWGLEQNFPIPLDRLDEEPTRSASIWDITCDSDGEISYSKDKPLFLHDVDVEKENYFLGFFLVGAYQEVLGKHNLFTHPTEAIISINEKGYEVEGIIEAQSILDTLEDLDYDIHAIDILNERISNSKLVNDKQKKHILGELYLFLNDNGYLKSI DYGIDIWGNENFIIKNGKVCINYEKKPAIIDIVKELRDDGYKGPLLLRFPHLIQKQIENIYGNFNKARKEFGYKGGFNAVYPLKVNQYPGFVKNLVKLGKDYNYGLEAGSKAELLLAAYNNEGAPITVNGFKDRELINIGFIAAEGHNITLTIEGLNELEAIIDIAKERFKPKPNIGLRVRLHSKFGLTSTELIEAVNLLKENKLLEQFTIHFHLGSQITEIHPLKKALNEAGNIYTELRKGAKNLKAINLGGGLAVEYSQFKNEKSRNYTLREYANDVVFILKNIAEQKKDLEPDIFIESGRFVAANHAVLIAPVLELFSQEYAENKLILKKQNPKLIDELYDLYKSIKPSNALEYLHDSIDHLESILTLFDLGYVDLQDRSNAEILTHLITKKAILLLGVQERYLVNFSLFQSPDFWGLEQNFPIPLDRLDEEPTRSASIWDITCDSDGEISYSKDKPLFLHDVDVEKENYFLGFFLVGAYQEVLGKHNLFTHPTEAIISINEKGYEVEGIIEAQSILDTLEDLDYDIHAIDILNERISNSKLVNDKQKKHILGELYLFLNDNGYLKSIGVLEHHHHHH 3nzq-a2-m1-cB_3nzq-a2-m2-cB Crystal Structure of Biosynthetic arginine decarboxylase ADC (SpeA) from Escherichia coli, Northeast Structural Genomics Consortium Target ER600 P21170 P21170 3.1 X-RAY DIFFRACTION 371 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 628 628 3nzq-a1-m1-cA_3nzq-a1-m2-cA KMLRTYNIAWWGNNYYDVNELGHISVCPDPDVPEARVDLAQLVKTREAQGQRLPALFCFPQILQHRLRSINAAFKRARESYGYNGDYFLVYPIKVNQHRRVIESLIHSGEPLGLEAGSKAELMAVLAHAGMTRSVIVCNGYKDREYIRLALIGEKMGHKVYLVIEKMSEIAIVLDEAERLNVVPRLGVRARLASQGSGKWQSSGGEKSKFGLAATQVLQLVETLREAGRLDSLQLLHFHLGSQMANIRDIATGVRESARFYVELHKLGVNIQCFDVGGGLGVDYEGTRSQSDCSVNYGLNEYANNIIWAIGDACEENGLPHPTVITESGRAVTAHHTVLVSNIIGVERNEYTVPTAPAEDAPRALQSMWETWQEMHEPGTRRSLREWLHDSQMDLHDIHIGYSSGIFSLQERAWAEQLYLSMCHEVQKQLDPQNRAHRPIIDELQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVPERRAVLLDITCDSDGAIDHYIDGDGIATTMPMPEYDPENPPMLGFFMVGAYQEILGNMHNLFGDTEAVDVFVFPDGSVEVELSDEGDTVADMLQYVQLDPKTLLTQFRDQVKKTDLDAELQQQFLEEFEAGLYGYTYLEDELEH KMLRTYNIAWWGNNYYDVNELGHISVCPDPDVPEARVDLAQLVKTREAQGQRLPALFCFPQILQHRLRSINAAFKRARESYGYNGDYFLVYPIKVNQHRRVIESLIHSGEPLGLEAGSKAELMAVLAHAGMTRSVIVCNGYKDREYIRLALIGEKMGHKVYLVIEKMSEIAIVLDEAERLNVVPRLGVRARLASQGSGKWQSSGGEKSKFGLAATQVLQLVETLREAGRLDSLQLLHFHLGSQMANIRDIATGVRESARFYVELHKLGVNIQCFDVGGGLGVDYEGTRSQSDCSVNYGLNEYANNIIWAIGDACEENGLPHPTVITESGRAVTAHHTVLVSNIIGVERNEYTVPTAPAEDAPRALQSMWETWQEMHEPGTRRSLREWLHDSQMDLHDIHIGYSSGIFSLQERAWAEQLYLSMCHEVQKQLDPQNRAHRPIIDELQERMADKMYVNFSLFQSMPDAWGIDQLFPVLPLEGLDQVPERRAVLLDITCDSDGAIDHYIDGDGIATTMPMPEYDPENPPMLGFFMVGAYQEILGNMHNLFGDTEAVDVFVFPDGSVEVELSDEGDTVADMLQYVQLDPKTLLTQFRDQVKKTDLDAELQQQFLEEFEAGLYGYTYLEDELEH 3nzr-a2-m1-cC_3nzr-a2-m1-cD Crystal structure of 2-dehydro-3-deoxyphosphogluconate aldolase from Vibrio fischeri ES114 Q5E1U2 Q5E1U2 1.9 X-RAY DIFFRACTION 84 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 236 236 3nzr-a1-m1-cA_3nzr-a1-m1-cB SLKANFYKNRVCLNVLAGSVDNAADIYDAAEGHVLVGVLSKNYPDVDTAVEDKKYSEVTNNAVSVGLGAGDPNQSVSLISQHVQPQHINQVFTGVATSRALAGQDKSIVNGLISPTGTVGVKISTGPLSSRSEDAIVPVETAIALKDGGSSVKYFPGGLETREEFACVAKACADKDFWLEPTGGIDLENYEEIQIALDAGVSKIIPHIYSSIIDKATGNTRPEDVKTLLDTKKLLL SLKANFYKNRVCLNVLAGSVDNAADIYDAAEGHVLVGVLSKNYPDVDTAVEDKKYSEVTNNAVSVGLGAGDPNQSVSLISQHVQPQHINQVFTGVATSRALAGQDKSIVNGLISPTGTVGVKISTGPLSSRSEDAIVPVETAIALKDGGSSVKYFPGGLETREEFACVAKACADKDFWLEPTGGIDLENYEEIQIALDAGVSKIIPHIYSSIIDKATGNTRPEDVKTLLDTKKLLL 3o03-a1-m1-cA_3o03-a1-m4-cA Quaternary complex structure of gluconate 5-dehydrogenase from streptococcus suis type 2 A4VVQ2 A4VVQ2 1.9 X-RAY DIFFRACTION 40 1.0 391295 (Streptococcus suis 05ZYH33) 391295 (Streptococcus suis 05ZYH33) 254 254 3cxr-a1-m1-cA_3cxr-a1-m4-cA 3cxr-a1-m2-cA_3cxr-a1-m3-cA 3o03-a1-m2-cA_3o03-a1-m3-cA QFSLDQFSLKGKIALVTGASYGIGFAIASAYAKAGATIVFNDINQELVDRGMAAYKAAGINAHGYVCDVTDEDGIQAMVAQIESEVGIIDILVNNAGIIRRVPMIEMTAAQFRQVIDIDLNAPFIVSKAVIPSMIKKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEYGEANIQCNGIGPGYIATPQTHPFDQFIIAKTPAARWGEAEDLMGPAVFLASDASNFVNGHILYVDGGILAYIGKQP QFSLDQFSLKGKIALVTGASYGIGFAIASAYAKAGATIVFNDINQELVDRGMAAYKAAGINAHGYVCDVTDEDGIQAMVAQIESEVGIIDILVNNAGIIRRVPMIEMTAAQFRQVIDIDLNAPFIVSKAVIPSMIKKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEYGEANIQCNGIGPGYIATPQTHPFDQFIIAKTPAARWGEAEDLMGPAVFLASDASNFVNGHILYVDGGILAYIGKQP 3o03-a1-m2-cA_3o03-a1-m4-cA Quaternary complex structure of gluconate 5-dehydrogenase from streptococcus suis type 2 A4VVQ2 A4VVQ2 1.9 X-RAY DIFFRACTION 144 1.0 391295 (Streptococcus suis 05ZYH33) 391295 (Streptococcus suis 05ZYH33) 254 254 3cxr-a1-m1-cA_3cxr-a1-m3-cA 3cxr-a1-m2-cA_3cxr-a1-m4-cA 3o03-a1-m1-cA_3o03-a1-m3-cA QFSLDQFSLKGKIALVTGASYGIGFAIASAYAKAGATIVFNDINQELVDRGMAAYKAAGINAHGYVCDVTDEDGIQAMVAQIESEVGIIDILVNNAGIIRRVPMIEMTAAQFRQVIDIDLNAPFIVSKAVIPSMIKKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEYGEANIQCNGIGPGYIATPQTHPFDQFIIAKTPAARWGEAEDLMGPAVFLASDASNFVNGHILYVDGGILAYIGKQP QFSLDQFSLKGKIALVTGASYGIGFAIASAYAKAGATIVFNDINQELVDRGMAAYKAAGINAHGYVCDVTDEDGIQAMVAQIESEVGIIDILVNNAGIIRRVPMIEMTAAQFRQVIDIDLNAPFIVSKAVIPSMIKKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEYGEANIQCNGIGPGYIATPQTHPFDQFIIAKTPAARWGEAEDLMGPAVFLASDASNFVNGHILYVDGGILAYIGKQP 3o03-a2-m1-cA_3o03-a2-m2-cA Quaternary complex structure of gluconate 5-dehydrogenase from streptococcus suis type 2 A4VVQ2 A4VVQ2 1.9 X-RAY DIFFRACTION 180 1.0 391295 (Streptococcus suis 05ZYH33) 391295 (Streptococcus suis 05ZYH33) 254 254 3cxr-a1-m1-cA_3cxr-a1-m2-cA 3cxr-a1-m3-cA_3cxr-a1-m4-cA 3cxr-a2-m1-cA_3cxr-a2-m2-cA 3o03-a1-m1-cA_3o03-a1-m2-cA 3o03-a1-m3-cA_3o03-a1-m4-cA QFSLDQFSLKGKIALVTGASYGIGFAIASAYAKAGATIVFNDINQELVDRGMAAYKAAGINAHGYVCDVTDEDGIQAMVAQIESEVGIIDILVNNAGIIRRVPMIEMTAAQFRQVIDIDLNAPFIVSKAVIPSMIKKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEYGEANIQCNGIGPGYIATPQTHPFDQFIIAKTPAARWGEAEDLMGPAVFLASDASNFVNGHILYVDGGILAYIGKQP QFSLDQFSLKGKIALVTGASYGIGFAIASAYAKAGATIVFNDINQELVDRGMAAYKAAGINAHGYVCDVTDEDGIQAMVAQIESEVGIIDILVNNAGIIRRVPMIEMTAAQFRQVIDIDLNAPFIVSKAVIPSMIKKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEYGEANIQCNGIGPGYIATPQTHPFDQFIIAKTPAARWGEAEDLMGPAVFLASDASNFVNGHILYVDGGILAYIGKQP 3o06-a1-m1-cA_3o06-a1-m2-cC Crystal Structure of yeast pyridoxal 5-phosphate synthase Snz1 Q03148 Q03148 2.35 X-RAY DIFFRACTION 64 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 258 258 3fem-a1-m1-cA_3fem-a1-m1-cB 3fem-a1-m1-cA_3fem-a1-m1-cF 3fem-a1-m1-cB_3fem-a1-m1-cC 3fem-a1-m1-cC_3fem-a1-m1-cD 3fem-a1-m1-cD_3fem-a1-m1-cE 3fem-a1-m1-cE_3fem-a1-m1-cF 3o05-a1-m1-cA_3o05-a1-m1-cB 3o05-a1-m1-cA_3o05-a1-m2-cC 3o05-a1-m1-cB_3o05-a1-m1-cC 3o05-a1-m1-cC_3o05-a1-m2-cA 3o05-a1-m2-cA_3o05-a1-m2-cB 3o05-a1-m2-cB_3o05-a1-m2-cC 3o06-a1-m1-cA_3o06-a1-m1-cB 3o06-a1-m1-cB_3o06-a1-m1-cC 3o06-a1-m1-cC_3o06-a1-m2-cA 3o06-a1-m2-cA_3o06-a1-m2-cB 3o06-a1-m2-cB_3o06-a1-m2-cC 3o07-a1-m1-cA_3o07-a1-m2-cC 3o07-a1-m1-cB_3o07-a1-m1-cA 3o07-a1-m1-cB_3o07-a1-m1-cC 3o07-a1-m1-cC_3o07-a1-m2-cA 3o07-a1-m2-cB_3o07-a1-m2-cA 3o07-a1-m2-cB_3o07-a1-m2-cC LKGGVIMDVVTPEQAKIAEKSGACAVMALESIPADMRKSGKVCRMSDPKMIKDIMNSVSIPVMAKVRIGHFVEAQIIEALEVDYIDESEVLTPADWTHHIEKDKFKVPFVCGAKDLGEALRRINEGAAMIRTKGEAGTGDVSEAVKHIRRITEEIKACQQLKSEDDIAKVAEEMRVPVSLLKDVLEKGKLPVVNFAAGGVATPADAALLMQLGCDGVFVGSGIFKSSNPVRLATAVVEATTHFDNPSKLLEVSSDLGE LKGGVIMDVVTPEQAKIAEKSGACAVMALESIPADMRKSGKVCRMSDPKMIKDIMNSVSIPVMAKVRIGHFVEAQIIEALEVDYIDESEVLTPADWTHHIEKDKFKVPFVCGAKDLGEALRRINEGAAMIRTKGEAGTGDVSEAVKHIRRITEEIKACQQLKSEDDIAKVAEEMRVPVSLLKDVLEKGKLPVVNFAAGGVATPADAALLMQLGCDGVFVGSGIFKSSNPVRLATAVVEATTHFDNPSKLLEVSSDLGE 3o0h-a1-m1-cA_3o0h-a1-m1-cB Crystal structure of glutathione reductase from Bartonella henselae A0A0H3LWY9 A0A0H3LWY9 1.9 X-RAY DIFFRACTION 240 1.0 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 455 459 SFDFDLFVIGSGSGGVRAARLAGALGKRVAIAEEYRIGGTCVIRGCVPKKLYFYASQYAQEFSKSIGFGWKYADPIFNWEKLVAAKNKEISRLEGLYREGLQNSNVHIYESRAVFVDEHTLELSVTGERISAEKILIATGAKIVSNIKGSDLCLTSNEIFDLEKLPKSIVIVGGGYIGVEFANIFHGLGVKTTLLHRGDLILRNFDYDLRQLLNDAMVAKGISIIYEATVSQVQSTENCYNVVLTNGQTICADRVMLATGRVPNTTGLGLERAGVKVNEFGAVVVDEKMTTNVSHIWAVGDVTGHIQLTPVAIHDAMCFVKNAFETTPDYDLITTAVFSQPEIGTVGLSEEDALHRYKRVEIYRTVFRPMRNVLSGSPEKMFMKLVVDGESRIVVGAHVLGENAGEIAQLIGISLKGKLTKDIFDKTMAVHPTMSEELVTMYKPSYVYENGEKLD SFDFDLFVIGSGSGGVRAARLAGALGKRVAIAEEYRIGGTCVIRGCVPKKLYFYASQYAQEFSKSIGFGWKYADPIFNWEKLVAAKNKEISRLEGLYREGLQNSNVHIYESRAVFVDEHTLELSVTGERISAEKILIATGAKIVSNSIKGSDLCLTSNEIFDLEKLPKSIVIVGGGYIGVEFANIFHGLGVKTTLLHRGDLILRNFDYDLRQLLNDAMVAKGISIIYEATVSQVQSTENCYNVVLTNGQTICADRVMLATGRVPNTTGLGLERAGVKVNEFGAVVVDEKMTTNVSHIWAVGDVTGHIQLTPVAIHDAMCFVKNAFENTSTTPDYDLITTAVFSQPEIGTVGLSEEDALHRYKRVEIYRTVFRPMRNVLSGSPEKMFMKLVVDGESRIVVGAHVLGENAGEIAQLIGISLKGKLTKDIFDKTMAVHPTMSEELVTMYKPSYVYENGEKLD 3o0l-a1-m1-cB_3o0l-a1-m1-cA Crystal structure of a Pfam DUF1425 family member (Shew_1734) from Shewanella sp. pv-4 at 1.81 a resolution A3QDQ3 A3QDQ3 1.81 X-RAY DIFFRACTION 84 0.991 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 106 107 GGIISSTGEVRVDNGSFHSDVDVSAVTTQAEAGFLRARGTIISKSPKDQRLQYKFTWYDINGATVEDEGVSWKSLKLHGKQQQVTALSPNATAVRCELYVREAISN HTGGIISSTGEVRVDNGSFHSDVDVSAVTTQAEAGFLRARGTIISKSPKDQRLQYKFTWYDINGATVEDEGVSWKSLKLHGKQQQVTALSPNATAVRCELYVREAIS 3o0m-a2-m1-cB_3o0m-a2-m3-cB Crystal structure of a ZN-bound histidine triad family protein from Mycobacterium smegmatis A0R291 A0R291 1.9 X-RAY DIFFRACTION 115 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 135 135 3o0m-a1-m1-cA_3o0m-a1-m2-cA SCVFCAIVSGDAPAIRIYEDENFLGILDIRPFTRGHTLVIPKTHTVDLTDTPPETVAGMAAVGQRIARAARESGLHADGNNIAINDGKAAFQTVFHIHLHVVPRRNGDKLSFRRDPDREESGRLLRAALAQLDSA SCVFCAIVSGDAPAIRIYEDENFLGILDIRPFTRGHTLVIPKTHTVDLTDTPPETVAGMAAVGQRIARAARESGLHADGNNIAINDGKAAFQTVFHIHLHVVPRRNGDKLSFRRDPDREESGRLLRAALAQLDSA 3o0y-a4-m1-cB_3o0y-a4-m1-cC The crystal structure of the putative lipoprotein from Colwellia psychrerythraea Q47Z72 Q47Z72 1.7 X-RAY DIFFRACTION 30 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 585 585 3o0y-a4-m1-cA_3o0y-a4-m1-cB 3o0y-a4-m1-cA_3o0y-a4-m1-cC ISSKQQLASLYLQAKQSLFKQRALSATMYGLSQKDIGQVISSDMEFYSPENEKQLRAELLSISNTIAGIKLDDADITTKNNQQVMAGLTRYFAGEPNFNIGYIDTWMGLSPFIVNQINGPLIDIPRVMQNDQPITTEKEALDYIVRLGQFDKLAATIIEKQTADAAQNWLPSKVTLQGAIKYLKGFTSGSAEQHPFVNVFREKIEKVDSLTTEQKQSLITQVIAKVSQVVYPAYQSVEKASEQLLSEARSESGIWAQPKGSVYYQDAIKQLGDSELSPTQIHQIGLDEVARISGVMNEILLAQGYTKGTVGERMVALNEEPRFLYEDSIAGREELLSDINGYITEVTAKMAPVFRTTPSYQVEVKSFPVEVQDGAPGGQYTSPAVDGSKPGIYWINLRDMKANPKFGLKTLTYHEANPGHHWQIALNLDQAELPFLRRIAPYNAYTEGWALYSEQVAYELGMYENDPFGDLGRLQAELFRAVRLVVDTGLHDKRWTREQAISYMSEQTGTAESDVVAEIERYMAWPGQALGYKLGMLKILSLREQAKARLGDKFDLAEFHDVVLLNGAVPMAVLSRNVNHWLDNK ISSKQQLASLYLQAKQSLFKQRALSATMYGLSQKDIGQVISSDMEFYSPENEKQLRAELLSISNTIAGIKLDDADITTKNNQQVMAGLTRYFAGEPNFNIGYIDTWMGLSPFIVNQINGPLIDIPRVMQNDQPITTEKEALDYIVRLGQFDKLAATIIEKQTADAAQNWLPSKVTLQGAIKYLKGFTSGSAEQHPFVNVFREKIEKVDSLTTEQKQSLITQVIAKVSQVVYPAYQSVEKASEQLLSEARSESGIWAQPKGSVYYQDAIKQLGDSELSPTQIHQIGLDEVARISGVMNEILLAQGYTKGTVGERMVALNEEPRFLYEDSIAGREELLSDINGYITEVTAKMAPVFRTTPSYQVEVKSFPVEVQDGAPGGQYTSPAVDGSKPGIYWINLRDMKANPKFGLKTLTYHEANPGHHWQIALNLDQAELPFLRRIAPYNAYTEGWALYSEQVAYELGMYENDPFGDLGRLQAELFRAVRLVVDTGLHDKRWTREQAISYMSEQTGTAESDVVAEIERYMAWPGQALGYKLGMLKILSLREQAKARLGDKFDLAEFHDVVLLNGAVPMAVLSRNVNHWLDNK 3o0z-a2-m1-cC_3o0z-a2-m1-cD Crystal structure of a coiled-coil domain from human ROCK I Q13464 Q13464 2.33 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 157 3o0z-a1-m1-cA_3o0z-a1-m1-cB SLANEKLSQLQKQLEEANDLLRTESDTAVRLRKSHTESKSISQLESLNRELQERNRILENSKSQTDKDYYQLQAILEAERRDRGHDSEIGDLQARITSLQEEVKHLKHNLEKVEGERKEAQDLNHSEKEKNNLEIDLNYKLKSLQQRLEQEVNEHK SLANEKLSQLQKQLEEANDLLRTESDTAVRLRKSHTESKSISQLESLNRELQERNRILENSKSQTDKDYYQLQAILEAERRDRGHDSEIGDLQARITSLQEEVKHLKHNLEKVEGERKEAQDLNHSEKEKNNLEIDLNYKLKSLQQRLEQEVNEHKV 3o10-a2-m1-cC_3o10-a2-m1-cD Crystal structure of the HEPN domain from human sacsin Q9NZJ4 Q9NZJ4 1.9 X-RAY DIFFRACTION 76 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 133 134 3o10-a1-m1-cA_3o10-a1-m1-cB GNPVEARRWLRQARANFSAARNDLHKNANEWVCFKCYLSTKLALIAADYAVRGKSDKDVKPTALAQKIEEYSQQLEGLTNDVHTLEAYGVDSLKTRYPDLLPFPQIPNDRFTSEVARVECTACIIIKLENFQQ SVGNPVEARRWLRQARANFSAARNDLHKNANEWVCFKCYLSTKLALIAADYAVRGKSDKDVKPTALAQKIEEYSQQLEGLTNDVHTLEAYGVDSLKTRYPDLLPFPQIPNDRFTSEVARVECTACIIIKLENFQ 3o1j-a1-m1-cA_3o1j-a1-m1-cB Crystal Structure of the TorS sensor domain - TorT complex in the absence of isopropanol Q87ID1 Q87ID1 2.95 X-RAY DIFFRACTION 122 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 273 273 3o1h-a1-m1-cA_3o1h-a1-m2-cA 3o1i-a1-m1-cA_3o1i-a1-m1-cB GSAMIEARQVSELSTRIISSVQMLSNAQNEQERKEAGRVLFEQLESLLTHIKELGGESFDSKLLDALESNVQNVINNLAELGVTVERKLWLAKEIDTRVEEMRLLSEELEQLTRTQVQNTSTIAVANVTHIYDLLEANKKDQVYQALDALVEVDLDLTERLHELHLLAFKMLNQIEEARTLTNVDRIQQIQTAFENNLKIMKRRVLAVEDPTRSKQMSQLLTELGKRQVVFTILLQQYENNEQSQQLMQKTLELFSELNSTVNKLVDDSNKTT GSAMIEARQVSELSTRIISSVQMLSNAQNEQERKEAGRVLFEQLESLLTHIKELGGESFDSKLLDALESNVQNVINNLAELGVTVERKLWLAKEIDTRVEEMRLLSEELEQLTRTQVQNTSTIAVANVTHIYDLLEANKKDQVYQALDALVEVDLDLTERLHELHLLAFKMLNQIEEARTLTNVDRIQQIQTAFENNLKIMKRRVLAVEDPTRSKQMSQLLTELGKRQVVFTILLQQYENNEQSQQLMQKTLELFSELNSTVNKLVDDSNKTT 3o1k-a1-m1-cC_3o1k-a1-m2-cD Crystal structure of putative dihydroneopterin aldolase (FolB) from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KUJ6 Q9KUJ6 1.95 X-RAY DIFFRACTION 16 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 117 118 3o1k-a1-m1-cA_3o1k-a1-m2-cA 3o1k-a1-m1-cB_3o1k-a1-m2-cB 3o1k-a1-m2-cC_3o1k-a1-m1-cD SMDKVFIEQLEVITTIGVYDWEQQIKQKLVLDLEMAHDNRAAGKSDDVADALDYAQVSQAVLEHIEQGRFLLVERVAEEVAELIMTRFAVPWLRIRLTKPGAVPQAKGVGVIIERAR LSMDKVFIEQLEVITTIGVYDWEQQIKQKLVLDLEMAHDNRAAGKSDDVADALDYAQVSQAVLEHIEQGRFLLVERVAEEVAELIMTRFAVPWLRIRLTKPGAVPQAKGVGVIIERAR 3o1k-a2-m1-cB_3o1k-a2-m1-cD Crystal structure of putative dihydroneopterin aldolase (FolB) from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KUJ6 Q9KUJ6 1.95 X-RAY DIFFRACTION 82 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 118 118 3o1k-a1-m1-cA_3o1k-a1-m1-cC 3o1k-a1-m1-cA_3o1k-a1-m1-cD 3o1k-a1-m1-cB_3o1k-a1-m1-cD 3o1k-a1-m1-cC_3o1k-a1-m1-cB 3o1k-a1-m2-cA_3o1k-a1-m2-cC 3o1k-a1-m2-cA_3o1k-a1-m2-cD 3o1k-a1-m2-cB_3o1k-a1-m2-cD 3o1k-a1-m2-cC_3o1k-a1-m2-cB 3o1k-a2-m1-cA_3o1k-a2-m1-cC 3o1k-a2-m1-cA_3o1k-a2-m1-cD 3o1k-a2-m1-cC_3o1k-a2-m1-cB LSMDKVFIEQLEVITTIGVYDWEQQIKQKLVLDLEMAHDNRAAGKSDDVADALDYAQVSQAVLEHIEQGRFLLVERVAEEVAELIMTRFAVPWLRIRLTKPGAVPQAKGVGVIIERAR LSMDKVFIEQLEVITTIGVYDWEQQIKQKLVLDLEMAHDNRAAGKSDDVADALDYAQVSQAVLEHIEQGRFLLVERVAEEVAELIMTRFAVPWLRIRLTKPGAVPQAKGVGVIIERAR 3o1l-a4-m1-cB_3o1l-a4-m2-cB Crystal structure of a formyltetrahydrofolate deformylase (PSPTO_4314) from Pseudomonas syringae pv. tomato str. DC3000 at 2.20 A resolution Q87X74 Q87X74 2.2 X-RAY DIFFRACTION 65 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 277 277 3o1l-a2-m1-cA_3o1l-a2-m2-cA 3o1l-a3-m1-cB_3o1l-a3-m2-cB 3o1l-a4-m1-cA_3o1l-a4-m2-cA QGRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNLSGWFFRHEIRADTLPFDLDGFREAFTPIAEEFSDWRITDSAQKKRVVLASRESHCLADLLHRWHSDELDCDIACVISNHQDLRSVEWHDIPYYHVPVDPKDKEPAFAEVSRLVGHHQADVVVLARYQILPPQLCREYAHQVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHRDSIENVRFGRDVEKVLARGLRAHLEDRVLVHDNKTVVFD QGRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNLSGWFFRHEIRADTLPFDLDGFREAFTPIAEEFSDWRITDSAQKKRVVLASRESHCLADLLHRWHSDELDCDIACVISNHQDLRSVEWHDIPYYHVPVDPKDKEPAFAEVSRLVGHHQADVVVLARYQILPPQLCREYAHQVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHRDSIENVRFGRDVEKVLARGLRAHLEDRVLVHDNKTVVFD 3o1l-a4-m2-cB_3o1l-a4-m1-cA Crystal structure of a formyltetrahydrofolate deformylase (PSPTO_4314) from Pseudomonas syringae pv. tomato str. DC3000 at 2.20 A resolution Q87X74 Q87X74 2.2 X-RAY DIFFRACTION 49 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 277 290 3o1l-a1-m2-cB_3o1l-a1-m1-cA 3o1l-a4-m1-cB_3o1l-a4-m2-cA QGRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNLSGWFFRHEIRADTLPFDLDGFREAFTPIAEEFSDWRITDSAQKKRVVLASRESHCLADLLHRWHSDELDCDIACVISNHQDLRSVEWHDIPYYHVPVDPKDKEPAFAEVSRLVGHHQADVVVLARYQILPPQLCREYAHQVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHRDSIENVRFGRDVEKVLARGLRAHLEDRVLVHDNKTVVFD KIHHHHHHENLYFQGRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNLSGWFFRHEIRADTLPFDLDGFREAFTPIAEEFSDWRITDSAQKKRVVLASRESHCLADLLHRWHSDELDCDIACVISNHQDLRSVEWHDIPYYHVPVDPKDKEPAFAEVSRLVGHHQADVVVLARYQILPPQLCREYAHQVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHRDSIENVRFGRDVEKVLARGLRAHLEDRVLVHDNKTVVFD 3o1l-a4-m2-cB_3o1l-a4-m2-cA Crystal structure of a formyltetrahydrofolate deformylase (PSPTO_4314) from Pseudomonas syringae pv. tomato str. DC3000 at 2.20 A resolution Q87X74 Q87X74 2.2 X-RAY DIFFRACTION 58 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 277 290 3o1l-a4-m1-cB_3o1l-a4-m1-cA QGRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNLSGWFFRHEIRADTLPFDLDGFREAFTPIAEEFSDWRITDSAQKKRVVLASRESHCLADLLHRWHSDELDCDIACVISNHQDLRSVEWHDIPYYHVPVDPKDKEPAFAEVSRLVGHHQADVVVLARYQILPPQLCREYAHQVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHRDSIENVRFGRDVEKVLARGLRAHLEDRVLVHDNKTVVFD KIHHHHHHENLYFQGRTFRLVIACPDRVGIVAKVSNFLASHNGWITEASHHSDNLSGWFFRHEIRADTLPFDLDGFREAFTPIAEEFSDWRITDSAQKKRVVLASRESHCLADLLHRWHSDELDCDIACVISNHQDLRSVEWHDIPYYHVPVDPKDKEPAFAEVSRLVGHHQADVVVLARYQILPPQLCREYAHQVINIHHSFLPSFVGAKPYHQASLRGVKLIGATCHYVTEELDAGPIIEQDVVRVSHRDSIENVRFGRDVEKVLARGLRAHLEDRVLVHDNKTVVFD 3o1q-a1-m1-cA_3o1q-a1-m2-cA Native Crystal Structure of Helicobacter pylori Urease Accessory Protein UreF Q09065 Q09065 1.85 X-RAY DIFFRACTION 93 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 210 210 2wgl-a1-m1-cA_2wgl-a1-m1-cC 2wgl-a2-m1-cB_2wgl-a2-m2-cB 3cxn-a1-m1-cB_3cxn-a1-m2-cB 3cxn-a2-m1-cC_3cxn-a2-m1-cA 3o1q-a2-m1-cB_3o1q-a2-m1-cC 3sf5-a1-m1-cA_3sf5-a1-m1-cC 4hi0-a1-m1-cA_4hi0-a1-m1-cC DNNAHVDNEFLILQVNDAVFPIGSYTHSFGLETYIQQKKVTNKESALEYLKANLSSQFLYTEMLSLKLTYESALQQDLKKILGVEEVIMLSTSPMELRLANQKLGNRFIKTLQAMNELDMGEFFNAYAQKTKDPTHATSYGVFAASLGIELKKALRHYLYAQTSNMVINCVKSVPLSQNDGQKILLSLQSPFNQLIEKTLELDESHLCTA DNNAHVDNEFLILQVNDAVFPIGSYTHSFGLETYIQQKKVTNKESALEYLKANLSSQFLYTEMLSLKLTYESALQQDLKKILGVEEVIMLSTSPMELRLANQKLGNRFIKTLQAMNELDMGEFFNAYAQKTKDPTHATSYGVFAASLGIELKKALRHYLYAQTSNMVINCVKSVPLSQNDGQKILLSLQSPFNQLIEKTLELDESHLCTA 3o21-a2-m1-cC_3o21-a2-m1-cD High resolution structure of GluA3 N-terminal domain (NTD) P19492 P19492 2.201 X-RAY DIFFRACTION 53 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 375 375 3o21-a1-m1-cB_3o21-a1-m1-cA 3p3w-a1-m1-cC_3p3w-a1-m1-cA 3p3w-a2-m1-cD_3p3w-a2-m1-cB 6flr-a1-m1-cA_6flr-a1-m1-cB 6fpj-a1-m1-cC_6fpj-a1-m1-cA 6fpj-a2-m1-cB_6fpj-a2-m2-cB FPNTISIGGLFMRNTVQEHSAFRFAVQLYNTNQNTTEKPFHLNYHVDHLDSSNSFSVTNAFCSQFSRGVYAIFGFYDQMSMNTLTSFCGALHTSFVTPSFPTDADVQFVIQMRPALKGAILSLLSYYKWEKFVYLYDTERGFSVLQAIMEAAVQNNWQVTARSVGNIKDVQEFRRIIEEMDRRQEKRYLIDCEVERINTILEQVVILGKHSRGYHYMLANLGFTDILLERVMHGGANITGFQIVNNENPMVQQFIQRWVRLDEREFPEAKNAPLKYTSALTHDAILVIAEAFRYLRRQRVDVSAGDCLANPAVPWSQGIDIERALKMVQVQGMTGNIQFDTYGRRTNYTIDVYEMKVSGSRKAGYWNEYERFVPF NTISIGGLFMRNTVQEHSAFRFAVQLYNTNQNTTEKPFHLNYHVDHLDSSNSFSVTNAFCSQFSRGVYAIFGFYDQMSMNTLTSFCGALHTSFVTPSFPTDADVQFVIQMRPALKGAILSLLSYYKWEKFVYLYDTERGFSVLQAIMEAAVQNNWQVTARSVGNIKDVQEFRRIIEEMDRRQEKRYLIDCEVERINTILEQVVILGKHSRGYHYMLANLGFTDILLERVMHGGANITGFQIVNNENPMVQQFIQRWVRLDEREFPEAKNAPLKYTSALTHDAILVIAEAFRYLRRQRVDVSRSAGDCLANPAVPWSQGIDIERALKMVQVQGMTGNIQFDTYGRRTNYTIDVYEMKVSGSRKAGYWNEYERFVPF 3o27-a1-m1-cB_3o27-a1-m1-cA The crystal structure of C68 from the hybrid virus-plasmid pSSVx Q9P9J8 Q9P9J8 2.8 X-RAY DIFFRACTION 143 1.0 43080 (Sulfolobus islandicus) 43080 (Sulfolobus islandicus) 57 60 GIRKLVVLNPRATFYLLIPKDIAEALDIKPDDTFILNMEQKDGDIVLSYKRVKELKI GIRKLVVLNPRAYHTTFYLLIPKDIAEALDIKPDDTFILNMEQKDGDIVLSYKRVKELKI 3o2e-a2-m1-cA_3o2e-a2-m2-cA Crystal structure of a bol-like protein from babesia bovis A7ATL3 A7ATL3 1.95 X-RAY DIFFRACTION 43 1.0 484906 (Babesia bovis T2Bo) 484906 (Babesia bovis T2Bo) 86 86 PGSMVSKSIVEERLRSMLSPQFLKVTDNSGGCGAAFNAYIVSQQFEGKGLLDRQRLVNSAIAAEMPQIHAFTMKCLTPGEWEAKNR PGSMVSKSIVEERLRSMLSPQFLKVTDNSGGCGAAFNAYIVSQQFEGKGLLDRQRLVNSAIAAEMPQIHAFTMKCLTPGEWEAKNR 3o2g-a1-m1-cA_3o2g-a1-m2-cA Crystal Structure of Human gamma-butyrobetaine,2-oxoglutarate dioxygenase 1 (BBOX1) O75936 O75936 1.78 X-RAY DIFFRACTION 222 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 386 3ms5-a1-m1-cA_3ms5-a1-m2-cA 3n6w-a1-m1-cA_3n6w-a1-m2-cA 4bg1-a1-m1-cA_4bg1-a1-m2-cA 4bgk-a1-m1-cA_4bgk-a1-m2-cA 4bgm-a1-m1-cA_4bgm-a1-m2-cA 4bhf-a1-m1-cA_4bhf-a1-m2-cA 4bhg-a1-m1-cA_4bhg-a1-m2-cA 4bhi-a1-m1-cA_4bhi-a1-m2-cA 4c5w-a1-m1-cA_4c5w-a1-m2-cA 4c8r-a1-m1-cA_4c8r-a1-m1-cB 4c8r-a2-m1-cC_4c8r-a2-m1-cD 4c8r-a3-m1-cE_4c8r-a3-m1-cF 4cwd-a1-m1-cA_4cwd-a1-m2-cA SMACTIQKAEALDGAHLMQILWYDEEESLYPAVWLRDNCPCSDCYLDSAKARKLLVEALDVNIGIKGLIFDRKKVYITWPDEHYSEFQADWLKKRCFSKQARAKLQRELFFPECQYWGSELQLPTLDFEDVLRYDEHAYKWLSTLKKVGIVRLTGASDKPGEVSKLGKRMGFLYLTFYGHTWQVQDKIDANNVAYTTGKLSFHTDYPALHHPPGVQLLHCIKQTVTGGDSEIVDGFNVCQKLKKNNPQAFQILSSTFVDFTDIGVDYCDFSVQSKHKIIELDDKGQVVRINFNNATRDTIFDVPVERVQPFYAALKEFVDLMNSKESKFTFKMNPGDVITFDNWRLLHGRRSYEAGTEISRHLEGAYADWDVVMSRLRILRQRVEN SMACTIQKAEALDGAHLMQILWYDEEESLYPAVWLRDNCPCSDCYLDSAKARKLLVEALDVNIGIKGLIFDRKKVYITWPDEHYSEFQADWLKKRCFSKQARAKLQRELFFPECQYWGSELQLPTLDFEDVLRYDEHAYKWLSTLKKVGIVRLTGASDKPGEVSKLGKRMGFLYLTFYGHTWQVQDKIDANNVAYTTGKLSFHTDYPALHHPPGVQLLHCIKQTVTGGDSEIVDGFNVCQKLKKNNPQAFQILSSTFVDFTDIGVDYCDFSVQSKHKIIELDDKGQVVRINFNNATRDTIFDVPVERVQPFYAALKEFVDLMNSKESKFTFKMNPGDVITFDNWRLLHGRRSYEAGTEISRHLEGAYADWDVVMSRLRILRQRVEN 3o2i-a2-m1-cC_3o2i-a2-m2-cC The crystal structure of a functionally unknown protein from Leptospirillum sp. Group II UBA 2.197 X-RAY DIFFRACTION 170 1.0 419542 (Leptospirillum rubarum) 419542 (Leptospirillum rubarum) 92 92 3o2i-a1-m1-cA_3o2i-a1-m1-cB DHIYELVSRDRTHPVRIYLLHSEYWTEDEFYNLLLEAFQRSSASDWHLQILEVSKYLVTAHGFVEAGGLQEIGFPGELSKTEVRRRINAFLG DHIYELVSRDRTHPVRIYLLHSEYWTEDEFYNLLLEAFQRSSASDWHLQILEVSKYLVTAHGFVEAGGLQEIGFPGELSKTEVRRRINAFLG 3o2k-a1-m1-cA_3o2k-a1-m2-cA Crystal Structure of Brevianamide F Prenyltransferase Complexed with Brevianamide F and Dimethylallyl S-thiolodiphosphate Q4WAW7 Q4WAW7 2.4 X-RAY DIFFRACTION 67 1.0 429 429 3o24-a1-m1-cA_3o24-a1-m2-cA PAPPDQKPCHQLQPAPYRALSESILFGSVDEERWWHSTAPILSRLLISSNYDVDVQYKYLSLYRHLVLPALGPYPQRDPETGIIATQWRSGMVLTGLPIEFSNNVARALIRIGVDPVTADSGTAQDPFNTTRPKVYLETAARLLPGVDLTRFYEFETELVITKAEEAVLQANPDLFRSPWKSQILTAMDLQKSGTVLVKAYFYPQPKSAVTGRSTEDLLVNAIRKVDREGRFETQLANLQRYIERRRRCSFFPHFLSTDLVEPGKSRVKFYASERHVNLQMVEDIWTFGGLRRDPDALRGLELLRHFWADIQMREGYYTMPRGFCELGKSSFEAPMMFHFHLDGSQSPFPDPQMYVCVFGMNSRKLVEGLTTFYRRVGWEEMASHYQANFLANYPDEDFEKAAHLCAYVSFAYKNGGAYVTLYNHSFNP PAPPDQKPCHQLQPAPYRALSESILFGSVDEERWWHSTAPILSRLLISSNYDVDVQYKYLSLYRHLVLPALGPYPQRDPETGIIATQWRSGMVLTGLPIEFSNNVARALIRIGVDPVTADSGTAQDPFNTTRPKVYLETAARLLPGVDLTRFYEFETELVITKAEEAVLQANPDLFRSPWKSQILTAMDLQKSGTVLVKAYFYPQPKSAVTGRSTEDLLVNAIRKVDREGRFETQLANLQRYIERRRRCSFFPHFLSTDLVEPGKSRVKFYASERHVNLQMVEDIWTFGGLRRDPDALRGLELLRHFWADIQMREGYYTMPRGFCELGKSSFEAPMMFHFHLDGSQSPFPDPQMYVCVFGMNSRKLVEGLTTFYRRVGWEEMASHYQANFLANYPDEDFEKAAHLCAYVSFAYKNGGAYVTLYNHSFNP 3o2o-a6-m1-cF_3o2o-a6-m1-cG Structure of E. coli ClpS ring complex P0A8Q6 P0A8Q6 2.9 X-RAY DIFFRACTION 20 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 85 2wa9-a7-m1-cN_2wa9-a7-m1-cG 3o2o-a2-m1-cB_3o2o-a2-m1-cC 3o2o-a4-m1-cD_3o2o-a4-m1-cE 3o2o-a8-m1-cA_3o2o-a8-m1-cH LKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLAVHYQGKAICGVFTAEVAETKVAMVNKYARENEHPLLCTLEKA LKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLAVHYQGKAICGVFTAEVAETKVAMVNKYARENEHPLLCTLEKA 3o2o-a7-m1-cG_3o2o-a7-m1-cH Structure of E. coli ClpS ring complex P0A8Q6 P0A8Q6 2.9 X-RAY DIFFRACTION 21 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 85 3o2o-a1-m1-cA_3o2o-a1-m1-cB 3o2o-a3-m1-cC_3o2o-a3-m1-cD 3o2o-a5-m1-cE_3o2o-a5-m1-cF LKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLAVHYQGKAICGVFTAEVAETKVAMVNKYARENEHPLLCTLEKA LKPPSMYKVILVNDDYTPMEFVIDVLQKFFSYDVERATQLMLAVHYQGKAICGVFTAEVAETKVAMVNKYARENEHPLLCTLEKA 3o2r-a2-m1-cD_3o2r-a2-m1-cC Structural flexibility in region involved in dimer formation of nuclease domain of Ribonuclase III (rnc) from Campylobacter jejuni Q9PM40 Q9PM40 1.251 X-RAY DIFFRACTION 56 0.993 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 142 144 3n3w-a1-m1-cA_3n3w-a1-m1-cB 3o2r-a1-m1-cB_3o2r-a1-m1-cA NIEKLEQSLTYEFKDKNLLIHALTHKSFKSYNNERLEFLGDAVLDLVVGEYLFHKFAKDAEGDLSKLRAALVNEKSFAKIANSLNLGDFILMSVAEENNGGKEKPSILSDALEAIIGAIHLEAGFEFAKTIALRLIEKNFPI NIEKLEQSLTYEFKDKNLLIHALTHKSFKKSYNNERLEFLGDAVLDLVVGEYLFHKFAKDAEGDLSKLRAALVNEKSFAKIANSLNLGDFILMSVAEENNGGKEKPSILSDALEAIIGAIHLEAGFEFAKTIALRLIEKNFPQI 3o38-a1-m1-cA_3o38-a1-m1-cD Crystal structure of a short chain dehydrogenase from Mycobacterium smegmatis A0R4Z8 A0R4Z8 1.95 X-RAY DIFFRACTION 128 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 244 244 3o38-a1-m1-cB_3o38-a1-m1-cC NLSEAPKEIDGHGLLKGKVVLVTAAAGTGIGSTTARRALLEGADVVISDYHERRLGETRDQLADLGLGRVEAVVCDVTSTEAVDALITQTVEKAGRLDVLVNNAGLGGQTPVVDMTDEEWDRVLNVTLTSVMRATRAALRYFRGVDHGGVIVNNASVLGWRAQHSQSHYAAAKAGVMALTRCSAIEAVEFGVRINAVSPSIARHDEAFGRAAEPWEVAATIAFLASDYSSYMTGEVVSVSSQRA NLSEAPKEIDGHGLLKGKVVLVTAAAGTGIGSTTARRALLEGADVVISDYHERRLGETRDQLADLGLGRVEAVVCDVTSTEAVDALITQTVEKAGRLDVLVNNAGLGGQTPVVDMTDEEWDRVLNVTLTSVMRATRAALRYFRGVDHGGVIVNNASVLGWRAQHSQSHYAAAKAGVMALTRCSAIEAVEFGVRINAVSPSIARHDEAFGRAAEPWEVAATIAFLASDYSSYMTGEVVSVSSQRA 3o38-a1-m1-cB_3o38-a1-m1-cD Crystal structure of a short chain dehydrogenase from Mycobacterium smegmatis A0R4Z8 A0R4Z8 1.95 X-RAY DIFFRACTION 12 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 240 244 3o38-a1-m1-cC_3o38-a1-m1-cA NLSEAPKEIDGHGLLKGKVVLVTAAAGTGIGSTTARRALLEGADVVISDYHERRLGETRDQLADLGLGRVEAVVCDVTSTEAVDALITQTVEKAGRLDVLVNNAGLGGQTPVVDMTDEEWDRVLNVTLTSVMRATRAALRYFRGVDHGGVIVNNASVLGWRAQHSQSHYAAAKAGVMALTRCSAIEAVEFGVRINAVSPSIEAFGRAAEPWEVAATIAFLASDYSSYMTGEVVSVSSQRA NLSEAPKEIDGHGLLKGKVVLVTAAAGTGIGSTTARRALLEGADVVISDYHERRLGETRDQLADLGLGRVEAVVCDVTSTEAVDALITQTVEKAGRLDVLVNNAGLGGQTPVVDMTDEEWDRVLNVTLTSVMRATRAALRYFRGVDHGGVIVNNASVLGWRAQHSQSHYAAAKAGVMALTRCSAIEAVEFGVRINAVSPSIARHDEAFGRAAEPWEVAATIAFLASDYSSYMTGEVVSVSSQRA 3o38-a1-m1-cC_3o38-a1-m1-cD Crystal structure of a short chain dehydrogenase from Mycobacterium smegmatis A0R4Z8 A0R4Z8 1.95 X-RAY DIFFRACTION 143 0.996 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 241 244 3o38-a1-m1-cB_3o38-a1-m1-cA MNLSEAPKEIDGHGLLKGKVVLVTAAAGTGIGSTTARRALLEGADVVISDYHERRLGETRDQLADLGLGRVEAVVCDVTSTEAVDALITQTVEKAGRLDVLVNNAGLGGQTPVVDMTDEEWDRVLNVTLTSVMRATRAALRYFRGVDHGGVIVNNASVLGWRAQHSQSHYAAAKAGVMALTRCSAIEAVEFGVRINAVSPSIEAFGRAAEPWEVAATIAFLASDYSSYMTGEVVSVSSQRA NLSEAPKEIDGHGLLKGKVVLVTAAAGTGIGSTTARRALLEGADVVISDYHERRLGETRDQLADLGLGRVEAVVCDVTSTEAVDALITQTVEKAGRLDVLVNNAGLGGQTPVVDMTDEEWDRVLNVTLTSVMRATRAALRYFRGVDHGGVIVNNASVLGWRAQHSQSHYAAAKAGVMALTRCSAIEAVEFGVRINAVSPSIARHDEAFGRAAEPWEVAATIAFLASDYSSYMTGEVVSVSSQRA 3o44-a2-m1-cJ_3o44-a2-m1-cK Crystal Structure of the Vibrio cholerae Cytolysin (HlyA) Heptameric Pore P09545 P09545 2.88 X-RAY DIFFRACTION 217 1.0 592313 (Vibrio cholerae 12129(1)) 592313 (Vibrio cholerae 12129(1)) 581 581 3o44-a1-m1-cA_3o44-a1-m1-cB 3o44-a1-m1-cA_3o44-a1-m1-cG 3o44-a1-m1-cB_3o44-a1-m1-cC 3o44-a1-m1-cC_3o44-a1-m1-cD 3o44-a1-m1-cD_3o44-a1-m1-cE 3o44-a1-m1-cE_3o44-a1-m1-cF 3o44-a1-m1-cF_3o44-a1-m1-cG 3o44-a2-m1-cH_3o44-a2-m1-cI 3o44-a2-m1-cH_3o44-a2-m1-cN 3o44-a2-m1-cI_3o44-a2-m1-cJ 3o44-a2-m1-cK_3o44-a2-m1-cL 3o44-a2-m1-cL_3o44-a2-m1-cM 3o44-a2-m1-cM_3o44-a2-m1-cN 7yl9-a1-m1-cH_7yl9-a1-m1-cI 7yl9-a1-m1-cH_7yl9-a1-m1-cN 7yl9-a1-m1-cI_7yl9-a1-m1-cJ 7yl9-a1-m1-cJ_7yl9-a1-m1-cK 7yl9-a1-m1-cK_7yl9-a1-m1-cL 7yl9-a1-m1-cL_7yl9-a1-m1-cM 7yl9-a1-m1-cM_7yl9-a1-m1-cN TNTLPHVAFYISVNRAISDEECTFNNSWLWKNEKGSRPFCKDANISLIYRVNLERSLQYGIVGSATPDAKIVRISLDDDSTGAGIHLNDQLGYRQFGASYTTLDAYFREWSTDAIAQDYRFVFNASNNKAQILKTFPVDNINEKFERKEVSGFELGVTGGVEVSGDGPKAKLEARASYTQSRWLTYNTQDYRIERNAKNAQAVSFTWNRQQYATAESLLNRSTDALWVNTYPVDVNRISPLSYASFVPKMDVIYKASATETGSTDFIIDSSVNIRPIYNGAYKHYYVVGAHQSYHGFEDTPRRRITKSASFTVDWDHPVFTGGRPVNLQLASFNNRCIQVDAQGRLTANMCDSQQSAQSFIYDQLGRYVSASNTKLCLDGAALDALQPCNQNLTQRWEWRKGTDELTNVYSGESLGHDKQTGELGLYASSNDAVSLRTITAYTDVFNAQESSPILGYTQGKMNQQRVGQDNRLYVRAGAAIDALGSASDLLVGGNGGSLSSVDLSGVKSITATSGDFQYGGQQLVALTFTYQDGRQQTVGSKAYVTNAHEDRFDLPDAAKITQLKIWADDWLVKGVQFDLN TNTLPHVAFYISVNRAISDEECTFNNSWLWKNEKGSRPFCKDANISLIYRVNLERSLQYGIVGSATPDAKIVRISLDDDSTGAGIHLNDQLGYRQFGASYTTLDAYFREWSTDAIAQDYRFVFNASNNKAQILKTFPVDNINEKFERKEVSGFELGVTGGVEVSGDGPKAKLEARASYTQSRWLTYNTQDYRIERNAKNAQAVSFTWNRQQYATAESLLNRSTDALWVNTYPVDVNRISPLSYASFVPKMDVIYKASATETGSTDFIIDSSVNIRPIYNGAYKHYYVVGAHQSYHGFEDTPRRRITKSASFTVDWDHPVFTGGRPVNLQLASFNNRCIQVDAQGRLTANMCDSQQSAQSFIYDQLGRYVSASNTKLCLDGAALDALQPCNQNLTQRWEWRKGTDELTNVYSGESLGHDKQTGELGLYASSNDAVSLRTITAYTDVFNAQESSPILGYTQGKMNQQRVGQDNRLYVRAGAAIDALGSASDLLVGGNGGSLSSVDLSGVKSITATSGDFQYGGQQLVALTFTYQDGRQQTVGSKAYVTNAHEDRFDLPDAAKITQLKIWADDWLVKGVQFDLN 3o46-a1-m2-cA_3o46-a1-m3-cA Crystal structure of the PDZ domain of MPP7 Q5T2T1 Q5T2T1 1.3 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 83 3o46-a1-m1-cA_3o46-a1-m2-cA 3o46-a1-m1-cA_3o46-a1-m3-cA SVKIIRLVKNREPLGATIKKDEQTGAIIVARIRGGAADRSGLIHVGDELREVNGIPVEDKRPEEIIQILAQSQGAITFKIIPG SVKIIRLVKNREPLGATIKKDEQTGAIIVARIRGGAADRSGLIHVGDELREVNGIPVEDKRPEEIIQILAQSQGAITFKIIPG 3o47-a2-m1-cB_3o47-a2-m3-cB Crystal structure of ARFGAP1-ARF1 fusion protein P84077 P84077 2.8 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 289 3o47-a1-m1-cA_3o47-a1-m2-cA MASPRTRKVLKEVRVQDENNVCFECGAFNPQWVSVTYGIWICLECSGRHRGLGVHLSFVRSVTMDKWKDIELEKMKAGGNAKFREFLESQEDYDPCWSLQEKYNSRAAALFRDKVVALAEGREWSLEWTPPKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDELRDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLSNQLR MASPRTRKVLKEVRVQDENNVCFECGAFNPQWVSVTYGIWICLECSGRHRGLGVHLSFVRSVTMDKWKDIELEKMKAGGNAKFREFLESQEDYDPCWSLQEKYNSRAAALFRDKVVALAEGREWSLEWTPPKEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDELRDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLSNQLR 3o4f-a4-m1-cH_3o4f-a4-m1-cG Crystal Structure of Spermidine Synthase from E. coli P09158 P09158 2.9 X-RAY DIFFRACTION 116 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 264 279 3o4f-a1-m1-cB_3o4f-a1-m1-cA 3o4f-a2-m1-cD_3o4f-a2-m1-cC 3o4f-a3-m1-cF_3o4f-a3-m1-cE KQWHETLHDQFGQYFAVDNVLYHEQDLIIFENAAFGRVMALDGVVQTTERDEFIYHEMMTHVPLLAHGHAKHVLIIGGGDGAMLREVTRHKNVESITMVEIDAGVVSFCRQYLPNHNAGSYDDPRFKLVIDDGVNFVNQTSQTFDVIISDCTSAFYEGCKRCLNPGGIFVAQNGVCFLQQEEAIDSHRKLSHYFSDVGFYQAAIPTYYGGIMTFAWATDNDALRHLSTEIIQARFLASGLKCRYYNPAIHTAAFALPQYLQDAL KQWHETLHDQFGQYFAVDNVLYHEQDLIIFENAAFGRVMALDGVVQTTERDEFIYHEMMTHVPLLAHGHAKHVLIIGGGDGAMLREVTRHKNVESITMVEIDAGVVSFCRQYLPNHNAGSYDDPRFKLVIDDGVNFVNQTSQTFDVIISDCTDPIGPGESLFTSAFYEGCKRCLNPGGIFVAQNGVCFLQQEEAIDSHRKLSHYFSDVGFYQAAIPTYYGGIMTFAWATDNDALRHLSTEIIQARFLASGLKCRYYNPAIHTAAFALPQYLQDALASQP 3o4j-a2-m1-cD_3o4j-a2-m1-cC Structure and Catalysis of Acylaminoacyl Peptidase Q9YBQ2 Q9YBQ2 2.5 X-RAY DIFFRACTION 85 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 576 579 2hu5-a1-m1-cA_2hu5-a1-m1-cB 2hu7-a1-m1-cA_2hu7-a1-m1-cB 2hu8-a1-m1-cB_2hu8-a1-m1-cA 2qr5-a1-m1-cA_2qr5-a1-m1-cB 3o4g-a1-m1-cB_3o4g-a1-m1-cA 3o4g-a2-m1-cC_3o4g-a2-m1-cD 3o4h-a1-m1-cB_3o4h-a1-m1-cA 3o4h-a2-m1-cD_3o4h-a2-m1-cC 3o4i-a1-m1-cA_3o4i-a1-m1-cB 3o4j-a1-m1-cB_3o4j-a1-m1-cA 4re5-a1-m1-cA_4re5-a1-m1-cB 4re6-a1-m1-cB_4re6-a1-m1-cA 4re6-a2-m1-cC_4re6-a2-m1-cD 4re6-a3-m1-cB_4re6-a3-m1-cA 4re6-a3-m2-cC_4re6-a3-m2-cD PVEFSRIVRDVERLIAVEKYSLQGVVDGDKLLVVGFSEGSVNAYLYDGGETVKLNREPINSVLDPHYGVGRVILVRDVSKGAEQHALFKVNTSRPGEEQRLEAVKPMRILSGVDTGEAVVFTGATEDRVALYALDGGGLRELARLPGFGFVSDIRGDLIAGLGFFGGGRVSLFTSNLSSGGLRVFDSGEGSFSSASISPGMKVTAGLETAREARLVTVDPRDGSVEDLELPSKDFSSYRPTAITWLGYLPDGRLAVVARREGRSAVFIDGERVEAPQGNHGRVVLWRGKLVTSHTSLSTPPRIVSLPSGEPLLEGGLPEDLRRSIAGSRLVWVESFDGSRVPTYVLESGRAPTPGPTVVLVHGGPFAEDSDSWDTFAASLAAAGFHVVMPNYRGSTGYGEEWRLKIIGDPCGGELEDVSAAARWARESGLASELYIMGYSYGGYMTLCALTMKPGLFKAGVAGASVVDWEEMYELSDAAFRNFIEQLTGGSREIMRSRSPINHVDRIKEPLALIHPQNNSRTPLKPLLRLMGELLARGKTFEAHIIPDAGHAINTMEDAVKILLPAVFFLATQRER IMPVEFSRIVRDVERLIAVEKYSLQGVVDGDKLLVVGFSEGSVNAYLYDGGETVKLNREPINSVLDPHYGVGRVILVRDVSKGAEQHALFKVNTSRPGEEQRLEAVKPMRILSGVDTGEAVVFTGATEDRVALYALDGGGLRELARLPGFGFVSDIRGDLIAGLGFFGGGRVSLFTSNLSSGGLRVFDSGEGSFSSASISPGMKVTAGLETAREARLVTVDPRDGSVEDLELPSKDFSSYRPTAITWLGYLPDGRLAVVARREGRSAVFIDGERVEAPQGNHGRVVLWRGKLVTSHTSLSTPPRIVSLPSGEPLLEGGLPEDLRRSIAGSRLVWVESFDGSRVPTYVLESGRAPTPGPTVVLVHGGPFAEDSDSWDTFAASLAAAGFHVVMPNYRGSTGYGEEWRLKIIGDPCGGELEDVSAAARWARESGLASELYIMGYSYGGYMTLCALTMKPGLFKAGVAGASVVDWEEMYELSDAAFRNFIEQLTGGSREIMRSRSPINHVDRIKEPLALIHPQNNSRTPLKPLLRLMGELLARGKTFEAHIIPDAGHAINTMEDAVKILLPAVFFLATQRERR 3o4r-a1-m1-cD_3o4r-a1-m1-cA Crystal Structure of Human Dehydrogenase/Reductase (SDR family) member 4 (DHRS4) Q9BTZ2 Q9BTZ2 1.7 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 254 3o4r-a1-m1-cB_3o4r-a1-m1-cC DPLANKVALVTASTDGIGFAIARRLAQDGAHVVVSSRKQQNVDQAVATLQGEGLSVTGTVCHVGKAEDRERLVATAVKLHGGIDILVSNAAVNPFFGSIMDVTEEVWDKTLDINVKAPALMTKAVVPEMEKRGGGSVVIVSSIAAFSPSPGFSPYNVSKTALLGLTKTLAIELAPRNIRVNCLAPGLIKTSFSRMLWMDKEKEESMKETLRIRRLGEPEDCAGIVSFLCSEDASYITGETVVVGGGTPSRL TRRDPLANKVALVTASTDGIGFAIARRLAQDGAHVVVSSRKQQNVDQAVATLQGEGLSVTGTVCHVGKAEDRERLVATAVKLHGGIDILVSNAAVNPFFGSIMDVTEEVWDKTLDINVKAPALMTKAVVPEMEKRGGGSVVIVSSIAAFSPSPGFSPYNVSKTALLGLTKTLAIELAPRNIRVNCLAPGLIKTSFSRMLWMDKEKEESMKETLRIRRLGEPEDCAGIVSFLCSEDASYITGETVVVGGGTPSRL 3o4r-a1-m1-cD_3o4r-a1-m1-cB Crystal Structure of Human Dehydrogenase/Reductase (SDR family) member 4 (DHRS4) Q9BTZ2 Q9BTZ2 1.7 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 252 3o4r-a1-m1-cC_3o4r-a1-m1-cA DPLANKVALVTASTDGIGFAIARRLAQDGAHVVVSSRKQQNVDQAVATLQGEGLSVTGTVCHVGKAEDRERLVATAVKLHGGIDILVSNAAVNPFFGSIMDVTEEVWDKTLDINVKAPALMTKAVVPEMEKRGGGSVVIVSSIAAFSPSPGFSPYNVSKTALLGLTKTLAIELAPRNIRVNCLAPGLIKTSFSRMLWMDKEKEESMKETLRIRRLGEPEDCAGIVSFLCSEDASYITGETVVVGGGTPSRL RDPLANKVALVTASTDGIGFAIARRLAQDGAHVVVSSRKQQNVDQAVATLQGEGLSVTGTVCHVGKAEDRERLVATAVKLHGGIDILVSNAAVNPFFGSIMDVTEEVWDKTLDINVKAPALMTKAVVPEMEKRGGGSVVIVSSIAAFSPSPGFSPYNVSKTALLGLTKTLAIELAPRNIRVNCLAPGLIKTSFSRMLWMDKEKEESMKETLRIRRLGEPEDCAGIVSFLCSEDASYITGETVVVGGGTPSRL 3o4r-a1-m1-cD_3o4r-a1-m1-cC Crystal Structure of Human Dehydrogenase/Reductase (SDR family) member 4 (DHRS4) Q9BTZ2 Q9BTZ2 1.7 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 253 3o4r-a1-m1-cB_3o4r-a1-m1-cA DPLANKVALVTASTDGIGFAIARRLAQDGAHVVVSSRKQQNVDQAVATLQGEGLSVTGTVCHVGKAEDRERLVATAVKLHGGIDILVSNAAVNPFFGSIMDVTEEVWDKTLDINVKAPALMTKAVVPEMEKRGGGSVVIVSSIAAFSPSPGFSPYNVSKTALLGLTKTLAIELAPRNIRVNCLAPGLIKTSFSRMLWMDKEKEESMKETLRIRRLGEPEDCAGIVSFLCSEDASYITGETVVVGGGTPSRL RRDPLANKVALVTASTDGIGFAIARRLAQDGAHVVVSSRKQQNVDQAVATLQGEGLSVTGTVCHVGKAEDRERLVATAVKLHGGIDILVSNAAVNPFFGSIMDVTEEVWDKTLDINVKAPALMTKAVVPEMEKRGGGSVVIVSSIAAFSPSPGFSPYNVSKTALLGLTKTLAIELAPRNIRVNCLAPGLIKTSFSRMLWMDKEKEESMKETLRIRRLGEPEDCAGIVSFLCSEDASYITGETVVVGGGTPSRL 3o4x-a2-m1-cC_3o4x-a2-m1-cB Crystal structure of complex between amino and carboxy terminal fragments of mDia1 O08808 O08808 3.2 X-RAY DIFFRACTION 202 0.997 10090 (Mus musculus) 10090 (Mus musculus) 311 318 3o4x-a1-m1-cA_3o4x-a1-m1-cD 3obv-a1-m1-cB_3obv-a1-m1-cA 3obv-a2-m1-cC_3obv-a2-m1-cD RSAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDEYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLHKNGTDPDFKCRHLQID RSAMMYIQELRSGLRDMHLLSCLESLRVSLNNNPVSWVQTFGAEGLASLLDILKRLHDKEETSGNYDSRNQHEIIRCLKAFMNNKFGIKTMLETEEGILLLVRAMDPAVPNMMIDAAKLLSALCILPQPEDMNERVLEAMTERAEMDEVERFQPLLDGLKSGTSIALKVGCLQLINALITPAEELDFRVHIRSELMRLGLHQVLQELREIENEDMKVQLCVFDEQGDEDFFDLKGRLDDIRMEMDDFGEVFQIILNTVKDSKAEPHFLSILQHLLLVRNDYEARPQYYKLIEECVSQIVLHKNGTDPDFKCRHLQIDI 3o4y-a1-m1-cA_3o4y-a1-m2-cA Crystal structure of CAD domain of the Plasmodium Vivax CDPK, PVX_11610 A5KBB4 A5KBB4 2.2 X-RAY DIFFRACTION 105 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 172 172 NLYFQGKIDIHVLENFKNYALMLRFQKLAMTIIAQQSNDYDVQKLKAAFLHLDKGNITKLQLRKGLERSGLMLPPNFDLLLDQIDSGNIDYTEFLAAAIDRRQLSKKLIYCAFRVFDVDNDGEITTAELAHVLFNNITERDVNQVKKMIREVDKNGDGKIDFYEFSEMMKLT NLYFQGKIDIHVLENFKNYALMLRFQKLAMTIIAQQSNDYDVQKLKAAFLHLDKGNITKLQLRKGLERSGLMLPPNFDLLLDQIDSGNIDYTEFLAAAIDRRQLSKKLIYCAFRVFDVDNDGEITTAELAHVLFNNITERDVNQVKKMIREVDKNGDGKIDFYEFSEMMKLT 3o4z-a6-m1-cB_3o4z-a6-m1-cD Tel2 structure and function in the Hsp90-dependent maturation of mTOR and ATR complexes P53038 P53038 3.1 X-RAY DIFFRACTION 104 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 572 572 3o4z-a5-m1-cA_3o4z-a5-m1-cC MVLETLKQGLDSSQIHEALIQLDSYPREPVDLDASMVLIKFVIPVYPSLPERSKVILRRLASKSFTFLCQIVTFSRTIGLQEIRIYQEILEDIISFEPGCLTFYLKASTTSKADRDSIKALFFGSKLFNVLANRIDMAKYLGYLRLQWKFLLESNETDPPGFLGEWLVSSFLLNPVLAADMLLGELFLLKESYFFSFQKIISASSLIDQKRLIAKFLLPYIQVIVTLENLNDVRKILRRFDLDKIISLSVLFEIQSLPLKEVIVRLMSNHSSTKFVSALVSKFADFTDEEVDTKTCELLVLFAVHNLNHSQREEIAHDERFLNGVTKHLGSNEREARERAMFIAKLLSGGHLKYESDFKINIPNVKSDDKIIDFQSLKREIVKRIVFLKDLMKEYEKSRKAPLIPLLKQTVKLIRQKAFQLEVGYYAQGILSSIVCLNNEFDEPLFEQWRINALTSILVVLPEKVNGAINILFNSELSLQQRMSLLSALGLSARELRGLDTQNRFRKYAGLFFYPLAHGWLNGIQLFKSHYLTTLRIIYSCANPVHDFESMTELMNHIISSAIEEGISLNKG MVLETLKQGLDSSQIHEALIQLDSYPREPVDLDASMVLIKFVIPVYPSLPERSKVILRRLASKSFTFLCQIVTFSRTIGLQEIRIYQEILEDIISFEPGCLTFYLKASTTSKADRDSIKALFFGSKLFNVLANRIDMAKYLGYLRLQWKFLLESNETDPPGFLGEWLVSSFLLNPVLAADMLLGELFLLKESYFFSFQKIISASSLIDQKRLIAKFLLPYIQVIVTLENLNDVRKILRRFDLDKIISLSVLFEIQSLPLKEVIVRLMSNHSSTKFVSALVSKFADFTDEEVDTKTCELLVLFAVHNLNHSQREEIAHDERFLNGVTKHLGSNEREARERAMFIAKLLSGGHLKYESDFKINIPNVKSDDKIIDFQSLKREIVKRIVFLKDLMKEYEKSRKAPLIPLLKQTVKLIRQKAFQLEVGYYAQGILSSIVCLNNEFDEPLFEQWRINALTSILVVLPEKVNGAINILFNSELSLQQRMSLLSALGLSARELRGLDTQNRFRKYAGLFFYPLAHGWLNGIQLFKSHYLTTLRIIYSCANPVHDFESMTELMNHIISSAIEEGISLNKG 3o53-a3-m2-cB_3o53-a3-m1-cA Crystal Structure of LRIM1 leucine-rich repeat domain Q7Q5N3 Q7Q5N3 2 X-RAY DIFFRACTION 38 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 314 316 EIKQNGNRYKIEKVTDSSLKQALASLRQSAWNVKELDLSGNPLSQISAADLAPFTKLELLNLSSNVLYETLDLESLSTLRTLDLNNNYVQELLVGPSIETLHAANNNISRVSCSRGQGKKNIYLANNKITMLRDLDEGCRSRVQYLDLKLNEIDTVNFAELAASSDTLEHLNLQYNFIYDVKGQVVFAKLKTLDLSSNKLAFMGPEFQSAAGVTWISLRNNKLVLIEKALRFSQNLEHFDLRGNGFHCGTLRDFFSKNQRVQTVAKQTVKKLTGQNEEECTVPTLGHYGAYCCEDLPAPFADRLIALGHHHHHH IHEIKQNGNRYKIEKVTDSSLKQALASLRQSAWNVKELDLSGNPLSQISAADLAPFTKLELLNLSSNVLYETLDLESLSTLRTLDLNNNYVQELLVGPSIETLHAANNNISRVSCSRGQGKKNIYLANNKITMLRDLDEGCRSRVQYLDLKLNEIDTVNFAELAASSDTLEHLNLQYNFIYDVKGQVVFAKLKTLDLSSNKLAFMGPEFQSAAGVTWISLRNNKLVLIEKALRFSQNLEHFDLRGNGFHCGTLRDFFSKNQRVQTVAKQTVKKLTGQNEEECTVPTLGHYGAYCCEDLPAPFADRLIALGHHHHHH 3o5b-a1-m1-cB_3o5b-a1-m1-cA Crystal structure of dimeric KlHxk1 in crystal form VII with glucose bound (open state) P33284 P33284 1.97 X-RAY DIFFRACTION 60 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 478 479 3o08-a1-m1-cA_3o08-a1-m1-cB 3o1b-a1-m1-cA_3o1b-a1-m2-cA 3o1w-a1-m1-cA_3o1w-a1-m1-cB 3o4w-a1-m1-cA_3o4w-a1-m1-cB 4jax-a1-m1-cA_4jax-a1-m1-cD 4jax-a2-m1-cB_4jax-a2-m1-cC 4jax-a3-m1-cF_4jax-a3-m1-cE KPPARKGSMADVPANLMEQIHGLETLFTVSSEKMRSIVKHFISELDKGLSKKGGNIPMIPGWVVEYPTGKETGDFLALDLGGTNLRVVLVKLGGNHDFDTTQNKYRLPDHLRTGTSEQLWSFIAKCLKEFVDEWYPDGVSEPLPLGFTFSYPASQKKINSGVLQRWTKGFDIEGVEGHDVVPMLQEQIEKLNIPINVVALINDTTGTLVASLYTDPQTKMGIIIGTGVNGAYYDVVSGIEKLEGLLPEDIGPDSPMAINCEYGSFDNEHLVLPRTKYDVIIDEESPRPGQQAFEKMTSGYYLGEIMRLVLLDLYDSGFIFKDQDISKLKEAYVMDTSYPSKIEDDPFENLEDTDDLFKTNLNIETTVVERKLIRKLAELVGTRAARLTVCGVSAICDKRGYKTAHIAADGSVFNRYPGYKEKAAQALKDIYNWDVEKMEDHPIQLVAAEDGSGVGAAIIACLTQKRLAAGKSVGIKGE KKPPARKGSMADVPANLMEQIHGLETLFTVSSEKMRSIVKHFISELDKGLSKKGGNIPMIPGWVVEYPTGKETGDFLALDLGGTNLRVVLVKLGGNHDFDTTQNKYRLPDHLRTGTSEQLWSFIAKCLKEFVDEWYPDGVSEPLPLGFTFSYPASQKKINSGVLQRWTKGFDIEGVEGHDVVPMLQEQIEKLNIPINVVALINDTTGTLVASLYTDPQTKMGIIIGTGVNGAYYDVVSGIEKLEGLLPEDIGPDSPMAINCEYGSFDNEHLVLPRTKYDVIIDEESPRPGQQAFEKMTSGYYLGEIMRLVLLDLYDSGFIFKDQDISKLKEAYVMDTSYPSKIEDDPFENLEDTDDLFKTNLNIETTVVERKLIRKLAELVGTRAARLTVCGVSAICDKRGYKTAHIAADGSVFNRYPGYKEKAAQALKDIYNWDVEKMEDHPIQLVAAEDGSGVGAAIIACLTQKRLAAGKSVGIKGE 3o5c-a2-m1-cC_3o5c-a2-m1-cD Cytochrome c Peroxidase BccP of Shewanella oneidensis Q8EF24 Q8EF24 1.8 X-RAY DIFFRACTION 91 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 304 307 3o5c-a1-m1-cB_3o5c-a1-m1-cA EPIEVITPAITEPEKVELGKMLFFEPRLSKSGFISCNSCHNLSTGGVDALPTSIGHHWQEGPINSPTVLNADFMLAQFWDGRASNLKEQAAGPIANPKEMGFTHELATETIASMPAYRARFAKVYGDEKVDIDRLTDAIAAFEKTLVTPNSPFDQYLLGKQDAISGDAKAGYQLFKDKGCVSCHNGPAVGGTMFMKMGLIKPFHTNNPAEGRKGVTGKDADKFVFKVPTLRNIELTYPYFHDGSVWTLEEAVNTMADIQLGQKLTEKETKEMVAFLNSLTGEQPQISLPILPPSNKETPRPVPF EPIEVITPAKITEPEKVELGKMLFFEPRLSKSGFISCNSCHNLSTGGVDALPTSIGHHWQEGPINSPTVLNADFMLAQFWDGRASNLKEQAAGPIANPKEMGFTHELATETIASMPAYRARFAKVYGDEKVDIDRLTDAIAAFEKTLVTPNSPFDQYLLGKQDAISGDAKAGYQLFKDKGCVSCHNGPAVGGTMFMKMGLIKPFHTNNPAEGRKGVTGKDADKFVFKVPTLRNIELTYPYFHDGSVWTLEEAVNTMADIQLGQKLTEKETKEMVAFLNSLTGEQPQISLPILPPSNKETPRPVPFAT 3o5v-a3-m1-cB_3o5v-a3-m1-cA The Crystal Structure of the Creatinase/Prolidase N-terminal domain of an X-PRO dipeptidase from Streptococcus pyogenes to 1.85A Q9A119 Q9A119 1.85 X-RAY DIFFRACTION 47 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 123 130 NAKLDQIRLYLDQKGAELAIFSDPVTINYLTGFFCDPHERQLFLFVYHDLAPVLFVPALEVARASQAISFPVFGYVDSENPWEKIKAVLPNTAAKTIYAEFDHLNVNKFHGLQTIFSGQFNNL SNAKLDQIRLYLDQKGAELAIFSDPVTINYLTGFFCDPHERQLFLFVYHDLAPVLFVPALEVARASQAISFPVFGYVDSENPWEKIKAVLPNTAAKTIYAEFDHLNVNKFHGLQTIFSGQFNNLTPYVQG 3o5y-a3-m1-cA_3o5y-a3-m1-cB The Crystal Structure of the GAF domain of a two-component sensor histidine kinase from Bacillus halodurans to 2.45A Q9KFE5 Q9KFE5 2.45 X-RAY DIFFRACTION 27 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 140 145 SLDDIINNIDKLKLLVHFDRISFLLLANETLKLSHVYPKGSHSLDIGSTIPKEQSLYWSALDQRQTIFRSLTDTQDNFYEKQYLAILDLKSILVIPIYSKNKRVGVLSIGRKQQIDWSLDDLAFLEQLTDHLAVSIENVE ASLDDIINNIDKLKLLVHFDRISFLLLANETLKLSHVYPKGSHSLDIGSTIPKEQSLYWSALDQRQTIFRSLTDTQDNFYEKQYLAILDLKSILVIPIYSKNKRVGVLSIGRKQQIDWSLDDLAFLEQLTDHLAVSIENVELYGQ 3o60-a1-m1-cA_3o60-a1-m1-cB The Crystal Structure of Lin0861 from Listeria innocua to 2.8A Q92DF2 Q92DF2 2.8 X-RAY DIFFRACTION 45 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 179 179 NYVKVHQPLNVDLRTQKTQTKLYTVLERFYVEDRTFESISIKDLCEQARVSRATFYRHHKEIIQVIEVQILRTQYFSLEFDQIILTKENIQRLILRTIQKNPLLFQVIFWSRAENIFIDVVSGEILRISLLKEVSFSDSKFPNCFARILSLAAEIQQSNKDYTNDQLVELIQEAARFLQ NYVKVHQPLNVDLRTQKTQTKLYTVLERFYVEDRTFESISIKDLCEQARVSRATFYRHHKEIIQVIEVQILRTQYFSLEFDQIILTKENIQRLILRTIQKNPLLFQVIFWSRAENIFIDVVSGEILRISLLKEVSFSDSKFPNCFARILSLAAEIQQSNKDYTNDQLVELIQEAARFLQ 3o63-a2-m1-cB_3o63-a2-m3-cB Crystal Structure of Thiamin Phosphate Synthase from Mycobacterium tuberculosis P9WG75 P9WG75 2.35 X-RAY DIFFRACTION 60 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 210 210 3o63-a1-m1-cA_3o63-a1-m2-cA MHESRLASARLYLCTDARRERGDLAQFAEAALAGGVDIIQLRDKGSPGELRFGPLQARDELAACEILADAAHRYGALFAVNDRADIARAAGADVLHLGQRDLPVNVARQILAPDTLIGRSTHDPDQVAAAAAGDADYFCVGPCWPAPGLGLVRVAAELDKPWFAIGGINAQRLPAVLDAGARRIVVVRAITSADDPRAAAEQLRSALTAA MHESRLASARLYLCTDARRERGDLAQFAEAALAGGVDIIQLRDKGSPGELRFGPLQARDELAACEILADAAHRYGALFAVNDRADIARAAGADVLHLGQRDLPVNVARQILAPDTLIGRSTHDPDQVAAAAAGDADYFCVGPCWPAPGLGLVRVAAELDKPWFAIGGINAQRLPAVLDAGARRIVVVRAITSADDPRAAAEQLRSALTAA 3o65-a7-m2-cC_3o65-a7-m3-cE Crystal structure of a Josephin-ubiquitin complex: Evolutionary restraints on ataxin-3 deubiquitinating activity Q9H3M9 Q9H3M9 2.7 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 182 3o65-a5-m1-cC_3o65-a5-m2-cE 3o65-a5-m2-cC_3o65-a5-m3-cE 3o65-a5-m3-cC_3o65-a5-m1-cE 3o65-a7-m1-cC_3o65-a7-m2-cE 3o65-a7-m3-cC_3o65-a7-m1-cE GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQII GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQIISVEE 3o65-a7-m3-cA_3o65-a7-m3-cE Crystal structure of a Josephin-ubiquitin complex: Evolutionary restraints on ataxin-3 deubiquitinating activity Q9H3M9 Q9H3M9 2.7 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 182 3o65-a5-m1-cA_3o65-a5-m1-cC 3o65-a5-m1-cA_3o65-a5-m1-cE 3o65-a5-m2-cA_3o65-a5-m2-cC 3o65-a5-m2-cA_3o65-a5-m2-cE 3o65-a5-m3-cA_3o65-a5-m3-cC 3o65-a5-m3-cA_3o65-a5-m3-cE 3o65-a6-m1-cA_3o65-a6-m1-cC 3o65-a6-m1-cA_3o65-a6-m1-cE 3o65-a7-m1-cA_3o65-a7-m1-cC 3o65-a7-m1-cA_3o65-a7-m1-cE 3o65-a7-m2-cA_3o65-a7-m2-cC 3o65-a7-m2-cA_3o65-a7-m2-cE 3o65-a7-m3-cA_3o65-a7-m3-cC GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQI GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQIISVEE 3o65-a7-m3-cC_3o65-a7-m3-cE Crystal structure of a Josephin-ubiquitin complex: Evolutionary restraints on ataxin-3 deubiquitinating activity Q9H3M9 Q9H3M9 2.7 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 182 3o65-a5-m1-cC_3o65-a5-m1-cE 3o65-a5-m1-cG_3o65-a5-m2-cG 3o65-a5-m1-cG_3o65-a5-m3-cG 3o65-a5-m2-cC_3o65-a5-m2-cE 3o65-a5-m2-cG_3o65-a5-m3-cG 3o65-a5-m3-cC_3o65-a5-m3-cE 3o65-a6-m1-cC_3o65-a6-m1-cE 3o65-a7-m1-cC_3o65-a7-m1-cE 3o65-a7-m1-cG_3o65-a7-m2-cG 3o65-a7-m1-cG_3o65-a7-m3-cG 3o65-a7-m2-cC_3o65-a7-m2-cE 3o65-a7-m2-cG_3o65-a7-m3-cG GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQII GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQIISVEE 3o65-a7-m3-cG_3o65-a7-m1-cE Crystal structure of a Josephin-ubiquitin complex: Evolutionary restraints on ataxin-3 deubiquitinating activity Q9H3M9 Q9H3M9 2.7 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 182 3o65-a5-m1-cA_3o65-a5-m2-cA 3o65-a5-m1-cA_3o65-a5-m3-cA 3o65-a5-m1-cG_3o65-a5-m2-cE 3o65-a5-m2-cA_3o65-a5-m3-cA 3o65-a5-m2-cG_3o65-a5-m3-cE 3o65-a5-m3-cG_3o65-a5-m1-cE 3o65-a7-m1-cA_3o65-a7-m2-cA 3o65-a7-m1-cA_3o65-a7-m3-cA 3o65-a7-m1-cG_3o65-a7-m2-cE 3o65-a7-m2-cA_3o65-a7-m3-cA 3o65-a7-m2-cG_3o65-a7-m3-cE GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQI GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQIISVEE 3o65-a7-m3-cG_3o65-a7-m3-cC Crystal structure of a Josephin-ubiquitin complex: Evolutionary restraints on ataxin-3 deubiquitinating activity Q9H3M9 Q9H3M9 2.7 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 178 3o65-a5-m1-cG_3o65-a5-m1-cC 3o65-a5-m2-cG_3o65-a5-m2-cC 3o65-a5-m3-cG_3o65-a5-m3-cC 3o65-a7-m1-cG_3o65-a7-m1-cC 3o65-a7-m2-cG_3o65-a7-m2-cC GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQI GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQII 3o65-a7-m3-cG_3o65-a7-m3-cE Crystal structure of a Josephin-ubiquitin complex: Evolutionary restraints on ataxin-3 deubiquitinating activity Q9H3M9 Q9H3M9 2.7 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 182 3o65-a5-m1-cA_3o65-a5-m3-cC 3o65-a5-m1-cG_3o65-a5-m1-cE 3o65-a5-m2-cA_3o65-a5-m1-cC 3o65-a5-m2-cG_3o65-a5-m2-cE 3o65-a5-m3-cA_3o65-a5-m2-cC 3o65-a5-m3-cG_3o65-a5-m3-cE 3o65-a7-m1-cA_3o65-a7-m3-cC 3o65-a7-m1-cG_3o65-a7-m1-cE 3o65-a7-m2-cA_3o65-a7-m1-cC 3o65-a7-m2-cG_3o65-a7-m2-cE 3o65-a7-m3-cA_3o65-a7-m2-cC GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQI GDFIFHEKQEGFLCAQHCLNNLLQGEYFSPVELASIAHQLDEEERRAEGGVTSEEYLAFLQQPSENDDTGFFSIQVISNALKFWGLEIIHFNNPEYQKLGIDPINERSFICNYKQHWFTIRKFGKHWFNLNSLLAGPELISDTCLANFLARLQQQAYSVFVVKGDLPDCEADQLLQIISVEE 3o6c-a1-m1-cA_3o6c-a1-m2-cA Pyridoxal phosphate biosynthetic protein PdxJ from Campylobacter jejuni Q9PN59 Q9PN59 1.87 X-RAY DIFFRACTION 101 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 256 256 3o6d-a1-m1-cA_3o6d-a1-m2-cA NALLGVNIDHIAVLRQARVNDPDLLEAAFIVARHGDQITLHVREDRRHAQDFDLENIIKFCKSPVNLECALNDEILNLALKLKPHRVTLVPEKREELTTEGGLCLNHAKLKQSIEKLQNANIEVSLFINPSLEDIEKSKILKAQFIELHTGHYANLHNALFSNISHTAFALKELDQDKKTLQAQFEKELQNLELCAKKGLELGLKVAAGHGLNYKNVKPVVKIKEICELNIGQSIVARSVFTGLQNAILEKELIKR NALLGVNIDHIAVLRQARVNDPDLLEAAFIVARHGDQITLHVREDRRHAQDFDLENIIKFCKSPVNLECALNDEILNLALKLKPHRVTLVPEKREELTTEGGLCLNHAKLKQSIEKLQNANIEVSLFINPSLEDIEKSKILKAQFIELHTGHYANLHNALFSNISHTAFALKELDQDKKTLQAQFEKELQNLELCAKKGLELGLKVAAGHGLNYKNVKPVVKIKEICELNIGQSIVARSVFTGLQNAILEKELIKR 3o6q-a1-m1-cC_3o6q-a1-m1-cA The Structure of SpoIISA and SpoIISB, a Toxin - Antitoxin System O34853 O34853 2.5 X-RAY DIFFRACTION 64 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 140 141 DTREILEENNELHYLNRLKTYQYLLKNEPIHVYYGSIDAYAEGIDKLLKTYADKNLTASLCHYSTQADKDRLTEHDDPADVQTRLDRKDVYYDQYGKVVLIPFTIETQNYVIKLTSDSIVTEFDYLLFTSLTSIYDLVLP TDTREILEENNELHYLNRLKTYQYLLKNEPIHVYYGSIDAYAEGIDKLLKTYADKNLTASLCHYSTQADKDRLTEHDDPADVQTRLDRKDVYYDQYGKVVLIPFTIETQNYVIKLTSDSIVTEFDYLLFTSLTSIYDLVLP 3o6r-a1-m1-cA_3o6r-a1-m1-cB Crystal Structure of 4-Chlorocatechol Dioxygenase from Rhodococcus opacus 1CP in complex with pyrogallol O67987 O67987 2.6 X-RAY DIFFRACTION 112 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 256 256 1s9a-a1-m1-cA_1s9a-a1-m1-cB 3o32-a1-m1-cB_3o32-a1-m1-cA 3o5u-a1-m1-cA_3o5u-a1-m1-cB 3o6j-a1-m1-cA_3o6j-a1-m1-cB ANTRVIELFDEFTDLIRDFIVRHEITTPEYETIMQYMISVGEAGEWPLWLDAFFETTVDSVSYGKGNWTSSAIQGPFFKEGAPLLTGKPATLPMRADEPGDRMRFTGSVRDTSGTPITGAVIDVWHSTNDGNYSFFSPALPDQYLLRGRVVPAEDGSIEFHSIRPVPYEIPKAGPTGQLMNSYLGRHSWRPAHIHIRITADGYRPLITQLYFEGDPYLDSDSCSAVKSELVLPVNKIDIDGETWQLVDFNFILQHN ANTRVIELFDEFTDLIRDFIVRHEITTPEYETIMQYMISVGEAGEWPLWLDAFFETTVDSVSYGKGNWTSSAIQGPFFKEGAPLLTGKPATLPMRADEPGDRMRFTGSVRDTSGTPITGAVIDVWHSTNDGNYSFFSPALPDQYLLRGRVVPAEDGSIEFHSIRPVPYEIPKAGPTGQLMNSYLGRHSWRPAHIHIRITADGYRPLITQLYFEGDPYLDSDSCSAVKSELVLPVNKIDIDGETWQLVDFNFILQHN 3o6x-a1-m1-cE_3o6x-a1-m1-cF Crystal Structure of the type III Glutamine Synthetase from Bacteroides fragilis Q5LGP1 Q5LGP1 3.5 X-RAY DIFFRACTION 116 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 638 638 3o6x-a1-m1-cA_3o6x-a1-m1-cB 3o6x-a1-m1-cA_3o6x-a1-m1-cF 3o6x-a1-m1-cB_3o6x-a1-m1-cC 3o6x-a1-m1-cC_3o6x-a1-m1-cD 3o6x-a1-m1-cD_3o6x-a1-m1-cE KMRFFALQELSNRKPLEITTPSNKLSDYYASHVFDRKKMQEYLPKEAYKAVVDATEKGTPISREMADLIANGMKSWAKSLNVTHYTHWFQPLTKHDGFIEFGEDGEVIERFSGKLLTAWDGSSPAFVVDTTLCIPTIFIEALDYKTPLLKALAAVDKAATEVCQLFDKNITRVFTNLGWEQEYFLVDTSLYNARPDLRLTGRTLMGHSIPPRVTAFMKELEIECHKLGIPVKTRHNEVAPNQFELAPIFENCNLANDHNQLVMDLMKRIARKHHFAVLFHEKPYNGVNGSGKHNNWSLCTDTGINLFAPGKNPKGNMLFLTFLVNVLMMVHKNQDLLRASIMSAGNSHRLGANEAPPAILSIFLGSQLSATLDEIRNRTSPFAFTGNRFEFRAAGSSANCAAAMIAINAAMANQLNEFKASVDKDEAIFRILKENIIASELIRFEGDGYSEEWKQEAARRGLTNICHVPEALMHYMDNQSRAVLIGERIFNETELACRLEVELEKYTMKVQIESRVLGDLAINHIVPIAVSYQNRLLENLCRMKEIFSEEEYEVMSADRKELIKEISHRVSAIKVLVRDMTEARKVANHKENFKEKAFAYEETVRPYLESIRDHIDHLEMEIDDEIWPLPKYRELLFT KMRFFALQELSNRKPLEITTPSNKLSDYYASHVFDRKKMQEYLPKEAYKAVVDATEKGTPISREMADLIANGMKSWAKSLNVTHYTHWFQPLTKHDGFIEFGEDGEVIERFSGKLLTAWDGSSPAFVVDTTLCIPTIFIEALDYKTPLLKALAAVDKAATEVCQLFDKNITRVFTNLGWEQEYFLVDTSLYNARPDLRLTGRTLMGHSIPPRVTAFMKELEIECHKLGIPVKTRHNEVAPNQFELAPIFENCNLANDHNQLVMDLMKRIARKHHFAVLFHEKPYNGVNGSGKHNNWSLCTDTGINLFAPGKNPKGNMLFLTFLVNVLMMVHKNQDLLRASIMSAGNSHRLGANEAPPAILSIFLGSQLSATLDEIRNRTSPFAFTGNRFEFRAAGSSANCAAAMIAINAAMANQLNEFKASVDKDEAIFRILKENIIASELIRFEGDGYSEEWKQEAARRGLTNICHVPEALMHYMDNQSRAVLIGERIFNETELACRLEVELEKYTMKVQIESRVLGDLAINHIVPIAVSYQNRLLENLCRMKEIFSEEEYEVMSADRKELIKEISHRVSAIKVLVRDMTEARKVANHKENFKEKAFAYEETVRPYLESIRDHIDHLEMEIDDEIWPLPKYRELLFT 3o70-a2-m1-cA_3o70-a2-m2-cA PHD-type zinc finger of human PHD finger protein 13 Q86YI8 Q86YI8 1.85 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 LYFQGLVTCFCMKPFAGRPMIECNECHTWIHLSCAKIRKSNVPEVFVCQKCRDSK LYFQGLVTCFCMKPFAGRPMIECNECHTWIHLSCAKIRKSNVPEVFVCQKCRDSK 3o72-a2-m1-cC_3o72-a2-m1-cD Crystal structure of EfeB in complex with heme Q8XAS4 Q8XAS4 1.95 X-RAY DIFFRACTION 137 1.0 544404 (Escherichia coli O157:H7 str. TW14359) 544404 (Escherichia coli O157:H7 str. TW14359) 367 367 2y4d-a1-m1-cA_2y4d-a1-m1-cB 2y4e-a1-m1-cA_2y4e-a1-m1-cB 2y4f-a1-m1-cA_2y4f-a1-m1-cB 3o72-a1-m1-cA_3o72-a1-m1-cB VARNEKQPFYGEHQAGILTPQQAALVAFDVLASDKADLERLFRLLTQRFAFLTQGGAAPETPNPRLPPLDSGILGGYIAPDNLTITLSVGHSLFDERFGLAPQPKKLQKTRFPNDSLDAALCHGDVLLQICANTQDTVIHALRDIIKHTPDLLSVRWKREGFISDHAARSKGKETPINLLGFKDGTANPDSQNDKLQKVVWVTADQQEPAWTIGGSYQAVRLIQFRVEFWDRTPLKEQQTIFGRDKQTGAPLGQHEHDVPDYASDPEGKGIALDSHIRLANPRTAESESSLLRRGYSYSLGVTNSGQLDGLLFVCYQHDLEKGFLTVQKRLNGEALEEYVKPIGGGYFFALPGVKDANDYLGSALLR VARNEKQPFYGEHQAGILTPQQAALVAFDVLASDKADLERLFRLLTQRFAFLTQGGAAPETPNPRLPPLDSGILGGYIAPDNLTITLSVGHSLFDERFGLAPQPKKLQKTRFPNDSLDAALCHGDVLLQICANTQDTVIHALRDIIKHTPDLLSVRWKREGFISDHAARSKGKETPINLLGFKDGTANPDSQNDKLQKVVWVTADQQEPAWTIGGSYQAVRLIQFRVEFWDRTPLKEQQTIFGRDKQTGAPLGQHEHDVPDYASDPEGKGIALDSHIRLANPRTAESESSLLRRGYSYSLGVTNSGQLDGLLFVCYQHDLEKGFLTVQKRLNGEALEEYVKPIGGGYFFALPGVKDANDYLGSALLR 3o74-a1-m1-cA_3o74-a1-m1-cB Crystal structure of Cra transcriptional dual regulator from Pseudomonas putida Q88PQ6 Q88PQ6 2 X-RAY DIFFRACTION 97 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 268 269 3o75-a1-m1-cA_3o75-a1-m1-cB HTRTLGFILPDLENPSYARIAKQLEQGARARGYQLLIASSDDQPDSERQLQQLFRARRCDALFVASCLPPEDDSYRELQDKGLPVIAIDRRLDPAHFCSVISDDRDASRQLAASLLSSAPRSIALIGARPELSVSQARAGGFDEALQGYTGEVRRYQGEAFSRECGQRLQQLIDDLGGLPDALVTTSYVLLQGVFDTLQARPVDSRQLQLGTFGDNQLLDFLPLPVNAAQQHGQIAATALELALAAIEEKRYEPGVHAVGRTFKQRIS HTRTLGFILPDLENPSYARIAKQLEQGARARGYQLLIASSDDQPDSERQLQQLFRARRCDALFVASCLPPEDDSYRELQDKGLPVIAIDRRLDPAHFCSVISDDRDASRQLAASLLSSAPRSIALIGARPELSVSQARAGGFDEALQGYTGEVRRYQGEAFSRECGQRLQQLIDDLGGLPDALVTTSYVLLQGVFDTLQARPVDSRQLQLGTFGDNQLLDFLPLPVNAAQQHGQIAATALELALAAIEEKRYEPGVHAVGRTFKQRISV 3o7b-a1-m1-cA_3o7b-a1-m2-cA Crystal structure of Archaeoglobus Fulgidus Nep1 bound to S-adenosylhomocysteine O29524 O29524 1.45 X-RAY DIFFRACTION 67 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 216 216 MGSAFVFLEASLELIPQKIRGHPAVRADAIRRGKRPEKILLDDSKHHTAMKSLEFREKRGRPDIVHQCLLLLLDSPLRDFEVYVHTLNGEIIWVNRETRLPRNYNRFVGLMEKLFEERRITAGDTTLIEFKDVGLRDIVRGRDVLLFREKGGRFEFSELLDGDVAVCIGAFPHGDFFEETLRELGEFKEVSLGTESYTSLYVTSRVLCEYERVRAH MGSAFVFLEASLELIPQKIRGHPAVRADAIRRGKRPEKILLDDSKHHTAMKSLEFREKRGRPDIVHQCLLLLLDSPLRDFEVYVHTLNGEIIWVNRETRLPRNYNRFVGLMEKLFEERRITAGDTTLIEFKDVGLRDIVRGRDVLLFREKGGRFEFSELLDGDVAVCIGAFPHGDFFEETLRELGEFKEVSLGTESYTSLYVTSRVLCEYERVRAH 3o7m-a1-m1-cC_3o7m-a1-m1-cD 1.98 Angstrom resolution crystal structure of a hypoxanthine-guanine phosphoribosyltransferase (hpt-2) from Bacillus anthracis str. 'Ames Ancestor' A0A6L8PVA4 A0A6L8PVA4 1.98 X-RAY DIFFRACTION 27 0.994 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 164 164 3o7m-a1-m1-cA_3o7m-a1-m1-cB IEIKDTLISEEQLQEKVKELALQIERDFEGEEIVVIAVLKGSFVFAADLIRHIKNDVTIDFISASSYGKVKLLKDIDVNITGKNVIVVEDIIDSGLTLHFLKDHFFMHKPKALKFCTLLDKPERRKVDLTAEYVGFQIPDEFIVGYGIDCAEKYRNLPFIASVV NIEIKDTLISEEQLQEKVKELALQIERDFEGEEIVVIAVLKGSFVFAADLIRHIKNDVTIDFISASSYKVKLLKDIDVNITGKNVIVVEDIIDSGLTLHFLKDHFFMHKPKALKFCTLLDKPERRKVDLTAEYVGFQIPDEFIVGYGIDCAEKYRNLPFIASVV 3o7v-a1-m1-cX_3o7v-a1-m2-cX Crystal Structure of human Hiwi1 (V361M) PAZ domain (residues 277-399) in complex with 14-mer RNA (12-bp + 2-nt overhang) containing 2'-OCH3 at its 3'-end Q96J94 Q96J94 2.1 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 3o3i-a1-m1-cX_3o3i-a1-m2-cX 3o6e-a1-m1-cX_3o6e-a1-m2-cX ETVLDFFNFYHQTEEHKFQEQVSKELIGLVVLTKYNNKTYRVDDIDWDQNPKSTFKKADGSEVSFLEYYRKQYNQEITDLKQPLVSQPKGPALIPELCYLTGLT ETVLDFFNFYHQTEEHKFQEQVSKELIGLVVLTKYNNKTYRVDDIDWDQNPKSTFKKADGSEVSFLEYYRKQYNQEITDLKQPLVSQPKGPALIPELCYLTGLT 3o7x-a3-m1-cD_3o7x-a3-m3-cD Crystal structure of human Hili PAZ domain Q8TC59 Q8TC59 2.9248 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 3o7x-a1-m1-cA_3o7x-a1-m2-cA 3o7x-a2-m1-cB_3o7x-a2-m1-cC 3qir-a1-m1-cA_3qir-a1-m2-cA 3qir-a2-m1-cB_3qir-a2-m1-cC 3qir-a3-m1-cD_3qir-a3-m3-cD DCVLDVMHAIYQQNKEHFQDECTKLLVGNIVITRYNNRTYRIDDVDWNKTPKDSFTMSDGKEITFLEYYSKNYGITVKEEDQPLLIHRPSERQDLLKGEILLLPELSFMT DCVLDVMHAIYQQNKEHFQDECTKLLVGNIVITRYNNRTYRIDDVDWNKTPKDSFTMSDGKEITFLEYYSKNYGITVKEEDQPLLIHRPSERQDLLKGEILLLPELSFMT 3o81-a3-m1-cA_3o81-a3-m1-cB Beta2-microglobulin from Gallus gallus P21611 P21611 2 X-RAY DIFFRACTION 11 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 97 97 ADLTPKVQVYSRFPASAGTKNVLNCFAAGFHPPKISITLMKDGVPMEGAQYSDMSFNDDWTFQRLVHADFTPSSGSTYACKVEHETLKEPQVYKWDP ADLTPKVQVYSRFPASAGTKNVLNCFAAGFHPPKISITLMKDGVPMEGAQYSDMSFNDDWTFQRLVHADFTPSSGSTYACKVEHETLKEPQVYKWDP 3o8j-a5-m1-cI_3o8j-a5-m1-cJ Crystal structure of 2-methylcitrate synthase (PrpC) from Salmonella typhimurium Q56063 Q56063 2.41 X-RAY DIFFRACTION 301 0.994 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 362 362 3o8j-a1-m1-cA_3o8j-a1-m1-cB 3o8j-a2-m1-cD_3o8j-a2-m1-cC 3o8j-a3-m1-cE_3o8j-a3-m1-cF 3o8j-a4-m1-cH_3o8j-a4-m1-cG GNTALCTVGKSGNDLHYRGYDILDLAEHCEFEEVAHLLIHGKLPTRDELNAYKSKLKALRGLPANVRTVLEALPAASHPMDVMRTGVSALGCTLPEKEGHTVSGARDIADKLLASLSSILLYWYHYSHNGERIQPETDDDSIGGHFLHLLHGEKPTQSWEKAMHISLVLYAEHEFNASTFTSRVIAGTGSDVYSAIIGAIGALRGPKHGGANEVSLEIQQRYETPDEAEADIRKRVENKEVVIGFGHPVYTIADPRHQVIKRVAKQLSEEGGSLKMYHIADRLETVMWETKKMFPNLDWFSAVSYNMMGVPTEMFTPLFVIARVTGWAAHIIEQRQDNKIIRPSANYTGPEDRPFVSIDDRC PAGNTALCTVGKSGNDLHYRGYDILDLAEHCEFEEVAHLLIHGKLPTRDELNAYKSKLKALRGLPANVRTVLEALPAASHPMDVMRTGVSALGCTLPEKEGHTVSGARDIADKLLASLSSILLYWYHYSHNGERIQPETDDDSIGGHFLHLLHGEKPTQSWEKAMHISLVLYAEHEFNASTFTSRVIAGTGSDVYSAIIGAIGALRGPKHGGANEVSLEIQQRYETPDEAEADIRKRVENKEVVIGFGHPVYTIADPRHQVIKRVAKQLSEEGGSLKMYHIADRLETVMWETKKMFPNLDWFSAVSYNMMGVPTEMFTPLFVIARVTGWAAHIIEQRQDNKIISANYTGPEDRPFVSIDDRC 3o8s-a1-m1-cA_3o8s-a1-m2-cA Crystal structure of an ADP-ribose pyrophosphatase (SSU98_1448) from STREPTOCOCCUS SUIS 89-1591 at 2.27 A resolution 2.27 X-RAY DIFFRACTION 83 1.0 286604 (Streptococcus suis 89/1591) 286604 (Streptococcus suis 89/1591) 134 134 TPKLDTRAAIFQEDKILLVQENDGLWSLPGGWCDVDQSVKDNVVKEVKEEAGLDVEAQRVVAILDKHKNNPRVTKVFILCRLLGGEFQPNSETVASGFFSLDDLPPLYLGKNTAEQLALCLEASRSEHWETRFD TPKLDTRAAIFQEDKILLVQENDGLWSLPGGWCDVDQSVKDNVVKEVKEEAGLDVEAQRVVAILDKHKNNPRVTKVFILCRLLGGEFQPNSETVASGFFSLDDLPPLYLGKNTAEQLALCLEASRSEHWETRFD 3o8z-a2-m1-cA_3o8z-a2-m2-cA Crystal structure of Spn1 (Iws1) core domain Q06505 Q06505 2.15 X-RAY DIFFRACTION 27 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 152 152 DPFTDDLEQYLDEKILRLKDEMNIAAQLDIDTLNKRIETGDTSLIAMQKVKLLPKVVSVLSKANLADTILDNNLLQSVRIWLEPLPDGSLPSFEIQKSLFAALNDLPVKTEHLKESGLGRVVIFYTKSKRVEAQLARLAEKLIAEWTRPIIG DPFTDDLEQYLDEKILRLKDEMNIAAQLDIDTLNKRIETGDTSLIAMQKVKLLPKVVSVLSKANLADTILDNNLLQSVRIWLEPLPDGSLPSFEIQKSLFAALNDLPVKTEHLKESGLGRVVIFYTKSKRVEAQLARLAEKLIAEWTRPIIG 3o94-a1-m1-cB_3o94-a1-m1-cC High resolution crystal structures of Streptococcus pneumoniae nicotinamidase with trapped intermediates provide insights into catalytic mechanism and inhibition by aldehydes A0A0H2UR34 A0A0H2UR34 1.6 X-RAY DIFFRACTION 48 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 190 190 3o90-a1-m1-cA_3o90-a1-m1-cD 3o90-a1-m1-cC_3o90-a1-m1-cB 3o91-a1-m1-cA_3o91-a1-m1-cD 3o91-a1-m1-cC_3o91-a1-m1-cB 3o92-a1-m1-cA_3o92-a1-m1-cD 3o92-a1-m1-cC_3o92-a1-m1-cB 3o93-a1-m1-cC_3o93-a1-m1-cB 3o93-a1-m1-cD_3o93-a1-m1-cA 3o94-a1-m1-cA_3o94-a1-m1-cD MTKALISIDYTEDFVADSGKLTAGAPAQAISDAISKVTRLAFERGDYIFFTIDAHEENDCFHPESKLFPPHNLIGTSGRNLYGDLGIFYQEHGSDSRVFWMDKRHYSAFSGTDLDIRLRERRVSTVILTGVLTDISVLHTAIDAYNLGYDIEIVKPAVASIWPENHQFALGHFKNTLGAKLVDENLNELF MTKALISIDYTEDFVADSGKLTAGAPAQAISDAISKVTRLAFERGDYIFFTIDAHEENDCFHPESKLFPPHNLIGTSGRNLYGDLGIFYQEHGSDSRVFWMDKRHYSAFSGTDLDIRLRERRVSTVILTGVLTDISVLHTAIDAYNLGYDIEIVKPAVASIWPENHQFALGHFKNTLGAKLVDENLNELF 3o94-a1-m1-cB_3o94-a1-m1-cD High resolution crystal structures of Streptococcus pneumoniae nicotinamidase with trapped intermediates provide insights into catalytic mechanism and inhibition by aldehydes A0A0H2UR34 A0A0H2UR34 1.6 X-RAY DIFFRACTION 12 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 190 190 3o90-a1-m1-cC_3o90-a1-m1-cA 3o90-a1-m1-cD_3o90-a1-m1-cB 3o91-a1-m1-cB_3o91-a1-m1-cD 3o91-a1-m1-cC_3o91-a1-m1-cA 3o92-a1-m1-cB_3o92-a1-m1-cD 3o92-a1-m1-cC_3o92-a1-m1-cA 3o93-a1-m1-cC_3o93-a1-m1-cA 3o93-a1-m1-cD_3o93-a1-m1-cB 3o94-a1-m1-cA_3o94-a1-m1-cC MTKALISIDYTEDFVADSGKLTAGAPAQAISDAISKVTRLAFERGDYIFFTIDAHEENDCFHPESKLFPPHNLIGTSGRNLYGDLGIFYQEHGSDSRVFWMDKRHYSAFSGTDLDIRLRERRVSTVILTGVLTDISVLHTAIDAYNLGYDIEIVKPAVASIWPENHQFALGHFKNTLGAKLVDENLNELF MTKALISIDYTEDFVADSGKLTAGAPAQAISDAISKVTRLAFERGDYIFFTIDAHEENDCFHPESKLFPPHNLIGTSGRNLYGDLGIFYQEHGSDSRVFWMDKRHYSAFSGTDLDIRLRERRVSTVILTGVLTDISVLHTAIDAYNLGYDIEIVKPAVASIWPENHQFALGHFKNTLGAKLVDENLNELF 3o94-a1-m1-cC_3o94-a1-m1-cD High resolution crystal structures of Streptococcus pneumoniae nicotinamidase with trapped intermediates provide insights into catalytic mechanism and inhibition by aldehydes A0A0H2UR34 A0A0H2UR34 1.6 X-RAY DIFFRACTION 33 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 190 190 3o90-a1-m1-cA_3o90-a1-m1-cB 3o90-a1-m1-cC_3o90-a1-m1-cD 3o91-a1-m1-cA_3o91-a1-m1-cB 3o91-a1-m1-cC_3o91-a1-m1-cD 3o92-a1-m1-cA_3o92-a1-m1-cB 3o92-a1-m1-cC_3o92-a1-m1-cD 3o93-a1-m1-cB_3o93-a1-m1-cA 3o93-a1-m1-cD_3o93-a1-m1-cC 3o94-a1-m1-cA_3o94-a1-m1-cB MTKALISIDYTEDFVADSGKLTAGAPAQAISDAISKVTRLAFERGDYIFFTIDAHEENDCFHPESKLFPPHNLIGTSGRNLYGDLGIFYQEHGSDSRVFWMDKRHYSAFSGTDLDIRLRERRVSTVILTGVLTDISVLHTAIDAYNLGYDIEIVKPAVASIWPENHQFALGHFKNTLGAKLVDENLNELF MTKALISIDYTEDFVADSGKLTAGAPAQAISDAISKVTRLAFERGDYIFFTIDAHEENDCFHPESKLFPPHNLIGTSGRNLYGDLGIFYQEHGSDSRVFWMDKRHYSAFSGTDLDIRLRERRVSTVILTGVLTDISVLHTAIDAYNLGYDIEIVKPAVASIWPENHQFALGHFKNTLGAKLVDENLNELF 3o9o-a1-m1-cA_3o9o-a1-m1-cB Crystal Structure of GBS1074, an Esat-6 homologue from Group B Streptococcus Q8E5F8 Q8E5F8 2 X-RAY DIFFRACTION 89 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 92 96 3gvm-a2-m1-cD_3gvm-a2-m1-cC 3gwk-a1-m1-cE_3gwk-a1-m1-cC IKLTPEELRSSAQKYTAGSQQVTEVLNLLTQEQAVIDENWDGSTFDSFEAQFNELSPKITEFAQLLEDINQQLLKVADIIEQTDADIASQIS SMAQIKLTPEELRSSAQKYTAGSQQVTEVLNLLTQEQAVIDENWDGSTFDSFEAQFNELSPKITEFAQLLEDINQQLLKVADIIEQTDADIASQIS 3o9p-a2-m2-cA_3o9p-a2-m6-cA The structure of the Escherichia coli murein tripeptide binding protein MppA P77348 P77348 2.07 X-RAY DIFFRACTION 34 1.0 562 (Escherichia coli) 562 (Escherichia coli) 509 509 3o9p-a2-m1-cA_3o9p-a2-m5-cA 3o9p-a2-m1-cA_3o9p-a2-m6-cA 3o9p-a2-m2-cA_3o9p-a2-m4-cA 3o9p-a2-m3-cA_3o9p-a2-m4-cA 3o9p-a2-m3-cA_3o9p-a2-m5-cA TVLAEKQELVRHIKDEPASLDPAKAVGLPEIQVIRDLFEGLVNQNEKGEIVPGVATQWKSNDNRIWTFTLRDNAKWADGTPVTAQDFVYSWQRLVDPKTLSPFAWFAALAGINNAQAIIDGKATPDQLGVTAVDAHTLKIQLDKPLPWFVNLTANFAFFPVQKANVESGKEWTKPGNLIGNGAYVLKERVVNEKLVVVPNTHYWDNAKTVLQKVTFLPINQESAATKRYLAGDIDITESFPKNMYQKLLKDIPGQVYTPPQLGTYYYAFNTQKGPTADQRVRLALSMTIDRRLMTEKVLGTGEKPAWHFTPDVTAGFTPEPSPFEQMSQEELNAQAKTLLSAAGYGPQKPLKLTLLYNTSENHQKIAIAVASMWKKNLGVDVKLQNQEWKTYIDSRNTGNFDVIRASWVGDYNEPSTFLTLLTSTHSGNISRFNNPAYDKVLAQASTENTVKARNADYNAAEKILMEQAPIAPIYQYTNGRLIKPWLKGYPINNPEDVAYSRTMYIVKH TVLAEKQELVRHIKDEPASLDPAKAVGLPEIQVIRDLFEGLVNQNEKGEIVPGVATQWKSNDNRIWTFTLRDNAKWADGTPVTAQDFVYSWQRLVDPKTLSPFAWFAALAGINNAQAIIDGKATPDQLGVTAVDAHTLKIQLDKPLPWFVNLTANFAFFPVQKANVESGKEWTKPGNLIGNGAYVLKERVVNEKLVVVPNTHYWDNAKTVLQKVTFLPINQESAATKRYLAGDIDITESFPKNMYQKLLKDIPGQVYTPPQLGTYYYAFNTQKGPTADQRVRLALSMTIDRRLMTEKVLGTGEKPAWHFTPDVTAGFTPEPSPFEQMSQEELNAQAKTLLSAAGYGPQKPLKLTLLYNTSENHQKIAIAVASMWKKNLGVDVKLQNQEWKTYIDSRNTGNFDVIRASWVGDYNEPSTFLTLLTSTHSGNISRFNNPAYDKVLAQASTENTVKARNADYNAAEKILMEQAPIAPIYQYTNGRLIKPWLKGYPINNPEDVAYSRTMYIVKH 3o9x-a1-m1-cA_3o9x-a1-m1-cB Structure of the E. coli antitoxin MqsA (YgiT/b3021) in complex with its gene promoter Q46864 Q46864 2.0999 X-RAY DIFFRACTION 51 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 132 132 HMKCPVCHQGEMVSGIKDIPYTFRGRKTVLKGIHGLYCVHCEESIMNKEESDAFMAQVKAFRASVNAETVAPEFIVKVRKKLSLTQKEASEIFGGGVNAFSRYEKGNAQPHPSTIKLLRVLDKHPELLNEIR HMKCPVCHQGEMVSGIKDIPYTFRGRKTVLKGIHGLYCVHCEESIMNKEESDAFMAQVKAFRASVNAETVAPEFIVKVRKKLSLTQKEASEIFGGGVNAFSRYEKGNAQPHPSTIKLLRVLDKHPELLNEIR 3o9z-a1-m1-cD_3o9z-a1-m1-cA Crystal structure of the WlbA (WbpB) dehydrogenase from Thermus thermophilus in complex with NAD and alpha-ketoglutarate at 1.45 angstrom resolution Q72KX8 Q72KX8 1.449 X-RAY DIFFRACTION 50 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 309 310 3o9z-a1-m1-cB_3o9z-a1-m1-cC 3oa0-a1-m1-cB_3oa0-a1-m1-cC 3oa0-a1-m1-cD_3oa0-a1-m1-cA MTRFALTGLAGYIAPRHLKAIKEVGGVLVASLDPATNVGLVDSFFPEAEFFTEPEAFEAYLEDLRDRGEGVDYLSIASPNHLHYPQIRMALRLGANALSEKPLVLWPEEIARLKELEARTGRRVYTVLQLRVHPSLLALKERLGQEKGAKDVVLTYVTGRGKWYGKSWKVDEAKSGGLATNIGIHFFDLLAWLFGRALHVEVHARTPTVNAGYLELEGARVRWFLSIDPSFVPEPLRRQGKRTYRSIAVDGEEVEFSEGFTDLHTEVYRKTLAGEGFGLDEAAEAIRVAALLRTLPLSQPSPENRHPFL MTRFALTGLAGYIAPRHLKAIKEVGGVLVASLDPATNVGLVDSFFPEAEFFTEPEAFEAYLEDLRDRGEGVDYLSIASPNHLHYPQIRMALRLGANALSEKPLVLWPEEIARLKELEARTGRRVYTVLQLRVHPSLLALKERLGQEKGAKDVVLTYVTGRGKWYGKSWKVDEAKSGGLATNIGIHFFDLLAWLFGRALHVEVHARTPTVNAGYLELEGARVRWFLSIDPSFVPEPLRRQGKRTYRSIAVDGEEVEFSEGFTDLHTEVYRKTLAGEGFGLDEAAEAIRVAALLRTLPLSQPSPENRHPFLG 3oa0-a1-m1-cD_3oa0-a1-m1-cC Crystal structure of the WlbA (WbpB) Dehydrogenase from Thermus thermophilus in complex with NAD and UDP-GlcNAcA Q72KX8 Q72KX8 2 X-RAY DIFFRACTION 81 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 307 310 3o9z-a1-m1-cA_3o9z-a1-m1-cB 3o9z-a1-m1-cD_3o9z-a1-m1-cC 3oa0-a1-m1-cA_3oa0-a1-m1-cB MTRFALTGLAGYIAPRHLKAIKEVGGVLVASLDPATNVGLVDSFFPEAEFFTEPEAFEAYLEDLRDRGEGVDYLSIASPNHLHYPQIRMALRLGANALSEKPLVLWPEEIARLKELEARTGRRVYTVLQLRVHPSLLALKERLGQEKGAKDVVLTYVTGRGKWYGKSWKVDEAKSGGLATNIGIHFFDLLAWLFGRALHVEVHARTPTVNAGYLELEGARVRWFLSIDPSFVPEPLRRQGKRTYRSIAVDGEEVEFSEGDLHTEVYRKTLAGEGFGLDEAAEAIRVAALLRTLPLSQPSPENRHPFL MTRFALTGLAGYIAPRHLKAIKEVGGVLVASLDPATNVGLVDSFFPEAEFFTEPEAFEAYLEDLRDRGEGVDYLSIASPNHLHYPQIRMALRLGANALSEKPLVLWPEEIARLKELEARTGRRVYTVLQLRVHPSLLALKERLGQEKGAKDVVLTYVTGRGKWYGKSWKVDEAKSGGLATNIGIHFFDLLAWLFGRALHVEVHARTPTVNAGYLELEGARVRWFLSIDPSFVPEPLRRQGKRTYRSIAVDGEEVEFSEGFTDLHTEVYRKTLAGEGFGLDEAAEAIRVAALLRTLPLSQPSPENRHPFLG 3oa2-a1-m1-cA_3oa2-a1-m1-cB Crystal structure of the WlbA (WbpB) dehydrogenase from Pseudomonas aeruginosa in complex with NAD at 1.5 angstrom resolution G3XD23 G3XD23 1.5 X-RAY DIFFRACTION 40 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 306 311 MKNFALIGAAGYIAPRHMRAIKDTGNCLVSAYDINDSVGIIDSISPQSEFFTEFEFFLDHASNLKRDSATALDYVSICSPNYLHYPHIAAGLRLGCDVICEKPLVPTPEMLDQLAVIERETDKRLYNILQLRHHQAIIALKDKVARESPHKYEVDLTYITSRGNWYLKSWKGDPRKSFGVATNIGVHFYDMLHFIFGKLQRNVVHFTSEYKTAGYLEYEQARVRWFLSVDANDLPESVKGKKPTYRSITVNGEEMEFDLHTTSYEEILAGRGYGIDDARHCVETVNTIRSAVIVPASDNEGHPFVA MKNFALIGAAGYIAPRHMRAIKDTGNCLVSAYDINDSVGIIDSISPQSEFFTEFEFFLDHASNLKRDSATALDYVSICSPNYLHYPHIAAGLRLGCDVICEKPLVPTPEMLDQLAVIERETDKRLYNILQLRHHQAIIALKDKVAREKSPHKYEVDLTYITSRGNWYLKSWKGDPRKSFGVATNIGVHFYDMLHFIFGKLQRNVVHFTSEYKTAGYLEYEQARVRWFLSVDANDLPESVKGKKPTYRSITVNGEEMEFDLHTTSYEEILAGRGYGIDDARHCVETVNTIRSAVIVPASDNEGHPFVAALAR 3oa2-a1-m1-cD_3oa2-a1-m1-cB Crystal structure of the WlbA (WbpB) dehydrogenase from Pseudomonas aeruginosa in complex with NAD at 1.5 angstrom resolution G3XD23 G3XD23 1.5 X-RAY DIFFRACTION 82 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 298 311 3oa2-a1-m1-cC_3oa2-a1-m1-cA MKNFALIGAAGYIAPRHMRAIKDTGNCLVSAYDINDSVGIIDSISPQSEFFTEFEFFLDHASNLKRDSATALDYVSICSPNYLHYPHIAAGLRLGCDVICEKPLVPTPEMLDQLAVIERETDKRLYNILQLRHHQAIIALKDKVAKYEVDLTYITSRGNWYLKSWKGDPRKSFGVATNIGVHFYDMLHFIFGKLQRNVVHFTSEYKTAGYLEYEQARVRWFLSVDANDLPESVKGKKPTYRSITVNGEEMDLHTTSYEEILAGRGYGIDDARHCVETVNTIRSAVIVPASDNEGHPFV MKNFALIGAAGYIAPRHMRAIKDTGNCLVSAYDINDSVGIIDSISPQSEFFTEFEFFLDHASNLKRDSATALDYVSICSPNYLHYPHIAAGLRLGCDVICEKPLVPTPEMLDQLAVIERETDKRLYNILQLRHHQAIIALKDKVAREKSPHKYEVDLTYITSRGNWYLKSWKGDPRKSFGVATNIGVHFYDMLHFIFGKLQRNVVHFTSEYKTAGYLEYEQARVRWFLSVDANDLPESVKGKKPTYRSITVNGEEMEFDLHTTSYEEILAGRGYGIDDARHCVETVNTIRSAVIVPASDNEGHPFVAALAR 3oa3-a3-m2-cB_3oa3-a3-m1-cA Crystal structure of a putative deoxyribose-phosphate aldolase from Coccidioides immitis E0CX06 E0CX06 1.6 X-RAY DIFFRACTION 24 1.0 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 252 253 MSSLNNEEWDLLISGKKATLQYPIPLLCYPAPEVVSIAQIIDHTQLSLSATGSQIDVLCAEAKEYGFATVCVRPDYVSRAVQYLQGTQVGVTCVIGFHEGTYSTDQKVSEAKRAMQNGASELDMVMNYPWLSEKRYTDVFQDIRAVRLAAKDAILKVILETSQLTADEIIAGCVLSSLAGADYVKTSTGFNGPGASIENVSLMSAVCDSLQSETRVKASGGIRTIEDCVKMVRAGAERLGASAGVKIVNETR MSSLNNEEWDLLISGKKATLQYPIPLLCYPAPEVVSIAQIIDHTQLSLSATGSQIDVLCAEAKEYGFATVCVRPDYVSRAVQYLQGTQVGVTCVIGFHEGTYSTDQKVSEAKRAMQNGASELDMVMNYPWLSEKRYTDVFQDIRAVRLAAKDAILKVILETSQLTADEIIAGCVLSSLAGADYVKTSTGFNGPGASIENVSLMSAVCDSLQSETRVKASGGIRTIEDCVKMVRAGAERLGASAGVKIVNETRL 3oa4-a1-m1-cA_3oa4-a1-m2-cA CRYSTAL STRUCTURE OF hypothetical protein BH1468 from Bacillus halodurans C-125 Q9KCV1 Q9KCV1 1.94 X-RAY DIFFRACTION 97 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 138 138 KSNKLDHIGIAVTSIKDVLPFYVGSLKLKLLGMEDLPSQGVKIAFLEIGESKIELLEPLSEESPIAKFIQKRGEGIHHIAIGVKSIEERIQEVKENGVQMINDEPVPGARGAQVAFLHPRSARGVLYEFCEKKEQAEN KSNKLDHIGIAVTSIKDVLPFYVGSLKLKLLGMEDLPSQGVKIAFLEIGESKIELLEPLSEESPIAKFIQKRGEGIHHIAIGVKSIEERIQEVKENGVQMINDEPVPGARGAQVAFLHPRSARGVLYEFCEKKEQAEN 3oa6-a1-m1-cA_3oa6-a1-m1-cB Human MSL3 Chromodomain bound to DNA and H4K20me1 peptide Q8N5Y2 Q8N5Y2 2.35 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 84 FKFHSGEKVLCFEPDPTKARVLYDAKIVDVIVGKDEKGRKIPEYLIHFNGWNRSWDRWAAEDHVLRDTDENRRLQRKLARKAVA FKFHSGEKVLCFEPDPTKARVLYDAKIVDVIVGKDEKGRKIPEYLIHFNGWNRSWDRWAAEDHVLRDTDENRRLQRKLARKAVA 3oa7-a1-m1-cA_3oa7-a1-m2-cA Structure of the C-terminal domain of Cnm67, a core component of the spindle pole body of Saccharomyces cerevisiae P53865 P53865 2.3 X-RAY DIFFRACTION 306 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 188 188 GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSHNTLSKELDNLRSRFGNLEGNTSERITIKNILQSRPDISAEECNFLVEQIDSANLTTLQNTVKEIVLAVGIPYPKLRRKIPLLAIKLKYENILSNFAQRLHRQVYENLKKFTDQAYYDFSTRRDSIDHHLERCLDHLYD GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSHNTLSKELDNLRSRFGNLEGNTSERITIKNILQSRPDISAEECNFLVEQIDSANLTTLQNTVKEIVLAVGIPYPKLRRKIPLLAIKLKYENILSNFAQRLHRQVYENLKKFTDQAYYDFSTRRDSIDHHLERCLDHLYD 3oa8-a1-m1-cB_3oa8-a1-m1-cD Diheme SoxAX Q7BQR5 Q7BQR5 1.77 X-RAY DIFFRACTION 25 1.0 921 (Starkeya novella) 921 (Starkeya novella) 180 180 3oa8-a1-m1-cB_3oa8-a1-m1-cF 3oa8-a1-m1-cD_3oa8-a1-m1-cF SAVDPARVDAVVKTSFTKLPEGWESRLQQDETQRICSVTRNNPSPEQAAAIMKAEEVRIKFPAGPVLGSWKDGAKVAQNGRGGQFSDPPGTVSGGNCYACHQLDPKEVSYGTLGPSLVGYGRERNFSAEDAKIAFAKVYDAQASLACSSMPRFGVNGVLTEQQIKDVVAYLFDPESPVNK SAVDPARVDAVVKTSFTKLPEGWESRLQQDETQRICSVTRNNPSPEQAAAIMKAEEVRIKFPAGPVLGSWKDGAKVAQNGRGGQFSDPPGTVSGGNCYACHQLDPKEVSYGTLGPSLVGYGRERNFSAEDAKIAFAKVYDAQASLACSSMPRFGVNGVLTEQQIKDVVAYLFDPESPVNK 3oaj-a3-m1-cA_3oaj-a3-m1-cB CRYSTAL STRUCTURE OF putative dioxygenase from Bacillus subtilis subsp. subtilis str. 168 P96693 P96693 1.4 X-RAY DIFFRACTION 18 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 310 310 AKKTMGIHHITAIVGHPQENTDFYAGVLGLRLVKQTVNFDDPGTYHLYFGNEGGKPGTIITFFPWAGARQGVIGDGQVGVTSYVVPKGAMAFWEKRLEKFNVPYTKIERFGEQYVEFDDPHGLHLEIVEREEGEANTWTFGEVTPDVAIKGFGGATLLSEQPDKTADLLENIMGLERVGKEGDFVRYRSAGDIGNVIDLKLTPIGRGQMGAGTVHHIAWRANDDEDQLDWQRYIASHGYGVTPVRDRNYFNAIYFREHGEILFEIATDPPGFAHDETQETMGEKLMLPVQYEPHRTQIEQGLLPFEVREL AKKTMGIHHITAIVGHPQENTDFYAGVLGLRLVKQTVNFDDPGTYHLYFGNEGGKPGTIITFFPWAGARQGVIGDGQVGVTSYVVPKGAMAFWEKRLEKFNVPYTKIERFGEQYVEFDDPHGLHLEIVEREEGEANTWTFGEVTPDVAIKGFGGATLLSEQPDKTADLLENIMGLERVGKEGDFVRYRSAGDIGNVIDLKLTPIGRGQMGAGTVHHIAWRANDDEDQLDWQRYIASHGYGVTPVRDRNYFNAIYFREHGEILFEIATDPPGFAHDETQETMGEKLMLPVQYEPHRTQIEQGLLPFEVREL 3oam-a2-m1-cD_3oam-a2-m1-cC Crystal structure of cytidylyltransferase from Vibrio cholerae Q9KQX2 Q9KQX2 1.75 X-RAY DIFFRACTION 95 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 250 251 3oam-a1-m1-cB_3oam-a1-m1-cA MSFTVVIPARYQSTRLPGKPLADIGGKPMIQWVYEQAMQAGADRVIIATDDERVEQAVQAFGGVVCMTSPNHQSGTERLAEVVAKMAIPADHIVVNVQGDEPLIPPAIIRQVADNLAACSAPMATLAVEIEDEAEVFNPNAVKVITDKSGYALYFSRATIPWDRDNFAKADKAIVQPLLRHIGIYAYRAGFINTYLDWQPSQLEKIECLEQLRVLWHGEKIHVAVALEAPPAGVDTPEDLEVVRRIVAER MSFTVVIPARYQSTRLPGKPLADIGGKPMIQWVYEQAMQAGADRVIIATDDERVEQAVQAFGGVVCMTSPNHQSGTERLAEVVAKMAIPADHIVVNVQGDEPLIPPAIIRQVADNLAACSAPMATLAVEIEDEAEVFNPNAVKVITDKSGYALYFSRATIPWDRDNFAKADKAIVQPLLRHIGIYAYRAGFINTYLDWQPSQLEKIECLEQLRVLWHGEKIHVAVALEAPPAGVDTPEDLEVVRRIVAERA 3oao-a1-m1-cA_3oao-a1-m2-cA Crystal structure of a protein with unknown function from DUF2059 family (PA0856) from PSEUDOMONAS AERUGINOSA at 2.72 A resolution Q9I585 Q9I585 2.72 X-RAY DIFFRACTION 125 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 136 136 2x3o-a1-m1-cA_2x3o-a1-m1-cB GDSASQAEQFLKLVHADKLTVPVYAQVQQLAQRFAQAKAPESKKAVLERYQAKANAELDRAIGWDKIKPELIKLYTTNFTESELKDLNAFYQSPLGKKVLEKPRLTAESAQLTQAKLQGAVEPVNKLADDKELGVA GDSASQAEQFLKLVHADKLTVPVYAQVQQLAQRFAQAKAPESKKAVLERYQAKANAELDRAIGWDKIKPELIKLYTTNFTESELKDLNAFYQSPLGKKVLEKPRLTAESAQLTQAKLQGAVEPVNKLADDKELGVA 3ob4-a1-m1-cA_3ob4-a1-m2-cA MBP-fusion protein of the major peanut allergen Ara h 2 A5Z1Q8 A5Z1Q8 2.706 X-RAY DIFFRACTION 80 1.0 130453 (Arachis duranensis) 130453 (Arachis duranensis) 474 474 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAARRCQSQLERANLRPCEQHLMQKIQRDEDSRDPYSPSQDPHQERCCNELNEFENNQRCMCEALQQIMENQSDRLQGRQQEQQFKRELRNLPQQCGLRAPQRCDLD KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAARRCQSQLERANLRPCEQHLMQKIQRDEDSRDPYSPSQDPHQERCCNELNEFENNQRCMCEALQQIMENQSDRLQGRQQEQQFKRELRNLPQQCGLRAPQRCDLD 3oba-a1-m1-cA_3oba-a1-m1-cB Structure of the beta-galactosidase from Kluyveromyces lactis P00723 P00723 2.75 X-RAY DIFFRACTION 164 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 1024 1024 3ob8-a1-m1-cA_3ob8-a1-m1-cB SCLIPENLRNPKKVHENRLPTRAYYYDQDIFESLNGPWAFALFDAPLDAPDAKNLDWETAKKWSTISVPSHWELQEDWKYGKPIYTNVQYPIPIDIPNPPTVNPTGVYARTFELDSKSIESFEHRLRFEGVDNCYELYVNGQYVGFNKGSRNGAEFDIQKYVSEGENLVVVKVFKWSDSTYIEDQDQWWLSGIYRDVSLLKLPKKAHIEDVRVTTTFVDSQYQDAELSVKVDVQGSSYDHINFTLYEPEDGSKVYDASSLLNEENGNTTFSTKEFISFSTKKNEETAFKINVKAPEHWTAENPTLYKYQLDLIGSDGSVIQSIKHHVGFRQVELKDGNITVNGKDILFRGVNRHDHHPRFGRAVPLDFVVRDLILMKKFNINAVRNSHYPNHPKVYDLFDKLGFWVIDEADLETHGVQEPFNRHTNLEAEYPDTKNKLYDVNAHYLSDNPEYEVAYLDRASQLVLRDVNHPSIIIWSLGNEACYGRNHKAMYKLIKQLDPTRLVHYEGDLNALSADIFSFMYPTFEIMERWRKNHTDENGKFEKPLILCEYGHAMGNGPGSLKEYQELFYKEKFYQGGFIWEWANHGIEFEDVSTADGKLHKAYAYGGDFKEEVHDGVFIMDGLCNSEHNPTPGLVEYKKVIEPVHIKIAHGSVTITNKHDFITTDHLLFIDKDTGKTIDVPSLKPEESVTIPSDTTYVVAVLKDDAGVLKAGHEIAWGQAELPLKVPDFVTETAEKAAKINDGKRYVSVESSGLHFILDKLLGKIESLKVKGKEISSKFEGSSITFWRPPTNNDEPRDFKNWKKYNIDLMKQNIHGVSVEKGSNGSLAVVTVNSRISPVVFYYGFETVQKYTIFANKINLNTSMKLTGEYQPPDFPRVGYEFWLGDSYESFEWLGRGPGESYPDKKESQRFGLYDSKDVEEFVYDYPQENGNHTDTHFLNIKFEGAGKLSIFQKEKPFNFKISDEYGVDEAAHACDVKRYGRHYLRLDHAIHGVGSEACGPAVLDQYRLKAQDFNFEFDLAFE SCLIPENLRNPKKVHENRLPTRAYYYDQDIFESLNGPWAFALFDAPLDAPDAKNLDWETAKKWSTISVPSHWELQEDWKYGKPIYTNVQYPIPIDIPNPPTVNPTGVYARTFELDSKSIESFEHRLRFEGVDNCYELYVNGQYVGFNKGSRNGAEFDIQKYVSEGENLVVVKVFKWSDSTYIEDQDQWWLSGIYRDVSLLKLPKKAHIEDVRVTTTFVDSQYQDAELSVKVDVQGSSYDHINFTLYEPEDGSKVYDASSLLNEENGNTTFSTKEFISFSTKKNEETAFKINVKAPEHWTAENPTLYKYQLDLIGSDGSVIQSIKHHVGFRQVELKDGNITVNGKDILFRGVNRHDHHPRFGRAVPLDFVVRDLILMKKFNINAVRNSHYPNHPKVYDLFDKLGFWVIDEADLETHGVQEPFNRHTNLEAEYPDTKNKLYDVNAHYLSDNPEYEVAYLDRASQLVLRDVNHPSIIIWSLGNEACYGRNHKAMYKLIKQLDPTRLVHYEGDLNALSADIFSFMYPTFEIMERWRKNHTDENGKFEKPLILCEYGHAMGNGPGSLKEYQELFYKEKFYQGGFIWEWANHGIEFEDVSTADGKLHKAYAYGGDFKEEVHDGVFIMDGLCNSEHNPTPGLVEYKKVIEPVHIKIAHGSVTITNKHDFITTDHLLFIDKDTGKTIDVPSLKPEESVTIPSDTTYVVAVLKDDAGVLKAGHEIAWGQAELPLKVPDFVTETAEKAAKINDGKRYVSVESSGLHFILDKLLGKIESLKVKGKEISSKFEGSSITFWRPPTNNDEPRDFKNWKKYNIDLMKQNIHGVSVEKGSNGSLAVVTVNSRISPVVFYYGFETVQKYTIFANKINLNTSMKLTGEYQPPDFPRVGYEFWLGDSYESFEWLGRGPGESYPDKKESQRFGLYDSKDVEEFVYDYPQENGNHTDTHFLNIKFEGAGKLSIFQKEKPFNFKISDEYGVDEAAHACDVKRYGRHYLRLDHAIHGVGSEACGPAVLDQYRLKAQDFNFEFDLAFE 3oba-a1-m1-cA_3oba-a1-m1-cD Structure of the beta-galactosidase from Kluyveromyces lactis P00723 P00723 2.75 X-RAY DIFFRACTION 21 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 1024 1024 3ob8-a1-m1-cA_3ob8-a1-m1-cD 3ob8-a1-m1-cB_3ob8-a1-m1-cC 3oba-a1-m1-cB_3oba-a1-m1-cC SCLIPENLRNPKKVHENRLPTRAYYYDQDIFESLNGPWAFALFDAPLDAPDAKNLDWETAKKWSTISVPSHWELQEDWKYGKPIYTNVQYPIPIDIPNPPTVNPTGVYARTFELDSKSIESFEHRLRFEGVDNCYELYVNGQYVGFNKGSRNGAEFDIQKYVSEGENLVVVKVFKWSDSTYIEDQDQWWLSGIYRDVSLLKLPKKAHIEDVRVTTTFVDSQYQDAELSVKVDVQGSSYDHINFTLYEPEDGSKVYDASSLLNEENGNTTFSTKEFISFSTKKNEETAFKINVKAPEHWTAENPTLYKYQLDLIGSDGSVIQSIKHHVGFRQVELKDGNITVNGKDILFRGVNRHDHHPRFGRAVPLDFVVRDLILMKKFNINAVRNSHYPNHPKVYDLFDKLGFWVIDEADLETHGVQEPFNRHTNLEAEYPDTKNKLYDVNAHYLSDNPEYEVAYLDRASQLVLRDVNHPSIIIWSLGNEACYGRNHKAMYKLIKQLDPTRLVHYEGDLNALSADIFSFMYPTFEIMERWRKNHTDENGKFEKPLILCEYGHAMGNGPGSLKEYQELFYKEKFYQGGFIWEWANHGIEFEDVSTADGKLHKAYAYGGDFKEEVHDGVFIMDGLCNSEHNPTPGLVEYKKVIEPVHIKIAHGSVTITNKHDFITTDHLLFIDKDTGKTIDVPSLKPEESVTIPSDTTYVVAVLKDDAGVLKAGHEIAWGQAELPLKVPDFVTETAEKAAKINDGKRYVSVESSGLHFILDKLLGKIESLKVKGKEISSKFEGSSITFWRPPTNNDEPRDFKNWKKYNIDLMKQNIHGVSVEKGSNGSLAVVTVNSRISPVVFYYGFETVQKYTIFANKINLNTSMKLTGEYQPPDFPRVGYEFWLGDSYESFEWLGRGPGESYPDKKESQRFGLYDSKDVEEFVYDYPQENGNHTDTHFLNIKFEGAGKLSIFQKEKPFNFKISDEYGVDEAAHACDVKRYGRHYLRLDHAIHGVGSEACGPAVLDQYRLKAQDFNFEFDLAFE SCLIPENLRNPKKVHENRLPTRAYYYDQDIFESLNGPWAFALFDAPLDAPDAKNLDWETAKKWSTISVPSHWELQEDWKYGKPIYTNVQYPIPIDIPNPPTVNPTGVYARTFELDSKSIESFEHRLRFEGVDNCYELYVNGQYVGFNKGSRNGAEFDIQKYVSEGENLVVVKVFKWSDSTYIEDQDQWWLSGIYRDVSLLKLPKKAHIEDVRVTTTFVDSQYQDAELSVKVDVQGSSYDHINFTLYEPEDGSKVYDASSLLNEENGNTTFSTKEFISFSTKKNEETAFKINVKAPEHWTAENPTLYKYQLDLIGSDGSVIQSIKHHVGFRQVELKDGNITVNGKDILFRGVNRHDHHPRFGRAVPLDFVVRDLILMKKFNINAVRNSHYPNHPKVYDLFDKLGFWVIDEADLETHGVQEPFNRHTNLEAEYPDTKNKLYDVNAHYLSDNPEYEVAYLDRASQLVLRDVNHPSIIIWSLGNEACYGRNHKAMYKLIKQLDPTRLVHYEGDLNALSADIFSFMYPTFEIMERWRKNHTDENGKFEKPLILCEYGHAMGNGPGSLKEYQELFYKEKFYQGGFIWEWANHGIEFEDVSTADGKLHKAYAYGGDFKEEVHDGVFIMDGLCNSEHNPTPGLVEYKKVIEPVHIKIAHGSVTITNKHDFITTDHLLFIDKDTGKTIDVPSLKPEESVTIPSDTTYVVAVLKDDAGVLKAGHEIAWGQAELPLKVPDFVTETAEKAAKINDGKRYVSVESSGLHFILDKLLGKIESLKVKGKEISSKFEGSSITFWRPPTNNDEPRDFKNWKKYNIDLMKQNIHGVSVEKGSNGSLAVVTVNSRISPVVFYYGFETVQKYTIFANKINLNTSMKLTGEYQPPDFPRVGYEFWLGDSYESFEWLGRGPGESYPDKKESQRFGLYDSKDVEEFVYDYPQENGNHTDTHFLNIKFEGAGKLSIFQKEKPFNFKISDEYGVDEAAHACDVKRYGRHYLRLDHAIHGVGSEACGPAVLDQYRLKAQDFNFEFDLAFE 3oba-a1-m1-cB_3oba-a1-m1-cD Structure of the beta-galactosidase from Kluyveromyces lactis P00723 P00723 2.75 X-RAY DIFFRACTION 150 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 1024 1024 3ob8-a1-m1-cA_3ob8-a1-m1-cC 3ob8-a1-m1-cB_3ob8-a1-m1-cD 3oba-a1-m1-cA_3oba-a1-m1-cC SCLIPENLRNPKKVHENRLPTRAYYYDQDIFESLNGPWAFALFDAPLDAPDAKNLDWETAKKWSTISVPSHWELQEDWKYGKPIYTNVQYPIPIDIPNPPTVNPTGVYARTFELDSKSIESFEHRLRFEGVDNCYELYVNGQYVGFNKGSRNGAEFDIQKYVSEGENLVVVKVFKWSDSTYIEDQDQWWLSGIYRDVSLLKLPKKAHIEDVRVTTTFVDSQYQDAELSVKVDVQGSSYDHINFTLYEPEDGSKVYDASSLLNEENGNTTFSTKEFISFSTKKNEETAFKINVKAPEHWTAENPTLYKYQLDLIGSDGSVIQSIKHHVGFRQVELKDGNITVNGKDILFRGVNRHDHHPRFGRAVPLDFVVRDLILMKKFNINAVRNSHYPNHPKVYDLFDKLGFWVIDEADLETHGVQEPFNRHTNLEAEYPDTKNKLYDVNAHYLSDNPEYEVAYLDRASQLVLRDVNHPSIIIWSLGNEACYGRNHKAMYKLIKQLDPTRLVHYEGDLNALSADIFSFMYPTFEIMERWRKNHTDENGKFEKPLILCEYGHAMGNGPGSLKEYQELFYKEKFYQGGFIWEWANHGIEFEDVSTADGKLHKAYAYGGDFKEEVHDGVFIMDGLCNSEHNPTPGLVEYKKVIEPVHIKIAHGSVTITNKHDFITTDHLLFIDKDTGKTIDVPSLKPEESVTIPSDTTYVVAVLKDDAGVLKAGHEIAWGQAELPLKVPDFVTETAEKAAKINDGKRYVSVESSGLHFILDKLLGKIESLKVKGKEISSKFEGSSITFWRPPTNNDEPRDFKNWKKYNIDLMKQNIHGVSVEKGSNGSLAVVTVNSRISPVVFYYGFETVQKYTIFANKINLNTSMKLTGEYQPPDFPRVGYEFWLGDSYESFEWLGRGPGESYPDKKESQRFGLYDSKDVEEFVYDYPQENGNHTDTHFLNIKFEGAGKLSIFQKEKPFNFKISDEYGVDEAAHACDVKRYGRHYLRLDHAIHGVGSEACGPAVLDQYRLKAQDFNFEFDLAFE SCLIPENLRNPKKVHENRLPTRAYYYDQDIFESLNGPWAFALFDAPLDAPDAKNLDWETAKKWSTISVPSHWELQEDWKYGKPIYTNVQYPIPIDIPNPPTVNPTGVYARTFELDSKSIESFEHRLRFEGVDNCYELYVNGQYVGFNKGSRNGAEFDIQKYVSEGENLVVVKVFKWSDSTYIEDQDQWWLSGIYRDVSLLKLPKKAHIEDVRVTTTFVDSQYQDAELSVKVDVQGSSYDHINFTLYEPEDGSKVYDASSLLNEENGNTTFSTKEFISFSTKKNEETAFKINVKAPEHWTAENPTLYKYQLDLIGSDGSVIQSIKHHVGFRQVELKDGNITVNGKDILFRGVNRHDHHPRFGRAVPLDFVVRDLILMKKFNINAVRNSHYPNHPKVYDLFDKLGFWVIDEADLETHGVQEPFNRHTNLEAEYPDTKNKLYDVNAHYLSDNPEYEVAYLDRASQLVLRDVNHPSIIIWSLGNEACYGRNHKAMYKLIKQLDPTRLVHYEGDLNALSADIFSFMYPTFEIMERWRKNHTDENGKFEKPLILCEYGHAMGNGPGSLKEYQELFYKEKFYQGGFIWEWANHGIEFEDVSTADGKLHKAYAYGGDFKEEVHDGVFIMDGLCNSEHNPTPGLVEYKKVIEPVHIKIAHGSVTITNKHDFITTDHLLFIDKDTGKTIDVPSLKPEESVTIPSDTTYVVAVLKDDAGVLKAGHEIAWGQAELPLKVPDFVTETAEKAAKINDGKRYVSVESSGLHFILDKLLGKIESLKVKGKEISSKFEGSSITFWRPPTNNDEPRDFKNWKKYNIDLMKQNIHGVSVEKGSNGSLAVVTVNSRISPVVFYYGFETVQKYTIFANKINLNTSMKLTGEYQPPDFPRVGYEFWLGDSYESFEWLGRGPGESYPDKKESQRFGLYDSKDVEEFVYDYPQENGNHTDTHFLNIKFEGAGKLSIFQKEKPFNFKISDEYGVDEAAHACDVKRYGRHYLRLDHAIHGVGSEACGPAVLDQYRLKAQDFNFEFDLAFE 3obb-a1-m2-cA_3obb-a1-m4-cA Crystal structure of a possible 3-hydroxyisobutyrate Dehydrogenase from pseudomonas aeruginosa pao1 Q9I5I6 Q9I5I6 2.2 X-RAY DIFFRACTION 49 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 281 281 3obb-a1-m1-cA_3obb-a1-m3-cA 3q3c-a1-m1-cA_3q3c-a1-m3-cA 3q3c-a1-m2-cA_3q3c-a1-m4-cA KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ 3obb-a1-m3-cA_3obb-a1-m4-cA Crystal structure of a possible 3-hydroxyisobutyrate Dehydrogenase from pseudomonas aeruginosa pao1 Q9I5I6 Q9I5I6 2.2 X-RAY DIFFRACTION 13 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 281 281 3obb-a1-m1-cA_3obb-a1-m2-cA 3q3c-a1-m1-cA_3q3c-a1-m2-cA 3q3c-a1-m3-cA_3q3c-a1-m4-cA KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ 3obb-a2-m1-cA_3obb-a2-m4-cA Crystal structure of a possible 3-hydroxyisobutyrate Dehydrogenase from pseudomonas aeruginosa pao1 Q9I5I6 Q9I5I6 2.2 X-RAY DIFFRACTION 212 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 281 281 3obb-a1-m1-cA_3obb-a1-m4-cA 3obb-a1-m2-cA_3obb-a1-m3-cA 3q3c-a1-m1-cA_3q3c-a1-m4-cA 3q3c-a1-m2-cA_3q3c-a1-m3-cA KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ 3obb-a3-m1-cA_3obb-a3-m5-cA Crystal structure of a possible 3-hydroxyisobutyrate Dehydrogenase from pseudomonas aeruginosa pao1 Q9I5I6 Q9I5I6 2.2 X-RAY DIFFRACTION 100 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 281 281 KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ KQIAFIGLGHGAPATNLLKAGYLLNVFDLVQSAVDGLVAAGASAARSARDAVQGADVVISLPASQHVEGLYLDDDGLLAHIAPTLVLECSTIAPTSARKIHAAARERGLALDAPVSGGTAGAAAGTLTFVGGDAEALEKARPLFEAGRNIFHAGPDGAGQVAKVCNNQLLAVLIGTAEAALGVANGLEAKVLAEIRRSSGGNWALEVYNPWPGVENAPASRDYSGGFAQLAKDLGLAQEAAQASASSTPGSLALSLYRLLLKQGYAERDFSVVQKLFDPTQ 3obh-a1-m1-cA_3obh-a1-m1-cB X-ray crystal structure of protein SP_0782 (7-79) from Streptococcus pneumoniae. Northeast Structural Genomics Consortium Target SpR104 A0A0H2UPA7 A0A0H2UPA7 1.891 X-RAY DIFFRACTION 47 0.984 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 64 65 2l3a-a1-m1-cA_2l3a-a1-m1-cB 4g06-a1-m1-cA_4g06-a1-m1-cB FTFEIEEHLLTLSENEKGWTKEINRVSFNGAPAKFDIRAWSPDHTKGKGITLSNEEFQTVDAFK AEFTFEIEEHLLTLSENEKGWTKEINRVSFNGAPAKFDIRAWSPDHTKGKGITLSNEEFQTVDAF 3obi-a1-m1-cC_3obi-a1-m1-cD Crystal structure of a formyltetrahydrofolate deformylase (NP_949368) from RHODOPSEUDOMONAS PALUSTRIS CGA009 at 1.95 A resolution Q6N2L8 Q6N2L8 1.95 X-RAY DIFFRACTION 18 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 277 277 3obi-a1-m1-cA_3obi-a1-m1-cB HHQYVLTLSCPDRAGIVSAVSTFLFENGQNILDAQQYNDTESGHFFRVVFNAAAKVIPLASLRTGFGVIAAKFTGWHRDRETRRKVLLVSQSDHCLADILYRWRVGDLHIPTAIVSNHPRETFSGFDFGDIPFYHFPVNKDTRRQQEAAITALIAQTHTDLVVLARYQILSDESARLAGRCINIHHSFLPGFKGAKPYHQAFDRGVKLIGATAHYVTSALDEGPIIDQDVERISHRDTPADLVRKGRDIERRVLSRALHYHLDDRVILNGRKTVVFT HHQYVLTLSCPDRAGIVSAVSTFLFENGQNILDAQQYNDTESGHFFRVVFNAAAKVIPLASLRTGFGVIAAKFTGWHRDRETRRKVLLVSQSDHCLADILYRWRVGDLHIPTAIVSNHPRETFSGFDFGDIPFYHFPVNKDTRRQQEAAITALIAQTHTDLVVLARYQILSDESARLAGRCINIHHSFLPGFKGAKPYHQAFDRGVKLIGATAHYVTSALDEGPIIDQDVERISHRDTPADLVRKGRDIERRVLSRALHYHLDDRVILNGRKTVVFT 3obi-a1-m1-cD_3obi-a1-m1-cB Crystal structure of a formyltetrahydrofolate deformylase (NP_949368) from RHODOPSEUDOMONAS PALUSTRIS CGA009 at 1.95 A resolution Q6N2L8 Q6N2L8 1.95 X-RAY DIFFRACTION 86 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 277 278 3obi-a1-m1-cC_3obi-a1-m1-cA HHQYVLTLSCPDRAGIVSAVSTFLFENGQNILDAQQYNDTESGHFFRVVFNAAAKVIPLASLRTGFGVIAAKFTGWHRDRETRRKVLLVSQSDHCLADILYRWRVGDLHIPTAIVSNHPRETFSGFDFGDIPFYHFPVNKDTRRQQEAAITALIAQTHTDLVVLARYQILSDESARLAGRCINIHHSFLPGFKGAKPYHQAFDRGVKLIGATAHYVTSALDEGPIIDQDVERISHRDTPADLVRKGRDIERRVLSRALHYHLDDRVILNGRKTVVFT HHQYVLTLSCPDRAGIVSAVSTFLFENGQNILDAQQYNDTESGHFFRVVFNAAAKVIPLASLRTGFGVIAAKFTGWHRDRETRRKVLLVSQSDHCLADILYRWRVGDLHIPTAIVSNHPRETFSGFDFGDIPFYHFPVNKDTRRQQEAAITALIAQTHTDLVVLARYQILSDESARLAGRCINIHHSFLPGFKGAKPYHQAFDRGVKLIGATAHYVTSALDEGPIIDQDVERISHRDTPADLVRKGRDIERRVLSRALHYHLDDRVILNGRKTVVFTD 3obi-a3-m1-cC_3obi-a3-m1-cB Crystal structure of a formyltetrahydrofolate deformylase (NP_949368) from RHODOPSEUDOMONAS PALUSTRIS CGA009 at 1.95 A resolution Q6N2L8 Q6N2L8 1.95 X-RAY DIFFRACTION 69 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 277 278 3obi-a1-m1-cC_3obi-a1-m1-cB 3obi-a1-m1-cD_3obi-a1-m1-cA 3obi-a2-m1-cD_3obi-a2-m1-cA HHQYVLTLSCPDRAGIVSAVSTFLFENGQNILDAQQYNDTESGHFFRVVFNAAAKVIPLASLRTGFGVIAAKFTGWHRDRETRRKVLLVSQSDHCLADILYRWRVGDLHIPTAIVSNHPRETFSGFDFGDIPFYHFPVNKDTRRQQEAAITALIAQTHTDLVVLARYQILSDESARLAGRCINIHHSFLPGFKGAKPYHQAFDRGVKLIGATAHYVTSALDEGPIIDQDVERISHRDTPADLVRKGRDIERRVLSRALHYHLDDRVILNGRKTVVFT HHQYVLTLSCPDRAGIVSAVSTFLFENGQNILDAQQYNDTESGHFFRVVFNAAAKVIPLASLRTGFGVIAAKFTGWHRDRETRRKVLLVSQSDHCLADILYRWRVGDLHIPTAIVSNHPRETFSGFDFGDIPFYHFPVNKDTRRQQEAAITALIAQTHTDLVVLARYQILSDESARLAGRCINIHHSFLPGFKGAKPYHQAFDRGVKLIGATAHYVTSALDEGPIIDQDVERISHRDTPADLVRKGRDIERRVLSRALHYHLDDRVILNGRKTVVFTD 3obk-a1-m1-cD_3obk-a1-m1-cH Crystal structure of delta-aminolevulinic acid dehydratase (porphobilinogen synthase) from toxoplasma gondii ME49 in complex with the reaction product porphobilinogen 2.5 X-RAY DIFFRACTION 203 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 352 352 3obk-a1-m1-cA_3obk-a1-m1-cC 3obk-a1-m1-cB_3obk-a1-m1-cE 3obk-a1-m1-cF_3obk-a1-m1-cG GPLDNNNYGEVWLPIQARPRRNRKNRAVRQLVQENLVKPSSLIYPLFVHDEETSVPIPSMPGQSRLSMEDLLKEVGEARSYGIKAFMLFPKVDDELKSVMAEESYNPDGLLPRAIMALKEAFPDVLLLADVALDPYSSMGHDGVVDEQSGKIVNDLTVHQLCKQAITLARAGADMVCPSDMMDGRVSAIRESLDMEGCTDTSILAYSCKYASSFYGPFRDALDSHMVGGTDKKTYQMDPSNSREAEREAEADASEGADMLMVKPGLPYLDVLAKIREKSKLPMVAYHVSGEYAMLKAAAEKGYISEKDTVLEVLKSFRRAGADAVATYYAKEAAKWMVEDMKGTQKFTEPCY GPLDNNNYGEVWLPIQARPRRNRKNRAVRQLVQENLVKPSSLIYPLFVHDEETSVPIPSMPGQSRLSMEDLLKEVGEARSYGIKAFMLFPKVDDELKSVMAEESYNPDGLLPRAIMALKEAFPDVLLLADVALDPYSSMGHDGVVDEQSGKIVNDLTVHQLCKQAITLARAGADMVCPSDMMDGRVSAIRESLDMEGCTDTSILAYSCKYASSFYGPFRDALDSHMVGGTDKKTYQMDPSNSREAEREAEADASEGADMLMVKPGLPYLDVLAKIREKSKLPMVAYHVSGEYAMLKAAAEKGYISEKDTVLEVLKSFRRAGADAVATYYAKEAAKWMVEDMKGTQKFTEPCY 3obk-a1-m1-cG_3obk-a1-m1-cH Crystal structure of delta-aminolevulinic acid dehydratase (porphobilinogen synthase) from toxoplasma gondii ME49 in complex with the reaction product porphobilinogen 2.5 X-RAY DIFFRACTION 260 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 352 352 3obk-a1-m1-cA_3obk-a1-m1-cB 3obk-a1-m1-cC_3obk-a1-m1-cD 3obk-a1-m1-cE_3obk-a1-m1-cF GPLDNNNYGEVWLPIQARPRRNRKNRAVRQLVQENLVKPSSLIYPLFVHDEETSVPIPSMPGQSRLSMEDLLKEVGEARSYGIKAFMLFPKVDDELKSVMAEESYNPDGLLPRAIMALKEAFPDVLLLADVALDPYSSMGHDGVVDEQSGKIVNDLTVHQLCKQAITLARAGADMVCPSDMMDGRVSAIRESLDMEGCTDTSILAYSCKYASSFYGPFRDALDSHMVGGTDKKTYQMDPSNSREAEREAEADASEGADMLMVKPGLPYLDVLAKIREKSKLPMVAYHVSGEYAMLKAAAEKGYISEKDTVLEVLKSFRRAGADAVATYYAKEAAKWMVEDMKGTQKFTEPCY GPLDNNNYGEVWLPIQARPRRNRKNRAVRQLVQENLVKPSSLIYPLFVHDEETSVPIPSMPGQSRLSMEDLLKEVGEARSYGIKAFMLFPKVDDELKSVMAEESYNPDGLLPRAIMALKEAFPDVLLLADVALDPYSSMGHDGVVDEQSGKIVNDLTVHQLCKQAITLARAGADMVCPSDMMDGRVSAIRESLDMEGCTDTSILAYSCKYASSFYGPFRDALDSHMVGGTDKKTYQMDPSNSREAEREAEADASEGADMLMVKPGLPYLDVLAKIREKSKLPMVAYHVSGEYAMLKAAAEKGYISEKDTVLEVLKSFRRAGADAVATYYAKEAAKWMVEDMKGTQKFTEPCY 3obv-a2-m1-cH_3obv-a2-m1-cG Autoinhibited Formin mDia1 Structure O08808 O08808 2.75 X-RAY DIFFRACTION 230 0.998 10090 (Mus musculus) 10090 (Mus musculus) 419 420 3o4x-a1-m1-cE_3o4x-a1-m1-cH 3o4x-a2-m1-cF_3o4x-a2-m1-cG 3obv-a1-m1-cE_3obv-a1-m1-cF KKVYKPEVQLRRPNWSKFVAEDLSQDCFWTKVKEDRFENNELFAKLTLAFSAKELKVLDSKTAQNLSIFLGSFRMPYQEIKNVILEVNEAVLTESMIQNLIKQMPEPEQLKMLSELKEEYDDLAESEQFGVVMGTVPRLRPRLNAILFKLQFSEQVENIKPEIVSVTAACEELRKSENFSSLLELTLLVGNYMNAGSRNAGAFGFNISFLCKLRDTKSADQKMTLLHFLAELCENDHPEVLKFPDELAHVEKASRVSAENLQKSLDQMKKQIADVERDVQNFPAATDEKDKFVEKMTSFVKDAQEQYNKLRMMHSNMETLYKELGDYFVFDPKKLSVEEFFMDLHNFRNMFLQAVKENQKRRETEEKMRRAKLAKEKAEKERLEKQQKREQLIDMNAEGDETGVMDSLLEALQSGAAFR KVYKPEVQLRRPNWSKFVAEDLSQDCFWTKVKEDRFENNELFAKLTLAFSAQVKELKVLDSKTAQNLSIFLGSFRMPYQEIKNVILEVNEAVLTESMIQNLIKQMPEPEQLKMLSELKEEYDDLAESEQFGVVMGTVPRLRPRLNAILFKLQFSEQVENIKPEIVSVTAACEELRKSENFSSLLELTLLVGNYMNAGSRNAGAFGFNISFLCKLRDTKSADQKMTLLHFLAELCENDHPEVLKFPDELAHVEKASRVSAENLQKSLDQMKKQIADVERDVQNFPAATDEKDKFVEKMTSFVKDAQEQYNKLRMMHSNMETLYKELGDYFVFDPKKLSVEEFFMDLHNFRNMFLQAVKENQKRRETEEKMRRAKLAKEKAEKERLEKQQKREQLIDMNAEGDETGVMDSLLEALQSGAAFR 3obw-a1-m1-cA_3obw-a1-m2-cA Crystal structure of two archaeal Pelotas reveal inter-domain structural plasticity P96026 P96026 2.6 X-RAY DIFFRACTION 54 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 321 321 DEKRQAVKLHIESEDDLWLLHLILEKDDKVVAKTTRDVGESRRIPMTIILKVDYTEFQEFTNRLRIHGIIEDAPERFGIKGAHHTINLDIGDEIIIIKQQWRSRIIIALVDFDEYLIAIPFEQGIKILSEKSLRPLNEEEGIIEQNALEIATELAEYVKQYDPDAILLAGPGFFKEEVSKKVNAILKNKKIYIDSVSSATRAGLHEVLKRDIIDKIMTDYEIAIGAKKMEKAMELLAKQPELVTYGLEQVKNAIEMGAVETVLVIEDLLSSDEQERLTIERMLEDIENKRGEVILVPKESPIYFELKNLTGILAILRFRIN DEKRQAVKLHIESEDDLWLLHLILEKDDKVVAKTTRDVGESRRIPMTIILKVDYTEFQEFTNRLRIHGIIEDAPERFGIKGAHHTINLDIGDEIIIIKQQWRSRIIIALVDFDEYLIAIPFEQGIKILSEKSLRPLNEEEGIIEQNALEIATELAEYVKQYDPDAILLAGPGFFKEEVSKKVNAILKNKKIYIDSVSSATRAGLHEVLKRDIIDKIMTDYEIAIGAKKMEKAMELLAKQPELVTYGLEQVKNAIEMGAVETVLVIEDLLSSDEQERLTIERMLEDIENKRGEVILVPKESPIYFELKNLTGILAILRFRIN 3oc4-a1-m1-cB_3oc4-a1-m1-cA Crystal Structure of a pyridine nucleotide-disulfide family oxidoreductase from the Enterococcus faecalis V583 Q833L5 Q833L5 2.6 X-RAY DIFFRACTION 168 0.993 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 414 415 SLKIVIIGASFAGISAAIASRKKYPQAEISLIDKQATVGYLSGARYITEEELRRQKIQLLLNREVVADVENQLIAWTRKEEQQWYSYDKLILATGASQFSTQIRGSQTEKLLKYKFAVPLLENSQTVAVIGAGPIGEAIDFLVKKKTVHVFESLENLLPKYFDKEVAEVQKSLEKQAVIFHFEETVLGIEETANGIVLETSEQEISCDSGIFALNLHPQLAYLDKKIQRNLDQTIAVDAYLQTSVPNVFAIGDCISVNEPVAETFYAPLVNNAVRTGLVVANNLEEKTHRFIGSLRTGTKVGDYYLASTGLTETEGLFFPQTLASIIVRQPAPPHGTEILGKLIYDKVTQRVLGAQLCSKNNCLEKINTLALSIQTGQTLTDLLQKDYFYQPSLTNIYDITNLGASAYWRENDE LKIVIIGASFAGISAAIASRKKYPQAEISLIDKQATVGYLSGRYITEEELRRQKIQLLLNREVVADVENQLIAWTRKEEQQWYSYDKLILATGASQFSTQIRGSQTEKLLKYKFLSAVPLLENSQTVAVIGAGPIGEAIDFLVKKKTVHVFESLENLLPKYFDKEVAEVQKSLEKQAVIFHFEETVLGIEETANGIVLETSEQEISCDSGIFALNLHPQLAYLDKKIQRNLDQTIAVDAYLQTSVPNVFAIGDCISVNEPVAETFYAPLVNNAVRTGLVVANNLEEKTHRFIGSLRTGTKVGDYYLASTGLTETEGLFFPQTLASIIVRQPAPPLQHGTEILGKLIYDKVTQRVLGAQLCSKNNCLEKINTLALSIQTGQTLTDLLQKDYFYQPSLTNIYDITNLGASAYWREND 3oc7-a1-m2-cA_3oc7-a1-m3-cA Crystal structure of an enoyl-CoA hydratase from Mycobacterium avium A0A0H2ZTL3 A0A0H2ZTL3 1.5 X-RAY DIFFRACTION 84 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 251 251 3oc7-a1-m1-cA_3oc7-a1-m2-cA 3oc7-a1-m1-cA_3oc7-a1-m3-cA 4knp-a1-m1-cA_4knp-a1-m2-cA 4knp-a1-m1-cA_4knp-a1-m3-cA 4knp-a1-m2-cA_4knp-a1-m3-cA MDALVDYAGPAATGGPVARLTLNSPHNRNALSTALVSQLHQGLRDASSDPAVRVVVLAHTGGTFCAGADSAYDMAVERAREMAALMRAIVESRLPVIAAIDGHVRAGGFGLVGACDIAVAGPRSSFALTEARIGVAPAIISLTLLPKLSARAAARYYLTGEKFDARRAEEIGLITMAAEDLDAAIDQLVTDVGRGSPQGLAASKALTTAAVLERFDRDAERLAEESARLFVSDEAREGMLAFLEKRSPNWT MDALVDYAGPAATGGPVARLTLNSPHNRNALSTALVSQLHQGLRDASSDPAVRVVVLAHTGGTFCAGADSAYDMAVERAREMAALMRAIVESRLPVIAAIDGHVRAGGFGLVGACDIAVAGPRSSFALTEARIGVAPAIISLTLLPKLSARAAARYYLTGEKFDARRAEEIGLITMAAEDLDAAIDQLVTDVGRGSPQGLAASKALTTAAVLERFDRDAERLAEESARLFVSDEAREGMLAFLEKRSPNWT 3oca-a1-m1-cA_3oca-a1-m1-cB Crystal structure of peptide deformylase from Ehrlichia chaffeensis Q2GI30 Q2GI30 2.4 X-RAY DIFFRACTION 31 0.983 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 179 179 SVLSIVTVPDKRLSLCSEEVEKVDQSIRKLVDDMFETMHANQGLGLAAVQVGVHKRILVMNVPEENVEDKIEGYELYGGPYCIINPKIVDISQEKVKLKEGCLSVPGYFDYIVRPQRIAVQYLDYNGNECIIKAQGWLARCLQHEIDHLNGTVFLKYLSKFKRDFAIEKVKKKERTDLI SVLSIVTVPDKRLSLCSEEVEKVDQSIRKLVDDMFETMHANQGLGLAAVQVGVHKRILVMNVPEEFEDDKIEGYELYGGPYCIINPKIVDISQEKVKLKEGCLSVPGYFDYIVRPQRIAVQYLDYNGNECIIKAQGWLARCLQHEIDHLNGTVFLKYLSKFKRDFAIEKVKKKERTDLI 3oce-a1-m1-cA_3oce-a1-m1-cB Crystal structure of fumarate lyase:delta crystallin from Brucella melitensis bound to cobalt Q2YLW1 Q2YLW1 2.58 X-RAY DIFFRACTION 133 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 461 461 3oce-a1-m1-cC_3oce-a1-m1-cD 3ocf-a1-m1-cB_3ocf-a1-m1-cA 3ocf-a1-m1-cD_3ocf-a1-m1-cC MTRREQDSLGERDIPMDAYFGIQTLRAVENFSLSDVALNHIPALVRALAMVKKAAATANYKLRQLPEPKYAAIVAACDDIIDGLLMEQFVVDVFQGGAGTSSNMNANEVIANRALEHLGRPRGDYQTIHPNDDVNMSQSTNDVYPTAVRLALLLSQNQVQTALHRLIAAFEAKGREFATVIKIGRTQLQDAVPITLGQEFEAFAATLREDTARLEEVAALFREVNLGGTAIGTRINASHAYAEQAIVELSQISGIELKATGNLVEASWDTGAFVTFSGILRRIAVKLSKIANDLRLLSSGPRSGLGEIRLPAVQPGSSIMPGKVNPVIPESVNQVCYQVIGNDLTVTMAAESGQLQLNAFEPLIVYNILSSMRLLGRAMTNLAERCVDGIEANVERCRAGAEESISLATALVPVVGYARAAEIAKQALASGQTVMEVAISKGLDASALTIMLDPLRMAFPP MTRREQDSLGERDIPMDAYFGIQTLRAVENFSLSDVALNHIPALVRALAMVKKAAATANYKLRQLPEPKYAAIVAACDDIIDGLLMEQFVVDVFQGGAGTSSNMNANEVIANRALEHLGRPRGDYQTIHPNDDVNMSQSTNDVYPTAVRLALLLSQNQVQTALHRLIAAFEAKGREFATVIKIGRTQLQDAVPITLGQEFEAFAATLREDTARLEEVAALFREVNLGGTAIGTRINASHAYAEQAIVELSQISGIELKATGNLVEASWDTGAFVTFSGILRRIAVKLSKIANDLRLLSSGPRSGLGEIRLPAVQPGSSIMPGKVNPVIPESVNQVCYQVIGNDLTVTMAAESGQLQLNAFEPLIVYNILSSMRLLGRAMTNLAERCVDGIEANVERCRAGAEESISLATALVPVVGYARAAEIAKQALASGQTVMEVAISKGLDASALTIMLDPLRMAFPP 3oce-a1-m1-cC_3oce-a1-m1-cB Crystal structure of fumarate lyase:delta crystallin from Brucella melitensis bound to cobalt Q2YLW1 Q2YLW1 2.58 X-RAY DIFFRACTION 203 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 460 461 3oce-a1-m1-cD_3oce-a1-m1-cA 3ocf-a1-m1-cB_3ocf-a1-m1-cC 3ocf-a1-m1-cD_3ocf-a1-m1-cA MTRREQDSLGERDIPMDAYFGIQTLRAVENFSLSDVALNHIPALVRALAMVKKAAATANYKLRQLPEPKYAAIVAACDDIIDGLLMEQFVVDVFQGGAGTSSNMNANEVIANRALEHLGRPRGDYQTIHPNDDVNMSQSTNDVYPTAVRLALLLSQNQVQTALHRLIAAFEAKGREFATVIKIGRTQLQDAVPITLGQEFEAFAATLREDTARLEEVAALFREVNLGGTAIGTRINASHAYAEQAIVELSQISGIELKATGNLVEASWDTGAFVTFSGILRRIAVKLSKIANDLRLLSSGPRSGLGEIRLPAVQPGSSIMPGKVNPVIPESVNQVCYQVIGNDLTVTMAAESGQLQLNAFEPLIVYNILSSMRLLGRAMTNLAERCVDGIEANVERCRAGAEESISLATALVPVVGYARAAEIAKQALASGQTVMEVAISKGLDASALTIMLDPLRMAFP MTRREQDSLGERDIPMDAYFGIQTLRAVENFSLSDVALNHIPALVRALAMVKKAAATANYKLRQLPEPKYAAIVAACDDIIDGLLMEQFVVDVFQGGAGTSSNMNANEVIANRALEHLGRPRGDYQTIHPNDDVNMSQSTNDVYPTAVRLALLLSQNQVQTALHRLIAAFEAKGREFATVIKIGRTQLQDAVPITLGQEFEAFAATLREDTARLEEVAALFREVNLGGTAIGTRINASHAYAEQAIVELSQISGIELKATGNLVEASWDTGAFVTFSGILRRIAVKLSKIANDLRLLSSGPRSGLGEIRLPAVQPGSSIMPGKVNPVIPESVNQVCYQVIGNDLTVTMAAESGQLQLNAFEPLIVYNILSSMRLLGRAMTNLAERCVDGIEANVERCRAGAEESISLATALVPVVGYARAAEIAKQALASGQTVMEVAISKGLDASALTIMLDPLRMAFPP 3ocf-a1-m1-cA_3ocf-a1-m1-cC Crystal structure of fumarate lyase:delta crystallin from Brucella melitensis in native form Q2YLW1 Q2YLW1 2.1 X-RAY DIFFRACTION 196 0.998 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 444 444 3oce-a1-m1-cC_3oce-a1-m1-cA 3oce-a1-m1-cD_3oce-a1-m1-cB 3ocf-a1-m1-cB_3ocf-a1-m1-cD TRREQDSLGERDIPMDAYFGIQTLRAVENFSLSDVALNHIPALVRALAMVKKAAATANYKLRQLPEPKYAAIVAACDDIIDGLLMEQFVVDVFQGGAGTSSNMNANEVIANRALEHLGRPRGDYQTIHPNDDVNMSQSTNDVYPTAVRLALLLSQNQVQTALHRLIAAFEAKGREFATVIKIGRTQLQDAVPITLGQEFEAFAATLREDTARLEEVAALFREVNLGGAYAEQAIVELSQISGIELKATGNLVEASWDTGAFVTFSGILRRIAVKLSKIANDLRLLSSGPRSGLGEIRLPAVQPGSSIMPGKVNPVIPESVNQVCYQVIGNDLTVTMAAESGQLQLNAFEPLIVYNILSSMRLLGRAMTNLAERCVDGIEANVERCRAGAEESISLATALVPVVGYARAAEIAKQALASGQTVMEVAISKGLDASALTIMLDPLR TRREQDSLGERDIPMDAYFGIQTLRAVENFSLSDVALNHIPALVRALAMVKKAAATANYKLRQLPEPKYAAIVAACDDIIDGLLMEQFVVDVFQGGAGTSSNMNANEVIANRALEHLGRPRGDYQTIHPNDDVNMSQSTNDVYPTAVRLALLLSQNQVQTALHRLIAAFEAKGREFATVIKIGRTQLQDAVPITLGQEFEAFAATLREDTARLEEVAALFREVNLGGTAYAEQAIVELSQISGIELKATGNLVEASWDTGAFVTFSGILRRIAVKLSKIANDLRLLSSGPRSGLGEIRLPAVQPGSSIMPGKVNPVIPESVNQVCYQVIGNDLTVTMAAESGQLQLNAFEPLIVYNILSSMRLLGRAMTNLAERCVDGIEANVERCRAGAEESISLATALVPVVGYARAAEIAKQALASGQTVMEVAISKGLDASALTIMLDPL 3oci-a1-m1-cA_3oci-a1-m1-cB Crystal structure of TBP (TATA box binding protein) Q8ST28 Q8ST28 1.899 X-RAY DIFFRACTION 89 1.0 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 179 180 3eik-a1-m1-cA_3eik-a1-m1-cB SGIIPTLQNVVATVNLSCKLDLKNIALRARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVITGAKSEKSSRMAAQRYAKIIHKLGFNATFDDFKIQNIVSSCDIKFSIRLEGLAYAHSNYCSYEPELFPGLIYRMVKPKIVLLIFVSGKIVLTGAKVRDDIYQAFNNIYPVLIQHRK SGIIPTLQNVVATVNLSCKLDLKNIALRARNAEYNPKRFAAVIMRIREPKTTALIFASGKMVITGAKSEKSSRMAAQRYAKIIHKLGFNATFDDFKIQNIVSSCDIKFSIRLEGLAYAHSNYCSYEPELFPGLIYRMVKPKIVLLIFVSGKIVLTGAKVRDDIYQAFNNIYPVLIQHRKA 3ocm-a1-m2-cA_3ocm-a1-m4-cA The crystal structure of a domain from a possible membrane protein of Bordetella parapertussis Q7W867 Q7W867 1.801 X-RAY DIFFRACTION 22 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 146 146 3ocm-a1-m1-cA_3ocm-a1-m3-cA 3ocm-a1-m1-cA_3ocm-a1-m4-cA 3ocm-a1-m2-cA_3ocm-a1-m3-cA AFGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDELP AFGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDELP 3ocm-a1-m4-cB_3ocm-a1-m1-cA The crystal structure of a domain from a possible membrane protein of Bordetella parapertussis Q7W867 Q7W867 1.801 X-RAY DIFFRACTION 18 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 143 146 3ocm-a1-m1-cB_3ocm-a1-m3-cA 3ocm-a1-m2-cB_3ocm-a1-m4-cA 3ocm-a1-m3-cB_3ocm-a1-m2-cA FGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDE AFGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDELP 3ocm-a2-m1-cB_3ocm-a2-m5-cB The crystal structure of a domain from a possible membrane protein of Bordetella parapertussis Q7W867 Q7W867 1.801 X-RAY DIFFRACTION 14 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 143 143 3ocm-a2-m1-cA_3ocm-a2-m5-cA FGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDE FGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDE 3ocm-a3-m1-cB_3ocm-a3-m1-cA The crystal structure of a domain from a possible membrane protein of Bordetella parapertussis Q7W867 Q7W867 1.801 X-RAY DIFFRACTION 97 1.0 519 (Bordetella parapertussis) 519 (Bordetella parapertussis) 143 146 3ocm-a1-m1-cB_3ocm-a1-m1-cA 3ocm-a1-m2-cB_3ocm-a1-m2-cA 3ocm-a1-m3-cB_3ocm-a1-m3-cA 3ocm-a1-m4-cB_3ocm-a1-m4-cA 3ocm-a2-m1-cB_3ocm-a2-m1-cA 3ocm-a2-m5-cB_3ocm-a2-m5-cA FGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDE AFGVEERNVSGVLTLAERSIRSITPRTDVSWVNIDDDAATIRQQLTAAPHSFFPVCRGSLDEVVGIGRAKDLVADLITEGRVRRNRLRDPIIVHESIGILRLDTLKRSRGQLVLVADEFGAIEGLVTPIDVFEAIAGEFPDEDELP 3oco-a1-m1-cA_3oco-a1-m1-cB The crystal structure of a Hemolysin-like protein containing CBS domain of Oenococcus oeni PSU Q04HE1 Q04HE1 2.204 X-RAY DIFFRACTION 41 1.0 203123 (Oenococcus oeni PSU-1) 203123 (Oenococcus oeni PSU-1) 127 127 ANFQRAFENDKVASDVVDRTSSVVDVDETIADALLLYLEEQYSRFPVTADNDKDKIIGYAYNYDIVRQARIDDKAKISTIRDIVSVPENKVPDVEESAHRVPAIVIDEYGGTSGIITDKDVYEELFG ANFQRAFENDKVASDVVDRTSSVVDVDETIADALLLYLEEQYSRFPVTADNDKDKIIGYAYNYDIVRQARIDDKAKISTIRDIVSVPENKVPDVEESAHRVPAIVIDEYGGTSGIITDKDVYEELFG 3ocq-a1-m1-cA_3ocq-a1-m2-cA crystal structure of tRNA-specific Adenosine deaminase from Salmonella enterica Q57LE3 Q57LE3 2.05 X-RAY DIFFRACTION 105 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 146 146 1z3a-a1-m1-cA_1z3a-a1-m1-cB 6vpc-a1-m1-cE_6vpc-a1-m1-cF 8e2p-a1-m1-cA_8e2p-a1-m1-cB 8e2p-a2-m1-cC_8e2p-a2-m1-cD 8e2s-a4-m1-cG_8e2s-a4-m1-cH LDHEYWMRHALTLAKRAWDEREVPVGAVLVHNHRVIGEGWNRPIGRHDPTAHAEIMALRQGGLVLQNYRLLDTTLYVTLEPCVMCAGAMVHSRIGRVVFGARDAKTGAAGSLIDVLHHPGMNHRVEIIEGVLRDECATLLSDFFRM LDHEYWMRHALTLAKRAWDEREVPVGAVLVHNHRVIGEGWNRPIGRHDPTAHAEIMALRQGGLVLQNYRLLDTTLYVTLEPCVMCAGAMVHSRIGRVVFGARDAKTGAAGSLIDVLHHPGMNHRVEIIEGVLRDECATLLSDFFRM 3ocr-a2-m2-cB_3ocr-a2-m4-cB Crystal structure of aldolase II superfamily protein from Pseudomonas syringae Q48HR6 Q48HR6 1.95 X-RAY DIFFRACTION 91 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 247 247 3ocr-a1-m1-cA_3ocr-a1-m3-cA 3ocr-a1-m1-cA_3ocr-a1-m4-cA 3ocr-a1-m2-cA_3ocr-a1-m3-cA 3ocr-a1-m2-cA_3ocr-a1-m4-cA 3ocr-a2-m1-cB_3ocr-a2-m3-cB 3ocr-a2-m1-cB_3ocr-a2-m4-cB 3ocr-a2-m2-cB_3ocr-a2-m3-cB GSVRDRVSPQEWEVRVKLAAAYRLAALKRWTDHIYTHFSARVPGPDEHFLINAFGLLFDEITASNLVKVDIDGTIVDDPTGLGINYAGYVIHSAIHAARHDLQAVLHTHTRDGIAVSAQKDGLLPISQHSIAFSGRVAYHGYEGIALDLSERERLVADLGDKSVILRNHGLLTGGVSVEHAIQQLHALEYACNIQIAAQSAGNAELVFPPREVIAKVEEQAGNGPGVARHWNALIRELERSGTDYRD GSVRDRVSPQEWEVRVKLAAAYRLAALKRWTDHIYTHFSARVPGPDEHFLINAFGLLFDEITASNLVKVDIDGTIVDDPTGLGINYAGYVIHSAIHAARHDLQAVLHTHTRDGIAVSAQKDGLLPISQHSIAFSGRVAYHGYEGIALDLSERERLVADLGDKSVILRNHGLLTGGVSVEHAIQQLHALEYACNIQIAAQSAGNAELVFPPREVIAKVEEQAGNGPGVARHWNALIRELERSGTDYRD 3od1-a1-m1-cA_3od1-a1-m1-cB The crystal structure of an ATP phosphoribosyltransferase regulatory subunit/histidyl-tRNA synthetase from Bacillus halodurans C Q9K6Z0 Q9K6Z0 1.97 X-RAY DIFFRACTION 220 0.992 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 368 368 KPFFEKPFGRDTLPEWYKTKKNICDQTEEINLWGYDIETPTLEYYETVGVVSAILDQQLFKLLDQQGNTLVLRPDTAPIARLVASSLKDRAYPLRLAYQSNVYRAQQGKPAEFEQLGVELIGDGTASADGEVIALIAALKRAGLSEFKVAIGHVGYVNALLDVVGNEQRADRLRRFLYEKNYVGYREHVKSLNLSTIDKSRLNLLSLRGGRAAIEEARGLIQTEKGKTALAETKLYEVLESYGASEYVKFDLTLVLHSYYTGVVFEGYGNRLGVPLCSGGRYDELLSKFHRPAQATGFGVRIDLLVEALNGHEQTCILFSNERRFEAIELARKKRANGEAVVLQDLAGVTDVDASSNYQDVIYCIGTA SKPFFEKPFGRDTLPEWYKTKKNICDQTEEINLWGYDIETPTLEYYETVGVVSAILDQQLFKLLDQQGNTLVLRPDTAPIARLVASSLKDRAYPLRLAYQSNVYRAQQNKPAEFEQLGVELIGDGTASADGEVIALIAALKRAGLSEFKVAIGHVGYVNALLDVVGNEQRADRLRRFLYEKNYVGYREHVKSLNLSTIDKSRLNLLSLRGGRAAIEEARGLIQTEKGKTALAETKLYEVLESYGASEYVKFDLTLVLHSYYTGVVFEGYGNRLGVPLCSGGRYDELLSKFHRPAQATGFGVRIDLLVEALNNGHEQTCILFSNERRFEAIELARKKRANGEAVVLQDLAGVTDVDASSNYQDVIYCIG 3od2-a1-m2-cB_3od2-a1-m1-cA E. coli NikR soaked with excess nickel ions P0A6Z6 P0A6Z6 2.6 X-RAY DIFFRACTION 63 1.0 562 (Escherichia coli) 562 (Escherichia coli) 129 132 2hza-a1-m1-cB_2hza-a1-m2-cA 2hza-a1-m2-cB_2hza-a1-m1-cA 3bku-a1-m1-cD_3bku-a1-m1-cB 3od2-a1-m1-cB_3od2-a1-m2-cA MQRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKE MQRVTITLDDDLLETLDSLSQRRGYNNRSEAIRDILRSALAQEATQQHGTQGFAVLSYVYEHEKRDLASRIVSTQHHHHDLSVATLHVHINHDDCLEIAVLKGDMGDVQHFADDVIAQRGVRHGHLQCLPKE 3od9-a2-m1-cC_3od9-a2-m2-cC Crystal structure of PliI-Ah, periplasmic lysozyme inhibitor of I-type lysozyme from Aeromonas hydrophyla A0KHJ5 A0KHJ5 1.411 X-RAY DIFFRACTION 48 1.0 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 119 119 3od9-a1-m1-cB_3od9-a1-m1-cA GFFKQLTLPSGQVVTVSEGGEPASTGSYDVRLYSGANPQFPLDQFIDGKVLPRDGSIKELKLLDLNGDKQPELIVVVESAGSGSYLSADAFTLNPQEGLDSFNHVEGLAPNEDVIQALK GFFKQLTLPSGQVVTVSEGGEPASTGSYDVRLYSGANPQFPLDQFIDGKVLPRDGSIKELKLLDLNGDKQPELIVVVESAGSGSYLSADAFTLNPQEGLDSFNHVEGLAPNEDVIQALK 3odg-a1-m2-cA_3odg-a1-m3-cA crystal structure of xanthosine phosphorylase bound with xanthine from Yersinia pseudotuberculosis Q66D48 Q66D48 1.64 X-RAY DIFFRACTION 95 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 273 273 3odg-a1-m1-cA_3odg-a1-m2-cA 3odg-a1-m1-cA_3odg-a1-m3-cA DFNELPFQAVKYIQKIKPGFKPQIAFILGSGLGDLVDQITNDTTISYADIPGFPVSSVHGHAGELVLGDLCGVPVMCMKGRGHFYEGKGMSIMTNPVRTFKLMGCEFLFCTNAAGSLRPEVLPGSVVMLKDHINTMPGTPLVGPNDDRFGPRFFSLANAYDKDLRADMAKIAQQLDIPLTEGVFVSYPGPCFETPAEIRMMQIIGGDVVGMSVVPEVLSAAHCGLKVIALTAITNLAEGLSDVVLSHEQTLKFAKVASVNFTKLIEAFLKSKA DFNELPFQAVKYIQKIKPGFKPQIAFILGSGLGDLVDQITNDTTISYADIPGFPVSSVHGHAGELVLGDLCGVPVMCMKGRGHFYEGKGMSIMTNPVRTFKLMGCEFLFCTNAAGSLRPEVLPGSVVMLKDHINTMPGTPLVGPNDDRFGPRFFSLANAYDKDLRADMAKIAQQLDIPLTEGVFVSYPGPCFETPAEIRMMQIIGGDVVGMSVVPEVLSAAHCGLKVIALTAITNLAEGLSDVVLSHEQTLKFAKVASVNFTKLIEAFLKSKA 3odh-a2-m1-cE_3odh-a2-m1-cF Structure of OkrAI/DNA complex 2.3 X-RAY DIFFRACTION 71 1.0 64972 (Oceanobacter kriegii) 64972 (Oceanobacter kriegii) 194 194 3odh-a1-m1-cB_3odh-a1-m1-cA MKIKRIEVLINNGSVPGIPMILNEIQDAIKTVSWPEGNNSFVINPVRKGNGVKPIKNSCMRHLHQKGWALEHPVRIKAEMRPGPLDAVKMIGGKAFALEWETGNISSSHRAINKMVMGMLERVIIGGVLILPSRDMYNYLTDRVGNFRELEPYFSVWRQFNLKDAYLAIVEIEHDSVDAQVSLIPKGTDGRAIR MKIKRIEVLINNGSVPGIPMILNEIQDAIKTVSWPEGNNSFVINPVRKGNGVKPIKNSCMRHLHQKGWALEHPVRIKAEMRPGPLDAVKMIGGKAFALEWETGNISSSHRAINKMVMGMLERVIIGGVLILPSRDMYNYLTDRVGNFRELEPYFSVWRQFNLKDAYLAIVEIEHDSVDAQVSLIPKGTDGRAIR 3odj-a2-m1-cA_3odj-a2-m2-cA Crystal structure of H. influenzae rhomboid GlpG with disordered loop 4, helix 5 and loop 5 P44783 P44783 2.84 X-RAY DIFFRACTION 17 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 157 157 QGKITLILTALCVLIYIAQQLGFEDDIMYLMHYPAYEEQDSEVWRYISHTLVHLSNLHILFNLSWFFIFGGMIERTFGSVKLLMLYVVASAITGYVQNYVSGPAFFGLSGVVYAVLGYVFIRDKLNHNAAHISGLIVGLIWGFIDSKLRKNSLELVP QGKITLILTALCVLIYIAQQLGFEDDIMYLMHYPAYEEQDSEVWRYISHTLVHLSNLHILFNLSWFFIFGGMIERTFGSVKLLMLYVVASAITGYVQNYVSGPAFFGLSGVVYAVLGYVFIRDKLNHNAAHISGLIVGLIWGFIDSKLRKNSLELVP 3odm-a1-m1-cE_3odm-a1-m1-cD Archaeal-type phosphoenolpyruvate carboxylase Q8XLE8 Q8XLE8 2.95 X-RAY DIFFRACTION 21 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 524 526 3odm-a1-m1-cA_3odm-a1-m1-cC 3odm-a2-m1-cG_3odm-a2-m1-cB 3odm-a2-m1-cH_3odm-a2-m1-cF MKIPCSMMTQHPDNVETYISIQQEPAEAIKGLTPQDKGGLGIEEVMIDFEGKLTPYHQTSQIALGLISNGIIPGKDVRVTPRIPNANKESVFRQLMSIMSIIETNVQSKELTGTPAISEVVVPMIETGKEISEFQDRVNSVVDMGNKNYKTKLDLNSVRIIPLVEDVPALANIDRILDEHYEIEKSKGHILKDLRIMIARSDTAMSYGLISGVLSVLMAVDGAYKWGEKHGVTISPILGCGSLPFRGHFSEENIDEILATYSGIKTFTFQSALRYDHGEEATKHAVRELKEKIAQSKPRNFSEEDKDLMKEFIGICSKHYLQTFLKVIDTVSFVSDFIPKNRDRLTNLDNVADLVKDEVLKQEILSIDNSKEYAVPRAISFTGAMYTLGMPPELMGMGRALNEIKTKYGQEGIDKLLEIYPILRKDLAFAARFANGGVSKKIIDEEARQEYKEDMKYVNEILNLGLDYDFLNENEFYHTLLKTTKPIIMHLMGLEENVMRNSTEELKILNEWIVRMGKVRGSIG MKIPCSMMTQHPDNVETYISIQQEPAEAIKGLTPQDKGGLGIEEVMIDFEGKLTPYHQTSQIALGLISNGIIPGKDVRVTPRIPNANKESVFRQLMSIMSIIETNVQSKELTGTPAISEVVVPMIETGKEISEFQDRVNSVVDMGNKNYKTKLDLNSVRIIPLVEDVPALANIDRILDEHYEIEKSKGHILKDLRIMIARSDTAMSYGLISGVLSVLMAVDGAYKWGEKHGVTISPILGCGSLPFRGHFSEENIDEILATYSGIKTFTFQSALRYDHGEEATKHAVRELKEKIAQSKPRNFSEEDKDLMKEFIGICSKHYLQTFLKVIDTVSFVSDFIPKNRDRLTVANLDNVADLVKDEVLKQEILSIDNSKEYAVPRAISFTGAMYTLGMPPELMGMGRALNEIKTKYGQEGIDKLLEIYPILRKDLAFAARFANGGVSKKIIDEEARQEYKEDMKYVNEILNLGLDYDFLNENEFYHTLLKTTKPIIMHLMGLEENVMRNSTEELKILNEWIVRMGKVRGSIG 3odm-a6-m1-cG_3odm-a6-m1-cF Archaeal-type phosphoenolpyruvate carboxylase Q8XLE8 Q8XLE8 2.95 X-RAY DIFFRACTION 57 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 527 529 3odm-a1-m1-cD_3odm-a1-m1-cC 3odm-a1-m1-cE_3odm-a1-m1-cA 3odm-a2-m1-cG_3odm-a2-m1-cF 3odm-a2-m1-cH_3odm-a2-m1-cB 3odm-a3-m1-cE_3odm-a3-m1-cA 3odm-a4-m1-cH_3odm-a4-m1-cB 3odm-a5-m1-cD_3odm-a5-m1-cC MKIPCSMMTQHPDNVETYISIQQEPAEAIKGLTPQDKGGLGIEEVMIDFEGKLTPYHQTSQIALGLISNGIIPGKDVRVTPRIPNANKESVFRQLMSIMSIIETNVQSKELTGTPAISEVVVPMIETGKEISEFQDRVNSVVDMGNKNYKTKLDLNSVRIIPLVEDVPALANIDRILDEHYEIEKSKGHILKDLRIMIARSDTAMSYGLISGVLSVLMAVDGAYKWGEKHGVTISPILGCGSLPFRGHFSEENIDEILATYSGIKTFTFQSALRYDHGEEATKHAVRELKEKIAQSKPRNFSEEDKDLMKEFIGICSKHYLQTFLKVIDTVSFVSDFIPKNRDRLTEVANLDNVADLVKDEVLKQEILSIDNSKEYAVPRAISFTGAMYTLGMPPELMGMGRALNEIKTKYGQEGIDKLLEIYPILRKDLAFAARFANGGVSKKIIDEEARQEYKEDMKYVNEILNLGLDYDFLNENEFYHTLLKTTKPIIMHLMGLEENVMRNSTEELKILNEWIVRMGKVRGSIG MKIPCSMMTQHPDNVETYISIQQEPAEAIKGLTPQDKGGLGIEEVMIDFEGKLTPYHQTSQIALGLISNGIIPGKDVRVTPRIPNANKESVFRQLMSIMSIIETNVQSKELTGTPAISEVVVPMIETGKEISEFQDRVNSVVDMGNKNYKTKLDLNSVRIIPLVEDVPALANIDRILDEHYEIEKSKGHILKDLRIMIARSDTAMSYGLISGVLSVLMAVDGAYKWGEKHGVTISPILGCGSLPFRGHFSEENIDEILATYSGIKTFTFQSALRYDHGEEATKHAVRELKEKIAQSKPRNFSEEDKDLMKEFIGICSKHYLQTFLKVIDTVSFVSDFIPKNRDRLTNREVANLDNVADLVKDEVLKQEILSIDNSKEYAVPRAISFTGAMYTLGMPPELMGMGRALNEIKTKYGQEGIDKLLEIYPILRKDLAFAARFANGGVSKKIIDEEARQEYKEDMKYVNEILNLGLDYDFLNENEFYHTLLKTTKPIIMHLMGLEENVMRNSTEELKILNEWIVRMGKVRGSIG 3odp-a1-m1-cA_3odp-a1-m2-cA Crystal structure of a putative tagatose-6-phosphate ketose/aldose isomerase (NT01CX_0292) from CLOSTRIDIUM NOVYI NT at 2.35 A resolution A0Q2D8 A0Q2D8 2.35 X-RAY DIFFRACTION 195 1.0 386415 (Clostridium novyi NT) 386415 (Clostridium novyi NT) 384 384 GKNLLGYSEDYLKERKGYITAKEICNQPKLWRETYEIILSQREKLKSFLDNFAKKPNAKIVITGAGSSAFVGNSVVSYLNAKENIKIEAIATTDIVSHPFYYLKKDEPTLLISCARSGNSPESTAAVTLAEKIVDDISHLIITCNSEGKLALHAKRNYNSFLLLPEESNDKGFATGSFSTLLSCLLIFNLDKLESIGKQIESISQGEKVLVNNVELKKIVGEKFKRTVYLGAANAFGLAKESALKVLELTAGKIATLYDTPLGFRHGPKSIIDDETLIVIFFSNDTYAREYEYDLLKEVYSQNGNHKVLAISEYEDKLIEDNSDYFIAINKEEQEYEDDSFLSLDYLLNAQYAFINSELGIGPDNPCPTGEVNRVVKGVIIHDY GKNLLGYSEDYLKERKGYITAKEICNQPKLWRETYEIILSQREKLKSFLDNFAKKPNAKIVITGAGSSAFVGNSVVSYLNAKENIKIEAIATTDIVSHPFYYLKKDEPTLLISCARSGNSPESTAAVTLAEKIVDDISHLIITCNSEGKLALHAKRNYNSFLLLPEESNDKGFATGSFSTLLSCLLIFNLDKLESIGKQIESISQGEKVLVNNVELKKIVGEKFKRTVYLGAANAFGLAKESALKVLELTAGKIATLYDTPLGFRHGPKSIIDDETLIVIFFSNDTYAREYEYDLLKEVYSQNGNHKVLAISEYEDKLIEDNSDYFIAINKEEQEYEDDSFLSLDYLLNAQYAFINSELGIGPDNPCPTGEVNRVVKGVIIHDY 3odu-a1-m1-cB_3odu-a1-m1-cA The 2.5 A structure of the CXCR4 chemokine receptor in complex with small molecule antagonist IT1t P61073 P61073 2.5 X-RAY DIFFRACTION 56 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 456 466 CFREENANFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQKKLRSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHATNSQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLSHSGSNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGSKGHQKRKALKTTVILILAFFACWLPYYIGISIDSFILLEIIKQGCEFENTVHKWISITEALAFFHCCLNPILYAFLGAKFKTSAQHALTS PCFREENANFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQKKLRSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHATNSQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLSHSGSNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGSKGHQKRKALKTTVILILAFFACWLPYYIGISIDSFILLEIIKQGCEFENTVHKWISITEALAFFHCCLNPILYAFLGAKFKTSAQHALTSGRPLEVLFQ 3oe0-a1-m1-cA_3oe0-a1-m2-cA Crystal structure of the CXCR4 chemokine receptor in complex with a cyclic peptide antagonist CVX15 P61073 P61073 2.9 X-RAY DIFFRACTION 46 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 433 433 3oe9-a1-m1-cB_3oe9-a1-m1-cA KEPCFREENANFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHATNSQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLSHNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGHQKRKALKPTVILILAFFACWLPYYIGISIDSFILLEIIKQGCEFENTVHKWISITEALAFFHCCLNPILYA KEPCFREENANFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHATNSQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLSHNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGHQKRKALKPTVILILAFFACWLPYYIGISIDSFILLEIIKQGCEFENTVHKWISITEALAFFHCCLNPILYA 3oe3-a2-m1-cB_3oe3-a2-m1-cD Crystal structure of PliC-St, periplasmic lysozyme inhibitor of C-type lysozyme from Salmonella typhimurium Q8ZPY8 Q8ZPY8 1.51 X-RAY DIFFRACTION 49 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 79 83 3oe3-a1-m1-cA_3oe3-a1-m1-cC 3oe3-a3-m1-cE_3oe3-a3-m1-cF QEISKSIYTCNDNQVEVIYVNTEAGNAYAIISQVNEIPRLKANYEAIDKNYTYKLYTKGKTAELVEGDDKPVLSNCSLA QEISKSIYTCNDNQVEVIYVNTEAGNAYAIISQVNEIPRLKASGANYEAIDKNYTYKLYTKGKTAELVEGDDKPVLSNCSLAN 3oe8-a2-m1-cB_3oe8-a2-m1-cA Crystal structure of the CXCR4 chemokine receptor in complex with a small molecule antagonist IT1t in P1 spacegroup P61073 P61073 3.1 X-RAY DIFFRACTION 43 0.984 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 426 433 PCFNANFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQKKLRSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHAQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGSKGHQKRKALKTTVILILAFFACWLPYYIGISIDSFILQGCEFENTVHKWISITEALAFFHCCLNPILYAF PCNFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQKKLRSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHATNSQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLSHSGSNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYHQKRKALKTTVILILAFFACWLPYYIGISIDSFILLEIIKQGCEFENTVHKWISITEALAFFHCCLNPILYAFL 3oe8-a2-m1-cB_3oe8-a2-m1-cC Crystal structure of the CXCR4 chemokine receptor in complex with a small molecule antagonist IT1t in P1 spacegroup P61073 P61073 3.1 X-RAY DIFFRACTION 27 0.988 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 426 428 3oe6-a1-m1-cA_3oe6-a1-m2-cA 3oe8-a1-m1-cB_3oe8-a1-m1-cC PCFNANFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQKKLRSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHAQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEADDRYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGSKGHQKRKALKTTVILILAFFACWLPYYIGISIDSFILQGCEFENTVHKWISITEALAFFHCCLNPILYAF PCFFNKIFLPTIYSIIFLTGIVGNGLVILVMGYQKKLRSMTDKYRLHLSVADLLFVITLPFWAVDAVANWYFGNFLCKAVHVIYTVNLYSSVWILAFISLDRYLAIVHAQRPRKLLAEKVVYVGVWIPALLLTIPDFIFANVSEARYICDRFYPNDLWVVVFQFQHIMVGLILPGIVILSCYCIIISKLSNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGSKGHQKRKALKTTVILILAFFACWLPYYIGISIDSFILLEIIKQGCEFENTVHKWISITEALAFFHCCLNPILYAFL 3oea-a3-m2-cA_3oea-a3-m2-cB Crystal structure of the Q121E mutants of C.polysaccharolyticus CBM16-1 bound to cellopentaose Q9ZA17 Q9ZA17 1.35 X-RAY DIFFRACTION 39 1.0 44256 (Caldanaerobius polysaccharolyticus) 44256 (Caldanaerobius polysaccharolyticus) 146 146 2zew-a1-m1-cA_2zew-a1-m1-cB 2zex-a3-m2-cB_2zex-a3-m1-cA 2zey-a3-m2-cB_2zey-a3-m1-cA 3oeb-a2-m1-cA_3oeb-a2-m2-cA SHMVNMVSNPGFEDGLDSWQDWQQDMSAVPEAAHNGALGLKIGGGKAAGGGQDIPLKPNTTYILGAWAKFDSKPAGTFDVVVQYHLKDANNTYVQHILNFNETDWTYKQLLFTTPDVFGSTPELALWKGDTSKANLYVDDVYLVEV SHMVNMVSNPGFEDGLDSWQDWQQDMSAVPEAAHNGALGLKIGGGKAAGGGQDIPLKPNTTYILGAWAKFDSKPAGTFDVVVQYHLKDANNTYVQHILNFNETDWTYKQLLFTTPDVFGSTPELALWKGDTSKANLYVDDVYLVEV 3oec-a1-m1-cB_3oec-a1-m1-cD Crystal structure of carveol dehydrogenase from Mycobacterium thermoresistibile E1C9L4 E1C9L4 1.95 X-RAY DIFFRACTION 12 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 271 275 3oec-a1-m1-cC_3oec-a1-m1-cA NRLQGKVAFITGAARGQGRTHAVRLAQDGADIVAIDLCRQNLDYAQGSPEELKETVRLVEEQGRRIIARQADVRDLASLQAVVDEALAEFGHIDILVSNVGISNQGEVVSLTDQQWSDILQTNLIGAWHACRAVLPSMIERGQGGSVIFVSSTVGLRGAPGQSHYAASKHGVQGLMLSLANEVGRHNIRVNSVNPGAVNTEMALNEKLLKMFLPHLTREDAAELFSQLTLLPIPWVEPEDVSNAVAWLASDEARYIHGAAIPVDGGQLARA NRLQGKVAFITGAARGQGRTHAVRLAQDGADIVAIDLCRQQNLDYAQGSPEELKETVRLVEEQGRRIIARQADVRDLASLQAVVDEALAEFGHIDILVSNVGISNQGEVVSLTDQQWSDILQTNLIGAWHACRAVLPSMIERGQGGSVIFVSSTVGLRGAPGQSHYAASKHGVQGLMLSLANEVGRHNIRVNSVNPGAVNTEMALNEKLLKMFLPHLENPTREDAAELFSQLTLLPIPWVEPEDVSNAVAWLASDEARYIHGAAIPVDGGQLARA 3oec-a1-m1-cC_3oec-a1-m1-cD Crystal structure of carveol dehydrogenase from Mycobacterium thermoresistibile E1C9L4 E1C9L4 1.95 X-RAY DIFFRACTION 134 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 274 275 3oec-a1-m1-cB_3oec-a1-m1-cA NRLQGKVAFITGAARGQGRTHAVRLAQDGADIVAIDLCRQNLDYAQGSPEELKETVRLVEEQGRRIIARQADVRDLASLQAVVDEALAEFGHIDILVSNVGISNQGEVVSLTDQQWSDILQTNLIGAWHACRAVLPSMIERGQGGSVIFVSSTVGLRGAPGQSHYAASKHGVQGLMLSLANEVGRHNIRVNSVNPGAVNTEMALNEKLLKMFLPHLENPTREDAAELFSQLTLLPIPWVEPEDVSNAVAWLASDEARYIHGAAIPVDGGQLARA NRLQGKVAFITGAARGQGRTHAVRLAQDGADIVAIDLCRQQNLDYAQGSPEELKETVRLVEEQGRRIIARQADVRDLASLQAVVDEALAEFGHIDILVSNVGISNQGEVVSLTDQQWSDILQTNLIGAWHACRAVLPSMIERGQGGSVIFVSSTVGLRGAPGQSHYAASKHGVQGLMLSLANEVGRHNIRVNSVNPGAVNTEMALNEKLLKMFLPHLENPTREDAAELFSQLTLLPIPWVEPEDVSNAVAWLASDEARYIHGAAIPVDGGQLARA 3oec-a1-m1-cD_3oec-a1-m1-cA Crystal structure of carveol dehydrogenase from Mycobacterium thermoresistibile E1C9L4 E1C9L4 1.95 X-RAY DIFFRACTION 112 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 275 276 3oec-a1-m1-cB_3oec-a1-m1-cC NRLQGKVAFITGAARGQGRTHAVRLAQDGADIVAIDLCRQQNLDYAQGSPEELKETVRLVEEQGRRIIARQADVRDLASLQAVVDEALAEFGHIDILVSNVGISNQGEVVSLTDQQWSDILQTNLIGAWHACRAVLPSMIERGQGGSVIFVSSTVGLRGAPGQSHYAASKHGVQGLMLSLANEVGRHNIRVNSVNPGAVNTEMALNEKLLKMFLPHLENPTREDAAELFSQLTLLPIPWVEPEDVSNAVAWLASDEARYIHGAAIPVDGGQLARA NRLQGKVAFITGAARGQGRTHAVRLAQDGADIVAIDLCRQQPNLDYAQGSPEELKETVRLVEEQGRRIIARQADVRDLASLQAVVDEALAEFGHIDILVSNVGISNQGEVVSLTDQQWSDILQTNLIGAWHACRAVLPSMIERGQGGSVIFVSSTVGLRGAPGQSHYAASKHGVQGLMLSLANEVGRHNIRVNSVNPGAVNTEMALNEKLLKMFLPHLENPTREDAAELFSQLTLLPIPWVEPEDVSNAVAWLASDEARYIHGAAIPVDGGQLARA 3oei-a3-m1-cI_3oei-a3-m1-cJ Crystal structure of Mycobacterium tuberculosis RelJK (Rv3357-Rv3358-RelBE3) P9WF25 P9WF25 2.145 X-RAY DIFFRACTION 111 0.988 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 83 86 3oei-a1-m1-cA_3oei-a1-m1-cB 3oei-a2-m1-cE_3oei-a2-m1-cF 3oei-a4-m1-cN_3oei-a4-m1-cM SISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAFTKSVDELREMAG SISASEARQRLFPLIEQVNTDHQPVRITSRAGDAVLMSADDYDAWQETVYLLRSPENARRLMEAVARDKAGHSAFTKSVDELREMA 3oet-a1-m1-cA_3oet-a1-m1-cH D-Erythronate-4-Phosphate Dehydrogenase complexed with NAD P60802 P60802 2.36 X-RAY DIFFRACTION 64 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 370 373 3oet-a2-m1-cE_3oet-a2-m1-cB 3oet-a3-m1-cF_3oet-a3-m1-cC 3oet-a4-m1-cG_3oet-a4-m1-cD NAKILVDENPYARELFSRLGEVKAVPGPVEELNHADALVRSVTKVNESLLSGTPINFVGTATAGTDHVDEAWLKQAGIGFSAAPGCNAIAVVEYVFSALLLAERDGFSLRDRTIGIVGVGNVGSRLQTRLEALGIRTLLCDPPRAARGDEGDFRTLDELVQEADVLTFHTPLYKDGPYKTLHLADETLIRRLKPGAILINACRGPVVDNAALLARLNAGQPLSVVLDVWEGEPDLNVALLEAVDIGTSHIAGYTLEGKARGTTQVFEAYSAFIGREQRVALETLLPAPEFGRITLHGPLDQPTLKRLAHLVYDVRRDDAPLRKVAGIPGEFDKLRKNYLERREWSSLYVCDDETAAALLCKLGFNAVHHP NAKILVDENPYARELFSRLGEVKAVPGRPIPVEELNHADALVRSVTKVNESLLSGTPINFVGTATAGTDHVDEAWLKQAGIGFSAAPGCNAIAVVEYVFSALLLAERDGFSLRDRTIGIVGVGNVGSRLQTRLEALGIRTLLCDPPRAARGDEGDFRTLDELVQEADVLTFHTPLYKDGPYKTLHLADETLIRRLKPGAILINACRGPVVDNAALLARLNAGQPLSVVLDVWEGEPDLNVALLEAVDIGTSHIAGYTLEGKARGTTQVFEAYSAFIGREQRVALETLLPAPEFGRITLHGPLDQPTLKRLAHLVYDVRRDDAPLRKVAGIPGEFDKLRKNYLERREWSSLYVCDDETAAALLCKLGFNAVHHP 3of4-a2-m1-cC_3of4-a2-m2-cC Crystal structure of a FMN/FAD- and NAD(P)H-dependent nitroreductase (nfnB, IL2077) from Idiomarina loihiensis L2TR at 1.90 A resolution Q5R179 Q5R179 1.9 X-RAY DIFFRACTION 189 1.0 135577 (Idiomarina loihiensis) 135577 (Idiomarina loihiensis) 205 205 3of4-a1-m1-cA_3of4-a1-m1-cB YLEKLQQWRYATADFSGAHITDDVLDKLLNTTRLTASSYGLQPYCTLVIRNKGLREQLVNHSFGQQKVADSSALVIFAAKTGAVADIVDPYISELSQQRQLTNEEAENTRNYFTQKLQASAATRKEWAVRQAYIGLGTFLLAAAELEVDSCPEGIEHDAYDNILSLKDLGLSTVFACPVGYRSEADTTQFQKKVRQPLSRFKVVL YLEKLQQWRYATADFSGAHITDDVLDKLLNTTRLTASSYGLQPYCTLVIRNKGLREQLVNHSFGQQKVADSSALVIFAAKTGAVADIVDPYISELSQQRQLTNEEAENTRNYFTQKLQASAATRKEWAVRQAYIGLGTFLLAAAELEVDSCPEGIEHDAYDNILSLKDLGLSTVFACPVGYRSEADTTQFQKKVRQPLSRFKVVL 3of5-a1-m1-cB_3of5-a1-m1-cA Crystal Structure of a Dethiobiotin Synthetase from Francisella tularensis subsp. tularensis SCHU S4 Q5NGB5 Q5NGB5 1.52 X-RAY DIFFRACTION 110 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 216 221 AKKFFIIGTDTEVGKTYISTKLIEVCEHQNIKSLCLKPVASGQSELCEDVESILNAYKHKFTAAEINLISFNQAVAPHIIAAKTKVDISIENLKQFIEDKYNQDLDILFIEGAGGLLTPYSDHTTQLDLIKALQIPVLLVSAIKVGCINHTLLTINELNRHNIKLAGWIANCNDSNIKYIDEQINTIEELSGYKCSAKISRNADYLDFIDLSKILI SNAKKFFIIGTDTEVGKTYISTKLIEVCEHQNIKSLCLKPVASGQSQFSELCEDVESILNAYKHKFTAAEINLISFNQAVAPHIIAAKTKVDISIENLKQFIEDKYNQDLDILFIEGAGGLLTPYSDHTTQLDLIKALQIPVLLVSAIKVGCINHTLLTINELNRHNIKLAGWIANCNDSNIKYIDEQINTIEELSGYKCSAKISRNADYLDFIDLSKILI 3of6-a2-m1-cB_3of6-a2-m1-cC Human pre-T cell receptor crystal structure 2.8 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 243 MGVSQSPRYKVAKRGQDVALRCDPISGHVSLFWYQQALGQGPEFLTYFQNEAQLDKSGLPSDRFFAERPEGSVSTLKIQRTQQEDSAVYLCASSLGQAYEQYFGPGTRLTVTEDLKNVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD HMGVSQSPRYKVAKRGQDVALRCDPISGHVSLFWYQQALGQGPEFLTYFQNEAQLDKSGLPSDRFFAERPEGSVSTLKIQRTQQEDSAVYLCASSLGQAYEQYFGPGTRLTVTEDLKNVFPPEVAVFEPSEAEISHTQKATLVCLATGFYPDHVELSWWVNGKEVHSGVSTDPQPLKEQPALNDSRYCLSSRLRVSATFWQNPRNHFRCQVQFYGLSENDEWTQDRAKPVTQIVSAEAWGRAD 3ofg-a1-m1-cB_3ofg-a1-m1-cA Structured Domain of Caenorhabditis elegans BMY-1 Q8IG33 Q8IG33 1.367 X-RAY DIFFRACTION 41 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 85 89 QTLLFVGVVDPSQPDRSDIRPFTEKWTQIWQSQLYNNHVDLQVFVIDDNRAIFFKNGEQAFEAKKFLLKQEFVSEVTIEGQSFDG SKKGQTLLFVGVVDPSQPDRSDIRPFTEKWTQIWQSQLYNNHVDLQVFVIDDNRAIFFKNGEQAFEAKKFLLKQEFVSEVTIEGQSFDG 3ofh-a3-m1-cB_3ofh-a3-m1-cA Structured Domain of Mus musculus Mesd Q9ERE7 Q9ERE7 2.013 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 79 86 KTLMMFVTVSGNPTEKETEEITSLWQGSLFNANYDVQRFIVGSDRAIFMLRDGSYAWEIKDFLVSQDRCAEVTLEGQMY MTKKGKTLMMFVTVSGNPTEKETEEITSLWQGSLFNANYDVQRFIVGSDRAIFMLRDGSYAWEIKDFLVSQDRCAEVTLEGQMYPG 3ofv-a1-m1-cA_3ofv-a1-m1-cC Crystal structure of peptidyl-tRNA hydrolase from Escherichia Coli, I222 crystal form D6J9H8 D6J9H8 3.2 X-RAY DIFFRACTION 44 1.0 550677 (Escherichia coli B354) 550677 (Escherichia coli B354) 190 190 3ofv-a1-m1-cA_3ofv-a1-m1-cB 3ofv-a1-m1-cC_3ofv-a1-m1-cB TIKLIVGLANPGAEYAATRHNAGAWFVDLLAERLRAPLREEAKFFGYTSRVTLGGEDVRLLVPTTFMNLSGKAVAAMASFFRINPDEILVAHDELDLPPGVAKFKLGGGHGGHNGLKDIISKLGNNPNFHRLRIGIGHPGDKNKVVGFVLGKPPVSEQKLIDEAIDEAARCTEMWFTDGLTKATNRLHAF TIKLIVGLANPGAEYAATRHNAGAWFVDLLAERLRAPLREEAKFFGYTSRVTLGGEDVRLLVPTTFMNLSGKAVAAMASFFRINPDEILVAHDELDLPPGVAKFKLGGGHGGHNGLKDIISKLGNNPNFHRLRIGIGHPGDKNKVVGFVLGKPPVSEQKLIDEAIDEAARCTEMWFTDGLTKATNRLHAF 3ogf-a1-m1-cA_3ogf-a1-m1-cB Crystal structure of Difoil-4P homo-trimer: de novo designed dimeric trefoil-fold sub-domain which forms homo-trimer assembly 2.864 X-RAY DIFFRACTION 102 1.0 32630 (synthetic construct) 32630 (synthetic construct) 81 81 PVLLKSTETGQYLRINPDGTVDGTRDRSDPHIQFQISPEGNGEVLLKSTETGQYLRINPDGTVDGTRDRSDPHIQFQISPE PVLLKSTETGQYLRINPDGTVDGTRDRSDPHIQFQISPEGNGEVLLKSTETGQYLRINPDGTVDGTRDRSDPHIQFQISPE 3ogh-a1-m1-cA_3ogh-a1-m1-cB Crystal structure of yciE protein from E. coli CFT073, a member of ferritine-like superfamily of diiron-containing four-helix-bundle proteins A0A0H2V857 A0A0H2V857 1.65 X-RAY DIFFRACTION 98 0.986 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 140 144 ANRIEHYHDWLRDAHAEKQAESLESASRIDNYPELRARIEQHLSETKNQIVQLETILDRNDISRSVIKDSEIVKGSISGYVFEQFEIACYTSLLAAAKNAGDTASIPTIEAILNEEKHADWLIQHIPQTTEKFLIRSETD SNANRIEHYHDWLRDAHAEKQAESLESASRIDNYPELRARIEQHLSETKNQIVQLETILDRNDISRSVIKDSSKADEIVKGSISGYVFEQFEIACYTSLLAAAKNAGDTASIPTIEAILNEEKHADWLIQHIPQTTEKFLIRSE 3ogj-a2-m1-cB_3ogj-a2-m3-cC Crystal structure of partial apo (92-227) of cGMP-dependent protein kinase Q13976 Q13976 2.751 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 3ocp-a1-m1-cA_3ocp-a1-m1-cB 3od0-a1-m1-cA_3od0-a1-m1-cB 3ogj-a1-m2-cD_3ogj-a1-m1-cA SHVTLPFYPKSPQSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMR SHVTLPFYPKSPQSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMR 3ogk-a1-m1-cC_3ogk-a1-m1-cK Structure of COI1-ASK1 in complex with coronatine and an incomplete JAZ1 degron Q39255 Q39255 2.8 X-RAY DIFFRACTION 25 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 145 145 3ogk-a1-m1-cA_3ogk-a1-m1-cI KIVLKSSDGESFEVEEAVALESQTIAHMVEDDCVDNGVPLPNVTSKILAKVIEYCKRHVEAAASDDDLKAWDADFMKIDQATLFELILAANYLNIKNLLDLTCQTVADMIKGKTPEEIRTTFNIKNDFTPEEEEEVRRENQWAFE KIVLKSSDGESFEVEEAVALESQTIAHMVEDDCVDNGVPLPNVTSKILAKVIEYCKRHVEAAASDDDLKAWDADFMKIDQATLFELILAANYLNIKNLLDLTCQTVADMIKGKTPEEIRTTFNIKNDFTPEEEEEVRRENQWAFE 3ogk-a1-m1-cF_3ogk-a1-m1-cL Structure of COI1-ASK1 in complex with coronatine and an incomplete JAZ1 degron O04197 O04197 2.8 X-RAY DIFFRACTION 21 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 566 566 3ogk-a1-m1-cB_3ogk-a1-m1-cP 3ogk-a1-m1-cH_3ogk-a1-m1-cD 3ogk-a1-m1-cJ_3ogk-a1-m1-cN SCVATVDDVIEQVMTYITDPKDRDSASLVCRRWFKIDSETREHVTMALCYTATPDRLSRRFPNLRSLKLKGKPRAAMFNLIPENWGGYVTPWVTEISNNLRQLKSVHFRRMIVSDLDLDRLAKARADDLETLKLDKCSGFTTDGLLSIVTHCRKIKTLLMEESSFSEKDGKWLHELAQHNTSLEVLNFYMTEFAKISPKDLETIARNCRSLVSVKVGDFEILELVGFFKAAANLEEFCGGSLNEDIGMPEKYMNLVFPRKLCRLGLSYMGPNEMPILFPFAAQIRKLDLLYALLETEDHCTLIQKCPNLEVLETRNVIGDRGLEVLAQYCKQLKRLRIERGADEQGMEDEEGLVSQRGLIALAQGCQELEYMAVYVSDITNESLESIGTYLKNLCDFRLVLLDREERITDLPLDNGVRSLLIGCKKLRRFAFYLRQGGLTDLGLSYIGQYSPNVRWMLLGYVGESDEGLMEFSRGCPNLQKLEMRGCCFSERAIAAAVTKLPSLRYLWVQGYRASMTGQDLMQMARPYWNIELIPSRHPAHILAYYSLAGQRTDCPTTVRVLKEPI SCVATVDDVIEQVMTYITDPKDRDSASLVCRRWFKIDSETREHVTMALCYTATPDRLSRRFPNLRSLKLKGKPRAAMFNLIPENWGGYVTPWVTEISNNLRQLKSVHFRRMIVSDLDLDRLAKARADDLETLKLDKCSGFTTDGLLSIVTHCRKIKTLLMEESSFSEKDGKWLHELAQHNTSLEVLNFYMTEFAKISPKDLETIARNCRSLVSVKVGDFEILELVGFFKAAANLEEFCGGSLNEDIGMPEKYMNLVFPRKLCRLGLSYMGPNEMPILFPFAAQIRKLDLLYALLETEDHCTLIQKCPNLEVLETRNVIGDRGLEVLAQYCKQLKRLRIERGADEQGMEDEEGLVSQRGLIALAQGCQELEYMAVYVSDITNESLESIGTYLKNLCDFRLVLLDREERITDLPLDNGVRSLLIGCKKLRRFAFYLRQGGLTDLGLSYIGQYSPNVRWMLLGYVGESDEGLMEFSRGCPNLQKLEMRGCCFSERAIAAAVTKLPSLRYLWVQGYRASMTGQDLMQMARPYWNIELIPSRHPAHILAYYSLAGQRTDCPTTVRVLKEPI 3ogk-a1-m1-cL_3ogk-a1-m1-cP Structure of COI1-ASK1 in complex with coronatine and an incomplete JAZ1 degron O04197 O04197 2.8 X-RAY DIFFRACTION 48 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 566 566 3ogk-a1-m1-cB_3ogk-a1-m1-cF 3ogk-a1-m1-cD_3ogk-a1-m1-cN 3ogk-a1-m1-cH_3ogk-a1-m1-cJ SCVATVDDVIEQVMTYITDPKDRDSASLVCRRWFKIDSETREHVTMALCYTATPDRLSRRFPNLRSLKLKGKPRAAMFNLIPENWGGYVTPWVTEISNNLRQLKSVHFRRMIVSDLDLDRLAKARADDLETLKLDKCSGFTTDGLLSIVTHCRKIKTLLMEESSFSEKDGKWLHELAQHNTSLEVLNFYMTEFAKISPKDLETIARNCRSLVSVKVGDFEILELVGFFKAAANLEEFCGGSLNEDIGMPEKYMNLVFPRKLCRLGLSYMGPNEMPILFPFAAQIRKLDLLYALLETEDHCTLIQKCPNLEVLETRNVIGDRGLEVLAQYCKQLKRLRIERGADEQGMEDEEGLVSQRGLIALAQGCQELEYMAVYVSDITNESLESIGTYLKNLCDFRLVLLDREERITDLPLDNGVRSLLIGCKKLRRFAFYLRQGGLTDLGLSYIGQYSPNVRWMLLGYVGESDEGLMEFSRGCPNLQKLEMRGCCFSERAIAAAVTKLPSLRYLWVQGYRASMTGQDLMQMARPYWNIELIPSRHPAHILAYYSLAGQRTDCPTTVRVLKEPI SCVATVDDVIEQVMTYITDPKDRDSASLVCRRWFKIDSETREHVTMALCYTATPDRLSRRFPNLRSLKLKGKPRAAMFNLIPENWGGYVTPWVTEISNNLRQLKSVHFRRMIVSDLDLDRLAKARADDLETLKLDKCSGFTTDGLLSIVTHCRKIKTLLMEESSFSEKDGKWLHELAQHNTSLEVLNFYMTEFAKISPKDLETIARNCRSLVSVKVGDFEILELVGFFKAAANLEEFCGGSLNEDIGMPEKYMNLVFPRKLCRLGLSYMGPNEMPILFPFAAQIRKLDLLYALLETEDHCTLIQKCPNLEVLETRNVIGDRGLEVLAQYCKQLKRLRIERGADEQGMEDEEGLVSQRGLIALAQGCQELEYMAVYVSDITNESLESIGTYLKNLCDFRLVLLDREERITDLPLDNGVRSLLIGCKKLRRFAFYLRQGGLTDLGLSYIGQYSPNVRWMLLGYVGESDEGLMEFSRGCPNLQKLEMRGCCFSERAIAAAVTKLPSLRYLWVQGYRASMTGQDLMQMARPYWNIELIPSRHPAHILAYYSLAGQRTDCPTTVRVLKEPI 3oh6-a2-m1-cA_3oh6-a2-m2-cA AlkA Undamaged DNA Complex: Interrogation of a C:G base pair P04395 P04395 2.894 X-RAY DIFFRACTION 58 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 288 288 MADIGSEFYTLNWQPPYDWSWMLGFLAARAVSSVETVADSYYARSLAVGEYRGVVTAIPDIARHTLHINLSAGLEPVAAECLAKMSRLFDLQCNPQIVNGALGRLGAARPGLRLPGCVDAFEQGVRAILGQLVSVAMAAKLTARVAQLYGERLDDFPEYICFPTPQRLAAADPQALKALGMPLKRAEALIHLANAALEGTLPMTIPGDVEQAMKTLQTFPGIGRWTANYFALRGWQAKDVFLPDDCLIKQRFPGMTPAQIRRYAERWKPWRSYALLHIWYTEGWQPDE MADIGSEFYTLNWQPPYDWSWMLGFLAARAVSSVETVADSYYARSLAVGEYRGVVTAIPDIARHTLHINLSAGLEPVAAECLAKMSRLFDLQCNPQIVNGALGRLGAARPGLRLPGCVDAFEQGVRAILGQLVSVAMAAKLTARVAQLYGERLDDFPEYICFPTPQRLAAADPQALKALGMPLKRAEALIHLANAALEGTLPMTIPGDVEQAMKTLQTFPGIGRWTANYFALRGWQAKDVFLPDDCLIKQRFPGMTPAQIRRYAERWKPWRSYALLHIWYTEGWQPDE 3ohe-a1-m1-cA_3ohe-a1-m1-cB Crystal structure of a Histidine triad protein (Maqu_1709) from Marinobacter aquaeolei VT8 at 1.20 A resolution A1U1C4 A1U1C4 1.2 X-RAY DIFFRACTION 76 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 131 131 GFQLHERLAADTHKLGESRLCDVLLNDNTWPWVILVPRVSGIREIYELPNEQQQRLLFESSALSEGELFGGDKNVAALGNVPQLHLHHIVRYQGDPAWPGPVWGKQPPVPYTEEQQASVKAKLQPLLEQLA GFQLHERLAADTHKLGESRLCDVLLNDNTWPWVILVPRVSGIREIYELPNEQQQRLLFESSALSEGELFGGDKNVAALGNVPQLHLHHIVRYQGDPAWPGPVWGKQPPVPYTEEQQASVKAKLQPLLEQLA 3ohn-a2-m2-cB_3ohn-a2-m1-cA Crystal structure of the FimD translocation domain P30130 P30130 3.011 X-RAY DIFFRACTION 47 0.991 562 (Escherichia coli) 562 (Escherichia coli) 463 468 NAGLLNYNFSGNSVQNRSHYAYLNLQSGLNIGAWRLRDNTTWSYNSSNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKPRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSTNIQLVGYRYSTSGYFNFADTTYSRMNGYDYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGVLA AGLLNYNFSGNSVQNRIGGNSHYAYLNLQSGLNIGAWRLRDNTTWSYNSSNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDDNPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKPRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSLGTNIQLVGYRYSTSGYFNFADTTYSRMNGTDYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGV 3ohn-a3-m3-cB_3ohn-a3-m1-cA Crystal structure of the FimD translocation domain P30130 P30130 3.011 X-RAY DIFFRACTION 42 0.991 562 (Escherichia coli) 562 (Escherichia coli) 463 468 NAGLLNYNFSGNSVQNRSHYAYLNLQSGLNIGAWRLRDNTTWSYNSSNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKPRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSTNIQLVGYRYSTSGYFNFADTTYSRMNGYDYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGVLA AGLLNYNFSGNSVQNRIGGNSHYAYLNLQSGLNIGAWRLRDNTTWSYNSSNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDDNPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKPRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSLGTNIQLVGYRYSTSGYFNFADTTYSRMNGTDYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGV 3oho-a3-m1-cA_3oho-a3-m3-cA catalytic domain of stromelysin-1 in complex with N-Hydroxy-2-(4-methylphenylsulfonamido)acetamide P08254 P08254 2.5 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 1c8t-a1-m1-cA_1c8t-a1-m1-cB FRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANALMYPLYHRFRLSQDDINGIQSLYGPP FRTFPGIPKWRKTHLTYRIVNYTPDLPKDAVDSAVEKALKVWEEVTPLTFSRLYEGEADIMISFAVREHGDFYPFDGPGNVLAHAYAPGPGINGDAHFDDDEQWTKDTTGTNLFLVAAHEIGHSLGLFHSANALMYPLYHRFRLSQDDINGIQSLYGPP 3ohp-a1-m1-cD_3ohp-a1-m1-cB Crystal structure of HGPRT from Vibrio cholerae Q9KUD7 Q9KUD7 2.04 X-RAY DIFFRACTION 33 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 166 167 3ohp-a1-m1-cA_3ohp-a1-m1-cC KHTVEVMISEQEVAQRIRELGQQITEHYQGSSDLVLVGLLRGSFVFMADLARQIHLTHQVDFMTASRDVRILKDLDDDIKGKDVLLVEDIIDTGNTLNKVKEILALREPKSIRICTLLDKPTRREVDVEVNWVGFEIPDEFVVGVGIDYAQKYRHLPYIGKVVPLA KHTVEVMISEQEVAQRIRELGQQITEHYQGSSDLVLVGLLRGSFVFMADLARQIHLTHQVDFMTASSRDVRILKDLDDDIKGKDVLLVEDIIDTGNTLNKVKEILALREPKSIRICTLLDKPTRREVDVEVNWVGFEIPDEFVVGVGIDYAQKYRHLPYIGKVVPLA 3ohp-a1-m1-cD_3ohp-a1-m1-cC Crystal structure of HGPRT from Vibrio cholerae Q9KUD7 Q9KUD7 2.04 X-RAY DIFFRACTION 79 0.994 666 (Vibrio cholerae) 666 (Vibrio cholerae) 166 167 3ohp-a1-m1-cA_3ohp-a1-m1-cB KHTVEVMISEQEVAQRIRELGQQITEHYQGSSDLVLVGLLRGSFVFMADLARQIHLTHQVDFMTASRDVRILKDLDDDIKGKDVLLVEDIIDTGNTLNKVKEILALREPKSIRICTLLDKPTRREVDVEVNWVGFEIPDEFVVGVGIDYAQKYRHLPYIGKVVPLA HTVEVMISEQEVAQRIRELGQQITEHYQGSSDLVLVGLLRGSFVFMADLARQIHLTHQVDFMTASSSRDVRILKDLDDDIKGKDVLLVEDIIDTGNTLNKVKEILALREPKSIRICTLLDKPTRREVDVEVNWVGFEIPDEFVVGVGIDYAQKYRHLPYIGKVVPLA 3ohr-a1-m1-cA_3ohr-a1-m2-cA Crystal structure of fructokinase from bacillus subtilis complexed with ADP O05510 O05510 1.66 X-RAY DIFFRACTION 118 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 275 275 1xc3-a2-m1-cA_1xc3-a2-m2-cA 3lm9-a1-m1-cA_3lm9-a1-m2-cA ALGGIEAGGTFVCAVGREDGTIIDRIEFPTPDETIEVIQYFSQFSLQAIGIGSFGPVDNDTSQTYGTITATPAGWRHYPFLQTVNEIPVGFSTDVNAAALGEFLFGEAGLDSCLYITIGTGIGAGAIVEGRLLQGLSHPEGHIYIRRHPDDVYQGCPYHGDCFEGLASGPAIEARWGKAADLSDIAQVWELEGYYIAQALAQYILILAPIILGGGVQQQVFSYIYQYVPKINSYLDFSELSDDISDYIVPPRLGSNAGIIGTLVLAHQALQAEAA ALGGIEAGGTFVCAVGREDGTIIDRIEFPTPDETIEVIQYFSQFSLQAIGIGSFGPVDNDTSQTYGTITATPAGWRHYPFLQTVNEIPVGFSTDVNAAALGEFLFGEAGLDSCLYITIGTGIGAGAIVEGRLLQGLSHPEGHIYIRRHPDDVYQGCPYHGDCFEGLASGPAIEARWGKAADLSDIAQVWELEGYYIAQALAQYILILAPIILGGGVQQQVFSYIYQYVPKINSYLDFSELSDDISDYIVPPRLGSNAGIIGTLVLAHQALQAEAA 3ohs-a1-m1-cX_3ohs-a1-m2-cX Crystal Structure of Mammalian Dimeric Dihydrodiol Dehydrogenase in complex with Dihydroxyacetone Q9TQS6 Q9TQS6 1.9 X-RAY DIFFRACTION 119 1.0 9541 (Macaca fascicularis) 9541 (Macaca fascicularis) 331 331 2o48-a1-m1-cX_2o48-a1-m2-cX 2o4u-a1-m1-cX_2o4u-a1-m2-cX 2poq-a1-m1-cX_2poq-a1-m2-cX ALRWGIVSVGLISSDFTAVLQTLPRSEHQVVAVAARDLSRAKEFAQKHDIPKAYGSYEELAKDPNVEVAYVGTQHPQHKAAVMLCLAAGKAVLCEKPMGVNAAEVREMVTEARSRGLFLMEAIWTRFFPASEALRSVLAQGTLGDLRVARAEFGKNLTHVPRAVDWAQAGGALLDLGIYCVQFISMVFGGQKPEKISVMGRRHETGVDDTVTVLLQYPGEVHGSFTCSITAQLSNTASVSGTKGMAQLLNPCWCPTELVVKGEHKEFLLPPVPKNCNFDNGAGMSYEAKHVRECLRKGLKESPVIPLVESELLADILEEVRRAIGVTFPQD ALRWGIVSVGLISSDFTAVLQTLPRSEHQVVAVAARDLSRAKEFAQKHDIPKAYGSYEELAKDPNVEVAYVGTQHPQHKAAVMLCLAAGKAVLCEKPMGVNAAEVREMVTEARSRGLFLMEAIWTRFFPASEALRSVLAQGTLGDLRVARAEFGKNLTHVPRAVDWAQAGGALLDLGIYCVQFISMVFGGQKPEKISVMGRRHETGVDDTVTVLLQYPGEVHGSFTCSITAQLSNTASVSGTKGMAQLLNPCWCPTELVVKGEHKEFLLPPVPKNCNFDNGAGMSYEAKHVRECLRKGLKESPVIPLVESELLADILEEVRRAIGVTFPQD 3oht-a1-m1-cA_3oht-a1-m1-cB Crystal Structure of Salmo Salar p38alpha A9UJZ9 A9UJZ9 2.7 X-RAY DIFFRACTION 148 1.0 8030 (Salmo salar) 8030 (Salmo salar) 331 331 ERPTFYRQELNKTIWEVPERYQTLSPVGSGAYGSVCSSYDVKSGLKIAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPATSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGYRAPEIMLNWMHYNMTVDIWSVGCIMAELLTGRTLFPGTDHINQLQQIMRLTGTPPASVISRMPSHEARNYINSLPQMPKRNFADVFIGANPLAVDLLEKMLVLDTDKRITASEALAHPYFSQYHDPDDEPESEPYDQSFESRQLEIEEWKRLTYEEVCSFETP ERPTFYRQELNKTIWEVPERYQTLSPVGSGAYGSVCSSYDVKSGLKIAVKKLSRPFQSIIHAKRTYRELRLLKHMKHENVIGLLDVFTPATSLEEFNDVYLVTHLMGADLNNIVKCQKLTDDHVQFLIYQILRGLKYIHSADIIHRDLKPSNLAVNEDCELKILDFGYRAPEIMLNWMHYNMTVDIWSVGCIMAELLTGRTLFPGTDHINQLQQIMRLTGTPPASVISRMPSHEARNYINSLPQMPKRNFADVFIGANPLAVDLLEKMLVLDTDKRITASEALAHPYFSQYHDPDDEPESEPYDQSFESRQLEIEEWKRLTYEEVCSFETP 3ohu-a2-m1-cC_3ohu-a2-m1-cF Crystal structure of the human Bach2 POZ domain, form I Q9BYV9 Q9BYV9 2.1 X-RAY DIFFRACTION 149 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 113 118 3ohu-a1-m1-cB_3ohu-a1-m1-cA 3ohu-a3-m1-cE_3ohu-a3-m1-cD 3ohv-a1-m1-cB_3ohv-a1-m1-cA 3ohv-a2-m1-cD_3ohv-a2-m1-cC 3ohv-a3-m1-cE_3ohv-a3-m1-cF PMYVYESTVHCTNILLGLNDQRKKDILCDVTLIVERKEFRAHRAVLAACSEYFWQALVGQTKNDLVVSLPEEVTARGFGPLLQFAYTAKLLLSRENIREVIRCAEFLRMHNLE YVYESTVHCTNILLGLNDQRKKDILCDVTLIVERKEFRAHRAVLAACSEYFWQALVGQTKNDLVVSLPEEVTARGFGPLLQFAYTAKLLLSRENIREVIRCAEFLRMHNLEDSCFSFL 3oi8-a1-m1-cB_3oi8-a1-m1-cA The crystal structure of functionally unknown conserved protein domain from Neisseria meningitidis MC58 Q9K0P8 Q9K0P8 1.989 X-RAY DIFFRACTION 101 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 150 152 NASAEDVLNLLRQAHEQEVFDADTLLRLEKVLDFSDLEVRDAITRSRNVLKENDSIERITAYVIDTAHSRFPVIGEDKDEVLGILHAKDLLKYFNPEQFHLKSILRPAVFVPEGKSLTALLKEFREQRNHAIVIDEYGGTSGLVTFEDII SNASAEDVLNLLRQAHEQEVFDADTLLRLEKVLDFSDLEVRDAITRSRNVLKENDSIERITAYVIDTAHSRFPVIGEDKDEVLGILHAKDLLKYFNPEQFHLKSILRPAVFVPEGKSLTALLKEFREQRNHAIVIDEYGGTSGLVTFEDIIE 3oic-a1-m2-cA_3oic-a1-m2-cD Crystal Structure of Enoyl-ACP Reductases III (FabL) from B. subtilis (apo form) P71079 P71079 2.2 X-RAY DIFFRACTION 136 0.992 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 247 252 3oic-a1-m1-cA_3oic-a1-m1-cD QNKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVLEHHHH NKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVLEHHH 3oid-a1-m1-cC_3oid-a1-m1-cD Crystal Structure of Enoyl-ACP Reductases III (FabL) from B. subtilis (complex with NADP and TCL) P71079 P71079 1.8 X-RAY DIFFRACTION 93 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 248 248 3oic-a1-m1-cA_3oic-a1-m2-cA 3oic-a1-m1-cD_3oic-a1-m2-cD 3oid-a1-m1-cA_3oid-a1-m1-cB NKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVL NKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVL 3oid-a1-m1-cD_3oid-a1-m1-cA Crystal Structure of Enoyl-ACP Reductases III (FabL) from B. subtilis (complex with NADP and TCL) P71079 P71079 1.8 X-RAY DIFFRACTION 94 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 248 249 3oid-a1-m1-cC_3oid-a1-m1-cB NKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVL QNKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVL 3oid-a1-m1-cD_3oid-a1-m1-cB Crystal Structure of Enoyl-ACP Reductases III (FabL) from B. subtilis (complex with NADP and TCL) P71079 P71079 1.8 X-RAY DIFFRACTION 34 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 248 251 3oid-a1-m1-cC_3oid-a1-m1-cA NKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVL MEQNKCALVTGSSRGVGKAAAIRLAENGYNIVINYARSKKAALETAEEIEKLGVKVLVVKANVGQPAKIKEMFQQIDETFGRLDVFVNNAASGVLRPVMELEETHWDWTMNINAKALLFCAQEAAKLMEKNGGGHIVSISSLGSIRYLENYTTVGVSKAALEALTRYLAVELSPKQIIVNAVSGGAIDTDALKHFPNREDLLEDARQNTPAGRMVEIKDMVDTVEFLVSSKADMIRGQTIIVDGGRSLLVL 3oif-a1-m1-cB_3oif-a1-m1-cC Crystal Structure of Enoyl-ACP Reductases I (FabI) from B. subtilis (complex with NAD and TCL) P54616 P54616 2.6 X-RAY DIFFRACTION 93 0.987 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 228 241 MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITA MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITA 3oif-a1-m1-cB_3oif-a1-m1-cD Crystal Structure of Enoyl-ACP Reductases I (FabI) from B. subtilis (complex with NAD and TCL) P54616 P54616 2.6 X-RAY DIFFRACTION 12 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 228 257 MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITA MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGSDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITAR 3oig-a1-m1-cA_3oig-a1-m4-cA Crystal Structure of Enoyl-ACP Reductases I (FabI) from B. subtilis (complex with NAD and INH) P54616 P54616 1.25 X-RAY DIFFRACTION 102 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 260 260 3oif-a1-m1-cD_3oif-a1-m1-cA 3oig-a1-m2-cA_3oig-a1-m3-cA MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITARLE MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITARLE 3oig-a1-m2-cA_3oig-a1-m4-cA Crystal Structure of Enoyl-ACP Reductases I (FabI) from B. subtilis (complex with NAD and INH) P54616 P54616 1.25 X-RAY DIFFRACTION 32 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 260 260 3oif-a1-m1-cC_3oif-a1-m1-cA 3oig-a1-m1-cA_3oig-a1-m3-cA MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITARLE MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITARLE 3oig-a1-m3-cA_3oig-a1-m4-cA Crystal Structure of Enoyl-ACP Reductases I (FabI) from B. subtilis (complex with NAD and INH) P54616 P54616 1.25 X-RAY DIFFRACTION 115 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 260 260 3oif-a1-m1-cB_3oif-a1-m1-cA 3oif-a1-m1-cC_3oif-a1-m1-cD 3oig-a1-m1-cA_3oig-a1-m2-cA MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITARLE MNFSLEGRNIVVMGVANKRSIAWGIARSLHEAGARLIFTYAGERLEKSVHELAGTLDRNDSIILPCDVTNDAEIETCFASIKEQVGVIHGIAHCIAFANKEELVGEYLNTNRDGFLLAHNISSYSLTAVVKAARPMMTEGGSIVTLTYLGGELVMPNYNVMGVAKASLDASVKYLAADLGKENIRVNSISAGPIRTLSAKGISDFNSILKDIEERAPLRRTTTPEEVGDTAAFLFSDMSRGITGENLHVDSGFHITARLE 3ois-a5-m1-cA_3ois-a5-m2-cD Crystal Structure Xylellain, a cysteine protease from Xylella fastidiosa Q9PGZ0 Q9PGZ0 1.65 X-RAY DIFFRACTION 51 1.0 2371 (Xylella fastidiosa) 2371 (Xylella fastidiosa) 268 268 TVLKRRKKSGYGYIPDIADIRDFSYTPEKSVIAALPPKVDLTPPFQVYDQGRIGSCTANALAAAIQFERIHDKQSPEFIPSRLFIYYNERKIEGHVNYDSGAMIRDGIKVLHKLGVCPEKEWPYGDTPADPRTEEFPPGAPASKKPSDQCYKDAQNYKITEYSRVAQDIDHLKACLAVGSPFVFGFSVYNSWVGNNSLPVRIPLPTKNDTLEGGHAVLCVGYDDEIRHFRIRNSWGNNVGEDGYFWMPYEYISNTQLADDFWVIKTVR TVLKRRKKSGYGYIPDIADIRDFSYTPEKSVIAALPPKVDLTPPFQVYDQGRIGSCTANALAAAIQFERIHDKQSPEFIPSRLFIYYNERKIEGHVNYDSGAMIRDGIKVLHKLGVCPEKEWPYGDTPADPRTEEFPPGAPASKKPSDQCYKDAQNYKITEYSRVAQDIDHLKACLAVGSPFVFGFSVYNSWVGNNSLPVRIPLPTKNDTLEGGHAVLCVGYDDEIRHFRIRNSWGNNVGEDGYFWMPYEYISNTQLADDFWVIKTVR 3ois-a5-m2-cC_3ois-a5-m2-cD Crystal Structure Xylellain, a cysteine protease from Xylella fastidiosa Q9PGZ0 Q9PGZ0 1.65 X-RAY DIFFRACTION 108 1.0 2371 (Xylella fastidiosa) 2371 (Xylella fastidiosa) 267 268 3ois-a5-m1-cB_3ois-a5-m1-cA VLKRRKKSGYGYIPDIADIRDFSYTPEKSVIAALPPKVDLTPPFQVYDQGRIGSCTANALAAAIQFERIHDKQSPEFIPSRLFIYYNERKIEGHVNYDSGAMIRDGIKVLHKLGVCPEKEWPYGDTPADPRTEEFPPGAPASKKPSDQCYKDAQNYKITEYSRVAQDIDHLKACLAVGSPFVFGFSVYNSWVGNNSLPVRIPLPTKNDTLEGGHAVLCVGYDDEIRHFRIRNSWGNNVGEDGYFWMPYEYISNTQLADDFWVIKTVR TVLKRRKKSGYGYIPDIADIRDFSYTPEKSVIAALPPKVDLTPPFQVYDQGRIGSCTANALAAAIQFERIHDKQSPEFIPSRLFIYYNERKIEGHVNYDSGAMIRDGIKVLHKLGVCPEKEWPYGDTPADPRTEEFPPGAPASKKPSDQCYKDAQNYKITEYSRVAQDIDHLKACLAVGSPFVFGFSVYNSWVGNNSLPVRIPLPTKNDTLEGGHAVLCVGYDDEIRHFRIRNSWGNNVGEDGYFWMPYEYISNTQLADDFWVIKTVR 3oix-a1-m1-cB_3oix-a1-m1-cC Crystal structure of the putative dihydroorotate dehydrogenase from Streptococcus mutans Q8DVA1 Q8DVA1 2.399 X-RAY DIFFRACTION 12 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 303 303 VSTHTTIGSFDFDNCLMNAAGVYCMTREELAAIDHSEAGSFVTTGTLEERAGNPQPRYADTKLGSINSMGLPNLGINYYLDYVTELQKQPDSKNHFLSLVGMSPEETHTILMVEASKYQGLVELNLSCPNVPGPQIAYDFETTDQILSEVFTYFTKPLGIKLPPYFDIVHFDQAAAIFNYPLTFVNCINSIGNGLVIEDETVVIPKNGFGGIGGDYVKPTALANVHAFYKRLNPSIQIIGTGGVTGRDAFEHILCGASMVQIGTALHQEGPQIFKRITKELAIMTEKGYETLEDFRGKLNAMA VSTHTTIGSFDFDNCLMNAAGVYCMTREELAAIDHSEAGSFVTTGTLEERAGNPQPRYADTKLGSINSMGLPNLGINYYLDYVTELQKQPDSKNHFLSLVGMSPEETHTILMVEASKYQGLVELNLSCPNVPGPQIAYDFETTDQILSEVFTYFTKPLGIKLPPYFDIVHFDQAAAIFNYPLTFVNCINSIGNGLVIEDETVVIPKNGFGGIGGDYVKPTALANVHAFYKRLNPSIQIIGTGGVTGRDAFEHILCGASMVQIGTALHQEGPQIFKRITKELAIMTEKGYETLEDFRGKLNAMA 3oix-a3-m1-cD_3oix-a3-m1-cC Crystal structure of the putative dihydroorotate dehydrogenase from Streptococcus mutans Q8DVA1 Q8DVA1 2.399 X-RAY DIFFRACTION 152 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 302 303 3oix-a1-m1-cA_3oix-a1-m1-cB 3oix-a1-m1-cD_3oix-a1-m1-cC 3oix-a2-m1-cA_3oix-a2-m1-cB VSTHTTIGSFDFDNCLMNAAGVYCMTREELAAIDHSEAGSFVTTGTLEERAGNPQPRYADTKLGSINSMGLPNLGINYYLDYVTELQKQPDSKNHFLSLVGMSPEETHTILMVEASKYQGLVELNLSCPNVPGPQIAYDFETTDQILSEVFTYFTKPLGIKLPPYFDIVHFDQAAAIFNYPLTFVNCINSIGNGLVIEDETVVIPKNGFGGIGGDYVKPTALANVHAFYKRLNPSIQIIGTGGVTGRDAFEHILCGASMVQIGTALHQEGPQIFKRITKELAIMTEKGYETLEDFRGKLNAM VSTHTTIGSFDFDNCLMNAAGVYCMTREELAAIDHSEAGSFVTTGTLEERAGNPQPRYADTKLGSINSMGLPNLGINYYLDYVTELQKQPDSKNHFLSLVGMSPEETHTILMVEASKYQGLVELNLSCPNVPGPQIAYDFETTDQILSEVFTYFTKPLGIKLPPYFDIVHFDQAAAIFNYPLTFVNCINSIGNGLVIEDETVVIPKNGFGGIGGDYVKPTALANVHAFYKRLNPSIQIIGTGGVTGRDAFEHILCGASMVQIGTALHQEGPQIFKRITKELAIMTEKGYETLEDFRGKLNAMA 3oj6-a1-m1-cA_3oj6-a1-m1-cD Crystal structure of Blasticidin S Deaminase from Coccidioides Immitis P0CI02 P0CI02 1.7 X-RAY DIFFRACTION 116 1.0 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 134 134 3oj6-a1-m1-cC_3oj6-a1-m1-cB EPLSAAGQNLIDTATSVINGIPVSDFYSVASAAISDDGRVFSGVNVYHFNGGPCAELVVLGVAAAAGATKLTHIVAIANEGRGILSPCGRCRQVLADLHPGIKAIVIGKEGPKMVAVEELLPSIYAWDKDYDRI EPLSAAGQNLIDTATSVINGIPVSDFYSVASAAISDDGRVFSGVNVYHFNGGPCAELVVLGVAAAAGATKLTHIVAIANEGRGILSPCGRCRQVLADLHPGIKAIVIGKEGPKMVAVEELLPSIYAWDKDYDRI 3oj6-a1-m1-cB_3oj6-a1-m1-cD Crystal structure of Blasticidin S Deaminase from Coccidioides Immitis P0CI02 P0CI02 1.7 X-RAY DIFFRACTION 23 0.985 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 134 134 3oj6-a1-m1-cC_3oj6-a1-m1-cA APEPLSAAGQNLIDTATSVINGIPVSDFYSVASAAISDDGRVFSGVNVYHFNGGPCAELVVLGVAAAAGATKLTHIVAIANEGRGILSPCGRCRQVLADLHPGIKAIVIGKEGPKMVAVEELLPSIYAWDDYDR EPLSAAGQNLIDTATSVINGIPVSDFYSVASAAISDDGRVFSGVNVYHFNGGPCAELVVLGVAAAAGATKLTHIVAIANEGRGILSPCGRCRQVLADLHPGIKAIVIGKEGPKMVAVEELLPSIYAWDKDYDRI 3oj6-a1-m1-cC_3oj6-a1-m1-cD Crystal structure of Blasticidin S Deaminase from Coccidioides Immitis P0CI02 P0CI02 1.7 X-RAY DIFFRACTION 68 1.0 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 128 134 3oj6-a1-m1-cA_3oj6-a1-m1-cB EPLSAAGQNLIDTATSVINGIPVSDFYSVASAAISDDGRVFSGVNVYHFNGGPCAELVVLGVAAAAGATKLTHIVAIANEGRGILSPCGRCRQVLADLHPGIKAIVIGKEGPKMVAVEELLPSIYAWD EPLSAAGQNLIDTATSVINGIPVSDFYSVASAAISDDGRVFSGVNVYHFNGGPCAELVVLGVAAAAGATKLTHIVAIANEGRGILSPCGRCRQVLADLHPGIKAIVIGKEGPKMVAVEELLPSIYAWDKDYDRI 3oj7-a1-m1-cA_3oj7-a1-m2-cA Crystal structure of a histidine triad family protein from entamoeba histolytica, bound to sulfate C4LYI2 C4LYI2 1.4 X-RAY DIFFRACTION 157 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 109 109 3omf-a1-m1-cA_3omf-a1-m2-cA 3oxk-a1-m1-cA_3oxk-a1-m2-cA CIFCKIAQKQIPSTIVYEDDEIFAFKDINPIAPIHILVIPKQHIASLNEITEENEAFIGKVLYKVSLIGKKECPEGYRVVNNIGEDAGQTVKHIHFHILGGKKLAWDKL CIFCKIAQKQIPSTIVYEDDEIFAFKDINPIAPIHILVIPKQHIASLNEITEENEAFIGKVLYKVSLIGKKECPEGYRVVNNIGEDAGQTVKHIHFHILGGKKLAWDKL 3ojc-a1-m1-cA_3ojc-a1-m1-cD Crystal structure of a putative Asp/Glu Racemase from Yersinia pestis A0A2S9PI63 A0A2S9PI63 1.75 X-RAY DIFFRACTION 30 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 225 225 KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ 3ojc-a1-m1-cB_3ojc-a1-m1-cC Crystal structure of a putative Asp/Glu Racemase from Yersinia pestis A0A2S9PI63 A0A2S9PI63 1.75 X-RAY DIFFRACTION 19 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 225 225 KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ 3ojc-a1-m1-cC_3ojc-a1-m1-cD Crystal structure of a putative Asp/Glu Racemase from Yersinia pestis A0A2S9PI63 A0A2S9PI63 1.75 X-RAY DIFFRACTION 14 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 225 225 3ojc-a1-m1-cA_3ojc-a1-m1-cB KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ 3ojc-a3-m1-cB_3ojc-a3-m1-cD Crystal structure of a putative Asp/Glu Racemase from Yersinia pestis A0A2S9PI63 A0A2S9PI63 1.75 X-RAY DIFFRACTION 99 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 225 225 3ojc-a1-m1-cA_3ojc-a1-m1-cC 3ojc-a1-m1-cB_3ojc-a1-m1-cD 3ojc-a2-m1-cA_3ojc-a2-m1-cC KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ KILGLIGGSWESTIPYYRINQHVKAQLGGLHSAKIILYSVDFHEIEQLQAKGDWQTAAQLLSNAAISLKHAGAEVIVVCTNTHKVADDIEAACGLPLLHIADATAVQIKQQGIDKIGLLGTRYTEQGFYRGRLTEKHGIEVITPDDTDREAVNRIIYEELCLGIISETSRDAYRRVIKKLEAQGVQGIIFGCTEITLLVNAQDASVPVFDTTAIHASAAADYALQ 3ojo-a1-m1-cA_3ojo-a1-m1-cB Derivative structure of the UDP-N-acetyl-mannosamine dehydrogenase Cap5O from S. aureus P95708 P95708 2.5 X-RAY DIFFRACTION 152 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 409 418 3ojl-a1-m1-cB_3ojl-a1-m1-cA SKLTVVGLGYIGLPTSIMFAKHGVDVLGVDINQQTIDKLQNGQISIEEPGLQEVYEEVLSSGKLKVSTTPEASDVFIIAVPTPNNDDQYRSCDISLVMRALDSILPFLKKGNTIIVESTIAPKTMDDFVKPVIENLGFTIGEDIYLVHCPERVLPGKILEELVHNNRIIGGVTKACIEAGKRVYRTFVQGEMIETDARTAEMSKLMENTYRDVNIALANELTKICNNLNINVLDVIEMANKHPRVNIHQPGPGVGGHCLAVDPNAKLIQTGREINNSMPAYVVDTTKQIIKALSGNKVTVFGLTYKGDVDDIRESPAFDIYELLNQEPDIEVCAYDPHVELDFVEHDMSHAVKDASLVLILSDHSEFKNLSDSHFDKMKHKVIFDTKNVVKSSFEDVLYYNYGNIFNFI SKLTVVGLGYIGLPTSIMFAKHGVDVLGVDINQQTIDKLQNGQISIEEPGLQEVYEEVLSSGKLKVSTTPEASDVFIIAVPTPNNDDQYRSCDISLVMRALDSILPFLKKGNTIIVESTIAPKTMDDFVKPVIENLGFTIGEDIYLVHCPERVLPGKILEELVHNNRIIGGVTKACIEAGKRVYRTFVQGEMIETDARTAEMSKLMENTYRDVNIALANELTKICNNLNINVLDVIEMANKHPRVNIHQPGPGVGGHCLAVDPYFIIAKDPENAKLIQTGREINNSMPAYVVDTTKQIIKALSGNKVTVFGLTYKGDVDDIRESPAFDIYELLNQEPDIEVCAYDPHVELDFVEHDMSHAVKDASLVLILSDHSEFKNLSDSHFDKMKHKVIFDTKNVVKSSFEDVLYYNYGNIFNFI 3ok5-a1-m1-cB_3ok5-a1-m2-cA Structure of the H55D mutant of dehaloperoxidase-hemoglobin A from Amphitriti ornata with 4-Bromophenol inhibitor Q9NAV8 Q9NAV8 1.72 X-RAY DIFFRACTION 28 1.0 129555 (Amphitrite ornata) 129555 (Amphitrite ornata) 137 137 2qfn-a1-m1-cA_2qfn-a1-m1-cB 3k3u-a2-m1-cA_3k3u-a2-m2-cB 3lb1-a1-m1-cA_3lb1-a1-m1-cB 3lb1-a2-m1-cA_3lb1-a2-m2-cB 3lb2-a1-m1-cA_3lb2-a1-m1-cB 3lb2-a2-m1-cA_3lb2-a2-m2-cB 3lb3-a1-m1-cA_3lb3-a1-m1-cB 3lb3-a2-m1-cA_3lb3-a2-m2-cB 3lb4-a1-m1-cB_3lb4-a1-m1-cA 3mou-a1-m1-cA_3mou-a1-m1-cB 3o7n-a1-m1-cA_3o7n-a1-m1-cB 4gzg-a2-m1-cB_4gzg-a2-m2-cA 6cke-a1-m1-cA_6cke-a1-m2-cB 7mnh-a1-m1-cA_7mnh-a1-m1-cB GFKQDIATIRGDLRTYAQDIFLAFLNKYPDERRYFKNYVGKSDQELKSMAKFGDDTEKVFNLMMEVADRATDCVPLASDANTLVQMKQHSSLTTGNFEKLFVALVEYMRASGQSFDSQSWDRFGKNLVSALSSAGMK GFKQDIATIRGDLRTYAQDIFLAFLNKYPDERRYFKNYVGKSDQELKSMAKFGDDTEKVFNLMMEVADRATDCVPLASDANTLVQMKQHSSLTTGNFEKLFVALVEYMRASGQSFDSQSWDRFGKNLVSALSSAGMK 3ok8-a1-m1-cA_3ok8-a1-m1-cB I-BAR OF PinkBAR Q80Y61 Q80Y61 2.25 X-RAY DIFFRACTION 187 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 APEMDQFYRSTMAIYKSIMEQFNPALENLVYLGNNYLRAFHALSEAAEVYFSAIQKIGEQALQSSTSQILGEILVQMSDTQRHLNSDLEVVVQTFHGDLLQHMEKNTKLDMQFIKDSCQHYEIEYRHRAANLEKCMSELWRMERKRDKNAREMKESVNRLHAQMQAFVSESKRAAELEEKRRYRFLAEKHLLLSNTFLQFLGRARGMLQNRVLLWKEQS APEMDQFYRSTMAIYKSIMEQFNPALENLVYLGNNYLRAFHALSEAAEVYFSAIQKIGEQALQSSTSQILGEILVQMSDTQRHLNSDLEVVVQTFHGDLLQHMEKNTKLDMQFIKDSCQHYEIEYRHRAANLEKCMSELWRMERKRDKNAREMKESVNRLHAQMQAFVSESKRAAELEEKRRYRFLAEKHLLLSNTFLQFLGRARGMLQNRVLLWKEQS 3okf-a2-m1-cA_3okf-a2-m2-cA 2.5 Angstrom Resolution Crystal Structure of 3-Dehydroquinate Synthase (aroB) from Vibrio cholerae Q9KNV2 Q9KNV2 2.5 X-RAY DIFFRACTION 29 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 360 360 TMERITVNLGERSYPISIGAGLFANPALLSLSAKQKVVIVTNHTVAPLYAPAIISLLDHIGCQHALLELPDGEQYKTLETFNTVMSFLLEHNYSRDVVVIALGGGVIGDLVGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPKAVVIDTDCLTTLPAREFAAGMAEVIKYGIIYDSAFFDWLEAQMEALYALDEQALTYAIARCCQIKAEVVAQDEKGIRALLNLGHTFGHAIEAHMGYGNWLHGEAVSAGTVMAAKTAQLQGLIDASQFERILAILKKAHLPVRTPENMTFADFMQHMMRDKKVLAGELRLVLPTSIGTSAVVKGVPEAVIAQAIEYCRTV TMERITVNLGERSYPISIGAGLFANPALLSLSAKQKVVIVTNHTVAPLYAPAIISLLDHIGCQHALLELPDGEQYKTLETFNTVMSFLLEHNYSRDVVVIALGGGVIGDLVGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPKAVVIDTDCLTTLPAREFAAGMAEVIKYGIIYDSAFFDWLEAQMEALYALDEQALTYAIARCCQIKAEVVAQDEKGIRALLNLGHTFGHAIEAHMGYGNWLHGEAVSAGTVMAAKTAQLQGLIDASQFERILAILKKAHLPVRTPENMTFADFMQHMMRDKKVLAGELRLVLPTSIGTSAVVKGVPEAVIAQAIEYCRTV 3okf-a2-m1-cB_3okf-a2-m2-cB 2.5 Angstrom Resolution Crystal Structure of 3-Dehydroquinate Synthase (aroB) from Vibrio cholerae Q9KNV2 Q9KNV2 2.5 X-RAY DIFFRACTION 12 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 352 352 TMERITVNLGERSYPISIGAGLFANPALLSLSAKQKVVIVTNHTVAPLYAPAIISLLDHIGCQHALLELPDGEQYKTLETFNTVMSFLLEHNYSRDVVVIALGGGVIGDLVGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPKAVVIDTDCLTTLPAREFAAGMAEVIKYGIIYDSAFFDWLEAQMEALYALDEQALTYAIARCCQIKAEVVAQDEKESGIRALLNLGHTFGHAIEAHMGYGNWLHGEAVSAGTVMAAKTAQLQGLIDASQFERILAILKKAHLPVRTPENMTFADFMQHMMRLVLPTSIGTSAVVKGVPEAVIAQAIEYCRTV TMERITVNLGERSYPISIGAGLFANPALLSLSAKQKVVIVTNHTVAPLYAPAIISLLDHIGCQHALLELPDGEQYKTLETFNTVMSFLLEHNYSRDVVVIALGGGVIGDLVGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPKAVVIDTDCLTTLPAREFAAGMAEVIKYGIIYDSAFFDWLEAQMEALYALDEQALTYAIARCCQIKAEVVAQDEKESGIRALLNLGHTFGHAIEAHMGYGNWLHGEAVSAGTVMAAKTAQLQGLIDASQFERILAILKKAHLPVRTPENMTFADFMQHMMRLVLPTSIGTSAVVKGVPEAVIAQAIEYCRTV 3okf-a2-m2-cB_3okf-a2-m2-cA 2.5 Angstrom Resolution Crystal Structure of 3-Dehydroquinate Synthase (aroB) from Vibrio cholerae Q9KNV2 Q9KNV2 2.5 X-RAY DIFFRACTION 63 0.994 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 352 360 3okf-a1-m1-cB_3okf-a1-m1-cA 3okf-a2-m1-cB_3okf-a2-m1-cA TMERITVNLGERSYPISIGAGLFANPALLSLSAKQKVVIVTNHTVAPLYAPAIISLLDHIGCQHALLELPDGEQYKTLETFNTVMSFLLEHNYSRDVVVIALGGGVIGDLVGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPKAVVIDTDCLTTLPAREFAAGMAEVIKYGIIYDSAFFDWLEAQMEALYALDEQALTYAIARCCQIKAEVVAQDEKESGIRALLNLGHTFGHAIEAHMGYGNWLHGEAVSAGTVMAAKTAQLQGLIDASQFERILAILKKAHLPVRTPENMTFADFMQHMMRLVLPTSIGTSAVVKGVPEAVIAQAIEYCRTV TMERITVNLGERSYPISIGAGLFANPALLSLSAKQKVVIVTNHTVAPLYAPAIISLLDHIGCQHALLELPDGEQYKTLETFNTVMSFLLEHNYSRDVVVIALGGGVIGDLVGFAAACYQRGVDFIQIPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPKAVVIDTDCLTTLPAREFAAGMAEVIKYGIIYDSAFFDWLEAQMEALYALDEQALTYAIARCCQIKAEVVAQDEKGIRALLNLGHTFGHAIEAHMGYGNWLHGEAVSAGTVMAAKTAQLQGLIDASQFERILAILKKAHLPVRTPENMTFADFMQHMMRDKKVLAGELRLVLPTSIGTSAVVKGVPEAVIAQAIEYCRTV 3okg-a3-m1-cA_3okg-a3-m1-cB Crystal structure of HsdS subunit from Thermoanaerobacter tengcongensis Q8R9Q6 Q8R9Q6 1.95 X-RAY DIFFRACTION 185 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 390 391 MTEGPYKLPPGWRWVRLGEVCLPTERRDPTKNPSTYFVYVDISAIDSTVGKIVSPKEILGQHAPSRARKVIRSGDVIFATTRPYLKNIALVPPDLDGQICSTGFCVIRANREFAEPEFLFHLCRSDFITNQLTASKMRGTSYPAVTDNDVYNTLIPLPPLEEQRRIVAKVEALMERVREVRRLRAEAQKDTELLMQTALAEVFPHPGADLPPGWRWVRLGEVCDIIMGQSPPSSTYNFEGNGLPFFQGKADFGDLHPTPRIWCSAPQKVARPGDVLISVRAPVGSTNVANLACCIGRGLAALRPRDSLERFWLLYYLHYLEPELSKAITKKDLQNVFIPLPPLEEQRRIVAYLDQIQQQVAALKRAQAETEAELKRLEQAILDKAFRGDL MTEGPYKLPPGWRWVRLGEVCLPTERRDPTKNPSTYFVYVDISAIDSTVGKIVSPKEILGQHAPSRARKVIRSGDVIFATTRPYLKNIALVPPDLDGQICSTGFCVIRANREFAEPEFLFHLCRSDFITNQLTASKMRGTSYPAVTDNDVYNTLIPLPPLEEQRRIVAKVEALMERVREVRRLRAEAQKDTELLMQTALAEVFPHPGADLPPGWRWVRLGEVCDIIMGQSPPSSTYNFEGNGLPFFQGKADFGDLHPTPRIWCSAPQKVARPGDVLISVRAPVGSTNVANLACCIGRGLAALRPRDSLERFWLLYYLHYLEPELSKMAITKKDLQNVFIPLPPLEEQRRIVAYLDQIQQQVAALKRAQAETEAELKRLEQAILDKAFRGDL 3okq-a1-m1-cA_3okq-a1-m2-cA Crystal structure of a core domain of yeast actin nucleation cofactor Bud6 P41697 P41697 2.044 X-RAY DIFFRACTION 140 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 125 125 3onx-a1-m1-cA_3onx-a1-m1-cB SSNRMYMEKSQTELGDLSDTLLSKVDDLQDVIEIMRKDVAERRSQPAKKKLETVSKDLENAQADVLKLQEFIDTEKPHWKKTWEAELDKVCEEQQFLTLQEELILDLKEDLGKALETFDLIKLCC SSNRMYMEKSQTELGDLSDTLLSKVDDLQDVIEIMRKDVAERRSQPAKKKLETVSKDLENAQADVLKLQEFIDTEKPHWKKTWEAELDKVCEEQQFLTLQEELILDLKEDLGKALETFDLIKLCC 3oks-a2-m1-cC_3oks-a2-m1-cD Crystal structure of 4-aminobutyrate transaminase from mycobacterium smegmatis A0QWJ0 A0QWJ0 1.8 X-RAY DIFFRACTION 421 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 446 446 3oks-a1-m1-cA_3oks-a1-m1-cB SMVSHPEQSRHLATAIPGPRSQALIDRKGTAVARGVGTTMPVYAVRAGGGIVEDVDGNRLIDLGSGIAVTTVGNSAPKVVEAVRSQVGDFTHTCFMVTPYEGYVAVCEQLNRLTPVRGDKRSALFNSGSEAVENAVKIARSHTHKPAVVAFDHAYHGRTNLTMALTAKVMPYKDGFGPFAPEIYRAPLSYPFRDAEFGKELATDGELAAKRAITVIDKQIGADNLAAVVIEPIQGEGGFIVPADGFLPTLLDWCRKNDVVFIADEVQTGFARTGAMFACEHEGIDPDLIVTAGIAGGLPLSAVTGRAEIMDSPHVSGLGGTYGGNPIACAAALATIETIESEGLVARAQQIEKIMKDRLGRLQAEDDRIGDVRGRGAMIAMELVKAGTTEPDADLTKALCAGAHAAGVIVLSCGTYGNVVRFLPPLSIGDDLLNEGLDVLEEVLRG SMVSHPEQSRHLATAIPGPRSQALIDRKGTAVARGVGTTMPVYAVRAGGGIVEDVDGNRLIDLGSGIAVTTVGNSAPKVVEAVRSQVGDFTHTCFMVTPYEGYVAVCEQLNRLTPVRGDKRSALFNSGSEAVENAVKIARSHTHKPAVVAFDHAYHGRTNLTMALTAKVMPYKDGFGPFAPEIYRAPLSYPFRDAEFGKELATDGELAAKRAITVIDKQIGADNLAAVVIEPIQGEGGFIVPADGFLPTLLDWCRKNDVVFIADEVQTGFARTGAMFACEHEGIDPDLIVTAGIAGGLPLSAVTGRAEIMDSPHVSGLGGTYGGNPIACAAALATIETIESEGLVARAQQIEKIMKDRLGRLQAEDDRIGDVRGRGAMIAMELVKAGTTEPDADLTKALCAGAHAAGVIVLSCGTYGNVVRFLPPLSIGDDLLNEGLDVLEEVLRG 3oky-a1-m1-cB_3oky-a1-m2-cB Plexin A2 in complex with Semaphorin 6A O35464 O35464 2.195 X-RAY DIFFRACTION 81 1.0 10090 (Mus musculus) 10090 (Mus musculus) 540 540 3al8-a1-m1-cA_3al8-a1-m2-cA 3okw-a1-m1-cB_3okw-a1-m1-cA 6wts-a1-m1-cB_6wts-a1-m1-cA FPEDSEPISISHGNYTKQYPVFVGHKPGRTQRHRLDIQMIMIMNRTLYVAARDHIYTVDIDTSHTEEIYCSKKLTWKSRQADVDTCRMKGKHKDECHNFIKVLLKKNDDTLFVCGTNAFNPSCRNYRVDTLETFGDEFSGMARCPYDAKHANIALFADGKLYSATVTDFLAIDAVIYRSLGDSPTLRTVKHDSKWLKEPYFVQAVDYGDYIYFFFREIAVEYNTMGKVVFPRVAQVCKNDMGGSQRVLEKQWTSFLKARLNCSVPGDSHFYFNILQAVTDVIRINGRDVVLATFSTPYNSIPGSAVCAYDMLDIANVFTGRFKEQKSPDSTWTPVPDERVPKPRPGCCAGSSSLEKYATSNEFPDDTLNFIKTHPLMDEAVPSIINRPWFLRTMVRYRLTKIAVDNAAGPYQNHTVVFLGSEKGIILKFLARILNGSLFLEEMNVYNPEKCSYDGVEDKRIMGMQLDRASGSLYVAFSTCVIKVPLGRCERHGKCKKTCIASRDPYCGWVRESGSCAHLSPLSRLTFEQDIERGNTDGDC FPEDSEPISISHGNYTKQYPVFVGHKPGRTQRHRLDIQMIMIMNRTLYVAARDHIYTVDIDTSHTEEIYCSKKLTWKSRQADVDTCRMKGKHKDECHNFIKVLLKKNDDTLFVCGTNAFNPSCRNYRVDTLETFGDEFSGMARCPYDAKHANIALFADGKLYSATVTDFLAIDAVIYRSLGDSPTLRTVKHDSKWLKEPYFVQAVDYGDYIYFFFREIAVEYNTMGKVVFPRVAQVCKNDMGGSQRVLEKQWTSFLKARLNCSVPGDSHFYFNILQAVTDVIRINGRDVVLATFSTPYNSIPGSAVCAYDMLDIANVFTGRFKEQKSPDSTWTPVPDERVPKPRPGCCAGSSSLEKYATSNEFPDDTLNFIKTHPLMDEAVPSIINRPWFLRTMVRYRLTKIAVDNAAGPYQNHTVVFLGSEKGIILKFLARILNGSLFLEEMNVYNPEKCSYDGVEDKRIMGMQLDRASGSLYVAFSTCVIKVPLGRCERHGKCKKTCIASRDPYCGWVRESGSCAHLSPLSRLTFEQDIERGNTDGDC 3ol0-a1-m1-cB_3ol0-a1-m1-cC Crystal structure of Monofoil-4P homo-trimer: de novo designed monomer trefoil-fold sub-domain which forms homo-trimer assembly 1.483 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 41 41 3ogf-a1-m1-cC_3ogf-a1-m1-cB 3ol0-a1-m1-cB_3ol0-a1-m1-cA 3ol0-a1-m1-cC_3ol0-a1-m1-cA HPVLLKSTETGQYLRINPDGTVDGTRDRSDPHIQFQISPEG HPVLLKSTETGQYLRINPDGTVDGTRDRSDPHIQFQISPEG 3ol3-a1-m1-cB_3ol3-a1-m1-cA Crystal structure of a putative uncharacterized protein from Mycobacterium smegamtis, an ortholog of Rv0543c, iodide phased A0QRC4 A0QRC4 1.95 X-RAY DIFFRACTION 44 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 92 98 3ol4-a1-m1-cB_3ol4-a1-m1-cA FMDNVLGWLHKGYPEGVPPKDYFALLALLKRSLTEDEVVRAAQAILRSTDGQSPVTDDDIRNAVHQIIEKEPTAEEINQVAARLASVGWPLA TTTFMDNVLGWLHKGYPEGVPPKDYFALLALLKRSLTEDEVVRAAQAILRSTDGQSPVTDDDIRNAVHQIIEKEPTAEEINQVAARLASVGWPLAVPV 3olo-a2-m1-cB_3olo-a2-m3-cB Crystal structure of a PAS domain from two-component sensor histidine kinase Q8YZM9 Q8YZM9 2.094 X-RAY DIFFRACTION 76 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 107 107 3olo-a1-m1-cA_3olo-a1-m2-cA SELEFKFAHYLINNAVEASFCLGDNWQFLYVNDATCRTEYSREQLLSNLQDIDVDFALHDWEEIRQKNNYTFKTRYRSQSGRIFLVESLTFLEDQERRFSCVFVREK SELEFKFAHYLINNAVEASFCLGDNWQFLYVNDATCRTEYSREQLLSNLQDIDVDFALHDWEEIRQKNNYTFKTRYRSQSGRIFLVESLTFLEDQERRFSCVFVREK 3om0-a1-m1-cA_3om0-a1-m2-cA Crystal structure of the GluK5 (KA2) ATD crystallographic dimer at 1.4 Angstrom resolution Q63273 Q63273 1.401 X-RAY DIFFRACTION 48 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 369 369 3om1-a1-m1-cB_3om1-a1-m1-cA LSSLRMAAILDDQTVCGRGERLALALAREQINGIIEVPAKARVEVDIFELQRDSQYETTDTMCQILPKGVVSVLGPSSSPASASTVSHICGEKEIPHIKVGPEETPLRFASVSLYPSNEDVSLAVSRILKSFNYPSASLICAKAECLLRLEELVRGFLISKETLSVRMLDSRDPTPLLKEIRDDKVSTIIIDANASISHLVLRKASELGMTSAFYKYILTTMDFPILHLDGIVEDSSNILGFSMFNTSHPFYPEFVRSLNMSWRENCEASTYPGPALSAALMFDAVHVVVSAVRELNRSQEIGVKPLACTSANIWPHGTSLMNYLRMVEYDGLTGRVEFNSKGQRTNYTLRILEKSRQGHREIGVWYSN LSSLRMAAILDDQTVCGRGERLALALAREQINGIIEVPAKARVEVDIFELQRDSQYETTDTMCQILPKGVVSVLGPSSSPASASTVSHICGEKEIPHIKVGPEETPLRFASVSLYPSNEDVSLAVSRILKSFNYPSASLICAKAECLLRLEELVRGFLISKETLSVRMLDSRDPTPLLKEIRDDKVSTIIIDANASISHLVLRKASELGMTSAFYKYILTTMDFPILHLDGIVEDSSNILGFSMFNTSHPFYPEFVRSLNMSWRENCEASTYPGPALSAALMFDAVHVVVSAVRELNRSQEIGVKPLACTSANIWPHGTSLMNYLRMVEYDGLTGRVEFNSKGQRTNYTLRILEKSRQGHREIGVWYSN 3om8-a1-m1-cA_3om8-a1-m2-cB The crystal structure of a hydrolase from Pseudomonas aeruginosa PA01 Q9I638 Q9I638 2.25 X-RAY DIFFRACTION 22 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 260 261 3om8-a1-m2-cA_3om8-a1-m1-cB AGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA NAGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA 3om8-a1-m1-cB_3om8-a1-m2-cB The crystal structure of a hydrolase from Pseudomonas aeruginosa PA01 Q9I638 Q9I638 2.25 X-RAY DIFFRACTION 39 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 261 261 NAGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA NAGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA 3om8-a2-m1-cA_3om8-a2-m1-cB The crystal structure of a hydrolase from Pseudomonas aeruginosa PA01 Q9I638 Q9I638 2.25 X-RAY DIFFRACTION 40 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 260 261 3om8-a1-m1-cA_3om8-a1-m1-cB 3om8-a1-m2-cA_3om8-a1-m2-cB AGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA NAGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA 3om8-a3-m1-cA_3om8-a3-m3-cB The crystal structure of a hydrolase from Pseudomonas aeruginosa PA01 Q9I638 Q9I638 2.25 X-RAY DIFFRACTION 68 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 260 261 AGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA NAGNLSFLATSDGASLAYRLDGAAEKPLLALSNSIGTTLHWDAQLPALTRHFRVLRYDARGHGASSVPPGPYTLARLGEDVLELLDALEVRRAHFLGLSLGGIVGQWLALHAPQRIERLVLANTSAWLGPAAQWDERIAAVLQAEDSETAAGFLGNWFPPALLERAEPVVERFRALATNRHGLAGSFAAVRDTDLRAQLARIERPTLVIAGAYDTVTAASHGELIAASIAGARLVTLPAVHLSNVEFPQAFEGAVLSFLGA 3ome-a1-m1-cB_3ome-a1-m1-cA Crystal structure of a probable ENOYL-COA Hydratase from Mycobacterium Smegmatis A0R1R4 A0R1R4 2.05 X-RAY DIFFRACTION 102 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 242 243 3ome-a1-m1-cA_3ome-a1-m1-cC 3ome-a1-m1-cB_3ome-a1-m1-cC 3ome-a1-m1-cD_3ome-a1-m1-cE 3ome-a1-m1-cD_3ome-a1-m1-cF 3ome-a1-m1-cE_3ome-a1-m1-cF MVYIDYGVADSIATITLNRPEAANAQNPELLDELDAAWTRAAEDNEVKVIILRANGKHFSAGHDLKISLEFIIQHEARRYLDYTLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLILASDDALFSDPVALMGIGGVEYHGHTWELGPRKAKEILFTGRALTAEEAERTGMVNRVVARDELDAQTRELAEQIATMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNALSVSGWPVL MVYIDYGVADSIATITLNRPEAANAQNPELLDELDAAWTRAAEDNEVKVIILRANGKHFSAGHDLRKISLEFIIQHEARRYLDYTLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLILASDDALFSDPVALMGIGGVEYHGHTWELGPRKAKEILFTGRALTAEEAERTGMVNRVVARDELDAQTRELAEQIATMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNALSVSGWPVL 3ome-a1-m1-cB_3ome-a1-m1-cE Crystal structure of a probable ENOYL-COA Hydratase from Mycobacterium Smegmatis A0R1R4 A0R1R4 2.05 X-RAY DIFFRACTION 63 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 242 244 3ome-a1-m1-cA_3ome-a1-m1-cF 3ome-a1-m1-cD_3ome-a1-m1-cC MVYIDYGVADSIATITLNRPEAANAQNPELLDELDAAWTRAAEDNEVKVIILRANGKHFSAGHDLKISLEFIIQHEARRYLDYTLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLILASDDALFSDPVALMGIGGVEYHGHTWELGPRKAKEILFTGRALTAEEAERTGMVNRVVARDELDAQTRELAEQIATMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNALSVSGWPVL MVYIDYGVADSIATITLNRPEAANAQNPELLDELDAAWTRAAEDNEVKVIILRANGKHFSAGHDLPEKISLEFIIQHEARRYLDYTLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLILASDDALFSDPVALMGIGGVEYHGHTWELGPRKAKEILFTGRALTAEEAERTGMVNRVVARDELDAQTRELAEQIATMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNALSVSGWPVL 3ome-a1-m1-cB_3ome-a1-m1-cF Crystal structure of a probable ENOYL-COA Hydratase from Mycobacterium Smegmatis A0R1R4 A0R1R4 2.05 X-RAY DIFFRACTION 40 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 242 247 3ome-a1-m1-cA_3ome-a1-m1-cD 3ome-a1-m1-cE_3ome-a1-m1-cC MVYIDYGVADSIATITLNRPEAANAQNPELLDELDAAWTRAAEDNEVKVIILRANGKHFSAGHDLKISLEFIIQHEARRYLDYTLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLILASDDALFSDPVALMGIGGVEYHGHTWELGPRKAKEILFTGRALTAEEAERTGMVNRVVARDELDAQTRELAEQIATMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNALSVSGWPVL MVYIDYGVADSIATITLNRPEAANAQNPELLDELDAAWTRAAEDNEVKVIILRANGKHFSAGHDLRPEKISLEFIIQHEARRYLDYTLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLILASDDALFSDPVALMGIGGVEYHGHTWELGPRKAKEILFTGRALTAEEAERTGMVNRVVARDELDAQTRELAEQIATMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNALSVSGWPVLVD 3oml-a1-m1-cA_3oml-a1-m2-cA Structure of full-length peroxisomal multifunctional enzyme type 2 from Drosophila melanogaster Q9VXJ0 Q9VXJ0 2.15 X-RAY DIFFRACTION 402 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 532 532 LRYDGRVAVVTGAGAGLGREYALLFAERGAKVVVNAADIVVDEIRKAGGEAVADYNSVIDGAKVIEILVNNAGILRDRSLVKTSEQDWNLVNDVHLKGSFKCTQAAFPYMKKQNYGRIIMTSSNSGIYGNFGQVNYTAAKMGLIGLANTVAIEGARNNVLCNVIVPTEGILPDILFNELKPKLIAPVVAYLCHESCEDNGSYIESAAGWATKLHMVRGKGAVLRPSLDDPVTIEYVKDVWSNVTDMSKAKHLGAIAEASGTLLEVLEKLKEGGGDAIEDAFEFNSKELITYALGIGASVKNAKDMRFLYENDADFAAIPTFFVLPGLLLQMSTDKILHGEQYLEIVDDLPTSGTLLTNGKVFDVMDKGSGAVVVTNSESFDESGRLLVRNQSTTFIVGDPIAGVVPLQPAPNRQPDATVQYTTSEDQAALYRLSGDKNPLHIDPQMALLAGFKTPILHGLCTLGFSVRAVLAQFADNNPALFKAVKVRFSGPVIPGQTLRVDLWKQGTRINFRTVVVETGKEVISGAYVDLK LRYDGRVAVVTGAGAGLGREYALLFAERGAKVVVNAADIVVDEIRKAGGEAVADYNSVIDGAKVIEILVNNAGILRDRSLVKTSEQDWNLVNDVHLKGSFKCTQAAFPYMKKQNYGRIIMTSSNSGIYGNFGQVNYTAAKMGLIGLANTVAIEGARNNVLCNVIVPTEGILPDILFNELKPKLIAPVVAYLCHESCEDNGSYIESAAGWATKLHMVRGKGAVLRPSLDDPVTIEYVKDVWSNVTDMSKAKHLGAIAEASGTLLEVLEKLKEGGGDAIEDAFEFNSKELITYALGIGASVKNAKDMRFLYENDADFAAIPTFFVLPGLLLQMSTDKILHGEQYLEIVDDLPTSGTLLTNGKVFDVMDKGSGAVVVTNSESFDESGRLLVRNQSTTFIVGDPIAGVVPLQPAPNRQPDATVQYTTSEDQAALYRLSGDKNPLHIDPQMALLAGFKTPILHGLCTLGFSVRAVLAQFADNNPALFKAVKVRFSGPVIPGQTLRVDLWKQGTRINFRTVVVETGKEVISGAYVDLK 3oms-a1-m1-cA_3oms-a1-m2-cA Putative 3-demethylubiquinone-9 3-methyltransferase, PhnB protein, from Bacillus cereus. Q81DD6 Q81DD6 1.9 X-RAY DIFFRACTION 76 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 124 124 QKITTFLFEGKAEEANFYTSLFDQSEIVSISRYDENGPGKEGTVIHATFTLNGQEFCIDSYVNHNFTFTPASLYVTCETEEEIDTVFHKLAQDGAILPLGSYPFSKKFGWLNDKYGVSWQLTLA QKITTFLFEGKAEEANFYTSLFDQSEIVSISRYDENGPGKEGTVIHATFTLNGQEFCIDSYVNHNFTFTPASLYVTCETEEEIDTVFHKLAQDGAILPLGSYPFSKKFGWLNDKYGVSWQLTLA 3omt-a1-m1-cB_3omt-a1-m1-cA Putative antitoxin component, CHU_2935 protein, from Xre family from Prevotella buccae. 1.65 X-RAY DIFFRACTION 61 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 67 68 ERKIFNRLKSVLAEKGKTNLWLTETLDKNKTTVSKWCTNDVQPSLETLFDIAEALNVDVRELIVSTK TERKIFNRLKSVLAEKGKTNLWLTETLDKNKTTVSKWCTNDVQPSLETLFDIAEALNVDVRELIVSTK 3omv-a1-m1-cA_3omv-a1-m1-cB Crystal structure of c-raf (raf-1) P04049 P04049 4 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 264 264 YYWEIEASEVMLSTRIGSGSFGTVYKGKWHGDVAVKILKVVDPTPEQFQAFRNEVAVLRKTRHVNILLFMGYMTKDNLAIVTQWCEGSSLYKHLHVQETKFQMFQLIDIARQTAQGMDYLHAKNIIHRDMKSNNIFLHEGLTVKIGDFGLATVPTGSVLWMAPEVIRMQDNNPFSFQSDVYSYGIVLYELMTGELPYSHINNRDQIIFMVGRGYASPDLSKLYKNCPKAMKRLVADCVKKVKEERPLFPQILSSIELLQHSLPK YYWEIEASEVMLSTRIGSGSFGTVYKGKWHGDVAVKILKVVDPTPEQFQAFRNEVAVLRKTRHVNILLFMGYMTKDNLAIVTQWCEGSSLYKHLHVQETKFQMFQLIDIARQTAQGMDYLHAKNIIHRDMKSNNIFLHEGLTVKIGDFGLATVPTGSVLWMAPEVIRMQDNNPFSFQSDVYSYGIVLYELMTGELPYSHINNRDQIIFMVGRGYASPDLSKLYKNCPKAMKRLVADCVKKVKEERPLFPQILSSIELLQHSLPK 3on0-a1-m2-cB_3on0-a1-m2-cC Crystal structure of the pED208 TraM-sbmA complex P33788 P33788 2.874 X-RAY DIFFRACTION 184 1.0 562 (Escherichia coli) 562 (Escherichia coli) 118 118 3omy-a1-m1-cA_3omy-a1-m2-cA 3omy-a2-m1-cB_3omy-a2-m2-cB 3on0-a1-m1-cB_3on0-a1-m1-cC PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVYMIQQEKREGGFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVYMIQQEKREGGFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF 3on0-a1-m2-cD_3on0-a1-m2-cA Crystal structure of the pED208 TraM-sbmA complex P33788 P33788 2.874 X-RAY DIFFRACTION 184 1.0 562 (Escherichia coli) 562 (Escherichia coli) 107 121 3on0-a1-m1-cD_3on0-a1-m1-cA PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVYMIQQEKFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFFPDDEDDQ 3on0-a1-m2-cD_3on0-a1-m2-cB Crystal structure of the pED208 TraM-sbmA complex P33788 P33788 2.874 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 107 118 3on0-a1-m1-cD_3on0-a1-m1-cB PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVYMIQQEKREGGFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF 3on0-a1-m2-cD_3on0-a1-m2-cC Crystal structure of the pED208 TraM-sbmA complex P33788 P33788 2.874 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 107 118 3on0-a1-m1-cD_3on0-a1-m1-cC PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF PKIQTYVNNNVYEQITDLVTIRKQEGIEEASLSNVSSMLLELGLRVYMIQQEKREGGFNQMEYNKLMLENVSRVRAMCTEILKMSVLNQESIASGNFDYAVIKPAIDKFAREQVSIFF 3on3-a1-m1-cA_3on3-a1-m1-cB The crystal structure of keto/oxoacid ferredoxin oxidoreductase, gamma subunit from Geobacter sulfurreducens PCA Q74D49 Q74D49 2.193 X-RAY DIFFRACTION 68 0.988 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 166 172 RYEIRFSGAGGQGLILAGVIAEAASIYDGKQAVQSQSYGPEARGGASKSEVIISDGQCDALLALTQEACDKYSADLKEGGVLLVDSDLVTKLPPGNYQTTAFNIINTAKNDVGREIVANIVALGAVALTGVVSKEAAEKAVLSRVPEAFVELNRKAFQGFEKALAA AGRYEIRFSGAGGQGLILAGVIAEAASIYDGKQAVQSQSYGPRGGASKSEVIISDGPVDTQCDALLALTQEACDKYSADLKEGGVLLVDSDLVTKLPPGNYQTTAFNIINTAKNDVGREIVANIVALGAVALTGVVSKEAAEKAVLSRVPEAFVELNRKAFQGFEKALAAKK 3on4-a4-m1-cF_3on4-a4-m1-cE Crystal structure of TetR transcriptional regulator from Legionella pneumophila Q5ZU41 Q5ZU41 1.85 X-RAY DIFFRACTION 123 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 183 184 3on4-a1-m1-cB_3on4-a1-m1-cA 3on4-a2-m1-cH_3on4-a2-m1-cC 3on4-a3-m1-cD_3on4-a3-m1-cG NISNTKERILAVAEALIQKDGYNAFSFKDIATAINIKTASIHYHFPSKEDLGVAVISWHTDKIAAVLSDISNNSSLSAKEKIQKFFDAILTLTYNSENKCLGGFASDFQSLPVSIQNQAKKFFELIIEWLKGVLETNGYDNESSLSLAKQIISLVEGGLLLARLYGDETFLEGVRHFIDQTIK PNISNTKERILAVAEALIQKDGYNAFSFKDIATAINIKTASIHYHFPSKEDLGVAVISWHTDKIAAVLSDISNNSSLSAKEKIQKFFDAILTLTYNSENKCLGGFASDFQSLPVSIQNQAKKFFELIIEWLKGVLETNGYDNESSLSLAKQIISLVEGGLLLARLYGDETFLEGVRHFIDQTIK 3on5-a1-m1-cA_3on5-a1-m2-cA Crystal structure of a xanthine dehydrogenase (BH1974) from Bacillus halodurans at 2.80 A resolution Q9KBF4 Q9KBF4 2.8 X-RAY DIFFRACTION 37 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 330 330 SDIELLETLAGTDQPRVATIIHVEGSSYRKEGALFQEDGTQVGLLSGGCLETDLTIKAQKVWQEQLPRTVVYDLSSEDDLSWGQGSGCNGTISVLLEPVDLKLRQHLKRVYDYLCAGKSVFHVKKLSTSGAVLEYAFILDESVYFGEWHSGHPVEWIRKIDENEEPLFTHIYSPKERLIIFGAGPDVPPLVTFASNVGFYTVVTDWRPNQCEKHFFPDADEIIVDFPADFLRKFLIRPDDFVLITHHFQKDQEILHFLLEKELRYIGILGSKERTRRLLQNRKPPDHLYSPVGLSIDAQGPEEIAISIVAQLIQLIRSRKQASSPFSYLF SDIELLETLAGTDQPRVATIIHVEGSSYRKEGALFQEDGTQVGLLSGGCLETDLTIKAQKVWQEQLPRTVVYDLSSEDDLSWGQGSGCNGTISVLLEPVDLKLRQHLKRVYDYLCAGKSVFHVKKLSTSGAVLEYAFILDESVYFGEWHSGHPVEWIRKIDENEEPLFTHIYSPKERLIIFGAGPDVPPLVTFASNVGFYTVVTDWRPNQCEKHFFPDADEIIVDFPADFLRKFLIRPDDFVLITHHFQKDQEILHFLLEKELRYIGILGSKERTRRLLQNRKPPDHLYSPVGLSIDAQGPEEIAISIVAQLIQLIRSRKQASSPFSYLF 3on5-a1-m2-cB_3on5-a1-m1-cA Crystal structure of a xanthine dehydrogenase (BH1974) from Bacillus halodurans at 2.80 A resolution Q9KBF4 Q9KBF4 2.8 X-RAY DIFFRACTION 13 0.984 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 317 330 3on5-a1-m1-cB_3on5-a1-m2-cA FQGSDIELLETLAGTDQPRVATIIHVEGSSYRKEGALFQEDGGCLETDLTIKAQKVWQEQLPRTVVYDLSSEDDLTISVLLEPVDLKLRQHLKRVYDYLCAGKSVFHVKKLSTSGAVLEYAFILDESVYFGEWHSGHPVEWIRKIDENEEPLFTHIYSPKERLIIFGAGPDVPPLVTFASNVGFYTVVTDWRPNQCEKHFFPDADEIIVDFPADFLRKFLIRPDDFVLITHHFQKDQEILHFLLEKELRYIGILGSKERTRRLLQNRKPPDHLYSPVGLSIDAQGPEEIAISIVAQLIQLIRSRKQASSPFSYLFQP SDIELLETLAGTDQPRVATIIHVEGSSYRKEGALFQEDGTQVGLLSGGCLETDLTIKAQKVWQEQLPRTVVYDLSSEDDLSWGQGSGCNGTISVLLEPVDLKLRQHLKRVYDYLCAGKSVFHVKKLSTSGAVLEYAFILDESVYFGEWHSGHPVEWIRKIDENEEPLFTHIYSPKERLIIFGAGPDVPPLVTFASNVGFYTVVTDWRPNQCEKHFFPDADEIIVDFPADFLRKFLIRPDDFVLITHHFQKDQEILHFLLEKELRYIGILGSKERTRRLLQNRKPPDHLYSPVGLSIDAQGPEEIAISIVAQLIQLIRSRKQASSPFSYLF 3on5-a2-m1-cB_3on5-a2-m1-cA Crystal structure of a xanthine dehydrogenase (BH1974) from Bacillus halodurans at 2.80 A resolution Q9KBF4 Q9KBF4 2.8 X-RAY DIFFRACTION 136 0.984 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 317 330 3on5-a1-m1-cB_3on5-a1-m1-cA 3on5-a1-m2-cB_3on5-a1-m2-cA FQGSDIELLETLAGTDQPRVATIIHVEGSSYRKEGALFQEDGGCLETDLTIKAQKVWQEQLPRTVVYDLSSEDDLTISVLLEPVDLKLRQHLKRVYDYLCAGKSVFHVKKLSTSGAVLEYAFILDESVYFGEWHSGHPVEWIRKIDENEEPLFTHIYSPKERLIIFGAGPDVPPLVTFASNVGFYTVVTDWRPNQCEKHFFPDADEIIVDFPADFLRKFLIRPDDFVLITHHFQKDQEILHFLLEKELRYIGILGSKERTRRLLQNRKPPDHLYSPVGLSIDAQGPEEIAISIVAQLIQLIRSRKQASSPFSYLFQP SDIELLETLAGTDQPRVATIIHVEGSSYRKEGALFQEDGTQVGLLSGGCLETDLTIKAQKVWQEQLPRTVVYDLSSEDDLSWGQGSGCNGTISVLLEPVDLKLRQHLKRVYDYLCAGKSVFHVKKLSTSGAVLEYAFILDESVYFGEWHSGHPVEWIRKIDENEEPLFTHIYSPKERLIIFGAGPDVPPLVTFASNVGFYTVVTDWRPNQCEKHFFPDADEIIVDFPADFLRKFLIRPDDFVLITHHFQKDQEILHFLLEKELRYIGILGSKERTRRLLQNRKPPDHLYSPVGLSIDAQGPEEIAISIVAQLIQLIRSRKQASSPFSYLF 3on6-a1-m1-cA_3on6-a1-m1-cB Crystal structure of an exo-alpha-1,6-mannosidase (bacova_03626) from bacteroides ovatus at 1.70 a resolution A7M0J6 A7M0J6 1.7 X-RAY DIFFRACTION 93 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 428 428 2p0v-a1-m1-cA_2p0v-a1-m1-cB YQTNRPETSKRLFVSQAVEQQIAHIKQLLTNARLAWFENCFPNTLDTTVHFDGKDDTFVYTGDIHAWLRDSGAQVWPYVQLANKDAELKKLAGVIKRQFKCINIDPYANAFNNSEGGEWSDLTDKPELHERKWEIDSLCYPIRLAYHYWKTTGDASIFSDEWLTAIAKVLKTFKEQQRKEDPKGPYRFQRKTERALDTTNDGWGNPVKPVGLIASAFRPSDDATTFQFLVPSNFFAVTSLRKAAEILNTVNKKPDLAKECTTLSNEVEAALKKYAVYNHPKYGKIYAFEVDGFGNQLLDDANVPSLIALPYLGDVKVNDPIYQNTRKFVWSEDNPYFFKGTAGEGIGGPHIGYDIWPSIKAFTSQNDAEIKTCIKLDTDAGTGFHESFHKNDPKNFTRSWFAWQNTLFGELILKLVNEGKVDLLNSIQ YQTNRPETSKRLFVSQAVEQQIAHIKQLLTNARLAWFENCFPNTLDTTVHFDGKDDTFVYTGDIHAWLRDSGAQVWPYVQLANKDAELKKLAGVIKRQFKCINIDPYANAFNNSEGGEWSDLTDKPELHERKWEIDSLCYPIRLAYHYWKTTGDASIFSDEWLTAIAKVLKTFKEQQRKEDPKGPYRFQRKTERALDTTNDGWGNPVKPVGLIASAFRPSDDATTFQFLVPSNFFAVTSLRKAAEILNTVNKKPDLAKECTTLSNEVEAALKKYAVYNHPKYGKIYAFEVDGFGNQLLDDANVPSLIALPYLGDVKVNDPIYQNTRKFVWSEDNPYFFKGTAGEGIGGPHIGYDIWPSIKAFTSQNDAEIKTCIKLDTDAGTGFHESFHKNDPKNFTRSWFAWQNTLFGELILKLVNEGKVDLLNSIQ 3on7-a1-m1-cA_3on7-a1-m1-cD Crystal structure of a Putative oxygenase (SO_2589) from Shewanella oneidensis at 2.20 A resolution Q8EE01 Q8EE01 2.2 X-RAY DIFFRACTION 78 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 263 266 3on7-a1-m1-cC_3on7-a1-m1-cB LETIDYRAADSAKRFVESLRETGFGVLSNHPIDKELVERIYTEWQAFFNSEAKNEFFNRETHDGFFPASTVKDIKEYYHVYPWGRIPDSLRANILAYYEKANTLASELLEWIETYSPDEIKAKFSIPLPEIANSHKTLLRILHYPPTGDEEGAIRAAAHEDINLITVLPTANEPGLQVKAKDGSWLDVPSDFGNIIINIGDLQEASDGYFPSTSHRVINPEGTDKTKSRISLPLFLHPHPSVVLSERYTADSYLERLRELGVL KLETIDYRAADSAKRFVESLRETGFGVLSNHPIDKELVERIYTEWQAFFNSEAKNEFFNRETHDGFFPASIHTVKDIKEYYHVYPWGRIPDSLRANILAYYEKANTLASELLEWIETYSPDEIKAKFSIPLPEIANSHKTLLRILHYPPTGDEEGAIRAAAHEDINLITVLPTANEPGLQVKAKDGSWLDVPSDFGNIIINIGDLQEASDGYFPSTSHRVINPEGTDKTKSRISLPLFLHPHPSVVLSERYTADSYLERLRELGVL 3on7-a1-m1-cC_3on7-a1-m1-cD Crystal structure of a Putative oxygenase (SO_2589) from Shewanella oneidensis at 2.20 A resolution Q8EE01 Q8EE01 2.2 X-RAY DIFFRACTION 37 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 263 266 3on7-a1-m1-cA_3on7-a1-m1-cB KLETIDYRAADSAKRFVESLRETGFGVLSNHPIDKELVERIYTEWQAFFNSEAKNEFFNRETHDGFFPASVKDIKEYYHVYPWGRIPDSLRANILAYYEKANTLASELLEWIETYSPDEIKAKFSIPLPEIANSHKTLLRILHYPPTGDEEGAIRAAAHEDINLITVLPTANEPGLQVKAKDGSWLDVPSDFGNIIINIGDLQEASDGYFPSTSHRVINPEGTDKTKSRISLPLFLHPHPSVVLSERYTADSYLERLRELGVL KLETIDYRAADSAKRFVESLRETGFGVLSNHPIDKELVERIYTEWQAFFNSEAKNEFFNRETHDGFFPASIHTVKDIKEYYHVYPWGRIPDSLRANILAYYEKANTLASELLEWIETYSPDEIKAKFSIPLPEIANSHKTLLRILHYPPTGDEEGAIRAAAHEDINLITVLPTANEPGLQVKAKDGSWLDVPSDFGNIIINIGDLQEASDGYFPSTSHRVINPEGTDKTKSRISLPLFLHPHPSVVLSERYTADSYLERLRELGVL 3on7-a1-m1-cD_3on7-a1-m1-cB Crystal structure of a Putative oxygenase (SO_2589) from Shewanella oneidensis at 2.20 A resolution Q8EE01 Q8EE01 2.2 X-RAY DIFFRACTION 13 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 266 272 KLETIDYRAADSAKRFVESLRETGFGVLSNHPIDKELVERIYTEWQAFFNSEAKNEFFNRETHDGFFPASIHTVKDIKEYYHVYPWGRIPDSLRANILAYYEKANTLASELLEWIETYSPDEIKAKFSIPLPEIANSHKTLLRILHYPPTGDEEGAIRAAAHEDINLITVLPTANEPGLQVKAKDGSWLDVPSDFGNIIINIGDLQEASDGYFPSTSHRVINPEGTDKTKSRISLPLFLHPHPSVVLSERYTADSYLERLRELGVL KLETIDYRAADSAKRFVESLRETGFGVLSNHPIDKELVERIYTEWQAFFNSEAKNEFFNRETHDGFFPASISETAKGHTVKDIKEYYHVYPWGRIPDSLRANILAYYEKANTLASELLEWIETYSPDEIKAKFSIPLPEIANSHKTLLRILHYPPTGDEEGAIRAAAHEDINLITVLPTANEPGLQVKAKDGSWLDVPSDFGNIIINIGDLQEASDGYFPSTSHRVINPEGTDKTKSRISLPLFLHPHPSVVLSERYTADSYLERLRELGVL 3ond-a1-m1-cA_3ond-a1-m2-cB Crystal structure of Lupinus luteus S-adenosyl-L-homocysteine hydrolase in complex with adenosine Q9SP37 Q9SP37 1.17 X-RAY DIFFRACTION 27 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 487 488 3ond-a1-m2-cA_3ond-a1-m1-cB 3one-a1-m1-cA_3one-a1-m2-cB 3one-a1-m2-cA_3one-a1-m1-cB 3onf-a1-m1-cA_3onf-a1-m2-cB 3onf-a1-m2-cA_3onf-a1-m1-cB SHMALLVEKTTSGREYKVKDMSQADFGRLEIELAEVEMPGLMASRSEFGPSQPFKGAKITGSLHMTIQTAVLIETLTALGAEVRWCSCNIFSTQDHAAAAIARDSAAVFAWKGETLQEYWWCTERALDWGPGGGPDLIVDDGGDTTLLIHEGVKAEEIYEKSGQFPDPDSTDNAEFKIVLSIIKEGLKTDPKRYHKMKDRVVGVSEETTTGVKRLYQMQANGTLLFPAINVNDSVTKSKFDNLYGCRHSLPDGLMRATDVMIAGKVAVVAGYGDVGKGCAAALKQAGARVIVTEIDPICALQATMEGLQVLTLEDVVSEADIFVTTTGNKDIIMLDHMKKMKNNAIVCNIGHFDNEIDMLGLETHPGVKRITIKPQTDRWVFPETNTGIIILAEGRLMNLGCATGHPSFVMSCSFTNQVIAQLELWNEKSSGKYEKKVYVLPKHLDEKVAALHLEKLGAKLTKLSKDQADYISVPVEGPYKPFHYRY GSHMALLVEKTTSGREYKVKDMSQADFGRLEIELAEVEMPGLMASRSEFGPSQPFKGAKITGSLHMTIQTAVLIETLTALGAEVRWCSCNIFSTQDHAAAAIARDSAAVFAWKGETLQEYWWCTERALDWGPGGGPDLIVDDGGDTTLLIHEGVKAEEIYEKSGQFPDPDSTDNAEFKIVLSIIKEGLKTDPKRYHKMKDRVVGVSEETTTGVKRLYQMQANGTLLFPAINVNDSVTKSKFDNLYGCRHSLPDGLMRATDVMIAGKVAVVAGYGDVGKGCAAALKQAGARVIVTEIDPICALQATMEGLQVLTLEDVVSEADIFVTTTGNKDIIMLDHMKKMKNNAIVCNIGHFDNEIDMLGLETHPGVKRITIKPQTDRWVFPETNTGIIILAEGRLMNLGCATGHPSFVMSCSFTNQVIAQLELWNEKSSGKYEKKVYVLPKHLDEKVAALHLEKLGAKLTKLSKDQADYISVPVEGPYKPFHYRY 3ond-a2-m1-cA_3ond-a2-m1-cB Crystal structure of Lupinus luteus S-adenosyl-L-homocysteine hydrolase in complex with adenosine Q9SP37 Q9SP37 1.17 X-RAY DIFFRACTION 171 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 487 488 3ond-a1-m1-cA_3ond-a1-m1-cB 3ond-a1-m2-cA_3ond-a1-m2-cB 3one-a1-m1-cA_3one-a1-m1-cB 3one-a1-m2-cA_3one-a1-m2-cB 3one-a2-m1-cA_3one-a2-m1-cB 3onf-a1-m1-cA_3onf-a1-m1-cB 3onf-a1-m2-cA_3onf-a1-m2-cB 3onf-a2-m1-cA_3onf-a2-m1-cB SHMALLVEKTTSGREYKVKDMSQADFGRLEIELAEVEMPGLMASRSEFGPSQPFKGAKITGSLHMTIQTAVLIETLTALGAEVRWCSCNIFSTQDHAAAAIARDSAAVFAWKGETLQEYWWCTERALDWGPGGGPDLIVDDGGDTTLLIHEGVKAEEIYEKSGQFPDPDSTDNAEFKIVLSIIKEGLKTDPKRYHKMKDRVVGVSEETTTGVKRLYQMQANGTLLFPAINVNDSVTKSKFDNLYGCRHSLPDGLMRATDVMIAGKVAVVAGYGDVGKGCAAALKQAGARVIVTEIDPICALQATMEGLQVLTLEDVVSEADIFVTTTGNKDIIMLDHMKKMKNNAIVCNIGHFDNEIDMLGLETHPGVKRITIKPQTDRWVFPETNTGIIILAEGRLMNLGCATGHPSFVMSCSFTNQVIAQLELWNEKSSGKYEKKVYVLPKHLDEKVAALHLEKLGAKLTKLSKDQADYISVPVEGPYKPFHYRY GSHMALLVEKTTSGREYKVKDMSQADFGRLEIELAEVEMPGLMASRSEFGPSQPFKGAKITGSLHMTIQTAVLIETLTALGAEVRWCSCNIFSTQDHAAAAIARDSAAVFAWKGETLQEYWWCTERALDWGPGGGPDLIVDDGGDTTLLIHEGVKAEEIYEKSGQFPDPDSTDNAEFKIVLSIIKEGLKTDPKRYHKMKDRVVGVSEETTTGVKRLYQMQANGTLLFPAINVNDSVTKSKFDNLYGCRHSLPDGLMRATDVMIAGKVAVVAGYGDVGKGCAAALKQAGARVIVTEIDPICALQATMEGLQVLTLEDVVSEADIFVTTTGNKDIIMLDHMKKMKNNAIVCNIGHFDNEIDMLGLETHPGVKRITIKPQTDRWVFPETNTGIIILAEGRLMNLGCATGHPSFVMSCSFTNQVIAQLELWNEKSSGKYEKKVYVLPKHLDEKVAALHLEKLGAKLTKLSKDQADYISVPVEGPYKPFHYRY 3onf-a1-m1-cB_3onf-a1-m2-cB Crystal structure of Lupinus luteus S-adenosyl-L-homocysteine hydrolase in complex with cordycepin Q9SP37 Q9SP37 2 X-RAY DIFFRACTION 97 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 488 488 3ond-a1-m1-cA_3ond-a1-m2-cA 3ond-a1-m1-cB_3ond-a1-m2-cB 3one-a1-m1-cA_3one-a1-m2-cA 3one-a1-m1-cB_3one-a1-m2-cB 3onf-a1-m1-cA_3onf-a1-m2-cA GSHMALLVEKTTSGREYKVKDMSQADFGRLEIELAEVEMPGLMASRSEFGPSQPFKGAKITGSLHMTIQTAVLIETLTALGAEVRWCSCNIFSTQDHAAAAIARDSAAVFAWKGETLQEYWWCTERALDWGPGGGPDLIVDDGGDTTLLIHEGVKAEEIYEKSGQFPDPDSTDNAEFKIVLSIIKEGLKTDPKRYHKMKDRVVGVSEETTTGVKRLYQMQANGTLLFPAINVNDSVTKSKFDNLYGCRHSLPDGLMRATDVMIAGKVAVVAGYGDVGKGCAAALKQAGARVIVTEIDPICALQATMEGLQVLTLEDVVSEADIFVTTTGNKDIIMLDHMKKMKNNAIVCNIGHFDNEIDMLGLETHPGVKRITIKPQTDRWVFPETNTGIIILAEGRLMNLGCATGHPSFVMSCSFTNQVIAQLELWNEKSSGKYEKKVYVLPKHLDEKVAALHLEKLGAKLTKLSKDQADYISVPVEGPYKPFHYRY GSHMALLVEKTTSGREYKVKDMSQADFGRLEIELAEVEMPGLMASRSEFGPSQPFKGAKITGSLHMTIQTAVLIETLTALGAEVRWCSCNIFSTQDHAAAAIARDSAAVFAWKGETLQEYWWCTERALDWGPGGGPDLIVDDGGDTTLLIHEGVKAEEIYEKSGQFPDPDSTDNAEFKIVLSIIKEGLKTDPKRYHKMKDRVVGVSEETTTGVKRLYQMQANGTLLFPAINVNDSVTKSKFDNLYGCRHSLPDGLMRATDVMIAGKVAVVAGYGDVGKGCAAALKQAGARVIVTEIDPICALQATMEGLQVLTLEDVVSEADIFVTTTGNKDIIMLDHMKKMKNNAIVCNIGHFDNEIDMLGLETHPGVKRITIKPQTDRWVFPETNTGIIILAEGRLMNLGCATGHPSFVMSCSFTNQVIAQLELWNEKSSGKYEKKVYVLPKHLDEKVAALHLEKLGAKLTKLSKDQADYISVPVEGPYKPFHYRY 3onl-a1-m1-cB_3onl-a1-m1-cA yeast Ent3_ENTH-Vti1p_Habc complex structure P47160 P47160 2.2 X-RAY DIFFRACTION 46 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 136 140 NYTEMEGKVREATNNEPWGASSTLMDQISQGTYNFREREEILSMIFRRFTEKAGSEWRQIYKALQLLDYLIKHGSERFIDDTRNSINLIRILETFHYIDSQGRDQGINVRTRVKALIELLSDDNKIRAERKKARET SVDPNYTEMEGKVREATNNEPWGASSTLMDQISQGTYNFREREEILSMIFRRFTEKAGSEWRQIYKALQLLDYLIKHGSERFIDDTRNSINLIRILETFHYIDSQGRDQGINVRTRVKALIELLSDDNKIRAERKKARET 3onm-a2-m1-cA_3onm-a2-m2-cA Effector binding Domain of LysR-Type transcription factor RovM from Y. pseudotuberculosis 2.4 X-RAY DIFFRACTION 90 1.0 349747 (Yersinia pseudotuberculosis IP 31758) 349747 (Yersinia pseudotuberculosis IP 31758) 190 190 GSLIIGASDDTADTLLPFLLNRVATLYPRLAIDVRVKRSPFIADMLSSGEVDLAITTAKVSHPHVILRTSPTLWYCSVDYQFQPGEPVPLVVMDEPSLYREMAIEHLTQAGVPWRIAYVASSLSAIRAAVRAGLGVTARPIEMMSPDLRVLGETEGLPGLPETRYVLCKDKQCDNELALAIFSALQNSYQ GSLIIGASDDTADTLLPFLLNRVATLYPRLAIDVRVKRSPFIADMLSSGEVDLAITTAKVSHPHVILRTSPTLWYCSVDYQFQPGEPVPLVVMDEPSLYREMAIEHLTQAGVPWRIAYVASSLSAIRAAVRAGLGVTARPIEMMSPDLRVLGETEGLPGLPETRYVLCKDKQCDNELALAIFSALQNSYQ 3onm-a2-m1-cB_3onm-a2-m2-cB Effector binding Domain of LysR-Type transcription factor RovM from Y. pseudotuberculosis 2.4 X-RAY DIFFRACTION 92 1.0 349747 (Yersinia pseudotuberculosis IP 31758) 349747 (Yersinia pseudotuberculosis IP 31758) 180 180 SLIIGASDDTADTLLPFLLNRVATLYPLAIDVRVKRSPFIADMLSSGEVDLAITTAKVDSHPHVILRTSPTLWYCSVDYQFQPGEPVPLVVMDEPSLYREMAIEHLTQAGVPWRIAYVASSLSAIRAAVRAGLGVTARPIEMMSPDLRVLGETEGLPGLPETRYVLCKDKQCDNELALAI SLIIGASDDTADTLLPFLLNRVATLYPLAIDVRVKRSPFIADMLSSGEVDLAITTAKVDSHPHVILRTSPTLWYCSVDYQFQPGEPVPLVVMDEPSLYREMAIEHLTQAGVPWRIAYVASSLSAIRAAVRAGLGVTARPIEMMSPDLRVLGETEGLPGLPETRYVLCKDKQCDNELALAI 3onm-a2-m2-cB_3onm-a2-m2-cA Effector binding Domain of LysR-Type transcription factor RovM from Y. pseudotuberculosis 2.4 X-RAY DIFFRACTION 47 0.994 349747 (Yersinia pseudotuberculosis IP 31758) 349747 (Yersinia pseudotuberculosis IP 31758) 180 190 3onm-a1-m1-cB_3onm-a1-m1-cA 3onm-a2-m1-cB_3onm-a2-m1-cA SLIIGASDDTADTLLPFLLNRVATLYPLAIDVRVKRSPFIADMLSSGEVDLAITTAKVDSHPHVILRTSPTLWYCSVDYQFQPGEPVPLVVMDEPSLYREMAIEHLTQAGVPWRIAYVASSLSAIRAAVRAGLGVTARPIEMMSPDLRVLGETEGLPGLPETRYVLCKDKQCDNELALAI GSLIIGASDDTADTLLPFLLNRVATLYPRLAIDVRVKRSPFIADMLSSGEVDLAITTAKVSHPHVILRTSPTLWYCSVDYQFQPGEPVPLVVMDEPSLYREMAIEHLTQAGVPWRIAYVASSLSAIRAAVRAGLGVTARPIEMMSPDLRVLGETEGLPGLPETRYVLCKDKQCDNELALAIFSALQNSYQ 3ono-a1-m1-cA_3ono-a1-m4-cA Crystal Structure of Ribose-5-phosphate Isomerase LacAB_rpiB from Vibrio parahaemolyticus Q87K18 Q87K18 1.75 X-RAY DIFFRACTION 35 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 205 205 3ono-a1-m2-cA_3ono-a1-m3-cA NAKIALENSQAAKNAVAGELNSVAGGLGHDVFNVGTDENDHHLTYIHLGIASILLNSKAVDFVVTGCGTGQGALSCNLHPGVVCGYCLEPSDAFLFNQINNGNAISLAFAKGFGWAGELNVRYIFEKAFTGKRGEGYPIERAAPQQANAAILNNVKAAVAKDVVEGLRAIDQELVKTAVGSTQFQECFFAHCQVPEIAEYVKSLL NAKIALENSQAAKNAVAGELNSVAGGLGHDVFNVGTDENDHHLTYIHLGIASILLNSKAVDFVVTGCGTGQGALSCNLHPGVVCGYCLEPSDAFLFNQINNGNAISLAFAKGFGWAGELNVRYIFEKAFTGKRGEGYPIERAAPQQANAAILNNVKAAVAKDVVEGLRAIDQELVKTAVGSTQFQECFFAHCQVPEIAEYVKSLL 3ono-a1-m2-cA_3ono-a1-m4-cA Crystal Structure of Ribose-5-phosphate Isomerase LacAB_rpiB from Vibrio parahaemolyticus Q87K18 Q87K18 1.75 X-RAY DIFFRACTION 123 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 205 205 3ono-a1-m1-cA_3ono-a1-m3-cA NAKIALENSQAAKNAVAGELNSVAGGLGHDVFNVGTDENDHHLTYIHLGIASILLNSKAVDFVVTGCGTGQGALSCNLHPGVVCGYCLEPSDAFLFNQINNGNAISLAFAKGFGWAGELNVRYIFEKAFTGKRGEGYPIERAAPQQANAAILNNVKAAVAKDVVEGLRAIDQELVKTAVGSTQFQECFFAHCQVPEIAEYVKSLL NAKIALENSQAAKNAVAGELNSVAGGLGHDVFNVGTDENDHHLTYIHLGIASILLNSKAVDFVVTGCGTGQGALSCNLHPGVVCGYCLEPSDAFLFNQINNGNAISLAFAKGFGWAGELNVRYIFEKAFTGKRGEGYPIERAAPQQANAAILNNVKAAVAKDVVEGLRAIDQELVKTAVGSTQFQECFFAHCQVPEIAEYVKSLL 3ono-a1-m3-cA_3ono-a1-m4-cA Crystal Structure of Ribose-5-phosphate Isomerase LacAB_rpiB from Vibrio parahaemolyticus Q87K18 Q87K18 1.75 X-RAY DIFFRACTION 32 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 205 205 3ono-a1-m1-cA_3ono-a1-m2-cA NAKIALENSQAAKNAVAGELNSVAGGLGHDVFNVGTDENDHHLTYIHLGIASILLNSKAVDFVVTGCGTGQGALSCNLHPGVVCGYCLEPSDAFLFNQINNGNAISLAFAKGFGWAGELNVRYIFEKAFTGKRGEGYPIERAAPQQANAAILNNVKAAVAKDVVEGLRAIDQELVKTAVGSTQFQECFFAHCQVPEIAEYVKSLL NAKIALENSQAAKNAVAGELNSVAGGLGHDVFNVGTDENDHHLTYIHLGIASILLNSKAVDFVVTGCGTGQGALSCNLHPGVVCGYCLEPSDAFLFNQINNGNAISLAFAKGFGWAGELNVRYIFEKAFTGKRGEGYPIERAAPQQANAAILNNVKAAVAKDVVEGLRAIDQELVKTAVGSTQFQECFFAHCQVPEIAEYVKSLL 3onp-a1-m1-cA_3onp-a1-m2-cA Crystal Structure of tRNA/rRNA Methyltransferase SpoU from Rhodobacter sphaeroides Q3IXX1 Q3IXX1 1.9 X-RAY DIFFRACTION 68 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 154 154 IEPVFILVRPQGENIGAAARALNFGLGRLRIVDPRDGWPNPKAVAASGAGRLLDHAGLFPTVAEAIRDCDYVFATTARGRELTKPVTPERAAHGRALTGEGRRVGILFGPERTGLENEDVALANAIVTVPVNPEFFSLNLAQCVLLLAYEWRRQ IEPVFILVRPQGENIGAAARALNFGLGRLRIVDPRDGWPNPKAVAASGAGRLLDHAGLFPTVAEAIRDCDYVFATTARGRELTKPVTPERAAHGRALTGEGRRVGILFGPERTGLENEDVALANAIVTVPVNPEFFSLNLAQCVLLLAYEWRRQ 3onq-a1-m2-cD_3onq-a1-m1-cA Crystal Structure of Regulator of Polyketide Synthase Expression BAD_0249 from Bifidobacterium adolescentis A0ZZZ7 A0ZZZ7 2.098 X-RAY DIFFRACTION 33 1.0 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 236 248 3onq-a1-m1-cC_3onq-a1-m2-cB DTTIERLAFECLLTNTDDRVVSLNILGWQGDFNCFAIGGVPSASLASTSLAIRKAVRDLGGEHVVIGTYGTFLLALACQGAVTPEVTCTAVPAFSEDEPLYLSPVRSGVAGASHALRETFSLQAAPALSTPSRPLRADELLPERALLGDDYAREELYRNVYQVLRGENPDDPTYLTVSTFLKYGSSLENTAKELNVHPNTVRYRLKRAAETTGWDATDPRDAYVLTTALAIGRRDR ADILDLLSGHTDDTTIERLAFECLLTNTDDRVVSLNILGWQGDFNCFAIGGVPSASLASTSLAIRKAVRDLGGEHVVIGTYGTFLLALACQGAVTPEVTCTAVPAFSEDEPLYLSPVRSGVAGASHALRETFSLQAAPALSTPSRPLRADELLPERALLGDDYAREELYRNVYQVLRGENPDDPTYLTVSTFLKYGSSLENTAKELNVHPNTVRYRLKRAAETTGWDATDPRDAYVLTTALAIGRRDR 3onq-a3-m1-cD_3onq-a3-m1-cB Crystal Structure of Regulator of Polyketide Synthase Expression BAD_0249 from Bifidobacterium adolescentis A0ZZZ7 A0ZZZ7 2.098 X-RAY DIFFRACTION 47 1.0 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 236 249 3onq-a1-m1-cC_3onq-a1-m1-cA 3onq-a1-m2-cD_3onq-a1-m2-cB 3onq-a2-m1-cC_3onq-a2-m1-cA DTTIERLAFECLLTNTDDRVVSLNILGWQGDFNCFAIGGVPSASLASTSLAIRKAVRDLGGEHVVIGTYGTFLLALACQGAVTPEVTCTAVPAFSEDEPLYLSPVRSGVAGASHALRETFSLQAAPALSTPSRPLRADELLPERALLGDDYAREELYRNVYQVLRGENPDDPTYLTVSTFLKYGSSLENTAKELNVHPNTVRYRLKRAAETTGWDATDPRDAYVLTTALAIGRRDR QADILDLLSGHTDDTTIERLAFECLLTNTDDRVVSLNILGWQGDFNCFAIGGVPSASLASTSLAIRKAVRDLGGEHVVIGTYGTFLLALACQGAVTPEVTCTAVPAFSEDEPLYLSPVRSGVAGASHALRETFSLQAAPALSTPSRPLRADELLPERALLGDDYAREELYRNVYQVLRGENPDDPTYLTVSTFLKYGSSLENTAKELNVHPNTVRYRLKRAAETTGWDATDPRDAYVLTTALAIGRRDR 3onr-a1-m1-cB_3onr-a1-m1-cC Crystal structure of the calcium chelating immunodominant antigen, calcium dodecin (Rv0379),from Mycobacterium tuberculosis with a novel calcium-binding site Q6MX43 Q6MX43 1.8 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 70 70 3onr-a1-m1-cB_3onr-a1-m1-cA 3onr-a1-m1-cC_3onr-a1-m1-cA 3onr-a1-m1-cD_3onr-a1-m1-cE 3onr-a1-m1-cD_3onr-a1-m1-cF 3onr-a1-m1-cE_3onr-a1-m1-cF 3onr-a1-m1-cG_3onr-a1-m1-cH 3onr-a1-m1-cG_3onr-a1-m1-cI 3onr-a1-m1-cH_3onr-a1-m1-cI 3onr-a1-m1-cJ_3onr-a1-m1-cL 3onr-a1-m1-cK_3onr-a1-m1-cJ 3onr-a1-m1-cK_3onr-a1-m1-cL SVYKVIDIIGTSPTSWEQAAAEAVQRARDSVDDIRVARVIEQDMAVDSAGKITYRIKLEVSFKMRPSQPL SVYKVIDIIGTSPTSWEQAAAEAVQRARDSVDDIRVARVIEQDMAVDSAGKITYRIKLEVSFKMRPSQPL 3onr-a1-m1-cD_3onr-a1-m1-cK Crystal structure of the calcium chelating immunodominant antigen, calcium dodecin (Rv0379),from Mycobacterium tuberculosis with a novel calcium-binding site Q6MX43 Q6MX43 1.8 X-RAY DIFFRACTION 26 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 67 67 3onr-a1-m1-cA_3onr-a1-m1-cG 3onr-a1-m1-cA_3onr-a1-m1-cL 3onr-a1-m1-cC_3onr-a1-m1-cF 3onr-a1-m1-cC_3onr-a1-m1-cH 3onr-a1-m1-cD_3onr-a1-m1-cB 3onr-a1-m1-cE_3onr-a1-m1-cI 3onr-a1-m1-cF_3onr-a1-m1-cH 3onr-a1-m1-cG_3onr-a1-m1-cL 3onr-a1-m1-cJ_3onr-a1-m1-cE 3onr-a1-m1-cJ_3onr-a1-m1-cI 3onr-a1-m1-cK_3onr-a1-m1-cB SVYKVIDIIGTSPTSWEQAAAEAVQRARDSVDDIRVARVIEQDMAVDSAGKITYRIKLEVSFKMRPS SVYKVIDIIGTSPTSWEQAAAEAVQRARDSVDDIRVARVIEQDMAVDSAGKITYRIKLEVSFKMRPS 3ont-a1-m1-cA_3ont-a1-m2-cA The Crystal Structure of Spot14, a modulator of lipogenesis Q62264 Q62264 2.65 X-RAY DIFFRACTION 149 1.0 10090 (Mus musculus) 10090 (Mus musculus) 107 107 YPKNCLLTVDRYSAVVRNEQVVIPSLLRDVQLSGPSVQDGAPDLYTYFTLKSICVEVDHGLLPDRISEELDLEAQFHLHFCSLHHILTHLTRKAQEVTRKYQETGQV YPKNCLLTVDRYSAVVRNEQVVIPSLLRDVQLSGPSVQDGAPDLYTYFTLKSICVEVDHGLLPDRISEELDLEAQFHLHFCSLHHILTHLTRKAQEVTRKYQETGQV 3ooc-a1-m1-cA_3ooc-a1-m1-cB Crystal structure of the membrane fusion protein CusB from Escherichia coli P77239 P77239 3.404 X-RAY DIFFRACTION 64 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 297 297 3opo-a1-m1-cA_3opo-a1-m1-cB 3ow7-a1-m1-cA_3ow7-a1-m1-cB TQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLI TQNLGVKTATVTRGPLTFAQSFPANVSYNEYQYAIVQARAAGFIDKVYPLTVGDKVQKGTPLLDLTIPDWVEAQSEYLLLRETGGTATQTEGILERLRLAGMPEADIRRLIATQKIQTRFTLKAPIDGVITAFDLRAGMNIAKDNVVAKIQGMDPVWVTAAIPESIAWLVKDASQFTLTVPARPDKTLTIRKWTLLPGVDAATRTLQLRLEVDNADEALKPGMNAWLQLNTASEPMLLIPSQALIDTGSEQRVITVDADGRFVPKRVAVFQASQGVTALRSGLAEGEKVVSSGLFLI 3oom-a1-m1-cA_3oom-a1-m2-cA Crystal structure of the ACVR1 kinase domain in complex with the imidazo[1,2-b]pyridazine inhibitor K00507 Q04771 Q04771 2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 4dym-a1-m1-cA_4dym-a1-m2-cA TVARDITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGTQGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKID TVARDITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGTQGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKID 3oon-a1-m1-cA_3oon-a1-m2-cA The structure of an outer membrance protein from Borrelia burgdorferi B31 O51189 O51189 1.79 X-RAY DIFFRACTION 40 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 111 111 NAAIEVEKNNKGINLSFDIEFYPNSFQILQKEYKKIDLIAKLLEKFKKNNILIEGHTEQFGLEEEHELSEKRARAIGNYLIKKVKDKDQILFKGWGSQKAKNRRVEITILN NAAIEVEKNNKGINLSFDIEFYPNSFQILQKEYKKIDLIAKLLEKFKKNNILIEGHTEQFGLEEEHELSEKRARAIGNYLIKKVKDKDQILFKGWGSQKAKNRRVEITILN 3ooo-a1-m1-cA_3ooo-a1-m2-cB The structure of a proline dipeptidase from Streptococcus agalactiae 2603V Q8E0M4 Q8E0M4 1.57 X-RAY DIFFRACTION 36 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 129 129 ASKLNRIRHHLHSVQAELAVFSDPVTVNYLTGFFCDPHERQFLFVYEDRDPILFVPALEVSRAKQSVPFPVFGYIDSENPWQKIASNLPSFSVSKVLAEFDNLNVTKFQGLQTVFDGHFENLTPYIQNR ASKLNRIRHHLHSVQAELAVFSDPVTVNYLTGFFCDPHERQFLFVYEDRDPILFVPALEVSRAKQSVPFPVFGYIDSENPWQKIASNLPSFSVSKVLAEFDNLNVTKFQGLQTVFDGHFENLTPYIQNR 3oop-a1-m1-cA_3oop-a1-m2-cA The structure of a protein with unknown function from Listeria innocua Clip11262 Q926T1 Q926T1 1.78 X-RAY DIFFRACTION 108 1.0 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 135 135 SNARGYYDEISFDVNTTAKKHLFLRSIASYDVTPEQWSVLEGIEANEPISQKEIALWTKKDTPTVNRIVDVLLRKELIVREIRRISLLSLTDKGRKETTELRDIVEASCEKFAGVTRTDLEQFTAILKNISTNIE SNARGYYDEISFDVNTTAKKHLFLRSIASYDVTPEQWSVLEGIEANEPISQKEIALWTKKDTPTVNRIVDVLLRKELIVREIRRISLLSLTDKGRKETTELRDIVEASCEKFAGVTRTDLEQFTAILKNISTNIE 3ooq-a1-m1-cH_3ooq-a1-m1-cJ CRYSTAL STRUCTURE OF amidohydrolase from Thermotoga maritima MSB8 Q9X247 Q9X247 2.06 X-RAY DIFFRACTION 67 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 372 372 3ooq-a1-m1-cB_3ooq-a1-m1-cA 3ooq-a1-m1-cC_3ooq-a1-m1-cD 3ooq-a1-m1-cE_3ooq-a1-m1-cI 3ooq-a1-m1-cG_3ooq-a1-m1-cF KILFKNATVFPITSRPFKGDVLVSNGKVEKVGENIEDPDAEIVDLTGKFLFPGFVDAHSHIGLFEEGVGYYYSDGNEATDPVTPHVKALDGFNPQDPAIERALAGGVTSVIVPGSANPVGGQGSVIKFRSIIVEECIVKDPAGLKAFGENPKRVYGERKQTPSTRGTAGVIRDYFTKVKNYKKKELAQKEGKEFTETDLKEVGEVLRKKIPARHAHRADDILTAIRIAEEFGFNLVIEHGTEAYKISKVLAEKKIPVVVGPLLTFRTKLELKDLTETIAKLLKDGVLIALCDHPVIPLEFATVQAATARYGAKEEDLLKILTVNPAKILGLEDRIGSIEPGKDADLVVWSGHPFDKSVVERVYIDGVEVFRR KILFKNATVFPITSRPFKGDVLVSNGKVEKVGENIEDPDAEIVDLTGKFLFPGFVDAHSHIGLFEEGVGYYYSDGNEATDPVTPHVKALDGFNPQDPAIERALAGGVTSVIVPGSANPVGGQGSVIKFRSIIVEECIVKDPAGLKAFGENPKRVYGERKQTPSTRGTAGVIRDYFTKVKNYKKKELAQKEGKEFTETDLKEVGEVLRKKIPARHAHRADDILTAIRIAEEFGFNLVIEHGTEAYKISKVLAEKKIPVVVGPLLTFRTKLELKDLTETIAKLLKDGVLIALCDHPVIPLEFATVQAATARYGAKEEDLLKILTVNPAKILGLEDRIGSIEPGKDADLVVWSGHPFDKSVVERVYIDGVEVFRR 3ooq-a1-m1-cI_3ooq-a1-m1-cJ CRYSTAL STRUCTURE OF amidohydrolase from Thermotoga maritima MSB8 Q9X247 Q9X247 2.06 X-RAY DIFFRACTION 81 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 372 372 3ooq-a1-m1-cA_3ooq-a1-m1-cC 3ooq-a1-m1-cA_3ooq-a1-m1-cF 3ooq-a1-m1-cB_3ooq-a1-m1-cD 3ooq-a1-m1-cB_3ooq-a1-m1-cG 3ooq-a1-m1-cE_3ooq-a1-m1-cG 3ooq-a1-m1-cE_3ooq-a1-m1-cH 3ooq-a1-m1-cH_3ooq-a1-m1-cD 3ooq-a1-m1-cI_3ooq-a1-m1-cF 3ooq-a1-m1-cJ_3ooq-a1-m1-cC KILFKNATVFPITSRPFKGDVLVSNGKVEKVGENIEDPDAEIVDLTGKFLFPGFVDAHSHIGLFEEGVGYYYSDGNEATDPVTPHVKALDGFNPQDPAIERALAGGVTSVIVPGSANPVGGQGSVIKFRSIIVEECIVKDPAGLKAFGENPKRVYGERKQTPSTRGTAGVIRDYFTKVKNYKKKELAQKEGKEFTETDLKEVGEVLRKKIPARHAHRADDILTAIRIAEEFGFNLVIEHGTEAYKISKVLAEKKIPVVVGPLLTFRTKLELKDLTETIAKLLKDGVLIALCDHPVIPLEFATVQAATARYGAKEEDLLKILTVNPAKILGLEDRIGSIEPGKDADLVVWSGHPFDKSVVERVYIDGVEVFRR KILFKNATVFPITSRPFKGDVLVSNGKVEKVGENIEDPDAEIVDLTGKFLFPGFVDAHSHIGLFEEGVGYYYSDGNEATDPVTPHVKALDGFNPQDPAIERALAGGVTSVIVPGSANPVGGQGSVIKFRSIIVEECIVKDPAGLKAFGENPKRVYGERKQTPSTRGTAGVIRDYFTKVKNYKKKELAQKEGKEFTETDLKEVGEVLRKKIPARHAHRADDILTAIRIAEEFGFNLVIEHGTEAYKISKVLAEKKIPVVVGPLLTFRTKLELKDLTETIAKLLKDGVLIALCDHPVIPLEFATVQAATARYGAKEEDLLKILTVNPAKILGLEDRIGSIEPGKDADLVVWSGHPFDKSVVERVYIDGVEVFRR 3oow-a1-m1-cC_3oow-a1-m1-cH Octameric structure of the phosphoribosylaminoimidazole carboxylase catalytic subunit from Francisella tularensis subsp. tularensis SCHU S4. Q5NGE9 Q5NGE9 1.75 X-RAY DIFFRACTION 79 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 155 155 3oow-a1-m1-cB_3oow-a1-m1-cD 3oow-a1-m1-cE_3oow-a1-m1-cF 3oow-a1-m1-cG_3oow-a1-m1-cA 3opq-a1-m1-cB_3opq-a1-m1-cD 3opq-a1-m1-cC_3opq-a1-m1-cH 3opq-a1-m1-cE_3opq-a1-m1-cF 3opq-a1-m1-cG_3opq-a1-m1-cA SVQVGVIGSKSDWSTKECCDILDNLGIGYECEVVSAHRTPDKFDYAETAKERGLKVIIAGAGGAAHLPGVAAKTTLPVLGVPVKSSTLNGQDSLLSIVQPAGIPVATFAIGAGAKNAALFAASILQHTDINIAKALAEFRAEQTRFVLENPDPRE SVQVGVIGSKSDWSTKECCDILDNLGIGYECEVVSAHRTPDKFDYAETAKERGLKVIIAGAGGAAHLPGVAAKTTLPVLGVPVKSSTLNGQDSLLSIVQPAGIPVATFAIGAGAKNAALFAASILQHTDINIAKALAEFRAEQTRFVLENPDPRE 3op0-a3-m1-cA_3op0-a3-m1-cB Crystal structure of Cbl-c (Cbl-3) TKB domain in complex with EGFR pY1069 peptide Q9ULV8 Q9ULV8 2.52 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 RQWEEARALGRAVRMLQRLEEQCVDPRLSVSPPSLRDLLPRTAQLLREVAHSRREAGGGGPGGPGGSGDFLLIYLANLEAKSRQVAALLPPRGRRSANDELFRAGSRLRRQLAKLAIIFSHMHAELHALFPGGKYCGHMYQLTKAPAHTFWRESCGARCVLPWAEFESLLGTHPVEPGTALALRTTIDLTSGHVSIFEFDVFTRLFQPWPTLLKNWQLLAVNHPGYMAFLTYDEVQERLQACRDKPGSYIFRPSCTRLGQWAIGYVSSDGSILQTIPANKPLSQVLLEGQKDGFYLYPDGKTHNPDLTELGAENLYFQ RQWEEARALGRAVRMLQRLEEQCVDPRLSVSPPSLRDLLPRTAQLLREVAHSRREAGGGGPGGPGGSGDFLLIYLANLEAKSRQVAALLPPRGRRSANDELFRAGSRLRRQLAKLAIIFSHMHAELHALFPGGKYCGHMYQLTKAPAHTFWRESCGARCVLPWAEFESLLGTHPVEPGTALALRTTIDLTSGHVSIFEFDVFTRLFQPWPTLLKNWQLLAVNHPGYMAFLTYDEVQERLQACRDKPGSYIFRPSCTRLGQWAIGYVSSDGSILQTIPANKPLSQVLLEGQKDGFYLYPDGKTHNPDLTELGAENLYFQ 3op1-a2-m1-cC_3op1-a2-m2-cC Crystal Structure of Macrolide-efflux Protein SP_1110 from Streptococcus pneumoniae A0A0H2UPY5 A0A0H2UPY5 2.488 X-RAY DIFFRACTION 80 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 253 253 3op1-a1-m1-cA_3op1-a1-m1-cB IITIPIKNQKDIGTPSDSVVVLGYFDGIHKGHQELFRVANKAARKDLLPIVVTFNESPKIALEPYHPDLFLHILNPAERERKLKREGVEELYLLDFSSQFASLTAQEFFATYIKANAKIIVAGFDYTFGSDKKTAEDLKNYFDGEVIIVPPVEDEKGKISSTRIRQAILDGNVKEAGKLLGAPLPSRGVVHGPTANLVLLDRTYPADGVYVVDVEIQRQKYRAASVGARFEVNIFDFNQDIYGETVVYWLDRI IITIPIKNQKDIGTPSDSVVVLGYFDGIHKGHQELFRVANKAARKDLLPIVVTFNESPKIALEPYHPDLFLHILNPAERERKLKREGVEELYLLDFSSQFASLTAQEFFATYIKANAKIIVAGFDYTFGSDKKTAEDLKNYFDGEVIIVPPVEDEKGKISSTRIRQAILDGNVKEAGKLLGAPLPSRGVVHGPTANLVLLDRTYPADGVYVVDVEIQRQKYRAASVGARFEVNIFDFNQDIYGETVVYWLDRI 3op3-a1-m1-cA_3op3-a1-m2-cA Crystal Structure of Cell Division Cycle 25C Protein Isoform A from Homo sapiens P30307 P30307 2.63 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 GHLIGDFSKVCALPTVSGKHQDLKYVNPETVAALLSGKFQGLIEKFYVIDCRYPYEYLGGHIQGALNLYSQEELFNFFLKKPIVPLDTQKRIIIVFHCEFERGPRMCRCLREEDRSLNQYPALYYPELYILKGGYRDFFPEYMELCEPQSYCPMHHQDHKTELLRCR GHLIGDFSKVCALPTVSGKHQDLKYVNPETVAALLSGKFQGLIEKFYVIDCRYPYEYLGGHIQGALNLYSQEELFNFFLKKPIVPLDTQKRIIIVFHCEFERGPRMCRCLREEDRSLNQYPALYYPELYILKGGYRDFFPEYMELCEPQSYCPMHHQDHKTELLRCR 3op7-a1-m1-cA_3op7-a1-m2-cA Crystal structure of a PLP-dependent aminotransferase (ZP_03625122.1) from Streptococcus suis 89-1591 at 1.70 A resolution 1.7 X-RAY DIFFRACTION 198 1.0 286604 (Streptococcus suis 89/1591) 286604 (Streptococcus suis 89/1591) 365 365 3p6k-a1-m1-cA_3p6k-a1-m1-cB GKLPRFGVEEWLNVHENSAIYDIAGVSISSLTLEELFALSGTNPEDFYKKLQGTKLNYGWIEGSPAFKKSVSQLYTGVKPEQILQTNGATGANLLVLYSLIEPGDHVISLYPTYQQLYDIPKSLGAEVDLWQIEEENGWLPDLEKLRQLIRPTTKICINNANNPTGAVDRTYLEELVEIASEVGAYILSDEVYRSFSELDVPSIIEVYDKGIAVNSLSTYSLPGIRIGWVAANHQVTDILRDYRDYTICAGVFDDLVAQLALAHYQEILERNRHILEENLAILDQWIEEEPLVSYIRPAVVSTSFVKIAVDPEDFCLQLLQEHGVLLVPGNRFERDGYVRLGFACEQETLIKGLEKLSQFLRRFD GKLPRFGVEEWLNVHENSAIYDIAGVSISSLTLEELFALSGTNPEDFYKKLQGTKLNYGWIEGSPAFKKSVSQLYTGVKPEQILQTNGATGANLLVLYSLIEPGDHVISLYPTYQQLYDIPKSLGAEVDLWQIEEENGWLPDLEKLRQLIRPTTKICINNANNPTGAVDRTYLEELVEIASEVGAYILSDEVYRSFSELDVPSIIEVYDKGIAVNSLSTYSLPGIRIGWVAANHQVTDILRDYRDYTICAGVFDDLVAQLALAHYQEILERNRHILEENLAILDQWIEEEPLVSYIRPAVVSTSFVKIAVDPEDFCLQLLQEHGVLLVPGNRFERDGYVRLGFACEQETLIKGLEKLSQFLRRFD 3op9-a1-m1-cA_3op9-a1-m4-cA Crystal structure of transcriptional regulator from Listeria innocua Q926P6 Q926P6 1.898 X-RAY DIFFRACTION 57 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 106 106 3op9-a1-m2-cA_3op9-a1-m3-cA IQHQFAENLSRLKKEHGLKNHQIAELLNVQTRTVAYYSGETKPDIEKLIRLATYFHLSIDELVGYVQEVWNDLSLKQWLLSLNLRSEEEIAKIKILVDTVETLYPN IQHQFAENLSRLKKEHGLKNHQIAELLNVQTRTVAYYSGETKPDIEKLIRLATYFHLSIDELVGYVQEVWNDLSLKQWLLSLNLRSEEEIAKIKILVDTVETLYPN 3op9-a1-m2-cA_3op9-a1-m4-cA Crystal structure of transcriptional regulator from Listeria innocua Q926P6 Q926P6 1.898 X-RAY DIFFRACTION 70 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 106 106 3op9-a1-m1-cA_3op9-a1-m3-cA IQHQFAENLSRLKKEHGLKNHQIAELLNVQTRTVAYYSGETKPDIEKLIRLATYFHLSIDELVGYVQEVWNDLSLKQWLLSLNLRSEEEIAKIKILVDTVETLYPN IQHQFAENLSRLKKEHGLKNHQIAELLNVQTRTVAYYSGETKPDIEKLIRLATYFHLSIDELVGYVQEVWNDLSLKQWLLSLNLRSEEEIAKIKILVDTVETLYPN 3op9-a1-m3-cA_3op9-a1-m4-cA Crystal structure of transcriptional regulator from Listeria innocua Q926P6 Q926P6 1.898 X-RAY DIFFRACTION 37 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 106 106 3op9-a1-m1-cA_3op9-a1-m2-cA IQHQFAENLSRLKKEHGLKNHQIAELLNVQTRTVAYYSGETKPDIEKLIRLATYFHLSIDELVGYVQEVWNDLSLKQWLLSLNLRSEEEIAKIKILVDTVETLYPN IQHQFAENLSRLKKEHGLKNHQIAELLNVQTRTVAYYSGETKPDIEKLIRLATYFHLSIDELVGYVQEVWNDLSLKQWLLSLNLRSEEEIAKIKILVDTVETLYPN 3opb-a1-m1-cB_3opb-a1-m1-cA Crystal structure of She4p P51534 P51534 2.9 X-RAY DIFFRACTION 145 0.984 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 741 747 PLKGNDPIDSSTIDSLCAAFDKTPDVQKYNDAINTIFQLRQKSESGKMPADLTNSEALKDRQKIEEILTRSYQDHSESRVHLSKLIQNDIPFALNLFEILSRSSIHVFVGCFSNKDATIALLNELQIRIHYGEDTHVTYLLSIILQLLNKFKYNFKEVRFLVKELILRISEDEVKSMMLIIFAELQSSFQKDFDKAVVDFMSSLIVEAEIDVGNDPLSIIVKTLSELYPSLTTLCSEIFLTKGLSKLFKKRVFEEQDLQFTKELLRLLSSACIDETMRTYITENYLQLLERSLNVEDVQIYSALVLVKTWSFTKLTCINLKQLSEIFINAISRRIVPKVEMSVEALAYLSLKASVKIMIRSNESFTEILLTMIKSQKMTHCLYGLLVIMANLSTLPEEPAADKVGAEKAAKEDILLFNEKYILRTELISFLKREMHNLSPNCKQQVVRIIYNITRSKNFIPQLAQQGAVKIILEYLANKQDIGEPIRILGCRALTRMLIFTNPGLIFKKYSALNAIPFLFELLPRSTNPLHNDEQIKLTDNYEALLALTNLASSETSDGEEVCKHIVSTKVYWSTIENLMLDENVPLQRSTLELISNMMSHPLTIAAKFFNLENPQSLRNFNILVKLLQLSDVESQRAVAAIFANIATTIPLIAKELLTKKELIENAIQVFADQIDDIELRQRLLMLFFGLFEVIPDNGTNEVYPLLQENQKLKDALNMSLKRGDSGPEFSAAIPVILAKI PLSEKGNDPIDSSTIDSLCAAFDKTLKSTPDVQKYNDAINTIFQLRQKSESGKMPADLTNSEALKDRQKIEEILTRSYQDHSESRVHLSKLIQNDIPFALNLFEILSRSSIHVFVGCFSNKDATIALLNELQIRIHYGEDTHVTYLLSIILQLLNKFKYNFKEVRFLVKELILRISEDEVKSMMLIIFAELQSSFQKDFDKAVVDFMSSLIVEAEIDVGNDPLSIIVKTLSELYPSLTTLCSEIFLTKGLSKLFKKRVFEEQDLQFTKELLRLLSSACIDETMRTYITENYLQLLERSLNVEDVQIYSALVLVKTWSFTKLTCINLKQLSEIFINAISRRIVPKVEMSVEALAYLSLKASVKIMIRSNESFTEILLTMIKSQKMTHCLYGLLVIMANLSTLPEEXXXXXXVGAEKAAKEDILLFNEKYILRTELISFLKREMHNLSPNCKQQVVRIIYNITRSKNFIPQLAQQGAVKIILEYLANKGEPIRILGCRALTRMLIFTNPGLIFKKYSALNAIPFLFELLPRSTPVDDNPDEQIKLTDNYEALLALTNLASSETSDGEEVCKHIVSTKVYWSTIENLMLDENVPLQRSTLELISNMMSHPLTIAAKFFNLENPQSLRNFNILVKLLQLSDVESQRAVAAIFANIATTIPLIAKELLTKKELIENAIQVFADQIDDIELRQRLLMLFFGLFEVIPDNGTNEVYPLLQENQKLKDALNMSLKRGDSGPEFSAAIPVILAKIK 3opc-a1-m1-cA_3opc-a1-m1-cB Crystal structure of FlgN chaperone from Bordetella pertussis Q7VYH2 Q7VYH2 2.09 X-RAY DIFFRACTION 236 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 126 129 NSAALKSCLERENALVVEFLHALEAETEALDRRAHESLQAAVQRKETLADDLAQLGAERDALLSGAGLASGPAGTDAAAAAHPELGPLWQALQANAAQAREHNQRNGTLIAVNLRHTQESLDALRQ NANSAALKSCLERENALVVEFLHALEAETEALDRRAHESLQAAVQRKETLADDLAQLGAERDALLSGAGLASGPAGTDAAAAAHPELGPLWQALQANAAQAREHNQRNGTLIAVNLRHTQESLDALRQA 3opq-a1-m1-cF_3opq-a1-m1-cA Phosphoribosylaminoimidazole carboxylase with fructose-6-phosphate bound to the central channel of the octameric protein structure. Q5NGE9 Q5NGE9 2 X-RAY DIFFRACTION 39 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 153 154 3oow-a1-m1-cA_3oow-a1-m1-cC 3oow-a1-m1-cA_3oow-a1-m1-cF 3oow-a1-m1-cB_3oow-a1-m1-cC 3oow-a1-m1-cB_3oow-a1-m1-cF 3oow-a1-m1-cE_3oow-a1-m1-cD 3oow-a1-m1-cG_3oow-a1-m1-cE 3oow-a1-m1-cG_3oow-a1-m1-cH 3oow-a1-m1-cH_3oow-a1-m1-cD 3opq-a1-m1-cA_3opq-a1-m1-cC 3opq-a1-m1-cC_3opq-a1-m1-cB 3opq-a1-m1-cE_3opq-a1-m1-cD 3opq-a1-m1-cE_3opq-a1-m1-cG 3opq-a1-m1-cF_3opq-a1-m1-cB 3opq-a1-m1-cG_3opq-a1-m1-cH 3opq-a1-m1-cH_3opq-a1-m1-cD VQVGVIGSKSDWSTKECCDILDNLGIGYECEVVSAHRTPDKFDYAETAKERGLKVIIAGAGGAAHLPGVAAKTTLPVLGVPVKSSTLNGQDSLLSIVQPAGIPVATFAIGAGAKNAALFAASILQHTDINIAKALAEFRAEQTRFVLENPDPR SVQVGVIGSKSDWSTKECCDILDNLGIGYECEVVSAHRTPDKFDYAETAKERGLKVIIAGAGGAAHLPGVAAKTTLPVLGVPVKSSTLNGQDSLLSIVQPAGIPVATFAIGAGAKNAALFAASILQHTDINIAKALAEFRAEQTRFVLENPDPR 3opq-a1-m1-cF_3opq-a1-m1-cG Phosphoribosylaminoimidazole carboxylase with fructose-6-phosphate bound to the central channel of the octameric protein structure. Q5NGE9 Q5NGE9 2 X-RAY DIFFRACTION 100 0.993 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 153 153 3oow-a1-m1-cA_3oow-a1-m1-cH 3oow-a1-m1-cC_3oow-a1-m1-cD 3oow-a1-m1-cE_3oow-a1-m1-cB 3oow-a1-m1-cG_3oow-a1-m1-cF 3opq-a1-m1-cA_3opq-a1-m1-cH 3opq-a1-m1-cC_3opq-a1-m1-cD 3opq-a1-m1-cE_3opq-a1-m1-cB VQVGVIGSKSDWSTKECCDILDNLGIGYECEVVSAHRTPDKFDYAETAKERGLKVIIAGAGGAAHLPGVAAKTTLPVLGVPVKSSTLNGQDSLLSIVQPAGIPVATFAIGAGAKNAALFAASILQHTDINIAKALAEFRAEQTRFVLENPDPR SVQVGVIGSKSDWSTKECCDILDNLGIGYECEVVSAHRTPDKFDYAETAKERGLKVIIAGAGGAAHLPGVAAKTTLPVLGVPVKSSTLNGQDSLLSIVQPAGIPVATFAIGAGAKNAALFAASILQHTDINIAKALAEFRAEQTRFVLENPDP 3opy-a1-m1-cC_3opy-a1-m1-cG Crystal structure of Pichia pastoris phosphofructokinase in the T-state Q8NJU8 Q8NJU8 3.05 X-RAY DIFFRACTION 47 1.0 638632 (Komagataella pastoris DSMZ 70382) 638632 (Komagataella pastoris DSMZ 70382) 936 936 3opy-a1-m1-cA_3opy-a1-m1-cE SISDLSFTSFVTNDDNLFEETFNFYTKLGFHATRSYVKNRSDFELTGISDSIKEIWLESFPLSEVVEAGRELRKPLQESVGYESEALLGYPYQGGVVIKLRLSNEKNNDLPGEVTFFTASIDKLKAKLIEIGAEIIPSKLVEFSTRDPMGDVISFSSYPSLSKKITSPDFEGKKKIAIITSGGDAPGMNAAVRAVTRAGIFYGCKVYACYEGYTGLVKGGDMLKELQWQDVRGLLSIGGTIIGTARCKEFRERWGRLQACYNMVSNGIDALVVCGGDGSLTGADLFRKEWPELIKEKEQYETHRNLTIVGLVGSIDNDMCGTDSTIGAYSSLERIIELVDYIDATAASHSRAFVVEVMGRHCGWLGLMSGIATGADYIFIPERPPSESNWKDDLKKVCLRHREKGRRKTTVIVAEGAIDDQLNPITSEEVKDVLVEIGLDTRITRLGHVQRGGAPCAFDRFLATVQGVDAVRAVLESTPAIPSPVISILENKIVRQPLVESVAQTKTVSAAIEAKDFDKALQLRDQEFATSYENFLSVSKYDDGSYLVPESSRLNIAIIHVGAPTSALNPATRVATLNSLAKGHRVFAIRNGFAGLIRHGAVRELNWIDVEDWHNTGGSEIGTNRSLPSDDMGTVAYYFQQYKFDGLIIIGGFEAFTALYELDAARAQYPIFNIPMCCLPATVSNNVPGTEYSLGSDTCLNTLSGYCDAVKQSASSRRRTFVVEVQGGYSGYLASYAGLITGALAVYTPENPINLQTVQEDIELLTRTYEEDDRSGKIFIHNEKASKVYTTDLIAAIIGEAGKGRFESRTAVPGHVQQGKSPSSIDRVNACRLAIKCCNFIEDANFQVKHNANLSADERHLRFFYDDGVKTSAVSGKSSVIDDNTSVVIGIQGSEVTFTPVKQLWENETHHKWNVHWEQLNIVSDLLSGRLSIRTT SISDLSFTSFVTNDDNLFEETFNFYTKLGFHATRSYVKNRSDFELTGISDSIKEIWLESFPLSEVVEAGRELRKPLQESVGYESEALLGYPYQGGVVIKLRLSNEKNNDLPGEVTFFTASIDKLKAKLIEIGAEIIPSKLVEFSTRDPMGDVISFSSYPSLSKKITSPDFEGKKKIAIITSGGDAPGMNAAVRAVTRAGIFYGCKVYACYEGYTGLVKGGDMLKELQWQDVRGLLSIGGTIIGTARCKEFRERWGRLQACYNMVSNGIDALVVCGGDGSLTGADLFRKEWPELIKEKEQYETHRNLTIVGLVGSIDNDMCGTDSTIGAYSSLERIIELVDYIDATAASHSRAFVVEVMGRHCGWLGLMSGIATGADYIFIPERPPSESNWKDDLKKVCLRHREKGRRKTTVIVAEGAIDDQLNPITSEEVKDVLVEIGLDTRITRLGHVQRGGAPCAFDRFLATVQGVDAVRAVLESTPAIPSPVISILENKIVRQPLVESVAQTKTVSAAIEAKDFDKALQLRDQEFATSYENFLSVSKYDDGSYLVPESSRLNIAIIHVGAPTSALNPATRVATLNSLAKGHRVFAIRNGFAGLIRHGAVRELNWIDVEDWHNTGGSEIGTNRSLPSDDMGTVAYYFQQYKFDGLIIIGGFEAFTALYELDAARAQYPIFNIPMCCLPATVSNNVPGTEYSLGSDTCLNTLSGYCDAVKQSASSRRRTFVVEVQGGYSGYLASYAGLITGALAVYTPENPINLQTVQEDIELLTRTYEEDDRSGKIFIHNEKASKVYTTDLIAAIIGEAGKGRFESRTAVPGHVQQGKSPSSIDRVNACRLAIKCCNFIEDANFQVKHNANLSADERHLRFFYDDGVKTSAVSGKSSVIDDNTSVVIGIQGSEVTFTPVKQLWENETHHKWNVHWEQLNIVSDLLSGRLSIRTT 3opy-a1-m1-cF_3opy-a1-m1-cH Crystal structure of Pichia pastoris phosphofructokinase in the T-state Q8TGA0 Q8TGA0 3.05 X-RAY DIFFRACTION 36 1.0 638632 (Komagataella pastoris DSMZ 70382) 638632 (Komagataella pastoris DSMZ 70382) 884 884 3opy-a1-m1-cB_3opy-a1-m1-cD SLFNGTSFITLFAPNSLQASIDFYTNFLGFAIRKNSNQKLQLEEDQNNVSIQLILDPEHAASVSQIDQNIRNLTIQSNIAFKSSSLSKLVKLLKDGGHPVQQSPNEISPFEVYTVDPLGSLIGFGFKNPFAVNERVRKTIGVMTSGGDSPGMNPFVRAVVRAGIYKGCKVFCIHEGYEGLVRGGEKYIKETQWHDVRGWLVEGGTNIGTARCKEFRERSGRLKACKNMIDMGIDALIVCGGDGSLTGADRFRSEWPSLIEEQQQFNTHQNLNICGAVGSIDNDMSSTDATIGAFSSLDRICRAIDYIDATASHSRAFIVEVMGRHCGWLGLLAGLATSADYILIPEKPASSREWQDQMCDIVGKHRARGKRKTIVIVAEGAISNDLSPISCDQVKDVLVNRLGLDTRVTTLGHVQRGGTAVAFDRIYATLQGVEAVNAVLECDADTPSPMIAIKEDQITRVPLVDAVELTQQVAKSIESRNFKKAISLRDSEFVEHMKNFISTNSDHVPPSLPLEKRKKIAIINVGAPAGGMNSAVYSMATYCMSRGHVPYAIHNGFSGLARHESVRSINWLDIEGWGSLGGSEIGTNRTLPNDADIGMIAYFFEKYGFDGLILVGGFEAFISLHQLERARINYPSLRIPLVLIPATISNNVPGTEYSLGSDTCLNSFMEYCDVIKQSAAATNRVFVVEVQGGNSGYIATHAQLACGAQISYVPEEGISLAQLEMDINSLKESFANDQGKTKSGRLILKSENASKVLTTEVISTIIDDEASGRFDSKTAIPGHVQQGGIPSPMDRVRASRFAIRAVSFIERHSDRCQTFKNSISFRQTDEITSTAVVLGIHKQLRFTPIRQLYDFESDVPRRMRNIFWSNVREISDMLSGRTSL SLFNGTSFITLFAPNSLQASIDFYTNFLGFAIRKNSNQKLQLEEDQNNVSIQLILDPEHAASVSQIDQNIRNLTIQSNIAFKSSSLSKLVKLLKDGGHPVQQSPNEISPFEVYTVDPLGSLIGFGFKNPFAVNERVRKTIGVMTSGGDSPGMNPFVRAVVRAGIYKGCKVFCIHEGYEGLVRGGEKYIKETQWHDVRGWLVEGGTNIGTARCKEFRERSGRLKACKNMIDMGIDALIVCGGDGSLTGADRFRSEWPSLIEEQQQFNTHQNLNICGAVGSIDNDMSSTDATIGAFSSLDRICRAIDYIDATASHSRAFIVEVMGRHCGWLGLLAGLATSADYILIPEKPASSREWQDQMCDIVGKHRARGKRKTIVIVAEGAISNDLSPISCDQVKDVLVNRLGLDTRVTTLGHVQRGGTAVAFDRIYATLQGVEAVNAVLECDADTPSPMIAIKEDQITRVPLVDAVELTQQVAKSIESRNFKKAISLRDSEFVEHMKNFISTNSDHVPPSLPLEKRKKIAIINVGAPAGGMNSAVYSMATYCMSRGHVPYAIHNGFSGLARHESVRSINWLDIEGWGSLGGSEIGTNRTLPNDADIGMIAYFFEKYGFDGLILVGGFEAFISLHQLERARINYPSLRIPLVLIPATISNNVPGTEYSLGSDTCLNSFMEYCDVIKQSAAATNRVFVVEVQGGNSGYIATHAQLACGAQISYVPEEGISLAQLEMDINSLKESFANDQGKTKSGRLILKSENASKVLTTEVISTIIDDEASGRFDSKTAIPGHVQQGGIPSPMDRVRASRFAIRAVSFIERHSDRCQTFKNSISFRQTDEITSTAVVLGIHKQLRFTPIRQLYDFESDVPRRMRNIFWSNVREISDMLSGRTSL 3oq2-a2-m2-cA_3oq2-a2-m2-cB Structure of a CRISPR associated protein Cas2 from Desulfovibrio vulgaris Q72WF4 Q72WF4 1.35 X-RAY DIFFRACTION 101 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 99 102 3oq2-a1-m1-cA_3oq2-a1-m1-cB 3oq2-a2-m1-cA_3oq2-a2-m1-cB NDAMLVLISYDVSFEDPGGQRRLRRIAKACQDYGQRVQYSVFECVVDPAQWAKLKHRLLSEMDKEKDCLRFYYLGANWRNKVEHVGAKPAYDPEGPLIL MYGNDAMLVLISYDVSFEDPGGQRRLRRIAKACQDYGQRVQYSVFECVVDPAQWAKLKHRLLSEMDKEKDCLRFYYLGANWRNKVEHVGAKPAYDPEGPLIL 3oq2-a3-m1-cA_3oq2-a3-m4-cB Structure of a CRISPR associated protein Cas2 from Desulfovibrio vulgaris Q72WF4 Q72WF4 1.35 X-RAY DIFFRACTION 11 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 99 102 3oq2-a3-m3-cA_3oq2-a3-m2-cB NDAMLVLISYDVSFEDPGGQRRLRRIAKACQDYGQRVQYSVFECVVDPAQWAKLKHRLLSEMDKEKDCLRFYYLGANWRNKVEHVGAKPAYDPEGPLIL MYGNDAMLVLISYDVSFEDPGGQRRLRRIAKACQDYGQRVQYSVFECVVDPAQWAKLKHRLLSEMDKEKDCLRFYYLGANWRNKVEHVGAKPAYDPEGPLIL 3oq2-a3-m3-cA_3oq2-a3-m4-cB Structure of a CRISPR associated protein Cas2 from Desulfovibrio vulgaris Q72WF4 Q72WF4 1.35 X-RAY DIFFRACTION 14 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 99 102 3oq2-a2-m1-cA_3oq2-a2-m2-cB 3oq2-a2-m2-cA_3oq2-a2-m1-cB 3oq2-a3-m1-cA_3oq2-a3-m2-cB NDAMLVLISYDVSFEDPGGQRRLRRIAKACQDYGQRVQYSVFECVVDPAQWAKLKHRLLSEMDKEKDCLRFYYLGANWRNKVEHVGAKPAYDPEGPLIL MYGNDAMLVLISYDVSFEDPGGQRRLRRIAKACQDYGQRVQYSVFECVVDPAQWAKLKHRLLSEMDKEKDCLRFYYLGANWRNKVEHVGAKPAYDPEGPLIL 3oq9-a1-m1-cB_3oq9-a1-m1-cC Structure of the FAS/FADD death domain assembly P25446 P25446 6.8 X-RAY DIFFRACTION 15 1.0 10090 (Mus musculus) 10090 (Mus musculus) 86 86 KYIPRIAEDMTIQEAKKFARENNIKEGKIDEIMHDSIQDTAEQKVQLLLCWYQSHGKSDAYQDLIKGLKKAECRRTLDKFQDMVQK KYIPRIAEDMTIQEAKKFARENNIKEGKIDEIMHDSIQDTAEQKVQLLLCWYQSHGKSDAYQDLIKGLKKAECRRTLDKFQDMVQK 3oq9-a1-m1-cC_3oq9-a1-m1-cD Structure of the FAS/FADD death domain assembly P25446 P25446 6.8 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 86 86 3oq9-a1-m1-cA_3oq9-a1-m1-cB 3oq9-a1-m1-cD_3oq9-a1-m1-cE KYIPRIAEDMTIQEAKKFARENNIKEGKIDEIMHDSIQDTAEQKVQLLLCWYQSHGKSDAYQDLIKGLKKAECRRTLDKFQDMVQK KYIPRIAEDMTIQEAKKFARENNIKEGKIDEIMHDSIQDTAEQKVQLLLCWYQSHGKSDAYQDLIKGLKKAECRRTLDKFQDMVQK 3oq9-a1-m1-cH_3oq9-a1-m1-cI Structure of the FAS/FADD death domain assembly Q13158 Q13158 6.8 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 3oq9-a1-m1-cJ_3oq9-a1-m1-cK 3oq9-a1-m1-cK_3oq9-a1-m1-cL GEEDLCAAFNVICDNVGKDWRRLARQLKVSDTKIDSIEDRYPRNLTERVRESLRIWKNTEKENATVAHLVGALRSCQMNLVADLVQEVQQAR GEEDLCAAFNVICDNVGKDWRRLARQLKVSDTKIDSIEDRYPRNLTERVRESLRIWKNTEKENATVAHLVGALRSCQMNLVADLVQEVQQAR 3oqb-a1-m1-cH_3oqb-a1-m1-cB CRYSTAL STRUCTURE OF putative oxidoreductase from Bradyrhizobium japonicum USDA 110 Q89RD2 Q89RD2 2.6 X-RAY DIFFRACTION 153 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 367 369 3oqb-a1-m1-cA_3oqb-a1-m1-cG 3oqb-a1-m1-cC_3oqb-a1-m1-cF 3oqb-a1-m1-cE_3oqb-a1-m1-cD TTQRLGLINGVTGRGLNQHLIRSIVAIRDQGGVRLKNGDRIPDPILVGRSAEKVEALAKRFNIARWTTDLDAALADKNDTFFDAATTQARPGLLTQAINAGKHVYCEKPIATNFEEALEVVKLANSKGVKHGTVQDKLFLPGLKKIAFLRDSGFFGRILSVRGEFGYWVFEGGWQEAQRPSWNYRDEDGGGIILDVCHWRYVLDNLFGNVQSVVCIGNTDIPERFDEQGKKYKATADDSAYATFQLEGGVIAHINSWVTRVYRDDLVTFQVDGTHGSAVAGLSDCIQARQATPRPVWNPHDFYGDWQKLPDNVSYDNGFKEQWEFIRHVYEDAPYKFTLLEGAKGVQLAECALKSWKERRWIDVAPI TTQRLGLINGVTGRGLNQHLIRSIVAIRDQGGVRLKNGDRIPDPILVGRSAEKVEALAKRFNIARWTTDLDAALADKNDTFFDAATTQARPGLLTQAINAGKHVYCEKPIATNFEEALEVVKLANSKGVKHGTVQDKLFLPGLKKIAFLRDSGFFGRILSVRGEFGYWVFEGGWQEAQRPSWNYRDEDGGGIILDVCHWRYVLDNLFGNVQSVVCIGNTDIPERFDEQGKKYKATADDSAYATFQLEGGVIAHINSWVTRVYRDDLVTFQVDGTHGSAVAGLSDCIQARQATPRPVWNPLHDFYGDWQKLPDNVSYDNGFKEQWEFIRHVYEDAPYKFTLLEGAKGVQLAECALKSWKERRWIDVAPIK 3oqb-a1-m1-cH_3oqb-a1-m1-cD CRYSTAL STRUCTURE OF putative oxidoreductase from Bradyrhizobium japonicum USDA 110 Q89RD2 Q89RD2 2.6 X-RAY DIFFRACTION 42 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 367 370 3oqb-a1-m1-cA_3oqb-a1-m1-cC 3oqb-a1-m1-cB_3oqb-a1-m1-cF 3oqb-a1-m1-cE_3oqb-a1-m1-cG TTQRLGLINGVTGRGLNQHLIRSIVAIRDQGGVRLKNGDRIPDPILVGRSAEKVEALAKRFNIARWTTDLDAALADKNDTFFDAATTQARPGLLTQAINAGKHVYCEKPIATNFEEALEVVKLANSKGVKHGTVQDKLFLPGLKKIAFLRDSGFFGRILSVRGEFGYWVFEGGWQEAQRPSWNYRDEDGGGIILDVCHWRYVLDNLFGNVQSVVCIGNTDIPERFDEQGKKYKATADDSAYATFQLEGGVIAHINSWVTRVYRDDLVTFQVDGTHGSAVAGLSDCIQARQATPRPVWNPHDFYGDWQKLPDNVSYDNGFKEQWEFIRHVYEDAPYKFTLLEGAKGVQLAECALKSWKERRWIDVAPI TTQRLGLINGVTGRGLNQHLIRSIVAIRDQGGVRLKNGDRIPDPILVGRSAEKVEALAKRFNIARWTTDLDAALADKNDTFFDAATTQARPGLLTQAINAGKHVYCEKPIATNFEEALEVVKLANSKGVKHGTVQDKLFLPGLKKIAFLRDSGFFGRILSVRGEFGYWVFEGGWQEAQRPSWNYRDEDGGGIILDVCHWRYVLDNLFGNVQSVVCIGNTDIPERFDEQGKKYKATADDSAYATFQLEGGVIAHINSWVTRVYRDDLVTFQVDGTHGSAVAGLSDCIQARQATPRPVWNPKRLHDFYGDWQKLPDNVSYDNGFKEQWEFIRHVYEDAPYKFTLLEGAKGVQLAECALKSWKERRWIDVAPI 3oqg-a1-m1-cB_3oqg-a1-m1-cA Restriction endonuclease HPY188I in complex with substrate DNA Q9KJ88 Q9KJ88 1.75 X-RAY DIFFRACTION 168 1.0 585532 (Helicobacter pylori 118) 585532 (Helicobacter pylori 118) 174 175 3or3-a1-m1-cA_3or3-a1-m1-cB HHHEFMAKRKSDIILKSVDDLKDEIDYKDFEYKEYFNLLCELVPNNSLEKLEINAIDEKNKNEGLVYVFVIQGKIFKIGHSITPITKRVQSYNCGKVEYRKNGTCSTTNYFVLQSLLKINKIVQVYAFFPEQPTYTLFGKTYQDSFSTSKRAENVILENFIKNHNKKPIGCTQT HHHHEFMAKRKSDIILKSVDDLKDEIDYKDFEYKEYFNLLCELVPNNSLEKLEINAIDEKNKNEGLVYVFVIQGKIFKIGHSITPITKRVQSYNCGKVEYRKNGTCSTTNYFVLQSLLKINKIVQVYAFFPEQPTYTLFGKTYQDSFSTSKRAENVILENFIKNHNKKPIGCTQT 3oql-a1-m1-cB_3oql-a1-m1-cD Crystal structure of a TenA homolog (PSPTO1738) from Pseudomonas syringae pv. tomato str. DC3000 at 2.54 A resolution Q885U3 Q885U3 2.54 X-RAY DIFFRACTION 47 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 234 234 3oql-a1-m1-cC_3oql-a1-m1-cA DTFERTGPLEASSYPAWAQQLINDCSPAKARVVEHELYQQRDAKLSPQIRQYLIGGWPVVEQFAVYAKNLTKTRFGRHPGEDARRWLRNIRVELNHADYWVNWCAAHDVTLEDLHDQRVAPELHALSHWCWQTSSSDSLAVAAATNYAIEGATGEWSAVVCSTGVYAEAFAEETRKKSKWLKHAQYDDAHPWEALEIICTLVGNKPSLQLQAELRQAVTKSYDYYLFLERCIQL DTFERTGPLEASSYPAWAQQLINDCSPAKARVVEHELYQQRDAKLSPQIRQYLIGGWPVVEQFAVYAKNLTKTRFGRHPGEDARRWLRNIRVELNHADYWVNWCAAHDVTLEDLHDQRVAPELHALSHWCWQTSSSDSLAVAAATNYAIEGATGEWSAVVCSTGVYAEAFAEETRKKSKWLKHAQYDDAHPWEALEIICTLVGNKPSLQLQAELRQAVTKSYDYYLFLERCIQL 3oql-a1-m1-cC_3oql-a1-m1-cD Crystal structure of a TenA homolog (PSPTO1738) from Pseudomonas syringae pv. tomato str. DC3000 at 2.54 A resolution Q885U3 Q885U3 2.54 X-RAY DIFFRACTION 41 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 232 234 3oql-a1-m1-cA_3oql-a1-m1-cB DTFERTGPLEASSYPAWAQQLINDCSPAKARVVEHELYQQRDAKLSPQIRQYLIGGWPVVEQFAVYAKNLTKTRFGRHPGEDARRWLRNIRVELNHADYWVNWCAAHDVTLEDLHDQRVAPELHALSHWCWQTSSSDSLAVAAATNYAIEGATGEWSAVVCSTGVYAEAFAEETRKKSKWLKHAQDAHPWEALEIICTLVGNKPSLQLQAELRQAVTKSYDYYLFLERCIQL DTFERTGPLEASSYPAWAQQLINDCSPAKARVVEHELYQQRDAKLSPQIRQYLIGGWPVVEQFAVYAKNLTKTRFGRHPGEDARRWLRNIRVELNHADYWVNWCAAHDVTLEDLHDQRVAPELHALSHWCWQTSSSDSLAVAAATNYAIEGATGEWSAVVCSTGVYAEAFAEETRKKSKWLKHAQYDDAHPWEALEIICTLVGNKPSLQLQAELRQAVTKSYDYYLFLERCIQL 3oqm-a1-m1-cA_3oqm-a1-m1-cC structure of ccpa-hpr-ser46p-ackA2 complex P25144 P25144 2.96 X-RAY DIFFRACTION 120 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 332 332 2fep-a1-m1-cA_2fep-a1-m2-cA 3oqn-a1-m1-cA_3oqn-a1-m1-cC 3oqo-a1-m1-cC_3oqo-a1-m1-cA MNITIYDVAREANVSMATVSRVVNGNPNVKPTTRKKVLEAIERLGYRPNAVARGLASKKTTTVGVIIPDISSIFYSELARGIEDIATMYKYNIILSNSDQNMEKELHLLNTMLGKQVDGIVFMGGNITDEHVAEFKRSPVPIVLAASVEEQEETPSVAIDYEQAIYDAVKLLVDKGHTDIAFVSGPMAEPINRSKKLQGYKRALEEANLPFNEQFVAEGDYTYDSGLEALQHLMSLDKKPTAILSATDEMALGIIHAAQDQGLSIPEDLDIIGFDNTRLSLMVRPQLSTVVQPTYDIGAVAMRLLTKLMNKEPVEEHIVELPHRIELRKSTK MNITIYDVAREANVSMATVSRVVNGNPNVKPTTRKKVLEAIERLGYRPNAVARGLASKKTTTVGVIIPDISSIFYSELARGIEDIATMYKYNIILSNSDQNMEKELHLLNTMLGKQVDGIVFMGGNITDEHVAEFKRSPVPIVLAASVEEQEETPSVAIDYEQAIYDAVKLLVDKGHTDIAFVSGPMAEPINRSKKLQGYKRALEEANLPFNEQFVAEGDYTYDSGLEALQHLMSLDKKPTAILSATDEMALGIIHAAQDQGLSIPEDLDIIGFDNTRLSLMVRPQLSTVVQPTYDIGAVAMRLLTKLMNKEPVEEHIVELPHRIELRKSTK 3oqp-a1-m1-cA_3oqp-a1-m1-cB Crystal structure of a putative isochorismatase (Bxe_A0706) from BURKHOLDERIA XENOVORANS LB400 at 1.22 A resolution Q13UL1 Q13UL1 1.22 X-RAY DIFFRACTION 171 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 204 205 TTPRRALIVIDVQNEYVTGDLPIEYPDVQSSLANIARADAARAAGVPVVIVQNFAPAGSPLFARGSNGAELHPVVSERARDHYVEKSLPSAFTGTDLAGWLAARQIDTLTVTGYTHNDASTINHAVHSGLAVEFLHDATGSVPYENSAGFASAEEIHRVFSVVLQSRFAAVASTDEWIAAVQGGTPLARGNIYASNQKARARRA TTPRRALIVIDVQNEYVTGDLPIEYPDVQSSLANIARADAARAAGVPVVIVQNFAPAGSPLFARGSNGAELHPVVSERARDHYVEKSLPSAFTGTDLAGWLAARQIDTLTVTGYTHNDASTINHAVHSGLAVEFLHDATGSVPYENSAGFASAEEIHRVFSVVLQSRFAAVASTDEWIAAVQGGTPLARGNIYASNQKARARRAT 3oqu-a1-m1-cB_3oqu-a1-m1-cA Crystal structure of native abscisic acid receptor PYL9 with ABA Q84MC7 Q84MC7 2.68 X-RAY DIFFRACTION 30 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 165 166 VQYVRTHHQHLCRENQCTSALVKHIKAPLHLVWSLVRRFDQPQKYKPFVSRCTVIGDPEIGSLREVNVKSGLPATTSTERLELLDDEEHILGIKIIGGDHRLKNYSSILTVHPEIIEAGTMVIESFVVDVPQGNTKDETCYFVEALIRCNLKSLADVSERLASQD VQYVRTHHQHLCRENQCTSALVKHIKAPLHLVWSLVRRFDQPQKYKPFVSRCTVIGDPEIGSLREVNVKSGLPATTSTERLELLDDEEHILGIKIIGGDHRLKNYSSILTVHPEIIEGAGTMVIESFVVDVPQGNTKDETCYFVEALIRCNLKSLADVSERLASQD 3or1-a1-m1-cA_3or1-a1-m1-cD Crystal structure of dissimilatory sulfite reductase I (DsrI) E2QR97 E2QR97 1.76 X-RAY DIFFRACTION 38 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 435 435 3or2-a1-m1-cA_3or2-a1-m1-cD KHPTPMLDELEKGPWPSFVSDIKQECDNRAKNPKGLDYQIPAECPDDLLGILELSFHEGETHWKHGGIVGVFGYGGGVIGRYCDQPEMFPGVAHFHTVRLAQPAAKYYTAEYLEAICDVWDLRGSGLTNMHGSTGDIVLLGTQTPQLEEIFFEMTHNLNTDLGGSGSNLRTPESCLGISRCEFACYDTQLMCYQLTQDYQDELHRPAFPYKFKFKFDGCPNGCVASMARSDFAVIGTWKDDIKIDQEAVKAYVGGEFKPNAGAHAGRDWGKFDIEAEVVGLCPTGCMTYESGTLSIDNKNCTRCMHCINTMPRALKIGDERGASILVGAKAPVLDGAQMGSLLIPFIAAEEPFDEVKEVIENIWEWWMEEGKNRERLGETMKRVGFQKLLEVTGTKAVPQHVSEPRHNPYIFFKEEEVPGGWSRDISDYRKRHMR KHPTPMLDELEKGPWPSFVSDIKQECDNRAKNPKGLDYQIPAECPDDLLGILELSFHEGETHWKHGGIVGVFGYGGGVIGRYCDQPEMFPGVAHFHTVRLAQPAAKYYTAEYLEAICDVWDLRGSGLTNMHGSTGDIVLLGTQTPQLEEIFFEMTHNLNTDLGGSGSNLRTPESCLGISRCEFACYDTQLMCYQLTQDYQDELHRPAFPYKFKFKFDGCPNGCVASMARSDFAVIGTWKDDIKIDQEAVKAYVGGEFKPNAGAHAGRDWGKFDIEAEVVGLCPTGCMTYESGTLSIDNKNCTRCMHCINTMPRALKIGDERGASILVGAKAPVLDGAQMGSLLIPFIAAEEPFDEVKEVIENIWEWWMEEGKNRERLGETMKRVGFQKLLEVTGTKAVPQHVSEPRHNPYIFFKEEEVPGGWSRDISDYRKRHMR 3or1-a1-m1-cB_3or1-a1-m1-cE Crystal structure of dissimilatory sulfite reductase I (DsrI) E2QR96 E2QR96 1.76 X-RAY DIFFRACTION 26 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 385 385 3or2-a1-m1-cB_3or2-a1-m1-cE AFISSGYNPAKPMENRITDIGPRKFTEFFPPVIAKNAGNWDYHEILEPGILVHVAKNGDKVFTVRCGAARLMSTSHIREACEIAKKFCNGHLRFTTRNNIEFMVDNEETLKALVADLKTRKFAAGSFKFPIGGTGASISNIVHTQGWVYCHTPATDASGPVKAVMDELFEEFTSMRLPAIVRVSLACCINMCGAVHCSDIGLVGIHRKPPMIDHENLAELCEIPLAVAACPTAAVKPITAEVNGQKVKSVAINNDRCMYCGNCYTMCPALPLSDGTGDGIAIMVGGKISNRIKVPSFSKVVVAFVPNEPPRWPTMAKIVKKIVEVYAEDARKYERIGDWIHRIGWETFYEKTGLEFSHHCIDDFRDPAYYTWRQSTQFKFVSFDS AFISSGYNPAKPMENRITDIGPRKFTEFFPPVIAKNAGNWDYHEILEPGILVHVAKNGDKVFTVRCGAARLMSTSHIREACEIAKKFCNGHLRFTTRNNIEFMVDNEETLKALVADLKTRKFAAGSFKFPIGGTGASISNIVHTQGWVYCHTPATDASGPVKAVMDELFEEFTSMRLPAIVRVSLACCINMCGAVHCSDIGLVGIHRKPPMIDHENLAELCEIPLAVAACPTAAVKPITAEVNGQKVKSVAINNDRCMYCGNCYTMCPALPLSDGTGDGIAIMVGGKISNRIKVPSFSKVVVAFVPNEPPRWPTMAKIVKKIVEVYAEDARKYERIGDWIHRIGWETFYEKTGLEFSHHCIDDFRDPAYYTWRQSTQFKFVSFDS 3orf-a2-m1-cC_3orf-a2-m1-cD Crystal Structure of Dihydropteridine Reductase from Dictyostelium discoideum Q86A17 Q86A17 2.16 X-RAY DIFFRACTION 160 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 230 230 3orf-a1-m1-cA_3orf-a1-m1-cB SKNILVLGGSGALGAEVVKFFKSKSWNTISIDFRENPNADHSFTIKDSGEEEIKSVIEKINSKSIKVDTFVCAAGGWSGGNASSDEFLKSVKGMIDMNLYSAFASAHIGAKLLNQGGLFVLTGASAALNRTSGMIAYGATKAATHHIIKDLASENGGLPAGSTSLGILPVTLDTPTNRKYMSDANFDDWTPLSEVAEKLFEWSTNSDSRPTNGSLVKFETKSKVTTWTNL SKNILVLGGSGALGAEVVKFFKSKSWNTISIDFRENPNADHSFTIKDSGEEEIKSVIEKINSKSIKVDTFVCAAGGWSGGNASSDEFLKSVKGMIDMNLYSAFASAHIGAKLLNQGGLFVLTGASAALNRTSGMIAYGATKAATHHIIKDLASENGGLPAGSTSLGILPVTLDTPTNRKYMSDANFDDWTPLSEVAEKLFEWSTNSDSRPTNGSLVKFETKSKVTTWTNL 3org-a2-m1-cB_3org-a2-m1-cC Crystal Structure of a eukaryotic CLC transporter 3.5 X-RAY DIFFRACTION 147 1.0 45157 (Cyanidioschyzon merolae) 45157 (Cyanidioschyzon merolae) 534 534 3org-a1-m1-cA_3org-a1-m1-cD SLMYLLRLVCFLTLLGVTAALFIFAVDLAVHGLEELRMKISRLAGRFAGYILYVVSGVALCLLSTFWCAVLSTEAEGSGLPQMKSILSGFYDKMRSALELRVLFAKALGLICAIGGGLPVGWEGPNVHIACIIAHQFYRLGVFKELCTDRALRLQTLAAACAVGLASSFGAPLGGVLYSIETIASFYLVQAFWKGVLSALSGAIVYELDVSRTQTLLYAILGALMGVLGALFIRCVRSIYELRMRHYPGTNRYFLVGVVALFASALQYPFPRATINDLFKAVTELILMPIIKFILVALSIGLPLPAGVFVPSFLIGAGFGRLYGELMRVVFGNAIVPGSYAVVGAAAFTAGVTRALSCAVIIFEVTGQIRHLVPVLISVLLAVIVGNAFNRSLYETLVLMKHLPYMPILRRDRSPEMTAREIMHPIEGEPHLFPDSEPQHIKGILEKFPNRLVFPVIDANGYLLGAISRKEIVDRLQHVVVPCDVSPIVVTSYSLVRQLHFLFVMLMPSMIYVTERGKLVGIVEREDVAYGYSN SLMYLLRLVCFLTLLGVTAALFIFAVDLAVHGLEELRMKISRLAGRFAGYILYVVSGVALCLLSTFWCAVLSTEAEGSGLPQMKSILSGFYDKMRSALELRVLFAKALGLICAIGGGLPVGWEGPNVHIACIIAHQFYRLGVFKELCTDRALRLQTLAAACAVGLASSFGAPLGGVLYSIETIASFYLVQAFWKGVLSALSGAIVYELDVSRTQTLLYAILGALMGVLGALFIRCVRSIYELRMRHYPGTNRYFLVGVVALFASALQYPFPRATINDLFKAVTELILMPIIKFILVALSIGLPLPAGVFVPSFLIGAGFGRLYGELMRVVFGNAIVPGSYAVVGAAAFTAGVTRALSCAVIIFEVTGQIRHLVPVLISVLLAVIVGNAFNRSLYETLVLMKHLPYMPILRRDRSPEMTAREIMHPIEGEPHLFPDSEPQHIKGILEKFPNRLVFPVIDANGYLLGAISRKEIVDRLQHVVVPCDVSPIVVTSYSLVRQLHFLFVMLMPSMIYVTERGKLVGIVEREDVAYGYSN 3orr-a1-m1-cB_3orr-a1-m1-cA Crystal Structure of N5-Carboxyaminoimidazole synthetase from Staphylococcus aureus A0A0H3KFM7 A0A0H3KFM7 2.23 X-RAY DIFFRACTION 93 0.997 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 358 359 3orq-a1-m1-cB_3orq-a1-m1-cA NFNKLKFGATIGIIGGGQLGKAQSAQKGYKVVVLDPSEDCPCRYVAHEFIQAKYDDEKALNQLGQKCDVITYEFENISAQQLKLLCEKYNIPQGYQAIQLLQDRLTEKETLKSAGTKVVPFISVKESTDIDKAIETLGYPFIVKTRFGGQVLINNEKDLQEGFKLIETSECVAEKYLNIKKEVSLTVTRGNNNQITFFPLQENEHRNQILFKTIVPARIDKTAEAKEQVNKIIQSIHFIGTFTVEFFIDSNNQLYVNEIAPRPHNSGHYSIEACDYSQFDTHILAVTGQSLPNSIELLKPAVNLLGKDLDLLENEFNEHPEWHLHIYGKSERKDSRKGHTVLTNDVNQTEQDYAKFEG NANFNKLKFGATIGIIGGGQLGKAQSAQKGYKVVVLDPSEDCPCRYVAHEFIQAKYDDEKALNQLGQKCDVITYEFENISAQQLKLLCEKYNIPQGYQAIQLLQDRLTEKETLKSAGTKVVPFISVKESTDIDKAIETLGYPFIVKTRFGGQVLINNEKDLQEGFKLIETSECVAEKYLNIKKEVSLTVTRGNNNQITFFPLQENEHRNQILFKTIVPARIDKTAEAKEQVNKIIQSIHFIGTFTVEFFIDSNNQLYVNEIAPRPHNSGHYSIEACDYSQFDTHILAVTGQSLPNSIELLKPAVNLLGKDLDLLENEFNEHPEWHLHIYGKSERKDSRKGHTVLTNDVNQTEQDYAKFE 3ors-a1-m1-cD_3ors-a1-m1-cG Crystal Structure of N5-Carboxyaminoimidazole Ribonucleotide Mutase from Staphylococcus aureus A0A0H3K7Y1 A0A0H3K7Y1 1.45 X-RAY DIFFRACTION 41 1.0 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 161 161 3ors-a1-m1-cA_3ors-a1-m1-cC 3ors-a1-m1-cA_3ors-a1-m1-cG 3ors-a1-m1-cC_3ors-a1-m1-cD 3ors-a1-m1-cE_3ors-a1-m1-cB 3ors-a1-m1-cE_3ors-a1-m1-cF 3ors-a1-m1-cH_3ors-a1-m1-cB 3ors-a1-m1-cH_3ors-a1-m1-cF AMKVAVIMGSSSDWKIMQESCNMLDYFEIPYEKQVVSAHRTPKMMVQFASEARERGINIIIAGAGGAAHLPGMVASLTTLPVIGVPIETKSLKGIDSLLSIVQMPGGIPVATTAIGAAGAKNAGILAARMLSIQNPSLVEKLNQYESSLIQKVEDMQNELQ AMKVAVIMGSSSDWKIMQESCNMLDYFEIPYEKQVVSAHRTPKMMVQFASEARERGINIIIAGAGGAAHLPGMVASLTTLPVIGVPIETKSLKGIDSLLSIVQMPGGIPVATTAIGAAGAKNAGILAARMLSIQNPSLVEKLNQYESSLIQKVEDMQNELQ 3ors-a1-m1-cH_3ors-a1-m1-cA Crystal Structure of N5-Carboxyaminoimidazole Ribonucleotide Mutase from Staphylococcus aureus A0A0H3K7Y1 A0A0H3K7Y1 1.45 X-RAY DIFFRACTION 136 1.0 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 159 161 3ors-a1-m1-cB_3ors-a1-m1-cC 3ors-a1-m1-cE_3ors-a1-m1-cD 3ors-a1-m1-cF_3ors-a1-m1-cG AMKVAVIMGSSSDWKIMQESCNMLDYFEIPYEKQVVSAHRTPKMMVQFASEARERGINIIIAGAGGAAHLPGMVASLTTLPVIGVPIETKSLKGIDSLLSIVQMPGGIPVATTAIGAAGAKNAGILAARMLSIQNPSLVEKLNQYESSLIQKVDMQNEL AMKVAVIMGSSSDWKIMQESCNMLDYFEIPYEKQVVSAHRTPKMMVQFASEARERGINIIIAGAGGAAHLPGMVASLTTLPVIGVPIETKSLKGIDSLLSIVQMPGGIPVATTAIGAAGAKNAGILAARMLSIQNPSLVEKLNQYESSLIQKVEDMQNELQ 3ors-a1-m1-cH_3ors-a1-m1-cC Crystal Structure of N5-Carboxyaminoimidazole Ribonucleotide Mutase from Staphylococcus aureus A0A0H3K7Y1 A0A0H3K7Y1 1.45 X-RAY DIFFRACTION 96 1.0 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 159 161 3ors-a1-m1-cA_3ors-a1-m1-cF 3ors-a1-m1-cB_3ors-a1-m1-cD 3ors-a1-m1-cE_3ors-a1-m1-cG AMKVAVIMGSSSDWKIMQESCNMLDYFEIPYEKQVVSAHRTPKMMVQFASEARERGINIIIAGAGGAAHLPGMVASLTTLPVIGVPIETKSLKGIDSLLSIVQMPGGIPVATTAIGAAGAKNAGILAARMLSIQNPSLVEKLNQYESSLIQKVDMQNEL AMKVAVIMGSSSDWKIMQESCNMLDYFEIPYEKQVVSAHRTPKMMVQFASEARERGINIIIAGAGGAAHLPGMVASLTTLPVIGVPIETKSLKGIDSLLSIVQMPGGIPVATTAIGAAGAKNAGILAARMLSIQNPSLVEKLNQYESSLIQKVEDMQNELQ 3ory-a2-m2-cA_3ory-a2-m3-cA Crystal structure of Flap endonuclease 1 from hyperthermophilic archaeon Desulfurococcus amylolyticus F2Z289 F2Z289 2 X-RAY DIFFRACTION 46 1.0 94694 (Desulfurococcus amylolyticus) 94694 (Desulfurococcus amylolyticus) 342 342 3ory-a2-m1-cA_3ory-a2-m2-cA 3ory-a2-m1-cA_3ory-a2-m3-cA GVDMGVDLKDIIPGEAKTVIEDLRILHGKIIVIDGYNALYQFLAAIRQPDGTPLMDNNGRITSHLSGLFYRTINIVEAGIKPVYVFDGKPPELKAREIERRKAVKEEAAKKYEEAVQSGDLELARRYAMMSAKLTEEMVRDAKSLLDAMGIPWVQAPAEGEAQAAYIVKKGDAYASASQDYDSLLFGSPKLVRNLTISGRRKLPRKNEYVEVKPELIELDKLLVQLGITLENLIDIGILLGTDYNPDGFEGIGPKKALQLVKAYGGIEKIPKPILKSPIEVDVIAIKKYFLQPQVTDNYRIEWHTPDPDAVKRILVDEHDFSIDRVSTALERYVKAFKENIR GVDMGVDLKDIIPGEAKTVIEDLRILHGKIIVIDGYNALYQFLAAIRQPDGTPLMDNNGRITSHLSGLFYRTINIVEAGIKPVYVFDGKPPELKAREIERRKAVKEEAAKKYEEAVQSGDLELARRYAMMSAKLTEEMVRDAKSLLDAMGIPWVQAPAEGEAQAAYIVKKGDAYASASQDYDSLLFGSPKLVRNLTISGRRKLPRKNEYVEVKPELIELDKLLVQLGITLENLIDIGILLGTDYNPDGFEGIGPKKALQLVKAYGGIEKIPKPILKSPIEVDVIAIKKYFLQPQVTDNYRIEWHTPDPDAVKRILVDEHDFSIDRVSTALERYVKAFKENIR 3os3-a2-m1-cA_3os3-a2-m2-cA Mitogen-activated protein kinase kinase 1 (MEK1) in complex with CH4858061 and MgATP Q02750 Q02750 2.8 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 272 ELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPMAIFELLDYIVNEPPPKLPVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCST ELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPMAIFELLDYIVNEPPPKLPVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCST 3os6-a2-m1-cD_3os6-a2-m1-cC Crystal structure of putative 2,3-dihydroxybenzoate-specific isochorismate synthase, DhbC from Bacillus anthracis. A0A6H3A7J7 A0A6H3A7J7 2.4 X-RAY DIFFRACTION 70 0.995 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 366 368 3os6-a1-m1-cA_3os6-a1-m1-cB ELSEKLLEDYKTESSLFFASPTRTILAEGEFTTVKHHEIESFPELVQAVLRNAKQAGNPNPIVVGALPFDRRKEVQLIVPEYSRISERLQLDNLTFETPVPDHEVYKGVKQGIEKIKDGDLKKIVLSRSLDVKSSGKIDKQKLLRELAEHNKHGYTFAVNLPKDENSKTLIGASPELLVSRHGQVISNPLAGSRPRSDDPVEDKRRAEELLSSPKDLHEHAVVVEAVAAALRPYCHTLYVPEKPSVIHSEAWHLSTEVKGELKNPNTSSLELAIALHPTPAVCGTPEEAREAIQKIEPFDREFFTGLGWSDLNGDGEWIVTIRCAEVQENTLRLYAGAGVVAESKPEDELAETSAKFQTLKALGLN LSEKLLEDYKTESSLFFASPTRTILAEGEFTTVKHHEIESFPELVQAVLRNAKQAGNPNPIVVGALPFDRRKEVQLIVPEYSRISERLQLDPTLTFETPVPDHEVYKGVKQGIEKIKDGDLKKIVLSRSLDVKSSGKIDKQKLLRELAEHNKHGYTFAVNLPKDENENSKTLIGASPELLVSRHGQVISNPLAGSRPRSDDPVEDKRRAEELLSSPKDLHEHAVVVEAVAAALRPYCHTLYVPEKPSVIHSEAWHLSTEVKGELKNPNTSSLELAIALHPTPAVCGTPEEAREAIQKIEPFDREFFTGLGWSDLNGDGEWIVTIRCAEVQENTLRLYAGAGVVAESKPEDELAETSAKFQTLKALGLN 3ose-a2-m1-cA_3ose-a2-m2-cA Structure of the Kinase Associated Domain 1 (KA1) from MARK1 kinase Q9P0L2 Q9P0L2 1.7 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 KPRSLRFTWSMKTTSSMDPNDMMREIRKVLDANNCDYEQKERFLLFCVHGDARQDSLVQWEMEVCKLPRLSLNGVRFKRISGTSIAFKNIASKIANELKL KPRSLRFTWSMKTTSSMDPNDMMREIRKVLDANNCDYEQKERFLLFCVHGDARQDSLVQWEMEVCKLPRLSLNGVRFKRISGTSIAFKNIASKIANELKL 3osu-a1-m2-cB_3osu-a1-m1-cA Crystal structure of the 3-oxoacyl-acyl carrier protein reductase, FabG, from Staphylococcus aureus P0A0H9 P0A0H9 1.9 X-RAY DIFFRACTION 89 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 231 236 3osu-a1-m1-cB_3osu-a1-m2-cA 3sj7-a1-m1-cA_3sj7-a1-m2-cA 3sj7-a1-m1-cB_3sj7-a1-m2-cB KSALVTGASRGIGRSIALQLAEEGYNVAVNYAGSKEKAEAVVEEIKAKGVDSFAIQANVADADEVKAIKEVVSQFGSLDVLVNNAGITRDNLLRKEQEWDDVIDTNLKGVFNCIQKATPQLRQRSGAIINLSSVVGAVGNPGQANYVATKAGVIGLTKSAARELASRGITVNAVAPGFIVSDLSDELKEQLTQIPLARFGQDTDIANTVAFLASDKAKYITGQTIHVNGGY KTKSALVTGASRGIGRSIALQLAEEGYNVAVNYAGSKEKAEAVVEEIKAKGVDSFAIQANVADADEVKAIKEVVSQFGSLDVLVNNAGITRDNLLRKEQEWDDVIDTNLKGVFNCIQKATPQLRQRSGAIINLSSVVGAVGNPGQANYVATKAGVIGLTKSAARELASRGITVNAVAPGFIVSDTDALSDELKEQLTQIPLARFGQDTDIANTVAFLASDKAKYITGQTIHVNGGY 3osu-a2-m1-cB_3osu-a2-m1-cA Crystal structure of the 3-oxoacyl-acyl carrier protein reductase, FabG, from Staphylococcus aureus P0A0H9 P0A0H9 1.9 X-RAY DIFFRACTION 119 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 231 236 3osu-a1-m1-cB_3osu-a1-m1-cA 3osu-a1-m2-cB_3osu-a1-m2-cA 3sj7-a1-m1-cA_3sj7-a1-m1-cB 3sj7-a1-m2-cA_3sj7-a1-m2-cB KSALVTGASRGIGRSIALQLAEEGYNVAVNYAGSKEKAEAVVEEIKAKGVDSFAIQANVADADEVKAIKEVVSQFGSLDVLVNNAGITRDNLLRKEQEWDDVIDTNLKGVFNCIQKATPQLRQRSGAIINLSSVVGAVGNPGQANYVATKAGVIGLTKSAARELASRGITVNAVAPGFIVSDLSDELKEQLTQIPLARFGQDTDIANTVAFLASDKAKYITGQTIHVNGGY KTKSALVTGASRGIGRSIALQLAEEGYNVAVNYAGSKEKAEAVVEEIKAKGVDSFAIQANVADADEVKAIKEVVSQFGSLDVLVNNAGITRDNLLRKEQEWDDVIDTNLKGVFNCIQKATPQLRQRSGAIINLSSVVGAVGNPGQANYVATKAGVIGLTKSAARELASRGITVNAVAPGFIVSDTDALSDELKEQLTQIPLARFGQDTDIANTVAFLASDKAKYITGQTIHVNGGY 3osv-a3-m1-cD_3osv-a3-m3-cD The crytsal structure of FLGD from P. Aeruginosa Q9I4Q0 Q9I4Q0 2.35 X-RAY DIFFRACTION 90 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 129 3osv-a1-m1-cA_3osv-a1-m1-cB 3osv-a2-m1-cC_3osv-a2-m2-cC SSLVGRKVIVATDKSVVDTKDTFKASLNLPVSSSNVWVNVYDDKGTVVNRINLGQQAAGSVSFMWDGKDSSGNIMPPGTYKFEAQTSIDGKTYGLQTYLPANVDSVTLGELMLNLAGLGSIALSKVQII SSLVGRKVIVATDKSVVDTKDTFKASLNLPVSSSNVWVNVYDDKGTVVNRINLGQQAAGSVSFMWDGKDSSGNIMPPGTYKFEAQTSIDGKTYGLQTYLPANVDSVTLGELMLNLAGLGSIALSKVQII 3ot1-a1-m1-cB_3ot1-a1-m1-cA Crystal structure of VC2308 protein Q9KPQ8 Q9KPQ8 1.16 X-RAY DIFFRACTION 79 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 189 194 SKRILVPVAHGSEEETVIIVDTLVRAGFQVTAAVGDKLQVQGSRGVWLTAEQTLEACSAEAFDALALPGGVGGAQAFADSTALLALIDAFSQQGKLVAAIATPALVFAKQQKFVGARTCHPNFFDHIPSERLSRQRVCYYATQHLLTSQGPGTALEFALAIALLAGVELAQHVAAPVLHPQQLTELSGF SKRILVPVAHGSEEETVIIVDTLVRAGFQVTAAVGDKLQVQGSRGVWLTAEQTLEACSAEAFDALALPGGVGGAQAFADSTALLALIDAFSQQGKLVAAICATPALVFAKQQKFVGARTCHPNFFDHIPSERLSRQRVCYYATQHLLTSQGPGTALEFALAIALLAGVELAQHVAAPVLHPQQLTELSGFIDAQ 3ot2-a1-m1-cA_3ot2-a1-m1-cB Crystal structure of a putative nuclease belonging to DUF820 (Ava_3926) from Anabaena variabilis ATCC 29413 at 1.96 A resolution Q3M655 Q3M655 1.96 X-RAY DIFFRACTION 58 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 177 177 PITLDEFLKLPETEPASEYIEGKIIQKPPQGKHSAIQSECVSVINSVVKPQRIARAFLELRCTFGDHSTVPDISVFIWSRIPREENGEIANIFLIAPDWTIEILSPDQSQTKVTKNILHCLKHGTQGWLIDPDEQTVFVYRPQQETEVFDEPDALVPVPSFASELHLSIKDLFSWLL PITLDEFLKLPETEPASEYIEGKIIQKPPQGKHSAIQSECVSVINSVVKPQRIARAFLELRCTFGDHSTVPDISVFIWSRIPREENGEIANIFLIAPDWTIEILSPDQSQTKVTKNILHCLKHGTQGWLIDPDEQTVFVYRPQQETEVFDEPDALVPVPSFASELHLSIKDLFSWLL 3ot5-a6-m1-cD_3ot5-a6-m3-cB 2.2 Angstrom Resolution Crystal Structure of putative UDP-N-acetylglucosamine 2-epimerase from Listeria monocytogenes Q8Y4B4 Q8Y4B4 2.2 X-RAY DIFFRACTION 68 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 371 378 3ot5-a5-m1-cA_3ot5-a5-m2-cC AKIKVMSIFGTRPEAIKMAPLVLALEKEPETFESTVVITAMLDQVLEIFDIKPDIDLDIGQTLAEITSRVMNGINEVIAAENPDIVLVHGDTTTSFAAGLATFYQQKMLGHVEAGLRTWNKYSPFPEEMNRQLTGVMADIHFSPTKQAKENLLAEGKDPATIFVTGNTAIDALKTTVQKDYHHPILENLGDNRLILMTAHRRENLGEPMQGMFEAVREIVESREDTELVYPMHLNPAVREKAMAILGGHERIHLIEPLDAIDFHNFLRKSYLVFTDSGGVQEEAPGMGVPVLVLRDTTERPEGIEAGTLKLIGTNKENLIKEALDLLDNKESHDKMAQAANPYGDGFAANRILAAIKSHFEETDRPEDFIV MAKIKVMSIFGTRPEAIKMAPLVLALEKEPETFESTVVITAQHREMLDQVLEIFDIKPDIDLDIMKGQTLAEITSRVMNGINEVIAAENPDIVLVHGDTTTSFAAGLATFYQQKMLGHVEAGLRTWNKYSPFPEEMNRQLTGVMADIHFSPTKQAKENLLAEGKDPATIFVTGNTAIDALKTTVQKDYHHPILENLGDNRLILMTAHRRENLGEPMQGMFEAVREIVESREDTELVYPMHLNPAVREKAMAILGGHERIHLIEPLDAIDFHNFLRKSYLVFTDSGGVQEEAPGMGVPVLVLRDTTERPEGIEAGTLKLIGTNKENLIKEALDLLDNKESHDKMAQAANPYGDGFAANRILAAIKSHFEETDRPEDFIV 3ot6-a2-m2-cA_3ot6-a2-m3-cA Crystal Structure of an enoyl-CoA hydratase/isomerase family protein from Psudomonas syringae Q884M3 Q884M3 2.5 X-RAY DIFFRACTION 62 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 221 221 3ot6-a2-m1-cA_3ot6-a2-m2-cA 3ot6-a2-m1-cA_3ot6-a2-m3-cA ASDLVSYHLDDGVATLTLNNGKVNAISPDVIIAFNAALDQAEKDRAIVIVTGQPGILSGGYDLKVTSSAEAAINLVAQGSTLARRLSHPFPIIVACPGHAVAKGAFLLLSADYRIGVAGPFSIGLNEVQIGTHHAGIELARDRLRKSAFNRSVINAEFDPEGAAAGFLDKVVSVEELQGAALAVAAQLKKINNAHKKTKLKVRKGLLDTLDAAIEQDRQHL ASDLVSYHLDDGVATLTLNNGKVNAISPDVIIAFNAALDQAEKDRAIVIVTGQPGILSGGYDLKVTSSAEAAINLVAQGSTLARRLSHPFPIIVACPGHAVAKGAFLLLSADYRIGVAGPFSIGLNEVQIGTHHAGIELARDRLRKSAFNRSVINAEFDPEGAAAGFLDKVVSVEELQGAALAVAAQLKKINNAHKKTKLKVRKGLLDTLDAAIEQDRQHL 3otb-a1-m2-cA_3otb-a1-m2-cB Crystal structure of human tRNAHis guanylyltransferase (Thg1) - dGTP complex Q9NWX6 Q9NWX6 2.95 X-RAY DIFFRACTION 146 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 237 237 3otb-a1-m1-cA_3otb-a1-m1-cB 3otc-a1-m1-cB_3otc-a1-m1-cA 3otc-a1-m2-cB_3otc-a1-m2-cA 3otd-a1-m1-cA_3otd-a1-m1-cB 3otd-a1-m2-cA_3otd-a1-m2-cB 3ote-a1-m1-cA_3ote-a1-m1-cB 3ote-a1-m2-cA_3ote-a1-m2-cB 7cv1-a1-m1-cB_7cv1-a1-m1-cA 7cv1-a1-m1-cC_7cv1-a1-m1-cD SKFEYVRDFEADDTCLAHCWVVVRLDGRNFHRFAEKHNFAKPNDSRALQLMTKCAQTVMEELEDIVIAYGQSDEYSFVFKRKTNWFKRRASKFMTHVASQFASSYVFYWRDYFEDQPLLYPPGFDGRVVVYPSNQTLKDYLSWRQADCHINNLYNTVFWALIQQSGLTPVQAQGRLQGTLAADKNEILFSEFNINYNNELPMYRKGTVLIWQTKPVPLHCDIIGDAFWKEHPEILDE SKFEYVRDFEADDTCLAHCWVVVRLDGRNFHRFAEKHNFAKPNDSRALQLMTKCAQTVMEELEDIVIAYGQSDEYSFVFKRKTNWFKRRASKFMTHVASQFASSYVFYWRDYFEDQPLLYPPGFDGRVVVYPSNQTLKDYLSWRQADCHINNLYNTVFWALIQQSGLTPVQAQGRLQGTLAADKNEILFSEFNINYNNELPMYRKGTVLIWQTKPVPLHCDIIGDAFWKEHPEILDE 3otd-a1-m1-cA_3otd-a1-m2-cB Crystal structure of human tRNAHis guanylyltransferase (Thg1)- NaI derivative Q9NWX6 Q9NWX6 2.28 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 240 240 3otb-a1-m1-cA_3otb-a1-m2-cB 3otb-a1-m1-cB_3otb-a1-m2-cA 3otc-a1-m1-cA_3otc-a1-m2-cA 3otc-a1-m1-cB_3otc-a1-m2-cB 3otd-a1-m1-cB_3otd-a1-m2-cA 3ote-a1-m1-cA_3ote-a1-m2-cB 3ote-a1-m1-cB_3ote-a1-m2-cA 7cv1-a1-m1-cB_7cv1-a1-m1-cC 7cv1-a1-m1-cD_7cv1-a1-m1-cA KSKFEYVRDFEADDTCLAHCWVVVRLDGRNFHRFAEKHNFAKPNDSRALQLMTKCAQTVMEELEDIVIAYGQSDEYSFVFKRKTNWFKRRASKFMTHVASQFASSYVFYWRDYFEDQPLLYPPGFDGRVVVYPSNQTLKDYLSWRQADCHINNLYNTVFWALIQQSGLTPVQAQGRLQGTLAADKNEILFSEFNINYNNELPMYRKGTVLIWQTKPVPLHCDIIGDAFWKEHPEILDEDS KSKFEYVRDFEADDTCLAHCWVVVRLDGRNFHRFAEKHNFAKPNDSRALQLMTKCAQTVMEELEDIVIAYGQSDEYSFVFKRKTNWFKRRASKFMTHVASQFASSYVFYWRDYFEDQPLLYPPGFDGRVVVYPSNQTLKDYLSWRQADCHINNLYNTVFWALIQQSGLTPVQAQGRLQGTLAADKNEILFSEFNINYNNELPMYRKGTVLIWQTKPVPLHCDIIGDAFWKEHPEILDEDS 3ote-a1-m1-cA_3ote-a1-m2-cA Crystal structure of human tRNAHis guanylyltransferase (Thg1)- Native I Q9NWX6 Q9NWX6 2.56 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 240 240 3otb-a1-m1-cA_3otb-a1-m2-cA 3otb-a1-m1-cB_3otb-a1-m2-cB 3otc-a1-m1-cB_3otc-a1-m2-cA 3otc-a1-m2-cB_3otc-a1-m1-cA 3otd-a1-m1-cA_3otd-a1-m2-cA 3otd-a1-m1-cB_3otd-a1-m2-cB 3ote-a1-m1-cB_3ote-a1-m2-cB 7cv1-a1-m1-cB_7cv1-a1-m1-cD 7cv1-a1-m1-cC_7cv1-a1-m1-cA KSKFEYVRDFEADDTCLAHCWVVVRLDGRNFHRFAEKHNFAKPNDSRALQLMTKCAQTVMEELEDIVIAYGQSDEYSFVFKRKTNWFKRRASKFMTHVASQFASSYVFYWRDYFEDQPLLYPPGFDGRVVVYPSNQTLKDYLSWRQADCHINNLYNTVFWALIQQSGLTPVQAQGRLQGTLAADKNEILFSEFNINYNNELPMYRKGTVLIWQTKPVPLHCDIIGDAFWKEHPEILDEDS KSKFEYVRDFEADDTCLAHCWVVVRLDGRNFHRFAEKHNFAKPNDSRALQLMTKCAQTVMEELEDIVIAYGQSDEYSFVFKRKTNWFKRRASKFMTHVASQFASSYVFYWRDYFEDQPLLYPPGFDGRVVVYPSNQTLKDYLSWRQADCHINNLYNTVFWALIQQSGLTPVQAQGRLQGTLAADKNEILFSEFNINYNNELPMYRKGTVLIWQTKPVPLHCDIIGDAFWKEHPEILDEDS 3otg-a2-m1-cA_3otg-a2-m2-cA Crystal Structure of CalG1, Calicheamicin Glycostyltransferase, TDP bound form Q8KNF2 Q8KNF2 2.08 X-RAY DIFFRACTION 59 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 388 388 GRHRVLFASLGTHGHTYPLLPLATAARAAGHEVTFATGEGFAGTLRKLGFEPVATGPVFDGFLAALRIRFDTDSPEGLTPEQLSELPQIVFGRVIPQRVFDELQPVIERLRPDLVVQEISNYGAGLAALKAGIPTICHGVGRDTPDDLTRSIEEEVRGLAQRLGLDLPPGRIDGFGNPFIDIFPPSLQEPEFRARPRRHELRPVPFAEQGDLPAWLSSRDTARPLVYLTLGTSSGGTVEVLRAAIDGLAGLDADVLVASGPSLDVSGLGEVPANVRLESWVPQAALLPHVDLVVHHGGSGTTLGALGAGVPQLSFPWAGDSFANAQAVAQAGAGDHLLPDNISPDSVSGAAKRLLAEESYRAGARAVAAEIAAPGPDEVVRLLPGFAS GRHRVLFASLGTHGHTYPLLPLATAARAAGHEVTFATGEGFAGTLRKLGFEPVATGPVFDGFLAALRIRFDTDSPEGLTPEQLSELPQIVFGRVIPQRVFDELQPVIERLRPDLVVQEISNYGAGLAALKAGIPTICHGVGRDTPDDLTRSIEEEVRGLAQRLGLDLPPGRIDGFGNPFIDIFPPSLQEPEFRARPRRHELRPVPFAEQGDLPAWLSSRDTARPLVYLTLGTSSGGTVEVLRAAIDGLAGLDADVLVASGPSLDVSGLGEVPANVRLESWVPQAALLPHVDLVVHHGGSGTTLGALGAGVPQLSFPWAGDSFANAQAVAQAGAGDHLLPDNISPDSVSGAAKRLLAEESYRAGARAVAAEIAAPGPDEVVRLLPGFAS 3otl-a1-m1-cB_3otl-a1-m1-cA Three-dimensional Structure of the putative uncharacterized protein from Rhizobium leguminosarum at the resolution 1.9A, Northeast Structural Genomics Consortium Target RlR261 Q1MFM4 Q1MFM4 1.901 X-RAY DIFFRACTION 73 1.0 216596 (Rhizobium leguminosarum bv. viciae 3841) 216596 (Rhizobium leguminosarum bv. viciae 3841) 150 151 TIRSAEHATLVIERHLKAPIARVFRAWSAPEAKRQWFACHGEWQALDYGLDFRPGGTERNYVADTDGLLHAYDAHYIDIVPNARIIYAYEKLGETRISASLTTVAFEAEPGGTKVFTEQVVFLDGYADNGARLQGTEIGLDNLELFLERE TIRSAEHATLVIERHLKAPIARVFRAWSAPEAKRQWFACHGEWQALDYGLDFRPGGTERNYVADTDGLLHAYDAHYIDIVPNARIIYAYEKLGETRISASLTTVAFEAEPGGTKVFTEQVVFLDGYADNGARLQGTEIGLDNLELFLEREE 3otm-a1-m2-cA_3otm-a1-m3-cA Crystal structures of wild-type gamma-carbonic anhydrase from Methanosarcina thermophila P40881 P40881 1.5 X-RAY DIFFRACTION 71 1.0 2210 (Methanosarcina thermophila) 2210 (Methanosarcina thermophila) 205 205 1qq0-a1-m1-cA_1qq0-a1-m2-cA 1qq0-a1-m1-cA_1qq0-a1-m3-cA 1qq0-a1-m2-cA_1qq0-a1-m3-cA 1qre-a1-m1-cA_1qre-a1-m2-cA 1qre-a1-m1-cA_1qre-a1-m3-cA 1qre-a1-m2-cA_1qre-a1-m3-cA 1qrf-a1-m1-cA_1qrf-a1-m2-cA 1qrf-a1-m1-cA_1qrf-a1-m3-cA 1qrf-a1-m2-cA_1qrf-a1-m3-cA 1qrg-a1-m1-cA_1qrg-a1-m2-cA 1qrg-a1-m1-cA_1qrg-a1-m3-cA 1qrg-a1-m2-cA_1qrg-a1-m3-cA 1qrl-a1-m1-cA_1qrl-a1-m2-cA 1qrl-a1-m1-cA_1qrl-a1-m3-cA 1qrl-a1-m2-cA_1qrl-a1-m3-cA 1qrm-a1-m1-cA_1qrm-a1-m2-cA 1qrm-a1-m1-cA_1qrm-a1-m3-cA 1qrm-a1-m2-cA_1qrm-a1-m3-cA 1thj-a1-m1-cA_1thj-a1-m1-cB 1thj-a1-m1-cA_1thj-a1-m1-cC 1thj-a1-m1-cB_1thj-a1-m1-cC 1thj-a2-m1-cA_1thj-a2-m1-cB 1thj-a2-m1-cA_1thj-a2-m1-cC 1thj-a2-m1-cB_1thj-a2-m1-cC 1thj-a2-m2-cA_1thj-a2-m2-cB 1thj-a2-m2-cA_1thj-a2-m2-cC 1thj-a2-m2-cB_1thj-a2-m2-cC 3otm-a1-m1-cA_3otm-a1-m2-cA 3otm-a1-m1-cA_3otm-a1-m3-cA 3otz-a1-m1-cA_3otz-a1-m2-cA 3otz-a1-m1-cA_3otz-a1-m3-cA 3otz-a1-m2-cA_3otz-a1-m3-cA 3ou9-a1-m1-cA_3ou9-a1-m2-cA 3ou9-a1-m1-cA_3ou9-a1-m3-cA 3ou9-a1-m2-cA_3ou9-a1-m3-cA 3oup-a1-m1-cA_3oup-a1-m2-cA 3oup-a1-m1-cA_3oup-a1-m3-cA 3oup-a1-m2-cA_3oup-a1-m3-cA 3ow5-a1-m1-cA_3ow5-a1-m2-cA 3ow5-a1-m1-cA_3ow5-a1-m3-cA 3ow5-a1-m2-cA_3ow5-a1-m3-cA SNIRENPVTPWNPEPSAPVIDPTAYIDPQASVIGEVTIGANVMVSPMASIRSDEGMPIFVGDRSNVQDGVVLHALETINEEGEPIEDNIVEVDGKEYAVYIGNNVSLAHQSQVHGPAAVGDDTFIGMQAFVFKSKVGNNCVLEPRSAAIGVTIPDGRYIPAGMVVTSQAEADKLPEVTDDYAYSHTNEAVVYVNVHLAEGYKETS SNIRENPVTPWNPEPSAPVIDPTAYIDPQASVIGEVTIGANVMVSPMASIRSDEGMPIFVGDRSNVQDGVVLHALETINEEGEPIEDNIVEVDGKEYAVYIGNNVSLAHQSQVHGPAAVGDDTFIGMQAFVFKSKVGNNCVLEPRSAAIGVTIPDGRYIPAGMVVTSQAEADKLPEVTDDYAYSHTNEAVVYVNVHLAEGYKETS 3otn-a3-m1-cA_3otn-a3-m1-cB Crystal structure of a SusD superfamily protein (BDI_3964) from Parabacteroides distasonis ATCC 8503 at 1.95 A resolution A6LIX4 A6LIX4 1.95 X-RAY DIFFRACTION 82 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 462 462 KLTSKESALALTNSAYLKNTVFNKTPGWGCNTILLLEYTGKATSENSQSNYKDFQDLLVSDRSLYIEDWWQDCYAGIANCNLALQKLGEFENLDASLVNGYAEVKFRALYYFYLVRIFGDVPKITTVQSELGELQVSRAPVKEIYDEIIIPDLLEAEQSDLAFSDHTGRVSGAVKALLADVYLTYAGYPLQGGKSYYAESAKRSLEVIKSNEYTLFTDYESLRLPSQNNKGEFIYQVQFSLNKRHNESVRIFLPSRSGISAYDLEYGSLIPTKEFVESFEKGDKRTEEKQYFFTNYKGHPSKFSPGAAELEFDLNGYYIYKFFDQVAVDNTAKSDLNWSVYRYTDVLLYAEAQVNADGTPNQQSIDIVNQIRGRAGLAPFKQTNASAFLEEVWDQRYFDLCYENKWFDLRTRKIRDDKSGEYVDFIGYKTNWGKVYTETQLLFPIPLSERQANPNLTQNQGY KLTSKESALALTNSAYLKNTVFNKTPGWGCNTILLLEYTGKATSENSQSNYKDFQDLLVSDRSLYIEDWWQDCYAGIANCNLALQKLGEFENLDASLVNGYAEVKFRALYYFYLVRIFGDVPKITTVQSELGELQVSRAPVKEIYDEIIIPDLLEAEQSDLAFSDHTGRVSGAVKALLADVYLTYAGYPLQGGKSYYAESAKRSLEVIKSNEYTLFTDYESLRLPSQNNKGEFIYQVQFSLNKRHNESVRIFLPSRSGISAYDLEYGSLIPTKEFVESFEKGDKRTEEKQYFFTNYKGHPSKFSPGAAELEFDLNGYYIYKFFDQVAVDNTAKSDLNWSVYRYTDVLLYAEAQVNADGTPNQQSIDIVNQIRGRAGLAPFKQTNASAFLEEVWDQRYFDLCYENKWFDLRTRKIRDDKSGEYVDFIGYKTNWGKVYTETQLLFPIPLSERQANPNLTQNQGY 3otr-a3-m1-cF_3otr-a3-m1-cE 2.75 Angstrom Crystal Structure of Enolase 1 from Toxoplasma gondii B9PH47 B9PH47 2.75 X-RAY DIFFRACTION 125 0.993 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 439 440 3otr-a1-m1-cA_3otr-a1-m1-cB 3otr-a2-m1-cD_3otr-a2-m1-cC MVVIKDIVAREILDSRGNPTIEVDVSTEGGVFRAAVPSGASTGIYEALELRDKDPKRYLGKGVLNAVEIVRQEIKPALLGKDPCDQKGIDMLMVEQLDGTKNEWGYSKSKLGANAILGVSIACCRAGAASKGLPLYKYIATLAGKDKMVMPVPFFNVINGGEHAGNGLALQEFLIAPVGAPNIREAIRYGSETYHHLKNVIKNKYGLDATNVGDEGGFAPNVATAEEALNLLVEAIKAAGYEGKIKIAFDAAASEFYKQDEKKYDLDYKCSKHLTGEKLKEVYEGWLKKYPIISVEDPFDQDDFASFSAFTKDVGEKTQVIGDDILVTNILRIEKALKDKACNCLLLKVNQIGSVTEAIEACLLAQKSGWGVQVSHRSGETEDSFIADLVVGLRCGQIKSGSPCRSERLCKYNQLMRIEESLGADCVYAGESFRHPKRS MVVIKDIVAREILDSRGNPTIEVDVSTEGGVFRAAVPSGGIYEALELRDKDPKRYLGKGVLNAVEIVRQEIKPALLGKDPCDQKGIDMLMVEQLDGTKNEWGYSKSKLGANAILGVSIACCRAGAASKGLPLYKYIATLAGKDKMVMPVPFFNVINGGEHAGNGLALQEFLIAPVGAPNIREAIRYGSETYHHLKNVIKNKYGLDATNVGDEGGFAPNVATAEEALNLLVEAIKAAGYEGKIKIAFDAAASEFYKQDEKKYDLDYKCASKHLTGEKLKEVYEGWLKKYPIISVEDPFDQDDFASFSAFTKDVGEKTQVIGDDILVTNILRIEKALKDKACNCLLLKVNQIGSVTEAIEACLLAQKSGWGVQVSHRSGETEDSFIADLVVGLRCGQIKSGSPCRSERLCKYNQLMRIEESLGADCVYAGESFRHPKRSHHH 3ott-a1-m1-cA_3ott-a1-m1-cB Crystal Structure of the extracellular domain of the putative one component system BT4673 from B. thetaiotaomicron Q89YQ8 Q89YQ8 2.3 X-RAY DIFFRACTION 101 0.988 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 737 739 3va6-a3-m1-cB_3va6-a3-m1-cA YQQFDNIYLGAEASVVSCFLQDSEGLIWIGSNKGLFSYDGYSTQQHFTYGENNNTRIYCGVIIDNTYLYMGTDNGILVYNYRADRYEQPETDFPTDVRTMALQGDTLWLGALNGLYTYQLQSRKLTSFDTRRNGLPNNTIYSIIRTKDNQIYVGTYNGLCRYIPSNGKFEGIPLPVHSSQSNLFVNSLLEDTTRQCVWIGTEGYLFQYFPSTGQIKQTEAFHNNSIKSLALDGNGDLLAGTDNGLYVYHNDTTPLQHIIHDSRNIQSLTNNIIWNIFADQEHNIWLGTDYGISLSRYNSLQFIPISQITGTGDGNQFYSLFRDSKGFYWFGGANGLIRFTDPAGERHDAIWYRMGDKTYPLSHNRIRHIYEDKEQQLWIATDGSINRYDYATRQFIHYNIVDNTYNTNWTYYIFEDTAGQLWISTCLGGIFVVDKHKLMQSTSGQYIAEQNYSVHNGLSGMFINQIIPDNEGNVWVLLYNNKGIDKINPRTREVTKLFADELTGEKSPNYLLCDEDGLLWVGFHGGVMRINPESQQSISFGSNEILSMTCVKNSIWVSTTNGLWIIDRKTMDARQQTNKRFTSLLFDPKEDCVYLGGADGFGISHSATYQPERPILLTALYINNQLVSPRTRDDVPNIRYTNSIKLKYDQNNLSFELSDLPYSLDEKNKFVYRLEGMDKEWNFLKSNINRITYSNLSYGNYQLIISKLERDGQPSNRPHILNIRILPPWLEHHHHHH NYQQFDNIYLGAEASVVSCFLQDSEGLIWIGSNKGLFSYDGYSTQQHFTYGENNNTRIYCGVIIDNTYLYMGTDNGILVYNYRADRYEQPETDFPTDVRTMALQGDTLWLGALNGLYTYQLQSRKLTSFDTRRNGLPNNTIYSIIRTKDNQIYVGTYNGLCRYIPSNGKFEGIPLPVHSSSNLFVNSLLEDTTRQCVWIGTEGYLFQYFPSTGQIKQTEAFHNNSIKSLALDGNGDLLAGTDNGLYVYHNDTTPLQHIIHDSRNIQSLTNNIIWNIFADQEHNIWLGTDYGISLSRYNSLQFIPISQITGTGDGNQFYSLFRDSKGFYWFGGANGLIRFTDPAGERHDAIWYRMGDKTYPLSHNRIRHIYEDKEQQLWIATDGSINRYDYATRQFIHYNIVDNTGTYNTNWTYYIFEDTAGQLWISTCLGGIFVVDKHKLMQSTSGQYIAEQNYSVHNGLSGMFINQIIPDNEGNVWVLLYNNKGIDKINPRTREVTKLFADELTGEKSPNYLLCDEDGLLWVGFHGGVMRINPKDESQQSISFGSFSNNEILSMTCVKNSIWVSTTNGLWIIDRKTMDARQQNTNKRFTSLLFDPKEDCVYLGGADGFGISHSNLATYQPERPILLTALYINNQLVSPRTRDDVPNIRYTNSIKLKYDQNNLSFELSDLPYSLDEKNKFVYRLEGMDKEWNFLKSNINRITYSNLSYGNYQLIISKLERDGQPSNRPHILNIRILPPW 3otw-a1-m1-cB_3otw-a1-m1-cD Structural and Functional Studies of Helicobacter pylori Wild-Type and Mutated Proteins Phosphopantetheine adenylyltransferase O26010 O26010 1.8 X-RAY DIFFRACTION 11 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 156 156 3otw-a1-m1-cC_3otw-a1-m1-cA MQKIGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLANLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISK MQKIGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLANLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISK 3otw-a1-m1-cC_3otw-a1-m1-cF Structural and Functional Studies of Helicobacter pylori Wild-Type and Mutated Proteins Phosphopantetheine adenylyltransferase O26010 O26010 1.8 X-RAY DIFFRACTION 59 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 156 156 3otw-a1-m1-cB_3otw-a1-m1-cA 3otw-a1-m1-cD_3otw-a1-m1-cE MQKIGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLANLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISK MQKIGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLANLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISK 3otw-a1-m1-cD_3otw-a1-m1-cF Structural and Functional Studies of Helicobacter pylori Wild-Type and Mutated Proteins Phosphopantetheine adenylyltransferase O26010 O26010 1.8 X-RAY DIFFRACTION 29 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 156 156 3otw-a1-m1-cB_3otw-a1-m1-cC 3otw-a1-m1-cB_3otw-a1-m1-cE 3otw-a1-m1-cC_3otw-a1-m1-cE 3otw-a1-m1-cD_3otw-a1-m1-cA 3otw-a1-m1-cF_3otw-a1-m1-cA MQKIGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLANLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISK MQKIGIYPGTFDPVTNGHIDIIHRSSELFEKLIVAVAHSSAKNPMFSLDERLKMIQLATKSFKNVECVAFEGLLANLAKEYHCKVLVRGLRVVSDFEYELQMGYANKSLNHELETLYFMPTLQNAFISSSIVRSIIAHKGDASHLVPKEIYPLISK 3ou6-a2-m1-cC_3ou6-a2-m1-cB DhpI-SAM complex D7PC21 D7PC21 2.3 X-RAY DIFFRACTION 67 1.0 67320 (Streptomyces luridus) 67320 (Streptomyces luridus) 208 211 3ou6-a1-m1-cA_3ou6-a1-m1-cD 3ou7-a1-m1-cD_3ou7-a1-m1-cA 3ou7-a2-m1-cC_3ou7-a2-m1-cB 3ou7-a3-m1-cC_3ou7-a3-m1-cB 3ou7-a3-m1-cD_3ou7-a3-m1-cA 3ou7-a3-m2-cC_3ou7-a3-m2-cB 3ou7-a3-m2-cD_3ou7-a3-m2-cA LIESQLSYYRARASEYDATFVPYMDSAAPAALERLRAGNIRGDVLELASGTGYWTRHLSGLADRVTALDGSAEMIAEAGRHGLDNVEFRQQDLFDWTPDRQWDAVFFAHWLAHVPDDRFEAFWESVRSAVAPGGVVEFVDVTDHERRLEQQDDSEPEVAVRRTLQDGRSFRIVKVFRSPAELTERLTALGWSCSVDEVHPGFLYATCR HGLIESQLSYYRARASEYDATFVPYMDSAAPAALERLRAGNIRGDVLELASGTGYWTRHLSGLADRVTALDGSAEMIAEAGRHGLDNVEFRQQDLFDWTPDRQWDAVFFAHWLAHVPDDRFEAFWESVRSAVAPGGVVEFVDVTDHERRLEQQDDSEPEVAVRRTLQDGRSFRIVKVFRSPAELTERLTALGWSCSVDEVHPGFLYATCRP 3ou7-a3-m2-cD_3ou7-a3-m1-cA DhpI-SAM-HEP complex D7PC21 D7PC21 2.3 X-RAY DIFFRACTION 35 1.0 67320 (Streptomyces luridus) 67320 (Streptomyces luridus) 213 214 3ou7-a3-m1-cC_3ou7-a3-m1-cA 3ou7-a3-m1-cC_3ou7-a3-m2-cB 3ou7-a3-m1-cD_3ou7-a3-m1-cB 3ou7-a3-m1-cD_3ou7-a3-m2-cA 3ou7-a3-m2-cC_3ou7-a3-m1-cB 3ou7-a3-m2-cC_3ou7-a3-m2-cA 3ou7-a3-m2-cD_3ou7-a3-m2-cB TSHGLIESQLSYYRARASEYDATFVPYMDSAAPAALERLRAGNIRGDVLELASGTGYWTRHLSGLADRVTALDGSAEMIAEAGRHGLDNVEFRQQDLFDWTPDRQWDAVFFAHWLAHVPDDRFEAFWESVRSAVAPGGVVEFVDVTDHERRLEQQDDSEPEVAVRRTLQDGRSFRIVKVFRSPAELTERLTALGWSCSVDEVHPGFLYATCRP TTSHGLIESQLSYYRARASEYDATFVPYMDSAAPAALERLRAGNIRGDVLELASGTGYWTRHLSGLADRVTALDGSAEMIAEAGRHGLDNVEFRQQDLFDWTPDRQWDAVFFAHWLAHVPDDRFEAFWESVRSAVAPGGVVEFVDVTDHERRLEQQDDSEPEVAVRRTLQDGRSFRIVKVFRSPAELTERLTALGWSCSVDEVHPGFLYATCRP 3oud-a1-m1-cA_3oud-a1-m1-cB MDR769 HIV-1 protease complexed with CA/p2 hepta-peptide P35963 P35963 1.8 X-RAY DIFFRACTION 109 0.99 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1rpi-a1-m1-cA_1rpi-a1-m1-cB 1rq9-a1-m1-cA_1rq9-a1-m1-cB 1rv7-a1-m1-cA_1rv7-a1-m1-cB 1sgu-a1-m1-cA_1sgu-a1-m1-cB 1sh9-a1-m1-cA_1sh9-a1-m1-cB 1tw7-a1-m1-cA_1tw7-a1-m1-cB 2fdd-a1-m1-cA_2fdd-a1-m1-cB 3oq7-a1-m1-cA_3oq7-a1-m2-cA 3oqa-a1-m1-cA_3oqa-a1-m2-cA 3oqd-a1-m1-cA_3oqd-a1-m2-cA 3ots-a1-m1-cA_3ots-a1-m1-cB 3oty-a1-m1-cA_3oty-a1-m1-cB 3ou1-a1-m1-cA_3ou1-a1-m1-cB 3ou3-a1-m1-cA_3ou3-a1-m1-cB 3ou4-a1-m1-cA_3ou4-a1-m1-cB 3oua-a1-m1-cA_3oua-a1-m1-cB 3oub-a1-m1-cA_3oub-a1-m1-cB 3ouc-a1-m1-cA_3ouc-a1-m1-cB 3pj6-a1-m1-cA_3pj6-a1-m2-cA 3r0w-a1-m1-cA_3r0w-a1-m1-cB 3r0y-a1-m1-cA_3r0y-a1-m1-cB 3so9-a1-m1-cA_3so9-a1-m1-cB 3spk-a1-m1-cA_3spk-a1-m1-cB 4eyr-a1-m1-cA_4eyr-a1-m1-cB 4fae-a1-m1-cA_4fae-a1-m1-cB 4faf-a1-m1-cA_4faf-a1-m1-cB 4gye-a1-m1-cA_4gye-a1-m1-cB 4gzf-a1-m1-cA_4gzf-a1-m1-cB 4l1a-a1-m1-cA_4l1a-a1-m1-cB 4nkk-a1-m1-cA_4nkk-a1-m2-cA 4yoa-a1-m1-cA_4yoa-a1-m2-cA 4yob-a1-m1-cA_4yob-a1-m2-cA PQITLWQRPIVTIKIGGQLKEALLNTGADDTVLEEVNLPGRWKPKLIGGIGGFVKVRQYDQVPIEICGHKVIGTVLVGPTPTNVIGRNLMTQIGCTLNF PQITLWQRPIVTIKIGGQLKEALLNTGADDTTLEEVNLPGRWKPKLIGGIGGFVKVRQYDQVPIEICGHKVIGTVLVGPTPTNVIGRNLMTQIGCTLNF 3oug-a3-m1-cB_3oug-a3-m1-cH Crystal structure of cleaved L-aspartate-alpha-decarboxylase from Francisella tularensis Q5NF56 Q5NF56 1.55 X-RAY DIFFRACTION 10 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 105 105 3oug-a3-m1-cA_3oug-a3-m1-cF 3oug-a3-m1-cC_3oug-a3-m1-cI 3oug-a3-m1-cE_3oug-a3-m1-cG LISVLKSKISYATVTGKDLFYVSITIDSEIKQANIIENEKVQVVNLNNGERLETYVIKGEPNSKTIALNGPAARRCEIGDQLFIISYTQVDPTRENIKPKLVDLK LISVLKSKISYATVTGKDLFYVSITIDSEIKQANIIENEKVQVVNLNNGERLETYVIKGEPNSKTIALNGPAARRCEIGDQLFIISYTQVDPTRENIKPKLVDLK 3oug-a3-m1-cG_3oug-a3-m1-cI Crystal structure of cleaved L-aspartate-alpha-decarboxylase from Francisella tularensis Q5NF56 Q5NF56 1.55 X-RAY DIFFRACTION 58 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 105 105 3oug-a1-m1-cA_3oug-a1-m1-cB 3oug-a1-m1-cC_3oug-a1-m1-cA 3oug-a1-m1-cC_3oug-a1-m1-cE 3oug-a1-m1-cE_3oug-a1-m1-cB 3oug-a2-m1-cF_3oug-a2-m1-cH 3oug-a2-m1-cF_3oug-a2-m1-cI 3oug-a2-m1-cG_3oug-a2-m1-cH 3oug-a2-m1-cG_3oug-a2-m1-cI 3oug-a3-m1-cA_3oug-a3-m1-cB 3oug-a3-m1-cC_3oug-a3-m1-cA 3oug-a3-m1-cC_3oug-a3-m1-cE 3oug-a3-m1-cE_3oug-a3-m1-cB 3oug-a3-m1-cF_3oug-a3-m1-cH 3oug-a3-m1-cF_3oug-a3-m1-cI 3oug-a3-m1-cG_3oug-a3-m1-cH LISVLKSKISYATVTGKDLFYVSITIDSEIKQANIIENEKVQVVNLNNGERLETYVIKGEPNSKTIALNGPAARRCEIGDQLFIISYTQVDPTRENIKPKLVDLK LISVLKSKISYATVTGKDLFYVSITIDSEIKQANIIENEKVQVVNLNNGERLETYVIKGEPNSKTIALNGPAARRCEIGDQLFIISYTQVDPTRENIKPKLVDLK 3ouq-a2-m1-cA_3ouq-a2-m2-cA Structure of N-terminal hexaheme fragment of GSU1996 Q74BP5 Q74BP5 2.6 X-RAY DIFFRACTION 72 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 159 159 TKNVPFKLKNAAPVIFSHDIHLKKYNNNCRICHIALFDLRKPKRYTMLDMEKGKSCGACHTGMKAFSVADDSQCVRCHSGSARPVAYRMKGAGEAVFSHEVHVPMLEGKCRTCHSNREITGGRNVTMAQMEKGKSCGACHNDKMAFTVAGNCGKCHKGM TKNVPFKLKNAAPVIFSHDIHLKKYNNNCRICHIALFDLRKPKRYTMLDMEKGKSCGACHTGMKAFSVADDSQCVRCHSGSARPVAYRMKGAGEAVFSHEVHVPMLEGKCRTCHSNREITGGRNVTMAQMEKGKSCGACHNDKMAFTVAGNCGKCHKGM 3out-a1-m1-cC_3out-a1-m2-cC Crystal structure of glutamate racemase from Francisella tularensis subsp. tularensis SCHU S4 in complex with D-glutamate. Q5NFN6 Q5NFN6 1.65 X-RAY DIFFRACTION 34 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 259 259 LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY 3out-a1-m2-cA_3out-a1-m2-cB Crystal structure of glutamate racemase from Francisella tularensis subsp. tularensis SCHU S4 in complex with D-glutamate. Q5NFN6 Q5NFN6 1.65 X-RAY DIFFRACTION 38 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 258 259 3out-a1-m1-cA_3out-a1-m1-cB LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY 3out-a1-m2-cB_3out-a1-m2-cC Crystal structure of glutamate racemase from Francisella tularensis subsp. tularensis SCHU S4 in complex with D-glutamate. Q5NFN6 Q5NFN6 1.65 X-RAY DIFFRACTION 29 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 259 259 3out-a1-m1-cA_3out-a1-m2-cB 3out-a1-m1-cB_3out-a1-m1-cC 3out-a1-m2-cA_3out-a1-m1-cB LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY 3out-a3-m1-cB_3out-a3-m2-cB Crystal structure of glutamate racemase from Francisella tularensis subsp. tularensis SCHU S4 in complex with D-glutamate. Q5NFN6 Q5NFN6 1.65 X-RAY DIFFRACTION 68 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 259 259 3out-a1-m1-cA_3out-a1-m1-cC 3out-a1-m1-cB_3out-a1-m2-cB 3out-a1-m2-cA_3out-a1-m2-cC 3out-a2-m1-cA_3out-a2-m1-cC LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY LDNRPIGVFDSGIGGLTIVKNLSILPNEDIIYFGDIARIPYGTKSRATIQKFAAQTAKFLIDQEVKAIIIACNTISAIAKDIVQEIAKAIPVIDVITAGVSLVDNLNTVGVIATPATINSNAYALQIHKKNPNIEVYSNPCGLFVSIEEGFVSGHIVELVAKEYLSYFHDKNIQALILGCTHYPIIKESIAKILDVKLIDPSLQASKLYSLLFENKLLNTTKSNPEYRFYVTDIPLKFRSVGEFLQTEQHLEIVSLDSY 3ouz-a1-m1-cB_3ouz-a1-m1-cA Crystal Structure of Biotin Carboxylase-ADP complex from Campylobacter jejuni Q0P8W7 Q0P8W7 1.902 X-RAY DIFFRACTION 64 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 425 427 3ouu-a1-m1-cB_3ouu-a1-m1-cA EIKSILIANRGEIALRALRTIKEGKKAICVYSEADKDALYLKYADASICIGKARSSESYLNIPAIIAAAEIAEADAIFPGYGFLSENQNFVEICAKHNIKFIGPSVEANLSDKSKAKQVQRAGVPVIPGSDGALAGAEAAKKLAKEIGYPVILKAAAGGGGRGRVVENEKDLEKAYWSAESEATAFGDGTYEKYIQNPRHIEVQVIGDSFGNVIHVGERDCSQRRHQKLIEESPAILLDEKTRTRLHETAIKAAKAIGYEGAGTFEFLVDKNLDFYFIENTRLQVEHCVSEVSGIDIIEQIKVAEGYALPSQESIKLNGHSIECRITAEDSKTFLPSPGKITKYIPPAGRNVRESHCYQDYSVPAYYDSIGKLVVWAEDRNKAIAKKVALDELLISGIKTTKDFHLSENPDFINNNYDTNYLARH NAEIKSILIANRGEIALRALRTIKEGKKAICVYSEADKDALYLKYADASICIGKARSSESYLNIPAIIAAAEIAEADAIFPGYGFLSENQNFVEICAKHNIKFIGPSVEANLSDKSKAKQVQRAGVPVIPGSDGALAGAEAAKKLAKEIGYPVILKAAAGGGGRGRVVENEKDLEKAYWSAESEATAFGDGTYEKYIQNPRHIEVQVIGDSFGNVIHVGERDCSQRRHQKLIEESPAILLDEKTRTRLHETAIKAAKAIGYEGAGTFEFLVDKNLDFYFIENTRLQVEHCVSEVSGIDIIEQIKVAEGYALPSQESIKLNGHSIECRITAEDSKTFLPSPGKITKYIPPAGRNVRESHCYQDYSVPAYYDSIGKLVVWAEDRNKAIAKKVALDELLISGIKTTKDFHLSENPDFINNNYDTNYLARH 3ov0-a2-m2-cA_3ov0-a2-m4-cA Structure of dodecaheme cytochrome c GSU1996 Q74BP5 Q74BP5 3.2 X-RAY DIFFRACTION 26 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 318 318 3ov0-a2-m1-cA_3ov0-a2-m3-cA 3ov0-a2-m1-cA_3ov0-a2-m4-cA 3ov0-a2-m2-cA_3ov0-a2-m3-cA KETKNVPFKLKNAAPVIFSHDIHLKKYNNNCRICHIALFDLRKPKRYTMLDMEKGKSCGACHTGMKAFSVADDSQCVRCHSGSARPVAYRMKGAGEAVFSHEVHVPMLEGKCRTCHSNREITGGRNVTMAQMEKGKSCGACHNDKMAFTVAGNCGKCHKGMTPPKTVNFKMKGVADAAFSHEFHLGMYKCNECHTKLFAYKAGAKRFTMADMDKGKSCGACHNGKDAFSSASDCGKCHPGLKPAKLTYKTSVGEAYFDHDIHLSMFKCADCHTKVFKYRKGSAPATMADMEKGKSCGVCHNGKDAFSVADDCVKCHNM KETKNVPFKLKNAAPVIFSHDIHLKKYNNNCRICHIALFDLRKPKRYTMLDMEKGKSCGACHTGMKAFSVADDSQCVRCHSGSARPVAYRMKGAGEAVFSHEVHVPMLEGKCRTCHSNREITGGRNVTMAQMEKGKSCGACHNDKMAFTVAGNCGKCHKGMTPPKTVNFKMKGVADAAFSHEFHLGMYKCNECHTKLFAYKAGAKRFTMADMDKGKSCGACHNGKDAFSSASDCGKCHPGLKPAKLTYKTSVGEAYFDHDIHLSMFKCADCHTKVFKYRKGSAPATMADMEKGKSCGVCHNGKDAFSVADDCVKCHNM 3ov2-a2-m1-cD_3ov2-a2-m1-cC Curcumin synthase 1 from Curcuma longa C0SVZ6 C0SVZ6 2.32 X-RAY DIFFRACTION 166 1.0 136217 (Curcuma longa) 136217 (Curcuma longa) 389 392 3ov2-a1-m1-cA_3ov2-a1-m1-cB 3ov3-a1-m1-cA_3ov3-a1-m1-cB 3ov3-a2-m1-cD_3ov3-a2-m1-cC NLHALRREQRAQGPATIMAIGTATPPNLYEQSTFPDFYFRVTNSDDKQELKKKFRRMCEKTMVKKRYLHLTEEILKERPKLCSYKEASFDDRQDIVVEEIPRLAKEAAEKAIKEWGRPKSEITHLVFCSISGIDMPGADYRLATLLGLPLTVNRLMIYSQACHMGAAMLRIAKDLAENNRGARVLVVACEITVLSFRGPNEGDFEALAGQAGFGDGAGAVVVGADPLEGIEKPIYEIAAAMQETVAESQGAVGGHLRAFGWTFYFLNQLPAIIADNLGRSLERALAPLGVREWNDVFWVAHPGNWAIIDAIEAKLQLSPDKLSTARHVFTEYGNMQSATVYFVMDELRKRSAVEGRSTTGDGLQWGVLLGFGPGLSIETVVLRSMPLHH ANLHALRREQRAQGPATIMAIGTATPPNLYEQSTFPDFYFRVTNSDDKQELKKKFRRMCEKTMVKKRYLHLTEEILKERPKLCSYKEASFDDRQDIVVEEIPRLAKEAAEKAIKEWGRPKSEITHLVFCSISGIDMPGADYRLATLLGLPLTVNRLMIYSQACHMGAAMLRIAKDLAENNRGARVLVVACEITVLSFRGPNEGDFEALAGQAGFGDGAGAVVVGADPLEGIEKPIYEIAAAMQETVAESQGAVGGHLRAFGWTFYFLNQLPAIIADNLGRSLERALAPLGVREWNDVFWVAHPGNWAIIDAIEAKLQLSPDKLSTARHVFTEYGNMQSATVYFVMDELRKRSAVEGRSTTGDGLQWGVLLGFGPGLSIETVVLRSMPLHHHH 3ov9-a2-m4-cC_3ov9-a2-m8-cC Structure of the Nucleoprotein from Rift Valley Fever Virus P21700 P21700 1.6 X-RAY DIFFRACTION 85 1.0 11589 (Rift valley fever virus (STRAIN ZH-548 M12)) 11589 (Rift valley fever virus (STRAIN ZH-548 M12)) 244 244 3ouo-a1-m1-cA_3ouo-a1-m1-cB 3ouo-a1-m1-cA_3ouo-a1-m2-cB 3ouo-a1-m1-cB_3ouo-a1-m3-cA 3ouo-a1-m2-cA_3ouo-a1-m2-cB 3ouo-a1-m2-cA_3ouo-a1-m3-cB 3ouo-a1-m3-cA_3ouo-a1-m3-cB 3ov9-a1-m1-cB_3ov9-a1-m1-cA 3ov9-a1-m1-cB_3ov9-a1-m3-cA 3ov9-a1-m2-cB_3ov9-a1-m1-cA 3ov9-a1-m2-cB_3ov9-a1-m2-cA 3ov9-a1-m3-cB_3ov9-a1-m2-cA 3ov9-a1-m3-cB_3ov9-a1-m3-cA 3ov9-a2-m1-cC_3ov9-a2-m7-cC 3ov9-a2-m1-cC_3ov9-a2-m8-cC 3ov9-a2-m4-cC_3ov9-a2-m6-cC 3ov9-a2-m5-cC_3ov9-a2-m6-cC 3ov9-a2-m5-cC_3ov9-a2-m7-cC DNYQELRVQFAAQAVDRNEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGWTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA DNYQELRVQFAAQAVDRNEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGWTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA 3ovg-a5-m1-cD_3ovg-a5-m1-cF The crystal structure of an amidohydrolase from Mycoplasma synoviae with Zn ion bound Q4A724 Q4A724 2.059 X-RAY DIFFRACTION 53 1.0 262723 (Mycoplasmopsis synoviae 53) 262723 (Mycoplasmopsis synoviae 53) 344 344 3msr-a2-m1-cA_3msr-a2-m2-cA 3msr-a2-m1-cA_3msr-a2-m3-cA 3msr-a2-m2-cA_3msr-a2-m3-cA 3msr-a2-m4-cA_3msr-a2-m5-cA 3msr-a2-m4-cA_3msr-a2-m6-cA 3msr-a2-m5-cA_3msr-a2-m6-cA 3msr-a3-m1-cA_3msr-a3-m2-cA 3msr-a3-m1-cA_3msr-a3-m3-cA 3msr-a3-m2-cA_3msr-a3-m3-cA 3ovg-a1-m1-cA_3ovg-a1-m1-cB 3ovg-a1-m1-cA_3ovg-a1-m1-cE 3ovg-a1-m1-cB_3ovg-a1-m1-cE 3ovg-a1-m1-cC_3ovg-a1-m1-cD 3ovg-a1-m1-cC_3ovg-a1-m1-cF 3ovg-a1-m1-cD_3ovg-a1-m1-cF 3ovg-a2-m1-cA_3ovg-a2-m1-cB 3ovg-a2-m1-cA_3ovg-a2-m1-cE 3ovg-a2-m1-cB_3ovg-a2-m1-cE 3ovg-a5-m1-cC_3ovg-a5-m1-cD 3ovg-a5-m1-cC_3ovg-a5-m1-cF NKFARTVLGDIPVEKLGITDCHDHFIKNGGPEVEEHIDFLLNVDASIKEFKEFIDRGGSTIVTDPPNVGRDVLKTLEIANAVKNLGGNVISTGFHKAKFYDKYSSWLAVVPTEEIVKCVAEIEEGDEYNYNGPVVKRSKAKAGIIAGTGYGAIDRLELKALEVAARTSILTGCPILVHTQLGTALEVAKHLIGFGANPDKIQISHLNKNPDKYYYEKVIKETGVTLCFDGPDRVKYYPDSLLAENIKYLVDKGLQKHITLSLDAGRILYQRNYGLTKGKQTFGLAYLFDRFLPLLKQVGVSKEAIFDILVNNPKRVLAFDEKRNFDPLKVSKEVLELKKELNLN NKFARTVLGDIPVEKLGITDCHDHFIKNGGPEVEEHIDFLLNVDASIKEFKEFIDRGGSTIVTDPPNVGRDVLKTLEIANAVKNLGGNVISTGFHKAKFYDKYSSWLAVVPTEEIVKCVAEIEEGDEYNYNGPVVKRSKAKAGIIAGTGYGAIDRLELKALEVAARTSILTGCPILVHTQLGTALEVAKHLIGFGANPDKIQISHLNKNPDKYYYEKVIKETGVTLCFDGPDRVKYYPDSLLAENIKYLVDKGLQKHITLSLDAGRILYQRNYGLTKGKQTFGLAYLFDRFLPLLKQVGVSKEAIFDILVNNPKRVLAFDEKRNFDPLKVSKEVLELKKELNLN 3ovg-a6-m1-cD_3ovg-a6-m1-cE The crystal structure of an amidohydrolase from Mycoplasma synoviae with Zn ion bound Q4A724 Q4A724 2.059 X-RAY DIFFRACTION 75 1.0 262723 (Mycoplasmopsis synoviae 53) 262723 (Mycoplasmopsis synoviae 53) 344 344 3msr-a2-m1-cA_3msr-a2-m5-cA 3msr-a2-m2-cA_3msr-a2-m4-cA 3msr-a2-m3-cA_3msr-a2-m6-cA 3msr-a4-m1-cA_3msr-a4-m5-cA 3ovg-a1-m1-cA_3ovg-a1-m1-cF 3ovg-a1-m1-cB_3ovg-a1-m1-cC 3ovg-a1-m1-cD_3ovg-a1-m1-cE 3ovg-a3-m1-cA_3ovg-a3-m1-cF 3ovg-a4-m1-cB_3ovg-a4-m1-cC NKFARTVLGDIPVEKLGITDCHDHFIKNGGPEVEEHIDFLLNVDASIKEFKEFIDRGGSTIVTDPPNVGRDVLKTLEIANAVKNLGGNVISTGFHKAKFYDKYSSWLAVVPTEEIVKCVAEIEEGDEYNYNGPVVKRSKAKAGIIAGTGYGAIDRLELKALEVAARTSILTGCPILVHTQLGTALEVAKHLIGFGANPDKIQISHLNKNPDKYYYEKVIKETGVTLCFDGPDRVKYYPDSLLAENIKYLVDKGLQKHITLSLDAGRILYQRNYGLTKGKQTFGLAYLFDRFLPLLKQVGVSKEAIFDILVNNPKRVLAFDEKRNFDPLKVSKEVLELKKELNLN NKFARTVLGDIPVEKLGITDCHDHFIKNGGPEVEEHIDFLLNVDASIKEFKEFIDRGGSTIVTDPPNVGRDVLKTLEIANAVKNLGGNVISTGFHKAKFYDKYSSWLAVVPTEEIVKCVAEIEEGDEYNYNGPVVKRSKAKAGIIAGTGYGAIDRLELKALEVAARTSILTGCPILVHTQLGTALEVAKHLIGFGANPDKIQISHLNKNPDKYYYEKVIKETGVTLCFDGPDRVKYYPDSLLAENIKYLVDKGLQKHITLSLDAGRILYQRNYGLTKGKQTFGLAYLFDRFLPLLKQVGVSKEAIFDILVNNPKRVLAFDEKRNFDPLKVSKEVLELKKELNLN 3ovj-a1-m1-cC_3ovj-a1-m1-cD Structure of an amyloid forming peptide KLVFFA from amyloid beta in complex with orange G P05067 P05067 1.8 X-RAY DIFFRACTION 17 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 3ovj-a1-m1-cA_3ovj-a1-m1-cB KLVFFA KLVFFA 3ovk-a1-m1-cA_3ovk-a1-m1-cB Crystal structure of an XXA-pro aminopeptidase from Streptococcus pyogenes Q48RL4 Q48RL4 2 X-RAY DIFFRACTION 44 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 126 126 SGFLEQRLGHCLRQAEKGLEALLVTHLTNSYYLTGFSGTAATVLITAKRRVLITDSRYTLLAKASVEGFDIIESRTPLKVVAELLEADQIDCLGFEDQVSFSFYQAQAELSGITLLAQSGFVEHLR SGFLEQRLGHCLRQAEKGLEALLVTHLTNSYYLTGFSGTAATVLITAKRRVLITDSRYTLLAKASVEGFDIIESRTPLKVVAELLEADQIDCLGFEDQVSFSFYQAQAELSGITLLAQSGFVEHLR 3ovk-a1-m1-cA_3ovk-a1-m1-cC Crystal structure of an XXA-pro aminopeptidase from Streptococcus pyogenes Q48RL4 Q48RL4 2 X-RAY DIFFRACTION 38 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 126 126 SGFLEQRLGHCLRQAEKGLEALLVTHLTNSYYLTGFSGTAATVLITAKRRVLITDSRYTLLAKASVEGFDIIESRTPLKVVAELLEADQIDCLGFEDQVSFSFYQAQAELSGITLLAQSGFVEHLR SGFLEQRLGHCLRQAEKGLEALLVTHLTNSYYLTGFSGTAATVLITAKRRVLITDSRYTLLAKASVEGFDIIESRTPLKVVAELLEADQIDCLGFEDQVSFSFYQAQAELSGITLLAQSGFVEHLR 3ovk-a1-m1-cC_3ovk-a1-m1-cD Crystal structure of an XXA-pro aminopeptidase from Streptococcus pyogenes Q48RL4 Q48RL4 2 X-RAY DIFFRACTION 33 1.0 160490 (Streptococcus pyogenes M1 GAS) 160490 (Streptococcus pyogenes M1 GAS) 126 126 SGFLEQRLGHCLRQAEKGLEALLVTHLTNSYYLTGFSGTAATVLITAKRRVLITDSRYTLLAKASVEGFDIIESRTPLKVVAELLEADQIDCLGFEDQVSFSFYQAQAELSGITLLAQSGFVEHLR SGFLEQRLGHCLRQAEKGLEALLVTHLTNSYYLTGFSGTAATVLITAKRRVLITDSRYTLLAKASVEGFDIIESRTPLKVVAELLEADQIDCLGFEDQVSFSFYQAQAELSGITLLAQSGFVEHLR 3ovl-a1-m5-cA_3ovl-a1-m6-cA Structure of an amyloid forming peptide VQIVYK from the TAU protein in complex with orange G P10636 P10636 1.81 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 2on9-a1-m1-cA_2on9-a1-m2-cA 2on9-a1-m1-cB_2on9-a1-m2-cB 3ovl-a1-m1-cA_3ovl-a1-m2-cA 3ovl-a1-m2-cA_3ovl-a1-m3-cA 3ovl-a1-m4-cA_3ovl-a1-m5-cA VQIVYK VQIVYK 3ovr-a1-m1-cB_3ovr-a1-m1-cA Crystal Structure of hRPE and D-Xylulose 5-Phosphate Complex Q96AT9 Q96AT9 1.948 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 221 3ovp-a1-m1-cA_3ovp-a1-m1-cB 3ovq-a1-m1-cA_3ovq-a1-m1-cB 3qc3-a1-m1-cA_3qc3-a1-m1-cB GCKIGPSILNSDLANLGAECLRMLDSGADYLHLDVMDGHFVPNITFGHPVVESLRKQLGQDPFFDMHMMVSKPEQWVKPMAVAGANQYTFHLEATENPGALIKDIRENGMKVGLAIKPGTSVEYLAPWANQIDMALVMTVEPGFGGQKFMEDMMPKVHWLRTQFPSLDIEVDGGVGPDTVHKCAEAGANMIVSGSAIMRSEDPRSVINLLRNVCSEAAQK GCKIGPSILNSDLANLGAECLRMLDSGADYLHLDVMDGHFVPNITFGHPVVESLRKQLGQDPFFDMHMMVSKPEQWVKPMAVAGANQYTFHLEATENPGALIKDIRENGMKVGLAIKPGTSVEYLAPWANQIDMALVMTVEPGFGGQKFMEDMMPKVHWLRTQFPSLDIEVDGGVGPDTVHKCAEAGANMIVSGSAIMRSEDPRSVINLLRNVCSEAAQKR 3ow1-a5-m1-cG_3ow1-a5-m1-cA Crystal structure of D-mannonate dehydratase from Chromohalobacter salexigens complexed with MG Q1QT89 Q1QT89 1.798 X-RAY DIFFRACTION 52 1.0 158080 (Chromohalobacter salexigens) 158080 (Chromohalobacter salexigens) 383 384 3bsm-a3-m1-cA_3bsm-a3-m1-cD 3bsm-a3-m1-cA_3bsm-a3-m2-cD 3bsm-a3-m1-cB_3bsm-a3-m1-cC 3bsm-a3-m1-cB_3bsm-a3-m2-cC 3bsm-a3-m1-cC_3bsm-a3-m2-cB 3bsm-a3-m1-cD_3bsm-a3-m2-cA 3bsm-a3-m2-cA_3bsm-a3-m2-cD 3bsm-a3-m2-cB_3bsm-a3-m2-cC 3ow1-a5-m1-cA_3ow1-a5-m1-cD 3ow1-a5-m1-cC_3ow1-a5-m1-cB 3ow1-a5-m1-cC_3ow1-a5-m1-cE 3ow1-a5-m1-cD_3ow1-a5-m1-cF 3ow1-a5-m1-cG_3ow1-a5-m1-cF 3ow1-a5-m1-cH_3ow1-a5-m1-cB 3ow1-a5-m1-cH_3ow1-a5-m1-cE 3p93-a5-m1-cA_3p93-a5-m1-cB 3p93-a5-m1-cA_3p93-a5-m1-cE 3p93-a5-m1-cC_3p93-a5-m1-cD 3p93-a5-m1-cF_3p93-a5-m1-cC 3p93-a5-m1-cF_3p93-a5-m1-cH 3p93-a5-m1-cG_3p93-a5-m1-cB 3p93-a5-m1-cG_3p93-a5-m1-cE 3p93-a5-m1-cH_3p93-a5-m1-cD 3rgt-a3-m1-cA_3rgt-a3-m1-cD 3rgt-a3-m1-cA_3rgt-a3-m2-cD 3rgt-a3-m1-cC_3rgt-a3-m1-cB 3rgt-a3-m1-cC_3rgt-a3-m2-cB 3rgt-a3-m1-cD_3rgt-a3-m2-cA 3rgt-a3-m2-cA_3rgt-a3-m2-cD 3rgt-a3-m2-cC_3rgt-a3-m1-cB 3rgt-a3-m2-cC_3rgt-a3-m2-cB 4f4r-a1-m1-cA_4f4r-a1-m3-cA 4f4r-a1-m1-cA_4f4r-a1-m4-cA 4f4r-a1-m2-cA_4f4r-a1-m3-cA 4f4r-a1-m2-cA_4f4r-a1-m4-cA 4f4r-a1-m5-cA_4f4r-a1-m7-cA 4f4r-a1-m5-cA_4f4r-a1-m8-cA 4f4r-a1-m6-cA_4f4r-a1-m7-cA 4f4r-a1-m6-cA_4f4r-a1-m8-cA LKIRDAYTIVTCPGRNFVTLKIVTESGTHGIGDATLNGREMAVAAYLDEHVVPALIGRDAGRIEDTWQYLYRGAYWRRGPVTMTAIAAVDMALWDIKAKAAGMPLYQLLGGKSRERVMTYAHCTGQTIEDCLGEVARHVELGYRAVRVQSGVPGSLPAEHVWSTEKYLNHAPKLFAAVRERFGDDLHVLHDVHHRLTPIEAARLGKAVEPYHLFWLEDCVPAENQESLRLIREHTTTPLAIGEVFNSIHDCRELIQNQWIDYIRMPLTHGGGITAMRRVADLASLYHVRTGFHGPTDLSPVCLGAAIHFDTWVPNFGIQEHMPHTDETDAVFPHDYRFEDGHFLAGESPGHGVDIDEELAAKYPYERASLPVNRLEDGTLWHW LKIRDAYTIVTCPGRNFVTLKIVTESGTHGIGDATLNGREMAVAAYLDEHVVPALIGRDAGRIEDTWQYLYRGAYWRRGPVTMTAIAAVDMALWDIKAKAAGMPLYQLLGGKSRERVMTYAHCTGQTIEDCLGEVARHVELGYRAVRVQSGVPGSSLPAEHVWSTEKYLNHAPKLFAAVRERFGDDLHVLHDVHHRLTPIEAARLGKAVEPYHLFWLEDCVPAENQESLRLIREHTTTPLAIGEVFNSIHDCRELIQNQWIDYIRMPLTHGGGITAMRRVADLASLYHVRTGFHGPTDLSPVCLGAAIHFDTWVPNFGIQEHMPHTDETDAVFPHDYRFEDGHFLAGESPGHGVDIDEELAAKYPYERASLPVNRLEDGTLWHW 3ow1-a5-m1-cG_3ow1-a5-m1-cB Crystal structure of D-mannonate dehydratase from Chromohalobacter salexigens complexed with MG Q1QT89 Q1QT89 1.798 X-RAY DIFFRACTION 78 1.0 158080 (Chromohalobacter salexigens) 158080 (Chromohalobacter salexigens) 383 388 3bsm-a1-m1-cA_3bsm-a1-m1-cB 3bsm-a2-m1-cC_3bsm-a2-m2-cD 3bsm-a3-m1-cA_3bsm-a3-m1-cB 3bsm-a3-m1-cC_3bsm-a3-m2-cD 3bsm-a3-m1-cD_3bsm-a3-m2-cC 3bsm-a3-m2-cA_3bsm-a3-m2-cB 3ow1-a5-m1-cA_3ow1-a5-m1-cC 3ow1-a5-m1-cD_3ow1-a5-m1-cE 3ow1-a5-m1-cF_3ow1-a5-m1-cH 3p93-a5-m1-cA_3p93-a5-m1-cD 3p93-a5-m1-cC_3p93-a5-m1-cB 3p93-a5-m1-cF_3p93-a5-m1-cG 3p93-a5-m1-cH_3p93-a5-m1-cE 3rgt-a3-m1-cA_3rgt-a3-m1-cB 3rgt-a3-m1-cD_3rgt-a3-m2-cC 3rgt-a3-m2-cA_3rgt-a3-m2-cB 3rgt-a3-m2-cD_3rgt-a3-m1-cC 4f4r-a1-m1-cA_4f4r-a1-m5-cA 4f4r-a1-m2-cA_4f4r-a1-m6-cA 4f4r-a1-m3-cA_4f4r-a1-m8-cA 4f4r-a1-m4-cA_4f4r-a1-m7-cA LKIRDAYTIVTCPGRNFVTLKIVTESGTHGIGDATLNGREMAVAAYLDEHVVPALIGRDAGRIEDTWQYLYRGAYWRRGPVTMTAIAAVDMALWDIKAKAAGMPLYQLLGGKSRERVMTYAHCTGQTIEDCLGEVARHVELGYRAVRVQSGVPGSLPAEHVWSTEKYLNHAPKLFAAVRERFGDDLHVLHDVHHRLTPIEAARLGKAVEPYHLFWLEDCVPAENQESLRLIREHTTTPLAIGEVFNSIHDCRELIQNQWIDYIRMPLTHGGGITAMRRVADLASLYHVRTGFHGPTDLSPVCLGAAIHFDTWVPNFGIQEHMPHTDETDAVFPHDYRFEDGHFLAGESPGHGVDIDEELAAKYPYERASLPVNRLEDGTLWHW LKIRDAYTIVTCPGRNFVTLKIVTESGTHGIGDATLNGREMAVAAYLDEHVVPALIGRDAGRIEDTWQYLYRGAYWRRGPVTMTAIAAVDMALWDIKAKAAGMPLYQLLGGKSRERVMTYAHCTGQTIEDCLGEVARHVELGYRAVRVQSGVPGEPADSSLPAEHVWSTEKYLNHAPKLFAAVRERFGDDLHVLHDVHHRLTPIEAARLGKAVEPYHLFWLEDCVPAENQESLRLIREHTTTPLAIGEVFNSIHDCRELIQNQWIDYIRMPLTHGGGITAMRRVADLASLYHVRTGFHGPTDLSPVCLGAAIHFDTWVPNFGIQEHMPHTDETDAVFPHDYRFEDGHFLAGESPGHGVDIDEELAAKYPYERASLPVNRLEDGTLWHW 3ow9-a1-m5-cA_3ow9-a1-m6-cB Structure of an amyloid forming peptide KLVFFA from amyloid beta, alternate polymorph II P05067 P05067 1.8 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 3ow9-a1-m1-cA_3ow9-a1-m2-cB 3ow9-a1-m2-cA_3ow9-a1-m3-cB 3ow9-a1-m4-cA_3ow9-a1-m5-cB KLVFFA KLVFFA 3ow9-a1-m6-cA_3ow9-a1-m6-cB Structure of an amyloid forming peptide KLVFFA from amyloid beta, alternate polymorph II P05067 P05067 1.8 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 3ow9-a1-m1-cA_3ow9-a1-m1-cB 3ow9-a1-m2-cA_3ow9-a1-m2-cB 3ow9-a1-m3-cA_3ow9-a1-m3-cB 3ow9-a1-m4-cA_3ow9-a1-m4-cB 3ow9-a1-m5-cA_3ow9-a1-m5-cB KLVFFA KLVFFA 3owa-a2-m1-cD_3owa-a2-m1-cC Crystal Structure of Acyl-CoA Dehydrogenase complexed with FAD from Bacillus anthracis A0A6H3ADM7 A0A6H3ADM7 1.97 X-RAY DIFFRACTION 114 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 568 571 3owa-a1-m1-cB_3owa-a1-m1-cA AVKGGSFLVDEITIDQVFTPEDFSSEHKIAKTTEDFIVNEVLPELEYLEQHEFDRSVRLLKEAGELGLLGADVPEEYGGIGLDKVSSALIAEKFSRAGGFAITHGAHVGIGSLPIVLFGNEEQKKKYLPLLATGEKLAAYALTEPGSGSDALGAKTTARLNAEGTHYVLNGEKQWITNSAFADVFIVYAKIDGEHFSAFIVEKDYAGVSTSPEEKKGIKCSSTRTLILEDALVPKENLLGEIGKGHIIAFNILNIGRYKLGVGTVGSAKRAVEISAQYANQRQQFKQPIARFPLIQEKLANAAKTYAAESSVYRTVGLFESRSTLSEEEVKDGKAVAASIAEYAIECSLNKVFGSEVLDYTVDEGVQIHGGYGFAEYEIERYRDSRINRIFEGTNEINRLIVPGTFLRKAKGELPLLQKAQKLQEELVGDEPLALQKYLVNNAKKIGLVAGLAAQKYGKALDKEQEILVNIADIVSNLYAESAVLRTEKAIKTTGLEKNKQKVLYTEVFCQEAFNEIEAHAKETLIAVENGDLRLSSLRKLTRHTPLNVIPKKREIAAKILEDERYTV AVKGGSFLVDEITIDQVFTPEDFSSEHKIAKTTEDFIVNEVLPELEYLEQHEFDRSVRLLKEAGELGLLGADVPEEYGGIGLDKVSSALIAEKFSRAGGFAITHGAHVGIGSLPIVLFGNEEQKKKYLPLLATGEKLAAYALTEPGSGSDALGAKTTARLNAEGTHYVLNGEKQWITNSAFADVFIVYAKIDGEHFSAFIVEKDYAGVSTSPEEKKGIKCSSTRTLILEDALVPKENLLGEIGKGHIIAFNILNIGRYKLGVGTVGSAKRAVEISAQYANQRQQFKQPIARFPLIQEKLANAAKTYAAESSVYRTVGLFESRSTLSEEEVKDGKAVAASIAEYAIECSLNKVFGSEVLDYTVDEGVQIHGGYGFAEYEIERYRDSRINRIFEGTNEINRLIVPGTFLRKAKGELPLLQKAQKLQEELPEEVGDEPLALQKYLVNNAKKIGLVAGLAAQKYGKALDKEQEILVNIADIVSNLYAESAVLRTEKAIKTTGLEKNKQKVLYTEVFCQEAFNEIEAHAKETLIAVENGDLRLSSLRKLTRHTPLNVIPKKREIAAKILEDERYTV 3owf-a1-m1-cA_3owf-a1-m2-cA Crystal structure of Staphylococcal nuclease variant Delta+PHS V66R at cryogenic temperature P00644 P00644 1.85 X-RAY DIFFRACTION 87 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 135 135 ATSTKKLHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPEFNEKYGPEASAFTKKMRENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKGNNTHEQLLRKAEAQAKKEKLNIWS ATSTKKLHKEPATLIKAIDGDTVKLMYKGQPMTFRLLLVDTPEFNEKYGPEASAFTKKMRENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKGNNTHEQLLRKAEAQAKKEKLNIWS 3ox4-a1-m1-cA_3ox4-a1-m1-cB Structures of iron-dependent alcohol dehydrogenase 2 from Zymomonas mobilis ZM4 complexed with NAD cofactor P0DJA2 P0DJA2 2 X-RAY DIFFRACTION 106 1.0 542 (Zymomonas mobilis) 542 (Zymomonas mobilis) 382 382 3owo-a1-m1-cA_3owo-a1-m1-cB 3owo-a2-m1-cD_3owo-a2-m1-cC 3ox4-a2-m1-cC_3ox4-a2-m1-cD ASSTFYIPFVNEMGEGSLEKAIKDLNGSGFKNALIVSDAFMNKSGVVKQVADLLKAQGINSAVYDGVMPNPTVTAVLEGLKILKDNNSDFVISLGGGSPHDCAKAIALVATNGGEVKDYEGIDKSKKPALPLMSINTTAGTASEMTRFCIITDEVRHVKMAIVDRHVTPMVSVNDPLLMVGMPKGLTAATGMDALTHAFEAYSSTAATPITDACALKAASMIAKNLKTACDNGKDMPAREAMAYAQFLAGMAFNNASLGYVHAMAHQLGGYYNLPHGVCNAVLLPHVLAYNASVVAGRLKDVGVAMGLDIANLGDKEGAEATIQAVRDLAASIGIPANLTELGAKKEDVPLLADHALKDACALTNPRQGDQKEVEELFLSAF ASSTFYIPFVNEMGEGSLEKAIKDLNGSGFKNALIVSDAFMNKSGVVKQVADLLKAQGINSAVYDGVMPNPTVTAVLEGLKILKDNNSDFVISLGGGSPHDCAKAIALVATNGGEVKDYEGIDKSKKPALPLMSINTTAGTASEMTRFCIITDEVRHVKMAIVDRHVTPMVSVNDPLLMVGMPKGLTAATGMDALTHAFEAYSSTAATPITDACALKAASMIAKNLKTACDNGKDMPAREAMAYAQFLAGMAFNNASLGYVHAMAHQLGGYYNLPHGVCNAVLLPHVLAYNASVVAGRLKDVGVAMGLDIANLGDKEGAEATIQAVRDLAASIGIPANLTELGAKKEDVPLLADHALKDACALTNPRQGDQKEVEELFLSAF 3oxn-a2-m1-cC_3oxn-a2-m1-cB The crystal structure of a putative transcriptional regulator from Vibrio parahaemolyticus Q87TP2 Q87TP2 2.7 X-RAY DIFFRACTION 86 0.995 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 208 210 3oxn-a1-m1-cD_3oxn-a1-m1-cA FDPQQCDQTFTIATTDYAQTILPFALPRIYQEAPNVSFNFLPLQHDRLSDQLTYEGADLAICRPTVEPLRSEILGRVGVLCLLSKQHPLANQESLDDYLSHPHAIAISDGVKALIEQALIDKPQRKVLRAYHLEAALAIVDTLPIIITVPADLAYLVAERYDLVVKPLPFQFTPFDYSIWHARCEHSPAQEWLRSVVREECSRLIAKR DPQQCDQTFTIATTDYAQTILPFALPRIYQEAPNVSFNFLPLQHDRLSDQLTYEGADLAICRPTGPVEPLRSEILGRVGVLCLLSKQHPLANQESLDDYLSHPHAIAISDGVKALIEQALIDKPQRKVLRAYHLEAALAIVDTLPIIITVPADLAYLVAERYDLVVKPLPFQFTPFDYSIWHARCEHSPAQEWLRSVVREECSRLIAKRI 3oxp-a1-m1-cA_3oxp-a1-m1-cB Structure of phosphotransferase enzyme II, A component from Yersinia pestis CO92 at 1.2 A resolution A0A3N4AZU4 A0A3N4AZU4 1.2 X-RAY DIFFRACTION 60 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 146 146 ALKTLLTSDVIQVVSQAKDWRDAIAISCQPLIDNGAVEARYVEAIYRSHEAIGPYYVVGPGIAPHARPEDGVNRLSLALTVITEGVTFNAEGNDPVKLLIVLAATDSNSHIEAISQLAQLFDTASDVQALLNAKTPQDILSVIARY ALKTLLTSDVIQVVSQAKDWRDAIAISCQPLIDNGAVEARYVEAIYRSHEAIGPYYVVGPGIAPHARPEDGVNRLSLALTVITEGVTFNAEGNDPVKLLIVLAATDSNSHIEAISQLAQLFDTASDVQALLNAKTPQDILSVIARY 3oy2-a1-m1-cA_3oy2-a1-m1-cB Crystal structure of a putative glycosyltransferase from Paramecium bursaria Chlorella virus NY2A A7IXR1 A7IXR1 2.31 X-RAY DIFFRACTION 102 1.0 46021 (Paramecium bursaria Chlorella virus NY2A) 46021 (Paramecium bursaria Chlorella virus NY2A) 392 392 3oy7-a1-m1-cA_3oy7-a1-m1-cB MKLIIVGAHSSVPSGYGRVMRAIVPRISKAHEVIVFGIHAFGRSVHANIEEFDAQTAEHVRGLNEQGFYYSGLSEFIDVHKPDIVMIYNDPIVIGNYLLAMGKCSHRTKIVLYVDLVSKNIRENLWWIFSHPKVVGVMAMSKCWISDICNYGCKVPINIVSHFVDTKTIYDARKLVGLSEYNDDVLFLNMNRNTARKRLDIYVLAAARFISKYPDAKVRFLCNSHHESKFDLHSIALRELVASGVDNVFTHLNKIMINRTVLTDERVDMMYNACDVIVNCSSGEGFGLCSAEGAVLGKPLIISAVGGADDYFSGDCVYKIKPSAWISVDDRDGIGGIEGIIDVDDLVEAFTFFKDEKNRKEYGKRVQDFVKTKPTWDDISSDIIDFFNSLLR MKLIIVGAHSSVPSGYGRVMRAIVPRISKAHEVIVFGIHAFGRSVHANIEEFDAQTAEHVRGLNEQGFYYSGLSEFIDVHKPDIVMIYNDPIVIGNYLLAMGKCSHRTKIVLYVDLVSKNIRENLWWIFSHPKVVGVMAMSKCWISDICNYGCKVPINIVSHFVDTKTIYDARKLVGLSEYNDDVLFLNMNRNTARKRLDIYVLAAARFISKYPDAKVRFLCNSHHESKFDLHSIALRELVASGVDNVFTHLNKIMINRTVLTDERVDMMYNACDVIVNCSSGEGFGLCSAEGAVLGKPLIISAVGGADDYFSGDCVYKIKPSAWISVDDRDGIGGIEGIIDVDDLVEAFTFFKDEKNRKEYGKRVQDFVKTKPTWDDISSDIIDFFNSLLR 3oyr-a1-m1-cA_3oyr-a1-m1-cB Crystal structure of polyprenyl synthase from Caulobacter crescentus CB15 complexed with calcium and isoprenyl diphosphate Q9A6I1 Q9A6I1 2 X-RAY DIFFRACTION 145 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 292 328 KSGSVDRLVRLAEADMAGVNRLITDRMQSDVAIIPALAEHLIAAGGKRLRPLMTVAAARLAGADNDHFQKLAAAVEFIHTATLLHDDVVVAAHLIWGGAQSVLVGDFLFARAFELMVETNSMKALEILARASRVIAEGEVLQLMRSHDLNLSQAVYLEIIQAKTAELFAAASEAGAVSAGVDVAKSEALRDYGLNLGLAFQLADDALDYATLPLLLAIARSGPREAEFWERAIGTEADFRRARELIIGSGALDATLDLAADYADKAKAALAMFPANDWREALEELADFAVSR PRKSGSVDRLVRLAEADMAGVNRLITDRMQSDVAIIPALAEHLIAAGGKRLRPLMTVAAARLAGADNDHFQKLAAAVEFIHTATLLHDDVVDGSQLRRGKVAAHLIWGGAQSVLVGDFLFARAFELMVETNSMKALEILARASRVIAEGEVLQLMRSHDLNLSQAVYLEIIQAKTAELFAAASEAGAVSAGVDVAKSEALRDYGLNLGLAFQLADDALDYGGATETLGKNAGDDFREGKATLPLLLAIARSGPREAEFWERAIGRREQTEADFRRARELIIGSGALDATLDLAADYADKAKAALAMFPANDWREALEELADFAVSRRA 3oyt-a1-m1-cB_3oyt-a1-m1-cA 1.84 Angstrom resolution crystal structure of 3-oxoacyl-(acyl carrier protein) synthase I (fabB) from Yersinia pestis CO92 A0A3N4B3P8 A0A3N4B3P8 1.84 X-RAY DIFFRACTION 238 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 379 387 KRAVITGLGIVSSIGNNQQEVLASLQEGRSGITFAQEFKDAGRSHVWGDVKLQSEPKDLIDRKVLRFSDASIYAYLAQEAIADSGLSDSQVSNFRSGLVVGSGGGSPRNQVAGSDARTPRGLKGVGPYVTKAASGVSACLATPFKIKGVNYSISSACATSAHCIGHALELIQLGKQDIVFAGGGEELCWEACEFDAGALSTKYNDTPAKASRTYDQDRDGFVIAGGGGVVVEELEHALARGAHIYAEIVGYGATSDGEGAVRCQAAGVDTPIDYNVHGTSTPVGDVKELGAIREVFGNNTPAISSTKATGHSLGAAGVHEAIFSLLVEHGFIAPSINIDNLDEQAQGNIITETTQRELTTVSNSFGFGGTNATLVRKYQ KRAVITGLGIVSSIGNNQQEVLASLQEGRSGITFAQEFKDAGRSHVWGDVKLQSEPKDLIDRKVLRFSDASIYAYLAQEAIADSGLSDSQVSNFRSGLVVGSGGGSPRNQVAGSDARTPRGLKGVGPYVTKAASGVSACLATPFKIKGVNYSISSACATSAHCIGHALELIQLGKQDIVFAGGGEELCWEACEFDAGALSTKYNDTPAKASRTYDQDRDGFVIAGGGGVVVEELEHALARGAHIYAEIVGYGATSDGADVAPSGEGAVRCQAAGVDTPIDYNVHGTSTPVGDVKELGAIREVFGNNTPAISSTKATGHSLGAAGVHEAIFSLLVEHGFIAPSINIDNLDEQAQGNIITETTQRELTTVSNSFGFGGTNATLVRKYQK 3oyx-a2-m2-cA_3oyx-a2-m6-cA Haloferax volcanii Malate Synthase Magnesium/Glyoxylate Complex D4GTL2 D4GTL2 2.51 X-RAY DIFFRACTION 19 1.0 309800 (Haloferax volcanii DS2) 309800 (Haloferax volcanii DS2) 348 348 3oyx-a2-m1-cA_3oyx-a2-m4-cA 3oyx-a2-m3-cA_3oyx-a2-m5-cA 3oyz-a2-m1-cA_3oyz-a2-m4-cA 3oyz-a2-m2-cA_3oyz-a2-m6-cA 3oyz-a2-m3-cA_3oyz-a2-m5-cA 3pug-a2-m1-cA_3pug-a2-m4-cA 3pug-a2-m2-cA_3pug-a2-m6-cA 3pug-a2-m3-cA_3pug-a2-m5-cA 5tao-a1-m1-cA_5tao-a1-m4-cA 5tao-a1-m2-cA_5tao-a1-m6-cA 5tao-a1-m3-cA_5tao-a1-m5-cA RHDREFVRTFFTSPTAVEGEDDSAKMLRRAAGLRGMQAPDVWVPDNEDATAPSMRDEGAENIVEVISEQGAEFPGEIHPRMVWHRDSPETRYQGFQHMLDITDPERGAVEHIHGFVIPEVGGIDDWKKADEFFTIVEHEHGLDEGSLAMSVIIESGEAELAMGDLRDEMGKPTNNLERLFLLVDGEVDYTKDMRAMTPTGELPAWPELRHNTSRGASAAGCVAVDGPYDDIRDVEGYRERMTDNQAKGMLGIWSLTPGQVVEANTSPLPPKTGSWLLDAEELLGLTSYVPSMDDIVDSMEEFWDEATYQAAMTPISLFQDVYENRPDQHEELEERYGAGVVERAMEVG RHDREFVRTFFTSPTAVEGEDDSAKMLRRAAGLRGMQAPDVWVPDNEDATAPSMRDEGAENIVEVISEQGAEFPGEIHPRMVWHRDSPETRYQGFQHMLDITDPERGAVEHIHGFVIPEVGGIDDWKKADEFFTIVEHEHGLDEGSLAMSVIIESGEAELAMGDLRDEMGKPTNNLERLFLLVDGEVDYTKDMRAMTPTGELPAWPELRHNTSRGASAAGCVAVDGPYDDIRDVEGYRERMTDNQAKGMLGIWSLTPGQVVEANTSPLPPKTGSWLLDAEELLGLTSYVPSMDDIVDSMEEFWDEATYQAAMTPISLFQDVYENRPDQHEELEERYGAGVVERAMEVG 3oyx-a2-m3-cA_3oyx-a2-m6-cA Haloferax volcanii Malate Synthase Magnesium/Glyoxylate Complex D4GTL2 D4GTL2 2.51 X-RAY DIFFRACTION 46 1.0 309800 (Haloferax volcanii DS2) 309800 (Haloferax volcanii DS2) 348 348 3oyx-a2-m1-cA_3oyx-a2-m5-cA 3oyx-a2-m2-cA_3oyx-a2-m4-cA 3oyz-a2-m1-cA_3oyz-a2-m5-cA 3oyz-a2-m2-cA_3oyz-a2-m4-cA 3oyz-a2-m3-cA_3oyz-a2-m6-cA 3pug-a2-m1-cA_3pug-a2-m5-cA 3pug-a2-m2-cA_3pug-a2-m4-cA 3pug-a2-m3-cA_3pug-a2-m6-cA 5tao-a1-m1-cA_5tao-a1-m5-cA 5tao-a1-m2-cA_5tao-a1-m4-cA 5tao-a1-m3-cA_5tao-a1-m6-cA RHDREFVRTFFTSPTAVEGEDDSAKMLRRAAGLRGMQAPDVWVPDNEDATAPSMRDEGAENIVEVISEQGAEFPGEIHPRMVWHRDSPETRYQGFQHMLDITDPERGAVEHIHGFVIPEVGGIDDWKKADEFFTIVEHEHGLDEGSLAMSVIIESGEAELAMGDLRDEMGKPTNNLERLFLLVDGEVDYTKDMRAMTPTGELPAWPELRHNTSRGASAAGCVAVDGPYDDIRDVEGYRERMTDNQAKGMLGIWSLTPGQVVEANTSPLPPKTGSWLLDAEELLGLTSYVPSMDDIVDSMEEFWDEATYQAAMTPISLFQDVYENRPDQHEELEERYGAGVVERAMEVG RHDREFVRTFFTSPTAVEGEDDSAKMLRRAAGLRGMQAPDVWVPDNEDATAPSMRDEGAENIVEVISEQGAEFPGEIHPRMVWHRDSPETRYQGFQHMLDITDPERGAVEHIHGFVIPEVGGIDDWKKADEFFTIVEHEHGLDEGSLAMSVIIESGEAELAMGDLRDEMGKPTNNLERLFLLVDGEVDYTKDMRAMTPTGELPAWPELRHNTSRGASAAGCVAVDGPYDDIRDVEGYRERMTDNQAKGMLGIWSLTPGQVVEANTSPLPPKTGSWLLDAEELLGLTSYVPSMDDIVDSMEEFWDEATYQAAMTPISLFQDVYENRPDQHEELEERYGAGVVERAMEVG 3oyx-a2-m5-cA_3oyx-a2-m6-cA Haloferax volcanii Malate Synthase Magnesium/Glyoxylate Complex D4GTL2 D4GTL2 2.51 X-RAY DIFFRACTION 123 1.0 309800 (Haloferax volcanii DS2) 309800 (Haloferax volcanii DS2) 348 348 3oyx-a1-m1-cA_3oyx-a1-m2-cA 3oyx-a1-m1-cA_3oyx-a1-m3-cA 3oyx-a1-m2-cA_3oyx-a1-m3-cA 3oyx-a2-m1-cA_3oyx-a2-m2-cA 3oyx-a2-m1-cA_3oyx-a2-m3-cA 3oyx-a2-m2-cA_3oyx-a2-m3-cA 3oyx-a2-m4-cA_3oyx-a2-m5-cA 3oyx-a2-m4-cA_3oyx-a2-m6-cA 3oyz-a1-m1-cA_3oyz-a1-m2-cA 3oyz-a1-m1-cA_3oyz-a1-m3-cA 3oyz-a1-m2-cA_3oyz-a1-m3-cA 3oyz-a2-m1-cA_3oyz-a2-m2-cA 3oyz-a2-m1-cA_3oyz-a2-m3-cA 3oyz-a2-m2-cA_3oyz-a2-m3-cA 3oyz-a2-m4-cA_3oyz-a2-m5-cA 3oyz-a2-m4-cA_3oyz-a2-m6-cA 3oyz-a2-m5-cA_3oyz-a2-m6-cA 3pug-a1-m1-cA_3pug-a1-m2-cA 3pug-a1-m1-cA_3pug-a1-m3-cA 3pug-a1-m2-cA_3pug-a1-m3-cA 3pug-a2-m1-cA_3pug-a2-m2-cA 3pug-a2-m1-cA_3pug-a2-m3-cA 3pug-a2-m2-cA_3pug-a2-m3-cA 3pug-a2-m4-cA_3pug-a2-m5-cA 3pug-a2-m4-cA_3pug-a2-m6-cA 3pug-a2-m5-cA_3pug-a2-m6-cA 5tao-a1-m1-cA_5tao-a1-m2-cA 5tao-a1-m1-cA_5tao-a1-m3-cA 5tao-a1-m2-cA_5tao-a1-m3-cA 5tao-a1-m4-cA_5tao-a1-m5-cA 5tao-a1-m4-cA_5tao-a1-m6-cA 5tao-a1-m5-cA_5tao-a1-m6-cA 5tao-a2-m1-cA_5tao-a2-m2-cA 5tao-a2-m1-cA_5tao-a2-m3-cA 5tao-a2-m2-cA_5tao-a2-m3-cA RHDREFVRTFFTSPTAVEGEDDSAKMLRRAAGLRGMQAPDVWVPDNEDATAPSMRDEGAENIVEVISEQGAEFPGEIHPRMVWHRDSPETRYQGFQHMLDITDPERGAVEHIHGFVIPEVGGIDDWKKADEFFTIVEHEHGLDEGSLAMSVIIESGEAELAMGDLRDEMGKPTNNLERLFLLVDGEVDYTKDMRAMTPTGELPAWPELRHNTSRGASAAGCVAVDGPYDDIRDVEGYRERMTDNQAKGMLGIWSLTPGQVVEANTSPLPPKTGSWLLDAEELLGLTSYVPSMDDIVDSMEEFWDEATYQAAMTPISLFQDVYENRPDQHEELEERYGAGVVERAMEVG RHDREFVRTFFTSPTAVEGEDDSAKMLRRAAGLRGMQAPDVWVPDNEDATAPSMRDEGAENIVEVISEQGAEFPGEIHPRMVWHRDSPETRYQGFQHMLDITDPERGAVEHIHGFVIPEVGGIDDWKKADEFFTIVEHEHGLDEGSLAMSVIIESGEAELAMGDLRDEMGKPTNNLERLFLLVDGEVDYTKDMRAMTPTGELPAWPELRHNTSRGASAAGCVAVDGPYDDIRDVEGYRERMTDNQAKGMLGIWSLTPGQVVEANTSPLPPKTGSWLLDAEELLGLTSYVPSMDDIVDSMEEFWDEATYQAAMTPISLFQDVYENRPDQHEELEERYGAGVVERAMEVG 3oza-a1-m1-cB_3oza-a1-m1-cA Crystal Structure of Plasmodium falciparum 3-Phosphoglycerate Kinase P27362 P27362 3 X-RAY DIFFRACTION 122 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 407 409 3oz7-a1-m1-cA_3oz7-a1-m1-cB 3oza-a2-m1-cC_3oza-a2-m2-cC HLGNKLSISDLKDIKNKKVLVRVDFNVPIENGIIKDTNRITATLPTINHLKKEGASKIILISHCGRPDGLRNEKYTLKPVAETLKGLLGEEVLFLNDCVGKEVEDKINAAKENSVILLENLRFHIEEEGKGVDANGNKVKANKEDVEKFQNDLTKLADVFINDAFGTAHRAHSSVGVKLNVKASGFLKKELEYFSKALENPQRPLLAILGGAKVSDKIQLIKNLLDKVDRIIGGGAYTFKKVLNNKIGTSLFDEAGSKIVGEIEKAKAKNVQIFLPVDFKIADNFDNNANTKFVTDEEGIPDNWGLDAGPKSIENYKDVILTSKTVIWNGPQGVFEPNFAKGSIECLNLVVEVTKKGAITIVGGGDTASLVEQQNKKNEISHVSTGGGASLELLEGKELPGVLALSN HHHLGNKLSISDLKDIKNKKVLVRVDFNVPIENGIIKDTNRITATLPTINHLKKEGASKIILISHCGRPDGLRNEKYTLKPVAETLKGLLGEEVLFLNDCVGKEVEDKINAAKENSVILLENLRFHIEEEGKGVDANGNKVKANKEDVEKFQNDLTKLADVFINDAFGTAHRAHSSVGVKLNVKASGFLKKELEYFSKALENPQRPLLAILGGAKVSDKIQLIKNLLDKVDRIIGGGAYTFKKVLNNKIGTSLFDEAGSKIVGEIEKAKAKNVQIFLPVDFKIADNFDNNANTKFVTDEEGIPDNWGLDAGPKSIENYKDVILTSKTVIWNGPQGVFEPNFAKGSIECLNLVVEVTKKGAITIVGGGDTASLVEQQNKKNEISHVSTGGGASLELLEGKELPGVLALSN 3ozb-a1-m1-cC_3ozb-a1-m1-cF Crystal Structure of 5'-methylthioinosine phosphorylase from Psedomonas aeruginosa in complex with hypoxanthine Q9HZK1 Q9HZK1 2.8 X-RAY DIFFRACTION 32 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 239 239 3ozb-a1-m1-cB_3ozb-a1-m1-cD 3ozb-a1-m1-cE_3ozb-a1-m1-cA SVYAIIGGTGLTQLEGLTLSESLPIETPYGAPSAPLQRGRYAGREVLFLARHGRFPPHQVNYRANLWALKQAGAEAVIAVNAVGGIHAAMGTGHLCVPHQLIDYTSGREHTYFAGDIEHVTHIDFSHPYDEPLRQRLIEALRALGLAHSSHGVYACTQGPRLETVAEIARLERDGNDIVGMTGMPEAALARELDLPYACLALVVNPAAGKSAGIITMAEIEQALHDGIGKVREVLARVL SVYAIIGGTGLTQLEGLTLSESLPIETPYGAPSAPLQRGRYAGREVLFLARHGFPPHQVNYRANLWALKQAGAEAVIAVNAVGGIHAAMGTGHLCVPHQLIDYTSGREHTYFAGDIEHVTHIDFSHPYDEPLRQRLIEALRALGLAHSSHGVYACTQGPRLETVAEIARLERDGNDIVGMTGMPEAALARELDLPYACLALVVNPAAGKSAGIITMAEIEQALHDGIGKVREVLARVLA 3ozb-a1-m1-cE_3ozb-a1-m1-cD Crystal Structure of 5'-methylthioinosine phosphorylase from Psedomonas aeruginosa in complex with hypoxanthine Q9HZK1 Q9HZK1 2.8 X-RAY DIFFRACTION 78 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 236 239 3ozb-a1-m1-cB_3ozb-a1-m1-cA 3ozb-a1-m1-cB_3ozb-a1-m1-cC 3ozb-a1-m1-cC_3ozb-a1-m1-cA 3ozb-a1-m1-cD_3ozb-a1-m1-cF 3ozb-a1-m1-cE_3ozb-a1-m1-cF VYAIIGGTGLTQLEGLTLSESLPIETPYGAPSAPLQRGRYAGREVLFLARHPPHQVNYRANLWALKQAGAEAVIAVNAVGGIHAAMGTGHLCVPHQLIDYTSGREHTYFAGDIEHVTHIDFSHPYDEPLRQRLIEALRALGLAHSSHGVYACTQGPRLETVAEIARLERDGNDIVGMTGMPEAALARELDLPYACLALVVNPAAGKSAGIITMAEIEQALHDGIGKVREVLARVLA SVYAIIGGTGLTQLEGLTLSESLPIETPYGAPSAPLQRGRYAGREVLFLARHGFPPHQVNYRANLWALKQAGAEAVIAVNAVGGIHAAMGTGHLCVPHQLIDYTSGREHTYFAGDIEHVTHIDFSHPYDEPLRQRLIEALRALGLAHSSHGVYACTQGPRLETVAEIARLERDGNDIVGMTGMPEAALARELDLPYACLALVVNPAAGKSAGIITMAEIEQALHDGIGKVREVLARVLA 3ozg-a1-m1-cA_3ozg-a1-m2-cA Crystal Structure of Plasmodium falciparum Hypoxanthine-Guanine-Xanthine Phosphoribosyltransferase in complex with S-SerMe-ImmH phosphonate P20035 P20035 1.993 X-RAY DIFFRACTION 50 1.0 5838 (Plasmodium falciparum FCR-3/Gambia) 5838 (Plasmodium falciparum FCR-3/Gambia) 227 227 1cjb-a1-m1-cA_1cjb-a1-m3-cA 1cjb-a1-m1-cB_1cjb-a1-m3-cB 1cjb-a2-m1-cD_1cjb-a2-m1-cC 1cjb-a2-m2-cD_1cjb-a2-m2-cC 3ozf-a1-m1-cC_3ozf-a1-m1-cB 3ozf-a1-m1-cD_3ozf-a1-m1-cA 3ozg-a1-m1-cB_3ozg-a1-m2-cB 3ozg-a2-m1-cD_3ozg-a2-m1-cC 3ozg-a2-m3-cD_3ozg-a2-m3-cC PIPNNPGAGENAFDPVFVNDDDGYDLDSFMIPAHYKKYLTKVLVPNGVIKNRIEKLAYDIKKVYNNEEFHILCLLKGSRGFFTALLKHLSRIHNYSAVETSKPLFGEHYVRVKSYCNDQSTGTLEIVSEDLSCLKGKHVLIVEDIIDTGKTLVKFCEYLKKFEIKTVAIACLFIKRTPLWNGFKADFVGFSIPDHFVVGYSLDYNEIFRDLDHCCLVNDEGKKKYKA PIPNNPGAGENAFDPVFVNDDDGYDLDSFMIPAHYKKYLTKVLVPNGVIKNRIEKLAYDIKKVYNNEEFHILCLLKGSRGFFTALLKHLSRIHNYSAVETSKPLFGEHYVRVKSYCNDQSTGTLEIVSEDLSCLKGKHVLIVEDIIDTGKTLVKFCEYLKKFEIKTVAIACLFIKRTPLWNGFKADFVGFSIPDHFVVGYSLDYNEIFRDLDHCCLVNDEGKKKYKA 3ozp-a1-m1-cA_3ozp-a1-m2-cA Crystal Structure of insect beta-N-acetyl-D-hexosaminidase OfHex1 complexed with PUGNAc Q06GJ0 Q06GJ0 2 X-RAY DIFFRACTION 204 1.0 93504 (Ostrinia furnacalis) 93504 (Ostrinia furnacalis) 572 572 3nsm-a1-m1-cA_3nsm-a1-m2-cA 3nsn-a1-m1-cA_3nsn-a1-m2-cA 3ozo-a1-m1-cA_3ozo-a1-m2-cA 3s6t-a1-m1-cA_3s6t-a1-m2-cA 3vtr-a2-m1-cA_3vtr-a2-m2-cA 3wmb-a2-m1-cA_3wmb-a2-m2-cA 3wmc-a2-m1-cA_3wmc-a2-m2-cA 5y1b-a2-m1-cA_5y1b-a2-m2-cA EDVVWRWSCDNGKCVKLKNDPRSSEPALSLEACKMFCNEYGLLWPRPTGEADLGNFLSKINLNSIEVKILKKGATDDLMEAAAKRFKEQVSLAIPRGSTPKLTGKAVDVYLVNENPNEKAFSLEMDESYGLRVSPSGADRVNATITANSFFGMRHGLETLSQLFVFDDIRDHLLMVRDVNISDKPVYPYRGILLDTARNYYSIESIKRTIEAMAAVKLNTFHWHITDSQSFPFVTTKRPNLYKFGALSPQKVYTKAAIREVVRFGLERGVRVLPEFDAPAHVGEGWQDTDLTVCFKAEPWKSYCVEPPCGQLNPTKDELYQYLEDIYSDMAEVFDTTDIFHMGGDEVSEACWNSSDSIQNFMMQNRWDLDKESFLKLWNYFQQKAQDKAYKAFGKKLPLILWTSTLTNYKHIDDYLNKDDYIIQVWTTGVDPQIKGLLEKGYRLIMSNYDALYFDCGYGAWVGAGNNWCSPYIGWQKVYDNSPAVIALEHRDQVLGGEAALWSEQSDTSTLDGRLWPRAAALAERLWAEPATSWQDAEYRMLHIRERLVRMGIQAESLQPEWCYQNEGYCYS EDVVWRWSCDNGKCVKLKNDPRSSEPALSLEACKMFCNEYGLLWPRPTGEADLGNFLSKINLNSIEVKILKKGATDDLMEAAAKRFKEQVSLAIPRGSTPKLTGKAVDVYLVNENPNEKAFSLEMDESYGLRVSPSGADRVNATITANSFFGMRHGLETLSQLFVFDDIRDHLLMVRDVNISDKPVYPYRGILLDTARNYYSIESIKRTIEAMAAVKLNTFHWHITDSQSFPFVTTKRPNLYKFGALSPQKVYTKAAIREVVRFGLERGVRVLPEFDAPAHVGEGWQDTDLTVCFKAEPWKSYCVEPPCGQLNPTKDELYQYLEDIYSDMAEVFDTTDIFHMGGDEVSEACWNSSDSIQNFMMQNRWDLDKESFLKLWNYFQQKAQDKAYKAFGKKLPLILWTSTLTNYKHIDDYLNKDDYIIQVWTTGVDPQIKGLLEKGYRLIMSNYDALYFDCGYGAWVGAGNNWCSPYIGWQKVYDNSPAVIALEHRDQVLGGEAALWSEQSDTSTLDGRLWPRAAALAERLWAEPATSWQDAEYRMLHIRERLVRMGIQAESLQPEWCYQNEGYCYS 3ozw-a1-m1-cA_3ozw-a1-m2-cB The Crystal Structure of flavohemoglobin from R. eutrophus in complex with ketoconazole P39662 P39662 2.3 X-RAY DIFFRACTION 97 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 403 403 1cqx-a3-m1-cA_1cqx-a3-m1-cB 3ozu-a2-m1-cA_3ozu-a2-m2-cA 3ozv-a3-m1-cA_3ozv-a3-m2-cB MLTQKTKDIVKATAPVLAEHGYDIIKCFYQRMFEAHPELKNVFNMAHQEQGQQQQALARAVYAYAENIEDPNSLMAVLKNIANKHASLGVKPEQYPIVGEHLLAAIKEVLGNAATDDIISAWAQAYGNLADVLMGMESELYERSAEQPGGWKGWRTFVIREKRPESDVITSFILEPADGGPVVNFEPGQYTSVAIDVPALGLQQIRQYSLSDMPNGRSYRISVKREGGGPQPPGYVSNLLHDHVNVGDQVKLAAPYGSFHIDVDAKTPIVLISGGVGLTPMVSMLKVALQAPPRQVVFVHGARNSAVHAMRDRLREAAKTYENLDLFVFYDQPLPEDVQGRDYDYPGLVDVKQIEKSILLPDADYYICGPIPFMRMQHDALKNLGIHEARIHYEVFGPDLFAE MLTQKTKDIVKATAPVLAEHGYDIIKCFYQRMFEAHPELKNVFNMAHQEQGQQQQALARAVYAYAENIEDPNSLMAVLKNIANKHASLGVKPEQYPIVGEHLLAAIKEVLGNAATDDIISAWAQAYGNLADVLMGMESELYERSAEQPGGWKGWRTFVIREKRPESDVITSFILEPADGGPVVNFEPGQYTSVAIDVPALGLQQIRQYSLSDMPNGRSYRISVKREGGGPQPPGYVSNLLHDHVNVGDQVKLAAPYGSFHIDVDAKTPIVLISGGVGLTPMVSMLKVALQAPPRQVVFVHGARNSAVHAMRDRLREAAKTYENLDLFVFYDQPLPEDVQGRDYDYPGLVDVKQIEKSILLPDADYYICGPIPFMRMQHDALKNLGIHEARIHYEVFGPDLFAE 3p01-a2-m1-cC_3p01-a2-m1-cB Crystal structure of two-component response regulator from Nostoc sp. PCC 7120 Q8YLP5 Q8YLP5 2.65 X-RAY DIFFRACTION 62 0.994 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 166 172 3p01-a1-m1-cA_3p01-a1-m2-cA KQRTEELRRANAQSLLTVLVQVTQASNSLEAILTPIATAFAESFAVNACILQLEGQTLSTIQGFYSQQGTVNNWLNQDPLTNEAIATGQIQVAANIAKDPKLASISQYQDNGIQSHVVIPITYRNELGVLSLQWQQPISLREDELTLIHLSAQLVAIALTSSRCSL AETYDLLKQRTEELRRANAQSLLTVLVQVTQASNSLEAILTPIATAFAESFAVNACILQLEGQTLSTIQGFYSQQGTVNNWLNQDPLTNEAIATGQIQVAANIAKDPKLASISQYQDNGIQSHVVIPITYRNELGVLSLQWQQPISLREDELTLIHLSAQLVAIALTSSRCS 3p06-a3-m2-cA_3p06-a3-m4-cA Crystal structure of Tellina virus 1 VP4 protease in the form of an intra-molecular(cis)acyl-enzyme complex. Q2PBR5 Q2PBR5 2.1 X-RAY DIFFRACTION 17 1.0 321302 (Tellina virus 1) 321302 (Tellina virus 1) 189 189 3p06-a3-m1-cA_3p06-a3-m3-cA NGVELSAVGVLLPVLDSGRRISGGAFAVKGDLSEHIKNPKNTRIAQTVAGGTIYGLSEVNIDEAEKLPIKGAITVLPVVQATATSILVPDNQPQLAFNSWEAAACAADTLESQQTPFLVTGAVESGNLSPNLLAVQKQLLVAKPAGIGLAANSDRALKVVTLEQLRQVVGDKPWRKPVTFSSGKNVAQA NGVELSAVGVLLPVLDSGRRISGGAFAVKGDLSEHIKNPKNTRIAQTVAGGTIYGLSEVNIDEAEKLPIKGAITVLPVVQATATSILVPDNQPQLAFNSWEAAACAADTLESQQTPFLVTGAVESGNLSPNLLAVQKQLLVAKPAGIGLAANSDRALKVVTLEQLRQVVGDKPWRKPVTFSSGKNVAQA 3p06-a3-m3-cA_3p06-a3-m4-cA Crystal structure of Tellina virus 1 VP4 protease in the form of an intra-molecular(cis)acyl-enzyme complex. Q2PBR5 Q2PBR5 2.1 X-RAY DIFFRACTION 45 1.0 321302 (Tellina virus 1) 321302 (Tellina virus 1) 189 189 3p06-a2-m1-cA_3p06-a2-m2-cA 3p06-a3-m1-cA_3p06-a3-m2-cA NGVELSAVGVLLPVLDSGRRISGGAFAVKGDLSEHIKNPKNTRIAQTVAGGTIYGLSEVNIDEAEKLPIKGAITVLPVVQATATSILVPDNQPQLAFNSWEAAACAADTLESQQTPFLVTGAVESGNLSPNLLAVQKQLLVAKPAGIGLAANSDRALKVVTLEQLRQVVGDKPWRKPVTFSSGKNVAQA NGVELSAVGVLLPVLDSGRRISGGAFAVKGDLSEHIKNPKNTRIAQTVAGGTIYGLSEVNIDEAEKLPIKGAITVLPVVQATATSILVPDNQPQLAFNSWEAAACAADTLESQQTPFLVTGAVESGNLSPNLLAVQKQLLVAKPAGIGLAANSDRALKVVTLEQLRQVVGDKPWRKPVTFSSGKNVAQA 3p09-a3-m1-cA_3p09-a3-m2-cB Crystal Structure of Beta-Lactamase from Francisella tularensis Q5NH60 Q5NH60 1.898 X-RAY DIFFRACTION 24 0.996 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 262 262 3p09-a3-m1-cB_3p09-a3-m2-cA QLDDSFKNLENKYDGKIGIYTLNTNIKYNESYHFPICSVFKFLLVGAILDYDHNQGFLDKKIPINQDDIGKLGYAPITAKNVGKTLTISQLNYAAILSDSPASNILVRELGGLQNLNKFIKKLGDNDTIITADEPEINYTQPHSNINKTTPKAITKDIYKLAFGNILDKKHKDIFIKYLQDNNTGANRIAFSPKDWIIGDKTGTCGQYAATNDVAIIWPKNQQPIALGILYTNPNDKNAPSNEEIIQQAAKLIANDLTNTYK QLDDSFKNLENKYDGKIGIYTLNTDNIKYNESYHFPICSVFKFLLVGAILDYDHNQGFLDKKIPINQDDIGKLGYAPITAKNVGKTLTISQLNYAAILSDSPASNILVRELGGLQNLNKFIKKLGDNDTIITADEPEINYTQPHSNINKTTPKAITKDIYKLAFGNILDKKHKDIFIKYLQDNNTGANRIAFSPKDWIIGDKTGTCGQYAATNDVAIIWPKNQQPIALGILYTNPNDKNAPSNEEIIQQAAKLIANDLTNTY 3p09-a3-m2-cA_3p09-a3-m2-cB Crystal Structure of Beta-Lactamase from Francisella tularensis Q5NH60 Q5NH60 1.898 X-RAY DIFFRACTION 15 0.996 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 262 262 3p09-a3-m1-cA_3p09-a3-m1-cB QLDDSFKNLENKYDGKIGIYTLNTNIKYNESYHFPICSVFKFLLVGAILDYDHNQGFLDKKIPINQDDIGKLGYAPITAKNVGKTLTISQLNYAAILSDSPASNILVRELGGLQNLNKFIKKLGDNDTIITADEPEINYTQPHSNINKTTPKAITKDIYKLAFGNILDKKHKDIFIKYLQDNNTGANRIAFSPKDWIIGDKTGTCGQYAATNDVAIIWPKNQQPIALGILYTNPNDKNAPSNEEIIQQAAKLIANDLTNTYK QLDDSFKNLENKYDGKIGIYTLNTDNIKYNESYHFPICSVFKFLLVGAILDYDHNQGFLDKKIPINQDDIGKLGYAPITAKNVGKTLTISQLNYAAILSDSPASNILVRELGGLQNLNKFIKKLGDNDTIITADEPEINYTQPHSNINKTTPKAITKDIYKLAFGNILDKKHKDIFIKYLQDNNTGANRIAFSPKDWIIGDKTGTCGQYAATNDVAIIWPKNQQPIALGILYTNPNDKNAPSNEEIIQQAAKLIANDLTNTY 3p0a-a4-m1-cP_3p0a-a4-m1-cQ X-ray structure of pentameric HIV-1 CA P12497 P12497 5.954 X-RAY DIFFRACTION 36 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 197 198 3p0a-a1-m1-cA_3p0a-a1-m1-cB 3p0a-a1-m1-cA_3p0a-a1-m1-cE 3p0a-a1-m1-cB_3p0a-a1-m1-cC 3p0a-a1-m1-cC_3p0a-a1-m1-cD 3p0a-a1-m1-cE_3p0a-a1-m1-cD 3p0a-a2-m1-cF_3p0a-a2-m1-cG 3p0a-a2-m1-cF_3p0a-a2-m1-cJ 3p0a-a2-m1-cG_3p0a-a2-m1-cH 3p0a-a2-m1-cH_3p0a-a2-m1-cI 3p0a-a2-m1-cJ_3p0a-a2-m1-cI 3p0a-a3-m1-cK_3p0a-a3-m1-cL 3p0a-a3-m1-cK_3p0a-a3-m1-cO 3p0a-a3-m1-cL_3p0a-a3-m1-cM 3p0a-a3-m1-cM_3p0a-a3-m1-cN 3p0a-a3-m1-cO_3p0a-a3-m1-cN 3p0a-a4-m1-cP_3p0a-a4-m1-cT 3p0a-a4-m1-cQ_3p0a-a4-m1-cR 3p0a-a4-m1-cR_3p0a-a4-m1-cS 3p0a-a4-m1-cT_3p0a-a4-m1-cS 4u0b-a1-m1-cC_4u0b-a1-m1-cD 4u0b-a1-m1-cE_4u0b-a1-m1-cF 4u0b-a2-m1-cG_4u0b-a2-m1-cH 4u0b-a2-m1-cG_4u0b-a2-m1-cL 4u0b-a2-m1-cK_4u0b-a2-m1-cJ PIHQAISCLCLNAWVKVVEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHPPRGSDIAGTTSTLQEQIGWMTHNPPIPVGEIYKRWIILGLNKIVRMYSPTSILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKNAATETLLVQNANPDCKTILKALGPGATLEEMMTACQ PIVHQAISCLCLNAWVKVVEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHPPRGSDIAGTTSTLQEQIGWMTHNPPIPVGEIYKRWIILGLNKIVRMYSPTSILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKNAATETLLVQNANPDCKTILKALGPGATLEEMMTACQ 3p0c-a3-m2-cB_3p0c-a3-m1-cA Nischarin PX-domain Q9Y2I1 Q9Y2I1 2.273 X-RAY DIFFRACTION 26 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 108 111 SMEARVVGSELVDTYTVYIIQVTDGSHEWTVKHRYSDFHDLHEKLVAERKIDKNLLPPKKIIGKNSRSLVEKREKDLEVYLQKLLAAFPGVTPRVLAHFLHFHFYEIN NLYFQSMEARVVGSELVDTYTVYIIQVTDGSHEWTVKHRYSDFHDLHEKLVAERKIDKNLLPPKKIIGKNSRSLVEKREKDLEVYLQKLLAAFPGVTPRVLAHFLHFHFYE 3p0e-a1-m1-cA_3p0e-a1-m1-cB Structure of hUPP2 in an active conformation with bound 5-benzylacyclouridine O95045 O95045 2 X-RAY DIFFRACTION 196 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 285 2xrf-a1-m1-cA_2xrf-a1-m2-cA 2xrf-a2-m1-cC_2xrf-a2-m1-cB 3p0e-a2-m1-cD_3p0e-a2-m1-cC 3p0e-a3-m1-cF_3p0e-a3-m1-cE 3p0f-a1-m1-cA_3p0f-a1-m2-cA FVHVKNPYLDLMDEDILYHLDLGTKTHNLPAMFGDVKFVCVGGSPNRMKAFALFMHKELGFIKDICAGTDRYCMYKTGPVLAISHGMGIPSISIMLHELIKLLHHARCCDVTIIRIGTSGGIGIAPGTVVITDIAVDSFFKPRFEQVILDNIVTRSTELDKELSEELFNCSKEIPNFPTLVGHTMCTYDFYEGQGRLDGALCSFSREKKLDYLKRAFKAGVRNIEMESTVFAAMCGLCGLKAAVVCVTLLDRLDCDQINLPHDVLVEYQQRPQLLISNFIRRRLG FVHVKNPYLDLMDEDILYHLDLGTKTHNLPAMFGDVKFVCVGGSPNRMKAFALFMHKELGFIKDICAGTDRYCMYKTGPVLAISHGMGIPSISIMLHELIKLLHHARCCDVTIIRIGTSGGIGIAPGTVVITDIAVDSFFKPRFEQVILDNIVTRSTELDKELSEELFNCSKEIPNFPTLVGHTMCTYDFYEGQGRLDGALCSFSREKKLDYLKRAFKAGVRNIEMESTVFAAMCGLCGLKAAVVCVTLLDRLDCDQINLPHDVLVEYQQRPQLLISNFIRRRLG 3p0s-a1-m54-cA_3p0s-a1-m9-cA Crystal structure of Bombyx mori densovirus 1 capsid Q8V0M6 Q8V0M6 3.1 X-RAY DIFFRACTION 219 1.0 46253 (Bombyx mori densovirus 1) 46253 (Bombyx mori densovirus 1) 412 412 3p0s-a1-m10-cA_3p0s-a1-m23-cA 3p0s-a1-m11-cA_3p0s-a1-m20-cA 3p0s-a1-m11-cA_3p0s-a1-m38-cA 3p0s-a1-m12-cA_3p0s-a1-m37-cA 3p0s-a1-m12-cA_3p0s-a1-m47-cA 3p0s-a1-m13-cA_3p0s-a1-m45-cA 3p0s-a1-m13-cA_3p0s-a1-m46-cA 3p0s-a1-m14-cA_3p0s-a1-m29-cA 3p0s-a1-m14-cA_3p0s-a1-m44-cA 3p0s-a1-m15-cA_3p0s-a1-m16-cA 3p0s-a1-m15-cA_3p0s-a1-m28-cA 3p0s-a1-m16-cA_3p0s-a1-m28-cA 3p0s-a1-m17-cA_3p0s-a1-m27-cA 3p0s-a1-m17-cA_3p0s-a1-m52-cA 3p0s-a1-m18-cA_3p0s-a1-m51-cA 3p0s-a1-m18-cA_3p0s-a1-m60-cA 3p0s-a1-m19-cA_3p0s-a1-m39-cA 3p0s-a1-m19-cA_3p0s-a1-m59-cA 3p0s-a1-m1-cA_3p0s-a1-m10-cA 3p0s-a1-m1-cA_3p0s-a1-m23-cA 3p0s-a1-m20-cA_3p0s-a1-m38-cA 3p0s-a1-m21-cA_3p0s-a1-m30-cA 3p0s-a1-m21-cA_3p0s-a1-m43-cA 3p0s-a1-m22-cA_3p0s-a1-m42-cA 3p0s-a1-m24-cA_3p0s-a1-m54-cA 3p0s-a1-m24-cA_3p0s-a1-m9-cA 3p0s-a1-m25-cA_3p0s-a1-m26-cA 3p0s-a1-m25-cA_3p0s-a1-m53-cA 3p0s-a1-m26-cA_3p0s-a1-m53-cA 3p0s-a1-m27-cA_3p0s-a1-m52-cA 3p0s-a1-m29-cA_3p0s-a1-m44-cA 3p0s-a1-m2-cA_3p0s-a1-m22-cA 3p0s-a1-m2-cA_3p0s-a1-m42-cA 3p0s-a1-m30-cA_3p0s-a1-m43-cA 3p0s-a1-m31-cA_3p0s-a1-m40-cA 3p0s-a1-m31-cA_3p0s-a1-m58-cA 3p0s-a1-m32-cA_3p0s-a1-m57-cA 3p0s-a1-m32-cA_3p0s-a1-m7-cA 3p0s-a1-m33-cA_3p0s-a1-m5-cA 3p0s-a1-m33-cA_3p0s-a1-m6-cA 3p0s-a1-m34-cA_3p0s-a1-m49-cA 3p0s-a1-m34-cA_3p0s-a1-m4-cA 3p0s-a1-m35-cA_3p0s-a1-m36-cA 3p0s-a1-m35-cA_3p0s-a1-m48-cA 3p0s-a1-m36-cA_3p0s-a1-m48-cA 3p0s-a1-m37-cA_3p0s-a1-m47-cA 3p0s-a1-m39-cA_3p0s-a1-m59-cA 3p0s-a1-m3-cA_3p0s-a1-m41-cA 3p0s-a1-m3-cA_3p0s-a1-m50-cA 3p0s-a1-m40-cA_3p0s-a1-m58-cA 3p0s-a1-m41-cA_3p0s-a1-m50-cA 3p0s-a1-m45-cA_3p0s-a1-m46-cA 3p0s-a1-m4-cA_3p0s-a1-m49-cA 3p0s-a1-m51-cA_3p0s-a1-m60-cA 3p0s-a1-m55-cA_3p0s-a1-m56-cA 3p0s-a1-m55-cA_3p0s-a1-m8-cA 3p0s-a1-m56-cA_3p0s-a1-m8-cA 3p0s-a1-m57-cA_3p0s-a1-m7-cA 3p0s-a1-m5-cA_3p0s-a1-m6-cA ANDGRQDIFSGAPQPNQHHTLVYGKSYHFTITNGLPEFRHLATTNSGYYAQQRFKHIHGIPWERLLMYVSEGELLRMFRDYTSLKVEEVVCEVYSLGVRLPFVTSATTSSVANANAQYPIGCFHFDEAYETNYGINNVADIINKALGTEWKNATRPTAAVTTAWSEQFPNISASSTSRDINNPVIVDYSLPYFENNVPKDVGIYDYVDIKNGTTAYGKCWEKRFKPTNGLLYAESTLKGNVVTPLAAQPTNIMTPIPGLENGYFMSNDQIRERRDLTTSVPPVALTATKLNQSASNNLNAFVDYMGYNYFGEQKCAPQSMPKFMIGFVNIRNEDNSLLNAKWDILIKTRIRLTGLQSTREWVARTDRIPPQYFTSQYTQFRYPNINETPLLRSLGTFKLPTKRPGMDSRIAA ANDGRQDIFSGAPQPNQHHTLVYGKSYHFTITNGLPEFRHLATTNSGYYAQQRFKHIHGIPWERLLMYVSEGELLRMFRDYTSLKVEEVVCEVYSLGVRLPFVTSATTSSVANANAQYPIGCFHFDEAYETNYGINNVADIINKALGTEWKNATRPTAAVTTAWSEQFPNISASSTSRDINNPVIVDYSLPYFENNVPKDVGIYDYVDIKNGTTAYGKCWEKRFKPTNGLLYAESTLKGNVVTPLAAQPTNIMTPIPGLENGYFMSNDQIRERRDLTTSVPPVALTATKLNQSASNNLNAFVDYMGYNYFGEQKCAPQSMPKFMIGFVNIRNEDNSLLNAKWDILIKTRIRLTGLQSTREWVARTDRIPPQYFTSQYTQFRYPNINETPLLRSLGTFKLPTKRPGMDSRIAA 3p0s-a1-m55-cA_3p0s-a1-m9-cA Crystal structure of Bombyx mori densovirus 1 capsid Q8V0M6 Q8V0M6 3.1 X-RAY DIFFRACTION 92 1.0 46253 (Bombyx mori densovirus 1) 46253 (Bombyx mori densovirus 1) 412 412 3p0s-a1-m10-cA_3p0s-a1-m24-cA 3p0s-a1-m11-cA_3p0s-a1-m16-cA 3p0s-a1-m12-cA_3p0s-a1-m38-cA 3p0s-a1-m13-cA_3p0s-a1-m47-cA 3p0s-a1-m14-cA_3p0s-a1-m45-cA 3p0s-a1-m15-cA_3p0s-a1-m29-cA 3p0s-a1-m17-cA_3p0s-a1-m28-cA 3p0s-a1-m18-cA_3p0s-a1-m52-cA 3p0s-a1-m19-cA_3p0s-a1-m60-cA 3p0s-a1-m1-cA_3p0s-a1-m6-cA 3p0s-a1-m20-cA_3p0s-a1-m39-cA 3p0s-a1-m21-cA_3p0s-a1-m26-cA 3p0s-a1-m22-cA_3p0s-a1-m43-cA 3p0s-a1-m25-cA_3p0s-a1-m54-cA 3p0s-a1-m27-cA_3p0s-a1-m53-cA 3p0s-a1-m2-cA_3p0s-a1-m23-cA 3p0s-a1-m30-cA_3p0s-a1-m44-cA 3p0s-a1-m31-cA_3p0s-a1-m36-cA 3p0s-a1-m32-cA_3p0s-a1-m58-cA 3p0s-a1-m33-cA_3p0s-a1-m7-cA 3p0s-a1-m34-cA_3p0s-a1-m5-cA 3p0s-a1-m35-cA_3p0s-a1-m49-cA 3p0s-a1-m37-cA_3p0s-a1-m48-cA 3p0s-a1-m3-cA_3p0s-a1-m42-cA 3p0s-a1-m40-cA_3p0s-a1-m59-cA 3p0s-a1-m41-cA_3p0s-a1-m46-cA 3p0s-a1-m4-cA_3p0s-a1-m50-cA 3p0s-a1-m51-cA_3p0s-a1-m56-cA 3p0s-a1-m57-cA_3p0s-a1-m8-cA ANDGRQDIFSGAPQPNQHHTLVYGKSYHFTITNGLPEFRHLATTNSGYYAQQRFKHIHGIPWERLLMYVSEGELLRMFRDYTSLKVEEVVCEVYSLGVRLPFVTSATTSSVANANAQYPIGCFHFDEAYETNYGINNVADIINKALGTEWKNATRPTAAVTTAWSEQFPNISASSTSRDINNPVIVDYSLPYFENNVPKDVGIYDYVDIKNGTTAYGKCWEKRFKPTNGLLYAESTLKGNVVTPLAAQPTNIMTPIPGLENGYFMSNDQIRERRDLTTSVPPVALTATKLNQSASNNLNAFVDYMGYNYFGEQKCAPQSMPKFMIGFVNIRNEDNSLLNAKWDILIKTRIRLTGLQSTREWVARTDRIPPQYFTSQYTQFRYPNINETPLLRSLGTFKLPTKRPGMDSRIAA ANDGRQDIFSGAPQPNQHHTLVYGKSYHFTITNGLPEFRHLATTNSGYYAQQRFKHIHGIPWERLLMYVSEGELLRMFRDYTSLKVEEVVCEVYSLGVRLPFVTSATTSSVANANAQYPIGCFHFDEAYETNYGINNVADIINKALGTEWKNATRPTAAVTTAWSEQFPNISASSTSRDINNPVIVDYSLPYFENNVPKDVGIYDYVDIKNGTTAYGKCWEKRFKPTNGLLYAESTLKGNVVTPLAAQPTNIMTPIPGLENGYFMSNDQIRERRDLTTSVPPVALTATKLNQSASNNLNAFVDYMGYNYFGEQKCAPQSMPKFMIGFVNIRNEDNSLLNAKWDILIKTRIRLTGLQSTREWVARTDRIPPQYFTSQYTQFRYPNINETPLLRSLGTFKLPTKRPGMDSRIAA 3p0s-a1-m8-cA_3p0s-a1-m9-cA Crystal structure of Bombyx mori densovirus 1 capsid Q8V0M6 Q8V0M6 3.1 X-RAY DIFFRACTION 153 1.0 46253 (Bombyx mori densovirus 1) 46253 (Bombyx mori densovirus 1) 412 412 3p0s-a1-m10-cA_3p0s-a1-m6-cA 3p0s-a1-m10-cA_3p0s-a1-m9-cA 3p0s-a1-m11-cA_3p0s-a1-m12-cA 3p0s-a1-m11-cA_3p0s-a1-m15-cA 3p0s-a1-m12-cA_3p0s-a1-m13-cA 3p0s-a1-m13-cA_3p0s-a1-m14-cA 3p0s-a1-m14-cA_3p0s-a1-m15-cA 3p0s-a1-m16-cA_3p0s-a1-m17-cA 3p0s-a1-m16-cA_3p0s-a1-m20-cA 3p0s-a1-m17-cA_3p0s-a1-m18-cA 3p0s-a1-m18-cA_3p0s-a1-m19-cA 3p0s-a1-m19-cA_3p0s-a1-m20-cA 3p0s-a1-m1-cA_3p0s-a1-m2-cA 3p0s-a1-m1-cA_3p0s-a1-m5-cA 3p0s-a1-m21-cA_3p0s-a1-m22-cA 3p0s-a1-m21-cA_3p0s-a1-m25-cA 3p0s-a1-m22-cA_3p0s-a1-m23-cA 3p0s-a1-m23-cA_3p0s-a1-m24-cA 3p0s-a1-m24-cA_3p0s-a1-m25-cA 3p0s-a1-m26-cA_3p0s-a1-m27-cA 3p0s-a1-m26-cA_3p0s-a1-m30-cA 3p0s-a1-m27-cA_3p0s-a1-m28-cA 3p0s-a1-m28-cA_3p0s-a1-m29-cA 3p0s-a1-m29-cA_3p0s-a1-m30-cA 3p0s-a1-m2-cA_3p0s-a1-m3-cA 3p0s-a1-m31-cA_3p0s-a1-m32-cA 3p0s-a1-m31-cA_3p0s-a1-m35-cA 3p0s-a1-m32-cA_3p0s-a1-m33-cA 3p0s-a1-m33-cA_3p0s-a1-m34-cA 3p0s-a1-m34-cA_3p0s-a1-m35-cA 3p0s-a1-m36-cA_3p0s-a1-m37-cA 3p0s-a1-m36-cA_3p0s-a1-m40-cA 3p0s-a1-m37-cA_3p0s-a1-m38-cA 3p0s-a1-m38-cA_3p0s-a1-m39-cA 3p0s-a1-m39-cA_3p0s-a1-m40-cA 3p0s-a1-m3-cA_3p0s-a1-m4-cA 3p0s-a1-m41-cA_3p0s-a1-m42-cA 3p0s-a1-m41-cA_3p0s-a1-m45-cA 3p0s-a1-m42-cA_3p0s-a1-m43-cA 3p0s-a1-m43-cA_3p0s-a1-m44-cA 3p0s-a1-m44-cA_3p0s-a1-m45-cA 3p0s-a1-m46-cA_3p0s-a1-m47-cA 3p0s-a1-m46-cA_3p0s-a1-m50-cA 3p0s-a1-m47-cA_3p0s-a1-m48-cA 3p0s-a1-m48-cA_3p0s-a1-m49-cA 3p0s-a1-m49-cA_3p0s-a1-m50-cA 3p0s-a1-m4-cA_3p0s-a1-m5-cA 3p0s-a1-m51-cA_3p0s-a1-m52-cA 3p0s-a1-m51-cA_3p0s-a1-m55-cA 3p0s-a1-m52-cA_3p0s-a1-m53-cA 3p0s-a1-m53-cA_3p0s-a1-m54-cA 3p0s-a1-m54-cA_3p0s-a1-m55-cA 3p0s-a1-m56-cA_3p0s-a1-m57-cA 3p0s-a1-m56-cA_3p0s-a1-m60-cA 3p0s-a1-m57-cA_3p0s-a1-m58-cA 3p0s-a1-m58-cA_3p0s-a1-m59-cA 3p0s-a1-m59-cA_3p0s-a1-m60-cA 3p0s-a1-m6-cA_3p0s-a1-m7-cA 3p0s-a1-m7-cA_3p0s-a1-m8-cA ANDGRQDIFSGAPQPNQHHTLVYGKSYHFTITNGLPEFRHLATTNSGYYAQQRFKHIHGIPWERLLMYVSEGELLRMFRDYTSLKVEEVVCEVYSLGVRLPFVTSATTSSVANANAQYPIGCFHFDEAYETNYGINNVADIINKALGTEWKNATRPTAAVTTAWSEQFPNISASSTSRDINNPVIVDYSLPYFENNVPKDVGIYDYVDIKNGTTAYGKCWEKRFKPTNGLLYAESTLKGNVVTPLAAQPTNIMTPIPGLENGYFMSNDQIRERRDLTTSVPPVALTATKLNQSASNNLNAFVDYMGYNYFGEQKCAPQSMPKFMIGFVNIRNEDNSLLNAKWDILIKTRIRLTGLQSTREWVARTDRIPPQYFTSQYTQFRYPNINETPLLRSLGTFKLPTKRPGMDSRIAA ANDGRQDIFSGAPQPNQHHTLVYGKSYHFTITNGLPEFRHLATTNSGYYAQQRFKHIHGIPWERLLMYVSEGELLRMFRDYTSLKVEEVVCEVYSLGVRLPFVTSATTSSVANANAQYPIGCFHFDEAYETNYGINNVADIINKALGTEWKNATRPTAAVTTAWSEQFPNISASSTSRDINNPVIVDYSLPYFENNVPKDVGIYDYVDIKNGTTAYGKCWEKRFKPTNGLLYAESTLKGNVVTPLAAQPTNIMTPIPGLENGYFMSNDQIRERRDLTTSVPPVALTATKLNQSASNNLNAFVDYMGYNYFGEQKCAPQSMPKFMIGFVNIRNEDNSLLNAKWDILIKTRIRLTGLQSTREWVARTDRIPPQYFTSQYTQFRYPNINETPLLRSLGTFKLPTKRPGMDSRIAA 3p0t-a1-m1-cA_3p0t-a1-m1-cB Crystal structure of an HIT-like protein from mycobacterium paratuberculosis Q743J2 Q743J2 1.9 X-RAY DIFFRACTION 100 1.0 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 136 136 GSMASIFTKIINRELPGRFVYEDDDVVAFLTIEPMTQGHTLVVPREEIDNWQDVDSAAFNRVMGVSQLIGKAVCKAFRTERSGLIIAGLEVPHLHVHVFPTRSLSDFGFANVDRNPSPESLDEAQAKIKAALAQLA GSMASIFTKIINRELPGRFVYEDDDVVAFLTIEPMTQGHTLVVPREEIDNWQDVDSAAFNRVMGVSQLIGKAVCKAFRTERSGLIIAGLEVPHLHVHVFPTRSLSDFGFANVDRNPSPESLDEAQAKIKAALAQLA 3p0w-a2-m1-cC_3p0w-a2-m1-cD Crystal structure of D-Glucarate dehydratase from Ralstonia solanacearum complexed with Mg and D-glucarate B2UIZ1 B2UIZ1 1.71 X-RAY DIFFRACTION 84 1.0 402626 (Ralstonia pickettii 12J) 402626 (Ralstonia pickettii 12J) 421 425 3p0w-a1-m1-cA_3p0w-a1-m1-cB HTPRVTEMQVIPVAGRDSMLLNLCGAHAPFFTRNLVILKDNAGRTGVGEVPGGEGIRQALERVIPLVVGQSIGRTNGVLSSIRRALARMDNVITAVEAALLDLLGQFLEVPVAELLGAGQQRDSAPMLAYLFYVGDRRKTDLPYLEGADDWLRLRHEAAMTPAAIARLAEAATERYGFADFKLKGGVMPGAEEMEAIAAIKARFPHARVTLDPNGAWSLNEAIALCKGQGHLVAYAEDPCGPEAGYSGREVMAEFKRATGIPTATNMIATDWRQMGHAVQLHAVDIPLADPHFWTMQGSVRVAQLCDEWGLTWGSHSNNHFDVSLAMFTHVAAAAPGNITAIDTHWIWQEAQERLTREPLRIQGGHVAVPERPGLGIEIDMDRVMAAHALYKTLGPGARDDAMAMQYLVPGWTYDPKRPSL THTPRVTEMQVIPVAGRDSMLLNLCGAHAPFFTRNLVILKDNAGRTGVGEVPGGEGIRQALERVIPLVVGQSIGRTNGVLSSIRRALARMDNVITAVEAALLDLLGQFLEVPVAELLGAGQQRDSAPMLAYLFYVGDRRKTDLPYLEGANGADDWLRLRHEAAMTPAAIARLAEAATERYGFADFKLKGGVMPGAEEMEAIAAIKARFPHARVTLDPNGAWSLNEAIALCKGQGHLVAYAEDPCGPEAGYSGREVMAEFKRATGIPTATNMIATDWRQMGHAVQLHAVDIPLADPHFWTMQGSVRVAQLCDEWGLTWGSHSNNHFDVSLAMFTHVAAAAPGNITAIDTHWIWQEAQERLTREPLRIQGGHVAVPERPGLGIEIDMDRVMAAHALYKTLGPGARDDAMAMQYLVPGWTYDPKRPSL 3p13-a2-m1-cB_3p13-a2-m1-cC Complex Structure of D-ribose Pyranase Sa240 with D-ribose Q2G1A5 Q2G1A5 2.35 X-RAY DIFFRACTION 60 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 129 130 3p12-a1-m1-cD_3p12-a1-m1-cA 3p12-a2-m1-cB_3p12-a2-m1-cC 3p13-a1-m1-cD_3p13-a1-m1-cA AVLNEHISKAIATIGHFDLLTINDAGMPIPNDHRRIDLAVTKNLPRFIDVLATVLEEMEIQKIYLAEEIKEHNPTQLQQIKQLISSEIEIIFIPHEEMKSNLAHPLNKGNIRTGETTPYSNIALESNVT AVLNEHISKAIATIGHFDLLTINDAGMPIPNDHRRIDLAVTKNLPRFIDVLATVLEEMEIQKIYLAEEIKEHNPTQLQQIKQLISSEIEIIFIPHEEMKSNLAHPLNKGNIRTGETTPYSNIALESNVTF 3p14-a1-m1-cA_3p14-a1-m1-cC Crystal structure of L-rhamnose isomerase with a novel high thermo-stability from Bacillus halodurans Q9KCL9 Q9KCL9 2.51 X-RAY DIFFRACTION 141 0.998 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 402 402 3p14-a2-m1-cD_3p14-a2-m1-cB 3uu0-a1-m1-cA_3uu0-a1-m1-cC 3uu0-a2-m1-cB_3uu0-a2-m1-cD 3uva-a1-m1-cA_3uva-a1-m1-cC 3uva-a2-m1-cD_3uva-a2-m1-cB 3uxi-a1-m1-cA_3uxi-a1-m1-cB 3uxi-a1-m1-cC_3uxi-a1-m1-cD KSQFERAKIEYGQWGIDVEEALERLKQVPISIHCWQGDDVGGFELGDYPGKATTPEELRMDLEKALSLIPGKHRVNLHAIYAETDGKVVERDQLEPRHFEKWVRWAKRHGLGLDFNPTLFSHEKAKDGLTLAHPDQAIRQFWIDHCIASRKIGEYFGKELETPCLTNIWIPDGYKDTPSDRLTPRKRLKESLDQIFAAEINEAYNLDAVESKLFGIGSESYVVGSHEFYLSYALKNDKLCLLDTGHYHPTETVSNKISAMLLFHDKLALHVSRPVRWDSDHVVTFDDELREIALEIVRNDALDRVLIGLDFFDASINRIAAWTIGTRNVIKALLFAMLIPHKQLKEWQETGDYTRRLAVLEEFKTYPLGAIWNEYCERMNVPIKEEWLKEIAIYEKEVLLQR MKSQFERAKIEYGQWGIDVEEALERLKQVPISIHCWQGDDVGGFELDYPGKATTPEELRMDLEKALSLIPGKHRVNLHAIYAETDGKVVERDQLEPRHFEKWVRWAKRHGLGLDFNPTLFSHEKAKDGLTLAHPDQAIRQFWIDHCIASRKIGEYFGKELETPCLTNIWIPDGYKDTPSDRLTPRKRLKESLDQIFAAEINEAYNLDAVESKLFGIGSESYVVGSHEFYLSYALKNDKLCLLDTGHYHPTETVSNKISAMLLFHDKLALHVSRPVRWDSDHVVTFDDELREIALEIVRNDALDRVLIGLDFFDASINRIAAWTIGTRNVIKALLFAMLIPHKQLKEWQETGDYTRRLAVLEEFKTYPLGAIWNEYCERMNVPIKEEWLKEIAIYEKEVLLQR 3p19-a1-m1-cB_3p19-a1-m1-cD Improved NADPH-dependent Blue Fluorescent Protein Q9F172 Q9F172 2.05 X-RAY DIFFRACTION 81 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 218 238 3p19-a1-m1-cC_3p19-a1-m1-cA KKLVVITGASSGIGEAIARRFSEEGHPLLLLARRVERLKALNLPNTLCAQVDVTDKYTFDTAITRAEKIYGPADAIVNNAGMMLLGQIDTQEANEWQRMFDVNVLGLLNGMQAVLAPMKARNCGTIINISSIAGKKTFPDHAAYCGTKFAVHAISENVREEVAASNVRVMTIAPSAVKTELLSGGVLAADDVARAVLFAYQQPQNVCIREIALAPTKQ KKLVVITGASSGIGEAIARRFSEEGHPLLLLARRVERLKALNLPNTLCAQVDVTDKYTFDTAITRAEKIYGPADAIVNNAGMMLLGQIDTQEANEWQRMFDVNVLGLLNGMQAVLAPMKARNCGTIINISSIAGKKTFPDHAAYCGTKFAVHAISENVREEVAASNVRVMTIAPSAVKTELLSHTTSQQIKDGYDAWRVDMGGVLAADDVARAVLFAYQQPQNVCIREIALAPTKQQP 3p19-a3-m1-cC_3p19-a3-m1-cD Improved NADPH-dependent Blue Fluorescent Protein Q9F172 Q9F172 2.05 X-RAY DIFFRACTION 127 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 218 238 3p19-a1-m1-cB_3p19-a1-m1-cA 3p19-a1-m1-cC_3p19-a1-m1-cD 3p19-a2-m1-cB_3p19-a2-m1-cA KKLVVITGASSGIGEAIARRFSEEGHPLLLLARRVERLKALNLPNTLCAQVDVTDKYTFDTAITRAEKIYGPADAIVNNAGMMLLGQIDTQEANEWQRMFDVNVLGLLNGMQAVLAPMKARNCGTIINISSIAGKKTFPDHAAYCGTKFAVHAISENVREEVAASNVRVMTIAPSAVKTELLSGGVLAADDVARAVLFAYQQPQNVCIREIALAPTKQ KKLVVITGASSGIGEAIARRFSEEGHPLLLLARRVERLKALNLPNTLCAQVDVTDKYTFDTAITRAEKIYGPADAIVNNAGMMLLGQIDTQEANEWQRMFDVNVLGLLNGMQAVLAPMKARNCGTIINISSIAGKKTFPDHAAYCGTKFAVHAISENVREEVAASNVRVMTIAPSAVKTELLSHTTSQQIKDGYDAWRVDMGGVLAADDVARAVLFAYQQPQNVCIREIALAPTKQQP 3p1j-a1-m1-cA_3p1j-a1-m1-cD Crystal structure of human GTPase IMAP family member 2 in the nucleotide-free state Q9UG22 Q9UG22 2.58 X-RAY DIFFRACTION 59 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 190 193 SELRIILVGKTGTGKSAAGNSILRKQAFTLTKTCSKSQGSWGNREIVIIDTPDMFSWKDHCEALYKEVQRCYLLSAPGPHVLLLVTQLGRYTSQDQQAAQRVKEIFGEDAMGHTIVLFTHKGSLMDYMHDSDNKALSKLVAACGGRICAFNNGSNQDDQVKELMDCIEDLLMEKNGDHYTNGLYSLIQRS SELRIILVGKTGTGKSAAGNSILRKQAFESTLTKTCSKSQGSWGNREIVIIDTPDMFSWKDHCEALYKEVQRCYLLSAPGPHVLLLVTQLGRYTSQDQQAAQRVKEIFGEDAMGHTIVLFTHSLMDYMHDSDNKALSKLVAACGGRICAFNNRAEGSNQDDQVKELMDCIEDLLMEKNGDHYTNGLYSLIQRS 3p1t-a2-m1-cD_3p1t-a2-m1-cC Crystal structure of a putative aminotransferase (BPSL1724) from Burkholderia pseudomallei K96243 at 2.60 A resolution Q63U92 Q63U92 2.6 X-RAY DIFFRACTION 138 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 313 317 3p1t-a1-m1-cB_3p1t-a1-m1-cA AVCLAFNENPEAVEPRVQAAIAAAAARINRYPFDAEPRVRKLAEHFSCPEDNLLVRGIDECFDRISAEFSSRFVTAWPGFDGYRARIAVSGLRHFEIGLTDDLLLDPNDLAQVSRDDCVVLANPSNPTGQALSAGELDQLRQRAGKLLIDETYVDYSSFRARGLAYGENELVFRSFSKSYGLAGLRLGALFGPSELIAAKRKQWFCNVGTLDLHALEAALDNDRAREAHIAKTLAQRRRVADALRGLGYRVASSEANFVLVENAAGERTLRFLRERGIQVKDAGQFGLHHHIRISIGREEDNDRLLAALAEYS AAQAVCLAFNENPEAVEPRVQAAIAAAAARINRYPFDAEPRVRKLAEHFSCPEDNLLVRGIDECFDRISAEFSSRFVTAWPGFDGYRARIAVSGLRHFEIGLTDDLLLDPNDLAQVSRDDCVVLANPSNPTGQALSAGELDQLRQRAGKLLIDETYVDYSSFRARGLAYGENELVFRSFSKSYGLAGLRLGALFGPSELIAAKRKQWFCNVGTLDLHALEAALDNDRAREAHIAKTLAQRRRVADALRGLGYRVASSEANFVLVENAAGERTLRFLRERGIQVKDAGQFGLHHHIRISIGREEDNDRLLAALAEYSD 3p1v-a1-m1-cB_3p1v-a1-m1-cA Crystal structure of a metallo-endopeptidases (BACOVA_00663) from Bacteroides ovatus at 1.93 A resolution A7LS78 A7LS78 1.93 X-RAY DIFFRACTION 82 0.997 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 396 397 GQNFADYFQNKTLRVDYIFTGDATQQAIYLDELSQLPTWAGRQHHLSELPLEGNGQIIVKDLASKQCIYQTSFSSLFQEWLSTDEAKETAKGFENTFLLPYPKQPVEVEVTLYSPRKKTATYKHIVRPDDILIHKRGVSHITPHRYLQSGNEKDCIDVAILAEGYTEKEDVFYQDAQRTCESLFSYEPFRSKSKFNIVAVASPSTDSGVSVPRENQWKQTAVHSHFDTFYSDRYLTTSRVKSVHNALAGIPYEHIIILANTDVYGGGGIYNSYTLTTAHHPFKPVVVHEFGHSFGGLADEYFYDNDVTYPLDVEPWEQNISTRVNFASKWKDLPSGAPIPTPIAEKKKYPVGVYEGGGYSAKGIYRPAYDCRKTNEYPEFCPVCQRAIRRIEFYVP QNFADYFQNKTLRVDYIFTGDATQQAIYLDELSQLPTWAGRQHHLSELPLEGNGQIIVKDLASKQCIYQTSFSSLFQEWLSTDEAKETAKGFENTFLLPYPKQPVEVEVTLYSPRKKTATYKHIVRPDDILIHKRGVSHITPHRYLQSGNEKDCIDVAILAEGYTEKEDVFYQDAQRTCESLFSYEPFRSKSKFNIVAVASPSTDSGVSVPRENQWKQTAVHSHFDTFYSDRYLTTSRVKSVHNALAGIPYEHIIILANTDVYGGGGIYNSYTLTTAHHPFKPVVVHEFGHSFGGLADEYFYDNDVTDTYPLDVEPWEQNISTRVNFASKWKDLPSGAPIPTPIAEKKKYPVGVYEGGGYSAKGIYRPAYDCRKTNEYPEFCPVCQRAIRRIEFYVP 3p1x-a3-m1-cB_3p1x-a3-m1-cA Crystal structure of DRBM 2 domain of Interleukin enhancer-binding factor 3 from Homo sapiens, Northeast Structural Genomics Consortium Target HR4527E Q12906 Q12906 1.9 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 68 GKNPVELNEKRRGLKYELISETGGSHDKRFVEVEVDGQKFQGAGSNKKVAKAYAALAALEKLFP GKNPVELNEKRRGLKYELISETGGSHDKRFVEVEVDGQKFQGAGSNKKVAKAYAALAALEKLFPDTPL 3p2a-a6-m1-cD_3p2a-a6-m1-cB Crystal Structure of Thioredoxin 2 from Yersinia pestis A0A3N4B5I2 A0A3N4B5I2 2.195 X-RAY DIFFRACTION 64 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 136 138 3p2a-a5-m2-cC_3p2a-a5-m1-cA ANTVCTACATNRLPEERIDDGAKCGRCGHSLFDGEVINATAETLDKLLQDDLPVIDFWAPWCGPCRSFAPIFAETAAERAGKVRFVKVNTEAEPALSTRFRIRSIPTILYRNGKIDLNGAVPKAPFDNWLDEQLSR NANTVCTACATNRLPEERIDDGAKCGRCGHSLFDGEVINATAETLDKLLQDDLPVIDFWAPWCGPCRSFAPIFAETAAERAGKVRFVKVNTEAEPALSTRFRIRSIPTILYRNGKIDLNGAVPKAPFDNWLDEQLSRD 3p2c-a1-m1-cA_3p2c-a1-m1-cB Crystal structure of an exo-alpha-1,6-mannosidase (bacova_03347) from bacteroides ovatus at 1.60 a resolution A7LZS1 A7LZS1 1.6 X-RAY DIFFRACTION 99 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 431 431 DNRPEISNRLFRSNAVEKEILRVQKLLKNAKLAWFTNCFPNTLDTTVHFRKGSDGKPDTFVYTGDIHAWLRDSGAQVWPYVQLANSDPELKELAGVILRQFKCINIDPYANAFNDGAIPDGHWSDLTDKPELHERKWEIDSLCYPLRLAYHYWKTTGDASIFNEEWIQAITNVLKTFKEQQRKDGVGPYKFQRKTERALDTVSNDGLGAPVKPVGLIVSSFRPSDDATTLQFLVPSNFFAVSSLRKAAEILEKVNKKTALSKECKDLAQEVETALKKYAVYNHPKYGKIYAFEVDGFGNHHLDDANVPSLLAPYLGDVNVNDPIYQNTRRFVWSEDNPYFFKGKAGEGIGGPHIGYDVWPSIKAFTSQNDAEIKTCIKLDTDAGTGFHESFHKDNPKKFTRAWFAWQNTLFGELILKLVNEGKVDLLNSIQ DNRPEISNRLFRSNAVEKEILRVQKLLKNAKLAWFTNCFPNTLDTTVHFRKGSDGKPDTFVYTGDIHAWLRDSGAQVWPYVQLANSDPELKELAGVILRQFKCINIDPYANAFNDGAIPDGHWSDLTDKPELHERKWEIDSLCYPLRLAYHYWKTTGDASIFNEEWIQAITNVLKTFKEQQRKDGVGPYKFQRKTERALDTVSNDGLGAPVKPVGLIVSSFRPSDDATTLQFLVPSNFFAVSSLRKAAEILEKVNKKTALSKECKDLAQEVETALKKYAVYNHPKYGKIYAFEVDGFGNHHLDDANVPSLLAPYLGDVNVNDPIYQNTRRFVWSEDNPYFFKGKAGEGIGGPHIGYDVWPSIKAFTSQNDAEIKTCIKLDTDAGTGFHESFHKDNPKKFTRAWFAWQNTLFGELILKLVNEGKVDLLNSIQ 3p2n-a1-m1-cA_3p2n-a1-m1-cB Discovery and structural characterization of a new glycoside hydrolase family abundant in coastal waters that was annotated as 'hypothetical protein' F0V1E3 F0V1E3 1.95 X-RAY DIFFRACTION 205 0.997 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 362 362 TFTPEQIDHLGITDTNHLSAASKRALKWPTDLGNEWFIQFGPLQPLKGDLAYEEGVVRRDPSAIIKENGKYYVWYSKSTGPTQGFGGDIEKDKVFPWDRCDIWYATSEDGWTWKEEGPAVTRGEKGAYDDRSVFTVEIMKWEDKYYLCYQTVKSPYNVRVKNQVGLAWADSPDGPWTKSEEPILSPADNGVWKGEEQDRFAVIKKGDFDSHKVHDPCIIPYKGKFYLYYKGEQMGEAITFGGRQIRHGVAIADNPKGPYVKSPYNPISNSGHEICVWPYNGGIASLITTDGPEKNTIQWAPDGINFEIKSVIPGVNAHAIGLNRTADVEKEPTEILRWGLTHIYNNGDYQSIMRFSSERKTR VTFTPEQIDHLGITDTNHLSAASKRALKWPTDLGNEWFIQFGPLQPLKGDLAYEEGVVRRDPSAIIKENGKYYVWYSKSTGPTQGFGGDIEKDKVFPWDRCDIWYATSEDGWTWKEEGPAVTRGEKGAYDDRSVFTVEIMKWEDKYYLCYQTVKSPYNVRVKNQVGLAWADSPDGPWTKSEEPILSPADNGVWKGEEQDRFAVIKKGDFDSHKVHDPCIIPYKGKFYLYYKGEQMGEAITFGGRQIRHGVAIADNPKGPYVKSPYNPISNSGHEICVWPYNGGIASLITTDGPEKNTIQWAPDGINFEIKSVIPGVNAHAIGLNRTADVEKEPTEILRWGLTHIYNNGDYQSIMRFSSERKT 3p2t-a2-m1-cA_3p2t-a2-m2-cA Crystal Structure of Leukocyte Ig-like Receptor LILRB4 (ILT3/LIR-5/CD85k) Q8NHJ6 Q8NHJ6 1.699 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 194 194 PLPKPTLWAEPGSVISWGNSVTIWCQGTLEAREYRLDKEESPAPWDRQNPLEPKNKARFSIPSMTEDYAGRYRCYYRSPVGWSQPSDPLELVMTGAYSKPTLSALPSPLVTSGKSVTLLCQSRSPMDTFLLCKERAAHPLLCLRSEHGAQQHQAEFPMSPVTSVHGGTYRCFSSHGFSHYLLSHPSDPLELIVS PLPKPTLWAEPGSVISWGNSVTIWCQGTLEAREYRLDKEESPAPWDRQNPLEPKNKARFSIPSMTEDYAGRYRCYYRSPVGWSQPSDPLELVMTGAYSKPTLSALPSPLVTSGKSVTLLCQSRSPMDTFLLCKERAAHPLLCLRSEHGAQQHQAEFPMSPVTSVHGGTYRCFSSHGFSHYLLSHPSDPLELIVS 3p2y-a1-m1-cA_3p2y-a1-m2-cA Crystal structure of alanine dehydrogenase/pyridine nucleotide transhydrogenase from Mycobacterium smegmatis A0QNT0 A0QNT0 1.82 X-RAY DIFFRACTION 132 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 345 345 GSMTLIGVPRESAEGERRVALVPKVVEKLSARGLEVVVESAAGAGALFSDADYERAGATIGDPWPADVVVKVNPPTSDEISQLKPGSVLIGFLAPRTQPELASRLRIADVTAFAMESIPRISRAQTMDALSSQANVAGYKAVLLGASLSTRFVPMLTTAAGTVKPASALVLGVGVAGLQALATAKRLGAKTTGYDVRPEVAEQVRSVGAQWLDLGSEAERAQQQQALEDAITKFDIVITTALVPGRPAPRLVTAAAATGMQPGSVVVDLAGETGGNCELTEPGRTIVHHGVTITSPLNLPATMPEHASELYAKNVTALLDLLLTDDGVAPDFTDEIVAASCITRT GSMTLIGVPRESAEGERRVALVPKVVEKLSARGLEVVVESAAGAGALFSDADYERAGATIGDPWPADVVVKVNPPTSDEISQLKPGSVLIGFLAPRTQPELASRLRIADVTAFAMESIPRISRAQTMDALSSQANVAGYKAVLLGASLSTRFVPMLTTAAGTVKPASALVLGVGVAGLQALATAKRLGAKTTGYDVRPEVAEQVRSVGAQWLDLGSEAERAQQQQALEDAITKFDIVITTALVPGRPAPRLVTAAAATGMQPGSVVVDLAGETGGNCELTEPGRTIVHHGVTITSPLNLPATMPEHASELYAKNVTALLDLLLTDDGVAPDFTDEIVAASCITRT 3p32-a1-m1-cA_3p32-a1-m2-cA Hydrolysis of GTP to GDP by an MCM-associated and MeaB- and MMAA-like G-protein from Mycobacterium tuberculosis P9WPZ1 P9WPZ1 1.9 X-RAY DIFFRACTION 153 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 306 306 3md0-a1-m1-cA_3md0-a1-m2-cA 4gt1-a1-m1-cA_4gt1-a1-m2-cA TVDGLATAVRGGDRAALPRAITLVESTRPDHREQAQQLLLRLLPDSGNAHRVGITGVPGVGKSTAIEALGMHLIERGHRVAVLAVDMARLAVHPNAYIRPSPGTLGGVTRATRETVVLLEAAGFDVILIETVGVGQSEVAVANMVDTFVLLTLARTGDQLQGIKKGVLELADIVVVNKADGEHHKEARLAARELSAAIRLIYPREALWRPPVLTMSAVEGRGLAELWDTVERHRQVLTGAGEFDARRRDQQVDWTWQLVRDAVLDRVWSNPTVRKVRSELERRVRAGELTPALAAQQILEIANLTD TVDGLATAVRGGDRAALPRAITLVESTRPDHREQAQQLLLRLLPDSGNAHRVGITGVPGVGKSTAIEALGMHLIERGHRVAVLAVDMARLAVHPNAYIRPSPGTLGGVTRATRETVVLLEAAGFDVILIETVGVGQSEVAVANMVDTFVLLTLARTGDQLQGIKKGVLELADIVVVNKADGEHHKEARLAARELSAAIRLIYPREALWRPPVLTMSAVEGRGLAELWDTVERHRQVLTGAGEFDARRRDQQVDWTWQLVRDAVLDRVWSNPTVRKVRSELERRVRAGELTPALAAQQILEIANLTD 3p3a-a1-m1-cB_3p3a-a1-m1-cA Crystal structure of a putative thiosulfate sulfurtransferase from Mycobacterium thermoresistible E2QRA0 E2QRA0 2.1 X-RAY DIFFRACTION 76 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 286 288 LPADPSPELKQYAHPERLVTADWLASNLGRPGLVIVESDEDVLLYDTGHIPGAVKIDWHTDLNDPAVRDYINGEQFAALMDRKGVTRDDTVVIYGDKSNWWAAYAMWVFHLFGHPDVRLLDGGRDLWVSTGRDTTLEVPTRQTSGYPVVERNDAPIRAFKDDVLRVLGKEPLIDVRSPQEYTGEREEGALRGGHIPTAVSVPWSKAAYDDGRFRARAELEEIYGFVKPDDKPIVYCRIGERSSHTWFVLTYLLGHPNVRNYDGSWTEWGNAVRVPIVVGPEPGEAP LPADPSPELKQYAHPERLVTADWLASNLGRPGLVIVESDEDVLLYDTGHIPGAVKIDWHTDLNDPAVRDYINGEQFAALMDRKGVTRDDTVVIYGDKSNWWAAYAMWVFHLFGHPDVRLLDGGRDLWVSTGRDTTLEVPTRQTSGYPVVERNDAPIRAFKDDVLRVLGKEPLIDVRSPQEYTGERTPEEGALRGGHIPTAVSVPWSKAAYDDGRFRARAELEEIYGFVKPDDKPIVYCRIGERSSHTWFVLTYLLGHPNVRNYDGSWTEWGNAVRVPIVVGPEPGEAP 3p3d-a2-m1-cA_3p3d-a2-m2-cA Crystal structure of the Nup53 RRM domain from Pichia guilliermondii A5DMN1 A5DMN1 2.35 X-RAY DIFFRACTION 66 1.0 4929 (Meyerozyma guilliermondii) 4929 (Meyerozyma guilliermondii) 87 87 LAILVFGYPETMANQVIAYFQEFGTILEDFEVLRKPFVPIFSGNSWTKITYDNPASAVDALLENGAVFNGVLLGVIPYTKDAVERLQ LAILVFGYPETMANQVIAYFQEFGTILEDFEVLRKPFVPIFSGNSWTKITYDNPASAVDALLENGAVFNGVLLGVIPYTKDAVERLQ 3p3q-a3-m1-cA_3p3q-a3-m1-cB Crystal Structure of MmoQ Response regulator from Methylococcus capsulatus str. Bath at the resolution 2.4A, Northeast Structural Genomics Consortium Target McR175M Q7WZ31 Q7WZ31 2.4 X-RAY DIFFRACTION 56 1.0 414 (Methylococcus capsulatus) 414 (Methylococcus capsulatus) 238 251 LCDSLPTASRTAAAILNLAQSEDVTAEALAQLIQTDPALTGRILRFANAPAQGTRRPVASVIDAIDLVGLPAVRQFALSLSLIDEGRCEAFDYAAYWQKSLARAVALQSITAQAVAPKEAFTLGLLADVGRLALATAWPEEYSECLRKADGEALIALERERFATDHDELTRLLTDWGFPQVFIDALQLSQQDRTGRFARQLTLAQHIADHRLALSPLLRAEARRCGLGDEDLARLLAD LCDSLPTASRTAAAILNLAQSEDVTAEALAQLIQTDPALTGRILRFANAPAQGTRRPVASVIDAIDLVGLPAVRQFALSLSLIDAHREGRCEAFDYAAYWQKSLARAVALQSITAQASTVAPKEAFTLGLLADVGRLALATAWPEEYSECLRKADGEALIALERERFATDHDELTRLLTDWGFPQVFIDALQLSQQDEIRDEGRTGRFARQLTLAQHIADHRLAAALSPLLRAEARRCGLGDEDLARLLAD 3p3y-a1-m1-cA_3p3y-a1-m2-cA Crystal structure of neurofascin homophilic adhesion complex in space group p6522 O94856 O94856 2.6 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 390 3p40-a1-m1-cA_3p40-a1-m2-cA 7ok5-a1-m1-cB_7ok5-a1-m1-cA LTQPPTITKQSAKDHIVDPRDNILIECEAKGNPAPSFHWTRNSRFFNIAKDPRVSMRRRSGTLVIDFRSGGRPEEYEGEYQCFARNKFGTALSNRIRLQVSKSPLWPKENLDPVVVQEGAPLTLQCNPPPGLPSPVIFWMSSSMEPITQDKRVSQGHNGDLYFSNVMLQDMQTDYSCNARFHFTHTIQQKNPFTLKVLTTRGVAERTPSFMYPQGTASSQMVLRGMDLLLECIASGVPTPDIAWYKKGGDLPSDKAKFENFNKALRITNVSEEDSGEYFCLASNKMGSIRHTISVRVKAAPYWLDEPKNLILAPGEDGRLVCRANGNPKPTVQWMVNGEPLQSAPPNPNREVAGDTIIFRDTQISSRAVYQCNTSNEHGYLLANAFVSVL LTQPPTITKQSAKDHIVDPRDNILIECEAKGNPAPSFHWTRNSRFFNIAKDPRVSMRRRSGTLVIDFRSGGRPEEYEGEYQCFARNKFGTALSNRIRLQVSKSPLWPKENLDPVVVQEGAPLTLQCNPPPGLPSPVIFWMSSSMEPITQDKRVSQGHNGDLYFSNVMLQDMQTDYSCNARFHFTHTIQQKNPFTLKVLTTRGVAERTPSFMYPQGTASSQMVLRGMDLLLECIASGVPTPDIAWYKKGGDLPSDKAKFENFNKALRITNVSEEDSGEYFCLASNKMGSIRHTISVRVKAAPYWLDEPKNLILAPGEDGRLVCRANGNPKPTVQWMVNGEPLQSAPPNPNREVAGDTIIFRDTQISSRAVYQCNTSNEHGYLLANAFVSVL 3p42-a6-m1-cC_3p42-a6-m1-cD Structure of GfcC (YmcB), protein encoded by the E. coli group 4 capsule operon B7UN63 B7UN63 1.91 X-RAY DIFFRACTION 90 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 223 226 3p42-a5-m1-cB_3p42-a5-m1-cA QGVTIYLPGEQQTLSVGPVENVAQLVTQPQLRDRLWWPGALLTDSAAKAKALKDYQHVAQLASWEAEADDDVAATIKSVRQQLLNLNITGRLPVKLDPDFVRVDENSNPPLVGDYTLYTVQRPVTITLLGAVSGAGQLPWLAGRSVTDYLQDHPRLAGADKNNVVITPEGETVVAPVALWNKRHVEPPPGSQLWLGFSAHVLPEKYADLNDQIVSVLTQRVPE QGVTIYLPGEQQTLSVGPVENVAQLVTQPQLRDRLWWPGALLTDSAAKAKALKDYQHVAQLASWEAEADDDVAATIKSVRQQLLNLNITGRLPVKLDPDFVRVDENSNPPLVGDYTLYTVQRPVTITLLGAVSGAGQLPWLAGRSVTDYLQDHPRLAGADKNNVVITPEGETVVAPVALWNKRHVEPPPGSQLWLGFSAHVLPEKYADLNDQIVSVLTQRVPELEH 3p46-a1-m1-cA_3p46-a1-m1-cB Integrin binding collagen peptide 1.7 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 13 13 GPGPGLGEAGPGP GPGPGLGEAGPGP 3p46-a1-m1-cA_3p46-a1-m1-cC Integrin binding collagen peptide 1.7 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 13 13 GPGPGLGEAGPGP GPGPGLGEAGPGP 3p46-a1-m1-cB_3p46-a1-m1-cC Integrin binding collagen peptide 1.7 X-RAY DIFFRACTION 28 1.0 32630 (synthetic construct) 32630 (synthetic construct) 13 13 GPGPGLGEAGPGP GPGPGLGEAGPGP 3p47-a1-m2-cA_3p47-a1-m3-cA Crystal structure of Entamoeba histolytica Serine acetyltransferase 1 in complex with L-cysteine Q9U8X2 Q9U8X2 1.78 X-RAY DIFFRACTION 116 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 270 270 3p1b-a1-m1-cA_3p1b-a1-m2-cA 3p1b-a1-m1-cA_3p1b-a1-m3-cA 3p1b-a1-m2-cA_3p1b-a1-m3-cA 3p47-a1-m1-cA_3p47-a1-m2-cA 3p47-a1-m1-cA_3p47-a1-m3-cA 3q1x-a1-m1-cA_3q1x-a1-m2-cA 3q1x-a1-m1-cA_3q1x-a1-m3-cA 3q1x-a1-m2-cA_3q1x-a1-m3-cA ASMDNYIYSIAHQLYEMYLQDEDAFHSKRDYPHKKVFTELQKLRKIFFPDFFMKHQKITESHIASELTKLVDYIKDSVTAYNDELFAHQCVMAILEKLPSIKRTLKTDLIAAYAGDPAAPGLSLIIRCYPGFQAVIVYRIAHVLYECGERYYCREMMESVHSYTSIDIHPGASIKGHFFIDHGVGVVIGETAIIGEWCRIYQSVTLGAMHFQEEGGVIKRGTKRHPTVGDYVTIGTGAKVLGNIIVGSHVRIGANCWIDRDVDSNQTVYI ASMDNYIYSIAHQLYEMYLQDEDAFHSKRDYPHKKVFTELQKLRKIFFPDFFMKHQKITESHIASELTKLVDYIKDSVTAYNDELFAHQCVMAILEKLPSIKRTLKTDLIAAYAGDPAAPGLSLIIRCYPGFQAVIVYRIAHVLYECGERYYCREMMESVHSYTSIDIHPGASIKGHFFIDHGVGVVIGETAIIGEWCRIYQSVTLGAMHFQEEGGVIKRGTKRHPTVGDYVTIGTGAKVLGNIIVGSHVRIGANCWIDRDVDSNQTVYI 3p4e-a1-m1-cA_3p4e-a1-m2-cA Phosphoribosylformylglycinamidine cyclo-ligase from Vibrio cholerae Q9KPY6 Q9KPY6 1.77 X-RAY DIFFRACTION 134 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 323 323 DAGNALVERIKGAVKRTRRPEVMGALCELPTKYKHPVLVSGTDGVGTKLRLALDMKKHDTIGIDLVAMCVNDLIVQGAEPLFFLDYYATGKLDVDTAAEVISGIADGCLQAGCALIGGETAEMPGMYEGEDYDVAGFCVGVVEKEEIIDGSKVQVGDALIAVGSSGPHSNGYSLVRKILEVSKADKNERLAGKTIGEHLLAPTKIYIKSGLKLIAEHDIHAISHITGGGFWENIPRVLPEGTKAVIDGKSWEWPVIFQWLQEKGNVTTHEMYRTFNCGVGLIIALPKDQANAAVALLQAEGETAWVIGEIAAANSNEAQVEIN DAGNALVERIKGAVKRTRRPEVMGALCELPTKYKHPVLVSGTDGVGTKLRLALDMKKHDTIGIDLVAMCVNDLIVQGAEPLFFLDYYATGKLDVDTAAEVISGIADGCLQAGCALIGGETAEMPGMYEGEDYDVAGFCVGVVEKEEIIDGSKVQVGDALIAVGSSGPHSNGYSLVRKILEVSKADKNERLAGKTIGEHLLAPTKIYIKSGLKLIAEHDIHAISHITGGGFWENIPRVLPEGTKAVIDGKSWEWPVIFQWLQEKGNVTTHEMYRTFNCGVGLIIALPKDQANAAVALLQAEGETAWVIGEIAAANSNEAQVEIN 3p4t-a1-m1-cA_3p4t-a1-m2-cB Crystal structure of a putative acyl-CoA dehydrogenase from Mycobacterium smegmatis A0R3J1 A0R3J1 1.7 X-RAY DIFFRACTION 104 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 381 381 3oib-a2-m1-cA_3oib-a2-m2-cB 3oib-a2-m1-cB_3oib-a2-m2-cA 3p4t-a1-m1-cB_3p4t-a1-m2-cA SIWTTAEREALRKTVRAFAEREVLPHAHEWERAGEIPRELHRKAAELGLLGAGFPEDAGGSGGDGADPVVICEEMHYAGSPGGVYASLFTCGIAVPHMIASGDQRLIDTYVRPTLRGEKIGALAITEPGGGSDVGHLRTRADLDGDHYVINGAKTYITSGVRADYVVTAARTGGPGAGGVSLIVVDKGTPGFEVTRKLDKMGWRSSDTAELSYTDVRVPVANLVGSENTGFAQIAAAFVAERVGLATQAYAGAQRCLDLTVEWCRNRDTFGRPLISRQAVQNTLAGMARRIDVARVYTRHVVERQLAGETNLIAEVCFAKNTAVEAGEWVANQAVQLFGGMGYMAESEVERQYRDMRILGIGGGTTEILTSLAAKTLGFQS SIWTTAEREALRKTVRAFAEREVLPHAHEWERAGEIPRELHRKAAELGLLGAGFPEDAGGSGGDGADPVVICEEMHYAGSPGGVYASLFTCGIAVPHMIASGDQRLIDTYVRPTLRGEKIGALAITEPGGGSDVGHLRTRADLDGDHYVINGAKTYITSGVRADYVVTAARTGGPGAGGVSLIVVDKGTPGFEVTRKLDKMGWRSSDTAELSYTDVRVPVANLVGSENTGFAQIAAAFVAERVGLATQAYAGAQRCLDLTVEWCRNRDTFGRPLISRQAVQNTLAGMARRIDVARVYTRHVVERQLAGETNLIAEVCFAKNTAVEAGEWVANQAVQLFGGMGYMAESEVERQYRDMRILGIGGGTTEILTSLAAKTLGFQS 3p4t-a1-m2-cA_3p4t-a1-m2-cB Crystal structure of a putative acyl-CoA dehydrogenase from Mycobacterium smegmatis A0R3J1 A0R3J1 1.7 X-RAY DIFFRACTION 83 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 381 381 3oib-a1-m1-cA_3oib-a1-m1-cB 3oib-a2-m1-cA_3oib-a2-m1-cB 3oib-a2-m2-cA_3oib-a2-m2-cB 3p4t-a1-m1-cA_3p4t-a1-m1-cB SIWTTAEREALRKTVRAFAEREVLPHAHEWERAGEIPRELHRKAAELGLLGAGFPEDAGGSGGDGADPVVICEEMHYAGSPGGVYASLFTCGIAVPHMIASGDQRLIDTYVRPTLRGEKIGALAITEPGGGSDVGHLRTRADLDGDHYVINGAKTYITSGVRADYVVTAARTGGPGAGGVSLIVVDKGTPGFEVTRKLDKMGWRSSDTAELSYTDVRVPVANLVGSENTGFAQIAAAFVAERVGLATQAYAGAQRCLDLTVEWCRNRDTFGRPLISRQAVQNTLAGMARRIDVARVYTRHVVERQLAGETNLIAEVCFAKNTAVEAGEWVANQAVQLFGGMGYMAESEVERQYRDMRILGIGGGTTEILTSLAAKTLGFQS SIWTTAEREALRKTVRAFAEREVLPHAHEWERAGEIPRELHRKAAELGLLGAGFPEDAGGSGGDGADPVVICEEMHYAGSPGGVYASLFTCGIAVPHMIASGDQRLIDTYVRPTLRGEKIGALAITEPGGGSDVGHLRTRADLDGDHYVINGAKTYITSGVRADYVVTAARTGGPGAGGVSLIVVDKGTPGFEVTRKLDKMGWRSSDTAELSYTDVRVPVANLVGSENTGFAQIAAAFVAERVGLATQAYAGAQRCLDLTVEWCRNRDTFGRPLISRQAVQNTLAGMARRIDVARVYTRHVVERQLAGETNLIAEVCFAKNTAVEAGEWVANQAVQLFGGMGYMAESEVERQYRDMRILGIGGGTTEILTSLAAKTLGFQS 3p51-a1-m1-cA_3p51-a1-m4-cA Three-dimensional structure of protein Q2Y8N9_NITMU from nitrosospira multiformis, Northeast structural genomics consortium target NMR118 Q2Y8N9 Q2Y8N9 2.056 X-RAY DIFFRACTION 51 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 142 142 3p51-a1-m2-cA_3p51-a1-m3-cA PKVYNSIVVDAPVERVWSRIRNFHDFSWAPSLIKSCKKVGGGGGYSVGARRLLNGEFLDTLIAYSEIERRIYSDEGPSPVSSGEIYNYVGNLHLLPVTIDDTTFVEWSGSWESASTEAVEYNTVYRSLLADLAAEFTSESRR PKVYNSIVVDAPVERVWSRIRNFHDFSWAPSLIKSCKKVGGGGGYSVGARRLLNGEFLDTLIAYSEIERRIYSDEGPSPVSSGEIYNYVGNLHLLPVTIDDTTFVEWSGSWESASTEAVEYNTVYRSLLADLAAEFTSESRR 3p51-a1-m2-cA_3p51-a1-m4-cA Three-dimensional structure of protein Q2Y8N9_NITMU from nitrosospira multiformis, Northeast structural genomics consortium target NMR118 Q2Y8N9 Q2Y8N9 2.056 X-RAY DIFFRACTION 48 1.0 323848 (Nitrosospira multiformis ATCC 25196) 323848 (Nitrosospira multiformis ATCC 25196) 142 142 3p51-a1-m1-cA_3p51-a1-m3-cA PKVYNSIVVDAPVERVWSRIRNFHDFSWAPSLIKSCKKVGGGGGYSVGARRLLNGEFLDTLIAYSEIERRIYSDEGPSPVSSGEIYNYVGNLHLLPVTIDDTTFVEWSGSWESASTEAVEYNTVYRSLLADLAAEFTSESRR PKVYNSIVVDAPVERVWSRIRNFHDFSWAPSLIKSCKKVGGGGGYSVGARRLLNGEFLDTLIAYSEIERRIYSDEGPSPVSSGEIYNYVGNLHLLPVTIDDTTFVEWSGSWESASTEAVEYNTVYRSLLADLAAEFTSESRR 3p52-a2-m1-cA_3p52-a2-m3-cB NH3-dependent NAD synthetase from Campylobacter jejuni subsp. jejuni NCTC 11168 in complex with the nitrate ion Q9PPB0 Q9PPB0 2.74 X-RAY DIFFRACTION 37 0.995 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 222 222 3p52-a2-m1-cB_3p52-a2-m2-cA 3p52-a2-m2-cB_3p52-a2-m3-cA ADWQKITEKCDFIQEKVKNSQSQGVVLGLSGGIDSALVATLCKRALKENVFALLPTQISNKANLEDALRLCADLNLEYKIIEIQSILDAFIKQSENTTLVSLGNFAARIRSLLYDYSALKNSLVIGTSNKSELLLGYGTIYGDLACAFNPIGSLYKSEIYALAKYLNLHENFIKKFSYTKIDEGLKALETNDEKLLRTLDPSLIALKNRQKNAFKGKPEILE DWQKITEKCDFIQEKVKNSQSQGVVLGLSGGIDSALVATLCKRALKENVFALLPTQISNKANLEDALRLCADLNLEYKIIEIQSILDAFIKQSENTTLVSLGNFAARIRSLLYDYSALKNSLVIGTSNKSELLLGYGTIYGDLACAFNPIGSLYKSEIYALAKYLNLHENFIKKGFSYTKIDEGLKALETNDEKLLRTLDPSLIALKNRQKNAFKGKPEILE 3p52-a2-m3-cA_3p52-a2-m3-cB NH3-dependent NAD synthetase from Campylobacter jejuni subsp. jejuni NCTC 11168 in complex with the nitrate ion Q9PPB0 Q9PPB0 2.74 X-RAY DIFFRACTION 140 0.995 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 222 222 3p52-a1-m1-cA_3p52-a1-m1-cB 3p52-a2-m1-cA_3p52-a2-m1-cB 3p52-a2-m2-cA_3p52-a2-m2-cB ADWQKITEKCDFIQEKVKNSQSQGVVLGLSGGIDSALVATLCKRALKENVFALLPTQISNKANLEDALRLCADLNLEYKIIEIQSILDAFIKQSENTTLVSLGNFAARIRSLLYDYSALKNSLVIGTSNKSELLLGYGTIYGDLACAFNPIGSLYKSEIYALAKYLNLHENFIKKFSYTKIDEGLKALETNDEKLLRTLDPSLIALKNRQKNAFKGKPEILE DWQKITEKCDFIQEKVKNSQSQGVVLGLSGGIDSALVATLCKRALKENVFALLPTQISNKANLEDALRLCADLNLEYKIIEIQSILDAFIKQSENTTLVSLGNFAARIRSLLYDYSALKNSLVIGTSNKSELLLGYGTIYGDLACAFNPIGSLYKSEIYALAKYLNLHENFIKKGFSYTKIDEGLKALETNDEKLLRTLDPSLIALKNRQKNAFKGKPEILE 3p5m-a1-m1-cD_3p5m-a1-m1-cF Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium avium A0A0H2ZZ96 A0A0H2ZZ96 2.05 X-RAY DIFFRACTION 116 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 248 250 3p5m-a1-m1-cA_3p5m-a1-m1-cB 3p5m-a1-m1-cA_3p5m-a1-m1-cC 3p5m-a1-m1-cC_3p5m-a1-m1-cB 3p5m-a1-m1-cD_3p5m-a1-m1-cE 3p5m-a1-m1-cE_3p5m-a1-m1-cF SMNGISVEHDGAVLRIRLDRPEKLNAVDTPMLEELSVHIRDAEADESVRAVLLTGAGRAFCSGGDDTAGAADAANRVVRAITSLPKPVIAGVHGAAVGFGCSLALACDLVVAAPASYFQLAFTRVGLMPDGGASALLPLLIGRARTSRMAMTAEKISAATAFEWGMISHITSADEYESVLTDVLRSVSGGPTLAFGWTKRALAAATLAELEPVQAIEAEGQLALVETADFREGARAFRERRTPNFRGH GSMNGISVEHDGAVLRIRLDRPEKLNAVDTPMLEELSVHIRDAEADESVRAVLLTGAGRAFCSGGDLDTAGAADAANRVVRAITSLPKPVIAGVHGAAVGFGCSLALACDLVVAAPASYFQLAFTRVGLMPDGGASALLPLLIGRARTSRMAMTAEKISAATAFEWGMISHITSADEYESVLTDVLRSVSGGPTLAFGWTKRALAAATLAELEPVQAIEAEGQLALVETADFREGARAFRERRTPNFRGH 3p5m-a1-m1-cF_3p5m-a1-m1-cB Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium avium A0A0H2ZZ96 A0A0H2ZZ96 2.05 X-RAY DIFFRACTION 51 0.996 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 250 252 3p5m-a1-m1-cD_3p5m-a1-m1-cA 3p5m-a1-m1-cE_3p5m-a1-m1-cC GSMNGISVEHDGAVLRIRLDRPEKLNAVDTPMLEELSVHIRDAEADESVRAVLLTGAGRAFCSGGDLDTAGAADAANRVVRAITSLPKPVIAGVHGAAVGFGCSLALACDLVVAAPASYFQLAFTRVGLMPDGGASALLPLLIGRARTSRMAMTAEKISAATAFEWGMISHITSADEYESVLTDVLRSVSGGPTLAFGWTKRALAAATLAELEPVQAIEAEGQLALVETADFREGARAFRERRTPNFRGH SMNGISVEHDGAVLRIRLDRPEKLNAVDTPMLEELSVHIRDAEADESVRAVLLTGAGRAFCSGGDLTGGDTAGAADAANRVVRAITSLPKPVIAGVHGAAVGFGCSLALACDLVVAAPASYFQLAFTRVGLMPDGGASALLPLLIGRARTSRMAMTAEKISAATAFEWGMISHITSADEYESVLTDVLRSVSGGPTLAFGWTKRALAAATLAELEPVQAIEAEGQLALVETADFREGARAFRERRTPNFRGH 3p5n-a1-m1-cA_3p5n-a1-m1-cB Structure and mechanism of the S component of a bacterial ECF transporter E5QVT2 E5QVT2 3.6 X-RAY DIFFRACTION 61 1.0 548473 (Staphylococcus aureus subsp. aureus TCH60) 548473 (Staphylococcus aureus subsp. aureus TCH60) 168 168 QQNKRLITISMLSAIAFVLTFIKFPIPFLPPYLTLDFSDVPSLLATFTFGPVAGIIVALVKNLLNYLFSMGDPVGPFANFLAGASFLLTAYAIYKNKRSTKSLITGLIIATIVMTIVLSILNYFVLLPLYGMKVIIVSGIIPFNIIKGIVISIVFILLYRRLANFLKR QQNKRLITISMLSAIAFVLTFIKFPIPFLPPYLTLDFSDVPSLLATFTFGPVAGIIVALVKNLLNYLFSMGDPVGPFANFLAGASFLLTAYAIYKNKRSTKSLITGLIIATIVMTIVLSILNYFVLLPLYGMKVIIVSGIIPFNIIKGIVISIVFILLYRRLANFLKR 3p6b-a1-m1-cA_3p6b-a1-m2-cB The crystal structure of CelK CBM4 from Clostridium thermocellum P0C2S1 P0C2S1 2 X-RAY DIFFRACTION 52 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 186 186 HMALEDKSSKLPDYKNDLLYERTFDEGLCFPWHTCEDSGGKCDFAVVDVPGEPGNKAFRLTVIDKGQNKWSVQMRHRGITLEQGHTYTVRFTIWSDKSCRVYAKIGQMGEPYTEYWNNNWNPFNLTPGQKLTVEQNFTMNYPTDDTCEFTFHLGGELAAGTPYYVYLDDVSLYDPRFVKPVEYVLP HMALEDKSSKLPDYKNDLLYERTFDEGLCFPWHTCEDSGGKCDFAVVDVPGEPGNKAFRLTVIDKGQNKWSVQMRHRGITLEQGHTYTVRFTIWSDKSCRVYAKIGQMGEPYTEYWNNNWNPFNLTPGQKLTVEQNFTMNYPTDDTCEFTFHLGGELAAGTPYYVYLDDVSLYDPRFVKPVEYVLP 3p6l-a2-m1-cA_3p6l-a2-m2-cA Crystal structure of a Sugar phosphate isomerase/epimerase (BDI_1903) from Parabacteroides distasonis ATCC 8503 at 1.85 A resolution A6LD74 A6LD74 1.85 X-RAY DIFFRACTION 31 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 258 258 GQTKAEKNGWRLGQSYSFHLFPLTEALDKTQELGLKYIEIYPGHKLGGKWGDKVFDFNLDAQTQKEIKELAASKGIKIVGTGVYVAEKSSDWEKFKFAKADLEFITCEPALSDWDLVEKLSKQYNIKISVHNHPQPSDYWKPENLLKAISGRSQSLGSCSDVGHWRREGLNQIDCLKQLKGRIISLHFKDIAPKKAGENEQHDVIWGTGILDVKGLKELKSQNFKGVFSIEYEYNWENSVPDIKECIQYFNKTANEIL GQTKAEKNGWRLGQSYSFHLFPLTEALDKTQELGLKYIEIYPGHKLGGKWGDKVFDFNLDAQTQKEIKELAASKGIKIVGTGVYVAEKSSDWEKFKFAKADLEFITCEPALSDWDLVEKLSKQYNIKISVHNHPQPSDYWKPENLLKAISGRSQSLGSCSDVGHWRREGLNQIDCLKQLKGRIISLHFKDIAPKKAGENEQHDVIWGTGILDVKGLKELKSQNFKGVFSIEYEYNWENSVPDIKECIQYFNKTANEIL 3p7j-a1-m1-cA_3p7j-a1-m1-cB Drosophila HP1a chromo shadow domain P05205 P05205 2.3 X-RAY DIFFRACTION 27 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 59 61 TGFDRGLEAEKILGASDNNGRLTFLIQFKGVDQAEMVPSSVANEKIPRMVIHFYEERLS TGFDRGLEAEKILGASDNNGRLTFLIQFKGVDQAEMVPSSVANEKIPRMVIHFYEERLSWY 3p7j-a2-m2-cA_3p7j-a2-m1-cB Drosophila HP1a chromo shadow domain P05205 P05205 2.3 X-RAY DIFFRACTION 40 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 59 61 TGFDRGLEAEKILGASDNNGRLTFLIQFKGVDQAEMVPSSVANEKIPRMVIHFYEERLS TGFDRGLEAEKILGASDNNGRLTFLIQFKGVDQAEMVPSSVANEKIPRMVIHFYEERLSWY 3p7k-a2-m2-cA_3p7k-a2-m3-cA GP41 peptide 2.3 X-RAY DIFFRACTION 42 1.0 45 45 3p7k-a2-m1-cA_3p7k-a2-m2-cA 3p7k-a2-m1-cA_3p7k-a2-m3-cA KIEAIEKKQNNLLRAIEAQQHLLQLTVWGIKQLQARILAVEKKIE KIEAIEKKQNNLLRAIEAQQHLLQLTVWGIKQLQARILAVEKKIE 3p7m-a1-m1-cA_3p7m-a1-m1-cD Structure of putative lactate dehydrogenase from Francisella tularensis subsp. tularensis SCHU S4 Q8G942 Q8G942 2.2 X-RAY DIFFRACTION 26 0.993 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 305 305 3p7m-a1-m1-cC_3p7m-a1-m1-cB ARKKITLVGAGNIGGTLAHLALIKQLGDVVLFDIAQGPNGKALDLLQTCPIEGVDFKVRGTNDYKDLENSDVVIVTAGVPRKPGSRDDLLGINIKVQTVGEGIKHNCPNAFVICITNPLDIVNLQKFSGVPDNKIVGAGVLDSARFRTFLADELNVSVQQVQAYVGGHGDTVPLTKSNVAGVSLEQLVKEGKLKQERLDAIVSRTRSGGGEIVALLKTGSAYYAPAAAGIQAESFLKDKKILPCAAKVKAGYGLDEDLFVGVPTEISANGVRPIEVEISDKEREQLQVSINAIKDLNKAAAEILA NAARKKITLVGAGNIGGTLAHLALIKQLGDVVLFDIAQGPNGKALDLLQTCPIEGVDFKVRGTNDYKDLENSDVVIVTAGVPRGSRDDLLGINIKVQTVGEGIKHNCPNAFVICITNPLDIVNLQKFSGVPDNKIVGAGVLDSARFRTFLADELNVSVQQVQAYVGGHGDTVPLTKSNVAGVSLEQLVKEGKLKQERLDAIVSRTRSGGGEIVALLKTGSAYYAPAAAGIQAESFLKDKKILPCAAKVKAGYGLDEDLFVGVPTEISANGVRPIEVEISDKEREQLQVSINAIKDLNKAAAEILA 3p7m-a1-m1-cC_3p7m-a1-m1-cD Structure of putative lactate dehydrogenase from Francisella tularensis subsp. tularensis SCHU S4 Q8G942 Q8G942 2.2 X-RAY DIFFRACTION 124 0.993 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 305 305 3p7m-a1-m1-cA_3p7m-a1-m1-cB ARKKITLVGAGNIGGTLAHLALIKQLGDVVLFDIAQGPNGKALDLLQTCPIEGVDFKVRGTNDYKDLENSDVVIVTAGVPRKPGSRDDLLGINIKVQTVGEGIKHNCPNAFVICITNPLDIVNLQKFSGVPDNKIVGAGVLDSARFRTFLADELNVSVQQVQAYVGGHGDTVPLTKSNVAGVSLEQLVKEGKLKQERLDAIVSRTRSGGGEIVALLKTGSAYYAPAAAGIQAESFLKDKKILPCAAKVKAGYGLDEDLFVGVPTEISANGVRPIEVEISDKEREQLQVSINAIKDLNKAAAEILA NAARKKITLVGAGNIGGTLAHLALIKQLGDVVLFDIAQGPNGKALDLLQTCPIEGVDFKVRGTNDYKDLENSDVVIVTAGVPRGSRDDLLGINIKVQTVGEGIKHNCPNAFVICITNPLDIVNLQKFSGVPDNKIVGAGVLDSARFRTFLADELNVSVQQVQAYVGGHGDTVPLTKSNVAGVSLEQLVKEGKLKQERLDAIVSRTRSGGGEIVALLKTGSAYYAPAAAGIQAESFLKDKKILPCAAKVKAGYGLDEDLFVGVPTEISANGVRPIEVEISDKEREQLQVSINAIKDLNKAAAEILA 3p7m-a1-m1-cD_3p7m-a1-m1-cB Structure of putative lactate dehydrogenase from Francisella tularensis subsp. tularensis SCHU S4 Q8G942 Q8G942 2.2 X-RAY DIFFRACTION 52 0.997 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 305 306 3p7m-a1-m1-cA_3p7m-a1-m1-cC NAARKKITLVGAGNIGGTLAHLALIKQLGDVVLFDIAQGPNGKALDLLQTCPIEGVDFKVRGTNDYKDLENSDVVIVTAGVPRGSRDDLLGINIKVQTVGEGIKHNCPNAFVICITNPLDIVNLQKFSGVPDNKIVGAGVLDSARFRTFLADELNVSVQQVQAYVGGHGDTVPLTKSNVAGVSLEQLVKEGKLKQERLDAIVSRTRSGGGEIVALLKTGSAYYAPAAAGIQAESFLKDKKILPCAAKVKAGYGLDEDLFVGVPTEISANGVRPIEVEISDKEREQLQVSINAIKDLNKAAAEILA AARKKITLVGAGNIGGTLAHLALIKQLGDVVLFDIAQGPNGKALDLLQTCPIEGVDFKVRGTNDYKDLENSDVVIVTAGVPRKPGSRDDLLGINIKVQTVGEGIKHNCPNAFVICITNPLDIVNLQKFSGVPDNKIVGAGVLDSARFRTFLADELNVSVQQVQAYVGGHGDTVPLTKSNVAGVSLEQLVKEGKLKQERLDAIVSRTRSGGGEIVALLKTGSAYYAPAAAGIQAESFLKDKKILPCAAKVKAGYGLDEDLFVGVPTEISANGVRPIEVEISDKEREQLQVSINAIKDLNKAAAEILA 3p7x-a1-m1-cB_3p7x-a1-m1-cA Crystal structure of an atypical two-cysteine peroxiredoxin (SAOUHSC_01822) from Staphylococcus aureus NCTC8325 Q2FXL3 Q2FXL3 1.96 X-RAY DIFFRACTION 33 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 163 166 TEITFKGGPIHLKGQQINEGDFAPDFTVLDNDLNQVTLADYAGKKKLISVVPSIDTGVCDQQTRKFNSDASKEEGIVLTISADLPFAQKRWCASAGLDNVITLSDHRDLSFGENYGVVMEELRLLARAVFVLDADNKVVYKEIVSEGTDFPDFDAALAAYKNI GSMTEITFKGGPIHLKGQQINEGDFAPDFTVLDNDLNQVTLADYAGKKKLISVVPSIDTGVCDQQTRKFNSDASKEEGIVLTISADLPFAQKRWCASAGLDNVITLSDHRDLSFGENYGVVMEELRLLARAVFVLDADNKVVYKEIVSEGTDFPDFDAALAAYKNI 3p7x-a3-m1-cB_3p7x-a3-m1-cD Crystal structure of an atypical two-cysteine peroxiredoxin (SAOUHSC_01822) from Staphylococcus aureus NCTC8325 Q2FXL3 Q2FXL3 1.96 X-RAY DIFFRACTION 46 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 163 163 3p7x-a1-m1-cB_3p7x-a1-m1-cD 3p7x-a1-m1-cC_3p7x-a1-m1-cA 3p7x-a2-m1-cC_3p7x-a2-m1-cA TEITFKGGPIHLKGQQINEGDFAPDFTVLDNDLNQVTLADYAGKKKLISVVPSIDTGVCDQQTRKFNSDASKEEGIVLTISADLPFAQKRWCASAGLDNVITLSDHRDLSFGENYGVVMEELRLLARAVFVLDADNKVVYKEIVSEGTDFPDFDAALAAYKNI TEITFKGGPIHLKGQQINEGDFAPDFTVLDNDLNQVTLADYAGKKKLISVVPSIDTGVCDQQTRKFNSDASKEEGIVLTISADLPFAQKRWCASAGLDNVITLSDHRDLSFGENYGVVMEELRLLARAVFVLDADNKVVYKEIVSEGTDFPDFDAALAAYKNI 3p83-a1-m1-cE_3p83-a1-m1-cD Structure of the PCNA:RNase HII complex from Archaeoglobus fulgidus. O29634 O29634 3.05 X-RAY DIFFRACTION 29 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 202 213 LMKAGIDEAGKGCVIGPLVVAGVACSDEDRLRKLGVKDSKKLSQGRREELAEEIRKICRTEVLKVSPENLDERMAAKTINEILKECYAEIILRLKPEIAYVDSPDVIPERLSRELEEITGLRVVAEHKADEKYPLVAAASIIAKVEREREIERLKEKFGDFGSGYASDPRTREVLKEWIASGRIPSCVRMRWKLRQKTLDDF SPEFPGRLMKAGIDEAGKGCVIGPLVVAGVACSDEDRLRKLGVKDSKKLSQGRREELAEEIRKICRTEVLKVSPENLDERMAAKTINEILKECYAEIILRLKPEIAYVDSPDVIPERLSRELEEITGLRVVAEHKADEKYPLVAAASIIAKVEREREIERLKEKFGDFGSGYASDPRTREVLKEWIASGRIPSCVRMRWKTVSNLRQKTLDDF 3p83-a1-m1-cE_3p83-a1-m1-cF Structure of the PCNA:RNase HII complex from Archaeoglobus fulgidus. O29634 O29634 3.05 X-RAY DIFFRACTION 27 0.995 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 202 205 LMKAGIDEAGKGCVIGPLVVAGVACSDEDRLRKLGVKDSKKLSQGRREELAEEIRKICRTEVLKVSPENLDERMAAKTINEILKECYAEIILRLKPEIAYVDSPDVIPERLSRELEEITGLRVVAEHKADEKYPLVAAASIIAKVEREREIERLKEKFGDFGSGYASDPRTREVLKEWIASGRIPSCVRMRWKLRQKTLDDF MKAGIDEAGKGCVIGPLVVAGVACSDEDRLRKLGVKDSKKLSQGRREELAEEIRKICRTEVLKVSPENLDERMAAKTINEILKECYAEIILRLKPEIAYVDSPDVIPERLSRELEEITGLRVVAEHKADEKYPLVAAASIIAKVEREREIERLKEKFGDFGSGYASDPRTREVLKEWIASGRIPSCVRMRWKTVSNLRQKTLDDF 3p85-a1-m5-cA_3p85-a1-m6-cA Crystal structure enoyl-coa hydratase from mycobacterium avium A0A0H2ZUQ2 A0A0H2ZUQ2 1.9 X-RAY DIFFRACTION 92 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 224 224 3p85-a1-m1-cA_3p85-a1-m2-cA 3p85-a1-m1-cA_3p85-a1-m3-cA 3p85-a1-m2-cA_3p85-a1-m3-cA 3p85-a1-m4-cA_3p85-a1-m5-cA 3p85-a1-m4-cA_3p85-a1-m6-cA 3qyr-a1-m1-cC_3qyr-a1-m1-cA 3qyr-a1-m1-cC_3qyr-a1-m1-cE 3qyr-a1-m1-cE_3qyr-a1-m1-cA 3qyr-a1-m2-cC_3qyr-a1-m2-cA 3qyr-a1-m2-cC_3qyr-a1-m2-cE 3qyr-a1-m2-cE_3qyr-a1-m2-cA 3qyr-a2-m1-cB_3qyr-a2-m1-cD 3qyr-a2-m1-cF_3qyr-a2-m1-cB 3qyr-a2-m1-cF_3qyr-a2-m1-cD 3qyr-a2-m3-cB_3qyr-a2-m3-cD 3qyr-a2-m3-cF_3qyr-a2-m3-cB 3qyr-a2-m3-cF_3qyr-a2-m3-cD EILLSNTEERVRTLTLNRPQARNALSAALRDRFFGALADAETDDDVDVVIITGADPVFCAGLDLKELPDISPRWPALTKPVIGAINGAAVTGGLELALYCDILIASENARFADTHARVGLLPTWGLSVRLPQKVGIGLARRMSLTGDYLSAADALRAGLVTEVVPHDQLLGAARAVAASIVGNNQNAVRALLTSYHRIDDAQTSAGLWQEAMAARQFRTSGDDI EILLSNTEERVRTLTLNRPQARNALSAALRDRFFGALADAETDDDVDVVIITGADPVFCAGLDLKELPDISPRWPALTKPVIGAINGAAVTGGLELALYCDILIASENARFADTHARVGLLPTWGLSVRLPQKVGIGLARRMSLTGDYLSAADALRAGLVTEVVPHDQLLGAARAVAASIVGNNQNAVRALLTSYHRIDDAQTSAGLWQEAMAARQFRTSGDDI 3p87-a3-m1-cE_3p87-a3-m1-cF Structure of human PCNA bound to RNASEH2B PIP box peptide P12004 P12004 2.99 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 3p87-a3-m1-cA_3p87-a3-m1-cD 3p87-a3-m1-cB_3p87-a3-m1-cC 5e0t-a2-m1-cA_5e0t-a2-m2-cB 5e0t-a2-m2-cA_5e0t-a2-m1-cB MFEARLVQGSILKKVLEALKDLINEACWDISSSGVNLQSMDSSHVSLVQLTLRSEGFDTYRCDRNLAMGVNLTSMSKILKCAGNEDIITLRAEDDTLALVFEAPNQEKVSDYEMKLMDLDVEQLGIPEQEYSCVVKMPSGEFARICRDLSHIGDAVVISCAKDGVKFSASGELGNGNIKLSQAVTIEMNEPVQLTFALRYLNFFTKATPLSSTVTLSMSADVPLVVEYKIADMGHLKYYLAPKIE MFEARLVQGSILKKVLEALKDLINEACWDISSSGVNLQSMDSSHVSLVQLTLRSEGFDTYRCDRNLAMGVNLTSMSKILKCAGNEDIITLRAEDDTLALVFEAPNQEKVSDYEMKLMDLDVEQLGIPEQEYSCVVKMPSGEFARICRDLSHIGDAVVISCAKDGVKFSASGELGNGNIKLSQAVTIEMNEPVQLTFALRYLNFFTKATPLSSTVTLSMSADVPLVVEYKIADMGHLKYYLAPKIE 3p87-a3-m1-cG_3p87-a3-m1-cJ Structure of human PCNA bound to RNASEH2B PIP box peptide Q5TBB1 Q5TBB1 2.99 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KSGMKSIDTFF KSGMKSIDTFF 3p87-a3-m1-cL_3p87-a3-m1-cK Structure of human PCNA bound to RNASEH2B PIP box peptide Q5TBB1 Q5TBB1 2.99 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 12 3p87-a3-m1-cH_3p87-a3-m1-cI KSGMKSIDTFF DKSGMKSIDTFF 3p89-a3-m5-cA_3p89-a3-m9-cA FXR bound to a quinolinecarboxylic acid Q96RI1 Q96RI1 2.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 3p88-a2-m10-cA_3p88-a2-m2-cA 3p88-a2-m10-cA_3p88-a2-m6-cA 3p88-a2-m11-cA_3p88-a2-m9-cA 3p88-a2-m12-cA_3p88-a2-m4-cA 3p88-a2-m12-cA_3p88-a2-m8-cA 3p88-a2-m1-cA_3p88-a2-m11-cA 3p88-a2-m1-cA_3p88-a2-m9-cA 3p88-a2-m2-cA_3p88-a2-m6-cA 3p88-a2-m3-cA_3p88-a2-m5-cA 3p88-a2-m3-cA_3p88-a2-m7-cA 3p88-a2-m4-cA_3p88-a2-m8-cA 3p88-a2-m5-cA_3p88-a2-m7-cA 3p88-a3-m11-cA_3p88-a3-m9-cA 3p88-a3-m1-cA_3p88-a3-m11-cA 3p88-a3-m1-cA_3p88-a3-m9-cA 3p89-a2-m1-cA_3p89-a2-m2-cA 3p89-a2-m1-cA_3p89-a2-m3-cA 3p89-a2-m2-cA_3p89-a2-m3-cA 3p89-a3-m10-cA_3p89-a3-m5-cA 3p89-a3-m10-cA_3p89-a3-m9-cA 3p89-a3-m11-cA_3p89-a3-m4-cA 3p89-a3-m11-cA_3p89-a3-m8-cA 3p89-a3-m12-cA_3p89-a3-m6-cA 3p89-a3-m12-cA_3p89-a3-m7-cA 3p89-a3-m1-cA_3p89-a3-m2-cA 3p89-a3-m1-cA_3p89-a3-m3-cA 3p89-a3-m2-cA_3p89-a3-m3-cA 3p89-a3-m4-cA_3p89-a3-m8-cA 3p89-a3-m6-cA_3p89-a3-m7-cA PDQQTLLHFIMDSYNKQRMPQEITNKILKEEFSAEENFLILTEMATNHVQVLVEFTKKLPGFQTLDHEDQIALLKGSAVEAMFLRSAEIFNKKLPSGHSDLLEERIRNSGISDEYITPMFSFYKSIGELKMTQEEYALLTAIVILSPDRQYDREAVEKLQEPLLDVLQKLCKIHQPENPQHFAELLGRLTELRTFNHHHAEMLMSWRVNDHKFTPLLEEIWDV PDQQTLLHFIMDSYNKQRMPQEITNKILKEEFSAEENFLILTEMATNHVQVLVEFTKKLPGFQTLDHEDQIALLKGSAVEAMFLRSAEIFNKKLPSGHSDLLEERIRNSGISDEYITPMFSFYKSIGELKMTQEEYALLTAIVILSPDRQYDREAVEKLQEPLLDVLQKLCKIHQPENPQHFAELLGRLTELRTFNHHHAEMLMSWRVNDHKFTPLLEEIWDV 3p89-a3-m6-cA_3p89-a3-m9-cA FXR bound to a quinolinecarboxylic acid Q96RI1 Q96RI1 2.3 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 3p88-a2-m10-cA_3p88-a2-m5-cA 3p88-a2-m10-cA_3p88-a2-m9-cA 3p88-a2-m11-cA_3p88-a2-m3-cA 3p88-a2-m11-cA_3p88-a2-m4-cA 3p88-a2-m12-cA_3p88-a2-m2-cA 3p88-a2-m12-cA_3p88-a2-m7-cA 3p88-a2-m1-cA_3p88-a2-m6-cA 3p88-a2-m1-cA_3p88-a2-m8-cA 3p88-a2-m2-cA_3p88-a2-m7-cA 3p88-a2-m3-cA_3p88-a2-m4-cA 3p88-a2-m5-cA_3p88-a2-m9-cA 3p88-a2-m6-cA_3p88-a2-m8-cA 3p89-a3-m10-cA_3p89-a3-m2-cA 3p89-a3-m10-cA_3p89-a3-m4-cA 3p89-a3-m11-cA_3p89-a3-m5-cA 3p89-a3-m11-cA_3p89-a3-m7-cA 3p89-a3-m12-cA_3p89-a3-m8-cA 3p89-a3-m1-cA_3p89-a3-m12-cA 3p89-a3-m1-cA_3p89-a3-m8-cA 3p89-a3-m2-cA_3p89-a3-m4-cA 3p89-a3-m3-cA_3p89-a3-m6-cA 3p89-a3-m3-cA_3p89-a3-m9-cA 3p89-a3-m5-cA_3p89-a3-m7-cA PDQQTLLHFIMDSYNKQRMPQEITNKILKEEFSAEENFLILTEMATNHVQVLVEFTKKLPGFQTLDHEDQIALLKGSAVEAMFLRSAEIFNKKLPSGHSDLLEERIRNSGISDEYITPMFSFYKSIGELKMTQEEYALLTAIVILSPDRQYDREAVEKLQEPLLDVLQKLCKIHQPENPQHFAELLGRLTELRTFNHHHAEMLMSWRVNDHKFTPLLEEIWDV PDQQTLLHFIMDSYNKQRMPQEITNKILKEEFSAEENFLILTEMATNHVQVLVEFTKKLPGFQTLDHEDQIALLKGSAVEAMFLRSAEIFNKKLPSGHSDLLEERIRNSGISDEYITPMFSFYKSIGELKMTQEEYALLTAIVILSPDRQYDREAVEKLQEPLLDVLQKLCKIHQPENPQHFAELLGRLTELRTFNHHHAEMLMSWRVNDHKFTPLLEEIWDV 3p8b-a3-m1-cB_3p8b-a3-m1-cD X-ray crystal structure of Pyrococcus furiosus transcription elongation factor Spt4/5 Q8TZK1 Q8TZK1 1.8 X-RAY DIFFRACTION 78 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 147 147 AGKIFAVRVTHGQEETTAKLIYSKVRTYNLPIYAILAPSRVKGYIFVEAPNKGVVDEAIRGIRHARGVLPGEVPFKEIEHFLEEKPAVSGLEPGDLVEVIAGPFKGQKAKVVKIDESKDEVVVQFIDAIVPIPVTIKGDYVRLISKL AGKIFAVRVTHGQEETTAKLIYSKVRTYNLPIYAILAPSRVKGYIFVEAPNKGVVDEAIRGIRHARGVLPGEVPFKEIEHFLEEKPAVSGLEPGDLVEVIAGPFKGQKAKVVKIDESKDEVVVQFIDAIVPIPVTIKGDYVRLISKL 3p8d-a1-m1-cA_3p8d-a1-m1-cB Crystal structure of the second Tudor domain of human PHF20 (homodimer form) Q9BVI0 Q9BVI0 2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 3qii-a1-m1-cA_3qii-a1-m2-cA SEFQINEQVLACWSDCRFYPAKVTAVNKDGTYTVKFYDGVVQTVKHIHVKAFS SEFQINEQVLACWSDCRFYPAKVTAVNKDGTYTVKFYDGVVQTVKHIHVKAFS 3p8k-a1-m1-cA_3p8k-a1-m1-cB Crystal Structure of a putative carbon-nitrogen family hydrolase from Staphylococcus aureus A0A0H2WXM0 A0A0H2WXM0 1.7 X-RAY DIFFRACTION 109 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 262 262 LVPRGSHKVQIYQLPIVFGDSSKNETQITQWFEKNNAEVDVVVLPEWNNGYDLEHLNEKADNNLGQSFSFIKHLAEKYKVDIVAGSVSNIRNNQIFNTAFSVNKSGQLINEYDKVHLVPLREHEFLTAGEYVAEPFQLSDGTYVTQLICYDLRFPELLRYPARSGAKIAFYVAQWPSRLQHWHSLLKARAIENNFVIGTNSTGFDGNTEYAGHSIVINPNGDLVGELNESADILTVDLNLNEVEQQRENIPVFKSIKLDLYK LVPRGSHKVQIYQLPIVFGDSSKNETQITQWFEKNNAEVDVVVLPEWNNGYDLEHLNEKADNNLGQSFSFIKHLAEKYKVDIVAGSVSNIRNNQIFNTAFSVNKSGQLINEYDKVHLVPLREHEFLTAGEYVAEPFQLSDGTYVTQLICYDLRFPELLRYPARSGAKIAFYVAQWPSRLQHWHSLLKARAIENNFVIGTNSTGFDGNTEYAGHSIVINPNGDLVGELNESADILTVDLNLNEVEQQRENIPVFKSIKLDLYK 3p8l-a1-m1-cB_3p8l-a1-m1-cA Crystal structure of polyprenyl synthase from Enterococcus faecalis V583 Q836W4 Q836W4 2 X-RAY DIFFRACTION 160 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 275 283 SLTNFSQQHLPLVEKVMVDFIAEYTENERLKEAMLYSIHAGGKRLRPLLVLTTVAAFQKEMETQDYQVAASLEMIHTYSLIHDDLPAMDDDDLRRGKPTNHKVFGEATAILAGDGLLTGAFQLLSLSQLGLSEKVLLMQQLAKAAGNQGMVSGQMGDIEGEKVSLTLEELAAVHEKKTGALIEFALIAGGVLANQTEEVIGLLTQFAHHYGLAFQIRDDLLDATSTYPALLGIAGAKDALTHQLAEGSAVLEKIKANVPNFSEEHLANLLTQLQL HHHHHHSLTNFSQQHLPLVEKVMVDFIAEYTENERLKEAMLYSIHAGGKRLRPLLVLTTVAAFQKEMETQDYQVAASLEMIHTYSLIHDDLPAMDDDDLRRGKPTNHKVFGEATAILAGDGLLTGAFQLLSLSQLGLSEKVLLMQQLAKAAGNQGMVSGQMGDIEGEKVSLTLEELAAVHEKKTGALIEFALIAGGVLANQTEEVIGLLTQFAHHYGLAFQIRDDLLDATSSTYPALLGIAGAKDALTHQLAEGSAVLEKIKANVPNFSEEHLANLLTQLQLR 3p8m-a1-m1-cC_3p8m-a1-m1-cD Human dynein light chain (DYNLL2) in complex with an in vitro evolved peptide dimerized by leucine zipper P03069 P03069 2.9 X-RAY DIFFRACTION 45 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 42 43 SVSRGTQTEGGSGMKQLEDKVEELLSKNYHLENEVARLKKLV GSVSRGTQTEGGSGMKQLEDKVEELLSKNYHLENEVARLKKLV 3p8r-a1-m1-cA_3p8r-a1-m2-cA CRYSTAL STRUCTURE OF POLYPRENYL SYNTHASE FROM Vibrio cholerae Q9KTL2 Q9KTL2 2.5 X-RAY DIFFRACTION 147 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 268 268 HHHSLEALSSYQQRNNQQLDQWLNRIPFQTLPLIEAMRYGLLLGGKRARPYLVYITGQMLGCELSDLDTPASAVECIHAYSLIHDDLPAMDDDEATAILTGDALQTLAFTILAEGDLSAAGETQRVAMLQALAEASGAQGMCLGQALDLAAENRLISLEELETIHRNKTGALMRCAIRLGALAAGEKGRAMLPHLDRYAEAVGLAFQVQDDILDIISDKSTYPALLGLEGAQQKAHTLLQEALLALEAIPYNTEHLEEFARYVVERKN HHHSLEALSSYQQRNNQQLDQWLNRIPFQTLPLIEAMRYGLLLGGKRARPYLVYITGQMLGCELSDLDTPASAVECIHAYSLIHDDLPAMDDDEATAILTGDALQTLAFTILAEGDLSAAGETQRVAMLQALAEASGAQGMCLGQALDLAAENRLISLEELETIHRNKTGALMRCAIRLGALAAGEKGRAMLPHLDRYAEAVGLAFQVQDDILDIISDKSTYPALLGLEGAQQKAHTLLQEALLALEAIPYNTEHLEEFARYVVERKN 3p8t-a1-m1-cA_3p8t-a1-m1-cB Crystal structure of the archaeal asparagine synthetase A Q9V228 Q9V228 1.78 X-RAY DIFFRACTION 197 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 294 294 3p8v-a1-m1-cA_3p8v-a1-m1-cB 3p8y-a1-m1-cA_3p8y-a1-m1-cB 3reu-a1-m1-cB_3reu-a1-m1-cA 3rex-a1-m1-cB_3rex-a1-m1-cA 3rl6-a1-m1-cB_3rl6-a1-m1-cA MNAVEIISRDIYKAIDIQTKILDYMTKFFTDRGFKWLLPIMLSPITDPLWPDPAGEGIRPAEVDVYGVRMRLTHSMILHKQLAIAMGLEKIFVLSPNIRLESRRKDDGRHSYEFTQLDFEIEGAKMKDVMRLIEELIYGLFRKAEEWTGREFPRARHFKVYDYKDILEEFGSDEKASMEMEEPFWIVNIPREFYDREENGVWKNYDLILPYGYGEVSSGGEREWEYEKIVAKIRAAGLKEDSFRPYLEIARAGKLKPSAGAGIGVERLVRFIVGAKHIAEVQPFPRVPGIPAVI MNAVEIISRDIYKAIDIQTKILDYMTKFFTDRGFKWLLPIMLSPITDPLWPDPAGEGIRPAEVDVYGVRMRLTHSMILHKQLAIAMGLEKIFVLSPNIRLESRRKDDGRHSYEFTQLDFEIEGAKMKDVMRLIEELIYGLFRKAEEWTGREFPRARHFKVYDYKDILEEFGSDEKASMEMEEPFWIVNIPREFYDREENGVWKNYDLILPYGYGEVSSGGEREWEYEKIVAKIRAAGLKEDSFRPYLEIARAGKLKPSAGAGIGVERLVRFIVGAKHIAEVQPFPRVPGIPAVI 3p91-a1-m2-cA_3p91-a1-m3-cA Crystal structure of Proliferating Cellular Nuclear Antigen from Entamoeba histolytica C4M9R9 C4M9R9 2.4 X-RAY DIFFRACTION 40 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 245 245 3p91-a1-m1-cA_3p91-a1-m2-cA 3p91-a1-m1-cA_3p91-a1-m3-cA MCAFHAKFKEAALFKRVVESLKSTIDKTNFDCSDAGIAVQCMDNSHVSLVSLLIETDAFDEFQCLKPITLGINLTHLSKILKALDNDCGLILDVKKVDDAVLSITSENKTMKFGLNLVDIEAESVEIPELQSDAIITLSSAEFLKITKDFSALGDDSITIGCTKNEVTLTTKGAMCETCMTLSAGLQIEHNKDVTASFALKQISEFAKSAPLADNVKLSLSGQAPLIMEFKGEACVLKFYLAPKF MCAFHAKFKEAALFKRVVESLKSTIDKTNFDCSDAGIAVQCMDNSHVSLVSLLIETDAFDEFQCLKPITLGINLTHLSKILKALDNDCGLILDVKKVDDAVLSITSENKTMKFGLNLVDIEAESVEIPELQSDAIITLSSAEFLKITKDFSALGDDSITIGCTKNEVTLTTKGAMCETCMTLSAGLQIEHNKDVTASFALKQISEFAKSAPLADNVKLSLSGQAPLIMEFKGEACVLKFYLAPKF 3p94-a5-m1-cA_3p94-a5-m2-cB Crystal structure of a GDSL-like Lipase (BDI_0976) from Parabacteroides distasonis ATCC 8503 at 1.93 A resolution A6LAN0 A6LAN0 1.93 X-RAY DIFFRACTION 22 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 198 198 GEKGDWAQFGRYAEANKTVKVPSNVVFGNSITDGWWPADSTFFIRNNFVDRGISGQTTSELVRFRQDVINLKPKAVVILAGINDIAHNNGVIALENVFGNLVSAELAKANHIKVIFCSVLPAYDFPWRPGQPADKVIQLNKWIKEYADKNGLTYVDYHSAKDERNGLPANLSKDGVHPTLEGYKIEKIVLEAIHKTVK GEKGDWAQFGRYAEANKTVKVPSNVVFGNSITDGWWPADSTFFIRNNFVDRGISGQTTSELVRFRQDVINLKPKAVVILAGINDIAHNNGVIALENVFGNLVSAELAKANHIKVIFCSVLPAYDFPWRPGQPADKVIQLNKWIKEYADKNGLTYVDYHSAKDERNGLPANLSKDGVHPTLEGYKIEKIVLEAIHKTVK 3p94-a5-m2-cC_3p94-a5-m1-cA Crystal structure of a GDSL-like Lipase (BDI_0976) from Parabacteroides distasonis ATCC 8503 at 1.93 A resolution A6LAN0 A6LAN0 1.93 X-RAY DIFFRACTION 49 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 194 198 3p94-a5-m1-cD_3p94-a5-m2-cB GDWAQFGRYAEANKTVKVPSNVVFGNSITDGWWPADSTFFIRNNFVDRGISGQTTSELVRFRQDVINLKPKAVVILAGINDIAHNNGVIALENVFGNLVSAELAKANHIKVIFCSVLPAYDFPWRPGQPADKVIQLNKWIKEYADKNGLTYVDYHSAKDERNGLPANLSKDGVHPTLEGYKIEKIVLEAIHKTV GEKGDWAQFGRYAEANKTVKVPSNVVFGNSITDGWWPADSTFFIRNNFVDRGISGQTTSELVRFRQDVINLKPKAVVILAGINDIAHNNGVIALENVFGNLVSAELAKANHIKVIFCSVLPAYDFPWRPGQPADKVIQLNKWIKEYADKNGLTYVDYHSAKDERNGLPANLSKDGVHPTLEGYKIEKIVLEAIHKTVK 3p94-a7-m1-cC_3p94-a7-m1-cB Crystal structure of a GDSL-like Lipase (BDI_0976) from Parabacteroides distasonis ATCC 8503 at 1.93 A resolution A6LAN0 A6LAN0 1.93 X-RAY DIFFRACTION 81 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 194 198 3p94-a5-m1-cD_3p94-a5-m1-cA 3p94-a5-m2-cC_3p94-a5-m2-cB 3p94-a6-m1-cD_3p94-a6-m1-cA GDWAQFGRYAEANKTVKVPSNVVFGNSITDGWWPADSTFFIRNNFVDRGISGQTTSELVRFRQDVINLKPKAVVILAGINDIAHNNGVIALENVFGNLVSAELAKANHIKVIFCSVLPAYDFPWRPGQPADKVIQLNKWIKEYADKNGLTYVDYHSAKDERNGLPANLSKDGVHPTLEGYKIEKIVLEAIHKTV GEKGDWAQFGRYAEANKTVKVPSNVVFGNSITDGWWPADSTFFIRNNFVDRGISGQTTSELVRFRQDVINLKPKAVVILAGINDIAHNNGVIALENVFGNLVSAELAKANHIKVIFCSVLPAYDFPWRPGQPADKVIQLNKWIKEYADKNGLTYVDYHSAKDERNGLPANLSKDGVHPTLEGYKIEKIVLEAIHKTVK 3p9a-a1-m1-cB_3p9a-a1-m1-cC An atomic view of the nonameric small terminase subunit of Bacteriophage P22 P04893 P04893 1.755 X-RAY DIFFRACTION 129 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 132 133 3p9a-a1-m1-cB_3p9a-a1-m1-cA 3p9a-a1-m1-cC_3p9a-a1-m1-cD 3p9a-a1-m1-cE_3p9a-a1-m1-cD 3p9a-a1-m1-cE_3p9a-a1-m1-cF 3p9a-a1-m1-cG_3p9a-a1-m1-cF 3p9a-a1-m1-cH_3p9a-a1-m1-cG 3p9a-a1-m1-cH_3p9a-a1-m1-cI 3p9a-a1-m1-cI_3p9a-a1-m1-cA RFWEARSSHGRNPKFESPEALWAACCEYFEWVEANPLWEMKAFSYQGEVIQEPIAKMRAMTITGLTLFIDVTLETWRTYRLREDLSEVVTRAEQVIYDQKFSGAAADLLNANIIARDLGLKEQSQVEDVTPD NRFWEARSSHGRNPKFESPEALWAACCEYFEWVEANPLWEMKAFSYQGEVIQEPIAKMRAMTITGLTLFIDVTLETWRTYRLREDLSEVVTRAEQVIYDQKFSGAAADLLNANIIARDLGLKEQSQVEDVTPD 3p9k-a2-m1-cD_3p9k-a2-m1-cC Crystal structure of perennial ryegrass LpOMT1 complexed with S-adenosyl-L-homocysteine and coniferaldehyde Q9ZTU2 Q9ZTU2 2.25 X-RAY DIFFRACTION 298 1.0 4522 (Lolium perenne) 4522 (Lolium perenne) 351 357 3p9c-a1-m1-cA_3p9c-a1-m2-cA 3p9i-a1-m1-cB_3p9i-a1-m1-cA 3p9i-a2-m1-cD_3p9i-a2-m1-cC 3p9k-a1-m1-cB_3p9k-a1-m1-cA ASADEDACMFALQLASSSVLPMTLKNAIELGLLEILVAAGGKSLTPTEVAAKLPSAANPEAPDMVDRILRLLASYNVVTCLVEEGKDGRLSRSYGAAPVCKFLTPNEDGVSMAALALMNQDKVLMESWYYLKDAVLDGGIPFNKAYGMSAFEYHGTDPRFNRVFNEGMKNHSIIITKKLLELYHGFEGLGTLVDVGGGVGATVAAIAAHYPTIKGVNFDLPHVISEAPQFPGVTHVGGDMFKEVPSGDTILMKWILHDWSDQHCATLLKNCYDALPAHGKVVLVQCILPVNPEANPSSQGVFHVDMIMLAHNPGGRERYEREFQALARGAGFTGVKSTYIYANAWAIEFTK TAADMAASADEDACMFALQLASSSVLPMTLKNAIELGLLEILVAAGGKSLTPTEVAAKLPSAANPEAPDMVDRILRLLASYNVVTCLVEEGKDGRLSRSYGAAPVCKFLTPNEDGVSMAALALMNQDKVLMESWYYLKDAVLDGGIPFNKAYGMSAFEYHGTDPRFNRVFNEGMKNHSIIITKKLLELYHGFEGLGTLVDVGGGVGATVAAIAAHYPTIKGVNFDLPHVISEAPQFPGVTHVGGDMFKEVPSGDTILMKWILHDWSDQHCATLLKNCYDALPAHGKVVLVQCILPVNPEANPSSQGVFHVDMIMLAHNPGGRERYEREFQALARGAGFTGVKSTYIYANAWAIEFTK 3p9v-a1-m2-cB_3p9v-a1-m1-cA High Resolution Crystal Structure of protein Maqu_3174 from Marinobacter aquaeolei, Northeast Structural Genomics Consortium Target MqR197 A1U5H9 A1U5H9 1.78 X-RAY DIFFRACTION 50 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 151 156 AITVSIELNRDLEIPASYDEVFDLLADVPKSASHFPKVDKLVDLGNNAYRWEEKVGVDKHAIQSVYACTYHADKEAGKITWSPIKGEGNGVVSGSWTLSAKGDNATAVKFQTSAELTVPLPSLLKLAISPVIKHEFNSLVDTYANLKKAFL AITVSIELNRDLEIPASYDEVFDLLADVPKSASHFPKVDKLVDLGNNAYRWEEKVGVDKHAIQSVYACTYHADKEAGKITWSPIKGEGNGVVSGSWTLSAKGDNATAVKFQTSAELTVPLPSLLKLAISPVIKHEFNSLVDTYANLKKAFLEHHHH 3p9x-a1-m1-cB_3p9x-a1-m1-cA Crystal structure of phosphoribosylglycinamide formyltransferase from Bacillus Halodurans Q9KF54 Q9KF54 1.9 X-RAY DIFFRACTION 47 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 194 195 KRVAIFASGSGTNAEAIIQSQKAGQLPCEVALLITDKPGAKVVERVKVHEIPVCALDPKTYPSKEAYEIEVVQQLKEKQIDFVVLAGYMRLVGPTLLGAYEGRIVNIHPSLLPAFPGLHAIEQAIRANVKVTGVTIHYVDEGMDTGPIIAQEAVSIEEEDTLETLTTKIQAVEHRLYPATLHKLLSKAENLYFQ KRVAIFASGSGTNAEAIIQSQKAGQLPCEVALLITDKPGAKVVERVKVHEIPVCALDPKTYPSKEAYEIEVVQQLKEKQIDFVVLAGYMRLVGPTLLGAYEGRIVNIHPSLLPAFPGLHAIEQAIRANVKVTGVTIHYVDEGMDTGPIIAQEAVSIEEEDTLETLTTKIQAVEHRLYPATLHKLLSKAENLYFQS 3pa1-a1-m1-cA_3pa1-a1-m1-cB Crystal Structure of P Domain from Norwalk Virus Strain Vietnam 026 in complex with HBGA type A Q5F4T5 Q5F4T5 1.48 X-RAY DIFFRACTION 148 1.0 11983 (Norwalk virus) 11983 (Norwalk virus) 315 315 3onu-a1-m1-cB_3onu-a1-m1-cA 3ony-a1-m1-cB_3ony-a1-m1-cA 3ony-a2-m1-cC_3ony-a2-m2-cC 3pa2-a1-m1-cB_3pa2-a1-m1-cA 3q38-a1-m1-cB_3q38-a1-m1-cA 3q39-a1-m1-cB_3q39-a1-m1-cA 3q3a-a1-m1-cB_3q3a-a1-m1-cA 3q6q-a1-m1-cB_3q6q-a1-m1-cA 3q6r-a1-m1-cB_3q6r-a1-m1-cA 3ry8-a1-m1-cB_3ry8-a1-m1-cA 3v7a-a1-m1-cB_3v7a-a1-m1-cA 4x7e-a1-m1-cB_4x7e-a1-m1-cA 4x7f-a1-m1-cB_4x7f-a1-m1-cA 4z4r-a1-m1-cA_4z4r-a1-m1-cB 4z4s-a1-m1-cB_4z4s-a1-m1-cA 4z4t-a1-m1-cA_4z4t-a1-m1-cB 4z4u-a1-m1-cA_4z4u-a1-m1-cB 4z4v-a1-m1-cB_4z4v-a1-m1-cA 4z4w-a1-m1-cB_4z4w-a1-m1-cA 4z4y-a1-m1-cB_4z4y-a1-m1-cA 4z4z-a1-m1-cB_4z4z-a1-m1-cA 5bsx-a1-m1-cA_5bsx-a1-m1-cB 5bsy-a1-m1-cA_5bsy-a1-m1-cB 5hza-a1-m1-cB_5hza-a1-m1-cA 5hzb-a1-m1-cB_5hzb-a1-m1-cA 5o03-a1-m1-cA_5o03-a1-m1-cB 5o04-a1-m1-cA_5o04-a1-m1-cB 5o05-a1-m1-cA_5o05-a1-m1-cB 5omm-a1-m1-cB_5omm-a1-m1-cA 6gw1-a1-m1-cA_6gw1-a1-m1-cB 6gw2-a1-m1-cA_6gw2-a1-m1-cB 6gy9-a1-m1-cB_6gy9-a1-m1-cA SKPFTLPILTLGELTNSRFPLPIDVLYTNPNESAIVQCQNGRCTLDGELQGTTQLLPTGICAFRGKVTQQVQDEHRGTHWNMTVTNLNGTPFDPTEDVPAPLGTPDFSGQIYGVISQRNTNTVPGEGNLPANRAHEAVIATYSPKFTPKLGNIQFSTWETQDVSSGQPTKFTPVGLASVDANSHFDQWTLPSYSGALTLNMNLAPSVAPVFPGECLLFFRSFIPLKGGYGNPAIDCLMPQEWVQHLYQESAPSLSDVALVRYVNPETGRTLFEAKLHRNGFLTVARNSAGPVVAPTNGYFRFDSWVNQFYTLAPM SKPFTLPILTLGELTNSRFPLPIDVLYTNPNESAIVQCQNGRCTLDGELQGTTQLLPTGICAFRGKVTQQVQDEHRGTHWNMTVTNLNGTPFDPTEDVPAPLGTPDFSGQIYGVISQRNTNTVPGEGNLPANRAHEAVIATYSPKFTPKLGNIQFSTWETQDVSSGQPTKFTPVGLASVDANSHFDQWTLPSYSGALTLNMNLAPSVAPVFPGECLLFFRSFIPLKGGYGNPAIDCLMPQEWVQHLYQESAPSLSDVALVRYVNPETGRTLFEAKLHRNGFLTVARNSAGPVVAPTNGYFRFDSWVNQFYTLAPM 3pa7-a1-m1-cB_3pa7-a1-m1-cA Crystal structure of FKBP from plasmodium vivax in complex with tetrapeptide ALPF A5K8X6 A5K8X6 2.61 X-RAY DIFFRACTION 20 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 123 124 ETLEQVHLTEDGGVVKTILRKGEGGEENAPKKGNEVTVHYVGKLESSGKVFDSSRERNVPFKFHLGQGEVIKGWDICVASMTKNEKCSVRLDSKYGYGEEGCGESIPGNSVLIFEIELISFRE QETLEQVHLTEDGGVVKTILRKGEGGEENAPKKGNEVTVHYVGKLESSGKVFDSSRERNVPFKFHLGQGEVIKGWDICVASMTKNEKCSVRLDSKYGYGEEGCGESIPGNSVLIFEIELISFRE 3pa8-a1-m1-cB_3pa8-a1-m1-cA Structure of the C. difficile TcdB cysteine protease domain in complex with a peptide inhibitor Q189K3 Q189K3 2 X-RAY DIFFRACTION 20 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 242 245 QNIVVDKEYLLEKISSLARSSERGYIHYIVQLQGDKISYEAACNLFAKTPYDSVLFQKNIEDSEIAYYYNPGDGEIQEIDKYKIPSIISDRPKIKLTFIGHGKDEFNTDIFAGFDVDSLSTEIEAAIDLAKEDISPKSIEINLLGCNMFSYSINVEETYPGKLLLKVKDKISELMPSISQDSIIVSANQYEVRINSEGRRELLDHSGEWINKEESIIKDISSKEYISFNPKENKITVKSKNL DFSQNIVVDKEYLLEKISSLARSSERGYIHYIVQLQGDKISYEAACNLFAKTPYDSVLFQKNIEDSEIAYYYNPGDGEIQEIDKYKIPSIISDRPKIKLTFIGHGKDEFNTDIFAGFDVDSLSTEIEAAIDLAKEDISPKSIEINLLGCNMFSYSINVEETYPGKLLLKVKDKISELMPSISQDSIIVSANQYEVRINSEGRRELLDHSGEWINKEESIIKDISSKEYISFNPKENKITVKSKNL 3pac-a1-m2-cA_3pac-a1-m3-cA Crystal structure of PduT a trimeric bacterial microcompartment protein with 4Fe-4S cluster binding site B1VB78 B1VB78 1.86 X-RAY DIFFRACTION 54 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 183 183 3pac-a1-m1-cA_3pac-a1-m2-cA 3pac-a1-m1-cA_3pac-a1-m3-cA SQAIGILELTSIAKGMEAGDAMLKSANVNLLVSKTICPGKFLLMLGGDVGAVQQAIATGTSLAGDMLVDSLVLPNIHASVLPAISGLNSVDKRQAVGIVETWSVAACICAADRAVKASNVTLVRVHMAFGIGGKCYMVVAGDVSDVNNAVTVASESAGEKGLLVYRSVIPRPHESMWRQMVEG SQAIGILELTSIAKGMEAGDAMLKSANVNLLVSKTICPGKFLLMLGGDVGAVQQAIATGTSLAGDMLVDSLVLPNIHASVLPAISGLNSVDKRQAVGIVETWSVAACICAADRAVKASNVTLVRVHMAFGIGGKCYMVVAGDVSDVNNAVTVASESAGEKGLLVYRSVIPRPHESMWRQMVEG 3paj-a1-m1-cB_3paj-a1-m1-cA 2.00 Angstrom resolution crystal structure of a quinolinate phosphoribosyltransferase from Vibrio cholerae O1 biovar eltor str. N16961 Q9KPE6 Q9KPE6 2 X-RAY DIFFRACTION 190 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 297 302 SNAMKETHNSQDRLAYLKQQLPADITRSVIDTLKEDLGGTLDPAADITASLIPADRISTATIITREAGVFCGQLWADEVFKQLGGQVSIEWHVQDGDTLTPNQTLCTLTGPARILLTGERNAMNFIQTLSGCATATARYVQELKGTQCRLLDTRKTIPGLRSALKYAVACGGGYNHRIGVFDAYLIKENHIIACGGIRQAISTAKQLNPGKPVEVETETLAELEEAISAGADIIMLDNFSLEMMREAVKINAGRAALENSGNITLDNLKECAETGVDYISVGALTKHLKALDLSMRF YFQSNAMKETHNSQDRLAYLKQQLPADITRSVIDTLKEDLGGTLDPAADITASLIPADRISTATIITREAGVFCGQLWADEVFKQLGGQVSIEWHVQDGDTLTPNQTLCTLTGPARILLTGERNAMNFIQTLSGCATATARYVQELKGTQCRLLDTRKTIPGLRSALKYAVACGGGYNHRIGVFDAYLIKENHIIACGGIRQAISTAKQLNPGKPVEVETETLAELEEAISAGADIIMLDNFSLEMMREAVKINAGRAALENSGNITLDNLKECAETGVDYISVGALTKHLKALDLSMRFKS 3pas-a2-m1-cC_3pas-a2-m1-cD Crystal structure of a TetR family transcription regulator (Maqu_1417) from MARINOBACTER AQUAEOLEI VT8 at 1.90 A resolution A1U0I5 A1U0I5 1.9 X-RAY DIFFRACTION 61 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 188 188 3pas-a1-m1-cA_3pas-a1-m1-cB GRQRDDSKRIAFLEATVREVADHGFSATSVGKIAKAAGLSPATLYIYYEDKEQLLLATFYYVSDQVIDAALDSFSRGKDLREGLRRQWHTLFRIGLERPELFRYHETFTHSAWTPEIQARNESRAANLLNAVDQGKQSGLIKPVPFPLLETFFRPIYHLVQRCLQGSFEGTDEHIELAFNAWDAVADR GRQRDDSKRIAFLEATVREVADHGFSATSVGKIAKAAGLSPATLYIYYEDKEQLLLATFYYVSDQVIDAALDSFSRGKDLREGLRRQWHTLFRIGLERPELFRYHETFTHSAWTPEIQARNESRAANLLNAVDQGKQSGLIKPVPFPLLETFFRPIYHLVQRCLQGSFEGTDEHIELAFNAWDAVADR 3pay-a1-m1-cB_3pay-a1-m1-cD Crystal structure of a putative adhesin (BACOVA_04077) from Bacteroides ovatus at 2.50 A resolution A7M1U3 A7M1U3 2.5 X-RAY DIFFRACTION 71 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 302 306 3pay-a1-m1-cA_3pay-a1-m1-cC GSCDSIREDLPRCELWLEFVFDYNEYADAFNPQVKSVDVLVFDSDDKLLFTKSVKVAALVGGNRSLTDELDFGSYKVLTVGSLSDRFRLSDNAGNKLVPGTTTLQQVIVSLKRETGGVNFEFQHLYFGEVVEVDHLPSNTNHKIYPVNLIRDTNRFNLALGYEENKVDGTQYTFEIQAPENAVYSWENEPTGQGPITYVPYYTGPDVVSARLNTRLLNRSGWDYKFIIRDANTEAEVWSYNLTLLSIARPVSRYDGTELPFQEYLDRQSEWNLVFTVVEKNGGGFLQIGIVVGTWIHWLHGE GSCDSIREDLPRCELWLEFVFDYNEYADAFNPQVKSVDVLVFDSDDKLLFTKSVKVAALVGGNRSLTDELDFGSYKVLTVGSLSDRFRLSDNAGNKLVPGTTTLQQVIVSLKRETGGVNFEFQHLYFGEVVEVDHLPSNTNHKIYPVNLIRDTNRFNLALGYEENKVDGTQYTFEIQAPENAVYSWENEPTGQGPITYVPYYTGPGEISDVVSARLNTRLLNRSGWDYKFIIRDANTEAEVWSYNLTLLSIARPVSRYDGTELPFQEYLDRQSEWNLVFTVVEKNGGGFLQIGIVVGTWIHWLHGE 3pay-a1-m1-cC_3pay-a1-m1-cD Crystal structure of a putative adhesin (BACOVA_04077) from Bacteroides ovatus at 2.50 A resolution A7M1U3 A7M1U3 2.5 X-RAY DIFFRACTION 49 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 300 306 3pay-a1-m1-cA_3pay-a1-m1-cB SCDSIDLPRCELWLEFVFDYNEYADAFNPQVKSVDVLVFDSDDKLLFTKSVKVAALVGGNRSLTDELDFGSYKVLTVGSLSDRFRLSDNAGNKLVPGTTTLQQVIVSLKRETGGVNFEFQHLYFGEVVEVDHLPSNTNHKIYPVNLIRDTNRFNLALGYEENKVDGTQYTFEIQAPENAVYSWENEPTGQGPITYVPYYTGPGISDVVSARLNTRLLNRSGWDYKFIIRDANTEAEVWSYNLTLLSIARPVSRYDGTELPFQEYLDRQSEWNLVFTVVEGGGFLQIGIVVGTWIHWLHGE GSCDSIREDLPRCELWLEFVFDYNEYADAFNPQVKSVDVLVFDSDDKLLFTKSVKVAALVGGNRSLTDELDFGSYKVLTVGSLSDRFRLSDNAGNKLVPGTTTLQQVIVSLKRETGGVNFEFQHLYFGEVVEVDHLPSNTNHKIYPVNLIRDTNRFNLALGYEENKVDGTQYTFEIQAPENAVYSWENEPTGQGPITYVPYYTGPGEISDVVSARLNTRLLNRSGWDYKFIIRDANTEAEVWSYNLTLLSIARPVSRYDGTELPFQEYLDRQSEWNLVFTVVEKNGGGFLQIGIVVGTWIHWLHGE 3pb3-a3-m1-cA_3pb3-a3-m1-cB Structure of an Antibiotic Related Methyltransferase A8C927 A8C927 1.9 X-RAY DIFFRACTION 39 1.0 562 (Escherichia coli) 562 (Escherichia coli) 199 199 LILKGTKTVDLSKDELTEIIGQFDRVHIDMGTGDGRNIYKLAINDQNTFYIGIDPVKENLFDISKKIIKKPSKGGLSNVVFVIAAAESMPFELKNIADSISILFPWGTLLEYVIKPNRDILSNVADMAKKEAHFEFVTTYSDKAYFLSEQYKAELSNSGFRIDDVKELDNEYVKQFNSMWAKRLAFGRKRSFFRVSGHV LILKGTKTVDLSKDELTEIIGQFDRVHIDMGTGDGRNIYKLAINDQNTFYIGIDPVKENLFDISKKIIKKPSKGGLSNVVFVIAAAESMPFELKNIADSISILFPWGTLLEYVIKPNRDILSNVADMAKKEAHFEFVTTYSDKAYFLSEQYKAELSNSGFRIDDVKELDNEYVKQFNSMWAKRLAFGRKRSFFRVSGHV 3pbf-a1-m2-cA_3pbf-a1-m3-cA Surfactant Protein-A neck and carbohydrate recognition domain (NCRD) complexed with glycerol P08427 P08427 1.8 X-RAY DIFFRACTION 47 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 145 145 1r13-a1-m1-cA_1r13-a1-m2-cA 1r13-a1-m1-cA_1r13-a1-m3-cA 1r13-a1-m2-cA_1r13-a1-m3-cA 1r14-a1-m1-cA_1r14-a1-m2-cA 1r14-a1-m1-cA_1r14-a1-m3-cA 1r14-a1-m2-cA_1r14-a1-m3-cA 3pak-a1-m1-cA_3pak-a1-m2-cA 3pak-a1-m1-cA_3pak-a1-m3-cA 3pak-a1-m2-cA_3pak-a1-m3-cA 3paq-a1-m1-cA_3paq-a1-m2-cA 3paq-a1-m1-cA_3paq-a1-m3-cA 3paq-a1-m2-cA_3paq-a1-m3-cA 3par-a1-m1-cA_3par-a1-m2-cA 3par-a1-m1-cA_3par-a1-m3-cA 3par-a1-m2-cA_3par-a1-m3-cA 3pbf-a1-m1-cA_3pbf-a1-m2-cA 3pbf-a1-m1-cA_3pbf-a1-m3-cA 4wr9-a1-m1-cA_4wr9-a1-m2-cA 4wr9-a1-m1-cA_4wr9-a1-m3-cA 4wr9-a1-m2-cA_4wr9-a1-m3-cA 4wrc-a1-m1-cA_4wrc-a1-m2-cA 4wrc-a1-m1-cA_4wrc-a1-m3-cA 4wrc-a1-m2-cA_4wrc-a1-m3-cA 4wre-a1-m1-cA_4wre-a1-m2-cA 4wre-a1-m1-cA_4wre-a1-m3-cA 4wre-a1-m2-cA_4wre-a1-m3-cA 4wrf-a1-m1-cA_4wrf-a1-m2-cA 4wrf-a1-m1-cA_4wrf-a1-m3-cA 4wrf-a1-m2-cA_4wrf-a1-m3-cA 4wuw-a1-m1-cA_4wuw-a1-m2-cA 4wuw-a1-m1-cA_4wuw-a1-m3-cA 4wuw-a1-m2-cA_4wuw-a1-m3-cA 4wux-a1-m1-cA_4wux-a1-m2-cA 4wux-a1-m1-cA_4wux-a1-m3-cA 4wux-a1-m2-cA_4wux-a1-m3-cA 5ffr-a1-m1-cA_5ffr-a1-m2-cA 5ffr-a1-m1-cA_5ffr-a1-m3-cA 5ffr-a1-m2-cA_5ffr-a1-m3-cA 5ffs-a1-m1-cA_5ffs-a1-m2-cA 5ffs-a1-m1-cA_5ffs-a1-m3-cA 5ffs-a1-m2-cA_5ffs-a1-m3-cA 5fft-a1-m1-cA_5fft-a1-m2-cA 5fft-a1-m1-cA_5fft-a1-m3-cA 5fft-a1-m2-cA_5fft-a1-m3-cA DEELQTELYEIKHQILQTMGVLSLQGSMLSVGDKVFSTNGQSVNFDTIKEMCTRAGGNIAVPRTPEENEAIASIAKKYNNYVYLGMIEDQTPGDFHYLDGASVSYTNWYPGEPRGQGKEKCVEMYTDGTWNDRGCLQYRLAVCEF DEELQTELYEIKHQILQTMGVLSLQGSMLSVGDKVFSTNGQSVNFDTIKEMCTRAGGNIAVPRTPEENEAIASIAKKYNNYVYLGMIEDQTPGDFHYLDGASVSYTNWYPGEPRGQGKEKCVEMYTDGTWNDRGCLQYRLAVCEF 3pbj-a3-m2-cB_3pbj-a3-m2-cA Hydrolytic catalysis and structural stabilization in a designed metalloprotein 2.2 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 28 3pbj-a1-m1-cA_3pbj-a1-m1-cC 3pbj-a1-m1-cB_3pbj-a1-m1-cA 3pbj-a2-m1-cF_3pbj-a2-m1-cD 3pbj-a2-m1-cF_3pbj-a2-m1-cE 3pbj-a3-m1-cF_3pbj-a3-m1-cD 3pbj-a3-m1-cF_3pbj-a3-m1-cE 3pbj-a3-m2-cA_3pbj-a3-m2-cC EWEALEKKAALESKLQALEKKHEALEH EWEALEKKAALESKLQALEKKHEALEHG 3pbj-a3-m2-cB_3pbj-a3-m2-cC Hydrolytic catalysis and structural stabilization in a designed metalloprotein 2.2 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 28 3pbj-a1-m1-cB_3pbj-a1-m1-cC 3pbj-a2-m1-cD_3pbj-a2-m1-cE 3pbj-a3-m1-cD_3pbj-a3-m1-cE EWEALEKKAALESKLQALEKKHEALEH EWEALEKKAALESKLQALEKKHEALEHG 3pc3-a2-m1-cA_3pc3-a2-m2-cA Full length structure of cystathionine beta-synthase from Drosophila in complex with aminoacrylate Q9VRD9 Q9VRD9 1.55 X-RAY DIFFRACTION 236 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 504 504 3pc2-a2-m1-cA_3pc2-a2-m2-cA 3pc4-a1-m1-cA_3pc4-a1-m2-cA YERPADFIDPGKPSKCKWHLGTAEKSPHIHRGIAHRQQITPNILEVIGCTPLVKLNNIPASDGIECEMYAKCEFLNPGGSVKDRIGYRMVQDAEEQGLLKPGYTIIEPTSGNTGIGLAMACAVKGYKCIIVMPEKMSNEKVSALRTLGAKIIRTPTEAAYDSPEGLIYVAQQLQRETPNSIVLDQYRNAGNPLAHYDGTAAEILWQLDNKVDMIVVSAGTAGTISGIGRKIKEQVPSCQIVGVDPYGSILARPAELNKTDVQFYEVEGIGYDFPPTVFDDTVVDVWTKIGDSDCFPMSRRLNAEEGLLCGGSSGGAMHAALEHARKLKKGQRCVVILPDGIRNYMTKFVSDNWMEARNFKEPVNEHGHWWWSLAIAELELPAPPVILKSDATVGEAIALMKKHRVDQLPVVDQDDGSVLGVVGQETLITQIVSMNRQQSDPAIKALNKRVIRLNESEILGKLARVLEVDPSVLILGKNPAGKVELKALATKLDVTTFIAAGKQK YERPADFIDPGKPSKCKWHLGTAEKSPHIHRGIAHRQQITPNILEVIGCTPLVKLNNIPASDGIECEMYAKCEFLNPGGSVKDRIGYRMVQDAEEQGLLKPGYTIIEPTSGNTGIGLAMACAVKGYKCIIVMPEKMSNEKVSALRTLGAKIIRTPTEAAYDSPEGLIYVAQQLQRETPNSIVLDQYRNAGNPLAHYDGTAAEILWQLDNKVDMIVVSAGTAGTISGIGRKIKEQVPSCQIVGVDPYGSILARPAELNKTDVQFYEVEGIGYDFPPTVFDDTVVDVWTKIGDSDCFPMSRRLNAEEGLLCGGSSGGAMHAALEHARKLKKGQRCVVILPDGIRNYMTKFVSDNWMEARNFKEPVNEHGHWWWSLAIAELELPAPPVILKSDATVGEAIALMKKHRVDQLPVVDQDDGSVLGVVGQETLITQIVSMNRQQSDPAIKALNKRVIRLNESEILGKLARVLEVDPSVLILGKNPAGKVELKALATKLDVTTFIAAGKQK 3pc6-a1-m1-cA_3pc6-a1-m1-cB X-ray crystal structure of the second XRCC1 BRCT domain. Q60596 Q60596 1.9 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 99 103 ELPDFFEGKHFFLYGEFPGDERRRLIRYVTAFNGELEDYMNERVQFVITAQEWDPNFEEALMENPSLAFVRPRWIYSCNEKQKLLPHQLYGVVPQAHHH PELPDFFEGKHFFLYGEFPGDERRRLIRYVTAFNGELEDYMNERVQFVITAQEWDPNFEEALMENPSLAFVRPRWIYSCNEKQKLLPHQLYGVVPQAHHHHHH 3pc7-a2-m1-cB_3pc7-a2-m2-cB X-ray crystal structure of the DNA ligase III-alpha BRCT domain. P49916 P49916 1.65 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 3pc7-a1-m1-cA_3pc7-a1-m2-cA VLLDIFTGVRLYLPPSTPDFSRLRRYFVAFDGDLVQEFDTSATHVLGSRDKNPAAQQVSPEWIWACIRKRRLVAPS VLLDIFTGVRLYLPPSTPDFSRLRRYFVAFDGDLVQEFDTSATHVLGSRDKNPAAQQVSPEWIWACIRKRRLVAPS 3pci-a1-m1-cA_3pci-a1-m2-cB STRUCTURE OF PROTOCATECHUATE 3,4-DIOXYGENASE COMPLEXED WITH 3-IODO-4-HYDROXYBENZOATE P00436 P00436 2.21 X-RAY DIFFRACTION 14 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 200 200 PIELLPETPSQTAGPYVHIGLALEAAGNPTRDQEIWNRLAKPDAPGEHILLLGQVYDGNGHLVRDSFLEVWQADANGEYQDAYNLENAFNSFGRTATTFDAGEWTLHTVKPGVVNNAAGVPMAPHINISLFARGINIHLHTRLYFDDEAQANAKCPVLNLIEQPQRRETLIAKRCEVDGKTAYRFDIRIQGEGETVFFDF PIELLPETPSQTAGPYVHIGLALEAAGNPTRDQEIWNRLAKPDAPGEHILLLGQVYDGNGHLVRDSFLEVWQADANGEYQDAYNLENAFNSFGRTATTFDAGEWTLHTVKPGVVNNAAGVPMAPHINISLFARGINIHLHTRLYFDDEAQANAKCPVLNLIEQPQRRETLIAKRCEVDGKTAYRFDIRIQGEGETVFFDF 3pco-a1-m1-cA_3pco-a1-m1-cC crystal structure of E. coli phenylalanine-tRNA synthetase complexed with phenylalanine and AMP P08312 P08312 3.02 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 242 323 RLAAETIDVSLPGRRIENGGLHPVTRTIDRIESFFGELGFTVATGPEIEDDYHNFDALNIPGHHPARADHDTFWFDTTRLLRTQTSGVQIRTMKAQQPPIRIIAPGRVYRNDYDQTHTPMFHQMEGLIVDTNISFTNLKGTLHDFLRNFFEEDLQIRFRPSYFPFTEPSAEVDVMGKNGKWLEVLGCGMVHPNVLRNVGIDPEVYSGFAFGMGMERLTMLRYGVTDLRSFFENDLRFLKQFK AELVASAKAAISQASDVAALDNVRVEYLGKKGHLTLQMTTLRELPPEERPAAGAVINEAKEQVQQALNARKAELESAALNARLAAETIDVSLPGRRIENGGLHPVTRTIDRIESFFGELGFTVATGPEIEDDYHNFDALNIPGHHPARADHDTFWFDTTRLLRTQTSGVQIRTMKAQQPPIRIIAPGRVYRNDYDQTHTPMFHQMEGLIVDTNISFTNLKGTLHDFLRNFFEEDLQIRFRPSYFPFTEPSAEVDVMGKNGKWLEVLGCGMVHPNVLRNVGIDPEVYSGFAFGMGMERLTMLRYGVTDLRSFFENDLRFLKQFK 3pct-a2-m1-cC_3pct-a2-m2-cC Structure of the class C acid phosphatase from Pasteurella multocida B9VWB2 B9VWB2 1.85 X-RAY DIFFRACTION 222 1.0 747 (Pasteurella multocida) 747 (Pasteurella multocida) 255 255 3pct-a1-m1-cA_3pct-a1-m1-cB NQQAVEQANQAKLQQQVAMGLIWTQQSGEYAALAHQAFNSAKMAFDHAKAKKGKKKAVVVDLDETMIDNSAYAGWQVQSGQGFSPKTWTKWVDARQSAAIPGAVEFSNYVNANGGTMFFVSNRRDDVEKAGTVDDMKRLGFTGVNDKTLLLKKDKSNKSVRFKQVEDMGYDIVLFVGDNLNDFGDATYKKSNAERRDFVAKNSKAFGKKFIVLPNTQYGDWEGGLDKNYFKGDSQSKLDVRAKAIHAWDGHHHHH NQQAVEQANQAKLQQQVAMGLIWTQQSGEYAALAHQAFNSAKMAFDHAKAKKGKKKAVVVDLDETMIDNSAYAGWQVQSGQGFSPKTWTKWVDARQSAAIPGAVEFSNYVNANGGTMFFVSNRRDDVEKAGTVDDMKRLGFTGVNDKTLLLKKDKSNKSVRFKQVEDMGYDIVLFVGDNLNDFGDATYKKSNAERRDFVAKNSKAFGKKFIVLPNTQYGDWEGGLDKNYFKGDSQSKLDVRAKAIHAWDGHHHHH 3pdb-a2-m1-cC_3pdb-a2-m1-cD Crystal structure of mouse mitochondrial aspartate aminotransferase in complex with oxaloacetic acid P05202 P05202 2.4 X-RAY DIFFRACTION 201 1.0 10090 (Mus musculus) 10090 (Mus musculus) 400 401 3hlm-a1-m1-cA_3hlm-a1-m1-cB 3hlm-a2-m1-cC_3hlm-a2-m1-cD 3pd6-a1-m1-cB_3pd6-a1-m1-cA 3pd6-a2-m1-cD_3pd6-a2-m1-cC 3pdb-a1-m1-cA_3pdb-a1-m1-cB 5ax8-a1-m1-cA_5ax8-a1-m1-cC 5ax8-a2-m1-cB_5ax8-a2-m1-cD SSWWTHVEMGPPDPILGVTEAFKRDTNSKKMNLGVGAYRDDNGKPYVLPSVRKAEAQIAAKNLDKEYLPIGGLAEFCKASAELALGENNEVLKSGRFVTVQTISGTGALRVGASFLQRFFKFSRDVFLPKPSWGNHTPIFRDAGMQLQGYRYYDPKTCGFDFSGALEDISKIPEQSVLLLHACAHNPTGVDPRPEQWKEIASVVKKKNLFAFFDMAYQGFASGDGDKDAWAVRHFIEQGINVCLCQSYANMGLYGERVGAFTVVCKDAEEAKRVESQLKILIRPLYSNPPLNGARIAATILTSPDLRKQWLQEVKGMADRIISMRTQLVSNLKKEGSSHNWQHITDQIGMFCFTGLKPEQVERLTKEFSVYMTKDGRISVAGVTSGNVGYLAHAIHQVTK SSWWTHVEMGPPDPILGVTEAFKRDTNSKKMNLGVGAYRDDNGKPYVLPSVRKAEAQIAAKNLDKEYLPIGGLAEFCKASAELALGENNEVLKSGRFVTVQTISGTGALRVGASFLQRFFKFSRDVFLPKPSWGNHTPIFRDAGMQLQGYRYYDPKTCGFDFSGALEDISKIPEQSVLLLHACAHNPTGVDPRPEQWKEIASVVKKKNLFAFFDMAYQGFASGDGDKDAWAVRHFIEQGINVCLCQSYAKNMGLYGERVGAFTVVCKDAEEAKRVESQLKILIRPLYSNPPLNGARIAATILTSPDLRKQWLQEVKGMADRIISMRTQLVSNLKKEGSSHNWQHITDQIGMFCFTGLKPEQVERLTKEFSVYMTKDGRISVAGVTSGNVGYLAHAIHQVTK 3pde-a1-m1-cB_3pde-a1-m1-cA Crystal structure of geranylgeranyl pyrophosphate synthase from Lactobacillus brevis atcc 367 complexed with isoprenyl diphosphate and magnesium Q03RR4 Q03RR4 1.75 X-RAY DIFFRACTION 183 0.997 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 287 289 3m9u-a1-m1-cB_3m9u-a1-m1-cA 3m9u-a1-m1-cC_3m9u-a1-m1-cD 3m9u-a2-m1-cB_3m9u-a2-m1-cA 3m9u-a4-m3-cC_3m9u-a4-m1-cD 3pde-a2-m1-cC_3pde-a2-m2-cD SLINARLIAFEDQWVPALNAPLKQAILADSQDAQLAAAMTYSVLAGGKRLRPLLTVATMQSLGVTFVPERHWRPVMALELLHTYSLIHDDLPAMDNDALRRGEPTNHVKFGAGMATLAGDGLLTLAFQWLTATDLPATMQAALVQALATAAGPSGMVAGQAKDIQSEHVNLPLSQLRVLHKEKTGALLHYAVQAGLILGQAPEAQWPAYLQFADAFGLAFQIYDDILDVVSDADEAKNTYPGKLGLIGANQALIDTIHSGQAALQGLPTSTQRDDLAAFFSYFDTER SLINARLIAFEDQWVPALNAPLKQAILADSQDAQLAAAMTYSVLAGGKRLRPLLTVATMQSLGVTFVPERHWRPVMALELLHTYSLIHDDLPAMDNDALRRGEPTNHVKFGAGMATLAGDGLLTLAFQWLTATDLPATMQAALVQALATAAGPSGMVAGQAKDIQSEHVNLPLSQLRVLHKEKTGALLHYAVQAGLILGQAPEAQWPAYLQFADAFGLAFQIYDDILDVVSSADEAKNTYPGKLGLIGANQALIDTIHSGQAALQGLPTSTQRDDLAAFFSYFDTERVN 3pdf-a1-m2-cA_3pdf-a1-m4-cA Discovery of Novel Cyanamide-Based Inhibitors of Cathepsin C P53634 P53634 1.85 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 351 351 1k3b-a1-m1-cC_1k3b-a1-m3-cC 1k3b-a1-m2-cC_1k3b-a1-m4-cC 3pdf-a1-m1-cA_3pdf-a1-m3-cA DTPANCTYLDLLGTWVFQVGSSGSQRDVNCSVMGPQEKKVVVYLQKLDTAYDDLGNSGHFTIIYNQGFEIVLNDYKWFAFFKYKEEGSKVTTYCNETMTGWVHDVLGRNWACFTGKKVFLPTSWDWRNVHGINFVSPVRNQASCGSCYSFASMGMLEARIRILTNNSQTPILSPQEVVSCSQYAQGCEGGFPYLIAGKYAQDFGLVEEACFPYTGTDSPCKMKEDCFRYYSSEYHYVGGFYGGCNEALMKLELVHHGPMAVAFEVYDDFLHYKKGIYHHTDPFNPFELTNHAVLLVGYGTDSASGMDYWIVKNSWGTGWGENGYFRIRRGTDECAIESIAVAATPIPKLEN DTPANCTYLDLLGTWVFQVGSSGSQRDVNCSVMGPQEKKVVVYLQKLDTAYDDLGNSGHFTIIYNQGFEIVLNDYKWFAFFKYKEEGSKVTTYCNETMTGWVHDVLGRNWACFTGKKVFLPTSWDWRNVHGINFVSPVRNQASCGSCYSFASMGMLEARIRILTNNSQTPILSPQEVVSCSQYAQGCEGGFPYLIAGKYAQDFGLVEEACFPYTGTDSPCKMKEDCFRYYSSEYHYVGGFYGGCNEALMKLELVHHGPMAVAFEVYDDFLHYKKGIYHHTDPFNPFELTNHAVLLVGYGTDSASGMDYWIVKNSWGTGWGENGYFRIRRGTDECAIESIAVAATPIPKLEN 3pdi-a2-m1-cF_3pdi-a2-m1-cH Precursor bound NifEN C1DH04 C1DH04 2.4 X-RAY DIFFRACTION 65 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 432 432 3pdi-a1-m1-cB_3pdi-a1-m1-cD IINRNKALAVSPLKASQTMGAALAILGLARSMPLFHGSQGCTAFAKVFFVRHFREPVPLQTTAMDQVSSVMGADENVVEALKTICERQNPSVIGLLTTGLSETQGCDLHTALHEFRTQYEEYKDVPIVPVNTPDFSGCFESGFAAAVKAIVETLVPERRDQVGKRPRQVNVLCSANLTPGDLEYIAESIESFGLRPLLIPDLSGSLDGHLDENRFNALTTGGLSVAELATAGQSVATLVVGQSLAGAADALAERTGVPDRRFGMLYGLDAVDAWLMALAEISGNPVPDRYKRQRAQLQDAMLDTHFMLSSARTAIAADPDLLLGFDALLRSMGAHTVAAVVPARAAALVDSPLPSVRVGDLEDLEHAARAGQAQLVIGNSHALASARRLGVPLLRAGFPQYDLLGGFQRCWSGYRGSSQVLFDLANLLVEHH IINRNKALAVSPLKASQTMGAALAILGLARSMPLFHGSQGCTAFAKVFFVRHFREPVPLQTTAMDQVSSVMGADENVVEALKTICERQNPSVIGLLTTGLSETQGCDLHTALHEFRTQYEEYKDVPIVPVNTPDFSGCFESGFAAAVKAIVETLVPERRDQVGKRPRQVNVLCSANLTPGDLEYIAESIESFGLRPLLIPDLSGSLDGHLDENRFNALTTGGLSVAELATAGQSVATLVVGQSLAGAADALAERTGVPDRRFGMLYGLDAVDAWLMALAEISGNPVPDRYKRQRAQLQDAMLDTHFMLSSARTAIAADPDLLLGFDALLRSMGAHTVAAVVPARAAALVDSPLPSVRVGDLEDLEHAARAGQAQLVIGNSHALASARRLGVPLLRAGFPQYDLLGGFQRCWSGYRGSSQVLFDLANLLVEHH 3pdk-a1-m1-cB_3pdk-a1-m1-cA crystal structure of phosphoglucosamine mutase from B. anthracis Q81VN7 Q81VN7 2.7 X-RAY DIFFRACTION 113 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 444 445 KYFGTDGVRGVANKELTPELAFKIGRFGGYVLTKDTDRPKVIIGRDTRISGHMLEGALVAGLLSTGAEVMRLGVISTPGVAYLTKALDAQAGVMISASHNPVQDNGIKFFGSDGFKLTDEQEAEIEALLDKEVDELPRPTGTNLGQVSDYFEGGQKYLQYIKQTVEEDFSGLHIALDCAHGATSSLAPYLFADLEADISTMGTSPNGMNINDGVGSTHPEVLAELVKEKGADIGLAFDGDGDRLIAVDEKGNIVDGDQIMFICAKYMKETGQLKHNTVVSTVMSNLGFYKALEANGITSDKTAVGDRYVMEEMKRGGYNLGGEQSGHIILLDYITTGDGMLSALQLVNIMKMTKKPLSELAGEMTKFPQLLVNVRVTDKKLALENEKIKEIIRVVEEEMNGDGRILVRPSGTEPLIRVMAEAPTQEVCDAYVHRIVEVVKAEVG GKYFGTDGVRGVANKELTPELAFKIGRFGGYVLTKDTDRPKVIIGRDTRISGHMLEGALVAGLLSTGAEVMRLGVISTPGVAYLTKALDAQAGVMISASHNPVQDNGIKFFGSDGFKLTDEQEAEIEALLDKEVDELPRPTGTNLGQVSDYFEGGQKYLQYIKQTVEEDFSGLHIALDCAHGATSSLAPYLFADLEADISTMGTSPNGMNINDGVGSTHPEVLAELVKEKGADIGLAFDGDGDRLIAVDEKGNIVDGDQIMFICAKYMKETGQLKHNTVVSTVMSNLGFYKALEANGITSDKTAVGDRYVMEEMKRGGYNLGGEQSGHIILLDYITTGDGMLSALQLVNIMKMTKKPLSELAGEMTKFPQLLVNVRVTDKKLALENEKIKEIIRVVEEEMNGDGRILVRPSGTEPLIRVMAEAPTQEVCDAYVHRIVEVVKAEVG 3pdm-a1-m24-cP_3pdm-a1-m8-cP Hibiscus Latent Singapore virus Q8BE68 Q8BE68 3.5 FIBER DIFFRACTION 50 1.0 185955 (Hibiscus latent Singapore virus) 185955 (Hibiscus latent Singapore virus) 162 162 3pdm-a1-m10-cP_3pdm-a1-m26-cP 3pdm-a1-m11-cP_3pdm-a1-m27-cP 3pdm-a1-m12-cP_3pdm-a1-m28-cP 3pdm-a1-m13-cP_3pdm-a1-m29-cP 3pdm-a1-m14-cP_3pdm-a1-m30-cP 3pdm-a1-m15-cP_3pdm-a1-m31-cP 3pdm-a1-m16-cP_3pdm-a1-m32-cP 3pdm-a1-m17-cP_3pdm-a1-m33-cP 3pdm-a1-m18-cP_3pdm-a1-m2-cP 3pdm-a1-m18-cP_3pdm-a1-m34-cP 3pdm-a1-m19-cP_3pdm-a1-m35-cP 3pdm-a1-m19-cP_3pdm-a1-m3-cP 3pdm-a1-m1-cP_3pdm-a1-m17-cP 3pdm-a1-m20-cP_3pdm-a1-m36-cP 3pdm-a1-m20-cP_3pdm-a1-m4-cP 3pdm-a1-m21-cP_3pdm-a1-m37-cP 3pdm-a1-m21-cP_3pdm-a1-m5-cP 3pdm-a1-m22-cP_3pdm-a1-m38-cP 3pdm-a1-m22-cP_3pdm-a1-m6-cP 3pdm-a1-m23-cP_3pdm-a1-m39-cP 3pdm-a1-m23-cP_3pdm-a1-m7-cP 3pdm-a1-m24-cP_3pdm-a1-m40-cP 3pdm-a1-m26-cP_3pdm-a1-m42-cP 3pdm-a1-m27-cP_3pdm-a1-m43-cP 3pdm-a1-m28-cP_3pdm-a1-m44-cP 3pdm-a1-m29-cP_3pdm-a1-m45-cP 3pdm-a1-m30-cP_3pdm-a1-m46-cP 3pdm-a1-m31-cP_3pdm-a1-m47-cP 3pdm-a1-m32-cP_3pdm-a1-m48-cP 3pdm-a1-m33-cP_3pdm-a1-m49-cP PYLNLTPLNLIYTSGTFAPYDVFLEILVKSRSNSFQTQAGRDTLREQLINSLQIVANLNTRYPLLGFYVWVRNPTLAPVFEALLRATDTKNRIIEVEEESRPTTAETLNATQRVDDATVAIHKEIDNILLLLQGGTAVYDRTAFEVASGLSWADPTTTSTTT PYLNLTPLNLIYTSGTFAPYDVFLEILVKSRSNSFQTQAGRDTLREQLINSLQIVANLNTRYPLLGFYVWVRNPTLAPVFEALLRATDTKNRIIEVEEESRPTTAETLNATQRVDDATVAIHKEIDNILLLLQGGTAVYDRTAFEVASGLSWADPTTTSTTT 3pdm-a1-m8-cP_3pdm-a1-m9-cP Hibiscus Latent Singapore virus Q8BE68 Q8BE68 3.5 FIBER DIFFRACTION 89 1.0 185955 (Hibiscus latent Singapore virus) 185955 (Hibiscus latent Singapore virus) 162 162 3pdm-a1-m10-cP_3pdm-a1-m11-cP 3pdm-a1-m10-cP_3pdm-a1-m9-cP 3pdm-a1-m11-cP_3pdm-a1-m12-cP 3pdm-a1-m12-cP_3pdm-a1-m13-cP 3pdm-a1-m13-cP_3pdm-a1-m14-cP 3pdm-a1-m14-cP_3pdm-a1-m15-cP 3pdm-a1-m15-cP_3pdm-a1-m16-cP 3pdm-a1-m16-cP_3pdm-a1-m17-cP 3pdm-a1-m17-cP_3pdm-a1-m18-cP 3pdm-a1-m18-cP_3pdm-a1-m19-cP 3pdm-a1-m19-cP_3pdm-a1-m20-cP 3pdm-a1-m1-cP_3pdm-a1-m2-cP 3pdm-a1-m20-cP_3pdm-a1-m21-cP 3pdm-a1-m21-cP_3pdm-a1-m22-cP 3pdm-a1-m22-cP_3pdm-a1-m23-cP 3pdm-a1-m23-cP_3pdm-a1-m24-cP 3pdm-a1-m26-cP_3pdm-a1-m27-cP 3pdm-a1-m27-cP_3pdm-a1-m28-cP 3pdm-a1-m28-cP_3pdm-a1-m29-cP 3pdm-a1-m29-cP_3pdm-a1-m30-cP 3pdm-a1-m2-cP_3pdm-a1-m3-cP 3pdm-a1-m30-cP_3pdm-a1-m31-cP 3pdm-a1-m31-cP_3pdm-a1-m32-cP 3pdm-a1-m32-cP_3pdm-a1-m33-cP 3pdm-a1-m33-cP_3pdm-a1-m34-cP 3pdm-a1-m34-cP_3pdm-a1-m35-cP 3pdm-a1-m35-cP_3pdm-a1-m36-cP 3pdm-a1-m36-cP_3pdm-a1-m37-cP 3pdm-a1-m37-cP_3pdm-a1-m38-cP 3pdm-a1-m38-cP_3pdm-a1-m39-cP 3pdm-a1-m39-cP_3pdm-a1-m40-cP 3pdm-a1-m3-cP_3pdm-a1-m4-cP 3pdm-a1-m40-cP_3pdm-a1-m41-cP 3pdm-a1-m41-cP_3pdm-a1-m42-cP 3pdm-a1-m42-cP_3pdm-a1-m43-cP 3pdm-a1-m43-cP_3pdm-a1-m44-cP 3pdm-a1-m44-cP_3pdm-a1-m45-cP 3pdm-a1-m45-cP_3pdm-a1-m46-cP 3pdm-a1-m46-cP_3pdm-a1-m47-cP 3pdm-a1-m47-cP_3pdm-a1-m48-cP 3pdm-a1-m48-cP_3pdm-a1-m49-cP 3pdm-a1-m4-cP_3pdm-a1-m5-cP 3pdm-a1-m5-cP_3pdm-a1-m6-cP 3pdm-a1-m6-cP_3pdm-a1-m7-cP 3pdm-a1-m7-cP_3pdm-a1-m8-cP PYLNLTPLNLIYTSGTFAPYDVFLEILVKSRSNSFQTQAGRDTLREQLINSLQIVANLNTRYPLLGFYVWVRNPTLAPVFEALLRATDTKNRIIEVEEESRPTTAETLNATQRVDDATVAIHKEIDNILLLLQGGTAVYDRTAFEVASGLSWADPTTTSTTT PYLNLTPLNLIYTSGTFAPYDVFLEILVKSRSNSFQTQAGRDTLREQLINSLQIVANLNTRYPLLGFYVWVRNPTLAPVFEALLRATDTKNRIIEVEEESRPTTAETLNATQRVDDATVAIHKEIDNILLLLQGGTAVYDRTAFEVASGLSWADPTTTSTTT 3pdu-a2-m3-cG_3pdu-a2-m4-cG Crystal structure of gamma-hydroxybutyrate dehydrogenase from Geobacter sulfurreducens in complex with NADP+ Q74DE4 Q74DE4 1.89 X-RAY DIFFRACTION 204 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 284 284 3pdu-a1-m1-cB_3pdu-a1-m1-cD 3pdu-a1-m1-cC_3pdu-a1-m1-cA 3pdu-a2-m1-cE_3pdu-a2-m2-cE TYGFLGLGIMGGPMAANLVRAGFDVTVWNRNPAKCAPLVALGARQASSPAEVCAACDITIAMLADPAAAREVCFGANGVLEGIGGGRGYIDMSTVDDETSTAIGAAVTARGGRFLEAPVSGTKKPAEDGTLIILAAGDQSLFTDAGPAFAALGKKCLHLGEVGQGARMKLVVNMIMGQMMTALGEGMALGRNCGLDGGQLLEVLDAGAMANPMFKGKGQMLLSGEFPTSFPLKHMQKDLRLAVELGDRLGQPLHGAATANESFKRARAAGHADEDFAAVFRVLE TYGFLGLGIMGGPMAANLVRAGFDVTVWNRNPAKCAPLVALGARQASSPAEVCAACDITIAMLADPAAAREVCFGANGVLEGIGGGRGYIDMSTVDDETSTAIGAAVTARGGRFLEAPVSGTKKPAEDGTLIILAAGDQSLFTDAGPAFAALGKKCLHLGEVGQGARMKLVVNMIMGQMMTALGEGMALGRNCGLDGGQLLEVLDAGAMANPMFKGKGQMLLSGEFPTSFPLKHMQKDLRLAVELGDRLGQPLHGAATANESFKRARAAGHADEDFAAVFRVLE 3pdu-a3-m1-cF_3pdu-a3-m4-cH Crystal structure of gamma-hydroxybutyrate dehydrogenase from Geobacter sulfurreducens in complex with NADP+ Q74DE4 Q74DE4 1.89 X-RAY DIFFRACTION 52 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 286 286 3pdu-a1-m1-cB_3pdu-a1-m1-cA 3pdu-a1-m1-cC_3pdu-a1-m1-cD 3pdu-a2-m3-cG_3pdu-a2-m2-cE 3pdu-a2-m4-cG_3pdu-a2-m1-cE TTYGFLGLGIMGGPMAANLVRAGFDVTVWNRNPAKCAPLVALGARQASSPAEVCAACDITIAMLADPAAAREVCFGANGVLEGIGGGRGYIDMSTVDDETSTAIGAAVTARGGRFLEAPVSGTKKPAEDGTLIILAAGDQSLFTDAGPAFAALGKKCLHLGEVGQGARMKLVVNMIMGQMMTALGEGMALGRNCGLDGGQLLEVLDAGAMANPMFKGKGQMLLSGEFPTSFPLKHMQKDLRLAVELGDRLGQPLHGAATANESFKRARAAGHADEDFAAVFRVLEA TTYGFLGLGIMGGPMAANLVRAGFDVTVWNRNPAKCAPLVALGARQASSPAEVCAACDITIAMLADPAAAREVCFGANGVLEGIGGGRGYIDMSTVDDETSTAIGAAVTARGGRFLEAPVSGTKKPAEDGTLIILAAGDQSLFTDAGPAFAALGKKCLHLGEVGQGARMKLVVNMIMGQMMTALGEGMALGRNCGLDGGQLLEVLDAGAMANPMFKGKGQMLLSGEFPTSFPLKHMQKDLRLAVELGDRLGQPLHGAATANESFKRARAAGHADEDFAAVFRVLEA 3pdy-a3-m1-cA_3pdy-a3-m2-cB Structure of the third and fourth spectrin repeats of the plakin domain of plectin Q15149 Q15149 2.2182 X-RAY DIFFRACTION 53 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 202 205 EDSTLRYLQDLLAWVEENQHRVDGAEWGVDLPSVEAQLGSHRGLHQSIEEFRAKIERARSDEGQLSPATRGAYRDCLGRLDLQYAKLLNSSKARLRSLESLHSFVAAATKELMWLNEKEEEEVGFDWSDRNTNMTAKKESYSALMRELELKEKKIKELQNAGDRLLREDHPARPTVESFQAALQTQWSWMLQLCCCIEAHLK HMELEDSTLRYLQDLLAWVEENQHRVDGAEWGVDLPSVEAQLGSHRGLHQSIEEFRAKIERARSDEGQLSPATRGAYRDCLGRLDLQYAKLLNSSKARLRSLESLHSFVAAATKELMWLNEKEEEEVGFDWSDRNTNMTAKKESYSALMRELELKEKKIKELQNAGDRLLREDHPARPTVESFQAALQTQWSWMLQLCCCIEAHL 3pe8-a1-m3-cA_3pe8-a1-m6-cA Crystal structure of Enoyl-CoA hydratase from Mycobacterium smegmatis A0QVP0 A0QVP0 1.6 X-RAY DIFFRACTION 26 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 219 219 3pe8-a1-m1-cA_3pe8-a1-m5-cA 3pe8-a1-m2-cA_3pe8-a1-m4-cA SPVLLVDTTDRVRTLTLNRPQSRNALSAELRSTFFRALSDAQNDDDVDVVIVTGADPVFCAGLDLKELSPKWPDMTKPVIGAINGAAVTGGLELALYCDILIASENAKFADTHARVGLMPTWGLSVRLPQKVGVGLARRMSLTGDYLSAQDALRAGLVTEVVAHDDLLTAARRVAASIVGNNQKAVRALLDSYHRIDALQTGGALWAEAEAARQWMRST SPVLLVDTTDRVRTLTLNRPQSRNALSAELRSTFFRALSDAQNDDDVDVVIVTGADPVFCAGLDLKELSPKWPDMTKPVIGAINGAAVTGGLELALYCDILIASENAKFADTHARVGLMPTWGLSVRLPQKVGVGLARRMSLTGDYLSAQDALRAGLVTEVVAHDDLLTAARRVAASIVGNNQKAVRALLDSYHRIDALQTGGALWAEAEAARQWMRST 3pe8-a1-m5-cA_3pe8-a1-m6-cA Crystal structure of Enoyl-CoA hydratase from Mycobacterium smegmatis A0QVP0 A0QVP0 1.6 X-RAY DIFFRACTION 92 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 219 219 3pe8-a1-m1-cA_3pe8-a1-m2-cA 3pe8-a1-m1-cA_3pe8-a1-m3-cA 3pe8-a1-m2-cA_3pe8-a1-m3-cA 3pe8-a1-m4-cA_3pe8-a1-m5-cA 3pe8-a1-m4-cA_3pe8-a1-m6-cA SPVLLVDTTDRVRTLTLNRPQSRNALSAELRSTFFRALSDAQNDDDVDVVIVTGADPVFCAGLDLKELSPKWPDMTKPVIGAINGAAVTGGLELALYCDILIASENAKFADTHARVGLMPTWGLSVRLPQKVGVGLARRMSLTGDYLSAQDALRAGLVTEVVAHDDLLTAARRVAASIVGNNQKAVRALLDSYHRIDALQTGGALWAEAEAARQWMRST SPVLLVDTTDRVRTLTLNRPQSRNALSAELRSTFFRALSDAQNDDDVDVVIVTGADPVFCAGLDLKELSPKWPDMTKPVIGAINGAAVTGGLELALYCDILIASENAKFADTHARVGLMPTWGLSVRLPQKVGVGLARRMSLTGDYLSAQDALRAGLVTEVVAHDDLLTAARRVAASIVGNNQKAVRALLDSYHRIDALQTGGALWAEAEAARQWMRST 3pea-a2-m1-cF_3pea-a2-m1-cE Crystal structure of enoyl-CoA hydratase from Bacillus anthracis str. 'Ames Ancestor' A0A6L7GYV0 A0A6L7GYV0 1.817 X-RAY DIFFRACTION 97 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 249 250 3pea-a1-m1-cA_3pea-a1-m1-cB 3pea-a1-m1-cA_3pea-a1-m1-cC 3pea-a1-m1-cB_3pea-a1-m1-cC 3pea-a2-m1-cD_3pea-a2-m1-cE 3pea-a2-m1-cF_3pea-a2-m1-cD LKFLSVRVEDHIAVATLNHAPANASSQVHDVTELIDQVEKDDNIRVVVIHGEGRFFSAGADIKEFTSTEAKQATELAQLGQVTFERVEKCSKPVIAAIHGAALGGGLEFASCHRFATESAKLGLPELTLGLIPGFAGTQRLPRYVGKAKACELTSTPITGAEALKWGLVNGVFAEETFLDDTLKVAKQIAGKSPATARAVLELLQTTKSSHYYEGVQREAQIFGEVFTSEDGREGVAAFLEKRKPSFSG LKFLSVRVEDHIAVATLNHAPANASSQVHDVTELIDQVEKDDNIRVVVIHGEGRFFSAGADIKEFTSVTEAKQATELAQLGQVTFERVEKCSKPVIAAIHGAALGGGLEFASCHRFATESAKLGLPELTLGLIPGFAGTQRLPRYVGKAKACELTSTPITGAEALKWGLVNGVFAEETFLDDTLKVAKQIAGKSPATARAVLELLQTTKSSHYYEGVQREAQIFGEVFTSEDGREGVAAFLEKRKPSFSG 3pef-a2-m1-cE_3pef-a2-m1-cH Crystal structure of gamma-hydroxybutyrate dehydrogenase from Geobacter metallireducens in complex with NADP+ Q39R98 Q39R98 2.07 X-RAY DIFFRACTION 48 0.996 28232 (Geobacter metallireducens) 28232 (Geobacter metallireducens) 285 285 3pef-a1-m1-cB_3pef-a1-m1-cC 3pef-a1-m1-cD_3pef-a1-m1-cA 3pef-a2-m1-cF_3pef-a2-m1-cG SQKFGFIGLGIMGSAMAKNLVKAGCSVTIWNRSPEKAEELAALGAERAATPEVVESCPVTFAMLADPAAAEEVCFGKHGVLEGIGEGRGYVDMSTVDPATSQRIGVAVVAKGGRFLEAPVSGSKKPAEDGTLIILAAGDRNLYDEAMPGFEKMGKKIIHLGDVGKGAEMKLVVNMVMGGMMACFCEGLALGEKAGLATDAILDVIGAGAMANPMFALKGGLIRDRNFAPAFPLKHMQKDLRLAVALGDRVGQPLVASAAANELFKGARAAGFGDEDFSAIFKTYE QKFGFIGLGIMGSAMAKNLVKAGCSVTIWNRSPEKAEELAALGAERAATPEVVESCPVTFAMLADPAAAEEVCFGKHGVLEGIGEGRGYVDMSTVDPATSQRIGVAVVAKGGRFLEAPVSGSKKPAEDGTLIILAAGDRNLYDEAMPGFEKMGKKIIHLGDVGKGAEMKLVVNMVMGGMMACFCEGLALGEKAGLATDAILDVIGAGAMANPMFALKGGLIRDRNFAPAFPLKHMQKDLRLAVALGDRVGQPLVASAAANELFKGARAAGFGDEDFSAIFKTYER 3pef-a2-m1-cF_3pef-a2-m1-cH Crystal structure of gamma-hydroxybutyrate dehydrogenase from Geobacter metallireducens in complex with NADP+ Q39R98 Q39R98 2.07 X-RAY DIFFRACTION 201 1.0 28232 (Geobacter metallireducens) 28232 (Geobacter metallireducens) 284 285 3pef-a1-m1-cA_3pef-a1-m1-cC 3pef-a1-m1-cD_3pef-a1-m1-cB 3pef-a2-m1-cE_3pef-a2-m1-cG QKFGFIGLGIMGSAMAKNLVKAGCSVTIWNRSPEKAEELAALGAERAATPEVVESCPVTFAMLADPAAAEEVCFGKHGVLEGIGEGRGYVDMSTVDPATSQRIGVAVVAKGGRFLEAPVSGSKKPAEDGTLIILAAGDRNLYDEAMPGFEKMGKKIIHLGDVGKGAEMKLVVNMVMGGMMACFCEGLALGEKAGLATDAILDVIGAGAMANPMFALKGGLIRDRNFAPAFPLKHMQKDLRLAVALGDRVGQPLVASAAANELFKGARAAGFGDEDFSAIFKTYE QKFGFIGLGIMGSAMAKNLVKAGCSVTIWNRSPEKAEELAALGAERAATPEVVESCPVTFAMLADPAAAEEVCFGKHGVLEGIGEGRGYVDMSTVDPATSQRIGVAVVAKGGRFLEAPVSGSKKPAEDGTLIILAAGDRNLYDEAMPGFEKMGKKIIHLGDVGKGAEMKLVVNMVMGGMMACFCEGLALGEKAGLATDAILDVIGAGAMANPMFALKGGLIRDRNFAPAFPLKHMQKDLRLAVALGDRVGQPLVASAAANELFKGARAAGFGDEDFSAIFKTYER 3peh-a3-m1-cA_3peh-a3-m2-cB Crystal Structure of the N-terminal domain of an HSP90 from Plasmodium Falciparum, PFL1070c in the presence of a thienopyrimidine derivative Q8I0V4 Q8I0V4 2.75 X-RAY DIFFRACTION 57 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 261 262 3pej-a3-m1-cA_3pej-a3-m2-cB ESMESHQYQTEVTRLMDIIVNSLYTQKEVFLRELISNAADALEKIRFLSLSDESVLGEEKKLEIRISANKEKNILSITDTGIGMTKVDLINNLGTIAKSGTSNFLEAISKSGGDMSLIGQFGVGFYSAFLVADKVIVYTKNNDDEQYIWESTADAKFTIYKDPRGATLKRGTRISLHLKEDATNLLNDKKLMDLISKYSQFIQFPIYLLHENVYTEEVLADIAKDMVNDPNYDSVKVEETDDPNKKTRTVEKKVKKWTLMN TESMESHQYQTEVTRLMDIIVNSLYTQKEVFLRELISNAADALEKIRFLSLSDESVLGEEKKLEIRISANKEKNILSITDTGIGMTKVDLINNLGTIAKSGTSNFLEAISKSGGDMSLIGQFGVGFYSAFLVADKVIVYTKNNDDEQYIWESTADAKFTIYKDPRGATLKRGTRISLHLKEDATNLLNDKKLMDLISKYSQFIQFPIYLLHENVYTEEVLADIAKDMVNDPNYDSVKVEETDDPNKKTRTVEKKVKKWTLMN 3pei-a1-m1-cA_3pei-a1-m6-cA Crystal Structure of Cytosol Aminopeptidase from Francisella tularensis Q5NFC1 Q5NFC1 2.7 X-RAY DIFFRACTION 76 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 436 436 3pei-a1-m2-cA_3pei-a1-m5-cA 3pei-a1-m3-cA_3pei-a1-m4-cA KIVVNNQSTLAAELIVAQENLQKLVEQTLDRRIFKAKSGEVLPLLHGDKIVILLGLGLRQDFIASEYDKIIAKAAEQLKKLAIKEISVDIDYAFENDNVKQFTLDTVRALISETYVFDQLKTEKENYSLEQIELVYSGDQDIEDSAKIGSAIACGQNYAKDLQNLPANICTTDYLNEARELTSKYATFSLDYLDQDAAELGGCALAVGRGSYSNYTVCEYKGGNEGDAPIVLVGKGLVFDNGKDGGVAAVGTKAIALNLPVNVVGVGLAENYRPGDVLKSKGITVEVSNTDAEGRLVLCDTLTYIGKYKPKAVIDLATLTGAIISLGDAYSGFANSDKLANSLEQAANASNDLIWRLPLHKPYLKKIESKVADDNCGRDRSAGSIVAALFLSKFTEDYEWAHLDIAGSAGDASCKASGRPVPLLVHYLISQAKENL KIVVNNQSTLAAELIVAQENLQKLVEQTLDRRIFKAKSGEVLPLLHGDKIVILLGLGLRQDFIASEYDKIIAKAAEQLKKLAIKEISVDIDYAFENDNVKQFTLDTVRALISETYVFDQLKTEKENYSLEQIELVYSGDQDIEDSAKIGSAIACGQNYAKDLQNLPANICTTDYLNEARELTSKYATFSLDYLDQDAAELGGCALAVGRGSYSNYTVCEYKGGNEGDAPIVLVGKGLVFDNGKDGGVAAVGTKAIALNLPVNVVGVGLAENYRPGDVLKSKGITVEVSNTDAEGRLVLCDTLTYIGKYKPKAVIDLATLTGAIISLGDAYSGFANSDKLANSLEQAANASNDLIWRLPLHKPYLKKIESKVADDNCGRDRSAGSIVAALFLSKFTEDYEWAHLDIAGSAGDASCKASGRPVPLLVHYLISQAKENL 3pei-a1-m3-cA_3pei-a1-m6-cA Crystal Structure of Cytosol Aminopeptidase from Francisella tularensis Q5NFC1 Q5NFC1 2.7 X-RAY DIFFRACTION 17 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 436 436 3pei-a1-m1-cA_3pei-a1-m5-cA 3pei-a1-m2-cA_3pei-a1-m4-cA KIVVNNQSTLAAELIVAQENLQKLVEQTLDRRIFKAKSGEVLPLLHGDKIVILLGLGLRQDFIASEYDKIIAKAAEQLKKLAIKEISVDIDYAFENDNVKQFTLDTVRALISETYVFDQLKTEKENYSLEQIELVYSGDQDIEDSAKIGSAIACGQNYAKDLQNLPANICTTDYLNEARELTSKYATFSLDYLDQDAAELGGCALAVGRGSYSNYTVCEYKGGNEGDAPIVLVGKGLVFDNGKDGGVAAVGTKAIALNLPVNVVGVGLAENYRPGDVLKSKGITVEVSNTDAEGRLVLCDTLTYIGKYKPKAVIDLATLTGAIISLGDAYSGFANSDKLANSLEQAANASNDLIWRLPLHKPYLKKIESKVADDNCGRDRSAGSIVAALFLSKFTEDYEWAHLDIAGSAGDASCKASGRPVPLLVHYLISQAKENL KIVVNNQSTLAAELIVAQENLQKLVEQTLDRRIFKAKSGEVLPLLHGDKIVILLGLGLRQDFIASEYDKIIAKAAEQLKKLAIKEISVDIDYAFENDNVKQFTLDTVRALISETYVFDQLKTEKENYSLEQIELVYSGDQDIEDSAKIGSAIACGQNYAKDLQNLPANICTTDYLNEARELTSKYATFSLDYLDQDAAELGGCALAVGRGSYSNYTVCEYKGGNEGDAPIVLVGKGLVFDNGKDGGVAAVGTKAIALNLPVNVVGVGLAENYRPGDVLKSKGITVEVSNTDAEGRLVLCDTLTYIGKYKPKAVIDLATLTGAIISLGDAYSGFANSDKLANSLEQAANASNDLIWRLPLHKPYLKKIESKVADDNCGRDRSAGSIVAALFLSKFTEDYEWAHLDIAGSAGDASCKASGRPVPLLVHYLISQAKENL 3pei-a1-m5-cA_3pei-a1-m6-cA Crystal Structure of Cytosol Aminopeptidase from Francisella tularensis Q5NFC1 Q5NFC1 2.7 X-RAY DIFFRACTION 36 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 436 436 3pei-a1-m1-cA_3pei-a1-m2-cA 3pei-a1-m1-cA_3pei-a1-m3-cA 3pei-a1-m2-cA_3pei-a1-m3-cA 3pei-a1-m4-cA_3pei-a1-m5-cA 3pei-a1-m4-cA_3pei-a1-m6-cA KIVVNNQSTLAAELIVAQENLQKLVEQTLDRRIFKAKSGEVLPLLHGDKIVILLGLGLRQDFIASEYDKIIAKAAEQLKKLAIKEISVDIDYAFENDNVKQFTLDTVRALISETYVFDQLKTEKENYSLEQIELVYSGDQDIEDSAKIGSAIACGQNYAKDLQNLPANICTTDYLNEARELTSKYATFSLDYLDQDAAELGGCALAVGRGSYSNYTVCEYKGGNEGDAPIVLVGKGLVFDNGKDGGVAAVGTKAIALNLPVNVVGVGLAENYRPGDVLKSKGITVEVSNTDAEGRLVLCDTLTYIGKYKPKAVIDLATLTGAIISLGDAYSGFANSDKLANSLEQAANASNDLIWRLPLHKPYLKKIESKVADDNCGRDRSAGSIVAALFLSKFTEDYEWAHLDIAGSAGDASCKASGRPVPLLVHYLISQAKENL KIVVNNQSTLAAELIVAQENLQKLVEQTLDRRIFKAKSGEVLPLLHGDKIVILLGLGLRQDFIASEYDKIIAKAAEQLKKLAIKEISVDIDYAFENDNVKQFTLDTVRALISETYVFDQLKTEKENYSLEQIELVYSGDQDIEDSAKIGSAIACGQNYAKDLQNLPANICTTDYLNEARELTSKYATFSLDYLDQDAAELGGCALAVGRGSYSNYTVCEYKGGNEGDAPIVLVGKGLVFDNGKDGGVAAVGTKAIALNLPVNVVGVGLAENYRPGDVLKSKGITVEVSNTDAEGRLVLCDTLTYIGKYKPKAVIDLATLTGAIISLGDAYSGFANSDKLANSLEQAANASNDLIWRLPLHKPYLKKIESKVADDNCGRDRSAGSIVAALFLSKFTEDYEWAHLDIAGSAGDASCKASGRPVPLLVHYLISQAKENL 3pet-a1-m1-cA_3pet-a1-m1-cB Crystal structure of a putative adhesin (BF0245) from Bacteroides fragilis NCTC 9343 at 2.07 A resolution Q5LIP7 Q5LIP7 2.07 X-RAY DIFFRACTION 124 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 216 216 GIQPSKKLITRDYKVKEFNKIDAGTVGNIYYTQSTDGKTDLQIYGPDNIVALIQVAVKDNTLFLSIDKSKKVRNFKKKITITSPTLNGISFKGVGDVHIENGLTTDNLDIESKGVGNVDIQSLTCQKLNVQSGVGDVKLEGTAQIAALHSKGVGNIEAGNLRANAVEASSQGVGDITCNATESIDAAVRGVGSIKYKGSPTIKSLSKKGVGTIKNI GIQPSKKLITRDYKVKEFNKIDAGTVGNIYYTQSTDGKTDLQIYGPDNIVALIQVAVKDNTLFLSIDKSKKVRNFKKKITITSPTLNGISFKGVGDVHIENGLTTDNLDIESKGVGNVDIQSLTCQKLNVQSGVGDVKLEGTAQIAALHSKGVGNIEAGNLRANAVEASSQGVGDITCNATESIDAAVRGVGSIKYKGSPTIKSLSKKGVGTIKNI 3pf6-a2-m1-cC_3pf6-a2-m1-cB The structure of uncharacterized protein PP-LUZ7_gp033 from Pseudomonas phage LUZ7. C8ZKC7 C8ZKC7 1.6 X-RAY DIFFRACTION 148 1.0 655097 (Pseudomonas phage LUZ7) 655097 (Pseudomonas phage LUZ7) 53 55 3pf6-a1-m1-cD_3pf6-a1-m1-cA SQFQEVRPVAQALYPTHPSTKDALEEARLLFPGGTHHDFRALGYHNTLVKVEE GSQFQEVRPVAQALYPTHPSTKDALEEARLLFPGGTHHDFRALGYHNTLVKVEEQ 3pf9-a1-m1-cA_3pf9-a1-m2-cA Crystal structure of the Lactobacillus johnsonii cinnamoyl esterase LJ0536 S106A mutant D3YEX6 D3YEX6 1.75 X-RAY DIFFRACTION 61 1.0 33959 (Lactobacillus johnsonii) 33959 (Lactobacillus johnsonii) 251 251 3pf8-a1-m1-cB_3pf8-a1-m1-cA 3pfb-a1-m1-cA_3pfb-a1-m1-cB 3pfc-a1-m1-cA_3pfc-a1-m2-cA 3qm1-a1-m1-cA_3qm1-a1-m2-cA 3s2z-a1-m1-cB_3s2z-a1-m1-cA NLYFQGMATITLERDGLQLVGTREEPFGEIYDMAIIFHGFTANRNTSLLREIANSLRDENIASVRFDFNGHGDSDGKFENMTVLNEIEDANAILNYVKTDPHVRNIYLVGHAQGGVVASMLAGLYPDLIKKVVLLAPAATLKGDALEGNTQGVTYNPDHIPDRLPFKDLTLGGFYLRIAQQLPIYEVSAQFTKPVCLIHGTDDTVVSPNASKKYDQIYQNSTLHLIEGADHCFSDSYQKNAVNLTTDFLQN NLYFQGMATITLERDGLQLVGTREEPFGEIYDMAIIFHGFTANRNTSLLREIANSLRDENIASVRFDFNGHGDSDGKFENMTVLNEIEDANAILNYVKTDPHVRNIYLVGHAQGGVVASMLAGLYPDLIKKVVLLAPAATLKGDALEGNTQGVTYNPDHIPDRLPFKDLTLGGFYLRIAQQLPIYEVSAQFTKPVCLIHGTDDTVVSPNASKKYDQIYQNSTLHLIEGADHCFSDSYQKNAVNLTTDFLQN 3pfd-a1-m1-cA_3pfd-a1-m1-cD Crystal structure of an Acyl-CoA dehydrogenase from Mycobacterium thermoresistibile bound to reduced flavin adenine dinucleotide solved by combined iodide ion SAD MR G7CNE7 G7CNE7 2.1 X-RAY DIFFRACTION 89 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 368 369 3pfd-a1-m1-cB_3pfd-a1-m1-cC EHIALREAIRALAEKEIAPYAAEVDEKARFPEEALAALNSSGFSAIHVPEEYGGQGADSVATCIVIEEVARVDCSASLIPAVNKLGTMGLILRGSEELKKQVLPAVASGEAMASYALSEREAGSDAASMRTRAVADGDDWILNGSKCWITNGGKSTWYTVMAVTDPDKGANGISAFMVHKDDEGFTVGPKERKLGIKGSPTTELYFENCRIPGDRIIGEPGTGFKTALATLDHTRPTIGAQAVGIAQGALDAAIAYTKERKQFGRPVSDNQGVQFMLADMAMKIEAARLMVYSAAARAERGGFISAASKCFASDVAMEVTTDAVQLFGGYGYTQDFPVERMMRDAKITQIYEGTNQIQRVVMSRALLR EHIALREAIRALAEKEIAPYAAEVDEKARFPEEALAALNSSGFSAIHVPEEYGGQGADSVATCIVIEEVARVDCSASLIPAVNKLGTMGLILRGSEELKKQVLPAVASGEAMASYALSEREAGSDAASMRTRAVADGDDWILNGSKCWITNGGKSTWYTVMAVTDPDKGANGISAFMVHKDDEGFTVGPKERKLGIKGSPTTELYFENCRIPGDRIIGEPGTGFKTALATLDHTRPTIGAQAVGIAQGALDAAIAYTKERKQFGRPVSDNQGVQFMLADMAMKIEAARLMVYSAAARAERGLGFISAASKCFASDVAMEVTTDAVQLFGGYGYTQDFPVERMMRDAKITQIYEGTNQIQRVVMSRALLR 3pfd-a1-m1-cC_3pfd-a1-m1-cD Crystal structure of an Acyl-CoA dehydrogenase from Mycobacterium thermoresistibile bound to reduced flavin adenine dinucleotide solved by combined iodide ion SAD MR G7CNE7 G7CNE7 2.1 X-RAY DIFFRACTION 98 0.997 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 369 369 3pfd-a1-m1-cA_3pfd-a1-m1-cB HIALREAIRALAEKEIAPYAAEVDEKARFPEEALAALNSSGFSAIHVPEEYGGQGADSVATCIVIEEVARVDCSASLIPAVNKLGTMGLILRGSEELKKQVLPAVASGEAMASYALSEREAGSDAASMRTRAVADGDDWILNGSKCWITNGGKSTWYTVMAVTDPDKGANGISAFMVHKDDEGFTVGPKERKLGIKGSPTTELYFENCRIPGDRIIGEPGTGFKTALATLDHTRPTIGAQAVGIAQGALDAAIAYTKERKQFGRPVSDNQGVQFMLADMAMKIEAARLMVYSAAARAERGDLGFISAASKCFASDVAMEVTTDAVQLFGGYGYTQDFPVERMMRDAKITQIYEGTNQIQRVVMSRALLR EHIALREAIRALAEKEIAPYAAEVDEKARFPEEALAALNSSGFSAIHVPEEYGGQGADSVATCIVIEEVARVDCSASLIPAVNKLGTMGLILRGSEELKKQVLPAVASGEAMASYALSEREAGSDAASMRTRAVADGDDWILNGSKCWITNGGKSTWYTVMAVTDPDKGANGISAFMVHKDDEGFTVGPKERKLGIKGSPTTELYFENCRIPGDRIIGEPGTGFKTALATLDHTRPTIGAQAVGIAQGALDAAIAYTKERKQFGRPVSDNQGVQFMLADMAMKIEAARLMVYSAAARAERGLGFISAASKCFASDVAMEVTTDAVQLFGGYGYTQDFPVERMMRDAKITQIYEGTNQIQRVVMSRALLR 3pfe-a1-m1-cA_3pfe-a1-m2-cA Crystal structure of a M20A metallo peptidase (dapE, lpg0809) from Legionella pneumophila subsp. pneumophila str. philadelphia 1 at 1.50 A resolution Q5ZXC3 Q5ZXC3 1.5 X-RAY DIFFRACTION 289 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 456 456 GFKPQGLYDYICQQWQEEILPSLCDYIKIPNKSPHFDAKWEEHGYEQAVNHIANWCKSHAPKGTLEIVRLKNRTPLLFEIPGQIDDTVLLYGHLDKQPESGWSDDLHPWKPVLKNGLLYGRGGADDGYSAYASLTAIRALEQQGLPYPRCILIIEACEESGSYDLPFYIELLKERIGKPSLVICLDSGAGNYEQLWTTSLRGNLVGKLTVELINEGVHSGSASGIVADSFRVARQLISRIEDENTGEIKLPQLYCDIPDERIKQAKQCAEILGEQVYSEFPWIDSAKPVIQDKQQLILNRTWRPALTVTGADGFPAIADAGNVRPVTSLKLSRLPPLVDPEAASVAEKALTQNPPYNAKVDFKIQNGGSKGWNAPLLSDWLAKAASEASTYYDKPAAYGEGGTIPFSLGEQFPKAQFITGVLGPHSNAHGPNEFLHLDVKKLTSCVSYVLYSFSQK GFKPQGLYDYICQQWQEEILPSLCDYIKIPNKSPHFDAKWEEHGYEQAVNHIANWCKSHAPKGTLEIVRLKNRTPLLFEIPGQIDDTVLLYGHLDKQPESGWSDDLHPWKPVLKNGLLYGRGGADDGYSAYASLTAIRALEQQGLPYPRCILIIEACEESGSYDLPFYIELLKERIGKPSLVICLDSGAGNYEQLWTTSLRGNLVGKLTVELINEGVHSGSASGIVADSFRVARQLISRIEDENTGEIKLPQLYCDIPDERIKQAKQCAEILGEQVYSEFPWIDSAKPVIQDKQQLILNRTWRPALTVTGADGFPAIADAGNVRPVTSLKLSRLPPLVDPEAASVAEKALTQNPPYNAKVDFKIQNGGSKGWNAPLLSDWLAKAASEASTYYDKPAAYGEGGTIPFSLGEQFPKAQFITGVLGPHSNAHGPNEFLHLDVKKLTSCVSYVLYSFSQK 3pfi-a2-m3-cB_3pfi-a2-m3-cA 2.7 Angstrom resolution crystal structure of a probable holliday junction DNA helicase (ruvB) from Campylobacter jejuni subsp. jejuni NCTC 11168 in complex with adenosine-5'-diphosphate Q9PMT7 Q9PMT7 2.695 X-RAY DIFFRACTION 75 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 277 295 3pfi-a1-m1-cB_3pfi-a1-m1-cA 3pfi-a2-m1-cB_3pfi-a2-m1-cA 3pfi-a2-m1-cB_3pfi-a2-m2-cA 3pfi-a2-m2-cB_3pfi-a2-m2-cA 3pfi-a2-m2-cB_3pfi-a2-m3-cA 3pfi-a2-m3-cB_3pfi-a2-m1-cA SNFDGYIGQESIKKNLNVFIAAAKKRNECLDHILFSGPAGLGKTTLANIISYESANIKTTAAPIEKSGDLAAILTNLSEGDILFIDEIHRLSPAIEEVLYPAEDYPKFTLIGATTRAGLSNPLRDRFGQFRLEFYKDSELALILQKAALKLNKTCEEKAALEIAKRSRSTPRIALRLLKRVRDFADVNDEEIITEKRANEALNSLGVNELGFDADLRYLELLTAAKQKPIGLASIAAALSEDENTIEDVIEPYLLANGYIERTAKGRIASAKSYSAL LRPSNFDGYIGQESIKKNLNVFIAAAKKRNECLDHILFSGPAGLGKTTLANIISYESANIKTTAAPIEKSGDLAAILTNLSEGDILFIDEIHRLSPAIEEVLYPAEDYRLAQTIKIDLPKFTLIGATTRAGLSNPLRDRFGQFRLEFYKDSELALILQKAALKLNKTCEEKAALEIAKRSRSTPRIALRLLKRVRDFADVNDEEIITEKRANEALNSLGVNELGFDADLRYLELLTAAKQKPIGLASIAAALSEDENTIEDVIEPYLLANGYIERTAKGRIASAKSYSALKLNYE 3pfm-a1-m1-cA_3pfm-a1-m2-cA Crystal structure of a EAL domain of GGDEF domain protein from Pseudomonas fluorescens Pf Q4KKF5 Q4KKF5 2.908 X-RAY DIFFRACTION 56 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 238 238 SNADHHAWHRLLDRALSEQHFQLYFQPVVAARDTHLVLHYKVLSRLLDEQGQTIPAGRFLPWLERFGWTSRLDLLLEQVLRQASHEDCLALNLSAATLADPHALNRVFEILRQHSDLGPRLTLEIGEEQLPEQALEQLTRRLRELGFSLSLQRFGGRFSIGNLARLGLAYLKIDGSYIRDIDQESDKRLFIEAIQRAAHSIDLPLIAERVETEGELQVIREGLYGVQGQLFGEPAPWG SNADHHAWHRLLDRALSEQHFQLYFQPVVAARDTHLVLHYKVLSRLLDEQGQTIPAGRFLPWLERFGWTSRLDLLLEQVLRQASHEDCLALNLSAATLADPHALNRVFEILRQHSDLGPRLTLEIGEEQLPEQALEQLTRRLRELGFSLSLQRFGGRFSIGNLARLGLAYLKIDGSYIRDIDQESDKRLFIEAIQRAAHSIDLPLIAERVETEGELQVIREGLYGVQGQLFGEPAPWG 3pfn-a1-m1-cA_3pfn-a1-m1-cB Crystal Structure of human NAD kinase O95544 O95544 2.7 X-RAY DIFFRACTION 235 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 TTFGPKACVLQNPQTIHIQDPASQRLTWNKSPKSVLVIKKRDASLLQPFKELCTHLEENIVYVEKKVLEDPAIASDESFGAVKKKFCTFREDYDDISNQIDFIICLGGDGTLLYASSLFQGSVPPVAFHLGSLGFLTPFSFENFQSQVTQVIEGNAAVVLRSRLKVRVVKQAQYQVLNEVVIDRGPSSYLSNVDVYLDGHLITTVQGDGVIVSTPTGSTAYAAAAGASIHPNVPAIITPICPHSLSFRPIVVPAGVELKILSPEARNTAWVSFDGRKRQEIRHGDSISITTSCYPLPSICVRDPVSDWFESLAQCLHH CPVTTFGPKACVLQNPQTIHIQDPASQRLTWNKSPKSVLVIKKRDASLLQPFKELCTHLEENIVYVEKKVLEDPAIASDESFGAVKKKFCTFREDYDDISNQIDFIICLGGDGTLLYASSLFQGSVPPVAFHLGSLGFLTPFSFENFQSQVTQVIEGNAAVVLRSRLKVRVVKQAQYQVLNEVVIDRGPLSNVDVYLDGHLITTVQGDGVIVSTPTGSTAYAAAAGASIHPNVPAIITPICPHSLSFRPIVVPAGVELKILSPEARNTAWVSFDGRKRQEIRHGDSISITTSCYPLPSICVRDPVSDWFESLAQCLHH 3pfn-a1-m1-cD_3pfn-a1-m1-cA Crystal Structure of human NAD kinase O95544 O95544 2.7 X-RAY DIFFRACTION 42 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 309 318 3pfn-a1-m1-cC_3pfn-a1-m1-cB CPVTTFGPKACVLTIHQDPASQRLTWNKSPKSVLVIKASLLQPFKELCTHLEENIVYVEKKVLEDPAIASDESFGAVKKKFCTFREDYDDISNQIDFIICLGGDGTLLYASSLFQGSVPPVAFHLGSLGFLTPFSFENFQSQVTQVIEAAVVLRSRLKVRVVKQAQYQVLNEVVIDRGPSSYLSNVDVYLDGHLITTVQGDGVIVSTPTGSTAYAAAAGASIHPNVPAIITPICPHSLSFRPIVVPAGVELKILSPEARNTAWVSFDGRKRQEIRHGDSISITTSCYPLPSICVRDPVSDWFESLAQCL TTFGPKACVLQNPQTIHIQDPASQRLTWNKSPKSVLVIKKRDASLLQPFKELCTHLEENIVYVEKKVLEDPAIASDESFGAVKKKFCTFREDYDDISNQIDFIICLGGDGTLLYASSLFQGSVPPVAFHLGSLGFLTPFSFENFQSQVTQVIEGNAAVVLRSRLKVRVVKQAQYQVLNEVVIDRGPSSYLSNVDVYLDGHLITTVQGDGVIVSTPTGSTAYAAAAGASIHPNVPAIITPICPHSLSFRPIVVPAGVELKILSPEARNTAWVSFDGRKRQEIRHGDSISITTSCYPLPSICVRDPVSDWFESLAQCLHH 3pfo-a1-m1-cA_3pfo-a1-m1-cB Crystal structure of a putative acetylornithine deacetylase (RPA2325) from RHODOPSEUDOMONAS PALUSTRIS CGA009 at 1.90 A resolution Q6N7D3 Q6N7D3 1.9 X-RAY DIFFRACTION 207 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 417 417 TKSDAITQSLRAAVDRNFNDQVAFLQRVQFRSVRGEEAPQQEWLAQQFADRGYKVDTFSLADVDIASHPKAAPDTIDPAGSQVVATADSDGKGRSLILQGHIDVVPEGPVDLWSDPPYEAKVRDGWIGRGAQDKGGVSAIFALDAIRTAGYAPDARVHVQTVTEEESTGNGALSTLRGYRADACLIPEPTGHTLTRAQVGAVWFRLRVRGTPVHVAYSETGTSAILSAHLIRAFEEYTKELNAQAVRDPWFGQVKNPIKFNVGIIKGGDWASSTAAWCELDCRLGLLTGDTPQEARGIEKCLADAQATDSFLSENPAELVWSGFQADPAVCEPGGVAEDVLTAAHKAAFNAPLDARLSTAVNDTRYYSVDYGIPALCYGPYGQGPHAFDERIDLESLRKTTLSIALFVAEWCGLRKL TKSDAITQSLRAAVDRNFNDQVAFLQRVQFRSVRGEEAPQQEWLAQQFADRGYKVDTFSLADVDIASHPKAAPDTIDPAGSQVVATADSDGKGRSLILQGHIDVVPEGPVDLWSDPPYEAKVRDGWIGRGAQDKGGVSAIFALDAIRTAGYAPDARVHVQTVTEEESTGNGALSTLRGYRADACLIPEPTGHTLTRAQVGAVWFRLRVRGTPVHVAYSETGTSAILSAHLIRAFEEYTKELNAQAVRDPWFGQVKNPIKFNVGIIKGGDWASSTAAWCELDCRLGLLTGDTPQEARGIEKCLADAQATDSFLSENPAELVWSGFQADPAVCEPGGVAEDVLTAAHKAAFNAPLDARLSTAVNDTRYYSVDYGIPALCYGPYGQGPHAFDERIDLESLRKTTLSIALFVAEWCGLRKL 3pfr-a2-m1-cB_3pfr-a2-m1-cC Crystal structure of D-Glucarate dehydratase related protein from Actinobacillus Succinogenes complexed with D-Glucarate A6VQF6 A6VQF6 1.899 X-RAY DIFFRACTION 70 1.0 67854 (Actinobacillus succinogenes) 67854 (Actinobacillus succinogenes) 412 412 3n6h-a1-m1-cA_3n6h-a1-m1-cB 3n6h-a1-m1-cD_3n6h-a1-m1-cC 3n6j-a1-m1-cB_3n6j-a1-m1-cA 3n6j-a1-m1-cD_3n6j-a1-m1-cC 3pfr-a1-m1-cA_3pfr-a1-m1-cD SVPVITDKVIPVAGHDSLNVGGAHSPYFTRNIVILTDNSGHTGVGEAPGGATIENALTEAIPHVVGRPISILNKIVNDHNTFELRVNAVAALEAALLDLGQFLGVPVAELLGPGKQRDEVTVLGYLFYVGDDKITDLPYQQPVTGKHEWYDIRRKKADTQAVIELAAASKDRYGFKDFKLKGGVFEGSKEIDTVIELKKHFPDARITLDPNGCWSLDEAIQLCKGLNDVLTYAEDPCIGENGYSGREIAEFRRRTGIPTATNIATNWRECHAILQSVDIPLADPHFWTLTGASRVAQLCNEWGLTWGCHSNNHFDISLAFSHVGAAAPGNPTALDTHWIWQEGDFYLTKNPLEIKDGKIKLNDKPGLGIELNDNVLKAHELHKKLPNGARNDAIPQFYYPGWKFDRKRPAVR SVPVITDKVIPVAGHDSLNVGGAHSPYFTRNIVILTDNSGHTGVGEAPGGATIENALTEAIPHVVGRPISILNKIVNDHNTFELRVNAVAALEAALLDLGQFLGVPVAELLGPGKQRDEVTVLGYLFYVGDDKITDLPYQQPVTGKHEWYDIRRKKADTQAVIELAAASKDRYGFKDFKLKGGVFEGSKEIDTVIELKKHFPDARITLDPNGCWSLDEAIQLCKGLNDVLTYAEDPCIGENGYSGREIAEFRRRTGIPTATNIATNWRECHAILQSVDIPLADPHFWTLTGASRVAQLCNEWGLTWGCHSNNHFDISLAFSHVGAAAPGNPTALDTHWIWQEGDFYLTKNPLEIKDGKIKLNDKPGLGIELNDNVLKAHELHKKLPNGARNDAIPQFYYPGWKFDRKRPAVR 3pft-a1-m1-cA_3pft-a1-m1-cB Crystal Structure of Untagged C54A Mutant Flavin Reductase (DszD) in Complex with FMN From Mycobacterium goodii B6CDL6 B6CDL6 1.601 X-RAY DIFFRACTION 182 1.0 134601 (Mycolicibacterium goodii) 134601 (Mycolicibacterium goodii) 156 157 DLSPTSLREAFGHFPSGVIAIAAEVDGTRVGLAASTFVPVSLEPPLVAFAVQNSSTTWPKLKDLPSLGISVLGEAHDTAARTLAAKTGDRFAGLETESRDSGAVFINGTSVWLESAIEQLVPAGDHTIVVLRVSDIVINEAVPPIVFHRSAFRKLG DLSPTSLREAFGHFPSGVIAIAAEVDGTRVGLAASTFVPVSLEPPLVAFAVQNSSTTWPKLKDLPSLGISVLGEAHDTAARTLAAKTGDRFAGLETESRDSGAVFINGTSVWLESAIEQLVPAGDHTIVVLRVSDIVINEAVPPIVFHRSAFRKLGA 3pg5-a6-m1-cB_3pg5-a6-m1-cD Crystal structure of protein DIP2308 from Corynebacterium diphtheriae, Northeast Structural Genomics Consortium Target CdR78 Q6NEG6 Q6NEG6 3.3 X-RAY DIFFRACTION 70 0.986 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 295 296 3pg5-a5-m1-cA_3pg5-a5-m1-cC RTISFFNNKGGVGKTTLSTNVAHYFALQGKRVLYVDCDPQCNATQLLTEEQTESIYLDGLNDEVAERNSLAKTVYAIFVPLREGESQIAAEITPRSERFGVDVLPGHPALSQIEDLSDSWQSALGRQTGPFRRIHWAGQLAHAERDDRYDVIFFDVGPSLGPFNRTVLLGCDAFVTPTATDLFSFHAFGNLARWFDAWVTQYAEIHEGNAEWKKYSADVEAKTRPLRLGGFDGEGLRYLGYTTLERFRGRFAAEAERISNSLSKHSNSTLLGHVPAYAEKINSVAANVYKALFPN RTISFFNNKGGVGKTTLSTNVAHYFALQGKRVLYVDCDPQCNATQLLTEEQTESIYLDEVAERNSLAKTVYAIFVPLREGESQIAAEITPRSERFGVDVLPGHPALSQIEDLSDSWQSALGRQTGPFRRIHWAGQLAHAERDDRYDVIFFDVGPSLGPFNRTVLLGCDAFVTPTATDLFSFHAFGNLARWFDAWVTQYAEIHEGNAEWKKYSADVEAKTRPLRLGGFDGEGLRYLGYTTLEAFERFRGRFAAEAERISNSLSKHSNSTLLGHVPHAYAEKINSVAANVYKALFPNE 3pg6-a2-m1-cB_3pg6-a2-m1-cC The carboxyl terminal domain of human deltex 3-like Q8TDB6 Q8TDB6 1.7 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 135 3pg6-a1-m1-cD_3pg6-a1-m1-cA KGNQPEGSMVFTVSRDSLPGYESFGTIVITYSMKAGIQTEEHPNPGKRYPGIQRTAYLPDNKEGRKVLKLLYRAFDQKLIFTVGYSRVLGVSDVITWNDIHHKTSRFGGPEMYGYPDPSYLKRVKEELKAKGIE QKGNQPEGSMVFTVSRDSLPGYESFGTIVITYSMKAGIQTEEHPNPGKRYPGIQRTAYLPDNKEGRKVLKLLYRAFDQKLIFTVGYSRVLGVSDVITWNDIHHKTSRFGGPEMYGYPDPSYLKRVKEELKAKGIE 3pg9-a1-m1-cA_3pg9-a1-m1-cB Thermotoga maritima DAH7P synthase in complex with inhibitor Q9WYH8 Q9WYH8 2.35 X-RAY DIFFRACTION 114 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 338 338 1rzm-a1-m1-cA_1rzm-a1-m2-cA 1rzm-a1-m1-cB_1rzm-a1-m2-cB 1vr6-a1-m1-cB_1vr6-a1-m1-cA 1vr6-a1-m1-cC_1vr6-a1-m1-cD 3pg8-a1-m1-cB_3pg8-a1-m1-cA 3pg9-a1-m1-cF_3pg9-a1-m1-cG 3pg9-a2-m1-cC_3pg9-a2-m1-cD 3pg9-a2-m1-cE_3pg9-a2-m1-cH MIVVLKPGSTEEDIRKVVKLAESYNLKCHISKGQERTVIGIIGDDRYVVADKFESLDCVESVVRVLKPYKLVSREFHPEDTVIDLGDVKIGNGYFTIIAGPCSVEGREMLMETAHFLSELGVKVLRGGAYKPRTSPYSFQGLGEKGLEYLREAADKYGMYVVTEALGEDDLPKVAEYADIIQIGARNAQNFRLLSKAGSYNKPVLLKRGFMNTIEEFLLSAEYIANSGNTKIILCERGIRTFEKATRNTLDISAVPIIRKESHLPILVDPSHSGGRRDLVIPLSRAAIAVGAHGIIVEVHPEPEKALSDGKQSLDFELFKELVQEMKKLADALGVKVN MIVVLKPGSTEEDIRKVVKLAESYNLKCHISKGQERTVIGIIGDDRYVVADKFESLDCVESVVRVLKPYKLVSREFHPEDTVIDLGDVKIGNGYFTIIAGPCSVEGREMLMETAHFLSELGVKVLRGGAYKPRTSPYSFQGLGEKGLEYLREAADKYGMYVVTEALGEDDLPKVAEYADIIQIGARNAQNFRLLSKAGSYNKPVLLKRGFMNTIEEFLLSAEYIANSGNTKIILCERGIRTFEKATRNTLDISAVPIIRKESHLPILVDPSHSGGRRDLVIPLSRAAIAVGAHGIIVEVHPEPEKALSDGKQSLDFELFKELVQEMKKLADALGVKVN 3pg9-a1-m1-cB_3pg9-a1-m1-cG Thermotoga maritima DAH7P synthase in complex with inhibitor Q9WYH8 Q9WYH8 2.35 X-RAY DIFFRACTION 49 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 338 338 1vr6-a1-m1-cB_1vr6-a1-m1-cC 1vr6-a1-m1-cD_1vr6-a1-m1-cA 3pg9-a1-m1-cA_3pg9-a1-m1-cF 3pg9-a2-m1-cC_3pg9-a2-m1-cE 3pg9-a2-m1-cD_3pg9-a2-m1-cH MIVVLKPGSTEEDIRKVVKLAESYNLKCHISKGQERTVIGIIGDDRYVVADKFESLDCVESVVRVLKPYKLVSREFHPEDTVIDLGDVKIGNGYFTIIAGPCSVEGREMLMETAHFLSELGVKVLRGGAYKPRTSPYSFQGLGEKGLEYLREAADKYGMYVVTEALGEDDLPKVAEYADIIQIGARNAQNFRLLSKAGSYNKPVLLKRGFMNTIEEFLLSAEYIANSGNTKIILCERGIRTFEKATRNTLDISAVPIIRKESHLPILVDPSHSGGRRDLVIPLSRAAIAVGAHGIIVEVHPEPEKALSDGKQSLDFELFKELVQEMKKLADALGVKVN MIVVLKPGSTEEDIRKVVKLAESYNLKCHISKGQERTVIGIIGDDRYVVADKFESLDCVESVVRVLKPYKLVSREFHPEDTVIDLGDVKIGNGYFTIIAGPCSVEGREMLMETAHFLSELGVKVLRGGAYKPRTSPYSFQGLGEKGLEYLREAADKYGMYVVTEALGEDDLPKVAEYADIIQIGARNAQNFRLLSKAGSYNKPVLLKRGFMNTIEEFLLSAEYIANSGNTKIILCERGIRTFEKATRNTLDISAVPIIRKESHLPILVDPSHSGGRRDLVIPLSRAAIAVGAHGIIVEVHPEPEKALSDGKQSLDFELFKELVQEMKKLADALGVKVN 3pg9-a2-m1-cD_3pg9-a2-m1-cE Thermotoga maritima DAH7P synthase in complex with inhibitor Q9WYH8 Q9WYH8 2.35 X-RAY DIFFRACTION 102 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 338 338 1rzm-a1-m1-cA_1rzm-a1-m1-cB 1rzm-a1-m2-cA_1rzm-a1-m2-cB 1vr6-a1-m1-cB_1vr6-a1-m1-cD 1vr6-a1-m1-cC_1vr6-a1-m1-cA 3pg9-a1-m1-cA_3pg9-a1-m1-cG 3pg9-a1-m1-cB_3pg9-a1-m1-cF 3pg9-a2-m1-cC_3pg9-a2-m1-cH MIVVLKPGSTEEDIRKVVKLAESYNLKCHISKGQERTVIGIIGDDRYVVADKFESLDCVESVVRVLKPYKLVSREFHPEDTVIDLGDVKIGNGYFTIIAGPCSVEGREMLMETAHFLSELGVKVLRGGAYKPRTSPYSFQGLGEKGLEYLREAADKYGMYVVTEALGEDDLPKVAEYADIIQIGARNAQNFRLLSKAGSYNKPVLLKRGFMNTIEEFLLSAEYIANSGNTKIILCERGIRTFEKATRNTLDISAVPIIRKESHLPILVDPSHSGGRRDLVIPLSRAAIAVGAHGIIVEVHPEPEKALSDGKQSLDFELFKELVQEMKKLADALGVKVN MIVVLKPGSTEEDIRKVVKLAESYNLKCHISKGQERTVIGIIGDDRYVVADKFESLDCVESVVRVLKPYKLVSREFHPEDTVIDLGDVKIGNGYFTIIAGPCSVEGREMLMETAHFLSELGVKVLRGGAYKPRTSPYSFQGLGEKGLEYLREAADKYGMYVVTEALGEDDLPKVAEYADIIQIGARNAQNFRLLSKAGSYNKPVLLKRGFMNTIEEFLLSAEYIANSGNTKIILCERGIRTFEKATRNTLDISAVPIIRKESHLPILVDPSHSGGRRDLVIPLSRAAIAVGAHGIIVEVHPEPEKALSDGKQSLDFELFKELVQEMKKLADALGVKVN 3pgb-a1-m1-cA_3pgb-a1-m2-cA Crystal structure of Aspergillus nidulans amine oxidase Q5B038 Q5B038 2.45 X-RAY DIFFRACTION 633 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 739 739 ASPCQITPPQEIKAPKENVWYGLTDDETADVAKWLFGRPELNLTTTENAGEWDNTIALIELHRPNKSEAIPYLDGAPTRHAHVRLNNRATTDPYFADILVGPLPVSNATTWEPLEFPYTRKTQGQVRNVEPDGETVYSEWLFKISASIADITLDLWNGTALGLENDTLDIWGIDPLWQDDGRIIRWDMFWNMADDEFDSETLLPLGLYLKSDVTGRDPSQWKLLGWMYNDIFYETTEEFRKAYWSPGFVKLKPNVDGAWAHTEQRGPVPPQDRKQPPVMIAPDGARYSVDAERKYVTWMDFSFYIAFNRDTGLSLFDIKYKGQRVLYELGLQEALAHYAANDPVQSSVAYLDSYYGFGPYAFELLKGYDCPSYASYLNTSFYKDEETHTHVDSLCLFEFDADYPMARHSTSEFVSVTKNVYFTLRSVSTIGNDYMFSYNFHMDGTIGVEVRASGYIQSAYYANNQDFGYQIHDSLSGSMHDHVLNFKADFDILGPNNTIELVSVVPVTKQFSWSGNKTRNTMQLGRSFIHSEDEARLNWGFNGQTQLHVVNQDKPNKFGEPRGYRILPSAGTAHLTVLNSSNLVHAAHWAEYDVQVTRQHDFEPTSAHPYNSQDIHNPPVDFSTFFNGESLNQTDLVVWLNLGMHHVPHTGDLPNTVFTTAHSGVAFTPLNYLPGDPSRETVNMVRVDYSDGAATAVRTFGQSNETCSVVLQPVENELWSYQGDVVVRKFPYDPNDPFY ASPCQITPPQEIKAPKENVWYGLTDDETADVAKWLFGRPELNLTTTENAGEWDNTIALIELHRPNKSEAIPYLDGAPTRHAHVRLNNRATTDPYFADILVGPLPVSNATTWEPLEFPYTRKTQGQVRNVEPDGETVYSEWLFKISASIADITLDLWNGTALGLENDTLDIWGIDPLWQDDGRIIRWDMFWNMADDEFDSETLLPLGLYLKSDVTGRDPSQWKLLGWMYNDIFYETTEEFRKAYWSPGFVKLKPNVDGAWAHTEQRGPVPPQDRKQPPVMIAPDGARYSVDAERKYVTWMDFSFYIAFNRDTGLSLFDIKYKGQRVLYELGLQEALAHYAANDPVQSSVAYLDSYYGFGPYAFELLKGYDCPSYASYLNTSFYKDEETHTHVDSLCLFEFDADYPMARHSTSEFVSVTKNVYFTLRSVSTIGNDYMFSYNFHMDGTIGVEVRASGYIQSAYYANNQDFGYQIHDSLSGSMHDHVLNFKADFDILGPNNTIELVSVVPVTKQFSWSGNKTRNTMQLGRSFIHSEDEARLNWGFNGQTQLHVVNQDKPNKFGEPRGYRILPSAGTAHLTVLNSSNLVHAAHWAEYDVQVTRQHDFEPTSAHPYNSQDIHNPPVDFSTFFNGESLNQTDLVVWLNLGMHHVPHTGDLPNTVFTTAHSGVAFTPLNYLPGDPSRETVNMVRVDYSDGAATAVRTFGQSNETCSVVLQPVENELWSYQGDVVVRKFPYDPNDPFY 3pgg-a1-m3-cA_3pgg-a1-m3-cB Crystal structure of cryptosporidium parvum u6 snrna-associated sm-like protein lsm5 Q5CXX3 Q5CXX3 2.14 X-RAY DIFFRACTION 62 0.987 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 78 80 3pgg-a1-m1-cA_3pgg-a1-m1-cB 3pgg-a1-m1-cA_3pgg-a1-m3-cB 3pgg-a1-m2-cA_3pgg-a1-m1-cB 3pgg-a1-m2-cA_3pgg-a1-m2-cB 3pgg-a1-m3-cA_3pgg-a1-m2-cB NIILPLALIDKCIGNRIYVVMKGDKEFSGVLRGFDEYVNMVLDDVQEYGFKADKRVMVNRLETILLSGNNVAMLVPGG GGNIILPLALIDKCIGNRIYVVMKGDKEFSGVLRGFDEYVNMVLDDVQEYGFKAKRVMVNRLETILLSGNNVAMLVPGGD 3pgx-a1-m1-cA_3pgx-a1-m1-cD Crystal structure of a putative carveol dehydrogenase from Mycobacterium paratuberculosis bound to nicotinamide adenine dinucleotide Q73SC8 Q73SC8 1.85 X-RAY DIFFRACTION 112 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 270 270 3pgx-a1-m1-cB_3pgx-a1-m1-cC GSLQGRVAFITGAARGQGRSHAVRLAAEGADIIACDICAPVSASVTYAPASPEDLDETARLVEDQGRKALTRVLDVRDDAALRELVADGMEQFGRLDVVVANAGVLSWGRVWELTDEQWDTVIGVNLTGTWRTLRATVPAMIEAGNGGSIVVVSSSAGLKATPGNGHYSASKHGLTALTNTLAIELGEYGIRVNSIHPYSVETPMIEPEAMMEIFARHPSFVHSFPPMPVQPNGFMTADEVADVVAWLAGDGSGTLTGTQIPVDKGALKY GSLQGRVAFITGAARGQGRSHAVRLAAEGADIIACDICAPVSASVTYAPASPEDLDETARLVEDQGRKALTRVLDVRDDAALRELVADGMEQFGRLDVVVANAGVLSWGRVWELTDEQWDTVIGVNLTGTWRTLRATVPAMIEAGNGGSIVVVSSSAGLKATPGNGHYSASKHGLTALTNTLAIELGEYGIRVNSIHPYSVETPMIEPEAMMEIFARHPSFVHSFPPMPVQPNGFMTADEVADVVAWLAGDGSGTLTGTQIPVDKGALKY 3pgx-a1-m1-cB_3pgx-a1-m1-cD Crystal structure of a putative carveol dehydrogenase from Mycobacterium paratuberculosis bound to nicotinamide adenine dinucleotide Q73SC8 Q73SC8 1.85 X-RAY DIFFRACTION 139 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 270 270 3pgx-a1-m1-cA_3pgx-a1-m1-cC GSLQGRVAFITGAARGQGRSHAVRLAAEGADIIACDICAPVSASVTYAPASPEDLDETARLVEDQGRKALTRVLDVRDDAALRELVADGMEQFGRLDVVVANAGVLSWGRVWELTDEQWDTVIGVNLTGTWRTLRATVPAMIEAGNGGSIVVVSSSAGLKATPGNGHYSASKHGLTALTNTLAIELGEYGIRVNSIHPYSVETPMIEPEAMMEIFARHPSFVHSFPPMPVQPNGFMTADEVADVVAWLAGDGSGTLTGTQIPVDKGALKY GSLQGRVAFITGAARGQGRSHAVRLAAEGADIIACDICAPVSASVTYAPASPEDLDETARLVEDQGRKALTRVLDVRDDAALRELVADGMEQFGRLDVVVANAGVLSWGRVWELTDEQWDTVIGVNLTGTWRTLRATVPAMIEAGNGGSIVVVSSSAGLKATPGNGHYSASKHGLTALTNTLAIELGEYGIRVNSIHPYSVETPMIEPEAMMEIFARHPSFVHSFPPMPVQPNGFMTADEVADVVAWLAGDGSGTLTGTQIPVDKGALKY 3pgx-a1-m1-cC_3pgx-a1-m1-cD Crystal structure of a putative carveol dehydrogenase from Mycobacterium paratuberculosis bound to nicotinamide adenine dinucleotide Q73SC8 Q73SC8 1.85 X-RAY DIFFRACTION 20 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 270 270 3pgx-a1-m1-cA_3pgx-a1-m1-cB GSLQGRVAFITGAARGQGRSHAVRLAAEGADIIACDICAPVSASVTYAPASPEDLDETARLVEDQGRKALTRVLDVRDDAALRELVADGMEQFGRLDVVVANAGVLSWGRVWELTDEQWDTVIGVNLTGTWRTLRATVPAMIEAGNGGSIVVVSSSAGLKATPGNGHYSASKHGLTALTNTLAIELGEYGIRVNSIHPYSVETPMIEPEAMMEIFARHPSFVHSFPPMPVQPNGFMTADEVADVVAWLAGDGSGTLTGTQIPVDKGALKY GSLQGRVAFITGAARGQGRSHAVRLAAEGADIIACDICAPVSASVTYAPASPEDLDETARLVEDQGRKALTRVLDVRDDAALRELVADGMEQFGRLDVVVANAGVLSWGRVWELTDEQWDTVIGVNLTGTWRTLRATVPAMIEAGNGGSIVVVSSSAGLKATPGNGHYSASKHGLTALTNTLAIELGEYGIRVNSIHPYSVETPMIEPEAMMEIFARHPSFVHSFPPMPVQPNGFMTADEVADVVAWLAGDGSGTLTGTQIPVDKGALKY 3pgy-a2-m1-cC_3pgy-a2-m1-cD Serine hydroxymethyltransferase from Staphylococcus aureus, S95P mutant. Q5HE87 Q5HE87 1.92 X-RAY DIFFRACTION 240 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 398 402 3pgy-a1-m1-cA_3pgy-a1-m1-cB AMSYITKQDKVIAEAIEREFQRQNSNIELIASENFVSEAVMEAQGSVLTNKYAEGYPGRRGGCEFVDVTESIAIDRAKALFGAEHVNVQPHSGPQANMAVYLVALEMGDTVLGMNVNFSGKFYNFVEYGVDKDTERINYDEVRKLALEHKPKLIVAGASAYSRTIDFKKFKEIADEVNAKLMVDMAHIAGLVAAGLHPNPVEYADFVTTTTHKTLRGPRGGMILCKEEYKKDIDKTIFPGIQGGPLEHVIAAKAVAFGEALENNFKTYQQQVVKNAKVLAEALINEGFRIVSGGTDNHLVAVDVKGSIGLTGKEAEETLDSVGITCNKNTIPFDQEKPFVTSGIRLGTPAATTRGFDEKAFEEVAKIISLALKNSKDEEKLQQAKERVAKLTAEYPLY NAMSYITKQDKVIAEAIEREFQRQNSNIELIASENFVSEAVMEAQGSVLTNKYAEGYPGRRYYGGCEFVDVTESIAIDRAKALFGAEHVNVQPHSGPQANMAVYLVALEMGDTVLGMNPVNFSGKFYNFVEYGVDKDTERINYDEVRKLALEHKPKLIVAGASAYSRTIDFKKFKEIADEVNAKLMVDMAHIAGLVAAGLHPNPVEYADFVTTTTHKTLRGPRGGMILCKEEYKKDIDKTIFPGIQGGPLEHVIAAKAVAFGEALENNFKTYQQQVVKNAKVLAEALINEGFRIVSGGTDNHLVAVDVKGSIGLTGKEAEETLDSVGITCNKNTIPFDQEKPFVTSGIRLGTPAATTRGFDEKAFEEVAKIISLALKNSKDEEKLQQAKERVAKLTAEYPLY 3pgz-a1-m1-cA_3pgz-a1-m1-cB Crystal structure of a single strand binding protein (SSB) from bartonella henselae A0A0H3LX24 A0A0H3LX24 2.1 X-RAY DIFFRACTION 81 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 109 114 AGSLNKVILIGNLGADPEIRRLNSGDQVANLRIATSESWRDRKERTEWHNIVIFNENLVKVVEQYLKKGSKIYIEGQLQTRKWQDQNGNDRYTTEIVLQKYRGELQMLD AGSLNKVILIGNLGADPEIRRLNSGDQVANLRIATSESWRDRNTNERKERTEWHNIVIFNENLVKVVEQYLKKGSKIYIEGQLQTRKWQDQNGNDRYTTEIVLQKYRGELQMLD 3ph1-a1-m1-cD_3ph1-a1-m1-cC The Crystal Structure of a Pathogenic Protein from the Xanthomonas campestris Reveals a New Tetrameric PilZ Domain Self-Assembled via a Unusual Helical Bundle B0RT03 B0RT03 2.1 X-RAY DIFFRACTION 81 1.0 509169 (Xanthomonas campestris pv. campestris str. B100) 509169 (Xanthomonas campestris pv. campestris str. B100) 182 185 3ph1-a1-m1-cA_3ph1-a1-m1-cD 3ph1-a1-m1-cB_3ph1-a1-m1-cA 3ph1-a1-m1-cB_3ph1-a1-m1-cC 3rqa-a1-m1-cB_3rqa-a1-m1-cA 3rqa-a1-m1-cB_3rqa-a1-m1-cC 3rqa-a1-m1-cD_3rqa-a1-m1-cA 3rqa-a1-m1-cD_3rqa-a1-m1-cC STLGTLAPAADTELFADTLSCELRLPAGFHVTADPGSHATAETLLRSLGQVEDLRSEDSSEERGELPLLVQRMDAKLDLILALIGRLVRQSDTRLALGTVHWSVRGIRLASPHAHPPGTTGSVLLQPSDWLPELLQLPADVLASASDGQQHWLWLRFAPLGTGLQDALERHLFRLHRRQIAD AMSTLGTLAPAADTELFADTLSCELRLPAGFHVTADPGSHATAETLLRSLGQVEDLRSEDSSEERGELPLLVQRMDAKLDLILALIGRLVRQSDTRLALGTVHWSVRGIRLASPHAHPPGTTGSVLLQPSDWLPELLQLPADVLASASDGQQHWLWLRFAPLGTGLQDALERHLFRLHRRQIADA 3phd-a1-m1-cB_3phd-a1-m1-cA Crystal structure of human HDAC6 in complex with ubiquitin Q9UBN7 Q9UBN7 3 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 102 PLPWCPHLVAVCPIPAAGLDVTQPCGDCGTIQENWVCLSCYQVYCGRYINGHMLQHHGNSGHPLVLSYIDLSAWCYYCQAYVHHQALLDVKNIAHQNKFG PLPWCPHLVAVCPIPAAGLDVTQPCGDCGTIQENWVCLSCYQVYCGRYINGHMLQHHGNSGHPLVLSYIDLSAWCYYCQAYVHHQALLDVKNIAHQNKFGED 3phd-a1-m1-cD_3phd-a1-m1-cA Crystal structure of human HDAC6 in complex with ubiquitin Q9UBN7 Q9UBN7 3 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 102 3phd-a1-m1-cC_3phd-a1-m1-cB WCPHLVAVCPIPAAGLDVTQPCGDCGTIQENWVCLSCYQVYCGRYINGHMLQHHGNSGHPLVLSYIDLSAWCYYCQAYVHHQAL PLPWCPHLVAVCPIPAAGLDVTQPCGDCGTIQENWVCLSCYQVYCGRYINGHMLQHHGNSGHPLVLSYIDLSAWCYYCQAYVHHQALLDVKNIAHQNKFGED 3phd-a1-m1-cD_3phd-a1-m1-cB Crystal structure of human HDAC6 in complex with ubiquitin Q9UBN7 Q9UBN7 3 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 100 3phd-a1-m1-cC_3phd-a1-m1-cA WCPHLVAVCPIPAAGLDVTQPCGDCGTIQENWVCLSCYQVYCGRYINGHMLQHHGNSGHPLVLSYIDLSAWCYYCQAYVHHQAL PLPWCPHLVAVCPIPAAGLDVTQPCGDCGTIQENWVCLSCYQVYCGRYINGHMLQHHGNSGHPLVLSYIDLSAWCYYCQAYVHHQALLDVKNIAHQNKFG 3pi2-a3-m2-cA_3pi2-a3-m4-cA Crystallographic Structure of HbII-oxy from Lucina pectinata at pH 8.0 P41261 P41261 1.85 X-RAY DIFFRACTION 15 1.0 244486 (Phacoides pectinatus) 244486 (Phacoides pectinatus) 151 151 3pi1-a3-m1-cA_3pi1-a3-m3-cA 3pi1-a3-m2-cA_3pi1-a3-m4-cA 3pi2-a3-m1-cA_3pi2-a3-m3-cA 3pi3-a3-m1-cA_3pi3-a3-m3-cA 3pi3-a3-m2-cA_3pi3-a3-m4-cA 3pi4-a3-m1-cA_3pi4-a3-m3-cA 3pi4-a4-m1-cA_3pi4-a4-m3-cA 3pi4-a4-m2-cA_3pi4-a4-m4-cA TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS 3pi2-a3-m2-cA_3pi2-a3-m4-cB Crystallographic Structure of HbII-oxy from Lucina pectinata at pH 8.0 P41261 P41261 1.85 X-RAY DIFFRACTION 31 1.0 244486 (Phacoides pectinatus) 244486 (Phacoides pectinatus) 151 151 3pi1-a3-m1-cA_3pi1-a3-m3-cB 3pi1-a3-m1-cB_3pi1-a3-m3-cA 3pi1-a3-m2-cA_3pi1-a3-m4-cB 3pi1-a3-m2-cB_3pi1-a3-m4-cA 3pi2-a3-m1-cA_3pi2-a3-m3-cB 3pi2-a3-m1-cB_3pi2-a3-m3-cA 3pi2-a3-m2-cB_3pi2-a3-m4-cA 3pi3-a3-m1-cA_3pi3-a3-m3-cB 3pi3-a3-m1-cB_3pi3-a3-m3-cA 3pi3-a3-m2-cA_3pi3-a3-m4-cB 3pi3-a3-m2-cB_3pi3-a3-m4-cA 3pi4-a3-m1-cA_3pi4-a3-m3-cB 3pi4-a3-m1-cB_3pi4-a3-m3-cA 3pi4-a4-m1-cA_3pi4-a4-m3-cB 3pi4-a4-m1-cB_3pi4-a4-m3-cA 3pi4-a4-m2-cA_3pi4-a4-m4-cB 3pi4-a4-m2-cB_3pi4-a4-m4-cA TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS 3pi2-a3-m3-cB_3pi2-a3-m4-cB Crystallographic Structure of HbII-oxy from Lucina pectinata at pH 8.0 P41261 P41261 1.85 X-RAY DIFFRACTION 40 1.0 244486 (Phacoides pectinatus) 244486 (Phacoides pectinatus) 151 151 3pi1-a2-m1-cB_3pi1-a2-m2-cB 3pi1-a3-m1-cB_3pi1-a3-m2-cB 3pi1-a3-m3-cB_3pi1-a3-m4-cB 3pi2-a2-m1-cB_3pi2-a2-m2-cB 3pi2-a3-m1-cB_3pi2-a3-m2-cB 3pi3-a2-m1-cB_3pi3-a2-m2-cB 3pi3-a3-m1-cB_3pi3-a3-m2-cB 3pi3-a3-m3-cB_3pi3-a3-m4-cB 3pi4-a2-m1-cB_3pi4-a2-m2-cB 3pi4-a4-m1-cB_3pi4-a4-m2-cB 3pi4-a4-m3-cB_3pi4-a4-m4-cB TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS 3pi2-a3-m4-cA_3pi2-a3-m4-cB Crystallographic Structure of HbII-oxy from Lucina pectinata at pH 8.0 P41261 P41261 1.85 X-RAY DIFFRACTION 44 1.0 244486 (Phacoides pectinatus) 244486 (Phacoides pectinatus) 151 151 2olp-a1-m1-cA_2olp-a1-m1-cB 3pi1-a1-m1-cA_3pi1-a1-m1-cB 3pi1-a2-m1-cA_3pi1-a2-m1-cB 3pi1-a2-m2-cA_3pi1-a2-m2-cB 3pi1-a3-m1-cA_3pi1-a3-m1-cB 3pi1-a3-m2-cA_3pi1-a3-m2-cB 3pi1-a3-m3-cA_3pi1-a3-m3-cB 3pi1-a3-m4-cA_3pi1-a3-m4-cB 3pi2-a1-m1-cA_3pi2-a1-m1-cB 3pi2-a2-m1-cA_3pi2-a2-m1-cB 3pi2-a2-m2-cA_3pi2-a2-m2-cB 3pi2-a3-m1-cA_3pi2-a3-m1-cB 3pi2-a3-m2-cA_3pi2-a3-m2-cB 3pi2-a3-m3-cA_3pi2-a3-m3-cB 3pi3-a1-m1-cA_3pi3-a1-m1-cB 3pi3-a2-m1-cA_3pi3-a2-m1-cB 3pi3-a2-m2-cA_3pi3-a2-m2-cB 3pi3-a3-m1-cA_3pi3-a3-m1-cB 3pi3-a3-m2-cA_3pi3-a3-m2-cB 3pi3-a3-m3-cA_3pi3-a3-m3-cB 3pi3-a3-m4-cA_3pi3-a3-m4-cB 3pi4-a1-m1-cA_3pi4-a1-m1-cB 3pi4-a2-m1-cA_3pi4-a2-m1-cB 3pi4-a2-m2-cA_3pi4-a2-m2-cB 3pi4-a3-m1-cA_3pi4-a3-m1-cB 3pi4-a3-m3-cA_3pi4-a3-m3-cB 3pi4-a4-m1-cA_3pi4-a4-m1-cB 3pi4-a4-m2-cA_3pi4-a4-m2-cB 3pi4-a4-m3-cA_3pi4-a4-m3-cB 3pi4-a4-m4-cA_3pi4-a4-m4-cB TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS TTLTNPQKAAIRSSWSKFMDNGVSNGQGFYMDLFKAHPETLTPFKSLFGGLTLAQLQDNPKMKAQSLVFCNGMSSFVDHLDDNDMLVVLIQKMAKLHNNRGIRASDLRTAYDILIHYMEDHNHMVGGAKDAWEVFVGFICKTLGDYMKELS 3pi7-a1-m1-cA_3pi7-a1-m2-cA Crystal structure of a putative NADPH:quinone reductase (mll3093) from Mesorhizobium loti at 1.71 A resolution Q98H03 Q98H03 1.71 X-RAY DIFFRACTION 83 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 333 333 TIPSEKALLLVGDGYTKTPSGSALEAEPYLEQGRIAVPAPGPSQVLIKVNLASINPSDVAFIKGQYGQPRVKGRPAGFEGVGTIVAGGDEPYAKSLVGKRVAFATGLSNWGSWAEYAVAEAAACIPLLDTVREDGAAIVNPLTAIAFDIVKQEGEKAFVTAGASQLCKLIIGLAKEEGFRPIVTVRRDEQIALLKDIGAAHVLNEKAPDFEATLREVKAEQPRIFLDAVTGPLASAIFNAPKRARWIIYGRLDPDATVIREPGQLIFQHKHIEGFWLSEWRQFKERRGPAILEAKRFSDGRWSTVTAVVPLAEAIAWVPAELTKPNGKVFIRP TIPSEKALLLVGDGYTKTPSGSALEAEPYLEQGRIAVPAPGPSQVLIKVNLASINPSDVAFIKGQYGQPRVKGRPAGFEGVGTIVAGGDEPYAKSLVGKRVAFATGLSNWGSWAEYAVAEAAACIPLLDTVREDGAAIVNPLTAIAFDIVKQEGEKAFVTAGASQLCKLIIGLAKEEGFRPIVTVRRDEQIALLKDIGAAHVLNEKAPDFEATLREVKAEQPRIFLDAVTGPLASAIFNAPKRARWIIYGRLDPDATVIREPGQLIFQHKHIEGFWLSEWRQFKERRGPAILEAKRFSDGRWSTVTAVVPLAEAIAWVPAELTKPNGKVFIRP 3pi8-a1-m1-cB_3pi8-a1-m1-cD Site-specific Glycosylation of Hemoglobin Utilizing Oxime Ligation Chemistry as a Viable Alternative to PEGylation P02070 P02070 2.2 X-RAY DIFFRACTION 10 1.0 9913 (Bos taurus) 9913 (Bos taurus) 145 145 MLTAEEKAAVTAFWGKVKVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSNGMKHLDDLKGTFAALSELHCDKLHVDPENFKLLGNVLVVVLARNFGKEFTPVLQADFQKVVAGVANALAHRYH MLTAEEKAAVTAFWGKVKVDEVGGEALGRLLVVYPWTQRFFESFGDLSTADAVMNNPKVKAHGKKVLDSFSNGMKHLDDLKGTFAALSELHCDKLHVDPENFKLLGNVLVVVLARNFGKEFTPVLQADFQKVVAGVANALAHRYH 3pih-a1-m1-cA_3pih-a1-m2-cA T. maritima UvrA in complex with fluorescein-modified DNA Q9WYV0 Q9WYV0 2.9 X-RAY DIFFRACTION 99 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 836 836 NEIVVKGARVHNLKNITVRIPKNRLVVITGVSGSGKSSLAMDTIYAEGQRRYLESLSTYKKPDVDEIEGLSPAIAIDQKTSHNPRSTVGTVTEIYDYLRVLYARIGKAHCPECGRPLEKKSIDEILQDLFNSFKEGSRIYILAPLVVDRLILETRNEHRILDSLELAMREGKGFVEIRNVDTGESKIFSENLMCPVCGIGFPEITPKLFSFNSPYGACPNCHGLGFTFEVDPSLVAIIPYRWDRRLSRWVAREIEKRGVSPPEDVKEFILYGDFEGVVPKVQRWHRETEMKEWLEKNFIVQRTCSVCGGRRLNREALSVKINGLNIHEFTELSISEELEFLKNLNLTEREREIVGELLKEIEKRLEFLVDVGLEYLTLSRSATTLSGGESQRIRLATQIGSGLTGVIYVLDEPTIGLHPRDTERLIKTLKKLRDLGNTVIVVEHDEEVIRNADHIIDIGPGGGTNGGRVVFQGTVDELLKNPDSSLTGEYLSGKRKITVNKTRRLPYASLKIKGVRHNNLKNIDVEIPLGVFVCVTGVSGSGKSSLVMETLYPALMNLLHKTKLPAGEFDSIEGHENIDKMIAIDQSPIGRTPRSNPATYTKVFDEIRSLFAMTPAAKARGYNKSRFSFNLKGGRCEACQGQGYVKIEMLFLPDVYVECDVCKGKRYNRETLEITYKGKNISDILDMTVDEALEFFKNIPSIKRTLQVLHDVGLGYVKLGQPATTLSGGEAQRIKLASELRKRDTGRTLYILDEPTVGLHFEDVRKLVEVLHRLVDRGNTVIVIEHNLDVIKNADHIIDLGPEGGKEGGYIVATGTPEEIAKNPHSYTGRFLKNVL NEIVVKGARVHNLKNITVRIPKNRLVVITGVSGSGKSSLAMDTIYAEGQRRYLESLSTYKKPDVDEIEGLSPAIAIDQKTSHNPRSTVGTVTEIYDYLRVLYARIGKAHCPECGRPLEKKSIDEILQDLFNSFKEGSRIYILAPLVVDRLILETRNEHRILDSLELAMREGKGFVEIRNVDTGESKIFSENLMCPVCGIGFPEITPKLFSFNSPYGACPNCHGLGFTFEVDPSLVAIIPYRWDRRLSRWVAREIEKRGVSPPEDVKEFILYGDFEGVVPKVQRWHRETEMKEWLEKNFIVQRTCSVCGGRRLNREALSVKINGLNIHEFTELSISEELEFLKNLNLTEREREIVGELLKEIEKRLEFLVDVGLEYLTLSRSATTLSGGESQRIRLATQIGSGLTGVIYVLDEPTIGLHPRDTERLIKTLKKLRDLGNTVIVVEHDEEVIRNADHIIDIGPGGGTNGGRVVFQGTVDELLKNPDSSLTGEYLSGKRKITVNKTRRLPYASLKIKGVRHNNLKNIDVEIPLGVFVCVTGVSGSGKSSLVMETLYPALMNLLHKTKLPAGEFDSIEGHENIDKMIAIDQSPIGRTPRSNPATYTKVFDEIRSLFAMTPAAKARGYNKSRFSFNLKGGRCEACQGQGYVKIEMLFLPDVYVECDVCKGKRYNRETLEITYKGKNISDILDMTVDEALEFFKNIPSIKRTLQVLHDVGLGYVKLGQPATTLSGGEAQRIKLASELRKRDTGRTLYILDEPTVGLHFEDVRKLVEVLHRLVDRGNTVIVIEHNLDVIKNADHIIDLGPEGGKEGGYIVATGTPEEIAKNPHSYTGRFLKNVL 3pij-a1-m1-cA_3pij-a1-m1-cB beta-fructofuranosidase from Bifidobacterium longum - complex with fructose A2TLS9 A2TLS9 1.8 X-RAY DIFFRACTION 88 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 523 526 3pig-a1-m1-cA_3pig-a1-m1-cB MTDFTPETPVLTPIRDHAAELAKAEAGVAEMAAKRNNRWYPKYHIASNGGWINDPNGLCFYKGRWHVFYQLHPYGTQWGPMHWGHVSSTDMLNWKREPIMFAPSLEQEKDGVFSGSAVIDDNGDLRFYYTGHRWANGHDNTGGDWQVQMTALPDNDELTSATKQGMIIDCPTDKVDHHYRDPKVWKTGDTWYMTFGVSSADKRGQMWLFSSKDMVRWEYERVLFQHPDPDVFMLECPDFSPIKDKDGNEKWVIGFSAMGSKPSGFMNRNVSNAGYMIGTWEPGGEFKPETEFRLWDCGHNYYAPQSFNVDGRQIVYGWMSPFVQPIPMEDDGWCGQLTLPREITLGDDGDVVTAPVAEMEGLREDTLDHGSVTLDMDGEQIIADDAEAVEIEMTIDLAASTAERAGLKIHATEDGAYTYVAYDGQIGRVVVDRQAMANGDRGYRAAPLTDAELASGKLDLRVFVDRGSVEVYVNGGHQVLSSYSYASEGPRAIKLVAESGSLKVDSLKLHHMKSIGLELEHHH MTDFTPETPVLTPIRDHAAELAKAEAGVAEMAAKRNNRWYPKYHIASNGGWINDPNGLCFYKGRWHVFYQLHPYGTQWGPMHWGHVSSTDMLNWKREPIMFAPSLEQEKDGVFSGSAVIDDNGDLRFYYTGHRWANGHDNTGGDWQVQMTALPDNDELTSATKQGMIIDCPTDKVDHHYRDPKVWKTGDTWYMTFGVSSADKRGQMWLFSSKDMVRWEYERVLFQHPDPDVFMLECPDFSPIKDKDGNEKWVIGFSAMGSKPSGFMNRNVSNAGYMIGTWEPGGEFKPETEFRLWDCGHNYYAPQSFNVDGRQIVYGWMSPFVQPIPMEDDGWCGQLTLPREITLGDDGDVVTAPVAEMEGLREDTLDHGSVTLDMDGEQIIADDAEAVEIEMTIDLAASTAERAGLKIHATEDGAYTYVAYDGQIGRVVVDRQAMANGDRGYRAAPLTDAELASGKLDLRVFVDRGSVEVYVNGGHQVLSSYSYASEGPRAIKLVAESGSLKVDSLKLHHMKSIGLELEHHHHHH 3pim-a1-m1-cA_3pim-a1-m1-cB Crystal structure of Mxr1 from Saccharomyces cerevisiae in unusual oxidized form P40029 P40029 1.9 X-RAY DIFFRACTION 95 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 173 177 HHHGSSLISKTIKYDPAKDKLITLACGCFWGTEHMYRKYLNDRIVDCKVGYANGEESYKRVCGGDTDFAEVLQVSYNPKVITLRELTDFFFRIHDPTTSNSGTQYRSGLFAHSDADLKELAKIKEEWQPKWGNKIATVIEPIKNFYDAEEYHQLYLDKNPQGYACPTHYLREM HHHGSSLISKTIKYDPAKDKLITLACGCFWGTEHMYRKYLNDRIVDCKVGYANGEESYKRVCGGDTDFAEVLQVSYNPKVITLRELTDFFFRIHDPTTSNSQGPKGTQYRSGLFAHSDADLKELAKIKEEWQPKWGNKIATVIEPIKNFYDAEEYHQLYLDKNPQGYACPTHYLREM 3piu-a1-m1-cA_3piu-a1-m2-cA High-resolution structure of native Malus domestica ACC synthase P37821 P37821 1.35 X-RAY DIFFRACTION 140 1.0 3750 (Malus domestica) 3750 (Malus domestica) 408 408 1b8g-a1-m1-cA_1b8g-a1-m1-cB 1m4n-a1-m1-cA_1m4n-a1-m2-cA 1m7y-a1-m1-cA_1m7y-a1-m2-cA 1ynu-a1-m1-cA_1ynu-a1-m2-cA SYFLGWQEYEKNPYHEVHNTNGIIQMGLAENQLCFDLLESWLAKNPEAAAFKKNGESIFAELALFQDYHGLPAFKKAMVDFMAEIRGNKVTFDPNHLVLTAGATSANETFIFCLADPGEAVLIPTPYYPGFDRDLKWRTGVEIVPIHCTSSNGFQITETALEEAYQEAEKRNLRVKGVLVTNPSNPLGTTMTRNELYLLLSFVEDKGIHLISDEIYSGTAFSSPSFISVMEVLKDEVWQRVHVVYSLSDLGLPGFRVGAIYSNDDMVVAAATKMSSFGLVSSQTQHLLSAMLSDKKLTKNYIAENHKRLKQRQKKLVSGLQKSGISCLNGNAGLFCWVDMRHLLRSNTFEAEMELWKKIVYEVHLNISPGSSCHCTEPGWFRVCFANLPERTLDLAMQRLKAFVGEYY SYFLGWQEYEKNPYHEVHNTNGIIQMGLAENQLCFDLLESWLAKNPEAAAFKKNGESIFAELALFQDYHGLPAFKKAMVDFMAEIRGNKVTFDPNHLVLTAGATSANETFIFCLADPGEAVLIPTPYYPGFDRDLKWRTGVEIVPIHCTSSNGFQITETALEEAYQEAEKRNLRVKGVLVTNPSNPLGTTMTRNELYLLLSFVEDKGIHLISDEIYSGTAFSSPSFISVMEVLKDEVWQRVHVVYSLSDLGLPGFRVGAIYSNDDMVVAAATKMSSFGLVSSQTQHLLSAMLSDKKLTKNYIAENHKRLKQRQKKLVSGLQKSGISCLNGNAGLFCWVDMRHLLRSNTFEAEMELWKKIVYEVHLNISPGSSCHCTEPGWFRVCFANLPERTLDLAMQRLKAFVGEYY 3pj0-a2-m1-cC_3pj0-a2-m1-cD Crystal structure of a putative L-allo-threonine aldolase (lmo0305) from Listeria monocytogenes EGD-E at 1.80 A resolution Q8YA56 Q8YA56 1.8 X-RAY DIFFRACTION 146 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 349 354 3pj0-a1-m1-cA_3pj0-a1-m1-cB NTLKTSYQKTPYKLGGNGPRNVGVLTEALQNIDDNLESDIYGNGAVIEDFETKIAKILGKQSAVFFPSGTAQQIALRIWADRKENRRVAYHPLSHLEIHEQDGLKELQQITPLLLGTANQLLTIDDIKSLREPVSSVLIELPQREIGGQLPAFEELEKISEYCHEQGISLHLDGARLWEITPFYQKSAEEICALFDSVYVSFYGIGGIAGAILAGNDDFVQEAKIWKRRYGGDLISLYPYILSADYYFEKRIGKAEYFEAAKGLAERFNSCSGVKTVPEVPVSNFHVYFENSADEIGAILTKIQDETGVGISGYLQEKSADVCAFEVSVGDAFAEIPAKNLELVFRCLE GTNTLKTSYQKTPYKLGGNGPRNVGVLTEALQNIDDNLESDIYGNGAVIEDFETKIAKILGKQSAVFFPSGTAQQIALRIWADRKENRRVAYHPLSHLEIHEQDGLKELQQITPLLLGTANQLLTIDDIKSLREPVSSVLIELPQREIGGQLPAFEELEKISEYCHEQGISLHLDGARLWEITPFYQKSAEEICALFDSVYVSFYGIGGIAGAILAGNDDFVQEAKIWKRRYGGDLISLYPYILSADYYFEKRIGKAEYFEAAKGLAERFNSCSGVKTVPEVPVSNFHVYFENSADEIGAILTKIQDETGVGISGYLQEKSADVCAFEVSVGDAFAEIPAKNLELVFRCLEKEL 3pj9-a3-m2-cC_3pj9-a3-m1-cA Crystal structure of a Nucleoside Diphosphate Kinase from Campylobacter jejuni Q9PIG7 Q9PIG7 2.1 X-RAY DIFFRACTION 16 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 136 137 MEKTLSIIKPDAVKKGVIGKILDRFESNGLRIAAMKKVQLSKEQAENFYAVHKRPFFKDLVEFMISGPVVVSILEGEGAVLKNRDLMGATNPKEAKAGTIRADFAESIDANAVHGSDSLENAKIEIEFFFKPNEIC MEKTLSIIKPDAVKKGVIGKILDRFESNGLRIAAMKKVQLSKEQAENFYAVHKERPFFKDLVEFMISGPVVVSILEGEGAVLKNRDLMGATNPKEAKAGTIRADFAESIDANAVHGSDSLENAKIEIEFFFKPNEIC 3pj9-a3-m2-cC_3pj9-a3-m1-cD Crystal structure of a Nucleoside Diphosphate Kinase from Campylobacter jejuni Q9PIG7 Q9PIG7 2.1 X-RAY DIFFRACTION 29 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 136 139 3pj9-a3-m1-cA_3pj9-a3-m2-cB MEKTLSIIKPDAVKKGVIGKILDRFESNGLRIAAMKKVQLSKEQAENFYAVHKRPFFKDLVEFMISGPVVVSILEGEGAVLKNRDLMGATNPKEAKAGTIRADFAESIDANAVHGSDSLENAKIEIEFFFKPNEIC SAMEKTLSIIKPDAVKKGVIGKILDRFESNGLRIAAMKKVQLSKEQAENFYAVHKERPFFKDLVEFMISGPVVVSILEGEGAVLKNRDLMGATNPKEAKAGTIRADFAESIDANAVHGSDSLENAKIEIEFFFKPNEIC 3pj9-a3-m2-cC_3pj9-a3-m2-cB Crystal structure of a Nucleoside Diphosphate Kinase from Campylobacter jejuni Q9PIG7 Q9PIG7 2.1 X-RAY DIFFRACTION 60 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 136 137 3pj9-a1-m1-cA_3pj9-a1-m1-cD 3pj9-a2-m1-cC_3pj9-a2-m1-cB 3pj9-a3-m1-cA_3pj9-a3-m1-cD MEKTLSIIKPDAVKKGVIGKILDRFESNGLRIAAMKKVQLSKEQAENFYAVHKRPFFKDLVEFMISGPVVVSILEGEGAVLKNRDLMGATNPKEAKAGTIRADFAESIDANAVHGSDSLENAKIEIEFFFKPNEIC MEKTLSIIKPDAVKKGVIGKILDRFESNGLRIAAMKKVQLSKEQAENFYAVHKERPFFKDLVEFMISGPVVVSILEGEGAVLKNRDLMGATNPKEAKAGTIRADFAESIDANAVHGSDSLENAKIEIEFFFKPNEIC 3pjn-a1-m1-cB_3pjn-a1-m1-cA The crystal structure of Tp34 bound to Zn(II) ion at pH 7.5 P19478 P19478 1.7 X-RAY DIFFRACTION 138 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 157 158 2o6c-a1-m1-cB_2o6c-a1-m1-cA 2o6d-a1-m1-cB_2o6d-a1-m1-cA 2o6e-a1-m1-cB_2o6e-a1-m1-cA 2o6f-a1-m1-cA_2o6f-a1-m1-cB 3pjl-a1-m1-cA_3pjl-a1-m1-cB DEFPIGEDRDVGPLHVGGVYFQPVEMHPAPGAQPSKEEADCHIEADIHANEAGKDLGYGVGDFVPYLRVVAFLQKHGSEKVQKVMFAPMNAGDGPHYGANVKFEEGLGTYKVRFEIAAPSHDEYSLHIDEQTGVSGRFWSEPLVAEWDDFEWKGPQW FDEFPIGEDRDVGPLHVGGVYFQPVEMHPAPGAQPSKEEADCHIEADIHANEAGKDLGYGVGDFVPYLRVVAFLQKHGSEKVQKVMFAPMNAGDGPHYGANVKFEEGLGTYKVRFEIAAPSHDEYSLHIDEQTGVSGRFWSEPLVAEWDDFEWKGPQW 3pjp-a3-m1-cA_3pjp-a3-m2-cB A Tandem SH2 Domain in Transcription Elongation Factor Spt6 Binds the Phosphorylated RNA Polymerase II C-terminal Repeat Domain(CTD) Q6FLB1 Q6FLB1 1.6 X-RAY DIFFRACTION 58 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 194 195 3pjp-a3-m2-cA_3pjp-a3-m1-cB RVINHPYYFPFNGKQAEDYLRSKERGDFVIRQSSRGDDHLAITWKLDKDLFQHVDIQELEKENPLALGKVLVVEGQRYHDLDQIIVEYLQNKIRLLNELTSNEKFKAGTKKEVVKFIEDYSKVNPKKSVYYFSLNYENPGWFYLIFKLNAESKLYIWNVKLTHTGFFLVNYNYPTVIQLCNGFKTLLKSSNTRN HRVINHPYYFPFNGKQAEDYLRSKERGDFVIRQSSRGDDHLAITWKLDKDLFQHVDIQELEKENPLALGKVLVVEGQRYHDLDQIIVEYLQNKIRLLNELTSNEKFKAGTKKEVVKFIEDYSKVNPKKSVYYFSLNYENPGWFYLIFKLNAESKLYIWNVKLTHTGFFLVNYNYPTVIQLCNGFKTLLKSSNTRN 3pjp-a3-m2-cA_3pjp-a3-m2-cB A Tandem SH2 Domain in Transcription Elongation Factor Spt6 Binds the Phosphorylated RNA Polymerase II C-terminal Repeat Domain(CTD) Q6FLB1 Q6FLB1 1.6 X-RAY DIFFRACTION 37 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 194 195 3pjp-a3-m1-cA_3pjp-a3-m1-cB RVINHPYYFPFNGKQAEDYLRSKERGDFVIRQSSRGDDHLAITWKLDKDLFQHVDIQELEKENPLALGKVLVVEGQRYHDLDQIIVEYLQNKIRLLNELTSNEKFKAGTKKEVVKFIEDYSKVNPKKSVYYFSLNYENPGWFYLIFKLNAESKLYIWNVKLTHTGFFLVNYNYPTVIQLCNGFKTLLKSSNTRN HRVINHPYYFPFNGKQAEDYLRSKERGDFVIRQSSRGDDHLAITWKLDKDLFQHVDIQELEKENPLALGKVLVVEGQRYHDLDQIIVEYLQNKIRLLNELTSNEKFKAGTKKEVVKFIEDYSKVNPKKSVYYFSLNYENPGWFYLIFKLNAESKLYIWNVKLTHTGFFLVNYNYPTVIQLCNGFKTLLKSSNTRN 3pju-a1-m1-cA_3pju-a1-m2-cA Structure of Pseudomonas fluorescence LapD EAL domain complexed with c-di-GMP, P6522 Q3KK31 Q3KK31 2.4991 X-RAY DIFFRACTION 58 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 249 249 3pjt-a1-m1-cA_3pjt-a1-m1-cB QSLVADVGDDHHAWHRLLDQALNQRRFELFFQPVVAAQDTQLVLHYKVLSRLLDEQGQTIPAGRFLPWLERFGWTARLDRLMLERVLEQMAGHEESLALNLSSATLADPQALNKVFEILRAHSNLGARLTLEIGEEQLPEQAVLEQLTRRLRELGFSLSLQRFGGRFSMIGNLARLGLAYLKIDGSYIRAIDQESDKRLFIEAIQRAAHSIDLPLIAERVETEGELSVIREMGLYGVQGQLFGEPKPWG QSLVADVGDDHHAWHRLLDQALNQRRFELFFQPVVAAQDTQLVLHYKVLSRLLDEQGQTIPAGRFLPWLERFGWTARLDRLMLERVLEQMAGHEESLALNLSSATLADPQALNKVFEILRAHSNLGARLTLEIGEEQLPEQAVLEQLTRRLRELGFSLSLQRFGGRFSMIGNLARLGLAYLKIDGSYIRAIDQESDKRLFIEAIQRAAHSIDLPLIAERVETEGELSVIREMGLYGVQGQLFGEPKPWG 3pjv-a1-m1-cF_3pjv-a1-m1-cD Structure of Pseudomonas fluorescence LapD periplasmic domain Q3KK31 Q3KK31 1.7727 X-RAY DIFFRACTION 250 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 124 125 VSLESSRTQYVNQLRSHAQDAATALALSLTPNIDDPAVELLVSSIFDSGYYSSIRVVDLKTDQTIVERNGIPAVTNVPDWFVKLIGLEPAGGDALVSRGWEQAARVEVVSHPFALAKLWQSALG FVSLESSRTQYVNQLRSHAQDAATALALSLTPNIDDPAVELLVSSIFDSGYYSSIRVVDLKTDQTIVERNGIPAVTNVPDWFVKLIGLEPAGGDALVSRGWEQAARVEVVSHPFALAKLWQSALG 3pjy-a1-m1-cA_3pjy-a1-m1-cB Crystal structure of a putative transcription regulator (R01717) from Sinorhizobium meliloti 1021 at 1.55 A resolution Q92PM3 Q92PM3 1.55 X-RAY DIFFRACTION 12 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 122 123 GEVSYAKERVRLITASGRTHDLTVELAVDPSQREQGLYRRQAPDHGLFDFGETRPVWKNTYLPLDLFIASDGTIRTIHENAVPHSEAIIDSREPVAYVLELNAGTVKRLGVSPGDRLEGAGL GEVSYAKERVRLITASGRTHDLTVELAVDPSQREQGLYRRQAPDHGLFDFGETRPVWKNTYLPLDLFIASDGTIRTIHENAVPHSEAIIDSREPVAYVLELNAGTVKRLGVSPGDRLEGAGLP 3pk0-a2-m1-cD_3pk0-a2-m3-cD Crystal structure of Short-chain dehydrogenase/reductase SDR from Mycobacterium smegmatis A0QQJ6 A0QQJ6 1.75 X-RAY DIFFRACTION 53 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 259 259 3pk0-a1-m1-cA_3pk0-a1-m2-cA 3pk0-a1-m1-cC_3pk0-a1-m2-cC 3pk0-a2-m1-cB_3pk0-a2-m3-cB SMFDLQGRSVVVTGGTKGIGRGIATVFARAGANVAVAGRSTADIDACVADLDQLGSGKVIGVQTDVSDRAQCDALAGRAVEEFGGIDVVCANAGVFPDAPLATMTPEQLNGIFAVNVNGTFYAVQACLDALIASGSGRVVLTSSITGPITGYPGWSHYGATKAAQLGFMRTAAIELAPHKITVNAIMPGNIMTEGLLENGEEYIASMARSIPAGALGTPEDIGHLAAFLATKEAGYITGQAIAVDGGQVLPESLDAIAT SMFDLQGRSVVVTGGTKGIGRGIATVFARAGANVAVAGRSTADIDACVADLDQLGSGKVIGVQTDVSDRAQCDALAGRAVEEFGGIDVVCANAGVFPDAPLATMTPEQLNGIFAVNVNGTFYAVQACLDALIASGSGRVVLTSSITGPITGYPGWSHYGATKAAQLGFMRTAAIELAPHKITVNAIMPGNIMTEGLLENGEEYIASMARSIPAGALGTPEDIGHLAAFLATKEAGYITGQAIAVDGGQVLPESLDAIAT 3pk0-a2-m3-cD_3pk0-a2-m1-cB Crystal structure of Short-chain dehydrogenase/reductase SDR from Mycobacterium smegmatis A0QQJ6 A0QQJ6 1.75 X-RAY DIFFRACTION 133 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 259 262 3pk0-a1-m1-cA_3pk0-a1-m2-cC 3pk0-a1-m2-cA_3pk0-a1-m1-cC 3pk0-a2-m1-cD_3pk0-a2-m3-cB SMFDLQGRSVVVTGGTKGIGRGIATVFARAGANVAVAGRSTADIDACVADLDQLGSGKVIGVQTDVSDRAQCDALAGRAVEEFGGIDVVCANAGVFPDAPLATMTPEQLNGIFAVNVNGTFYAVQACLDALIASGSGRVVLTSSITGPITGYPGWSHYGATKAAQLGFMRTAAIELAPHKITVNAIMPGNIMTEGLLENGEEYIASMARSIPAGALGTPEDIGHLAAFLATKEAGYITGQAIAVDGGQVLPESLDAIAT GPGSMFDLQGRSVVVTGGTKGIGRGIATVFARAGANVAVAGRSTADIDACVADLDQLGSGKVIGVQTDVSDRAQCDALAGRAVEEFGGIDVVCANAGVFPDAPLATMTPEQLNGIFAVNVNGTFYAVQACLDALIASGSGRVVLTSSITGPITGYPGWSHYGATKAAQLGFMRTAAIELAPHKITVNAIMPGNIMTEGLLENGEEYIASMARSIPAGALGTPEDIGHLAAFLATKEAGYITGQAIAVDGGQVLPESLDAIAT 3pk0-a2-m3-cD_3pk0-a2-m3-cB Crystal structure of Short-chain dehydrogenase/reductase SDR from Mycobacterium smegmatis A0QQJ6 A0QQJ6 1.75 X-RAY DIFFRACTION 143 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 259 262 3pk0-a1-m1-cA_3pk0-a1-m1-cC 3pk0-a1-m2-cA_3pk0-a1-m2-cC 3pk0-a2-m1-cD_3pk0-a2-m1-cB SMFDLQGRSVVVTGGTKGIGRGIATVFARAGANVAVAGRSTADIDACVADLDQLGSGKVIGVQTDVSDRAQCDALAGRAVEEFGGIDVVCANAGVFPDAPLATMTPEQLNGIFAVNVNGTFYAVQACLDALIASGSGRVVLTSSITGPITGYPGWSHYGATKAAQLGFMRTAAIELAPHKITVNAIMPGNIMTEGLLENGEEYIASMARSIPAGALGTPEDIGHLAAFLATKEAGYITGQAIAVDGGQVLPESLDAIAT GPGSMFDLQGRSVVVTGGTKGIGRGIATVFARAGANVAVAGRSTADIDACVADLDQLGSGKVIGVQTDVSDRAQCDALAGRAVEEFGGIDVVCANAGVFPDAPLATMTPEQLNGIFAVNVNGTFYAVQACLDALIASGSGRVVLTSSITGPITGYPGWSHYGATKAAQLGFMRTAAIELAPHKITVNAIMPGNIMTEGLLENGEEYIASMARSIPAGALGTPEDIGHLAAFLATKEAGYITGQAIAVDGGQVLPESLDAIAT 3pkb-a2-m2-cA_3pkb-a2-m3-cA M. tuberculosis MetAP with bengamide analog Y16, in Mn form P9WK19 P9WK19 1.25 X-RAY DIFFRACTION 44 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 284 284 3iu7-a2-m1-cA_3iu7-a2-m2-cA 3iu7-a2-m1-cA_3iu7-a2-m3-cA 3iu7-a2-m2-cA_3iu7-a2-m3-cA 3iu8-a2-m1-cA_3iu8-a2-m2-cA 3iu8-a2-m1-cA_3iu8-a2-m3-cA 3iu8-a2-m2-cA_3iu8-a2-m3-cA 3iu9-a2-m1-cA_3iu9-a2-m2-cA 3iu9-a2-m1-cA_3iu9-a2-m3-cA 3iu9-a2-m2-cA_3iu9-a2-m3-cA 3pka-a2-m1-cA_3pka-a2-m2-cA 3pka-a2-m1-cA_3pka-a2-m3-cA 3pka-a2-m2-cA_3pka-a2-m3-cA 3pkb-a2-m1-cA_3pkb-a2-m2-cA 3pkb-a2-m1-cA_3pkb-a2-m3-cA 3pke-a2-m1-cA_3pke-a2-m2-cA 3pke-a2-m1-cA_3pke-a2-m3-cA 3pke-a2-m2-cA_3pke-a2-m3-cA PSRTALSPGVLSPTRPVPNWIARPEYVGKPAAQEGSEPWVQTPEVIEKMRVAGRIAAGALAEAGKAVAPGVTTDELDRIAHEYLVDNGAYPSTLGYKGFPKSCCTSLNEVICHGIPDSTVITDGDIVNIDVTAYIGGVHGDTNATFPAGDVADEHRLLVDRTREATMRAINTVKPGRALSVIGRVIESYANRFGYNVVRDFTGHGIGTTFHNGLVVLHYDQPAVETIMQPGMTFTIEPMINLGALDYEIWDDGWTVVTKDRKWTAQFEHTLLVTDTGVEILTCL PSRTALSPGVLSPTRPVPNWIARPEYVGKPAAQEGSEPWVQTPEVIEKMRVAGRIAAGALAEAGKAVAPGVTTDELDRIAHEYLVDNGAYPSTLGYKGFPKSCCTSLNEVICHGIPDSTVITDGDIVNIDVTAYIGGVHGDTNATFPAGDVADEHRLLVDRTREATMRAINTVKPGRALSVIGRVIESYANRFGYNVVRDFTGHGIGTTFHNGLVVLHYDQPAVETIMQPGMTFTIEPMINLGALDYEIWDDGWTVVTKDRKWTAQFEHTLLVTDTGVEILTCL 3pkn-a2-m1-cA_3pkn-a2-m2-cA Crystal structure of MLLE domain of poly(A) binding protein in complex with PAM2 motif of La-related protein 4 (LARP4) P11940 P11940 1.8 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 PLTASMLASAPPQEQKQMLGERLFPLIQAMHPTLAGKITGMLLEIDNSELLHMLESPESLRSKVDEAVAVLQAHQAKEA PLTASMLASAPPQEQKQMLGERLFPLIQAMHPTLAGKITGMLLEIDNSELLHMLESPESLRSKVDEAVAVLQAHQAKEA 3pko-a1-m1-cB_3pko-a1-m1-cA Crystal structure of geranylgeranyl pyrophosphate synthase from lactobacillus brevis atcc 367 complexed with citrate Q03Q08 Q03Q08 1.98 X-RAY DIFFRACTION 91 0.994 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 310 331 3n3d-a1-m1-cB_3n3d-a1-m1-cA LDRQLWRQFPQVEPQLTALQDYLLRTVQLDNQPIHHKILALLKSGGKLLRPGYFYLFSTFGNAATPAQLQAGAAAIEILHVGTLIHDDVITYGQRNAIYAGDFMFTVYFDQVLKSTTDRSLIQNHIDAMHRILQGELHQMDLNYREDITLDAYLNEIAGKTAELFALSCYQGAQLAGAPQSVIDRTRDIGIAIGCAYQMLDDILDYAGDPKRTQKPVLEDLRSGVYSLPLLLSLSHAPRDFHKLLKKKQAMTLEDIKHVQALVAQYDGVGAAKQLAQDYTDRALTLIQQLPVGSAQQSLEQLTRLLLRRD AHHHHHHSLRQLWRQFPQVEPQLTALQDYLLRTVQLDNQPIHHKILALLKSGGKLLRPGYFYLFSTFGNAATPAQLQAGAAAIEILHVGTLIHDDVIDDSPTRRGVRTIQMTYGQRNAIYAGDFMFTVYFDQVLKSTTDRSLIQNHIDAMHRILQGELHQMDLNYREDITLDAYLNEIAGKTAELFALSCYQGAQLAGAPQSVIDRTRDIGIAIGCAYQMLDDILDYAGDPKRTQKPVLEDLRSGVYSLPLLLSLSHAPRDFHKLLKKKQAMTLEDIKHVQALVAQYDGVGAAKQLAQDYTDRALTLIQQLPVGSAQQSLEQLTRLLLRRD 3pkp-a6-m1-cK_3pkp-a6-m1-cL Q83S Variant of S. Enterica RmlA with dATP P26393 P26393 2.6 X-RAY DIFFRACTION 99 0.982 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 284 284 3pkp-a1-m1-cC_3pkp-a1-m1-cD 3pkp-a2-m1-cK_3pkp-a2-m1-cL 3pkp-a4-m1-cC_3pkp-a4-m1-cD KTRKGIILAGGSGTRLYPVTMAVSKQLLPIYDKPMIYYPLSTLMLAGIRDILIISTPQDTPRFQQLLGDGSQWGLNLQYKVSPSPDGLAQAFIIGEEFIGHDDCALVLGDNIFYGHDLPKLMEAAVATVFAYHVNDPERYGVVEFDQKGTAVSLEEKPLQPKSNYAVTGLYFYDNSVVEMAKNLKPSARGELEITDINRIYMEQGRLSVAMMGRGYAWLDTGTHQSLIEASNFIATIEERQGLKVSCPEEIAFRKNFINAQQVIELAGPLSKNDYGKYLLKMVK KTRKGIILAGGSGTRLYPVTMAVSKQLLPIYDKPMIYYPLSTLMLAGIRDILIISTPQDTPRFQQLLGDGSQWGLNLQYKVSPSPDGLAQAFIIGEEFIGHDDCALVLGDNIFYGHDLPKLMEAAVNKESGATVFAYHVNDPERYGVVEFDQKGTAVSLEEKPLQPKSNYAVTGLYFYDNSVVEMAKNLKELEITDINRIYMEQGRLSVAMMGRGYAWLDTGTHQSLIEASNFIATIEERQGLKVSCPEEIAFRKNFINAQQVIELAGPLSKNDYGKYLLKMVK 3pkq-a1-m1-cC_3pkq-a1-m1-cB Q83D Variant of S. Enterica RmlA with dGTP P26393 P26393 2.4 X-RAY DIFFRACTION 46 0.986 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 284 286 RKGIILAGGSGTRLYPVTMAVSKQLLPIYDKPMIYYPLSTLMLAGIRDILIISTPQDTPRFQQLLGDGSQWGLNLQYKVDPSPDGLAQAFIIGEEFIGHDDCALVLGDNIFYGHDLPKLMEAAVNKSGATVFAYHVNDPERYGVVEFDQKGTAVSLEEKPLQPKSNYAVTGLYFYDNSVVEMAKNLKPSAELEITDINRIYMEQGRLSVAMMGRGYAWLDTGTHQSLIEASNFIATIEERQGLKVSCPEEIAFRKNFINAQQVIELAGPLSKNDYGKYLLKMVK MKTRKGIILAGGSGTRLYPVTMAVSKQLLPIYDKPMIYYPLSTLMLAGIRDILIISTPQDTPRFQQLLGDGSQWGLNLQYKVDPSPDGLAQAFIIGEEFIGHDDCALVLGDNIFYGHDLPKLMEAAVNKESGATVFAYHVNDPERYGVVEFDQKGTAVSLEEKPPKYAVTGLYFYDNSVVEMAKNLKPSARGELEITDINRIYMEQGRLSVAMMGRGYAWLDTGTHQSLIEASNFIATIEERQGLKVSCPEEIAFRKNFINAQQVIELAGPLSKNDYGKYLLKMVK 3pkz-a1-m1-cA_3pkz-a1-m1-cD Structural basis for catalytic activation of a serine recombinase P20384 P20384 1.8 X-RAY DIFFRACTION 12 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 124 124 3pkz-a1-m1-cB_3pkz-a1-m1-cC 3pkz-a2-m1-cE_3pkz-a2-m1-cH 3pkz-a2-m1-cG_3pkz-a2-m1-cF 3pkz-a3-m1-cI_3pkz-a3-m1-cL 3pkz-a3-m1-cJ_3pkz-a3-m1-cK MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIRILAMVSEQE MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIRILAMVSEQE 3pkz-a3-m1-cI_3pkz-a3-m1-cJ Structural basis for catalytic activation of a serine recombinase P20384 P20384 1.8 X-RAY DIFFRACTION 29 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 124 124 3pkz-a1-m1-cA_3pkz-a1-m1-cB 3pkz-a1-m1-cC_3pkz-a1-m1-cD 3pkz-a2-m1-cE_3pkz-a2-m1-cF 3pkz-a2-m1-cG_3pkz-a2-m1-cH 3pkz-a3-m1-cK_3pkz-a3-m1-cL 5c31-a1-m1-cC_5c31-a1-m1-cA 5c31-a1-m1-cD_5c31-a1-m1-cB 5c31-a2-m1-cF_5c31-a2-m1-cH 5c31-a2-m1-cG_5c31-a2-m1-cE 5c32-a1-m1-cB_5c32-a1-m1-cC 5c35-a1-m1-cB_5c35-a1-m1-cA 5c35-a1-m2-cB_5c35-a1-m2-cA MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIRILAMVSEQE MIIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEMGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLMITSLPMMNEVIGNPLLDKFMKDLIIRILAMVSEQE 3pl2-a2-m1-cD_3pl2-a2-m1-cC Crystal structure of a 5-keto-2-deoxygluconokinase (NCgl0155, Cgl0158) from Corynebacterium glutamicum ATCC 13032 KITASATO at 1.89 A resolution Q8NTZ3 Q8NTZ3 1.89 X-RAY DIFFRACTION 70 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 305 306 3pl2-a1-m1-cA_3pl2-a1-m1-cB STHEVLAIGRLGVDIYPLQSGVGLADVQSFGKYLGGSAANVSVAAARHGHNSALLSRVGNDPFGEYLLAELERLGVDNQYVATDQTFKTPVTFCEIFPPDDFPLYFYREPKAPDLNIESADVSLDDVREADILWFTLTGFSEEPSRGTHREILTTRANRRHTIFDLDYRPFWESPEEATKQAEWALQHSTVAVGNKEECEIAVGETEPERAGRALLERGVELAIVKQGPKGVATKDETVEVPPFFVDVINGLGAGDAFGGALCHGLLSEWPLEKVLRFANTAGALVASRLECSTAPTTDEVEASL STHEVLAIGRLGVDIYPLQSGVGLADVQSFGKYLGGSAANVSVAAARHGHNSALLSRVGNDPFGEYLLAELERLGVDNQYVATDQTFKTPVTFCEIFPPDDFPLYFYREPKAPDLNIESADVSLDDVREADILWFTLTGFSEEPSRGTHREILTTRANRRHTIFDLDYRPFWESPEEATKQAEWALQHSTVAVGNKEECEIAVGETEPERAGRALLERGVELAIVKQGPKGVATKDETVEVPPFFVDVINGLGAGDAFGGALCHGLLSEWPLEKVLRFANTAGALVASRLECSTAPTTDEVEASLN 3pl8-a1-m2-cA_3pl8-a1-m4-cA Pyranose 2-oxidase H167A complex with 3-deoxy-3-fluoro-beta-D-glucose Q7ZA32 Q7ZA32 1.35 X-RAY DIFFRACTION 44 1.0 230624 (Trametes ochracea) 230624 (Trametes ochracea) 573 573 1tt0-a1-m1-cC_1tt0-a1-m1-cA 1tt0-a1-m1-cD_1tt0-a1-m1-cB 1tzl-a1-m1-cA_1tzl-a1-m1-cB 1tzl-a1-m1-cC_1tzl-a1-m1-cD 1tzl-a2-m1-cE_1tzl-a2-m1-cF 1tzl-a2-m1-cG_1tzl-a2-m1-cH 2f5v-a1-m1-cA_2f5v-a1-m3-cA 2f5v-a1-m2-cA_2f5v-a1-m4-cA 2f6c-a1-m1-cA_2f6c-a1-m3-cA 2f6c-a1-m2-cA_2f6c-a1-m4-cA 2igk-a1-m1-cA_2igk-a1-m1-cC 2igk-a1-m1-cB_2igk-a1-m1-cD 2igk-a2-m1-cE_2igk-a2-m1-cG 2igk-a2-m1-cF_2igk-a2-m1-cH 2igm-a1-m1-cA_2igm-a1-m1-cC 2igm-a1-m1-cB_2igm-a1-m1-cD 2igm-a2-m1-cE_2igm-a2-m1-cG 2igm-a2-m1-cF_2igm-a2-m1-cH 2ign-a1-m1-cA_2ign-a1-m1-cC 2ign-a1-m1-cB_2ign-a1-m1-cD 2ign-a2-m1-cE_2ign-a2-m1-cG 2ign-a2-m1-cF_2ign-a2-m1-cH 2igo-a1-m1-cA_2igo-a1-m1-cC 2igo-a1-m1-cB_2igo-a1-m1-cD 2igo-a2-m1-cE_2igo-a2-m1-cG 2igo-a2-m1-cF_2igo-a2-m1-cH 3bg6-a1-m1-cA_3bg6-a1-m1-cC 3bg6-a1-m1-cB_3bg6-a1-m1-cD 3bg6-a2-m1-cE_3bg6-a2-m1-cG 3bg6-a2-m1-cF_3bg6-a2-m1-cH 3bg7-a1-m1-cA_3bg7-a1-m1-cC 3bg7-a1-m1-cB_3bg7-a1-m1-cD 3bg7-a2-m1-cE_3bg7-a2-m1-cG 3bg7-a2-m1-cF_3bg7-a2-m1-cH 3bly-a1-m1-cA_3bly-a1-m3-cA 3bly-a1-m2-cA_3bly-a1-m4-cA 3fdy-a1-m1-cA_3fdy-a1-m3-cA 3fdy-a1-m2-cA_3fdy-a1-m4-cA 3k4b-a1-m1-cA_3k4b-a1-m3-cA 3k4b-a1-m2-cA_3k4b-a1-m4-cA 3k4c-a1-m1-cC_3k4c-a1-m1-cB 3k4c-a1-m1-cD_3k4c-a1-m1-cA 3k4j-a1-m1-cA_3k4j-a1-m3-cA 3k4j-a1-m2-cA_3k4j-a1-m4-cA 3k4k-a1-m1-cA_3k4k-a1-m3-cA 3k4k-a1-m2-cA_3k4k-a1-m4-cA 3k4l-a1-m1-cA_3k4l-a1-m2-cB 3k4l-a1-m1-cB_3k4l-a1-m2-cA 3k4m-a1-m1-cA_3k4m-a1-m1-cC 3k4m-a1-m1-cD_3k4m-a1-m1-cB 3k4m-a2-m1-cF_3k4m-a2-m1-cH 3k4m-a2-m1-cG_3k4m-a2-m1-cE 3k4n-a1-m1-cA_3k4n-a1-m2-cB 3k4n-a1-m1-cB_3k4n-a1-m2-cA 3lsh-a1-m1-cC_3lsh-a1-m1-cB 3lsh-a1-m1-cD_3lsh-a1-m1-cA 3lsi-a1-m1-cA_3lsi-a1-m2-cB 3lsi-a1-m2-cA_3lsi-a1-m1-cB 3lsk-a1-m1-cC_3lsk-a1-m1-cB 3lsk-a1-m1-cD_3lsk-a1-m1-cA 3lsm-a1-m1-cA_3lsm-a1-m2-cB 3lsm-a1-m2-cA_3lsm-a1-m1-cB 3pl8-a1-m1-cA_3pl8-a1-m3-cA 4moe-a1-m1-cC_4moe-a1-m1-cA 4moe-a1-m1-cD_4moe-a1-m1-cB 4mof-a1-m1-cA_4mof-a1-m3-cA 4mof-a1-m2-cA_4mof-a1-m4-cA 4mog-a1-m1-cA_4mog-a1-m4-cA 4mog-a1-m2-cA_4mog-a1-m3-cA 4moh-a1-m1-cA_4moh-a1-m3-cA 4moh-a1-m2-cA_4moh-a1-m4-cA 4moi-a1-m1-cA_4moi-a1-m2-cA 4moi-a1-m1-cB_4moi-a1-m2-cB 4moj-a1-m1-cC_4moj-a1-m1-cA 4moj-a1-m1-cD_4moj-a1-m1-cB 4mok-a1-m1-cC_4mok-a1-m1-cA 4mok-a1-m1-cD_4mok-a1-m1-cB 4mol-a1-m1-cA_4mol-a1-m1-cC 4mol-a1-m1-cD_4mol-a1-m1-cB 4mom-a1-m1-cC_4mom-a1-m1-cA 4mom-a1-m1-cD_4mom-a1-m1-cB 4moo-a1-m1-cA_4moo-a1-m3-cA 4moo-a1-m2-cA_4moo-a1-m4-cA 4mop-a1-m1-cC_4mop-a1-m1-cA 4mop-a1-m1-cD_4mop-a1-m1-cB 4moq-a1-m1-cA_4moq-a1-m2-cB 4moq-a1-m2-cA_4moq-a1-m1-cB 4mor-a1-m1-cB_4mor-a1-m1-cD 4mor-a1-m1-cC_4mor-a1-m1-cA 4mos-a1-m1-cA_4mos-a1-m3-cA 4mos-a1-m2-cA_4mos-a1-m4-cA KYDVVIVGSGPIGCTYARELVGAGYKVAMFDIGEIDSGLKIGAHKKNTVEYQKNIDKFVNVIQGQLMSVSVPVNTLVVDTLSPTSWQASTFFVRNGSNPEQDPLRNLSGQAVTRVVGGMSTAWTCATPRFDREQRPLLVKDDADADDAEWDRLYTKAESYFQTGTDQFKESIRHNLVLNKLTEEYKGQRDFQQIPLAATRRSPTFVEWSSANTVFDLQNRPNTDAPEERFNLFPAVACERVVRNALNSEIESLHIHDLISGDRFEIKADVYVLTAGAVHNTQLLVNSGFGQLGRPNPANPPELLPSLGSYITEQSLVFCQTVMSTELIDSVKSDMTIRGTPGELTYSVTYTPGASTNKHPDWWNEKVKNHMMQHQEDPLPIPFEDPEPQVTTLFQPSHPWHTQIHRDAFSYGAVQQSIDSRLIVDWRFFGRTEPKEENKLWFSDKITDAYNMPQPTFDFRFPAGRTSKEAEDMMTDMCVMSAKIGGFLPGSLPQFMEPGLVLHLGGTHRMGFDEKEDNCCVNTDSRVFGFKNLFLGGCGNIPTAYGANPTLTAMSLAIKSCEYIKQNFTPSPF KYDVVIVGSGPIGCTYARELVGAGYKVAMFDIGEIDSGLKIGAHKKNTVEYQKNIDKFVNVIQGQLMSVSVPVNTLVVDTLSPTSWQASTFFVRNGSNPEQDPLRNLSGQAVTRVVGGMSTAWTCATPRFDREQRPLLVKDDADADDAEWDRLYTKAESYFQTGTDQFKESIRHNLVLNKLTEEYKGQRDFQQIPLAATRRSPTFVEWSSANTVFDLQNRPNTDAPEERFNLFPAVACERVVRNALNSEIESLHIHDLISGDRFEIKADVYVLTAGAVHNTQLLVNSGFGQLGRPNPANPPELLPSLGSYITEQSLVFCQTVMSTELIDSVKSDMTIRGTPGELTYSVTYTPGASTNKHPDWWNEKVKNHMMQHQEDPLPIPFEDPEPQVTTLFQPSHPWHTQIHRDAFSYGAVQQSIDSRLIVDWRFFGRTEPKEENKLWFSDKITDAYNMPQPTFDFRFPAGRTSKEAEDMMTDMCVMSAKIGGFLPGSLPQFMEPGLVLHLGGTHRMGFDEKEDNCCVNTDSRVFGFKNLFLGGCGNIPTAYGANPTLTAMSLAIKSCEYIKQNFTPSPF 3plr-a1-m1-cA_3plr-a1-m2-cA Crystal structure of Klebsiella pneumoniae UDP-glucose 6-dehydrogenase complexed with NADH and UDP-glucose A0A0J9WZA6 A0A0J9WZA6 1.7 X-RAY DIFFRACTION 169 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 377 377 3phl-a1-m1-cA_3phl-a1-m2-cA 3pid-a1-m1-cA_3pid-a1-m2-cA 3pjg-a1-m1-cA_3pjg-a1-m2-cA 3pln-a1-m1-cA_3pln-a1-m2-cA EFMKITISGTGYVGLSNGVLIAQNHEVVALDIVQAKVDMLNQKISPIVDKEIQEYLAEKPLNFRATTDKHDAYRNADYVIIATPTDYDPKTNYFNTSTVEAVIRDVTEINPNAVMIIKSTIPVGFTRDIKERLGIDNVIFSPEFLREGRALYDNLHPSRIVIGERSARAERFADLLKEGAIKQDIPTLFTDSTEAEAIKLFANTYLALRVAYFNELDSYAESQGLNSKQIIEGVCLDPRIGNHYNNPSFGYGGYCLPKDTKQLLANYESVPNNIIAAIVDANRTRKDFIADSILARKPKVVGVYRLSSIQGIMKRIKAKGIPVIIYEPVMQEDEFFNSRVVRDLNAFKQEADVIISNRMAEELADVADKVYTRDLFG EFMKITISGTGYVGLSNGVLIAQNHEVVALDIVQAKVDMLNQKISPIVDKEIQEYLAEKPLNFRATTDKHDAYRNADYVIIATPTDYDPKTNYFNTSTVEAVIRDVTEINPNAVMIIKSTIPVGFTRDIKERLGIDNVIFSPEFLREGRALYDNLHPSRIVIGERSARAERFADLLKEGAIKQDIPTLFTDSTEAEAIKLFANTYLALRVAYFNELDSYAESQGLNSKQIIEGVCLDPRIGNHYNNPSFGYGGYCLPKDTKQLLANYESVPNNIIAAIVDANRTRKDFIADSILARKPKVVGVYRLSSIQGIMKRIKAKGIPVIIYEPVMQEDEFFNSRVVRDLNAFKQEADVIISNRMAEELADVADKVYTRDLFG 3plt-a2-m1-cC_3plt-a2-m2-cC Crystal structure of Lsp1 from Saccharomyces cerevisiae Q12230 Q12230 2.9 X-RAY DIFFRACTION 177 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 213 213 3plt-a1-m1-cB_3plt-a1-m1-cA PELARKLSQLVKTEKGVLRAMEVVASERREAAKQLSLWGADNDDDVSDVTDKLGVLIYELGELQDQFIDKYDQYRVTLKSIRNIEASVQPSRDRKEKITDEIAHLKYKDPQSTKIPVLEQELVRAEAESLVAEAQLSNITREKLKAAYSYMFDSLRELSEKFALIAGYGKALLELLDDSPVTPGEARPAYDGYEASRQIIMDAESALESWTLD PELARKLSQLVKTEKGVLRAMEVVASERREAAKQLSLWGADNDDDVSDVTDKLGVLIYELGELQDQFIDKYDQYRVTLKSIRNIEASVQPSRDRKEKITDEIAHLKYKDPQSTKIPVLEQELVRAEAESLVAEAQLSNITREKLKAAYSYMFDSLRELSEKFALIAGYGKALLELLDDSPVTPGEARPAYDGYEASRQIIMDAESALESWTLD 3plx-a1-m2-cB_3plx-a1-m4-cB The crystal structure of aspartate alpha-decarboxylase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PIK3 Q9PIK3 1.747 X-RAY DIFFRACTION 44 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 100 100 3plx-a1-m1-cB_3plx-a1-m3-cB 3plx-a1-m1-cB_3plx-a1-m4-cB 3plx-a1-m2-cB_3plx-a1-m3-cB ISIDEKLLQASGILEYEKVQVVNVNNGARFETYTIATQEEGVVCLNGAAARLAEVGDKVIIMSYADFNEEEAKTFKPKVVFVDENNTATKITNYEKHGAI ISIDEKLLQASGILEYEKVQVVNVNNGARFETYTIATQEEGVVCLNGAAARLAEVGDKVIIMSYADFNEEEAKTFKPKVVFVDENNTATKITNYEKHGAI 3pm5-a6-m1-cD_3pm5-a6-m1-cC Crystal Structure of BoxB in mixed valent state with bound benzoyl-CoA Q9AIX7 Q9AIX7 2.3 X-RAY DIFFRACTION 84 1.0 59406 (Aromatoleum evansii) 59406 (Aromatoleum evansii) 469 475 3pm5-a5-m1-cB_3pm5-a5-m1-cA 3q1g-a5-m1-cB_3q1g-a5-m1-cA 3q1g-a6-m2-cD_3q1g-a6-m1-cC SERIPNNVNLNENKTLQRALEQWQPSFLNWWDDMGPENSSNYDVYLRTAVSVDPKGWADFGYVKMHDYRWGIFLAPQEGEKKITFGEHKGQDVWQEVPGEYRSTLRRIIVTQGDTEPASVEQQRHLGLTAPSLYDLRNLFQVNVEEGRHLWAMVYLLHAHFGRDGREEGEALLERRSGDEDNPRILTAFNEKTPDWLSFFMFTFITDRDGKFQLASLAESAFDPLARTCKFMLTEEAHHLFVGESGIARVIQRTCEVMKELGTDDPAKLRAAGVIDLPTLQKYLNFHYSVTSDLYGAEISSNAATYYTNGLKGRFEEEKIGDDHKLQNSEYEVMDVAGDKILTRHVPALSALNERLRDDWITDVQAGVDRWNRIPAKFGFDFRFTLPHKGFHRKIGMFADVHVSPDGRLISEAEWTHQHKNWLPTESDRLYVHSLMGRCLEPGKFANWIAAPARGINNQPVNFEYVRFN MINYSERIPNNVNLNENKTLQRALEQWQPSFLNWWDDMGPENSSNYDVYLRTAVSVDPKGWADFGYVKMHDYRWGIFLAPQEGEKKITFGEHKGQDVWQEVPGEYRSTLRRIIVTQGDTEPASVEQQRHLGLTAPSLYDLRNLFQVNVEEGRHLWAMVYLLHAHFGRDGREEGEALLERRSGDEDNPRILTAFNEKTPDWLSFFMFTFITDRDGKFQLASLAESAFDPLARTCKFMLTEEAHHLFVGESGIARVIQRTCEVMKELGTDDPAKLRAAGVIDLPTLQKYLNFHYSVTSDLYGAEISSNAATYYTNGLKGRFEEEKIGDDHKLQNSEYEVMDVAGDKILTRHVPALSALNERLRDDWITDVQAGVDRWNRIPAKFGFDFRFTLPHKGFHRKIGMFADVHVSPDGRLISEAEWTHQHKNWLPTESDRLYVHSLMGRCLEPGKFANWIAAPARGINNQPVNFEYVRFNWS 3pm6-a1-m1-cB_3pm6-a1-m1-cA Crystal structure of a putative fructose-1,6-biphosphate aldolase from Coccidioides immitis solved by combined SAD MR P0CJ44 P0CJ44 2.2 X-RAY DIFFRACTION 78 0.981 5501 (Coccidioides immitis) 5501 (Coccidioides immitis) 264 287 PSLKSNRALPLLTFARTHSFAIPAICVYNLEGILAIIRAAEHKRSPAMILLFPWAIQYADSLLVRTAASACRAASVPITLHLDHAQDPEIIKRAADLSRSEPGFDSIMVDMSHFSKEENLRLTRELVAYCNARGIATEAEPGVLTTPEESEEFVATGINWLAPAFGNLDYERLQRINEAVGERVGLVLHGADPFTKEIFEKCIERGVAKVNVNRAVNNEYVKVMREKAGSLPITRLHEEVTNAMQAAVEKIMDMIDSTGKAEFM LKSNRALPLLTFARTHSFAIPAICVYNLEGILAIIRAAEHKRSPAMILLFPWAIQYADSLLVRTAASACRAASVPITLHLDHAQDPEIIKRAADLSPGFDSIMVDMSHFSKEENLRLTRELVAYCNARGIATEAEPGRIEGGEDGVQDTVDLEGVLTTPEESEEFVATGINWLAPAFGNVHGNYGPRGVQLDYERLQRINEAVGERVGLVLHGADPFTKEIFEKCIERGVAKVNVNRAVNNEYVKVMREKAGSLPITRLHEEVTNAMQAAVEKIMDMIDSTGKAEFM 3pm7-a1-m1-cB_3pm7-a1-m1-cA Crystal Structure of EF_3132 protein from Enterococcus faecalis at the resolution 2A, Northeast Structural Genomics Consortium Target EfR184 Q82ZD2 Q82ZD2 2.001 X-RAY DIFFRACTION 69 0.985 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 68 71 SYEILEEVAVLSENARGWRKELNLISWNGRPPKFDLREWAPDHEKGKGITLTNEEFAELSKTIKSLEH KEEFSYEILEEVAVLSENARGWRKELNLISWNGRPPKFDLREWAPDHEKGKGITLTNEEFAELSKTIKSLE 3pm8-a1-m1-cA_3pm8-a1-m1-cB CAD domain of PFF0520w, Calcium dependent protein kinase O15865 O15865 2 X-RAY DIFFRACTION 50 0.988 5839 (Plasmodium falciparum K1) 5839 (Plasmodium falciparum K1) 165 174 QGHVELSSTLLKNLKNFKKENELKKIALTIIAKHLCDVEINNLRNIFIALDVDNSGTLSSQEILDGLKKIGPPDIHQVLRDQIHYTDFLAATIDKQTYLKKEVCLIPFKFFDIDGNGKISVEELKRIFGENPLIDKAIDSLLQEVDLNGDGEIDFHEFMLMMSKK QGHVELSSTLLKNLKNFKKENELKKIALTIIAKHLCDVEINNLRNIFIALDVDNSGTLSSQEILDGLKKIPPDIHQVLRDIDSNASGQIHYTDFLAATIDKQTYLKKEVCLIPFKFFDIDGNGKISVEELKRIFGRDDINPLIDKAIDSLLQEVDLNGDGEIDFHEFMLMMSKK 3pm9-a3-m1-cE_3pm9-a3-m1-cF Crystal structure of a Putative dehydrogenase (RPA1076) from Rhodopseudomonas palustris CGA009 at 2.57 A resolution Q6NAV4 Q6NAV4 2.57 X-RAY DIFFRACTION 257 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 459 459 3pm9-a1-m1-cA_3pm9-a1-m1-cB 3pm9-a2-m1-cC_3pm9-a2-m1-cD TLSPELIARFTAIVGDKHALTDPLELEAYITEERNLYRGHSPLVLRPGSTEEVVAICKLANEARVALVPQGGNTGLVGGQTPHNGEVVISLKRDKIREIDTSSNTITVEAGAILQRVQEKAAEVDRLFPLSLGAQGSCTIGGNLSTNAGGTAALAYGLARDALGVEVVLADGRVNLLSKLKKDNTGYDLRDLFIGAEGTLGIITAATLKLFPKPRAVETAFVGLQSPDDALKLLGIAQGEAAGNLTSFELIAETPLDFSVRHANNRDPLEARYPWYVLIELSSPRDDARAALESILERGFEDGIVVDAAIANSVQQQQAFWKLREEISPAQKPEGGSIKHDISVPVAAVPQFIEQANAAVVALIPGARPVPFGHLGDGNIHYNVSQPVGADKAEFLARWHDVSQVVFEVVLRLGGSISAEHGIGVKRDELAEVKDKTAIELRSIKALLDPHGINPGKVV TLSPELIARFTAIVGDKHALTDPLELEAYITEERNLYRGHSPLVLRPGSTEEVVAICKLANEARVALVPQGGNTGLVGGQTPHNGEVVISLKRDKIREIDTSSNTITVEAGAILQRVQEKAAEVDRLFPLSLGAQGSCTIGGNLSTNAGGTAALAYGLARDALGVEVVLADGRVNLLSKLKKDNTGYDLRDLFIGAEGTLGIITAATLKLFPKPRAVETAFVGLQSPDDALKLLGIAQGEAAGNLTSFELIAETPLDFSVRHANNRDPLEARYPWYVLIELSSPRDDARAALESILERGFEDGIVVDAAIANSVQQQQAFWKLREEISPAQKPEGGSIKHDISVPVAAVPQFIEQANAAVVALIPGARPVPFGHLGDGNIHYNVSQPVGADKAEFLARWHDVSQVVFEVVLRLGGSISAEHGIGVKRDELAEVKDKTAIELRSIKALLDPHGINPGKVV 3pmc-a1-m1-cA_3pmc-a1-m1-cB Crystal structure of the sporulation inhibitor pXO2-61 from Bacillus anthracis Q9RMX2 Q9RMX2 1.49 X-RAY DIFFRACTION 56 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 132 132 KCLLCRYLKERQEKFISDWKKKVIIRERDPYKEEIIKNGEHLLSAFIMYLKEEISLQEIEITSKKIARERIDAKVNIAEFIHNTNVAKIEIMNILTLLNPDLQQYQALVKKINQFFDHLIYYTVHSYYEQKA KCLLCRYLKERQEKFISDWKKKVIIRERDPYKEEIIKNGEHLLSAFIMYLKEEISLQEIEITSKKIARERIDAKVNIAEFIHNTNVAKIEIMNILTLLNPDLQQYQALVKKINQFFDHLIYYTVHSYYEQKA 3pmd-a1-m1-cA_3pmd-a1-m2-cA Crystal structure of the sporulation inhibitor pXO1-118 from Bacillus anthracis Q44635 Q44635 1.76 X-RAY DIFFRACTION 96 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 153 153 GSHMEATKRYLCLYLKESQEKFISNWKKRILVHEHDPYKNEIIKNGTHLLHVFTMYMREEINLQDIEDISKKIAQERMDAKVNIADFIYNTNEGKKEILNTLFLLNPTGQECKVVIEQINLFFDHLIYSTIYSYYKLKKEYIHSYYELKKKYN GSHMEATKRYLCLYLKESQEKFISNWKKRILVHEHDPYKNEIIKNGTHLLHVFTMYMREEINLQDIEDISKKIAQERMDAKVNIADFIYNTNEGKKEILNTLFLLNPTGQECKVVIEQINLFFDHLIYSTIYSYYKLKKEYIHSYYELKKKYN 3pmi-a5-m1-cA_3pmi-a5-m2-cB PWWP Domain of Human Mutated Melanoma-Associated Antigen 1 Q2TAK8 Q2TAK8 2.82 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 SFEVGLVWHKHKKYPFWPAVVKSVRQRDKKASVLYIEGHNPKKGFTVSLKSLKHFDCKEKQTLLNQAREDFNQDIGWCVSLITDYRVRLGCGSFAGSFLEYYAADISYPVRKSIQQDVL SFEVGLVWHKHKKYPFWPAVVKSVRQRDKKASVLYIEGHNPKKGFTVSLKSLKHFDCKEKQTLLNQAREDFNQDIGWCVSLITDYRVRLGCGSFAGSFLEYYAADISYPVRKSIQQDVL 3pmi-a5-m1-cC_3pmi-a5-m1-cA PWWP Domain of Human Mutated Melanoma-Associated Antigen 1 Q2TAK8 Q2TAK8 2.82 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 119 SFEVGLVWHKHKKYPFWPAVVKSVRQRDKKASVLYIEGHNPKKGFTVSLKSLKHFDCKEKQTLLNQAREDFNQDIGWCVSLITDYRVRLGCGSFAGSFLEYYAADISYPVRKSIQQDV SFEVGLVWHKHKKYPFWPAVVKSVRQRDKKASVLYIEGHNPKKGFTVSLKSLKHFDCKEKQTLLNQAREDFNQDIGWCVSLITDYRVRLGCGSFAGSFLEYYAADISYPVRKSIQQDVL 3pmi-a5-m1-cC_3pmi-a5-m2-cB PWWP Domain of Human Mutated Melanoma-Associated Antigen 1 Q2TAK8 Q2TAK8 2.82 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 119 3pmi-a5-m1-cD_3pmi-a5-m1-cA SFEVGLVWHKHKKYPFWPAVVKSVRQRDKKASVLYIEGHNPKKGFTVSLKSLKHFDCKEKQTLLNQAREDFNQDIGWCVSLITDYRVRLGCGSFAGSFLEYYAADISYPVRKSIQQDV SFEVGLVWHKHKKYPFWPAVVKSVRQRDKKASVLYIEGHNPKKGFTVSLKSLKHFDCKEKQTLLNQAREDFNQDIGWCVSLITDYRVRLGCGSFAGSFLEYYAADISYPVRKSIQQDVL 3pmo-a1-m2-cA_3pmo-a1-m3-cA The structure of LpxD from Pseudomonas aeruginosa at 1.3 A resolution Q9HXY6 Q9HXY6 1.3 X-RAY DIFFRACTION 244 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 357 357 3pmo-a1-m1-cA_3pmo-a1-m2-cA 3pmo-a1-m1-cA_3pmo-a1-m3-cA 6uec-a1-m1-cA_6uec-a1-m2-cA 6uec-a1-m1-cA_6uec-a1-m3-cA 6uec-a1-m2-cA_6uec-a1-m3-cA 6ued-a1-m1-cA_6ued-a1-m2-cA 6ued-a1-m1-cA_6ued-a1-m3-cA 6ued-a1-m2-cA_6ued-a1-m3-cA SSHHHHHHSSGLVPRGSHMSTLSYTLGQLAAHVGAEVRGDADLPIQGLATLQEAGPAQLSFLANPQYRKYLPESRAGAVLLTAADADGFAGTALVVANPYLAYASLSHLFDRKPKAAAGIHPTAIVAADAEVDPSASVGAYAVIESGARIGAGVSIGAHCVIGARSVIGEGGWLAPRVTLYHDVTIGARVSIQSGAVIGGEGFGFANEKGVWQKIAQIGGVTIGDDVEIGANTTIDRGALSDTLIGNGVKLDNQIMIAHNVQIGDHTAMAACVGISGSAKIGRHCMLAGGVGLVGHIEICDNVFVTGMTMVTRSITEPGSYSSGTAMQPAAEWKKSAARIRQLDDMARRLQQLEKRL SSHHHHHHSSGLVPRGSHMSTLSYTLGQLAAHVGAEVRGDADLPIQGLATLQEAGPAQLSFLANPQYRKYLPESRAGAVLLTAADADGFAGTALVVANPYLAYASLSHLFDRKPKAAAGIHPTAIVAADAEVDPSASVGAYAVIESGARIGAGVSIGAHCVIGARSVIGEGGWLAPRVTLYHDVTIGARVSIQSGAVIGGEGFGFANEKGVWQKIAQIGGVTIGDDVEIGANTTIDRGALSDTLIGNGVKLDNQIMIAHNVQIGDHTAMAACVGISGSAKIGRHCMLAGGVGLVGHIEICDNVFVTGMTMVTRSITEPGSYSSGTAMQPAAEWKKSAARIRQLDDMARRLQQLEKRL 3pn2-a2-m1-cA_3pn2-a2-m2-cA Crystal structure of Arabidopsis thaliana petide deformylase 1B (AtPDF1B) (crystallized in PEG-550-MME) Q9FUZ2 Q9FUZ2 2 X-RAY DIFFRACTION 43 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 180 180 3pn3-a3-m1-cA_3pn3-a3-m1-cB 3pn4-a2-m1-cA_3pn4-a2-m2-cA 3pn5-a2-m1-cA_3pn5-a2-m2-cA 3pn6-a3-m1-cA_3pn6-a3-m1-cB MEIVEYPDPILRAKNKRIDIFDENLKNLVDAMFDVMYKTDGIGLSAPQVGLNVQLMVFNPAGEPGEGKEIVLVNPKIKKYSDKLVPFDEGCLSFPGIYAEVVRPQSVKIDARDITGERFSISLSRLPARIFQHEYDHLEGVLFFDRMTDQVLDSIREELEALEKKYEEKTGLPSPERVEA MEIVEYPDPILRAKNKRIDIFDENLKNLVDAMFDVMYKTDGIGLSAPQVGLNVQLMVFNPAGEPGEGKEIVLVNPKIKKYSDKLVPFDEGCLSFPGIYAEVVRPQSVKIDARDITGERFSISLSRLPARIFQHEYDHLEGVLFFDRMTDQVLDSIREELEALEKKYEEKTGLPSPERVEA 3pn9-a1-m1-cB_3pn9-a1-m1-cA Crystal structure of a proline dipeptidase from streptococcus pneumoniae tigr4 A0A0H2UR67 A0A0H2UR67 2 X-RAY DIFFRACTION 38 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 132 135 SKLQQILTYLESEKLDVAVVSDPVTINYLTGFYSDPHERQFLFVLADQEPLLFVPALEVERASSTVSFPVVGYVDSENPWQKIKHALPQLDFKRVAVEFDNLILTKYHGLKTVFETAEFDNLTPRIQRRLIK SNASKLQQILTYLESEKLDVAVVSDPVTINYLTGFYSDPHERQFLFVLADQEPLLFVPALEVERASSTVSFPVVGYVDSENPWQKIKHALPQLDFKRVAVEFDNLILTKYHGLKTVFETAEFDNLTPRIQRRLIK 3pn9-a1-m1-cB_3pn9-a1-m1-cD Crystal structure of a proline dipeptidase from streptococcus pneumoniae tigr4 A0A0H2UR67 A0A0H2UR67 2 X-RAY DIFFRACTION 15 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 132 132 3pn9-a1-m1-cC_3pn9-a1-m1-cA SKLQQILTYLESEKLDVAVVSDPVTINYLTGFYSDPHERQFLFVLADQEPLLFVPALEVERASSTVSFPVVGYVDSENPWQKIKHALPQLDFKRVAVEFDNLILTKYHGLKTVFETAEFDNLTPRIQRRLIK SKLQQILTYLESEKLDVAVVSDPVTINYLTGFYSDPHERQFLFVLADQEPLLFVPALEVERASSTVSFPVVGYVDSENPWQKIKHALPQLDFKRVAVEFDNLILTKYHGLKTVFETAEFDNLTPRIQRRLIK 3pnd-a2-m1-cD_3pnd-a2-m1-cC FAD binding by ApbE protein from Salmonella enterica: a new class of FAD binding proteins P41780 P41780 2.75 X-RAY DIFFRACTION 88 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 310 323 3pnd-a1-m1-cB_3pnd-a1-m1-cA AQVLEGKTMGTLWRVSVVGIDAKRAAELQTKIQTQLDADDWLLSTYKNDSALMRFNHSRSLAPWPVSEAMADIVTSALRIGAKTDGAMDITVGPLVNLWGFGPDRQPLHIPTPAQIDAAKAKTGLQHLQVIDRAGHQFLQKDLPDLYVDLSTVGEGYAADHLARLMEQEGIARYLVSVGGALSSRGMNAQGQPWRVAIQKPTQAIVDINGHGISTSGSYRNYYELDGKRVSHVIDPQTGRPIEHNLVSVTVIAPTALEADGWDTGLMVLGTQKAQEVVRREGLAVFMIMKEGEGFKTWMSPQFKTFLVSD TTTASPAAQVLEGKTMGTLWRVSVVGIDAKRAAELQTKIQTQLDADDWLLSTYKNDSALMRFNHSRSLAPWPVSEAMADIVTSALRIGAKTDGAMDITVGPLVNLWGFGPDRQPLHIPTPAQIDAAKAKTGLQHLQVIDRAGHQFLQKDLPDLYVDLSTVGEGYAADHLARLMEQEGIARYLVSVGGALSSRGMNAQGQPWRVAIQKPTDRENAVQAIVDINGHGISTSGSYRNYYELDGKRVSHVIDPQTGRPIEHNLVSVTVIAPTALEADGWDTGLMVLGTQKAQEVVRREGLAVFMIMKEGEGFKTWMSPQFKTFLVSD 3pni-a3-m1-cB_3pni-a3-m2-cA Crystal structure of D14C [3Fe-4S] Pyrococcus furiosus ferredoxin P29603 P29603 2.8 X-RAY DIFFRACTION 40 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 66 66 AWKVSVDQDTCIGCAICASLCPDVFEMNDEGKAQPKVEVIEDEELYNCAKEAMEACPVSAITIEEA AWKVSVDQDTCIGCAICASLCPDVFEMNDEGKAQPKVEVIEDEELYNCAKEAMEACPVSAITIEEA 3pnu-a1-m1-cB_3pnu-a1-m1-cA 2.4 Angstrom Crystal Structure of Dihydroorotase (pyrC) from Campylobacter jejuni. Q0PBP6 Q0PBP6 2.4 X-RAY DIFFRACTION 60 0.997 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 333 337 ENLYFQSNAMKLKNPLDMHLHLRDNQMLELIAPLSARDFCAAVIMPNLIPPLCNLEDLKAYKMRILKACKDENFTPLMTLFFKNYDEKFLYSAKDEIFGILYPAGITTNSSFDIEYLKPTLEAMSDLNIPLLVHGETNDFVMDRESNFAKIYEKLAKHFPRLKIVMEHITTKTLCELLKDYENLYATITLHHLIITLDDVIGGKMNPHLFCKPIAKRYEDKEALCELAFSGYEKVMFGSDSAPHPKDGCAAGVFSAPVILPVLAELFKQNSSEENLQKFLSDNTCKIYDLKFKEDKILTLEEKEWQVPNVYEDKYNQVVPYMAGEILKFQLKH ENLYFQSNAMKLKNPLDMHLHLRDNQMLELIAPLSARDFCAAVIMPNLIPPLCNLEDLKAYKMRILKACKDENFTPLMTLFFKNYDEKFLYSAKDEIFGILYPAGITTNSNGGVSSFDIEYLKPTLEAMSDLNIPLLVHGETNDFVMDRESNFAKIYEKLAKHFPRLKIVMEHITTKTLCELLKDYENLYATITLHHLIITLDDVIGGKMNPHLFCKPIAKRYEDKEALCELAFSGYEKVMFGSDSAPHPKGCAAGVFSAPVILPVLAELFKQNSSEENLQKFLSDNTCKIYDLKFKEDKILTLEEKEWQVPNVYEDKYNQVVPYMAGEILKFQLKH 3pnx-a2-m1-cE_3pnx-a2-m1-cF Crystal structure of a putative sulfurtransferase dsrE (Swol_2425) from Syntrophomonas wolfei str. Goettingen at 1.92 A resolution Q0AU90 Q0AU90 1.92 X-RAY DIFFRACTION 45 1.0 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 148 148 3pnx-a1-m1-cB_3pnx-a1-m1-cA 3pnx-a1-m1-cB_3pnx-a1-m1-cC 3pnx-a1-m1-cC_3pnx-a1-m1-cA 3pnx-a2-m1-cE_3pnx-a2-m1-cD 3pnx-a2-m1-cF_3pnx-a2-m1-cD NKKNLLLFSGDYDKALASLIIANAAREEIEVTIFCAFWGLLLLRDPEKASQEDKSLYEQAFSSLTPREAEELPLSKNLGGIGKKLLEKEEKAPKLSDLLSGARKKEVKFYAQLSVEIGFKKEELFPEVQIDVKEYLKNALESDLQLFI NKKNLLLFSGDYDKALASLIIANAAREEIEVTIFCAFWGLLLLRDPEKASQEDKSLYEQAFSSLTPREAEELPLSKNLGGIGKKLLEKEEKAPKLSDLLSGARKKEVKFYAQLSVEIGFKKEELFPEVQIDVKEYLKNALESDLQLFI 3pny-a1-m1-cA_3pny-a1-m1-cB Structure of Glutamyl-tRNA synthetase from Mycobacterium tuberculosis in space group P21 P9WFV9 P9WFV9 1.7 X-RAY DIFFRACTION 37 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 481 485 ETVRVRFCPSPTGTPHVGLVRTALFNWAYARHTGGTFVFRIEDTDAQRDSEESYLALLDALRWLGLDWDEGPEVGGPYGPYRQSQRAEIYRDVLARLLAAGEAYHAFSTPEEVEARHVAAGRNPKLGYDNFDRHLTDAQRAAYLAEGRQPVVRLRMPDDDLAWNDLVRGPVTFAAGSVPDFALTRASGDPLYTLVNPCDDALMKITHVLRGEDLLPSTPRQLALHQALIRIGVAERIPKFAHLPTVLGEGTKKLSKRDPQSNLFAHRDRGFIPEGLLNYLALLGWSIADDHDLFGLDEMVAAFDVADVNSSPARFDQKKADALNAEHIRMLDVGDFTVRLRDHLDTHGHHIALDEAAFAAAAELVQTRIVVLGDAWELLKFFNDDQYVIDPKAAAKELGPDGAAVLDAALAALTSVTDWTAPLIEAALKDALIEGLALKPRKAFSPIRVAATGTTVSPPLFESLELLGRDRSMQRLRAARQ MTATETVRVRFCPSPTGTPHVGLVRTALFNWAYARHTGGTFVFRIEDTDAQRDSEESYLALLDALRWLGLDWDEGPEVGGPYGPYRQSQRAEIYRDVLARLLAAGEAYHAFSTPEEVEARHVAAGRNPKLGYDNFDRHLTDAQRAAYLAEGRQPVVRLRMPDDDLAWNDLVRGPVTFAAGSVPDFALTRASGDPLYTLVNPCDDALMKITHVLRGEDLLPSTPRQLALHQALIRIGVAERIPKFAHLPTVLGEGTKKLSKRDPQSNLFAHRDRGFIPEGLLNYLALLGWSIADDHDLFGLDEMVAAFDVADVNSSPARFDQKKADALNAEHIRMLDVGDFTVRLRDHLDTHGHHIALDEAAFAAAAELVQTRIVVLGDAWELLKFFNDDQYVIDPKAAAKELGPDGAAVLDAALAALTSVTDWTAPLIEAALKDALIEGLALKPRKAFSPIRVAATGTTVSPPLFESLELLGRDRSMQRLRAARQ 3pnz-a8-m1-cD_3pnz-a8-m1-cE Crystal structure of the lactonase Lmo2620 from Listeria monocytogenes 1.5983 X-RAY DIFFRACTION 40 1.0 267410 (Listeria monocytogenes serotype 4b str. H7858) 267410 (Listeria monocytogenes serotype 4b str. H7858) 327 327 3pnz-a7-m1-cC_3pnz-a7-m1-cA 3pnz-a7-m1-cC_3pnz-a7-m1-cF 3pnz-a7-m1-cF_3pnz-a7-m1-cA 3pnz-a8-m1-cD_3pnz-a8-m1-cB 3pnz-a8-m1-cE_3pnz-a8-m1-cB SFIRTFYGDIAPEQLGFTYSHEHIVCVPAYWQERDADDLLLDDKEKSQLDVQDFADLGGKTIVDATAVDYGRRVLDVAQISKETGIQIVGTAGFNKSFLWDGKIKPELKPIIGDFETYYEWIENTTTDKLTEFVVNEVENGLEGTPYKAGQVFGTGYNMITPLEEKTIRAVARAHHETKAPIHSHTEAGTMALEQIEILKQENIPLEYLSIGHMDRNLDPYYHKQVAKTGAFMSFDGIAKIKYAPESARIAAILYLVSEGFEDQILVSGDTARKTYYKHYGHGPGLEYIAKKWVPRFIDEANEKGFDGEKLVKKFFVDNPARCFTFK SFIRTFYGDIAPEQLGFTYSHEHIVCVPAYWQERDADDLLLDDKEKSQLDVQDFADLGGKTIVDATAVDYGRRVLDVAQISKETGIQIVGTAGFNKSFLWDGKIKPELKPIIGDFETYYEWIENTTTDKLTEFVVNEVENGLEGTPYKAGQVFGTGYNMITPLEEKTIRAVARAHHETKAPIHSHTEAGTMALEQIEILKQENIPLEYLSIGHMDRNLDPYYHKQVAKTGAFMSFDGIAKIKYAPESARIAAILYLVSEGFEDQILVSGDTARKTYYKHYGHGPGLEYIAKKWVPRFIDEANEKGFDGEKLVKKFFVDNPARCFTFK 3pod-a3-m3-cA_3pod-a3-m3-cC Crystal structure of MBL collagen-like peptide 1.497 X-RAY DIFFRACTION 38 1.0 17 17 3pod-a1-m1-cA_3pod-a1-m1-cC 3pod-a2-m1-cA_3pod-a2-m1-cC 3pod-a2-m2-cA_3pod-a2-m2-cC 3pod-a3-m1-cA_3pod-a3-m1-cC GPGPGPGKLGPGPGPGP GPGPGPGKLGPGPGPGP 3pod-a3-m3-cB_3pod-a3-m3-cC Crystal structure of MBL collagen-like peptide 1.497 X-RAY DIFFRACTION 40 1.0 17 17 3pod-a1-m1-cA_3pod-a1-m1-cB 3pod-a1-m1-cB_3pod-a1-m1-cC 3pod-a2-m1-cA_3pod-a2-m1-cB 3pod-a2-m1-cB_3pod-a2-m1-cC 3pod-a2-m2-cA_3pod-a2-m2-cB 3pod-a2-m2-cB_3pod-a2-m2-cC 3pod-a3-m1-cA_3pod-a3-m1-cB 3pod-a3-m1-cB_3pod-a3-m1-cC 3pod-a3-m3-cA_3pod-a3-m3-cB GPGPGPGKLGPGPGPGP GPGPGPGKLGPGPGPGP 3poj-a4-m1-cA_3poj-a4-m6-cB Crystal structure of MASP-1 CUB2 domain bound to Ethylamine Q8CHN8 Q8CHN8 1.451 X-RAY DIFFRACTION 54 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 113 114 3poi-a3-m1-cA_3poi-a3-m5-cB 3poi-a3-m2-cA_3poi-a3-m6-cB 3poi-a3-m3-cA_3poi-a3-m4-cB 3poi-a4-m1-cA_3poi-a4-m5-cB 3poi-a4-m2-cA_3poi-a4-m6-cB 3poi-a4-m3-cA_3poi-a4-m4-cB 3poj-a3-m1-cA_3poj-a3-m6-cB 3poj-a3-m2-cA_3poj-a3-m4-cB 3poj-a3-m3-cA_3poj-a3-m5-cB 3poj-a4-m2-cA_3poj-a4-m4-cB 3poj-a4-m3-cA_3poj-a4-m5-cB ECSGNLFTQRTGTITSPDYPNPYPKSSECSYTIDLEEGFMVTLQFEDIFDIEDHPEVPCPYDYIKIKAGSKVWGPFCGEKSPEPISTQSHSIQILFRSDNSGENRGWRLSYRA VECSGNLFTQRTGTITSPDYPNPYPKSSECSYTIDLEEGFMVTLQFEDIFDIEDHPEVPCPYDYIKIKAGSKVWGPFCGEKSPEPISTQSHSIQILFRSDNSGENRGWRLSYRA 3poj-a4-m3-cA_3poj-a4-m6-cB Crystal structure of MASP-1 CUB2 domain bound to Ethylamine Q8CHN8 Q8CHN8 1.451 X-RAY DIFFRACTION 17 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 113 114 3poi-a3-m1-cA_3poi-a3-m4-cB 3poi-a3-m2-cA_3poi-a3-m5-cB 3poi-a3-m3-cA_3poi-a3-m6-cB 3poi-a4-m1-cA_3poi-a4-m4-cB 3poi-a4-m2-cA_3poi-a4-m5-cB 3poi-a4-m3-cA_3poi-a4-m6-cB 3poj-a3-m1-cA_3poj-a3-m4-cB 3poj-a3-m2-cA_3poj-a3-m5-cB 3poj-a3-m3-cA_3poj-a3-m6-cB 3poj-a4-m1-cA_3poj-a4-m4-cB 3poj-a4-m2-cA_3poj-a4-m5-cB ECSGNLFTQRTGTITSPDYPNPYPKSSECSYTIDLEEGFMVTLQFEDIFDIEDHPEVPCPYDYIKIKAGSKVWGPFCGEKSPEPISTQSHSIQILFRSDNSGENRGWRLSYRA VECSGNLFTQRTGTITSPDYPNPYPKSSECSYTIDLEEGFMVTLQFEDIFDIEDHPEVPCPYDYIKIKAGSKVWGPFCGEKSPEPISTQSHSIQILFRSDNSGENRGWRLSYRA 3poj-a6-m7-cB_3poj-a6-m8-cB Crystal structure of MASP-1 CUB2 domain bound to Ethylamine Q8CHN8 Q8CHN8 1.451 X-RAY DIFFRACTION 14 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 114 114 3poi-a3-m1-cA_3poi-a3-m2-cA 3poi-a3-m1-cA_3poi-a3-m3-cA 3poi-a3-m2-cA_3poi-a3-m3-cA 3poi-a3-m4-cB_3poi-a3-m5-cB 3poi-a3-m4-cB_3poi-a3-m6-cB 3poi-a3-m5-cB_3poi-a3-m6-cB 3poi-a4-m1-cA_3poi-a4-m2-cA 3poi-a4-m1-cA_3poi-a4-m3-cA 3poi-a4-m2-cA_3poi-a4-m3-cA 3poi-a4-m4-cB_3poi-a4-m5-cB 3poi-a4-m4-cB_3poi-a4-m6-cB 3poi-a4-m5-cB_3poi-a4-m6-cB 3poi-a5-m1-cA_3poi-a5-m2-cA 3poi-a5-m1-cA_3poi-a5-m3-cA 3poi-a5-m2-cA_3poi-a5-m3-cA 3poi-a6-m1-cB_3poi-a6-m7-cB 3poi-a6-m1-cB_3poi-a6-m8-cB 3poi-a6-m7-cB_3poi-a6-m8-cB 3poj-a3-m1-cA_3poj-a3-m2-cA 3poj-a3-m1-cA_3poj-a3-m3-cA 3poj-a3-m2-cA_3poj-a3-m3-cA 3poj-a3-m4-cB_3poj-a3-m5-cB 3poj-a3-m4-cB_3poj-a3-m6-cB 3poj-a3-m5-cB_3poj-a3-m6-cB 3poj-a4-m1-cA_3poj-a4-m2-cA 3poj-a4-m1-cA_3poj-a4-m3-cA 3poj-a4-m2-cA_3poj-a4-m3-cA 3poj-a4-m4-cB_3poj-a4-m5-cB 3poj-a4-m4-cB_3poj-a4-m6-cB 3poj-a4-m5-cB_3poj-a4-m6-cB 3poj-a5-m1-cA_3poj-a5-m2-cA 3poj-a5-m1-cA_3poj-a5-m3-cA 3poj-a5-m2-cA_3poj-a5-m3-cA 3poj-a6-m1-cB_3poj-a6-m7-cB 3poj-a6-m1-cB_3poj-a6-m8-cB VECSGNLFTQRTGTITSPDYPNPYPKSSECSYTIDLEEGFMVTLQFEDIFDIEDHPEVPCPYDYIKIKAGSKVWGPFCGEKSPEPISTQSHSIQILFRSDNSGENRGWRLSYRA VECSGNLFTQRTGTITSPDYPNPYPKSSECSYTIDLEEGFMVTLQFEDIFDIEDHPEVPCPYDYIKIKAGSKVWGPFCGEKSPEPISTQSHSIQILFRSDNSGENRGWRLSYRA 3pon-a3-m3-cA_3pon-a3-m3-cB Crystal structure of MBL collagen-like peptide 1.5 X-RAY DIFFRACTION 45 1.0 19 19 3pob-a1-m1-cB_3pob-a1-m1-cC 3pob-a1-m1-cC_3pob-a1-m1-cD 3pon-a1-m1-cA_3pon-a1-m1-cB 3pon-a1-m1-cC_3pon-a1-m1-cB 3pon-a2-m1-cA_3pon-a2-m1-cB 3pon-a2-m1-cC_3pon-a2-m1-cB 3pon-a2-m2-cA_3pon-a2-m2-cB 3pon-a2-m2-cC_3pon-a2-m2-cB 3pon-a3-m1-cA_3pon-a3-m1-cB 3pon-a3-m1-cC_3pon-a3-m1-cB 3pon-a3-m3-cC_3pon-a3-m3-cB GPGPGPGPGKLGPGPGPGP GPGPGPGPGKLGPGPGPGP 3pon-a3-m3-cC_3pon-a3-m3-cA Crystal structure of MBL collagen-like peptide 1.5 X-RAY DIFFRACTION 43 1.0 18 19 3pob-a1-m1-cB_3pob-a1-m1-cD 3pon-a1-m1-cC_3pon-a1-m1-cA 3pon-a2-m1-cC_3pon-a2-m1-cA 3pon-a2-m2-cC_3pon-a2-m2-cA 3pon-a3-m1-cC_3pon-a3-m1-cA GPGPGPGPGKLGPGPGPG GPGPGPGPGKLGPGPGPGP 3pop-a2-m1-cB_3pop-a2-m1-cC The crystal structure of GilR, an oxidoreductase that catalyzes the terminal step of gilvocarcin biosynthesis Q7X2G7 Q7X2G7 1.651 X-RAY DIFFRACTION 102 1.0 35619 (Streptomyces griseoflavus) 35619 (Streptomyces griseoflavus) 493 493 3pop-a1-m1-cA_3pop-a1-m1-cD 3pqb-a1-m1-cD_3pqb-a1-m1-cA 3pqb-a2-m1-cB_3pqb-a2-m1-cC PPFTVGREDPRYIELSHSDNHRFVVEPEEFFLPATPDDVVASLQKAVTEGRGVACRSGGHCGQDFVGTPRRDLVLDLHNLHAIGPAADGAGVRVGSGATVDQVQKALFRRWNAALPLGACSAVGMGGLVAGGGYGPLSRQLGLVVDHLHAVEVAVVDESRTVRLVTARADDTGDLGELFWAHTGGGGGNFGVVTAYEFRSPEHLATEPVGLPRAAGRLHVQKVVFPWAMIDETSFVTVMRRFFEWHERHSEPGSPESSLFATFFVNHVSSGVLQLMVQQDADVDPEGEILARFVASLTEGTGVVGIPRGGVMSWLTGTRYMSQADCGDVMGARSASKSAYHRAAPTDEQLSVLHRHLHADHPGQASYVMFNSYGGEINRRGPSDAAVPQRDSVVKSSWFSAWQDAELDELHLGWLRGLYEEFFAGTGGVPVTGGRTDGCYINYPDADLLDPARNRSGEPWHHLYYKDNYARLRSAKRAWDPLNTFHHSMSIGL PPFTVGREDPRYIELSHSDNHRFVVEPEEFFLPATPDDVVASLQKAVTEGRGVACRSGGHCGQDFVGTPRRDLVLDLHNLHAIGPAADGAGVRVGSGATVDQVQKALFRRWNAALPLGACSAVGMGGLVAGGGYGPLSRQLGLVVDHLHAVEVAVVDESRTVRLVTARADDTGDLGELFWAHTGGGGGNFGVVTAYEFRSPEHLATEPVGLPRAAGRLHVQKVVFPWAMIDETSFVTVMRRFFEWHERHSEPGSPESSLFATFFVNHVSSGVLQLMVQQDADVDPEGEILARFVASLTEGTGVVGIPRGGVMSWLTGTRYMSQADCGDVMGARSASKSAYHRAAPTDEQLSVLHRHLHADHPGQASYVMFNSYGGEINRRGPSDAAVPQRDSVVKSSWFSAWQDAELDELHLGWLRGLYEEFFAGTGGVPVTGGRTDGCYINYPDADLLDPARNRSGEPWHHLYYKDNYARLRSAKRAWDPLNTFHHSMSIGL 3pp2-a1-m1-cA_3pp2-a1-m2-cA Crystal structure of the pleckstrin homology domain of ArhGAP27 Q6ZUM4 Q6ZUM4 1.421 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 DKAGVLHRTKTADKGKRLRKKHWSASWTVLEGGVLTFFKDSKTSGLRQPSKFSTPEYTVELRGATLSWAPKDKSSRKNVLELRSRDGSEYLIQHDSEAIISTWHKAIAQGIQ DKAGVLHRTKTADKGKRLRKKHWSASWTVLEGGVLTFFKDSKTSGLRQPSKFSTPEYTVELRGATLSWAPKDKSSRKNVLELRSRDGSEYLIQHDSEAIISTWHKAIAQGIQ 3pp2-a1-m2-cB_3pp2-a1-m1-cA Crystal structure of the pleckstrin homology domain of ArhGAP27 Q6ZUM4 Q6ZUM4 1.421 X-RAY DIFFRACTION 47 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 110 112 3pp2-a1-m1-cB_3pp2-a1-m2-cA LDKAGVLHRTKTADKGKRLRKKHWSASWTVLEGGVLTFFKDSGLRQPSKFSTPEYTVELRGATLSWAPKDKSSRKNVLELRSRDGSEYLIQHDSEAIISTWHKAIAQGIQ DKAGVLHRTKTADKGKRLRKKHWSASWTVLEGGVLTFFKDSKTSGLRQPSKFSTPEYTVELRGATLSWAPKDKSSRKNVLELRSRDGSEYLIQHDSEAIISTWHKAIAQGIQ 3pp2-a1-m2-cB_3pp2-a1-m2-cA Crystal structure of the pleckstrin homology domain of ArhGAP27 Q6ZUM4 Q6ZUM4 1.421 X-RAY DIFFRACTION 31 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 110 112 3pp2-a1-m1-cB_3pp2-a1-m1-cA LDKAGVLHRTKTADKGKRLRKKHWSASWTVLEGGVLTFFKDSGLRQPSKFSTPEYTVELRGATLSWAPKDKSSRKNVLELRSRDGSEYLIQHDSEAIISTWHKAIAQGIQ DKAGVLHRTKTADKGKRLRKKHWSASWTVLEGGVLTFFKDSKTSGLRQPSKFSTPEYTVELRGATLSWAPKDKSSRKNVLELRSRDGSEYLIQHDSEAIISTWHKAIAQGIQ 3pp5-a1-m2-cA_3pp5-a1-m3-cA High-resolution structure of the trimeric Scar/WAVE complex precursor Brk1 Q54X65 Q54X65 1.5 X-RAY DIFFRACTION 39 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 63 63 3pp5-a1-m1-cA_3pp5-a1-m2-cA 3pp5-a1-m1-cA_3pp5-a1-m3-cA TKTNIQKDWEQREFIEDMSINIQKIVEFLNKFELSTRNKLSDLNEKLTILDRQVDYLEATFKT TKTNIQKDWEQREFIEDMSINIQKIVEFLNKFELSTRNKLSDLNEKLTILDRQVDYLEATFKT 3pp9-a1-m1-cA_3pp9-a1-m2-cA 1.6 Angstrom resolution crystal structure of putative streptothricin acetyltransferase from Bacillus anthracis str. Ames in complex with acetyl coenzyme A A0A6L7H2K5 A0A6L7H2K5 1.6 X-RAY DIFFRACTION 71 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 172 172 SLLIRELETNDLDNFPEIDDSFIVNARLLSLSKVNRRIEYTVEDVPSYEKSYLELVYNEYINKPNQIIYIALLHNQIIGFIVLKKNWNNYAYIEDITVDKKYRTLGVGKRLIAQAKQWAKEGNPGILETQNNNVAACKFYEKCGFVIGGFDFLVYKGLNTSDEVAIYWYLHF SLLIRELETNDLDNFPEIDDSFIVNARLLSLSKVNRRIEYTVEDVPSYEKSYLELVYNEYINKPNQIIYIALLHNQIIGFIVLKKNWNNYAYIEDITVDKKYRTLGVGKRLIAQAKQWAKEGNPGILETQNNNVAACKFYEKCGFVIGGFDFLVYKGLNTSDEVAIYWYLHF 3ppa-a1-m1-cA_3ppa-a1-m4-cA Structure of the Dusp-Ubl domains of Usp15 Q9Y4E8 Q9Y4E8 2.35 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 3ppa-a1-m2-cA_3ppa-a1-m3-cA LDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQQVLVIEQKNEDGTWPRG LDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQQVLVIEQKNEDGTWPRG 3ppa-a1-m2-cA_3ppa-a1-m4-cA Structure of the Dusp-Ubl domains of Usp15 Q9Y4E8 Q9Y4E8 2.35 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 3ppa-a1-m1-cA_3ppa-a1-m3-cA LDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQQVLVIEQKNEDGTWPRG LDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQQVLVIEQKNEDGTWPRG 3ppa-a1-m3-cA_3ppa-a1-m4-cA Structure of the Dusp-Ubl domains of Usp15 Q9Y4E8 Q9Y4E8 2.35 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 3ppa-a1-m1-cA_3ppa-a1-m2-cA LDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQQVLVIEQKNEDGTWPRG LDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQQVLVIEQKNEDGTWPRG 3ppb-a1-m1-cA_3ppb-a1-m1-cB Crystal structure of a putative tetR family transcription regulator (Shew_3104) from SHEWANELLA SP. PV-4 at 2.10 A resolution A3QHM2 A3QHM2 2.1 X-RAY DIFFRACTION 112 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 183 183 RTKKQAILETALQLFVSQGFHGTSTATIAREAGVATGTLFHHFPSKEQLLEQLFLGVKQEFADAIQASVSSRGDLKQDAEQLWFAALTWAANPLKQAFFQLYSSPTVEQSVRDQAHGILGFIAELIRQGQASGELAEYPIELQDNCHGQYLAATRYFVDHPERWQQAHERSASFALFWNAAVR RTKKQAILETALQLFVSQGFHGTSTATIAREAGVATGTLFHHFPSKEQLLEQLFLGVKQEFADAIQASVSSRGDLKQDAEQLWFAALTWAANPLKQAFFQLYSSPTVEQSVRDQAHGILGFIAELIRQGQASGELAEYPIELQDNCHGQYLAATRYFVDHPERWQQAHERSASFALFWNAAVR 3ppd-a1-m4-cA_3ppd-a1-m6-cA GGVLVN segment from Human Prostatic Acid Phosphatase Residues 260-265, involved in Semen-Derived Enhancer of Viral Infection P15309 P15309 1.5 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3ppd-a1-m1-cA_3ppd-a1-m2-cA 3ppd-a1-m1-cA_3ppd-a1-m3-cA 3ppd-a1-m4-cA_3ppd-a1-m5-cA GGVLVN GGVLVN 3ppe-a1-m1-cA_3ppe-a1-m1-cB Crystal structure of chicken VE-cadherin EC1-2 Q8AYD0 Q8AYD0 2.1 X-RAY DIFFRACTION 56 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 203 203 DWIWNRMHIREEIDSPLPHHVGKLTSSVGNKNAMYIIEGESANTIFKVQGYDGDIYAFERLDREKKAEYELTAHIIDRRNNRSLEPPSKFIIKVSDINDNAPIFVQKIFNGSVPEMSRLGTSVTKVTAEDADDPTVAGHATVTYQIIKGNEYFTVDDSGVIFTARADLDRESQSAYEIIVKAKDALGLTGESSTATVIIRLTD DWIWNRMHIREEIDSPLPHHVGKLTSSVGNKNAMYIIEGESANTIFKVQGYDGDIYAFERLDREKKAEYELTAHIIDRRNNRSLEPPSKFIIKVSDINDNAPIFVQKIFNGSVPEMSRLGTSVTKVTAEDADDPTVAGHATVTYQIIKGNEYFTVDDSGVIFTARADLDRESQSAYEIIVKAKDALGLTGESSTATVIIRLTD 3ppi-a1-m1-cC_3ppi-a1-m1-cD Crystal structure of 3-hydroxyacyl-CoA dehydrogenase type-2 from Mycobacterium avium A0A0H3A4S5 A0A0H3A4S5 2 X-RAY DIFFRACTION 10 0.992 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 253 254 TIKQFEGASAIVSGGAGGLGEATVRRLHADGLGVVIADLAAEKGKALADELGNRAEFVSTNVTSEDSVLAAIEAANQLGRLRYAVVAHGGVAQRIVQRDGSPADMGGFTKTIDLYLNGTYNVARLVAASIAAAEPRENGERGALVLTASIAGYEGQIGQTAYAAAKAGVIGLTIAAARDLSSAGIRVNTIAPGTMKTPIMEEEALAKFAANIPFPKRLGTPDEFADAAAFLLTNGYINGEVMRLDGAQRFTPK TIKQFEGASAIVSGGAGGLGEATVRRLHADGLGVVIADLAAEKGKALADELGNRAEFVSTNVTSEDSVLAAIEAANQLGRLRYAVVAHGGFGVAQRIVQRDGSPADMGGFTKTIDLYLNGTYNVARLVAASIAAAEPRENGERGALVLTASIAGYEGQIGQTAYAAAKAGVIGLTIAAARDLSSAGIRVNTIAPGTMKTPIMESALAKFAANIPFPKRLGTPDEFADAAAFLLTNGYINGEVMRLDGAQRFTPK 3ppi-a1-m1-cD_3ppi-a1-m1-cA Crystal structure of 3-hydroxyacyl-CoA dehydrogenase type-2 from Mycobacterium avium A0A0H3A4S5 A0A0H3A4S5 2 X-RAY DIFFRACTION 125 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 254 258 3ppi-a1-m1-cC_3ppi-a1-m1-cB TIKQFEGASAIVSGGAGGLGEATVRRLHADGLGVVIADLAAEKGKALADELGNRAEFVSTNVTSEDSVLAAIEAANQLGRLRYAVVAHGGFGVAQRIVQRDGSPADMGGFTKTIDLYLNGTYNVARLVAASIAAAEPRENGERGALVLTASIAGYEGQIGQTAYAAAKAGVIGLTIAAARDLSSAGIRVNTIAPGTMKTPIMESALAKFAANIPFPKRLGTPDEFADAAAFLLTNGYINGEVMRLDGAQRFTPK TIKQFEGASAIVSGGAGGLGEATVRRLHADGLGVVIADLAAEKGKALADELGNRAEFVSTNVTSEDSVLAAIEAANQLGRLRYAVVAHGGFGVAQRIVQRDGSPADMGGFTKTIDLYLNGTYNVARLVAASIAAAEPRENGERGALVLTASIAGYEGQIGQTAYAAAKAGVIGLTIAAARDLSSAGIRVNTIAPGTMKTPIMESVGEEALAKFAANIPFPKRLGTPDEFADAAAFLLTNGYINGEVMRLDGAQRFTPK 3ppi-a1-m1-cD_3ppi-a1-m1-cB Crystal structure of 3-hydroxyacyl-CoA dehydrogenase type-2 from Mycobacterium avium A0A0H3A4S5 A0A0H3A4S5 2 X-RAY DIFFRACTION 163 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 254 258 3ppi-a1-m1-cC_3ppi-a1-m1-cA TIKQFEGASAIVSGGAGGLGEATVRRLHADGLGVVIADLAAEKGKALADELGNRAEFVSTNVTSEDSVLAAIEAANQLGRLRYAVVAHGGFGVAQRIVQRDGSPADMGGFTKTIDLYLNGTYNVARLVAASIAAAEPRENGERGALVLTASIAGYEGQIGQTAYAAAKAGVIGLTIAAARDLSSAGIRVNTIAPGTMKTPIMESALAKFAANIPFPKRLGTPDEFADAAAFLLTNGYINGEVMRLDGAQRFTPK TIKQFEGASAIVSGGAGGLGEATVRRLHADGLGVVIADLAAEKGKALADELGNRAEFVSTNVTSEDSVLAAIEAANQLGRLRYAVVAHGGFGVAQRIVQRDGSPADMGGFTKTIDLYLNGTYNVARLVAASIAAAEPRENGERGALVLTASIAGYEGQIGQTAYAAAKAGVIGLTIAAARDLSSAGIRVNTIAPGTMKTPIMESVGEEALAKFAANIPFPKRLGTPDEFADAAAFLLTNGYINGEVMRLDGAQRFTPK 3ppl-a1-m1-cB_3ppl-a1-m1-cA Crystal structure of an aspartate transaminase (NCgl0237, Cgl0240) from CORYNEBACTERIUM GLUTAMICUM ATCC 13032 KITASATO at 1.25 A resolution Q8NTR2 Q8NTR2 1.25 X-RAY DIFFRACTION 160 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 414 416 5hxx-a1-m1-cB_5hxx-a1-m1-cA 5iwq-a1-m1-cA_5iwq-a1-m1-cB VSLQDFDAERIGLFHEDIKRKFDELKSKNLKLDLTRGKPSSEQLDFADELLALPGKGDFKAADGTDVRNYGGLDGIVDIRQIWADLLGVPVEQVLAGDASSLNIFDVISWSYIFGNNDSVQPWSKEETVKWICPVPGYDRHFSITERFGFEISVPNEDGPDDAVEELVKNPQVKGWVVPVFSNPTGFTVTEDVAKRLSAETAAPDFRVVWDNAYAVHTLTDEFPEVIDIVGLGEAAGNPNRFWAFTSTSKITLAGAGVSFFLTSAENRKWYTGHAGIRGIGPNKVNQLAHARYFGDAEGVRAVRKHAASLAPKFNKVLEILDSRLAEYGVAQWTVPAGGYFISLDVVPGTASRVAELAKEAGIALTGAGSSYPLRQDPENKNLRLAPSLPPVEELEVADGVATCVLLAAAEHYA SSVSLQDFDAERIGLFHEDIKRKFDELKSKNLKLDLTRGKPSSEQLDFADELLALPGKGDFKAADGTDVRNYGGLDGIVDIRQIWADLLGVPVEQVLAGDASSLNIFDVISWSYIFGNNDSVQPWSKEETVKWICPVPGYDRHFSITERFGFEISVPNEDGPDDAVEELVKNPQVKGWVVPVFSNPTGFTVTEDVAKRLSAETAAPDFRVVWDNAYAVHTLTDEFPEVIDIVGLGEAAGNPNRFWAFTSTSKITLAGAGVSFFLTSAENRKWYTGHAGIRGIGPNKVNQLAHARYFGDAEGVRAVRKHAASLAPKFNKVLEILDSRLAEYGVAQWTVPAGGYFISLDVVPGTASRVAELAKEAGIALTGAGSSYPLRQDPENKNLRLAPSLPPVEELEVADGVATCVLLAAAEHYA 3ppm-a1-m1-cB_3ppm-a1-m1-cA Crystal Structure of a Noncovalently Bound alpha-Ketoheterocycle Inhibitor (Phenhexyl/Oxadiazole/Pyridine) to a Humanized Variant of Fatty Acid Amide Hydrolase P97612 P97612 1.78 X-RAY DIFFRACTION 106 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 545 546 1mt5-a1-m1-cA_1mt5-a1-m1-cB 1mt5-a2-m1-cC_1mt5-a2-m1-cD 1mt5-a3-m1-cE_1mt5-a3-m1-cF 1mt5-a4-m1-cG_1mt5-a4-m1-cH 1mt5-a5-m1-cI_1mt5-a5-m1-cJ 1mt5-a6-m1-cK_1mt5-a6-m1-cL 1mt5-a7-m1-cM_1mt5-a7-m1-cN 1mt5-a8-m1-cO_1mt5-a8-m1-cP 2vya-a1-m1-cB_2vya-a1-m1-cA 2wap-a1-m1-cA_2wap-a1-m1-cB 2wj1-a1-m1-cA_2wj1-a1-m1-cB 2wj2-a1-m1-cB_2wj2-a1-m1-cA 3k7f-a1-m1-cA_3k7f-a1-m1-cB 3k83-a1-m1-cB_3k83-a1-m1-cA 3k84-a1-m1-cB_3k84-a1-m1-cA 3lj6-a3-m1-cA_3lj6-a3-m1-cB 3lj7-a3-m1-cA_3lj7-a3-m1-cB 3oj8-a1-m1-cA_3oj8-a1-m1-cB 3pr0-a1-m1-cA_3pr0-a1-m1-cB 3qj8-a1-m1-cB_3qj8-a1-m1-cA 3qj9-a1-m1-cB_3qj9-a1-m1-cA 3qk5-a1-m1-cB_3qk5-a1-m1-cA 3qkv-a1-m1-cB_3qkv-a1-m1-cA 4do3-a1-m1-cA_4do3-a1-m1-cB 4hbp-a1-m1-cA_4hbp-a1-m1-cB 4j5p-a1-m1-cA_4j5p-a1-m1-cB GRQKARGAATRARQKQRASLETMDKAVQRFRLQNPDLDSEALLTLPLLQLVQKLQSGELSPEAVFFTYLGKAWEVNKGTNCVTSYLTDCETQLSQAPRQGLLYGVPVSLKECFSYKGHDSTLGLSLNEGMPSESDCVVVQVLKLQGAVPFVHTNVPQSMFSYDCSNPLFGQTMNPWKSSKSPGGSSGGEGALIGSGGSPLGLGTDIGGSIRFPSAFCGICGLKPTGNRLSKSGLKGCVYGQTAVQLSLGPMARDVESLALCLKALLCEHLFTLDPTVPPLPFREEVYRSSRPLRVGYYETDNYTMPSPAMRRALIETKQRLEAAGHTLIPFLPNNIPYALEVLSTGGLFSDGGRSFLQNFKGDFVDPCLGDLILILRLPSWFKRLLSLLLKPLFPRLAAFLNNMRPRSAEKLWKLQHEIEMYRQSVIAQWKAMNLDVLLTPMLGPALDLNTPGRATGAVSYTMLYNCLDFPAGVVPVTTVTAEDDAQMELYKGYFGDIWDIILKKAMKNSVGLPVAVQCVALPWQEELCLRFMREVEQLMTPQKQ GRQKARGAATRARQKQRASLETMDKAVQRFRLQNPDLDSEALLTLPLLQLVQKLQSGELSPEAVFFTYLGKAWEVNKGTNCVTSYLTDCETQLSQAPRQGLLYGVPVSLKECFSYKGHDSTLGLSLNEGMPSESDCVVVQVLKLQGAVPFVHTNVPQSMFSYDCSNPLFGQTMNPWKSSKSPGGSSGGEGALIGSGGSPLGLGTDIGGSIRFPSAFCGICGLKPTGNRLSKSGLKGCVYGQTAVQLSLGPMARDVESLALCLKALLCEHLFTLDPTVPPLPFREEVYRSSRPLRVGYYETDNYTMPSPAMRRALIETKQRLEAAGHTLIPFLPNNIPYALEVLSTGGLFSDGGRSFLQNFKGDFVDPCLGDLILILRLPSWFKRLLSLLLKPLFPRLAAFLNNMRPRSAEKLWKLQHEIEMYRQSVIAQWKAMNLDVLLTPMLGPALDLNTPGRATGAVSYTMLYNCLDFPAGVVPVTTVTAEDDAQMELYKGYFGDIWDIILKKAMKNSVGLPVAVQCVALPWQEELCLRFMREVEQLMTPQKQP 3ppu-a1-m1-cB_3ppu-a1-m1-cA Crystal structure of the glutathione-S-transferase Xi from Phanerochaete chrysosporium B3VQJ7 B3VQJ7 2.3 X-RAY DIFFRACTION 75 1.0 294 309 FKRKAASFRNWIQPNGDFTPEKGRYHLYVSYACPWATRTLIVRKLKGLEDFIGVTVVSPRGSNGWPFANVDPFPAADSDPLNNAQHVKDLYLKVKPDYDGRFTVPVLWDKHTGTIVNNESSEIIRFNTAFNHLLPEDKAKLDLYPESLRAKIDEVNDWVYDTVNNGVYKSGFASTQKAYEAAVIPLFESLDRLEKLEGQDYLIGGQLTEADIRLFVTIVRFDPVYVTHFKCNLRTIRDGYPNLHRWRKLYWGNPAFKDTCNFEHIKTHYFWSHTFINPHRIVPIGPIPDILPLD ELQSDISKKTEDDGSFKRKAASFRNWIQPNGDFTPEKGRYHLYVSYACPWATRTLIVRKLKGLEDFIGVTVVSPRGSNGWPFANVDPFPAADSDPLNNAQHVKDLYLKVKPDYDGRFTVPVLWDKHTGTIVNNESSEIIRFNTAFNHLLPEDKAKLDLYPESLRAKIDEVNDWVYDTVNNGVYKSGFASTQKAYEAAVIPLFESLDRLEKLEGQDYLIGGQLTEADIRLFVTIVRFDPVYVTHFKCNLRTIRDGYPNLHRWRKLYWGNPAFKDTCNFEHIKTHYFWSHTFINPHRIVPIGPIPDILPLD 3ppz-a1-m1-cA_3ppz-a1-m1-cB Crystal structure of CTR1 kinase domain in complex with staurosporine Q05609 Q05609 2.99 X-RAY DIFFRACTION 64 0.985 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 264 264 DGDDMDIPWCDLNIKEKIGAGSFGTVHRAEWHGSDVAVKILMEAERVNEFLREVAIMKRLRHPNIVLFMGAVTQPPNLSIVTEYLSRGSLYRLLHKSGAREQLDERRRLSMAYDVAKGMNYLHNRNPPIVHRDLKSPNLLVDKKYTVKVCDFGLSRLKASFLSKAAGTPEWMAPEVLRDEPSNEKSDVYSFGVILWELATLQQPWGNLNPAQVVAAVGFKCKRLEIPRNLNPQVAAIIEGCWTNEPWKRPSFATIMDLLRPLIK DGDDMDIPWCDLNIKEKIGATVHRAEWHGSDVAVKILMEQDFHAERVNEFLREVAIMKRLRHPNIVLFMGAVTQPPNLSIVTEYLSRGSLYRLLHKSGAREQLDERRRLSMAYDVAKGMNYLHNRNPPIVHRDLKSPNLLVDKKYTVKVCDFGLSRLKASFLSKAAGTPEWMAPEVLRDEPSNEKSDVYSFGVILWELATLQQPWGNLNPAQVVAAVGFKCKRLEIPRNLNPQVAAIIEGCWTNEPWKRPSFATIMDLLRPLIK 3pqa-a1-m1-cA_3pqa-a1-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase GapN from Methanocaldococcus jannaschii DSM 2661 Q58806 Q58806 1.5 X-RAY DIFFRACTION 61 0.998 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 456 456 3pqa-a1-m1-cC_3pqa-a1-m1-cB 3rhd-a1-m1-cA_3rhd-a1-m1-cD 3rhd-a1-m1-cB_3rhd-a1-m1-cC INREDMDVINPYSLEVIKKIPALSREEAKEAIDTAEKYKEVMKNLPITKRYNILMNIAKQIKEKKEELAKILAIDAGKPIKQARVEVERSIGTFKLAAFYVKEHRDEVIPSDDRLIFTRREPVGIVGAITPFNFPLNLSAHKIAPAIATGNVIVHHPSSKAPLVCIELAKIIENALKKYNVPLGVYNLLTGAGEVVGDEIVVNEKVNMISFTGSSKVGELITKKAGFKKIALELGGVNPNIVLKDADLNKAVNALIKGSFIYAGQVCISVGMILVDESIADKFIEMFVNKAKVLNVGNPLDEKTDVGPLISVEHAEWVEKVVEKAIDEGGKLLLGGKRDKALFYPTILEVDRDNILCKTETFAPVIPIIRTNEEEMIDIANSTEYGLHSAIFTNDINKSLKFAENLEFGGVVINDSSLFRQDNMPFGGVKKSGLGREGVKYAMEEMSNIKTIIISK NREDMDVINPYSLEVIKKIPALSREEAKEAIDTAEKYKEVMKNLPITKRYNILMNIAKQIKEKKEELAKILAIDAGKPIKQARVEVERSIGTFKLAAFYVKEHRDEVIPSDDRLIFTRREPVGIVGAITPFNFPLNLSAHKIAPAIATGNVIVHHPSSKAPLVCIELAKIIENALKKYNVPLGVYNLLTGAGEVVGDEIVVNEKVNMISFTGSSKVGELITKKAGFKKIALELGGVNPNIVLKDADLNKAVNALIKGSFIYAGQVCISVGMILVDESIADKFIEMFVNKAKVLNVGNPLDEKTDVGPLISVEHAEWVEKVVEKAIDEGGKLLLGGKRDKALFYPTILEVDRDNILCKTETFAPVIPIIRTNEEEMIDIANSTEYGLHSAIFTNDINKSLKFAENLEFGGVVINDSSLFRQDNMPFGGVKKSGLGREGVKYAMEEMSNIKTIIISKA 3pqa-a1-m1-cC_3pqa-a1-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase GapN from Methanocaldococcus jannaschii DSM 2661 Q58806 Q58806 1.5 X-RAY DIFFRACTION 124 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 455 456 3pqa-a1-m1-cA_3pqa-a1-m1-cB 3rhd-a1-m1-cA_3rhd-a1-m1-cB 3rhd-a1-m1-cC_3rhd-a1-m1-cD 3rhd-a2-m1-cA_3rhd-a2-m1-cB 3rhd-a3-m1-cC_3rhd-a3-m1-cD REDMDVINPYSLEVIKKIPALSREEAKEAIDTAEKYKEVMKNLPITKRYNILMNIAKQIKEKKEELAKILAIDAGKPIKQARVEVERSIGTFKLAAFYVKEHRDEVIPSDDRLIFTRREPVGIVGAITPFNFPLNLSAHKIAPAIATGNVIVHHPSSKAPLVCIELAKIIENALKKYNVPLGVYNLLTGAGEVVGDEIVVNEKVNMISFTGSSKVGELITKKAGFKKIALELGGVNPNIVLKDADLNKAVNALIKGSFIYAGQVCISVGMILVDESIADKFIEMFVNKAKVLNVGNPLDEKTDVGPLISVEHAEWVEKVVEKAIDEGGKLLLGGKRDKALFYPTILEVDRDNILCKTETFAPVIPIIRTNEEEMIDIANSTEYGLHSAIFTNDINKSLKFAENLEFGGVVINDSSLFRQDNMPFGGVKKSGLGREGVKYAMEEMSNIKTIIISKA NREDMDVINPYSLEVIKKIPALSREEAKEAIDTAEKYKEVMKNLPITKRYNILMNIAKQIKEKKEELAKILAIDAGKPIKQARVEVERSIGTFKLAAFYVKEHRDEVIPSDDRLIFTRREPVGIVGAITPFNFPLNLSAHKIAPAIATGNVIVHHPSSKAPLVCIELAKIIENALKKYNVPLGVYNLLTGAGEVVGDEIVVNEKVNMISFTGSSKVGELITKKAGFKKIALELGGVNPNIVLKDADLNKAVNALIKGSFIYAGQVCISVGMILVDESIADKFIEMFVNKAKVLNVGNPLDEKTDVGPLISVEHAEWVEKVVEKAIDEGGKLLLGGKRDKALFYPTILEVDRDNILCKTETFAPVIPIIRTNEEEMIDIANSTEYGLHSAIFTNDINKSLKFAENLEFGGVVINDSSLFRQDNMPFGGVKKSGLGREGVKYAMEEMSNIKTIIISKA 3pqa-a1-m1-cD_3pqa-a1-m1-cB Crystal structure of glyceraldehyde-3-phosphate dehydrogenase GapN from Methanocaldococcus jannaschii DSM 2661 Q58806 Q58806 1.5 X-RAY DIFFRACTION 28 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 456 458 3pqa-a1-m1-cC_3pqa-a1-m1-cA 3rhd-a1-m1-cA_3rhd-a1-m1-cC 3rhd-a1-m1-cB_3rhd-a1-m1-cD NREDMDVINPYSLEVIKKIPALSREEAKEAIDTAEKYKEVMKNLPITKRYNILMNIAKQIKEKKEELAKILAIDAGKPIKQARVEVERSIGTFKLAAFYVKEHRDEVIPSDDRLIFTRREPVGIVGAITPFNFPLNLSAHKIAPAIATGNVIVHHPSSKAPLVCIELAKIIENALKKYNVPLGVYNLLTGAGEVVGDEIVVNEKVNMISFTGSSKVGELITKKAGFKKIALELGGVNPNIVLKDADLNKAVNALIKGSFIYAGQVCISVGMILVDESIADKFIEMFVNKAKVLNVGNPLDEKTDVGPLISVEHAEWVEKVVEKAIDEGGKLLLGGKRDKALFYPTILEVDRDNILCKTETFAPVIPIIRTNEEEMIDIANSTEYGLHSAIFTNDINKSLKFAENLEFGGVVINDSSLFRQDNMPFGGVKKSGLGREGVKYAMEEMSNIKTIIISKA WINREDMDVINPYSLEVIKKIPALSREEAKEAIDTAEKYKEVMKNLPITKRYNILMNIAKQIKEKKEELAKILAIDAGKPIKQARVEVERSIGTFKLAAFYVKEHRDEVIPSDDRLIFTRREPVGIVGAITPFNFPLNLSAHKIAPAIATGNVIVHHPSSKAPLVCIELAKIIENALKKYNVPLGVYNLLTGAGEVVGDEIVVNEKVNMISFTGSSKVGELITKKAGFKKIALELGGVNPNIVLKDADLNKAVNALIKGSFIYAGQVCISVGMILVDESIADKFIEMFVNKAKVLNVGNPLDEKTDVGPLISVEHAEWVEKVVEKAIDEGGKLLLGGKRDKALFYPTILEVDRDNILCKTETFAPVIPIIRTNEEEMIDIANSTEYGLHSAIFTNDINKSLKFAENLEFGGVVINDSSLFRQDNMPFGGVKKSGLGREGVKYAMEEMSNIKTIIISKA 3pqd-a1-m1-cC_3pqd-a1-m1-cD Crystal structure of L-lactate dehydrogenase from Bacillus subtilis complexed with FBP and NAD+ P13714 P13714 2.376 X-RAY DIFFRACTION 24 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 301 301 3pqd-a1-m1-cA_3pqd-a1-m1-cB 3pqd-a2-m1-cE_3pqd-a2-m1-cF 3pqd-a2-m1-cH_3pqd-a2-m1-cG 3pqe-a1-m1-cD_3pqe-a1-m1-cB HVNKVALIGAGFVGSSYAFALINQGITDELVVIDVNKEKAMGDVMDLNHGKAFAPQPVKTSYGTYEDCKDADIVCICAGRLELVEKNLKIFKGIVSEVMASGFDGIFLVATNPVDILTYATWKFSGLPKERVIGSGTTLDSARFRFMLSEYFGAAPQNVHAHIIGEHGDTELPVWSHANVGGVPVSELVEKNDAYKQEELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILHNENSILTVSTYLDGQYGADDVYIGVPAVVNRGGIAGITELNLNEKEKEQFLHSAGVLKNILKP HVNKVALIGAGFVGSSYAFALINQGITDELVVIDVNKEKAMGDVMDLNHGKAFAPQPVKTSYGTYEDCKDADIVCICALELVEKNLKIFKGIVSEVMASGFDGIFLVATNPVDILTYATWKFSGLPKERVIGSGTTLDSARFRFMLSEYFGAAPQNVHAHIIGEHGDTELPVWSHANVGGVPVSELVEKNDAYKQEELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILHNENSILTVSTYLDGQYGADDVYIGVPAVVNRGGIAGITELNLNEKEKEQFLHSAGVLKNILKPHF 3pqe-a1-m1-cA_3pqe-a1-m1-cB Crystal structure of L-lactate dehydrogenase from Bacillus subtilis with H171C mutation P13714 P13714 2.2 X-RAY DIFFRACTION 75 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 314 314 3pqd-a1-m1-cC_3pqd-a1-m1-cA 3pqd-a1-m1-cD_3pqd-a1-m1-cB 3pqd-a2-m1-cG_3pqd-a2-m1-cE 3pqd-a2-m1-cH_3pqd-a2-m1-cF 3pqe-a1-m1-cC_3pqe-a1-m1-cD 3pqf-a1-m1-cA_3pqf-a1-m1-cB 3pqf-a1-m1-cC_3pqf-a1-m1-cD NKHVNKVALIGAGFVGSSYAFALINQGITDELVVIDVNKEKAMGDVMDLNHGKAFAPQPVKTSYGTYEDCKDADIVCICAGANQKPGETRLELVEKNLKIFKGIVSEVMASGFDGIFLVATNPVDILTYATWKFSGLPKERVIGSGTTLDSARFRFMLSEYFGAAPQNVCAHIIGEHGDTELPVWSHANVGGVPVSELVEKNDAYKQEELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILHNENSILTVSTYLDGQYGADDVYIGVPAVVNRGGIAGITELNLNEKEKEQFLHSAGVLKNILKPHFA NKHVNKVALIGAGFVGSSYAFALINQGITDELVVIDVNKEKAMGDVMDLNHGKAFAPQPVKTSYGTYEDCKDADIVCICAGANQKPGETRLELVEKNLKIFKGIVSEVMASGFDGIFLVATNPVDILTYATWKFSGLPKERVIGSGTTLDSARFRFMLSEYFGAAPQNVCAHIIGEHGDTELPVWSHANVGGVPVSELVEKNDAYKQEELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILHNENSILTVSTYLDGQYGADDVYIGVPAVVNRGGIAGITELNLNEKEKEQFLHSAGVLKNILKPHFA 3pqf-a1-m1-cD_3pqf-a1-m1-cA Crystal structure of L-lactate dehydrogenase from Bacillus subtilis mutation H171C complexed with NAD+ P13714 P13714 2.49 X-RAY DIFFRACTION 124 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 312 314 3pqd-a1-m1-cC_3pqd-a1-m1-cB 3pqd-a1-m1-cD_3pqd-a1-m1-cA 3pqd-a2-m1-cG_3pqd-a2-m1-cF 3pqd-a2-m1-cH_3pqd-a2-m1-cE 3pqe-a1-m1-cC_3pqe-a1-m1-cB 3pqe-a1-m1-cD_3pqe-a1-m1-cA 3pqf-a1-m1-cC_3pqf-a1-m1-cB KHVNKVALIGAGFVGSSYAFALINQGITDELVVIDVNKEKAMGDVMDLNHGKAFAPQPVKTSYGTYEDCKDADIVCICAGANQKPGETRLELVEKNLKIFKGIVSEVMASGFDGIFLVATNPVDILTYATWKFSGLPKERVIGSGTTLDSARFRFMLSEYFGAAPQNVCAHIIGEHGDTELPVWSHANVGGVPVSELVEKNDAYKQEELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILHNENSILTVSTYLDGQYGADDVYIGVPAVVNRGGIAGITELNLNEKEKEQFLHSAGVLKNILKPHF NKHVNKVALIGAGFVGSSYAFALINQGITDELVVIDVNKEKAMGDVMDLNHGKAFAPQPVKTSYGTYEDCKDADIVCICAGANQKPGETRLELVEKNLKIFKGIVSEVMASGFDGIFLVATNPVDILTYATWKFSGLPKERVIGSGTTLDSARFRFMLSEYFGAAPQNVCAHIIGEHGDTELPVWSHANVGGVPVSELVEKNDAYKQEELDQIVDDVKNAAYHIIEKKGATYYGVAMSLARITKAILHNENSILTVSTYLDGQYGADDVYIGVPAVVNRGGIAGITELNLNEKEKEQFLHSAGVLKNILKPHFA 3pqh-a3-m2-cB_3pqh-a3-m3-cB Crystal structure of the C-terminal fragment of the bacteriophage phi92 membrane-piercing protein gp138 I7HXF9 I7HXF9 1.295 X-RAY DIFFRACTION 197 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 107 107 3pqh-a1-m1-cA_3pqh-a1-m2-cA 3pqh-a1-m1-cA_3pqh-a1-m3-cA 3pqh-a1-m2-cA_3pqh-a1-m3-cA 3pqh-a2-m1-cB_3pqh-a2-m2-cB 3pqh-a2-m1-cB_3pqh-a2-m3-cB 3pqh-a2-m2-cB_3pqh-a2-m3-cB 3pqh-a3-m1-cA_3pqh-a3-m2-cA 3pqh-a3-m1-cA_3pqh-a3-m3-cA 3pqh-a3-m1-cB_3pqh-a3-m2-cB 3pqh-a3-m1-cB_3pqh-a3-m3-cB 3pqh-a3-m2-cA_3pqh-a3-m3-cA 3pqi-a1-m1-cA_3pqi-a1-m2-cA 3pqi-a1-m1-cA_3pqi-a1-m3-cA 3pqi-a1-m2-cA_3pqi-a1-m3-cA EKVIISNNKQTYASFDPNGNISVYNTQGMKIDMTPNSIVLTDAGGGKLTLQGGTMTYKGGTVNLNGLTITPDGRMTDSGGIGLHTHTHPVRGVETGGSTVTSDKPNG EKVIISNNKQTYASFDPNGNISVYNTQGMKIDMTPNSIVLTDAGGGKLTLQGGTMTYKGGTVNLNGLTITPDGRMTDSGGIGLHTHTHPVRGVETGGSTVTSDKPNG 3pqh-a3-m3-cA_3pqh-a3-m3-cB Crystal structure of the C-terminal fragment of the bacteriophage phi92 membrane-piercing protein gp138 I7HXF9 I7HXF9 1.295 X-RAY DIFFRACTION 20 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 107 107 3pqh-a3-m1-cA_3pqh-a3-m1-cB 3pqh-a3-m2-cA_3pqh-a3-m2-cB EKVIISNNKQTYASFDPNGNISVYNTQGMKIDMTPNSIVLTDAGGGKLTLQGGTMTYKGGTVNLNGLTITPDGRMTDSGGIGLHTHTHPVRGVETGGSTVTSDKPNG EKVIISNNKQTYASFDPNGNISVYNTQGMKIDMTPNSIVLTDAGGGKLTLQGGTMTYKGGTVNLNGLTITPDGRMTDSGGIGLHTHTHPVRGVETGGSTVTSDKPNG 3pqk-a3-m1-cF_3pqk-a3-m1-cE Crystal Structure of the transcriptional repressor BigR from Xylella fastidiosa Q9PFB1 Q9PFB1 2.09 X-RAY DIFFRACTION 78 1.0 2371 (Xylella fastidiosa) 2371 (Xylella fastidiosa) 99 100 3pqj-a1-m1-cB_3pqj-a1-m1-cA 3pqj-a2-m1-cD_3pqj-a2-m1-cC 3pqk-a1-m1-cA_3pqk-a1-m1-cB 3pqk-a2-m1-cC_3pqk-a2-m1-cD REDMEKRANEVANLLKTLSHPVRLLVCTLVEGEFSVGELEQQIGIGQPTLSQQLGVLRESGIVETRRNIKQIFYRLTEAKAAQLVNALYTIFCAQEKQA TREDMEKRANEVANLLKTLSHPVRLLVCTLVEGEFSVGELEQQIGIGQPTLSQQLGVLRESGIVETRRNIKQIFYRLTEAKAAQLVNALYTIFCAQEKQA 3pr6-a2-m1-cA_3pr6-a2-m2-cA Crystal structure analysis of yeast TRAPP associate protein Tca17 P32613 P32613 1.8 X-RAY DIFFRACTION 24 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 143 143 LRPFVSLIDESDKPILIYVPNDVLKYNVLSNISLDYFESALVEWHSLDSKPLLKSIFQLEGVSVFALIKQTGLKIVIGFEQKSLSGADDEFEAINQIFETVRKIYIRVKCNPLLVSGDEKSIIKSLERKFDELFISTEVELLA LRPFVSLIDESDKPILIYVPNDVLKYNVLSNISLDYFESALVEWHSLDSKPLLKSIFQLEGVSVFALIKQTGLKIVIGFEQKSLSGADDEFEAINQIFETVRKIYIRVKCNPLLVSGDEKSIIKSLERKFDELFISTEVELLA 3pra-a1-m1-cA_3pra-a1-m1-cB Structural analysis of protein folding by the Methanococcus jannaschii chaperone FKBP26 Q58235 Q58235 2.4 X-RAY DIFFRACTION 44 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 150 150 MVEKGKMVKISYDGYVDGKLFDTTNEELAKKEGIYNPAMIYGPVAIFAGEGQVLPGLDEAILEMDVGEEREVVLPPEKAFGKRDPSKIKLIPLSEFTKRGIKPIKGLTITIDGIPGKIVSINSGRVLVDFNHELAGKEVKYRIKIEEVVD MVEKGKMVKISYDGYVDGKLFDTTNEELAKKEGIYNPAMIYGPVAIFAGEGQVLPGLDEAILEMDVGEEREVVLPPEKAFGKRDPSKIKLIPLSEFTKRGIKPIKGLTITIDGIPGKIVSINSGRVLVDFNHELAGKEVKYRIKIEEVVD 3prb-a1-m1-cA_3prb-a1-m1-cB Structural analysis of protein folding by the Methanococcus jannaschii chaperone FKBP26 Q58235 Q58235 2.2 X-RAY DIFFRACTION 58 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 223 224 3prd-a1-m1-cA_3prd-a1-m2-cA MVEKGKMVKISYDGYVDGKLFDTTNEELAKKEGIYNPAMIYGPVAIFAGEGQVLPGLDEAILEMDVGEEREVVLPPEKAFGKRDPSKIKLIPLSEFTKRGIKPIKGLTITIDGIPGKIVSINSGRVLVDFNHELAGKEVKYRIKIEEVVDDKKNIVKEIVKMYVPRLSDVKVTIRNGTVKIELPEFAPFIPNIQTAKMAIANEILKRLEDAEKVSFVETFERK MVEKGKMVKISYDGYVDGKLFDTTNEELAKKEGIYNPAMIYGPVAIFAGEGQVLPGLDEAILEMDVGEEREVVLPPEKAFGKRDPSKIKLIPLSEFTKRGIKPIKGLTITIDGIPGKIVSINSGRVLVDFNHELAGKEVKYRIKIEEVVDDKKNIVKEIVKMYVPRLSDVKVTIRNGTVKIELPEFAPFIPNIQTAKMAIANEILKRLEDAEKVSFVETFERKK 3prc-a1-m1-cH_3prc-a1-m2-cH PHOTOSYNTHETIC REACTION CENTER FROM RHODOPSEUDOMONAS VIRIDIS (QB-DEPLETED) P06008 P06008 2.4 X-RAY DIFFRACTION 20 1.0 1079 (Blastochloris viridis) 1079 (Blastochloris viridis) 257 257 1prc-a2-m1-cH_1prc-a2-m2-cH 1r2c-a2-m1-cH_1r2c-a2-m2-cH 1vrn-a2-m1-cH_1vrn-a2-m2-cH YHGALAQHLDIAQLVWYAQWLVIWTVVLLYLRREDRREGYPLVEPLGLVKLAPEDGQVYELPYPKTFVLPHGGTVTVPRRRPETRELKLAQTDGFEGAPLQPTGNPLVDAVGPASYAERAEVVDATVDGKAKIVPLRVATDFSIAEGDVDPRGLPVVAADGVEAGTVTDLWVDRSEHYFRYLELSVAGSARTALIPLGFCDVKKDKIVVTSILSEQFANVPRLQSRDQITLREEDKVSAYYAGGLLYATPERAESLL YHGALAQHLDIAQLVWYAQWLVIWTVVLLYLRREDRREGYPLVEPLGLVKLAPEDGQVYELPYPKTFVLPHGGTVTVPRRRPETRELKLAQTDGFEGAPLQPTGNPLVDAVGPASYAERAEVVDATVDGKAKIVPLRVATDFSIAEGDVDPRGLPVVAADGVEAGTVTDLWVDRSEHYFRYLELSVAGSARTALIPLGFCDVKKDKIVVTSILSEQFANVPRLQSRDQITLREEDKVSAYYAGGLLYATPERAESLL 3prh-a1-m1-cB_3prh-a1-m1-cA tryptophanyl-tRNA synthetase Val144Pro mutant from B. subtilis P21656 P21656 2.8 X-RAY DIFFRACTION 139 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 309 316 KQTIFSGIQPSGSVTLGNYIGAMKQFVELQHDYNSYFCIVDQHAITVPQDRLELRKNIRNLAALYLAVGLDPEKATLFIQSEVPAHAQAGWMMQCVAYIGELERMVSGLLTYPPLMAADILLYGTDLVPPGEDQKQHLELTRNLAERFNKKYNDIFTIPEVKIARIMSLNDPLKKMSKSDPNQKAYITLLDEPKQLEKKIKSAVTDSEGIVKFDKENKPGVSNLLTIYSILGNTTIEELEAKYEGKGYGEFKGDLAEVVVNALKPIQDRYYELIESEELDRILDEGAERANRTANKMLKKMENAMGLGR KQTIFSGIQPSGSVTLGNYIGAMKQFVELQHDYNSYFCIVDQHAITVPQDRLELRKNIRNLAALYLAVGLDPEKATLFIQSEVPAHAQAGWMMQCVAYIGELERMTAVVSGLLTYPPLMAADILLYGTDLVPPGEDQKQHLELTRNLAERFNKKYNDIFTIPEVKIPKVGARIMSLNDPLKKMSKSDPNQKAYITLLDEPKQLEKKIKSAVTDSEGIVKFDKENKPGVSNLLTIYSILGNTTIEELEAKYEGKGYGEFKGDLAEVVVNALKPIQDRYYELIESEELDRILDEGAERANRTANKMLKKMENAMGLGR 3prl-a1-m1-cA_3prl-a1-m1-cD Crystal structure of NADP-dependent glyceraldehyde-3-phosphate dehydrogenase from Bacillus halodurans C-125 Q9KAQ0 Q9KAQ0 2 X-RAY DIFFRACTION 146 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 475 480 3prl-a1-m1-cC_3prl-a1-m1-cB 3rhh-a1-m1-cA_3rhh-a1-m1-cD 3rhh-a1-m1-cB_3rhh-a1-m1-cC QFNANILRNGEWVESRTGERISISAPASGVALGSIPALSQEEVNDAIQGAKDAQKIWKIRPIHERVDLLYAWADLLEERKEIIGELIMHEVAKPKKSAIGEVSRTADIIRHTADEALRLNGETLKGDQFKGGSSKKIALVEREPLGVVLAISPFNYPVNLAAAKIAPALVTGNTVVFKPATQGSLSGIKMVEALADAGAPEGIIQVVTGRGSVIGDHLVEHPGIDMITFTGGTTTGERISEKAKMIPVVLELGGKDPAIVLDDADLKLTASQIVSGAFSYSGQRCTAIKRVFVQDSVADQLVANIKELVEQLTVGSPEDDADITPVIDEKSAAFIQGLIDDALENGATLLSGNKRQGNLLSPTLLDDVTPAMRVAWEEPFGPVLPIIRVKDANEAISLSNQSDYGLQASIFTKDTDRAINIGKHLEVGTVHINAKTERGPDHFPFLGVKKSGLGVQGIKPSLLSMTRERVTVLNL QFNANILRNGEWVESRTGERISISAPASGVALGSIPALSQEEVNDAIQGAKDAQKIWKIRPIHERVDLLYAWADLLEERKEIIGELIMHEVAKPKKSAIGEVSRTADIIRHTADEALRLNGETLKGDQFKGGSSKKIALVEREPLGVVLAISPFNYPVNLAAAKIAPALVTGNTVVFKPATQGSLSGIKMVEALADAGAPEGIIQVVTGRGSVIGDHLVEHPGIDMITFTGGTTTGERISEKAKMIPVVLELGGKDPAIVLDDADLKLTASQIVSGAFSYSGQRCTAIKRVFVQDSVADQLVANIKELVEQLTVGSPEDDADITPVIDEKSAAFIQGLIDDALENGATLLSGNKRQGNLLSPTLLDDVTPAMRVAWEEPFGPVLPIIRVKDANEAISLSNQSDYGLQASIFTKDTDRAINIGKHLEVGTVHINAKTERGPDHFPFLGVKKSGLGVQGIKPSLLSMTRERVTVLNLAENLY 3prl-a1-m1-cB_3prl-a1-m1-cD Crystal structure of NADP-dependent glyceraldehyde-3-phosphate dehydrogenase from Bacillus halodurans C-125 Q9KAQ0 Q9KAQ0 2 X-RAY DIFFRACTION 60 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 476 480 3prl-a1-m1-cA_3prl-a1-m1-cC 3rhh-a1-m1-cA_3rhh-a1-m1-cC 3rhh-a1-m1-cB_3rhh-a1-m1-cD QFNANILRNGEWVESRTGERISISAPASGVALGSIPALSQEEVNDAIQGAKDAQKIWKIRPIHERVDLLYAWADLLEERKEIIGELIMHEVAKPKKSAIGEVSRTADIIRHTADEALRLNGETLKGDQFKGGSSKKIALVEREPLGVVLAISPFNYPVNLAAAKIAPALVTGNTVVFKPATQGSLSGIKMVEALADAGAPEGIIQVVTGRGSVIGDHLVEHPGIDMITFTGGTTTGERISEKAKMIPVVLELGGKDPAIVLDDADLKLTASQIVSGAFSYSGQRCTAIKRVFVQDSVADQLVANIKELVEQLTVGSPEDDADITPVIDEKSAAFIQGLIDDALENGATLLSGNKRQGNLLSPTLLDDVTPAMRVAWEEPFGPVLPIIRVKDANEAISLSNQSDYGLQASIFTKDTDRAINIGKHLEVGTVHINAKTERGPDHFPFLGVKKSGLGVQGIKPSLLSMTRERVTVLNLA QFNANILRNGEWVESRTGERISISAPASGVALGSIPALSQEEVNDAIQGAKDAQKIWKIRPIHERVDLLYAWADLLEERKEIIGELIMHEVAKPKKSAIGEVSRTADIIRHTADEALRLNGETLKGDQFKGGSSKKIALVEREPLGVVLAISPFNYPVNLAAAKIAPALVTGNTVVFKPATQGSLSGIKMVEALADAGAPEGIIQVVTGRGSVIGDHLVEHPGIDMITFTGGTTTGERISEKAKMIPVVLELGGKDPAIVLDDADLKLTASQIVSGAFSYSGQRCTAIKRVFVQDSVADQLVANIKELVEQLTVGSPEDDADITPVIDEKSAAFIQGLIDDALENGATLLSGNKRQGNLLSPTLLDDVTPAMRVAWEEPFGPVLPIIRVKDANEAISLSNQSDYGLQASIFTKDTDRAINIGKHLEVGTVHINAKTERGPDHFPFLGVKKSGLGVQGIKPSLLSMTRERVTVLNLAENLY 3ps4-a2-m1-cC_3ps4-a2-m1-cB PDZ domain from Human microtubule-associated serine/threonine-protein kinase 1 Q9Y2H9 Q9Y2H9 1.85 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 97 3ps4-a1-m1-cA_3ps4-a1-m1-cD SPITIQRSGKKYGFTLRAIRVYMGDTDVYSVHHIVWHVEEGGPAQEAGLCAGDLITHVNGEPVHGMVHPEVVELILKSGNKVAVTTTPFENTQSLV RSPITIQRSGKKYGFTLRAIRVYMGDTDVYSVHHIVWHVEEGGPAQEAGLCAGDLITHVNGEPVHGMVHPEVVELILKSGNKVAVTTTPFENTQSLV 3ps5-a2-m1-cA_3ps5-a2-m2-cA Crystal structure of the full-length Human Protein Tyrosine Phosphatase SHP-1 P29350 P29350 3.1 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 529 529 MVRWFHRDLSGLDAETLLKGRGVHGSFLARPSRKNQGDFSLSVRVGDQVTHIRIQNSGDFYDLYGGEKFATLTELVEYYTQQQGVLQDRDGTIIHLKYPLNCSDPTSERWYHGHMSGGQAETLLQAKGEPWTFLVRESLSQPGDFVLSVLSDQPKAGPGSPLRVTHIKVMCEGGRYTVGGLETFDSLTDLVEHFKKTGIEEASGAFVYLRQPYYATRVNAADIENRVLELNKKQESEDTAKAGFWEEFESLQKQEVKNLHQRLEGQRPENKGKNRYKNILPFDHSRVILQGRDSNIPGSDYINANYIKNQLLGPDENAKTYIASQGCLEATVNDFWQMAWQENSRVIVMTTREVEKGRNKCVPYWPEVGMQRAYGPYSVTNCGEHDTTEYKLRTLQVSPLDNGDLIREIWHYQYLSWPDHGVPSEPGGVLSFLDQINQRQESLPHAGPIIVHSSAGIGRTGTIIVIDMLMENISTKGLDCDIDIQKTIQMVRAQRSGMVQTEAQYKFIYVAIAQFIETTKKKLEVLQSQ MVRWFHRDLSGLDAETLLKGRGVHGSFLARPSRKNQGDFSLSVRVGDQVTHIRIQNSGDFYDLYGGEKFATLTELVEYYTQQQGVLQDRDGTIIHLKYPLNCSDPTSERWYHGHMSGGQAETLLQAKGEPWTFLVRESLSQPGDFVLSVLSDQPKAGPGSPLRVTHIKVMCEGGRYTVGGLETFDSLTDLVEHFKKTGIEEASGAFVYLRQPYYATRVNAADIENRVLELNKKQESEDTAKAGFWEEFESLQKQEVKNLHQRLEGQRPENKGKNRYKNILPFDHSRVILQGRDSNIPGSDYINANYIKNQLLGPDENAKTYIASQGCLEATVNDFWQMAWQENSRVIVMTTREVEKGRNKCVPYWPEVGMQRAYGPYSVTNCGEHDTTEYKLRTLQVSPLDNGDLIREIWHYQYLSWPDHGVPSEPGGVLSFLDQINQRQESLPHAGPIIVHSSAGIGRTGTIIVIDMLMENISTKGLDCDIDIQKTIQMVRAQRSGMVQTEAQYKFIYVAIAQFIETTKKKLEVLQSQ 3psk-a6-m3-cD_3psk-a6-m1-cA Crystal Structure of the Spt6 Tandem SH2 Domain from Saccharomyces cerevisiae, Form Native Spt6 (1247-1451) P23615 P23615 2.1 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 183 199 3psk-a5-m2-cC_3psk-a5-m1-cB RVINHPYYFPFNGRQAEDYLRSKERGEFVIRQSSRGDDHLVITWKLDKDLFQHIDIQELEKENPLALGKVLIVDNQKYNDLDQIIVEYLQNKVRLLNEMTSSEKFKSGTKKDVVKFIEDYSRVSVYYFSLNHDNPGWFYLMFKINANSKLYTWNVKLTNTGYFLVNYNYPSVIQLCNGFKTLL IDPFTAKRTHRVINHPYYFPFNGRQAEDYLRSKERGEFVIRQSSRGDDHLVITWKLDKDLFQHIDIQELEKENPLALGKVLIVDNQKYNDLDQIIVEYLQNKVRLLNEMTSSEKFKSGTKKDVVKFIEDYSRVNPNKSVYYFSLNHDNPGWFYLMFKINANSKLYTWNVKLTNTGYFLVNYNYPSVIQLCNGFKTLLKS 3psm-a1-m1-cA_3psm-a1-m1-cB .98A crystal structure of a dimeric plant defensin SPE10 Q6B519 Q6B519 0.98 X-RAY DIFFRACTION 20 1.0 109171 (Pachyrhizus erosus) 109171 (Pachyrhizus erosus) 47 47 KTCENLADTFRGPCFTDGSCDDHCKNKEHLIKGRCRDDFRCWCTRNC KTCENLADTFRGPCFTDGSCDDHCKNKEHLIKGRCRDDFRCWCTRNC 3pss-a1-m1-cA_3pss-a1-m1-cB Crystal Structure of AhQnr, the Qnr protein from Aeromonas hydrophila (P21 crystal form) A0KF03 A0KF03 2 X-RAY DIFFRACTION 74 1.0 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 213 213 3psz-a1-m1-cA_3psz-a1-m1-cB MIDCFEGVRFEQQDLEGEQFQGCRFIGCNFSWLDLAECRFVDCSFYDRESEQSCLLQGCDLREASFLRCDLTMADCSRSQCLGLELRDCQALGINFSRASFANQITVSYFCEAHLTGNNFSYANFEGCLLEQCELSGNRWQGANLFGASLAGSDLSGSEFGQIDWASVNLQGCDLRQCDLPGLDLRRVNLDGVQINEDQQQALLEQIGLIVFP MIDCFEGVRFEQQDLEGEQFQGCRFIGCNFSWLDLAECRFVDCSFYDRESEQSCLLQGCDLREASFLRCDLTMADCSRSQCLGLELRDCQALGINFSRASFANQITVSYFCEAHLTGNNFSYANFEGCLLEQCELSGNRWQGANLFGASLAGSDLSGSEFGQIDWASVNLQGCDLRQCDLPGLDLRRVNLDGVQINEDQQQALLEQIGLIVFP 3pt2-a2-m1-cA_3pt2-a2-m2-cA Structure of a viral OTU domain protease bound to Ubiquitin Q6TQR6 Q6TQR6 2.5 X-RAY DIFFRACTION 27 1.0 159 159 PGDFLRSLDWTQVIAGQYVSNPRFNISDYFEIVRQPGDGNCFYHSIAELTPNKTDHSYHYIKRLTESAARKYYQEEPEARLVGLSLEDYLKRLSDNEWGSTLEASLAKEGITIIIWTVAASDEVEAGIKFGDGDVFTAVNLLHSGQTHFDALRILPQFE PGDFLRSLDWTQVIAGQYVSNPRFNISDYFEIVRQPGDGNCFYHSIAELTPNKTDHSYHYIKRLTESAARKYYQEEPEARLVGLSLEDYLKRLSDNEWGSTLEASLAKEGITIIIWTVAASDEVEAGIKFGDGDVFTAVNLLHSGQTHFDALRILPQFE 3pty-a1-m1-cA_3pty-a1-m2-cA Crystal structure of the C-terminal extracellular domain of Mycobacterium tuberculosis EmbC P9WNL5 P9WNL5 2 X-RAY DIFFRACTION 86 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 284 284 SVGRSNLQALAGKTCGLAEDVLVELDPNAGMLAPVTAPLADALGAGLSEAFTPNGIPADVGTTAAPGINGSRARLPYNLDPARTPVLGSWRAGVQVPAMLRSGWYRLPTNEQRDRAPLLVVTAAGRFDSREVRLQWATDEQAAAGHHGGSMEFADVGAAPAWRNLRAPLSAIPSTATQVRLVADDQDLAPQHWIALTPPRIPRVRTLQNVVGAADPVFLDWLVGLAFPCQRPFGHQYGVDETPKWRILPDRITELLMRATTVASYLKDDWFRDWGALQRLTPYY SVGRSNLQALAGKTCGLAEDVLVELDPNAGMLAPVTAPLADALGAGLSEAFTPNGIPADVGTTAAPGINGSRARLPYNLDPARTPVLGSWRAGVQVPAMLRSGWYRLPTNEQRDRAPLLVVTAAGRFDSREVRLQWATDEQAAAGHHGGSMEFADVGAAPAWRNLRAPLSAIPSTATQVRLVADDQDLAPQHWIALTPPRIPRVRTLQNVVGAADPVFLDWLVGLAFPCQRPFGHQYGVDETPKWRILPDRITELLMRATTVASYLKDDWFRDWGALQRLTPYY 3pu7-a1-m1-cA_3pu7-a1-m1-cB Cu-Zn Tomato Chloroplast Superoxide Dismutase P14831 P14831 1.8 X-RAY DIFFRACTION 70 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 154 154 ATKKAVAVLKGNSNVEGVVTLSQDDDGPTTVNVRITGLAPGLHGFHLHEYGDTTNGCMSTGAHFNPNKLTHGAPGDEIRHAGDLGNIVANADGVAEVTLVDNQIPLTGPNSVVGRALVVHELEDDLGKGGHELSLTTGNAGGRLACGVVGLTPI ATKKAVAVLKGNSNVEGVVTLSQDDDGPTTVNVRITGLAPGLHGFHLHEYGDTTNGCMSTGAHFNPNKLTHGAPGDEIRHAGDLGNIVANADGVAEVTLVDNQIPLTGPNSVVGRALVVHELEDDLGKGGHELSLTTGNAGGRLACGVVGLTPI 3pu9-a1-m1-cA_3pu9-a1-m1-cB Crystal structure of serine/threonine phosphatase Sphaerobacter thermophilus DSM 20745 D1C2D8 D1C2D8 1.55 X-RAY DIFFRACTION 174 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 231 231 PVTIELAVAKTHKFGTRESGDTVELVERPGGGFSAVLVDGQGSGAGAKRLSLLVAGAAVRLLNEGVRDGAAARAAHDFLYARDGKVSAALDILSVDLASRSVLVTRNSEVPLLGRNGEFEQISESGGRIGIYRHTRPRVLEFPAEPGLTVILVSDGIIGAGGRRGQPLEFLATGGRVAGPETPAQAIADELLEAALVADDGRAGDDTVVVLRLRNVEEVEPIRRALTVPLG PVTIELAVAKTHKFGTRESGDTVELVERPGGGFSAVLVDGQGSGAGAKRLSLLVAGAAVRLLNEGVRDGAAARAAHDFLYARDGKVSAALDILSVDLASRSVLVTRNSEVPLLGRNGEFEQISESGGRIGIYRHTRPRVLEFPAEPGLTVILVSDGIIGAGGRRGQPLEFLATGGRVAGPETPAQAIADELLEAALVADDGRAGDDTVVVLRLRNVEEVEPIRRALTVPLG 3pub-a1-m1-cA_3pub-a1-m1-cB Crystal structure of the Bombyx mori low molecular weight lipoprotein 7 (Bmlp7) E5EVW2 E5EVW2 1.91 X-RAY DIFFRACTION 62 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 235 236 VPNDILEEQLYNSIVVADYDSAVEKSKHLYEEKKSEVITNVVNKLIRNNKMNCMEYAYQLWLQGSKDIVRDCFPVEFRLIFAENAIKLMYKRDGLALTLSNDVHGNDGRLAFGDGKDKTSPKVSWKFIALWENNKVYFKILNTERNQYLVLGVGTNPNGDHMAFGVNSVDSFRAQWYLQPAKYDKDNLFYIYNREYSKALTLSRTLETSGNRMAWGYNGRVIGSPEHYAWGVKAF VPNDILEEQLYNSIVVADYDSAVEKSKHLYEEKKSEVITNVVNKLIRNNKMNCMEYAYQLWLQGSKDIVRDCFPVEFRLIFAENAIKLMYKRDGLALTLSNDVHGNDGRLAFGDGKDKTSPKVSWKFIALWENNKVYFKILNTERNQYLVLGVGTNPNGDHMAFGVNSVDSFRAQWYLQPAKYDKDNLFYIYNREYSKALTLSRTLETSGNRMAWGYNGRVIGSPEHYAWGVKAFA 3pui-a1-m1-cA_3pui-a1-m2-cA Cocaine Esterase with mutations G4C, S10C Q9L9D7 Q9L9D7 1.53 X-RAY DIFFRACTION 69 1.0 104109 (Rhodococcus sp. MB1 'Bresler 1999') 104109 (Rhodococcus sp. MB1 'Bresler 1999') 574 574 3i2f-a1-m1-cA_3i2f-a1-m2-cA 3i2g-a1-m1-cA_3i2g-a1-m2-cA 3i2h-a1-m1-cA_3i2h-a1-m2-cA 3i2i-a1-m1-cA_3i2i-a1-m2-cA 3i2j-a1-m1-cA_3i2j-a1-m2-cA 3i2k-a1-m1-cA_3i2k-a1-m2-cA 3ida-a1-m1-cA_3ida-a1-m2-cA 3puh-a1-m1-cA_3puh-a1-m1-cB 4p08-a1-m1-cA_4p08-a1-m2-cA DCNYSVACNVMVPMRDGVRLAVDLYRPDADGPVPVLLVRNPYDKFDVFAWSTQSTNWLEFVRDGYAVVIQDTRGLFASEGEFVPHVDDEADAEDTLSWILEQAWCDGNVGMFGVSYLGVTQWQAAVSGVGGLKAIAPSMASADLYRAPWYGPGGALSVEALLGWSALIGTGLITSRSDARPEDAADFVQLAAILNDVAGAASVTPLAEQPLLGRLIPWVIDQVVDHPDNDESWQSISLFERLGGLATPALITAGWYDGFVGESLRTFVAVKDNADARLVVGPWSHSNLTGRNADRKFGIAATYPIQEATTMHKAFFDRHLRGETDALAGVPKVRLFVMGIDEWRDETDWPLPDTAYTPFYLGGSGAANTSTGGGTLSTSISGTESADTYLYDPADPVPSLGGTLLFHNGDNGPADQRPIHDRDDVLCYSTEVLTDPVEVTGTVSARLFVSSSAVDTDFTAKLVDVFPDGRAIALCDGIVRMRYRETLVNPTLIEAGEIYEVAIDMLATSNVFLPGHRIMVQVSSSNFPKYDRNSNTGGVIAREQLEEMCTAVNRIHRGPEHPSHIVLPIIKRKL DCNYSVACNVMVPMRDGVRLAVDLYRPDADGPVPVLLVRNPYDKFDVFAWSTQSTNWLEFVRDGYAVVIQDTRGLFASEGEFVPHVDDEADAEDTLSWILEQAWCDGNVGMFGVSYLGVTQWQAAVSGVGGLKAIAPSMASADLYRAPWYGPGGALSVEALLGWSALIGTGLITSRSDARPEDAADFVQLAAILNDVAGAASVTPLAEQPLLGRLIPWVIDQVVDHPDNDESWQSISLFERLGGLATPALITAGWYDGFVGESLRTFVAVKDNADARLVVGPWSHSNLTGRNADRKFGIAATYPIQEATTMHKAFFDRHLRGETDALAGVPKVRLFVMGIDEWRDETDWPLPDTAYTPFYLGGSGAANTSTGGGTLSTSISGTESADTYLYDPADPVPSLGGTLLFHNGDNGPADQRPIHDRDDVLCYSTEVLTDPVEVTGTVSARLFVSSSAVDTDFTAKLVDVFPDGRAIALCDGIVRMRYRETLVNPTLIEAGEIYEVAIDMLATSNVFLPGHRIMVQVSSSNFPKYDRNSNTGGVIAREQLEEMCTAVNRIHRGPEHPSHIVLPIIKRKL 3put-a1-m1-cA_3put-a1-m1-cB Crystal Structure of the CERT START domain (mutant V151E) from Rhizobium etli at the resolution 1.8A, Northeast Structural Genomics Consortium Target ReR239. Q2K7I2 Q2K7I2 1.828 X-RAY DIFFRACTION 73 0.993 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 148 153 TTRSAEHTTFVIERRLTAPVARVFRAWSTPESKRQWFACHVPLEYALDFRPGGTERNYTADTDGLLHAYDARYIDIVPDTRIIYAYEKLGQTRISASLVTVAFDVEPSGTRVFTEQVVFLDGYGDNGARLQGTEIGLDNLELFLVRET TRSAEHTTFVIERRLTAPVARVFRAWSTPESKRQWFACHGEWVPLEYALDFRPGGTERNYTADTDGLLHAYDARYIDIVPDTRIIYAYEKLGQTRISASLVTVAFDVEPSGTRVFTEQVVFLDGYGDNGARLQGTEIGLDNLELFLVRETSPI 3pv1-a2-m1-cB_3pv1-a2-m2-cB Crystal structure of the USP15 DUSP-UBL domains Q9Y4E8 Q9Y4E8 2.6 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 3pv1-a2-m1-cA_3pv1-a2-m2-cA AADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQGQVLVIEQKNEDGTWPRG AADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQGQVLVIEQKNEDGTWPRG 3pv1-a2-m2-cB_3pv1-a2-m2-cA Crystal structure of the USP15 DUSP-UBL domains Q9Y4E8 Q9Y4E8 2.6 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 215 3pv1-a1-m1-cB_3pv1-a1-m1-cA 3pv1-a2-m1-cB_3pv1-a2-m1-cA AADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQGQVLVIEQKNEDGTWPRG AADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLTELKLCENGNMNNVVTRRFSKADTIDTIEKEIRKIFSIPDEKETRLWNKYMSNTFEPLNKPDSTIQDAGLYQGQVLVIEQKNEDGTWPRG 3pv2-a1-m2-cA_3pv2-a1-m3-cA Structure of Legionella fallonii DegQ (wt) F8W672 F8W672 2.15 X-RAY DIFFRACTION 63 1.0 96230 (Legionella fallonii) 96230 (Legionella fallonii) 384 384 3pv2-a1-m1-cA_3pv2-a1-m2-cA 3pv2-a1-m1-cA_3pv2-a1-m3-cA 3pv2-a1-m1-cB_3pv2-a1-m1-cC 3pv2-a1-m1-cD_3pv2-a1-m1-cB 3pv2-a1-m1-cD_3pv2-a1-m1-cC 3pv2-a1-m2-cB_3pv2-a1-m2-cC 3pv2-a1-m2-cD_3pv2-a1-m2-cB 3pv2-a1-m2-cD_3pv2-a1-m2-cC 3pv2-a1-m3-cB_3pv2-a1-m3-cC 3pv2-a1-m3-cD_3pv2-a1-m3-cB 3pv2-a1-m3-cD_3pv2-a1-m3-cC 3pv3-a1-m1-cA_3pv3-a1-m1-cB 3pv3-a1-m1-cC_3pv3-a1-m1-cA 3pv3-a1-m1-cC_3pv3-a1-m1-cB 3pv3-a1-m1-cD_3pv3-a1-m2-cD 3pv3-a1-m1-cD_3pv3-a1-m3-cD 3pv3-a1-m2-cA_3pv3-a1-m2-cB 3pv3-a1-m2-cC_3pv3-a1-m2-cA 3pv3-a1-m2-cC_3pv3-a1-m2-cB 3pv3-a1-m2-cD_3pv3-a1-m3-cD 3pv3-a1-m3-cA_3pv3-a1-m3-cB 3pv3-a1-m3-cC_3pv3-a1-m3-cA 3pv3-a1-m3-cC_3pv3-a1-m3-cB 3pv5-a1-m1-cA_3pv5-a1-m2-cA 3pv5-a1-m1-cA_3pv5-a1-m3-cA 3pv5-a1-m1-cB_3pv5-a1-m1-cC 3pv5-a1-m1-cD_3pv5-a1-m1-cB 3pv5-a1-m1-cD_3pv5-a1-m1-cC 3pv5-a1-m2-cA_3pv5-a1-m3-cA 3pv5-a1-m2-cB_3pv5-a1-m2-cC 3pv5-a1-m2-cD_3pv5-a1-m2-cB 3pv5-a1-m2-cD_3pv5-a1-m2-cC 3pv5-a1-m3-cB_3pv5-a1-m3-cC 3pv5-a1-m3-cD_3pv5-a1-m3-cB 3pv5-a1-m3-cD_3pv5-a1-m3-cC MPSMAPVLKNIMPAIVNVAVQGYLPNRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKNFIQTDAAINPGNSGGALVNAKGELIGINTAILVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTDIKSHEQKLQSNNPFLYGLALRAFEQESPPHGNVIGVQVVGASENSAGWRAGIRPGDIIISANKKPVTDVKSLQTIAQEKKKELLVQVLRGPGSMYLLVI MPSMAPVLKNIMPAIVNVAVQGYLPNRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKNFIQTDAAINPGNSGGALVNAKGELIGINTAILVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTDIKSHEQKLQSNNPFLYGLALRAFEQESPPHGNVIGVQVVGASENSAGWRAGIRPGDIIISANKKPVTDVKSLQTIAQEKKKELLVQVLRGPGSMYLLVI 3pv2-a1-m3-cD_3pv2-a1-m1-cA Structure of Legionella fallonii DegQ (wt) F8W672 F8W672 2.15 X-RAY DIFFRACTION 52 0.997 96230 (Legionella fallonii) 96230 (Legionella fallonii) 383 384 3pv2-a1-m1-cA_3pv2-a1-m1-cC 3pv2-a1-m1-cB_3pv2-a1-m2-cB 3pv2-a1-m1-cB_3pv2-a1-m3-cB 3pv2-a1-m1-cD_3pv2-a1-m2-cA 3pv2-a1-m1-cD_3pv2-a1-m2-cC 3pv2-a1-m2-cA_3pv2-a1-m2-cC 3pv2-a1-m2-cB_3pv2-a1-m3-cB 3pv2-a1-m2-cD_3pv2-a1-m3-cA 3pv2-a1-m2-cD_3pv2-a1-m3-cC 3pv2-a1-m3-cA_3pv2-a1-m3-cC 3pv2-a1-m3-cD_3pv2-a1-m1-cC 3pv3-a1-m1-cA_3pv3-a1-m2-cA 3pv3-a1-m1-cA_3pv3-a1-m3-cA 3pv3-a1-m1-cC_3pv3-a1-m1-cD 3pv3-a1-m1-cC_3pv3-a1-m3-cB 3pv3-a1-m1-cD_3pv3-a1-m3-cB 3pv3-a1-m2-cA_3pv3-a1-m3-cA 3pv3-a1-m2-cC_3pv3-a1-m1-cB 3pv3-a1-m2-cC_3pv3-a1-m2-cD 3pv3-a1-m2-cD_3pv3-a1-m1-cB 3pv3-a1-m3-cC_3pv3-a1-m2-cB 3pv3-a1-m3-cC_3pv3-a1-m3-cD 3pv3-a1-m3-cD_3pv3-a1-m2-cB 3pv5-a1-m1-cB_3pv5-a1-m2-cB 3pv5-a1-m1-cB_3pv5-a1-m3-cB 3pv5-a1-m1-cC_3pv5-a1-m1-cA 3pv5-a1-m1-cD_3pv5-a1-m3-cA 3pv5-a1-m1-cD_3pv5-a1-m3-cC 3pv5-a1-m2-cB_3pv5-a1-m3-cB 3pv5-a1-m2-cC_3pv5-a1-m2-cA 3pv5-a1-m2-cD_3pv5-a1-m1-cA 3pv5-a1-m2-cD_3pv5-a1-m1-cC 3pv5-a1-m3-cC_3pv5-a1-m3-cA 3pv5-a1-m3-cD_3pv5-a1-m2-cA 3pv5-a1-m3-cD_3pv5-a1-m2-cC MPSMAPVLKNIMPAIVNVAVQGYLPRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKENFIQTDAAINPGNSGGALVNAKGELIGINTAIVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTDIKSHEQKLQSNNPFLYGLALRAFEQESPPHGNVIGVQVVGASENSAGWRAGIRPGDIIISANKKPVTDVKSLQTIAQEKKKELLVQVLRGPGSMYLLVI MPSMAPVLKNIMPAIVNVAVQGYLPNRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKNFIQTDAAINPGNSGGALVNAKGELIGINTAILVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTDIKSHEQKLQSNNPFLYGLALRAFEQESPPHGNVIGVQVVGASENSAGWRAGIRPGDIIISANKKPVTDVKSLQTIAQEKKKELLVQVLRGPGSMYLLVI 3pv2-a1-m3-cD_3pv2-a1-m3-cA Structure of Legionella fallonii DegQ (wt) F8W672 F8W672 2.15 X-RAY DIFFRACTION 27 0.997 96230 (Legionella fallonii) 96230 (Legionella fallonii) 383 384 3pv2-a1-m1-cB_3pv2-a1-m2-cC 3pv2-a1-m1-cC_3pv2-a1-m3-cB 3pv2-a1-m1-cD_3pv2-a1-m1-cA 3pv2-a1-m2-cB_3pv2-a1-m3-cC 3pv2-a1-m2-cD_3pv2-a1-m2-cA 3pv5-a1-m1-cB_3pv5-a1-m3-cC 3pv5-a1-m1-cD_3pv5-a1-m1-cA 3pv5-a1-m2-cB_3pv5-a1-m1-cC 3pv5-a1-m2-cD_3pv5-a1-m2-cA 3pv5-a1-m3-cB_3pv5-a1-m2-cC 3pv5-a1-m3-cD_3pv5-a1-m3-cA MPSMAPVLKNIMPAIVNVAVQGYLPRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKENFIQTDAAINPGNSGGALVNAKGELIGINTAIVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTDIKSHEQKLQSNNPFLYGLALRAFEQESPPHGNVIGVQVVGASENSAGWRAGIRPGDIIISANKKPVTDVKSLQTIAQEKKKELLVQVLRGPGSMYLLVI MPSMAPVLKNIMPAIVNVAVQGYLPNRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKNFIQTDAAINPGNSGGALVNAKGELIGINTAILVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTDIKSHEQKLQSNNPFLYGLALRAFEQESPPHGNVIGVQVVGASENSAGWRAGIRPGDIIISANKKPVTDVKSLQTIAQEKKKELLVQVLRGPGSMYLLVI 3pv4-a1-m2-cA_3pv4-a1-m3-cA Structure of Legionella fallonii DegQ (Delta-PDZ2 variant) G1K3R2 G1K3R2 3.1 X-RAY DIFFRACTION 52 1.0 96230 (Legionella fallonii) 96230 (Legionella fallonii) 281 281 3pv4-a1-m1-cA_3pv4-a1-m2-cA 3pv4-a1-m1-cA_3pv4-a1-m3-cA MPSMAPVLKNIMPAIVNVAVQGYLPNRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKNFIQTDAAISGGALVNAKGELIGINTAILVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTD MPSMAPVLKNIMPAIVNVAVQGYLPNRKFESIGSGVIIDPNNGVIITNDHVIRNASLITVTLQDGRRLKARLIGGDSETDLAVLKIDAKNLKSLVIGDSDKLEVGDFVVAIGNPFGLSQSATFGIVSALKNFIQTDAAISGGALVNAKGELIGINTAILVGIGFAIPINMVKDVAQQIIKFGSIHRGLMGIFVQHLTPELAQAMGYPEDFQGALVSQVNPNSPAELAGLKAGDIITQINDTKITQATQVKTTISLLRVGSTVKIIVERDNKPLTLSAVVTD 3pvd-a1-m1-cA_3pvd-a1-m1-cB Crystal structure of P domain dimer of Norovirus VA207 complexed with 3'-sialyl-Lewis x tetrasaccharide Q91H09 Q91H09 1.9 X-RAY DIFFRACTION 130 1.0 165510 (Human calicivirus NLV/VA97207/1997) 165510 (Human calicivirus NLV/VA97207/1997) 299 302 3pum-a1-m1-cA_3pum-a1-m1-cB 3pun-a1-m1-cA_3pun-a1-m1-cB AFTIPVLKISEMTNSRFPVPVDQMYTSRSEGIVVQPQNGRATIDGELLGTTLVSPVSVCNFKGNLQAEVPGQHQLYQLQLTNLDGSPIDPTDDTPGPLGCPDFTGLLYGVASQRGPGDATRAHEARIDTGSDTFAPKIGQVRFYSTSSDFETNQPTHFTPIGIYIESDFNQWQLPRYGGHLANNNHLAPAVSPLFPGEQILFFRSFIPGASGHTNGEMDCLLPQEFVQHFYQEAATARSEVALLRFVNPDTGRALFESKLHKQGFMTIASSGDHPIIMPTNGYFRFEAWVNQFYSLAPV AFTIPVLKISEMTNSRFPVPVDQMYTSRSEGIVVQPQNGRATIDGELLGTTLVSPVSVCNFKGNLQAEVPGQHQLYQLQLTNLDGSPIDPTDDTPGPLGCPDFTGLLYGVASQRGPGDATRAHEARIDTGSDTFAPKIGQVRFYSTSSDFETNQPTHFTPIGIYIEGNSSDFNQWQLPRYGGHLANNNHLAPAVSPLFPGEQILFFRSFIPGASGHTNGEMDCLLPQEFVQHFYQEAATARSEVALLRFVNPDTGRALFESKLHKQGFMTIASSGDHPIIMPTNGYFRFEAWVNQFYSLAPV 3pvi-a1-m1-cA_3pvi-a1-m1-cB D34G MUTANT OF PVUII ENDONUCLEASE COMPLEXED WITH COGNATE DNA SHOWS THAT ASP34 IS DIRECTLY INVOLVED IN DNA RECOGNITION AND INDIRECTLY INVOLVED IN CATALYSIS P23657 P23657 1.59 X-RAY DIFFRACTION 97 1.0 585 (Proteus vulgaris) 585 (Proteus vulgaris) 156 156 1eyu-a1-m1-cB_1eyu-a1-m1-cA 1f0o-a1-m1-cB_1f0o-a1-m1-cA 1pvi-a1-m1-cA_1pvi-a1-m1-cB 2pvi-a1-m1-cA_2pvi-a1-m1-cB SHPDLNKLLELWPHIQEYQDLALKHGINDIFQGNGGKLLQVLLITGLTVLPGREGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIY SHPDLNKLLELWPHIQEYQDLALKHGINDIFQGNGGKLLQVLLITGLTVLPGREGNDAVDNAGQEYELKSINIDLTKGFSTHHHMNPVIIAKYRQVPWIFAIYRGIAIEAIYRLEPKDLEFYYDKWERKWYSDGHKDINNPKIPVKYVMEHGTKIY 3pvj-a1-m1-cA_3pvj-a1-m1-cD Crystal structure of the Fe(II)/alpha-ketoglutarate dependent taurine dioxygenase from Pseudomonas putida KT2440 Q88RA3 Q88RA3 1.85 X-RAY DIFFRACTION 51 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 275 276 3pvj-a1-m1-cB_3pvj-a1-m1-cC 3v15-a1-m1-cA_3v15-a1-m1-cB 3v15-a1-m1-cC_3v15-a1-m1-cD 3v17-a1-m1-cA_3v17-a1-m1-cD 3v17-a1-m1-cB_3v17-a1-m1-cC LTITPLSPALGAQISGVDISRDISAEERDAIEQALLQHQVLFLRDQPINPEQQARFAARFGDLHIHPIYPNVPDTPQVLVLDTAVTDVRDNAVWHTDVTFLPTPALGAVLSAKQLPAYGGDTLWASGIAAFEALSAPLREMLDGLTATHDFTKSFPLERFGTTPQDLARWEATRRNNPPLSHPVVRTHPVSGRKALFVNEGFTTRINELSELESDALLRLLFAHATRPEFSIRWRWQENDVAFWDNRVTQHFAVDDYRPNRRVMHRATILGDAPF SLTITPLSPALGAQISGVDISRDISAEERDAIEQALLQHQVLFLRDQPINPEQQARFAARFGDLHIHPIYPNVPDTPQVLVLDTAVTDVRDNAVWHTDVTFLPTPALGAVLSAKQLPAYGGDTLWASGIAAFEALSAPLREMLDGLTATHDFTKSFPLERFGTTPQDLARWEATRRNNPPLSHPVVRTHPVSGRKALFVNEGFTTRINELSELESDALLRLLFAHATRPEFSIRWRWQENDVAFWDNRVTQHFAVDDYRPNRRVMHRATILGDAPF 3pvj-a1-m1-cB_3pvj-a1-m1-cD Crystal structure of the Fe(II)/alpha-ketoglutarate dependent taurine dioxygenase from Pseudomonas putida KT2440 Q88RA3 Q88RA3 1.85 X-RAY DIFFRACTION 51 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 276 276 3pvj-a1-m1-cA_3pvj-a1-m1-cC 3v15-a1-m1-cA_3v15-a1-m1-cC 3v15-a1-m1-cB_3v15-a1-m1-cD 3v17-a1-m1-cA_3v17-a1-m1-cC 3v17-a1-m1-cB_3v17-a1-m1-cD SLTITPLSPALGAQISGVDISRDISAEERDAIEQALLQHQVLFLRDQPINPEQQARFAARFGDLHIHPIYPNVPDTPQVLVLDTAVTDVRDNAVWHTDVTFLPTPALGAVLSAKQLPAYGGDTLWASGIAAFEALSAPLREMLDGLTATHDFTKSFPLERFGTTPQDLARWEATRRNNPPLSHPVVRTHPVSGRKALFVNEGFTTRINELSELESDALLRLLFAHATRPEFSIRWRWQENDVAFWDNRVTQHFAVDDYRPNRRVMHRATILGDAPF SLTITPLSPALGAQISGVDISRDISAEERDAIEQALLQHQVLFLRDQPINPEQQARFAARFGDLHIHPIYPNVPDTPQVLVLDTAVTDVRDNAVWHTDVTFLPTPALGAVLSAKQLPAYGGDTLWASGIAAFEALSAPLREMLDGLTATHDFTKSFPLERFGTTPQDLARWEATRRNNPPLSHPVVRTHPVSGRKALFVNEGFTTRINELSELESDALLRLLFAHATRPEFSIRWRWQENDVAFWDNRVTQHFAVDDYRPNRRVMHRATILGDAPF 3pvs-a1-m1-cB_3pvs-a1-m1-cD Structure and biochemical activities of Escherichia coli MgsA 2.5 X-RAY DIFFRACTION 196 0.995 562 (Escherichia coli) 562 (Escherichia coli) 417 424 3pvs-a1-m1-cA_3pvs-a1-m1-cC 3pvs-a1-m1-cA_3pvs-a1-m1-cD 3pvs-a1-m1-cB_3pvs-a1-m1-cC QPLAARMRPENLAQYIGQQHLLAAGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYANADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLSTEDIEQVLTQAMEDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAEVDDSGKRVLKPELLTEIAGKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAIAAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARERPDYDVPVHLRNAPYGQEYRYAHDEANAYAAGEVYFPPEIAQTRYYFPTNRGLEGKIGEKLAWLAEQDQNSPIKRY QPLAARMRPENLAQYIGQQHLLAAGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYANADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLSTEDIEQVLTQAMEDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAEVDDSGKRVLKPELLTEIKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAIAAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARERPDYDVPVHLRNAPTKLMKEMGYGQEYRYAHDEANAYAAGEVYFPPEIAQTRYYFPTNRGLEGKIGEKLAWLAEQDQNSPIKRYR 3pvs-a1-m1-cC_3pvs-a1-m1-cD Structure and biochemical activities of Escherichia coli MgsA 2.5 X-RAY DIFFRACTION 10 0.988 562 (Escherichia coli) 562 (Escherichia coli) 420 424 3pvs-a1-m1-cA_3pvs-a1-m1-cB QPLAARMRPENLAQYIGQQHLLAAGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYANADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLSTEDIEQVLTQAMEDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAEVDDSGKRVLKPELLTEIARFDNKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAIAAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARERPDYDVPVHLRNAPTKEYRYAHDEANAYAAGEVYFPPEIAQTRYYFPTNRGLEGKIGEKLAWLAEQDQNSPIKRYR QPLAARMRPENLAQYIGQQHLLAAGKPLPRAIEAGHLHSMILWGPPGTGKTTLAEVIARYANADVERISAVTSGVKEIREAIERARQNRNAGRRTILFVDEVHRFNKSQQDAFLPHIEDGTITFIGATTENPSFELNSALLSRARVYLLKSLSTEDIEQVLTQAMEDKTRGYGGQDIVLPDETRRAIAELVNGDARRALNTLEMMADMAEVDDSGKRVLKPELLTEIKGDRFYDLISALHKSVRGSAPDAALYWYARIITAGGDPLYVARRCLAIASEDVGNADPRAMQVAIAAWDCFTRVGPAEGERAIAQAIVYLACAPKSNAVYTAFKAALADARERPDYDVPVHLRNAPTKLMKEMGYGQEYRYAHDEANAYAAGEVYFPPEIAQTRYYFPTNRGLEGKIGEKLAWLAEQDQNSPIKRYR 3pvt-a1-m1-cC_3pvt-a1-m2-cC The Phenylacetyl-CoA monooxygenase PaaAC subcomplex with 3-hydroxybutanoyl-CoA P76079 P76079 2.03 X-RAY DIFFRACTION 22 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 248 248 3pvr-a1-m1-cC_3pvr-a1-m2-cC 3pvy-a1-m1-cC_3pvy-a1-m2-cC 3pw1-a1-m1-cC_3pw1-a1-m2-cC 3pw8-a1-m1-cA_3pw8-a1-m1-cB 3pwq-a1-m1-cA_3pwq-a1-m1-cB 3pwq-a2-m1-cE_3pwq-a2-m1-cG 4ii4-a1-m1-cC_4ii4-a1-m2-cC SNQLTAYTLRLGDNCLVLSQRLGEWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELAGEGDEDTLAFTRDERQFSNLLLVEQPNGNFADTIARQYFIDAWHVALFTRLMESRDPQLAAISAKAIKEARYHLRFSRGWLERLGNGTDVSGQKMQQAINKLWRFTAELFDADEIDIALSEEGIAVDPRTLRAAWEAEVFAGINEATLNVPQEQAYRTGGKKGLHTEHLGPMLAEMQYLQRVLPGQQW SNQLTAYTLRLGDNCLVLSQRLGEWCGHAPELEIDLALANIGLDLLGQARNFLSYAAELAGEGDEDTLAFTRDERQFSNLLLVEQPNGNFADTIARQYFIDAWHVALFTRLMESRDPQLAAISAKAIKEARYHLRFSRGWLERLGNGTDVSGQKMQQAINKLWRFTAELFDADEIDIALSEEGIAVDPRTLRAAWEAEVFAGINEATLNVPQEQAYRTGGKKGLHTEHLGPMLAEMQYLQRVLPGQQW 3pvz-a2-m1-cC_3pvz-a2-m1-cD UDP-N-acetylglucosamine 4,6-dehydratase from Vibrio fischeri Q5E8L1 Q5E8L1 2.1 X-RAY DIFFRACTION 136 0.994 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 359 359 SILSLIGRDTELFHQDINANEKELQSVVSQSRFLVLGGAGSIGQAVTKEIFKRNPQKLHVVDISENNVELVRDIRSSFGYINGDFQTFALDIGSIEYDAFIKADGQYDYVLNLSALKHVRSEKDPFTLRIDVNVFNTDKTIQQSIDAGAKKYFCVSTDKAANPVNGASKRIEFLRKSEEIAISTARFANVAFSDGSLLHGFNQRIQKNQPIVAPNDIKRYFVTPQESGELCLSCIFGENRDIFFPKLSEALHLISFADIAVKYLKQLGYEPHLCESEDEARELAKTLPAQGKWPCLFTSSEFFTDKETLDARFDNLGIIKNLYQQELLELFEQKIGQKTDRQWTKEEIVQLFFIIPDFG SILSLIGRDTELFHQDINANEKELQSVVSQSRFLVLGGAGSIGQAVTKEIFKRNPQKLHVVDISENNVELVRDIRSSFGYINGDFQTFALDIGSIEYDAFIKADGQYDYVLNLSALKHVRSEKDPFTLRIDVNVFNTDKTIQQSIDAGAKKYFCVSTDKAANPVNGASKRIEFLRKSEEIAISTARFANVAFSDGSLLHGFNQRIQKNQPIVAPNDIKRYFVTPQESGELCLSCIFGENRDIFFPKLSEALHLISFADIAVKYLKQLGYEPHLCESEDEARELAKTLPAQGKWPCLFTSSDTEFFTDKETLDARFDNLGIIKNYQQELLELFEQKIGQKTDRQWTKEEIVQLFFIIPDF 3pwk-a1-m1-cA_3pwk-a1-m1-cB Crystal Structure of Aspartate beta-Semialdehide Dehydrogenase from Streptococcus pneumoniae with 2',5'-Adenosine diphosphate and D-2-aminoadipate 1.5 X-RAY DIFFRACTION 176 1.0 406563 (Streptococcus pneumoniae SP23-BS72) 406563 (Streptococcus pneumoniae SP23-BS72) 357 359 2gyy-a1-m1-cB_2gyy-a1-m1-cA 2gyy-a2-m1-cD_2gyy-a2-m1-cC 2gz1-a1-m1-cA_2gz1-a1-m1-cB 2gz2-a1-m1-cA_2gz2-a1-m1-cB 2gz3-a1-m1-cB_2gz3-a1-m1-cA 2gz3-a2-m1-cB_2gz3-a2-m1-cA 2gz3-a3-m1-cC_2gz3-a3-m2-cD 3pws-a1-m1-cA_3pws-a1-m1-cB 3pyl-a1-m1-cB_3pyl-a1-m1-cA 3pyl-a2-m1-cD_3pyl-a2-m1-cC 3pyx-a1-m1-cA_3pyx-a1-m1-cB 3pzb-a1-m1-cA_3pzb-a1-m1-cB 3q11-a1-m1-cB_3q11-a1-m1-cA 3q1l-a1-m1-cB_3q1l-a1-m1-cA 3q1l-a2-m1-cD_3q1l-a2-m1-cC 4r3n-a1-m1-cB_4r3n-a1-m1-cA 4r3w-a1-m1-cB_4r3w-a1-m1-cA 4r41-a1-m1-cB_4r41-a1-m1-cA 4r4j-a1-m1-cB_4r4j-a1-m1-cA 4r51-a1-m1-cB_4r51-a1-m1-cA 4r54-a1-m1-cA_4r54-a1-m1-cB 4r5h-a1-m1-cB_4r5h-a1-m1-cA GYTVAVVGATGAVGAQMIKMLEESTLPIDKIRYLASARSAGKSLKFKDQDITIEETTETAFEGVDIALFSAGSSTSAKYAPYAVKAGVVVVDNTSYFRQNPDVPLVVPEVNAHALDAHNGIIACPNCSTIQMMVALEPVRQKWGLDRIIVSTYQAVSGAGMGAILETQRELREVLNDGVKPCDLHAEILPSGGDKKHYPIAFNALPQIDVFTDNDYTYEEMKMTKETKKIMEDDSIAVSATCVRIPVLSAHSESVYIETKEVAPIEEVKAAIAAFPGAVLEDDVAHQIYPQAINAVGSRDTFVGRIRKDLDAEKGIHMWVVSDNLLKGAAWNSVQIAETLHERGLVRPTAELKFELK GYTVAVVGATGAVGAQMIKMLEESTLPIDKIRYLASARSAGKSLKFKDQDITIEETTETAFEGVDIALFSAGSSTSAKYAPYAVKAGVVVVDNTSYFRQNPDVPLVVPEVNAHALDAHNGIIACPNCSTIQMMVALEPVRQKWGLDRIIVSTYQAVSGAGMGAILETQRELREVLNDGVKPCDLHAEILPSGGDKKHYPIAFNALPQIDVFTDNDYTYEEMKMTKETKKIMEDDSIAVSATCVRIPVLSAHSESVYIETKEVAPIEEVKAAIAAFPGAVLEDDVAHQIYPQAINAVGSRDTFVGRIRKDLDAEKGIHMWVVSDNLLKGAAWNSVQIAETLHERGLVRPTAELKFELKLE 3pwx-a1-m1-cB_3pwx-a1-m1-cA Structure of putative flagellar hook-associated protein from Vibrio parahaemolyticus Q87JH9 Q87JH9 2.5 X-RAY DIFFRACTION 33 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 186 216 DPASIKLLNLERENSAIAQYQSNIANLKTTLSSQETHLDSVSESLKSRDIVLWGITELKSYRDSIESSFNAQDEEGHFLFSGTKTYVVEGNSDVRVVTVAKGVTDSNTAQEILDIGNVLNQIDALIAEFEKPSPNFQAEVDASLNAIDDTANVLGATEIGGRHNNLDLDGAHSENKLFVDKVSGDL SLSDDPASIKLLNLERENSAIAQYQSNIANLKTTLSSQETHLDSVSESLKSRDIVLWGANGSLTDQDRSGITELKSYRDSIESSFNAQDEEGHFLFSGTKTDTAALNKSSGAYVVEGNSDVRVVTVAKGVTDSNTAQEILDIGGGKNVLNQIDALIAEFEKPSPNFQAEVDASLNAIDDTANVLGATEIGGRHNNLDLDGAHSENKLFVDKVSGDL 3px3-a1-m1-cA_3px3-a1-m1-cD Structure of TylM1 from Streptomyces fradiae H123A mutant in complex with SAH and dTDP-Quip3N P95748 P95748 1.8 X-RAY DIFFRACTION 82 1.0 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 240 240 3pfg-a1-m1-cA_3pfg-a1-m2-cA 3pfh-a1-m1-cA_3pfh-a1-m1-cD 3px2-a1-m1-cA_3px2-a1-m1-cD 4oqd-a1-m1-cA_4oqd-a1-m1-cB 4oqd-a2-m1-cD_4oqd-a2-m1-cC 4oqe-a1-m1-cA_4oqe-a1-m1-cB 6m81-a1-m2-cC_6m81-a1-m1-cA 6m81-a2-m1-cB_6m81-a2-m2-cD 6m82-a1-m1-cA_6m82-a1-m2-cA 6m83-a1-m1-cA_6m83-a1-m2-cA PQADYSGEIAELYDLVHQGKGKDYHREAADLAALVRRHSPKAASLLDVACGTGMHLRHLADSFGTVEGLELSADMLAIARRRNPDAVLHHGDMRDFSLGRRFSAVTCMFSSIGALAGQAELDAALERFAAHVLPDGVVVVEPWWFPENFTPGYVAAGTVEAGGTTVTRVSHSSREGEATRIEVHYLVAGPDRGITHHEESHRITLFTREQYERAFTAAGLSVEFMPGGPSGRGLFTGLPG PQADYSGEIAELYDLVHQGKGKDYHREAADLAALVRRHSPKAASLLDVACGTGMHLRHLADSFGTVEGLELSADMLAIARRRNPDAVLHHGDMRDFSLGRRFSAVTCMFSSIGALAGQAELDAALERFAAHVLPDGVVVVEPWWFPENFTPGYVAAGTVEAGGTTVTRVSHSSREGEATRIEVHYLVAGPDRGITHHEESHRITLFTREQYERAFTAAGLSVEFMPGGPSGRGLFTGLPG 3pxg-a1-m1-cD_3pxg-a1-m1-cC Structure of MecA121 and ClpC1-485 complex P37571 P37571 3.654 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 434 444 3j3r-a1-m1-cA_3j3r-a1-m1-cB 3j3r-a1-m1-cA_3j3r-a1-m1-cF 3j3r-a1-m1-cB_3j3r-a1-m1-cC 3j3r-a1-m1-cC_3j3r-a1-m1-cD 3j3r-a1-m1-cD_3j3r-a1-m1-cE 3j3r-a1-m1-cE_3j3r-a1-m1-cF 3j3s-a1-m1-cA_3j3s-a1-m1-cB 3j3s-a1-m1-cA_3j3s-a1-m1-cF 3j3s-a1-m1-cB_3j3s-a1-m1-cC 3j3s-a1-m1-cC_3j3s-a1-m1-cD 3j3s-a1-m1-cD_3j3s-a1-m1-cE 3j3s-a1-m1-cE_3j3s-a1-m1-cF 3j3t-a1-m1-cA_3j3t-a1-m1-cB 3j3t-a1-m1-cA_3j3t-a1-m1-cF 3j3t-a1-m1-cB_3j3t-a1-m1-cC 3j3t-a1-m1-cC_3j3t-a1-m1-cD 3j3t-a1-m1-cD_3j3t-a1-m1-cE 3j3t-a1-m1-cE_3j3t-a1-m1-cF 3j3u-a1-m1-cA_3j3u-a1-m1-cB 3j3u-a1-m1-cA_3j3u-a1-m1-cF 3j3u-a1-m1-cB_3j3u-a1-m1-cC 3j3u-a1-m1-cC_3j3u-a1-m1-cD 3j3u-a1-m1-cD_3j3u-a1-m1-cE 3j3u-a1-m1-cE_3j3u-a1-m1-cF FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLEDRLKKVMDEIRQAGNIILFIDAKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWT MFGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGSNESNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGEDRLKKVMDEIRQAGNIILFIDAILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWT 3pxg-a1-m1-cD_3pxg-a1-m1-cE Structure of MecA121 and ClpC1-485 complex P37571 P37571 3.654 X-RAY DIFFRACTION 48 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 434 434 3pxg-a1-m1-cB_3pxg-a1-m1-cA 3pxg-a1-m1-cB_3pxg-a1-m1-cC 3pxg-a1-m1-cE_3pxg-a1-m1-cF 3pxg-a1-m1-cF_3pxg-a1-m1-cA 3pxi-a1-m1-cB_3pxi-a1-m1-cA 3pxi-a1-m1-cB_3pxi-a1-m1-cC FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLEDRLKKVMDEIRQAGNIILFIDAKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWT FGRFTERAQKVLALAQEEALRLGHNNIGTEHILLGLVREGEGIAAKALQALGLGSEKIQKEVESLIGRGQEMSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLSNANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLEDRLKKVMDEIRQAGNIILFIDAKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTTPPNLKELEQKLDEVRKEKDAAVQSQEFEKAASLRDTEQRLREQVEDTKKSWKEKQGQENSEVTVDDIAMVVSSWT 3pxk-a1-m1-cA_3pxk-a1-m1-cB FOCAL ADHESION KINASE CATALYTIC DOMAIN IN COMPLEX WITH Pyrrolo[2,3-d]thiazole Q05397 Q05397 1.79 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 256 258 YEIQRERIELGRCIGEGQFGDVHQGIYMSPENPALAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKYSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSSNDCVKLGDFGLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKAQQ DYEIQRERIELGRCIGEGQFGDVHQGIYMSPENPALAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKYSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSSNDCVKLGDFGLLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKAQQ 3pxp-a5-m1-cC_3pxp-a5-m2-cC Crystal structure of a PAS and DNA binding domain containing protein (Caur_2278) from CHLOROFLEXUS AURANTIACUS J-10-FL at 2.30 A resolution A9WGF5 A9WGF5 2.3 X-RAY DIFFRACTION 65 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 278 278 3pxp-a4-m1-cB_3pxp-a4-m1-cA GERAAFGKLVQALRREHRDEKGRVWTQEVLAERTQLPKRTIERIENGSLAHLDADILLRLADALELTIGERREFFFAATGIIEQKSATYKRSPEESLQYLIDIRNNVPAFVTDQYVNIIAANITIRFFNIPELIETAPLLPHGYNLRVVFGTEYDFRRVVGTWDEVARHNQLFRAISLRVRADGYFVELLDNLQYREFKRFWERAHLETEDTSAENFWYQYTHPVYGLLSYVSSRSQIPTSGLLSHTYIPLSPATTDLFAKLSTVANQDVIRLAPWPR GERAAFGKLVQALRREHRDEKGRVWTQEVLAERTQLPKRTIERIENGSLAHLDADILLRLADALELTIGERREFFFAATGIIEQKSATYKRSPEESLQYLIDIRNNVPAFVTDQYVNIIAANITIRFFNIPELIETAPLLPHGYNLRVVFGTEYDFRRVVGTWDEVARHNQLFRAISLRVRADGYFVELLDNLQYREFKRFWERAHLETEDTSAENFWYQYTHPVYGLLSYVSSRSQIPTSGLLSHTYIPLSPATTDLFAKLSTVANQDVIRLAPWPR 3pxu-a2-m27-cA_3pxu-a2-m9-cA Crystal structure of phosphopantetheine adenylyltransferase from Burkholderia pseudomallei bound to dephospho-coenzyme A Q3JW91 Q3JW91 2.1 X-RAY DIFFRACTION 41 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 159 159 3pxu-a2-m10-cA_3pxu-a2-m21-cA 3pxu-a2-m10-cA_3pxu-a2-m23-cA 3pxu-a2-m11-cA_3pxu-a2-m21-cA 3pxu-a2-m11-cA_3pxu-a2-m23-cA 3pxu-a2-m12-cA_3pxu-a2-m20-cA 3pxu-a2-m12-cA_3pxu-a2-m22-cA 3pxu-a2-m13-cA_3pxu-a2-m16-cA 3pxu-a2-m13-cA_3pxu-a2-m18-cA 3pxu-a2-m14-cA_3pxu-a2-m17-cA 3pxu-a2-m14-cA_3pxu-a2-m19-cA 3pxu-a2-m15-cA_3pxu-a2-m16-cA 3pxu-a2-m15-cA_3pxu-a2-m18-cA 3pxu-a2-m17-cA_3pxu-a2-m3-cA 3pxu-a2-m19-cA_3pxu-a2-m3-cA 3pxu-a2-m1-cA_3pxu-a2-m24-cA 3pxu-a2-m1-cA_3pxu-a2-m26-cA 3pxu-a2-m24-cA_3pxu-a2-m8-cA 3pxu-a2-m25-cA_3pxu-a2-m7-cA 3pxu-a2-m25-cA_3pxu-a2-m9-cA 3pxu-a2-m26-cA_3pxu-a2-m8-cA 3pxu-a2-m27-cA_3pxu-a2-m7-cA 3pxu-a2-m2-cA_3pxu-a2-m20-cA 3pxu-a2-m2-cA_3pxu-a2-m22-cA SMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA SMVVAVYPGTFDPLTRGHEDLVRRASSIFDTLVVGVADSRAKKPFFSLEERLKIANEVLGHYPNVKVMGFTGLLKDFVRANDARVIVRGLRAFEYEFQMAGMNRYLLPDVETMFMTPSDQYQFISGTIVREIAQLGGDVSKFVFPSVEKWLTEKVAAMA 3pxv-a2-m1-cC_3pxv-a2-m1-cD Crystal structure of a Nitroreductase with bound FMN (Dhaf_2018) from Desulfitobacterium hafniense DCB-2 at 2.30 A resolution B8FRE0 B8FRE0 2.3 X-RAY DIFFRACTION 186 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 178 179 3pxv-a1-m1-cA_3pxv-a1-m1-cB NETLKVIAERYSCRDFKNEPSDELLQAIAEAAIQAPSGNRQAWRVIVVKNKELQEEAEGLAYLAGEDQSSYNRIERGGRLFYGAPCIVVPIDPTQYGPALVDCGILCQTIALAATSLGIANICGYTGLAFASGLRAEEFSKRLGFPEGYAFGCSVLLGHANTTKPPHVPDKDKITYVE GNETLKVIAERYSCRDFKNEPSDELLQAIAEAAIQAPSGNRQAWRVIVVKNKELQEEAEGLAYLAGEDQSSYNRIERGGRLFYGAPCIVVPIDPTQYGPALVDCGILCQTIALAATSLGIANICGYTGLAFASGLRAEEFSKRLGFPEGYAFGCSVLLGHANTTKPPHVPDKDKITYVE 3pxx-a1-m1-cE_3pxx-a1-m1-cF Crystal structure of carveol dehydrogenase from Mycobacterium avium bound to nicotinamide adenine dinucleotide A0A0H2ZV91 A0A0H2ZV91 2 X-RAY DIFFRACTION 104 0.993 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 275 277 3pxx-a1-m1-cB_3pxx-a1-m1-cA 3pxx-a1-m1-cD_3pxx-a1-m1-cC MGRVQDKVVLVTGGARGQGRSHAVKLAEEGADIILFDICHDIETNEYPLATSRDLEEAGLEVEKTGRKAYTAEVDVRDRAAVSRELANAVAEFGKLDVVVANAGICPLGAHLPVQAFADAFDVDFVGVINTVHAALPYLTSGASIITTGSVAGLIAAPQGPGGAGYSYAKQLVDSYTLQLAAQLAPQSIRANVIHPTNVNTDMLNSAPMYRQFRPDLEAPSRADALLAFPAMQAMPTPYVEASDISNAVCFLASDESRYVTGLQFKVDAGAMLKF GPGSMGRVQDKVVLVTGGARGQGRSHAVKLAEEGADIILFDICHDIETNEYPLATSRDLEEAGLEVEKTGRKAYTAEVDVRDRAAVSRELANAVAEFGKLDVVVANAGICPLGAHLPVQAFADAFDVDFVGVINTVHAALPYLTSGASIITTGSVAGLIAAGPGGAGYSYAKQLVDSYTLQLAAQLAPQSIRANVIHPTNVNTDMLNSAPMYRQFRPDLEAPSRADALLAFPAMQAMPTPYVEASDISNAVCFLASDESRYVTGLQFKVDAGAMLKF 3pxx-a1-m1-cF_3pxx-a1-m1-cA Crystal structure of carveol dehydrogenase from Mycobacterium avium bound to nicotinamide adenine dinucleotide A0A0H2ZV91 A0A0H2ZV91 2 X-RAY DIFFRACTION 51 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 277 282 3pxx-a1-m1-cB_3pxx-a1-m1-cC 3pxx-a1-m1-cD_3pxx-a1-m1-cE GPGSMGRVQDKVVLVTGGARGQGRSHAVKLAEEGADIILFDICHDIETNEYPLATSRDLEEAGLEVEKTGRKAYTAEVDVRDRAAVSRELANAVAEFGKLDVVVANAGICPLGAHLPVQAFADAFDVDFVGVINTVHAALPYLTSGASIITTGSVAGLIAAGPGGAGYSYAKQLVDSYTLQLAAQLAPQSIRANVIHPTNVNTDMLNSAPMYRQFRPDLEAPSRADALLAFPAMQAMPTPYVEASDISNAVCFLASDESRYVTGLQFKVDAGAMLKF GPGSMGRVQDKVVLVTGGARGQGRSHAVKLAEEGADIILFDICHDIETNEYPLATSRDLEEAGLEVEKTGRKAYTAEVDVRDRAAVSRELANAVAEFGKLDVVVANAGICPLGAHLPVQAFADAFDVDFVGVINTVHAALPYLTSGASIITTGSVAGLIAAAQPPQGPGGAGYSYAKQLVDSYTLQLAAQLAPQSIRANVIHPTNVNTDMLNSAPMYRQFRPDLEAPSRADALLAFPAMQAMPTPYVEASDISNAVCFLASDESRYVTGLQFKVDAGAMLKF 3pyi-a1-m1-cA_3pyi-a1-m1-cB Structure of the N-terminal domain of C. elegans SAS-6 O62479 O62479 2.104 X-RAY DIFFRACTION 62 0.986 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 142 143 4g79-a1-m1-cA_4g79-a1-m2-cA 4geu-a2-m2-cD_4geu-a2-m1-cC 4gex-a2-m2-cD_4gex-a2-m1-cB TSKIALFDQTLIASLLQPLSLNQPDFKAYKTKVKLKISEQRNETSGEKELKFEISRSDDFEFLFSETLNNEKYQILARDHDLTVDFDAFPKVIIQHLLCKNIVPTEINIILDAEKNFCSFELFSKTPISKGKIFSIKLHAVR SKIALFDQTLIASLLQPLSLNQPDFKAYKTKVKLKISEQRNETSGEKELKFEISRSDDFEFLFSETLNNEKYQILARDHDLTVDFDAFPKVIIQHLLCKNIVKGKPTEINIILDAEKNFCSFELFSKTPISKGKIFSIKLHAV 3pym-a1-m1-cB_3pym-a1-m2-cB Structure of GAPDH 3 from S.cerevisiae at 2.0 A resolution P00359 P00359 2 X-RAY DIFFRACTION 139 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 331 331 3pym-a1-m1-cA_3pym-a1-m2-cA 4iq8-a2-m1-cA_4iq8-a2-m2-cA 4iq8-a4-m1-cA_4iq8-a4-m2-cA 4iq8-a4-m3-cA_4iq8-a4-m4-cA VRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA VRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA 3pym-a1-m2-cB_3pym-a1-m1-cA Structure of GAPDH 3 from S.cerevisiae at 2.0 A resolution P00359 P00359 2 X-RAY DIFFRACTION 99 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 331 332 3pym-a1-m1-cB_3pym-a1-m2-cA 4iq8-a3-m1-cA_4iq8-a3-m3-cA 4iq8-a4-m1-cA_4iq8-a4-m3-cA 4iq8-a4-m2-cA_4iq8-a4-m4-cA VRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA MVRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA 3pym-a1-m2-cB_3pym-a1-m2-cA Structure of GAPDH 3 from S.cerevisiae at 2.0 A resolution P00359 P00359 2 X-RAY DIFFRACTION 29 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 331 332 3pym-a1-m1-cB_3pym-a1-m1-cA 4iq8-a4-m1-cA_4iq8-a4-m4-cA 4iq8-a4-m2-cA_4iq8-a4-m3-cA VRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA MVRVAINGFGRIGRLVMRIALSRPNVEVVALNDPFITNDYAAYMFKYDSTHGRYAGEVSHDDKHIIVDGKKIATYQERDPANLPWGSSNVDIAIDSTGVFKELDTAQKHIDAGAKKVVITAPSSTAPMFVMGVNEEKYTSDLKIVSNASCTTNCLAPLAKVINDAFGIEEGLMTTVHSLTATQKTVDGPSHKDWRGGRTASGNIIPSSTGAAKAVGKVLPELQGKLTGMAFRVPTVDVSVVDLTVKLNKETTYDEIKKVVKAAAEGKLKGVLGYTEDAVVSSDFLGDSHSSIFDASAGIQLSPKFVKLVSWYDNEYGYSTRVVDLVEHVAKA 3pzj-a1-m1-cB_3pzj-a1-m1-cA Crystal structure of a probable acetyltransferases (GNAT family) from Chromobacterium violaceum ATCC 12472 Q7NX87 Q7NX87 1.85 X-RAY DIFFRACTION 86 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 180 195 AGWRSAGKAPEAAIRGEAVSLQPLDAPRHGAALFRLFAGDDSHWEHLPYGPFEDEDAFITWLALTVAQSDTALYVVCASDQALGFLGYRQVQAHGAIEIGHVNFSPALRRLATEAVFLLLKTAFELGYRRCEWRCDSRNAASAAAARRFGFQFEGTLRQAVVKRRNRDTHVFSLDGEWDA SPPIAPSTPLLAGWRSAGKAPEAAIRGEAVSLQPLDAPRHGAALFRLFAGDDSHWEHLPYGPFEDEDAFITWLALTVAQSDTALYVVCAKDSDQALGFLGYRQVQAHGAIEIGHVNFSPALRRTRLATEAVFLLLKTAFELGYRRCEWRCDSRNAASAAAARRFGFQFEGTLRQAVVKRRNRDTHVFSLDGEWDA 3pzk-a2-m1-cA_3pzk-a2-m2-cC Crystal Structure of the Mycobacterium tuberculosis crotonase in apo form P9WNN9 P9WNN9 2.2303 X-RAY DIFFRACTION 33 0.992 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 244 252 3h81-a1-m1-cA_3h81-a1-m2-cC 3h81-a1-m1-cB_3h81-a1-m2-cB 3h81-a1-m1-cC_3h81-a1-m2-cA 3pzk-a2-m1-cB_3pzk-a2-m2-cB 3pzk-a2-m2-cA_3pzk-a2-m1-cC 3q0g-a3-m1-cA_3q0g-a3-m2-cC 3q0g-a3-m1-cB_3q0g-a3-m2-cB 3q0g-a3-m2-cA_3q0g-a3-m1-cC 3q0g-a4-m1-cD_3q0g-a4-m3-cF 3q0g-a4-m1-cE_3q0g-a4-m3-cE 3q0g-a4-m3-cD_3q0g-a4-m1-cF 3q0j-a3-m1-cA_3q0j-a3-m2-cC 3q0j-a3-m1-cB_3q0j-a3-m2-cB 3q0j-a3-m1-cC_3q0j-a3-m2-cA 3q0j-a4-m1-cE_3q0j-a4-m3-cE 3q0j-a4-m1-cF_3q0j-a4-m3-cD 3q0j-a4-m3-cF_3q0j-a4-m1-cD 4fjw-a2-m1-cE_4fjw-a2-m2-cE 4fjw-a2-m1-cF_4fjw-a2-m2-cD 4fjw-a2-m2-cF_4fjw-a2-m1-cD TYETILVERDQRVGIITLNRPQALNALNSQVMNEVTSAATELDDDPDIGAIIITGSAKAFAAGADIKFTADFFATWGKLAAVRTPTIAAVAGYALGGGCELAMMCDVLIAADTAKFGQPEIKLGVLPGMGGSQRLTRAIGKAKAMDLILTGRTMDAAEAERSGLVSRVVPADDLLTEARATATTISQMSASAARMAKEAVNRAFESSLSEGLLYERRLFHSAFATEDQSEGMAAFIEKRAPQFT YETILVERDQRVGIITLNRPQALNALNSQVMNEVTSAATELDDDPDIGAIIITGSAKAFAAGADIKEMADLTFADAFTADFFATWGKLAAVRTPTIAAVAGYALGGGCELAMMCDVLIAADTAKFGQPEIKLGVLPGMGGSQRLTRAIGKAKAMDLILTGRTMDAAEAERSGLVSRVVPADDLLTEARATATTISQMSASAARMAKEAVNRAFESSLSEGLLYERRLFHSAFATEDQSEGMAAFIEKRAPQF 3pzk-a2-m2-cC_3pzk-a2-m2-cB Crystal Structure of the Mycobacterium tuberculosis crotonase in apo form P9WNN9 P9WNN9 2.2303 X-RAY DIFFRACTION 158 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 252 253 3h81-a1-m1-cA_3h81-a1-m1-cC 3h81-a1-m1-cB_3h81-a1-m1-cA 3h81-a1-m1-cB_3h81-a1-m1-cC 3h81-a1-m2-cA_3h81-a1-m2-cC 3h81-a1-m2-cB_3h81-a1-m2-cA 3h81-a1-m2-cB_3h81-a1-m2-cC 3h81-a2-m1-cA_3h81-a2-m1-cC 3h81-a2-m1-cB_3h81-a2-m1-cA 3h81-a2-m1-cB_3h81-a2-m1-cC 3pzk-a1-m1-cA_3pzk-a1-m1-cB 3pzk-a1-m1-cA_3pzk-a1-m1-cC 3pzk-a1-m1-cC_3pzk-a1-m1-cB 3pzk-a2-m1-cA_3pzk-a2-m1-cB 3pzk-a2-m1-cA_3pzk-a2-m1-cC 3pzk-a2-m1-cC_3pzk-a2-m1-cB 3pzk-a2-m2-cA_3pzk-a2-m2-cB 3pzk-a2-m2-cA_3pzk-a2-m2-cC 3q0g-a1-m1-cA_3q0g-a1-m1-cB 3q0g-a1-m1-cA_3q0g-a1-m1-cC 3q0g-a1-m1-cB_3q0g-a1-m1-cC 3q0g-a2-m1-cD_3q0g-a2-m1-cE 3q0g-a2-m1-cD_3q0g-a2-m1-cF 3q0g-a2-m1-cE_3q0g-a2-m1-cF 3q0g-a3-m1-cA_3q0g-a3-m1-cB 3q0g-a3-m1-cA_3q0g-a3-m1-cC 3q0g-a3-m1-cB_3q0g-a3-m1-cC 3q0g-a3-m2-cA_3q0g-a3-m2-cB 3q0g-a3-m2-cA_3q0g-a3-m2-cC 3q0g-a3-m2-cB_3q0g-a3-m2-cC 3q0g-a4-m1-cD_3q0g-a4-m1-cE 3q0g-a4-m1-cD_3q0g-a4-m1-cF 3q0g-a4-m1-cE_3q0g-a4-m1-cF 3q0g-a4-m3-cD_3q0g-a4-m3-cE 3q0g-a4-m3-cD_3q0g-a4-m3-cF 3q0g-a4-m3-cE_3q0g-a4-m3-cF 3q0j-a1-m1-cA_3q0j-a1-m1-cB 3q0j-a1-m1-cA_3q0j-a1-m1-cC 3q0j-a1-m1-cB_3q0j-a1-m1-cC 3q0j-a2-m1-cE_3q0j-a2-m1-cD 3q0j-a2-m1-cE_3q0j-a2-m1-cF 3q0j-a2-m1-cF_3q0j-a2-m1-cD 3q0j-a3-m1-cA_3q0j-a3-m1-cB 3q0j-a3-m1-cA_3q0j-a3-m1-cC 3q0j-a3-m1-cB_3q0j-a3-m1-cC 3q0j-a3-m2-cA_3q0j-a3-m2-cB 3q0j-a3-m2-cA_3q0j-a3-m2-cC 3q0j-a3-m2-cB_3q0j-a3-m2-cC 3q0j-a4-m1-cE_3q0j-a4-m1-cD 3q0j-a4-m1-cE_3q0j-a4-m1-cF 3q0j-a4-m1-cF_3q0j-a4-m1-cD 3q0j-a4-m3-cE_3q0j-a4-m3-cD 3q0j-a4-m3-cE_3q0j-a4-m3-cF 3q0j-a4-m3-cF_3q0j-a4-m3-cD 4fjw-a1-m1-cE_4fjw-a1-m1-cD 4fjw-a1-m1-cE_4fjw-a1-m1-cF 4fjw-a1-m1-cF_4fjw-a1-m1-cD 4fjw-a2-m1-cE_4fjw-a2-m1-cD 4fjw-a2-m1-cE_4fjw-a2-m1-cF 4fjw-a2-m1-cF_4fjw-a2-m1-cD 4fjw-a2-m2-cE_4fjw-a2-m2-cD 4fjw-a2-m2-cE_4fjw-a2-m2-cF 4fjw-a2-m2-cF_4fjw-a2-m2-cD YETILVERDQRVGIITLNRPQALNALNSQVMNEVTSAATELDDDPDIGAIIITGSAKAFAAGADIKEMADLTFADAFTADFFATWGKLAAVRTPTIAAVAGYALGGGCELAMMCDVLIAADTAKFGQPEIKLGVLPGMGGSQRLTRAIGKAKAMDLILTGRTMDAAEAERSGLVSRVVPADDLLTEARATATTISQMSASAARMAKEAVNRAFESSLSEGLLYERRLFHSAFATEDQSEGMAAFIEKRAPQF TYETILVERDQRVGIITLNRPQALNALNSQVMNEVTSAATELDDDPDIGAIIITGSAKAFAAGADIKEMADLTFADAFTADFFATWGKLAAVRTPTIAAVAGYALGGGCELAMMCDVLIAADTAKFGQPEIKLGVLPGMGGSQRLTRAIGKAKAMDLILTGRTMDAAEAERSGLVSRVVPADDLLTEARATATTISQMSASAARMAKEAVNRAFESSLSEGLLYERRLFHSAFATEDQSEGMAAFIEKRAPQF 3pzl-a1-m1-cA_3pzl-a1-m2-cC The crystal structure of agmatine ureohydrolase of Thermoplasma volcanium Q97BB8 Q97BB8 2.7 X-RAY DIFFRACTION 16 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 283 283 3pzl-a1-m1-cB_3pzl-a1-m2-cB 3pzl-a1-m1-cC_3pzl-a1-m2-cA ASELRSIFSLKKIADAVNGYEEAKYVVFGIPFDNTSSYRRGSKYAPDSIRGAYVNLESYEYSYGIDLLASGADLGDEESEDVEYVIDTVESVVSAVSDGKIPILGGEHSITVGAVRALPKDVDLVIVDAHSDFRSSYGNKYNHACVTRRALDLLGEGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEEVDRKSRRVYISVDDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYDNGNTSLAAKLLQVFIASREKYYK ASELRSIFSLKKIADAVNGYEEAKYVVFGIPFDNTSSYRRGSKYAPDSIRGAYVNLESYEYSYGIDLLASGADLGDEESEDVEYVIDTVESVVSAVSDGKIPILGGEHSITVGAVRALPKDVDLVIVDAHSDFRSSYGNKYNHACVTRRALDLLGEGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEEVDRKSRRVYISVDDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYDNGNTSLAAKLLQVFIASREKYYK 3pzl-a1-m2-cA_3pzl-a1-m2-cC The crystal structure of agmatine ureohydrolase of Thermoplasma volcanium Q97BB8 Q97BB8 2.7 X-RAY DIFFRACTION 52 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 283 283 3pzl-a1-m1-cA_3pzl-a1-m1-cB 3pzl-a1-m1-cA_3pzl-a1-m1-cC 3pzl-a1-m1-cC_3pzl-a1-m1-cB 3pzl-a1-m2-cA_3pzl-a1-m2-cB 3pzl-a1-m2-cC_3pzl-a1-m2-cB ASELRSIFSLKKIADAVNGYEEAKYVVFGIPFDNTSSYRRGSKYAPDSIRGAYVNLESYEYSYGIDLLASGADLGDEESEDVEYVIDTVESVVSAVSDGKIPILGGEHSITVGAVRALPKDVDLVIVDAHSDFRSSYGNKYNHACVTRRALDLLGEGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEEVDRKSRRVYISVDDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYDNGNTSLAAKLLQVFIASREKYYK ASELRSIFSLKKIADAVNGYEEAKYVVFGIPFDNTSSYRRGSKYAPDSIRGAYVNLESYEYSYGIDLLASGADLGDEESEDVEYVIDTVESVVSAVSDGKIPILGGEHSITVGAVRALPKDVDLVIVDAHSDFRSSYGNKYNHACVTRRALDLLGEGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEEVDRKSRRVYISVDDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYDNGNTSLAAKLLQVFIASREKYYK 3pzl-a1-m2-cC_3pzl-a1-m1-cB The crystal structure of agmatine ureohydrolase of Thermoplasma volcanium Q97BB8 Q97BB8 2.7 X-RAY DIFFRACTION 58 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 283 286 3pzl-a1-m1-cA_3pzl-a1-m2-cA 3pzl-a1-m1-cC_3pzl-a1-m2-cB ASELRSIFSLKKIADAVNGYEEAKYVVFGIPFDNTSSYRRGSKYAPDSIRGAYVNLESYEYSYGIDLLASGADLGDEESEDVEYVIDTVESVVSAVSDGKIPILGGEHSITVGAVRALPKDVDLVIVDAHSDFRSSYGNKYNHACVTRRALDLLGEGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEEVDRKSRRVYISVDDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYDNGNTSLAAKLLQVFIASREKYYK ASELRSIFSLKKIADAVNGYEEAKYVVFGIPFDNTSSYRRGSKYAPDSIRGAYVNLESYEYSYGIDLLASGADLGDEESEDVEYVIDTVESVVSAVSDGKIPILGGEHSITVGAVRALPKDVDLVIVDAHSDFRSSYGNKYNHACVTRRALDLLGEGRITSIGIRSVSREEFEDPDFRKVSFISSFDVKKNGIDKYIEEVDRKSRRVYISVDDGIDPAYAPAVGTPEPFGLADTDVRRLIERLSYKAVGFDIVEFSPLYDNGNTSLAAKLLQVFIASREKYYKEHI 3pzr-a2-m1-cB_3pzr-a2-m3-cB Crystals structure of aspartate beta-Semialdehyde dehydrogenase from Vibrio Cholerae with NADP and product of S-carbamoyl-L-cysteine Q9KQG2 Q9KQG2 1.75 X-RAY DIFFRACTION 252 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 370 370 1mb4-a1-m1-cA_1mb4-a1-m1-cB 1mc4-a2-m1-cA_1mc4-a2-m2-cA 3pzr-a1-m1-cA_3pzr-a1-m2-cA 3q0e-a1-m1-cA_3q0e-a1-m1-cB 4r5m-a1-m1-cA_4r5m-a1-m1-cB MRVGLVGWRGMVGSVLMQRMVEERDFDLIEPVFFSTSQIGVPAPNFGKDAGMLHDAFDIESLKQLDAVITCQGGSYTEKVYPALRQAGWKGYWIDAASTLRMDKEAIITLDPVNLKQILHGIHHGTKTFVGGNCTVSLMLMALGGLYERGLVEWMSAMTYQAASGAGAQNMRELISQMGVINDAVSSELANPASSILDIDKKVAETMRSGSFPTDNFGVPLAGSLIPWIDVKRDNGQSKEEWKAGVEANKILGLQDSPVPIDGTCVRIGAMRCHSQALTIKLKQNIPLDEIEEMIATHNDWVKVIPNERDITARELTPAKVTGTLSVPVGRLRKMAMGDDFLNAFTVGDQLLWGAAEPLRRTLRIILAEK MRVGLVGWRGMVGSVLMQRMVEERDFDLIEPVFFSTSQIGVPAPNFGKDAGMLHDAFDIESLKQLDAVITCQGGSYTEKVYPALRQAGWKGYWIDAASTLRMDKEAIITLDPVNLKQILHGIHHGTKTFVGGNCTVSLMLMALGGLYERGLVEWMSAMTYQAASGAGAQNMRELISQMGVINDAVSSELANPASSILDIDKKVAETMRSGSFPTDNFGVPLAGSLIPWIDVKRDNGQSKEEWKAGVEANKILGLQDSPVPIDGTCVRIGAMRCHSQALTIKLKQNIPLDEIEEMIATHNDWVKVIPNERDITARELTPAKVTGTLSVPVGRLRKMAMGDDFLNAFTVGDQLLWGAAEPLRRTLRIILAEK 3pzs-a1-m1-cA_3pzs-a1-m1-cB Crystal Structure of a pyridoxamine kinase from Yersinia pestis CO92 Q7CIR8 Q7CIR8 1.89 X-RAY DIFFRACTION 119 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 277 277 KNILSIQSHVVFGHAGNSAAEFPRRGVNVWPLNTVQFSNHTQYGHWTGCVPASHLTDIVQGIADIDRLKDCDAVLSGYIGSPEQGSHILAAVAQVKQANPDAWYFCDPVGHPEKGCIVAPGVAEFFCNEALPASDIAPNLLELEQLSGERVENVEQAVQVARSLCARGPKVVLVKHLSRAGYHADCFELLVTADDAWHICRPLVDFGKRQPVGVGDLTSGLLLVNLLKGEPLDKALEHVTAAVYEVLKTQEGEYELQVVAAQETIVTPICQFTAVRL KNILSIQSHVVFGHAGNSAAEFPRRGVNVWPLNTVQFSNHTQYGHWTGCVPASHLTDIVQGIADIDRLKDCDAVLSGYIGSPEQGSHILAAVAQVKQANPDAWYFCDPVGHPEKGCIVAPGVAEFFCNEALPASDIAPNLLELEQLSGERVENVEQAVQVARSLCARGPKVVLVKHLSRAGYHADCFELLVTADDAWHICRPLVDFGKRQPVGVGDLTSGLLLVNLLKGEPLDKALEHVTAAVYEVLKTQEGEYELQVVAAQETIVTPICQFTAVRL 3pzy-a1-m2-cA_3pzy-a1-m3-cA Crystal structure of Molybdopterin biosynthesis mog protein from Mycobacterium paratuberculosis Q742N2 Q742N2 1.8 X-RAY DIFFRACTION 48 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 150 150 3oi9-a1-m1-cA_3oi9-a1-m2-cA 3oi9-a1-m1-cA_3oi9-a1-m3-cA 3oi9-a1-m2-cA_3oi9-a1-m3-cA 3pzy-a1-m1-cA_3pzy-a1-m2-cA 3pzy-a1-m1-cA_3pzy-a1-m3-cA TRSARVIIASTRASSDRCGPIITEWLAQQGFSSAQPEVVADGSPVGEALRKAIDDDVDVILTSGGTGIAPTDSTPDQTVAVVDYLIPGLAEAIRRSGLPKVPTSVLSRGVCGVAGQTLIVNLPGSPGGVRDGLGVLAGVLDHALDQLAGK TRSARVIIASTRASSDRCGPIITEWLAQQGFSSAQPEVVADGSPVGEALRKAIDDDVDVILTSGGTGIAPTDSTPDQTVAVVDYLIPGLAEAIRRSGLPKVPTSVLSRGVCGVAGQTLIVNLPGSPGGVRDGLGVLAGVLDHALDQLAGK 3pzz-a1-m5-cB_3pzz-a1-m6-cA Structure of an amyloid forming peptide GAIIGL (29-34) from amyloid beta P05067 P05067 1.29 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3pzz-a1-m1-cB_3pzz-a1-m2-cA 3pzz-a1-m2-cB_3pzz-a1-m3-cA 3pzz-a1-m4-cB_3pzz-a1-m5-cA GAIIGL GAIIGL 3pzz-a1-m6-cA_3pzz-a1-m6-cB Structure of an amyloid forming peptide GAIIGL (29-34) from amyloid beta P05067 P05067 1.29 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3pzz-a1-m1-cA_3pzz-a1-m1-cB 3pzz-a1-m2-cA_3pzz-a1-m2-cB 3pzz-a1-m3-cA_3pzz-a1-m3-cB 3pzz-a1-m4-cA_3pzz-a1-m4-cB 3pzz-a1-m5-cA_3pzz-a1-m5-cB GAIIGL GAIIGL 3q01-a1-m1-cA_3q01-a1-m1-cB An induced fit mechanism regulates p53 DNA binding kinetics to confer sequence specificity P04637 P04637 2.1 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 1aie-a1-m1-cA_1aie-a1-m4-cA 1aie-a1-m2-cA_1aie-a1-m3-cA 2j0z-a1-m1-cA_2j0z-a1-m1-cB 2j0z-a1-m1-cC_2j0z-a1-m1-cD 2j10-a1-m1-cA_2j10-a1-m1-cB 2j10-a1-m1-cC_2j10-a1-m1-cD 2j11-a1-m1-cA_2j11-a1-m1-cB 2j11-a1-m1-cC_2j11-a1-m1-cD SSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFVQLAKTVPVQLYVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERSSDSDGLAPPQHLIRVEGNLRAEYLDDPNTFRHSVVVPYEPPEVGSDYTTIYFKFMCNSSCMGGMNRRPILVIITLEDSSGNLLGRDSFEVRVCACPGRDRRTEEENLRKTMDGEYFTLQIRGRERFEQFRERNEALELKDAQAG SSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFVQLAKTVPVQLYVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERSSDSDGLAPPQHLIRVEGNLRAEYLDDPNTFRHSVVVPYEPPEVGSDYTTIYFKFMCNSSCMGGMNRRPILVIITLEDSSGNLLGRDSFEVRVCACPGRDRRTEEENLRKTMDGEYFTLQIRGRERFEQFRERNEALELKDAQAG 3q02-a3-m1-cA_3q02-a3-m1-cB Crystal structure of plasminogen activator inhibitor-1 in a metastable active conformation. P05121 P05121 2.3 X-RAY DIFFRACTION 42 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 358 362 3q03-a3-m1-cA_3q03-a3-m1-cB SYVAHLASDFGVRVFQQVAQASKDRNVVFSPYGVASVLAMLQLTTGGETQQQIQAAMGFKIDDKGMAPALRHLYKELMGPWNKDEISTTDAIFVQRDLKLVQGFMPHFFRLFRSTVKQVDFSEVERARFIINDWVKTHTKGMISNLLGKGAVDQLTRLVLVNALYFNGQFKTPFPDSSTHRRLFHKSDGSTVSVPMMAQTNKFNYTEFTTPDGHYYDILELPYHGDTLSMFIAAPYEKEVPLSALTNILSAQLISHWKGNMTRLPRLLVLPKFSLETEVDLRKPLENLGMTDMFRQFQADFTSLSDQEPLHVAQALQKVKIEVNESAPEEIIMDRPFLFVVRHNPTGTVLFMGQVMEP VHHPPSYVAHLASDFGVRVFQQVAQASKDRNVVFSPYGVASVLAMLQLTTGGETQQQIQAAMGFKIDDKGMAPALRHLYKELMGPWNKDEISTTDAIFVQRDLKLVQGFMPHFFRLFRSTVKQVDFSEVERARFIINDWVKTHTKGMISNLLGKGAVDQLTRLVLVNALYFNGQFKTPFPDSSTHRRLFHKSDGSTVSVPMMAQTNKFNYTEFTTPDGHYYDILELPYHGDTLSMFIAAPYEKEVPLSALTNILSAQLISHWKGNMTRLPRLLVLPKFSLETEVDLRKPLENLGMTDMFRQFQADFTSLSDQEPLHVAQALQKVKIEVNESPEEIIMDRPFLFVVRHNPTGTVLFMGQVMEP 3q09-a4-m1-cQ_3q09-a4-m1-cT Crystal Structure of Chlorite Dismutase from D. Aromatica at pH 9.0 Q47CX0 Q47CX0 3 X-RAY DIFFRACTION 86 1.0 159087 (Dechloromonas aromatica RCB) 159087 (Dechloromonas aromatica RCB) 241 241 2vxh-a1-m1-cA_2vxh-a1-m1-cE 2vxh-a1-m1-cA_2vxh-a1-m1-cF 2vxh-a1-m1-cB_2vxh-a1-m1-cD 2vxh-a1-m1-cB_2vxh-a1-m1-cE 2vxh-a1-m1-cC_2vxh-a1-m1-cD 2vxh-a1-m1-cC_2vxh-a1-m1-cF 3q08-a1-m1-cA_3q08-a1-m1-cD 3q08-a1-m1-cA_3q08-a1-m1-cE 3q08-a1-m1-cB_3q08-a1-m1-cC 3q08-a1-m1-cB_3q08-a1-m1-cD 3q08-a1-m1-cC_3q08-a1-m1-cE 3q08-a2-m1-cF_3q08-a2-m1-cG 3q08-a2-m1-cF_3q08-a2-m1-cJ 3q08-a2-m1-cG_3q08-a2-m1-cH 3q08-a2-m1-cH_3q08-a2-m1-cI 3q08-a2-m1-cI_3q08-a2-m1-cJ 3q08-a3-m1-cK_3q08-a3-m1-cL 3q08-a3-m1-cK_3q08-a3-m1-cO 3q08-a3-m1-cL_3q08-a3-m1-cM 3q08-a3-m1-cM_3q08-a3-m1-cN 3q08-a3-m1-cN_3q08-a3-m1-cO 3q08-a4-m1-cP_3q08-a4-m1-cS 3q08-a4-m1-cP_3q08-a4-m1-cT 3q08-a4-m1-cQ_3q08-a4-m1-cR 3q08-a4-m1-cQ_3q08-a4-m1-cT 3q08-a4-m1-cR_3q08-a4-m1-cS 3q09-a1-m1-cA_3q09-a1-m1-cD 3q09-a1-m1-cA_3q09-a1-m1-cE 3q09-a1-m1-cB_3q09-a1-m1-cC 3q09-a1-m1-cB_3q09-a1-m1-cD 3q09-a1-m1-cC_3q09-a1-m1-cE 3q09-a2-m1-cF_3q09-a2-m1-cG 3q09-a2-m1-cF_3q09-a2-m1-cJ 3q09-a2-m1-cG_3q09-a2-m1-cH 3q09-a2-m1-cH_3q09-a2-m1-cI 3q09-a2-m1-cI_3q09-a2-m1-cJ 3q09-a3-m1-cK_3q09-a3-m1-cL 3q09-a3-m1-cK_3q09-a3-m1-cO 3q09-a3-m1-cL_3q09-a3-m1-cM 3q09-a3-m1-cM_3q09-a3-m1-cN 3q09-a3-m1-cN_3q09-a3-m1-cO 3q09-a4-m1-cP_3q09-a4-m1-cS 3q09-a4-m1-cP_3q09-a4-m1-cT 3q09-a4-m1-cQ_3q09-a4-m1-cR 3q09-a4-m1-cR_3q09-a4-m1-cS KIERGTILTQPGVFGVFTMFKLRPDWNKVPVAERKGAAEEVKKLIEKHKDNVLVDLYLTRGLETNSDFFFRINAYDLAKAQTFMREFRSTTVGKNADVFETLVGVTKPLNYISKDKSPGLNAGLSSATYSGPAPRYVIVIPVKKNAEWWNMSPEERLKEMEVHTTPTLAYLVNVKRKLYHSTGLDDTDFITYFETDDLTAFNNLMLSLAQVKENKFHVRWGSPTTLGTIHSPEDVIKALAD KIERGTILTQPGVFGVFTMFKLRPDWNKVPVAERKGAAEEVKKLIEKHKDNVLVDLYLTRGLETNSDFFFRINAYDLAKAQTFMREFRSTTVGKNADVFETLVGVTKPLNYISKDKSPGLNAGLSSATYSGPAPRYVIVIPVKKNAEWWNMSPEERLKEMEVHTTPTLAYLVNVKRKLYHSTGLDDTDFITYFETDDLTAFNNLMLSLAQVKENKFHVRWGSPTTLGTIHSPEDVIKALAD 3q0z-a3-m2-cB_3q0z-a3-m1-cA Crystal structure of the hepatitis C virus NS5B RNA-dependent RNA polymerase complex with (2E)-3-(4-{[(1-{[(13-cyclohexyl-6-oxo-6,7-dihydro-5h-indolo[1,2-d][1,4]benzodiazepin-10-yl)carbonyl]amino}cyclopentyl)carbonyl]amino}phenyl)prop-2-enoic acid Q9WMX2 Q9WMX2 2.29 X-RAY DIFFRACTION 31 1.0 31647 (Hepatitis C virus subtype 1b) 31647 (Hepatitis C virus subtype 1b) 545 551 SMSYTWTGALITPCVYATTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSARSKFGYGAKDVRNLSSKAVNHIRSVWKDLLEDTETPIDTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQAVMGSSYGFQYSPGQRVEFLVNAWKAKKCPMGFAYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIRSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKAAAACRAAKLQDCTMLVCGDDLVVICESAGTQEDEASLRAFTEAMTRYSAPPGDPPKPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIQRLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVRTKLKLTPIPAASQLDLSSWFVAGYSGGDIYHSLSRA SMSYTWTGALITPCVYATTSRSASLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSARSKFGYGAKDVRNLSSKAVNHIRSVWKDLLEDTETPIDTTIMAKNEVFCVQPEKGGRKPARLIVFPDLGVRVCEKMALYDVVSTLPQAVMGSSYGFQYSPGQRVEFLVNAWKAKKCPMGFAYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIRSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKAAAACRAAKLQDCTMLVCGDDLVVICESAGTQEDEASLRAFTEAMTRYSAPPGDPPKPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIQRLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVRTKLKLTPIPAASQLDLSSWFVAGYSGGDIYHSLSRARPRWFM 3q12-a1-m1-cB_3q12-a1-m1-cA Pantoate-beta-alanine ligase from Yersinia pestis in complex with pantoate. Q8ZBK7 Q8ZBK7 1.58 X-RAY DIFFRACTION 78 0.996 632 (Yersinia pestis) 632 (Yersinia pestis) 284 285 3q10-a1-m1-cC_3q10-a1-m1-cA 3q12-a2-m1-cD_3q12-a2-m1-cC NAMLIIETLPLLRQQIRRWRQEGKRIALVPTMGNLHEGHMTLVDEAKTRADVVVVTIFVNPLQFERPDDLAHYPRTLQEDCEKLTRHGADLVFAPAAADIYPAGLEKQTYVDVPALSTILEGASRPGHFRGVSTIVSKLFNLIQPDVACFGEKDYQQLALIRKMVADMGYDINIVGVPTVRAKDGLALSSRNGYLTEEERQIAPQLSKIMWALAEKMALGERQIDALLEEAAAQLLRVGFTPDELFIRDAETLQPLTVDSQQAVILMAAWLGKARLIDNQLVDL AMLIIETLPLLRQQIRRWRQEGKRIALVPTMGNLHEGHMTLVDEAKTRADVVVVTIFVNPLQFERPDDLAHYPRTLQEDCEKLTRHGADLVFAPAAADIYPAGLEKQTYVDVPALSTILEGASRPGHFRGVSTIVSKLFNLIQPDVACFGEKDYQQLALIRKMVADMGYDINIVGVPTVRAKDGLALSSRNGYLTEEERQIAPQLSKIMWALAEKMALGERQIDALLEEAAAQLLRVGFTPDELFIRDAETLQPLTVDSQQAVILMAAWLGKARLIDNQLVDLRH 3q14-a1-m1-cB_3q14-a1-m2-cB Toluene 4 monooxygenase HD Complex with p-cresol Q00460 Q00460 1.75 X-RAY DIFFRACTION 23 1.0 300 (Pseudomonas mendocina) 300 (Pseudomonas mendocina) 305 305 3dhi-a2-m1-cB_3dhi-a2-m5-cB 3dhi-a3-m1-cB_3dhi-a3-m5-cB 3ge3-a1-m1-cB_3ge3-a1-m2-cB 3ge8-a1-m1-cF_3ge8-a1-m1-cB 3i5j-a1-m1-cB_3i5j-a1-m2-cB 3i63-a1-m1-cB_3i63-a1-m2-cB 3q2a-a1-m1-cB_3q2a-a1-m2-cB 3q3m-a1-m1-cB_3q3m-a1-m1-cF 3q3n-a1-m1-cB_3q3n-a1-m2-cB 3q3o-a1-m1-cB_3q3o-a1-m2-cB 3ri7-a1-m1-cB_3ri7-a1-m2-cB 3rmk-a2-m2-cB_3rmk-a2-m1-cE 4p1b-a1-m1-cB_4p1b-a1-m1-cE 4p1c-a1-m1-cB_4p1c-a1-m1-cE 5tds-a1-m1-cB_5tds-a1-m2-cE 5tdt-a1-m1-cF_5tdt-a1-m1-cB 5tdu-a1-m1-cB_5tdu-a1-m2-cB 5tdv-a1-m1-cB_5tdv-a1-m1-cF SFESKKPMRTWSHLAEMRKKPSEYDIVSRKLHYSTNNPDSPWELSPDSPMNLWYKQYRNASPLKHDNWDAFTDPDQLVYRTYNLMQDGQESYVQSLFDQFNEREHDQMVREGWEHTMARCYSPLRYLFHCLQMSSAYVQQMAPASTISNCCILQTADSLRWLTHTAYRTHELSLTYPDAGLGEHERELWEKEPGWQGLRELMEKQLTAFDWGEAFVSLNLVVKPMIVESIFKPLQQQAWENNDTLLPLLIDSQLKDAERHSRWSKALVKHALENPDNHAVIEGWIEKWRPLADRAAEAYLSMLSS SFESKKPMRTWSHLAEMRKKPSEYDIVSRKLHYSTNNPDSPWELSPDSPMNLWYKQYRNASPLKHDNWDAFTDPDQLVYRTYNLMQDGQESYVQSLFDQFNEREHDQMVREGWEHTMARCYSPLRYLFHCLQMSSAYVQQMAPASTISNCCILQTADSLRWLTHTAYRTHELSLTYPDAGLGEHERELWEKEPGWQGLRELMEKQLTAFDWGEAFVSLNLVVKPMIVESIFKPLQQQAWENNDTLLPLLIDSQLKDAERHSRWSKALVKHALENPDNHAVIEGWIEKWRPLADRAAEAYLSMLSS 3q15-a2-m1-cB_3q15-a2-m3-cB Crystal Structure of RapH complexed with Spo0F Q59HN8 Q59HN8 2.192 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 332 332 3q15-a1-m1-cA_3q15-a1-m2-cA AIPSSRVGVKINEWYKMIRQFSVDQDLLIYYSLMCFRHQLMLDYIETPQKKLTGLLKYYSLFFRGMYEFDQKEYVEAIGYYREAEKELPFVSDDIEKAEFHFKVAEAYYHMKQTHVSMYHILQALDIYQNHPLYSIRTIQSLFVIAGNYDDFKHYDKALPHLEAALELAMDIQNDRFIAISLLNIANSYDRSGDDQMAVEHFQKAAKVSREKVPDLLPKVLFGLSWTLCKAGQTQKAFQFIEEGLDHITAKFYKELFLFLQAVYKETVDERKIHDLLSYFEKKNLHAYIEACARSAAAVFESSCHFEQAAAFYRKVLKAQEDILKGECLYAY AIPSSRVGVKINEWYKMIRQFSVDQDLLIYYSLMCFRHQLMLDYIETPQKKLTGLLKYYSLFFRGMYEFDQKEYVEAIGYYREAEKELPFVSDDIEKAEFHFKVAEAYYHMKQTHVSMYHILQALDIYQNHPLYSIRTIQSLFVIAGNYDDFKHYDKALPHLEAALELAMDIQNDRFIAISLLNIANSYDRSGDDQMAVEHFQKAAKVSREKVPDLLPKVLFGLSWTLCKAGQTQKAFQFIEEGLDHITAKFYKELFLFLQAVYKETVDERKIHDLLSYFEKKNLHAYIEACARSAAAVFESSCHFEQAAAFYRKVLKAQEDILKGECLYAY 3q18-a1-m1-cB_3q18-a1-m1-cA Human Glutathione Transferase O2 Q9H4Y5 Q9H4Y5 1.7 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 236 3q19-a1-m1-cA_3q19-a1-m1-cB 3qag-a1-m1-cA_3qag-a1-m2-cA RTLGKGSQPPGPVPEGLIRIYSMRFCPYSHRTRLVLKAKDIRHEVVNINLRNKPEWYYTKHPFGHIPVLETSQSQLIYESVIACEYLDDAYPGRKLFPYDPYERARQKMLLELFSKVPHLTKECLVALRSGRESTNLKAALRQEFSNLEEILEYQNTTFFGGTSISMIDYLLWPWFERLDVYGILDCVSHTPALRLWISAMKWDPTVSALLMDKSIFQGFLNLYFQNNPNAFD DATRTLGKGSQPPGPVPEGLIRIYSMRFCPYSHRTRLVLKAKDIRHEVVNINLRNKPEWYYTKHPFGHIPVLETSQSQLIYESVIACEYLDDAYPGRKLFPYDPYERARQKMLLELFSKVPHLTKECLVALRSGRESTNLKAALRQEFSNLEEILEYQNTTFFGGTSISMIDYLLWPWFERLDVYGILDCVSHTPALRLWISAMKWDPTVSALLMDKSIFQGFLNLYFQNNPNAFD 3q1d-a1-m1-cA_3q1d-a1-m2-cA The B-box domain of Trim54 Q9BYV2 Q9BYV2 2.15 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 47 47 QHLMCEEHEEEKINIYCLSCEVPTCSLCKVFGAHKDCEVAPLPTIYK QHLMCEEHEEEKINIYCLSCEVPTCSLCKVFGAHKDCEVAPLPTIYK 3q1j-a1-m1-cA_3q1j-a1-m2-cA Crystal structure of tudor domain 1 of human PHD finger protein 20 Q9BVI0 Q9BVI0 2.35 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 HPPNRRGISFEVGAQLEARDRLKNWYPAHIEDIDYEEGKVLIHFKRWNHRYDEWFCWDSPYLRPLE HPPNRRGISFEVGAQLEARDRLKNWYPAHIEDIDYEEGKVLIHFKRWNHRYDEWFCWDSPYLRPLE 3q1y-a1-m1-cA_3q1y-a1-m2-cA Allosteric regulation by Lysine residue: A novel anion-hole formation in the ribokinase family Q929S5 Q929S5 2.03 X-RAY DIFFRACTION 68 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 310 310 3hic-a2-m1-cA_3hic-a2-m2-cA 3ie7-a1-m1-cA_3ie7-a1-m2-cA 3jul-a1-m1-cA_3jul-a1-m2-cA SLIYTITLNPAIDRLLFIRGELEKRKTNRVIKTEFDCGGKGLHVSGVLSKFGIKNEALGIAGSDNLDKLYAILKEKHINHDFLVEAGTSTRECFVVLSDDTNGSTMIPEAGFTVSQTNKDNLLKQIAKKVKKEDMVVIAGSPPPHYTLSDFKELLRTVKATGAFLGCDNSGEYLNLAVEMGVDFIKPNEDEVIAILDEKTNSLEENIRTLAEKIPYLVVSLGAKGSICAHNGKLYQVIPPKVQERNDTGAGDVFVGAFIAGLAMNMPITETLKVATGCSASAVMQQDSSSFDLEAAGKLKNQVSIIQLEE SLIYTITLNPAIDRLLFIRGELEKRKTNRVIKTEFDCGGKGLHVSGVLSKFGIKNEALGIAGSDNLDKLYAILKEKHINHDFLVEAGTSTRECFVVLSDDTNGSTMIPEAGFTVSQTNKDNLLKQIAKKVKKEDMVVIAGSPPPHYTLSDFKELLRTVKATGAFLGCDNSGEYLNLAVEMGVDFIKPNEDEVIAILDEKTNSLEENIRTLAEKIPYLVVSLGAKGSICAHNGKLYQVIPPKVQERNDTGAGDVFVGAFIAGLAMNMPITETLKVATGCSASAVMQQDSSSFDLEAAGKLKNQVSIIQLEE 3q20-a1-m1-cB_3q20-a1-m1-cA Crystal structure of RbcX C103A mutant from Thermosynechococcus elongatus Q8DIS6 Q8DIS6 1.71 X-RAY DIFFRACTION 142 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 106 114 DVKHIAKQTTKTLISYLTYQAVRTVIGQLAETDPPRSLWLHQFTSQESIQDGERYLEALFREQPDLGFRILTVREHLAEMVADYLPEMLRAGIQQANLQQRAQQLE MDVKHIAKQTTKTLISYLTYQAVRTVIGQLAETDPPRSLWLHQFTSQESIQDGERYLEALFREQPDLGFRILTVREHLAEMVADYLPEMLRAGIQQANLQQRAQQLERMTQVSE 3q2i-a1-m3-cA_3q2i-a1-m8-cA Crystal structure of the WlbA dehydrognase from Chromobactrium violaceum in complex with NADH and UDP-GlcNAcA at 1.50 A resolution Q7NQL0 Q7NQL0 1.5 X-RAY DIFFRACTION 155 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 345 345 3q2i-a1-m1-cA_3q2i-a1-m5-cA 3q2i-a1-m2-cA_3q2i-a1-m6-cA 3q2i-a1-m4-cA_3q2i-a1-m7-cA MIVIPPITDRKIRFALVGCGRIANNHFGALEKHADRAELIDVCDIDPAALKAAVERTGARGHASLTDMLAQTDADIVILTTPSGLHPTQSIECSEAGFHVMTEKPMATRWEDGLEMVKAADKAKKHLFVVKQNRRNATLQLLKRAMQEKRFGRIYMVNVNVFWTRPQEYYDAAGWRGTWEFDGGAFMNQASHYVDLLDWLIGPVESVQAYTATLARNIEVEDTGTVSVKWRSGALGSMNVTMLTYPKNLEGSITILGEKGSVRVGGVAVNEIQHWEFSEPHAMDEEIKDASGFGHPLYYDNVIKTMRGEATPETDGREGLKSLELLIAMYLSARDGRRVSLPLDY MIVIPPITDRKIRFALVGCGRIANNHFGALEKHADRAELIDVCDIDPAALKAAVERTGARGHASLTDMLAQTDADIVILTTPSGLHPTQSIECSEAGFHVMTEKPMATRWEDGLEMVKAADKAKKHLFVVKQNRRNATLQLLKRAMQEKRFGRIYMVNVNVFWTRPQEYYDAAGWRGTWEFDGGAFMNQASHYVDLLDWLIGPVESVQAYTATLARNIEVEDTGTVSVKWRSGALGSMNVTMLTYPKNLEGSITILGEKGSVRVGGVAVNEIQHWEFSEPHAMDEEIKDASGFGHPLYYDNVIKTMRGEATPETDGREGLKSLELLIAMYLSARDGRRVSLPLDY 3q2i-a1-m6-cA_3q2i-a1-m8-cA Crystal structure of the WlbA dehydrognase from Chromobactrium violaceum in complex with NADH and UDP-GlcNAcA at 1.50 A resolution Q7NQL0 Q7NQL0 1.5 X-RAY DIFFRACTION 31 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 345 345 3q2i-a1-m1-cA_3q2i-a1-m3-cA 3q2i-a1-m1-cA_3q2i-a1-m4-cA 3q2i-a1-m2-cA_3q2i-a1-m3-cA 3q2i-a1-m2-cA_3q2i-a1-m4-cA 3q2i-a1-m5-cA_3q2i-a1-m7-cA 3q2i-a1-m5-cA_3q2i-a1-m8-cA 3q2i-a1-m6-cA_3q2i-a1-m7-cA MIVIPPITDRKIRFALVGCGRIANNHFGALEKHADRAELIDVCDIDPAALKAAVERTGARGHASLTDMLAQTDADIVILTTPSGLHPTQSIECSEAGFHVMTEKPMATRWEDGLEMVKAADKAKKHLFVVKQNRRNATLQLLKRAMQEKRFGRIYMVNVNVFWTRPQEYYDAAGWRGTWEFDGGAFMNQASHYVDLLDWLIGPVESVQAYTATLARNIEVEDTGTVSVKWRSGALGSMNVTMLTYPKNLEGSITILGEKGSVRVGGVAVNEIQHWEFSEPHAMDEEIKDASGFGHPLYYDNVIKTMRGEATPETDGREGLKSLELLIAMYLSARDGRRVSLPLDY MIVIPPITDRKIRFALVGCGRIANNHFGALEKHADRAELIDVCDIDPAALKAAVERTGARGHASLTDMLAQTDADIVILTTPSGLHPTQSIECSEAGFHVMTEKPMATRWEDGLEMVKAADKAKKHLFVVKQNRRNATLQLLKRAMQEKRFGRIYMVNVNVFWTRPQEYYDAAGWRGTWEFDGGAFMNQASHYVDLLDWLIGPVESVQAYTATLARNIEVEDTGTVSVKWRSGALGSMNVTMLTYPKNLEGSITILGEKGSVRVGGVAVNEIQHWEFSEPHAMDEEIKDASGFGHPLYYDNVIKTMRGEATPETDGREGLKSLELLIAMYLSARDGRRVSLPLDY 3q2k-a1-m1-cE_3q2k-a1-m1-cH Crystal structure of the WlbA dehydrogenase from Bordetella pertussis in complex with NADH and UDP-GlcNAcA Q79H45 Q79H45 2.13 X-RAY DIFFRACTION 13 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 321 342 3q2k-a1-m1-cB_3q2k-a1-m1-cC 3q2k-a1-m1-cD_3q2k-a1-m1-cA 3q2k-a1-m1-cE_3q2k-a1-m1-cA 3q2k-a1-m1-cF_3q2k-a1-m1-cG 3q2k-a1-m1-cG_3q2k-a1-m1-cC 3q2k-a1-m1-cH_3q2k-a1-m1-cD 3q2k-a2-m1-cK_3q2k-a2-m1-cJ 3q2k-a2-m1-cK_3q2k-a2-m1-cM 3q2k-a2-m1-cL_3q2k-a2-m1-cI 3q2k-a2-m1-cL_3q2k-a2-m1-cN 3q2k-a2-m1-cO_3q2k-a2-m1-cI 3q2k-a2-m1-cO_3q2k-a2-m1-cN 3q2k-a2-m1-cP_3q2k-a2-m1-cJ 3q2k-a2-m1-cP_3q2k-a2-m1-cM RKIRFGLVGCGRISKNHIGAIAQHGDRAELVEICDTNPEALQAAEAATGARPFSSLSDMLAQGNADALVLATPSGLHPWQAIEVAQAGRHVVSEKPMATRWEDGKRMVKACDEAGVRLFVVKQNRRNATLQLVKKAIEQGRFGRIYMVTVNVFWTRPQEYYDAARWRGKWEWDGGAFMNQASHYVDLLDWLVGPVESVYAYTATLARRIEAEDTGVAALRWRHGAMGSINVTMLTYPQNLEGSITILGEKGTVRVGGVAVNRIDEWKFAEPHPLYYDNVINCLRGDCEPETDGREGLQSLALLTAIYRSARDGVRIPLPLD RKIRFGLVGCGRISKNHIGAIAQHGDRAELVEICDTNPEALQAAEAATGARPFSSLSDMLAQGNADALVLATPSGLHPWQAIEVAQAGRHVVSEKPMATRWEDGKRMVKACDEAGVRLFVVKQNRRNATLQLVKKAIEQGRFGRIYMVTVNVFWTRPQEYYDAARWRGKWEWDGGAFMNQASHYVDLLDWLVGPVESVYAYTATLARRIEAEDTGVAALRWRHGAMGSINVTMLTYPQNLEGSITILGEKGTVRVGGVAVNRIDEWKFAEPHPDDDKIREANYETTSVYGFGHPLYYDNVINCLRGDCEPETDGREGLQSLALLTAIYRSARDGVRIPLPLD 3q2k-a2-m1-cL_3q2k-a2-m1-cK Crystal structure of the WlbA dehydrogenase from Bordetella pertussis in complex with NADH and UDP-GlcNAcA Q79H45 Q79H45 2.13 X-RAY DIFFRACTION 149 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 321 322 3q2k-a1-m1-cB_3q2k-a1-m1-cA 3q2k-a1-m1-cD_3q2k-a1-m1-cC 3q2k-a1-m1-cE_3q2k-a1-m1-cF 3q2k-a1-m1-cG_3q2k-a1-m1-cH 3q2k-a2-m1-cI_3q2k-a2-m1-cJ 3q2k-a2-m1-cN_3q2k-a2-m1-cM 3q2k-a2-m1-cP_3q2k-a2-m1-cO RKIRFGLVGCGRISKNHIGAIAQHGDRAELVEICDTNPEALQAAEAATGARPFSSLSDMLAQGNADALVLATPSGLHPWQAIEVAQAGRHVVSEKPMATRWEDGKRMVKACDEAGVRLFVVKQNRRNTLQLVKKAIEQGRFGRIYMVTVNVFWTRPQEYYDAARWRGKWEWDGGAFMNQASHYVDLLDWLVGPVESVYAYTATLARRIEAEDTGVAALRWRHGAMGSINVTMLTYPQNLEGSITILGEKGTVRVGGVAVNRIDEWKFAEPGHPLYYDNVINCLRGDCEPETDGREGLQSLALLTAIYRSARDGVRIPLPLD RKIRFGLVGCGRISKNHIGAIAQHGDRAELVEICDTNPEALQAAEAATGARPFSSLSDMLAQGNADALVLATPSGLHPWQAIEVAQAGRHVVSEKPMATRWEDGKRMVKACDEAGVRLFVVKQNRRNATLQLVKKAIEQGRFGRIYMVTVNVFWTRPQEYYDAARWRGKWEWDGGAFMNQASHYVDLLDWLVGPVESVYAYTATLARRIEAEDTGVAALRWRHGAMGSINVTMLTYPQNLEGSITILGEKGTVRVGGVAVNRIDEWKFAEPGHPLYYDNVINCLRGDCEPETDGREGLQSLALLTAIYRSARDGVRIPLPLD 3q2l-a1-m1-cA_3q2l-a1-m1-cB Mouse E-cadherin EC1-2 V81D mutant P09803 P09803 2.7 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 3q2n-a1-m1-cA_3q2n-a1-m1-cB DWVIPPISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHADSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD DWVIPPISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHADSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD 3q2q-a1-m1-cA_3q2q-a1-m2-cA Crystal structure of geranylgeranyl pyrophosphate synthase from Corynebacterium glutamicum complexed with calcium and isoprenyl diphosphate Q8NT37 Q8NT37 1.9 X-RAY DIFFRACTION 160 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 314 314 3lmd-a1-m1-cA_3lmd-a1-m2-cA VEFGDPELTARINDAMVQVEELLHTELSSGEDFLVDIVMHLTRAGGKRFRPMFALLASEFGEKPLSENVIKAAVVVEITHLATLYHDDVMDEASANARWDNSVAILAGDILLAHASGLMSQLGTDTVAHFAETFGELVTGQMRETVGPRDTDPIEHYTNVIREKTGVLIASAGYLGAMHAGAAPEHIDALKNFGAAVGMIFQIVDDIIDIFSETHTPGTDLREGVFTLPVLYALREDTPVGAELRDILTGPLEDDETVNHVLELLSQSGGRQAALDEVYRYMDIANAELDRLPDSTVKEALRNLATFTVKRVGE VEFGDPELTARINDAMVQVEELLHTELSSGEDFLVDIVMHLTRAGGKRFRPMFALLASEFGEKPLSENVIKAAVVVEITHLATLYHDDVMDEASANARWDNSVAILAGDILLAHASGLMSQLGTDTVAHFAETFGELVTGQMRETVGPRDTDPIEHYTNVIREKTGVLIASAGYLGAMHAGAAPEHIDALKNFGAAVGMIFQIVDDIIDIFSETHTPGTDLREGVFTLPVLYALREDTPVGAELRDILTGPLEDDETVNHVLELLSQSGGRQAALDEVYRYMDIANAELDRLPDSTVKEALRNLATFTVKRVGE 3q2v-a1-m1-cB_3q2v-a1-m1-cA Crystal structure of mouse E-cadherin ectodomain P09803 P09803 3.4 X-RAY DIFFRACTION 47 0.989 10090 (Mus musculus) 10090 (Mus musculus) 440 532 2qvf-a1-m1-cB_2qvf-a1-m2-cB DWVIPPISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKDINDNAPVFNPSTYQGQVPENEVNARIATLKVTDDDAPNTPAWKAVYTVVNDPDQQFVVVTDPTTNDGILKTAKGLDFEAKQQYILHVRVENEEPFEGSLVPSTATVTVDVVDVNEAPIFMPAERRVEVPEDFGVGQEITSYTAREPDTFMDQKITYRIWRDTANWLEINPETGAIFTRAEMDREDAEHVKNSTYVALIIATDDGSPIATGTGTLLLVLLDVDPDLPP DWVIPPISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKDINDNAPVFNPSTYQGQVPENEVNARIATLKVTDDDAPNTPAWKAVYTVVNDPDQQFVVVTDPTTNDGILKTAKGLDFEAKQQYILHVRVENEEPFEGSLVPSTATVTVDVVDVNEAPIFMPAERRVEVPEDFGVGQEITSYTAREPDTFMDQKITYRIWRDTANWLEINPETGAIFTRAEMDREDAEHVKNSTYVALIIATDDGSPIATGTGTLLLVLLDVNDNAPIPEPRNMQFCQRNPQPHIITILDPDLPPNTSPFTAELTHGASVNWTIEYNDAAQESLILQPRKDEYKIHLKLADNQNKDQVTTLDVHVCDCEG 3q2w-a1-m1-cA_3q2w-a1-m2-cA Crystal structure of mouse N-cadherin ectodomain P15116 P15116 3.2 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 541 541 1ncg-a1-m1-cA_1ncg-a1-m2-cA 1nch-a2-m1-cA_1nch-a2-m2-cA 1nch-a3-m1-cB_1nch-a3-m3-cB 1nci-a1-m1-cB_1nci-a1-m1-cA 4nuq-a1-m1-cA_4nuq-a1-m2-cA DWVIPPINLPENSRGPFPQELVRIRSDRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRAHAVDINGNQVENPIDIVINVIDMNDNRPEFLHQVWNGSVPEGSKPGTYVMTVTAIDADDPNALNGMLRYRILSQAPSTPSPNMFTINNETGDIITVAAGLDREKVQQYTLIIQATDMEGNPTYGLSNTATAVITVTDVNDNPPEFTAMTFYGEVPENRVDVIVANLTVTDKDQPHTPAWNAAYRISGGDPTGRFAILTDPNSNDGLVTVVKPIDFETNRMFVLTVAAENQVPLAKGIQHPPQSTATVSVTVIDVNENPYFAPNPKIIRQEEGLHAGTMLTTLTAQDPDRYMQQNIRYTKLSDPANWLKIDPVNGQITTIAVLDRESPNVKNNIYNATFLASDNGIPPMSGTGTLQIYLLDINDNAPQVLPQEAETCETPEPNSINITALDYDIDPNAGPFAFDLPLSPVTIKRNWTINRLNGDFAQLNLKIKFEAGIYEVPIIITDSGNPPKSNISILRVKVC DWVIPPINLPENSRGPFPQELVRIRSDRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRAHAVDINGNQVENPIDIVINVIDMNDNRPEFLHQVWNGSVPEGSKPGTYVMTVTAIDADDPNALNGMLRYRILSQAPSTPSPNMFTINNETGDIITVAAGLDREKVQQYTLIIQATDMEGNPTYGLSNTATAVITVTDVNDNPPEFTAMTFYGEVPENRVDVIVANLTVTDKDQPHTPAWNAAYRISGGDPTGRFAILTDPNSNDGLVTVVKPIDFETNRMFVLTVAAENQVPLAKGIQHPPQSTATVSVTVIDVNENPYFAPNPKIIRQEEGLHAGTMLTTLTAQDPDRYMQQNIRYTKLSDPANWLKIDPVNGQITTIAVLDRESPNVKNNIYNATFLASDNGIPPMSGTGTLQIYLLDINDNAPQVLPQEAETCETPEPNSINITALDYDIDPNAGPFAFDLPLSPVTIKRNWTINRLNGDFAQLNLKIKFEAGIYEVPIIITDSGNPPKSNISILRVKVC 3q2x-a1-m5-cA_3q2x-a1-m6-cA Structure of an amyloid forming peptide NKGAII (residues 27-32) from amyloid beta P05067 P05067 1.451 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 3q2x-a1-m1-cA_3q2x-a1-m2-cA 3q2x-a1-m2-cA_3q2x-a1-m3-cA 3q2x-a1-m4-cA_3q2x-a1-m5-cA NKGAII NKGAII 3q2y-a1-m1-cA_3q2y-a1-m2-cA Crystal Structure of BmrR bound to ethidium P39075 P39075 2.95 X-RAY DIFFRACTION 190 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 276 276 1exi-a1-m1-cA_1exi-a1-m2-cA 1exj-a1-m1-cA_1exj-a1-m2-cA 1r8e-a1-m1-cA_1r8e-a1-m2-cA 3d6y-a1-m1-cA_3d6y-a1-m2-cA 3d6z-a1-m1-cA_3d6z-a1-m2-cA 3d70-a1-m1-cA_3d70-a1-m2-cA 3d71-a1-m1-cA_3d71-a1-m2-cA 3iao-a1-m1-cA_3iao-a1-m2-cA 3q1m-a1-m1-cA_3q1m-a1-m2-cA 3q3d-a1-m1-cA_3q3d-a1-m2-cA 3q5p-a1-m1-cA_3q5p-a1-m2-cA 3q5r-a1-m1-cA_3q5r-a1-m2-cA 3q5s-a1-m1-cA_3q5s-a1-m2-cA 7ckq-a1-m1-cG_7ckq-a1-m1-cI KESYYSIGEVSKLANVSIKALRYYDKIDLFKPAYVDPDTSYRYYTDSQLIHLDLIKSLKYIGTPLEEMKKAQDLEMEELFAFYTEQERQIREKLDFLSALEQTISLVKKRMKRQMEYPALGEVFVLDEEEIRIIQTEAEGLGPENVLNASYSKLKKFIESADGFTNNSYGATFSFQPYTSIDEMTYRHIFTPVLTNKQISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYSPKKQEEYRVEMKIRIL KESYYSIGEVSKLANVSIKALRYYDKIDLFKPAYVDPDTSYRYYTDSQLIHLDLIKSLKYIGTPLEEMKKAQDLEMEELFAFYTEQERQIREKLDFLSALEQTISLVKKRMKRQMEYPALGEVFVLDEEEIRIIQTEAEGLGPENVLNASYSKLKKFIESADGFTNNSYGATFSFQPYTSIDEMTYRHIFTPVLTNKQISSITPDMEITTIPKGRYACIAYNFSPEHYFLNLQKLIKYIADRQLTVVSDVYELIIPIHYSPKKQEEYRVEMKIRIL 3q31-a1-m1-cA_3q31-a1-m1-cB Structure of fungal alpha Carbonic Anhydrase from Aspergillus oryzae Q2TWF5 Q2TWF5 2.703 X-RAY DIFFRACTION 124 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 236 236 NKFNYTGLGGPLNWYGLDEANEACAKGKHQSPIVIDSAAIDYAASGSLKLDLPLADGSKLENLGFGLQVTLTNGSLTANSKTYTLAQFHFHTPSEHHVNEEHFPMEVHFVFQTAAKETAVVGFFFQLSEVGDSVPLFDSVFAPIDNIPDAGTSTTTGQLDFGGLLDHFNRHGVYQYTGSLTTPPCTEEVMWNLSTEPLPLTVQGYNKVKKIIKYNARYTQNALGQDNLLEVAAQKL NKFNYTGLGGPLNWYGLDEANEACAKGKHQSPIVIDSAAIDYAASGSLKLDLPLADGSKLENLGFGLQVTLTNGSLTANSKTYTLAQFHFHTPSEHHVNEEHFPMEVHFVFQTAAKETAVVGFFFQLSEVGDSVPLFDSVFAPIDNIPDAGTSTTTGQLDFGGLLDHFNRHGVYQYTGSLTTPPCTEEVMWNLSTEPLPLTVQGYNKVKKIIKYNARYTQNALGQDNLLEVAAQKL 3q33-a1-m1-cA_3q33-a1-m2-cA Structure of the Rtt109-AcCoA/Vps75 Complex and Implications for Chaperone-Mediated Histone Acetylation Q07794 Q07794 2.8 X-RAY DIFFRACTION 32 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 393 393 3q35-a1-m1-cA_3q35-a1-m2-cA MSLNDFLSSVLPVSEQFEYLSLQSIPLETHAVVTPNKDDKRVPKSTIKTQHFFSLFHQGKVFFSLEVYVYVTLWDEADAERLIFVSKADTNGYCNTRVSVRDITKIILEFILSIDPNYYLQKVKPAIRSSPELISAASTPARTLRILARRLKQSGSTVLKEQQDLYLSFTCPREILTKICLFTRPASQYLFPDSSKNSKKHILNGEELMKWWGFILDRLLIECFQNDTQAKLRIPGEDPARVRSYLRGMKYPLWQVGDIFTSKENSLAVYNIPLFPDDPARFIHQLAEEDRLLKVSLSSFWIELQERQEFKLSVTSSVMGISGYSLATPSLFPSSADVIVPKSRKQFRAIKKYITGEEYDTEEGAIEAFTNIRDFLLLRMATNLQSLTGKREH MSLNDFLSSVLPVSEQFEYLSLQSIPLETHAVVTPNKDDKRVPKSTIKTQHFFSLFHQGKVFFSLEVYVYVTLWDEADAERLIFVSKADTNGYCNTRVSVRDITKIILEFILSIDPNYYLQKVKPAIRSSPELISAASTPARTLRILARRLKQSGSTVLKEQQDLYLSFTCPREILTKICLFTRPASQYLFPDSSKNSKKHILNGEELMKWWGFILDRLLIECFQNDTQAKLRIPGEDPARVRSYLRGMKYPLWQVGDIFTSKENSLAVYNIPLFPDDPARFIHQLAEEDRLLKVSLSSFWIELQERQEFKLSVTSSVMGISGYSLATPSLFPSSADVIVPKSRKQFRAIKKYITGEEYDTEEGAIEAFTNIRDFLLLRMATNLQSLTGKREH 3q34-a2-m1-cB_3q34-a2-m1-cD The crystal structure of YceI-like family protein from Pseudomonas syringae Q48EL2 Q48EL2 1.7 X-RAY DIFFRACTION 100 0.988 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 168 171 3q34-a1-m1-cC_3q34-a1-m1-cA ANWYLDNESSRLSFTSTKNADIAEVHRFLVLHGKVDPKGLAEVEVETESISTGIPLRDERLREQVFQVHKFPVAQINAQLDRPINNLAPGAQLELRLPLTVSLRGKSHSYNAELLATRLRFQVVTLEPLVIHAQDFDVSDFNALRNAAGLSAVSLSVPVGAVLIFTAR ANWYLDNESSRLSFTSTKNADIAEVHRFLVLHGKVDPKGLAEVEVETESISTGIPLRDERLREQVFQVHKFPVAQINAQLDRPINNLAPGAQLELRLPLTVSLRGKSHSYNAELLATRLDERRFQVVTLEPLVIHAQDFDVSDFNALRAGLSAVSLSVPVGAVLIFTAREG 3q3j-a1-m1-cB_3q3j-a1-m4-cB Crystal structure of plexin A2 RBD in complex with Rnd1 Q92730 Q92730 1.971 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3q3j-a1-m2-cB_3q3j-a1-m3-cB RCKLVLVGDVQCGKTAMLQVLAKDCYPETYVPTVFENYTACLETQRVELSLWDTSGSPYYDNVRPLCYSDSDAVLLCFDISRPETVDSALKKWRTEILDYCPSTRVLLIGCKTDLRTDLSTLMELSHQKQAPISYEQGCAIAKQLGAEIYLEGSAFTSEKSIHSIFRTASMLCLN RCKLVLVGDVQCGKTAMLQVLAKDCYPETYVPTVFENYTACLETQRVELSLWDTSGSPYYDNVRPLCYSDSDAVLLCFDISRPETVDSALKKWRTEILDYCPSTRVLLIGCKTDLRTDLSTLMELSHQKQAPISYEQGCAIAKQLGAEIYLEGSAFTSEKSIHSIFRTASMLCLN 3q3j-a1-m2-cB_3q3j-a1-m4-cB Crystal structure of plexin A2 RBD in complex with Rnd1 Q92730 Q92730 1.971 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3q3j-a1-m1-cB_3q3j-a1-m3-cB RCKLVLVGDVQCGKTAMLQVLAKDCYPETYVPTVFENYTACLETQRVELSLWDTSGSPYYDNVRPLCYSDSDAVLLCFDISRPETVDSALKKWRTEILDYCPSTRVLLIGCKTDLRTDLSTLMELSHQKQAPISYEQGCAIAKQLGAEIYLEGSAFTSEKSIHSIFRTASMLCLN RCKLVLVGDVQCGKTAMLQVLAKDCYPETYVPTVFENYTACLETQRVELSLWDTSGSPYYDNVRPLCYSDSDAVLLCFDISRPETVDSALKKWRTEILDYCPSTRVLLIGCKTDLRTDLSTLMELSHQKQAPISYEQGCAIAKQLGAEIYLEGSAFTSEKSIHSIFRTASMLCLN 3q3j-a1-m3-cB_3q3j-a1-m4-cB Crystal structure of plexin A2 RBD in complex with Rnd1 Q92730 Q92730 1.971 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 3q3j-a1-m1-cB_3q3j-a1-m2-cB RCKLVLVGDVQCGKTAMLQVLAKDCYPETYVPTVFENYTACLETQRVELSLWDTSGSPYYDNVRPLCYSDSDAVLLCFDISRPETVDSALKKWRTEILDYCPSTRVLLIGCKTDLRTDLSTLMELSHQKQAPISYEQGCAIAKQLGAEIYLEGSAFTSEKSIHSIFRTASMLCLN RCKLVLVGDVQCGKTAMLQVLAKDCYPETYVPTVFENYTACLETQRVELSLWDTSGSPYYDNVRPLCYSDSDAVLLCFDISRPETVDSALKKWRTEILDYCPSTRVLLIGCKTDLRTDLSTLMELSHQKQAPISYEQGCAIAKQLGAEIYLEGSAFTSEKSIHSIFRTASMLCLN 3q3q-a1-m1-cA_3q3q-a1-m2-cA Crystal Structure of SPAP: an novel alkaline phosphatase from bacterium Sphingomonas sp. strain BSAR-1 A1YYW7 A1YYW7 1.953 X-RAY DIFFRACTION 121 1.0 298335 (Sphingomonas sp. BSAR-1) 298335 (Sphingomonas sp. BSAR-1) 526 526 AARSIAATPPKLIVAISVDQFSADLFSEYRQYYTGGLKRLTSEGAVFPRGYQSHAATETCPGHSTILTGSRPSRTGIIANNWFDLDAKREDKNLYCAEDESQPGSSSDKYEASPLHLKVPTLGGRMKAANPATRVVSVAGKDRAAIMMGGATADQVWWLGGPQGYVSYKGVAPTPLVTQVNQAFAQRLAQPNPGFELPAQCVSKDFPVQAGNRTVGTGRFARDAGDYKGFRISPEQDAMTLAFAAAAIENMQLGKQAQTDIISIGLSATDYVGHTFGTEGTESCIQVDRLDTELGAFFDKLDKDGIDYVVVLTADHGGHDLPERHRMNAMPMEQRVDMALTPKALNATIAEKAGLPGKKVIWSDGPSGDIYYDKGLTAAQRARVETEALKYLRAHPQVQTVFTKAEIAATPSPSGPPESWSLIQEARASFYPSRSGDLLLLLKPRVMSIPEQAVMGSVATHGSPWDTDRRVPILFWRKGMQHFEQPLGVETVDILPSLAALIKLPVPKDQIDGRCLDLVAGKDDSC AARSIAATPPKLIVAISVDQFSADLFSEYRQYYTGGLKRLTSEGAVFPRGYQSHAATETCPGHSTILTGSRPSRTGIIANNWFDLDAKREDKNLYCAEDESQPGSSSDKYEASPLHLKVPTLGGRMKAANPATRVVSVAGKDRAAIMMGGATADQVWWLGGPQGYVSYKGVAPTPLVTQVNQAFAQRLAQPNPGFELPAQCVSKDFPVQAGNRTVGTGRFARDAGDYKGFRISPEQDAMTLAFAAAAIENMQLGKQAQTDIISIGLSATDYVGHTFGTEGTESCIQVDRLDTELGAFFDKLDKDGIDYVVVLTADHGGHDLPERHRMNAMPMEQRVDMALTPKALNATIAEKAGLPGKKVIWSDGPSGDIYYDKGLTAAQRARVETEALKYLRAHPQVQTVFTKAEIAATPSPSGPPESWSLIQEARASFYPSRSGDLLLLLKPRVMSIPEQAVMGSVATHGSPWDTDRRVPILFWRKGMQHFEQPLGVETVDILPSLAALIKLPVPKDQIDGRCLDLVAGKDDSC 3q41-a2-m1-cC_3q41-a2-m2-cC Crystal structure of the GluN1 N-terminal domain (NTD) P35439 P35439 3.4 X-RAY DIFFRACTION 73 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 371 371 3q41-a1-m1-cB_3q41-a1-m1-cA PKIVNIGAVLSTRKHEQMFREAVNQANKRHGSWKIQLNATSVTHKPNAIQMALSVCEDLISSQVYAILVSHPPTPNDHFTPTPVSYTAGFYRIPVLGLTTRMSIYSDKSIHLSFLRTVPPYSHQSSVWFEMMRVYNWNHIILLVSDDHEGRAAQKRLETLLEERESKAEKVLQFDPGTKNVTALLMEARELEARVIILSASEDDAATVYRAAAMLNMTGSGYVWLVGEREISGNALRYAPDGIIGLQLINGKNESAHISDAVGVVAQAVHELLEKENITDPPRGCVGNTNIWKTGPLFKRVLMSSKYADGVTGRVEFNEDGDRKFANYSIMNLQNRKLVQVGIYNGTHVIPNDRKIIWPGGETEKPRGYQV PKIVNIGAVLSTRKHEQMFREAVNQANKRHGSWKIQLNATSVTHKPNAIQMALSVCEDLISSQVYAILVSHPPTPNDHFTPTPVSYTAGFYRIPVLGLTTRMSIYSDKSIHLSFLRTVPPYSHQSSVWFEMMRVYNWNHIILLVSDDHEGRAAQKRLETLLEERESKAEKVLQFDPGTKNVTALLMEARELEARVIILSASEDDAATVYRAAAMLNMTGSGYVWLVGEREISGNALRYAPDGIIGLQLINGKNESAHISDAVGVVAQAVHELLEKENITDPPRGCVGNTNIWKTGPLFKRVLMSSKYADGVTGRVEFNEDGDRKFANYSIMNLQNRKLVQVGIYNGTHVIPNDRKIIWPGGETEKPRGYQV 3q4f-a2-m1-cE_3q4f-a2-m1-cF Crystal structure of xrcc4/xlf-cernunnos complex Q9H9Q4 Q9H9Q4 5.5 X-RAY DIFFRACTION 219 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 227 2qm4-a1-m1-cB_2qm4-a1-m1-cA 2qm4-a2-m1-cD_2qm4-a2-m1-cC 2r9a-a1-m1-cB_2r9a-a1-m1-cA 3q4f-a1-m1-cA_3q4f-a1-m1-cB 3rwr-a1-m1-cD_3rwr-a1-m1-cE 3rwr-a1-m1-cH_3rwr-a1-m1-cI 3sr2-a1-m1-cC_3sr2-a1-m1-cD 3sr2-a1-m1-cG_3sr2-a1-m1-cH 3sr2-a3-m1-cC_3sr2-a3-m1-cD 3sr2-a5-m1-cG_3sr2-a5-m1-cH 3w03-a1-m1-cB_3w03-a1-m1-cA 7lsy-a1-m1-cI_7lsy-a1-m1-cH 7lt3-a1-m1-cI_7lt3-a1-m1-cH MEELEQGLLMQPWAWLQLAENSLLAKVFITKQGYALLVSDLQQVWHEQVDTSVVSQRAKELNKRLTAPPAAFLCHLDNLLRPLLKDAAHPSEATFSCDCVADALILRVRSELSGLPFYWNFHCMLASPSLVSQHLIRPLMGMSLALQCQVRELATLLHMKDLEIQDYQESGATLIRDRLKTEPFEENSFLEQFMIEKLPEACSIGDGKPFVMNLQDLYMAVTTQHHH MEELEQGLLMQPWAWLQLAENSLLAKVFITKQGYALLVSDLQQVWHEQVDTSVVSQRAKELNKRLTAPPAAFLCHLDNLLRPLLKDAAHPSEATFSCDCVADALILRVRSELSGLPFYWNFHCMLASPSLVSQHLIRPLMGMSLALQCQVRELATLLHMKDLEIQDYQESGATLIRDRLKTEPFEENSFLEQFMIEKLPEACSIGDGKPFVMNLQDLYMAVTTQHHH 3q4g-a1-m1-cB_3q4g-a1-m1-cA Structure of NAD synthetase from Vibrio cholerae Q9KMW1 Q9KMW1 2.4 X-RAY DIFFRACTION 195 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 254 263 SNAEHKIREERVLPSIDPQFEIERRVAFIKRKLTEARYKSLVLGISGGVDSTTCGRLAQLAVEELNQQHNTTEYQFIAVRLPYGEQKDEDEAQLALSFIRPTHSVSVNIKAGVDGLHAASHHALANTGLIPSKVDFIKGNVKARARVAQYEIAGYVGGLVLGTDHSAENITGFYTKFGDGACDLAPLFGLNKRQVRLLAKTLGAPEQLVYKNLTYEQIDDFLEGKAVPAEVSQRLVAIYHATQHKRQPIPTIYD SNAEHKIREERVLPSIDPQFEIERRVAFIKRKLTEARYKSLVLGISGGVDSTTCGRLAQLAVEELNQQHNTTEYQFIAVRLPYGEQKDEDEAQLALSFIRPTHSVSVNIKAGVDGLHAASHHALANTGLIPSDPAKVDFIKGNVKARARVAQYEIAGYVGGLVLGTDHSAENITGFYTKFGDGACDLAPLFGLNKRQVRLLAKTLGAPEQLVYKTPTADLNLTYEQIDDFLEGKAVPAEVSQRLVAIYHATQHKRQPIPTIYD 3q4h-a1-m1-cC_3q4h-a1-m1-cA Crystal structure of the Mycobacterium smegmatis EsxGH complex (MSMEG_0620-MSMEG_0621) A0QQ43 A0QQ43 2.7 X-RAY DIFFRACTION 131 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 84 87 DAHIPQLIASEANFGAKAALRSTIAQAEQAASSQAFHGEASAAFQAAHARFVEVSAKVNALLDIAQLNIGDAASSYVAQDAAAA DAHIPQLIASEANFGAKAALRSTIAQAEQAASSQAFHGEASAAFQAAHARFVEVSAKVNALLDIAQLNIGDAASSYVAQDAAAASTY 3q4i-a1-m1-cA_3q4i-a1-m1-cB Crystal structure of CDP-Chase in complex with Gd3+ Q81EE8 Q81EE8 2.5 X-RAY DIFFRACTION 195 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 204 204 3q1p-a1-m1-cB_3q1p-a1-m1-cA 6nch-a1-m1-cB_6nch-a1-m1-cA 6nci-a1-m1-cB_6nci-a1-m1-cA TIKWIDWVKQIQSIAQAGLTYSKDVYDIERFQQLRDISISMMSHYTKTDWEVVEKLFASETGYQTPKVDIRAVVFQNEKLLFVKEKSDGKWALPGGWADVGYTPTEVAAKEVFEETGYEVDHFKLLAIFDKEKHQPSPSATHVYKIFIGCEIIGGEKKTSIETEEVEFFGENELPNLSIARNTEDQIKEMFAYMKDPQKEKLID TIKWIDWVKQIQSIAQAGLTYSKDVYDIERFQQLRDISISMMSHYTKTDWEVVEKLFASETGYQTPKVDIRAVVFQNEKLLFVKEKSDGKWALPGGWADVGYTPTEVAAKEVFEETGYEVDHFKLLAIFDKEKHQPSPSATHVYKIFIGCEIIGGEKKTSIETEEVEFFGENELPNLSIARNTEDQIKEMFAYMKDPQKEKLID 3q4n-a1-m1-cA_3q4n-a1-m1-cB Crystal structure of hypothetical protein MJ0754 from Methanococcus jannaschii DSM 2661 Q58164 Q58164 2.88 X-RAY DIFFRACTION 30 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 169 175 PISEEEKEGLIEMREEEKLARDVYLTLYNKWKLQIFKNIAESEQTHMDAVKYLLEKYNIPDPVKNDSIGVFSNPKFEELYKKLVEKGDKSEVDALKVGATIEDLDIADLEKWINKTDNEDIKFVYENLMKGSRNHMRAFVRMLNNYGSNYTPQYISKEEYEEIISSSTE SSLPKQPISEEEKEGLIEMREEEKLARDVYLTLYNKWKLQIFKNIAESEQTHMDAVKYLLEKYNIPDPVKNDSIGVFSNPKFEELYKKLVEKGDKSEVDALKVGATIEDLDIADLEKWINKTDNEDIKFVYENLMKGSRNHMRAFVRMLNNYGSNYTPQYISKEEYEEIISSSTE 3q4o-a1-m1-cA_3q4o-a1-m2-cA Crystal Structure of a deletion mutant(11-185) of hypothetical protein MJ0754 determined to 1.34A Q58164 Q58164 1.34 X-RAY DIFFRACTION 32 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 169 169 3q4q-a1-m1-cA_3q4q-a1-m2-cA 3q4r-a1-m1-cA_3q4r-a1-m2-cA PISEEEKEGLIEMREEEKLARDVYLTLYNKWKLQIFKNIAESEQTHMDAVKYLLEKYNIPDPVKNDSIGVFSNPKFEELYKKLVEKGDKSEVDALKVGATIEDLDIADLEKWINKTDNEDIKFVYENLMKGSRNHMRAFVRMLNNYGSNYTPQYISKEEYEEIISSSTE PISEEEKEGLIEMREEEKLARDVYLTLYNKWKLQIFKNIAESEQTHMDAVKYLLEKYNIPDPVKNDSIGVFSNPKFEELYKKLVEKGDKSEVDALKVGATIEDLDIADLEKWINKTDNEDIKFVYENLMKGSRNHMRAFVRMLNNYGSNYTPQYISKEEYEEIISSSTE 3q58-a1-m1-cB_3q58-a1-m1-cA Structure of N-acetylmannosamine-6-Phosphate Epimerase from Salmonella enterica P60668 P60668 1.8 X-RAY DIFFRACTION 136 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 223 224 NASLLARLEQSVHENGGLIVSCQPVPGSPDKPEIVAAAQAAASAGAVAVRIEGIENLRTVRPHLSVPIIGIIKRDLTGSPVRITPYLQDVDALAQAGADIIAFDASFRSRPVDIDSLLTRIRLHGLLAADCSTVNEGISCHQKGIEFIGTTLSGYTGPITPVEPDLAVTQLSHAGCRVIAEGRYNTPALAANAIEHGAWAVTVGSAITRIEHICQWFSHAVKR SNASLLARLEQSVHENGGLIVSCQPVPGSPDKPEIVAAAQAAASAGAVAVRIEGIENLRTVRPHLSVPIIGIIKRDLTGSPVRITPYLQDVDALAQAGADIIAFDASFRSRPVDIDSLLTRIRLHGLLAADCSTVNEGISCHQKGIEFIGTTLSGYTGPITPVEPDLAVTQLSHAGCRVIAEGRYNTPALAANAIEHGAWAVTVGSAITRIEHICQWFSHAVKR 3q5l-a2-m3-cD_3q5l-a2-m1-cC Crystal structure of the amino-terminal domain of HSP90 from Leishmania major, LMJF33.0312:M1-K 213 in the presence of 17-AEP-geldanamycin Q4Q4I6 Q4Q4I6 2.65 X-RAY DIFFRACTION 47 1.0 5664 (Leishmania major) 5664 (Leishmania major) 215 216 3h80-a1-m1-cA_3h80-a1-m2-cA 3q5j-a1-m1-cA_3q5j-a1-m2-cA 3q5k-a1-m1-cA_3q5k-a1-m2-cA 3q5l-a1-m1-cA_3q5l-a1-m2-cB 3u67-a2-m1-cA_3u67-a2-m2-cA ENLYFQGMTETFAFQAEINQLMSLIINTFYSNKEIFLRELISNASDACDKIRYQSLTDPSVLGESPRLCIRVVPDKENKTLTVEDNGIGMTKADLVNNLGTIARSGTKAFMEALEAGGDMSMIGQFGVGFYSAYLVADRVTVTSKNNSDESYVWESSAGGTFTITSTPESDMKRGTRITLHLKEDQMEYLEPRRLKELIKKHSEFIGYDIELMVE RENLYFQGMTETFAFQAEINQLMSLIINTFYSNKEIFLRELISNASDACDKIRYQSLTDPSVLGESPRLCIRVVPDKENKTLTVEDNGIGMTKADLVNNLGTIARSGTKAFMEALEAGGDMSMIGQFGVGFYSAYLVADRVTVTSKNNSDESYVWESSAGGTFTITSTPESDMKRGTRITLHLKEDQMEYLEPRRLKELIKKHSEFIGYDIELMVE 3q5m-a2-m1-cA_3q5m-a2-m2-cA Crystal structure of Escherichia coli BamD P0AC02 P0AC02 2.604 X-RAY DIFFRACTION 70 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 210 210 ASKEEVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSS ASKEEVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSS 3q5t-a1-m1-cA_3q5t-a1-m2-cA V beta/V beta homodimerization-based pre-TCR model suggested by TCR beta crystal structures 2.005 X-RAY DIFFRACTION 81 1.0 10090 (Mus musculus) 10090 (Mus musculus) 238 238 AGVTQSPRYAVLQEGQSVSFWCDPISGHDTLYWYQQPRDQGPQLLVYFRDEAVIDNSQLPSDRFSAVRPKGTNSTLKIQSAKQGDTATYLCASSSGVGTEVFFGKGTRLTVVEDLRNVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYSLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD AGVTQSPRYAVLQEGQSVSFWCDPISGHDTLYWYQQPRDQGPQLLVYFRDEAVIDNSQLPSDRFSAVRPKGTNSTLKIQSAKQGDTATYLCASSSGVGTEVFFGKGTRLTVVEDLRNVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYSLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD 3q5v-a1-m2-cA_3q5v-a1-m3-cA The structure of inorganic pyrophosphatase from Thermococcus Thioreducens in complex with magnesium and sulfate H2L2L6 H2L2L6 1.29 X-RAY DIFFRACTION 52 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 178 178 3i98-a1-m1-cC_3i98-a1-m1-cA 3i98-a1-m1-cC_3i98-a1-m1-cE 3i98-a1-m1-cE_3i98-a1-m1-cA 3i98-a1-m2-cC_3i98-a1-m2-cA 3i98-a1-m2-cC_3i98-a1-m2-cE 3i98-a1-m2-cE_3i98-a1-m2-cA 3i98-a2-m1-cB_3i98-a2-m1-cD 3i98-a2-m1-cB_3i98-a2-m1-cF 3i98-a2-m1-cD_3i98-a2-m1-cF 3i98-a2-m3-cB_3i98-a2-m3-cD 3i98-a2-m3-cB_3i98-a2-m3-cF 3i98-a2-m3-cD_3i98-a2-m3-cF 3q3l-a1-m1-cA_3q3l-a1-m1-cC 3q3l-a1-m1-cE_3q3l-a1-m1-cA 3q3l-a1-m1-cE_3q3l-a1-m1-cC 3q3l-a1-m2-cA_3q3l-a1-m2-cC 3q3l-a1-m2-cE_3q3l-a1-m2-cA 3q3l-a1-m2-cE_3q3l-a1-m2-cC 3q3l-a2-m1-cB_3q3l-a2-m1-cD 3q3l-a2-m1-cB_3q3l-a2-m1-cF 3q3l-a2-m1-cD_3q3l-a2-m1-cF 3q3l-a2-m3-cB_3q3l-a2-m3-cD 3q3l-a2-m3-cB_3q3l-a2-m3-cF 3q3l-a2-m3-cD_3q3l-a2-m3-cF 3q46-a1-m1-cA_3q46-a1-m2-cA 3q46-a1-m1-cA_3q46-a1-m3-cA 3q46-a1-m2-cA_3q46-a1-m3-cA 3q46-a1-m4-cA_3q46-a1-m5-cA 3q46-a1-m4-cA_3q46-a1-m6-cA 3q46-a1-m5-cA_3q46-a1-m6-cA 3q4w-a1-m1-cA_3q4w-a1-m2-cA 3q4w-a1-m1-cA_3q4w-a1-m3-cA 3q4w-a1-m2-cA_3q4w-a1-m3-cA 3q4w-a1-m4-cA_3q4w-a1-m5-cA 3q4w-a1-m4-cA_3q4w-a1-m6-cA 3q4w-a1-m5-cA_3q4w-a1-m6-cA 3q5v-a1-m1-cA_3q5v-a1-m2-cA 3q5v-a1-m1-cA_3q5v-a1-m3-cA 3q5v-a1-m1-cB_3q5v-a1-m2-cB 3q5v-a1-m1-cB_3q5v-a1-m3-cB 3q5v-a1-m2-cB_3q5v-a1-m3-cB 3r5u-a1-m1-cA_3r5u-a1-m2-cA 3r5u-a1-m1-cA_3r5u-a1-m3-cA 3r5u-a1-m1-cB_3r5u-a1-m2-cB 3r5u-a1-m1-cB_3r5u-a1-m3-cB 3r5u-a1-m2-cA_3r5u-a1-m3-cA 3r5u-a1-m2-cB_3r5u-a1-m3-cB 3r5v-a1-m1-cA_3r5v-a1-m1-cC 3r5v-a1-m1-cE_3r5v-a1-m1-cA 3r5v-a1-m1-cE_3r5v-a1-m1-cC 3r5v-a1-m2-cA_3r5v-a1-m2-cC 3r5v-a1-m2-cE_3r5v-a1-m2-cA 3r5v-a1-m2-cE_3r5v-a1-m2-cC 3r5v-a2-m1-cD_3r5v-a2-m1-cB 3r5v-a2-m1-cF_3r5v-a2-m1-cB 3r5v-a2-m1-cF_3r5v-a2-m1-cD 3r5v-a2-m3-cD_3r5v-a2-m3-cB 3r5v-a2-m3-cF_3r5v-a2-m3-cB 3r5v-a2-m3-cF_3r5v-a2-m3-cD 3r6e-a1-m1-cB_3r6e-a1-m1-cC 3r6e-a1-m1-cB_3r6e-a1-m1-cF 3r6e-a1-m1-cC_3r6e-a1-m1-cF 3r6e-a1-m1-cD_3r6e-a1-m1-cA 3r6e-a1-m1-cE_3r6e-a1-m1-cA 3r6e-a1-m1-cE_3r6e-a1-m1-cD 5ty5-a1-m1-cA_5ty5-a1-m1-cB 5ty5-a1-m1-cA_5ty5-a1-m1-cC 5ty5-a1-m1-cC_5ty5-a1-m1-cB 5ty5-a2-m1-cD_5ty5-a2-m1-cE 5ty5-a2-m1-cF_5ty5-a2-m1-cD 5ty5-a2-m1-cF_5ty5-a2-m1-cE 5ucq-a1-m1-cA_5ucq-a1-m1-cB 5ucq-a1-m1-cC_5ucq-a1-m1-cA 5ucq-a1-m1-cC_5ucq-a1-m1-cB MNPFHELEPGPEVPEVVYALIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPQTWYDDGDPFDIMVIMREPVYPLTIIEARPIGIMKMEDSGDKDWKVLAVPVEDPYFNDWKDISDVPKAFLDEIAHFFQRYKELQGKTTKIEGWGNAEEAKREILRAIEMYKEKFGKEE MNPFHELEPGPEVPEVVYALIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPQTWYDDGDPFDIMVIMREPVYPLTIIEARPIGIMKMEDSGDKDWKVLAVPVEDPYFNDWKDISDVPKAFLDEIAHFFQRYKELQGKTTKIEGWGNAEEAKREILRAIEMYKEKFGKEE 3q5v-a1-m3-cB_3q5v-a1-m1-cA The structure of inorganic pyrophosphatase from Thermococcus Thioreducens in complex with magnesium and sulfate H2L2L6 H2L2L6 1.29 X-RAY DIFFRACTION 21 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 176 178 3i98-a1-m1-cA_3i98-a1-m2-cA 3i98-a1-m1-cC_3i98-a1-m2-cE 3i98-a1-m1-cE_3i98-a1-m2-cC 3i98-a2-m1-cB_3i98-a2-m3-cB 3i98-a2-m1-cD_3i98-a2-m3-cF 3i98-a2-m1-cF_3i98-a2-m3-cD 3q3l-a1-m1-cA_3q3l-a1-m2-cA 3q3l-a1-m1-cE_3q3l-a1-m2-cC 3q3l-a1-m2-cE_3q3l-a1-m1-cC 3q3l-a2-m1-cB_3q3l-a2-m3-cB 3q3l-a2-m1-cD_3q3l-a2-m3-cF 3q3l-a2-m1-cF_3q3l-a2-m3-cD 3q46-a1-m1-cA_3q46-a1-m5-cA 3q46-a1-m2-cA_3q46-a1-m4-cA 3q46-a1-m3-cA_3q46-a1-m6-cA 3q4w-a1-m1-cA_3q4w-a1-m4-cA 3q4w-a1-m2-cA_3q4w-a1-m6-cA 3q4w-a1-m3-cA_3q4w-a1-m5-cA 3q5v-a1-m1-cB_3q5v-a1-m2-cA 3q5v-a1-m2-cB_3q5v-a1-m3-cA 3r5u-a1-m1-cB_3r5u-a1-m1-cA 3r5u-a1-m2-cB_3r5u-a1-m2-cA 3r5u-a1-m3-cB_3r5u-a1-m3-cA 3r5v-a1-m1-cA_3r5v-a1-m2-cA 3r5v-a1-m1-cE_3r5v-a1-m2-cC 3r5v-a1-m2-cE_3r5v-a1-m1-cC 3r5v-a2-m1-cB_3r5v-a2-m3-cB 3r5v-a2-m1-cF_3r5v-a2-m3-cD 3r5v-a2-m3-cF_3r5v-a2-m1-cD 3r6e-a1-m1-cA_3r6e-a1-m1-cF 3r6e-a1-m1-cD_3r6e-a1-m1-cC 3r6e-a1-m1-cE_3r6e-a1-m1-cB MNPFHELEPGPEVPEVVYALIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPQTWYDDGDPFDIMVIMREPVYPLTIIEARPIGIMKMEDSGDKDWKVLAVPVEDPYFNDWKDISDVPKAFLDEIAHFFQRYKELQGKTTKIEGWGNAEEAKREILRAIEMYKEKFGK MNPFHELEPGPEVPEVVYALIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPQTWYDDGDPFDIMVIMREPVYPLTIIEARPIGIMKMEDSGDKDWKVLAVPVEDPYFNDWKDISDVPKAFLDEIAHFFQRYKELQGKTTKIEGWGNAEEAKREILRAIEMYKEKFGKEE 3q5w-a1-m1-cA_3q5w-a1-m1-cB Structure of proteasome tether P38937 P38937 2.75 X-RAY DIFFRACTION 164 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 194 195 3q5x-a1-m1-cA_3q5x-a1-m2-cA DISKRARQLPVGEQLPLSRLLQYSDKQQLFTILLQCVEKHPDLARDIRGILPAPSDTCVETLRKLLINLNDSFPYGGDKRGDYAFNRIREKYAVLHALNDVPCYLPPYSTCFEKNITFLDAATNVVHELPEFHNPNHNVYKSQAYYELTGAWLVVLRQLEDRPVVPLLPLEELEEHNKTSQNREEALNYLKQLQ EDISKRARQLPVGEQLPLSRLLQYSDKQQLFTILLQCVEKHPDLARDIRGILPAPSDTCVETLRKLLINLNDSFPYGGDKRGDYAFNRIREKYAVLHALNDVPCYLPPYSTCFEKNITFLDAATNVVHELPEFHNPNHNVYKSQAYYELTGAWLVVLRQLEDRPVVPLLPLEELEEHNKTSQNREEALNYLKQLQ 3q5y-a2-m1-cD_3q5y-a2-m1-cC V beta/V beta homodimerization-based pre-TCR model suggested by TCR beta crystal structures 1.9 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 238 239 3q5y-a1-m1-cB_3q5y-a1-m1-cA DSGVVQSPRHIIKEKGGRSVLTCIPISGHSNVVWYQQTLGKELKFLIQHYEKVERDKGFLPSRFSVQQFDDYHSEMNMSALELEDSAMYFCASSLRWGDEQYFGPGTRLTVLEDLRNVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYSLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRAD DSGVVQSPRHIIKEKGGRSVLTCIPISGHSNVVWYQQTLGKELKFLIQHYEKVERDKGFLPSRFSVQQFDDYHSEMNMSALELEDSAMYFCASSLRWGDEQYFGPGTRLTVLEDLRNVTPPKVSLFEPSKAEIANKQKATLVCLARGFFPDHVELSWWVNGKEVHSGVSTDPQAYKESNYSYSLSSRLRVSATFWHNPRNHFRCQVQFHGLSEEDKWPEGSPKPVTQNISAEAWGRADS 3q63-a1-m1-cA_3q63-a1-m1-cB X-ray crystal structure of protein MLL2253 from Mesorhizobium loti, Northeast Structural Genomics Consortium Target MlR404. Q98IT8 Q98IT8 2 X-RAY DIFFRACTION 67 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 129 134 3q63-a2-m1-cD_3q63-a2-m1-cC 3q63-a3-m1-cE_3q63-a3-m1-cF RTVVVERQISHPPEKLWRALTQPHLIEEWLKNDFKPAVGHRFNISADWGGVLDCEVLAVEPNKTLSYTWNLAHQDPAFDLRSVVTFTLTPTPTGTHLREQSGFRPDQRRAYGGAKGWPQFFEKLEQLLD NRTVVVERQISHPPEKLWRALTQPHLIEEWLKNDFKPAVGHRFNISADWGGVLDCEVLAVEPNKTLSYTWNLAHQDPAFDLRSVVTFTLTPTPTGTHLREQSGFRPDQRRAYGGAKGWPQFFEKLEQLLDRTDL 3q64-a1-m1-cA_3q64-a1-m2-cA X-ray crystal structure of protein mll3774 from Mesorhizobium loti, Northeast Structural Genomics Consortium Target MlR405. Q98FH6 Q98FH6 1.5 X-RAY DIFFRACTION 79 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 152 152 ERSVVHSTFIIERLYPAPPSKVFFALGNADAKRRWFTDPDNPPGRFEDFRVGGKEVNAGGPKDGPIHVYTATYQDIVPDQRIVYSYDLFGETRISVSLATIQLFAEGEGTRLVLTEQGAFLDGHDTPSTREHGTGVLLDLLDAFLDKTTLEH ERSVVHSTFIIERLYPAPPSKVFFALGNADAKRRWFTDPDNPPGRFEDFRVGGKEVNAGGPKDGPIHVYTATYQDIVPDQRIVYSYDLFGETRISVSLATIQLFAEGEGTRLVLTEQGAFLDGHDTPSTREHGTGVLLDLLDAFLDKTTLEH 3q6a-a4-m1-cG_3q6a-a4-m1-cF X-ray crystal structure of the protein SSP2350 from Staphylococcus saprophyticus, Northeast structural genomics consortium target SyR116 Q49US3 Q49US3 1.8 X-RAY DIFFRACTION 69 1.0 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 342451 (Staphylococcus saprophyticus subsp. saprophyticus ATCC 15305 = NCTC 7292) 131 132 3q6a-a1-m1-cA_3q6a-a1-m1-cD 3q6a-a2-m1-cB_3q6a-a2-m1-cC 3q6a-a3-m1-cE_3q6a-a3-m1-cH DIITKQVDVPRETVFEAFVDPEKIGGFWFSSSSERWEQGKTITLRYEEYDAELNINIERVEDNQLIAFTWGAHPITIQFEESEAGTVVTTTEKDFDTQDVKQLLGQKEGWVYLSCLKVYLEHGVTIRAAIL DIITKQVDVPRETVFEAFVDPEKIGGFWFSSSSERWEQGKTITLRYEEYDAELNINIERVEDNQLIAFTWGAHPITIQFEESEAGTVVTTTEKDFDTQDVKQLLGQKEGWVYLSCLKVYLEHGVTIRAAILL 3q7e-a1-m1-cA_3q7e-a1-m2-cA Crystal Structure of rat Protein Arginine Methyltransferase 1 (PRMT1)M48L mutant Q63009 Q63009 2.2 X-RAY DIFFRACTION 76 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 313 313 1or8-a2-m1-cA_1or8-a2-m2-cA 1orh-a2-m1-cA_1orh-a2-m2-cA 1ori-a2-m1-cA_1ori-a2-m2-cA 6nt2-a1-m1-cA_6nt2-a1-m1-cD 6nt2-a2-m1-cB_6nt2-a2-m1-cC HFGIHEELLKDEVRTLTYRNSMFHNRHLFKDKVVLDVGSGTGILCMFAAKAGARKVIGIECSSISDYAVKIVKANKLDHVVTIIKGKVEEVELPVEKVDIIISEWMGYCLFYESMLNTVLHARDKWLAPDGLIFPDRATLYVTAIEDRQYKDYKIHWWENVYGFDMSCIKDVAIKEPLVDVVDPKQLVTNACLIKEVDIYTVKVEDLTFTSPFCLQVKRNDYVHALVAYFNIEFTRCHKRTGFSTSPESPYTHWKQTVFYMEDYLTVKTGEEIFGTIGMRPNAKNNRDLDFTIDLDFKGQLCELSCSTDYRMR HFGIHEELLKDEVRTLTYRNSMFHNRHLFKDKVVLDVGSGTGILCMFAAKAGARKVIGIECSSISDYAVKIVKANKLDHVVTIIKGKVEEVELPVEKVDIIISEWMGYCLFYESMLNTVLHARDKWLAPDGLIFPDRATLYVTAIEDRQYKDYKIHWWENVYGFDMSCIKDVAIKEPLVDVVDPKQLVTNACLIKEVDIYTVKVEDLTFTSPFCLQVKRNDYVHALVAYFNIEFTRCHKRTGFSTSPESPYTHWKQTVFYMEDYLTVKTGEEIFGTIGMRPNAKNNRDLDFTIDLDFKGQLCELSCSTDYRMR 3q7h-a1-m1-cJ_3q7h-a1-m1-cH Structure of the ClpP subunit of the ATP-dependent Clp Protease from Coxiella burnetii Q83DJ2 Q83DJ2 2.5 X-RAY DIFFRACTION 95 0.994 360115 (Coxiella burnetii RSA 331) 360115 (Coxiella burnetii RSA 331) 178 185 3q7h-a1-m1-cA_3q7h-a1-m1-cC 3q7h-a1-m1-cA_3q7h-a1-m1-cM 3q7h-a1-m1-cB_3q7h-a1-m1-cD 3q7h-a1-m1-cE_3q7h-a1-m1-cC 3q7h-a1-m1-cE_3q7h-a1-m1-cG 3q7h-a1-m1-cF_3q7h-a1-m1-cD 3q7h-a1-m1-cF_3q7h-a1-m1-cH 3q7h-a1-m1-cI_3q7h-a1-m1-cG 3q7h-a1-m1-cI_3q7h-a1-m1-cK 3q7h-a1-m1-cJ_3q7h-a1-m1-cL 3q7h-a1-m1-cK_3q7h-a1-m1-cM 3q7h-a1-m1-cL_3q7h-a1-m1-cN 3q7h-a1-m1-cN_3q7h-a1-m1-cB LVPVVEYDIYSRLLKDRVIFLVGQVEDHANLAIAQLFLESENPNKDINLYINSPGGAVTSAAIYDTQFVKPDVRTLCIGQAASAGALLLAGGAKGKRHCLPHSSVIHQVLGGYQGQGTDIQIHAKQTQRVSDQLNQILAKHTGKDIERVEKDTNRDYFLTPEEAVEYGLIDSIFKERP VPVVEQTSRGERAYDIYSRLLKDRVIFLVGQVEDHANLAIAQLFLESENPNKDINLYINSPGGAVTSAAIYDTQFVKPDVRTLCIGQAASAGALLLAGGAKGKRHCLPHSSVIHQVLGGYQGQGTDIQIHAKQTQRVSDQLNQILAKHTGKDIERVEKDTNRDYFLTPEEAVEYGLIDSIFKERP 3q7h-a1-m1-cJ_3q7h-a1-m1-cI Structure of the ClpP subunit of the ATP-dependent Clp Protease from Coxiella burnetii Q83DJ2 Q83DJ2 2.5 X-RAY DIFFRACTION 61 1.0 360115 (Coxiella burnetii RSA 331) 360115 (Coxiella burnetii RSA 331) 178 183 3q7h-a1-m1-cA_3q7h-a1-m1-cB 3q7h-a1-m1-cC_3q7h-a1-m1-cD 3q7h-a1-m1-cF_3q7h-a1-m1-cE 3q7h-a1-m1-cH_3q7h-a1-m1-cG 3q7h-a1-m1-cK_3q7h-a1-m1-cL 3q7h-a1-m1-cM_3q7h-a1-m1-cN LVPVVEYDIYSRLLKDRVIFLVGQVEDHANLAIAQLFLESENPNKDINLYINSPGGAVTSAAIYDTQFVKPDVRTLCIGQAASAGALLLAGGAKGKRHCLPHSSVIHQVLGGYQGQGTDIQIHAKQTQRVSDQLNQILAKHTGKDIERVEKDTNRDYFLTPEEAVEYGLIDSIFKERP LVPVVEQTERAYDIYSRLLKDRVIFLVGQVEDHANLAIAQLFLESENPNKDINLYINSPGGAVTSAAIYDTQFVKPDVRTLCIGQAASAGALLLAGGAKGKRHCLPHSSVIHQVLGGYQGQGTDIQIHAKQTQRVSDQLNQILAKHTGKDIERVEKDTNRDYFLTPEEAVEYGLIDSIFKERP 3q7r-a1-m1-cB_3q7r-a1-m1-cA 1.6A resolution structure of the ChxR receiver domain from Chlamydia trachomatis A0A0H3MDW1 A0A0H3MDW1 1.6 X-RAY DIFFRACTION 48 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 95 110 3q7s-a1-m1-cB_3q7s-a1-m1-cA PKHVLLVSEHWDLFFQTKELLNPEEYRCTIGQQYADLVVCEYSLLPREIRSPVLVLLDFFDEETSVDLLDRGFWYLIRPITPRILKSAISLFLSQ AGPKHVLLVSEHWDLFFQTKELLNPEEYRCTIGQQYKQELSADLVVCEYSLLPREIRSPKSLEGSFVLVLLDFFDEETSVDLLDRGFWYLIRPITPRILKSAISLFLSQH 3q7u-a1-m1-cA_3q7u-a1-m1-cB Structure of Mtb 2-C-methyl-D-erythritol 4-phosphate cytidyltransferase (IspD) complexed with CTP P9WKG9 P9WKG9 2.1 X-RAY DIFFRACTION 135 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 222 226 2xwn-a1-m1-cA_2xwn-a1-m1-cB 3okr-a1-m1-cA_3okr-a1-m1-cB 3okr-a2-m1-cC_3okr-a2-m1-cD 3q80-a1-m1-cA_3q80-a1-m1-cB GEVVAIVPAAGSGERLAVGVPKAFYQLDGQTLIERAVDGLLDSGVVDTVVVAVPADRTDEARQILGHRAMIVAGGSNRTDTVNLALTVLSGTAEPEFVLVHDAARALTPPALVARVVEALRDGYAAVVPVLPLSDTIKAVDANGVVLGTPERAGLRAVQTPQGFTTDLLLRSYQRGSLDEYTDDASLVEHIGGQVQVVDGDPLAFKITTKLDLLLAQAIVRG GEVVAIVPAAGSGERLAVGVPKAFYQLDGQTLIERAVDGLLDSGVVDTVVVAVPADRTDEARQILGHRAMIVAGGSNRTDTVNLALTVLSGTAEPEFVLVHDAARALTPPALVARVVEALRDGYAAVVPVLPLSDTIKAVDANGVVLGTPERAGLRAVQTPQGFTTDLLLRSYQRGSLDLPAAEYTDDASLVEHIGGQVQVVDGDPLAFKITTKLDLLLAQAIVRG 3q83-a3-m1-cB_3q83-a3-m1-cF Crystal structure of Staphylococcus aureus nucleoside diphosphate kinase Q5HFV4 Q5HFV4 2.5 X-RAY DIFFRACTION 77 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 149 149 3q83-a3-m1-cA_3q83-a3-m1-cD 3q83-a3-m1-cC_3q83-a3-m1-cE MERTFLMIKPDAVQRNLIGEVISRIERKGLKLVGGKLMQVPMELAETHYGEHQGKPFYNDLISFITSAPVFAMVVEGEDAVNVSRHIIGSTNPSEASPGSIRGDLGLTVGRNIIHGSDSLESAEREINLWFNENEITSYASPRDAWLYE MERTFLMIKPDAVQRNLIGEVISRIERKGLKLVGGKLMQVPMELAETHYGEHQGKPFYNDLISFITSAPVFAMVVEGEDAVNVSRHIIGSTNPSEASPGSIRGDLGLTVGRNIIHGSDSLESAEREINLWFNENEITSYASPRDAWLYE 3q83-a3-m1-cD_3q83-a3-m1-cE Crystal structure of Staphylococcus aureus nucleoside diphosphate kinase Q5HFV4 Q5HFV4 2.5 X-RAY DIFFRACTION 60 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 149 149 3q83-a1-m1-cA_3q83-a1-m1-cB 3q83-a1-m1-cA_3q83-a1-m1-cC 3q83-a1-m1-cB_3q83-a1-m1-cC 3q83-a2-m1-cD_3q83-a2-m1-cE 3q83-a2-m1-cD_3q83-a2-m1-cF 3q83-a2-m1-cE_3q83-a2-m1-cF 3q83-a3-m1-cA_3q83-a3-m1-cB 3q83-a3-m1-cA_3q83-a3-m1-cC 3q83-a3-m1-cB_3q83-a3-m1-cC 3q83-a3-m1-cD_3q83-a3-m1-cF 3q83-a3-m1-cE_3q83-a3-m1-cF 3q86-a1-m1-cA_3q86-a1-m2-cA 3q86-a1-m1-cA_3q86-a1-m3-cA 3q86-a1-m2-cA_3q86-a1-m3-cA 3q86-a2-m1-cB_3q86-a2-m2-cB 3q86-a2-m1-cB_3q86-a2-m3-cB 3q86-a2-m2-cB_3q86-a2-m3-cB 3q8u-a1-m1-cA_3q8u-a1-m1-cB 3q8u-a1-m1-cA_3q8u-a1-m1-cE 3q8u-a1-m1-cB_3q8u-a1-m1-cE 3q8u-a2-m1-cC_3q8u-a2-m1-cD 3q8u-a2-m1-cC_3q8u-a2-m1-cF 3q8u-a2-m1-cD_3q8u-a2-m1-cF MERTFLMIKPDAVQRNLIGEVISRIERKGLKLVGGKLMQVPMELAETHYGEHQGKPFYNDLISFITSAPVFAMVVEGEDAVNVSRHIIGSTNPSEASPGSIRGDLGLTVGRNIIHGSDSLESAEREINLWFNENEITSYASPRDAWLYE MERTFLMIKPDAVQRNLIGEVISRIERKGLKLVGGKLMQVPMELAETHYGEHQGKPFYNDLISFITSAPVFAMVVEGEDAVNVSRHIIGSTNPSEASPGSIRGDLGLTVGRNIIHGSDSLESAEREINLWFNENEITSYASPRDAWLYE 3q8i-a2-m1-cA_3q8i-a2-m2-cA Crystal structure of Anopheles Gambiae odorant binding protein 4 in complex with indole Q8T6R7 Q8T6R7 2 X-RAY DIFFRACTION 42 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 123 123 TMKQLTNSMDMMRQACAPKFKVEEAELHGLRKSIFPANPDKELKCYAMCIAQMAGTMTKKGEISFSKTMAQIEAMLPPEMKTMAKEALTHCKDTQTSYKDPCDKAYFSAKCAADFTPDTFMFP TMKQLTNSMDMMRQACAPKFKVEEAELHGLRKSIFPANPDKELKCYAMCIAQMAGTMTKKGEISFSKTMAQIEAMLPPEMKTMAKEALTHCKDTQTSYKDPCDKAYFSAKCAADFTPDTFMFP 3q8n-a2-m1-cB_3q8n-a2-m1-cD Crystal structure of 4-aminobutyrate transaminase from Mycobacterium smegmatis A0QQ04 A0QQ04 2.05 X-RAY DIFFRACTION 429 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 438 439 3q8n-a1-m1-cA_3q8n-a1-m1-cC TLTQERRLVTAIPGPISQELQARKQSAVAAGVGVTLPVYVVAAGGGVLADADGNQLIDFGSGIAVTTVGNSAPAVVDAVTQQVAAFTHTCFMVTPYEGYVKVAEHLNRLTPGDHEKRTALFNSGAEAVENAVKIARAYTRRQAVVVFDHAYHGRTNLTMAMTAKNQPYKHGFGPFANEVYRVPTSYPFRDGETDGAAAAAHALDLINKQVGADNVAAVVIEPVHGEGGFVVPAPGFLGALQKWCTDNGAVFVADEVQTGFARTGALFACEHENVVPDLIVTAKGIAGGLPLSAVTGRAEIMDGPQSGGLGGTYGGNPLACAAALAVIDTIERENLVARARAIGETMLSRLGALAAADPRIGEVRGRGAMIAVELVKPGTTEPDADLTKRVAAAAHAQGLVVLTCGTYGNVLRFLPPLSMPDHLLDEGLDILAAVFAEV TLTQERRLVTAIPGPISQELQARKQSAVAAGVGVTLPVYVVAAGGGVLADADGNQLIDFGSGIAVTTVGNSAPAVVDAVTQQVAAFTHTCFMVTPYEGYVKVAEHLNRLTPGDHEKRTALFNSGAEAVENAVKIARAYTRRQAVVVFDHAYHGRTNLTMAMTAKNQPYKHGFGPFANEVYRVPTSYPFRDGETDGAAAAAHALDLINKQVGADNVAAVVIEPVHGEGGFVVPAPGFLGALQKWCTDNGAVFVADEVQTGFARTGALFACEHENVVPDLIVTAKGIAGGLPLSAVTGRAEIMDGPQSGGLGGTYGGNPLACAAALAVIDTIERENLVARARAIGETMLSRLGALAAADPRIGEVRGRGAMIAVELVKPGTTEPDADLTKRVAAAAHAQGLVVLTCGTYGNVLRFLPPLSMPDHLLDEGLDILAAVFAEVK 3q91-a1-m1-cB_3q91-a1-m1-cA Crystal Structure of Human Uridine Diphosphate Glucose Pyrophosphatase (NUDT14) O95848 O95848 2.7 X-RAY DIFFRACTION 69 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 131 145 HDSVTVLLFNSSRRSLVLVKQAGVTVELCAGLVDQPGLSLEEVACKEAWEECGYHLAPSDLRRVATYWSGVSRQTMFYTEVTDAQRSGLIEVVHLPLEGAQAFADDPDIPKTLGVIFGVSWFLSQVAPNLD THDSVTVLLFNSSRRSLVLVKQFRPAVYAGEVEAGVTVELCAGLVDQPGLSLEEVACKEAWEECGYHLAPSDLRRVATYWSGTGSRQTMFYTEVTDAQRSGELIEVVHLPLEGAQAFADDPDIPKTLGVIFGVSWFLSQVAPNLD 3q94-a2-m1-cA_3q94-a2-m2-cA The crystal structure of fructose 1,6-bisphosphate aldolase from Bacillus anthracis str. 'Ames Ancestor' A0A6H3AA11 A0A6H3AA11 2.301 X-RAY DIFFRACTION 18 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 276 276 PLVSKELNKALEGKYAVGQFNNNLEWTQAILAAAEEEKSPVILGVSEGAARHTGFKTVVAVKALIEENITVPVAIHLDHGSSFEKCKEAIDAGFTSVIDASHHPFEENVETTKKVVEYAHARNVSVEAELGTVGGQEDDVIAEGVIYADPAECKHLVEATGIDCLAPALGSVHGPYKGEPNLGFAEEQVRDFTGVPLVLHGGTGIPTADIEKAISLGTSKINVNTENQIEFTKAVREVLNKDQEVYDPRKFIGPGRDAIKATVIGKIREFGSNGKA PLVSKELNKALEGKYAVGQFNNNLEWTQAILAAAEEEKSPVILGVSEGAARHTGFKTVVAVKALIEENITVPVAIHLDHGSSFEKCKEAIDAGFTSVIDASHHPFEENVETTKKVVEYAHARNVSVEAELGTVGGQEDDVIAEGVIYADPAECKHLVEATGIDCLAPALGSVHGPYKGEPNLGFAEEQVRDFTGVPLVLHGGTGIPTADIEKAISLGTSKINVNTENQIEFTKAVREVLNKDQEVYDPRKFIGPGRDAIKATVIGKIREFGSNGKA 3q94-a2-m2-cB_3q94-a2-m2-cA The crystal structure of fructose 1,6-bisphosphate aldolase from Bacillus anthracis str. 'Ames Ancestor' A0A6H3AA11 A0A6H3AA11 2.301 X-RAY DIFFRACTION 83 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 268 276 3q94-a1-m1-cB_3q94-a1-m1-cA 3q94-a2-m1-cB_3q94-a2-m1-cA PLVSKELNKALEGKYAVGQFNNNLEWTQAILAAAEEEKSPVILGVSEGAARHTGFKTVVAVKALIEENITVPVAIHLDHGSSFEKCKEAIDAGFTSVIDASHHPFEENVETTKKVVEYAHARNVSVEAELGTVGGGVIYADPAECKHLVEATGIDCLAPALGSVHGPYKGEPNLGFAEEQVRDFTGVPLVLHGGTGIPTADIEKAISLGTSKINVNTENQIEFTKAVREVLNKDQEVYDPRKFIGPGRDAIKATVIGKIREFGSNGKA PLVSKELNKALEGKYAVGQFNNNLEWTQAILAAAEEEKSPVILGVSEGAARHTGFKTVVAVKALIEENITVPVAIHLDHGSSFEKCKEAIDAGFTSVIDASHHPFEENVETTKKVVEYAHARNVSVEAELGTVGGQEDDVIAEGVIYADPAECKHLVEATGIDCLAPALGSVHGPYKGEPNLGFAEEQVRDFTGVPLVLHGGTGIPTADIEKAISLGTSKINVNTENQIEFTKAVREVLNKDQEVYDPRKFIGPGRDAIKATVIGKIREFGSNGKA 3q98-a1-m2-cA_3q98-a1-m3-cA Structure of ygeW encoded protein from E. coli Q46803 Q46803 2.001 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 366 366 3q98-a1-m1-cA_3q98-a1-m2-cA 3q98-a1-m1-cA_3q98-a1-m3-cA KTVNELIKDINSLTSHLHEKDFLLTWEQTPDELKQVLDVAAALKALRAENISTKVFNSGLGISVFRDRFSYASALNLLGLAQQDLDHGETVRETANISFCADAIGIRDDYLGAYREVGAALDDGYKQGVLPQRPALVNLQCDIDHPTQSADLAWLREHFGSLENLKGKKIATWAYSPSYGKPLSVPQGIIGLTRFGDVTLAHPEGYDLIPDVVEVAKNNAKASGGSFRQVTSEEAFKDADIVYPKSWAPYKVEERTELLRANDHEGLKALEKQCLAQNAQHKDWHCTEEELTRDGEALYHCLPADISGVSCKEGEVTEGVFEKYRIATYKEASWKPYIIAAILSRKYAKPGALLEQLLKEAQERVK KTVNELIKDINSLTSHLHEKDFLLTWEQTPDELKQVLDVAAALKALRAENISTKVFNSGLGISVFRDRFSYASALNLLGLAQQDLDHGETVRETANISFCADAIGIRDDYLGAYREVGAALDDGYKQGVLPQRPALVNLQCDIDHPTQSADLAWLREHFGSLENLKGKKIATWAYSPSYGKPLSVPQGIIGLTRFGDVTLAHPEGYDLIPDVVEVAKNNAKASGGSFRQVTSEEAFKDADIVYPKSWAPYKVEERTELLRANDHEGLKALEKQCLAQNAQHKDWHCTEEELTRDGEALYHCLPADISGVSCKEGEVTEGVFEKYRIATYKEASWKPYIIAAILSRKYAKPGALLEQLLKEAQERVK 3q9d-a1-m2-cB_3q9d-a1-m3-cB Crystal Structure of Cpn0803 from C. pneumoniae. Q9Z7A3 Q9Z7A3 2 X-RAY DIFFRACTION 37 1.0 83558 (Chlamydia pneumoniae) 83558 (Chlamydia pneumoniae) 175 175 3q9d-a1-m1-cA_3q9d-a1-m2-cA 3q9d-a1-m1-cA_3q9d-a1-m3-cA 3q9d-a1-m1-cB_3q9d-a1-m2-cB 3q9d-a1-m1-cB_3q9d-a1-m3-cB 3q9d-a1-m2-cA_3q9d-a1-m3-cA LELENVFLLLEGNLKRIFATPIGYTTFREFQNVVFNCANGQQEIANFFFEMLINGKLTQELAPQQKQAAHSLIAEFMMPIRVAKDIHERGEFINFITSDMLTQQERCIFLNRLARVDGQEFLLMTDVQNTCHLIRHLLARLLEAQKNPVGEKNLQEIQEEITSLKNHFDELTKAL LELENVFLLLEGNLKRIFATPIGYTTFREFQNVVFNCANGQQEIANFFFEMLINGKLTQELAPQQKQAAHSLIAEFMMPIRVAKDIHERGEFINFITSDMLTQQERCIFLNRLARVDGQEFLLMTDVQNTCHLIRHLLARLLEAQKNPVGEKNLQEIQEEITSLKNHFDELTKAL 3q9d-a1-m3-cA_3q9d-a1-m3-cB Crystal Structure of Cpn0803 from C. pneumoniae. Q9Z7A3 Q9Z7A3 2 X-RAY DIFFRACTION 191 0.994 83558 (Chlamydia pneumoniae) 83558 (Chlamydia pneumoniae) 175 175 3q9d-a1-m1-cA_3q9d-a1-m1-cB 3q9d-a1-m2-cA_3q9d-a1-m2-cB LELEDNVFLLLEGNLKRIFATPIGYTTFREFQNVVFNCANGQQEIANFFFEMLINGKLTQELAPQQKQAAHSLIAEFMMPIRVAKDIHERGEFINFITSDMLTQQERCIFLNRLARVDGQEFLLMTDVQNTCHLIRHLLARLLEAQKNPVGEKNLQEIQEEITSLKNHFDELTKA LELENVFLLLEGNLKRIFATPIGYTTFREFQNVVFNCANGQQEIANFFFEMLINGKLTQELAPQQKQAAHSLIAEFMMPIRVAKDIHERGEFINFITSDMLTQQERCIFLNRLARVDGQEFLLMTDVQNTCHLIRHLLARLLEAQKNPVGEKNLQEIQEEITSLKNHFDELTKAL 3q9h-a3-m1-cC_3q9h-a3-m1-cD LVFFA segment from Alzheimer's Amyloid-Beta displayed on 42-membered macrocycle scaffold 2.25 X-RAY DIFFRACTION 14 1.0 7 7 3q9h-a1-m1-cA_3q9h-a1-m1-cB 3q9h-a1-m1-cC_3q9h-a1-m1-cD 3q9h-a2-m1-cA_3q9h-a2-m1-cB LVFFALK LVFFALK 3q9h-a3-m1-cG_3q9h-a3-m1-cH LVFFA segment from Alzheimer's Amyloid-Beta displayed on 42-membered macrocycle scaffold 2.25 X-RAY DIFFRACTION 15 1.0 7 7 3q9h-a2-m1-cE_3q9h-a2-m1-cF LVFFALK LVFFALK 3q9i-a3-m1-cG_3q9i-a3-m1-cH LVFFA segment from Alzheimer's Amyloid-Beta displayed on 42-membered macrocycle scaffold, bromide derivative 1.99 X-RAY DIFFRACTION 10 1.0 6 6 3q9i-a2-m1-cE_3q9i-a2-m1-cF LVFALK LVFALK 3q9j-a2-m1-cE_3q9j-a2-m1-cF AIIFL segment derived from Alzheimer's Amyloid-Beta displayed on 42-membered macrocycle scaffold 2.55 X-RAY DIFFRACTION 14 1.0 7 7 3q9j-a1-m1-cC_3q9j-a1-m1-cD AIIFLYK AIIFLYK 3q9j-a2-m1-cG_3q9j-a2-m1-cH AIIFL segment derived from Alzheimer's Amyloid-Beta displayed on 42-membered macrocycle scaffold 2.55 X-RAY DIFFRACTION 12 1.0 7 7 3q9j-a1-m1-cA_3q9j-a1-m1-cB AIIFLYK AIIFLYK 3q9t-a2-m1-cB_3q9t-a2-m1-cC Crystal structure analysis of formate oxidase Q2UD26 Q2UD26 2.24 X-RAY DIFFRACTION 31 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 577 577 3q9t-a1-m1-cA_3q9t-a1-m2-cA ATDGSHFDFVIVGGGTAGNTVAGRLAENPNVTVLIVEAGIGNPEDIPEITTPSSAMDLRNSKYDWAYKTTMVRRDDYERIEKPNTRGKTLGGSSSLNYFTWVPGHKATFDQWEEFGGKEWTWDPLVPYLRKSATYHDDPRLYSPELEKIGGGGPIPISHAELIDEMAPFRENLTKAWKSMGQPLIENIYDGEMDGLTHCCDTIYRGQRSGSFLFVKNKPNITIVPEVHSKRLIINEADRTCKGVTVVTAAGNELNFFADREVILSQGVFETPKLLMLSGIGPTRELSRHGINTIVDSRHVGQNLMDHPGVPFVLRVKDGFGMDDVLLRHGPKRDAVVSAYNKNRSGPVGSGLLELVGFPRIDKYLEKDAEYRKAKAANGGKDPFSPLGQPHFELDFVCMFGTAFQWHFPTPKTGDHLTVVVDLVRPISDPGEVTLNSADPFQQPNINLNFFANDLDIIAMREGIRFSYDLLFKGEGFKDLVESEYPWEMPLDSDKEMHRAVLDRCQTAFHPTGTARLSKNIDQGVVDPKLKVHGIKKLRVADASVIPIIPDCRIQNSVYAVGEKCADMIKAEHKDLY ATDGSHFDFVIVGGGTAGNTVAGRLAENPNVTVLIVEAGIGNPEDIPEITTPSSAMDLRNSKYDWAYKTTMVRRDDYERIEKPNTRGKTLGGSSSLNYFTWVPGHKATFDQWEEFGGKEWTWDPLVPYLRKSATYHDDPRLYSPELEKIGGGGPIPISHAELIDEMAPFRENLTKAWKSMGQPLIENIYDGEMDGLTHCCDTIYRGQRSGSFLFVKNKPNITIVPEVHSKRLIINEADRTCKGVTVVTAAGNELNFFADREVILSQGVFETPKLLMLSGIGPTRELSRHGINTIVDSRHVGQNLMDHPGVPFVLRVKDGFGMDDVLLRHGPKRDAVVSAYNKNRSGPVGSGLLELVGFPRIDKYLEKDAEYRKAKAANGGKDPFSPLGQPHFELDFVCMFGTAFQWHFPTPKTGDHLTVVVDLVRPISDPGEVTLNSADPFQQPNINLNFFANDLDIIAMREGIRFSYDLLFKGEGFKDLVESEYPWEMPLDSDKEMHRAVLDRCQTAFHPTGTARLSKNIDQGVVDPKLKVHGIKKLRVADASVIPIIPDCRIQNSVYAVGEKCADMIKAEHKDLY 3q9v-a1-m1-cA_3q9v-a1-m2-cB Crystal structure of rra c-terminal domain(123-221) from Deinococcus radiodurans Q9RRR8 Q9RRR8 1.60174 X-RAY DIFFRACTION 144 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 98 99 ESLSMGDLTLDPQKRLVTYKGEELRLSPKEFDILALLIRQPGRVYSRQEIGQEIWQGRLPEGSNVVDVHMANLRAKLRDLDGYGLLRTVRGVGYALRG SESLSMGDLTLDPQKRLVTYKGEELRLSPKEFDILALLIRQPGRVYSRQEIGQEIWQGRLPEGSNVVDVHMANLRAKLRDLDGYGLLRTVRGVGYALRG 3qa8-a2-m1-cE_3qa8-a2-m1-cF Crystal Structure of inhibitor of kappa B kinase beta Q6INT1 Q6INT1 3.6 X-RAY DIFFRACTION 92 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 622 622 3qa8-a1-m1-cA_3qa8-a1-m1-cB 3qa8-a1-m1-cC_3qa8-a1-m1-cD EMKERLGTGGFGYVLRWIHQDTGEQVAIKQCRQELSPKNRERWCLEIQIMKKLNHPNVVSAREVPDGLQKLAPNDLPLLAMEYCEGGDLRKYLNQFENCCGLKEGPIRTLLSDISSALRYLHENRIIHRDLKPENIVLQPGPQRLIHKIIDLGYAKELDQGELCTEFVGTLQYLAPELLEQKKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHGKVRIVVYDDLTGAVKFSSVLPTPNHLSGILAGKLERWLQCMLMWHQRTDPQNPNVGCFQALDSILSLKLLSVMNMVSGRVHTYPVTENENLQNLKSWLQQDTGIPEEEQELLQASGLALNSAQPLTQYVIDCTVGDLIFLFDNRKISLPAHPESVSIVLQDPKRPLTYTHLRRVWGQIWQTIRALKEDCARLLQGQRTSMVNLLRYNTELSKKKNSMTSECEQLKAKLDFFRSSIQIDLEKYSEQMEFGITSEKLLSAWREMEQAVELCGREREVQALVDKMMALQTDSVDLQRNPTLDDLEEQARDLYRRLRERPRDQRTPGDSNDMVRLLILAIQSFEKRVILIYDQLSKTVVCKRKALELSPKVKEVMNLMREDEKIVVRRQEKRQQELWNLLKIACSKVR EMKERLGTGGFGYVLRWIHQDTGEQVAIKQCRQELSPKNRERWCLEIQIMKKLNHPNVVSAREVPDGLQKLAPNDLPLLAMEYCEGGDLRKYLNQFENCCGLKEGPIRTLLSDISSALRYLHENRIIHRDLKPENIVLQPGPQRLIHKIIDLGYAKELDQGELCTEFVGTLQYLAPELLEQKKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHGKVRIVVYDDLTGAVKFSSVLPTPNHLSGILAGKLERWLQCMLMWHQRTDPQNPNVGCFQALDSILSLKLLSVMNMVSGRVHTYPVTENENLQNLKSWLQQDTGIPEEEQELLQASGLALNSAQPLTQYVIDCTVGDLIFLFDNRKISLPAHPESVSIVLQDPKRPLTYTHLRRVWGQIWQTIRALKEDCARLLQGQRTSMVNLLRYNTELSKKKNSMTSECEQLKAKLDFFRSSIQIDLEKYSEQMEFGITSEKLLSAWREMEQAVELCGREREVQALVDKMMALQTDSVDLQRNPTLDDLEEQARDLYRRLRERPRDQRTPGDSNDMVRLLILAIQSFEKRVILIYDQLSKTVVCKRKALELSPKVKEVMNLMREDEKIVVRRQEKRQQELWNLLKIACSKVR 3qa8-a2-m1-cH_3qa8-a2-m1-cE Crystal Structure of inhibitor of kappa B kinase beta Q6INT1 Q6INT1 3.6 X-RAY DIFFRACTION 12 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 541 622 3qa8-a1-m1-cA_3qa8-a1-m1-cD 3qa8-a1-m1-cB_3qa8-a1-m1-cC 3qa8-a2-m1-cG_3qa8-a2-m1-cF EMKERLGTGGFGYVLRWIHQDTGEQVAIKQCRQELSPKNRERWCLEIQIMKKLNHPNVVSAREVPDGLQKLAPNDLPLLAMEYCEGGDLRKYLNQFENCCGLKEGPIRTLLSDISSALRYLHENRIIHRDLKPENIVLQPGPQRLIHKIIDLGYAKELDQGELCTEFVGTLQYLAPELLEQKKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHGKVRIVVYDDLTGAVKFSSVLPTPNHLSGILAGKLERWLQCMLMWHQRTDPQNPNVGCFQALDSILSLKLLSVMNMVSGRVHTYPVTENENLQNLKSWLQQDTGIPEEEQELLQASGLALNSAQPLTQYVIDCTVGDLIFLFDNRKISLPAHPESVSIVLQDPKRPLTYTHLRRVWGQIWQTIRALKEDCARLLQGQRTSMVNLLRYNTELSKKKNSMTSEREVQALVDKMMALQTDSVDLQRNPTLDDLEEQARDLYRRLRERPRDQRTPGDSNDMVRLLILAIQSFEKRVILIYDQLSKTVVCKRKALELSPKVKEVMNLMR EMKERLGTGGFGYVLRWIHQDTGEQVAIKQCRQELSPKNRERWCLEIQIMKKLNHPNVVSAREVPDGLQKLAPNDLPLLAMEYCEGGDLRKYLNQFENCCGLKEGPIRTLLSDISSALRYLHENRIIHRDLKPENIVLQPGPQRLIHKIIDLGYAKELDQGELCTEFVGTLQYLAPELLEQKKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHGKVRIVVYDDLTGAVKFSSVLPTPNHLSGILAGKLERWLQCMLMWHQRTDPQNPNVGCFQALDSILSLKLLSVMNMVSGRVHTYPVTENENLQNLKSWLQQDTGIPEEEQELLQASGLALNSAQPLTQYVIDCTVGDLIFLFDNRKISLPAHPESVSIVLQDPKRPLTYTHLRRVWGQIWQTIRALKEDCARLLQGQRTSMVNLLRYNTELSKKKNSMTSECEQLKAKLDFFRSSIQIDLEKYSEQMEFGITSEKLLSAWREMEQAVELCGREREVQALVDKMMALQTDSVDLQRNPTLDDLEEQARDLYRRLRERPRDQRTPGDSNDMVRLLILAIQSFEKRVILIYDQLSKTVVCKRKALELSPKVKEVMNLMREDEKIVVRRQEKRQQELWNLLKIACSKVR 3qac-a1-m2-cA_3qac-a1-m3-cA Structure of amaranth 11S proglobulin seed storage protein from Amaranthus hypochondriacus L. Q38712 Q38712 2.275 X-RAY DIFFRACTION 189 1.0 28502 (Amaranthus hypochondriacus) 28502 (Amaranthus hypochondriacus) 372 372 3qac-a1-m1-cA_3qac-a1-m2-cA 3qac-a1-m1-cA_3qac-a1-m3-cA QGNECQIDRLTALEPTNRIQAERGLTEVWDSNEQEFRCAGVSVIRRTIEPHGLLLPSFTSAPELIYIEQGNGITGMMIPGCPETYQDQHQKIRHLREGDIFAMPAGVSHWAYNNGDQPLVAVILIDTANHANQLDKNFPTRFYLAGKPQQEHSNTGNIFRGFETRLLAESFGVSEEIAQKLQAEQDDRGNIVRVEGLHTICSARLAVNVDDPSKADVYTPEAGRLTTVNSFNLPILRHLRLSAAKGVLYRNAMMAPHYNLNAHNIMYCVRGRGRIQIVNDQGQSVFDEELSRGQLVVVPQNFAIVKQAFEDGFEWVSFKTSENAMFQSLAGRTSAIRSLPIDVVSNIYQISREEAFGLKFNRPETTLFRSSG QGNECQIDRLTALEPTNRIQAERGLTEVWDSNEQEFRCAGVSVIRRTIEPHGLLLPSFTSAPELIYIEQGNGITGMMIPGCPETYQDQHQKIRHLREGDIFAMPAGVSHWAYNNGDQPLVAVILIDTANHANQLDKNFPTRFYLAGKPQQEHSNTGNIFRGFETRLLAESFGVSEEIAQKLQAEQDDRGNIVRVEGLHTICSARLAVNVDDPSKADVYTPEAGRLTTVNSFNLPILRHLRLSAAKGVLYRNAMMAPHYNLNAHNIMYCVRGRGRIQIVNDQGQSVFDEELSRGQLVVVPQNFAIVKQAFEDGFEWVSFKTSENAMFQSLAGRTSAIRSLPIDVVSNIYQISREEAFGLKFNRPETTLFRSSG 3qae-a1-m1-cA_3qae-a1-m2-cA 3-hydroxy-3-methylglutaryl-coenzyme A reductase of Streptococcus pneumoniae Q8DNS5 Q8DNS5 2.3 X-RAY DIFFRACTION 351 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 370 370 3qau-a1-m1-cA_3qau-a1-m2-cA 5wpj-a2-m1-cC_5wpj-a2-m1-cD 5wpk-a1-m1-cA_5wpk-a1-m1-cB ISWNGFSKKSYQERLELLKAQALLSPERQASLEKDEQMSVTVADQLSENVVGTFSLPYSLVPEVLVNGQEYTVPYVTEEPSVVAAASYASKIIKRAGGFTTQVHQRQMIGQVALYQVANPKLAQEKIASKKAELLELANQAYPSIVKRGGGARDLHVEQIKGEPDFLVVYIHVDTQEAMGANMLNTMLEALKPVLEELSQGQSLMGILSNYATDSLVTASCRIAFRYLSRQKDQGREIAEKIALASQFAQADPYRAATHNKGIFNGIDAILIATGNDWRAIEAGAHAFASRDGRYQGLSCWTLDLEREELVGEMTLPMPVATKGSSIGLNPRVALSHDLLGNPSARELAQIIVSIGLAQNFAALKALVST ISWNGFSKKSYQERLELLKAQALLSPERQASLEKDEQMSVTVADQLSENVVGTFSLPYSLVPEVLVNGQEYTVPYVTEEPSVVAAASYASKIIKRAGGFTTQVHQRQMIGQVALYQVANPKLAQEKIASKKAELLELANQAYPSIVKRGGGARDLHVEQIKGEPDFLVVYIHVDTQEAMGANMLNTMLEALKPVLEELSQGQSLMGILSNYATDSLVTASCRIAFRYLSRQKDQGREIAEKIALASQFAQADPYRAATHNKGIFNGIDAILIATGNDWRAIEAGAHAFASRDGRYQGLSCWTLDLEREELVGEMTLPMPVATKGSSIGLNPRVALSHDLLGNPSARELAQIIVSIGLAQNFAALKALVST 3qan-a2-m1-cC_3qan-a2-m2-cC Crystal structure of 1-pyrroline-5-carboxylate dehydrogenase from bacillus halodurans Q9K9B2 Q9K9B2 1.95 X-RAY DIFFRACTION 177 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 515 515 3qan-a1-m1-cA_3qan-a1-m1-cB LQPYKHEPFTDFTVEANRKAFEEALGLVEKELGKEYPLIINGERVTTEDKIQSWNPARKDQLVGSVSKANQDLAEKAIQSADEAFQTWRNVNPEERANILVKAAAIIRRRKHEFSAWLVHEAGKPWKEADADTAEAIDFLEYYARQMIELNRGKEILSRPGEQNRYFYTPMGVTVTISPWNFALAIMVGTAVAPIVTGNTVVLKPASTTPVVAAKFVEVLEDAGLPKGVINYVPGSGAEVGDYLVDHPKTSLITFTGSKDVGVRLYERAAVVRPGQNHLKRVIVEMGGKDTVVVDRDADLDLAAESILVSAFGFSGQKCSAGSRAVIHKDVYDEVLEKTVALAKNLTVGDPTNRDNYMGPVIDEKAFEKIMSYIEIGKKEGRLMTGGEGDSSTGFFIQPTIIADLDPEAVIMQEEIFGPVVAFSKANDFDHALEIANNTEYGLTGAVITRNRAHIEQAKREFHVGNLYFNRNCTGAIVGYHPFGGFKMSGTDSKAGGPDYLALHMQAKTVSEMYA LQPYKHEPFTDFTVEANRKAFEEALGLVEKELGKEYPLIINGERVTTEDKIQSWNPARKDQLVGSVSKANQDLAEKAIQSADEAFQTWRNVNPEERANILVKAAAIIRRRKHEFSAWLVHEAGKPWKEADADTAEAIDFLEYYARQMIELNRGKEILSRPGEQNRYFYTPMGVTVTISPWNFALAIMVGTAVAPIVTGNTVVLKPASTTPVVAAKFVEVLEDAGLPKGVINYVPGSGAEVGDYLVDHPKTSLITFTGSKDVGVRLYERAAVVRPGQNHLKRVIVEMGGKDTVVVDRDADLDLAAESILVSAFGFSGQKCSAGSRAVIHKDVYDEVLEKTVALAKNLTVGDPTNRDNYMGPVIDEKAFEKIMSYIEIGKKEGRLMTGGEGDSSTGFFIQPTIIADLDPEAVIMQEEIFGPVVAFSKANDFDHALEIANNTEYGLTGAVITRNRAHIEQAKREFHVGNLYFNRNCTGAIVGYHPFGGFKMSGTDSKAGGPDYLALHMQAKTVSEMYA 3qao-a1-m1-cA_3qao-a1-m2-cA The crystal structure of the N-terminal domain of a MerR-like transcriptional regulator from Listeria monocytogenes EGD-e Q8Y9K1 Q8Y9K1 1.874 X-RAY DIFFRACTION 121 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 136 136 SNAQIKELAELTGVSVRTLHHYDKIGLLVPQKDDWNGYRIYSEKDVDKLQQILFFKELDFPLKKIQQILDDPLFDKNVALDQRHLLIEKKQRIETLATLDLTIKNEKGEITTNKEKFTGFDFSSNPYEEEARKLWG SNAQIKELAELTGVSVRTLHHYDKIGLLVPQKDDWNGYRIYSEKDVDKLQQILFFKELDFPLKKIQQILDDPLFDKNVALDQRHLLIEKKQRIETLATLDLTIKNEKGEITTNKEKFTGFDFSSNPYEEEARKLWG 3qat-a3-m1-cB_3qat-a3-m1-cA Crystal structure of acyl-carrier-protein-S-malonyltransferase from Bartonella henselae A0A0H3M584 A0A0H3M584 1.6 X-RAY DIFFRACTION 59 1.0 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 313 314 GAAFTFPGQGSQLIGMGKVLTEQFVAARMVFEEVDDALSEKLSDIIFEGPADVLTLTANAQPALMAVSMAVIRVMEQLGLNVEKKVKFVAGHSLGEYSALCAAGTFSLTDTARLLRIRGNAMQAAVAVGEGSMAALIGLDEKDVEEICEIVAEEGLCQIANDNGGGQIVISGEAKAVETAVEVASQKGAKRAVLLPVSAPFHSALMQPAANAMKNALLTVNKTAPIVPLIANVSVIPESDPERIVSLLVQQVTGRVRWRETIEWISANGVNTLFEIGSGKVLTGLARRINKDIKALTVGTAEEIEAALRVLGV MGAAFTFPGQGSQLIGMGKVLTEQFVAARMVFEEVDDALSEKLSDIIFEGPADVLTLTANAQPALMAVSMAVIRVMEQLGLNVEKKVKFVAGHSLGEYSALCAAGTFSLTDTARLLRIRGNAMQAAVAVGEGSMAALIGLDEKDVEEICEIVAEEGLCQIANDNGGGQIVISGEAKAVETAVEVASQKGAKRAVLLPVSAPFHSALMQPAANAMKNALLTVNKTAPIVPLIANVSVIPESDPERIVSLLVQQVTGRVRWRETIEWISANGVNTLFEIGSGKVLTGLARRINKDIKALTVGTAEEIEAALRVLGV 3qav-a1-m1-cA_3qav-a1-m2-cA Crystal structure of a glutathione S-transferase from Antarctic clam Laternula elliptica B9VX79 B9VX79 2.1 X-RAY DIFFRACTION 74 1.0 228457 (Laternula elliptica) 228457 (Laternula elliptica) 219 219 3qaw-a1-m1-cA_3qaw-a1-m2-cA SKPFVYWGSGSPPCWKVLLVLQEKKIDYDEKIISFSKKEHKSEEILELNPRGQVPTFTDGDVVVNESTAICMYLEEKYPKVPLFPSDTTIRAKVYQRMFETSNISTNVMEFVQYKMKNKDSIDQVLLKEKKDKAHVELGHWENYLKQTGGFVATKEFTMADVFFFPMVALIVRQGANLKDSYPNIFKYYNMMMDRPTIVKTMPPHWAESDSPGNLLDLC SKPFVYWGSGSPPCWKVLLVLQEKKIDYDEKIISFSKKEHKSEEILELNPRGQVPTFTDGDVVVNESTAICMYLEEKYPKVPLFPSDTTIRAKVYQRMFETSNISTNVMEFVQYKMKNKDSIDQVLLKEKKDKAHVELGHWENYLKQTGGFVATKEFTMADVFFFPMVALIVRQGANLKDSYPNIFKYYNMMMDRPTIVKTMPPHWAESDSPGNLLDLC 3qb2-a7-m2-cD_3qb2-a7-m1-cB The Crystal Structure of Immunity Factor for SPN (IFS) Q2VJ58 Q2VJ58 2.5 X-RAY DIFFRACTION 36 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 151 165 3qb2-a7-m1-cA_3qb2-a7-m2-cC YKVPKGLEHYQKFQKEVTVNDLKKYLIGSDKEYRITRRDSYGDISDPEVILEYGVYPAFIKGYTQLKANIEEALLESNSGQALDIYQAVQTLNAENLLNYYESLPFYLNRQSILANITKALKDAHIREAAHYKLGEFAHYQDTLDVERTIE YKVPKGLEHYQKFQKEVTVNDLKKYLIGSDKEYRITRRDSYGDISDPEVILEYGVYPAFIKGYTQLKANIEEALLESNSGQALDIYQAVQTLNAENLLNYYESLPFYLNRQSILANITKALKDAHIREAAHYKLGEFAHYQDTLDVERTIETFFRSFLEQKLISE 3qb2-a7-m2-cD_3qb2-a7-m2-cC The Crystal Structure of Immunity Factor for SPN (IFS) Q2VJ58 Q2VJ58 2.5 X-RAY DIFFRACTION 53 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 151 156 3qb2-a5-m1-cA_3qb2-a5-m1-cB 3qb2-a6-m1-cD_3qb2-a6-m1-cC 3qb2-a7-m1-cA_3qb2-a7-m1-cB YKVPKGLEHYQKFQKEVTVNDLKKYLIGSDKEYRITRRDSYGDISDPEVILEYGVYPAFIKGYTQLKANIEEALLESNSGQALDIYQAVQTLNAENLLNYYESLPFYLNRQSILANITKALKDAHIREAAHYKLGEFAHYQDTLDVERTIE YKVPKGLEHYQKFQKEVTVNDLKKYLIGSDKEYRITRRDSYGDISDPEVILEYGVYPAFIKGYTQLKANIEEALLESNSGQALDIYQAVQTLNAENLLNYYESLPFYLNRQSILANITKALKDAHIREAAHYKLGEFAHYQDTLDVERTIETFFRS 3qb5-a1-m1-cK_3qb5-a1-m2-cK Human C3PO complex in the presence of MnSO4 Q99598 Q99598 2.95 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 222 222 3pja-a1-m1-cK_3pja-a1-m1-cL SSSPVMLAFKSFQQELDARHDKYERLVKLSRDITVESKRTIFLLHRITSAPDMEDILTESEIKLDGVRQKIFQVAQELSGEDMHQFHRAITTGLQEYVEAVSFQHFIKTRSLISMDEINKQLIFTTTWRLRVTPVDYLLGVADLTGELMRMCINSVGNGDIDTPFEVSQFLRQVYDGFSFIGNTGPYEVSKKLYTLKQSLAKVENACYALKVRGSEIPKHML SSSPVMLAFKSFQQELDARHDKYERLVKLSRDITVESKRTIFLLHRITSAPDMEDILTESEIKLDGVRQKIFQVAQELSGEDMHQFHRAITTGLQEYVEAVSFQHFIKTRSLISMDEINKQLIFTTTWRLRVTPVDYLLGVADLTGELMRMCINSVGNGDIDTPFEVSQFLRQVYDGFSFIGNTGPYEVSKKLYTLKQSLAKVENACYALKVRGSEIPKHML 3qbc-a3-m1-cA_3qbc-a3-m1-cB Structure and design of a new pterin site inhibitor of S. aureus HPPK A0A0H3JXR3 A0A0H3JXR3 1.65 X-RAY DIFFRACTION 35 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 160 161 SHMIQAYLGLGSNIGDRESQLNDAIKILNEYDGISVSNISPIYETAPVGYTEQPNFLNLCVEIQTTLTVLQLLECCLKTEECLHRIRKERWGPRTLDVDILLYGEEMIDLPKLSVPHPRMNERAFVLIPLNDIAANVVEPRSKLKVKDLVFVDDSVKRYK GSHMIQAYLGLGSNIGDRESQLNDAIKILNEYDGISVSNISPIYETAPVGYTEQPNFLNLCVEIQTTLTVLQLLECCLKTEECLHRIRKERWGPRTLDVDILLYGEEMIDLPKLSVPHPRMNERAFVLIPLNDIAANVVEPRSKLKVKDLVFVDDSVKRYK 3qbd-a1-m1-cB_3qbd-a1-m1-cA 3-Dehydroquinate Synthase (aroB) from Mycobacterium tuberculosis in complex with NAD P9WPX9 P9WPX9 2.47 X-RAY DIFFRACTION 70 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 342 344 APVTVQVAVDPPYPVVIGTGLLDELEDLLADRHKVAVVHQPGLAETAEEIRKRLAGKGVDAHRIEIPDAEAGKDLPVVGFIWEVLGRIGIGRKDALVSLGGGAATDVAGFAAATWLRGVSIVHLPTTLLGMVDAAVGGKTGINTDAGKNLVGAFHQPLAVLVDLATLQTLPRDEMICGMAEVVKAGFIADPVILDLIEADPQAALDPAGDVLPELIRRAITVKAEVVAAELREILNYGHTLGHAIERRERYRWRHGAAVSVGLVFAAELARLAGRLDDATAQRHRTILSSLGLPVSYDPDALPQLLEIMAVLRFVVLDGLAKPGRMVGPDPGLLVTAYAGVC APVTVQVAVDPPYPVVIGTGLLDELEDLLADRHKVAVVHQPGLAETAEEIRKRLAGKGVDAHRIEIPDAEAGKDLPVVGFIWEVLGRIGIGRKDALVSLGGGAATDVAGFAAATWLRGVSIVHLPTTLLGMVDAAVGGKTGINTDAGKNLVGAFHQPLAVLVDLATLQTLPRDEMICGMAEVVKAGFIADPVILDLIEADPQAALDPAGDVLPELIRRAITVKAEVVAAELREILNYGHTLGHAIERRERYRWRHGAAVSVGLVFAAELARLAGRLDDATAQRHRTILSSLGLPVSYDPDALPQLLEIMAGVLRFVVLDGLAKPGRMVGPDPGLLVTAYAGVCA 3qbm-a1-m1-cB_3qbm-a1-m1-cA Crystal structure of a TetR transcriptional regulator (Caur_2221) from CHLOROFLEXUS AURANTIACUS J-10-FL at 1.80 A resolution A9WFT0 A9WFT0 1.8 X-RAY DIFFRACTION 109 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 193 194 RKGQETRERVVAQAAALFNVSGYAGTAISDIAATGLEKGGIYRHFESKEQLALAAFDYAAEKVRERFAVGLAGHKHTVDTIIAFLDVFRSYAERPPLVGGCPILNTAIESDDTNPLRERVRAVIDEWRETIRTLVQTGIARGEIRPEVDADRLALLIIATEGAVLARILETATPLEHAYTHLATYITQQVRLA GRKGQETRERVVAQAAALFNVSGYAGTAISDIAATGLEKGGIYRHFESKEQLALAAFDYAAEKVRERFAVGLAGHKHTVDTIIAFLDVFRSYAERPPLVGGCPILNTAIESDDTNPLRERVRAVIDEWRETIRTLVQTGIARGEIRPEVDADRLALLIIATEGAVLARILETATPLEHAYTHLATYITQQVRLA 3qbo-a1-m1-cA_3qbo-a1-m1-cB Crystal structure of phosphoserine aminotransferase from Yersinia pestis CO92 2.36 X-RAY DIFFRACTION 189 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 358 359 QVYNFSAGPAMLPVEVLRRAQQELRDWHGLGTSVMEVSHRSKEFMQVAEESEKDLRDLLNVPANYKVLFCHGGARAQFAAVPLNLLGDRNSADYVDGGYWAHSAIKEAQKYCTPNVIDVTTHDNGLTGIQPMKQWKLSDNAAYVHYCPNETIDGIAIDEQPDFGNKVVVADFSSSILSRPIDVSRYGVIYAGAQKNIGPAGLTLVIVREDLLGKAHTALPSILDYKILADNDSMFNTPPTFAWYLSGLVFKWLKEQGGLGEMEKRNQAKAELLYGAIDRTGFYRNDVAITNRSWMNVPFQMADASLDKLFLSEAEAQGLQALKGHRVAGGMRASIYNAMPIEGVKALTDFMADFERRH QVYNFSAGPAMLPVEVLRRAQQELRDWHGLGTSVMEVSHRSKEFMQVAEESEKDLRDLLNVPANYKVLFCHGGARAQFAAVPLNLLGDRNSADYVDGGYWAHSAIKEAQKYCTPNVIDVTTHDNGLTGIQPMKQWKLSDNAAYVHYCPNETIDGIAIDEQPDFGNKVVVADFSSSILSRPIDVSRYGVIYAGAQKNIGPAGLTLVIVREDLLGKAHTALPSILDYKILADNDSMFNTPPTFAWYLSGLVFKWLKEQGGLGEMEKRNQAKAELLYGAIDRTGFYRNDVAITNRSWMNVPFQMADASLDKLFLSEAEAQGLQALKGHRVAGGMRASIYNAMPIEGVKALTDFMADFERRHG 3qby-a1-m1-cB_3qby-a1-m1-cA Crystal structure of the PWWP domain of human Hepatoma-derived growth factor 2 Q7Z4V5 Q7Z4V5 1.95 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 93 AFKPGDLVFAKMKGYPHWPARIDDPPPNKYPIFFFGTHETAFLGPKDLFPYDKCKDKYGKPNKRKGFNEGLWEIQNNPHASYS MPHAFKPGDLVFAKMKGYPHWPARIDDIADGAVKPPPNKYPIFFFGTHETAFLGPKDLFPYDKCKDKYGKPNKRKGFNEGLWEIQNNPHASYS 3qby-a1-m1-cC_3qby-a1-m1-cA Crystal structure of the PWWP domain of human Hepatoma-derived growth factor 2 Q7Z4V5 Q7Z4V5 1.95 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 93 FKPGDLVFAKMKGYPHWPARIDPPNKYPIFFFGTHETAFLGPKDLFPYDKCKDKYGKPNKRKGFNEGLWEIQNNPH MPHAFKPGDLVFAKMKGYPHWPARIDDIADGAVKPPPNKYPIFFFGTHETAFLGPKDLFPYDKCKDKYGKPNKRKGFNEGLWEIQNNPHASYS 3qbz-a2-m1-cA_3qbz-a2-m2-cA Crystal structure of the Rad53-recognition domain of Saccharomyces cerevisiae Dbf4 P32325 P32325 2.692 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 123 123 KNVEPRVTPKELLEWQTNWKKIMKRDSRIYFDITDDVEMNTYNKSKMDKRRDLLKRGFLTLGAQITQFFDTTVTIVITRRSVENIYLLKDTDILSRAKKNYMKVWSYEKAARFLKNLDVDLDH KNVEPRVTPKELLEWQTNWKKIMKRDSRIYFDITDDVEMNTYNKSKMDKRRDLLKRGFLTLGAQITQFFDTTVTIVITRRSVENIYLLKDTDILSRAKKNYMKVWSYEKAARFLKNLDVDLDH 3qc0-a1-m1-cA_3qc0-a1-m2-cA Crystal structure of a sugar isomerase (SMc04130) from SINORHIZOBIUM MELILOTI 1021 at 1.45 A resolution Q92T58 Q92T58 1.45 X-RAY DIFFRACTION 69 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 267 267 3ju2-a1-m1-cA_3ju2-a1-m2-cA QVEGLSINLATIREQCGFAEAVDICLKHGITAIAPWRDQVAAIGLGEAGRIVRANGLKLTGLCRGGFFPAPDASGREKAIDDNRRAVDEAAELGADCLVLVAGGLPGGSKNIDAARRVVEGIAAVLPHARAAGVPLAIEPLHPYAADRACVNTLGQALDICETLGPGVGVAIDVYHVWWDPDLANQIARAGKKAILAHHICDWLVPTKDLTDRGGDGVIDLKGIRRRIEAAGFHGAQEVEIFSADNWWKRPADEVIATCVERYRNCC QVEGLSINLATIREQCGFAEAVDICLKHGITAIAPWRDQVAAIGLGEAGRIVRANGLKLTGLCRGGFFPAPDASGREKAIDDNRRAVDEAAELGADCLVLVAGGLPGGSKNIDAARRVVEGIAAVLPHARAAGVPLAIEPLHPYAADRACVNTLGQALDICETLGPGVGVAIDVYHVWWDPDLANQIARAGKKAILAHHICDWLVPTKDLTDRGGDGVIDLKGIRRRIEAAGFHGAQEVEIFSADNWWKRPADEVIATCVERYRNCC 3qc9-a2-m1-cB_3qc9-a2-m1-cC Crystal structure of cross-linked bovine GRK1 T8C/N480C double mutant complexed with ADP and Mg P28327 P28327 2.7 X-RAY DIFFRACTION 47 0.99 9913 (Bos taurus) 9913 (Bos taurus) 481 482 3c4w-a1-m1-cA_3c4w-a1-m1-cB 3c4x-a1-m1-cB_3c4x-a1-m1-cA 3c4y-a1-m1-cB_3c4y-a1-m1-cA 3c4z-a1-m1-cA_3c4z-a1-m2-cA 3c50-a1-m1-cB_3c50-a1-m1-cA 3c51-a1-m1-cB_3c51-a1-m1-cA 3qc9-a1-m1-cA_3qc9-a1-m1-cD 4l9i-a1-m1-cB_4l9i-a1-m1-cA 4pni-a1-m1-cA_4pni-a1-m2-cA RDRKYLARLKLPPLSKCEALRESLDLGFEGMCLEQPIGKRLFQQFLRTHEQHGPALQLWKDIEDYDTADDALRPQKAQALRAAYLEPQAQLFCSFLDAETVARARAGAGDGLFQPLLRAVLAHLGQAPFQEFLDSLYFLRFLQWKWLEAQPMGEDWFLDFRVLGRGGFGEVFACQMKATGKLYACKKLNKKRLKKRKGYQGAMVEKKILAKVHSRFIVSLAYAFETKTDLCLVMTIMNGGDIRYHIYNVDEDNPGFQEPRAIFYTAQIVSGLEHLHQRNIIYRDLKPENVLLDDDGNVRISDLGLAVELKAGQTKTKGYAGTPGFMAPELLLGEEYDFSVDYFALGVTLYEMIAARGPFRARGEKVENKELKQRVLEQAVTYPDKFSPASKDFCEALLQKDPEKRLGFRDGSCDGLRTHPLFRDISWRQLEAGMLTPPFVPDFEKADTEFFQEFASGTCPIPWQEEMIETGVFGDLNVWRP RDRKYLARLKLPPLSKCEALRESLDLGFEGMCLEQPIGKRLFQQFLRTHEQHGPALQLWKDIEDYDTADDALRPQKAQALRAAYLEPQAQLFCSFLDAETVARARALFQPLLRAVLAHLGQAPFQEFLDSLYFLRFLQWKWLEAQPMGEDWFLDFRVLGRGGFGEVFACQMKATGKLYACKKLNKKRLKKRKGYQGAMVEKKILAKVHSRFIVSLAYAFETKTDLCLVMTIMNGGDIRYHIYNVDEDNPGFQEPRAIFYTAQIVSGLEHLHQRNIIYRDLKPENVLLDDDGNVRISDLGLAVELKAGQTKTKGYAGTPGFMAPELLLGEEYDFSVDYFALGVTLYEMIAARGPFRARGEKVENKELKQRVLEQAVTYPDKFSPASKDFCEALLQKDPEKRLGFRDGSCDGLRTHPLFRDISWRQLEAGMLTPPFVPDSVKGVAFEKADTEFFQEFASGTCPIPWQEEMIETGVFGDLNVWRP 3qde-a1-m1-cA_3qde-a1-m1-cB The structure of Cellobiose phosphorylase from Clostridium thermocellum in complex with phosphate Q8VP44 Q8VP44 2.4 X-RAY DIFFRACTION 174 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 811 811 MKFGFFDDANKEYVITVPRTPYPWINYLGTENFFSLISNTAGGYCFYRDARLRRITRYRYNNVPIDMGGRYFYIYDNGDFWSPGWSPVKRELESYECRHGLGYTKIAGKRNGIKAEVTFFVPLNYNGEVQKLILKNEGQDKKKITLFSFIEFCLWNAYDDMTNFQRNFSTGEVEIEGSVIYHKTEYRERRNHYAFYSVNAKISGFDSDRDSFIGLYNGFDAPQAVVNGKSNNSVADGWAPIASHSIEIELNPGEQKEYVFIIGYVENKDEEKWESKGVINKKKAYEMIEQFNTVEKVDKAFEELKSYWNALLSKYFLESHDEKLNRMVNIWNQYQCMVTFNMSRSASYFESGIGRGMGFRDSNQDLLGFVHQIPERARERLLDLAATQLEDGSAYHQYQPLTKKGNNEIGSNFNDDPLWLILATAAYIKETGDYSILKEQVPFNNDPSKADTMFEHLTRSFYHVVNNLGPHGLPLIGRADWNDCLNLNCFSTVPDESFQTTTSKDGKVAESVMIAGMFVFIGKDYVKLCEYMGLEEEARKAQQHIDAMKEAILKYGYDGEWFLRAYDDFGRKVGSKENEEGKIFIESQGFCVMAEIGLEDGKALKALDSVKKYLDTPYGLVLQNPAFTRYYIEYGEISTYPPGYKENAGIFCHNNAWIICAETVVGRGDMAFDYYRKIAPAYIEDVSDIHKLEPYVYAQMVAGKDAKRHGEAKNSWLTGTAAWNFVAISQWILGVKPDYDGLKIDPCIPKAWDGYKVTRYFRGSTYEITVKNPNHVSKGVAKITVDGNEISGNILPVFNDGKTHKVEVIMG MKFGFFDDANKEYVITVPRTPYPWINYLGTENFFSLISNTAGGYCFYRDARLRRITRYRYNNVPIDMGGRYFYIYDNGDFWSPGWSPVKRELESYECRHGLGYTKIAGKRNGIKAEVTFFVPLNYNGEVQKLILKNEGQDKKKITLFSFIEFCLWNAYDDMTNFQRNFSTGEVEIEGSVIYHKTEYRERRNHYAFYSVNAKISGFDSDRDSFIGLYNGFDAPQAVVNGKSNNSVADGWAPIASHSIEIELNPGEQKEYVFIIGYVENKDEEKWESKGVINKKKAYEMIEQFNTVEKVDKAFEELKSYWNALLSKYFLESHDEKLNRMVNIWNQYQCMVTFNMSRSASYFESGIGRGMGFRDSNQDLLGFVHQIPERARERLLDLAATQLEDGSAYHQYQPLTKKGNNEIGSNFNDDPLWLILATAAYIKETGDYSILKEQVPFNNDPSKADTMFEHLTRSFYHVVNNLGPHGLPLIGRADWNDCLNLNCFSTVPDESFQTTTSKDGKVAESVMIAGMFVFIGKDYVKLCEYMGLEEEARKAQQHIDAMKEAILKYGYDGEWFLRAYDDFGRKVGSKENEEGKIFIESQGFCVMAEIGLEDGKALKALDSVKKYLDTPYGLVLQNPAFTRYYIEYGEISTYPPGYKENAGIFCHNNAWIICAETVVGRGDMAFDYYRKIAPAYIEDVSDIHKLEPYVYAQMVAGKDAKRHGEAKNSWLTGTAAWNFVAISQWILGVKPDYDGLKIDPCIPKAWDGYKVTRYFRGSTYEITVKNPNHVSKGVAKITVDGNEISGNILPVFNDGKTHKVEVIMG 3qdk-a2-m1-cC_3qdk-a2-m1-cD Structural insight on mechanism and diverse substrate selection strategy of ribulokinase Q9KBQ3 Q9KBQ3 2.31 X-RAY DIFFRACTION 166 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 549 554 3qdk-a1-m1-cB_3qdk-a1-m1-cA KYTIGVDYGTESGRAVLIDLSNGQELADHVTPYRHGVIDQYLPNTNIKLGHEWALQHPLDYVEVLTTSVPAVMKEDDVIGIGVDFTACTMLPVDEEGQPLCLLAQYKDNPHSWVKLWKHHAAQDKANAINEMAEKRGEAFLPRYGGKISSEWMIAKVWQILDEAEDVYNRTDQFLEATDWIVSQMTGKIVKNSCTAGYKAIWHKREGYPSNEFFKALDPRLEHLTTTKLRGDIVPLGERAGGLLPEMAEKMGLNPGIAVAVGNVDAHAAVPAVGVTTPGKLVMAMGTSICHMLLGEKEQEVEGMCGVVEDGIIPGYLGYEAGQSAVGDIFAWFVKHGVSAATFDEAQEKGVNVHALLEEKASQLRPGESGLLALDWWNGNRSILVDTELSGMLLGYTLQTKPEEIYRALLEATAFGTRAIVDAFHGRGVEVHELYACGGLPQKNHLLMQIFADVTNREIKVAASKQTPALGAAMFASVAAGSEVGGYDSIEEAAKKMGRVKDETFKPIPEHVAIYEKLYQEYVTLHDYFGRGANDVMKRLKALKSIQHR KYTIGVDYGTESGRAVLIDLSNGQELADHVTPYRHGVIDQYLPNTNIKLGHEWALQHPLDYVEVLTTSVPAVMKESGVDADDVIGIGVDFTACTMLPVDEEGQPLCLLAQYKDNPHSWVKLWKHHAAQDKANAINEMAEKRGEAFLPRYGGKISSEWMIAKVWQILDEAEDVYNRTDQFLEATDWIVSQMTGKIVKNSCTAGYKAIWHKREGYPSNEFFKALDPRLEHLTTTKLRGDIVPLGERAGGLLPEMAEKMGLNPGIAVAVGNVDAHAAVPAVGVTTPGKLVMAMGTSICHMLLGEKEQEVEGMCGVVEDGIIPGYLGYEAGQSAVGDIFAWFVKHGVSAATFDEAQEKGVNVHALLEEKASQLRPGESGLLALDWWNGNRSILVDTELSGMLLGYTLQTKPEEIYRALLEATAFGTRAIVDAFHGRGVEVHELYACGGLPQKNHLLMQIFADVTNREIKVAASKQTPALGAAMFASVAAGSEVGGYDSIEEAAKKMGRVKDETFKPIPEHVAIYEKLYQEYVTLHDYFGRGANDVMKRLKALKSIQHR 3qdl-a3-m1-cA_3qdl-a3-m1-cC Crystal structure of RdxA from Helicobacter pyroli O25608 O25608 2 X-RAY DIFFRACTION 31 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 178 178 MKFLDQEKRRQLLNERHSCKMFDSHYEFSSTELEEIAEIARLSPSSYNTQPWHFVMVTDKDLKKQIAAHSYFNEEMIKSASALMVVCSLRPSELLPMQRLESYILEQCYIAVGQICMGVSLMGLDSCIIGGFDPLKVGEVLEERINKPKIACLIALGKRVAEASQKSRKSKVDAITWL MKFLDQEKRRQLLNERHSCKMFDSHYEFSSTELEEIAEIARLSPSSYNTQPWHFVMVTDKDLKKQIAAHSYFNEEMIKSASALMVVCSLRPSELLPMQRLESYILEQCYIAVGQICMGVSLMGLDSCIIGGFDPLKVGEVLEERINKPKIACLIALGKRVAEASQKSRKSKVDAITWL 3qdl-a3-m1-cB_3qdl-a3-m1-cC Crystal structure of RdxA from Helicobacter pyroli O25608 O25608 2 X-RAY DIFFRACTION 11 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 165 178 MKFLDQEKRRQLLNERHSCKMFDSHYEFSSTELEEIAEIARLSPSSYNTQPWHFVMVTDKDLKKQIAAHSYFNEEMIKSASALMVVCSLSYILEQCYIAVGQICMGVSLMGLDSCIIGGFDPLKVGEVLEERINPKIACLIALGKRVAEASQKSRKSKVDAITWL MKFLDQEKRRQLLNERHSCKMFDSHYEFSSTELEEIAEIARLSPSSYNTQPWHFVMVTDKDLKKQIAAHSYFNEEMIKSASALMVVCSLRPSELLPMQRLESYILEQCYIAVGQICMGVSLMGLDSCIIGGFDPLKVGEVLEERINKPKIACLIALGKRVAEASQKSRKSKVDAITWL 3qdl-a3-m1-cD_3qdl-a3-m1-cC Crystal structure of RdxA from Helicobacter pyroli O25608 O25608 2 X-RAY DIFFRACTION 193 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 165 178 3qdl-a1-m1-cB_3qdl-a1-m1-cA 3qdl-a2-m1-cD_3qdl-a2-m1-cC 3qdl-a3-m1-cB_3qdl-a3-m1-cA MKFLDQEKRRQLLNERHSCKMFDSHYEFSSTELEEIAEIARLSPSSYNTQPWHFVMVTDKDLKKQIAAHSYFNEEMIKSASALMVVCSLSYILEQCYIAVGQICMGVSLMGLDSCIIGGFDPLKVGEVLEERINPKIACLIALGKRVAEASQKSRKSKVDAITWL MKFLDQEKRRQLLNERHSCKMFDSHYEFSSTELEEIAEIARLSPSSYNTQPWHFVMVTDKDLKKQIAAHSYFNEEMIKSASALMVVCSLRPSELLPMQRLESYILEQCYIAVGQICMGVSLMGLDSCIIGGFDPLKVGEVLEERINKPKIACLIALGKRVAEASQKSRKSKVDAITWL 3qdo-a1-m1-cA_3qdo-a1-m2-cA Crystal Structure of PDZ domain of sorting nexin 27 (SNX27) fused to the Gly-Gly linker followed by C-terminal (ESESKV) of GIRK3 Q8K4V4 Q8K4V4 1.88 X-RAY DIFFRACTION 89 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 109 109 GSHGGSPRVVRIVKSESGYGFNVRGQVSEGGQLRSINGELYAPLQHVSAVLPGGAADRAGVRKGDRILEVNGVNVEGATHKQVVDLIRAGEKELILTVLSVGGESESKV GSHGGSPRVVRIVKSESGYGFNVRGQVSEGGQLRSINGELYAPLQHVSAVLPGGAADRAGVRKGDRILEVNGVNVEGATHKQVVDLIRAGEKELILTVLSVGGESESKV 3qds-a1-m1-cA_3qds-a1-m2-cB Structure of apo Boletus edulis lectin F2Z266 F2Z266 1.15 X-RAY DIFFRACTION 39 1.0 36056 (Boletus edulis) 36056 (Boletus edulis) 142 142 3qds-a1-m1-cB_3qds-a1-m2-cA 3qdt-a1-m1-cA_3qdt-a1-m2-cB 3qdt-a1-m1-cB_3qdt-a1-m2-cA 3qdu-a1-m1-cA_3qdu-a1-m1-cC 3qdu-a1-m1-cB_3qdu-a1-m1-cD 3qdv-a1-m1-cA_3qdv-a1-m2-cB 3qdv-a1-m1-cB_3qdv-a1-m2-cA 3qdw-a1-m1-cA_3qdw-a1-m2-cB 3qdw-a1-m1-cB_3qdw-a1-m2-cA 3qdx-a1-m1-cA_3qdx-a1-m2-cB 3qdx-a1-m1-cB_3qdx-a1-m2-cA 3qdy-a1-m1-cA_3qdy-a1-m2-cB 3qdy-a1-m1-cB_3qdy-a1-m2-cA TYSITLRVFQRNPGRGFFSIVEKTVFHYANGGTWSEAKGTHTLTMGGSGTSGVLRFMSDKGELITVAVGVHNYKRWCDVVTGLKPEETALVINPQYYNNGPRAYTREKQLAEYNVTSVVGTRFEVKYTVVEGNNLEANVIFS TYSITLRVFQRNPGRGFFSIVEKTVFHYANGGTWSEAKGTHTLTMGGSGTSGVLRFMSDKGELITVAVGVHNYKRWCDVVTGLKPEETALVINPQYYNNGPRAYTREKQLAEYNVTSVVGTRFEVKYTVVEGNNLEANVIFS 3qds-a3-m1-cB_3qds-a3-m2-cB Structure of apo Boletus edulis lectin F2Z266 F2Z266 1.15 X-RAY DIFFRACTION 81 1.0 36056 (Boletus edulis) 36056 (Boletus edulis) 142 142 3qds-a1-m1-cA_3qds-a1-m2-cA 3qds-a1-m1-cB_3qds-a1-m2-cB 3qds-a2-m1-cA_3qds-a2-m2-cA 3qdt-a1-m1-cA_3qdt-a1-m2-cA 3qdt-a1-m1-cB_3qdt-a1-m2-cB 3qdt-a2-m1-cA_3qdt-a2-m2-cA 3qdt-a3-m1-cB_3qdt-a3-m2-cB 3qdu-a1-m1-cA_3qdu-a1-m1-cD 3qdu-a1-m1-cB_3qdu-a1-m1-cC 3qdu-a2-m1-cA_3qdu-a2-m1-cD 3qdu-a3-m1-cB_3qdu-a3-m1-cC 3qdv-a1-m1-cA_3qdv-a1-m2-cA 3qdv-a1-m1-cB_3qdv-a1-m2-cB 3qdv-a2-m1-cA_3qdv-a2-m2-cA 3qdv-a3-m1-cB_3qdv-a3-m2-cB 3qdw-a1-m1-cA_3qdw-a1-m2-cA 3qdw-a1-m1-cB_3qdw-a1-m2-cB 3qdw-a2-m1-cA_3qdw-a2-m2-cA 3qdw-a3-m1-cB_3qdw-a3-m2-cB 3qdx-a1-m1-cA_3qdx-a1-m2-cA 3qdx-a1-m1-cB_3qdx-a1-m2-cB 3qdx-a2-m1-cA_3qdx-a2-m2-cA 3qdx-a3-m1-cB_3qdx-a3-m2-cB 3qdy-a1-m1-cA_3qdy-a1-m2-cA 3qdy-a1-m1-cB_3qdy-a1-m2-cB 3qdy-a2-m1-cA_3qdy-a2-m2-cA 3qdy-a3-m1-cB_3qdy-a3-m2-cB TYSITLRVFQRNPGRGFFSIVEKTVFHYANGGTWSEAKGTHTLTMGGSGTSGVLRFMSDKGELITVAVGVHNYKRWCDVVTGLKPEETALVINPQYYNNGPRAYTREKQLAEYNVTSVVGTRFEVKYTVVEGNNLEANVIFS TYSITLRVFQRNPGRGFFSIVEKTVFHYANGGTWSEAKGTHTLTMGGSGTSGVLRFMSDKGELITVAVGVHNYKRWCDVVTGLKPEETALVINPQYYNNGPRAYTREKQLAEYNVTSVVGTRFEVKYTVVEGNNLEANVIFS 3qdx-a1-m2-cA_3qdx-a1-m2-cB Structure of the orthorhombic form of the Boletus edulis lectin in complex with T-antigen disaccharide and N,N-diacetyl chitobiose F2Z266 F2Z266 1.7 X-RAY DIFFRACTION 14 1.0 36056 (Boletus edulis) 36056 (Boletus edulis) 142 142 3qds-a1-m1-cA_3qds-a1-m1-cB 3qds-a1-m2-cA_3qds-a1-m2-cB 3qdt-a1-m1-cA_3qdt-a1-m1-cB 3qdt-a1-m2-cA_3qdt-a1-m2-cB 3qdu-a1-m1-cA_3qdu-a1-m1-cB 3qdu-a1-m1-cC_3qdu-a1-m1-cD 3qdv-a1-m1-cA_3qdv-a1-m1-cB 3qdv-a1-m2-cA_3qdv-a1-m2-cB 3qdw-a1-m1-cA_3qdw-a1-m1-cB 3qdw-a1-m2-cA_3qdw-a1-m2-cB 3qdx-a1-m1-cA_3qdx-a1-m1-cB 3qdy-a1-m1-cA_3qdy-a1-m1-cB 3qdy-a1-m2-cA_3qdy-a1-m2-cB TYSITLRVFQRNPGRGFFSIVEKTVFHYANGGTWSEAKGTHTLTMGGSGTSGVLRFMSDKGELITVAVGVHNYKRWCDVVTGLKPEETALVINPQYYNNGPRAYTREKQLAEYNVTSVVGTRFEVKYTVVEGNNLEANVIFS TYSITLRVFQRNPGRGFFSIVEKTVFHYANGGTWSEAKGTHTLTMGGSGTSGVLRFMSDKGELITVAVGVHNYKRWCDVVTGLKPEETALVINPQYYNNGPRAYTREKQLAEYNVTSVVGTRFEVKYTVVEGNNLEANVIFS 3qe1-a1-m1-cA_3qe1-a1-m2-cA Crystal Structure of PDZ domain of sorting nexin 27 (SNX27) fused to the C-terminal residues (ESESKV) of GIRK3 Q63511 Q63511 1.68 X-RAY DIFFRACTION 38 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 102 102 SPRVVRIVKSESGYGFNVRGQVSEGGQLRSINGELYAPLQHVSAVLPGGAADRAGVRKGDRILEVNGVNVEGATHKQVVDLIRAGEKELILTVLSVESESKV SPRVVRIVKSESGYGFNVRGQVSEGGQLRSINGELYAPLQHVSAVLPGGAADRAGVRKGDRILEVNGVNVEGATHKQVVDLIRAGEKELILTVLSVESESKV 3qe3-a1-m1-cA_3qe3-a1-m4-cA Sheep liver sorbitol dehydrogenase P07846 P07846 1.9 X-RAY DIFFRACTION 98 1.0 9940 (Ovis aries) 9940 (Ovis aries) 351 351 3qe3-a1-m2-cA_3qe3-a1-m3-cA AENLSLVVHGPGDLRLENYPIPEPGPNEVLLKMHSVGICGSDVHYWQHGRIGDFVVKKPMVLGHEASGTVVKVGSLVRHLQPGDRVAIQPGAPRQTDEFCKIGRYNLSPTIFFCATPPDDGNLCRFYKHNANFCYKLPDNVTFEEGALIEPLSVGIHACRRAGVTLGNKVLVCGAGPIGLVNLLAAKAMGAAQVVVTDLSASRLSKAKEVGADFILEISNESPEEIAKKVEGLLGSKPEVTIECTGVETSIQAGIYATHSGGTLVLVGLGSEMTSVPLVHAATREVDIKGVFRYCNTWPMAISMLASKSVNVKPLVTHRFPLEKALEAFETSKKGLGLKVMIKCDPSDQNP AENLSLVVHGPGDLRLENYPIPEPGPNEVLLKMHSVGICGSDVHYWQHGRIGDFVVKKPMVLGHEASGTVVKVGSLVRHLQPGDRVAIQPGAPRQTDEFCKIGRYNLSPTIFFCATPPDDGNLCRFYKHNANFCYKLPDNVTFEEGALIEPLSVGIHACRRAGVTLGNKVLVCGAGPIGLVNLLAAKAMGAAQVVVTDLSASRLSKAKEVGADFILEISNESPEEIAKKVEGLLGSKPEVTIECTGVETSIQAGIYATHSGGTLVLVGLGSEMTSVPLVHAATREVDIKGVFRYCNTWPMAISMLASKSVNVKPLVTHRFPLEKALEAFETSKKGLGLKVMIKCDPSDQNP 3qe3-a1-m2-cA_3qe3-a1-m4-cA Sheep liver sorbitol dehydrogenase P07846 P07846 1.9 X-RAY DIFFRACTION 32 1.0 9940 (Ovis aries) 9940 (Ovis aries) 351 351 3qe3-a1-m1-cA_3qe3-a1-m3-cA AENLSLVVHGPGDLRLENYPIPEPGPNEVLLKMHSVGICGSDVHYWQHGRIGDFVVKKPMVLGHEASGTVVKVGSLVRHLQPGDRVAIQPGAPRQTDEFCKIGRYNLSPTIFFCATPPDDGNLCRFYKHNANFCYKLPDNVTFEEGALIEPLSVGIHACRRAGVTLGNKVLVCGAGPIGLVNLLAAKAMGAAQVVVTDLSASRLSKAKEVGADFILEISNESPEEIAKKVEGLLGSKPEVTIECTGVETSIQAGIYATHSGGTLVLVGLGSEMTSVPLVHAATREVDIKGVFRYCNTWPMAISMLASKSVNVKPLVTHRFPLEKALEAFETSKKGLGLKVMIKCDPSDQNP AENLSLVVHGPGDLRLENYPIPEPGPNEVLLKMHSVGICGSDVHYWQHGRIGDFVVKKPMVLGHEASGTVVKVGSLVRHLQPGDRVAIQPGAPRQTDEFCKIGRYNLSPTIFFCATPPDDGNLCRFYKHNANFCYKLPDNVTFEEGALIEPLSVGIHACRRAGVTLGNKVLVCGAGPIGLVNLLAAKAMGAAQVVVTDLSASRLSKAKEVGADFILEISNESPEEIAKKVEGLLGSKPEVTIECTGVETSIQAGIYATHSGGTLVLVGLGSEMTSVPLVHAATREVDIKGVFRYCNTWPMAISMLASKSVNVKPLVTHRFPLEKALEAFETSKKGLGLKVMIKCDPSDQNP 3qe3-a1-m3-cA_3qe3-a1-m4-cA Sheep liver sorbitol dehydrogenase P07846 P07846 1.9 X-RAY DIFFRACTION 63 1.0 9940 (Ovis aries) 9940 (Ovis aries) 351 351 3qe3-a1-m1-cA_3qe3-a1-m2-cA AENLSLVVHGPGDLRLENYPIPEPGPNEVLLKMHSVGICGSDVHYWQHGRIGDFVVKKPMVLGHEASGTVVKVGSLVRHLQPGDRVAIQPGAPRQTDEFCKIGRYNLSPTIFFCATPPDDGNLCRFYKHNANFCYKLPDNVTFEEGALIEPLSVGIHACRRAGVTLGNKVLVCGAGPIGLVNLLAAKAMGAAQVVVTDLSASRLSKAKEVGADFILEISNESPEEIAKKVEGLLGSKPEVTIECTGVETSIQAGIYATHSGGTLVLVGLGSEMTSVPLVHAATREVDIKGVFRYCNTWPMAISMLASKSVNVKPLVTHRFPLEKALEAFETSKKGLGLKVMIKCDPSDQNP AENLSLVVHGPGDLRLENYPIPEPGPNEVLLKMHSVGICGSDVHYWQHGRIGDFVVKKPMVLGHEASGTVVKVGSLVRHLQPGDRVAIQPGAPRQTDEFCKIGRYNLSPTIFFCATPPDDGNLCRFYKHNANFCYKLPDNVTFEEGALIEPLSVGIHACRRAGVTLGNKVLVCGAGPIGLVNLLAAKAMGAAQVVVTDLSASRLSKAKEVGADFILEISNESPEEIAKKVEGLLGSKPEVTIECTGVETSIQAGIYATHSGGTLVLVGLGSEMTSVPLVHAATREVDIKGVFRYCNTWPMAISMLASKSVNVKPLVTHRFPLEKALEAFETSKKGLGLKVMIKCDPSDQNP 3qe7-a2-m1-cA_3qe7-a2-m2-cA Crystal Structure of Uracil Transporter--UraA P0AGM7 P0AGM7 2.781 X-RAY DIFFRACTION 62 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 407 407 RAIGVSERPPLLQTIPLSLQHLFAMFGATVLVPVLFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVLFPPAAMGAIVAVIGLELAGVAAGMAGLLPAEGQTPDSKTIIISITTLAVTVLGSVLFRGFLAIIPILIGVLVGYALSFAMGIVDTTPIINAHWFALPTLYTPRFEWFAILTILPAALVVIAEHVGHLVVTANIVKKDLLRDPGLHRSMFANGLSTVISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIFAILLSCVGKLAAAIQMIPLPVMGGVSLLLYGVIGASGIRVLIESKVDYNKAQNLILTSVILIIGVSGAKVNIGAAELKGMALATIVGIGLSLIFKLIS RAIGVSERPPLLQTIPLSLQHLFAMFGATVLVPVLFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVLFPPAAMGAIVAVIGLELAGVAAGMAGLLPAEGQTPDSKTIIISITTLAVTVLGSVLFRGFLAIIPILIGVLVGYALSFAMGIVDTTPIINAHWFALPTLYTPRFEWFAILTILPAALVVIAEHVGHLVVTANIVKKDLLRDPGLHRSMFANGLSTVISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIFAILLSCVGKLAAAIQMIPLPVMGGVSLLLYGVIGASGIRVLIESKVDYNKAQNLILTSVILIIGVSGAKVNIGAAELKGMALATIVGIGLSLIFKLIS 3qec-a2-m2-cA_3qec-a2-m3-cA Crystal structure of a putative carbohydrate binding protein (PA1324) from Pseudomonas aeruginosa at 2.61 A resolution Q9I420 Q9I420 2.61 X-RAY DIFFRACTION 53 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 144 144 3qec-a2-m1-cA_3qec-a2-m2-cA 3qec-a2-m1-cA_3qec-a2-m3-cA DLPDFPEHEYAATQQVGEGVINGDLYLTSASGAIQKGTNTKVALEPATSYKAYYAKFGNLDAAKRDPDVQPPVLDPRRATYVREATTDQNGRFDFDHIPNGTYYISSELTWSAQSDGKTITEGGTVTKLVTVSGSQPQKVLLTR DLPDFPEHEYAATQQVGEGVINGDLYLTSASGAIQKGTNTKVALEPATSYKAYYAKFGNLDAAKRDPDVQPPVLDPRRATYVREATTDQNGRFDFDHIPNGTYYISSELTWSAQSDGKTITEGGTVTKLVTVSGSQPQKVLLTR 3qff-a1-m1-cA_3qff-a1-m1-cB Crystal Structure of ADP complex of purK: N5-carboxyaminoimidazole ribonucleotide synthetase 1.96 X-RAY DIFFRACTION 97 1.0 592021 (Bacillus anthracis str. A0248) 592021 (Bacillus anthracis str. A0248) 377 377 3q2o-a1-m1-cA_3q2o-a1-m1-cB 3r5h-a1-m1-cB_3r5h-a1-m1-cA 3v4s-a1-m1-cA_3v4s-a1-m1-cB 4dlk-a1-m1-cA_4dlk-a1-m1-cB MTRIILPGKTIGIIGGGQLGRMMALAAKEMGYKIAVLDPTKNSPCAQVADIEIVASYDDLKAIQHLAEISDVVTYEFENIDYRCLQWLEKHAYLPQGSQLLSKTQNRFTEKNAIEKAGLPVATYRLVQNQEQLTEAIAELSYPSVLKTTTGGYDGKGQVVLRSEADVDEARKLANAAECILEKWVPFEKEVSVIVIRSVSGETKVFPVAENIHVNNILHESIVPARITEELSQKAIAYAKVLADELELVGTLAVEMFATADGEIYINELAPRPHNSGHYTQDACETSQFGQHIRAICNLPLGETNLLKPVVMVNILGEHIEGVLRQVNRLTGCYLHLYGKEEAKAQRKMGHVNILNDNIEVALEKAKSLHIWDHQEQ MTRIILPGKTIGIIGGGQLGRMMALAAKEMGYKIAVLDPTKNSPCAQVADIEIVASYDDLKAIQHLAEISDVVTYEFENIDYRCLQWLEKHAYLPQGSQLLSKTQNRFTEKNAIEKAGLPVATYRLVQNQEQLTEAIAELSYPSVLKTTTGGYDGKGQVVLRSEADVDEARKLANAAECILEKWVPFEKEVSVIVIRSVSGETKVFPVAENIHVNNILHESIVPARITEELSQKAIAYAKVLADELELVGTLAVEMFATADGEIYINELAPRPHNSGHYTQDACETSQFGQHIRAICNLPLGETNLLKPVVMVNILGEHIEGVLRQVNRLTGCYLHLYGKEEAKAQRKMGHVNILNDNIEVALEKAKSLHIWDHQEQ 3qfg-a1-m1-cB_3qfg-a1-m1-cA Structure of a putative lipoprotein from Staphylococcus aureus subsp. aureus NCTC 8325 Q2G019 Q2G019 3.08 X-RAY DIFFRACTION 27 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 140 142 DIKIKGDTIVSDKFEAKIKEPFIINEKDEKKKYIAFKEITAKKDDKDLNPSSISHDYINITQDDKNTVNKLRDGYLLSDKKYKDWTEHNQDQIKKGKTAQAFIYELRGDGNINLNVHKYSEDKTVDSKSFKFSKLKTEDF NDIKIKGDTIVSDKFEAKIKEPFIINEKDEKKKYIAFKEITAKKDDKDLNPSSISHDYINITQDDKNTVNKLRDGYLLSDKKYKDWTEHNQDQIKKGKTAQAFIYELRGDGNINLNVHKYSEDKTVDSKSFKFSKLKTEDFS 3qfl-a1-m1-cA_3qfl-a1-m2-cA Coiled-Coil Domain-Dependent Homodimerization of Intracellular MLA Immune Receptors Defines a Minimal Functional Module for Triggering Cell Death Q8GSK4 Q8GSK4 1.997 X-RAY DIFFRACTION 214 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 108 108 AAISNLIPKLGELLTEEFKLHKGVKKNIEDLGKELESNAALIKIGEVPREQLDSQDKLWADEVRELSYVIEDVVDKFLVQVDGINNKFKGLKRTTELLKKVKHKHGIA AAISNLIPKLGELLTEEFKLHKGVKKNIEDLGKELESNAALIKIGEVPREQLDSQDKLWADEVRELSYVIEDVVDKFLVQVDGINNKFKGLKRTTELLKKVKHKHGIA 3qfm-a1-m1-cB_3qfm-a1-m1-cA Crystal structure of Streptococcal asymmetric Ap4A hydrolase and phosphodiesterase Spr1479/SapH Q8DNX4 Q8DNX4 1.9 X-RAY DIFFRACTION 110 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 250 258 3qfn-a1-m1-cA_3qfn-a1-m1-cB 3qfo-a1-m1-cA_3qfo-a1-m1-cB MTKIALLSDIHGNTTALEAVLADARQLGVDEYWLLGDILMPGTGRRRILDLLDQLPITARVLGNWEDSLWHGVRKELDSTRPSQRYLLRQCQYVLEEISLEEIEVLHNQPLQIHRQFGDLTVGISHHLPDKNWGRELIHTGKQEEFDRLVTHPPCDIAVYGHIHQQLLRYGTGGQLIVNPGSIGQPFFLDAQLRKDLRAQYMILEFDDKGLVDMDFRRVDYDVAAELQLAKDLRLPYFEVYYESLVNGIH MTKIALLSDIHGNTTALEAVLADARQLGVDEYWLLGDILMPGTGRRRILDLLDQLPITARVLGNWEDSLWHGVRKELDSTRPSQRYLLRQCQYVLEEISLEEIEVLHNQPLQIHRQFGDLTVGISHHLPDKNWGRELIHTGKQEEFDRLVTHPPCDIAVYGHIHQQLLRYGTGGQLIVNPGSIGQPFFLDAQLRKDLRAQYMILEFDDKGLVDMDFRRVDYDVAAELQLAKDLRLPYFEVYYESLVNGIHHTHHQEFL 3qfq-a1-m1-cE_3qfq-a1-m1-cB Asymmetric Assembly of Merkel Cell Polyomavirus Large T-antigen Origin Binding Domains at the Viral Origin E2IPT4 E2IPT4 2.9001 X-RAY DIFFRACTION 11 1.0 493803 (Merkel cell polyomavirus) 493803 (Merkel cell polyomavirus) 117 120 VPTDFPIDLSDYLSHAVYSNKTVSCFAIYTTSDKAIELYDKIEKFKVDFKSRHACELGCILLFITLSKHRVSAIKNFCSTFCTISFLICKGVNKMPEMYNNLCKPPYKLLQENKPLL TPVPTDFPIDLSDYLSHAVYSNKTVSCFAIYTTSDKAIELYDKIEKFKVDFKSRHACELGCILLFITLSKHRVSAIKNFCSTFCTISFLICKGVNKMPEMYNNLCKPPYKLLQENKPLLN 3qfw-a1-m1-cA_3qfw-a1-m1-cB Crystal structure of Rubisco-like protein from Rhodopseudomonas palustris Q216E8 Q216E8 1.789 X-RAY DIFFRACTION 205 1.0 316056 (Rhodopseudomonas palustris BisB18) 316056 (Rhodopseudomonas palustris BisB18) 347 352 TEPRIVATYHIASDAERIEQRALALAIEQSVECPLEAINIVGRVEDVAELQPGRYAVRIGLAAATAPAEPGQLLNMLFGNSSIQPDIALADVELPAHYLTAFGGPRVGLAGIRTLTGAQSRALTASALKPQGLSPAALASIAHQLALGGVDLIKDDHGLADQAFSPFAERAAAVGKAVREANAARGGRTLYAPNISGTLDDMRRQLGVIRDEGIGAVLVAPMIVGVSNFHAIVKEAAGLVVVAHPAMAKIAAPLLLGRLFRLFGADATVFPNYGFAYSTASCLALAQAARDPFGKLNACIPTPAGGIMLQRVNELLRFYGQDVMLLIRLTEQASRFVNKVADYGQRE TEPRIVATYHIASDAERIEQRALALAIEQSVECPLEAINIVGRVEDVAELQPGRYAVRIGLAAATAPAEPGQLLNMLFGNSSIQPDIALADVELPAHYLTAFGGPRVGLAGIRTLTGAQSRALTASALKPQGLSPAALASIAHQLALGGVDLIKDDHGLADQAFSPFAERAAAVGKAVREANAARGGRTLYAPNISGTLDDMRRQLGVIRDEGIGAVLVAPMIVGVSNFHAIVKEAAGLVVVAHPAMAGAAKIAAPLLLGRLFRLFGADATVFPNYGGRFAYSTASCLALAQAARDPFGKLNACIPTPAGGIMLQRVNELLRFYGQDVMLLIRLTEQASRFVNKVADYGQRE 3qgj-a3-m1-cA_3qgj-a3-m2-cA 1.3A Structure of alpha-Lytic Protease Bound to Ac-AlaAlaPro-Alanal P00778 P00778 1.3 X-RAY DIFFRACTION 21 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 197 197 ANIVGGIEYSINNASLCSVGFSVTRGATKGFVTAGHCGTVNATARIGGAVVGTFAARVFPGNDRAWVSLTSAQTLLPRVANGSSFVTVRGSTAAVGAAVCRSGRTTGYQCGTITAKNVTANYAEGAVRGLTQGNACMGRGDSGGSWITSAGQAQGVMSGGNVQSNGNNCGIPASQRSSLFERLQPILSQYGLSLVTG ANIVGGIEYSINNASLCSVGFSVTRGATKGFVTAGHCGTVNATARIGGAVVGTFAARVFPGNDRAWVSLTSAQTLLPRVANGSSFVTVRGSTAAVGAAVCRSGRTTGYQCGTITAKNVTANYAEGAVRGLTQGNACMGRGDSGGSWITSAGQAQGVMSGGNVQSNGNNCGIPASQRSSLFERLQPILSQYGLSLVTG 3qgj-a3-m1-cA_3qgj-a3-m4-cC 1.3A Structure of alpha-Lytic Protease Bound to Ac-AlaAlaPro-Alanal P00778 P00778 1.3 X-RAY DIFFRACTION 15 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 197 198 3m7u-a1-m1-cB_3m7u-a1-m1-cA 3qgj-a3-m2-cA_3qgj-a3-m3-cC ANIVGGIEYSINNASLCSVGFSVTRGATKGFVTAGHCGTVNATARIGGAVVGTFAARVFPGNDRAWVSLTSAQTLLPRVANGSSFVTVRGSTAAVGAAVCRSGRTTGYQCGTITAKNVTANYAEGAVRGLTQGNACMGRGDSGGSWITSAGQAQGVMSGGNVQSNGNNCGIPASQRSSLFERLQPILSQYGLSLVTG ANIVGGIEYSINNASLCSVGFSVTRGATKGFVTAGHCGTVNATARIGGAVVGTFAARVFPGNDRAWVSLTSAQTLLPRVANGSSFVTVRGSTEAAVGAAVCRSGRTTGYQCGTITAKNVTANYAEGAVRGLTQGNACMGRGDSGGSWITSAGQAQGVMSGGNVQSNGNNCGIPASQRSSLFERLQPILSQYGLSLVTG 3qgj-a3-m2-cA_3qgj-a3-m4-cC 1.3A Structure of alpha-Lytic Protease Bound to Ac-AlaAlaPro-Alanal P00778 P00778 1.3 X-RAY DIFFRACTION 48 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 197 198 3qgj-a3-m1-cA_3qgj-a3-m3-cC ANIVGGIEYSINNASLCSVGFSVTRGATKGFVTAGHCGTVNATARIGGAVVGTFAARVFPGNDRAWVSLTSAQTLLPRVANGSSFVTVRGSTAAVGAAVCRSGRTTGYQCGTITAKNVTANYAEGAVRGLTQGNACMGRGDSGGSWITSAGQAQGVMSGGNVQSNGNNCGIPASQRSSLFERLQPILSQYGLSLVTG ANIVGGIEYSINNASLCSVGFSVTRGATKGFVTAGHCGTVNATARIGGAVVGTFAARVFPGNDRAWVSLTSAQTLLPRVANGSSFVTVRGSTEAAVGAAVCRSGRTTGYQCGTITAKNVTANYAEGAVRGLTQGNACMGRGDSGGSWITSAGQAQGVMSGGNVQSNGNNCGIPASQRSSLFERLQPILSQYGLSLVTG 3qgk-a1-m1-cR_3qgk-a1-m2-cR 3.0 A Model of Iron Containing Urease UreA2B2 from Helicobacter mustelae (refined w/ no ordered solvent) D3UJ80 D3UJ80 3 X-RAY DIFFRACTION 32 1.0 679897 (Helicobacter mustelae 12198) 679897 (Helicobacter mustelae 12198) 563 563 3qga-a1-m1-cC_3qga-a1-m2-cC 3qga-a1-m1-cF_3qga-a1-m1-cL 3qga-a1-m1-cI_3qga-a1-m2-cO 3qga-a1-m1-cO_3qga-a1-m2-cI 3qga-a1-m1-cR_3qga-a1-m2-cR 3qga-a1-m2-cF_3qga-a1-m2-cL 3qgk-a1-m1-cC_3qgk-a1-m2-cC 3qgk-a1-m1-cF_3qgk-a1-m1-cL 3qgk-a1-m1-cI_3qgk-a1-m2-cO 3qgk-a1-m1-cO_3qgk-a1-m2-cI 3qgk-a1-m2-cF_3qgk-a1-m2-cL MKMKRQEYVNTYGPTTGDKVRLGDTDLWAEVEHDYTVYGEELKFGAGKTIREGMGQSNSPDENTLDLVITNALIIDYTGIYKADIGIKNGKIHGIGKAGNKDMQDGVTPHMVVGVGTEALAGEGMIITAGGIDSHTHFLSPQQFPTALANGVTTMFGGGTGPVDGTNATTITPGVWNLHRMLRAAEEYGMNVGLLGKGNSSSRAQLVEQVKAGAIGFLHEDWGTTPSAIDHCLSVADEYDVQVCIHTDTVNEAGYVDDTLRAMNGRAIHAYHIEGAGGGHSPDVITMAGEVNILPSSTTPTIPYTINTVAEHLDMLMTCHHLDKRIRFSQSRIRPGSIAAEDTLHDMGVIAMTSSDSQAMGRAGEVIPRTWQTADKNKKEFGRLTEEKGDNDNFRIKRYISKYTINPAITHGVSEYIGSVEEGKIADLVVWNPAFFGVKPKIIIKGGMVVFSEMGDSNASVPTPQPVYYREMFGHHGKAKFDTSITFVSKVAYENGIKEKLGLERKVLPVKNCRNVTKKDFKFNNTTAKITVNPETFEVFVNGKLCTSKPATEVALASRYTFF MKMKRQEYVNTYGPTTGDKVRLGDTDLWAEVEHDYTVYGEELKFGAGKTIREGMGQSNSPDENTLDLVITNALIIDYTGIYKADIGIKNGKIHGIGKAGNKDMQDGVTPHMVVGVGTEALAGEGMIITAGGIDSHTHFLSPQQFPTALANGVTTMFGGGTGPVDGTNATTITPGVWNLHRMLRAAEEYGMNVGLLGKGNSSSRAQLVEQVKAGAIGFLHEDWGTTPSAIDHCLSVADEYDVQVCIHTDTVNEAGYVDDTLRAMNGRAIHAYHIEGAGGGHSPDVITMAGEVNILPSSTTPTIPYTINTVAEHLDMLMTCHHLDKRIRFSQSRIRPGSIAAEDTLHDMGVIAMTSSDSQAMGRAGEVIPRTWQTADKNKKEFGRLTEEKGDNDNFRIKRYISKYTINPAITHGVSEYIGSVEEGKIADLVVWNPAFFGVKPKIIIKGGMVVFSEMGDSNASVPTPQPVYYREMFGHHGKAKFDTSITFVSKVAYENGIKEKLGLERKVLPVKNCRNVTKKDFKFNNTTAKITVNPETFEVFVNGKLCTSKPATEVALASRYTFF 3qgk-a1-m2-cM_3qgk-a1-m2-cP 3.0 A Model of Iron Containing Urease UreA2B2 from Helicobacter mustelae (refined w/ no ordered solvent) D3UJ81 D3UJ81 3 X-RAY DIFFRACTION 16 1.0 679897 (Helicobacter mustelae 12198) 679897 (Helicobacter mustelae 12198) 224 224 3qga-a1-m1-cA_3qga-a1-m1-cD 3qga-a1-m1-cA_3qga-a1-m1-cG 3qga-a1-m1-cD_3qga-a1-m1-cG 3qga-a1-m1-cJ_3qga-a1-m1-cM 3qga-a1-m1-cJ_3qga-a1-m1-cP 3qga-a1-m1-cM_3qga-a1-m1-cP 3qga-a1-m2-cA_3qga-a1-m2-cD 3qga-a1-m2-cA_3qga-a1-m2-cG 3qga-a1-m2-cD_3qga-a1-m2-cG 3qga-a1-m2-cJ_3qga-a1-m2-cM 3qga-a1-m2-cJ_3qga-a1-m2-cP 3qga-a1-m2-cM_3qga-a1-m2-cP 3qgk-a1-m1-cA_3qgk-a1-m1-cD 3qgk-a1-m1-cA_3qgk-a1-m1-cG 3qgk-a1-m1-cD_3qgk-a1-m1-cG 3qgk-a1-m1-cJ_3qgk-a1-m1-cM 3qgk-a1-m1-cJ_3qgk-a1-m1-cP 3qgk-a1-m1-cM_3qgk-a1-m1-cP 3qgk-a1-m2-cA_3qgk-a1-m2-cD 3qgk-a1-m2-cA_3qgk-a1-m2-cG 3qgk-a1-m2-cD_3qgk-a1-m2-cG 3qgk-a1-m2-cJ_3qgk-a1-m2-cM 3qgk-a1-m2-cJ_3qgk-a1-m2-cP KLTPKEQEKFLLYYAGEVARKRKEEGLKLNQPEAIAYISAHIMDEARRGKKTVAQLMEECVHFLKKDEVMPGVGNMVPDLGVEANFPDGTKLVTVNWPIEPDDFKAGEIKFASDKDIELNAGKEITELKVTNKGPKSLHVGSHFHFFEANRALEFDREKAYGKRLDIPSGNTLRIGAGETKTVHLIPIGGSKKIIGMNGLLNGIADDLHKQKALEKAKHHGFIK KLTPKEQEKFLLYYAGEVARKRKEEGLKLNQPEAIAYISAHIMDEARRGKKTVAQLMEECVHFLKKDEVMPGVGNMVPDLGVEANFPDGTKLVTVNWPIEPDDFKAGEIKFASDKDIELNAGKEITELKVTNKGPKSLHVGSHFHFFEANRALEFDREKAYGKRLDIPSGNTLRIGAGETKTVHLIPIGGSKKIIGMNGLLNGIADDLHKQKALEKAKHHGFIK 3qgk-a1-m2-cO_3qgk-a1-m2-cR 3.0 A Model of Iron Containing Urease UreA2B2 from Helicobacter mustelae (refined w/ no ordered solvent) D3UJ80 D3UJ80 3 X-RAY DIFFRACTION 182 1.0 679897 (Helicobacter mustelae 12198) 679897 (Helicobacter mustelae 12198) 563 563 3qga-a1-m1-cC_3qga-a1-m1-cF 3qga-a1-m1-cC_3qga-a1-m1-cI 3qga-a1-m1-cF_3qga-a1-m1-cI 3qga-a1-m1-cL_3qga-a1-m1-cO 3qga-a1-m1-cL_3qga-a1-m1-cR 3qga-a1-m1-cO_3qga-a1-m1-cR 3qga-a1-m2-cC_3qga-a1-m2-cF 3qga-a1-m2-cC_3qga-a1-m2-cI 3qga-a1-m2-cF_3qga-a1-m2-cI 3qga-a1-m2-cL_3qga-a1-m2-cO 3qga-a1-m2-cL_3qga-a1-m2-cR 3qga-a1-m2-cO_3qga-a1-m2-cR 3qgk-a1-m1-cC_3qgk-a1-m1-cF 3qgk-a1-m1-cC_3qgk-a1-m1-cI 3qgk-a1-m1-cF_3qgk-a1-m1-cI 3qgk-a1-m1-cL_3qgk-a1-m1-cO 3qgk-a1-m1-cL_3qgk-a1-m1-cR 3qgk-a1-m1-cO_3qgk-a1-m1-cR 3qgk-a1-m2-cC_3qgk-a1-m2-cF 3qgk-a1-m2-cC_3qgk-a1-m2-cI 3qgk-a1-m2-cF_3qgk-a1-m2-cI 3qgk-a1-m2-cL_3qgk-a1-m2-cO 3qgk-a1-m2-cL_3qgk-a1-m2-cR MKMKRQEYVNTYGPTTGDKVRLGDTDLWAEVEHDYTVYGEELKFGAGKTIREGMGQSNSPDENTLDLVITNALIIDYTGIYKADIGIKNGKIHGIGKAGNKDMQDGVTPHMVVGVGTEALAGEGMIITAGGIDSHTHFLSPQQFPTALANGVTTMFGGGTGPVDGTNATTITPGVWNLHRMLRAAEEYGMNVGLLGKGNSSSRAQLVEQVKAGAIGFLHEDWGTTPSAIDHCLSVADEYDVQVCIHTDTVNEAGYVDDTLRAMNGRAIHAYHIEGAGGGHSPDVITMAGEVNILPSSTTPTIPYTINTVAEHLDMLMTCHHLDKRIRFSQSRIRPGSIAAEDTLHDMGVIAMTSSDSQAMGRAGEVIPRTWQTADKNKKEFGRLTEEKGDNDNFRIKRYISKYTINPAITHGVSEYIGSVEEGKIADLVVWNPAFFGVKPKIIIKGGMVVFSEMGDSNASVPTPQPVYYREMFGHHGKAKFDTSITFVSKVAYENGIKEKLGLERKVLPVKNCRNVTKKDFKFNNTTAKITVNPETFEVFVNGKLCTSKPATEVALASRYTFF MKMKRQEYVNTYGPTTGDKVRLGDTDLWAEVEHDYTVYGEELKFGAGKTIREGMGQSNSPDENTLDLVITNALIIDYTGIYKADIGIKNGKIHGIGKAGNKDMQDGVTPHMVVGVGTEALAGEGMIITAGGIDSHTHFLSPQQFPTALANGVTTMFGGGTGPVDGTNATTITPGVWNLHRMLRAAEEYGMNVGLLGKGNSSSRAQLVEQVKAGAIGFLHEDWGTTPSAIDHCLSVADEYDVQVCIHTDTVNEAGYVDDTLRAMNGRAIHAYHIEGAGGGHSPDVITMAGEVNILPSSTTPTIPYTINTVAEHLDMLMTCHHLDKRIRFSQSRIRPGSIAAEDTLHDMGVIAMTSSDSQAMGRAGEVIPRTWQTADKNKKEFGRLTEEKGDNDNFRIKRYISKYTINPAITHGVSEYIGSVEEGKIADLVVWNPAFFGVKPKIIIKGGMVVFSEMGDSNASVPTPQPVYYREMFGHHGKAKFDTSITFVSKVAYENGIKEKLGLERKVLPVKNCRNVTKKDFKFNNTTAKITVNPETFEVFVNGKLCTSKPATEVALASRYTFF 3qgu-a1-m1-cA_3qgu-a1-m1-cB L,L-Diaminopimelate aminotransferase from Chlamydomonas reinhardtii A8IW39 A8IW39 1.55 X-RAY DIFFRACTION 339 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 406 413 GTIDVQRNENFGKLRAGYLFPEIARRRKAHQEKNPDAKIISLGIGDTTEPLPKYIADAMAKAAAGLATREGYSGYGAEQGQGALREAVASTFYGHAGRAADEIFISDGSKCDIARIQMMFGSKPTVAVQDPSYPVYVDTSVMMGMTGDHNGTGFDGIEYMVCNPDNHFFPDLSKAKRTDIIFFCSPNNPTGAAATRAQLTELVNFARKNGSILVYDAAYALYISNPDCPKTIYEIPGADEVAIETCSFSKYAGFTGVRLGWTVVPKALKYANGEPVHADWNRVMTTCFNGASNIVQAGGLACLQPEGLKEMNAMIKFYKENAQILKTTFTEMGFSVYGGDDAPYIWVGFPGKPSWDVFAEILERCNIVTTPGSGYGPAGEGFVRASAFGSRENILEAVRRFKEAYG QAVAQRAGTIDVQRNENFGKLRAGYLFPEIARRRKAHQEKNPDAKIISLGIGDTTEPLPKYIADAMAKAAAGLATREGYSGYGAEQGQGALREAVASTFYGHAGRAADEIFISDGSKCDIARIQMMFGSKPTVAVQDPSYPVYVDTSVMMGMTGDHNGTGFDGIEYMVCNPDNHFFPDLSKAKRTDIIFFCSPNNPTGAAATRAQLTELVNFARKNGSILVYDAAYALYISNPDCPKTIYEIPGADEVAIETCSFSKYAGFTGVRLGWTVVPKALKYANGEPVHADWNRVMTTCFNGASNIVQAGGLACLQPEGLKEMNAMIKFYKENAQILKTTFTEMGFSVYGGDDAPYIWVGFPGKPSWDVFAEILERCNIVTTPGSGYGPAGEGFVRASAFGSRENILEAVRRFKEAYG 3qh6-a2-m1-cA_3qh6-a2-m2-cA 1.8A resolution structure of CT296 from Chlamydia trachomatis A0A0H3MBY2 A0A0H3MBY2 1.8 X-RAY DIFFRACTION 57 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 140 140 3qh7-a2-m1-cA_3qh7-a2-m2-cA SRMRAVLHLEHKRYFQNHGHILFEGLAPVSDCKQLEAELKLFLWRENVHRTLPGVQMIVKRVRLDHLAAELTHRSRVALVRDLWVQKQEEILFDDCDCSVLLCLSGEKAGWGLFFSGEYPQDVFDWGAGDTAIILRFSSA SRMRAVLHLEHKRYFQNHGHILFEGLAPVSDCKQLEAELKLFLWRENVHRTLPGVQMIVKRVRLDHLAAELTHRSRVALVRDLWVQKQEEILFDDCDCSVLLCLSGEKAGWGLFFSGEYPQDVFDWGAGDTAIILRFSSA 3qh9-a1-m1-cA_3qh9-a1-m2-cA Human Liprin-beta2 Coiled-Coil Q8ND30 Q8ND30 2.01 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 QEEKQRKAEELLQELRHLKIKVEELENERNQYEWKLKATKAEVAQLQEQVALKDAEIERLHSQLSR QEEKQRKAEELLQELRHLKIKVEELENERNQYEWKLKATKAEVAQLQEQVALKDAEIERLHSQLSR 3qha-a1-m1-cA_3qha-a1-m1-cB Crystal structure of a Putative oxidoreductase from Mycobacterium avium 104 A0A0H2ZSR3 A0A0H2ZSR3 2.25 X-RAY DIFFRACTION 340 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 277 278 QLKLGYIGLGNMGAPMATRMTEWPGGVTVYDIRIEAMTPLAEAGATLADSVADVAAADLIHITVLDDAQVREVVGELAGHAKPGTVIAIHSTISDTTAVELARDLKARDIHIVDAPVSGGAAAAARGELATMVGADREVYERIKPAFKHWAAVVIHAGEPGAGTRMKLARNMLTFTSYAAACEAMKLAEAAGLDLQALGRVVRHTDALTGGPGAIMVRDNMKDLEPDNFLYQPFLHTRGLGEKDLSLALALGEAVSVDLPLARLAYEGLAAGLGVPH QLKLGYIGLGNMGAPMATRMTEWPGGVTVYDIRIEAMTPLAEAGATLADSVADVAAADLIHITVLDDAQVREVVGELAGHAKPGTVIAIHSTISDTTAVELARDLKARDIHIVDAPVSGGAAAAARGELATMVGADREVYERIKPAFKHWAAVVIHAGEPGAGTRMKLARNMLTFTSYAAACEAMKLAEAAGLDLQALGRVVRHTDALTGGPGAIMVRDNMKDLEPDNFLYQPFLHTRGLGEKDLSLALALGEAVSVDLPLARLAYEGLAAGLGVPHK 3qhq-a1-m2-cB_3qhq-a1-m1-cA Structure of CRISPR-associated protein Csn2 E7S4M0 E7S4M0 2 X-RAY DIFFRACTION 118 1.0 888745 (Streptococcus agalactiae ATCC 13813) 888745 (Streptococcus agalactiae ATCC 13813) 211 222 3qhq-a1-m1-cB_3qhq-a1-m2-cA MVKINFPILDEPLVLSNATILTIEDVSVYSSLVKHFYQYDVDEDDKQKSLKATELMLVTDILGYDVNSAPILKLIHGDLENQFNEKPEVKSMVEKLAATITELIAFECLENELDLEYDEITILELIKALGVKIETQSDTIFEKCFEIIQVYHYLTKKNLLVFVNSGAYLTKDEVIKLCEYINLMQKSVLFLEPRRLYDLPQYVIDKDYFLI MVKINFPILDEPLVLSNATILTIEDVSVYSSLVKHFYQYDVDEHLKLFDDKQKSLKATELMLVTDILGYDVNSAPILKLIHGDLENQFNEKPEVKSMVEKLAATITELIAFECLENELDLEYDEITILELIKALGVKIETQSDTIFEKCFEIIQVYHYLTKKNLLVFVNSGAYLTKDEVIKLCEYINLMQKSVLFLEPRRLYDLPQYVIDKDYFLIGENMVL 3qhq-a1-m2-cB_3qhq-a1-m2-cA Structure of CRISPR-associated protein Csn2 E7S4M0 E7S4M0 2 X-RAY DIFFRACTION 68 1.0 888745 (Streptococcus agalactiae ATCC 13813) 888745 (Streptococcus agalactiae ATCC 13813) 211 222 3qhq-a1-m1-cB_3qhq-a1-m1-cA MVKINFPILDEPLVLSNATILTIEDVSVYSSLVKHFYQYDVDEDDKQKSLKATELMLVTDILGYDVNSAPILKLIHGDLENQFNEKPEVKSMVEKLAATITELIAFECLENELDLEYDEITILELIKALGVKIETQSDTIFEKCFEIIQVYHYLTKKNLLVFVNSGAYLTKDEVIKLCEYINLMQKSVLFLEPRRLYDLPQYVIDKDYFLI MVKINFPILDEPLVLSNATILTIEDVSVYSSLVKHFYQYDVDEHLKLFDDKQKSLKATELMLVTDILGYDVNSAPILKLIHGDLENQFNEKPEVKSMVEKLAATITELIAFECLENELDLEYDEITILELIKALGVKIETQSDTIFEKCFEIIQVYHYLTKKNLLVFVNSGAYLTKDEVIKLCEYINLMQKSVLFLEPRRLYDLPQYVIDKDYFLIGENMVL 3qhx-a1-m1-cA_3qhx-a1-m1-cD Crystal Structure of Cystathionine gamma-synthase MetB (Cgs) from Mycobacterium ulcerans Agy99 bound to HEPES A0PKT3 A0PKT3 1.65 X-RAY DIFFRACTION 95 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 376 376 3qhx-a1-m1-cC_3qhx-a1-m1-cB 3qi6-a1-m1-cC_3qi6-a1-m1-cB 3qi6-a1-m1-cD_3qi6-a1-m1-cA AGLATRAIHSGYRPDPATGAVNAPIYASSTFAQDGVGGLRGGYEYARTGNPTRTALEAALAAVEDAAFGRAFSSGMAAADCALRAMLRPGDHVVIPDDAYGGTFRLIDKVFTGWNVEYTPVALADLDAVRAAIRPTTRLIWVETPTNPLLSIADIAGIAQLGADSSAKVLVDNTFASPALQQPLSLGADVVLHSTTYIGGHSDVVGGALVTNDEELDQSFAFLQNGAGAVPGPFDAYLTMRGLKTLVLRMQRHSENAAAVAEFLAEHPAISTVLYPGLPSHPGHAVAARQMRGFGGMVSVRMRAGRTAAEQLCAKTNIFILAESLGSVESLIEHPSAMTHASTAGSQLEVPDDLVRLSVGIEDVADLLDDLKQALG AGLATRAIHSGYRPDPATGAVNAPIYASSTFAQDGVGGLRGGYEYARTGNPTRTALEAALAAVEDAAFGRAFSSGMAAADCALRAMLRPGDHVVIPDDAYGGTFRLIDKVFTGWNVEYTPVALADLDAVRAAIRPTTRLIWVETPTNPLLSIADIAGIAQLGADSSAKVLVDNTFASPALQQPLSLGADVVLHSTTYIGGHSDVVGGALVTNDEELDQSFAFLQNGAGAVPGPFDAYLTMRGLKTLVLRMQRHSENAAAVAEFLAEHPAISTVLYPGLPSHPGHAVAARQMRGFGGMVSVRMRAGRTAAEQLCAKTNIFILAESLGSVESLIEHPSAMTHASTAGSQLEVPDDLVRLSVGIEDVADLLDDLKQALG 3qhx-a1-m1-cB_3qhx-a1-m1-cD Crystal Structure of Cystathionine gamma-synthase MetB (Cgs) from Mycobacterium ulcerans Agy99 bound to HEPES A0PKT3 A0PKT3 1.65 X-RAY DIFFRACTION 95 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 369 376 3qhx-a1-m1-cC_3qhx-a1-m1-cA 3qi6-a1-m1-cC_3qi6-a1-m1-cA 3qi6-a1-m1-cD_3qi6-a1-m1-cB AGLATRAIHSGYRPDPATGAVNAPIYASSTFAQDGVGGLRGGYEYARTGNPTRTALEAALAAVEDAAFGRAFSSGMAAADCALRAMLRPGDHVVIPDDAYGGTFRLIDKVFTGWNVEYTPVALADLDAVRAAIRPTTRLIWVETPTNPLLSIADIAGIAQLGADSSAKVLVDNTFASPALQQPLSLGADVVLHSTTYIGGHSDVVGGALVTNDEELDQSFAFLQNGAGAVPGPFDAYLTMRGLKTLVLRMQRHSENAAAVAEFLAEHPAISTVLYPGLPSHPGHAVAARQMRGFGGMVSVRMRAGRTAAEQLCAKTNIFILAESLGSVESLIEHPSAGSQLEVPDDLVRLSVGIEDVADLLDDLKQALG AGLATRAIHSGYRPDPATGAVNAPIYASSTFAQDGVGGLRGGYEYARTGNPTRTALEAALAAVEDAAFGRAFSSGMAAADCALRAMLRPGDHVVIPDDAYGGTFRLIDKVFTGWNVEYTPVALADLDAVRAAIRPTTRLIWVETPTNPLLSIADIAGIAQLGADSSAKVLVDNTFASPALQQPLSLGADVVLHSTTYIGGHSDVVGGALVTNDEELDQSFAFLQNGAGAVPGPFDAYLTMRGLKTLVLRMQRHSENAAAVAEFLAEHPAISTVLYPGLPSHPGHAVAARQMRGFGGMVSVRMRAGRTAAEQLCAKTNIFILAESLGSVESLIEHPSAMTHASTAGSQLEVPDDLVRLSVGIEDVADLLDDLKQALG 3qi0-a10-m1-cD_3qi0-a10-m1-cE Structural, thermodynamic and kinetic analysis of the picomolar binding affinity interaction of the beta-lactamase inhibitor protein-II (BLIP-II) with class A beta-lactamases O87916 O87916 2.8 X-RAY DIFFRACTION 24 1.0 1905 (Streptomyces exfoliatus) 1905 (Streptomyces exfoliatus) 269 269 3qi0-a10-m1-cC_3qi0-a10-m1-cD 3qi0-a10-m1-cC_3qi0-a10-m1-cE TSVVAWGGNNDWGEATVPAEAQSGVDAIAGGYFHGLALKGGKVLGWGANLNGQLTMPAATQSGVDAIAAGNYHSLALKDGEVIAWGGNEDGQTTVPAEARSGVDAIAAGAWASYALKDGKVIAWGDDSDGQTTVPAEAQSGVTALDGGVYTALAVKNGGVIAWGDNYFGQTTVPAEAQSGVDDVAGGIFHSLALKDGKVIAWGDNRYKQTTVPTEALSGVSAIASGEWYSLALKNGKVIAWGSSRTAPSSVQSGVSSIEAGPNAAYALK TSVVAWGGNNDWGEATVPAEAQSGVDAIAGGYFHGLALKGGKVLGWGANLNGQLTMPAATQSGVDAIAAGNYHSLALKDGEVIAWGGNEDGQTTVPAEARSGVDAIAAGAWASYALKDGKVIAWGDDSDGQTTVPAEAQSGVTALDGGVYTALAVKNGGVIAWGDNYFGQTTVPAEAQSGVDDVAGGIFHSLALKDGKVIAWGDNRYKQTTVPTEALSGVSAIASGEWYSLALKNGKVIAWGSSRTAPSSVQSGVSSIEAGPNAAYALK 3qi0-a10-m2-cA_3qi0-a10-m1-cC Structural, thermodynamic and kinetic analysis of the picomolar binding affinity interaction of the beta-lactamase inhibitor protein-II (BLIP-II) with class A beta-lactamases O87916 O87916 2.8 X-RAY DIFFRACTION 31 1.0 1905 (Streptomyces exfoliatus) 1905 (Streptomyces exfoliatus) 268 269 3qi0-a10-m1-cB_3qi0-a10-m1-cD 3qi0-a10-m1-cF_3qi0-a10-m1-cE SVVAWGGNNDWGEATVPAEAQSGVDAIAGGYFHGLALKGGKVLGWGANLNGQLTMPAATQSGVDAIAAGNYHSLALKDGEVIAWGGNEDGQTTVPAEARSGVDAIAAGAWASYALKDGKVIAWGDDSDGQTTVPAEAQSGVTALDGGVYTALAVKNGGVIAWGDNYFGQTTVPAEAQSGVDDVAGGIFHSLALKDGKVIAWGDNRYKQTTVPTEALSGVSAIASGEWYSLALKNGKVIAWGSSRTAPSSVQSGVSSIEAGPNAAYALK TSVVAWGGNNDWGEATVPAEAQSGVDAIAGGYFHGLALKGGKVLGWGANLNGQLTMPAATQSGVDAIAAGNYHSLALKDGEVIAWGGNEDGQTTVPAEARSGVDAIAAGAWASYALKDGKVIAWGDDSDGQTTVPAEAQSGVTALDGGVYTALAVKNGGVIAWGDNYFGQTTVPAEAQSGVDDVAGGIFHSLALKDGKVIAWGDNRYKQTTVPTEALSGVSAIASGEWYSLALKNGKVIAWGSSRTAPSSVQSGVSSIEAGPNAAYALK 3qi0-a9-m2-cA_3qi0-a9-m1-cE Structural, thermodynamic and kinetic analysis of the picomolar binding affinity interaction of the beta-lactamase inhibitor protein-II (BLIP-II) with class A beta-lactamases O87916 O87916 2.8 X-RAY DIFFRACTION 56 1.0 1905 (Streptomyces exfoliatus) 1905 (Streptomyces exfoliatus) 268 269 3qi0-a10-m1-cB_3qi0-a10-m1-cC 3qi0-a10-m1-cF_3qi0-a10-m1-cD 3qi0-a10-m2-cA_3qi0-a10-m1-cE 3qi0-a7-m1-cF_3qi0-a7-m1-cD 3qi0-a8-m1-cB_3qi0-a8-m1-cC SVVAWGGNNDWGEATVPAEAQSGVDAIAGGYFHGLALKGGKVLGWGANLNGQLTMPAATQSGVDAIAAGNYHSLALKDGEVIAWGGNEDGQTTVPAEARSGVDAIAAGAWASYALKDGKVIAWGDDSDGQTTVPAEAQSGVTALDGGVYTALAVKNGGVIAWGDNYFGQTTVPAEAQSGVDDVAGGIFHSLALKDGKVIAWGDNRYKQTTVPTEALSGVSAIASGEWYSLALKNGKVIAWGSSRTAPSSVQSGVSSIEAGPNAAYALK TSVVAWGGNNDWGEATVPAEAQSGVDAIAGGYFHGLALKGGKVLGWGANLNGQLTMPAATQSGVDAIAAGNYHSLALKDGEVIAWGGNEDGQTTVPAEARSGVDAIAAGAWASYALKDGKVIAWGDDSDGQTTVPAEAQSGVTALDGGVYTALAVKNGGVIAWGDNYFGQTTVPAEAQSGVDDVAGGIFHSLALKDGKVIAWGDNRYKQTTVPTEALSGVSAIASGEWYSLALKNGKVIAWGSSRTAPSSVQSGVSSIEAGPNAAYALK 3qi3-a1-m1-cA_3qi3-a1-m2-cB Crystal structure of PDE9A(Q453E) in complex with inhibitor BAY73-6691 O76083 O76083 2.3 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 325 325 3dyq-a2-m1-cA_3dyq-a2-m2-cB 3dys-a2-m1-cA_3dys-a2-m2-cB 3n3z-a1-m1-cA_3n3z-a1-m1-cB 3qi4-a1-m1-cA_3qi4-a1-m1-cB 4g2j-a3-m1-cA_4g2j-a3-m2-cB 4g2l-a3-m1-cA_4g2l-a3-m2-cB 4gh6-a1-m1-cA_4gh6-a1-m1-cB 4y86-a2-m1-cA_4y86-a2-m2-cB PTYPKYLLSPETIEALRKPTFDVWLWEPNEMLSCLEHMYHDLGLVRDFSINPVTLRRWLFCVHDNYRNNPFHNFRHCFCVAQMMYSMVWLCSLQEKFSQTDILILMTAAICHDLDHPGYNNTYQINARTELAVRYNDISPLENHHCAVAFQILAEPECNIFSNIPPDGFKQIRQGMITLILATDMARHAEIMDSFKEKMENFDYSNEEHMTLLKMILIKCCDISNEVRPMEVAEPWVDCLLEEYFMQSDREKSEGLPVAPFMDRDKVTKATAEIGFIKFVLIPMFETVTKLFPMVEEIMLQPLWESRDRYEELKRIDDAMKELQK PTYPKYLLSPETIEALRKPTFDVWLWEPNEMLSCLEHMYHDLGLVRDFSINPVTLRRWLFCVHDNYRNNPFHNFRHCFCVAQMMYSMVWLCSLQEKFSQTDILILMTAAICHDLDHPGYNNTYQINARTELAVRYNDISPLENHHCAVAFQILAEPECNIFSNIPPDGFKQIRQGMITLILATDMARHAEIMDSFKEKMENFDYSNEEHMTLLKMILIKCCDISNEVRPMEVAEPWVDCLLEEYFMQSDREKSEGLPVAPFMDRDKVTKATAEIGFIKFVLIPMFETVTKLFPMVEEIMLQPLWESRDRYEELKRIDDAMKELQK 3qi6-a1-m1-cB_3qi6-a1-m1-cA Crystal Structure of Cystathionine gamma-synthase MetB (Cgs) from Mycobacterium ulcerans Agy99 A0PKT3 A0PKT3 1.91 X-RAY DIFFRACTION 198 0.995 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 373 374 3qhx-a1-m1-cB_3qhx-a1-m1-cA 3qhx-a1-m1-cC_3qhx-a1-m1-cD 3qi6-a1-m1-cC_3qi6-a1-m1-cD RFAGLATRAIHSGYRPDPATGAVNAPIYASSTFAQDGVGGLRGGYEYARTGNPTRTALEAALAAVEDAAFGRAFSSGMAAADCALRAMLRPGDHVVIPDDAYGGTFRLIDKVFTGWNVEYTPVALADLDAVRAAIRPTTRLIWVETPTNPLLSIADIAGIAQLGADSSAKVLVDNTFASPALQQPLSLGADVVLHSTTYIGGHSDVVGGALVTNDEELDQSFAFLQNGAGAVPGPFDAYLTMRGLKTLVLRMQRHSENAAAVAEFLAEHPAISTVLYPGLPSHPGHAVAARQMRGFGGMVSVRMRAGRTAAEQLCAKTNIFILAESLGSVESLIEHPSAMTGSQLEVPDDLVRLSVGIEDVADLLDDLKQALG AGLATRAIHSGYRPDPATGAVNAPIYASSTFAQDGVGGLRGGYEYARTGNPTRTALEAALAAVEDAAFGRAFSSGMAAADCALRAMLRPGDHVVIPDDAYGGTFRLIDKVFTGWNVEYTPVALADLDAVRAAIRPTTRLIWVETPTNPLLSIADIAGIAQLGADSSAKVLVDNTFASPALQQPLSLGADVVLHSTTYIGGHSDVVGGALVTNDEELDQSFAFLQNGAGAVPGPFDAYLTMRGLKTLVLRMQRHSENAAAVAEFLAEHPAISTVLYPGLPSHPGHAVAARQMRGFGGMVSVRMRAGRTAAEQLCAKTNIFILAESLGSVESLIEHPSAMTHTAGSQLEVPDDLVRLSVGIEDVADLLDDLKQALG 3qik-a1-m1-cA_3qik-a1-m2-cA Crystal structure of the first PDZ domain of PREX1 Q8TCU6 Q8TCU6 2.285 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 GKNKQLRNDFKLVENILAKRLLILPQEEDYGFDIEEKNKAVVVKSVQRGSLAEVAGLQVGRKIYSINEDLVFLRPFSEVESILNQSFCSRRPLRLLVATKA GKNKQLRNDFKLVENILAKRLLILPQEEDYGFDIEEKNKAVVVKSVQRGSLAEVAGLQVGRKIYSINEDLVFLRPFSEVESILNQSFCSRRPLRLLVATKA 3qit-a2-m1-cC_3qit-a2-m1-cD Thioesterase Domain From Curacin Biosynthetic Pathway D0E8E2 D0E8E2 1.68 X-RAY DIFFRACTION 103 1.0 276768 (Moorena producens 19L) 276768 (Moorena producens 19L) 270 283 3qit-a1-m1-cA_3qit-a1-m1-cB NAMEEKFLEFGGNQICLCSWGSPEHPVVLCIHGILEQGLAWQEVALPLAAQGYRVVAPDLFGHGRSSHLEMVTSYSSLTFLAQIDRVIQELPDQPLLLVGHSMGAMLATAIASVRPKKIKELILVELPLPAEESAVNQLTTCLDYLSSTPQHPIFPDVATAASRLRQAIPSLSEEFSYILAQRITQPNQGGVRWSWDAIIRTRGRSQYLEMLKSIQVPTTLVYGDSSKLNRPEDLQQQKMTMTQAKRVFLSGGHNLHIDAAAALASLILT NAMEEKFLEFGGNQICLCSWGSPEHPVVLCIHGILEQGLAWQEVALPLAAQGYRVVAPDLFGHGRSSHLEMVTSYSSLTFLAQIDRVIQELPDQPLLLVGHSMGAMLATAIASVRPKKIKELILVELPLPAEESKKESAVNQLTTCLDYLSSTPQHPIFPDVATAASRLRQAIPSLSEEFSYILAQRITQPNQGGVRWSWDAIIRTRLGLNNLPGGRSQYLEMLKSIQVPTTLVYGDSSKLNRPEDLQQQKMTMTQAKRVFLSGGHNLHIDAAAALASLILTS 3qiv-a1-m2-cB_3qiv-a1-m2-cA Crystal structure of a putative short-chain dehydrogenase or 3-oxoacyl-[acyl-carrier-protein] reductase from Mycobacterium paratuberculosis ATCC BAA-968 / K-10 Q743I2 Q743I2 2.25 X-RAY DIFFRACTION 18 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 195 199 3qiv-a1-m1-cB_3qiv-a1-m1-cA MRFENKVGIVTGSGGGIGQAYAEALAREGAAVVVADINAEAAEAVAKQIVADGGTAISVAVDVSDPESAKAMADRTLAEFGGIDYLVNNAAIFGGMKLDFLLTIDPEYYKKFMSVNLDGALWCTRAVYKKMTKRGGGAIVNQSVGINGLTQQLSRELGGRNIRINAIAPPDDLVGMCLFLLSDEASWITGQIFNV MRFENKVGIVTGSGGGIGQAYAEALAREGAAVVVADINAEAAEAVAKQIVADGGTAISVAVDVSDPESAKAMADRTLAEFGGIDYLVNNAAIFGGMKLDFLLTIDPEYYKKFMSVNLDGALWCTRAVYKKMTKRGGGAIVNQSSLAKVGINGLTQQLSRELGGRNIRINAIAPPDDLVGMCLFLLSDEASWITGQIFNV 3qiv-a3-m1-cB_3qiv-a3-m2-cB Crystal structure of a putative short-chain dehydrogenase or 3-oxoacyl-[acyl-carrier-protein] reductase from Mycobacterium paratuberculosis ATCC BAA-968 / K-10 Q743I2 Q743I2 2.25 X-RAY DIFFRACTION 40 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 195 195 3qiv-a1-m1-cA_3qiv-a1-m2-cA 3qiv-a1-m1-cB_3qiv-a1-m2-cB 3qiv-a2-m1-cA_3qiv-a2-m2-cA MRFENKVGIVTGSGGGIGQAYAEALAREGAAVVVADINAEAAEAVAKQIVADGGTAISVAVDVSDPESAKAMADRTLAEFGGIDYLVNNAAIFGGMKLDFLLTIDPEYYKKFMSVNLDGALWCTRAVYKKMTKRGGGAIVNQSVGINGLTQQLSRELGGRNIRINAIAPPDDLVGMCLFLLSDEASWITGQIFNV MRFENKVGIVTGSGGGIGQAYAEALAREGAAVVVADINAEAAEAVAKQIVADGGTAISVAVDVSDPESAKAMADRTLAEFGGIDYLVNNAAIFGGMKLDFLLTIDPEYYKKFMSVNLDGALWCTRAVYKKMTKRGGGAIVNQSVGINGLTQQLSRELGGRNIRINAIAPPDDLVGMCLFLLSDEASWITGQIFNV 3qj5-a1-m1-cA_3qj5-a1-m1-cB S-nitrosoglutathione reductase (GSNOR) in complex with N6022 P11766 P11766 1.9 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 372 373 1m6h-a1-m1-cA_1m6h-a1-m1-cB 1m6w-a1-m1-cA_1m6w-a1-m1-cB 1ma0-a1-m1-cA_1ma0-a1-m1-cB 1mc5-a1-m1-cA_1mc5-a1-m1-cB 1mp0-a1-m1-cA_1mp0-a1-m1-cB 1teh-a1-m2-cA_1teh-a1-m1-cA 1teh-a2-m2-cB_1teh-a2-m1-cB 2fze-a1-m1-cA_2fze-a1-m1-cB 2fzw-a1-m1-cA_2fzw-a1-m1-cB NEVIKCKAAVAWEAGKPLSIEEIEVAPPKAHEVRIKIIATAVCHTDAYTLSGADPEGCFPVILGHEGAGIVESVGEGVTKLKAGDTVIPLYIPQCGECKFCLNPKTNLCQKIRVTQGKGLMPDGTSRFTCKGKTILHYMGTSTFSEYTVVADISVAKIDPLAPLDKVCLLGCGISTGYGAAVNTAKLEPGSVCAVFGLGGVGLAVIMGCKVAGASRIIGVDINKDKFARAKEFGATECINPQDFSKPIQEVLIEMTDGGVDYSFECIGNVKVMRAALEACHKGWGVSVVVGVAASGEEIATRPFQLVTGRTWKGTAFGGWKSVESVPKLVSEYMSKKIKVDEFVTHNLSFDEINKAFELMHSGKSIRTVVKI ANEVIKCKAAVAWEAGKPLSIEEIEVAPPKAHEVRIKIIATAVCHTDAYTLSGADPEGCFPVILGHEGAGIVESVGEGVTKLKAGDTVIPLYIPQCGECKFCLNPKTNLCQKIRVTQGKGLMPDGTSRFTCKGKTILHYMGTSTFSEYTVVADISVAKIDPLAPLDKVCLLGCGISTGYGAAVNTAKLEPGSVCAVFGLGGVGLAVIMGCKVAGASRIIGVDINKDKFARAKEFGATECINPQDFSKPIQEVLIEMTDGGVDYSFECIGNVKVMRAALEACHKGWGVSVVVGVAASGEEIATRPFQLVTGRTWKGTAFGGWKSVESVPKLVSEYMSKKIKVDEFVTHNLSFDEINKAFELMHSGKSIRTVVKI 3qjg-a1-m1-cE_3qjg-a1-m1-cL Epidermin biosynthesis protein EpiD from Staphylococcus aureus A0A0H2WWM9 A0A0H2WWM9 2.04 X-RAY DIFFRACTION 36 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 170 170 3qjg-a1-m1-cB_3qjg-a1-m1-cK 3qjg-a1-m1-cC_3qjg-a1-m1-cI 3qjg-a1-m1-cD_3qjg-a1-m1-cA 3qjg-a1-m1-cF_3qjg-a1-m1-cH 3qjg-a1-m1-cG_3qjg-a1-m1-cJ ENVLICLCGSVNSINISHYIIELKSKFDEVNVIASTNGRKFINGEILKQFCDNYYDEFEDPFLNHVDIANKHDKIIILPATSNTINKIANGICDNLLLTICHTAFEKLSIFPNMNLRMWENPVTQNNIRLLKDYGVSIYPANISESYELASKTFKKNVVAPEPYKVLEFI ENVLICLCGSVNSINISHYIIELKSKFDEVNVIASTNGRKFINGEILKQFCDNYYDEFEDPFLNHVDIANKHDKIIILPATSNTINKIANGICDNLLLTICHTAFEKLSIFPNMNLRMWENPVTQNNIRLLKDYGVSIYPANISESYELASKTFKKNVVAPEPYKVLEFI 3qjg-a1-m1-cK_3qjg-a1-m1-cL Epidermin biosynthesis protein EpiD from Staphylococcus aureus A0A0H2WWM9 A0A0H2WWM9 2.04 X-RAY DIFFRACTION 52 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 170 170 3qjg-a1-m1-cB_3qjg-a1-m1-cA 3qjg-a1-m1-cB_3qjg-a1-m1-cC 3qjg-a1-m1-cC_3qjg-a1-m1-cA 3qjg-a1-m1-cD_3qjg-a1-m1-cE 3qjg-a1-m1-cD_3qjg-a1-m1-cF 3qjg-a1-m1-cE_3qjg-a1-m1-cF 3qjg-a1-m1-cG_3qjg-a1-m1-cH 3qjg-a1-m1-cG_3qjg-a1-m1-cI 3qjg-a1-m1-cH_3qjg-a1-m1-cI 3qjg-a1-m1-cJ_3qjg-a1-m1-cK 3qjg-a1-m1-cJ_3qjg-a1-m1-cL ENVLICLCGSVNSINISHYIIELKSKFDEVNVIASTNGRKFINGEILKQFCDNYYDEFEDPFLNHVDIANKHDKIIILPATSNTINKIANGICDNLLLTICHTAFEKLSIFPNMNLRMWENPVTQNNIRLLKDYGVSIYPANISESYELASKTFKKNVVAPEPYKVLEFI ENVLICLCGSVNSINISHYIIELKSKFDEVNVIASTNGRKFINGEILKQFCDNYYDEFEDPFLNHVDIANKHDKIIILPATSNTINKIANGICDNLLLTICHTAFEKLSIFPNMNLRMWENPVTQNNIRLLKDYGVSIYPANISESYELASKTFKKNVVAPEPYKVLEFI 3qjl-a1-m1-cA_3qjl-a1-m1-cB One RAMP protein binding different RNA substrates O58088 O58088 2.7009 X-RAY DIFFRACTION 12 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 240 240 HMRIEVKLLPLKDNPILPFNYNYEVYSQILEKVNSIEPTIAKLLSSPHGFWTFSRIIVRKRKILPDKGIEILSDDVSLYISSSNEDIIRAIAEAVEKSPEFKIGELSFLVGDIKAIKVKELGKENVFSTLSPIVVRTVKFEGNKLRHWDLYPHDELFMDRLRKVMILRYSEVMGETPKDRDFTIEVLKFKPTRLMVGSSYIRGSLMVFRYAGSEEIARFGYENGFGEKTGLGFGMVKLIE HMRIEVKLLPLKDNPILPFNYNYEVYSQILEKVNSIEPTIAKLLSSPHGFWTFSRIIVRKRKILPDKGIEILSDDVSLYISSSNEDIIRAIAEAVEKSPEFKIGELSFLVGDIKAIKVKELGKENVFSTLSPIVVRTVKFEGNKLRHWDLYPHDELFMDRLRKVMILRYSEVMGETPKDRDFTIEVLKFKPTRLMVGSSYIRGSLMVFRYAGSEEIARFGYENGFGEKTGLGFGMVKLIE 3qk3-a1-m1-cB_3qk3-a1-m1-cC Crystal structure of human beta-crystallin B3 P26998 P26998 1.95 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 3qk3-a1-m1-cA_3qk3-a1-m1-cB 3qk3-a1-m1-cA_3qk3-a1-m1-cC SYKVILYELENFQGKRCELSAECPSLTDSLLEKVGSIQVESGPWLAFESRAFRGEQFVLEKGDYPRWDAWSNSRDSDSLLSLRPLNIDSPHHKLHLFENPAFSGRKMEIVDDDVPSLWAHGFQDRVASVRAINGTWVGYEFPGYRGRQYVFERGEYRHWNEWDASQPQLQSVRRIR SYKVILYELENFQGKRCELSAECPSLTDSLLEKVGSIQVESGPWLAFESRAFRGEQFVLEKGDYPRWDAWSNSRDSDSLLSLRPLNIDSPHHKLHLFENPAFSGRKMEIVDDDVPSLWAHGFQDRVASVRAINGTWVGYEFPGYRGRQYVFERGEYRHWNEWDASQPQLQSVRRIR 3qk7-a2-m1-cB_3qk7-a2-m1-cC Crystal structure of putative Transcriptional regulator from Yersinia pestis biovar Microtus str. 91001 A0A0H2W507 A0A0H2W507 2.7 X-RAY DIFFRACTION 95 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 275 276 3qk7-a1-m1-cA_3qk7-a1-m2-cA RTDAIALAYPSRPRVLNNSTFLEISWIGIELGKRGLDLLLIPDEPGEKYQSLIHLVETRRVDALIVAHTQPEDFRLQYLQKQNFPFLALGRSHLPKPYAWFDFDNHAGASLAVKRLLELGHQRIAFVSTDARISYVDQRLQGYVQTSEAGLPLAGYLQKADPTRPGGYLAASRLLALEVPPTAIITDCNLGDGVASALDKAGLLGGEGISLIAYDGLPDDSLLDIAVTPIVQNTRTSVGKQIASICDLLGGKDPKELQVLWQPEIGEGETDGVNR RTDAIALAYPSRPRVLNNSTFLEISWIGIELGKRGLDLLLIPDEPGEKYQSLIHLVETRRVDALIVAHTQPEDFRLQYLQKQNFPFLALGRSHLPKPYAWFDFDNHAGASLAVKRLLELGHQRIAFVSTDARISYVDQRLQGYVQTSEAGLPLAGYLQKADPTRPGGYLAASRLLALEVPPTAIITDCNLGDGVASALDKAGLLGGEGISLIAYDGLPDDSLLDIAVTPIVQNTRTSVGKQIASICDLLGGKDPKELQVLWQPEIGEGETDGVNRR 3qk8-a1-m1-cA_3qk8-a1-m1-cC Crystal structure of enoyl-coA hydratase EchA15 from Mycobacterium marinum in complex with an unknown ligand B2HM22 B2HM22 1.6 X-RAY DIFFRACTION 22 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 259 259 3qk8-a1-m1-cB_3qk8-a1-m1-cF 3qk8-a1-m1-cD_3qk8-a1-m1-cE TYQDFPSLRFEPGEHGVLNLVLDSPGLNSVGPQMHRDLADVWPVIDRDPDVRVVLVRGEGKAFSSGGSFELIDETIGDYEGRIRIMREARDLVLNLVNLDKPVVSAIRGPAVGAGLVVALLADISVASATAKIIDGHTKLGVAAGDHAAICWPLLVGMAKAKYYLLTCETLSGEEAERIGLVSTCVDDDEVLPTATRLAENLAQGAQNAIRWTKRSLNHWYRMFGPTFETSLGLEFLGFTGPDVQEGLAAHRQKRPARF TYQDFPSLRFEPGEHGVLNLVLDSPGLNSVGPQMHRDLADVWPVIDRDPDVRVVLVRGEGKAFSSGGSFELIDETIGDYEGRIRIMREARDLVLNLVNLDKPVVSAIRGPAVGAGLVVALLADISVASATAKIIDGHTKLGVAAGDHAAICWPLLVGMAKAKYYLLTCETLSGEEAERIGLVSTCVDDDEVLPTATRLAENLAQGAQNAIRWTKRSLNHWYRMFGPTFETSLGLEFLGFTGPDVQEGLAAHRQKRPARF 3qk8-a1-m1-cA_3qk8-a1-m1-cF Crystal structure of enoyl-coA hydratase EchA15 from Mycobacterium marinum in complex with an unknown ligand B2HM22 B2HM22 1.6 X-RAY DIFFRACTION 116 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 259 259 3qk8-a1-m1-cA_3qk8-a1-m1-cD 3qk8-a1-m1-cB_3qk8-a1-m1-cC 3qk8-a1-m1-cB_3qk8-a1-m1-cE 3qk8-a1-m1-cC_3qk8-a1-m1-cE 3qk8-a1-m1-cD_3qk8-a1-m1-cF TYQDFPSLRFEPGEHGVLNLVLDSPGLNSVGPQMHRDLADVWPVIDRDPDVRVVLVRGEGKAFSSGGSFELIDETIGDYEGRIRIMREARDLVLNLVNLDKPVVSAIRGPAVGAGLVVALLADISVASATAKIIDGHTKLGVAAGDHAAICWPLLVGMAKAKYYLLTCETLSGEEAERIGLVSTCVDDDEVLPTATRLAENLAQGAQNAIRWTKRSLNHWYRMFGPTFETSLGLEFLGFTGPDVQEGLAAHRQKRPARF TYQDFPSLRFEPGEHGVLNLVLDSPGLNSVGPQMHRDLADVWPVIDRDPDVRVVLVRGEGKAFSSGGSFELIDETIGDYEGRIRIMREARDLVLNLVNLDKPVVSAIRGPAVGAGLVVALLADISVASATAKIIDGHTKLGVAAGDHAAICWPLLVGMAKAKYYLLTCETLSGEEAERIGLVSTCVDDDEVLPTATRLAENLAQGAQNAIRWTKRSLNHWYRMFGPTFETSLGLEFLGFTGPDVQEGLAAHRQKRPARF 3qk8-a1-m1-cE_3qk8-a1-m1-cF Crystal structure of enoyl-coA hydratase EchA15 from Mycobacterium marinum in complex with an unknown ligand B2HM22 B2HM22 1.6 X-RAY DIFFRACTION 33 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 259 259 3qk8-a1-m1-cA_3qk8-a1-m1-cB 3qk8-a1-m1-cC_3qk8-a1-m1-cD TYQDFPSLRFEPGEHGVLNLVLDSPGLNSVGPQMHRDLADVWPVIDRDPDVRVVLVRGEGKAFSSGGSFELIDETIGDYEGRIRIMREARDLVLNLVNLDKPVVSAIRGPAVGAGLVVALLADISVASATAKIIDGHTKLGVAAGDHAAICWPLLVGMAKAKYYLLTCETLSGEEAERIGLVSTCVDDDEVLPTATRLAENLAQGAQNAIRWTKRSLNHWYRMFGPTFETSLGLEFLGFTGPDVQEGLAAHRQKRPARF TYQDFPSLRFEPGEHGVLNLVLDSPGLNSVGPQMHRDLADVWPVIDRDPDVRVVLVRGEGKAFSSGGSFELIDETIGDYEGRIRIMREARDLVLNLVNLDKPVVSAIRGPAVGAGLVVALLADISVASATAKIIDGHTKLGVAAGDHAAICWPLLVGMAKAKYYLLTCETLSGEEAERIGLVSTCVDDDEVLPTATRLAENLAQGAQNAIRWTKRSLNHWYRMFGPTFETSLGLEFLGFTGPDVQEGLAAHRQKRPARF 3qk9-a1-m1-cA_3qk9-a1-m2-cB Yeast Tim44 C-terminal domain complexed with Cymal-3 Q01852 Q01852 3.1 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 174 175 QSLKNKLWDESENPLIVVMRKITNESSRVYSQFKFSNESFTRHLREYIVPEILEAYVKGDVKVLKKWFSEAPFNVYAAQQKIFKEQDVYADGRILDIRGVEIVSAKLLAPQDIPVLVVGCRAQEINLYRKKKTGEIAAGDEANILMSSYAMVFTRDPEGWKILEFVRGGSRQFT IQSLKNKLWDESENPLIVVMRKITNESSRVYSQFKFSNESFTRHLREYIVPEILEAYVKGDVKVLKKWFSEAPFNVYAAQQKIFKEQDVYADGRILDIRGVEIVSAKLLAPQDIPVLVVGCRAQEINLYRKKKTGEIAAGDEANILMSSYAMVFTRDPEGWKILEFVRGGSRQFT 3qka-a1-m1-cA_3qka-a1-m1-cF Crystal structure of enoyl-CoA hydratase EchA5 from Mycobacterium marinum B2HSK3 B2HSK3 2.15 X-RAY DIFFRACTION 109 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 233 239 3qka-a1-m1-cA_3qka-a1-m1-cB 3qka-a1-m1-cB_3qka-a1-m1-cF 3qka-a1-m1-cC_3qka-a1-m1-cD 3qka-a1-m1-cC_3qka-a1-m1-cE 3qka-a1-m1-cE_3qka-a1-m1-cD DLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAE DLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALEGAG 3qka-a1-m1-cB_3qka-a1-m1-cC Crystal structure of enoyl-CoA hydratase EchA5 from Mycobacterium marinum B2HSK3 B2HSK3 2.15 X-RAY DIFFRACTION 13 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 236 243 DLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALE VSDLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALEGAGRF 3qka-a1-m1-cF_3qka-a1-m1-cC Crystal structure of enoyl-CoA hydratase EchA5 from Mycobacterium marinum B2HSK3 B2HSK3 2.15 X-RAY DIFFRACTION 30 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 239 243 DLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALEGAG VSDLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALEGAGRF 3qka-a1-m1-cF_3qka-a1-m1-cD Crystal structure of enoyl-CoA hydratase EchA5 from Mycobacterium marinum B2HSK3 B2HSK3 2.15 X-RAY DIFFRACTION 46 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 239 248 3qka-a1-m1-cA_3qka-a1-m1-cC DLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALEGAG DLVQVERNGPVTTVIINRPQARNAVNGPTAAALYSAFAEFDRDESASVAVLCGNGGTFCAGADLKAFGTAEANAVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEQDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRAVQADEALAIGLANRVVPNGQARQAAEELAAQLAALPQQCLRSDRLSALQQWGLPESAALDLEFASISRVAAEALEGAGRFAAGAGRH 3qkb-a1-m1-cB_3qkb-a1-m1-cA Crystal structure of a Protein with unknown function which belongs to Pfam DUF74 family (PEPE_0654) from Pediococcus pentosaceus ATCC 25745 at 2.73 A resolution Q03GF5 Q03GF5 2.73 X-RAY DIFFRACTION 69 1.0 278197 (Pediococcus pentosaceus ATCC 25745) 278197 (Pediococcus pentosaceus ATCC 25745) 90 91 3qkb-a1-m1-cC_3qkb-a1-m1-cB 3qkb-a1-m1-cC_3qkb-a1-m1-cD 3qkb-a1-m1-cE_3qkb-a1-m1-cA 3qkb-a1-m1-cE_3qkb-a1-m1-cD QGFITTEGINAGYTIKDVVEATSSLLASEDIDKYNFDQLFDEAKQKLKKKADLLEGDGIIGLKYNTEVVEVNGAPKFLVVHGYGTVILID FQGFITTEGINAGYTIKDVVEATSSLLASEDIDKYNFDQLFDEAKQKLKKKADLLEGDGIIGLKYNTEVVEVNGAPKFLVVHGYGTVILID 3qkc-a1-m1-cA_3qkc-a1-m1-cB CRYSTAL STRUCTURE OF geranyl diphosphate synthase small subunit from Antirrhinum majus Q6QLV2 Q6QLV2 2.2 X-RAY DIFFRACTION 155 1.0 4151 (Antirrhinum majus) 4151 (Antirrhinum majus) 256 256 LTRTQTYRATIESDIESYLKKAIPIRAPESVFEPMHHLTFAAPRTSASALCVAACELVGGDRSDAMAAAAAVHLMHVAAYTHENLPLTDGPMSKSEIQHKFDPNIELLTGDGIIPFGLELMARSMDPTRNNPDRILRAIIELTRVMGSEGIVEGQYHELGLNQLNDLELIEYVCKKKEGTLHACGAACGAILGGCDEDKIEKLRRFGLYVGTVQGLLGKNRSGFEGRIKELKELAVKELESFGGEKIELIRGVFEL LTRTQTYRATIESDIESYLKKAIPIRAPESVFEPMHHLTFAAPRTSASALCVAACELVGGDRSDAMAAAAAVHLMHVAAYTHENLPLTDGPMSKSEIQHKFDPNIELLTGDGIIPFGLELMARSMDPTRNNPDRILRAIIELTRVMGSEGIVEGQYHELGLNQLNDLELIEYVCKKKEGTLHACGAACGAILGGCDEDKIEKLRRFGLYVGTVQGLLGKNRSGFEGRIKELKELAVKELESFGGEKIELIRGVFEL 3qke-a4-m1-cF_3qke-a4-m1-cG Crystal structure of D-mannonate dehydratase from Chromohalobacter Salexigens complexed with Mg and D-Gluconate Q1QT89 Q1QT89 1.55 X-RAY DIFFRACTION 152 1.0 158080 (Chromohalobacter salexigens) 158080 (Chromohalobacter salexigens) 396 397 3bsm-a3-m1-cA_3bsm-a3-m1-cC 3bsm-a3-m1-cB_3bsm-a3-m1-cD 3bsm-a3-m2-cA_3bsm-a3-m2-cC 3bsm-a3-m2-cB_3bsm-a3-m2-cD 3ow1-a1-m1-cA_3ow1-a1-m1-cB 3ow1-a2-m1-cC_3ow1-a2-m1-cD 3ow1-a3-m1-cF_3ow1-a3-m1-cE 3ow1-a4-m1-cG_3ow1-a4-m1-cH 3ow1-a5-m1-cA_3ow1-a5-m1-cB 3ow1-a5-m1-cC_3ow1-a5-m1-cD 3ow1-a5-m1-cF_3ow1-a5-m1-cE 3ow1-a5-m1-cG_3ow1-a5-m1-cH 3p93-a1-m1-cH_3p93-a1-m1-cA 3p93-a2-m1-cD_3p93-a2-m1-cB 3p93-a3-m1-cG_3p93-a3-m1-cC 3p93-a4-m1-cF_3p93-a4-m1-cE 3p93-a5-m1-cD_3p93-a5-m1-cB 3p93-a5-m1-cF_3p93-a5-m1-cE 3p93-a5-m1-cG_3p93-a5-m1-cC 3p93-a5-m1-cH_3p93-a5-m1-cA 3pk7-a1-m1-cB_3pk7-a1-m1-cA 3pk7-a2-m1-cD_3pk7-a2-m1-cC 3pk7-a3-m1-cH_3pk7-a3-m1-cE 3pk7-a4-m1-cF_3pk7-a4-m1-cG 3qke-a1-m1-cA_3qke-a1-m1-cB 3qke-a2-m1-cC_3qke-a2-m1-cE 3qke-a3-m1-cD_3qke-a3-m1-cH 3rgt-a1-m1-cA_3rgt-a1-m1-cC 3rgt-a2-m1-cD_3rgt-a2-m1-cB 3rgt-a3-m1-cA_3rgt-a3-m1-cC 3rgt-a3-m1-cD_3rgt-a3-m1-cB 3rgt-a3-m2-cA_3rgt-a3-m2-cC 3rgt-a3-m2-cD_3rgt-a3-m2-cB 4f4r-a1-m1-cA_4f4r-a1-m8-cA 4f4r-a1-m2-cA_4f4r-a1-m7-cA 4f4r-a1-m3-cA_4f4r-a1-m6-cA 4f4r-a1-m4-cA_4f4r-a1-m5-cA 4f4r-a2-m1-cA_4f4r-a2-m8-cA 4k2s-a1-m1-cB_4k2s-a1-m1-cA 4k2s-a2-m1-cE_4k2s-a2-m1-cC 4k2s-a3-m1-cD_4k2s-a3-m1-cH 4k2s-a4-m1-cF_4k2s-a4-m1-cG 4kpl-a1-m1-cA_4kpl-a1-m1-cE 4kpl-a2-m1-cD_4kpl-a2-m1-cB 4kpl-a3-m1-cG_4kpl-a3-m1-cC 4kpl-a4-m1-cH_4kpl-a4-m1-cF 4kt2-a1-m1-cA_4kt2-a1-m1-cE 4kt2-a2-m1-cD_4kt2-a2-m1-cB 4kt2-a3-m1-cC_4kt2-a3-m1-cG 4kt2-a4-m1-cF_4kt2-a4-m1-cH 4kws-a1-m1-cB_4kws-a1-m1-cA 4kws-a2-m1-cD_4kws-a2-m1-cC 4kws-a3-m1-cH_4kws-a3-m1-cE 4kws-a4-m1-cF_4kws-a4-m1-cG LKIRDAYTIVTCPGRNFVTLKIVTESGTHGIGDATLNGREMAVAAYLDEHVVPALIGRDAGRIEDTWQYLYRGAYWRRGPVTMTAIAAVDMALWDIKAKAAGMPLYQLLGGKSRERVMTYAHCTGQTIEDCLGEVARHVELGYRAVRVQSGVPGIETTYGVYEPADSSLPAEHVWSTEKYLNHAPKLFAAVRERFGDDLHVLHDVHHRLTPIEAARLGKAVEPYHLFWLEDCVPAENQESLRLIREHTTTPLAIGEVFNSIHDCRELIQNQWIDYIRMPLTHGGGITAMRRVADLASLYHVRTGFHGPTDLSPVCLGAAIHFDTWVPNFGIQEHMPHTDETDAVFPHDYRFEDGHFLAGESPGHGVDIDEELAAKYPYERASLPVNRLEDGTLWHW LKIRDAYTIVTCPGRNFVTLKIVTESGTHGIGDATLNGREMAVAAYLDEHVVPALIGRDAGRIEDTWQYLYRGAYWRRGPVTMTAIAAVDMALWDIKAKAAGMPLYQLLGGKSRERVMTYAHCTGQTIEDCLGEVARHVELGYRAVRVQSGVPGIETTYGVAYEPADSSLPAEHVWSTEKYLNHAPKLFAAVRERFGDDLHVLHDVHHRLTPIEAARLGKAVEPYHLFWLEDCVPAENQESLRLIREHTTTPLAIGEVFNSIHDCRELIQNQWIDYIRMPLTHGGGITAMRRVADLASLYHVRTGFHGPTDLSPVCLGAAIHFDTWVPNFGIQEHMPHTDETDAVFPHDYRFEDGHFLAGESPGHGVDIDEELAAKYPYERASLPVNRLEDGTLWHW 3qki-a2-m1-cC_3qki-a2-m1-cB Crystal structure of Glucose-6-Phosphate Isomerase (PF14_0341) from Plasmodium falciparum 3D7 Q8ILA4 Q8ILA4 1.92 X-RAY DIFFRACTION 478 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 574 575 3pr3-a1-m1-cB_3pr3-a1-m1-cA 3qki-a1-m1-cA_3qki-a1-m2-cA EITNLKSYKELVTLSAEEKTKDLKDYLNDKNRSESLIKKFKNFYMDLSRQRYSEKTLNKLVEYAEEVELKKKVEKTFMGEKVNMTENRSVLHTALRIPIEKINTHKIIIDNKNVLEDVHGVLKKIEKYSDDIRNGVIKTCKNTKFKNVICIGIGGSYLGTEFVYEAMKYYYYNMELNKNEKDQVNNFNNNYDQDNVFNVRFLANVDPNDVNRAIQNLDQYDTLVIIISKTFTTAETMLNARSIKKWLSLKIKDDENLSKHMVAVSTNLKLTDEFGISRDNVFEFWDWVGGRFSVTSSVGILPLSIAFGYKNMRNFLNGCHDMDEHFLHADLKENIPVLLALTSFYNSHFFDYKNVAILPYFQNLLKFSAHIQQLSMESNGKSVDRNNQPIHYNTCQVYFGEPGTNGQHSFYQLIHQGQVIPVELIGFKHSHFPIKFDKEVVSNHDELMTNFFAQADALAIGKTYEQVKEENEKNKMSPELLTHKVFNGNRPSTLLLFDELNFYTCGLLLSLYESRIVAEGFLLNINSFDQWGVELGKVLAKEVRNYFNDTRNQKKSNTYNFNESTKILLNYYLS EITNLKSYKELVTLSAEEKTKDLKDYLNDKNRSESLIKKFKNFYMDLSRQRYSEKTLNKLVEYAEEVELKKKVEKTFMGEKVNMTENRSVLHTALRIPIEKINTHKIIIDNKNVLEDVHGVLKKIEKYSDDIRNGVIKTCKNTKFKNVICIGIGGSYLGTEFVYEAMKYYYYNMELNKNEKDQVNNFNNNYDQDNVFNVRFLANVDPNDVNRAIQNLDQYDTLVIIISKTFTTAETMLNARSIKKWLSLKIKDDENLSKHMVAVSTNLKLTDEFGISRDNVFEFWDWVGGRFSVTSSVGILPLSIAFGYKNMRNFLNGCHDMDEHFLHADLKENIPVLLALTSFYNSHFFDYKNVAILPYFQNLLKFSAHIQQLSMESNGKSVDRNNQPIHYNTCQVYFGEPGTNGQHSFYQLIHQGQVIPVELIGFKHSHFPIKFDKEVVSNHDELMTNFFAQADALAIGKTYEQVKEENEKNKMSPELLTHKVFNGNRPSTLLLFDELNFYTCGLLLSLYESRIVAEGFLLNINSFDQWGVELGKVLAKEVRNYFNDTRNQKKSDNTYNFNESTKILLNYYLS 3qkt-a2-m1-cD_3qkt-a2-m1-cC Rad50 ABC-ATPase with adjacent coiled-coil region in complex with AMP-PNP P58301 P58301 1.9 X-RAY DIFFRACTION 76 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 318 339 1f2u-a1-m1-cD_1f2u-a1-m1-cB 3qkt-a1-m1-cB_3qkt-a1-m1-cA MKLERVTVKNFRSHSDTVVEFKEGINLIIGQNGSGKSSLLDAILVGLYWPLRIKDIKKDEFTKVGARDTYIDLIFEKDGTKYRITRRFLKGYSSGEIHAMKRLVGNEWKHVTEPSSKAISAFMEKLIPYNIFLNAIYIRQGQIDAILESDEAREKVVREVLNEELIEKVKKYKALAREAALSKIGELASEIFAEFTEGKYSEVVVRAEENKVRLFVVWEGKERPLTFLSGGERIALGLAFRLAMSLYLAGEISLLILDEPTPYLDEERRRKLITIMERYLKKIPQVILVSHDEELKDAADHVIRISLENGSSKVEVVS MKLERVTVKNFRSHSDTVVEFKEGINLIIGQNGSGKSSLLDAILVGLYWPLRIKDIKKDEFTKVGARDTYIDLIFEKDGTKYRITRRFLKGYSSGEIHAMKRLVGNEWKHVTEPSSKAISAFMEKLIPYNIFLNAIYIRQGQIDAILESDEAREKVVREVLNLDKFETAYKKLSELKGGSGGTEELIEKVKKYKALAREAALSKIGELASEIFAEFTEGKYSEVVVRAEENKVRLFVVWEGKERPLTFLSGGERIALGLAFRLAMSLYLAGEISLLILDEPTPYLDEERRRKLITIMERYLKKIPQVILVSHDEELKDAADHVIRISLENGSSKVEVVS 3qkx-a1-m1-cB_3qkx-a1-m1-cA Crystal structure of a TetR-family transcriptional regulator (HI0893) from Haemophilus influenzae RD at 2.35 A resolution P44923 P44923 2.35 X-RAY DIFFRACTION 70 0.983 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 176 178 DLAEQIFSATDRLAREGLNQLSLKLAKEANVAAGTIYLYFKNKDELLEQFAHRVFSFATLEKDFDETKPFFEQYRQWKNIWYFLQENPTILSNLKQYESLPNFKDICKNIKNCRWDLFCHQAQKAGLLAELSEDILFLLSLKTAINLASDAKFIDFDLKPEILESVIERSWRAIQK RQAKTDLAEQIFSATDRLAREGLNQLSLKLAKEANVAAGTIYLYFKNKDELLEQFAHRVFSFATLEKDFDETKPFFEQYRQWKNIWYFLQENPTILSNLKQYESLPNFKDICKNIKNCRWDLFCHQAQKAGLLAELSEDILFLLSLKTAINLASDAKFILKPEILESVIERSWRAIQK 3qld-a1-m1-cB_3qld-a1-m1-cA Structure of Probable Mandelate Racemase (AaLAA1DRAFT_2112) from Alicyclobacillus Acidocaldarius 1.85 X-RAY DIFFRACTION 73 1.0 543302 (Alicyclobacillus acidocaldarius LAA1) 543302 (Alicyclobacillus acidocaldarius LAA1) 366 375 SLQTCVLHRLSLPLKFPRTAHGHIREKQAILVQLVDADGIEGWSECVALAEPTYTEECTDTAWVLVHHLVPRFARWLRAADVDPRTVCEALRDVRGNRSVAAIEAVWDWYAARTGQPLVGLLGGGRDRVEVSATLGSESLDVLIQSVDAAVEQGFRRVKLKIAPGRDRAAIKAVRLRYPDLAIAADANGSYRPEDAPVLRQLDAYDLQFIEQPLPEDDWFDLAKLQASLRTPVCLDESVRSVRELKLTARLGAARVLNVKPGRLGGFGATLRALDVAGEAGAAWVGGYETGVGRVHGLIAAALPLRYATDLGPSDRYFEQDVLKEPIAFVEPGVIQVPQCAGVADWVDRDAVRRFSTATWSVDLRT SLQTCVLHRLSLPLKFPRTAHGHIREKQAILVQLVDADGIEGWSECVALAEPTYTEECTDTAWVLVHHLVPRFARWLRAASQDQDVDPRTVCEALRDVRGNRSVAAIEAVWDWYAARTGQPLVGLLGGGRDRVEVSATLGSESLDVLIQSVDAAVEQGFRRVKLKIAPGRDRAAIKAVRLRYPDLAIAADANGSYRPEDAPVLRQLDAYDLQFIEQPLPEDDWFDLAKLQASLRTPVCLDESVRSVRELKLTARLGAARVLNVKPGRLGGFGATLRALDVAGEAGAAWVGGYETGVGRVHGLIAAALPLRYATDLGPSDRYFEQDVLKEPIAFVEPGVIQVPQCAGVADWVDRDAVRRFSTATWSVDLRTLEGHH 3qli-a1-m1-cA_3qli-a1-m1-cB Crystal Structure of RipA from Yersinia pestis Q9ZC36 Q9ZC36 1.9 X-RAY DIFFRACTION 97 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 440 440 3qlk-a1-m1-cB_3qlk-a1-m1-cA 3s8d-a1-m1-cA_3s8d-a1-m1-cB 4n8i-a3-m1-cA_4n8i-a3-m1-cB MDIRALYDEKLTTPEEAVSSIASGSHLSMGMFAAEPPALLKALADRATRGDIGDLRVYYFETAKIAGDTILRYELNNRIKPYSMFVTAVERALIRRGIEDGGRKVVNYVPSNFHQAPRLLAEEIGIDTFMHTVSPMDCHGYFSLGVGNDYSSRIARSARRFIVEVNRYMPRVQGEAAAIHISEVDAIVENHVPLIEMPVRSAIPEYTSISHIIADLVPDGACLQMGVGALPNLVCGVLKDRNDLGIHTEVLNPGLVDLIRRGVVTNQRKTLDRGRSVFTFAMGQQEMYEYLNDHPAIFSRPVDYVNDPHIIAQNDNVVSINATLQIDLTGACNSEHMLGHQYSASGGQLDFVRGAYASKGGRSIIATPSTAAKGTVSRIIPRIDGPVTTPRIDTHYIVTEFGAVNLKGLSSTERALRIIELAHPDFRDELTQAAKKMHLI MDIRALYDEKLTTPEEAVSSIASGSHLSMGMFAAEPPALLKALADRATRGDIGDLRVYYFETAKIAGDTILRYELNNRIKPYSMFVTAVERALIRRGIEDGGRKVVNYVPSNFHQAPRLLAEEIGIDTFMHTVSPMDCHGYFSLGVGNDYSSRIARSARRFIVEVNRYMPRVQGEAAAIHISEVDAIVENHVPLIEMPVRSAIPEYTSISHIIADLVPDGACLQMGVGALPNLVCGVLKDRNDLGIHTEVLNPGLVDLIRRGVVTNQRKTLDRGRSVFTFAMGQQEMYEYLNDHPAIFSRPVDYVNDPHIIAQNDNVVSINATLQIDLTGACNSEHMLGHQYSASGGQLDFVRGAYASKGGRSIIATPSTAAKGTVSRIIPRIDGPVTTPRIDTHYIVTEFGAVNLKGLSSTERALRIIELAHPDFRDELTQAAKKMHLI 3qlj-a2-m1-cC_3qlj-a2-m1-cD Crystal structure of a short chain dehydrogenase from Mycobacterium avium A0A0H2ZY59 A0A0H2ZY59 1.8 X-RAY DIFFRACTION 355 0.997 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 291 292 3qlj-a1-m1-cB_3qlj-a1-m1-cA 3qlj-a3-m1-cF_3qlj-a3-m1-cE MGVVDGRVVIVTGAGGGIGRAHALAFAAEGARVVVNDIGVGLDGSPASGGSAAQSVVDEITAAGGEAVADGSNVADWDQAAGLIQTAVETFGGLDVLVNNAGIVRDRMIANTSEEEFDAVIAVHLKGHFATMRHAAAYWRGLSKAGKAVDGRIINTSSGAGLQGSVGQGNYSAAKAGIATLTLVGAAEMGRYGVTVNAIAPSARTRMTETVFFDAMAPENVSPLVVWLGSAEARDVTGKVFEVEGGKIRVAEGWAHGPQIDKGARWDPAELGPVVADLLGKARPPVPVYGA GVVDGRVVIVTGAGGGIGRAHALAFAAEGARVVVNDIGVGLDGSPASGGSAAQSVVDEITAAGGEAVADGSNVADWDQAAGLIQTAVETFGGLDVLVNNAGIVRDRMIANTSEEEFDAVIAVHLKGHFATMRHAAAYWRGLSKAGKAVDGRIINTSSGAGLQGSVGQGNYSAAKAGIATLTLVGAAEMGRYGVTVNAIAPSARTRMTETVFAEFDAMAPENVSPLVVWLGSAEARDVTGKVFEVEGGKIRVAEGWAHGPQIDKGARWDPAELGPVVADLLGKARPPVPVYGA 3qll-a2-m1-cA_3qll-a2-m2-cB Crystal Structure of RipC from Yersinia pestis Q9ZC38 Q9ZC38 2.45 X-RAY DIFFRACTION 44 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 211 211 3qll-a2-m1-cB_3qll-a2-m2-cA 3qll-a2-m1-cC_3qll-a2-m2-cC DTYQTRSWLFTPATRGADVAIIDLEDSVSQADKEQARQKAISLPLALRINGLDTRAGIEDIHALLECGSLPDYLVLPKTESAAHLQILDRLFADTRLIGIIESVRGLNAVESIAAATPKLAGLIFGAADAADIGAASTWEPLALARARLVSACANGIPAIDAPFFDVHDVSGLQSETLRASDFGFSAKAAIHPAQISTINTLFTPTAAEIR DTYQTRSWLFTPATRGADVAIIDLEDSVSQADKEQARQKAISLPLALRINGLDTRAGIEDIHALLECGSLPDYLVLPKTESAAHLQILDRLFADTRLIGIIESVRGLNAVESIAAATPKLAGLIFGAADAADIGAASTWEPLALARARLVSACANGIPAIDAPFFDVHDVSGLQSETLRASDFGFSAKAAIHPAQISTINTLFTPTAAEIR 3qll-a2-m2-cB_3qll-a2-m2-cC Crystal Structure of RipC from Yersinia pestis Q9ZC38 Q9ZC38 2.45 X-RAY DIFFRACTION 38 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 211 211 3qll-a1-m1-cA_3qll-a1-m1-cB 3qll-a1-m1-cA_3qll-a1-m1-cC 3qll-a1-m1-cB_3qll-a1-m1-cC 3qll-a2-m1-cA_3qll-a2-m1-cB 3qll-a2-m1-cA_3qll-a2-m1-cC 3qll-a2-m1-cB_3qll-a2-m1-cC 3qll-a2-m2-cA_3qll-a2-m2-cB 3qll-a2-m2-cA_3qll-a2-m2-cC DTYQTRSWLFTPATRGADVAIIDLEDSVSQADKEQARQKAISLPLALRINGLDTRAGIEDIHALLECGSLPDYLVLPKTESAAHLQILDRLFADTRLIGIIESVRGLNAVESIAAATPKLAGLIFGAADAADIGAASTWEPLALARARLVSACANGIPAIDAPFFDVHDVSGLQSETLRASDFGFSAKAAIHPAQISTINTLFTPTAAEIR DTYQTRSWLFTPATRGADVAIIDLEDSVSQADKEQARQKAISLPLALRINGLDTRAGIEDIHALLECGSLPDYLVLPKTESAAHLQILDRLFADTRLIGIIESVRGLNAVESIAAATPKLAGLIFGAADAADIGAASTWEPLALARARLVSACANGIPAIDAPFFDVHDVSGLQSETLRASDFGFSAKAAIHPAQISTINTLFTPTAAEIR 3qm2-a1-m1-cA_3qm2-a1-m1-cB 2.25 Angstrom Crystal Structure of Phosphoserine Aminotransferase (SerC) from Salmonella enterica subsp. enterica serovar Typhimurium P55900 P55900 2.25 X-RAY DIFFRACTION 78 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 330 331 QVFNFSSGPAMLPAEVLKLAQQEVAEEAEQDFRDLLNIPSNYKVLFCHGGGRGQFAGVPLNLLGDKTTADYVDAGYWAASAIKEAKKYCAPQIIDAKITVDGKRAVKPMREWQLSDNAAYLHYCPNETIDGIAIDETPDFGPEVVVTADFSSTILSAPLDVSRYGVIYAGAQKNIGPAGLTLVIVREDLLGKAHESCPSILDYTVLNDNPTFAWYLSGLVFKWLKAQGGVAAMHKINQQKAELLYGVIDNSDFYRNDVAQANRSRMNVPFQLADNTLDKVFLEESFAAGLHALKGHRVVGGMRASIYNAMPIEGVKALTDFMIDFERRHG QVFNFSSGPAMLPAEVLKLAQQELVAEEAEQDFRDLLNIPSNYKVLFCHGGGRGQFAGVPLNLLGDKTTADYVDAGYWAASAIKEAKKYCAPQIIDAKITVDGKRAVKPMREWQLSDNAAYLHYCPNETIDGIAIDETPDFGPEVVVTADFSSTILSAPLDVSRYGVIYAGAQKNIGPAGLTLVIVREDLLGKAHESCPSILDYTVLNDNPTFAWYLSGLVFKWLKAQGGVAAMHKINQQKAELLYGVIDNSDFYRNDVAQANRSRMNVPFQLADNTLDKVFLEESFAAGLHALKGHRVVGGMRASIYNAMPIEGVKALTDFMIDFERRHG 3qm3-a3-m1-cF_3qm3-a3-m1-cE 1.85 Angstrom Resolution Crystal Structure of Fructose-bisphosphate Aldolase (Fba) from Campylobacter jejuni Q0PAS0 Q0PAS0 1.85 X-RAY DIFFRACTION 154 0.994 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 343 350 3qm3-a1-m1-cB_3qm3-a1-m1-cA 3qm3-a2-m1-cC_3qm3-a2-m1-cD 3qm3-a4-m1-cH_3qm3-a4-m1-cG SNAMGVLDIVKAGVISGDELNKIYDYAKAEGFAIPAVNVVGTDSINAVLEAAKKVNSPVIIQFSNGGAKFYAGKNCPNGEVLGAISGAKHVHLLAKAYGVPVILHTDHAARKLLPWIDGLIEANAQYKKTHGQALFSSHMLDLSEESLEENLSTCEVYLQKLDALGVALEIELGCTGGGIDNSKLYTQPEDVALAYERLGKISDKFSIAASFGNVHGVSLQPEILKNSQKFVKDKFALNSDKPINFVFHGGSGSELKDIKNAVSYGVIKMNIDTDTQWAFWDGVREYELKNRAYLQGQIGNPEGDDKPNKKYYDPRVWLRSGEESMIKRLEIAFEDLNCINKN AMGVLDIVKAGVISGDELNKIYDYAKAEGFAIPAVNVVGTDSINAVLEAAKKVNSPVIIQFSNGGAKFYAGKNCPNGEVLGAISGAKHVHLLAKAYGVPVILHTDHAARKLLPWIDGLIEANAQYKKTHGQALFSSHMLDLSEESLEENLSTCEVYLQKLDALGVALEIELGCTGGDNTGIDNSKLYTQPEDVALAYERLGKISDKFSIAASFGNVHGVYKPGNVSLQPEILKNSQKFVKDKFALNSDKPINFVFHGGSGSELKDIKNAVSYGVIKMNIDTDTQWAFWDGVREYELKNRAYLQGQIGNPEGDDKPNKKYYDPRVWLRSGEESMIKRLEIAFEDLNCINKN 3qm4-a1-m1-cB_3qm4-a1-m1-cA Human Cytochrome P450 (CYP) 2D6 - Prinomastat Complex P10635 P10635 2.85 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 457 465 LPPGPLPLPGLGNLLHVDFQNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGVTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR LPPGPLPLPGLGNLLHVDFQNTPYCFDQLRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVFLARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDKAVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVLLHIPALAGKVLRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVADLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVIHEVQRFGDIVPLGVTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHFLDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGVFAFLVSPSPYELCAVPR 3qmj-a1-m2-cA_3qmj-a1-m3-cA Crystal structure of Enoyl-CoA hydratase EchA8_6 from Mycobacterium marinum B2HD64 B2HD64 2.2 X-RAY DIFFRACTION 62 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 211 211 3qmj-a1-m1-cA_3qmj-a1-m2-cA 3qmj-a1-m1-cA_3qmj-a1-m3-cA VTLQIDDDNRVRTLTLNRPEALNAFNEALYDATAQALLDAADDPQVAVVLLTGSGRGFSAGTDLAEMQARITDPNFSEGKFGFRGLIKALAGFPKPLICAVNGLGVGIGATILGYADLAFMSSTARLKCPFTSLPEAASSYLLPQLVGRQNAAWLLMSSEWIDAEEALRMGLVWRICSPEELLPEARRHAEILAAKPISSLMAVKHTMVEP VTLQIDDDNRVRTLTLNRPEALNAFNEALYDATAQALLDAADDPQVAVVLLTGSGRGFSAGTDLAEMQARITDPNFSEGKFGFRGLIKALAGFPKPLICAVNGLGVGIGATILGYADLAFMSSTARLKCPFTSLPEAASSYLLPQLVGRQNAAWLLMSSEWIDAEEALRMGLVWRICSPEELLPEARRHAEILAAKPISSLMAVKHTMVEP 3qmk-a1-m1-cA_3qmk-a1-m1-cB Crystal structure of the E2 domain of APLP1 in complex with heparin hexasaccharide P51693 P51693 2.21 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 196 3pmr-a1-m1-cA_3pmr-a1-m1-cB 3q7g-a1-m1-cB_3q7g-a1-m1-cA 3q7l-a1-m1-cA_3q7l-a1-m1-cB 4rd9-a1-m1-cA_4rd9-a1-m1-cB 4rda-a1-m1-cB_4rda-a1-m1-cA DGVDIYFGMPGEISEHEGFLRAKMDLEERRMRQINEVMREWAMADNQSKNLPKADRQALNEHFQSILQTLEEQVSGERQRLVETHATRVIALINDQRRAALEGFLAALQADPPQAERVLLALRRYLRAEQKEQRHTLRHYQHVAAVDPEKAQQMRFQVHTHLQVIEERVNQSLGLLDQNPHLAQELRPQIQELLH DGVDIYFGMPGEISEHEGFLRAKMDLEERRMRQINEVMREWAMADNQSKNLPKADRQALNEHFQSILQTLEEQVSGERQRLVETHATRVIALINDQRRAALEGFLAALQADPPQAERVLLALRRYLRAEQKEQRHTLRHYQHVAAVDPEKAQQMRFQVHTHLQVIEERVNQSLGLLDQNPHLAQELRPQIQELLHS 3qmn-a8-m1-cW_3qmn-a8-m1-cV Crystal Structure of 4'-Phosphopantetheinyl Transferase AcpS from Vibrio cholerae O1 biovar eltor Q9KPB6 Q9KPB6 1.85 X-RAY DIFFRACTION 44 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 123 124 3qmn-a1-m1-cA_3qmn-a1-m1-cB 3qmn-a1-m1-cA_3qmn-a1-m1-cC 3qmn-a1-m1-cB_3qmn-a1-m1-cC 3qmn-a2-m1-cD_3qmn-a2-m1-cE 3qmn-a2-m1-cD_3qmn-a2-m1-cF 3qmn-a2-m1-cF_3qmn-a2-m1-cE 3qmn-a3-m1-cG_3qmn-a3-m1-cH 3qmn-a3-m1-cG_3qmn-a3-m1-cI 3qmn-a3-m1-cH_3qmn-a3-m1-cI 3qmn-a4-m1-cJ_3qmn-a4-m1-cK 3qmn-a4-m1-cJ_3qmn-a4-m1-cL 3qmn-a4-m1-cK_3qmn-a4-m1-cL 3qmn-a5-m1-cM_3qmn-a5-m1-cN 3qmn-a5-m1-cM_3qmn-a5-m1-cO 3qmn-a5-m1-cN_3qmn-a5-m1-cO 3qmn-a6-m1-cP_3qmn-a6-m1-cQ 3qmn-a6-m1-cP_3qmn-a6-m1-cR 3qmn-a6-m1-cQ_3qmn-a6-m1-cR 3qmn-a7-m1-cS_3qmn-a7-m1-cT 3qmn-a7-m1-cS_3qmn-a7-m1-cU 3qmn-a7-m1-cT_3qmn-a7-m1-cU 3qmn-a8-m1-cV_3qmn-a8-m1-cX 3qmn-a8-m1-cW_3qmn-a8-m1-cX IVGLGTDIAEIERVEKALARSGENFARRILTDSELEQFHASKQQGRFLAKRFAAKEAASKALGTGIAQGVTFHDFTISHDKLGKPLLILSGQAAELASQLQVENIHLSISDERHYAATVILER AIVGLGTDIAEIERVEKALARSGENFARRILTDSELEQFHASKQQGRFLAKRFAAKEAASKALGTGIAQGVTFHDFTISHDKLGKPLLILSGQAAELASQLQVENIHLSISDERHYAATVILER 3qmq-a2-m1-cB_3qmq-a2-m1-cC Crystal Structure of E. coli LsrG 1.8 X-RAY DIFFRACTION 67 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 97 99 3qmq-a1-m1-cA_3qmq-a1-m1-cD SMHVTLVEINVHEDKVDEFIEVFRQNHLGSVQEEGNLRFDVLQDPEVNSRFYIYEAYKDEDAVAFHKTTPHYKTCVAKLESLMTGPRKKRLFNGLMP MGSMHVTLVEINVHEDKVDEFIEVFRQNHLGSVQEEGNLRFDVLQDPEVNSRFYIYEAYKDEDAVAFHKTTPHYKTCVAKLESLMTGPRKKRLFNGLMP 3qmw-a1-m1-cA_3qmw-a1-m1-cD RedJ with PEG molecule bound in the active site O54157 O54157 2.5 X-RAY DIFFRACTION 130 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 246 249 3qmv-a1-m1-cA_3qmv-a1-m1-cC 3qmv-a2-m1-cB_3qmv-a2-m1-cD SAWFPRPVAAAEPPDPAAAPLRLVCFPYAGGTVSAFRGWQERLGDEVAVVPVQLPGRGLRLRERPYDTMEPLAEAVADALEEHRLTHDYALFGHSMGALLAYEVACVLRRRGAPRPRHLFVSGSRAPHLYGDRADHTLSDTALREVIRDLGGLDTLGAAYFDRRLPVLRADLRACERYDWHPRPPLDCPTTAFSAAADPIATPEMVEAWRPYTTGSFLRRHLPGNHFFLNGGPSRDRLLAHLGTEL SAWFPRPVAAPAAEPPDPAAAPLRLVCFPYAGGTVSAFRGWQERLGDEVAVVPVQLPGRGLRLRERPYDTMEPLAEAVADALEEHRLTHDYALFGHSMGALLAYEVACVLRRRGAPRPRHLFVSGSRAPHLYGDRADHTLSDTALREVIRDLGGLDDTLGAAYFDRRLPVLRADLRACERYDWHPRPPLDCPTTAFSAAADPIATPEMVEAWRPYTTGSFLRRHLPGNHFFLNGGPSRDRLLAHLGTEL 3qn3-a1-m1-cA_3qn3-a1-m2-cD Phosphopyruvate hydratase from Campylobacter jejuni. P42448 P42448 2.13 X-RAY DIFFRACTION 89 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 415 415 3qn3-a1-m1-cB_3qn3-a1-m1-cC 3qn3-a1-m1-cD_3qn3-a1-m2-cA 3qn3-a1-m2-cB_3qn3-a1-m2-cC AMLVIEDVRAYEVLDSRGNPTVKAEVTLSDGSVGAAIVPSGASTGSKEALELRDNDERFGGKGVLKAVANVNETIADEILGLDAFNQTQLDDTLRELDGTNNYSNLGANATLGVSMATARAAAAALGMPLYRYLGGANASILPVPMCNIINGGAHANNNVDFQEFMIMPFGFTSFKEALRSVCEIYAILKKELANSGHSTALGDEGGFAPNLANNTEPIDLLMTCIKKAGYENRVKIALDVASTEFFKDGKYHMEGKAFSSEALIERYVELCAKYPICSIEDGLAENDFEGWIKLTEKLGNKIQLVGDDLFVTNEDILREGIIKKMANAVLIKPNQIGTITQTMRTVRLAQRNNYKCVMSHRSGESEDAFIADFAVALNTGQIKTGALARGERTAKYNRLLEIEFESDEYLGEKL AMLVIEDVRAYEVLDSRGNPTVKAEVTLSDGSVGAAIVPSGASTGSKEALELRDNDERFGGKGVLKAVANVNETIADEILGLDAFNQTQLDDTLRELDGTNNYSNLGANATLGVSMATARAAAAALGMPLYRYLGGANASILPVPMCNIINGGAHANNNVDFQEFMIMPFGFTSFKEALRSVCEIYAILKKELANSGHSTALGDEGGFAPNLANNTEPIDLLMTCIKKAGYENRVKIALDVASTEFFKDGKYHMEGKAFSSEALIERYVELCAKYPICSIEDGLAENDFEGWIKLTEKLGNKIQLVGDDLFVTNEDILREGIIKKMANAVLIKPNQIGTITQTMRTVRLAQRNNYKCVMSHRSGESEDAFIADFAVALNTGQIKTGALARGERTAKYNRLLEIEFESDEYLGEKL 3qn3-a3-m1-cC_3qn3-a3-m1-cD Phosphopyruvate hydratase from Campylobacter jejuni. P42448 P42448 2.13 X-RAY DIFFRACTION 131 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 415 415 3qn3-a1-m1-cA_3qn3-a1-m1-cB 3qn3-a1-m1-cC_3qn3-a1-m1-cD 3qn3-a1-m2-cA_3qn3-a1-m2-cB 3qn3-a1-m2-cC_3qn3-a1-m2-cD 3qn3-a2-m1-cA_3qn3-a2-m1-cB AMLVIEDVRAYEVLDSRGNPTVKAEVTLSDGSVGAAIVPSGASTGSKEALELRDNDERFGGKGVLKAVANVNETIADEILGLDAFNQTQLDDTLRELDGTNNYSNLGANATLGVSMATARAAAAALGMPLYRYLGGANASILPVPMCNIINGGAHANNNVDFQEFMIMPFGFTSFKEALRSVCEIYAILKKELANSGHSTALGDEGGFAPNLANNTEPIDLLMTCIKKAGYENRVKIALDVASTEFFKDGKYHMEGKAFSSEALIERYVELCAKYPICSIEDGLAENDFEGWIKLTEKLGNKIQLVGDDLFVTNEDILREGIIKKMANAVLIKPNQIGTITQTMRTVRLAQRNNYKCVMSHRSGESEDAFIADFAVALNTGQIKTGALARGERTAKYNRLLEIEFESDEYLGEKL AMLVIEDVRAYEVLDSRGNPTVKAEVTLSDGSVGAAIVPSGASTGSKEALELRDNDERFGGKGVLKAVANVNETIADEILGLDAFNQTQLDDTLRELDGTNNYSNLGANATLGVSMATARAAAAALGMPLYRYLGGANASILPVPMCNIINGGAHANNNVDFQEFMIMPFGFTSFKEALRSVCEIYAILKKELANSGHSTALGDEGGFAPNLANNTEPIDLLMTCIKKAGYENRVKIALDVASTEFFKDGKYHMEGKAFSSEALIERYVELCAKYPICSIEDGLAENDFEGWIKLTEKLGNKIQLVGDDLFVTNEDILREGIIKKMANAVLIKPNQIGTITQTMRTVRLAQRNNYKCVMSHRSGESEDAFIADFAVALNTGQIKTGALARGERTAKYNRLLEIEFESDEYLGEKL 3qne-a1-m1-cA_3qne-a1-m2-cA Candida albicans seryl-tRNA synthetase Q9HGT6 Q9HGT6 2 X-RAY DIFFRACTION 147 1.0 5476 (Candida albicans) 5476 (Candida albicans) 441 441 3qo5-a1-m1-cA_3qo5-a1-m2-cA 3qo7-a1-m1-cA_3qo7-a1-m2-cA 3qo8-a1-m1-cA_3qo8-a1-m2-cA MLDINAFLVEKGGDPEIIKASQKKRGDSVELVDEIIAEYKEWVKLRFDLDEHNKKLNSVQKEIGKRFKAKEDAKDLIAEKEKLSNEKKEIIEKEAEADKNLRSKINQVGNIVHESVVDSQDEENNELVRTWTPENYKKPEQIAAATGAPAKLSHHEVLLRLDGYDPERGVRIVGHRGYFLRNYGVFLNQALINYGLSFLSSKGYVPLQAPVMMNKEVMAKTAQLSQFDEELYKVIDGEDEKYLIATSEQPISAYHAGEWFESPAEQLPVRYAGYSSCFRREAGAWGIFRVHAFEKIEQFVLTEPEKSWEEFDRMIGCSEEFYQSLGLPYRVVGIVSGELNNAAAKKYDLEAWFPFQQEYKELVSCSNCTDYQSRNLEIRCGIEKKYVHCLNSTLSATERTICCILENYQKEDGLVIPEVLRKYIPGEPEFIPYIKELPKNT MLDINAFLVEKGGDPEIIKASQKKRGDSVELVDEIIAEYKEWVKLRFDLDEHNKKLNSVQKEIGKRFKAKEDAKDLIAEKEKLSNEKKEIIEKEAEADKNLRSKINQVGNIVHESVVDSQDEENNELVRTWTPENYKKPEQIAAATGAPAKLSHHEVLLRLDGYDPERGVRIVGHRGYFLRNYGVFLNQALINYGLSFLSSKGYVPLQAPVMMNKEVMAKTAQLSQFDEELYKVIDGEDEKYLIATSEQPISAYHAGEWFESPAEQLPVRYAGYSSCFRREAGAWGIFRVHAFEKIEQFVLTEPEKSWEEFDRMIGCSEEFYQSLGLPYRVVGIVSGELNNAAAKKYDLEAWFPFQQEYKELVSCSNCTDYQSRNLEIRCGIEKKYVHCLNSTLSATERTICCILENYQKEDGLVIPEVLRKYIPGEPEFIPYIKELPKNT 3qnk-a2-m1-cC_3qnk-a2-m1-cD Crystal structure of a SusD-like protein (BF3747) from Bacteroides fragilis NCTC 9343 at 2.70 A resolution Q5L904 Q5L904 2.7 X-RAY DIFFRACTION 59 0.998 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 500 503 3qnk-a1-m1-cA_3qnk-a1-m1-cB KAPLDEIADDSFWSDETLVKYYVNDLYSEISVDGLQLQENRSDNSVSAQRDKYRASWFKFNYDVSASDPQDDDVWEDYYVKVRKCNRFFERIGTSTIEESEKSRLTGEVHFLRAFYFEVKRYGGVILLDKVLTEDNWEIPRSSEKECYDFILEDLKKATELPASYGSREKGRATKGAAYALKSRVELYDKRYEDVIKSCAEVYKLGYELVDGTTPEKYRSIWWTTNKDNKEIIFDVQYKSPDVYNNVCNVTYINDKYGDRGWGGLGPTQELIDAFEADGTPATQYSQAPADQVFDINTCGIYEGREPRFYANIVFHGSQIFFNADKGAVTVDRYLDTPDKGDGSLTGYNVWKWIDYDNYNYPYPDFSTNWIILRYAEIYLNDAEARLETGDVEGARKAVNIRQRVGLPDLTESDPEKLRELIRKERRIEFAFEEQRFYDVRRWKIGPETQTTLHGVRFVSPTEFKVTKTDIRTWNDRLYLTPVPHDEIVRSSVLKQNLGY KAPLDEIADDSFWSDETLVKYYVNDLYSEISVDGLQLQENRSDNSVSAQRDKYRASWFKFNYDVSASDPQDDDVWEDYYVKVRKCNRFFERIGTSTIEESEKSRLTGEVHFLRAFYFEVKRYGGVILLDKVLTEDNWEIPRSSEKECYDFILEDLKKATELPASYGSREKGRATKGAAYALKSRVELYDKRYEDVIKSCAEVYKLGYELVDGTTPEKYRSIWWTTNKDNKEIIFDVQYKSPDVYNNVCNVTYINDKYGDRGWGGLGPTQELIDAFEADGTPATQYSQAPADQVFDINTCGIYEGREPRFYANIVFHGSQIFFNADKGAVTVDRYLDTPDKGDGSLTGYNVWKWIDYDNYNYPYAGAGDFSTNWIILRYAEIYLNDAEARLETGDVEGARKAVNIRQRVGLPDLTESDPEKLRELIRKERRIEFAFEEQRFYDVRRWKIGPETQTTLHGVRFVSPTEFKVTKTDIRTWNDRLYLTPVPHDEIVRSSVLKQNLGY 3qnq-a2-m1-cC_3qnq-a2-m1-cD Crystal structure of the transporter ChbC, the IIC component from the N,N'-diacetylchitobiose-specific phosphotransferase system Q72XQ0 Q72XQ0 3.295 X-RAY DIFFRACTION 166 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 432 436 3qnq-a1-m1-cA_3qnq-a1-m1-cB RFLEKYVMPVAGKVAEQRHLLAIRDGLVLTMPFLIIGSIFLIISTLPIPGYSEFMASLFGKNWNVALGYPVSATFNIMALIAVFGIAYRLGEYYKVDALASGALSLVTFLLATPFQVAYIMPGTKESILVDGVIPAALMGSQGLFVAMIIAIISTEIYRFLVQKKMIIKMPETVPPAVTRSFAALIPGFIVVTVVWIIRLIFEHTTFGSIHNVVGKLLQEPLSILGASLWGAVIAVILVHVLWACGIHGATIVGGVMSPIWLSLMDQNRIAFQAGQDVPNTITAQFFDLWIYMGGSGATLALVVGMLLFARSQQLKSLGRLSIAPGIFNINEMVTFGMPIVMNPLLLIPFIVVPVVLTIVSYFAMEWGLVARPSGAAVTWTTPILFSGYLGSGGKISGVILQLVNFALAFVIYLPFLKIWDKQKIAEEKGEA RFLEKYVMPVAGKVAEQRHLLAIRDGLVLTMPFLIIGSIFLIISTLPIPGYSEFMASLFGKNWNVALGYPVSATFNIMALIAVFGIAYRLGEYYKVDALASGALSLVTFLLATPFQVAYIMPGTKESILVDGVIPAALMGSQGLFVAMIIAIISTEIYRFLVQKKMIIKMPETVPPAVTRSFAALIPGFIVVTVVWIIRLIFEHTTFGSIHNVVGKLLQEPLSILGASLWGAVIAVILVHVLWACGIHGATIVGGVMSPIWLSLMDQNRIAFQAGQDVPNTITAQFFDLWIYMGGSGATLALVVGMLLFARSQQLKSLGRLSIAPGIFNINEMVTFGMPIVMNPLLLIPFIVVPVVLTIVSYFAMEWGLVARPSGAAVTWTTPILFSGYLGSGGKISGVILQLVNFALAFVIYLPFLKIWDKQKIAEEKGEAAAEN 3qns-a1-m1-cA_3qns-a1-m6-cA DyPB from Rhodococcus jostii RHA1, crystal form 2 Q0SE24 Q0SE24 1.4 X-RAY DIFFRACTION 59 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 311 311 3qnr-a1-m1-cA_3qnr-a1-m1-cB 3qnr-a1-m1-cC_3qnr-a1-m2-cC 3qnr-a1-m2-cA_3qnr-a1-m2-cB 3qns-a1-m2-cA_3qns-a1-m5-cA 3qns-a1-m3-cA_3qns-a1-m4-cA 3vec-a1-m1-cA_3vec-a1-m1-cB 3vec-a1-m1-cC_3vec-a1-m2-cC 3vec-a1-m2-cA_3vec-a1-m2-cB 3ved-a1-m1-cA_3ved-a1-m1-cB 3ved-a1-m1-cC_3ved-a1-m2-cC 3ved-a1-m2-cA_3ved-a1-m2-cB 3vee-a1-m1-cA_3vee-a1-m1-cB 3vee-a1-m1-cC_3vee-a1-m2-cC 3vee-a1-m2-cA_3vee-a1-m2-cB 3vef-a1-m1-cA_3vef-a1-m1-cB 3vef-a1-m1-cC_3vef-a1-m2-cC 3vef-a1-m2-cA_3vef-a1-m2-cB 3veg-a1-m1-cA_3veg-a1-m1-cB 3veg-a1-m1-cC_3veg-a1-m2-cC 3veg-a1-m2-cA_3veg-a1-m2-cB 4hov-a1-m1-cA_4hov-a1-m1-cB 4hov-a1-m1-cC_4hov-a1-m2-cC 4hov-a1-m2-cA_4hov-a1-m2-cB VARLAPQAVLTPPSAASLFLVLVAGDSDDDRATVCDVISGIDGPLKAVGFRELAGSLSCVVGVGAQFWDRVSASSKPAHLHPFVPLSGPVHSAPSTPGDLLFHIKAARKDLCFELGRQIVSALGSAATVVDEVHGFRYFDSRDLLGFVDGTENPTDDDAADSALIGDEDPDFRGGSYVIVQKYLHDMSAWNTLSTEEQERVIGRTKLENVELDDDAQPSNSHVTLNTIVDDDGVEHDILRDNMAFGSLGEAEYGTYFIGYAKDPAVTELMLRRMFLGEPPGNYDRVLDFSTAATGTLFFVPSRDVLESLGD VARLAPQAVLTPPSAASLFLVLVAGDSDDDRATVCDVISGIDGPLKAVGFRELAGSLSCVVGVGAQFWDRVSASSKPAHLHPFVPLSGPVHSAPSTPGDLLFHIKAARKDLCFELGRQIVSALGSAATVVDEVHGFRYFDSRDLLGFVDGTENPTDDDAADSALIGDEDPDFRGGSYVIVQKYLHDMSAWNTLSTEEQERVIGRTKLENVELDDDAQPSNSHVTLNTIVDDDGVEHDILRDNMAFGSLGEAEYGTYFIGYAKDPAVTELMLRRMFLGEPPGNYDRVLDFSTAATGTLFFVPSRDVLESLGD 3qns-a1-m2-cA_3qns-a1-m6-cA DyPB from Rhodococcus jostii RHA1, crystal form 2 Q0SE24 Q0SE24 1.4 X-RAY DIFFRACTION 18 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 311 311 3qnr-a1-m1-cA_3qnr-a1-m2-cA 3qnr-a1-m1-cC_3qnr-a1-m1-cB 3qnr-a1-m2-cC_3qnr-a1-m2-cB 3qns-a1-m1-cA_3qns-a1-m4-cA 3qns-a1-m3-cA_3qns-a1-m5-cA 3vec-a1-m1-cA_3vec-a1-m2-cA 3vec-a1-m1-cB_3vec-a1-m1-cC 3vec-a1-m2-cB_3vec-a1-m2-cC 3ved-a1-m1-cA_3ved-a1-m2-cA 3ved-a1-m1-cB_3ved-a1-m1-cC 3ved-a1-m2-cB_3ved-a1-m2-cC 3vee-a1-m1-cA_3vee-a1-m2-cA 3vee-a1-m1-cC_3vee-a1-m1-cB 3vee-a1-m2-cC_3vee-a1-m2-cB 3vef-a1-m1-cA_3vef-a1-m2-cA 3vef-a1-m1-cC_3vef-a1-m1-cB 3vef-a1-m2-cC_3vef-a1-m2-cB 3veg-a1-m1-cA_3veg-a1-m2-cA 3veg-a1-m1-cC_3veg-a1-m1-cB 3veg-a1-m2-cC_3veg-a1-m2-cB 4hov-a1-m1-cA_4hov-a1-m2-cA 4hov-a1-m1-cC_4hov-a1-m1-cB 4hov-a1-m2-cC_4hov-a1-m2-cB VARLAPQAVLTPPSAASLFLVLVAGDSDDDRATVCDVISGIDGPLKAVGFRELAGSLSCVVGVGAQFWDRVSASSKPAHLHPFVPLSGPVHSAPSTPGDLLFHIKAARKDLCFELGRQIVSALGSAATVVDEVHGFRYFDSRDLLGFVDGTENPTDDDAADSALIGDEDPDFRGGSYVIVQKYLHDMSAWNTLSTEEQERVIGRTKLENVELDDDAQPSNSHVTLNTIVDDDGVEHDILRDNMAFGSLGEAEYGTYFIGYAKDPAVTELMLRRMFLGEPPGNYDRVLDFSTAATGTLFFVPSRDVLESLGD VARLAPQAVLTPPSAASLFLVLVAGDSDDDRATVCDVISGIDGPLKAVGFRELAGSLSCVVGVGAQFWDRVSASSKPAHLHPFVPLSGPVHSAPSTPGDLLFHIKAARKDLCFELGRQIVSALGSAATVVDEVHGFRYFDSRDLLGFVDGTENPTDDDAADSALIGDEDPDFRGGSYVIVQKYLHDMSAWNTLSTEEQERVIGRTKLENVELDDDAQPSNSHVTLNTIVDDDGVEHDILRDNMAFGSLGEAEYGTYFIGYAKDPAVTELMLRRMFLGEPPGNYDRVLDFSTAATGTLFFVPSRDVLESLGD 3qns-a1-m5-cA_3qns-a1-m6-cA DyPB from Rhodococcus jostii RHA1, crystal form 2 Q0SE24 Q0SE24 1.4 X-RAY DIFFRACTION 40 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 311 311 3qnr-a1-m1-cA_3qnr-a1-m1-cC 3qnr-a1-m1-cA_3qnr-a1-m2-cB 3qnr-a1-m1-cC_3qnr-a1-m2-cB 3qnr-a1-m2-cA_3qnr-a1-m1-cB 3qnr-a1-m2-cA_3qnr-a1-m2-cC 3qnr-a1-m2-cC_3qnr-a1-m1-cB 3qns-a1-m1-cA_3qns-a1-m2-cA 3qns-a1-m1-cA_3qns-a1-m3-cA 3qns-a1-m2-cA_3qns-a1-m3-cA 3qns-a1-m4-cA_3qns-a1-m5-cA 3qns-a1-m4-cA_3qns-a1-m6-cA 3vec-a1-m1-cA_3vec-a1-m1-cC 3vec-a1-m1-cA_3vec-a1-m2-cB 3vec-a1-m1-cB_3vec-a1-m2-cC 3vec-a1-m1-cC_3vec-a1-m2-cB 3vec-a1-m2-cA_3vec-a1-m1-cB 3vec-a1-m2-cA_3vec-a1-m2-cC 3ved-a1-m1-cA_3ved-a1-m1-cC 3ved-a1-m1-cA_3ved-a1-m2-cB 3ved-a1-m1-cB_3ved-a1-m2-cC 3ved-a1-m1-cC_3ved-a1-m2-cB 3ved-a1-m2-cA_3ved-a1-m1-cB 3ved-a1-m2-cA_3ved-a1-m2-cC 3vee-a1-m1-cA_3vee-a1-m1-cC 3vee-a1-m1-cA_3vee-a1-m2-cB 3vee-a1-m1-cC_3vee-a1-m2-cB 3vee-a1-m2-cA_3vee-a1-m1-cB 3vee-a1-m2-cA_3vee-a1-m2-cC 3vee-a1-m2-cC_3vee-a1-m1-cB 3vef-a1-m1-cA_3vef-a1-m1-cC 3vef-a1-m1-cA_3vef-a1-m2-cB 3vef-a1-m1-cC_3vef-a1-m2-cB 3vef-a1-m2-cA_3vef-a1-m1-cB 3vef-a1-m2-cA_3vef-a1-m2-cC 3vef-a1-m2-cC_3vef-a1-m1-cB 3veg-a1-m1-cA_3veg-a1-m1-cC 3veg-a1-m1-cA_3veg-a1-m2-cB 3veg-a1-m1-cC_3veg-a1-m2-cB 3veg-a1-m2-cA_3veg-a1-m1-cB 3veg-a1-m2-cA_3veg-a1-m2-cC 3veg-a1-m2-cC_3veg-a1-m1-cB 4hov-a1-m1-cA_4hov-a1-m1-cC 4hov-a1-m1-cA_4hov-a1-m2-cB 4hov-a1-m1-cC_4hov-a1-m2-cB 4hov-a1-m2-cA_4hov-a1-m1-cB 4hov-a1-m2-cA_4hov-a1-m2-cC 4hov-a1-m2-cC_4hov-a1-m1-cB VARLAPQAVLTPPSAASLFLVLVAGDSDDDRATVCDVISGIDGPLKAVGFRELAGSLSCVVGVGAQFWDRVSASSKPAHLHPFVPLSGPVHSAPSTPGDLLFHIKAARKDLCFELGRQIVSALGSAATVVDEVHGFRYFDSRDLLGFVDGTENPTDDDAADSALIGDEDPDFRGGSYVIVQKYLHDMSAWNTLSTEEQERVIGRTKLENVELDDDAQPSNSHVTLNTIVDDDGVEHDILRDNMAFGSLGEAEYGTYFIGYAKDPAVTELMLRRMFLGEPPGNYDRVLDFSTAATGTLFFVPSRDVLESLGD VARLAPQAVLTPPSAASLFLVLVAGDSDDDRATVCDVISGIDGPLKAVGFRELAGSLSCVVGVGAQFWDRVSASSKPAHLHPFVPLSGPVHSAPSTPGDLLFHIKAARKDLCFELGRQIVSALGSAATVVDEVHGFRYFDSRDLLGFVDGTENPTDDDAADSALIGDEDPDFRGGSYVIVQKYLHDMSAWNTLSTEEQERVIGRTKLENVELDDDAQPSNSHVTLNTIVDDDGVEHDILRDNMAFGSLGEAEYGTYFIGYAKDPAVTELMLRRMFLGEPPGNYDRVLDFSTAATGTLFFVPSRDVLESLGD 3qo0-a1-m1-cC_3qo0-a1-m1-cA Monoclinic form of IgG1 Fab fragment (in complex with antigenic peptide) sharing same Fv as IgA P07437 2.3 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2 219 EA DIVMTQSPLSLSVTPGEPASISCRSSQSLLRRDGHNDLEWYLQKPGQSPQPLIYLGSTRASGVPDRFSGSGSGTDFTLKIIRVEAEDAGTYYCMQNKQTPLTFGQGTRLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 3qo6-a1-m1-cA_3qo6-a1-m2-cB Crystal structure analysis of the plant protease Deg1 O22609 O22609 2.5 X-RAY DIFFRACTION 33 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 326 328 3qo6-a1-m1-cC_3qo6-a1-m2-cC 3qo6-a1-m2-cA_3qo6-a1-m1-cB PKKLQTDELATVRLFQENTPSVVYITNLAVRQDAFTLDVLEVPQGSGSGFVWDKQGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLRIDAPKNKLRPIPVGVSADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGTLIGINTAIYSPSGASSGVGFSIPVDTVGGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPPSGPAGKAGLQSTKRDGYGRLVLGDIITSVNGTKVSNGSDLYRILDQCKVGDEVTVEVLRGDHKEKISVTLEPKP PKKLQTDELATVRLFQENTPSVVYITNLAVRQDAFTLDVLEVPQGSGSGFVWDKQGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLRIDAPKNKLRPIPVGVSADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGTLIGINTAIYSPSGASSGVGFSIPVDTVGGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPPSGPAGKAGLQSTKRDGYGRLVLGDIITSVNGTKVSNGSDLYRILDQCKVGDEVTVEVLRGDHKEKISVTLEPKPDE 3qo6-a1-m1-cB_3qo6-a1-m2-cC Crystal structure analysis of the plant protease Deg1 O22609 O22609 2.5 X-RAY DIFFRACTION 23 0.994 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 328 328 3qo6-a1-m1-cA_3qo6-a1-m2-cA 3qo6-a1-m1-cC_3qo6-a1-m2-cB PKKLQTDELATVRLFQENTPSVVYITNLAVRQDAFTLDVLEVPQGSGSGFVWDKQGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLRIDAPKNKLRPIPVGVSADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGTLIGINTAIYSPSGASSGVGFSIPVDTVGGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPPSGPAGKAGLQSTKRDGYGRLVLGDIITSVNGTKVSNGSDLYRILDQCKVGDEVTVEVLRGDHKEKISVTLEPKPDE STPKKLQTDELATVRLFQENTPSVVYITNLAVRQDAFTLDVLEVPQGSGSGFVWDKQGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLRIDAPKNKLRPIPVGVSADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGTLIGINTAIYSPSGASSGVGFSIPVDTVGGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPPSGPAGKAGLQSTKRDGYGRLVLGDIITSVNGTKVSNGSDLYRILDQCKVGDEVTVEVLRGDHKEKISVTLEPKP 3qo6-a1-m2-cA_3qo6-a1-m2-cB Crystal structure analysis of the plant protease Deg1 O22609 O22609 2.5 X-RAY DIFFRACTION 94 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 326 328 3qo6-a1-m1-cA_3qo6-a1-m1-cB 3qo6-a1-m1-cA_3qo6-a1-m1-cC 3qo6-a1-m1-cB_3qo6-a1-m1-cC 3qo6-a1-m2-cA_3qo6-a1-m2-cC 3qo6-a1-m2-cB_3qo6-a1-m2-cC PKKLQTDELATVRLFQENTPSVVYITNLAVRQDAFTLDVLEVPQGSGSGFVWDKQGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLRIDAPKNKLRPIPVGVSADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGTLIGINTAIYSPSGASSGVGFSIPVDTVGGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPPSGPAGKAGLQSTKRDGYGRLVLGDIITSVNGTKVSNGSDLYRILDQCKVGDEVTVEVLRGDHKEKISVTLEPKP PKKLQTDELATVRLFQENTPSVVYITNLAVRQDAFTLDVLEVPQGSGSGFVWDKQGHIVTNYHVIRGASDLRVTLADQTTFDAKVVGFDQDKDVAVLRIDAPKNKLRPIPVGVSADLLVGQKVFAIGNPFGLDHTLTTGVISGLRREISSAATGRPIQDVIQTDAAINPGNSGGPLLDSSGTLIGINTAIYSPSGASSGVGFSIPVDTVGGIVDQLVRFGKVTRPILGIKFAPDQSVEQLGVSGVLVLDAPPSGPAGKAGLQSTKRDGYGRLVLGDIITSVNGTKVSNGSDLYRILDQCKVGDEVTVEVLRGDHKEKISVTLEPKPDE 3qoo-a1-m1-cA_3qoo-a1-m2-cA Crystal structure of hot-dog-like Taci_0573 protein from Thermanaerovibrio acidaminovorans D1B956 D1B956 1.25 X-RAY DIFFRACTION 118 1.0 525903 (Thermanaerovibrio acidaminovorans DSM 6589) 525903 (Thermanaerovibrio acidaminovorans DSM 6589) 130 130 DFNELFPVGTYRRVKKVSVSDTVTNRSKALEEFSTAAFLETTQLAVEILDHKLPEGFVSVGVRSEVHNLAPAVLGDDVTFTVTVDRVEGNRVVLSKADDPHGPVATGLQERVVVSTDLLEKRVWERFGGR DFNELFPVGTYRRVKKVSVSDTVTNRSKALEEFSTAAFLETTQLAVEILDHKLPEGFVSVGVRSEVHNLAPAVLGDDVTFTVTVDRVEGNRVVLSKADDPHGPVATGLQERVVVSTDLLEKRVWERFGGR 3qoq-a1-m1-cB_3qoq-a1-m1-cA Crystal Structure of the Transcription Factor AmrZ in Complex with the 18 Base Pair amrZ1 Binding Site G3XCY4 G3XCY4 3.1 X-RAY DIFFRACTION 79 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 42 48 ADKFVVRLPEGREQIAEVARSHHRSNSEIIARLEQSLLQEGA TYSSRTADKFVVRLPEGREQIAEVARSHHRSNSEIIARLEQSLLQEGA 3qoq-a1-m1-cC_3qoq-a1-m1-cA Crystal Structure of the Transcription Factor AmrZ in Complex with the 18 Base Pair amrZ1 Binding Site G3XCY4 G3XCY4 3.1 X-RAY DIFFRACTION 18 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 47 48 TYSSRTADKFVVRLPEGREQIAEVARSHHRSNSEIIARLEQSLLQEG TYSSRTADKFVVRLPEGREQIAEVARSHHRSNSEIIARLEQSLLQEGA 3qp4-a1-m1-cA_3qp4-a1-m2-cA Crystal structure of CviR ligand-binding domain bound to C10-HSL D3W065 D3W065 1.55 X-RAY DIFFRACTION 52 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 178 178 3qp1-a1-m1-cA_3qp1-a1-m2-cA 3qp2-a1-m1-cA_3qp2-a1-m2-cA 3qp5-a1-m1-cB_3qp5-a1-m1-cA 3qp5-a2-m1-cD_3qp5-a2-m1-cC MRPLPAGLTASQQWTLLEWIHMAGHIETENELKAFLDQVLSQAPSERLLLALGRLNNQNQIQRLERVLNVSYPSDWLDQYMKENYAQHDPILRIHLGQGPVMWEERFNRAKGAEEKRFIAEATQNGMGSGITFSAASERNNIGSILSIAGREPGRNAALVAMLNCLTPHLHQAAIRVA MRPLPAGLTASQQWTLLEWIHMAGHIETENELKAFLDQVLSQAPSERLLLALGRLNNQNQIQRLERVLNVSYPSDWLDQYMKENYAQHDPILRIHLGQGPVMWEERFNRAKGAEEKRFIAEATQNGMGSGITFSAASERNNIGSILSIAGREPGRNAALVAMLNCLTPHLHQAAIRVA 3qp8-a2-m1-cC_3qp8-a2-m1-cD Crystal structure of CviR (Chromobacterium violaceum 12472) ligand-binding domain bound to C10-HSL Q7NQP7 Q7NQP7 1.6 X-RAY DIFFRACTION 77 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 181 184 3qp6-a1-m1-cA_3qp6-a1-m2-cA 3qp8-a1-m1-cA_3qp8-a1-m1-cB MNARPLPAGLTASQQWTLLEWIHMAGHIETEGELKAFLDNILSQAPSDRIILVLGRLNNQNQIQRMEKVLNVSYPSDWLNQYSQENFAQHDPIMRIHLGQGPVIWEERFSRAKGSEEKRFIAEASSNGMGSGITFSAASDRNNVGSILSIGGKEPGRNAALVAMLNCLTPHLHQAAVRIAN GSHMNARPLPAGLTASQQWTLLEWIHMAGHIETEGELKAFLDNILSQAPSDRIILVLGRLNNQNQIQRMEKVLNVSYPSDWLNQYSQENFAQHDPIMRIHLGQGPVIWEERFSRAKGSEEKRFIAEASSNGMGSGITFSAASDRNNVGSILSIGGKEPGRNAALVAMLNCLTPHLHQAAVRIAN 3qpb-a2-m1-cK_3qpb-a2-m1-cI Crystal Structure of Streptococcus Pyogenes Uridine Phosphorylase Reveals a Subclass of the NP-I Superfamily Q5XA29 Q5XA29 1.82 X-RAY DIFFRACTION 12 1.0 301450 (Streptococcus pyogenes serotype M6) 301450 (Streptococcus pyogenes serotype M6) 249 250 3qpb-a1-m1-cA_3qpb-a1-m1-cF 3qpb-a1-m1-cB_3qpb-a1-m1-cC 3qpb-a1-m1-cD_3qpb-a1-m1-cA 3qpb-a1-m1-cD_3qpb-a1-m1-cF 3qpb-a1-m1-cE_3qpb-a1-m1-cB 3qpb-a1-m1-cE_3qpb-a1-m1-cC 3qpb-a2-m1-cG_3qpb-a2-m1-cL 3qpb-a2-m1-cH_3qpb-a2-m1-cI 3qpb-a2-m1-cJ_3qpb-a2-m1-cG 3qpb-a2-m1-cJ_3qpb-a2-m1-cL 3qpb-a2-m1-cK_3qpb-a2-m1-cH 3qpb-a3-m1-cN_3qpb-a3-m1-cO 3qpb-a3-m1-cP_3qpb-a3-m1-cM 3qpb-a3-m1-cQ_3qpb-a3-m1-cN 3qpb-a3-m1-cQ_3qpb-a3-m1-cO 3qpb-a3-m1-cR_3qpb-a3-m1-cM 3qpb-a3-m1-cR_3qpb-a3-m1-cP VGLQYHLQIRPGDVGRYVIMPGDPKRCAKIAEHFDNAVLVADSREYVTYTGTLNGEKVSVTSTGIGGPSASIAMEELKLCGADTFIRVGTCGGIELDVKGGDIVIATGAIRMEGTSKEYAPIEFPAVADLEVTNALVNAAKKLGYTSHAGVVQCKDAFYGQHEPERMPVSYELLNKWEAWKRLGTKASEMESAALFVAASHLGVRCGSDFLVVGNQERNALGMDNPMAHDTEAAIQVAVEALRTLIEND VGLQYHLQIRPGDVGRYVIMPGDPKRCAKIAEHFDNAVLVADSREYVTYTGTLNGEKVSVTSTGIGGPSASIAMEELKLCGADTFIRVGTCGGIELDVKGGDIVIATGAIRMEGTSKEYAPIEFPAVADLEVTNALVNAAKKLGYTSHAGVVQCKDAFYGQHEPERMPVSYELLNKWEAWKRLGTKASEMESAALFVAASHLGVRCGSDFLVVGNQERNALGMDNPMAHDTEAAIQVAVEALRTLIENDK 3qpb-a3-m1-cM_3qpb-a3-m1-cO Crystal Structure of Streptococcus Pyogenes Uridine Phosphorylase Reveals a Subclass of the NP-I Superfamily Q5XA29 Q5XA29 1.82 X-RAY DIFFRACTION 83 0.996 301450 (Streptococcus pyogenes serotype M6) 301450 (Streptococcus pyogenes serotype M6) 249 249 3qpb-a1-m1-cA_3qpb-a1-m1-cC 3qpb-a1-m1-cB_3qpb-a1-m1-cF 3qpb-a1-m1-cD_3qpb-a1-m1-cE 3qpb-a2-m1-cG_3qpb-a2-m1-cI 3qpb-a2-m1-cJ_3qpb-a2-m1-cK 3qpb-a2-m1-cL_3qpb-a2-m1-cH 3qpb-a3-m1-cP_3qpb-a3-m1-cQ 3qpb-a3-m1-cR_3qpb-a3-m1-cN VGLQYHLQIRPGDVGRYVIMPGDPKRCAKIAEHFDNAVLVADSREYVTYTGTLNGEKVSVTSTGIGGPSASIAMEELKLCGADTFIRVGTCGGIELDVKGGDIVIATGAIRMEGTSKEYAPIEFPAVADLEVTNALVNAAKKLGYTSHAGVVQCKDAFYGQHEPERMPVSYELLNKWEAWKRLGTKASEMESAALFVAASHLGVRCGSDFLVVGNQERNALGMDNPMAHDTEAAIQVAVEALRTLIEND GLQYHLQIRPGDVGRYVIMPGDPKRCAKIAEHFDNAVLVADSREYVTYTGTLNGEKVSVTSTGIGGPSASIAMEELKLCGADTFIRVGTCGGIELDVKGGDIVIATGAIRMEGTSKEYAPIEFPAVADLEVTNALVNAAKKLGYTSHAGVVQCKDAFYGQHEPERMPVSYELLNKWEAWKRLGTKASEMESAALFVAASHLGVRCGSDFLVVGNQERNALGMDNPMAHDTEAAIQVAVEALRTLIENDK 3qpb-a3-m1-cP_3qpb-a3-m1-cO Crystal Structure of Streptococcus Pyogenes Uridine Phosphorylase Reveals a Subclass of the NP-I Superfamily Q5XA29 Q5XA29 1.82 X-RAY DIFFRACTION 140 1.0 301450 (Streptococcus pyogenes serotype M6) 301450 (Streptococcus pyogenes serotype M6) 248 249 3qpb-a1-m1-cA_3qpb-a1-m1-cB 3qpb-a1-m1-cD_3qpb-a1-m1-cC 3qpb-a1-m1-cE_3qpb-a1-m1-cF 3qpb-a2-m1-cG_3qpb-a2-m1-cH 3qpb-a2-m1-cJ_3qpb-a2-m1-cI 3qpb-a2-m1-cK_3qpb-a2-m1-cL 3qpb-a3-m1-cM_3qpb-a3-m1-cN 3qpb-a3-m1-cR_3qpb-a3-m1-cQ GLQYHLQIRPGDVGRYVIMPGDPKRCAKIAEHFDNAVLVADSREYVTYTGTLNGEKVSVTSTGIGGPSASIAMEELKLCGADTFIRVGTCGGIELDVKGGDIVIATGAIRMEGTSKEYAPIEFPAVADLEVTNALVNAAKKLGYTSHAGVVQCKDAFYGQHEPERMPVSYELLNKWEAWKRLGTKASEMESAALFVAASHLGVRCGSDFLVVGNQERNALGMDNPMAHDTEAAIQVAVEALRTLIEND GLQYHLQIRPGDVGRYVIMPGDPKRCAKIAEHFDNAVLVADSREYVTYTGTLNGEKVSVTSTGIGGPSASIAMEELKLCGADTFIRVGTCGGIELDVKGGDIVIATGAIRMEGTSKEYAPIEFPAVADLEVTNALVNAAKKLGYTSHAGVVQCKDAFYGQHEPERMPVSYELLNKWEAWKRLGTKASEMESAALFVAASHLGVRCGSDFLVVGNQERNALGMDNPMAHDTEAAIQVAVEALRTLIENDK 3qph-a1-m1-cA_3qph-a1-m2-cA The three-dimensional structure of TrmB, a global transcriptional regulator of the hyperthermophilic archaeon Pyrococcus furiosus in complex with sucrose Q9HGZ9 Q9HGZ9 2.992 X-RAY DIFFRACTION 130 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 335 335 SHALSEIGFTKYEILTYWTLLVYGPSTAKEISTKSGIPYNRVYDTISSLKLRGFVTEIEGTPKVYAAYSPRIAFFRFKKELEDIMKKLEIELNNVKKEEQRPAIWRSRSFDEAIEMFRESLYSAKNEVIVVTPSEFFETIREDLIKTLERGVTVSLYIDKIPDLSEFKGKGNFFVRQFYKLNHLIGMTDGKEVVTIQNATFDSIGPPSFKSTYPEIIFSQYSLIIEIFKESTLEKEIIGNPKDIRFFAMFHAVDFVKNHLKNRNIYAEITGKNLESGRLETLTGRVVGYTLSLREAVNNIHLETENGVVKVGGMFAVIEDYESTEIKFIMGVDLQ SHALSEIGFTKYEILTYWTLLVYGPSTAKEISTKSGIPYNRVYDTISSLKLRGFVTEIEGTPKVYAAYSPRIAFFRFKKELEDIMKKLEIELNNVKKEEQRPAIWRSRSFDEAIEMFRESLYSAKNEVIVVTPSEFFETIREDLIKTLERGVTVSLYIDKIPDLSEFKGKGNFFVRQFYKLNHLIGMTDGKEVVTIQNATFDSIGPPSFKSTYPEIIFSQYSLIIEIFKESTLEKEIIGNPKDIRFFAMFHAVDFVKNHLKNRNIYAEITGKNLESGRLETLTGRVVGYTLSLREAVNNIHLETENGVVKVGGMFAVIEDYESTEIKFIMGVDLQ 3qps-a1-m1-cA_3qps-a1-m2-cA Crystal structures of CmeR-bile acid complexes from Campylobacter jejuni Q7B8P6 Q7B8P6 2.351 X-RAY DIFFRACTION 100 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 202 202 2qco-a1-m1-cA_2qco-a1-m2-cA 3hgg-a1-m1-cA_3hgg-a1-m2-cA 3hgy-a1-m1-cA_3hgy-a1-m2-cA 3qqa-a1-m1-cA_3qqa-a1-m2-cA TPSQKVLARQEKIKAVALELFLTKGYQETSLSDIIKLSGGSYSNIYDGFKSKEGLFFEILDDICKKHFHLIYSKTQEIKNGTLKEILTSFGLAFIEIFNQPEAVAFGKIIYSQVYDKDRHLANWIENNQQNFSYNILMGFFKQQNNSYMKKNAEKLAVLFCTMLKEPYHHLNVLINAPLKNKKEQKEHVEFVVNVFLNGINS TPSQKVLARQEKIKAVALELFLTKGYQETSLSDIIKLSGGSYSNIYDGFKSKEGLFFEILDDICKKHFHLIYSKTQEIKNGTLKEILTSFGLAFIEIFNQPEAVAFGKIIYSQVYDKDRHLANWIENNQQNFSYNILMGFFKQQNNSYMKKNAEKLAVLFCTMLKEPYHHLNVLINAPLKNKKEQKEHVEFVVNVFLNGINS 3qpt-a1-m1-cA_3qpt-a1-m2-cA Crystal structure of the Salmonella transcriptional regulator SlyA P40676 P40676 2.4 X-RAY DIFFRACTION 106 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 130 130 LGSDLARLVRIWRALIDHRLKPLELTQTHWVTLHNIHQLPPDQSQIQLAKAIGIEQPSLVRTLDQLEDKGLISRQTKRIKLTEKAEPLIAEEEVIHKTRGEILAGISSEEIELLIKLIAKLEHNIELHSH LGSDLARLVRIWRALIDHRLKPLELTQTHWVTLHNIHQLPPDQSQIQLAKAIGIEQPSLVRTLDQLEDKGLISRQTKRIKLTEKAEPLIAEEEVIHKTRGEILAGISSEEIELLIKLIAKLEHNIELHSH 3qpy-a1-m1-cA_3qpy-a1-m1-cC Crystal structure of a mutant (K57A) of 3-deoxy-D-manno-octulosonate 8-phosphate synthase (KDO8PS) from Neisseria meningitidis Q9JZ55 Q9JZ55 1.95 X-RAY DIFFRACTION 80 0.988 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 250 251 2qkf-a1-m1-cA_2qkf-a1-m1-cC 2qkf-a1-m1-cB_2qkf-a1-m1-cD 3fyo-a1-m1-cA_3fyo-a1-m1-cC 3fyo-a1-m1-cD_3fyo-a1-m1-cB 3fyp-a1-m1-cB_3fyp-a1-m1-cD 3fyp-a1-m1-cC_3fyp-a1-m1-cA 3qpy-a1-m1-cD_3qpy-a1-m1-cB 3qpz-a1-m1-cA_3qpz-a1-m1-cC 3qpz-a1-m1-cB_3qpz-a1-m1-cD 3qq0-a1-m1-cA_3qq0-a1-m1-cC 3qq0-a1-m1-cD_3qq0-a1-m1-cB 3qq1-a1-m1-cA_3qq1-a1-m1-cC 3qq1-a1-m1-cB_3qq1-a1-m1-cD 3stc-a1-m1-cA_3stc-a1-m1-cC 3stc-a1-m1-cB_3stc-a1-m1-cD 3ste-a1-m1-cA_3ste-a1-m1-cC 3ste-a1-m1-cB_3ste-a1-m1-cD 3stf-a1-m1-cA_3stf-a1-m1-cC 3stf-a1-m1-cB_3stf-a1-m1-cD 3stg-a1-m1-cA_3stg-a1-m1-cC 3stg-a1-m1-cD_3stg-a1-m1-cB 4jte-a1-m1-cA_4jte-a1-m1-cC 4jte-a1-m1-cB_4jte-a1-m1-cD 4jtf-a1-m1-cA_4jtf-a1-m1-cC 4jtf-a1-m1-cD_4jtf-a1-m1-cB 4jtg-a1-m1-cA_4jtg-a1-m1-cC 4jtg-a1-m1-cB_4jtg-a1-m1-cD 4jth-a1-m1-cA_4jth-a1-m1-cC 4jth-a1-m1-cB_4jth-a1-m1-cD 4jti-a1-m1-cA_4jti-a1-m1-cC 4jti-a1-m1-cB_4jti-a1-m1-cD 4jtj-a1-m1-cA_4jtj-a1-m1-cC 4jtj-a1-m1-cB_4jtj-a1-m1-cD 4jtk-a1-m1-cA_4jtk-a1-m1-cC 4jtk-a1-m1-cB_4jtk-a1-m1-cD 4jtl-a1-m1-cA_4jtl-a1-m1-cC 4jtl-a1-m1-cD_4jtl-a1-m1-cB MDIKINDITLGNNSPFVLFGGINVLESLDSTLQTCAHYVEVTRKLGIPYIFKASFDAANRSSIHSYRGVGLEEGLKIFEKVKAEFGIPVITDVHEPHQCQPVAEVCDVIQLPAFLARQTDLVVAMAKTGNVVNIKKPQFLSPSQMKNIVEKFHEAGNGKLILCERGSSFGYDNLVVDMLGFGVMKQTCGNLPVIFDVTHSLQGRRAQALDLALAGMATRLAGLFLESLHLLEDFLIRIKALDDLIKSQPI MDIKINDITLGNNSPFVLFGGINVLESLDSTLQTCAHYVEVTRKLGIPYIFKASFDAANRSSIHSYRGVGLEEGLKIFEKVKAEFGIPVITDVHEPHQCQPVAEVCDVIQLPAFLARQTDLVVAMAKTGNVVNIKKPQFLSPSQMKNIVEKFHEAGNGKLILCERGSSFGYDNLVVDMLGFGVMKQTCGNLPVIFDVTHSLRAQALDLALAGMATRLAGLFLESALPLHLLEDFLIRIKALDDLIKSQPIL 3qq0-a1-m1-cB_3qq0-a1-m1-cC Crystal structure of a deletion mutant (N59) of 3-deoxy-D-manno-octulosonate 8-phosphate synthase (KDO8PS) from Neisseria meningitidis Q9JZ55 Q9JZ55 1.9 X-RAY DIFFRACTION 11 0.992 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 247 249 2qkf-a1-m1-cA_2qkf-a1-m1-cD 2qkf-a1-m1-cB_2qkf-a1-m1-cC 3fyo-a1-m1-cA_3fyo-a1-m1-cD 3fyo-a1-m1-cC_3fyo-a1-m1-cB 3fyp-a1-m1-cB_3fyp-a1-m1-cC 3fyp-a1-m1-cD_3fyp-a1-m1-cA 3qpy-a1-m1-cB_3qpy-a1-m1-cC 3qpy-a1-m1-cD_3qpy-a1-m1-cA 3qpz-a1-m1-cA_3qpz-a1-m1-cD 3qpz-a1-m1-cB_3qpz-a1-m1-cC 3qq0-a1-m1-cD_3qq0-a1-m1-cA 3qq1-a1-m1-cA_3qq1-a1-m1-cD 3qq1-a1-m1-cC_3qq1-a1-m1-cB 3stc-a1-m1-cA_3stc-a1-m1-cD 3stc-a1-m1-cB_3stc-a1-m1-cC 3ste-a1-m1-cA_3ste-a1-m1-cD 3ste-a1-m1-cB_3ste-a1-m1-cC 3stf-a1-m1-cA_3stf-a1-m1-cD 3stf-a1-m1-cB_3stf-a1-m1-cC 3stg-a1-m1-cC_3stg-a1-m1-cB 3stg-a1-m1-cD_3stg-a1-m1-cA 4jte-a1-m1-cA_4jte-a1-m1-cD 4jte-a1-m1-cC_4jte-a1-m1-cB 4jtf-a1-m1-cA_4jtf-a1-m1-cD 4jtf-a1-m1-cC_4jtf-a1-m1-cB 4jtg-a1-m1-cA_4jtg-a1-m1-cD 4jtg-a1-m1-cB_4jtg-a1-m1-cC 4jth-a1-m1-cA_4jth-a1-m1-cD 4jth-a1-m1-cB_4jth-a1-m1-cC 4jti-a1-m1-cA_4jti-a1-m1-cD 4jti-a1-m1-cB_4jti-a1-m1-cC 4jtj-a1-m1-cA_4jtj-a1-m1-cD 4jtj-a1-m1-cB_4jtj-a1-m1-cC 4jtk-a1-m1-cA_4jtk-a1-m1-cD 4jtk-a1-m1-cB_4jtk-a1-m1-cC 4jtl-a1-m1-cA_4jtl-a1-m1-cD 4jtl-a1-m1-cC_4jtl-a1-m1-cB MDIKINDITLGNNSPFVLFGGINVLESLDSTLQTCAHYVEVTRKLGIPYIFKASFDKARSSIHSYRGVGLEEGLKIFEKVKAEFGIPVITDVHEPHQCQPVAEVCDVIQLPAFLARQTDLVVAMAKTGNVVNIKKPQFLSPSQMKNIVEKFHEAGNGKLILCERGSSFGYDNLVVDMLGFGVMKQTCGNLPVIFDVTHSLRRAQALDLALAGMATRLAGLFLESHLLEDFLIRIKALDDLIKSQPIL MDIKINDITLGNNSPFVLFGGINVLESLDSTLQTCAHYVEVTRKLGIPYIFKASFDKARSSIHSYRGVGLEEGLKIFEKVKAEFGIPVITDVHEPHQCQPVAEVCDVIQLPAFLARQTDLVVAMAKTGNVVNIKKPQFLSPSQMKNIVEKFHEAGNGKLILCERGSSFGYDNLVVDMLGFGVMKQTCGNLPVIFDVTHSLRAQALDLALAGMATRLAGLFLESHLPLHLLEDFLIRIKALDDLIKSQPI 3qq2-a2-m1-cC_3qq2-a2-m1-cB Crystal Structure of the Beta Domain of the Bordetella Autotransporter Brka Q45340 Q45340 3 X-RAY DIFFRACTION 102 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 249 250 3qq2-a1-m1-cA_3qq2-a1-m2-cA DAGGPWARTFSERQQISNAYDQTVSGLEIGLDRGWSASGGRWYAGGLLGYTYADRTYPGDGGGKVKGLHVGGYAAYVGDGGYYLDTVLRLGRYDQQYNIAGTDGGRVTADYRTSGAAWSLEGGRRFELPNDWFAEPQAEVMLWRTSGKRYRASNGLRVKVDANTATLGRLGLRFGRRIALAGGNIVQPYARLGWTQEFKSTGRHGRVELGAGVDAALGKGHNLYASYEYAAGDRINIPWSFHAGYRYSF DAGGPWARTFSERQQISNRAYDQTVSGLEIGLDRGWSASGGRWYAGGLLGYTYADRTYPGDGGGKVKGLHVGGYAAYVGDGGYYLDTVLRLGRYDQQYNIAGTDGGRVTADYRTSGAAWSLEGGRRFELPNDWFAEPQAEVMLWRTSGKRYRASNGLRVKVDANTATLGRLGLRFGRRIALAGGNIVQPYARLGWTQEFKSTGRHGRVELGAGVDAALGKGHNLYASYEYAAGDRINIPWSFHAGYRYSF 3qq5-a1-m1-cA_3qq5-a1-m4-cA Crystal structure of the [FeFe]-hydrogenase maturation protein HydF B9KBK7 B9KBK7 2.99 X-RAY DIFFRACTION 98 1.0 309803 (Thermotoga neapolitana DSM 4359) 309803 (Thermotoga neapolitana DSM 4359) 384 384 3qq5-a1-m2-cA_3qq5-a1-m3-cA 5lad-a1-m1-cA_5lad-a1-m2-cA YTMRLGFRRYIVVAGRRNVGKSSFMNALVGTDPVYKSMELHPIGPVTLVDTPGLDDVGELGRLRVEKARRVFYRADCGILVTDSAPTPYEDDVVNLFKEMEIPFVVVVNKIDVLGEKAEELKGLYESRYEAKVLLVSALQKKGFDDIGKTISEILPGDEEIPYLGDLIDGGDLVILVVPIDLGAPKGRLIMPQVHAIREALDREAIALVVKERELRYVMENIGMKPKLVITDSQVAMKVASDVPEDVELTTFSIVESRYRGDLAYFVESVRKIEELEDGDTVVIMEGCTHRPLTEDIGRVKIPRWLVNHTGAQLNFKVIAGKDFPDLEEIENAKLIIHCGGCILNRSAMMRRVRMAKRLGIPMTNYGVTISYLHGVLERAIRPF YTMRLGFRRYIVVAGRRNVGKSSFMNALVGTDPVYKSMELHPIGPVTLVDTPGLDDVGELGRLRVEKARRVFYRADCGILVTDSAPTPYEDDVVNLFKEMEIPFVVVVNKIDVLGEKAEELKGLYESRYEAKVLLVSALQKKGFDDIGKTISEILPGDEEIPYLGDLIDGGDLVILVVPIDLGAPKGRLIMPQVHAIREALDREAIALVVKERELRYVMENIGMKPKLVITDSQVAMKVASDVPEDVELTTFSIVESRYRGDLAYFVESVRKIEELEDGDTVVIMEGCTHRPLTEDIGRVKIPRWLVNHTGAQLNFKVIAGKDFPDLEEIENAKLIIHCGGCILNRSAMMRRVRMAKRLGIPMTNYGVTISYLHGVLERAIRPF 3qq5-a1-m2-cA_3qq5-a1-m4-cA Crystal structure of the [FeFe]-hydrogenase maturation protein HydF B9KBK7 B9KBK7 2.99 X-RAY DIFFRACTION 63 1.0 309803 (Thermotoga neapolitana DSM 4359) 309803 (Thermotoga neapolitana DSM 4359) 384 384 3qq5-a1-m1-cA_3qq5-a1-m3-cA YTMRLGFRRYIVVAGRRNVGKSSFMNALVGTDPVYKSMELHPIGPVTLVDTPGLDDVGELGRLRVEKARRVFYRADCGILVTDSAPTPYEDDVVNLFKEMEIPFVVVVNKIDVLGEKAEELKGLYESRYEAKVLLVSALQKKGFDDIGKTISEILPGDEEIPYLGDLIDGGDLVILVVPIDLGAPKGRLIMPQVHAIREALDREAIALVVKERELRYVMENIGMKPKLVITDSQVAMKVASDVPEDVELTTFSIVESRYRGDLAYFVESVRKIEELEDGDTVVIMEGCTHRPLTEDIGRVKIPRWLVNHTGAQLNFKVIAGKDFPDLEEIENAKLIIHCGGCILNRSAMMRRVRMAKRLGIPMTNYGVTISYLHGVLERAIRPF YTMRLGFRRYIVVAGRRNVGKSSFMNALVGTDPVYKSMELHPIGPVTLVDTPGLDDVGELGRLRVEKARRVFYRADCGILVTDSAPTPYEDDVVNLFKEMEIPFVVVVNKIDVLGEKAEELKGLYESRYEAKVLLVSALQKKGFDDIGKTISEILPGDEEIPYLGDLIDGGDLVILVVPIDLGAPKGRLIMPQVHAIREALDREAIALVVKERELRYVMENIGMKPKLVITDSQVAMKVASDVPEDVELTTFSIVESRYRGDLAYFVESVRKIEELEDGDTVVIMEGCTHRPLTEDIGRVKIPRWLVNHTGAQLNFKVIAGKDFPDLEEIENAKLIIHCGGCILNRSAMMRRVRMAKRLGIPMTNYGVTISYLHGVLERAIRPF 3qqq-a1-m1-cB_3qqq-a1-m1-cA Crystal structure of non-symbiotic plant hemoglobin from Trema tomentosa P07803 P07803 1.84 X-RAY DIFFRACTION 39 1.0 3480 (Trema tomentosum) 3480 (Trema tomentosum) 149 150 VFTEEQEALVVKSWAVMKKNSAELGLKFFLKIFEIAPSAKNLFSYLKPIPLEQNPKLKPHAMTVFVMTCESAVQLRKAGKVTVRESNLKRLGAIHFKNGVVNEHFEVTRFALLETIKEAVPEMWSPEMKNAWGEAYDQLVAAIKSEMKP VFTEEQEALVVKSWAVMKKNSAELGLKFFLKIFEIAPSAKNLFSYLKSPIPLEQNPKLKPHAMTVFVMTCESAVQLRKAGKVTVRESNLKRLGAIHFKNGVVNEHFEVTRFALLETIKEAVPEMWSPEMKNAWGEAYDQLVAAIKSEMKP 3qqt-a1-m4-cA_3qqt-a1-m8-cB Amphiphilic nanotubes in the crystal structure of a biosurfactant protein hydrophobin HFBII P79073 P79073 1.9 X-RAY DIFFRACTION 22 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 3qqt-a1-m1-cA_3qqt-a1-m5-cB 3qqt-a1-m2-cA_3qqt-a1-m6-cB 3qqt-a1-m3-cA_3qqt-a1-m7-cB AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT 3qqt-a1-m7-cB_3qqt-a1-m8-cB Amphiphilic nanotubes in the crystal structure of a biosurfactant protein hydrophobin HFBII P79073 P79073 1.9 X-RAY DIFFRACTION 10 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 3qqt-a1-m5-cB_3qqt-a1-m6-cB AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT 3qqt-a2-m4-cA_3qqt-a2-m7-cB Amphiphilic nanotubes in the crystal structure of a biosurfactant protein hydrophobin HFBII P79073 P79073 1.9 X-RAY DIFFRACTION 13 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 3qqt-a1-m1-cA_3qqt-a1-m6-cB 3qqt-a1-m1-cA_3qqt-a1-m7-cB 3qqt-a1-m2-cA_3qqt-a1-m5-cB 3qqt-a1-m2-cA_3qqt-a1-m8-cB 3qqt-a1-m3-cA_3qqt-a1-m5-cB 3qqt-a1-m3-cA_3qqt-a1-m8-cB 3qqt-a1-m4-cA_3qqt-a1-m6-cB 3qqt-a1-m4-cA_3qqt-a1-m7-cB 3qqt-a2-m1-cA_3qqt-a2-m6-cB 3qqt-a2-m1-cA_3qqt-a2-m7-cB 3qqt-a2-m1-cB_3qqt-a2-m6-cA 3qqt-a2-m1-cB_3qqt-a2-m7-cA 3qqt-a2-m4-cA_3qqt-a2-m6-cB 3qqt-a2-m4-cB_3qqt-a2-m6-cA 3qqt-a2-m4-cB_3qqt-a2-m7-cA AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT 3qqt-a2-m4-cB_3qqt-a2-m7-cB Amphiphilic nanotubes in the crystal structure of a biosurfactant protein hydrophobin HFBII P79073 P79073 1.9 X-RAY DIFFRACTION 12 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 3qqt-a2-m1-cA_3qqt-a2-m7-cA 3qqt-a2-m1-cB_3qqt-a2-m6-cB 3qqt-a2-m4-cA_3qqt-a2-m6-cA AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT 3qqt-a2-m7-cA_3qqt-a2-m7-cB Amphiphilic nanotubes in the crystal structure of a biosurfactant protein hydrophobin HFBII P79073 P79073 1.9 X-RAY DIFFRACTION 16 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 70 70 3qqt-a2-m1-cA_3qqt-a2-m1-cB 3qqt-a2-m4-cA_3qqt-a2-m4-cB 3qqt-a2-m6-cA_3qqt-a2-m6-cB AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT AVCPTGLFSNPLCCATNVLDLIGVDCKTPTIAVDTGAIFQAHCASKGSKPLCCVAPVADQALLCQKAIGT 3qqw-a2-m1-cD_3qqw-a2-m1-cF Crystal structure of a putative lyase (Reut_B4148) from Ralstonia eutropha JMP134 at 2.44 A resolution Q46TN2 Q46TN2 2.44 X-RAY DIFFRACTION 46 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 272 274 3qqw-a1-m1-cA_3qqw-a1-m1-cB 3qqw-a1-m1-cA_3qqw-a1-m1-cC 3qqw-a1-m1-cB_3qqw-a1-m1-cC 3qqw-a2-m1-cD_3qqw-a2-m1-cE 3qqw-a2-m1-cF_3qqw-a2-m1-cE PVLAACEHFAGSEKLIGKADLQVEYGPVFDVTCDCEDGAAAGQEREHAEVARIASDRNVHGRAGARIHDPSHPAWRQDVDIIVNGAGGRLAYITVPKATNSGQVAEVIRYIGDVAKRAGLDKPVPVHVLIETHGALRDVFQIAELPNIEVLDFGLDFVSGHHGAIPAAARSPGQFEHALLVRAKADVAAALANGIVPAHNVCLNLKDAEVIASDACRARNEFGFLRWSIYPAQIQPIVNARPDFTEVEDAAGITYRYFWEVLQKAKVTGAVP SFPVLAACEHFAGSEKLIGKADLQVEYGPVFDVTCDCEDGAAAGQEREHAEVARIASDRNVHGRAGARIHDPSHPAWRQDVDIIVNGAGGRLAYITVPKATNSGQVAEVIRYIGDVAKRAGLDKPVPVHVLIETHGALRDVFQIAELPNIEVLDFGLDFVSGHHGAIPAAARSPGQFEHALLVRAKADVAAALANGIVPAHNVCLNLKDAEVIASDACRARNEFGFLRWSIYPAQIQPIVNARPDFTEVEDAAGITYRYFWEVLQKAKVTGAVP 3qr2-a2-m2-cB_3qr2-a2-m1-cA Wild type CD147 Ig0 domain P35613 P35613 2.3 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 117 3qr2-a2-m1-cB_3qr2-a2-m2-cA AGFVQAPLSQQRWVGGSVELHCEAVGSPVPEIQWWFEGQGPNDICSQLWDGARLDRVHIHATYHQHAASTISIDTLVEEDTGTYECRASNDPDRNHLTRAPRVKWVRAQAVVLVLE MAGFVQAPLSQQRWVGGSVELHCEAVGSPVPEIQWWFEGQGPNDICSQLWDGARLDRVHIHATYHQHAASTISIDTLVEEDTGTYECRASNDPDRNHLTRAPRVKWVRAQAVVLVLE 3qr2-a2-m2-cB_3qr2-a2-m2-cA Wild type CD147 Ig0 domain P35613 P35613 2.3 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 117 3qqn-a1-m1-cA_3qqn-a1-m1-cB 3qr2-a1-m1-cB_3qr2-a1-m1-cA 3qr2-a2-m1-cB_3qr2-a2-m1-cA AGFVQAPLSQQRWVGGSVELHCEAVGSPVPEIQWWFEGQGPNDICSQLWDGARLDRVHIHATYHQHAASTISIDTLVEEDTGTYECRASNDPDRNHLTRAPRVKWVRAQAVVLVLE MAGFVQAPLSQQRWVGGSVELHCEAVGSPVPEIQWWFEGQGPNDICSQLWDGARLDRVHIHATYHQHAASTISIDTLVEEDTGTYECRASNDPDRNHLTRAPRVKWVRAQAVVLVLE 3qr7-a2-m4-cB_3qr7-a2-m5-cB Crystal structure of the C-terminal fragment of the bacteriophage P2 membrane-piercing protein gpV P31340 P31340 0.94 X-RAY DIFFRACTION 325 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 114 114 3aqj-a1-m1-cA_3aqj-a1-m1-cC 3aqj-a1-m1-cB_3aqj-a1-m1-cA 3aqj-a1-m1-cB_3aqj-a1-m1-cC 3aqj-a2-m1-cP_3aqj-a2-m1-cQ 3aqj-a2-m1-cP_3aqj-a2-m1-cR 3aqj-a2-m1-cQ_3aqj-a2-m1-cR 3qr7-a1-m1-cA_3qr7-a1-m2-cA 3qr7-a1-m1-cA_3qr7-a1-m3-cA 3qr7-a1-m2-cA_3qr7-a1-m3-cA 3qr7-a2-m1-cB_3qr7-a2-m4-cB 3qr7-a2-m1-cB_3qr7-a2-m5-cB ADALHIRFPDGAVIEYEPETSALTVGIKTASVTASGSVTATVPVVMVKASTRVTLDTPEVVCTNRLITGTLEVQKGGTMRGNIEHTGGELSSNGKVLHTHKHPGDSGGTTGSPL ADALHIRFPDGAVIEYEPETSALTVGIKTASVTASGSVTATVPVVMVKASTRVTLDTPEVVCTNRLITGTLEVQKGGTMRGNIEHTGGELSSNGKVLHTHKHPGDSGGTTGSPL 3qr8-a1-m2-cA_3qr8-a1-m3-cA Crystal structure of the bacteriophage P2 membrane-piercing protein gpV P31340 P31340 2.03 X-RAY DIFFRACTION 270 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 154 154 3qr8-a1-m1-cA_3qr8-a1-m2-cA 3qr8-a1-m1-cA_3qr8-a1-m3-cA IQELARALRNIRTGIIVETDLNAGRCRVQTGGCTDWLQWLTHRAGRSRTWWAPSVGEQVLILAVGGELDTAFVLPGIYSGDNPSPSVSADALHIRFPDGAVIEYEPETSALTVSGIKTASVTASGSVTATVPVVVKASTRVTLDTPEVVCTNRL IQELARALRNIRTGIIVETDLNAGRCRVQTGGCTDWLQWLTHRAGRSRTWWAPSVGEQVLILAVGGELDTAFVLPGIYSGDNPSPSVSADALHIRFPDGAVIEYEPETSALTVSGIKTASVTASGSVTATVPVVVKASTRVTLDTPEVVCTNRL 3qrb-a2-m1-cB_3qrb-a2-m3-cB crystal structure of E-cadherin EC1-2 P5A P6A P09803 P09803 1.8 X-RAY DIFFRACTION 75 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 3qrb-a1-m1-cA_3qrb-a1-m2-cA DWVIAAISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD DWVIAAISCPENEKGEFPKNLVQIKSNRDKETKVFYSITGQGADKPPVGVFIIERETGWLKVTQPLDREAIAKYILYSHAVSSNGEAVEDPMEIVITVTDQNDNRPEFTQEVFEGSVAEGAVPGTSVMKVSATDADDDVNTYNAAIAYTIVSQDPELPHKNMFTVNRDTGVISVLTSGLDRESYPTYTLVVQAADLQGEGLSTTAKAVITVKD 3qrd-a3-m1-cA_3qrd-a3-m4-cD Crystal structure of L68V mutant of human cystatin C P01034 P01034 2.19 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 3qrd-a3-m2-cA_3qrd-a3-m3-cD VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3qrd-a3-m2-cB_3qrd-a3-m2-cA Crystal structure of L68V mutant of human cystatin C P01034 P01034 2.19 X-RAY DIFFRACTION 234 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 111 3qrd-a1-m1-cB_3qrd-a1-m1-cA 3qrd-a3-m1-cB_3qrd-a3-m1-cA GPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3qrd-a3-m2-cB_3qrd-a3-m4-cC Crystal structure of L68V mutant of human cystatin C P01034 P01034 2.19 X-RAY DIFFRACTION 16 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 104 108 3qrd-a3-m1-cB_3qrd-a3-m3-cC GPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHKRKAFCSFQIYAVPWQGTMTLSKSTCQDA PMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3qrd-a3-m4-cC_3qrd-a3-m4-cD Crystal structure of L68V mutant of human cystatin C P01034 P01034 2.19 X-RAY DIFFRACTION 234 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 111 3qrd-a2-m1-cC_3qrd-a2-m1-cD 3qrd-a3-m3-cC_3qrd-a3-m3-cD PMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIVAGVNYFLDVEVGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3qre-a1-m2-cA_3qre-a1-m3-cA Crystal structure of an enoyl-coA hydratase EchA12_1 from Mycobacterium marinum B2HQD1 B2HQD1 2.4 X-RAY DIFFRACTION 57 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 198 198 3qre-a1-m1-cA_3qre-a1-m2-cA 3qre-a1-m1-cA_3qre-a1-m3-cA QDAVLYEATPGGVAIITFNRADRLNAWGPDLAAGFYAAIDRAEADPGIRVIVLTGRGRGFCAGARPPHFVTMLRKPVIAAINGPCVGIGLTQALMCDVRFAAAGAKFAAVFARRGLIAEFGISWILPRLTSWAVALDLLLSGRTFLAEEAAQLGLVKEVVTPEQLMPRALEYAEDIARYCSPSSMAVIKRQVYGDATR QDAVLYEATPGGVAIITFNRADRLNAWGPDLAAGFYAAIDRAEADPGIRVIVLTGRGRGFCAGARPPHFVTMLRKPVIAAINGPCVGIGLTQALMCDVRFAAAGAKFAAVFARRGLIAEFGISWILPRLTSWAVALDLLLSGRTFLAEEAAQLGLVKEVVTPEQLMPRALEYAEDIARYCSPSSMAVIKRQVYGDATR 3qrf-a2-m1-cH_3qrf-a2-m1-cI Structure of a domain-swapped FOXP3 dimer Q9BZS1 Q9BZS1 2.8 X-RAY DIFFRACTION 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 3qrf-a1-m1-cF_3qrf-a1-m1-cG 4wk8-a1-m1-cF_4wk8-a1-m1-cG MRPPFTYATLIRWAILEAPEKQRTLNEIYHWFTRMFAFFRNHPATWKNAIRHNLSLHKCFVRVESEKGAVWTVDELEFRKKR MRPPFTYATLIRWAILEAPEKQRTLNEIYHWFTRMFAFFRNHPATWKNAIRHNLSLHKCFVRVESEKGAVWTVDELEFRKKR 3qrh-a1-m1-cA_3qrh-a1-m2-cA Crystal structure of fructose bisphosphate aldolase from Encephalitozoon Cuniculi, bound to glyceraldehyde 3-phosphate Q8SSM8 Q8SSM8 2 X-RAY DIFFRACTION 83 1.0 6035 (Encephalitozoon cuniculi) 6035 (Encephalitozoon cuniculi) 337 337 3mbd-a1-m1-cA_3mbd-a1-m2-cA 3mbf-a1-m1-cA_3mbf-a1-m2-cA MDCDHLLRLGMTAKKILENGKGILAADETPKTLGRRFEKLGITNTEENRRKFREILFSTKGIERYIGGVILNQETFEQTSGSGVPLTELLKKKGIEIGIKLDKGLIDYKEKEKISVGLEDLDLRCKSSAFKDATFAKWRSLFYFYDGIPSEDCINENCSILAKYAIICQKNGLVPIVEPEVFLEGDYSMKRSYEVTRQILSTLMKYLNYELVYIPGVLIKASYVTSGQLSNEKYTPKKVATFTLRALLSTIPCGIPGIVFLSGGHGSEDAIGFLNAINMERGCRTWSLSFSFARALTDGVLETWRGDDSNIEEAQKILLETSFKACRGAEGKLWDQE MDCDHLLRLGMTAKKILENGKGILAADETPKTLGRRFEKLGITNTEENRRKFREILFSTKGIERYIGGVILNQETFEQTSGSGVPLTELLKKKGIEIGIKLDKGLIDYKEKEKISVGLEDLDLRCKSSAFKDATFAKWRSLFYFYDGIPSEDCINENCSILAKYAIICQKNGLVPIVEPEVFLEGDYSMKRSYEVTRQILSTLMKYLNYELVYIPGVLIKASYVTSGQLSNEKYTPKKVATFTLRALLSTIPCGIPGIVFLSGGHGSEDAIGFLNAINMERGCRTWSLSFSFARALTDGVLETWRGDDSNIEEAQKILLETSFKACRGAEGKLWDQE 3qrv-a1-m1-cB_3qrv-a1-m1-cA Crystal structure of plasmepsin I (PMI) from Plasmodium falciparum P39898 P39898 2.4 X-RAY DIFFRACTION 41 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 329 323 NAGDSVTLNDVANVMYYGEAQIGDNKQKFAFIFDTGSANLWVPSAQCNTIGCKTKNLYDSNKSKTYEKDGTKVEMNYVSGTVSGFFSKDIVTIANLSFPYKFIEVTDTNGFEPAYTLGQFDGIVGLGWKDLSIGSVDPVVVELKNQNKIEQAVFTFYLPFDDKHKGYLTIGGIEDRFYEGQLTYEKLNHDLYWQVDLDLHFGNLTVEKATAIVDSGTSSITAPTEFLNKFFEGLDVVKIPFLPLYITTCNNPKLPTLEFRSATNVYTLEPEYYLQQIFDFGISLCMVSIIPVDLNKNTFILGDPFMRKYFTVFDYDNHTVGFALAKKKL AGDSVTLNDVANVMYYGEAQIGDNKQKFAFIFDTGSANLWVPSAQCNTIGCKTKNLYDSNKSKTYEKDGTKVEGTVSGFFSKDIVTIANLSFPYKFIEVTDTNGFEPAYTLGQFDGIVGLGWKDLSIGSVDPVVVELKNQNKIEQAVFTFYLPFDDKHKGYLTIGGIEDRFYEGQLTYEKLNHDLYWQVDLDLHFGNLTVEKATAIVDSGTSSITAPTEFLNKFFEGLDVVKIPFLPLYITTCNNPKLPTLEFRSATNVYTLEPEYYLQQIFDFGISLCMVSIIPVDLNKNTFILGDPFMRKYFTVFDYDNHTVGFALAKKKL 3qrw-a1-m1-cA_3qrw-a1-m2-cA Actinorhodin Polyketide Ketoreductase Mutant P94L bound to NADPH P16544 P16544 2.792 X-RAY DIFFRACTION 14 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 257 257 1w4z-a1-m1-cA_1w4z-a1-m2-cA 1w4z-a1-m1-cB_1w4z-a1-m2-cB 1x7g-a1-m1-cA_1x7g-a1-m2-cA 1x7g-a1-m1-cB_1x7g-a1-m2-cB 1x7h-a1-m1-cA_1x7h-a1-m2-cA 1x7h-a1-m1-cB_1x7h-a1-m2-cB 1xr3-a1-m1-cA_1xr3-a1-m2-cA 1xr3-a1-m1-cB_1xr3-a1-m2-cB 2rh4-a1-m1-cA_2rh4-a1-m2-cA 2rh4-a1-m1-cB_2rh4-a1-m2-cB 2rhc-a1-m1-cA_2rhc-a1-m2-cA 2rhc-a1-m1-cB_2rhc-a1-m2-cB 2rhr-a1-m1-cA_2rhr-a1-m2-cA 2rhr-a1-m1-cB_2rhr-a1-m2-cB 3csd-a1-m1-cA_3csd-a1-m2-cA 3csd-a1-m1-cB_3csd-a1-m2-cB 3qrw-a1-m1-cB_3qrw-a1-m2-cB 3ri3-a1-m1-cA_3ri3-a1-m2-cA 3ri3-a1-m1-cB_3ri3-a1-m2-cB 4dbz-a1-m1-cA_4dbz-a1-m2-cA 4dbz-a1-m1-cB_4dbz-a1-m2-cB 4dc0-a1-m1-cA_4dc0-a1-m2-cA 4dc0-a1-m1-cB_4dc0-a1-m2-cB 4dc1-a1-m1-cA_4dc1-a1-m2-cA 4dc1-a1-m1-cB_4dc1-a1-m2-cB DSEVALVTGATSGIGLEIARRLGKEGLRVFVCARGEEGLRTTLKELREAGVEADGRTCDVRSVPEIEALVAAVVERYGPVDVLVNNAGRLGGGATAELADELWLDVVETNLTGVFRVTKQVLKAGGMLERGTGRIVNIASTGGKQGVVHAAPYSASKHGVVGFTKALGLELARTGITVNAVCPGFVETPMAASVREHYSDIWEVSTEEAFDRITARVPIGRYVQPSEVAEMVAYLIGPGAAAVTAQALNVCGGLGNY DSEVALVTGATSGIGLEIARRLGKEGLRVFVCARGEEGLRTTLKELREAGVEADGRTCDVRSVPEIEALVAAVVERYGPVDVLVNNAGRLGGGATAELADELWLDVVETNLTGVFRVTKQVLKAGGMLERGTGRIVNIASTGGKQGVVHAAPYSASKHGVVGFTKALGLELARTGITVNAVCPGFVETPMAASVREHYSDIWEVSTEEAFDRITARVPIGRYVQPSEVAEMVAYLIGPGAAAVTAQALNVCGGLGNY 3qrx-a2-m1-cB_3qrx-a2-m2-cB Chlamydomonas reinhardtii centrin bound to melittin P01501 P01501 2.2 X-RAY DIFFRACTION 11 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 20 20 IGAVLKVLTTGLPALISWIK IGAVLKVLTTGLPALISWIK 3qs1-a1-m1-cD_3qs1-a1-m1-cA Crystal structure of KNI-10006 complex of Plasmepsin I (PMI) from Plasmodium falciparum P39898 P39898 3.1 X-RAY DIFFRACTION 14 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 326 327 3qs1-a1-m1-cC_3qs1-a1-m1-cB GDSVTLNDVANVMYYGEAQIGDNKQKFAFIFDTGSANLWVPSAQCNTIGCKTKNLYDSNKSKTYEKDGTKVEMNYVSGTVSGFFSKDIVTIANLSFPYKFIEVTDTNGFEPAYTLGQFDGIVGLGWKDLSIGSVDPVVVELKNQNKIEQAVFTFYLPFDDKHKGYLTIGGIEDRFYEGQLTYEKLNHDLYWQVDLDLHFGNLTVEKATAIVDSGTSSITAPTEFLNKFFEGLDVVKIPFLPLYITTCNNPKLPTLEFRSATNVYTLEPEYYLQQIFDFGISLCMVSIIPVDLNKNTFILGDPFMRKYFTVFDYDNHTVGFALAKKK AGDSVTLNDVANVMYYGEAQIGDNKQKFAFIFDTGSANLWVPSAQCNTIGCKTKNLYDSNKSKTYEKDGTKVEMNYVSGTVSGFFSKDIVTIANLSFPYKFIEVTDTNGFEPAYTLGQFDGIVGLGWKDLSIGSVDPVVVELKNQNKIEQAVFTFYLPFDDKHKGYLTIGGIEDRFYEGQLTYEKLNHDLYWQVDLDLHFGNLTVEKATAIVDSGTSSITAPTEFLNKFFEGLDVVKIPFLPLYITTCNNPKLPTLEFRSATNVYTLEPEYYLQQIFDFGISLCMVSIIPVDLNKNTFILGDPFMRKYFTVFDYDNHTVGFALAKKK 3qs1-a1-m1-cD_3qs1-a1-m1-cC Crystal structure of KNI-10006 complex of Plasmepsin I (PMI) from Plasmodium falciparum P39898 P39898 3.1 X-RAY DIFFRACTION 60 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 326 326 3qs1-a1-m1-cA_3qs1-a1-m1-cB GDSVTLNDVANVMYYGEAQIGDNKQKFAFIFDTGSANLWVPSAQCNTIGCKTKNLYDSNKSKTYEKDGTKVEMNYVSGTVSGFFSKDIVTIANLSFPYKFIEVTDTNGFEPAYTLGQFDGIVGLGWKDLSIGSVDPVVVELKNQNKIEQAVFTFYLPFDDKHKGYLTIGGIEDRFYEGQLTYEKLNHDLYWQVDLDLHFGNLTVEKATAIVDSGTSSITAPTEFLNKFFEGLDVVKIPFLPLYITTCNNPKLPTLEFRSATNVYTLEPEYYLQQIFDFGISLCMVSIIPVDLNKNTFILGDPFMRKYFTVFDYDNHTVGFALAKKK GDSVTLNDVANVMYYGEAQIGDNKQKFAFIFDTGSANLWVPSAQCNTIGCKTKNLYDSNKSKTYEKDGTKVEMNYVSGTVSGFFSKDIVTIANLSFPYKFIEVTDTNGFEPAYTLGQFDGIVGLGWKDLSIGSVDPVVVELKNQNKIEQAVFTFYLPFDDKHKGYLTIGGIEDRFYEGQLTYEKLNHDLYWQVDLDLHFGNLTVEKATAIVDSGTSSITAPTEFLNKFFEGLDVVKIPFLPLYITTCNNPKLPTLEFRSATNVYTLEPEYYLQQIFDFGISLCMVSIIPVDLNKNTFILGDPFMRKYFTVFDYDNHTVGFALAKKK 3qs2-a1-m1-cA_3qs2-a1-m1-cB Crystal structure of the biofilm forming subunit of the E. coli common pilus: full length domain swapped dimer of EcpA Q8CWB9 Q8CWB9 1.78 X-RAY DIFFRACTION 125 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 173 173 ADVTAQAVATWSATAKKDTTSKLVVTPLGSLAFQYAEGIKGFNSQKGLFDVAIEGDSTATAFKLTSRLITNTLTQLDTSGSTLNVGVDYNGTAVEKTGDTVMIDTANGVLGGNLSPLANGYNASNRTTAQDGFTFSIISGTTNGTTAVTDYSTLPEGIWSGDVSVQFDATWTS ADVTAQAVATWSATAKKDTTSKLVVTPLGSLAFQYAEGIKGFNSQKGLFDVAIEGDSTATAFKLTSRLITNTLTQLDTSGSTLNVGVDYNGTAVEKTGDTVMIDTANGVLGGNLSPLANGYNASNRTTAQDGFTFSIISGTTNGTTAVTDYSTLPEGIWSGDVSVQFDATWTS 3qs6-a2-m1-cA_3qs6-a2-m2-cA Crystal structure of LeuT mutant F259V,I359Q bound to sodium and L-tryptophan O67854 O67854 2.801 X-RAY DIFFRACTION 42 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 509 509 2a65-a2-m1-cA_2a65-a2-m2-cA 2q72-a2-m1-cA_2q72-a2-m2-cA 2qb4-a2-m1-cA_2qb4-a2-m2-cA 2qei-a2-m1-cA_2qei-a2-m2-cA 3f3a-a1-m1-cA_3f3a-a1-m2-cA 3f3c-a1-m1-cA_3f3c-a1-m2-cA 3f3d-a1-m1-cA_3f3d-a1-m2-cA 3f3e-a1-m1-cA_3f3e-a1-m2-cA 3f48-a1-m1-cA_3f48-a1-m2-cA 3f4i-a1-m1-cA_3f4i-a1-m2-cA 3f4j-a1-m1-cA_3f4j-a1-m2-cA 3gjc-a1-m1-cA_3gjc-a1-m1-cB 3gjd-a2-m1-cA_3gjd-a2-m2-cA 3gwu-a2-m1-cA_3gwu-a2-m2-cA 3gwv-a2-m1-cA_3gwv-a2-m2-cA 3gww-a2-m1-cA_3gww-a2-m2-cA 3mpn-a1-m1-cA_3mpn-a1-m2-cA 3mpq-a1-m1-cA_3mpq-a1-m2-cA 3qs4-a2-m1-cA_3qs4-a2-m2-cA 3qs5-a2-m1-cA_3qs5-a2-m2-cA 3tu0-a2-m1-cA_3tu0-a2-m2-cA 3usg-a2-m1-cA_3usg-a2-m2-cA 3usi-a3-m1-cA_3usi-a3-m2-cA 3usi-a4-m1-cB_3usi-a4-m3-cB 3usj-a3-m1-cA_3usj-a3-m2-cB 3usk-a5-m1-cA_3usk-a5-m2-cC 3usk-a6-m1-cB_3usk-a6-m3-cD 3usl-a2-m1-cA_3usl-a2-m2-cA 3usm-a2-m1-cA_3usm-a2-m2-cA 3uso-a3-m1-cA_3uso-a3-m1-cB 3usp-a2-m1-cA_3usp-a2-m2-cA 4fxz-a2-m1-cA_4fxz-a2-m2-cA 4fy0-a2-m1-cA_4fy0-a2-m2-cA 4hmk-a3-m1-cA_4hmk-a3-m1-cB 4hod-a2-m1-cA_4hod-a2-m2-cA 4mm4-a3-m1-cA_4mm4-a3-m1-cB 4mm8-a2-m1-cA_4mm8-a2-m2-cA 4mmd-a3-m1-cA_4mmd-a3-m1-cB 4mme-a3-m1-cA_4mme-a3-m1-cB 4mmf-a3-m1-cA_4mmf-a3-m1-cB 6xwm-a1-m1-cB_6xwm-a1-m1-cA 7lqj-a2-m1-cA_7lqj-a2-m2-cA 7lqk-a2-m1-cA_7lqk-a2-m2-cA 7lql-a2-m1-cA_7lql-a2-m2-cA REHWATRLGLILAMAGNAVGLGNFLRFPVQAAENGGGAFMIPYIIAFLLVGIPLMWIEWAMGRYGGAQGHGTTPAIFYLLWRNRFAKILGVFGLWIPLVVAIYYVYIESWTLGFAIKFLVGLVPEPPPTDPDSILRPFKEFLYSYIGVPKGDEPILKPSLFAYIVFLITMFINVSILIRGISKGIERFAKIAMPTLFILAVFLVIRVFLLETPNGTAADGLNFLWTPDFEKLKDPGVWIAAVGQIFFTLSLGVGAIITYASYVRKDQDIVLSGLTAATLNEKAEVILGGSISIPAAVAFFGVANAVAIAKAGAFNLGFITLPAIFSQTAGGTFLGFLWFFLLFFAGLTSSIAQMQPMIAFLEDELKLSRKHAVLWTAAIVFFSAHLVMFLNKSLDEMDFWAGTIGVVFFGLTELIIFFWIFGADKAWEEINRGGIIKVPRIYYYVMRYITPAFLAVLLVVWAREYIPKIMEETHWTVWITRFYIIGLFLFLTFLVFLAERRRNHESAGT REHWATRLGLILAMAGNAVGLGNFLRFPVQAAENGGGAFMIPYIIAFLLVGIPLMWIEWAMGRYGGAQGHGTTPAIFYLLWRNRFAKILGVFGLWIPLVVAIYYVYIESWTLGFAIKFLVGLVPEPPPTDPDSILRPFKEFLYSYIGVPKGDEPILKPSLFAYIVFLITMFINVSILIRGISKGIERFAKIAMPTLFILAVFLVIRVFLLETPNGTAADGLNFLWTPDFEKLKDPGVWIAAVGQIFFTLSLGVGAIITYASYVRKDQDIVLSGLTAATLNEKAEVILGGSISIPAAVAFFGVANAVAIAKAGAFNLGFITLPAIFSQTAGGTFLGFLWFFLLFFAGLTSSIAQMQPMIAFLEDELKLSRKHAVLWTAAIVFFSAHLVMFLNKSLDEMDFWAGTIGVVFFGLTELIIFFWIFGADKAWEEINRGGIIKVPRIYYYVMRYITPAFLAVLLVVWAREYIPKIMEETHWTVWITRFYIIGLFLFLTFLVFLAERRRNHESAGT 3qsg-a1-m1-cA_3qsg-a1-m2-cA Crystal structure of NAD-binding phosphogluconate dehydrogenase-like protein from Alicyclobacillus acidocaldarius C8WX00 C8WX00 1.9 X-RAY DIFFRACTION 153 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 280 280 KLGFIGFGEAASAIASGLRQAGAIDAAYDAASAESWRPRAEELGVSCKASVAEVAGECDVIFSLVTAQAALEVAQQAGPHLCEGALYADFTSCSPAVKRAIGDVISRHRPSAQYAAVAVSAVKPHGHRVPLVVDGDGARRFQAAFTLYGCRIEVLDGEVGGAALLKCRSAVLKGLEALFLEALAAAEKGLADRVLASLDASFPEHHLRDLALYLVERNLEHADRRAHELGEVAATLCSVGVEPLVAEAGYRRLTRVAQVRAALKQRPGDVRAWLRSLANA KLGFIGFGEAASAIASGLRQAGAIDAAYDAASAESWRPRAEELGVSCKASVAEVAGECDVIFSLVTAQAALEVAQQAGPHLCEGALYADFTSCSPAVKRAIGDVISRHRPSAQYAAVAVSAVKPHGHRVPLVVDGDGARRFQAAFTLYGCRIEVLDGEVGGAALLKCRSAVLKGLEALFLEALAAAEKGLADRVLASLDASFPEHHLRDLALYLVERNLEHADRRAHELGEVAATLCSVGVEPLVAEAGYRRLTRVAQVRAALKQRPGDVRAWLRSLANA 3qsq-a1-m1-cA_3qsq-a1-m2-cA Crystal structure of the projection domain of the human astrovirus capsid protein Q9IFX1 Q9IFX1 1.8 X-RAY DIFFRACTION 111 1.0 43358 (Human astrovirus 8) 43358 (Human astrovirus 8) 216 216 7rk1-a1-m1-cA_7rk1-a1-m1-cB 7rk2-a1-m1-cA_7rk2-a1-m1-cB EQFRVLLTVGPPMAPNTANSQNWVNKTIVPPENQYTVKIGIDLEHYTTMQGFTPVESVSWYTADFQPSDEPSPIPGLYARVNNTKKADVYGVQQFKSSHTNNRHQITSVFLVRVTTSFQVINYTSYFIRGAESGSNVSNLKIRDQTYHTPLQFTQGKWYLLTSTVMHDGPTSSGWVWMNQELTNNIAYRVDPGMMYLITPPPAASQLYFELHTVLP EQFRVLLTVGPPMAPNTANSQNWVNKTIVPPENQYTVKIGIDLEHYTTMQGFTPVESVSWYTADFQPSDEPSPIPGLYARVNNTKKADVYGVQQFKSSHTNNRHQITSVFLVRVTTSFQVINYTSYFIRGAESGSNVSNLKIRDQTYHTPLQFTQGKWYLLTSTVMHDGPTSSGWVWMNQELTNNIAYRVDPGMMYLITPPPAASQLYFELHTVLP 3qt7-a1-m1-cB_3qt7-a1-m1-cA Crystal structure of Staphylococcus epidermidis mevalonate diphosphate decarboxylase complexed with inhibitor 6-FMVAPP Q9FD73 Q9FD73 2.199 X-RAY DIFFRACTION 53 1.0 1282 (Staphylococcus epidermidis) 1282 (Staphylococcus epidermidis) 320 324 3qt5-a1-m1-cB_3qt5-a1-m1-cA 3qt6-a1-m1-cB_3qt6-a1-m1-cA 3qt8-a1-m1-cB_3qt8-a1-m1-cA VKSGKARAHTNIALIKYWGKADETYIIPMNNSLSVTLDRFYTETKVTFDPDFTEDCLILNGNEVNAKEKEKIQNYMNIVRDLAGNRLHARIESENYVPTAAGLASSASAYAALAAACNEALSLNLSDTDLSRLARRGSGSASRSIFGGFAEWEKGHDDLTSYAHGINSNGWEKDLSMIFVVIVSSRSGMSLTRDTSRFYQYWLDHVDEDLNEAKEAVKNQDFQRLGEVIEANGLRMHATNLGAQPPFTYLVQESYDAMAIVEQCRKANLPCYFTMDAGPNVKVLVEKKNKQAVMEQFLKVFDESKIIASDIISSGVEIIK MVKSGKARAHTNIALIKYWGKADETYIIPMNNSLSVTLDRFYTETKVTFDPDFTEDCLILNGNEVNAKEKEKIQNYMNIVRDLAGNRLHARIESENYVPTAAGLASSASAYAALAAACNEALSLNLSDTDLSRLARRGSGSASRSIFGGFAEWEKGHDDLTSYAHGINSNGWEKDLSMIFVVINNQVSSRSGMSLTRDTSRFYQYWLDHVDEDLNEAKEAVKNQDFQRLGEVIEANGLRMHATNLGAQPPFTYLVQESYDAMAIVEQCRKANLPCYFTMDAGPNVKVLVEKKNKQAVMEQFLKVFDESKIIASDIISSGVEIIK 3qta-a1-m1-cB_3qta-a1-m1-cA Crystal structure of a CheC-like protein (rrnAC0528) from Haloarcula marismortui ATCC 43049 at 2.00 A resolution Q5V4K4 Q5V4K4 2 X-RAY DIFFRACTION 76 1.0 272569 (Haloarcula marismortui ATCC 43049) 272569 (Haloarcula marismortui ATCC 43049) 193 201 GPLLIDIRKLTLITRLIQDGAEQVADSLATLAGVDAAVEIKSLSFVQPEDIATEGGGTIYSARVRLTEPPYGVFLTFETETAAEIAELTGSSVEDGFTQLHESALQECNILTSGFIDGIANTLNATINGTPTVVQDDATEIADKALSHVRRDSLTIVLDSLVDIKESDVAFSLRIFLIPDPGSFVHLIDQLDY GPLLIDIRKLTLITRLIQDGAEQVADSLATLAGVDAAVEIKSLSFVQPEDIATEGGGTIYSARVRLTEPPYGVFLTFETETAAEIAELTGSSVEDGFTQLHESALQECNILTSGFIDGIANTLNATINGTPTVVQDDATEIADKALSHVRRDSLTIVLDSLVDIKESDVAFSLRIFLIPDPGSFVHLIDQLDYDTDRETHI 3qtd-a2-m1-cB_3qtd-a2-m1-cC Crystal structure of putative modulator of gyrase (PmbA) from Pseudomonas aeruginosa PAO1 Q9HVU9 Q9HVU9 2.7 X-RAY DIFFRACTION 108 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 434 435 3qtd-a1-m2-cD_3qtd-a1-m1-cA VGPSVLPDLREQVEQIIAEARRQGASACEVAVSLEQGLSTSVRQGEVETVEFNRDQGFGITLYAGQRKGSASTSATGEAAIRETVAAALAIARHTSEDECAGLADAALARELPELDLYHPWSLSPEQAVERALACEAAAFAADKRVTKADGTTLNTHQGCRVYGNSHGFIGGYASTRHSLSCVIAEGEGQQRDYWYDVNRRGEALASAESIGRRAAERAASRLGARPVQTAEVPVLFAPEIAVGLFGHFLGAISGGSLYRKSSFLEGALGQRLFPEWLSIDERPHLVGALGSASFDSDGLATYAKPFVENGELVSYVLGTYSGRKLGLPSTANAGGVHNLFVSHGDEDQAALIRRERGLLVTELGQGVNLVTGDYSRGAAGYWVENGEIQFPVQEVTIAANLRDLFRRIVAVGKDIERRGNLHTGSVLVESVAG VGPSVLPDLREQVEQIIAEARRQGASACEVAVSLEQGLSTSVRQGEVETVEFNRDQGFGITLYAGQRKGSASTSATGEAAIRETVAAALAIARHTSEDECAGLADAALARELPELDLYHPWSLSPEQAVERALACEAAAFAADKRVTKADGTTLNTHQGCRVYGNSHGFIGGYASTRHSLSCVIAEGEGQQRDYWYDVNRRGEALASAESIGRRAAERAASRLGARPVQTAEVPVLFAPEIAVGLFGHFLGAISGGSLYRKSSFLEGALGQRLFPEWLSIDERPHLVGALGSASFDSDGLATYAKPFVENGELVSYVLGTYSGRKLGLPSTANAGGVHNLFVSHGDEDQAALIRRERGLLVTELGQGVNLVTGDYSRGAAGYWVENGEIQFPVQEVTIAANLRDLFRRIVAVGKDIERRGNLHTGSVLVESVAGR 3qte-a6-m1-cC_3qte-a6-m2-cD Crystal structure of human alpha-defensin 6 (H27W mutant) Q01524 Q01524 1.949 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 3qte-a5-m1-cA_3qte-a5-m1-cB AFTCHCRRSCYSTEYSYGTCTVMGINWRFCCL AFTCHCRRSCYSTEYSYGTCTVMGINWRFCCL 3qtg-a1-m2-cB_3qtg-a1-m1-cA Crystal structure of pyruvate kinase from Pyrobaculum aerophilum Q8ZYE0 Q8ZYE0 2.2 X-RAY DIFFRACTION 62 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 419 450 3qtg-a1-m1-cB_3qtg-a1-m2-cA NLTKRVATLGPSTDVLRPDELIKFLDLVDGVRINLAHASPNEVKFRIEAVRSYEKAKNRPLAVIVDLKGPSIRVQEGEVVKFKLVPNKAFFSAVEQNDVILMLDGRLRLKVTNTGSDWIEAVAAIVVEGKDYDISTPAEEDVEALKAISPIRDNIDYVAISLAKSCKDVDSVRSLLTELGFQSQVAVKIETKGAVNNLEELVQCSDYVVVARGDLGLHYGLDALPIVQRRIVHTSLKYGKPIAVATQLLDSMQSSPIPTRAEINDVFTTASMGVDSLWLTNETASGKYPLAAVSWLSRILMNVEYQIPQSPLLQNSRDRFAKGLVELAQDLGANILVFSMSGTLARRIAKFRPRGVVYVGTPNVRVARSLSIVWALEPLYIPAENYEEGLEKLISLKGTTPFVATYGIRGGVHSVKVKL RARNLTKRVATLGPSTDVLRPDELIKFLDLVDGVRINLAHASPNEVKFRIEAVRSYEKAKNRPLAVIVDLKGPSIRVGSTSPINVQEGEVVKFKLSDKSDGTYIPVPNKAFFSAVEQNDVILMLDGRLRLKVTNTGSDWIEAVAESSGVITGGKAIVVEGKDYDISTPAEEDVEALKAISPIRDNIDYVAISLAKSCKDVDSVRSLLTELGFQSQVAVKIETKGAVNNLEELVQCSDYVVVARGDLGLHYGLDALPIVQRRIVHTSLKYGKPIAVATQLLDSMQSSPIPTRAEINDVFTTASMGVDSLWLTNETASGKYPLAAVSWLSRILMNVEYQIPQSPLLQNSRDRFAKGLVELAQDLGANILVFSMSGTLARRIAKFRPRGVVYVGTPNVRVARSLSIVWALEPLYIPAENYEEGLEKLISLKGTTPFVATYGIRGGVHSVKVKL 3qtg-a1-m2-cB_3qtg-a1-m2-cA Crystal structure of pyruvate kinase from Pyrobaculum aerophilum Q8ZYE0 Q8ZYE0 2.2 X-RAY DIFFRACTION 82 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 419 450 3qtg-a1-m1-cB_3qtg-a1-m1-cA NLTKRVATLGPSTDVLRPDELIKFLDLVDGVRINLAHASPNEVKFRIEAVRSYEKAKNRPLAVIVDLKGPSIRVQEGEVVKFKLVPNKAFFSAVEQNDVILMLDGRLRLKVTNTGSDWIEAVAAIVVEGKDYDISTPAEEDVEALKAISPIRDNIDYVAISLAKSCKDVDSVRSLLTELGFQSQVAVKIETKGAVNNLEELVQCSDYVVVARGDLGLHYGLDALPIVQRRIVHTSLKYGKPIAVATQLLDSMQSSPIPTRAEINDVFTTASMGVDSLWLTNETASGKYPLAAVSWLSRILMNVEYQIPQSPLLQNSRDRFAKGLVELAQDLGANILVFSMSGTLARRIAKFRPRGVVYVGTPNVRVARSLSIVWALEPLYIPAENYEEGLEKLISLKGTTPFVATYGIRGGVHSVKVKL RARNLTKRVATLGPSTDVLRPDELIKFLDLVDGVRINLAHASPNEVKFRIEAVRSYEKAKNRPLAVIVDLKGPSIRVGSTSPINVQEGEVVKFKLSDKSDGTYIPVPNKAFFSAVEQNDVILMLDGRLRLKVTNTGSDWIEAVAESSGVITGGKAIVVEGKDYDISTPAEEDVEALKAISPIRDNIDYVAISLAKSCKDVDSVRSLLTELGFQSQVAVKIETKGAVNNLEELVQCSDYVVVARGDLGLHYGLDALPIVQRRIVHTSLKYGKPIAVATQLLDSMQSSPIPTRAEINDVFTTASMGVDSLWLTNETASGKYPLAAVSWLSRILMNVEYQIPQSPLLQNSRDRFAKGLVELAQDLGANILVFSMSGTLARRIAKFRPRGVVYVGTPNVRVARSLSIVWALEPLYIPAENYEEGLEKLISLKGTTPFVATYGIRGGVHSVKVKL 3qth-a1-m1-cB_3qth-a1-m1-cA Crystal structure of a DinB-like protein (CPS_3021) from Colwellia psychrerythraea 34H at 2.20 A resolution Q47ZP9 Q47ZP9 2.2 X-RAY DIFFRACTION 123 0.994 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 159 167 GLSRIDLYIKHRDIFLKHLELLHKLIEKVEDSSLNESELLNARLVDDFPFNVQAKIATNFALRACCPEGDIDSFCGLKTYVVTAIDYINKLSEPTLEQLNLNVQDTAGFKEISPASEYSSFVLPNFFFHISVYAIAKNNGVSVTKGDFDGIHQYPKGFS GLSRIDLYIKHRDIFLKHLELLHKLIEKVEDSSLNESELLNARLVDDFPFNVQAKIATNFALRACCPLSGKEYKELEGDIDSFCGLKTYVVTAIDYINKLSEPTLEQLNLNVQDTAGFKEISPASEYSSFVLPNFFFHISVYAIAKNNGVSVTKGDFDGIHQYPKGF 3qtl-a1-m1-cB_3qtl-a1-m1-cC Structural Basis for Dual-inhibition Mechanism of a Non-classical Kazal-type Serine Protease Inhibitor from Horseshoe Crab in Complex with Subtilisin Q6PNN5 Q6PNN5 2.6 X-RAY DIFFRACTION 38 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 274 274 AQTVPYGIPLIKADKVQAQGFKGANVKVAVLDTGIQASHPDLNVVGGASFVAGEAYNTDGNGHGTHVAGTVAALDNTTGVLGVAPSVSLYAVKVLNSSGSGSYSGIVSGIEWATTNGMDVINMSLGGASGSTAMKQAVDNAYARGVVVVAAAGNSGSSGNTNTIGYPAKYDSVIAVGAVDSNSNRASFSSVGAELEVMAPGAGVYSTYPTNTYATLNGTSMASPHVAGAAALILSKHPNLSASQVRNRLSSTATYLGSSFYYGKGLINVEAAAQ AQTVPYGIPLIKADKVQAQGFKGANVKVAVLDTGIQASHPDLNVVGGASFVAGEAYNTDGNGHGTHVAGTVAALDNTTGVLGVAPSVSLYAVKVLNSSGSGSYSGIVSGIEWATTNGMDVINMSLGGASGSTAMKQAVDNAYARGVVVVAAAGNSGSSGNTNTIGYPAKYDSVIAVGAVDSNSNRASFSSVGAELEVMAPGAGVYSTYPTNTYATLNGTSMASPHVAGAAALILSKHPNLSASQVRNRLSSTATYLGSSFYYGKGLINVEAAAQ 3qtl-a2-m1-cA_3qtl-a2-m1-cC Structural Basis for Dual-inhibition Mechanism of a Non-classical Kazal-type Serine Protease Inhibitor from Horseshoe Crab in Complex with Subtilisin Q6PNN5 Q6PNN5 2.6 X-RAY DIFFRACTION 22 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 269 274 3qtl-a1-m1-cA_3qtl-a1-m1-cC AQTVPYGIPLIKADKVQAQGFKGANVKVAVLDTGIQASHPDLNVVGGASFVAGEAYNTDGNGHGTHVAGTVAALDNTTGVLGVAPSVSLYAVKVLNSSGSGSYSGIVSGIEWATTNGMDVINMSLGGASGSTAMKQAVDNAYARGVVVVAAAGNSGNTIGYPAKYDSVIAVGAVDSNSNRASFSSVGAELEVMAPGAGVYSTYPTNTYATLNGTSMASPHVAGAAALILSKHPNLSASQVRNRLSSTATYLGSSFYYGKGLINVEAAAQ AQTVPYGIPLIKADKVQAQGFKGANVKVAVLDTGIQASHPDLNVVGGASFVAGEAYNTDGNGHGTHVAGTVAALDNTTGVLGVAPSVSLYAVKVLNSSGSGSYSGIVSGIEWATTNGMDVINMSLGGASGSTAMKQAVDNAYARGVVVVAAAGNSGSSGNTNTIGYPAKYDSVIAVGAVDSNSNRASFSSVGAELEVMAPGAGVYSTYPTNTYATLNGTSMASPHVAGAAALILSKHPNLSASQVRNRLSSTATYLGSSFYYGKGLINVEAAAQ 3qtp-a1-m1-cA_3qtp-a1-m1-cB Crystal Structure Analysis of Entamoeba histolytica Enolase P51555 P51555 1.9 X-RAY DIFFRACTION 123 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 438 439 GSMSIQKVHAREILDSRGNPTIEVEITTGKGMFRSCVPSGASTGVHEAVELRDGDKKRYGGKGVLKAVENVNTIIGPALLGKNVLNQAELDEMMIKLDGTNNKGKLGANAILGCSMSICRAAAAEKGLPLYKYLAELTGHKEMTMPVPCFNVINGGAHAGNALAMQEFMICPTGATNFHEALRMAAETYQCLKVVIKAKYGQDATNVGDEGGFAPNVSGAREALDLLVEAIAKAGYTGKIEIAMDCAASEFYNEETKKYDLGKKIPADKKDPSLVKDVDGLIAEYVDYGKHYPIASIEDPFAEDDWAAWNKFTVEHGNFQIVGDDLLVTNPARVQMAMDKNACNSVLIKVNQIGTLTETFKTIKMAQEKGWGVMASHRSGETEDTFIADLVVGLNCKQIKTGAPCRSERLCKYNQLMRIEEELGNIPYAGKNWRNSTA LGSMSIQKVHAREILDSRGNPTIEVEITTGKGMFRSCVPSGASTGVHEAVELRDGDKKRYGGKGVLKAVENVNTIIGPALLGKNVLNQAELDEMMIKLDGTNNKGKLGANAILGCSMSICRAAAAEKGLPLYKYLAELTGHKEMTMPVPCFNVINGGAHAGNALAMQEFMICPTGATNFHEALRMAAETYQCLKVVIKAKYGQDATNVGDEGGFAPNVSGAREALDLLVEAIAKAGYTGKIEIAMDCAASEFYNEETKKYDLGKKIPADKKDPSLVKDVDGLIAEYVDYGKHYPIASIEDPFAEDDWAAWNKFTVEHGNFQIVGDDLLVTNPARVQMAMDKNACNSVLIKVNQIGTLTETFKTIKMAQEKGWGVMASHRSGETEDTFIADLVVGLNCKQIKTGAPCRSERLCKYNQLMRIEEELGNIPYAGKNWRNSTA 3qu1-a1-m1-cB_3qu1-a1-m1-cA Peptide deformylase from Vibrio cholerae Q9KN16 Q9KN16 1.8 X-RAY DIFFRACTION 72 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 167 168 AVLEILTAPDPRLRVQSKQVTDVASVQTLIDDLLDTLYATDNGIGLAAPQVGREEAIVVIDLSDNRDQPLVLINPKVVSGSNKEMGQEGCLSVPDYYADVERYTSVVVEALDREGKPLRIETSDFLAIVMQHEIDHLSGNLFIDYLSPLKQQMAMKKVKKHVKNRAR MAVLEILTAPDPRLRVQSKQVTDVASVQTLIDDLLDTLYATDNGIGLAAPQVGREEAIVVIDLSDNRDQPLVLINPKVVSGSNKEMGQEGCLSVPDYYADVERYTSVVVEALDREGKPLRIETSDFLAIVMQHEIDHLSGNLFIDYLSPLKQQMAMKKVKKHVKNRAR 3qu2-a6-m1-cB_3qu2-a6-m1-cC Crystal structure of pyrophosphatase from bacteroides thetaiotaomicron, a closed cap conformation Q8A5V9 Q8A5V9 1.95 X-RAY DIFFRACTION 47 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 221 221 3qu2-a1-m1-cA_3qu2-a1-m1-cD 3qu2-a2-m1-cA_3qu2-a2-m1-cD 3qu2-a3-m1-cB_3qu2-a3-m1-cC 3qu2-a4-m1-cB_3qu2-a4-m1-cC 3qu2-a5-m1-cA_3qu2-a5-m1-cD 3qu2-a5-m1-cB_3qu2-a5-m1-cC 3qu2-a6-m1-cA_3qu2-a6-m1-cD 3qu7-a3-m1-cA_3qu7-a3-m2-cB 3qxg-a1-m1-cA_3qxg-a1-m2-cB 3qxg-a1-m2-cA_3qxg-a1-m1-cB 3qxg-a2-m1-cA_3qxg-a2-m2-cB KLKAVLFDMDGVLFNSMPYHSEAWHQVMKTHGLDLSREEAYMHEGRTGASTINIVFQRELGKEATQEEIESIYHEKSILFNSYPEAERMPGAWELLQKVKSEGLTPMVVTGSGQLSLLERLEHNFPGMFHKELMVTAFDVKYGKPNPEPYLMALKKGGLKADEAVVIENAPLGVEAGHKAGIFTIAVNTGPLDGQVLLDAGADLLFPSMQTLCDSWDTIML KLKAVLFDMDGVLFNSMPYHSEAWHQVMKTHGLDLSREEAYMHEGRTGASTINIVFQRELGKEATQEEIESIYHEKSILFNSYPEAERMPGAWELLQKVKSEGLTPMVVTGSGQLSLLERLEHNFPGMFHKELMVTAFDVKYGKPNPEPYLMALKKGGLKADEAVVIENAPLGVEAGHKAGIFTIAVNTGPLDGQVLLDAGADLLFPSMQTLCDSWDTIML 3qu2-a6-m1-cC_3qu2-a6-m1-cD Crystal structure of pyrophosphatase from bacteroides thetaiotaomicron, a closed cap conformation Q8A5V9 Q8A5V9 1.95 X-RAY DIFFRACTION 38 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 221 221 3qu2-a2-m1-cA_3qu2-a2-m1-cB 3qu2-a3-m1-cC_3qu2-a3-m1-cD 3qu2-a4-m1-cC_3qu2-a4-m1-cD 3qu2-a5-m1-cA_3qu2-a5-m1-cB 3qu2-a5-m1-cC_3qu2-a5-m1-cD 3qu2-a6-m1-cA_3qu2-a6-m1-cB 3qxg-a1-m1-cA_3qxg-a1-m1-cB 3qxg-a1-m2-cA_3qxg-a1-m2-cB KLKAVLFDMDGVLFNSMPYHSEAWHQVMKTHGLDLSREEAYMHEGRTGASTINIVFQRELGKEATQEEIESIYHEKSILFNSYPEAERMPGAWELLQKVKSEGLTPMVVTGSGQLSLLERLEHNFPGMFHKELMVTAFDVKYGKPNPEPYLMALKKGGLKADEAVVIENAPLGVEAGHKAGIFTIAVNTGPLDGQVLLDAGADLLFPSMQTLCDSWDTIML KLKAVLFDMDGVLFNSMPYHSEAWHQVMKTHGLDLSREEAYMHEGRTGASTINIVFQRELGKEATQEEIESIYHEKSILFNSYPEAERMPGAWELLQKVKSEGLTPMVVTGSGQLSLLERLEHNFPGMFHKELMVTAFDVKYGKPNPEPYLMALKKGGLKADEAVVIENAPLGVEAGHKAGIFTIAVNTGPLDGQVLLDAGADLLFPSMQTLCDSWDTIML 3qua-a1-m1-cA_3qua-a1-m1-cB Crystal structure of a putative uncharacterized protein and possible Molybdenum cofactor protein from Mycobacterium smegmatis A0R2E9 A0R2E9 2.1 X-RAY DIFFRACTION 92 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 179 179 RQWAVCVYCASGPTHPELLELAAEVGSSIAARGWTLVSGGGNVSAMGAVAQAARAKGGHTVGVIPKALVHRELADVDAAELIVTDTMRERKREMEHRSDAFIALPGGIGTLEEFFEAWTAGYLGMHDKPLILLDPFGHYDGLLTWLRGLVPTGYVSQRAMDSLVVVDNVEAALEACAPE RQWAVCVYCASGPTHPELLELAAEVGSSIAARGWTLVSGGGNVSAMGAVAQAARAKGGHTVGVIPKALVHRELADVDAAELIVTDTMRERKREMEHRSDAFIALPGGIGTLEEFFEAWTAGYLGMHDKPLILLDPFGHYDGLLTWLRGLVPTGYVSQRAMDSLVVVDNVEAALEACAPE 3quc-a2-m1-cA_3quc-a2-m2-cA Crystal structure of pyrophosphatase from bacteroides thetaiotaomicron, glu47asn mutant complexed with sulfate Q8A5V9 Q8A5V9 2 X-RAY DIFFRACTION 29 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 225 225 HMRKKLKAVLFDMDGVLFNSMPYHSEAWHQVMKTHGLDLSREEAYMHNGRTGASTINIVFQRELGKEATQEEIESIYHEKSILFNSYPEAERMPGAWELLQKVKSEGLTPMVVTGSGQLSLLERLEHNFPGMFHKELMVTAFDVKYGKPNPEPYLMALKKGGLKADEAVVIENAPLGVEAGHKAGIFTIAVNTGPLDGQVLLDAGADLLFPSMQTLCDSWDTIML HMRKKLKAVLFDMDGVLFNSMPYHSEAWHQVMKTHGLDLSREEAYMHNGRTGASTINIVFQRELGKEATQEEIESIYHEKSILFNSYPEAERMPGAWELLQKVKSEGLTPMVVTGSGQLSLLERLEHNFPGMFHKELMVTAFDVKYGKPNPEPYLMALKKGGLKADEAVVIENAPLGVEAGHKAGIFTIAVNTGPLDGQVLLDAGADLLFPSMQTLCDSWDTIML 3quj-a1-m1-cA_3quj-a1-m1-cB Crystal structure of the phosphonate binding protein, PhnD, from Escherichia coli Q1R3F7 Q1R3F7 2.2 X-RAY DIFFRACTION 90 1.0 364106 (Escherichia coli UTI89) 364106 (Escherichia coli UTI89) 295 298 3p7i-a1-m1-cA_3p7i-a1-m2-cA 3qk6-a1-m1-cA_3qk6-a1-m1-cB 3quj-a2-m1-cC_3quj-a2-m1-cD KALNFGIISTESQQNLKPQWTPFLQDEKKLGVKVNAFFAPDYAGIIQGRFNKVDIAWYGNLSAEAVDRANGQVFAQTVAADGSPGYWSVLIVNKDSPINNLNDLLAKRKDLTFGNGDPNSTSGFLVPGYYVFAKNNISASDFKRTVNAGHETNALAVANKQVDVATNNTENLDKLKTSAPEKLKELKVIWKSPLIPGDPIVWRKNLSETTKDKIYDFFNYGKTPEEKAVLERLGWAPFRASSDLQLVPIRQLALFKEQSVKDNKLAKTTAIQAQLDDLDRLNNALSASSVSKAVQ KALNFGIISTESQQNLKPQWTPFLQDEKKLGVKVNAFFAPDYAGIIQGRFNKVDIAWYGNLSAEAVDRANGQVFAQTVAADGSPGYWSVLIVNKDSPINNLNDLLAKRKDLTFGNGDPNSTSGFLVPGYYVFAKNNISASDFKRTVNAGHETNALAVANKQVDVATNNTENLDKLKTSAPEKLKELKVIWKSPLIPGDPIVWRKNLSETTKDKIYDFFNYGKTPEEKAVLERLGWAPFRASSDLQLVPIRQLALFKEQSVKDNEQDKLAKTTAIQAQLDDLDRLNNALSASSVSKAVQ 3qur-a1-m1-cA_3qur-a1-m2-cA Crystal structure of fosfomycin resistance kinase FomA from Streptomyces wedmorensis complexed with MgADP and fosfomycin monophosphate Q56187 Q56187 1.57 X-RAY DIFFRACTION 113 1.0 43759 (Streptomyces wedmorensis) 43759 (Streptomyces wedmorensis) 249 249 3d40-a1-m1-cA_3d40-a1-m2-cA 3d41-a1-m1-cA_3d41-a1-m2-cA 3qun-a1-m1-cA_3qun-a1-m2-cA 3quo-a1-m1-cA_3quo-a1-m2-cA 3qvf-a1-m1-cA_3qvf-a1-m2-cA 3qvh-a1-m1-cA_3qvh-a1-m2-cA SGLVPRGSHMTPDFLAIKVGGSLFSRKDEPGSLDDDAVTRFARNFARLAETYRGRMVLISGGGAAFSLAGLTEATFEVKKRWAEKLRGIGVDAFPLQLAAMCTLRNGIPQLRSEVLRDVLDHGALPVLAGDALFDEHGKLWAFSSDRVPEVLLPMVEGRLRVVTLTDVDGIVTDDTILPEVDARSPEQAYAALWGSSGAMHTKLDALVTCARRGAECFIMRGDPGSDLEFLTAPFSSWPAHVRSTRITT SGLVPRGSHMTPDFLAIKVGGSLFSRKDEPGSLDDDAVTRFARNFARLAETYRGRMVLISGGGAAFSLAGLTEATFEVKKRWAEKLRGIGVDAFPLQLAAMCTLRNGIPQLRSEVLRDVLDHGALPVLAGDALFDEHGKLWAFSSDRVPEVLLPMVEGRLRVVTLTDVDGIVTDDTILPEVDARSPEQAYAALWGSSGAMHTKLDALVTCARRGAECFIMRGDPGSDLEFLTAPFSSWPAHVRSTRITT 3quw-a1-m2-cA_3quw-a1-m3-cA Crystal structure of yeast Mmf1 P40185 P40185 1.75 X-RAY DIFFRACTION 78 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 125 125 3quw-a1-m1-cA_3quw-a1-m2-cA 3quw-a1-m1-cA_3quw-a1-m3-cA TLTPVSTKLAPPAAASYSQAMKANNFVYVSGQIPYTPDNKPVQGSISEKAEQVFQNVKNILAESNSSLDNIVKVNVFLADMKNFAEFNSVYAKHFHTHKPARSCVGVASLPLNVDLEMEVIAVEK TLTPVSTKLAPPAAASYSQAMKANNFVYVSGQIPYTPDNKPVQGSISEKAEQVFQNVKNILAESNSSLDNIVKVNVFLADMKNFAEFNSVYAKHFHTHKPARSCVGVASLPLNVDLEMEVIAVEK 3qv0-a1-m2-cA_3qv0-a1-m3-cA Crystal structure of Saccharomyces cerevisiae Mam33 P40513 P40513 2.1 X-RAY DIFFRACTION 63 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 179 179 3qv0-a1-m1-cA_3qv0-a1-m2-cA 3qv0-a1-m1-cA_3qv0-a1-m3-cA ETQRVGDILQSELKIEKESLDSFNDFLNKYKFSLVETPGKNEAEIVRRTESGETVHVFFDVAQIAFANVNVVISKSEPAVSFELLMNLQEGSFYVDSATPYPSVDAALNQSAEAEITRELVYHGPPFSNLDEELQESLEAYLESRGVNEELASFISAYSEFKENNEYISWLEKMKKFFH ETQRVGDILQSELKIEKESLDSFNDFLNKYKFSLVETPGKNEAEIVRRTESGETVHVFFDVAQIAFANVNVVISKSEPAVSFELLMNLQEGSFYVDSATPYPSVDAALNQSAEAEITRELVYHGPPFSNLDEELQESLEAYLESRGVNEELASFISAYSEFKENNEYISWLEKMKKFFH 3qv1-a2-m2-cF_3qv1-a2-m1-cF Crystal structure of the binary complex of photosyntetic A4 glyceraldehyde 3-phosphate dehydrogenase (GAPDH) with cp12-2, both from Arabidopsis thaliana. P25856 P25856 2 X-RAY DIFFRACTION 131 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 336 336 3k2b-a1-m1-cA_3k2b-a1-m1-cC 3k2b-a1-m1-cD_3k2b-a1-m1-cB 3k2b-a2-m1-cE_3k2b-a2-m1-cG 3k2b-a2-m1-cH_3k2b-a2-m1-cF 3k2b-a3-m1-cQ_3k2b-a3-m1-cO 3k2b-a3-m2-cQ_3k2b-a3-m2-cO 3qv1-a1-m1-cC_3qv1-a1-m1-cA 3qv1-a1-m1-cD_3qv1-a1-m1-cB 3qv1-a2-m1-cE_3qv1-a2-m2-cE 3rvd-a1-m1-cA_3rvd-a1-m1-cC 3rvd-a1-m1-cD_3rvd-a1-m1-cB 3rvd-a2-m1-cE_3rvd-a2-m1-cG 3rvd-a2-m1-cH_3rvd-a2-m1-cF 3rvd-a3-m1-cQ_3rvd-a3-m1-cO 3rvd-a3-m2-cQ_3rvd-a3-m2-cO 6kez-a1-m1-cA_6kez-a1-m1-cC 6kez-a1-m1-cD_6kez-a1-m1-cB 6kez-a2-m1-cE_6kez-a2-m1-cG 6kez-a2-m1-cF_6kez-a2-m1-cH KLKVAINGFGRIGRNFLRCWHGRKDSPLDIIAINDTGGVKQASHLLKYDSTLGIFDADVKPSGETAISVDGKIIQVVSNRNPSLLPWKELGIDIVIEGTGVFVDREGAGKHIEAGAKKVIITAPGKGDIPTYVVGVNADAYSHDEPIISNASCTTNCLAPFVKVLDQKFGIIKGTMTTTHSYTGDQRLLDASHRDLRRARAAALNIVPTSTGAAKAVALVLPNLKGKLNGIALRVPTPNVSVVDLVVQVSKKTFAEEVNAAFRDSAEKELKGILDVCDEPLVSVDFRCSDFSTTIDSSLTMVMGDDMVKVIAWYDNEWGYSQRVVDLADIVANNWK KLKVAINGFGRIGRNFLRCWHGRKDSPLDIIAINDTGGVKQASHLLKYDSTLGIFDADVKPSGETAISVDGKIIQVVSNRNPSLLPWKELGIDIVIEGTGVFVDREGAGKHIEAGAKKVIITAPGKGDIPTYVVGVNADAYSHDEPIISNASCTTNCLAPFVKVLDQKFGIIKGTMTTTHSYTGDQRLLDASHRDLRRARAAALNIVPTSTGAAKAVALVLPNLKGKLNGIALRVPTPNVSVVDLVVQVSKKTFAEEVNAAFRDSAEKELKGILDVCDEPLVSVDFRCSDFSTTIDSSLTMVMGDDMVKVIAWYDNEWGYSQRVVDLADIVANNWK 3qv1-a5-m2-cE_3qv1-a5-m1-cF Crystal structure of the binary complex of photosyntetic A4 glyceraldehyde 3-phosphate dehydrogenase (GAPDH) with cp12-2, both from Arabidopsis thaliana. P25856 P25856 2 X-RAY DIFFRACTION 108 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 336 336 3k2b-a1-m1-cB_3k2b-a1-m1-cC 3k2b-a1-m1-cD_3k2b-a1-m1-cA 3k2b-a2-m1-cF_3k2b-a2-m1-cG 3k2b-a2-m1-cH_3k2b-a2-m1-cE 3k2b-a3-m1-cO_3k2b-a3-m2-cO 3k2b-a3-m2-cQ_3k2b-a3-m1-cQ 3qv1-a1-m1-cB_3qv1-a1-m1-cC 3qv1-a1-m1-cD_3qv1-a1-m1-cA 3qv1-a2-m1-cF_3qv1-a2-m2-cE 3qv1-a2-m2-cF_3qv1-a2-m1-cE 3qv1-a3-m1-cD_3qv1-a3-m1-cA 3qv1-a4-m1-cC_3qv1-a4-m1-cB 3rvd-a1-m1-cB_3rvd-a1-m1-cC 3rvd-a1-m1-cD_3rvd-a1-m1-cA 3rvd-a2-m1-cF_3rvd-a2-m1-cG 3rvd-a2-m1-cH_3rvd-a2-m1-cE 3rvd-a3-m1-cO_3rvd-a3-m2-cO 3rvd-a3-m2-cQ_3rvd-a3-m1-cQ 6kez-a1-m1-cB_6kez-a1-m1-cC 6kez-a1-m1-cD_6kez-a1-m1-cA 6kez-a2-m1-cE_6kez-a2-m1-cH 6kez-a2-m1-cF_6kez-a2-m1-cG KLKVAINGFGRIGRNFLRCWHGRKDSPLDIIAINDTGGVKQASHLLKYDSTLGIFDADVKPSGETAISVDGKIIQVVSNRNPSLLPWKELGIDIVIEGTGVFVDREGAGKHIEAGAKKVIITAPGKGDIPTYVVGVNADAYSHDEPIISNASCTTNCLAPFVKVLDQKFGIIKGTMTTTHSYTGDQRLLDASHRDLRRARAAALNIVPTSTGAAKAVALVLPNLKGKLNGIALRVPTPNVSVVDLVVQVSKKTFAEEVNAAFRDSAEKELKGILDVCDEPLVSVDFRCSDFSTTIDSSLTMVMGDDMVKVIAWYDNEWGYSQRVVDLADIVANNWK KLKVAINGFGRIGRNFLRCWHGRKDSPLDIIAINDTGGVKQASHLLKYDSTLGIFDADVKPSGETAISVDGKIIQVVSNRNPSLLPWKELGIDIVIEGTGVFVDREGAGKHIEAGAKKVIITAPGKGDIPTYVVGVNADAYSHDEPIISNASCTTNCLAPFVKVLDQKFGIIKGTMTTTHSYTGDQRLLDASHRDLRRARAAALNIVPTSTGAAKAVALVLPNLKGKLNGIALRVPTPNVSVVDLVVQVSKKTFAEEVNAAFRDSAEKELKGILDVCDEPLVSVDFRCSDFSTTIDSSLTMVMGDDMVKVIAWYDNEWGYSQRVVDLADIVANNWK 3qv8-a1-m2-cA_3qv8-a1-m2-cD Crystal structure of Leishmania mexicana pyruvate kinase(LmPYK)in complex with benzothiazole-2,5-disulfonic acid. Q27686 Q27686 2.45 X-RAY DIFFRACTION 153 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 396 492 3qv7-a1-m1-cC_3qv7-a1-m1-cB 3qv8-a1-m1-cA_3qv8-a1-m1-cD SQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHAANQTRILLVE SQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEIRTGQFVGGDAVMERGATCYVTTDPAFADKGTKDKFYIDYQNLSKVVRPGNYIYIDDGILILQVQSHEDEQTLECTVTNSHTISDRRGVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHADANQTRILLVE 3qv9-a1-m1-cB_3qv9-a1-m2-cA Crystal structure of Trypanosoma cruzi pyruvate kinase(TcPYK)in complex with ponceau S. Q4D9Z4 Q4D9Z4 2.1 X-RAY DIFFRACTION 69 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 394 499 MSQLAHNVNLSIFEPISHHRANRIVCTIGPSTQSVEALKGLIRSGMSVARMNFSHGSHEYHQTTINNLRAAATELGAHIGLALDTKGPEILPAVSEKDREDLKFGVEQGIDMVFASFIRTAEQVQEVREALGEKGKDILIISKIENHQGVQNIDGIIEASDGIMVARGDLGVEIPAEKVVVAQMILISKCNVAGKPVICATQMLESMTTNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSATNQAVMFNSIKKMQKLPMSPEEAVCSSAVNSVYEVRAKALLVLSNSGRSARLASKYRPDCPIICATTRMRTCRQLTITRSVDAVFYDAERYGEDENKEKRVQLGVDCAKKKGYVVPGDLMVVVHAQTRIIYVS MSQLAHNVNLSIFEPISHHRANRIVCTIGPSTQSVEALKGLIRSGMSVARMNFSHGSHEYHQTTINNLRAAATELGAHIGLALDTKGPEIRTGLFKDGGIALAPGDTVLVTSDPAFEKIGTKEKFYIEYPRLSITVRPGGFIYIDDGVLSLKVLSKEDEYTLKCYVNNAHFLTDRKGCNLPGCEVDLPAVSEKDREDLKFGVEQGIDMVFASFIRTAEQVQEVREALGEKGKDILIISKIENHQGVQNIDGIIEASDGIMVARGDLGVEIPAEKVVVAQMILISKCNVAGKPVICATQMLESMTTNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSATNQAVMFNSIKKMQKLPMSPEEAVCSSAVNSVYEVRAKALLVLSNSGRSARLASKYRPDCPIICATTRMRTCRQLTITRSVDAVFYDAERYGEDENKEKRVQLGVDCAKKKGYVVPGDLMVVVHADHKVKGYPNQTRIIYVS 3qva-a1-m1-cD_3qva-a1-m1-cA Structure of Klebsiella pneumoniae 5-hydroxyisourate hydrolase A6T926 A6T926 1.755 X-RAY DIFFRACTION 31 0.99 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 103 109 3qva-a1-m1-cB_3qva-a1-m1-cC STLSTHILDISTGTPAEGVTVSLSREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARAGRESVFTRAQIDFVIGDHFHLPFLIAPGGWSTYRGS ENLYFQMSTLSTHILDISTGTPAEGVTVSLSREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARAGRESVFTRAQIDFVIDHFHLPFLIAPGGWSTYRGS 3qva-a1-m1-cD_3qva-a1-m1-cB Structure of Klebsiella pneumoniae 5-hydroxyisourate hydrolase A6T926 A6T926 1.755 X-RAY DIFFRACTION 34 0.99 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 103 105 3qva-a1-m1-cC_3qva-a1-m1-cA STLSTHILDISTGTPAEGVTVSLSREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARAGRESVFTRAQIDFVIGDHFHLPFLIAPGGWSTYRGS HMSTLSTHILDISTGTPAEGVTVSLSREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARAGRESVFTRAQIDFVIGEDHFHLPFLIAPGGWSTYRG 3qva-a1-m1-cD_3qva-a1-m1-cC Structure of Klebsiella pneumoniae 5-hydroxyisourate hydrolase A6T926 A6T926 1.755 X-RAY DIFFRACTION 55 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 103 105 STLSTHILDISTGTPAEGVTVSLSREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARAGRESVFTRAQIDFVIGDHFHLPFLIAPGGWSTYRGS MSTLSTHILDISTGTPAEGVTVSLSREGETLANLVTNAQGRIATFSAAPLPAGRYCLTAETGAWFARAGRESVFTRAQIDFVIGEDHFHLPFLIAPGGWSTYRGS 3qvg-a1-m1-cB_3qvg-a1-m1-cD XRCC1 bound to DNA ligase Q60596 Q60596 2.26 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 104 104 3pc8-a1-m1-cB_3pc8-a1-m1-cA 6wh2-a1-m1-cA_6wh2-a1-m2-cB EPPDLPVPELPDFFEGKHFFLYGEFPGDERRRLIRYVTAFNGELEDRMNERVQFVITAQEWDPNFEEALMENPSLAFVRPRWIYSCNEKQKLLPHQLYGVVPQA EPPDLPVPELPDFFEGKHFFLYGEFPGDERRRLIRYVTAFNGELEDRMNERVQFVITAQEWDPNFEEALMENPSLAFVRPRWIYSCNEKQKLLPHQLYGVVPQA 3qvl-a2-m1-cB_3qvl-a2-m9-cB Allantoin racemase from Klebsiella pneumoniae A6T9E8 A6T9E8 1.822 X-RAY DIFFRACTION 125 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 245 245 3qvj-a1-m1-cA_3qvj-a1-m6-cA 3qvj-a1-m2-cA_3qvj-a1-m5-cA 3qvj-a1-m3-cA_3qvj-a1-m4-cA 3qvj-a2-m10-cB_3qvj-a2-m8-cB 3qvj-a2-m11-cB_3qvj-a2-m7-cB 3qvj-a2-m1-cB_3qvj-a2-m9-cB 3qvk-a1-m1-cA_3qvk-a1-m6-cA 3qvk-a1-m2-cA_3qvk-a1-m5-cA 3qvk-a1-m3-cA_3qvk-a1-m4-cA 3qvk-a2-m10-cB_3qvk-a2-m8-cB 3qvk-a2-m11-cB_3qvk-a2-m7-cB 3qvk-a2-m1-cB_3qvk-a2-m9-cB 3qvl-a1-m1-cA_3qvl-a1-m6-cA 3qvl-a1-m2-cA_3qvl-a1-m5-cA 3qvl-a1-m3-cA_3qvl-a1-m4-cA 3qvl-a2-m10-cB_3qvl-a2-m8-cB 3qvl-a2-m11-cB_3qvl-a2-m7-cB SVRIQVINPNTSLAMTETIGAAARAVAAPGTEILAVCPRAGVPSIEGHFDEAIAAVGVLEQIRAGREQGVDGHVIASFGDPGLLAARELAQGPVIGIAEAAMHMATMVATRFSIVTTLPRTLIIARHLLHQYGFHQHCAALHAIDLPVLALEDGSGLAQEKVRERCIRALKEDGSGAIVLGSGGMATLAQQLTRELRVPVIDGVSAAVKMVESLVALGLATSKHGDLAFPEKKALSGQFQSLNPF SVRIQVINPNTSLAMTETIGAAARAVAAPGTEILAVCPRAGVPSIEGHFDEAIAAVGVLEQIRAGREQGVDGHVIASFGDPGLLAARELAQGPVIGIAEAAMHMATMVATRFSIVTTLPRTLIIARHLLHQYGFHQHCAALHAIDLPVLALEDGSGLAQEKVRERCIRALKEDGSGAIVLGSGGMATLAQQLTRELRVPVIDGVSAAVKMVESLVALGLATSKHGDLAFPEKKALSGQFQSLNPF 3qvl-a2-m7-cB_3qvl-a2-m9-cB Allantoin racemase from Klebsiella pneumoniae A6T9E8 A6T9E8 1.822 X-RAY DIFFRACTION 127 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 245 245 3qvj-a1-m1-cA_3qvj-a1-m4-cA 3qvj-a1-m2-cA_3qvj-a1-m6-cA 3qvj-a1-m3-cA_3qvj-a1-m5-cA 3qvj-a2-m11-cB_3qvj-a2-m8-cB 3qvj-a2-m1-cB_3qvj-a2-m10-cB 3qvj-a2-m7-cB_3qvj-a2-m9-cB 3qvk-a1-m1-cA_3qvk-a1-m4-cA 3qvk-a1-m2-cA_3qvk-a1-m6-cA 3qvk-a1-m3-cA_3qvk-a1-m5-cA 3qvk-a2-m11-cB_3qvk-a2-m8-cB 3qvk-a2-m1-cB_3qvk-a2-m10-cB 3qvk-a2-m7-cB_3qvk-a2-m9-cB 3qvl-a1-m1-cA_3qvl-a1-m4-cA 3qvl-a1-m2-cA_3qvl-a1-m6-cA 3qvl-a1-m3-cA_3qvl-a1-m5-cA 3qvl-a2-m11-cB_3qvl-a2-m8-cB 3qvl-a2-m1-cB_3qvl-a2-m10-cB SVRIQVINPNTSLAMTETIGAAARAVAAPGTEILAVCPRAGVPSIEGHFDEAIAAVGVLEQIRAGREQGVDGHVIASFGDPGLLAARELAQGPVIGIAEAAMHMATMVATRFSIVTTLPRTLIIARHLLHQYGFHQHCAALHAIDLPVLALEDGSGLAQEKVRERCIRALKEDGSGAIVLGSGGMATLAQQLTRELRVPVIDGVSAAVKMVESLVALGLATSKHGDLAFPEKKALSGQFQSLNPF SVRIQVINPNTSLAMTETIGAAARAVAAPGTEILAVCPRAGVPSIEGHFDEAIAAVGVLEQIRAGREQGVDGHVIASFGDPGLLAARELAQGPVIGIAEAAMHMATMVATRFSIVTTLPRTLIIARHLLHQYGFHQHCAALHAIDLPVLALEDGSGLAQEKVRERCIRALKEDGSGAIVLGSGGMATLAQQLTRELRVPVIDGVSAAVKMVESLVALGLATSKHGDLAFPEKKALSGQFQSLNPF 3qvq-a2-m1-cB_3qvq-a2-m2-cC The structure of an Oleispira antarctica phosphodiesterase OLEI02445 in complex with the product sn-glycerol-3-phosphate 1.602 X-RAY DIFFRACTION 56 0.996 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 247 248 3qvq-a1-m1-cD_3qvq-a1-m1-cA GQSAYSFLPQVIAHRGSSGQAPENTLASLHLAGQQGIKWVEIDVLSGDGIPVIFHDDYLSRTTDGDGLIYKTPLAELKQLDAGSWKGQEYQQETIPTLLEAIEVISQYGGLNLELKPCEGLEEETIAASVEVLKQHWPQDLPLLFSSFNYFALVSAKALWPEIARGYNVSAIPSAWQERLEHLDCAGLHIHQSFFDVQQVSDIKAAGYKVLAFTINDESLALKLYNQGLDAVFSDYPQKIQSAIDSH QSAYSFLPQVIAHRGSSGQAPENTLASLHLAGQQGIKWVEIDVLSGDGIPVIFHDDYLSRTTDGDGLIYKTPLAELKQLDAGSWKGQEYQQETIPTLLEAIEVISQYGGLNLELKPCEGLEEETIAASVEVLKQHWPQDLPLLFSSFNYFALVSAKALWPEIARGYNVSAIPSAWQERLEHLDCAGLHIHQSFFDVQQVSDIKAAGYKVLAFTINDESLALKLYNQGLDAVFSDYPQKIQSAIDSHIN 3qvs-a1-m3-cA_3qvs-a1-m4-cA L-myo-inositol 1-phosphate synthase from Archaeoglobus fulgidus wild type O28480 O28480 1.7 X-RAY DIFFRACTION 49 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 392 392 1u1i-a1-m1-cA_1u1i-a1-m1-cC 1u1i-a1-m1-cB_1u1i-a1-m1-cD 3qvs-a1-m1-cA_3qvs-a1-m2-cA 3qvt-a1-m1-cA_3qvt-a1-m2-cA 3qvt-a1-m3-cA_3qvt-a1-m4-cA 3qvw-a1-m1-cA_3qvw-a1-m2-cA 3qvw-a1-m3-cA_3qvw-a1-m4-cA 3qvx-a1-m1-cA_3qvx-a1-m2-cA 3qvx-a1-m3-cA_3qvx-a1-m4-cA 3qw2-a1-m1-cA_3qw2-a1-m1-cC 3qw2-a1-m1-cB_3qw2-a1-m1-cD MKVWLVGAYGIVSTTAMVGARAIERGIAPKIGLVSELPHFEGIEKYAPFSFEFGGHEIRLLSNAYEAAKEHWELNRHFDREILEAVKSDLEGIVARKGTALNCGSGIKELGDIKTLEGEGLSLAEMVSRIEEDIKSFADDETVVINVASTEPLPNYSEEYHGSLEGFERMIDEDRKEYASASMLYAYAALKLGLPYANFTPSPGSAIPALKELAEKKGVPHAGNDGKTGETLVKTTLAPMFAYRNMEVVGWMSYNILGDYDGKVLSARDNKESKVLSKDKVLEKMLGYSPYSITEIQYFPSLVDNKTAFDFVHFKGFLGKLMKFYFIWDAIDAIVAAPLILDIARFLLFAKKKGVKGVVKEMAFFFKSPMDTNVINTHEQFVVLKEWYSNLK MKVWLVGAYGIVSTTAMVGARAIERGIAPKIGLVSELPHFEGIEKYAPFSFEFGGHEIRLLSNAYEAAKEHWELNRHFDREILEAVKSDLEGIVARKGTALNCGSGIKELGDIKTLEGEGLSLAEMVSRIEEDIKSFADDETVVINVASTEPLPNYSEEYHGSLEGFERMIDEDRKEYASASMLYAYAALKLGLPYANFTPSPGSAIPALKELAEKKGVPHAGNDGKTGETLVKTTLAPMFAYRNMEVVGWMSYNILGDYDGKVLSARDNKESKVLSKDKVLEKMLGYSPYSITEIQYFPSLVDNKTAFDFVHFKGFLGKLMKFYFIWDAIDAIVAAPLILDIARFLLFAKKKGVKGVVKEMAFFFKSPMDTNVINTHEQFVVLKEWYSNLK 3qvw-a1-m1-cA_3qvw-a1-m4-cA L-myo-inositol 1-phosphate synthase from Archaeoglobus fulgidus mutant K278A O28480 O28480 2 X-RAY DIFFRACTION 163 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 392 392 1u1i-a1-m1-cA_1u1i-a1-m1-cB 1u1i-a1-m1-cC_1u1i-a1-m1-cD 3qvs-a1-m1-cA_3qvs-a1-m4-cA 3qvs-a1-m2-cA_3qvs-a1-m3-cA 3qvt-a1-m1-cA_3qvt-a1-m4-cA 3qvt-a1-m2-cA_3qvt-a1-m3-cA 3qvw-a1-m2-cA_3qvw-a1-m3-cA 3qvx-a1-m1-cA_3qvx-a1-m4-cA 3qvx-a1-m2-cA_3qvx-a1-m3-cA 3qw2-a1-m1-cA_3qw2-a1-m1-cB 3qw2-a1-m1-cC_3qw2-a1-m1-cD MKVWLVGAYGIVSTTAMVGARAIERGIAPKIGLVSELPHFEGIEKYAPFSFEFGGHEIRLLSNAYEAAKEHWELNRHFDREILEAVKSDLEGIVARKGTALNCGSGIKELGDIKTLEGEGLSLAEMVSRIEEDIKSFADDETVVINVASTEPLPNYSEEYHGSLEGFERMIDEDRKEYASASMLYAYAALKLGLPYANFTPSPGSAIPALKELAEKKGVPHAGNDGKTGETLVKTTLAPMFAYRNMEVVGWMSYNILGDYDGKVLSARDNKESKVLSADKVLEKMLGYSPYSITEIQYFPSLVDNKTAFDFVHFKGFLGKLMKFYFIWDAIDAIVAAPLILDIARFLLFAKKKGVKGVVKEMAFFFKSPMDTNVINTHEQFVVLKEWYSNLK MKVWLVGAYGIVSTTAMVGARAIERGIAPKIGLVSELPHFEGIEKYAPFSFEFGGHEIRLLSNAYEAAKEHWELNRHFDREILEAVKSDLEGIVARKGTALNCGSGIKELGDIKTLEGEGLSLAEMVSRIEEDIKSFADDETVVINVASTEPLPNYSEEYHGSLEGFERMIDEDRKEYASASMLYAYAALKLGLPYANFTPSPGSAIPALKELAEKKGVPHAGNDGKTGETLVKTTLAPMFAYRNMEVVGWMSYNILGDYDGKVLSARDNKESKVLSADKVLEKMLGYSPYSITEIQYFPSLVDNKTAFDFVHFKGFLGKLMKFYFIWDAIDAIVAAPLILDIARFLLFAKKKGVKGVVKEMAFFFKSPMDTNVINTHEQFVVLKEWYSNLK 3qw4-a1-m1-cC_3qw4-a1-m2-cC Structure of Leishmania donovani UMP synthase H9ABT8 H9ABT8 3 X-RAY DIFFRACTION 37 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 447 447 TMSFFDLLNERAKRSLLCVGLDPRAKTAAAAVEECKRLIEQTHEYAAAYKPNAAFFEFFGAEGWAALSEVIRAVPAGIPVVLDAKRGDIADTADAYATSAFKHLNAHAITASPYMGSDSLQPFMRYPDKAVFVLCKTSNKGSNDLQCLRVGDRYLYEAVAERAEGPWNVNGNVGLVVGATDPVALARVRARAPTLWFLVPGIGAQGGSLKASLDAGLRADGSGMLINVSRGLARAADPRAAAKELCEEINAIRFKGASVELAKALVDSHCVRFGNFTLKSGKSSPIYIDLRRLVTYPAIMRLVAREYAKVLRHYKFDRIAGLPYAALPIASAISNEMNVPLIYPRREAKAAIEGEYKKGDRVVIIDDLVSTGETKVEAIEKLRSAGLEVVSIVVLVDRDMGAKAFLNKLGYDFEAVVGLHQLLPLWRKSNAITSQQEADVRAFLGQW TMSFFDLLNERAKRSLLCVGLDPRAKTAAAAVEECKRLIEQTHEYAAAYKPNAAFFEFFGAEGWAALSEVIRAVPAGIPVVLDAKRGDIADTADAYATSAFKHLNAHAITASPYMGSDSLQPFMRYPDKAVFVLCKTSNKGSNDLQCLRVGDRYLYEAVAERAEGPWNVNGNVGLVVGATDPVALARVRARAPTLWFLVPGIGAQGGSLKASLDAGLRADGSGMLINVSRGLARAADPRAAAKELCEEINAIRFKGASVELAKALVDSHCVRFGNFTLKSGKSSPIYIDLRRLVTYPAIMRLVAREYAKVLRHYKFDRIAGLPYAALPIASAISNEMNVPLIYPRREAKAAIEGEYKKGDRVVIIDDLVSTGETKVEAIEKLRSAGLEVVSIVVLVDRDMGAKAFLNKLGYDFEAVVGLHQLLPLWRKSNAITSQQEADVRAFLGQW 3qw4-a2-m1-cB_3qw4-a2-m1-cC Structure of Leishmania donovani UMP synthase H9ABT8 H9ABT8 3 X-RAY DIFFRACTION 164 0.998 5661 (Leishmania donovani) 5661 (Leishmania donovani) 445 447 3qw3-a1-m1-cA_3qw3-a1-m1-cB 3qw4-a1-m1-cB_3qw4-a1-m1-cC 3qw4-a1-m2-cB_3qw4-a1-m2-cC TMSFFDLLNERAKRSLLCVGLDPRAKTAAAAVEECKRLIEQTHEYAAAYKPNAAFFEFFGAEGWAALSEVIRAVPAGIPVVLDAKRGDIADTADAYATSAFKHLNAHAITASPYMGSDSLQPFMRYPDKAVFVLCKTSNKGSNDLQCLRVGDRYLYEAVAERAEGPWNVNGNVGLVVGATDPVALARVRARAPTLWFLVPGIGAQGGSLKASLDAGLRADGSGMLINVSRGLARAADPRAAAKELCEEINAIRFAKGASVELAKALVDSHCVRFGNFTLKSGKSSPIYIDLRRLVTYPAIMRLVAREYAKVLRHYKFDRIAGLPYAALPIASAISNEMNVPLIYPRREAAIEGEYKKGDRVVIIDDLVSTETKVEAIEKLRSAGLEVVSIVVLVDRDMGAKAFLNKLGYDFEAVVGLHQLLPLWRKSNAITSQQEADVRAFLGQW TMSFFDLLNERAKRSLLCVGLDPRAKTAAAAVEECKRLIEQTHEYAAAYKPNAAFFEFFGAEGWAALSEVIRAVPAGIPVVLDAKRGDIADTADAYATSAFKHLNAHAITASPYMGSDSLQPFMRYPDKAVFVLCKTSNKGSNDLQCLRVGDRYLYEAVAERAEGPWNVNGNVGLVVGATDPVALARVRARAPTLWFLVPGIGAQGGSLKASLDAGLRADGSGMLINVSRGLARAADPRAAAKELCEEINAIRFKGASVELAKALVDSHCVRFGNFTLKSGKSSPIYIDLRRLVTYPAIMRLVAREYAKVLRHYKFDRIAGLPYAALPIASAISNEMNVPLIYPRREAKAAIEGEYKKGDRVVIIDDLVSTGETKVEAIEKLRSAGLEVVSIVVLVDRDMGAKAFLNKLGYDFEAVVGLHQLLPLWRKSNAITSQQEADVRAFLGQW 3qw4-a3-m2-cB_3qw4-a3-m1-cC Structure of Leishmania donovani UMP synthase H9ABT8 H9ABT8 3 X-RAY DIFFRACTION 102 0.998 5661 (Leishmania donovani) 5661 (Leishmania donovani) 445 447 3qw4-a1-m1-cB_3qw4-a1-m2-cC 3qw4-a1-m2-cB_3qw4-a1-m1-cC TMSFFDLLNERAKRSLLCVGLDPRAKTAAAAVEECKRLIEQTHEYAAAYKPNAAFFEFFGAEGWAALSEVIRAVPAGIPVVLDAKRGDIADTADAYATSAFKHLNAHAITASPYMGSDSLQPFMRYPDKAVFVLCKTSNKGSNDLQCLRVGDRYLYEAVAERAEGPWNVNGNVGLVVGATDPVALARVRARAPTLWFLVPGIGAQGGSLKASLDAGLRADGSGMLINVSRGLARAADPRAAAKELCEEINAIRFAKGASVELAKALVDSHCVRFGNFTLKSGKSSPIYIDLRRLVTYPAIMRLVAREYAKVLRHYKFDRIAGLPYAALPIASAISNEMNVPLIYPRREAAIEGEYKKGDRVVIIDDLVSTETKVEAIEKLRSAGLEVVSIVVLVDRDMGAKAFLNKLGYDFEAVVGLHQLLPLWRKSNAITSQQEADVRAFLGQW TMSFFDLLNERAKRSLLCVGLDPRAKTAAAAVEECKRLIEQTHEYAAAYKPNAAFFEFFGAEGWAALSEVIRAVPAGIPVVLDAKRGDIADTADAYATSAFKHLNAHAITASPYMGSDSLQPFMRYPDKAVFVLCKTSNKGSNDLQCLRVGDRYLYEAVAERAEGPWNVNGNVGLVVGATDPVALARVRARAPTLWFLVPGIGAQGGSLKASLDAGLRADGSGMLINVSRGLARAADPRAAAKELCEEINAIRFKGASVELAKALVDSHCVRFGNFTLKSGKSSPIYIDLRRLVTYPAIMRLVAREYAKVLRHYKFDRIAGLPYAALPIASAISNEMNVPLIYPRREAKAAIEGEYKKGDRVVIIDDLVSTGETKVEAIEKLRSAGLEVVSIVVLVDRDMGAKAFLNKLGYDFEAVVGLHQLLPLWRKSNAITSQQEADVRAFLGQW 3qw9-a1-m1-cB_3qw9-a1-m1-cA Crystal structure of betaglycan ZP-C domain P26342 P26342 2 X-RAY DIFFRACTION 75 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 166 170 PNSNATFNMELYNTDLFLVPSPGVFSVAENEHVYVEVSVTKADQDLGFAIQTCFLSPYSNPDRMSDYTIIENICPKDDSVKFYSSKRVHFPIPHAEVDKKRFSFLFKSVFNTSLLFLHCELTLCSRKKGSLKLPRCVTPDDACTSMIWTMMQNKKTFTKPLAVVLQ PNSNATFNMELYNTDLFLVPSPGVFSVAENEHVYVEVSVTKADQDLGFAIQTCFLSPYSNPDRMSDYTIIENICPKDDSVKFYSSKRVHFPIPHAEVDKKRFSFLFKSVFNTSLLFLHCELTLCSRKKGSLKLPRCVTPDDACTSLDATMIWTMMQNKKTFTKPLAVVLQ 3qwb-a2-m1-cC_3qwb-a2-m1-cD Crystal structure of Saccharomyces cerevisiae Zeta-crystallin-like quinone oxidoreductase Zta1 complexed with NADPH P38230 P38230 1.59 X-RAY DIFFRACTION 79 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 330 330 3qwa-a1-m1-cA_3qwa-a1-m1-cB 3qwb-a1-m1-cA_3qwb-a1-m1-cB IPEQQKVILIDEIGGYDVIKYEDYPVPSISEEELLIKNKYTGVNYIESYFRKGIYPCEKPYVLGREASGTVVAKGKGVTNFEVGDQVAYISNSTFAQYSKISSQGPVMKLPKGTSDEELKLYAAGLLQVLTALSFTNEAYHVKKGDYVLLFAAAGGVGLILNQLLKMKGAHTIAVASTDEKLKIAKEYGAEYLINASKEDILRQVLKFTNGKGVDASFDSVGKDTFEISLAALKRKGVFVSFGNASGLIPPFSITRLSPKNITLVRPQLYGYIADPEEWKYYSDEFFGLVNSKKLNIKIYKTYPLRDYRTAAADIESRKTVGKLVLEIPQ IPEQQKVILIDEIGGYDVIKYEDYPVPSISEEELLIKNKYTGVNYIESYFRKGIYPCEKPYVLGREASGTVVAKGKGVTNFEVGDQVAYISNSTFAQYSKISSQGPVMKLPKGTSDEELKLYAAGLLQVLTALSFTNEAYHVKKGDYVLLFAAAGGVGLILNQLLKMKGAHTIAVASTDEKLKIAKEYGAEYLINASKEDILRQVLKFTNGKGVDASFDSVGKDTFEISLAALKRKGVFVSFGNASGLIPPFSITRLSPKNITLVRPQLYGYIADPEEWKYYSDEFFGLVNSKKLNIKIYKTYPLRDYRTAAADIESRKTVGKLVLEIPQ 3qwe-a1-m1-cA_3qwe-a1-m2-cA Crystal structure of the N-terminal domain of the GEM interacting protein Q9P107 Q9P107 2.4 X-RAY DIFFRACTION 184 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 260 GEELDLRLIRTKGGVDAALEYAKTWSRYAKELLAWTEKRASYELEFAKSTMKIAEAGKVSIQQQSHMPLQYIYTLFLEHDLSLGTLAMETVAQQKRDYYQPLAAKRTEIEKWRKEFKEQWMKEQKRMNEAVQALRRAQLQYVQRSEDLRARSQGSKQQERRRRSREEAQAKAQEAEALYQACVREANARQQDLEIAKQRIVSHVRKLVFQGDEVLRRVTLSLFGLRGAQAERGPRAFAALAECCAPFEPGQRYQEFVRAL GEELDLRLIRTKGGVDAALEYAKTWSRYAKELLAWTEKRASYELEFAKSTMKIAEAGKVSIQQQSHMPLQYIYTLFLEHDLSLGTLAMETVAQQKRDYYQPLAAKRTEIEKWRKEFKEQWMKEQKRMNEAVQALRRAQLQYVQRSEDLRARSQGSKQQERRRRSREEAQAKAQEAEALYQACVREANARQQDLEIAKQRIVSHVRKLVFQGDEVLRRVTLSLFGLRGAQAERGPRAFAALAECCAPFEPGQRYQEFVRAL 3qwf-a4-m1-cG_3qwf-a4-m1-cH Crystal structure of the 17beta-hydroxysteroid dehydrogenase from Cochliobolus lunatus O93874 O93874 1.88 X-RAY DIFFRACTION 123 1.0 5503 (Curvularia lunata) 5503 (Curvularia lunata) 261 261 3is3-a1-m1-cA_3is3-a1-m2-cA 3is3-a2-m1-cA_3is3-a2-m2-cA 3is3-a2-m3-cA_3is3-a2-m4-cA 3itd-a1-m1-cA_3itd-a1-m2-cA 3itd-a2-m1-cA_3itd-a2-m2-cA 3itd-a2-m3-cA_3itd-a2-m4-cA 3qwf-a1-m1-cA_3qwf-a1-m1-cB 3qwf-a2-m1-cC_3qwf-a2-m1-cD 3qwf-a3-m1-cE_3qwf-a3-m1-cF 3qwh-a1-m1-cA_3qwh-a1-m1-cB 3qwh-a2-m1-cC_3qwh-a2-m1-cD 3qwi-a1-m1-cA_3qwi-a1-m1-cB 3qwi-a2-m1-cC_3qwi-a2-m1-cD 4fiz-a1-m1-cA_4fiz-a1-m2-cA 4fiz-a3-m1-cA_4fiz-a3-m2-cA 4fiz-a3-m3-cA_4fiz-a3-m4-cA 4fj0-a1-m1-cA_4fj0-a1-m1-cB 4fj0-a2-m1-cC_4fj0-a2-m1-cD 4fj0-a3-m1-cA_4fj0-a3-m1-cB 4fj0-a3-m1-cC_4fj0-a3-m1-cD 4fj1-a1-m1-cB_4fj1-a1-m1-cA 4fj1-a2-m1-cC_4fj1-a2-m1-cD 4fj1-a3-m1-cB_4fj1-a3-m1-cA 4fj1-a3-m1-cC_4fj1-a3-m1-cD 4fj2-a1-m1-cA_4fj2-a1-m1-cB 4fj2-a2-m1-cC_4fj2-a2-m1-cD 4fj2-a3-m1-cA_4fj2-a3-m1-cB 4fj2-a3-m1-cC_4fj2-a3-m1-cD TYIPGRLDGKVALVTGSGRGIGAAVAVHLGRLGAKVVVNYANSTKDAEKVVSEIKALGSDAIAIKADIRQVPEIVKLFDQAVAHFGHLDIAVSNSGVVSFGHLKDVTEEEFDRVFSLNTRGQFFVAREAYRHLTEGGRIVLTSSNTSKDFSVPKHSLYSGSKGAVDSFVRIFSKDCGDKKITVNAVAPGGTVTDMFHEVSHHYIPNGTSYTAEQRQQMAAHASPLHRNGWPQDVANVVGFLVSKEGEWVNGKVLTLDGGAA TYIPGRLDGKVALVTGSGRGIGAAVAVHLGRLGAKVVVNYANSTKDAEKVVSEIKALGSDAIAIKADIRQVPEIVKLFDQAVAHFGHLDIAVSNSGVVSFGHLKDVTEEEFDRVFSLNTRGQFFVAREAYRHLTEGGRIVLTSSNTSKDFSVPKHSLYSGSKGAVDSFVRIFSKDCGDKKITVNAVAPGGTVTDMFHEVSHHYIPNGTSYTAEQRQQMAAHASPLHRNGWPQDVANVVGFLVSKEGEWVNGKVLTLDGGAA 3qwg-a3-m2-cB_3qwg-a3-m1-cA Crystal structure of EspRdelta10, C-terminal 10 amino acids deletion mutant of EspR transcription factor from Mycobacterium tuberculosis P9WJB7 P9WJB7 1.992 X-RAY DIFFRACTION 50 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 90 93 TTFAARLNRLFDTVYPPGRGPHTSAEVIAALKAEGITMSAPYLSQLRSGNRTNPSGATMAALANFFRIKAAYFTDDEYYEKLDKELQWLC TTFAARLNRLFDTVYPPGRGPHTSAEVIAALKAEGITMSAPYLSQLRSGNRTNPSGATMAALANFFRIKAAYFTDDEYYEKLDKELQWLCTMR 3qwm-a1-m1-cA_3qwm-a1-m2-cA Crystal Structure of GEP100, the plextrin homology domain of IQ motif and SEC7 domain-containing protein 1 isoform a Q6DN90 Q6DN90 2.39 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 HRRLVCYCRLFEVPDPNKPQKLGLHQREIFLFNDLLVVTKIFQNSVTYSFRQSFSLYGMQVLLFENQYYPNGIRLTSSVPGADIKVLINFNAPNPQDRKKFTDDLRESIAEVQEMEKHRIESELEKQ HRRLVCYCRLFEVPDPNKPQKLGLHQREIFLFNDLLVVTKIFQNSVTYSFRQSFSLYGMQVLLFENQYYPNGIRLTSSVPGADIKVLINFNAPNPQDRKKFTDDLRESIAEVQEMEKHRIESELEKQ 3qwn-a17-m1-cL_3qwn-a17-m1-cI Crystal structure of a NigD-like immunity protein (BACCAC_03262) from Bacteroides caccae ATCC 43185 at 2.42 A resolution A5ZK25 A5ZK25 2.42 X-RAY DIFFRACTION 48 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 200 202 3qwn-a13-m1-cD_3qwn-a13-m1-cA 3qwn-a14-m1-cC_3qwn-a14-m1-cB 3qwn-a15-m1-cE_3qwn-a15-m1-cH 3qwn-a16-m1-cF_3qwn-a16-m1-cG 3qwn-a18-m1-cK_3qwn-a18-m1-cJ VKLEFVTVKAGTDGSIQTLIPDNGEALTVSKDRTGSAISPNTSRRVSNYETLSNGHTATAVIYSLQSLVTPTPKPADDPTYRDGLKHDPVDVVSIWLGRGYLNILNLKVNGGKQHVFGIVEDLSEFETNGTVNLLYHDANGDEEYYNRRAYLSVPLDKYADAENPGQKITIKFKYYTYDKDGTAIESGKYCNPGFEYVPD PSVKLEFVTVKAGTDGSIQTLIPDNGEALTVSKDRTGSAISPNTSRRVSNYETLSNGHTATAVIYSLQSLVTPTPKPADDPTYRDGLKHDPVDVVSIWLGRGYLNILNLKVNGGKQHVFGIVEDLSEFETNGTVNLLYHDANGDEEYYNRRAYLSVPLDKYADAENPGQKITIKFKYYTYDKDGTAIESGKYCNPGFEYVPD 3qwt-a1-m1-cD_3qwt-a1-m2-cD The crystal structure of a possible member of GH105 family from Salmonella enterica subsp. enterica serovar Paratyphi A str. ATCC 9150 A0A0H2WND1 A0A0H2WND1 2.183 X-RAY DIFFRACTION 61 1.0 54388 (Salmonella enterica subsp. enterica serovar Paratyphi A) 54388 (Salmonella enterica subsp. enterica serovar Paratyphi A) 363 363 3qwt-a1-m1-cA_3qwt-a1-m1-cB 3qwt-a1-m1-cC_3qwt-a1-m2-cC 3qwt-a1-m2-cA_3qwt-a1-m2-cB VYPVKHSPLLRQPEHFIARDELKALIQKVTHNLVNIKDETGEFLLRLDDGRVIDTKGWAGWEWTHGVGLYGYHYYQQTGDQTRKIIDDWFADRFAEGATTKNVNTAPFLTLAYRYEETRNPAYLPWLETWAEWANEPRTDHGGQHITLAEENHQQWDDTLTVLPLAKIGKLLNRPEYVEEATYQFLLHVQNLDKETGLWFHGWSYDGHHNFANARWARGNSWLTIVIPDFLELLDLPENNAVRRYLVQVLNAQIAALAKCQDESGLWHTLLDDPHSYLEASATAGFAYGILKAVRKRYVERHYAQVAEKAIRGIVKHISPEGELLQTSFGTGGHDLDFYRHIPLTSPYGQAALCLTEYLRNYF VYPVKHSPLLRQPEHFIARDELKALIQKVTHNLVNIKDETGEFLLRLDDGRVIDTKGWAGWEWTHGVGLYGYHYYQQTGDQTRKIIDDWFADRFAEGATTKNVNTAPFLTLAYRYEETRNPAYLPWLETWAEWANEPRTDHGGQHITLAEENHQQWDDTLTVLPLAKIGKLLNRPEYVEEATYQFLLHVQNLDKETGLWFHGWSYDGHHNFANARWARGNSWLTIVIPDFLELLDLPENNAVRRYLVQVLNAQIAALAKCQDESGLWHTLLDDPHSYLEASATAGFAYGILKAVRKRYVERHYAQVAEKAIRGIVKHISPEGELLQTSFGTGGHDLDFYRHIPLTSPYGQAALCLTEYLRNYF 3qwt-a2-m1-cD_3qwt-a2-m2-cA The crystal structure of a possible member of GH105 family from Salmonella enterica subsp. enterica serovar Paratyphi A str. ATCC 9150 A0A0H2WND1 A0A0H2WND1 2.183 X-RAY DIFFRACTION 58 1.0 54388 (Salmonella enterica subsp. enterica serovar Paratyphi A) 54388 (Salmonella enterica subsp. enterica serovar Paratyphi A) 363 363 3qwt-a1-m1-cA_3qwt-a1-m2-cC 3qwt-a1-m1-cA_3qwt-a1-m2-cD 3qwt-a1-m1-cB_3qwt-a1-m1-cC 3qwt-a1-m1-cB_3qwt-a1-m1-cD 3qwt-a1-m1-cC_3qwt-a1-m2-cA 3qwt-a1-m1-cD_3qwt-a1-m2-cA 3qwt-a1-m2-cB_3qwt-a1-m2-cC 3qwt-a1-m2-cB_3qwt-a1-m2-cD 3qwt-a2-m1-cB_3qwt-a2-m1-cC 3qwt-a2-m1-cB_3qwt-a2-m1-cD 3qwt-a2-m1-cC_3qwt-a2-m2-cA VYPVKHSPLLRQPEHFIARDELKALIQKVTHNLVNIKDETGEFLLRLDDGRVIDTKGWAGWEWTHGVGLYGYHYYQQTGDQTRKIIDDWFADRFAEGATTKNVNTAPFLTLAYRYEETRNPAYLPWLETWAEWANEPRTDHGGQHITLAEENHQQWDDTLTVLPLAKIGKLLNRPEYVEEATYQFLLHVQNLDKETGLWFHGWSYDGHHNFANARWARGNSWLTIVIPDFLELLDLPENNAVRRYLVQVLNAQIAALAKCQDESGLWHTLLDDPHSYLEASATAGFAYGILKAVRKRYVERHYAQVAEKAIRGIVKHISPEGELLQTSFGTGGHDLDFYRHIPLTSPYGQAALCLTEYLRNYF VYPVKHSPLLRQPEHFIARDELKALIQKVTHNLVNIKDETGEFLLRLDDGRVIDTKGWAGWEWTHGVGLYGYHYYQQTGDQTRKIIDDWFADRFAEGATTKNVNTAPFLTLAYRYEETRNPAYLPWLETWAEWANEPRTDHGGQHITLAEENHQQWDDTLTVLPLAKIGKLLNRPEYVEEATYQFLLHVQNLDKETGLWFHGWSYDGHHNFANARWARGNSWLTIVIPDFLELLDLPENNAVRRYLVQVLNAQIAALAKCQDESGLWHTLLDDPHSYLEASATAGFAYGILKAVRKRYVERHYAQVAEKAIRGIVKHISPEGELLQTSFGTGGHDLDFYRHIPLTSPYGQAALCLTEYLRNYF 3qwu-a1-m1-cB_3qwu-a1-m1-cA Putative ATP-dependent DNA ligase from Aquifex aeolicus. O67191 O67191 2.35 X-RAY DIFFRACTION 154 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 364 366 SPELVKEALKKKKVRSEEAFGLEYLRFNDDYKDIPRGTAIFKDFIIWGYPHIGRIFLLETGLREQFEAPFWVEEKVDGYNTRIFKYGDNYYALSRGGFICPFTTDRLPDLIDLRILDENPDLVICAEVAGPENPYIEESPPYVKEDVQLFVFDFMKKNEQGFLSQEEKMELIEKYNLPHVEILGRFTASEEGIKKIKEILKRFNEEGREGVVFKEDSERNKRAKYITSYANLMDIKTNAKNMLQLPPEYYTNRILRLVLFMYEEGLKTTEHLYEELGRAFIDGLFQAIEQFEKEHKVYKTFTCKFRKKENAIALLELLSKTSKHIQVKERRLEKEGDYWRLEFDKVFLNMTGLLGHLLSGGIVY ISPELVKEALKKKKVRSEEAFGLEYLRFNDDYKDIPRGTAIFKDFIIWGYPHIGRIFLLETGLREQFEAPFWVEEKVDGYNTRIFKYGDNYYALSRGGFICPFTTDRLPDLIDLRILDENPDLVICAEVAGPENPYIEESPPYVKEDVQLFVFDFMKKNEQGFLSQEEKMELIEKYNLPHVEILGRFTASEEGIKKIKEILKRFNEEGREGVVFKEDSERNKRAKYITSYANLMDIKTNAKNMLQLPPEYYTNRILRLVLFMYEEGLKTTEHLYEELGRAFIDGLFQAIEQFEKEHKVYKTFTCKFRKKENAIALLELLSKTSKHIQVKERRLEKEGDYWRLEFDKVFLNMTGLLGHLLSGGIVYD 3qxb-a2-m1-cC_3qxb-a2-m1-cD Crystal structure of a Putative Xylose isomerase (YP_426450.1) from RHODOSPIRILLUM RUBRUM ATCC 11170 at 1.90 A resolution Q2RUN2 Q2RUN2 1.9 X-RAY DIFFRACTION 129 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 286 286 3qxb-a1-m1-cB_3qxb-a1-m1-cA GKLGVNLCFAVKRWLEPDRLAGLVRDDLGLEYVQYTYDLTDPWWPDIERDRRAIAYAKAFRKAGLTIESTFGGLASYTYNHFLAPTLELQSLGYQHLKRAIDTAAEVPATGPFGSYSAADALNPARREEIYAIARDWIELAAYAKRQGLSLYVEPVPLATEFPSSAADAARLADLDGRTEIPVRLLVDWGHALFEPLFGPEADDHWDLCQPWIAAYHIQQTDGQLDRHWSFTQPGVVTPQRLQDFWDKYALTDQTFFAEILYPFEARDEDVLADIASVKALKAASP GKLGVNLCFAVKRWLEPDRLAGLVRDDLGLEYVQYTYDLTDPWWPDIERDRRAIAYAKAFRKAGLTIESTFGGLASYTYNHFLAPTLELQSLGYQHLKRAIDTAAEVPATGPFGSYSAADALNPARREEIYAIARDWIELAAYAKRQGLSLYVEPVPLATEFPSSAADAARLADLDGRTEIPVRLLVDWGHALFEPLFGPEADDHWDLCQPWIAAYHIQQTDGQLDRHWSFTQPGVVTPQRLQDFWDKYALTDQTFFAEILYPFEARDEDVLADIASVKALKAASP 3qxh-a1-m1-cA_3qxh-a1-m2-cA Crystal structure of dethiobiotin synthetase (BioD) from Helicobacter pylori complexed with ADP and 8-aminocaprylic acid O24872 O24872 1.36 X-RAY DIFFRACTION 91 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 224 224 2qmo-a1-m1-cA_2qmo-a1-m2-cA 3mle-a1-m1-cA_3mle-a1-m1-cC 3mle-a2-m1-cD_3mle-a2-m1-cB 3mle-a3-m1-cE_3mle-a3-m1-cF 3qxc-a1-m1-cA_3qxc-a1-m2-cA 3qxj-a1-m1-cA_3qxj-a1-m2-cA 3qxs-a1-m1-cA_3qxs-a1-m2-cA 3qxx-a1-m1-cA_3qxx-a1-m2-cA 3qy0-a1-m1-cA_3qy0-a1-m2-cA FQGHMLFISATNTNAGKTTCARLLAQYCNACGVKTILLKPIETGVNDAINHSSDAHLFLQDNRLLDRSLTLKDISFYRYHKVSAPLIAQQEEDPNAPIDTDNLTQRLHNFTKTYDLVIVEGAGGLCVPITLEENMLDFALKLKAKMLLISHDNLGLINDCLLNDFLLKSHQLDYKIAINLKGNNTAFHSISLPYIELFNTRSNNPIVIFQQSLKVLMSFALKGS FQGHMLFISATNTNAGKTTCARLLAQYCNACGVKTILLKPIETGVNDAINHSSDAHLFLQDNRLLDRSLTLKDISFYRYHKVSAPLIAQQEEDPNAPIDTDNLTQRLHNFTKTYDLVIVEGAGGLCVPITLEENMLDFALKLKAKMLLISHDNLGLINDCLLNDFLLKSHQLDYKIAINLKGNNTAFHSISLPYIELFNTRSNNPIVIFQQSLKVLMSFALKGS 3qxu-a4-m1-cB_3qxu-a4-m1-cD Free Structure of an Anti-Methotrexate CDR1-3 Graft VHH Antibody 1.8 X-RAY DIFFRACTION 29 0.992 9844 (Lama glama) 9844 (Lama glama) 122 123 3qxu-a2-m1-cB_3qxu-a2-m1-cD QVQLVESGGGLVQAGGSLRLSCAASRRSSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDKGKNTVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS QVQLVEGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDKGKNTVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS 3qxz-a1-m1-cB_3qxz-a1-m1-cA Crystal structure of a probable enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1MEE0 B1MEE0 1.35 X-RAY DIFFRACTION 147 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 257 259 3qxz-a1-m1-cC_3qxz-a1-m1-cA 3qxz-a1-m1-cC_3qxz-a1-m1-cB VTELHEEIRDGVAVLTLHGPSTRNSFTVELGRQLGAAYQRLDDDPAVRVIVLTGAPPAFCSGAQISAAAETFAANPDFSASPVQPAAFELRTPVIAAVNGHAIGIGMTLALHADIRILAEEGRYAIPQVRFGVAPDALAHWTLPRLVGTAVAAELLLTGASFSAQRAVETGLANRCLPAGKVLGAALRMAHDIATNVAPESAALTKRLLWDAQMTGMSAAEVAARETADHLRLMGSQDAAEGPRAFIDGRPPRWAGQ VTELHEEIRDGVAVLTLHGPSTRNSFTVELGRQLGAAYQRLDDDPAVRVIVLTGAPPAFCSGAQISAAAETFAAPRNPDFSASPVQPAAFELRTPVIAAVNGHAIGIGMTLALHADIRILAEEGRYAIPQVRFGVAPDALAHWTLPRLVGTAVAAELLLTGASFSAQRAVETGLANRCLPAGKVLGAALRMAHDIATNVAPESAALTKRLLWDAQMTGMSAAEVAARETADHLRLMGSQDAAEGPRAFIDGRPPRWAGQ 3qy2-a4-m1-cB_3qy2-a4-m2-cB Crystal structure of the P93A monomer mutant of S. cerevisiae Cks1 P20486 P20486 2.59 X-RAY DIFFRACTION 24 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 105 105 3qy2-a3-m1-cB_3qy2-a3-m2-cB AFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAAEPHILLFKRPLNYEAELR AFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAAEPHILLFKRPLNYEAELR 3qy3-a1-m1-cA_3qy3-a1-m4-cA PA2801 protein, a putative Thioesterase from Pseudomonas aeruginosa Q9I042 Q9I042 1.75 X-RAY DIFFRACTION 44 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 129 3qy3-a1-m2-cA_3qy3-a1-m3-cA QLLHTAHIPVRWGDDSYGHVNNTLYFQYLEEARVAWFETLGIDLEGAAEGPVVLQSLHTYLKPVVHPATVVVELYAGRLGTSSLVLEHRLHTLEDPQGTYGEGHCKLVWVRHAENRSTPVPDSIRAAIA QLLHTAHIPVRWGDDSYGHVNNTLYFQYLEEARVAWFETLGIDLEGAAEGPVVLQSLHTYLKPVVHPATVVVELYAGRLGTSSLVLEHRLHTLEDPQGTYGEGHCKLVWVRHAENRSTPVPDSIRAAIA 3qy3-a1-m2-cA_3qy3-a1-m4-cA PA2801 protein, a putative Thioesterase from Pseudomonas aeruginosa Q9I042 Q9I042 1.75 X-RAY DIFFRACTION 22 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 129 3qy3-a1-m1-cA_3qy3-a1-m3-cA QLLHTAHIPVRWGDDSYGHVNNTLYFQYLEEARVAWFETLGIDLEGAAEGPVVLQSLHTYLKPVVHPATVVVELYAGRLGTSSLVLEHRLHTLEDPQGTYGEGHCKLVWVRHAENRSTPVPDSIRAAIA QLLHTAHIPVRWGDDSYGHVNNTLYFQYLEEARVAWFETLGIDLEGAAEGPVVLQSLHTYLKPVVHPATVVVELYAGRLGTSSLVLEHRLHTLEDPQGTYGEGHCKLVWVRHAENRSTPVPDSIRAAIA 3qy3-a1-m3-cA_3qy3-a1-m4-cA PA2801 protein, a putative Thioesterase from Pseudomonas aeruginosa Q9I042 Q9I042 1.75 X-RAY DIFFRACTION 29 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 129 3qy3-a1-m1-cA_3qy3-a1-m2-cA QLLHTAHIPVRWGDDSYGHVNNTLYFQYLEEARVAWFETLGIDLEGAAEGPVVLQSLHTYLKPVVHPATVVVELYAGRLGTSSLVLEHRLHTLEDPQGTYGEGHCKLVWVRHAENRSTPVPDSIRAAIA QLLHTAHIPVRWGDDSYGHVNNTLYFQYLEEARVAWFETLGIDLEGAAEGPVVLQSLHTYLKPVVHPATVVVELYAGRLGTSSLVLEHRLHTLEDPQGTYGEGHCKLVWVRHAENRSTPVPDSIRAAIA 3qy9-a1-m1-cB_3qy9-a1-m1-cC The Crystal Structure of Dihydrodipicolinate reductase from Staphylococcus aureus Q5HG24 Q5HG24 1.8 X-RAY DIFFRACTION 10 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 241 241 SMKILLIGYGAMNQRVARLAEEKGHEIVGVIENTPKATTPYQQYQHIADVKGADVAIDFSNPNLLFPLLDEDFHLPLVVATTGEKEKLLNKLDELSQNMPVFFSANMSYGVHALTKILAAAVPLLDDFDIELTEAHHNKKVDAPSGTLEKLYDVIVSLKENVTPVYDRHELNEKRQPQDIGIHSIRGGTIVGEHEVLFAGTDETIQITHRAQSKDIFANGAIQAAERLVNKPNGFYTFDNL SMKILLIGYGAMNQRVARLAEEKGHEIVGVIENTPKATTPYQQYQHIADVKGADVAIDFSNPNLLFPLLDEDFHLPLVVATTGEKEKLLNKLDELSQNMPVFFSANMSYGVHALTKILAAAVPLLDDFDIELTEAHHNKKVDAPSGTLEKLYDVIVSLKENVTPVYDRHELNEKRQPQDIGIHSIRGGTIVGEHEVLFAGTDETIQITHRAQSKDIFANGAIQAAERLVNKPNGFYTFDNL 3qy9-a1-m1-cB_3qy9-a1-m1-cD The Crystal Structure of Dihydrodipicolinate reductase from Staphylococcus aureus Q5HG24 Q5HG24 1.8 X-RAY DIFFRACTION 112 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 241 241 3qy9-a1-m1-cA_3qy9-a1-m1-cC SMKILLIGYGAMNQRVARLAEEKGHEIVGVIENTPKATTPYQQYQHIADVKGADVAIDFSNPNLLFPLLDEDFHLPLVVATTGEKEKLLNKLDELSQNMPVFFSANMSYGVHALTKILAAAVPLLDDFDIELTEAHHNKKVDAPSGTLEKLYDVIVSLKENVTPVYDRHELNEKRQPQDIGIHSIRGGTIVGEHEVLFAGTDETIQITHRAQSKDIFANGAIQAAERLVNKPNGFYTFDNL SMKILLIGYGAMNQRVARLAEEKGHEIVGVIENTPKATTPYQQYQHIADVKGADVAIDFSNPNLLFPLLDEDFHLPLVVATTGEKEKLLNKLDELSQNMPVFFSANMSYGVHALTKILAAAVPLLDDFDIELTEAHHNKKVDAPSGTLEKLYDVIVSLKENVTPVYDRHELNEKRQPQDIGIHSIRGGTIVGEHEVLFAGTDETIQITHRAQSKDIFANGAIQAAERLVNKPNGFYTFDNL 3qy9-a1-m1-cC_3qy9-a1-m1-cD The Crystal Structure of Dihydrodipicolinate reductase from Staphylococcus aureus Q5HG24 Q5HG24 1.8 X-RAY DIFFRACTION 91 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 241 241 3qy9-a1-m1-cA_3qy9-a1-m1-cB SMKILLIGYGAMNQRVARLAEEKGHEIVGVIENTPKATTPYQQYQHIADVKGADVAIDFSNPNLLFPLLDEDFHLPLVVATTGEKEKLLNKLDELSQNMPVFFSANMSYGVHALTKILAAAVPLLDDFDIELTEAHHNKKVDAPSGTLEKLYDVIVSLKENVTPVYDRHELNEKRQPQDIGIHSIRGGTIVGEHEVLFAGTDETIQITHRAQSKDIFANGAIQAAERLVNKPNGFYTFDNL SMKILLIGYGAMNQRVARLAEEKGHEIVGVIENTPKATTPYQQYQHIADVKGADVAIDFSNPNLLFPLLDEDFHLPLVVATTGEKEKLLNKLDELSQNMPVFFSANMSYGVHALTKILAAAVPLLDDFDIELTEAHHNKKVDAPSGTLEKLYDVIVSLKENVTPVYDRHELNEKRQPQDIGIHSIRGGTIVGEHEVLFAGTDETIQITHRAQSKDIFANGAIQAAERLVNKPNGFYTFDNL 3qyc-a1-m1-cB_3qyc-a1-m1-cA Structure of a dimeric anti-HER2 single domain antibody 1.6 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 125 QLVESGGGLIKPGGSLRLSCAASGVRLSAYDMAWVRQAPGKGLEWVSAISSSGGSTYYADSVKGRFTISRDNSKNTVYLQMNSLRAEDTAVYYCVTLPDLCPGDNCTYPDASWGQGTMVTVSS VQLVESGGGLIKPGGSLRLSCAASGVRLSAYDMAWVRQAPGKGLEWVSAISSSGGSTYYADSVKGRFTISRDNSKNTVYLQMNSLRAEDTAVYYCVTLPDLCPGDNCTYPDASWGQGTMVTVSSG 3qyf-a1-m1-cB_3qyf-a1-m1-cA Crystal structure of the CRISPR-associated protein SSO1393 from Sulfolobus solfataricus Q97YD2 Q97YD2 1.9 X-RAY DIFFRACTION 121 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 267 268 FQGEVHVCSVGTSLLKNSLDDDNVRKEIERLGLKDWDRLKFDDDRQNRIKENFDSLRKLLKFIRSKGRRASAELDSLFSTFEKLKHNKSEIYVFLYSTNTSNSQLAGEVIRDYLIEEGIRSELVTVKTISSEENFYEGIVDLFDKVIYRILKFKEQDNEVYINATPGLKPESIFLTLAGLLAGADLIYYKYQEFNDVVILPSPPITIRPKYLDWLIRFAISGYTLSEKRAEELGIPVRLLEAKLVERKGEDAYRLKDWVRKLLGIYL FQGEVHVCSVGTSLLKNSLDDDNVRKEIERLGLKDWDRLKFDDDRQNRIKENFDSLRKLLKFIRSKGRRASAELDSLFSTFEKLKHNKSEIYVFLYSTNTSNSQLAGEVIRDYLIEEGIRSELVTVKTISSEENFYEGIVDLFDKVIYRILKFKEQDNEVYINATPGLKPESIFLTLAGLLAGADLIYYKYQEFNDVVILPSPPITIRPKYLDWLIRFAISGYTLSEKRAEELGIPVRLLEAKLVERKGEDAYRLKDWVRKLLGIYLP 3qyj-a3-m2-cB_3qyj-a3-m1-cA Crystal structure of ALR0039, a putative alpha/beta hydrolase from Nostoc sp PCC 7120. Q8Z0Q1 Q8Z0Q1 1.778 X-RAY DIFFRACTION 64 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 290 291 MFTNFEQTIVDTTEARINLVKAGHGAPLLLLHGYPQTHVMWHKIAPLLANNFTVVATDLRGYGDSSRPASVPHHINYSKRVMAQDQVEVMSKLGYEQFYVVGHDRGARVAHRLALDHPHRVKKLALLDIAPTHKMYRTTDQEFATAYYHWFFLIQPDNLPETLIGANPEYYLRKCLEKWGKDFSAFHPQALAEYIRCFSQPAVIHATCEDYRAAATIDLEHDELDMKQKISCPVLVLWGEKGIIGRKYDVLATWRERAIDVSGQSLPCGHFLPEEAPEETYQAIYNFLTH MFTNFEQTIVDTTEARINLVKAGHGAPLLLLHGYPQTHVMWHKIAPLLANNFTVVATDLRGYGDSSRPASVPHHINYSKRVMAQDQVEVMSKLGYEQFYVVGHDRGARVAHRLALDHPHRVKKLALLDIAPTHKMYRTTDQEFATAYYHWFFLIQPDNLPETLIGANPEYYLRKCLEKWGKDFSAFHPQALAEYIRCFSQPAVIHATCEDYRAAATIDLEHDELDMKQKISCPVLVLWGEKGIIGRKYDVLATWRERAIDVSGQSLPCGHFLPEEAPEETYQAIYNFLTHC 3qym-a3-m1-cF_3qym-a3-m1-cD Structure of p63 DNA Binding Domain in Complex with a 10 Base Pair A/T Rich Response Element Half Site Q9H3D4 Q9H3D4 3.2 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 196 3qym-a3-m1-cC_3qym-a3-m1-cE SPSNTDYPGPHSFDVSFQQSSTAKSATWTYSTELKKLYCQIAKTCPIQIKVMTPPPQGAVIRAMPVYKKAEHVTEVVKRCPNHELSREFNEGQIAPPSHLIRVEGNSHAQYVEDPITGRQSVLVPYEPPQVGTEFTTVLYNFMCNSSCVGGMNRRPILIIVTLETRDGQVLGRRCFEARICACPGRDRKADEDSI ASPSNTDYPGPHSFDVSFQQSSTAKSATWTYSTELKKLYCQIAKTCPIQIKVMTPPPQGAVIRAMPVYKKAEHVTEVVKRCPNHELSREFNEGQIAPPSHLIRVEGNSHAQYVEDPITGRQSVLVPYEPPQVGTEFTTVLYNFMCNSSCVGGMNRRPILIIVTLETRDGQVLGRRCFEARICACPGRDRKADEDSI 3qyr-a1-m1-cC_3qyr-a1-m2-cC Crystal structure of enoyl-coA hydratase EchA16_2 Mycobacterium paratuberculosis ATCC BAA-968 / K-10 Q73VV7 Q73VV7 2.45 X-RAY DIFFRACTION 36 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 219 219 3p85-a1-m1-cA_3p85-a1-m5-cA 3p85-a1-m2-cA_3p85-a1-m4-cA 3p85-a1-m3-cA_3p85-a1-m6-cA 3qyr-a1-m1-cE_3qyr-a1-m2-cA 3qyr-a1-m2-cE_3qyr-a1-m1-cA 3qyr-a2-m1-cB_3qyr-a2-m3-cB 3qyr-a2-m1-cF_3qyr-a2-m3-cD 3qyr-a2-m3-cF_3qyr-a2-m1-cD EILLSNTEERVRTLTLNRPQARNALSAALRDRFFGALADAETDDDVDVVIITGADPVFCAGLDLKELISPRWPALTKPVIGAINGAAVTGGLELALYCDILIASENARFADTHARVGLLPTWGLSVRLPQKVGIGLARRMSLTGDYLSAADALRAGLVTEVVPHDQLLGAAQAVAASIVGNNQNAVRALLASYHRIDDAQTSAGLWQEAMAARQFRTSG EILLSNTEERVRTLTLNRPQARNALSAALRDRFFGALADAETDDDVDVVIITGADPVFCAGLDLKELISPRWPALTKPVIGAINGAAVTGGLELALYCDILIASENARFADTHARVGLLPTWGLSVRLPQKVGIGLARRMSLTGDYLSAADALRAGLVTEVVPHDQLLGAAQAVAASIVGNNQNAVRALLASYHRIDDAQTSAGLWQEAMAARQFRTSG 3qyx-a1-m1-cA_3qyx-a1-m1-cB Crystal structure of Mycobacterium tuberculosis EspR in complex with a small DNA fragment P9WJB7 P9WJB7 3.75 X-RAY DIFFRACTION 47 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 131 131 STTFAARLNRLFDTVYPPGRGPHTSAEVIAALKAEGITMSAPYLSQLRSGNRTNPSGATMAALANFFRIKAAYFTDDEYYEKLDKELQWLCTMRDDGVRRIAQRAHGLPSAAQQKVLDRIDELRRAEGIDA STTFAARLNRLFDTVYPPGRGPHTSAEVIAALKAEGITMSAPYLSQLRSGNRTNPSGATMAALANFFRIKAAYFTDDEYYEKLDKELQWLCTMRDDGVRRIAQRAHGLPSAAQQKVLDRIDELRRAEGIDA 3qz3-a1-m5-cB_3qz3-a1-m8-cC The crystal structure of ferritin from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KVR1 Q9KVR1 2.099 X-RAY DIFFRACTION 25 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 158 159 3qz3-a1-m1-cB_3qz3-a1-m1-cA 3qz3-a1-m1-cB_3qz3-a1-m4-cC 3qz3-a1-m1-cC_3qz3-a1-m3-cA 3qz3-a1-m2-cB_3qz3-a1-m2-cA 3qz3-a1-m2-cB_3qz3-a1-m3-cC 3qz3-a1-m2-cC_3qz3-a1-m4-cA 3qz3-a1-m3-cB_3qz3-a1-m1-cC 3qz3-a1-m3-cB_3qz3-a1-m3-cA 3qz3-a1-m3-cC_3qz3-a1-m2-cA 3qz3-a1-m4-cB_3qz3-a1-m2-cC 3qz3-a1-m4-cB_3qz3-a1-m4-cA 3qz3-a1-m4-cC_3qz3-a1-m1-cA 3qz3-a1-m5-cB_3qz3-a1-m5-cA 3qz3-a1-m5-cC_3qz3-a1-m7-cA 3qz3-a1-m6-cB_3qz3-a1-m6-cA 3qz3-a1-m6-cB_3qz3-a1-m7-cC 3qz3-a1-m6-cC_3qz3-a1-m8-cA 3qz3-a1-m7-cB_3qz3-a1-m5-cC 3qz3-a1-m7-cB_3qz3-a1-m7-cA 3qz3-a1-m7-cC_3qz3-a1-m6-cA 3qz3-a1-m8-cB_3qz3-a1-m6-cC 3qz3-a1-m8-cB_3qz3-a1-m8-cA 3qz3-a1-m8-cC_3qz3-a1-m5-cA LSQAVEHLNEQINLEFFSSNLYLQSAWCEDKGFDGAAEFLRAHAVEEQHQRLFTYVSETGALPILGAIAAPRHDFASLGEVFRETYQHEQKITQQINKLAHVAFTSQDYSTFNFLQWYVAEQHEEEKLFKGILDKLELVGEDGKALFFIDKDLAALAK LSQAVEHLNEQINLEFFSSNLYLQSAWCEDKGFDGAAEFLRAHAVEEQHQRLFTYVSETGALPILGAIAAPRHDFASLGEVFRETYQHEQKITQQINKLAHVAFTSQDYSTFNFLQWYVAEQHEEEKLFKGILDKLELVGEDGKALFFIDKDLAALAKK 3qz3-a1-m6-cA_3qz3-a1-m8-cA The crystal structure of ferritin from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KVR1 Q9KVR1 2.099 X-RAY DIFFRACTION 15 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 160 160 3qz3-a1-m1-cA_3qz3-a1-m3-cA 3qz3-a1-m1-cA_3qz3-a1-m4-cA 3qz3-a1-m1-cB_3qz3-a1-m1-cC 3qz3-a1-m1-cB_3qz3-a1-m7-cC 3qz3-a1-m2-cA_3qz3-a1-m3-cA 3qz3-a1-m2-cA_3qz3-a1-m4-cA 3qz3-a1-m2-cB_3qz3-a1-m2-cC 3qz3-a1-m2-cB_3qz3-a1-m8-cC 3qz3-a1-m3-cB_3qz3-a1-m3-cC 3qz3-a1-m3-cB_3qz3-a1-m5-cC 3qz3-a1-m4-cB_3qz3-a1-m4-cC 3qz3-a1-m4-cB_3qz3-a1-m6-cC 3qz3-a1-m5-cA_3qz3-a1-m7-cA 3qz3-a1-m5-cA_3qz3-a1-m8-cA 3qz3-a1-m5-cB_3qz3-a1-m3-cC 3qz3-a1-m5-cB_3qz3-a1-m5-cC 3qz3-a1-m6-cA_3qz3-a1-m7-cA 3qz3-a1-m6-cB_3qz3-a1-m4-cC 3qz3-a1-m6-cB_3qz3-a1-m6-cC 3qz3-a1-m7-cB_3qz3-a1-m1-cC 3qz3-a1-m7-cB_3qz3-a1-m7-cC 3qz3-a1-m8-cB_3qz3-a1-m2-cC 3qz3-a1-m8-cB_3qz3-a1-m8-cC FLSQAVEHLNEQINLEFFSSNLYLQSAWCEDKGFDGAAEFLRAHAVEEQHQRLFTYVSETGALPILGAIAAPRHDFASLGEVFRETYQHEQKITQQINKLAHVAFTSQDYSTFNFLQWYVAEQHEEEKLFKGILDKLELVGEDGKALFFIDKDLAALAKK FLSQAVEHLNEQINLEFFSSNLYLQSAWCEDKGFDGAAEFLRAHAVEEQHQRLFTYVSETGALPILGAIAAPRHDFASLGEVFRETYQHEQKITQQINKLAHVAFTSQDYSTFNFLQWYVAEQHEEEKLFKGILDKLELVGEDGKALFFIDKDLAALAKK 3qz3-a3-m1-cB_3qz3-a3-m6-cB The crystal structure of ferritin from Vibrio cholerae O1 biovar El Tor str. N16961 Q9KVR1 Q9KVR1 2.099 X-RAY DIFFRACTION 58 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 158 158 3qz3-a1-m1-cB_3qz3-a1-m6-cB 3qz3-a1-m1-cC_3qz3-a1-m1-cA 3qz3-a1-m2-cB_3qz3-a1-m5-cB 3qz3-a1-m2-cC_3qz3-a1-m2-cA 3qz3-a1-m3-cB_3qz3-a1-m7-cB 3qz3-a1-m3-cC_3qz3-a1-m3-cA 3qz3-a1-m4-cB_3qz3-a1-m8-cB 3qz3-a1-m4-cC_3qz3-a1-m4-cA 3qz3-a1-m5-cC_3qz3-a1-m5-cA 3qz3-a1-m6-cC_3qz3-a1-m6-cA 3qz3-a1-m7-cC_3qz3-a1-m7-cA 3qz3-a1-m8-cC_3qz3-a1-m8-cA 3qz3-a2-m1-cC_3qz3-a2-m1-cA LSQAVEHLNEQINLEFFSSNLYLQSAWCEDKGFDGAAEFLRAHAVEEQHQRLFTYVSETGALPILGAIAAPRHDFASLGEVFRETYQHEQKITQQINKLAHVAFTSQDYSTFNFLQWYVAEQHEEEKLFKGILDKLELVGEDGKALFFIDKDLAALAK LSQAVEHLNEQINLEFFSSNLYLQSAWCEDKGFDGAAEFLRAHAVEEQHQRLFTYVSETGALPILGAIAAPRHDFASLGEVFRETYQHEQKITQQINKLAHVAFTSQDYSTFNFLQWYVAEQHEEEKLFKGILDKLELVGEDGKALFFIDKDLAALAK 3qz6-a3-m3-cA_3qz6-a3-m6-cA The crystal structure of HpcH/HpaI aldolase from Desulfitobacterium hafniense DCB-2 B8FRX2 B8FRX2 1.999 X-RAY DIFFRACTION 137 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 252 252 3qz6-a1-m1-cA_3qz6-a1-m2-cA 3qz6-a3-m1-cA_3qz6-a3-m2-cA 3qz6-a3-m4-cA_3qz6-a3-m5-cA AFLKKKLSAGKSVVGTLNLVYNPDIVRIYAEAGLDYFIVDCEHAAYTFREINHLVSVAKNAGVSVLVRIPQVDRAHVQRLLDIGAEGFIPGVQSAETRETVRLAKYPPLGERGVGGSIVTDFKPVNWAEWVQERNDEIFIAQIEHVKAVEDIDSILAVQGVDAVIFGPRDLSNDLGIIGQTEHPKVYECYEKVYRAADRQGVVKGFFTAADAAKGWAVERGAQLLWSGDVAALQTYTAKGVKTIKELPGFNP AFLKKKLSAGKSVVGTLNLVYNPDIVRIYAEAGLDYFIVDCEHAAYTFREINHLVSVAKNAGVSVLVRIPQVDRAHVQRLLDIGAEGFIPGVQSAETRETVRLAKYPPLGERGVGGSIVTDFKPVNWAEWVQERNDEIFIAQIEHVKAVEDIDSILAVQGVDAVIFGPRDLSNDLGIIGQTEHPKVYECYEKVYRAADRQGVVKGFFTAADAAKGWAVERGAQLLWSGDVAALQTYTAKGVKTIKELPGFNP 3qz6-a3-m4-cA_3qz6-a3-m6-cA The crystal structure of HpcH/HpaI aldolase from Desulfitobacterium hafniense DCB-2 B8FRX2 B8FRX2 1.999 X-RAY DIFFRACTION 43 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 252 252 3qz6-a3-m1-cA_3qz6-a3-m5-cA 3qz6-a3-m2-cA_3qz6-a3-m3-cA AFLKKKLSAGKSVVGTLNLVYNPDIVRIYAEAGLDYFIVDCEHAAYTFREINHLVSVAKNAGVSVLVRIPQVDRAHVQRLLDIGAEGFIPGVQSAETRETVRLAKYPPLGERGVGGSIVTDFKPVNWAEWVQERNDEIFIAQIEHVKAVEDIDSILAVQGVDAVIFGPRDLSNDLGIIGQTEHPKVYECYEKVYRAADRQGVVKGFFTAADAAKGWAVERGAQLLWSGDVAALQTYTAKGVKTIKELPGFNP AFLKKKLSAGKSVVGTLNLVYNPDIVRIYAEAGLDYFIVDCEHAAYTFREINHLVSVAKNAGVSVLVRIPQVDRAHVQRLLDIGAEGFIPGVQSAETRETVRLAKYPPLGERGVGGSIVTDFKPVNWAEWVQERNDEIFIAQIEHVKAVEDIDSILAVQGVDAVIFGPRDLSNDLGIIGQTEHPKVYECYEKVYRAADRQGVVKGFFTAADAAKGWAVERGAQLLWSGDVAALQTYTAKGVKTIKELPGFNP 3qz6-a3-m5-cA_3qz6-a3-m6-cA The crystal structure of HpcH/HpaI aldolase from Desulfitobacterium hafniense DCB-2 B8FRX2 B8FRX2 1.999 X-RAY DIFFRACTION 71 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 252 252 3qz6-a2-m1-cA_3qz6-a2-m3-cA 3qz6-a2-m1-cA_3qz6-a2-m4-cA 3qz6-a2-m3-cA_3qz6-a2-m4-cA 3qz6-a3-m1-cA_3qz6-a3-m3-cA 3qz6-a3-m1-cA_3qz6-a3-m4-cA 3qz6-a3-m2-cA_3qz6-a3-m5-cA 3qz6-a3-m2-cA_3qz6-a3-m6-cA 3qz6-a3-m3-cA_3qz6-a3-m4-cA AFLKKKLSAGKSVVGTLNLVYNPDIVRIYAEAGLDYFIVDCEHAAYTFREINHLVSVAKNAGVSVLVRIPQVDRAHVQRLLDIGAEGFIPGVQSAETRETVRLAKYPPLGERGVGGSIVTDFKPVNWAEWVQERNDEIFIAQIEHVKAVEDIDSILAVQGVDAVIFGPRDLSNDLGIIGQTEHPKVYECYEKVYRAADRQGVVKGFFTAADAAKGWAVERGAQLLWSGDVAALQTYTAKGVKTIKELPGFNP AFLKKKLSAGKSVVGTLNLVYNPDIVRIYAEAGLDYFIVDCEHAAYTFREINHLVSVAKNAGVSVLVRIPQVDRAHVQRLLDIGAEGFIPGVQSAETRETVRLAKYPPLGERGVGGSIVTDFKPVNWAEWVQERNDEIFIAQIEHVKAVEDIDSILAVQGVDAVIFGPRDLSNDLGIIGQTEHPKVYECYEKVYRAADRQGVVKGFFTAADAAKGWAVERGAQLLWSGDVAALQTYTAKGVKTIKELPGFNP 3qzb-a1-m1-cA_3qzb-a1-m4-cA Crystal structure of a putative superoxide reductase (TM0658) from THERMOTOGA MARITIMA at 1.10 A resolution Q9WZC6 Q9WZC6 1.1 X-RAY DIFFRACTION 122 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 131 131 2amu-a1-m1-cA_2amu-a1-m2-cA 2amu-a2-m1-cA_2amu-a2-m2-cA 2amu-a2-m3-cA_2amu-a2-m4-cA 3qzb-a1-m2-cA_3qzb-a1-m3-cA MKLSDFIKTEDFKKEKHVPVIEAPEKVKKDEKVQIVVTVGKEIPHPNTTEHHIRWIKVFFQPDGDPYVYEVGRYEFNAHGESVQGPNIGAVYTEPTVTTVVKLNRSGTIIALSYCNIHGLWESSQKITVEE MKLSDFIKTEDFKKEKHVPVIEAPEKVKKDEKVQIVVTVGKEIPHPNTTEHHIRWIKVFFQPDGDPYVYEVGRYEFNAHGESVQGPNIGAVYTEPTVTTVVKLNRSGTIIALSYCNIHGLWESSQKITVEE 3qzb-a1-m2-cA_3qzb-a1-m4-cA Crystal structure of a putative superoxide reductase (TM0658) from THERMOTOGA MARITIMA at 1.10 A resolution Q9WZC6 Q9WZC6 1.1 X-RAY DIFFRACTION 68 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 131 131 2amu-a2-m1-cA_2amu-a2-m3-cA 2amu-a2-m2-cA_2amu-a2-m4-cA 3qzb-a1-m1-cA_3qzb-a1-m3-cA MKLSDFIKTEDFKKEKHVPVIEAPEKVKKDEKVQIVVTVGKEIPHPNTTEHHIRWIKVFFQPDGDPYVYEVGRYEFNAHGESVQGPNIGAVYTEPTVTTVVKLNRSGTIIALSYCNIHGLWESSQKITVEE MKLSDFIKTEDFKKEKHVPVIEAPEKVKKDEKVQIVVTVGKEIPHPNTTEHHIRWIKVFFQPDGDPYVYEVGRYEFNAHGESVQGPNIGAVYTEPTVTTVVKLNRSGTIIALSYCNIHGLWESSQKITVEE 3qzb-a1-m3-cA_3qzb-a1-m4-cA Crystal structure of a putative superoxide reductase (TM0658) from THERMOTOGA MARITIMA at 1.10 A resolution Q9WZC6 Q9WZC6 1.1 X-RAY DIFFRACTION 26 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 131 131 2amu-a2-m1-cA_2amu-a2-m4-cA 2amu-a2-m2-cA_2amu-a2-m3-cA 3qzb-a1-m1-cA_3qzb-a1-m2-cA MKLSDFIKTEDFKKEKHVPVIEAPEKVKKDEKVQIVVTVGKEIPHPNTTEHHIRWIKVFFQPDGDPYVYEVGRYEFNAHGESVQGPNIGAVYTEPTVTTVVKLNRSGTIIALSYCNIHGLWESSQKITVEE MKLSDFIKTEDFKKEKHVPVIEAPEKVKKDEKVQIVVTVGKEIPHPNTTEHHIRWIKVFFQPDGDPYVYEVGRYEFNAHGESVQGPNIGAVYTEPTVTTVVKLNRSGTIIALSYCNIHGLWESSQKITVEE 3qze-a2-m1-cC_3qze-a2-m1-cD Crystal Structure of DapA (PA1010) at 1.6 A resolution Q9I4W3 Q9I4W3 1.59 X-RAY DIFFRACTION 125 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 290 290 3noe-a1-m1-cA_3noe-a1-m1-cB 3ps7-a1-m1-cA_3ps7-a1-m1-cB 3puo-a1-m1-cA_3puo-a1-m1-cB 3qze-a1-m1-cB_3qze-a1-m1-cA 3s8h-a1-m1-cA_3s8h-a1-m1-cB 6p90-a1-m1-cA_6p90-a1-m1-cB IAGSMVALVTPFDAQGRLDWDSLAKLVDFHLQEGTNAIVAVGTTGESATLDVEEHIQVIRRVVDQVKGRIPVIAGTGANSTREAVALTEAAKSGGADACLLVTPYYNKPTQEGMYQHFRHIAEAVAIPQILYNVPGRTSCDMLPETVERLSKVPNIIGIKEATGDLQRAKEVIERVGKDFLVYSGDDATAVELMLLGGKGNISVTANVAPRAMSDLCAAAMRGDAAAARAINDRLMPLHKALFIESNPIPVKWALHEMGLIPEGIRLPLTWLSPRCHEPLRQAMRQTGVL IAGSMVALVTPFDAQGRLDWDSLAKLVDFHLQEGTNAIVAVGTTGESATLDVEEHIQVIRRVVDQVKGRIPVIAGTGANSTREAVALTEAAKSGGADACLLVTPYYNKPTQEGMYQHFRHIAEAVAIPQILYNVPGRTSCDMLPETVERLSKVPNIIGIKEATGDLQRAKEVIERVGKDFLVYSGDDATAVELMLLGGKGNISVTANVAPRAMSDLCAAAMRGDAAAARAINDRLMPLHKALFIESNPIPVKWALHEMGLIPEGIRLPLTWLSPRCHEPLRQAMRQTGVL 3r0a-a1-m1-cA_3r0a-a1-m1-cB Possible transcriptional regulator from Methanosarcina mazei Go1 (gi 21227196) Q8PXX2 Q8PXX2 2.31 X-RAY DIFFRACTION 95 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 118 121 SNAIDFACKEFKVEDVIKCALNLTKADLNVKSFLNEPDRWIDTDALSKSLKLDVSTVQRSVKKLHEKEILQRSQQNLDGGGYVYIYKIYSKNQIRNIIQKIVQSWADRLGQELKEWEN SNAIDFACKEFKVEDVIKCALNLTKADLNVKSFLNEPDRWIDTDALSKSLKLDVSTVQRSVKKLHEKEILQRSQQNLDGGGYVYIYKIYSKNQIRNIIQKIVQSWADRLGQELKEWENGGE 3r0j-a1-m1-cB_3r0j-a1-m1-cA Structure of PhoP from Mycobacterium tuberculosis P71814 P71814 2.5 X-RAY DIFFRACTION 36 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 218 221 TPEARVLVVDDEANIVELLSVSLKFQGFEVYTATNGAQALDRARETRPDAVILDVPGDGFGVLRRLRADGIDAPALFLTARDSLQDKIAGLTLGGDDYVTKPFSLEEVVARLRVILRRAGKRLTFADIELDEETHEVWKAGQPVSLSPTEFTLLRYFVINAGTVLSKPKILDHVWRYDFGGDVNVVESYVSYLRRKIDTGEKRLLHTLRGVGYVLREP TTPEARVLVVDDEANIVELLSVSLKFQGFEVYTATNGAQALDRARETRPDAVILDVPGDGFGVLRRLRADGIDAPALFLTARDSLQDKIAGLTLGGDDYVTKPFSLEEVVARLRVILRRAGKNVRLTFADIELDEETHEVWKAGQPVSLSPTEFTLLRYFVINAGTVLSKPKILDHVWRYDFGGDVNVVESYVSYLRRKIDTGEKRLLHTLRGVGYVLREP 3r0n-a1-m1-cA_3r0n-a1-m2-cA Crystal Structure of the Immunoglobulin variable domain of Nectin-2 Q92692 Q92692 1.3 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 4hza-a1-m1-cA_4hza-a1-m1-cB MQDVRVQVLPEVRGQLGGTVELPCHLLPPVPGLYISLVTWQRPDAPANHQNVAAFHPKMGPSFPSPKPGSERLSFVSAKQSTGQDTEAELQDATLALHGLTVEDEGNYTCEFATFPKGSVRGMTWLRV MQDVRVQVLPEVRGQLGGTVELPCHLLPPVPGLYISLVTWQRPDAPANHQNVAAFHPKMGPSFPSPKPGSERLSFVSAKQSTGQDTEAELQDATLALHGLTVEDEGNYTCEFATFPKGSVRGMTWLRV 3r0o-a1-m1-cA_3r0o-a1-m1-cC Crystal structure of carnitinyl-CoA hydratase from Mycobacterium avium A0A0H2ZXF2 A0A0H2ZXF2 2.1 X-RAY DIFFRACTION 109 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 262 262 3r0o-a1-m1-cB_3r0o-a1-m1-cA 3r0o-a1-m1-cB_3r0o-a1-m1-cC VTRQAAVVERRGNVALITIDRPDARNAVNGAVSTAVGDALEEAQRDPEVWAVVITGAGDKSFCAGADLKAISRGENLYHAEHPEWGFAGYVHHFIDKPTIAAVNGTALGGGSELALASDLVIACESASFGLPEVKRGLIAGAGGVFRIVEQLPRKVALELVLTGEPMTASDALRWGLINEVVPDGTVVEAALALAERITCNAPLSVQASKRVAYGADDGIIGAEEPKWERTIREFTELLKSEDAKEGPLAFAEKRQPVWKAR VTRQAAVVERRGNVALITIDRPDARNAVNGAVSTAVGDALEEAQRDPEVWAVVITGAGDKSFCAGADLKAISRGENLYHAEHPEWGFAGYVHHFIDKPTIAAVNGTALGGGSELALASDLVIACESASFGLPEVKRGLIAGAGGVFRIVEQLPRKVALELVLTGEPMTASDALRWGLINEVVPDGTVVEAALALAERITCNAPLSVQASKRVAYGADDGIIGAEEPKWERTIREFTELLKSEDAKEGPLAFAEKRQPVWKAR 3r0p-a3-m1-cA_3r0p-a3-m1-cB Crystal structure of L-PSP putative endoribonuclease from uncultured organism D8VN48 D8VN48 1.9 X-RAY DIFFRACTION 71 1.0 155900 (uncultured organism) 155900 (uncultured organism) 125 125 3r0p-a1-m1-cA_3r0p-a1-m1-cB 3r0p-a1-m1-cA_3r0p-a1-m1-cF 3r0p-a1-m1-cB_3r0p-a1-m1-cF 3r0p-a2-m1-cD_3r0p-a2-m1-cC 3r0p-a2-m1-cE_3r0p-a2-m1-cC 3r0p-a2-m1-cE_3r0p-a2-m1-cD 3r0p-a3-m1-cA_3r0p-a3-m1-cF 3r0p-a3-m1-cB_3r0p-a3-m1-cF 3r0p-a3-m1-cD_3r0p-a3-m1-cC 3r0p-a3-m1-cE_3r0p-a3-m1-cC 3r0p-a3-m1-cE_3r0p-a3-m1-cD NKAIIHSDNAPAAIGTYSQAVKVNNTVYLSGQIPLDPVTMQLVEGDFAVQAHQVFKNLRAVCEAAGGGLRDIVKLNVYLTDLANFPIVNEVMGQYFQAPYPARAAIGINQLPRASLIEADGIMVI NKAIIHSDNAPAAIGTYSQAVKVNNTVYLSGQIPLDPVTMQLVEGDFAVQAHQVFKNLRAVCEAAGGGLRDIVKLNVYLTDLANFPIVNEVMGQYFQAPYPARAAIGINQLPRASLIEADGIMVI 3r0p-a3-m1-cA_3r0p-a3-m1-cE Crystal structure of L-PSP putative endoribonuclease from uncultured organism D8VN48 D8VN48 1.9 X-RAY DIFFRACTION 28 1.0 155900 (uncultured organism) 155900 (uncultured organism) 125 125 NKAIIHSDNAPAAIGTYSQAVKVNNTVYLSGQIPLDPVTMQLVEGDFAVQAHQVFKNLRAVCEAAGGGLRDIVKLNVYLTDLANFPIVNEVMGQYFQAPYPARAAIGINQLPRASLIEADGIMVI NKAIIHSDNAPAAIGTYSQAVKVNNTVYLSGQIPLDPVTMQLVEGDFAVQAHQVFKNLRAVCEAAGGGLRDIVKLNVYLTDLANFPIVNEVMGQYFQAPYPARAAIGINQLPRASLIEADGIMVI 3r0p-a3-m1-cB_3r0p-a3-m1-cE Crystal structure of L-PSP putative endoribonuclease from uncultured organism D8VN48 D8VN48 1.9 X-RAY DIFFRACTION 12 1.0 155900 (uncultured organism) 155900 (uncultured organism) 125 125 3r0p-a3-m1-cA_3r0p-a3-m1-cC NKAIIHSDNAPAAIGTYSQAVKVNNTVYLSGQIPLDPVTMQLVEGDFAVQAHQVFKNLRAVCEAAGGGLRDIVKLNVYLTDLANFPIVNEVMGQYFQAPYPARAAIGINQLPRASLIEADGIMVI NKAIIHSDNAPAAIGTYSQAVKVNNTVYLSGQIPLDPVTMQLVEGDFAVQAHQVFKNLRAVCEAAGGGLRDIVKLNVYLTDLANFPIVNEVMGQYFQAPYPARAAIGINQLPRASLIEADGIMVI 3r0q-a2-m1-cE_3r0q-a2-m1-cG A Uniquely Open Conformation Revealed in the Crystal Structure of Arabidopsis Thaliana Protein Arginine Methyltransferase 10 Q9MAT5 Q9MAT5 2.61 X-RAY DIFFRACTION 76 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 349 353 3r0q-a1-m1-cC_3r0q-a1-m1-cA YFCTYSFLYHQKDMLSDRVRMDAYFNAVFQNKHHFEGKTVLDVGTGSGILAIWSAQAGARKVYAVEATKMADHARALVKANNLDHIVEVIEGSVEDISLPEKVDVIISEWMGYFLLRESMFDSVISARDRWLKPTGVMYPSHARMWLAPIKSNIADRKRNDFDGAMADWHNFSDEIKSYYGVDMGVLTKPFAEEQEKYYIQTAMWNDLNPQQIIGTPTIVKEMDCLTASVSEIEEVRSNVTSVINMEHTRLCGFGGWFDVQFSGRKEDPAQQEIELTTAPSEQHCTHWGQQVFIMSNPINVEEGDNLNLGLLMSRSKENHRLMEIELNCEIKEASGNPKESFKKTYFIE DYAQYFCTYSFLYHQKDMLSDRVRMDAYFNAVFQNKHHFEGKTVLDVGTGSGILAIWSAQAGARKVYAVEATKMADHARALVKANNLDHIVEVIEGSVEDISLPEKVDVIISEWMGYFLLRESMFDSVISARDRWLKPTGVMYPSHARMWLAPIKSNIADRKRNDFDGAMADWHNFSDEIKSYYGVDMGVLTKPFAEEQEKYYIQTAMWNDLNPQQIIGTPTIVKEMDCLTASVSEIEEVRSNVTSVINMEHTRLCGFGGWFDVQFSGRKEDPAQQEIELTTAPSEQHCTHWGQQVFIMSNPINVEEGDNLNLGLLMSRSKENHRLMEIELNCEIKEASGNPKESFKKTYFIE 3r0s-a1-m2-cA_3r0s-a1-m3-cA UDP-N-acetylglucosamine acyltransferase from Campylobacter jejuni Q9PIM1 Q9PIM1 2.3 X-RAY DIFFRACTION 57 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 249 249 3r0s-a1-m1-cA_3r0s-a1-m2-cA 3r0s-a1-m1-cA_3r0s-a1-m3-cA KIHPSAVIEEGAQLGDDVVIEAYAYVSKDAKIGNNVVIKQGARILSDTTIGDHSRVFSYAIVGDIPQDISYKSGVVIGKNATIREFATINSGTAKGDGFTRIGDNAFIAYCHIAHDCLLGNNIILANNATLAGHVELGDFTVVGGLTPIHQFVKVGEGCIAGASALSQDIVPFCLAEGNRASIRSLNLVGIRRRFDKDEVDRLSRAFKTLFRQGDLKENAKNLLENQESENVKKCHFILETKRGIPVYR KIHPSAVIEEGAQLGDDVVIEAYAYVSKDAKIGNNVVIKQGARILSDTTIGDHSRVFSYAIVGDIPQDISYKSGVVIGKNATIREFATINSGTAKGDGFTRIGDNAFIAYCHIAHDCLLGNNIILANNATLAGHVELGDFTVVGGLTPIHQFVKVGEGCIAGASALSQDIVPFCLAEGNRASIRSLNLVGIRRRFDKDEVDRLSRAFKTLFRQGDLKENAKNLLENQESENVKKCHFILETKRGIPVYR 3r12-a1-m1-cA_3r12-a1-m1-cB Crystal structure of a Deoxyribose-phosphate aldolase (TM_1559) from THERMOTOGA MARITIMA at 1.75 A resolution Q9X1P5 Q9X1P5 1.75 X-RAY DIFFRACTION 110 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 248 248 3r13-a1-m1-cA_3r13-a1-m1-cB KIHHHHHHIEYRIEEAVAKYREFYEFKPVRESAGIEDVKSAIEHTNLKPFATPDDIKKLCLEARENRFHGVCVNPCYVKLAREELEGTDVKVVTVVGFPLGANETRTKAHEAIFAVESGADEIDVINVGLKAKEWEYVYEDIRSVVESVKGKVVKVIIETCYLDTEEKIAACVISKLAGAHFVKTSTGFGTGGATAEDVHLKWIVGDEGVKASGGIRTFEDAVKIYGADRIGTSSGVKIVQGGEERYG KIHHHHHHIEYRIEEAVAKYREFYEFKPVRESAGIEDVKSAIEHTNLKPFATPDDIKKLCLEARENRFHGVCVNPCYVKLAREELEGTDVKVVTVVGFPLGANETRTKAHEAIFAVESGADEIDVINVGLKAKEWEYVYEDIRSVVESVKGKVVKVIIETCYLDTEEKIAACVISKLAGAHFVKTSTGFGTGGATAEDVHLKWIVGDEGVKASGGIRTFEDAVKIYGADRIGTSSGVKIVQGGEERYG 3r19-a1-m1-cA_3r19-a1-m2-cA Chicken sulfite oxidase triple mutant with altered activity and substrate affinity P07850 P07850 2.1 X-RAY DIFFRACTION 103 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 372 372 1sox-a1-m1-cB_1sox-a1-m1-cA 2a99-a1-m1-cA_2a99-a1-m2-cA 2a9a-a1-m1-cB_2a9a-a1-m1-cA 2a9b-a1-m1-cA_2a9b-a1-m2-cA 2a9c-a1-m1-cA_2a9c-a1-m1-cB 2a9d-a1-m1-cB_2a9d-a1-m1-cA 3hbp-a1-m1-cA_3hbp-a1-m2-cA 3hbq-a1-m1-cA_3hbq-a1-m2-cA 3hc2-a1-m1-cA_3hc2-a1-m2-cA 3r18-a1-m1-cA_3r18-a1-m2-cA DPFAGDPPRHPGLRVNSQKPFNAEPPAELLAERFLTPNELFFTRNHLPVPAVEPSSYRLRVDGPGGGTLSLSLAELRSRFPKHEVTATLQCAGNRRSEMSRVRPVKGLPWDIGAISTARWGGARLRDVLLHAGFPEELQGEWHVCFEGLDADPGGAPYGASIPYGRALSPAADVLLAYEMNGTELPRDHGFPVRVVVPGVVGARSVKWLRRVAVSPDESPSHWQQNDNKGFSPCVDWDTVDYRTAPAIQELPVQSAVTQPRPGAAVPPGELTVKGYAWSGGGREVVRVDVSLDGGRTWKVARLMGDKAPPGRAWAWALWELTVPVEAGTELEIVCKAVDSSYNVQPDSVAPIWNLMGMLSTAWHRVRVSVQD DPFAGDPPRHPGLRVNSQKPFNAEPPAELLAERFLTPNELFFTRNHLPVPAVEPSSYRLRVDGPGGGTLSLSLAELRSRFPKHEVTATLQCAGNRRSEMSRVRPVKGLPWDIGAISTARWGGARLRDVLLHAGFPEELQGEWHVCFEGLDADPGGAPYGASIPYGRALSPAADVLLAYEMNGTELPRDHGFPVRVVVPGVVGARSVKWLRRVAVSPDESPSHWQQNDNKGFSPCVDWDTVDYRTAPAIQELPVQSAVTQPRPGAAVPPGELTVKGYAWSGGGREVVRVDVSLDGGRTWKVARLMGDKAPPGRAWAWALWELTVPVEAGTELEIVCKAVDSSYNVQPDSVAPIWNLMGMLSTAWHRVRVSVQD 3r1b-a6-m1-cC_3r1b-a6-m1-cB Open crystal structure of cytochrome P450 2B4 covalently bound to the mechanism-based inactivator tert-butylphenylacetylene P00178 P00178 3 X-RAY DIFFRACTION 163 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 456 465 3r1b-a5-m1-cD_3r1b-a5-m1-cA GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFGMGKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH GKLPPGPSPLPVLGNLLQMDRKGLLRSFLRLREKYGDVFTVYLGSRPVVVLCGTDAIREALVDQAEAFSGRGKIAVVDPIFQGYGVIFANGERWRALRRFSLATMRDFGMGKRSVEERIQEEARCLVEELRKSKGALLDNTLLFHSITSNIICSIVFGKRFDYKDPVFLRLLDLFFQSFSLISSFSSQVFELFSGFLKYFPGTHRQIYRNLQEINTFIGQSVEKHRATLDPSNPRDFIDVYLLRMEKDKSDPSSEFHHQNLILTVLSLFFAGTETTSTTLRYGFLLMLKYPHVTERVQKEIEQVIGSHRPPALDDRAKMPYTDAVIHEIQRLGDLIPFGVPHTVTKDTQFRGYVIPKNTEVFPVLSSALHDPRYFETPNTFNPGHFLDANGALKRNEGFMPFSLGKRICLGEGIARTELFLFFTTILQNFSIASPVPPEDIDLTPRESGVGNVPPSYQIRFLARH 3r1f-a6-m1-cK_3r1f-a6-m1-cL Crystal structure of a key regulator of virulence in Mycobacterium tuberculosis P9WJB7 P9WJB7 2.5 X-RAY DIFFRACTION 113 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 121 126 3qf3-a1-m1-cD_3qf3-a1-m1-cA 3qf3-a2-m1-cC_3qf3-a2-m1-cB 3qf3-a3-m1-cF_3qf3-a3-m1-cE 3qyx-a1-m1-cC_3qyx-a1-m1-cB 3qyx-a1-m1-cD_3qyx-a1-m1-cA 3r1f-a1-m1-cA_3r1f-a1-m1-cB 3r1f-a2-m1-cC_3r1f-a2-m1-cD 3r1f-a3-m1-cE_3r1f-a3-m1-cF 3r1f-a4-m1-cG_3r1f-a4-m1-cH 3r1f-a5-m1-cI_3r1f-a5-m1-cJ 3r1f-a7-m1-cM_3r1f-a7-m1-cN 3r1f-a8-m1-cO_3r1f-a8-m1-cP 4ndw-a1-m1-cA_4ndw-a1-m1-cB TTFAARLNRLFDTVYPPGRGPHTSAEVIAALKAEGITSAPYLSQLRSGNRTNPSGATAALANFFRIKAAYFTDDEYYEKLDKELQWLCTRDDGVRRIAQRAHGLPSAAQQKVLDRIDELRR TTFAARLNRLFDTVYPPGRGPHTSAEVIAALKAEGITSAPYLSQLRSGNRTNPSGATAALANFFRIKAAYFTDDEYYEKLDKELQWLCTRDDGVRRIAQRAHGLPSAAQQKVLDRIDELRRAEGID 3r1i-a1-m1-cB_3r1i-a1-m2-cB Crystal structure of a short-chain type dehydrogenase/reductase from Mycobacterium marinum B2HE09 B2HE09 1.95 X-RAY DIFFRACTION 12 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 247 247 3r1i-a1-m1-cA_3r1i-a1-m2-cA MSVLDLFDLSGKRALITGASTGIGKKVALAYAEAGAQVAVAARHSDALQVVADEIAGVGGKALPIRCDVTQPDQVRGMLDQMTGELGGIDIAVCNAGIVSVQAMLDMPLEEFQRIQDTNVTGVFLTAQAAARAMVDQGLGGTIITTASMSGHIINIPQQVSHYCTSKAAVVHLTKAMAVELAPHQIRVNSVSPGYIRTYHALWEPKIPLGRMGRPEELTGLYLYLASAASSYMTGSDIVIDGGYTCP MSVLDLFDLSGKRALITGASTGIGKKVALAYAEAGAQVAVAARHSDALQVVADEIAGVGGKALPIRCDVTQPDQVRGMLDQMTGELGGIDIAVCNAGIVSVQAMLDMPLEEFQRIQDTNVTGVFLTAQAAARAMVDQGLGGTIITTASMSGHIINIPQQVSHYCTSKAAVVHLTKAMAVELAPHQIRVNSVSPGYIRTYHALWEPKIPLGRMGRPEELTGLYLYLASAASSYMTGSDIVIDGGYTCP 3r1i-a1-m2-cB_3r1i-a1-m1-cA Crystal structure of a short-chain type dehydrogenase/reductase from Mycobacterium marinum B2HE09 B2HE09 1.95 X-RAY DIFFRACTION 112 0.996 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 247 254 3r1i-a1-m1-cB_3r1i-a1-m2-cA MSVLDLFDLSGKRALITGASTGIGKKVALAYAEAGAQVAVAARHSDALQVVADEIAGVGGKALPIRCDVTQPDQVRGMLDQMTGELGGIDIAVCNAGIVSVQAMLDMPLEEFQRIQDTNVTGVFLTAQAAARAMVDQGLGGTIITTASMSGHIINIPQQVSHYCTSKAAVVHLTKAMAVELAPHQIRVNSVSPGYIRTYHALWEPKIPLGRMGRPEELTGLYLYLASAASSYMTGSDIVIDGGYTCP SVLDLFDLSGKRALITGASTGIGKKVALAYAEAGAQVAVAARHSDALQVVADEIAGVGGKALPIRCDVTQPDQVRGMLDQMTGELGGIDIAVCNAGIVSVQAMLDMPLEEFQRIQDTNVTGVFLTAQAAARAMVDQGLGGTIITTASMSGHIINIPQQVSHYCTSKAAVVHLTKAMAVELAPHQIRVNSVSPGYIRTELVEPLADYHALWEPKIPLGRMGRPEELTGLYLYLASAASSYMTGSDIVIDGGYTCP 3r1i-a1-m2-cB_3r1i-a1-m2-cA Crystal structure of a short-chain type dehydrogenase/reductase from Mycobacterium marinum B2HE09 B2HE09 1.95 X-RAY DIFFRACTION 148 0.996 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 247 254 3r1i-a1-m1-cB_3r1i-a1-m1-cA MSVLDLFDLSGKRALITGASTGIGKKVALAYAEAGAQVAVAARHSDALQVVADEIAGVGGKALPIRCDVTQPDQVRGMLDQMTGELGGIDIAVCNAGIVSVQAMLDMPLEEFQRIQDTNVTGVFLTAQAAARAMVDQGLGGTIITTASMSGHIINIPQQVSHYCTSKAAVVHLTKAMAVELAPHQIRVNSVSPGYIRTYHALWEPKIPLGRMGRPEELTGLYLYLASAASSYMTGSDIVIDGGYTCP SVLDLFDLSGKRALITGASTGIGKKVALAYAEAGAQVAVAARHSDALQVVADEIAGVGGKALPIRCDVTQPDQVRGMLDQMTGELGGIDIAVCNAGIVSVQAMLDMPLEEFQRIQDTNVTGVFLTAQAAARAMVDQGLGGTIITTASMSGHIINIPQQVSHYCTSKAAVVHLTKAMAVELAPHQIRVNSVSPGYIRTELVEPLADYHALWEPKIPLGRMGRPEELTGLYLYLASAASSYMTGSDIVIDGGYTCP 3r1j-a1-m1-cB_3r1j-a1-m2-cB Crystal structure of Alpha-ketoglutarate-dependent taurine dioxygenase from Mycobacterium avium, native form A0A0H2ZSG9 A0A0H2ZSG9 2.05 X-RAY DIFFRACTION 60 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 241 241 3r1j-a1-m1-cA_3r1j-a1-m2-cA ITVTKLGSRIGARVDGVRLGGDLDDATVEQIRRALLTHKVIFFRHQHHLDDSRQLEFARLLGTPIATRWHTDVTFAANYPAASILRAVTLPSYGGSTLWASTVAAYQQLPEPLRHLTENLWALHTNRPDFRTEHPVVRVHPETGERALLAGDFVRGFVGLDGHESSVLLELLQRRITMPENTVRWSWAPGDVAMWDNRATQHRAIDDYDDQPRLMHRITLMGDVPVNVHGERSRVISGAPL ITVTKLGSRIGARVDGVRLGGDLDDATVEQIRRALLTHKVIFFRHQHHLDDSRQLEFARLLGTPIATRWHTDVTFAANYPAASILRAVTLPSYGGSTLWASTVAAYQQLPEPLRHLTENLWALHTNRPDFRTEHPVVRVHPETGERALLAGDFVRGFVGLDGHESSVLLELLQRRITMPENTVRWSWAPGDVAMWDNRATQHRAIDDYDDQPRLMHRITLMGDVPVNVHGERSRVISGAPL 3r1j-a1-m2-cB_3r1j-a1-m1-cA Crystal structure of Alpha-ketoglutarate-dependent taurine dioxygenase from Mycobacterium avium, native form A0A0H2ZSG9 A0A0H2ZSG9 2.05 X-RAY DIFFRACTION 12 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 241 246 3r1j-a1-m1-cB_3r1j-a1-m2-cA ITVTKLGSRIGARVDGVRLGGDLDDATVEQIRRALLTHKVIFFRHQHHLDDSRQLEFARLLGTPIATRWHTDVTFAANYPAASILRAVTLPSYGGSTLWASTVAAYQQLPEPLRHLTENLWALHTNRPDFRTEHPVVRVHPETGERALLAGDFVRGFVGLDGHESSVLLELLQRRITMPENTVRWSWAPGDVAMWDNRATQHRAIDDYDDQPRLMHRITLMGDVPVNVHGERSRVISGAPL ITVTKLGSRIGARVDGVRLGGDLDDATVEQIRRALLTHKVIFFRHQHHLDDSRQLEFARLLGTPIGATRWHTDVTFAANYPAASILRAVTLPSYGGSTLWASTVAAYQQLPEPLRHLTENLWALHTNRPDFRTEHPVVRVHPETGERALLAGDFVRGFVGLDGHESSVLLELLQRRITMPENTVRWSWAPGDVAMWDNRATQHRAIDDYDDQPRLMHRITLMGDVPVNVHGERSRVISGAPLEVLA 3r1j-a1-m2-cB_3r1j-a1-m2-cA Crystal structure of Alpha-ketoglutarate-dependent taurine dioxygenase from Mycobacterium avium, native form A0A0H2ZSG9 A0A0H2ZSG9 2.05 X-RAY DIFFRACTION 42 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 241 246 3r1j-a1-m1-cB_3r1j-a1-m1-cA ITVTKLGSRIGARVDGVRLGGDLDDATVEQIRRALLTHKVIFFRHQHHLDDSRQLEFARLLGTPIATRWHTDVTFAANYPAASILRAVTLPSYGGSTLWASTVAAYQQLPEPLRHLTENLWALHTNRPDFRTEHPVVRVHPETGERALLAGDFVRGFVGLDGHESSVLLELLQRRITMPENTVRWSWAPGDVAMWDNRATQHRAIDDYDDQPRLMHRITLMGDVPVNVHGERSRVISGAPL ITVTKLGSRIGARVDGVRLGGDLDDATVEQIRRALLTHKVIFFRHQHHLDDSRQLEFARLLGTPIGATRWHTDVTFAANYPAASILRAVTLPSYGGSTLWASTVAAYQQLPEPLRHLTENLWALHTNRPDFRTEHPVVRVHPETGERALLAGDFVRGFVGLDGHESSVLLELLQRRITMPENTVRWSWAPGDVAMWDNRATQHRAIDDYDDQPRLMHRITLMGDVPVNVHGERSRVISGAPLEVLA 3r1m-a1-m2-cA_3r1m-a1-m8-cA Structure of bifunctional fructose 1,6-bisphosphate aldolase/phosphatase (aldolase form) F9VMT6 F9VMT6 1.5 X-RAY DIFFRACTION 34 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 356 356 1umg-a1-m1-cA_1umg-a1-m7-cA 1umg-a1-m2-cA_1umg-a1-m8-cA 1umg-a1-m3-cA_1umg-a1-m5-cA 1umg-a1-m4-cA_1umg-a1-m6-cA 3r1m-a1-m1-cA_3r1m-a1-m7-cA 3r1m-a1-m3-cA_3r1m-a1-m5-cA 3r1m-a1-m4-cA_3r1m-a1-m6-cA MKTTISVIKADIGSLAGHHIVHPDTMAAANKVLASAKEQGIILDYYITHVGDDLQLIMTHTRGELDTKVHETAWNAFKEAAKVAKDLGLYAAGQDLLSDSFSGNVRGLGPGVAEMEIEERASEPIAIFMADKTEPGAYNLPLYKMFADPFNTPGLVIDPTMHGGFKFEVLDVYQGEAVMLSAPQEIYDLLALIGTPARYVIRRVYRNEDNLLAAVVSIERLNLIAGKYVGKDDPVMIVRLQHGLPALGEALEAFAFPHLVPGWMRGSHYGPLMPVSQRDAKATRFDGPPRLLGLGFNVKNGRLVGPTDLFDDPAFDETRRLANIVADYMRRHGPFMPHRLEPTEMEYTTLPLRFKK MKTTISVIKADIGSLAGHHIVHPDTMAAANKVLASAKEQGIILDYYITHVGDDLQLIMTHTRGELDTKVHETAWNAFKEAAKVAKDLGLYAAGQDLLSDSFSGNVRGLGPGVAEMEIEERASEPIAIFMADKTEPGAYNLPLYKMFADPFNTPGLVIDPTMHGGFKFEVLDVYQGEAVMLSAPQEIYDLLALIGTPARYVIRRVYRNEDNLLAAVVSIERLNLIAGKYVGKDDPVMIVRLQHGLPALGEALEAFAFPHLVPGWMRGSHYGPLMPVSQRDAKATRFDGPPRLLGLGFNVKNGRLVGPTDLFDDPAFDETRRLANIVADYMRRHGPFMPHRLEPTEMEYTTLPLRFKK 3r1m-a1-m4-cA_3r1m-a1-m8-cA Structure of bifunctional fructose 1,6-bisphosphate aldolase/phosphatase (aldolase form) F9VMT6 F9VMT6 1.5 X-RAY DIFFRACTION 95 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 356 356 1umg-a1-m1-cA_1umg-a1-m6-cA 1umg-a1-m2-cA_1umg-a1-m5-cA 1umg-a1-m3-cA_1umg-a1-m7-cA 1umg-a1-m4-cA_1umg-a1-m8-cA 3r1m-a1-m1-cA_3r1m-a1-m6-cA 3r1m-a1-m2-cA_3r1m-a1-m5-cA 3r1m-a1-m3-cA_3r1m-a1-m7-cA MKTTISVIKADIGSLAGHHIVHPDTMAAANKVLASAKEQGIILDYYITHVGDDLQLIMTHTRGELDTKVHETAWNAFKEAAKVAKDLGLYAAGQDLLSDSFSGNVRGLGPGVAEMEIEERASEPIAIFMADKTEPGAYNLPLYKMFADPFNTPGLVIDPTMHGGFKFEVLDVYQGEAVMLSAPQEIYDLLALIGTPARYVIRRVYRNEDNLLAAVVSIERLNLIAGKYVGKDDPVMIVRLQHGLPALGEALEAFAFPHLVPGWMRGSHYGPLMPVSQRDAKATRFDGPPRLLGLGFNVKNGRLVGPTDLFDDPAFDETRRLANIVADYMRRHGPFMPHRLEPTEMEYTTLPLRFKK MKTTISVIKADIGSLAGHHIVHPDTMAAANKVLASAKEQGIILDYYITHVGDDLQLIMTHTRGELDTKVHETAWNAFKEAAKVAKDLGLYAAGQDLLSDSFSGNVRGLGPGVAEMEIEERASEPIAIFMADKTEPGAYNLPLYKMFADPFNTPGLVIDPTMHGGFKFEVLDVYQGEAVMLSAPQEIYDLLALIGTPARYVIRRVYRNEDNLLAAVVSIERLNLIAGKYVGKDDPVMIVRLQHGLPALGEALEAFAFPHLVPGWMRGSHYGPLMPVSQRDAKATRFDGPPRLLGLGFNVKNGRLVGPTDLFDDPAFDETRRLANIVADYMRRHGPFMPHRLEPTEMEYTTLPLRFKK 3r1m-a1-m6-cA_3r1m-a1-m8-cA Structure of bifunctional fructose 1,6-bisphosphate aldolase/phosphatase (aldolase form) F9VMT6 F9VMT6 1.5 X-RAY DIFFRACTION 130 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 356 356 1umg-a1-m1-cA_1umg-a1-m3-cA 1umg-a1-m1-cA_1umg-a1-m4-cA 1umg-a1-m2-cA_1umg-a1-m3-cA 1umg-a1-m2-cA_1umg-a1-m4-cA 1umg-a1-m5-cA_1umg-a1-m7-cA 1umg-a1-m5-cA_1umg-a1-m8-cA 1umg-a1-m6-cA_1umg-a1-m7-cA 1umg-a1-m6-cA_1umg-a1-m8-cA 3r1m-a1-m1-cA_3r1m-a1-m3-cA 3r1m-a1-m1-cA_3r1m-a1-m4-cA 3r1m-a1-m2-cA_3r1m-a1-m3-cA 3r1m-a1-m2-cA_3r1m-a1-m4-cA 3r1m-a1-m5-cA_3r1m-a1-m7-cA 3r1m-a1-m5-cA_3r1m-a1-m8-cA 3r1m-a1-m6-cA_3r1m-a1-m7-cA MKTTISVIKADIGSLAGHHIVHPDTMAAANKVLASAKEQGIILDYYITHVGDDLQLIMTHTRGELDTKVHETAWNAFKEAAKVAKDLGLYAAGQDLLSDSFSGNVRGLGPGVAEMEIEERASEPIAIFMADKTEPGAYNLPLYKMFADPFNTPGLVIDPTMHGGFKFEVLDVYQGEAVMLSAPQEIYDLLALIGTPARYVIRRVYRNEDNLLAAVVSIERLNLIAGKYVGKDDPVMIVRLQHGLPALGEALEAFAFPHLVPGWMRGSHYGPLMPVSQRDAKATRFDGPPRLLGLGFNVKNGRLVGPTDLFDDPAFDETRRLANIVADYMRRHGPFMPHRLEPTEMEYTTLPLRFKK MKTTISVIKADIGSLAGHHIVHPDTMAAANKVLASAKEQGIILDYYITHVGDDLQLIMTHTRGELDTKVHETAWNAFKEAAKVAKDLGLYAAGQDLLSDSFSGNVRGLGPGVAEMEIEERASEPIAIFMADKTEPGAYNLPLYKMFADPFNTPGLVIDPTMHGGFKFEVLDVYQGEAVMLSAPQEIYDLLALIGTPARYVIRRVYRNEDNLLAAVVSIERLNLIAGKYVGKDDPVMIVRLQHGLPALGEALEAFAFPHLVPGWMRGSHYGPLMPVSQRDAKATRFDGPPRLLGLGFNVKNGRLVGPTDLFDDPAFDETRRLANIVADYMRRHGPFMPHRLEPTEMEYTTLPLRFKK 3r1w-a1-m1-cB_3r1w-a1-m1-cC Crystal structure of a carbonic anhydrase from a crude oil degrading psychrophilic library 1.73 X-RAY DIFFRACTION 63 1.0 32644 (unidentified) 32644 (unidentified) 181 181 3r1w-a1-m1-cA_3r1w-a1-m1-cB 3r1w-a1-m1-cA_3r1w-a1-m1-cC LTSVRTYQGISPKLGERVFVDRSSVIIGDVELGDDCSVWPLAVIRGDMHHIRIGARTSVQDGSVLHITHASDYNPGGYPLIIGDDVTIGHQAMLHGCTIGNRVLIGMKSMIMDGAIVEDEVIVAAGATVSPGKVLESGFVYMGTPAKKVRPITEKERSFFTYGAGNYVRLKDKHLAEGYDR LTSVRTYQGISPKLGERVFVDRSSVIIGDVELGDDCSVWPLAVIRGDMHHIRIGARTSVQDGSVLHITHASDYNPGGYPLIIGDDVTIGHQAMLHGCTIGNRVLIGMKSMIMDGAIVEDEVIVAAGATVSPGKVLESGFVYMGTPAKKVRPITEKERSFFTYGAGNYVRLKDKHLAEGYDR 3r1x-a3-m1-cB_3r1x-a3-m1-cD Crystal structure of 2-oxo-3-deoxygalactonate kinase from Klebsiella pneumoniae A6TFZ6 A6TFZ6 2.093 X-RAY DIFFRACTION 19 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 287 287 TARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQHWRDGATPVVAGVGSNVGWKIAPYLPLPAAFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVRGEETQLLGARALAPSSVYVPGTHCKWVLADRRQIHDFRTVLTGELHHLLLQLSLVGAGLPPQETSAAAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSDTFAGQQAISLVAGSSLTSRYQQAFAAIGREVSAVAGDTAFQTGIRSIAYAVAN TARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQHWRDGATPVVAGVGSNVGWKIAPYLPLPAAFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVRGEETQLLGARALAPSSVYVPGTHCKWVLADRRQIHDFRTVLTGELHHLLLQLSLVGAGLPPQETSAAAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSDTFAGQQAISLVAGSSLTSRYQQAFAAIGREVSAVAGDTAFQTGIRSIAYAVAN 3r1x-a3-m1-cC_3r1x-a3-m1-cA Crystal structure of 2-oxo-3-deoxygalactonate kinase from Klebsiella pneumoniae A6TFZ6 A6TFZ6 2.093 X-RAY DIFFRACTION 100 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 287 290 TARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQHWRDGATPVVAGVGSNVGWKIAPYLPLPAAFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVRGEETQLLGARALAPSSVYVPGTHCKWVLADRRQIHDFRTVLTGELHHLLLQLSLVGAGLPPQETSAAAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSDTFAGQQAISLVAGSSLTSRYQQAFAAIGREVSAVAGDTAFQTGIRSIAYAVAN SNATARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQHWRDGATPVVAGVGSNVGWKIAPYLPLPAAFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVRGEETQLLGARALAPSSVYVPGTHCKWVLADRRQIHDFRTVLTGELHHLLLQLSLVGAGLPPQETSAAAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSDTFAGQQAISLVAGSSLTSRYQQAFAAIGREVSAVAGDTAFQTGIRSIAYAVAN 3r1x-a3-m1-cC_3r1x-a3-m1-cD Crystal structure of 2-oxo-3-deoxygalactonate kinase from Klebsiella pneumoniae A6TFZ6 A6TFZ6 2.093 X-RAY DIFFRACTION 115 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 287 287 3r1x-a1-m1-cB_3r1x-a1-m1-cA 3r1x-a2-m1-cC_3r1x-a2-m1-cD 3r1x-a3-m1-cB_3r1x-a3-m1-cA TARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQHWRDGATPVVAGVGSNVGWKIAPYLPLPAAFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVRGEETQLLGARALAPSSVYVPGTHCKWVLADRRQIHDFRTVLTGELHHLLLQLSLVGAGLPPQETSAAAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSDTFAGQQAISLVAGSSLTSRYQQAFAAIGREVSAVAGDTAFQTGIRSIAYAVAN TARYIAIDWGSTNLRAWLYQGEECLESRQSEAGVTRLNGRSPAAVLAEITQHWRDGATPVVAGVGSNVGWKIAPYLPLPAAFSDIGQQLTAVGDNIWIIPGLCVSRDDNHNVRGEETQLLGARALAPSSVYVPGTHCKWVLADRRQIHDFRTVLTGELHHLLLQLSLVGAGLPPQETSAAAFAAGLQRGINNPAVLPQLFEVRASHVLGALPREQVSEFLSGLLIGAEVATLSDTFAGQQAISLVAGSSLTSRYQQAFAAIGREVSAVAGDTAFQTGIRSIAYAVAN 3r1z-a1-m1-cA_3r1z-a1-m1-cB Crystal structure of NYSGRC enolase target 200555, a putative dipeptide epimerase from Francisella philomiragia : Complex with L-Ala-L-Glu and L-Ala-D-Glu B0TZW0 B0TZW0 1.9 X-RAY DIFFRACTION 54 1.0 484022 (Francisella philomiragia subsp. philomiragia ATCC 25017) 484022 (Francisella philomiragia subsp. philomiragia ATCC 25017) 354 356 3r0k-a1-m1-cA_3r0k-a1-m1-cB 3r0u-a1-m1-cA_3r0u-a1-m1-cB 3r10-a1-m1-cA_3r10-a1-m1-cB 3r11-a1-m1-cA_3r11-a1-m1-cB VSKIIDIKTSIIKIPLKRTFITAVRSTNHIDSLAVELTLDNGVKGYGVAPATTAITGDTLQGQYIIREIFAPVILGSDLSDYKQTLELAFKKVFNSAAKAIDLAYHDLLAKEQDISVAKLLGAKANSIVTDVSISCGNVAETIQNIQNGVEANFTAIKVKTGADFNRDIQLLKALDNEFSKNIKFRFDANQGWNLAQTKQFIEEINKYSLNVEIIEQPVKYYDIKAAEITKFSNIPVVADESVFDAKDAERVIDEQACNINIKLAKTGGILEAQKIKKLADSAGISCVGCESPAGILATASFALAEDITVADLDPLDWVAKDLYSDYITFNEPNIILKDNLKGFGFNLAENLYF VSKIIDIKTSIIKIPLKRTFITAVRSTNHIDSLAVELTLDNGVKGYGVAPATTAITGDTLQGQYIIREIFAPVILGSDLSDYKQTLELAFKKVFNSAAKAIDLAYHDLLAKEQDISVAKLLGAKANSIVTDVSISCGNVAETIQNIQNGVEANFTAIKVKTGADFNRDIQLLKALDNEFSKNIKFRFDANQGWNLAQTKQFIEEINKYSLNVEIIEQPVKYYDIKAAEITKFSNIPVVADESVFDAKDAERVIDEQACNINIKLAKTGGILEAQKIKKLADSAGISCVGCESPAGILATASFALAEDITVADLDPLDWVAKDLYSDYITFNEPNIILKDNLKGFGFNLAENLYFQS 3r20-a2-m2-cA_3r20-a2-m3-cA Crystal structure of cytidylate kinase from Mycobacterium smegmatis A0QYQ0 A0QYQ0 2 X-RAY DIFFRACTION 39 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 217 217 3r20-a2-m1-cA_3r20-a2-m2-cA 3r20-a2-m1-cA_3r20-a2-m3-cA SLVVAVDGPAGTGKSSVSRGLARALGARYLDTGAMYRIATLAVLRAGADLTDPAAIEKAAADAEIGVGSDPDVDAAFLAGEDVSSEIRGDAVTGAVSAVSAVPAVRTRLVDIQRKLATEGGRVVVEGRDIGTVVLPDADVKIFLTASAEERARRRNAQNVANGLPDDYATVLADVQRRDHLDSTRPVSPLRAADDALVVDTSDMDQAQVIAHLLDLV SLVVAVDGPAGTGKSSVSRGLARALGARYLDTGAMYRIATLAVLRAGADLTDPAAIEKAAADAEIGVGSDPDVDAAFLAGEDVSSEIRGDAVTGAVSAVSAVPAVRTRLVDIQRKLATEGGRVVVEGRDIGTVVLPDADVKIFLTASAEERARRRNAQNVANGLPDDYATVLADVQRRDHLDSTRPVSPLRAADDALVVDTSDMDQAQVIAHLLDLV 3r20-a3-m1-cA_3r20-a3-m4-cA Crystal structure of cytidylate kinase from Mycobacterium smegmatis A0QYQ0 A0QYQ0 2 X-RAY DIFFRACTION 68 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 217 217 SLVVAVDGPAGTGKSSVSRGLARALGARYLDTGAMYRIATLAVLRAGADLTDPAAIEKAAADAEIGVGSDPDVDAAFLAGEDVSSEIRGDAVTGAVSAVSAVPAVRTRLVDIQRKLATEGGRVVVEGRDIGTVVLPDADVKIFLTASAEERARRRNAQNVANGLPDDYATVLADVQRRDHLDSTRPVSPLRAADDALVVDTSDMDQAQVIAHLLDLV SLVVAVDGPAGTGKSSVSRGLARALGARYLDTGAMYRIATLAVLRAGADLTDPAAIEKAAADAEIGVGSDPDVDAAFLAGEDVSSEIRGDAVTGAVSAVSAVPAVRTRLVDIQRKLATEGGRVVVEGRDIGTVVLPDADVKIFLTASAEERARRRNAQNVANGLPDDYATVLADVQRRDHLDSTRPVSPLRAADDALVVDTSDMDQAQVIAHLLDLV 3r25-a7-m1-cA_3r25-a7-m1-cC Crystal structure of enolase superfamily member from Vibrionales bacterium complexed with Mg and Glycerol in the active site A5KUH4 A5KUH4 1.603 X-RAY DIFFRACTION 64 1.0 391574 (Vibrionales bacterium SWAT-3) 391574 (Vibrionales bacterium SWAT-3) 390 390 3dfh-a1-m1-cC_3dfh-a1-m3-cC 3dfh-a1-m1-cC_3dfh-a1-m4-cC 3dfh-a1-m2-cC_3dfh-a1-m3-cC 3dfh-a1-m2-cC_3dfh-a1-m4-cC 3dfh-a1-m5-cC_3dfh-a1-m7-cC 3dfh-a1-m5-cC_3dfh-a1-m8-cC 3dfh-a1-m6-cC_3dfh-a1-m7-cC 3dfh-a1-m6-cC_3dfh-a1-m8-cC 3dfh-a2-m10-cA_3dfh-a2-m9-cA 3dfh-a2-m10-cB_3dfh-a2-m9-cB 3dfh-a2-m11-cA_3dfh-a2-m9-cA 3dfh-a2-m11-cB_3dfh-a2-m9-cB 3dfh-a2-m1-cA_3dfh-a2-m10-cA 3dfh-a2-m1-cA_3dfh-a2-m11-cA 3dfh-a2-m1-cB_3dfh-a2-m10-cB 3dfh-a2-m1-cB_3dfh-a2-m11-cB 3r25-a5-m1-cB_3r25-a5-m1-cD 3r25-a5-m1-cE_3r25-a5-m1-cD 3r25-a5-m1-cE_3r25-a5-m1-cG 3r25-a5-m1-cG_3r25-a5-m1-cB 3r25-a6-m1-cA_3r25-a6-m1-cC 3r25-a6-m1-cA_3r25-a6-m1-cH 3r25-a6-m1-cC_3r25-a6-m1-cF 3r25-a6-m1-cH_3r25-a6-m1-cF 3r25-a7-m1-cA_3r25-a7-m1-cH 3r25-a7-m1-cB_3r25-a7-m1-cD 3r25-a7-m1-cC_3r25-a7-m1-cF 3r25-a7-m1-cE_3r25-a7-m1-cD 3r25-a7-m1-cE_3r25-a7-m1-cG 3r25-a7-m1-cG_3r25-a7-m1-cB 3r25-a7-m1-cH_3r25-a7-m1-cF 3sbf-a5-m1-cB_3sbf-a5-m1-cA 3sbf-a5-m1-cB_3sbf-a5-m2-cA 3sbf-a5-m2-cB_3sbf-a5-m1-cA 3sbf-a5-m2-cB_3sbf-a5-m2-cA 3sbf-a6-m1-cC_3sbf-a6-m1-cD 3sbf-a6-m1-cC_3sbf-a6-m2-cD 3sbf-a6-m2-cC_3sbf-a6-m1-cD 3sbf-a6-m2-cC_3sbf-a6-m2-cD 3sbf-a7-m1-cB_3sbf-a7-m1-cA 3sbf-a7-m1-cB_3sbf-a7-m2-cA 3sbf-a7-m1-cC_3sbf-a7-m1-cD 3sbf-a7-m1-cC_3sbf-a7-m2-cD 3sbf-a7-m2-cB_3sbf-a7-m1-cA 3sbf-a7-m2-cB_3sbf-a7-m2-cA 3sbf-a7-m2-cC_3sbf-a7-m1-cD 3sbf-a7-m2-cC_3sbf-a7-m2-cD LKETIISDIHCIITKPDRHNLITVVVETNEGVTGFGCATFQQRPLAVKTMVDEYLKPILIGKNANNIEDLWQMMMVNAYWRNGPVINNAISGVDMALWDIKAKLAGMPLHQLFGGKSRDAIPVYTHATSDTMEGIYDLVEGFLEKGYKHIRCQLLHTTQNPTEGSYYDQDQYMDNTLTMFKSLREKYGNQFHILHDVHERLFPNQAIQFAKEVEQYKPYFIEDILPPNQTEWLDNIRSQSSVSLGLGELFNNPEEWKSLIANRRIDFIRCHVSQIGGITPALKLGHLCQNFGVRIAWHCPPDMTPIGAAVNTHLNVHLHNAAIQEHVEYNGNTHKVFPNAAEPINGYLYASEIAGIGVEIDREAAAEFPVMYRPHEWTQSRLPDGAIHTP LKETIISDIHCIITKPDRHNLITVVVETNEGVTGFGCATFQQRPLAVKTMVDEYLKPILIGKNANNIEDLWQMMMVNAYWRNGPVINNAISGVDMALWDIKAKLAGMPLHQLFGGKSRDAIPVYTHATSDTMEGIYDLVEGFLEKGYKHIRCQLLHTTQNPTEGSYYDQDQYMDNTLTMFKSLREKYGNQFHILHDVHERLFPNQAIQFAKEVEQYKPYFIEDILPPNQTEWLDNIRSQSSVSLGLGELFNNPEEWKSLIANRRIDFIRCHVSQIGGITPALKLGHLCQNFGVRIAWHCPPDMTPIGAAVNTHLNVHLHNAAIQEHVEYNGNTHKVFPNAAEPINGYLYASEIAGIGVEIDREAAAEFPVMYRPHEWTQSRLPDGAIHTP 3r2g-a2-m2-cA_3r2g-a2-m4-cA Crystal structure of Inosine 5' monophosphate dehydrogenase from Legionella pneumophila Q5ZRN7 Q5ZRN7 1.941 X-RAY DIFFRACTION 140 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 323 323 3r2g-a2-m1-cA_3r2g-a2-m3-cA 3r2g-a2-m1-cA_3r2g-a2-m4-cA 3r2g-a2-m2-cA_3r2g-a2-m3-cA QAITFDDVLLVPSYNHHESRRVVETTSTDRLGKLTLNLPVISANMDTITESNMANFMHSKGAMGALHRFMTIEENIQEFKKCKGPVFVSVGCTENELQRAEALRDAGADFFCVDVAHAHAKYVGKTLKSLRQLLGSRCIMAGNVATYAGADYLASCGADIIKAGIGGGSVCSTRIKTGFGVPMLTCIQDCSRADRSIVADGGIKTSGDIVKALAFGADFVMIGGMLAGSAPTPGEVFQKDDGSKVKRYRGMASREAQEAFLGQMHEWKTAEGVATEVPFKENPDGIIADIIGGLRSGLTYAGADSISELQRKLNYVIVTQAGR QAITFDDVLLVPSYNHHESRRVVETTSTDRLGKLTLNLPVISANMDTITESNMANFMHSKGAMGALHRFMTIEENIQEFKKCKGPVFVSVGCTENELQRAEALRDAGADFFCVDVAHAHAKYVGKTLKSLRQLLGSRCIMAGNVATYAGADYLASCGADIIKAGIGGGSVCSTRIKTGFGVPMLTCIQDCSRADRSIVADGGIKTSGDIVKALAFGADFVMIGGMLAGSAPTPGEVFQKDDGSKVKRYRGMASREAQEAFLGQMHEWKTAEGVATEVPFKENPDGIIADIIGGLRSGLTYAGADSISELQRKLNYVIVTQAGR 3r2j-a2-m1-cC_3r2j-a2-m1-cD Crystal Structure of PnC1 from L. infantum in complex with nicotinate A4HRG8 A4HRG8 2.68 X-RAY DIFFRACTION 64 1.0 5671 (Leishmania infantum) 5671 (Leishmania infantum) 198 199 3r2j-a1-m1-cA_3r2j-a1-m1-cB LCVTVSSTTDVLIIADMQVDFLAPGGSLHVKGGEALLDGINAVSSQLPFRYQVATQDWHPENHCSFVTHGGPWPPHCVQGSAGAQLHAGLHTQRINAVIRKGVTQQADSYSAFVEDNGVSTGLAGLLHSIGARRVFVCGVAYDFCVFFTAMDARKNGFSVVLLEDLTAAVDDAAWSARTAELKDAGVVLLKSSALVAE TLCVTVSSTTDVLIIADMQVDFLAPGGSLHVKGGEALLDGINAVSSQLPFRYQVATQDWHPENHCSFVTHGGPWPPHCVQGSAGAQLHAGLHTQRINAVIRKGVTQQADSYSAFVEDNGVSTGLAGLLHSIGARRVFVCGVAYDFCVFFTAMDARKNGFSVVLLEDLTAAVDDAAWSARTAELKDAGVVLLKSSALVAE 3r2k-a1-m18-cA_3r2k-a1-m9-cA 1.55A resolution structure of As-Isolated FtnA from Pseudomonas aeruginosa (pH 7.5) Q9HWF9 Q9HWF9 1.55 X-RAY DIFFRACTION 25 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 154 154 3r2h-a1-m10-cA_3r2h-a1-m21-cA 3r2h-a1-m10-cA_3r2h-a1-m24-cA 3r2h-a1-m11-cA_3r2h-a1-m21-cA 3r2h-a1-m11-cA_3r2h-a1-m24-cA 3r2h-a1-m12-cA_3r2h-a1-m22-cA 3r2h-a1-m12-cA_3r2h-a1-m23-cA 3r2h-a1-m13-cA_3r2h-a1-m5-cA 3r2h-a1-m13-cA_3r2h-a1-m8-cA 3r2h-a1-m14-cA_3r2h-a1-m6-cA 3r2h-a1-m14-cA_3r2h-a1-m7-cA 3r2h-a1-m15-cA_3r2h-a1-m6-cA 3r2h-a1-m15-cA_3r2h-a1-m7-cA 3r2h-a1-m16-cA_3r2h-a1-m5-cA 3r2h-a1-m16-cA_3r2h-a1-m8-cA 3r2h-a1-m17-cA_3r2h-a1-m4-cA 3r2h-a1-m18-cA_3r2h-a1-m2-cA 3r2h-a1-m18-cA_3r2h-a1-m3-cA 3r2h-a1-m19-cA_3r2h-a1-m2-cA 3r2h-a1-m19-cA_3r2h-a1-m3-cA 3r2h-a1-m1-cA_3r2h-a1-m17-cA 3r2h-a1-m1-cA_3r2h-a1-m20-cA 3r2h-a1-m20-cA_3r2h-a1-m4-cA 3r2h-a1-m22-cA_3r2h-a1-m9-cA 3r2h-a1-m23-cA_3r2h-a1-m9-cA 3r2k-a1-m10-cA_3r2k-a1-m17-cA 3r2k-a1-m10-cA_3r2k-a1-m18-cA 3r2k-a1-m11-cA_3r2k-a1-m19-cA 3r2k-a1-m11-cA_3r2k-a1-m20-cA 3r2k-a1-m12-cA_3r2k-a1-m19-cA 3r2k-a1-m12-cA_3r2k-a1-m20-cA 3r2k-a1-m13-cA_3r2k-a1-m3-cA 3r2k-a1-m13-cA_3r2k-a1-m4-cA 3r2k-a1-m14-cA_3r2k-a1-m3-cA 3r2k-a1-m14-cA_3r2k-a1-m4-cA 3r2k-a1-m15-cA_3r2k-a1-m2-cA 3r2k-a1-m16-cA_3r2k-a1-m2-cA 3r2k-a1-m17-cA_3r2k-a1-m9-cA 3r2k-a1-m1-cA_3r2k-a1-m15-cA 3r2k-a1-m1-cA_3r2k-a1-m16-cA 3r2k-a1-m21-cA_3r2k-a1-m5-cA 3r2k-a1-m21-cA_3r2k-a1-m6-cA 3r2k-a1-m22-cA_3r2k-a1-m5-cA 3r2k-a1-m22-cA_3r2k-a1-m6-cA 3r2k-a1-m23-cA_3r2k-a1-m7-cA 3r2k-a1-m23-cA_3r2k-a1-m8-cA 3r2k-a1-m24-cA_3r2k-a1-m7-cA 3r2k-a1-m24-cA_3r2k-a1-m8-cA 3r2l-a1-m10-cA_3r2l-a1-m14-cA 3r2l-a1-m10-cA_3r2l-a1-m16-cA 3r2l-a1-m11-cA_3r2l-a1-m13-cA 3r2l-a1-m11-cA_3r2l-a1-m15-cA 3r2l-a1-m12-cA_3r2l-a1-m14-cA 3r2l-a1-m12-cA_3r2l-a1-m16-cA 3r2l-a1-m13-cA_3r2l-a1-m9-cA 3r2l-a1-m15-cA_3r2l-a1-m9-cA 3r2l-a1-m17-cA_3r2l-a1-m6-cA 3r2l-a1-m17-cA_3r2l-a1-m8-cA 3r2l-a1-m18-cA_3r2l-a1-m5-cA 3r2l-a1-m18-cA_3r2l-a1-m7-cA 3r2l-a1-m19-cA_3r2l-a1-m6-cA 3r2l-a1-m19-cA_3r2l-a1-m8-cA 3r2l-a1-m1-cA_3r2l-a1-m21-cA 3r2l-a1-m1-cA_3r2l-a1-m23-cA 3r2l-a1-m20-cA_3r2l-a1-m5-cA 3r2l-a1-m20-cA_3r2l-a1-m7-cA 3r2l-a1-m21-cA_3r2l-a1-m3-cA 3r2l-a1-m22-cA_3r2l-a1-m4-cA 3r2l-a1-m23-cA_3r2l-a1-m3-cA 3r2l-a1-m24-cA_3r2l-a1-m4-cA 3r2l-a1-m2-cA_3r2l-a1-m22-cA 3r2l-a1-m2-cA_3r2l-a1-m24-cA 3r2m-a1-m10-cA_3r2m-a1-m14-cA 3r2m-a1-m10-cA_3r2m-a1-m16-cA 3r2m-a1-m11-cA_3r2m-a1-m13-cA 3r2m-a1-m11-cA_3r2m-a1-m15-cA 3r2m-a1-m12-cA_3r2m-a1-m14-cA 3r2m-a1-m12-cA_3r2m-a1-m16-cA 3r2m-a1-m13-cA_3r2m-a1-m9-cA 3r2m-a1-m15-cA_3r2m-a1-m9-cA 3r2m-a1-m17-cA_3r2m-a1-m6-cA 3r2m-a1-m17-cA_3r2m-a1-m8-cA 3r2m-a1-m18-cA_3r2m-a1-m5-cA 3r2m-a1-m18-cA_3r2m-a1-m7-cA 3r2m-a1-m19-cA_3r2m-a1-m6-cA 3r2m-a1-m19-cA_3r2m-a1-m8-cA 3r2m-a1-m1-cA_3r2m-a1-m21-cA 3r2m-a1-m1-cA_3r2m-a1-m23-cA 3r2m-a1-m20-cA_3r2m-a1-m5-cA 3r2m-a1-m20-cA_3r2m-a1-m7-cA 3r2m-a1-m21-cA_3r2m-a1-m3-cA 3r2m-a1-m22-cA_3r2m-a1-m4-cA 3r2m-a1-m23-cA_3r2m-a1-m3-cA 3r2m-a1-m24-cA_3r2m-a1-m4-cA 3r2m-a1-m2-cA_3r2m-a1-m22-cA 3r2m-a1-m2-cA_3r2m-a1-m24-cA 3r2o-a1-m10-cA_3r2o-a1-m21-cA 3r2o-a1-m10-cA_3r2o-a1-m24-cA 3r2o-a1-m11-cA_3r2o-a1-m21-cA 3r2o-a1-m11-cA_3r2o-a1-m24-cA 3r2o-a1-m12-cA_3r2o-a1-m22-cA 3r2o-a1-m12-cA_3r2o-a1-m23-cA 3r2o-a1-m13-cA_3r2o-a1-m5-cA 3r2o-a1-m13-cA_3r2o-a1-m8-cA 3r2o-a1-m14-cA_3r2o-a1-m6-cA 3r2o-a1-m14-cA_3r2o-a1-m7-cA 3r2o-a1-m15-cA_3r2o-a1-m6-cA 3r2o-a1-m15-cA_3r2o-a1-m7-cA 3r2o-a1-m16-cA_3r2o-a1-m5-cA 3r2o-a1-m16-cA_3r2o-a1-m8-cA 3r2o-a1-m17-cA_3r2o-a1-m4-cA 3r2o-a1-m18-cA_3r2o-a1-m2-cA 3r2o-a1-m18-cA_3r2o-a1-m3-cA 3r2o-a1-m19-cA_3r2o-a1-m2-cA 3r2o-a1-m19-cA_3r2o-a1-m3-cA 3r2o-a1-m1-cA_3r2o-a1-m17-cA 3r2o-a1-m1-cA_3r2o-a1-m20-cA 3r2o-a1-m20-cA_3r2o-a1-m4-cA 3r2o-a1-m22-cA_3r2o-a1-m9-cA 3r2o-a1-m23-cA_3r2o-a1-m9-cA 3r2r-a1-m10-cA_3r2r-a1-m21-cA 3r2r-a1-m10-cA_3r2r-a1-m24-cA 3r2r-a1-m11-cA_3r2r-a1-m21-cA 3r2r-a1-m11-cA_3r2r-a1-m24-cA 3r2r-a1-m12-cA_3r2r-a1-m22-cA 3r2r-a1-m12-cA_3r2r-a1-m23-cA 3r2r-a1-m13-cA_3r2r-a1-m5-cA 3r2r-a1-m13-cA_3r2r-a1-m8-cA 3r2r-a1-m14-cA_3r2r-a1-m6-cA 3r2r-a1-m14-cA_3r2r-a1-m7-cA 3r2r-a1-m15-cA_3r2r-a1-m6-cA 3r2r-a1-m15-cA_3r2r-a1-m7-cA 3r2r-a1-m16-cA_3r2r-a1-m5-cA 3r2r-a1-m16-cA_3r2r-a1-m8-cA 3r2r-a1-m17-cA_3r2r-a1-m4-cA 3r2r-a1-m18-cA_3r2r-a1-m2-cA 3r2r-a1-m18-cA_3r2r-a1-m3-cA 3r2r-a1-m19-cA_3r2r-a1-m2-cA 3r2r-a1-m19-cA_3r2r-a1-m3-cA 3r2r-a1-m1-cA_3r2r-a1-m17-cA 3r2r-a1-m1-cA_3r2r-a1-m20-cA 3r2r-a1-m20-cA_3r2r-a1-m4-cA 3r2r-a1-m22-cA_3r2r-a1-m9-cA 3r2r-a1-m23-cA_3r2r-a1-m9-cA 3r2s-a1-m10-cA_3r2s-a1-m21-cA 3r2s-a1-m10-cA_3r2s-a1-m24-cA 3r2s-a1-m11-cA_3r2s-a1-m21-cA 3r2s-a1-m11-cA_3r2s-a1-m24-cA 3r2s-a1-m12-cA_3r2s-a1-m22-cA 3r2s-a1-m12-cA_3r2s-a1-m23-cA 3r2s-a1-m13-cA_3r2s-a1-m5-cA 3r2s-a1-m13-cA_3r2s-a1-m8-cA 3r2s-a1-m14-cA_3r2s-a1-m6-cA 3r2s-a1-m14-cA_3r2s-a1-m7-cA 3r2s-a1-m15-cA_3r2s-a1-m6-cA 3r2s-a1-m15-cA_3r2s-a1-m7-cA 3r2s-a1-m16-cA_3r2s-a1-m5-cA 3r2s-a1-m16-cA_3r2s-a1-m8-cA 3r2s-a1-m17-cA_3r2s-a1-m4-cA 3r2s-a1-m18-cA_3r2s-a1-m2-cA 3r2s-a1-m18-cA_3r2s-a1-m3-cA 3r2s-a1-m19-cA_3r2s-a1-m2-cA 3r2s-a1-m19-cA_3r2s-a1-m3-cA 3r2s-a1-m1-cA_3r2s-a1-m17-cA 3r2s-a1-m1-cA_3r2s-a1-m20-cA 3r2s-a1-m20-cA_3r2s-a1-m4-cA 3r2s-a1-m22-cA_3r2s-a1-m9-cA 3r2s-a1-m23-cA_3r2s-a1-m9-cA MQGHPEVIDYLNTLLTGELAARDQYFIHSRMYEDWGFSKLYERLNHEMEEETQHADALLRRILLLEGTPRMRPDDIHPGTTVPEMLEADLKLERHVRAALAKGIALCEQHKDFVSRDILKAQLADTEEDHAYWLEQQLGLIARMGLENYLQSQI MQGHPEVIDYLNTLLTGELAARDQYFIHSRMYEDWGFSKLYERLNHEMEEETQHADALLRRILLLEGTPRMRPDDIHPGTTVPEMLEADLKLERHVRAALAKGIALCEQHKDFVSRDILKAQLADTEEDHAYWLEQQLGLIARMGLENYLQSQI 3r2k-a1-m21-cA_3r2k-a1-m9-cA 1.55A resolution structure of As-Isolated FtnA from Pseudomonas aeruginosa (pH 7.5) Q9HWF9 Q9HWF9 1.55 X-RAY DIFFRACTION 51 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 154 154 3r2h-a1-m10-cA_3r2h-a1-m13-cA 3r2h-a1-m11-cA_3r2h-a1-m14-cA 3r2h-a1-m12-cA_3r2h-a1-m15-cA 3r2h-a1-m16-cA_3r2h-a1-m9-cA 3r2h-a1-m17-cA_3r2h-a1-m5-cA 3r2h-a1-m18-cA_3r2h-a1-m8-cA 3r2h-a1-m19-cA_3r2h-a1-m7-cA 3r2h-a1-m1-cA_3r2h-a1-m22-cA 3r2h-a1-m20-cA_3r2h-a1-m6-cA 3r2h-a1-m21-cA_3r2h-a1-m4-cA 3r2h-a1-m24-cA_3r2h-a1-m3-cA 3r2h-a1-m2-cA_3r2h-a1-m23-cA 3r2k-a1-m10-cA_3r2k-a1-m23-cA 3r2k-a1-m11-cA_3r2k-a1-m22-cA 3r2k-a1-m12-cA_3r2k-a1-m24-cA 3r2k-a1-m13-cA_3r2k-a1-m6-cA 3r2k-a1-m14-cA_3r2k-a1-m8-cA 3r2k-a1-m15-cA_3r2k-a1-m5-cA 3r2k-a1-m16-cA_3r2k-a1-m7-cA 3r2k-a1-m17-cA_3r2k-a1-m3-cA 3r2k-a1-m19-cA_3r2k-a1-m4-cA 3r2k-a1-m1-cA_3r2k-a1-m18-cA 3r2k-a1-m2-cA_3r2k-a1-m20-cA 3r2l-a1-m10-cA_3r2l-a1-m23-cA 3r2l-a1-m11-cA_3r2l-a1-m22-cA 3r2l-a1-m12-cA_3r2l-a1-m24-cA 3r2l-a1-m13-cA_3r2l-a1-m6-cA 3r2l-a1-m14-cA_3r2l-a1-m8-cA 3r2l-a1-m15-cA_3r2l-a1-m5-cA 3r2l-a1-m16-cA_3r2l-a1-m7-cA 3r2l-a1-m17-cA_3r2l-a1-m3-cA 3r2l-a1-m19-cA_3r2l-a1-m4-cA 3r2l-a1-m1-cA_3r2l-a1-m18-cA 3r2l-a1-m21-cA_3r2l-a1-m9-cA 3r2l-a1-m2-cA_3r2l-a1-m20-cA 3r2m-a1-m10-cA_3r2m-a1-m23-cA 3r2m-a1-m11-cA_3r2m-a1-m22-cA 3r2m-a1-m12-cA_3r2m-a1-m24-cA 3r2m-a1-m13-cA_3r2m-a1-m6-cA 3r2m-a1-m14-cA_3r2m-a1-m8-cA 3r2m-a1-m15-cA_3r2m-a1-m5-cA 3r2m-a1-m16-cA_3r2m-a1-m7-cA 3r2m-a1-m17-cA_3r2m-a1-m3-cA 3r2m-a1-m19-cA_3r2m-a1-m4-cA 3r2m-a1-m1-cA_3r2m-a1-m18-cA 3r2m-a1-m21-cA_3r2m-a1-m9-cA 3r2m-a1-m2-cA_3r2m-a1-m20-cA 3r2o-a1-m10-cA_3r2o-a1-m13-cA 3r2o-a1-m11-cA_3r2o-a1-m14-cA 3r2o-a1-m12-cA_3r2o-a1-m15-cA 3r2o-a1-m16-cA_3r2o-a1-m9-cA 3r2o-a1-m17-cA_3r2o-a1-m5-cA 3r2o-a1-m18-cA_3r2o-a1-m8-cA 3r2o-a1-m19-cA_3r2o-a1-m7-cA 3r2o-a1-m1-cA_3r2o-a1-m22-cA 3r2o-a1-m20-cA_3r2o-a1-m6-cA 3r2o-a1-m21-cA_3r2o-a1-m4-cA 3r2o-a1-m24-cA_3r2o-a1-m3-cA 3r2o-a1-m2-cA_3r2o-a1-m23-cA 3r2r-a1-m10-cA_3r2r-a1-m13-cA 3r2r-a1-m11-cA_3r2r-a1-m14-cA 3r2r-a1-m12-cA_3r2r-a1-m15-cA 3r2r-a1-m16-cA_3r2r-a1-m9-cA 3r2r-a1-m17-cA_3r2r-a1-m5-cA 3r2r-a1-m18-cA_3r2r-a1-m8-cA 3r2r-a1-m19-cA_3r2r-a1-m7-cA 3r2r-a1-m1-cA_3r2r-a1-m22-cA 3r2r-a1-m20-cA_3r2r-a1-m6-cA 3r2r-a1-m21-cA_3r2r-a1-m4-cA 3r2r-a1-m24-cA_3r2r-a1-m3-cA 3r2r-a1-m2-cA_3r2r-a1-m23-cA 3r2s-a1-m10-cA_3r2s-a1-m13-cA 3r2s-a1-m11-cA_3r2s-a1-m14-cA 3r2s-a1-m12-cA_3r2s-a1-m15-cA 3r2s-a1-m16-cA_3r2s-a1-m9-cA 3r2s-a1-m17-cA_3r2s-a1-m5-cA 3r2s-a1-m18-cA_3r2s-a1-m8-cA 3r2s-a1-m19-cA_3r2s-a1-m7-cA 3r2s-a1-m1-cA_3r2s-a1-m22-cA 3r2s-a1-m20-cA_3r2s-a1-m6-cA 3r2s-a1-m21-cA_3r2s-a1-m4-cA 3r2s-a1-m24-cA_3r2s-a1-m3-cA 3r2s-a1-m2-cA_3r2s-a1-m23-cA MQGHPEVIDYLNTLLTGELAARDQYFIHSRMYEDWGFSKLYERLNHEMEEETQHADALLRRILLLEGTPRMRPDDIHPGTTVPEMLEADLKLERHVRAALAKGIALCEQHKDFVSRDILKAQLADTEEDHAYWLEQQLGLIARMGLENYLQSQI MQGHPEVIDYLNTLLTGELAARDQYFIHSRMYEDWGFSKLYERLNHEMEEETQHADALLRRILLLEGTPRMRPDDIHPGTTVPEMLEADLKLERHVRAALAKGIALCEQHKDFVSRDILKAQLADTEEDHAYWLEQQLGLIARMGLENYLQSQI 3r2k-a1-m5-cA_3r2k-a1-m9-cA 1.55A resolution structure of As-Isolated FtnA from Pseudomonas aeruginosa (pH 7.5) Q9HWF9 Q9HWF9 1.55 X-RAY DIFFRACTION 22 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 154 154 3r2h-a1-m10-cA_3r2h-a1-m3-cA 3r2h-a1-m10-cA_3r2h-a1-m8-cA 3r2h-a1-m11-cA_3r2h-a1-m4-cA 3r2h-a1-m11-cA_3r2h-a1-m6-cA 3r2h-a1-m12-cA_3r2h-a1-m2-cA 3r2h-a1-m12-cA_3r2h-a1-m7-cA 3r2h-a1-m13-cA_3r2h-a1-m17-cA 3r2h-a1-m13-cA_3r2h-a1-m21-cA 3r2h-a1-m14-cA_3r2h-a1-m19-cA 3r2h-a1-m14-cA_3r2h-a1-m24-cA 3r2h-a1-m15-cA_3r2h-a1-m20-cA 3r2h-a1-m15-cA_3r2h-a1-m22-cA 3r2h-a1-m16-cA_3r2h-a1-m18-cA 3r2h-a1-m16-cA_3r2h-a1-m23-cA 3r2h-a1-m17-cA_3r2h-a1-m21-cA 3r2h-a1-m18-cA_3r2h-a1-m23-cA 3r2h-a1-m19-cA_3r2h-a1-m24-cA 3r2h-a1-m1-cA_3r2h-a1-m5-cA 3r2h-a1-m1-cA_3r2h-a1-m9-cA 3r2h-a1-m20-cA_3r2h-a1-m22-cA 3r2h-a1-m2-cA_3r2h-a1-m7-cA 3r2h-a1-m3-cA_3r2h-a1-m8-cA 3r2h-a1-m4-cA_3r2h-a1-m6-cA 3r2h-a1-m5-cA_3r2h-a1-m9-cA 3r2k-a1-m10-cA_3r2k-a1-m3-cA 3r2k-a1-m10-cA_3r2k-a1-m8-cA 3r2k-a1-m11-cA_3r2k-a1-m4-cA 3r2k-a1-m11-cA_3r2k-a1-m6-cA 3r2k-a1-m12-cA_3r2k-a1-m2-cA 3r2k-a1-m12-cA_3r2k-a1-m7-cA 3r2k-a1-m13-cA_3r2k-a1-m17-cA 3r2k-a1-m13-cA_3r2k-a1-m21-cA 3r2k-a1-m14-cA_3r2k-a1-m19-cA 3r2k-a1-m14-cA_3r2k-a1-m24-cA 3r2k-a1-m15-cA_3r2k-a1-m20-cA 3r2k-a1-m15-cA_3r2k-a1-m22-cA 3r2k-a1-m16-cA_3r2k-a1-m18-cA 3r2k-a1-m16-cA_3r2k-a1-m23-cA 3r2k-a1-m17-cA_3r2k-a1-m21-cA 3r2k-a1-m18-cA_3r2k-a1-m23-cA 3r2k-a1-m19-cA_3r2k-a1-m24-cA 3r2k-a1-m1-cA_3r2k-a1-m5-cA 3r2k-a1-m1-cA_3r2k-a1-m9-cA 3r2k-a1-m20-cA_3r2k-a1-m22-cA 3r2k-a1-m2-cA_3r2k-a1-m7-cA 3r2k-a1-m3-cA_3r2k-a1-m8-cA 3r2k-a1-m4-cA_3r2k-a1-m6-cA 3r2l-a1-m10-cA_3r2l-a1-m3-cA 3r2l-a1-m10-cA_3r2l-a1-m8-cA 3r2l-a1-m11-cA_3r2l-a1-m4-cA 3r2l-a1-m11-cA_3r2l-a1-m6-cA 3r2l-a1-m12-cA_3r2l-a1-m2-cA 3r2l-a1-m12-cA_3r2l-a1-m7-cA 3r2l-a1-m13-cA_3r2l-a1-m17-cA 3r2l-a1-m13-cA_3r2l-a1-m21-cA 3r2l-a1-m14-cA_3r2l-a1-m19-cA 3r2l-a1-m14-cA_3r2l-a1-m24-cA 3r2l-a1-m15-cA_3r2l-a1-m20-cA 3r2l-a1-m15-cA_3r2l-a1-m22-cA 3r2l-a1-m16-cA_3r2l-a1-m18-cA 3r2l-a1-m16-cA_3r2l-a1-m23-cA 3r2l-a1-m17-cA_3r2l-a1-m21-cA 3r2l-a1-m18-cA_3r2l-a1-m23-cA 3r2l-a1-m19-cA_3r2l-a1-m24-cA 3r2l-a1-m1-cA_3r2l-a1-m5-cA 3r2l-a1-m1-cA_3r2l-a1-m9-cA 3r2l-a1-m20-cA_3r2l-a1-m22-cA 3r2l-a1-m2-cA_3r2l-a1-m7-cA 3r2l-a1-m3-cA_3r2l-a1-m8-cA 3r2l-a1-m4-cA_3r2l-a1-m6-cA 3r2l-a1-m5-cA_3r2l-a1-m9-cA 3r2m-a1-m10-cA_3r2m-a1-m3-cA 3r2m-a1-m10-cA_3r2m-a1-m8-cA 3r2m-a1-m11-cA_3r2m-a1-m4-cA 3r2m-a1-m11-cA_3r2m-a1-m6-cA 3r2m-a1-m12-cA_3r2m-a1-m2-cA 3r2m-a1-m12-cA_3r2m-a1-m7-cA 3r2m-a1-m13-cA_3r2m-a1-m17-cA 3r2m-a1-m13-cA_3r2m-a1-m21-cA 3r2m-a1-m14-cA_3r2m-a1-m19-cA 3r2m-a1-m14-cA_3r2m-a1-m24-cA 3r2m-a1-m15-cA_3r2m-a1-m20-cA 3r2m-a1-m15-cA_3r2m-a1-m22-cA 3r2m-a1-m16-cA_3r2m-a1-m18-cA 3r2m-a1-m16-cA_3r2m-a1-m23-cA 3r2m-a1-m17-cA_3r2m-a1-m21-cA 3r2m-a1-m18-cA_3r2m-a1-m23-cA 3r2m-a1-m19-cA_3r2m-a1-m24-cA 3r2m-a1-m1-cA_3r2m-a1-m5-cA 3r2m-a1-m1-cA_3r2m-a1-m9-cA 3r2m-a1-m20-cA_3r2m-a1-m22-cA 3r2m-a1-m2-cA_3r2m-a1-m7-cA 3r2m-a1-m3-cA_3r2m-a1-m8-cA 3r2m-a1-m4-cA_3r2m-a1-m6-cA 3r2m-a1-m5-cA_3r2m-a1-m9-cA 3r2o-a1-m10-cA_3r2o-a1-m3-cA 3r2o-a1-m10-cA_3r2o-a1-m8-cA 3r2o-a1-m11-cA_3r2o-a1-m4-cA 3r2o-a1-m11-cA_3r2o-a1-m6-cA 3r2o-a1-m12-cA_3r2o-a1-m2-cA 3r2o-a1-m12-cA_3r2o-a1-m7-cA 3r2o-a1-m13-cA_3r2o-a1-m17-cA 3r2o-a1-m13-cA_3r2o-a1-m21-cA 3r2o-a1-m14-cA_3r2o-a1-m19-cA 3r2o-a1-m14-cA_3r2o-a1-m24-cA 3r2o-a1-m15-cA_3r2o-a1-m20-cA 3r2o-a1-m15-cA_3r2o-a1-m22-cA 3r2o-a1-m16-cA_3r2o-a1-m18-cA 3r2o-a1-m16-cA_3r2o-a1-m23-cA 3r2o-a1-m17-cA_3r2o-a1-m21-cA 3r2o-a1-m18-cA_3r2o-a1-m23-cA 3r2o-a1-m19-cA_3r2o-a1-m24-cA 3r2o-a1-m1-cA_3r2o-a1-m5-cA 3r2o-a1-m1-cA_3r2o-a1-m9-cA 3r2o-a1-m20-cA_3r2o-a1-m22-cA 3r2o-a1-m2-cA_3r2o-a1-m7-cA 3r2o-a1-m3-cA_3r2o-a1-m8-cA 3r2o-a1-m4-cA_3r2o-a1-m6-cA 3r2o-a1-m5-cA_3r2o-a1-m9-cA 3r2r-a1-m10-cA_3r2r-a1-m3-cA 3r2r-a1-m10-cA_3r2r-a1-m8-cA 3r2r-a1-m11-cA_3r2r-a1-m4-cA 3r2r-a1-m11-cA_3r2r-a1-m6-cA 3r2r-a1-m12-cA_3r2r-a1-m2-cA 3r2r-a1-m12-cA_3r2r-a1-m7-cA 3r2r-a1-m13-cA_3r2r-a1-m17-cA 3r2r-a1-m13-cA_3r2r-a1-m21-cA 3r2r-a1-m14-cA_3r2r-a1-m19-cA 3r2r-a1-m14-cA_3r2r-a1-m24-cA 3r2r-a1-m15-cA_3r2r-a1-m20-cA 3r2r-a1-m15-cA_3r2r-a1-m22-cA 3r2r-a1-m16-cA_3r2r-a1-m18-cA 3r2r-a1-m16-cA_3r2r-a1-m23-cA 3r2r-a1-m17-cA_3r2r-a1-m21-cA 3r2r-a1-m18-cA_3r2r-a1-m23-cA 3r2r-a1-m19-cA_3r2r-a1-m24-cA 3r2r-a1-m1-cA_3r2r-a1-m5-cA 3r2r-a1-m1-cA_3r2r-a1-m9-cA 3r2r-a1-m20-cA_3r2r-a1-m22-cA 3r2r-a1-m2-cA_3r2r-a1-m7-cA 3r2r-a1-m3-cA_3r2r-a1-m8-cA 3r2r-a1-m4-cA_3r2r-a1-m6-cA 3r2r-a1-m5-cA_3r2r-a1-m9-cA 3r2s-a1-m10-cA_3r2s-a1-m3-cA 3r2s-a1-m10-cA_3r2s-a1-m8-cA 3r2s-a1-m11-cA_3r2s-a1-m4-cA 3r2s-a1-m11-cA_3r2s-a1-m6-cA 3r2s-a1-m12-cA_3r2s-a1-m2-cA 3r2s-a1-m12-cA_3r2s-a1-m7-cA 3r2s-a1-m13-cA_3r2s-a1-m17-cA 3r2s-a1-m13-cA_3r2s-a1-m21-cA 3r2s-a1-m14-cA_3r2s-a1-m19-cA 3r2s-a1-m14-cA_3r2s-a1-m24-cA 3r2s-a1-m15-cA_3r2s-a1-m20-cA 3r2s-a1-m15-cA_3r2s-a1-m22-cA 3r2s-a1-m16-cA_3r2s-a1-m18-cA 3r2s-a1-m16-cA_3r2s-a1-m23-cA 3r2s-a1-m17-cA_3r2s-a1-m21-cA 3r2s-a1-m18-cA_3r2s-a1-m23-cA 3r2s-a1-m19-cA_3r2s-a1-m24-cA 3r2s-a1-m1-cA_3r2s-a1-m5-cA 3r2s-a1-m1-cA_3r2s-a1-m9-cA 3r2s-a1-m20-cA_3r2s-a1-m22-cA 3r2s-a1-m2-cA_3r2s-a1-m7-cA 3r2s-a1-m3-cA_3r2s-a1-m8-cA 3r2s-a1-m4-cA_3r2s-a1-m6-cA 3r2s-a1-m5-cA_3r2s-a1-m9-cA MQGHPEVIDYLNTLLTGELAARDQYFIHSRMYEDWGFSKLYERLNHEMEEETQHADALLRRILLLEGTPRMRPDDIHPGTTVPEMLEADLKLERHVRAALAKGIALCEQHKDFVSRDILKAQLADTEEDHAYWLEQQLGLIARMGLENYLQSQI MQGHPEVIDYLNTLLTGELAARDQYFIHSRMYEDWGFSKLYERLNHEMEEETQHADALLRRILLLEGTPRMRPDDIHPGTTVPEMLEADLKLERHVRAALAKGIALCEQHKDFVSRDILKAQLADTEEDHAYWLEQQLGLIARMGLENYLQSQI 3r2n-a1-m1-cA_3r2n-a1-m1-cD Crystal structure of cytidine deaminase from Mycobacterium leprae A0A0H3MRL9 A0A0H3MRL9 2.3 X-RAY DIFFRACTION 76 1.0 561304 (Mycobacterium leprae Br4923) 561304 (Mycobacterium leprae Br4923) 119 122 3r2n-a1-m1-cC_3r2n-a1-m1-cB DVNWDTLQKAAVAARANSYAPYSNFPVGVAGFVNDGRLITGVNVENASYGLALCAECSMISALYATGGGRLVAVYCVDGNGDSLMPCGRCRQLLYEHGGPELKIMTPKGVQTMAQLLPQ SMGDVNWDTLQKAAVAARANSYAPYSNFPVGVAGFVNDGRLITGVNVENASYGLALCAECSMISALYATGGGRLVAVYCVDGNGDSLMPCGRCRQLLYEHGGPELKIMTPKGVQTMAQLLPQ 3r2n-a1-m1-cB_3r2n-a1-m1-cD Crystal structure of cytidine deaminase from Mycobacterium leprae A0A0H3MRL9 A0A0H3MRL9 2.3 X-RAY DIFFRACTION 26 1.0 561304 (Mycobacterium leprae Br4923) 561304 (Mycobacterium leprae Br4923) 121 122 3r2n-a1-m1-cA_3r2n-a1-m1-cC MGDVNWDTLQKAAVAARANSYAPYSNFPVGVAGFVNDGRLITGVNVENASYGLALCAECSMISALYATGGGRLVAVYCVDGNGDSLMPCGRCRQLLYEHGGPELKIMTPKGVQTMAQLLPQ SMGDVNWDTLQKAAVAARANSYAPYSNFPVGVAGFVNDGRLITGVNVENASYGLALCAECSMISALYATGGGRLVAVYCVDGNGDSLMPCGRCRQLLYEHGGPELKIMTPKGVQTMAQLLPQ 3r2n-a1-m1-cC_3r2n-a1-m1-cD Crystal structure of cytidine deaminase from Mycobacterium leprae A0A0H3MRL9 A0A0H3MRL9 2.3 X-RAY DIFFRACTION 43 1.0 561304 (Mycobacterium leprae Br4923) 561304 (Mycobacterium leprae Br4923) 119 122 3r2n-a1-m1-cA_3r2n-a1-m1-cB DVNWDTLQKAAVAARANSYAPYSNFPVGVAGFVNDGRLITGVNVENASYGLALCAECSMISALYATGGGRLVAVYCVDGNGDSLMPCGRCRQLLYEHGGPELKIMTPKGVQTMAQLLPQ SMGDVNWDTLQKAAVAARANSYAPYSNFPVGVAGFVNDGRLITGVNVENASYGLALCAECSMISALYATGGGRLVAVYCVDGNGDSLMPCGRCRQLLYEHGGPELKIMTPKGVQTMAQLLPQ 3r2p-a1-m1-cA_3r2p-a1-m2-cA 2.2 Angstrom Crystal Structure of C Terminal Truncated Human Apolipoprotein A-I Reveals the Assembly of HDL by Dimerization. P02647 P02647 2.2045 X-RAY DIFFRACTION 209 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 180 PPQSPWDRVKDLATVYVDVLKDSGRDYVSQFEGSALGKQLNLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALK PPQSPWDRVKDLATVYVDVLKDSGRDYVSQFEGSALGKQLNLKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALK 3r2q-a1-m1-cA_3r2q-a1-m2-cA Crystal Structure Analysis of yibF from E. Coli P0ACA1 P0ACA1 1.05 X-RAY DIFFRACTION 81 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 201 201 MKLVGSYTSPFVRKLSILLLEKGITFEFINELPYNADNGVAQFNPLGKVPVLVTEEGECWFDSPIIAEYIELMNVAPAMLPRDPLESLRVRKIEALADGIMDAGLVSVREQARPAAQQSEDELLRQREKINRSLDVLEGYLVDGTLKTDTVNLATIAIACAVGYLNFRRVAPGWVDRPHLVKLVENLFSRESFARTEPPKA MKLVGSYTSPFVRKLSILLLEKGITFEFINELPYNADNGVAQFNPLGKVPVLVTEEGECWFDSPIIAEYIELMNVAPAMLPRDPLESLRVRKIEALADGIMDAGLVSVREQARPAAQQSEDELLRQREKINRSLDVLEGYLVDGTLKTDTVNLATIAIACAVGYLNFRRVAPGWVDRPHLVKLVENLFSRESFARTEPPKA 3r2t-a1-m2-cB_3r2t-a1-m1-cA 2.2 Angstrom Resolution Crystal Structure of Superantigen-like Protein from Staphylococcus aureus subsp. aureus NCTC 8325. Q2G2X9 Q2G2X9 2.21 X-RAY DIFFRACTION 24 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 194 195 RLYDTNKLHQYYSGPSYELTNVSGQSQGYYDSNVLLFNQQNQKFQVFLLGKDENKYKEKTHGLDVFAVPELVDLDGRIFSVSGVTKKNVKSIFESLRTPNLLVKKIDDKDGFSIDEFFFIQKEEVSLKELDFKIRKLLIKKYKLYEGSADKGRIVINMKDENKYEIDLSDKLDFERMADVINSEQIKNIEVNLK NRLYDTNKLHQYYSGPSYELTNVSGQSQGYYDSNVLLFNQQNQKFQVFLLGKDENKYKEKTHGLDVFAVPELVDLDGRIFSVSGVTKKNVKSIFESLRTPNLLVKKIDDKDGFSIDEFFFIQKEEVSLKELDFKIRKLLIKKYKLYEGSADKGRIVINMKDENKYEIDLSDKLDFERMADVINSEQIKNIEVNLK 3r2u-a1-m1-cB_3r2u-a1-m1-cD 2.1 Angstrom Resolution Crystal Structure of Metallo-beta-lactamase from Staphylococcus aureus subsp. aureus COL A0A0H2X0Y8 A0A0H2X0Y8 2.1 X-RAY DIFFRACTION 60 0.994 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 336 337 3r2u-a1-m1-cC_3r2u-a1-m1-cA QSNAMFFKQFYDKHLSQASYLIGCQKTGEAMIIDPIRDLSSYIRVADEEGLTITHAAETHIHADFASGIRDVAIKLNANIYVSGESDDTLGYKNMPNHTHFVQHNDDIYVGNIKLKVLHTPGHTPESISFLLTDEGAGAQVPMGLFSGDFIFVGDIGRPDLSEIGAKQMFKSIESIKDLPDYIQIWPGHGAGSSLGAIPTSTLGYEKQTNWAFSENNEATFIDKLISDQPAPPHHFAQMKKINQFGMNLYQPYTVYPATNTNRLTFDLRSKEAYHGGHIEGTINIPYDKNFINQIGWYLNYDQEINLIGDYHLVSKATHTLQLIGYDDIAGYQLPQ NAMFFKQFYDKHLSQASYLIGCQKTGEAMIIDPIRDLSSYIRVADEEGLTITHAAETHIHADFASGIRDVAIKLNANIYVSGESDDTLGYKNMPNHTHFVQHNDDIYVGNIKLKVLHTPGHTPESISFLLTDEGAGAQVPMGLFSGDFIFVGDIGRPDLGSSEIGAKQMFKSIESIKDLPDYIQIWPGHGAGSKSLGAIPTSTLGYEKQTNWAFSENNEATFIDKLISDQPAPPHHFAQMKKINQFGMNLYQPYTVYPATNTNRLTFDLRSKEAYHGGHIEGTINIPYDKNFINQIGWYLNYDQEINLIGDYHLVSKATHTLQLIGYDDIAGYQLPQ 3r2u-a1-m1-cD_3r2u-a1-m1-cA 2.1 Angstrom Resolution Crystal Structure of Metallo-beta-lactamase from Staphylococcus aureus subsp. aureus COL A0A0H2X0Y8 A0A0H2X0Y8 2.1 X-RAY DIFFRACTION 33 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 337 348 3r2u-a1-m1-cB_3r2u-a1-m1-cC NAMFFKQFYDKHLSQASYLIGCQKTGEAMIIDPIRDLSSYIRVADEEGLTITHAAETHIHADFASGIRDVAIKLNANIYVSGESDDTLGYKNMPNHTHFVQHNDDIYVGNIKLKVLHTPGHTPESISFLLTDEGAGAQVPMGLFSGDFIFVGDIGRPDLGSSEIGAKQMFKSIESIKDLPDYIQIWPGHGAGSKSLGAIPTSTLGYEKQTNWAFSENNEATFIDKLISDQPAPPHHFAQMKKINQFGMNLYQPYTVYPATNTNRLTFDLRSKEAYHGGHIEGTINIPYDKNFINQIGWYLNYDQEINLIGDYHLVSKATHTLQLIGYDDIAGYQLPQ NAMFFKQFYDKHLSQASYLIGCQKTGEAMIIDPIRDLSSYIRVADEEGLTITHAAETHIHADFASGIRDVAIKLNANIYVSGESDDTLGYKNMPNHTHFVQHNDDIYVGNIKLKVLHTPGHTPESISFLLTDEGAGAQVPMGLFSGDFIFVGDIGRPDLLEKAVKVEGSSEIGAKQMFKSIESIKDLPDYIQIWPGHGAGSPCGKSLGAIPTSTLGYEKQTNWAFSENNEATFIDKLISDQPAPPHHFAQMKKINQFGMNLYQPYTVYPATNTNRLTFDLRSKEAYHGGHIEGTINIPYDKNFINQIGWYLNYDQEINLIGDYHLVSKATHTLQLIGYDDIAGYQLPQ 3r2u-a1-m1-cD_3r2u-a1-m1-cC 2.1 Angstrom Resolution Crystal Structure of Metallo-beta-lactamase from Staphylococcus aureus subsp. aureus COL A0A0H2X0Y8 A0A0H2X0Y8 2.1 X-RAY DIFFRACTION 89 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 337 338 3r2u-a1-m1-cB_3r2u-a1-m1-cA NAMFFKQFYDKHLSQASYLIGCQKTGEAMIIDPIRDLSSYIRVADEEGLTITHAAETHIHADFASGIRDVAIKLNANIYVSGESDDTLGYKNMPNHTHFVQHNDDIYVGNIKLKVLHTPGHTPESISFLLTDEGAGAQVPMGLFSGDFIFVGDIGRPDLGSSEIGAKQMFKSIESIKDLPDYIQIWPGHGAGSKSLGAIPTSTLGYEKQTNWAFSENNEATFIDKLISDQPAPPHHFAQMKKINQFGMNLYQPYTVYPATNTNRLTFDLRSKEAYHGGHIEGTINIPYDKNFINQIGWYLNYDQEINLIGDYHLVSKATHTLQLIGYDDIAGYQLPQ NAMFFKQFYDKHLSQASYLIGCQKTGEAMIIDPIRDLSSYIRVADEEGLTITHAAETHIHADFASGIRDVAIKLNANIYVSGESDDTLGYKNMPNHTHFVQHNDDIYVGNIKLKVLHTPGHTPESISFLLTDEGAGAQVPMGLFSGDFIFVGDIGRPDLLGSSEIGAKQMFKSIESIKDLPDYIQIWPGHGAGSKSLGAIPTSTLGYEKQTNWAFSENNEATFIDKLISDQPAPPHHFAQMKKINQFGMNLYQPYTVYPATNTNRLTFDLRSKEAYHGGHIEGTINIPYDKNFINQIGWYLNYDQEINLIGDYHLVSKATHTLQLIGYDDIAGYQLPQ 3r2v-a1-m1-cA_3r2v-a1-m2-cA Crystal structure of polymerase basic protein 2 E538-R753 from Influenza A virus A/Yokohama/2017/03 H3N2 F2Z275 F2Z275 1.3 X-RAY DIFFRACTION 69 1.0 41857 (Influenza A virus H3N2) 41857 (Influenza A virus H3N2) 192 192 GPESVLVNTYQWIIRNWEAVKIQWSQNPAMLYNKMEFEPFQSLVPKAIRSQYSGFVRTLFQQMRDVLGTFDTTQIIKLLPFAAAPPKQSRMQFSSLTVNVRGSGMRILVRGNSPVFNYNKTTKRLTILGKDAGTLIEDGVESAVLRGFLIIGKEDRRYGPALSINELSNLAKGEKANVLIGQGDVVLVMKRK GPESVLVNTYQWIIRNWEAVKIQWSQNPAMLYNKMEFEPFQSLVPKAIRSQYSGFVRTLFQQMRDVLGTFDTTQIIKLLPFAAAPPKQSRMQFSSLTVNVRGSGMRILVRGNSPVFNYNKTTKRLTILGKDAGTLIEDGVESAVLRGFLIIGKEDRRYGPALSINELSNLAKGEKANVLIGQGDVVLVMKRK 3r31-a2-m1-cA_3r31-a2-m2-cB Crystal structure of betaine aldehyde dehydrogenase from Agrobacterium tumefaciens Q8UH56 Q8UH56 2.148 X-RAY DIFFRACTION 72 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 482 482 3r31-a2-m1-cB_3r31-a2-m2-cA PLKAQPKASHFIDGDYVEDNTGTPFESIFPATGEMIAKLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPMIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKARFLENLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVAGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLARANATEFGLAGGVFTADLARAHRVVDGLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTG PLKAQPKASHFIDGDYVEDNTGTPFESIFPATGEMIAKLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPMIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKARFLENLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVAGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLARANATEFGLAGGVFTADLARAHRVVDGLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTG 3r31-a2-m1-cB_3r31-a2-m2-cB Crystal structure of betaine aldehyde dehydrogenase from Agrobacterium tumefaciens Q8UH56 Q8UH56 2.148 X-RAY DIFFRACTION 57 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 482 482 3r31-a2-m1-cA_3r31-a2-m2-cA PLKAQPKASHFIDGDYVEDNTGTPFESIFPATGEMIAKLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPMIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKARFLENLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVAGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLARANATEFGLAGGVFTADLARAHRVVDGLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTG PLKAQPKASHFIDGDYVEDNTGTPFESIFPATGEMIAKLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPMIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKARFLENLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVAGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLARANATEFGLAGGVFTADLARAHRVVDGLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTG 3r31-a2-m2-cA_3r31-a2-m2-cB Crystal structure of betaine aldehyde dehydrogenase from Agrobacterium tumefaciens Q8UH56 Q8UH56 2.148 X-RAY DIFFRACTION 162 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 482 482 3r31-a1-m1-cA_3r31-a1-m1-cB 3r31-a2-m1-cA_3r31-a2-m1-cB PLKAQPKASHFIDGDYVEDNTGTPFESIFPATGEMIAKLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPMIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKARFLENLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVAGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLARANATEFGLAGGVFTADLARAHRVVDGLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTG PLKAQPKASHFIDGDYVEDNTGTPFESIFPATGEMIAKLHAATPAIVERAIASAKRAQKEWAAMSPMARGRILKRAADIMRERNDALSTLETLDTGKPIQETIVADPTSGADAFEFFGGIAPSALNGDYIPLGGDFAYTKRVPLGVCVGIGAWNYPQQIACWKAAPALVAGNAMVFKPSENTPLGALKIAEILIEAGLPKGLFNVIQGDRDTGPLLVNHPDVAKVSLTGSVPTGRKVAAAAAGHLKHVTMELGGKSPMIVFDDADIESAVGGAMLGNFYSSGQVCSNGTRVFVQKKAKARFLENLKRRTEAMILGDPLDYATHLGPLVSKAQQEKVLSYIEKGKAEGATLITGGGIPNNVAGEGAYVQPTVFADVTDDMTIAREEIFGPVMCVLDFDDEDEVLARANATEFGLAGGVFTADLARAHRVVDGLEAGTLWINTYNLCPVEIPFGGSKQSGFGRENSAAALEHYSELKTVYVSTG 3r38-a1-m1-cA_3r38-a1-m2-cA 2.23 Angstrom resolution crystal structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase (murA) from Listeria monocytogenes EGD-e Q8Y4C4 Q8Y4C4 2.23 X-RAY DIFFRACTION 77 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 438 438 TENLYFQSNAMEKIIVRGGKQLNGSVKMEGAKNAVLPVIAATLLASKGTSVLKNVPNLSDVFTINEVLKYLNADVSFVNDEVTVDATGEITSDAPFEYVRKMRASIVVMGPLLARTGSARVALPGGCAIGSRPVDLHLKGFEAMGAVVKIENGYIEATAEKLVGAKVYLDFPSVGATQNIMMAATLAEGTTVIENVAREPEIVDLANFLNQMGARVIGAGTEVIRIEGVKELTATEHSIIPDRIEAGTFMIAAAITGGNVLIEDAVPEHISSLIAKLEEMGVQIIEEGIRVIGPDKLKAVDVKTMPHPGFPTDMQSQMMVIQMLSEGTSIMTETVFENRFMHVEEMRRMNADMKIEGHSVIISGPAKLQGAEVAATDLRAAAALILAGLVADGYTQVTELKYLDRGYNNFHGKLQALGADVERVDDSKVDVTNLASLF TENLYFQSNAMEKIIVRGGKQLNGSVKMEGAKNAVLPVIAATLLASKGTSVLKNVPNLSDVFTINEVLKYLNADVSFVNDEVTVDATGEITSDAPFEYVRKMRASIVVMGPLLARTGSARVALPGGCAIGSRPVDLHLKGFEAMGAVVKIENGYIEATAEKLVGAKVYLDFPSVGATQNIMMAATLAEGTTVIENVAREPEIVDLANFLNQMGARVIGAGTEVIRIEGVKELTATEHSIIPDRIEAGTFMIAAAITGGNVLIEDAVPEHISSLIAKLEEMGVQIIEEGIRVIGPDKLKAVDVKTMPHPGFPTDMQSQMMVIQMLSEGTSIMTETVFENRFMHVEEMRRMNADMKIEGHSVIISGPAKLQGAEVAATDLRAAAALILAGLVADGYTQVTELKYLDRGYNNFHGKLQALGADVERVDDSKVDVTNLASLF 3r38-a2-m1-cA_3r38-a2-m3-cA 2.23 Angstrom resolution crystal structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase (murA) from Listeria monocytogenes EGD-e Q8Y4C4 Q8Y4C4 2.23 X-RAY DIFFRACTION 24 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 438 438 TENLYFQSNAMEKIIVRGGKQLNGSVKMEGAKNAVLPVIAATLLASKGTSVLKNVPNLSDVFTINEVLKYLNADVSFVNDEVTVDATGEITSDAPFEYVRKMRASIVVMGPLLARTGSARVALPGGCAIGSRPVDLHLKGFEAMGAVVKIENGYIEATAEKLVGAKVYLDFPSVGATQNIMMAATLAEGTTVIENVAREPEIVDLANFLNQMGARVIGAGTEVIRIEGVKELTATEHSIIPDRIEAGTFMIAAAITGGNVLIEDAVPEHISSLIAKLEEMGVQIIEEGIRVIGPDKLKAVDVKTMPHPGFPTDMQSQMMVIQMLSEGTSIMTETVFENRFMHVEEMRRMNADMKIEGHSVIISGPAKLQGAEVAATDLRAAAALILAGLVADGYTQVTELKYLDRGYNNFHGKLQALGADVERVDDSKVDVTNLASLF TENLYFQSNAMEKIIVRGGKQLNGSVKMEGAKNAVLPVIAATLLASKGTSVLKNVPNLSDVFTINEVLKYLNADVSFVNDEVTVDATGEITSDAPFEYVRKMRASIVVMGPLLARTGSARVALPGGCAIGSRPVDLHLKGFEAMGAVVKIENGYIEATAEKLVGAKVYLDFPSVGATQNIMMAATLAEGTTVIENVAREPEIVDLANFLNQMGARVIGAGTEVIRIEGVKELTATEHSIIPDRIEAGTFMIAAAITGGNVLIEDAVPEHISSLIAKLEEMGVQIIEEGIRVIGPDKLKAVDVKTMPHPGFPTDMQSQMMVIQMLSEGTSIMTETVFENRFMHVEEMRRMNADMKIEGHSVIISGPAKLQGAEVAATDLRAAAALILAGLVADGYTQVTELKYLDRGYNNFHGKLQALGADVERVDDSKVDVTNLASLF 3r3e-a1-m1-cB_3r3e-a1-m1-cA The glutathione bound structure of YqjG, a glutathione transferase homolog from Escherichia coli K-12 P42620 P42620 2.205 X-RAY DIFFRACTION 75 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 307 308 4g0i-a1-m1-cA_4g0i-a1-m1-cB 4g0k-a1-m1-cA_4g0k-a1-m1-cB 4g0l-a1-m1-cB_4g0l-a1-m1-cA QLIDGVWHDFRNWLTADGAPGPTGTGGFIAEKDRYHLYVSLACPWAHRTLIMRKLKGLEPFISVSVVNPLMLENGWTFDDSFPGATGDTLYQNEFLYQLYLHADPHYSGRVTVPVLWDKKNHTIVSNESAEIIRMFNTAFDALGAKAGDYYPPALQTKIDELNGWIYDTVNNGVYKAGFATSQEAYDEAVAKVFESLARLEQILGQHRYLTGNQLTEADIRLWTTLVRFDPVYVTHFKCDKHRISDYLNLYGFLRDIYQMPGIAETVNFDHIRNHYFRSHKTINPTGIISIGPWQDLDEPHGRDVRF GQLIDGVWHAFRNWLTADGAPGPTGTGGFIAEKDRYHLYVSLACPWAHRTLIMRKLKGLEPFISVSVVNPLMLENGWTFDDSFPGATGDTLYQNEFLYQLYLHADPHYSGRVTVPVLWDKKNHTIVSNESAEIIRMFNTAFDALGAKAGDYYPPALQTKIDELNGWIYDTVNNGVYKAGFATSQEAYDEAVAKVFESLARLEQILGQHRYLTGNQLTEADIRLWTTLVRFDPVYVTHFKCDKHRISDYLNLYGFLRDIYQMPGIAETVNFDHIRNHYFRSHKTINPTGIISIGPWQDLDEPHGRDVRF 3r3h-a1-m1-cA_3r3h-a1-m1-cB Crystal structure of O-methyltransferase from Legionella pneumophila Q5ZT85 Q5ZT85 2.65 X-RAY DIFFRACTION 133 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 217 217 KHLSLTPELYKYLLDISLREHPALAALRKETSTMELANMQVAPEQAQFMQMLIRLTRAKKVLELGTFTGYSALAMSLALPDDGQVITCDINEGWTKHAHPYWREAKQEHKIKLRLGPALDTLHSLLNEGGEHQFDFIFIDADKTNYLNYYELALKLVTPKGLIAIDNIFWDGKVIDPNDTSGQTREIKKLNQVIKNDSRVFVSLLAIADGMFLVQPI KHLSLTPELYKYLLDISLREHPALAALRKETSTMELANMQVAPEQAQFMQMLIRLTRAKKVLELGTFTGYSALAMSLALPDDGQVITCDINEGWTKHAHPYWREAKQEHKIKLRLGPALDTLHSLLNEGGEHQFDFIFIDADKTNYLNYYELALKLVTPKGLIAIDNIFWDGKVIDPNDTSGQTREIKKLNQVIKNDSRVFVSLLAIADGMFLVQPI 3r3j-a1-m1-cA_3r3j-a1-m1-cF Kinetic and structural characterization of Plasmodium falciparum glutamate dehydrogenase 2 Q8ILF7 Q8ILF7 3.1 X-RAY DIFFRACTION 59 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 456 456 3r3j-a1-m1-cA_3r3j-a1-m1-cC 3r3j-a1-m1-cB_3r3j-a1-m1-cD 3r3j-a1-m1-cB_3r3j-a1-m1-cE 3r3j-a1-m1-cC_3r3j-a1-m1-cF 3r3j-a1-m1-cD_3r3j-a1-m1-cE LHNYGYTSTKSVDNQIEELREKVVSKNKNEPEFLQAFEEVLSCLKPVFKKDNVYIGVLENIAEPERVIQFRVPWINDKGEHKMNRGFRVQYNSVLGPYKGGLRFHPAVNLSVIKFLGFEQIFKNSLTTLPMGGGKGGSDFDPKGKSENEILKFCQSFMTNLFRYIGPNTDVPAGDIGVGGREIGYLFGQYKKLKNSFEGVLTGKNIKWGGSNIRAEATGYGVVYFAENVLKDLNDNLENKKCLVSGSGNVAQYLVEKLIEKGAIVLTMSDSNGYILEPNGFTKEQLNYIMDIKNNQRLRLKEYLKYSKTAKYFENQKPWNIPCDIAFPCATQNEINENDADLFIQNKCKMIVEGANMPTHIKALHKLKQNNIILCPSKAANAGGVAVSGLEMSQNSMRLQWTHQETDMKLQNIMKSIYEQCHNTSKIYLNESDLVAGANIAGFLKVADSFLEQGGL LHNYGYTSTKSVDNQIEELREKVVSKNKNEPEFLQAFEEVLSCLKPVFKKDNVYIGVLENIAEPERVIQFRVPWINDKGEHKMNRGFRVQYNSVLGPYKGGLRFHPAVNLSVIKFLGFEQIFKNSLTTLPMGGGKGGSDFDPKGKSENEILKFCQSFMTNLFRYIGPNTDVPAGDIGVGGREIGYLFGQYKKLKNSFEGVLTGKNIKWGGSNIRAEATGYGVVYFAENVLKDLNDNLENKKCLVSGSGNVAQYLVEKLIEKGAIVLTMSDSNGYILEPNGFTKEQLNYIMDIKNNQRLRLKEYLKYSKTAKYFENQKPWNIPCDIAFPCATQNEINENDADLFIQNKCKMIVEGANMPTHIKALHKLKQNNIILCPSKAANAGGVAVSGLEMSQNSMRLQWTHQETDMKLQNIMKSIYEQCHNTSKIYLNESDLVAGANIAGFLKVADSFLEQGGL 3r3j-a1-m1-cD_3r3j-a1-m1-cF Kinetic and structural characterization of Plasmodium falciparum glutamate dehydrogenase 2 Q8ILF7 Q8ILF7 3.1 X-RAY DIFFRACTION 76 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 456 456 3r3j-a1-m1-cA_3r3j-a1-m1-cE 3r3j-a1-m1-cB_3r3j-a1-m1-cC LHNYGYTSTKSVDNQIEELREKVVSKNKNEPEFLQAFEEVLSCLKPVFKKDNVYIGVLENIAEPERVIQFRVPWINDKGEHKMNRGFRVQYNSVLGPYKGGLRFHPAVNLSVIKFLGFEQIFKNSLTTLPMGGGKGGSDFDPKGKSENEILKFCQSFMTNLFRYIGPNTDVPAGDIGVGGREIGYLFGQYKKLKNSFEGVLTGKNIKWGGSNIRAEATGYGVVYFAENVLKDLNDNLENKKCLVSGSGNVAQYLVEKLIEKGAIVLTMSDSNGYILEPNGFTKEQLNYIMDIKNNQRLRLKEYLKYSKTAKYFENQKPWNIPCDIAFPCATQNEINENDADLFIQNKCKMIVEGANMPTHIKALHKLKQNNIILCPSKAANAGGVAVSGLEMSQNSMRLQWTHQETDMKLQNIMKSIYEQCHNTSKIYLNESDLVAGANIAGFLKVADSFLEQGGL LHNYGYTSTKSVDNQIEELREKVVSKNKNEPEFLQAFEEVLSCLKPVFKKDNVYIGVLENIAEPERVIQFRVPWINDKGEHKMNRGFRVQYNSVLGPYKGGLRFHPAVNLSVIKFLGFEQIFKNSLTTLPMGGGKGGSDFDPKGKSENEILKFCQSFMTNLFRYIGPNTDVPAGDIGVGGREIGYLFGQYKKLKNSFEGVLTGKNIKWGGSNIRAEATGYGVVYFAENVLKDLNDNLENKKCLVSGSGNVAQYLVEKLIEKGAIVLTMSDSNGYILEPNGFTKEQLNYIMDIKNNQRLRLKEYLKYSKTAKYFENQKPWNIPCDIAFPCATQNEINENDADLFIQNKCKMIVEGANMPTHIKALHKLKQNNIILCPSKAANAGGVAVSGLEMSQNSMRLQWTHQETDMKLQNIMKSIYEQCHNTSKIYLNESDLVAGANIAGFLKVADSFLEQGGL 3r3j-a1-m1-cE_3r3j-a1-m1-cF Kinetic and structural characterization of Plasmodium falciparum glutamate dehydrogenase 2 Q8ILF7 Q8ILF7 3.1 X-RAY DIFFRACTION 14 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 456 456 3r3j-a1-m1-cA_3r3j-a1-m1-cB 3r3j-a1-m1-cC_3r3j-a1-m1-cD LHNYGYTSTKSVDNQIEELREKVVSKNKNEPEFLQAFEEVLSCLKPVFKKDNVYIGVLENIAEPERVIQFRVPWINDKGEHKMNRGFRVQYNSVLGPYKGGLRFHPAVNLSVIKFLGFEQIFKNSLTTLPMGGGKGGSDFDPKGKSENEILKFCQSFMTNLFRYIGPNTDVPAGDIGVGGREIGYLFGQYKKLKNSFEGVLTGKNIKWGGSNIRAEATGYGVVYFAENVLKDLNDNLENKKCLVSGSGNVAQYLVEKLIEKGAIVLTMSDSNGYILEPNGFTKEQLNYIMDIKNNQRLRLKEYLKYSKTAKYFENQKPWNIPCDIAFPCATQNEINENDADLFIQNKCKMIVEGANMPTHIKALHKLKQNNIILCPSKAANAGGVAVSGLEMSQNSMRLQWTHQETDMKLQNIMKSIYEQCHNTSKIYLNESDLVAGANIAGFLKVADSFLEQGGL LHNYGYTSTKSVDNQIEELREKVVSKNKNEPEFLQAFEEVLSCLKPVFKKDNVYIGVLENIAEPERVIQFRVPWINDKGEHKMNRGFRVQYNSVLGPYKGGLRFHPAVNLSVIKFLGFEQIFKNSLTTLPMGGGKGGSDFDPKGKSENEILKFCQSFMTNLFRYIGPNTDVPAGDIGVGGREIGYLFGQYKKLKNSFEGVLTGKNIKWGGSNIRAEATGYGVVYFAENVLKDLNDNLENKKCLVSGSGNVAQYLVEKLIEKGAIVLTMSDSNGYILEPNGFTKEQLNYIMDIKNNQRLRLKEYLKYSKTAKYFENQKPWNIPCDIAFPCATQNEINENDADLFIQNKCKMIVEGANMPTHIKALHKLKQNNIILCPSKAANAGGVAVSGLEMSQNSMRLQWTHQETDMKLQNIMKSIYEQCHNTSKIYLNESDLVAGANIAGFLKVADSFLEQGGL 3r3p-a2-m1-cB_3r3p-a2-m2-cB Homing Endonuclease I-Bth0305I Catalytic Domain A7KV39 A7KV39 2.2 X-RAY DIFFRACTION 23 1.0 458639 (Bacillus phage 0305phi8-36) 458639 (Bacillus phage 0305phi8-36) 98 98 3r3p-a2-m1-cA_3r3p-a2-m2-cA STTPERRVKEILDEMDIVYFTHHVVEGWNVAFYLGKKLAIEVNGVYWASKQKNVNKDKRKLSELHSKGYRVLTIEDDELNDIDKVKQQIQKFWVTHIS STTPERRVKEILDEMDIVYFTHHVVEGWNVAFYLGKKLAIEVNGVYWASKQKNVNKDKRKLSELHSKGYRVLTIEDDELNDIDKVKQQIQKFWVTHIS 3r3p-a2-m2-cA_3r3p-a2-m2-cB Homing Endonuclease I-Bth0305I Catalytic Domain A7KV39 A7KV39 2.2 X-RAY DIFFRACTION 73 1.0 458639 (Bacillus phage 0305phi8-36) 458639 (Bacillus phage 0305phi8-36) 97 98 3r3p-a1-m1-cA_3r3p-a1-m1-cB 3r3p-a2-m1-cA_3r3p-a2-m1-cB TTPERRVKEILDEMDIVYFTHHVVEGWNVAFYLGKKLAIEVNGVYWASKQKNVNKDKRKLSELHSKGYRVLTIEDDELNDIDKVKQQIQKFWVTHIS STTPERRVKEILDEMDIVYFTHHVVEGWNVAFYLGKKLAIEVNGVYWASKQKNVNKDKRKLSELHSKGYRVLTIEDDELNDIDKVKQQIQKFWVTHIS 3r3r-a2-m2-cA_3r3r-a2-m3-cA Structure of the YrdA ferripyochelin binding protein from Salmonella enterica Q8ZLN3 Q8ZLN3 1.2 X-RAY DIFFRACTION 76 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 183 183 3r3r-a2-m1-cA_3r3r-a2-m2-cA 3r3r-a2-m1-cA_3r3r-a2-m3-cA SNAMSDTLRPYKNLFPGIGQRVMIDTSSVVIGDVRLADDVGIWPLVVIRGDVNYVAIGARTNIQDGSVLHVTHKSSSNPGNPLIIGEDVTVGHKVMLHGCTIGNRVLVGMGSIVLDGAIIEDDVMIGAGSLVPQHKRLESGYLYLGSPVKQIRPLSDAERSGLQYSANNYVKWKDDYLSQDNH SNAMSDTLRPYKNLFPGIGQRVMIDTSSVVIGDVRLADDVGIWPLVVIRGDVNYVAIGARTNIQDGSVLHVTHKSSSNPGNPLIIGEDVTVGHKVMLHGCTIGNRVLVGMGSIVLDGAIIEDDVMIGAGSLVPQHKRLESGYLYLGSPVKQIRPLSDAERSGLQYSANNYVKWKDDYLSQDNH 3r3s-a1-m1-cB_3r3s-a1-m1-cD Structure of the YghA Oxidoreductase from Salmonella enterica Q8ZM09 Q8ZM09 1.25 X-RAY DIFFRACTION 122 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 292 292 3r3s-a1-m1-cA_3r3s-a1-m1-cC HLYDPTTQYYTGEYPKQKQPAPGVQAKMTPVPDCGEKSYVGSGRLKDRKALVTGGDSGIGRAAAIAYAREGADVAINYLPAEEEDAQQVKALIEECGRKAVLLPGDLSDESFARSLVHKAREALGGLDILALVAGKQTAIPEIKDLTSEQFQQTFAVNVFALFWITQEAIPLLPKGASIITTSSIQAYQPSPHLLDYAATKAAILNYSRGLAKQVAEKGIRVNIVAPGPIWTALQISGGQTQDKIPQFGQQTPMKRAGQPAELAPVYVYLASQESSYVTAEVHGVCGGEHLG HLYDPTTQYYTGEYPKQKQPAPGVQAKMTPVPDCGEKSYVGSGRLKDRKALVTGGDSGIGRAAAIAYAREGADVAINYLPAEEEDAQQVKALIEECGRKAVLLPGDLSDESFARSLVHKAREALGGLDILALVAGKQTAIPEIKDLTSEQFQQTFAVNVFALFWITQEAIPLLPKGASIITTSSIQAYQPSPHLLDYAATKAAILNYSRGLAKQVAEKGIRVNIVAPGPIWTALQISGGQTQDKIPQFGQQTPMKRAGQPAELAPVYVYLASQESSYVTAEVHGVCGGEHLG 3r3s-a1-m1-cC_3r3s-a1-m1-cD Structure of the YghA Oxidoreductase from Salmonella enterica Q8ZM09 Q8ZM09 1.25 X-RAY DIFFRACTION 172 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 292 292 3r3s-a1-m1-cA_3r3s-a1-m1-cB HLYDPTTQYYTGEYPKQKQPAPGVQAKMTPVPDCGEKSYVGSGRLKDRKALVTGGDSGIGRAAAIAYAREGADVAINYLPAEEEDAQQVKALIEECGRKAVLLPGDLSDESFARSLVHKAREALGGLDILALVAGKQTAIPEIKDLTSEQFQQTFAVNVFALFWITQEAIPLLPKGASIITTSSIQAYQPSPHLLDYAATKAAILNYSRGLAKQVAEKGIRVNIVAPGPIWTALQISGGQTQDKIPQFGQQTPMKRAGQPAELAPVYVYLASQESSYVTAEVHGVCGGEHLG HLYDPTTQYYTGEYPKQKQPAPGVQAKMTPVPDCGEKSYVGSGRLKDRKALVTGGDSGIGRAAAIAYAREGADVAINYLPAEEEDAQQVKALIEECGRKAVLLPGDLSDESFARSLVHKAREALGGLDILALVAGKQTAIPEIKDLTSEQFQQTFAVNVFALFWITQEAIPLLPKGASIITTSSIQAYQPSPHLLDYAATKAAILNYSRGLAKQVAEKGIRVNIVAPGPIWTALQISGGQTQDKIPQFGQQTPMKRAGQPAELAPVYVYLASQESSYVTAEVHGVCGGEHLG 3r3t-a1-m1-cB_3r3t-a1-m2-cB Crystal Structure of 30S Ribosomal Protein S from Bacillus anthracis Q81JI2 Q81JI2 2.302 X-RAY DIFFRACTION 62 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 91 91 3r3t-a1-m1-cA_3r3t-a1-m2-cA RKYEIYIIRPGVEEEAQKALVERFAGVLTNNGAEIINTKEWGKRRLAYEINDLREGFYILNVNANAEAINEFDRLAKINEDILRHIVVKEE RKYEIYIIRPGVEEEAQKALVERFAGVLTNNGAEIINTKEWGKRRLAYEINDLREGFYILNVNANAEAINEFDRLAKINEDILRHIVVKEE 3r3t-a1-m2-cB_3r3t-a1-m1-cA Crystal Structure of 30S Ribosomal Protein S from Bacillus anthracis Q81JI2 Q81JI2 2.302 X-RAY DIFFRACTION 302 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 91 92 3r3t-a1-m1-cB_3r3t-a1-m2-cA RKYEIYIIRPGVEEEAQKALVERFAGVLTNNGAEIINTKEWGKRRLAYEINDLREGFYILNVNANAEAINEFDRLAKINEDILRHIVVKEE ARKYEIYIIRPGVEEEAQKALVERFAGVLTNNGAEIINTKEWGKRRLAYEINDLREGFYILNVNANAEAINEFDRLAKINEDILRHIVVKEE 3r42-a2-m1-cA_3r42-a2-m2-cA Crystal structure of the yeast vps23 UEV domain in complex with a vps27 PSDP peptide P25604 P25604 1.866 X-RAY DIFFRACTION 45 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 156 156 GKISVPEAVVNWLFKVIQPIYNDGRTTFHDSLALLDNFHSLRPRTRVFTHSDGTPQLLLSIYGTISTGEDGSSPHSIPVIMWVPSMYPVKPPFISINLENFDMNTISSSLPIQEYIDSNGWIALPILHAWDPAAMNLIMVVQELMSLLHEPPQDQA GKISVPEAVVNWLFKVIQPIYNDGRTTFHDSLALLDNFHSLRPRTRVFTHSDGTPQLLLSIYGTISTGEDGSSPHSIPVIMWVPSMYPVKPPFISINLENFDMNTISSSLPIQEYIDSNGWIALPILHAWDPAAMNLIMVVQELMSLLHEPPQDQA 3r4h-a2-m1-cE_3r4h-a2-m2-cF Crystal structure of the 4-helix coiled coil CC-Tet-phi22 2.7003 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 26 28 3r4a-a1-m1-cA_3r4a-a1-m1-cB 3r4a-a1-m1-cD_3r4a-a1-m1-cC 3r4h-a1-m1-cA_3r4h-a1-m1-cB 3r4h-a1-m1-cD_3r4h-a1-m1-cC 3r4h-a2-m2-cE_3r4h-a2-m1-cF LAAIKQELAAIKKELAAIKELAAIKQ ELAAIKQELAAIKKELAAIKELAAIKQG 3r4h-a2-m2-cE_3r4h-a2-m2-cF Crystal structure of the 4-helix coiled coil CC-Tet-phi22 2.7003 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 26 28 3r4a-a1-m1-cA_3r4a-a1-m1-cD 3r4a-a1-m1-cB_3r4a-a1-m1-cC 3r4h-a1-m1-cB_3r4h-a1-m1-cC 3r4h-a1-m1-cD_3r4h-a1-m1-cA 3r4h-a2-m1-cE_3r4h-a2-m1-cF LAAIKQELAAIKKELAAIKELAAIKQ ELAAIKQELAAIKKELAAIKELAAIKQG 3r4i-a6-m6-cF_3r4i-a6-m7-cF Crystal structure of a Citrate lyase (Bxe_B2899) from BURKHOLDERIA XENOVORANS LB400 at 2.24 A resolution Q13S43 Q13S43 2.24 X-RAY DIFFRACTION 101 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 311 311 3r4i-a1-m1-cA_3r4i-a1-m2-cA 3r4i-a1-m1-cA_3r4i-a1-m3-cA 3r4i-a1-m2-cA_3r4i-a1-m3-cA 3r4i-a2-m1-cB_3r4i-a2-m2-cB 3r4i-a2-m1-cB_3r4i-a2-m3-cB 3r4i-a2-m2-cB_3r4i-a2-m3-cB 3r4i-a3-m1-cC_3r4i-a3-m4-cC 3r4i-a3-m1-cC_3r4i-a3-m5-cC 3r4i-a3-m4-cC_3r4i-a3-m5-cC 3r4i-a4-m1-cD_3r4i-a4-m4-cD 3r4i-a4-m1-cD_3r4i-a4-m5-cD 3r4i-a4-m4-cD_3r4i-a4-m5-cD 3r4i-a5-m1-cE_3r4i-a5-m6-cE 3r4i-a5-m1-cE_3r4i-a5-m7-cE 3r4i-a5-m6-cE_3r4i-a5-m7-cE 3r4i-a6-m1-cF_3r4i-a6-m6-cF 3r4i-a6-m1-cF_3r4i-a6-m7-cF LTPAEVLFDLPACDHYAGSEKLLKSLALQQQLGPVFDITLDCEDGAQVGREAQHAELVASLLGSEHDRFGRVGVRIHDFDHAHWRDDVRLILRAAKRAPAYITLPKIRHVHDAAEVAFIEATRRELGIAQPVPVQLLVETHGALTRVFDLAALPGVEALSFGLDFVSAHDGAIPDTARSPGQFDHPLVRRAKLEISAACHAYGKVPSHNVSTEVRDSVVANDAARARNEFGYTRWSIHPAQIEAIVAAFAPRDEEITTATEILLAAQSAQWGPTRYHDTLHDRASYRYYWSVLRRAQATGRAVPQDAAPLF LTPAEVLFDLPACDHYAGSEKLLKSLALQQQLGPVFDITLDCEDGAQVGREAQHAELVASLLGSEHDRFGRVGVRIHDFDHAHWRDDVRLILRAAKRAPAYITLPKIRHVHDAAEVAFIEATRRELGIAQPVPVQLLVETHGALTRVFDLAALPGVEALSFGLDFVSAHDGAIPDTARSPGQFDHPLVRRAKLEISAACHAYGKVPSHNVSTEVRDSVVANDAARARNEFGYTRWSIHPAQIEAIVAAFAPRDEEITTATEILLAAQSAQWGPTRYHDTLHDRASYRYYWSVLRRAQATGRAVPQDAAPLF 3r4k-a2-m1-cD_3r4k-a2-m1-cC Crystal structure of a putative ICLR transcriptional regulator (TM1040_3717) from SILICIBACTER SP. TM1040 at 2.46 A resolution Q1GKY2 Q1GKY2 2.46 X-RAY DIFFRACTION 142 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 247 249 3r4k-a1-m1-cA_3r4k-a1-m1-cB GTVSKALTLLTYFNHGRLEIGLSDLTRLSGNKATVYRLSELQEAGFVEQVERSYRLGPQVLRLAALREASVPILSASRRVLRELSEDTGETTHLSLLQGEQLASLSHAYSSRNATKVEDAEVLTFHGTASGLAVLAYSEPSFVDAVLAAPLTARTPQTQTDPAAIRAEIAEVRRTGLAQSIGGFEAEVHSHAVPIFGPDRAVLGALAVAAPTSRTPDQKRTIPPALRAAGLSLTERIGGACPPEFPT GTVSKALTLLTYFNHGRLEIGLSDLTRLSGNKATVYRLSELQEAGFVEQVEGARSYRLGPQVLRLAALREASVPILSASRRVLRELSEDTGETTHLSLLQGEQLASLSHAYSSRNATKVEDAEVLTFHGTASGLAVLAYSEPSFVDAVLAAPLTARTPQTQTDPAAIRAEIAEVRRTGLAQSIGGFEAEVHSHAVPIFGPDRAVLGALAVAAPTSRTPDQKRTIPPALRAAGLSLTERIGGACPPEFPT 3r4q-a1-m1-cB_3r4q-a1-m1-cA Crystal structure of Lactoylglutathione lyase from Agrobacterium tumefaciens Q7CXA0 Q7CXA0 2.51 X-RAY DIFFRACTION 178 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 134 138 3r4q-a2-m1-cC_3r4q-a2-m1-cD 3r4q-a3-m1-cE_3r4q-a3-m2-cE PPSAIMETALYADDLDAAEAFYRDVFGLEMVLKLPGQLVFFKCGRQMLLLFDPQESSRADANNPIPRHGAVGQGHFCFYADDKAEVDEWKTRFEALEIPVEHYHRWPNGSYSVYIRDPAGNSVEVGEGKLWGFE KPPSAIMETALYADDLDAAEAFYRDVFGLEMVLKLPGQLVFFKCGRQMLLLFDPQESSRADANNPIPRHGAVGQGHFCFYADDKAEVDEWKTRFEALEIPVEHYHRWPNGSYSVYIRDPAGNSVEVGEGKLWGFEAEN 3r4t-a2-m1-cA_3r4t-a2-m4-cA Crystal structure of 4-aminobutyrate aminotransferase GabT from Mycobacterium marinum covalently bound to pyridoxal phosphate B2HN70 B2HN70 2.5 X-RAY DIFFRACTION 57 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 443 443 3r4t-a2-m2-cA_3r4t-a2-m3-cA ASLDQSRLLVTEIPGPASLELNKRRAAAVSGGVGVTLPVFVVRAGGGIVEDADGNRLIDLGSGIAVTTIGNSAPRVVDAVRDQVEQFTHTCFMVTPYEQYVAVAEQLNRITPGSGEKRTVLFNSGAEAVENSIKVARAHTRKQAVVAFDYAYHGRTNLTMALTAKSMPYKSGFGPFAPEIYRAPVSYPYRDNLLDKDIATDGELAAERAINLIDKQIGAANLAAVIIEPIAGEGGFIVPADGFLPALQRWCRDNDVVFIADEVQTGFARTGAMFACDHENVEPDLIVTAGIADGFPLSAVTGRAEIMDAPHTSGLGGTFGGNPVACAAALATIETIERDGMVERARQIERLVMDRLLRLQAADDRLGDVRGRGAMIAMELVKSGTAEPDAALTQKLAAAAHAAGVIVLTCGMFGNVIRLLPPLTISDELLSEGLDILCQILAD ASLDQSRLLVTEIPGPASLELNKRRAAAVSGGVGVTLPVFVVRAGGGIVEDADGNRLIDLGSGIAVTTIGNSAPRVVDAVRDQVEQFTHTCFMVTPYEQYVAVAEQLNRITPGSGEKRTVLFNSGAEAVENSIKVARAHTRKQAVVAFDYAYHGRTNLTMALTAKSMPYKSGFGPFAPEIYRAPVSYPYRDNLLDKDIATDGELAAERAINLIDKQIGAANLAAVIIEPIAGEGGFIVPADGFLPALQRWCRDNDVVFIADEVQTGFARTGAMFACDHENVEPDLIVTAGIADGFPLSAVTGRAEIMDAPHTSGLGGTFGGNPVACAAALATIETIERDGMVERARQIERLVMDRLLRLQAADDRLGDVRGRGAMIAMELVKSGTAEPDAALTQKLAAAAHAAGVIVLTCGMFGNVIRLLPPLTISDELLSEGLDILCQILAD 3r4t-a2-m3-cA_3r4t-a2-m4-cA Crystal structure of 4-aminobutyrate aminotransferase GabT from Mycobacterium marinum covalently bound to pyridoxal phosphate B2HN70 B2HN70 2.5 X-RAY DIFFRACTION 427 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 443 443 3r4t-a1-m1-cA_3r4t-a1-m2-cA 3r4t-a2-m1-cA_3r4t-a2-m2-cA ASLDQSRLLVTEIPGPASLELNKRRAAAVSGGVGVTLPVFVVRAGGGIVEDADGNRLIDLGSGIAVTTIGNSAPRVVDAVRDQVEQFTHTCFMVTPYEQYVAVAEQLNRITPGSGEKRTVLFNSGAEAVENSIKVARAHTRKQAVVAFDYAYHGRTNLTMALTAKSMPYKSGFGPFAPEIYRAPVSYPYRDNLLDKDIATDGELAAERAINLIDKQIGAANLAAVIIEPIAGEGGFIVPADGFLPALQRWCRDNDVVFIADEVQTGFARTGAMFACDHENVEPDLIVTAGIADGFPLSAVTGRAEIMDAPHTSGLGGTFGGNPVACAAALATIETIERDGMVERARQIERLVMDRLLRLQAADDRLGDVRGRGAMIAMELVKSGTAEPDAALTQKLAAAAHAAGVIVLTCGMFGNVIRLLPPLTISDELLSEGLDILCQILAD ASLDQSRLLVTEIPGPASLELNKRRAAAVSGGVGVTLPVFVVRAGGGIVEDADGNRLIDLGSGIAVTTIGNSAPRVVDAVRDQVEQFTHTCFMVTPYEQYVAVAEQLNRITPGSGEKRTVLFNSGAEAVENSIKVARAHTRKQAVVAFDYAYHGRTNLTMALTAKSMPYKSGFGPFAPEIYRAPVSYPYRDNLLDKDIATDGELAAERAINLIDKQIGAANLAAVIIEPIAGEGGFIVPADGFLPALQRWCRDNDVVFIADEVQTGFARTGAMFACDHENVEPDLIVTAGIADGFPLSAVTGRAEIMDAPHTSGLGGTFGGNPVACAAALATIETIERDGMVERARQIERLVMDRLLRLQAADDRLGDVRGRGAMIAMELVKSGTAEPDAALTQKLAAAAHAAGVIVLTCGMFGNVIRLLPPLTISDELLSEGLDILCQILAD 3r4z-a1-m1-cA_3r4z-a1-m1-cB Crystal structure of alpha-neoagarobiose hydrolase (ALPHA-NABH) in complex with alpha-d-galactopyranose from Saccharophagus degradans 2-40 Q21HB2 Q21HB2 1.55 X-RAY DIFFRACTION 216 1.0 203122 (Saccharophagus degradans 2-40) 203122 (Saccharophagus degradans 2-40) 358 359 3r4y-a1-m1-cB_3r4y-a1-m1-cA KLSKASLRAIERGYDEKGPEWLFEFDITPLKGDLAYEEGVIRRDPSAVLKVDDEYHVWYTKGEGETVGFGSDNPEDKVFPWDKTEVWHATSKDKITWKEIGPAIQRGAAGAYDDRAVFTPEVLRHNGTYYLVYQTVKAPYLNRSLEHIAIAYSDSPFGPWTKSDAPILSPENDGVWDTDEDNRFLVKEKGSFDSHKVHDPCLMFFNNRFYLYYKGETMGESMNMGGREIKHGVAIADSPLGPYTKSEYNPITNSGHEVAVWPYKGGMATMLTTDGPEKNTCQWAEDGINFDIMSHIKGAPEAVGFFRPDDPISGIEWGLSHKYDASWNWNYLCFFKTRRQVLDAGSYQQTGDSGAVHH KLSKASLRAIERGYDEKGPEWLFEFDITPLKGDLAYEEGVIRRDPSAVLKVDDEYHVWYTKGEGETVGFGSDNPEDKVFPWDKTEVWHATSKDKITWKEIGPAIQRGAAGAYDDRAVFTPEVLRHNGTYYLVYQTVKAPYLNRSLEHIAIAYSDSPFGPWTKSDAPILSPENDGVWDTDEDNRFLVKEKGSFDSHKVHDPCLMFFNNRFYLYYKGETMGESMNMGGREIKHGVAIADSPLGPYTKSEYNPITNSGHEVAVWPYKGGMATMLTTDGPEKNTCQWAEDGINFDIMSHIKGAPEAVGFFRPDDPISGIEWGLSHKYDASWNWNYLCFFKTRRQVLDAGSYQQTGDSGAVHHH 3r52-a1-m1-cD_3r52-a1-m1-cB Structure analysis of a wound-inducible lectin ipomoelin from sweet potato P93193 P93193 2.1 X-RAY DIFFRACTION 72 1.0 4120 (Ipomoea batatas) 4120 (Ipomoea batatas) 152 153 3r50-a1-m1-cA_3r50-a1-m1-cC 3r50-a1-m1-cD_3r50-a1-m1-cB 3r50-a2-m1-cE_3r50-a2-m3-cE 3r50-a2-m2-cE_3r50-a2-m4-cE 3r51-a1-m1-cA_3r51-a1-m1-cB 3r51-a1-m2-cA_3r51-a1-m2-cB 3r52-a1-m1-cA_3r52-a1-m1-cC 4ddn-a1-m1-cA_4ddn-a1-m1-cC 4ddn-a1-m1-cB_4ddn-a1-m1-cD LQLAAHSDARSGPVGSNGGQFWSFRPVRPLNKIVLSFSGSPDQTLNLISITFSSNPTDIITVGGVGPEPLTYTETVNIDGDIIEISGMIANYKGYNVIRSIKFTTNKKEYGPYGANAGTPFNIKIPDGNKIVGFFGNSGWYVDAIGAYYTAK ALQLAAHSDARSGPVGSNGGQFWSFRPVRPLNKIVLSFSGSPDQTLNLISITFSSNPTDIITVGGVGPEPLTYTETVNIDGDIIEISGMIANYKGYNVIRSIKFTTNKKEYGPYGANAGTPFNIKIPDGNKIVGFFGNSGWYVDAIGAYYTAK 3r5c-a1-m1-cC_3r5c-a1-m1-cB Pseudomonas aeruginosa DapD (PA3666) in complex with CoA and succinate G3XD76 G3XD76 2.4 X-RAY DIFFRACTION 131 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 335 337 3r5a-a1-m1-cA_3r5a-a1-m1-cC 3r5a-a1-m1-cB_3r5a-a1-m1-cA 3r5a-a1-m1-cB_3r5a-a1-m1-cC 3r5a-a2-m1-cD_3r5a-a2-m1-cF 3r5a-a2-m1-cE_3r5a-a2-m1-cD 3r5a-a2-m1-cE_3r5a-a2-m1-cF 3r5b-a1-m1-cA_3r5b-a1-m1-cC 3r5b-a1-m1-cB_3r5b-a1-m1-cA 3r5b-a1-m1-cB_3r5b-a1-m1-cC 3r5b-a2-m1-cD_3r5b-a2-m1-cF 3r5b-a2-m1-cE_3r5b-a2-m1-cD 3r5b-a2-m1-cE_3r5b-a2-m1-cF 3r5c-a1-m1-cB_3r5c-a1-m1-cA 3r5c-a1-m1-cC_3r5c-a1-m1-cA 3r5d-a1-m1-cA_3r5d-a1-m1-cB 3r5d-a1-m1-cC_3r5d-a1-m1-cA 3r5d-a1-m1-cC_3r5d-a1-m1-cB 3r5d-a2-m1-cD_3r5d-a2-m1-cE 3r5d-a2-m1-cD_3r5d-a2-m1-cF 3r5d-a2-m1-cE_3r5d-a2-m1-cF QSLFSLAFGVGTQNRQEAWLEVFYALPLLKPSSEIVAAVAPILGYAAGNQALTFTSQQAYQLADALKGIDAAQSALLSRLAESQKPLVATLLAEDAAPSSTAEAYLKLHLLSHRLVKPHAVNLSGIFPLLPNVAWTNIGAVDLAELAELQLEARLKGKLLEVFSVDKFPKMTDYVVPAGVRIADTARVRLGAYIGEGTTVMHEGFVNFNAGTEGPGMIEGRVSAGVFVGKGSDLGGGCSTMGTNIVISVGEGCLIGANAGIGIPLGDRNIVEAGLYITAGTKVALLDEQNALVKVVKARDLAGQPDLLFRRNSQNGAVECKTNKTAIELNEALHA MSQSLFSLAFGVGTQNRQEAWLEVFYALPLLKPSSEIVAAVAPILGYAAGNQALTFTSQQAYQLADALKGIDAAQSALLSRLAESQKPLVATLLAEDAAPSSTAEAYLKLHLLSHRLVKPHAVNLSGIFPLLPNVAWTNIGAVDLAELAELQLEARLKGKLLEVFSVDKFPKMTDYVVPAGVRIADTARVRLGAYIGEGTTVMHEGFVNFNAGTEGPGMIEGRVSAGVFVGKGSDLGGGCSTMGTNIVISVGEGCLIGANAGIGIPLGDRNIVEAGLYITAGTKVALLDEQNALVKVVKARDLAGQPDLLFRRNSQNGAVECKTNKTAIELNEALHA 3r5g-a2-m1-cB_3r5g-a2-m3-cB Crystal structure of the adenylyl cyclase CyaB from P. aeruginosa Q9HZ23 Q9HZ23 1.5 X-RAY DIFFRACTION 114 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 196 196 3r5g-a1-m1-cA_3r5g-a1-m2-cA LETQRKKLTVFFSDIRGFTELSEELEAEALTDLLNNYLNEMSKIALKYGGTIDKFVGDCVMVFFGDPSTQGAKKDAVAAVSMGIAMRKHMKVLRQQWRAQGITKPLEIRMGINTGYCTVGNFGADTRMDYTIIGREVNLASRLESASEAGEILISHETYSLIKDVIMCRDKGQIAVKGFSRPVQIYQVVDSRRDLG LETQRKKLTVFFSDIRGFTELSEELEAEALTDLLNNYLNEMSKIALKYGGTIDKFVGDCVMVFFGDPSTQGAKKDAVAAVSMGIAMRKHMKVLRQQWRAQGITKPLEIRMGINTGYCTVGNFGADTRMDYTIIGREVNLASRLESASEAGEILISHETYSLIKDVIMCRDKGQIAVKGFSRPVQIYQVVDSRRDLG 3r5j-a3-m1-cA_3r5j-a3-m1-cC Crystal structure of active caspase-2 bound with Ac-ADVAD-CHO P42575 P42575 1.77 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 159 1pyo-a1-m1-cA_1pyo-a1-m1-cC 2p2c-a1-m1-cC_2p2c-a1-m1-cA 2p2c-a2-m1-cE_2p2c-a2-m1-cG 2p2c-a3-m1-cI_2p2c-a3-m1-cK 3r6g-a3-m1-cA_3r6g-a3-m1-cC 3r6l-a3-m1-cA_3r6l-a3-m1-cC 3r7b-a1-m1-cA_3r7b-a1-m1-cC 3r7n-a3-m1-cA_3r7n-a3-m1-cC 3r7s-a3-m1-cA_3r7s-a3-m1-cC 3rjm-a1-m1-cA_3rjm-a1-m1-cC MQVKPCTPEFYQTHFQLAYRLQSRPRGLALVLSNVHFLEFRSGGDVDHSTLVTLFKLLGYDVHVLCDQTAQEMQEKLQNFAQLPAHRVTDSCIVALLSHGVEGAIYGVDGKLLQLQEVFQLFDNANCPSLQNKPKMFFIQACRGDETDRGVDQQ MQVKPCTPEFYQTHFQLAYRLQSRPRGLALVLSNVHFTGEKELEFRSGGDVDHSTLVTLFKLLGYDVHVLCDQTAQEMQEKLQNFAQLPAHRVTDSCIVALLSHGVEGAIYGVDGKLLQLQEVFQLFDNANCPSLQNKPKMFFIQACRGDETDRGVDQQ 3r5v-a1-m1-cA_3r5v-a1-m2-cC The structure of calcium bound Thermococcus thioreducens inorganic pyrophosphatase at 298K H0USY5 H0USY5 1.65 X-RAY DIFFRACTION 53 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 175 175 3i98-a1-m1-cC_3i98-a1-m2-cA 3i98-a1-m1-cE_3i98-a1-m2-cE 3i98-a1-m2-cC_3i98-a1-m1-cA 3i98-a2-m1-cB_3i98-a2-m3-cD 3i98-a2-m1-cF_3i98-a2-m3-cF 3i98-a2-m3-cB_3i98-a2-m1-cD 3q3l-a1-m1-cA_3q3l-a1-m2-cC 3q3l-a1-m1-cC_3q3l-a1-m2-cA 3q3l-a1-m1-cE_3q3l-a1-m2-cE 3q3l-a2-m1-cB_3q3l-a2-m3-cD 3q3l-a2-m1-cD_3q3l-a2-m3-cB 3q3l-a2-m1-cF_3q3l-a2-m3-cF 3q46-a1-m1-cA_3q46-a1-m4-cA 3q46-a1-m2-cA_3q46-a1-m6-cA 3q46-a1-m3-cA_3q46-a1-m5-cA 3q4w-a1-m1-cA_3q4w-a1-m6-cA 3q4w-a1-m2-cA_3q4w-a1-m5-cA 3q4w-a1-m3-cA_3q4w-a1-m4-cA 3q5v-a1-m1-cB_3q5v-a1-m1-cA 3q5v-a1-m2-cB_3q5v-a1-m2-cA 3q5v-a1-m3-cB_3q5v-a1-m3-cA 3r5u-a1-m1-cB_3r5u-a1-m3-cA 3r5u-a1-m2-cB_3r5u-a1-m1-cA 3r5u-a1-m3-cB_3r5u-a1-m2-cA 3r5v-a1-m1-cC_3r5v-a1-m2-cA 3r5v-a1-m1-cE_3r5v-a1-m2-cE 3r5v-a2-m1-cD_3r5v-a2-m3-cB 3r5v-a2-m1-cF_3r5v-a2-m3-cF 3r5v-a2-m3-cD_3r5v-a2-m1-cB 3r6e-a1-m1-cB_3r6e-a1-m1-cA 3r6e-a1-m1-cD_3r6e-a1-m1-cF 3r6e-a1-m1-cE_3r6e-a1-m1-cC MNPFHELEPGPEVPEVVYALIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPQTWYDDGDPFDIMVIMREPVYPLTIIEARPIGIMKMEDSGDKDWKVLAVPVEDPYFNDWKDISDVPKAFLDEIAHFFQRYKELQGKTTKIEGWGNAEEAKREILRAIEMYKEKFG MNPFHELEPGPEVPEVVYALIEIPKGSRNKYELDKKTGLLKLDRVLYSPFFYPVDYGIIPQTWYDDGDPFDIMVIMREPVYPLTIIEARPIGIMKMEDSGDKDWKVLAVPVEDPYFNDWKDISDVPKAFLDEIAHFFQRYKELQGKTTKIEGWGNAEEAKREILRAIEMYKEKFG 3r5x-a2-m1-cC_3r5x-a2-m1-cD Crystal Structure of D-alanine--D-Alanine Ligase from Bacillus anthracis complexed with ATP Q81Q29 Q81Q29 2 X-RAY DIFFRACTION 51 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 270 292 3r23-a1-m1-cB_3r23-a1-m1-cA 3r5x-a1-m1-cB_3r5x-a1-m1-cA ARIGVIGGVSSEKQVSITGNEIANLDKNKYEIVPITLNEKDLIEKAKDIDFALLALHGKYGEDGTVQGTLESLGIPYSGSNLSSGICDKNISKKILRYEGIETPDWIELTKEDLNFDELDKLGFPLVVKPNGVKIVYDKDELISLETVFEWDSEVVIEKYIKGEEITCSIFDGKQLPIISIRHTIEEVIELPAELKERVNKASLACYKALKCSVYARVDVKDGIPYVEVNTLPGTQASLLPKSADAAGIHYSKLLDIIETSLRVRKEEGF NARIGVIGGVSSEKQVSITGNEIANLDKNKYEIVPITLNEKDLIEKAKDIDFALLALHGKYGEDGTVQGTLESLGIPYSGSNLSSGICDKNISKKILRYEGIETPDWIELTKEDLNFDELDKLGFPLVVKPNSGGSSVGVKIVYDKDELISLETVFEWDSEVVIEKYIKGEEITCSIFDGKQLPIISIRHAAEFFDYNAKYDDASTIEEVIELPAELKERVNKASLACYKALKCSVYARVDVKDGIPYVEVNTLPGTQASLLPKSADAAGIHYSKLLDIIETSLRVRKEEGF 3r64-a1-m1-cB_3r64-a1-m1-cD Crystal structure of a NAD-dependent benzaldehyde dehydrogenase from Corynebacterium glutamicum 2.57 X-RAY DIFFRACTION 108 0.996 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 459 459 3r64-a1-m1-cC_3r64-a1-m1-cA TFAGIDATKHLIGGQWVEGNSDRISTNINPYDDSVIAESKQASIADVDAAYEAAKKAQAEWAATPAAERSAIIYRAAELLEEHREEIVEWLIKESGSTRSKANLEITLAGNITKESASFPGRVHGRISPSNTPGKENRVYRVAKGVVGVISPWNFPLNLSIRSVAPALAVGNAVVIKPASDTPVTGGVIPARIFEEAGVPAGVISTVAGAGSEIGDHFVTHAVPKLISFTGSTPVGRRVGELAINGGPMKTVALELGGNAPFVVLADADIDAAAQAAAVGAFLHQGQICMSINRVIVDAAVHDEFLEKFVEAVKNIPTGDPSAGTLVGPVINDSQLSGLKEKIELAKKEGATVQVEGPIEGRLVHPHVFSDVTSDMEIAREEIFGPLISVLKADDEAHAAELANASDFGLSAAVWSKDIDRAAQFALQIDSGMVHINDRFNGDWAIEEFTTDRWIGIKR ATFAGIDATKHLIGGQWVEGNSDRISTNINPYDDSVIAESKQASIADVDAAYEAAKKAQAEWAATPAAERSAIIYRAAELLEEHREEIVEWLIKESGSTRSKANLEITLAGNITKESASFPGRVHGRISPSNTPGKENRVYRVAKGVVGVISPWNFPLNLSIRSVAPALAVGNAVVIKPASDTPVTGGVIPARIFEEAGVPAGVISTVAGAGSEIGDHFVTHAVPKLISFTGSTPVGRRVGELAINGPMKTVALELGGNAPFVVLADADIDAAAQAAAVGAFLHQGQICMSINRVIVDAAVHDEFLEKFVEAVKNIPTGDPSAEGTLVGPVINDSQLSGLKEKIELAKKEGATVQVEGPIEGRLVHPHVFSDVTSDMEIAREEIFGPLISVLKADDEAHAAELANASDFGLSAAVWSKDIDRAAQFALQIDSGMVHINDRFNGDWAIEEFTTDRWIGIK 3r64-a1-m1-cC_3r64-a1-m1-cD Crystal structure of a NAD-dependent benzaldehyde dehydrogenase from Corynebacterium glutamicum 2.57 X-RAY DIFFRACTION 16 0.998 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 453 459 3r64-a1-m1-cB_3r64-a1-m1-cA TFAGIDATKHLIGGQWVEGNSDRISTNINPYDDSVIAESKQASIADVDAAYEAAKKAQAEWAATPAAERSAIIYRAAELLEEHREEIVEWLIKESGSTRSKANLEITLAGNITKESASFPGRVHGRISPSNTPGKENRVYRVAKGVVGVISPWNFPLNLSIRSVAPALAVGNAVVIKPASDTPVTGGVIPARIFEEAGVPAGVISTVAGAGSEIGDHFVTHAVPKLISFTGSTPVGRRVGELAIMKTVALELGGNAPFVVLADADIDAAAQAAAVGAFLHQGQICMSINRVIVDAAVHDEFLEKFVEAVKNIPTPSAEGTLVGPVINDSQLSGLKEKIELAKKEGATVQVEGPIEGRLVHPHVFSDVTSDMEIAREEIFGPLISVLKADDEAHAAELANASDFGLSAAVWSKDIDRAAQFALQIDSGMVHINDFNGDWAIEEFTTDRWIGIKR ATFAGIDATKHLIGGQWVEGNSDRISTNINPYDDSVIAESKQASIADVDAAYEAAKKAQAEWAATPAAERSAIIYRAAELLEEHREEIVEWLIKESGSTRSKANLEITLAGNITKESASFPGRVHGRISPSNTPGKENRVYRVAKGVVGVISPWNFPLNLSIRSVAPALAVGNAVVIKPASDTPVTGGVIPARIFEEAGVPAGVISTVAGAGSEIGDHFVTHAVPKLISFTGSTPVGRRVGELAINGPMKTVALELGGNAPFVVLADADIDAAAQAAAVGAFLHQGQICMSINRVIVDAAVHDEFLEKFVEAVKNIPTGDPSAEGTLVGPVINDSQLSGLKEKIELAKKEGATVQVEGPIEGRLVHPHVFSDVTSDMEIAREEIFGPLISVLKADDEAHAAELANASDFGLSAAVWSKDIDRAAQFALQIDSGMVHINDRFNGDWAIEEFTTDRWIGIK 3r64-a1-m1-cD_3r64-a1-m1-cA Crystal structure of a NAD-dependent benzaldehyde dehydrogenase from Corynebacterium glutamicum 2.57 X-RAY DIFFRACTION 61 0.998 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 459 468 3r64-a1-m1-cC_3r64-a1-m1-cB ATFAGIDATKHLIGGQWVEGNSDRISTNINPYDDSVIAESKQASIADVDAAYEAAKKAQAEWAATPAAERSAIIYRAAELLEEHREEIVEWLIKESGSTRSKANLEITLAGNITKESASFPGRVHGRISPSNTPGKENRVYRVAKGVVGVISPWNFPLNLSIRSVAPALAVGNAVVIKPASDTPVTGGVIPARIFEEAGVPAGVISTVAGAGSEIGDHFVTHAVPKLISFTGSTPVGRRVGELAINGPMKTVALELGGNAPFVVLADADIDAAAQAAAVGAFLHQGQICMSINRVIVDAAVHDEFLEKFVEAVKNIPTGDPSAEGTLVGPVINDSQLSGLKEKIELAKKEGATVQVEGPIEGRLVHPHVFSDVTSDMEIAREEIFGPLISVLKADDEAHAAELANASDFGLSAAVWSKDIDRAAQFALQIDSGMVHINDRFNGDWAIEEFTTDRWIGIK TFAGIDATKHLIGGQWVEGNSDRISTNINPYDDSVIAESKQASIADVDAAYEAAKKAQAEWAATPAAERSAIIYRAAELLEEHREEIVEWLIKESGSTRSKANLEITLAGNITKESASFPGRVHGRISPSNTPGKENRVYRVAKGVVGVISPWNFPLNLSIRSVAPALAVGNAVVIKPASDTPVTGGVIPARIFEEAGVPAGVISTVAGAGSEIGDHFVTHAVPKLISFTGSTPVGRRVGELAINGGPMKTVALELGGNAPFVVLADADIDAAAQAAAVGAFLHQGQICMSINRVIVDAAVHDEFLEKFVEAVKNIPTGDPSAEGTLVGPVINDSQLSGLKEKIELAKKEGATVQVEGPIEGRLVHPHVFSDVTSDMEIAREEIFGPLISVLKADDEAHAAELANASDFGLSAAVWSKDIDRAAQFALQIDSGMVHINDRFNGDWAIEEFTTDRWIGIKRSAENLYFQ 3r66-a1-m1-cA_3r66-a1-m1-cB Crystal structure of human ISG15 in complex with NS1 N-terminal region from influenza virus B, Northeast Structural Genomics Consortium Target IDs HX6481, HR2873, and OR2 P03502 P03502 2.3 X-RAY DIFFRACTION 110 1.0 96 96 3rt3-a1-m1-cC_3rt3-a1-m2-cC 3sdl-a1-m1-cA_3sdl-a1-m1-cB 6jh1-a1-m1-cB_6jh1-a1-m1-cA TTQIEVGPGATNATINFEAGILECYERFSWQRALDYPGQDRLHRLKRKLESRIKTHNKSEPENKRMSLEERKAIGVKMMKVLLFMDPSAGIEGFEP TTQIEVGPGATNATINFEAGILECYERFSWQRALDYPGQDRLHRLKRKLESRIKTHNKSEPENKRMSLEERKAIGVKMMKVLLFMDPSAGIEGFEP 3r68-a2-m1-cA_3r68-a2-m2-cA Molecular Analysis of the PDZ3 domain of PDZK1 Q9JIL4 Q9JIL4 1.3 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 85 85 SPHQPRVVVIKKGSNGYGFYLRAGQKGQIIKDIEPGSPAEAAGLKNNDLVVAVNGKSVEALDHDGVVEMIRKGGDQTTLLVLDKE SPHQPRVVVIKKGSNGYGFYLRAGQKGQIIKDIEPGSPAEAAGLKNNDLVVAVNGKSVEALDHDGVVEMIRKGGDQTTLLVLDKE 3r69-a3-m1-cA_3r69-a3-m1-cB Molecular analysis of the interaction of the HDL-receptor SR-BI with the PDZ3 domain of its adaptor protein PDZK1 Q9JIL4 Q9JIL4 1.499 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 85 87 SPRVVVIKKGSNGYGFYLRAGPGQIIKDIEPGSPAEAAGLKNNDLVVAVNGKSVEALDHDGVVEMIRKGGDQTTLLVLDKQEAKL GSPRVVVIKKGSNGYGFYLRAGPEGQIIKDIEPGSPAEAAGLKNNDLVVAVNGKSVEALDHDGVVEMIRKGGDQTTLLVLDKQEAKL 3r6a-a1-m1-cA_3r6a-a1-m1-cB Crystal structure of an uncharacterized protein (hypothetical protein MM_3218) from Methanosarcina mazei. Q8PS64 Q8PS64 1.76 X-RAY DIFFRACTION 73 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 115 120 KILQILSRLYVADLNPALEFYEELLETPVARFEIPQTGVELAQISTILLIAGSEEALKPFRNTQATFLVDSLDKFKTFLEENGAEIIRGPSKVPTGRNTVRHSDGSVIEYVEHSK KILQILSRLYVADLNPALEFYEELLETPVARFEIPQTGVELAQISTILLIAGSEEALKPFRNTQATFLVDSLDKFKTFLEENGAEIIRGPSKVPTGRNTVRHSDGSVIEYVEHSKIELYF 3r6a-a2-m1-cA_3r6a-a2-m2-cB Crystal structure of an uncharacterized protein (hypothetical protein MM_3218) from Methanosarcina mazei. Q8PS64 Q8PS64 1.76 X-RAY DIFFRACTION 49 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 115 120 KILQILSRLYVADLNPALEFYEELLETPVARFEIPQTGVELAQISTILLIAGSEEALKPFRNTQATFLVDSLDKFKTFLEENGAEIIRGPSKVPTGRNTVRHSDGSVIEYVEHSK KILQILSRLYVADLNPALEFYEELLETPVARFEIPQTGVELAQISTILLIAGSEEALKPFRNTQATFLVDSLDKFKTFLEENGAEIIRGPSKVPTGRNTVRHSDGSVIEYVEHSKIELYF 3r6f-a1-m1-cA_3r6f-a1-m2-cA Crystal structure of a zinc-containing HIT family protein from Encephalitozoon cuniculi Q8SRE4 Q8SRE4 1.85 X-RAY DIFFRACTION 169 1.0 284813 (Encephalitozoon cuniculi GB-M1) 284813 (Encephalitozoon cuniculi GB-M1) 130 130 EGCIFCTLYRKGANIIYETDRLFALIDRYPLSKGHFLVIPKAHHPYLHNYKPEELSGVLDTIRHLVQKFGFERYNILQNNGNHQEVFHVHFHVIPFVSADERLMINWKAKSVSDKEYSEMVEEARLRVSS EGCIFCTLYRKGANIIYETDRLFALIDRYPLSKGHFLVIPKAHHPYLHNYKPEELSGVLDTIRHLVQKFGFERYNILQNNGNHQEVFHVHFHVIPFVSADERLMINWKAKSVSDKEYSEMVEEARLRVSS 3r6h-a1-m2-cA_3r6h-a1-m3-cA Crystal structure of an enoyl-CoA hydratase (ECHA3) from Mycobacterium marinum B2HSG1 B2HSG1 1.75 X-RAY DIFFRACTION 70 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 225 225 3r6h-a1-m1-cA_3r6h-a1-m2-cA 3r6h-a1-m1-cA_3r6h-a1-m3-cA 6c7c-a1-m1-cB_6c7c-a1-m1-cA 6c7c-a1-m1-cB_6c7c-a1-m1-cC 6c7c-a1-m1-cC_6c7c-a1-m1-cA GPVTYTHDDAIGVIRMDDGKVNVLGPTMQQALNEAIDAADRDNVGALVIAGNHRVFSGGFDLKVLTAKPAIDMLRGGFELSYRLLSYPKPVVIACTGHAIAMGAFLLCSGDHRVAAHAYNVQANEVAIGMTIPYAAMEVLKLRLTPSAYQQAAGLAKTFFGETALAAGFIDEISLPEVVLSRAEEAAREFAGLNQQAHNATKLRARAEALKAIRAGIDGIEAEFG GPVTYTHDDAIGVIRMDDGKVNVLGPTMQQALNEAIDAADRDNVGALVIAGNHRVFSGGFDLKVLTAKPAIDMLRGGFELSYRLLSYPKPVVIACTGHAIAMGAFLLCSGDHRVAAHAYNVQANEVAIGMTIPYAAMEVLKLRLTPSAYQQAAGLAKTFFGETALAAGFIDEISLPEVVLSRAEEAAREFAGLNQQAHNATKLRARAEALKAIRAGIDGIEAEFG 3r6k-a1-m1-cA_3r6k-a1-m2-cA Crystal Structure of the Capsid P Domain from Norwalk Virus Strain Hiroshima/1999 in complex with HBGA type B (triglycan) Q54AD6 Q54AD6 1.6 X-RAY DIFFRACTION 134 1.0 95340 (Norwalk-like virus) 95340 (Norwalk-like virus) 301 301 3r6j-a1-m1-cA_3r6j-a1-m2-cA KPFTLPILTIGELTNSRFPVPIDELYTSPNESLVVQPQNGRCALDGELQGTTQLLPTAICSFRGRINQKVSGENHVWNMQVTNINGTPFDPTEDVPAPLGTPDFSGKLFGVLSQRDHDNACRSHDAVIATNSAKFTPKLGAIQIGTWEEDDVHINQPTKFTPVGLFEDGGFNQWTLPNYSGALTLNMGLAPPVAPTFPGEQILFFRSHIPLKGGVADPVIDCLLPQEWIQHLYQESAPSQSDVALIRFTNPDTGRVLFEAKLHRSGYITVANTGSRPIVVPANGYFRFDSWVNQFYSLAPM KPFTLPILTIGELTNSRFPVPIDELYTSPNESLVVQPQNGRCALDGELQGTTQLLPTAICSFRGRINQKVSGENHVWNMQVTNINGTPFDPTEDVPAPLGTPDFSGKLFGVLSQRDHDNACRSHDAVIATNSAKFTPKLGAIQIGTWEEDDVHINQPTKFTPVGLFEDGGFNQWTLPNYSGALTLNMGLAPPVAPTFPGEQILFFRSHIPLKGGVADPVIDCLLPQEWIQHLYQESAPSQSDVALIRFTNPDTGRVLFEAKLHRSGYITVANTGSRPIVVPANGYFRFDSWVNQFYSLAPM 3r6m-a2-m1-cB_3r6m-a2-m1-cC Crystal structure of Vibrio parahaemolyticus YeaZ Q87RD1 Q87RD1 3.1 X-RAY DIFFRACTION 72 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 212 212 3r6m-a1-m1-cA_3r6m-a1-m1-cD AKILAIDTATENCSVALLVNDQVISRSEVAPRDHTKKVLPMVDEVLKEAGLTLQDLDALAFGRGPGSFTGVRIGIGIAQGLAFGAELPMIGVSTLAAMAQASYRLHGATDVAVAIDARMSEVYWARYSRQENGEWIGVDEECVIPPARLAEEAQADSKTWTTAGTGWSAYQEELAGLPFNTADSEVLYPDSQDIVILAKQELEKGNTVPVEE AKILAIDTATENCSVALLVNDQVISRSEVAPRDHTKKVLPMVDEVLKEAGLTLQDLDALAFGRGPGSFTGVRIGIGIAQGLAFGAELPMIGVSTLAAMAQASYRLHGATDVAVAIDARMSEVYWARYSRQENGEWIGVDEECVIPPARLAEEAQADSKTWTTAGTGWSAYQEELAGLPFNTADSEVLYPDSQDIVILAKQELEKGNTVPVEE 3r6o-a1-m1-cA_3r6o-a1-m2-cA Crystal structure of a probable 2-hydroxyhepta-2,4-diene-1, 7-dioateisomerase from Mycobacterium abscessus B1MJ53 B1MJ53 1.95 X-RAY DIFFRACTION 77 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 265 265 MNLRIVSFAWQPGVLIDDDTVAPLAPMSARELIALLPQISPLISDELVPLDSVALGAPIPEPGQVIALGFNYPTHDPVVFMKSPTSISGPRDAVIAPRTSHALDYEIEIAVVIGKPGYRIERSQAIKHVAGYMLANDITARDVALPFGQAQVVRGKGYPTFCPTGPWLFTTGSDTTFETFDFELRINGELRQSGSTVDMTLGFAEVVETVSATIALRAGDIILTGTPGGCGFQFDPPRYLRPGDVIEAHSAKLGKMRLPVHDEKP MNLRIVSFAWQPGVLIDDDTVAPLAPMSARELIALLPQISPLISDELVPLDSVALGAPIPEPGQVIALGFNYPTHDPVVFMKSPTSISGPRDAVIAPRTSHALDYEIEIAVVIGKPGYRIERSQAIKHVAGYMLANDITARDVALPFGQAQVVRGKGYPTFCPTGPWLFTTGSDTTFETFDFELRINGELRQSGSTVDMTLGFAEVVETVSATIALRAGDIILTGTPGGCGFQFDPPRYLRPGDVIEAHSAKLGKMRLPVHDEKP 3r6p-a2-m1-cA_3r6p-a2-m2-cA Crystal structure of abscisic acid-bound PYL10 Q8H1R0 Q8H1R0 2.7 X-RAY DIFFRACTION 34 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 154 154 SQCSSTLVKHIKAPLHLVWSIVRRFDEPQKYKPFISRCVVQGKKLEVGSVREVDLKSGLPATKSTEVLEILDDNEHILGIRIVGGDHRLKNYSSTISLHSETIDGKTGTLAIESFVVDVPEGNTKEETCFFVEALIQCNLNSLADVTERLQAES SQCSSTLVKHIKAPLHLVWSIVRRFDEPQKYKPFISRCVVQGKKLEVGSVREVDLKSGLPATKSTEVLEILDDNEHILGIRIVGGDHRLKNYSSTISLHSETIDGKTGTLAIESFVVDVPEGNTKEETCFFVEALIQCNLNSLADVTERLQAES 3r6q-a2-m1-cG_3r6q-a2-m1-cH A triclinic-lattice structure of aspartase from Bacillus sp. YM55-1 Q9LCC6 Q9LCC6 2.4 X-RAY DIFFRACTION 251 1.0 96471 (Bacillus sp. YM55-1) 96471 (Bacillus sp. YM55-1) 462 462 1j3u-a1-m1-cA_1j3u-a1-m1-cB 1j3u-a1-m2-cA_1j3u-a1-m2-cB 3r6q-a1-m1-cA_3r6q-a1-m1-cB 3r6q-a1-m1-cC_3r6q-a1-m1-cD 3r6q-a2-m1-cE_3r6q-a2-m1-cF 3r6v-a1-m1-cA_3r6v-a1-m1-cB 3r6v-a1-m1-cD_3r6v-a1-m1-cC 3r6v-a2-m1-cE_3r6v-a2-m1-cF 3r6v-a2-m1-cH_3r6v-a2-m1-cG 3r6y-a1-m1-cA_3r6y-a1-m1-cB 3r6y-a1-m1-cC_3r6y-a1-m1-cD 3r6y-a2-m1-cF_3r6y-a2-m1-cE 3r6y-a2-m1-cG_3r6y-a2-m1-cH VRIEKDFLGEKEIPKDAYYGVQTIRATENFPITGYRIHPELIKSLGIVKKSAALANMEVGLLDKEVGQYIVKAADEVIEGKWNDQFIVDPIQGGAGTSINMNANEVIANRALELMGEEKGNYSKISPNSHVNMSQSTNDAFPTATHIAVLSLLNQLIETTKYMQQEFMKKADEFAGVIKMGRTHLQDAVPILLGQEFEAYARVIARDIERIANTRNNLYDINMGATAVGTGLNADPEYISIVTEHLAKFSGHPLRSAQHLVDATQNTDCYTEVSSALKVCMINMSKIANDLRLMASGPRAGLSEIVLPARQPGSSIMPGKVNPVMPEVMNQVAFQVFGNDLTITSASEAGQFELNVMEPVLFFNLIQSISIMTNVFKSFTENCLKGIKANEERMKEYVEKSIGIITAINPHVGYETAAKLAREAYLTGESIRELCIKYGVLTEEQLNEILNPYEMIHPGIAG VRIEKDFLGEKEIPKDAYYGVQTIRATENFPITGYRIHPELIKSLGIVKKSAALANMEVGLLDKEVGQYIVKAADEVIEGKWNDQFIVDPIQGGAGTSINMNANEVIANRALELMGEEKGNYSKISPNSHVNMSQSTNDAFPTATHIAVLSLLNQLIETTKYMQQEFMKKADEFAGVIKMGRTHLQDAVPILLGQEFEAYARVIARDIERIANTRNNLYDINMGATAVGTGLNADPEYISIVTEHLAKFSGHPLRSAQHLVDATQNTDCYTEVSSALKVCMINMSKIANDLRLMASGPRAGLSEIVLPARQPGSSIMPGKVNPVMPEVMNQVAFQVFGNDLTITSASEAGQFELNVMEPVLFFNLIQSISIMTNVFKSFTENCLKGIKANEERMKEYVEKSIGIITAINPHVGYETAAKLAREAYLTGESIRELCIKYGVLTEEQLNEILNPYEMIHPGIAG 3r6q-a2-m1-cH_3r6q-a2-m1-cF A triclinic-lattice structure of aspartase from Bacillus sp. YM55-1 Q9LCC6 Q9LCC6 2.4 X-RAY DIFFRACTION 135 1.0 96471 (Bacillus sp. YM55-1) 96471 (Bacillus sp. YM55-1) 462 463 1j3u-a1-m1-cA_1j3u-a1-m2-cB 1j3u-a1-m1-cB_1j3u-a1-m2-cA 3r6q-a1-m1-cA_3r6q-a1-m1-cC 3r6q-a1-m1-cB_3r6q-a1-m1-cD 3r6q-a2-m1-cE_3r6q-a2-m1-cG 3r6v-a1-m1-cA_3r6v-a1-m1-cC 3r6v-a1-m1-cD_3r6v-a1-m1-cB 3r6v-a2-m1-cE_3r6v-a2-m1-cG 3r6v-a2-m1-cH_3r6v-a2-m1-cF 3r6y-a1-m1-cB_3r6y-a1-m1-cD 3r6y-a1-m1-cC_3r6y-a1-m1-cA 3r6y-a2-m1-cF_3r6y-a2-m1-cH 3r6y-a2-m1-cG_3r6y-a2-m1-cE VRIEKDFLGEKEIPKDAYYGVQTIRATENFPITGYRIHPELIKSLGIVKKSAALANMEVGLLDKEVGQYIVKAADEVIEGKWNDQFIVDPIQGGAGTSINMNANEVIANRALELMGEEKGNYSKISPNSHVNMSQSTNDAFPTATHIAVLSLLNQLIETTKYMQQEFMKKADEFAGVIKMGRTHLQDAVPILLGQEFEAYARVIARDIERIANTRNNLYDINMGATAVGTGLNADPEYISIVTEHLAKFSGHPLRSAQHLVDATQNTDCYTEVSSALKVCMINMSKIANDLRLMASGPRAGLSEIVLPARQPGSSIMPGKVNPVMPEVMNQVAFQVFGNDLTITSASEAGQFELNVMEPVLFFNLIQSISIMTNVFKSFTENCLKGIKANEERMKEYVEKSIGIITAINPHVGYETAAKLAREAYLTGESIRELCIKYGVLTEEQLNEILNPYEMIHPGIAG DVRIEKDFLGEKEIPKDAYYGVQTIRATENFPITGYRIHPELIKSLGIVKKSAALANMEVGLLDKEVGQYIVKAADEVIEGKWNDQFIVDPIQGGAGTSINMNANEVIANRALELMGEEKGNYSKISPNSHVNMSQSTNDAFPTATHIAVLSLLNQLIETTKYMQQEFMKKADEFAGVIKMGRTHLQDAVPILLGQEFEAYARVIARDIERIANTRNNLYDINMGATAVGTGLNADPEYISIVTEHLAKFSGHPLRSAQHLVDATQNTDCYTEVSSALKVCMINMSKIANDLRLMASGPRAGLSEIVLPARQPGSSIMPGKVNPVMPEVMNQVAFQVFGNDLTITSASEAGQFELNVMEPVLFFNLIQSISIMTNVFKSFTENCLKGIKANEERMKEYVEKSIGIITAINPHVGYETAAKLAREAYLTGESIRELCIKYGVLTEEQLNEILNPYEMIHPGIAG 3r6w-a1-m2-cB_3r6w-a1-m2-cA paAzoR1 binding to nitrofurazone Q9I5F3 Q9I5F3 2.085 X-RAY DIFFRACTION 108 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 197 211 2v9c-a1-m1-cB_2v9c-a1-m1-cA 3keg-a1-m1-cA_3keg-a1-m1-cB 3keg-a2-m1-cA_3keg-a2-m1-cB 3keg-a2-m2-cA_3keg-a2-m2-cB 3lt5-a1-m1-cB_3lt5-a1-m1-cA 3lt5-a1-m2-cB_3lt5-a1-m2-cA 3r6w-a1-m1-cB_3r6w-a1-m1-cA 4n65-a1-m1-cB_4n65-a1-m1-cA 4n9q-a1-m1-cB_4n9q-a1-m1-cA SRILAVHASPRGERSQSRRLAEVFLAAYREAHPQARVARREVGRVPLPAVTEAFVAAAFHPQPEQRSLAMQADLALSDQLVGELFDSDLLVISTPMYNFSVPSGLKAWIDQIVRLGVTFDFVAQYRPLLRGKRALIVTSRGGHGFGPGGENQAMNHADPWLRTALGFIGIDEVTVVAAEGEDSCDEAEQRLLALARS MSRILAVHASPRGERSQSRRLAEVFLAAYREAHPQARVARREVGRVPLPAVTEAFVAAAFHPQPEQRSLAMQADLALSDQLVGELFDSDLLVISTPMYNFSVPSGLKAWIDQIVRLGVTFDFVLDNVAQYRPLLRGKRALIVTSRGGHGFGPGGENQAMNHADPWLRTALGFIGIDEVTVVAAEGEESGGRSFEDSCDEAEQRLLALARSA 3r6y-a2-m1-cG_3r6y-a2-m1-cF Crystal structure of chymotrypsin-treated aspartase from Bacillus sp. YM55-1 Q9LCC6 Q9LCC6 3 X-RAY DIFFRACTION 187 0.997 96471 (Bacillus sp. YM55-1) 96471 (Bacillus sp. YM55-1) 384 390 1j3u-a1-m1-cA_1j3u-a1-m2-cA 1j3u-a1-m1-cB_1j3u-a1-m2-cB 3r6q-a1-m1-cA_3r6q-a1-m1-cD 3r6q-a1-m1-cB_3r6q-a1-m1-cC 3r6q-a2-m1-cE_3r6q-a2-m1-cH 3r6q-a2-m1-cG_3r6q-a2-m1-cF 3r6v-a1-m1-cA_3r6v-a1-m1-cD 3r6v-a1-m1-cB_3r6v-a1-m1-cC 3r6v-a2-m1-cE_3r6v-a2-m1-cH 3r6v-a2-m1-cF_3r6v-a2-m1-cG 3r6y-a1-m1-cA_3r6y-a1-m1-cD 3r6y-a1-m1-cC_3r6y-a1-m1-cB 3r6y-a2-m1-cH_3r6y-a2-m1-cE VRIEKDFLGEKEIPKDAYYGVQTIRATENFPITGYRIHPELIKSLGIVKKSAALANMEVGLLDKEVGQYIVKAADEVIEGKWNDQFIVDPIQGGAGTSINMNANEVIANRALELMGEEKGNYSKISPNSHVNMSQSTNDAFPTATHIAVLSLLNQLIETTKYMQQEFMKKADEFAGVIKMGRTHLQDAVPILLGQEFEAYARVIARDIERIANTRNNLYDINMGATAVGTGLNADPEYISIVTEHLAKFSGHPLRSAQHLVDATQNTDCYTEVSSALKVCMINMSKIANDLRLMASGPRAGLSEIVLPARQPGVNPVMPEVMNQVAFQVFGNDLTITSASEAGQFELNVMEPVLFFNLIQSISIMTNVFKSFTENCLKGIKANE VRIEKDFLGEKEIPKDAYYGVQTIRATENFPITGYRIHPELIKSLGIVKKSAALANMEVGLLDKEVGQYIVKAADEVIEGKWNDQFIVDPIQGGAGTSINMNANEVIANRALELMGEEKGNYSKISPNSHVNMSQSTNDAFPTATHIAVLSLLNQLIETTKYMQQEFMKKADEFAGVIKMGRTHLQDAVPILLGQEFEAYARVIARDIERIANTRNNLYDINMGATAVGTGLNADPEYISIVTEHLAKFSGHPLRSAQHLVDATQNTDCYTEVSSALKVCMINMSKIANDLRLMASGPRAGLSEIVLPARQPGSSIMPGKVNPVMPEVMNQVAFQVFGNDLTITSASEAGQFELNVMEPVLFFNLIQSISIMTNVFKSFTENCLKGIKAN 3r74-a1-m1-cB_3r74-a1-m1-cA Crystal structure of 2-amino-2-desoxyisochorismate synthase (ADIC) synthase PhzE from Burkholderia lata 383 Q396C7 Q396C7 2.9 X-RAY DIFFRACTION 246 0.99 616 617 RNLFDRVLHGQAPCFALIARSTAMIDVFAGAVSYPSSLAELPLAAPTATGADRQELLVMVPYRQLHERGFKTHDDGAPLVAITCDEHETVSAQLALAAIPDADTALGERHFDIDDEAYAEIVERVITDEIGTGAGSNFVIKRTLEGDLDDYSPAKALAVFKRLMRREVGAYWIFVIHTGERTFVGATPERHLTLHEGCATMNPISGTYRYPQSGPTIDGINAFLGDRKESDELYMVLDEELKMMARICPAGGQVTGPHLREMARLAHTEYFIVGHTEADVRDLLRETMFAPTVTGSPIESATRVIARHERAGRGYYSGIAALIGRDARGGRTLDSAILIRTAEIDRAGHVRIGVGSTLVRHSDAVSEVMETHAKVAALSNAFDPPEAGPALGQHPSVQAALRERNEGIADFWFRPYGGRQAELSGCRALIVDAEDHFTAMIAQQLSSLGLATEVCGVHDAVDLARYDVVVMGPGPGDPSDAGDPRIARLYAWLRHLIDEGKPFMAVCLSHQILNAILGIPLVRREVPNQGIQVEIDLFGQRERVGFYNTYVAQTVRDEMDVDGVGTVAISRDPRTGEVHALRGPTFSSMQFHAESVLTVDGPRILGEAITHAIRRE NRNLFDRVLHGQAPCFALIARSTGSAGERAMIDVFAGAVSYPSSLAELPLAAPTATGADRQELLVMVPYRQLHERGFKTHDDGAPLVAITCDEHETVSAQLALAAIPDADTALGERHFDIDDEAYAEIVERVITDEIGTGAGSNFVIKRTLEGDLDDYSPAKALAVFKRLMRREVGAYWIFVIHTGERTFVGATPERHLTLHEGCATMNPISGTYRYPQSGPTIDGINAFLGDRKESDELYMVLDEELKMMARICPAGGQVTGPHLREMARLAHTEYFIVGHTEADVRDLLRETMFAPTVTGSPIESATRVIARHERAGRGYYSGIAALIGRDARGGRTLDSAILIRTAEIDRAGHVRIGVGSTLVRHSDAVSEVMETHAKVAALSNAFDPPEAGPALGQHPSVQAALRERNEGIADFWFRPYAELSGCRALIVDAEDHFTAMIAQQLSSLGLATEVCGVHDAVDLARYDVVVMGPGPGDPSDAGDPRIARLYAWLRHLIDEGKPFMAVCLSHQILNAILGIPLVRREVPNQGIQVEIDLFGQRERVGFYNTYVAQTVRDEMDVDGVGTVAISRDPRTGEVHALRGPTFSSMQFHAESVLTVDGPRILGEAITHAIR 3r75-a1-m1-cA_3r75-a1-m1-cB Crystal structure of 2-amino-2-desoxyisochorismate synthase (ADIC) synthase PhzE from Burkholderia lata 383 in complex with benzoate, pyruvate, glutamine and contaminating Zn2+ Q396C7 Q396C7 2.1 X-RAY DIFFRACTION 289 1.0 615 621 3r76-a1-m1-cA_3r76-a1-m1-cB RNLFDRVLHGQAPCFALIARSRAMIDVFAGAVSYPSSLAELPLAAPTATGADRQELLVMVPYRQLHERGFKTHDDGAPLVAITCDEHETVSAQLALAAIPDADTALGERHFDIDDEAYAEIVERVITDEIGTGAGSNFVIKRTLEGDLDDYSPAKALAVFKRLMRREVGAYWIFVIHTGERTFVGATPERHLTLHEGCATMNPISGTYRYPQSGPTIDGINAFLGDRKESDELYMVLDEELKMMARICPAGGQVTGPHLREMARLAHTEYFIVGHTEADVRDLLRETMFAPTVTGSPIESATRVIARHERAGRGYYSGIAALIGRDARGGRTLDSAILIRTAEIDRAGHVRIGVGSTLVRHSDAVSEVMETHAKVAALSNAFDPPEAGPALGQHPSVQAALRERNEGIADFWFRPYGGRAELSGCRALIVDAEDHFTAMIAQQLSSLGLATEVCGVHDAVDLARYDVVVMGPGPGDPSDAGDPRIARLYAWLRHLIDEGKPFMAVLSHQILNAILGIPLVRREVPNQGIQVEIDLFGQRERVGFYNTYVAQTVRDEMDVDGVGTVAISRDPRTGEVHALRGPTFSSMQFHAESVLTVDGPRILGEAITHAIRREK RNLFDRVLHGQAPCFALIARSTGSAGERAMIDVFAGAVSYPSSLAELPLAAPTATGADRQELLVMVPYRQLHERGFKTHDDGAPLVAITCDEHETVSAQLALAAIPDADTALGERHFDIDDEAYAEIVERVITDEIGTGAGSNFVIKRTLEGDLDDYSPAKALAVFKRLMRREVGAYWIFVIHTGERTFVGATPERHLTLHEGCATMNPISGTYRYPQSGPTIDGINAFLGDRKESDELYMVLDEELKMMARICPAGGQVTGPHLREMARLAHTEYFIVGHTEADVRDLLRETMFAPTVTGSPIESATRVIARHERAGRGYYSGIAALIGRDARGGRTLDSAILIRTAEIDRAGHVRIGVGSTLVRHSDAVSEVMETHAKVAALSNAFDPPEAGPALGQHPSVQAALRERNEGIADFWFRPYGGRAELSGCRALIVDAEDHFTAMIAQQLSSLGLATEVCGVHDAVDLARYDVVVMGPGPGDPSDAGDPRIARLYAWLRHLIDEGKPFMAVLSHQILNAILGIPLVRREVPNQGIQVEIDLFGQRERVGFYNTYVAQTVRDEMDVDGVGTVAISRDPRTGEVHALRGPTFSSMQFHAESVLTVDGPRILGEAITHAIRREK 3r77-a1-m1-cA_3r77-a1-m1-cB Crystal structure of the D38A mutant of isochorismatase PhzD from Pseudomonas fluorescens 2-79 in complex with 2-amino-2-desoxyisochorismate ADIC Q51790 Q51790 1.9 X-RAY DIFFRACTION 64 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 205 206 TGIPSIVPYALPTSRDLPANLAQWHIDPERAVLLVHAMQRYFLRPLPDALRDQVVGNAARIRQWAADNGVPVAYTAQPGSMNEEQRGLLKDFWGPGMKASPTDREVVDALAPQPGDWLLTKWRYSAFFNSDLLQRLHASGRDQLILCGVYAHVGVLISSVDAYSNDIQPFLVADAIADFSKEHHWMAMEYAASRCAMVITTDEVV MTGIPSIVPYALPTSRDLPANLAQWHIDPERAVLLVHAMQRYFLRPLPDALRDQVVGNAARIRQWAADNGVPVAYTAQPGSMNEEQRGLLKDFWGPGMKASPTDREVVDALAPQPGDWLLTKWRYSAFFNSDLLQRLHASGRDQLILCGVYAHVGVLISSVDAYSNDIQPFLVADAIADFSKEHHWMAMEYAASRCAMVITTDEVV 3r79-a3-m1-cB_3r79-a3-m2-cA Crystal structure of an uncharactertized protein from Agrobacterium tumefaciens A9CHE9 A9CHE9 1.9 X-RAY DIFFRACTION 41 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 218 224 EIEARLEDVRQRIADVAEKSGRKAADVALVAVSKTFDAEAIQPVIDAGQRVFGENRVQEAQGKWPALKEKTSDIELHLIGPLQSNKAADAVALFDVVESIDREKIARALSEECARQGRSLRFYVQVNTGLQKAGIDPRETVAFVAFCRDELKLPVEGLCIPPAENPGPHFALLAKLAGQCGLEKLSGSGDFETAVEFGATSVRVGSAIFGSRAENLYF EIEARLEDVRQRIADVAEKSGRKAADVALVAVSKTFDAEAIQPVIDAGQRVFGENRVQEAQGKWPALKEKTSDIELHLIGPLQSNKAADAVALFDVVESIDREKIARALSEECARQGRSLRFYVQVNTGLEPQKAGIDPRETVAFVAFCRDELKLPVEGLCIPPAEENPGPHFALLAKLAGQCGLEKLSGSGDFETAVEFGATSVRVGSAIFGSRAENLYFQSH 3r7c-a3-m1-cA_3r7c-a3-m1-cB The structure of a hexahestidine-tagged form of augmenter of liver regeneration reveals a novel Cd(2)Cl(4)O(6) cluster that aids in crystal packing Q63042 Q63042 2.4 X-RAY DIFFRACTION 27 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 111 111 3r7c-a2-m1-cA_3r7c-a2-m1-cB DCPQDREELGRNTWAFLHTLAAYYPDMPTPEQQQDMAQFIHIFSKFYPCEECAEDIRKRIDRSQPDTSTRVSFSQWLCRLHNEVNRKLGKPDFDCSRVDERWRDGWKDGSC DCPQDREELGRNTWAFLHTLAAYYPDMPTPEQQQDMAQFIHIFSKFYPCEECAEDIRKRIDRSQPDTSTRVSFSQWLCRLHNEVNRKLGKPDFDCSRVDERWRDGWKDGSC 3r7c-a3-m1-cA_3r7c-a3-m1-cC The structure of a hexahestidine-tagged form of augmenter of liver regeneration reveals a novel Cd(2)Cl(4)O(6) cluster that aids in crystal packing Q63042 Q63042 2.4 X-RAY DIFFRACTION 93 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 111 111 1oqc-a1-m1-cA_1oqc-a1-m1-cC 1oqc-a2-m1-cB_1oqc-a2-m1-cD 3r7c-a1-m1-cA_3r7c-a1-m1-cC 3r7c-a2-m1-cB_3r7c-a2-m1-cD 3r7c-a3-m1-cB_3r7c-a3-m1-cD DCPQDREELGRNTWAFLHTLAAYYPDMPTPEQQQDMAQFIHIFSKFYPCEECAEDIRKRIDRSQPDTSTRVSFSQWLCRLHNEVNRKLGKPDFDCSRVDERWRDGWKDGSC DCPQDREELGRNTWAFLHTLAAYYPDMPTPEQQQDMAQFIHIFSKFYPCEECAEDIRKRIDRSQPDTSTRVSFSQWLCRLHNEVNRKLGKPDFDCSRVDERWRDGWKDGSC 3r7k-a1-m1-cD_3r7k-a1-m1-cB Crystal structure of a probable acyl CoA dehydrogenase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MPB5 B1MPB5 2.5 X-RAY DIFFRACTION 72 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 376 378 3r7k-a1-m1-cC_3r7k-a1-m1-cA AWTTPERRALSQMARSFVEREIAPKLAEWEHVGEIPRDLHLNAAEVGLLGIGFPEEVGGSGGNAIDSALVTEAILAAGGSTGVCAALFTHGIALPHIAANGSDALIERYVRPTLAGKMIGSLGVTEPGAGSDVANLRTRAVREGDTYVVNGAKTFITSGVRADFVTTAVRTGGPGYGGVSLLVIDKNSPGFEVSRRLDKMGWRCSDTAELSFVDVRVPADNLVGAENSGFLQIMQQFQAERLGIAVQAYATAGRALDLAKSWARERETFGRPLTGRQIIRHKLAEMARQVDVACTYTRAVMQRWLAGEDVVAEVSMAKNTAVYACDYVVNEAVQIFGGMGYMRESEIERHYRDCRILGIGGGTNEIMNEVIAKRIG PEAWTTPERRALSQMARSFVEREIAPKLAEWEHVGEIPRDLHLNAAEVGLLGIGFPEEVGGSGGNAIDSALVTEAILAAGGSTGVCAALFTHGIALPHIAANGSDALIERYVRPTLAGKMIGSLGVTEPGAGSDVANLRTRAVREGDTYVVNGAKTFITSGVRADFVTTAVRTGGPGYGGVSLLVIDKNSPGFEVSRRLDKMGWRCSDTAELSFVDVRVPADNLVGAENSGFLQIMQQFQAERLGIAVQAYATAGRALDLAKSWARERETFGRPLTGRQIIRHKLAEMARQVDVACTYTRAVMQRWLAGEDVVAEVSMAKNTAVYACDYVVNEAVQIFGGMGYMRESEIERHYRDCRILGIGGGTNEIMNEVIAKRIG 3r7k-a1-m1-cD_3r7k-a1-m1-cC Crystal structure of a probable acyl CoA dehydrogenase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MPB5 B1MPB5 2.5 X-RAY DIFFRACTION 87 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 376 377 3r7k-a1-m1-cA_3r7k-a1-m1-cB AWTTPERRALSQMARSFVEREIAPKLAEWEHVGEIPRDLHLNAAEVGLLGIGFPEEVGGSGGNAIDSALVTEAILAAGGSTGVCAALFTHGIALPHIAANGSDALIERYVRPTLAGKMIGSLGVTEPGAGSDVANLRTRAVREGDTYVVNGAKTFITSGVRADFVTTAVRTGGPGYGGVSLLVIDKNSPGFEVSRRLDKMGWRCSDTAELSFVDVRVPADNLVGAENSGFLQIMQQFQAERLGIAVQAYATAGRALDLAKSWARERETFGRPLTGRQIIRHKLAEMARQVDVACTYTRAVMQRWLAGEDVVAEVSMAKNTAVYACDYVVNEAVQIFGGMGYMRESEIERHYRDCRILGIGGGTNEIMNEVIAKRIG AWTTPERRALSQMARSFVEREIAPKLAEWEHVGEIPRDLHLNAAEVGLLGIGFPEEVGGSGGNAIDSALVTEAILAAGGSTGVCAALFTHGIALPHIAANGSDALIERYVRPTLAGKMIGSLGVTEPGAGSDVANLRTRAVREGDTYVVNGAKTFITSGVRADFVTTAVRTGGPGYGGVSLLVIDKNSPGFEVSRRLDKMGWRCSDTAELSFVDVRVPADNLVGAENSGFLQIMQQFQAERLGIAVQAYATAGRALDLAKSWARERETFGRPLTGRQIIRHKLAEMARQVDVACTYTRAVMQRWLAGEDVVAEVSMAKNTAVYACDYVVNEAVQIFGGMGYMRESEIERHYRDCRILGIGGGTNEIMNEVIAKRIGL 3r7l-a1-m1-cA_3r7l-a1-m1-cC Crystal Structure of PALA-bound Aspartate Transcarbamoylase from Bacillus subtilis P05654 P05654 2.585 X-RAY DIFFRACTION 70 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 290 290 2at2-a1-m1-cA_2at2-a1-m1-cB 2at2-a1-m1-cA_2at2-a1-m1-cC 2at2-a1-m1-cB_2at2-a1-m1-cC 3r7d-a1-m1-cA_3r7d-a1-m1-cB 3r7d-a1-m1-cA_3r7d-a1-m1-cC 3r7d-a1-m1-cB_3r7d-a1-m1-cC 3r7f-a1-m1-cA_3r7f-a1-m1-cB 3r7f-a1-m1-cA_3r7f-a1-m1-cC 3r7f-a1-m1-cB_3r7f-a1-m1-cC 3r7l-a1-m1-cA_3r7l-a1-m1-cB 3r7l-a1-m1-cB_3r7l-a1-m1-cC 3r7l-a2-m1-cD_3r7l-a2-m1-cE 3r7l-a2-m1-cD_3r7l-a2-m1-cF 3r7l-a2-m1-cE_3r7l-a2-m1-cF MKHLTTMSELSTEEIKDLLQTAQELKSGKTDNQLTGKFAANLFFEPSTRTRFSFEVAEKKLGMNVLNLDGTSTSVQKGETLYDTIRTLESIGVDVCVIRHSEDEYYEELVSQVNIPILNAGDGCGQHPTQSLLDLMTIYEEFNTFKGLTVSIHGDIKHSRVARSNAEVLTRLGARVLFSGPSEWQDEENTFGTYVSMDEAVESSDVVMLLRIQNERHQSAVSQEGYLNKYGLTVERAERMKRHAIIMHPAPVNRGVEIDDSLVESEKSRIFKQMKNGVFIRMAVIQRALQ MKHLTTMSELSTEEIKDLLQTAQELKSGKTDNQLTGKFAANLFFEPSTRTRFSFEVAEKKLGMNVLNLDGTSTSVQKGETLYDTIRTLESIGVDVCVIRHSEDEYYEELVSQVNIPILNAGDGCGQHPTQSLLDLMTIYEEFNTFKGLTVSIHGDIKHSRVARSNAEVLTRLGARVLFSGPSEWQDEENTFGTYVSMDEAVESSDVVMLLRIQNERHQSAVSQEGYLNKYGLTVERAERMKRHAIIMHPAPVNRGVEIDDSLVESEKSRIFKQMKNGVFIRMAVIQRALQ 3r7t-a1-m1-cA_3r7t-a1-m4-cA Crystal Structure of Adenylosuccinate Synthetase from Campylobacter jejuni Q9PMG4 Q9PMG4 2.3 X-RAY DIFFRACTION 43 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 399 399 3r7t-a1-m2-cA_3r7t-a1-m3-cA SKADIIVGIQWGDEGKGKVVDKLCENYDFVCRSAGGHNAGHTIWVNGVRYALHLPSGVLHPRCINIIGNGVVVSPEVLIAEAQFENLKGRLYISDRAHLNLKHHSLIDIAKEKLKGKGIGPSYADKINRTGHRVGELLEPQRLCEALIKDFEANKTFFELEIEIPSAEELLADLKRFNEILTPYITDTTRLWKALDEDKRVLLEGAQGSLDIDHGTYPYVTSSSTISAGTLTGLGLNPKEAGNIIGIVKAYATRVGNGAFPTEDKGEDGEKIAQIGKEIGVSTGRKRRCGWFDAVAVRYTARLNGLDALSLKLDVLDGFEKIKICRAYEYKGEIDYIPSDLENVQPIYEEDGWDKVFGIKDYDLLPENAKKYIARLEELAGVKVKYISTSPERDDTIIL SKADIIVGIQWGDEGKGKVVDKLCENYDFVCRSAGGHNAGHTIWVNGVRYALHLPSGVLHPRCINIIGNGVVVSPEVLIAEAQFENLKGRLYISDRAHLNLKHHSLIDIAKEKLKGKGIGPSYADKINRTGHRVGELLEPQRLCEALIKDFEANKTFFELEIEIPSAEELLADLKRFNEILTPYITDTTRLWKALDEDKRVLLEGAQGSLDIDHGTYPYVTSSSTISAGTLTGLGLNPKEAGNIIGIVKAYATRVGNGAFPTEDKGEDGEKIAQIGKEIGVSTGRKRRCGWFDAVAVRYTARLNGLDALSLKLDVLDGFEKIKICRAYEYKGEIDYIPSDLENVQPIYEEDGWDKVFGIKDYDLLPENAKKYIARLEELAGVKVKYISTSPERDDTIIL 3r7t-a1-m2-cA_3r7t-a1-m4-cA Crystal Structure of Adenylosuccinate Synthetase from Campylobacter jejuni Q9PMG4 Q9PMG4 2.3 X-RAY DIFFRACTION 50 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 399 399 3r7t-a1-m1-cA_3r7t-a1-m3-cA SKADIIVGIQWGDEGKGKVVDKLCENYDFVCRSAGGHNAGHTIWVNGVRYALHLPSGVLHPRCINIIGNGVVVSPEVLIAEAQFENLKGRLYISDRAHLNLKHHSLIDIAKEKLKGKGIGPSYADKINRTGHRVGELLEPQRLCEALIKDFEANKTFFELEIEIPSAEELLADLKRFNEILTPYITDTTRLWKALDEDKRVLLEGAQGSLDIDHGTYPYVTSSSTISAGTLTGLGLNPKEAGNIIGIVKAYATRVGNGAFPTEDKGEDGEKIAQIGKEIGVSTGRKRRCGWFDAVAVRYTARLNGLDALSLKLDVLDGFEKIKICRAYEYKGEIDYIPSDLENVQPIYEEDGWDKVFGIKDYDLLPENAKKYIARLEELAGVKVKYISTSPERDDTIIL SKADIIVGIQWGDEGKGKVVDKLCENYDFVCRSAGGHNAGHTIWVNGVRYALHLPSGVLHPRCINIIGNGVVVSPEVLIAEAQFENLKGRLYISDRAHLNLKHHSLIDIAKEKLKGKGIGPSYADKINRTGHRVGELLEPQRLCEALIKDFEANKTFFELEIEIPSAEELLADLKRFNEILTPYITDTTRLWKALDEDKRVLLEGAQGSLDIDHGTYPYVTSSSTISAGTLTGLGLNPKEAGNIIGIVKAYATRVGNGAFPTEDKGEDGEKIAQIGKEIGVSTGRKRRCGWFDAVAVRYTARLNGLDALSLKLDVLDGFEKIKICRAYEYKGEIDYIPSDLENVQPIYEEDGWDKVFGIKDYDLLPENAKKYIARLEELAGVKVKYISTSPERDDTIIL 3r84-a19-m1-cC_3r84-a19-m1-cA Structure of the Mediator head subcomplex Med11/22 Q99278 Q99278 2.05 X-RAY DIFFRACTION 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 79 80 3r84-a13-m1-cC_3r84-a13-m1-cA 3r84-a14-m1-cE_3r84-a14-m1-cG 3r84-a15-m1-cI_3r84-a15-m1-cK 3r84-a16-m1-cO_3r84-a16-m1-cM 3r84-a17-m1-cQ_3r84-a17-m1-cS 3r84-a18-m1-cW_3r84-a18-m1-cU 3r84-a19-m1-cE_3r84-a19-m1-cG 3r84-a19-m1-cI_3r84-a19-m1-cK 3r84-a19-m1-cO_3r84-a19-m1-cM 3r84-a19-m1-cQ_3r84-a19-m1-cS 3r84-a19-m1-cW_3r84-a19-m1-cU GYIQERLKSLNDIETQLCSLQEASQVTFIFGELKRGNESVKPQFENHVKQFYERLDKSTTQLRKEIQLLDENVGTRLLP GYIQERLKSLNDIETQLCSLQEASQVTFIFGELKRGNESVKPQFENHVKQFYERLDKSTTQLRKEIQLLDENVGTRLLPI 3r84-a19-m1-cF_3r84-a19-m1-cD Structure of the Mediator head subcomplex Med11/22 P32570 P32570 2.05 X-RAY DIFFRACTION 21 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 74 75 3r84-a19-m1-cD_3r84-a19-m1-cV 3r84-a19-m1-cF_3r84-a19-m1-cJ 3r84-a19-m1-cH_3r84-a19-m1-cB 3r84-a19-m1-cH_3r84-a19-m1-cL 3r84-a19-m1-cJ_3r84-a19-m1-cN 3r84-a19-m1-cN_3r84-a19-m1-cR 3r84-a19-m1-cP_3r84-a19-m1-cL 3r84-a19-m1-cP_3r84-a19-m1-cT 3r84-a19-m1-cR_3r84-a19-m1-cV 3r84-a19-m1-cX_3r84-a19-m1-cB 3r84-a19-m1-cX_3r84-a19-m1-cT SNQALYEKLEQTRTILSVKLAELINITTIADAQENSELAVATTSVVNNQTQLIKNVQDLLILTRSIKEKWLLNQ SNQALYEKLEQTRTILSVKLAELINITTIADAQENSELAVATTSVVNNQTQLIKNVQDLLILTRSIKEKWLLNQI 3r84-a19-m1-cF_3r84-a19-m1-cH Structure of the Mediator head subcomplex Med11/22 P32570 P32570 2.05 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 74 75 3r84-a13-m1-cD_3r84-a13-m1-cB 3r84-a14-m1-cF_3r84-a14-m1-cH 3r84-a15-m1-cJ_3r84-a15-m1-cL 3r84-a16-m1-cP_3r84-a16-m1-cN 3r84-a17-m1-cR_3r84-a17-m1-cT 3r84-a18-m1-cX_3r84-a18-m1-cV 3r84-a19-m1-cD_3r84-a19-m1-cB 3r84-a19-m1-cJ_3r84-a19-m1-cL 3r84-a19-m1-cP_3r84-a19-m1-cN 3r84-a19-m1-cR_3r84-a19-m1-cT 3r84-a19-m1-cX_3r84-a19-m1-cV SNQALYEKLEQTRTILSVKLAELINITTIADAQENSELAVATTSVVNNQTQLIKNVQDLLILTRSIKEKWLLNQ SNQALYEKLEQTRTILSVKLAELINITTIADAQENSELAVATTSVVNNQTQLIKNVQDLLILTRSIKEKWLLNQI 3r84-a19-m1-cL_3r84-a19-m1-cN Structure of the Mediator head subcomplex Med11/22 P32570 P32570 2.05 X-RAY DIFFRACTION 38 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 76 76 3r84-a19-m1-cD_3r84-a19-m1-cX 3r84-a19-m1-cF_3r84-a19-m1-cB 3r84-a19-m1-cH_3r84-a19-m1-cJ 3r84-a19-m1-cP_3r84-a19-m1-cR 3r84-a19-m1-cT_3r84-a19-m1-cV SNQALYEKLEQTRTILSVKLAELINITTIADAQENSELAVATTSVVNNQTQLIKNVQDLLILTRSIKEKWLLNQIP SNQALYEKLEQTRTILSVKLAELINITTIADAQENSELAVATTSVVNNQTQLIKNVQDLLILTRSIKEKWLLNQIP 3r87-a1-m1-cA_3r87-a1-m4-cA Crystal Structure of Orf6 protein from Photobacterium profundum Q93CG9 Q93CG9 1.05 X-RAY DIFFRACTION 44 1.0 74109 (Photobacterium profundum) 74109 (Photobacterium profundum) 132 132 3r87-a1-m2-cA_3r87-a1-m3-cA 4i45-a1-m1-cA_4i45-a1-m4-cA 4i45-a1-m2-cA_4i45-a1-m3-cA MSKIYHHPVQIYYEDTDHSGVVYHPNFLKYFERAREHVIDSDKLATLWNDHGLGFAVYKANMIFQDGVEFAEICDIRTSFTLDGKYKTLWRQEVWRPGASRAAVIGDIEMVCLDKEKRLQPVPADILASMMA MSKIYHHPVQIYYEDTDHSGVVYHPNFLKYFERAREHVIDSDKLATLWNDHGLGFAVYKANMIFQDGVEFAEICDIRTSFTLDGKYKTLWRQEVWRPGASRAAVIGDIEMVCLDKEKRLQPVPADILASMMA 3r87-a1-m2-cA_3r87-a1-m4-cA Crystal Structure of Orf6 protein from Photobacterium profundum Q93CG9 Q93CG9 1.05 X-RAY DIFFRACTION 57 1.0 74109 (Photobacterium profundum) 74109 (Photobacterium profundum) 132 132 3r87-a1-m1-cA_3r87-a1-m3-cA 4i45-a1-m1-cA_4i45-a1-m3-cA 4i45-a1-m2-cA_4i45-a1-m4-cA MSKIYHHPVQIYYEDTDHSGVVYHPNFLKYFERAREHVIDSDKLATLWNDHGLGFAVYKANMIFQDGVEFAEICDIRTSFTLDGKYKTLWRQEVWRPGASRAAVIGDIEMVCLDKEKRLQPVPADILASMMA MSKIYHHPVQIYYEDTDHSGVVYHPNFLKYFERAREHVIDSDKLATLWNDHGLGFAVYKANMIFQDGVEFAEICDIRTSFTLDGKYKTLWRQEVWRPGASRAAVIGDIEMVCLDKEKRLQPVPADILASMMA 3r87-a1-m3-cA_3r87-a1-m4-cA Crystal Structure of Orf6 protein from Photobacterium profundum Q93CG9 Q93CG9 1.05 X-RAY DIFFRACTION 30 1.0 74109 (Photobacterium profundum) 74109 (Photobacterium profundum) 132 132 3r87-a1-m1-cA_3r87-a1-m2-cA 4i45-a1-m1-cA_4i45-a1-m2-cA 4i45-a1-m3-cA_4i45-a1-m4-cA MSKIYHHPVQIYYEDTDHSGVVYHPNFLKYFERAREHVIDSDKLATLWNDHGLGFAVYKANMIFQDGVEFAEICDIRTSFTLDGKYKTLWRQEVWRPGASRAAVIGDIEMVCLDKEKRLQPVPADILASMMA MSKIYHHPVQIYYEDTDHSGVVYHPNFLKYFERAREHVIDSDKLATLWNDHGLGFAVYKANMIFQDGVEFAEICDIRTSFTLDGKYKTLWRQEVWRPGASRAAVIGDIEMVCLDKEKRLQPVPADILASMMA 3r89-a1-m1-cA_3r89-a1-m1-cB Crystal structure of orotidine 5-phosphate decarboxylase from Anaerococcus prevotii DSM 20548 C7RH50 C7RH50 1.844 X-RAY DIFFRACTION 132 1.0 525919 (Anaerococcus prevotii DSM 20548) 525919 (Anaerococcus prevotii DSM 20548) 280 280 SNAKIIDKLYEKVSKNGFVCIGLDSSIDYIPENKAGKSVSEALFSYNKEIIDQTYDVCAIYKLQIAYYESYGIEGIAYRDTLSYLREKDLLSIGDVKRSDIAASAKYAKAHFEGDFETDFITLNPYGDSIEPYEEYIEKGDKGVFVLLRTSNPGAKDFEVLPVDGEEFFYKVGDKRELNEKYIGKSGFGPIGLVVGATHSEEVEKIRKRYDKFFLIPGFGAQKADSNVYKLLEGLNGGVVNSSRAILKNWQNYEDGSEKVGYYARKKAIETYEEIKANEV SNAKIIDKLYEKVSKNGFVCIGLDSSIDYIPENKAGKSVSEALFSYNKEIIDQTYDVCAIYKLQIAYYESYGIEGIAYRDTLSYLREKDLLSIGDVKRSDIAASAKYAKAHFEGDFETDFITLNPYGDSIEPYEEYIEKGDKGVFVLLRTSNPGAKDFEVLPVDGEEFFYKVGDKRELNEKYIGKSGFGPIGLVVGATHSEEVEKIRKRYDKFFLIPGFGAQKADSNVYKLLEGLNGGVVNSSRAILKNWQNYEDGSEKVGYYARKKAIETYEEIKANEV 3r8c-a1-m1-cA_3r8c-a1-m1-cB Crystal structure of cytidylate kinase (Cmk) from Mycobacterium abscessus B1MB31 B1MB31 2.2 X-RAY DIFFRACTION 59 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 198 205 4die-a2-m1-cD_4die-a2-m1-cC SMVVAVDGPSGTGKSSVAKELARQLGASYLDTGAMYRIVTLWVLRAGVDLTDPAAIAAATDQVPMSVSSDPDAQTALLAGEDVSVPIRGNEVTGAVSAVSAVPAVRERLVRQQRELAESSGAVVVEGRDIGTVVLPDADVKIYLTASAQARAQRRNLADVQRRDHLPLRPAEDALEVDTSDMTQEQVVAHLLDLVRTR SMVVAVDGPSGTGKSSVAKELARQLGASYLDTGAMYRIVTLWVLRAGVDLTDPAAIAAATDQVPMSVSSDPDAQTALLAGEDVSVPIRGNEVTGAVSAVSAVPAVRERLVRQQRELAESSGAVVVEGRDIGTVVLPDADVKIYLTASAQARAQRRNLADVQRRDHLDSTRAVSPLRPAEDALEVDTSDMTQEQVVAHLLDLVRTR 3r8e-a1-m1-cA_3r8e-a1-m2-cA Crystal structure of a putative sugar kinase (CHU_1875) from Cytophaga hutchinsonii ATCC 33406 at 1.65 A resolution 1.65 X-RAY DIFFRACTION 85 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 290 290 GILGIDVGGTSVKFGLVTPEGEIQNATRFTADWVNGIGFVESKLEIGNFLKQYPIVKGVGIGWPGLVSLDRTKVILLPNIPSVVNVPIVEILRSEFPHIHFKIENDAKCAALGEYYFGENKRQTFILLALGTGVGSGVNGKLFIGGRGNGTEVGHLTTRGKSLENQVGINHLIAYTHEQLALDVAKKSSLHTIAELSPKVIADHAAQGDALALAVWADIGTIIGESLVNIVRVDLNNILLGGGISGAFDYFVPNLKKALEHLPTYYTDDYIGKATLENDAGLLGAAGLIE GILGIDVGGTSVKFGLVTPEGEIQNATRFTADWVNGIGFVESKLEIGNFLKQYPIVKGVGIGWPGLVSLDRTKVILLPNIPSVVNVPIVEILRSEFPHIHFKIENDAKCAALGEYYFGENKRQTFILLALGTGVGSGVNGKLFIGGRGNGTEVGHLTTRGKSLENQVGINHLIAYTHEQLALDVAKKSSLHTIAELSPKVIADHAAQGDALALAVWADIGTIIGESLVNIVRVDLNNILLGGGISGAFDYFVPNLKKALEHLPTYYTDDYIGKATLENDAGLLGAAGLIE 3r8f-a1-m1-cC_3r8f-a1-m1-cD Replication initiator DnaA bound to AMPPCP and single-stranded DNA O66659 O66659 3.366 X-RAY DIFFRACTION 75 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 319 319 2hcb-a1-m1-cA_2hcb-a1-m1-cB 2hcb-a1-m1-cC_2hcb-a1-m1-cB 2hcb-a1-m1-cC_2hcb-a1-m1-cD 3r8f-a1-m1-cA_3r8f-a1-m1-cB 3r8f-a1-m1-cB_3r8f-a1-m1-cC DFLNPKYTLENFIVGEGNRLAYEVVKEALENLGSLYNPIFIYGSVGTGKTHLLQAAGNEAKKRGYRVIYSSADDFAQAMVEHLKKGTINEFRNMYKSVDLLLLDDVQFLSGKERTQIEFFHIFNTLYLLEKQIILASDRHPQKLDGVSDRLVSRFEGGILVEIELDNKTRFKIIKEKLKEFNLELRKEVIDYLLENTKNVREIEGKIKLIKLKGFEGLERKERKERDKLMQIVEFVANYYAVKVEDILSDKNKRTSEARKIAMYLCRKVCSASLIEIARAFKRKDHTTVIHAIRSVEEEKRKFKHLVGFLEKQAFDKIC DFLNPKYTLENFIVGEGNRLAYEVVKEALENLGSLYNPIFIYGSVGTGKTHLLQAAGNEAKKRGYRVIYSSADDFAQAMVEHLKKGTINEFRNMYKSVDLLLLDDVQFLSGKERTQIEFFHIFNTLYLLEKQIILASDRHPQKLDGVSDRLVSRFEGGILVEIELDNKTRFKIIKEKLKEFNLELRKEVIDYLLENTKNVREIEGKIKLIKLKGFEGLERKERKERDKLMQIVEFVANYYAVKVEDILSDKNKRTSEARKIAMYLCRKVCSASLIEIARAFKRKDHTTVIHAIRSVEEEKRKFKHLVGFLEKQAFDKIC 3r8r-a2-m1-cN_3r8r-a2-m1-cW Transaldolase from Bacillus subtilis P19669 P19669 1.9 X-RAY DIFFRACTION 13 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 202 212 3r8r-a1-m1-cC_3r8r-a1-m1-cH 3r8r-a1-m1-cD_3r8r-a1-m1-cG 3r8r-a1-m1-cE_3r8r-a1-m1-cF 3r8r-a1-m1-cI_3r8r-a1-m1-cB 3r8r-a1-m1-cJ_3r8r-a1-m1-cA 3r8r-a2-m1-cK_3r8r-a2-m1-cT 3r8r-a2-m1-cL_3r8r-a2-m1-cR 3r8r-a2-m1-cP_3r8r-a2-m1-cM 3r8r-a2-m1-cU_3r8r-a2-m1-cV MLFFVDTANIDEIREANELGILAGVTTNPFHDRLREITDVVKGSVSAEVISLKAEEMIEEGKELAKIAPNITVKIPMTSDGLKAVRALTDLGIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGLDLISEVKQIFDIHGLDTQIIAASIRHPQHVTEAALRGAHIGTMPLKVIHALTKHPLTDKGIEQFLADWNK MLFFVDTANIDEIREANELGILAGVTTNPSLVAKEANVSFHDRLREITDVVKGSVSAEVISLKAEEMIEEGKELAKIAPNITVKIPMTSDGLKAVRALTDLGIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGLDLISEVKQIFDIHGLDTQIIAASIRHPQHVTEAALRGAHIGTMPLKVIHALTKHPLTDKGIEQFLADWNK 3r8r-a2-m1-cU_3r8r-a2-m1-cW Transaldolase from Bacillus subtilis P19669 P19669 1.9 X-RAY DIFFRACTION 98 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 212 212 3r8r-a1-m1-cA_3r8r-a1-m1-cB 3r8r-a1-m1-cA_3r8r-a1-m1-cE 3r8r-a1-m1-cC_3r8r-a1-m1-cB 3r8r-a1-m1-cC_3r8r-a1-m1-cD 3r8r-a1-m1-cD_3r8r-a1-m1-cE 3r8r-a1-m1-cF_3r8r-a1-m1-cG 3r8r-a1-m1-cH_3r8r-a1-m1-cG 3r8r-a1-m1-cI_3r8r-a1-m1-cH 3r8r-a1-m1-cJ_3r8r-a1-m1-cF 3r8r-a1-m1-cJ_3r8r-a1-m1-cI 3r8r-a2-m1-cK_3r8r-a2-m1-cL 3r8r-a2-m1-cK_3r8r-a2-m1-cV 3r8r-a2-m1-cL_3r8r-a2-m1-cM 3r8r-a2-m1-cN_3r8r-a2-m1-cM 3r8r-a2-m1-cN_3r8r-a2-m1-cV 3r8r-a2-m1-cP_3r8r-a2-m1-cR 3r8r-a2-m1-cP_3r8r-a2-m1-cW 3r8r-a2-m1-cR_3r8r-a2-m1-cT 3r8r-a2-m1-cT_3r8r-a2-m1-cU MLFFVDTANIDEIREANELGILAGVTTNPSLVAKEANVSFHDRLREITDVVKGSVSAEVISLKAEEMIEEGKELAKIAPNITVKIPMTSDGLKAVRALTDLGIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGLDLISEVKQIFDIHGLDTQIIAASIRHPQHVTEAALRGAHIGTMPLKVIHALTKHPLTDKGIEQFLADWNK MLFFVDTANIDEIREANELGILAGVTTNPSLVAKEANVSFHDRLREITDVVKGSVSAEVISLKAEEMIEEGKELAKIAPNITVKIPMTSDGLKAVRALTDLGIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGLDLISEVKQIFDIHGLDTQIIAASIRHPQHVTEAALRGAHIGTMPLKVIHALTKHPLTDKGIEQFLADWNK 3r8r-a2-m1-cV_3r8r-a2-m1-cW Transaldolase from Bacillus subtilis P19669 P19669 1.9 X-RAY DIFFRACTION 38 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 212 212 3r8r-a1-m1-cA_3r8r-a1-m1-cF 3r8r-a1-m1-cC_3r8r-a1-m1-cI 3r8r-a1-m1-cD_3r8r-a1-m1-cH 3r8r-a1-m1-cE_3r8r-a1-m1-cG 3r8r-a1-m1-cJ_3r8r-a1-m1-cB 3r8r-a2-m1-cK_3r8r-a2-m1-cU 3r8r-a2-m1-cL_3r8r-a2-m1-cT 3r8r-a2-m1-cM_3r8r-a2-m1-cR 3r8r-a2-m1-cN_3r8r-a2-m1-cP MLFFVDTANIDEIREANELGILAGVTTNPSLVAKEANVSFHDRLREITDVVKGSVSAEVISLKAEEMIEEGKELAKIAPNITVKIPMTSDGLKAVRALTDLGIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGLDLISEVKQIFDIHGLDTQIIAASIRHPQHVTEAALRGAHIGTMPLKVIHALTKHPLTDKGIEQFLADWNK MLFFVDTANIDEIREANELGILAGVTTNPSLVAKEANVSFHDRLREITDVVKGSVSAEVISLKAEEMIEEGKELAKIAPNITVKIPMTSDGLKAVRALTDLGIKTNVTLIFNANQALLAARAGATYVSPFLGRLDDIGHNGLDLISEVKQIFDIHGLDTQIIAASIRHPQHVTEAALRGAHIGTMPLKVIHALTKHPLTDKGIEQFLADWNK 3r8x-a2-m1-cA_3r8x-a2-m2-cA Crystal Structure of Methionyl-tRNA Formyltransferase from Yersinia pestis complexed with L-methionine Q8ZJ80 Q8ZJ80 2.256 X-RAY DIFFRACTION 61 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 309 309 AMSDSLRIIFAGTPDFAARHLGALLSSQHKIVGVFTQPDRPLTPSPVKILAEHHGIPVFQPKSLRPEENQHLVADLNADIMVVVAYGLILPAAVLAMPRLGCINVHGSLLPRWRGAAPIQRSVWAGDEKTGITIMQMDIGLDTGAMLHKIECAIQPEDTSATLYDKLAQLGPQGLLITLQQLAAGTALAEVQNETQATYAEKLSKEEAKLDWTLSATQLERCIRAFNPWPVSYFIVDEQPIKVWQAQVLPAGEDAEPGTIIHADKHGIQVATADGVLNITQLQPAGKKAMSAADLLNSRREWFIPGSQL AMSDSLRIIFAGTPDFAARHLGALLSSQHKIVGVFTQPDRPLTPSPVKILAEHHGIPVFQPKSLRPEENQHLVADLNADIMVVVAYGLILPAAVLAMPRLGCINVHGSLLPRWRGAAPIQRSVWAGDEKTGITIMQMDIGLDTGAMLHKIECAIQPEDTSATLYDKLAQLGPQGLLITLQQLAAGTALAEVQNETQATYAEKLSKEEAKLDWTLSATQLERCIRAFNPWPVSYFIVDEQPIKVWQAQVLPAGEDAEPGTIIHADKHGIQVATADGVLNITQLQPAGKKAMSAADLLNSRREWFIPGSQL 3r8y-a2-m1-cF_3r8y-a2-m1-cD Structure of the Bacillus anthracis tetrahydropicolinate succinyltransferase Q81MQ2 Q81MQ2 1.7 X-RAY DIFFRACTION 113 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 202 203 3r8y-a1-m1-cA_3r8y-a1-m1-cB 3r8y-a1-m1-cC_3r8y-a1-m1-cA 3r8y-a1-m1-cC_3r8y-a1-m1-cB 3r8y-a2-m1-cD_3r8y-a2-m1-cE 3r8y-a2-m1-cF_3r8y-a2-m1-cE EKKTPVKVYIKGDLKEVTFPETVQAFVNKKSGVLFGEWSEIKTILDENSKYIVDYVVENDRRNSAIPMLDLKGIKARIEPGAIIRDHVEIGDNAVIMMNATINIGAVIGEGSMIDMNAVLGGRATVGKNCHVGAGAVLAGVIEPPSAKPVIVEDDVVIGANVVVLEGVTVGKGAVVAAGAVVTEDVPPYTVVAGTPARVIKE EKKTPVKVYIKGDLKEVTFPETVQAFVNKKSGVLFGEWSEIKTILDENSKYIVDYVVENDRRNSAIPMLDLKGIKARIEPGAIIRDHVEIGDNAVIMMNATINIGAVIGEGSMIDMNAVLGGRATVGKNCHVGAGAVLAGVIEPPSAKPVIVEDDVVIGANVVVLEGVTVGKGAVVAAGAVVTEDVPPYTVVAGTPARVIKEI 3r90-a1-m1-cF_3r90-a1-m1-cA Crystal structure of Malignant T cell-amplified sequence 1 protein Q9ULC4 Q9ULC4 1.7 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 185 3r90-a1-m1-cA_3r90-a1-m1-cB 3r90-a1-m1-cB_3r90-a1-m1-cC 3r90-a1-m1-cD_3r90-a1-m1-cC 3r90-a1-m1-cD_3r90-a1-m1-cE 3r90-a1-m1-cE_3r90-a1-m1-cF 3r90-a1-m1-cH_3r90-a1-m1-cG 3r90-a1-m1-cH_3r90-a1-m1-cI 3r90-a1-m1-cI_3r90-a1-m1-cJ 3r90-a1-m1-cJ_3r90-a1-m1-cK 3r90-a1-m1-cL_3r90-a1-m1-cG 3r90-a1-m1-cL_3r90-a1-m1-cK MFKKFDEKENVSNCIQLKTSVIKGIKNQLIEQFPGIEPWLNQIMPKKDPVKIVRCHEHIEILTVNGELLFFRQREGPFYPTLRLLHKYPFILPHQQVDKGAIKFVLSGANIMCPGLTSPGAKLYPAAVDTIVAIMAAGAAHALCVGVMKMSAEDIEKVNKGIGIENIHYLNDGLWHMKTYK MFKKFDEKENVSNCIQLKTSVIKGIKNQLIEQFPGIEPWLNQIMPKKDPVKIVRCHEHIEILTVNGELLFFRQREGPFYPTLRLLHKYPFILPHQQVDKGAIKFVLSGANIMCPGLTSPGAKLYPAAVDTIVAIMAAGAAHALCVGVMKMSAEDIEKVNKGIGIENIHYLNDGLWHMKTYKAHHH 3r90-a1-m1-cH_3r90-a1-m1-cF Crystal structure of Malignant T cell-amplified sequence 1 protein Q9ULC4 Q9ULC4 1.7 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 181 3r90-a1-m1-cC_3r90-a1-m1-cK 3r90-a1-m1-cD_3r90-a1-m1-cJ 3r90-a1-m1-cE_3r90-a1-m1-cI 3r90-a1-m1-cG_3r90-a1-m1-cA 3r90-a1-m1-cL_3r90-a1-m1-cB MFKKFDEKENVSNCIQLKTSVIKGIKNQLIEQFPGIEPWLNQIMPKKDPVKIVRCHEHIEILTVNGELLFFRQREGPFYPTLRLLHKYPFILPHQQVDKGAIKFVLSGANIMCPGLTSPGAKLYPAAVDTIVAIMAAGAAHALCVGVMKMSAEDIEKVNKGIGIENIHYLNDGLWHMKTY MFKKFDEKENVSNCIQLKTSVIKGIKNQLIEQFPGIEPWLNQIMPKKDPVKIVRCHEHIEILTVNGELLFFRQREGPFYPTLRLLHKYPFILPHQQVDKGAIKFVLSGANIMCPGLTSPGAKLYPAAVDTIVAIMAAGAAHALCVGVMKMSAEDIEKVNKGIGIENIHYLNDGLWHMKTYK 3r9j-a3-m1-cA_3r9j-a3-m1-cB 4.3A resolution structure of a MinD-MinE(I24N) protein complex P0AEZ3 P0AEZ3 4.3 X-RAY DIFFRACTION 93 0.992 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 250 3q9l-a1-m1-cA_3q9l-a1-m1-cB 3r9i-a1-m1-cB_3r9i-a1-m1-cA 3r9i-a2-m1-cC_3r9i-a2-m1-cD 3r9j-a1-m1-cA_3r9j-a1-m1-cB 3r9j-a2-m1-cA_3r9j-a2-m1-cB ARIIVVTSGKGGVGKTTSSAAIATGLAQKGKKTVVIDFAIGLRNLDLIMGCERRVVYDFVNVIQGDATLNQALIKDKRTENLYILPASQTRDKDALTREGVAKVLDDLKAMDFEFIVCDSPAGIETGALMALYFADEAIITTNPEVSSVRDSDRILGILASGEEPIKEHLLLTRYNPGRVSRGDMLSMEDVLEILRIKLVGVIPEDQSVLRASNQGEPVILDINADAGKAYADTVERLLGEERPFRFIEE ARIIVVTSGKGGVGKTTSSAAIATGLAQKGKKTVVIDFAIGLRNLDLIMGCERRVVYDFVNVIQGDATLNQALIKDKRTENLYILPASQTRDKDALTREGVAKVLDDLKAMDFEFIVCDSPAGIETGALMALYFADEAIITTNPEVSSVRDSDRILGILASKSEPIKEHLLLTRYNPGRVSRGDMLSMEDVLEILRIKLVGVIPEDQSVLRASNQGEPVILDINADAGKAYADTVERLLGEERPFRFIEE 3r9j-a4-m1-cC_3r9j-a4-m1-cD 4.3A resolution structure of a MinD-MinE(I24N) protein complex P0A734 P0A734 4.3 X-RAY DIFFRACTION 54 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 70 70 3r9j-a1-m1-cC_3r9j-a1-m1-cD NTANIAKERLQNIVAERRRSDAEPHYLPQLRKDILEVICKYVQIDPEMVTVQLEQKDGDISILELNVTLP NTANIAKERLQNIVAERRRSDAEPHYLPQLRKDILEVICKYVQIDPEMVTVQLEQKDGDISILELNVTLP 3r9l-a1-m1-cA_3r9l-a1-m6-cA Crystal structure of nucleoside diphosphate kinase from Giardia lamblia featuring a disordered dinucleotide binding site A8BMG9 A8BMG9 2.65 X-RAY DIFFRACTION 53 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 112 112 3r9l-a1-m2-cA_3r9l-a1-m5-cA 3r9l-a1-m3-cA_3r9l-a1-m4-cA MARERTFLMVKPDGVQRGLVGEIISRFERRGFKLVAMKFFSSGPVCAMVWEGANVVSISRTMMGVTKPAESAPGTIRGDFGIDVGRNIIHGSANLDDAAREIALWFKPEEVA MARERTFLMVKPDGVQRGLVGEIISRFERRGFKLVAMKFFSSGPVCAMVWEGANVVSISRTMMGVTKPAESAPGTIRGDFGIDVGRNIIHGSANLDDAAREIALWFKPEEVA 3r9l-a1-m5-cA_3r9l-a1-m6-cA Crystal structure of nucleoside diphosphate kinase from Giardia lamblia featuring a disordered dinucleotide binding site A8BMG9 A8BMG9 2.65 X-RAY DIFFRACTION 27 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 112 112 3r9l-a1-m1-cA_3r9l-a1-m2-cA 3r9l-a1-m1-cA_3r9l-a1-m3-cA 3r9l-a1-m2-cA_3r9l-a1-m3-cA 3r9l-a1-m4-cA_3r9l-a1-m5-cA 3r9l-a1-m4-cA_3r9l-a1-m6-cA MARERTFLMVKPDGVQRGLVGEIISRFERRGFKLVAMKFFSSGPVCAMVWEGANVVSISRTMMGVTKPAESAPGTIRGDFGIDVGRNIIHGSANLDDAAREIALWFKPEEVA MARERTFLMVKPDGVQRGLVGEIISRFERRGFKLVAMKFFSSGPVCAMVWEGANVVSISRTMMGVTKPAESAPGTIRGDFGIDVGRNIIHGSANLDDAAREIALWFKPEEVA 3r9p-a1-m2-cB_3r9p-a1-m1-cA Crystal structure of AckA from Mycobacterium paratuberculosis ATCC BAA-968 / K-10 Q73T33 Q73T33 1.9 X-RAY DIFFRACTION 261 0.997 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 379 380 3p4i-a1-m1-cA_3p4i-a1-m1-cB 4iz9-a1-m1-cA_4iz9-a1-m2-cA ARRVLVINSGSSSLKFQLVDPEFGVAASTGIVERIGESPVPDHDAALRRAFDMLAGDGVDLNTAGLVAVGHRVVHGGNTFYRPTVLDDAVIARLHELSELAPLHNPPALQGIEVARRLLPDIAHVAVFDTGFFHDLPPAAATYAIDRELADRWQIRRYGFHGTSHRYVSEQAAAFLDRPLRGLKQIVLHLGNGCSASAIAGTRPLDTSMGLTPLEGLVMGTRSGDIDPSIVSYLCHTAGMGVDDVESMLNHRSGVVGLSGVRDFRRLRELIESGDGAAQLAYSVFTHRLRKYIGAYLAVLGHTDVISFTAGIGENDAAVRRDAVSGMEELGIVLDERRNLAGGKGARQISADDSPITVLVVPTNEELAIARDCVRVLGG RRVLVINSGSSSLKFQLVDPEFGVAASTGIVERIGEESSPVPDHDAALRRAFDMLAGDGVDLNTAGLVAVGHRVVHGGNTFYRPTVLDDAVIARLHELSELAPLHNPPALQGIEVARRLLPDIAHVAVFDTGFFHDLPPAAATYAIDRELADRWQIRRYGFHGTSHRYVSEQAAAFLDRPLRGLKQIVLHLGNGCSASAIAGTRPLDTSMGLTPLEGLVMGTRSGDIDPSIVSYLCHTAGMGVDDVESMLNHRSGVVGLSGVRDFRRLRELIESGDGAAQLAYSVFTHRLRKYIGAYLAVLGHTDVISFTAGIGENDAAVRRDAVSGMEELGIVLDERRNLAGGKGARQISADDSPITVLVVPTNEELAIARDCVRVLGG 3r9q-a1-m1-cB_3r9q-a1-m1-cC Structure of a probable enoyl-coa hydratase/isomerase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MGI6 B1MGI6 2.1 X-RAY DIFFRACTION 113 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 240 242 3r9q-a1-m1-cA_3r9q-a1-m1-cB 3r9q-a1-m1-cA_3r9q-a1-m1-cC QPAVRVEKAGPVTTVILNRPHARNAVDGPTAAALLAAFTEFDADPEASVAVLWGDNGTFCAGADLKAMGTDRGNELHPHGPGPMGPSRLRLSKPVIAAISGHAVAGGIELALWCDLRVVEEDAVLGVFCRRWGVPLIDGGTIRLPRLIGHSRAMDLILTGRPVHANEALDIGLVNRVVARGQAREAAETLAAEIAAFPQQCVRADRDSAIAQWGMAEEAALDNEFGSIERVATEALEGAG QPAVRVEKAGPVTTVILNRPHARNAVDGPTAAALLAAFTEFDADPEASVAVLWGDNGTFCAGADLKAMGTDRGNELHPHGPGPMGPSRLRLSKPVIAAISGHAVAGGIELALWCDLRVVEEDAVLGVFCRRWGVPLIDGGTIRLPRLIGHSRAMDLILTGRPVHANEALDIGLVNRVVARGQAREAAETLAAEIAAFPQQCVRADRDSAIAQWGMAEEAALDNEFGSIERVATEALEGAGRF 3r9t-a1-m1-cA_3r9t-a1-m1-cB Structure of EchA1_1 from Mycobacterium paratuberculosis ATCC BAA-968 / K-10 Q73WL5 Q73WL5 1.75 X-RAY DIFFRACTION 105 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 260 262 3r9s-a1-m1-cB_3r9s-a1-m1-cA 3r9s-a1-m1-cB_3r9s-a1-m1-cC 3r9s-a1-m1-cC_3r9s-a1-m1-cA 3r9t-a1-m1-cC_3r9t-a1-m1-cA 3r9t-a1-m1-cC_3r9t-a1-m1-cB APGALAERRGNVMVITINRPEARNAINAAVSIGVGDALEEAQHDPEVRAVVLTGAGDKSFCAGADLKAIARRENLYHPDHPEWGFAGYVRHFIDKPTIAAVNGTALGGGTELALASDLVVADERAQFGLPEVKRGLIAAAGGVFRIAEQLPRKVAMRLLLTGEPLSAAAARDWGLINEVVEAGSVLDAALALASAITVNAPLSVQASKRIAYGVDDGVVVGDEPGWDRTMREMRALLKSEDAKEGPRAFAEKREPVWQAR TDAPGALAERRGNVMVITINRPEARNAINAAVSIGVGDALEEAQHDPEVRAVVLTGAGDKSFCAGADLKAIARRENLYHPDHPEWGFAGYVRHFIDKPTIAAVNGTALGGGTELALASDLVVADERAQFGLPEVKRGLIAAAGGVFRIAEQLPRKVAMRLLLTGEPLSAAAARDWGLINEVVEAGSVLDAALALASAITVNAPLSVQASKRIAYGVDDGVVVGDEPGWDRTMREMRALLKSEDAKEGPRAFAEKREPVWQAR 3r9u-a2-m1-cB_3r9u-a2-m3-cB Thioredoxin-disulfide reductase from Campylobacter jejuni. Q0PBZ1 Q0PBZ1 2.36 X-RAY DIFFRACTION 113 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 302 302 3r9u-a1-m1-cA_3r9u-a1-m2-cA NALDVAIIGGGPAGLSAGLYATRGGLKNVVFEKGPGGQITSSSEIENYPGVAQVDGISFAPWSEQCRFGLKHEVGVEQILKNSDGSFTIKLEGGKTELAKAVIVCTGSAPKKAGFKGEDEFFGKGVSTCATCDGFFYKNKEVAVLGGGDTALEEALYLANICSKIYLIHRRDEFRAAPSTVEKVKKNEKIELITSASVDEVYGDKGVAGVKVKLKDGSIRDLNVPGIFTFVGLNVRNEILKQDDSKFLCNEEGGQVSVDLKQTSVAGLFAAGDLRKDAPKQVICAAGDGAVAALSAAYIESL NALDVAIIGGGPAGLSAGLYATRGGLKNVVFEKGPGGQITSSSEIENYPGVAQVDGISFAPWSEQCRFGLKHEVGVEQILKNSDGSFTIKLEGGKTELAKAVIVCTGSAPKKAGFKGEDEFFGKGVSTCATCDGFFYKNKEVAVLGGGDTALEEALYLANICSKIYLIHRRDEFRAAPSTVEKVKKNEKIELITSASVDEVYGDKGVAGVKVKLKDGSIRDLNVPGIFTFVGLNVRNEILKQDDSKFLCNEEGGQVSVDLKQTSVAGLFAAGDLRKDAPKQVICAAGDGAVAALSAAYIESL 3r9v-a3-m1-cB_3r9v-a3-m1-cA Cocrystal Structure of Proteolytically Truncated Form of IpaD from Shigella flexneri Bound to Deoxycholate P18013 P18013 1.9 X-RAY DIFFRACTION 67 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 163 198 GDQMISHRELWAKIANSINDINEQYLKVYEHAVSSYTQMYQDFSAVLSSLKKALEELKEKYKDKPLYPANNTVSQEQANKWLTELGGTIGKVSQKNGGYVVSINMTPIDNMLKSLDNLGGNGEVWNAGFSAEDETMKNNLQTLVQKYSNANSIFDNLVKVLSS ELDGDQMISHRELWAKIANSINDINEQYLKVYEHAVSSYTQMYQDFSAVLSSLAGWISPGGNDGNSVKLQVNSLKKALEELKEKYKDKPLYPANNTVSQEQANKWLTELGGTIGKVSQKNGGYVVSINMTPIDNMLKSLDNLGGNGEVVLDNAKYQAWNAGFSAEDETMKNNLQTLVQKYSNANSIFDNLVKVLSSTI 3ra5-a1-m1-cA_3ra5-a1-m1-cB Crystal structure of T. celer L30e E6A/R92A variant P29160 P29160 1.8 X-RAY DIFFRACTION 51 1.0 2264 (Thermococcus celer) 2264 (Thermococcus celer) 97 97 MVDFAFALRKAQDTGKIVMGARKSIQYAKMGGAKLIIVARNARPDIKEDIEYYARLSGIPVYEFEGTSVELGTLLGRPHTVSALAVVDPGESAILAL MVDFAFALRKAQDTGKIVMGARKSIQYAKMGGAKLIIVARNARPDIKEDIEYYARLSGIPVYEFEGTSVELGTLLGRPHTVSALAVVDPGESAILAL 3rac-a1-m1-cA_3rac-a1-m2-cA Crystal Structure of Histidine--tRNA ligase subunit from Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446. C8WUX4 C8WUX4 2.301 X-RAY DIFFRACTION 185 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 339 339 AVRGFADRPPGMQDGYPDFAKRRRAVETRLLSFVEDAGYEPVTSGLFEYVDTLLRARSPESSRDWIRLFDGGGDAVALRPEMTPSIARMAAPRVAAGRTPIRWCYCERVYRRTAAESTQVGIERIGEEASVDVDMDVLRLLHEASAAAGVRHHRIVVSHARLVPRLLDALGISASLSRAFLACLTSGNYVQFRELWQLHAAKDVDLLANLLTWSPAERDAAKRSREASDRELEALLRDAVDPRAAADVRDAWRYLCRLAEALHDSGLASDVVTFDLALHRELDYYTGLVFEMFAPGVGAPIAQGGRYDELLAQFGAGAPAVGFAFEVERVMAVLEAQEE AVRGFADRPPGMQDGYPDFAKRRRAVETRLLSFVEDAGYEPVTSGLFEYVDTLLRARSPESSRDWIRLFDGGGDAVALRPEMTPSIARMAAPRVAAGRTPIRWCYCERVYRRTAAESTQVGIERIGEEASVDVDMDVLRLLHEASAAAGVRHHRIVVSHARLVPRLLDALGISASLSRAFLACLTSGNYVQFRELWQLHAAKDVDLLANLLTWSPAERDAAKRSREASDRELEALLRDAVDPRAAADVRDAWRYLCRLAEALHDSGLASDVVTFDLALHRELDYYTGLVFEMFAPGVGAPIAQGGRYDELLAQFGAGAPAVGFAFEVERVMAVLEAQEE 3ram-a1-m1-cA_3ram-a1-m1-cD Crystal structure of HmrA A0A0H3JVA7 A0A0H3JVA7 2.7 X-RAY DIFFRACTION 18 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 385 385 3ram-a1-m1-cB_3ram-a1-m1-cC GEKQQILDYIETNKYSYIEISHRIHERPELGNEEIFASRTLIDRLKEHDFEIETEIAGHATGFIATYDSGLDGPAIGFLAEYDALPGLGHACGHNIIGTASVLGAIGLKQVIDQIGGKVVVLGCPAEEGGENGSAKASYVKAGVIDQIDIALIHPGNETYKTIDTLAVDVLDVKFYGKSAHASENADEALNALDAISYFNGVAQLRQHIKKDQRVHGVILDGGKAANIIPDYTHARFYTRATRKELDILTEKVNQIARGAAIQTGCDYEFGPIQNGVNEFIKTPKLDDLFAKYAEEVGEAVIDDDFGYGSTDTGNVSHVVPTIHPHIKIGSRNLVGHTHRFREAAASVHGDEALIKGAKIALGLELITNQDVYQDIIEEHAHLKG GEKQQILDYIETNKYSYIEISHRIHERPELGNEEIFASRTLIDRLKEHDFEIETEIAGHATGFIATYDSGLDGPAIGFLAEYDALPGLGHACGHNIIGTASVLGAIGLKQVIDQIGGKVVVLGCPAEEGGENGSAKASYVKAGVIDQIDIALIHPGNETYKTIDTLAVDVLDVKFYGKSAHASENADEALNALDAISYFNGVAQLRQHIKKDQRVHGVILDGGKAANIIPDYTHARFYTRATRKELDILTEKVNQIARGAAIQTGCDYEFGPIQNGVNEFIKTPKLDDLFAKYAEEVGEAVIDDDFGYGSTDTGNVSHVVPTIHPHIKIGSRNLVGHTHRFREAAASVHGDEALIKGAKIALGLELITNQDVYQDIIEEHAHLKG 3ram-a1-m1-cB_3ram-a1-m1-cD Crystal structure of HmrA A0A0H3JVA7 A0A0H3JVA7 2.7 X-RAY DIFFRACTION 71 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 384 385 3ram-a1-m1-cC_3ram-a1-m1-cA GEKQQILDYIETNKYSYIEISHRIHERPELGNEEIFASRTLIDRLKEHDFEIETEIAGHATGFIATYDSGLDGPAIGFLAEYDALPGLGHACGHNIIGTASVLGAIGLKQVIDQIGGKVVVLGCPAEEGGENGSAKASYVKAGVIDQIDIALIHPGNETYKTIDTLAVDVLDVKFYGKSAHASENADEALNALDAISYFNGVAQLRQHIKKDQRVHGVILDGGKAANIIPDYTHARFYTRATRKELDILTEKVNQIARGAAIQTGCDYEFGPIQNGVNEFIKTPKLDDLFAKYAEEVGEAVIDDDFGYGSTDTGNVSHVVPTIHPHIKIGSRNLVGHTHRFREAAASVHGDEALIKGAKIALGLELITNQDVYQDIIEEHAHLK GEKQQILDYIETNKYSYIEISHRIHERPELGNEEIFASRTLIDRLKEHDFEIETEIAGHATGFIATYDSGLDGPAIGFLAEYDALPGLGHACGHNIIGTASVLGAIGLKQVIDQIGGKVVVLGCPAEEGGENGSAKASYVKAGVIDQIDIALIHPGNETYKTIDTLAVDVLDVKFYGKSAHASENADEALNALDAISYFNGVAQLRQHIKKDQRVHGVILDGGKAANIIPDYTHARFYTRATRKELDILTEKVNQIARGAAIQTGCDYEFGPIQNGVNEFIKTPKLDDLFAKYAEEVGEAVIDDDFGYGSTDTGNVSHVVPTIHPHIKIGSRNLVGHTHRFREAAASVHGDEALIKGAKIALGLELITNQDVYQDIIEEHAHLKG 3ram-a1-m1-cC_3ram-a1-m1-cD Crystal structure of HmrA A0A0H3JVA7 A0A0H3JVA7 2.7 X-RAY DIFFRACTION 80 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 384 385 3ram-a1-m1-cB_3ram-a1-m1-cA GEKQQILDYIETNKYSYIEISHRIHERPELGNEEIFASRTLIDRLKEHDFEIETEIAGHATGFIATYDSGLDGPAIGFLAEYDALPGLGHACGHNIIGTASVLGAIGLKQVIDQIGGKVVVLGCPAEEGGENGSAKASYVKAGVIDQIDIALIHPGNETYKTIDTLAVDVLDVKFYGKSAHASENADEALNALDAISYFNGVAQLRQHIKKDQRVHGVILDGGKAANIIPDYTHARFYTRATRKELDILTEKVNQIARGAAIQTGCDYEFGPIQNGVNEFIKTPKLDDLFAKYAEEVGEAVIDDDFGYGSTDTGNVSHVVPTIHPHIKIGSRNLVGHTHRFREAAASVHGDEALIKGAKIALGLELITNQDVYQDIIEEHAHLK GEKQQILDYIETNKYSYIEISHRIHERPELGNEEIFASRTLIDRLKEHDFEIETEIAGHATGFIATYDSGLDGPAIGFLAEYDALPGLGHACGHNIIGTASVLGAIGLKQVIDQIGGKVVVLGCPAEEGGENGSAKASYVKAGVIDQIDIALIHPGNETYKTIDTLAVDVLDVKFYGKSAHASENADEALNALDAISYFNGVAQLRQHIKKDQRVHGVILDGGKAANIIPDYTHARFYTRATRKELDILTEKVNQIARGAAIQTGCDYEFGPIQNGVNEFIKTPKLDDLFAKYAEEVGEAVIDDDFGYGSTDTGNVSHVVPTIHPHIKIGSRNLVGHTHRFREAAASVHGDEALIKGAKIALGLELITNQDVYQDIIEEHAHLKG 3rao-a1-m1-cA_3rao-a1-m1-cB Crystal Structure of the Luciferase-like Monooxygenase from Bacillus cereus ATCC 10987. Q73CJ8 Q73CJ8 2.3 X-RAY DIFFRACTION 52 0.997 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 334 342 YFQGVEYGFWLPIFGGWLRNVNDESPPTFEYAKQTAQAAEQLGFSTTLIAELNLNDIKGVSAPSLEAWTTAAALAAVTDRLEITAVRPGFHNPAVTAKAANIDQLSNGRFTLNVVSAWWEEEAKQYGGVFTAHDERYDRTEEFVTILKGLWKEEEFSYKGNFYELHHTHLSPKPVQKQGIKLYAGGESKRGKEVIVNHADAYVHGGTVEEVSVKIEDKNRRKKVTEEPLQSFGLAAYVICRHTEEEALEEWRRITDVKFVSKSQLEQQVKLNDYSVSNRGLRPNLIGTPEQIAERILAFEKVGVTLLLLQFSPQLEEKRFSEKVPLVEAKRKEL FQGVEYGFWLPIFGGWLRNVNDESPPTFEYAKQTAQAAEQLGFSTTLIAELNLNDIKGVSAPSLEAWTTAAALAAVTDRLEITAVRPGFHNPAVTAKAANIDQLSNGRFTLNVVSAWWEEEAKQYGGVFTAHDERYDRTEEFVTILKGLWKEEEFSYKGNFYELHHTHLSPKPVQKQGIKLYAGGESKRGKEVIVNHADAYVHGGTVEEVSVKIEDKNRRKKVTEEPLQSFGLAAYVICRHTEEEALEEWRRITDVKALGYAGYQDFVSKSQLEQQVKLNDYSVSNRGLRPNLIGTPEQIAERILAFEKVGVTLLLLQFSPQLEEKRFSEKVPLVEAKRKEL 3rao-a2-m2-cA_3rao-a2-m1-cB Crystal Structure of the Luciferase-like Monooxygenase from Bacillus cereus ATCC 10987. Q73CJ8 Q73CJ8 2.3 X-RAY DIFFRACTION 144 0.997 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 334 342 YFQGVEYGFWLPIFGGWLRNVNDESPPTFEYAKQTAQAAEQLGFSTTLIAELNLNDIKGVSAPSLEAWTTAAALAAVTDRLEITAVRPGFHNPAVTAKAANIDQLSNGRFTLNVVSAWWEEEAKQYGGVFTAHDERYDRTEEFVTILKGLWKEEEFSYKGNFYELHHTHLSPKPVQKQGIKLYAGGESKRGKEVIVNHADAYVHGGTVEEVSVKIEDKNRRKKVTEEPLQSFGLAAYVICRHTEEEALEEWRRITDVKFVSKSQLEQQVKLNDYSVSNRGLRPNLIGTPEQIAERILAFEKVGVTLLLLQFSPQLEEKRFSEKVPLVEAKRKEL FQGVEYGFWLPIFGGWLRNVNDESPPTFEYAKQTAQAAEQLGFSTTLIAELNLNDIKGVSAPSLEAWTTAAALAAVTDRLEITAVRPGFHNPAVTAKAANIDQLSNGRFTLNVVSAWWEEEAKQYGGVFTAHDERYDRTEEFVTILKGLWKEEEFSYKGNFYELHHTHLSPKPVQKQGIKLYAGGESKRGKEVIVNHADAYVHGGTVEEVSVKIEDKNRRKKVTEEPLQSFGLAAYVICRHTEEEALEEWRRITDVKALGYAGYQDFVSKSQLEQQVKLNDYSVSNRGLRPNLIGTPEQIAERILAFEKVGVTLLLLQFSPQLEEKRFSEKVPLVEAKRKEL 3rap-a1-m1-cR_3rap-a1-m1-cS The small G protein Rap2 in a non catalytic complex with GTP P10114 P10114 2.2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 MREYKVVVLGSGGVGKSALTVQFVTGTFIEKYDPTIEDFYRKEIEVDSSPSVLEILDTAGTEQFASMRDLYIKNGQGFILVYSLVNQQSFQDIKPMRDQIIRVKRYEKVPVILVGNKVDLESEREVSSSEGRALAEEWGCPFMETSAKSKTMVDELFAEIVRQMNYA MREYKVVVLGSGGVGKSALTVQFVTGTFIEKYDPTIEDFYRKEIEVDSSPSVLEILDTAGTEQFASMRDLYIKNGQGFILVYSLVNQQSFQDIKPMRDQIIRVKRYEKVPVILVGNKVDLESEREVSSSEGRALAEEWGCPFMETSAKSKTMVDELFAEIVRQMNYA 3rar-a2-m1-cA_3rar-a2-m2-cA X-ray structure of a bound phosphonate transition state analog and enantioselectivity of Candida rugosa lipase toward chiral carboxylic acids P20261 P20261 2.19 X-RAY DIFFRACTION 19 1.0 5481 (Diutina rugosa) 5481 (Diutina rugosa) 534 534 APTATLANGDTITGLNAIINEAFLGIPFAEPPVGNLRFKDPVPYSGSLDGQKFTSYGPSCMQQNPEGTYEENLPKAALDLVMQSKVFEAVSPSSEDCLTINVVRPPGTKAGANLPVMLWIFGGGFEVGGTSTFPPAQMITKSIAMGKPIIHVSVNYRVSSWGFLAGDEIKAEGSANAGLKDQRLGMQWVADNIAAFGGDPTKVTIFGESAGSMSVMCHILWNDGDNTYKGKPLFRAGIMQSGAMVPSDAVDGIYGNEIFDLLASNAGCGSASDKLACLRGVSSDTLEDATNNTPGFLAYSSLRLSYLPRPDGVNITDDMYALVREGKYANIPVIIGDQNDEGTFFGTSSLNVTTDAQAREYFKQSFVHASDAEIDTLMTAYPGDITQGSPFDTGILNALTPQFKRISAVLGDLGFTLARRYFLNHYTGGTKYSFLSKQLSGLPVLGTFHSNDIVFQDYLLGSGSLIYNNAFIAFATDLDPNTAGLLVKWPEYTSSSQSGNNLMMINALGLYTGKDNFRTAGYDALFSNPPSFFV APTATLANGDTITGLNAIINEAFLGIPFAEPPVGNLRFKDPVPYSGSLDGQKFTSYGPSCMQQNPEGTYEENLPKAALDLVMQSKVFEAVSPSSEDCLTINVVRPPGTKAGANLPVMLWIFGGGFEVGGTSTFPPAQMITKSIAMGKPIIHVSVNYRVSSWGFLAGDEIKAEGSANAGLKDQRLGMQWVADNIAAFGGDPTKVTIFGESAGSMSVMCHILWNDGDNTYKGKPLFRAGIMQSGAMVPSDAVDGIYGNEIFDLLASNAGCGSASDKLACLRGVSSDTLEDATNNTPGFLAYSSLRLSYLPRPDGVNITDDMYALVREGKYANIPVIIGDQNDEGTFFGTSSLNVTTDAQAREYFKQSFVHASDAEIDTLMTAYPGDITQGSPFDTGILNALTPQFKRISAVLGDLGFTLARRYFLNHYTGGTKYSFLSKQLSGLPVLGTFHSNDIVFQDYLLGSGSLIYNNAFIAFATDLDPNTAGLLVKWPEYTSSSQSGNNLMMINALGLYTGKDNFRTAGYDALFSNPPSFFV 3rb5-a3-m2-cA_3rb5-a3-m1-cB Crystal structure of calcium binding domain CBD12 of CALX1.1 Q9VDG5 Q9VDG5 2.35 X-RAY DIFFRACTION 24 0.992 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 238 245 IRMYFEPGHYTVMENCGEFEVRVVRRGDISTYASVEYETQDGTASAGTDFVGRKGLLSFPPGVDEQRFRIEVIDDDVFEEDECFYIRLFNPSEGVKLAVPMIATVMILDDDHAGIFAFTDSVFEITESVGRFELKVMRYSGARGTVIVPYWTENDKDYEGARGELVFENNESEKFIDLFDVSFKVHIGEPRLAPDDELAAKIKEVEKKPVQDLTELDRILLLSKPRNGELTTAYVRIR IRMYFEPGHYTVMENCGEFEVRVVRRGDISTYASVEYETQDGTASAGTDFVGRKGLLSFPPGVDEQRFRIEVIDDDVFEEDECFYIRLFNPSEGVKLAVPMIATVMILDDDHAGIFAFTDSVFEITESVGRFELKVMRYSGARGTVIVPYWTENDTATESKDYEGARGELVFENNESEKFIDLFILEEVSFKVHIGEPRLAPDDELAAKIKEVEKKPVQDLTELDRILLLSKPRNGELTTAYVRI 3rb7-a2-m1-cB_3rb7-a2-m1-cE Crystal structure of CBD12 from CALX1.2 Q9VDG5 Q9VDG5 2.9 X-RAY DIFFRACTION 61 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 242 248 3rb7-a1-m1-cG_3rb7-a1-m1-cA IRMYFEPGHYTVMENCGEFEVRVVRRGDISTYASVEYETQDGTASAGTDFVGRKGLLSFPPGVDEQRFRIEVIDDDVFEEDECFYIRLFNPSEGVKLAVPMIATVMILDDDHAGIFAFTDSVFEITESVGRFELKVMRYSGARGTVIVPYWTENDTATESKDYEGARGELVFENNESEKFIDLFIVSFKVHIGEPRLAPDSTHYPKIKEVEKKPVQDLTELDRILLLSKPRNGELTTAYVRI IRMYFEPGHYTVMENCGEFEVRVVRRGDISTYASVEYETQDGTASAGTDFVGRKGLLSFPPGVDEQRFRIEVIDDDVFEEDECFYIRLFNPSEGVKLAVPMIATVMILDDDHAGIFAFTDSVFEITESVGRFELKVMRYSGARGTVIVPYWTENDTATESKDYEGARGELVFENNESEKFIDLFILEESSVSFKVHIGEPRLAPDSTHYPKIKEVEKKPVQDLTELDRILLLSKPRNGELTTAYVRIR 3rbf-a1-m1-cA_3rbf-a1-m1-cB Crystal structure of Human aromatic L-amino acid decarboxylase (AADC) in the apo form P20711 P20711 2.9 X-RAY DIFFRACTION 263 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 443 443 3rbl-a1-m1-cA_3rbl-a1-m1-cB 3rch-a1-m1-cB_3rch-a1-m1-cA MNASEFRRRGKEMVDYVANYMEGIEGRQVYPDVEPGYLRPLIPAAAPQEPDTFEDIINDVEKIIMPGVTHWHSPYFFAYFPTASSYPAMLADMLCGAIGCIASPACTELETVMMDWLGKMLELPKAFLNEKAGEGGGVIQGSASEATLVALLAARTKVIHRLQAASPELTQAAIMEKLVAYSSDQAHSSVERAGLIGGVKLKAIPSDGNFAMRASALQEALERDKAAGLIPFFMVATLGTTTCCSFDNLLEVGPICNKEDIWLHVDAAYAGSAFICPEFRHLLNGVEFADSFNFNPHKWLLVNFDCSAMWVKKRTDLRRFRSLKMWFVFRMYGVKGLQAYIRKHVQLSHEFESLVRQDPRFEICVEVILGLVCFRLKGSNKVNEALLQRINSAKKIHLVPCHLRDKFVLRFAICSRTVESAHVQRAWEHIKELAADVLRAERE MNASEFRRRGKEMVDYVANYMEGIEGRQVYPDVEPGYLRPLIPAAAPQEPDTFEDIINDVEKIIMPGVTHWHSPYFFAYFPTASSYPAMLADMLCGAIGSWAASPACTELETVMMDWLGKMLELPKAFLNEKAGEGGGVIQGSASEATLVALLAARTKVIHRLQAASPELTQAAIMEKLVAYSSDQAHSSVERAGLIGGVKLKAIPSDGNFAMRASALQEALERDKAAGLIPFFMVATLGTTTCCSFDNLLEVGPICNKEDIWLHVDAAYAGSAFICPEFRHLLNGVEFADSFNFNPHKWLLVNFDCSAMWVKKRTDLRFRSLKMWFVFRMYGVKGLQAYIRKHVQLSHEFESLVRQDPRFEICVEVILGLVCFRLKGSNKVNEALLQRINSAKKIHLVPCHLRDKFVLRFAICSRTVESAHVQRAWEHIKELAADVLRAERE 3rbg-a3-m1-cD_3rbg-a3-m3-cD Crystal structure analysis of Class-I MHC restricted T-cell associated molecule O95727 O95727 2.3 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 103 3rbg-a1-m1-cA_3rbg-a1-m1-cC 3rbg-a2-m1-cB_3rbg-a2-m2-cB SLTNHTETITVEEGQTLTLKCVTSLRKNSSLQWLTPSGFTIFLNEYPVLKNSKYQLLHHSANQLSITVPNVTLQDEGVYKCLHYSDSVSTKEVKVIVLATMKG SLTNHTETITVEEGQTLTLKCVTSLRKNSSLQWLTPSGFTIFLNEYPVLKNSKYQLLHHSANQLSITVPNVTLQDEGVYKCLHYSDSVSTKEVKVIVLATMKG 3rbn-a1-m1-cB_3rbn-a1-m1-cA Crystal structure of MutL protein homolog 1 isoform 1 [Homo sapiens] P40692 P40692 2.16 X-RAY DIFFRACTION 48 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 239 256 NLYFQAACTRIINLTSVLSLQEEINEQGHEVLRELHNHSFVGCVNPQWALAQHQTKLYLLNTTKLSEELFYQILIYDFANFGVLRLSEPAPLFDLALALDSPESGWTEEDGPKEGLAEYIVEFLKKKAELADYFSLEIDEEGNLIGLPLLIDNYVPPLEGLPIFILRLATEVNWDEEKECFESLSKECAFYSIRKQYISWKWTVEHIVYKALRSHILPPKHFTEDGNILQLANLPDLYK GRENLYFRKETAACTPRRRIINLTSVLSLQEEINEQGHEVLRELHNHSFVGCVNPQWALAQHQTKLYLLNTTKLSEELFYQILIYDFANFGVLRLSEPAPLFDLALALDSPESGWTEEDGPKEGLAEYIVEFLKKKAELADYFSLEIDEEGNLIGLPLLIDNYVPPLEGLPIFILRLATEVNWDEEKECFESLSKECAFYSIRKQYISEESTLSNSWKWTVEHIVYKALRSHILPPKHFTEDGNILQLANLPDLYK 3rbt-a4-m1-cD_3rbt-a4-m5-cD Crystal structure of glutathione S-transferase Omega 3 from the silkworm Bombyx mori Q1HPV9 Q1HPV9 2.2 X-RAY DIFFRACTION 50 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 242 242 3rbt-a1-m1-cA_3rbt-a1-m2-cA 3rbt-a2-m3-cC_3rbt-a2-m1-cB 3rbt-a3-m1-cC_3rbt-a3-m4-cB HHGTYFHSVNAGVIPPPALTDKLRLYHVDMNPYGHRVLLVLEAKRIKYEVYRLDPLRLPEWFRAKNPRLKIPVLEIPTDQGDRFLFESVVICDYLDEKYTRHTLHSHDPYVKAQDRLLIERFNELIKGSLECFDTNFAFGSEQIIQTLEIFEKELTNRGTNYFGGNRPGMLDYMVWPWVERLYLLRCVNDRKFVEKKSLFPNFADWGDQMQLDDIVKKHAHSPQEYFDYYKNARAHSMGYYL HHGTYFHSVNAGVIPPPALTDKLRLYHVDMNPYGHRVLLVLEAKRIKYEVYRLDPLRLPEWFRAKNPRLKIPVLEIPTDQGDRFLFESVVICDYLDEKYTRHTLHSHDPYVKAQDRLLIERFNELIKGSLECFDTNFAFGSEQIIQTLEIFEKELTNRGTNYFGGNRPGMLDYMVWPWVERLYLLRCVNDRKFVEKKSLFPNFADWGDQMQLDDIVKKHAHSPQEYFDYYKNARAHSMGYYL 3rby-a1-m1-cA_3rby-a1-m1-cB Crystal structure of uncharacterized protein YLR301w from Saccharomycces cerevisiae Q05905 Q05905 2.301 X-RAY DIFFRACTION 101 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 245 245 HMPALLKRLLFQVGPHPNERTFTLSSVSTDGHYISLRPFVKPSGDELSFPFEWAFAGTNETVKANDQGNGVVTQDFNFWLDTNVYLNVPNTHRGEVNTTWKNWDSGCVEETGAVYPFGADKESVSFREMWQPVDPSREDLVIVSPNNEKFSSNARSIVLKVTDEAYDGLVIVIGRWIQGFLSQKNNNTIEGLNFIRLLEKDSGKSEFLLSYGKEVNKIPQSYENLKKGSTVTSNGLNWEVIEYHA HMPALLKRLLFQVGPHPNERTFTLSSVSTDGHYISLRPFVKPSGDELSFPFEWAFAGTNETVKANDQGNGVVTQDFNFWLDTNVYLNVPNTHRGEVNTTWKNWDSGCVEETGAVYPFGADKESVSFREMWQPVDPSREDLVIVSPNNEKFSSNARSIVLKVTDEAYDGLVIVIGRWIQGFLSQKNNNTIEGLNFIRLLEKDSGKSEFLLSYGKEVNKIPQSYENLKKGSTVTSNGLNWEVIEYHA 3rcc-a2-m1-cH_3rcc-a2-m1-cI Crystal Structure of the Streptococcus agalactiae Sortase A Q8DZY1 Q8DZY1 3.1 X-RAY DIFFRACTION 28 0.992 216466 (Streptococcus agalactiae serogroup V) 216466 (Streptococcus agalactiae serogroup V) 130 131 3rcc-a1-m1-cA_3rcc-a1-m1-cF 3rcc-a1-m1-cB_3rcc-a1-m1-cA 3rcc-a1-m1-cB_3rcc-a1-m1-cC 3rcc-a1-m1-cD_3rcc-a1-m1-cE 3rcc-a1-m1-cF_3rcc-a1-m1-cE 3rcc-a2-m1-cH_3rcc-a2-m1-cG 3rcc-a2-m1-cL_3rcc-a2-m1-cG 3rcc-a2-m1-cL_3rcc-a2-m1-cK 3rcc-a3-m1-cM_3rcc-a3-m1-cN 3rcc-a3-m1-cO_3rcc-a3-m1-cN 3rcc-a3-m1-cO_3rcc-a3-m1-cP 3rcc-a3-m1-cP_3rcc-a3-m1-cQ 3rcc-a3-m1-cR_3rcc-a3-m1-cM 3rcc-a3-m1-cR_3rcc-a3-m1-cQ HNLPVIGGIAIPDVEINLPIFKGLGNTELSYGAGTMKENQIMGGPNNYALASHHVFLFSPLEHAKKGMKVYLTDSKVYTYTITEISKVTPEHVEVIDDTPGKSQLTLVTCTDPEATERIIVHAELEKTGE HNLPVIGGIAIPDVEINLPIFKGLGNTELSYGAGTMKENQIMGGPNNYALASHHVFLFSPLEHAKKGMKVYLTDKSKVYTYTITEISKVTPEHVEVIDDTPGKSQLTLVTCTDPEATRIIVHAELEKTGEF 3rcd-a6-m1-cD_3rcd-a6-m1-cC HER2 Kinase Domain Complexed with TAK-285 P04626 P04626 3.21 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 271 281 3rcd-a5-m1-cB_3rcd-a5-m1-cA ALLRILKETELRKVKVLGSGAFGTVYKGIWIPDGENVKIPVAIKVLRPKANKEILDEAYVMAGVGSPYVSRLLGICLTSTVQLVTQLMPYGCLLDHVRENRGRLGSQDLLNWCMQIAKGMSYLEDVRLVHRDLAARNVLVKSPNHVKITDFGVPIKWMALESILRRRFTHQSDVWSYGVTVWELMTFGAKPYDGIPAREIPDLLEKGERLPQPPICTIDVYMIMVKCWMIDSECRPRFRELVSEFSRMARDPQRFVVIQNLDSTFYRSLLE ALLRILKETELRKVKVLGSGAFGTVYKGIWIPDGENVKIPVAIKVLRPKANKEILDEAYVMAGVGSPYVSRLLGICLTSTVQLVTQLMPYGCLLDHVRENRGRLGSQDLLNWCMQIAKGMSYLEDVRLVHRDLAARNVLVKSPNHVKITDFGLVPIKWMALESILRRRFTHQSDVWSYGVTVWELMTFGAKPYDGIPAREIPDLLEKGERLPQPPICTIDVYMIMVKCWMIDSECRPRFRELVSEFSRMARDPQRFVVIQNLDSTFYRSLLEDDDLVDAEE 3rcn-a1-m1-cA_3rcn-a1-m2-cA Crystal Structure of Beta-N-Acetylhexosaminidase from Arthrobacter aurescens A1RBZ5 A1RBZ5 2.514 X-RAY DIFFRACTION 128 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 517 517 SAFHQLIPAPWSFSAGTGELELDAGTSVGADPELRGPRRWLTRALGGATGWDLAPAPAREAGIRLLLDPSLDAEAYRLEVSDAVVISAGGAAGAFYGAQTLLQLLGPAALRQAPVVAVEGWSVPRVSVEDKPRFGYRGTLDVARHFPKDNVLRFIEVAHKLNVLHLHLTDDQGWRQINRYPKLTETGAWRRESSLGSWRAGVFDGRPHGGFYTQDDLREIVAFAADRHITVIPEIDVPGHSQAAIAAYPELGAGPSPVEVWTRWGINETVLEVSETSLEFYRNVLDEVVEIFPSPWISLGGDEVPLTQWQASAQAQAKAAELGLDDVSGLHSWFVGQLALHLKHHGRATSVWDELPDGALVASWRGYEGGIDALRKGYDVVCPEHKLYLDHRQADGDDEPVPVGFVTTLQAVYEFEPLPGTDFPGRLLGAQANIWSEHLDSPRRVQFAAFPRLSAISEVFWSNPAGRDYDEFLTRLTGAHLARLEAGVEYRPLSGPAPWQQRPGVEGWKRDYDAEQL SAFHQLIPAPWSFSAGTGELELDAGTSVGADPELRGPRRWLTRALGGATGWDLAPAPAREAGIRLLLDPSLDAEAYRLEVSDAVVISAGGAAGAFYGAQTLLQLLGPAALRQAPVVAVEGWSVPRVSVEDKPRFGYRGTLDVARHFPKDNVLRFIEVAHKLNVLHLHLTDDQGWRQINRYPKLTETGAWRRESSLGSWRAGVFDGRPHGGFYTQDDLREIVAFAADRHITVIPEIDVPGHSQAAIAAYPELGAGPSPVEVWTRWGINETVLEVSETSLEFYRNVLDEVVEIFPSPWISLGGDEVPLTQWQASAQAQAKAAELGLDDVSGLHSWFVGQLALHLKHHGRATSVWDELPDGALVASWRGYEGGIDALRKGYDVVCPEHKLYLDHRQADGDDEPVPVGFVTTLQAVYEFEPLPGTDFPGRLLGAQANIWSEHLDSPRRVQFAAFPRLSAISEVFWSNPAGRDYDEFLTRLTGAHLARLEAGVEYRPLSGPAPWQQRPGVEGWKRDYDAEQL 3rco-a1-m16-cA_3rco-a1-m9-cB Crystal structure of a conserved motif in human TDRD7 Q8NHU6 Q8NHU6 1.8 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 78 3rco-a1-m13-cA_3rco-a1-m11-cB 3rco-a1-m14-cA_3rco-a1-m10-cB 3rco-a1-m15-cA_3rco-a1-m12-cB 3rco-a1-m17-cA_3rco-a1-m3-cB 3rco-a1-m18-cA_3rco-a1-m2-cB 3rco-a1-m19-cA_3rco-a1-m4-cB 3rco-a1-m20-cA_3rco-a1-m1-cB 3rco-a1-m21-cA_3rco-a1-m7-cB 3rco-a1-m22-cA_3rco-a1-m6-cB 3rco-a1-m23-cA_3rco-a1-m8-cB 3rco-a1-m24-cA_3rco-a1-m5-cB MLEGDLVSKMLRAVLQSHKNGVALPRLQGEYRSLTGDWIPFKQLGFPTLEAYLRSVPAVVRIETSRSGEITCYAMA GMLEGDLVSKMLRAVLQSHKNGVALPRLQGEYRSLTGDWIPFKQLGFPTLEAYLRSVPAVVRIETSRSGEITCYAMAC 3rco-a2-m12-cB_3rco-a2-m9-cB Crystal structure of a conserved motif in human TDRD7 Q8NHU6 Q8NHU6 1.8 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 78 3rco-a1-m10-cB_3rco-a1-m11-cB 3rco-a1-m12-cB_3rco-a1-m9-cB 3rco-a1-m1-cB_3rco-a1-m4-cB 3rco-a1-m2-cB_3rco-a1-m3-cB 3rco-a1-m5-cB_3rco-a1-m8-cB 3rco-a1-m6-cB_3rco-a1-m7-cB 3rco-a2-m10-cB_3rco-a2-m11-cB 3rco-a2-m1-cB_3rco-a2-m4-cB 3rco-a2-m2-cB_3rco-a2-m3-cB 3rco-a2-m5-cB_3rco-a2-m8-cB 3rco-a2-m6-cB_3rco-a2-m7-cB GMLEGDLVSKMLRAVLQSHKNGVALPRLQGEYRSLTGDWIPFKQLGFPTLEAYLRSVPAVVRIETSRSGEITCYAMAC GMLEGDLVSKMLRAVLQSHKNGVALPRLQGEYRSLTGDWIPFKQLGFPTLEAYLRSVPAVVRIETSRSGEITCYAMAC 3rco-a4-m5-cB_3rco-a4-m9-cB Crystal structure of a conserved motif in human TDRD7 Q8NHU6 Q8NHU6 1.8 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 78 3rco-a1-m10-cB_3rco-a1-m3-cB 3rco-a1-m10-cB_3rco-a1-m8-cB 3rco-a1-m11-cB_3rco-a1-m4-cB 3rco-a1-m11-cB_3rco-a1-m6-cB 3rco-a1-m12-cB_3rco-a1-m2-cB 3rco-a1-m12-cB_3rco-a1-m7-cB 3rco-a1-m13-cA_3rco-a1-m17-cA 3rco-a1-m13-cA_3rco-a1-m21-cA 3rco-a1-m14-cA_3rco-a1-m19-cA 3rco-a1-m14-cA_3rco-a1-m24-cA 3rco-a1-m15-cA_3rco-a1-m20-cA 3rco-a1-m15-cA_3rco-a1-m22-cA 3rco-a1-m16-cA_3rco-a1-m18-cA 3rco-a1-m16-cA_3rco-a1-m23-cA 3rco-a1-m17-cA_3rco-a1-m21-cA 3rco-a1-m18-cA_3rco-a1-m23-cA 3rco-a1-m19-cA_3rco-a1-m24-cA 3rco-a1-m1-cB_3rco-a1-m5-cB 3rco-a1-m1-cB_3rco-a1-m9-cB 3rco-a1-m20-cA_3rco-a1-m22-cA 3rco-a1-m2-cB_3rco-a1-m7-cB 3rco-a1-m3-cB_3rco-a1-m8-cB 3rco-a1-m4-cB_3rco-a1-m6-cB 3rco-a1-m5-cB_3rco-a1-m9-cB 3rco-a2-m10-cB_3rco-a2-m3-cB 3rco-a2-m10-cB_3rco-a2-m8-cB 3rco-a2-m11-cB_3rco-a2-m4-cB 3rco-a2-m11-cB_3rco-a2-m6-cB 3rco-a2-m12-cB_3rco-a2-m2-cB 3rco-a2-m12-cB_3rco-a2-m7-cB 3rco-a2-m1-cB_3rco-a2-m5-cB 3rco-a2-m1-cB_3rco-a2-m9-cB 3rco-a2-m2-cB_3rco-a2-m7-cB 3rco-a2-m3-cB_3rco-a2-m8-cB 3rco-a2-m4-cB_3rco-a2-m6-cB 3rco-a2-m5-cB_3rco-a2-m9-cB 3rco-a3-m1-cA_3rco-a3-m5-cA 3rco-a3-m1-cA_3rco-a3-m9-cA 3rco-a3-m5-cA_3rco-a3-m9-cA 3rco-a4-m1-cB_3rco-a4-m5-cB 3rco-a4-m1-cB_3rco-a4-m9-cB GMLEGDLVSKMLRAVLQSHKNGVALPRLQGEYRSLTGDWIPFKQLGFPTLEAYLRSVPAVVRIETSRSGEITCYAMAC GMLEGDLVSKMLRAVLQSHKNGVALPRLQGEYRSLTGDWIPFKQLGFPTLEAYLRSVPAVVRIETSRSGEITCYAMAC 3rcp-a2-m1-cA_3rcp-a2-m2-cA Crystal structure of the FAPP1 pleckstrin homology domain Q9HB20 Q9HB20 1.9 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 EGVLYKWTNYLTGWQPRWFVLDNGILSYYDSQDKGSKGSIKAVCEIKVHSADNTRELIIPGEQHFYKAVNAAERQRWLVALGSSKASLTDTRLVPR EGVLYKWTNYLTGWQPRWFVLDNGILSYYDSQDKGSKGSIKAVCEIKVHSADNTRELIIPGEQHFYKAVNAAERQRWLVALGSSKASLTDTRLVPR 3rcy-a1-m1-cB_3rcy-a1-m1-cH CRYSTAL STRUCTURE OF Mandelate racemase/muconate lactonizing enzyme-like protein from Roseovarius sp. TM1035 1.994 X-RAY DIFFRACTION 71 1.0 391613 (Roseovarius sp. TM1035) 391613 (Roseovarius sp. TM1035) 395 395 3rcy-a1-m1-cA_3rcy-a1-m1-cD 3rcy-a1-m1-cE_3rcy-a1-m1-cC 3rcy-a1-m1-cG_3rcy-a1-m1-cF VKLRDLDIIVTAPPAPGWGGRYWILVKLTTDDGITGWGECYAASVGPEAMRAVIEDVFARHMEGENPENIELMFRRVYSSGFTQRPDLTAIGAFSGLEIACWDILGKARGRPVWALLGGKMNPRIRAYTYLYPLPHHPITPFWTSADMAAESAADCVARGYTAVKFDPAGPYTLRGGHMPAMTDISLSVEFCRKIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYSPLWYEEPVPPDNVGAMAQVARAVRIPVATGERLTTKAEFAPVLREGAAAILQPALGRAGGIWEMKKVAAMAEVYNAQMAPHLYAGPVEWAANVHFAASIPNILMCESIETPFHDALIKGSIRVEGGYITPPEAPGLGIEVDEALARANPYHGTGLHLEMQEASCDY VKLRDLDIIVTAPPAPGWGGRYWILVKLTTDDGITGWGECYAASVGPEAMRAVIEDVFARHMEGENPENIELMFRRVYSSGFTQRPDLTAIGAFSGLEIACWDILGKARGRPVWALLGGKMNPRIRAYTYLYPLPHHPITPFWTSADMAAESAADCVARGYTAVKFDPAGPYTLRGGHMPAMTDISLSVEFCRKIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYSPLWYEEPVPPDNVGAMAQVARAVRIPVATGERLTTKAEFAPVLREGAAAILQPALGRAGGIWEMKKVAAMAEVYNAQMAPHLYAGPVEWAANVHFAASIPNILMCESIETPFHDALIKGSIRVEGGYITPPEAPGLGIEVDEALARANPYHGTGLHLEMQEASCDY 3rcy-a1-m1-cH_3rcy-a1-m1-cF CRYSTAL STRUCTURE OF Mandelate racemase/muconate lactonizing enzyme-like protein from Roseovarius sp. TM1035 1.994 X-RAY DIFFRACTION 173 1.0 391613 (Roseovarius sp. TM1035) 391613 (Roseovarius sp. TM1035) 395 397 3rcy-a1-m1-cA_3rcy-a1-m1-cC 3rcy-a1-m1-cB_3rcy-a1-m1-cD 3rcy-a1-m1-cE_3rcy-a1-m1-cG VKLRDLDIIVTAPPAPGWGGRYWILVKLTTDDGITGWGECYAASVGPEAMRAVIEDVFARHMEGENPENIELMFRRVYSSGFTQRPDLTAIGAFSGLEIACWDILGKARGRPVWALLGGKMNPRIRAYTYLYPLPHHPITPFWTSADMAAESAADCVARGYTAVKFDPAGPYTLRGGHMPAMTDISLSVEFCRKIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYSPLWYEEPVPPDNVGAMAQVARAVRIPVATGERLTTKAEFAPVLREGAAAILQPALGRAGGIWEMKKVAAMAEVYNAQMAPHLYAGPVEWAANVHFAASIPNILMCESIETPFHDALIKGSIRVEGGYITPPEAPGLGIEVDEALARANPYHGTGLHLEMQEASCDY VKLRDLDIIVTAPPAPGWGGRYWILVKLTTDDGITGWGECYAASVGPEAMRAVIEDVFARHMEGENPENIELMFRRVYSSGFTQRPDLTAIGAFSGLEIACWDILGKARGRPVWALLGGKMNPRIRAYTYLYPLPHHPITPFWTSADMAAESAADCVARGYTAVKFDPAGPYTLRGGHMPAMTDISLSVEFCRKIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYSPLWYEEPVPPDNVGAMAQVARAVRIPVATGERLTTKAEFAPVLREGAAAILQPALGRAGGIWEMKKVAAMAEVYNAQMAPHLYAGPVEWAANVHFAASIPNILMCESIETPFHDALIKGSIRVEGGYITPPEAPGLGIEVDEALARANPYHGTGLHLEMQEASCDYTN 3rcy-a1-m1-cH_3rcy-a1-m1-cG CRYSTAL STRUCTURE OF Mandelate racemase/muconate lactonizing enzyme-like protein from Roseovarius sp. TM1035 1.994 X-RAY DIFFRACTION 59 1.0 391613 (Roseovarius sp. TM1035) 391613 (Roseovarius sp. TM1035) 395 396 3rcy-a1-m1-cB_3rcy-a1-m1-cA 3rcy-a1-m1-cB_3rcy-a1-m1-cF 3rcy-a1-m1-cC_3rcy-a1-m1-cD 3rcy-a1-m1-cC_3rcy-a1-m1-cG 3rcy-a1-m1-cE_3rcy-a1-m1-cA 3rcy-a1-m1-cE_3rcy-a1-m1-cF 3rcy-a1-m1-cH_3rcy-a1-m1-cD VKLRDLDIIVTAPPAPGWGGRYWILVKLTTDDGITGWGECYAASVGPEAMRAVIEDVFARHMEGENPENIELMFRRVYSSGFTQRPDLTAIGAFSGLEIACWDILGKARGRPVWALLGGKMNPRIRAYTYLYPLPHHPITPFWTSADMAAESAADCVARGYTAVKFDPAGPYTLRGGHMPAMTDISLSVEFCRKIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYSPLWYEEPVPPDNVGAMAQVARAVRIPVATGERLTTKAEFAPVLREGAAAILQPALGRAGGIWEMKKVAAMAEVYNAQMAPHLYAGPVEWAANVHFAASIPNILMCESIETPFHDALIKGSIRVEGGYITPPEAPGLGIEVDEALARANPYHGTGLHLEMQEASCDY VKLRDLDIIVTAPPAPGWGGRYWILVKLTTDDGITGWGECYAASVGPEAMRAVIEDVFARHMEGENPENIELMFRRVYSSGFTQRPDLTAIGAFSGLEIACWDILGKARGRPVWALLGGKMNPRIRAYTYLYPLPHHPITPFWTSADMAAESAADCVARGYTAVKFDPAGPYTLRGGHMPAMTDISLSVEFCRKIRAAVGDKADLLFGTHGQFTTAGAIRLGQAIEPYSPLWYEEPVPPDNVGAMAQVARAVRIPVATGERLTTKAEFAPVLREGAAAILQPALGRAGGIWEMKKVAAMAEVYNAQMAPHLYAGPVEWAANVHFAASIPNILMCESIETPFHDALIKGSIRVEGGYITPPEAPGLGIEVDEALARANPYHGTGLHLEMQEASCDYT 3rd4-a1-m1-cD_3rd4-a1-m1-cB Crystal structure of PROPEN_03304 from Proteus penneri ATCC 35198 Northeast Structural Genomics Consortium target id PvR55 C0AZM8 C0AZM8 2.9 X-RAY DIFFRACTION 38 0.988 471881 (Proteus penneri ATCC 35198) 471881 (Proteus penneri ATCC 35198) 80 82 3rd4-a1-m1-cC_3rd4-a1-m1-cB PVKLYMVEVIDKKEIAANERRSVTGPEITHYYQVTFRLTTDDRKDLVLNIDKSSYQNIEPEMKGRLFMQGSRFVQFETDV APVKLYMVEVIDKKEIAANERRSRTGPEITHYYQVTFRLTTDDRKDLVLNIDKSSYQNIEPEMKGRLFMQGSRFVQFETDVP 3rd7-a1-m1-cA_3rd7-a1-m1-cB Crystal structure of acyl-coa thioesterase from mycobacterium avium A0A0H2ZY91 A0A0H2ZY91 1.95 X-RAY DIFFRACTION 161 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 275 276 MISTLEDVLSLLDLQQIDDAAFVGTQPDTPNHHIIGSQVAAQALMAAGRTTPGRLAHSMHMYFLRRGDARQPIQYDVTPLRDGGTISSRRVTASQSGVVLFEALASFTIIADDVDWQQRMPDVAGPSAVHGLEDLLAPYAEEFQRPFTMRYLDAPPRVALDLSDPPPPRLRIWLRANGEVTDDPLVNSCVVAYLSALTLLECVMTTMRTTPVGPRLSALVDHTIWFHRAADFTDWLLFDQFSPSIVGRRGLATGTLYNRSGELVCIATQEGYFAE MISTLEDVLSLLDLQQIDDAAFVGTQPDTPNHHIIGSQVAAQALMAAGRTTPGRLAHSMHMYFLRRGDARQPIQYDVTPLRDGGTISSRRVTASQSGVVLFEALASFTIIADDVDWQQRMPDVAGPSAVHGLEDLLAPYAEEFQRPFTMRYLDAPPRVALDLSDPPPPRLRIWLRANGEVTDDPLVNSCVVAYLSALTLLECVMTTMRTTPVGPRLSALVDHTIWFHRAADFTDWLLFDQFSPSIVGRRGLATGTLYNRSGELVCIATQEGYFAEQ 3rd8-a1-m1-cA_3rd8-a1-m4-cA Crystal structure of fumarate hydratase class II Mycobacterium smegmatis A0R2U8 A0R2U8 2.2 X-RAY DIFFRACTION 271 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 457 457 3rd8-a1-m2-cA_3rd8-a1-m3-cA EYRIEHDTMGEVRVPKDALWRAQTQRAVENFPISFRGLERTQIRALGLLKAACAQVNKDLGLLDPEKADAIIAAAGEIAEGKHDDQFPIDVFQTGSGTSSNMNTNEVIASIAAANGVTVHPNDHVNMSQSSNDTFPTATHIAATEAAVRHLIPALEVLHASLAAKAKQWRTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELAIGGTAVGTGLNAPEGFGAKVVEVLVNETGLAELRTAVDSFEAQAARDGLVEASGALRTIAVSLTKIANDIRWMGSGPLTGLAEIQLPDLQPGSSIMPGKVNPVLPEAVTQVACQVVGNDAAIAFGGASGAFELNVYIPMMARNLLESFTLLSNVSRLFAERCIDGLVANEERLRELAESSPSIVTPLNSAIGYEEAAKVAKQALAEKKTIRQTVIDRGLIGLSLEELDRRLDVLAMARVK EYRIEHDTMGEVRVPKDALWRAQTQRAVENFPISFRGLERTQIRALGLLKAACAQVNKDLGLLDPEKADAIIAAAGEIAEGKHDDQFPIDVFQTGSGTSSNMNTNEVIASIAAANGVTVHPNDHVNMSQSSNDTFPTATHIAATEAAVRHLIPALEVLHASLAAKAKQWRTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELAIGGTAVGTGLNAPEGFGAKVVEVLVNETGLAELRTAVDSFEAQAARDGLVEASGALRTIAVSLTKIANDIRWMGSGPLTGLAEIQLPDLQPGSSIMPGKVNPVLPEAVTQVACQVVGNDAAIAFGGASGAFELNVYIPMMARNLLESFTLLSNVSRLFAERCIDGLVANEERLRELAESSPSIVTPLNSAIGYEEAAKVAKQALAEKKTIRQTVIDRGLIGLSLEELDRRLDVLAMARVK 3rd8-a1-m2-cA_3rd8-a1-m4-cA Crystal structure of fumarate hydratase class II Mycobacterium smegmatis A0R2U8 A0R2U8 2.2 X-RAY DIFFRACTION 155 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 457 457 3rd8-a1-m1-cA_3rd8-a1-m3-cA EYRIEHDTMGEVRVPKDALWRAQTQRAVENFPISFRGLERTQIRALGLLKAACAQVNKDLGLLDPEKADAIIAAAGEIAEGKHDDQFPIDVFQTGSGTSSNMNTNEVIASIAAANGVTVHPNDHVNMSQSSNDTFPTATHIAATEAAVRHLIPALEVLHASLAAKAKQWRTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELAIGGTAVGTGLNAPEGFGAKVVEVLVNETGLAELRTAVDSFEAQAARDGLVEASGALRTIAVSLTKIANDIRWMGSGPLTGLAEIQLPDLQPGSSIMPGKVNPVLPEAVTQVACQVVGNDAAIAFGGASGAFELNVYIPMMARNLLESFTLLSNVSRLFAERCIDGLVANEERLRELAESSPSIVTPLNSAIGYEEAAKVAKQALAEKKTIRQTVIDRGLIGLSLEELDRRLDVLAMARVK EYRIEHDTMGEVRVPKDALWRAQTQRAVENFPISFRGLERTQIRALGLLKAACAQVNKDLGLLDPEKADAIIAAAGEIAEGKHDDQFPIDVFQTGSGTSSNMNTNEVIASIAAANGVTVHPNDHVNMSQSSNDTFPTATHIAATEAAVRHLIPALEVLHASLAAKAKQWRTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELAIGGTAVGTGLNAPEGFGAKVVEVLVNETGLAELRTAVDSFEAQAARDGLVEASGALRTIAVSLTKIANDIRWMGSGPLTGLAEIQLPDLQPGSSIMPGKVNPVLPEAVTQVACQVVGNDAAIAFGGASGAFELNVYIPMMARNLLESFTLLSNVSRLFAERCIDGLVANEERLRELAESSPSIVTPLNSAIGYEEAAKVAKQALAEKKTIRQTVIDRGLIGLSLEELDRRLDVLAMARVK 3rd8-a1-m3-cA_3rd8-a1-m4-cA Crystal structure of fumarate hydratase class II Mycobacterium smegmatis A0R2U8 A0R2U8 2.2 X-RAY DIFFRACTION 234 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 457 457 3rd8-a1-m1-cA_3rd8-a1-m2-cA EYRIEHDTMGEVRVPKDALWRAQTQRAVENFPISFRGLERTQIRALGLLKAACAQVNKDLGLLDPEKADAIIAAAGEIAEGKHDDQFPIDVFQTGSGTSSNMNTNEVIASIAAANGVTVHPNDHVNMSQSSNDTFPTATHIAATEAAVRHLIPALEVLHASLAAKAKQWRTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELAIGGTAVGTGLNAPEGFGAKVVEVLVNETGLAELRTAVDSFEAQAARDGLVEASGALRTIAVSLTKIANDIRWMGSGPLTGLAEIQLPDLQPGSSIMPGKVNPVLPEAVTQVACQVVGNDAAIAFGGASGAFELNVYIPMMARNLLESFTLLSNVSRLFAERCIDGLVANEERLRELAESSPSIVTPLNSAIGYEEAAKVAKQALAEKKTIRQTVIDRGLIGLSLEELDRRLDVLAMARVK EYRIEHDTMGEVRVPKDALWRAQTQRAVENFPISFRGLERTQIRALGLLKAACAQVNKDLGLLDPEKADAIIAAAGEIAEGKHDDQFPIDVFQTGSGTSSNMNTNEVIASIAAANGVTVHPNDHVNMSQSSNDTFPTATHIAATEAAVRHLIPALEVLHASLAAKAKQWRTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELAIGGTAVGTGLNAPEGFGAKVVEVLVNETGLAELRTAVDSFEAQAARDGLVEASGALRTIAVSLTKIANDIRWMGSGPLTGLAEIQLPDLQPGSSIMPGKVNPVLPEAVTQVACQVVGNDAAIAFGGASGAFELNVYIPMMARNLLESFTLLSNVSRLFAERCIDGLVANEERLRELAESSPSIVTPLNSAIGYEEAAKVAKQALAEKKTIRQTVIDRGLIGLSLEELDRRLDVLAMARVK 3rde-a5-m1-cA_3rde-a5-m1-cC Crystal structure of the catalytic domain of porcine leukocyte 12-lipoxygenase P16469 P16469 1.892 X-RAY DIFFRACTION 33 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 552 552 GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI 3rde-a5-m1-cA_3rde-a5-m1-cD Crystal structure of the catalytic domain of porcine leukocyte 12-lipoxygenase P16469 P16469 1.892 X-RAY DIFFRACTION 34 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 552 552 3rde-a5-m1-cB_3rde-a5-m1-cC GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI 3rde-a5-m1-cB_3rde-a5-m1-cD Crystal structure of the catalytic domain of porcine leukocyte 12-lipoxygenase P16469 P16469 1.892 X-RAY DIFFRACTION 45 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 552 552 GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI 3rde-a5-m1-cC_3rde-a5-m1-cD Crystal structure of the catalytic domain of porcine leukocyte 12-lipoxygenase P16469 P16469 1.892 X-RAY DIFFRACTION 28 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 552 552 3rde-a5-m1-cA_3rde-a5-m1-cB GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI GTARTVVDDPQGLFKKHREEELAERRKLYRWGNWKDGLILNIASTGIHDLPVDERFLEDKRIDFEASLAKGLADLAVKDSLNVLMSWNSLDSFNRIFWSGQSKLAERVRDSWKEDALFGYQFLNGTNPMLLRHSVELPARLKFPPGMEELQAQLEKELQGGTLFEADFSLLDGIKANVILSSQQYLAVPLVMLKLQPDGKLLPMVIQLQLPREGSPLPPLFLPTDPPMVWLLAKCWVRSSDFQLHELHSHLLRGHLMAEVIAVATMRCLPSIHPIFKLLIPHFRYTMEINVRARNGLVSDLGIFDQVVSTGGGGHVELLRRAAALLTYSSFCPPDDLADRGLLGVESSFYAQDALRLWEVISRYVEGIVSLHYKTDESVKEDFELQAWCREFTEIGLLGAQDRGFPVSLQSKEQLCHFVTMCIFTCTGQHSSNHLGQLDWYTWVPNAPCTMRLPPPTTKDATLETVMATLPNFHQASLQMSITWQLGRCQPTMVALGQHEEEYFSGPGPKAVLTKFREELAALDKDIEVRNAKLALPYEYLRPSRVENSVAI 3rdr-a2-m3-cA_3rdr-a2-m6-cA Structure of the catalytic domain of XlyA P39800 P39800 2.2 X-RAY DIFFRACTION 44 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 153 153 3rdr-a2-m1-cA_3rdr-a2-m5-cA 3rdr-a2-m2-cA_3rdr-a2-m4-cA VNIIQDFIPVGANNRPGYAMTPLYITVHNTANTAVGADAAAHARYLKNPDTTTSWHFTVDDTEIYQHLPLNENGWHAGDGNGSGNRASIGIEICENADGDFAKATANAQWLIKTLMAEHNISLANVVPHKYWSGKECPRKLLDTWDSFKAGIG VNIIQDFIPVGANNRPGYAMTPLYITVHNTANTAVGADAAAHARYLKNPDTTTSWHFTVDDTEIYQHLPLNENGWHAGDGNGSGNRASIGIEICENADGDFAKATANAQWLIKTLMAEHNISLANVVPHKYWSGKECPRKLLDTWDSFKAGIG 3rdr-a2-m5-cA_3rdr-a2-m6-cA Structure of the catalytic domain of XlyA P39800 P39800 2.2 X-RAY DIFFRACTION 40 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 153 153 3rdr-a2-m1-cA_3rdr-a2-m2-cA 3rdr-a2-m1-cA_3rdr-a2-m3-cA 3rdr-a2-m2-cA_3rdr-a2-m3-cA 3rdr-a2-m4-cA_3rdr-a2-m5-cA 3rdr-a2-m4-cA_3rdr-a2-m6-cA VNIIQDFIPVGANNRPGYAMTPLYITVHNTANTAVGADAAAHARYLKNPDTTTSWHFTVDDTEIYQHLPLNENGWHAGDGNGSGNRASIGIEICENADGDFAKATANAQWLIKTLMAEHNISLANVVPHKYWSGKECPRKLLDTWDSFKAGIG VNIIQDFIPVGANNRPGYAMTPLYITVHNTANTAVGADAAAHARYLKNPDTTTSWHFTVDDTEIYQHLPLNENGWHAGDGNGSGNRASIGIEICENADGDFAKATANAQWLIKTLMAEHNISLANVVPHKYWSGKECPRKLLDTWDSFKAGIG 3re3-a3-m2-cA_3re3-a3-m3-cA Crystal Structure of 2-C-Methyl-D-Erythritol 2,4-Cyclodiphosphate Synthase from Francisella tularensis Q5NFU1 Q5NFU1 2.645 X-RAY DIFFRACTION 74 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 144 144 3re3-a1-m1-cA_3re3-a1-m2-cA 3re3-a1-m1-cA_3re3-a1-m3-cA 3re3-a1-m2-cA_3re3-a1-m3-cA 3re3-a2-m1-cB_3re3-a2-m1-cC 3re3-a2-m1-cB_3re3-a2-m1-cD 3re3-a2-m1-cD_3re3-a2-m1-cC 3re3-a3-m1-cA_3re3-a3-m2-cA 3re3-a3-m1-cA_3re3-a3-m3-cA 3re3-a3-m1-cB_3re3-a3-m1-cC 3re3-a3-m1-cB_3re3-a3-m1-cD 3re3-a3-m1-cD_3re3-a3-m1-cC 3re3-a3-m2-cB_3re3-a3-m2-cC 3re3-a3-m2-cB_3re3-a3-m2-cD 3re3-a3-m2-cD_3re3-a3-m2-cC 3re3-a3-m3-cB_3re3-a3-m3-cC 3re3-a3-m3-cB_3re3-a3-m3-cD 3re3-a3-m3-cD_3re3-a3-m3-cC NASFRIGHGYDVHKFTSAKQNIIIGGVEIAYHLDGDVLIHALCDAILGALGLGDIGKHFKNIDSKFFLAEIKKLDKKQYSISNIDCTIIAQAPKLPHIEKRACLANILEIQISQINIKATTTERLGFIGREEGIATHVVCLLYR NASFRIGHGYDVHKFTSAKQNIIIGGVEIAYHLDGDVLIHALCDAILGALGLGDIGKHFKNIDSKFFLAEIKKLDKKQYSISNIDCTIIAQAPKLPHIEKRACLANILEIQISQINIKATTTERLGFIGREEGIATHVVCLLYR 3re3-a3-m2-cB_3re3-a3-m3-cB Crystal Structure of 2-C-Methyl-D-Erythritol 2,4-Cyclodiphosphate Synthase from Francisella tularensis Q5NFU1 Q5NFU1 2.645 X-RAY DIFFRACTION 47 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 140 140 3re3-a3-m1-cB_3re3-a3-m2-cB 3re3-a3-m1-cB_3re3-a3-m3-cB 3re3-a3-m1-cC_3re3-a3-m1-cA 3re3-a3-m1-cD_3re3-a3-m2-cA 3re3-a3-m1-cD_3re3-a3-m2-cC 3re3-a3-m2-cC_3re3-a3-m2-cA 3re3-a3-m2-cD_3re3-a3-m3-cA 3re3-a3-m2-cD_3re3-a3-m3-cC 3re3-a3-m3-cC_3re3-a3-m3-cA 3re3-a3-m3-cD_3re3-a3-m1-cA 3re3-a3-m3-cD_3re3-a3-m1-cC SFRIGHGYDVHKFTSAKQNIIIGGVEIAYHDGDVLIHALCDAILGALGLGDIGKHFNIDSKFFLAEIKKLDKKQYSISNIDCTIIAQAPKLPHIEKRACLANILEIQISQINIKATTTERLGFIGREEGIATHVVCLLYR SFRIGHGYDVHKFTSAKQNIIIGGVEIAYHDGDVLIHALCDAILGALGLGDIGKHFNIDSKFFLAEIKKLDKKQYSISNIDCTIIAQAPKLPHIEKRACLANILEIQISQINIKATTTERLGFIGREEGIATHVVCLLYR 3rf1-a1-m1-cB_3rf1-a1-m1-cA The crystal structure of glycyl-tRNA synthetase subunit alpha from Campylobacter jejuni subsp. jejuni NCTC 11168 A1VZ59 A1VZ59 2.2 X-RAY DIFFRACTION 128 1.0 354242 (Campylobacter jejuni subsp. jejuni 81-176) 354242 (Campylobacter jejuni subsp. jejuni 81-176) 277 284 3rgl-a1-m1-cB_3rgl-a1-m1-cA 3ufg-a1-m1-cB_3ufg-a1-m1-cA ATFSQILNLQNYWQEQGCAIQPYDPAGAGTFHPATFLRSLGKKPWAAAYVAPSRRPTDGRYGENPNRLGAYYQFQVLIKPSPDNIQELYLKSLENLGFDLKSHDIRFVEDNWESPSLGAWGLGWEVWLDGEVTQFTYFQQVGGIAVDLVSAEITYGLERIAYLQNVDNVYDIVWSEFNGEKIKYADVHKQSEYEFSKYNFEVSDVKILNEQFENSYKECKNILEQGLALPAYDYCLAAHTFNLLDARGAISVAQRQDYLKIRELSKNCAEIYKKNLN NLYFQSNATFSQILNLQNYWQEQGCAIQPYDPAGAGTFHPATFLRSLGKKPWAAAYVAPSRRPTDGRYGENPNRLGAYYQFQVLIKPSPDNIQELYLKSLENLGFDLKSHDIRFVEDNWESPSLGAWGLGWEVWLDGEVTQFTYFQQVGGIAVDLVSAEITYGLERIAYLQNVDNVYDIVWSEFNGEKIKYADVHKQSEYEFSKYNFEVSDVKILNEQFENSYKECKNILEQGLALPAYDYCLAAHTFNLLDARGAISVAQRQDYLKIRELSKNCAEIYKKNLN 3rf3-a3-m1-cA_3rf3-a3-m1-cB Shigella IpaA-VBS3 in complex with human vinculin P18206 P18206 1.61 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 258 PVFHTRTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW MPVFHTRTIESILEPVAQQISHLVIMHEEGEVDGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDAW 3rf4-a2-m1-cC_3rf4-a2-m2-cC Ancylostoma ceylanicum mif in complex with furosemide A4GRE3 A4GRE3 1.8 X-RAY DIFFRACTION 26 1.0 53326 (Ancylostoma ceylanicum) 53326 (Ancylostoma ceylanicum) 116 116 PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAA PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAA 3rf5-a2-m3-cB_3rf5-a2-m6-cC Ancylostoma ceylanicum mif in complex with n-(2,3,4,5,6-pentafluoro-benzyl)-4-sulfamoyl-benzamide A4GRE3 A4GRE3 2.1 X-RAY DIFFRACTION 12 1.0 53326 (Ancylostoma ceylanicum) 53326 (Ancylostoma ceylanicum) 116 116 3rf5-a2-m4-cB_3rf5-a2-m5-cC PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAA PMVRVATNLPDKDVPANFEERLTDLLAESMNKPRNRIAIEVLAGQRITHGASRNPVAVIKVESIGALSADDNIRHTQKITQFCQDTLKLPKDKVIITYFDLQPIHVGFNGTTVAAA 3rf6-a2-m1-cA_3rf6-a2-m1-cB Crystal structure of glycerol-3 phosphate bound HAD-like phosphatase from Saccharomyces cerevisiae P36151 P36151 1.695 X-RAY DIFFRACTION 104 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 340 352 3kc2-a1-m1-cB_3kc2-a1-m1-cA 3rf6-a1-m1-cA_3rf6-a1-m1-cB KIAFAFAIDGVLFRGKKPIAGASDALKLLNRNKIPYILLTNGGGFSERARTEFISSKLDVDVSPLQIIQSHTPYKSLVNKYSRILAVGTPSVRGVAEGYGFQDVVHQTDIVRYNRDIAPFSGLSDEQVMEYSRDIPDLTTKKFDAVLVFNDPHDWAADIQIISDAINSENGMLNTLRNEKSGKPSIPIYFSNQDLLWANPYKLNRFGQGAFRLLVRRLYLELNGEPLQDYTLGKPTKLTYDFAHHVLIDWEKRLSGKIGQSVKQKLPLLGTKPSTSPFHAVFMVGDNPASDIIGAQNYGWNSCLVKTGVYNEGDDLKECKPTLIVNDVFDAVTKTLEKYA MIGKRFFQTTSKKIAFAFAIDGVLFRGKKPIAGASDALKLLNRNKIPYILLTNGGGFSERARTEFISSKLDVDVSPLQIIQSHTPYKSLVNKYSRILAVGTPSVRGVAEGYGFQDVVHQTDIVRYNRDIAPFSGLSDEQVMEYSRDIPDLTTKKFDAVLVFNDPHDWAADIQIISDAINSENGMLNTLRNEKSGKPSIPIYFSNQDLLWANPYKLNRFGQGAFRLLVRRLYLELNGEPLQDYTLGKPTKLTYDFAHHVLIDWEKRLSGKIGQSVKQKLPLLGTKPSTSPFHAVFMVGDNPASDIIGAQNYGWNSCLVKTGVYNEGDDLKECKPTLIVNDVFDAVTKTLEKYA 3rf7-a1-m1-cA_3rf7-a1-m2-cA Crystal structure of an Iron-containing alcohol dehydrogenase (Sden_2133) from Shewanella denitrificans OS-217 at 2.12 A resolution Q12MB1 Q12MB1 2.12 X-RAY DIFFRACTION 89 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 346 346 NLYFQGSFKNFKCVPKIFGRGSFVQLDTVLEQERTDANDFVVFLVDDVHQHKPLAARVPNKAHDLVIYVNVDDEPTTVQVDELTAQVKAFNTKLPVSVVGLGGGSTDLAKAVSLLTNPGSSSEYQGWDLIKNPAVHHIGIPTVSGTGAEASRTAVLCGPVRKLGLNSDYTVFDQIIDSELIAGVPTDQWFYTGDCFIHCVESLQGTYLNEFAKAFAEKSDLCREVYLDDHPEKDDKLASYGGSIAYSQVGACHAVSYGLGYVLGYHHGIGNCLAFDVLEEFYPEGVAEFRKEIHNITLPKNICKDLPDETIAKVAVTKSGPLWDNVYGKGWEEKVTDELTKLFRRI NLYFQGSFKNFKCVPKIFGRGSFVQLDTVLEQERTDANDFVVFLVDDVHQHKPLAARVPNKAHDLVIYVNVDDEPTTVQVDELTAQVKAFNTKLPVSVVGLGGGSTDLAKAVSLLTNPGSSSEYQGWDLIKNPAVHHIGIPTVSGTGAEASRTAVLCGPVRKLGLNSDYTVFDQIIDSELIAGVPTDQWFYTGDCFIHCVESLQGTYLNEFAKAFAEKSDLCREVYLDDHPEKDDKLASYGGSIAYSQVGACHAVSYGLGYVLGYHHGIGNCLAFDVLEEFYPEGVAEFRKEIHNITLPKNICKDLPDETIAKVAVTKSGPLWDNVYGKGWEEKVTDELTKLFRRI 3rfb-a1-m1-cA_3rfb-a1-m1-cB Structure of fRMsr Q8DQA6 Q8DQA6 2.3 X-RAY DIFFRACTION 110 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 160 163 SEKQSRYQMLNEELSFLLEGETNVLANLSNASALIKSRFPNTVFAGFYLFDGKELVLGPFQGGVSCIRIALGKGVCGEAAHFQETVIVGDVTTYLNYISCDSLAKSEIVVPMMKNGQLLGVLDLDSSEIEDYDAMDRDYLEQFVAILLEKTTWDFTMFEE MLKSEKQSRYQMLNEELSFLLEGETNVLANLSNASALIKSRFPNTVFAGFYLFDGKELVLGPFQGGVSCIRIALGKGVCGEAAHFQETVIVGDVTTYLNYISCDSLAKSEIVVPMMKNGQLLGVLDLDSSEIEDYDAMDRDYLEQFVAILLEKTTWDFTMFEE 3rfc-a1-m1-cA_3rfc-a1-m2-cA Crystal structure of D-alanine-D-alanine ligase A from Xanthomonas oryzae pathovar oryzae with ADP 2.1 X-RAY DIFFRACTION 153 1.0 342109 (Xanthomonas oryzae pv. oryzae MAFF 311018) 342109 (Xanthomonas oryzae pv. oryzae MAFF 311018) 344 344 3e5n-a1-m1-cA_3e5n-a1-m2-cA 3r5f-a1-m1-cA_3r5f-a1-m2-cA 4l1k-a1-m1-cA_4l1k-a1-m2-cA 4me6-a1-m1-cA_4me6-a1-m2-cA RKIRVGLIFGGKSAEHEVSLQSARNILDALDPQRFEPVLIGIDKQGQWHVNDPDSFLLHADDPARIALHRSGRGVALLPGAQQQQLRPIQQALAQIDVVFPIVHGTLGEDGSLQGLLRMANLPFVGSGVLGSAVAMDKDMAKRVLRDARLAVAPFVCFDRHTAAHADVDTLIAQLGLPLFVKPANQGSSVGVSQVRTADAFAAALALALAYDHKVLVEAAVAGREIECAVLGNAVPHASVCGEVVVEIVIPADIDAQTQQRIQQIAVQAYQALGCAGMARVDVFLCADGRIVINEVNTLPGFTRISVYPKLWQASGLDYRGLITRLIELALERHTDDQLLRSAV RKIRVGLIFGGKSAEHEVSLQSARNILDALDPQRFEPVLIGIDKQGQWHVNDPDSFLLHADDPARIALHRSGRGVALLPGAQQQQLRPIQQALAQIDVVFPIVHGTLGEDGSLQGLLRMANLPFVGSGVLGSAVAMDKDMAKRVLRDARLAVAPFVCFDRHTAAHADVDTLIAQLGLPLFVKPANQGSSVGVSQVRTADAFAAALALALAYDHKVLVEAAVAGREIECAVLGNAVPHASVCGEVVVEIVIPADIDAQTQQRIQQIAVQAYQALGCAGMARVDVFLCADGRIVINEVNTLPGFTRISVYPKLWQASGLDYRGLITRLIELALERHTDDQLLRSAV 3rfh-a1-m1-cC_3rfh-a1-m1-cA Crystal structure of the yeast RACK1 dimer in space group P21 P38011 P38011 2.9 X-RAY DIFFRACTION 82 0.99 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 288 291 3rfg-a1-m1-cA_3rfg-a1-m1-cB 3rfh-a2-m1-cB_3rfh-a2-m1-cD VLVLRGTLEGHNGWVTSLATSAGQPNLLLSASRDKTLISWKLTGDDQKFGVPVRSFKGHSHIVQDCTLTADGAYALSASWDKTLRLWDVATGETYQRFVGHKSDVMSVDIDKKASMIISGSRDKTIKVWTIKGQCLATLLGHNDWVSQVRVVPNEKLNQFQIEADFIGHNSNINTLTASPDGTLIASAGKDGEIMLWNLAAKKAMYTLSAQDEVFSLAFSPNRYWLAAATATGIKVFSLDPQYLVDDLRPEFAGYAAEPHAVSLAWSADGQTLFAGYTDNVIRVWQVM SNEVLVLRGTLEGHNGWVTSLATSAGQPNLLLSASRDKTLISWKLTGDDQKFGVPVRSFKGHSHIVQDCTLTADGAYALSASWDKTLRLWDVATGETYQRFVGHKSDVMSVDIDKKASMIISGSRDKTIKVWTIKGQCLATLLGHNDWVSQVRVVPLNQFQIEADFIGHNSNINTLTASPDGTLIASAGKDGEIMLWNLAAKKAMYTLSAQDEVFSLAFSPNRYWLAAATATGIKVFSLDPQYLVDDLRPEFAGYSAAAEPHAVSLAWSADGQTLFAGYTDNVIRVWQVMT 3rfi-a2-m1-cA_3rfi-a2-m2-cA Crystal structure of the saposin-like domain of plant aspartic protease from Solanum tuberosum Q6B9W9 Q6B9W9 1.9 X-RAY DIFFRACTION 125 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 80 80 AIVSMECKTIVSQYGEMIWDLLVSGVRPDQVCSQAGLCFVEAPLCTACEMAVVWMQNQLKQEGTKEKVLEYVNQLCEKIP AIVSMECKTIVSQYGEMIWDLLVSGVRPDQVCSQAGLCFVEAPLCTACEMAVVWMQNQLKQEGTKEKVLEYVNQLCEKIP 3rfq-a1-m1-cA_3rfq-a1-m2-cB Crystal structure of Pterin-4-alpha-carbinolamine dehydratase MoaB2 from Mycobacterium marinum B2HEA7 B2HEA7 2.25 X-RAY DIFFRACTION 35 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 154 154 3rfq-a1-m1-cB_3rfq-a1-m2-cA 3rfq-a1-m1-cC_3rfq-a1-m2-cC VVGRALVVVVDDRTAHGDEDHSGPLVTELLTEAGFVVDGVVAVEADEVDIRNALNTAVIGGVDLVVSVGGTGVTPRDVTPESTREILDREILGIAEAIRASGLSAGIIDAGLSRGLAGVSGSTLVVNLAGSRYAVRDGMATLNPLAAHIIGQLS VVGRALVVVVDDRTAHGDEDHSGPLVTELLTEAGFVVDGVVAVEADEVDIRNALNTAVIGGVDLVVSVGGTGVTPRDVTPESTREILDREILGIAEAIRASGLSAGIIDAGLSRGLAGVSGSTLVVNLAGSRYAVRDGMATLNPLAAHIIGQLS 3rfq-a1-m2-cA_3rfq-a1-m2-cB Crystal structure of Pterin-4-alpha-carbinolamine dehydratase MoaB2 from Mycobacterium marinum B2HEA7 B2HEA7 2.25 X-RAY DIFFRACTION 36 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 154 154 3rfq-a1-m1-cA_3rfq-a1-m1-cB 3rfq-a1-m1-cA_3rfq-a1-m1-cC 3rfq-a1-m1-cB_3rfq-a1-m1-cC 3rfq-a1-m2-cA_3rfq-a1-m2-cC 3rfq-a1-m2-cB_3rfq-a1-m2-cC VVGRALVVVVDDRTAHGDEDHSGPLVTELLTEAGFVVDGVVAVEADEVDIRNALNTAVIGGVDLVVSVGGTGVTPRDVTPESTREILDREILGIAEAIRASGLSAGIIDAGLSRGLAGVSGSTLVVNLAGSRYAVRDGMATLNPLAAHIIGQLS VVGRALVVVVDDRTAHGDEDHSGPLVTELLTEAGFVVDGVVAVEADEVDIRNALNTAVIGGVDLVVSVGGTGVTPRDVTPESTREILDREILGIAEAIRASGLSAGIIDAGLSRGLAGVSGSTLVVNLAGSRYAVRDGMATLNPLAAHIIGQLS 3rfw-a1-m1-cA_3rfw-a1-m2-cA The virulence factor PEB4 and the periplasmic protein Cj1289 are two structurally-related SurA-like chaperones in the human pathogen Campylobacter jejuni Q0PAS1 Q0PAS1 2.2 X-RAY DIFFRACTION 151 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 252 252 ATVATVNGKSISDTEVSEFFAPMLRGQDFKTLPDNQKKALIQQYIMQDLILQDAKKQNLEKDPLYTKELDRAKDAILVNVYQEKILNTIKIDAAKVKAFYDQNKDKYVKPARVQAKHILVATEKEAKDIINELKGLKGKELDAKFSELAKEKSIDPGSKNQGGELGWFDQSTMVKPFTDAAFALKNGTITTTPVKTNFGYHVILKENSQAKGQIKFDEVKQGIENGLKFEEFKKVINQKGQDLLNSAKVEYK ATVATVNGKSISDTEVSEFFAPMLRGQDFKTLPDNQKKALIQQYIMQDLILQDAKKQNLEKDPLYTKELDRAKDAILVNVYQEKILNTIKIDAAKVKAFYDQNKDKYVKPARVQAKHILVATEKEAKDIINELKGLKGKELDAKFSELAKEKSIDPGSKNQGGELGWFDQSTMVKPFTDAAFALKNGTITTTPVKTNFGYHVILKENSQAKGQIKFDEVKQGIENGLKFEEFKKVINQKGQDLLNSAKVEYK 3rfx-a1-m1-cB_3rfx-a1-m2-cC Crystal structure of uronate dehydrogenase from Agrobacterium tumefaciens, Y136A mutant complexed with NAD Q7CRQ0 Q7CRQ0 1.9 X-RAY DIFFRACTION 41 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 265 265 3rft-a1-m1-cA_3rft-a1-m1-cB 3rft-a1-m1-cA_3rft-a1-m2-cC 3rft-a1-m1-cB_3rft-a1-m2-cC 3rft-a1-m1-cC_3rft-a1-m2-cA 3rft-a1-m1-cC_3rft-a1-m2-cB 3rft-a1-m2-cA_3rft-a1-m2-cB 3rfv-a1-m1-cA_3rfv-a1-m1-cB 3rfv-a1-m1-cA_3rfv-a1-m2-cC 3rfv-a1-m1-cB_3rfv-a1-m2-cC 3rfv-a1-m1-cC_3rfv-a1-m2-cA 3rfv-a1-m1-cC_3rfv-a1-m2-cB 3rfv-a1-m2-cA_3rfv-a1-m2-cB 3rfx-a1-m1-cA_3rfx-a1-m1-cB 3rfx-a1-m1-cA_3rfx-a1-m2-cC 3rfx-a1-m1-cC_3rfx-a1-m2-cA 3rfx-a1-m1-cC_3rfx-a1-m2-cB 3rfx-a1-m2-cA_3rfx-a1-m2-cB AMKRLLVTGAAGQLGRVMRERLAPMAEILRLADLSPLDPAGPNEECVQCDLADANAVNAMVAGCDGIVHLGGISVEKPFEQILQGNIIGLYNLYEAARAHGQPRIVFASSNHTIGYYPQTERLGPDVPARPDGLAGVSKCFGENLARMYFDKFGQETALVRIGSCTPEPNNYRMLSTWFSHDDFVSLIEAVFRAPVLGCPVVWGASANDAGWWDNSHLGFLGWKPKDNAEAFRRHITETTPPPDPNDALVRFQGGTFVDNPIFKQ AMKRLLVTGAAGQLGRVMRERLAPMAEILRLADLSPLDPAGPNEECVQCDLADANAVNAMVAGCDGIVHLGGISVEKPFEQILQGNIIGLYNLYEAARAHGQPRIVFASSNHTIGYYPQTERLGPDVPARPDGLAGVSKCFGENLARMYFDKFGQETALVRIGSCTPEPNNYRMLSTWFSHDDFVSLIEAVFRAPVLGCPVVWGASANDAGWWDNSHLGFLGWKPKDNAEAFRRHITETTPPPDPNDALVRFQGGTFVDNPIFKQ 3rfx-a1-m2-cB_3rfx-a1-m2-cC Crystal structure of uronate dehydrogenase from Agrobacterium tumefaciens, Y136A mutant complexed with NAD Q7CRQ0 Q7CRQ0 1.9 X-RAY DIFFRACTION 80 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 265 265 3rft-a1-m1-cA_3rft-a1-m2-cA 3rft-a1-m1-cB_3rft-a1-m1-cC 3rft-a1-m2-cB_3rft-a1-m2-cC 3rfv-a1-m1-cA_3rfv-a1-m2-cA 3rfv-a1-m1-cB_3rfv-a1-m1-cC 3rfv-a1-m2-cB_3rfv-a1-m2-cC 3rfx-a1-m1-cA_3rfx-a1-m2-cA 3rfx-a1-m1-cB_3rfx-a1-m1-cC AMKRLLVTGAAGQLGRVMRERLAPMAEILRLADLSPLDPAGPNEECVQCDLADANAVNAMVAGCDGIVHLGGISVEKPFEQILQGNIIGLYNLYEAARAHGQPRIVFASSNHTIGYYPQTERLGPDVPARPDGLAGVSKCFGENLARMYFDKFGQETALVRIGSCTPEPNNYRMLSTWFSHDDFVSLIEAVFRAPVLGCPVVWGASANDAGWWDNSHLGFLGWKPKDNAEAFRRHITETTPPPDPNDALVRFQGGTFVDNPIFKQ AMKRLLVTGAAGQLGRVMRERLAPMAEILRLADLSPLDPAGPNEECVQCDLADANAVNAMVAGCDGIVHLGGISVEKPFEQILQGNIIGLYNLYEAARAHGQPRIVFASSNHTIGYYPQTERLGPDVPARPDGLAGVSKCFGENLARMYFDKFGQETALVRIGSCTPEPNNYRMLSTWFSHDDFVSLIEAVFRAPVLGCPVVWGASANDAGWWDNSHLGFLGWKPKDNAEAFRRHITETTPPPDPNDALVRFQGGTFVDNPIFKQ 3rfy-a2-m1-cA_3rfy-a2-m2-cA Crystal structure of arabidopsis thaliana cyclophilin 38 (ATCYP38) Q9SSA5 Q9SSA5 2.39 X-RAY DIFFRACTION 125 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 356 356 GGILLVANPVIPDVSVLISGPPIKDPEALLRYALPIDNKAIREVQKPLEDITDSLKIAGVKALDSVERNVRQASRTLQQGKSIIVAGFAESKKDHGNEMIEKLEAGMQDMLKIVEDRKRDAVAPKQKEILKYVGGIEEDMVDGFPYEVPEEYRNMPLLKGRASVDMKVKIKDNPNIEDCVFRIVLDGYNAPVTAGNFVDLVERHFYDGMEIQRSDGFVVQTGDPEGPAEGFIDPSTEKTRTVPLEIMVTGEKTPFYGSTLEELGLYKAQVVIPFNAFGTMAMAREEFENDSGSSQVFWLLKESELTPSNSNILDGRYAVFGYVTDNEDFLADLKVGDVIESIQVVSGLENLANPSY GGILLVANPVIPDVSVLISGPPIKDPEALLRYALPIDNKAIREVQKPLEDITDSLKIAGVKALDSVERNVRQASRTLQQGKSIIVAGFAESKKDHGNEMIEKLEAGMQDMLKIVEDRKRDAVAPKQKEILKYVGGIEEDMVDGFPYEVPEEYRNMPLLKGRASVDMKVKIKDNPNIEDCVFRIVLDGYNAPVTAGNFVDLVERHFYDGMEIQRSDGFVVQTGDPEGPAEGFIDPSTEKTRTVPLEIMVTGEKTPFYGSTLEELGLYKAQVVIPFNAFGTMAMAREEFENDSGSSQVFWLLKESELTPSNSNILDGRYAVFGYVTDNEDFLADLKVGDVIESIQVVSGLENLANPSY 3rfz-a3-m1-cB_3rfz-a3-m2-cE Crystal structure of the FimD usher bound to its cognate FimC:FimH substrate P30130 P30130 2.8 X-RAY DIFFRACTION 30 0.999 562 (Escherichia coli) 562 (Escherichia coli) 778 778 QELPPGTYRVDIYLNNGYMATRDVTFNTGDSEQGIVPCLTRAQLASMGLNTASVAGMNLLADDACVPLTTMVQDATAHLDVGQQRLNLTIPQAFMSNRARGYIPPELWDPGINAGLLNYNFSGNSVQNRIGGNSHYAYLNLQSGLNIGAWRLRDNTTWSYNSNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDDNMLPDSQRGFAPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKPRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSLNESGTNIQLVGYRYSTSGYFNFADTTYSRMNYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFSHWLRSDSKSQWRHASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGVLAHANGVTLGQPLNDTVVLVKAPGAKDAKVENQTGVRTDWRGYAVLPYATEYRENRVALDTNTLADNVDLDNAVANVVPTRGAIVRAEFKARVGIKLLMTLTHNNKPLPFGAMVTSESSQSSGIVADNGQVYLSGMPLAGKVQVKWGEAHCVANYQLPPESQQQLLTQLSAECRS QELPPGTYRVDIYLNNGYMATRDVTFNTGDSEQGIVPCLTRAQLASMGLNTASVAGMNLLADDACVPLTTMVQDATAHLDVGQQRLNLTIPQAFMSNRARGYIPPELWDPGINAGLLNYNFSGNSVQNRIGGNSHYAYLNLQSGLNIGAWRLRDNTTWSYNSNKWQHINTWLERDIIPLRSRLTLGDGYTQGDIFDGINFRGAQLASDDNMLPDSQRGFAPVIHGIARGTAQVTIKQNGYDIYNSTVPPGPFTINDIYAAGNSGDLQVTIKEADGSTQIFTVPYSSVPLLQREGHTRYSITAGEYRSGNAQQEKPRFFQSTLLHGLPAGWTIYGGTQLADRYRAFNFGIGKNMGALGALSVDMTQANSTLPDDSQHDGQSVRFLYNKSLNESGTNIQLVGYRYSTSGYFNFADTTYSRMNYYNLAYNKRGKLQLTVTQQLGRTSTLYLSGSHQTYWGTSNVDEQFQAGLNTAFEDINWTLSYSLTKNAWQKGRDQMLALNVNIPFSHWLRSDSKSQWRHASASYSMSHDLNGRMTNLAGVYGTLLEDNNLSYSVQTGYAGGGDGNSGSTGYATLNYRGGYGNANIGYSHSDDIKQLYYGVSGGVLAHANGVTLGQPLNDTVVLVKAPGAKDAKVENQTGVRTDWRGYAVLPYATEYRENRVALDTNTLADNVDLDNAVANVVPTRGAIVRAEFKARVGIKLLMTLTHNNKPLPFGAMVTSESSQSSGIVADNGQVYLSGMPLAGKVQVKWGEHCVANYQLPPESQQQLLTQLSAECRS 3rg1-a4-m1-cM_3rg1-a4-m1-cN Crystal structure of the RP105/MD-1 complex A6QNK7 A6QNK7 2.91 X-RAY DIFFRACTION 19 0.998 9913 (Bos taurus) 9913 (Bos taurus) 593 599 3rg1-a1-m1-cA_3rg1-a1-m1-cB 3rg1-a2-m1-cE_3rg1-a2-m1-cF PKCTEKEGNRTYNCENLGLREIPDTLPNTTEVLEFSFNFLPTIQNTTFSRLINLIFLDLTRCQINWVHEDTFQSHHQLNTIVLTGNPLIFMAETSLTGPKFLKHLFLTQTGISNLEFIPVHNLENLESLHLGSNHISSINLPENFPTQNLKVLDFQNNAIHYISRKDTNSLEQATNLSLNFNGNDIKGIEPGAFISKIFQSLKFGGSLNLFIIFKGLQNSTLQSLWLGTFEDTDDQYLTSATFEGLCDMSVESINLQKHRFSDLSSSTFRCFTRVQELDLTAAHLNGLPSGIEGMNSLKKLVLNANSFDQLCQINAASFPSLRDLYIKGNMRKLDLGTRCLEKLENLQKLDLSHSDIEASDCCNLQLKNLRHLQYLNLSYNEPLGLEDQAFKECPQLELLDVAFTHLHVKAPHSPFQNLHLLRVLNLSHCLLDTSNQHLLAGLQDLRHLNLQGNSFQDGSISKTNLLQMVGSLEILILSSCNLLSIDQQAFHGLRNVNHLDLSHNSLTGDSMDALSHLKGLYLNMASNNIRIIPPHLLPALSQQSIINLSHNPLDCTCSNIHFITWYKENLHKLEDSEETTCANPPSLRGVKL KCTEKEGNRTYNCENLGLREIPDTLPNTTEVLEFSFNFLPTIQNTTFSRLINLIFLDLTRCQINWVHEDTFQSHHQLNTIVLTGNPLIFMAETSLTGPKFLKHLFLTQTGISNLEFIPVHNLENLESLHLGSNHISSINLPENFPTQNLKVLDFQNNAIHYISRKDTNSLEQATNLSLNFNGNDIKGIEPGAFISKIFQSLKFGGSLNLFIIFKGLQNSTLQSLWLGTFEDTDDQYLTSATFEGLCDMSVESINLQKHRFSDLSSSTFRCFTRVQELDLTAAHLNGLPSGIEGMNSLKKLVLNANSFDQLCQINAASFPSLRDLYIKGNMRKLDLGTRCLEKLENLQKLDLSHSDIEASDCCNLQLKNLRHLQYLNLSYNEPLGLEDQAFKECPQLELLDVAFTHLHVKAPHSPFQNLHLLRVLNLSHCLLDTSNQHLLAGLQDLRHLNLQGNSFQDGSISKTNLLQMVGSLEILILSSCNLLSIDQQAFHGLRNVNHLDLSHNSLTGDSMDALSHLKGLYLNMASNNIRIIPPHLLPALSQQSIINLSHNPLDCTCSNIHFITWYKENLHKLEDSEETTCANPPSLRGVKLSDVKLHC 3rg2-a2-m1-cH_3rg2-a2-m1-cC Structure of a two-domain NRPS fusion protein containing the EntE adenylation domain and EntB aryl-carrier protein from enterobactin biosynthesis P0ADI4 P0ADI4 3.1 X-RAY DIFFRACTION 165 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 611 613 3rg2-a1-m1-cB_3rg2-a1-m1-cA 3rg2-a3-m1-cD_3rg2-a3-m1-cE 3rg2-a4-m1-cF_3rg2-a4-m1-cI 3rg2-a5-m1-cG_3rg2-a5-m1-cJ SIPFTRWPEEFARRYREKGYWQDLPLTDILTRHAASDSIAVIDGERQLSYRELNQAADNLACSLRRQGIKPGETALVQLGNVAELYITFFALLKLGVAPVLALFSHQRSELNAYASQIEPALLIADRQHALFSGDDFLNTFVTEHSSIRVVQLLNDSGEHNLQDAINHPAEDTATPSPADEVAYFQLSGGTTGTPKLIPRTHNDYYYSVRRSVEICQFTQQTRYLCAIPAAHNYAMSSPGSLGVFLAGGTVVLAADPSATLCFPLIEKHQVNVTALVPPAVSLWLQALIEGESRAQLASLKLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLDDSAEKIIHTQGYPMCPDDEVWVADAEGNPLPQGEVGRLMTRGPYTFRGYYKSPQHNASAFDANGFYCSGDLISIDPEGYITVQGREKDQINRGGEKIAAEEIENLLLRHPAVIYAALVSMEDELMGEKSCAYLVVKEPLRAVQVRRFLREQGIAEFKLPDRVECVDSLPLTAVGKVDKKQLRQWLASRASAGRASIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSRE MSIPFTRWPEEFARRYREKGYWQDLPLTDILTRHAASDSIAVIDGERQLSYRELNQAADNLACSLRRQGIKPGETALVQLGNVAELYITFFALLKLGVAPVLALFSHQRSELNAYASQIEPALLIADRQHALFSGDDFLNTFVTEHSSIRVVQLLNDSGEHNLQDAINHPAEDFTATPSPADEVAYFQLSGGTTGTPKLIPRTHNDYYYSVRRSVEICQFTQQTRYLCAIPAAHNYAMSSPGSLGVFLAGGTVVLAADPSATLCFPLIEKHQVNVTALVPPAVSLWLQALIEGESRAQLASLKLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLDDSAEKIIHTQGYPMCPDDEVWVADAEGNPLPQGEVGRLMTRGPYTFRGYYKSPQHNASAFDANGFYCSGDLISIDPEGYITVQGREKDQINRGGEKIAAEEIENLLLRHPAVIYAALVSMEDELMGEKSCAYLVVKEPLRAVQVRRFLREQGIAEFKLPDRVECVDSLPLTAVGKVDKKQLRQWLASRASAGRASIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSRE 3rg6-a1-m4-cF_3rg6-a1-m4-cE Crystal structure of a chaperone-bound assembly intermediate of form I Rubisco Q44212 Q44212 3.2 X-RAY DIFFRACTION 115 0.991 1167 (Anabaena sp.) 1167 (Anabaena sp.) 106 114 2peo-a1-m1-cB_2peo-a1-m1-cA 2wvw-a1-m1-cI_2wvw-a1-m1-cJ 2wvw-a1-m1-cK_2wvw-a1-m1-cL 2wvw-a1-m1-cM_2wvw-a1-m1-cN 2wvw-a1-m1-cO_2wvw-a1-m1-cP 2wvw-a1-m1-cQ_2wvw-a1-m1-cR 2wvw-a1-m1-cS_2wvw-a1-m1-cT 2wvw-a1-m1-cU_2wvw-a1-m1-cV 2wvw-a1-m1-cW_2wvw-a1-m1-cX 3hyb-a1-m1-cA_3hyb-a1-m1-cB 3rg6-a1-m1-cD_3rg6-a1-m1-cC 3rg6-a1-m1-cF_3rg6-a1-m1-cE 3rg6-a1-m2-cD_3rg6-a1-m2-cC 3rg6-a1-m2-cF_3rg6-a1-m2-cE 3rg6-a1-m3-cD_3rg6-a1-m3-cC 3rg6-a1-m3-cF_3rg6-a1-m3-cE 3rg6-a1-m4-cD_3rg6-a1-m4-cC MNLKQIAKDTAKTLQSYLTYQALRTVLAQLGETNPPLALWLHNFSAGKVQDGEKYIEELFLEKPDLALRIMTVREHIAEEIAEFLPEMVVTGIQQANMEKRRQHLE NLKQIAKDTAKTLQSYLTYQALRTVLAQLGETNPPLALWLHNFSAGKVQDGEKYIEELFLEKPDLALRIMTVREHIAEEIAEFLPEMVVTGIQQANMEKRRQHLERMTQVSLSH 3rg8-a1-m1-cD_3rg8-a1-m1-cH Crystal structure of Treponema denticola PurE Q73PV9 Q73PV9 1.74 X-RAY DIFFRACTION 115 1.0 158 (Treponema denticola) 158 (Treponema denticola) 156 156 3rg8-a1-m1-cA_3rg8-a1-m1-cE 3rg8-a1-m1-cB_3rg8-a1-m1-cF 3rg8-a1-m1-cC_3rg8-a1-m1-cG 3rgg-a1-m1-cA_3rgg-a1-m2-cA 3rgg-a1-m1-cC_3rgg-a1-m2-cC 3rgg-a1-m1-cD_3rgg-a1-m2-cB 3rgg-a1-m2-cD_3rgg-a1-m1-cB 5c5d-a1-m1-cA_5c5d-a1-m2-cA 5c5d-a1-m1-cB_5c5d-a1-m2-cD 5c5d-a1-m1-cC_5c5d-a1-m2-cC 5c5d-a1-m2-cB_5c5d-a1-m1-cD RPLVIILMGSSSDMGHAEKIASELKTFGIEYAIRIGSAHKTAEHVVSMLKEYEALDRPKLYITIAGRSNALSGFVDGFVKGATIACPPPSDSFAGADIYSSLRMPSGISPALVLEPKNAALLAARIFSLYDKEIADSVKSYMESNAQKIIEDDSKL RPLVIILMGSSSDMGHAEKIASELKTFGIEYAIRIGSAHKTAEHVVSMLKEYEALDRPKLYITIAGRSNALSGFVDGFVKGATIACPPPSDSFAGADIYSSLRMPSGISPALVLEPKNAALLAARIFSLYDKEIADSVKSYMESNAQKIIEDDSKL 3rg8-a1-m1-cE_3rg8-a1-m1-cH Crystal structure of Treponema denticola PurE Q73PV9 Q73PV9 1.74 X-RAY DIFFRACTION 39 1.0 158 (Treponema denticola) 158 (Treponema denticola) 156 156 3rg8-a1-m1-cA_3rg8-a1-m1-cB 3rg8-a1-m1-cA_3rg8-a1-m1-cD 3rg8-a1-m1-cB_3rg8-a1-m1-cC 3rg8-a1-m1-cD_3rg8-a1-m1-cC 3rg8-a1-m1-cE_3rg8-a1-m1-cF 3rg8-a1-m1-cF_3rg8-a1-m1-cG 3rg8-a1-m1-cH_3rg8-a1-m1-cG 3rgg-a1-m1-cA_3rgg-a1-m1-cB 3rgg-a1-m1-cC_3rgg-a1-m1-cB 3rgg-a1-m1-cC_3rgg-a1-m1-cD 3rgg-a1-m1-cD_3rgg-a1-m1-cA 3rgg-a1-m2-cA_3rgg-a1-m2-cB 3rgg-a1-m2-cC_3rgg-a1-m2-cB 3rgg-a1-m2-cC_3rgg-a1-m2-cD 3rgg-a1-m2-cD_3rgg-a1-m2-cA 5c5d-a1-m1-cA_5c5d-a1-m1-cB 5c5d-a1-m1-cA_5c5d-a1-m1-cD 5c5d-a1-m1-cB_5c5d-a1-m1-cC 5c5d-a1-m1-cC_5c5d-a1-m1-cD 5c5d-a1-m2-cA_5c5d-a1-m2-cB 5c5d-a1-m2-cA_5c5d-a1-m2-cD 5c5d-a1-m2-cB_5c5d-a1-m2-cC 5c5d-a1-m2-cC_5c5d-a1-m2-cD RPLVIILMGSSSDMGHAEKIASELKTFGIEYAIRIGSAHKTAEHVVSMLKEYEALDRPKLYITIAGRSNALSGFVDGFVKGATIACPPPSDSFAGADIYSSLRMPSGISPALVLEPKNAALLAARIFSLYDKEIADSVKSYMESNAQKIIEDDSKL RPLVIILMGSSSDMGHAEKIASELKTFGIEYAIRIGSAHKTAEHVVSMLKEYEALDRPKLYITIAGRSNALSGFVDGFVKGATIACPPPSDSFAGADIYSSLRMPSGISPALVLEPKNAALLAARIFSLYDKEIADSVKSYMESNAQKIIEDDSKL 3rg8-a1-m1-cH_3rg8-a1-m1-cC Crystal structure of Treponema denticola PurE Q73PV9 Q73PV9 1.74 X-RAY DIFFRACTION 97 1.0 158 (Treponema denticola) 158 (Treponema denticola) 156 158 3rg8-a1-m1-cA_3rg8-a1-m1-cF 3rg8-a1-m1-cB_3rg8-a1-m1-cG 3rg8-a1-m1-cD_3rg8-a1-m1-cE 3rgg-a1-m1-cC_3rgg-a1-m2-cB 3rgg-a1-m1-cD_3rgg-a1-m2-cA 3rgg-a1-m2-cC_3rgg-a1-m1-cB 3rgg-a1-m2-cD_3rgg-a1-m1-cA 5c5d-a1-m1-cA_5c5d-a1-m2-cD 5c5d-a1-m1-cB_5c5d-a1-m2-cC 5c5d-a1-m1-cC_5c5d-a1-m2-cB 5c5d-a1-m2-cA_5c5d-a1-m1-cD RPLVIILMGSSSDMGHAEKIASELKTFGIEYAIRIGSAHKTAEHVVSMLKEYEALDRPKLYITIAGRSNALSGFVDGFVKGATIACPPPSDSFAGADIYSSLRMPSGISPALVLEPKNAALLAARIFSLYDKEIADSVKSYMESNAQKIIEDDSKL RPLVIILMGSSSDMGHAEKIASELKTFGIEYAIRIGSAHKTAEHVVSMLKEYEALDRPKLYITIAGRSNALSGFVDGFVKGATIACPPPSDSFAGADIYSSLRMPSGISPALVLEPKNAALLAARIFSLYDKEIADSVKSYMESNAQKIIEDDSKLKR 3rgc-a1-m1-cA_3rgc-a1-m1-cB The virulence factor PEB4 and the periplasmic protein Cj1289 are two structurally related SurA-like chaperones in the human pathogen Campylobacter jejuni Q0P8W8 Q0P8W8 2.3 X-RAY DIFFRACTION 43 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 248 252 NAIAVVVDKEPITTYDIDQTMKALKIDRNKALGVLINEKMEISQMKQLGIVVNDLELDDAINKMLAQNKTTLNAFKANLKSSYEQFRTNFKKDLEKRKLYEKIASMAKTDFSDDGAKKFFEQNKDKFTFYTQINANIYLSNNPQTLENIKNTKKTILKPQNASLNTSNADPRLLGLLSQIPVGSFSPVLNGKNGYELYEVKSKDGTQTPEYEQVKNEVLNAYVSEQRQNFIQDYFDKLRSKINIEYLR NAIAVVVDKEPITTYDIDQTMKALKIDRNKALGVLINEKMEISQMKQLGIVVNDLELDDAINKMLAQNKTTLNAFKANLKSKNQSYEQFRTNFKKDLEKRKLYEKIASMAKTDFSDDGAKKFFEQNKDKFTFYTQINANIYLSNNPQTLENIKNTKKTILKPQNASLNTSNADPRLLGLLSQIPVGSFSPVLNGKNGYELYEVKSKDGTQTPEYEQVKNEVLNAYVSEQRQNFIQDYFDKLRSKINIEYLRA 3rh2-a1-m1-cA_3rh2-a1-m2-cA Crystal structure of a TetR-like transcriptional regulator (Sama_0099) from Shewanella amazonensis SB2B at 2.42 A resolution A1S1Q5 A1S1Q5 2.42 X-RAY DIFFRACTION 47 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 203 203 KTRDKIIQASLELFNEHGERTITTNHIAAHLDISPGNLYYHFRNKEDIIRCIFDQYEQHLLLGFKPYADQKVDLELLSYFDAFYTWQFRFYANLADILARDDTLKARYLKVQQAVLEQSIAVLNQLKKDGILQIEDERIADLADTIKIIGFWISYKLTQSSIATISKASLYEGLLRVLIFKAYSTPDSLANFDRLEQHFRSQS KTRDKIIQASLELFNEHGERTITTNHIAAHLDISPGNLYYHFRNKEDIIRCIFDQYEQHLLLGFKPYADQKVDLELLSYFDAFYTWQFRFYANLADILARDDTLKARYLKVQQAVLEQSIAVLNQLKKDGILQIEDERIADLADTIKIIGFWISYKLTQSSIATISKASLYEGLLRVLIFKAYSTPDSLANFDRLEQHFRSQS 3rh7-a2-m1-cC_3rh7-a2-m1-cD Crystal structure of a putative oxidoreductase (SMa0793) from Sinorhizobium meliloti 1021 at 3.00 A resolution Q92ZM6 Q92ZM6 3 X-RAY DIFFRACTION 256 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 284 284 3rh7-a1-m1-cB_3rh7-a1-m1-cA 3rh7-a3-m1-cF_3rh7-a3-m1-cE VFDPRALRDAFGAFATGVTVVTASDAAGKPIGFTANSFTSVSLDPPLLLVCLAKSSRNYESTSAGRFAINVLSETQKDVSNTFARPVEDRFAAVDWRLGRDGCPIFSDVAAWFECSQDIIEAGDHVIIIGRVTAFENSGLNGLGYARGGYFTPRLAGKAVSAAVEGEIRLGAVLEQQGAVFLAGNETLSLPNCTVEGGDPARTLAAYLEQLTGLNVTIGFLYSVYEDKSDGRQNIVYHALASDGAPRQGRFLRPAELAAAKFSSSATADIINRFVLESSIGNFG VFDPRALRDAFGAFATGVTVVTASDAAGKPIGFTANSFTSVSLDPPLLLVCLAKSSRNYESTSAGRFAINVLSETQKDVSNTFARPVEDRFAAVDWRLGRDGCPIFSDVAAWFECSQDIIEAGDHVIIIGRVTAFENSGLNGLGYARGGYFTPRLAGKAVSAAVEGEIRLGAVLEQQGAVFLAGNETLSLPNCTVEGGDPARTLAAYLEQLTGLNVTIGFLYSVYEDKSDGRQNIVYHALASDGAPRQGRFLRPAELAAAKFSSSATADIINRFVLESSIGNFG 3rh8-a1-m1-cB_3rh8-a1-m1-cD Crystal Structure of the Light-state Dimer of Fungal Blue-Light Photoreceptor Vivid Q9C3Y6 Q9C3Y6 2.75 X-RAY DIFFRACTION 103 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 148 148 HTLYAPGGYDIMGYLIQIMNRPNPQVELGPVDTSCALILCDLKQKDTPIVYASEAFLYMTGYSNAEVLGRNCRFLQSPDGMVKPKSTRKYVDSNTINTIRKAIDRNAEVQVEVVNFKKNGQRFVNFLTIIPVRDETGEYRYSMGFQCE HTLYAPGGYDIMGYLIQIMNRPNPQVELGPVDTSCALILCDLKQKDTPIVYASEAFLYMTGYSNAEVLGRNCRFLQSPDGMVKPKSTRKYVDSNTINTIRKAIDRNAEVQVEVVNFKKNGQRFVNFLTIIPVRDETGEYRYSMGFQCE 3rh9-a1-m1-cB_3rh9-a1-m1-cA The crystal structure of oxidoreductase from Marinobacter aquaeolei A1U6U7 A1U6U7 2.63 X-RAY DIFFRACTION 190 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 462 467 IESPLLENLTGYIGGRWKDSAGGATFDVYNPATGSVIAKVPSPEEDVVAAVEAGQSALRLTNPWPIETRRKWLEDIRDGLKENREEIGRILCEHGKPWKEAQGEVDYAAGFFDYCAKHISALDSHTIPEKPKDCTWTVHYRPVGVTGLIVPWNFPIGIAKKLSAALAAGCPSVIKPASETPLTIAFFSVDKLDLPDGVNLVGKASVIGKVLCEHKDVPLSFTGSTEVGRKLIVDTAEQVKKLALELGGNAPFIVFDDADLEAAADNLIANKFRGGGQTCVCANRIFVHEKVADAFGQKLAERVNKTVGDGNDGIDIGPLINKQGFDKVKRHLQDALDKGASLVAGKQPAELFFPPTVVQGVDRECCYQEETFGPLVPALFRTEEEVIDAGNDTEFGLASYVFTADAERAQRVAAGLRFGHVGWNTGTGPTPEAPFGGKASGIGREGGLEGLFEFVEAQTVPR IESPLLENLTGYIGGRWKDSAGGATFDVYNPATGSVIAKVPSPEEDVVAAVEAGQSALRLTNPWPIETRRKWLEDIRDGLKENREEIGRILCEHGKPWKEAQGEVDYAAGFFDYCAKHISALDSHTIPEKPKDCTWTVHYRPVGVTGLIVPWNFPIGIAKKLSAALAAGCPSVIKPASETPLTIAFFSVDKLDLPDGVNLVGKASVIGKVLCEHKDVPLSFTGSTEVGRKLIVDTAEQVKKLALELGGNAPFIVFDDADLEAAADNLIANKFRGGGQTCVCANRIFVHEKVADAFGQKLAERVNKTVGDGNDGIDIGPLINKQGFDKVKRHLQDALDKGASLVAGKQPAELGDGLFFPPTVVQGVDRECCYQEETFGPLVPALFRTEEEVIDAGNDTEFGLASYVFTADAERAQRVAAGLRFGHVGWNTGTGPTPEAPFGGKASGIGREGGLEGLFEFVEAQTVPRG 3rha-a3-m1-cB_3rha-a3-m1-cA The crystal structure of Oxidoreductase from Arthrobacter aurescens A1R0W1 A1R0W1 2.052 X-RAY DIFFRACTION 118 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 452 459 MQNLDRDVVIVGAGPSGLTAARELKKAGLSVAVLEARDRVGGRTWTDTIDGAMLEIGGQWVSPDQTVLMELLDELGLKMYSRYRDGESVYIGADGKRTQYTGDTFPVNETTKAEMDKLVAILDELAAEIGPTEPWAHPKARELDTISFHHWLRQNSNDEEACNNIGLFIAGGMLTKPAHAFSALQAVLMAASAGSFSHLTDEDFILDKRVIGGMQQVSLLQAAELGDDVVLNSPVRTIKWDENGVSVVSERATVNARFVIMAVPPNLYSRVSFDPPLPRRQHQMHQHQSLGLVIKVHAVYDTPFWREEGLSGTGFSAGALVQEVYDNTNHGDSRGTLVGFVSDEKADAVFELSAEDRKKAILESIAGFLGDKALTPEVYYESDWGSEEWTRGAYASSYDLGGLHRYGKDQHANVGPIYWSSSDLAAEGYQHVDGAVRMGQATAARIVEANKL MQNLDRDVVIVGAGPSGLTAARELKKAGLSVAVLEARDRVGGRTWTDTIDGAMLEIGGQWVSPDQTVLMELLDELGLKMYSRYRDGESVYIGADGKRTQYTGDTFPVNETTKAEMDKLVAILDELAAEIGPTEPWAHPKARELDTISFHHWLRQNSNDEEACNNIGLFIAGGMLTKPAHAFSALQAVLMAASAGSFSHLTDEDFILDKRVIGGMQQVSLLQAAELGDDVVLNSPVRTIKWDENGVSVVSERATVNARFVIMAVPPNLYSRVSFDPPLPRRQHQMHQHQSLGLVIKVHAVYDTPFWREEGLSGTGFSAGALVQEVYDNTNHGDSRGTLVGFVSDEKADAVFELSAEDRKKAILESIAGFLGDKALTPEVYYESDWGSEEWTRGAYASSYDLGGLHRYGKDQHANVGPIYWSSSDLAAEGYQHVDGAVRMGQATAARIVEANKLASVPVAA 3rhe-a2-m1-cA_3rhe-a2-m2-cA The crystal structure of NAD-dependent benzaldehyde dehydrogenase from Legionella pneumophila Q5ZTJ2 Q5ZTJ2 2.053 X-RAY DIFFRACTION 67 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 109 109 PNLVLFYVKNPAKSEEFYKNLLDTQPIESSPTFAFVKTGLRLGLWAQEEIEPKAHGELSFQVNSNEVDEIHRQWSDKEISIIQPPTQDFGYTFVGVDPDEHRLRIFCLK PNLVLFYVKNPAKSEEFYKNLLDTQPIESSPTFAFVKTGLRLGLWAQEEIEPKAHGELSFQVNSNEVDEIHRQWSDKEISIIQPPTQDFGYTFVGVDPDEHRLRIFCLK 3rhf-a2-m1-cD_3rhf-a2-m1-cC Crystal structure of Polyphosphate Kinase 2 from Arthrobacter aurescens TC1 A1R8G0 A1R8G0 2.45 X-RAY DIFFRACTION 30 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 274 276 3rhf-a2-m1-cB_3rhf-a2-m1-cA AVEFAKSPAEVLRVGSGFSLAGVDPESTPGYTGVKADGKALLAAQDARLAELQEKLFAEGKFGNPKRLLLILQADTAGKGGIVSHVVGADPQGVQLTAFKAPTDEEKSHDFLWRIEKQVPAAGVGVFDRSQYEDVLIHRVWADAAELERRYAAINDFESRLTEQGTTIVKVLNISKDEQKKRLIARLDDPSKHWKYSRGDLAERAYWDDYDAYSVAFEKTSTEIAPWHVVPANKKWYARIAVQQLLLDALGGLQLDWPKADFDVAAERALVVES AVEFAKSPAEVLRVGSGFSLAGVDPESTPGYTGVKADGKALLAAQDARLAELQEKLFAEGKFGNPKRLLLILQADTAGKGGIVSHVVGADPQGVQLTAFKAPTDEEKSHDFLWRIEKQVPAAGVGVFDRSQYEDVLIHRVHGWADAAELERRYAAINDFESRLTEQGTTIVKVLNISKDEQKKRLIARLDDPSKHWKYSRGDLAERAYWDDYDAYSVAFEKTSTEIAPWHVVPANKKWYARIAVQQLLLDALGGLQLDWPKADFDVAAERALVVES 3rhf-a3-m1-cD_3rhf-a3-m1-cB Crystal structure of Polyphosphate Kinase 2 from Arthrobacter aurescens TC1 A1R8G0 A1R8G0 2.45 X-RAY DIFFRACTION 101 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 274 276 3rhf-a1-m1-cC_3rhf-a1-m1-cA 3rhf-a2-m1-cC_3rhf-a2-m1-cA 3rhf-a2-m1-cD_3rhf-a2-m1-cB AVEFAKSPAEVLRVGSGFSLAGVDPESTPGYTGVKADGKALLAAQDARLAELQEKLFAEGKFGNPKRLLLILQADTAGKGGIVSHVVGADPQGVQLTAFKAPTDEEKSHDFLWRIEKQVPAAGVGVFDRSQYEDVLIHRVWADAAELERRYAAINDFESRLTEQGTTIVKVLNISKDEQKKRLIARLDDPSKHWKYSRGDLAERAYWDDYDAYSVAFEKTSTEIAPWHVVPANKKWYARIAVQQLLLDALGGLQLDWPKADFDVAAERALVVES AVEFAKSPAEVLRVGSGFSLAGVDPESTPGYTGVKADGKALLAAQDARLAELQEKLFAEGKFGNPKRLLLILQADTAGKGGIVSHVVGADPQGVQLTAFKAPTDEEKSHDFLWRIEKQVPAAGVGVFDRSQYEDVLIHRVHGWADAAELERRYAAINDFESRLTEQGTTIVKVLNISKDEQKKRLIARLDDPSKHWKYSRGDLAERAYWDDYDAYSVAFEKTSTEIAPWHVVPANKKWYARIAVQQLLLDALGGLQLDWPKADFDVAAERALVVES 3rhg-a1-m1-cA_3rhg-a1-m2-cA Crystal structure of amidohydrolase pmi1525 (target efi-500319) from proteus mirabilis hi4320 B4EXV8 B4EXV8 1.53 X-RAY DIFFRACTION 88 1.0 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 363 363 4qsf-a1-m1-cA_4qsf-a1-m2-cA MKGYIQTVTGPVKKADMGLTLPHEHLFNDLSGVVDEPFYEFSHVLVDKKVSADIQWGLKYDPYCCCDNMDKKPIEDVIFELNNFKELGGKTIVDATGSSSIGRDIRKLKQVAELTGINVVASSGLYIEKFEGKRLADDIDAMAKMIDDELNIGIDGTDIRAGMIGEIGVSPFFTDGEKNSLRAAALAQNNNPYASMNIHMPGWQRRGDEVLDILLTEMGCDPAKISLAHSDPSGKDIDYQCKMLDRGVWLEFDMIGLDISFPKEGAAPSVMDTVEAVATLIERGYGNQIVLSHDVFLKQMWAKNGGNGWGFVPNVFLSLLAQRGIDKTIIDKLCIDNPANLLAAENLYFQSHHHHHHWSHPQF MKGYIQTVTGPVKKADMGLTLPHEHLFNDLSGVVDEPFYEFSHVLVDKKVSADIQWGLKYDPYCCCDNMDKKPIEDVIFELNNFKELGGKTIVDATGSSSIGRDIRKLKQVAELTGINVVASSGLYIEKFEGKRLADDIDAMAKMIDDELNIGIDGTDIRAGMIGEIGVSPFFTDGEKNSLRAAALAQNNNPYASMNIHMPGWQRRGDEVLDILLTEMGCDPAKISLAHSDPSGKDIDYQCKMLDRGVWLEFDMIGLDISFPKEGAAPSVMDTVEAVATLIERGYGNQIVLSHDVFLKQMWAKNGGNGWGFVPNVFLSLLAQRGIDKTIIDKLCIDNPANLLAAENLYFQSHHHHHHWSHPQF 3rhh-a1-m1-cC_3rhh-a1-m1-cD Crystal structure of NADP-dependent glyceraldehyde-3-phosphate dehydrogenase from Bacillus halodurans C-125 complexed with NADP Q9KAQ0 Q9KAQ0 2.3 X-RAY DIFFRACTION 28 0.998 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 476 480 3prl-a1-m1-cA_3prl-a1-m1-cB 3prl-a1-m1-cC_3prl-a1-m1-cD 3rhh-a1-m1-cA_3rhh-a1-m1-cB EQFNANILRNGEWVESRTGERISISAPASGVALGSIPALSQEEVNDAIQGAKDAQKIWKIRPIHERVDLLYAWADLLEERKEIIGELIMHEVAKPKKSAIGEVSRTADIIRHTADEALRLNGETLKGDQFKGGSSKKIALVEREPLGVVLAISPFNYPVNLAAAKIAPALVTGNTVVFKPATQGSLSGIKMVEALADAGAPEGIIQVVTGRGSVIGDHLVEHPGIDMITFTGGTTTGERISEKAKMIPVVLELGGKDPAIVLDDADLKLTASQIVSGAFSYSGQRCTAIKRVFVQDSVADQLVANIKELVEQLTVGSPEDDADITPVIDEKSAAFIQGLIDDALENGATLLSGNKRQGNLLSPTLLDDVTPAMRVAWEEPFGPVLPIIRVKDANEAISLSNQSDYGLQASIFTKDTDRAINIGKHLEVGTVHINAKTERGPDHFPFLGVKKSGLGVQGIKPSLLSMTRERVTVLNL QFNANILRNGEWVESRTGERISISAPASGVALGSIPALSQEEVNDAIQGAKDAQKIWKIRPIHERVDLLYAWADLLEERKEIIGELIMHEVAKPKKSAIGEVSRTADIIRHTADEALRLNGETLKGDQFKGGSSKKIALVEREPLGVVLAISPFNYPVNLAAAKIAPALVTGNTVVFKPATQGSLSGIKMVEALADAGAPEGIIQVVTGRGSVIGDHLVEHPGIDMITFTGGTTTGERISEKAKMIPVVLELGGKDPAIVLDDADLKLTASQIVSGAFSYSGQRCTAIKRVFVQDSVADQLVANIKELVEQLTVGSPEDDADITPVIDEKSAAFIQGLIDDALENGATLLSGNKRQGNLLSPTLLDDVTPAMRVAWEEPFGPVLPIIRVKDANEAISLSNQSDYGLQASIFTKDTDRAINIGKHLEVGTVHINAKTERGPDHFPFLGVKKSGLGVQGIKPSLLSMTRERVTVLNLAENLY 3rhi-a2-m1-cD_3rhi-a2-m1-cC DNA-binding protein HU from Bacillus anthracis A0A6L8Q3B5 A0A6L8Q3B5 2.48 X-RAY DIFFRACTION 120 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 82 90 MNKTELIKNVAQNAEISQKEATVVVQTVVESITNTLAAGEKVQLIGFGTFEVRERAARTEMQIAASKVPAFKAGKELKEAVK MNKTELIKNVAQNAEISQKEATVVVQTVVESITNTLAAGEKVQLIGFGTFEVRERAARTGRNPQTGEEMQIAASKVPAFKAGKELKEAVK 3rht-a2-m1-cB_3rht-a2-m1-cC Crystal structure of type 1 glutamine amidotransferase (GATase1)-like protein from Planctomyces limnophilus D5SQH6 D5SQH6 1.83 X-RAY DIFFRACTION 127 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 246 246 3rht-a1-m1-cA_3rht-a1-m1-cD RVLYCGDTSLETAAGYLAGLTSWQWEFDYIPSHVGLDVGELLAKQDLVILSDYPAERTAQAIDQLVTVKAGCGLVLGGWESYHGLGGNWDQTLLAEVLPVDIKSADDRINFDQPTLAIPAAINSVSHPILQNLPWEDRPPTIGGLNRIAAKAKAQTLLARVWRPTFSLEHGKTTWEHADHHPLLVVGEAGTGRVAAFASDVAPHWVGGLVDWGDERVTSQAPGAGAIEVGNLYSQFFRQLEWVAKS RVLYCGDTSLETAAGYLAGLTSWQWEFDYIPSHVGLDVGELLAKQDLVILSDYPAERTAQAIDQLVTVKAGCGLVLGGWESYHGLGGNWDQTLLAEVLPVDIKSADDRINFDQPTLAIPAAINSVSHPILQNLPWEDRPPTIGGLNRIAAKAKAQTLLARVWRPTFSLEHGKTTWEHADHHPLLVVGEAGTGRVAAFASDVAPHWVGGLVDWGDERVTSQAPGAGAIEVGNLYSQFFRQLEWVAKS 3rhu-a3-m1-cA_3rhu-a3-m1-cB Epitope backbone grafting by computational design for improved presentation of linear epitopes on scaffold proteins O58307 O58307 2.8 X-RAY DIFFRACTION 68 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 141 141 YSIEVRTHSALHVVKGAVVKTAGSDAKWTTSTYVKGNKGVLIVKAALEPDKWGIAAIEALANEKVKENAPIKIYELPREEAEKMFGEDMYDILKVVVIEDWNVNACNKEHTKTTGEIGPIKIRKVRFRKSKGLLEIHFELL YSIEVRTHSALHVVKGAVVKTAGSDAKWTTSTYVKGNKGVLIVKAALEPDKWGIAAIEALANEKVKENAPIKIYELPREEAEKMFGEDMYDILKVVVIEDWNVNACNKEHTKTTGEIGPIKIRKVRFRKSKGLLEIHFELL 3rhz-a1-m1-cA_3rhz-a1-m2-cA Structure and functional analysis of a new subfamily of glycosyltransferases required for glycosylation of serine-rich streptococcal adhesions B5A7L9 B5A7L9 1.898 X-RAY DIFFRACTION 66 1.0 1318 (Streptococcus parasanguinis) 1318 (Streptococcus parasanguinis) 330 330 3qkw-a1-m1-cB_3qkw-a1-m1-cA 3qkw-a1-m1-cD_3qkw-a1-m1-cC 3rhz-a1-m1-cB_3rhz-a1-m2-cB CMRVYITNINGQSIQSTAQLCQNTVTDVAVSLGYRELGIYCYQIHTDSESELSKRLDGIVAGLRHGDVVIFQTPTWNTTEFDEKLMNKLKLYDIKIVLFIHDVVPLMFSGNFYLMDRTIAYYNKADVVVAPSQKMIDKLRDFGMNVSKTVVQGMWDHPTQAPMFPAGLKREIHFPGNPERFSFVKEWKYDIPLKVYTWQNVELPQNVHKINYRPDEQLLMEMSQGGFGLVWMDDKDKEYQSLYCSYKLGSFLAAGIPVIVQEGIANQELIENNGLGWIVKDVEEAIMKVKNVNEDEYIELVKNVRSFNPILRKGFFTRRLLTESVFQAIC CMRVYITNINGQSIQSTAQLCQNTVTDVAVSLGYRELGIYCYQIHTDSESELSKRLDGIVAGLRHGDVVIFQTPTWNTTEFDEKLMNKLKLYDIKIVLFIHDVVPLMFSGNFYLMDRTIAYYNKADVVVAPSQKMIDKLRDFGMNVSKTVVQGMWDHPTQAPMFPAGLKREIHFPGNPERFSFVKEWKYDIPLKVYTWQNVELPQNVHKINYRPDEQLLMEMSQGGFGLVWMDDKDKEYQSLYCSYKLGSFLAAGIPVIVQEGIANQELIENNGLGWIVKDVEEAIMKVKNVNEDEYIELVKNVRSFNPILRKGFFTRRLLTESVFQAIC 3rhz-a1-m2-cB_3rhz-a1-m1-cA Structure and functional analysis of a new subfamily of glycosyltransferases required for glycosylation of serine-rich streptococcal adhesions B5A7L9 B5A7L9 1.898 X-RAY DIFFRACTION 21 1.0 1318 (Streptococcus parasanguinis) 1318 (Streptococcus parasanguinis) 326 330 3qkw-a1-m1-cA_3qkw-a1-m1-cC 3qkw-a1-m1-cB_3qkw-a1-m1-cD 3rhz-a1-m1-cB_3rhz-a1-m2-cA CMRVYITNINGQSIQSTAQLCQNTVTDVAVSLGYRELGIYCYQIHTDSESELSKRLDGIVAGLRHGDVVIFQTPTWNTTEFDEKLMNKLKLYDIKIVLFIHDVVPLMNFYLMDRTIAYYNKADVVVAPSQKMIDKLRDFGMNVSKTVVQGMWDHPTQAPMFPALKREIHFPGNPERFSFVKEWKYDIPLKVYTWQNVELPQNVHKINYRPDEQLLMEMSQGGFGLVWMDDKDKEYQSLYCSYKLGSFLAAGIPVIVQEGIANQELIENNGLGWIVKDVEEAIMKVKNVNEDEYIELVKNVRSFNPILRKGFFTRRLLTESVFQAIC CMRVYITNINGQSIQSTAQLCQNTVTDVAVSLGYRELGIYCYQIHTDSESELSKRLDGIVAGLRHGDVVIFQTPTWNTTEFDEKLMNKLKLYDIKIVLFIHDVVPLMFSGNFYLMDRTIAYYNKADVVVAPSQKMIDKLRDFGMNVSKTVVQGMWDHPTQAPMFPAGLKREIHFPGNPERFSFVKEWKYDIPLKVYTWQNVELPQNVHKINYRPDEQLLMEMSQGGFGLVWMDDKDKEYQSLYCSYKLGSFLAAGIPVIVQEGIANQELIENNGLGWIVKDVEEAIMKVKNVNEDEYIELVKNVRSFNPILRKGFFTRRLLTESVFQAIC 3rhz-a1-m2-cB_3rhz-a1-m2-cA Structure and functional analysis of a new subfamily of glycosyltransferases required for glycosylation of serine-rich streptococcal adhesions B5A7L9 B5A7L9 1.898 X-RAY DIFFRACTION 57 1.0 1318 (Streptococcus parasanguinis) 1318 (Streptococcus parasanguinis) 326 330 3qkw-a1-m1-cB_3qkw-a1-m1-cC 3qkw-a1-m1-cD_3qkw-a1-m1-cA 3rhz-a1-m1-cB_3rhz-a1-m1-cA CMRVYITNINGQSIQSTAQLCQNTVTDVAVSLGYRELGIYCYQIHTDSESELSKRLDGIVAGLRHGDVVIFQTPTWNTTEFDEKLMNKLKLYDIKIVLFIHDVVPLMNFYLMDRTIAYYNKADVVVAPSQKMIDKLRDFGMNVSKTVVQGMWDHPTQAPMFPALKREIHFPGNPERFSFVKEWKYDIPLKVYTWQNVELPQNVHKINYRPDEQLLMEMSQGGFGLVWMDDKDKEYQSLYCSYKLGSFLAAGIPVIVQEGIANQELIENNGLGWIVKDVEEAIMKVKNVNEDEYIELVKNVRSFNPILRKGFFTRRLLTESVFQAIC CMRVYITNINGQSIQSTAQLCQNTVTDVAVSLGYRELGIYCYQIHTDSESELSKRLDGIVAGLRHGDVVIFQTPTWNTTEFDEKLMNKLKLYDIKIVLFIHDVVPLMFSGNFYLMDRTIAYYNKADVVVAPSQKMIDKLRDFGMNVSKTVVQGMWDHPTQAPMFPAGLKREIHFPGNPERFSFVKEWKYDIPLKVYTWQNVELPQNVHKINYRPDEQLLMEMSQGGFGLVWMDDKDKEYQSLYCSYKLGSFLAAGIPVIVQEGIANQELIENNGLGWIVKDVEEAIMKVKNVNEDEYIELVKNVRSFNPILRKGFFTRRLLTESVFQAIC 3ri0-a3-m1-cB_3ri0-a3-m2-cB Epitope backbone grafting by computational design for improved presentation of linear epitopes on scaffold proteins Q5SHN1 Q5SHN1 2.25 X-RAY DIFFRACTION 19 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 155 155 LSPSARRVQGALETRGFGHLKVVELPARTAKEAAQAVGAEVGQIVKSLAYGGSKGAYLFLVSGKNRLDLGKAARLVGTDLLELDKWAVAALTGFAAGGVPPVGHNTPLPAYLDEDLLGYPEVWAAGGTPRALFRATPKELLALTGAQVADLKEGL LSPSARRVQGALETRGFGHLKVVELPARTAKEAAQAVGAEVGQIVKSLAYGGSKGAYLFLVSGKNRLDLGKAARLVGTDLLELDKWAVAALTGFAAGGVPPVGHNTPLPAYLDEDLLGYPEVWAAGGTPRALFRATPKELLALTGAQVADLKEGL 3ri0-a3-m2-cB_3ri0-a3-m1-cA Epitope backbone grafting by computational design for improved presentation of linear epitopes on scaffold proteins Q5SHN1 Q5SHN1 2.25 X-RAY DIFFRACTION 76 0.994 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 155 156 3ri0-a3-m1-cB_3ri0-a3-m2-cA LSPSARRVQGALETRGFGHLKVVELPARTAKEAAQAVGAEVGQIVKSLAYGGSKGAYLFLVSGKNRLDLGKAARLVGTDLLELDKWAVAALTGFAAGGVPPVGHNTPLPAYLDEDLLGYPEVWAAGGTPRALFRATPKELLALTGAQVADLKEGL LSPSARRVQGALETRGFGHLKVVELPASTRTAKEAAQAVGAEVGQIVKSLAYGGSKGAYLFLVSGKNRLDLGKAARLVGTDLLELDKWAVAALTGFAAGGVPPVGHNTPLPAYLDEDLLGYPEVWAAGGTPRALFRATPKELLALTGAQVADLKEG 3ri0-a3-m2-cB_3ri0-a3-m2-cA Epitope backbone grafting by computational design for improved presentation of linear epitopes on scaffold proteins Q5SHN1 Q5SHN1 2.25 X-RAY DIFFRACTION 19 0.994 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 155 156 3ri0-a3-m1-cB_3ri0-a3-m1-cA LSPSARRVQGALETRGFGHLKVVELPARTAKEAAQAVGAEVGQIVKSLAYGGSKGAYLFLVSGKNRLDLGKAARLVGTDLLELDKWAVAALTGFAAGGVPPVGHNTPLPAYLDEDLLGYPEVWAAGGTPRALFRATPKELLALTGAQVADLKEGL LSPSARRVQGALETRGFGHLKVVELPASTRTAKEAAQAVGAEVGQIVKSLAYGGSKGAYLFLVSGKNRLDLGKAARLVGTDLLELDKWAVAALTGFAAGGVPPVGHNTPLPAYLDEDLLGYPEVWAAGGTPRALFRATPKELLALTGAQVADLKEG 3ri6-a1-m2-cB_3ri6-a1-m1-cA A Novel Mechanism of Sulfur Transfer Catalyzed by O-Acetylhomoserine Sulfhydrylase in Methionine Biosynthetic Pathway of Wolinella succinogenes Q7M9C8 Q7M9C8 2.2 X-RAY DIFFRACTION 69 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 341 353 3ri6-a1-m1-cB_3ri6-a1-m2-cA RGFTTRALHVSNPTVEDLEQRLKNLTGALGVLALGSGMAAISTAILTLARAGDSVVTTDRLFGHTLSLFQKTLPSFGIEVRFVDVMDSLAVEHACDETTKLLFLETISNPQLQVADLEALSKVVHAKGIPLVVDTTMTPPYLLEAKRLGVDIEVLSSTKFIGTSVGGVLIDHGLFEWKSLPSLAPYYAKAGPMAFLYKARKEVFQNLGPSLSPHNAYLQSLGLETMALRIERSCQNAQELAHWLLSIPQVKCVNHPSLPDSPFYAIAKRQFRYAGSILTFELESKEASYRFMDALKLIRRATNIHDNKSLILSPYISPAMMRLSVGIEEIEDLKEDILQAL RGFTTRALHVPSNPTVEDLEQRLKNLTGALGVLALGSGMAAISTAILTLARAGDSVVTTDRLFGHTLSLFQKTLPSFGIEVRFVDVMDSLAVEHACDETTKLLFLETISNPQLQVADLEALSKVVHAKGIPLVVDTTMTPPYLLEAKRLGVDIEVLSSTKFISGGGTSVGGVLIDHGLFEWKSLPSLAPYYAKAGPMAFLYKARKEVFQNLGPSLSPHNAYLQSLGLETMALRIERSCQNAQELAHWLLSIPQVKCVNHPSLPDSPFYAIAKRQFRYAGSILTFELESKEASYRFMDALKLIRRATNIHDNKSLILSPYHVILKLEISPAMMRLSVGIEEIEDLKEDILQALC 3ri6-a1-m2-cB_3ri6-a1-m2-cA A Novel Mechanism of Sulfur Transfer Catalyzed by O-Acetylhomoserine Sulfhydrylase in Methionine Biosynthetic Pathway of Wolinella succinogenes Q7M9C8 Q7M9C8 2.2 X-RAY DIFFRACTION 139 1.0 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 341 353 3ri6-a1-m1-cB_3ri6-a1-m1-cA RGFTTRALHVSNPTVEDLEQRLKNLTGALGVLALGSGMAAISTAILTLARAGDSVVTTDRLFGHTLSLFQKTLPSFGIEVRFVDVMDSLAVEHACDETTKLLFLETISNPQLQVADLEALSKVVHAKGIPLVVDTTMTPPYLLEAKRLGVDIEVLSSTKFIGTSVGGVLIDHGLFEWKSLPSLAPYYAKAGPMAFLYKARKEVFQNLGPSLSPHNAYLQSLGLETMALRIERSCQNAQELAHWLLSIPQVKCVNHPSLPDSPFYAIAKRQFRYAGSILTFELESKEASYRFMDALKLIRRATNIHDNKSLILSPYISPAMMRLSVGIEEIEDLKEDILQAL RGFTTRALHVPSNPTVEDLEQRLKNLTGALGVLALGSGMAAISTAILTLARAGDSVVTTDRLFGHTLSLFQKTLPSFGIEVRFVDVMDSLAVEHACDETTKLLFLETISNPQLQVADLEALSKVVHAKGIPLVVDTTMTPPYLLEAKRLGVDIEVLSSTKFISGGGTSVGGVLIDHGLFEWKSLPSLAPYYAKAGPMAFLYKARKEVFQNLGPSLSPHNAYLQSLGLETMALRIERSCQNAQELAHWLLSIPQVKCVNHPSLPDSPFYAIAKRQFRYAGSILTFELESKEASYRFMDALKLIRRATNIHDNKSLILSPYHVILKLEISPAMMRLSVGIEEIEDLKEDILQALC 3ri7-a1-m1-cA_3ri7-a1-m2-cA Toluene 4 monooxygenase HD Mutant G103L Q00456 Q00456 2.1 X-RAY DIFFRACTION 32 1.0 300 (Pseudomonas mendocina) 300 (Pseudomonas mendocina) 492 492 3dhi-a2-m1-cA_3dhi-a2-m5-cA 3dhi-a3-m1-cA_3dhi-a3-m5-cA 3ge3-a1-m1-cA_3ge3-a1-m2-cA 3ge8-a1-m1-cD_3ge8-a1-m1-cA 3i5j-a1-m1-cA_3i5j-a1-m2-cA 3i63-a1-m1-cA_3i63-a1-m2-cA 3q14-a1-m1-cA_3q14-a1-m2-cA 3q2a-a1-m1-cA_3q2a-a1-m2-cA 3q3m-a1-m1-cA_3q3m-a1-m1-cD 3q3n-a1-m1-cA_3q3n-a1-m2-cA 3q3o-a1-m1-cA_3q3o-a1-m2-cA 3rmk-a2-m1-cD_3rmk-a2-m2-cA 4p1b-a1-m1-cA_4p1b-a1-m1-cD 4p1c-a1-m1-cA_4p1c-a1-m1-cD 5tds-a1-m1-cA_5tds-a1-m2-cD 5tdt-a1-m1-cA_5tdt-a1-m1-cD 5tdu-a1-m1-cA_5tdu-a1-m2-cA 5tdv-a1-m1-cA_5tdv-a1-m1-cD AMHPRKDWYELTRATNWTPSYVTEEQLFPERMSGHMGIPLEKWESYDEPYKTSYPEYVSIQREKDAGAYSVKAALERAKIYENSDPGWISTLKSHYGAIAVLEYAAVTGEGRMARFSKAPGNRNMATFGMMDELRHGQLQLFFPHEYCKKDRQFDWAWRAYHSNEWAAIAAKHFFDDIITGRDAISVAIMLTFSFETGFTNMQFLGLAADAAEAGDYTFANLISSIQTDESRHAQQGGPALQLLIENGKREEAQKKVDMAIWRAWRLFAVLTGPVMDYYTPLEDRSQSFKEFMYEWIIGQFERSLIDLGLDKPWYWDLFLKDIDELHHSYHMGVWYWRTTAWWNPAAGVTPEERDWLEEKYPGWNKRWGRCWDVITENVLNDRMDLVSPETLPSVCNMSQIPLVGVPGDDWNIEVFSLEHNGRLYHFGSEVDRWVFQQDPVQYQNHMNIVDRFLAGQIQPMTLEGALKYMGFQSIEEMGKDAHDFAWADKCK AMHPRKDWYELTRATNWTPSYVTEEQLFPERMSGHMGIPLEKWESYDEPYKTSYPEYVSIQREKDAGAYSVKAALERAKIYENSDPGWISTLKSHYGAIAVLEYAAVTGEGRMARFSKAPGNRNMATFGMMDELRHGQLQLFFPHEYCKKDRQFDWAWRAYHSNEWAAIAAKHFFDDIITGRDAISVAIMLTFSFETGFTNMQFLGLAADAAEAGDYTFANLISSIQTDESRHAQQGGPALQLLIENGKREEAQKKVDMAIWRAWRLFAVLTGPVMDYYTPLEDRSQSFKEFMYEWIIGQFERSLIDLGLDKPWYWDLFLKDIDELHHSYHMGVWYWRTTAWWNPAAGVTPEERDWLEEKYPGWNKRWGRCWDVITENVLNDRMDLVSPETLPSVCNMSQIPLVGVPGDDWNIEVFSLEHNGRLYHFGSEVDRWVFQQDPVQYQNHMNIVDRFLAGQIQPMTLEGALKYMGFQSIEEMGKDAHDFAWADKCK 3rih-a1-m1-cA_3rih-a1-m1-cD Crystal structure of a putative short chain dehydrogenase or reductase from Mycobacterium abscessus B1MJ88 B1MJ88 2.15 X-RAY DIFFRACTION 50 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 260 260 3rih-a1-m1-cC_3rih-a1-m1-cB KVMFDLSARSVLVTGGTKGIGRGIATVFARAGANVAVAARSPRELSSVTAELGELGAGNVIGVRLDVSDPGSCADAARTVVDAFGALDVVCANAGIFPEARLDTMTPEQLSEVLDVNVKGTVYTVQACLAPLTASGRGRVILTSSITGPVTGYPGWSHYGASKAAQLGFMRTAAIELAPRGVTVNAILPGNILTEGLVDMGEEYISGMARSIPMGMLGSPVDIGHLAAFLATDEAGYITGQAIVVDGGQVLPESPDAVNP KVMFDLSARSVLVTGGTKGIGRGIATVFARAGANVAVAARSPRELSSVTAELGELGAGNVIGVRLDVSDPGSCADAARTVVDAFGALDVVCANAGIFPEARLDTMTPEQLSEVLDVNVKGTVYTVQACLAPLTASGRGRVILTSSITGPVTGYPGWSHYGASKAAQLGFMRTAAIELAPRGVTVNAILPGNILTEGLVDMGEEYISGMARSIPMGMLGSPVDIGHLAAFLATDEAGYITGQAIVVDGGQVLPESPDAVNP 3rih-a1-m1-cB_3rih-a1-m1-cD Crystal structure of a putative short chain dehydrogenase or reductase from Mycobacterium abscessus B1MJ88 B1MJ88 2.15 X-RAY DIFFRACTION 132 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 260 260 3rih-a1-m1-cC_3rih-a1-m1-cA KVMFDLSARSVLVTGGTKGIGRGIATVFARAGANVAVAARSPRELSSVTAELGELGAGNVIGVRLDVSDPGSCADAARTVVDAFGALDVVCANAGIFPEARLDTMTPEQLSEVLDVNVKGTVYTVQACLAPLTASGRGRVILTSSITGPVTGYPGWSHYGASKAAQLGFMRTAAIELAPRGVTVNAILPGNILTEGLVDMGEEYISGMARSIPMGMLGSPVDIGHLAAFLATDEAGYITGQAIVVDGGQVLPESPDAVNP KVMFDLSARSVLVTGGTKGIGRGIATVFARAGANVAVAARSPRELSSVTAELGELGAGNVIGVRLDVSDPGSCADAARTVVDAFGALDVVCANAGIFPEARLDTMTPEQLSEVLDVNVKGTVYTVQACLAPLTASGRGRVILTSSITGPVTGYPGWSHYGASKAAQLGFMRTAAIELAPRGVTVNAILPGNILTEGLVDMGEEYISGMARSIPMGMLGSPVDIGHLAAFLATDEAGYITGQAIVVDGGQVLPESPDAVNP 3rih-a1-m1-cC_3rih-a1-m1-cD Crystal structure of a putative short chain dehydrogenase or reductase from Mycobacterium abscessus B1MJ88 B1MJ88 2.15 X-RAY DIFFRACTION 144 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 259 260 3rih-a1-m1-cA_3rih-a1-m1-cB VMFDLSARSVLVTGGTKGIGRGIATVFARAGANVAVAARSPRELSSVTAELGELGAGNVIGVRLDVSDPGSCADAARTVVDAFGALDVVCANAGIFPEARLDTMTPEQLSEVLDVNVKGTVYTVQACLAPLTASGRGRVILTSSITGPVTGYPGWSHYGASKAAQLGFMRTAAIELAPRGVTVNAILPGNILTEGLVDMGEEYISGMARSIPMGMLGSPVDIGHLAAFLATDEAGYITGQAIVVDGGQVLPESPDAVNP KVMFDLSARSVLVTGGTKGIGRGIATVFARAGANVAVAARSPRELSSVTAELGELGAGNVIGVRLDVSDPGSCADAARTVVDAFGALDVVCANAGIFPEARLDTMTPEQLSEVLDVNVKGTVYTVQACLAPLTASGRGRVILTSSITGPVTGYPGWSHYGASKAAQLGFMRTAAIELAPRGVTVNAILPGNILTEGLVDMGEEYISGMARSIPMGMLGSPVDIGHLAAFLATDEAGYITGQAIVVDGGQVLPESPDAVNP 3rii-a3-m1-cA_3rii-a3-m2-cB Crystal structure of the catalytic domain of UCHL5, a proteasome-associated human deubiquitinating enzyme, reveals an unproductive form of the enzyme Q9Y5K5 Q9Y5K5 2.0008 X-RAY DIFFRACTION 31 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 209 211 3a7s-a2-m1-cA_3a7s-a2-m2-cA GEWCLESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNASATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAKGLALSNSDVIRQVHNSFARQAKEEDAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLAIVSDR EWCLESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNASATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAKGLALSNSDVIRQVHNSFARTKTSAKEEDAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLAIVSDR 3rim-a2-m1-cB_3rim-a2-m1-cD Crystal structure of mycobacterium tuberculosis Transketolase (Rv1449c) P9WG25 P9WG25 2.49 X-RAY DIFFRACTION 339 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 694 694 3rim-a1-m1-cA_3rim-a1-m1-cC ISALTRPRHPDYWTEIDSAAVDTIRVLAADAVQKVGNGHPGTAMSLAPLAYTLFQRTMRHDPSDTHWLGRDRFVLSAGHSSLTLYIQLYLGGFGLELSDIESLRTWGSKTPGHPEFRHTPGVEITTGPLGQGLASAVGMAMASRYERGLFDPDAEPGASPFDHYIYVIASDGDIEEGVTSEASSLAAVQQLGNLIVFYDRNQISIEDDTNIALCEDTAARYRAYGWHVQEVEGGENVVGIEEAIANAQAVTDRPSFIALRTVIGYPAPNLMDTGKAHGAALGDDEVAAVKKIVGFDPDKTFQVREDVLTHTRGLVARGKQAHERWQLEFDAWARREPERKALLDRLLAQKLPDGWDADLPHWEPGSKALATRAASGAVLSALGPKLPELWGGSADLAGSNNTTIKGADSFGPPSISTKEYTAHWYGRTLHFGVREHAMGAILSGIVLHGPTRAYGGTFLQFSDYMRPAVRLAALMDIDTIYVWTHDSIGLGEDGPTHQPIEHLSALRAIPRLSVVRPADANETAYAWRTILARRNGSGPVGLILTRQGVPVLDGTDAEGVARGGYVLSDAGGLQPGEEPDVILIATGSEVQLAVAAQTLLADNDILARVVSMPCLEWFEAQPYEYRDAVLPPTVSARVAVEAGVAQCWHQLVGDTGEIVSIEHYGESADHKTLFREYGFTAEAVAAAAERALDN ISALTRPRHPDYWTEIDSAAVDTIRVLAADAVQKVGNGHPGTAMSLAPLAYTLFQRTMRHDPSDTHWLGRDRFVLSAGHSSLTLYIQLYLGGFGLELSDIESLRTWGSKTPGHPEFRHTPGVEITTGPLGQGLASAVGMAMASRYERGLFDPDAEPGASPFDHYIYVIASDGDIEEGVTSEASSLAAVQQLGNLIVFYDRNQISIEDDTNIALCEDTAARYRAYGWHVQEVEGGENVVGIEEAIANAQAVTDRPSFIALRTVIGYPAPNLMDTGKAHGAALGDDEVAAVKKIVGFDPDKTFQVREDVLTHTRGLVARGKQAHERWQLEFDAWARREPERKALLDRLLAQKLPDGWDADLPHWEPGSKALATRAASGAVLSALGPKLPELWGGSADLAGSNNTTIKGADSFGPPSISTKEYTAHWYGRTLHFGVREHAMGAILSGIVLHGPTRAYGGTFLQFSDYMRPAVRLAALMDIDTIYVWTHDSIGLGEDGPTHQPIEHLSALRAIPRLSVVRPADANETAYAWRTILARRNGSGPVGLILTRQGVPVLDGTDAEGVARGGYVLSDAGGLQPGEEPDVILIATGSEVQLAVAAQTLLADNDILARVVSMPCLEWFEAQPYEYRDAVLPPTVSARVAVEAGVAQCWHQLVGDTGEIVSIEHYGESADHKTLFREYGFTAEAVAAAAERALDN 3rip-a2-m1-cA_3rip-a2-m2-cA Crystal Structure of human gamma-tubulin complex protein 4 (GCP4) Q9UGJ1 Q9UGJ1 2.3 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 568 568 MIHELLLALSGYPGSIFTWNKRSGLQVSQDFPFLHPSETSVLNRLCRLGTDYIRFTEFIEQYTGHGGLHGIYLRAFCTGLDSVLQPYRQALLDLEQEFLGDPHLSISHVNYFLDQFQLLFPSVMVVVEQIKSQKIHGCQILETVYKHSCGGLPPVRSALEKILAVCHGVMYKQLSAWMLHGLLLDQHEEFFIKQGSLKQFSLRVEILPSYIPVRVAEKILFVGESVQMFENNVNLTSILKNQEDTFAAELHRLKQQPLFSLVDFEQVVDRIRSTVAEHLWKLMVEESDLLGQLKIIKDFYLLGRGELFQAFIDTAQHMLKTPPTAVTEHDVNVAFQQSAHKVLLDDDNLLPLLHLTIEYHGASGWAALGLSYKVQWPLHILFTPAVLEKYNVVFKYLLSVRRVQAELQHCWALQMQRKHLKSNQTDAIKWRLRNHMAFLVDNLQYYLQVDVLESQFSQLLHQINSTRDFESIRLAHDHFLSNLLAQSFILLKPVFHCLNEILDLCHSFCSLVSQNLLDERGAAQLSILVKGFSRQSSLLFKILSSVRNHQINSDLAQLLLRLDYNKYY MIHELLLALSGYPGSIFTWNKRSGLQVSQDFPFLHPSETSVLNRLCRLGTDYIRFTEFIEQYTGHGGLHGIYLRAFCTGLDSVLQPYRQALLDLEQEFLGDPHLSISHVNYFLDQFQLLFPSVMVVVEQIKSQKIHGCQILETVYKHSCGGLPPVRSALEKILAVCHGVMYKQLSAWMLHGLLLDQHEEFFIKQGSLKQFSLRVEILPSYIPVRVAEKILFVGESVQMFENNVNLTSILKNQEDTFAAELHRLKQQPLFSLVDFEQVVDRIRSTVAEHLWKLMVEESDLLGQLKIIKDFYLLGRGELFQAFIDTAQHMLKTPPTAVTEHDVNVAFQQSAHKVLLDDDNLLPLLHLTIEYHGASGWAALGLSYKVQWPLHILFTPAVLEKYNVVFKYLLSVRRVQAELQHCWALQMQRKHLKSNQTDAIKWRLRNHMAFLVDNLQYYLQVDVLESQFSQLLHQINSTRDFESIRLAHDHFLSNLLAQSFILLKPVFHCLNEILDLCHSFCSLVSQNLLDERGAAQLSILVKGFSRQSSLLFKILSSVRNHQINSDLAQLLLRLDYNKYY 3riq-a1-m2-cA_3riq-a1-m3-cA Siphovirus 9NA tailspike receptor binding domain G8GV21 G8GV21 1.5 X-RAY DIFFRACTION 355 1.0 1113547 (Salmonella phage 9NA) 1113547 (Salmonella phage 9NA) 541 541 3riq-a1-m1-cA_3riq-a1-m2-cA 3riq-a1-m1-cA_3riq-a1-m3-cA FRSEADKKFKYSVKLSDYMTLQEAATAAVDSLLIDIDYNFIDGEAVDFGGKVLTIECKAKFIGDGVLNWNNLGSGSKVISPHMHTKTTPYTVYRFDDNGNWVTNPTTVLASVAQRLDKGYKPNVNDHDIWASLPDNVKNQVAGATLRVNSANNIIFTHPEATMGGYLFTLCNHILVESPRNFIAWESGITFENHHTTAWGTGNKVVGGEIKYGSGSAVLFIRNDGGDDHDGGVRDLISYRVGESGVKTYQNEIGGRSARNYRLVFDNITTIQCYYDGIDVNADTGSPTERVDDYTLAEYPWFQLPTQHIIRNIITRDCMGIGAWWDGQKNIIDNVVTYEAHKEGMFDRGTNNDITNITVVCANKDLTNLNQIVCEGGSRLRGIMVHAYTTQGYAVYAPSSEVSNVSCAGSGTKKILCTYVADIQGGNINVQHGENAMTLSMRPAMGGTINPSLVLTADCQVASPGNEASIVKLSAIQDGARVGELQLNRLGFKHMSIPVAESQLPESALEFNSSIGFFFGTDDELRILAKKPDGTFVTYSL FRSEADKKFKYSVKLSDYMTLQEAATAAVDSLLIDIDYNFIDGEAVDFGGKVLTIECKAKFIGDGVLNWNNLGSGSKVISPHMHTKTTPYTVYRFDDNGNWVTNPTTVLASVAQRLDKGYKPNVNDHDIWASLPDNVKNQVAGATLRVNSANNIIFTHPEATMGGYLFTLCNHILVESPRNFIAWESGITFENHHTTAWGTGNKVVGGEIKYGSGSAVLFIRNDGGDDHDGGVRDLISYRVGESGVKTYQNEIGGRSARNYRLVFDNITTIQCYYDGIDVNADTGSPTERVDDYTLAEYPWFQLPTQHIIRNIITRDCMGIGAWWDGQKNIIDNVVTYEAHKEGMFDRGTNNDITNITVVCANKDLTNLNQIVCEGGSRLRGIMVHAYTTQGYAVYAPSSEVSNVSCAGSGTKKILCTYVADIQGGNINVQHGENAMTLSMRPAMGGTINPSLVLTADCQVASPGNEASIVKLSAIQDGARVGELQLNRLGFKHMSIPVAESQLPESALEFNSSIGFFFGTDDELRILAKKPDGTFVTYSL 3ris-a6-m1-cD_3ris-a6-m1-cB Crystal structure of the catalytic domain of UCHL5, a proteasome-associated human deubiquitinating enzyme, reveals an unproductive form of the enzyme Q9Y5K5 Q9Y5K5 2.398 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 222 227 3ris-a5-m1-cC_3ris-a5-m1-cA EWCLMESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNACATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAMKGLALSNSDVIRQVHNSFARQQMFEFAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLMAIVSDRKMIYEQKIAEL EWCLMESDPGVFTELIKGFGCRGAQVEEIWSLEPENFEKLKPVHGLIFLFKWQPGEEPAGSVVQDSRLDTIFFAKQVINNACATQAIVSVLLNCTHQDVHLGETLSEFKEFSQSFDAAMKGLALSNSDVIRQVHNSFARQQMFEFDTEDAFHFVSYVPVNGRLYELDGLREGPIDLGACNQDDWISAVRPVIEKRIQKYSEGEIRFNLMAIVSDRKMIYEQKIAELQ 3riu-a1-m2-cB_3riu-a1-m1-cA Crystal structure of Drosophila hexameric C3PO formed by truncated Translin and Trax Q7JVK6 Q7JVK6 3.4 X-RAY DIFFRACTION 28 0.99 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 201 204 3riu-a1-m1-cB_3riu-a1-m2-cA 4dg7-a1-m1-cA_4dg7-a1-m1-cC 4dg7-a1-m1-cA_4dg7-a1-m1-cG 4dg7-a1-m1-cB_4dg7-a1-m1-cD 4dg7-a1-m1-cB_4dg7-a1-m1-cH 4dg7-a1-m1-cC_4dg7-a1-m1-cE 4dg7-a1-m1-cD_4dg7-a1-m1-cF LDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAELGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTGDYERPLNISHFIGDLNTGFRLLNLKRKRFDALKYDVKKIEEVVYDV DIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAELGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTGDYERPLNISHFIGDLNTGFRLLNLDGLRKRFDALKYDVKKIEEVVYDVSI 3rjl-a9-m1-cA_3rjl-a9-m2-cD Crystal structure of 1-pyrroline-5-carboxylate dehydrogenase from Bacillus licheniformis (Target NYSGRC-000337) Q65NN2 Q65NN2 2.2 X-RAY DIFFRACTION 174 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 513 513 3rjl-a10-m3-cC_3rjl-a10-m1-cB 3rjl-a11-m1-cE_3rjl-a11-m4-cG 3rjl-a12-m1-cF_3rjl-a12-m5-cH PYKHEPFTNFGIEENRKAFEKALETVNNEWLGQSYPLVIDGERYETENKIVSINPANKEEVVGTVSKATQDHAEKAIQAAAKAFETWRYTDPEERAAVLFRAVAKVRRKKHEFSALLVKEAGKPWNEADADTAEAIDFMEYYARQMIELAKGKPVNSREGERNQYVYTPTGVTVVIPPWNFLFAIMAGTTVAPIVTGNTVVLKPASAAPVIAAKFVEVLEESGLPKGVVNFVPGSGAEVGDYLVDHPKTSIITFTGSREVGTRIFERAAKVQPGQTHLKQVIAEMGGKDTVVVDEDCDIELAAQSIFTSAFGFAGQKCSAGSRAVVHEKVYDEVLKRVIEITESKKVGEPDSADVYMGPVIDQASFNKIMDYIEIGKEEGRLVSGGKGDDSKGYFIEPTIFADLDPKARLMQEEIFGPVVAFSKVSSFDEALEVANNTEYGLTGAVITKNRDHINRAKQEFHVGNLYFNRNCTGAIVGYHPFGGFKMSGTDSKAGGPDYLALHMQAKTISEMF PYKHEPFTNFGIEENRKAFEKALETVNNEWLGQSYPLVIDGERYETENKIVSINPANKEEVVGTVSKATQDHAEKAIQAAAKAFETWRYTDPEERAAVLFRAVAKVRRKKHEFSALLVKEAGKPWNEADADTAEAIDFMEYYARQMIELAKGKPVNSREGERNQYVYTPTGVTVVIPPWNFLFAIMAGTTVAPIVTGNTVVLKPASAAPVIAAKFVEVLEESGLPKGVVNFVPGSGAEVGDYLVDHPKTSIITFTGSREVGTRIFERAAKVQPGQTHLKQVIAEMGGKDTVVVDEDCDIELAAQSIFTSAFGFAGQKCSAGSRAVVHEKVYDEVLKRVIEITESKKVGEPDSADVYMGPVIDQASFNKIMDYIEIGKEEGRLVSGGKGDDSKGYFIEPTIFADLDPKARLMQEEIFGPVVAFSKVSSFDEALEVANNTEYGLTGAVITKNRDHINRAKQEFHVGNLYFNRNCTGAIVGYHPFGGFKMSGTDSKAGGPDYLALHMQAKTISEMF 3rjr-a2-m1-cD_3rjr-a2-m1-cC Crystal Structure of pro-TGF beta 1 P07200 P07200 3.05 X-RAY DIFFRACTION 256 0.997 9823 (Sus scrofa) 9823 (Sus scrofa) 342 343 3rjr-a1-m1-cB_3rjr-a1-m1-cA 5vqf-a1-m1-cB_5vqf-a1-m1-cA 5vqf-a2-m1-cD_5vqf-a2-m1-cC 6gff-a1-m1-cD_6gff-a1-m1-cB 6gff-a2-m1-cH_6gff-a2-m1-cF PLSTSKTIDMELVKRKRIEAIRGQILSKLRLASPPSQGDVPPGPLPEAVLALYNSTRDRVAGEEPEADYYAKEVTRVLMVESGNQIYDKFKGTPHSLYMLFNTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQKYSQDSWRYLSNRLLAPSDSPEWLSFDVTGVVRQWLTRREAIEGFRLSAHCSCDSKDNTLHVEINGDLATIHGMNRPFLLLMATPLERAQHLALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS GPLSTSKTIDMELVKRKRIEAIRGQILSKLRLASPPSQGDVPPGPLPEAVLALYNSTRDRVAGEPEPEADYYAKEVTRVLMVESGNQIYDKFKGTPHSLYMLFNTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQKYSQDSWRYLSNRLLAPSDSPEWLSFDVTGVVRQWLTRREAIEGFRLSAHCSCDSKDNTLHVEINGDLATIHGMNRPFLLLMATPLERAQHALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS 3rjs-a1-m1-cA_3rjs-a1-m2-cA Crystal structure of Dynein Light Chain 8a (DLC8) from Toxoplasma gondii at 1.5 A resolution A1YTN0 A1YTN0 1.5 X-RAY DIFFRACTION 97 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 87 87 DRKAVIKNADMPEDLQQDAIDCANQALEKYNIEKDIAAFIKKEFDRKHNPTWHCVVGRNFGSYVTHETHHFIYFYIGQVAVLLFKSG DRKAVIKNADMPEDLQQDAIDCANQALEKYNIEKDIAAFIKKEFDRKHNPTWHCVVGRNFGSYVTHETHHFIYFYIGQVAVLLFKSG 3rjt-a1-m1-cA_3rjt-a1-m1-cB Crystal structure of lipolytic protein G-D-S-L family from Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446 C8WT89 C8WT89 1.5 X-RAY DIFFRACTION 61 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 205 205 AIEPGSKLVVGDSITDGRAHPVGEAPRGGLGNGYVALVDAHLQVLHPDWRIRVVNVGTSGNTVADVARRWEDDVALQPDYVSLIGVNDVWRQFDPLVVERHVGIDEYRDTLRHLVATTKPRVREFLLSPFYLEPNRSDPRKTVDAYIEARDVAASEHVPFVDVQAEFDRLLAHLNTWVLAPDRVHPYLNGHLVIARAFLTAVGVL AIEPGSKLVVGDSITDGRAHPVGEAPRGGLGNGYVALVDAHLQVLHPDWRIRVVNVGTSGNTVADVARRWEDDVALQPDYVSLIGVNDVWRQFDPLVVERHVGIDEYRDTLRHLVATTKPRVREFLLSPFYLEPNRSDPRKTVDAYIEARDVAASEHVPFVDVQAEFDRLLAHLNTWVLAPDRVHPYLNGHLVIARAFLTAVGVL 3rk0-a1-m1-cA_3rk0-a1-m2-cA X-ray crystal Structure of the putative N-type ATP pyrophosphatase (PF0828) in complex with AMP from Pyrococcus furiosus, Northeast Structural Genomics Consortium Target PfR23 Q8U2K6 Q8U2K6 2.4 X-RAY DIFFRACTION 97 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 209 209 3rjz-a1-m1-cA_3rjz-a1-m2-cA 3rk1-a1-m1-cA_3rk1-a1-m1-cB LADVAVLYSGGKDSNYALYWAIKNRFSVKFLVTVSENEYHTINANLTDLQARALGIPLVKGFTKEVEDLKRVLSGLKIQGIVAGALASKYQRKRIEKVAKELGLEVYTPARDAKEYRELLNLGFKIVVGVSAYGLDESWLGRILDESALEELITLNEKYKVHVAGEGGEFETFVLDPLFKYKIVVDKAKKVTSSGKLIIEEAHLESKLE LADVAVLYSGGKDSNYALYWAIKNRFSVKFLVTVSENEYHTINANLTDLQARALGIPLVKGFTKEVEDLKRVLSGLKIQGIVAGALASKYQRKRIEKVAKELGLEVYTPARDAKEYRELLNLGFKIVVGVSAYGLDESWLGRILDESALEELITLNEKYKVHVAGEGGEFETFVLDPLFKYKIVVDKAKKVTSSGKLIIEEAHLESKLE 3rkl-a1-m1-cD_3rkl-a1-m2-cD The crystal structure of A81 from Sulfolobus Turreted Icosahedral Virus Q6Q0J6 Q6Q0J6 1.7 X-RAY DIFFRACTION 127 1.0 269145 (Sulfolobus turreted icosahedral virus 1) 269145 (Sulfolobus turreted icosahedral virus 1) 79 79 3rkl-a1-m1-cA_3rkl-a1-m2-cA 3rkl-a1-m1-cB_3rkl-a1-m1-cC 3rkl-a1-m2-cB_3rkl-a1-m2-cC SKITINIKDNTIEYGHKEFVLSNLQEDIKNLAEIVYQLAKLIEKLSQYEEEVDTELYNLLHEYAIYLAGATSFIDSENK SKITINIKDNTIEYGHKEFVLSNLQEDIKNLAEIVYQLAKLIEKLSQYEEEVDTELYNLLHEYAIYLAGATSFIDSENK 3rkl-a1-m2-cB_3rkl-a1-m2-cD The crystal structure of A81 from Sulfolobus Turreted Icosahedral Virus Q6Q0J6 Q6Q0J6 1.7 X-RAY DIFFRACTION 35 1.0 269145 (Sulfolobus turreted icosahedral virus 1) 269145 (Sulfolobus turreted icosahedral virus 1) 79 79 3rkl-a1-m1-cA_3rkl-a1-m1-cC 3rkl-a1-m1-cB_3rkl-a1-m1-cD 3rkl-a1-m2-cA_3rkl-a1-m2-cC SKITINIKDNTIEYGHKEFVLSNLQEDIKNLAEIVYQLAKLIEKLSQYEEEVDTELYNLLHEYAIYLAGATSFIDSENK SKITINIKDNTIEYGHKEFVLSNLQEDIKNLAEIVYQLAKLIEKLSQYEEEVDTELYNLLHEYAIYLAGATSFIDSENK 3rkr-a2-m1-cB_3rkr-a2-m3-cC Crystal structure of a metagenomic short-chain oxidoreductase (SDR) in complex with NADP B2BKB1 B2BKB1 2.42 X-RAY DIFFRACTION 90 1.0 460938 (uncultured bacterium Bio5) 460938 (uncultured bacterium Bio5) 221 224 3rkr-a1-m1-cA_3rkr-a1-m1-cD 3rkr-a1-m2-cA_3rkr-a1-m2-cD 3rkr-a2-m3-cB_3rkr-a2-m1-cC SSLSGQVAVVTGASRGIGAAIARKLGSLGARVVLTARDVEKLRAVEREIVAAGGEAESHACDLSHSDAIAAFATGVLAAHGRCDVLVNNAGVGWFGGPLHTMKPAEWDALIAVNLKAPYLLLRAFAPAMIAAKRGHIINISSLAGKNPVADGAAYTASKWGLNGLMTSAAEELRQHQVRVSLVAPGSVRAIEPDDIADVVALLATQADQSFISEVLVRPTL SSLSGQVAVVTGASRGIGAAIARKLGSLGARVVLTARDVEKLRAVEREIVAAGGEAESHACDLSHSDAIAAFATGVLAAHGRCDVLVNNAGVGWFGGPLHTMKPAEWDALIAVNLKAPYLLLRAFAPAMIAAKRGHIINISSLAGKNPVADGAAYTASKWGLNGLMTSAAEELRQHQVRVSLVAPGSVRALGAIEPDDIADVVALLATQADQSFISEVLVRPTL 3rkr-a2-m1-cC_3rkr-a2-m3-cC Crystal structure of a metagenomic short-chain oxidoreductase (SDR) in complex with NADP B2BKB1 B2BKB1 2.42 X-RAY DIFFRACTION 22 1.0 460938 (uncultured bacterium Bio5) 460938 (uncultured bacterium Bio5) 224 224 3rkr-a2-m1-cB_3rkr-a2-m3-cB SSLSGQVAVVTGASRGIGAAIARKLGSLGARVVLTARDVEKLRAVEREIVAAGGEAESHACDLSHSDAIAAFATGVLAAHGRCDVLVNNAGVGWFGGPLHTMKPAEWDALIAVNLKAPYLLLRAFAPAMIAAKRGHIINISSLAGKNPVADGAAYTASKWGLNGLMTSAAEELRQHQVRVSLVAPGSVRALGAIEPDDIADVVALLATQADQSFISEVLVRPTL SSLSGQVAVVTGASRGIGAAIARKLGSLGARVVLTARDVEKLRAVEREIVAAGGEAESHACDLSHSDAIAAFATGVLAAHGRCDVLVNNAGVGWFGGPLHTMKPAEWDALIAVNLKAPYLLLRAFAPAMIAAKRGHIINISSLAGKNPVADGAAYTASKWGLNGLMTSAAEELRQHQVRVSLVAPGSVRALGAIEPDDIADVVALLATQADQSFISEVLVRPTL 3rkr-a2-m3-cB_3rkr-a2-m3-cC Crystal structure of a metagenomic short-chain oxidoreductase (SDR) in complex with NADP B2BKB1 B2BKB1 2.42 X-RAY DIFFRACTION 138 1.0 460938 (uncultured bacterium Bio5) 460938 (uncultured bacterium Bio5) 221 224 3rkr-a1-m1-cA_3rkr-a1-m2-cA 3rkr-a1-m1-cD_3rkr-a1-m2-cD 3rkr-a2-m1-cB_3rkr-a2-m1-cC SSLSGQVAVVTGASRGIGAAIARKLGSLGARVVLTARDVEKLRAVEREIVAAGGEAESHACDLSHSDAIAAFATGVLAAHGRCDVLVNNAGVGWFGGPLHTMKPAEWDALIAVNLKAPYLLLRAFAPAMIAAKRGHIINISSLAGKNPVADGAAYTASKWGLNGLMTSAAEELRQHQVRVSLVAPGSVRAIEPDDIADVVALLATQADQSFISEVLVRPTL SSLSGQVAVVTGASRGIGAAIARKLGSLGARVVLTARDVEKLRAVEREIVAAGGEAESHACDLSHSDAIAAFATGVLAAHGRCDVLVNNAGVGWFGGPLHTMKPAEWDALIAVNLKAPYLLLRAFAPAMIAAKRGHIINISSLAGKNPVADGAAYTASKWGLNGLMTSAAEELRQHQVRVSLVAPGSVRALGAIEPDDIADVVALLATQADQSFISEVLVRPTL 3rku-a1-m1-cB_3rku-a1-m1-cD Substrate Fingerprint and the Structure of NADP+ Dependent Serine Dehydrogenase from Saccharomyces cerevisiae complexed with NADP+ Q05016 Q05016 2.6 X-RAY DIFFRACTION 120 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 268 268 3rku-a1-m1-cA_3rku-a1-m1-cC HMSQGRKAAERLAKKTVLITGASAGIGKATALEYLEASNGDMKLILAARRLEKLEELKKTIDQEFPNAKVHVAQLDITQAEKIKPFIENLPQEFKDIDILVNNAGKALGSDRVGQIATEDIQDVFDTNVTALINITQAVLPIFQAKNSGDIVNLGSIAGRDAYPTGSIYCASKFAVGAFTDSLRKELINTKIRVILIAPGLVETEFSLVRYRGNEEQAKNVYKDTTPLMADDVADLIVYATSRKQNTVIADTLIFPTNQASPHHIFRG HMSQGRKAAERLAKKTVLITGASAGIGKATALEYLEASNGDMKLILAARRLEKLEELKKTIDQEFPNAKVHVAQLDITQAEKIKPFIENLPQEFKDIDILVNNAGKALGSDRVGQIATEDIQDVFDTNVTALINITQAVLPIFQAKNSGDIVNLGSIAGRDAYPTGSIYCASKFAVGAFTDSLRKELINTKIRVILIAPGLVETEFSLVRYRGNEEQAKNVYKDTTPLMADDVADLIVYATSRKQNTVIADTLIFPTNQASPHHIFRG 3rku-a1-m1-cC_3rku-a1-m1-cD Substrate Fingerprint and the Structure of NADP+ Dependent Serine Dehydrogenase from Saccharomyces cerevisiae complexed with NADP+ Q05016 Q05016 2.6 X-RAY DIFFRACTION 133 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 268 268 3rku-a1-m1-cA_3rku-a1-m1-cB HMSQGRKAAERLAKKTVLITGASAGIGKATALEYLEASNGDMKLILAARRLEKLEELKKTIDQEFPNAKVHVAQLDITQAEKIKPFIENLPQEFKDIDILVNNAGKALGSDRVGQIATEDIQDVFDTNVTALINITQAVLPIFQAKNSGDIVNLGSIAGRDAYPTGSIYCASKFAVGAFTDSLRKELINTKIRVILIAPGLVETEFSLVRYRGNEEQAKNVYKDTTPLMADDVADLIVYATSRKQNTVIADTLIFPTNQASPHHIFRG HMSQGRKAAERLAKKTVLITGASAGIGKATALEYLEASNGDMKLILAARRLEKLEELKKTIDQEFPNAKVHVAQLDITQAEKIKPFIENLPQEFKDIDILVNNAGKALGSDRVGQIATEDIQDVFDTNVTALINITQAVLPIFQAKNSGDIVNLGSIAGRDAYPTGSIYCASKFAVGAFTDSLRKELINTKIRVILIAPGLVETEFSLVRYRGNEEQAKNVYKDTTPLMADDVADLIVYATSRKQNTVIADTLIFPTNQASPHHIFRG 3rl8-a1-m1-cA_3rl8-a1-m1-cC Crystal structure of hDLG1-PDZ2 complexed with APC Q12959 Q12959 2.2 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 95 KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMY KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMYM 3rl8-a1-m1-cB_3rl8-a1-m1-cA Crystal structure of hDLG1-PDZ2 complexed with APC Q12959 Q12959 2.2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 94 KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKP KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMY 3rl8-a1-m1-cB_3rl8-a1-m1-cC Crystal structure of hDLG1-PDZ2 complexed with APC Q12959 Q12959 2.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 95 KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKP KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMYM 3rl8-a1-m1-cD_3rl8-a1-m1-cC Crystal structure of hDLG1-PDZ2 complexed with APC Q12959 Q12959 2.2 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 95 KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMY KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMYM 3rl8-a1-m1-cE_3rl8-a1-m1-cD Crystal structure of hDLG1-PDZ2 complexed with APC Q12959 Q12959 2.2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 94 KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKP KIMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVCLEEVTHEEAVTALKNTSDFVYLKVAKPTSMY 3rlc-a1-m1-cA_3rlc-a1-m2-cA Crystal structure of the read-through domain from bacteriophage Qbeta A1 protein, hexagonal crystal form Q8LTE1 Q8LTE1 2.9 X-RAY DIFFRACTION 65 1.0 39803 (Qubevirus durum) 39803 (Qubevirus durum) 176 176 PPIDPPPGTGKYTCPFAIWSLEEVYEPPTKNRPWPIYNAVELQPREFDVALKDLLGNTKWRDWDSRLSYTTFRGCRGNGYIDLDATYLATDQAMRDQKYDIREGKKPGAFGNIERFIYLKSINAYCSLSDIAAYHADGVIVGFWRDPSSGGAIPFDFTKFDKTKCPIQAVIVVPRA PPIDPPPGTGKYTCPFAIWSLEEVYEPPTKNRPWPIYNAVELQPREFDVALKDLLGNTKWRDWDSRLSYTTFRGCRGNGYIDLDATYLATDQAMRDQKYDIREGKKPGAFGNIERFIYLKSINAYCSLSDIAAYHADGVIVGFWRDPSSGGAIPFDFTKFDKTKCPIQAVIVVPRA 3rm5-a1-m1-cB_3rm5-a1-m1-cA Structure of Trifunctional THI20 from Yeast Q08224 Q08224 2.68 X-RAY DIFFRACTION 465 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 519 521 TYSTVSINTPPPYLTLACNEKLPTVLSIAGTDPSGGAGIEADVKTITAHRCYAMTCITALNAQTPVKVYSINNTPKEVVFQTLESNLKDMKCNVIKTGMLTAAAIEVLHEKLLQLGENRPKLVVDPVLVAKDIVSLITEKVAPFADILTPNIPECYKLLGEERKVNGLQDIFQIAKDLAKITKCSNILVKGGHITDVLFLGAEQKFIIFKGNFVNTTHTHGTGCTLASAIASNLARGYSLPQSVYGGIEYVQNAVAIGCDVTKETVKNGPINHVYAVEIPLEKMLSDECFTASDVIPGGNFYEYLINHPKVKPHWDSYINHEFVKKVADGTLERKKFQFFIEQDYAYLVDYARVHCIAGSKAPCLEDMEKELVIVGGVRTEMGQHEKRLKEVFGVKDPDYFQKIKRGPALRAYSRYFNDVSRRGNWQELVASLTPCLMGYGEALTKMKGKVTAPEGSVYHEWCETYASSWYREAMDEGEKLLNHILETYPPEQLDTLVTIYAEVCELETNFWTAALEYE TYSTVSINTPPPYLTLACNEKLPTVLSIAGTDPSGGAGIEADVKTITAHRCYAMTCITALNAQTPVKVYSINNTPKEVVFQTLESNLKDMKCNVIKTGMLTAAAIEVLHEKLLQLGENRPKLVVDPVLGKDIVSLITEKVAPFADILTPNIPECYKLLGEERKVNGLQDIFQIAKDLAKITKCSNILVKGGHEKYITDVLFLGAEQKFIIFKGNFVNTTHTHGTGCTLASAIASNLARGYSLPQSVYGGIEYVQNAVAIGCDVTKETVKDNGPINHVYAVEIPLEKMLSDECFTASDIPGGNFYEYLINHPKVKPHWDSYINHEFVKKVADGTLERKKFQFFIEQDYAYLVDYARVHCIAGSKAPCLEDMEKELVIVGGVRTEMGQHEKRLKEVFGVKDPDYFQKIKRGPALRAYSRYFNDVSRRGNWQELVASLTPCLMGYGEALTKMKGKVTAPEGSVYHEWCETYASSWYREAMDEGEKLLNHILETYPPEQLDTLVTIYAEVCELETNFWTAALEYE 3rmh-a1-m1-cA_3rmh-a1-m1-cB Crystal Structure of yeast telomere protein Cdc13 OB4 Q6FT40 Q6FT40 1.902 X-RAY DIFFRACTION 68 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 127 133 QYEVVEDHNISQLNHLQHLTPKIYVLNVYIIDVEIVYDQEIRIKVVNELPLVGKYVPPVDILEVYITGKEEVQNFLGDEVLTMDIFTPLLNETSRLRVFQRPDRIIRWSPIECTIQELRLQRMFRLR STDITQYEVVEDHNISQLNHLQHLTPKIYVLNVYIIDVEIVYDQEIRIKVVNELPLVGKYVPPVDILEVYITGKEEVQNFLGDEVLTMDIFTPLLNETSRLRVFQRPSDRIIRWSPIECTIQELRLQRMFRLR 3rmi-a1-m1-cA_3rmi-a1-m2-cA Crystal structure of Chorismate mutase from Bartonella henselae str. Houston-1 in complex with malate A0A0H3LYP5 A0A0H3LYP5 2.4 X-RAY DIFFRACTION 113 1.0 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 105 105 GSMMQEKILSELAYLRQSIDNFDITLIHILAERFRCTQAIGRLKARYNLPAVDPLREQYQIKRLRKLAIDTHFDPDFAEKFLKFIIKEVVHQHEVIAEKQKIKKE GSMMQEKILSELAYLRQSIDNFDITLIHILAERFRCTQAIGRLKARYNLPAVDPLREQYQIKRLRKLAIDTHFDPDFAEKFLKFIIKEVVHQHEVIAEKQKIKKE 3rmj-a1-m1-cA_3rmj-a1-m1-cB Crystal structure of truncated alpha-Isopropylmalate Synthase from Neisseria meningitidis Q9JZG1 Q9JZG1 1.95 X-RAY DIFFRACTION 149 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 307 308 TNRVIIFDTTLRDGEQSPGAAMTKEEKIRVARQLEKLGVDIIEAGFAAASPGDFEAVNAIAKTITKSTVCSLSRAIERDIRQAGEAVAPAPKKRIHTFIATSPIHMEYKLKMKPKQVIEAAVKAVKIAREYTDDVEFSCEDALRSEIDFLAEICGAVIEAGATTINIPDTVGYSIPYKTEEFFRELIAKTPNGGKVVWSAHCHNDLGLAVANSLAALKGGARQVECTVNGLGERAGNASVEEIVMALKVRHDLFGLETGIDTTQIVPSSKLVSTITGYPVQPNKAIVGANAFSETYEIMSAESVGWA TNRVIIFDTTLRDGEQSPGAAMTKEEKIRVARQLEKLGVDIIEAGFAAASPGDFEAVNAIAKTITKSTVCSLSRAIERDIRQAGEAVAPAPKKRIHTFIATSPIHMEYKLKMKPKQVIEAAVKAVKIAREYTDDVEFSCEDALRSEIDFLAEICGAVIEAGATTINIPDTVGYSIPYKTEEFFRELIAKTPNGGKVVWSAHCHNDLGLAVANSLAALKGGARQVECTVNGLGERAGNASVEEIVMALKVRHDLFGLETGIDTTQIVPSSKLVSTITGYPVQPNKAIVGANAFSHETYEIMSAESVGWA 3rmk-a1-m1-cB_3rmk-a1-m1-cE Toluene 4 monooxygenase H with 4-bromophenol Q00460 Q00460 1.95 X-RAY DIFFRACTION 11 1.0 300 (Pseudomonas mendocina) 300 (Pseudomonas mendocina) 304 306 SFESKKPMRTWSHLAEMRKKPSEYDIVSRKLHYSTNNPDSPWELSPDSPMNLWYKQYRNASPLKHDNWDAFTDPDQLVYRTYNLMQDGQESYVQSLFDQFNEREHDQMVREGWEHTMARCYSPLRYLFHCLQMSSAYVQQMAPASTISNCCILQTADSLRWLTHTAYRTHELSLTYPDAGLGEHERELWEKEPGWQGLRELMEKQLTAFDWGEAFVSLNLVVKPMIVESIFKPLQQQAWENNDTLLPLLIDSQLKDAERHSRWSKALVKHALENPDNHAVIEGWIEKWRPLADRAAEAYLSMLS SFESKKPMRTWSHLAEMRKKPSEYDIVSRKLHYSTNNPDSPWELSPDSPMNLWYKQYRNASPLKHDNWDAFTDPDQLVYRTYNLMQDGQESYVQSLFDQFNEREHDQMVREGWEHTMARCYSPLRYLFHCLQMSSAYVQQMAPASTISNCCILQTADSLRWLTHTAYRTHELSLTYPDAGLGEHERELWEKEPGWQGLRELMEKQLTAFDWGEAFVSLNLVVKPMIVESIFKPLQQQAWENNDTLLPLLIDSQLKDAERHSRWSKALVKHALENPDNHAVIEGWIEKWRPLADRAAEAYLSMLSSD 3rmr-a4-m2-cB_3rmr-a4-m2-cA Crystal structure of Hyaloperonospora arabidopsidis ATR1 effector domain M4B6G6 M4B6G6 2.3 X-RAY DIFFRACTION 123 0.987 123356 (Hyaloperonospora parasitica) 123356 (Hyaloperonospora parasitica) 228 233 3rmr-a4-m1-cB_3rmr-a4-m1-cA 3rmr-a4-m1-cC_3rmr-a4-m2-cC SAVEALIETIDRHGRNDEAKKKVVRTWKKLIERDDLIGEIGKHYFEAPGPLHDTYDEALATRLVTTYSDRGVARAILHTRPSDPLSKKAGQAHRLEEAVASLWKGRGYTSDNVVSSIATGHDVDFFAPTAFTFLVKCVESEDDANNAIFEYFGSNPSRYFSAVLHAEKPDADSRVLESSKKWFQCYAQKQFPTPVFERTLAAYQSEHYEKLSLSQIEELVEEYSRIYS WPFGPSAVEALIETIDRHGRVSLNDEAKKKVVRTWKKLIERDDLIGEIGKHYFEAPGPLHDTYDEALATRLVTTYSDRGVARAILHTRPSDPLSKKAGQAHRLEEAVASLWKGRGYTSDNVVSSIATGHDVDFFAPTAFTFLVKCVESEDDANNAIFEYFGSNPSRYFSAVLHAEKPDADSRVLESSKKWFQCYAQKQFPTPVFERTLAAYQYEKLSLSQIEELVEEYSRIYS 3rmr-a4-m2-cB_3rmr-a4-m2-cC Crystal structure of Hyaloperonospora arabidopsidis ATR1 effector domain M4B6G6 M4B6G6 2.3 X-RAY DIFFRACTION 14 0.996 123356 (Hyaloperonospora parasitica) 123356 (Hyaloperonospora parasitica) 228 232 3rmr-a4-m1-cA_3rmr-a4-m2-cA 3rmr-a4-m1-cB_3rmr-a4-m1-cC SAVEALIETIDRHGRNDEAKKKVVRTWKKLIERDDLIGEIGKHYFEAPGPLHDTYDEALATRLVTTYSDRGVARAILHTRPSDPLSKKAGQAHRLEEAVASLWKGRGYTSDNVVSSIATGHDVDFFAPTAFTFLVKCVESEDDANNAIFEYFGSNPSRYFSAVLHAEKPDADSRVLESSKKWFQCYAQKQFPTPVFERTLAAYQSEHYEKLSLSQIEELVEEYSRIYS PSAVEALIETIDRHGRVSDEAKKKVVRTWKKLIERDDLIGEIGKHYFEAPGPLHDTYDEALATRLVTTYSDRGVARAILHTRPSDPLSKKAGQAHRLEEAVASLWKGRGYTSDNVVSSIATGHDVDFFAPTAFTFLVKCVESEDDANNAIFEYFGSNPSRYFSAVLHAEKPDADSRVLESSKKWFQCYAQKQFPTPVFERTLAAYQSEDYHYEKLSLSQIEELVEEYSRIYS 3rmr-a5-m2-cB_3rmr-a5-m1-cC Crystal structure of Hyaloperonospora arabidopsidis ATR1 effector domain M4B6G6 M4B6G6 2.3 X-RAY DIFFRACTION 81 0.996 123356 (Hyaloperonospora parasitica) 123356 (Hyaloperonospora parasitica) 228 232 3rmr-a4-m1-cB_3rmr-a4-m2-cA 3rmr-a4-m1-cB_3rmr-a4-m2-cC 3rmr-a4-m2-cB_3rmr-a4-m1-cA 3rmr-a4-m2-cB_3rmr-a4-m1-cC 3rmr-a5-m2-cB_3rmr-a5-m1-cA SAVEALIETIDRHGRNDEAKKKVVRTWKKLIERDDLIGEIGKHYFEAPGPLHDTYDEALATRLVTTYSDRGVARAILHTRPSDPLSKKAGQAHRLEEAVASLWKGRGYTSDNVVSSIATGHDVDFFAPTAFTFLVKCVESEDDANNAIFEYFGSNPSRYFSAVLHAEKPDADSRVLESSKKWFQCYAQKQFPTPVFERTLAAYQSEHYEKLSLSQIEELVEEYSRIYS PSAVEALIETIDRHGRVSDEAKKKVVRTWKKLIERDDLIGEIGKHYFEAPGPLHDTYDEALATRLVTTYSDRGVARAILHTRPSDPLSKKAGQAHRLEEAVASLWKGRGYTSDNVVSSIATGHDVDFFAPTAFTFLVKCVESEDDANNAIFEYFGSNPSRYFSAVLHAEKPDADSRVLESSKKWFQCYAQKQFPTPVFERTLAAYQSEDYHYEKLSLSQIEELVEEYSRIYS 3rmt-a1-m1-cB_3rmt-a1-m2-cD Crystal structure of putative 5-enolpyruvoylshikimate-3-phosphate synthase from Bacillus halodurans C-125 Q9KCA6 Q9KCA6 2.8 X-RAY DIFFRACTION 63 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 429 431 3rmt-a1-m1-cA_3rmt-a1-m2-cC NKTVIPHAKGLKGTIKVPGDKSISHRAVMFGALAKGTTTVEGFLPGADCLSTISCFQKLGVSIEQAEERVTVKGKGWDGLREPSDILDVGNSGTTTRLILGILSTLPFHSVIIGDESIGKRPMKRVTEPLKSMGAQIDGRDHGNLTPLSIRGGQLKGIDFHSPVASAQMKSAILLAGLRAEGKTSVTEPAKTRDHTERMLEAFGVNIEKDGLTVSIEGGQMLTGQHVVVPGDISSAAFFLVAGAMVPHSRITLTNVGINPTRAGILEVLKQMGATLAMENERVQGGEPVADLTIETSVLQGVEIGGDIIPRLIDEIPIIAVLATQASGRTVIKDAEETNRIDTVVSELTKLGASIHATDDGMIIEGPTPLKGGVTVSSHGDHRIGMAMAIAALLAEKPVTVEGTEAIAVSYPSFFDHLDRLKSEAENLY NKTVIPHAKGLKGTIKVPGDKSISHRAVMFGALAKGTTTVEGFLPGADCLSTISCFQKLGVSIEQAEERVTVKGKGWDGLREPSDILDVGNSGTTTRLILGILSTLPFHSVIIGDESIGKRPMKRVTEPLKSMGAQIDGRDHGNLTPLSIRGGQLKGIDFHSPVASAQMKSAILLAGLRAEGKTSVTEPAKTRDHTERMLEAFGVNIEKDGLTVSIEGGQMLTGQHVVVPGDISSAAFFLVAGAMVPHSRITLTNVGINPTRAGILEVLKQMGATLAMENERVQGGEPVADLTIETSVLQGVEIGGDIIPRLIDEIPIIAVLATQASGRTVIKDAEETNRIDTVVSELTKLGASIHATDDGMIIEGPTPLKGGVTVSSHGDHRIGMAMAIAALLAEKPVTVEGTEAIAVSYPSFFDHLDRLKSEAENLYFQ 3rmt-a1-m2-cD_3rmt-a1-m2-cC Crystal structure of putative 5-enolpyruvoylshikimate-3-phosphate synthase from Bacillus halodurans C-125 Q9KCA6 Q9KCA6 2.8 X-RAY DIFFRACTION 67 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 431 436 3rmt-a1-m1-cB_3rmt-a1-m1-cA NKTVIPHAKGLKGTIKVPGDKSISHRAVMFGALAKGTTTVEGFLPGADCLSTISCFQKLGVSIEQAEERVTVKGKGWDGLREPSDILDVGNSGTTTRLILGILSTLPFHSVIIGDESIGKRPMKRVTEPLKSMGAQIDGRDHGNLTPLSIRGGQLKGIDFHSPVASAQMKSAILLAGLRAEGKTSVTEPAKTRDHTERMLEAFGVNIEKDGLTVSIEGGQMLTGQHVVVPGDISSAAFFLVAGAMVPHSRITLTNVGINPTRAGILEVLKQMGATLAMENERVQGGEPVADLTIETSVLQGVEIGGDIIPRLIDEIPIIAVLATQASGRTVIKDAEETNRIDTVVSELTKLGASIHATDDGMIIEGPTPLKGGVTVSSHGDHRIGMAMAIAALLAEKPVTVEGTEAIAVSYPSFFDHLDRLKSEAENLYFQ NKTVIPHAKGLKGTIKVPGDKSISHRAVMFGALAKGTTTVEGFLPGADCLSTISCFQKLGVSIEQAEERVTVKGKGWDGLREPSDILDVGNSGTTTRLILGILSTLPFHSVIIGDESIGKRPMKRVTEPLKSMGAQIDGRDHGNLTPLSIRGGQLKGIDFHSPVASAQMKSAILLAGLRAEGKTSVTEPAKTRDHTERMLEAFGVNIEKDGLTVSIEGGQMLTGQHVVVPGDISSAAFFLVAGAMVPHSRITLTNVGINPTRAGILEVLKQMGATLAMENERVQGGEPVADLTIETSVLQGVEIGGDIIPRLIDEIPIIAVLATQASGRTVIKDAEELKVKETNRIDTVVSELTKLGASIHATDDGMIIEGPTPLKGGVTVSSHGDHRIGMAMAIAALLAEKPVTVEGTEAIAVSYPSFFDHLDRLKSEAENLYFQ 3rmu-a2-m1-cC_3rmu-a2-m1-cD Crystal structure of human Methylmalonyl-CoA epimerase, MCEE Q96PE7 Q96PE7 1.8 X-RAY DIFFRACTION 130 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 3rmu-a1-m1-cA_3rmu-a1-m1-cB 6qh4-a1-m1-cA_6qh4-a1-m1-cC 6qh4-a2-m1-cB_6qh4-a2-m2-cD SMLGRLNHVAIAVPDLEKAAAFYKNILGAQVSEAVPLPEHGVSVVFVNLGNTKMELLHPLGLDSPIAGFLQKNKAGGMHHICIEVDNINAAVMDLKKKKIRSLSEEVKIGAHGKPVIFLHPKDCGGVLVELEQA SMLGRLNHVAIAVPDLEKAAAFYKNILGAQVSEAVPLPEHGVSVVFVNLGNTKMELLHPLGLDSPIAGFLQKNKAGGMHHICIEVDNINAAVMDLKKKKIRSLSEEVKIGAHGKPVIFLHPKDCGGVLVELEQA 3rnr-a1-m1-cA_3rnr-a1-m1-cB Crystal Structure of Stage II Sporulation E Family Protein from Thermanaerovibrio acidaminovorans D1B7C2 D1B7C2 2 X-RAY DIFFRACTION 136 1.0 525903 (Thermanaerovibrio acidaminovorans DSM 6589) 525903 (Thermanaerovibrio acidaminovorans DSM 6589) 200 205 SNAVGTGGDKAYCVVVDGGGIRGDEAAQRALSASVGVLDAGGSPLDAVLAAQAAVHRWASQGGILGRTGATAVAAVNLRDGTLEWASVGDCRVYLFKGGRLSRLSLDHNVSSEVLLGRGPVPGPAGEITSFIGIENLTEISTSEAPLPLEAGEGVLVVSDLHEDRIAALSRGSDARGILQEVEAQGRPYQDNATLALVIL SNAVGTGGDKAYCVVVDGGGIRGDEAAQRALSASVGVLDAGGSPLDAVLAAQAAVHRWASQGGILGRTGATAVAAVNLRDGTLEWASVGDCRVYLFKGGRLSRLSLDHNVSSEVLLGRGPVPGPAGEITSFIGIENLTEISTSEAPLPLEAGEGVLVVSDGVYRSLHEDRIAALSRGSDARGILQEVEAQGRPYQDNATLALVIL 3rnu-a1-m1-cA_3rnu-a1-m1-cD Structural Basis of Cytosolic DNA Sensing by Innate Immune Receptors Q16666 Q16666 2.502 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 SAQSDLKEVMVLNATESFVYEPKEQKKMFHATVATENEVFRVKVFNIDLKEKFTPKKIIAANYVCRNGFLEVYPFTLVADVNADRNMEIPKGLIRSASVTPKINQLCSQTKGSFVNGVFEVHKKNVRGEFTYYEIQDNTGKMEVVVHGRLTTINCEEGDKLKLTCFELAPKSGNTGELRSVIHSHIKVIKTRKNAAAS SAQSDLKEVMVLNATESFVYEPKEQKKMFHATVATENEVFRVKVFNIDLKEKFTPKKIIAANYVCRNGFLEVYPFTLVADVNADRNMEIPKGLIRSASVTPKINQLCSQTKGSFVNGVFEVHKKNVRGEFTYYEIQDNTGKMEVVVHGRLTTINCEEGDKLKLTCFELAPKSGNTGELRSVIHSHIKVIKTRKNAAAS 3rnv-a2-m2-cA_3rnv-a2-m4-cA Structure of the autocatalytic cysteine protease domain of potyvirus helper-component proteinase P89509 P89509 2 X-RAY DIFFRACTION 39 1.0 12230 (Turnip mosaic virus) 12230 (Turnip mosaic virus) 123 123 3rnv-a2-m1-cA_3rnv-a2-m3-cA 3rnv-a2-m1-cA_3rnv-a2-m4-cA 3rnv-a2-m2-cA_3rnv-a2-m3-cA MYIAKEGYCYINIFLAMLVNVKESQAKEFTKVVRDKLVGELGKWPTLLDVATACYFLKVFYPDVANAELPRMLVDHKTKIIHVVDSYGSLSTGYHVLKTNTVEQLIKFTRCNLESSLKHYRVG MYIAKEGYCYINIFLAMLVNVKESQAKEFTKVVRDKLVGELGKWPTLLDVATACYFLKVFYPDVANAELPRMLVDHKTKIIHVVDSYGSLSTGYHVLKTNTVEQLIKFTRCNLESSLKHYRVG 3ro6-a3-m1-cD_3ro6-a3-m1-cE Crystal structure of Dipeptide Epimerase from Methylococcus capsulatus complexed with Mg ion Q607C7 Q607C7 2.2 X-RAY DIFFRACTION 76 0.997 414 (Methylococcus capsulatus) 414 (Methylococcus capsulatus) 344 344 3rit-a1-m1-cA_3rit-a1-m1-cC 3rit-a2-m1-cB_3rit-a2-m2-cB 3rit-a3-m1-cD_3rit-a3-m1-cE 3ro6-a1-m1-cB_3ro6-a1-m1-cC 3ro6-a2-m2-cF_3ro6-a2-m1-cA MKIADIQVRTEHFPLTEIDNLIVEIRTADGLLGLGAASPERHVTGETLEACHAALDHDRLGWLMGRDIRTLPRLCRELAERLPAAPAARAALDMALHDLVAQCLGLPLVEILGRAHDSLPTSVTIGIKPVEETLAEAREHLALGFRVLKVKLCGDEEQDFERLRRLHETLAGRAVVRVDPNQSYDRDGLLRLDRLVQELGIEFIEQPFPAGRTDWLRALPKAIRRRIAADESLLGPADAFALAAPPAACGIFNIKLMKCGGLAPARRIATIAETAGIDLMWGCMDESRISIAAALHAALACPATRYLDLDGSFDLARDVAEGGFILEDGRLRVTERPGLGLVYP MKIADIQVRTEHFPLTEEIDNLIVEIRTADGLLGLGAASPERHVTGETLEACHAALDHDRLGWLMGRDIRTLPRLCRELAERLPAAPAARAALDMALHDLVAQCLGLPLVEILGRAHDSLPTSVTIGIKPVEETLAEAREHLALGFRVLKVKLCGDEEQDFERLRRLHETLAGRAVVRVDPNQSYDRDGLLRLDRLVQELGIEFIEQPFPAGRTDWLRALPKAIRRRIAADESLLGPADAFALAAPPAACGIFNIKLMKCGGLAPARRIATIAETAGIDLMWGCMDESRISIAAALHAALACPATRYLDLDGSFDLARDVAEGGFILEDGRLRVTERPGLGLVY 3rob-a2-m1-cD_3rob-a2-m1-cC The crystal structure of a conserved protein from Planctomyces limnophilus DSM 3776 D5SZ41 D5SZ41 1.48 X-RAY DIFFRACTION 48 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 124 127 3rob-a1-m1-cB_3rob-a1-m1-cA RHADELAIRTVQYRWLEATRKFDRQVLSSLTDDVVFLTPGRLPFGKEEFLAACEQNDQRVIIEASATFEEIVIVEPAYTRTHLHIKVTPRSGGAVRELAGHASIFRRSFGEWQLARDANLVVPI GAGRHADELAIRTVQYRWLEATRKFDRQVLSSLTDDVVFLTPGRLPFGKEEFLAACEQNDQRVIIEASATFEEIVIVEPAYTRTHLHIKVTPRSGGAVRELAGHASIFRRSFGEWQLARDANLVVPI 3rog-a3-m4-cA_3rog-a3-m7-cA Crystal Structure of Mouse Apolipoprotein A-I Binding Protein in Complex with Thymidine 3'-monophosphate Q8K4Z3 Q8K4Z3 2.05 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 227 227 3rno-a2-m1-cA_3rno-a2-m3-cA 3rno-a3-m1-cA_3rno-a3-m3-cA 3rno-a3-m4-cA_3rno-a3-m7-cA 3rno-a3-m5-cA_3rno-a3-m6-cA 3ro7-a2-m1-cA_3ro7-a2-m3-cA 3ro7-a3-m1-cA_3ro7-a3-m3-cA 3ro7-a3-m4-cA_3ro7-a3-m7-cA 3ro7-a3-m5-cA_3ro7-a3-m6-cA 3rog-a2-m1-cA_3rog-a2-m3-cA 3rog-a3-m1-cA_3rog-a3-m3-cA 3rog-a3-m5-cA_3rog-a3-m6-cA AVKYLSQEEAQAVDQELFNEYQFSVDQLELAGLSCATAIAKAYPPTSSKSPPTVLVICGPGNNGGDGLVCARHLKLFGYQPTIYYPKRPNKPLFTGLVTQCQKDIPFLGEPPEPVDELYELVVDAIFGFSFKGDVREPFHSILSVLSGLTVPIASIDIPSGWDVEKGNPSGIQPDLLISLTAPKKSATHFTGRYHYLGGRFVPPALEKKYQLNLPSYPDTECVYRLQ AVKYLSQEEAQAVDQELFNEYQFSVDQLELAGLSCATAIAKAYPPTSSKSPPTVLVICGPGNNGGDGLVCARHLKLFGYQPTIYYPKRPNKPLFTGLVTQCQKDIPFLGEPPEPVDELYELVVDAIFGFSFKGDVREPFHSILSVLSGLTVPIASIDIPSGWDVEKGNPSGIQPDLLISLTAPKKSATHFTGRYHYLGGRFVPPALEKKYQLNLPSYPDTECVYRLQ 3rog-a3-m6-cA_3rog-a3-m7-cA Crystal Structure of Mouse Apolipoprotein A-I Binding Protein in Complex with Thymidine 3'-monophosphate Q8K4Z3 Q8K4Z3 2.05 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 227 227 2dg2-a1-m1-cA_2dg2-a1-m1-cB 3rno-a3-m1-cA_3rno-a3-m4-cA 3rno-a3-m1-cA_3rno-a3-m5-cA 3rno-a3-m3-cA_3rno-a3-m6-cA 3rno-a3-m3-cA_3rno-a3-m7-cA 3rno-a3-m4-cA_3rno-a3-m5-cA 3rno-a3-m6-cA_3rno-a3-m7-cA 3ro7-a3-m1-cA_3ro7-a3-m4-cA 3ro7-a3-m1-cA_3ro7-a3-m5-cA 3ro7-a3-m3-cA_3ro7-a3-m6-cA 3ro7-a3-m3-cA_3ro7-a3-m7-cA 3ro7-a3-m4-cA_3ro7-a3-m5-cA 3ro7-a3-m6-cA_3ro7-a3-m7-cA 3rog-a3-m1-cA_3rog-a3-m4-cA 3rog-a3-m1-cA_3rog-a3-m5-cA 3rog-a3-m3-cA_3rog-a3-m6-cA 3rog-a3-m3-cA_3rog-a3-m7-cA 3rog-a3-m4-cA_3rog-a3-m5-cA AVKYLSQEEAQAVDQELFNEYQFSVDQLELAGLSCATAIAKAYPPTSSKSPPTVLVICGPGNNGGDGLVCARHLKLFGYQPTIYYPKRPNKPLFTGLVTQCQKDIPFLGEPPEPVDELYELVVDAIFGFSFKGDVREPFHSILSVLSGLTVPIASIDIPSGWDVEKGNPSGIQPDLLISLTAPKKSATHFTGRYHYLGGRFVPPALEKKYQLNLPSYPDTECVYRLQ AVKYLSQEEAQAVDQELFNEYQFSVDQLELAGLSCATAIAKAYPPTSSKSPPTVLVICGPGNNGGDGLVCARHLKLFGYQPTIYYPKRPNKPLFTGLVTQCQKDIPFLGEPPEPVDELYELVVDAIFGFSFKGDVREPFHSILSVLSGLTVPIASIDIPSGWDVEKGNPSGIQPDLLISLTAPKKSATHFTGRYHYLGGRFVPPALEKKYQLNLPSYPDTECVYRLQ 3roi-a3-m1-cA_3roi-a3-m1-cB 2.20 Angstrom resolution structure of 3-phosphoshikimate 1-carboxyvinyltransferase (AroA) from Coxiella burnetii Q83E11 Q83E11 2.2 X-RAY DIFFRACTION 55 0.991 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 431 432 AMDYQTIPSQGLSGEICVPGDKSISHRAVLLAAIAEGQTQVDGFLMGADNLAMVSALQQMGASIQVIEDENILVVEGVGMTGLQAPPEALDCGNSGTAIRLLSGLLAGQPFNTVLTGDSSLQRRPMKRIIDPLTLMGAKIDSTGNVPPLKIYGNPRLTGIHYQLPMASAQVKSCLLLAGLYARGKTCITEPAPSRDHTERLLKHFHYTLQSICVSGGGKLKANDISIPGDISSAAFFIVAATITPGSAIRLCRVGVNPTRLGVINLLKMMGADIEVTHYTEKNEPTADITVRHARLKGIDIPPDQVPLTIDEFPVLLIAAAVAQGKTVLRDAAELRVKETDRIAAMVDGLQKLGIAAESLPDGVIIQGGTLEGGEVNSYDDHRIAMAFAVAGTLAKGPVRIRNCDNVKTSFPNFVELANEVGMNVKGVRGR MDYQTIPSQGLSGEICVPGDKSISHRAVLLAAIAEGQTQVDGFLMGADNLAMVSALQQMGASIQVIEDENILVVEGVGMTGLQAPPEALDCGNSGTAIRLLSGLLAGQPFNTVLTGDSSLQRRPMKRIIDPLTLMGAKIDSTGNVPPLKIYGNPRLTGIHYQLPMASAQVKSCLLLAGLYARGKTCITEPAPSRDHTERLLKHFHYTLQKDKQSICVSGGGKLKANDISIPGDISSAAFFIVAATITPGSAIRLCRVGVNPTRLGVINLLKMMGADIEVTHYTEKEEPTADITVRHARLKGIDIPPDQVPLTIDEFPVLLIAAAVAQGKTVLRDAAELRVKETDRIAAMVDGLQKLGIAAESLPDGVIIQGGTLEGGEVNSYDDHRIAMAFAVAGTLAKGPVRIRNCDNVKTSFPNFVELANEVGMNVKGVR 3roj-a1-m1-cD_3roj-a1-m1-cA D-fructose 1,6-bisphosphatase class 2/sedoheptulose 1,7-bisphosphatase of Synechocystis sp. PCC 6803 P73922 P73922 2.3 X-RAY DIFFRACTION 108 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 345 346 3roj-a1-m1-cB_3roj-a1-m1-cC 3rpl-a1-m1-cB_3rpl-a1-m1-cC 3rpl-a1-m1-cD_3rpl-a1-m1-cA SVDSTLGLEIIEVVEQAAIASAKWMGKGEKNTADQVAVEAMRERMNKIHMRGRIVIGEGERDDAPMLYIGEEVGICTREDAKSFCNPDELVEIDIAVDPCEGTNLVAYGQNGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGHVDIDKSATENLKILSDCLNRSIEELVVVVMDRPRHKELIQEIRNAGARVRLISDGDVSAAISCAFSGTNIHALMGIGAAPEGVISAAAMRCLGGHFQGQLIYDPEVVKTGLIGESREGNLERLASMGIKNPDQVYNCEELAGETVLFAACGITPGTLMEGVRFFHGGVRTQSLVISSQSSTARFVDTVHMKESPKVIQLH GSVDSTLGLEIIEVVEQAAIASAKWMGKGEKNTADQVAVEAMRERMNKIHMRGRIVIGEGERDDAPMLYIGEEVGICTREDAKSFCNPDELVEIDIAVDPCEGTNLVAYGQNGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGHVDIDKSATENLKILSDCLNRSIEELVVVVMDRPRHKELIQEIRNAGARVRLISDGDVSAAISCAFSGTNIHALMGIGAAPEGVISAAAMRCLGGHFQGQLIYDPEVVKTGLIGESREGNLERLASMGIKNPDQVYNCEELAGETVLFAACGITPGTLMEGVRFFHGGVRTQSLVISSQSSTARFVDTVHMKESPKVIQLH 3roj-a1-m1-cD_3roj-a1-m1-cC D-fructose 1,6-bisphosphatase class 2/sedoheptulose 1,7-bisphosphatase of Synechocystis sp. PCC 6803 P73922 P73922 2.3 X-RAY DIFFRACTION 73 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 345 346 3roj-a1-m1-cB_3roj-a1-m1-cA 3rpl-a1-m1-cA_3rpl-a1-m1-cB 3rpl-a1-m1-cD_3rpl-a1-m1-cC SVDSTLGLEIIEVVEQAAIASAKWMGKGEKNTADQVAVEAMRERMNKIHMRGRIVIGEGERDDAPMLYIGEEVGICTREDAKSFCNPDELVEIDIAVDPCEGTNLVAYGQNGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGHVDIDKSATENLKILSDCLNRSIEELVVVVMDRPRHKELIQEIRNAGARVRLISDGDVSAAISCAFSGTNIHALMGIGAAPEGVISAAAMRCLGGHFQGQLIYDPEVVKTGLIGESREGNLERLASMGIKNPDQVYNCEELAGETVLFAACGITPGTLMEGVRFFHGGVRTQSLVISSQSSTARFVDTVHMKESPKVIQLH GSVDSTLGLEIIEVVEQAAIASAKWMGKGEKNTADQVAVEAMRERMNKIHMRGRIVIGEGERDDAPMLYIGEEVGICTREDAKSFCNPDELVEIDIAVDPCEGTNLVAYGQNGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGHVDIDKSATENLKILSDCLNRSIEELVVVVMDRPRHKELIQEIRNAGARVRLISDGDVSAAISCAFSGTNIHALMGIGAAPEGVISAAAMRCLGGHFQGQLIYDPEVVKTGLIGESREGNLERLASMGIKNPDQVYNCEELAGETVLFAACGITPGTLMEGVRFFHGGVRTQSLVISSQSSTARFVDTVHMKESPKVIQLH 3ros-a1-m1-cA_3ros-a1-m2-cA Crystal structure of NAD-dependent aldehyde dehydrogenase from Lactobacillus acidophilus Q5FIM9 Q5FIM9 1.88 X-RAY DIFFRACTION 184 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 449 449 SKYQSVNPYTNEAFASYDNPTSKQIDEAINLAHALYKKWRHEEPASRAEILHDIANALKEHEDELAKTLEGKLLSESKEEVELCVSICNYYADHGPELKPTKLNSDLGNAYYLKQSTGVIACEPWNFPLYQVIRVFAPNFIVGNPILLKHAHNVPGSAALTAKIIKRAGAPEGSLINLYPSYDQLADIIADPRIQGVALTGSERGGSAVAEAAGKNLKKSTELGGNDAFIVLDDADPQVLRNVLNDARTYNDGQVCTSSKRIIVEKSRYDEVLHELKNVFSNLKAGDPLEADTTLPPNSEKAKEKLEAQVKEAIDAGAKVFYQYPEIDSKGAFFRPTILTDIAKDNPVFDKEVFGPIAEVFVVEDDNAAIQLANDSSYGLGSSVIGSDIDRAKKVSAQIETGTVINGRWITSGELPFGGIKKSGYGRELSGLGLAFVNEHLVIDVTKNN SKYQSVNPYTNEAFASYDNPTSKQIDEAINLAHALYKKWRHEEPASRAEILHDIANALKEHEDELAKTLEGKLLSESKEEVELCVSICNYYADHGPELKPTKLNSDLGNAYYLKQSTGVIACEPWNFPLYQVIRVFAPNFIVGNPILLKHAHNVPGSAALTAKIIKRAGAPEGSLINLYPSYDQLADIIADPRIQGVALTGSERGGSAVAEAAGKNLKKSTELGGNDAFIVLDDADPQVLRNVLNDARTYNDGQVCTSSKRIIVEKSRYDEVLHELKNVFSNLKAGDPLEADTTLPPNSEKAKEKLEAQVKEAIDAGAKVFYQYPEIDSKGAFFRPTILTDIAKDNPVFDKEVFGPIAEVFVVEDDNAAIQLANDSSYGLGSSVIGSDIDRAKKVSAQIETGTVINGRWITSGELPFGGIKKSGYGRELSGLGLAFVNEHLVIDVTKNN 3rot-a1-m1-cA_3rot-a1-m1-cB Crystal structure of ABC sugar transporter (periplasmic sugar binding protein) from Legionella pneumophila Q5ZZ27 Q5ZZ27 1.91 X-RAY DIFFRACTION 74 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 268 268 RDKYYLITHGSQDPYWTSLFQGAKKAAEELKVDLQILAPPGANDVPKQVQFIESALATYPSGIATTIPSDTAFSKSLQRANKLNIPVIAVDTRPKDKTKNPYLVFLGSDNLLAGKKLGEKALELTPSAKRALVLNPQPGHIGLEKRAYGIKTILQDKGIFFEELDVGTDPNQVQSRVKSYFKIHPETNIIFCLTSQALDPLGQLLHPDRYDFNYQPQVYSFDKTPNTVSLIHKKLVNYVDQQPFLGYLSITQLVLNRYQLNPVNINTA RDKYYLITHGSQDPYWTSLFQGAKKAAEELKVDLQILAPPGANDVPKQVQFIESALATYPSGIATTIPSDTAFSKSLQRANKLNIPVIAVDTRPKDKTKNPYLVFLGSDNLLAGKKLGEKALELTPSAKRALVLNPQPGHIGLEKRAYGIKTILQDKGIFFEELDVGTDPNQVQSRVKSYFKIHPETNIIFCLTSQALDPLGQLLHPDRYDFNYQPQVYSFDKTPNTVSLIHKKLVNYVDQQPFLGYLSITQLVLNRYQLNPVNINTA 3rot-a2-m1-cA_3rot-a2-m2-cB Crystal structure of ABC sugar transporter (periplasmic sugar binding protein) from Legionella pneumophila Q5ZZ27 Q5ZZ27 1.91 X-RAY DIFFRACTION 38 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 268 268 RDKYYLITHGSQDPYWTSLFQGAKKAAEELKVDLQILAPPGANDVPKQVQFIESALATYPSGIATTIPSDTAFSKSLQRANKLNIPVIAVDTRPKDKTKNPYLVFLGSDNLLAGKKLGEKALELTPSAKRALVLNPQPGHIGLEKRAYGIKTILQDKGIFFEELDVGTDPNQVQSRVKSYFKIHPETNIIFCLTSQALDPLGQLLHPDRYDFNYQPQVYSFDKTPNTVSLIHKKLVNYVDQQPFLGYLSITQLVLNRYQLNPVNINTA RDKYYLITHGSQDPYWTSLFQGAKKAAEELKVDLQILAPPGANDVPKQVQFIESALATYPSGIATTIPSDTAFSKSLQRANKLNIPVIAVDTRPKDKTKNPYLVFLGSDNLLAGKKLGEKALELTPSAKRALVLNPQPGHIGLEKRAYGIKTILQDKGIFFEELDVGTDPNQVQSRVKSYFKIHPETNIIFCLTSQALDPLGQLLHPDRYDFNYQPQVYSFDKTPNTVSLIHKKLVNYVDQQPFLGYLSITQLVLNRYQLNPVNINTA 3rp2-a1-m1-cB_3rp2-a1-m1-cA THE STRUCTURE OF RAT MAST CELL PROTEASE II AT 1.9-ANGSTROMS RESOLUTION P00770 P00770 1.9 X-RAY DIFFRACTION 10 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 224 224 IIGGVESIPHSRPYMAHLDIVTEKGLRVICGGFLISRQFVLTAAHCKGREITVILGAHDVRKRESTQQKIKVEKQIIHESYNSVPNLHDIMLLKLEKKVELTPAVNVVPLPSPSDFIHPGAMCWAAGWGKTGVRDPTSYTLREVELRIMDEKACVDYRYYEYKFQVCVGSPTTLRAAFMGDSGGPLLCAGVAHGIVSYGHPDAKPPAIFTRVSTYVPWINAVIN IIGGVESIPHSRPYMAHLDIVTEKGLRVICGGFLISRQFVLTAAHCKGREITVILGAHDVRKRESTQQKIKVEKQIIHESYNSVPNLHDIMLLKLEKKVELTPAVNVVPLPSPSDFIHPGAMCWAAGWGKTGVRDPTSYTLREVELRIMDEKACVDYRYYEYKFQVCVGSPTTLRAAFMGDSGGPLLCAGVAHGIVSYGHPDAKPPAIFTRVSTYVPWINAVIN 3rpc-a2-m1-cB_3rpc-a2-m1-cC The crystal structure of a possible metal-dependent hydrolase from Veillonella parvula DSM 2008 D1BQT4 D1BQT4 1.49 X-RAY DIFFRACTION 55 1.0 479436 (Veillonella parvula DSM 2008) 479436 (Veillonella parvula DSM 2008) 252 252 3rpc-a1-m1-cA_3rpc-a1-m1-cD ATQYTHIRNATGKLTIKNTTFLIDPFLAPKDTYPGFEGTFNYQQRPVDLPLSDDLLSNVTAVVVTHTHLDHWDDTAINSIPKSLPIFVQNTADKELITSQGFIDVRIIFESLEFNGITLRKTGGSHGTVEYANPVLAPLAGDAGVIFEAADEPTVYLVGDTVWTSDVEKALLRFDPNVIINTGYAQILGFEDSIIGTKDIGRVVRKPEAKIIAVHDTVNHTATSRKDVRKFIKGNNIESHVAVPEDGETITL ATQYTHIRNATGKLTIKNTTFLIDPFLAPKDTYPGFEGTFNYQQRPVDLPLSDDLLSNVTAVVVTHTHLDHWDDTAINSIPKSLPIFVQNTADKELITSQGFIDVRIIFESLEFNGITLRKTGGSHGTVEYANPVLAPLAGDAGVIFEAADEPTVYLVGDTVWTSDVEKALLRFDPNVIINTGYAQILGFEDSIIGTKDIGRVVRKPEAKIIAVHDTVNHTATSRKDVRKFIKGNNIESHVAVPEDGETITL 3rpe-a1-m1-cB_3rpe-a1-m1-cA 1.1 Angstrom Crystal Structure of Putative Modulator of Drug Activity (MdaB) from Yersinia pestis CO92. A0A2U2H1J1 A0A2U2H1J1 1.1 X-RAY DIFFRACTION 131 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 195 196 4s24-a1-m1-cA_4s24-a1-m2-cA AMSNVLIINAMKEFAHSKGALNLTLTNVAADFLRESGHQVKITTVDQGYDIESEIENYLWADTIIYQMPAWWMGEPWILKKYIDEVFTDGHGRLYQSDGRTRSDATKGYGSGGLIQGKTYMLSVTWNAPREAFTDPEQFFHGVGVDGVYLPFHKANQFLGMKPLPTFMCNDVIKQPDIEGDIARYRQHLAENVNS YAMSNVLIINAMKEFAHSKGALNLTLTNVAADFLRESGHQVKITTVDQGYDIESEIENYLWADTIIYQMPAWWMGEPWILKKYIDEVFTDGHGRLYQSDGRTRSDATKGYGSGGLIQGKTYMLSVTWNAPREAFTDPEQFFHGVGVDGVYLPFHKANQFLGMKPLPTFMCNDVIKQPDIEGDIARYRQHLAENVNS 3rpf-a3-m1-cB_3rpf-a3-m3-cB Protein-protein complex of subunit 1 and 2 of Molybdopterin-converting factor from Helicobacter pylori 26695 P56422 P56422 1.9 X-RAY DIFFRACTION 79 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 144 144 3rpf-a1-m1-cA_3rpf-a1-m2-cA AVLKIIQGALDTRELLKAYQEEACAKNFGAFCVFVGIVRKEDNIQGLSFDIYEALLKTWFEKWHHKAKDLGVVLKAHSLGDVLIGQSSFLCVSGKNRKNALELYENFIEDFKHNAPIWKYDLIHNKRIYAKERSHPLKGSGLLA AVLKIIQGALDTRELLKAYQEEACAKNFGAFCVFVGIVRKEDNIQGLSFDIYEALLKTWFEKWHHKAKDLGVVLKAHSLGDVLIGQSSFLCVSGKNRKNALELYENFIEDFKHNAPIWKYDLIHNKRIYAKERSHPLKGSGLLA 3rpj-a1-m1-cA_3rpj-a1-m2-cB Structure of a curlin genes transcriptional regulator protein from Proteus mirabilis HI4320. B4EUU9 B4EUU9 1.9 X-RAY DIFFRACTION 37 0.992 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 123 123 LHPTRGKLLKRFAQIGPYIREQQCESQFFFDCLAVCVNKKVTPEKREFWGWWELERNGEQLIYYYQVGLFDKNGDWVNQVISKKDVIESIHETLIRFHDFLQAAVSELETLVPDEKSNFPLPL HPTRGKLLKRFAQIGPYIREQQCQESQFFFDCLAVCVNKKVTPEKREFWGWWELERNGEQLIYYYQVGLFDKNGDWVNQVISKKDVIESIHETLIRFHDFLQAAVSELETLVPDEKSNFPLPL 3rpj-a2-m1-cA_3rpj-a2-m3-cB Structure of a curlin genes transcriptional regulator protein from Proteus mirabilis HI4320. B4EUU9 B4EUU9 1.9 X-RAY DIFFRACTION 42 0.992 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 123 123 4q11-a3-m1-cA_4q11-a3-m1-cB LHPTRGKLLKRFAQIGPYIREQQCESQFFFDCLAVCVNKKVTPEKREFWGWWELERNGEQLIYYYQVGLFDKNGDWVNQVISKKDVIESIHETLIRFHDFLQAAVSELETLVPDEKSNFPLPL HPTRGKLLKRFAQIGPYIREQQCQESQFFFDCLAVCVNKKVTPEKREFWGWWELERNGEQLIYYYQVGLFDKNGDWVNQVISKKDVIESIHETLIRFHDFLQAAVSELETLVPDEKSNFPLPL 3rpj-a3-m1-cA_3rpj-a3-m1-cB Structure of a curlin genes transcriptional regulator protein from Proteus mirabilis HI4320. B4EUU9 B4EUU9 1.9 X-RAY DIFFRACTION 24 0.992 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 123 123 LHPTRGKLLKRFAQIGPYIREQQCESQFFFDCLAVCVNKKVTPEKREFWGWWELERNGEQLIYYYQVGLFDKNGDWVNQVISKKDVIESIHETLIRFHDFLQAAVSELETLVPDEKSNFPLPL HPTRGKLLKRFAQIGPYIREQQCQESQFFFDCLAVCVNKKVTPEKREFWGWWELERNGEQLIYYYQVGLFDKNGDWVNQVISKKDVIESIHETLIRFHDFLQAAVSELETLVPDEKSNFPLPL 3rpn-a3-m1-cC_3rpn-a3-m1-cF Crystal structure of human kappa class glutathione transferase in complex with S-hexylglutathione Q9Y2Q3 Q9Y2Q3 1.9 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 1yzx-a1-m1-cA_1yzx-a1-m1-cB 3rpn-a1-m1-cA_3rpn-a1-m1-cD 3rpn-a2-m1-cB_3rpn-a2-m1-cE 3rpp-a1-m1-cA_3rpp-a1-m2-cA 3rpp-a2-m1-cC_3rpp-a2-m1-cB GPLPRTVELFYDVLSPYSWLGFEILCRYQNIWNINLQLRPSLITGIMKDSGNKPPGLLPRKGLYMANDLKLLRHHLQIPIHFPKDFLSVMLEKGSLSAMRFLTAVNLEHPEMLEKASRELWMRVWSRNEDITEPQSILAAAEKAGMSAEQAQGLLEKIATPKVKNQLKETTEAACRYGAFGLPITVAHVDGQTHMLFGSDRMELLAHLLGEKWMGPIPPA GPLPRTVELFYDVLSPYSWLGFEILCRYQNIWNINLQLRPSLITGIMKDSGNKPPGLLPRKGLYMANDLKLLRHHLQIPIHFPKDFLSVMLEKGSLSAMRFLTAVNLEHPEMLEKASRELWMRVWSRNEDITEPQSILAAAEKAGMSAEQAQGLLEKIATPKVKNQLKETTEAACRYGAFGLPITVAHVDGQTHMLFGSDRMELLAHLLGEKWMGPIPPA 3rpu-a2-m1-cX_3rpu-a2-m2-cX Crystal structure of the MukE-MukF complex P60293 P60293 3.6 X-RAY DIFFRACTION 174 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 310 310 1t98-a1-m1-cB_1t98-a1-m1-cA 3euh-a1-m1-cA_3euh-a1-m1-cB 3rpu-a1-m1-cB_3rpu-a1-m1-cA VPELVAWARKNDFSISLPVDRLSFLLAVATLNGEMSEGELVDAFRHVSDAFTIGVRANNAINDMVRQRLLNRFTSEQAEGNAIYRLTPLGIGITDYYIRQREFSTLRLSMQLSIVAGELKRAADAAEEGGDEFHWHRNVYAPLKYSVAEIFDSIDLTQRLMDEQQQQVKDDIAQLLNKDWRAAISSCELLLSETSGTLRELQDTLEAAGDKLQANLLRIQDATMTHDDLHFVDRLVFDLQSKLDRIISWGQQSIDLWIGYDRHVHKFIRTAIDMDKNRVFAQRLRQSVQTYFDEPWALTYANADRLLDMR VPELVAWARKNDFSISLPVDRLSFLLAVATLNGEMSEGELVDAFRHVSDAFTIGVRANNAINDMVRQRLLNRFTSEQAEGNAIYRLTPLGIGITDYYIRQREFSTLRLSMQLSIVAGELKRAADAAEEGGDEFHWHRNVYAPLKYSVAEIFDSIDLTQRLMDEQQQQVKDDIAQLLNKDWRAAISSCELLLSETSGTLRELQDTLEAAGDKLQANLLRIQDATMTHDDLHFVDRLVFDLQSKLDRIISWGQQSIDLWIGYDRHVHKFIRTAIDMDKNRVFAQRLRQSVQTYFDEPWALTYANADRLLDMR 3rpu-a2-m2-cZ_3rpu-a2-m2-cY Crystal structure of the MukE-MukF complex P22524 P22524 3.6 X-RAY DIFFRACTION 28 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 188 205 3euh-a1-m1-cD_3euh-a1-m1-cC 3euh-a1-m1-cF_3euh-a1-m1-cE 3rpu-a1-m1-cE_3rpu-a1-m1-cD 3rpu-a1-m1-cH_3rpu-a1-m1-cG 3rpu-a2-m1-cZ_3rpu-a2-m1-cY 7v8p-a1-m1-cA_7v8p-a1-m2-cA MPVKLAQALANPLFPALDSALRSGRHIGLDELDNHAFLMDFQEYLEEFYARYNVELIRAPEGFFYLRPRSTTLIPRSVLSELDMMVGKILCYLYLSPERLANEGIFTQQELYDELLTLADEAKLLKLSDVDRQKLQEKVRSSLNRLRRLGMVWFMDSSKFRITESVFRFGADVRAGDDPREAQRRLIR HMPVKLAQALANPLFPALDSALRSGRHIGLDELDNHAFLMDFQEYLEEFYARYNVELIRAPEGFFYLRPRSTTLIPRSVLSELDMMVGKILCYLYLSPERLANEGIFTQQELYDELLTLADEAKLLKLVNNRSTGSDVDRQKLQEKVRSSLNRLRRLGMVWFMGHDSSKFRITESVFRFGADVRAGDDPREAQRRLIRDGEAMPI 3rpz-a1-m2-cA_3rpz-a1-m4-cA Crystal Structure of ADP/ATP-dependent NAD(P)H-hydrate dehydratase from Bacillus subtilis co-crystallized with ATP/Mg2+ and soaked with NADPH P94368 P94368 1.51 X-RAY DIFFRACTION 105 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 277 277 1kyh-a2-m1-cA_1kyh-a2-m3-cA 1kyh-a2-m1-cA_1kyh-a2-m4-cA 1kyh-a2-m2-cA_1kyh-a2-m3-cA 1kyh-a2-m2-cA_1kyh-a2-m4-cA 3rph-a1-m1-cA_3rph-a1-m3-cA 3rph-a1-m1-cA_3rph-a1-m4-cA 3rph-a1-m2-cA_3rph-a1-m3-cA 3rph-a1-m2-cA_3rph-a1-m4-cA 3rpz-a1-m1-cA_3rpz-a1-m3-cA 3rpz-a1-m1-cA_3rpz-a1-m4-cA 3rpz-a1-m2-cA_3rpz-a1-m3-cA 3rq2-a1-m1-cA_3rq2-a1-m3-cA 3rq2-a1-m1-cA_3rq2-a1-m4-cA 3rq2-a1-m2-cA_3rq2-a1-m3-cA 3rq2-a1-m2-cA_3rq2-a1-m4-cA 3rq5-a1-m1-cA_3rq5-a1-m3-cA 3rq5-a1-m1-cA_3rq5-a1-m4-cA 3rq5-a1-m2-cA_3rq5-a1-m3-cA 3rq5-a1-m2-cA_3rq5-a1-m4-cA 3rq6-a1-m1-cA_3rq6-a1-m3-cA 3rq6-a1-m1-cA_3rq6-a1-m4-cA 3rq6-a1-m2-cA_3rq6-a1-m3-cA 3rq6-a1-m2-cA_3rq6-a1-m4-cA 3rq8-a1-m1-cA_3rq8-a1-m3-cA 3rq8-a1-m1-cA_3rq8-a1-m4-cA 3rq8-a1-m2-cA_3rq8-a1-m3-cA 3rq8-a1-m2-cA_3rq8-a1-m4-cA 3rqh-a1-m1-cA_3rqh-a1-m3-cA 3rqh-a1-m1-cA_3rqh-a1-m4-cA 3rqh-a1-m2-cA_3rqh-a1-m3-cA 3rqh-a1-m2-cA_3rqh-a1-m4-cA 3rqq-a1-m1-cA_3rqq-a1-m3-cA 3rqq-a1-m1-cA_3rqq-a1-m4-cA 3rqq-a1-m2-cA_3rqq-a1-m3-cA 3rqq-a1-m2-cA_3rqq-a1-m4-cA 3rqx-a1-m1-cA_3rqx-a1-m3-cA 3rqx-a1-m1-cA_3rqx-a1-m4-cA 3rqx-a1-m2-cA_3rqx-a1-m3-cA 3rqx-a1-m2-cA_3rqx-a1-m4-cA AMNVPFWTEEHVRATLPERDAESHKGTYGTALLLAGSDDMPGAALLAGLGAMRSGLGKLVIGTSENVIPLIVPVLPEATYWRDGWKKAADAQLEETYRAIAIGPGLPQTESVQQAVDHVLTADCPVILDAGALAKRTYPKREGPVILTPHPGEFFRMTGVPVNELQKKRAEYAKEWAAQLQTVIVLKGNQTVIAFPDGDCWLNPTGNGALAKGGTGDTLTGMILGMLCCHEDPKHAVLNAVYLHGACAELWTDEHSAHTLLAHELSDILPRVWKRFE AMNVPFWTEEHVRATLPERDAESHKGTYGTALLLAGSDDMPGAALLAGLGAMRSGLGKLVIGTSENVIPLIVPVLPEATYWRDGWKKAADAQLEETYRAIAIGPGLPQTESVQQAVDHVLTADCPVILDAGALAKRTYPKREGPVILTPHPGEFFRMTGVPVNELQKKRAEYAKEWAAQLQTVIVLKGNQTVIAFPDGDCWLNPTGNGALAKGGTGDTLTGMILGMLCCHEDPKHAVLNAVYLHGACAELWTDEHSAHTLLAHELSDILPRVWKRFE 3rq1-a2-m1-cD_3rq1-a2-m1-cB Crystal Structure of Aminotransferase Class I and II from Veillonella parvula D1BN29 D1BN29 2.2 X-RAY DIFFRACTION 240 1.0 479436 (Veillonella parvula DSM 2008) 479436 (Veillonella parvula DSM 2008) 386 407 3rq1-a1-m1-cC_3rq1-a1-m1-cA TSVAAKHAKGKKLKDVIFVTAGQAQANGTLGAIHDEEGNLVFLKTVKEEYLSLSDSEHVGYAPIAGIPDFLCAAEKECFGNFRPEGHIRSIATAGGTGGIHHLIHNYTEPGDEVLTADWYWGAYRVICSDTGRTLVTYSLFDEHNNFNHEAFQNRVNELAAKQTNVVVIFNTPGNNPTGYSIEDKDWDSILNFLKDLVAIGRNNVIIGIDVAYLDYSGEKDEVRAFFNKFSHLPKEILTCVCYSLSKGFTYGQRVGAIGISDDEEIADEFFEVNKSTSRATWSNICRPARTANIVADPAKFKEYEAERNCYYQLIRDRADIFKQEAAQVGLPLPYRGGFFITIPTDSANAICEELKKEHIYVIALANGIRIAACGILAEKIYNAKS TSVAAKHAKGKKLKDVIFVTAGQAQADAKENGRENVVNGTLGAIHDEEGNLVFLKTVKEEYLSLSDSEHVGYAPIAGIPDFLCAAEKECFGNFRPEGHIRSIATAGGTGGIHHLIHNYTEPGDEVLTADWYWGAYRVICSDTGRTLVTYSLFDEHNNFNHEAFQNRVNELAAKQTNVVVIFNTPGNNPTGYSIEDKDWDSILNFLKDLVAIGRNNVIIGIDVAYLDYSGEKDEVRAFFNKFSHLPKEILTCVCYSLSKGFTYGQRVGAIGISDDEEIADEFFEVNKSTSRATWSNICRPARTANIVADPAKFKEYEAERNCYYQLIRDRADIFKQEAAQVGLPLPYRGGFFITIPTDSANAICEELKKEHIYVIALANGIRIAACGIPKCQTGLAEKIYNAKSLGKL 3rq3-a1-m1-cA_3rq3-a1-m1-cB Structure of T-cell immunoreceptor with immunoglobulin and ITIM domains (TIGIT) in hexagonal crystal form Q495A1 Q495A1 2.7 X-RAY DIFFRACTION 45 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 MTGTIETTGNISAEKGGSIILQCHLSSTTAQVTQVNWEQQDQLLAICNADLGWHISPSFKDRVAPGPGLGLTLQSLTVNDTGEYFCIYHTYPDGTYTGRIFLEVLES MMTGTIETTGNISAEKGGSIILQCHLSSTTAQVTQVNWEQQDQLLAICNADLGWHISPSFKDRVAPGPGLGLTLQSLTVNDTGEYFCIYHTYPDGTYTGRIFLEVLE 3rq9-a1-m1-cA_3rq9-a1-m1-cB Structure of Tsi2, a Tse2-immunity protein from Pseudomonas aeruginosa Q9I0D9 Q9I0D9 1 X-RAY DIFFRACTION 59 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 78 84 3stq-a1-m1-cA_3stq-a1-m1-cE 3stq-a2-m1-cF_3stq-a2-m1-cB 3stq-a3-m1-cC_3stq-a3-m2-cC 3stq-a4-m1-cD_3stq-a4-m3-cD 3vpv-a1-m1-cB_3vpv-a1-m1-cA 4c18-a1-m1-cB_4c18-a1-m1-cA 5ako-a1-m1-cA_5ako-a1-m1-cB NLKPQTLMVAIQCVAARTRELDAQLQNDDPQNAAELEQLLVGYDLAADDLKNAYEQALGQYSGLPPYDRLIEEPASLE NLKPQTLMVAIQCVAARTRELDAQLQNDDPQNAAELEQLLVGYDLAADDLKNAYEQALGQYSGLPPYDRLIEEPASLEHHHHHH 3rqb-a1-m1-cA_3rqb-a1-m1-cB Crystal Structure of Conserved Protein of Unknown Function with Hot dog Fold from Alicyclobacillus acidocaldarius C8WTQ0 C8WTQ0 2.8 X-RAY DIFFRACTION 212 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 255 256 VTHAFDDATALSFDGRQFHGQVKAEYYNVGPFGGITAATLKAASHPERLGQPLALTVNFAAPAKVAPFVIEAVPVRTNRSTQHFTLTQDGEVVTTATAVFGIRRESWSHTEAVPDVPPPADVPRFVAPAPLPWQWYHVRLIRGSAFDEVQDATTYQWRDDPPRPLDHAALAALCDTFVPRVYVKLKRPVPIGTVTFTVYFLADPETIFRQGTNELLGVARATGFSHGYFDQIGEVWSQDGDLLATTTQLVYKAPV LVTHAFDDATALSFDGRQFHGQVKAEYYNVGPFGGITAATLKAASHPERLGQPLALTVNFAAPAKVAPFVIEAVPVRTNRSTQHFTLTQDGEVVTTATAVFGIRRESWSHTEAVPDVPPPADVPRFVAPAPLPWQWYHVRLIRGSAFDEVQDATTYQWRDDPPRPLDHAALAALCDTFVPRVYVKLKRPVPIGTVTFTVYFLADPETIFRQGTNELLGVARATGFSHGYFDQIGEVWSQDGDLLATTTQLVYKAPV 3rqc-a4-m5-cG_3rqc-a4-m6-cG Crystal structure of the catalytic core of the 2-oxoacid dehydrogenase multienzyme complex from Thermoplasma acidophilum Q9HIA5 Q9HIA5 4.01 X-RAY DIFFRACTION 91 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 217 217 3rqc-a1-m1-cA_3rqc-a1-m1-cB 3rqc-a1-m1-cA_3rqc-a1-m1-cC 3rqc-a1-m1-cB_3rqc-a1-m1-cC 3rqc-a2-m1-cE_3rqc-a2-m1-cD 3rqc-a2-m1-cF_3rqc-a2-m1-cD 3rqc-a2-m1-cF_3rqc-a2-m1-cE 3rqc-a3-m1-cG_3rqc-a3-m2-cG 3rqc-a3-m1-cG_3rqc-a3-m3-cG 3rqc-a3-m2-cG_3rqc-a3-m3-cG 3rqc-a4-m1-cA_3rqc-a4-m1-cB 3rqc-a4-m1-cA_3rqc-a4-m1-cC 3rqc-a4-m1-cB_3rqc-a4-m1-cC 3rqc-a4-m1-cE_3rqc-a4-m1-cD 3rqc-a4-m1-cF_3rqc-a4-m1-cD 3rqc-a4-m1-cF_3rqc-a4-m1-cE 3rqc-a4-m1-cG_3rqc-a4-m2-cG 3rqc-a4-m1-cG_3rqc-a4-m3-cG 3rqc-a4-m2-cA_3rqc-a4-m2-cB 3rqc-a4-m2-cA_3rqc-a4-m2-cC 3rqc-a4-m2-cB_3rqc-a4-m2-cC 3rqc-a4-m2-cE_3rqc-a4-m2-cD 3rqc-a4-m2-cF_3rqc-a4-m2-cD 3rqc-a4-m2-cF_3rqc-a4-m2-cE 3rqc-a4-m2-cG_3rqc-a4-m3-cG 3rqc-a4-m3-cA_3rqc-a4-m3-cB 3rqc-a4-m3-cA_3rqc-a4-m3-cC 3rqc-a4-m3-cB_3rqc-a4-m3-cC 3rqc-a4-m3-cE_3rqc-a4-m3-cD 3rqc-a4-m3-cF_3rqc-a4-m3-cD 3rqc-a4-m3-cF_3rqc-a4-m3-cE 3rqc-a4-m4-cA_3rqc-a4-m4-cB 3rqc-a4-m4-cA_3rqc-a4-m4-cC 3rqc-a4-m4-cB_3rqc-a4-m4-cC 3rqc-a4-m4-cE_3rqc-a4-m4-cD 3rqc-a4-m4-cF_3rqc-a4-m4-cD 3rqc-a4-m4-cF_3rqc-a4-m4-cE 3rqc-a4-m4-cG_3rqc-a4-m5-cG 3rqc-a4-m4-cG_3rqc-a4-m6-cG 3rqc-a4-m5-cA_3rqc-a4-m5-cB 3rqc-a4-m5-cA_3rqc-a4-m5-cC 3rqc-a4-m5-cB_3rqc-a4-m5-cC 3rqc-a4-m5-cE_3rqc-a4-m5-cD 3rqc-a4-m5-cF_3rqc-a4-m5-cD 3rqc-a4-m5-cF_3rqc-a4-m5-cE 3rqc-a4-m6-cA_3rqc-a4-m6-cB 3rqc-a4-m6-cA_3rqc-a4-m6-cC 3rqc-a4-m6-cB_3rqc-a4-m6-cC 3rqc-a4-m6-cE_3rqc-a4-m6-cD 3rqc-a4-m6-cF_3rqc-a4-m6-cD 3rqc-a4-m6-cF_3rqc-a4-m6-cE 4ofs-a1-m1-cA_4ofs-a1-m1-cB 4ofs-a1-m1-cA_4ofs-a1-m1-cC 4ofs-a1-m1-cB_4ofs-a1-m1-cC 4ofs-a2-m1-cD_4ofs-a2-m1-cE 4ofs-a2-m1-cD_4ofs-a2-m1-cF 4ofs-a2-m1-cE_4ofs-a2-m1-cF EEILEMHGLRRIIFDKMTKAKQIMPHFTVMEEVDVTSMVSILDSAKARNRKVTVTGFLARIVPSILKQYPYLNAIYDETRRVYILKKYYNIGIAVDTPDGLNVFVIKDADRKSMVEISAEISDKASRARENKLQLDEVQDSTFTITNVGTIGGIMSTPIINYPEVAILGVHRILEREGRKYMYLSLSCDHRLIDGAVATRFIVDLKKVIEDPNAIIY EEILEMHGLRRIIFDKMTKAKQIMPHFTVMEEVDVTSMVSILDSAKARNRKVTVTGFLARIVPSILKQYPYLNAIYDETRRVYILKKYYNIGIAVDTPDGLNVFVIKDADRKSMVEISAEISDKASRARENKLQLDEVQDSTFTITNVGTIGGIMSTPIINYPEVAILGVHRILEREGRKYMYLSLSCDHRLIDGAVATRFIVDLKKVIEDPNAIIY 3rqc-a4-m6-cF_3rqc-a4-m1-cB Crystal structure of the catalytic core of the 2-oxoacid dehydrogenase multienzyme complex from Thermoplasma acidophilum Q9HIA5 Q9HIA5 4.01 X-RAY DIFFRACTION 34 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 215 218 3rqc-a4-m1-cA_3rqc-a4-m1-cG 3rqc-a4-m1-cD_3rqc-a4-m5-cD 3rqc-a4-m1-cE_3rqc-a4-m1-cC 3rqc-a4-m1-cF_3rqc-a4-m6-cB 3rqc-a4-m2-cA_3rqc-a4-m2-cG 3rqc-a4-m2-cD_3rqc-a4-m4-cD 3rqc-a4-m2-cE_3rqc-a4-m2-cC 3rqc-a4-m2-cF_3rqc-a4-m5-cB 3rqc-a4-m3-cA_3rqc-a4-m3-cG 3rqc-a4-m3-cD_3rqc-a4-m6-cD 3rqc-a4-m3-cE_3rqc-a4-m3-cC 3rqc-a4-m3-cF_3rqc-a4-m4-cB 3rqc-a4-m4-cA_3rqc-a4-m4-cG 3rqc-a4-m4-cE_3rqc-a4-m4-cC 3rqc-a4-m4-cF_3rqc-a4-m3-cB 3rqc-a4-m5-cA_3rqc-a4-m5-cG 3rqc-a4-m5-cE_3rqc-a4-m5-cC 3rqc-a4-m5-cF_3rqc-a4-m2-cB 3rqc-a4-m6-cA_3rqc-a4-m6-cG 3rqc-a4-m6-cE_3rqc-a4-m6-cC ILEMHGLRRIIFDKMTKAKQIMPHFTVMEEVDVTSMVSILDSAKARNRKVTVTGFLARIVPSILKQYPYLNAIYDETRRVYILKKYYNIGIAVDTPDGLNVFVIKDADRKSMVEISAEISDKASRARENKLQLDEVQDSTFTITNVGTIGGIMSTPIINYPEVAILGVHRILEREGRKYMYLSLSCDHRLIDGAVATRFIVDLKKVIEDPNAIIY REEILEMHGLRRIIFDKMTKAKQIMPHFTVMEEVDVTSMVSILDSAKARNRKVTVTGFLARIVPSILKQYPYLNAIYDETRRVYILKKYYNIGIAVDTPDGLNVFVIKDADRKSMVEISAEISDKASRARENKLQLDEVQDSTFTITNVGTIGGIMSTPIINYPEVAILGVHRILEREGRKYMYLSLSCDHRLIDGAVATRFIVDLKKVIEDPNAIIY 3rqg-a2-m1-cB_3rqg-a2-m1-cD Cerebral cavernous malformation 3 (CCM3) in complex with paxillin LD4 Q9BUL8 Q9BUL8 2.5 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 203 3l8i-a4-m1-cB_3l8i-a4-m1-cD 3rqe-a1-m1-cD_3rqe-a1-m1-cB NEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT MKNEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT 3rqg-a4-m1-cA_3rqg-a4-m1-cC Cerebral cavernous malformation 3 (CCM3) in complex with paxillin LD4 Q9BUL8 Q9BUL8 2.5 X-RAY DIFFRACTION 32 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 197 212 3l8i-a4-m1-cA_3l8i-a4-m1-cC 3rqg-a1-m1-cA_3rqg-a1-m1-cC 3rqg-a2-m1-cA_3rqg-a2-m1-cC SMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKTVA GHMRMTMEEMKNEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT 3rqg-a4-m3-cB_3rqg-a4-m1-cC Cerebral cavernous malformation 3 (CCM3) in complex with paxillin LD4 Q9BUL8 Q9BUL8 2.5 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 212 3l8i-a3-m1-cA_3l8i-a3-m2-cD 3l8i-a3-m1-cB_3l8i-a3-m2-cC 3rqg-a1-m1-cA_3rqg-a1-m1-cD 3rqg-a3-m3-cA_3rqg-a3-m1-cD 3rqg-a3-m3-cB_3rqg-a3-m1-cC NEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT GHMRMTMEEMKNEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT 3rqg-a4-m3-cB_3rqg-a4-m1-cD Cerebral cavernous malformation 3 (CCM3) in complex with paxillin LD4 Q9BUL8 Q9BUL8 2.5 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 203 3l8i-a3-m1-cB_3l8i-a3-m2-cD 3rqe-a2-m1-cD_3rqe-a2-m2-cB 3rqe-a3-m1-cD_3rqe-a3-m2-cB 3rqg-a1-m1-cB_3rqg-a1-m1-cD 3rqg-a3-m3-cB_3rqg-a3-m1-cD NEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT MKNEAETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIERPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFKKYQYQNRRALEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFKT 3rqi-a1-m1-cA_3rqi-a1-m2-cA Crystal structure of a response regulator protein from Burkholderia pseudomallei with a phosphorylated aspartic acid, calcium ion and citrate Q3JXA5 Q3JXA5 1.7 X-RAY DIFFRACTION 196 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 169 169 DKNFLVIDDNEVFAGTLARGLERRGYAVRQAHNKDEALKLAGAEKFEFITVLHLGNDSGLSLIAPLCDLQPDARILVLTGYASIATAVQAVKDGADNYLAKPANVESILAALQTNASEVQAEEALENPVVLSLEWEHIQRVLAENNNNISATARALNMHRRTLQRKLAK DKNFLVIDDNEVFAGTLARGLERRGYAVRQAHNKDEALKLAGAEKFEFITVLHLGNDSGLSLIAPLCDLQPDARILVLTGYASIATAVQAVKDGADNYLAKPANVESILAALQTNASEVQAEEALENPVVLSLEWEHIQRVLAENNNNISATARALNMHRRTLQRKLAK 3rr1-a1-m2-cA_3rr1-a1-m4-cB Crystal structure of enolase PRK14017 (target EFI-500653) from Ralstonia pickettii 12J B2UCA8 B2UCA8 1.95 X-RAY DIFFRACTION 96 1.0 402626 (Ralstonia pickettii 12J) 402626 (Ralstonia pickettii 12J) 372 376 3rr1-a1-m1-cA_3rr1-a1-m3-cB 3rr1-a1-m3-cA_3rr1-a1-m2-cB 3rr1-a1-m4-cA_3rr1-a1-m1-cB 3rra-a1-m1-cA_3rra-a1-m4-cB 3rra-a1-m2-cA_3rra-a1-m3-cB 3rra-a1-m3-cA_3rra-a1-m1-cB 3rra-a1-m4-cA_3rra-a1-m2-cB MVKITRLTTYRLPPRWMFLKVETDEGVTGWGEPVIEGRARTVEAAVHELSDYLIGQDPSRINDLWQTMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLGVPVYELLGGLVRDKMRTYSWVGGDRPADVIAGMKALQAGGFDHFKLNGCEEMGIIDTSRAVDAAVARVAEIRSAFGNTVEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAETYARLAAHTHLPIAAGERMFSRFDFKRVLEAGGVSILQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVSWNATLQEQSMELLDYVRNKADFALEGGYIRPPRLPGLGVDIDEALVIERSKEAPPVWRHADGSVAEWA MVKITRLTTYRLPPRWMFLKVETDEGVTGWGEPVIEGRARTVEAAVHELSDYLIGQDPSRINDLWQTMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLGVPVYELLGGLVRDKMRTYSWVGGDRPADVIAGMKALQAGGFDHFKLNGCEEMGIIDTSRAVDAAVARVAEIRSAFGNTVEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAETYARLAAHTHLPIAAGERMFSRFDFKRVLEAGGVSILQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVSWNATLQEQSMGAELLDYVRNKADFALEGGYIRPPRLPGLGVDIDEALVIERSKEAPDPVWRHADGSVAEWAE 3rr1-a1-m4-cA_3rr1-a1-m4-cB Crystal structure of enolase PRK14017 (target EFI-500653) from Ralstonia pickettii 12J B2UCA8 B2UCA8 1.95 X-RAY DIFFRACTION 108 1.0 402626 (Ralstonia pickettii 12J) 402626 (Ralstonia pickettii 12J) 372 376 3rr1-a1-m1-cA_3rr1-a1-m1-cB 3rr1-a1-m2-cA_3rr1-a1-m2-cB 3rr1-a1-m3-cA_3rr1-a1-m3-cB 3rra-a1-m1-cA_3rra-a1-m1-cB 3rra-a1-m2-cA_3rra-a1-m2-cB 3rra-a1-m3-cA_3rra-a1-m3-cB 3rra-a1-m4-cA_3rra-a1-m4-cB MVKITRLTTYRLPPRWMFLKVETDEGVTGWGEPVIEGRARTVEAAVHELSDYLIGQDPSRINDLWQTMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLGVPVYELLGGLVRDKMRTYSWVGGDRPADVIAGMKALQAGGFDHFKLNGCEEMGIIDTSRAVDAAVARVAEIRSAFGNTVEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAETYARLAAHTHLPIAAGERMFSRFDFKRVLEAGGVSILQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVSWNATLQEQSMELLDYVRNKADFALEGGYIRPPRLPGLGVDIDEALVIERSKEAPPVWRHADGSVAEWA MVKITRLTTYRLPPRWMFLKVETDEGVTGWGEPVIEGRARTVEAAVHELSDYLIGQDPSRINDLWQTMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLGVPVYELLGGLVRDKMRTYSWVGGDRPADVIAGMKALQAGGFDHFKLNGCEEMGIIDTSRAVDAAVARVAEIRSAFGNTVEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAETYARLAAHTHLPIAAGERMFSRFDFKRVLEAGGVSILQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVSWNATLQEQSMGAELLDYVRNKADFALEGGYIRPPRLPGLGVDIDEALVIERSKEAPDPVWRHADGSVAEWAE 3rr2-a2-m1-cA_3rr2-a2-m2-cA Structure of a Cysteine synthase (O-Acetylserine Sulfhydrylase (OASS)) from Mycobacterium marinum ATCC BAA-535 / M B2HL85 B2HL85 1.95 X-RAY DIFFRACTION 129 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 291 291 SMTIAENITQLIGGTPLVRLRRVTDGAAADVVAKLESFNPAGSIKDRIGVAMIDAAEKAGLIKPDTIILEPTSGNTGIALAMVSAARGYKCVLTMPDTMSIERRMLLRAYGAELVLTPMAGAIAKAEELAKTDDRYFIPQQFENPANPAVHAVTTAEEVWRDTDGKVDIFVSGVGTGGTITGVAQVIKQRRPSAQFVAVEPAASPVKGPHPIQGIGAGFVPPVLDLALVDEVITVGNDDALELARRMATEEGLLVGISSGAAVWAARELAHRPENAGKLIVVVLPDFGERY SMTIAENITQLIGGTPLVRLRRVTDGAAADVVAKLESFNPAGSIKDRIGVAMIDAAEKAGLIKPDTIILEPTSGNTGIALAMVSAARGYKCVLTMPDTMSIERRMLLRAYGAELVLTPMAGAIAKAEELAKTDDRYFIPQQFENPANPAVHAVTTAEEVWRDTDGKVDIFVSGVGTGGTITGVAQVIKQRRPSAQFVAVEPAASPVKGPHPIQGIGAGFVPPVLDLALVDEVITVGNDDALELARRMATEEGLLVGISSGAAVWAARELAHRPENAGKLIVVVLPDFGERY 3rra-a1-m2-cB_3rra-a1-m4-cB Crystal structure of enolase PRK14017 (target EFI-500653) from Ralstonia pickettii 12J with magnesium bound B2UCA8 B2UCA8 2.3 X-RAY DIFFRACTION 65 1.0 402626 (Ralstonia pickettii 12J) 402626 (Ralstonia pickettii 12J) 379 379 3rr1-a1-m1-cA_3rr1-a1-m3-cA 3rr1-a1-m1-cA_3rr1-a1-m4-cA 3rr1-a1-m1-cB_3rr1-a1-m3-cB 3rr1-a1-m1-cB_3rr1-a1-m4-cB 3rr1-a1-m2-cA_3rr1-a1-m3-cA 3rr1-a1-m2-cA_3rr1-a1-m4-cA 3rr1-a1-m2-cB_3rr1-a1-m3-cB 3rr1-a1-m2-cB_3rr1-a1-m4-cB 3rra-a1-m1-cA_3rra-a1-m3-cA 3rra-a1-m1-cA_3rra-a1-m4-cA 3rra-a1-m1-cB_3rra-a1-m3-cB 3rra-a1-m1-cB_3rra-a1-m4-cB 3rra-a1-m2-cA_3rra-a1-m3-cA 3rra-a1-m2-cA_3rra-a1-m4-cA 3rra-a1-m2-cB_3rra-a1-m3-cB MVKITRLTTYRLPPRWMFLKVETDEGVTGWGEPVIEGRARTVEAAVHELSDYLIGQDPSRINDLWQTMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLGVPVYELLGGLVRDKMRTYSWVGGDRPADVIAGMKALQAGGFDHFKLNGCEEMGIIDTSRAVDAAVARVAEIRSAFGNTVEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAETYARLAAHTHLPIAAGERMFSRFDFKRVLEAGGVSILQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVSWNATLQEQSMGAELLDYVRNKADFALEGGYIRPPRLPGLGVDIDEALVIERSKEAPDNPVWRHADGSVAEWAENL MVKITRLTTYRLPPRWMFLKVETDEGVTGWGEPVIEGRARTVEAAVHELSDYLIGQDPSRINDLWQTMYRAGFYRGGPILMSAIAGIDQALWDIKGKVLGVPVYELLGGLVRDKMRTYSWVGGDRPADVIAGMKALQAGGFDHFKLNGCEEMGIIDTSRAVDAAVARVAEIRSAFGNTVEFGLDFHGRVSAPMAKVLIKELEPYRPLFIEEPVLAEQAETYARLAAHTHLPIAAGERMFSRFDFKRVLEAGGVSILQPDLSHAGGITECVKIAAMAEAYDVALAPHCPLGPIALAACLHVDFVSWNATLQEQSMGAELLDYVRNKADFALEGGYIRPPRLPGLGVDIDEALVIERSKEAPDNPVWRHADGSVAEWAENL 3rri-a1-m2-cA_3rri-a1-m4-cB Crystal structure of glyoxalase/bleomycin resistance protein/dioxygenase from Alicyclobacillus acidocaldarius C8WSF5 C8WSF5 1.5 X-RAY DIFFRACTION 17 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 128 128 3rri-a1-m1-cA_3rri-a1-m3-cB 3rri-a1-m1-cB_3rri-a1-m4-cA 3rri-a1-m2-cB_3rri-a1-m3-cA RNPNDVFHLAIPARDLDEAYDFYVTKLGCKLARRYPDRITLDFFGDQLVCHLSDRWDREVSYPRHFGITFRDKKHFDNLYKLAKQRGIPFYHDLSRRFEGLIEEHETFFLIDPSNNLLEFKYYFDDRY RNPNDVFHLAIPARDLDEAYDFYVTKLGCKLARRYPDRITLDFFGDQLVCHLSDRWDREVSYPRHFGITFRDKKHFDNLYKLAKQRGIPFYHDLSRRFEGLIEEHETFFLIDPSNNLLEFKYYFDDRY 3rri-a1-m2-cB_3rri-a1-m4-cB Crystal structure of glyoxalase/bleomycin resistance protein/dioxygenase from Alicyclobacillus acidocaldarius C8WSF5 C8WSF5 1.5 X-RAY DIFFRACTION 16 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 128 128 3rri-a1-m1-cA_3rri-a1-m3-cA 3rri-a1-m1-cA_3rri-a1-m4-cA 3rri-a1-m1-cB_3rri-a1-m3-cB 3rri-a1-m1-cB_3rri-a1-m4-cB 3rri-a1-m2-cA_3rri-a1-m3-cA 3rri-a1-m2-cA_3rri-a1-m4-cA 3rri-a1-m2-cB_3rri-a1-m3-cB RNPNDVFHLAIPARDLDEAYDFYVTKLGCKLARRYPDRITLDFFGDQLVCHLSDRWDREVSYPRHFGITFRDKKHFDNLYKLAKQRGIPFYHDLSRRFEGLIEEHETFFLIDPSNNLLEFKYYFDDRY RNPNDVFHLAIPARDLDEAYDFYVTKLGCKLARRYPDRITLDFFGDQLVCHLSDRWDREVSYPRHFGITFRDKKHFDNLYKLAKQRGIPFYHDLSRRFEGLIEEHETFFLIDPSNNLLEFKYYFDDRY 3rri-a2-m1-cA_3rri-a2-m1-cB Crystal structure of glyoxalase/bleomycin resistance protein/dioxygenase from Alicyclobacillus acidocaldarius C8WSF5 C8WSF5 1.5 X-RAY DIFFRACTION 135 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 128 128 3rri-a1-m1-cA_3rri-a1-m1-cB 3rri-a1-m2-cA_3rri-a1-m2-cB 3rri-a1-m3-cA_3rri-a1-m3-cB 3rri-a1-m4-cA_3rri-a1-m4-cB RNPNDVFHLAIPARDLDEAYDFYVTKLGCKLARRYPDRITLDFFGDQLVCHLSDRWDREVSYPRHFGITFRDKKHFDNLYKLAKQRGIPFYHDLSRRFEGLIEEHETFFLIDPSNNLLEFKYYFDDRY RNPNDVFHLAIPARDLDEAYDFYVTKLGCKLARRYPDRITLDFFGDQLVCHLSDRWDREVSYPRHFGITFRDKKHFDNLYKLAKQRGIPFYHDLSRRFEGLIEEHETFFLIDPSNNLLEFKYYFDDRY 3rrl-a1-m1-cC_3rrl-a1-m1-cA Complex structure of 3-oxoadipate coA-transferase subunit A and B from Helicobacter pylori 26695 P56006 P56006 2.29 X-RAY DIFFRACTION 54 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 224 227 NKVITDLDKALSALKDGDTILVGGFGLCGIPEYAIDYIYKKGIKDLIVVSNNCGVDDFGLGILLEKKQIKKIIASYVGENKIFLNGEIEVVLTPQGTLAENLHAGGAGIPAYYTPTGVGTLIAQGKESREFNGKEYILERAITGDYGLIKAYKSDTLGNLVFRKTARNFNPLCAAAKICVAEVEEIVPAGELDPDEIHLPGIYVQHIYKGEKFEKRIEKITTRS NKVITDLDKALSALKDGDTILVGGFGLCGIPEYAIDYIYKKGIKDLIVVSNNCGVDDFGLGILLEKKQIKKIIASYVGENKIFESQLNGEIEVVLTPQGTLAENLHAGGAGIPAYYTPTGVGTLIAQGKESREFNGKEYILERAITGDYGLIKAYKSDTLGNLVFRKTARNFNPLCAAAKICVAEVEEIVPAGELDPDEIHLPGIYVQHIYKGEKFEKRIEKITTRS 3rrp-a1-m1-cB_3rrp-a1-m2-cB Crystal structure of fumarate hydratase Fum from Mycobacterium abscessus with malate bound B1MKP6 B1MKP6 2.3 X-RAY DIFFRACTION 283 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 460 460 3rrp-a1-m1-cA_3rrp-a1-m2-cA QYRIEHDTMGEVRVPAEALWRAQTQRAVENFPISGRGLERTQIRALGLLKGACAQVNKDLGLLAAEKADAIIAAAQEIADGKHDDQFPIDVFQTGSGTSSNMNANEVIASIAAQATPPVVVHPNDDVNMSQSSNDTFPTATHLAATEAAVRDLIPALEYLQQALATKAKAWKTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELPIGGTAVGTGLNAPDGFGAKVVEVLKQSTGLSELKTASDSFEAQAARDGLVEGSGALKTIAASLTKIANDIRWMGSGPLTGLGEIQLPDLQPGSSIMPGKVNPVLPEAVTQVAAQVIGNDAAITVGGLSGAFELNVYIPVMARNLLESFTLLANVSRLFVDKCVDGLVANEDHLRTLAESSPSIVTPLNSAIGYEEAAAVAKEALKERKTIRQTVIDRGLIGDKLSIEELDKRLDVLAMAKV QYRIEHDTMGEVRVPAEALWRAQTQRAVENFPISGRGLERTQIRALGLLKGACAQVNKDLGLLAAEKADAIIAAAQEIADGKHDDQFPIDVFQTGSGTSSNMNANEVIASIAAQATPPVVVHPNDDVNMSQSSNDTFPTATHLAATEAAVRDLIPALEYLQQALATKAKAWKTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELPIGGTAVGTGLNAPDGFGAKVVEVLKQSTGLSELKTASDSFEAQAARDGLVEGSGALKTIAASLTKIANDIRWMGSGPLTGLGEIQLPDLQPGSSIMPGKVNPVLPEAVTQVAAQVIGNDAAITVGGLSGAFELNVYIPVMARNLLESFTLLANVSRLFVDKCVDGLVANEDHLRTLAESSPSIVTPLNSAIGYEEAAAVAKEALKERKTIRQTVIDRGLIGDKLSIEELDKRLDVLAMAKV 3rrp-a1-m2-cB_3rrp-a1-m1-cA Crystal structure of fumarate hydratase Fum from Mycobacterium abscessus with malate bound B1MKP6 B1MKP6 2.3 X-RAY DIFFRACTION 155 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 460 465 3rrp-a1-m1-cB_3rrp-a1-m2-cA QYRIEHDTMGEVRVPAEALWRAQTQRAVENFPISGRGLERTQIRALGLLKGACAQVNKDLGLLAAEKADAIIAAAQEIADGKHDDQFPIDVFQTGSGTSSNMNANEVIASIAAQATPPVVVHPNDDVNMSQSSNDTFPTATHLAATEAAVRDLIPALEYLQQALATKAKAWKTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELPIGGTAVGTGLNAPDGFGAKVVEVLKQSTGLSELKTASDSFEAQAARDGLVEGSGALKTIAASLTKIANDIRWMGSGPLTGLGEIQLPDLQPGSSIMPGKVNPVLPEAVTQVAAQVIGNDAAITVGGLSGAFELNVYIPVMARNLLESFTLLANVSRLFVDKCVDGLVANEDHLRTLAESSPSIVTPLNSAIGYEEAAAVAKEALKERKTIRQTVIDRGLIGDKLSIEELDKRLDVLAMAKV SEQQYRIEHDTMGEVRVPAEALWRAQTQRAVENFPISGRGLERTQIRALGLLKGACAQVNKDLGLLAAEKADAIIAAAQEIADGKHDDQFPIDVFQTGSGTSSNMNANEVIASIAAQATPPVVVHPNDDVNMSQSSNDTFPTATHLAATEAAVRDLIPALEYLQQALATKAKAWKTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELPIGGTAVGTGLNAPDGFGAKVVEVLKQSTGLSELKTASDSFEAQAARDGLVEGSGALKTIAASLTKIANDIRWMGSGPLTGLGEIQLPDLQPGSSIMPGKVNPVLPEAVTQVAAQVIGNDAAITVGGLSGAFELNVYIPVMARNLLESFTLLANVSRLFVDKCVDGLVANEDHLRTLAESSPSIVTPLNSAIGYEEAAAVAKEALKERKTIRQTVIDRGLIGDKLSIEELDKRLDVLAMAKVKD 3rrp-a1-m2-cB_3rrp-a1-m2-cA Crystal structure of fumarate hydratase Fum from Mycobacterium abscessus with malate bound B1MKP6 B1MKP6 2.3 X-RAY DIFFRACTION 235 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 460 465 3rrp-a1-m1-cB_3rrp-a1-m1-cA QYRIEHDTMGEVRVPAEALWRAQTQRAVENFPISGRGLERTQIRALGLLKGACAQVNKDLGLLAAEKADAIIAAAQEIADGKHDDQFPIDVFQTGSGTSSNMNANEVIASIAAQATPPVVVHPNDDVNMSQSSNDTFPTATHLAATEAAVRDLIPALEYLQQALATKAKAWKTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELPIGGTAVGTGLNAPDGFGAKVVEVLKQSTGLSELKTASDSFEAQAARDGLVEGSGALKTIAASLTKIANDIRWMGSGPLTGLGEIQLPDLQPGSSIMPGKVNPVLPEAVTQVAAQVIGNDAAITVGGLSGAFELNVYIPVMARNLLESFTLLANVSRLFVDKCVDGLVANEDHLRTLAESSPSIVTPLNSAIGYEEAAAVAKEALKERKTIRQTVIDRGLIGDKLSIEELDKRLDVLAMAKV SEQQYRIEHDTMGEVRVPAEALWRAQTQRAVENFPISGRGLERTQIRALGLLKGACAQVNKDLGLLAAEKADAIIAAAQEIADGKHDDQFPIDVFQTGSGTSSNMNANEVIASIAAQATPPVVVHPNDDVNMSQSSNDTFPTATHLAATEAAVRDLIPALEYLQQALATKAKAWKTVVKSGRTHLMDAVPVTLGQEFGGYARQIEAGIERVKATLPRLGELPIGGTAVGTGLNAPDGFGAKVVEVLKQSTGLSELKTASDSFEAQAARDGLVEGSGALKTIAASLTKIANDIRWMGSGPLTGLGEIQLPDLQPGSSIMPGKVNPVLPEAVTQVAAQVIGNDAAITVGGLSGAFELNVYIPVMARNLLESFTLLANVSRLFVDKCVDGLVANEDHLRTLAESSPSIVTPLNSAIGYEEAAAVAKEALKERKTIRQTVIDRGLIGDKLSIEELDKRLDVLAMAKVKD 3rrv-a1-m1-cC_3rrv-a1-m1-cD Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium paratuberculosis Q743A2 Q743A2 2.45 X-RAY DIFFRACTION 27 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 249 249 3rrv-a1-m1-cE_3rrv-a1-m1-cB 3rrv-a1-m1-cF_3rrv-a1-m1-cA YDMPTEIDVRADGALRIITLNRPDSLNSVNDDLHVGLARLWQRLTDDPTARAAVITGAGRAFSAGGDFGYLKELSADADLRAKTIRDGREIVLGMARCRIPVVAAVNGPAVGLGCSLVALSDIVYIAENAYLADPHVQVGLVAADGGPLTWPLHISLLLAKEYALTGTRISAQRAVELGLANHVADDPVAEAIACAKKILELPQQAVESTKRVLNIHLERAVLASLDYALSAESQSFVTEDFRSIVTKL YDMPTEIDVRADGALRIITLNRPDSLNSVNDDLHVGLARLWQRLTDDPTARAAVITGAGRAFSAGGDFGYLKELSADADLRAKTIRDGREIVLGMARCRIPVVAAVNGPAVGLGCSLVALSDIVYIAENAYLADPHVQVGLVAADGGPLTWPLHISLLLAKEYALTGTRISAQRAVELGLANHVADDPVAEAIACAKKILELPQQAVESTKRVLNIHLERAVLASLDYALSAESQSFVTEDFRSIVTKL 3rrv-a1-m1-cD_3rrv-a1-m1-cF Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium paratuberculosis Q743A2 Q743A2 2.45 X-RAY DIFFRACTION 108 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 249 250 3rrv-a1-m1-cA_3rrv-a1-m1-cB 3rrv-a1-m1-cC_3rrv-a1-m1-cA 3rrv-a1-m1-cC_3rrv-a1-m1-cB 3rrv-a1-m1-cD_3rrv-a1-m1-cE 3rrv-a1-m1-cF_3rrv-a1-m1-cE YDMPTEIDVRADGALRIITLNRPDSLNSVNDDLHVGLARLWQRLTDDPTARAAVITGAGRAFSAGGDFGYLKELSADADLRAKTIRDGREIVLGMARCRIPVVAAVNGPAVGLGCSLVALSDIVYIAENAYLADPHVQVGLVAADGGPLTWPLHISLLLAKEYALTGTRISAQRAVELGLANHVADDPVAEAIACAKKILELPQQAVESTKRVLNIHLERAVLASLDYALSAESQSFVTEDFRSIVTKL VYDMPTEIDVRADGALRIITLNRPDSLNSVNDDLHVGLARLWQRLTDDPTARAAVITGAGRAFSAGGDFGYLKELSADADLRAKTIRDGREIVLGMARCRIPVVAAVNGPAVGLGCSLVALSDIVYIAENAYLADPHVQVGLVAADGGPLTWPLHISLLLAKEYALTGTRISAQRAVELGLANHVADDPVAEAIACAKKILELPQQAVESTKRVLNIHLERAVLASLDYALSAESQSFVTEDFRSIVTKL 3rrv-a1-m1-cF_3rrv-a1-m1-cB Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium paratuberculosis Q743A2 Q743A2 2.45 X-RAY DIFFRACTION 16 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 250 254 3rrv-a1-m1-cC_3rrv-a1-m1-cE 3rrv-a1-m1-cD_3rrv-a1-m1-cA VYDMPTEIDVRADGALRIITLNRPDSLNSVNDDLHVGLARLWQRLTDDPTARAAVITGAGRAFSAGGDFGYLKELSADADLRAKTIRDGREIVLGMARCRIPVVAAVNGPAVGLGCSLVALSDIVYIAENAYLADPHVQVGLVAADGGPLTWPLHISLLLAKEYALTGTRISAQRAVELGLANHVADDPVAEAIACAKKILELPQQAVESTKRVLNIHLERAVLASLDYALSAESQSFVTEDFRSIVTKL VYDMPTEIDVRADGALRIITLNRPDSLNSVNDDLHVGLARLWQRLTDDPTARAAVITGAGRAFSAGGDFGYLKELSADADLRAKTIRDGREIVLGMARCRIPVVAAVNGPAVGLGCSLVALSDIVYIAENAYLADPHVQVGLVAADGGPLTWPLHISLLLAKEYALTGTRISAQRAVELGLANHVADDPVAEAIACAKKILELPQQAVESTKRVLNIHLERAVLASLDYALSAESQSFVTEDFRSIVTKLADKN 3rs1-a1-m1-cA_3rs1-a1-m1-cB Mouse C-type lectin-related protein Clrg Q9WVF9 Q9WVF9 1.94 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 122 122 MNKTYAACSKNWTGVGNKCFYFSGYPRNWTFAQAFCMAQEAQLARFDNEEELIFLKRFKGDFDSWIGLHRESSEHPWKWTNNTEYNNMNPILGVGRYAYLSSDRISSSRSYINRMWICSKLN MNKTYAACSKNWTGVGNKCFYFSGYPRNWTFAQAFCMAQEAQLARFDNEEELIFLKRFKGDFDSWIGLHRESSEHPWKWTNNTEYNNMNPILGVGRYAYLSSDRISSSRSYINRMWICSKLN 3rsi-a1-m1-cA_3rsi-a1-m1-cB The structure of a putative enoyl-CoA hydratase/isomerase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MIA8 B1MIA8 2 X-RAY DIFFRACTION 126 0.996 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 243 244 RELLVERDGPVVILTMNRPHRRNALSTNMVSQFAAAWDEIDHDDGIRAAILTGAGSAYCVGGPLDPATIGKGLLLSHTLTKPLIAAVNGACLGGGCEMLQQTDIRVSDEHATFGLPEVQRGLVPGAGSMVRLKRQIPYTKAMEMILTGEPLTAFEAYHFGLVGHVVPAGTALDKARSLADRIVRNGPLAVRNAKEAIVRSGWLAEEDARAIEARLTRPVITSADAREGLAAFKEKREARFTGR ARELLVERDGPVVILTMNRPHRRNALSTNMVSQFAAAWDEIDHDDGIRAAILTGAGSAYCVGGDLDPATIGKGLLLSHTLTKPLIAAVNGACLGGGCEMLQQTDIRVSDEHATFGLPEVQRGLVPGAGSMVRLKRQIPYTKAMEMILTGEPLTAFEAYHFGLVGHVVPAGTALDKARSLADRIVRNGPLAVRNAKEAIVRSGWLAEEDARAIEARLTRPVITSADAREGLAAFKEKREARFTGR 3rsi-a1-m1-cC_3rsi-a1-m1-cA The structure of a putative enoyl-CoA hydratase/isomerase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MIA8 B1MIA8 2 X-RAY DIFFRACTION 129 0.996 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 241 243 ARELLVERDGPVVILTMNRPHRRNALSTNMVSQFAAAWDEIDHDDGIRAAILTGAGSAYCVGDPATIGKGLLLSHTLTKPLIAAVNGACLGGGCEMLQQTDIRVSDEHATFGLPEVQRGLVPGAGSMVRLKRQIPYTKAMEMILTGEPLTAFEAYHFGLVGHVVPAGTALDKARSLADRIVRNGPLAVRNAKEAIVRSGWLAEEDARAIEARLTRPVITSADAREGLAAFKEKREARFTGR RELLVERDGPVVILTMNRPHRRNALSTNMVSQFAAAWDEIDHDDGIRAAILTGAGSAYCVGGPLDPATIGKGLLLSHTLTKPLIAAVNGACLGGGCEMLQQTDIRVSDEHATFGLPEVQRGLVPGAGSMVRLKRQIPYTKAMEMILTGEPLTAFEAYHFGLVGHVVPAGTALDKARSLADRIVRNGPLAVRNAKEAIVRSGWLAEEDARAIEARLTRPVITSADAREGLAAFKEKREARFTGR 3rsi-a1-m1-cC_3rsi-a1-m1-cB The structure of a putative enoyl-CoA hydratase/isomerase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MIA8 B1MIA8 2 X-RAY DIFFRACTION 374 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 241 244 ARELLVERDGPVVILTMNRPHRRNALSTNMVSQFAAAWDEIDHDDGIRAAILTGAGSAYCVGDPATIGKGLLLSHTLTKPLIAAVNGACLGGGCEMLQQTDIRVSDEHATFGLPEVQRGLVPGAGSMVRLKRQIPYTKAMEMILTGEPLTAFEAYHFGLVGHVVPAGTALDKARSLADRIVRNGPLAVRNAKEAIVRSGWLAEEDARAIEARLTRPVITSADAREGLAAFKEKREARFTGR ARELLVERDGPVVILTMNRPHRRNALSTNMVSQFAAAWDEIDHDDGIRAAILTGAGSAYCVGGDLDPATIGKGLLLSHTLTKPLIAAVNGACLGGGCEMLQQTDIRVSDEHATFGLPEVQRGLVPGAGSMVRLKRQIPYTKAMEMILTGEPLTAFEAYHFGLVGHVVPAGTALDKARSLADRIVRNGPLAVRNAKEAIVRSGWLAEEDARAIEARLTRPVITSADAREGLAAFKEKREARFTGR 3rt2-a2-m1-cA_3rt2-a2-m2-cA Crystal structure of apo-PYL10 Q8H1R0 Q8H1R0 1.5 X-RAY DIFFRACTION 66 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 171 171 ESEYIKKHHRHELVESQCSSTLVKHIKAPLHLVWSIVRRFDEPQKYKPFISRCVVQGKKLEVGSVREVDLKSGLPATKSTEVLEILDDNEHILGIRIVGGDHRLKNYSSTISLHSETIDGKTGTLAIESFVVDVPEGNTKEETCFFVEALIQCNLNSLADVTERLQAESME ESEYIKKHHRHELVESQCSSTLVKHIKAPLHLVWSIVRRFDEPQKYKPFISRCVVQGKKLEVGSVREVDLKSGLPATKSTEVLEILDDNEHILGIRIVGGDHRLKNYSSTISLHSETIDGKTGTLAIESFVVDVPEGNTKEETCFFVEALIQCNLNSLADVTERLQAESME 3rt6-a1-m1-cB_3rt6-a1-m2-cB Fluorowillardiine bound to the ligand binding domain of GluA3 P19492 P19492 2.836 X-RAY DIFFRACTION 57 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 258 258 3en3-a1-m1-cA_3en3-a1-m2-cA 3epe-a1-m1-cA_3epe-a1-m1-cB 3fas-a1-m1-cA_3fas-a1-m1-cB 3fat-a1-m1-cB_3fat-a1-m1-cA 3fat-a2-m1-cC_3fat-a2-m2-cC 3kei-a1-m1-cA_3kei-a1-m2-cB 3kfm-a1-m1-cA_3kfm-a1-m2-cA 3lsw-a1-m1-cA_3lsw-a1-m2-cA 3lsx-a1-m1-cA_3lsx-a1-m2-cA 3rt8-a1-m1-cA_3rt8-a1-m2-cA 4f22-a1-m1-cA_4f22-a1-m2-cA 4f29-a1-m1-cA_4f29-a1-m2-cA 4f2o-a1-m1-cA_4f2o-a1-m2-cA 4f2q-a1-m1-cA_4f2q-a1-m2-cA 4f31-a1-m1-cB_4f31-a1-m1-cD 4f39-a1-m1-cA_4f39-a1-m2-cA 4f3g-a1-m1-cA_4f3g-a1-m2-cA RTIVVTTILESPYVMYKKNHEQLEGNERYEGYCVDLAYEIAKHVRIKYKLSIVGDGKYGARDPETKIWNGMVGELVYGRADIAVAPLTITLVREEVIDFSKPFMSLGISIMIKKGTPIESAEDLAKQTEIAYGTLDSGSTKEFFRRSKIAVYEKMWSYMKSAEPSVFTKTTADGVARVRKSKGKFAFLLESTMNEYIEQRKPCDTMKVGGNLDSKGYGVATPKGSALGTPVNLAVLKLSEQGILDKLKNKWWYDKGEC RTIVVTTILESPYVMYKKNHEQLEGNERYEGYCVDLAYEIAKHVRIKYKLSIVGDGKYGARDPETKIWNGMVGELVYGRADIAVAPLTITLVREEVIDFSKPFMSLGISIMIKKGTPIESAEDLAKQTEIAYGTLDSGSTKEFFRRSKIAVYEKMWSYMKSAEPSVFTKTTADGVARVRKSKGKFAFLLESTMNEYIEQRKPCDTMKVGGNLDSKGYGVATPKGSALGTPVNLAVLKLSEQGILDKLKNKWWYDKGEC 3rta-a1-m3-cA_3rta-a1-m8-cA Crystal structure of tm0922, a fusion of a domain of unknown function and ADP/ATP-dependent NAD(P)H-hydrate dehydratase from Thermotoga maritima soaked with Acetyl Coenzyme A Q9X024 Q9X024 1.95 X-RAY DIFFRACTION 38 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 489 489 2ax3-a1-m1-cA_2ax3-a1-m6-cA 2ax3-a1-m2-cA_2ax3-a1-m5-cA 2ax3-a1-m3-cA_2ax3-a1-m7-cA 2ax3-a1-m4-cA_2ax3-a1-m8-cA 3rrb-a1-m1-cA_3rrb-a1-m5-cA 3rrb-a1-m2-cA_3rrb-a1-m6-cA 3rrb-a1-m3-cA_3rrb-a1-m8-cA 3rrb-a1-m4-cA_3rrb-a1-m7-cA 3rre-a1-m1-cA_3rre-a1-m5-cA 3rre-a1-m2-cA_3rre-a1-m6-cA 3rre-a1-m3-cA_3rre-a1-m8-cA 3rre-a1-m4-cA_3rre-a1-m7-cA 3rrf-a1-m1-cA_3rrf-a1-m5-cA 3rrf-a1-m2-cA_3rrf-a1-m6-cA 3rrf-a1-m3-cA_3rrf-a1-m8-cA 3rrf-a1-m4-cA_3rrf-a1-m7-cA 3rrj-a1-m1-cA_3rrj-a1-m6-cA 3rrj-a1-m2-cA_3rrj-a1-m5-cA 3rrj-a1-m3-cA_3rrj-a1-m7-cA 3rrj-a1-m4-cA_3rrj-a1-m8-cA 3rs8-a1-m1-cA_3rs8-a1-m6-cA 3rs8-a1-m2-cA_3rs8-a1-m5-cA 3rs8-a1-m3-cA_3rs8-a1-m7-cA 3rs8-a1-m4-cA_3rs8-a1-m8-cA 3rs9-a1-m1-cA_3rs9-a1-m5-cA 3rs9-a1-m2-cA_3rs9-a1-m6-cA 3rs9-a1-m3-cA_3rs9-a1-m8-cA 3rs9-a1-m4-cA_3rs9-a1-m7-cA 3rsf-a1-m1-cA_3rsf-a1-m6-cA 3rsf-a1-m2-cA_3rsf-a1-m5-cA 3rsf-a1-m3-cA_3rsf-a1-m7-cA 3rsf-a1-m4-cA_3rsf-a1-m8-cA 3rsg-a1-m1-cA_3rsg-a1-m6-cA 3rsg-a1-m2-cA_3rsg-a1-m5-cA 3rsg-a1-m3-cA_3rsg-a1-m7-cA 3rsg-a1-m4-cA_3rsg-a1-m8-cA 3rsq-a1-m1-cA_3rsq-a1-m5-cA 3rsq-a1-m2-cA_3rsq-a1-m6-cA 3rsq-a1-m3-cA_3rsq-a1-m8-cA 3rsq-a1-m4-cA_3rsq-a1-m7-cA 3rss-a1-m1-cA_3rss-a1-m5-cA 3rss-a1-m2-cA_3rss-a1-m6-cA 3rss-a1-m3-cA_3rss-a1-m8-cA 3rss-a1-m4-cA_3rss-a1-m7-cA 3rt7-a1-m1-cA_3rt7-a1-m6-cA 3rt7-a1-m2-cA_3rt7-a1-m5-cA 3rt7-a1-m3-cA_3rt7-a1-m7-cA 3rt7-a1-m4-cA_3rt7-a1-m8-cA 3rt9-a1-m1-cA_3rt9-a1-m5-cA 3rt9-a1-m2-cA_3rt9-a1-m6-cA 3rt9-a1-m3-cA_3rt9-a1-m8-cA 3rt9-a1-m4-cA_3rt9-a1-m7-cA 3rta-a1-m1-cA_3rta-a1-m5-cA 3rta-a1-m2-cA_3rta-a1-m6-cA 3rta-a1-m4-cA_3rta-a1-m7-cA 3rtb-a1-m1-cA_3rtb-a1-m6-cA 3rtb-a1-m2-cA_3rtb-a1-m5-cA 3rtb-a1-m3-cA_3rtb-a1-m7-cA 3rtb-a1-m4-cA_3rtb-a1-m8-cA 3rtc-a1-m1-cA_3rtc-a1-m6-cA 3rtc-a1-m2-cA_3rtc-a1-m5-cA 3rtc-a1-m3-cA_3rtc-a1-m7-cA 3rtc-a1-m4-cA_3rtc-a1-m8-cA 3rtd-a1-m1-cA_3rtd-a1-m5-cA 3rtd-a1-m2-cA_3rtd-a1-m6-cA 3rtd-a1-m3-cA_3rtd-a1-m8-cA 3rtd-a1-m4-cA_3rtd-a1-m7-cA 3rte-a1-m1-cA_3rte-a1-m6-cA 3rte-a1-m2-cA_3rte-a1-m5-cA 3rte-a1-m3-cA_3rte-a1-m7-cA 3rte-a1-m4-cA_3rte-a1-m8-cA 3rtg-a1-m1-cA_3rtg-a1-m6-cA 3rtg-a1-m2-cA_3rtg-a1-m5-cA 3rtg-a1-m3-cA_3rtg-a1-m7-cA 3rtg-a1-m4-cA_3rtg-a1-m8-cA 3ru2-a1-m1-cA_3ru2-a1-m6-cA 3ru2-a1-m2-cA_3ru2-a1-m5-cA 3ru2-a1-m3-cA_3ru2-a1-m7-cA 3ru2-a1-m4-cA_3ru2-a1-m8-cA 3ru3-a1-m1-cA_3ru3-a1-m6-cA 3ru3-a1-m2-cA_3ru3-a1-m5-cA 3ru3-a1-m3-cA_3ru3-a1-m7-cA 3ru3-a1-m4-cA_3ru3-a1-m8-cA MKEIDELTIKEYGVDSRILMERAGISVVLAMEEELGNLSDYRFLVLCGGGNNGGDGFVVARNLLGVVKDVLVVFLGKKKTPDCEYNYGLYKKFGGKVVEQFEPSILNEFDVVVDAIFGTGLRGEITGEYAEIINLVNKSGKVVVSVDVPSGIDSNTGKVLRTAVKADLTVTFGVPKIGHILFPGRDLTGKLKVANIGHPVHLINSINRYVITREMVRSLLPERPRDSHKGTYGKVLIIAGSRLYSGAPVLSGMGSLKVGTGLVKLAVPFPQNLIATSRFPELISVPIDTEKGFFSLQNLQECLELSKDVDVVAIGPGLGNNEHVREFVNEFLKTLEKPAVIDADAINVLDTSVLKERKSPAVLTPHPGEMARLVKKTVGDVKYNYELAEEFAKENDCVLVLKSATTIVTDGEKTLFNITGNTGLSKGGSGDVLTGMIAGFIAQGLSPLEASTVSVYLHGFAAELFEQDERGLTASELLRLIPEAIRRLK MKEIDELTIKEYGVDSRILMERAGISVVLAMEEELGNLSDYRFLVLCGGGNNGGDGFVVARNLLGVVKDVLVVFLGKKKTPDCEYNYGLYKKFGGKVVEQFEPSILNEFDVVVDAIFGTGLRGEITGEYAEIINLVNKSGKVVVSVDVPSGIDSNTGKVLRTAVKADLTVTFGVPKIGHILFPGRDLTGKLKVANIGHPVHLINSINRYVITREMVRSLLPERPRDSHKGTYGKVLIIAGSRLYSGAPVLSGMGSLKVGTGLVKLAVPFPQNLIATSRFPELISVPIDTEKGFFSLQNLQECLELSKDVDVVAIGPGLGNNEHVREFVNEFLKTLEKPAVIDADAINVLDTSVLKERKSPAVLTPHPGEMARLVKKTVGDVKYNYELAEEFAKENDCVLVLKSATTIVTDGEKTLFNITGNTGLSKGGSGDVLTGMIAGFIAQGLSPLEASTVSVYLHGFAAELFEQDERGLTASELLRLIPEAIRRLK 3rta-a1-m6-cA_3rta-a1-m8-cA Crystal structure of tm0922, a fusion of a domain of unknown function and ADP/ATP-dependent NAD(P)H-hydrate dehydratase from Thermotoga maritima soaked with Acetyl Coenzyme A Q9X024 Q9X024 1.95 X-RAY DIFFRACTION 107 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 489 489 2ax3-a1-m1-cA_2ax3-a1-m3-cA 2ax3-a1-m1-cA_2ax3-a1-m4-cA 2ax3-a1-m2-cA_2ax3-a1-m3-cA 2ax3-a1-m2-cA_2ax3-a1-m4-cA 2ax3-a1-m5-cA_2ax3-a1-m7-cA 2ax3-a1-m5-cA_2ax3-a1-m8-cA 2ax3-a1-m6-cA_2ax3-a1-m7-cA 2ax3-a1-m6-cA_2ax3-a1-m8-cA 3rrb-a1-m1-cA_3rrb-a1-m3-cA 3rrb-a1-m1-cA_3rrb-a1-m4-cA 3rrb-a1-m2-cA_3rrb-a1-m3-cA 3rrb-a1-m2-cA_3rrb-a1-m4-cA 3rrb-a1-m5-cA_3rrb-a1-m7-cA 3rrb-a1-m5-cA_3rrb-a1-m8-cA 3rrb-a1-m6-cA_3rrb-a1-m7-cA 3rrb-a1-m6-cA_3rrb-a1-m8-cA 3rre-a1-m1-cA_3rre-a1-m3-cA 3rre-a1-m1-cA_3rre-a1-m4-cA 3rre-a1-m2-cA_3rre-a1-m3-cA 3rre-a1-m2-cA_3rre-a1-m4-cA 3rre-a1-m5-cA_3rre-a1-m7-cA 3rre-a1-m5-cA_3rre-a1-m8-cA 3rre-a1-m6-cA_3rre-a1-m7-cA 3rre-a1-m6-cA_3rre-a1-m8-cA 3rrf-a1-m1-cA_3rrf-a1-m3-cA 3rrf-a1-m1-cA_3rrf-a1-m4-cA 3rrf-a1-m2-cA_3rrf-a1-m3-cA 3rrf-a1-m2-cA_3rrf-a1-m4-cA 3rrf-a1-m5-cA_3rrf-a1-m7-cA 3rrf-a1-m5-cA_3rrf-a1-m8-cA 3rrf-a1-m6-cA_3rrf-a1-m7-cA 3rrf-a1-m6-cA_3rrf-a1-m8-cA 3rrj-a1-m1-cA_3rrj-a1-m3-cA 3rrj-a1-m1-cA_3rrj-a1-m4-cA 3rrj-a1-m2-cA_3rrj-a1-m3-cA 3rrj-a1-m2-cA_3rrj-a1-m4-cA 3rrj-a1-m5-cA_3rrj-a1-m7-cA 3rrj-a1-m5-cA_3rrj-a1-m8-cA 3rrj-a1-m6-cA_3rrj-a1-m7-cA 3rrj-a1-m6-cA_3rrj-a1-m8-cA 3rs8-a1-m1-cA_3rs8-a1-m3-cA 3rs8-a1-m1-cA_3rs8-a1-m4-cA 3rs8-a1-m2-cA_3rs8-a1-m3-cA 3rs8-a1-m2-cA_3rs8-a1-m4-cA 3rs8-a1-m5-cA_3rs8-a1-m7-cA 3rs8-a1-m5-cA_3rs8-a1-m8-cA 3rs8-a1-m6-cA_3rs8-a1-m7-cA 3rs8-a1-m6-cA_3rs8-a1-m8-cA 3rs9-a1-m1-cA_3rs9-a1-m3-cA 3rs9-a1-m1-cA_3rs9-a1-m4-cA 3rs9-a1-m2-cA_3rs9-a1-m3-cA 3rs9-a1-m2-cA_3rs9-a1-m4-cA 3rs9-a1-m5-cA_3rs9-a1-m7-cA 3rs9-a1-m5-cA_3rs9-a1-m8-cA 3rs9-a1-m6-cA_3rs9-a1-m7-cA 3rs9-a1-m6-cA_3rs9-a1-m8-cA 3rsf-a1-m1-cA_3rsf-a1-m3-cA 3rsf-a1-m1-cA_3rsf-a1-m4-cA 3rsf-a1-m2-cA_3rsf-a1-m3-cA 3rsf-a1-m2-cA_3rsf-a1-m4-cA 3rsf-a1-m5-cA_3rsf-a1-m7-cA 3rsf-a1-m5-cA_3rsf-a1-m8-cA 3rsf-a1-m6-cA_3rsf-a1-m7-cA 3rsf-a1-m6-cA_3rsf-a1-m8-cA 3rsg-a1-m1-cA_3rsg-a1-m3-cA 3rsg-a1-m1-cA_3rsg-a1-m4-cA 3rsg-a1-m2-cA_3rsg-a1-m3-cA 3rsg-a1-m2-cA_3rsg-a1-m4-cA 3rsg-a1-m5-cA_3rsg-a1-m7-cA 3rsg-a1-m5-cA_3rsg-a1-m8-cA 3rsg-a1-m6-cA_3rsg-a1-m7-cA 3rsg-a1-m6-cA_3rsg-a1-m8-cA 3rsq-a1-m1-cA_3rsq-a1-m3-cA 3rsq-a1-m1-cA_3rsq-a1-m4-cA 3rsq-a1-m2-cA_3rsq-a1-m3-cA 3rsq-a1-m2-cA_3rsq-a1-m4-cA 3rsq-a1-m5-cA_3rsq-a1-m7-cA 3rsq-a1-m5-cA_3rsq-a1-m8-cA 3rsq-a1-m6-cA_3rsq-a1-m7-cA 3rsq-a1-m6-cA_3rsq-a1-m8-cA 3rss-a1-m1-cA_3rss-a1-m3-cA 3rss-a1-m1-cA_3rss-a1-m4-cA 3rss-a1-m2-cA_3rss-a1-m3-cA 3rss-a1-m2-cA_3rss-a1-m4-cA 3rss-a1-m5-cA_3rss-a1-m7-cA 3rss-a1-m5-cA_3rss-a1-m8-cA 3rss-a1-m6-cA_3rss-a1-m7-cA 3rss-a1-m6-cA_3rss-a1-m8-cA 3rt7-a1-m1-cA_3rt7-a1-m3-cA 3rt7-a1-m1-cA_3rt7-a1-m4-cA 3rt7-a1-m2-cA_3rt7-a1-m3-cA 3rt7-a1-m2-cA_3rt7-a1-m4-cA 3rt7-a1-m5-cA_3rt7-a1-m7-cA 3rt7-a1-m5-cA_3rt7-a1-m8-cA 3rt7-a1-m6-cA_3rt7-a1-m7-cA 3rt7-a1-m6-cA_3rt7-a1-m8-cA 3rt9-a1-m1-cA_3rt9-a1-m3-cA 3rt9-a1-m1-cA_3rt9-a1-m4-cA 3rt9-a1-m2-cA_3rt9-a1-m3-cA 3rt9-a1-m2-cA_3rt9-a1-m4-cA 3rt9-a1-m5-cA_3rt9-a1-m7-cA 3rt9-a1-m5-cA_3rt9-a1-m8-cA 3rt9-a1-m6-cA_3rt9-a1-m7-cA 3rt9-a1-m6-cA_3rt9-a1-m8-cA 3rta-a1-m1-cA_3rta-a1-m3-cA 3rta-a1-m1-cA_3rta-a1-m4-cA 3rta-a1-m2-cA_3rta-a1-m3-cA 3rta-a1-m2-cA_3rta-a1-m4-cA 3rta-a1-m5-cA_3rta-a1-m7-cA 3rta-a1-m5-cA_3rta-a1-m8-cA 3rta-a1-m6-cA_3rta-a1-m7-cA 3rtb-a1-m1-cA_3rtb-a1-m3-cA 3rtb-a1-m1-cA_3rtb-a1-m4-cA 3rtb-a1-m2-cA_3rtb-a1-m3-cA 3rtb-a1-m2-cA_3rtb-a1-m4-cA 3rtb-a1-m5-cA_3rtb-a1-m7-cA 3rtb-a1-m5-cA_3rtb-a1-m8-cA 3rtb-a1-m6-cA_3rtb-a1-m7-cA 3rtb-a1-m6-cA_3rtb-a1-m8-cA 3rtc-a1-m1-cA_3rtc-a1-m3-cA 3rtc-a1-m1-cA_3rtc-a1-m4-cA 3rtc-a1-m2-cA_3rtc-a1-m3-cA 3rtc-a1-m2-cA_3rtc-a1-m4-cA 3rtc-a1-m5-cA_3rtc-a1-m7-cA 3rtc-a1-m5-cA_3rtc-a1-m8-cA 3rtc-a1-m6-cA_3rtc-a1-m7-cA 3rtc-a1-m6-cA_3rtc-a1-m8-cA 3rtd-a1-m1-cA_3rtd-a1-m3-cA 3rtd-a1-m1-cA_3rtd-a1-m4-cA 3rtd-a1-m2-cA_3rtd-a1-m3-cA 3rtd-a1-m2-cA_3rtd-a1-m4-cA 3rtd-a1-m5-cA_3rtd-a1-m7-cA 3rtd-a1-m5-cA_3rtd-a1-m8-cA 3rtd-a1-m6-cA_3rtd-a1-m7-cA 3rtd-a1-m6-cA_3rtd-a1-m8-cA 3rte-a1-m1-cA_3rte-a1-m3-cA 3rte-a1-m1-cA_3rte-a1-m4-cA 3rte-a1-m2-cA_3rte-a1-m3-cA 3rte-a1-m2-cA_3rte-a1-m4-cA 3rte-a1-m5-cA_3rte-a1-m7-cA 3rte-a1-m5-cA_3rte-a1-m8-cA 3rte-a1-m6-cA_3rte-a1-m7-cA 3rte-a1-m6-cA_3rte-a1-m8-cA 3rtg-a1-m1-cA_3rtg-a1-m3-cA 3rtg-a1-m1-cA_3rtg-a1-m4-cA 3rtg-a1-m2-cA_3rtg-a1-m3-cA 3rtg-a1-m2-cA_3rtg-a1-m4-cA 3rtg-a1-m5-cA_3rtg-a1-m7-cA 3rtg-a1-m5-cA_3rtg-a1-m8-cA 3rtg-a1-m6-cA_3rtg-a1-m7-cA 3rtg-a1-m6-cA_3rtg-a1-m8-cA 3ru2-a1-m1-cA_3ru2-a1-m3-cA 3ru2-a1-m1-cA_3ru2-a1-m4-cA 3ru2-a1-m2-cA_3ru2-a1-m3-cA 3ru2-a1-m2-cA_3ru2-a1-m4-cA 3ru2-a1-m5-cA_3ru2-a1-m7-cA 3ru2-a1-m5-cA_3ru2-a1-m8-cA 3ru2-a1-m6-cA_3ru2-a1-m7-cA 3ru2-a1-m6-cA_3ru2-a1-m8-cA 3ru3-a1-m1-cA_3ru3-a1-m3-cA 3ru3-a1-m1-cA_3ru3-a1-m4-cA 3ru3-a1-m2-cA_3ru3-a1-m3-cA 3ru3-a1-m2-cA_3ru3-a1-m4-cA 3ru3-a1-m5-cA_3ru3-a1-m7-cA 3ru3-a1-m5-cA_3ru3-a1-m8-cA 3ru3-a1-m6-cA_3ru3-a1-m7-cA 3ru3-a1-m6-cA_3ru3-a1-m8-cA MKEIDELTIKEYGVDSRILMERAGISVVLAMEEELGNLSDYRFLVLCGGGNNGGDGFVVARNLLGVVKDVLVVFLGKKKTPDCEYNYGLYKKFGGKVVEQFEPSILNEFDVVVDAIFGTGLRGEITGEYAEIINLVNKSGKVVVSVDVPSGIDSNTGKVLRTAVKADLTVTFGVPKIGHILFPGRDLTGKLKVANIGHPVHLINSINRYVITREMVRSLLPERPRDSHKGTYGKVLIIAGSRLYSGAPVLSGMGSLKVGTGLVKLAVPFPQNLIATSRFPELISVPIDTEKGFFSLQNLQECLELSKDVDVVAIGPGLGNNEHVREFVNEFLKTLEKPAVIDADAINVLDTSVLKERKSPAVLTPHPGEMARLVKKTVGDVKYNYELAEEFAKENDCVLVLKSATTIVTDGEKTLFNITGNTGLSKGGSGDVLTGMIAGFIAQGLSPLEASTVSVYLHGFAAELFEQDERGLTASELLRLIPEAIRRLK MKEIDELTIKEYGVDSRILMERAGISVVLAMEEELGNLSDYRFLVLCGGGNNGGDGFVVARNLLGVVKDVLVVFLGKKKTPDCEYNYGLYKKFGGKVVEQFEPSILNEFDVVVDAIFGTGLRGEITGEYAEIINLVNKSGKVVVSVDVPSGIDSNTGKVLRTAVKADLTVTFGVPKIGHILFPGRDLTGKLKVANIGHPVHLINSINRYVITREMVRSLLPERPRDSHKGTYGKVLIIAGSRLYSGAPVLSGMGSLKVGTGLVKLAVPFPQNLIATSRFPELISVPIDTEKGFFSLQNLQECLELSKDVDVVAIGPGLGNNEHVREFVNEFLKTLEKPAVIDADAINVLDTSVLKERKSPAVLTPHPGEMARLVKKTVGDVKYNYELAEEFAKENDCVLVLKSATTIVTDGEKTLFNITGNTGLSKGGSGDVLTGMIAGFIAQGLSPLEASTVSVYLHGFAAELFEQDERGLTASELLRLIPEAIRRLK 3rtk-a1-m1-cB_3rtk-a1-m1-cA Crystal structure of Cpn60.2 from Mycobacterium tuberculosis at 2.8A P9WPE7 P9WPE7 2.8 X-RAY DIFFRACTION 22 0.998 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 447 448 1sjp-a1-m1-cB_1sjp-a1-m1-cA LEDPYEKIGAELVKEVAKKTTTTATVLAQALVREGLRNVAAGANPLGLKRGIEKAVEKVTETLLKGAKEVETKEQIAATAAISAGDQSIGDLIAEAMDKVGNEGVITVEESNTFGLQLELTEGMRFDKGYISGYFVTDPERQEAVLEDPYILLVSSKVSTVKDLLPLLEKVIGAGKPLLIIAEDVEGEALSTLVVNKIRGTFKSVAVKAPGFGDRRKAMLQDMAILTGGQVISEEVGLTLENADLSLLGKARKVVVTKDETTIVEGAGDTDAIAGRVAQIRQEIENSDSDYDREKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVTLLQAAPTLDELKLEGDEATGANIVKVALEAPLKQIAFNSGLEPGVVAEKVRNLPAGHGLNAQTGVYEDLLAAGVADPVKVTRSALQNAASIAGLFLTT LEDPYEKIGAELVKEVAKKTDTTATVLAQALVREGLRNVAAGANPLGLKRGIEKAVEKVTETLLKGAKEVETKEQIAATAAISAGDQSIGDLIAEAMDKVGNEGVITVEESNTFGLQLELTEGMRFDKGYISGYFVTDPERQEAVLEDPYILLVSSKVSTVKDLLPLLEKVIGAGKPLLIIAEDVEGEALSTLVVNKIRGTFKSVAVKAPGFGDRRKAMLQDMAILTGGQVISEEVGLTLENADLSLLGKARKVVVTKDETTIVEGAGDTDAIAGRVAQIRQEIENSDSDYDREKLQERLAKLAGGVAVIKAGAATEVELKERKHRIEDAVRNAKAAVEEGIVAGGGVTLLQAAPTLDELKLEGDEATGANIVKVALEAPLKQIAFNSGLEPGVVAEKVRNLPAGHGLNAQTGVYEDLLAAGVADPVKVTRSALQNAASIAGLFLTTE 3rtl-a6-m1-cD_3rtl-a6-m1-cC Staphylococcus aureus heme-bound IsdB-N2 Q7A656 Q7A656 1.453 X-RAY DIFFRACTION 16 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 118 120 3rtl-a5-m1-cA_3rtl-a5-m1-cB 3rur-a5-m1-cA_3rur-a5-m1-cD 3rur-a6-m1-cB_3rur-a6-m1-cC GSKMTDLQDTKYVVYESVENNESMMDTFVKHPIKTGMLNGKKYMVMETTNDDYWKDFMVEGQRVRTISKDAKNNTRTIIFPYVEGKTLYDAIVKVHVKTIDYDGQYHVRIVDKEAFTK GSKMTDLQDTKYVVYESVENNESMMDTFVKHPIKTGMLNGKKYMVMETTNDDYWKDFMVEGQRVRTISKDAKNNTRTIIFPYVEGKTLYDAIVKVHVKTIDYDGQYHVRIVDKEAFTKAN 3rtx-a3-m1-cB_3rtx-a3-m1-cA Crystal structure of mammalian capping enzyme (Mce1) and Pol II CTD complex O55236 O55236 2.81 X-RAY DIFFRACTION 40 0.992 10090 (Mus musculus) 10090 (Mus musculus) 254 262 SLKLGAIFLEGITVKGVTQVTTQPKLGEVQQKCHQFCGWEGSGFPGAQPVSMDKQNIRLLEQKPYKVSWKADGTRYMMLIDGTNEVFMIDRDNSVFHVSNLEFPFRKDLRMHLSNTLLDGEMIIDKVNGQAVPRYLIYDIIKFNAQPVGDCDFNIRLQCIEREIISPRHEKMKTGLIDKTQEPFSVRPKQFFDINISRKLLEGNMDGLIFQPIGKYKPGRCDDILKWKPPSLCNSISNPVTKEMLFEFIDRCAA SLKLGAIFLEGITVKGVTQVTTQPKLGEVQQKCHQFCGWEGSGFPGAQPVSMDKQNIRLLEQKPYKVSWKADGTRYMMLIDGTNEVFMIDRDNSVFHVSNLEFPFRKDLRMHLSNTLLDGEMIIDKVNGQAVPRYLIYDIIKFNAQPVGDCDFNIRLQCIEREIISPRHEKMKTGLIDKTQEPFSVRPKQFFDINISRKLLEGDGLIFQPIGKYKPGRCDDILKWKPPSLNSAYNTAMAVCNSISNPVTKEMLFEFIDRCAA 3rty-a4-m1-cH_3rty-a4-m1-cG Structure of an Enclosed Dimer Formed by The Drosophila Period Protein P07663 P07663 2.85 X-RAY DIFFRACTION 160 0.98 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 302 306 3rty-a1-m1-cB_3rty-a1-m1-cA 3rty-a2-m1-cC_3rty-a2-m1-cD 3rty-a3-m1-cF_3rty-a3-m1-cE KEDSFCCVISMHDGIVLYTTPSITDVLGYPRDMWLGRSFIDFVHLKDRATFASQITTGIAKSTFCVMLRRYRVSYEPFRLGLTFREAPEEARPDNYGTNMLLVICATPIKSSYKVPDEILSQKSPKFAIRHTATGIISHVDSAAVSALGYLPQDLIGRSIMDFYHHEDLSVMKETYETVMKKGQTAGASFCSKPYRFLIQNGCYVLLETEWTSFVNPWSRKLEFVVGHHRVFQGPKQCNVFEAAPTCKLKISEEAQSRNTRIKEDIVKRLAETVSRPSETVKQEVSRRCQALASFMETLMDE KEDSFCCVISMHDGIVLYTTPSITDVLGYPRDMWLGRSFIDFVHLKDRATFASQITTGIPIAKSTFCVMLRRYRVSYEPFRLGLTFREAPEEGTNMLLVICATPIKSSYKVPDEILSQKSPKFAIRHTATGIISHVDSAAVSALGYLPQDLIGRSIMDFYHHEDLSVMKETYETVMKKGQTAGASFCSKPYRFLIQNGCYVLLETEWTSFVNPWSRKLEFVVGHHRVFQGPKQCNVFEAAPTCKLKISEEAQSRNTRIKEDIVKRLAETVSRPSETVKQEVSRRCQALASFMETLMDEVSRADLKL 3ru6-a2-m1-cC_3ru6-a2-m1-cB 1.8 Angstrom resolution crystal structure of orotidine 5'-phosphate decarboxylase (pyrF) from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PIC1 Q9PIC1 1.8 X-RAY DIFFRACTION 99 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 218 222 3ru6-a1-m1-cD_3ru6-a1-m1-cA MKLCVALDLSTKEECLQLAKELKNLDIWLKVGLRAYLRDGFKFIEELKKVDDFKIFLDLKFHDIPNTMADACEEVSKLGVDMINIHASAGKIAIQEVMTRLSKFSKRPLVLAVSALTSFDEENFFSIYRQKIEEAVINFSKISYENGLDGMVCSVFESKKIKEHTSSNFLTLTPGIRPFGANLAMARENLSDYIVVGRPIYKNENPRAVCEKILNKIH AMKLCVALDLSTKEECLQLAKELKNLDIWLKVGLRAYLRDGFKFIEELKKVDDFKIFLDLKFHDIPNTMADACEEVSKLGVDMINIHASAGKIAIQEVMTRLSKFSKRPLVLAVSALTSFDEENFFSIYRQKIEEAVINFSKISYENGLDGMVCSVFESKKIKEHTSSNFLTLTPGIRPFGETVANLAMARENLSDYIVVGRPIYKNENPRAVCEKILNKIH 3rub-a1-m6-cS_3rub-a1-m8-cS CRYSTAL STRUCTURE OF THE UNACTIVATED FORM OF RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE(SLASH)OXYGENASE FROM TOBACCO REFINED AT 2.0-ANGSTROMS RESOLUTION P69249 P69249 2 X-RAY DIFFRACTION 13 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 123 123 1ej7-a1-m1-cS_1ej7-a1-m3-cS 1ej7-a1-m1-cS_1ej7-a1-m4-cS 1ej7-a1-m2-cS_1ej7-a1-m3-cS 1ej7-a1-m2-cS_1ej7-a1-m4-cS 1ej7-a1-m5-cS_1ej7-a1-m7-cS 1ej7-a1-m5-cS_1ej7-a1-m8-cS 1ej7-a1-m6-cS_1ej7-a1-m7-cS 1ej7-a1-m6-cS_1ej7-a1-m8-cS 1rlc-a1-m1-cS_1rlc-a1-m3-cS 1rlc-a1-m1-cS_1rlc-a1-m4-cS 1rlc-a1-m2-cS_1rlc-a1-m3-cS 1rlc-a1-m2-cS_1rlc-a1-m4-cS 1rlc-a1-m5-cS_1rlc-a1-m7-cS 1rlc-a1-m5-cS_1rlc-a1-m8-cS 1rlc-a1-m6-cS_1rlc-a1-m7-cS 1rlc-a1-m6-cS_1rlc-a1-m8-cS 1rld-a1-m1-cS_1rld-a1-m3-cS 1rld-a1-m1-cS_1rld-a1-m4-cS 1rld-a1-m1-cT_1rld-a1-m3-cT 1rld-a1-m1-cT_1rld-a1-m4-cT 1rld-a1-m2-cS_1rld-a1-m3-cS 1rld-a1-m2-cS_1rld-a1-m4-cS 1rld-a1-m2-cT_1rld-a1-m3-cT 1rld-a1-m2-cT_1rld-a1-m4-cT 3rub-a1-m1-cS_3rub-a1-m3-cS 3rub-a1-m1-cS_3rub-a1-m4-cS 3rub-a1-m2-cS_3rub-a1-m3-cS 3rub-a1-m2-cS_3rub-a1-m4-cS 3rub-a1-m5-cS_3rub-a1-m7-cS 3rub-a1-m5-cS_3rub-a1-m8-cS 3rub-a1-m6-cS_3rub-a1-m7-cS 4rub-a1-m1-cS_4rub-a1-m1-cT 4rub-a1-m1-cS_4rub-a1-m2-cT 4rub-a1-m1-cT_4rub-a1-m2-cS 4rub-a1-m1-cU_4rub-a1-m1-cV 4rub-a1-m1-cU_4rub-a1-m2-cV 4rub-a1-m1-cV_4rub-a1-m2-cU 4rub-a1-m2-cS_4rub-a1-m2-cT 4rub-a1-m2-cU_4rub-a1-m2-cV MQVWPPINKKKYETLSYLPDLSQEQLLSEVEYLLKNGWVPCLEFETEHGFVYRENNKSPGYYDGRYWTMWKLPMFGCTDATQVLAEVEEAKKAYPQAWIRIIGFDNVRQVQCISFIAYKPEGY MQVWPPINKKKYETLSYLPDLSQEQLLSEVEYLLKNGWVPCLEFETEHGFVYRENNKSPGYYDGRYWTMWKLPMFGCTDATQVLAEVEEAKKAYPQAWIRIIGFDNVRQVQCISFIAYKPEGY 3ruf-a2-m1-cB_3ruf-a2-m1-cS Alternative analogs as viable substrates of UDP-hexose 4-epimerases Q7BJX9 Q7BJX9 2 X-RAY DIFFRACTION 70 1.0 703 (Plesiomonas shigelloides) 703 (Plesiomonas shigelloides) 336 336 3lu1-a1-m2-cC_3lu1-a1-m1-cA 3lu1-a2-m1-cB_3lu1-a2-m1-cD 3ru7-a1-m1-cA_3ru7-a1-m1-cC 3ru7-a2-m1-cB_3ru7-a2-m2-cD 3ru9-a1-m1-cA_3ru9-a1-m1-cC 3ru9-a2-m1-cB_3ru9-a2-m2-cD 3rua-a1-m1-cA_3rua-a1-m2-cD 3rua-a2-m1-cB_3rua-a2-m1-cC 3ruc-a1-m1-cA_3ruc-a1-m2-cC 3ruc-a2-m1-cB_3ruc-a2-m1-cD 3rud-a1-m1-cA_3rud-a1-m2-cD 3rud-a2-m1-cB_3rud-a2-m1-cC 3rue-a1-m1-cA_3rue-a1-m1-cS 3rue-a2-m1-cB_3rue-a2-m2-cb 3ruf-a1-m1-cA_3ruf-a1-m2-cb 3ruh-a1-m1-cA_3ruh-a1-m2-cD 3ruh-a2-m1-cB_3ruh-a2-m1-cC YMSRYEEITQQLIFSPKTWLITGVAGFIGSNLLEKLLKLNQVVIGLDNFSTGHQYNLDEVKTLVSTEQWSRFCFIEGDIRDLTTCEQVMKGVDHVLHQAALGSVPRSIVDPITTNATNITGFLNILHAAKNAQVQSFTYAASSSTYGDHPALPKVEENIGNPLSPYAVTKYVNEIYAQVYARTYGFKTIGLRYFNVFGRRQDPNGAYAAVIPKWTAAMLKGDDVYINGDGETSRDFCYIDNVIQMNILSALAKDSAKDNIYNVAVGDRTTLNELSGYIYDELNLIHHIKYREFRSGDVRHSQADVTKAIDLLKYRPNIKIREGLRLSMPWYVRFLK YMSRYEEITQQLIFSPKTWLITGVAGFIGSNLLEKLLKLNQVVIGLDNFSTGHQYNLDEVKTLVSTEQWSRFCFIEGDIRDLTTCEQVMKGVDHVLHQAALGSVPRSIVDPITTNATNITGFLNILHAAKNAQVQSFTYAASSSTYGDHPALPKVEENIGNPLSPYAVTKYVNEIYAQVYARTYGFKTIGLRYFNVFGRRQDPNGAYAAVIPKWTAAMLKGDDVYINGDGETSRDFCYIDNVIQMNILSALAKDSAKDNIYNVAVGDRTTLNELSGYIYDELNLIHHIKYREFRSGDVRHSQADVTKAIDLLKYRPNIKIREGLRLSMPWYVRFLK 3ruv-a1-m1-cD_3ruv-a1-m4-cD Crystal structure of Cpn-rls in complex with ATP analogue from Methanococcus maripaludis Q877G8 Q877G8 2.242 X-RAY DIFFRACTION 25 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 516 516 3izi-a1-m1-cA_3izi-a1-m1-cI 3izi-a1-m1-cB_3izi-a1-m1-cP 3izi-a1-m1-cC_3izi-a1-m1-cO 3izi-a1-m1-cD_3izi-a1-m1-cN 3izi-a1-m1-cE_3izi-a1-m1-cM 3izi-a1-m1-cF_3izi-a1-m1-cL 3izi-a1-m1-cG_3izi-a1-m1-cK 3izi-a1-m1-cH_3izi-a1-m1-cJ 3izj-a1-m1-cA_3izj-a1-m1-cI 3izj-a1-m1-cB_3izj-a1-m1-cP 3izj-a1-m1-cC_3izj-a1-m1-cO 3izj-a1-m1-cD_3izj-a1-m1-cN 3izj-a1-m1-cE_3izj-a1-m1-cM 3izj-a1-m1-cF_3izj-a1-m1-cL 3izj-a1-m1-cG_3izj-a1-m1-cK 3izj-a1-m1-cH_3izj-a1-m1-cJ 3izl-a1-m1-cA_3izl-a1-m1-cI 3izl-a1-m1-cB_3izl-a1-m1-cP 3izl-a1-m1-cC_3izl-a1-m1-cO 3izl-a1-m1-cD_3izl-a1-m1-cN 3izl-a1-m1-cE_3izl-a1-m1-cM 3izl-a1-m1-cF_3izl-a1-m1-cL 3izl-a1-m1-cG_3izl-a1-m1-cK 3izl-a1-m1-cH_3izl-a1-m1-cJ 3izm-a1-m1-cA_3izm-a1-m1-cI 3izm-a1-m1-cB_3izm-a1-m1-cP 3izm-a1-m1-cC_3izm-a1-m1-cO 3izm-a1-m1-cD_3izm-a1-m1-cN 3izm-a1-m1-cE_3izm-a1-m1-cM 3izm-a1-m1-cF_3izm-a1-m1-cL 3izm-a1-m1-cG_3izm-a1-m1-cK 3izm-a1-m1-cH_3izm-a1-m1-cJ 3izn-a1-m1-cA_3izn-a1-m1-cP 3izn-a1-m1-cB_3izn-a1-m1-cO 3izn-a1-m1-cC_3izn-a1-m1-cN 3izn-a1-m1-cD_3izn-a1-m1-cM 3izn-a1-m1-cE_3izn-a1-m1-cL 3izn-a1-m1-cF_3izn-a1-m1-cK 3izn-a1-m1-cG_3izn-a1-m1-cJ 3izn-a1-m1-cH_3izn-a1-m1-cI 3j03-a1-m1-cA_3j03-a1-m1-cP 3j03-a1-m1-cB_3j03-a1-m1-cO 3j03-a1-m1-cC_3j03-a1-m1-cN 3j03-a1-m1-cD_3j03-a1-m1-cM 3j03-a1-m1-cE_3j03-a1-m1-cL 3j03-a1-m1-cF_3j03-a1-m1-cK 3j03-a1-m1-cG_3j03-a1-m1-cJ 3j03-a1-m1-cH_3j03-a1-m1-cI 3j3x-a1-m1-cA_3j3x-a1-m1-cN 3j3x-a1-m1-cB_3j3x-a1-m1-cM 3j3x-a1-m1-cC_3j3x-a1-m1-cL 3j3x-a1-m1-cD_3j3x-a1-m1-cK 3j3x-a1-m1-cE_3j3x-a1-m1-cJ 3j3x-a1-m1-cF_3j3x-a1-m1-cI 3j3x-a1-m1-cG_3j3x-a1-m1-cP 3j3x-a1-m1-cH_3j3x-a1-m1-cO 3kfb-a1-m1-cA_3kfb-a1-m2-cG 3kfb-a1-m1-cB_3kfb-a1-m2-cF 3kfb-a1-m1-cC_3kfb-a1-m2-cE 3kfb-a1-m1-cD_3kfb-a1-m2-cD 3kfb-a1-m1-cE_3kfb-a1-m2-cC 3kfb-a1-m1-cF_3kfb-a1-m2-cB 3kfb-a1-m1-cG_3kfb-a1-m2-cA 3kfb-a1-m1-cH_3kfb-a1-m2-cH 3los-a1-m1-cA_3los-a1-m1-cN 3los-a1-m1-cB_3los-a1-m1-cO 3los-a1-m1-cC_3los-a1-m1-cP 3los-a1-m1-cD_3los-a1-m1-cI 3los-a1-m1-cE_3los-a1-m1-cJ 3los-a1-m1-cF_3los-a1-m1-cK 3los-a1-m1-cG_3los-a1-m1-cL 3los-a1-m1-cH_3los-a1-m1-cM 3ruq-a1-m1-cA_3ruq-a1-m2-cC 3ruq-a1-m1-cB_3ruq-a1-m2-cB 3ruq-a1-m1-cC_3ruq-a1-m2-cA 3ruq-a1-m1-cD_3ruq-a1-m4-cD 3ruq-a1-m2-cD_3ruq-a1-m3-cD 3ruq-a1-m3-cA_3ruq-a1-m4-cC 3ruq-a1-m3-cB_3ruq-a1-m4-cB 3ruq-a1-m3-cC_3ruq-a1-m4-cA 3rus-a1-m1-cA_3rus-a1-m3-cC 3rus-a1-m1-cB_3rus-a1-m3-cB 3rus-a1-m1-cC_3rus-a1-m3-cA 3rus-a1-m1-cD_3rus-a1-m4-cD 3rus-a1-m2-cA_3rus-a1-m4-cC 3rus-a1-m2-cB_3rus-a1-m4-cB 3rus-a1-m2-cC_3rus-a1-m4-cA 3rus-a1-m2-cD_3rus-a1-m3-cD 3ruv-a1-m1-cA_3ruv-a1-m3-cC 3ruv-a1-m1-cB_3ruv-a1-m3-cB 3ruv-a1-m1-cC_3ruv-a1-m3-cA 3ruv-a1-m2-cA_3ruv-a1-m4-cC 3ruv-a1-m2-cB_3ruv-a1-m4-cB 3ruv-a1-m2-cC_3ruv-a1-m4-cA 3ruv-a1-m2-cD_3ruv-a1-m3-cD 3ruw-a1-m1-cA_3ruw-a1-m2-cC 3ruw-a1-m1-cB_3ruw-a1-m2-cB 3ruw-a1-m1-cC_3ruw-a1-m2-cA 3ruw-a1-m1-cD_3ruw-a1-m4-cD 3ruw-a1-m2-cD_3ruw-a1-m3-cD 3ruw-a1-m3-cA_3ruw-a1-m4-cC 3ruw-a1-m3-cB_3ruw-a1-m4-cB 3ruw-a1-m3-cC_3ruw-a1-m4-cA QPGVLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVIAAIAALSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE QPGVLPENMKRYMGRDAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEIKETETDAEIRITDPAKLMEFIEQEEKMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVIAAIAALSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDDAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAE 3ruy-a1-m1-cA_3ruy-a1-m1-cB Crystal Structure of the Ornithine-oxo acid transaminase RocD from Bacillus anthracis Q81TV3 Q81TV3 2.65 X-RAY DIFFRACTION 389 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 391 391 KDIIELTDTYGANNYHPLPIVISKAEGVWVEDPEGNRYMDLLSAYSAVNQGHRHPKIINALIDQANRVTLTSRAFHSDQLGPWYEKVAKLTNKEMVLPMNTGAEAVETAIKTARRWAYDVKKVEANRAEIIVCEDNFHGRTMGAVSMSSNEEYKRGFGPMLPGIIVIPYGDLEALKAAITPNTAAFILEPIQGEAGINIPPAGFLKEALEVCKKENVLFVADEIQTGLGRTGKVFACDWDNVTPDMYILGALGGGVFPISCAAANRDILGVFEPGSHGSTFGGNPLACAVSIAALEVLEEEKLTERSLQLGEKLVGQLKEIDNPMITEVRGKGLFIGIELNEPARPYCEQLKAAGLLCKETHENVIRIAPPLVISEEDLEWAFQKIKAVLS KDIIELTDTYGANNYHPLPIVISKAEGVWVEDPEGNRYMDLLSAYSAVNQGHRHPKIINALIDQANRVTLTSRAFHSDQLGPWYEKVAKLTNKEMVLPMNTGAEAVETAIKTARRWAYDVKKVEANRAEIIVCEDNFHGRTMGAVSMSSNEEYKRGFGPMLPGIIVIPYGDLEALKAAITPNTAAFILEPIQGEAGINIPPAGFLKEALEVCKKENVLFVADEIQTGLGRTGKVFACDWDNVTPDMYILGALGGGVFPISCAAANRDILGVFEPGSHGSTFGGNPLACAVSIAALEVLEEEKLTERSLQLGEKLVGQLKEIDNPMITEVRGKGLFIGIELNEPARPYCEQLKAAGLLCKETHENVIRIAPPLVISEEDLEWAFQKIKAVLS 3rv1-a1-m1-cA_3rv1-a1-m1-cB Crystal structure of the N-terminal and RNase III domains of K. polysporus Dcr1 E224Q mutant A7TR32 A7TR32 1.975 X-RAY DIFFRACTION 347 0.995 436907 (Vanderwaltozyma polyspora DSM 70294) 436907 (Vanderwaltozyma polyspora DSM 70294) 217 238 3rv0-a2-m1-cC_3rv0-a2-m1-cD SNELKVREFYRLHNACVKLKESIKLIYENPLVTDQNVLNLGTAENTIDYTILNTPTLNVAKTLLGNRYSLDLIDLFQSHDFKDSNTDVDMFIKYPVVYDENLENLAFMHKSQLSNERLEFLGDSWLGALVSYIVYTRFPSANEGMLSQMKESIVNNNNLFDWSTKLNFTKRLQGNIAKRYADCVQAYIGALVIDRFGTEFLDIKEWLEELSEKKLAK SNELKVREFYRLHNACVKLKESIKLIYENPLVTDQNVLNLGTAENTIDYTILNTPTLNVAKTLLGNRYSLDLIDLFQSHDFKDSNTDVDMFIKYPVVYDENLENLAFMHKAHLNDAQKTQLSNERLEFLGDSWLGALVSYIVYTRFPSANEGMLSQMKESIVNNNNLFDWSTKLNFTKRLQGNIATPTRVVKDKMSKRYADCVQAYIGALVIDRFGTEFLDIKEWLEELSEKKLAKSS 3rv5-a5-m1-cB_3rv5-a5-m4-cC Crystal structure of human cardiac troponin C regulatory domain in complex with cadmium and deoxycholic acid P63316 P63316 2.2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 77 3rv5-a5-m2-cB_3rv5-a5-m3-cC YKAAVEQLTEEQKNEFKAAFDIFVLGAEDGCISTKELGKVRLGQNPTPEELQEIDEVDEDGSGTVDFDEFLVV DIYKAAVEQLTEEQKNEFKAAFDIFVLGAEDGCISTKELGKVRLGQNPTPEELQEIDEVDEDGSGTVDFDEFLVVRC 3rv5-a5-m2-cB_3rv5-a5-m4-cD Crystal structure of human cardiac troponin C regulatory domain in complex with cadmium and deoxycholic acid P63316 P63316 2.2 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 73 3rv5-a5-m1-cA_3rv5-a5-m3-cC 3rv5-a5-m1-cB_3rv5-a5-m3-cD 3rv5-a5-m2-cA_3rv5-a5-m4-cC YKAAVEQLTEEQKNEFKAAFDIFVLGAEDGCISTKELGKVRLGQNPTPEELQEIDEVDEDGSGTVDFDEFLVV YKAAVEQLTEEQKNEFKAAFDIFVLGAEDGCISTKELGKVRLGQNPTPEELQEIDEVDEDGSGTVDFDEFLVV 3rv5-a5-m4-cD_3rv5-a5-m4-cC Crystal structure of human cardiac troponin C regulatory domain in complex with cadmium and deoxycholic acid P63316 P63316 2.2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 77 3rv5-a5-m1-cB_3rv5-a5-m1-cA 3rv5-a5-m2-cB_3rv5-a5-m2-cA 3rv5-a5-m3-cD_3rv5-a5-m3-cC YKAAVEQLTEEQKNEFKAAFDIFVLGAEDGCISTKELGKVRLGQNPTPEELQEIDEVDEDGSGTVDFDEFLVV DIYKAAVEQLTEEQKNEFKAAFDIFVLGAEDGCISTKELGKVRLGQNPTPEELQEIDEVDEDGSGTVDFDEFLVVRC 3rva-a1-m1-cA_3rva-a1-m2-cA Crystal structure of organophosphorus acid anhydrolase from Alteromonas macleodii F8UVJ4 F8UVJ4 1.8 X-RAY DIFFRACTION 110 1.0 28108 (Alteromonas macleodii) 28108 (Alteromonas macleodii) 444 444 SQHKATYQQHIEELQARTREALQREGLDGLVIHSGQGKRLFLDDNHYPFKVNPQFKAWVPVIDNPNCWLVVNGVDKPTLIFYRPEDFWHKVPPEPNDFWTDSFDIKLLQQADAVEKFLPYDKSRFAYVGEYIEVAKALGFDNVNPDRVLHYLHYQRAYKTDYELDCMREANKLAVAGHKAAEQAFREGKSEFDINLAYAAASRQGDNDVPYTSIVALNEHASILHYMQDTVAPKESRSFLIDAGANYHGYAADITRTYAQEGVHNSAMFRDLIQAVDKVTLTLVDSLKPGVAYTDIHLLAHDGIAQILHDTGMVNLTPPEIVEMGITRTFFPHGIGHFLGLQVHDVGGLVNDDRGTPKPAPDDHPFLRCTRMVEARQVFTIEPGLYFIDSLLRDLKATPASKYINWDTIDAYKPFGGIRIEDNIIVHRDKNENMTRDLDLNLEH SQHKATYQQHIEELQARTREALQREGLDGLVIHSGQGKRLFLDDNHYPFKVNPQFKAWVPVIDNPNCWLVVNGVDKPTLIFYRPEDFWHKVPPEPNDFWTDSFDIKLLQQADAVEKFLPYDKSRFAYVGEYIEVAKALGFDNVNPDRVLHYLHYQRAYKTDYELDCMREANKLAVAGHKAAEQAFREGKSEFDINLAYAAASRQGDNDVPYTSIVALNEHASILHYMQDTVAPKESRSFLIDAGANYHGYAADITRTYAQEGVHNSAMFRDLIQAVDKVTLTLVDSLKPGVAYTDIHLLAHDGIAQILHDTGMVNLTPPEIVEMGITRTFFPHGIGHFLGLQVHDVGGLVNDDRGTPKPAPDDHPFLRCTRMVEARQVFTIEPGLYFIDSLLRDLKATPASKYINWDTIDAYKPFGGIRIEDNIIVHRDKNENMTRDLDLNLEH 3rvb-a1-m1-cA_3rvb-a1-m2-cA The structure of HCV NS3 helicase (Heli-80) bound with inhibitor ITMN-3479 P26663 P26663 2.2 X-RAY DIFFRACTION 89 1.0 11103 () 11103 () 443 443 8ohm-a1-m1-cA_8ohm-a1-m2-cA DNSSPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGVYMSKAHGIDPNIRTGVRAITTGGPITYSTYGKFLADGGCSAYDIIICDECHSTDSTSILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSNTGEIPFYGKAIPIEVIRGGRHLIFCHSKKKCDELAAKLSALGLNAVAYYRGLDVSVIPTSGDVVVVATDALMTGYTGDFDSVIDCNTCVTQTVDFSLDPTFTIDTTTVPQDAVSRSQRRGRTGRGRRGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKSLTRLKPTLHGPTPLLYRLGALQNEVTLTHPVTKFIMACMSADLEVV DNSSPPAVPQTFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGVYMSKAHGIDPNIRTGVRAITTGGPITYSTYGKFLADGGCSAYDIIICDECHSTDSTSILGIGTVLDQAETAGARLVVLATATPPGSVTVPHPNIEEVALSNTGEIPFYGKAIPIEVIRGGRHLIFCHSKKKCDELAAKLSALGLNAVAYYRGLDVSVIPTSGDVVVVATDALMTGYTGDFDSVIDCNTCVTQTVDFSLDPTFTIDTTTVPQDAVSRSQRRGRTGRGRRGIYRFVTPGERPSGMFDSSVLCECYDAGCAWYELTPAETSVRLRAYLNTPGLPVCQDHLEFWESVFTGLTHIDAHFLSQTKQAGDNFPYLVAYQATVCARAQAPPPSWDQMWKSLTRLKPTLHGPTPLLYRLGALQNEVTLTHPVTKFIMACMSADLEVV 3rwa-a2-m1-cE_3rwa-a2-m1-cH Crystal structure of circular-permutated mKate D0VX33 D0VX33 1.67 X-RAY DIFFRACTION 89 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 232 232 3rwa-a1-m1-cA_3rwa-a1-m1-cB 3rwa-a1-m1-cC_3rwa-a1-m1-cF 3rwa-a2-m1-cD_3rwa-a2-m1-cG 3rwt-a1-m1-cA_3rwt-a1-m1-cG 3rwt-a1-m1-cB_3rwt-a1-m1-cF 3rwt-a2-m1-cC_3rwt-a2-m1-cE 3rwt-a2-m1-cD_3rwt-a2-m1-cH GHLICNLKTTYRSKKPAKNLKMPGVYYVDRRLERIKEADKETYVEQHEVAVARYCDLPSKLGHAGGTGGSMSELITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEASTEMLYPADGGLEGRSDMALKLV GHLICNLKTTYRSKKPAKNLKMPGVYYVDRRLERIKEADKETYVEQHEVAVARYCDLPSKLGHAGGTGGSMSELITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEASTEMLYPADGGLEGRSDMALKLV 3rwa-a2-m1-cG_3rwa-a2-m1-cH Crystal structure of circular-permutated mKate D0VX33 D0VX33 1.67 X-RAY DIFFRACTION 73 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 232 232 3rwa-a1-m1-cA_3rwa-a1-m1-cC 3rwa-a1-m1-cB_3rwa-a1-m1-cF 3rwa-a2-m1-cD_3rwa-a2-m1-cE 3rwt-a1-m1-cA_3rwt-a1-m1-cF 3rwt-a1-m1-cB_3rwt-a1-m1-cG 3rwt-a2-m1-cC_3rwt-a2-m1-cD 3rwt-a2-m1-cE_3rwt-a2-m1-cH GHLICNLKTTYRSKKPAKNLKMPGVYYVDRRLERIKEADKETYVEQHEVAVARYCDLPSKLGHAGGTGGSMSELITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEASTEMLYPADGGLEGRSDMALKLV GHLICNLKTTYRSKKPAKNLKMPGVYYVDRRLERIKEADKETYVEQHEVAVARYCDLPSKLGHAGGTGGSMSELITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEASTEMLYPADGGLEGRSDMALKLV 3rwb-a1-m1-cA_3rwb-a1-m1-cD Crystal structure of complex of 4PAL (4-Pyridoxolactone) and PLDH (tetrameric pyridoxal 4-dehydrogenase) from Mesorhizobium loti Q988B7 Q988B7 1.699 X-RAY DIFFRACTION 112 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 247 247 3ndr-a1-m1-cA_3ndr-a1-m1-cD 3ndr-a1-m1-cB_3ndr-a1-m1-cC 3nug-a1-m1-cA_3nug-a1-m1-cD 3nug-a1-m1-cB_3nug-a1-m1-cC 3rwb-a1-m1-cB_3rwb-a1-m1-cC TERLAGKTALVTGAAQGIGKAIAARLAADGATVIVSDINAEGAKAAAASIGKKARAIAADISDPGSVKALFAEIQALTGGIDILVNNASIVPFVAWDDVDLDHWRKIIDVNLTGTFIVTRAGTDQMRAAGKAGRVISIASNTFFAGTPNMAAYVAAKGGVIGFTRALATELGKYNITANAVTPGLIESDGVKASPHNEAFGFVEMLQAMKGKGQPEHIADVVSFLASDDARWITGQTLNVDAGMVRH TERLAGKTALVTGAAQGIGKAIAARLAADGATVIVSDINAEGAKAAAASIGKKARAIAADISDPGSVKALFAEIQALTGGIDILVNNASIVPFVAWDDVDLDHWRKIIDVNLTGTFIVTRAGTDQMRAAGKAGRVISIASNTFFAGTPNMAAYVAAKGGVIGFTRALATELGKYNITANAVTPGLIESDGVKASPHNEAFGFVEMLQAMKGKGQPEHIADVVSFLASDDARWITGQTLNVDAGMVRH 3rwb-a1-m1-cB_3rwb-a1-m1-cD Crystal structure of complex of 4PAL (4-Pyridoxolactone) and PLDH (tetrameric pyridoxal 4-dehydrogenase) from Mesorhizobium loti Q988B7 Q988B7 1.699 X-RAY DIFFRACTION 104 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 247 247 3ndr-a1-m1-cA_3ndr-a1-m1-cC 3ndr-a1-m1-cB_3ndr-a1-m1-cD 3nug-a1-m1-cA_3nug-a1-m1-cC 3nug-a1-m1-cB_3nug-a1-m1-cD 3rwb-a1-m1-cA_3rwb-a1-m1-cC TERLAGKTALVTGAAQGIGKAIAARLAADGATVIVSDINAEGAKAAAASIGKKARAIAADISDPGSVKALFAEIQALTGGIDILVNNASIVPFVAWDDVDLDHWRKIIDVNLTGTFIVTRAGTDQMRAAGKAGRVISIASNTFFAGTPNMAAYVAAKGGVIGFTRALATELGKYNITANAVTPGLIESDGVKASPHNEAFGFVEMLQAMKGKGQPEHIADVVSFLASDDARWITGQTLNVDAGMVRH TERLAGKTALVTGAAQGIGKAIAARLAADGATVIVSDINAEGAKAAAASIGKKARAIAADISDPGSVKALFAEIQALTGGIDILVNNASIVPFVAWDDVDLDHWRKIIDVNLTGTFIVTRAGTDQMRAAGKAGRVISIASNTFFAGTPNMAAYVAAKGGVIGFTRALATELGKYNITANAVTPGLIESDGVKASPHNEAFGFVEMLQAMKGKGQPEHIADVVSFLASDDARWITGQTLNVDAGMVRH 3rwo-a3-m1-cA_3rwo-a3-m1-cB Crystal structure of YPT32 in complex with GDP P51996 P51996 1.7 X-RAY DIFFRACTION 34 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 169 172 DYDYLFKIVLIGDGVGKSNLLSRFTTDEFNIESKSTIGVEFATRTIEVENKKIKAQIWDTAGLERYRAITSAYYRGAVGALIVYDISKSSSYENCNHWLTELRENADDNVAVGLIGNKSDLAHLRAVPTDEAKNFAMENQMLFTETSALNSDNVDKAFRELIVAIFQMV GYDYDYLFKIVLIGDSGVGKSNLLSRFTTDEFNIESKSTIGVEFATRTIEVENKKIKAQIWDTAGLERYRAITSAYYRGAVGALIVYDISKSSSYENCNHWLTELRENADDNVAVGLIGNKSDLAHLRAVPTDEAKNFAMENQMLFTETSALNSDNVDKAFRELIVAIFQMV 3rx6-a1-m1-cA_3rx6-a1-m2-cA Crystal structure of Polarity Suppression protein from Enterobacteria phage P4 P05460 P05460 2.039 X-RAY DIFFRACTION 163 1.0 10680 (Enterobacteria phage P4) 10680 (Enterobacteria phage P4) 187 187 4dvd-a1-m1-cA_4dvd-a1-m2-cA TALQQAFDTCQNNKAAWLQRKNELAAAEQEYLRLLSGEGRNVSRLDELRNIIEVRKWQVNQAAGRYIRSHEAVQHISIRDRLNDFMQQHGTALAAALAPELMGYSELTAIARNCAIQRATDALREALLSWLAKGEKINYSAQDSDILTTIGFRPDVASVDDSREKFTPAQNMIFSRKSAQLASRQSV TALQQAFDTCQNNKAAWLQRKNELAAAEQEYLRLLSGEGRNVSRLDELRNIIEVRKWQVNQAAGRYIRSHEAVQHISIRDRLNDFMQQHGTALAAALAPELMGYSELTAIARNCAIQRATDALREALLSWLAKGEKINYSAQDSDILTTIGFRPDVASVDDSREKFTPAQNMIFSRKSAQLASRQSV 3rxy-a2-m1-cC_3rxy-a2-m1-cD Crystal structure of NIF3 superfamily protein from Sphaerobacter thermophilus D1C210 D1C210 2 X-RAY DIFFRACTION 70 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 264 264 3rxy-a1-m1-cE_3rxy-a1-m1-cA 3rxy-a1-m1-cE_3rxy-a1-m1-cF 3rxy-a1-m1-cF_3rxy-a1-m1-cA 3rxy-a2-m1-cC_3rxy-a2-m1-cB 3rxy-a2-m1-cD_3rxy-a2-m1-cB AGLSTAELVDIALEAERTLPADSAVYVESTDLKRVGIDIGPAELLLARQLGCDGVIAHHPAGGSATLNFPEVLTRHVELVEHGVPATAARDAIQGLLTRSLLRAQSANHDHTPSVARLLEPFLNIHLPLDEVGRRIVKTIQEAVEPLGDEARVQDAIDALTLPEFAGAATRIVPVGAVDQPLGKIAVVHGAGTNGGYAVARAYFDHGVRTVLYIHIAPEEAERLRREGGGNLIVTGHIASDLVGINRYVQALEERGVEVVRSGL AGLSTAELVDIALEAERTLPADSAVYVESTDLKRVGIDIGPAELLLARQLGCDGVIAHHPAGGSATLNFPEVLTRHVELVEHGVPATAARDAIQGLLTRSLLRAQSANHDHTPSVARLLEPFLNIHLPLDEVGRRIVKTIQEAVEPLGDEARVQDAIDALTLPEFAGAATRIVPVGAVDQPLGKIAVVHGAGTNGGYAVARAYFDHGVRTVLYIHIAPEEAERLRREGGGNLIVTGHIASDLVGINRYVQALEERGVEVVRSGL 3rxz-a1-m1-cC_3rxz-a1-m1-cD Crystal structure of putative polysaccharide deacetylase from Mycobacterium smegmatis A0R0G0 A0R0G0 2.01 X-RAY DIFFRACTION 85 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 279 279 3rxz-a1-m1-cA_3rxz-a1-m1-cB 3rxz-a1-m1-cA_3rxz-a1-m1-cD 3rxz-a1-m1-cB_3rxz-a1-m1-cC ELTPAAPVSWPDGKTCAVAFTFDVDAESPLLTTDPAFADRGTSHQAYGPLVGVPRLLGILDEFNVPGTFFVPGYTAHRHPEPIRSIARAGHEIAHHGYLHESLVGADEDTERKILTRGIEALEEVAGVHPVGYRAPWENWHTPKLLAEFGFLYDSTLDSDHPYELAVGDGSLVELPVSWALDDWQQYCFVPDFSGTGLIETPAKAIELWRAELNARDIGGAWVLTNHPFLSGRPGRAAALREFIAEVCADDVWVAGSQIAEHVRAQKLTPRTLTRPELT ELTPAAPVSWPDGKTCAVAFTFDVDAESPLLTTDPAFADRGTSHQAYGPLVGVPRLLGILDEFNVPGTFFVPGYTAHRHPEPIRSIARAGHEIAHHGYLHESLVGADEDTERKILTRGIEALEEVAGVHPVGYRAPWENWHTPKLLAEFGFLYDSTLDSDHPYELAVGDGSLVELPVSWALDDWQQYCFVPDFSGTGLIETPAKAIELWRAELNARDIGGAWVLTNHPFLSGRPGRAAALREFIAEVCADDVWVAGSQIAEHVRAQKLTPRTLTRPELT 3ry0-a1-m2-cB_3ry0-a1-m3-cB Crystal structure of TomN, a 4-Oxalocrotonate Tautomerase homologue in Tomaymycin biosynthetic pathway C0LTT5 C0LTT5 1.4 X-RAY DIFFRACTION 45 1.0 67255 (Streptomyces achromogenes) 67255 (Streptomyces achromogenes) 63 63 3ry0-a1-m1-cA_3ry0-a1-m2-cA 3ry0-a1-m1-cA_3ry0-a1-m3-cA 3ry0-a1-m1-cB_3ry0-a1-m2-cB 3ry0-a1-m1-cB_3ry0-a1-m3-cB 3ry0-a1-m2-cA_3ry0-a1-m3-cA PLIRVTLLEGRSPQEVAALGEALTAAAHETLGTPVEAVRVIVEETPPERWFVGGRSVAERRAS PLIRVTLLEGRSPQEVAALGEALTAAAHETLGTPVEAVRVIVEETPPERWFVGGRSVAERRAS 3ry0-a1-m3-cB_3ry0-a1-m3-cA Crystal structure of TomN, a 4-Oxalocrotonate Tautomerase homologue in Tomaymycin biosynthetic pathway C0LTT5 C0LTT5 1.4 X-RAY DIFFRACTION 66 1.0 67255 (Streptomyces achromogenes) 67255 (Streptomyces achromogenes) 63 65 3ry0-a1-m1-cB_3ry0-a1-m1-cA 3ry0-a1-m2-cB_3ry0-a1-m2-cA PLIRVTLLEGRSPQEVAALGEALTAAAHETLGTPVEAVRVIVEETPPERWFVGGRSVAERRAS PLIRVTLLEGRSPQEVAALGEALTAAAHETLGTPVEAVRVIVEETPPERWFVGGRSVAERRASPS 3ry7-a1-m1-cA_3ry7-a1-m2-cA Crystal Structure of Sa239 A0A0H2WZY4 A0A0H2WZY4 2.15 X-RAY DIFFRACTION 127 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 303 303 TNKVVILGSTNVDQFLTVERYAQPGETLHVEEAQKAFGGGKGANQAIATARMQADTTFITKIGTDGVADFILEDFKVAHIDTSYIIKTAEAKTGQAFITVNAEGQNTIYVYGGANMTMTPEDVINAKDAIINADFVVAQLEVPIPAIISAFEIAKAHGVTTVLNPAPAKALPNELLSLIDIIVPNETEAELLSGIKVTNEQSMKDNANYFLSIGIKTVLITLGKQGTYFATKNQSQHIEAYKVNAIDTTAAGDTFIGAFVSRLNKSQDNLADAIDFGNKASSLTVQKHGAQASIPLLEEVNQV TNKVVILGSTNVDQFLTVERYAQPGETLHVEEAQKAFGGGKGANQAIATARMQADTTFITKIGTDGVADFILEDFKVAHIDTSYIIKTAEAKTGQAFITVNAEGQNTIYVYGGANMTMTPEDVINAKDAIINADFVVAQLEVPIPAIISAFEIAKAHGVTTVLNPAPAKALPNELLSLIDIIVPNETEAELLSGIKVTNEQSMKDNANYFLSIGIKTVLITLGKQGTYFATKNQSQHIEAYKVNAIDTTAAGDTFIGAFVSRLNKSQDNLADAIDFGNKASSLTVQKHGAQASIPLLEEVNQV 3ryk-a1-m1-cA_3ryk-a1-m1-cB 1.63 Angstrom resolution crystal structure of dTDP-4-dehydrorhamnose 3,5-epimerase (rfbC) from Bacillus anthracis str. Ames with TDP and PPi bound A0A6L7H6N0 A0A6L7H6N0 1.631 X-RAY DIFFRACTION 84 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 175 175 AMKVIETNFTDAKLLEPRLFGDDRGFFTESYNKKVLETLGVTHSFVQDNVSYSAEAGTIRGLHFQKNPKAQTKLIQVMQGAIYDVIVDLRKDSPTFKQWRGYILSADNHRQLLVPKGFAHGFCTLVPHTIVMYKVDEYYSADHDSGVLWNDKELAIPWPVTSPILSDKDRILPLL AMKVIETNFTDAKLLEPRLFGDDRGFFTESYNKKVLETLGVTHSFVQDNVSYSAEAGTIRGLHFQKNPKAQTKLIQVMQGAIYDVIVDLRKDSPTFKQWRGYILSADNHRQLLVPKGFAHGFCTLVPHTIVMYKVDEYYSADHDSGVLWNDKELAIPWPVTSPILSDKDRILPLL 3ryw-a3-m2-cC_3ryw-a3-m1-cA Crystal structure of P. vivax geranylgeranyl diphosphate synthase complexed with BPH-811 A5K4U6 A5K4U6 2.9 X-RAY DIFFRACTION 16 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 355 358 3ryw-a3-m2-cB_3ryw-a3-m1-cD LAFFRNMYDKYRDAFLSHLNEYSLEEEIKEHISKYYKLLFDYNCLGGKNNRGILVILIYEYVKNRINSSEWEKAACLAWCIEILQAAFLVADDIMDKGEMRRNKYCWYLLKDVETKNAVNDVLLLYNSIYKLIEIYLRNESCYVDVIATFRDATLKTIIGQHLDTNIFSDKYSEIDVNNINPEQPVIDINMINFGVYKNIVIHKTAYYSFFLPIVCGMLLAGIAVDNLIYKKIEDISMLMGEYFQIHDDYLDIFGDSTKTGKVGSDIQNNKLTWPLIKTFELCSEPDKIKIVKNYGKNNLACVKVIDSLYEQYKIRKHYESYEKAQKAKILSAINELHHEGIEYVLKYLLEILFT LAFFRNMYDKYRDAFLSHLNEYSLEEEIKEHISKYYKLLFDYNCLGGKNNRGILVILIYEYVKNRINSSEWEKAACLAWCIEILQAAFLVADDIMDKGEMRRNKYCWYLLKDVETKNAVNDVLLLYNSIYKLIEIYLRNESCYVDVIATFRDATLKTIIGQHLDTNIFSDKYSEIDVNNINVPEQPVIDINMINFGVYKNIVIHKTAYYSFFLPIVCGMLLAGIAVDNLIYKKIEDISMLMGEYFQIHDDYLDIFGDSTKTGKVGSDIQNNKLTWPLIKTFELCSEPDKIKIVKNYGKNNLACVKVIDSLYEQYKIRKHYESYEKAQKAKILSAINELHHEGIEYVLKYLLEILFTGV 3rza-a1-m1-cA_3rza-a1-m1-cB Crystal structure of a tripeptidase (SAV1512) from staphylococcus aureus subsp. aureus mu50 at 2.10 A resolution A0A0H3JRK2 A0A0H3JRK2 2.1 X-RAY DIFFRACTION 152 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 365 365 GINEQRLLNTFLELVQIDSETGNESTIQPILKEKFIALGLDVKEDEAAKHPKLGANNLVCTNSTIEVPKLYLTSHDTVVPAINVKPIVKDDGYIYSDGTTILGADDKAGLAALEVLQVIKEQQIPHGQIQFVITVGEESGLIGAKELNSELLDADFGYAIDASADVGTTVVGAPTQLISAKIIGKTAHASTPKEGVSAINIAAKAISRKLGQVDEITTANIGKFHGGSATNIVADEVILEAEARSHDPERIKTQVKHTDVFETTASELGGKAEVTVEQSYPGFKINDNEAVVKIAQESARNLGLSANTIISGGGSDGSIINTFGIPSVILGVGYEKIHTTNERPIKSLNLLASQVLEIIKIVARQ GINEQRLLNTFLELVQIDSETGNESTIQPILKEKFIALGLDVKEDEAAKHPKLGANNLVCTNSTIEVPKLYLTSHDTVVPAINVKPIVKDDGYIYSDGTTILGADDKAGLAALEVLQVIKEQQIPHGQIQFVITVGEESGLIGAKELNSELLDADFGYAIDASADVGTTVVGAPTQLISAKIIGKTAHASTPKEGVSAINIAAKAISRKLGQVDEITTANIGKFHGGSATNIVADEVILEAEARSHDPERIKTQVKHTDVFETTASELGGKAEVTVEQSYPGFKINDNEAVVKIAQESARNLGLSANTIISGGGSDGSIINTFGIPSVILGVGYEKIHTTNERPIKSLNLLASQVLEIIKIVARQ 3s0p-a3-m1-cE_3s0p-a3-m1-cF Copper-reconstituted Tomato Chloroplast Superoxide Dismutase P14831 P14831 3 X-RAY DIFFRACTION 72 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 123 123 3hog-a1-m1-cA_3hog-a1-m2-cA 3km1-a1-m1-cA_3km1-a1-m1-cB 3mkg-a1-m1-cB_3mkg-a1-m1-cA 3s0p-a1-m1-cB_3s0p-a1-m1-cA 3s0p-a2-m1-cD_3s0p-a2-m1-cC 3s0p-a4-m1-cG_3s0p-a4-m1-cH TKKAVAVLKGNSNVEGVVTLSQDDDGPTTVNVRITGLAPGLHGFHLHEYGDTTNGCMSTGAHFNPAGDLGNIVANADGVAEVTLVDNQIPLTGPNSVVGRALVVHELEDGGRLACGVVGLTPI TKKAVAVLKGNSNVEGVVTLSQDDDGPTTVNVRITGLAPGLHGFHLHEYGDTTNGCMSTGAHFNPAGDLGNIVANADGVAEVTLVDNQIPLTGPNSVVGRALVVHELEDGGRLACGVVGLTPI 3s0w-a2-m1-cA_3s0w-a2-m2-cB The crystal structure of the periplasmic domain of Helicobacter pylori MotB (residues 78-256). P56427 P56427 2.5 X-RAY DIFFRACTION 96 0.994 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 157 159 3s02-a2-m1-cA_3s02-a2-m2-cA 3s02-a2-m1-cB_3s02-a2-m2-cB 3s03-a2-m1-cB_3s03-a2-m1-cC 3s03-a3-m1-cB_3s03-a3-m1-cC 3s06-a1-m1-cA_3s06-a1-m2-cA 3s06-a1-m1-cB_3s06-a1-m2-cB 3s0h-a1-m1-cD_3s0h-a1-m1-cA 3s0h-a2-m1-cB_3s0h-a2-m1-cC 3s0h-a3-m1-cB_3s0h-a3-m1-cC 3s0h-a3-m1-cD_3s0h-a3-m1-cA 3s0w-a2-m2-cA_3s0w-a2-m1-cB 3s0y-a2-m1-cB_3s0y-a2-m2-cA 3s0y-a2-m2-cB_3s0y-a2-m1-cA NTETKATIGEGSVLEQIDQGSILKLPSNLLFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNP TETKATIARKGEGSVLEQIDQGSILKLPSNLLFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNP 3s0w-a2-m2-cA_3s0w-a2-m2-cB The crystal structure of the periplasmic domain of Helicobacter pylori MotB (residues 78-256). P56427 P56427 2.5 X-RAY DIFFRACTION 89 0.994 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 157 159 3s02-a1-m1-cA_3s02-a1-m1-cB 3s02-a2-m1-cA_3s02-a2-m1-cB 3s02-a2-m2-cA_3s02-a2-m2-cB 3s03-a3-m1-cB_3s03-a3-m1-cA 3s06-a1-m1-cB_3s06-a1-m1-cA 3s06-a1-m2-cB_3s06-a1-m2-cA 3s06-a2-m1-cB_3s06-a2-m1-cA 3s0h-a3-m1-cA_3s0h-a3-m1-cC 3s0h-a3-m1-cD_3s0h-a3-m1-cB 3s0w-a1-m1-cA_3s0w-a1-m1-cB 3s0w-a2-m1-cA_3s0w-a2-m1-cB 3s0y-a1-m1-cB_3s0y-a1-m1-cA 3s0y-a2-m1-cB_3s0y-a2-m1-cA 3s0y-a2-m2-cB_3s0y-a2-m2-cA NTETKATIGEGSVLEQIDQGSILKLPSNLLFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNP TETKATIARKGEGSVLEQIDQGSILKLPSNLLFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNP 3s0y-a2-m1-cA_3s0y-a2-m2-cA The crystal structure of the periplasmic domain of MotB (residues 64-256). P56427 P56427 1.8 X-RAY DIFFRACTION 16 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 189 189 MQPVVVIPPDSGKEEEQMASESSKPASQNTETKATIARKGEGSVLEQIDQGSILKLPSNLLFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNPH MQPVVVIPPDSGKEEEQMASESSKPASQNTETKATIARKGEGSVLEQIDQGSILKLPSNLLFENATSDAINQDMMLYIERIAKIIQKLPKRVHINVRGFTDDTPLVKTRFKSHYELAANRAYRVMKVLIQYGVNPNQLSFSSYGSTNPIAPNDSLENRMKNNRVEIFFSTDANDLSKIHSILDNEFNPH 3s28-a1-m1-cC_3s28-a1-m1-cD The crystal structure of sucrose synthase-1 in complex with a breakdown product of the UDP-glucose P49040 P49040 2.8 X-RAY DIFFRACTION 56 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 781 781 3s27-a1-m1-cA_3s27-a1-m1-cB 3s27-a1-m1-cC_3s27-a1-m1-cD 3s27-a2-m1-cE_3s27-a2-m1-cF 3s27-a2-m1-cG_3s27-a2-m1-cH 3s28-a1-m1-cB_3s28-a1-m1-cA 3s28-a2-m1-cE_3s28-a2-m1-cF 3s28-a2-m1-cH_3s28-a2-m1-cG 3s29-a1-m1-cA_3s29-a1-m1-cB 3s29-a1-m1-cC_3s29-a1-m1-cD 3s29-a2-m1-cE_3s29-a2-m1-cF 3s29-a2-m1-cG_3s29-a2-m1-cH NEVLALLSRVEAKGKGILQQNQIIAEFEALPEQTRKKLEGGPFFDLLKSTQEAIVLPPWVALAVRPRPGVWEYLRVNLHALVVEELQPAEFLHFKEELVDGVKNGNFTLELDFEPFNASIPRPTLHKYIGNGVDFLNRHLSAKLFHDKESLLPLLKFLRLHSHQGKNLMLSEKIQNLNTLQHTLRKAEEYLAELKSETLYEEFEAKFEEIGLERGWGDNAERVLDMIRLLLDLLEAPDPCTLETFLGRVPMVFNVVILSPHGYFAQDNVLGYPDTGGQVVYILDQVRALEIEMLQRIKQQGLNIKPRILILTRLLPDAVGTTCGERLERVYDSEYCDILRVPFRTEKGIVRKWISRFEVWPYLETYTEDAAVELSKELNGKPDLIIGNYSDGNLVASLLAHKLGVTQCTIAHALEKTKYPDSDIYWKKLDDKYHFSCQFTADIFAMNHTDFIITSTFQEIAGSKETVGQYESHTAFTLPGLYRVVHGIDVFDPKFNIVSPGADMSIYFPYTEEKRRLTKFHSEIEELLYSDVENKEHLCVLKDKKKPILFTMARLDRVKNLSGLVEWYGKNTRLRELANLVVVGGDRRKESKDNEEKAEMKKMYDLIEEYKLNGQFRWISSQMDRVRNGELYRYICDTKGAFVQPALYEAFGLTVVEAMTCGLPTFATCKGGPAEIIVHGKSGFHIDPYHGDQAADTLADFFTKCKEDPSHWDEISKGGLQRIEEKYTWQIYSQRLLTLTGVYGFWKHVSNLDRLEARRYLEMFYALKYRPLAQAVPLAQD NEVLALLSRVEAKGKGILQQNQIIAEFEALPEQTRKKLEGGPFFDLLKSTQEAIVLPPWVALAVRPRPGVWEYLRVNLHALVVEELQPAEFLHFKEELVDGVKNGNFTLELDFEPFNASIPRPTLHKYIGNGVDFLNRHLSAKLFHDKESLLPLLKFLRLHSHQGKNLMLSEKIQNLNTLQHTLRKAEEYLAELKSETLYEEFEAKFEEIGLERGWGDNAERVLDMIRLLLDLLEAPDPCTLETFLGRVPMVFNVVILSPHGYFAQDNVLGYPDTGGQVVYILDQVRALEIEMLQRIKQQGLNIKPRILILTRLLPDAVGTTCGERLERVYDSEYCDILRVPFRTEKGIVRKWISRFEVWPYLETYTEDAAVELSKELNGKPDLIIGNYSDGNLVASLLAHKLGVTQCTIAHALEKTKYPDSDIYWKKLDDKYHFSCQFTADIFAMNHTDFIITSTFQEIAGSKETVGQYESHTAFTLPGLYRVVHGIDVFDPKFNIVSPGADMSIYFPYTEEKRRLTKFHSEIEELLYSDVENKEHLCVLKDKKKPILFTMARLDRVKNLSGLVEWYGKNTRLRELANLVVVGGDRRKESKDNEEKAEMKKMYDLIEEYKLNGQFRWISSQMDRVRNGELYRYICDTKGAFVQPALYEAFGLTVVEAMTCGLPTFATCKGGPAEIIVHGKSGFHIDPYHGDQAADTLADFFTKCKEDPSHWDEISKGGLQRIEEKYTWQIYSQRLLTLTGVYGFWKHVSNLDRLEARRYLEMFYALKYRPLAQAVPLAQD 3s29-a2-m1-cE_3s29-a2-m1-cH The crystal structure of sucrose synthase-1 from Arabidopsis thaliana and its functional implications. P49040 P49040 2.85 X-RAY DIFFRACTION 71 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 781 797 3s27-a1-m1-cA_3s27-a1-m1-cD 3s27-a1-m1-cC_3s27-a1-m1-cB 3s27-a2-m1-cE_3s27-a2-m1-cH 3s27-a2-m1-cF_3s27-a2-m1-cG 3s28-a1-m1-cA_3s28-a1-m1-cD 3s28-a1-m1-cB_3s28-a1-m1-cC 3s28-a2-m1-cF_3s28-a2-m1-cG 3s28-a2-m1-cH_3s28-a2-m1-cE 3s29-a1-m1-cA_3s29-a1-m1-cD 3s29-a1-m1-cC_3s29-a1-m1-cB 3s29-a2-m1-cF_3s29-a2-m1-cG NEVLALLSRVEAKGKGILQQNQIIAEFEALPEQTRKKLEGGPFFDLLKSTQEAIVLPPWVALAVRPRPGVWEYLRVNLHALVVEELQPAEFLHFKEELVDGVKNGNFTLELDFEPFNASIPRPTLHKYIGNGVDFLNRHLSAKLFHDKESLLPLLKFLRLHSHQGKNLMLSEKIQNLNTLQHTLRKAEEYLAELKSETLYEEFEAKFEEIGLERGWGDNAERVLDMIRLLLDLLEAPDPCTLETFLGRVPMVFNVVILSPHGYFAQDNVLGYPDTGGQVVYILDQVRALEIEMLQRIKQQGLNIKPRILILTRLLPDAVGTTCGERLERVYDSEYCDILRVPFRTEKGIVRKWISRFEVWPYLETYTEDAAVELSKELNGKPDLIIGNYSDGNLVASLLAHKLGVTQCTIAHALEKTKYPDSDIYWKKLDDKYHFSCQFTADIFAMNHTDFIITSTFQEIAGSKETVGQYESHTAFTLPGLYRVVHGIDVFDPKFNIVSPGADMSIYFPYTEEKRRLTKFHSEIEELLYSDVENKEHLCVLKDKKKPILFTMARLDRVKNLSGLVEWYGKNTRLRELANLVVVGGDRRKESKDNEEKAEMKKMYDLIEEYKLNGQFRWISSQMDRVRNGELYRYICDTKGAFVQPALYEAFGLTVVEAMTCGLPTFATCKGGPAEIIVHGKSGFHIDPYHGDQAADTLADFFTKCKEDPSHWDEISKGGLQRIEEKYTWQIYSQRLLTLTGVYGFWKHVSNLDRLEARRYLEMFYALKYRPLAQAVPLAQD VHSQRERLNETLVSERNEVLALLSRVEAKGKGILQQNQIIAEFEALPEQTRKKLEGGPFFDLLKSTQEAIVLPPWVALAVRPRPGVWEYLRVNLHALVVEELQPAEFLHFKEELVDGVKNGNFTLELDFEPFNASIPRPTLHKYIGNGVDFLNRHLSAKLFHDKESLLPLLKFLRLHSHQGKNLMLSEKIQNLNTLQHTLRKAEEYLAELKSETLYEEFEAKFEEIGLERGWGDNAERVLDMIRLLLDLLEAPDPCTLETFLGRVPMVFNVVILSPHGYFAQDNVLGYPDTGGQVVYILDQVRALEIEMLQRIKQQGLNIKPRILILTRLLPDAVGTTCGERLERVYDSEYCDILRVPFRTEKGIVRKWISRFEVWPYLETYTEDAAVELSKELNGKPDLIIGNYSDGNLVASLLAHKLGVTQCTIAHALEKTKYPDSDIYWKKLDDKYHFSCQFTADIFAMNHTDFIITSTFQEIAGSKETVGQYESHTAFTLPGLYRVVHGIDVFDPKFNIVSPGADMSIYFPYTEEKRRLTKFHSEIEELLYSDVENKEHLCVLKDKKKPILFTMARLDRVKNLSGLVEWYGKNTRLRELANLVVVGGDRRKESKDNEEKAEMKKMYDLIEEYKLNGQFRWISSQMDRVRNGELYRYICDTKGAFVQPALYEAFGLTVVEAMTCGLPTFATCKGGPAEIIVHGKSGFHIDPYHGDQAADTLADFFTKCKEDPSHWDEISKGGLQRIEEKYTWQIYSQRLLTLTGVYGFWKHVSNLDRLEARRYLEMFYALKYRPLAQAVPLAQD 3s2e-a2-m1-cB_3s2e-a2-m1-cC Crystal Structure of FurX NADH Complex 1 Q46UZ9 Q46UZ9 1.763 X-RAY DIFFRACTION 22 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 340 340 3s1l-a1-m1-cA_3s1l-a1-m1-cD 3s1l-a1-m1-cB_3s1l-a1-m1-cC 3s2e-a1-m1-cA_3s2e-a1-m1-cD 3s2e-a1-m1-cF_3s2e-a1-m1-cG 3s2e-a2-m1-cE_3s2e-a2-m1-cH 3s2f-a1-m1-cA_3s2f-a1-m1-cD 3s2f-a1-m1-cF_3s2f-a1-m1-cG 3s2f-a2-m1-cB_3s2f-a2-m1-cC 3s2f-a2-m1-cE_3s2f-a2-m1-cH AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR 3s2e-a2-m1-cB_3s2e-a2-m1-cH Crystal Structure of FurX NADH Complex 1 Q46UZ9 Q46UZ9 1.763 X-RAY DIFFRACTION 115 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 340 340 3s1l-a1-m1-cA_3s1l-a1-m1-cB 3s1l-a1-m1-cC_3s1l-a1-m1-cD 3s2e-a1-m1-cA_3s2e-a1-m1-cG 3s2e-a1-m1-cD_3s2e-a1-m1-cF 3s2e-a2-m1-cC_3s2e-a2-m1-cE 3s2f-a1-m1-cA_3s2f-a1-m1-cG 3s2f-a1-m1-cD_3s2f-a1-m1-cF 3s2f-a2-m1-cB_3s2f-a2-m1-cH 3s2f-a2-m1-cC_3s2f-a2-m1-cE 3s2g-a1-m1-cA_3s2g-a1-m1-cG 3s2g-a1-m2-cC_3s2g-a1-m2-cE 3s2g-a2-m1-cD_3s2g-a2-m1-cF 3s2g-a2-m2-cB_3s2g-a2-m2-cH 3s2i-a1-m1-cA_3s2i-a1-m1-cG 3s2i-a1-m2-cC_3s2i-a1-m2-cE 3s2i-a2-m1-cB_3s2i-a2-m1-cH 3s2i-a2-m3-cD_3s2i-a2-m3-cF AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR 3s2e-a2-m1-cC_3s2e-a2-m1-cH Crystal Structure of FurX NADH Complex 1 Q46UZ9 Q46UZ9 1.763 X-RAY DIFFRACTION 24 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 340 340 3s1l-a1-m1-cA_3s1l-a1-m1-cC 3s1l-a1-m1-cB_3s1l-a1-m1-cD 3s2e-a1-m1-cA_3s2e-a1-m1-cF 3s2e-a1-m1-cD_3s2e-a1-m1-cG 3s2e-a2-m1-cB_3s2e-a2-m1-cE 3s2f-a1-m1-cA_3s2f-a1-m1-cF 3s2f-a1-m1-cD_3s2f-a1-m1-cG 3s2f-a2-m1-cB_3s2f-a2-m1-cE 3s2f-a2-m1-cC_3s2f-a2-m1-cH AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR 3s2g-a2-m1-cF_3s2g-a2-m2-cH Crystal Structure of FurX NADH+:Furfuryl alcohol I Q46UZ9 Q46UZ9 2.3 X-RAY DIFFRACTION 10 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 340 340 3s2g-a1-m1-cG_3s2g-a1-m2-cE AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR AMMKAAVVRAFGAPLTIDEVPVPQPGPGQVQVKIEASGVCHTDLHAADGDWPVKPTLPFIPGHEGVGYVSAVGSGVSRVKEGDRVGVPWLYSACGYCEHCLQGWETLCEKQQNTGYSVNGGYGEYVVADPNYVGLLPDKVGFVEIAPILCAGVTVYKGLKVTDTRPGQWVVISGIGGLGHVAVQYARAMGLRVAAVDIDDAKLNLARRLGAEVAVNARDTDPAAWLQKEIGGAHGVLVTAVSPKAFSQAIGMVRRGGTIALNGLPPGDFGTPIFDVVLKGITIRGSIVGTRSDLQESLDFAAHGDVKATVSTAKLDDVNDVFGRLREGKVEGRVVLDFSR 3s2q-a2-m1-cA_3s2q-a2-m2-cB The crystal structure of AT5g51720 (AT-NEET) Q9FLI7 Q9FLI7 1.75 X-RAY DIFFRACTION 18 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 65 65 GGINPEIRKNEDKVVDSVVVTELSKNITPYCRCWRSGTFPLCDGSHVKHNKANGDNVGPLLLKKQ GGINPEIRKNEDKVVDSVVVTELSKNITPYCRCWRSGTFPLCDGSHVKHNKANGDNVGPLLLKKQ 3s2q-a2-m2-cA_3s2q-a2-m2-cB The crystal structure of AT5g51720 (AT-NEET) Q9FLI7 Q9FLI7 1.75 X-RAY DIFFRACTION 125 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 65 65 3s2q-a1-m1-cA_3s2q-a1-m1-cB 3s2q-a2-m1-cA_3s2q-a2-m1-cB 3s2r-a1-m1-cA_3s2r-a1-m1-cB GGINPEIRKNEDKVVDSVVVTELSKNITPYCRCWRSGTFPLCDGSHVKHNKANGDNVGPLLLKKQ GGINPEIRKNEDKVVDSVVVTELSKNITPYCRCWRSGTFPLCDGSHVKHNKANGDNVGPLLLKKQ 3s2s-a1-m1-cB_3s2s-a1-m1-cD The crystal structure of pyrazinamidase/nicotinamidase from streptococcus mutans UA159 Q8DSG2 Q8DSG2 1.7 X-RAY DIFFRACTION 10 0.994 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 181 181 3s2s-a1-m1-cA_3s2s-a1-m1-cC SKALISIDYTYDFVADDGKLTAGKPAQAISKAIAQVTQKAYDNGDYIFFTIDGHDEGDDFHPETKLFPPHNIKGTSGRDLYGALADFYQKHENDKRVFWMDKRHYSAFSGTDLDIRLERRVDTVVLTGVLTDICVLHTAIDAYNLGYQIEVVQSAVASLSQENHQFALNHLQNVLGATIIE SKALISIDYTYDFVADDGKLTAGKPAQAISKAIAQVTQKAYDNGDYIFFTIDGHDEGDDFHPETKLFPPHNIKGTSGRDLYGALADFYQKHENDKRVFWMDKRHYSAFSGTDLDIRLRERRVDTVVLTGVLTDICVLHTAIDAYNLGYQIEVVQSAVASLSQENHQFALNHLQNVLGATII 3s2s-a1-m1-cD_3s2s-a1-m1-cA The crystal structure of pyrazinamidase/nicotinamidase from streptococcus mutans UA159 Q8DSG2 Q8DSG2 1.7 X-RAY DIFFRACTION 46 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 181 182 3s2s-a1-m1-cB_3s2s-a1-m1-cC SKALISIDYTYDFVADDGKLTAGKPAQAISKAIAQVTQKAYDNGDYIFFTIDGHDEGDDFHPETKLFPPHNIKGTSGRDLYGALADFYQKHENDKRVFWMDKRHYSAFSGTDLDIRLRERRVDTVVLTGVLTDICVLHTAIDAYNLGYQIEVVQSAVASLSQENHQFALNHLQNVLGATII SKALISIDYTYDFVADDGKLTAGKPAQAISKAIAQVTQKAYDNGDYIFFTIDGHDEGDDFHPETKLFPPHNIKGTSGRDLYGALADFYQKHENDKRVFWMDKRHYSAFSGTDLDIRLRERRVDTVVLTGVLTDICVLHTAIDAYNLGYQIEVVQSAVASLSQENHQFALNHLQNVLGATIIE 3s2s-a1-m1-cD_3s2s-a1-m1-cC The crystal structure of pyrazinamidase/nicotinamidase from streptococcus mutans UA159 Q8DSG2 Q8DSG2 1.7 X-RAY DIFFRACTION 36 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 181 182 3s2s-a1-m1-cB_3s2s-a1-m1-cA SKALISIDYTYDFVADDGKLTAGKPAQAISKAIAQVTQKAYDNGDYIFFTIDGHDEGDDFHPETKLFPPHNIKGTSGRDLYGALADFYQKHENDKRVFWMDKRHYSAFSGTDLDIRLRERRVDTVVLTGVLTDICVLHTAIDAYNLGYQIEVVQSAVASLSQENHQFALNHLQNVLGATII SKALISIDYTYDFVADDGKLTAGKPAQAISKAIAQVTQKAYDNGDYIFFTIDGHDEGDDFHPETKLFPPHNIKGTSGRDLYGALADFYQKHENDKRVFWMDKRHYSAFSGTDLDIRLRERRVDTVVLTGVLTDICVLHTAIDAYNLGYQIEVVQSAVASLSQENHQFALNHLQNVLGATIIE 3s2w-a1-m1-cB_3s2w-a1-m1-cA The crystal structure of a MarR transcriptional regulator from Methanosarcina mazei Go1 Q8PVU7 Q8PVU7 2.453 X-RAY DIFFRACTION 149 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 133 142 3s2w-a2-m1-cC_3s2w-a2-m1-cD 3s2w-a3-m1-cE_3s2w-a3-m1-cF 3s2w-a4-m1-cG_3s2w-a4-m1-cH LCDKEFIGKAISYLYRYGQIYIGKKIEPYGIGSGQFPFLRLYREDGINQESLSDYLKIDKGTTARAIQKLVDEGYVFRQRRSYRVFLTEKGKKLEPDKKIASEWGEILFSSFDDRQRREITNSLEIFENGLKI GISHAEGLCDKEFIGKAISYLYRYGQIYIGKKIEPYGIGSGQFPFLRLYREDGINQESLSDYLKIDKGTTARAIQKLVDEGYVFRQRDERSYRVFLTEKGKKLEPDKKIASEWGEILFSSFDDRQRREITNSLEIFENGLKI 3s2y-a1-m4-cD_3s2y-a1-m1-cA Crystal structure of a chromate/uranium reductase from Gluconacetobacter hansenii D5QFC5 D5QFC5 2.244 X-RAY DIFFRACTION 23 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 182 184 3s2y-a1-m3-cD_3s2y-a1-m2-cA 3s2y-a3-m1-cC_3s2y-a3-m5-cB 3s2y-a3-m5-cC_3s2y-a3-m1-cB 4h6p-a1-m1-cA_4h6p-a1-m2-cB 4h6p-a1-m1-cB_4h6p-a1-m2-cA 4h6p-a2-m1-cC_4h6p-a2-m3-cD 4h6p-a2-m1-cD_4h6p-a2-m3-cC 4h6p-a3-m1-cE_4h6p-a3-m1-cL 4h6p-a3-m1-cF_4h6p-a3-m1-cG 4h6p-a4-m1-cH_4h6p-a4-m1-cK 4h6p-a4-m1-cI_4h6p-a4-m1-cJ 4hs4-a1-m1-cC_4hs4-a1-m2-cA 4hs4-a1-m1-cD_4hs4-a1-m1-cE 4hs4-a1-m1-cF_4hs4-a1-m1-cH 4hs4-a1-m1-cG_4hs4-a1-m2-cB PLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQYHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTL SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQYHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS 3s3t-a4-m1-cG_3s3t-a4-m1-cH Universal stress protein UspA from Lactobacillus plantarum F9UMW3 F9UMW3 1.9 X-RAY DIFFRACTION 45 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 143 143 3s3t-a1-m1-cB_3s3t-a1-m1-cA 3s3t-a1-m1-cC_3s3t-a1-m1-cD 3s3t-a4-m1-cF_3s3t-a4-m1-cE ARYTNILVPVDSSDAAQAAFTEAVNIAQRHQANLTALYVVDDSAYHTPALDPVLSELLDAEAAHAKDARQRQQFVATTSAPNLKTEISYGIPKHTIEDYAKQHPEIDLIVLGATGTNSPHRVAVGSTTSYVVDHAPCNVIVIR ARYTNILVPVDSSDAAQAAFTEAVNIAQRHQANLTALYVVDDSAYHTPALDPVLSELLDAEAAHAKDARQRQQFVATTSAPNLKTEISYGIPKHTIEDYAKQHPEIDLIVLGATGTNSPHRVAVGSTTSYVVDHAPCNVIVIR 3s3t-a6-m1-cF_3s3t-a6-m1-cH Universal stress protein UspA from Lactobacillus plantarum F9UMW3 F9UMW3 1.9 X-RAY DIFFRACTION 60 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 143 143 3s3t-a1-m1-cA_3s3t-a1-m1-cC 3s3t-a1-m1-cB_3s3t-a1-m1-cD 3s3t-a2-m1-cA_3s3t-a2-m1-cC 3s3t-a3-m1-cB_3s3t-a3-m1-cD 3s3t-a4-m1-cF_3s3t-a4-m1-cH 3s3t-a4-m1-cG_3s3t-a4-m1-cE 3s3t-a5-m1-cG_3s3t-a5-m1-cE ARYTNILVPVDSSDAAQAAFTEAVNIAQRHQANLTALYVVDDSAYHTPALDPVLSELLDAEAAHAKDARQRQQFVATTSAPNLKTEISYGIPKHTIEDYAKQHPEIDLIVLGATGTNSPHRVAVGSTTSYVVDHAPCNVIVIR ARYTNILVPVDSSDAAQAAFTEAVNIAQRHQANLTALYVVDDSAYHTPALDPVLSELLDAEAAHAKDARQRQQFVATTSAPNLKTEISYGIPKHTIEDYAKQHPEIDLIVLGATGTNSPHRVAVGSTTSYVVDHAPCNVIVIR 3s3u-a2-m2-cB_3s3u-a2-m1-cA Crystal Structure of Uncleaved ThnT T282C Q83XN4 Q83XN4 1.6 X-RAY DIFFRACTION 35 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 362 364 3s3u-a2-m1-cB_3s3u-a2-m2-cA 3tm1-a2-m1-cA_3tm1-a2-m2-cB 3tm1-a2-m1-cB_3tm1-a2-m2-cA 3tm2-a3-m1-cA_3tm2-a3-m2-cB 3tm2-a5-m1-cA_3tm2-a5-m2-cB 3tm2-a5-m1-cB_3tm2-a5-m2-cA 4ihd-a3-m1-cB_4ihd-a3-m2-cA 4ihd-a3-m2-cB_4ihd-a3-m1-cA 4ihe-a3-m1-cA_4ihe-a3-m2-cB 4ihe-a3-m2-cA_4ihe-a3-m1-cB IGGVPGPHNGLTDVPGVRVGHAGRTGDGWLTGVTVVLAPPGGAVAAVDVRGGGPGTRETDALDPRNLVQTIDAVVLTGGSAFGLDAAGGVAAWLEEQGRGFPVGADPSQVVPVVPAAALFDLGRGGTWRARPDAALGRAAVEAAAARPEGDPVEQGGVGAGTGAVVGGLKGGIGTASVVLDSGATVAALAAVNAAGSAVDPATGVLYGARTGLPGEFAGYGVPDAIGADTHARARARLAEAAEETARRRAGGAATLNCTLAVVATDATLTRAQAQKLAGTAHDGLARAVRPVHLLSDGDTVFALSTGRRPLLPGVHLEAGALNEVLAAGADVLTRAVVHAVLAATGVDTPGGVHPSYRELYA GIGGVPGPHNGLTDVPGVRVGHAGRTGDGWLTGVTVVLAPPGGAVAAVDVRGGGPGTRETDALDPRNLVQTIDAVVLTGGSAFGLDAAGGVAAWLEEQGRGFPVGADPSQVVPVVPAAALFDLGRGGTWRARPDAALGRAAVEAAAARPEGDPVEQGGVGAGTGAVVGGLKGGIGTASVVLDSGATVAALAAVNAAGSAVDPATGVLYGARTGLPGEFAGYGVPDAIGADTHARARARLAEAAEETARRRAGGAATLNCTLAVVATDATLTRAQAQKLAGTAHDGLARAVRPVHLLSDGDTVFALSTGRRPLLPGVHLEAGALNEVLAAGADVLTRAVVHAVLAATGVDTPGGVHPSYRELYAR 3s3u-a2-m2-cB_3s3u-a2-m2-cA Crystal Structure of Uncleaved ThnT T282C Q83XN4 Q83XN4 1.6 X-RAY DIFFRACTION 87 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 362 364 3s3u-a1-m1-cB_3s3u-a1-m1-cA 3s3u-a2-m1-cB_3s3u-a2-m1-cA 3tm1-a1-m1-cA_3tm1-a1-m1-cB 3tm1-a2-m1-cA_3tm1-a2-m1-cB 3tm1-a2-m2-cA_3tm1-a2-m2-cB 3tm2-a1-m1-cA_3tm2-a1-m1-cB 3tm2-a5-m1-cA_3tm2-a5-m1-cB 3tm2-a5-m2-cA_3tm2-a5-m2-cB 4ihd-a3-m1-cB_4ihd-a3-m1-cA 4ihd-a3-m2-cB_4ihd-a3-m2-cA 4ihe-a3-m1-cA_4ihe-a3-m1-cB 4ihe-a3-m2-cA_4ihe-a3-m2-cB IGGVPGPHNGLTDVPGVRVGHAGRTGDGWLTGVTVVLAPPGGAVAAVDVRGGGPGTRETDALDPRNLVQTIDAVVLTGGSAFGLDAAGGVAAWLEEQGRGFPVGADPSQVVPVVPAAALFDLGRGGTWRARPDAALGRAAVEAAAARPEGDPVEQGGVGAGTGAVVGGLKGGIGTASVVLDSGATVAALAAVNAAGSAVDPATGVLYGARTGLPGEFAGYGVPDAIGADTHARARARLAEAAEETARRRAGGAATLNCTLAVVATDATLTRAQAQKLAGTAHDGLARAVRPVHLLSDGDTVFALSTGRRPLLPGVHLEAGALNEVLAAGADVLTRAVVHAVLAATGVDTPGGVHPSYRELYA GIGGVPGPHNGLTDVPGVRVGHAGRTGDGWLTGVTVVLAPPGGAVAAVDVRGGGPGTRETDALDPRNLVQTIDAVVLTGGSAFGLDAAGGVAAWLEEQGRGFPVGADPSQVVPVVPAAALFDLGRGGTWRARPDAALGRAAVEAAAARPEGDPVEQGGVGAGTGAVVGGLKGGIGTASVVLDSGATVAALAAVNAAGSAVDPATGVLYGARTGLPGEFAGYGVPDAIGADTHARARARLAEAAEETARRRAGGAATLNCTLAVVATDATLTRAQAQKLAGTAHDGLARAVRPVHLLSDGDTVFALSTGRRPLLPGVHLEAGALNEVLAAGADVLTRAVVHAVLAATGVDTPGGVHPSYRELYAR 3s46-a1-m1-cA_3s46-a1-m1-cB The crystal structure of alanine racemase from streptococcus pneumoniae P0A2W8 P0A2W8 2 X-RAY DIFFRACTION 240 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 365 365 MKASPHRPTKALIHLGAIRQNIQQMGAHIPQGTLKLAVVANAYGHGAVAVAKAIQDDVDGFCVSNIDEAIELRQAGLSKPILILGVSEIEAVALAKEYDFTLTVAGLEWIQALLDKEVDLTGLTVHLIDSGMGRIGFREASEVEQAQDLLQQHGVCVEGIFTHFATADEESDDYFNAQLERFKTILASMKEVPELVHASNSATTLWHVETIFNAVRMGDAMYGLNPSGAVLDLPYDLIPALTLESALVHVKTVPAGACMGYGATYQADSEQVIATVPIGYADGWTRDMQNFSVLVDGQACPIVGRVSMDQITIRLPKLYPLGTKVTLIGSNGDKEITATQVATYRVTINYEVVCLLSDRIPREYY MKASPHRPTKALIHLGAIRQNIQQMGAHIPQGTLKLAVVANAYGHGAVAVAKAIQDDVDGFCVSNIDEAIELRQAGLSKPILILGVSEIEAVALAKEYDFTLTVAGLEWIQALLDKEVDLTGLTVHLIDSGMGRIGFREASEVEQAQDLLQQHGVCVEGIFTHFATADEESDDYFNAQLERFKTILASMKEVPELVHASNSATTLWHVETIFNAVRMGDAMYGLNPSGAVLDLPYDLIPALTLESALVHVKTVPAGACMGYGATYQADSEQVIATVPIGYADGWTRDMQNFSVLVDGQACPIVGRVSMDQITIRLPKLYPLGTKVTLIGSNGDKEITATQVATYRVTINYEVVCLLSDRIPREYY 3s47-a2-m4-cA_3s47-a2-m4-cB Crystal structure of enolase superfamily member from Clostridium beijerincki complexed with Mg A6M2W4 A6M2W4 1.7 X-RAY DIFFRACTION 135 1.0 290402 (Clostridium beijerinckii NCIMB 8052) 290402 (Clostridium beijerinckii NCIMB 8052) 386 386 3gy1-a1-m1-cA_3gy1-a1-m1-cB 3gy1-a1-m2-cA_3gy1-a1-m2-cB 3gy1-a1-m3-cA_3gy1-a1-m3-cB 3gy1-a1-m4-cA_3gy1-a1-m4-cB 3s47-a1-m1-cA_3s47-a1-m1-cB 3s47-a2-m1-cA_3s47-a2-m1-cB 3s47-a2-m2-cA_3s47-a2-m2-cB 3s47-a2-m3-cA_3s47-a2-m3-cB SLEPTIITDVLCYITKPDRHNLVVVKVETNKGIYGLGCATFQQRPKAVSLVVSEYLKPILIGRDANNIEDLWQMMMVNSYWRNGPILNNAISGVDMALWDIKGKLANMPLYQLFGGKSRDAIAAYTHAVADNLEDLYTEIDEIRKKGYQHIRCQLGFHTTDNPTQGSYFDQDEYMRTTVSMFSSLREKYGYKFHILHDVHERLFPNQAVQFAKDVEKYKPYFIEDILPPDQNEWLGQIRSQTSTPLATGELFNNPMEWKSLIANRQVDFIRCHVSQIGGITPALKLGSLCAAFGVRIAWHTPSDITPIGVAVNIHLNINLHNAAIQENIEINDNTRCVFSGIPEAKNGFFYPIESPGIGVDIDENEIIKYPVETQSRIPDGTIVTP SLEPTIITDVLCYITKPDRHNLVVVKVETNKGIYGLGCATFQQRPKAVSLVVSEYLKPILIGRDANNIEDLWQMMMVNSYWRNGPILNNAISGVDMALWDIKGKLANMPLYQLFGGKSRDAIAAYTHAVADNLEDLYTEIDEIRKKGYQHIRCQLGFHTTDNPTQGSYFDQDEYMRTTVSMFSSLREKYGYKFHILHDVHERLFPNQAVQFAKDVEKYKPYFIEDILPPDQNEWLGQIRSQTSTPLATGELFNNPMEWKSLIANRQVDFIRCHVSQIGGITPALKLGSLCAAFGVRIAWHTPSDITPIGVAVNIHLNINLHNAAIQENIEINDNTRCVFSGIPEAKNGFFYPIESPGIGVDIDENEIIKYPVETQSRIPDGTIVTP 3s4b-a1-m1-cA_3s4b-a1-m1-cB Cellobiose phosphorylase from Cellulomonas uda in complex with glucose Q7WTR6 Q7WTR6 2.4 X-RAY DIFFRACTION 184 1.0 1714 (Cellulomonas uda) 1714 (Cellulomonas uda) 822 822 3rrs-a1-m1-cA_3rrs-a1-m1-cB 3rsy-a1-m1-cA_3rsy-a1-m1-cB 3s4a-a1-m1-cA_3s4a-a1-m1-cB 3s4c-a1-m1-cA_3s4c-a1-m2-cA 3s4d-a1-m1-cA_3s4d-a1-m2-cA MRYGHFDDEAREYVITTPHTPYPWINYLGSEQFFSLLSHQAGGYSFYRDAKMRRLTRYRYNNIPADAGGRYLYVNDGGDVWTPSWLPVKADLDHFEARHGLGYSTITGERNGVRVETLFFVPVGENAEVQKVTVTNTSDSYKSLTLFSFVEFCLWNAQDDQTNYQRNLSIGEVEVEQESPHGSAIYHRTEYRERRDHYAVFAVNTQAEGFDTDRDTFVGAYNSLGEAAVPLKGESANSVASGWYPIGSHSVAVSLAPGESRELVYVLGYVENPDEEKWADDAKQVVNKERAHALLSRFATSEQTDAAFAALKDYWTDLLSTYSVSSNDEKLDRMVNIWNQYQCMVTFNMSRSASFFETGIGRGMGFRDSNQDLLGFVHLIPERARERIIDIASTQFADGSAYHQYQPLTKRGNNDIGSGFNDDPLWLIAGTAAYIKETGDFSILDEPVPFDNEPGSEVPLFEHLTRSFEFTVTHRGPHGLPLIGRADWNDCLNLNCFSTTPGESFQTTENQAGGVAESTFIAAQFVLYGEQYAELAARRGLADVADRARGHVAEMRDALLTDGWDGSWFLRAYDYYGNPIGTDAHDEGKIWIEPQGFAVMAGVGVGEGPQDTDAPAIKALDSVNEMLATDHGMVLQYPAYTTYQVHMGEVSTYPPGYKENGGIFCHNNPWVIIAETVVGRGGRAFDYYKRITPAYREDISDVHRLEPYVYAQMIAGKEAVRHGEAKNSWLTGTAAWNFVTVSQYLLGVRPEYDGLVVDPQIGPDVPSFTVTRVARGATYEITVTNSGTDGSRGRLVVDGTPVEGNLVPYAPAGSTVRVDVTL MRYGHFDDEAREYVITTPHTPYPWINYLGSEQFFSLLSHQAGGYSFYRDAKMRRLTRYRYNNIPADAGGRYLYVNDGGDVWTPSWLPVKADLDHFEARHGLGYSTITGERNGVRVETLFFVPVGENAEVQKVTVTNTSDSYKSLTLFSFVEFCLWNAQDDQTNYQRNLSIGEVEVEQESPHGSAIYHRTEYRERRDHYAVFAVNTQAEGFDTDRDTFVGAYNSLGEAAVPLKGESANSVASGWYPIGSHSVAVSLAPGESRELVYVLGYVENPDEEKWADDAKQVVNKERAHALLSRFATSEQTDAAFAALKDYWTDLLSTYSVSSNDEKLDRMVNIWNQYQCMVTFNMSRSASFFETGIGRGMGFRDSNQDLLGFVHLIPERARERIIDIASTQFADGSAYHQYQPLTKRGNNDIGSGFNDDPLWLIAGTAAYIKETGDFSILDEPVPFDNEPGSEVPLFEHLTRSFEFTVTHRGPHGLPLIGRADWNDCLNLNCFSTTPGESFQTTENQAGGVAESTFIAAQFVLYGEQYAELAARRGLADVADRARGHVAEMRDALLTDGWDGSWFLRAYDYYGNPIGTDAHDEGKIWIEPQGFAVMAGVGVGEGPQDTDAPAIKALDSVNEMLATDHGMVLQYPAYTTYQVHMGEVSTYPPGYKENGGIFCHNNPWVIIAETVVGRGGRAFDYYKRITPAYREDISDVHRLEPYVYAQMIAGKEAVRHGEAKNSWLTGTAAWNFVTVSQYLLGVRPEYDGLVVDPQIGPDVPSFTVTRVARGATYEITVTNSGTDGSRGRLVVDGTPVEGNLVPYAPAGSTVRVDVTL 3s4k-a2-m1-cA_3s4k-a2-m2-cB Structure of a putative esterase Rv1847/MT1895 from Mycobacterium tuberculosis P9WIM3 P9WIM3 1.7 X-RAY DIFFRACTION 15 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 124 124 3s4k-a2-m1-cB_3s4k-a2-m2-cA VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP 3s4k-a2-m2-cA_3s4k-a2-m2-cB Structure of a putative esterase Rv1847/MT1895 from Mycobacterium tuberculosis P9WIM3 P9WIM3 1.7 X-RAY DIFFRACTION 117 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 124 124 3s4k-a1-m1-cA_3s4k-a1-m1-cB 3s4k-a2-m1-cA_3s4k-a2-m1-cB VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP 3s4k-a3-m2-cA_3s4k-a3-m4-cB Structure of a putative esterase Rv1847/MT1895 from Mycobacterium tuberculosis P9WIM3 P9WIM3 1.7 X-RAY DIFFRACTION 13 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 124 124 3s4k-a3-m1-cA_3s4k-a3-m3-cB VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP 3s4k-a3-m3-cB_3s4k-a3-m4-cB Structure of a putative esterase Rv1847/MT1895 from Mycobacterium tuberculosis P9WIM3 P9WIM3 1.7 X-RAY DIFFRACTION 14 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 124 124 3s4k-a2-m1-cA_3s4k-a2-m2-cA 3s4k-a2-m1-cB_3s4k-a2-m2-cB 3s4k-a3-m1-cA_3s4k-a3-m2-cA VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP VPFDSELGLQFTELGPDGARAQLDVRPKLLQLTGVVHGGVYCAMIESIASMAAFAWLNSEGGSVVGVNNNTDFVRSISSGMVYGTAEPLHRGRRQQLWLVTITDDTDRVVARGQVRLQNLEARP 3s4r-a1-m1-cA_3s4r-a1-m1-cB Crystal structure of vimentin coil1A/1B fragment with a stabilizing mutation P08670 P08670 2.452 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 91 NEKVELQELNDRFANLIDKVRFLEQQNKILLAELEQLKGQGKSRLGDLYEEEMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKL TRTNEKVELQELNDRFANLIDKVRFLEQQNKILLAELEQLKGQGKSRLGDLYEEEMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKL 3s4u-a1-m1-cA_3s4u-a1-m2-cA Crystal structure of open, unliganded E. coli PhnD H157A Q1R3F7 Q1R3F7 3.3 X-RAY DIFFRACTION 52 1.0 364106 (Escherichia coli UTI89) 364106 (Escherichia coli UTI89) 302 302 KALNFGIISTESQQNLKPQWTPFLQDMEKKLGVKVNAFFAPDYAGIIQGMRFNKVDIAWYGNLSAMEAVDRANGQVFAQTVAADGSPGYWSVLIVNKDSPINNLNDLLAKRKDLTFGNGDPNSTSGFLVPGYYVFAKNNISASDFKRTVNAGAETNALAVANKQVDVATNNTENLDKLKTSAPEKLKELKVIWKSPLIPGDPIVWRKNLSETTKDKIYDFFMNYGKTPEEKAVLERLGWAPFRASSDLQLVPIRQLALFKEMQSVKDNKGLNEQDKLAKTTAIQAQLDDLDRLNNALSAMSS KALNFGIISTESQQNLKPQWTPFLQDMEKKLGVKVNAFFAPDYAGIIQGMRFNKVDIAWYGNLSAMEAVDRANGQVFAQTVAADGSPGYWSVLIVNKDSPINNLNDLLAKRKDLTFGNGDPNSTSGFLVPGYYVFAKNNISASDFKRTVNAGAETNALAVANKQVDVATNNTENLDKLKTSAPEKLKELKVIWKSPLIPGDPIVWRKNLSETTKDKIYDFFMNYGKTPEEKAVLERLGWAPFRASSDLQLVPIRQLALFKEMQSVKDNKGLNEQDKLAKTTAIQAQLDDLDRLNNALSAMSS 3s4x-a2-m1-cA_3s4x-a2-m2-cA Crystal structure of the Asn152Gly mutant of P99 beta-lactamase P05364 P05364 1.95 X-RAY DIFFRACTION 17 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 367 367 TPVSEKQLAEVVANTVTPLMKAQSVPGMAVAVIYQGKPHYYTFGKADIAANKPVTPQTLFELGSISKTFTGVLGGDAIARGEISLDDPVTRYWPQLTGKQWQGIRMLDLATYTAGGLPLQVPDEVTDNASLLRFYQNWQPQWKPGTTRLYAGASIGLFGALAVKPSGMPYEQAMTTRVLKPLKLDHTWINVPKAEEAHYAWGYRDGKAVRVSPGMLDAQAYGVKTNVQDMANWVMANMAPENVADASLKQGIALAQSRYWRIGSMYQGLGWEMLNWPVEANTVVEGSDSKVALAPLPVVEVNPPAPPVKASWVHKTGSTGGFGSYVAFIPEKQIGIVMLANTSYPNPARVEAAYHILEALQHHHHHH TPVSEKQLAEVVANTVTPLMKAQSVPGMAVAVIYQGKPHYYTFGKADIAANKPVTPQTLFELGSISKTFTGVLGGDAIARGEISLDDPVTRYWPQLTGKQWQGIRMLDLATYTAGGLPLQVPDEVTDNASLLRFYQNWQPQWKPGTTRLYAGASIGLFGALAVKPSGMPYEQAMTTRVLKPLKLDHTWINVPKAEEAHYAWGYRDGKAVRVSPGMLDAQAYGVKTNVQDMANWVMANMAPENVADASLKQGIALAQSRYWRIGSMYQGLGWEMLNWPVEANTVVEGSDSKVALAPLPVVEVNPPAPPVKASWVHKTGSTGGFGSYVAFIPEKQIGIVMLANTSYPNPARVEAAYHILEALQHHHHHH 3s4y-a1-m1-cB_3s4y-a1-m2-cB Crystal structure of human thiamin pyrophosphokinase 1 Q9H3S4 Q9H3S4 1.8 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 3s4y-a1-m1-cA_3s4y-a1-m2-cA NLKYCLVILNQPLDNYFRHLWNKALLRACADGGANRLYDITEGERESFLPEFINGDFDSIRPEVREYYATKGCELISTPDQDHTDFTKCLKMLQKKIEEKDLKVDVIVTLGGLAGRFDQIMASVNTLFQATHITPFPIIIIQEESLIYLLQPGKHRLHVMEGDWCGLIPVGQPCMQVTTTGLKWNLTNDVLAFGTLVSTSNTYDGSGVVTVETDHPLLWTMAIK NLKYCLVILNQPLDNYFRHLWNKALLRACADGGANRLYDITEGERESFLPEFINGDFDSIRPEVREYYATKGCELISTPDQDHTDFTKCLKMLQKKIEEKDLKVDVIVTLGGLAGRFDQIMASVNTLFQATHITPFPIIIIQEESLIYLLQPGKHRLHVMEGDWCGLIPVGQPCMQVTTTGLKWNLTNDVLAFGTLVSTSNTYDGSGVVTVETDHPLLWTMAIK 3s4y-a1-m2-cA_3s4y-a1-m2-cB Crystal structure of human thiamin pyrophosphokinase 1 Q9H3S4 Q9H3S4 1.8 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 3s4y-a1-m1-cA_3s4y-a1-m1-cB NLKYCLVILNQPLDNYFRHLWNKALLRACADGGANRLYDITEGERESFLPEFINGDFDSIRPEVREYYATKGCELISTPDQDHTDFTKCLKMLQKKIEEKDLKVDVIVTLGGLAGRFDQIMASVNTLFQATHITPFPIIIIQEESLIYLLQPGKHRLHVMEGDWCGLIPVGQPCMQVTTTGLKWNLTNDVLAFGTLVSTSNTYDGSGVVTVETDHPLLWTMAIK NLKYCLVILNQPLDNYFRHLWNKALLRACADGGANRLYDITEGERESFLPEFINGDFDSIRPEVREYYATKGCELISTPDQDHTDFTKCLKMLQKKIEEKDLKVDVIVTLGGLAGRFDQIMASVNTLFQATHITPFPIIIIQEESLIYLLQPGKHRLHVMEGDWCGLIPVGQPCMQVTTTGLKWNLTNDVLAFGTLVSTSNTYDGSGVVTVETDHPLLWTMAIK 3s51-a7-m1-cD_3s51-a7-m1-cA Structure of FANCI Q8K368 Q8K368 3.3 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1034 1134 3s51-a7-m1-cB_3s51-a7-m1-cC PGPLLVDLASDFVGAVREDRLVNGKSLELLPIILTALATKKEVLACGKGDLNGEEYKRQLIDTLCSVRWPQRYMIQLTSVFKDVCLTPEEMNLVVAKVLTMFSKLNLQEIPPLVYQLLVLSSKGSRRSVLDGIIAFFRELDKQHREEQSSTAPADELYHVEGTVILHIVFAIKLDCELGRELLKHLKAGQQGDPSKCLCPFSIALLLSLTRIQRFEEQVFDLLKTSVVKSFKDLQLLQGSKFLQTLVPQRTCVSTMILEVVRNSVHSWDHVTQGLIEFGFILMDSYGPKKILDGSKMTNQHACKLGANILLETFKIHEMIRQEILEQVLNRVVTRTSSPINHFLDLFSDIIMYAPLILQNCSKVTETFDYLTFLPLQTVQGLLKAVQPLLKISMSMRDSLILVLRKAMFASQLDARKSAVAGFLLLLKNFKVLGSLPVTQVRVDVHSRYSAVANETFCLEIIDSLKRSLGQQADIRLMLYDGFYDVLRRNSQLASSIMQTLFSQLKQFYEPEPDLLPPLKLGACVLTQGSQIFLQEPLDHLLSCIQHCLAWYKSRVVPEEEEELYSELDDMLESITVRMIKNTNVGIKNNICACLIMGVCEVLMEYNFSISNFSKSKFEEILSLFTCYKKFSDILKVSDSLLSLKFVSDLLTALFRDSIQSHEESLSVLRSSGEFMHYAVNVTLQKIQQLIRTGHVSGPDGQNPDKIFQNLCDITRVLLWRYTSSISLLCLEGLQKTFSVVLQFYQPKVQQFLQALDVTVTQRASFQIRQFQRSLLNLLSSEEDDFNSKEALLLIAVLSTLSRLLEPTSPQFVQMLSWTSKICKEYSQEDASFCKSLMNLFFSLHVLYKSPVTLLRDLSQDIHGQLGDIVVNLRTAAPTVCLLVLSQAEKVLEEVDWLIAKIKGSAPTLLIEKAIVMQLGTLVTFFHELVQTALPSGSCVDTLLKGLSKIYSTLTAFVKYYLQVCQSSGIPNTVEKLVKLSGSHLTPVCYSFISYVQNKSSPIPNLVFAIEQYEKFLIQLSKKSKVNLMQHMKL MDLKILSLATDKTTDKLQEFLQTLKDDDLASLLQNQAVKGRAVGTLLRAVLKGSPCSEEDGALRRYKIYSCCIQLVESGDLQQDVASEIIGLLMLEVHHFPGPLLVDLASDFVGAVREDRLVNGKSLELLPIILTALATKKEVLACGKGDLNGEEYKRQLIDTLCSVRWPQRYMIQLTSVFKDVCLTPEEMNLVVAKVLTMFSKLNLQEIPPLVYQLLVLSSKGSRRSVLDGIIAFFRELDKQHREEQSSTAPADELYHVEGTVILHIVFAIKLDCELGRELLKHLKAGQQGDPSKCLCPFSIALLLSLTRIQRFEEQVFDLLKTSVVKSFKDLQLLQGSKFLQTLVPQRTCVSTMILEVVRNSVHSWDHVTQGLIEFGFILMDSYGPKKILDGSKMTNQHACKLGANILLETFKIHEMIRQEILEQVLNRVVTRTSSPINHFLDLFSDIIMYAPLILQNCSKVTETFDYLTFLPLQTVQGLLKAVQPLLKISMSMRDSLILVLRKAMFASQLDARKSAVAGFLLLLKNFKVLGSLPVTQVRVDVHSRYSAVANETFCLEIIDSLKRSLGQQADIRLMLYDGFYDVLRRNSQLASSIMQTLFSQLKQFYEPEPDLLPPLKLGACVLTQGSQIFLQEPLDHLLSCIQHCLAWYKSRVVPEEEEELYSELDDMLESITVRMIKNTNVGIKNNICACLIMGVCEVLMEYNFSISNFSKSKFEEILSLFTCYKKFSDILKVSDSLLSLKFVSDLLTALFRDSIQSHEESLSVLRSSGEFMHYAVNVTLQKIQQLIRTGHVSGPDGQNPDKIFQNLCDITRVLLWRYTSSISLLCLEGLQKTFSVVLQFYQPKVQQFLQALDVTVTQRASFQIRQFQRSLLNLLSSEEDDFNSKEALLLIAVLSTLSRLLEPTSPQFVQMLSWTSKICKEYSQEDASFCKSLMNLFFSLHVLYKSPVTLLRDLSQDIHGQLGDIVVNLRTAAPTVCLLVLSQAEKVLEEVDWLIAKIKGSAPTLLIEKAIVMQLGTLVTFFHELVQTALPSGSCVDTLLKGLSKIYSTLTAFVKYYLQVCQSSGIPNTVEKLVKLSGSHLTPVCYSFISYVQNKSSPIPNLVFAIEQYEKFLIQLSKKSKVNLMQHMKL 3s51-a7-m1-cD_3s51-a7-m1-cB Structure of FANCI Q8K368 Q8K368 3.3 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1034 1071 3s51-a7-m1-cA_3s51-a7-m1-cC PGPLLVDLASDFVGAVREDRLVNGKSLELLPIILTALATKKEVLACGKGDLNGEEYKRQLIDTLCSVRWPQRYMIQLTSVFKDVCLTPEEMNLVVAKVLTMFSKLNLQEIPPLVYQLLVLSSKGSRRSVLDGIIAFFRELDKQHREEQSSTAPADELYHVEGTVILHIVFAIKLDCELGRELLKHLKAGQQGDPSKCLCPFSIALLLSLTRIQRFEEQVFDLLKTSVVKSFKDLQLLQGSKFLQTLVPQRTCVSTMILEVVRNSVHSWDHVTQGLIEFGFILMDSYGPKKILDGSKMTNQHACKLGANILLETFKIHEMIRQEILEQVLNRVVTRTSSPINHFLDLFSDIIMYAPLILQNCSKVTETFDYLTFLPLQTVQGLLKAVQPLLKISMSMRDSLILVLRKAMFASQLDARKSAVAGFLLLLKNFKVLGSLPVTQVRVDVHSRYSAVANETFCLEIIDSLKRSLGQQADIRLMLYDGFYDVLRRNSQLASSIMQTLFSQLKQFYEPEPDLLPPLKLGACVLTQGSQIFLQEPLDHLLSCIQHCLAWYKSRVVPEEEEELYSELDDMLESITVRMIKNTNVGIKNNICACLIMGVCEVLMEYNFSISNFSKSKFEEILSLFTCYKKFSDILKVSDSLLSLKFVSDLLTALFRDSIQSHEESLSVLRSSGEFMHYAVNVTLQKIQQLIRTGHVSGPDGQNPDKIFQNLCDITRVLLWRYTSSISLLCLEGLQKTFSVVLQFYQPKVQQFLQALDVTVTQRASFQIRQFQRSLLNLLSSEEDDFNSKEALLLIAVLSTLSRLLEPTSPQFVQMLSWTSKICKEYSQEDASFCKSLMNLFFSLHVLYKSPVTLLRDLSQDIHGQLGDIVVNLRTAAPTVCLLVLSQAEKVLEEVDWLIAKIKGSAPTLLIEKAIVMQLGTLVTFFHELVQTALPSGSCVDTLLKGLSKIYSTLTAFVKYYLQVCQSSGIPNTVEKLVKLSGSHLTPVCYSFISYVQNKSSPIPNLVFAIEQYEKFLIQLSKKSKVNLMQHMKL RRYKIYSCCIQLVESGDLQQDVASEIIGLLMLEVHHFPGPLLVDLASDFVGAVREDRLVNGKSLELLPIILTALATKKEVLACGKGDLNGEEYKRQLIDTLCSVRWPQRYMIQLTSVFKDVCLTPEEMNLVVAKVLTMFSKLNLQEIPPLVYQLLVLSSKGSRRSVLDGIIAFFRELDKQHREEQSSTAPADELYHVEGTVILHIVFAIKLDCELGRELLKHLKAGQQGDPSKCLCPFSIALLLSLTRIQRFEEQVFDLLKTSVVKSFKDLQLLQGSKFLQTLVPQRTCVSTMILEVVRNSVHSWDHVTQGLIEFGFILMDSYGPKKILDGSKMTNQHACKLGANILLETFKIHEMIRQEILEQVLNRVVTRTSSPINHFLDLFSDIIMYAPLILQNCSKVTETFDYLTFLPLQTVQGLLKAVQPLLKISMSMRDSLILVLRKAMFASQLDARKSAVAGFLLLLKNFKVLGSLPVTQVRVDVHSRYSAVANETFCLEIIDSLKRSLGQQADIRLMLYDGFYDVLRRNSQLASSIMQTLFSQLKQFYEPEPDLLPPLKLGACVLTQGSQIFLQEPLDHLLSCIQHCLAWYKSRVVPEEEEELYSELDDMLESITVRMIKNTNVGIKNNICACLIMGVCEVLMEYNFSISNFSKSKFEEILSLFTCYKKFSDILKVSDSLLSLKFVSDLLTALFRDSIQSHEESLSVLRSSGEFMHYAVNVTLQKIQQLIRTGHVSGPDGQNPDKIFQNLCDITRVLLWRYTSSISLLCLEGLQKTFSVVLQFYQPKVQQFLQALDVTVTQRASFQIRQFQRSLLNLLSSEEDDFNSKEALLLIAVLSTLSRLLEPTSPQFVQMLSWTSKICKEYSQEDASFCKSLMNLFFSLHVLYKSPVTLLRDLSQDIHGQLGDIVVNLRTAAPTVCLLVLSQAEKVLEEVDWLIAKIKGSAPTLLIEKAIVMQLGTLVTFFHELVQTALPSGSCVDTLLKGLSKIYSTLTAFVKYYLQVCQSSGIPNTVEKLVKLSGSHLTPVCYSFISYVQNKSSPIPNLVFAIEQYEKFLIQLSKKSKVNLMQHMKL 3s51-a7-m1-cD_3s51-a7-m1-cC Structure of FANCI Q8K368 Q8K368 3.3 X-RAY DIFFRACTION 103 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1034 1134 3s51-a5-m1-cB_3s51-a5-m1-cA 3s51-a6-m1-cD_3s51-a6-m1-cC 3s51-a7-m1-cB_3s51-a7-m1-cA PGPLLVDLASDFVGAVREDRLVNGKSLELLPIILTALATKKEVLACGKGDLNGEEYKRQLIDTLCSVRWPQRYMIQLTSVFKDVCLTPEEMNLVVAKVLTMFSKLNLQEIPPLVYQLLVLSSKGSRRSVLDGIIAFFRELDKQHREEQSSTAPADELYHVEGTVILHIVFAIKLDCELGRELLKHLKAGQQGDPSKCLCPFSIALLLSLTRIQRFEEQVFDLLKTSVVKSFKDLQLLQGSKFLQTLVPQRTCVSTMILEVVRNSVHSWDHVTQGLIEFGFILMDSYGPKKILDGSKMTNQHACKLGANILLETFKIHEMIRQEILEQVLNRVVTRTSSPINHFLDLFSDIIMYAPLILQNCSKVTETFDYLTFLPLQTVQGLLKAVQPLLKISMSMRDSLILVLRKAMFASQLDARKSAVAGFLLLLKNFKVLGSLPVTQVRVDVHSRYSAVANETFCLEIIDSLKRSLGQQADIRLMLYDGFYDVLRRNSQLASSIMQTLFSQLKQFYEPEPDLLPPLKLGACVLTQGSQIFLQEPLDHLLSCIQHCLAWYKSRVVPEEEEELYSELDDMLESITVRMIKNTNVGIKNNICACLIMGVCEVLMEYNFSISNFSKSKFEEILSLFTCYKKFSDILKVSDSLLSLKFVSDLLTALFRDSIQSHEESLSVLRSSGEFMHYAVNVTLQKIQQLIRTGHVSGPDGQNPDKIFQNLCDITRVLLWRYTSSISLLCLEGLQKTFSVVLQFYQPKVQQFLQALDVTVTQRASFQIRQFQRSLLNLLSSEEDDFNSKEALLLIAVLSTLSRLLEPTSPQFVQMLSWTSKICKEYSQEDASFCKSLMNLFFSLHVLYKSPVTLLRDLSQDIHGQLGDIVVNLRTAAPTVCLLVLSQAEKVLEEVDWLIAKIKGSAPTLLIEKAIVMQLGTLVTFFHELVQTALPSGSCVDTLLKGLSKIYSTLTAFVKYYLQVCQSSGIPNTVEKLVKLSGSHLTPVCYSFISYVQNKSSPIPNLVFAIEQYEKFLIQLSKKSKVNLMQHMKL MDLKILSLATDKTTDKLQEFLQTLKDDDLASLLQNQAVKGRAVGTLLRAVLKGSPCSEEDGALRRYKIYSCCIQLVESGDLQQDVASEIIGLLMLEVHHFPGPLLVDLASDFVGAVREDRLVNGKSLELLPIILTALATKKEVLACGKGDLNGEEYKRQLIDTLCSVRWPQRYMIQLTSVFKDVCLTPEEMNLVVAKVLTMFSKLNLQEIPPLVYQLLVLSSKGSRRSVLDGIIAFFRELDKQHREEQSSTAPADELYHVEGTVILHIVFAIKLDCELGRELLKHLKAGQQGDPSKCLCPFSIALLLSLTRIQRFEEQVFDLLKTSVVKSFKDLQLLQGSKFLQTLVPQRTCVSTMILEVVRNSVHSWDHVTQGLIEFGFILMDSYGPKKILDGSKMTNQHACKLGANILLETFKIHEMIRQEILEQVLNRVVTRTSSPINHFLDLFSDIIMYAPLILQNCSKVTETFDYLTFLPLQTVQGLLKAVQPLLKISMSMRDSLILVLRKAMFASQLDARKSAVAGFLLLLKNFKVLGSLPVTQVRVDVHSRYSAVANETFCLEIIDSLKRSLGQQADIRLMLYDGFYDVLRRNSQLASSIMQTLFSQLKQFYEPEPDLLPPLKLGACVLTQGSQIFLQEPLDHLLSCIQHCLAWYKSRVVPEEEEELYSELDDMLESITVRMIKNTNVGIKNNICACLIMGVCEVLMEYNFSISNFSKSKFEEILSLFTCYKKFSDILKVSDSLLSLKFVSDLLTALFRDSIQSHEESLSVLRSSGEFMHYAVNVTLQKIQQLIRTGHVSGPDGQNPDKIFQNLCDITRVLLWRYTSSISLLCLEGLQKTFSVVLQFYQPKVQQFLQALDVTVTQRASFQIRQFQRSLLNLLSSEEDDFNSKEALLLIAVLSTLSRLLEPTSPQFVQMLSWTSKICKEYSQEDASFCKSLMNLFFSLHVLYKSPVTLLRDLSQDIHGQLGDIVVNLRTAAPTVCLLVLSQAEKVLEEVDWLIAKIKGSAPTLLIEKAIVMQLGTLVTFFHELVQTALPSGSCVDTLLKGLSKIYSTLTAFVKYYLQVCQSSGIPNTVEKLVKLSGSHLTPVCYSFISYVQNKSSPIPNLVFAIEQYEKFLIQLSKKSKVNLMQHMKL 3s52-a2-m1-cB_3s52-a2-m1-cC Crystal structure of a putative fumarylacetoacetate hydrolase family protein from Yersinia pestis CO92 Q8D0F9 Q8D0F9 2.012 X-RAY DIFFRACTION 83 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 205 211 3s52-a1-m1-cD_3s52-a1-m1-cA YQHRDWQGALLDFPVNKVVCVGSNYAEHISVEPVLFIKPETALCDIRQPVSIPKDFGSVHHEIELAVLIGTPLKQASEDRVARAIAGYGVALDLTLRELQAGFKKAGQPWEKAKAFDGSCPISGFIPVAEFGDAQQADLSLTINGEIRQQGNTRDITPIIPLISYSRFFTLRAGDIVLTGTPQGVGPQSGDLKILNGKTVNTRII YQHRDWQGALLDFPVNKVVCVGSNYAEHIKEGSTASVEPVLFIKPETALCDIRQPVSIPKDFGSVHHEIELAVLIGTPLKQASEDRVARAIAGYGVALDLTLRELQAGFKKAGQPWEKAKAFDGSCPISGFIPVAEFGDAQQADLSLTINGEIRQQGNTRDITPIIPLISYSRFFTLRAGDIVLTGTPQGVGPQSGDLKILNGKTVNTRII 3s55-a2-m1-cE_3s55-a2-m1-cG Crystal structure of a putative short-chain dehydrogenase/reductase from Mycobacterium abscessus bound to NAD B1MLR7 B1MLR7 2.1 X-RAY DIFFRACTION 23 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 266 269 3s55-a1-m1-cA_3s55-a1-m1-cC 3s55-a1-m1-cB_3s55-a1-m1-cD 3s55-a2-m1-cH_3s55-a2-m1-cF ADFEGKTALITGGARGMGRSHAVALAEAGADIAICDRCENSDVVGYPLATADDLAETVALVEKTGRRCISAKVDVKDRAALESFVAEAEDTLGGIDIAITNAGISTIALLPEVESAQWDEVIGTNLTGTFNTIAAVAPGMIKRNYGRIVTVSSMLGHSANFAQASYVSSKWGVIGLTKCAAHDLVGYGITVNAVAPGNIETPMTHNDFVFGTKDVESVFASLHLQYAPFLKPEEVTRAVLFLVDEASSHITGTVLPIDAGATARMI ADFEGKTALITGGARGMGRSHAVALAEAGADIAICDRCENSDVVGYPLATADDLAETVALVEKTGRRCISAKVDVKDRAALESFVAEAEDTLGGIDIAITNAGISTIALLPEVESAQWDEVIGTNLTGTFNTIAAVAPGMIKRNYGRIVTVSSMLGHSANFAQASYVSSKWGVIGLTKCAAHDLVGYGITVNAVAPGNIETPMTHNDFVFGTPTLKDVESVFASLHLQYAPFLKPEEVTRAVLFLVDEASSHITGTVLPIDAGATARMI 3s55-a2-m1-cE_3s55-a2-m1-cH Crystal structure of a putative short-chain dehydrogenase/reductase from Mycobacterium abscessus bound to NAD B1MLR7 B1MLR7 2.1 X-RAY DIFFRACTION 92 0.996 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 266 271 3s55-a1-m1-cA_3s55-a1-m1-cD 3s55-a1-m1-cC_3s55-a1-m1-cB 3s55-a2-m1-cG_3s55-a2-m1-cF ADFEGKTALITGGARGMGRSHAVALAEAGADIAICDRCENSDVVGYPLATADDLAETVALVEKTGRRCISAKVDVKDRAALESFVAEAEDTLGGIDIAITNAGISTIALLPEVESAQWDEVIGTNLTGTFNTIAAVAPGMIKRNYGRIVTVSSMLGHSANFAQASYVSSKWGVIGLTKCAAHDLVGYGITVNAVAPGNIETPMTHNDFVFGTKDVESVFASLHLQYAPFLKPEEVTRAVLFLVDEASSHITGTVLPIDAGATARMI DFEGKTALITGGARGMGRSHAVALAEAGADIAICDRCENSDVVGYPLATADDLAETVALVEKTGRRCISAKVDVKDRAALESFVAEAEDTLGGIDIAITNAGISTIALLPEVESAQWDEVIGTNLTGTFNTIAAVAPGMIKRNYGRIVTVSSMLGHSANFAQASYVSSKWGVIGLTKCAAHDLVGYGITVNAVAPGNIETPMTHNDFVFGTMRPPTLKDVESVFASLHLQYAPFLKPEEVTRAVLFLVDEASSHITGTVLPIDAGATARMI 3s55-a2-m1-cG_3s55-a2-m1-cH Crystal structure of a putative short-chain dehydrogenase/reductase from Mycobacterium abscessus bound to NAD B1MLR7 B1MLR7 2.1 X-RAY DIFFRACTION 125 0.996 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 269 271 3s55-a1-m1-cA_3s55-a1-m1-cB 3s55-a1-m1-cC_3s55-a1-m1-cD 3s55-a2-m1-cE_3s55-a2-m1-cF ADFEGKTALITGGARGMGRSHAVALAEAGADIAICDRCENSDVVGYPLATADDLAETVALVEKTGRRCISAKVDVKDRAALESFVAEAEDTLGGIDIAITNAGISTIALLPEVESAQWDEVIGTNLTGTFNTIAAVAPGMIKRNYGRIVTVSSMLGHSANFAQASYVSSKWGVIGLTKCAAHDLVGYGITVNAVAPGNIETPMTHNDFVFGTPTLKDVESVFASLHLQYAPFLKPEEVTRAVLFLVDEASSHITGTVLPIDAGATARMI DFEGKTALITGGARGMGRSHAVALAEAGADIAICDRCENSDVVGYPLATADDLAETVALVEKTGRRCISAKVDVKDRAALESFVAEAEDTLGGIDIAITNAGISTIALLPEVESAQWDEVIGTNLTGTFNTIAAVAPGMIKRNYGRIVTVSSMLGHSANFAQASYVSSKWGVIGLTKCAAHDLVGYGITVNAVAPGNIETPMTHNDFVFGTMRPPTLKDVESVFASLHLQYAPFLKPEEVTRAVLFLVDEASSHITGTVLPIDAGATARMI 3s5c-a1-m2-cB_3s5c-a1-m3-cB Crystal Structure of a Hexachlorocyclohexane dehydrochlorinase (LinA) Type2 B5ANU3 B5ANU3 3.5 X-RAY DIFFRACTION 63 1.0 155900 (uncultured organism) 155900 (uncultured organism) 148 148 3a76-a1-m1-cA_3a76-a1-m1-cB 3a76-a1-m1-cA_3a76-a1-m1-cC 3a76-a1-m1-cC_3a76-a1-m1-cB 3s5c-a1-m1-cB_3s5c-a1-m2-cB 3s5c-a1-m1-cB_3s5c-a1-m3-cB 3s5c-a2-m1-cA_3s5c-a2-m1-cC 3s5c-a2-m1-cA_3s5c-a2-m1-cE 3s5c-a2-m1-cC_3s5c-a2-m1-cE 3s5c-a3-m1-cF_3s5c-a3-m1-cD 3s5c-a3-m1-cF_3s5c-a3-m1-cG 3s5c-a3-m1-cG_3s5c-a3-m1-cD 5kvb-a1-m1-cA_5kvb-a1-m2-cA 5kvb-a1-m1-cA_5kvb-a1-m3-cA 5kvb-a1-m2-cA_5kvb-a1-m3-cA SDLDRLASRAAIQDLYSDQLIGVDKRQEGRLASIWWDDAEWTIEGIGTYKGPEGALDLANNVLWPMYHETIHYGTNLRLEFVSADKVNGIGDVLCLGNLVEGNQSILIAAVYTNEYERRDGVWKFSKLNGCMNYFTPLAGIHFAPPGI SDLDRLASRAAIQDLYSDQLIGVDKRQEGRLASIWWDDAEWTIEGIGTYKGPEGALDLANNVLWPMYHETIHYGTNLRLEFVSADKVNGIGDVLCLGNLVEGNQSILIAAVYTNEYERRDGVWKFSKLNGCMNYFTPLAGIHFAPPGI 3s5o-a1-m1-cA_3s5o-a1-m4-cA Crystal Structure of Human 4-hydroxy-2-oxoglutarate Aldolase Bound to Pyruvate Q86XE5 Q86XE5 1.97 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 295 3s5n-a1-m1-cA_3s5n-a1-m4-cA 3s5n-a1-m2-cA_3s5n-a1-m3-cA 3s5o-a1-m2-cA_3s5o-a1-m3-cA KVDIAGIYPPVTTPFTATAEVDYGKLEENLHKLGTFPFRGFVVQGSNGEFPFLTSSERLEVVSRVRQAMPKNRLLLAGSGCESTQATVEMTVSMAQVGADAAMVVTPCYYRGRMSSAALIHHYTKVADLSPIPVVLYSVPANTGLDLPVDAVVTLSQHPNIVGMDSGGDVTRIGLIVHKTRKQDFQVLAGSAGFLMASYALGAVGGVCALANVLGAQVCQLERLCCTGQWEDAQKLQHRLIEPNAAVTRRFGIPGLKKIMDWFGYYGGPCRAPLQELSPAEEEALRMDFTSNGWL KVDIAGIYPPVTTPFTATAEVDYGKLEENLHKLGTFPFRGFVVQGSNGEFPFLTSSERLEVVSRVRQAMPKNRLLLAGSGCESTQATVEMTVSMAQVGADAAMVVTPCYYRGRMSSAALIHHYTKVADLSPIPVVLYSVPANTGLDLPVDAVVTLSQHPNIVGMDSGGDVTRIGLIVHKTRKQDFQVLAGSAGFLMASYALGAVGGVCALANVLGAQVCQLERLCCTGQWEDAQKLQHRLIEPNAAVTRRFGIPGLKKIMDWFGYYGGPCRAPLQELSPAEEEALRMDFTSNGWL 3s5o-a1-m3-cA_3s5o-a1-m4-cA Crystal Structure of Human 4-hydroxy-2-oxoglutarate Aldolase Bound to Pyruvate Q86XE5 Q86XE5 1.97 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 295 3s5n-a1-m1-cA_3s5n-a1-m2-cA 3s5n-a1-m3-cA_3s5n-a1-m4-cA 3s5o-a1-m1-cA_3s5o-a1-m2-cA KVDIAGIYPPVTTPFTATAEVDYGKLEENLHKLGTFPFRGFVVQGSNGEFPFLTSSERLEVVSRVRQAMPKNRLLLAGSGCESTQATVEMTVSMAQVGADAAMVVTPCYYRGRMSSAALIHHYTKVADLSPIPVVLYSVPANTGLDLPVDAVVTLSQHPNIVGMDSGGDVTRIGLIVHKTRKQDFQVLAGSAGFLMASYALGAVGGVCALANVLGAQVCQLERLCCTGQWEDAQKLQHRLIEPNAAVTRRFGIPGLKKIMDWFGYYGGPCRAPLQELSPAEEEALRMDFTSNGWL KVDIAGIYPPVTTPFTATAEVDYGKLEENLHKLGTFPFRGFVVQGSNGEFPFLTSSERLEVVSRVRQAMPKNRLLLAGSGCESTQATVEMTVSMAQVGADAAMVVTPCYYRGRMSSAALIHHYTKVADLSPIPVVLYSVPANTGLDLPVDAVVTLSQHPNIVGMDSGGDVTRIGLIVHKTRKQDFQVLAGSAGFLMASYALGAVGGVCALANVLGAQVCQLERLCCTGQWEDAQKLQHRLIEPNAAVTRRFGIPGLKKIMDWFGYYGGPCRAPLQELSPAEEEALRMDFTSNGWL 3s5p-a2-m1-cB_3s5p-a2-m2-cA Crystal structure of ribose-5-phosphate isomerase B RpiB from Giardia lamblia A8B2K2 A8B2K2 2.3 X-RAY DIFFRACTION 51 0.992 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 125 134 PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTEPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFE PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFEGGRHAARIAK 3s5p-a3-m1-cB_3s5p-a3-m3-cB Crystal structure of ribose-5-phosphate isomerase B RpiB from Giardia lamblia A8B2K2 A8B2K2 2.3 X-RAY DIFFRACTION 20 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 125 125 3s5p-a3-m1-cA_3s5p-a3-m3-cA PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTEPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFE PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTEPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFE 3s5p-a3-m3-cB_3s5p-a3-m1-cA Crystal structure of ribose-5-phosphate isomerase B RpiB from Giardia lamblia A8B2K2 A8B2K2 2.3 X-RAY DIFFRACTION 24 0.992 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 125 134 3s5p-a3-m1-cB_3s5p-a3-m3-cA PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTEPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFE PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFEGGRHAARIAK 3s5p-a3-m3-cB_3s5p-a3-m3-cA Crystal structure of ribose-5-phosphate isomerase B RpiB from Giardia lamblia A8B2K2 A8B2K2 2.3 X-RAY DIFFRACTION 72 0.992 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 125 134 3s5p-a1-m1-cB_3s5p-a1-m1-cA 3s5p-a3-m1-cB_3s5p-a3-m1-cA PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTEPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFE PGSMKVAFASDHGGRDLRMFLQQRASAHGYEVMDLGTPDFAKIGCEAVTSGRADCCILVCGTGIGISIAANKMKGIRCALCSTEYDAEMARKHNNANALALGGRTTGPEVAASILSRFLSTNFEGGRHAARIAK 3s5r-a1-m1-cB_3s5r-a1-m1-cA Crystal structure of a putative transcriptional regulator of the TETR family (SYN_02108) from Syntrophus aciditrophicus at 2.60 A resolution Q2LS68 Q2LS68 2.6 X-RAY DIFFRACTION 173 1.0 56780 (Syntrophus aciditrophicus SB) 56780 (Syntrophus aciditrophicus SB) 187 188 NTRELLLDAATTLFAEQGIAATTAEIAASVGVNPAIHYYFKTRDSLLDTIIEERIGRIIDIWEPVTGEEDDPLIVRDLVNRIVNTCETLWLPSLWIREIVNEGGALREKLNNIPIDKNKFSAKIAEGQKQGVINSGIDSRLLIGSIIGLTLPLATAKLRDQIPTKGLSSEDIVCHVTALLFTGLTNP KNTRELLLDAATTLFAEQGIAATTAEIAASVGVNPAIHYYFKTRDSLLDTIIEERIGRIIDIWEPVTGEEDDPLIVRDLVNRIVNTCETLWLPSLWIREIVNEGGALREKLNNIPIDKNKFSAKIAEGQKQGVINSGIDSRLLIGSIIGLTLPLATAKLRDQIPTKGLSSEDIVCHVTALLFTGLTNP 3s5s-a1-m1-cB_3s5s-a1-m1-cA Crystal structure of putative mandelate racemase/muconate lactonizing enzyme (PSI/COM target 200551) from Sorangium cellulosum A9GEI3 A9GEI3 2.4 X-RAY DIFFRACTION 100 1.0 448385 (Sorangium cellulosum So ce56) 448385 (Sorangium cellulosum So ce56) 358 366 TPTLIRRVSIEALDIPLHEPFGIAGGAQERAANLLVTVELADGTLGFGEAAPLPAFNGETQDGSRAAAVSLREAVVGSDARAWRAVARALREASGGGAGAARCAIETAILDALTKRAGMPLWAFFGGSGTALTTDITITTGSPERAEEAARRAAAMGFRALKVKVGGRLAASDPARIEAIHAAAPGASLILDGNGGLTAGEALALVAHARRLGADVALLEQPVPRDDWDGMKEVTRRAGVDVAADESAASAEDVLRVAAERAATVVNIKLMKGGIAEALDIAAVARAAGLGLMIGGMVESVLAMTASACFAAGLGGFSFVDLDTPLFLAENPFDGGFVQRGPALSLEGIRAGHGVTPQ TTPTLIRRVSIEALDIPLHEPFGIAGGAQERAANLLVTVELADGTLGFGEAAPLPAFNGETQDGSRAAAVSLREAVVGSDARAWRAVARALREASGGGAGAARCAIETAILDALTKRAGMPLWAFFGGSGTALTTDITITTGSPERAEEAARRAAAMGFRALKVKVGGRLAASDPARIEAIHAAAPGASLILDGNGGLTAGEALALVAHARRLGADVALLEQPVPRDDWDGMKEVTRRAGVDVAADESAASAEDVLRVAAERAATVVNIKLMKGGIAEALDIAAVARAAGLGLMIGGMVESVLAMTASACFAAGLGGFSFVDLDTPLFLAENPFDGGFVQRGPALSLEGIRAGHGVTPQGAENLYF 3s5t-a1-m1-cA_3s5t-a1-m2-cA Crystal structure of a member of duf3298 family (BF2082) from bacteroides fragilis nctc 9343 at 2.30 A resolution Q5LDM9 Q5LDM9 2.3 X-RAY DIFFRACTION 92 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 243 243 KNTGALEFDSIQVNETAHLFGDTAKPACNLTINFAYPVKSTDNKLKDSLNSYFIAACFGEGYIGEKPAQVVKEYTEHYVKEYRTDLEPYAEDEKNKSIGAWYSYYKGIESHVQLYYKNLLVYRINYNEYTGGAHGIYTTFLNDLINLRPLKLDDIFTGDYKEALTDLLWNQLADKKVTTHEALEDGYGSTGDIAPTENFYLDKDGITFYYNVYDITPYAGPVEIKIPYEEHLGSNPIIGEKSK KNTGALEFDSIQVNETAHLFGDTAKPACNLTINFAYPVKSTDNKLKDSLNSYFIAACFGEGYIGEKPAQVVKEYTEHYVKEYRTDLEPYAEDEKNKSIGAWYSYYKGIESHVQLYYKNLLVYRINYNEYTGGAHGIYTTFLNDLINLRPLKLDDIFTGDYKEALTDLLWNQLADKKVTTHEALEDGYGSTGDIAPTENFYLDKDGITFYYNVYDITPYAGPVEIKIPYEEHLGSNPIIGEKSK 3s5u-a2-m1-cB_3s5u-a2-m1-cD Crystal structure of CRISPR associated protein C7UDU4 C7UDU4 2.7 X-RAY DIFFRACTION 122 0.995 565642 (Enterococcus faecalis ATCC 4200) 565642 (Enterococcus faecalis ATCC 4200) 199 212 3s5u-a1-m1-cF_3s5u-a1-m1-cH 3s5u-a1-m1-cG_3s5u-a1-m1-cA 3s5u-a2-m1-cC_3s5u-a2-m1-cE RVNFSPIEIEKATFLTIKDVQSFAHLVKLIYQYDKPTELFVVTDILGYDVNSAATLKLIYGDLEAQLNDKPEVKSMIEKLTGTISQLIGYELLEHEMDLEEDGIIVQELFKALGIKIETTSDTIFEKVMEITQVHRYLSKKKLLIFINACTYLTEDEVQQVVEYISLNNVDVLFLEQRVVQNRFQYILDENFYLSYEKA RVNFSLLEEPIEIEKATFLTIKDVQSFAHLVKLIYQYDGENELKLFGLKPTELFVVTDILGYDVNSAATLKLIYGDLEAQLNDKPEVKSMIEKLTGTISQLIGYELLEHEMDLEEDGIIVQELFKALGIKIETTSDTIFEKVMEITQVHRYLSKKKLLIFINACTYLTEDEVQQVVEYISLNNVDVLFLEQRVVQNRFQYILDENFYLSYEK 3s5u-a2-m1-cD_3s5u-a2-m1-cE Crystal structure of CRISPR associated protein C7UDU4 C7UDU4 2.7 X-RAY DIFFRACTION 70 0.995 565642 (Enterococcus faecalis ATCC 4200) 565642 (Enterococcus faecalis ATCC 4200) 212 213 3s5u-a1-m1-cF_3s5u-a1-m1-cA 3s5u-a1-m1-cG_3s5u-a1-m1-cH 3s5u-a2-m1-cB_3s5u-a2-m1-cC RVNFSLLEEPIEIEKATFLTIKDVQSFAHLVKLIYQYDGENELKLFGLKPTELFVVTDILGYDVNSAATLKLIYGDLEAQLNDKPEVKSMIEKLTGTISQLIGYELLEHEMDLEEDGIIVQELFKALGIKIETTSDTIFEKVMEITQVHRYLSKKKLLIFINACTYLTEDEVQQVVEYISLNNVDVLFLEQRVVQNRFQYILDENFYLSYEK RVNFSLLEEPIEIEKATFLTIKDVQSFAHLVKLIYQYDGENELKLQKGLKPTELFVVTDILGYDVNSAATLKLIYGDLEAQLNDKPEVKSMIEKLTGTISQLIGYELLEHEMDLEEDGIIVQELFKALGIKIETTSDTIFEKVMEITQVHRYLSKKKLLIFINACTYLTEDEVQQVVEYISLNNVDVLFLEQRVVQNRFQYILDENFYLSYEK 3s5y-a1-m1-cA_3s5y-a1-m1-cB Pharmacological Chaperoning in Human alpha-Galactosidase P06280 P06280 2.105 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 390 391 1r46-a1-m1-cA_1r46-a1-m1-cB 1r47-a1-m1-cA_1r47-a1-m1-cB 3gxn-a1-m1-cA_3gxn-a1-m1-cB 3gxp-a1-m1-cA_3gxp-a1-m1-cB 3gxt-a1-m1-cA_3gxt-a1-m1-cB 3hg2-a1-m1-cA_3hg2-a1-m1-cB 3hg3-a1-m1-cB_3hg3-a1-m1-cA 3hg4-a1-m1-cA_3hg4-a1-m1-cB 3hg5-a1-m1-cA_3hg5-a1-m1-cB 3lx9-a1-m1-cB_3lx9-a1-m1-cA 3lxa-a1-m1-cB_3lxa-a1-m1-cA 3lxb-a1-m1-cA_3lxb-a1-m1-cB 3lxc-a1-m1-cB_3lxc-a1-m1-cA 3s5z-a1-m1-cA_3s5z-a1-m1-cB 3tv8-a1-m1-cA_3tv8-a1-m1-cB 4nxs-a1-m1-cA_4nxs-a1-m1-cB 6ibk-a1-m1-cA_6ibk-a1-m1-cB 6ibm-a1-m1-cA_6ibm-a1-m1-cB 6ibr-a1-m1-cA_6ibr-a1-m1-cB 6ibt-a1-m1-cA_6ibt-a1-m1-cB LDNGLARTPTMGWLHWERFMCNLDCQEEPDSCISEKLFMEMAELMVSEGWKDAGYEYLCIDDCWMAPQRDSEGRLQADPQRFPHGIRQLANYVHSKGLKLGIYADVGNKTCAGFPGSFGYYDIDAQTFADWGVDLLKFDGCYCDSLENLADGYKHMSLALNRTGRSIVYSCEWPLYMWPFQKPNYTEIRQYCNHWRNFADIDDSWKSIKSILDWTSFNQERIVDVAGPGGWNDPDMLVIGNFGLSWNQQVTQMALWAIMAAPLFMSNDLRHISPQAKALLQDKDVIAINQDPLGKQGYQLRQGDNFEVWERPLSGLAWAVAMINRQEIGGPRSYTIAVASLGKGVACNPACFITQLLPVKRKLGFYEWTSRLRSHINPTGTVLLQLENTM LDNGLARTPTMGWLHWERFMCNLDCQEEPDSCISEKLFMEMAELMVSEGWKDAGYEYLCIDDCWMAPQRDSEGRLQADPQRFPHGIRQLANYVHSKGLKLGIYADVGNKTCAGFPGSFGYYDIDAQTFADWGVDLLKFDGCYCDSLENLADGYKHMSLALNRTGRSIVYSCEWPLYMWPFQKPNYTEIRQYCNHWRNFADIDDSWKSIKSILDWTSFNQERIVDVAGPGGWNDPDMLVIGNFGLSWNQQVTQMALWAIMAAPLFMSNDLRHISPQAKALLQDKDVIAINQDPLGKQGYQLRQGDNFEVWERPLSGLAWAVAMINRQEIGGPRSYTIAVASLGKGVACNPACFITQLLPVKRKLGFYEWTSRLRSHINPTGTVLLQLENTMQ 3s64-a1-m1-cA_3s64-a1-m2-cA Saposin-like protein Ac-SLP-1 Q0MRQ4 Q0MRQ4 2.301 X-RAY DIFFRACTION 59 1.0 29170 (Ancylostoma caninum) 29170 (Ancylostoma caninum) 81 81 NSNVIVCEICKMAVKLIVPEADKDLDQLEKEFIQGCMTLIGWLPYAEKECKALAKIEMGAIKTLLENGSAPEEICTTLHAC NSNVIVCEICKMAVKLIVPEADKDLDQLEKEFIQGCMTLIGWLPYAEKECKALAKIEMGAIKTLLENGSAPEEICTTLHAC 3s6d-a1-m1-cA_3s6d-a1-m2-cA Crystal structure of a putative triosephosphate isomerase from Coccidioides immitis P0CL22 P0CL22 2.2 X-RAY DIFFRACTION 134 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 270 270 PRFPPLPKTLLIISLKMYFTPSRTIDYIQGLLEPRNDIIRQENRSRLLLALIPDFLTIYPCSEAIKEFESNLAAPPPLLLGAQDCFWDSLGPYTGEISPVCLRDMNVSIVELGHAERRAIFGETDQQVARKAAAAADQGLIPLVCIGEVSTLGPIVSEAIGRAVGECEAQIRPVLEALPRDAPVIFAYEPVWAIARVDHVGAVVSGIRSVIERIDRHRKGEVRILYGGSAGPGLWGPGGLGKEVDGMFLGRFAHDIEGVRKVVREVEESL PRFPPLPKTLLIISLKMYFTPSRTIDYIQGLLEPRNDIIRQENRSRLLLALIPDFLTIYPCSEAIKEFESNLAAPPPLLLGAQDCFWDSLGPYTGEISPVCLRDMNVSIVELGHAERRAIFGETDQQVARKAAAAADQGLIPLVCIGEVSTLGPIVSEAIGRAVGECEAQIRPVLEALPRDAPVIFAYEPVWAIARVDHVGAVVSGIRSVIERIDRHRKGEVRILYGGSAGPGLWGPGGLGKEVDGMFLGRFAHDIEGVRKVVREVEESL 3s6f-a1-m1-cA_3s6f-a1-m2-cA Crystal structure of a putative acetyltransferase (DR_1678) from Deinococcus radiodurans R1 at 1.19 A resolution Q9RTS8 Q9RTS8 1.19 X-RAY DIFFRACTION 163 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 139 139 TQRSLADIQFQTTLEGVTPAQLGGFFEGWPNPPTPETLWRILDRAAVFVLARTPDGQVIGFVNALSDGILAASIPLLEVQAGWRSLGLGSELRRVLTELGDLYVDLSCDDDVVPFYERLGLKRANAFLRRYDNQAGIPA TQRSLADIQFQTTLEGVTPAQLGGFFEGWPNPPTPETLWRILDRAAVFVLARTPDGQVIGFVNALSDGILAASIPLLEVQAGWRSLGLGSELRRVLTELGDLYVDLSCDDDVVPFYERLGLKRANAFLRRYDNQAGIPA 3s6h-a1-m1-cX_3s6h-a1-m1-cA Crystal structure of native mmNAGS/k Q0ASS9 Q0ASS9 3.102 X-RAY DIFFRACTION 85 1.0 394221 (Maricaulis maris MCS10) 394221 (Maricaulis maris MCS10) 435 436 3s6g-a1-m1-cX_3s6g-a1-m1-cA 3s6g-a1-m1-cY_3s6g-a1-m1-cB 3s6g-a2-m1-cX_3s6g-a2-m1-cA 3s6g-a3-m1-cY_3s6g-a3-m1-cB 3s6h-a2-m1-cY_3s6h-a2-m1-cB 3s7y-a1-m1-cX_3s7y-a1-m1-cA 3s7y-a1-m2-cX_3s7y-a1-m2-cA 3s7y-a2-m1-cX_3s7y-a2-m1-cA 4kzt-a1-m1-cA_4kzt-a1-m1-cX 4kzt-a1-m1-cB_4kzt-a1-m1-cY APGVRQTIVQLLSHMRDGKEIREYLHRFSGIDQERFAVIKVGGAVIQDDLPGLASALAFLQTVGLTPVVVHGGGPQLDAALEAADIPTERVDGLRVTRDEAIPIIRDTLTQANLALVDAIRDAGGRAAAVPRGVFEADIVDADKLGRVGEPRHIHLDLVGSAARAGQAAILACLGETPDGTLVNINADVAVRALVHALQPYKVVFLTGTGGLLDEDGDILSSINLATDFGDLMQADWVNGGMRLKLEEIKRLLDDLPLSSSVSITRPSELARELFTHAGSGTLIRRGERIVATDDKSSLDLGRLDNLVKAAFGRPAVEGYWDRLRVDRAFVTESYRAAAITTRLDGWVYLDKFAVLDDARGEGLGRTVWNRLVDYAPQLIWRSRTNNPVNGFYFEECDGAVRRDEWTVFWRGEMGPVEVADVVEKAFALPPTLEA APGVRQTIVQLLSHMRDGKEIREYLHRFSGIDQERFAVIKVGGAVIQDDLPGLASALAFLQTVGLTPVVVHGGGPQLDAALEAADIPTERVDGLRVTRDEAIPIIRDTLTQANLALVDAIRDAGGRAAAVPRGVFEADIVDADKLGRVGEPRHIHLDLVGSAARAGQAAILACLGETPDGTLVNINADVAVRALVHALQPYKVVFLTGTGGLLDEDGDILSSINLATDFGDLMQADWVNGGMRLKLEEIKRLLDDLPLSSSVSITRPSELARELFTHAGSGTLIRRGERIVATDDKSSLDLGRLDNLVKAAFGRPAVEGYWDRLRVDRAFVTESYRAAAITTRLDGWVYLDKFAVLDDARGEGLGRTVWNRLVDYAPQLIWRSRTNNPVNGFYFEECDGAVRRDEWTVFWRGEMGPVEVADVVEKAFALPPTLEAP 3s6j-a1-m1-cA_3s6j-a1-m1-cE The crystal structure of a hydrolase from Pseudomonas syringae Q88AV7 Q88AV7 2.198 X-RAY DIFFRACTION 46 1.0 323 (Pseudomonas syringae pv. tomato) 323 (Pseudomonas syringae pv. tomato) 212 215 3s6j-a2-m1-cB_3s6j-a2-m1-cF 3s6j-a3-m1-cC_3s6j-a3-m1-cD PQTSFIFDLDGTLTDSVYQNVAAWKEALDAENIPLAWRIHRKIGSGGLLKSLSREITDEQAERLSEKHAQAYERLQHQIIALPGAVELLETLDKENLKWCIATSGGIDTATINLKALKLDINKINIVTRDDVSYGKPDPDLFLAAAKKIGAPIDECLVIGDAIWDLAARRCKATGVGLLSGGYDIGELERAGALRVYEDPLDLLNHLDEIAS PQTSFIFDLDGTLTDSVYQNVAAWKEALDAENIPLAWRIHRKIGSGGLLKSLSRETGSITDEQAERLSEKHAQAYERLQHQIIALPGAVELLETLDKENLKWCIATSGGIDTATINLKALKLDINKINIVTRDDVSYGKPDPDLFLAAAKKIGAPIDECLVIGDAIWDLAARRCKATGVGLLSGGYDIGELERAGALRVYEDPLDLLNHLDEIAS 3s6k-a1-m1-cA_3s6k-a1-m4-cA Crystal structure of xcNAGS A0A0H2X8L7 A0A0H2X8L7 2.8018 X-RAY DIFFRACTION 89 1.0 314565 (Xanthomonas campestris pv. campestris str. 8004) 314565 (Xanthomonas campestris pv. campestris str. 8004) 433 433 3s6k-a1-m2-cA_3s6k-a1-m3-cA QTRQTIVRLLSSASAKEISQYLKRFSQLDAKRFAVVKVGGAVLRDDLEALTSSLSFLQEVGLTPIVLHGAGPQLDAELSAAGIEKQTVNGLRVTSPHALAIVRKVFQASNLKLVEALQQNGARATSITGGVFEAEYLNRDTYGLVGEVKAVNLAPIEASLQAGSIPVITSLGETPSGQILNVNADFAANELVQELQPYKIIFLTGTGGLLDAEGKLIDSINLSTEYDHLQQPWINGGRVKIEQIKDLLDRLPLESSVSITRPADLAKELFTHKGSGTLVRRGERVLRATSWDELDLPRLTSLIESSFGRTLVPDYFSNTKLLRAYVSENYRAAVILTDEGLGASALIYLDKFAVLDDAQGEGLGRAVWNVREETPQLFWRSRHNNQVNIFYYAESDGCIKQEKWKVFWYGLENFEQIQHCVAHCATRQPTLLG QTRQTIVRLLSSASAKEISQYLKRFSQLDAKRFAVVKVGGAVLRDDLEALTSSLSFLQEVGLTPIVLHGAGPQLDAELSAAGIEKQTVNGLRVTSPHALAIVRKVFQASNLKLVEALQQNGARATSITGGVFEAEYLNRDTYGLVGEVKAVNLAPIEASLQAGSIPVITSLGETPSGQILNVNADFAANELVQELQPYKIIFLTGTGGLLDAEGKLIDSINLSTEYDHLQQPWINGGRVKIEQIKDLLDRLPLESSVSITRPADLAKELFTHKGSGTLVRRGERVLRATSWDELDLPRLTSLIESSFGRTLVPDYFSNTKLLRAYVSENYRAAVILTDEGLGASALIYLDKFAVLDDAQGEGLGRAVWNVREETPQLFWRSRHNNQVNIFYYAESDGCIKQEKWKVFWYGLENFEQIQHCVAHCATRQPTLLG 3s6k-a1-m3-cA_3s6k-a1-m4-cA Crystal structure of xcNAGS A0A0H2X8L7 A0A0H2X8L7 2.8018 X-RAY DIFFRACTION 84 1.0 314565 (Xanthomonas campestris pv. campestris str. 8004) 314565 (Xanthomonas campestris pv. campestris str. 8004) 433 433 3s6k-a1-m1-cA_3s6k-a1-m2-cA QTRQTIVRLLSSASAKEISQYLKRFSQLDAKRFAVVKVGGAVLRDDLEALTSSLSFLQEVGLTPIVLHGAGPQLDAELSAAGIEKQTVNGLRVTSPHALAIVRKVFQASNLKLVEALQQNGARATSITGGVFEAEYLNRDTYGLVGEVKAVNLAPIEASLQAGSIPVITSLGETPSGQILNVNADFAANELVQELQPYKIIFLTGTGGLLDAEGKLIDSINLSTEYDHLQQPWINGGRVKIEQIKDLLDRLPLESSVSITRPADLAKELFTHKGSGTLVRRGERVLRATSWDELDLPRLTSLIESSFGRTLVPDYFSNTKLLRAYVSENYRAAVILTDEGLGASALIYLDKFAVLDDAQGEGLGRAVWNVREETPQLFWRSRHNNQVNIFYYAESDGCIKQEKWKVFWYGLENFEQIQHCVAHCATRQPTLLG QTRQTIVRLLSSASAKEISQYLKRFSQLDAKRFAVVKVGGAVLRDDLEALTSSLSFLQEVGLTPIVLHGAGPQLDAELSAAGIEKQTVNGLRVTSPHALAIVRKVFQASNLKLVEALQQNGARATSITGGVFEAEYLNRDTYGLVGEVKAVNLAPIEASLQAGSIPVITSLGETPSGQILNVNADFAANELVQELQPYKIIFLTGTGGLLDAEGKLIDSINLSTEYDHLQQPWINGGRVKIEQIKDLLDRLPLESSVSITRPADLAKELFTHKGSGTLVRRGERVLRATSWDELDLPRLTSLIESSFGRTLVPDYFSNTKLLRAYVSENYRAAVILTDEGLGASALIYLDKFAVLDDAQGEGLGRAVWNVREETPQLFWRSRHNNQVNIFYYAESDGCIKQEKWKVFWYGLENFEQIQHCVAHCATRQPTLLG 3s6l-a3-m4-cE_3s6l-a3-m5-cE Crystal structure of a YadA-like head domain of the trimeric autotransporter adhesin BoaA from Burkholderia pseudomallei solved by iodide ion SAD phasing Q3JFX2 Q3JFX2 2.3 X-RAY DIFFRACTION 228 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 156 156 3s6l-a1-m1-cA_3s6l-a1-m1-cC 3s6l-a1-m1-cB_3s6l-a1-m1-cA 3s6l-a1-m1-cB_3s6l-a1-m1-cC 3s6l-a2-m1-cD_3s6l-a2-m2-cD 3s6l-a2-m1-cD_3s6l-a2-m3-cD 3s6l-a2-m2-cD_3s6l-a2-m3-cD 3s6l-a3-m1-cE_3s6l-a3-m4-cE 3s6l-a3-m1-cE_3s6l-a3-m5-cE VRTSSLGDTSAGNGANASGGNGTAVGGAASASGTDATALGQASNASGNHSTALGQASSASGSGSTAVGQGAGAPGDGASAFGQGALASGTDSTALGAHSTAAAPNSAAIGANSVASAPNSVSFGSRGHERRLTNVAPGIDGTDAANMNQLWGVQSS VRTSSLGDTSAGNGANASGGNGTAVGGAASASGTDATALGQASNASGNHSTALGQASSASGSGSTAVGQGAGAPGDGASAFGQGALASGTDSTALGAHSTAAAPNSAAIGANSVASAPNSVSFGSRGHERRLTNVAPGIDGTDAANMNQLWGVQSS 3s6o-a1-m1-cD_3s6o-a1-m1-cC Crystal structure of a Polysaccharide deacetylase family protein from Burkholderia pseudomallei Q63T51 Q63T51 1.85 X-RAY DIFFRACTION 131 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 305 306 3s6o-a1-m1-cA_3s6o-a1-m1-cB 3s6o-a1-m1-cA_3s6o-a1-m1-cD 3s6o-a1-m1-cB_3s6o-a1-m1-cC FDPNYPRDLIGYGRHPVQANWPGRARVAVQFVLNYEEGGENCVLHGDPASEQFLSEIVGAAAYPARHMSMESIYEYGSRAGVWRILREFDKRGLPLTVFGVGMAIERHPELARAFVELGHEIACHGWRWIHYQDMTPEREAEHMRLGMEAIERVTGVRPLGWYTGRDSPNTHRLVAEYGGFLYDSDHYGDDLPFWMDVEVSGGASVPQLIVPYTLDANDMRFATPQGFNTADHFFHYLRDAFDVLYEEGDEAPKMMSIGMHCRLLGRPGRFRALQRFLDHIERHDRVWVARRVEIARHWREHHPY FDPNYPRDLIGYGRHPVQANWPGRARVAVQFVLNYEEGGENCVLHGDPASEQFLSEIVGAAAYPARHMSMESIYEYGSRAGVWRILREFDKRGLPLTVFGVGMAIERHPELARAFVELGHEIACHGWRWIHYQDMTPEREAEHMRLGMEAIERVTGVRPLGWYTGRDSPNTHRLVAEYGGFLYDSDHYGDDLPFWMDVEVSGGASVPQLIVPYTLDANDMRFATPQGFNTADHFFHYLRDAFDVLYEEGDEAPKMMSIGMHCRLLGRPGRFRALQRFLDHIERHDRVWVARRVEIARHWREHHPYR 3s6p-a1-m10-cA_3s6p-a1-m9-cB Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 111 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 529 530 3s6p-a1-m11-cA_3s6p-a1-m15-cB 3s6p-a1-m12-cA_3s6p-a1-m11-cB 3s6p-a1-m13-cA_3s6p-a1-m12-cB 3s6p-a1-m14-cA_3s6p-a1-m13-cB 3s6p-a1-m15-cA_3s6p-a1-m14-cB 3s6p-a1-m16-cA_3s6p-a1-m20-cB 3s6p-a1-m17-cA_3s6p-a1-m16-cB 3s6p-a1-m18-cA_3s6p-a1-m17-cB 3s6p-a1-m19-cA_3s6p-a1-m18-cB 3s6p-a1-m1-cA_3s6p-a1-m5-cB 3s6p-a1-m20-cA_3s6p-a1-m19-cB 3s6p-a1-m21-cA_3s6p-a1-m25-cB 3s6p-a1-m22-cA_3s6p-a1-m21-cB 3s6p-a1-m23-cA_3s6p-a1-m22-cB 3s6p-a1-m24-cA_3s6p-a1-m23-cB 3s6p-a1-m25-cA_3s6p-a1-m24-cB 3s6p-a1-m26-cA_3s6p-a1-m30-cB 3s6p-a1-m27-cA_3s6p-a1-m26-cB 3s6p-a1-m28-cA_3s6p-a1-m27-cB 3s6p-a1-m29-cA_3s6p-a1-m28-cB 3s6p-a1-m2-cA_3s6p-a1-m1-cB 3s6p-a1-m30-cA_3s6p-a1-m29-cB 3s6p-a1-m31-cA_3s6p-a1-m35-cB 3s6p-a1-m32-cA_3s6p-a1-m31-cB 3s6p-a1-m33-cA_3s6p-a1-m32-cB 3s6p-a1-m34-cA_3s6p-a1-m33-cB 3s6p-a1-m35-cA_3s6p-a1-m34-cB 3s6p-a1-m36-cA_3s6p-a1-m40-cB 3s6p-a1-m37-cA_3s6p-a1-m36-cB 3s6p-a1-m38-cA_3s6p-a1-m37-cB 3s6p-a1-m39-cA_3s6p-a1-m38-cB 3s6p-a1-m3-cA_3s6p-a1-m2-cB 3s6p-a1-m40-cA_3s6p-a1-m39-cB 3s6p-a1-m41-cA_3s6p-a1-m45-cB 3s6p-a1-m42-cA_3s6p-a1-m41-cB 3s6p-a1-m43-cA_3s6p-a1-m42-cB 3s6p-a1-m44-cA_3s6p-a1-m43-cB 3s6p-a1-m45-cA_3s6p-a1-m44-cB 3s6p-a1-m46-cA_3s6p-a1-m50-cB 3s6p-a1-m47-cA_3s6p-a1-m46-cB 3s6p-a1-m48-cA_3s6p-a1-m47-cB 3s6p-a1-m49-cA_3s6p-a1-m48-cB 3s6p-a1-m4-cA_3s6p-a1-m3-cB 3s6p-a1-m50-cA_3s6p-a1-m49-cB 3s6p-a1-m51-cA_3s6p-a1-m55-cB 3s6p-a1-m52-cA_3s6p-a1-m51-cB 3s6p-a1-m53-cA_3s6p-a1-m52-cB 3s6p-a1-m54-cA_3s6p-a1-m53-cB 3s6p-a1-m55-cA_3s6p-a1-m54-cB 3s6p-a1-m56-cA_3s6p-a1-m60-cB 3s6p-a1-m57-cA_3s6p-a1-m56-cB 3s6p-a1-m58-cA_3s6p-a1-m57-cB 3s6p-a1-m59-cA_3s6p-a1-m58-cB 3s6p-a1-m5-cA_3s6p-a1-m4-cB 3s6p-a1-m60-cA_3s6p-a1-m59-cB 3s6p-a1-m6-cA_3s6p-a1-m10-cB 3s6p-a1-m7-cA_3s6p-a1-m6-cB 3s6p-a1-m8-cA_3s6p-a1-m7-cB 3s6p-a1-m9-cA_3s6p-a1-m8-cB DNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN PDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN 3s6p-a1-m10-cA_3s6p-a1-m9-cC Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 14 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 529 536 3s6p-a1-m10-cB_3s6p-a1-m6-cB 3s6p-a1-m10-cB_3s6p-a1-m9-cB 3s6p-a1-m11-cA_3s6p-a1-m15-cC 3s6p-a1-m11-cB_3s6p-a1-m12-cB 3s6p-a1-m11-cB_3s6p-a1-m15-cB 3s6p-a1-m12-cA_3s6p-a1-m11-cC 3s6p-a1-m12-cB_3s6p-a1-m13-cB 3s6p-a1-m13-cA_3s6p-a1-m12-cC 3s6p-a1-m13-cB_3s6p-a1-m14-cB 3s6p-a1-m14-cA_3s6p-a1-m13-cC 3s6p-a1-m14-cB_3s6p-a1-m15-cB 3s6p-a1-m15-cA_3s6p-a1-m14-cC 3s6p-a1-m16-cA_3s6p-a1-m20-cC 3s6p-a1-m16-cB_3s6p-a1-m17-cB 3s6p-a1-m16-cB_3s6p-a1-m20-cB 3s6p-a1-m17-cA_3s6p-a1-m16-cC 3s6p-a1-m17-cB_3s6p-a1-m18-cB 3s6p-a1-m18-cA_3s6p-a1-m17-cC 3s6p-a1-m18-cB_3s6p-a1-m19-cB 3s6p-a1-m19-cA_3s6p-a1-m18-cC 3s6p-a1-m19-cB_3s6p-a1-m20-cB 3s6p-a1-m1-cA_3s6p-a1-m5-cC 3s6p-a1-m1-cB_3s6p-a1-m2-cB 3s6p-a1-m1-cB_3s6p-a1-m5-cB 3s6p-a1-m20-cA_3s6p-a1-m19-cC 3s6p-a1-m21-cA_3s6p-a1-m25-cC 3s6p-a1-m21-cB_3s6p-a1-m22-cB 3s6p-a1-m21-cB_3s6p-a1-m25-cB 3s6p-a1-m22-cA_3s6p-a1-m21-cC 3s6p-a1-m22-cB_3s6p-a1-m23-cB 3s6p-a1-m23-cA_3s6p-a1-m22-cC 3s6p-a1-m23-cB_3s6p-a1-m24-cB 3s6p-a1-m24-cA_3s6p-a1-m23-cC 3s6p-a1-m24-cB_3s6p-a1-m25-cB 3s6p-a1-m25-cA_3s6p-a1-m24-cC 3s6p-a1-m26-cA_3s6p-a1-m30-cC 3s6p-a1-m26-cB_3s6p-a1-m27-cB 3s6p-a1-m26-cB_3s6p-a1-m30-cB 3s6p-a1-m27-cA_3s6p-a1-m26-cC 3s6p-a1-m27-cB_3s6p-a1-m28-cB 3s6p-a1-m28-cA_3s6p-a1-m27-cC 3s6p-a1-m28-cB_3s6p-a1-m29-cB 3s6p-a1-m29-cA_3s6p-a1-m28-cC 3s6p-a1-m29-cB_3s6p-a1-m30-cB 3s6p-a1-m2-cA_3s6p-a1-m1-cC 3s6p-a1-m2-cB_3s6p-a1-m3-cB 3s6p-a1-m30-cA_3s6p-a1-m29-cC 3s6p-a1-m31-cA_3s6p-a1-m35-cC 3s6p-a1-m31-cB_3s6p-a1-m32-cB 3s6p-a1-m31-cB_3s6p-a1-m35-cB 3s6p-a1-m32-cA_3s6p-a1-m31-cC 3s6p-a1-m32-cB_3s6p-a1-m33-cB 3s6p-a1-m33-cA_3s6p-a1-m32-cC 3s6p-a1-m33-cB_3s6p-a1-m34-cB 3s6p-a1-m34-cA_3s6p-a1-m33-cC 3s6p-a1-m34-cB_3s6p-a1-m35-cB 3s6p-a1-m35-cA_3s6p-a1-m34-cC 3s6p-a1-m36-cA_3s6p-a1-m40-cC 3s6p-a1-m36-cB_3s6p-a1-m37-cB 3s6p-a1-m36-cB_3s6p-a1-m40-cB 3s6p-a1-m37-cA_3s6p-a1-m36-cC 3s6p-a1-m37-cB_3s6p-a1-m38-cB 3s6p-a1-m38-cA_3s6p-a1-m37-cC 3s6p-a1-m38-cB_3s6p-a1-m39-cB 3s6p-a1-m39-cA_3s6p-a1-m38-cC 3s6p-a1-m39-cB_3s6p-a1-m40-cB 3s6p-a1-m3-cA_3s6p-a1-m2-cC 3s6p-a1-m3-cB_3s6p-a1-m4-cB 3s6p-a1-m40-cA_3s6p-a1-m39-cC 3s6p-a1-m41-cA_3s6p-a1-m45-cC 3s6p-a1-m41-cB_3s6p-a1-m42-cB 3s6p-a1-m41-cB_3s6p-a1-m45-cB 3s6p-a1-m42-cA_3s6p-a1-m41-cC 3s6p-a1-m42-cB_3s6p-a1-m43-cB 3s6p-a1-m43-cA_3s6p-a1-m42-cC 3s6p-a1-m43-cB_3s6p-a1-m44-cB 3s6p-a1-m44-cA_3s6p-a1-m43-cC 3s6p-a1-m44-cB_3s6p-a1-m45-cB 3s6p-a1-m45-cA_3s6p-a1-m44-cC 3s6p-a1-m46-cA_3s6p-a1-m50-cC 3s6p-a1-m46-cB_3s6p-a1-m47-cB 3s6p-a1-m46-cB_3s6p-a1-m50-cB 3s6p-a1-m47-cA_3s6p-a1-m46-cC 3s6p-a1-m47-cB_3s6p-a1-m48-cB 3s6p-a1-m48-cA_3s6p-a1-m47-cC 3s6p-a1-m48-cB_3s6p-a1-m49-cB 3s6p-a1-m49-cA_3s6p-a1-m48-cC 3s6p-a1-m49-cB_3s6p-a1-m50-cB 3s6p-a1-m4-cA_3s6p-a1-m3-cC 3s6p-a1-m4-cB_3s6p-a1-m5-cB 3s6p-a1-m50-cA_3s6p-a1-m49-cC 3s6p-a1-m51-cA_3s6p-a1-m55-cC 3s6p-a1-m51-cB_3s6p-a1-m52-cB 3s6p-a1-m51-cB_3s6p-a1-m55-cB 3s6p-a1-m52-cA_3s6p-a1-m51-cC 3s6p-a1-m52-cB_3s6p-a1-m53-cB 3s6p-a1-m53-cA_3s6p-a1-m52-cC 3s6p-a1-m53-cB_3s6p-a1-m54-cB 3s6p-a1-m54-cA_3s6p-a1-m53-cC 3s6p-a1-m54-cB_3s6p-a1-m55-cB 3s6p-a1-m55-cA_3s6p-a1-m54-cC 3s6p-a1-m56-cA_3s6p-a1-m60-cC 3s6p-a1-m56-cB_3s6p-a1-m57-cB 3s6p-a1-m56-cB_3s6p-a1-m60-cB 3s6p-a1-m57-cA_3s6p-a1-m56-cC 3s6p-a1-m57-cB_3s6p-a1-m58-cB 3s6p-a1-m58-cA_3s6p-a1-m57-cC 3s6p-a1-m58-cB_3s6p-a1-m59-cB 3s6p-a1-m59-cA_3s6p-a1-m58-cC 3s6p-a1-m59-cB_3s6p-a1-m60-cB 3s6p-a1-m5-cA_3s6p-a1-m4-cC 3s6p-a1-m60-cA_3s6p-a1-m59-cC 3s6p-a1-m6-cA_3s6p-a1-m10-cC 3s6p-a1-m6-cB_3s6p-a1-m7-cB 3s6p-a1-m7-cA_3s6p-a1-m6-cC 3s6p-a1-m7-cB_3s6p-a1-m8-cB 3s6p-a1-m8-cA_3s6p-a1-m7-cC 3s6p-a1-m8-cB_3s6p-a1-m9-cB 3s6p-a1-m9-cA_3s6p-a1-m8-cC DNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN GRQVSPPDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN 3s6p-a1-m54-cD_3s6p-a1-m9-cD Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 188 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 532 532 3s6p-a1-m10-cA_3s6p-a1-m10-cB 3s6p-a1-m10-cA_3s6p-a1-m10-cC 3s6p-a1-m10-cB_3s6p-a1-m10-cC 3s6p-a1-m10-cD_3s6p-a1-m23-cD 3s6p-a1-m11-cA_3s6p-a1-m11-cB 3s6p-a1-m11-cA_3s6p-a1-m11-cC 3s6p-a1-m11-cB_3s6p-a1-m11-cC 3s6p-a1-m11-cD_3s6p-a1-m20-cD 3s6p-a1-m11-cD_3s6p-a1-m38-cD 3s6p-a1-m12-cA_3s6p-a1-m12-cB 3s6p-a1-m12-cA_3s6p-a1-m12-cC 3s6p-a1-m12-cB_3s6p-a1-m12-cC 3s6p-a1-m12-cD_3s6p-a1-m37-cD 3s6p-a1-m12-cD_3s6p-a1-m47-cD 3s6p-a1-m13-cA_3s6p-a1-m13-cB 3s6p-a1-m13-cA_3s6p-a1-m13-cC 3s6p-a1-m13-cB_3s6p-a1-m13-cC 3s6p-a1-m13-cD_3s6p-a1-m45-cD 3s6p-a1-m13-cD_3s6p-a1-m46-cD 3s6p-a1-m14-cA_3s6p-a1-m14-cB 3s6p-a1-m14-cA_3s6p-a1-m14-cC 3s6p-a1-m14-cB_3s6p-a1-m14-cC 3s6p-a1-m14-cD_3s6p-a1-m29-cD 3s6p-a1-m14-cD_3s6p-a1-m44-cD 3s6p-a1-m15-cA_3s6p-a1-m15-cB 3s6p-a1-m15-cA_3s6p-a1-m15-cC 3s6p-a1-m15-cB_3s6p-a1-m15-cC 3s6p-a1-m15-cD_3s6p-a1-m16-cD 3s6p-a1-m15-cD_3s6p-a1-m28-cD 3s6p-a1-m16-cA_3s6p-a1-m16-cB 3s6p-a1-m16-cA_3s6p-a1-m16-cC 3s6p-a1-m16-cB_3s6p-a1-m16-cC 3s6p-a1-m16-cD_3s6p-a1-m28-cD 3s6p-a1-m17-cA_3s6p-a1-m17-cB 3s6p-a1-m17-cA_3s6p-a1-m17-cC 3s6p-a1-m17-cB_3s6p-a1-m17-cC 3s6p-a1-m17-cD_3s6p-a1-m27-cD 3s6p-a1-m17-cD_3s6p-a1-m52-cD 3s6p-a1-m18-cA_3s6p-a1-m18-cB 3s6p-a1-m18-cA_3s6p-a1-m18-cC 3s6p-a1-m18-cB_3s6p-a1-m18-cC 3s6p-a1-m18-cD_3s6p-a1-m51-cD 3s6p-a1-m18-cD_3s6p-a1-m60-cD 3s6p-a1-m19-cA_3s6p-a1-m19-cB 3s6p-a1-m19-cA_3s6p-a1-m19-cC 3s6p-a1-m19-cB_3s6p-a1-m19-cC 3s6p-a1-m19-cD_3s6p-a1-m39-cD 3s6p-a1-m19-cD_3s6p-a1-m59-cD 3s6p-a1-m1-cA_3s6p-a1-m1-cB 3s6p-a1-m1-cA_3s6p-a1-m1-cC 3s6p-a1-m1-cB_3s6p-a1-m1-cC 3s6p-a1-m1-cD_3s6p-a1-m10-cD 3s6p-a1-m1-cD_3s6p-a1-m23-cD 3s6p-a1-m20-cA_3s6p-a1-m20-cB 3s6p-a1-m20-cA_3s6p-a1-m20-cC 3s6p-a1-m20-cB_3s6p-a1-m20-cC 3s6p-a1-m20-cD_3s6p-a1-m38-cD 3s6p-a1-m21-cA_3s6p-a1-m21-cB 3s6p-a1-m21-cA_3s6p-a1-m21-cC 3s6p-a1-m21-cB_3s6p-a1-m21-cC 3s6p-a1-m21-cD_3s6p-a1-m30-cD 3s6p-a1-m21-cD_3s6p-a1-m43-cD 3s6p-a1-m22-cA_3s6p-a1-m22-cB 3s6p-a1-m22-cA_3s6p-a1-m22-cC 3s6p-a1-m22-cB_3s6p-a1-m22-cC 3s6p-a1-m22-cD_3s6p-a1-m42-cD 3s6p-a1-m23-cA_3s6p-a1-m23-cB 3s6p-a1-m23-cA_3s6p-a1-m23-cC 3s6p-a1-m23-cB_3s6p-a1-m23-cC 3s6p-a1-m24-cA_3s6p-a1-m24-cB 3s6p-a1-m24-cA_3s6p-a1-m24-cC 3s6p-a1-m24-cB_3s6p-a1-m24-cC 3s6p-a1-m24-cD_3s6p-a1-m54-cD 3s6p-a1-m24-cD_3s6p-a1-m9-cD 3s6p-a1-m25-cA_3s6p-a1-m25-cB 3s6p-a1-m25-cA_3s6p-a1-m25-cC 3s6p-a1-m25-cB_3s6p-a1-m25-cC 3s6p-a1-m25-cD_3s6p-a1-m26-cD 3s6p-a1-m25-cD_3s6p-a1-m53-cD 3s6p-a1-m26-cA_3s6p-a1-m26-cB 3s6p-a1-m26-cA_3s6p-a1-m26-cC 3s6p-a1-m26-cB_3s6p-a1-m26-cC 3s6p-a1-m26-cD_3s6p-a1-m53-cD 3s6p-a1-m27-cA_3s6p-a1-m27-cB 3s6p-a1-m27-cA_3s6p-a1-m27-cC 3s6p-a1-m27-cB_3s6p-a1-m27-cC 3s6p-a1-m27-cD_3s6p-a1-m52-cD 3s6p-a1-m28-cA_3s6p-a1-m28-cB 3s6p-a1-m28-cA_3s6p-a1-m28-cC 3s6p-a1-m28-cB_3s6p-a1-m28-cC 3s6p-a1-m29-cA_3s6p-a1-m29-cB 3s6p-a1-m29-cA_3s6p-a1-m29-cC 3s6p-a1-m29-cB_3s6p-a1-m29-cC 3s6p-a1-m29-cD_3s6p-a1-m44-cD 3s6p-a1-m2-cA_3s6p-a1-m2-cB 3s6p-a1-m2-cA_3s6p-a1-m2-cC 3s6p-a1-m2-cB_3s6p-a1-m2-cC 3s6p-a1-m2-cD_3s6p-a1-m22-cD 3s6p-a1-m2-cD_3s6p-a1-m42-cD 3s6p-a1-m30-cA_3s6p-a1-m30-cB 3s6p-a1-m30-cA_3s6p-a1-m30-cC 3s6p-a1-m30-cB_3s6p-a1-m30-cC 3s6p-a1-m30-cD_3s6p-a1-m43-cD 3s6p-a1-m31-cA_3s6p-a1-m31-cB 3s6p-a1-m31-cA_3s6p-a1-m31-cC 3s6p-a1-m31-cB_3s6p-a1-m31-cC 3s6p-a1-m31-cD_3s6p-a1-m40-cD 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3s6p-a1-m19-cH_3s6p-a1-m39-cG 3s6p-a1-m1-cH_3s6p-a1-m23-cG 3s6p-a1-m21-cH_3s6p-a1-m43-cG 3s6p-a1-m24-cH_3s6p-a1-m54-cG 3s6p-a1-m25-cH_3s6p-a1-m26-cG 3s6p-a1-m26-cH_3s6p-a1-m53-cG 3s6p-a1-m29-cH_3s6p-a1-m44-cG 3s6p-a1-m2-cH_3s6p-a1-m42-cG 3s6p-a1-m31-cH_3s6p-a1-m58-cG 3s6p-a1-m32-cH_3s6p-a1-m7-cG 3s6p-a1-m33-cH_3s6p-a1-m5-cG 3s6p-a1-m34-cH_3s6p-a1-m49-cG 3s6p-a1-m35-cH_3s6p-a1-m36-cG 3s6p-a1-m36-cH_3s6p-a1-m48-cG 3s6p-a1-m39-cH_3s6p-a1-m59-cG 3s6p-a1-m3-cH_3s6p-a1-m50-cG 3s6p-a1-m45-cH_3s6p-a1-m46-cG 3s6p-a1-m55-cH_3s6p-a1-m56-cG 3s6p-a1-m56-cH_3s6p-a1-m8-cG 3s6p-a1-m5-cH_3s6p-a1-m6-cG FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGPGLLMSVPGKIAARVRARRARRRAARAN FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGAAQSGLAKLPGLLMSVPGKIAARVRARRARRRAARAN 3s6p-a1-m8-cB_3s6p-a1-m9-cC Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 82 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 530 536 3s6p-a1-m10-cA_3s6p-a1-m6-cA 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3s6p-a1-m24-cB_3s6p-a1-m25-cC 3s6p-a1-m25-cB_3s6p-a1-m21-cC 3s6p-a1-m26-cA_3s6p-a1-m27-cA 3s6p-a1-m26-cA_3s6p-a1-m30-cA 3s6p-a1-m26-cB_3s6p-a1-m27-cC 3s6p-a1-m27-cA_3s6p-a1-m28-cA 3s6p-a1-m27-cB_3s6p-a1-m28-cC 3s6p-a1-m28-cA_3s6p-a1-m29-cA 3s6p-a1-m28-cB_3s6p-a1-m29-cC 3s6p-a1-m29-cA_3s6p-a1-m30-cA 3s6p-a1-m29-cB_3s6p-a1-m30-cC 3s6p-a1-m2-cA_3s6p-a1-m3-cA 3s6p-a1-m2-cB_3s6p-a1-m3-cC 3s6p-a1-m30-cB_3s6p-a1-m26-cC 3s6p-a1-m31-cA_3s6p-a1-m32-cA 3s6p-a1-m31-cA_3s6p-a1-m35-cA 3s6p-a1-m31-cB_3s6p-a1-m32-cC 3s6p-a1-m32-cA_3s6p-a1-m33-cA 3s6p-a1-m32-cB_3s6p-a1-m33-cC 3s6p-a1-m33-cA_3s6p-a1-m34-cA 3s6p-a1-m33-cB_3s6p-a1-m34-cC 3s6p-a1-m34-cA_3s6p-a1-m35-cA 3s6p-a1-m34-cB_3s6p-a1-m35-cC 3s6p-a1-m35-cB_3s6p-a1-m31-cC 3s6p-a1-m36-cA_3s6p-a1-m37-cA 3s6p-a1-m36-cA_3s6p-a1-m40-cA 3s6p-a1-m36-cB_3s6p-a1-m37-cC 3s6p-a1-m37-cA_3s6p-a1-m38-cA 3s6p-a1-m37-cB_3s6p-a1-m38-cC 3s6p-a1-m38-cA_3s6p-a1-m39-cA 3s6p-a1-m38-cB_3s6p-a1-m39-cC 3s6p-a1-m39-cA_3s6p-a1-m40-cA 3s6p-a1-m39-cB_3s6p-a1-m40-cC 3s6p-a1-m3-cA_3s6p-a1-m4-cA 3s6p-a1-m3-cB_3s6p-a1-m4-cC 3s6p-a1-m40-cB_3s6p-a1-m36-cC 3s6p-a1-m41-cA_3s6p-a1-m42-cA 3s6p-a1-m41-cA_3s6p-a1-m45-cA 3s6p-a1-m41-cB_3s6p-a1-m42-cC 3s6p-a1-m42-cA_3s6p-a1-m43-cA 3s6p-a1-m42-cB_3s6p-a1-m43-cC 3s6p-a1-m43-cA_3s6p-a1-m44-cA 3s6p-a1-m43-cB_3s6p-a1-m44-cC 3s6p-a1-m44-cA_3s6p-a1-m45-cA 3s6p-a1-m44-cB_3s6p-a1-m45-cC 3s6p-a1-m45-cB_3s6p-a1-m41-cC 3s6p-a1-m46-cA_3s6p-a1-m47-cA 3s6p-a1-m46-cA_3s6p-a1-m50-cA 3s6p-a1-m46-cB_3s6p-a1-m47-cC 3s6p-a1-m47-cA_3s6p-a1-m48-cA 3s6p-a1-m47-cB_3s6p-a1-m48-cC 3s6p-a1-m48-cA_3s6p-a1-m49-cA 3s6p-a1-m48-cB_3s6p-a1-m49-cC 3s6p-a1-m49-cA_3s6p-a1-m50-cA 3s6p-a1-m49-cB_3s6p-a1-m50-cC 3s6p-a1-m4-cA_3s6p-a1-m5-cA 3s6p-a1-m4-cB_3s6p-a1-m5-cC 3s6p-a1-m50-cB_3s6p-a1-m46-cC 3s6p-a1-m51-cA_3s6p-a1-m52-cA 3s6p-a1-m51-cA_3s6p-a1-m55-cA 3s6p-a1-m51-cB_3s6p-a1-m52-cC 3s6p-a1-m52-cA_3s6p-a1-m53-cA 3s6p-a1-m52-cB_3s6p-a1-m53-cC 3s6p-a1-m53-cA_3s6p-a1-m54-cA 3s6p-a1-m53-cB_3s6p-a1-m54-cC 3s6p-a1-m54-cA_3s6p-a1-m55-cA 3s6p-a1-m54-cB_3s6p-a1-m55-cC 3s6p-a1-m55-cB_3s6p-a1-m51-cC 3s6p-a1-m56-cA_3s6p-a1-m57-cA 3s6p-a1-m56-cA_3s6p-a1-m60-cA 3s6p-a1-m56-cB_3s6p-a1-m57-cC 3s6p-a1-m57-cA_3s6p-a1-m58-cA 3s6p-a1-m57-cB_3s6p-a1-m58-cC 3s6p-a1-m58-cA_3s6p-a1-m59-cA 3s6p-a1-m58-cB_3s6p-a1-m59-cC 3s6p-a1-m59-cA_3s6p-a1-m60-cA 3s6p-a1-m59-cB_3s6p-a1-m60-cC 3s6p-a1-m5-cB_3s6p-a1-m1-cC 3s6p-a1-m60-cB_3s6p-a1-m56-cC 3s6p-a1-m6-cA_3s6p-a1-m7-cA 3s6p-a1-m6-cB_3s6p-a1-m7-cC 3s6p-a1-m7-cA_3s6p-a1-m8-cA 3s6p-a1-m7-cB_3s6p-a1-m8-cC 3s6p-a1-m8-cA_3s6p-a1-m9-cA 3s6p-a1-m9-cB_3s6p-a1-m10-cC PDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN GRQVSPPDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN 3s6p-a1-m8-cH_3s6p-a1-m9-cG Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 10 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 63 72 3s6p-a1-m10-cH_3s6p-a1-m6-cG 3s6p-a1-m11-cH_3s6p-a1-m12-cG 3s6p-a1-m12-cH_3s6p-a1-m13-cG 3s6p-a1-m13-cH_3s6p-a1-m14-cG 3s6p-a1-m14-cH_3s6p-a1-m15-cG 3s6p-a1-m16-cH_3s6p-a1-m17-cG 3s6p-a1-m17-cH_3s6p-a1-m18-cG 3s6p-a1-m18-cH_3s6p-a1-m19-cG 3s6p-a1-m19-cH_3s6p-a1-m20-cG 3s6p-a1-m1-cH_3s6p-a1-m2-cG 3s6p-a1-m21-cH_3s6p-a1-m22-cG 3s6p-a1-m22-cH_3s6p-a1-m23-cG 3s6p-a1-m23-cH_3s6p-a1-m24-cG 3s6p-a1-m24-cH_3s6p-a1-m25-cG 3s6p-a1-m26-cH_3s6p-a1-m27-cG 3s6p-a1-m27-cH_3s6p-a1-m28-cG 3s6p-a1-m28-cH_3s6p-a1-m29-cG 3s6p-a1-m29-cH_3s6p-a1-m30-cG 3s6p-a1-m2-cH_3s6p-a1-m3-cG 3s6p-a1-m31-cH_3s6p-a1-m32-cG 3s6p-a1-m32-cH_3s6p-a1-m33-cG 3s6p-a1-m33-cH_3s6p-a1-m34-cG 3s6p-a1-m34-cH_3s6p-a1-m35-cG 3s6p-a1-m36-cH_3s6p-a1-m37-cG 3s6p-a1-m37-cH_3s6p-a1-m38-cG 3s6p-a1-m38-cH_3s6p-a1-m39-cG 3s6p-a1-m39-cH_3s6p-a1-m40-cG 3s6p-a1-m3-cH_3s6p-a1-m4-cG 3s6p-a1-m41-cH_3s6p-a1-m42-cG 3s6p-a1-m42-cH_3s6p-a1-m43-cG 3s6p-a1-m43-cH_3s6p-a1-m44-cG 3s6p-a1-m44-cH_3s6p-a1-m45-cG 3s6p-a1-m46-cH_3s6p-a1-m47-cG 3s6p-a1-m47-cH_3s6p-a1-m48-cG 3s6p-a1-m48-cH_3s6p-a1-m49-cG 3s6p-a1-m49-cH_3s6p-a1-m50-cG 3s6p-a1-m4-cH_3s6p-a1-m5-cG 3s6p-a1-m51-cH_3s6p-a1-m52-cG 3s6p-a1-m52-cH_3s6p-a1-m53-cG 3s6p-a1-m53-cH_3s6p-a1-m54-cG 3s6p-a1-m54-cH_3s6p-a1-m55-cG 3s6p-a1-m56-cH_3s6p-a1-m57-cG 3s6p-a1-m57-cH_3s6p-a1-m58-cG 3s6p-a1-m58-cH_3s6p-a1-m59-cG 3s6p-a1-m59-cH_3s6p-a1-m60-cG 3s6p-a1-m6-cH_3s6p-a1-m7-cG 3s6p-a1-m7-cH_3s6p-a1-m8-cG FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGPGLLMSVPGKIAARVRARRARRRAARAN FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGAAQSGLAKLPGLLMSVPGKIAARVRARRARRRAARAN 3s6p-a1-m9-cB_3s6p-a1-m9-cD Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 139 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 530 532 3s6p-a1-m10-cB_3s6p-a1-m10-cD 3s6p-a1-m10-cD_3s6p-a1-m1-cC 3s6p-a1-m11-cB_3s6p-a1-m11-cD 3s6p-a1-m11-cD_3s6p-a1-m38-cC 3s6p-a1-m12-cB_3s6p-a1-m12-cD 3s6p-a1-m12-cD_3s6p-a1-m47-cC 3s6p-a1-m13-cB_3s6p-a1-m13-cD 3s6p-a1-m13-cD_3s6p-a1-m45-cC 3s6p-a1-m14-cB_3s6p-a1-m14-cD 3s6p-a1-m14-cD_3s6p-a1-m29-cC 3s6p-a1-m15-cB_3s6p-a1-m15-cD 3s6p-a1-m15-cD_3s6p-a1-m16-cC 3s6p-a1-m16-cB_3s6p-a1-m16-cD 3s6p-a1-m16-cD_3s6p-a1-m28-cC 3s6p-a1-m17-cB_3s6p-a1-m17-cD 3s6p-a1-m17-cD_3s6p-a1-m52-cC 3s6p-a1-m18-cB_3s6p-a1-m18-cD 3s6p-a1-m18-cD_3s6p-a1-m60-cC 3s6p-a1-m19-cB_3s6p-a1-m19-cD 3s6p-a1-m19-cD_3s6p-a1-m39-cC 3s6p-a1-m1-cB_3s6p-a1-m1-cD 3s6p-a1-m1-cD_3s6p-a1-m23-cC 3s6p-a1-m20-cB_3s6p-a1-m20-cD 3s6p-a1-m20-cD_3s6p-a1-m11-cC 3s6p-a1-m21-cB_3s6p-a1-m21-cD 3s6p-a1-m21-cD_3s6p-a1-m43-cC 3s6p-a1-m22-cB_3s6p-a1-m22-cD 3s6p-a1-m22-cD_3s6p-a1-m2-cC 3s6p-a1-m23-cB_3s6p-a1-m23-cD 3s6p-a1-m23-cD_3s6p-a1-m10-cC 3s6p-a1-m24-cB_3s6p-a1-m24-cD 3s6p-a1-m24-cD_3s6p-a1-m54-cC 3s6p-a1-m25-cB_3s6p-a1-m25-cD 3s6p-a1-m25-cD_3s6p-a1-m26-cC 3s6p-a1-m26-cB_3s6p-a1-m26-cD 3s6p-a1-m26-cD_3s6p-a1-m53-cC 3s6p-a1-m27-cB_3s6p-a1-m27-cD 3s6p-a1-m27-cD_3s6p-a1-m17-cC 3s6p-a1-m28-cB_3s6p-a1-m28-cD 3s6p-a1-m28-cD_3s6p-a1-m15-cC 3s6p-a1-m29-cB_3s6p-a1-m29-cD 3s6p-a1-m29-cD_3s6p-a1-m44-cC 3s6p-a1-m2-cB_3s6p-a1-m2-cD 3s6p-a1-m2-cD_3s6p-a1-m42-cC 3s6p-a1-m30-cB_3s6p-a1-m30-cD 3s6p-a1-m30-cD_3s6p-a1-m21-cC 3s6p-a1-m31-cB_3s6p-a1-m31-cD 3s6p-a1-m31-cD_3s6p-a1-m58-cC 3s6p-a1-m32-cB_3s6p-a1-m32-cD 3s6p-a1-m32-cD_3s6p-a1-m7-cC 3s6p-a1-m33-cB_3s6p-a1-m33-cD 3s6p-a1-m33-cD_3s6p-a1-m5-cC 3s6p-a1-m34-cB_3s6p-a1-m34-cD 3s6p-a1-m34-cD_3s6p-a1-m49-cC 3s6p-a1-m35-cB_3s6p-a1-m35-cD 3s6p-a1-m35-cD_3s6p-a1-m36-cC 3s6p-a1-m36-cB_3s6p-a1-m36-cD 3s6p-a1-m36-cD_3s6p-a1-m48-cC 3s6p-a1-m37-cB_3s6p-a1-m37-cD 3s6p-a1-m37-cD_3s6p-a1-m12-cC 3s6p-a1-m38-cB_3s6p-a1-m38-cD 3s6p-a1-m38-cD_3s6p-a1-m20-cC 3s6p-a1-m39-cB_3s6p-a1-m39-cD 3s6p-a1-m39-cD_3s6p-a1-m59-cC 3s6p-a1-m3-cB_3s6p-a1-m3-cD 3s6p-a1-m3-cD_3s6p-a1-m50-cC 3s6p-a1-m40-cB_3s6p-a1-m40-cD 3s6p-a1-m40-cD_3s6p-a1-m31-cC 3s6p-a1-m41-cB_3s6p-a1-m41-cD 3s6p-a1-m41-cD_3s6p-a1-m3-cC 3s6p-a1-m42-cB_3s6p-a1-m42-cD 3s6p-a1-m42-cD_3s6p-a1-m22-cC 3s6p-a1-m43-cB_3s6p-a1-m43-cD 3s6p-a1-m43-cD_3s6p-a1-m30-cC 3s6p-a1-m44-cB_3s6p-a1-m44-cD 3s6p-a1-m44-cD_3s6p-a1-m14-cC 3s6p-a1-m45-cB_3s6p-a1-m45-cD 3s6p-a1-m45-cD_3s6p-a1-m46-cC 3s6p-a1-m46-cB_3s6p-a1-m46-cD 3s6p-a1-m46-cD_3s6p-a1-m13-cC 3s6p-a1-m47-cB_3s6p-a1-m47-cD 3s6p-a1-m47-cD_3s6p-a1-m37-cC 3s6p-a1-m48-cB_3s6p-a1-m48-cD 3s6p-a1-m48-cD_3s6p-a1-m35-cC 3s6p-a1-m49-cB_3s6p-a1-m49-cD 3s6p-a1-m49-cD_3s6p-a1-m4-cC 3s6p-a1-m4-cB_3s6p-a1-m4-cD 3s6p-a1-m4-cD_3s6p-a1-m34-cC 3s6p-a1-m50-cB_3s6p-a1-m50-cD 3s6p-a1-m50-cD_3s6p-a1-m41-cC 3s6p-a1-m51-cB_3s6p-a1-m51-cD 3s6p-a1-m51-cD_3s6p-a1-m18-cC 3s6p-a1-m52-cB_3s6p-a1-m52-cD 3s6p-a1-m52-cD_3s6p-a1-m27-cC 3s6p-a1-m53-cB_3s6p-a1-m53-cD 3s6p-a1-m53-cD_3s6p-a1-m25-cC 3s6p-a1-m54-cB_3s6p-a1-m54-cD 3s6p-a1-m54-cD_3s6p-a1-m9-cC 3s6p-a1-m55-cB_3s6p-a1-m55-cD 3s6p-a1-m55-cD_3s6p-a1-m56-cC 3s6p-a1-m56-cB_3s6p-a1-m56-cD 3s6p-a1-m56-cD_3s6p-a1-m8-cC 3s6p-a1-m57-cB_3s6p-a1-m57-cD 3s6p-a1-m57-cD_3s6p-a1-m32-cC 3s6p-a1-m58-cB_3s6p-a1-m58-cD 3s6p-a1-m58-cD_3s6p-a1-m40-cC 3s6p-a1-m59-cB_3s6p-a1-m59-cD 3s6p-a1-m59-cD_3s6p-a1-m19-cC 3s6p-a1-m5-cB_3s6p-a1-m5-cD 3s6p-a1-m5-cD_3s6p-a1-m6-cC 3s6p-a1-m60-cB_3s6p-a1-m60-cD 3s6p-a1-m60-cD_3s6p-a1-m51-cC 3s6p-a1-m6-cB_3s6p-a1-m6-cD 3s6p-a1-m6-cD_3s6p-a1-m33-cC 3s6p-a1-m7-cB_3s6p-a1-m7-cD 3s6p-a1-m7-cD_3s6p-a1-m57-cC 3s6p-a1-m8-cB_3s6p-a1-m8-cD 3s6p-a1-m8-cD_3s6p-a1-m55-cC 3s6p-a1-m9-cD_3s6p-a1-m24-cC PDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN SPPDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN 3s6p-a1-m9-cD_3s6p-a1-m9-cC Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 113 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 532 536 3s6p-a1-m10-cD_3s6p-a1-m10-cC 3s6p-a1-m11-cD_3s6p-a1-m11-cC 3s6p-a1-m12-cD_3s6p-a1-m12-cC 3s6p-a1-m13-cD_3s6p-a1-m13-cC 3s6p-a1-m14-cD_3s6p-a1-m14-cC 3s6p-a1-m15-cD_3s6p-a1-m15-cC 3s6p-a1-m16-cD_3s6p-a1-m16-cC 3s6p-a1-m17-cD_3s6p-a1-m17-cC 3s6p-a1-m18-cD_3s6p-a1-m18-cC 3s6p-a1-m19-cD_3s6p-a1-m19-cC 3s6p-a1-m1-cD_3s6p-a1-m1-cC 3s6p-a1-m20-cD_3s6p-a1-m20-cC 3s6p-a1-m21-cD_3s6p-a1-m21-cC 3s6p-a1-m22-cD_3s6p-a1-m22-cC 3s6p-a1-m23-cD_3s6p-a1-m23-cC 3s6p-a1-m24-cD_3s6p-a1-m24-cC 3s6p-a1-m25-cD_3s6p-a1-m25-cC 3s6p-a1-m26-cD_3s6p-a1-m26-cC 3s6p-a1-m27-cD_3s6p-a1-m27-cC 3s6p-a1-m28-cD_3s6p-a1-m28-cC 3s6p-a1-m29-cD_3s6p-a1-m29-cC 3s6p-a1-m2-cD_3s6p-a1-m2-cC 3s6p-a1-m30-cD_3s6p-a1-m30-cC 3s6p-a1-m31-cD_3s6p-a1-m31-cC 3s6p-a1-m32-cD_3s6p-a1-m32-cC 3s6p-a1-m33-cD_3s6p-a1-m33-cC 3s6p-a1-m34-cD_3s6p-a1-m34-cC 3s6p-a1-m35-cD_3s6p-a1-m35-cC 3s6p-a1-m36-cD_3s6p-a1-m36-cC 3s6p-a1-m37-cD_3s6p-a1-m37-cC 3s6p-a1-m38-cD_3s6p-a1-m38-cC 3s6p-a1-m39-cD_3s6p-a1-m39-cC 3s6p-a1-m3-cD_3s6p-a1-m3-cC 3s6p-a1-m40-cD_3s6p-a1-m40-cC 3s6p-a1-m41-cD_3s6p-a1-m41-cC 3s6p-a1-m42-cD_3s6p-a1-m42-cC 3s6p-a1-m43-cD_3s6p-a1-m43-cC 3s6p-a1-m44-cD_3s6p-a1-m44-cC 3s6p-a1-m45-cD_3s6p-a1-m45-cC 3s6p-a1-m46-cD_3s6p-a1-m46-cC 3s6p-a1-m47-cD_3s6p-a1-m47-cC 3s6p-a1-m48-cD_3s6p-a1-m48-cC 3s6p-a1-m49-cD_3s6p-a1-m49-cC 3s6p-a1-m4-cD_3s6p-a1-m4-cC 3s6p-a1-m50-cD_3s6p-a1-m50-cC 3s6p-a1-m51-cD_3s6p-a1-m51-cC 3s6p-a1-m52-cD_3s6p-a1-m52-cC 3s6p-a1-m53-cD_3s6p-a1-m53-cC 3s6p-a1-m54-cD_3s6p-a1-m54-cC 3s6p-a1-m55-cD_3s6p-a1-m55-cC 3s6p-a1-m56-cD_3s6p-a1-m56-cC 3s6p-a1-m57-cD_3s6p-a1-m57-cC 3s6p-a1-m58-cD_3s6p-a1-m58-cC 3s6p-a1-m59-cD_3s6p-a1-m59-cC 3s6p-a1-m5-cD_3s6p-a1-m5-cC 3s6p-a1-m60-cD_3s6p-a1-m60-cC 3s6p-a1-m6-cD_3s6p-a1-m6-cC 3s6p-a1-m7-cD_3s6p-a1-m7-cC 3s6p-a1-m8-cD_3s6p-a1-m8-cC SPPDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN GRQVSPPDNFTAAAQDLAQSLDANTVTFPANISSMPEFRNWAKGKIDLDSDSIGWYFKYLDPAGATESARAVGEYSKIPDGLVKFSVDAEIREIYNEECPVVTDVSVPLDGRQWSLSIFSFPMFRTAYVAVANVENKEMSLDVVNDLIEWLNNLADWRYVVDSEQWINFTNDTTYYVRIRVLRPTYDVPDPTEGLVRTVSDYRLTYKAITCEANMPTLVDQGFWIGGQYALTPTSLPQYDVSEAYALHTLTFARPSSAAALAFVWAGLPQGGTAPAGTPAWEQASSGGYLTWRHNGTTFPAGSVSYVLPEGFALERYDPNDGSWTDFASAGDTVTFRQVAVDEVVVTNNPAGGGSAPTFTVRVPPSNAYTNTVFRNTLLETRPSSRRLELPMPPADFGQTVANNPKIEQSLLKETLGCYLVHSKMRNPVFQLTPASSFGAVSFNNPGYERTRDLPDYTGIRDSFDQNMSTAVAHFRSLSHSCSIVTKTYQGWEGVTNVNTPFGQFAHAGLLKNEEILCLADDLATRLTGVYPATDN 3s6p-a1-m9-cH_3s6p-a1-m10-cG Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 10 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 63 72 3s6p-a1-m15-cH_3s6p-a1-m11-cG 3s6p-a1-m20-cH_3s6p-a1-m16-cG 3s6p-a1-m25-cH_3s6p-a1-m21-cG 3s6p-a1-m30-cH_3s6p-a1-m26-cG 3s6p-a1-m35-cH_3s6p-a1-m31-cG 3s6p-a1-m40-cH_3s6p-a1-m36-cG 3s6p-a1-m45-cH_3s6p-a1-m41-cG 3s6p-a1-m50-cH_3s6p-a1-m46-cG 3s6p-a1-m55-cH_3s6p-a1-m51-cG 3s6p-a1-m5-cH_3s6p-a1-m1-cG 3s6p-a1-m60-cH_3s6p-a1-m56-cG FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGPGLLMSVPGKIAARVRARRARRRAARAN FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGAAQSGLAKLPGLLMSVPGKIAARVRARRARRRAARAN 3s6p-a1-m9-cH_3s6p-a1-m24-cG Crystal Structure of Helicoverpa Armigera Stunt Virus Q82462 Q82462 2.5 X-RAY DIFFRACTION 14 1.0 37206 (Helicoverpa armigera stunt virus) 37206 (Helicoverpa armigera stunt virus) 63 72 3s6p-a1-m10-cH_3s6p-a1-m1-cG 3s6p-a1-m20-cH_3s6p-a1-m11-cG 3s6p-a1-m22-cH_3s6p-a1-m2-cG 3s6p-a1-m23-cH_3s6p-a1-m10-cG 3s6p-a1-m27-cH_3s6p-a1-m17-cG 3s6p-a1-m28-cH_3s6p-a1-m15-cG 3s6p-a1-m30-cH_3s6p-a1-m21-cG 3s6p-a1-m37-cH_3s6p-a1-m12-cG 3s6p-a1-m38-cH_3s6p-a1-m20-cG 3s6p-a1-m40-cH_3s6p-a1-m31-cG 3s6p-a1-m41-cH_3s6p-a1-m3-cG 3s6p-a1-m42-cH_3s6p-a1-m22-cG 3s6p-a1-m43-cH_3s6p-a1-m30-cG 3s6p-a1-m44-cH_3s6p-a1-m14-cG 3s6p-a1-m46-cH_3s6p-a1-m13-cG 3s6p-a1-m47-cH_3s6p-a1-m37-cG 3s6p-a1-m48-cH_3s6p-a1-m35-cG 3s6p-a1-m49-cH_3s6p-a1-m4-cG 3s6p-a1-m4-cH_3s6p-a1-m34-cG 3s6p-a1-m50-cH_3s6p-a1-m41-cG 3s6p-a1-m51-cH_3s6p-a1-m18-cG 3s6p-a1-m52-cH_3s6p-a1-m27-cG 3s6p-a1-m53-cH_3s6p-a1-m25-cG 3s6p-a1-m57-cH_3s6p-a1-m32-cG 3s6p-a1-m58-cH_3s6p-a1-m40-cG 3s6p-a1-m59-cH_3s6p-a1-m19-cG 3s6p-a1-m60-cH_3s6p-a1-m51-cG 3s6p-a1-m6-cH_3s6p-a1-m33-cG 3s6p-a1-m7-cH_3s6p-a1-m57-cG 3s6p-a1-m8-cH_3s6p-a1-m55-cG FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGPGLLMSVPGKIAARVRARRARRRAARAN FAAAVSAFAANMLSSVLKSEATSSIIKSVGETAVGAAQSGLAKLPGLLMSVPGKIAARVRARRARRRAARAN 3s7i-a1-m2-cA_3s7i-a1-m3-cA Crystal structure of Ara h 1 P43238 P43238 2.35 X-RAY DIFFRACTION 205 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 369 369 3s7e-a1-m1-cA_3s7e-a1-m2-cA 3s7e-a1-m1-cA_3s7e-a1-m3-cA 3s7e-a1-m2-cA_3s7e-a1-m3-cA 3s7e-a2-m1-cB_3s7e-a2-m4-cB 3s7e-a2-m1-cB_3s7e-a2-m5-cB 3s7e-a2-m4-cB_3s7e-a2-m5-cB 3s7i-a1-m1-cA_3s7i-a1-m2-cA 3s7i-a1-m1-cA_3s7i-a1-m3-cA 3s7i-a2-m1-cB_3s7i-a2-m4-cB 3s7i-a2-m1-cB_3s7i-a2-m5-cB 3s7i-a2-m4-cB_3s7i-a2-m5-cB 3smh-a1-m1-cA_3smh-a1-m1-cD 3smh-a1-m1-cC_3smh-a1-m1-cA 3smh-a1-m1-cC_3smh-a1-m1-cD 3smh-a2-m1-cB_3smh-a2-m1-cE 3smh-a2-m1-cF_3smh-a2-m1-cB 3smh-a2-m1-cF_3smh-a2-m1-cE RNNPFYFPSRRFSTRYGNQNGRIRVLQRFDQRSRQFQNLQNHRIVQIEAKPNTLVLPKHADADNILVIQQGQATVTVANGNNRKSFNLDEGHALRIPSGFISYILNRHDNQNLRVAKISMPVNTPGQFEDFFPASSRDQSSYLQGFSRNTLEAAFNAEFNEIRRVLLEENNEGVIVKVSKEHVEELTKHAKSEGDITNPINLREGEPDLSNNFGKLFEVKPDKKNPQLQDLDMMLTCVEIKEGALMLPHFNSKAMVIVVVNKGTGNLELVAVRKESNREVRRYTARLKEGDVFIMPAAHPVAINASSELHLLGFGINAENNHRIFLAGDKDNVIDQIEKQAKDLAFPGSGEQVEKLIKNQKESHFVSAR RNNPFYFPSRRFSTRYGNQNGRIRVLQRFDQRSRQFQNLQNHRIVQIEAKPNTLVLPKHADADNILVIQQGQATVTVANGNNRKSFNLDEGHALRIPSGFISYILNRHDNQNLRVAKISMPVNTPGQFEDFFPASSRDQSSYLQGFSRNTLEAAFNAEFNEIRRVLLEENNEGVIVKVSKEHVEELTKHAKSEGDITNPINLREGEPDLSNNFGKLFEVKPDKKNPQLQDLDMMLTCVEIKEGALMLPHFNSKAMVIVVVNKGTGNLELVAVRKESNREVRRYTARLKEGDVFIMPAAHPVAINASSELHLLGFGINAENNHRIFLAGDKDNVIDQIEKQAKDLAFPGSGEQVEKLIKNQKESHFVSAR 3s7v-a2-m1-cI_3s7v-a2-m1-cJ Unassembled KI Polyomavirus VP1 Pentamer P0DOI2 P0DOI2 2.55 X-RAY DIFFRACTION 160 1.0 256 261 3s7v-a1-m1-cA_3s7v-a1-m1-cB 3s7v-a1-m1-cA_3s7v-a1-m1-cE 3s7v-a1-m1-cB_3s7v-a1-m1-cC 3s7v-a1-m1-cD_3s7v-a1-m1-cC 3s7v-a1-m1-cD_3s7v-a1-m1-cE 3s7v-a2-m1-cG_3s7v-a2-m1-cF 3s7v-a2-m1-cG_3s7v-a2-m1-cH 3s7v-a2-m1-cI_3s7v-a2-m1-cH 3s7v-a2-m1-cJ_3s7v-a2-m1-cF VLAAVPLSEETEFKVELFVKPVIGNTTAEPTPHYWSISSAIHDKESGSSIKVEETPDADTTVCYSLAEIAPPDIMKVWELYRMETELLVVPLVNALGNTNGVVHGLAGTQLYFWAVGGQPLDVVGVTPTDKYKGPTTYTINPPGDPRTLHVYNSNTPKAKVTSERYSVESWAPDPSRNDNCRYFGRVVGGAATPPVVSYGNNSTIPLLDENGIGILCLQGRLYITCADMLGTANSRIHTPMARFFRLHFRQRRVKN EVLAAVPLSEETEFKVELFVKPVIGNTTAEPTPHYWSISSAIHDKESGSSIKVEETPDADTTVCYSLAEIAPPDIPNQDMKVWELYRMETELLVVPLVNALGNTNGVVHGLAGTQLYFWAVGGQPLDVVGVTPTDKYKGPTTYTINPPGDPRTLHVYNSNTPKAKVTSERYSVESWAPDPSRNDNCRYFGRVVGGAATPPVVSYGNNSTIPLLDENGIGILCLQGRLYITCADMLGTANSRIHTPMARFFRLHFRQRRVKN 3s7x-a1-m1-cB_3s7x-a1-m1-cA Unassembled Washington University Polyomavirus VP1 Pentamer R198K Mutant A5HBD5 A5HBD5 2.9 X-RAY DIFFRACTION 161 1.0 440266 (WU Polyomavirus) 440266 (WU Polyomavirus) 261 263 3s7x-a1-m1-cB_3s7x-a1-m1-cC 3s7x-a1-m1-cD_3s7x-a1-m1-cC 3s7x-a1-m1-cE_3s7x-a1-m1-cA 3s7x-a1-m1-cE_3s7x-a1-m1-cD HMGGVDVLAAVPLSEETEFKVELFVKPVIGNAEGTTPHYWSISSPLKTAEAANVTPDADTTVCYSLSQVAPPDIPECDMLIWELYRMETEVLVLPVLNAGILTTGGVGGIAGPQLYFWAVGGQPLDVLGLAPTEKYKGPAQYTVNPKTNGTVPHVYSSSETPKARVTNEKYSIESWVADPSRNDNCRYFGRMVGGAATPPVVSFSNNSTIPLLDENGIGILCLQGRLYITCADLLGVNKNRVHTGLSRFFRLHFRQRRVRN SHMGGVDVLAAVPLSEETEFKVELFVKPVIGNAEGTTPHYWSISSPLKTAEAANVTPDADTTVCYSLSQVAPPDIPNECDMLIWELYRMETEVLVLPVLNAGILTTGGVGGIAGPQLYFWAVGGQPLDVLGLAPTEKYKGPAQYTVNPKTNGTVPHVYSSSETPKARVTNEKYSIESWVADPSRNDNCRYFGRMVGGAATPPVVSFSNNSTIPLLDENGIGILCLQGRLYITCADLLGVNKNRVHTGLSRFFRLHFRQRRVRN 3s7z-a1-m1-cA_3s7z-a1-m1-cB Crystal Structure of Putative Aspartate Racemase from Salmonella Typhimurium Complexed with Succinate Q8ZJZ9 Q8ZJZ9 2.002 X-RAY DIFFRACTION 129 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 225 227 3s81-a1-m1-cA_3s81-a1-m1-cB 3s81-a2-m1-cD_3s81-a2-m1-cC 5evc-a1-m1-cA_5evc-a1-m1-cB AKHTIGILGGGPAATADLEKFVELRHASCDQQHIPLIVSSIPDIPDRTACLLSGGPSPYRYLERYLHLEDAGAECIVIPCNTAHYWFDDLQNVAKARISILDATLGDIPPSARHVGLLATNATLATGLYQKKALARGLTLIQPEDAGQALVQAIYTLKRGDKTAAQALLLPQIDSLIARGAQAIIGCTEIPLIVAGHERAIACPIDSTASLVRAAIRWYESWPDT SNAKHTIGILGGGPAATADLEKFVELRHASCDQQHIPLIVSSIPDIPDRTACLLSGGPSPYRYLERYLHLEDAGAECIVIPCNTAHYWFDDLQNVAKARISILDATLGDIPPSARHVGLLATNATLATGLYQKKALARGLTLIQPEDAGQALVQAIYTLKRGDKTAAQALLLPQIDSLIARGAQAIIGCTEIPLIVAGHERAIACPIDSTASLVRAAIRWYESWPDT 3s7z-a2-m2-cA_3s7z-a2-m1-cB Crystal Structure of Putative Aspartate Racemase from Salmonella Typhimurium Complexed with Succinate Q8ZJZ9 Q8ZJZ9 2.002 X-RAY DIFFRACTION 39 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 225 227 AKHTIGILGGGPAATADLEKFVELRHASCDQQHIPLIVSSIPDIPDRTACLLSGGPSPYRYLERYLHLEDAGAECIVIPCNTAHYWFDDLQNVAKARISILDATLGDIPPSARHVGLLATNATLATGLYQKKALARGLTLIQPEDAGQALVQAIYTLKRGDKTAAQALLLPQIDSLIARGAQAIIGCTEIPLIVAGHERAIACPIDSTASLVRAAIRWYESWPDT SNAKHTIGILGGGPAATADLEKFVELRHASCDQQHIPLIVSSIPDIPDRTACLLSGGPSPYRYLERYLHLEDAGAECIVIPCNTAHYWFDDLQNVAKARISILDATLGDIPPSARHVGLLATNATLATGLYQKKALARGLTLIQPEDAGQALVQAIYTLKRGDKTAAQALLLPQIDSLIARGAQAIIGCTEIPLIVAGHERAIACPIDSTASLVRAAIRWYESWPDT 3s82-a2-m1-cA_3s82-a2-m2-cB Structure of a S-adenosylmethionine synthetase from Mycobacterium avium A0QI26 A0QI26 1.73 X-RAY DIFFRACTION 49 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 373 376 3rv2-a2-m1-cA_3rv2-a2-m2-cB 3rv2-a2-m1-cB_3rv2-a2-m2-cA 3s82-a2-m2-cA_3s82-a2-m1-cB 3tde-a1-m1-cA_3tde-a1-m1-cD 3tde-a1-m1-cB_3tde-a1-m1-cC GRLFTSESVTEGHPDKICDAISDSVLDALLAQDPRSRVAVETLVTTGQVHVVGEVTTTAKEAFADITNTVRERILDIGYDSSDKGFDGASCGVNIGIGAQSPGDQGLMFGYAINDTPERMPLPIALAHRLSRRLTEVRKNGVLPYLRPDGKTQVTIEFEDDVPVRLDTVVISTQHAADIDLENTLTPDIREKVLNTVLNDLAHDTLDTSSTRLLVNPTGKFVVGGPMGDAGLTGRKIIVDTYGGWARHGGGAFSGKDPSKVDRSAAYAMRWVAKNIVAAGLAERVEVQVAYAIGKAAPVGLFIETFGTATVDPVKIEKIVPEVFDLRPGAIIRDLDLLRPIYAQTAAYGHFGRTDVELPWEQLNKVDDLKRAI SEKGRLFTSESVTEGHPDKICDAISDSVLDALLAQDPRSRVAVETLVTTGQVHVVGEVTTTAKEAFADITNTVRERILDIGYDSSDKGFDGASCGVNIGIGAQSPGDQGLMFGYAINDTPERMPLPIALAHRLSRRLTEVRKNGVLPYLRPDGKTQVTIEFEDDVPVRLDTVVISTQHAADIDLENTLTPDIREKVLNTVLNDLAHDTLDTSSTRLLVNPTGKFVVGGPMGDAGLTGRKIIVDTYGGWARHGGGAFSGKDPSKVDRSAAYAMRWVAKNIVAAGLAERVEVQVAYAIGKAAPVGLFIETFGTATVDPVKIEKIVPEVFDLRPGAIIRDLDLLRPIYAQTAAYGHFGRTDVELPWEQLNKVDDLKRAI 3s84-a1-m1-cA_3s84-a1-m1-cB Dimeric apoA-IV P06727 P06727 2.4 X-RAY DIFFRACTION 358 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 241 DSEKLKEEIGKELEELRARLLPHANEVSQKIGDNLRELQQRLEPYADQLRTQVNTQAEQLRRQLTPYAQRMERVLRENADSLQASLRPHADELKAKIDQNVEELKGRLTPYADEFKVKIDQTVEELRRSLAPYAQDTQEKLNHQLEGLTFQMKKNAEELKARISASAEELRQRLAPLAEDVRGNLRGNTEGLQKSLAELGGHLDQQVEEFRRRVEPYGENFNKALVQQMEQLRQKLGPH AKDSEKLKEEIGKELEELRARLLPHANEVSQKIGDNLRELQQRLEPYADQLRTQVNTQAEQLRRQLTPYAQRMERVLRENADSLQASLRPHADELKAKIDQNVEELKGRLTPYADEFKVKIDQTVEELRRSLAPYAQDTQEKLNHQLEGLTFQMKKNAEELKARISASAEELRQRLAPLAEDVRGNLRGNTEGLQKSLAELGGHLDQQVEEFRRRVEPYGENFNKALVQQMEQLRQKLGPH 3s88-a2-m11-cH_3s88-a2-m9-cH Crystal structure of Sudan Ebolavirus Glycoprotein (strain Gulu) bound to 16F6 3.351 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 220 220 3s88-a2-m10-cH_3s88-a2-m12-cH 3s88-a2-m1-cH_3s88-a2-m3-cH 3s88-a2-m2-cH_3s88-a2-m4-cH 3s88-a2-m5-cH_3s88-a2-m7-cH 3s88-a2-m6-cH_3s88-a2-m8-cH EVQLVESGGGLVTPGGSLKLSCAASGFAFNYYDMFWVRQNTEKRLEWVAYINSGGGNTYYPDTVKGRFTISRDNAKKTLFLQMSSLRSEDTAMYYCARQLYGNSFFDYWGQGTSLTVSAAKTTPPSVYPLAPGSAAAAASMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPAD EVQLVESGGGLVTPGGSLKLSCAASGFAFNYYDMFWVRQNTEKRLEWVAYINSGGGNTYYPDTVKGRFTISRDNAKKTLFLQMSSLRSEDTAMYYCARQLYGNSFFDYWGQGTSLTVSAAKTTPPSVYPLAPGSAAAAASMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSPRPSETVTCNVAHPASSTKVDKKIVPAD 3s88-a5-m5-cJ_3s88-a5-m9-cJ Crystal structure of Sudan Ebolavirus Glycoprotein (strain Gulu) bound to 16F6 Q7T9D9 Q7T9D9 3.351 X-RAY DIFFRACTION 52 1.0 186540 (Sudan ebolavirus) 186540 (Sudan ebolavirus) 106 106 3s88-a2-m10-cJ_3s88-a2-m3-cJ 3s88-a2-m10-cJ_3s88-a2-m8-cJ 3s88-a2-m11-cJ_3s88-a2-m4-cJ 3s88-a2-m11-cJ_3s88-a2-m6-cJ 3s88-a2-m12-cJ_3s88-a2-m2-cJ 3s88-a2-m12-cJ_3s88-a2-m7-cJ 3s88-a2-m1-cJ_3s88-a2-m5-cJ 3s88-a2-m1-cJ_3s88-a2-m9-cJ 3s88-a2-m2-cJ_3s88-a2-m7-cJ 3s88-a2-m3-cJ_3s88-a2-m8-cJ 3s88-a2-m4-cJ_3s88-a2-m6-cJ 3s88-a2-m5-cJ_3s88-a2-m9-cJ 3s88-a3-m1-cJ_3s88-a3-m5-cJ 3s88-a3-m1-cJ_3s88-a3-m9-cJ 3s88-a3-m5-cJ_3s88-a3-m9-cJ 3s88-a4-m1-cJ_3s88-a4-m5-cJ 3s88-a4-m1-cJ_3s88-a4-m9-cJ 3s88-a4-m5-cJ_3s88-a4-m9-cJ 3s88-a5-m1-cJ_3s88-a5-m5-cJ 3s88-a5-m1-cJ_3s88-a5-m9-cJ KCNPNLHYWTAQEQHNAAGIAWIPYFGPGAEGIYTEGLMHNQNALVCGLRQLANETTQALQLFLRATTELRTYTILNRKAIDFLLRRWGGTCRILGPDCCIEPHDW KCNPNLHYWTAQEQHNAAGIAWIPYFGPGAEGIYTEGLMHNQNALVCGLRQLANETTQALQLFLRATTELRTYTILNRKAIDFLLRRWGGTCRILGPDCCIEPHDW 3s8c-a1-m1-cA_3s8c-a1-m2-cA Structure of Yeast Ribonucleotide Reductase 1 R293A with AMPPNP and CDP P21524 P21524 2.77 X-RAY DIFFRACTION 96 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 666 666 1zyz-a3-m3-cB_1zyz-a3-m1-cA 1zyz-a3-m4-cB_1zyz-a3-m2-cA 1zzd-a1-m1-cA_1zzd-a1-m2-cA 2cvs-a1-m1-cA_2cvs-a1-m2-cA 2cvt-a1-m1-cA_2cvt-a1-m2-cA 2cvu-a1-m1-cA_2cvu-a1-m2-cA 2cvv-a1-m1-cA_2cvv-a1-m2-cA 2cvw-a1-m1-cA_2cvw-a1-m2-cA 2cvx-a1-m1-cA_2cvx-a1-m2-cA 2cvy-a1-m1-cA_2cvy-a1-m2-cA 2eud-a1-m1-cA_2eud-a1-m2-cA 2zlf-a1-m1-cA_2zlf-a1-m2-cA 2zlg-a1-m1-cA_2zlg-a1-m2-cA 3k8t-a1-m1-cA_3k8t-a1-m2-cA 3paw-a1-m1-cA_3paw-a1-m1-cB 3paw-a2-m1-cC_3paw-a2-m1-cD 3rsr-a1-m1-cA_3rsr-a1-m2-cA 3s87-a1-m1-cA_3s87-a1-m2-cA 3s8a-a1-m1-cA_3s8a-a1-m2-cA 3s8b-a1-m1-cA_3s8b-a1-m2-cA 3tb9-a1-m1-cA_3tb9-a1-m2-cA 3tba-a1-m1-cA_3tba-a1-m2-cA YATLAARIAISNLHKQTTKQFSKVVEDLYRYVNAATGKPAPMISDDVYNIVMENKDKLNSAIVYDRDFQYSYFGFKTLERSYLLRINGQVAERPQHLIMRVALGIHGRDIEAALETYNLMSLKYFTHASPTLFNAGTPKPQMSSCFLVAMKEDSIEGIYDTLKECALISKTAGGIGLHIHNIRSTGSYIAGTNGTSNGLIPMIRVFNNTARYVDQGGNKAPGAFALYLEPWHADIFDFIDIRKNHGKEEIRARDLFPALWIPDLFMKRVEENGTWTLFSPTSAPGLSDCYGDEFEALYTRYEKEGRGKTIKAQKLWYSILEAQTETGTPFVVYKDACNRKSNQKNLGVIKSSNLCCEIVEYSAPDETAVCNLASVALPAFIETSEDGKTSTYNFKKLHEIAKVVTRNLNRVIDRNYYPVEEARKSNMRHRPIALGVQGLADTFMLLRLPFDSEEARLLNIQIFETIYHASMEASCELAQKDGPYETFQGSPASQGILQFDMWDQKPYGMWDWDTLRKDIMKHGVRNSLTMAPMPTASTSQILGYNECFEPVTSNMYSFQVVNPYLLRDLVDLGIWDEGMKQYLITQNGSIQGLPNVPQELKDLYKTVWEISQKTIINMAADRSVYIDQSHSLNLFLRAPTMGKLTSMHFYGWKKGLKTGMYYLRTQ YATLAARIAISNLHKQTTKQFSKVVEDLYRYVNAATGKPAPMISDDVYNIVMENKDKLNSAIVYDRDFQYSYFGFKTLERSYLLRINGQVAERPQHLIMRVALGIHGRDIEAALETYNLMSLKYFTHASPTLFNAGTPKPQMSSCFLVAMKEDSIEGIYDTLKECALISKTAGGIGLHIHNIRSTGSYIAGTNGTSNGLIPMIRVFNNTARYVDQGGNKAPGAFALYLEPWHADIFDFIDIRKNHGKEEIRARDLFPALWIPDLFMKRVEENGTWTLFSPTSAPGLSDCYGDEFEALYTRYEKEGRGKTIKAQKLWYSILEAQTETGTPFVVYKDACNRKSNQKNLGVIKSSNLCCEIVEYSAPDETAVCNLASVALPAFIETSEDGKTSTYNFKKLHEIAKVVTRNLNRVIDRNYYPVEEARKSNMRHRPIALGVQGLADTFMLLRLPFDSEEARLLNIQIFETIYHASMEASCELAQKDGPYETFQGSPASQGILQFDMWDQKPYGMWDWDTLRKDIMKHGVRNSLTMAPMPTASTSQILGYNECFEPVTSNMYSFQVVNPYLLRDLVDLGIWDEGMKQYLITQNGSIQGLPNVPQELKDLYKTVWEISQKTIINMAADRSVYIDQSHSLNLFLRAPTMGKLTSMHFYGWKKGLKTGMYYLRTQ 3s8k-a1-m1-cB_3s8k-a1-m1-cA Crystal structure of a papaya latex serine protease inhibitor (PPI) at 1.7A resolution P80691 P80691 1.7 X-RAY DIFFRACTION 28 1.0 3649 (Carica papaya) 3649 (Carica papaya) 182 183 APKPIVDIDGKPVLYGVDYFVVSAIWGAGGGGLTVYGPGNKKKCPLSVVQDPFDNGEPIIFSAIKNVKDNIVRESVDLNVKFNITINCNETTAWKVDRFPGVIGWTVTLGGEKGYHGFESTHSMFKIKKAGLPFSYKFHFCPSYPRTRLIPCNNVDIFFDKYRIRRLILTNDAKEFVFIKTN APKPIVDIDGKPVLYGVDYFVVSAIWGAGGGGLTVYGPGNKKKCPLSVVQDPFDNGEPIIFSAIKNVKDNIVRESVDLNVKFNITINCNETTAWKVDRFPGVIGWTVTLGGEKGYHGFESTHSMFKIKKAGLPFSYKFHFCPSYPRTRLIPCNNVDIFFDKYRIRRLILTNDAKEFVFIKTNR 3s91-a1-m1-cA_3s91-a1-m2-cA Crystal Structure of the first bromodomain of human BRD3 in complex with the inhibitor JQ1 Q15059 Q15059 2.06 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 TNQLQYMQNVVVKTLWKHQFAWPFYQPVDAIKLNLPDYHKIIKNPMDMGTIKKRLENNYYWSASECMQDFNTMFTNCYIYNKPTDDIVLMAQALEKIFLQKVAQMPQ TNQLQYMQNVVVKTLWKHQFAWPFYQPVDAIKLNLPDYHKIIKNPMDMGTIKKRLENNYYWSASECMQDFNTMFTNCYIYNKPTDDIVLMAQALEKIFLQKVAQMPQ 3s9f-a1-m1-cA_3s9f-a1-m2-cA The structure of Tryparedoxin I from Leishmania major E9ADX4 E9ADX4 1.8 X-RAY DIFFRACTION 105 1.0 5664 (Leishmania major) 5664 (Leishmania major) 144 144 SGVAKHLGEALKLRKQADTADMDSLSGKTVFFYFSASWCPPCRGFTPQLVEFYEKHHDSKNFEIILASWDEEEDDFNAYYAKMPWLSIPFANRNIVEALTKKYSVESIPTLIGLNADTGDTVTTRARHALTQDPMGEQFPWRDE SGVAKHLGEALKLRKQADTADMDSLSGKTVFFYFSASWCPPCRGFTPQLVEFYEKHHDSKNFEIILASWDEEEDDFNAYYAKMPWLSIPFANRNIVEALTKKYSVESIPTLIGLNADTGDTVTTRARHALTQDPMGEQFPWRDE 3s9g-a1-m1-cB_3s9g-a1-m1-cA Structure of human Hexim1 (delta stammer) coiled coil domain O94992 O94992 2.1 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 82 ERYHTESLQNMSKQELIKEYLELEKSLSRMEDENNRLRLESKRLDARVRELELELDRLRAENLQLLTENELHRQQE DFSETYERYHTESLQNMSKQELIKEYLELEKSLSRMEDENNRLRLESKRLDARVRELELELDRLRAENLQLLTENELHRQQE 3s9k-a2-m1-cA_3s9k-a2-m2-cA Crystal structure of the Itk SH2 domain. Q03526 Q03526 2.354 X-RAY DIFFRACTION 198 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 NLETYEWYNKSISRDKAEKLLLDTGKEGAFMVRDSRTPGTYTVSVFTKAIISENPCIKHYHIKETNDSPKRYYVAEKYVFDSIPLLIQYHQYNGGGLVTRLRYPVCGSPGIHRD NLETYEWYNKSISRDKAEKLLLDTGKEGAFMVRDSRTPGTYTVSVFTKAIISENPCIKHYHIKETNDSPKRYYVAEKYVFDSIPLLIQYHQYNGGGLVTRLRYPVCGSPGIHRD 3saj-a2-m1-cB_3saj-a2-m1-cD Crystal Structure of glutamate receptor GluA1 Amino Terminal Domain P19490 P19490 2.5 X-RAY DIFFRACTION 88 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 366 367 3saj-a1-m1-cA_3saj-a1-m1-cC AMPNNIQIGGLFPNQQSQEHAAFRFALSQLTEPPKLLPQIDIVNISDSFEMTYRFCSQFSKGVYAIFGFYERRTVNMLTSFCGALHVCFITPSFPVDTSNQFVLQLRPELQEALISIIDHYKWQTFVYIYDADRGLSVLQRVLDTAAEKNWQVTAVNILTTTEEGYRMLFQDLEKKKERLVVVDCESERLNAILGQIVKLEKNGIGYHYILANLGFMDIDLNKFKESGANVTGFQLVNYTDTIPARIMQQWRTSDSRDKRPKYTSALTYDGVKVMAEAFQSLRRQRIDISRRGNAGDCLANPAVPWGQGIDIQRALQQVRFEGLTGNVQFNEKGRRTNYTLHVIEMKHDGIRKIGYWNEDDKFVPA GAMPNNIQIGGLFPNQQSQEHAAFRFALSQLTEPPKLLPQIDIVNISDSFEMTYRFCSQFSKGVYAIFGFYERRTVNMLTSFCGALHVCFITPSFPVDTSNQFVLQLRPELQEALISIIDHYKWQTFVYIYDADRGLSVLQRVLDTAAEKNWQVTAVNILTTTEEGYRMLFQDLEKKKERLVVVDCESERLNAILGQIVKLEKNGIGYHYILANLGFMDIDLNKFKESGANVTGFQLVNYTDTIPARIMQQWRTSDSRDKRPKYTSALTYDGVKVMAEAFQSLRRQRIDISRRGNAGDCLANPAVPWGQGIDIQRALQQVRFEGLTGNVQFNEKGRRTNYTLHVIEMKHDGIRKIGYWNEDDKFVPA 3sal-a2-m7-cB_3sal-a2-m5-cB Crystal Structure of Influenza A Virus Neuraminidase N5 A1ILL9 A1ILL9 1.5 X-RAY DIFFRACTION 103 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 394 394 3sal-a1-m3-cA_3sal-a1-m1-cA 3sal-a1-m3-cA_3sal-a1-m2-cA 3sal-a1-m4-cA_3sal-a1-m1-cA 3sal-a1-m4-cA_3sal-a1-m2-cA 3sal-a2-m6-cB_3sal-a2-m1-cB 3sal-a2-m6-cB_3sal-a2-m5-cB 3sal-a2-m7-cB_3sal-a2-m1-cB 3san-a1-m3-cA_3san-a1-m1-cA 3san-a1-m3-cA_3san-a1-m2-cA 3san-a1-m4-cA_3san-a1-m1-cA 3san-a1-m4-cA_3san-a1-m2-cA 3san-a2-m6-cB_3san-a2-m1-cB 3san-a2-m6-cB_3san-a2-m5-cB 3san-a2-m7-cB_3san-a2-m1-cB 3san-a2-m7-cB_3san-a2-m5-cB 3ti8-a1-m3-cA_3ti8-a1-m1-cA 3ti8-a1-m3-cA_3ti8-a1-m2-cA 3ti8-a1-m4-cA_3ti8-a1-m1-cA 3ti8-a1-m4-cA_3ti8-a1-m2-cA 3ti8-a2-m6-cB_3ti8-a2-m1-cB 3ti8-a2-m6-cB_3ti8-a2-m5-cB 3ti8-a2-m7-cB_3ti8-a2-m1-cB 3ti8-a2-m7-cB_3ti8-a2-m5-cB 4qn5-a1-m1-cA_4qn5-a1-m3-cA 4qn5-a1-m1-cA_4qn5-a1-m4-cA 4qn5-a1-m2-cA_4qn5-a1-m3-cA 4qn5-a1-m2-cA_4qn5-a1-m4-cA 4qn5-a2-m1-cB_4qn5-a2-m6-cB 4qn5-a2-m1-cB_4qn5-a2-m7-cB 4qn5-a2-m5-cB_4qn5-a2-m6-cB 4qn5-a2-m5-cB_4qn5-a2-m7-cB PEFLNNTEPLCNVSGFAIVSKDNGIRIGSRGHVFVIREPFVACGPTECRTFFLTQGALLNDKHSNNTVKDRSPYRALMSVPLGSSPNAYQAKFESVAWSATACHDGKKWLAVGISGADDDAYAVIHYGGMPTDVVRSWRKQILRTQESSCVCMNGNCYWVMTDGPANSQASYKIFKSHEGMVTNEREVSFQGGHIEECSCYPNLGKVECVCRDNWNGMNRPILIFDEDLDYEVGYLCAGIPTDTPRVQDSSFTGSCTNAVGGSGTNNYGVKGFGFRQGNSVWAGRTVSISSRSGFEILLIEDGWIRTSKTIVKKVEVLNNKNWSGYSGAFTIPITMTSKQCLVPCFWLEMIRGKPEERTSIWTSSSSTVFCGVSSEVPGWSWDDGAILPFDIDK PEFLNNTEPLCNVSGFAIVSKDNGIRIGSRGHVFVIREPFVACGPTECRTFFLTQGALLNDKHSNNTVKDRSPYRALMSVPLGSSPNAYQAKFESVAWSATACHDGKKWLAVGISGADDDAYAVIHYGGMPTDVVRSWRKQILRTQESSCVCMNGNCYWVMTDGPANSQASYKIFKSHEGMVTNEREVSFQGGHIEECSCYPNLGKVECVCRDNWNGMNRPILIFDEDLDYEVGYLCAGIPTDTPRVQDSSFTGSCTNAVGGSGTNNYGVKGFGFRQGNSVWAGRTVSISSRSGFEILLIEDGWIRTSKTIVKKVEVLNNKNWSGYSGAFTIPITMTSKQCLVPCFWLEMIRGKPEERTSIWTSSSSTVFCGVSSEVPGWSWDDGAILPFDIDK 3saq-a1-m2-cA_3saq-a1-m3-cA Structure of D13, the scaffolding protein of vaccinia virus P68440 P68440 3.51 X-RAY DIFFRACTION 49 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 465 465 2ygb-a1-m1-cA_2ygb-a1-m1-cB 2ygb-a1-m1-cA_2ygb-a1-m1-cC 2ygb-a1-m1-cC_2ygb-a1-m1-cB 2ygc-a1-m1-cA_2ygc-a1-m1-cB 2ygc-a1-m1-cA_2ygc-a1-m1-cC 2ygc-a1-m1-cB_2ygc-a1-m1-cC 3sam-a1-m1-cA_3sam-a1-m1-cB 3sam-a1-m1-cA_3sam-a1-m1-cC 3sam-a1-m1-cC_3sam-a1-m1-cB 3saq-a1-m1-cA_3saq-a1-m2-cA 3saq-a1-m1-cA_3saq-a1-m3-cA 3saq-a2-m1-cB_3saq-a2-m4-cB 3saq-a2-m1-cB_3saq-a2-m5-cB 3saq-a2-m4-cB_3saq-a2-m5-cB 6beb-a1-m1-cA_6beb-a1-m1-cC 6beb-a1-m1-cB_6beb-a1-m1-cA 6beb-a1-m1-cB_6beb-a1-m1-cC 6bec-a1-m1-cA_6bec-a1-m1-cB 6bec-a1-m1-cA_6bec-a1-m1-cC 6bec-a1-m1-cB_6bec-a1-m1-cC 6bed-a1-m1-cA_6bed-a1-m1-cB 6bed-a1-m1-cC_6bed-a1-m1-cA 6bed-a1-m1-cC_6bed-a1-m1-cB 6bee-a1-m1-cA_6bee-a1-m1-cB 6bee-a1-m1-cC_6bee-a1-m1-cA 6bee-a1-m1-cC_6bee-a1-m1-cB 6bef-a1-m1-cA_6bef-a1-m1-cB 6bef-a1-m1-cC_6bef-a1-m1-cA 6bef-a1-m1-cC_6bef-a1-m1-cB 6beg-a1-m1-cA_6beg-a1-m1-cB 6beg-a1-m1-cC_6beg-a1-m1-cA 6beg-a1-m1-cC_6beg-a1-m1-cB 6beh-a1-m1-cA_6beh-a1-m1-cB 6beh-a1-m1-cC_6beh-a1-m1-cA 6beh-a1-m1-cC_6beh-a1-m1-cB 6bei-a1-m1-cA_6bei-a1-m1-cB 6bei-a1-m1-cC_6bei-a1-m1-cA 6bei-a1-m1-cC_6bei-a1-m1-cB 7vfd-a1-m1-cA_7vfd-a1-m1-cB 7vfd-a1-m1-cA_7vfd-a1-m1-cC 7vfd-a1-m1-cB_7vfd-a1-m1-cC 7vfe-a1-m1-cA_7vfe-a1-m1-cB 7vfe-a1-m1-cA_7vfe-a1-m1-cC 7vfe-a1-m1-cB_7vfe-a1-m1-cC 7vff-a1-m1-cA_7vff-a1-m1-cB 7vff-a1-m1-cA_7vff-a1-m1-cC 7vff-a1-m1-cB_7vff-a1-m1-cC 7vfg-a1-m1-cA_7vfg-a1-m1-cB 7vfg-a1-m1-cA_7vfg-a1-m1-cC 7vfg-a1-m1-cB_7vfg-a1-m1-cC 7vfg-a1-m1-cD_7vfg-a1-m1-cE 7vfg-a1-m1-cD_7vfg-a1-m1-cF 7vfg-a1-m1-cE_7vfg-a1-m1-cF 7vfh-a1-m1-cA_7vfh-a1-m1-cB 7vfh-a1-m1-cA_7vfh-a1-m1-cC 7vfh-a1-m1-cB_7vfh-a1-m1-cC 7vfh-a1-m1-cD_7vfh-a1-m1-cE 7vfh-a1-m1-cD_7vfh-a1-m1-cF 7vfh-a1-m1-cE_7vfh-a1-m1-cF 7vfh-a1-m1-cG_7vfh-a1-m1-cH 7vfh-a1-m1-cG_7vfh-a1-m1-cI 7vfh-a1-m1-cH_7vfh-a1-m1-cI 7vfh-a1-m1-cJ_7vfh-a1-m1-cK 7vfh-a1-m1-cJ_7vfh-a1-m1-cL 7vfh-a1-m1-cK_7vfh-a1-m1-cL 7vfh-a1-m1-cM_7vfh-a1-m1-cN 7vfh-a1-m1-cM_7vfh-a1-m1-cO 7vfh-a1-m1-cN_7vfh-a1-m1-cO 7vfh-a1-m1-cP_7vfh-a1-m1-cQ 7vfh-a1-m1-cP_7vfh-a1-m1-cR 7vfh-a1-m1-cQ_7vfh-a1-m1-cR 8arh-a1-m1-cA_8arh-a1-m1-cB 8arh-a1-m1-cA_8arh-a1-m1-cC 8arh-a1-m1-cB_8arh-a1-m1-cC 8arh-a1-m1-cD_8arh-a1-m1-cE 8arh-a1-m1-cD_8arh-a1-m1-cF 8arh-a1-m1-cE_8arh-a1-m1-cF 8arh-a1-m2-cA_8arh-a1-m2-cB 8arh-a1-m2-cA_8arh-a1-m2-cC 8arh-a1-m2-cB_8arh-a1-m2-cC 8arh-a1-m2-cD_8arh-a1-m2-cE 8arh-a1-m2-cD_8arh-a1-m2-cF 8arh-a1-m2-cE_8arh-a1-m2-cF 8arh-a1-m3-cA_8arh-a1-m3-cB 8arh-a1-m3-cA_8arh-a1-m3-cC 8arh-a1-m3-cB_8arh-a1-m3-cC 8arh-a1-m3-cD_8arh-a1-m3-cE 8arh-a1-m3-cD_8arh-a1-m3-cF 8arh-a1-m3-cE_8arh-a1-m3-cF 8arh-a1-m4-cA_8arh-a1-m4-cB 8arh-a1-m4-cA_8arh-a1-m4-cC 8arh-a1-m4-cB_8arh-a1-m4-cC 8arh-a1-m4-cD_8arh-a1-m4-cE 8arh-a1-m4-cD_8arh-a1-m4-cF 8arh-a1-m4-cE_8arh-a1-m4-cF 8arh-a1-m5-cA_8arh-a1-m5-cB 8arh-a1-m5-cA_8arh-a1-m5-cC 8arh-a1-m5-cB_8arh-a1-m5-cC 8arh-a1-m5-cD_8arh-a1-m5-cE 8arh-a1-m5-cD_8arh-a1-m5-cF 8arh-a1-m5-cE_8arh-a1-m5-cF 8arh-a1-m6-cA_8arh-a1-m6-cB 8arh-a1-m6-cA_8arh-a1-m6-cC 8arh-a1-m6-cB_8arh-a1-m6-cC 8arh-a1-m6-cD_8arh-a1-m6-cE 8arh-a1-m6-cD_8arh-a1-m6-cF 8arh-a1-m6-cE_8arh-a1-m6-cF YMPQYISLSGVMTAIASFEIRDQYITALNHLVLSLELPEVKGMGYVPYVGYKCINHVSISSCNGVIWEIEGEELYNNCINNTIALKHSGYSSELNDISIGLTPNDTIKEPSTVYVYIKTPFDVEDTFSSLKLSDSKITVTVTFNPVSDIVIRDSSFDFETFNKEFVYVPELSFIGYMVKPSFIEKPRRVIGQINQPTATVTEVHAATSLSVYTKPYYGNTDNKFISYPGYSQDEKDYIDAYVSRLLDDLVIVSDGPPTGYPESAEIVEVPEDGIVSIQDADVYVKIDNVPDNMSVYLHTNLLMFGTNSFIYNISKKFSAITGTYSDATKRTIFAHISHSINIIDTSIPVSLWTSQRNVYNGDNRSAESKAKDLFINDPFIKGIDFKNKTDIISRLEVRFGNDVLYSENGPISRIYNELLTKSNNGTRTLTFKLSVRVVYSTMDVNHPIYYVQKQLVVVCNDLYKV YMPQYISLSGVMTAIASFEIRDQYITALNHLVLSLELPEVKGMGYVPYVGYKCINHVSISSCNGVIWEIEGEELYNNCINNTIALKHSGYSSELNDISIGLTPNDTIKEPSTVYVYIKTPFDVEDTFSSLKLSDSKITVTVTFNPVSDIVIRDSSFDFETFNKEFVYVPELSFIGYMVKPSFIEKPRRVIGQINQPTATVTEVHAATSLSVYTKPYYGNTDNKFISYPGYSQDEKDYIDAYVSRLLDDLVIVSDGPPTGYPESAEIVEVPEDGIVSIQDADVYVKIDNVPDNMSVYLHTNLLMFGTNSFIYNISKKFSAITGTYSDATKRTIFAHISHSINIIDTSIPVSLWTSQRNVYNGDNRSAESKAKDLFINDPFIKGIDFKNKTDIISRLEVRFGNDVLYSENGPISRIYNELLTKSNNGTRTLTFKLSVRVVYSTMDVNHPIYYVQKQLVVVCNDLYKV 3sb1-a1-m1-cA_3sb1-a1-m1-cB Hydrogenase expression protein HupH from Thiobacillus denitrificans ATCC 25259 Q3SJ38 Q3SJ38 1.67 X-RAY DIFFRACTION 123 0.992 292415 (Thiobacillus denitrificans ATCC 25259) 292415 (Thiobacillus denitrificans ATCC 25259) 119 119 ARSGNALPLLREIAEHLHHLLETGEASTIDLSALPLTPGDLEWLRAELGGGEVSVTLHDGASTLDETAFPGVWWIIHRNAQGAVTTQFIEVAFVPELVKSPRADVAAARAALVLRMADL ARSGNALPLLREIAEHLHHLLETGEASTIDLSALPLTPGDLEWLRAELGGGEVSVTLHAGASTLDETAFPGVWWIIHRNAQGAVTTQFIEVAFVPELVKSPRADVAAARAALVLRMADL 3sb3-a1-m2-cA_3sb3-a1-m4-cA Crystal structure of an apag protein (PA1934) from pseudomonas aeruginosa pao1 at 1.83 A resolution Q9I2H0 Q9I2H0 1.83 X-RAY DIFFRACTION 44 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 100 100 3nrf-a1-m1-cA_3nrf-a1-m1-cB 3nrf-a1-m1-cA_3nrf-a1-m2-cB 3nrf-a1-m2-cA_3nrf-a1-m1-cB 3nrf-a1-m2-cA_3nrf-a1-m2-cB 3sb3-a1-m1-cA_3sb3-a1-m3-cA 3sb3-a1-m1-cA_3sb3-a1-m4-cA 3sb3-a1-m2-cA_3sb3-a1-m3-cA DAVVFARQGDKGSVSVGDKHFRTQAFKVRLVNAAKSEISLKNSCLVAQSAAGQSFRLDTVDEELTADTLKPGASVEGDAIFASEDDAVYGASLVRLSDRC DAVVFARQGDKGSVSVGDKHFRTQAFKVRLVNAAKSEISLKNSCLVAQSAAGQSFRLDTVDEELTADTLKPGASVEGDAIFASEDDAVYGASLVRLSDRC 3sb4-a3-m1-cA_3sb4-a3-m1-cB Crystal structure of a leucine-rich repeat protein (BT_1240) from Bacteroides thetaiotaomicron VPI-5482 at 1.99 A resolution Q8A8C7 Q8A8C7 1.99 X-RAY DIFFRACTION 32 0.997 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 320 320 GQVSKTYYVSKPGTLISTEEEANSITHLTLTGKLNAEDFRHLRDEFPSLKVLDISNAEIKYSGKAGTYPNGKFYIYANFVPAYAFSNVVNGVTKGKQTLEKILSEKIKNIEDAAFKGCDNLKICQIRKKTAPNLLPEALADSVTAIFIPLGSSDAYRFKNRWEHFAFIEGEPLETTIQVGAGKLEDEIKAGLQPRDINFLTIEGKLDNADFKLIRDYPNLVSLDISKTNATTIPDFTFAQKKYLLKIKLPHNLKTIGQRVFSNCGRLAGTLELPASVTAIEFGAFGCDNLRYVLATGDKITTLGDELFGNGVPSKLIYKK QVSKTYYVSKPGTLISTEEEANSITHLTLTGKLNAEDFRHLRDEFPSLKVLDISNAEIKYSGKAGTYPNGKFYIYANFVPAYAFSNVVNGVTKGKQTLEKVILSEKIKNIEDAAFKGCDNLKICQIRKKTAPNLLPEALADSVTAIFIPLGSSDAYRFKNRWEHFAFIEGEPLETTIQVGAGKLEDEIKAGLQPRDINFLTIEGKLDNADFKLIRDYPNLVSLDISKTNATTIPDFTFAQKKYLLKIKLPHNLKTIGQRVFSNCGRLAGTLELPASVTAIEFGAFGCDNLRYVLATGDKITTLGDELFGNGVPSKLIYKK 3sb5-a2-m2-cA_3sb5-a2-m3-cA Zn-mediated Trimer of T4 Lysozyme R125C/E128C by Synthetic Symmetrization P00720 P00720 2.46 X-RAY DIFFRACTION 19 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 164 164 3sb5-a1-m1-cB_3sb5-a1-m2-cB 3sb5-a1-m1-cB_3sb5-a1-m3-cB 3sb5-a1-m2-cB_3sb5-a1-m3-cB 3sb5-a2-m1-cA_3sb5-a2-m2-cA 3sb5-a2-m1-cA_3sb5-a2-m3-cA 3sb5-a3-m1-cC_3sb5-a3-m2-cC 3sb5-a3-m1-cC_3sb5-a3-m3-cC 3sb5-a3-m2-cC_3sb5-a3-m3-cC 3sb5-a4-m1-cD_3sb5-a4-m2-cD 3sb5-a4-m1-cD_3sb5-a4-m3-cD 3sb5-a4-m2-cD_3sb5-a4-m3-cD GPMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKCWDCAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK GPMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKCWDCAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 3sb7-a1-m2-cB_3sb7-a1-m3-cB Cu-mediated Trimer of T4 Lysozyme D61H/K65H/R76H/R80H by Synthetic Symmetrization P00720 P00720 2.7 X-RAY DIFFRACTION 15 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 162 162 3sb7-a1-m1-cB_3sb7-a1-m2-cB 3sb7-a1-m1-cB_3sb7-a1-m3-cB MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKHEAEHLFNQDVDAAVHGILHNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK MNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKHEAEHLFNQDVDAAVHGILHNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 3sb8-a1-m1-cB_3sb8-a1-m1-cA Cu-mediated Dimer of T4 Lysozyme D61H/K65H by Synthetic Symmetrization P00720 P00720 2.65 X-RAY DIFFRACTION 28 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 164 165 GPMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKHEAEHLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK GGPMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKHEAEHLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 3sba-a1-m1-cC_3sba-a1-m1-cE Zn-mediated Hexamer of T4 Lysozyme R76H/R80H by Synthetic Symmetrization P00720 P00720 2.75 X-RAY DIFFRACTION 56 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 162 163 3sb9-a1-m1-cA_3sb9-a1-m1-cB 3sba-a1-m1-cA_3sba-a1-m1-cF 3sba-a1-m1-cB_3sba-a1-m1-cD PMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVHGILHNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAY PMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVHGILHNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 3sba-a1-m1-cD_3sba-a1-m1-cF Zn-mediated Hexamer of T4 Lysozyme R76H/R80H by Synthetic Symmetrization P00720 P00720 2.75 X-RAY DIFFRACTION 57 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 163 163 3sb7-a2-m4-cB_3sb7-a2-m1-cA 3sba-a1-m1-cA_3sba-a1-m1-cE 3sba-a1-m1-cC_3sba-a1-m1-cB 3sbb-a1-m1-cC_3sbb-a1-m2-cC 3sbb-a1-m3-cC_3sbb-a1-m4-cC 4s0w-a1-m1-cA_4s0w-a1-m1-cB PMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVHGILHNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK PMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVHGILHNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 3sbb-a1-m1-cC_3sbb-a1-m4-cC Disulphide-mediated Tetramer of T4 Lysozyme R76C/R80C by Synthetic Symmetrization P00720 P00720 1.434 X-RAY DIFFRACTION 19 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 163 163 3sbb-a1-m2-cC_3sbb-a1-m3-cC PMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVCGILCNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK PMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVCGILCNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYK 3sbc-a1-m1-cA_3sbc-a1-m1-cJ Crystal structure of Saccharomyces cerevisiae TSA1C47S mutant protein P34760 P34760 2.8 X-RAY DIFFRACTION 64 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 195 195 3sbc-a1-m1-cC_3sbc-a1-m1-cB 3sbc-a1-m1-cD_3sbc-a1-m1-cE 3sbc-a1-m1-cF_3sbc-a1-m1-cG 3sbc-a1-m1-cH_3sbc-a1-m1-cI VAQVQKQAPTFKKTAVVDGVFDEVSLDKYKGKYVVLAFIPLAFTFVSPTEIIAFSEAAKKFEEQGAQVLFASTDSEYSLLAWTNIPRKEGGLGPINIPLLADTNHSLSRDYGVLIEEEGVALRGLFIIDPKGVIRHITINDLPVGRNVDEALRLVEAFQWTDKNGTVLPCNWTPGAATIKPTVEDSKEYFEAANK VAQVQKQAPTFKKTAVVDGVFDEVSLDKYKGKYVVLAFIPLAFTFVSPTEIIAFSEAAKKFEEQGAQVLFASTDSEYSLLAWTNIPRKEGGLGPINIPLLADTNHSLSRDYGVLIEEEGVALRGLFIIDPKGVIRHITINDLPVGRNVDEALRLVEAFQWTDKNGTVLPCNWTPGAATIKPTVEDSKEYFEAANK 3sbc-a1-m1-cI_3sbc-a1-m1-cJ Crystal structure of Saccharomyces cerevisiae TSA1C47S mutant protein P34760 P34760 2.8 X-RAY DIFFRACTION 194 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 195 195 3sbc-a1-m1-cA_3sbc-a1-m1-cB 3sbc-a1-m1-cD_3sbc-a1-m1-cC 3sbc-a1-m1-cF_3sbc-a1-m1-cE 3sbc-a1-m1-cG_3sbc-a1-m1-cH VAQVQKQAPTFKKTAVVDGVFDEVSLDKYKGKYVVLAFIPLAFTFVSPTEIIAFSEAAKKFEEQGAQVLFASTDSEYSLLAWTNIPRKEGGLGPINIPLLADTNHSLSRDYGVLIEEEGVALRGLFIIDPKGVIRHITINDLPVGRNVDEALRLVEAFQWTDKNGTVLPCNWTPGAATIKPTVEDSKEYFEAANK VAQVQKQAPTFKKTAVVDGVFDEVSLDKYKGKYVVLAFIPLAFTFVSPTEIIAFSEAAKKFEEQGAQVLFASTDSEYSLLAWTNIPRKEGGLGPINIPLLADTNHSLSRDYGVLIEEEGVALRGLFIIDPKGVIRHITINDLPVGRNVDEALRLVEAFQWTDKNGTVLPCNWTPGAATIKPTVEDSKEYFEAANK 3sbu-a2-m1-cA_3sbu-a2-m2-cB Crystal structure of a ntf2-like protein (BF2862) from Bacteroides fragilis NCTC 9343 at 2.15 A resolution Q5LBG4 Q5LBG4 2.15 X-RAY DIFFRACTION 32 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 212 212 3sbu-a1-m1-cA_3sbu-a1-m1-cB PPIEADESFDDFIYNFASDDALQRQRVVFPLPYYNGERASIDRYWHDDLFAQSYYTLLFDREEDDLVGDTSLTSVQVEWIFVRVYYFERIGAWLEAINLRPIEENENEDFVEFFGHFATDSIFQSRRIRQPLVFVTTDPDDDFSILETTLDLNQWFAFPALPADLSNINYGQQNDDNASHKILALGIGNGFSNILYFQRDSGWELYFEDTSI PPIEADESFDDFIYNFASDDALQRQRVVFPLPYYNGERASIDRYWHDDLFAQSYYTLLFDREEDDLVGDTSLTSVQVEWIFVRVYYFERIGAWLEAINLRPIEENENEDFVEFFGHFATDSIFQSRRIRQPLVFVTTDPDDDFSILETTLDLNQWFAFPALPADLSNINYGQQNDDNASHKILALGIGNGFSNILYFQRDSGWELYFEDTSI 3sbx-a4-m1-cG_3sbx-a4-m1-cH Crystal structure of a putative uncharacterized protein from Mycobacterium marinum bound to adenosine 5'-monophosphate AMP B2HS63 B2HS63 2.5 X-RAY DIFFRACTION 94 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 177 177 3sbx-a1-m1-cA_3sbx-a1-m1-cB 3sbx-a2-m1-cC_3sbx-a2-m1-cD 3sbx-a3-m1-cE_3sbx-a3-m1-cF RWTVAVYCAAAPTHPELLELAGAVGAAIAARGWTLVWGGGHVSAMGAVSSAARAHGGWTVGVIPKMLVHRELADHDADELVVTETMWERKQVMEDRANAFITLPGGVGTLDELLDVWTEGYLGMHDKSIVVLDPWGHFDGLRAWLSELADTGYVSRTAMERLIVVDNLDDALQACAP RWTVAVYCAAAPTHPELLELAGAVGAAIAARGWTLVWGGGHVSAMGAVSSAARAHGGWTVGVIPKMLVHRELADHDADELVVTETMWERKQVMEDRANAFITLPGGVGTLDELLDVWTEGYLGMHDKSIVVLDPWGHFDGLRAWLSELADTGYVSRTAMERLIVVDNLDDALQACAP 3sbz-a2-m1-cA_3sbz-a2-m2-cA Crystal Structure of Apo-MMACHC (1-244), a human B12 processing enzyme Q9Y4U1 Q9Y4U1 2 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 EPKVAELKQKIEDTLCPFGFEVYPFQVAWYNELLPPAFHLPLPGPTLAFLVLSTPAMFDRALKPFLQSCHLRMLTDPVDQCVAYHLGRVRESLPELQIEIIADYEVHPNRRPKILAQTAAHVAGAAYYYQRQDVEADPWGNQRISGVCIHPRFGGWFAIRGVVLLPGIEVPDLPPRKPHDCVPTRADRIALLEGFNFHWRDWTYRDAVTPQERYSEEQKAYFSTPPAQRLALLG EPKVAELKQKIEDTLCPFGFEVYPFQVAWYNELLPPAFHLPLPGPTLAFLVLSTPAMFDRALKPFLQSCHLRMLTDPVDQCVAYHLGRVRESLPELQIEIIADYEVHPNRRPKILAQTAAHVAGAAYYYQRQDVEADPWGNQRISGVCIHPRFGGWFAIRGVVLLPGIEVPDLPPRKPHDCVPTRADRIALLEGFNFHWRDWTYRDAVTPQERYSEEQKAYFSTPPAQRLALLG 3sc0-a2-m1-cA_3sc0-a2-m2-cA Crystal Structure of MMACHC (1-238), a human B12 processing enzyme, complexed with MethylCobalamin Q9Y4U1 Q9Y4U1 1.95 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 237 237 EPKVAELKQKIEDTLCPFGFEVYPFQVAWYNELLPPAFHLPLPGPTLAFLVLSTPAMFDRALKPFLQSCHLRMLTDPVDQCVAYHLGRVRESLPELQIEIIADYEVHPNRRPKILAQTAAHVAGAAYYYQRQDVEADPWGNQRISGVCIHPRFGGWFAIRGVVLLPGIEVPDLPPRKPHDCVPTRADRIALLEGFNFHWRDWTYRDAVTPQERYSEEQKAYFSTPPAQRLALLGLAQ EPKVAELKQKIEDTLCPFGFEVYPFQVAWYNELLPPAFHLPLPGPTLAFLVLSTPAMFDRALKPFLQSCHLRMLTDPVDQCVAYHLGRVRESLPELQIEIIADYEVHPNRRPKILAQTAAHVAGAAYYYQRQDVEADPWGNQRISGVCIHPRFGGWFAIRGVVLLPGIEVPDLPPRKPHDCVPTRADRIALLEGFNFHWRDWTYRDAVTPQERYSEEQKAYFSTPPAQRLALLGLAQ 3sc3-a1-m1-cB_3sc3-a1-m1-cA Crystal structure of a Putative DNA replication regulator Hda (Sama_1916) from SHEWANELLA AMAZONENSIS SB2B at 3.00 A resolution A1S6W5 A1S6W5 3.001 X-RAY DIFFRACTION 43 1.0 326297 (Shewanella amazonensis SB2B) 326297 (Shewanella amazonensis SB2B) 203 204 PAAGNDELIGALKSAASGDGVQAIYLWGPVKSGRTHLIHAACARANELERRSFYIPLGIHASISTALLEGLEQFDLICIDDVDAVAGHPLWEEAIFDLYNRVAEQKRGSLIVSASASPEAGFVLPDLVSRHWGLTYQLQPDDEKLAALQRRAARGLQLPEDVGRFLLNRARDLRTLFDVLDRLDKASVHQRKLTIPFVKELRL YPAAGNDELIGALKSAASGDGVQAIYLWGPVKSGRTHLIHAACARANELERRSFYIPLGIHASISTALLEGLEQFDLICIDDVDAVAGHPLWEEAIFDLYNRVAEQKRGSLIVSASASPEAGFVLPDLVSRHWGLTYQLQPDDEKLAALQRRAARGLQLPEDVGRFLLNRARDLRTLFDVLDRLDKASVHQRKLTIPFVKELRL 3sc4-a1-m1-cA_3sc4-a1-m1-cB Crystal structure of a Short chain dehydrogenase (A0QTM2 homolog) Mycobacterium thermoresistibile G7CNA1 G7CNA1 2.5 X-RAY DIFFRACTION 115 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 280 281 SLRGKTMFISGGSRGIGLAIAKRVAADGANVALVAKSAEPHPKLPGTIYTAAKEIEEAGGQALPIVGDIRDGDAVAAAVAKTVEQFGGIDICVNNASAINLGSIEEVPLKRFDLMNGIQVRGTYAVSQSCIPHMKGRDNPHILTLSPPIRLEPKWLRPTPYMMAKYGMTLCALGIAEELRDAGIASNTLWPRTTVATAAVQNLLGGDEAMARSRKPEVYADAAYVVLNKPSSYTGNTLLCEDVLLESGVTDLSVYDCVPGSELGVDLWVDSPNPPGYTGP MSLRGKTMFISGGSRGIGLAIAKRVAADGANVALVAKSAEPHPKLPGTIYTAAKEIEEAGGQALPIVGDIRDGDAVAAAVAKTVEQFGGIDICVNNASAINLGSIEEVPLKRFDLMNGIQVRGTYAVSQSCIPHMKGRDNPHILTLSPPIRLEPKWLRPTPYMMAKYGMTLCALGIAEELRDAGIASNTLWPRTTVATAAVQNLLGGDEAMARSRKPEVYADAAYVVLNKPSSYTGNTLLCEDVLLESGVTDLSVYDCVPGSELGVDLWVDSPNPPGYTGP 3sd2-a1-m1-cA_3sd2-a1-m2-cA Crystal structure of a putative member of duf3244 protein family (BT_3571) from Bacteroides thetaiotaomicron vpi-5482 at 1.40 A resolution Q8A1T7 Q8A1T7 1.4 X-RAY DIFFRACTION 107 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 83 83 NPGIPIQPTYEKCAILSNILNVSFGRAKDYAIITVTNKATGEIVHSKTYHNTSIVIDSSCEKGEYTIHIILNDCLLEGTFTVQ NPGIPIQPTYEKCAILSNILNVSFGRAKDYAIITVTNKATGEIVHSKTYHNTSIVIDSSCEKGEYTIHIILNDCLLEGTFTVQ 3sdj-a1-m1-cE_3sdj-a1-m1-cG Structure of RNase-inactive point mutant of oligomeric kinase/RNase Ire1 P32361 P32361 3.65 X-RAY DIFFRACTION 17 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 415 415 3fbv-a1-m1-cA_3fbv-a1-m1-cC 3fbv-a1-m1-cB_3fbv-a1-m1-cM 3fbv-a1-m1-cE_3fbv-a1-m1-cD 3fbv-a1-m1-cE_3fbv-a1-m1-cG 3fbv-a1-m1-cF_3fbv-a1-m1-cH 3fbv-a1-m1-cI_3fbv-a1-m1-cG 3fbv-a1-m1-cJ_3fbv-a1-m1-cH 3fbv-a1-m1-cM_3fbv-a1-m1-cK 3sdj-a1-m1-cB_3sdj-a1-m1-cM 3sdj-a1-m1-cE_3sdj-a1-m1-cD 3sdj-a1-m1-cI_3sdj-a1-m1-cG 3sdj-a1-m1-cM_3sdj-a1-m1-cK 3sdm-a1-m1-cA_3sdm-a1-m1-cF 3sdm-a1-m1-cB_3sdm-a1-m1-cC 3sdm-a1-m1-cB_3sdm-a1-m1-cG 3sdm-a1-m1-cC_3sdm-a1-m2-cE 3sdm-a1-m1-cD_3sdm-a1-m1-cE 3sdm-a1-m1-cE_3sdm-a1-m2-cC 3sdm-a1-m2-cA_3sdm-a1-m2-cF 3sdm-a1-m2-cB_3sdm-a1-m2-cC 3sdm-a1-m2-cB_3sdm-a1-m2-cG 3sdm-a1-m2-cD_3sdm-a1-m2-cE LKNLVVSEKILGYGSSGTVVFQGSFQGRPVAVKRMLIDFCDIALMEIKLLTESDDHPNVIRYYCSETTDRFLYIALELCNLNLQDLVESKNVSDENLKLQKEYNPISLLRQIASGVAHLHSLKIIHRDLKPQNILVSTSSRFTADQQTGAENLRILISDFGLCKKLDSGQFRNLNNPSGTSGWRAPELLEESTKRRLTRSIDIFSMGCVFYYILSKGKHPFGDKYSRESNIIRGIFSLDEMKCLHDRSLIAEATDLISQMIDHDPLKRPTAMKVLRHPLFWPKSKKLEFLLKVSDRLEIENRDPPSALLMKFDAGSDFVIPSGDWTVKFDKTFMDNLERYRKYHSSKLMDLLRALRNKYHNFMDLPEDIAELMGPVPDGFYDYFTKRFPNLLIGVYMIVKENLSDDQILREFLYS LKNLVVSEKILGYGSSGTVVFQGSFQGRPVAVKRMLIDFCDIALMEIKLLTESDDHPNVIRYYCSETTDRFLYIALELCNLNLQDLVESKNVSDENLKLQKEYNPISLLRQIASGVAHLHSLKIIHRDLKPQNILVSTSSRFTADQQTGAENLRILISDFGLCKKLDSGQFRNLNNPSGTSGWRAPELLEESTKRRLTRSIDIFSMGCVFYYILSKGKHPFGDKYSRESNIIRGIFSLDEMKCLHDRSLIAEATDLISQMIDHDPLKRPTAMKVLRHPLFWPKSKKLEFLLKVSDRLEIENRDPPSALLMKFDAGSDFVIPSGDWTVKFDKTFMDNLERYRKYHSSKLMDLLRALRNKYHNFMDLPEDIAELMGPVPDGFYDYFTKRFPNLLIGVYMIVKENLSDDQILREFLYS 3sdo-a1-m1-cB_3sdo-a1-m1-cA Structure of a Nitrilotriacetate monooxygenase from Burkholderia pseudomallei Q3JIP8 Q3JIP8 2 X-RAY DIFFRACTION 185 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 396 443 RKHIHFGVLIQGAGANMNAWKHPSVPPDASVNFDFYVDRARRAENAGIAFAFIADSAYVTPKSAPHFLNRFEPISLLSALAVLTSKIGLVGTMSSSYSEPYNVARQFASLDLISGGRAGWNVVTSSIEGTGKNYGRPHPDHAQRYAIAAEHLDVVQGLWDSWDDDALVRDRATGRFFDPDKLHRLDHRGRFFSVEGPLNIRRSPQGQPVIFQAGSSDDGIDLAGRSADAVFSNGSTFDEARVFYRRVKAAAAAAGRNPDHVKVFPGIGPIVGATQQEADDKYRQVRDLLSPREALAYLSHFFQQHDFSVLREVAYEGTSEAFIGTPEAVASEMIRWVDEGAADGFMLGLPVTGFGLDDFVDHVLPVLSARGYFDPVRRGATLRDHLGLPYKESRYA GSMTRKHIHFGVLIQGAGANMNAWKHPSVPPDASVNFDFYVDRARRAENAGIAFAFIADSAYVTPKSAPHFLNRFEPISLLSALAVLTSKIGLVGTMSSSYSEPYNVARQFASLDLISGGRAGWNVVTSSIEGTGKNYGRPHPDHAQRYAIAAEHLDVVQGLWDSWDDDALVRDRATGRFFDPDKLHRLDHRGRFFSVEGPLNIRRSPQGQPVIFQAGSSDDGIDLAGRSADAVFSNGSTFDEARVFYRRVKAAAAAAGRNPDHVKVFPGIGPIVGATQQEADDKYRQVRDLLSPREALAYLSHFFQQHDFSVYPLDGPFPDIGTLGSDGFQSTTDNIKRLARERKLTLREVAYEVSTRRSNIGTSEAFIGTPEAVASEMIRWVDEGAADGFMLGLPVTGFGLDDFVDHVLPVLSARGYFDPVRRGATLRDHLGLPYKESRYA 3sds-a3-m2-cC_3sds-a3-m3-cC Crystal structure of a mitochondrial ornithine carbamoyltransferase from Coccidioides immitis P0CL21 P0CL21 2.8 X-RAY DIFFRACTION 52 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 315 315 3sds-a1-m1-cA_3sds-a1-m2-cA 3sds-a1-m1-cA_3sds-a1-m3-cA 3sds-a1-m2-cA_3sds-a1-m3-cA 3sds-a2-m1-cB_3sds-a2-m4-cB 3sds-a2-m1-cB_3sds-a2-m5-cB 3sds-a2-m4-cB_3sds-a2-m5-cB 3sds-a3-m1-cC_3sds-a3-m2-cC 3sds-a3-m1-cC_3sds-a3-m3-cC TPRHLLSIADLTPTEFATLVRNASSYKKTIKSDSMPERLTGALSGKTVAMMFSKRSTRTRVSTEGAVVKMGGHPMFLGKDDIQLGVNESLYDTSVVISSMVSCIVARVHSDIANLAKHSSVPVINALCDTFHPLQAIADFLTIHESFATHPSSLGLEGLKIAWVGDANNVLFDLAIAATKMGVNVAVATPRGYEIPSHIVELIQKAREGVQSPGNLTQTTVPEVAVKDADVIVTDTWKIKRLEAFKDFKVTSELAKRGGAKENWKFMHCLPRHPEEVSDEVFYSERSLVFPEAENRLWAAISALEAFVVNKGKIA TPRHLLSIADLTPTEFATLVRNASSYKKTIKSDSMPERLTGALSGKTVAMMFSKRSTRTRVSTEGAVVKMGGHPMFLGKDDIQLGVNESLYDTSVVISSMVSCIVARVHSDIANLAKHSSVPVINALCDTFHPLQAIADFLTIHESFATHPSSLGLEGLKIAWVGDANNVLFDLAIAATKMGVNVAVATPRGYEIPSHIVELIQKAREGVQSPGNLTQTTVPEVAVKDADVIVTDTWKIKRLEAFKDFKVTSELAKRGGAKENWKFMHCLPRHPEEVSDEVFYSERSLVFPEAENRLWAAISALEAFVVNKGKIA 3se7-a3-m1-cF_3se7-a3-m1-cE ancient VanA 3.07 X-RAY DIFFRACTION 117 1.0 327 331 3se7-a1-m1-cA_3se7-a1-m1-cB 3se7-a2-m1-cD_3se7-a2-m1-cC SHMKIGIIFGGVSEEHDISVKSAREVATHLGTGVFEPFYLGITKSGAWQLCDGPGENWEDGNCRPAVLSPDRSVHGLLVLEQGKYETIRLDLVLPVLHGKLGEDGAIQGLLELSGIPYVGCDIQSSALCMDKSLTYLVARSAGIATPNFWTVTADEKIPTDQLTYPVFVKPARSGSSFGVSKVAREEDLQGAVEAAREYDSKVLIEEAVIGTEIGCAVMGNGPELITGEVDQITLSGSDNSAVTVPADISTTSRSLVQDTAKAVYRALGCRGLSRVDLFLTEDGKVVLNEVNTFPGMTSYSRYPRMMTAAGLSRADVIDRLVSLALA SHMKIGIIFGGVSEEHDISVKSAREVATHLGTGVFEPFYLGITKSGAWQLCDGPGENWEDGNCRPAVLSPDRSVHGLLVLEQGKYETIRLDLVLPVLHGKLGEDGAIQGLLELSGIPYVGCDIQSSALCMDKSLTYLVARSAGIATPNFWTVTADEKIPTDQLTYPVFVKPARSGSSFGVSKVAREEDLQGAVEAAREYDSKVLIEEAVIGTEIGCAVMGNGPELITGEVDQITLSHGFSGSDNSAVTVPADISTTSRSLVQDTAKAVYRALGCRGLSRVDLFLTEDGKVVLNEVNTFPGMTSYSRYPRMMTAAGLSRADVIDRLVSLALA 3sea-a3-m1-cB_3sea-a3-m2-cB Structure of Rheb-Y35A mutant in GDP- and GMPPNP-bound forms Q15382 Q15382 2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 QSKSRKIAILGYRSVGKSSLTIQFVEGQFVDSADPTIENTFTKLITVNGQEYHLQLVDTAGQDEYSIFPQTYSIDINGYILVYSVTSIKSFEVIKVIHGKLLDMVGKVQIPIMLVGNKKDLHMERVISYEEGKALAESWNAAFLESSAKENQTAVDVFRRIILEAEK QSKSRKIAILGYRSVGKSSLTIQFVEGQFVDSADPTIENTFTKLITVNGQEYHLQLVDTAGQDEYSIFPQTYSIDINGYILVYSVTSIKSFEVIKVIHGKLLDMVGKVQIPIMLVGNKKDLHMERVISYEEGKALAESWNAAFLESSAKENQTAVDVFRRIILEAEK 3sea-a3-m1-cB_3sea-a3-m4-cA Structure of Rheb-Y35A mutant in GDP- and GMPPNP-bound forms Q15382 Q15382 2 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 3sea-a3-m2-cB_3sea-a3-m3-cA QSKSRKIAILGYRSVGKSSLTIQFVEGQFVDSADPTIENTFTKLITVNGQEYHLQLVDTAGQDEYSIFPQTYSIDINGYILVYSVTSIKSFEVIKVIHGKLLDMVGKVQIPIMLVGNKKDLHMERVISYEEGKALAESWNAAFLESSAKENQTAVDVFRRIILEAEK QSKSRKIAILGYRSVGKSSLTIQFVEGQFVDSADPTIENTFTKLITVNGQEYHLQLVDTAGQDEYSIFPQTYSIDINGYILVYSVTSIKSFEVIKVIHGKLLDMVGKVQIPIMLVGNKKDLHMERVISYEEGKALAESWNAAFLESSAKENQTAVDVFRRIILEAEK 3sea-a3-m2-cB_3sea-a3-m4-cA Structure of Rheb-Y35A mutant in GDP- and GMPPNP-bound forms Q15382 Q15382 2 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 3sea-a3-m1-cB_3sea-a3-m3-cA QSKSRKIAILGYRSVGKSSLTIQFVEGQFVDSADPTIENTFTKLITVNGQEYHLQLVDTAGQDEYSIFPQTYSIDINGYILVYSVTSIKSFEVIKVIHGKLLDMVGKVQIPIMLVGNKKDLHMERVISYEEGKALAESWNAAFLESSAKENQTAVDVFRRIILEAEK QSKSRKIAILGYRSVGKSSLTIQFVEGQFVDSADPTIENTFTKLITVNGQEYHLQLVDTAGQDEYSIFPQTYSIDINGYILVYSVTSIKSFEVIKVIHGKLLDMVGKVQIPIMLVGNKKDLHMERVISYEEGKALAESWNAAFLESSAKENQTAVDVFRRIILEAEK 3sef-a2-m1-cC_3sef-a2-m1-cB 2.4 Angstrom resolution crystal structure of shikimate 5-dehydrogenase (aroE) from Vibrio cholerae O1 biovar eltor str. N16961 in complex with shikimate and NADPH Q9KVT3 Q9KVT3 2.4 X-RAY DIFFRACTION 53 0.988 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 244 269 3o8q-a1-m1-cB_3o8q-a1-m1-cA 3pgj-a1-m1-cD_3pgj-a1-m1-cA 3pgj-a2-m1-cC_3pgj-a2-m1-cB 3sef-a1-m1-cA_3sef-a1-m1-cD IDQYAVFGNPINHSKSPFIHTLFARQTQQSMIYTAQCVPVDGFTEAAKHFFAQGGRGCNVTVPFKEEAYRFADRLTERARLAGAVNTLKKDDGEILGDNTDGEGLVQDLLAQQVLLKGATILLIGAGGAARGVLKPLLDQQPASITVTNRTFAKAEQLAELVAAYGEVKAQAFEQLKQSYDVIINSTSAIDPVIFSSRSVCYDMMYGIDGLGMLVGQAAESFMLWRGLRPGTKQILRELRKNLE IDQYAVFGNHSKSPFIHTLFARQTQQSMIYTAQCVPVDGFTEAAKHFFAQGGRGCNVTVPFKEEAYRFADRLTERARLAGAVNTLKKLDDGEILGDNTDGEGLVQDLLAQQVLLKGATILLIGAGGAARGVLKPLLDQQPASITVTNRTFAKAEQLAELVAAYGEVKAQAFEQLKQSYDVIINSTSASLDGELPAIDPVIFSSRSVCYDMMYGKGYTVFNQWARQHGCAQAIDGLGMLVGQAAESFMLWRGLRPGTKQILRELRKNLEG 3seo-a1-m1-cA_3seo-a1-m1-cB Crystal structure of VopL C terminal domain Q87GE5 Q87GE5 2.305 X-RAY DIFFRACTION 69 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 218 226 3ryl-a1-m1-cA_3ryl-a1-m1-cB HMRLLSEDLFKQSPKLSEQELDELANNLADYLFQAADIDWHQVISEKTTTEEMAKSEHRYVQAFCREILKYPDSVIDVALKRLQTGRERLFTTTDEKGNRELKKGDAILESAINAARMAISTEEKNTILSNNVKSATFEVFCELPCMDGFAEQNGKTAFYALRAGFYSAFKNTDTAKQDITKFMKDNLQAGFSGYSYQGLTNRVAQLEAQLAALSAKL GHMRLLSEDLFKQSPKLSEQELDELANNLADYLFQAADIDWHQVISEKTRGLTTEEMAKSEHRYVQAFCREILKYPDCYKSSVIDVALKRLQTGRERLFTTTDEKGNRELKKGDAILESAINAARMAISTEEKNTILSNNVKSATFEVFCELPCMDGFAEQNGKTAFYALRAGFYSAFKNTDTAKQDITKFMKDNLQAGFSGYSYQGLTNRVAQLEAQLAALSAKL 3sf0-a1-m1-cA_3sf0-a1-m2-cA Structure of Recombinant Haemophilus Influenzae e(P4) Acid Phosphatase mutant D64N complexed with 5'AMP P26093 P26093 1.35 X-RAY DIFFRACTION 243 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 247 247 3et4-a1-m1-cA_3et4-a1-m2-cA 3et5-a1-m1-cA_3et5-a1-m2-cA 3ocu-a1-m1-cA_3ocu-a1-m2-cA 3ocv-a1-m1-cA_3ocv-a1-m2-cA 3ocw-a1-m1-cA_3ocw-a1-m2-cA 3ocx-a1-m1-cA_3ocx-a1-m2-cA 3ocy-a1-m1-cA_3ocy-a1-m2-cA 3ocz-a1-m1-cA_3ocz-a1-m2-cA EEHANMQLQQQAVLGLNWMQDSGEYKALAYQAYNAAKVAFDHAKVAKGKKKAVVANLDETMLDNSPYAGWQVQNNKPFDGKDWTRWVDARQSRAVPGAVEFNNYVNSHNGKVFYVTNRKDSTEKSGTIDDMKRLGFNGVEESAFYLKKDKSAKAARFAEIEKQGYEIVLYVGDNLDDFGNTVYGKLNADRRAFVDQNQGKFGKTFIMLPNANYGGWEGGLAEGYFKKDTQGQIKARLDAVQAWDGKL EEHANMQLQQQAVLGLNWMQDSGEYKALAYQAYNAAKVAFDHAKVAKGKKKAVVANLDETMLDNSPYAGWQVQNNKPFDGKDWTRWVDARQSRAVPGAVEFNNYVNSHNGKVFYVTNRKDSTEKSGTIDDMKRLGFNGVEESAFYLKKDKSAKAARFAEIEKQGYEIVLYVGDNLDDFGNTVYGKLNADRRAFVDQNQGKFGKTFIMLPNANYGGWEGGLAEGYFKKDTQGQIKARLDAVQAWDGKL 3sf6-a1-m1-cA_3sf6-a1-m4-cA Crystal structure of Glutaryl-CoA dehydrogenase from Mycobacterium smegmatis A0QV68 A0QV68 1.7 X-RAY DIFFRACTION 106 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 387 387 3sf6-a1-m2-cA_3sf6-a1-m3-cA RRGADDLIGINAVLSAEEREIRDTVRSVVQRRIKPHIASWYEDGELPARELAVELGELGLLGMHLKGYGCAGMSAVAYGLACLELEAGDSGIRSLVSVQGSLAMYAIHAFGSDEQKDQWLPDMASGHRIGCFGLTEPDHGSDPAGMRTRATRSGDDWILTGTKMWITNGSVADVAVVWARTDEGIRGFVVPTDTPGFTANTIKSKMSLRASVTSELVLDGVRLPDSARLPGATSLGAPLRCLNEARFGIVFGALGAARDCLETALAYACSREQFDRPIGGFQLTQQKLADMTLEYGKGFLLALHLGRQKDAGELAPEQVSLGKLNNVREAIEIARTARTVLGASGITGEYPVMRHANNLESVLTYEGTSEMHTLIIGQALTGVGAFR RRGADDLIGINAVLSAEEREIRDTVRSVVQRRIKPHIASWYEDGELPARELAVELGELGLLGMHLKGYGCAGMSAVAYGLACLELEAGDSGIRSLVSVQGSLAMYAIHAFGSDEQKDQWLPDMASGHRIGCFGLTEPDHGSDPAGMRTRATRSGDDWILTGTKMWITNGSVADVAVVWARTDEGIRGFVVPTDTPGFTANTIKSKMSLRASVTSELVLDGVRLPDSARLPGATSLGAPLRCLNEARFGIVFGALGAARDCLETALAYACSREQFDRPIGGFQLTQQKLADMTLEYGKGFLLALHLGRQKDAGELAPEQVSLGKLNNVREAIEIARTARTVLGASGITGEYPVMRHANNLESVLTYEGTSEMHTLIIGQALTGVGAFR 3sf6-a1-m2-cA_3sf6-a1-m4-cA Crystal structure of Glutaryl-CoA dehydrogenase from Mycobacterium smegmatis A0QV68 A0QV68 1.7 X-RAY DIFFRACTION 164 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 387 387 3sf6-a1-m1-cA_3sf6-a1-m3-cA RRGADDLIGINAVLSAEEREIRDTVRSVVQRRIKPHIASWYEDGELPARELAVELGELGLLGMHLKGYGCAGMSAVAYGLACLELEAGDSGIRSLVSVQGSLAMYAIHAFGSDEQKDQWLPDMASGHRIGCFGLTEPDHGSDPAGMRTRATRSGDDWILTGTKMWITNGSVADVAVVWARTDEGIRGFVVPTDTPGFTANTIKSKMSLRASVTSELVLDGVRLPDSARLPGATSLGAPLRCLNEARFGIVFGALGAARDCLETALAYACSREQFDRPIGGFQLTQQKLADMTLEYGKGFLLALHLGRQKDAGELAPEQVSLGKLNNVREAIEIARTARTVLGASGITGEYPVMRHANNLESVLTYEGTSEMHTLIIGQALTGVGAFR RRGADDLIGINAVLSAEEREIRDTVRSVVQRRIKPHIASWYEDGELPARELAVELGELGLLGMHLKGYGCAGMSAVAYGLACLELEAGDSGIRSLVSVQGSLAMYAIHAFGSDEQKDQWLPDMASGHRIGCFGLTEPDHGSDPAGMRTRATRSGDDWILTGTKMWITNGSVADVAVVWARTDEGIRGFVVPTDTPGFTANTIKSKMSLRASVTSELVLDGVRLPDSARLPGATSLGAPLRCLNEARFGIVFGALGAARDCLETALAYACSREQFDRPIGGFQLTQQKLADMTLEYGKGFLLALHLGRQKDAGELAPEQVSLGKLNNVREAIEIARTARTVLGASGITGEYPVMRHANNLESVLTYEGTSEMHTLIIGQALTGVGAFR 3sfc-a5-m2-cA_3sfc-a5-m3-cA Structure-Based Optimization of Potent 4- and 6-Azaindole-3-Carboxamides as Renin Inhibitors P00797 P00797 2.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 340 340 1bbs-a3-m1-cA_1bbs-a3-m2-cA 1bbs-a3-m3-cA_1bbs-a3-m1-cA 1bbs-a3-m3-cA_1bbs-a3-m2-cA 1bbs-a4-m1-cA_1bbs-a4-m2-cA 1bbs-a4-m3-cA_1bbs-a4-m1-cA 1bbs-a4-m3-cA_1bbs-a4-m2-cA 2fs4-a3-m1-cA_2fs4-a3-m2-cA 2fs4-a3-m1-cA_2fs4-a3-m3-cA 2fs4-a3-m2-cA_2fs4-a3-m3-cA 2fs4-a5-m1-cA_2fs4-a5-m2-cA 2fs4-a5-m1-cA_2fs4-a5-m3-cA 2fs4-a5-m2-cA_2fs4-a5-m3-cA 2g1o-a3-m1-cA_2g1o-a3-m2-cA 2g1o-a3-m1-cA_2g1o-a3-m3-cA 2g1o-a3-m2-cA_2g1o-a3-m3-cA 2g1o-a5-m1-cA_2g1o-a5-m2-cA 2g1o-a5-m1-cA_2g1o-a5-m3-cA 2g1o-a5-m2-cA_2g1o-a5-m3-cA 2g1r-a3-m1-cA_2g1r-a3-m2-cA 2g1r-a3-m1-cA_2g1r-a3-m3-cA 2g1r-a3-m2-cA_2g1r-a3-m3-cA 2g1y-a3-m1-cA_2g1y-a3-m2-cA 2g1y-a3-m1-cA_2g1y-a3-m3-cA 2g1y-a3-m2-cA_2g1y-a3-m3-cA 2g1y-a5-m1-cA_2g1y-a5-m2-cA 2g1y-a5-m1-cA_2g1y-a5-m3-cA 2g1y-a5-m2-cA_2g1y-a5-m3-cA 2g20-a3-m1-cA_2g20-a3-m2-cA 2g20-a3-m1-cA_2g20-a3-m3-cA 2g20-a3-m2-cA_2g20-a3-m3-cA 2g24-a3-m1-cA_2g24-a3-m2-cA 2g24-a3-m1-cA_2g24-a3-m3-cA 2g24-a3-m2-cA_2g24-a3-m3-cA 2g26-a3-m1-cA_2g26-a3-m2-cA 2g26-a3-m1-cA_2g26-a3-m3-cA 2g26-a3-m2-cA_2g26-a3-m3-cA 2iko-a1-m1-cA_2iko-a1-m2-cA 2iko-a1-m1-cA_2iko-a1-m3-cA 2iko-a1-m2-cA_2iko-a1-m3-cA 2iku-a1-m1-cA_2iku-a1-m2-cA 2iku-a1-m1-cA_2iku-a1-m3-cA 2iku-a1-m2-cA_2iku-a1-m3-cA 2il2-a1-m1-cA_2il2-a1-m2-cA 2il2-a1-m1-cA_2il2-a1-m3-cA 2il2-a1-m2-cA_2il2-a1-m3-cA 2v16-a1-m1-cC_2v16-a1-m2-cC 2v16-a1-m1-cC_2v16-a1-m3-cC 2v16-a1-m2-cC_2v16-a1-m3-cC 3own-a3-m1-cA_3own-a3-m2-cA 3own-a3-m1-cA_3own-a3-m3-cA 3own-a3-m2-cA_3own-a3-m3-cA 3own-a5-m1-cA_3own-a5-m2-cA 3own-a5-m1-cA_3own-a5-m3-cA 3own-a5-m2-cA_3own-a5-m3-cA 3sfc-a3-m1-cA_3sfc-a3-m2-cA 3sfc-a3-m1-cA_3sfc-a3-m3-cA 3sfc-a3-m2-cA_3sfc-a3-m3-cA 3sfc-a4-m1-cA_3sfc-a4-m2-cA 3sfc-a4-m1-cA_3sfc-a4-m3-cA 3sfc-a4-m2-cA_3sfc-a4-m3-cA 3sfc-a5-m1-cA_3sfc-a5-m2-cA 3sfc-a5-m1-cA_3sfc-a5-m3-cA 3vsw-a3-m1-cA_3vsw-a3-m2-cA 3vsw-a3-m1-cA_3vsw-a3-m3-cA 3vsw-a3-m2-cA_3vsw-a3-m3-cA 3vsw-a4-m1-cA_3vsw-a4-m2-cA 3vsw-a4-m1-cA_3vsw-a4-m3-cA 3vsw-a4-m2-cA_3vsw-a4-m3-cA 3vsx-a3-m1-cA_3vsx-a3-m2-cA 3vsx-a3-m1-cA_3vsx-a3-m3-cA 3vsx-a3-m2-cA_3vsx-a3-m3-cA 3vuc-a3-m1-cA_3vuc-a3-m2-cA 3vuc-a3-m1-cA_3vuc-a3-m3-cA 3vuc-a3-m2-cA_3vuc-a3-m3-cA 3vyd-a3-m1-cA_3vyd-a3-m2-cA 3vyd-a3-m1-cA_3vyd-a3-m3-cA 3vyd-a3-m2-cA_3vyd-a3-m3-cA 3vye-a3-m1-cA_3vye-a3-m2-cA 3vye-a3-m1-cA_3vye-a3-m3-cA 3vye-a3-m2-cA_3vye-a3-m3-cA 3vyf-a3-m1-cA_3vyf-a3-m2-cA 3vyf-a3-m1-cA_3vyf-a3-m3-cA 3vyf-a3-m2-cA_3vyf-a3-m3-cA 4q1n-a3-m1-cA_4q1n-a3-m2-cA 4q1n-a3-m1-cA_4q1n-a3-m3-cA 4q1n-a3-m2-cA_4q1n-a3-m3-cA 4ryc-a3-m1-cA_4ryc-a3-m2-cA 4ryc-a3-m1-cA_4ryc-a3-m3-cA 4ryc-a3-m2-cA_4ryc-a3-m3-cA 4ryg-a3-m1-cA_4ryg-a3-m2-cA 4ryg-a3-m1-cA_4ryg-a3-m3-cA 4ryg-a3-m2-cA_4ryg-a3-m3-cA 4rz1-a3-m1-cA_4rz1-a3-m2-cA 4rz1-a3-m1-cA_4rz1-a3-m3-cA 4rz1-a3-m2-cA_4rz1-a3-m3-cA 4s1g-a3-m1-cA_4s1g-a3-m2-cA 4s1g-a3-m1-cA_4s1g-a3-m3-cA 4s1g-a3-m2-cA_4s1g-a3-m3-cA 4xx3-a3-m1-cA_4xx3-a3-m2-cA 4xx3-a3-m1-cA_4xx3-a3-m3-cA 4xx3-a3-m2-cA_4xx3-a3-m3-cA 4xx3-a4-m1-cA_4xx3-a4-m2-cA 4xx3-a4-m1-cA_4xx3-a4-m3-cA 4xx3-a4-m2-cA_4xx3-a4-m3-cA 4xx4-a3-m1-cA_4xx4-a3-m2-cA 4xx4-a3-m1-cA_4xx4-a3-m3-cA 4xx4-a3-m2-cA_4xx4-a3-m3-cA 4xx4-a4-m1-cA_4xx4-a4-m2-cA 4xx4-a4-m1-cA_4xx4-a4-m3-cA 4xx4-a4-m2-cA_4xx4-a4-m3-cA 5koq-a3-m1-cA_5koq-a3-m2-cA 5koq-a3-m1-cA_5koq-a3-m3-cA 5koq-a3-m2-cA_5koq-a3-m3-cA 5kos-a3-m1-cA_5kos-a3-m2-cA 5kos-a3-m1-cA_5kos-a3-m3-cA 5kos-a3-m2-cA_5kos-a3-m3-cA 5kot-a3-m1-cA_5kot-a3-m2-cA 5kot-a3-m1-cA_5kot-a3-m3-cA 5kot-a3-m2-cA_5kot-a3-m3-cA 5sxn-a3-m1-cA_5sxn-a3-m2-cA 5sxn-a3-m1-cA_5sxn-a3-m3-cA 5sxn-a3-m2-cA_5sxn-a3-m3-cA 5sy2-a3-m1-cA_5sy2-a3-m2-cA 5sy2-a3-m1-cA_5sy2-a3-m3-cA 5sy2-a3-m2-cA_5sy2-a3-m3-cA 5sz9-a3-m1-cA_5sz9-a3-m2-cA 5sz9-a3-m1-cA_5sz9-a3-m3-cA 5sz9-a3-m2-cA_5sz9-a3-m3-cA 5t4s-a3-m1-cA_5t4s-a3-m2-cA 5t4s-a3-m1-cA_5t4s-a3-m3-cA 5t4s-a3-m2-cA_5t4s-a3-m3-cA 5tmg-a3-m1-cA_5tmg-a3-m2-cA 5tmg-a3-m1-cA_5tmg-a3-m3-cA 5tmg-a3-m2-cA_5tmg-a3-m3-cA 5tmk-a3-m1-cA_5tmk-a3-m2-cA 5tmk-a3-m1-cA_5tmk-a3-m3-cA 5tmk-a3-m2-cA_5tmk-a3-m3-cA LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 3sfc-a5-m3-cB_3sfc-a5-m2-cB Structure-Based Optimization of Potent 4- and 6-Azaindole-3-Carboxamides as Renin Inhibitors P00797 P00797 2.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 340 340 1bbs-a3-m1-cB_1bbs-a3-m2-cB 1bbs-a3-m3-cB_1bbs-a3-m1-cB 1bbs-a3-m3-cB_1bbs-a3-m2-cB 2fs4-a3-m1-cB_2fs4-a3-m2-cB 2fs4-a3-m1-cB_2fs4-a3-m3-cB 2fs4-a3-m2-cB_2fs4-a3-m3-cB 2fs4-a4-m1-cB_2fs4-a4-m2-cB 2fs4-a4-m1-cB_2fs4-a4-m3-cB 2fs4-a4-m2-cB_2fs4-a4-m3-cB 2g1o-a3-m1-cB_2g1o-a3-m2-cB 2g1o-a3-m1-cB_2g1o-a3-m3-cB 2g1o-a3-m2-cB_2g1o-a3-m3-cB 2g1o-a4-m1-cB_2g1o-a4-m2-cB 2g1o-a4-m1-cB_2g1o-a4-m3-cB 2g1o-a4-m2-cB_2g1o-a4-m3-cB 2g1r-a3-m1-cB_2g1r-a3-m2-cB 2g1r-a3-m1-cB_2g1r-a3-m3-cB 2g1r-a3-m2-cB_2g1r-a3-m3-cB 2g1y-a3-m1-cB_2g1y-a3-m2-cB 2g1y-a3-m1-cB_2g1y-a3-m3-cB 2g1y-a3-m2-cB_2g1y-a3-m3-cB 2g1y-a4-m1-cB_2g1y-a4-m2-cB 2g1y-a4-m1-cB_2g1y-a4-m3-cB 2g1y-a4-m2-cB_2g1y-a4-m3-cB 2g20-a3-m1-cB_2g20-a3-m2-cB 2g20-a3-m1-cB_2g20-a3-m3-cB 2g20-a3-m2-cB_2g20-a3-m3-cB 2g22-a3-m1-cB_2g22-a3-m2-cB 2g22-a3-m1-cB_2g22-a3-m3-cB 2g22-a3-m2-cB_2g22-a3-m3-cB 2g24-a3-m1-cB_2g24-a3-m2-cB 2g24-a3-m1-cB_2g24-a3-m3-cB 2g24-a3-m2-cB_2g24-a3-m3-cB 2g24-a4-m1-cB_2g24-a4-m2-cB 2g24-a4-m1-cB_2g24-a4-m3-cB 2g24-a4-m2-cB_2g24-a4-m3-cB 2g26-a3-m1-cB_2g26-a3-m2-cB 2g26-a3-m1-cB_2g26-a3-m3-cB 2g26-a3-m2-cB_2g26-a3-m3-cB 2g26-a4-m1-cB_2g26-a4-m2-cB 2g26-a4-m1-cB_2g26-a4-m3-cB 2g26-a4-m2-cB_2g26-a4-m3-cB 2g27-a3-m1-cB_2g27-a3-m2-cB 2g27-a3-m1-cB_2g27-a3-m3-cB 2g27-a3-m2-cB_2g27-a3-m3-cB 2iko-a1-m1-cB_2iko-a1-m2-cB 2iko-a1-m1-cB_2iko-a1-m3-cB 2iko-a1-m2-cB_2iko-a1-m3-cB 2iku-a1-m1-cB_2iku-a1-m2-cB 2iku-a1-m1-cB_2iku-a1-m3-cB 2iku-a1-m2-cB_2iku-a1-m3-cB 2il2-a1-m1-cB_2il2-a1-m2-cB 2il2-a1-m1-cB_2il2-a1-m3-cB 2il2-a1-m2-cB_2il2-a1-m3-cB 2v16-a1-m1-cO_2v16-a1-m2-cO 2v16-a1-m3-cO_2v16-a1-m1-cO 2v16-a1-m3-cO_2v16-a1-m2-cO 3own-a4-m1-cB_3own-a4-m2-cB 3own-a4-m1-cB_3own-a4-m3-cB 3own-a4-m2-cB_3own-a4-m3-cB 3own-a5-m1-cB_3own-a5-m2-cB 3own-a5-m1-cB_3own-a5-m3-cB 3own-a5-m2-cB_3own-a5-m3-cB 3sfc-a3-m1-cB_3sfc-a3-m2-cB 3sfc-a3-m3-cB_3sfc-a3-m1-cB 3sfc-a3-m3-cB_3sfc-a3-m2-cB 3sfc-a4-m1-cB_3sfc-a4-m2-cB 3sfc-a4-m3-cB_3sfc-a4-m1-cB 3sfc-a4-m3-cB_3sfc-a4-m2-cB 3sfc-a5-m1-cB_3sfc-a5-m2-cB 3sfc-a5-m3-cB_3sfc-a5-m1-cB 3vsw-a3-m1-cB_3vsw-a3-m2-cB 3vsw-a3-m1-cB_3vsw-a3-m3-cB 3vsw-a3-m2-cB_3vsw-a3-m3-cB 3vsw-a5-m1-cB_3vsw-a5-m2-cB 3vsw-a5-m1-cB_3vsw-a5-m3-cB 3vsw-a5-m2-cB_3vsw-a5-m3-cB 3vsx-a3-m1-cB_3vsx-a3-m2-cB 3vsx-a3-m1-cB_3vsx-a3-m3-cB 3vsx-a3-m2-cB_3vsx-a3-m3-cB 3vuc-a3-m1-cB_3vuc-a3-m2-cB 3vuc-a3-m1-cB_3vuc-a3-m3-cB 3vuc-a3-m2-cB_3vuc-a3-m3-cB 3vyd-a3-m1-cB_3vyd-a3-m2-cB 3vyd-a3-m1-cB_3vyd-a3-m3-cB 3vyd-a3-m2-cB_3vyd-a3-m3-cB 3vye-a3-m1-cB_3vye-a3-m2-cB 3vye-a3-m1-cB_3vye-a3-m3-cB 3vye-a3-m2-cB_3vye-a3-m3-cB 3vyf-a3-m1-cB_3vyf-a3-m2-cB 3vyf-a3-m1-cB_3vyf-a3-m3-cB 3vyf-a3-m2-cB_3vyf-a3-m3-cB 4q1n-a3-m1-cB_4q1n-a3-m2-cB 4q1n-a3-m3-cB_4q1n-a3-m1-cB 4q1n-a3-m3-cB_4q1n-a3-m2-cB 4ryc-a3-m1-cB_4ryc-a3-m2-cB 4ryc-a3-m3-cB_4ryc-a3-m1-cB 4ryc-a3-m3-cB_4ryc-a3-m2-cB 4ryg-a3-m1-cB_4ryg-a3-m2-cB 4ryg-a3-m3-cB_4ryg-a3-m1-cB 4ryg-a3-m3-cB_4ryg-a3-m2-cB 4rz1-a3-m1-cB_4rz1-a3-m2-cB 4rz1-a3-m3-cB_4rz1-a3-m1-cB 4rz1-a3-m3-cB_4rz1-a3-m2-cB 4s1g-a3-m1-cB_4s1g-a3-m2-cB 4s1g-a3-m1-cB_4s1g-a3-m3-cB 4s1g-a3-m2-cB_4s1g-a3-m3-cB 4xx3-a3-m1-cB_4xx3-a3-m2-cB 4xx3-a3-m1-cB_4xx3-a3-m3-cB 4xx3-a3-m2-cB_4xx3-a3-m3-cB 4xx3-a5-m1-cB_4xx3-a5-m2-cB 4xx3-a5-m1-cB_4xx3-a5-m3-cB 4xx3-a5-m2-cB_4xx3-a5-m3-cB 4xx4-a3-m1-cB_4xx4-a3-m2-cB 4xx4-a3-m1-cB_4xx4-a3-m3-cB 4xx4-a3-m2-cB_4xx4-a3-m3-cB 4xx4-a5-m1-cB_4xx4-a5-m2-cB 4xx4-a5-m1-cB_4xx4-a5-m3-cB 4xx4-a5-m2-cB_4xx4-a5-m3-cB 5koq-a3-m1-cB_5koq-a3-m2-cB 5koq-a3-m1-cB_5koq-a3-m3-cB 5koq-a3-m2-cB_5koq-a3-m3-cB 5kos-a3-m1-cB_5kos-a3-m2-cB 5kos-a3-m1-cB_5kos-a3-m3-cB 5kos-a3-m2-cB_5kos-a3-m3-cB 5kot-a3-m1-cB_5kot-a3-m2-cB 5kot-a3-m1-cB_5kot-a3-m3-cB 5kot-a3-m2-cB_5kot-a3-m3-cB 5sxn-a3-m1-cB_5sxn-a3-m2-cB 5sxn-a3-m1-cB_5sxn-a3-m3-cB 5sxn-a3-m2-cB_5sxn-a3-m3-cB 5sy2-a3-m1-cB_5sy2-a3-m2-cB 5sy2-a3-m1-cB_5sy2-a3-m3-cB 5sy2-a3-m2-cB_5sy2-a3-m3-cB 5sy3-a3-m1-cA_5sy3-a3-m2-cA 5sy3-a3-m1-cA_5sy3-a3-m3-cA 5sy3-a3-m2-cA_5sy3-a3-m3-cA 5sz9-a3-m1-cB_5sz9-a3-m2-cB 5sz9-a3-m1-cB_5sz9-a3-m3-cB 5sz9-a3-m2-cB_5sz9-a3-m3-cB 5t4s-a3-m1-cB_5t4s-a3-m2-cB 5t4s-a3-m1-cB_5t4s-a3-m3-cB 5t4s-a3-m2-cB_5t4s-a3-m3-cB 5tmg-a3-m1-cB_5tmg-a3-m2-cB 5tmg-a3-m1-cB_5tmg-a3-m3-cB 5tmg-a3-m2-cB_5tmg-a3-m3-cB 5tmk-a3-m1-cB_5tmk-a3-m2-cB 5tmk-a3-m1-cB_5tmk-a3-m3-cB 5tmk-a3-m2-cB_5tmk-a3-m3-cB LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 3sfc-a5-m3-cB_3sfc-a5-m3-cA Structure-Based Optimization of Potent 4- and 6-Azaindole-3-Carboxamides as Renin Inhibitors P00797 P00797 2.1 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 340 340 1bbs-a3-m1-cA_1bbs-a3-m2-cB 1bbs-a3-m3-cA_1bbs-a3-m1-cB 1bbs-a3-m3-cB_1bbs-a3-m2-cA 1bil-a1-m1-cB_1bil-a1-m1-cA 1bim-a1-m1-cB_1bim-a1-m1-cA 1hrn-a1-m1-cB_1hrn-a1-m1-cA 2fs4-a3-m1-cA_2fs4-a3-m2-cB 2fs4-a3-m1-cB_2fs4-a3-m3-cA 2fs4-a3-m2-cA_2fs4-a3-m3-cB 2g1o-a3-m1-cA_2g1o-a3-m2-cB 2g1o-a3-m1-cB_2g1o-a3-m3-cA 2g1o-a3-m2-cA_2g1o-a3-m3-cB 2g1r-a3-m1-cA_2g1r-a3-m2-cB 2g1r-a3-m1-cB_2g1r-a3-m3-cA 2g1r-a3-m2-cA_2g1r-a3-m3-cB 2g1y-a3-m1-cA_2g1y-a3-m3-cB 2g1y-a3-m1-cB_2g1y-a3-m2-cA 2g1y-a3-m2-cB_2g1y-a3-m3-cA 2g20-a3-m1-cA_2g20-a3-m3-cB 2g20-a3-m1-cB_2g20-a3-m2-cA 2g20-a3-m2-cB_2g20-a3-m3-cA 2g24-a3-m1-cA_2g24-a3-m3-cB 2g24-a3-m1-cB_2g24-a3-m2-cA 2g24-a3-m2-cB_2g24-a3-m3-cA 2g26-a3-m1-cA_2g26-a3-m2-cB 2g26-a3-m1-cB_2g26-a3-m3-cA 2g26-a3-m2-cA_2g26-a3-m3-cB 2i4q-a1-m1-cA_2i4q-a1-m1-cB 2iko-a1-m1-cB_2iko-a1-m1-cA 2iko-a1-m2-cB_2iko-a1-m2-cA 2iko-a1-m3-cB_2iko-a1-m3-cA 2iku-a1-m1-cA_2iku-a1-m1-cB 2iku-a1-m2-cA_2iku-a1-m2-cB 2iku-a1-m3-cA_2iku-a1-m3-cB 2il2-a1-m1-cA_2il2-a1-m1-cB 2il2-a1-m2-cA_2il2-a1-m2-cB 2il2-a1-m3-cA_2il2-a1-m3-cB 2v12-a1-m1-cO_2v12-a1-m1-cC 2v12-a2-m1-cO_2v12-a2-m1-cC 2v16-a1-m1-cO_2v16-a1-m1-cC 2v16-a1-m2-cO_2v16-a1-m2-cC 2v16-a1-m3-cO_2v16-a1-m3-cC 3own-a5-m1-cA_3own-a5-m1-cB 3own-a5-m2-cA_3own-a5-m2-cB 3own-a5-m3-cA_3own-a5-m3-cB 3sfc-a3-m1-cA_3sfc-a3-m1-cB 3sfc-a3-m2-cA_3sfc-a3-m2-cB 3sfc-a3-m3-cB_3sfc-a3-m3-cA 3sfc-a4-m1-cA_3sfc-a4-m1-cB 3sfc-a4-m2-cA_3sfc-a4-m2-cB 3sfc-a4-m3-cB_3sfc-a4-m3-cA 3sfc-a5-m1-cA_3sfc-a5-m1-cB 3sfc-a5-m2-cA_3sfc-a5-m2-cB 3vsw-a3-m1-cA_3vsw-a3-m1-cB 3vsw-a3-m2-cA_3vsw-a3-m2-cB 3vsw-a3-m3-cA_3vsw-a3-m3-cB 3vsx-a3-m1-cA_3vsx-a3-m1-cB 3vsx-a3-m2-cA_3vsx-a3-m2-cB 3vsx-a3-m3-cA_3vsx-a3-m3-cB 3vuc-a3-m1-cB_3vuc-a3-m1-cA 3vuc-a3-m2-cB_3vuc-a3-m2-cA 3vuc-a3-m3-cB_3vuc-a3-m3-cA 3vyd-a3-m1-cA_3vyd-a3-m1-cB 3vyd-a3-m2-cA_3vyd-a3-m2-cB 3vyd-a3-m3-cA_3vyd-a3-m3-cB 3vye-a3-m1-cA_3vye-a3-m1-cB 3vye-a3-m2-cA_3vye-a3-m2-cB 3vye-a3-m3-cA_3vye-a3-m3-cB 3vyf-a3-m1-cB_3vyf-a3-m1-cA 3vyf-a3-m2-cB_3vyf-a3-m2-cA 3vyf-a3-m3-cB_3vyf-a3-m3-cA 4q1n-a3-m1-cA_4q1n-a3-m1-cB 4q1n-a3-m2-cA_4q1n-a3-m2-cB 4q1n-a3-m3-cB_4q1n-a3-m3-cA 4ryc-a3-m1-cA_4ryc-a3-m1-cB 4ryc-a3-m2-cA_4ryc-a3-m2-cB 4ryc-a3-m3-cB_4ryc-a3-m3-cA 4ryg-a3-m1-cA_4ryg-a3-m1-cB 4ryg-a3-m2-cA_4ryg-a3-m2-cB 4ryg-a3-m3-cB_4ryg-a3-m3-cA 4rz1-a3-m1-cA_4rz1-a3-m1-cB 4rz1-a3-m2-cA_4rz1-a3-m2-cB 4rz1-a3-m3-cB_4rz1-a3-m3-cA 4s1g-a3-m1-cB_4s1g-a3-m1-cA 4s1g-a3-m2-cB_4s1g-a3-m2-cA 4s1g-a3-m3-cB_4s1g-a3-m3-cA 4xx3-a3-m1-cB_4xx3-a3-m1-cA 4xx3-a3-m2-cB_4xx3-a3-m2-cA 4xx3-a3-m3-cB_4xx3-a3-m3-cA 4xx4-a3-m1-cB_4xx4-a3-m1-cA 4xx4-a3-m2-cB_4xx4-a3-m2-cA 4xx4-a3-m3-cB_4xx4-a3-m3-cA 5koq-a3-m1-cB_5koq-a3-m1-cA 5koq-a3-m2-cB_5koq-a3-m2-cA 5koq-a3-m3-cB_5koq-a3-m3-cA 5kos-a3-m1-cA_5kos-a3-m1-cB 5kos-a3-m2-cA_5kos-a3-m2-cB 5kos-a3-m3-cA_5kos-a3-m3-cB 5kot-a3-m1-cA_5kot-a3-m1-cB 5kot-a3-m2-cA_5kot-a3-m2-cB 5kot-a3-m3-cA_5kot-a3-m3-cB 5sxn-a3-m1-cA_5sxn-a3-m1-cB 5sxn-a3-m2-cA_5sxn-a3-m2-cB 5sxn-a3-m3-cA_5sxn-a3-m3-cB 5sy2-a3-m1-cB_5sy2-a3-m1-cA 5sy2-a3-m2-cB_5sy2-a3-m2-cA 5sy2-a3-m3-cB_5sy2-a3-m3-cA 5sz9-a3-m1-cB_5sz9-a3-m1-cA 5sz9-a3-m2-cB_5sz9-a3-m2-cA 5sz9-a3-m3-cB_5sz9-a3-m3-cA 5t4s-a3-m1-cB_5t4s-a3-m1-cA 5t4s-a3-m2-cB_5t4s-a3-m2-cA 5t4s-a3-m3-cB_5t4s-a3-m3-cA 5tmg-a3-m1-cA_5tmg-a3-m1-cB 5tmg-a3-m2-cA_5tmg-a3-m2-cB 5tmg-a3-m3-cA_5tmg-a3-m3-cB 5tmk-a3-m1-cB_5tmk-a3-m1-cA 5tmk-a3-m2-cB_5tmk-a3-m2-cA 5tmk-a3-m3-cB_5tmk-a3-m3-cA LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR LTLGNTTSSVILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDSENSQSLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFQESYSSKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 3sfw-a1-m1-cB_3sfw-a1-m2-cB Crystal structure of dihydropyrimidinase from Brevibacillus agri NCHU1002 Q846U5 Q846U5 1.73 X-RAY DIFFRACTION 122 1.0 51101 (Brevibacillus agri) 51101 (Brevibacillus agri) 460 460 3sfw-a1-m1-cA_3sfw-a1-m2-cA MKKWIRNGTVVTASDTYQADVLIDGEKVVAIGSDLQATDAEVIDATGYYLLPGGIDPHTHLDMPFGGTVTSDNFFTGTKAAAFGGTTSIVDFCLTSKGESLHSAIATWHEKARGKAVIDYGFHLMVSDANDHVLEELESVVNNEGITSLVFMAYKNVLMADDETLFKTLIRAKELGALVQVHAENGDVLDYLTKQALAEGNTDPIYHAYTRPPEAEGEATGRAIALTALADAQLYVVHVSCADAVRRIAEAREKGWNVYGETCPQYLVLDITALEKPDFEGAKYVWSPPLREKWNQDVLWSALKNGILQTVGSDHCPFNFSGQKELGRRDFTKIPNGGPIIEDRMTILFSEGVRKGKISLNQFVDITSTKVAKLFGMFPQKGTIAVGSDADIVLFDPTVQRTISVETHHMNVDYNPFEGMQVHGDVISVLSRGAFVVRNKQFVGHAGAGRYVKRSTFARP MKKWIRNGTVVTASDTYQADVLIDGEKVVAIGSDLQATDAEVIDATGYYLLPGGIDPHTHLDMPFGGTVTSDNFFTGTKAAAFGGTTSIVDFCLTSKGESLHSAIATWHEKARGKAVIDYGFHLMVSDANDHVLEELESVVNNEGITSLVFMAYKNVLMADDETLFKTLIRAKELGALVQVHAENGDVLDYLTKQALAEGNTDPIYHAYTRPPEAEGEATGRAIALTALADAQLYVVHVSCADAVRRIAEAREKGWNVYGETCPQYLVLDITALEKPDFEGAKYVWSPPLREKWNQDVLWSALKNGILQTVGSDHCPFNFSGQKELGRRDFTKIPNGGPIIEDRMTILFSEGVRKGKISLNQFVDITSTKVAKLFGMFPQKGTIAVGSDADIVLFDPTVQRTISVETHHMNVDYNPFEGMQVHGDVISVLSRGAFVVRNKQFVGHAGAGRYVKRSTFARP 3sfw-a1-m2-cA_3sfw-a1-m2-cB Crystal structure of dihydropyrimidinase from Brevibacillus agri NCHU1002 Q846U5 Q846U5 1.73 X-RAY DIFFRACTION 60 1.0 51101 (Brevibacillus agri) 51101 (Brevibacillus agri) 460 460 3sfw-a1-m1-cA_3sfw-a1-m1-cB MKKWIRNGTVVTASDTYQADVLIDGEKVVAIGSDLQATDAEVIDATGYYLLPGGIDPHTHLDMPFGGTVTSDNFFTGTKAAAFGGTTSIVDFCLTSKGESLHSAIATWHEKARGKAVIDYGFHLMVSDANDHVLEELESVVNNEGITSLVFMAYKNVLMADDETLFKTLIRAKELGALVQVHAENGDVLDYLTKQALAEGNTDPIYHAYTRPPEAEGEATGRAIALTALADAQLYVVHVSCADAVRRIAEAREKGWNVYGETCPQYLVLDITALEKPDFEGAKYVWSPPLREKWNQDVLWSALKNGILQTVGSDHCPFNFSGQKELGRRDFTKIPNGGPIIEDRMTILFSEGVRKGKISLNQFVDITSTKVAKLFGMFPQKGTIAVGSDADIVLFDPTVQRTISVETHHMNVDYNPFEGMQVHGDVISVLSRGAFVVRNKQFVGHAGAGRYVKRSTFARP MKKWIRNGTVVTASDTYQADVLIDGEKVVAIGSDLQATDAEVIDATGYYLLPGGIDPHTHLDMPFGGTVTSDNFFTGTKAAAFGGTTSIVDFCLTSKGESLHSAIATWHEKARGKAVIDYGFHLMVSDANDHVLEELESVVNNEGITSLVFMAYKNVLMADDETLFKTLIRAKELGALVQVHAENGDVLDYLTKQALAEGNTDPIYHAYTRPPEAEGEATGRAIALTALADAQLYVVHVSCADAVRRIAEAREKGWNVYGETCPQYLVLDITALEKPDFEGAKYVWSPPLREKWNQDVLWSALKNGILQTVGSDHCPFNFSGQKELGRRDFTKIPNGGPIIEDRMTILFSEGVRKGKISLNQFVDITSTKVAKLFGMFPQKGTIAVGSDADIVLFDPTVQRTISVETHHMNVDYNPFEGMQVHGDVISVLSRGAFVVRNKQFVGHAGAGRYVKRSTFARP 3sg1-a5-m1-cA_3sg1-a5-m1-cD 2.6 Angstrom Crystal Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1 (MurA1) from Bacillus anthracis Q81K13 Q81K13 2.6 X-RAY DIFFRACTION 44 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 419 419 3sg1-a5-m1-cB_3sg1-a5-m1-cC MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDASKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNE MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDASKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNE 3sg1-a5-m1-cB_3sg1-a5-m1-cD 2.6 Angstrom Crystal Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1 (MurA1) from Bacillus anthracis Q81K13 Q81K13 2.6 X-RAY DIFFRACTION 31 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 419 419 3sg1-a5-m1-cA_3sg1-a5-m1-cC MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDASKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNE MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDASKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNE 3sg1-a5-m1-cC_3sg1-a5-m1-cD 2.6 Angstrom Crystal Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1 (MurA1) from Bacillus anthracis Q81K13 Q81K13 2.6 X-RAY DIFFRACTION 94 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 419 419 3sg1-a5-m1-cA_3sg1-a5-m1-cB MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDASKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNE MEKIIVRGGKRLNGTVRVEGAKNAVLPIIAAALLASDGKNVLSEVPVLSDVYTINEVLRHLNAEVVFENNQVTIDASKELNIEAPFEYVRKMRASVQVMGPLLARNGRARIALPGGCAIGSRPIDQHLKGFEAMGAKVQVGNGFVEAYVEGELKGAKIYLDFPSVGATENIMSAATLAKGTTILENAAKEPEIVDLANFLNAMGAKVRGAGTGTIRIEGVDKLYGANHSIIPDRIEAGTFMVAAAITGGDILIENAVPEHLRSITAKMEEMGVKIIEENEGVRVIGPDKLKAVDIKTMPHPGFPTDMQSQMMALLLQADGTSMITETVFENRFMHVEEFRRMNADIKIEGRSVIMNGPNSLQGAEVGATDLRAAAALILAGLVSEGYTRVTELKHLDRGYVDFHKKLAALGATIERVNE 3sg6-a1-m1-cA_3sg6-a1-m2-cA Crystal Structure of Dimeric GCaMP2-LIA(linker 1) P0DP29 P0DP29 1.7 X-RAY DIFFRACTION 204 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 383 383 3evv-a1-m1-cA_3evv-a1-m2-cA SRRKWNKTGHAVRAIGRLSSLIANVYIMADKQKNGIKANFKIRHNIEDGGVQLAYHYQQNTPIGDGPVLLPDNHYLSTQSKLSKDPNEKRDHMVLLEFVTAAGITLKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKQHDFFKSAMPEGYIQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT SRRKWNKTGHAVRAIGRLSSLIANVYIMADKQKNGIKANFKIRHNIEDGGVQLAYHYQQNTPIGDGPVLLPDNHYLSTQSKLSKDPNEKRDHMVLLEFVTAAGITLKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKQHDFFKSAMPEGYIQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT 3sg8-a3-m1-cA_3sg8-a3-m1-cB Crystal Structure of Aminoglycoside-2''-Phosphotransferase Type IVa Tobramycin Complex O68183 O68183 1.8 X-RAY DIFFRACTION 62 1.0 37734 (Enterococcus casseliflavus) 37734 (Enterococcus casseliflavus) 298 298 3sg9-a3-m1-cA_3sg9-a3-m1-cB 4dt8-a3-m1-cB_4dt8-a3-m1-cA 4dt9-a3-m1-cA_4dt9-a3-m1-cB 4dta-a3-m1-cA_4dta-a3-m1-cB 4dtb-a3-m1-cA_4dtb-a3-m1-cB MRTYTFDQVEKAIEQLYPDFTINTIEISGEGNDCIAYEINRDFIFKFPKHSRGSTNLFNEVNILKRIHNKLPLPIPEVVFTGMPSETYQMSFAGFTKIKGVPLTPLLLNNLPKQSQNQAAKDLARFLSELHSINISGFKSNLVLDFREKINEDNKKIKKLLSRELKGPQMKKVDDFYRDILENEIYFKYYPCLIHNDFSSDHILFDTEKNTICGIIDFGDAAISDPDNDFISLMEDDEEYGMEFVSKILNHYKHKDIPTVLEKYRMKEKYWSFEKIIYGKEYGYMDWYEEGLNEIRSA MRTYTFDQVEKAIEQLYPDFTINTIEISGEGNDCIAYEINRDFIFKFPKHSRGSTNLFNEVNILKRIHNKLPLPIPEVVFTGMPSETYQMSFAGFTKIKGVPLTPLLLNNLPKQSQNQAAKDLARFLSELHSINISGFKSNLVLDFREKINEDNKKIKKLLSRELKGPQMKKVDDFYRDILENEIYFKYYPCLIHNDFSSDHILFDTEKNTICGIIDFGDAAISDPDNDFISLMEDDEEYGMEFVSKILNHYKHKDIPTVLEKYRMKEKYWSFEKIIYGKEYGYMDWYEEGLNEIRSA 3sgm-a2-m1-cC_3sgm-a2-m3-cD Bromoderivative-2 of amyloid-related segment of alphaB-crystallin residues 90-100 P02511 P02511 1.7006 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 3sgm-a1-m1-cA_3sgm-a1-m3-cB 3sgm-a1-m1-cB_3sgm-a1-m2-cA 3sgm-a1-m2-cB_3sgm-a1-m3-cA 3sgm-a2-m1-cD_3sgm-a2-m2-cC 3sgm-a2-m2-cD_3sgm-a2-m3-cC KKVLGDVIEV KKVLGDVIEV 3sgm-a2-m3-cC_3sgm-a2-m3-cD Bromoderivative-2 of amyloid-related segment of alphaB-crystallin residues 90-100 P02511 P02511 1.7006 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 3sgm-a1-m1-cA_3sgm-a1-m1-cB 3sgm-a1-m2-cA_3sgm-a1-m2-cB 3sgm-a1-m3-cA_3sgm-a1-m3-cB 3sgm-a2-m1-cC_3sgm-a2-m1-cD 3sgm-a2-m2-cC_3sgm-a2-m2-cD KKVLGDVIEV KKVLGDVIEV 3sgn-a1-m2-cA_3sgn-a1-m3-cB Bromoderivative-8 of amyloid-related segment of alphaB-crystallin residues 90-100 P02511 P02511 2.807 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 3sgn-a1-m1-cA_3sgn-a1-m2-cB 3sgn-a1-m1-cB_3sgn-a1-m3-cA KVKVLGDIEV KVKVLGDIEV 3sgn-a1-m3-cA_3sgn-a1-m3-cB Bromoderivative-8 of amyloid-related segment of alphaB-crystallin residues 90-100 P02511 P02511 2.807 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 3sgn-a1-m1-cA_3sgn-a1-m1-cB 3sgn-a1-m2-cA_3sgn-a1-m2-cB KVKVLGDIEV KVKVLGDIEV 3sgo-a1-m1-cA_3sgo-a1-m6-cA Amyloid-related segment of alphaB-crystallin residues 90-100 P02511 P02511 2.557 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 3sgo-a1-m2-cA_3sgo-a1-m5-cA 3sgo-a1-m3-cA_3sgo-a1-m4-cA KVKVLGDVIEV KVKVLGDVIEV 3sgo-a1-m3-cA_3sgo-a1-m6-cA Amyloid-related segment of alphaB-crystallin residues 90-100 P02511 P02511 2.557 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 3sgo-a1-m1-cA_3sgo-a1-m5-cA 3sgo-a1-m2-cA_3sgo-a1-m4-cA KVKVLGDVIEV KVKVLGDVIEV 3sgp-a2-m2-cC_3sgp-a2-m3-cD Amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 1.4016 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 3sgp-a1-m1-cA_3sgp-a1-m2-cB 3sgp-a1-m1-cB_3sgp-a1-m3-cA 3sgp-a1-m2-cA_3sgp-a1-m3-cB 3sgp-a2-m1-cC_3sgp-a2-m2-cD 3sgp-a2-m1-cD_3sgp-a2-m3-cC KLKVLGDVIEV KLKVLGDVIEV 3sgp-a2-m3-cC_3sgp-a2-m3-cD Amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 1.4016 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 3sgp-a1-m1-cA_3sgp-a1-m1-cB 3sgp-a1-m2-cA_3sgp-a1-m2-cB 3sgp-a1-m3-cA_3sgp-a1-m3-cB 3sgp-a2-m1-cC_3sgp-a2-m1-cD 3sgp-a2-m2-cC_3sgp-a2-m2-cD KLKVLGDVIEV KLKVLGDVIEV 3sgr-a2-m1-cA_3sgr-a2-m1-cB Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 GKLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgr-a2-m1-cA_3sgr-a2-m1-cE Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 GKLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgr-a3-m1-cC_3sgr-a3-m3-cF Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 25 KLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgr-a3-m1-cD_3sgr-a3-m3-cB Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 GKLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgr-a3-m3-cB_3sgr-a3-m3-cE Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 3sgr-a1-m1-cC_3sgr-a1-m1-cD 3sgr-a1-m2-cB_3sgr-a1-m2-cE 3sgr-a2-m1-cB_3sgr-a2-m1-cE 3sgr-a2-m1-cC_3sgr-a2-m1-cD 3sgr-a3-m1-cC_3sgr-a3-m1-cD GKLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgr-a3-m3-cB_3sgr-a3-m3-cF Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 3sgr-a1-m1-cA_3sgr-a1-m1-cD 3sgr-a1-m2-cB_3sgr-a1-m2-cF 3sgr-a2-m1-cA_3sgr-a2-m1-cD 3sgr-a2-m1-cB_3sgr-a2-m1-cF 3sgr-a3-m1-cA_3sgr-a3-m1-cD GKLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgr-a3-m3-cE_3sgr-a3-m3-cF Tandem repeat of amyloid-related segment of alphaB-crystallin residues 90-100 mutant V91L P02511 P02511 2.17 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 25 3sgr-a1-m1-cC_3sgr-a1-m1-cA 3sgr-a1-m2-cE_3sgr-a1-m2-cF 3sgr-a2-m1-cC_3sgr-a2-m1-cA 3sgr-a2-m1-cE_3sgr-a2-m1-cF 3sgr-a3-m1-cC_3sgr-a3-m1-cA GKLKVLGDVIEVGGKLKVLGDVIEV GKLKVLGDVIEVGGKLKVLGDVIEV 3sgw-a2-m1-cA_3sgw-a2-m4-cA Crystal structure of ribose-5-phosphate isomerase B RpiB from Coccidioides immitis semi-covalently bound to malonic acid P0CL19 P0CL19 1.7 X-RAY DIFFRACTION 20 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 158 158 3qd5-a2-m1-cA_3qd5-a2-m2-cA 3qd5-a2-m1-cB_3qd5-a2-m2-cB 3sdw-a2-m1-cA_3sdw-a2-m3-cA 3sdw-a3-m1-cA_3sdw-a3-m3-cA 3sdw-a3-m2-cA_3sdw-a3-m4-cA 3sgw-a2-m2-cA_3sgw-a2-m3-cA LPPLRLAIACDDAGVSYKEALKAHLSDNPLVSSITDVGVTSTTDKTAYPHVAIQAAQLIKDGKVDRALMICGTGLGVAISANKVPGIRAVTAHDTFSVERAILSNDAQVLCFGQRVIGIELAKRLAGEWLTYRFDQKSASAQKVQAISDYEKKFVEVN LPPLRLAIACDDAGVSYKEALKAHLSDNPLVSSITDVGVTSTTDKTAYPHVAIQAAQLIKDGKVDRALMICGTGLGVAISANKVPGIRAVTAHDTFSVERAILSNDAQVLCFGQRVIGIELAKRLAGEWLTYRFDQKSASAQKVQAISDYEKKFVEVN 3sgw-a2-m2-cA_3sgw-a2-m4-cA Crystal structure of ribose-5-phosphate isomerase B RpiB from Coccidioides immitis semi-covalently bound to malonic acid P0CL19 P0CL19 1.7 X-RAY DIFFRACTION 26 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 158 158 3qd5-a2-m1-cA_3qd5-a2-m2-cB 3qd5-a2-m1-cB_3qd5-a2-m2-cA 3sdw-a3-m1-cA_3sdw-a3-m4-cA 3sdw-a3-m2-cA_3sdw-a3-m3-cA 3sgw-a2-m1-cA_3sgw-a2-m3-cA LPPLRLAIACDDAGVSYKEALKAHLSDNPLVSSITDVGVTSTTDKTAYPHVAIQAAQLIKDGKVDRALMICGTGLGVAISANKVPGIRAVTAHDTFSVERAILSNDAQVLCFGQRVIGIELAKRLAGEWLTYRFDQKSASAQKVQAISDYEKKFVEVN LPPLRLAIACDDAGVSYKEALKAHLSDNPLVSSITDVGVTSTTDKTAYPHVAIQAAQLIKDGKVDRALMICGTGLGVAISANKVPGIRAVTAHDTFSVERAILSNDAQVLCFGQRVIGIELAKRLAGEWLTYRFDQKSASAQKVQAISDYEKKFVEVN 3sgw-a2-m3-cA_3sgw-a2-m4-cA Crystal structure of ribose-5-phosphate isomerase B RpiB from Coccidioides immitis semi-covalently bound to malonic acid P0CL19 P0CL19 1.7 X-RAY DIFFRACTION 141 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 158 158 3qd5-a1-m1-cA_3qd5-a1-m1-cB 3qd5-a2-m1-cA_3qd5-a2-m1-cB 3qd5-a2-m2-cA_3qd5-a2-m2-cB 3sdw-a1-m1-cA_3sdw-a1-m2-cA 3sdw-a3-m1-cA_3sdw-a3-m2-cA 3sdw-a3-m3-cA_3sdw-a3-m4-cA 3sgw-a1-m1-cA_3sgw-a1-m2-cA 3sgw-a2-m1-cA_3sgw-a2-m2-cA LPPLRLAIACDDAGVSYKEALKAHLSDNPLVSSITDVGVTSTTDKTAYPHVAIQAAQLIKDGKVDRALMICGTGLGVAISANKVPGIRAVTAHDTFSVERAILSNDAQVLCFGQRVIGIELAKRLAGEWLTYRFDQKSASAQKVQAISDYEKKFVEVN LPPLRLAIACDDAGVSYKEALKAHLSDNPLVSSITDVGVTSTTDKTAYPHVAIQAAQLIKDGKVDRALMICGTGLGVAISANKVPGIRAVTAHDTFSVERAILSNDAQVLCFGQRVIGIELAKRLAGEWLTYRFDQKSASAQKVQAISDYEKKFVEVN 3sgz-a4-m13-cA_3sgz-a4-m4-cA High resolution crystal structure of rat long chain hydroxy acid oxidase in complex with the inhibitor 4-carboxy-5-[(4-chiorophenyl)sulfanyl]-1, 2, 3-thiadiazole. Q07523 Q07523 1.35 X-RAY DIFFRACTION 33 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 336 336 1tb3-a3-m1-cA_1tb3-a3-m1-cF 1tb3-a3-m1-cD_1tb3-a3-m1-cH 1tb3-a3-m1-cE_1tb3-a3-m1-cB 1tb3-a3-m1-cG_1tb3-a3-m1-cC 3sgz-a4-m12-cA_3sgz-a4-m2-cA 3sgz-a4-m14-cA_3sgz-a4-m3-cA 3sgz-a4-m1-cA_3sgz-a4-m11-cA 3sgz-a5-m1-cB_3sgz-a5-m16-cC 3sgz-a5-m5-cB_3sgz-a5-m15-cC 3sgz-a5-m6-cB_3sgz-a5-m17-cC 3sgz-a5-m7-cB_3sgz-a5-m3-cC PLVCLADFKAHAQKQLSKTSWDFIEGEADDGITYSENIAAFKRIRLRPRYLRDMSKVDTRTTIQGQEISAPICISPTAFHSIAWPDGEKSTARAAQEANICYVISSYASYSLEDIVAAAPEGFRWFQLYMKSDWDFNKQMVQRAEALGFKALVITIDTPVLGNRRRDKRNQLNLEANILKAALFPKASFCWNDLSLLQSITRLPIILKGILTKEDAELAMKHNVQGIVVSNHGGRQLDEVSASIDALREVVAAVKGKIEVYMDGGVRTGTDVLKALALGARCIFLGRPILWGLACKGEDGVKEVLDILTAELHRCMTLSGCQSVAEISPDLIQFSR PLVCLADFKAHAQKQLSKTSWDFIEGEADDGITYSENIAAFKRIRLRPRYLRDMSKVDTRTTIQGQEISAPICISPTAFHSIAWPDGEKSTARAAQEANICYVISSYASYSLEDIVAAAPEGFRWFQLYMKSDWDFNKQMVQRAEALGFKALVITIDTPVLGNRRRDKRNQLNLEANILKAALFPKASFCWNDLSLLQSITRLPIILKGILTKEDAELAMKHNVQGIVVSNHGGRQLDEVSASIDALREVVAAVKGKIEVYMDGGVRTGTDVLKALALGARCIFLGRPILWGLACKGEDGVKEVLDILTAELHRCMTLSGCQSVAEISPDLIQFSR 3sgz-a5-m5-cB_3sgz-a5-m7-cB High resolution crystal structure of rat long chain hydroxy acid oxidase in complex with the inhibitor 4-carboxy-5-[(4-chiorophenyl)sulfanyl]-1, 2, 3-thiadiazole. Q07523 Q07523 1.35 X-RAY DIFFRACTION 82 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 334 334 1tb3-a1-m1-cA_1tb3-a1-m1-cC 1tb3-a1-m1-cB_1tb3-a1-m1-cC 1tb3-a1-m1-cB_1tb3-a1-m1-cD 1tb3-a1-m1-cD_1tb3-a1-m1-cA 1tb3-a2-m1-cE_1tb3-a2-m1-cG 1tb3-a2-m1-cE_1tb3-a2-m1-cH 1tb3-a2-m1-cF_1tb3-a2-m1-cH 1tb3-a2-m1-cG_1tb3-a2-m1-cF 1tb3-a3-m1-cA_1tb3-a3-m1-cC 1tb3-a3-m1-cB_1tb3-a3-m1-cC 1tb3-a3-m1-cB_1tb3-a3-m1-cD 1tb3-a3-m1-cD_1tb3-a3-m1-cA 1tb3-a3-m1-cE_1tb3-a3-m1-cG 1tb3-a3-m1-cE_1tb3-a3-m1-cH 1tb3-a3-m1-cF_1tb3-a3-m1-cH 1tb3-a3-m1-cG_1tb3-a3-m1-cF 3sgz-a1-m1-cA_3sgz-a1-m3-cA 3sgz-a1-m1-cA_3sgz-a1-m4-cA 3sgz-a1-m2-cA_3sgz-a1-m3-cA 3sgz-a1-m2-cA_3sgz-a1-m4-cA 3sgz-a2-m1-cB_3sgz-a2-m6-cB 3sgz-a2-m1-cB_3sgz-a2-m7-cB 3sgz-a2-m5-cB_3sgz-a2-m6-cB 3sgz-a2-m5-cB_3sgz-a2-m7-cB 3sgz-a3-m10-cC_3sgz-a3-m8-cC 3sgz-a3-m1-cC_3sgz-a3-m10-cC 3sgz-a3-m1-cC_3sgz-a3-m9-cC 3sgz-a3-m8-cC_3sgz-a3-m9-cC 3sgz-a4-m11-cA_3sgz-a4-m13-cA 3sgz-a4-m11-cA_3sgz-a4-m14-cA 3sgz-a4-m12-cA_3sgz-a4-m13-cA 3sgz-a4-m12-cA_3sgz-a4-m14-cA 3sgz-a4-m1-cA_3sgz-a4-m3-cA 3sgz-a4-m1-cA_3sgz-a4-m4-cA 3sgz-a4-m2-cA_3sgz-a4-m3-cA 3sgz-a4-m2-cA_3sgz-a4-m4-cA 3sgz-a5-m15-cC_3sgz-a5-m17-cC 3sgz-a5-m15-cC_3sgz-a5-m3-cC 3sgz-a5-m16-cC_3sgz-a5-m17-cC 3sgz-a5-m16-cC_3sgz-a5-m3-cC 3sgz-a5-m1-cB_3sgz-a5-m6-cB 3sgz-a5-m1-cB_3sgz-a5-m7-cB 3sgz-a5-m5-cB_3sgz-a5-m6-cB PLVCLADFKAHAQKQLSKTSWDFIEGEADDGITYSENIAAFKRIRLRPRYLRDMSKVDTRTTIQGQEISAPICISPTAFHSIAWPDGEKSTARAAQEANICYVISSYASYSLEDIVAAAPEGFRWFQLYMKSDWDFNKQMVQRAEALGFKALVITIDTPVLGNRRRDKRNQLNLEANILKAALFPKASFCWNDLSLLQSITRLPIILKGILTKEDAELAMKHNVQGIVVSNHGGRQLDEVSASIDALREVVAAVKGKIEVYMDGGVRTGTDVLKALALGARCIFLGRPILWGLACKGEDGVKEVLDILTAELHRCMTLSGCQSVAEISPDLIQF PLVCLADFKAHAQKQLSKTSWDFIEGEADDGITYSENIAAFKRIRLRPRYLRDMSKVDTRTTIQGQEISAPICISPTAFHSIAWPDGEKSTARAAQEANICYVISSYASYSLEDIVAAAPEGFRWFQLYMKSDWDFNKQMVQRAEALGFKALVITIDTPVLGNRRRDKRNQLNLEANILKAALFPKASFCWNDLSLLQSITRLPIILKGILTKEDAELAMKHNVQGIVVSNHGGRQLDEVSASIDALREVVAAVKGKIEVYMDGGVRTGTDVLKALALGARCIFLGRPILWGLACKGEDGVKEVLDILTAELHRCMTLSGCQSVAEISPDLIQF 3sh1-a2-m1-cF_3sh1-a2-m1-cG Ac-AChBP ligand binding domain mutated to human alpha-7 nAChR Q8WSF8 Q8WSF8 2.9 X-RAY DIFFRACTION 77 1.0 6500 (Aplysia californica) 6500 (Aplysia californica) 214 214 2xyt-a2-m1-cG_2xyt-a2-m1-cH 3sh1-a1-m1-cA_3sh1-a1-m1-cB 3sh1-a1-m1-cA_3sh1-a1-m1-cE 3sh1-a1-m1-cB_3sh1-a1-m1-cC 3sh1-a1-m1-cD_3sh1-a1-m1-cC 3sh1-a1-m1-cD_3sh1-a1-m1-cE 3sh1-a2-m1-cF_3sh1-a2-m1-cJ 3sh1-a2-m1-cG_3sh1-a2-m1-cH 3sh1-a2-m1-cI_3sh1-a2-m1-cH 3sh1-a2-m1-cI_3sh1-a2-m1-cJ 3sio-a1-m1-cA_3sio-a1-m1-cB 3sio-a1-m1-cA_3sio-a1-m1-cE 3sio-a1-m1-cB_3sio-a1-m1-cC 3sio-a1-m1-cD_3sio-a1-m1-cC 3sio-a1-m1-cD_3sio-a1-m1-cE 3sio-a2-m1-cF_3sio-a2-m1-cG 3sio-a2-m1-cF_3sio-a2-m1-cJ 3sio-a2-m1-cG_3sio-a2-m1-cH 3sio-a2-m1-cI_3sio-a2-m1-cH 3sio-a2-m1-cI_3sio-a2-m1-cJ KDDDDKLHSQANLMRLKSDLFNRSPMYPGPTKDDPLTVYLSFSLLDIVKADSSTNEVDLVYWEQQSWKLNSLMWDPNEYGNITDFRTSAADIWTPDITAYSSTRPVQVLSPQNALVNSSGHVQYLPAQRLSFMCDPTGVDSEEGATCAVKFGSWSYGGWEIDLKTDTDQVDLSSYYASSKYEILSATQTRSERFYECCKEPYPDVNLVVKFRER KDDDDKLHSQANLMRLKSDLFNRSPMYPGPTKDDPLTVYLSFSLLDIVKADSSTNEVDLVYWEQQSWKLNSLMWDPNEYGNITDFRTSAADIWTPDITAYSSTRPVQVLSPQNALVNSSGHVQYLPAQRLSFMCDPTGVDSEEGATCAVKFGSWSYGGWEIDLKTDTDQVDLSSYYASSKYEILSATQTRSERFYECCKEPYPDVNLVVKFRER 3sho-a1-m1-cB_3sho-a1-m1-cD Crystal structure of RpiR transcription factor from Sphaerobacter thermophilus (sugar isomerase domain) D1C9F1 D1C9F1 1.8 X-RAY DIFFRACTION 24 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 175 176 3sho-a1-m1-cC_3sho-a1-m1-cA QQLPVQVFTNDIENLNQTLNQTQPEAIEAAVEAIRADHVIVVGGFSAAVAVFLGHGLNSLGIRTTVLTEGGSTLTITLANLRPTDLIGVSVWRYLRDTVAALAGAAERGVPTALTDSSVSPPARIADHVLVAATRGVGHSLSPVGLIAVVNLLLAEIAVREPERALAVLREVDRL RQQLPVQVFTNDIENLNQTLNQTQPEAIEAAVEAIRADHVIVVGGFSAAVAVFLGHGLNSLGIRTTVLTEGGSTLTITLANLRPTDLIGVSVWRYLRDTVAALAGAAERGVPTALTDSSVSPPARIADHVLVAATRGVGHSLSPVGLIAVVNLLLAEIAVREPERALAVLREVDRL 3sho-a1-m1-cD_3sho-a1-m1-cA Crystal structure of RpiR transcription factor from Sphaerobacter thermophilus (sugar isomerase domain) D1C9F1 D1C9F1 1.8 X-RAY DIFFRACTION 55 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 176 182 3sho-a1-m1-cB_3sho-a1-m1-cC RQQLPVQVFTNDIENLNQTLNQTQPEAIEAAVEAIRADHVIVVGGFSAAVAVFLGHGLNSLGIRTTVLTEGGSTLTITLANLRPTDLIGVSVWRYLRDTVAALAGAAERGVPTALTDSSVSPPARIADHVLVAATRGVGHSLSPVGLIAVVNLLLAEIAVREPERALAVLREVDRL DRQQLPVQVFTNDIENLNQTLNQTQPEAIEAAVEAIRADHVIVVGGFSAAVAVFLGHGLNSLGIRTTVLTEGGSTLTITLANLRPTDLIGVSVWRYLRDTVAALAGAAERGVPTALTDSSVSPPARIADHVLVAATRGVGHSLSPVGLIAVVNLLLAEIAVREPERALAVLREVDRLYREQG 3sho-a1-m1-cD_3sho-a1-m1-cC Crystal structure of RpiR transcription factor from Sphaerobacter thermophilus (sugar isomerase domain) D1C9F1 D1C9F1 1.8 X-RAY DIFFRACTION 142 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 176 181 3sho-a1-m1-cB_3sho-a1-m1-cA RQQLPVQVFTNDIENLNQTLNQTQPEAIEAAVEAIRADHVIVVGGFSAAVAVFLGHGLNSLGIRTTVLTEGGSTLTITLANLRPTDLIGVSVWRYLRDTVAALAGAAERGVPTALTDSSVSPPARIADHVLVAATRGVGHSLSPVGLIAVVNLLLAEIAVREPERALAVLREVDRL DRQQLPVQVFTNDIENLNQTLNQTQPEAIEAAVEAIRADHVIVVGGFSAAVAVFLGHGLNSLGIRTTVLTEGGSTLTITLANLRPTDLIGVSVWRYLRDTVAALAGAAERGVPTALTDSSVSPPARIADHVLVAATRGVGHSLSPVGLIAVVNLLLAEIAVREPERALAVLREVDRLYREQ 3shp-a1-m1-cB_3shp-a1-m4-cB Crystal structure of putative acetyltransferase from Sphaerobacter thermophilus DSM 20745 D1C1L1 D1C1L1 2.21 X-RAY DIFFRACTION 59 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 154 154 3shp-a1-m2-cB_3shp-a1-m3-cB QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD 3shp-a1-m2-cA_3shp-a1-m4-cA Crystal structure of putative acetyltransferase from Sphaerobacter thermophilus DSM 20745 D1C1L1 D1C1L1 2.21 X-RAY DIFFRACTION 53 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 164 164 3shp-a1-m1-cA_3shp-a1-m3-cA QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAARAEAFLKEKLQGDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVDPKV QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAARAEAFLKEKLQGDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVDPKV 3shp-a1-m3-cB_3shp-a1-m4-cB Crystal structure of putative acetyltransferase from Sphaerobacter thermophilus DSM 20745 D1C1L1 D1C1L1 2.21 X-RAY DIFFRACTION 15 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 154 154 3shp-a1-m1-cB_3shp-a1-m2-cB QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD 3shp-a1-m4-cB_3shp-a1-m2-cA Crystal structure of putative acetyltransferase from Sphaerobacter thermophilus DSM 20745 D1C1L1 D1C1L1 2.21 X-RAY DIFFRACTION 14 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 154 164 3shp-a1-m1-cB_3shp-a1-m3-cA 3shp-a1-m2-cB_3shp-a1-m4-cA 3shp-a1-m3-cB_3shp-a1-m1-cA QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAARAEAFLKEKLQGDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVDPKV 3shp-a1-m4-cB_3shp-a1-m3-cA Crystal structure of putative acetyltransferase from Sphaerobacter thermophilus DSM 20745 D1C1L1 D1C1L1 2.21 X-RAY DIFFRACTION 38 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 154 164 3shp-a1-m1-cB_3shp-a1-m2-cA 3shp-a1-m2-cB_3shp-a1-m1-cA 3shp-a1-m3-cB_3shp-a1-m4-cA QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAARAEAFLKEKLQGDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVDPKV 3shp-a1-m4-cB_3shp-a1-m4-cA Crystal structure of putative acetyltransferase from Sphaerobacter thermophilus DSM 20745 D1C1L1 D1C1L1 2.21 X-RAY DIFFRACTION 34 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 154 164 3shp-a1-m1-cB_3shp-a1-m1-cA 3shp-a1-m2-cB_3shp-a1-m2-cA 3shp-a1-m3-cB_3shp-a1-m3-cA QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAAAFLKEDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVD QAVYLTGPTVYLRAVEDDKHHAAAWFDSRFPVNAARAEAFLKEKLQGDPWDARWHLLAIVRRSDEAVVGSCRIEFGKQTASLRFHAPWLDDADVLRAEALELVVPWLRDEHELLVITVEIAADEQRTLAAAEAAGLKAAVRREAIARAGHRVDLLIYQAVDPKV 3shr-a2-m1-cA_3shr-a2-m2-cB Crystal Structure of cGMP-dependent Protein Kinase Reveals Novel Site of Interchain Communication P00516 P00516 2.5 X-RAY DIFFRACTION 131 1.0 9913 (Bos taurus) 9913 (Bos taurus) 278 278 QAFRKFTKSERSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGKVNVTREDSPNEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAYEDAEAKAKYEAEAAFFANLK QAFRKFTKSERSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGKVNVTREDSPNEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAYEDAEAKAKYEAEAAFFANLK 3shr-a2-m2-cA_3shr-a2-m2-cB Crystal Structure of cGMP-dependent Protein Kinase Reveals Novel Site of Interchain Communication P00516 P00516 2.5 X-RAY DIFFRACTION 81 1.0 9913 (Bos taurus) 9913 (Bos taurus) 278 278 3shr-a1-m1-cA_3shr-a1-m1-cB 3shr-a2-m1-cA_3shr-a2-m1-cB QAFRKFTKSERSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGKVNVTREDSPNEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAYEDAEAKAKYEAEAAFFANLK QAFRKFTKSERSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGKVNVTREDSPNEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAYEDAEAKAKYEAEAAFFANLK 3si9-a1-m1-cB_3si9-a1-m1-cD Crystal structure of Dihydrodipicolinate Synthase from Bartonella Henselae Q6G468 Q6G468 2.1 X-RAY DIFFRACTION 113 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 293 294 3si9-a1-m1-cC_3si9-a1-m1-cA SMLKGAVTALITPFDDNGAIDEKAFCNFVEWQITQGINGVSPVGTTGESPTLTHEEHKRIIELCVEQVAKRVPVVAGAGSNSTSEAVELAKHAEKAGADAVLVVTPYYNRPNQRGLYTHFSSIAKAISIPIIIYNIPSRSVIDMAVETMRDLCRDFKNIIGVKDATGKIERASEQREKCGKDFVQLSGDDCTALGFNAHGGVGCISVSSNVAPKLCAQLHAACLCSDYKTALKLNDLLMPLNRAVFIEPSPAGIKYAAAKLGLCGTIVRSPIVPLSDTTKKIIDEALYHAGLL SMLKGAVTALITPFDDNGAIDEKAFCNFVEWQITQGINGVSPVGTTGESPTLTHEEHKRIIELCVEQVAKRVPVVAGAGSNSTSEAVELAKHAEKAGADAVLVVTPYYNRPNQRGLYTHFSSIAKAISIPIIIYNIPSRSVIDMAVETMRDLCRDFKNIIGVKDATGKIERASEQREKCGKDFVQLSGDDCTALGFNAHGGVGCISVSSNVAPKLCAQLHAACLCSDYKTALKLNDLLMPLNRAVFIEPSPAGIKYAAAKLGLCGTIVRSPIVPLSDTTKKIIDEALYHAGLLK 3si9-a1-m1-cC_3si9-a1-m1-cD Crystal structure of Dihydrodipicolinate Synthase from Bartonella Henselae Q6G468 Q6G468 2.1 X-RAY DIFFRACTION 83 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 293 294 3si9-a1-m1-cB_3si9-a1-m1-cA SMLKGAVTALITPFDDNGAIDEKAFCNFVEWQITQGINGVSPVGTTGESPTLTHEEHKRIIELCVEQVAKRVPVVAGAGSNSTSEAVELAKHAEKAGADAVLVVTPYYNRPNQRGLYTHFSSIAKAISIPIIIYNIPSRSVIDMAVETMRDLCRDFKNIIGVKDATGKIERASEQREKCGKDFVQLSGDDCTALGFNAHGGVGCISVSSNVAPKLCAQLHAACLCSDYKTALKLNDLLMPLNRAVFIEPSPAGIKYAAAKLGLCGTIVRSPIVPLSDTTKKIIDEALYHAGLL SMLKGAVTALITPFDDNGAIDEKAFCNFVEWQITQGINGVSPVGTTGESPTLTHEEHKRIIELCVEQVAKRVPVVAGAGSNSTSEAVELAKHAEKAGADAVLVVTPYYNRPNQRGLYTHFSSIAKAISIPIIIYNIPSRSVIDMAVETMRDLCRDFKNIIGVKDATGKIERASEQREKCGKDFVQLSGDDCTALGFNAHGGVGCISVSSNVAPKLCAQLHAACLCSDYKTALKLNDLLMPLNRAVFIEPSPAGIKYAAAKLGLCGTIVRSPIVPLSDTTKKIIDEALYHAGLLK 3sib-a2-m1-cA_3sib-a2-m4-cA Crystal structure of URE3-binding protein, wild-type Q9GSV7 Q9GSV7 1.9 X-RAY DIFFRACTION 33 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 203 203 3sib-a2-m2-cA_3sib-a2-m3-cA ANFCLWNLQPIMPPSVRNTWWFPLLNTIPLDQYTRIYQWFMGVDRDRSGTLEINELMMGQFPGGIRLSPQTALRMMRIFDTDFNGHISFYEFMAMYKFMELAYNLFVMNDRNRSGTLEPHEILPALQQLGFYINQRTSLLLHRLFARGMAFCDLNCWIAICAFAAQTRSAYQMIFMNPYYGPMKPFNPMEFGKFLDVVTSLLE ANFCLWNLQPIMPPSVRNTWWFPLLNTIPLDQYTRIYQWFMGVDRDRSGTLEINELMMGQFPGGIRLSPQTALRMMRIFDTDFNGHISFYEFMAMYKFMELAYNLFVMNDRNRSGTLEPHEILPALQQLGFYINQRTSLLLHRLFARGMAFCDLNCWIAICAFAAQTRSAYQMIFMNPYYGPMKPFNPMEFGKFLDVVTSLLE 3sib-a2-m3-cA_3sib-a2-m4-cA Crystal structure of URE3-binding protein, wild-type Q9GSV7 Q9GSV7 1.9 X-RAY DIFFRACTION 51 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 203 203 3sia-a1-m1-cA_3sia-a1-m2-cA 3sib-a1-m1-cA_3sib-a1-m2-cA 3sib-a2-m1-cA_3sib-a2-m2-cA 3sjs-a1-m1-cA_3sjs-a1-m2-cA 4q04-a1-m1-cA_4q04-a1-m1-cB ANFCLWNLQPIMPPSVRNTWWFPLLNTIPLDQYTRIYQWFMGVDRDRSGTLEINELMMGQFPGGIRLSPQTALRMMRIFDTDFNGHISFYEFMAMYKFMELAYNLFVMNDRNRSGTLEPHEILPALQQLGFYINQRTSLLLHRLFARGMAFCDLNCWIAICAFAAQTRSAYQMIFMNPYYGPMKPFNPMEFGKFLDVVTSLLE ANFCLWNLQPIMPPSVRNTWWFPLLNTIPLDQYTRIYQWFMGVDRDRSGTLEINELMMGQFPGGIRLSPQTALRMMRIFDTDFNGHISFYEFMAMYKFMELAYNLFVMNDRNRSGTLEPHEILPALQQLGFYINQRTSLLLHRLFARGMAFCDLNCWIAICAFAAQTRSAYQMIFMNPYYGPMKPFNPMEFGKFLDVVTSLLE 3sic-a1-m1-cI_3sic-a1-m2-cI MOLECULAR RECOGNITION AT THE ACTIVE SITE OF SUBTILISIN BPN': CRYSTALLOGRAPHIC STUDIES USING GENETICALLY ENGINEERED PROTEINACEOUS INHIBITOR SSI (STREPTOMYCES SUBTILISIN INHIBITOR) P01006 P01006 1.8 X-RAY DIFFRACTION 90 1.0 1887 (Streptomyces albogriseolus) 1887 (Streptomyces albogriseolus) 107 107 2sic-a1-m1-cI_2sic-a1-m2-cI 3ssi-a1-m1-cA_3ssi-a1-m2-cA 5sic-a1-m1-cI_5sic-a1-m2-cI YAPSALVLTVGKGVSATTAAPERAVTLTCAPGPSGTHPAAGSACADLAAVGGDLNALTRGEDVMCPKVYDPVLLTVDGVWQGKRVSYERVFSNECEMNAHGSSVFAF YAPSALVLTVGKGVSATTAAPERAVTLTCAPGPSGTHPAAGSACADLAAVGGDLNALTRGEDVMCPKVYDPVLLTVDGVWQGKRVSYERVFSNECEMNAHGSSVFAF 3sip-a2-m1-cA_3sip-a2-m1-cC Crystal structure of drICE and dIAP1-BIR1 complex O01382 O01382 3.496 X-RAY DIFFRACTION 23 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 149 152 3sip-a1-m1-cA_3sip-a1-m1-cC 3sip-a1-m2-cA_3sip-a1-m2-cC ALGSVTDRHAAEYNMRHKNRGMALIFNHEHFEVPTLKSRAGTNVDCENLTRVLKQLDFEVTVYKDCRYKDILRTIEYAASQNHSDSDCILVAILSHGEMGYIYAKDTQYKLDNIWSFFTANHCPSLAGKPKLFFIQACQGDRLDGGVTM ALGSVTDRHAAEYNMRHKNRGMALIFNHEHFEVPTLKSRAGTNVDCENLTRVLKQLDFEVTVYKDCRYKDILRTIEYAASQNHSDSDCILVAILSHGEMGYIYAKDTQYKLDNIWSFFTANHCPSLAGKPKLFFIQACQGDRLDGGVTMQRS 3sip-a2-m1-cD_3sip-a2-m1-cB Crystal structure of drICE and dIAP1-BIR1 complex O01382 O01382 3.496 X-RAY DIFFRACTION 99 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 100 103 3sip-a1-m1-cD_3sip-a1-m1-cB 3sip-a1-m2-cD_3sip-a1-m2-cB YKIPVHADFLIAYSTVPGFYSWRNTTRGSWFMQSLCAELAANGKRLDILTLLTFVCQRVAVDFESCTPDTPEMHQQKQIPCITTMLTRILRFSDKQLAPA MSYKIPVHADFLIAYSTVPGFYSWRNTTRGSWFMQSLCAELAANGKRLDILTLLTFVCQRVAVDFESCTPDTPEMHQQKQIPCITTMLTRILRFSDKQLAPAG 3sir-a1-m1-cB_3sir-a1-m1-cA Crystal Structure of drICE O01382 O01382 2.68 X-RAY DIFFRACTION 107 0.983 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 172 214 AAEYNMRHKNRGMALIFNNVDCENLTRVLKQLDFEVTVYKDCRYKDILRTIEYSASQNHSDSDCILVAILSHIWSFFTANHCPSLAGKPKLFFIQACSYKIPVHADFLIAYSTVPTRGSWFMQSLCAELAANGKRLDILTLLTFVCQRVAVDFESCQIPCITTMLTRILRFS ALGSVTDRHAAEYNMRHKNRGMALIFNHEHFNVDCENLTRVLKQLDFEVTVYKDCRYKDILRTIEYSASQNHSDSDCILVAILSHGEMGYIYAKDTQYKLDNIWSFFTANHCPSLAGKPKLFFIQACQGDRLDGSYKIPVHADFLIAYSTVPGFYSWRNTTRGSWFMQSLCAELAANGKRLDILTLLTFVCQRVAVDFQIPCITTMLTRILRFS 3siw-a2-m1-cA_3siw-a2-m2-cA Crystal structure of NodZ alpha-1,6-fucosyltransferase co-crystallized with GDP Q9AQ17 Q9AQ17 1.98 X-RAY DIFFRACTION 64 1.0 133505 (Bradyrhizobium sp. WM9) 133505 (Bradyrhizobium sp. WM9) 290 290 3six-a2-m1-cA_3six-a2-m2-cA TKERFVISRRRTGFGDCLWSLASAWSYAQRTGRTLVIDWRGSCYVEQPFSNAFPAFFEPVEDIAGVPVICDDRVNQLSFPGPFFPRWWNRPSIDCINRPDEQIFRERDELTELFQAREDSEANTIVCDACLMWRCSEEAERLIFRNIKLRSEIRARIDALYEEHFSGHSIIGVHVRHADSELALHQVCMAIRKAKALSYPKPVKVFLCTDSAQVLDQVSGLFPDVFAVPKAEMGIEGGASALIDMYLLARCATVIRFPPTSAFTRYARLLVPRIIEFDNPGHLTMIDNPY TKERFVISRRRTGFGDCLWSLASAWSYAQRTGRTLVIDWRGSCYVEQPFSNAFPAFFEPVEDIAGVPVICDDRVNQLSFPGPFFPRWWNRPSIDCINRPDEQIFRERDELTELFQAREDSEANTIVCDACLMWRCSEEAERLIFRNIKLRSEIRARIDALYEEHFSGHSIIGVHVRHADSELALHQVCMAIRKAKALSYPKPVKVFLCTDSAQVLDQVSGLFPDVFAVPKAEMGIEGGASALIDMYLLARCATVIRFPPTSAFTRYARLLVPRIIEFDNPGHLTMIDNPY 3siy-a2-m1-cD_3siy-a2-m1-cC Crystal structure of a DUF1989 family protein (TM1040_0329) from SILICIBACTER SP. TM1040 at 1.35 A resolution Q1GJV4 Q1GJV4 1.35 X-RAY DIFFRACTION 93 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 223 224 3oru-a1-m1-cA_3oru-a1-m2-cA 3siy-a1-m1-cA_3siy-a1-m1-cB SFDRPFEAARPDGENPSAHETLAEGGRLRPEATYTIPARQGRAIRAQGEALVINRDGSQIGDFWAFVEGDCGEYLSEHLRPTLRRVSPRPGDVLVSNRRRPILTLLEDSSPGVHDTLVASCDVHRYAQLGHEGYHDNCTDNLRALGALGLRPTTVPCPLNLWNTPVVEGGAEWRPPVSRRGDHVLFRAELDVVVVISCCPDLLPINGEEAQPRALDVRLRPRP SFDRPFEAARPDGENPSAHETLAEGGRLRPEATYTIPARQGRAIRAQGEALVINRDGSQIGDFWAFVEGDCGEYLSEHLRPTLRRVSPRPGDVLVSNRRRPILTLLEDSSPGVHDTLVASCDVHRYAQLGHEGYHDNCTDNLRALGALGLRPTTVPCPLNLWNTPVVEGGAEWRPPVSRRGDHVLFRAELDVVVVISCCPDLLPINGEEAQPRALDVRLRPRPA 3sjc-a2-m1-cF_3sjc-a2-m1-cE Crystal structure of S.cerevisiae Get3 in the semi-open state in complex with Get1 cytosolic domain Q12154 Q12154 3.2 X-RAY DIFFRACTION 67 0.996 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 276 279 3sjc-a1-m1-cA_3sjc-a1-m1-cB 3vlc-a1-m1-cA_3vlc-a1-m2-cA VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTSGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAECKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELED TVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAECKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELED 3sjn-a1-m2-cA_3sjn-a1-m4-cB Crystal structure of enolase Spea_3858 (target EFI-500646) from Shewanella pealeana with magnesium bound A8H9D1 A8H9D1 1.9 X-RAY DIFFRACTION 50 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 373 373 3sjn-a1-m1-cA_3sjn-a1-m3-cB 3sjn-a1-m1-cB_3sjn-a1-m4-cA 3sjn-a1-m2-cB_3sjn-a1-m3-cA VLKITDIEVLHLRVPAMDADCEWGEDAVIVKVHTDKGIVGVGEADSSPLVVQACIEAPQTNFYCNGLKRLLIGENALEIERLWNKMYWGSNYMGRRGAGIHAISAIDIALWDIAGQFYGVPVHTLLGGKYRDKIRCYGTFIPADKPEDNVAIVQGLKDQGFSSIKFGGGVMGDDPDTDYAIVKAVREAAGPEMEVQIDLASKWHTCGHSAMMAKRLEEFNLNWIEEPVLADSLISYEKLSRQVSQKIAGGESLTTRYEFQEFITKSNADIVQPDITRCGGITEMKKIYDIAQMNGTQLIPHGFSTGILLHASVHFLAACEQGTLMEFSQSSSPLFTSLVKNQLQFDNGFVAVSDAPGLGIELDEELIAKYRVN VLKITDIEVLHLRVPAMDADCEWGEDAVIVKVHTDKGIVGVGEADSSPLVVQACIEAPQTNFYCNGLKRLLIGENALEIERLWNKMYWGSNYMGRRGAGIHAISAIDIALWDIAGQFYGVPVHTLLGGKYRDKIRCYGTFIPADKPEDNVAIVQGLKDQGFSSIKFGGGVMGDDPDTDYAIVKAVREAAGPEMEVQIDLASKWHTCGHSAMMAKRLEEFNLNWIEEPVLADSLISYEKLSRQVSQKIAGGESLTTRYEFQEFITKSNADIVQPDITRCGGITEMKKIYDIAQMNGTQLIPHGFSTGILLHASVHFLAACEQGTLMEFSQSSSPLFTSLVKNQLQFDNGFVAVSDAPGLGIELDEELIAKYRVN 3sjn-a1-m2-cB_3sjn-a1-m4-cB Crystal structure of enolase Spea_3858 (target EFI-500646) from Shewanella pealeana with magnesium bound A8H9D1 A8H9D1 1.9 X-RAY DIFFRACTION 18 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 373 373 3sjn-a1-m1-cA_3sjn-a1-m3-cA 3sjn-a1-m1-cA_3sjn-a1-m4-cA 3sjn-a1-m1-cB_3sjn-a1-m3-cB 3sjn-a1-m1-cB_3sjn-a1-m4-cB 3sjn-a1-m2-cA_3sjn-a1-m3-cA 3sjn-a1-m2-cA_3sjn-a1-m4-cA 3sjn-a1-m2-cB_3sjn-a1-m3-cB VLKITDIEVLHLRVPAMDADCEWGEDAVIVKVHTDKGIVGVGEADSSPLVVQACIEAPQTNFYCNGLKRLLIGENALEIERLWNKMYWGSNYMGRRGAGIHAISAIDIALWDIAGQFYGVPVHTLLGGKYRDKIRCYGTFIPADKPEDNVAIVQGLKDQGFSSIKFGGGVMGDDPDTDYAIVKAVREAAGPEMEVQIDLASKWHTCGHSAMMAKRLEEFNLNWIEEPVLADSLISYEKLSRQVSQKIAGGESLTTRYEFQEFITKSNADIVQPDITRCGGITEMKKIYDIAQMNGTQLIPHGFSTGILLHASVHFLAACEQGTLMEFSQSSSPLFTSLVKNQLQFDNGFVAVSDAPGLGIELDEELIAKYRVN VLKITDIEVLHLRVPAMDADCEWGEDAVIVKVHTDKGIVGVGEADSSPLVVQACIEAPQTNFYCNGLKRLLIGENALEIERLWNKMYWGSNYMGRRGAGIHAISAIDIALWDIAGQFYGVPVHTLLGGKYRDKIRCYGTFIPADKPEDNVAIVQGLKDQGFSSIKFGGGVMGDDPDTDYAIVKAVREAAGPEMEVQIDLASKWHTCGHSAMMAKRLEEFNLNWIEEPVLADSLISYEKLSRQVSQKIAGGESLTTRYEFQEFITKSNADIVQPDITRCGGITEMKKIYDIAQMNGTQLIPHGFSTGILLHASVHFLAACEQGTLMEFSQSSSPLFTSLVKNQLQFDNGFVAVSDAPGLGIELDEELIAKYRVN 3sjn-a1-m4-cA_3sjn-a1-m4-cB Crystal structure of enolase Spea_3858 (target EFI-500646) from Shewanella pealeana with magnesium bound A8H9D1 A8H9D1 1.9 X-RAY DIFFRACTION 125 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 373 373 3sjn-a1-m1-cA_3sjn-a1-m1-cB 3sjn-a1-m2-cA_3sjn-a1-m2-cB 3sjn-a1-m3-cA_3sjn-a1-m3-cB VLKITDIEVLHLRVPAMDADCEWGEDAVIVKVHTDKGIVGVGEADSSPLVVQACIEAPQTNFYCNGLKRLLIGENALEIERLWNKMYWGSNYMGRRGAGIHAISAIDIALWDIAGQFYGVPVHTLLGGKYRDKIRCYGTFIPADKPEDNVAIVQGLKDQGFSSIKFGGGVMGDDPDTDYAIVKAVREAAGPEMEVQIDLASKWHTCGHSAMMAKRLEEFNLNWIEEPVLADSLISYEKLSRQVSQKIAGGESLTTRYEFQEFITKSNADIVQPDITRCGGITEMKKIYDIAQMNGTQLIPHGFSTGILLHASVHFLAACEQGTLMEFSQSSSPLFTSLVKNQLQFDNGFVAVSDAPGLGIELDEELIAKYRVN VLKITDIEVLHLRVPAMDADCEWGEDAVIVKVHTDKGIVGVGEADSSPLVVQACIEAPQTNFYCNGLKRLLIGENALEIERLWNKMYWGSNYMGRRGAGIHAISAIDIALWDIAGQFYGVPVHTLLGGKYRDKIRCYGTFIPADKPEDNVAIVQGLKDQGFSSIKFGGGVMGDDPDTDYAIVKAVREAAGPEMEVQIDLASKWHTCGHSAMMAKRLEEFNLNWIEEPVLADSLISYEKLSRQVSQKIAGGESLTTRYEFQEFITKSNADIVQPDITRCGGITEMKKIYDIAQMNGTQLIPHGFSTGILLHASVHFLAACEQGTLMEFSQSSSPLFTSLVKNQLQFDNGFVAVSDAPGLGIELDEELIAKYRVN 3sjr-a1-m1-cB_3sjr-a1-m1-cA Crystal structure of conserved unkown function protein CV_1783 from Chromobacterium violaceum ATCC 12472 Q7NX46 Q7NX46 2.94 X-RAY DIFFRACTION 173 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 114 123 ISLSQGAQAAALLFSAADQISRLAELDIETGDSHSQHLLLGEILELYRQQHPDWTAPAIRQAFAPLARAGLERGYQEACQVLRQLNVYTPAVAGQLQGLLLLTQRLFEERLQIA ISLSQGAQAAALLFSAADQISRLAELDIEPVRLPESELTGDSHSQHLLLGEILELYRQQHPDWTAPAIRQAFAPLARAGLERGYQEACQVLRQLNVYTPAVAGQLQGLLLLTQRLFEERLQIA 3sjr-a2-m1-cD_3sjr-a2-m1-cC Crystal structure of conserved unkown function protein CV_1783 from Chromobacterium violaceum ATCC 12472 Q7NX46 Q7NX46 2.94 X-RAY DIFFRACTION 183 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 107 114 LSQGAQAAALLFSAADQISRLAELDDSHSQHLLLGEILELYRQQHPDWTAPAIRQAFAPLARAGLERGYQEACQVLRQLNVYTPAVAGQLQGLLLLTQRLFEERLQI SLSQGAQAAALLFSAADQISRLAELDSELTGDSHSQHLLLGEILELYRQQHPDWTAPAIRQAFAPLARAGLERGYQEACQVLRQLNVYTPAVAGQLQGLLLLTQRLFEERLQIA 3sju-a1-m1-cB_3sju-a1-m2-cB Hedamycin Polyketide Ketoreductase bound to NADPH Q67G28 Q67G28 2.4 X-RAY DIFFRACTION 16 1.0 1943 (Streptomyces griseoruber) 1943 (Streptomyces griseoruber) 255 255 3sju-a1-m1-cA_3sju-a1-m2-cA QTAFVTGVSSGIGLAVARTLAARGIAVYGCARDAKNVSAAVDGLRAAGHDVDGSSCDVTSTDEVHAAVAAAVERFGPIGILVNSAGRNGGGETADLDDALWADVLDTNLTGVFRVTREVLRAGGMREAGWGRIVNIASTGGKQGVMYAAPYTASKHGVVGFTKSVGFELAKTGITVNAVCPGYVETPMAERVREGYARHWGVTEQEVHERFNAKIPLGRYSTPEEVAGLVGYLVTDAAASITAQALNVCGGLGNY QTAFVTGVSSGIGLAVARTLAARGIAVYGCARDAKNVSAAVDGLRAAGHDVDGSSCDVTSTDEVHAAVAAAVERFGPIGILVNSAGRNGGGETADLDDALWADVLDTNLTGVFRVTREVLRAGGMREAGWGRIVNIASTGGKQGVMYAAPYTASKHGVVGFTKSVGFELAKTGITVNAVCPGYVETPMAERVREGYARHWGVTEQEVHERFNAKIPLGRYSTPEEVAGLVGYLVTDAAASITAQALNVCGGLGNY 3sju-a2-m1-cA_3sju-a2-m1-cB Hedamycin Polyketide Ketoreductase bound to NADPH Q67G28 Q67G28 2.4 X-RAY DIFFRACTION 126 1.0 1943 (Streptomyces griseoruber) 1943 (Streptomyces griseoruber) 255 255 3sju-a1-m1-cA_3sju-a1-m1-cB 3sju-a1-m2-cA_3sju-a1-m2-cB QTAFVTGVSSGIGLAVARTLAARGIAVYGCARDAKNVSAAVDGLRAAGHDVDGSSCDVTSTDEVHAAVAAAVERFGPIGILVNSAGRNGGGETADLDDALWADVLDTNLTGVFRVTREVLRAGGMREAGWGRIVNIASTGGKQGVMYAAPYTASKHGVVGFTKSVGFELAKTGITVNAVCPGYVETPMAERVREGYARHWGVTEQEVHERFNAKIPLGRYSTPEEVAGLVGYLVTDAAASITAQALNVCGGLGNY QTAFVTGVSSGIGLAVARTLAARGIAVYGCARDAKNVSAAVDGLRAAGHDVDGSSCDVTSTDEVHAAVAAAVERFGPIGILVNSAGRNGGGETADLDDALWADVLDTNLTGVFRVTREVLRAGGMREAGWGRIVNIASTGGKQGVMYAAPYTASKHGVVGFTKSVGFELAKTGITVNAVCPGYVETPMAERVREGYARHWGVTEQEVHERFNAKIPLGRYSTPEEVAGLVGYLVTDAAASITAQALNVCGGLGNY 3sju-a3-m1-cA_3sju-a3-m2-cB Hedamycin Polyketide Ketoreductase bound to NADPH Q67G28 Q67G28 2.4 X-RAY DIFFRACTION 106 1.0 1943 (Streptomyces griseoruber) 1943 (Streptomyces griseoruber) 255 255 3sju-a1-m1-cA_3sju-a1-m2-cB 3sju-a1-m1-cB_3sju-a1-m2-cA QTAFVTGVSSGIGLAVARTLAARGIAVYGCARDAKNVSAAVDGLRAAGHDVDGSSCDVTSTDEVHAAVAAAVERFGPIGILVNSAGRNGGGETADLDDALWADVLDTNLTGVFRVTREVLRAGGMREAGWGRIVNIASTGGKQGVMYAAPYTASKHGVVGFTKSVGFELAKTGITVNAVCPGYVETPMAERVREGYARHWGVTEQEVHERFNAKIPLGRYSTPEEVAGLVGYLVTDAAASITAQALNVCGGLGNY QTAFVTGVSSGIGLAVARTLAARGIAVYGCARDAKNVSAAVDGLRAAGHDVDGSSCDVTSTDEVHAAVAAAVERFGPIGILVNSAGRNGGGETADLDDALWADVLDTNLTGVFRVTREVLRAGGMREAGWGRIVNIASTGGKQGVMYAAPYTASKHGVVGFTKSVGFELAKTGITVNAVCPGYVETPMAERVREGYARHWGVTEQEVHERFNAKIPLGRYSTPEEVAGLVGYLVTDAAASITAQALNVCGGLGNY 3sk1-a2-m1-cC_3sk1-a2-m1-cD Crystal structure of phenazine resistance protein EhpR from Enterobacter agglomerans (Erwinia herbicola, Pantoea agglomerans) Eh1087, apo form Q8GPH6 Q8GPH6 2.15 X-RAY DIFFRACTION 158 1.0 549 (Pantoea agglomerans) 549 (Pantoea agglomerans) 124 124 3sk1-a1-m1-cA_3sk1-a1-m1-cB 3sk2-a1-m1-cA_3sk2-a1-m1-cB GPTITPNLQLVYVSNVERSTDFYRFIFKKEPVFVTPRYVAFPSSGDALFAIWSGGEEPVAEIPRFSEIGIMLPTGEDVDKLFNEWTKQKSHQIIVIKEPYTDVFGRTFLISDPDGHIIRVCPLD GPTITPNLQLVYVSNVERSTDFYRFIFKKEPVFVTPRYVAFPSSGDALFAIWSGGEEPVAEIPRFSEIGIMLPTGEDVDKLFNEWTKQKSHQIIVIKEPYTDVFGRTFLISDPDGHIIRVCPLD 3skb-a3-m1-cC_3skb-a3-m1-cH Structural characterization of a GII.4 2004 norovirus variant (TCH05) Q5EGK8 Q5EGK8 3.22 X-RAY DIFFRACTION 124 1.0 311380 (Norovirus Hu/GII.4/2004/NL) 311380 (Norovirus Hu/GII.4/2004/NL) 308 308 2obr-a1-m1-cA_2obr-a1-m2-cA 2obs-a1-m1-cA_2obs-a1-m2-cA 2obt-a1-m1-cA_2obt-a1-m2-cA 3bqj-a2-m1-cA_3bqj-a2-m2-cA 3sej-a1-m1-cA_3sej-a1-m1-cC 3sej-a2-m1-cB_3sej-a2-m1-cE 3sej-a3-m1-cD_3sej-a3-m1-cF 3sej-a4-m1-cJ_3sej-a4-m1-cG 3skb-a1-m1-cA_3skb-a1-m1-cE 3skb-a2-m1-cB_3skb-a2-m1-cF 3skb-a4-m1-cD_3skb-a4-m1-cG 3sld-a1-m1-cA_3sld-a1-m1-cC 3sld-a2-m1-cB_3sld-a2-m1-cE 3sld-a3-m1-cD_3sld-a3-m1-cF 3sld-a4-m1-cJ_3sld-a4-m1-cG 4oov-a1-m1-cA_4oov-a1-m1-cB 4oox-a1-m1-cA_4oox-a1-m2-cA 4op7-a1-m1-cB_4op7-a1-m1-cA 4opo-a1-m1-cB_4opo-a1-m1-cA 4ops-a1-m1-cA_4ops-a1-m1-cB 4opv-a1-m1-cB_4opv-a1-m1-cA 4wze-a1-m1-cA_4wze-a1-m1-cB 4wzk-a1-m1-cA_4wzk-a1-m1-cB 4wzl-a1-m1-cA_4wzl-a1-m1-cB 4wzt-a1-m1-cB_4wzt-a1-m1-cA 4x05-a1-m1-cB_4x05-a1-m1-cA 4x05-a2-m1-cC_4x05-a2-m1-cD 4x06-a1-m1-cA_4x06-a1-m1-cB 4x07-a1-m1-cA_4x07-a1-m1-cB 4x0c-a1-m1-cA_4x0c-a1-m1-cB 4x7c-a1-m1-cA_4x7c-a1-m1-cB 4x7d-a1-m1-cA_4x7d-a1-m1-cB 5iyn-a1-m1-cA_5iyn-a1-m1-cB 5iyp-a1-m1-cA_5iyp-a1-m1-cB 5iyq-a1-m1-cA_5iyq-a1-m1-cB 5iyr-a1-m1-cA_5iyr-a1-m1-cB 5iyw-a1-m1-cA_5iyw-a1-m1-cB 5j35-a1-m1-cA_5j35-a1-m1-cB 5j3o-a1-m1-cA_5j3o-a1-m1-cB 5kon-a1-m1-cA_5kon-a1-m1-cB 5lfe-a1-m1-cB_5lfe-a1-m1-cA 6ewb-a1-m1-cB_6ewb-a1-m1-cA 6ewb-a2-m1-cD_6ewb-a2-m1-cC 6h9v-a1-m1-cB_6h9v-a1-m1-cA 6n81-a1-m1-cA_6n81-a1-m1-cB 6n8d-a1-m1-cC_6n8d-a1-m2-cC 6n8d-a2-m1-cA_6n8d-a2-m3-cA 7k6v-a1-m1-cAA_7k6v-a1-m1-cEB 7k6v-a1-m1-cBA_7k6v-a1-m1-cAB 7k6v-a1-m1-cBC_7k6v-a1-m1-cKC 7k6v-a1-m1-cCA_7k6v-a1-m1-cBB 7k6v-a1-m1-cDA_7k6v-a1-m1-cCB 7k6v-a1-m1-cDC_7k6v-a1-m2-cHC 7k6v-a1-m1-cEA_7k6v-a1-m1-cDB 7k6v-a1-m1-cEC_7k6v-a1-m2-cEC 7k6v-a1-m1-cFA_7k6v-a1-m1-cJB 7k6v-a1-m1-cGA_7k6v-a1-m1-cFB 7k6v-a1-m1-cGC_7k6v-a1-m1-cAC 7k6v-a1-m1-cHA_7k6v-a1-m1-cGB 7k6v-a1-m1-cIA_7k6v-a1-m1-cHB 7k6v-a1-m1-cIC_7k6v-a1-m4-cMC 7k6v-a1-m1-cJA_7k6v-a1-m1-cIB 7k6v-a1-m1-cJC_7k6v-a1-m4-cJC 7k6v-a1-m1-cKA_7k6v-a1-m1-cOB 7k6v-a1-m1-cLA_7k6v-a1-m1-cKB 7k6v-a1-m1-cLC_7k6v-a1-m1-cFC 7k6v-a1-m1-cMA_7k6v-a1-m1-cLB 7k6v-a1-m1-cNA_7k6v-a1-m1-cMB 7k6v-a1-m1-cNC_7k6v-a1-m3-cCC 7k6v-a1-m1-cOA_7k6v-a1-m1-cNB 7k6v-a1-m1-cOC_7k6v-a1-m3-cOC 7k6v-a1-m2-cAA_7k6v-a1-m2-cEB 7k6v-a1-m2-cBA_7k6v-a1-m2-cAB 7k6v-a1-m2-cBC_7k6v-a1-m2-cKC 7k6v-a1-m2-cCA_7k6v-a1-m2-cBB 7k6v-a1-m2-cDA_7k6v-a1-m2-cCB 7k6v-a1-m2-cDC_7k6v-a1-m1-cHC 7k6v-a1-m2-cEA_7k6v-a1-m2-cDB 7k6v-a1-m2-cFA_7k6v-a1-m2-cJB 7k6v-a1-m2-cGA_7k6v-a1-m2-cFB 7k6v-a1-m2-cGC_7k6v-a1-m2-cAC 7k6v-a1-m2-cHA_7k6v-a1-m2-cGB 7k6v-a1-m2-cIA_7k6v-a1-m2-cHB 7k6v-a1-m2-cIC_7k6v-a1-m3-cMC 7k6v-a1-m2-cJA_7k6v-a1-m2-cIB 7k6v-a1-m2-cJC_7k6v-a1-m3-cJC 7k6v-a1-m2-cKA_7k6v-a1-m2-cOB 7k6v-a1-m2-cLA_7k6v-a1-m2-cKB 7k6v-a1-m2-cLC_7k6v-a1-m2-cFC 7k6v-a1-m2-cMA_7k6v-a1-m2-cLB 7k6v-a1-m2-cNA_7k6v-a1-m2-cMB 7k6v-a1-m2-cNC_7k6v-a1-m4-cCC 7k6v-a1-m2-cOA_7k6v-a1-m2-cNB 7k6v-a1-m2-cOC_7k6v-a1-m4-cOC 7k6v-a1-m3-cAA_7k6v-a1-m3-cEB 7k6v-a1-m3-cBA_7k6v-a1-m3-cAB 7k6v-a1-m3-cBC_7k6v-a1-m3-cKC 7k6v-a1-m3-cCA_7k6v-a1-m3-cBB 7k6v-a1-m3-cDA_7k6v-a1-m3-cCB 7k6v-a1-m3-cDC_7k6v-a1-m4-cHC 7k6v-a1-m3-cEA_7k6v-a1-m3-cDB 7k6v-a1-m3-cEC_7k6v-a1-m4-cEC 7k6v-a1-m3-cFA_7k6v-a1-m3-cJB 7k6v-a1-m3-cGA_7k6v-a1-m3-cFB 7k6v-a1-m3-cGC_7k6v-a1-m3-cAC 7k6v-a1-m3-cHA_7k6v-a1-m3-cGB 7k6v-a1-m3-cIA_7k6v-a1-m3-cHB 7k6v-a1-m3-cIC_7k6v-a1-m2-cMC 7k6v-a1-m3-cJA_7k6v-a1-m3-cIB 7k6v-a1-m3-cKA_7k6v-a1-m3-cOB 7k6v-a1-m3-cLA_7k6v-a1-m3-cKB 7k6v-a1-m3-cLC_7k6v-a1-m3-cFC 7k6v-a1-m3-cMA_7k6v-a1-m3-cLB 7k6v-a1-m3-cNA_7k6v-a1-m3-cMB 7k6v-a1-m3-cNC_7k6v-a1-m1-cCC 7k6v-a1-m3-cOA_7k6v-a1-m3-cNB 7k6v-a1-m4-cAA_7k6v-a1-m4-cEB 7k6v-a1-m4-cBA_7k6v-a1-m4-cAB 7k6v-a1-m4-cBC_7k6v-a1-m4-cKC 7k6v-a1-m4-cCA_7k6v-a1-m4-cBB 7k6v-a1-m4-cDA_7k6v-a1-m4-cCB 7k6v-a1-m4-cDC_7k6v-a1-m3-cHC 7k6v-a1-m4-cEA_7k6v-a1-m4-cDB 7k6v-a1-m4-cFA_7k6v-a1-m4-cJB 7k6v-a1-m4-cGA_7k6v-a1-m4-cFB 7k6v-a1-m4-cGC_7k6v-a1-m4-cAC 7k6v-a1-m4-cHA_7k6v-a1-m4-cGB 7k6v-a1-m4-cIA_7k6v-a1-m4-cHB 7k6v-a1-m4-cIC_7k6v-a1-m1-cMC 7k6v-a1-m4-cJA_7k6v-a1-m4-cIB 7k6v-a1-m4-cKA_7k6v-a1-m4-cOB 7k6v-a1-m4-cLA_7k6v-a1-m4-cKB 7k6v-a1-m4-cLC_7k6v-a1-m4-cFC 7k6v-a1-m4-cMA_7k6v-a1-m4-cLB 7k6v-a1-m4-cNA_7k6v-a1-m4-cMB 7k6v-a1-m4-cNC_7k6v-a1-m2-cCC 7k6v-a1-m4-cOA_7k6v-a1-m4-cNB 7mry-a1-m10-cB_7mry-a1-m6-cA 7mry-a1-m10-cC_7mry-a1-m24-cC 7mry-a1-m11-cB_7mry-a1-m12-cA 7mry-a1-m11-cC_7mry-a1-m16-cC 7mry-a1-m12-cB_7mry-a1-m13-cA 7mry-a1-m12-cC_7mry-a1-m38-cC 7mry-a1-m13-cB_7mry-a1-m14-cA 7mry-a1-m13-cC_7mry-a1-m47-cC 7mry-a1-m14-cB_7mry-a1-m15-cA 7mry-a1-m14-cC_7mry-a1-m45-cC 7mry-a1-m15-cB_7mry-a1-m11-cA 7mry-a1-m15-cC_7mry-a1-m29-cC 7mry-a1-m16-cB_7mry-a1-m17-cA 7mry-a1-m17-cB_7mry-a1-m18-cA 7mry-a1-m17-cC_7mry-a1-m28-cC 7mry-a1-m18-cB_7mry-a1-m19-cA 7mry-a1-m18-cC_7mry-a1-m52-cC 7mry-a1-m19-cB_7mry-a1-m20-cA 7mry-a1-m19-cC_7mry-a1-m60-cC 7mry-a1-m1-cB_7mry-a1-m2-cA 7mry-a1-m1-cC_7mry-a1-m6-cC 7mry-a1-m20-cB_7mry-a1-m16-cA 7mry-a1-m20-cC_7mry-a1-m39-cC 7mry-a1-m21-cB_7mry-a1-m22-cA 7mry-a1-m21-cC_7mry-a1-m26-cC 7mry-a1-m22-cB_7mry-a1-m23-cA 7mry-a1-m22-cC_7mry-a1-m43-cC 7mry-a1-m23-cB_7mry-a1-m24-cA 7mry-a1-m24-cB_7mry-a1-m25-cA 7mry-a1-m25-cB_7mry-a1-m21-cA 7mry-a1-m25-cC_7mry-a1-m54-cC 7mry-a1-m26-cB_7mry-a1-m27-cA 7mry-a1-m27-cB_7mry-a1-m28-cA 7mry-a1-m27-cC_7mry-a1-m53-cC 7mry-a1-m28-cB_7mry-a1-m29-cA 7mry-a1-m29-cB_7mry-a1-m30-cA 7mry-a1-m2-cB_7mry-a1-m3-cA 7mry-a1-m2-cC_7mry-a1-m23-cC 7mry-a1-m30-cB_7mry-a1-m26-cA 7mry-a1-m30-cC_7mry-a1-m44-cC 7mry-a1-m31-cB_7mry-a1-m32-cA 7mry-a1-m31-cC_7mry-a1-m36-cC 7mry-a1-m32-cB_7mry-a1-m33-cA 7mry-a1-m32-cC_7mry-a1-m58-cC 7mry-a1-m33-cB_7mry-a1-m34-cA 7mry-a1-m33-cC_7mry-a1-m7-cC 7mry-a1-m34-cB_7mry-a1-m35-cA 7mry-a1-m34-cC_7mry-a1-m5-cC 7mry-a1-m35-cB_7mry-a1-m31-cA 7mry-a1-m35-cC_7mry-a1-m49-cC 7mry-a1-m36-cB_7mry-a1-m37-cA 7mry-a1-m37-cB_7mry-a1-m38-cA 7mry-a1-m37-cC_7mry-a1-m48-cC 7mry-a1-m38-cB_7mry-a1-m39-cA 7mry-a1-m39-cB_7mry-a1-m40-cA 7mry-a1-m3-cB_7mry-a1-m4-cA 7mry-a1-m3-cC_7mry-a1-m42-cC 7mry-a1-m40-cB_7mry-a1-m36-cA 7mry-a1-m40-cC_7mry-a1-m59-cC 7mry-a1-m41-cB_7mry-a1-m42-cA 7mry-a1-m41-cC_7mry-a1-m46-cC 7mry-a1-m42-cB_7mry-a1-m43-cA 7mry-a1-m43-cB_7mry-a1-m44-cA 7mry-a1-m44-cB_7mry-a1-m45-cA 7mry-a1-m45-cB_7mry-a1-m41-cA 7mry-a1-m46-cB_7mry-a1-m47-cA 7mry-a1-m47-cB_7mry-a1-m48-cA 7mry-a1-m48-cB_7mry-a1-m49-cA 7mry-a1-m49-cB_7mry-a1-m50-cA 7mry-a1-m4-cB_7mry-a1-m5-cA 7mry-a1-m4-cC_7mry-a1-m50-cC 7mry-a1-m50-cB_7mry-a1-m46-cA 7mry-a1-m51-cB_7mry-a1-m52-cA 7mry-a1-m51-cC_7mry-a1-m56-cC 7mry-a1-m52-cB_7mry-a1-m53-cA 7mry-a1-m53-cB_7mry-a1-m54-cA 7mry-a1-m54-cB_7mry-a1-m55-cA 7mry-a1-m55-cB_7mry-a1-m51-cA 7mry-a1-m55-cC_7mry-a1-m9-cC 7mry-a1-m56-cB_7mry-a1-m57-cA 7mry-a1-m57-cB_7mry-a1-m58-cA 7mry-a1-m57-cC_7mry-a1-m8-cC 7mry-a1-m58-cB_7mry-a1-m59-cA 7mry-a1-m59-cB_7mry-a1-m60-cA 7mry-a1-m5-cB_7mry-a1-m1-cA 7mry-a1-m60-cB_7mry-a1-m56-cA 7mry-a1-m6-cB_7mry-a1-m7-cA 7mry-a1-m7-cB_7mry-a1-m8-cA 7mry-a1-m8-cB_7mry-a1-m9-cA 7mry-a1-m9-cB_7mry-a1-m10-cA 8emy-a1-m1-cA_8emy-a1-m1-cD 8emy-a1-m1-cB_8emy-a1-m1-cE 8emy-a1-m1-cC_8emy-a1-m1-cF 8en1-a1-m1-cA_8en1-a1-m1-cB 8en4-a1-m1-cA_8en4-a1-m1-cB 8en5-a1-m1-cB_8en5-a1-m1-cA 8en5-a2-m1-cD_8en5-a2-m1-cC 8en6-a1-m1-cA_8en6-a1-m1-cB TKPFTVPILTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGALLGTTQLSPVDICTFRGDVTHIAGTQNYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRRDGSTRGHKATVSTGSVHFTPKLGSVQFSTDTSNDFETGQNTRFTPVGVVQDGSTTHQNEPQQWVLPDYSGRDSHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVQHFYQESAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPMG TKPFTVPILTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGALLGTTQLSPVDICTFRGDVTHIAGTQNYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRRDGSTRGHKATVSTGSVHFTPKLGSVQFSTDTSNDFETGQNTRFTPVGVVQDGSTTHQNEPQQWVLPDYSGRDSHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVQHFYQESAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPMG 3skn-a1-m1-cA_3skn-a1-m1-cE Crystal structure of the RL42 TCR unliganded P01848 P01848 2.9 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 KEVEQDPGPFNVPEGATVAFNCTYSNSASQSFFWYRQDSRKEPKLLMSVYSSGNEDGRFTAQLNRASQYISLLIRDSKLSDSATYLCVVRAGKLIFGQGTELSVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP KEVEQDPGPFNVPEGATVAFNCTYSNSASQSFFWYRQDSRKEPKLLMSVYSSGNEDGRFTAQLNRASQYISLLIRDSKLSDSATYLCVVRAGKLIFGQGTELSVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP 3skn-a1-m1-cG_3skn-a1-m1-cA Crystal structure of the RL42 TCR unliganded P01848 P01848 2.9 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 KEVEQDPGPFNVPEGATVAFNCTYSNSASQSFFWYRQDSRKEPKLLMSVYSSGNEDGRFTAQLNRASQYISLLIRDSKLSDSATYLCVVRAGKLIFGQGTELSVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP KEVEQDPGPFNVPEGATVAFNCTYSNSASQSFFWYRQDSRKEPKLLMSVYSSGNEDGRFTAQLNRASQYISLLIRDSKLSDSATYLCVVRAGKLIFGQGTELSVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP 3skn-a1-m1-cG_3skn-a1-m1-cE Crystal structure of the RL42 TCR unliganded P01848 P01848 2.9 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 3skn-a1-m1-cC_3skn-a1-m1-cA KEVEQDPGPFNVPEGATVAFNCTYSNSASQSFFWYRQDSRKEPKLLMSVYSSGNEDGRFTAQLNRASQYISLLIRDSKLSDSATYLCVVRAGKLIFGQGTELSVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP KEVEQDPGPFNVPEGATVAFNCTYSNSASQSFFWYRQDSRKEPKLLMSVYSSGNEDGRFTAQLNRASQYISLLIRDSKLSDSATYLCVVRAGKLIFGQGTELSVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP 3skp-a2-m2-cA_3skp-a2-m4-cA The structure of apo-human transferrin C-lobe with bound sulfate ions P02787 P02787 1.7 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 338 338 3skp-a2-m1-cA_3skp-a2-m3-cA 3skp-a2-m1-cA_3skp-a2-m4-cA 3skp-a2-m2-cA_3skp-a2-m3-cA CKPVKWCALSHHERLKCDEWSVNSVGKIECVSAETTEDCIAKIMNGEADAMSLDGGFVYIAGKCGLVPVLAENYNKSDNCEDTPEAGYFAVAVVKKSASDLTWDNLKGKKSCHTAVGRTAGWNIPMGLLYNKINHCRFDEFFSEGCAPGSKKDSSLCKLCMGSGLNLCEPNNKEGYYGYTGAFRCLVEKGDVAFVKHQTVPQNTGGKNPDPWAKNLNEKDYELLCLDGTRKPVEEYANCHLARAPNHAVVTRKDKEACVHKILRQQQHLFGSNVTDCSGNFCLFRSETKDLLFRDDTVCLAKLHDRNTYEKYLGEEYVKAVGNLRKCSTSSLLEACTF CKPVKWCALSHHERLKCDEWSVNSVGKIECVSAETTEDCIAKIMNGEADAMSLDGGFVYIAGKCGLVPVLAENYNKSDNCEDTPEAGYFAVAVVKKSASDLTWDNLKGKKSCHTAVGRTAGWNIPMGLLYNKINHCRFDEFFSEGCAPGSKKDSSLCKLCMGSGLNLCEPNNKEGYYGYTGAFRCLVEKGDVAFVKHQTVPQNTGGKNPDPWAKNLNEKDYELLCLDGTRKPVEEYANCHLARAPNHAVVTRKDKEACVHKILRQQQHLFGSNVTDCSGNFCLFRSETKDLLFRDDTVCLAKLHDRNTYEKYLGEEYVKAVGNLRKCSTSSLLEACTF 3skp-a3-m1-cA_3skp-a3-m5-cA The structure of apo-human transferrin C-lobe with bound sulfate ions P02787 P02787 1.7 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 338 338 CKPVKWCALSHHERLKCDEWSVNSVGKIECVSAETTEDCIAKIMNGEADAMSLDGGFVYIAGKCGLVPVLAENYNKSDNCEDTPEAGYFAVAVVKKSASDLTWDNLKGKKSCHTAVGRTAGWNIPMGLLYNKINHCRFDEFFSEGCAPGSKKDSSLCKLCMGSGLNLCEPNNKEGYYGYTGAFRCLVEKGDVAFVKHQTVPQNTGGKNPDPWAKNLNEKDYELLCLDGTRKPVEEYANCHLARAPNHAVVTRKDKEACVHKILRQQQHLFGSNVTDCSGNFCLFRSETKDLLFRDDTVCLAKLHDRNTYEKYLGEEYVKAVGNLRKCSTSSLLEACTF CKPVKWCALSHHERLKCDEWSVNSVGKIECVSAETTEDCIAKIMNGEADAMSLDGGFVYIAGKCGLVPVLAENYNKSDNCEDTPEAGYFAVAVVKKSASDLTWDNLKGKKSCHTAVGRTAGWNIPMGLLYNKINHCRFDEFFSEGCAPGSKKDSSLCKLCMGSGLNLCEPNNKEGYYGYTGAFRCLVEKGDVAFVKHQTVPQNTGGKNPDPWAKNLNEKDYELLCLDGTRKPVEEYANCHLARAPNHAVVTRKDKEACVHKILRQQQHLFGSNVTDCSGNFCLFRSETKDLLFRDDTVCLAKLHDRNTYEKYLGEEYVKAVGNLRKCSTSSLLEACTF 3skv-a3-m1-cB_3skv-a3-m1-cA Salicylyl-Acyltransferase SsfX3 from a Tetracycline Biosynthetic Pathway D6MSV6 D6MSV6 2.49 X-RAY DIFFRACTION 92 1.0 746675 (Streptomyces sp. SF2575) 746675 (Streptomyces sp. SF2575) 332 354 DRSVSPTDPALTYRGAVSLQDRDGWLAPWRAPHEDAYLYFPKGSVGRLAQTSGVRLHLRTDSPWLAVRYEAVGPEPALLDVLVDGELARTVELKLDADAELHVDGLPAGDKLVELWLPTLLQFRLAEVRLEAGATLEKDTSSKPHWIHYGDSICHGRGAASPSRTWLALAARAEGLDLQSLSFAADGSHLQPMFARLIRDLPADLISLRVGTSNFMDGDGFVDFPANLVGFVQIIRERHPLTPIVLGSSVDDKPTVADYREQVVKVAELLRKHGDQNVHYLDGMRVWGPERGMELYLEKPDKYPTHPNAVGHEIFAESSRREMAALGVLPVR RARADRSVSPTDPALTYRGAVSLQDRDGWLAPWRAPHEDAYLYFPKGSVGRLAQTSGVRLHLRTDSPWLAVRYEAVGPKPKPGEPQEPALLDVLVDGELARTVELKLDADAELHVDGLPAGDKLVELWLPTLLQFRLAEVRLEAGATLEKDTSSKPHWIHYGDSICHGRGAASPSRTWLALAARAEGLDLQSLSFAADGSHLQPMFARLIRDLPADLISLRVGTSNFMDGDGFVDFPANLVGFVQIIRERHPLTPIVLGSSVYSPFWDELPADDKPTVADYREQVVKVAELLRKHGDQNVHYLDGMRVWGPERGMELYLEKPDKYPTHPNAVGHEIFAESSRREMAALGVLPVR 3sl1-a2-m1-cA_3sl1-a2-m6-cA Crystal Structure of P. falciparum arginase complexed with 2-amino-6-borono-2-methylhexanoic acid Q8I384 Q8I384 1.902 X-RAY DIFFRACTION 19 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 308 308 3mmr-a2-m1-cA_3mmr-a2-m6-cA 3mmr-a2-m2-cA_3mmr-a2-m5-cA 3mmr-a2-m3-cA_3mmr-a2-m4-cA 3sl0-a2-m1-cA_3sl0-a2-m6-cA 3sl0-a2-m2-cA_3sl0-a2-m5-cA 3sl0-a2-m3-cA_3sl0-a2-m4-cA 3sl1-a2-m2-cA_3sl1-a2-m5-cA 3sl1-a2-m3-cA_3sl1-a2-m4-cA KNVSIIGSPLAAGQPLGGVQLACDDLRKLGLHNVIDVLGWKYEDIGNIDNCYYDNIRNIKEIGIFSKNLFDTMSNELRKKNFVLNIGGDHGVAFSSILSSLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFKKKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICTALEKIDPNSNCPIHISLDIDSVDNVFAPGTGTVAKGGLNYREINLLMKILAETKRVVSMDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARVLGYDIV KNVSIIGSPLAAGQPLGGVQLACDDLRKLGLHNVIDVLGWKYEDIGNIDNCYYDNIRNIKEIGIFSKNLFDTMSNELRKKNFVLNIGGDHGVAFSSILSSLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFKKKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICTALEKIDPNSNCPIHISLDIDSVDNVFAPGTGTVAKGGLNYREINLLMKILAETKRVVSMDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARVLGYDIV 3sl1-a2-m2-cA_3sl1-a2-m6-cA Crystal Structure of P. falciparum arginase complexed with 2-amino-6-borono-2-methylhexanoic acid Q8I384 Q8I384 1.902 X-RAY DIFFRACTION 21 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 308 308 3mmr-a2-m1-cA_3mmr-a2-m4-cA 3mmr-a2-m2-cA_3mmr-a2-m6-cA 3mmr-a2-m3-cA_3mmr-a2-m5-cA 3sl0-a2-m1-cA_3sl0-a2-m4-cA 3sl0-a2-m2-cA_3sl0-a2-m6-cA 3sl0-a2-m3-cA_3sl0-a2-m5-cA 3sl1-a2-m1-cA_3sl1-a2-m4-cA 3sl1-a2-m3-cA_3sl1-a2-m5-cA KNVSIIGSPLAAGQPLGGVQLACDDLRKLGLHNVIDVLGWKYEDIGNIDNCYYDNIRNIKEIGIFSKNLFDTMSNELRKKNFVLNIGGDHGVAFSSILSSLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFKKKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICTALEKIDPNSNCPIHISLDIDSVDNVFAPGTGTVAKGGLNYREINLLMKILAETKRVVSMDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARVLGYDIV KNVSIIGSPLAAGQPLGGVQLACDDLRKLGLHNVIDVLGWKYEDIGNIDNCYYDNIRNIKEIGIFSKNLFDTMSNELRKKNFVLNIGGDHGVAFSSILSSLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFKKKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICTALEKIDPNSNCPIHISLDIDSVDNVFAPGTGTVAKGGLNYREINLLMKILAETKRVVSMDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARVLGYDIV 3sl1-a2-m5-cA_3sl1-a2-m6-cA Crystal Structure of P. falciparum arginase complexed with 2-amino-6-borono-2-methylhexanoic acid Q8I384 Q8I384 1.902 X-RAY DIFFRACTION 50 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 308 308 3mmr-a1-m1-cA_3mmr-a1-m2-cA 3mmr-a1-m1-cA_3mmr-a1-m3-cA 3mmr-a1-m2-cA_3mmr-a1-m3-cA 3mmr-a2-m1-cA_3mmr-a2-m2-cA 3mmr-a2-m1-cA_3mmr-a2-m3-cA 3mmr-a2-m2-cA_3mmr-a2-m3-cA 3mmr-a2-m4-cA_3mmr-a2-m5-cA 3mmr-a2-m4-cA_3mmr-a2-m6-cA 3mmr-a2-m5-cA_3mmr-a2-m6-cA 3sl0-a1-m1-cA_3sl0-a1-m2-cA 3sl0-a1-m1-cA_3sl0-a1-m3-cA 3sl0-a1-m2-cA_3sl0-a1-m3-cA 3sl0-a2-m1-cA_3sl0-a2-m2-cA 3sl0-a2-m1-cA_3sl0-a2-m3-cA 3sl0-a2-m2-cA_3sl0-a2-m3-cA 3sl0-a2-m4-cA_3sl0-a2-m5-cA 3sl0-a2-m4-cA_3sl0-a2-m6-cA 3sl0-a2-m5-cA_3sl0-a2-m6-cA 3sl1-a1-m1-cA_3sl1-a1-m2-cA 3sl1-a1-m1-cA_3sl1-a1-m3-cA 3sl1-a1-m2-cA_3sl1-a1-m3-cA 3sl1-a2-m1-cA_3sl1-a2-m2-cA 3sl1-a2-m1-cA_3sl1-a2-m3-cA 3sl1-a2-m2-cA_3sl1-a2-m3-cA 3sl1-a2-m4-cA_3sl1-a2-m5-cA 3sl1-a2-m4-cA_3sl1-a2-m6-cA KNVSIIGSPLAAGQPLGGVQLACDDLRKLGLHNVIDVLGWKYEDIGNIDNCYYDNIRNIKEIGIFSKNLFDTMSNELRKKNFVLNIGGDHGVAFSSILSSLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFKKKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICTALEKIDPNSNCPIHISLDIDSVDNVFAPGTGTVAKGGLNYREINLLMKILAETKRVVSMDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARVLGYDIV KNVSIIGSPLAAGQPLGGVQLACDDLRKLGLHNVIDVLGWKYEDIGNIDNCYYDNIRNIKEIGIFSKNLFDTMSNELRKKNFVLNIGGDHGVAFSSILSSLQMYQNLRVIWIDAHGDINIPETSPSGNYHGMTLAHTLGLFKKKVPYFEWSENLTYLKPENTAIIGIRDIDAYEKIILKKCNINYYTIFDIEKNGIYNTICTALEKIDPNSNCPIHISLDIDSVDNVFAPGTGTVAKGGLNYREINLLMKILAETKRVVSMDLVEYNPSLDEVDKKVHGDSLPILDNATKTGKLCLELIARVLGYDIV 3sl2-a2-m1-cA_3sl2-a2-m2-cA ATP Forms a Stable Complex with the Essential Histidine Kinase WalK (YycG) Domain Q45614 Q45614 1.61 X-RAY DIFFRACTION 14 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 145 145 MWIQIVRFMSLIIDRFEMTKEQEFIRNLPDRDLYVEIDQDKITQVLDNIISNALKYSPEGGHVTFSIDVNEEEELLYISVKDEGIGIPKKDVEKVFDRFYRVDLGGTGLGLAIAKEMVQAHGGDIWADSIEGKGTTITFTLPYKE MWIQIVRFMSLIIDRFEMTKEQEFIRNLPDRDLYVEIDQDKITQVLDNIISNALKYSPEGGHVTFSIDVNEEEELLYISVKDEGIGIPKKDVEKVFDRFYRVDLGGTGLGLAIAKEMVQAHGGDIWADSIEGKGTTITFTLPYKE 3sl7-a1-m1-cA_3sl7-a1-m1-cB Crystal structure of CBS-pair protein, CBSX2 from Arabidopsis thaliana Q9C5D0 Q9C5D0 1.905 X-RAY DIFFRACTION 91 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 139 139 TGYTVGDFTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALTWKTFNELQKLISKTYGKVVGDLTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKRNA TGYTVGDFTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALTWKTFNELQKLISKTYGKVVGDLTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKRNA 3slc-a1-m1-cB_3slc-a1-m1-cA Crystal structure of apo form of acetate kinase (AckA) from Salmonella typhimurium P63411 P63411 2.7 X-RAY DIFFRACTION 236 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 398 401 3sk3-a1-m1-cA_3sk3-a1-m1-cB 3slc-a2-m1-cC_3slc-a2-m1-cD SKLVLVLNCGSSSLKFAIIDAVNGDEYLSGLAECFHLPEARIKWKMDGSKQEAALGAGAAHSEALNFIVNTILAQKPELSAQLTAIGHRIVHGGEKYTSSVVIDESVIQGIKDSASFAPLHNPAHLIGIAEALKSFPQLKDKNVAVFDTAFHQTMPEESYLYALPYSLYKEHGVRRYGAHGTSHFYVTQEAAKMLNKPVEELNIITCHLGNGGSVSAIRNGKCVDTSMGLTPLEGLVMGTRSGDIDPAIIFHLHDTLGMSVDQINKMLTKESGLLGLTEVTSDCRYVEDNYATKEDAKRAMDVYCHRLAKYIGSYTALMDGRLDAVVFTGGIGENAAMVRELSLGKLGVLGFEVDHERNLAARFGKSGFINKEGTRPAVVIPTNEELVIAQDASRLTA HMSSKLVLVLNCGSSSLKFAIIDAVNGDEYLSGLAECFHLPEARIKWKMDGSKQEAALGAGAAHSEALNFIVNTILAQKPELSAQLTAIGHRIVHGGEKYTSSVVIDESVIQGIKDSASFAPLHNPAHLIGIAEALKSFPQLKDKNVAVFDTAFHQTMPEESYLYALPYSLYKEHGVRRYGAHGTSHFYVTQEAAKMLNKPVEELNIITCHLGNGGSVSAIRNGKCVDTSMGLTPLEGLVMGTRSGDIDPAIIFHLHDTLGMSVDQINKMLTKESGLLGLTEVTSDCRYVEDNYATKEDAKRAMDVYCHRLAKYIGSYTALMDGRLDAVVFTGGIGENAAMVRELSLGKLGVLGFEVDHERNLAARFGKSGFINKEGTRPAVVIPTNEELVIAQDASRLTA 3slg-a1-m1-cA_3slg-a1-m1-cC Crystal structure of PbgP3 protein from Burkholderia pseudomallei Q3JRK4 Q3JRK4 2.1 X-RAY DIFFRACTION 18 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 334 335 3slg-a1-m1-cA_3slg-a1-m1-cD 3slg-a1-m1-cB_3slg-a1-m1-cE 3slg-a1-m1-cD_3slg-a1-m1-cC 3slg-a1-m1-cF_3slg-a1-m1-cB 3slg-a1-m1-cF_3slg-a1-m1-cE KAKKVLILGVNGFIGHHLSKRILETTDWEVFGMDMQTDRLGDLVKHERMHFFEGDITINKEWVEYHVKKCDVILPLVAIATPATYVKQPLRVFELDFEANLPIVRSAVKYGKHLVFPSTSEVYGMCADEQFDPDASALTYGPINKPRWIYACSKQLMDRVIWGYGMEGLNFTLFRPFNWIGPGLDSIYTPKEGSSRVVTQFLGHIVRGENISLVDGGSQKRAFTYVDDGISALMKIIENSNGVATGKIYNIGNPNNNFSVRELANKMLELAAEFPEYADSAKRVKLVETQNRVPKIENTMQELGWAPQFTFDDALRQIFEAYRGHVADARALVE KAKKVLILGVNGFIGHHLSKRILETTDWEVFGMDMQTDRLGDLVKHERMHFFEGDITINKEWVEYHVKKCDVILPLVAIATPATYVKQPLRVFELDFEANLPIVRSAVKYGKHLVFPSTSEVYGMCADEQFDPDASALTYGPINKPRWIYACSKQLMDRVIWGYGMEGLNFTLFRPFNWIGPGLDSIYTPKEGSSRVVTQFLGHIVRGENISLVDGGSQKRAFTYVDDGISALMKIIENSNGVATGKIYNIGNPNNNFSVRELANKMLELAAEFPEYADSAKRVKLVETTQNRVPKIENTMQELGWAPQFTFDDALRQIFEAYRGHVADARALVE 3slg-a4-m1-cD_3slg-a4-m1-cE Crystal structure of PbgP3 protein from Burkholderia pseudomallei Q3JRK4 Q3JRK4 2.1 X-RAY DIFFRACTION 105 0.997 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 334 334 3slg-a1-m1-cB_3slg-a1-m1-cC 3slg-a1-m1-cD_3slg-a1-m1-cE 3slg-a1-m1-cF_3slg-a1-m1-cA 3slg-a2-m1-cF_3slg-a2-m1-cA 3slg-a3-m1-cB_3slg-a3-m1-cC KAKKVLILGVNGFIGHHLSKRILETTDWEVFGMDMQTDRLGDLVKHERMHFFEGDITINKEWVEYHVKKCDVILPLVAIATPATYVKQPLRVFELDFEANLPIVRSAVKYGKHLVFPSTSEVYGMCADEQFDPDASALTYGPINKPRWIYACSKQLMDRVIWGYGMEGLNFTLFRPFNWIGPGLDSIYTPKEGSSRVVTQFLGHIVRGENISLVDGGSQKRAFTYVDDGISALMKIIENSNGVATGKIYNIGNPNNNFSVRELANKMLELAAEFPEYADSAKRVKLVETTNRVPKIENTMQELGWAPQFTFDDALRQIFEAYRGHVADARALVE KAKKVLILGVNGFIGHHLSKRILETTDWEVFGMDMQTDRLGDLVKHERMHFFEGDITINKEWVEYHVKKCDVILPLVAIATPATYVKQPLRVFELDFEANLPIVRSAVKYGKHLVFPSTSEVYGMCADEQFDPDASALTYGPINKPRWIYACSKQLMDRVIWGYGMEGLNFTLFRPFNWIGPGLDSIYTPKEGSSRVVTQFLGHIVRGENISLVDGGSQKRAFTYVDDGISALMKIIENSNGVATGKIYNIGNPNNNFSVRELANKMLELAAEFPEYADSAKRVKLVETQNRVPKIENTMQELGWAPQFTFDDALRQIFEAYRGHVADARALVE 3sll-a1-m1-cA_3sll-a1-m1-cB Crystal structure of a probable enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1MC45 B1MC45 2.35 X-RAY DIFFRACTION 151 0.996 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 262 263 3sll-a1-m1-cC_3sll-a1-m1-cA 3sll-a1-m1-cC_3sll-a1-m1-cB 3sll-a1-m1-cD_3sll-a1-m1-cE 3sll-a1-m1-cD_3sll-a1-m1-cF 3sll-a1-m1-cF_3sll-a1-m1-cE SFVLVDRPRPEIALVTLNRPERMNAMAFDVMLPFKQMLVDISHDNDVRAVVITGAGKGFCSGGPIPHIGGLTQPTIALRSMELLDEVILTLRRMHQPVIAAINGAAIGGGLCLALACDVRVASQDAYFRAAGINNGLTASELGLSYLLPRAIGTSRASDIMLTGRDVDADEAERIGLVSRKVASESLLEECYAIGERIAGFSRPGIELTKRTIWSGLDAASLESHMHQEGLGQLYVRLLTDNFEEATAARKEKRPAEFRDKR MSFVLVDRPRPEIALVTLNRPERMNAMAFDVMLPFKQMLVDISHDNDVRAVVITGAGKGFCSAGPIPHIGGLTQPTIALRSMELLDEVILTLRRMHQPVIAAINGAAIGGGLCLALACDVRVASQDAYFRAAGINNGLTASELGLSYLLPRAIGTSRASDIMLTGRDVDADEAERIGLVSRKVASESLLEECYAIGERIAGFSRPGIELTKRTIWSGLDAASLESHMHQEGLGQLYVRLLTDNFEEATAARKEKRPAEFRDKR 3sll-a1-m1-cC_3sll-a1-m1-cF Crystal structure of a probable enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1MC45 B1MC45 2.35 X-RAY DIFFRACTION 54 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 258 260 3sll-a1-m1-cA_3sll-a1-m1-cE 3sll-a1-m1-cD_3sll-a1-m1-cB SFVLVDRPRPEIALVTLNRPERMNAMAFDVMLPFKQMLVDISHDNDVRAVVITGAGKGFCSPHIGGLTQPTIALRSMELLDEVILTLRRMHQPVIAAINGAAIGGGLCLALACDVRVASQDAYFRAAGINNGLTASELGLSYLLPRAIGTSRASDIMLTGRDVDADEAERIGLVSRKVASESLLEECYAIGERIAGFSRPGIELTKRTIWSGLDAASLESHMHQEGLGQLYVRLLTDNFEEATAARKEKRPAEFRDKR SFVLVDRPRPEIALVTLNRPERMNAMAFDVMLPFKQMLVDISHDNDVRAVVITGAGKGFCSGIPHIGGLTQPTIALRSMELLDEVILTLRRMHQPVIAAINGAAIGGGLCLALACDVRVASQDAYFRAAGINNGLTASELGLSYLLPRAIGTSRASDIMLTGRDVDADEAERIGLVSRKVASESLLEECYAIGERIAGFSRPGIELTKRTIWSGLDAASLESHMHQEGLGQLYVRLLTDNFEEATAARKEKRPAEFRDKR 3sll-a1-m1-cF_3sll-a1-m1-cB Crystal structure of a probable enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1MC45 B1MC45 2.35 X-RAY DIFFRACTION 62 0.996 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 260 263 3sll-a1-m1-cC_3sll-a1-m1-cE 3sll-a1-m1-cD_3sll-a1-m1-cA SFVLVDRPRPEIALVTLNRPERMNAMAFDVMLPFKQMLVDISHDNDVRAVVITGAGKGFCSGIPHIGGLTQPTIALRSMELLDEVILTLRRMHQPVIAAINGAAIGGGLCLALACDVRVASQDAYFRAAGINNGLTASELGLSYLLPRAIGTSRASDIMLTGRDVDADEAERIGLVSRKVASESLLEECYAIGERIAGFSRPGIELTKRTIWSGLDAASLESHMHQEGLGQLYVRLLTDNFEEATAARKEKRPAEFRDKR MSFVLVDRPRPEIALVTLNRPERMNAMAFDVMLPFKQMLVDISHDNDVRAVVITGAGKGFCSAGPIPHIGGLTQPTIALRSMELLDEVILTLRRMHQPVIAAINGAAIGGGLCLALACDVRVASQDAYFRAAGINNGLTASELGLSYLLPRAIGTSRASDIMLTGRDVDADEAERIGLVSRKVASESLLEECYAIGERIAGFSRPGIELTKRTIWSGLDAASLESHMHQEGLGQLYVRLLTDNFEEATAARKEKRPAEFRDKR 3sln-a1-m2-cD_3sln-a1-m1-cA Structural characterization of a GII.4 2004 norovirus variant (TCH05) bound to H pentasaccharide Q5EGK8 Q5EGK8 2.841 X-RAY DIFFRACTION 55 1.0 311380 (Norovirus Hu/GII.4/2004/NL) 311380 (Norovirus Hu/GII.4/2004/NL) 307 309 3sln-a2-m1-cJ_3sln-a2-m1-cB 3sln-a4-m3-cH_3sln-a4-m1-cE 3sln-a5-m1-cF_3sln-a5-m4-cG 8emy-a1-m1-cB_8emy-a1-m1-cF KPFTVPILTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGALLGTTQLSPVDICTFRGDVTHIAGTQNYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRRDGSTRGHKATVSTGSVHFTPKLGSVQFSTDTSNDFETGQNTRFTPVGVVQDGSTTHQNEPQQWVLPDYSGRDSHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVQHFYQESAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPMG RTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGALLGTTQLSPVDICTFRGDVTHIAGTQNYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRRDGSTRGHKATVSTGSVHFTPKLGSVQFSTDTSNDFETGQNTRFTPVGVVQDGSTTHQNEPQQWVLPDYSGRDSHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVQHFYQESAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPMG 3sln-a6-m1-cI_3sln-a6-m5-cI Structural characterization of a GII.4 2004 norovirus variant (TCH05) bound to H pentasaccharide Q5EGK8 Q5EGK8 2.841 X-RAY DIFFRACTION 36 1.0 311380 (Norovirus Hu/GII.4/2004/NL) 311380 (Norovirus Hu/GII.4/2004/NL) 285 285 ESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGALLGTTQLSPVDICTFRGDVTHIAGTQNYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRRDGSTRGHKATVSTGSVHFTPKLGSVQFSTFETGQNTRFTPVGVQWVLPDYSGRDSHNVHLAPAVAPTFPGEQLLFFRSTMPGNLDCLLPQEWVQHFYQESAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM ESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGALLGTTQLSPVDICTFRGDVTHIAGTQNYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRRDGSTRGHKATVSTGSVHFTPKLGSVQFSTFETGQNTRFTPVGVQWVLPDYSGRDSHNVHLAPAVAPTFPGEQLLFFRSTMPGNLDCLLPQEWVQHFYQESAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM 3slr-a2-m1-cA_3slr-a2-m2-cA Crystal structure of N-terminal part of the protein BF1531 from Bacteroides fragilis containing phosphatase domain complexed with Mg. Q64W45 Q64W45 1.712 X-RAY DIFFRACTION 235 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 370 370 LYTFKELKRATKQDTVSLPKLKVALLGDTATQLLATAIKGEGILRNYNIELWEAEYNQVERQIDPTSDYYQFEPDYTIIFHSTHKLLEKHSLVNSDLQNKLADDRLDFVRLLCEQGIGRVIYYNYPEIEDTIWGSYATKVQSSFTYQLTKLNYELNISQAYPNFFICNLAGISAKYGRNFFDSSVYVNTEIILSLDALPIISSRTIDIIAAIQGKFKKCLILDLDNTIWGGVVGDDGWENIQVGHGLGIGKAFTEFQEWVKKLKNRGIIIAVCSKNNEGKAKEPFERNPEVLKLDDIAVFVANWENKADNIRTIQRTLNIGFDSVFLDDNPFERNVREHVPGVTVPELPEDPGDYLEYLYTLNLFETASF LYTFKELKRATKQDTVSLPKLKVALLGDTATQLLATAIKGEGILRNYNIELWEAEYNQVERQIDPTSDYYQFEPDYTIIFHSTHKLLEKHSLVNSDLQNKLADDRLDFVRLLCEQGIGRVIYYNYPEIEDTIWGSYATKVQSSFTYQLTKLNYELNISQAYPNFFICNLAGISAKYGRNFFDSSVYVNTEIILSLDALPIISSRTIDIIAAIQGKFKKCLILDLDNTIWGGVVGDDGWENIQVGHGLGIGKAFTEFQEWVKKLKNRGIIIAVCSKNNEGKAKEPFERNPEVLKLDDIAVFVANWENKADNIRTIQRTLNIGFDSVFLDDNPFERNVREHVPGVTVPELPEDPGDYLEYLYTLNLFETASF 3sm3-a1-m1-cA_3sm3-a1-m2-cA Crystal Structure of SAM-dependent methyltransferases Q8PUK2_METMA from Methanosarcina mazei. Northeast Structural Genomics Consortium Target MaR262. Q8PUK2 Q8PUK2 2.197 X-RAY DIFFRACTION 54 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 212 212 LDLYPIIHNYLQEDDEILDIGCGSGKISLELASKGYSVTGIDINSEAIRLAETAARSPGLNQKTGGKAEFKVENASSLSFHDSSFDFAVMQAFLTSVPDPKERSRIIKEVFRVLKPGAYLYLVEFGQNWHLKLYRKRYLHDFPITKEEGSFLARDPETGETEFIAHHFTEKELVFLLTDCRFEIDYFRVKELETRTGNKILGFVIIAQKLLE LDLYPIIHNYLQEDDEILDIGCGSGKISLELASKGYSVTGIDINSEAIRLAETAARSPGLNQKTGGKAEFKVENASSLSFHDSSFDFAVMQAFLTSVPDPKERSRIIKEVFRVLKPGAYLYLVEFGQNWHLKLYRKRYLHDFPITKEEGSFLARDPETGETEFIAHHFTEKELVFLLTDCRFEIDYFRVKELETRTGNKILGFVIIAQKLLE 3sma-a2-m1-cC_3sma-a2-m2-cD A new N-acetyltransferase fold in the structure and mechanism of the phosphonate biosynthetic enzyme FrbF Q0ZQ43 Q0ZQ43 2 X-RAY DIFFRACTION 77 1.0 359131 (Streptomyces rubellomurinus) 359131 (Streptomyces rubellomurinus) 262 264 3sma-a1-m1-cA_3sma-a1-m1-cB RELVTRDRLASDLAALGVRPGGVLLVHASLSALGWVCGGAQAVVLALQDAVGKEGTLVMPTFSGDLSDPSTWRRPPVPEDWWPVIREQMPPFDPDLTPTRGMGAVAECFRRAAGAVRSGHPQNSFAAWGAHAEQVVAEHGLTERLGRGSPLEQVYRLDGQVLLLGCGFESNTSFHLAEYRTAYPGRRSHRRRVPVPEGDRVRWVEQEDIVYFEEDFQTMGESCLTRTPGHSRGTVGEAAAVLYGQRAFVDLACEWMTAHRDL RELVTRDRLASDLAALGVRPGGVLLVHASLSALGWVCGGAQAVVLALQDAVGKEGTLVMPTFSGDLSDPSTWRRPPVPEDWWPVIREQMPPFDPDLTPTRGMGAVAECFRRAAGAVRSGHPQNSFAAWGAHAEQVVAEHGLTERLGRGSPLEQVYRLDGQVLLLGCGFESNTSFHLAEYRTAYPGRRSHRRRVPVPEGDRVRWVEQEDIVYFEEDFQTMGESCLTRTPGHSRGTVGEAAAVLYGQRAFVDLACEWMTAHRDLAR 3smd-a2-m1-cA_3smd-a2-m2-cA Crystal structure of a mut/nudix family protein from bacillus thuringiensis A0REX4 A0REX4 1.76 X-RAY DIFFRACTION 67 1.0 412694 (Bacillus thuringiensis str. Al Hakam) 412694 (Bacillus thuringiensis str. Al Hakam) 132 132 LSLYYKKIREQLGHELIFPSVAAVIKNEQGELLFQYPYWSLPAGAIEPGETPEEAVIREVWEETGLKVQVKKQKGVFGGKEFRYTYANGDKVEYIVVVFECEITSGKLKKLQYFSFSEKPPLALPYPDKIFL LSLYYKKIREQLGHELIFPSVAAVIKNEQGELLFQYPYWSLPAGAIEPGETPEEAVIREVWEETGLKVQVKKQKGVFGGKEFRYTYANGDKVEYIVVVFECEITSGKLKKLQYFSFSEKPPLALPYPDKIFL 3smp-a1-m1-cA_3smp-a1-m1-cB Monoclinic crystal structure of human pantothenate kinase 1 alpha Q8TE04 Q8TE04 1.9 X-RAY DIFFRACTION 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 358 363 RPPFPWFGMDIGGTLVKLVYFEPKDITAEEEQEEVENLKSIRKYLTSNTAYGKTGIRDVHLELKNLTMCGRKGNLHFIRFPSCAMHRFIQMGSEKNFSSLHTTLCATGGGAFKFEEDFRMIADLQLHKLDELDCLIQGLLYVDSVGFNGKPECYYFENPTNPELCQKKPYCPYPMLLVNMGSGVSILAVYSKDNYKRVTGTSLGGGTFLGLCCLLTGCETFEEALEMAAKGDSTNVDKLVKDIYGGDYERFGLQGSAVASSFGNMMSKEKRDSISKEDLARATLVTITNNIGSIARMCALNENIDRVVFVGNFLRINMVSMKLLAYAMDFWSKGQLKALFLEHEGYFGAVGALLELFK NRPPFPWFGMDIGGTLVKLVYFEPKDITAEEEQEEVENLKSIRKYLTSNTAYGKTGIRDVHLELKNLTMCGRKGNLHFIRFPSCAMHRFIQMGSEKNFSSLHTTLCATGGGAFKFEEDFRMIADLQLHKLDELDCLIQGLLYVDSVGFNGKPECYYFENPTNPELCQKKPYCLDNPYPMLLVNMGSGVSILAVYSKDNYKRVTGTSLGGGTFLGLCCLLTGCETFEEALEMAAKGDSTNVDKLVKDIYGGDYERFGLQGSAVASSFGNMMSKEKRDSISKEDLARATLVTITNNIGSIARMCALNENIDRVVFVGNFLRINMVSMKLLAYAMDFWSKGQLKALFLEHEGYFGAVGALLELFKM 3smt-a2-m1-cA_3smt-a2-m2-cA Crystal structure of human SET domain-containing protein3 Q86TU7 Q86TU7 2.04 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 455 455 SPKEILNLTSELLQKCSSPAKEWEEYVQIRTLVEKIRKKQKGLSVTFDGKREDYFPDLKWASENGASVEGFEVNFKEEGFGLRATRDIKAEELFLWVPRKLLTVESAKNSVLGPLYSQDRILQAGNIALAFHLLCERASPNSFWQPYIQTLPSEYDTPLYFEEDEVRYLQSTQAIHDVFSQYKNTARQYAYFYKVIHANKLPLKDSFTYEDYRWAVSSVTRQNQIPTEDGSRVTLALIPLWDCNHTNGLITTGYNLEDDRCECVALQDFRAGEQIYIFYGTRSNAEFVIHSGFFFDNNSHDRVKIKLGVSKSDRLYAKAEVLARAGIPTSSVFALHFTEPPISAQLLAFLRVFCTEEELKEHLLGDSAIDRIFTLGNSEFPVSWDNEVKLWTFLEDRASLLLKTYKTTIEEDKSVLKNHDLSVRAKAIKLRLGEKEILEKAVKSAAVNREYYRQQ SPKEILNLTSELLQKCSSPAKEWEEYVQIRTLVEKIRKKQKGLSVTFDGKREDYFPDLKWASENGASVEGFEVNFKEEGFGLRATRDIKAEELFLWVPRKLLTVESAKNSVLGPLYSQDRILQAGNIALAFHLLCERASPNSFWQPYIQTLPSEYDTPLYFEEDEVRYLQSTQAIHDVFSQYKNTARQYAYFYKVIHANKLPLKDSFTYEDYRWAVSSVTRQNQIPTEDGSRVTLALIPLWDCNHTNGLITTGYNLEDDRCECVALQDFRAGEQIYIFYGTRSNAEFVIHSGFFFDNNSHDRVKIKLGVSKSDRLYAKAEVLARAGIPTSSVFALHFTEPPISAQLLAFLRVFCTEEELKEHLLGDSAIDRIFTLGNSEFPVSWDNEVKLWTFLEDRASLLLKTYKTTIEEDKSVLKNHDLSVRAKAIKLRLGEKEILEKAVKSAAVNREYYRQQ 3sn1-a1-m2-cA_3sn1-a1-m8-cA Crystal structure of putative L-alanine-DL-glutamate epimerase from Burkholderia xenovorans strain LB400 bound to magnesium and tartrate Q13PB7 Q13PB7 1.8 X-RAY DIFFRACTION 68 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 391 391 2oo6-a1-m1-cA_2oo6-a1-m7-cA 2oo6-a1-m2-cA_2oo6-a1-m8-cA 2oo6-a1-m3-cA_2oo6-a1-m5-cA 2oo6-a1-m4-cA_2oo6-a1-m6-cA 3go2-a1-m1-cA_3go2-a1-m7-cA 3go2-a1-m2-cA_3go2-a1-m8-cA 3go2-a1-m3-cA_3go2-a1-m5-cA 3go2-a1-m4-cA_3go2-a1-m6-cA 3sn0-a1-m1-cA_3sn0-a1-m7-cA 3sn0-a1-m2-cA_3sn0-a1-m8-cA 3sn0-a1-m3-cA_3sn0-a1-m5-cA 3sn0-a1-m4-cA_3sn0-a1-m6-cA 3sn1-a1-m1-cA_3sn1-a1-m7-cA 3sn1-a1-m3-cA_3sn1-a1-m5-cA 3sn1-a1-m4-cA_3sn1-a1-m6-cA 3sn4-a1-m1-cA_3sn4-a1-m7-cA 3sn4-a1-m2-cA_3sn4-a1-m8-cA 3sn4-a1-m3-cA_3sn4-a1-m5-cA 3sn4-a1-m4-cA_3sn4-a1-m6-cA SLKVVSVDTLCCDAGWRNYHFVKLTTDEGIVGWSEFDEGFGSPGVTAVIEQLGKRLVGASVEHERFFAEAYCLTRPATGGVVSEGIGAIENALLDAKAKTLNVPCYELLGGKLRDRVPVYWSHCPTWRINHPKFFGPPVTDLDGVKRTAEEARERQFRAIKTNIFIHDDGPLHAWRPGFAVPFQPALNVDRKVLRNLRAHLEALRDGAGPDVEILLDLNFNAKPEGYLKILRELADFDLFWVEIDSYSPQGLAYVRNHSPHPISSCETLFGIREFKPFFDANAVDVAIVDTIWNGVWQSKIAAFADAHDINVAPHNFYGHLCTINANFAAAVPNLRIETDIDRLAWEDELFTHAPEYQNGELIIPDRPGWGTDPVEEAILAHPPKVGGLLQ SLKVVSVDTLCCDAGWRNYHFVKLTTDEGIVGWSEFDEGFGSPGVTAVIEQLGKRLVGASVEHERFFAEAYCLTRPATGGVVSEGIGAIENALLDAKAKTLNVPCYELLGGKLRDRVPVYWSHCPTWRINHPKFFGPPVTDLDGVKRTAEEARERQFRAIKTNIFIHDDGPLHAWRPGFAVPFQPALNVDRKVLRNLRAHLEALRDGAGPDVEILLDLNFNAKPEGYLKILRELADFDLFWVEIDSYSPQGLAYVRNHSPHPISSCETLFGIREFKPFFDANAVDVAIVDTIWNGVWQSKIAAFADAHDINVAPHNFYGHLCTINANFAAAVPNLRIETDIDRLAWEDELFTHAPEYQNGELIIPDRPGWGTDPVEEAILAHPPKVGGLLQ 3sn1-a1-m4-cA_3sn1-a1-m8-cA Crystal structure of putative L-alanine-DL-glutamate epimerase from Burkholderia xenovorans strain LB400 bound to magnesium and tartrate Q13PB7 Q13PB7 1.8 X-RAY DIFFRACTION 138 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 391 391 2oo6-a1-m1-cA_2oo6-a1-m6-cA 2oo6-a1-m2-cA_2oo6-a1-m5-cA 2oo6-a1-m3-cA_2oo6-a1-m7-cA 2oo6-a1-m4-cA_2oo6-a1-m8-cA 3go2-a1-m1-cA_3go2-a1-m6-cA 3go2-a1-m2-cA_3go2-a1-m5-cA 3go2-a1-m3-cA_3go2-a1-m7-cA 3go2-a1-m4-cA_3go2-a1-m8-cA 3sn0-a1-m1-cA_3sn0-a1-m6-cA 3sn0-a1-m2-cA_3sn0-a1-m5-cA 3sn0-a1-m3-cA_3sn0-a1-m7-cA 3sn0-a1-m4-cA_3sn0-a1-m8-cA 3sn1-a1-m1-cA_3sn1-a1-m6-cA 3sn1-a1-m2-cA_3sn1-a1-m5-cA 3sn1-a1-m3-cA_3sn1-a1-m7-cA 3sn4-a1-m1-cA_3sn4-a1-m6-cA 3sn4-a1-m2-cA_3sn4-a1-m5-cA 3sn4-a1-m3-cA_3sn4-a1-m7-cA 3sn4-a1-m4-cA_3sn4-a1-m8-cA SLKVVSVDTLCCDAGWRNYHFVKLTTDEGIVGWSEFDEGFGSPGVTAVIEQLGKRLVGASVEHERFFAEAYCLTRPATGGVVSEGIGAIENALLDAKAKTLNVPCYELLGGKLRDRVPVYWSHCPTWRINHPKFFGPPVTDLDGVKRTAEEARERQFRAIKTNIFIHDDGPLHAWRPGFAVPFQPALNVDRKVLRNLRAHLEALRDGAGPDVEILLDLNFNAKPEGYLKILRELADFDLFWVEIDSYSPQGLAYVRNHSPHPISSCETLFGIREFKPFFDANAVDVAIVDTIWNGVWQSKIAAFADAHDINVAPHNFYGHLCTINANFAAAVPNLRIETDIDRLAWEDELFTHAPEYQNGELIIPDRPGWGTDPVEEAILAHPPKVGGLLQ SLKVVSVDTLCCDAGWRNYHFVKLTTDEGIVGWSEFDEGFGSPGVTAVIEQLGKRLVGASVEHERFFAEAYCLTRPATGGVVSEGIGAIENALLDAKAKTLNVPCYELLGGKLRDRVPVYWSHCPTWRINHPKFFGPPVTDLDGVKRTAEEARERQFRAIKTNIFIHDDGPLHAWRPGFAVPFQPALNVDRKVLRNLRAHLEALRDGAGPDVEILLDLNFNAKPEGYLKILRELADFDLFWVEIDSYSPQGLAYVRNHSPHPISSCETLFGIREFKPFFDANAVDVAIVDTIWNGVWQSKIAAFADAHDINVAPHNFYGHLCTINANFAAAVPNLRIETDIDRLAWEDELFTHAPEYQNGELIIPDRPGWGTDPVEEAILAHPPKVGGLLQ 3sn1-a1-m6-cA_3sn1-a1-m8-cA Crystal structure of putative L-alanine-DL-glutamate epimerase from Burkholderia xenovorans strain LB400 bound to magnesium and tartrate Q13PB7 Q13PB7 1.8 X-RAY DIFFRACTION 41 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 391 391 2oo6-a1-m1-cA_2oo6-a1-m3-cA 2oo6-a1-m1-cA_2oo6-a1-m4-cA 2oo6-a1-m2-cA_2oo6-a1-m3-cA 2oo6-a1-m2-cA_2oo6-a1-m4-cA 2oo6-a1-m5-cA_2oo6-a1-m7-cA 2oo6-a1-m5-cA_2oo6-a1-m8-cA 2oo6-a1-m6-cA_2oo6-a1-m7-cA 2oo6-a1-m6-cA_2oo6-a1-m8-cA 3go2-a1-m1-cA_3go2-a1-m3-cA 3go2-a1-m1-cA_3go2-a1-m4-cA 3go2-a1-m2-cA_3go2-a1-m3-cA 3go2-a1-m2-cA_3go2-a1-m4-cA 3go2-a1-m5-cA_3go2-a1-m7-cA 3go2-a1-m5-cA_3go2-a1-m8-cA 3go2-a1-m6-cA_3go2-a1-m7-cA 3go2-a1-m6-cA_3go2-a1-m8-cA 3sn0-a1-m1-cA_3sn0-a1-m3-cA 3sn0-a1-m1-cA_3sn0-a1-m4-cA 3sn0-a1-m2-cA_3sn0-a1-m3-cA 3sn0-a1-m2-cA_3sn0-a1-m4-cA 3sn0-a1-m5-cA_3sn0-a1-m7-cA 3sn0-a1-m5-cA_3sn0-a1-m8-cA 3sn0-a1-m6-cA_3sn0-a1-m7-cA 3sn0-a1-m6-cA_3sn0-a1-m8-cA 3sn1-a1-m1-cA_3sn1-a1-m3-cA 3sn1-a1-m1-cA_3sn1-a1-m4-cA 3sn1-a1-m2-cA_3sn1-a1-m3-cA 3sn1-a1-m2-cA_3sn1-a1-m4-cA 3sn1-a1-m5-cA_3sn1-a1-m7-cA 3sn1-a1-m5-cA_3sn1-a1-m8-cA 3sn1-a1-m6-cA_3sn1-a1-m7-cA 3sn4-a1-m1-cA_3sn4-a1-m3-cA 3sn4-a1-m1-cA_3sn4-a1-m4-cA 3sn4-a1-m2-cA_3sn4-a1-m3-cA 3sn4-a1-m2-cA_3sn4-a1-m4-cA 3sn4-a1-m5-cA_3sn4-a1-m7-cA 3sn4-a1-m5-cA_3sn4-a1-m8-cA 3sn4-a1-m6-cA_3sn4-a1-m7-cA 3sn4-a1-m6-cA_3sn4-a1-m8-cA SLKVVSVDTLCCDAGWRNYHFVKLTTDEGIVGWSEFDEGFGSPGVTAVIEQLGKRLVGASVEHERFFAEAYCLTRPATGGVVSEGIGAIENALLDAKAKTLNVPCYELLGGKLRDRVPVYWSHCPTWRINHPKFFGPPVTDLDGVKRTAEEARERQFRAIKTNIFIHDDGPLHAWRPGFAVPFQPALNVDRKVLRNLRAHLEALRDGAGPDVEILLDLNFNAKPEGYLKILRELADFDLFWVEIDSYSPQGLAYVRNHSPHPISSCETLFGIREFKPFFDANAVDVAIVDTIWNGVWQSKIAAFADAHDINVAPHNFYGHLCTINANFAAAVPNLRIETDIDRLAWEDELFTHAPEYQNGELIIPDRPGWGTDPVEEAILAHPPKVGGLLQ SLKVVSVDTLCCDAGWRNYHFVKLTTDEGIVGWSEFDEGFGSPGVTAVIEQLGKRLVGASVEHERFFAEAYCLTRPATGGVVSEGIGAIENALLDAKAKTLNVPCYELLGGKLRDRVPVYWSHCPTWRINHPKFFGPPVTDLDGVKRTAEEARERQFRAIKTNIFIHDDGPLHAWRPGFAVPFQPALNVDRKVLRNLRAHLEALRDGAGPDVEILLDLNFNAKPEGYLKILRELADFDLFWVEIDSYSPQGLAYVRNHSPHPISSCETLFGIREFKPFFDANAVDVAIVDTIWNGVWQSKIAAFADAHDINVAPHNFYGHLCTINANFAAAVPNLRIETDIDRLAWEDELFTHAPEYQNGELIIPDRPGWGTDPVEEAILAHPPKVGGLLQ 3snh-a1-m1-cA_3snh-a1-m2-cA Crystal structure of nucleotide-free human dynamin1 Q05193 Q05193 3.7 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 652 652 MEDLIPLVNRLQDAFSAIGQNADLDLPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGTRRPLVLQLVNATTEYAEFLHCKGKKFTDFEEVRLEIEAETDRVTKGISPVPINLRVYSPHVLNLTLVDLPGMTKPDIEFQIRDMLMQFVTKENCLILAVSPANSDLANSDALKVAKEVDPQGQRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYIGVVNRSQKDIDGKKDITAALAAERKFFLSHPSYRHLADRMGTPYLQKVLNQQLTNHIRDTLPGLRNKLQSQLLSIEKEVEEYKNFRPDDPARKTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFANAILVIRKGWLTINNIGISKEYWFVLTAENLSWYKDDEEKEKEYMLSVDNLKLRDVEKSKHIFALFNTEQRNVYKDYRQLELACETQEEVDSWKASFLRAGVYPERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYSCEESAEQAQRRDEMLRMYHALKEALSIIGDIN MEDLIPLVNRLQDAFSAIGQNADLDLPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGTRRPLVLQLVNATTEYAEFLHCKGKKFTDFEEVRLEIEAETDRVTKGISPVPINLRVYSPHVLNLTLVDLPGMTKPDIEFQIRDMLMQFVTKENCLILAVSPANSDLANSDALKVAKEVDPQGQRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYIGVVNRSQKDIDGKKDITAALAAERKFFLSHPSYRHLADRMGTPYLQKVLNQQLTNHIRDTLPGLRNKLQSQLLSIEKEVEEYKNFRPDDPARKTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFANAILVIRKGWLTINNIGISKEYWFVLTAENLSWYKDDEEKEKEYMLSVDNLKLRDVEKSKHIFALFNTEQRNVYKDYRQLELACETQEEVDSWKASFLRAGVYPERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYSCEESAEQAQRRDEMLRMYHALKEALSIIGDIN 3sno-a1-m1-cA_3sno-a1-m2-cA Crystal structure of a putative aminotransferase (NCgl2491) from Corynebacterium glutamicum ATCC 13032 at 1.60 A resolution Q8NMJ3 Q8NMJ3 1.6 X-RAY DIFFRACTION 46 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 242 242 APTPVILIVEPYGGSIRQQNPNLPVFWDDAALTRGDGIFETLLIRDGHACNVRRHGERFKASAALLGLPEPILEDWEKATQGIESWYSHPAGEASCTWTLSRGRSSTGLASGWLTITPVSSDKLAQREHGVSVTSSRFDDVIFTDGDRVLEGATSTVVSFKGDKIRTPSPGTTQAALFAHATEKGWRCKEKDLSIDDLFGADSVWLVSSVRGPVRVTRLDGHKLRKPDNEKEIKALITKALG APTPVILIVEPYGGSIRQQNPNLPVFWDDAALTRGDGIFETLLIRDGHACNVRRHGERFKASAALLGLPEPILEDWEKATQGIESWYSHPAGEASCTWTLSRGRSSTGLASGWLTITPVSSDKLAQREHGVSVTSSRFDDVIFTDGDRVLEGATSTVVSFKGDKIRTPSPGTTQAALFAHATEKGWRCKEKDLSIDDLFGADSVWLVSSVRGPVRVTRLDGHKLRKPDNEKEIKALITKALG 3so1-a2-m1-cB_3so1-a2-m1-cG Crystal structure of a double mutant T41S T82S of a betagamma-crystallin domain from Clostridium beijerinckii A6LX94 A6LX94 1.85 X-RAY DIFFRACTION 27 1.0 290402 (Clostridium beijerinckii NCIMB 8052) 290402 (Clostridium beijerinckii NCIMB 8052) 87 88 3sny-a1-m1-cA_3sny-a1-m2-cA 3snz-a1-m1-cA_3snz-a1-m2-cA 3so0-a1-m1-cC_3so0-a1-m1-cA 3so0-a2-m1-cD_3so0-a2-m1-cB 3so0-a3-m1-cH_3so0-a3-m1-cE 3so0-a4-m1-cF_3so0-a4-m1-cG 3so1-a1-m1-cA_3so1-a1-m1-cH 3so1-a3-m1-cC_3so1-a3-m1-cE 3so1-a4-m1-cD_3so1-a4-m1-cF KAVTFYEDINYGGASVSLQPGNYTLSQLNTAKIPNDWMSSLKVPSGWTVDVYENDNFTGTKWTYTSDTPWVGNDANDKMSSVKIYST TKAVTFYEDINYGGASVSLQPGNYTLSQLNTAKIPNDWMSSLKVPSGWTVDVYENDNFTGTKWTYTSDTPWVGNDANDKMSSVKIYST 3so2-a1-m2-cA_3so2-a1-m3-cA Chlorella dUTPase E1ZRW6 E1ZRW6 1.6428 X-RAY DIFFRACTION 147 1.0 554065 (Chlorella variabilis) 554065 (Chlorella variabilis) 137 137 3so2-a1-m1-cA_3so2-a1-m2-cA 3so2-a1-m1-cA_3so2-a1-m3-cA LRVHLLNEHAVLPKRGSAGAAGFDLASCEDTEVPARGRAVVKTGLQIAIPPGTYARVAPRSGLAVKHFIDTGAGVVDEDYRGEVGVVLFNHGETPFQVRRGDRVAQLILERIATPEVVEVESLDETTRGTGGYGSTG LRVHLLNEHAVLPKRGSAGAAGFDLASCEDTEVPARGRAVVKTGLQIAIPPGTYARVAPRSGLAVKHFIDTGAGVVDEDYRGEVGVVLFNHGETPFQVRRGDRVAQLILERIATPEVVEVESLDETTRGTGGYGSTG 3so4-a1-m1-cA_3so4-a1-m1-cD Methionine-adenosyltransferase from Entamoeba histolytica C4M272 C4M272 3.18 X-RAY DIFFRACTION 20 0.997 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 379 379 3so4-a1-m1-cB_3so4-a1-m1-cC RFFFTSESVSGGHPDKMCDQISDAILDACLAQDPKSHVACETATKTGLILVLGEITTNAVIDIPKIVRGVVKSIGYDDTNKGFDYQTCSVLSCVEQQSQDEDIGAGDQGIMFGYATDESKEMMPLTHVLSTKLILRLQECREKGILPWLRPDSKSQVTLEYEEVEGHLKPIRVHTIVISTQHADNVSNEEIAKGLEEEVTQKVIPKELMDDKMLRYYNPSGRFVIGGPMGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDSSKVDRSGAYCARWIAKSLVHAGLCHRVLVQLSYAIGVSHPLSINVNTYGTGICDESILVDIVNKNFDMRPGMIIKELGLTRPIFQKTAVGGHFGRNDPDFKWEFPKELEIPAELKPKLL RFFFTSESVSGGHPDKMCDQISDAILDACLAQDPKSHVACETATKTGLILVLGEITTNAVIDIPKIVRGVVKSIGYDDTNKGFDYQTCSVLSCVEQQSQEEDIGAGDQGIMFGYATDESKEMMPLTHVLSTKLILRLQECREKGILPWLRPDSKSQVTLEYEEVEGHLKPIRVHTIVISTQHADNVSNEEIAKGLEEEVTQKVIPKELMDDKMLRYYNPSGRFVIGGPMGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDSSKVDRSGAYCARWIAKSLVHAGLCHRVLVQLSYAIGVSHPLSINVNTYGTGICDESILVDIVNKNFDMRPGMIIKELGLTRPIFQKTAVGGHFGRNDPDFKWEFPKELEIPAELKPKLL 3so4-a1-m1-cB_3so4-a1-m1-cD Methionine-adenosyltransferase from Entamoeba histolytica C4M272 C4M272 3.18 X-RAY DIFFRACTION 43 0.997 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 379 379 3so4-a1-m1-cA_3so4-a1-m1-cC RFFFTSESVSGGHPDKMCDQISDAILDACLAQDPKSHVACETATKTGLILVLGEITTNAVIDIPKIVRGVVKSIGYDDTNKGFDYQTCSVLSCVEQQSQDEDIGAGDQGIMFGYATDESKEMMPLTHVLSTKLILRLQECREKGILPWLRPDSKSQVTLEYEEVEGHLKPIRVHTIVISTQHADNVSNEEIAKGLEEEVTQKVIPKELMDDKMLRYYNPSGRFVIGGPMGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDSSKVDRSGAYCARWIAKSLVHAGLCHRVLVQLSYAIGVSHPLSINVNTYGTGICDESILVDIVNKNFDMRPGMIIKELGLTRPIFQKTAVGGHFGRNDPDFKWEFPKELEIPAELKPKLL RFFFTSESVSGGHPDKMCDQISDAILDACLAQDPKSHVACETATKTGLILVLGEITTNAVIDIPKIVRGVVKSIGYDDTNKGFDYQTCSVLSCVEQQSQEEDIGAGDQGIMFGYATDESKEMMPLTHVLSTKLILRLQECREKGILPWLRPDSKSQVTLEYEEVEGHLKPIRVHTIVISTQHADNVSNEEIAKGLEEEVTQKVIPKELMDDKMLRYYNPSGRFVIGGPMGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDSSKVDRSGAYCARWIAKSLVHAGLCHRVLVQLSYAIGVSHPLSINVNTYGTGICDESILVDIVNKNFDMRPGMIIKELGLTRPIFQKTAVGGHFGRNDPDFKWEFPKELEIPAELKPKLL 3so4-a1-m1-cC_3so4-a1-m1-cD Methionine-adenosyltransferase from Entamoeba histolytica C4M272 C4M272 3.18 X-RAY DIFFRACTION 210 0.995 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 379 379 3so4-a1-m1-cA_3so4-a1-m1-cB RFFFTSESVSGGHPDKMCDQISDAILDACLAQDPKSHVACETATKTGLILVLGEITTNAVIDIPKIVRGVVKSIGYDDTNKGFDYQTCSVLSCVEQQSQDIDIGAGDQGIMFGYATDESKEMMPLTHVLSTKLILRLQECREKGILPWLRPDSKSQVTLEYEEVEGHLKPIRVHTIVISTQHADNVSNEEIAKGLEEEVTQKVIPKELMDDKMLRYYNPSGRFVIGGPMGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDSSKVDRSGAYCARWIAKSLVHAGLCHRVLVQLSYAIGVSHPLSINVNTYGTGICDESILVDIVNKNFDMRPGMIIKELGLTRPIFQKTAVGGHFGRNDPDFKWEFPKELEIPAELKPKLL RFFFTSESVSGGHPDKMCDQISDAILDACLAQDPKSHVACETATKTGLILVLGEITTNAVIDIPKIVRGVVKSIGYDDTNKGFDYQTCSVLSCVEQQSQEEDIGAGDQGIMFGYATDESKEMMPLTHVLSTKLILRLQECREKGILPWLRPDSKSQVTLEYEEVEGHLKPIRVHTIVISTQHADNVSNEEIAKGLEEEVTQKVIPKELMDDKMLRYYNPSGRFVIGGPMGDAGLTGRKIIVDTYGGWGAHGGGAFSGKDSSKVDRSGAYCARWIAKSLVHAGLCHRVLVQLSYAIGVSHPLSINVNTYGTGICDESILVDIVNKNFDMRPGMIIKELGLTRPIFQKTAVGGHFGRNDPDFKWEFPKELEIPAELKPKLL 3so5-a1-m1-cA_3so5-a1-m1-cB Crystal structure of an Immunoglobulin I-set domain of Lrig3 protein (Lrig3) from MUS MUSCULUS at 1.70 A resolution Q6P1C6 Q6P1C6 1.7 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 95 101 FPPQITVQPETQSAIGSDVSFTCSAASSSDSPTFAWDNEALQDAEENYAHLRAQGGELEYTTILRLRNVEFTSEGYQCVISNHFGSSYSVALTIN GFVCDDFPPQITVQPETQSAIGSDVSFTCSAASSSDSPTFAWDNEALQDAEENYAHLRAQGGELEYTTILRLRNVEFTSEGYQCVISNHFGSSYSVALTIN 3so5-a2-m1-cA_3so5-a2-m2-cB Crystal structure of an Immunoglobulin I-set domain of Lrig3 protein (Lrig3) from MUS MUSCULUS at 1.70 A resolution Q6P1C6 Q6P1C6 1.7 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 95 101 FPPQITVQPETQSAIGSDVSFTCSAASSSDSPTFAWDNEALQDAEENYAHLRAQGGELEYTTILRLRNVEFTSEGYQCVISNHFGSSYSVALTIN GFVCDDFPPQITVQPETQSAIGSDVSFTCSAASSSDSPTFAWDNEALQDAEENYAHLRAQGGELEYTTILRLRNVEFTSEGYQCVISNHFGSSYSVALTIN 3son-a1-m1-cB_3son-a1-m1-cA Crystal structure of a putativel NUDIX hydrolase (LMOf2365_2679) from Listeria monocytogenes str. 4b F2365 at 1.70 A resolution 1.71 X-RAY DIFFRACTION 64 1.0 176281 (Listeria monocytogenes ATCC 19115) 176281 (Listeria monocytogenes ATCC 19115) 143 144 QPFQVLVIPFIKTEANYQFGVLHRTDADVWQFVAGGGEDEEAISETAKRESIEELNLDVDVKYSLDSHASIPNFHFSFNKPYVVPEYCFAIDLTSCSYQVTLSLEHSELRWVSYESAIQLLEWDSNKTALYELNERLKNNDKA RQPFQVLVIPFIKTEANYQFGVLHRTDADVWQFVAGGGEDEEAISETAKRESIEELNLDVDVKYSLDSHASIPNFHFSFNKPYVVPEYCFAIDLTSCSYQVTLSLEHSELRWVSYESAIQLLEWDSNKTALYELNERLKNNDKA 3soo-a2-m1-cC_3soo-a2-m1-cB Crystal structure of a LINE-1 type transposase domain-containing protein 1 (L1TD1) from HOMO SAPIENS at 2.73 A resolution Q5T7N2 Q5T7N2 2.73 X-RAY DIFFRACTION 142 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 75 3soo-a1-m1-cA_3soo-a1-m2-cA VLDEGAVLTLAADLSSATLDISQWSNVFNILRENDFEPFLCEVLAFCDGEITFSDLQSLRFASQSSELLDVLPQ GVLDEGAVLTLAADLSSATLDISQWSNVFNILRENDFEPFLCEVLAFCDGEITFSDLQSLRFASQSSELLDVLPQ 3sop-a1-m1-cA_3sop-a1-m1-cB Crystal Structure Of Human Septin 3 GTPase Domain Q9UH03 Q9UH03 2.885 X-RAY DIFFRACTION 65 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 248 252 FDFNIMVVGQSGLGKSTLVNTLFKSQVIPKTVEIKAIGHVIEKMKLTVIDTPGDQINNENCWEPIEKYINEQYEKFLKEEVNIARKKRIPDTRVHCCLYFISPTGHSLRPLDLEFMKHLSKVVNIIPVIAKADTMTLEEKSEFKQRVRKELEVNGIEFYPQKEFLEDKTENDKIRQESMPFAVVGSDKEYQVNGKRVLGRKTPWIIEVENLNHCEFALLRDFVIRTHLQDLKEVTHNIHYETYRAKRL FDFNIMVVGQSGLGKSTLVNTLFKSQVKIPKTVEIKAIGHVIEGGVKMKLTVIDTPGFDQINNENCWEPIEKYINEQYEKFLKEEVNIARKKRIPDTRVHCCLYFISPTGHSLRPLDLEFMKHLSKVVNIIPVIAKADTMTLEEKSEFKQRVRKELEVNGIEFYPQKEFDEDLEDKTENDKIRQESMPFAVVGSDKEYRVLGRKTPWGIIEVENLNHCEFALLRDFVIRTHLQDLKEVTHNIHYETYRAKRL 3sot-a2-m1-cF_3sot-a2-m1-cE Crystal structure of a Multidomain protein including DUF1735 (BACOVA_03322) from Bacteroides ovatus at 2.80 A resolution A7LZP6 A7LZP6 2.8 X-RAY DIFFRACTION 44 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 245 286 3sot-a1-m1-cB_3sot-a1-m1-cA 3sot-a1-m1-cB_3sot-a1-m1-cC 3sot-a1-m1-cC_3sot-a1-m1-cA 3sot-a2-m1-cE_3sot-a2-m1-cD 3sot-a2-m1-cF_3sot-a2-m1-cD SGSDGVTTIYVRYKDNGKVTYQLPIIAVDKDTLKTLNIERFSLYRPELWYTEEEDKYEFPLNIDFNLQDIDLEKWVLPLTIVKALLKVVPFNNYSGSYTASSKVYTYINGKPDTNARTTDKRTGYVVDNNSIFFYAGLINEDDKDRKKYKINVHFKEDGTLDKQDDPSNEEFELIGTPTYSSTSVDATRPYLERRYVQIFEYDFQDFTYGGSGTEVIPIKYRVAGSTLLRNINTQIPDEDQQIEW QYVSFKAPIASGSDGVTTIYVRYKDNGKVTYQLPIIVSGSTVNSRDIHIAVDKDTLKTLNIERFSLYRPELWYTEEEDKYEFPETVHIPAGSCVELLNIDFNLQDIDLEKWVLPLTIVDDGSAKALLKVVPFNNYSGSYTASSKVYTYINGKPDTNARTTDKRTGYVVDNNSIFFYAGLINEDDKDRKKYKINVHFKEDGTLDKQDDPSNEEFELIGTPTYSSTSVDATRPYLERRYVQIFEYDFQDFTYGGSGTEVIPIKYRVAGSTLLRNINTQIPDEDQQIEW 3sox-a4-m1-cB_3sox-a4-m3-cB Structure of UHRF1 PHD finger in the free form Q96T88 Q96T88 2.6501 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 3sox-a3-m1-cA_3sox-a3-m2-cA GPSCKHCKDDVNRLCRVCACHLCGGRQDPDKQLMCDECDMAFHIYCLDPPLSSVPSEDEWYCPEC GPSCKHCKDDVNRLCRVCACHLCGGRQDPDKQLMCDECDMAFHIYCLDPPLSSVPSEDEWYCPEC 3soy-a1-m1-cA_3soy-a1-m2-cA Nuclear transport factor 2 (NTF2-like) superfamily protein from Salmonella enterica subsp. enterica serovar Typhimurium str. LT2 Q8ZPH9 Q8ZPH9 2 X-RAY DIFFRACTION 126 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 141 141 ATSTVKQEITEGINRYLYSIDKADPTLGKQLFYVSPETSFIHPRGHERGWSQIAENFYGTTGKTFSKRTLKLDAPPAIHVYGNAAVAEFDWHFTAVRRDNGQTQHTTGRESQVWAKIPNTGWRIVHVHYSGPAKTGVGEGY ATSTVKQEITEGINRYLYSIDKADPTLGKQLFYVSPETSFIHPRGHERGWSQIAENFYGTTGKTFSKRTLKLDAPPAIHVYGNAAVAEFDWHFTAVRRDNGQTQHTTGRESQVWAKIPNTGWRIVHVHYSGPAKTGVGEGY 3soz-a1-m1-cB_3soz-a1-m1-cC Cytoplasmic Protein STM1381 from Salmonella typhimurium LT2 Q9Z4S4 Q9Z4S4 2.6 X-RAY DIFFRACTION 57 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 238 238 3soz-a1-m1-cA_3soz-a1-m1-cB 3soz-a1-m1-cA_3soz-a1-m1-cC KILFIGESWHIHIHSKGFDSFTSSKYEEGADYLLSCLRQGNIDVDYPAHIVQTRFPQTAEALACYDAIVISDIGSNTFLLQNRTFYNDIIPDALQLIADYVAEGGGLLIGGYLSFTGIEAKANYKNTVLAEVLPVDLDVDDRVELPQGCKAVNTAVEHVITQPFSEWPPLLGYNKLIAKENSQVLAEINGDPLLVGTYHKGKVCCFASDCSPHWGSPQFLQWEHYATFWCNVLHTIKK KILFIGESWHIHIHSKGFDSFTSSKYEEGADYLLSCLRQGNIDVDYPAHIVQTRFPQTAEALACYDAIVISDIGSNTFLLQNRTFYNDIIPDALQLIADYVAEGGGLLIGGYLSFTGIEAKANYKNTVLAEVLPVDLDVDDRVELPQGCKAVNTAVEHVITQPFSEWPPLLGYNKLIAKENSQVLAEINGDPLLVGTYHKGKVCCFASDCSPHWGSPQFLQWEHYATFWCNVLHTIKK 3sp8-a1-m1-cA_3sp8-a1-m1-cB Crystal structure of NK2 in complex with fractionated Heparin DP10 P14210 P14210 1.86 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 255 256 RRNTIHEFKKSAKTTLIKIDPALKIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIRNCIIGKGRSYKGTVSITKSDIKCQPWSSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVECMTSNGESYRGLMDHTESGKICQRWDHQTPHRHKFLPERYPDKGFDDNYCRNPDGQPRPWCYTLDPHTRWEYCKIKTCK KRRNTIHEFKKSAKTTLIKIDPALKIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIRNCIIGKGRSYKGTVSITKSDIKCQPWSSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVECMTSNGESYRGLMDHTESGKICQRWDHQTPHRHKFLPERYPDKGFDDNYCRNPDGQPRPWCYTLDPHTRWEYCKIKTCK 3spe-a3-m1-cA_3spe-a3-m1-cB Crystal structure of the tail sheath protein protease resistant fragment from bacteriophage phiKZ Q8SDD3 Q8SDD3 2.3996 X-RAY DIFFRACTION 82 0.992 169683 (Phikzvirus phiKZ) 169683 (Phikzvirus phiKZ) 247 249 ANPSRLIVAIEIVEDEIPLTKVDGLKARIILIEDNTSEVGTQRVLPGTLVSDKDGSQSLVYPLFEAPVSFFGKLGDSNGRVWSTTTADIEEFDEAAAKFKTRQFRIQLIEKPESPVIVKTADQQDYLNITFDKGVYSDYNADLYVGDVLVDSYSDDGVVSGLSPLYSPFSQFYVYHENIDLVRQIYDTERVNPAAAAHTTAPGEIDFLTFLAVDGDPYQGIQVLGPLDGGITLGKDGNIYASGGTDG NPSRLIVAIEIVEDEIPLTIDKVDGLKARIILIEDNTSEVGTQRVLPGTLVSDKDGSQSLVYPLFEAPVSFFGKLGDSNGRVWSTTTADIEEFDEAAAKFKTRQFRIQLIEKPGTSPVIVKTADQQDYLNITFDKGVYSDYNADLYVGDVLVDSYSDDGVVSGLSPLYSPFSQFYVYHENIDLVRQIYDTERVNPAAAAHTTAPGEIDFLTFLAVDGDPYQGIQVLGPLDGGITLGKDGNIYASGGTDG 3sps-a1-m1-cC_3sps-a1-m1-cF Crystal Structure of Apo-Hexameric Acyl-CoA Thioesterase Q9KEQ1 Q9KEQ1 2.9 X-RAY DIFFRACTION 17 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 155 155 1vpm-a1-m1-cB_1vpm-a1-m1-cA 1vpm-a1-m2-cB_1vpm-a1-m2-cA 3sps-a1-m1-cA_3sps-a1-m1-cE 3sps-a1-m1-cC_3sps-a1-m1-cB 3sps-a1-m1-cD_3sps-a1-m1-cA 3sps-a1-m1-cD_3sps-a1-m1-cE 3sps-a1-m1-cF_3sps-a1-m1-cB IQSYPVERSRTIQTRLVLPPDTNHLGTIFGGKVLAYIDEIAALTAMKHANSAVVTASIDSVDFKSSATVGDALELEGFVTHTGRTSMEVYVRVHSNNLLTGERTLTTESFLTMVAVDESGKPKPVPQVEPQTEEEKRLYETAPARKENRKKRAAL IQSYPVERSRTIQTRLVLPPDTNHLGTIFGGKVLAYIDEIAALTAMKHANSAVVTASIDSVDFKSSATVGDALELEGFVTHTGRTSMEVYVRVHSNNLLTGERTLTTESFLTMVAVDESGKPKPVPQVEPQTEEEKRLYETAPARKENRKKRAAL 3sps-a1-m1-cD_3sps-a1-m1-cF Crystal Structure of Apo-Hexameric Acyl-CoA Thioesterase Q9KEQ1 Q9KEQ1 2.9 X-RAY DIFFRACTION 71 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 155 155 1vpm-a1-m1-cA_1vpm-a1-m2-cA 1vpm-a1-m1-cB_1vpm-a1-m1-cC 1vpm-a1-m2-cB_1vpm-a1-m2-cC 3sps-a1-m1-cA_3sps-a1-m1-cB 3sps-a1-m1-cC_3sps-a1-m1-cE IQSYPVERSRTIQTRLVLPPDTNHLGTIFGGKVLAYIDEIAALTAMKHANSAVVTASIDSVDFKSSATVGDALELEGFVTHTGRTSMEVYVRVHSNNLLTGERTLTTESFLTMVAVDESGKPKPVPQVEPQTEEEKRLYETAPARKENRKKRAAL IQSYPVERSRTIQTRLVLPPDTNHLGTIFGGKVLAYIDEIAALTAMKHANSAVVTASIDSVDFKSSATVGDALELEGFVTHTGRTSMEVYVRVHSNNLLTGERTLTTESFLTMVAVDESGKPKPVPQVEPQTEEEKRLYETAPARKENRKKRAAL 3sps-a1-m1-cF_3sps-a1-m1-cE Crystal Structure of Apo-Hexameric Acyl-CoA Thioesterase Q9KEQ1 Q9KEQ1 2.9 X-RAY DIFFRACTION 49 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 155 156 1vpm-a1-m1-cB_1vpm-a1-m2-cB 1vpm-a1-m1-cC_1vpm-a1-m1-cA 1vpm-a1-m2-cC_1vpm-a1-m2-cA 3sps-a1-m1-cC_3sps-a1-m1-cA 3sps-a1-m1-cD_3sps-a1-m1-cB IQSYPVERSRTIQTRLVLPPDTNHLGTIFGGKVLAYIDEIAALTAMKHANSAVVTASIDSVDFKSSATVGDALELEGFVTHTGRTSMEVYVRVHSNNLLTGERTLTTESFLTMVAVDESGKPKPVPQVEPQTEEEKRLYETAPARKENRKKRAAL IQSYPVERSRTIQTRLVLPPDTNHLGTIFGGKVLAYIDEIAALTAMKHANSAVVTASIDSVDFKSSATVGDALELEGFVTHTGRTSMEVYVRVHSNNLLTGERTLTTESFLTMVAVDESGKPKPVPQVEPQTEEEKRLYETAPARKENRKKRAALR 3sq3-a5-m1-cB_3sq3-a5-m1-cA Crystal Structure Analysis of the Yeast Tyrosyl-DNA Phosphodiesterase H182A Mutant P38319 P38319 2.5 X-RAY DIFFRACTION 38 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 423 424 3sq5-a5-m1-cA_3sq5-a5-m1-cB 3sq5-a6-m2-cD_3sq5-a6-m1-cC 3sq7-a5-m1-cD_3sq7-a5-m1-cA 3sq7-a6-m1-cB_3sq7-a6-m2-cC 3sq8-a5-m1-cA_3sq8-a5-m2-cC 3sq8-a6-m1-cB_3sq8-a6-m1-cD GAVFKLMKSDFYEREDMITLKDIFGTETLKRSILFSFQYELDFLLRQFHQNVENITIVGQKGTIMPIEARAMDATLAVILKKVKLIEITMPPFASHATKLIINFYDNGECKIFLPSNNFTSMETNLPQQVCWCSPLLKIGKEGLPVPFKRSLIEYLNSYHLKDIDELITKSVEEVNFAPLSELEFVYSTPSKFQSSGLLSFYNKLEKLSDTAKHYLCQTSSIGTSLSRARDENLWTHLMIPLFTGIMSPPILPTNSLINEYSQRKIKPYIIFPTEQEFVTSPLKWSSSGWFHFQYLQKKSYYEMLRNKFKVFYKQDPAMVTRRRGTTPAHSKFYMHCATNSQVFKELEWCLYTSANLSQTAWGTVSRKPRNYEAGVLYHSRRLANTRKVTCRTFTRDPTHVAVPFTLPVIPYDLAEDECFCLA GAVFKLMKSDFYEREDMITLKDIFGTETLKRSILFSFQYELDFLLRQFHQNVENITIVGQKGTIMPIEARAMDATLAVILKKVKLIEITMPPFASHATKLIINFYDNGECKIFLPSNNFTSMETNLPQQVCWCSPLLKIGKEGLPVPFKRSLIEYLNSYHLKDIDELITKSVEEVNFAPLSELEFVYSTPSKFQSSGLLSFYNKLEKLSDTAKHYLCQTSSIGTSLSRARDENLWTHLMIPLFTGIMSPPILPTNSLINEYSQRKIKPYIIFPTEQEFVTSPLKWSSSGWFHFQYLQKKSYYEMLRNKFKVFYKQDPAMVTRRRGTTPAHSKFYMHCATNSQVFKELEWCLYTSANLSQTAWGTVSRKPRNYEAGVLYHSRRLANTRKVTCRTFTRDPTHVAVPFTLPVIPYDLAEDECFCLAL 3sqg-a2-m1-cG_3sqg-a2-m2-cG Crystal structure of a methyl-coenzyme M reductase purified from Black Sea mats D1JBK4 D1JBK4 2.1 X-RAY DIFFRACTION 428 1.0 115547 (uncultured archaeon) 115547 (uncultured archaeon) 574 574 3sqg-a1-m1-cA_3sqg-a1-m1-cD PYNDIQHNFLKAMSDKFAEKPESTATEFYTYGGIAQKGGMRKREFIAEASKIVDSRVNSTPAYNPDAGMPQGQRYLMPYMMNHTDIMVNADDLHWINNAAMQQAWDDMKRGIVLGLDDAHGLLEARLGKEVTPDTISNYMEVLNHALPGGAVIQEHMVETKPMLVNDSYAKIFSGDDDLVDSVDRRFILDINKEFAAGYDKPGEQADQLKDAIGKKIWQILWMPTVVARQTDGGTMFRWVGMQVGMTMINAYKLCAGESVTGEFAYYAKAAVVQLSNYMPVKRARSHNEPGGMPLGINADSTRSPALFPNDPIRAELESIAVAAMVYDQLFGTYMSGGVGFTQYASATYTDNILEDFCYKGCEIGLDYAGGKMASIKGDKLNMDILEEIIRAENDYALTQYEAYPTVAESHFGGSVRACCAAAGCGSAVACATGLAQPALSAWSLSMLGHYERVGRLGFFYDLQDQCTACGSYSYQSDEGMPFEMRGVNYPNYANVGHQSAYAGLVAGAHSANHDAWVLSPLWKVAFSDRDLPFDRGYVTREYGLGANREYTKVAGERDLIIAGHYGREPGAKL PYNDIQHNFLKAMSDKFAEKPESTATEFYTYGGIAQKGGMRKREFIAEASKIVDSRVNSTPAYNPDAGMPQGQRYLMPYMMNHTDIMVNADDLHWINNAAMQQAWDDMKRGIVLGLDDAHGLLEARLGKEVTPDTISNYMEVLNHALPGGAVIQEHMVETKPMLVNDSYAKIFSGDDDLVDSVDRRFILDINKEFAAGYDKPGEQADQLKDAIGKKIWQILWMPTVVARQTDGGTMFRWVGMQVGMTMINAYKLCAGESVTGEFAYYAKAAVVQLSNYMPVKRARSHNEPGGMPLGINADSTRSPALFPNDPIRAELESIAVAAMVYDQLFGTYMSGGVGFTQYASATYTDNILEDFCYKGCEIGLDYAGGKMASIKGDKLNMDILEEIIRAENDYALTQYEAYPTVAESHFGGSVRACCAAAGCGSAVACATGLAQPALSAWSLSMLGHYERVGRLGFFYDLQDQCTACGSYSYQSDEGMPFEMRGVNYPNYANVGHQSAYAGLVAGAHSANHDAWVLSPLWKVAFSDRDLPFDRGYVTREYGLGANREYTKVAGERDLIIAGHYGREPGAKL 3sqg-a2-m1-cH_3sqg-a2-m2-cH Crystal structure of a methyl-coenzyme M reductase purified from Black Sea mats D1JBK2 D1JBK2 2.1 X-RAY DIFFRACTION 157 1.0 115547 (uncultured archaeon) 115547 (uncultured archaeon) 431 431 3sqg-a1-m1-cB_3sqg-a1-m1-cE DEIDLYDDKGKKLAAGVPLQNISPLKNAAIKKIVNLTIRTGAVDLAGLEKKFATGAIAGRGMVIRGVNRNLPIVDKAKEIAKAVEDMLRVESGDDTNVELIAGGKRMMVQPPTARILSDYSVGLTASMGALTHAIIDVCNVSMWDAPYVHAGVWGMYPQNPDPGDGAVKMLVDIPMKNEGPGFTLRNIPVNHLAATVRKRAMQGAGLTMILEEAAQFEMGNCMGPHERGHLLDLAYEGLNANNLLYSLIKDNGQDGSLGDVIYAAVEKAKADGVIKSLKKMPSGFTVYDADDMQLWNAYACTAMLAGVCVNCASMRAGQPVPGNIMQACCLIERETGLPGPDFGMAQGASVSSSFFSHSIYGGGGPGVFYGNHIVTRHAKGQFIPCFCAAMCIDADTMYFSPARTSALYGEVLGAIPEFAEPMRAVAEAAK DEIDLYDDKGKKLAAGVPLQNISPLKNAAIKKIVNLTIRTGAVDLAGLEKKFATGAIAGRGMVIRGVNRNLPIVDKAKEIAKAVEDMLRVESGDDTNVELIAGGKRMMVQPPTARILSDYSVGLTASMGALTHAIIDVCNVSMWDAPYVHAGVWGMYPQNPDPGDGAVKMLVDIPMKNEGPGFTLRNIPVNHLAATVRKRAMQGAGLTMILEEAAQFEMGNCMGPHERGHLLDLAYEGLNANNLLYSLIKDNGQDGSLGDVIYAAVEKAKADGVIKSLKKMPSGFTVYDADDMQLWNAYACTAMLAGVCVNCASMRAGQPVPGNIMQACCLIERETGLPGPDFGMAQGASVSSSFFSHSIYGGGGPGVFYGNHIVTRHAKGQFIPCFCAAMCIDADTMYFSPARTSALYGEVLGAIPEFAEPMRAVAEAAK 3sql-a1-m1-cB_3sql-a1-m1-cA Crystal Structure of Glycoside Hydrolase from Synechococcus B1XLD2 B1XLD2 2.25 X-RAY DIFFRACTION 154 0.998 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 511 516 3sqm-a1-m1-cA_3sqm-a1-m1-cB 3sqm-a2-m1-cC_3sqm-a2-m1-cD APLPPVESLSLRQAIAQIVVRGAGYLFDYERPYPQWEADQTTLQRWIEAGIGGVILLGGSAAEVAQKTKQLQSWAEIPLLIAADIEEGVGQRFRGATEFPPPAFGEIWRTDPHQAIALAETGATTAQEALSLGINWVLAPVLDVNNNPHNPVINIRAFGETPDQVSALGTAFIRGAQQYAVLTTAKHFPGHGDTATDSHLALPTISHDDTRLNTVELPPFKAAIQGGVDAVNAHLIPAWDQQYPATLSPAILTGQLRHKLGFKGLIVTDALVGGITQFAAPDTVVVQAIAAGADILLPPDVDGAIIAIETAIKTGQLSESRIYESVERIWQAKQKILTPSTFPQGISGDRPETRKTVAVLERATKHQKSLVKISSFPDNFARNLIVVDSVLKSPFLRPNCPAIAIPQRHGYAAEIVELKTLPRLQLEAIPTLIQCFLRGNPFTEKLADPIDVLQKIAAQIPLQGVIFYGSPYFLEALQTTLPEIPWWFSYGQAIAQAEICTSLWEEAAEFI PLPPVESLSLRQAIAQIVVRGAGYLFDYERPYPQWEADQTTLQRWIEAGIGGVILLGGSAAEVAQKTKQLQSWAEIPLLIAADIEEGVGQRFRGATEFPPPAFGEIWRTDPHQAIALAETGATTAQEALSLGINWVLAPVLDVNNNPHNPVINIRAFGETPDQVSALGTAFIRGAQQYAVLTTAKHFPGHGDTATDSHLALPTISHDDTRLNTVELPPFKAAIQGGVDAVNAHLIPAWDQQYPATLSPAILTGQLRHKLGFKGLIVTDALVGGITQFAAPDTVVVQAIAAGADILLPPDVDGAIIAIETAIKTGQLSESRIYESVERIWQAKQKILTATPSTFPQGISGDRPETRKTVAVLERATKHQKSLVKISSFPDNFARNLIVVDSVLKSPFLRPNCPAIAIPQRHGYAAEIVELKTLPRLQLEAIPTLIQCFLRGNPFTEKLADPIDVLQKIAAQIPLQGVIFYGSPYFLEALQTTLPEIPWWFSYGQAIAQAEICTSLWEEAPQAAAEFI 3sqn-a1-m1-cB_3sqn-a1-m1-cA Putative Mga family transcriptional regulator from Enterococcus faecalis Q82ZN7 Q82ZN7 2.31 X-RAY DIFFRACTION 184 0.989 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 377 463 PQSISIQLLKELLFTKELVTTSFLSTSGYETLKRHIKKNQALRDFHLTIQLTTTIQLIGAESNIRIFYHRLLVPFTHNNYFFDDYSIHEEHYFQFLKQVYSSELTVETEEIFGACWFFINTIRNKANCRVSQFSFDSKDVLFQLYQPSLAKLYASEGIYLQGEESFFAFFCFLESWNYDNVYGETLASALHTHYSQLRKSLQQFVTNLSTEEDLIQTNLLDNLLLLFIKYTESPTLSEQFQLEYQELTEQLSKSNQELLEILSRYTTIEEPTYFLSLASLLEKQAIYSIQAQTTAYFLFQGEPAWKAFLQQELAAYLGTRVKLQAIEYVELSQLTLNEADIIISNFPHLDLPVFYLSLIPTKNELRRLAELTLHSYF YSLKRVITEKDLLRQIRLLEQLLNVPQLTAKRLAAQIQTTERTVFSDLQYIRSQLPADWSIETDSSGIRLRNQQTNELWSLFLPQSISIQLLKELLFTKELVTTSFLSTSGVSYETLKRHIKKNQALRDFHLTIQLTTTIQLIGAESNIRIFYHRLLVPFTHNNYFFDDYSIHEEHYFQFLKQVYSSELTVETEEIFGACWFFINTIRNKANCRVSQFSFDSKDVLFQLYQPSLAKLYASEGIYLQGEESFFAFFCFLESWNYDNVYGETLASALHTHYSQLRKSLQQFVTNLSTEEARPDLIQTNLLDNLLLLFIKYTESPTLSEQFQLEYQELLALSKSNQELLEILSRYTTIEEPTYFLSLASLLEKQAIYSIQAQTTAYFLFQGEPAWKAFLQQELAAYLGTRVKLQAIEYVELSQLTLNEADIIISNFPLDLPVFYLSLIPTKNELRRLAELTLHSYF 3sqs-a1-m2-cA_3sqs-a1-m8-cA Crystal Structure of a putative mandelate racemase/muconate lactonizing protein from Dinoroseobacter shibae DFL 12 A8LS88 A8LS88 1.9 X-RAY DIFFRACTION 133 1.0 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 386 386 3sqs-a1-m1-cA_3sqs-a1-m7-cA 3sqs-a1-m3-cA_3sqs-a1-m5-cA 3sqs-a1-m4-cA_3sqs-a1-m6-cA MTKIKSVRTRVWNWTGPTVPPQGNFCTNASDALWIASFRFHQWLTCEVETEDGTIGIGNAALAPNVVKQAIDEWYAPLVIGEDPFDYAYLWEKMYRRTHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKEKIPVYYSKLYADSIPAMQAEAEEAQKHGYQGYKTRFGYGPKDGPAGMRENLKRVEALREVLGYDVDLMLECYMGWNLDYTKRMLPKLERFEPRWLEEPVIADDVAGYAELNAMGIVPISGGEHEFSVMGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIIVIPHAGQMHNYHLTMANMNCPISEYFPVFDVEVGNELFYYIFDGDPEAVDGYLQLDDDTPGLGITISDAHLKHFEITE MTKIKSVRTRVWNWTGPTVPPQGNFCTNASDALWIASFRFHQWLTCEVETEDGTIGIGNAALAPNVVKQAIDEWYAPLVIGEDPFDYAYLWEKMYRRTHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKEKIPVYYSKLYADSIPAMQAEAEEAQKHGYQGYKTRFGYGPKDGPAGMRENLKRVEALREVLGYDVDLMLECYMGWNLDYTKRMLPKLERFEPRWLEEPVIADDVAGYAELNAMGIVPISGGEHEFSVMGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIIVIPHAGQMHNYHLTMANMNCPISEYFPVFDVEVGNELFYYIFDGDPEAVDGYLQLDDDTPGLGITISDAHLKHFEITE 3sqs-a1-m3-cA_3sqs-a1-m8-cA Crystal Structure of a putative mandelate racemase/muconate lactonizing protein from Dinoroseobacter shibae DFL 12 A8LS88 A8LS88 1.9 X-RAY DIFFRACTION 93 1.0 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 386 386 3sqs-a1-m1-cA_3sqs-a1-m5-cA 3sqs-a1-m2-cA_3sqs-a1-m6-cA 3sqs-a1-m4-cA_3sqs-a1-m7-cA MTKIKSVRTRVWNWTGPTVPPQGNFCTNASDALWIASFRFHQWLTCEVETEDGTIGIGNAALAPNVVKQAIDEWYAPLVIGEDPFDYAYLWEKMYRRTHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKEKIPVYYSKLYADSIPAMQAEAEEAQKHGYQGYKTRFGYGPKDGPAGMRENLKRVEALREVLGYDVDLMLECYMGWNLDYTKRMLPKLERFEPRWLEEPVIADDVAGYAELNAMGIVPISGGEHEFSVMGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIIVIPHAGQMHNYHLTMANMNCPISEYFPVFDVEVGNELFYYIFDGDPEAVDGYLQLDDDTPGLGITISDAHLKHFEITE MTKIKSVRTRVWNWTGPTVPPQGNFCTNASDALWIASFRFHQWLTCEVETEDGTIGIGNAALAPNVVKQAIDEWYAPLVIGEDPFDYAYLWEKMYRRTHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKEKIPVYYSKLYADSIPAMQAEAEEAQKHGYQGYKTRFGYGPKDGPAGMRENLKRVEALREVLGYDVDLMLECYMGWNLDYTKRMLPKLERFEPRWLEEPVIADDVAGYAELNAMGIVPISGGEHEFSVMGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIIVIPHAGQMHNYHLTMANMNCPISEYFPVFDVEVGNELFYYIFDGDPEAVDGYLQLDDDTPGLGITISDAHLKHFEITE 3sqs-a1-m6-cA_3sqs-a1-m8-cA Crystal Structure of a putative mandelate racemase/muconate lactonizing protein from Dinoroseobacter shibae DFL 12 A8LS88 A8LS88 1.9 X-RAY DIFFRACTION 40 1.0 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 386 386 3sqs-a1-m1-cA_3sqs-a1-m3-cA 3sqs-a1-m1-cA_3sqs-a1-m4-cA 3sqs-a1-m2-cA_3sqs-a1-m3-cA 3sqs-a1-m2-cA_3sqs-a1-m4-cA 3sqs-a1-m5-cA_3sqs-a1-m7-cA 3sqs-a1-m5-cA_3sqs-a1-m8-cA 3sqs-a1-m6-cA_3sqs-a1-m7-cA MTKIKSVRTRVWNWTGPTVPPQGNFCTNASDALWIASFRFHQWLTCEVETEDGTIGIGNAALAPNVVKQAIDEWYAPLVIGEDPFDYAYLWEKMYRRTHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKEKIPVYYSKLYADSIPAMQAEAEEAQKHGYQGYKTRFGYGPKDGPAGMRENLKRVEALREVLGYDVDLMLECYMGWNLDYTKRMLPKLERFEPRWLEEPVIADDVAGYAELNAMGIVPISGGEHEFSVMGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIIVIPHAGQMHNYHLTMANMNCPISEYFPVFDVEVGNELFYYIFDGDPEAVDGYLQLDDDTPGLGITISDAHLKHFEITE MTKIKSVRTRVWNWTGPTVPPQGNFCTNASDALWIASFRFHQWLTCEVETEDGTIGIGNAALAPNVVKQAIDEWYAPLVIGEDPFDYAYLWEKMYRRTHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKEKIPVYYSKLYADSIPAMQAEAEEAQKHGYQGYKTRFGYGPKDGPAGMRENLKRVEALREVLGYDVDLMLECYMGWNLDYTKRMLPKLERFEPRWLEEPVIADDVAGYAELNAMGIVPISGGEHEFSVMGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIIVIPHAGQMHNYHLTMANMNCPISEYFPVFDVEVGNELFYYIFDGDPEAVDGYLQLDDDTPGLGITISDAHLKHFEITE 3sqv-a3-m1-cA_3sqv-a3-m1-cB Crystal Structure of E. coli O157:H7 E3 ubiquitin ligase, NleL, with a human E2, UbcH7 A0A0H3JDV8 A0A0H3JDV8 3.3 X-RAY DIFFRACTION 110 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 606 606 QGRACLSKAELTADLIWLSANRTGEESAEELNYSGCDLSGLSLVGLNLSSVNFSGAVLDDTDLRMSDLSQAVLENCSFKNSILNECNFCYANLSNCIIRALFENSNFSNSNLKNASFKGSSYIQYPPILNEADLTGAIIIPGMVLSGAILGDVKELFSEKSNTINLGGCYIDLSDIQENILSVLDNYTKSNKSILLTMNTSDDKYNHDKVRAAEELIKKISLDELAAFRPYVKMSLADSFSIHPYLNNANIQQWLEPICDDFFDTIMSWFNNSIMMYMENGSLLQAGMYFERHPGAMVSYNSSFIQIVMNGSRRDGMQERFRELYEVYLKNEKVYPVTQQSDFGLCDGSGKPDWDDDSDLAYNWVLLSSQDDGMAMMCSLSHMVDMLSPNTSTNWMSFFLYKDGEVQNTFGYSLSNLFSESFPIFSIPYHKAFSQNFVSGILDILISDNELKERFIEALNSNKSDYKMIADDQQRKLACVWNPFLDGWELNAQHVDMIMGSHVLKDMPLRKQAEILFCLGGVFCKYSSSDMFGTEYDSPEILRRYANGLIEQAYKTDPQVFGSVYYYNDILDRLQGCTAVLTDMLTEHAKESFPEIFSLYYPVAWR QGRACLSKAELTADLIWLSANRTGEESAEELNYSGCDLSGLSLVGLNLSSVNFSGAVLDDTDLRMSDLSQAVLENCSFKNSILNECNFCYANLSNCIIRALFENSNFSNSNLKNASFKGSSYIQYPPILNEADLTGAIIIPGMVLSGAILGDVKELFSEKSNTINLGGCYIDLSDIQENILSVLDNYTKSNKSILLTMNTSDDKYNHDKVRAAEELIKKISLDELAAFRPYVKMSLADSFSIHPYLNNANIQQWLEPICDDFFDTIMSWFNNSIMMYMENGSLLQAGMYFERHPGAMVSYNSSFIQIVMNGSRRDGMQERFRELYEVYLKNEKVYPVTQQSDFGLCDGSGKPDWDDDSDLAYNWVLLSSQDDGMAMMCSLSHMVDMLSPNTSTNWMSFFLYKDGEVQNTFGYSLSNLFSESFPIFSIPYHKAFSQNFVSGILDILISDNELKERFIEALNSNKSDYKMIADDQQRKLACVWNPFLDGWELNAQHVDMIMGSHVLKDMPLRKQAEILFCLGGVFCKYSSSDMFGTEYDSPEILRRYANGLIEQAYKTDPQVFGSVYYYNDILDRLQGCTAVLTDMLTEHAKESFPEIFSLYYPVAWR 3sqz-a2-m1-cA_3sqz-a2-m2-cA Crystal structure of HMG_CoA synthase complexed with CoA Q8DUI5 Q8DUI5 1.2 X-RAY DIFFRACTION 211 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 388 388 3leh-a1-m1-cA_3leh-a1-m2-cA MRIGIDKIGFTSSQYVLNMKDLAEARGEDPQKFSKGLLLNALSIAPITDDVVTLAAGSANEILTAEDKEKIDMVILATESSVDQSKAGAVYVHSLLGIQPFARSFEMKEACYSATAALNYAKLHVEKHPDTRVLVLASDIAKYGIGTPGESTQGAGSIAMLVKKDPRILILHDETLAQTRDIMDFWRPNYTTTPYVNGMYSTKQYLDMLKTTWAEYQKRFDVSLTDFAAFCFHLPFPKLALKGFNKIMDKQVPSDLQEKLKVNFEASILYSKQIGNIYTGSLFLGLLSLLENSQNLVAGDKIALFSYGSGAVAEIFTGTLVKGFKEQLQTNRLDKLKRRTPLSVENYEKIFFEEAQLDDKGNASFKEYQTGPFALKEILEHQRIYGKV MRIGIDKIGFTSSQYVLNMKDLAEARGEDPQKFSKGLLLNALSIAPITDDVVTLAAGSANEILTAEDKEKIDMVILATESSVDQSKAGAVYVHSLLGIQPFARSFEMKEACYSATAALNYAKLHVEKHPDTRVLVLASDIAKYGIGTPGESTQGAGSIAMLVKKDPRILILHDETLAQTRDIMDFWRPNYTTTPYVNGMYSTKQYLDMLKTTWAEYQKRFDVSLTDFAAFCFHLPFPKLALKGFNKIMDKQVPSDLQEKLKVNFEASILYSKQIGNIYTGSLFLGLLSLLENSQNLVAGDKIALFSYGSGAVAEIFTGTLVKGFKEQLQTNRLDKLKRRTPLSVENYEKIFFEEAQLDDKGNASFKEYQTGPFALKEILEHQRIYGKV 3sr2-a1-m1-cG_3sr2-a1-m1-cC Crystal Structure of Human XLF-XRCC4 Complex Q9H9Q4 Q9H9Q4 3.9708 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 218 MEELEQGLLMQPWAWLQLAENSLLAKVFITKQGYALLVSDLQQVWHEQVDTSVVSQRAKELNKRLTAPPAAFLCHLDNLLRPLLEATFSCDCVADALILRVRSELSGLPFYWNFHCMLASPSLVSQHLIRPLMGMSLALQCQVRELATLLHMKDLEIQDYQESGATLIRDRLKTEPFEENSFLEQFMIEKLPEACSIGDGKPFVMNLQDLYMAVTTQ MEELEQGLLMQPWAWLQLAENSLLAKVFITKQGYALLVSDLQQVWHEQVDTSVVSQRAKELNKRLTAPPAAFLCHLDNLLRPLLKEATFSCDCVADALILRVRSELSGLPFYWNFHCMLASPSLVSQHLIRPLMGMSLALQCQVRELATLLHMKDLEIQDYQESGATLIRDRLKTEPFEENSFLEQFMIEKLPEACSIGDGKPFVMNLQDLYMAVTTQ 3sr7-a1-m1-cC_3sr7-a1-m1-cA Crystal structure of S. mutans isopentenyl pyrophosphate isomerase Q8DUI9 Q8DUI9 2.036 X-RAY DIFFRACTION 77 0.989 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 272 273 3sr7-a1-m1-cB_3sr7-a1-m1-cC 3sr7-a1-m1-cB_3sr7-a1-m1-cD 3sr7-a1-m1-cD_3sr7-a1-m1-cA YNSFDDIELIHHSLPDYDLAEIDLSTHFAGQDFDFPFYINQKGKEVNEKLAQVADTCGLLFVRPHLLLATNIGLDKPYQAGLQAVRDLQPLFLQVHINLMQELLMPEGEREFRSWKKHLSDYAKKLQLPFILKEVGFGMDVKTIQTAIDLGVKTVDISGRGRSYLNQWGQTTAQVLLNAQPLMDKVEILASGGIRHPLDIIKALVLGAKAVGLSRTMLELVEQHSVHEVIAIVNGWKEDLRLIMCALNCQTIAELRNVDYLLYGRLREGQRQ PYNSFDDIELIHHSLPDYDLAEIDLSTHFAGQDFDFPFYINAMQKGKEVNEKLAQVADTCGLLFVTLLLATNIGLDKPYQAGLQAVRDLQPLFLQVHINLMQELLMPEGEREFRSWKKHLSDYAKKLQLPFILKEVGFGMDVKTIQTAIDLGVKTVDISGRGRSYLNQWGQTTAQVLLNAQPLMDKVEILASGGIRHPLDIIKALVLGAKAVGLSRTMLELVEQHSVHEVIAIVNGWKEDLRLIMCALNCQTIAELRNVDYLLYGRLREGQRQ 3srj-a1-m1-cD_3srj-a1-m1-cC PfAMA1 in complex with invasion-inhibitory peptide R1 2.15 X-RAY DIFFRACTION 18 1.0 7 18 EFLPLFS VFAEFLPLFSKFGSRMHI 3srj-a2-m1-cF_3srj-a2-m1-cE PfAMA1 in complex with invasion-inhibitory peptide R1 2.15 X-RAY DIFFRACTION 19 1.0 10 17 VFAEFLPLFS VFAEFLPLFSKFGSRMH 3srk-a1-m1-cB_3srk-a1-m2-cA A new class of suicide inhibitor blocks nucleotide binding to pyruvate kinase Q27686 Q27686 2.65 X-RAY DIFFRACTION 63 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 405 493 3qv6-a1-m1-cD_3qv6-a1-m2-cA 3qv7-a1-m1-cB_3qv7-a1-m1-cD 3qv8-a1-m1-cA_3qv8-a1-m2-cD MSQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHAYANQTRILLVE MSQLAHNLTLSIFDPVANYRAARIICTIGPSTQSVEALKGLIQSGMSVARMNFSHGSHEYHQTTINNVRQAAAELGVNIAIALDTKGPEIRTGQFVGGDAVMERGATCYVTTDPAFADKGTKDKFYIDYQNLSKVVRPGNYIYIDDGILILQVQSHEDEQTLECTVTNSHTISDRRGVNLPGCDVDLPAVSAKDRVDLQFGVEQGVDMIFASFIRSAEQVGDVRKALGPKGRDIMIICKIENHQGVQNIDSIIEESDGIMVARGDLGVEIPAEKVVVAQKILISKCNVAGKPVICATQMLESMTYNPRPTRAEVSDVANAVFNGADCVMLSGETAKGKYPNEVVQYMARICLEAQSALNEYVFFNSIKKLQHIPMSADEAVCSSAVNSVYETKAKAMVVLSNTGRSARLVAKYRPNCPIVCVTTRLQTCRQLNITQGVESVFFDADKLGHDEGKEHRVAAGVEFAKSKGYVQTGDYCVVIHAYANQTRILLVE 3srt-a2-m4-cB_3srt-a2-m5-cB The crystal structure of a maltose O-acetyltransferase from Clostridium difficile 630 Q18A66 Q18A66 2.504 X-RAY DIFFRACTION 59 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 184 184 3srt-a1-m1-cA_3srt-a1-m2-cA 3srt-a1-m1-cA_3srt-a1-m3-cA 3srt-a1-m2-cA_3srt-a1-m3-cA 3srt-a2-m1-cB_3srt-a2-m4-cB 3srt-a2-m1-cB_3srt-a2-m5-cB 4isx-a1-m1-cA_4isx-a1-m2-cA 4isx-a1-m1-cA_4isx-a1-m3-cA 4isx-a1-m2-cA_4isx-a1-m3-cA 4isx-a2-m1-cB_4isx-a2-m4-cB 4isx-a2-m1-cB_4isx-a2-m5-cB 4isx-a2-m4-cB_4isx-a2-m5-cB NATEKEKLSGKGYYANDELLVKEREYCKKLTRLFNNTLEDEYEKREDILRQLFGSVGKQINVEQNIRCDYGYNIHVGENFFANYDCIFLDVCKIEIGDNVLAPNVQIYTAYHPIDAQLRNSGIEYGSPVKIGDNVWIGGGVIITPGITIGDNVVIGAGSVVTKDIPPNTVAVGNPCRVIKKIEE NATEKEKLSGKGYYANDELLVKEREYCKKLTRLFNNTLEDEYEKREDILRQLFGSVGKQINVEQNIRCDYGYNIHVGENFFANYDCIFLDVCKIEIGDNVLAPNVQIYTAYHPIDAQLRNSGIEYGSPVKIGDNVWIGGGVIITPGITIGDNVVIGAGSVVTKDIPPNTVAVGNPCRVIKKIEE 3ss6-a1-m1-cB_3ss6-a1-m2-cB Crystal structure of the Bacillus anthracis acetyl-CoA acetyltransferase A0A6H3AND8 A0A6H3AND8 1.7 X-RAY DIFFRACTION 46 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 391 391 3ss6-a1-m1-cA_3ss6-a1-m2-cA AMHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQSSGMQAIMSAAMQIQLGVSEVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGYFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELDLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL AMHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQSSGMQAIMSAAMQIQLGVSEVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGYFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELDLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL 3ss6-a1-m2-cB_3ss6-a1-m1-cA Crystal structure of the Bacillus anthracis acetyl-CoA acetyltransferase A0A6H3AND8 A0A6H3AND8 1.7 X-RAY DIFFRACTION 24 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 391 393 3ss6-a1-m1-cB_3ss6-a1-m2-cA AMHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQSSGMQAIMSAAMQIQLGVSEVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGYFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELDLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL SNAMHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQSSGMQAIMSAAMQIQLGVSEVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGYFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELDLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL 3ss6-a2-m1-cB_3ss6-a2-m1-cA Crystal structure of the Bacillus anthracis acetyl-CoA acetyltransferase A0A6H3AND8 A0A6H3AND8 1.7 X-RAY DIFFRACTION 197 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 391 393 3ss6-a1-m1-cB_3ss6-a1-m1-cA 3ss6-a1-m2-cB_3ss6-a1-m2-cA AMHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQSSGMQAIMSAAMQIQLGVSEVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGYFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELDLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL SNAMHNVVITAAVRSPIGTFGGALKNVTPVELAVPVLQEAVKRGGVEPHEVDEVILGHCIQRTDEANTARTAALAAGFPDTVTGYTIQRQSSGMQAIMSAAMQIQLGVSEVVVAGGVEAMSSSPYALKQHRWGQRLQHGEIRDTVWEVLEDPIHHIMMGETAENLVEQYEITREEQDEVALRSHTLALKAIESGYFDDQIVPITIKERRKEVVFSKDEHPRADITAEKLAGLKPAFRKDGSVTAGNASGLNDGSAVLVLMSEEKAKEKGLQPLARIVGYSVAGVDPKIMGIGPAPAIRKGLEKVDWSLEDADLLEINEAFAAQYLAVEKELDLDREKVNVNGSGVGLGHPIGCTGARITVSLIHELKRRGLEKGIASLCVGGGIGVALFIEAL 3ssn-a1-m1-cB_3ssn-a1-m1-cD MycE Methyltransferase from the Mycinamycin Biosynthetic Pathway in Complex with Mg, SAH, and Mycinamycin VI Q83WF2 Q83WF2 2.392 X-RAY DIFFRACTION 62 1.0 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 350 393 EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPHYDRHFRDYRNQQVRVLEIGVGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHVRTSFAALFPHVRPGGLYVIEDGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSG TEFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGG 3sso-a1-m1-cA_3sso-a1-m1-cB MycE Methyltransferase from the Mycinamycin Biosynthetic Pathway in Complex with Mg and SAH, Crystal form 2 Q83WF2 Q83WF2 1.895 X-RAY DIFFRACTION 74 1.0 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 393 394 3ssm-a1-m1-cB_3ssm-a1-m1-cD 3ssm-a1-m1-cC_3ssm-a1-m1-cA 3ssn-a1-m1-cC_3ssn-a1-m1-cA 3sso-a1-m1-cC_3sso-a1-m1-cD 3sso-a2-m1-cF_3sso-a2-m1-cE 3sso-a2-m2-cF_3sso-a2-m2-cE EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGGA EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGGAT 3sso-a2-m1-cF_3sso-a2-m2-cF MycE Methyltransferase from the Mycinamycin Biosynthetic Pathway in Complex with Mg and SAH, Crystal form 2 Q83WF2 Q83WF2 1.895 X-RAY DIFFRACTION 116 1.0 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 393 393 3ssm-a1-m1-cB_3ssm-a1-m1-cA 3ssm-a1-m1-cC_3ssm-a1-m1-cD 3ssn-a1-m1-cB_3ssn-a1-m1-cA 3ssn-a1-m1-cC_3ssn-a1-m1-cD 3sso-a1-m1-cA_3sso-a1-m1-cC 3sso-a1-m1-cB_3sso-a1-m1-cD 3sso-a2-m1-cE_3sso-a2-m2-cE EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGGA EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGGA 3sso-a2-m2-cF_3sso-a2-m1-cE MycE Methyltransferase from the Mycinamycin Biosynthetic Pathway in Complex with Mg and SAH, Crystal form 2 Q83WF2 Q83WF2 1.895 X-RAY DIFFRACTION 161 1.0 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 393 394 3ssm-a1-m1-cA_3ssm-a1-m1-cD 3ssn-a1-m1-cA_3ssn-a1-m1-cD 3sso-a1-m1-cA_3sso-a1-m1-cD 3sso-a1-m1-cC_3sso-a1-m1-cB 3sso-a2-m1-cF_3sso-a2-m2-cE EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGGA EFDEATVQDVVRLAGGHDSELRELTQKYDPAMISRLLVAEILSRCPPPSNDTPVLVELAIVHGSERFRHFLRVVRDSPIRPVGADEGFVGMLVEYELTELLRELFGVTHERPAGVRGTKLFPYLTDDEEAVEQIGTYLLAAQQGTEAVLAGCGSRKPDLSELSSRYFTPKFGFLHWFTPHYDRHFRDYRNQQVRVLEIGVGGYKHPEWGGGSLRMWKSFFPRGQIYGLDIMDKSHVDELRIRTIQGDQNDAEFLDRIARRYGPFDIVIDDGSHINAHVRTSFAALFPHVRPGGLYVIEDMWTAYWPGFGGQADPQECSGTSLGLLKSLIDAIQHQELPSDPNRSPGYVDRNIVGLHVYHNVAFVEKGRNDEGGIPTWIPRDFESLVQASSGGAT 3ssq-a1-m1-cC_3ssq-a1-m2-cC CcmK2 - form 1 dodecamer Q8DKB2 Q8DKB2 2.2 X-RAY DIFFRACTION 12 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 100 100 3ssq-a1-m1-cA_3ssq-a1-m2-cE 3ssq-a1-m1-cB_3ssq-a1-m2-cD 3ssq-a1-m1-cD_3ssq-a1-m2-cB 3ssq-a1-m1-cE_3ssq-a1-m2-cA 3ssq-a1-m1-cF_3ssq-a1-m2-cF 3ssr-a1-m1-cA_3ssr-a1-m6-cB 3ssr-a1-m1-cB_3ssr-a1-m5-cA 3ssr-a1-m2-cA_3ssr-a1-m4-cB 3ssr-a1-m2-cB_3ssr-a1-m6-cA 3ssr-a1-m3-cA_3ssr-a1-m5-cB 3ssr-a1-m3-cB_3ssr-a1-m4-cA PIAVGMIETRGFPAVVEAADAMVKAARVTLVGYEKIGSGRVTVIVRGDVSEVQASVAAGVDSAKRVNGGEVLSTHIIARPHENLEYVLPIRYTEAVEQFR PIAVGMIETRGFPAVVEAADAMVKAARVTLVGYEKIGSGRVTVIVRGDVSEVQASVAAGVDSAKRVNGGEVLSTHIIARPHENLEYVLPIRYTEAVEQFR 3ssz-a1-m6-cA_3ssz-a1-m8-cA The crystal structure of Mandelate racemase/muconate lactonizing enzyme from Rhodobacteraceae bacterium B9NY46 B9NY46 2.392 X-RAY DIFFRACTION 44 1.0 467661 (Rhodobacteraceae bacterium KLH11) 467661 (Rhodobacteraceae bacterium KLH11) 381 381 3ssz-a1-m1-cA_3ssz-a1-m3-cA 3ssz-a1-m1-cA_3ssz-a1-m4-cA 3ssz-a1-m2-cA_3ssz-a1-m3-cA 3ssz-a1-m2-cA_3ssz-a1-m4-cA 3ssz-a1-m5-cA_3ssz-a1-m7-cA 3ssz-a1-m5-cA_3ssz-a1-m8-cA 3ssz-a1-m6-cA_3ssz-a1-m7-cA MTKIKSVRTRVWNWTGPTVPPTGNFCTNASDVLYFHQWLTCEVETEDGTVGIGNAALAPSVVKAAIDEWFAPLVIGEDPFDYAYLWEKMYRRSHAWGRKGIGMTAISAVDLAIWDLMGKLAGKPVFKLLGGRTKEKIPVYYSKLYSGPIDVMQAEAAEAQKNGYSAYKMRFGWGPKDGMDGMRENLKRVEAVREVIGYDVDLMLECYMGWNLDYTKRMLPKLVKYEPRWLEEPVIADDVEGYRELNAMNIVPISGGEHEFSVIGCKDLIEKKAVSVLQYDTNRVGGITAAQKINAIAEAFQVPVIPHAGQMHNYHLTMANANCMISEYFPVFDVEVGNELFYYIFEGDPEAVDGFLDLDDDTPGLGIEITDKHLKHFQITE MTKIKSVRTRVWNWTGPTVPPTGNFCTNASDVLYFHQWLTCEVETEDGTVGIGNAALAPSVVKAAIDEWFAPLVIGEDPFDYAYLWEKMYRRSHAWGRKGIGMTAISAVDLAIWDLMGKLAGKPVFKLLGGRTKEKIPVYYSKLYSGPIDVMQAEAAEAQKNGYSAYKMRFGWGPKDGMDGMRENLKRVEAVREVIGYDVDLMLECYMGWNLDYTKRMLPKLVKYEPRWLEEPVIADDVEGYRELNAMNIVPISGGEHEFSVIGCKDLIEKKAVSVLQYDTNRVGGITAAQKINAIAEAFQVPVIPHAGQMHNYHLTMANANCMISEYFPVFDVEVGNELFYYIFEGDPEAVDGFLDLDDDTPGLGIEITDKHLKHFQITE 3ssz-a2-m1-cA_3ssz-a2-m7-cA The crystal structure of Mandelate racemase/muconate lactonizing enzyme from Rhodobacteraceae bacterium B9NY46 B9NY46 2.392 X-RAY DIFFRACTION 129 1.0 467661 (Rhodobacteraceae bacterium KLH11) 467661 (Rhodobacteraceae bacterium KLH11) 381 381 3ssz-a1-m1-cA_3ssz-a1-m7-cA 3ssz-a1-m2-cA_3ssz-a1-m8-cA 3ssz-a1-m3-cA_3ssz-a1-m5-cA 3ssz-a1-m4-cA_3ssz-a1-m6-cA MTKIKSVRTRVWNWTGPTVPPTGNFCTNASDVLYFHQWLTCEVETEDGTVGIGNAALAPSVVKAAIDEWFAPLVIGEDPFDYAYLWEKMYRRSHAWGRKGIGMTAISAVDLAIWDLMGKLAGKPVFKLLGGRTKEKIPVYYSKLYSGPIDVMQAEAAEAQKNGYSAYKMRFGWGPKDGMDGMRENLKRVEAVREVIGYDVDLMLECYMGWNLDYTKRMLPKLVKYEPRWLEEPVIADDVEGYRELNAMNIVPISGGEHEFSVIGCKDLIEKKAVSVLQYDTNRVGGITAAQKINAIAEAFQVPVIPHAGQMHNYHLTMANANCMISEYFPVFDVEVGNELFYYIFEGDPEAVDGFLDLDDDTPGLGIEITDKHLKHFQITE MTKIKSVRTRVWNWTGPTVPPTGNFCTNASDVLYFHQWLTCEVETEDGTVGIGNAALAPSVVKAAIDEWFAPLVIGEDPFDYAYLWEKMYRRSHAWGRKGIGMTAISAVDLAIWDLMGKLAGKPVFKLLGGRTKEKIPVYYSKLYSGPIDVMQAEAAEAQKNGYSAYKMRFGWGPKDGMDGMRENLKRVEAVREVIGYDVDLMLECYMGWNLDYTKRMLPKLVKYEPRWLEEPVIADDVEGYRELNAMNIVPISGGEHEFSVIGCKDLIEKKAVSVLQYDTNRVGGITAAQKINAIAEAFQVPVIPHAGQMHNYHLTMANANCMISEYFPVFDVEVGNELFYYIFEGDPEAVDGFLDLDDDTPGLGIEITDKHLKHFQITE 3ssz-a3-m1-cA_3ssz-a3-m5-cA The crystal structure of Mandelate racemase/muconate lactonizing enzyme from Rhodobacteraceae bacterium B9NY46 B9NY46 2.392 X-RAY DIFFRACTION 95 1.0 467661 (Rhodobacteraceae bacterium KLH11) 467661 (Rhodobacteraceae bacterium KLH11) 381 381 3ssz-a1-m1-cA_3ssz-a1-m5-cA 3ssz-a1-m2-cA_3ssz-a1-m6-cA 3ssz-a1-m3-cA_3ssz-a1-m8-cA 3ssz-a1-m4-cA_3ssz-a1-m7-cA MTKIKSVRTRVWNWTGPTVPPTGNFCTNASDVLYFHQWLTCEVETEDGTVGIGNAALAPSVVKAAIDEWFAPLVIGEDPFDYAYLWEKMYRRSHAWGRKGIGMTAISAVDLAIWDLMGKLAGKPVFKLLGGRTKEKIPVYYSKLYSGPIDVMQAEAAEAQKNGYSAYKMRFGWGPKDGMDGMRENLKRVEAVREVIGYDVDLMLECYMGWNLDYTKRMLPKLVKYEPRWLEEPVIADDVEGYRELNAMNIVPISGGEHEFSVIGCKDLIEKKAVSVLQYDTNRVGGITAAQKINAIAEAFQVPVIPHAGQMHNYHLTMANANCMISEYFPVFDVEVGNELFYYIFEGDPEAVDGFLDLDDDTPGLGIEITDKHLKHFQITE MTKIKSVRTRVWNWTGPTVPPTGNFCTNASDVLYFHQWLTCEVETEDGTVGIGNAALAPSVVKAAIDEWFAPLVIGEDPFDYAYLWEKMYRRSHAWGRKGIGMTAISAVDLAIWDLMGKLAGKPVFKLLGGRTKEKIPVYYSKLYSGPIDVMQAEAAEAQKNGYSAYKMRFGWGPKDGMDGMRENLKRVEAVREVIGYDVDLMLECYMGWNLDYTKRMLPKLVKYEPRWLEEPVIADDVEGYRELNAMNIVPISGGEHEFSVIGCKDLIEKKAVSVLQYDTNRVGGITAAQKINAIAEAFQVPVIPHAGQMHNYHLTMANANCMISEYFPVFDVEVGNELFYYIFEGDPEAVDGFLDLDDDTPGLGIEITDKHLKHFQITE 3stb-a1-m1-cC_3stb-a1-m2-cC A complex of two editosome proteins and two nanobodies Q95W13 Q95W13 2.5 X-RAY DIFFRACTION 36 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 111 111 AAHWRCVNHCVMLGVVQNIQEGFVFEDKVLQFTLITDFEGPSPGDPDKDFHTVRVFDSDYSSRVKEQLRDGEWFLVTGRLRMVPQYDGSMRKYYHYPVIQVHPGCGSVLKV AAHWRCVNHCVMLGVVQNIQEGFVFEDKVLQFTLITDFEGPSPGDPDKDFHTVRVFDSDYSSRVKEQLRDGEWFLVTGRLRMVPQYDGSMRKYYHYPVIQVHPGCGSVLKV 3sth-a3-m1-cA_3sth-a3-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Toxoplasma gondii Q9BKE2 Q9BKE2 2.25 X-RAY DIFFRACTION 139 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 339 339 3sth-a1-m1-cA_3sth-a1-m1-cD 3sth-a2-m1-cB_3sth-a2-m1-cC 3sth-a3-m1-cB_3sth-a3-m1-cC MVCKLGINGFGRIGRLVFRAAMERGDVEVLAINDPFMSLDYMVYLLRYDSVHGHYPGEVSHKDGKLIVGGKAVTVFNEKEPTAIPWGQAGVHYICESTGIFLTKEKAQAHLTNGAKKVIMSAPPKDDTPMFVMGVNNDQYKSSDVIVSNASCTTNCLAPLAKIVHDKFGIVEGLMTTVHAMTANQLTVDGPSKGGKDWRAGRSAGVNIIPASTGAAKAVGKIIPSLNGKLTGMAFRVPVPDVSVVDLTCKLAKPAKYEDIVAAVKEAATSGPMKGIISYTDEEVVSSDFVHCKFSSVFDINAGIMLNDTFVKLVSWYDNEWGYSNRLVELAHYMSVQDG MVCKLGINGFGRIGRLVFRAAMERGDVEVLAINDPFMSLDYMVYLLRYDSVHGHYPGEVSHKDGKLIVGGKAVTVFNEKEPTAIPWGQAGVHYICESTGIFLTKEKAQAHLTNGAKKVIMSAPPKDDTPMFVMGVNNDQYKSSDVIVSNASCTTNCLAPLAKIVHDKFGIVEGLMTTVHAMTANQLTVDGPSKGGKDWRAGRSAGVNIIPASTGAAKAVGKIIPSLNGKLTGMAFRVPVPDVSVVDLTCKLAKPAKYEDIVAAVKEAATSGPMKGIISYTDEEVVSSDFVHCKFSSVFDINAGIMLNDTFVKLVSWYDNEWGYSNRLVELAHYMSVQDG 3sth-a3-m1-cB_3sth-a3-m1-cD Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Toxoplasma gondii Q9BKE2 Q9BKE2 2.25 X-RAY DIFFRACTION 32 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 339 339 3sth-a3-m1-cA_3sth-a3-m1-cC MVCKLGINGFGRIGRLVFRAAMERGDVEVLAINDPFMSLDYMVYLLRYDSVHGHYPGEVSHKDGKLIVGGKAVTVFNEKEPTAIPWGQAGVHYICESTGIFLTKEKAQAHLTNGAKKVIMSAPPKDDTPMFVMGVNNDQYKSSDVIVSNASCTTNCLAPLAKIVHDKFGIVEGLMTTVHAMTANQLTVDGPSKGGKDWRAGRSAGVNIIPASTGAAKAVGKIIPSLNGKLTGMAFRVPVPDVSVVDLTCKLAKPAKYEDIVAAVKEAATSGPMKGIISYTDEEVVSSDFVHCKFSSVFDINAGIMLNDTFVKLVSWYDNEWGYSNRLVELAHYMSVQDG MVCKLGINGFGRIGRLVFRAAMERGDVEVLAINDPFMSLDYMVYLLRYDSVHGHYPGEVSHKDGKLIVGGKAVTVFNEKEPTAIPWGQAGVHYICESTGIFLTKEKAQAHLTNGAKKVIMSAPPKDDTPMFVMGVNNDQYKSSDVIVSNASCTTNCLAPLAKIVHDKFGIVEGLMTTVHAMTANQLTVDGPSKGGKDWRAGRSAGVNIIPASTGAAKAVGKIIPSLNGKLTGMAFRVPVPDVSVVDLTCKLAKPAKYEDIVAAVKEAATSGPMKGIISYTDEEVVSSDFVHCKFSSVFDINAGIMLNDTFVKLVSWYDNEWGYSNRLVELAHYMSVQDG 3sth-a3-m1-cD_3sth-a3-m1-cC Crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Toxoplasma gondii Q9BKE2 Q9BKE2 2.25 X-RAY DIFFRACTION 95 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 339 340 3sth-a3-m1-cA_3sth-a3-m1-cB MVCKLGINGFGRIGRLVFRAAMERGDVEVLAINDPFMSLDYMVYLLRYDSVHGHYPGEVSHKDGKLIVGGKAVTVFNEKEPTAIPWGQAGVHYICESTGIFLTKEKAQAHLTNGAKKVIMSAPPKDDTPMFVMGVNNDQYKSSDVIVSNASCTTNCLAPLAKIVHDKFGIVEGLMTTVHAMTANQLTVDGPSKGGKDWRAGRSAGVNIIPASTGAAKAVGKIIPSLNGKLTGMAFRVPVPDVSVVDLTCKLAKPAKYEDIVAAVKEAATSGPMKGIISYTDEEVVSSDFVHCKFSSVFDINAGIMLNDTFVKLVSWYDNEWGYSNRLVELAHYMSVQDG SMVCKLGINGFGRIGRLVFRAAMERGDVEVLAINDPFMSLDYMVYLLRYDSVHGHYPGEVSHKDGKLIVGGKAVTVFNEKEPTAIPWGQAGVHYICESTGIFLTKEKAQAHLTNGAKKVIMSAPPKDDTPMFVMGVNNDQYKSSDVIVSNASCTTNCLAPLAKIVHDKFGIVEGLMTTVHAMTANQLTVDGPSKGGKDWRAGRSAGVNIIPASTGAAKAVGKIIPSLNGKLTGMAFRVPVPDVSVVDLTCKLAKPAKYEDIVAAVKEAATSGPMKGIISYTDEEVVSSDFVHCKFSSVFDINAGIMLNDTFVKLVSWYDNEWGYSNRLVELAHYMSVQDG 3sti-a1-m1-cC_3sti-a1-m1-cA Crystal structure of the protease domain of DegQ from Escherichia coli P39099 P39099 2.6 X-RAY DIFFRACTION 77 0.984 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 183 184 PLPSLAPMLEKVLPAVVSVRGLGSGVIINASKGYVLTNNHVIKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILSVGIGFAIPSNMARTLAQQLIDF PLPSLAPMLEKVLPAVVSVLGSGVIINASKGYVLTNNHVIKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILVGIGFAIPSNMARTLAQQLIDFGEIL 3stj-a5-m3-cK_3stj-a5-m4-cI Crystal structure of the protease + PDZ1 domain of DegQ from Escherichia coli P39099 P39099 2.6 X-RAY DIFFRACTION 38 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 300 300 3stj-a5-m1-cA_3stj-a5-m2-cD 3stj-a5-m1-cB_3stj-a5-m4-cG 3stj-a5-m1-cC_3stj-a5-m3-cJ 3stj-a5-m2-cE_3stj-a5-m3-cL 3stj-a5-m2-cF_3stj-a5-m4-cH PLPSLAPMLEKVLPAVVSVRVEGTQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTS PLPSLAPMLEKVLPAVVSVRVEGTQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTS 3stj-a5-m4-cH_3stj-a5-m4-cI Crystal structure of the protease + PDZ1 domain of DegQ from Escherichia coli P39099 P39099 2.6 X-RAY DIFFRACTION 88 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 300 300 3stj-a1-m1-cA_3stj-a1-m1-cB 3stj-a1-m1-cA_3stj-a1-m1-cC 3stj-a1-m1-cB_3stj-a1-m1-cC 3stj-a2-m1-cD_3stj-a2-m1-cE 3stj-a2-m1-cD_3stj-a2-m1-cF 3stj-a2-m1-cE_3stj-a2-m1-cF 3stj-a3-m1-cG_3stj-a3-m1-cH 3stj-a3-m1-cG_3stj-a3-m1-cI 3stj-a3-m1-cH_3stj-a3-m1-cI 3stj-a4-m1-cJ_3stj-a4-m1-cK 3stj-a4-m1-cJ_3stj-a4-m1-cL 3stj-a4-m1-cK_3stj-a4-m1-cL 3stj-a5-m1-cA_3stj-a5-m1-cB 3stj-a5-m1-cA_3stj-a5-m1-cC 3stj-a5-m1-cB_3stj-a5-m1-cC 3stj-a5-m2-cD_3stj-a5-m2-cE 3stj-a5-m2-cD_3stj-a5-m2-cF 3stj-a5-m2-cE_3stj-a5-m2-cF 3stj-a5-m3-cJ_3stj-a5-m3-cK 3stj-a5-m3-cJ_3stj-a5-m3-cL 3stj-a5-m3-cK_3stj-a5-m3-cL 3stj-a5-m4-cG_3stj-a5-m4-cH 3stj-a5-m4-cG_3stj-a5-m4-cI 4a9g-a1-m1-cA_4a9g-a1-m1-cE 4a9g-a1-m1-cA_4a9g-a1-m1-cI 4a9g-a1-m1-cB_4a9g-a1-m1-cF 4a9g-a1-m1-cB_4a9g-a1-m1-cJ 4a9g-a1-m1-cC_4a9g-a1-m1-cG 4a9g-a1-m1-cC_4a9g-a1-m1-cK 4a9g-a1-m1-cD_4a9g-a1-m1-cH 4a9g-a1-m1-cD_4a9g-a1-m1-cL 4a9g-a1-m1-cE_4a9g-a1-m1-cI 4a9g-a1-m1-cF_4a9g-a1-m1-cJ 4a9g-a1-m1-cG_4a9g-a1-m1-cK 4a9g-a1-m1-cH_4a9g-a1-m1-cL 4a9g-a1-m1-cM_4a9g-a1-m1-cQ 4a9g-a1-m1-cM_4a9g-a1-m1-cU 4a9g-a1-m1-cN_4a9g-a1-m1-cR 4a9g-a1-m1-cN_4a9g-a1-m1-cV 4a9g-a1-m1-cO_4a9g-a1-m1-cS 4a9g-a1-m1-cO_4a9g-a1-m1-cW 4a9g-a1-m1-cP_4a9g-a1-m1-cT 4a9g-a1-m1-cP_4a9g-a1-m1-cY 4a9g-a1-m1-cQ_4a9g-a1-m1-cU 4a9g-a1-m1-cR_4a9g-a1-m1-cV 4a9g-a1-m1-cS_4a9g-a1-m1-cW 4a9g-a1-m1-cT_4a9g-a1-m1-cY PLPSLAPMLEKVLPAVVSVRVEGTQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTS PLPSLAPMLEKVLPAVVSVRVEGTQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNSGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTS 3stp-a1-m2-cA_3stp-a1-m8-cA Crystal structure of a putative galactonate dehydratase A0NP48 A0NP48 1.88 X-RAY DIFFRACTION 139 1.0 384765 (Roseibium aggregatum IAM 12614) 384765 (Roseibium aggregatum IAM 12614) 390 390 3stp-a1-m1-cA_3stp-a1-m7-cA 3stp-a1-m3-cA_3stp-a1-m5-cA 3stp-a1-m4-cA_3stp-a1-m6-cA MKIKSVRTRVWTWKGPTVPPQGNFCTNASDALWMKGDAMSSFRFHQWLTCEVETEDGTIGIGNAALAPSVVKKVIDDWYAPLVIGEDPFDYAYIWEKMYRRSHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKDRIPVYYSKLYAGSIEAMQKEAEEAMKGGYKAFKSRFGYGPKDGMPGMRENLKRVEAVREVIGYDNDLMLECYMGWNLDYAKRMLPKLAPYEPRWLEEPVIADDVAGYAELNAMNIVPISGGEHEFSVIGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIPVIPHAGQMHNYHLTMANTNCPISEYFPVFDVEVGNELFYYIFEGDPEAVDGYLQLDDDLPGLGIAISDKHLQHFDITE MKIKSVRTRVWTWKGPTVPPQGNFCTNASDALWMKGDAMSSFRFHQWLTCEVETEDGTIGIGNAALAPSVVKKVIDDWYAPLVIGEDPFDYAYIWEKMYRRSHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKDRIPVYYSKLYAGSIEAMQKEAEEAMKGGYKAFKSRFGYGPKDGMPGMRENLKRVEAVREVIGYDNDLMLECYMGWNLDYAKRMLPKLAPYEPRWLEEPVIADDVAGYAELNAMNIVPISGGEHEFSVIGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIPVIPHAGQMHNYHLTMANTNCPISEYFPVFDVEVGNELFYYIFEGDPEAVDGYLQLDDDLPGLGIAISDKHLQHFDITE 3stp-a1-m3-cA_3stp-a1-m8-cA Crystal structure of a putative galactonate dehydratase A0NP48 A0NP48 1.88 X-RAY DIFFRACTION 93 1.0 384765 (Roseibium aggregatum IAM 12614) 384765 (Roseibium aggregatum IAM 12614) 390 390 3stp-a1-m1-cA_3stp-a1-m5-cA 3stp-a1-m2-cA_3stp-a1-m6-cA 3stp-a1-m4-cA_3stp-a1-m7-cA MKIKSVRTRVWTWKGPTVPPQGNFCTNASDALWMKGDAMSSFRFHQWLTCEVETEDGTIGIGNAALAPSVVKKVIDDWYAPLVIGEDPFDYAYIWEKMYRRSHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKDRIPVYYSKLYAGSIEAMQKEAEEAMKGGYKAFKSRFGYGPKDGMPGMRENLKRVEAVREVIGYDNDLMLECYMGWNLDYAKRMLPKLAPYEPRWLEEPVIADDVAGYAELNAMNIVPISGGEHEFSVIGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIPVIPHAGQMHNYHLTMANTNCPISEYFPVFDVEVGNELFYYIFEGDPEAVDGYLQLDDDLPGLGIAISDKHLQHFDITE MKIKSVRTRVWTWKGPTVPPQGNFCTNASDALWMKGDAMSSFRFHQWLTCEVETEDGTIGIGNAALAPSVVKKVIDDWYAPLVIGEDPFDYAYIWEKMYRRSHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKDRIPVYYSKLYAGSIEAMQKEAEEAMKGGYKAFKSRFGYGPKDGMPGMRENLKRVEAVREVIGYDNDLMLECYMGWNLDYAKRMLPKLAPYEPRWLEEPVIADDVAGYAELNAMNIVPISGGEHEFSVIGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIPVIPHAGQMHNYHLTMANTNCPISEYFPVFDVEVGNELFYYIFEGDPEAVDGYLQLDDDLPGLGIAISDKHLQHFDITE 3stp-a1-m6-cA_3stp-a1-m8-cA Crystal structure of a putative galactonate dehydratase A0NP48 A0NP48 1.88 X-RAY DIFFRACTION 48 1.0 384765 (Roseibium aggregatum IAM 12614) 384765 (Roseibium aggregatum IAM 12614) 390 390 3stp-a1-m1-cA_3stp-a1-m3-cA 3stp-a1-m1-cA_3stp-a1-m4-cA 3stp-a1-m2-cA_3stp-a1-m3-cA 3stp-a1-m2-cA_3stp-a1-m4-cA 3stp-a1-m5-cA_3stp-a1-m7-cA 3stp-a1-m5-cA_3stp-a1-m8-cA 3stp-a1-m6-cA_3stp-a1-m7-cA MKIKSVRTRVWTWKGPTVPPQGNFCTNASDALWMKGDAMSSFRFHQWLTCEVETEDGTIGIGNAALAPSVVKKVIDDWYAPLVIGEDPFDYAYIWEKMYRRSHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKDRIPVYYSKLYAGSIEAMQKEAEEAMKGGYKAFKSRFGYGPKDGMPGMRENLKRVEAVREVIGYDNDLMLECYMGWNLDYAKRMLPKLAPYEPRWLEEPVIADDVAGYAELNAMNIVPISGGEHEFSVIGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIPVIPHAGQMHNYHLTMANTNCPISEYFPVFDVEVGNELFYYIFEGDPEAVDGYLQLDDDLPGLGIAISDKHLQHFDITE MKIKSVRTRVWTWKGPTVPPQGNFCTNASDALWMKGDAMSSFRFHQWLTCEVETEDGTIGIGNAALAPSVVKKVIDDWYAPLVIGEDPFDYAYIWEKMYRRSHAWGRKGIGMTAISAIDIAIWDLMGKLVGKPVFKLLGGRTKDRIPVYYSKLYAGSIEAMQKEAEEAMKGGYKAFKSRFGYGPKDGMPGMRENLKRVEAVREVIGYDNDLMLECYMGWNLDYAKRMLPKLAPYEPRWLEEPVIADDVAGYAELNAMNIVPISGGEHEFSVIGCAELINRKAVSVLQYDTNRVGGITAAQKINAIAEAAQIPVIPHAGQMHNYHLTMANTNCPISEYFPVFDVEVGNELFYYIFEGDPEAVDGYLQLDDDLPGLGIAISDKHLQHFDITE 3sty-a1-m1-cA_3sty-a1-m1-cB Crystal Structure of tomato Methylketone Synthase I T18A mutant E0YCS2 E0YCS2 1.7 X-RAY DIFFRACTION 70 1.0 258 259 3stt-a1-m1-cA_3stt-a1-m1-cB 3stu-a1-m1-cA_3stu-a1-m1-cB 3stv-a1-m1-cA_3stv-a1-m1-cB 3stw-a1-m1-cA_3stw-a1-m1-cB 3stx-a1-m1-cB_3stx-a1-m1-cA FVKKHFVLVHAAFHGAWCWYKIVALMRSSGHNVTALDLGASGINPKQALQIPNFSDYLSPLMEFMASLPANEKIILVGHALGGLAISKAMETFPEKISVAVFLSGLMPGPNIDATTVCTKAGSAVLGQLDNCVTYENGPTNPPTTLIAGPKFLATNVYHLSPIEDLALATALVRPLYLYLAEDISKEVVLSSKRYGSVKRVFIVATENDALKKEFLKLMIEKNPPDEVKEIEGSDHVTMMSKPQQLFTTLLSIANKYK PFVKKHFVLVHAAFHGAWCWYKIVALMRSSGHNVTALDLGASGINPKQALQIPNFSDYLSPLMEFMASLPANEKIILVGHALGGLAISKAMETFPEKISVAVFLSGLMPGPNIDATTVCTKAGSAVLGQLDNCVTYENGPTNPPTTLIAGPKFLATNVYHLSPIEDLALATALVRPLYLYLAEDISKEVVLSSKRYGSVKRVFIVATENDALKKEFLKLMIEKNPPDEVKEIEGSDHVTMMSKPQQLFTTLLSIANKYK 3su4-a3-m1-cA_3su4-a3-m1-cB Crystal structure of NS3/4A protease variant R155K in complex with vaniprevir P26664 P26664 2.255 X-RAY DIFFRACTION 10 1.0 192 192 GSVVIVGRINLSGDTAYAQQTRGEEGCQETSQTGRDKNQVEGEVQIVSTATQTFLATSINGVLWTVYHGAGTRTIASPKGPVTQMYTNVDKDLVGWQAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSAGGPLLCPAGHAVGIFKAAVSTRGVAKAVDFIPVESLETTMRS GSVVIVGRINLSGDTAYAQQTRGEEGCQETSQTGRDKNQVEGEVQIVSTATQTFLATSINGVLWTVYHGAGTRTIASPKGPVTQMYTNVDKDLVGWQAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSAGGPLLCPAGHAVGIFKAAVSTRGVAKAVDFIPVESLETTMRS 3sua-a4-m1-cE_3sua-a4-m1-cF Crystal structure of the intracellular domain of Plexin-B1 in complex with Rac1 O43157 O43157 4.39 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 505 506 3sua-a4-m1-cD_3sua-a4-m1-cE 3sua-a4-m1-cD_3sua-a4-m1-cF IPFLDYKVYAERIFFPGHRESPLHRDLGVPESRRPTVEQGLGQLSNLLNSKLFLTKFIHTLETQRTFSARDRAYVASLLTVALHGKLEYFTDILRTLLSDLVAQYVAKNPKLMLRRTETVVEKLLTNWMSICLYTFVRDSVGEPLYMLFRGIKHQVDKGPVDSVTGKAKYTLNDNRLLREDVEYRPLTLNALLAVAQGVPVKVLDCDTISQAKEKMLDQLYKGVPLTQRPDPRTLDVEWRSGVAGHLILSDEDVTSEVQGLWRRLNTLQHYKVPDGATVALVPCLTGIRPWHLVKPSIPEIYLTRLLSMKGTLQKFVDDLFQVILSTSRPVPLAVKYFFDLLDEQAQQHGISDQDTIHIWKTNSLPLRFWINIIKNPQFVFDVQTSDNMDAVLLVIAQTFMDACTLAPINKLLYARDIPRYKRMVERYYADIRQTVPASDQEMNSVLAELSWNYSGDLGARVALHELYKYINKYYDQIITALEEDGTAQKMQLGYRLQQIAAAVE IPFLDYKVYAERIFFPGHRESPLHRDLGVPESRRPTVEQGLGQLSNLLNSKLFLTKFIHTLETQRTFSARDRAYVASLLTVALHGKLEYFTDILRTLLSDLVAQYVAKNPKLMLRRTETVVEKLLTNWMSICLYTFVRDSVGEPLYMLFRGIKHQVDKGPVDSVTGKAKYTLNDNRLLREDVEYRPLTLNALLAVAQGVPVKVLDCDTISQAKEKMLDQLYKGVPLTQRPDPRTLDVEWRSGVAGHLILSDEDVTSEVQGLWRRLNTLQHYKVPDGATVALVPCLTGIRPWHLVKPSAIPEIYLTRLLSMKGTLQKFVDDLFQVILSTSRPVPLAVKYFFDLLDEQAQQHGISDQDTIHIWKTNSLPLRFWINIIKNPQFVFDVQTSDNMDAVLLVIAQTFMDACTLAPINKLLYARDIPRYKRMVERYYADIRQTVPASDQEMNSVLAELSWNYSGDLGARVALHELYKYINKYYDQIITALEEDGTAQKMQLGYRLQQIAAAVE 3sva-a2-m2-cA_3sva-a2-m8-cA Crystal structure of V57D mutant of human cystatin C P01034 P01034 3.02 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 1g96-a2-m1-cA_1g96-a2-m6-cA 1g96-a2-m2-cA_1g96-a2-m8-cA 1g96-a2-m3-cA_1g96-a2-m5-cA 1g96-a2-m4-cA_1g96-a2-m7-cA 1r4c-a5-m1-cA_1r4c-a5-m1-cC 1r4c-a5-m1-cB_1r4c-a5-m2-cD 1r4c-a5-m1-cD_1r4c-a5-m2-cB 1r4c-a5-m2-cA_1r4c-a5-m2-cC 1r4c-a6-m1-cE_1r4c-a6-m3-cE 1r4c-a6-m1-cF_1r4c-a6-m1-cH 1r4c-a6-m1-cG_1r4c-a6-m3-cG 1r4c-a6-m3-cF_1r4c-a6-m3-cH 3sva-a2-m1-cA_3sva-a2-m6-cA 3sva-a2-m3-cA_3sva-a2-m5-cA 3sva-a2-m4-cA_3sva-a2-m7-cA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3sva-a2-m3-cA_3sva-a2-m8-cA Crystal structure of V57D mutant of human cystatin C P01034 P01034 3.02 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 1g96-a2-m1-cA_1g96-a2-m7-cA 1g96-a2-m2-cA_1g96-a2-m5-cA 1g96-a2-m3-cA_1g96-a2-m8-cA 1g96-a2-m4-cA_1g96-a2-m6-cA 1r4c-a5-m1-cA_1r4c-a5-m2-cC 1r4c-a5-m1-cB_1r4c-a5-m1-cD 1r4c-a5-m1-cC_1r4c-a5-m2-cA 1r4c-a5-m2-cB_1r4c-a5-m2-cD 1r4c-a6-m1-cE_1r4c-a6-m1-cG 1r4c-a6-m1-cF_1r4c-a6-m3-cF 1r4c-a6-m1-cH_1r4c-a6-m3-cH 1r4c-a6-m3-cE_1r4c-a6-m3-cG 3sva-a2-m1-cA_3sva-a2-m7-cA 3sva-a2-m2-cA_3sva-a2-m5-cA 3sva-a2-m4-cA_3sva-a2-m6-cA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3sva-a2-m4-cA_3sva-a2-m8-cA Crystal structure of V57D mutant of human cystatin C P01034 P01034 3.02 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 1g96-a2-m1-cA_1g96-a2-m5-cA 1g96-a2-m1-cA_1g96-a2-m8-cA 1g96-a2-m2-cA_1g96-a2-m6-cA 1g96-a2-m2-cA_1g96-a2-m7-cA 1g96-a2-m3-cA_1g96-a2-m6-cA 1g96-a2-m3-cA_1g96-a2-m7-cA 1g96-a2-m4-cA_1g96-a2-m5-cA 1g96-a2-m4-cA_1g96-a2-m8-cA 1r4c-a5-m1-cA_1r4c-a5-m1-cD 1r4c-a5-m1-cA_1r4c-a5-m2-cD 1r4c-a5-m1-cB_1r4c-a5-m1-cC 1r4c-a5-m1-cB_1r4c-a5-m2-cC 1r4c-a5-m1-cC_1r4c-a5-m2-cB 1r4c-a5-m1-cD_1r4c-a5-m2-cA 1r4c-a5-m2-cA_1r4c-a5-m2-cD 1r4c-a5-m2-cB_1r4c-a5-m2-cC 1r4c-a6-m1-cE_1r4c-a6-m1-cH 1r4c-a6-m1-cE_1r4c-a6-m3-cF 1r4c-a6-m1-cF_1r4c-a6-m1-cG 1r4c-a6-m1-cF_1r4c-a6-m3-cE 1r4c-a6-m1-cG_1r4c-a6-m3-cH 1r4c-a6-m1-cH_1r4c-a6-m3-cG 1r4c-a6-m3-cE_1r4c-a6-m3-cH 1r4c-a6-m3-cF_1r4c-a6-m3-cG 3sva-a2-m1-cA_3sva-a2-m5-cA 3sva-a2-m1-cA_3sva-a2-m8-cA 3sva-a2-m2-cA_3sva-a2-m6-cA 3sva-a2-m2-cA_3sva-a2-m7-cA 3sva-a2-m3-cA_3sva-a2-m6-cA 3sva-a2-m3-cA_3sva-a2-m7-cA 3sva-a2-m4-cA_3sva-a2-m5-cA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3sva-a2-m7-cA_3sva-a2-m8-cA Crystal structure of V57D mutant of human cystatin C P01034 P01034 3.02 X-RAY DIFFRACTION 229 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 111 1g96-a1-m1-cA_1g96-a1-m2-cA 1g96-a2-m1-cA_1g96-a2-m2-cA 1g96-a2-m3-cA_1g96-a2-m4-cA 1g96-a2-m5-cA_1g96-a2-m6-cA 1g96-a2-m7-cA_1g96-a2-m8-cA 1r4c-a1-m1-cA_1r4c-a1-m1-cB 1r4c-a2-m1-cC_1r4c-a2-m1-cD 1r4c-a3-m1-cE_1r4c-a3-m1-cF 1r4c-a4-m1-cG_1r4c-a4-m1-cH 1r4c-a5-m1-cA_1r4c-a5-m1-cB 1r4c-a5-m1-cC_1r4c-a5-m1-cD 1r4c-a5-m2-cA_1r4c-a5-m2-cB 1r4c-a5-m2-cC_1r4c-a5-m2-cD 1r4c-a6-m1-cE_1r4c-a6-m1-cF 1r4c-a6-m1-cG_1r4c-a6-m1-cH 1r4c-a6-m3-cE_1r4c-a6-m3-cF 1r4c-a6-m3-cG_1r4c-a6-m3-cH 1r4c-a7-m1-cA_1r4c-a7-m1-cB 1r4c-a7-m4-cE_1r4c-a7-m4-cF 1r4c-a8-m1-cC_1r4c-a8-m1-cD 1r4c-a8-m5-cG_1r4c-a8-m5-cH 3ps8-a1-m1-cA_3ps8-a1-m2-cA 3s67-a1-m1-cA_3s67-a1-m2-cA 3sva-a1-m1-cA_3sva-a1-m2-cA 3sva-a2-m1-cA_3sva-a2-m2-cA 3sva-a2-m3-cA_3sva-a2-m4-cA 3sva-a2-m5-cA_3sva-a2-m6-cA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA VGGPMDASVEEEGVRRALDFAVGEYNKASNDMYHSRALQVVRARKQIDAGVNYFLDVELGRTTCTKTQPNLDNCPFHDQPHLKRKAFCSFQIYAVPWQGTMTLSKSTCQDA 3svk-a1-m1-cB_3svk-a1-m1-cA Crystal structure of Acetyl-CoA acetyltransferase from Mycobacterium avium A0A0H2ZTN6 A0A0H2ZTN6 2.2 X-RAY DIFFRACTION 80 0.997 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 359 360 EEAFIYEAIRTPRGKQKNGSLTEVKPLNLVVGLVDELRRRYPDLDETLISDMILGVVDIARTAVLAAGLPETTGGVQLNSGLEAVNTAAQKVRSGWDDLVLAGGVESMWATDPETNYRIGFVPQGIGADLIATLEGFSREDVDAYALRSQQKAAAAWSGGYFAKSVVPVRDQNGLVILDHDEHMRPDTTMEGLAKLKTAFDLQKYHWVEKINHVHTGGNSSGIVDGAALVLVGSEKAGKSQGLTPRARIVATATSMLTGPTPATRKVLDRAGLTIDDIDLFELNEAFASVVLKFQKDLNIPDEKLNVNGGAIAMGHPLGATGAMITGTMVDELERRNARRALITLCIGGGMGVATIIER EEAFIYEAIRTPRGKQKNGSLTEVKPLNLVVGLVDELRRRYPDLDETLISDMILGVVDIARTAVLAAGLPETTGGVQLNASGLEAVNTAAQKVRSGWDDLVLAGGVESMWATDPETNYRIGFVPQGIGADLIATLEGFSREDVDAYALRSQQKAAAAWSGGYFAKSVVPVRDQNGLVILDHDEHMRPDTTMEGLAKLKTAFDQKYHWVEKINHVHTGGNSSGIVDGAALVLVGSEKAGKSQGLTPRARIVATATSMLTGPTPATRKVLDRAGLTIDDIDLFELNEAFASVVLKFQKDLNIPDEKLNVNGGAIAMGHPLGATGAMITGTMVDELERRNARRALITLCIGGGMGVATIIERV 3svl-a1-m1-cA_3svl-a1-m2-cB Structural basis of the improvement of ChrR - a multi-purpose enzyme P0AGE6 P0AGE6 2.2 X-RAY DIFFRACTION 16 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 181 182 3svl-a1-m2-cA_3svl-a1-m1-cB KLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQ KLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQR 3svl-a1-m1-cB_3svl-a1-m2-cB Structural basis of the improvement of ChrR - a multi-purpose enzyme P0AGE6 P0AGE6 2.2 X-RAY DIFFRACTION 13 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 182 182 3svl-a1-m1-cA_3svl-a1-m2-cA KLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQR KLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQR 3svl-a2-m1-cA_3svl-a2-m1-cB Structural basis of the improvement of ChrR - a multi-purpose enzyme P0AGE6 P0AGE6 2.2 X-RAY DIFFRACTION 115 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 181 182 3svl-a1-m1-cA_3svl-a1-m1-cB 3svl-a1-m2-cA_3svl-a1-m2-cB KLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQ KLQVVTLLGSLRKGSFNGMVARTLPKIAPASMEVNALPSIADIPLYDADVQQEEGFPATVEALAEQIRQADGVVIVTPEYNYSVPGGLKNAIDWLSRLPDQPLAGKPVLIQTSSMGVIGGARCQYHLRQILVFLDAMVMNKPEFMGGVIQNKVDPQTGEVIDQGTLDHLTGQLTAFGEFIQR 3svn-a5-m1-cD_3svn-a5-m1-cA Crystal structure of mKate S158A mutant at pH 7.5 1.899 X-RAY DIFFRACTION 71 1.0 32630 (synthetic construct) 32630 (synthetic construct) 223 232 3svn-a5-m1-cB_3svn-a5-m1-cC 3svo-a5-m1-cA_3svo-a5-m1-cD 3svo-a5-m1-cC_3svo-a5-m1-cB 3svr-a5-m1-cA_3svr-a5-m1-cC 3svr-a5-m1-cD_3svr-a5-m1-cB 4kge-a2-m1-cB_4kge-a2-m2-cA ALITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEASTEMLYPADGGLEGRADMALKLVGGGHLICNLKTTYRSKKPAKNLKMPGVYYVDRRLERIKEADKETYVEQHEVAVARYCDLPSKL AAASMSALITENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEASTEMLYPADGGLEGRADMALKLVGGGHLICNLKTTYRSKKPAKNLKMPGVYYVDRRLERIKEADKETYVEQHEVAVARYCDLPSKLAHK 3svt-a1-m1-cA_3svt-a1-m2-cB Structure of a short-chain type dehydrogenase/reductase from Mycobacterium ulcerans A0PUS8 A0PUS8 2 X-RAY DIFFRACTION 14 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 274 275 3svt-a1-m2-cA_3svt-a1-m1-cB SFQDRTYLVTGGGSGIGKGVAAGLVAAGASVMIVGRNPDKLAGAVQELEALGANGGAIRYEPTDITNEDETARAVDAVTAWHGRLHGVVHCAGGSENIGPITQVDSEAWRRTVDLNVNGTMYVLKHAAREMVRGGGGSFVGISSIAASNTHRWFGAYGVTKSAVDHLMQLAADELGASWVRVNSIRPGLIRTDLVAAITESAELSSDYAMCTPLPRQGEVEDVANMAMFLLSDAASFVTGQVINVDGGQMLRRGPDFSAMLEPVFGRDALRGLV LSFQDRTYLVTGGGSGIGKGVAAGLVAAGASVMIVGRNPDKLAGAVQELEALGANGGAIRYEPTDITNEDETARAVDAVTAWHGRLHGVVHCAGGSENIGPITQVDSEAWRRTVDLNVNGTMYVLKHAAREMVRGGGGSFVGISSIAASNTHRWFGAYGVTKSAVDHLMQLAADELGASWVRVNSIRPGLIRTDLVAAITESAELSSDYAMCTPLPRQGEVEDVANMAMFLLSDAASFVTGQVINVDGGQMLRRGPDFSAMLEPVFGRDALRGLV 3svt-a1-m1-cB_3svt-a1-m2-cB Structure of a short-chain type dehydrogenase/reductase from Mycobacterium ulcerans A0PUS8 A0PUS8 2 X-RAY DIFFRACTION 154 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 275 275 3svt-a1-m1-cA_3svt-a1-m2-cA LSFQDRTYLVTGGGSGIGKGVAAGLVAAGASVMIVGRNPDKLAGAVQELEALGANGGAIRYEPTDITNEDETARAVDAVTAWHGRLHGVVHCAGGSENIGPITQVDSEAWRRTVDLNVNGTMYVLKHAAREMVRGGGGSFVGISSIAASNTHRWFGAYGVTKSAVDHLMQLAADELGASWVRVNSIRPGLIRTDLVAAITESAELSSDYAMCTPLPRQGEVEDVANMAMFLLSDAASFVTGQVINVDGGQMLRRGPDFSAMLEPVFGRDALRGLV LSFQDRTYLVTGGGSGIGKGVAAGLVAAGASVMIVGRNPDKLAGAVQELEALGANGGAIRYEPTDITNEDETARAVDAVTAWHGRLHGVVHCAGGSENIGPITQVDSEAWRRTVDLNVNGTMYVLKHAAREMVRGGGGSFVGISSIAASNTHRWFGAYGVTKSAVDHLMQLAADELGASWVRVNSIRPGLIRTDLVAAITESAELSSDYAMCTPLPRQGEVEDVANMAMFLLSDAASFVTGQVINVDGGQMLRRGPDFSAMLEPVFGRDALRGLV 3svt-a1-m2-cA_3svt-a1-m2-cB Structure of a short-chain type dehydrogenase/reductase from Mycobacterium ulcerans A0PUS8 A0PUS8 2 X-RAY DIFFRACTION 104 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 274 275 3svt-a1-m1-cA_3svt-a1-m1-cB SFQDRTYLVTGGGSGIGKGVAAGLVAAGASVMIVGRNPDKLAGAVQELEALGANGGAIRYEPTDITNEDETARAVDAVTAWHGRLHGVVHCAGGSENIGPITQVDSEAWRRTVDLNVNGTMYVLKHAAREMVRGGGGSFVGISSIAASNTHRWFGAYGVTKSAVDHLMQLAADELGASWVRVNSIRPGLIRTDLVAAITESAELSSDYAMCTPLPRQGEVEDVANMAMFLLSDAASFVTGQVINVDGGQMLRRGPDFSAMLEPVFGRDALRGLV LSFQDRTYLVTGGGSGIGKGVAAGLVAAGASVMIVGRNPDKLAGAVQELEALGANGGAIRYEPTDITNEDETARAVDAVTAWHGRLHGVVHCAGGSENIGPITQVDSEAWRRTVDLNVNGTMYVLKHAAREMVRGGGGSFVGISSIAASNTHRWFGAYGVTKSAVDHLMQLAADELGASWVRVNSIRPGLIRTDLVAAITESAELSSDYAMCTPLPRQGEVEDVANMAMFLLSDAASFVTGQVINVDGGQMLRRGPDFSAMLEPVFGRDALRGLV 3sw5-a1-m1-cB_3sw5-a1-m1-cF Crystal structure of inorganic pyrophosphatase from Bartonella henselae A0A0H3M4F9 A0A0H3M4F9 2 X-RAY DIFFRACTION 25 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 172 172 3sw5-a1-m1-cC_3sw5-a1-m1-cD 3sw5-a1-m1-cE_3sw5-a1-m1-cA IKEIAVGKNPPEDVNVIVEVSLGGQPIKYEMDKKSGALFVDRFLYTSMVYPGNYGFVPHTLSEDGDPIDVLICNTRPLLPGCVINVYPIGALIMEDDGGKDEKIIAIPTPKLTQRYNNIHDYTDLPEITLKQIEHFFEHYKDLEPGKWAKIEGWRDKSFAHELIKQAIERNK IKEIAVGKNPPEDVNVIVEVSLGGQPIKYEMDKKSGALFVDRFLYTSMVYPGNYGFVPHTLSEDGDPIDVLICNTRPLLPGCVINVYPIGALIMEDDGGKDEKIIAIPTPKLTQRYNNIHDYTDLPEITLKQIEHFFEHYKDLEPGKWAKIEGWRDKSFAHELIKQAIERNK 3sw5-a1-m1-cC_3sw5-a1-m1-cF Crystal structure of inorganic pyrophosphatase from Bartonella henselae A0A0H3M4F9 A0A0H3M4F9 2 X-RAY DIFFRACTION 49 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 172 172 3sw5-a1-m1-cB_3sw5-a1-m1-cD 3sw5-a1-m1-cB_3sw5-a1-m1-cE 3sw5-a1-m1-cC_3sw5-a1-m1-cA 3sw5-a1-m1-cD_3sw5-a1-m1-cE 3sw5-a1-m1-cF_3sw5-a1-m1-cA IKEIAVGKNPPEDVNVIVEVSLGGQPIKYEMDKKSGALFVDRFLYTSMVYPGNYGFVPHTLSEDGDPIDVLICNTRPLLPGCVINVYPIGALIMEDDGGKDEKIIAIPTPKLTQRYNNIHDYTDLPEITLKQIEHFFEHYKDLEPGKWAKIEGWRDKSFAHELIKQAIERNK IKEIAVGKNPPEDVNVIVEVSLGGQPIKYEMDKKSGALFVDRFLYTSMVYPGNYGFVPHTLSEDGDPIDVLICNTRPLLPGCVINVYPIGALIMEDDGGKDEKIIAIPTPKLTQRYNNIHDYTDLPEITLKQIEHFFEHYKDLEPGKWAKIEGWRDKSFAHELIKQAIERNK 3sw5-a1-m1-cD_3sw5-a1-m1-cF Crystal structure of inorganic pyrophosphatase from Bartonella henselae A0A0H3M4F9 A0A0H3M4F9 2 X-RAY DIFFRACTION 52 1.0 38323 (Bartonella henselae) 38323 (Bartonella henselae) 172 172 3sw5-a1-m1-cB_3sw5-a1-m1-cA 3sw5-a1-m1-cC_3sw5-a1-m1-cE IKEIAVGKNPPEDVNVIVEVSLGGQPIKYEMDKKSGALFVDRFLYTSMVYPGNYGFVPHTLSEDGDPIDVLICNTRPLLPGCVINVYPIGALIMEDDGGKDEKIIAIPTPKLTQRYNNIHDYTDLPEITLKQIEHFFEHYKDLEPGKWAKIEGWRDKSFAHELIKQAIERNK IKEIAVGKNPPEDVNVIVEVSLGGQPIKYEMDKKSGALFVDRFLYTSMVYPGNYGFVPHTLSEDGDPIDVLICNTRPLLPGCVINVYPIGALIMEDDGGKDEKIIAIPTPKLTQRYNNIHDYTDLPEITLKQIEHFFEHYKDLEPGKWAKIEGWRDKSFAHELIKQAIERNK 3swe-a2-m1-cA_3swe-a2-m4-cA Haemophilus influenzae MurA in complex with UDP-N-acetylmuramic acid and covalent adduct of PEP with Cys117 P45025 P45025 2.2 X-RAY DIFFRACTION 24 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 419 419 3swe-a2-m2-cA_3swe-a2-m3-cA MDKFRVYGQSRLSGSVNISGAKNAALPILFAAILATEPVKLTNVPELKDIETTLKILRQLGVVVDRDATGAVLLDASNINHFTAPYELVKTMRASIWALAPLVARFHQGQVSLPGGSIGARPVDLHISGLEKLGADIVLEEGYVKAQVSDRLVGTRIVIEKVSVGATLSIMMAATLAKGTTVIENAAREPEIVDTADFLNKMGAKITGAGSAHITIEGVERLTGCEHSVVPDRIETGTFLIAAAISGGCVVCQNTKADTLDAVIDKLREAGAQVDVTENSITLDMLGNRPKAVNIRTAPHPGFPTDMQAQFTLLNMVAEGTSIITETIFENRFMHIPELIRMGGKAEIEGNTAVCHGVEQLSGTEVIATDLRASISLVLAGCIATGETIVDRIYHIDRGYEHIEDKLRGLGAKIERFSG MDKFRVYGQSRLSGSVNISGAKNAALPILFAAILATEPVKLTNVPELKDIETTLKILRQLGVVVDRDATGAVLLDASNINHFTAPYELVKTMRASIWALAPLVARFHQGQVSLPGGSIGARPVDLHISGLEKLGADIVLEEGYVKAQVSDRLVGTRIVIEKVSVGATLSIMMAATLAKGTTVIENAAREPEIVDTADFLNKMGAKITGAGSAHITIEGVERLTGCEHSVVPDRIETGTFLIAAAISGGCVVCQNTKADTLDAVIDKLREAGAQVDVTENSITLDMLGNRPKAVNIRTAPHPGFPTDMQAQFTLLNMVAEGTSIITETIFENRFMHIPELIRMGGKAEIEGNTAVCHGVEQLSGTEVIATDLRASISLVLAGCIATGETIVDRIYHIDRGYEHIEDKLRGLGAKIERFSG 3swe-a2-m2-cA_3swe-a2-m4-cA Haemophilus influenzae MurA in complex with UDP-N-acetylmuramic acid and covalent adduct of PEP with Cys117 P45025 P45025 2.2 X-RAY DIFFRACTION 62 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 419 419 3swe-a2-m1-cA_3swe-a2-m3-cA MDKFRVYGQSRLSGSVNISGAKNAALPILFAAILATEPVKLTNVPELKDIETTLKILRQLGVVVDRDATGAVLLDASNINHFTAPYELVKTMRASIWALAPLVARFHQGQVSLPGGSIGARPVDLHISGLEKLGADIVLEEGYVKAQVSDRLVGTRIVIEKVSVGATLSIMMAATLAKGTTVIENAAREPEIVDTADFLNKMGAKITGAGSAHITIEGVERLTGCEHSVVPDRIETGTFLIAAAISGGCVVCQNTKADTLDAVIDKLREAGAQVDVTENSITLDMLGNRPKAVNIRTAPHPGFPTDMQAQFTLLNMVAEGTSIITETIFENRFMHIPELIRMGGKAEIEGNTAVCHGVEQLSGTEVIATDLRASISLVLAGCIATGETIVDRIYHIDRGYEHIEDKLRGLGAKIERFSG MDKFRVYGQSRLSGSVNISGAKNAALPILFAAILATEPVKLTNVPELKDIETTLKILRQLGVVVDRDATGAVLLDASNINHFTAPYELVKTMRASIWALAPLVARFHQGQVSLPGGSIGARPVDLHISGLEKLGADIVLEEGYVKAQVSDRLVGTRIVIEKVSVGATLSIMMAATLAKGTTVIENAAREPEIVDTADFLNKMGAKITGAGSAHITIEGVERLTGCEHSVVPDRIETGTFLIAAAISGGCVVCQNTKADTLDAVIDKLREAGAQVDVTENSITLDMLGNRPKAVNIRTAPHPGFPTDMQAQFTLLNMVAEGTSIITETIFENRFMHIPELIRMGGKAEIEGNTAVCHGVEQLSGTEVIATDLRASISLVLAGCIATGETIVDRIYHIDRGYEHIEDKLRGLGAKIERFSG 3swe-a2-m3-cA_3swe-a2-m4-cA Haemophilus influenzae MurA in complex with UDP-N-acetylmuramic acid and covalent adduct of PEP with Cys117 P45025 P45025 2.2 X-RAY DIFFRACTION 93 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 419 419 2rl1-a1-m1-cA_2rl1-a1-m2-cA 2rl2-a1-m1-cA_2rl2-a1-m2-cA 3swe-a2-m1-cA_3swe-a2-m2-cA MDKFRVYGQSRLSGSVNISGAKNAALPILFAAILATEPVKLTNVPELKDIETTLKILRQLGVVVDRDATGAVLLDASNINHFTAPYELVKTMRASIWALAPLVARFHQGQVSLPGGSIGARPVDLHISGLEKLGADIVLEEGYVKAQVSDRLVGTRIVIEKVSVGATLSIMMAATLAKGTTVIENAAREPEIVDTADFLNKMGAKITGAGSAHITIEGVERLTGCEHSVVPDRIETGTFLIAAAISGGCVVCQNTKADTLDAVIDKLREAGAQVDVTENSITLDMLGNRPKAVNIRTAPHPGFPTDMQAQFTLLNMVAEGTSIITETIFENRFMHIPELIRMGGKAEIEGNTAVCHGVEQLSGTEVIATDLRASISLVLAGCIATGETIVDRIYHIDRGYEHIEDKLRGLGAKIERFSG MDKFRVYGQSRLSGSVNISGAKNAALPILFAAILATEPVKLTNVPELKDIETTLKILRQLGVVVDRDATGAVLLDASNINHFTAPYELVKTMRASIWALAPLVARFHQGQVSLPGGSIGARPVDLHISGLEKLGADIVLEEGYVKAQVSDRLVGTRIVIEKVSVGATLSIMMAATLAKGTTVIENAAREPEIVDTADFLNKMGAKITGAGSAHITIEGVERLTGCEHSVVPDRIETGTFLIAAAISGGCVVCQNTKADTLDAVIDKLREAGAQVDVTENSITLDMLGNRPKAVNIRTAPHPGFPTDMQAQFTLLNMVAEGTSIITETIFENRFMHIPELIRMGGKAEIEGNTAVCHGVEQLSGTEVIATDLRASISLVLAGCIATGETIVDRIYHIDRGYEHIEDKLRGLGAKIERFSG 3swj-a2-m1-cA_3swj-a2-m2-cA Crystal structure of Campylobacter jejuni ChuZ 2.409 X-RAY DIFFRACTION 190 1.0 195099 (Campylobacter jejuni RM1221) 195099 (Campylobacter jejuni RM1221) 246 246 NFESIISHMNDHHKSNLVDLCKKFGGIEQVQVFLKSVDFNGLDLVYENLRVEFPKKADENTIKDTIISLCMSAKSEQNFSGVEKELNEFMLSFNSVALATLNANGEVVCSYAPFVSTQWGNYIYISEVSEHFNNIKVNPNNIEIMFLEDESKAASVILRKRLRYRVNASFLERGERFDQIYDEFEKQTGGEGGIKTIRKMLDFHLVKLEFKKGRFVKGFGQAYDIENGNVTHVGASGNPHKFLHKH NFESIISHMNDHHKSNLVDLCKKFGGIEQVQVFLKSVDFNGLDLVYENLRVEFPKKADENTIKDTIISLCMSAKSEQNFSGVEKELNEFMLSFNSVALATLNANGEVVCSYAPFVSTQWGNYIYISEVSEHFNNIKVNPNNIEIMFLEDESKAASVILRKRLRYRVNASFLERGERFDQIYDEFEKQTGGEGGIKTIRKMLDFHLVKLEFKKGRFVKGFGQAYDIENGNVTHVGASGNPHKFLHKH 3swm-a1-m1-cB_3swm-a1-m1-cA The NAC domain of ANAC019 in complex with DNA, gold derivative Q9C932 Q9C932 4.25 X-RAY DIFFRACTION 44 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 140 141 1ut4-a1-m1-cA_1ut4-a1-m1-cB 1ut7-a1-m1-cA_1ut7-a1-m1-cB 3swm-a1-m1-cC_3swm-a1-m1-cD 3swp-a1-m1-cB_3swp-a1-m1-cA 3swp-a1-m1-cC_3swp-a1-m1-cD 4dul-a1-m1-cB_4dul-a1-m1-cA PLTQLSLPPGFRFYPTDEELMVQYLCRKAAGYDFSLQLIAEIDLYKFDPWVLPNKALFGEKEWYFFSPRDPNRVAGSGYWKATGTDKIISTEGQRVGIKKALVFYIGKAPKGTKTNWIMHEYRLIEPSDDWVLCRIYKKQ PLTQLSLPPGFRFYPTDEELMVQYLCRKAAGYDFSLQLIAEIDLYKFDPWVLPNKALFGEKEWYFFSPRDRPNRVAGSGYWKATGTDKIISTEGQRVGIKKALVFYIGKAPKGTKTNWIMHEYRLIEPSDDWVLCRIYKKQ 3swo-a1-m1-cB_3swo-a1-m1-cD Crystal structure of a glutaryl-coa dehydrogenase from mycobacterium smegmatis in complex with FADH2 A0R6V6 A0R6V6 1.45 X-RAY DIFFRACTION 145 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 386 386 3swo-a1-m1-cC_3swo-a1-m1-cA TYAPLELFDTDRLLDQDERDIAATVRQFVDTRLKPNVEGWFESATLPSELAKEFGNLGVLGMHLQGYGCAGTNAVSYGLACMELEAGDSGFRSFVSVQGSLSMFSIYRYGSEEQKNEWLPRLAAGDAIGCFGLTEPDFGSNPAGMRTRARRDGSDWILNGTKMWITNGNLADVATVWAQTDDGIRGFLVPTDTPGFTANEIHRKLSLRASVTSELVLDNVRLPASAQLPLAEGLSAPLSCLNEARFGIVFGALGAARDSLETTIAYTQSREVFDKPLSNYQLTQEKLANMTVELGKGMLLAIHLGRIKDAEGVRPEQISLGKLNNVREAIAIARECRTLLGGSGITLEYSPLRHANNLESVLTYEGTSEMHLLSIGKALTGKAAFR TYAPLELFDTDRLLDQDERDIAATVRQFVDTRLKPNVEGWFESATLPSELAKEFGNLGVLGMHLQGYGCAGTNAVSYGLACMELEAGDSGFRSFVSVQGSLSMFSIYRYGSEEQKNEWLPRLAAGDAIGCFGLTEPDFGSNPAGMRTRARRDGSDWILNGTKMWITNGNLADVATVWAQTDDGIRGFLVPTDTPGFTANEIHRKLSLRASVTSELVLDNVRLPASAQLPLAEGLSAPLSCLNEARFGIVFGALGAARDSLETTIAYTQSREVFDKPLSNYQLTQEKLANMTVELGKGMLLAIHLGRIKDAEGVRPEQISLGKLNNVREAIAIARECRTLLGGSGITLEYSPLRHANNLESVLTYEGTSEMHLLSIGKALTGKAAFR 3swo-a1-m1-cD_3swo-a1-m1-cA Crystal structure of a glutaryl-coa dehydrogenase from mycobacterium smegmatis in complex with FADH2 A0R6V6 A0R6V6 1.45 X-RAY DIFFRACTION 97 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 386 388 3swo-a1-m1-cB_3swo-a1-m1-cC TYAPLELFDTDRLLDQDERDIAATVRQFVDTRLKPNVEGWFESATLPSELAKEFGNLGVLGMHLQGYGCAGTNAVSYGLACMELEAGDSGFRSFVSVQGSLSMFSIYRYGSEEQKNEWLPRLAAGDAIGCFGLTEPDFGSNPAGMRTRARRDGSDWILNGTKMWITNGNLADVATVWAQTDDGIRGFLVPTDTPGFTANEIHRKLSLRASVTSELVLDNVRLPASAQLPLAEGLSAPLSCLNEARFGIVFGALGAARDSLETTIAYTQSREVFDKPLSNYQLTQEKLANMTVELGKGMLLAIHLGRIKDAEGVRPEQISLGKLNNVREAIAIARECRTLLGGSGITLEYSPLRHANNLESVLTYEGTSEMHLLSIGKALTGKAAFR KSTYAPLELFDTDRLLDQDERDIAATVRQFVDTRLKPNVEGWFESATLPSELAKEFGNLGVLGMHLQGYGCAGTNAVSYGLACMELEAGDSGFRSFVSVQGSLSMFSIYRYGSEEQKNEWLPRLAAGDAIGCFGLTEPDFGSNPAGMRTRARRDGSDWILNGTKMWITNGNLADVATVWAQTDDGIRGFLVPTDTPGFTANEIHRKLSLRASVTSELVLDNVRLPASAQLPLAEGLSAPLSCLNEARFGIVFGALGAARDSLETTIAYTQSREVFDKPLSNYQLTQEKLANMTVELGKGMLLAIHLGRIKDAEGVRPEQISLGKLNNVREAIAIARECRTLLGGSGITLEYSPLRHANNLESVLTYEGTSEMHLLSIGKALTGKAAFR 3swt-a3-m2-cA_3swt-a3-m4-cB Crystal Structure of the Taurine catabolism dioxygenase, TauD from Mycobacterium marinum B2HD26 B2HD26 2.05 X-RAY DIFFRACTION 49 0.996 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 244 246 3swt-a3-m1-cA_3swt-a3-m3-cB LITVKKLGSRIGAQVDGVSLGADLDAAAVDQIRAALLEHKVIFFRNQHHLDDQQQLQFAGLLGTPIANRWHTDVTFAANYPAASILRAVTLPNYGGSTLWANTATAYAELPEPLKCLVENLWALHTNRPDFRTEHPVVRVHPETGERTLLAGDFVRGFVGLDSQESSALFELLQRRITSPENTIRWNWESGDVAIWDNRATQHRAIDDYDDQHRLLHRVTLMGDVPVDVHGQRSRVISGAPLAL LITVKKLGSRIGAQVDGVSLGADLDAAAVDQIRAALLEHKVIFFRNQHHLDDQQQLQFAGLLGTPIGHNRWHTDVTFAANYPAASILRAVTLPNYGGSTLWANTATAYAELPEPLKCLVENLWALHTNRPDFRTEHPVVRVHPETGERTLLAGDFVRGFVGLDSQESSALFELLQRRITSPENTIRWNWESGDVAIWDNRATQHRAIDDYDDQHRLLHRVTLMGDVPVDVHGQRSRVISGAPLALA 3swt-a3-m3-cB_3swt-a3-m4-cB Crystal Structure of the Taurine catabolism dioxygenase, TauD from Mycobacterium marinum B2HD26 B2HD26 2.05 X-RAY DIFFRACTION 56 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 246 246 3swt-a3-m1-cA_3swt-a3-m2-cA LITVKKLGSRIGAQVDGVSLGADLDAAAVDQIRAALLEHKVIFFRNQHHLDDQQQLQFAGLLGTPIGHNRWHTDVTFAANYPAASILRAVTLPNYGGSTLWANTATAYAELPEPLKCLVENLWALHTNRPDFRTEHPVVRVHPETGERTLLAGDFVRGFVGLDSQESSALFELLQRRITSPENTIRWNWESGDVAIWDNRATQHRAIDDYDDQHRLLHRVTLMGDVPVDVHGQRSRVISGAPLALA LITVKKLGSRIGAQVDGVSLGADLDAAAVDQIRAALLEHKVIFFRNQHHLDDQQQLQFAGLLGTPIGHNRWHTDVTFAANYPAASILRAVTLPNYGGSTLWANTATAYAELPEPLKCLVENLWALHTNRPDFRTEHPVVRVHPETGERTLLAGDFVRGFVGLDSQESSALFELLQRRITSPENTIRWNWESGDVAIWDNRATQHRAIDDYDDQHRLLHRVTLMGDVPVDVHGQRSRVISGAPLALA 3swx-a1-m1-cB_3swx-a1-m1-cC Crystal structure of a probable enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1MM02 B1MM02 2.1 X-RAY DIFFRACTION 140 1.0 36809 (Mycobacteroides abscessus) 36809 (Mycobacteroides abscessus) 259 259 3swx-a1-m1-cA_3swx-a1-m1-cB 3swx-a1-m1-cA_3swx-a1-m1-cC DYETLRIRRDGYVLVIGLNRPAKRNAFDKTMLEELALALGEYETDTDLRAAVLYGEGPLFTAGLDLASVAAEIQGGASLTPEGGINPWQVDGRQLSKPLLVAVHGKVLTLGIELALAADIVIADETATFAQLEVNRGIYPFGGATIRFPRTAGWGNAMRWMLTADTFDAVEAHRIGIVQEIVPVGEHVDTAIAIAQTIARQAPLGVQATLRNARLAVREGDAAAEEQLVPTVRELFTSEDATLGVQAFLSRTTAEFVGR DYETLRIRRDGYVLVIGLNRPAKRNAFDKTMLEELALALGEYETDTDLRAAVLYGEGPLFTAGLDLASVAAEIQGGASLTPEGGINPWQVDGRQLSKPLLVAVHGKVLTLGIELALAADIVIADETATFAQLEVNRGIYPFGGATIRFPRTAGWGNAMRWMLTADTFDAVEAHRIGIVQEIVPVGEHVDTAIAIAQTIARQAPLGVQATLRNARLAVREGDAAAEEQLVPTVRELFTSEDATLGVQAFLSRTTAEFVGR 3swy-a1-m1-cA_3swy-a1-m1-cC CNGA3 626-672 containing CLZ domain Q16281 Q16281 1.9 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 46 3swy-a1-m1-cA_3swy-a1-m1-cB 3swy-a1-m1-cB_3swy-a1-m1-cC GALEEKVEQLGSSLDTLQTRFARLLAEYNATQMKMKQRLSQLESQV GALEEKVEQLGSSLDTLQTRFARLLAEYNATQMKMKQRLSQLESQV 3sx2-a1-m1-cA_3sx2-a1-m1-cD Crystal structure of a putative 3-ketoacyl-(acyl-carrier-protein) reductase from Mycobacterium paratuberculosis in complex with NAD Q73W00 Q73W00 1.5 X-RAY DIFFRACTION 109 1.0 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 268 269 3sx2-a1-m1-cB_3sx2-a1-m1-cC 3sx2-a2-m1-cG_3sx2-a2-m1-cF 3sx2-a2-m1-cH_3sx2-a2-m1-cE GPLTGKVAFITGAARGQGRAHAVRLAADGADIIAVDLCDQIASVPYPLATPEELAATVKLVEDIGSRIVARQADVRDRESLSAALQAGLDELGRLDIVVANAGIAPMSAGDDGWHDVIDVNLTGVYHTIKVAIPTLVKQGTGGSIVLISSSAGLAGVGSADPGSVGYVAAKHGVVGLMRVYANLLAGQMIRVNSIHPSGVETPMINNEFTREWLAKMAAATDGAMGNAMPVEVLAPEDVANAVAWLVSDQARYITGVTLPVDAGFLNK GPLTGKVAFITGAARGQGRAHAVRLAADGADIIAVDLCDQIASVPYPLATPEELAATVKLVEDIGSRIVARQADVRDRESLSAALQAGLDELGRLDIVVANAGIAPMSAGDDGWHDVIDVNLTGVYHTIKVAIPTLVKQGTGGSIVLISSSAGLAGVGSADPGSVGYVAAKHGVVGLMRVYANLLAGQMIRVNSIHPSGVETPMINNEFTREWLAKMAAATDTGAMGNAMPVEVLAPEDVANAVAWLVSDQARYITGVTLPVDAGFLNK 3sx2-a2-m1-cH_3sx2-a2-m1-cG Crystal structure of a putative 3-ketoacyl-(acyl-carrier-protein) reductase from Mycobacterium paratuberculosis in complex with NAD Q73W00 Q73W00 1.5 X-RAY DIFFRACTION 99 1.0 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 249 267 3sx2-a1-m1-cB_3sx2-a1-m1-cA 3sx2-a1-m1-cC_3sx2-a1-m1-cD 3sx2-a2-m1-cE_3sx2-a2-m1-cF GPLTGKVAFITGAARGQGRAHAVRLAADGADIIAVDLCDQIASVPYPLATPEELAATVKLVEDIGSRIVARQADVRDRESLSAALQAGLDELGRLDIVVANAGIAPMSAGDDGWHDVIDVNLTGVYHTIKVAIPTLVKQGTGGSIVLISSSAGLAGVGSADPGSVGYVAAKHGVVGLMRVYANLLAGQMIRVNSIHPSGVETPMINNEFTREWEVLAPEDVANAVAWLVSDQARYITGVTLPVDAGFLN GPLTGKVAFITGAARGQGRAHAVRLAADGADIIAVDLCDQIASVPYPLATPEELAATVKLVEDIGSRIVARQADVRDRESLSAALQAGLDELGRLDIVVANAGIAPMSAGDDGWHDVIDVNLTGVYHTIKVAIPTLVKQGTGGSIVLISSSAGLAGVGSADPGSVGYVAAKHGVVGLMRVYANLLAGQMIRVNSIHPSGVETPMINNEFTREWLAKMAAATGAMGNAMPVEVLAPEDVANAVAWLVSDQARYITGVTLPVDAGFLNK 3sx6-a1-m1-cA_3sx6-a1-m2-cA Crystal structure of sulfide:quinone oxidoreductase Cys356Ala variant from Acidithiobacillus ferrooxidans complexed with decylubiquinone B7JBP8 B7JBP8 1.7955 X-RAY DIFFRACTION 51 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 421 421 3sxi-a1-m1-cA_3sxi-a1-m2-cA 3sz0-a1-m1-cA_3sz0-a1-m2-cA 3szc-a1-m1-cA_3szc-a1-m2-cA 3szf-a1-m1-cA_3szf-a1-m2-cA 3szw-a1-m1-cA_3szw-a1-m2-cA 3t0k-a1-m1-cA_3t0k-a1-m2-cA 3t14-a1-m1-cA_3t14-a1-m2-cA 3t2z-a1-m1-cA_3t2z-a1-m1-cB 3t31-a1-m1-cA_3t31-a1-m2-cA MRGSAHVVILGAGTGGMPAAYEMKEALGSGHEVTLISANDYFQFVPSNPWVGVGWKERDDIAFPIRHYVERKGIHFIAQSAEQIDAEAQNITLADGNTVHYDYLMIATGPKLAFENVPGSDPHEGPVQSICTVDHAERAFAEYQALLREPGPIVIGAMAGASCFGPAYEYAMIVASDLKKRGMRDKIPSFTFITSEPYIGHLGIQGVGDSKGILTKGLKEEGIEAYTNCKVTKVEDNKMYVTQVDEKGETIKEMVLPVKFGMMIPAFKGVPAVAGVEGLCNPGGFVLVDEHQRSKKYANIFAAGIAIAIPPVETTPVPTGAPKTGYMIESMVSAAVHNIKADLEGRKGEQTMGTWNAVAFADMGDRGAAFIALPQLKPRKVDVFAYGRWVHLAKVAFEKYFIRKMKMGVSEPFYEKVLFKM MRGSAHVVILGAGTGGMPAAYEMKEALGSGHEVTLISANDYFQFVPSNPWVGVGWKERDDIAFPIRHYVERKGIHFIAQSAEQIDAEAQNITLADGNTVHYDYLMIATGPKLAFENVPGSDPHEGPVQSICTVDHAERAFAEYQALLREPGPIVIGAMAGASCFGPAYEYAMIVASDLKKRGMRDKIPSFTFITSEPYIGHLGIQGVGDSKGILTKGLKEEGIEAYTNCKVTKVEDNKMYVTQVDEKGETIKEMVLPVKFGMMIPAFKGVPAVAGVEGLCNPGGFVLVDEHQRSKKYANIFAAGIAIAIPPVETTPVPTGAPKTGYMIESMVSAAVHNIKADLEGRKGEQTMGTWNAVAFADMGDRGAAFIALPQLKPRKVDVFAYGRWVHLAKVAFEKYFIRKMKMGVSEPFYEKVLFKM 3sxm-a1-m1-cA_3sxm-a1-m1-cB Metal-free FCD domain of TM0439 a putative transcriptional regulator Q9WYS0 Q9WYS0 1.55 X-RAY DIFFRACTION 45 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 137 137 3fms-a1-m1-cA_3fms-a1-m2-cA 3sxk-a1-m1-cB_3sxk-a1-m1-cA 3sxy-a1-m1-cA_3sxy-a1-m1-cB 3sxz-a1-m1-cA_3sxz-a1-m1-cB GAMDEKFIRETIETRIMMEVFCLENYFDKIAGSEELLEIKGEIDDVAAREIFDDSDERLHKLFIRASGNELIISLYEKIWDRIDLVRHLNERYVVSNREHKELIERIISGDKEGAIEKLKEHLKNVEAETIKNLYTY GAMDEKFIRETIETRIMMEVFCLENYFDKIAGSEELLEIKGEIDDVAAREIFDDSDERLHKLFIRASGNELIISLYEKIWDRIDLVRHLNERYVVSNREHKELIERIISGDKEGAIEKLKEHLKNVEAETIKNLYTY 3sxp-a1-m1-cC_3sxp-a1-m1-cE Crystal Structure of Helicobacter pylori ADP-L-glycero-D-manno-heptose-6-epimerase (rfaD, HP0859) B5Z7L9 B5Z7L9 2.55 X-RAY DIFFRACTION 49 1.0 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 310 310 3sxp-a1-m1-cA_3sxp-a1-m1-cC 3sxp-a1-m1-cA_3sxp-a1-m1-cD 3sxp-a1-m1-cB_3sxp-a1-m1-cD 3sxp-a1-m1-cE_3sxp-a1-m1-cB MRYIDDELENQTILITGGAGFVGSNLAFHFQENHPKAKVVVLDKFRSNPSSLGHFKNLIGFKGEVIAADINNPLDLRRLEKLHFDYLFHQAAVSDTTMLNQELVMKTNYQAFLNLLEIARSKKAKVIYASSAGVYGNTKAPNVVGKNESPENVYGFSKLCMDEFVLSHSNDNVQVGLRYFNVYGPREFYKEKTASMVLQLALGAMAFKEVKLFEFGEQLRDFVYIEDVIQANVKAMKAQKSGVYNVGYSQARSYNEIVSILKEHLGDFKVTYIKKHTQAHIEPTILDLDYTPLYDLESGIKDYLPHIHAI MRYIDDELENQTILITGGAGFVGSNLAFHFQENHPKAKVVVLDKFRSNPSSLGHFKNLIGFKGEVIAADINNPLDLRRLEKLHFDYLFHQAAVSDTTMLNQELVMKTNYQAFLNLLEIARSKKAKVIYASSAGVYGNTKAPNVVGKNESPENVYGFSKLCMDEFVLSHSNDNVQVGLRYFNVYGPREFYKEKTASMVLQLALGAMAFKEVKLFEFGEQLRDFVYIEDVIQANVKAMKAQKSGVYNVGYSQARSYNEIVSILKEHLGDFKVTYIKKHTQAHIEPTILDLDYTPLYDLESGIKDYLPHIHAI 3sxq-a1-m2-cB_3sxq-a1-m3-cB Structure of a hexameric multiheme c nitrite reductase from the extremophile bacterium Thiolkalivibrio paradoxus E7EDQ7 E7EDQ7 1.9 X-RAY DIFFRACTION 73 1.0 108010 (Thioalkalivibrio paradoxus) 108010 (Thioalkalivibrio paradoxus) 517 517 3sxq-a1-m1-cA_3sxq-a1-m2-cA 3sxq-a1-m1-cA_3sxq-a1-m3-cA 3sxq-a1-m1-cB_3sxq-a1-m2-cB 3sxq-a1-m1-cB_3sxq-a1-m3-cB 3sxq-a1-m2-cA_3sxq-a1-m3-cA 3ttb-a1-m1-cA_3ttb-a1-m2-cA 3ttb-a1-m1-cA_3ttb-a1-m3-cA 3ttb-a1-m1-cB_3ttb-a1-m2-cB 3ttb-a1-m1-cB_3ttb-a1-m3-cB 3ttb-a1-m2-cA_3ttb-a1-m3-cA 3ttb-a1-m2-cB_3ttb-a1-m3-cB LKPVDALQCYDCHTQIEDMHVVGKHATVNCVHCHDATEHVETASARRMGERPVTHTSPEACASCHTAQFNSFASVRHESHPREEKANPRSRSPKFDTLIGAHGFSLEHAEPRSHAFMLVDHFIVDRAYGGRFQYKSWQNVTDGLGAVRGAWTVIEDMDPTTSDQRRFLAQTATAANPVCLNCKTQDHILDWAYMGDEHDAAKWARTSKVVDFARDLHHPVNCYMCHDPHSTEPRVVRDALIHAVVDQGLGTYPYDEAKSEHVTLTPVTFQRGGEDFRKIGLLNVADSNLMCGQCHVEYNCNPGFQQSDGAPVGMDDRRTNHFFWANVFDYAEAAKEIDFFDFTHVTTGAPLPKLQHPELETFWGSTHERNGVTCADCHMPRVKLENGKEYTMHSPRTPRDMMNRACLNCHDGWTEAEAEYAIDYIKNYTHGKIMKAEFWLARMIDLFPVAKRAGVSEDVLNEVRALHYDAHLHWEWWTAENSVGFHNPDQARESLMKSITKSKEGVGKLDAAIDAAV LKPVDALQCYDCHTQIEDMHVVGKHATVNCVHCHDATEHVETASARRMGERPVTHTSPEACASCHTAQFNSFASVRHESHPREEKANPRSRSPKFDTLIGAHGFSLEHAEPRSHAFMLVDHFIVDRAYGGRFQYKSWQNVTDGLGAVRGAWTVIEDMDPTTSDQRRFLAQTATAANPVCLNCKTQDHILDWAYMGDEHDAAKWARTSKVVDFARDLHHPVNCYMCHDPHSTEPRVVRDALIHAVVDQGLGTYPYDEAKSEHVTLTPVTFQRGGEDFRKIGLLNVADSNLMCGQCHVEYNCNPGFQQSDGAPVGMDDRRTNHFFWANVFDYAEAAKEIDFFDFTHVTTGAPLPKLQHPELETFWGSTHERNGVTCADCHMPRVKLENGKEYTMHSPRTPRDMMNRACLNCHDGWTEAEAEYAIDYIKNYTHGKIMKAEFWLARMIDLFPVAKRAGVSEDVLNEVRALHYDAHLHWEWWTAENSVGFHNPDQARESLMKSITKSKEGVGKLDAAIDAAV 3sxq-a1-m3-cB_3sxq-a1-m3-cA Structure of a hexameric multiheme c nitrite reductase from the extremophile bacterium Thiolkalivibrio paradoxus E7EDQ7 E7EDQ7 1.9 X-RAY DIFFRACTION 91 1.0 108010 (Thioalkalivibrio paradoxus) 108010 (Thioalkalivibrio paradoxus) 517 519 3sxq-a1-m1-cB_3sxq-a1-m1-cA 3sxq-a1-m2-cB_3sxq-a1-m2-cA 3ttb-a1-m1-cA_3ttb-a1-m1-cB 3ttb-a1-m2-cA_3ttb-a1-m2-cB 3ttb-a1-m3-cA_3ttb-a1-m3-cB LKPVDALQCYDCHTQIEDMHVVGKHATVNCVHCHDATEHVETASARRMGERPVTHTSPEACASCHTAQFNSFASVRHESHPREEKANPRSRSPKFDTLIGAHGFSLEHAEPRSHAFMLVDHFIVDRAYGGRFQYKSWQNVTDGLGAVRGAWTVIEDMDPTTSDQRRFLAQTATAANPVCLNCKTQDHILDWAYMGDEHDAAKWARTSKVVDFARDLHHPVNCYMCHDPHSTEPRVVRDALIHAVVDQGLGTYPYDEAKSEHVTLTPVTFQRGGEDFRKIGLLNVADSNLMCGQCHVEYNCNPGFQQSDGAPVGMDDRRTNHFFWANVFDYAEAAKEIDFFDFTHVTTGAPLPKLQHPELETFWGSTHERNGVTCADCHMPRVKLENGKEYTMHSPRTPRDMMNRACLNCHDGWTEAEAEYAIDYIKNYTHGKIMKAEFWLARMIDLFPVAKRAGVSEDVLNEVRALHYDAHLHWEWWTAENSVGFHNPDQARESLMKSITKSKEGVGKLDAAIDAAV QLKPVDALQCYDCHTQIEDMHVVGKHATVNCVHCHDATEHVETASARRMGERPVTHTSPEACASCHTAQFNSFASVRHESHPREEKANPRSRSPKFDTLIGAHGFSLEHAEPRSHAFMLVDHFIVDRAYGGRFQYKSWQNVTDGLGAVRGAWTVIEDMDPTTSDQRRFLAQTATAANPVCLNCKTQDHILDWAYMGDEHDAAKWARTSKVVDFARDLHHPVNCYMCHDPHSTEPRVVRDALIHAVVDQGLGTYPYDEAKSEHVTLTPVTFQRGGEDFRKIGLLNVADSNLMCGQCHVEYNCNPGFQQSDGAPVGMDDRRTNHFFWANVFDYAEAAKEIDFFDFTHVTTGAPLPKLQHPELETFWGSTHERNGVTCADCHMPRVKLENGKEYTMHSPRTPRDMMNRACLNCHDGWTEAEAEYAIDYIKNYTHGKIMKAEFWLARMIDLFPVAKRAGVSEDVLNEVRALHYDAHLHWEWWTAENSVGFHNPDQARESLMKSITKSKEGVGKLDAAIDAAVA 3sxr-a3-m1-cB_3sxr-a3-m1-cA Crystal structure of BMX non-receptor tyrosine kinase complex with dasatinib P51813 P51813 2.4 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 260 GHMELKREEITLLKELVVKLGKWKGQYDVAVKMIKEGSMSEDEFFQEAQTMMKLSHPKLVKFYGVCSKEYPIYIVTEYISNGCLLNYLRSHGKGLEPSQLLEMCYDVCEGMAFLESHQFIHRDLAARNCLVDRDLCVKVSDFGMTRYVLDDQYVSSVGTKFPVKWSAPEVFHYFKYSSKSDVWAFGILMWEVFSLGKMPYDLYTNSEVVLKVSQGHRLYRPHLASDTIYQIMYSCWHELPEKRPTFQQLLSSIEPLRE GHMELKREEITLLKELGSVVKLGKWKGQYDVAVKMIKEGSMSEDEFFQEAQTMMKLSHPKLVKFYGVCSKEYPIYIVTEYISNGCLLNYLRSHGKGLEPSQLLEMCYDVCEGMAFLESHQFIHRDLAARNCLVDRDLCVKVSDFGMTRYVLDDQYVSSVGTKFPVKWSAPEVFHYFKYSSKSDVWAFGILMWEVFSLGKMPYDLYTNSEVVLKVSQGHRLYRPHLASDTIYQIMYSCWHELPEKRPTFQQLLSSIEPLRE 3sxx-a4-m1-cB_3sxx-a4-m1-cA Hansenula polymorpha copper amine oxidase-1 in complex with Co(II) P12807 P12807 1.27 X-RAY DIFFRACTION 509 1.0 664 666 1a2v-a1-m1-cA_1a2v-a1-m1-cB 1a2v-a1-m1-cC_1a2v-a1-m1-cD 1a2v-a1-m1-cE_1a2v-a1-m1-cF 1ekm-a1-m1-cA_1ekm-a1-m1-cB 1ekm-a2-m1-cC_1ekm-a2-m2-cC 1ekm-a3-m1-cA_1ekm-a3-m1-cB 1ekm-a3-m1-cC_1ekm-a3-m2-cC 1ekm-a3-m2-cA_1ekm-a3-m2-cB 2oov-a1-m1-cA_2oov-a1-m1-cB 2oov-a2-m1-cC_2oov-a2-m1-cD 2oov-a3-m1-cE_2oov-a3-m1-cF 2oov-a4-m1-cA_2oov-a4-m1-cB 2oov-a4-m1-cC_2oov-a4-m1-cD 2oov-a4-m1-cE_2oov-a4-m1-cF 2oqe-a1-m1-cA_2oqe-a1-m1-cB 2oqe-a2-m1-cC_2oqe-a2-m1-cD 2oqe-a3-m1-cF_2oqe-a3-m1-cE 2oqe-a4-m1-cA_2oqe-a4-m1-cB 2oqe-a4-m2-cF_2oqe-a4-m2-cE 2oqe-a5-m1-cA_2oqe-a5-m1-cB 2oqe-a5-m1-cC_2oqe-a5-m1-cD 2oqe-a5-m1-cF_2oqe-a5-m1-cE 3n9h-a1-m1-cA_3n9h-a1-m1-cB 3n9h-a2-m1-cC_3n9h-a2-m1-cD 3n9h-a3-m1-cE_3n9h-a3-m1-cF 3n9h-a4-m1-cA_3n9h-a4-m1-cB 3n9h-a4-m1-cC_3n9h-a4-m1-cD 3n9h-a4-m1-cE_3n9h-a4-m1-cF 3nbb-a1-m1-cA_3nbb-a1-m1-cB 3nbb-a2-m1-cC_3nbb-a2-m1-cD 3nbb-a3-m1-cE_3nbb-a3-m1-cF 3nbb-a4-m1-cA_3nbb-a4-m1-cB 3nbb-a4-m1-cC_3nbb-a4-m1-cD 3nbb-a4-m1-cE_3nbb-a4-m1-cF 3nbj-a1-m1-cA_3nbj-a1-m1-cB 3nbj-a2-m1-cC_3nbj-a2-m1-cD 3nbj-a3-m1-cE_3nbj-a3-m1-cF 3nbj-a4-m1-cA_3nbj-a4-m1-cB 3nbj-a4-m1-cC_3nbj-a4-m1-cD 3nbj-a4-m1-cE_3nbj-a4-m1-cF 3sx1-a1-m1-cA_3sx1-a1-m2-cA 3sx1-a2-m1-cC_3sx1-a2-m1-cB 3sx1-a3-m1-cC_3sx1-a3-m1-cB 3sx1-a3-m3-cA_3sx1-a3-m4-cA 3sx1-a3-m5-cC_3sx1-a3-m5-cB 3sxx-a1-m1-cB_3sxx-a1-m1-cA 3sxx-a2-m1-cD_3sxx-a2-m1-cC 3sxx-a3-m1-cE_3sxx-a3-m1-cF 3sxx-a4-m1-cD_3sxx-a4-m1-cC 3sxx-a4-m1-cE_3sxx-a4-m1-cF 3t0u-a1-m1-cA_3t0u-a1-m1-cB 3t0u-a2-m1-cC_3t0u-a2-m2-cC 3t0u-a3-m1-cA_3t0u-a3-m1-cB 3t0u-a3-m1-cC_3t0u-a3-m2-cC 3t0u-a3-m2-cA_3t0u-a3-m2-cB 4ev2-a1-m1-cA_4ev2-a1-m1-cB 4ev2-a2-m1-cC_4ev2-a2-m1-cD 4ev2-a3-m1-cE_4ev2-a3-m1-cF 4ev2-a4-m1-cA_4ev2-a4-m1-cB 4ev2-a4-m1-cC_4ev2-a4-m1-cD 4ev2-a4-m1-cE_4ev2-a4-m1-cF 4ev5-a1-m1-cA_4ev5-a1-m1-cB 4ev5-a2-m1-cC_4ev5-a2-m1-cD 4ev5-a3-m1-cE_4ev5-a3-m1-cF 4ev5-a4-m1-cA_4ev5-a4-m1-cB 4ev5-a4-m1-cC_4ev5-a4-m1-cD 4ev5-a4-m1-cE_4ev5-a4-m1-cF 4kfd-a1-m1-cA_4kfd-a1-m1-cB 4kfd-a2-m1-cC_4kfd-a2-m1-cD 4kfd-a3-m1-cE_4kfd-a3-m1-cF 4kfe-a1-m1-cA_4kfe-a1-m1-cB 4kfe-a2-m1-cC_4kfe-a2-m1-cD 4kfe-a3-m1-cE_4kfe-a3-m1-cF 4kff-a1-m1-cA_4kff-a1-m2-cA 4kff-a2-m1-cC_4kff-a2-m1-cB AAPARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGNVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANYEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAVFEGSCCG SAAPARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGNVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANYEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAVAFEGSCCG 3sxx-a4-m1-cF_3sxx-a4-m1-cA Hansenula polymorpha copper amine oxidase-1 in complex with Co(II) P12807 P12807 1.27 X-RAY DIFFRACTION 37 1.0 665 666 1a2v-a1-m1-cA_1a2v-a1-m1-cF 1a2v-a1-m1-cB_1a2v-a1-m1-cC 1a2v-a1-m1-cD_1a2v-a1-m1-cE 1ekm-a3-m1-cA_1ekm-a3-m2-cA 1ekm-a3-m1-cB_1ekm-a3-m1-cC 1ekm-a3-m2-cB_1ekm-a3-m2-cC 2oov-a4-m1-cA_2oov-a4-m1-cF 2oov-a4-m1-cB_2oov-a4-m1-cC 2oov-a4-m1-cD_2oov-a4-m1-cE 2oqe-a5-m1-cA_2oqe-a5-m1-cF 2oqe-a5-m1-cB_2oqe-a5-m1-cC 2oqe-a5-m1-cD_2oqe-a5-m1-cE 3n9h-a4-m1-cA_3n9h-a4-m1-cF 3n9h-a4-m1-cB_3n9h-a4-m1-cC 3n9h-a4-m1-cD_3n9h-a4-m1-cE 3nbb-a4-m1-cA_3nbb-a4-m1-cE 3nbb-a4-m1-cB_3nbb-a4-m1-cC 3nbb-a4-m1-cD_3nbb-a4-m1-cF 3nbj-a4-m1-cA_3nbj-a4-m1-cF 3nbj-a4-m1-cB_3nbj-a4-m1-cC 3nbj-a4-m1-cD_3nbj-a4-m1-cE 3sx1-a3-m1-cB_3sx1-a3-m5-cB 3sx1-a3-m1-cC_3sx1-a3-m3-cA 3sx1-a3-m5-cC_3sx1-a3-m4-cA 3sxx-a4-m1-cB_3sxx-a4-m1-cC 3sxx-a4-m1-cE_3sxx-a4-m1-cD 3t0u-a3-m1-cA_3t0u-a3-m2-cA 3t0u-a3-m1-cC_3t0u-a3-m1-cB 3t0u-a3-m2-cC_3t0u-a3-m2-cB 4ev2-a4-m1-cA_4ev2-a4-m1-cC 4ev2-a4-m1-cB_4ev2-a4-m1-cF 4ev2-a4-m1-cE_4ev2-a4-m1-cD 4ev5-a4-m1-cA_4ev5-a4-m1-cC 4ev5-a4-m1-cB_4ev5-a4-m1-cF 4ev5-a4-m1-cE_4ev5-a4-m1-cD AAPARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGNVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANYEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAVAFEGSCCG SAAPARPAHPLDPLSTAEIKAATNTVKSYFAGKKISFNTVTLREPARKAYIQWKEQGGPLPPRLAYYVILEAGKPGVKEGLVDLASLSVIETRALETVQPILTVEDLCSTEEVIRNDPAVIEQCVLSGIPANEMHKVYCDPWTIGYDERWGTGKRLQQALVYYRSDEDDSQYSHPLDFCPIVDTEEKKVIFIDIPNRRRKVSKHKHANFYPKHMIEKVGAMRPEAPPINVTQPEGVSFKMTGNVMEWSNFKFHIGFNYREGIVLSDVSYNDHGNVRPIFHRISLSEMIVPYGSPEFPHQRKHALDIGEYGAGYMTNPLSLGCDCKGVIHYLDAHFSDRAGDPITVKNAVCIHEEDDGLLFKHSDFRDNFATSLVTRATKLVVSQIFTAANYEYCLYWVFMQDGAIRLDIRLTGILNTYILGDDEEAGPWGTRVYPNVNAHNHQHLFSLRIDPRIDGDGNSAAACDAKSSPYPLGSPENMYGNAFYSEKTTFKTVKDSLTNYESATGRSWDIFNPNKVNPYSGKPPSYKLVSTQCPPLLAKEGSLVAKRAPWASHSVNVVPYKDNRLYPSGDHVPQWSGDGVRGMREWIGDGSENIDNTDILFFHTFGITHFPAPEDFPLMPAEPITLMLRPRHFFTENPGLDIQPSYAMTTSEAKRAVAFEGSCCG 3sy4-a1-m1-cA_3sy4-a1-m2-cA Crystal structure of sulfide:quinone oxidoreductase Ser126Ala variant from Acidithiobacillus ferrooxidans B7JBP8 B7JBP8 1.91 X-RAY DIFFRACTION 35 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 421 421 MRGSAHVVILGAGTGGMPAAYEMKEALGSGHEVTLISANDYFQFVPSNPWVGVGWKERDDIAFPIRHYVERKGIHFIAQSAEQIDAEAQNITLADGNTVHYDYLMIATGPKLAFENVPGSDPHEGPVQAICTVDHAERAFAEYQALLREPGPIVIGAMAGASCFGPAYEYAMIVASDLKKRGMRDKIPSFTFITSEPYIGHLGIQGVGDSKGILTKGLKEEGIEAYTNCKVTKVEDNKMYVTQVDEKGETIKEMVLPVKFGMMIPAFKGVPAVAGVEGLCNPGGFVLVDEHQRSKKYANIFAAGIAIAIPPVETTPVPTGAPKTGYMIESMVSAAVHNIKADLEGRKGEQTMGTWNAVCFADMGDRGAAFIALPQLKPRKVDVFAYGRWVHLAKVAFEKYFIRKMKMGVSEPFYEKVLFKM MRGSAHVVILGAGTGGMPAAYEMKEALGSGHEVTLISANDYFQFVPSNPWVGVGWKERDDIAFPIRHYVERKGIHFIAQSAEQIDAEAQNITLADGNTVHYDYLMIATGPKLAFENVPGSDPHEGPVQAICTVDHAERAFAEYQALLREPGPIVIGAMAGASCFGPAYEYAMIVASDLKKRGMRDKIPSFTFITSEPYIGHLGIQGVGDSKGILTKGLKEEGIEAYTNCKVTKVEDNKMYVTQVDEKGETIKEMVLPVKFGMMIPAFKGVPAVAGVEGLCNPGGFVLVDEHQRSKKYANIFAAGIAIAIPPVETTPVPTGAPKTGYMIESMVSAAVHNIKADLEGRKGEQTMGTWNAVCFADMGDRGAAFIALPQLKPRKVDVFAYGRWVHLAKVAFEKYFIRKMKMGVSEPFYEKVLFKM 3sy6-a1-m1-cB_3sy6-a1-m1-cA Crystal structure of a fimbrial protein BF1861 [Bacteroides fragilis NCTC 9343] (BF1861) from Bacteroides fragilis NCTC 9343 at 1.90 A resolution Q5LE92 Q5LE92 1.9 X-RAY DIFFRACTION 70 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 269 270 GEKTLAVVSASSDDRPSTRGIINDNTYALGVFRTTANTYAPLYNVKHIYSGGEWGADDVIKVDYRNASFFAYYPYHTATGNYAGLAGGTTLTLQAQLFNAGEDICYGAGEASGGGPVSVYNPFVEFLNKHAYARLRLTLTRGEKFDKTKKCNIQNITFKSNNANFYLTRSLDIASTAGATGGSAVAAGYVHNPNVNIATGKSVTYEYFPPQPLDGSKLTILVTVDGVTRSCDISTLGSSLDSGKYYGVSLTFTDVGIILSSAVVTVNNF SGEKTLAVVSASSDDRPSTRGIINDNTYALGVFRTTANTYAPLYNVKHIYSGGEWGADDVIKVDYRNASFFAYYPYHTATGNYAGLAGGTTLTLQAQLFNAGEDICYGAGEASGGGPVSVYNPFVEFLNKHAYARLRLTLTRGEKFDKTKKCNIQNITFKSNNANFYLTRSLDIASTAGATGGSAVAAGYVHNPNVNIATGKSVTYEYFPPQPLDGSKLTILVTVDGVTRSCDISTLGSSLDSGKYYGVSLTFTDVGIILSSAVVTVNNF 3sy8-a1-m2-cC_3sy8-a1-m1-cB Crystal structure of the response regulator RocR Q9HX69 Q9HX69 2.5 X-RAY DIFFRACTION 24 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 380 392 3sy8-a1-m1-cC_3sy8-a1-m2-cB NDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRLPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS MNDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRQDLPRQIEVAELPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS 3sy8-a2-m1-cA_3sy8-a2-m1-cB Crystal structure of the response regulator RocR Q9HX69 Q9HX69 2.5 X-RAY DIFFRACTION 50 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 389 392 3sy8-a1-m1-cA_3sy8-a1-m1-cB 3sy8-a1-m2-cA_3sy8-a1-m2-cB MNDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRQDLPRQAELPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS MNDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRQDLPRQIEVAELPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS 3sy8-a2-m1-cC_3sy8-a2-m1-cB Crystal structure of the response regulator RocR Q9HX69 Q9HX69 2.5 X-RAY DIFFRACTION 56 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 380 392 3sy8-a1-m1-cC_3sy8-a1-m1-cB 3sy8-a1-m2-cC_3sy8-a1-m2-cB NDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRLPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS MNDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRQDLPRQIEVAELPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS 3sy8-a2-m1-cD_3sy8-a2-m1-cB Crystal structure of the response regulator RocR Q9HX69 Q9HX69 2.5 X-RAY DIFFRACTION 105 0.984 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 371 392 3sy8-a1-m1-cC_3sy8-a1-m1-cA 3sy8-a1-m1-cD_3sy8-a1-m1-cB 3sy8-a1-m2-cC_3sy8-a1-m2-cA 3sy8-a1-m2-cD_3sy8-a1-m2-cB 3sy8-a2-m1-cC_3sy8-a2-m1-cA DLNVLVLQRLVAVTALKKVVPGSILEAADGKEAVAILEDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDERITALLTRYNAREVAELPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGSLEHHHH MNDLNVLVLEDEPFQRLVAVTALKKVVPGSILEAADGKEAVAILESCGHVDIAICDLQMSGMDGLAFLRHASLSGKVHSVILSSEVDPILRQATISMIECLGLNFLGDLGKPFSLERITALLTRYNARRQDLPRQIEVAELPSVADVVRGLDNGEFEAYYQPKVALDGGGLIGAEVLARWNHPHLGVLPPSHFLYVMETYNLVDKLFWQLFSQGLATRRKLAQLGQPINLAFNVHPSQLGSRALAENISALLTEFHLPPSSVMFEITETGLISAPASSLENLVRLWIMGCGLAMDDFGAGYSSLDRLCEFPFSQIKLDRTFVQKMKTQPRSCAVISSVVALAQALGISLVVEGVESDEQRVRLIELGCSIAQGYLFARPMPEQHFLDYCSGS 3syb-a2-m1-cA_3syb-a2-m2-cA Crystal structure of Pseudomonas aeruginosa OccD3 (OpdP) Q9HVS0 Q9HVS0 2.7 X-RAY DIFFRACTION 37 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 408 408 PAPDNPSYAAEVQSIPSVAKPIKGQAGATGLVEGQSLTLTTRNFYSRENQRNAWVQGTVLKYSSGYTQGTVGFGFDVAAFNEIALGEWSKLGVANIRLRASNTEFKAGRFLVNTPVFSYIDNRALPSSFTGFAVTSEELDNLSLQAGSFRKVSPRTGSGDEDMTTEYGTRQVKGDRLNYLGGNYKPLDGLEISLYGSHFQDVWNQYYLGVTHDIGLENGIALRTAFNGYHTGDTGAREAGYIDNDTWSLAFTLGHRAHALTLAYQQVDGNEYFDYVHETSAIFLANSMLADYNSPNEKSAQIRYETDWSYYGVPGLSTGVWYVKGWDIDGTHYDGDRNGAYGNYAEVRAQDGEKHHELGLMAAYKVQNGPIKDSTFKLTYMMHKASQNQIDGSVNELRLVSTFPFNLL PAPDNPSYAAEVQSIPSVAKPIKGQAGATGLVEGQSLTLTTRNFYSRENQRNAWVQGTVLKYSSGYTQGTVGFGFDVAAFNEIALGEWSKLGVANIRLRASNTEFKAGRFLVNTPVFSYIDNRALPSSFTGFAVTSEELDNLSLQAGSFRKVSPRTGSGDEDMTTEYGTRQVKGDRLNYLGGNYKPLDGLEISLYGSHFQDVWNQYYLGVTHDIGLENGIALRTAFNGYHTGDTGAREAGYIDNDTWSLAFTLGHRAHALTLAYQQVDGNEYFDYVHETSAIFLANSMLADYNSPNEKSAQIRYETDWSYYGVPGLSTGVWYVKGWDIDGTHYDGDRNGAYGNYAEVRAQDGEKHHELGLMAAYKVQNGPIKDSTFKLTYMMHKASQNQIDGSVNELRLVSTFPFNLL 3syi-a1-m1-cA_3syi-a1-m2-cA Crystal structure of sulfide:quinone oxidoreductase Ser126Ala variant from Acidithiobacillus ferrooxidans using 7.0 keV diffraction data B7JBP8 B7JBP8 2.2001 X-RAY DIFFRACTION 53 1.0 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 243159 (Acidithiobacillus ferrooxidans ATCC 23270) 421 421 MRGSAHVVILGAGTGGMPAAYEMKEALGSGHEVTLISANDYFQFVPSNPWVGVGWKERDDIAFPIRHYVERKGIHFIAQSAEQIDAEAQNITLADGNTVHYDYLMIATGPKLAFENVPGSDPHEGPVQAICTVDHAERAFAEYQALLREPGPIVIGAMAGASCFGPAYEYAMIVASDLKKRGMRDKIPSFTFITSEPYIGHLGIQGVGDSKGILTKGLKEEGIEAYTNCKVTKVEDNKMYVTQVDEKGETIKEMVLPVKFGMMIPAFKGVPAVAGVEGLCNPGGFVLVDEHQRSKKYANIFAAGIAIAIPPVETTPVPTGAPKTGYMIESMVSAAVHNIKADLEGRKGEQTMGTWNAVCFADMGDRGAAFIALPQLKPRKVDVFAYGRWVHLAKVAFEKYFIRKMKMGVSEPFYEKVLFKM MRGSAHVVILGAGTGGMPAAYEMKEALGSGHEVTLISANDYFQFVPSNPWVGVGWKERDDIAFPIRHYVERKGIHFIAQSAEQIDAEAQNITLADGNTVHYDYLMIATGPKLAFENVPGSDPHEGPVQAICTVDHAERAFAEYQALLREPGPIVIGAMAGASCFGPAYEYAMIVASDLKKRGMRDKIPSFTFITSEPYIGHLGIQGVGDSKGILTKGLKEEGIEAYTNCKVTKVEDNKMYVTQVDEKGETIKEMVLPVKFGMMIPAFKGVPAVAGVEGLCNPGGFVLVDEHQRSKKYANIFAAGIAIAIPPVETTPVPTGAPKTGYMIESMVSAAVHNIKADLEGRKGEQTMGTWNAVCFADMGDRGAAFIALPQLKPRKVDVFAYGRWVHLAKVAFEKYFIRKMKMGVSEPFYEKVLFKM 3syj-a1-m1-cA_3syj-a1-m2-cA Crystal structure of the Haemophilus influenzae Hap adhesin P45387 P45387 2.2 X-RAY DIFFRACTION 24 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 920 920 GHTYFGIDYQYYRDFAENKGKFTVGAQNIKVYNKQGQLVGTSMTKAPMIDFSVVSRNGVAALVENQYIVSVAHNVGYTDVDFGAEGNNPDQHRFTYKIVKRNNYKKDNLHPYEDDYHNPRLHKFVTEAAPIDMTSNMNGSTYSDRTKYPERVRIGSGRQFWRNDQDKGDQVAGAYHYLTAGNTHNQRGAGNGYSYLGGDVRKAGEYGPLPIAGSKGDSGSPMFIYDAEKQKWLINGILRENGFQLVRKSYFDEIFERDLHTSLYTRAGNGVYTISGNDNGQGSITQKSGIPSEIKITLANMSLPLKEKDKVHNPRYDGPNIYSPRLNNGETLYFMDQKQGSLIFASDINQGAGGLYFEGNFTVSPNSNQTWQGAGIHVSENSTVTWKVNGVEHDRLSKIGKGTLHVQAKGENKGSISVGDGKVILEQQADDQGNKQAFSEIGLVSGRGTVQLNDDKQFDTDKFYFGFRGGRLDLNGHSLTFKRIQNTDEGAMIVNHNTTQAANVTITGNESIVLPNGNNINKLDYRKEIAYNGWFGETDKNKHNGRLNLIYKPTTEDRTLLLSGGTNLKGDITQTKGKLFFSGRPTPHAYNHLNKRWSEMEGIPQGEIVWDHDWINRTFKAENFQIKGGSAVVSRNVSSIEGNWTVSNNANATFGVVPNQQNTICTRSDWTGLTTCQKVDLTDTKVINSIPKTQINGSINLTDNATANVKGLAKLNGNVTLTNHSQFTLSNNATQIGNIRLSDNSTATVDNANLNGNVHLTDSAQFSLKNSHFSHQIQGDKGTTVTLENATWTMPSDTTLQNLTLNNSTITLNSAYSRFNTLTVNGKLSGQGTFQFTSSLFGYKSDKLKLSNDAEGDYILSVRNTGKEPETLEQLTLVESKDNQPLSDKLKFTLENDHVDAGALRYKLVKNDGEFRLHNP GHTYFGIDYQYYRDFAENKGKFTVGAQNIKVYNKQGQLVGTSMTKAPMIDFSVVSRNGVAALVENQYIVSVAHNVGYTDVDFGAEGNNPDQHRFTYKIVKRNNYKKDNLHPYEDDYHNPRLHKFVTEAAPIDMTSNMNGSTYSDRTKYPERVRIGSGRQFWRNDQDKGDQVAGAYHYLTAGNTHNQRGAGNGYSYLGGDVRKAGEYGPLPIAGSKGDSGSPMFIYDAEKQKWLINGILRENGFQLVRKSYFDEIFERDLHTSLYTRAGNGVYTISGNDNGQGSITQKSGIPSEIKITLANMSLPLKEKDKVHNPRYDGPNIYSPRLNNGETLYFMDQKQGSLIFASDINQGAGGLYFEGNFTVSPNSNQTWQGAGIHVSENSTVTWKVNGVEHDRLSKIGKGTLHVQAKGENKGSISVGDGKVILEQQADDQGNKQAFSEIGLVSGRGTVQLNDDKQFDTDKFYFGFRGGRLDLNGHSLTFKRIQNTDEGAMIVNHNTTQAANVTITGNESIVLPNGNNINKLDYRKEIAYNGWFGETDKNKHNGRLNLIYKPTTEDRTLLLSGGTNLKGDITQTKGKLFFSGRPTPHAYNHLNKRWSEMEGIPQGEIVWDHDWINRTFKAENFQIKGGSAVVSRNVSSIEGNWTVSNNANATFGVVPNQQNTICTRSDWTGLTTCQKVDLTDTKVINSIPKTQINGSINLTDNATANVKGLAKLNGNVTLTNHSQFTLSNNATQIGNIRLSDNSTATVDNANLNGNVHLTDSAQFSLKNSHFSHQIQGDKGTTVTLENATWTMPSDTTLQNLTLNNSTITLNSAYSRFNTLTVNGKLSGQGTFQFTSSLFGYKSDKLKLSNDAEGDYILSVRNTGKEPETLEQLTLVESKDNQPLSDKLKFTLENDHVDAGALRYKLVKNDGEFRLHNP 3syn-a5-m1-cA_3syn-a5-m2-cD Crystal structure of FlhF in complex with its activator Q01960 Q01960 3.063 X-RAY DIFFRACTION 45 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 258 258 3syn-a5-m1-cB_3syn-a5-m2-cC PEPLRKAEKLLQETGIKESTKTNTLKKLLRFSVEAGGLTEENVVGKLQEILCDMLPSADKWQEPIHSKYIVLFGSTGAGKTTTLAKLAAISMLEKHKKIAFITTDTYRIAAVEQLKTYAELLQAPLEVCYTKEEFQQAKELFSEYDHVFVDTAGRNFKDPQYIDELKETIPFESSIQSFLVLSATAKYEDMKHIVKRFSSVPVNQYIFTKIDETTSLGSVFNILAESKIGVGFMTNGQNVPEDIQTVSPLGFVRMLCR PEPLRKAEKLLQETGIKESTKTNTLKKLLRFSVEAGGLTEENVVGKLQEILCDMLPSADKWQEPIHSKYIVLFGSTGAGKTTTLAKLAAISMLEKHKKIAFITTDTYRIAAVEQLKTYAELLQAPLEVCYTKEEFQQAKELFSEYDHVFVDTAGRNFKDPQYIDELKETIPFESSIQSFLVLSATAKYEDMKHIVKRFSSVPVNQYIFTKIDETTSLGSVFNILAESKIGVGFMTNGQNVPEDIQTVSPLGFVRMLCR 3syn-a5-m2-cC_3syn-a5-m2-cD Crystal structure of FlhF in complex with its activator Q01960 Q01960 3.063 X-RAY DIFFRACTION 88 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 258 258 2px0-a1-m1-cA_2px0-a1-m1-cE 2px0-a2-m1-cB_2px0-a2-m1-cF 2px0-a3-m1-cC_2px0-a3-m1-cG 2px0-a4-m1-cD_2px0-a4-m1-cH 2px3-a1-m1-cA_2px3-a1-m2-cA 3syn-a5-m1-cA_3syn-a5-m1-cB PEPLRKAEKLLQETGIKESTKTNTLKKLLRFSVEAGGLTEENVVGKLQEILCDMLPSADKWQEPIHSKYIVLFGSTGAGKTTTLAKLAAISMLEKHKKIAFITTDTYRIAAVEQLKTYAELLQAPLEVCYTKEEFQQAKELFSEYDHVFVDTAGRNFKDPQYIDELKETIPFESSIQSFLVLSATAKYEDMKHIVKRFSSVPVNQYIFTKIDETTSLGSVFNILAESKIGVGFMTNGQNVPEDIQTVSPLGFVRMLCR PEPLRKAEKLLQETGIKESTKTNTLKKLLRFSVEAGGLTEENVVGKLQEILCDMLPSADKWQEPIHSKYIVLFGSTGAGKTTTLAKLAAISMLEKHKKIAFITTDTYRIAAVEQLKTYAELLQAPLEVCYTKEEFQQAKELFSEYDHVFVDTAGRNFKDPQYIDELKETIPFESSIQSFLVLSATAKYEDMKHIVKRFSSVPVNQYIFTKIDETTSLGSVFNILAESKIGVGFMTNGQNVPEDIQTVSPLGFVRMLCR 3syv-a1-m1-cA_3syv-a1-m1-cB Crystal structure of mPACSIN 3 F-BAR domain mutant Q99JB8 Q99JB8 3.1 X-RAY DIFFRACTION 185 0.992 10090 (Mus musculus) 10090 (Mus musculus) 249 257 3m3w-a1-m1-cA_3m3w-a1-m1-cB 3qe6-a1-m1-cA_3qe6-a1-m1-cB 3syv-a3-m1-cE_3syv-a3-m1-cF 3syv-a4-m1-cH_3syv-a4-m1-cG SFWEAGNYRRTVQRVEDGHRLCGDLVSCFQERARIEKAYAQQLADWARKWRGAVEKGPQYGTLEKAWHAFFTAAERLSELHLEVREKLHGPDSERVRTWQRGAFHRQVLGGFRESRAAEDGFRKAQKPWLKRLKEVEASKKSYHTARKDEKEAEKMKTQYEQTLAELNRYTPRYMEDMEQAFESCQAAERQRLLFFKDVLLTLHQHLDLSSSDKFHELHRDLQQSIEAASDEEDLRWWRSTHGPGMAQF SFWEAGNYRRTVQRVEDGHRLCGDLVSCFQERARIEKAYAQQLADWARKWRGAVEKGPQYGTLEKAWHAFFTAAERLSELHLEVREKLHGPDSERVRTWQRGAFHRQVLGGFRESRAAEDGFRKAQKPWLKRLKEVEASKKSYHTARKDEKTAQTKEAEKMKTQYEQTLAELNRYTPRYMEDMEQAFESCQAAERQRLLFFKDVLLTLHQHLDLSSSDKFHELHRDLQQSIEAASDEEDLRWWRSTHGPGMAMNWPQ 3syv-a2-m1-cD_3syv-a2-m1-cC Crystal structure of mPACSIN 3 F-BAR domain mutant Q99JB8 Q99JB8 3.1 X-RAY DIFFRACTION 171 0.98 10090 (Mus musculus) 10090 (Mus musculus) 255 257 GSFWEAGNYRRTVQRVEDGHRLCGDLVSCFQERARIEKAYAQQLADWARKWRGAVEKGPQYGTLEKAWHAFFTAAERLSELHLEVREKLHGPDSERVRTWQRGAFHRQVLGGFRESRAAEDGFRKAQKPWLKRLKEVEASKKSYHTARKDEKTKEAEKMKTQYEQTLAELNRYTPRYMEDMEQAFESCQAAERQRLLFFKDVLLTLHQHLDLSSSDKFHELHRDLQQSIEAASDEEDLRWWRSTHGPGMMNWPQF GGEVLGGSFWEAGNYRRTVQRVEDGHRLCGDLVSCFQERARIEKAYAQQLADWARKWRGAVEKGPQYGTLEKAWHAFFTAAERLSELHLEVREKLHGPDSERVRTWQRGAFHRQVLGGFRESRAAEDGFRKAQKPWLKRLKEVEASKKSYHTARKDEAEKMKTQYEQTLAELNRYTPRYMEDMEQAFESCQAAERQRLLFFKDVLLTLHQHLDLSSSDKFHELHRDLQQSIEAASDEEDLRWWRSTHGPGMAMNWQF 3syy-a1-m2-cA_3syy-a1-m3-cA Crystal Structure of an alkaline exonuclease (LHK-Exo) from Laribacter hongkongensis C1D7P6 C1D7P6 1.9 X-RAY DIFFRACTION 32 1.0 557598 (Laribacter hongkongensis HLHK9) 557598 (Laribacter hongkongensis HLHK9) 194 194 3syy-a1-m1-cA_3syy-a1-m2-cA 3syy-a1-m1-cA_3syy-a1-m3-cA 3sz4-a1-m1-cA_3sz4-a1-m2-cA 3sz4-a1-m1-cA_3sz4-a1-m3-cA 3sz4-a1-m2-cA_3sz4-a1-m3-cA 3sz5-a1-m1-cA_3sz5-a1-m2-cA 3sz5-a1-m1-cA_3sz5-a1-m3-cA 3sz5-a1-m2-cA_3sz5-a1-m3-cA TEEWFAARLGKVTASRVADVMTKAASRQNYMAELICQRLTGTQEINAAMQRGTELEPHARARYIIETGEIVTEVGLIDHPTIAGFGASPDGLVGDTGLIEIKCPNTWTHIETIKTGKPKPEYIKQMQTQMACTGRQWCDFVSYDDRLPDDMQYFCTRIERDDALIAEIETEVSAFLAELEAEIEYLKRKAAKLA TEEWFAARLGKVTASRVADVMTKAASRQNYMAELICQRLTGTQEINAAMQRGTELEPHARARYIIETGEIVTEVGLIDHPTIAGFGASPDGLVGDTGLIEIKCPNTWTHIETIKTGKPKPEYIKQMQTQMACTGRQWCDFVSYDDRLPDDMQYFCTRIERDDALIAEIETEVSAFLAELEAEIEYLKRKAAKLA 3sz3-a1-m1-cA_3sz3-a1-m2-cA Crystal structure of Tryptophanyl-tRNA synthetase from Vibrio cholerae with an endogenous tryptophan Q9KNV7 Q9KNV7 1.5 X-RAY DIFFRACTION 156 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 341 341 SNAMSKPIVLSGVQPSGELSIGNYLGALRQWQQMQDDYDCQYCVVDLHAITVRQDPQALHEATLDALAICLAVGVDPKKSTLFVQSHVPEHAQLGWVLNCYTQMGELSRMTQFKDKSARYANDVNAGLFGYPVLMAADILLYGAHQVPVGSDQKQHLELARDIATRFNNIYSPEQPIFTIPEPYIPTVNARVMSLQDATKKMSKSDDNRKNVITLLEDPKSIIKKINKAQTDAETPPRIAYDVENKAGIANLMGLYSAATGKTFAEIEAQYAGVEMYGPFKKDVGEAVVAMLEPVQAEYQRIRNDREYLNSVMRDGAEKASAKALQTLKKVYAAVGFVARP SNAMSKPIVLSGVQPSGELSIGNYLGALRQWQQMQDDYDCQYCVVDLHAITVRQDPQALHEATLDALAICLAVGVDPKKSTLFVQSHVPEHAQLGWVLNCYTQMGELSRMTQFKDKSARYANDVNAGLFGYPVLMAADILLYGAHQVPVGSDQKQHLELARDIATRFNNIYSPEQPIFTIPEPYIPTVNARVMSLQDATKKMSKSDDNRKNVITLLEDPKSIIKKINKAQTDAETPPRIAYDVENKAGIANLMGLYSAATGKTFAEIEAQYAGVEMYGPFKKDVGEAVVAMLEPVQAEYQRIRNDREYLNSVMRDGAEKASAKALQTLKKVYAAVGFVARP 3sz7-a2-m1-cA_3sz7-a2-m2-cA Crystal structure of the Sgt2 TPR domain from Aspergillus fumigatus Q4WTC0 Q4WTC0 1.72 X-RAY DIFFRACTION 136 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 151 151 GPRSMAPTPESDKLKSEGNAAMARKEYSKAIDLYTQALSIAPANPIYLSNRAAAYSASGQHEKAAEDAELATVVDPKYSKAWSRLGLARFDMADYKGAKEAYEKGIEAEGNGGSDAMKRGLETTKRKIEEANRGAEPPADDVDDAAGASRG GPRSMAPTPESDKLKSEGNAAMARKEYSKAIDLYTQALSIAPANPIYLSNRAAAYSASGQHEKAAEDAELATVVDPKYSKAWSRLGLARFDMADYKGAKEAYEKGIEAEGNGGSDAMKRGLETTKRKIEEANRGAEPPADDVDDAAGASRG 3sz7-a3-m1-cA_3sz7-a3-m3-cA Crystal structure of the Sgt2 TPR domain from Aspergillus fumigatus Q4WTC0 Q4WTC0 1.72 X-RAY DIFFRACTION 48 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 151 151 GPRSMAPTPESDKLKSEGNAAMARKEYSKAIDLYTQALSIAPANPIYLSNRAAAYSASGQHEKAAEDAELATVVDPKYSKAWSRLGLARFDMADYKGAKEAYEKGIEAEGNGGSDAMKRGLETTKRKIEEANRGAEPPADDVDDAAGASRG GPRSMAPTPESDKLKSEGNAAMARKEYSKAIDLYTQALSIAPANPIYLSNRAAAYSASGQHEKAAEDAELATVVDPKYSKAWSRLGLARFDMADYKGAKEAYEKGIEAEGNGGSDAMKRGLETTKRKIEEANRGAEPPADDVDDAAGASRG 3sza-a1-m1-cA_3sza-a1-m1-cB Crystal structure of human ALDH3A1 - apo form P30838 P30838 1.48 X-RAY DIFFRACTION 257 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 447 452 3szb-a1-m1-cA_3szb-a1-m1-cB 4h80-a1-m1-cA_4h80-a1-m1-cB 4h80-a2-m1-cG_4h80-a2-m1-cC 4h80-a3-m1-cD_4h80-a3-m1-cE 4h80-a4-m1-cF_4h80-a4-m1-cH 4l1o-a1-m1-cA_4l1o-a1-m1-cB 4l2o-a1-m1-cA_4l2o-a1-m1-cB 4l2o-a2-m1-cE_4l2o-a2-m1-cG 8bb8-a1-m1-cA_8bb8-a1-m1-cB SKISEAVKRARAAFSSGRTRPLQFRIQQLEALQRLIQEQEQELVGALAADLHKNEWNAYYEEVVYVLEEIEYMIQKLPEWAADEPVEKTPQTQQDELYIHSEPLGVVLVIGTWNYPFNLTIQPMVGAIAAGNAVVLKPSELSENMASLLATIIPQYLDKDLYPVINGGVPETTELLKERFDHILYTGSTGVGKIIMTAAAKHLTPVTLELGGKSPCYVDKNCDLDVACRRIAWGKFMNSGQTCVAPDYILCDPSIQNQIVEKLKKSLKEFYGEDAKKSRDYGRIISARHFQRVMGLIEGQKVAYGGTGDAATRYIAPTILTDVDPQSPVMQEEIFGPVLPIVCVRSLEEAIQFINQREKPLALYMFSSNDKVIKKMIAETSSGGVAANDVIVHITLHSLPFGGVGNSGMGSYHGKKSFETFSHRRSCLVRPLMNDEGLKVRYPPSPA SKISEAVKRARAAFSSGRTRPLQFRIQQLEALQRLIQEQEQELVGALAADLHKNEWNAYYEEVVYVLEEIEYMIQKLPEWAADEPVEKTPQTQQDELYIHSEPLGVVLVIGTWNYPFNLTIQPMVGAIAAGNAVVLKPSELSENMASLLATIIPQYLDKDLYPVINGGVPETTELLKERFDHILYTGSTGVGKIIMTAAAKHLTPVTLELGGKSPCYVDKNCDLDVACRRIAWGKFMNSGQTCVAPDYILCDPSIQNQIVEKLKKSLKEFYGEDAKKSRDYGRIISARHFQRVMGLIEGQKVAYGGTGDAATRYIAPTILTDVDPQSPVMQEEIFGPVLPIVCVRSLEEAIQFINQREKPLALYMFSSNDKVIKKMIAETSSGGVAANDVIVHITLHSLPFGGVGNSGMGSYHGKKSFETFSHRRSCLVRPLMNDEGLKVRYPPSPAKMTQH 3szh-a3-m1-cE_3szh-a3-m1-cF Crystal structure of apo shwanavidin (P1 form) Q12QS6 Q12QS6 1.07 X-RAY DIFFRACTION 141 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 116 117 3szh-a1-m1-cA_3szh-a1-m1-cB 3szh-a2-m1-cD_3szh-a2-m1-cC 3szi-a1-m1-cB_3szi-a1-m1-cA 3szi-a2-m1-cC_3szi-a2-m1-cD 3szi-a3-m1-cF_3szi-a3-m1-cE 3szi-a4-m1-cH_3szi-a4-m1-cG 3szi-a5-m1-cI_3szi-a5-m1-cJ 3szi-a6-m1-cK_3szi-a6-m1-cL 3szj-a1-m1-cB_3szj-a1-m1-cA 3t2w-a1-m1-cA_3t2w-a1-m2-cA 3t2x-a1-m1-cA_3t2x-a1-m1-cB 3t2x-a2-m1-cC_3t2x-a2-m1-cD AQELTAMSAWVNQDGSTLYINSINAQGELTGSYINRAAFACQNSPYPVNGWVFGTAISFSTKWLNSVESCNSITSWSGFYINTGGQGKISTLWQLVVNGSSSPSQILKGQDVFSQT AQELTAMSAWVNQDGSTLYINSINAQGELTGSYINRAAGFACQNSPYPVNGWVFGTAISFSTKWLNSVESCNSITSWSGFYINTGGQGKISTLWQLVVNGSSSPSQILKGQDVFSQT 3szp-a1-m2-cB_3szp-a1-m1-cA Full-length structure of the Vibrio cholerae virulence activator, AphB, a member of the LTTR protein family Q9KT56 Q9KT56 2.202 X-RAY DIFFRACTION 94 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 288 290 3szp-a1-m1-cB_3szp-a1-m2-cA 3t1b-a1-m1-cA_3t1b-a1-m1-cC 3t1b-a1-m1-cB_3t1b-a1-m1-cD MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSNLTKRMMMPMFNAFMEKYPDIHIELMMSNQADDLDPTEWDVIFRVGPQSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSNLTKRMMMPMFNAFMEKYPDIHIELMMSNQADDLDPTEWDVIFRVGPQRDSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL 3szp-a1-m2-cB_3szp-a1-m2-cA Full-length structure of the Vibrio cholerae virulence activator, AphB, a member of the LTTR protein family Q9KT56 Q9KT56 2.202 X-RAY DIFFRACTION 124 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 288 290 3szp-a1-m1-cB_3szp-a1-m1-cA MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSNLTKRMMMPMFNAFMEKYPDIHIELMMSNQADDLDPTEWDVIFRVGPQSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSNLTKRMMMPMFNAFMEKYPDIHIELMMSNQADDLDPTEWDVIFRVGPQRDSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL 3szr-a1-m1-cA_3szr-a1-m2-cA Crystal structure of modified nucleotide-free human MxA P20591 P20591 3.5 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 559 559 3ljb-a1-m1-cB_3ljb-a1-m1-cA YEEKVRPCIDLIDSLRALGVEQDLALPAIAVIGDQSSGKSSVLEALSGVAVTRCPLVLKLKKLVNEDKWRGKVSYQIEISDASEVEKEINKAQNAIAGEGMGISHELITLEISSRDVPDLTLIDLPGGNQPADIGYKIKTLIKKYIQRQETISLVVVPSNVDIATTEALSMAQEVDPEGDRTIGILTKPDLVDKGTEDKVVDVVLVFHLKKGYMIVKCRGQQEIQDQLSLSEALQREKIFFENHPYFRDLLEEGKPCLAEKLTSELITHICKSLPLLENQIKETHQRITEELQKYGVDIPEDENEKMFFLIDKVNAFNQDITALMQGEETVGEEDIRLFTRLRHEFHKWSTIIENNFQEGHKILSRKIQKFENQAAAAELPGFVNYRTFETIVKQQIKALEEPAVDMLHTVTDMVRLAFTDVSIKNFEEFFNLHRTAKSKIEDIRAEQEREGEKLIRLHFQMEQIVYGASMEEIFQHLMAYHQEASKRISSHIPLIIQFFMLQTYGQQLQKAMLQLLQDKDTYSWLLKERSDTSDKRKFLKERLARLTQARRRLAQFPG YEEKVRPCIDLIDSLRALGVEQDLALPAIAVIGDQSSGKSSVLEALSGVAVTRCPLVLKLKKLVNEDKWRGKVSYQIEISDASEVEKEINKAQNAIAGEGMGISHELITLEISSRDVPDLTLIDLPGGNQPADIGYKIKTLIKKYIQRQETISLVVVPSNVDIATTEALSMAQEVDPEGDRTIGILTKPDLVDKGTEDKVVDVVLVFHLKKGYMIVKCRGQQEIQDQLSLSEALQREKIFFENHPYFRDLLEEGKPCLAEKLTSELITHICKSLPLLENQIKETHQRITEELQKYGVDIPEDENEKMFFLIDKVNAFNQDITALMQGEETVGEEDIRLFTRLRHEFHKWSTIIENNFQEGHKILSRKIQKFENQAAAAELPGFVNYRTFETIVKQQIKALEEPAVDMLHTVTDMVRLAFTDVSIKNFEEFFNLHRTAKSKIEDIRAEQEREGEKLIRLHFQMEQIVYGASMEEIFQHLMAYHQEASKRISSHIPLIIQFFMLQTYGQQLQKAMLQLLQDKDTYSWLLKERSDTSDKRKFLKERLARLTQARRRLAQFPG 3szr-a2-m1-cA_3szr-a2-m3-cA Crystal structure of modified nucleotide-free human MxA P20591 P20591 3.5 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 559 559 3ljb-a2-m2-cB_3ljb-a2-m1-cA YEEKVRPCIDLIDSLRALGVEQDLALPAIAVIGDQSSGKSSVLEALSGVAVTRCPLVLKLKKLVNEDKWRGKVSYQIEISDASEVEKEINKAQNAIAGEGMGISHELITLEISSRDVPDLTLIDLPGGNQPADIGYKIKTLIKKYIQRQETISLVVVPSNVDIATTEALSMAQEVDPEGDRTIGILTKPDLVDKGTEDKVVDVVLVFHLKKGYMIVKCRGQQEIQDQLSLSEALQREKIFFENHPYFRDLLEEGKPCLAEKLTSELITHICKSLPLLENQIKETHQRITEELQKYGVDIPEDENEKMFFLIDKVNAFNQDITALMQGEETVGEEDIRLFTRLRHEFHKWSTIIENNFQEGHKILSRKIQKFENQAAAAELPGFVNYRTFETIVKQQIKALEEPAVDMLHTVTDMVRLAFTDVSIKNFEEFFNLHRTAKSKIEDIRAEQEREGEKLIRLHFQMEQIVYGASMEEIFQHLMAYHQEASKRISSHIPLIIQFFMLQTYGQQLQKAMLQLLQDKDTYSWLLKERSDTSDKRKFLKERLARLTQARRRLAQFPG YEEKVRPCIDLIDSLRALGVEQDLALPAIAVIGDQSSGKSSVLEALSGVAVTRCPLVLKLKKLVNEDKWRGKVSYQIEISDASEVEKEINKAQNAIAGEGMGISHELITLEISSRDVPDLTLIDLPGGNQPADIGYKIKTLIKKYIQRQETISLVVVPSNVDIATTEALSMAQEVDPEGDRTIGILTKPDLVDKGTEDKVVDVVLVFHLKKGYMIVKCRGQQEIQDQLSLSEALQREKIFFENHPYFRDLLEEGKPCLAEKLTSELITHICKSLPLLENQIKETHQRITEELQKYGVDIPEDENEKMFFLIDKVNAFNQDITALMQGEETVGEEDIRLFTRLRHEFHKWSTIIENNFQEGHKILSRKIQKFENQAAAAELPGFVNYRTFETIVKQQIKALEEPAVDMLHTVTDMVRLAFTDVSIKNFEEFFNLHRTAKSKIEDIRAEQEREGEKLIRLHFQMEQIVYGASMEEIFQHLMAYHQEASKRISSHIPLIIQFFMLQTYGQQLQKAMLQLLQDKDTYSWLLKERSDTSDKRKFLKERLARLTQARRRLAQFPG 3t07-a1-m1-cA_3t07-a1-m1-cD Crystal structure of S. aureus Pyruvate Kinase in complex with a naturally occurring bis-indole alkaloid Q6GG09 Q6GG09 3.3 X-RAY DIFFRACTION 81 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 583 583 3t05-a1-m1-cA_3t05-a1-m1-cD 3t05-a1-m1-cB_3t05-a1-m1-cC 3t07-a1-m1-cB_3t07-a1-m1-cC 3t0t-a1-m1-cA_3t0t-a1-m1-cD 3t0t-a1-m1-cB_3t0t-a1-m1-cC MRKTKIVCTIGPASESEEMIEKLINAGMNVARLNFSHGSHEEHKGRIDTIRKVAKRLDKIVAILLDTKGPEIRTHNMKDGIIELERGNEVIVSMNEVEGTPEKFSVTYENLINDVQVGSYILLDDGLIELQVKDIDHAKKEVKCDILNSGELKNKKGVNLPGVRVSLPGITEKDAEDIRFGIKENVDFIAASFVRRPSDVLEIREILEEQKANISVFPKIENQEGIDNIEEILEVSDGLMVARGDMGVEIPPEKVPMVQKDLIRQCNKLGKPVITATQMLDSMQRNPRATRAEASDVANAIYDGTDAVMLSGETAAGLYPEEAVKTMRNIAVSAEAAQDYKKLLSDRTKLVETSLVNAIGISVAHTALNLNVKAIVAATESGSTARTISKYRPHSDIIAVTPSEETARQCSIVWGVQPVVKKGRKSTDALLNNAVATAVETGRVTNGDLIIITAGVPTGETGTTNMMKIHLVGDEIANGQGIGRGSVVGTTLVAETVKDLEGKDLSDKVIVTNSIDETFVPYVEKALGLITEENGITSPSAIVGLEKGIPTVVGVEKAVKNISNNVLVTIDAAQGKIFEGYAN MRKTKIVCTIGPASESEEMIEKLINAGMNVARLNFSHGSHEEHKGRIDTIRKVAKRLDKIVAILLDTKGPEIRTHNMKDGIIELERGNEVIVSMNEVEGTPEKFSVTYENLINDVQVGSYILLDDGLIELQVKDIDHAKKEVKCDILNSGELKNKKGVNLPGVRVSLPGITEKDAEDIRFGIKENVDFIAASFVRRPSDVLEIREILEEQKANISVFPKIENQEGIDNIEEILEVSDGLMVARGDMGVEIPPEKVPMVQKDLIRQCNKLGKPVITATQMLDSMQRNPRATRAEASDVANAIYDGTDAVMLSGETAAGLYPEEAVKTMRNIAVSAEAAQDYKKLLSDRTKLVETSLVNAIGISVAHTALNLNVKAIVAATESGSTARTISKYRPHSDIIAVTPSEETARQCSIVWGVQPVVKKGRKSTDALLNNAVATAVETGRVTNGDLIIITAGVPTGETGTTNMMKIHLVGDEIANGQGIGRGSVVGTTLVAETVKDLEGKDLSDKVIVTNSIDETFVPYVEKALGLITEENGITSPSAIVGLEKGIPTVVGVEKAVKNISNNVLVTIDAAQGKIFEGYAN 3t07-a1-m1-cC_3t07-a1-m1-cD Crystal structure of S. aureus Pyruvate Kinase in complex with a naturally occurring bis-indole alkaloid Q6GG09 Q6GG09 3.3 X-RAY DIFFRACTION 102 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 583 583 3t05-a1-m1-cA_3t05-a1-m1-cB 3t05-a1-m1-cC_3t05-a1-m1-cD 3t07-a1-m1-cA_3t07-a1-m1-cB 3t0t-a1-m1-cA_3t0t-a1-m1-cB 3t0t-a1-m1-cC_3t0t-a1-m1-cD MRKTKIVCTIGPASESEEMIEKLINAGMNVARLNFSHGSHEEHKGRIDTIRKVAKRLDKIVAILLDTKGPEIRTHNMKDGIIELERGNEVIVSMNEVEGTPEKFSVTYENLINDVQVGSYILLDDGLIELQVKDIDHAKKEVKCDILNSGELKNKKGVNLPGVRVSLPGITEKDAEDIRFGIKENVDFIAASFVRRPSDVLEIREILEEQKANISVFPKIENQEGIDNIEEILEVSDGLMVARGDMGVEIPPEKVPMVQKDLIRQCNKLGKPVITATQMLDSMQRNPRATRAEASDVANAIYDGTDAVMLSGETAAGLYPEEAVKTMRNIAVSAEAAQDYKKLLSDRTKLVETSLVNAIGISVAHTALNLNVKAIVAATESGSTARTISKYRPHSDIIAVTPSEETARQCSIVWGVQPVVKKGRKSTDALLNNAVATAVETGRVTNGDLIIITAGVPTGETGTTNMMKIHLVGDEIANGQGIGRGSVVGTTLVAETVKDLEGKDLSDKVIVTNSIDETFVPYVEKALGLITEENGITSPSAIVGLEKGIPTVVGVEKAVKNISNNVLVTIDAAQGKIFEGYAN MRKTKIVCTIGPASESEEMIEKLINAGMNVARLNFSHGSHEEHKGRIDTIRKVAKRLDKIVAILLDTKGPEIRTHNMKDGIIELERGNEVIVSMNEVEGTPEKFSVTYENLINDVQVGSYILLDDGLIELQVKDIDHAKKEVKCDILNSGELKNKKGVNLPGVRVSLPGITEKDAEDIRFGIKENVDFIAASFVRRPSDVLEIREILEEQKANISVFPKIENQEGIDNIEEILEVSDGLMVARGDMGVEIPPEKVPMVQKDLIRQCNKLGKPVITATQMLDSMQRNPRATRAEASDVANAIYDGTDAVMLSGETAAGLYPEEAVKTMRNIAVSAEAAQDYKKLLSDRTKLVETSLVNAIGISVAHTALNLNVKAIVAATESGSTARTISKYRPHSDIIAVTPSEETARQCSIVWGVQPVVKKGRKSTDALLNNAVATAVETGRVTNGDLIIITAGVPTGETGTTNMMKIHLVGDEIANGQGIGRGSVVGTTLVAETVKDLEGKDLSDKVIVTNSIDETFVPYVEKALGLITEENGITSPSAIVGLEKGIPTVVGVEKAVKNISNNVLVTIDAAQGKIFEGYAN 3t0j-a1-m1-cD_3t0j-a1-m1-cA Crystal structure of inositol monophosphatase - II from Staphylococcus aureus MSSA476 2.59 X-RAY DIFFRACTION 20 1.0 282459 (Staphylococcus aureus subsp. aureus MSSA476) 282459 (Staphylococcus aureus subsp. aureus MSSA476) 257 266 3t0j-a1-m1-cB_3t0j-a1-m1-cC MALYGFAQGLIQEAGIRIKQLMEQNLNDLVTNVDKATEDFIFDTILETYPNHQVLGEEGHGHDIDTSKGTVWVVDPIDGTLNFVHQQENFAISIGIYIDGKPYAGFVYDVMADVLYHAKVGEGAYRGSQPLKPLNDSNLRQSIIGINPNWLTKPILGEIFKEIVNDSRSARAYGSAALEIVSVATGNLEAYMTPRLQPWDFAGGLVILYEVNGQASNLLGEPLTISGPNSILVGNRGLHQEISNDYLEPHHDALIQL MALYGFAQGLIQEAGIRIKQLMEQNLTPNDLVTNVDKATEDFIFDTILETYPNHQVLGEEGHGHDIDTSKGTVWVVDPIDGTLNFVHQQENFAISIGIYIDGKPYAGFVYDVMADVLYHAKVGEGAYRGSQPLKPLNDSNLRQSIIGINPNWLTKPILGEIFKEIVNDSRSARAYGSAALEIVSVATGNLEAYMTPRLQPWDFAGGLVILYEVNGQASNLLGEPLTISGPNSILVGNRGLHQEISNDYLEPHHDALIQLHEQRFKR 3t0p-a1-m1-cA_3t0p-a1-m1-cB Crystal structure of a Putative DNA polymerase III beta subunit (EUBREC_0002; ERE_29750) from Eubacterium rectale ATCC 33656 at 2.26 A resolution C4Z938 C4Z938 2.26 X-RAY DIFFRACTION 58 1.0 515619 ([Eubacterium] rectale ATCC 33656) 515619 ([Eubacterium] rectale ATCC 33656) 353 356 GKLICSKANLLKGVNIVSKAVPTRTTAILECILIDASANEIKLANDELGIETIIDGTIEERGIIALDAKIFSEIVRKLPDNDVTIETDASFKTVISCEKAKFNIIGKSGDDFSYIPYVERNESIVLSQFTLKEVIRQTIFSIADNDNNKLTGELFEIEENKLRVVSLDGHRISIRYIEKNHYDSKKVVVPGKTLQEISKIIPGSADEDVVIYITNNHIVFEFENTTVVSRLIEGEYFKIDQLSSDYDTKVRINKRELLDCIDRATLLVKEDKKPIINITDGNELRINSFIGSNEDIDIDKDGKDIIGFNPKFFIDALRVIDEEEVNLYVNPKAPCFIKDDEGKFIYLILPVNF GKLICSKANLLKGVNIVSKAVPTRTTAILECILIDASANEIKLANDELGIETIIDGTIEERGIIALDAKIFSEIVRKLPDNDVTIETDASFKTVISCEKAKFNIIGKSGDDFSYIPYVERNESIVLSQFTLKEVIRQTIFSIADNDNNKLTGELFEIEENKLRVVSLDGHRISIRYIEKNHYDSKKVVVPGKTLQEISKIIPGSADEDVVIYITNNHIVFEFENTTVVSRLIEGEYFKIDQLSSDYDTKVRINKRELLDCIDRATLLVKEGDKKPIINITDGNELRINSFIGSNEDIDIDKDGKDIIGFNPKFFIDALRVIDEEEVNLYVNPKAPCFIKDDEGKFIYLILPVNFNT 3t0r-a2-m1-cD_3t0r-a2-m1-cC Crystal Structure of MjTX-I, a myotoxic Lys49-phospholipase A2 from Bothrops moojeni P82114 P82114 2.49 X-RAY DIFFRACTION 15 1.0 98334 (Bothrops moojeni) 98334 (Bothrops moojeni) 116 117 3t0r-a1-m1-cA_3t0r-a1-m1-cB SLVELGKMILQETGKNPAKSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTNCDPKKDRYSYDWKNKTIVCGEENPCLKQLCECDKAVAICLRENKGTYNKKRPFCDKGRDC SLVELGKMILQETGKNPAKSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTNCDPKKDRYSYDWKNKTIVCGEENPCLKQLCECDKAVAICLRENKGTYNKKRDPFCDKGRDC 3t0w-a1-m2-cB_3t0w-a1-m1-cA Fluorogen activating protein M8VL in complex with dimethylindole red 1.501 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 PVLTQSPSVSGTPGQKVTIFCSGSSSNVEDNSVYWYQQFPGTTPKVLIYNDDRRSSGVPDRFSGSKSGTSASLAISGLRSEDEADYYCLSWDDSLNGWVFGGGTKVTVLD PVLTQSPSVSGTPGQKVTIFCSGSSSNVEDNSVYWYQQFPGTTPKVLIYNDDRRSSGVPDRFSGSKSGTSASLAISGLRSEDEADYYCLSWDDSLNGWVFGGGTKVTVLD 3t0x-a1-m1-cB_3t0x-a1-m1-cA Fluorogen Activating Protein M8VLA4(S55P) in complex with dimethylindole red 1.96 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 110 PVLTQSPSVSGTPGQKVTIFCSGSSSNVEDNSVYWYQQFPGTTPKVLIYNDDRRPSGVPDRFSGSKSGTSASLAISGLRSEDEADYYCLSWDDSLNGWVFGGGTKVTV PVLTQSPSVSGTPGQKVTIFCSGSSSNVEDNSVYWYQQFPGTTPKVLIYNDDRRPSGVPDRFSGSKSGTSASLAISGLRSEDEADYYCLSWDDSLNGWVFGGGTKVTVLD 3t0y-a1-m1-cA_3t0y-a1-m1-cC Structure of the PhyR anti-anti-sigma domain bound to the anti-sigma factor, NepR A0A0H3CBZ6 A0A0H3CBZ6 2.102 X-RAY DIFFRACTION 100 0.992 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 124 126 PSLLARLAPHLPYIRRYARALTGDQATGDHYVRVALEALAAGELVLDANLSPRVALYRVFHAIWLSSAGDDAAQRLRIAPRSRQAFLLTALEGFTPTEAAQILDCDFGEVERLIGDAQAEIDAE SLLARLAPHLPYIRRYARALTGDQATGDHYVRVALEALAAGELVLDANLSPRVALYRVFHAIWLSSAGDDAAQRLRIAPRSRQAFLLTALEGFTPTEAAQILDCDFGEVERLIGDAQAEIDAELAT 3t1b-a1-m1-cB_3t1b-a1-m1-cA Crystal structure of the full-length AphB N100E variant Q9KT56 Q9KT56 2.7 X-RAY DIFFRACTION 128 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 289 290 MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSELTKRMMMPMFNAFMEKYPDIHIELMMSNQADLDPTEWDVIFRVGPQRDSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSELTKRMMMPMFNAFMEKYPDIHIELMMSNQADDLDPTEWDVIFRVGPQRDSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL 3t1b-a1-m1-cD_3t1b-a1-m1-cC Crystal structure of the full-length AphB N100E variant Q9KT56 Q9KT56 2.7 X-RAY DIFFRACTION 115 0.997 666 (Vibrio cholerae) 666 (Vibrio cholerae) 289 290 MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHRKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSELTKRMMMPMFNAFMEKYPDIHIELMMSNQADDLDPTEWDVIFRVGPQRDSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHL MKLDDLNLFRLVVENGSYTSTSKKTMIPVATITRRIQALEDSLNLRLLNRHARKLTLTEAGERFYKDCSPLLERLASMTEEITDECRGASGRIRISAPSELTKRMMMPMFNAFMEKYPDIHIELMMSNADDLDPTEWDVIFRVGPQRDSSLIARKIGEVKDILVASPQYLSSHPQPTHAEELHQHQLLKGYPLLKWQLTNSQGETVVNSDRGRFQASALNVVRSACSEGLGITLMPDVMLREFLEDGSLVQVLSDWSSNPRDIYMLYNHKDHQPEKVRLFIDFVIGYHLQ 3t1e-a1-m2-cE_3t1e-a1-m2-cF The structure of the Newcastle disease virus hemagglutinin-neuraminidase (HN) ectodomain reveals a 4-helix bundle stalk P12554 P12554 3.301 X-RAY DIFFRACTION 34 1.0 11177 (Newcastle disease virus (STRAIN AUSTRALIA-VICTORIA/32)) 11177 (Newcastle disease virus (STRAIN AUSTRALIA-VICTORIA/32)) 37 37 3t1e-a1-m1-cE_3t1e-a1-m1-cF 3t1e-a1-m1-cE_3t1e-a1-m2-cF 3t1e-a1-m1-cF_3t1e-a1-m2-cE DVVDRIYKQVALESPLALLNTESIIMNAITSLSYQIN DVVDRIYKQVALESPLALLNTESIIMNAITSLSYQIN 3t1i-a2-m1-cC_3t1i-a2-m1-cD Crystal Structure of Human Mre11: Understanding Tumorigenic Mutations P49959 P49959 3 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 368 377 3t1i-a1-m1-cA_3t1i-a1-m1-cB DDENTFKILVATDIHLGFEKDAVRGNDTFVTLDEILRLAQENEVDFILLGGDLFHENKPSRKTLHTCLELLRKYCGDRPVQFEILSDQSNLNISIPVFSIHGNHDDPTGADALCALDILSCAGFVNHFGRSSVEKIDISPVLLQKGSTKIALYGLGSIPDERLYRFVNKKVTLRPKEDENSWFNLFVIHQNRSKHGSTNFIPEQFLDDFIDLVIWGHEHECKIAPTKNEQQLFYISQPGSSVVTSLSPGEAVKKHVGLLRIKGRKNHKIPLHTVRQFFEDIVLANHPDIFNPDNPKVTQAIQSFCLEKIEELENAERERLGNSHQPEKPLVRLRVDYSGGFEPFSVLRFSQKFVDRVANPKDIIHFFR DDENTFKILVATDIHLGFEKDAVRGNDTFVTLDEILRLAQENEVDFILLGGDLFHENKPSRKTLHTCLELLRKYCGDRPVQFEILSDQSVNFGFSKFPNLNISIPVFSIHGNHDDPTGADALCALDILSCAGFVNHFGRSSVEKIDISPVLLQKGSTKIALYGLGSIPDERLYRFVNKKVTLRPKEDENSWFNLFVIHQNRSKHGSTNFIPEQFLDDFIDLVIWGHEHECKIAPTKNEQQLFYISQPGSSVVTSLSPGEAVKKHVGLLRIKGRKNHKIPLHTVRQFFEDIVLANHPDIFNPDNPKVTQAIQSFCLEKIEELENAERERLGNSHQPEKPLVRLRVDYSGGFEPFSVLRFSQKFVDRVANPKDIIHFFR 3t1p-a1-m2-cA_3t1p-a1-m3-cA Crystal structure of an alpha-1-antitrypsin trimer P01009 P01009 3.9 X-RAY DIFFRACTION 179 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 371 371 3t1p-a1-m1-cA_3t1p-a1-m2-cA 3t1p-a1-m1-cA_3t1p-a1-m3-cA NKITPNLAEFAFSLYRQLAHQSNSTNIFFSPVSIATAFAMLSLGTKADTHDEILEGLNFNLTEIPEAQIHEGFQELLRTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHSKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLCITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLCIDEKGTEAAGAMFLEAIPRSIPPEVKFNKPFVFLMIEQNTKSPLFMGKVVNPTQK NKITPNLAEFAFSLYRQLAHQSNSTNIFFSPVSIATAFAMLSLGTKADTHDEILEGLNFNLTEIPEAQIHEGFQELLRTLNQPDSQLQLTTGNGLFLSEGLKLVDKFLEDVKKLYHSEAFTVNFGDTEEAKKQINDYVEKGTQGKIVDLVKELDRDTVFALVNYIFFKGKWERPFEVKDTEEEDFHVDQVTTVKVPMMKRLGMFNIQHSKKLSSWVLLMKYLGNATAIFFLPDEGKLQHLENELTHDIITKFLENEDRRSASLHLPKLCITGTYDLKSVLGQLGITKVFSNGADLSGVTEEAPLKLSKAVHKAVLCIDEKGTEAAGAMFLEAIPRSIPPEVKFNKPFVFLMIEQNTKSPLFMGKVVNPTQK 3t1w-a1-m1-cA_3t1w-a1-m2-cA Structure of the four-domain fragment Fn7B89 of oncofetal fibronectin P02751 P02751 2.4 X-RAY DIFFRACTION 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 368 368 PLSPPTNLHLEANPDTGVLTVSWERSTTPDITGYRITTTPTNGQQGNSLEEVVHADQSSCTFDNLSPGLEYNVSVYTVKDDKESVPISDTIIPEVPQLTDLSFVDITDSSIGLRWTPLNSSTIIGYRITVVAAGEGIPIFEDFVDSSVGYYTVTGLEPGIDYDISVITLINGGESAPTTLTQQTAVPPPTDLRFTNIGPDTMRVTWAPPPSIDLTNFLVRYSPVKNEEDVAELSISPSDNAVVLTNLLPGTEYVVSVSSVYEQHESTPLRGRQKTGLDSPTGIDFSDITANSFTVHWIAPRATITGYRIRHHPEHFSGRPREDRVPHSRNSITLTNLTPGTEYVVSIVALNGREESPLLIGQQSTVSA PLSPPTNLHLEANPDTGVLTVSWERSTTPDITGYRITTTPTNGQQGNSLEEVVHADQSSCTFDNLSPGLEYNVSVYTVKDDKESVPISDTIIPEVPQLTDLSFVDITDSSIGLRWTPLNSSTIIGYRITVVAAGEGIPIFEDFVDSSVGYYTVTGLEPGIDYDISVITLINGGESAPTTLTQQTAVPPPTDLRFTNIGPDTMRVTWAPPPSIDLTNFLVRYSPVKNEEDVAELSISPSDNAVVLTNLLPGTEYVVSVSSVYEQHESTPLRGRQKTGLDSPTGIDFSDITANSFTVHWIAPRATITGYRIRHHPEHFSGRPREDRVPHSRNSITLTNLTPGTEYVVSIVALNGREESPLLIGQQSTVSA 3t20-a2-m1-cA_3t20-a2-m2-cA Crystal structure of Pseudomonas aeruginosa OccK5 (OpdH) Q9I5H4 Q9I5H4 2.6 X-RAY DIFFRACTION 30 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 362 362 AGFLEDSKASLETRNFYMNRDFRKREEWAQGFILNLQSGYTQGTVGFGLDAMGMLGVKLDSPDTYSKLGLTAKVKVSQSELKVGTLIPKLPSVQPNNGRIFPQIFEGALLTSKEIKDLGFTAGRLEKTKIDSEDLALNDKNGRFAGVSADHFDLGGLDYKLTDQLTASYHYSNLQDVYRQHFVGLLHSWPIGPGELTSDLRFARSTDSGSAKAGGIDNKSLNGMFTYSLGNHAFGAAWQRMNGDDAFPYLEGSNPYLVNFVQVNDFAGPKERSWQLRYDYDFVGLGIPGLTFMTRYVKGDNVELAGQGEGREWERNTELQYVFQSGALKNLGIRWRNATFRSNFTRDIDENRLIVSYTLPIW AGFLEDSKASLETRNFYMNRDFRKREEWAQGFILNLQSGYTQGTVGFGLDAMGMLGVKLDSPDTYSKLGLTAKVKVSQSELKVGTLIPKLPSVQPNNGRIFPQIFEGALLTSKEIKDLGFTAGRLEKTKIDSEDLALNDKNGRFAGVSADHFDLGGLDYKLTDQLTASYHYSNLQDVYRQHFVGLLHSWPIGPGELTSDLRFARSTDSGSAKAGGIDNKSLNGMFTYSLGNHAFGAAWQRMNGDDAFPYLEGSNPYLVNFVQVNDFAGPKERSWQLRYDYDFVGLGIPGLTFMTRYVKGDNVELAGQGEGREWERNTELQYVFQSGALKNLGIRWRNATFRSNFTRDIDENRLIVSYTLPIW 3t22-a1-m1-cB_3t22-a1-m1-cA Crystal structure of OxyR mutant from Porphyromonas gingivalis Q20K61 Q20K61 2.2 X-RAY DIFFRACTION 88 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 207 210 3ho7-a1-m1-cA_3ho7-a1-m1-cB 3t22-a2-m1-cD_3t22-a2-m1-cC 3uki-a1-m1-cB_3uki-a1-m1-cA 3uki-a2-m1-cD_3uki-a2-m1-cC GRLNIAVLPTIAPYLLPRVFPIWKKELAGLEIHVSEMQTSRCLASLLSGEIDMAIIASKAETEGLEDDLLYYEEFLGYVSRCEPLFEQDVIRTTEVNPHRLWLLDEGHSFRDQLVRFCAYSGGSMEAFMRLVESGQGITFIPQLTVEQLSPSQKELVRPFGMPRPVREVRLAVRQDYSRRKLREQLIGLLRSAVPSDMHKLQTGQHL GRLNIAVLPTIAPYLLPRVFPIWKKELAGLEIHVSEMQTSRCLASLLSGEIDMAIIASKAETEGLEDDLLYYEEFLGYVSRCEPLFEQDVIRTTEVNPHRLWLLDEGHSFRDQLVRFCQMAYSGGSMEAFMRLVESGQGITFIPQLTVEQLSPSQKELVRPFGMPRPVREVRLAVRQDYSRRKLREQLIGLLRSAVPSDMHKLQTGQHLA 3t24-a4-m1-cC_3t24-a4-m2-cA Crystal structure of Pseudomonas aeruginosa OpdQ Q9HZH0 Q9HZH0 2.4 X-RAY DIFFRACTION 16 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 367 377 SEFIKDSKASIELRNFYFNRDFRQEGASQSKAEEWAQGFLLRYESGYTEGTIGFGVDAIGLLGDYGEAGITAKLRASKSTLKIGTLTPKLPVIMPNDSRLLPQTFQGGALNSMEIDGLTLDAGRLKKVNQRDSSDNEDMTITGGGKRQIVVRSGLTSDKFDFAGGSYKWTDNLSTSYHYGKLDNFYKQHYLGLVHTLPIADKQSLKSDIRWARSTDDGSSNVDNKALNAMFTYSLGYHAFGVGYQKMSGDTGFAYINGADPYLVNFIQIGDFANKDEKSWQARYDYNFAGVGIPGLTFMTRYVKGDNIDLLTTSGEGKEWERDMDIAYVFQSGPNLGVKWRNATMRTNYTNDYDENRLIVSYTLPLW QSEFIKDSKASIELRNFYFNRDFRQEGASQSKAEEWAQGFLLRYESGYTEGTIGFGVDAIGLLGVKLDSQDDYGEAGITAKLRASKSTLKIGTLTPKLPVIMPNDSRLLPQTFQGGALNSMEIDGLTLDAGRLKKVNQRDSSDNEDMTITGGGKRQIVVRSGLTSDKFDFAGGSYKWTDNLSTSYHYGKLDNFYKQHYLGLVHTLPIADKQSLKSDIRWARSTDDGSSNVDNKALNAMFTYSLGYHAFGVGYQKMSGDTGFAYINGADPYLVNFIQIGDFANKDEKSWQARYDYNFAGVGIPGLTFMTRYVKGDNIDLLTTSGEGKEWERDMDIAYVFQSGPLKNLGVKWRNATMRTNYTNDYDENRLIVSYTLPLW 3t2e-a1-m1-cA_3t2e-a1-m8-cA Fructose-1,6-bisphosphate aldolase/phosphatase from Thermoproteus neutrophilus, F6P-bound form B1YAL1 B1YAL1 1.66 X-RAY DIFFRACTION 36 1.0 444157 (Pyrobaculum neutrophilum V24Sta) 444157 (Pyrobaculum neutrophilum V24Sta) 385 385 3t2b-a1-m1-cA_3t2b-a1-m8-cA 3t2b-a1-m2-cA_3t2b-a1-m7-cA 3t2b-a1-m3-cA_3t2b-a1-m6-cA 3t2b-a1-m4-cA_3t2b-a1-m5-cA 3t2c-a1-m1-cA_3t2c-a1-m8-cA 3t2c-a1-m2-cA_3t2c-a1-m7-cA 3t2c-a1-m3-cA_3t2c-a1-m6-cA 3t2c-a1-m4-cA_3t2c-a1-m5-cA 3t2d-a1-m1-cA_3t2d-a1-m8-cA 3t2d-a1-m2-cA_3t2d-a1-m7-cA 3t2d-a1-m3-cA_3t2d-a1-m6-cA 3t2d-a1-m4-cA_3t2d-a1-m5-cA 3t2e-a1-m2-cA_3t2e-a1-m7-cA 3t2e-a1-m3-cA_3t2e-a1-m6-cA 3t2e-a1-m4-cA_3t2e-a1-m5-cA 3t2f-a1-m1-cA_3t2f-a1-m8-cA 3t2f-a1-m2-cA_3t2f-a1-m7-cA 3t2f-a1-m3-cA_3t2f-a1-m6-cA 3t2f-a1-m4-cA_3t2f-a1-m5-cA 3t2g-a1-m1-cA_3t2g-a1-m8-cA 3t2g-a1-m2-cA_3t2g-a1-m7-cA 3t2g-a1-m3-cA_3t2g-a1-m6-cA 3t2g-a1-m4-cA_3t2g-a1-m5-cA MRVTVSIIKADVGGFPGHAHVHPKMLEYAAAKLKEAQKRGVIIDYFVYNVGDDISLLMTHTKGEDNKDIHGLAWETFKEVTDQIAKRFKLYGAGQDLLKDAFSGNIRGMGPQVAEMEFEERPSEPIIAFAADKTEPGAFNLPLYKMFADPFTTAGLVIDPSMHEGFIFEVLDVVEHKVYLLKTPEDAYSLLGLIGTTGRYIIRKVFRRADGAPAAANSVERLSLYVGKDDPVLLVRAQSGLPAVGEVLEAFAHPHLVHGWMRGSHAGPLMPARFISVDPERRIAIGPKMTRFDGPPKVGALGFQLHEGYLEGGVDLFDDPAFDYVRQTAAQIADYIRRMGPFQPHRLPPEEMEYTALPKILAKVKPYPADQYEKDRKKYIEAVVK MRVTVSIIKADVGGFPGHAHVHPKMLEYAAAKLKEAQKRGVIIDYFVYNVGDDISLLMTHTKGEDNKDIHGLAWETFKEVTDQIAKRFKLYGAGQDLLKDAFSGNIRGMGPQVAEMEFEERPSEPIIAFAADKTEPGAFNLPLYKMFADPFTTAGLVIDPSMHEGFIFEVLDVVEHKVYLLKTPEDAYSLLGLIGTTGRYIIRKVFRRADGAPAAANSVERLSLYVGKDDPVLLVRAQSGLPAVGEVLEAFAHPHLVHGWMRGSHAGPLMPARFISVDPERRIAIGPKMTRFDGPPKVGALGFQLHEGYLEGGVDLFDDPAFDYVRQTAAQIADYIRRMGPFQPHRLPPEEMEYTALPKILAKVKPYPADQYEKDRKKYIEAVVK 3t2e-a1-m3-cA_3t2e-a1-m8-cA Fructose-1,6-bisphosphate aldolase/phosphatase from Thermoproteus neutrophilus, F6P-bound form B1YAL1 B1YAL1 1.66 X-RAY DIFFRACTION 178 1.0 444157 (Pyrobaculum neutrophilum V24Sta) 444157 (Pyrobaculum neutrophilum V24Sta) 385 385 3t2b-a1-m1-cA_3t2b-a1-m5-cA 3t2b-a1-m2-cA_3t2b-a1-m6-cA 3t2b-a1-m3-cA_3t2b-a1-m8-cA 3t2b-a1-m4-cA_3t2b-a1-m7-cA 3t2c-a1-m1-cA_3t2c-a1-m5-cA 3t2c-a1-m2-cA_3t2c-a1-m6-cA 3t2c-a1-m3-cA_3t2c-a1-m8-cA 3t2c-a1-m4-cA_3t2c-a1-m7-cA 3t2d-a1-m1-cA_3t2d-a1-m5-cA 3t2d-a1-m2-cA_3t2d-a1-m6-cA 3t2d-a1-m3-cA_3t2d-a1-m8-cA 3t2d-a1-m4-cA_3t2d-a1-m7-cA 3t2e-a1-m1-cA_3t2e-a1-m5-cA 3t2e-a1-m2-cA_3t2e-a1-m6-cA 3t2e-a1-m4-cA_3t2e-a1-m7-cA 3t2f-a1-m1-cA_3t2f-a1-m5-cA 3t2f-a1-m2-cA_3t2f-a1-m6-cA 3t2f-a1-m3-cA_3t2f-a1-m8-cA 3t2f-a1-m4-cA_3t2f-a1-m7-cA 3t2g-a1-m1-cA_3t2g-a1-m5-cA 3t2g-a1-m2-cA_3t2g-a1-m6-cA 3t2g-a1-m3-cA_3t2g-a1-m8-cA 3t2g-a1-m4-cA_3t2g-a1-m7-cA MRVTVSIIKADVGGFPGHAHVHPKMLEYAAAKLKEAQKRGVIIDYFVYNVGDDISLLMTHTKGEDNKDIHGLAWETFKEVTDQIAKRFKLYGAGQDLLKDAFSGNIRGMGPQVAEMEFEERPSEPIIAFAADKTEPGAFNLPLYKMFADPFTTAGLVIDPSMHEGFIFEVLDVVEHKVYLLKTPEDAYSLLGLIGTTGRYIIRKVFRRADGAPAAANSVERLSLYVGKDDPVLLVRAQSGLPAVGEVLEAFAHPHLVHGWMRGSHAGPLMPARFISVDPERRIAIGPKMTRFDGPPKVGALGFQLHEGYLEGGVDLFDDPAFDYVRQTAAQIADYIRRMGPFQPHRLPPEEMEYTALPKILAKVKPYPADQYEKDRKKYIEAVVK MRVTVSIIKADVGGFPGHAHVHPKMLEYAAAKLKEAQKRGVIIDYFVYNVGDDISLLMTHTKGEDNKDIHGLAWETFKEVTDQIAKRFKLYGAGQDLLKDAFSGNIRGMGPQVAEMEFEERPSEPIIAFAADKTEPGAFNLPLYKMFADPFTTAGLVIDPSMHEGFIFEVLDVVEHKVYLLKTPEDAYSLLGLIGTTGRYIIRKVFRRADGAPAAANSVERLSLYVGKDDPVLLVRAQSGLPAVGEVLEAFAHPHLVHGWMRGSHAGPLMPARFISVDPERRIAIGPKMTRFDGPPKVGALGFQLHEGYLEGGVDLFDDPAFDYVRQTAAQIADYIRRMGPFQPHRLPPEEMEYTALPKILAKVKPYPADQYEKDRKKYIEAVVK 3t2e-a1-m6-cA_3t2e-a1-m8-cA Fructose-1,6-bisphosphate aldolase/phosphatase from Thermoproteus neutrophilus, F6P-bound form B1YAL1 B1YAL1 1.66 X-RAY DIFFRACTION 155 1.0 444157 (Pyrobaculum neutrophilum V24Sta) 444157 (Pyrobaculum neutrophilum V24Sta) 385 385 3t2b-a1-m1-cA_3t2b-a1-m3-cA 3t2b-a1-m1-cA_3t2b-a1-m4-cA 3t2b-a1-m2-cA_3t2b-a1-m3-cA 3t2b-a1-m2-cA_3t2b-a1-m4-cA 3t2b-a1-m5-cA_3t2b-a1-m7-cA 3t2b-a1-m5-cA_3t2b-a1-m8-cA 3t2b-a1-m6-cA_3t2b-a1-m7-cA 3t2b-a1-m6-cA_3t2b-a1-m8-cA 3t2c-a1-m1-cA_3t2c-a1-m3-cA 3t2c-a1-m1-cA_3t2c-a1-m4-cA 3t2c-a1-m2-cA_3t2c-a1-m3-cA 3t2c-a1-m2-cA_3t2c-a1-m4-cA 3t2c-a1-m5-cA_3t2c-a1-m7-cA 3t2c-a1-m5-cA_3t2c-a1-m8-cA 3t2c-a1-m6-cA_3t2c-a1-m7-cA 3t2c-a1-m6-cA_3t2c-a1-m8-cA 3t2d-a1-m1-cA_3t2d-a1-m3-cA 3t2d-a1-m1-cA_3t2d-a1-m4-cA 3t2d-a1-m2-cA_3t2d-a1-m3-cA 3t2d-a1-m2-cA_3t2d-a1-m4-cA 3t2d-a1-m5-cA_3t2d-a1-m7-cA 3t2d-a1-m5-cA_3t2d-a1-m8-cA 3t2d-a1-m6-cA_3t2d-a1-m7-cA 3t2d-a1-m6-cA_3t2d-a1-m8-cA 3t2e-a1-m1-cA_3t2e-a1-m3-cA 3t2e-a1-m1-cA_3t2e-a1-m4-cA 3t2e-a1-m2-cA_3t2e-a1-m3-cA 3t2e-a1-m2-cA_3t2e-a1-m4-cA 3t2e-a1-m5-cA_3t2e-a1-m7-cA 3t2e-a1-m5-cA_3t2e-a1-m8-cA 3t2e-a1-m6-cA_3t2e-a1-m7-cA 3t2f-a1-m1-cA_3t2f-a1-m3-cA 3t2f-a1-m1-cA_3t2f-a1-m4-cA 3t2f-a1-m2-cA_3t2f-a1-m3-cA 3t2f-a1-m2-cA_3t2f-a1-m4-cA 3t2f-a1-m5-cA_3t2f-a1-m7-cA 3t2f-a1-m5-cA_3t2f-a1-m8-cA 3t2f-a1-m6-cA_3t2f-a1-m7-cA 3t2f-a1-m6-cA_3t2f-a1-m8-cA 3t2g-a1-m1-cA_3t2g-a1-m3-cA 3t2g-a1-m1-cA_3t2g-a1-m4-cA 3t2g-a1-m2-cA_3t2g-a1-m3-cA 3t2g-a1-m2-cA_3t2g-a1-m4-cA 3t2g-a1-m5-cA_3t2g-a1-m7-cA 3t2g-a1-m5-cA_3t2g-a1-m8-cA 3t2g-a1-m6-cA_3t2g-a1-m7-cA 3t2g-a1-m6-cA_3t2g-a1-m8-cA MRVTVSIIKADVGGFPGHAHVHPKMLEYAAAKLKEAQKRGVIIDYFVYNVGDDISLLMTHTKGEDNKDIHGLAWETFKEVTDQIAKRFKLYGAGQDLLKDAFSGNIRGMGPQVAEMEFEERPSEPIIAFAADKTEPGAFNLPLYKMFADPFTTAGLVIDPSMHEGFIFEVLDVVEHKVYLLKTPEDAYSLLGLIGTTGRYIIRKVFRRADGAPAAANSVERLSLYVGKDDPVLLVRAQSGLPAVGEVLEAFAHPHLVHGWMRGSHAGPLMPARFISVDPERRIAIGPKMTRFDGPPKVGALGFQLHEGYLEGGVDLFDDPAFDYVRQTAAQIADYIRRMGPFQPHRLPPEEMEYTALPKILAKVKPYPADQYEKDRKKYIEAVVK MRVTVSIIKADVGGFPGHAHVHPKMLEYAAAKLKEAQKRGVIIDYFVYNVGDDISLLMTHTKGEDNKDIHGLAWETFKEVTDQIAKRFKLYGAGQDLLKDAFSGNIRGMGPQVAEMEFEERPSEPIIAFAADKTEPGAFNLPLYKMFADPFTTAGLVIDPSMHEGFIFEVLDVVEHKVYLLKTPEDAYSLLGLIGTTGRYIIRKVFRRADGAPAAANSVERLSLYVGKDDPVLLVRAQSGLPAVGEVLEAFAHPHLVHGWMRGSHAGPLMPARFISVDPERRIAIGPKMTRFDGPPKVGALGFQLHEGYLEGGVDLFDDPAFDYVRQTAAQIADYIRRMGPFQPHRLPPEEMEYTALPKILAKVKPYPADQYEKDRKKYIEAVVK 3t2l-a1-m1-cA_3t2l-a1-m2-cA Crystal structure of a Putative cell adhesion protein (BF1858) from Bacteroides fragilis NCTC 9343 at 2.33 A resolution Q5LE95 Q5LE95 2.33 X-RAY DIFFRACTION 142 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 272 272 LRVPLQVSSAVIKQEVVTRLAPDPVPLTEGAIGIFLSGTEPEDSGYKVIDNRKYVYSEGHWGPPTANDTIYLVGNDADVCAYYPYKDSYTDKTVIPLQSQDYVETEDIYYALNTINGFTPAITFDVHAYSLVELKISRENYFPCEISKITLKNSNLIKKGTINIAVDGSIHSSETGNYDLTTVTDASPHTLSVGESYVCRVLIPVPLKIERTDAEGGEFGLSVSLVIDGQQLVEIPYSELGEFRQGEKYVIGLKIKGTEIVPTVKALEWEDE LRVPLQVSSAVIKQEVVTRLAPDPVPLTEGAIGIFLSGTEPEDSGYKVIDNRKYVYSEGHWGPPTANDTIYLVGNDADVCAYYPYKDSYTDKTVIPLQSQDYVETEDIYYALNTINGFTPAITFDVHAYSLVELKISRENYFPCEISKITLKNSNLIKKGTINIAVDGSIHSSETGNYDLTTVTDASPHTLSVGESYVCRVLIPVPLKIERTDAEGGEFGLSVSLVIDGQQLVEIPYSELGEFRQGEKYVIGLKIKGTEIVPTVKALEWEDE 3t30-a2-m1-cI_3t30-a2-m1-cH Human nucleoplasmin (Npm2): a histone chaperone in oocytes and early embryos Q86SE8 Q86SE8 1.9 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 93 3t30-a1-m1-cB_3t30-a1-m1-cC 3t30-a1-m1-cD_3t30-a1-m1-cC 3t30-a2-m1-cF_3t30-a2-m1-cG TTVLWGCELSQERRTWTFRPSCRLLLHTICLGEKAKEEMHRVEILPPPVTIASLQASVLPMVSMVGVQLSPPVTFQLRAGSGPVFLSGQERY TTVLWGCELSQERRTWTFRPSCRLLLHTICLGEKAKEEMHRVEILPPQPVTIASLQASVLPMVSMVGVQLSPPVTFQLRAGSGPVFLSGQERY 3t32-a1-m1-cA_3t32-a1-m1-cB Crystal structure of a putative C-S lyase from Bacillus anthracis A0A6L7H8L3 A0A6L7H8L3 2 X-RAY DIFFRACTION 119 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 353 353 EELIHAWIADDFEVPQPIQTALKKRIEHPIFGYTLPPENIGDIICNWTKKQYNWDIQKEWIVFSAGIVPALSTSIQAFTKENESVLVQPPIYPPFFEVTTNNRQLCVSPLQKQNDTYAIDFEHLEKQFQQGVKLLLCSPHNPIGRVWKKEELTKLGSLCTKYNVIVVADEIHSDIIYADHTHTPFASLSEELAARTITCAPSTFNIAGLQASIIIIPNEKLRQAFTSIQYRQGFHGLNIFAYTAQSAYTECNDWLNEIRFYIEDNAKFACEYIKDHIPTLSVKPEGSFLLWIDCSALNLSQDERTKLLEEKGKIIVEPGEKYGLGGEEHIGINIGCPRSVLEEILNRLRHTFS EELIHAWIADDFEVPQPIQTALKKRIEHPIFGYTLPPENIGDIICNWTKKQYNWDIQKEWIVFSAGIVPALSTSIQAFTKENESVLVQPPIYPPFFEVTTNNRQLCVSPLQKQNDTYAIDFEHLEKQFQQGVKLLLCSPHNPIGRVWKKEELTKLGSLCTKYNVIVVADEIHSDIIYADHTHTPFASLSEELAARTITCAPSTFNIAGLQASIIIIPNEKLRQAFTSIQYRQGFHGLNIFAYTAQSAYTECNDWLNEIRFYIEDNAKFACEYIKDHIPTLSVKPEGSFLLWIDCSALNLSQDERTKLLEEKGKIIVEPGEKYGLGGEEHIGINIGCPRSVLEEILNRLRHTFS 3t33-a2-m1-cA_3t33-a2-m2-cA Crystal Structure of Arabidopsis GCR2 F4IEM5 F4IEM5 2.25 X-RAY DIFFRACTION 50 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 407 407 RFFRNEMPEFVPEDLSGEEETVTECKDSLTKLLSLPYKSFSEKLHRYALSIKDKVVWETWERSGKRVRDYNLYTGVLGTAYLLFKSYQVTRNEDDLKLCLENVEACDVASRDSERVTFICGYAGVCALGAVAAKCLGDDQLYDRYLARFRGIRLPSDLPYELLYGRAGYLWACLFLNKHIGQESISSERMRSVVEEIFRAGRQLGNKGTCPLMYEWHGKRYWGAAHGLAGIMNVLMHTELEPDEIKDVKGTLSYMIQNRFPSGNYLSSEGSKSDRLVHWCHGAPGVALTLVKAAQVYNTKEFVEAAMEAGEVVWSRGLLKRVGICHGISGNTYVFLSLYRLTRNPKYLYRAKAFASFLLDKSEKLISEGQMHGGDRPFSLFEGIGGMAYMLLDMNDPTQALFPGYEL RFFRNEMPEFVPEDLSGEEETVTECKDSLTKLLSLPYKSFSEKLHRYALSIKDKVVWETWERSGKRVRDYNLYTGVLGTAYLLFKSYQVTRNEDDLKLCLENVEACDVASRDSERVTFICGYAGVCALGAVAAKCLGDDQLYDRYLARFRGIRLPSDLPYELLYGRAGYLWACLFLNKHIGQESISSERMRSVVEEIFRAGRQLGNKGTCPLMYEWHGKRYWGAAHGLAGIMNVLMHTELEPDEIKDVKGTLSYMIQNRFPSGNYLSSEGSKSDRLVHWCHGAPGVALTLVKAAQVYNTKEFVEAAMEAGEVVWSRGLLKRVGICHGISGNTYVFLSLYRLTRNPKYLYRAKAFASFLLDKSEKLISEGQMHGGDRPFSLFEGIGGMAYMLLDMNDPTQALFPGYEL 3t35-a2-m1-cC_3t35-a2-m1-cD Arabidopsis thaliana dynamin-related protein 1A in postfission state P42697 P42697 3.592 X-RAY DIFFRACTION 105 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 339 339 3t34-a1-m1-cA_3t34-a1-m1-cB 3t35-a1-m1-cA_3t35-a1-m1-cB NLISLVNKIQRACTALGDHGDSSALPTLWDSLPAIAVVGGQSSGKSSVLESIVGKDFLPRGSGIVTRRPLVLQLQKIDDGTREYAEFLHLPRKKFTDFAAVRKEIQDETDRETGRSKAISSVPIHLSIYSPNVVNLTLIDLPGLTKVAVDGQSDSIVKDIENMVRSYIEKPNCIILAISPANQDLATSDAIKISREVDPSGDRTFGVLTKIDLMDKGTDAVEILEGRSFKLKYPWVGVVNRSQADINKNVDMIAARKREREYFSNTTEYRHLANKMGSEHLAKMLSKHLERVIKSRIPGIQSLINKTVLELETEIMERRSAISKRLELYRAAQSEIDAV NLISLVNKIQRACTALGDHGDSSALPTLWDSLPAIAVVGGQSSGKSSVLESIVGKDFLPRGSGIVTRRPLVLQLQKIDDGTREYAEFLHLPRKKFTDFAAVRKEIQDETDRETGRSKAISSVPIHLSIYSPNVVNLTLIDLPGLTKVAVDGQSDSIVKDIENMVRSYIEKPNCIILAISPANQDLATSDAIKISREVDPSGDRTFGVLTKIDLMDKGTDAVEILEGRSFKLKYPWVGVVNRSQADINKNVDMIAARKREREYFSNTTEYRHLANKMGSEHLAKMLSKHLERVIKSRIPGIQSLINKTVLELETEIMERRSAISKRLELYRAAQSEIDAV 3t38-a1-m1-cB_3t38-a1-m1-cA Corynebacterium glutamicum thioredoxin-dependent arsenate reductase Cg_ArsC1' Q8NQC6 Q8NQC6 2.2 X-RAY DIFFRACTION 101 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 188 197 LHTNILNRIANELALTYQGVFSAETINRYIFESYVSLARTAKIHTHLPILAEGFAKDRLHALAVAEGKVPVPQVLFICVHNAGRSQIASALLSHYAGSSVEVRSAGSLPASEIHPLVLEILSERGVNISDAFPKPLTDDVIRASDYVITGCGDVCPYPGKHYLDWELEIIEEIDGRIRELWKSIQLSQ LHTNILNRIANELALTYQGVFSAETINRYIFESYVSLARTAKIHTHLPILAEGFAKDRLHALAVAEGKVASPVPQVLFICVHNAGRSQIASALLSHYAGSSVEVRSAGSLPASEIHPLVLEILSERGVNISDAFPKPLTDDVIRASDYVITGCGDVCPYPGKHYLDWELEGEDKIQEIIEEIDGRIRELWKSIQLSQ 3t3a-a2-m2-cB_3t3a-a2-m2-cA Crystal structure of H107R mutant of extracellular domain of mouse receptor NKR-P1A P27811 P27811 2.3 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 119 122 3t3a-a1-m1-cB_3t3a-a1-m1-cA 3t3a-a2-m1-cB_3t3a-a2-m1-cA ECPQDWLSHRDKCFRVSQVSNTWEEGLVDCDGKGATLMLIQDQEELRFLLDSIKEKNSFWIGLRYTLMNWKWINGSTLNSDVLKITGDTENDSCAAISGDKVTFESCNSDNRWICQKEL ECPQDWLSHRDKCFRVSQVSNTWEEGLVDCDGKGATLMLIQDQEELRFLLDSIKEKYNSFWIGLRYTLPDMNWKWINGSTLNSDVLKITGDTENDSCAAISGDKVTFESCNSDNRWICQKEL 3t3c-a1-m1-cA_3t3c-a1-m1-cB Structure of HIV PR resistant patient derived mutant (comprising 22 mutations) in complex with DRV P03367 P03367 2.1 X-RAY DIFFRACTION 152 1.0 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 99 99 PQISLWQRPVVTARIGGQLIEVLLDTGADDTVIEDIDLPGKWSPKMIAGIGGFVKVRQYDQILIEFCGKKAIGSVLVGPTPANVIGRNIMSQIGCTLNF PQISLWQRPVVTARIGGQLIEVLLDTGADDTVIEDIDLPGKWSPKMIAGIGGFVKVRQYDQILIEFCGKKAIGSVLVGPTPANVIGRNIMSQIGCTLNF 3t3o-a1-m1-cA_3t3o-a1-m2-cA Molecular basis for the recognition and cleavage of RNA (CUGG) by the bifunctional 5'-3' exo/endoribonuclease RNase J Q72JJ7 Q72JJ7 2.5 X-RAY DIFFRACTION 149 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 553 553 3bk1-a1-m1-cA_3bk1-a1-m2-cA 3bk2-a1-m1-cA_3bk2-a1-m2-cA 3t3n-a1-m1-cA_3t3n-a1-m2-cA SQGGPQDHVEIIPLGGMGEIGKNITVFRFRDEIFVLDGGLAFPEEGMPGVDLLIPRVDYLIEHRHKIKAWVLTHGAEDHIGGLPFLLPMIFGKESPVPIYGARLTLGLLRGKLEEFGLRPGAFNLKEISPDDRIQVGRYFTLDLFRMTHSIPDNSGVVIRTPIGTIVHTGDFKLDPTPIDGKVSHLAKVAQAGAEGVLLLIADATNAERPGYTPSEMEIAKELDRVIGRAPGRVFVTTFASHIHRIQSVIWAAEKYGRKVAMEGRSMLKFSRIALELGYLKVKDRLYTLEEVKDLPDHQVLILATGSQGQPMSVLHRLAFEGHAKMAIKPGDTVILSSSPIPGNEEAVNRVINRLYALGAYVLYPPTYKVHASGHASQEELKLILNLTTPRFFLPWHGEVRHQMNFKWLAESMSRPPEKTLIGENGAVYRLTRETFEKVGEVPHGVLYVDGLGVGDITEEILADRRHMAEEGLVVITALAGEDPVVEVVSRGFVKAGERLLGEVRRMALEALKNGVREKKPLERIRDDIYYPVKKFLKKATGRDPMILPVVIE SQGGPQDHVEIIPLGGMGEIGKNITVFRFRDEIFVLDGGLAFPEEGMPGVDLLIPRVDYLIEHRHKIKAWVLTHGAEDHIGGLPFLLPMIFGKESPVPIYGARLTLGLLRGKLEEFGLRPGAFNLKEISPDDRIQVGRYFTLDLFRMTHSIPDNSGVVIRTPIGTIVHTGDFKLDPTPIDGKVSHLAKVAQAGAEGVLLLIADATNAERPGYTPSEMEIAKELDRVIGRAPGRVFVTTFASHIHRIQSVIWAAEKYGRKVAMEGRSMLKFSRIALELGYLKVKDRLYTLEEVKDLPDHQVLILATGSQGQPMSVLHRLAFEGHAKMAIKPGDTVILSSSPIPGNEEAVNRVINRLYALGAYVLYPPTYKVHASGHASQEELKLILNLTTPRFFLPWHGEVRHQMNFKWLAESMSRPPEKTLIGENGAVYRLTRETFEKVGEVPHGVLYVDGLGVGDITEEILADRRHMAEEGLVVITALAGEDPVVEVVSRGFVKAGERLLGEVRRMALEALKNGVREKKPLERIRDDIYYPVKKFLKKATGRDPMILPVVIE 3t3w-a1-m1-cC_3t3w-a1-m1-cE Crystal structure of probable enoyl-COA hydratase from mycobacterium thermoresistibile G3XAQ0 G3XAQ0 1.8 X-RAY DIFFRACTION 43 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 246 246 3t3w-a1-m1-cA_3t3w-a1-m1-cD 3t3w-a1-m1-cB_3t3w-a1-m1-cF EMYIDYDVSDRIATITLNRPEAANAQNPELLDELDAAWTRAAEDNDVSVIVLRANGKHFSAGHDLRGPDKLTLEFIYAHESRRYLEYSLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLIIAAEDALFSDPVVLMDIGGVEYHGHTWELGPRKAKEILFTGRAMTAEEVAQTGMVNRVVPRDRLDAETRALAGEIAKMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNAMSVSGWPVL EMYIDYDVSDRIATITLNRPEAANAQNPELLDELDAAWTRAAEDNDVSVIVLRANGKHFSAGHDLRGPDKLTLEFIYAHESRRYLEYSLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLIIAAEDALFSDPVVLMDIGGVEYHGHTWELGPRKAKEILFTGRAMTAEEVAQTGMVNRVVPRDRLDAETRALAGEIAKMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNAMSVSGWPVL 3t3w-a1-m1-cC_3t3w-a1-m1-cF Crystal structure of probable enoyl-COA hydratase from mycobacterium thermoresistibile G3XAQ0 G3XAQ0 1.8 X-RAY DIFFRACTION 62 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 246 248 3t3w-a1-m1-cB_3t3w-a1-m1-cA 3t3w-a1-m1-cE_3t3w-a1-m1-cD EMYIDYDVSDRIATITLNRPEAANAQNPELLDELDAAWTRAAEDNDVSVIVLRANGKHFSAGHDLRGPDKLTLEFIYAHESRRYLEYSLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLIIAAEDALFSDPVVLMDIGGVEYHGHTWELGPRKAKEILFTGRAMTAEEVAQTGMVNRVVPRDRLDAETRALAGEIAKMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNAMSVSGWPVL RTEMYIDYDVSDRIATITLNRPEAANAQNPELLDELDAAWTRAAEDNDVSVIVLRANGKHFSAGHDLRGPDKLTLEFIYAHESRRYLEYSLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLIIAAEDALFSDPVVLMDIGGVEYHGHTWELGPRKAKEILFTGRAMTAEEVAQTGMVNRVVPRDRLDAETRALAGEIAKMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNAMSVSGWPVL 3t3w-a1-m1-cE_3t3w-a1-m1-cF Crystal structure of probable enoyl-COA hydratase from mycobacterium thermoresistibile G3XAQ0 G3XAQ0 1.8 X-RAY DIFFRACTION 99 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 246 248 3t3w-a1-m1-cA_3t3w-a1-m1-cE 3t3w-a1-m1-cA_3t3w-a1-m1-cF 3t3w-a1-m1-cB_3t3w-a1-m1-cC 3t3w-a1-m1-cB_3t3w-a1-m1-cD 3t3w-a1-m1-cC_3t3w-a1-m1-cD EMYIDYDVSDRIATITLNRPEAANAQNPELLDELDAAWTRAAEDNDVSVIVLRANGKHFSAGHDLRGPDKLTLEFIYAHESRRYLEYSLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLIIAAEDALFSDPVVLMDIGGVEYHGHTWELGPRKAKEILFTGRAMTAEEVAQTGMVNRVVPRDRLDAETRALAGEIAKMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNAMSVSGWPVL RTEMYIDYDVSDRIATITLNRPEAANAQNPELLDELDAAWTRAAEDNDVSVIVLRANGKHFSAGHDLRGPDKLTLEFIYAHESRRYLEYSLRWRNVPKPSIAAVQGRCISGGLLLCWPCDLIIAAEDALFSDPVVLMDIGGVEYHGHTWELGPRKAKEILFTGRAMTAEEVAQTGMVNRVVPRDRLDAETRALAGEIAKMPPFALRQAKRAVNQTLDVQGFYAAIQSVFDIHQTGHGNAMSVSGWPVL 3t3z-a6-m1-cB_3t3z-a6-m1-cD Human Cytochrome P450 2E1 in complex with pilocarpine P05181 P05181 2.35 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 464 464 3t3z-a5-m1-cC_3t3z-a5-m2-cA KLPPGPFPLPIIGNLFQLELKNIPKSFTRLAQRFGPVFTLYVGSQRMVVMHGYKAVKEALLDYKDEFSGRGDLPAFHAHRDRGIIFNNGPTWKDIRRFSLTTLRNYGMGKQGNESRIQREAHFLLEALRKTQGQPFDPTFLIGCAPCNVIADILFRKHFDYNDEKFLRLMYLFNENFHLLSTPWLQLYNNFPSFLHYLPGSHRKVIKNVAEVKEYVSERVKEHHQSLDPNCPRDLTDCLLVEMEKEKHSAERLYTMDGITVTVADLFFAGTETTSTTLRYGLLILMKYPEIEEKLHEEIDRVIGPSRIPAIKDRQEMPYMDAVVHEIQRFITLVPSNLPHEATRDTIFRGYLIPKGTVVVPTLDSVLYDNQEFPDPEKFKPEHFLNENGKFKYSDYFKPFSTGKRVCAGEGLARMELFLLLCAILQHFNLKPLVDPKDIDLSPIHIGFGCIPPRYKLCVIPRSH KLPPGPFPLPIIGNLFQLELKNIPKSFTRLAQRFGPVFTLYVGSQRMVVMHGYKAVKEALLDYKDEFSGRGDLPAFHAHRDRGIIFNNGPTWKDIRRFSLTTLRNYGMGKQGNESRIQREAHFLLEALRKTQGQPFDPTFLIGCAPCNVIADILFRKHFDYNDEKFLRLMYLFNENFHLLSTPWLQLYNNFPSFLHYLPGSHRKVIKNVAEVKEYVSERVKEHHQSLDPNCPRDLTDCLLVEMEKEKHSAERLYTMDGITVTVADLFFAGTETTSTTLRYGLLILMKYPEIEEKLHEEIDRVIGPSRIPAIKDRQEMPYMDAVVHEIQRFITLVPSNLPHEATRDTIFRGYLIPKGTVVVPTLDSVLYDNQEFPDPEKFKPEHFLNENGKFKYSDYFKPFSTGKRVCAGEGLARMELFLLLCAILQHFNLKPLVDPKDIDLSPIHIGFGCIPPRYKLCVIPRSH 3t43-a1-m1-cB_3t43-a1-m1-cA Crystal Structure of HIV Epitope-Scaffold 4E10_1XIZA_S0_006_C 1.95 X-RAY DIFFRACTION 63 1.0 32630 (synthetic construct) 32630 (synthetic construct) 154 155 VSQNDIIKALASPLINDGMVVSDFADHVITREQNAPTGLPVEPVGVAIPHTDSKYVRQNAISVGILAEPVNFEDAGEPDPVPVRVVFMLALGNWFDITNVLWWIMDVIQDADFMQQLLVMNDDEIYQSIYTRISEAAGMAGIHFRRHYVRHLPL VSQNDIIKALASPLINDGMVVSDFADHVITREQNAPTGLPVEPVGVAIPHTDSKYVRQNAISVGILAEPVNFEDAGGEPDPVPVRVVFMLALGNWFDITNVLWWIMDVIQDADFMQQLLVMNDDEIYQSIYTRISEAAGMAGIHFRRHYVRHLPL 3t46-a2-m1-cA_3t46-a2-m2-cA Crystal structure of Staphylococcal Complement Inhibitor D (SCIN-D) at 1.5 Angstrom A0A0H3JPM4 A0A0H3JPM4 1.5 X-RAY DIFFRACTION 46 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 75 75 HQALVDQLHELIANTDLNKLSYLNLDAFQKRDILAAHYIAKSAIRTKNLDQMTKAKQRLESIYNSISNPLHSQNN HQALVDQLHELIANTDLNKLSYLNLDAFQKRDILAAHYIAKSAIRTKNLDQMTKAKQRLESIYNSISNPLHSQNN 3t4c-a1-m1-cD_3t4c-a1-m1-cB Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia ambifaria B1YT10 B1YT10 1.95 X-RAY DIFFRACTION 43 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 259 262 3t4c-a1-m1-cC_3t4c-a1-m1-cA 3tml-a2-m1-cA_3tml-a2-m2-cD 3tml-a2-m1-cC_3tml-a2-m2-cB SMKLYDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICAKLNVPFIYKSSMDEGLRILGEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKAREAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETSAPVVFDATHSVQLPGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRHPFLEND SMKLYDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICAKLNVPFIYKSSYDMDEGLRILGEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKAREAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETSAPVVFDATHSVQLPGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRHPFLENDF 3t4e-a1-m1-cA_3t4e-a1-m1-cB 1.95 Angstrom Crystal Structure of Shikimate 5-dehydrogenase (AroE) from Salmonella enterica subsp. enterica serovar Typhimurium in Complex with NAD Q8ZPR4 Q8ZPR4 1.95 X-RAY DIFFRACTION 67 0.993 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 283 283 KYELIGLMAYPIRHSLSPEMQNKALEKAGLPYTYMAFEVDNTTFASAIEGLKALKMRGTGVSMPNKQLACEYVDELTPAAKLVGAINTIVNDDGYLRGYNTDGTGHIRAIKESGFDMRGKTMVLLGAGGAATAIGAQAAIEGIKEIKLFNRKDDFFEKAVAFAKRVNENTDCVVTVTDLADQHAFTEALASADILTNGTKVGMKPLENESLIGDVSLLRPELLVTECVYNPHMTKLLQQAQQAGCKTIDGYGMLLWQGAEQFELWTGKAFPLDYVKQVMGFTA TAKYELIGLMAYPIRHSLSPEMQNKALEKAGLPYTYMAFEVDNTTFASAIEGLKALKMRGTGVSMPNKQLACEYVDELTPAAKLVGAINTIVNDDGYLRGYNTDGTGHIRAIKESGFDMRGKTMVLLGAGGAATAIGAQAAIEGIKEIKLFNRKDDFFEKAVAFAKRVNENTDCVVTVTDLADQHAFTEALASADILTNGTKVGMKPLENESLIGDVSLLRPELLVTECVYNPHMTKLLQQAQQAGCKTIDGYGMLLWQGAEQFELWTGKAFPLDYVKQVMGF 3t4f-a1-m1-cA_3t4f-a1-m1-cB Crystal Structure of a KGE Collagen Mimetic Peptide at 1.68 A 1.68 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 17 3t4f-a1-m1-cB_3t4f-a1-m1-cC 3t4f-a2-m1-cD_3t4f-a2-m1-cE 3t4f-a2-m1-cE_3t4f-a2-m1-cF 6vzx-a1-m1-cA_6vzx-a1-m1-cB 6vzx-a1-m1-cB_6vzx-a1-m1-cC PGPGPGPKGEGPGPGPG PGPGPGPKGEGPGPGPG 3t4g-a6-m1-cB_3t4g-a6-m3-cB AIIGLMV segment from Alzheimer's Amyloid-Beta displayed on 54-membered macrocycle scaffold 1.7 X-RAY DIFFRACTION 24 1.0 10 10 3t4g-a2-m1-cA_3t4g-a2-m3-cA 3t4g-a2-m2-cA_3t4g-a2-m4-cA 3t4g-a3-m1-cA_3t4g-a3-m3-cA 3t4g-a4-m1-cA_3t4g-a4-m3-cA 3t4g-a4-m1-cB_3t4g-a4-m3-cB 3t4g-a5-m1-cB_3t4g-a5-m3-cB 3t4g-a5-m5-cB_3t4g-a5-m6-cB AIIGLMVKFK AIIGLMVKFK 3t4l-a1-m1-cB_3t4l-a1-m1-cA Arabidopsis histidine kinase 4 sensor domain in complex with trans-zeatin Q9C5U0 Q9C5U0 1.53 X-RAY DIFFRACTION 54 0.992 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 263 266 3t4j-a1-m1-cB_3t4j-a1-m1-cA 3t4k-a1-m1-cB_3t4k-a1-m1-cA 3t4o-a1-m1-cB_3t4o-a1-m1-cA 3t4q-a1-m1-cB_3t4q-a1-m1-cA 3t4s-a1-m1-cB_3t4s-a1-m1-cA 3t4t-a1-m1-cB_3t4t-a1-m1-cA DDANKIRREEVLVSMCDQRARMLQDQFSVSVNHVHALAILVSTFHYHKNPSAIDQETFAEYTARTAFERPLLSGVAYAEKVVNFEREMFERQHNWVIKTMDRGEPSPVRDEYAPVIFSQDSVSYLESLDMMSGEEDRENILRARETGKAVLTSPFRLLETHHLGVVLTFPVYKSSLPENPTVEERIAATAGYLGGAFDVESLVENLLGQLAGNQAIVVHVYDITNASDPLVMYGNQDESLSHESKLDFGDPFRKHKMICRYHQ MDDANKIRREEVLVSMCDQRARMLQDQFSVSVNHVHALAILVSTFHYHKNPSAIDQETFAEYTARTAFERPLLSGVAYAEKVVNFEREMFERQHNWVIKTMDRGEPSPVRDEYAPVIFSQDSVSYLESLDMMSGEEDRENILRARETGKAVLTSPFRLLETHHLGVVLTFPVYKSSLPENPTVEERIAATAGYLGGAFDVESLVENLLGQLAGNQAIVVHVYDITNASDPLVMYGNEEADRSLSHESKLDFGDPFRKHKMICRYHQ 3t4p-a1-m1-cA_3t4p-a1-m2-cA Crystal structure of O-Acetyl Serine Sulfhydrylase from Leishmania donovani in complex with designed tetrapeptide G1C2I2 G1C2I2 1.77 X-RAY DIFFRACTION 160 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 318 318 3spx-a1-m1-cA_3spx-a1-m2-cA 3tbh-a1-m1-cA_3tbh-a1-m2-cA 4air-a1-m1-cA_4air-a1-m1-cB 8b9m-a1-m1-cA_8b9m-a1-m1-cB AAPFDKSKNVAQSIDQLIGQTPALYLNKLNNTKAKVVLKMECENPMASVDRLGFAIYDKAEKEGKLIPGKSIVVESSSGNTGVSLAHLGAIRGYKVIITMPESMSLERRCLLRIFGAEVILTPAALGMKGAVAMAKKIVAANPNAVLADQFATKYNALIHEETTGPEIWEQTNHNVDCFIAGVGTGGTLTGVARALKKMGSHARIVAVEPTESPVLSGGKPGPHKIQGIGPGFVPDVLDRSLIDEVLCVAGDDAIETALKLTRSDGVFCGFSGGANVYAALKIAERPEMEGKTIVTVIPSFGERYLSTTLYRSVRDEV AAPFDKSKNVAQSIDQLIGQTPALYLNKLNNTKAKVVLKMECENPMASVDRLGFAIYDKAEKEGKLIPGKSIVVESSSGNTGVSLAHLGAIRGYKVIITMPESMSLERRCLLRIFGAEVILTPAALGMKGAVAMAKKIVAANPNAVLADQFATKYNALIHEETTGPEIWEQTNHNVDCFIAGVGTGGTLTGVARALKKMGSHARIVAVEPTESPVLSGGKPGPHKIQGIGPGFVPDVLDRSLIDEVLCVAGDDAIETALKLTRSDGVFCGFSGGANVYAALKIAERPEMEGKTIVTVIPSFGERYLSTTLYRSVRDEV 3t4w-a1-m1-cC_3t4w-a1-m2-cD The crystal structure of mandelate racemase/muconate lactonizing enzyme from Sulfitobacter sp A3SSE3 A3SSE3 2.522 X-RAY DIFFRACTION 74 1.0 314267 (Sulfitobacter sp. NAS-14.1) 314267 (Sulfitobacter sp. NAS-14.1) 396 396 3t4w-a1-m1-cA_3t4w-a1-m1-cB 3t4w-a1-m1-cD_3t4w-a1-m2-cC 3t4w-a1-m2-cA_3t4w-a1-m2-cB SMKLQDLEVIVTAPPAPGWGGRYWILVKLTTDTGIVGWGECYAASVGPQAMRAVIEDVFARHMQGENPENIELMYRRAYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALIGGRMNERVRGYTYLYPLPHHDMTAFWTSPEMAAESALDCVARGYTAIKFDPAGPYTMRGGHMPAMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGNAIAPYSPLWYEEPIPPDAVEQMAAVARAVPIPVATGERLTTKAEFAPVLRSGAAAILQPALGRVGGIWEAKKIAAMAEVYNAQIAPHLYAGPVEWAANIHLAASIPNILMCECIETPFHDQLIKSTIKVEDGFITAPTAAGLGLEVDEALARAHPYTGNGLHLEMQEAPCDY SMKLQDLEVIVTAPPAPGWGGRYWILVKLTTDTGIVGWGECYAASVGPQAMRAVIEDVFARHMQGENPENIELMYRRAYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALIGGRMNERVRGYTYLYPLPHHDMTAFWTSPEMAAESALDCVARGYTAIKFDPAGPYTMRGGHMPAMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGNAIAPYSPLWYEEPIPPDAVEQMAAVARAVPIPVATGERLTTKAEFAPVLRSGAAAILQPALGRVGGIWEAKKIAAMAEVYNAQIAPHLYAGPVEWAANIHLAASIPNILMCECIETPFHDQLIKSTIKVEDGFITAPTAAGLGLEVDEALARAHPYTGNGLHLEMQEAPCDY 3t4w-a4-m2-cB_3t4w-a4-m2-cC The crystal structure of mandelate racemase/muconate lactonizing enzyme from Sulfitobacter sp A3SSE3 A3SSE3 2.522 X-RAY DIFFRACTION 62 1.0 314267 (Sulfitobacter sp. NAS-14.1) 314267 (Sulfitobacter sp. NAS-14.1) 396 396 3t4w-a1-m1-cA_3t4w-a1-m1-cD 3t4w-a1-m1-cA_3t4w-a1-m2-cD 3t4w-a1-m1-cB_3t4w-a1-m1-cC 3t4w-a1-m1-cB_3t4w-a1-m2-cC 3t4w-a1-m1-cC_3t4w-a1-m2-cB 3t4w-a1-m1-cD_3t4w-a1-m2-cA 3t4w-a1-m2-cA_3t4w-a1-m2-cD 3t4w-a1-m2-cB_3t4w-a1-m2-cC 3t4w-a2-m1-cA_3t4w-a2-m1-cD 3t4w-a2-m1-cA_3t4w-a2-m2-cD 3t4w-a2-m1-cD_3t4w-a2-m2-cA 3t4w-a2-m2-cA_3t4w-a2-m2-cD 3t4w-a4-m1-cB_3t4w-a4-m1-cC 3t4w-a4-m1-cB_3t4w-a4-m2-cC 3t4w-a4-m1-cC_3t4w-a4-m2-cB SMKLQDLEVIVTAPPAPGWGGRYWILVKLTTDTGIVGWGECYAASVGPQAMRAVIEDVFARHMQGENPENIELMYRRAYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALIGGRMNERVRGYTYLYPLPHHDMTAFWTSPEMAAESALDCVARGYTAIKFDPAGPYTMRGGHMPAMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGNAIAPYSPLWYEEPIPPDAVEQMAAVARAVPIPVATGERLTTKAEFAPVLRSGAAAILQPALGRVGGIWEAKKIAAMAEVYNAQIAPHLYAGPVEWAANIHLAASIPNILMCECIETPFHDQLIKSTIKVEDGFITAPTAAGLGLEVDEALARAHPYTGNGLHLEMQEAPCDY SMKLQDLEVIVTAPPAPGWGGRYWILVKLTTDTGIVGWGECYAASVGPQAMRAVIEDVFARHMQGENPENIELMYRRAYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALIGGRMNERVRGYTYLYPLPHHDMTAFWTSPEMAAESALDCVARGYTAIKFDPAGPYTMRGGHMPAMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGNAIAPYSPLWYEEPIPPDAVEQMAAVARAVPIPVATGERLTTKAEFAPVLRSGAAAILQPALGRVGGIWEAKKIAAMAEVYNAQIAPHLYAGPVEWAANIHLAASIPNILMCECIETPFHDQLIKSTIKVEDGFITAPTAAGLGLEVDEALARAHPYTGNGLHLEMQEAPCDY 3t4w-a5-m1-cB_3t4w-a5-m1-cD The crystal structure of mandelate racemase/muconate lactonizing enzyme from Sulfitobacter sp A3SSE3 A3SSE3 2.522 X-RAY DIFFRACTION 172 1.0 314267 (Sulfitobacter sp. NAS-14.1) 314267 (Sulfitobacter sp. NAS-14.1) 396 396 3t4w-a1-m1-cA_3t4w-a1-m1-cC 3t4w-a1-m1-cB_3t4w-a1-m1-cD 3t4w-a1-m2-cA_3t4w-a1-m2-cC 3t4w-a1-m2-cB_3t4w-a1-m2-cD 3t4w-a3-m1-cA_3t4w-a3-m1-cC SMKLQDLEVIVTAPPAPGWGGRYWILVKLTTDTGIVGWGECYAASVGPQAMRAVIEDVFARHMQGENPENIELMYRRAYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALIGGRMNERVRGYTYLYPLPHHDMTAFWTSPEMAAESALDCVARGYTAIKFDPAGPYTMRGGHMPAMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGNAIAPYSPLWYEEPIPPDAVEQMAAVARAVPIPVATGERLTTKAEFAPVLRSGAAAILQPALGRVGGIWEAKKIAAMAEVYNAQIAPHLYAGPVEWAANIHLAASIPNILMCECIETPFHDQLIKSTIKVEDGFITAPTAAGLGLEVDEALARAHPYTGNGLHLEMQEAPCDY SMKLQDLEVIVTAPPAPGWGGRYWILVKLTTDTGIVGWGECYAASVGPQAMRAVIEDVFARHMQGENPENIELMYRRAYSSGFTQRPDLTVMGAFSGLEIACWDILGKDRDRPVYALIGGRMNERVRGYTYLYPLPHHDMTAFWTSPEMAAESALDCVARGYTAIKFDPAGPYTMRGGHMPAMTDISQSVAFCKAIRAAVGDKADLLFGTHGQFTTAGAIRLGNAIAPYSPLWYEEPIPPDAVEQMAAVARAVPIPVATGERLTTKAEFAPVLRSGAAAILQPALGRVGGIWEAKKIAAMAEVYNAQIAPHLYAGPVEWAANIHLAASIPNILMCECIETPFHDQLIKSTIKVEDGFITAPTAAGLGLEVDEALARAHPYTGNGLHLEMQEAPCDY 3t4x-a1-m1-cA_3t4x-a1-m2-cB Short chain dehydrogenase/reductase family oxidoreductase from Bacillus anthracis str. Ames Ancestor A0A384KDK1 A0A384KDK1 2.8 X-RAY DIFFRACTION 18 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 255 255 3t4x-a1-m1-cB_3t4x-a1-m2-cA AHQLKGKTALVTGSTAGIGKAIATSLVAEGANVLINGRREENVNETIKEIRAQYPDAILQPVVADLGTEQGCQDVIEKYPKVDILINNLGIFEPVEYFDIPDEDWFKLFEVNISGVRLTRSYLKKIERKEGRVIFIASEAAIPSQEAHYSATKTQLSLSRSLAELTTGTNVTVNTIPGSTLTEGVETLNSLYPNEQLTIEEAEKRFKENRPTSIIQRLIRPEEIAHLVTFLSSPLSSAINGSALRIDGGLVRSVF AHQLKGKTALVTGSTAGIGKAIATSLVAEGANVLINGRREENVNETIKEIRAQYPDAILQPVVADLGTEQGCQDVIEKYPKVDILINNLGIFEPVEYFDIPDEDWFKLFEVNISGVRLTRSYLKKIERKEGRVIFIASEAAIPSQEAHYSATKTQLSLSRSLAELTTGTNVTVNTIPGSTLTEGVETLNSLYPNEQLTIEEAEKRFKENRPTSIIQRLIRPEEIAHLVTFLSSPLSSAINGSALRIDGGLVRSVF 3t4x-a2-m1-cA_3t4x-a2-m1-cB Short chain dehydrogenase/reductase family oxidoreductase from Bacillus anthracis str. Ames Ancestor A0A384KDK1 A0A384KDK1 2.8 X-RAY DIFFRACTION 72 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 255 255 3t4x-a1-m1-cA_3t4x-a1-m1-cB 3t4x-a1-m2-cA_3t4x-a1-m2-cB AHQLKGKTALVTGSTAGIGKAIATSLVAEGANVLINGRREENVNETIKEIRAQYPDAILQPVVADLGTEQGCQDVIEKYPKVDILINNLGIFEPVEYFDIPDEDWFKLFEVNISGVRLTRSYLKKIERKEGRVIFIASEAAIPSQEAHYSATKTQLSLSRSLAELTTGTNVTVNTIPGSTLTEGVETLNSLYPNEQLTIEEAEKRFKENRPTSIIQRLIRPEEIAHLVTFLSSPLSSAINGSALRIDGGLVRSVF AHQLKGKTALVTGSTAGIGKAIATSLVAEGANVLINGRREENVNETIKEIRAQYPDAILQPVVADLGTEQGCQDVIEKYPKVDILINNLGIFEPVEYFDIPDEDWFKLFEVNISGVRLTRSYLKKIERKEGRVIFIASEAAIPSQEAHYSATKTQLSLSRSLAELTTGTNVTVNTIPGSTLTEGVETLNSLYPNEQLTIEEAEKRFKENRPTSIIQRLIRPEEIAHLVTFLSSPLSSAINGSALRIDGGLVRSVF 3t4x-a4-m1-cB_3t4x-a4-m2-cB Short chain dehydrogenase/reductase family oxidoreductase from Bacillus anthracis str. Ames Ancestor A0A384KDK1 A0A384KDK1 2.8 X-RAY DIFFRACTION 129 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 255 255 3t4x-a1-m1-cA_3t4x-a1-m2-cA 3t4x-a1-m1-cB_3t4x-a1-m2-cB 3t4x-a3-m1-cA_3t4x-a3-m2-cA AHQLKGKTALVTGSTAGIGKAIATSLVAEGANVLINGRREENVNETIKEIRAQYPDAILQPVVADLGTEQGCQDVIEKYPKVDILINNLGIFEPVEYFDIPDEDWFKLFEVNISGVRLTRSYLKKIERKEGRVIFIASEAAIPSQEAHYSATKTQLSLSRSLAELTTGTNVTVNTIPGSTLTEGVETLNSLYPNEQLTIEEAEKRFKENRPTSIIQRLIRPEEIAHLVTFLSSPLSSAINGSALRIDGGLVRSVF AHQLKGKTALVTGSTAGIGKAIATSLVAEGANVLINGRREENVNETIKEIRAQYPDAILQPVVADLGTEQGCQDVIEKYPKVDILINNLGIFEPVEYFDIPDEDWFKLFEVNISGVRLTRSYLKKIERKEGRVIFIASEAAIPSQEAHYSATKTQLSLSRSLAELTTGTNVTVNTIPGSTLTEGVETLNSLYPNEQLTIEEAEKRFKENRPTSIIQRLIRPEEIAHLVTFLSSPLSSAINGSALRIDGGLVRSVF 3t50-a3-m1-cB_3t50-a3-m1-cA X-ray structure of the LOV domain from the LOV-HK sensory protein from Brucella abortus (dark state). Q8YC53 Q8YC53 1.64 X-RAY DIFFRACTION 61 1.0 29459 (Brucella melitensis) 29459 (Brucella melitensis) 108 115 TLMPMLITNPHLPDNPIVFANPAFLKLTGYEADEVMGRNCRFLQGHGTDPAHVRAIKSAIAAEKPIDIDIINYKKSGEAFWNRLHISPVHNANGRLQHFVSSQLDVTL ASEFTLMPMLITNPHLPDNPIVFANPAFLKLTGYEADEVMGRNCRFLQGHGTDPAHVRAIKSAIAAEKPIDIDIINYKKSGEAFWNRLHISPVHNANGRLQHFVSSQLDVTLELV 3t57-a1-m2-cA_3t57-a1-m3-cA Activity and Crystal Structure of Arabidopsis UDP-N-acetylglucosamine acyltransferase Q9SU91 Q9SU91 2.1 X-RAY DIFFRACTION 83 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 288 288 3t57-a1-m1-cA_3t57-a1-m2-cA 3t57-a1-m1-cA_3t57-a1-m3-cA LIHPSAVVHPNAVIGKGVSVGPYCTIGSSVKLGNGCKLYPSSHVFGNTELGESCVLMTGAVVGDELPGYTFIGCNNIIGHHAVVGVKCQDLKYKHGDECFLCIGNNNEIREFCSIHRSSKPSDKTVIGDNNLIMGSCHIAHDCKIGDRNIFANNTLLAGHVVVEDNTHTAGASVVHQFCHIGSFAFIGGGSVVSQDVPKYMMVAGERAELRGLNLEGLRRNGFTMSEMKSLRAAYRKIFMSTETVSLSFEERLTELEQDQELYSVPAVSAMLQSIRDSFTESRRGICK LIHPSAVVHPNAVIGKGVSVGPYCTIGSSVKLGNGCKLYPSSHVFGNTELGESCVLMTGAVVGDELPGYTFIGCNNIIGHHAVVGVKCQDLKYKHGDECFLCIGNNNEIREFCSIHRSSKPSDKTVIGDNNLIMGSCHIAHDCKIGDRNIFANNTLLAGHVVVEDNTHTAGASVVHQFCHIGSFAFIGGGSVVSQDVPKYMMVAGERAELRGLNLEGLRRNGFTMSEMKSLRAAYRKIFMSTETVSLSFEERLTELEQDQELYSVPAVSAMLQSIRDSFTESRRGICK 3t5i-a4-m1-cQ_3t5i-a4-m1-cD Structure of Fully modified farnesylated Rheb Peptide in complex with PDE6D O43924 2.1 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 2 149 3t5i-a1-m1-cR_3t5i-a1-m1-cA SS SAKDERAREILRGFKLNWMNLRDAETGKILWQGTEDLSVPGVEHEARVPKKILKCKAVSRELNFSSTEQMEKFRLEQKVYFKGQCLEEWFFEFGFVIPNSTNTWQSLIEAAPESQMMPASVLTGNVIIETKFFDDDLLVSTSRVRLFYV 3t5p-a1-m1-cF_3t5p-a1-m1-cJ Crystal structure of a putative diacylglycerol kinase from Bacillus anthracis str. Sterne A0A6L8P1L2 A0A6L8P1L2 2.5 X-RAY DIFFRACTION 51 0.996 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 271 276 3s40-a5-m1-cA_3s40-a5-m1-cB 3s40-a5-m1-cD_3s40-a5-m1-cC 3t5p-a1-m1-cH_3t5p-a1-m1-cA 3t5p-a2-m1-cD_3t5p-a2-m1-cL 3t5p-a2-m1-cG_3t5p-a2-m1-cB 3t5p-a3-m1-cC_3t5p-a3-m1-cE 3t5p-a3-m1-cI_3t5p-a3-m1-cK 4wrr-a1-m1-cB_4wrr-a1-m1-cA 4wrr-a1-m1-cC_4wrr-a1-m1-cD KTKFEKVLLIVNPKAGQGDLHTNLTKIVPPLAAAFPDLHILHTKEQGDATKYCQEFASKVDLIIVFGGDGTVFECTNGLAPLEIRPTLAIIPGGTCNDFSRTLGVPQNIAEAAKLITKEHVKPVDVAKANGQHFLNFWGIGLAKLGKIGYYLSTIRTAETFPVKITYDGQVYEDEAVLVVGNGEYLGGIPSFIPNVKCDDGTLDIFVVTGIQAFKDYIGKKLFEFHVKAKSIHIETEEEKEVDTDGESSLHTPCQIELLQGHFTIYNPAVV KTKFEKVLLIVNPKAGQGDLHTNLTKIVPPLAAAFPDLHILHTKEQGDATKYCQEFASKVDLIIVFGGDGTVFECTNGLAPLEIRPTLAIIPGGTCNDFSRTLGVPQNIAEAAKLITKEHVKPVDVAKANGQHFLNFWGIGLVKAKLGKIGYYLSTIRTAETFPVKITYDGQVYEDEAVLVVGNGEYLGGIPSFIPNVKCDDGTLDIFVVKSTGIQAFKDYIGKKLFEDIFHVKAKSIHIETEEEKEVDTDGESSLHTPCQIELLQGHFTIYNPAV 3t5p-a1-m1-cH_3t5p-a1-m1-cF Crystal structure of a putative diacylglycerol kinase from Bacillus anthracis str. Sterne A0A6L8P1L2 A0A6L8P1L2 2.5 X-RAY DIFFRACTION 52 0.981 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 270 271 3s40-a5-m1-cA_3s40-a5-m1-cC 3s40-a5-m1-cD_3s40-a5-m1-cB 3t5p-a1-m1-cJ_3t5p-a1-m1-cA 3t5p-a2-m1-cD_3t5p-a2-m1-cB 3t5p-a2-m1-cG_3t5p-a2-m1-cL 3t5p-a3-m1-cI_3t5p-a3-m1-cC 3t5p-a3-m1-cK_3t5p-a3-m1-cE 4wrr-a1-m1-cC_4wrr-a1-m1-cA 4wrr-a1-m1-cD_4wrr-a1-m1-cB TKTKFEKVLLIVNPKAGQGDLHTNLTKIVPPLAAAFPDLHILHTKEQGDATKYCQEFASKVDLIIVFGGDGTVFECTNGLAPLEIRPTLAIIPGGTCNDFSRTLGVPQNIAEAAKLITKEHVKPVDVAKANGQHFLNFWGIGLVKLGKIGYYLSTIETFPVKITYDGQVYDEAVLVVGNGEYLGGIPSFIPNVKCDDGTLDIFVVKSTGIQAFKDYIGKKLFEIFHVKAKSIHIETEEEKEVDTDGESSLHTPCQIELLQGHFTIYNPAV KTKFEKVLLIVNPKAGQGDLHTNLTKIVPPLAAAFPDLHILHTKEQGDATKYCQEFASKVDLIIVFGGDGTVFECTNGLAPLEIRPTLAIIPGGTCNDFSRTLGVPQNIAEAAKLITKEHVKPVDVAKANGQHFLNFWGIGLAKLGKIGYYLSTIRTAETFPVKITYDGQVYEDEAVLVVGNGEYLGGIPSFIPNVKCDDGTLDIFVVTGIQAFKDYIGKKLFEFHVKAKSIHIETEEEKEVDTDGESSLHTPCQIELLQGHFTIYNPAVV 3t5s-a1-m2-cA_3t5s-a1-m3-cA Structure of macrophage migration inhibitory factor from Giardia lamblia A8BFP4 A8BFP4 2.3 X-RAY DIFFRACTION 58 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 97 97 3t5s-a1-m1-cA_3t5s-a1-m2-cA 3t5s-a1-m1-cA_3t5s-a1-m3-cA SMPCAIVTTNADFTKDQADAFCLDMGQVLAKETGKPVSYCMAGVRKADMSFGTSTDLCCFVDFYCIGKNPSISAAITGCLTQHFKVKPERVYISFNE SMPCAIVTTNADFTKDQADAFCLDMGQVLAKETGKPVSYCMAGVRKADMSFGTSTDLCCFVDFYCIGKNPSISAAITGCLTQHFKVKPERVYISFNE 3t60-a1-m1-cB_3t60-a1-m1-cC 5'-Diphenyl Nucleoside Inhibitors of Plasmodium falciparum dUTPase Q8II92 Q8II92 2.396 X-RAY DIFFRACTION 69 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 131 145 1vyq-a1-m1-cC_1vyq-a1-m1-cB 2y8c-a1-m1-cB_2y8c-a1-m1-cA 2y8c-a1-m1-cB_2y8c-a1-m1-cC 2y8c-a1-m1-cC_2y8c-a1-m1-cA 3t60-a1-m1-cA_3t60-a1-m1-cC 3t60-a1-m1-cB_3t60-a1-m1-cA 3t64-a1-m1-cB_3t64-a1-m1-cA 3t64-a1-m1-cB_3t64-a1-m1-cC 3t64-a1-m1-cC_3t64-a1-m1-cA 3t64-a2-m1-cB_3t64-a2-m1-cA 3t64-a2-m1-cB_3t64-a2-m1-cC 3t64-a2-m1-cC_3t64-a2-m1-cA 3t6y-a1-m1-cB_3t6y-a1-m1-cA 3t6y-a1-m1-cB_3t6y-a1-m1-cC 3t6y-a1-m1-cC_3t6y-a1-m1-cA 3t70-a1-m1-cB_3t70-a1-m1-cA 3t70-a1-m1-cB_3t70-a1-m1-cC 3t70-a1-m1-cC_3t70-a1-m1-cA MHLKIVCLSDEVREMYKNDSGLDLFIVKDEVLKPKSTTFVKLGIKAIALQYKSNYYYKNIVNTSFLLFPRSSISKTPLRLANSIGLIDAGYRGEIIAALDNTSDQEYHIKKNDKLVQLVSFTGEPLSFELV MHLKIVCLSDEVREMYKNDSGLDLFIVKDEVLKPKSTTFVKLGIKAIALQYKSNYYYKNIVNTSFLLFPRSSISKTPLRLANSIGLIDAGYRGEIIAALDNTSDQEYHIKKNDKLVQLVSFTGEPLSFELVEELDETSRGEGGFG 3t61-a1-m1-cB_3t61-a1-m1-cA Crystal Structure of a gluconokinase from Sinorhizobium meliloti 1021 Q92VK3 Q92VK3 2.2 X-RAY DIFFRACTION 59 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 171 172 RRFPGSIVVGVSGSGKSSVGEAIAEACGYPFIEGDALHPPENIRKSEGIPLTDDDRWPWLAAIGERLASREPVVVSCSALKRSYRDKLRESAPGGLAFVFLHGSESVLAERHHRTGHFPSSLLQTQLETLEDPRGEVRTVAVDVAQPLAEIVREALAGLARLAENLYFQSH RRFPGSIVVGVSGSGKSSVGEAIAEACGYPFIEGDALHPPENIRKSEGIPLTDDDRWPWLAAIGERLASREPVVVSCSALKRSYRDKLRESAPGGLAFVFLHGSESVLAERHHRTGHFPSSLLQTQLETLEDPRGEVRTVAVDVAQPLAEIVREALAGLARLAENLYFQSHH 3t69-a1-m1-cA_3t69-a1-m1-cB Crystal structure of a putative 2-dehydro-3-deoxygalactonokinase protein from Sinorhizobium meliloti Q92RN7 Q92RN7 2.55 X-RAY DIFFRACTION 125 0.987 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 301 304 YYAAVDWGTSSFRLWIIGEDGAVLAERRSAEGMTTAAKTGFHTILDGHLAAVSAPAHLPIIICGMAGARQGWKEAGYIETPAALAEIAGRATAIPDVDRDIRILPGLAQRDRRHPDVMRGEETQLLGAAAHLGAGSHLVCMPGTHSKWVRLADDRVEGFSTFMTGELFDTIARHTILSHAVAEADTFAAGSAAFTDAVSRTRENPALATNLLFSVRAGQLLHGTAAADARAQLSGTLIGLEIAGALAGSGSVDGVCLVGSGGLGTLYRTALESQGLNVRAVDADEAVRAGLSAAARAIWPL YYAAVDWGTSSFRLWIIGEDGAVLAERRSAEGMTTAAKTFHTILDGHLAAVSAPAHLPIIICGMAGARQGWKEAGYIETPAALAEIAGRATAIPDVDRDIRILPGLAQRDRRHPDVMRGEETQLLGAAAHLGAGSHLVCMPGTHSKWVRLADDRVEGFSTFMTGELFDTIARHTILSHAVAEADTFAAGSAAFTDAVSRTRENPALATNLLFSVRAGQLLHGTAAADARAQLSGTLIGLEIAGALASVDGVCLVGSGGLGTLYRTALESQGLNVRAVDADEAVRAGLSAAARAIWPLAENLYFQ 3t6a-a6-m1-cC_3t6a-a6-m1-cD Structure of the C-terminal domain of BCAR3 O75815 O75815 2.4 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 308 3t6a-a5-m1-cA_3t6a-a5-m1-cB TVSSFRPNEFESKFLPPENKPLETALLKRAKELFTNNDPKVIAQHVLSMDCRVARILGVSEEMRRNMGVSSGLELITLPHGHQLRLDIIERHNTMAIGIAVDILGCTGTLEDRAATLSKIIQVAVELKDSMGDLYSFSALMKALEMPQITRLEKTWTALRHQYTQTAILYEKQLKPFSKLLHEGRESTCVPPNNVSVPLLMPLVTLMERQAVTFEGTDMWEKNDQSCEIMLNHLATARFMAEAADSYRMNAERILAGFQPDEEMNEICKTEFQMRLLWGSKGAQVNQTERYEKFNQILTALSRKLEPP TVSSFRPNEFESKFLPPENKPLETALLKRAKELFTNNDPKVIAQHVLSMDCRVARILGVSEEMRRNMGVSSGLELITLPHGHQLRLDIIERHNTMAIGIAVDILGCTGTLEDRAATLSKIIQVAVELKDSMGDLYSFSALMKALEMPQITRLEKTWTALRHQYTQTAILYEKQLKPFSKLLHEGRESTCVPPNNVSVPLLMPLVTLMERQAVTFEGTDMWEKNDQSCEIMLNHLATARFMAEAADSYRMNAERILAGFQPDEEMNEICKTEFQMRLLWGSKGAQVNQTERYEKFNQILTALSRKLEPP 3t6c-a1-m2-cB_3t6c-a1-m4-cB Crystal structure of an enolase from pantoea ananatis (efi target efi-501676) with bound d-gluconate and mg D4GJ14 D4GJ14 1.598 X-RAY DIFFRACTION 77 1.0 706191 (Pantoea ananatis LMG 20103) 706191 (Pantoea ananatis LMG 20103) 414 414 3t6c-a1-m1-cA_3t6c-a1-m3-cA 3t6c-a1-m1-cA_3t6c-a1-m4-cA 3t6c-a1-m1-cB_3t6c-a1-m3-cB 3t6c-a1-m1-cB_3t6c-a1-m4-cB 3t6c-a1-m2-cA_3t6c-a1-m3-cA 3t6c-a1-m2-cA_3t6c-a1-m4-cA 3t6c-a1-m2-cB_3t6c-a1-m3-cB LFITNVKTILTAPGGIDLVVVKIETNEPGLYGLGCATFTQRIYAVQSAIDEYLAPFLIGKDPARIEDIWQSAAVSGYWRNGPVMNNALSGIDMALWDIKGKQAGLPVYELLGGKCRDGIALYVHTDGADEVEVEDSARAKMEEGYQYIRCQMGMYGGAGTDDLRLIANRMVKAKNIQPKRSPRTKAPGIYFDPEAYAKSIPRLFDHLRNKLGFSVELLHDAHERITPINAIHMAKALEPYQLFFLEDPVAPENTEWLKMLRQQSSTPIAMGELFVNVNEWKPLIDNKLIDYIRCHISSIGGITPAKKIAIYSELNGVRTAWHSPGDISPIGVCANMHLDLSSPNFGIQEYTPMNDALREVFPGCPEVDQGYAYVNDKPGLGIDINEALAAKFPCEGGNPTWTMARTPDGTVWRP LFITNVKTILTAPGGIDLVVVKIETNEPGLYGLGCATFTQRIYAVQSAIDEYLAPFLIGKDPARIEDIWQSAAVSGYWRNGPVMNNALSGIDMALWDIKGKQAGLPVYELLGGKCRDGIALYVHTDGADEVEVEDSARAKMEEGYQYIRCQMGMYGGAGTDDLRLIANRMVKAKNIQPKRSPRTKAPGIYFDPEAYAKSIPRLFDHLRNKLGFSVELLHDAHERITPINAIHMAKALEPYQLFFLEDPVAPENTEWLKMLRQQSSTPIAMGELFVNVNEWKPLIDNKLIDYIRCHISSIGGITPAKKIAIYSELNGVRTAWHSPGDISPIGVCANMHLDLSSPNFGIQEYTPMNDALREVFPGCPEVDQGYAYVNDKPGLGIDINEALAAKFPCEGGNPTWTMARTPDGTVWRP 3t6c-a1-m4-cB_3t6c-a1-m1-cA Crystal structure of an enolase from pantoea ananatis (efi target efi-501676) with bound d-gluconate and mg D4GJ14 D4GJ14 1.598 X-RAY DIFFRACTION 77 1.0 706191 (Pantoea ananatis LMG 20103) 706191 (Pantoea ananatis LMG 20103) 414 415 3t6c-a1-m1-cB_3t6c-a1-m3-cA 3t6c-a1-m2-cB_3t6c-a1-m4-cA 3t6c-a1-m3-cB_3t6c-a1-m2-cA LFITNVKTILTAPGGIDLVVVKIETNEPGLYGLGCATFTQRIYAVQSAIDEYLAPFLIGKDPARIEDIWQSAAVSGYWRNGPVMNNALSGIDMALWDIKGKQAGLPVYELLGGKCRDGIALYVHTDGADEVEVEDSARAKMEEGYQYIRCQMGMYGGAGTDDLRLIANRMVKAKNIQPKRSPRTKAPGIYFDPEAYAKSIPRLFDHLRNKLGFSVELLHDAHERITPINAIHMAKALEPYQLFFLEDPVAPENTEWLKMLRQQSSTPIAMGELFVNVNEWKPLIDNKLIDYIRCHISSIGGITPAKKIAIYSELNGVRTAWHSPGDISPIGVCANMHLDLSSPNFGIQEYTPMNDALREVFPGCPEVDQGYAYVNDKPGLGIDINEALAAKFPCEGGNPTWTMARTPDGTVWRP NLFITNVKTILTAPGGIDLVVVKIETNEPGLYGLGCATFTQRIYAVQSAIDEYLAPFLIGKDPARIEDIWQSAAVSGYWRNGPVMNNALSGIDMALWDIKGKQAGLPVYELLGGKCRDGIALYVHTDGADEVEVEDSARAKMEEGYQYIRCQMGMYGGAGTDDLRLIANRMVKAKNIQPKRSPRTKAPGIYFDPEAYAKSIPRLFDHLRNKLGFSVELLHDAHERITPINAIHMAKALEPYQLFFLEDPVAPENTEWLKMLRQQSSTPIAMGELFVNVNEWKPLIDNKLIDYIRCHISSIGGITPAKKIAIYSELNGVRTAWHSPGDISPIGVCANMHLDLSSPNFGIQEYTPMNDALREVFPGCPEVDQGYAYVNDKPGLGIDINEALAAKFPCEGGNPTWTMARTPDGTVWRP 3t6c-a1-m4-cB_3t6c-a1-m4-cA Crystal structure of an enolase from pantoea ananatis (efi target efi-501676) with bound d-gluconate and mg D4GJ14 D4GJ14 1.598 X-RAY DIFFRACTION 166 1.0 706191 (Pantoea ananatis LMG 20103) 706191 (Pantoea ananatis LMG 20103) 414 415 3t6c-a1-m1-cB_3t6c-a1-m1-cA 3t6c-a1-m2-cB_3t6c-a1-m2-cA 3t6c-a1-m3-cB_3t6c-a1-m3-cA LFITNVKTILTAPGGIDLVVVKIETNEPGLYGLGCATFTQRIYAVQSAIDEYLAPFLIGKDPARIEDIWQSAAVSGYWRNGPVMNNALSGIDMALWDIKGKQAGLPVYELLGGKCRDGIALYVHTDGADEVEVEDSARAKMEEGYQYIRCQMGMYGGAGTDDLRLIANRMVKAKNIQPKRSPRTKAPGIYFDPEAYAKSIPRLFDHLRNKLGFSVELLHDAHERITPINAIHMAKALEPYQLFFLEDPVAPENTEWLKMLRQQSSTPIAMGELFVNVNEWKPLIDNKLIDYIRCHISSIGGITPAKKIAIYSELNGVRTAWHSPGDISPIGVCANMHLDLSSPNFGIQEYTPMNDALREVFPGCPEVDQGYAYVNDKPGLGIDINEALAAKFPCEGGNPTWTMARTPDGTVWRP NLFITNVKTILTAPGGIDLVVVKIETNEPGLYGLGCATFTQRIYAVQSAIDEYLAPFLIGKDPARIEDIWQSAAVSGYWRNGPVMNNALSGIDMALWDIKGKQAGLPVYELLGGKCRDGIALYVHTDGADEVEVEDSARAKMEEGYQYIRCQMGMYGGAGTDDLRLIANRMVKAKNIQPKRSPRTKAPGIYFDPEAYAKSIPRLFDHLRNKLGFSVELLHDAHERITPINAIHMAKALEPYQLFFLEDPVAPENTEWLKMLRQQSSTPIAMGELFVNVNEWKPLIDNKLIDYIRCHISSIGGITPAKKIAIYSELNGVRTAWHSPGDISPIGVCANMHLDLSSPNFGIQEYTPMNDALREVFPGCPEVDQGYAYVNDKPGLGIDINEALAAKFPCEGGNPTWTMARTPDGTVWRP 3t6o-a1-m1-cB_3t6o-a1-m2-cB The Structure of an Anti-sigma-factor antagonist (STAS) domain protein from Planctomyces limnophilus. D5SP81 D5SP81 2.1 X-RAY DIFFRACTION 24 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 115 115 ADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAAS ADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAAS 3t6o-a2-m1-cA_3t6o-a2-m1-cB The Structure of an Anti-sigma-factor antagonist (STAS) domain protein from Planctomyces limnophilus. D5SP81 D5SP81 2.1 X-RAY DIFFRACTION 22 0.991 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 115 115 3t6o-a1-m1-cA_3t6o-a1-m1-cB 3t6o-a1-m2-cA_3t6o-a1-m2-cB AADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAA ADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAAS 3t6o-a2-m1-cA_3t6o-a2-m1-cC The Structure of an Anti-sigma-factor antagonist (STAS) domain protein from Planctomyces limnophilus. D5SP81 D5SP81 2.1 X-RAY DIFFRACTION 43 0.991 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 115 115 3t6o-a1-m1-cA_3t6o-a1-m1-cC 3t6o-a1-m2-cA_3t6o-a1-m2-cC AADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAA ADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAAS 3t6o-a2-m1-cB_3t6o-a2-m1-cC The Structure of an Anti-sigma-factor antagonist (STAS) domain protein from Planctomyces limnophilus. D5SP81 D5SP81 2.1 X-RAY DIFFRACTION 13 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 115 115 3t6o-a1-m1-cB_3t6o-a1-m1-cC 3t6o-a1-m2-cB_3t6o-a1-m2-cC ADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAAS ADIRVTHEAQVTVISFPAVFQRLRETEVEQIASTFLAAQGAQPRKVLIDLEGVEFFGSSFIELLVRGWKRIKEDQQGVFALCSVSPYCVEVLQVTHIDEVWPRYSTKQEALLAAS 3t6q-a1-m1-cA_3t6q-a1-m1-cB Crystal structure of mouse RP105/MD-1 complex Q62192 Q62192 1.9 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 601 601 QKCIEKEVNKTYNCENLGLNEIPGTLPNSTECLEFSFNVLPTIQNTTFSRLINLTFLDLTRCQIYWIHEDTFQSQHRLDTLVLTANPLIFMAETALSGPKALKHLFFIQTGISSIDFIPLHNQKTLESLYLGSNHISSIKLPKGFPTEKLKVLDFQNNAIHYLSKEDMSSLQQATNLSLNLNGNDIAGIEPGAFDSAVFQSLNFGGTQNLLVIFKGLKNSTIQSLWLGTFEDMDDEDISPAVFEGLCEMSVESINLQKHYFFNISSNTFHCFSGLQELDLTATHLSELPSGLVGLSTLKKLVLSANKFENLCQISASNFPSLTHLSIKGNTKRLELGTGCLENLENLRELDLSHDDIETSDCCNLQLRNLSHLQSLNLSYNEPLSLKTEAFKECPQLELLDLAFTRLKVKDAQSPFQNLHLLKVLNLSHSLLDISSEQLFDGLPALQHLNLQGNHFPKGNIQKTNSLQTLGRLEILVLSFCDLSSIDQHAFTSLKMMNHVDLSHNRLTSSSIEALSHLKGIYLNLASNHISIILPSLLPILSQQRTINLRQNPLDCTCSNIYFLEWYKENMQKLEDTEDTLCENPPLLRGVRLSDVTLSCS QKCIEKEVNKTYNCENLGLNEIPGTLPNSTECLEFSFNVLPTIQNTTFSRLINLTFLDLTRCQIYWIHEDTFQSQHRLDTLVLTANPLIFMAETALSGPKALKHLFFIQTGISSIDFIPLHNQKTLESLYLGSNHISSIKLPKGFPTEKLKVLDFQNNAIHYLSKEDMSSLQQATNLSLNLNGNDIAGIEPGAFDSAVFQSLNFGGTQNLLVIFKGLKNSTIQSLWLGTFEDMDDEDISPAVFEGLCEMSVESINLQKHYFFNISSNTFHCFSGLQELDLTATHLSELPSGLVGLSTLKKLVLSANKFENLCQISASNFPSLTHLSIKGNTKRLELGTGCLENLENLRELDLSHDDIETSDCCNLQLRNLSHLQSLNLSYNEPLSLKTEAFKECPQLELLDLAFTRLKVKDAQSPFQNLHLLKVLNLSHSLLDISSEQLFDGLPALQHLNLQGNHFPKGNIQKTNSLQTLGRLEILVLSFCDLSSIDQHAFTSLKMMNHVDLSHNRLTSSSIEALSHLKGIYLNLASNHISIILPSLLPILSQQRTINLRQNPLDCTCSNIYFLEWYKENMQKLEDTEDTLCENPPLLRGVRLSDVTLSCS 3t6s-a1-m1-cA_3t6s-a1-m1-cB Crystal structure of CerJ from Streptomyces tendae in Complex with CoA H2L2M1 H2L2M1 2 X-RAY DIFFRACTION 240 1.0 1932 (Streptomyces tendae) 1932 (Streptomyces tendae) 341 342 3s3l-a1-m1-cA_3s3l-a1-m1-cB 3t5y-a1-m1-cB_3t5y-a1-m1-cA 3t8e-a1-m1-cB_3t8e-a1-m1-cA MRWENLFVSGVAAWLPPLSTAQDAVMAGLLDPARSKLRGIESVTVASDAEEDAPPRMAARAARAALGRGDVDPADVSLVLHSSLWFQGIDLWPAASYVAHEAVGRHVPAFGLAQRNGGMGAIELAGAYLGSGIGAGHAALLTTGDRFAGPRIDRWNSVDVTMYGDGAAALVLSTRDGFARVLSTATGVDNSLEILARGDEPFAPHPVEPSPVADLGTRTVRGAELADLPDLTHRYIDLLVAAKTQALEDAGTAIEDIAHAVIPVSRRGTGHELHDLLGLPDERTSWAYGRTTGHVGAGDQYAGLAHLVENALVQPGDRVLLFGGGAGYTCTAAVVEILRMP MRWENLFVSGVAAWLPPLSTAQDAVMAGLLDPARSKLRGIESVTVASDAEEDAPPRMAARAARAALGRGDVDPADVSLVLHSSLWFQGIDLWPAASYVAHEAVGRHVPAFGLAQRCNGGMGAIELAGAYLGSGIGAGHAALLTTGDRFAGPRIDRWNSVDVTMYGDGAAALVLSTRDGFARVLSTATGVDNSLEILARGDEPFAPHPVEPSPVADLGTRTVRGAELADLPDLTHRYIDLLVAAKTQALEDAGTAIEDIAHAVIPVSRRGTGHELHDLLGLPDERTSWAYGRTTGHVGAGDQYAGLAHLVENALVQPGDRVLLFGGGAGYTCTAAVVEILRMP 3t6v-a4-m1-cB_3t6v-a4-m1-cC Crystal Structure of Laccase from Steccherinum ochraceum I1SB14 I1SB14 2 X-RAY DIFFRACTION 68 1.0 92696 (Steccherinum ochraceum) 92696 (Steccherinum ochraceum) 495 495 3t6v-a4-m1-cA_3t6v-a4-m1-cB 3t6v-a4-m1-cA_3t6v-a4-m1-cC 3t6w-a4-m1-cA_3t6w-a4-m1-cB 3t6w-a4-m1-cA_3t6w-a4-m1-cC 3t6w-a4-m1-cB_3t6w-a4-m1-cC 3t6x-a4-m1-cA_3t6x-a4-m1-cB 3t6x-a4-m1-cA_3t6x-a4-m1-cC 3t6x-a4-m1-cB_3t6x-a4-m1-cC 3t6z-a4-m1-cA_3t6z-a4-m1-cB 3t6z-a4-m1-cA_3t6z-a4-m1-cC 3t6z-a4-m1-cB_3t6z-a4-m1-cC 3t71-a1-m1-cA_3t71-a1-m1-cB 3t71-a1-m1-cA_3t71-a1-m1-cC 3t71-a1-m1-cB_3t71-a1-m1-cC VQIGPVTDLHIVNADIVPDGFVRPAVNAGGTFPGPVIAGNVGDNFQIVTFNQLIECSMLVDTSIHWHGEFQKGTNWADGPAFITQCPIIVGNSFSYNFNVPGMAGTYWYHSHLTTQYCDGLRGPFVVYDPNDPDANLYDVDDDTTIITLADWYHVLAKEMGAGGAITADSTLIDGLGRTHVNVAAVPLSVITVEVGKRYRMRLVSISCDPNYDFSIDGHDMTIIETDGVDSQELTVDEIQIFAAQRYSFVLNANQPVGNYWIRANPNSGGEGFDGGINSAILRYDGATTADPVTVASTVHTKCLIETDLHPLSRNGVPGNPHQGGADCNLNLSLGFACGNFVINGVSFTPPTVPVLLQICSGANTAADLLPSGSVISLPSNSTIEIALPAGAAGGPHPFHLHGHDFAVSESASNSTSNYDDPIWRDVVSIGGVGDNVTIRFCTDNPGPWFLHCHIDWHLDAGFAIVFAEDIPNTASANPVPEAWSNLCPSYDSAH VQIGPVTDLHIVNADIVPDGFVRPAVNAGGTFPGPVIAGNVGDNFQIVTFNQLIECSMLVDTSIHWHGEFQKGTNWADGPAFITQCPIIVGNSFSYNFNVPGMAGTYWYHSHLTTQYCDGLRGPFVVYDPNDPDANLYDVDDDTTIITLADWYHVLAKEMGAGGAITADSTLIDGLGRTHVNVAAVPLSVITVEVGKRYRMRLVSISCDPNYDFSIDGHDMTIIETDGVDSQELTVDEIQIFAAQRYSFVLNANQPVGNYWIRANPNSGGEGFDGGINSAILRYDGATTADPVTVASTVHTKCLIETDLHPLSRNGVPGNPHQGGADCNLNLSLGFACGNFVINGVSFTPPTVPVLLQICSGANTAADLLPSGSVISLPSNSTIEIALPAGAAGGPHPFHLHGHDFAVSESASNSTSNYDDPIWRDVVSIGGVGDNVTIRFCTDNPGPWFLHCHIDWHLDAGFAIVFAEDIPNTASANPVPEAWSNLCPSYDSAH 3t79-a1-m1-cA_3t79-a1-m1-cD Ndc10: a platform for inner kinetochore assembly in budding yeast Q6CPM4 Q6CPM4 3.6113 X-RAY DIFFRACTION 62 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 388 388 MSKLDSLLKELPTRTAHLYRSIWHKYTEWLKTMPDDLKLFLSQKYIVKYIASHDDIAKDPLPTCDAMIWFSRALDIENNDVLVLQQRLYGLVKLLEFDYSNVIAILQKISINLWNPSTDSLQSKHFKTCQDKLKLLLDFQWKFNTNVSFEDRTTVSLKDLQCILDDENGKCGLAHSSKPNFVLVPNFQSPFTCPIFTMAVYYYLRFHGVKKYYKGDGYQILSQLEHIPIIRGKSLDQYPRELTLGNWYPTIFKYCQLPYTKKHWFQVNQEWPQFPDFSESDSENTIGIPDFYIEKMNRTKLQPCPQVHVHLFPTDLPPDIQAVFDLLNSVLVTSLPLLYRVFPTHDIFLDPSLKTPQNIAFLTGTLPLDIESQEHLLAQLIDKTGTVS MSKLDSLLKELPTRTAHLYRSIWHKYTEWLKTMPDDLKLFLSQKYIVKYIASHDDIAKDPLPTCDAMIWFSRALDIENNDVLVLQQRLYGLVKLLEFDYSNVIAILQKISINLWNPSTDSLQSKHFKTCQDKLKLLLDFQWKFNTNVSFEDRTTVSLKDLQCILDDENGKCGLAHSSKPNFVLVPNFQSPFTCPIFTMAVYYYLRFHGVKKYYKGDGYQILSQLEHIPIIRGKSLDQYPRELTLGNWYPTIFKYCQLPYTKKHWFQVNQEWPQFPDFSESDSENTIGIPDFYIEKMNRTKLQPCPQVHVHLFPTDLPPDIQAVFDLLNSVLVTSLPLLYRVFPTHDIFLDPSLKTPQNIAFLTGTLPLDIESQEHLLAQLIDKTGTVS 3t7b-a1-m1-cA_3t7b-a1-m2-cB Crystal Structure of N-acetyl-L-glutamate kinase from Yersinia pestis Q8ZA87 Q8ZA87 2.5 X-RAY DIFFRACTION 25 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 248 251 3t7b-a1-m2-cA_3t7b-a1-m1-cB ANPLVIKLGGVLLDSEEALERLFTALVTYREKHERPLVIHGGGCLVDELKRLALPVVKKNGLRVTPADQIDIITGALAGTANKTLLAWAVKHQINAVGLCLADGNTVTVTLLDAELGHVGKAQPGSAALVQTLLAAGYPIISSIGITVEGQLNVNADQAATALAATLGADLILLSDVSGILDQRIAETAQKAEQLIAQGIITDGVVKVNAALDAARSLGRPVDIASWRHSEQLPALFNGVPIGTRISV ANPLVIKLGGVLLDSEEALERLFTALVTYREKHERPLVIHGGGCLVDELKRLALPVVKKNGLRVTPADQIDIITGALAGTANKTLLAWAVKHQINAVGLCLADGNTVTVTLLDAELGHVGKAQPGSAALVQTLLAAGYPIISSIGITVEGQLNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAETAQKAEQLIAQGIITDGVVKVNAALDAARSLGRPVDIASWRHSEQLPALFNGVPIGTRISV 3t7b-a1-m1-cB_3t7b-a1-m2-cB Crystal Structure of N-acetyl-L-glutamate kinase from Yersinia pestis Q8ZA87 Q8ZA87 2.5 X-RAY DIFFRACTION 55 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 251 251 ANPLVIKLGGVLLDSEEALERLFTALVTYREKHERPLVIHGGGCLVDELKRLALPVVKKNGLRVTPADQIDIITGALAGTANKTLLAWAVKHQINAVGLCLADGNTVTVTLLDAELGHVGKAQPGSAALVQTLLAAGYPIISSIGITVEGQLNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAETAQKAEQLIAQGIITDGVVKVNAALDAARSLGRPVDIASWRHSEQLPALFNGVPIGTRISV ANPLVIKLGGVLLDSEEALERLFTALVTYREKHERPLVIHGGGCLVDELKRLALPVVKKNGLRVTPADQIDIITGALAGTANKTLLAWAVKHQINAVGLCLADGNTVTVTLLDAELGHVGKAQPGSAALVQTLLAAGYPIISSIGITVEGQLNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAETAQKAEQLIAQGIITDGVVKVNAALDAARSLGRPVDIASWRHSEQLPALFNGVPIGTRISV 3t7b-a1-m2-cA_3t7b-a1-m2-cB Crystal Structure of N-acetyl-L-glutamate kinase from Yersinia pestis Q8ZA87 Q8ZA87 2.5 X-RAY DIFFRACTION 124 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 248 251 3t7b-a1-m1-cA_3t7b-a1-m1-cB ANPLVIKLGGVLLDSEEALERLFTALVTYREKHERPLVIHGGGCLVDELKRLALPVVKKNGLRVTPADQIDIITGALAGTANKTLLAWAVKHQINAVGLCLADGNTVTVTLLDAELGHVGKAQPGSAALVQTLLAAGYPIISSIGITVEGQLNVNADQAATALAATLGADLILLSDVSGILDQRIAETAQKAEQLIAQGIITDGVVKVNAALDAARSLGRPVDIASWRHSEQLPALFNGVPIGTRISV ANPLVIKLGGVLLDSEEALERLFTALVTYREKHERPLVIHGGGCLVDELKRLALPVVKKNGLRVTPADQIDIITGALAGTANKTLLAWAVKHQINAVGLCLADGNTVTVTLLDAELGHVGKAQPGSAALVQTLLAAGYPIISSIGITVEGQLNVNADQAATALAATLGADLILLSDVSGILDGKGQRIAETAQKAEQLIAQGIITDGVVKVNAALDAARSLGRPVDIASWRHSEQLPALFNGVPIGTRISV 3t7c-a1-m1-cD_3t7c-a1-m1-cA Crystal structure of carveol dehydrogenase from Mycobacterium avium bound to NAD A0A0H2ZWY3 A0A0H2ZWY3 1.95 X-RAY DIFFRACTION 105 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 272 278 3t7c-a1-m1-cB_3t7c-a1-m1-cC AGKVEGKVAFITGAARGQGRSHAITLAREGADIIAIDVCKQLDGVKLPMSTPDDLAETVRQVEALGRRIIASQVDVRDFDAMQAAVDDGVTQLGRLDIVLANAALASEGTRLNRMDPKTWRDMIDVNLNGAWITARVAIPHIMAGKRGGSIVFTSSIGGLRGAENIGNYIASKHGLHGLMRTMALELGPRNIRVNIVCPSSVATPMLLNEPTYRMFRPTVEDFQVASRQMHVLPIPYVEPADISNAILFLVSDDARYITGVSLPVDGGALLK MAGKVEGKVAFITGAARGQGRSHAITLAREGADIIAIDVCKQLDGVKLPMSTPDDLAETVRQVEALGRRIIASQVDVRDFDAMQAAVDDGVTQLGRLDIVLANAALASEGTRLNRMDPKTWRDMIDVNLNGAWITARVAIPHIMAGKRGGSIVFTSSIGGLRGAENIGNYIASKHGLHGLMRTMALELGPRNIRVNIVCPSSVATPMLLNEPTYRMFRPDLENPTVEDFQVASRQMHVLPIPYVEPADISNAILFLVSDDARYITGVSLPVDGGALLK 3t7c-a1-m1-cD_3t7c-a1-m1-cB Crystal structure of carveol dehydrogenase from Mycobacterium avium bound to NAD A0A0H2ZWY3 A0A0H2ZWY3 1.95 X-RAY DIFFRACTION 140 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 272 277 3t7c-a1-m1-cA_3t7c-a1-m1-cC AGKVEGKVAFITGAARGQGRSHAITLAREGADIIAIDVCKQLDGVKLPMSTPDDLAETVRQVEALGRRIIASQVDVRDFDAMQAAVDDGVTQLGRLDIVLANAALASEGTRLNRMDPKTWRDMIDVNLNGAWITARVAIPHIMAGKRGGSIVFTSSIGGLRGAENIGNYIASKHGLHGLMRTMALELGPRNIRVNIVCPSSVATPMLLNEPTYRMFRPTVEDFQVASRQMHVLPIPYVEPADISNAILFLVSDDARYITGVSLPVDGGALLK AGKVEGKVAFITGAARGQGRSHAITLAREGADIIAIDVCKQLDGVKLPMSTPDDLAETVRQVEALGRRIIASQVDVRDFDAMQAAVDDGVTQLGRLDIVLANAALASEGTRLNRMDPKTWRDMIDVNLNGAWITARVAIPHIMAGKRGGSIVFTSSIGGLRGAENIGNYIASKHGLHGLMRTMALELGPRNIRVNIVCPSSVATPMLLNEPTYRMFRPDLENPTVEDFQVASRQMHVLPIPYVEPADISNAILFLVSDDARYITGVSLPVDGGALLK 3t7i-a1-m1-cA_3t7i-a1-m1-cB Crystal structure of Se-Met Rtt107p (residues 820-1070) P38850 P38850 2.3 X-RAY DIFFRACTION 29 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 234 234 TKAEKILARFNELPNYDLKAVCTGCFHDGFNEVDIEILNQLGIKIFDNIKETDKLNCIFAPKILRTEKFLKSLSFEPLKFALKPEFIIDLKQIHSSQININLFDYEINGINESIISKTKLPTKVFERANIRCINLVNDIPGGVDTIGSVLKAHGIEKINVLRSKKCTFEDIIPNDIFKYVLIVTKASQVKKFTKINDRDKNETILIVEWNWCVESIFHLNVDFTSKKNVLYQKK TKAEKILARFNELPNYDLKAVCTGCFHDGFNEVDIEILNQLGIKIFDNIKETDKLNCIFAPKILRTEKFLKSLSFEPLKFALKPEFIIDLKQIHSSQININLFDYEINGINESIISKTKLPTKVFERANIRCINLVNDIPGGVDTIGSVLKAHGIEKINVLRSKKCTFEDIIPNDIFKYVLIVTKASQVKKFTKINDRDKNETILIVEWNWCVESIFHLNVDFTSKKNVLYQKK 3t7j-a1-m1-cA_3t7j-a1-m1-cB Crystal structure of Rtt107p (residues 820-1070) P38850 P38850 2.042 X-RAY DIFFRACTION 29 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 237 237 TKAEKILARFNELPNYDLKAVCTGCFHDGFNEVDIEILNQLGIKIFDNIKETDKLNCIFAPKILRTEKFLKSLSFEPLKFALKPEFIIDLLKQIHSQININLFDYEINGINESIISKTKLPTKVFERANIRCINLVNDIPGGVDTIGSVLKAHGIEKINVLRSKKCTFEDIIPNDVIFKYVLIVTKASQVKKFTKLINDRDKNETILIVEWNWCVESIFHLNVDFTSKKNVLYQKKN TKAEKILARFNELPNYDLKAVCTGCFHDGFNEVDIEILNQLGIKIFDNIKETDKLNCIFAPKILRTEKFLKSLSFEPLKFALKPEFIIDLLKQIHSQININLFDYEINGINESIISKTKLPTKVFERANIRCINLVNDIPGGVDTIGSVLKAHGIEKINVLRSKKCTFEDIIPNDVIFKYVLIVTKASQVKKFTKLINDRDKNETILIVEWNWCVESIFHLNVDFTSKKNVLYQKKN 3t7k-a1-m1-cA_3t7k-a1-m1-cB Complex structure of Rtt107p and phosphorylated histone H2A P38850 P38850 2.028 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 233 234 KAEKILARFNELPNYDLKAVCTGCFHDGFNEVDIEILNQLGIKIFDNIKETDKLNCIFAPKILRTEKFLKSLSFEPLKFALKPEFIIDLLKQIHQININLFDYEINGINESIISKTKLPTKVFERANIRCINLVNDIPGGVDTIGSVLKAHGIEKINVLRSKKCTFEDIIPNDIFKYVLIVTKASQVKKFTKLINDRDKNETILIVEWNWCVESIFHLNVDFTSKKNVLYQKK KAEKILARFNELPNYDLKAVCTGCFHDGFNEVDIEILNQLGIKIFDNIKETDKLNCIFAPKILRTEKFLKSLSFEPLKFALKPEFIIDLLKQIHQININLFDYEINGINESIISKTKLPTKVFERANIRCINLVNDIPGGVDTIGSVLKAHGIEKINVLRSKKCTFEDIIPNDVIFKYVLIVTKASQVKKFTKLINDRDKNETILIVEWNWCVESIFHLNVDFTSKKNVLYQKK 3t7y-a1-m1-cA_3t7y-a1-m1-cB Structure of an autocleavage-inactive mutant of the cytoplasmic domain of CT091, the YscU homologue of Chlamydia trachomatis O84093 O84093 2.1 X-RAY DIFFRACTION 36 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 94 94 TSSQIKHASAVVSAPKDIAVAIGYMPEKYKAPWIIAMGVNLRAKRIIAEAEKYGVPIMRNVPLAHQLLDEGKELKFIPETTYEAVGEILLYITS TSSQIKHASAVVSAPKDIAVAIGYMPEKYKAPWIIAMGVNLRAKRIIAEAEKYGVPIMRNVPLAHQLLDEGKELKFIPETTYEAVGEILLYITS 3t8i-a1-m1-cA_3t8i-a1-m1-cD Structural analysis of thermostable S. solfataricus purine-specific nucleoside hydrolase Q97WH6 Q97WH6 1.8 X-RAY DIFFRACTION 76 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 306 306 3t8i-a1-m1-cB_3t8i-a1-m1-cC MRKVIVDSDTATDDTIAILLASRFFQLLGVTIVAGNVNYNQEVKNALFTLEYIGKQDVPVYLGSQRPILGNWRTVEEVHGSNGMSNWNYPEPNKRPEKEHAIDAILRLSKEHEGELEILAISPLTNIALAYLKDPSVVKRVKKIWIMGGAFSKGNTTPIAEFNFWVDPEAAKIVLDAGFDITIVPWEVAEISGSLNERDWEYISKLNTKLSNFFINVNKTLKEYTTKNQGISGSIHPDSLTVSIAHDNSIILDSSLKYVDVELCSKSRGAMLIDWYSLHKNKPNAEIVLKADGGKFKNLLFNSLSQ MRKVIVDSDTATDDTIAILLASRFFQLLGVTIVAGNVNYNQEVKNALFTLEYIGKQDVPVYLGSQRPILGNWRTVEEVHGSNGMSNWNYPEPNKRPEKEHAIDAILRLSKEHEGELEILAISPLTNIALAYLKDPSVVKRVKKIWIMGGAFSKGNTTPIAEFNFWVDPEAAKIVLDAGFDITIVPWEVAEISGSLNERDWEYISKLNTKLSNFFINVNKTLKEYTTKNQGISGSIHPDSLTVSIAHDNSIILDSSLKYVDVELCSKSRGAMLIDWYSLHKNKPNAEIVLKADGGKFKNLLFNSLSQ 3t8i-a1-m1-cC_3t8i-a1-m1-cD Structural analysis of thermostable S. solfataricus purine-specific nucleoside hydrolase Q97WH6 Q97WH6 1.8 X-RAY DIFFRACTION 39 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 306 306 3t8i-a1-m1-cA_3t8i-a1-m1-cB MRKVIVDSDTATDDTIAILLASRFFQLLGVTIVAGNVNYNQEVKNALFTLEYIGKQDVPVYLGSQRPILGNWRTVEEVHGSNGMSNWNYPEPNKRPEKEHAIDAILRLSKEHEGELEILAISPLTNIALAYLKDPSVVKRVKKIWIMGGAFSKGNTTPIAEFNFWVDPEAAKIVLDAGFDITIVPWEVAEISGSLNERDWEYISKLNTKLSNFFINVNKTLKEYTTKNQGISGSIHPDSLTVSIAHDNSIILDSSLKYVDVELCSKSRGAMLIDWYSLHKNKPNAEIVLKADGGKFKNLLFNSLSQ MRKVIVDSDTATDDTIAILLASRFFQLLGVTIVAGNVNYNQEVKNALFTLEYIGKQDVPVYLGSQRPILGNWRTVEEVHGSNGMSNWNYPEPNKRPEKEHAIDAILRLSKEHEGELEILAISPLTNIALAYLKDPSVVKRVKKIWIMGGAFSKGNTTPIAEFNFWVDPEAAKIVLDAGFDITIVPWEVAEISGSLNERDWEYISKLNTKLSNFFINVNKTLKEYTTKNQGISGSIHPDSLTVSIAHDNSIILDSSLKYVDVELCSKSRGAMLIDWYSLHKNKPNAEIVLKADGGKFKNLLFNSLSQ 3t8j-a1-m1-cA_3t8j-a1-m4-cA Structural analysis of thermostable S. solfataricus pyrimidine-specific nucleoside hydrolase Q97ZS5 Q97ZS5 1.6 X-RAY DIFFRACTION 33 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 311 311 3t8j-a1-m2-cA_3t8j-a1-m3-cA MRHFIIDCDTAEDDVLSLYLLLKNNIDVVAVTIVEGNISYEQEVKNALWALEQVNREIPVYPGANKPLLKNYITVEKVHGKGGIGDVTVEPKRLKAQEKHAALAIIDLANEYAGELEFLAISPLTNLALAYLLDNSIVKKIKKVWVMGGAVFGIGNITPVAEFNIWVDPDAAKIVFNAGFDITMIPWDVIINYPVTDEEWNVIKNMKTRMSELYVSMYLHYRQYSSTVQKINGHPHPDAITTAIAIDGSIATRREKRFVVIDNTDNITRGMTLVDRFDADTSWSDKPNAEIVYEINKKSFMEKIYDLLNWF MRHFIIDCDTAEDDVLSLYLLLKNNIDVVAVTIVEGNISYEQEVKNALWALEQVNREIPVYPGANKPLLKNYITVEKVHGKGGIGDVTVEPKRLKAQEKHAALAIIDLANEYAGELEFLAISPLTNLALAYLLDNSIVKKIKKVWVMGGAVFGIGNITPVAEFNIWVDPDAAKIVFNAGFDITMIPWDVIINYPVTDEEWNVIKNMKTRMSELYVSMYLHYRQYSSTVQKINGHPHPDAITTAIAIDGSIATRREKRFVVIDNTDNITRGMTLVDRFDADTSWSDKPNAEIVYEINKKSFMEKIYDLLNWF 3t8j-a1-m2-cA_3t8j-a1-m4-cA Structural analysis of thermostable S. solfataricus pyrimidine-specific nucleoside hydrolase Q97ZS5 Q97ZS5 1.6 X-RAY DIFFRACTION 84 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 311 311 3t8j-a1-m1-cA_3t8j-a1-m3-cA MRHFIIDCDTAEDDVLSLYLLLKNNIDVVAVTIVEGNISYEQEVKNALWALEQVNREIPVYPGANKPLLKNYITVEKVHGKGGIGDVTVEPKRLKAQEKHAALAIIDLANEYAGELEFLAISPLTNLALAYLLDNSIVKKIKKVWVMGGAVFGIGNITPVAEFNIWVDPDAAKIVFNAGFDITMIPWDVIINYPVTDEEWNVIKNMKTRMSELYVSMYLHYRQYSSTVQKINGHPHPDAITTAIAIDGSIATRREKRFVVIDNTDNITRGMTLVDRFDADTSWSDKPNAEIVYEINKKSFMEKIYDLLNWF MRHFIIDCDTAEDDVLSLYLLLKNNIDVVAVTIVEGNISYEQEVKNALWALEQVNREIPVYPGANKPLLKNYITVEKVHGKGGIGDVTVEPKRLKAQEKHAALAIIDLANEYAGELEFLAISPLTNLALAYLLDNSIVKKIKKVWVMGGAVFGIGNITPVAEFNIWVDPDAAKIVFNAGFDITMIPWDVIINYPVTDEEWNVIKNMKTRMSELYVSMYLHYRQYSSTVQKINGHPHPDAITTAIAIDGSIATRREKRFVVIDNTDNITRGMTLVDRFDADTSWSDKPNAEIVYEINKKSFMEKIYDLLNWF 3t8k-a1-m1-cB_3t8k-a1-m1-cA The crystal structure of a functionally unknown protein Lebu_0176 from Leptotrichia buccalis C-1013-b C7NDE2 C7NDE2 1.769 X-RAY DIFFRACTION 36 1.0 523794 (Leptotrichia buccalis C-1013-b) 523794 (Leptotrichia buccalis C-1013-b) 177 178 NASEYRTVSAAALGTYEDFLELFEKGYEDKESVLKSNILYDVLRNNNDEARYKISFLINKGADIKSRTKEGTTLFFPLFQGGGNDITGTTELCKIFLEKGADITALYKPYKIVVFKNIFNYFVDENEIPLYKLIFSQSGLQLLIKDKWGLTALEFVKRCQKPIALKEDYIKKYNLKE SNASEYRTVSAAALGTYEDFLELFEKGYEDKESVLKSNILYDVLRNNNDEARYKISFLINKGADIKSRTKEGTTLFFPLFQGGGNDITGTTELCKIFLEKGADITALYKPYKIVVFKNIFNYFVDENEIPLYKLIFSQSGLQLLIKDKWGLTALEFVKRCQKPIALKEDYIKKYNLKE 3t8q-a1-m1-cA_3t8q-a1-m1-cB Crystal structure of mandelate racemase/muconate lactonizing enzyme family protein from Hoeflea phototrophica A9D2J3 A9D2J3 2 X-RAY DIFFRACTION 68 1.0 411684 (Hoeflea phototrophica DFL-43) 411684 (Hoeflea phototrophica DFL-43) 367 369 MKIADIETFANEFVCFVKVTTDSGETGWGQVAPYYADITAQVLHRQVAPYALGKPALDIDYLVDIIPEKEHKFPGSYLRRALGGLDTALWDLRGRLEGKPVCELIGGTPGTVRAYGSSMKRDITPKDEAARLSRLRDRFGFDAFKFRIGAECGRGQDEWPGRTEEIVPTIRAAMDDSVALLVDANSCYGPEQAIEVGKMLEQNGISHYEEPCPYWEYEQTQQVTNALSIDVTGGEQDCELQNWRRMIEMKAVDIVQPDICYLGGITRTLRVAEMAHKAGLPCTPHAANLSMVTLFTMHLLRAIPNAGKYLEFSIEGEDYYPWQDDLFVASPYEIVDGKATVTDLPGWGVEVSPTWLETSAHQISTWQ QSMKIADIETFANEFVCFVKVTTDSGETGWGQVAPYYADITAQVLHRQVAPYALGKPALDIDYLVDIIPEKEHKFPGSYLRRALGGLDTALWDLRGRLEGKPVCELIGGTPGTVRAYGSSMKRDITPKDEAARLSRLRDRFGFDAFKFRIGAECGRGQDEWPGRTEEIVPTIRAAMDDSVALLVDANSCYGPEQAIEVGKMLEQNGISHYEEPCPYWEYEQTQQVTNALSIDVTGGEQDCELQNWRRMIEMKAVDIVQPDICYLGGITRTLRVAEMAHKAGLPCTPHAANLSMVTLFTMHLLRAIPNAGKYLEFSIEGEDYYPWQDDLFVASPYEIVDGKATVTDLPGWGVEVSPTWLETSAHQISTWQ 3t8r-a1-m1-cA_3t8r-a1-m2-cA Crystal structure of Staphylococcus aureus CymR A0A0H3JRR0 A0A0H3JRR0 1.7 X-RAY DIFFRACTION 80 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 122 122 3t8t-a1-m1-cA_3t8t-a1-m2-cA STKGRYGLTLMISLAKKEGQGCISLKSIAEENNLSDLYLEQLVGPLRNAGLIRSVRGAKGGYQLRVPAEEISAGDIIRLLEGPESIESEPPAQKQLWIRMRDAVRDVLDNTTLKYLAEYVDT STKGRYGLTLMISLAKKEGQGCISLKSIAEENNLSDLYLEQLVGPLRNAGLIRSVRGAKGGYQLRVPAEEISAGDIIRLLEGPESIESEPPAQKQLWIRMRDAVRDVLDNTTLKYLAEYVDT 3t90-a1-m1-cA_3t90-a1-m2-cA Crystal structure of glucosamine-6-phosphate N-acetyltransferase from Arabidopsis thaliana Q9LFU9 Q9LFU9 1.5 X-RAY DIFFRACTION 201 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 147 147 ETFKIRKLEISDKRKGFIELLGQLTVTGSVTDEEFDRRFEEIRSYGDDHVICVIEEETSGKIAATGSVMIEKKFLRNCGKAGHIEDVVVDSRFRGKQLGKKVVEFLMDHCKSMGCYKVILDCSVENKVFYEKCGMSNKSIQMSKYFD ETFKIRKLEISDKRKGFIELLGQLTVTGSVTDEEFDRRFEEIRSYGDDHVICVIEEETSGKIAATGSVMIEKKFLRNCGKAGHIEDVVVDSRFRGKQLGKKVVEFLMDHCKSMGCYKVILDCSVENKVFYEKCGMSNKSIQMSKYFD 3t97-a1-m1-cC_3t97-a1-m1-cA Molecular Architecture of the Transport Channel of the Nuclear Pore Complex: Nup62/Nup54 P17955 P17955 2.8 X-RAY DIFFRACTION 57 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 54 56 5h1x-a1-m1-cC_5h1x-a1-m1-cA 5h1x-a1-m1-cC_5h1x-a1-m1-cB WDRTLIENGEKITSLHREVEKVKLDQKRLDQELDFILSQQKELEDLLSPLEESV WDRTLIENGEKITSLHREVEKVKLDQKRLDQELDFILSQQKELEDLLSPLEESVKE 3t9g-a3-m1-cB_3t9g-a3-m2-cA The crystal structure of family 3 pectate lyase from Caldicellulosiruptor bescii B9MKT4 B9MKT4 1.5 X-RAY DIFFRACTION 19 1.0 31899 (Caldicellulosiruptor bescii) 31899 (Caldicellulosiruptor bescii) 195 196 4ew9-a3-m1-cA_4ew9-a3-m2-cB GTNTGGVLVITDTIIVKSGQTYDGKGIKIIAQGMGDGSQSENQKPIFKLEKGANLKNVIIGAPGCDGIHCYGDNVVENVVWEDVGEDALTVKSEGVVEVIGGSAKEAADKVFQLNAPCTFKVKNFTATNIGKLVRQNGNTTFKVVIYLEDVTLNNVKSCVAKSDSPVSELWYHNLNVNNCKTLFEFPSQSQIHQY VGTNTGGVLVITDTIIVKSGQTYDGKGIKIIAQGMGDGSQSENQKPIFKLEKGANLKNVIIGAPGCDGIHCYGDNVVENVVWEDVGEDALTVKSEGVVEVIGGSAKEAADKVFQLNAPCTFKVKNFTATNIGKLVRQNGNTTFKVVIYLEDVTLNNVKSCVAKSDSPVSELWYHNLNVNNCKTLFEFPSQSQIHQY 3t9o-a1-m1-cA_3t9o-a1-m1-cB Regulatory CZB domain of DgcZ P31129 P31129 2.2 X-RAY DIFFRACTION 57 0.981 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 108 120 TTEIDAILLNLNKAIDAHYQWLVSMFHSVVARDCQFGRWIDHLGPLDNDELPYVRLMDSAHQHMHNCGRELMLAIVENHWQDAHFDAFQEGLLSFTAALTDYKIYLLT EIDAILLNLNKAIDAHYQWLVSMFHSVVARDASKPEITDNHSYGLCQFGRWIDHLGPLDNDELPYVRLMDSAHQHMHNCGRELMLAIVENHWQDAHFDAFQEGLLSFTAALTDYKIYLLT 3t9p-a1-m1-cB_3t9p-a1-m1-cA Crystal structure of a putative mandelate racemase/muconate lactonizing enzyme family protein from Roseovarius 1.97 X-RAY DIFFRACTION 86 1.0 391613 (Roseovarius sp. TM1035) 391613 (Roseovarius sp. TM1035) 365 368 MRIARLETFCNEFVGFVRVTTDSGAQGWGQVSTYNADITCTIFHRQIAPHALGTDALDFADTLDLIYERELKYPGSYLRRAMTGLDTALWDMRGKLEGKPVATLLGGSPGPVRAYASSMRRDITPEDEAERFCRLRDDKGFTAFKWRVGAEAGRDHDEWPGRTEAVVPTVSRALGDGIEKLVDGNSCYSPARAIEVGKLLQDNGIGHFEEPCPYWEYDQTAAVRAALLLDVAGGEQDCEYSSWQLMLDRGAVDIVQPDVMYMGGMHRTLQVCQMAARAGLPVTPHAANLSLVTMCTMHLLRAIPNAGKYLEFSIEGPEYYPWQEGLFLGDPYRIEGGQAIVTDAPGWGVEISPTWLDSATYQVSE QSMRIARLETFCNEFVGFVRVTTDSGAQGWGQVSTYNADITCTIFHRQIAPHALGTDALDFADTLDLIYERELKYPGSYLRRAMTGLDTALWDMRGKLEGKPVATLLGGSPGPVRAYASSMRRDITPEDEAERFCRLRDDKGFTAFKWRVGAEAGRDHDEWPGRTEAVVPTVSRALGDGIEKLVDGNSCYSPARAIEVGKLLQDNGIGHFEEPCPYWEYDQTAAVRAALLLDVAGGEQDCEYSSWQLMLDRGAVDIVQPDVMYMGGMHRTLQVCQMAARAGLPVTPHAANLSLVTMCTMHLLRAIPNAGKYLEFSIEGPEYYPWQEGLFLGDPYRIEGGQAIVTDAPGWGVEISPTWLDSATYQVSER 3t9q-a1-m1-cA_3t9q-a1-m2-cA Structure of the Phosphatase Domain of the Cell Fate Determinant SpoIIE from Bacillus subtilis (Mn presoaked) P37475 P37475 2.76 X-RAY DIFFRACTION 10 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 216 216 AMSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNTPKW AMSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNTPKW 3t9q-a2-m1-cA_3t9q-a2-m1-cB Structure of the Phosphatase Domain of the Cell Fate Determinant SpoIIE from Bacillus subtilis (Mn presoaked) P37475 P37475 2.76 X-RAY DIFFRACTION 382 0.991 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 216 227 3t9q-a1-m1-cA_3t9q-a1-m1-cB 3t9q-a1-m2-cA_3t9q-a1-m2-cB AMSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNTPKW MSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASNLPIGIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNTPKWASIPVPAI 3t9q-a3-m1-cA_3t9q-a3-m2-cB Structure of the Phosphatase Domain of the Cell Fate Determinant SpoIIE from Bacillus subtilis (Mn presoaked) P37475 P37475 2.76 X-RAY DIFFRACTION 39 0.991 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 216 227 3t9q-a1-m1-cA_3t9q-a1-m2-cB 3t9q-a1-m2-cA_3t9q-a1-m1-cB AMSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNTPKW MSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASNLPIGIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNTPKWASIPVPAI 3t9y-a1-m1-cA_3t9y-a1-m2-cA Crystal structure of GNAT family acetyltransferase Staphylococcus aureus subsp. aureus USA300_TCH1516 A0A0H2XI93 A0A0H2XI93 2 X-RAY DIFFRACTION 146 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 130 130 SIITRLFNNSDFEKLNQLCKLYDDLGYPTNENDLKKRLKKITNHDDYFLLLLIKENKIIGLSGCKFYEKNAEYRILAFVIHSEFRKKGYGKRLLADSEEFSKRLNCKAITLNSGNRNGYVSNTSGFTKQL SIITRLFNNSDFEKLNQLCKLYDDLGYPTNENDLKKRLKKITNHDDYFLLLLIKENKIIGLSGCKFYEKNAEYRILAFVIHSEFRKKGYGKRLLADSEEFSKRLNCKAITLNSGNRNGYVSNTSGFTKQL 3t9z-a2-m1-cD_3t9z-a2-m1-cF A. fulgidus GlnK3, ligand-free O28524 O28524 1.82 X-RAY DIFFRACTION 76 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 93 94 3t9z-a1-m1-cA_3t9z-a1-m1-cB 3t9z-a1-m1-cC_3t9z-a1-m1-cA 3t9z-a1-m1-cC_3t9z-a1-m1-cB 3t9z-a2-m1-cD_3t9z-a2-m1-cE 3t9z-a2-m1-cF_3t9z-a2-m1-cE 3ta0-a1-m1-cA_3ta0-a1-m1-cC 3ta0-a1-m1-cB_3ta0-a1-m1-cC 3ta0-a2-m1-cD_3ta0-a2-m1-cF 3ta0-a2-m1-cE_3ta0-a2-m1-cD 3ta0-a2-m1-cE_3ta0-a2-m1-cF MKMVVAVIRPEKLECVKKALEERGFVGMTVTEVKGRGLLQKTKVEVVVSDDAVDEVVEAIVSSARTGKFGDGRIFVIPVEKSVKIRTGDEEVA MKMVVAVIRPEKLECVKKALEERGFVGMTVTEVKGRGLLQKTKVEVVVSDDAVDEVVEAIVSSARTGKFGDGRIFVIPVEKSVKIRTGDEEVAA 3ta2-a2-m4-cB_3ta2-a2-m5-cB A. fulgidus GlnK3, MgATP/2-OG complex O28524 O28524 1.9 X-RAY DIFFRACTION 81 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 109 109 3o8w-a1-m1-cA_3o8w-a1-m2-cA 3o8w-a1-m1-cA_3o8w-a1-m3-cA 3o8w-a1-m2-cA_3o8w-a1-m3-cA 3ta1-a1-m1-cA_3ta1-a1-m1-cD 3ta1-a1-m1-cC_3ta1-a1-m1-cA 3ta1-a1-m1-cC_3ta1-a1-m1-cD 3ta1-a2-m1-cB_3ta1-a2-m1-cF 3ta1-a2-m1-cE_3ta1-a2-m1-cB 3ta1-a2-m1-cE_3ta1-a2-m1-cF 3ta2-a1-m1-cA_3ta2-a1-m2-cA 3ta2-a1-m1-cA_3ta2-a1-m3-cA 3ta2-a1-m2-cA_3ta2-a1-m3-cA 3ta2-a2-m1-cB_3ta2-a2-m4-cB 3ta2-a2-m1-cB_3ta2-a2-m5-cB 3ta2-a3-m1-cC_3ta2-a3-m6-cC 3ta2-a3-m1-cC_3ta2-a3-m7-cC 3ta2-a3-m6-cC_3ta2-a3-m7-cC MKMVVAVIRPEKLECVKKALEERGFVGMTVTEVKGRGEQKGIRLQFRGREVEVDLLQKTKVEVVVSDDAVDEVVEAIVSSARTGKFGDGRIFVIPVEKSVKIRTGDEEV MKMVVAVIRPEKLECVKKALEERGFVGMTVTEVKGRGEQKGIRLQFRGREVEVDLLQKTKVEVVVSDDAVDEVVEAIVSSARTGKFGDGRIFVIPVEKSVKIRTGDEEV 3ta4-a1-m1-cD_3ta4-a1-m1-cF Small laccase from Amycolatopsis sp. ATCC 39116 complexed with 1-(3,4-dimethoxyphenyl)-2-(2-methoxyphenoxy)-1,3-dihydroxypropane J9PBQ8 J9PBQ8 2.35 X-RAY DIFFRACTION 115 1.0 385957 (Amycolatopsis sp. ATCC 39116) 385957 (Amycolatopsis sp. ATCC 39116) 273 282 3t9w-a1-m1-cA_3t9w-a1-m2-cA 3t9w-a1-m1-cA_3t9w-a1-m3-cA 3t9w-a1-m2-cA_3t9w-a1-m3-cA 3ta4-a1-m1-cE_3ta4-a1-m1-cD 3ta4-a1-m1-cE_3ta4-a1-m1-cF GTTRRITMYAEKISDELYGYGLAPGGATVPGPVLEMWEGDTLEIDLVNTTDRVLSLHPHGVDYDVNSDGTLMNGSAVMPGQTRRYTWRSHVGYRRADGSWAEGTAGYWHYHDHAMGTEHGTEGVLKGLYGALVVRRQGDLLPKRQFTVVFNDMMINNRAHHDAPTFEANLGERVEWIAIGHGSNFHTFHLHGHRWLDNRTGMRTSEYDPSPLIDIKDLNPGVSFGFQVIAGEGVGPGMWMYHCHVQNHSDMGMAGMFLVRNADGTMPAGVHEH GSHMPVRAQGTTRRITMYAEKISDELYGYGLAPGGATVPGPVLEMWEGDTLEIDLVNTTDRVLSLHPHGVDYDVNSDGTLMNGSAVMPGQTRRYTWRSHVGYRRADGSWAEGTAGYWHYHDHAMGTEHGTEGVLKGLYGALVVRRQGDLLPKRQFTVVFNDMMINNRAHHDAPTFEANLGERVEWIAIGHGSNFHTFHLHGHRWLDNRTGMRTSEYDPSPLIDIKDLNPGVSFGFQVIAGEGVGPGMWMYHCHVQNHSDMGMAGMFLVRNADGTMPAGVHEH 3ta6-a1-m1-cA_3ta6-a1-m1-cB Structure of Mycobacterium tuberculosis triosephosphate isomerase P9WG43 P9WG43 1.41 X-RAY DIFFRACTION 128 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 255 256 3gvg-a1-m1-cA_3gvg-a1-m1-cB 3tao-a1-m1-cA_3tao-a1-m1-cB RKPLIAGNWKMNLNHYEAIALVQKIAFSLPDKYYDRVDVAVIPPFTDLRSVQTLVDGDKLRLTYGAQDLSPHDSGAYTGDVSGAFLAKLGCSYVVVGHSERRTYHNEDDALVAAKAATALKHGLTPIVCIGEHLDVREAGNHVAHNIEQLRGSLAGLLAEQIGSVVIAYEPVWAIGTGRVASAADAQEVCAAIRKELASLASPRIADTVRVLYGGSVNAKNVGDIVAQDDVDGGLVGGASLDGEHFATLAAIAAG SRKPLIAGNWKMNLNHYEAIALVQKIAFSLPDKYYDRVDVAVIPPFTDLRSVQTLVDGDKLRLTYGAQDLSPHDSGAYTGDVSGAFLAKLGCSYVVVGHSERRTYHNEDDALVAAKAATALKHGLTPIVCIGEHLDVREAGNHVAHNIEQLRGSLAGLLAEQIGSVVIAYEPVWAIGTGRVASAADAQEVCAAIRKELASLASPRIADTVRVLYGGSVNAKNVGDIVAQDDVDGGLVGGASLDGEHFATLAAIAAG 3ta8-a1-m8-cA_3ta8-a1-m9-cA Crystal structure HP-NAP from strain YS39 iron loaded (cocrystallization 5mM) G1UIZ3 G1UIZ3 2.5 X-RAY DIFFRACTION 21 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 144 144 1ji4-a1-m1-cA_1ji4-a1-m1-cH 1ji4-a1-m1-cA_1ji4-a1-m1-cK 1ji4-a1-m1-cB_1ji4-a1-m1-cF 1ji4-a1-m1-cB_1ji4-a1-m1-cJ 1ji4-a1-m1-cC_1ji4-a1-m1-cE 1ji4-a1-m1-cC_1ji4-a1-m1-cL 1ji4-a1-m1-cD_1ji4-a1-m1-cG 1ji4-a1-m1-cD_1ji4-a1-m1-cI 1ji4-a1-m1-cE_1ji4-a1-m1-cL 1ji4-a1-m1-cF_1ji4-a1-m1-cJ 1ji4-a1-m1-cG_1ji4-a1-m1-cI 1ji4-a1-m1-cH_1ji4-a1-m1-cK 3t9j-a1-m10-cA_3t9j-a1-m11-cA 3t9j-a1-m10-cA_3t9j-a1-m12-cA 3t9j-a1-m11-cA_3t9j-a1-m12-cA 3t9j-a1-m1-cA_3t9j-a1-m2-cA 3t9j-a1-m1-cA_3t9j-a1-m3-cA 3t9j-a1-m2-cA_3t9j-a1-m3-cA 3t9j-a1-m4-cA_3t9j-a1-m5-cA 3t9j-a1-m4-cA_3t9j-a1-m6-cA 3t9j-a1-m5-cA_3t9j-a1-m6-cA 3t9j-a1-m7-cA_3t9j-a1-m8-cA 3t9j-a1-m7-cA_3t9j-a1-m9-cA 3t9j-a1-m8-cA_3t9j-a1-m9-cA 3ta8-a1-m10-cA_3ta8-a1-m11-cA 3ta8-a1-m10-cA_3ta8-a1-m12-cA 3ta8-a1-m11-cA_3ta8-a1-m12-cA 3ta8-a1-m1-cA_3ta8-a1-m2-cA 3ta8-a1-m1-cA_3ta8-a1-m3-cA 3ta8-a1-m2-cA_3ta8-a1-m3-cA 3ta8-a1-m4-cA_3ta8-a1-m5-cA 3ta8-a1-m4-cA_3ta8-a1-m6-cA 3ta8-a1-m5-cA_3ta8-a1-m6-cA 3ta8-a1-m7-cA_3ta8-a1-m8-cA 3ta8-a1-m7-cA_3ta8-a1-m9-cA 4evb-a1-m10-cA_4evb-a1-m11-cA 4evb-a1-m10-cA_4evb-a1-m12-cA 4evb-a1-m11-cA_4evb-a1-m12-cA 4evb-a1-m1-cA_4evb-a1-m2-cA 4evb-a1-m1-cA_4evb-a1-m3-cA 4evb-a1-m2-cA_4evb-a1-m3-cA 4evb-a1-m4-cA_4evb-a1-m5-cA 4evb-a1-m4-cA_4evb-a1-m6-cA 4evb-a1-m5-cA_4evb-a1-m6-cA 4evb-a1-m7-cA_4evb-a1-m8-cA 4evb-a1-m7-cA_4evb-a1-m9-cA 4evb-a1-m8-cA_4evb-a1-m9-cA 4evc-a1-m10-cA_4evc-a1-m11-cA 4evc-a1-m10-cA_4evc-a1-m12-cA 4evc-a1-m11-cA_4evc-a1-m12-cA 4evc-a1-m1-cA_4evc-a1-m2-cA 4evc-a1-m1-cA_4evc-a1-m3-cA 4evc-a1-m2-cA_4evc-a1-m3-cA 4evc-a1-m4-cA_4evc-a1-m5-cA 4evc-a1-m4-cA_4evc-a1-m6-cA 4evc-a1-m5-cA_4evc-a1-m6-cA 4evc-a1-m7-cA_4evc-a1-m8-cA 4evc-a1-m7-cA_4evc-a1-m9-cA 4evc-a1-m8-cA_4evc-a1-m9-cA 4evd-a1-m10-cA_4evd-a1-m11-cA 4evd-a1-m10-cA_4evd-a1-m12-cA 4evd-a1-m11-cA_4evd-a1-m12-cA 4evd-a1-m1-cA_4evd-a1-m2-cA 4evd-a1-m1-cA_4evd-a1-m3-cA 4evd-a1-m2-cA_4evd-a1-m3-cA 4evd-a1-m4-cA_4evd-a1-m5-cA 4evd-a1-m4-cA_4evd-a1-m6-cA 4evd-a1-m5-cA_4evd-a1-m6-cA 4evd-a1-m7-cA_4evd-a1-m8-cA 4evd-a1-m7-cA_4evd-a1-m9-cA 4evd-a1-m8-cA_4evd-a1-m9-cA 4eve-a1-m10-cA_4eve-a1-m11-cA 4eve-a1-m10-cA_4eve-a1-m12-cA 4eve-a1-m11-cA_4eve-a1-m12-cA 4eve-a1-m1-cA_4eve-a1-m2-cA 4eve-a1-m1-cA_4eve-a1-m3-cA 4eve-a1-m2-cA_4eve-a1-m3-cA 4eve-a1-m4-cA_4eve-a1-m5-cA 4eve-a1-m4-cA_4eve-a1-m6-cA 4eve-a1-m5-cA_4eve-a1-m6-cA 4eve-a1-m7-cA_4eve-a1-m8-cA 4eve-a1-m7-cA_4eve-a1-m9-cA 4eve-a1-m8-cA_4eve-a1-m9-cA MKTFEILKHLQADAIVLFMKVHNFHWNVKGTDFFNVHKATEEIYEGFADMFDDLAERIAQLGHHPLVTLSEALKLTRVKEETKTSFHSKDIFKEILEDYKHLEKEFKELSNTAEKEGDKVTVTYADDQLAKLQKSIWMLQAHLA MKTFEILKHLQADAIVLFMKVHNFHWNVKGTDFFNVHKATEEIYEGFADMFDDLAERIAQLGHHPLVTLSEALKLTRVKEETKTSFHSKDIFKEILEDYKHLEKEFKELSNTAEKEGDKVTVTYADDQLAKLQKSIWMLQAHLA 3tai-a1-m1-cA_3tai-a1-m1-cB Crystal structure of NurA Q8U1N8 Q8U1N8 2.82 X-RAY DIFFRACTION 238 0.986 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 423 423 3taz-a1-m1-cA_3taz-a1-m1-cB LSKQSIERITKILLDELENVRENEQIRNIINSWKPLPSPEKSSIYAVDGSRSVSRLSGTVIYFLSALAVGSGKQLRLSYANAIKSNYGTSDQIVRQETLENLGYLAYRKLEGEKRAILDGTLTGSLVRPPVYPEDIRSLNVRALIGESDFENLLNEFLEKLRDHYRKVEEHLEKNGNYDSPILTDNVVEKLRKKYIDTKVIAYGSGKVKVKIPRKSPRVIPIEVLESSRGKSVDELLQELDEEKVELYLGKDDIYDALHTLSYIEYLYSIDKLLEVKNLAYIAKSFYTKTLARTLIVDTALLDAVIRTLIGHEKEGYLEIEHAVVPPKWSFPDFLLSKFRNIEKLIDKGIHLAYVRFEQGDVIYLQSTTNIEKILPLILHHKAGGYLRPLQLAHHGVKISYKEARHTLEALINALRNRDPALK LLSKQSIERITKILLDELENVRENEQIRNIINSWKPLPSPEKSSIYAVDGSRSVSRLSGTVIYFLSALAVGSGKQLRLSYANAIKSNYGTSDQIVRQETLENLGYLAYRKLEGEKRAILDGTLTGSLVRPPVYPEDIRSLNVRALIGESDFENLLNEFLEKLRDHYRKVEEHLEKNGNYDSPILTDNVVEKLRKKYIDTKVIAVKVKIPRKALSPRVIPIEVLESSRGKSVDELLQELDEEKVELYLGKDDIYDALHTLSYIEYLYSIDKLLEVKNLAYIAKSFYTKTLARTVEIVDTALLDAVIRTLIGHEKEGYLEIEHAVVPPKWSFPDFLLSKFRNIEKLIDKGIHLAYVRFEQGDVIYLQSTTNIEKILPLILHHKAGGYLRPLQLAHHGVKISYKEARHTLEALINALRNRDPALKI 3tak-a1-m1-cA_3tak-a1-m1-cB Crystal structure of the complex of DHDPS from Acinetobacter baumannii with Pyruvate at 1.4 A resolution D0CFC3 D0CFC3 1.42 X-RAY DIFFRACTION 124 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 291 291 3pud-a1-m1-cA_3pud-a1-m1-cB 3pue-a1-m1-cA_3pue-a1-m1-cB 3pul-a1-m1-cA_3pul-a1-m1-cB 3rk8-a1-m1-cA_3rk8-a1-m1-cB 3tce-a1-m1-cA_3tce-a1-m1-cB 3tdf-a1-m1-cA_3tdf-a1-m1-cB 3u8g-a1-m1-cA_3u8g-a1-m1-cB 3uqn-a1-m1-cA_3uqn-a1-m1-cB 4dxv-a1-m1-cA_4dxv-a1-m1-cB TIQGSIVAIVTPMLKDGGVDWKSLEKLVEWHIEQGTNSIVAVGTTGEASTLSMEEHTQVIKEIIRVANKRIPIIAGTGANSTREAIELTKAAKDLGADAALLVTPYYNKPTQEGLYQHYKAIAEAVELPLILYNVPGRTGVDLSNDTAVRLAEIPNIVGIKDATGDVPRGKALIDALNGKMAVYSGDDETAWELMLLGADGNISVTANIAPKAMSEVCAVAIAKDEQQAKTLNNKIANLHNILFCESNPIPVKWALHEMGLIDTGIRLPLTPLAEQYREPLRNALKDAGII TIQGSIVAIVTPMLKDGGVDWKSLEKLVEWHIEQGTNSIVAVGTTGEASTLSMEEHTQVIKEIIRVANKRIPIIAGTGANSTREAIELTKAAKDLGADAALLVTPYYNKPTQEGLYQHYKAIAEAVELPLILYNVPGRTGVDLSNDTAVRLAEIPNIVGIKDATGDVPRGKALIDALNGKMAVYSGDDETAWELMLLGADGNISVTANIAPKAMSEVCAVAIAKDEQQAKTLNNKIANLHNILFCESNPIPVKWALHEMGLIDTGIRLPLTPLAEQYREPLRNALKDAGII 3tau-a1-m1-cB_3tau-a1-m1-cA Crystal Structure of a Putative Guanylate Monophosphaste Kinase from Listeria monocytogenes EGD-e Q8Y672 Q8Y672 2.05 X-RAY DIFFRACTION 72 0.994 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 175 184 RGLLIVLSGPSGVGKGTVREAVFKDPETSFDYSISTTRLPREGEQDGVDYYFRSREVFEQAIKDGKLEYAEYVGNYYGTPLEYVEEKLAAGVDIFLEIEVQGAQVRKAPEGIFIFLTPPDLSEEERETAKKEIEASYDYAVVNDVVANAVQKIKGIVETEHLKTERVIHRYKKLE TERGLLIVLSGPSGVGKGTVREAVFKDPETSFDYSISTTRLPREGEQDGVDYYFRSREVFEQAIKDGKLEYAEYVGNYYGTPLEYVEEKLAAGVDIFLEIEVQGAQVRKAPEGIFIFLTPPDLSELKNRSEVVEERETAKKEIEASYDYAVVNDVVANAVQKIKGIVETEHLKTERVIHRYKKL 3tav-a3-m1-cA_3tav-a3-m2-cB Crystal structure of a Methionine Aminopeptidase from Mycobacterium abscessus B1MGB2 B1MGB2 2.15 X-RAY DIFFRACTION 41 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 264 264 VGLFGRKKTVEQRTPGELDAMAAAGSIVGAALVAVRDAAKAGVSTLELDQVAESVIREAGAVPSFLGYHGFPASICSSVNDQVVHGIPSATAVLADGDLVSIDCGAILDGWHGDSAWTFAVGTVIPSDEALSEATRLSMEAGIAAMIPGNRLTDVSHAIELGTRAAEKQFDRAFGIVDGYGGHGIGRSMHLDPFLPNEGAPGKGPLLAVGSVLAIEPMLTLGTTQTRVLADDWTVVTTDGSRAAHWEHTVAVTEAGPRILTMRP VGLFGRKKTVEQRTPGELDAMAAAGSIVGAALVAVRDAAKAGVSTLELDQVAESVIREAGAVPSFLGYHGFPASICSSVNDQVVHGIPSATAVLADGDLVSIDCGAILDGWHGDSAWTFAVGTVIPSDEALSEATRLSMEAGIAAMIPGNRLTDVSHAIELGTRAAEKQFDRAFGIVDGYGGHGIGRSMHLDPFLPNEGAPGKGPLLAVGSVLAIEPMLTLGTTQTRVLADDWTVVTTDGSRAAHWEHTVAVTEAGPRILTMRP 3tb6-a1-m1-cA_3tb6-a1-m1-cB Structure of the effector-binding domain of arabinose repressor AraR from Bacillus subtilis P96711 P96711 2.21 X-RAY DIFFRACTION 66 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 283 283 NKTIGVLTTYISDYIFPSIIRGIESYLSEQGYSMLLTSTNNNPDNERRGLENLLSQHIDGLIVEPTKSALQTPNIGYYLNLEKNGIPFAMINASYAELAAPSFTLDDVKGGMMAAEHLLSLGHTHMMGIFKADDTQGVKRMNGFIQAHRERELFPSPDMIVTFTTEEKESKLLEKVKATLEKNSKHMPTAILCYNDEIALKVIDMLREMDLKVPEDMSIVGYDDSHFAQISEVKLTSVKHPKSVLGKAAAKYVIDCLEHKKPKQEDVIFEPELIIRQSARKLN KTIGVLTTYISDYIFPSIIRGIESYLSEQGYSMLLTSTNNNPDNERRGLENLLSQHIDGLIVEPTKSALQTPNIGYYLNLEKNGIPFAMINASYAELAAPSFTLDDVKGGMMAAEHLLSLGHTHMMGIFKADDTQGVKRMNGFIQAHRERELFPSPDMIVTFTTEEKESKLLEKVKATLEKNSKHMPTAILCYNDEIALKVIDMLREMDLKVPEDMSIVGYDDSHFAQISEVKLTSVKHPKSVLGKAAAKYVIDCLEHKKPKQEDVIFEPELIIRQSARKLNE 3tbb-a2-m1-cB_3tbb-a2-m2-cB Small laccase from Streptomyces viridosporus T7A; alternate crystal form. J9PBR2 J9PBR2 2.3 X-RAY DIFFRACTION 46 1.0 67581 (Streptomyces viridosporus) 67581 (Streptomyces viridosporus) 278 278 3tbc-a2-m1-cB_3tbc-a2-m2-cB GPAKTAPAGGEVKRIKLYAERLGGGQMGYGLEKGKATIPGPLIELNEGDTLHIEFENTMDVPVSLHVHGLDYEISSDGTKQSRSDVEPGGTRTYTWRTHVPGRRADGTWRAGSAGYWHYHDHVVGTEHGTGGIRNGLYGPVIVRRKGDVLPDRTHTIVFNDMTINNRPAHTGPDFEATVGDRVEFVMITHGEYYHTFHLHGHRWADNRTGMLTGPDDPSQVIDNKICGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGMVGLFLVKKPDGTIPGY GPAKTAPAGGEVKRIKLYAERLGGGQMGYGLEKGKATIPGPLIELNEGDTLHIEFENTMDVPVSLHVHGLDYEISSDGTKQSRSDVEPGGTRTYTWRTHVPGRRADGTWRAGSAGYWHYHDHVVGTEHGTGGIRNGLYGPVIVRRKGDVLPDRTHTIVFNDMTINNRPAHTGPDFEATVGDRVEFVMITHGEYYHTFHLHGHRWADNRTGMLTGPDDPSQVIDNKICGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGMVGLFLVKKPDGTIPGY 3tbc-a2-m2-cB_3tbc-a2-m1-cA Small laccase from Streptomyces viridosporus T7A; alternate crystal form complexed with acetovanillone. J9PBR2 J9PBR2 2.7 X-RAY DIFFRACTION 23 1.0 67581 (Streptomyces viridosporus) 67581 (Streptomyces viridosporus) 278 279 3tbb-a2-m1-cB_3tbb-a2-m2-cA 3tbb-a2-m1-cC_3tbb-a2-m2-cC 3tbb-a2-m2-cB_3tbb-a2-m1-cA 3tbc-a2-m1-cB_3tbc-a2-m2-cA 3tbc-a2-m1-cC_3tbc-a2-m2-cC GPAKTAPAGGEVKRIKLYAERLGGGQMGYGLEKGKATIPGPLIELNEGDTLHIEFENTMDVPVSLHVHGLDYEISSDGTKQSRSDVEPGGTRTYTWRTHVPGRRADGTWRAGSAGYWHYHDHVVGTEHGTGGIRNGLYGPVIVRRKGDVLPDRTHTIVFNDMTINNRPAHTGPDFEATVGDRVEFVMITHGEYYHTFHLHGHRWADNRTGMLTGPDDPSQVIDNKICGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGMVGLFLVKKPDGTIPGY MGPAKTAPAGGEVKRIKLYAERLGGGQMGYGLEKGKATIPGPLIELNEGDTLHIEFENTMDVPVSLHVHGLDYEISSDGTKQSRSDVEPGGTRTYTWRTHVPGRRADGTWRAGSAGYWHYHDHVVGTEHGTGGIRNGLYGPVIVRRKGDVLPDRTHTIVFNDMTINNRPAHTGPDFEATVGDRVEFVMITHGEYYHTFHLHGHRWADNRTGMLTGPDDPSQVIDNKICGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGMVGLFLVKKPDGTIPGY 3tbf-a4-m1-cG_3tbf-a4-m1-cH C-terminal domain of glucosamine-fructose-6-phosphate aminotransferase from Francisella tularensis. Q5NHQ9 Q5NHQ9 2.28 X-RAY DIFFRACTION 110 0.994 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 351 351 3tbf-a1-m1-cB_3tbf-a1-m1-cA 3tbf-a2-m1-cD_3tbf-a2-m1-cC 3tbf-a3-m1-cE_3tbf-a3-m1-cF SKDGYKHYLKEIYEQPEAVSNTILASLADGEISLDSFDKRAKELFEKTKHICIVACGTSYNAGTAKYWIEKYAKVPCSVEIASEIRYRDNVVVDGSLFVSISQSGETADTLESLRKSKKQNYVGSCICNVPNSSLVRESDIAFTKAGVEIGVASTKAFTTQLVALAIFTLVIAKLKNSLTDQQIAKYTEELKNIRALVGALKLDTEIDQISEYFSDKEHTIFLGRGLYYPIAIEGALKLKEISYIHAEAYPSGELKHGPLALVDKNPIVAVVPNDELLDKTLSNLQEVHARGGKLILFVDKAVKERVNFDNSIVLELDAGHDFSAPVVFTIPLQLLSYHVAIIKGTDVDQP SASKDGYKHYLKEIYEQPEAVSNTILASLADGEISLDDKRAKELFEKTKHICIVACGTSYNAGTAKYWIEKYAKVPCSVEIASEIRYRDNVVVDGSLFVSISQSGETADTLESLRKSKKQNYVGSCICNVPNSSLVRESDIAFTKAGVEIGVASTKAFTTQLVALAIFTLVIAKLKNSLTDQQIAKYTEELKNIRALVGALKLDTEIDQISEYFSDKEHTIFLGRGLYYPIAIEGALKLKEISYIHAEAYPSGELKHGPLALVDKNPIVAVVPNDELLDKTLSNLQEVHARGGKLILFVDKAVKERVNFDNSIVLELDAGHDFSAPVVFTIPLQLLSYHVAIIKGTDVDQP 3tbm-a1-m1-cA_3tbm-a1-m1-cB Crystal structure of a type 4 CDGSH iron-sulfur protein. Q8XVB9 Q8XVB9 1.797 X-RAY DIFFRACTION 98 1.0 267608 (Ralstonia pseudosolanacearum GMI1000) 267608 (Ralstonia pseudosolanacearum GMI1000) 61 61 VVITARNNGPYHIKGSFRIVTQGGRELPVEQGQAWLCRCGHSLNKPFCDGSHKRVEFDSNL VVITARNNGPYHIKGSFRIVTQGGRELPVEQGQAWLCRCGHSLNKPFCDGSHKRVEFDSNL 3tbo-a1-m1-cA_3tbo-a1-m2-cA Crystal structure of a type 3 CDGSH iron-sulfur protein. A3MW14 A3MW14 1.5 X-RAY DIFFRACTION 67 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 54 54 VEIRAIENGPYEVKIAIYLCRCGHSGSKPHCDGTHAKVGFKAPGAKIVHHHHHH VEIRAIENGPYEVKIAIYLCRCGHSGSKPHCDGTHAKVGFKAPGAKIVHHHHHH 3tc1-a1-m1-cA_3tc1-a1-m1-cB Crystal Structure of Octaprenyl Pyrophosphate Synthase from Helicobacter pylori O25023 O25023 2 X-RAY DIFFRACTION 123 1.0 102618 (Helicobacter pylori NCTC 11637 = CCUG 17874 = ATCC 43504 = JCM 12093) 102618 (Helicobacter pylori NCTC 11637 = CCUG 17874 = ATCC 43504 = JCM 12093) 289 305 MQEKQLKAIQNKIASWIKEIESGFIDELFSKIGPSKMLRSKLMLALLNEKTDAILLDKALNLCTIVEMIQTASLLHDDVIGNFNAVMLGDVFYSKAFFELSKMGELIAQALSNAVLRLSRGEIEDVFVGECFNSDKQKYWRILEDKTAHFIEASLKSMAILLNKDAKIYADFGLNFGMAFQIIDDLLDITQDAKTLGKPNFSDFKEGKTTLPYLLLYEKLNQHDQGLLISYFKQDSHEIIEWTKEKFKQYGIIEETLKTAQVYSKKALEAIKGENNLILEKLAQDVISR MQEKQLKAIQNKIASWIKEIESGFIDELFSKIGPSKMLRSKLMLALLNEKTDAILLDKALNLCTIVEMIQTASLLHDDVIDKATMRRKLPSINALFGNFNAVMLGDVFYSKAFFELSKMGELIAQALSNAVLRLSRGEIEDVFVGECFNSDKQKYWRILEDKTAHFIEASLKSMAILLNKDAKIYADFGLNFGMAFQIIDDLLDITQDAKTLGKPNFSDFKEGKTTLPYLLLYEKLNQHDQGLLISYFKQDSHEIIEWTKEKFKQYGIIEETLKTAQVYSKKALEAIKGENNLILEKLAQDVISR 3tc9-a1-m1-cA_3tc9-a1-m1-cB Crystal structure of an auxiliary nutrient binding protein (BT_3476) from Bacteroides thetaiotaomicron VPI-5482 at 2.23 A resolution Q8A230 Q8A230 2.23 X-RAY DIFFRACTION 25 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 416 417 GDFDPNKPVVISEFSPKEGGLGTRLLYGENFGSDISKIKVTIGGQDSKVVGAKGKSLYCVVPAKAYDGDIKLSILNDEGEEIANTEANEKFVYQKKLVTTFLGTYDGNTKYDLKDGPFDDCGGFGGAVWLSFDPKNHNHLYLVGEQHPTRLIDFEKEYVSTVYSGLSKVRTICWTHEADSIITNDQNNNDRPNNYILTRESGFKVITELTKGQNCNGAETHPINGELYFNSWNAGQVFRYDFTTQETTPLFTIQDSGWEFHIQFHPSGNYAYIVVVNQHYILRSDYDWKTKRLTTPYIVCGQQGAKDWVDGVGKKARHAPRQGTFVKNPAYKGSSDEYDFYFCDRENHCIRILTPQGRVTTFAGRGSNGTSGYNDGDLRQEARFNHPEGIVYDEERECFFIGDRENRRIRKIGYEE TGDFDPNKPVVISEFSPKEGGLGTRLLYGENFGSDISKIKVTIGGQDSKVVGAKGKSLYCVVPAKAYDGDIKLSILNDEGEEIANTEANEKFVYQKKLVTTFLGTYDGNTKYDLKDGPFDDCGGFGGAVWLSFDPKNHNHLYLVGEQHPTRLIDFEKEYVSTVYSGLSKVRTICWTHEADSIITNDQNNNDRPNNYILTRESGFKVITELTKGQNCNGAETHPINGELYFNSWNAGQVFRYDFTTQETTPLFTIQDSGWEFHIQFHPSGNYAYIVVVNQHYILRSDYDWKTKRLTTPYIVCGQQGAKDWVDGVGKKARHAPRQGTFVKNPAYKGSSDEYDFYFCDRENHCIRILTPQGRVTTFAGRGSNGTSGYNDGDLRQEARFNHPEGIVYDEERECFFIGDRENRRIRKIGYEE 3tcj-a1-m1-cB_3tcj-a1-m1-cA CcdB dimer from V. fisheri in complex with one C-terminal domain of F-plasmid CcdA Q84B82 Q84B82 1.93 X-RAY DIFFRACTION 62 1.0 668 (Aliivibrio fischeri) 668 (Aliivibrio fischeri) 103 104 2kmt-a1-m1-cA_2kmt-a1-m1-cB 3jrz-a1-m1-cA_3jrz-a1-m2-cA 3jsc-a1-m1-cA_3jsc-a1-m2-cA 4ely-a1-m1-cC_4ely-a1-m1-cD 4elz-a1-m1-cD_4elz-a1-m1-cC SQFTLYKNKDKSSAKTYPYFVDVQSDLLDNLNTRLVIPLTPIELLDKAPSHLCPTIHIDEGDFIMLTQQMTSVPVKILSEPVNELSTFRNEIIAAIDFLITGI SQFTLYKNKDKSSAKTYPYFVDVQSDLLDNLNTRLVIPLTPIELLDKKAPSHLCPTIHIDEGDFIMLTQQMTSVPVKILSEPVNELSTFRNEIIAAIDFLITGI 3tcm-a1-m1-cA_3tcm-a1-m1-cB Crystal Structure of Alanine Aminotransferase from Hordeum vulgare P52894 P52894 2.71 X-RAY DIFFRACTION 244 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 479 479 ATVAVDNLNPKVLKCEYAVRGEIVIHAQRLQEQLKTQPGSLPFDEILYCNIGNPQSLGQQPVTFFREVLALCDHPDLLQREEIKTLFSADSISRAKQILAMIPGRATGAYSHSQGIHGLRDAIASGIASRDGFPANADDIFLTDGASPGVHLMMQLLIRNEKDGILVPIPQYPLYSASIALHGGALVPYYLNESTGWGLETSDVKKQLEDARSRGINVRALVVINPGNPTGQVLAEENQYDIVKFCKNEGLVLLADEVYQENIYVDNKKFHSFKKIVRSLGYGEEDLPLVSYQSVSKGYYGECGKRGGYFEITGFSAPVREQIYKIASVNLCSNITGQILASLVMNPPKASDESYASYKAEKDGILASLARRAKALEHAFNKLEGITCNEAEGAMYVFPQICLPQKAIEAAKAANKAPDAFYALRLLESTGIVVVPGSGFGQVPGTWHFRCTILPQEDKIPAVISRFTVFHEAFMSEYR ATVAVDNLNPKVLKCEYAVRGEIVIHAQRLQEQLKTQPGSLPFDEILYCNIGNPQSLGQQPVTFFREVLALCDHPDLLQREEIKTLFSADSISRAKQILAMIPGRATGAYSHSQGIHGLRDAIASGIASRDGFPANADDIFLTDGASPGVHLMMQLLIRNEKDGILVPIPQYPLYSASIALHGGALVPYYLNESTGWGLETSDVKKQLEDARSRGINVRALVVINPGNPTGQVLAEENQYDIVKFCKNEGLVLLADEVYQENIYVDNKKFHSFKKIVRSLGYGEEDLPLVSYQSVSKGYYGECGKRGGYFEITGFSAPVREQIYKIASVNLCSNITGQILASLVMNPPKASDESYASYKAEKDGILASLARRAKALEHAFNKLEGITCNEAEGAMYVFPQICLPQKAIEAAKAANKAPDAFYALRLLESTGIVVVPGSGFGQVPGTWHFRCTILPQEDKIPAVISRFTVFHEAFMSEYR 3tcr-a4-m18-cB_3tcr-a4-m7-cB Crystal structure of a molybdopterin biosynthesis protein from Mycobacterium abscessus B1MK77 B1MK77 2.3 X-RAY DIFFRACTION 36 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 158 158 3tcr-a1-m1-cA_3tcr-a1-m2-cA 3tcr-a1-m1-cA_3tcr-a1-m3-cA 3tcr-a1-m2-cA_3tcr-a1-m3-cA 3tcr-a2-m1-cB_3tcr-a2-m4-cB 3tcr-a2-m1-cB_3tcr-a2-m5-cB 3tcr-a2-m4-cB_3tcr-a2-m5-cB 3tcr-a3-m10-cA_3tcr-a3-m14-cA 3tcr-a3-m10-cA_3tcr-a3-m9-cA 3tcr-a3-m11-cA_3tcr-a3-m13-cA 3tcr-a3-m11-cA_3tcr-a3-m7-cA 3tcr-a3-m12-cA_3tcr-a3-m6-cA 3tcr-a3-m12-cA_3tcr-a3-m8-cA 3tcr-a3-m13-cA_3tcr-a3-m7-cA 3tcr-a3-m14-cA_3tcr-a3-m9-cA 3tcr-a3-m1-cA_3tcr-a3-m2-cA 3tcr-a3-m1-cA_3tcr-a3-m3-cA 3tcr-a3-m2-cA_3tcr-a3-m3-cA 3tcr-a3-m6-cA_3tcr-a3-m8-cA 3tcr-a4-m15-cB_3tcr-a4-m19-cB 3tcr-a4-m15-cB_3tcr-a4-m21-cB 3tcr-a4-m16-cB_3tcr-a4-m20-cB 3tcr-a4-m16-cB_3tcr-a4-m6-cB 3tcr-a4-m17-cB_3tcr-a4-m18-cB 3tcr-a4-m17-cB_3tcr-a4-m7-cB 3tcr-a4-m19-cB_3tcr-a4-m21-cB 3tcr-a4-m1-cB_3tcr-a4-m4-cB 3tcr-a4-m1-cB_3tcr-a4-m5-cB 3tcr-a4-m20-cB_3tcr-a4-m6-cB 3tcr-a4-m4-cB_3tcr-a4-m5-cB PVGRSLVVIVNDRTAHGDQDTSGPLVTELLAEAGFVVDGVVVVENDLSEIQNAVNTAVIGGVDLVVTVGGTGVTPRDVAPEATQPLLDRELLGIAEAIRSSGLAAGVTEAGLSRGVAGISGSTLVVNIAGSRAAVRDGMATLTPMAIQIIEQLSSLEI PVGRSLVVIVNDRTAHGDQDTSGPLVTELLAEAGFVVDGVVVVENDLSEIQNAVNTAVIGGVDLVVTVGGTGVTPRDVAPEATQPLLDRELLGIAEAIRSSGLAAGVTEAGLSRGVAGISGSTLVVNIAGSRAAVRDGMATLTPMAIQIIEQLSSLEI 3tcr-a4-m5-cB_3tcr-a4-m7-cB Crystal structure of a molybdopterin biosynthesis protein from Mycobacterium abscessus B1MK77 B1MK77 2.3 X-RAY DIFFRACTION 59 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 158 158 3tcr-a3-m10-cA_3tcr-a3-m8-cA 3tcr-a3-m11-cA_3tcr-a3-m14-cA 3tcr-a3-m12-cA_3tcr-a3-m7-cA 3tcr-a3-m1-cA_3tcr-a3-m13-cA 3tcr-a3-m2-cA_3tcr-a3-m6-cA 3tcr-a3-m3-cA_3tcr-a3-m9-cA 3tcr-a4-m15-cB_3tcr-a4-m17-cB 3tcr-a4-m18-cB_3tcr-a4-m6-cB 3tcr-a4-m19-cB_3tcr-a4-m4-cB 3tcr-a4-m1-cB_3tcr-a4-m16-cB 3tcr-a4-m20-cB_3tcr-a4-m21-cB PVGRSLVVIVNDRTAHGDQDTSGPLVTELLAEAGFVVDGVVVVENDLSEIQNAVNTAVIGGVDLVVTVGGTGVTPRDVAPEATQPLLDRELLGIAEAIRSSGLAAGVTEAGLSRGVAGISGSTLVVNIAGSRAAVRDGMATLTPMAIQIIEQLSSLEI PVGRSLVVIVNDRTAHGDQDTSGPLVTELLAEAGFVVDGVVVVENDLSEIQNAVNTAVIGGVDLVVTVGGTGVTPRDVAPEATQPLLDRELLGIAEAIRSSGLAAGVTEAGLSRGVAGISGSTLVVNIAGSRAAVRDGMATLTPMAIQIIEQLSSLEI 3tcr-a4-m6-cB_3tcr-a4-m7-cB Crystal structure of a molybdopterin biosynthesis protein from Mycobacterium abscessus B1MK77 B1MK77 2.3 X-RAY DIFFRACTION 13 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 158 158 3tcr-a3-m10-cA_3tcr-a3-m11-cA 3tcr-a3-m10-cA_3tcr-a3-m12-cA 3tcr-a3-m11-cA_3tcr-a3-m12-cA 3tcr-a3-m13-cA_3tcr-a3-m14-cA 3tcr-a3-m13-cA_3tcr-a3-m3-cA 3tcr-a3-m14-cA_3tcr-a3-m3-cA 3tcr-a3-m1-cA_3tcr-a3-m6-cA 3tcr-a3-m1-cA_3tcr-a3-m7-cA 3tcr-a3-m2-cA_3tcr-a3-m8-cA 3tcr-a3-m2-cA_3tcr-a3-m9-cA 3tcr-a3-m6-cA_3tcr-a3-m7-cA 3tcr-a3-m8-cA_3tcr-a3-m9-cA 3tcr-a4-m15-cB_3tcr-a4-m18-cB 3tcr-a4-m15-cB_3tcr-a4-m20-cB 3tcr-a4-m16-cB_3tcr-a4-m21-cB 3tcr-a4-m16-cB_3tcr-a4-m4-cB 3tcr-a4-m17-cB_3tcr-a4-m19-cB 3tcr-a4-m17-cB_3tcr-a4-m5-cB 3tcr-a4-m18-cB_3tcr-a4-m20-cB 3tcr-a4-m19-cB_3tcr-a4-m5-cB 3tcr-a4-m1-cB_3tcr-a4-m6-cB 3tcr-a4-m1-cB_3tcr-a4-m7-cB 3tcr-a4-m21-cB_3tcr-a4-m4-cB PVGRSLVVIVNDRTAHGDQDTSGPLVTELLAEAGFVVDGVVVVENDLSEIQNAVNTAVIGGVDLVVTVGGTGVTPRDVAPEATQPLLDRELLGIAEAIRSSGLAAGVTEAGLSRGVAGISGSTLVVNIAGSRAAVRDGMATLTPMAIQIIEQLSSLEI PVGRSLVVIVNDRTAHGDQDTSGPLVTELLAEAGFVVDGVVVVENDLSEIQNAVNTAVIGGVDLVVTVGGTGVTPRDVAPEATQPLLDRELLGIAEAIRSSGLAAGVTEAGLSRGVAGISGSTLVVNIAGSRAAVRDGMATLTPMAIQIIEQLSSLEI 3tcs-a1-m1-cA_3tcs-a1-m1-cB Crystal structure of a putative racemase from Roseobacter denitrificans Q161M1 Q161M1 1.88 X-RAY DIFFRACTION 69 1.0 375451 (Roseobacter denitrificans OCh 114) 375451 (Roseobacter denitrificans OCh 114) 366 367 MKLKAIETFTNDAVGFVRVTTQDGAQGWGQVSTYHADITCTVLHRQVAPWMLGQDITDLDDLLDIVTEREHKFPGSYLRRAMAGVDTAIWDLRGKQQGKPVAEVLGGTPGLIRAYASSMKRDITPRDEAERLKRLRDTQGFTAFKVRAGAEVGRNRDEWPGRTEEIIPTMRRELGDDVDLLIDANSCYTPDRAIEVGHMLQDHGFCHFEEPCPYWELAQTKQVTDALDIDVTGGEQDCDLPTWQRMIDMRAVDIVQPDILYLGGICRTLRVVEMARAAGLPVTPHCANWSLVTLFTMHLLRAIPNAGKYLEFSIEGPDYYPWQEGLFVKTPYEIEDGHARVTDAPGWGVEISPEWLARSQYQSSEI SMKLKAIETFTNDAVGFVRVTTQDGAQGWGQVSTYHADITCTVLHRQVAPWMLGQDITDLDDLLDIVTEREHKFPGSYLRRAMAGVDTAIWDLRGKQQGKPVAEVLGGTPGLIRAYASSMKRDITPRDEAERLKRLRDTQGFTAFKVRAGAEVGRNRDEWPGRTEEIIPTMRRELGDDVDLLIDANSCYTPDRAIEVGHMLQDHGFCHFEEPCPYWELAQTKQVTDALDIDVTGGEQDCDLPTWQRMIDMRAVDIVQPDILYLGGICRTLRVVEMARAAGLPVTPHCANWSLVTLFTMHLLRAIPNAGKYLEFSIEGPDYYPWQEGLFVKTPYEIEDGHARVTDAPGWGVEISPEWLARSQYQSSEI 3tcv-a1-m1-cA_3tcv-a1-m1-cB Crystal structure of a GCN5-related N-acetyltransferase from Brucella melitensis Q2YIN4 Q2YIN4 1.75 X-RAY DIFFRACTION 69 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 221 223 LQNWTPRPKPERKIFEGRYVRLEPLNAQKHGDELFAASSVEDAEQRFTWLFETPPATRAEFEPWLDKASKSDDPLFFAVIDKASGKVAGRQALMRIDPANGVIEIGSIYWGPLISRRPAATEAQFLFMQYVFDVLGYRRYEWECHNENGPSRRAAERFGFRFEGIFRQHMVVKGRNRDTAWFSVLDSEWPALKQAYQAWLAPENFDSAGQQKKTLQEFRDL DLQNWTPRPKPERKIFEGRYVRLEPLNAQKHGDELFAASSVEDAEQRFTWLFETPPATRAEFEPWLDKASKSDDPLFFAVIDKASGKVAGRQALMRIDPANGVIEIGSIYWGPLISRRPAATEAQFLFMQYVFDVLGYRRYEWECHNENGPSRRAAERFGFRFEGIFRQHMVVKGRNRDTAWFSVLDSEWPALKQAYQAWLAPENFDSAGQQKKTLQEFRDLG 3td3-a3-m1-cE_3td3-a3-m1-cH Crystal structure of OmpA-like domain from Acinetobacter baumannii in complex with glycine Q6RYW5 Q6RYW5 1.59 X-RAY DIFFRACTION 53 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 120 121 3td3-a1-m1-cA_3td3-a1-m1-cC 3td3-a2-m1-cB_3td3-a2-m1-cD 3td3-a4-m1-cF_3td3-a4-m1-cG 3td4-a1-m1-cC_3td4-a1-m1-cA 3td4-a2-m1-cD_3td4-a2-m1-cB 3td4-a3-m1-cE_3td4-a3-m1-cH 3td4-a4-m1-cF_3td4-a4-m1-cG 3td5-a1-m1-cA_3td5-a1-m1-cB 3td5-a2-m1-cC_3td5-a2-m1-cD 3td5-a3-m1-cE_3td5-a3-m1-cF 3td5-a4-m1-cG_3td5-a4-m1-cH 4g4y-a1-m1-cA_4g4y-a1-m1-cC 4g4y-a2-m1-cB_4g4y-a2-m1-cD 4g4y-a3-m1-cE_4g4y-a3-m1-cH 4g4y-a4-m1-cF_4g4y-a4-m1-cG 4g4z-a1-m1-cC_4g4z-a1-m1-cA 4g4z-a2-m1-cB_4g4z-a2-m1-cD 4g4z-a3-m1-cE_4g4z-a3-m1-cH 4g4z-a4-m1-cF_4g4z-a4-m1-cG 4g88-a1-m1-cC_4g88-a1-m1-cA 4g88-a2-m1-cB_4g88-a2-m1-cD 4g88-a3-m1-cE_4g88-a3-m1-cH 4g88-a4-m1-cF_4g88-a4-m1-cG MELTEDLNMELRVFFDTNKSNIKDQYKPEIAKVAEKLSEYPNATARIEGHTDNTGPRKLNERLSLARANSVKSALVNEYNVDASRLSTQGFAWDQPIADNKTKEGRAMNRRVFATITGSR HMELTEDLNMELRVFFDTNKSNIKDQYKPEIAKVAEKLSEYPNATARIEGHTDNTGPRKLNERLSLARANSVKSALVNEYNVDASRLSTQGFAWDQPIADNKTKEGRAMNRRVFATITGSR 3td7-a1-m1-cA_3td7-a1-m2-cA Crysal structure of the mimivirus sulfhydryl oxidase R596 Q5UP54 Q5UP54 2.21 X-RAY DIFFRACTION 162 1.0 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 253 253 3gwn-a1-m1-cA_3gwn-a1-m1-cB HNGLITKIWGTAGWTFNHAVTFGYPLNPTSDDKRRYKNYFISLGDVLPCRLCRESYKKFITTGKTALTNEVLRNRHTLTKWFYDVHNAVNNKLEVDYGLSYEDVVNKYESFRAKCGKVTPLDHKAFSFKKLYYMDAPIVSLDKVENFVRIARMRGISDKYFAFLELATVLNGDFNELKKQSSWEYRNKYAQKKIRHMRENAIPSIEEQGYWKGTPTIDELKLLLFLASNLNRTEVNDAINNVERLESTHYIEN HNGLITKIWGTAGWTFNHAVTFGYPLNPTSDDKRRYKNYFISLGDVLPCRLCRESYKKFITTGKTALTNEVLRNRHTLTKWFYDVHNAVNNKLEVDYGLSYEDVVNKYESFRAKCGKVTPLDHKAFSFKKLYYMDAPIVSLDKVENFVRIARMRGISDKYFAFLELATVLNGDFNELKKQSSWEYRNKYAQKKIRHMRENAIPSIEEQGYWKGTPTIDELKLLLFLASNLNRTEVNDAINNVERLESTHYIEN 3td9-a1-m1-cA_3td9-a1-m2-cA Crystal structure of a Leucine binding protein LivK (TM1135) from Thermotoga maritima MSB8 at 1.90 A resolution Q9X0L9 Q9X0L9 1.9 X-RAY DIFFRACTION 65 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 344 344 VVKIAVILPTGGISAFGRVWEGIQIAHEEKPTVLGEEVELVLLDTRSEKTEAANAAARAIDKEKVLAIIGEVASAHSLAIAPIAEENKVPVTPASTNPLVTQGRKFVSRVCFIDPFQGAAAVFAYKNLGAKRVVVFTDVEQDYSVGLSNFFINKFTELGGQVKRVFFRSGDQDFSAQLSVASFNPDAIYITGYYPEIALISRQARQLGFTGYILAGDGADAPELIEIGGEAVEGLLFTTHYHPKAASNPVAKKFVEVYKEKYGKEPAALNALGYDAYVLLDAIERAGSFDREKIAEEIRKTRNFNGASGIINIDENGDAIKSVVVNIVKNGSVDFEAVINPDDL VVKIAVILPTGGISAFGRVWEGIQIAHEEKPTVLGEEVELVLLDTRSEKTEAANAAARAIDKEKVLAIIGEVASAHSLAIAPIAEENKVPVTPASTNPLVTQGRKFVSRVCFIDPFQGAAAVFAYKNLGAKRVVVFTDVEQDYSVGLSNFFINKFTELGGQVKRVFFRSGDQDFSAQLSVASFNPDAIYITGYYPEIALISRQARQLGFTGYILAGDGADAPELIEIGGEAVEGLLFTTHYHPKAASNPVAKKFVEVYKEKYGKEPAALNALGYDAYVLLDAIERAGSFDREKIAEEIRKTRNFNGASGIINIDENGDAIKSVVVNIVKNGSVDFEAVINPDDL 3tdc-a2-m1-cA_3tdc-a2-m2-cA Crystal Structure of Human Acetyl-CoA carboxylase 2 O00763 O00763 2.41 X-RAY DIFFRACTION 429 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 720 720 3ff6-a1-m1-cB_3ff6-a1-m1-cA 3ff6-a2-m1-cD_3ff6-a2-m1-cC TPYVTKDLLQAKRFQAQTLGTTYIYDFPEMFRQALFKLWGSPDKYPKDILTYTELVLDSQGQLVEMNRLPGGNEVGMVAFKMRFKTQEYPEGRDVIVIGNDITFRIGSFGPGEDLLYLRASEMARAEGIPKIYVAANSGARIGMAEEIKHMFHVAWVDPEDPHKGFKYLYLTPQDYTRISSLNSVHCKHIEEGGESRYMITDIIGKDDGLGVENLRGSGMIAGESSLAYEEIVTISLVTCRAIGIGAYLVRLGQRVIQVENSHIILTGASALNKVLGREVYTSNNQLGGVQIMHYNGVSHITVPDDFEGVYTILEWLSYMPKDNHSPVPIITPTDPIDREIEFLPSRAPYDPRWMLAGRPHPTLKGTWQSGFFDHGSFKEIMAPWAQTVVTGRARLGGIPVGVIAVETRTVEVAVPADPANLDSEAKIIQQAGQVWFPDSAYKTAQAIKDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRQYKQPILIYIPPYAELRGGSWVVIDATINPLCIEMYADKESRGGVLEPEGTVEIKFRKKDLIKSMRRIDPAYKKLMEQLGEPDLSDKDRKDLEGRLKAREDLLLPIYHQVAVQFADFHDTPGRMLEKGVISDILEWKTARTFLYWRLRRLLLEDQVKQEILQASGELSHVHIQSMLRRWFVETEGAVKAYLWDNNQVVVQWLEQHWITYLKHDSVLKTIRGLVEENPEVA TPYVTKDLLQAKRFQAQTLGTTYIYDFPEMFRQALFKLWGSPDKYPKDILTYTELVLDSQGQLVEMNRLPGGNEVGMVAFKMRFKTQEYPEGRDVIVIGNDITFRIGSFGPGEDLLYLRASEMARAEGIPKIYVAANSGARIGMAEEIKHMFHVAWVDPEDPHKGFKYLYLTPQDYTRISSLNSVHCKHIEEGGESRYMITDIIGKDDGLGVENLRGSGMIAGESSLAYEEIVTISLVTCRAIGIGAYLVRLGQRVIQVENSHIILTGASALNKVLGREVYTSNNQLGGVQIMHYNGVSHITVPDDFEGVYTILEWLSYMPKDNHSPVPIITPTDPIDREIEFLPSRAPYDPRWMLAGRPHPTLKGTWQSGFFDHGSFKEIMAPWAQTVVTGRARLGGIPVGVIAVETRTVEVAVPADPANLDSEAKIIQQAGQVWFPDSAYKTAQAIKDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRQYKQPILIYIPPYAELRGGSWVVIDATINPLCIEMYADKESRGGVLEPEGTVEIKFRKKDLIKSMRRIDPAYKKLMEQLGEPDLSDKDRKDLEGRLKAREDLLLPIYHQVAVQFADFHDTPGRMLEKGVISDILEWKTARTFLYWRLRRLLLEDQVKQEILQASGELSHVHIQSMLRRWFVETEGAVKAYLWDNNQVVVQWLEQHWITYLKHDSVLKTIRGLVEENPEVA 3tde-a1-m1-cA_3tde-a1-m1-cB Crystal structure of S-adenosylmethionine synthetase Rv1392 from Mycobacterium tuberculosis P9WGV1 P9WGV1 1.85 X-RAY DIFFRACTION 129 0.995 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 369 369 3rv2-a1-m1-cA_3rv2-a1-m1-cB 3rv2-a2-m1-cA_3rv2-a2-m1-cB 3rv2-a2-m2-cA_3rv2-a2-m2-cB 3s82-a1-m1-cA_3s82-a1-m1-cB 3s82-a2-m1-cA_3s82-a2-m1-cB 3s82-a2-m2-cA_3s82-a2-m2-cB 3tde-a1-m1-cD_3tde-a1-m1-cC RLFTSESVTEGHPDKICDAISDSVLDALLAADPRSRVAVETLVTTGQVHVVGEVTTSAKEAFADITNTVRARILEIGYDSSDKGFDGATCGVNIGIGAGDQGLMFGYAINATPELMPLPIALAHRLSRRLTEVRKNGVLPYLRPDGKTQVTIAYEDNVPVRLDTVVISTQHAADIDLEKTLDPDIREKVLNTVLDDLAHETLDASTVRVLVNPTGKFVLGGPMGDAGLTGRKIIVDTYGGWARHGGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLAERVEVQVAYAIGKAAPVGLFVETFGTETEDPVKIEKAIGEVFDLRPGAIIRDLNLLRPIYAPTAAYGHFGRTDVELPWEQLDKVDDLKRAI GRLFTSESVTEGHPDKICDAISDSVLDALLAADPRSRVAVETLVTTGQVHVVGEVTTSAKEAFADITNTVRARILEIGYDSSDKGFDGATCGVNIGIGAQGDQGLMFGYAINATPELMPLPIALAHRLSRRLTEVRKNGVLPYLRPDGKTQVTIAYEDNVPVRLDTVVISTQHAADIDLEKTLDPDIREKVLNTVLDDLAHETLDASTVRVLVNPTGKFVLGGPMGDAGLTGRKIIVDTYGGWARGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLAERVEVQVAYAIGKAAPVGLFVETFGTETEDPVKIEKAIGEVFDLRPGAIIRDLNLLRPIYAPTAAYGHFGRTDVELPWEQLDKVDDLKRAI 3tde-a1-m1-cB_3tde-a1-m1-cD Crystal structure of S-adenosylmethionine synthetase Rv1392 from Mycobacterium tuberculosis P9WGV1 P9WGV1 1.85 X-RAY DIFFRACTION 42 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 369 374 3rv2-a2-m1-cA_3rv2-a2-m2-cA 3rv2-a2-m1-cB_3rv2-a2-m2-cB 3s82-a2-m1-cA_3s82-a2-m2-cA 3s82-a2-m1-cB_3s82-a2-m2-cB 3tde-a1-m1-cA_3tde-a1-m1-cC GRLFTSESVTEGHPDKICDAISDSVLDALLAADPRSRVAVETLVTTGQVHVVGEVTTSAKEAFADITNTVRARILEIGYDSSDKGFDGATCGVNIGIGAQGDQGLMFGYAINATPELMPLPIALAHRLSRRLTEVRKNGVLPYLRPDGKTQVTIAYEDNVPVRLDTVVISTQHAADIDLEKTLDPDIREKVLNTVLDDLAHETLDASTVRVLVNPTGKFVLGGPMGDAGLTGRKIIVDTYGGWARGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLAERVEVQVAYAIGKAAPVGLFVETFGTETEDPVKIEKAIGEVFDLRPGAIIRDLNLLRPIYAPTAAYGHFGRTDVELPWEQLDKVDDLKRAI GRLFTSESVTEGHPDKICDAISDSVLDALLAADPRSRVAVETLVTTGQVHVVGEVTTSAKEAFADITNTVRARILEIGYDSSDKGFDGATCGVNIGIGAQSPDGDQGLMFGYAINATPELMPLPIALAHRLSRRLTEVRKNGVLPYLRPDGKTQVTIAYEDNVPVRLDTVVISTQHAADIDLEKTLDPDIREKVLNTVLDDLAHETLDASTVRVLVNPTGKFVLGGPMGDAGLTGRKIIVDTYGGWARHGGGAFSGKDPSKVDRSAAYAMRWVAKNVVAAGLAERVEVQVAYAIGKAAPVGLFVETFGTETEDPVKIEKAIGEVFDLRPGAIIRDLNLLRPIYAPTAAYGHFGRTDVELPWEQLDKVDDLKRAI 3tdg-a1-m1-cA_3tdg-a1-m2-cA Structural and functional characterization of Helicobacter pylori DsbG O25017 O25017 2.1 X-RAY DIFFRACTION 78 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 232 232 QDNLVSVIEKQTNKKVRILEIKPLKSSQDLKMVVIEDPDTKYNIPLVVSKDGNLIIGLSNIFFSNKSDDVQLVAETNQKVQALNATQQNSAKLNAIFNEIPADYAIELPSTNAANKDKILYIVSDPMCPHCQKELTKLRDHLKENTVRMVVVGWLGVNSAKKAALIQEEMAKARARGASVEDKISILEKIYSTQYDINAQKEPEDLRTKVENTTKKIFESGVIKGVPFLYHY QDNLVSVIEKQTNKKVRILEIKPLKSSQDLKMVVIEDPDTKYNIPLVVSKDGNLIIGLSNIFFSNKSDDVQLVAETNQKVQALNATQQNSAKLNAIFNEIPADYAIELPSTNAANKDKILYIVSDPMCPHCQKELTKLRDHLKENTVRMVVVGWLGVNSAKKAALIQEEMAKARARGASVEDKISILEKIYSTQYDINAQKEPEDLRTKVENTTKKIFESGVIKGVPFLYHY 3tdi-a3-m1-cB_3tdi-a3-m1-cA yeast Cul1WHB-Dcn1P acetylated Ubc12N complex Q12395 Q12395 2.3 X-RAY DIFFRACTION 44 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 200 202 2is9-a2-m1-cA_2is9-a2-m2-cA 3bq3-a1-m1-cA_3bq3-a1-m2-cA 3tdi-a1-m1-cB_3tdi-a1-m1-cA 3tdi-a2-m1-cB_3tdi-a2-m1-cA SVYPKELTQVFEHYINNNLFDIDSLVKFIEELGYNLEDLATLCLAHLLGYKKLEEPLKREDFLSTWFMQGCSTISDMQECIKTLDVKLHEDLQYFTQIYNYAFNLILDPNRKDIDTDEGIQYWKLFFQPEYPVRMEPDLLEAWFRFLRDEGKTTISKDTWRMLLLFFKRYPTIQKIISDYDETAAWPFIIDEFYECLQDQ GSVYPKELTQVFEHYINNNLFDIDSLVKFIEELGYNLEDLATLCLAHLLGYKKLEEPLKREDFLSTWFMQGCSTISDMQECIKTLDVKLHEDLQYFTQIYNYAFNLILDPNRKDIDTDEGIQYWKLFFQPEYPVRMEPDLLEAWFRFLRDEGKTTISKDTWRMLLLFFKRYPTIQKIISDYDETAAWPFIIDEFYECLQDQQ 3tdn-a1-m1-cA_3tdn-a1-m2-cA Computationally designed two-fold symmetric Tim-barrel protein, FLR 1.4 X-RAY DIFFRACTION 133 1.0 32630 (synthetic construct) 32630 (synthetic construct) 121 121 3tdm-a1-m1-cA_3tdm-a1-m1-cB 3tdm-a2-m1-cC_3tdm-a2-m2-cD SQAVVVAIDAKRVDGEFMVFTYSGKKNTGILLRDWVVEVEKRGAGEILLTSIDRDGTKSGYDTEMIRFVRPLTTLPIIASGGAGKMEHFLEAFLRGADKVSINTAAVENPSLITQIAQTFG SQAVVVAIDAKRVDGEFMVFTYSGKKNTGILLRDWVVEVEKRGAGEILLTSIDRDGTKSGYDTEMIRFVRPLTTLPIIASGGAGKMEHFLEAFLRGADKVSINTAAVENPSLITQIAQTFG 3tdp-a2-m1-cD_3tdp-a2-m2-cE Crystal structure of HSC at pH 4.5 Q186B7 Q186B7 2.99 X-RAY DIFFRACTION 18 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 256 256 3tdp-a2-m1-cB_3tdp-a2-m2-cA 3tdp-a2-m1-cC_3tdp-a2-m2-cC 3tdp-a2-m1-cE_3tdp-a2-m2-cD 3tdp-a2-m2-cB_3tdp-a2-m1-cA AHKETLDKLTNAAINKINLLNTSKVKYLVSSAFAGLYVGIGILLIFTIGGLLTDAGSPMTKIVMGLSFAIALSLVIMTGTELFTGNNMVMSAGMLNKGVSIKDTSKIWAYSWVGNLIGALVLGIIFVGTGLVDKGPVAEFFANTAASKASMPFTALFFRGILCNILVCVSVLCSFRTNSDTAKIIMIFLCLFAFITSGFEHSVANMTIYSVSLFSPTISTVTIGGAIYNLVAVTLGNIVGGALFMGLGTYILGKEK AHKETLDKLTNAAINKINLLNTSKVKYLVSSAFAGLYVGIGILLIFTIGGLLTDAGSPMTKIVMGLSFAIALSLVIMTGTELFTGNNMVMSAGMLNKGVSIKDTSKIWAYSWVGNLIGALVLGIIFVGTGLVDKGPVAEFFANTAASKASMPFTALFFRGILCNILVCVSVLCSFRTNSDTAKIIMIFLCLFAFITSGFEHSVANMTIYSVSLFSPTISTVTIGGAIYNLVAVTLGNIVGGALFMGLGTYILGKEK 3tdq-a1-m1-cB_3tdq-a1-m1-cA Crystal structure of a fimbrial biogenesis protein PilY2 (PilY2_PA4555) from Pseudomonas aeruginosa PAO1 at 2.10 A resolution Q51537 Q51537 2.1 X-RAY DIFFRACTION 55 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 75 83 QTFEGAGVVFEVQVEKNLVDIDHRLYRLPNSTVRNGPSLFQVKPGSVVSYSGTVSQPWSTITDIYIHKQSEQELA EDPQTFEGAGVVFEVQVEKNLVDIDHRLYRLPNSTVRNGPSLFQVKPGSVVSYSGTVSQPWSTITDIYIHKQSEQELAEIEKE 3tds-a1-m1-cE_3tds-a1-m1-cB Crystal structure of HSC F194I Q186B7 Q186B7 1.975 X-RAY DIFFRACTION 106 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 256 257 3tdo-a1-m1-cA_3tdo-a1-m1-cB 3tdo-a1-m1-cA_3tdo-a1-m1-cD 3tdo-a1-m1-cB_3tdo-a1-m1-cE 3tdo-a1-m1-cD_3tdo-a1-m1-cC 3tdo-a1-m1-cE_3tdo-a1-m1-cC 3tdp-a1-m1-cB_3tdp-a1-m1-cA 3tdp-a1-m1-cB_3tdp-a1-m1-cE 3tdp-a1-m1-cC_3tdp-a1-m1-cD 3tdp-a1-m1-cC_3tdp-a1-m1-cE 3tdp-a1-m1-cD_3tdp-a1-m1-cA 3tdp-a2-m1-cB_3tdp-a2-m1-cA 3tdp-a2-m1-cB_3tdp-a2-m1-cE 3tdp-a2-m1-cC_3tdp-a2-m1-cD 3tdp-a2-m1-cC_3tdp-a2-m1-cE 3tdp-a2-m1-cD_3tdp-a2-m1-cA 3tdp-a2-m2-cB_3tdp-a2-m2-cA 3tdp-a2-m2-cB_3tdp-a2-m2-cE 3tdp-a2-m2-cC_3tdp-a2-m2-cD 3tdp-a2-m2-cC_3tdp-a2-m2-cE 3tdp-a2-m2-cD_3tdp-a2-m2-cA 3tdr-a1-m1-cA_3tdr-a1-m1-cB 3tdr-a1-m1-cA_3tdr-a1-m1-cD 3tdr-a1-m1-cB_3tdr-a1-m1-cE 3tdr-a1-m1-cD_3tdr-a1-m1-cC 3tdr-a1-m1-cE_3tdr-a1-m1-cC 3tdr-a2-m1-cF_3tdr-a2-m1-cG 3tdr-a2-m1-cF_3tdr-a2-m1-cI 3tdr-a2-m1-cG_3tdr-a2-m1-cJ 3tdr-a2-m1-cH_3tdr-a2-m1-cI 3tdr-a2-m1-cH_3tdr-a2-m1-cJ 3tds-a1-m1-cA_3tds-a1-m1-cB 3tds-a1-m1-cA_3tds-a1-m1-cD 3tds-a1-m1-cD_3tds-a1-m1-cC 3tds-a1-m1-cE_3tds-a1-m1-cC 3tdx-a1-m1-cA_3tdx-a1-m1-cB 3tdx-a1-m1-cA_3tdx-a1-m1-cD 3tdx-a1-m1-cD_3tdx-a1-m1-cC 3tdx-a1-m1-cE_3tdx-a1-m1-cB 3tdx-a1-m1-cE_3tdx-a1-m1-cC 3te0-a1-m1-cA_3te0-a1-m1-cB 3te0-a1-m1-cA_3te0-a1-m1-cD 3te0-a1-m1-cD_3te0-a1-m1-cC 3te0-a1-m1-cE_3te0-a1-m1-cB 3te0-a1-m1-cE_3te0-a1-m1-cC 3te1-a1-m1-cA_3te1-a1-m1-cB 3te1-a1-m1-cA_3te1-a1-m1-cD 3te1-a1-m1-cD_3te1-a1-m1-cC 3te1-a1-m1-cE_3te1-a1-m1-cB 3te1-a1-m1-cE_3te1-a1-m1-cC 3te2-a1-m1-cA_3te2-a1-m1-cB 3te2-a1-m1-cA_3te2-a1-m1-cD 3te2-a1-m1-cD_3te2-a1-m1-cC 3te2-a1-m1-cE_3te2-a1-m1-cB 3te2-a1-m1-cE_3te2-a1-m1-cC AHKETLDKLTNAAINKINLLNTSKVKYLVSSAFAGLYVGIGILLIFTIGGLLTDAGSPMTKIVMGLSFAIALSLVIMTGTELFTGNNMVMSAGMLNKGVSIKDTSKIWAYSWVGNLIGALVLGIIFVGTGLVDKGPVAEFFANTAASKASMPFTALFFRGILCNILVCVSVLCSFRTNSDTAKIIMIFLCLFAIITSGFEHSVANMTIYSVSLFSPTISTVTIGGAIYNLVAVTLGNIVGGALFMGLGTYILGKEK RAHKETLDKLTNAAINKINLLNTSKVKYLVSSAFAGLYVGIGILLIFTIGGLLTDAGSPMTKIVMGLSFAIALSLVIMTGTELFTGNNMVMSAGMLNKGVSIKDTSKIWAYSWVGNLIGALVLGIIFVGTGLVDKGPVAEFFANTAASKASMPFTALFFRGILCNILVCVSVLCSFRTNSDTAKIIMIFLCLFAIITSGFEHSVANMTIYSVSLFSPTISTVTIGGAIYNLVAVTLGNIVGGALFMGLGTYILGKEK 3tdt-a1-m2-cA_3tdt-a1-m3-cA COMPLEX OF TETRAHYDRODIPICOLINATE N-SUCCINYLTRANSFERASE WITH 2-AMINO-6-OXOPIMELATE AND COENZYME A P56220 P56220 2 X-RAY DIFFRACTION 154 1.0 1765 (Mycobacterium tuberculosis variant bovis) 1765 (Mycobacterium tuberculosis variant bovis) 274 274 1kgq-a1-m1-cA_1kgq-a1-m2-cA 1kgq-a1-m1-cA_1kgq-a1-m3-cA 1kgq-a1-m2-cA_1kgq-a1-m3-cA 1kgt-a1-m1-cA_1kgt-a1-m2-cA 1kgt-a1-m1-cA_1kgt-a1-m3-cA 1kgt-a1-m2-cA_1kgt-a1-m3-cA 1tdt-a1-m1-cB_1tdt-a1-m1-cA 1tdt-a1-m1-cC_1tdt-a1-m1-cA 1tdt-a1-m1-cC_1tdt-a1-m1-cB 2tdt-a1-m1-cA_2tdt-a1-m2-cA 2tdt-a1-m1-cA_2tdt-a1-m3-cA 2tdt-a1-m2-cA_2tdt-a1-m3-cA 3bxy-a1-m1-cA_3bxy-a1-m2-cA 3bxy-a1-m1-cA_3bxy-a1-m3-cA 3bxy-a1-m2-cA_3bxy-a1-m3-cA 3gos-a1-m1-cA_3gos-a1-m1-cB 3gos-a1-m1-cA_3gos-a1-m1-cC 3gos-a1-m1-cB_3gos-a1-m1-cC 3tdt-a1-m1-cA_3tdt-a1-m2-cA 3tdt-a1-m1-cA_3tdt-a1-m3-cA MQQLQNVIESAFERRADITPANVDTVTREAVNQVIGLLDSGALRVAEKIDGQWVTHQWLKKAVLLSFRINDNKVMDGAETRYYDKVPMKFADYDEARFQKEGFRVVPPATVRQGAFIARNTVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEVVEGVIVEEGSVISMGVYLGQSTRIYDRETGEIHYGRVPAGSVVVSGNLPSKDGSYSLYCAVIVKKVDAKTRGKVGINELLRTID MQQLQNVIESAFERRADITPANVDTVTREAVNQVIGLLDSGALRVAEKIDGQWVTHQWLKKAVLLSFRINDNKVMDGAETRYYDKVPMKFADYDEARFQKEGFRVVPPATVRQGAFIARNTVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEVVEGVIVEEGSVISMGVYLGQSTRIYDRETGEIHYGRVPAGSVVVSGNLPSKDGSYSLYCAVIVKKVDAKTRGKVGINELLRTID 3teo-a1-m1-cH_3teo-a1-m1-cE APO Form of carbon disulfide hydrolase (selenomethionine form) G0WXL9 G0WXL9 2.4 X-RAY DIFFRACTION 67 1.0 1071056 (Acidianus sp. A1-3) 1071056 (Acidianus sp. A1-3) 198 199 3ten-a1-m1-cA_3ten-a1-m1-cF 3ten-a1-m1-cB_3ten-a1-m1-cD 3ten-a1-m1-cC_3ten-a1-m1-cG 3ten-a1-m1-cE_3ten-a1-m1-cH 3teo-a1-m1-cA_3teo-a1-m1-cF 3teo-a1-m1-cB_3teo-a1-m1-cD 3teo-a1-m1-cC_3teo-a1-m1-cG 3teo-a2-m1-cI_3teo-a2-m1-cO 3teo-a2-m1-cJ_3teo-a2-m1-cK 3teo-a2-m1-cL_3teo-a2-m1-cN 3teo-a2-m1-cM_3teo-a2-m1-cP SEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCDERVHIEQSLGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGLRFTGEEVAKYFISKGIKPTEVQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEALKGVEILRNHPLIPKDVRITGYVYEVETHRLRKPNQIIYNETSKFEHGTIVK VSEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCDERVHIEQSLGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGLRFTGEEVAKYFISKGIKPTEVQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEALKGVEILRNHPLIPKDVRITGYVYEVETHRLRKPNQIIYNETSKFEHGTIVK 3teo-a1-m1-cH_3teo-a1-m1-cF APO Form of carbon disulfide hydrolase (selenomethionine form) G0WXL9 G0WXL9 2.4 X-RAY DIFFRACTION 48 1.0 1071056 (Acidianus sp. A1-3) 1071056 (Acidianus sp. A1-3) 198 199 3ten-a1-m1-cA_3ten-a1-m1-cD 3ten-a1-m1-cA_3ten-a1-m1-cE 3ten-a1-m1-cB_3ten-a1-m1-cC 3ten-a1-m1-cB_3ten-a1-m1-cF 3ten-a1-m1-cC_3ten-a1-m1-cH 3ten-a1-m1-cD_3ten-a1-m1-cG 3ten-a1-m1-cE_3ten-a1-m1-cG 3ten-a1-m1-cF_3ten-a1-m1-cH 3teo-a1-m1-cA_3teo-a1-m1-cD 3teo-a1-m1-cA_3teo-a1-m1-cE 3teo-a1-m1-cB_3teo-a1-m1-cC 3teo-a1-m1-cB_3teo-a1-m1-cF 3teo-a1-m1-cD_3teo-a1-m1-cG 3teo-a1-m1-cE_3teo-a1-m1-cG 3teo-a1-m1-cH_3teo-a1-m1-cC 3teo-a2-m1-cI_3teo-a2-m1-cK 3teo-a2-m1-cI_3teo-a2-m1-cP 3teo-a2-m1-cJ_3teo-a2-m1-cL 3teo-a2-m1-cJ_3teo-a2-m1-cO 3teo-a2-m1-cK_3teo-a2-m1-cN 3teo-a2-m1-cL_3teo-a2-m1-cM 3teo-a2-m1-cM_3teo-a2-m1-cO 3teo-a2-m1-cN_3teo-a2-m1-cP SEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCDERVHIEQSLGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGLRFTGEEVAKYFISKGIKPTEVQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEALKGVEILRNHPLIPKDVRITGYVYEVETHRLRKPNQIIYNETSKFEHGTIVK VSEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCDERVHIEQSLGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGLRFTGEEVAKYFISKGIKPTEVQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEALKGVEILRNHPLIPKDVRITGYVYEVETHRLRKPNQIIYNETSKFEHGTIVK 3teo-a1-m1-cH_3teo-a1-m1-cG APO Form of carbon disulfide hydrolase (selenomethionine form) G0WXL9 G0WXL9 2.4 X-RAY DIFFRACTION 199 1.0 1071056 (Acidianus sp. A1-3) 1071056 (Acidianus sp. A1-3) 198 199 3ten-a1-m1-cA_3ten-a1-m1-cB 3ten-a1-m1-cC_3ten-a1-m1-cD 3ten-a1-m1-cE_3ten-a1-m1-cF 3ten-a1-m1-cG_3ten-a1-m1-cH 3teo-a1-m1-cA_3teo-a1-m1-cB 3teo-a1-m1-cC_3teo-a1-m1-cD 3teo-a1-m1-cE_3teo-a1-m1-cF 3teo-a2-m1-cI_3teo-a2-m1-cJ 3teo-a2-m1-cK_3teo-a2-m1-cL 3teo-a2-m1-cM_3teo-a2-m1-cN 3teo-a2-m1-cO_3teo-a2-m1-cP SEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCDERVHIEQSLGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGLRFTGEEVAKYFISKGIKPTEVQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEALKGVEILRNHPLIPKDVRITGYVYEVETHRLRKPNQIIYNETSKFEHGTIVK VSEYIDSELKRLEDYALRRVKGIPNNRRLWVLTCDERVHIEQSLGIQPDDAHIYRNAGGIVTDDAIRSASLTTNFFGTKEIIVVTHTDCGLRFTGEEVAKYFISKGIKPTEVQLDPLLPAFRISSEEDFIKWFKFYEDLGVKSPDEALKGVEILRNHPLIPKDVRITGYVYEVETHRLRKPNQIIYNETSKFEHGTIVK 3teq-a1-m1-cA_3teq-a1-m1-cC Crystal structure of SOAR domain Q13586 Q13586 1.9 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 101 3teq-a2-m1-cB_3teq-a2-m2-cB 3teq-a3-m1-cD_3teq-a3-m3-cD PEALQKWLQLTHEVEVQYYNIKKQNAEKQLMVAKEGAEKIKKKRNTLFGTFHVAHSSSLDDVDHKILTAKQALSEATAALRERLHRWQQIEILTGFQIVN PEALQKWLQLTHEVEVQYYNIKKQNAEKQLMVAKEGAEKIKKKRNTLFGTFHVAHSSSLDDVDHKILTAKQALSEATAALRERLHRWQQIEILTGFQIVNN 3ter-a1-m1-cA_3ter-a1-m1-cB Crystal structure of SOAR domain with Inhibition helix from C. elegans G5EF60 G5EF60 2.551 X-RAY DIFFRACTION 56 0.992 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 119 121 VNHTEMENLRVQLEEAERRLESQAPLALQPLLRRTCENEMAFLEKQRQDCFKEMKEAIEMVDRLQKKSLKLATGAASTSDQVDSKIFALKSRMEKIHTLTRETQERWLQIESLCGFPLL NHTEMENLRVQLEEAERRLENGSQAPLALQPLLRRTCENEMAFLEKQRQDCFKEMKEAIEMVDRLQKKSLKLATGAASTSDQVDSKIFALKSRMEKIHTLTRETQERWLQIESLCGFPLLY 3tfc-a1-m1-cA_3tfc-a1-m2-cA 1.95 Angstrom crystal structure of a bifunctional 3-deoxy-7-phosphoheptulonate synthase/chorismate mutase (aroA) from Listeria monocytogenes EGD-e in complex with phosphoenolpyruvate Q8Y6T2 Q8Y6T2 1.95 X-RAY DIFFRACTION 102 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 343 343 3nvt-a1-m1-cA_3nvt-a1-m2-cA 3nvt-a1-m1-cB_3nvt-a1-m2-cB 3tfc-a1-m1-cB_3tfc-a1-m2-cB LRTQVDQLNIDLLELISKRANLVQEIGKIKLRFDPLREREMLNTILAANEGPFEDSTVQKLFKEIFKAGLELQEEDHSKALLVSRKNKKEDTIVTVKGLPIGNGEPVFVFGPCSVESYEQVAAVAESIKAKGLKLIRGGAFKPRTSPYDFQGLGLEGLKILKRVSDEYGLGVISEIVTPADIEVALDYVDVIQIGARNMQNFELLKAAGRVDKPILLKRGLSATIEEFIGAAEYIMSQGNGKIILCERGIRTYEKATRNTLDISAVPILKKETHLPVMVDVTHSTGRKDLLLPCAKAALAIEADGVMAEVHPDPAVALSDSAQQMDIPEFEEFWNAILASNLV LRTQVDQLNIDLLELISKRANLVQEIGKIKLRFDPLREREMLNTILAANEGPFEDSTVQKLFKEIFKAGLELQEEDHSKALLVSRKNKKEDTIVTVKGLPIGNGEPVFVFGPCSVESYEQVAAVAESIKAKGLKLIRGGAFKPRTSPYDFQGLGLEGLKILKRVSDEYGLGVISEIVTPADIEVALDYVDVIQIGARNMQNFELLKAAGRVDKPILLKRGLSATIEEFIGAAEYIMSQGNGKIILCERGIRTYEKATRNTLDISAVPILKKETHLPVMVDVTHSTGRKDLLLPCAKAALAIEADGVMAEVHPDPAVALSDSAQQMDIPEFEEFWNAILASNLV 3tfc-a1-m2-cB_3tfc-a1-m1-cA 1.95 Angstrom crystal structure of a bifunctional 3-deoxy-7-phosphoheptulonate synthase/chorismate mutase (aroA) from Listeria monocytogenes EGD-e in complex with phosphoenolpyruvate Q8Y6T2 Q8Y6T2 1.95 X-RAY DIFFRACTION 86 0.982 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 330 343 3nvt-a1-m1-cB_3nvt-a1-m2-cA 3nvt-a1-m2-cB_3nvt-a1-m1-cA 3tfc-a1-m1-cB_3tfc-a1-m2-cA NLEELRTQVDQLNIDLLELISKRANLVQEREMLNTILAANEGPFEDSTVQKLFKEIFKAGLHSKALLVSRKNKKEDTIVTVKGLPIGNGEPVFVFGPCSVESYEQVAAVAESIKAKGLKLIRGGAFKPRTSPYDFQGLGLEGLKILKRVSDEYGLGVISEIVTPADIEVALDYVDVIQIGARNMQNFELLKAAGRVDKPILLKRGLSATIEEFIGAAEYIMSQGNGKIILCERGIRTYEKATRNTLDISAVPILKKETHLPVMVDVTHSTGRKDLLLPCAKAALAIEADGVMAEVHPDPAVALSDSAQQMDIPEFEEFWNAILASNLVPH LRTQVDQLNIDLLELISKRANLVQEIGKIKLRFDPLREREMLNTILAANEGPFEDSTVQKLFKEIFKAGLELQEEDHSKALLVSRKNKKEDTIVTVKGLPIGNGEPVFVFGPCSVESYEQVAAVAESIKAKGLKLIRGGAFKPRTSPYDFQGLGLEGLKILKRVSDEYGLGVISEIVTPADIEVALDYVDVIQIGARNMQNFELLKAAGRVDKPILLKRGLSATIEEFIGAAEYIMSQGNGKIILCERGIRTYEKATRNTLDISAVPILKKETHLPVMVDVTHSTGRKDLLLPCAKAALAIEADGVMAEVHPDPAVALSDSAQQMDIPEFEEFWNAILASNLV 3tfc-a1-m2-cB_3tfc-a1-m2-cA 1.95 Angstrom crystal structure of a bifunctional 3-deoxy-7-phosphoheptulonate synthase/chorismate mutase (aroA) from Listeria monocytogenes EGD-e in complex with phosphoenolpyruvate Q8Y6T2 Q8Y6T2 1.95 X-RAY DIFFRACTION 126 0.982 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 330 343 3nvt-a1-m1-cB_3nvt-a1-m1-cA 3nvt-a1-m2-cB_3nvt-a1-m2-cA 3tfc-a1-m1-cB_3tfc-a1-m1-cA NLEELRTQVDQLNIDLLELISKRANLVQEREMLNTILAANEGPFEDSTVQKLFKEIFKAGLHSKALLVSRKNKKEDTIVTVKGLPIGNGEPVFVFGPCSVESYEQVAAVAESIKAKGLKLIRGGAFKPRTSPYDFQGLGLEGLKILKRVSDEYGLGVISEIVTPADIEVALDYVDVIQIGARNMQNFELLKAAGRVDKPILLKRGLSATIEEFIGAAEYIMSQGNGKIILCERGIRTYEKATRNTLDISAVPILKKETHLPVMVDVTHSTGRKDLLLPCAKAALAIEADGVMAEVHPDPAVALSDSAQQMDIPEFEEFWNAILASNLVPH LRTQVDQLNIDLLELISKRANLVQEIGKIKLRFDPLREREMLNTILAANEGPFEDSTVQKLFKEIFKAGLELQEEDHSKALLVSRKNKKEDTIVTVKGLPIGNGEPVFVFGPCSVESYEQVAAVAESIKAKGLKLIRGGAFKPRTSPYDFQGLGLEGLKILKRVSDEYGLGVISEIVTPADIEVALDYVDVIQIGARNMQNFELLKAAGRVDKPILLKRGLSATIEEFIGAAEYIMSQGNGKIILCERGIRTYEKATRNTLDISAVPILKKETHLPVMVDVTHSTGRKDLLLPCAKAALAIEADGVMAEVHPDPAVALSDSAQQMDIPEFEEFWNAILASNLV 3tfj-a1-m1-cA_3tfj-a1-m1-cB DMSP-dependent demethylase from P. ubique - with cofactor THF Q4FP21 Q4FP21 1.6 X-RAY DIFFRACTION 174 1.0 335992 (Candidatus Pelagibacter ubique HTCC1062) 335992 (Candidatus Pelagibacter ubique HTCC1062) 369 369 3tfh-a1-m1-cA_3tfh-a1-m1-cB 3tfi-a1-m1-cA_3tfi-a1-m1-cB MKNFSIAKSRRLRSTPYTSRIEKQGVTAYTIYNHMLLPAAFGSIEDSYKHLKEHVQIWDVAAERQVEISGKDSAELVQLMTCRDLSKSKIGRCYYCPIIDENGNLVNDPVVLKLDENKWWISIADSDVIFFAKGLASGHKFDVKIVEPVVDIMAIQGPKSFALMEKVFGKKITELKFFGFDYFDFEGTKHLIARSGWSKQGGYEVYVENTQSGQKLYDHLFEVGKEFNVGPGCPNLIERIESALLSYGNDFDNNDNPFECGFDQYVSLDSDINFLGKEKLKEIKLKGPQKKLRGVKIDIKEISLTGSKNIYDENNNVIGELRSACYSPHFQKVIGIAMIKKSHWEASQGFKIQINDNTINGNVCDLPFI MKNFSIAKSRRLRSTPYTSRIEKQGVTAYTIYNHMLLPAAFGSIEDSYKHLKEHVQIWDVAAERQVEISGKDSAELVQLMTCRDLSKSKIGRCYYCPIIDENGNLVNDPVVLKLDENKWWISIADSDVIFFAKGLASGHKFDVKIVEPVVDIMAIQGPKSFALMEKVFGKKITELKFFGFDYFDFEGTKHLIARSGWSKQGGYEVYVENTQSGQKLYDHLFEVGKEFNVGPGCPNLIERIESALLSYGNDFDNNDNPFECGFDQYVSLDSDINFLGKEKLKEIKLKGPQKKLRGVKIDIKEISLTGSKNIYDENNNVIGELRSACYSPHFQKVIGIAMIKKSHWEASQGFKIQINDNTINGNVCDLPFI 3tfo-a1-m1-cB_3tfo-a1-m1-cD Crystal structure of a putative 3-oxoacyl-(acyl-carrier-protein) reductase from Sinorhizobium meliloti Q92XI4 Q92XI4 2.08 X-RAY DIFFRACTION 124 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 215 218 3tfo-a1-m1-cA_3tfo-a1-m1-cC MDKVILITGASGGIGEGIARELGVAGAKILLGARRQARIEAIATEIRDAGGTALAQVLDVTDRHSVAAFAQAAVDTWGRIDVLVNNAGVMPLSPLAAVKVDEWERMIDVNIKGVLWGIGAVLPIMEAQRSGQIINIGSIGALSVVPTAAVYCATKFAVRAISDGLRQESTNIRVTCVNPGVVIALQPADIARAVRQVIEAPQSVDTTEITIRPTA MDKVILITGASGGIGEGIARELGVAGAKILLGARRQARIEAIATEIRDAGGTALAQVLDVTDRHSVAAFAQAAVDTWGRIDVLVNNAGVMPLSPLAAVKVDEWERMIDVNIKGVLWGIGAVLPIMEAQRSGQIINIGSIGALSVVPTAAVYCATKFAVRAISDGLRQESTNIRVTCVNPGVVEAIALQPADIARAVRQVIEAPQSVDTTEITIRPTAS 3tfo-a1-m1-cC_3tfo-a1-m1-cD Crystal structure of a putative 3-oxoacyl-(acyl-carrier-protein) reductase from Sinorhizobium meliloti Q92XI4 Q92XI4 2.08 X-RAY DIFFRACTION 87 0.991 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 216 218 3tfo-a1-m1-cB_3tfo-a1-m1-cA DKVILITGASGGIGEGIARELGVAGAKILLGARRQARIEAIATEIRDAGGTALAQVLDVTDRHSVAAFAQAAVDTWGRIDVLVNNAGVMPLSPLAAVKVDEWERMIDVNIKGVLWGIGAVLPIMEAQRSGQIINIGSIGALSVVPTAAVYCATKFAVRAISDGLRQESTNIRVTCVNPGVVALQPADIARAVRQVIEAPQSVDTTEITIRPTASGN MDKVILITGASGGIGEGIARELGVAGAKILLGARRQARIEAIATEIRDAGGTALAQVLDVTDRHSVAAFAQAAVDTWGRIDVLVNNAGVMPLSPLAAVKVDEWERMIDVNIKGVLWGIGAVLPIMEAQRSGQIINIGSIGALSVVPTAAVYCATKFAVRAISDGLRQESTNIRVTCVNPGVVEAIALQPADIARAVRQVIEAPQSVDTTEITIRPTAS 3tfw-a1-m2-cB_3tfw-a1-m1-cA Crystal structure of a putative O-methyltransferase from Klebsiella pneumoniae A6T8J6 A6T8J6 1.88 X-RAY DIFFRACTION 123 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 216 217 HQQQWSAVDNYLIKALIPGDPVLDRVLENNHRAGLPAHDVAANQGQFLALLVRLTQAKRILEIGTLGGYSTIWARELPADGQLLTLEADAHHAQVARENLQLAGVDQRVTLREGPALQSLESLGECPAFDLIFIDADKPNNPHYLRWALRYSRPGTLIIGDNVVRDGEVVNPQSADERVQGVRQFIEGAEPRLTATALQTVGTKGWDGFTLAWVNA HQQQWSAVDNYLIKALIPGDPVLDRVLENNHRAGLPAHDVAANQGQFLALLVRLTQAKRILEIGTLGGYSTIWARELPADGQLLTLEADAHHAQVARENLQLAGVDQRVTLREGPALQSLESLGECPAFDLIFIDADKPNNPHYLRWALRYSRPGTLIIGDNVVRDGEVVNPQSADERVQGVRQFIEGAEPRLTATALQTVGTKGWDGFTLAWVNAA 3tfx-a1-m1-cB_3tfx-a1-m1-cA Crystal structure of Orotidine 5'-phosphate decarboxylase from Lactobacillus acidophilus Q5FJB3 Q5FJB3 2.19 X-RAY DIFFRACTION 103 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 218 225 DRPVIVALDLDNEEQLNKILSKLGDPHDVFVKVGELFYNAGIDVIKKLTQQGYKIFLDLKHDIPNTVYNGAKALAKLGITFTTVHALGGSQIKSAKDGLIAGTPAGHSVPKLLAVTELTSISDDVLRNEQNCRLPAEQVLSLAKAKHSGADGVICSPLEVKKLHENIGDDFLYVTPGIRPATPKAKEWGSSAIVVGRPITLASDPKAAYEAIKKEFNA DRPVIVALDLDNEEQLNKILSKLGDPHDVFVKVGELFYNAGIDVIKKLTQQGYKIFLDLKHDIPNTVYNGAKALAKLGITFTTVHALGGSQIKSAKDGLIAGTPAGHSVPKLLAVTELTSISDDVLRNEQNCRLPAEQVLSLAKAKHSGADGVICSPLEVKKLHENIGDDFLYVTPGIRPATPKAKEWGSSAIVVGRPITLASDPKAAYEAIKKEFNAENLYFQS 3tfz-a1-m1-cB_3tfz-a1-m1-cA Crystal structure of Zhui aromatase/cyclase from Streptomcyes sp. R1128 Q9F6D3 Q9F6D3 2.39 X-RAY DIFFRACTION 24 1.0 140437 (Streptomyces sp. R1128) 140437 (Streptomyces sp. R1128) 165 168 3tfz-a2-m1-cC_3tfz-a2-m1-cD 3tfz-a3-m1-cF_3tfz-a3-m1-cE HMRHVEHTVTVAAPADLVWEVLADVLGYADIFPPTEKVEILEEGQGYQVVRLHVDVAGEINTWTSRRDLDPARRVIAYRQLETAPIVGHMSGEWRAFTLDAERTQLVLTHDFVTRAAGDDGLVAGKLTPDEAREMLEAVVERNSVADLNAVLGEAERRVRAAGGV HMRHVEHTVTVAAPADLVWEVLADVLGYADIFPPTEKVEILEEGQGYQVVRLHVDVAGEINTWTSRRDLDPARRVIAYRQLETAPIVGHMSGEWRAFTLDAERTQLVLTHDFVTRAAGDDGLVAGKLTPDEAREMLEAVVERNSVADLNAVLGEAERRVRAAGGVGTV 3tg2-a1-m1-cA_3tg2-a1-m2-cA Crystal structure of the ISC domain of VibB in complex with isochorismate P0C6D3 P0C6D3 1.101 X-RAY DIFFRACTION 54 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 205 205 3tb4-a1-m1-cA_3tb4-a1-m2-cA AIPKIASYPLPVSLPTNKVDWRIDASRAVLLIHNMQEYFVHYFDSQAEPIPSLIKHIQQLKAHAKQAGIPVVYTAQPANQDPAERALLSDFWGPGLSEETAIIAPLAPESGDVQLTKWRYSAFKKSPLLDWLRETGRDQLIITGVYAHIGILSTALDAFMFDIQPFVIGDGVADFSLSDHEFSLRYISGRTGAVKSTQQACLEIA AIPKIASYPLPVSLPTNKVDWRIDASRAVLLIHNMQEYFVHYFDSQAEPIPSLIKHIQQLKAHAKQAGIPVVYTAQPANQDPAERALLSDFWGPGLSEETAIIAPLAPESGDVQLTKWRYSAFKKSPLLDWLRETGRDQLIITGVYAHIGILSTALDAFMFDIQPFVIGDGVADFSLSDHEFSLRYISGRTGAVKSTQQACLEIA 3tg3-a2-m1-cB_3tg3-a2-m1-cC Crystal structure of the MAPK binding domain of MKP7 Q9BY84 Q9BY84 2.675 X-RAY DIFFRACTION 89 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 3tg3-a1-m1-cD_3tg3-a1-m1-cA GTQIVTERLVALLESGTEKVLLIDSRPFVEYNTSHILEAININCSKLMKRRLQQDKVLITELIQHSADIDCSQKVVVYDQSSQDVASLSSDCFLTVLLGKLEKSFNSVHLLAGGFAEFSRCFPGLCEG TQIVTERLVALLESGTEKVLLIDSRPFVEYNTSHILEAININCSKLMKRRLQQDKVLITELIQHSAVDIDCSQKVVVYDQSSQDVASLSSDCFLTVLLGKLEKSFNSVHLLAGGFAEFSRCFPGLCEG 3tg9-a1-m1-cA_3tg9-a1-m1-cB The crystal structure of penicillin binding protein from Bacillus halodurans Q9KAM0 Q9KAM0 2.2 X-RAY DIFFRACTION 61 0.991 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 322 326 MKNHLHTIMEDWKLSGTALMKKGEDIPFIASLGFANRAERIPNEHHTRFGIASGCKLFTAIAICQLVEAGKLSFDTPLSDWLDAPFPNVTIHHLLTHTSGVPDYFDEDLWKDVPMYHLRRLKDFLPLFQHAPMKFPPGHRFHYNNAGFILLGLVVESVSGVTFQEYVEANVFQRAGMHESGYFAFDTLPAKTALGYIDLEDGSWKTNLYSLPVIGGSDGGAYVTAEDMMKLWLALMRHELLNETYTQKLLTPHVHCEDDDYYGYGVWIKQQDGAISKYHVMGYDPGVCFHSAFYPTSNGIVVVCANQSSGAYDVMAAIEALF HLHTIMEDWKLSGTALMKKGEDIPFIASLGFANRAERIPNEHHTRFGIASGCKLFTAIAICQLVEAGKLSFDTPLSDWLDAPFPNVTIHHLLTHTSGVPDYFDEEITDDFEDLWKDVPMYHLRRLKDFLPLFQHAPMKFPPGHRFHYNNAGFILLGLVVESVSGVTFQEYVEANVFQRAGMHESGYFAFDTLPAKTALGYIDLEDGSWKTNLYSLPVIGGSDGGAYVTAEDMMKLWLALMRHELLNETYTQKLLTPHVHCEDDDYYGYGVWIKQQDGAISKYHVMGYDPGVCFHSAFYPTSNGIVVVCANQSSGAYDVMAAIEALF 3tgn-a1-m1-cA_3tgn-a1-m1-cB Crystal Structure of the zinc-dependent MarR Family Transcriptional Regulator AdcR in the Zn(II)-bound State Q04I02 Q04I02 2 X-RAY DIFFRACTION 152 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 135 146 MRQLAKDINAFLNEVILQAENQHEILIGHCTSEVALTNTQEHILMLLSEESLTNSELARRLNVSQAAVTKAIKSLVKEGMLETFYQLTDLARPIAEEHHHHHEHTLLTYEQVATQFTPNEQKVIQRFLTALVGEI MRQLAKDINAFLNEVILQAENQHEILIGHCTSEVALTNTQEHILMLLSEESLTNSELARRLNVSQAAVTKAIKSLVKEGMLETSKDSKDARVIFYQLTDLARPIAEEHHHHHEHTLLTYEQVATQFTPNEQKVIQRFLTALVGEIK 3tgo-a4-m1-cA_3tgo-a4-m2-cB Crystal structure of the E. coli BamCD complex P0AC02 P0AC02 2.9 X-RAY DIFFRACTION 65 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 217 218 3tgo-a4-m2-cA_3tgo-a4-m1-cB EVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSALQGFFGVDRSDRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANS EVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSALQGFFGVDRSDRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSS 3tgo-a4-m1-cB_3tgo-a4-m2-cB Crystal structure of the E. coli BamCD complex P0AC02 P0AC02 2.9 X-RAY DIFFRACTION 24 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 218 218 3tgo-a4-m1-cA_3tgo-a4-m2-cA EVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSALQGFFGVDRSDRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSS EVPDNPPNEIYATAQQKLQDGNWRQAITQLEALDNRYPFGPYSQQVQLDLIYAYYKNADLPLAQAAIDRFIRLNPTHPNIDYVMYMRGLTNMALDDSALQGFFGVDRSDRDPQHARAAFSDFSKLVRGYPNSQYTTDATKRLVFLKDRLAKYEYSVAEYYTERGAWVAVVNRVEGMLRDYPDTQATRDALPLMENAYRQMQMNAQAEKVAKIIAANSS 3tgq-a6-m1-cB_3tgq-a6-m2-cD Crystal structure of unliganded HIV-1 clade B strain YU2 gp120 core P35961 P35961 3.4 X-RAY DIFFRACTION 34 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 336 336 3tgq-a5-m1-cA_3tgq-a5-m1-cC WKEATTTLFCASDAKAYDTEVHNVWATHACVPTDPNPQEVKLENVTENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTGGSVITQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTNNAKTIIVQLNESVVINCTRPNNGDIRQAHCNLSKTQWENTLEQIAIKLKEQFGNNKTIIFNPSSGGDPEIVTHSFNCGGEFFYCNSTQLFTWNDTGRNITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGNGTEIFRPGGGDMRDNWRSELYKYKVVKIE WKEATTTLFCASDAKAYDTEVHNVWATHACVPTDPNPQEVKLENVTENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTGGSVITQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTNNAKTIIVQLNESVVINCTRPNNGDIRQAHCNLSKTQWENTLEQIAIKLKEQFGNNKTIIFNPSSGGDPEIVTHSFNCGGEFFYCNSTQLFTWNDTGRNITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGNGTEIFRPGGGDMRDNWRSELYKYKVVKIE 3tgu-a1-m1-cB_3tgu-a1-m1-cO Cytochrome bc1 complex from chicken with pfvs-designed moa inhibitor bound D0VX29 D0VX29 2.7 X-RAY DIFFRACTION 31 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 421 422 3cwb-a1-m1-cB_3cwb-a1-m1-cO 3h1h-a1-m1-cB_3h1h-a1-m1-cO 3h1i-a1-m1-cB_3h1i-a1-m1-cO 3h1j-a1-m1-cB_3h1j-a1-m1-cO 3h1k-a1-m1-cO_3h1k-a1-m1-cB 3h1l-a1-m1-cB_3h1l-a1-m1-cO 3l70-a1-m1-cB_3l70-a1-m1-cO 3l71-a1-m1-cB_3l71-a1-m1-cO 3l72-a1-m1-cB_3l72-a1-m1-cO 3l73-a1-m1-cB_3l73-a1-m1-cO 3l74-a1-m1-cB_3l74-a1-m1-cO 3l75-a1-m1-cB_3l75-a1-m1-cO 4u3f-a1-m1-cB_4u3f-a1-m1-cO PGAEDLEITKLPNGLIIASLENFSPASRIGVFIKAGSRYETTANLGTAHLLRLASPLTTKGASSFRITRGIEAVGGSLSVYSTREKMTYCVECLRDHVDTVMEYLLNVTTAPEFRPWEVTDLQPQLKVDKAVAFQSPQVGVLENLHAAAYKTALANPLYCPDYRIGKITSEQLHHFVQNNFTSARMALVGIGVKHSDLKQVAEQFLNIRSGAGTSSAKATYWGGEIREQNGHSLVHAAVVTEGAAVGSAEANAFSVLQHVLGAGPLIKRGSSVTSKLYQGVAKATTQPFDASAFNVNYSDSGLFGFYTISQAAHAGEVIRAAMNQLKAAAQGGVTEEDVTKAKNQLKATYLMSVETAQGLLNEIGSEALLSGTHTAPSVVAQKIDSVTSADVVNAAKKFVSGKKSMAASGDLGSTPFLDEL CPGAEDLEITKLPNGLIIASLENFSPASRIGVFIKAGSRYETTANLGTAHLLRLASPLTTKGASSFRITRGIEAVGGSLSVYSTREKMTYCVECLRDHVDTVMEYLLNVTTAPEFRPWEVTDLQPQLKVDKAVAFQSPQVGVLENLHAAAYKTALANPLYCPDYRIGKITSEQLHHFVQNNFTSARMALVGIGVKHSDLKQVAEQFLNIRSGAGTSSAKATYWGGEIREQNGHSLVHAAVVTEGAAVGSAEANAFSVLQHVLGAGPLIKRGSSVTSKLYQGVAKATTQPFDASAFNVNYSDSGLFGFYTISQAAHAGEVIRAAMNQLKAAAQGGVTEEDVTKAKNQLKATYLMSVETAQGLLNEIGSEALLSGTHTAPSVVAQKIDSVTSADVVNAAKKFVSGKKSMAASGDLGSTPFLDEL 3tgu-a1-m1-cD_3tgu-a1-m1-cQ Cytochrome bc1 complex from chicken with pfvs-designed moa inhibitor bound D0VX26 D0VX26 2.7 X-RAY DIFFRACTION 31 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 241 241 3cwb-a1-m1-cD_3cwb-a1-m1-cQ 3h1h-a1-m1-cD_3h1h-a1-m1-cQ 3h1i-a1-m1-cD_3h1i-a1-m1-cQ 3h1j-a1-m1-cD_3h1j-a1-m1-cQ 3h1k-a1-m1-cD_3h1k-a1-m1-cQ 3h1l-a1-m1-cD_3h1l-a1-m1-cQ 3l70-a1-m1-cD_3l70-a1-m1-cQ 3l71-a1-m1-cD_3l71-a1-m1-cQ 3l72-a1-m1-cD_3l72-a1-m1-cQ 3l73-a1-m1-cD_3l73-a1-m1-cQ 3l74-a1-m1-cD_3l74-a1-m1-cQ 3l75-a1-m1-cD_3l75-a1-m1-cQ 4u3f-a1-m1-cD_4u3f-a1-m1-cQ GELELHPPAFPWSHGGPLSALDHSSVRRGFQVYKQVCSACHSMDYVAFRNLIGVTHTEAEAKALAEEVEVQDGPDENGELFMRPGKISDYFPKPYPNPEAARAANNGALPPDLSYIVNARHGGEDYVFSLLTGYCDPPAGVVVREGLHYNPYFPGQAIGMAPPIYNEILEYDDGTPATMSQIAKDVCTFLRWAAEPEHDQRKRMGLKMLLISALLTSLLYYMKRHKWSVLKSRKMAYRPPK GELELHPPAFPWSHGGPLSALDHSSVRRGFQVYKQVCSACHSMDYVAFRNLIGVTHTEAEAKALAEEVEVQDGPDENGELFMRPGKISDYFPKPYPNPEAARAANNGALPPDLSYIVNARHGGEDYVFSLLTGYCDPPAGVVVREGLHYNPYFPGQAIGMAPPIYNEILEYDDGTPATMSQIAKDVCTFLRWAAEPEHDQRKRMGLKMLLISALLTSLLYYMKRHKWSVLKSRKMAYRPPK 3tgv-a2-m1-cC_3tgv-a2-m1-cD Crystal structure of HutZ,the heme storsge protein from Vibrio cholerae A0A0H3AGE3 A0A0H3AGE3 1.999 X-RAY DIFFRACTION 108 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 142 142 3tgv-a1-m1-cA_3tgv-a1-m1-cB MRLEPEIKEFRQERKTLQLATVDAQGRPNVSYAPFVQNQEGYFVLISHIARHARNLEVNPQVSIMMIEDETEAKQLFARKRLTFDAVASMVERDSELWCQVIAQMGERFGEIIDGLSQLQDFMLFRLQPEQGLFVKGFGLEH MRLEPEIKEFRQERKTLQLATVDAQGRPNVSYAPFVQNQEGYFVLISHIARHARNLEVNPQVSIMMIEDETEAKQLFARKRLTFDAVASMVERDSELWCQVIAQMGERFGEIIDGLSQLQDFMLFRLQPEQGLFVKGFGLEH 3tgw-a1-m1-cB_3tgw-a1-m1-cA Crystal structure of subunit B mutant H156A of the A1AO ATP synthase Q60187 Q60187 1.75 X-RAY DIFFRACTION 165 0.993 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 441 445 2c61-a1-m1-cB_2c61-a1-m1-cA 2rkw-a1-m1-cA_2rkw-a1-m1-cB 3b2q-a1-m1-cB_3b2q-a1-m1-cA 3dsr-a1-m1-cA_3dsr-a1-m1-cB 3eiu-a1-m1-cA_3eiu-a1-m1-cB 3ssa-a1-m1-cB_3ssa-a1-m1-cA 3tiv-a1-m1-cB_3tiv-a1-m1-cA QIAGPLIFVEKTEPVGYNEIVNIKMGDGTVRRGQVLDSSADIVVVQVFEGTGGVIFTGETLKLPASVDLLGRILSGSGEPRDGGPRIVPDQLLDINGAAMNPYARLPPKDFIQTGISTIDGTNTLVRGQKLPIFSASGLPANEIALQIARQASVPGSESAFAVVFAAMGITNEEAQYFMSDFEKTGALERAVVFLNLADDPAVERIVTPRMALTAAEYLAYEHGMHVLVILTDITNYAEALRQMGAAPGRRGYPGYMYTDLATLYERAGIVKGAKGSVTQIPILSMPGDDITHPIPDLSGYITEGQIVVARELHRKGIYPPINVLPSLSRLMNSGIGAGKTREDHKAVSDQMYAGYAEGRDLRGLVAIVGKEALSERDTKFLEFADLFEDKFVRQGRNENRTIEDTLEIGWQILTHLPENQLGRIDNKYIQKYHPAHRKAK IAGPLIFVEKTEPVGYNEIVNIKMGDGTVRRGQVLDSSADIVVVQVFEGTGGDCGVIFTGETLKLPASVDLLGRILSGSGEPRDGGPRIVPDQLLDINGAAMNPYARLPPKDFIQTGISTIDGTNTLVRGQKLPIFSASGLPANEIALQIARQASVPGSESAFAVVFAAMGITNEEAQYFMSDFEKTGALERAVVFLNLADDPAVERIVTPRMALTAAEYLAYEHGMHVLVILTDITNYAEALRQMGAARNEVPGRRGYPGYMYTDLATLYERAGIVKGAKGSVTQIPILSMPGDDITHPIPDLSGYITEGQIVVARELHRKGIYPPINVLPSLSRLMNSGIGAGKTREDHKAVSDQMYAGYAEGRDLRGLVAIVGKEALSERDTKFLEFADLFEDKFVRQGRNENRTIEDTLEIGWQILTHLPENQLGRIDNKYIQKYHPAHRK 3th1-a2-m3-cC_3th1-a2-m1-cB Crystal structure of chlorocatechol 1,2-dioxygenase from Pseudomonas putida P11451 P11451 3.4 X-RAY DIFFRACTION 143 0.987 303 (Pseudomonas putida) 303 (Pseudomonas putida) 238 243 3th1-a1-m1-cA_3th1-a1-m2-cA MDKRVAEVAGAIVEAVRKILLDKRVTEAEYRAGVDYLTEVAQTRETALLLDVFLNSTIIEGKAQRSRTSAPAIQGPYFEGAPVVLKTYDTDDHKPLIIRGTVRSDTGELLAGAVIDVWHSTPDGLYSGIHIPVDYYRGKLVTDSQGNYRVRTTMPVPYQIPYEGPTGRLLGHLGSHTWRPAHVHFKVRKDGFEPLTTQYYFEGGKWVDDDCCHGVTPDLITPETIEDRVMTLDFVIER MDKRVAEVAGAIVEAVRKILLDKRVTEAEYRAGVDYLTEVAQTRETALLLDVFLNSTIIEGKAQRSRTSAPAIQGPYFLEGAPVVEGVLKTYDTDDHKPLIIRGTVRSDGELLAGAVIDVWHSTPDGLYSGIHDNIPVDYYRGKLVTDSQGNYRVRTTMPVPYQIPYEGPTGRLLGHLGSHTWRPAHVHFKVDGFEPLTTQYYFEGGKWVDDDCCHGVTPDLITPETIEDGVRVMTLDFVIER 3th6-a1-m1-cB_3th6-a1-m1-cA Crystal structure of Triosephosphate isomerase from Rhipicephalus (Boophilus) microplus. A8B3A8 A8B3A8 2.4 X-RAY DIFFRACTION 121 1.0 6941 (Rhipicephalus microplus) 6941 (Rhipicephalus microplus) 241 244 ARRFCVGGNWKMHGSKNSIRDICNTLKGASLDPNVEVIVACPAPYLDYCRSLLPPSVALAAQNCYKVEQGAFTGEISPGMIKDCGGQWVILGHSERRHVFKEDDVLIGEKIKHALESGLNVIACIGELLEDREAGRTEEVCFRQIKHIASNVKDWSKVVIAYEPVWAIATPDQAQEVHSKVRNWLSTNVSADVASKVRIQYGGSVNAGNCKELGRKPDIDGFLVGGASLKPEFVQIINAMQ ARRFCVGGNWKMHGSKNSIRDICNTLKGASLDPNVEVIVACPAPYLDYCRSLLPPSVALAAQNCYKVEQGAFTGEISPGMIKDCGGQWVILGHSERRHVFKEDDVLIGEKIKHALESGLNVIACIGELLEDREAGRTEEVCFRQIKHIASNVKDWSKVVIAYEPVWAIGTATPDQAQEVHSKVRNWLSTNVSADVASKVRIQYGGSVNAGNCKELGRKPDIDGFLVGGASLKPEFVQIINAMQG 3tha-a1-m1-cA_3tha-a1-m1-cB Tryptophan synthase subunit alpha from Campylobacter jejuni. Q9PIF1 Q9PIF1 2.37 X-RAY DIFFRACTION 137 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 244 245 AVDFRKFYKENANVAYTVLGYPNLQTSEAFLQRLDQSPIDILELGVAYSDPIADGEIIADAAKIALDQGVDIHSVFELLARIKTKKALVFVYYNLIFSYGLEKFVKKAKSLGICALIVPELSFEESDDLIKECERYNIALITLVSVTTPKERVKKLVKHAKGFIYLLASIGITGTKSVEEAILQDKVKEIRSFTNLPIFVGFGIQNNQDVKRRKVADGVIVGTSIVKCFKQGNLDIIKDIEEIF AVDFRKFYKENANVAYTVLGYPNLQTSEAFLQRLDQSPIDILELGVAYSDPIADGEIIADAAKIALDQGVDIHSVFELLARIKTKKALVFVYYNLIFSYGLEKFVKKAKSLGICALIVPELSFEESDDLIKECERYNIALITLVSVTTPKERVKKLVKHAKGFIYLLASIGITGTKSVEEAILQDKVKEIRSFTNLPIFVGFGIQNNQDVKRRKVADGVIVGTSIVKCFKQGNLDIIKDIEEIFK 3thd-a2-m1-cC_3thd-a2-m1-cB Crystal structure of human beta-galactosidase in complex with 1-deoxygalactonojirimycin P16278 P16278 1.79 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 602 605 3thc-a1-m1-cD_3thc-a1-m1-cA 3thc-a2-m1-cC_3thc-a2-m1-cB 3thd-a1-m1-cD_3thd-a1-m1-cA 3wez-a1-m1-cD_3wez-a1-m1-cA 3wez-a2-m1-cC_3wez-a2-m1-cB 3wf0-a1-m1-cD_3wf0-a1-m1-cA 3wf0-a2-m1-cC_3wf0-a2-m1-cB 3wf1-a1-m1-cD_3wf1-a1-m1-cA 3wf1-a2-m1-cC_3wf1-a2-m1-cB 3wf2-a1-m1-cD_3wf2-a1-m1-cA 3wf2-a2-m1-cC_3wf2-a2-m1-cB 3wf3-a1-m1-cD_3wf3-a1-m1-cA 3wf3-a2-m1-cC_3wf3-a2-m1-cB 3wf4-a1-m1-cD_3wf4-a1-m1-cA 3wf4-a2-m1-cC_3wf4-a2-m1-cB QRMFEIDYSRDSFLKDGQPFRYISGSIHYSRVPRFYWKDRLLKMKMAGLNAIQTYVPWNFHEPWPGQYQFSEDHDVEYFLRLAHELGLLVILRPGPYICAEWEMGGLPAWLLEKESILLRSSDPDYLAAVDKWLGVLLPKMKPLLYQNGGPVITVQVENEYGSYFACDFDYLRFLQKRFRHHLGDDVVLFTTDGAHKTFLKCGALQGLYTTVDFGTGSNITDAFLSQRKCEPKGPLINSEFYTGWLDHWGQPHSTIKTEAVASSLYDILARGASVNLYMFIGGTNFAYWNGANSPYAAQPTSYDYDAPLSEAGDLTEKYFALRNIIQKFEKVPEGPIPPSTPKFAYGKVTLEKLKTVGAALDILCPSGPIKSLYPLTFIQVKQHYGFVLYRTTLPQDCSNPAPLSSPLNGVHDRAYVAVDGIPQGVLERNNVITLNITGKAGATLDLLVENMGRVNYGAYINDFKGLVSNLTLSSNILTDWTIFPLDTEDAVRSHLGGWNYTLPAFYMGNFSIPSGIPDLPQDTFIQFPGWTKGQVWINGFNLGRYWPARGPQLTLFVPQHILMTSAPNTITVLELEWAPCSSDDPELCAVTFVDRPVIGSS QRMFEIDYSRDSFLKDGQPFRYISGSIHYSRVPRFYWKDRLLKMKMAGLNAIQTYVPWNFHEPWPGQYQFSEDHDVEYFLRLAHELGLLVILRPGPYICAEWEMGGLPAWLLEKESILLRSSDPDYLAAVDKWLGVLLPKMKPLLYQNGGPVITVQVENEYGSYFACDFDYLRFLQKRFRHHLGDDVVLFTTDGAHKTFLKCGALQGLYTTVDFGTGSNITDAFLSQRKCEPKGPLINSEFYTGWLDHWGQPHSTIKTEAVASSLYDILARGASVNLYMFIGGTNFAYWNGANSPYAAQPTSYDYDAPLSEAGDLTEKYFALRNIIQKFEKVPEGPIPPSTPKFAYGKVTLEKLKTVGAALDILCPSGPIKSLYPLTFIQVKQHYGFVLYRTTLPQDCSNPAPLSSPLNGVHDRAYVAVDGIPQGVLERNNVITLNITGKAGATLDLLVENMGRVNYGAYINDFKGLVSNLTLSSNILTDWTIFPLDTEDAVRSHLGGWGHRNYTLPAFYMGNFSIPSGIPDLPQDTFIQFPGWTKGQVWINGFNLGRYWPARGPQLTLFVPQHILMTSAPNTITVLELEWAPCSSDDPELCAVTFVDRPVIGSS 3thf-a2-m2-cB_3thf-a2-m1-cA Crystal structure of the SD2 domain from Drosophila Shroom A1Z9P3 A1Z9P3 2.6951 X-RAY DIFFRACTION 18 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 174 175 3thf-a2-m1-cB_3thf-a2-m2-cA NLIKQKMDELIKHLNQKIVSLKREQQTISEECSANDRLGQDLFAKLAEKVRPSEASKFRTHVDAVGNITSLLLSLSERLAQTESSLETRQQERGALESKRDLLYEQMEEAQRLKSDIERRGVSIAGLLAKNLSADMCADYDYFINMKAKLIADARDLAVRIKGSEEQLSSLSDA TNLIKQKMDELIKHLNQKIVSLKREQQTISEECSANDRLGQDLFAKLAEKVRPSEASKFRTHVDAVGNITSLLLSLSERLAQTESSLETRQQERGALESKRDLLYEQMEEAQRLKSDIERRGVSIAGLLAKNLSADMCADYDYFINMKAKLIADARDLAVRIKGSEEQLSSLSDA 3thf-a2-m2-cB_3thf-a2-m2-cA Crystal structure of the SD2 domain from Drosophila Shroom A1Z9P3 A1Z9P3 2.6951 X-RAY DIFFRACTION 250 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 174 175 3thf-a1-m1-cB_3thf-a1-m1-cA 3thf-a2-m1-cB_3thf-a2-m1-cA NLIKQKMDELIKHLNQKIVSLKREQQTISEECSANDRLGQDLFAKLAEKVRPSEASKFRTHVDAVGNITSLLLSLSERLAQTESSLETRQQERGALESKRDLLYEQMEEAQRLKSDIERRGVSIAGLLAKNLSADMCADYDYFINMKAKLIADARDLAVRIKGSEEQLSSLSDA TNLIKQKMDELIKHLNQKIVSLKREQQTISEECSANDRLGQDLFAKLAEKVRPSEASKFRTHVDAVGNITSLLLSLSERLAQTESSLETRQQERGALESKRDLLYEQMEEAQRLKSDIERRGVSIAGLLAKNLSADMCADYDYFINMKAKLIADARDLAVRIKGSEEQLSSLSDA 3thg-a2-m1-cA_3thg-a2-m2-cA Crystal structure of the creosote Rubisco activase C-domain Q7X9A0 Q7X9A0 1.88 X-RAY DIFFRACTION 55 1.0 66636 (Larrea tridentata) 66636 (Larrea tridentata) 99 99 PFTREDRIGVCKGIFRTDNVADDDIVKLVDTFPGQSIDFFGALRARVYDDEVRKWVSEVGVDTIGKKLVNSKEGPPSFEQPKMTIDKLLGYGGMLVQEQ PFTREDRIGVCKGIFRTDNVADDDIVKLVDTFPGQSIDFFGALRARVYDDEVRKWVSEVGVDTIGKKLVNSKEGPPSFEQPKMTIDKLLGYGGMLVQEQ 3thn-a1-m1-cA_3thn-a1-m2-cA Crystal structure of Mre11 core with manganese Q9X1X0 Q9X1X0 2.811 X-RAY DIFFRACTION 149 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 313 313 MKILHTSDWHLGVTSWTSSRPVDRREELKKALDKVVEEAEKREVDLILLTGDLLHSRNNPSVVALHDLLDYLKRMMRTAPVVVLPGNQDWKGLKLFGNFVTSISSDITFVMSFEPVDVEAKRGQKVRILPFPYPDESEALRKNEGDFRFFLESRLNKLYEEALKKEDFAIFMGHFTVEGLAGYAGREIIINRALIPSVVDYAALGHIHSFREIQKQPLTIYPGSLIRIDFGEEADEKGAVFVELKRGEPPRYERIDASPLPLKTLYYKKIDTSALKSIRDSCRNFPGYVRVVYEEDSLPDLMGEIDNLVKIER MKILHTSDWHLGVTSWTSSRPVDRREELKKALDKVVEEAEKREVDLILLTGDLLHSRNNPSVVALHDLLDYLKRMMRTAPVVVLPGNQDWKGLKLFGNFVTSISSDITFVMSFEPVDVEAKRGQKVRILPFPYPDESEALRKNEGDFRFFLESRLNKLYEEALKKEDFAIFMGHFTVEGLAGYAGREIIINRALIPSVVDYAALGHIHSFREIQKQPLTIYPGSLIRIDFGEEADEKGAVFVELKRGEPPRYERIDASPLPLKTLYYKKIDTSALKSIRDSCRNFPGYVRVVYEEDSLPDLMGEIDNLVKIER 3thp-a3-m1-cA_3thp-a3-m4-cA Crystal structure and RNA binding properties of the RRM/AlkB domains in human ABH8, an enzyme catalyzing tRNA hypermodification, Northeast Structural Genomics Consortium Target HR5601B Q96BT7 Q96BT7 3.2 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 3thp-a2-m1-cA_3thp-a2-m4-cA 3thp-a2-m2-cA_3thp-a2-m3-cA 3tht-a5-m1-cA_3tht-a5-m2-cB 3tht-a5-m2-cA_3tht-a5-m1-cB 3tht-a7-m1-cC_3tht-a7-m3-cC 3tht-a7-m1-cD_3tht-a7-m3-cD TLLRHEGIETVSYATQSLVVANGGLGNGVSRNQLLPVLEKCGLVDALLPPNKPYSFARYRTTEESKRAYVTLNGKEVVDDLGQKITLYLNFVEKVQWKELRPQALPPGLVVEEIISSEEEKLLESVRRVKHFGYKDKPLSGGLPDICESFLEKWLRKGYIKHKPDQTINQYEPGQGIPAHIDTHSAFEDEIVSLSLGSEIVDFKHPDGIAVPVLPRRSLLVTGESRYLWTHGITCRKFDTVQASEKSGIITSDVGDLTLSKRGLRTSFTFRKVRQTPCNCSYPLVCDSQRKENLYFQ TLLRHEGIETVSYATQSLVVANGGLGNGVSRNQLLPVLEKCGLVDALLPPNKPYSFARYRTTEESKRAYVTLNGKEVVDDLGQKITLYLNFVEKVQWKELRPQALPPGLVVEEIISSEEEKLLESVRRVKHFGYKDKPLSGGLPDICESFLEKWLRKGYIKHKPDQTINQYEPGQGIPAHIDTHSAFEDEIVSLSLGSEIVDFKHPDGIAVPVLPRRSLLVTGESRYLWTHGITCRKFDTVQASEKSGIITSDVGDLTLSKRGLRTSFTFRKVRQTPCNCSYPLVCDSQRKENLYFQ 3tht-a6-m1-cA_3tht-a6-m1-cB Crystal structure and RNA binding properties of the RRM/AlkB domains in human ABH8, an enzyme catalyzing tRNA hypermodification, Northeast Structural Genomics Consortium Target HR5601B Q96BT7 Q96BT7 3.01 X-RAY DIFFRACTION 68 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 302 312 3thp-a2-m1-cA_3thp-a2-m3-cA 3thp-a2-m2-cA_3thp-a2-m4-cA 3tht-a5-m1-cA_3tht-a5-m1-cB 3tht-a5-m2-cA_3tht-a5-m2-cB 3tht-a7-m1-cC_3tht-a7-m1-cD 3tht-a7-m3-cC_3tht-a7-m3-cD 3tht-a8-m1-cC_3tht-a8-m1-cD TLLRHEGIETVSYATQSLVVANGGLGNGVSRNQLLPVLEKCGLVDALLMPPNKPYSFARYRTTEESKRAYVTLNGKEVVDDLGQKITLYLNFVEKVQWKELRPQALPPGLMVVEEIISSEEEKMLLESVDRRVKHFGGLPDICESFLEKWLRKGYIKHKPDQMTINQYEPGQGIPAHIDTHSAFEDEIVSLSLGSEIVMDFKHPDGIAVPVMLPRRSLLVMTGESRYLWTHGITCRKFDTVQASESLKSGIITSDVGDLTLSKRGLRTSFTFRKVRQTPCNCSYPLVCDSQRKENLYFQGLE TLLRHEGIETVSYATQSLVVANGGLGNGVSRNQLLPVLEKCGLVDALLMPPNKPYSFARYRTTEESKRAYVTLNGKEVVDDLGQKITLYLNFVEKVQWKELRPQALPPGLMVVEEIISSEEEKMLLESVDWRRVKHFGYEFNVDKDKPLSGGLPDICESFLEKWLRKGYIKHKPDQMTINQYEPGQGIPAHIDTHSAFEDEIVSLSLGSEIVMDFKHPDGIAVPVMLPRRSLLVMTGESRYLWTHGITCRKFDTVQALKSGIITSDVGDLTLSKRGLRTSFTFRKVRQTPCNCSYPLVCDSQRKENLYFQGL 3thu-a2-m11-cB_3thu-a2-m9-cC Crystal structure of an enolase from sphingomonas sp. ska58 (efi target efi-501683) with bound mg Q1NAJ2 Q1NAJ2 1.8 X-RAY DIFFRACTION 72 1.0 314266 (Sphingomonas sp. SKA58) 314266 (Sphingomonas sp. SKA58) 404 404 3thu-a1-m1-cA_3thu-a1-m7-cA 3thu-a1-m2-cA_3thu-a1-m8-cA 3thu-a1-m3-cA_3thu-a1-m5-cA 3thu-a1-m4-cA_3thu-a1-m6-cA 3thu-a2-m10-cC_3thu-a2-m9-cB 3thu-a2-m1-cB_3thu-a2-m11-cC 3thu-a2-m1-cC_3thu-a2-m10-cB MMPKIIDAKVIITCPGRNFVTLKIMTDEGVYGLGDATLNGRELAVASYLTDHVIPCLIGRDAHRIEDLWQYLYKGAYWRRGPVTMTAIAAVDMALWDIKGKIAGLPVYQLLGGASREGVMVYGHANGTTIEDTVKVALDYQAQGYKAIRLQCGVPGMASTYGVSKDKYFYEPADADLPTENIWNTSKYLRIVPELFKAARESLGWDVHLLHDIHHRLTPIEAGRLGQDLEPYRPFWLEDATPAENQEAFRLIRQHTTAPLAVGEIFNSIWDAKDLIQNQLIDYIRATVVHAGGITHLRRIAALADLYQIRTGCHGATDLSPVCMAAALHFDLSVPNFGIQEYMRHMPETDAVFPHAYTFADGMMHPGDQPGLGVDIDEDLAAGYEYKRAFLPVNRLEDGTMFNW MMPKIIDAKVIITCPGRNFVTLKIMTDEGVYGLGDATLNGRELAVASYLTDHVIPCLIGRDAHRIEDLWQYLYKGAYWRRGPVTMTAIAAVDMALWDIKGKIAGLPVYQLLGGASREGVMVYGHANGTTIEDTVKVALDYQAQGYKAIRLQCGVPGMASTYGVSKDKYFYEPADADLPTENIWNTSKYLRIVPELFKAARESLGWDVHLLHDIHHRLTPIEAGRLGQDLEPYRPFWLEDATPAENQEAFRLIRQHTTAPLAVGEIFNSIWDAKDLIQNQLIDYIRATVVHAGGITHLRRIAALADLYQIRTGCHGATDLSPVCMAAALHFDLSVPNFGIQEYMRHMPETDAVFPHAYTFADGMMHPGDQPGLGVDIDEDLAAGYEYKRAFLPVNRLEDGTMFNW 3thu-a2-m11-cC_3thu-a2-m9-cC Crystal structure of an enolase from sphingomonas sp. ska58 (efi target efi-501683) with bound mg Q1NAJ2 Q1NAJ2 1.8 X-RAY DIFFRACTION 50 1.0 314266 (Sphingomonas sp. SKA58) 314266 (Sphingomonas sp. SKA58) 404 404 3thu-a1-m1-cA_3thu-a1-m3-cA 3thu-a1-m1-cA_3thu-a1-m4-cA 3thu-a1-m2-cA_3thu-a1-m3-cA 3thu-a1-m2-cA_3thu-a1-m4-cA 3thu-a1-m5-cA_3thu-a1-m7-cA 3thu-a1-m5-cA_3thu-a1-m8-cA 3thu-a1-m6-cA_3thu-a1-m7-cA 3thu-a1-m6-cA_3thu-a1-m8-cA 3thu-a2-m10-cB_3thu-a2-m9-cB 3thu-a2-m10-cC_3thu-a2-m9-cC 3thu-a2-m11-cB_3thu-a2-m9-cB 3thu-a2-m1-cB_3thu-a2-m10-cB 3thu-a2-m1-cB_3thu-a2-m11-cB 3thu-a2-m1-cC_3thu-a2-m10-cC 3thu-a2-m1-cC_3thu-a2-m11-cC MMPKIIDAKVIITCPGRNFVTLKIMTDEGVYGLGDATLNGRELAVASYLTDHVIPCLIGRDAHRIEDLWQYLYKGAYWRRGPVTMTAIAAVDMALWDIKGKIAGLPVYQLLGGASREGVMVYGHANGTTIEDTVKVALDYQAQGYKAIRLQCGVPGMASTYGVSKDKYFYEPADADLPTENIWNTSKYLRIVPELFKAARESLGWDVHLLHDIHHRLTPIEAGRLGQDLEPYRPFWLEDATPAENQEAFRLIRQHTTAPLAVGEIFNSIWDAKDLIQNQLIDYIRATVVHAGGITHLRRIAALADLYQIRTGCHGATDLSPVCMAAALHFDLSVPNFGIQEYMRHMPETDAVFPHAYTFADGMMHPGDQPGLGVDIDEDLAAGYEYKRAFLPVNRLEDGTMFNW MMPKIIDAKVIITCPGRNFVTLKIMTDEGVYGLGDATLNGRELAVASYLTDHVIPCLIGRDAHRIEDLWQYLYKGAYWRRGPVTMTAIAAVDMALWDIKGKIAGLPVYQLLGGASREGVMVYGHANGTTIEDTVKVALDYQAQGYKAIRLQCGVPGMASTYGVSKDKYFYEPADADLPTENIWNTSKYLRIVPELFKAARESLGWDVHLLHDIHHRLTPIEAGRLGQDLEPYRPFWLEDATPAENQEAFRLIRQHTTAPLAVGEIFNSIWDAKDLIQNQLIDYIRATVVHAGGITHLRRIAALADLYQIRTGCHGATDLSPVCMAAALHFDLSVPNFGIQEYMRHMPETDAVFPHAYTFADGMMHPGDQPGLGVDIDEDLAAGYEYKRAFLPVNRLEDGTMFNW 3thu-a2-m9-cB_3thu-a2-m9-cC Crystal structure of an enolase from sphingomonas sp. ska58 (efi target efi-501683) with bound mg Q1NAJ2 Q1NAJ2 1.8 X-RAY DIFFRACTION 146 1.0 314266 (Sphingomonas sp. SKA58) 314266 (Sphingomonas sp. SKA58) 404 404 3thu-a1-m1-cA_3thu-a1-m6-cA 3thu-a1-m2-cA_3thu-a1-m5-cA 3thu-a1-m3-cA_3thu-a1-m7-cA 3thu-a1-m4-cA_3thu-a1-m8-cA 3thu-a2-m10-cB_3thu-a2-m10-cC 3thu-a2-m11-cB_3thu-a2-m11-cC 3thu-a2-m1-cB_3thu-a2-m1-cC MMPKIIDAKVIITCPGRNFVTLKIMTDEGVYGLGDATLNGRELAVASYLTDHVIPCLIGRDAHRIEDLWQYLYKGAYWRRGPVTMTAIAAVDMALWDIKGKIAGLPVYQLLGGASREGVMVYGHANGTTIEDTVKVALDYQAQGYKAIRLQCGVPGMASTYGVSKDKYFYEPADADLPTENIWNTSKYLRIVPELFKAARESLGWDVHLLHDIHHRLTPIEAGRLGQDLEPYRPFWLEDATPAENQEAFRLIRQHTTAPLAVGEIFNSIWDAKDLIQNQLIDYIRATVVHAGGITHLRRIAALADLYQIRTGCHGATDLSPVCMAAALHFDLSVPNFGIQEYMRHMPETDAVFPHAYTFADGMMHPGDQPGLGVDIDEDLAAGYEYKRAFLPVNRLEDGTMFNW MMPKIIDAKVIITCPGRNFVTLKIMTDEGVYGLGDATLNGRELAVASYLTDHVIPCLIGRDAHRIEDLWQYLYKGAYWRRGPVTMTAIAAVDMALWDIKGKIAGLPVYQLLGGASREGVMVYGHANGTTIEDTVKVALDYQAQGYKAIRLQCGVPGMASTYGVSKDKYFYEPADADLPTENIWNTSKYLRIVPELFKAARESLGWDVHLLHDIHHRLTPIEAGRLGQDLEPYRPFWLEDATPAENQEAFRLIRQHTTAPLAVGEIFNSIWDAKDLIQNQLIDYIRATVVHAGGITHLRRIAALADLYQIRTGCHGATDLSPVCMAAALHFDLSVPNFGIQEYMRHMPETDAVFPHAYTFADGMMHPGDQPGLGVDIDEDLAAGYEYKRAFLPVNRLEDGTMFNW 3tif-a2-m1-cA_3tif-a2-m2-cB Dimeric structure of a post-hydrolysis state of the ATP-binding cassette MJ0796 bound to ADP and Pi Q58206 Q58206 1.7995 X-RAY DIFFRACTION 33 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 230 232 1l2t-a2-m1-cA_1l2t-a2-m2-cB 1l2t-a2-m2-cA_1l2t-a2-m1-cB 3tif-a2-m2-cA_3tif-a2-m1-cB MVKLKNVTKTYKMGEEIIYALKNVNLNIKEGEFVSIMGPSGSGKSTMLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGAMSGEERRKRALECLKMAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADQPTWALDSKTGEKIMQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLR MVKLKNVTKTYKMGEEIIYALKNVNLNIKEGEFVSIMGPSGSGKSTMLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGAMSGEERRKRALECLKMAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADQPTWALDSKTGEKIMQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLRGF 3tif-a2-m2-cA_3tif-a2-m2-cB Dimeric structure of a post-hydrolysis state of the ATP-binding cassette MJ0796 bound to ADP and Pi Q58206 Q58206 1.7995 X-RAY DIFFRACTION 73 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 230 232 1l2t-a1-m1-cA_1l2t-a1-m1-cB 1l2t-a2-m1-cA_1l2t-a2-m1-cB 1l2t-a2-m2-cA_1l2t-a2-m2-cB 3tif-a1-m1-cA_3tif-a1-m1-cB 3tif-a2-m1-cA_3tif-a2-m1-cB MVKLKNVTKTYKMGEEIIYALKNVNLNIKEGEFVSIMGPSGSGKSTMLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGAMSGEERRKRALECLKMAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADQPTWALDSKTGEKIMQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLR MVKLKNVTKTYKMGEEIIYALKNVNLNIKEGEFVSIMGPSGSGKSTMLNIIGCLDKPTEGEVYIDNIKTNDLDDDELTKIRRDKIGFVFQQFNLIPLLTALENVELPLIFKYRGAMSGEERRKRALECLKMAELEERFANHKPNQLSGGQQQRVAIARALANNPPIILADQPTWALDSKTGEKIMQLLKKLNEEDGKTVVVVTHDINVARFGERIIYLKDGEVEREEKLRGF 3tik-a1-m1-cA_3tik-a1-m1-cB Sterol 14-alpha demethylase (CYP51) from Trypanosoma brucei in complex with the tipifarnib derivative 6-((4-chlorophenyl)(methoxy)(1-methyl-1H-imidazol-5-yl)methyl)-4-(2,6-difluorophenyl)-1-methylquinolin-2(1H)-one Q385E8 Q385E8 2.05 X-RAY DIFFRACTION 47 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 450 450 KGKLPPVYPVTVPILGHIIQFGKSPLGFMQECKRQLKSGIFTINIVGKRVTIVGDPHEHSRFFLPRNEVLSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAANWDKDEGEINLLEDCSTMIINTACQCLFGEDLRKRLDARRFAQLLAKMESSLIPAAVFLPILLKLPLPQSARCHEARTELQKILSEIIIARKEEEVNKDSSTSDLLSGLLSAVYRDGTPMSLHEVCGMIVAAMFAGQHTSSITTTWSMLHLMHPANVKHLEALRKEIEEFPAQLNYNNVMDEMPFAERCARESIRRDPPLLMLMRKVMADVKVGSYVVPKGDIIACSPLLSHHDEEAFPEPRRWDPERDEKVEGAFIGFGAGVHKCIGQKFGLLQVKTILATAFRSYDFQLLRDEVPDPDYHTMVVGPTASQCRVKYIRRK KGKLPPVYPVTVPILGHIIQFGKSPLGFMQECKRQLKSGIFTINIVGKRVTIVGDPHEHSRFFLPRNEVLSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAANWDKDEGEINLLEDCSTMIINTACQCLFGEDLRKRLDARRFAQLLAKMESSLIPAAVFLPILLKLPLPQSARCHEARTELQKILSEIIIARKEEEVNKDSSTSDLLSGLLSAVYRDGTPMSLHEVCGMIVAAMFAGQHTSSITTTWSMLHLMHPANVKHLEALRKEIEEFPAQLNYNNVMDEMPFAERCARESIRRDPPLLMLMRKVMADVKVGSYVVPKGDIIACSPLLSHHDEEAFPEPRRWDPERDEKVEGAFIGFGAGVHKCIGQKFGLLQVKTILATAFRSYDFQLLRDEVPDPDYHTMVVGPTASQCRVKYIRRK 3tik-a3-m1-cB_3tik-a3-m1-cC Sterol 14-alpha demethylase (CYP51) from Trypanosoma brucei in complex with the tipifarnib derivative 6-((4-chlorophenyl)(methoxy)(1-methyl-1H-imidazol-5-yl)methyl)-4-(2,6-difluorophenyl)-1-methylquinolin-2(1H)-one Q385E8 Q385E8 2.05 X-RAY DIFFRACTION 64 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 450 450 3tik-a1-m1-cA_3tik-a1-m1-cD 3tik-a1-m1-cB_3tik-a1-m1-cC 3tik-a2-m1-cA_3tik-a2-m1-cD KGKLPPVYPVTVPILGHIIQFGKSPLGFMQECKRQLKSGIFTINIVGKRVTIVGDPHEHSRFFLPRNEVLSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAANWDKDEGEINLLEDCSTMIINTACQCLFGEDLRKRLDARRFAQLLAKMESSLIPAAVFLPILLKLPLPQSARCHEARTELQKILSEIIIARKEEEVNKDSSTSDLLSGLLSAVYRDGTPMSLHEVCGMIVAAMFAGQHTSSITTTWSMLHLMHPANVKHLEALRKEIEEFPAQLNYNNVMDEMPFAERCARESIRRDPPLLMLMRKVMADVKVGSYVVPKGDIIACSPLLSHHDEEAFPEPRRWDPERDEKVEGAFIGFGAGVHKCIGQKFGLLQVKTILATAFRSYDFQLLRDEVPDPDYHTMVVGPTASQCRVKYIRRK KGKLPPVYPVTVPILGHIIQFGKSPLGFMQECKRQLKSGIFTINIVGKRVTIVGDPHEHSRFFLPRNEVLSPREVYSFMVPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAANWDKDEGEINLLEDCSTMIINTACQCLFGEDLRKRLDARRFAQLLAKMESSLIPAAVFLPILLKLPLPQSARCHEARTELQKILSEIIIARKEEEVNKDSSTSDLLSGLLSAVYRDGTPMSLHEVCGMIVAAMFAGQHTSSITTTWSMLHLMHPANVKHLEALRKEIEEFPAQLNYNNVMDEMPFAERCARESIRRDPPLLMLMRKVMADVKVGSYVVPKGDIIACSPLLSHHDEEAFPEPRRWDPERDEKVEGAFIGFGAGVHKCIGQKFGLLQVKTILATAFRSYDFQLLRDEVPDPDYHTMVVGPTASQCRVKYIRRK 3tio-a1-m1-cA_3tio-a1-m1-cC Crystal structures of yrdA from Escherichia coli, a homologous protein of gamma-class carbonic anhydrase, show possible allosteric conformations P0A9W9 P0A9W9 1.41 X-RAY DIFFRACTION 47 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 176 176 3tio-a1-m1-cB_3tio-a1-m1-cA 3tio-a1-m1-cB_3tio-a1-m1-cC 3tio-a2-m1-cD_3tio-a2-m1-cE 3tio-a2-m1-cD_3tio-a2-m1-cF 3tio-a2-m1-cE_3tio-a2-m1-cF 3tis-a1-m1-cA_3tis-a1-m1-cB 3tis-a1-m1-cC_3tis-a1-m1-cA 3tis-a1-m1-cC_3tis-a1-m1-cB DVLHPYRDLFPQIGQRVMIDDSSVVIGDVRLADDVGIWPLVVIRGDVHYVQIGARTNIQDGSMLHVTHKSSYNPDGNPLTIGEDVTVGHKVMLHGCTIGNRVLVGMGSILLDGAIVEDDVMIGAGSLVPQNKRLESGYLYLGSPVKQIRPLSDEEKAGLRYSANNYVKWKDEYLDQ DVLHPYRDLFPQIGQRVMIDDSSVVIGDVRLADDVGIWPLVVIRGDVHYVQIGARTNIQDGSMLHVTHKSSYNPDGNPLTIGEDVTVGHKVMLHGCTIGNRVLVGMGSILLDGAIVEDDVMIGAGSLVPQNKRLESGYLYLGSPVKQIRPLSDEEKAGLRYSANNYVKWKDEYLDQ 3tj0-a2-m5-cB_3tj0-a2-m7-cA Crystal Structure of Influenza B Virus Nucleoprotein C4LQ26 C4LQ26 3.233 X-RAY DIFFRACTION 162 0.996 554810 (Influenza B virus (B/Managua/4577.01/2008)) 554810 (Influenza B virus (B/Managua/4577.01/2008)) 457 458 3tj0-a1-m3-cB_3tj0-a1-m1-cA 3tj0-a1-m3-cB_3tj0-a1-m2-cA 3tj0-a1-m4-cB_3tj0-a1-m1-cA 3tj0-a1-m4-cB_3tj0-a1-m2-cA 3tj0-a2-m1-cB_3tj0-a2-m6-cA 3tj0-a2-m1-cB_3tj0-a2-m7-cA 3tj0-a2-m5-cB_3tj0-a2-m6-cA PTEIKKSVYNMVVKLGEFYNQMMVKAGLNDDMERNLIQNAHAVERILLAATDDNKTGGTFYKMVRDDKTIYFSPIRITFLKEEVKTMYKTTMGSDGFSGLNHIMIGHSQMNDVCFQRSKALKRVGLDPSLISTFAGSTIPRRSGATGVAIKGGGTLVAEAIRFIGRAMADRGLLRDIKAKTAYEKILLNLKNKCSAPQQKALVDQVIGSRNPGIADIEDLTLLARSMVVVRPSVASKVVLPISIYAKIPQLGFNVEEYSMVGYEAMALYNMATPVSILRMGDDAKDKSQLFFMSCFGAAYEDLRVLSALTGTEFKPRSALKCKGFHVPAKEQVEGMGAALMSIKLQFWAPMTRSGGNEVGGDGGSGQISCSPVFAVERPIALSKQAVRRMLSMNIEGRDADVKGNLLKMMNDSMAKKTSGNAFIGKKMFQISDKNKTNPVEIQIKQTIPNFFFGRDT TEIKKSVYNMVVKLGEFYNQMMVKAGLNDDMERNLIQNAHAVERILLAATDDKKHNKTGGTFYKMVRDDKTIYFSPIRITFLKEEVKTMYKTTMGSDGFSGLNHIMIGHSQMNDVCFQRSKALKRVGLDPSLISTFAGSTIPRRSGATGVAIKGGGTLVAEAIRFIGRAMADRGLLRDIKAKTAYEKILLNLKNKCSAPQQKALVDQVIGSRNPGIADIEDLTLLARSMVVVRPSVASKVVLPISIYAKIPQLGFNVEEYSMVGYEAMALYNMATPVSILRMGDDAKDKSQLFFMSCFGAAYEDLRVLSALTGTEFKPRSALKCKGFHVPAKEQVEGMGAALMSIKLQFWAPMTRSGGNEVGGDGGSGQISCSPVFAVERPIALSKQAVRRMLSMNIEGRDADVKGNLLKMMNDSMAKKTSGNAFIGKKMFQISDKNKTNPVEIQIKQTIPNFFFGRD 3tj1-a1-m1-cB_3tj1-a1-m1-cA Crystal Structure of RNA Polymerase I Transcription Initiation Factor Rrn3 P36070 P36070 2.85 X-RAY DIFFRACTION 89 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 482 483 VFSAAMYSRFVKSALDDLDKNDSTQIGIIANQVALPSKNPERINDKNLNILLDILSSNINRIESSRGTFLIQSIINFEKWWELPPHTLSKYIYFIKILCSSIPKWWQDVSMILVSCFILPIKQTVCHHDMLKYFLRMIPSSMGFIDTYLAKFFPNKNDTRRKLVNYTSNLLKLRGYCSELGFQIWSLLIEKIISIDVELQNELDELDTQGIKELSTKLDSILTLVSTHVEEQVTPESLESGEGVGVFNTLTTLFKTHVLPTYYTRSIQYIMFHVSQQQLELMDSFLVTLIDISFAVNEAAEKKIKSLQYLGSYIARAKKLSRTQIIFVASYLTSWLNRYVIEREEEVDQRGGMERFKHFYAAFQALCYIFCFRHNIFRDTDGNWECELDKFFQRMVISKFNPLKFCNENVMLMFARIAQQESVAYCFSIIENNNNERLRSSWSLATRQQFIDLQSYFPYDPLFLKNYKILMKEYYIEWSEAS VFSAAMYSRFVKSALDDLDKNDSTQIGIIANQVALPSKNPERINDKNLNILLDILSSNINRIESSRGTFLIQSIINFEKWWELPPHTLSKYIYFIKILCSSIPKWWQDVSMILVSCFILPIKQTVCHHDMLKYFLRMIPSSMGFIDTYLAKFFPNKNDTRRKLVNYTSNLLKLRGYCSELGFQIWSLLIEKIISIDVELQNELDELDTQGIKELSTKLDSILTLVSTHVEEQVTPESLESGEGVGVFNTLTTLFKTHVLPTYYTRSIQYIMFHVSQQQLELMDSFLVTLIDISFAVNEAAEKKIKSLQYLGSYIARAKKLSRTQIIFVASYLTSWLNRYVIEREEEVDQRGGMERFKHFYAAFQALCYIFCFRHNIFRDTDGNWECELDKFFQRMVISKFNPLKFCNENVMLMFARIAQQESVAYCFSIIENNNNERLRGSSWSLATRQQFIDLQSYFPYDPLFLKNYKILMKEYYIEWSEAS 3tj6-a2-m2-cA_3tj6-a2-m3-cA human vinculin head domain (Vh1, residues 1-258) in complex with the vinculin binding site of the surface cell antigen 4 (sca4-VBS-C; residues 812-835) from Rickettsia rickettsii P18206 P18206 2.76 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 253 3tj6-a2-m1-cA_3tj6-a2-m2-cA 3tj6-a2-m1-cA_3tj6-a2-m3-cA MPVFHTRTIESILEPVAQQISHLVIMHEEGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDA MPVFHTRTIESILEPVAQQISHLVIMHEEGKAIPDLTAPVAAVQAAVSNLVRVGKETVQTTEDQILKRDMPPAFIKVENACTKLVQAAQMLQSDPYSVPARDYLIDGSRGILSGTSDLLLTFDEAEVRKIIRVCKGILEYLTVAEVVETMEDLVTYTKNLGPGMTKMAKMIDERQQELTHQEHRVMLVNSMNTVKELLPVLISAMKIFVTTKNSKNQGIEEALKNRNFTVEKMSAEINEIIRVLQLTSWDEDA 3tj7-a2-m1-cD_3tj7-a2-m1-cC GBAA_1210 protein, a putative adenylate cyclase, from Bacillus anthracis in complex with AMP A0A6L8P3N5 A0A6L8P3N5 2.1 X-RAY DIFFRACTION 42 0.994 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 170 171 3sy3-a1-m1-cB_3sy3-a1-m1-cA 3sy3-a2-m1-cD_3sy3-a2-m1-cC 3tj7-a1-m1-cA_3tj7-a1-m1-cB NATQEIEIEFKNIVTEEEFHALCKSFSIEVFTKQVNHYFETPNSSLKEAGSALRIRHKGETYTLTLKQPAEVGLLETHQVVTENEAKETNVIISGAVNQLCKLQIPVSALTYGSLTTERAETLFEGGTLVFDHSFYYNHDDYEIEFEVQDEETGKAAFIHLLKQHNIPIR ATQEIEIEFKNIVTEEEFHALCKSFSIEVFTKQVNHYFETPNSSLKEAGSALRIRHKGETYTLTLKQPAEVGLLETHQVVTENEAKETNVIISGAVNQLCKLQIPVSALTYGSLTTERAETLFEGGTLVFDHSFYYNHDDYEIEFEVQDEETGKAAFIHLLKQHNIPIRHT 3tjb-a1-m1-cA_3tjb-a1-m2-cA Crystal structure of wild-type human peroxiredoxin IV Q13162 Q13162 2.38 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 170 170 2pn8-a1-m1-cC_2pn8-a1-m1-cG 2pn8-a1-m1-cD_2pn8-a1-m1-cE 2pn8-a1-m1-cF_2pn8-a1-m1-cJ 2pn8-a1-m1-cH_2pn8-a1-m1-cA 2pn8-a1-m1-cI_2pn8-a1-m1-cB 3qpm-a1-m1-cA_3qpm-a1-m2-cA 3qpm-a1-m1-cB_3qpm-a1-m1-cD 3qpm-a1-m1-cC_3qpm-a1-m1-cE 3qpm-a1-m2-cB_3qpm-a1-m2-cD 3qpm-a1-m2-cC_3qpm-a1-m2-cE 3tjb-a1-m1-cB_3tjb-a1-m1-cC 3tjb-a1-m1-cE_3tjb-a1-m1-cD 3tjb-a1-m2-cB_3tjb-a1-m2-cC 3tjb-a1-m2-cE_3tjb-a1-m2-cD 3tjf-a1-m1-cA_3tjf-a1-m2-cA 3tjf-a1-m1-cB_3tjf-a1-m1-cC 3tjf-a1-m1-cD_3tjf-a1-m1-cE 3tjf-a1-m2-cB_3tjf-a1-m2-cC 3tjf-a1-m2-cD_3tjf-a1-m2-cE 3tjg-a1-m1-cA_3tjg-a1-m2-cA 3tjg-a1-m1-cB_3tjg-a1-m1-cC 3tjg-a1-m1-cE_3tjg-a1-m1-cD 3tjg-a1-m2-cB_3tjg-a1-m2-cC 3tjg-a1-m2-cE_3tjg-a1-m2-cD 3tjj-a1-m1-cA_3tjj-a1-m2-cA 3tjj-a1-m1-cB_3tjj-a1-m1-cC 3tjj-a1-m1-cD_3tjj-a1-m1-cE 3tjj-a1-m2-cB_3tjj-a1-m2-cC 3tjj-a1-m2-cD_3tjj-a1-m2-cE 3tjk-a1-m1-cA_3tjk-a1-m2-cA 3tjk-a1-m1-cB_3tjk-a1-m1-cC 3tjk-a1-m1-cD_3tjk-a1-m1-cE 3tjk-a1-m2-cB_3tjk-a1-m2-cC 3tjk-a1-m2-cD_3tjk-a1-m2-cE 3tkp-a1-m1-cB_3tkp-a1-m2-cB 3tkp-a1-m1-cC_3tkp-a1-m2-cA 3tkp-a1-m1-cE_3tkp-a1-m2-cD 3tkp-a1-m2-cC_3tkp-a1-m1-cA 3tkp-a1-m2-cE_3tkp-a1-m1-cD 3tkq-a1-m1-cB_3tkq-a1-m2-cB 3tkq-a1-m1-cC_3tkq-a1-m2-cA 3tkq-a1-m1-cD_3tkq-a1-m2-cE 3tkq-a1-m2-cC_3tkq-a1-m1-cA 3tkq-a1-m2-cD_3tkq-a1-m1-cE 3tkr-a1-m1-cA_3tkr-a1-m1-cH 3tkr-a1-m1-cC_3tkr-a1-m1-cF 3tkr-a1-m1-cD_3tkr-a1-m1-cJ 3tkr-a1-m1-cE_3tkr-a1-m1-cI 3tkr-a1-m1-cG_3tkr-a1-m1-cB 3tks-a1-m1-cA_3tks-a1-m2-cC 3tks-a1-m1-cB_3tks-a1-m2-cB 3tks-a1-m1-cC_3tks-a1-m2-cA 3tks-a1-m1-cD_3tks-a1-m2-cE 3tks-a1-m2-cD_3tks-a1-m1-cE 3vwu-a1-m1-cD_3vwu-a1-m1-cE 3vwu-a1-m1-cG_3vwu-a1-m1-cF 3vwu-a1-m1-cJ_3vwu-a1-m1-cA 4rqx-a1-m1-cA_4rqx-a1-m2-cA 4rqx-a1-m1-cB_4rqx-a1-m1-cC 4rqx-a1-m1-cD_4rqx-a1-m1-cE 4rqx-a1-m2-cB_4rqx-a1-m2-cC 4rqx-a1-m2-cD_4rqx-a1-m2-cE 8ekw-a1-m1-cA_8ekw-a1-m1-cE 8ekw-a1-m1-cB_8ekw-a1-m1-cC 8ekw-a1-m1-cD_8ekw-a1-m1-cF 8ekw-a1-m1-cG_8ekw-a1-m1-cH 8ekw-a1-m1-cI_8ekw-a1-m1-cJ 8eky-a1-m1-cA_8eky-a1-m1-cF 8eky-a1-m1-cB_8eky-a1-m1-cC 8eky-a1-m1-cE_8eky-a1-m1-cD 8eky-a1-m1-cG_8eky-a1-m1-cH 8eky-a1-m1-cJ_8eky-a1-m1-cI LSKAKISKPAPYWEGTAVIDGEFKELKLTDYRGKYLVFFFYPLDFTFVCPTEIIAFGDRLEEFRSINTEVVACSVDSQFTHLAWINTPRRQGGLGPIRIPLLSDLTHQISKDYGVYLEDSGHTLRGLFIIDDKGILRQITLNDLPVGRSVDETLRLVQAFQYTDKHGEVC LSKAKISKPAPYWEGTAVIDGEFKELKLTDYRGKYLVFFFYPLDFTFVCPTEIIAFGDRLEEFRSINTEVVACSVDSQFTHLAWINTPRRQGGLGPIRIPLLSDLTHQISKDYGVYLEDSGHTLRGLFIIDDKGILRQITLNDLPVGRSVDETLRLVQAFQYTDKHGEVC 3tji-a1-m2-cA_3tji-a1-m2-cD CRYSTAL STRUCTURE OF AN ENOLASE FROM ENTEROBACTER sp. 638 (EFI TARGET EFI-501662) with BOUND MG A4W7D6 A4W7D6 1.8 X-RAY DIFFRACTION 98 1.0 399742 (Enterobacter sp. 638) 399742 (Enterobacter sp. 638) 399 399 3tji-a1-m1-cA_3tji-a1-m1-cD 3tji-a1-m1-cB_3tji-a1-m2-cB 3tji-a1-m1-cC_3tji-a1-m2-cC MTPVIIKNIECFITRPDRHNLVTVRVTTEQGITGHGCATFQQRPLAVKTLVDEYLQPLMIGRDANNIEDLWQMMNVNAYWRNGPLMNNAISGVDMALWDIKGQLAGMPLYQLFGGKSRDAIPAYSHASGETLEALFASVDALIAQGYRHIRCQLGFYGGTPSALHAPDNPTPGAWFDQQEYMSNTVEMFHALREKYGWKLHILHDVHERLFPQQAVQLAKQLEPFQPYFIEDILPPQQSAWLEQVRQQSCVPLALGELFNNPAEWHDLIVNRRIDFIRCHVSQIGGITPALKLAHLCQAFGVRLAWHGPGDMTPIGVAVNTHLNIHLHNAAIQEFIPRSATTNDVFPGAPEVKEGFVYPPVQPGIGVGFNEALALAHPVLYRPHEWTQSRLPDGTIHTP MTPVIIKNIECFITRPDRHNLVTVRVTTEQGITGHGCATFQQRPLAVKTLVDEYLQPLMIGRDANNIEDLWQMMNVNAYWRNGPLMNNAISGVDMALWDIKGQLAGMPLYQLFGGKSRDAIPAYSHASGETLEALFASVDALIAQGYRHIRCQLGFYGGTPSALHAPDNPTPGAWFDQQEYMSNTVEMFHALREKYGWKLHILHDVHERLFPQQAVQLAKQLEPFQPYFIEDILPPQQSAWLEQVRQQSCVPLALGELFNNPAEWHDLIVNRRIDFIRCHVSQIGGITPALKLAHLCQAFGVRLAWHGPGDMTPIGVAVNTHLNIHLHNAAIQEFIPRSATTNDVFPGAPEVKEGFVYPPVQPGIGVGFNEALALAHPVLYRPHEWTQSRLPDGTIHTP 3tji-a1-m2-cB_3tji-a1-m2-cD CRYSTAL STRUCTURE OF AN ENOLASE FROM ENTEROBACTER sp. 638 (EFI TARGET EFI-501662) with BOUND MG A4W7D6 A4W7D6 1.8 X-RAY DIFFRACTION 139 1.0 399742 (Enterobacter sp. 638) 399742 (Enterobacter sp. 638) 399 399 3tji-a1-m1-cA_3tji-a1-m1-cC 3tji-a1-m1-cB_3tji-a1-m1-cD 3tji-a1-m2-cA_3tji-a1-m2-cC MTPVIIKNIECFITRPDRHNLVTVRVTTEQGITGHGCATFQQRPLAVKTLVDEYLQPLMIGRDANNIEDLWQMMNVNAYWRNGPLMNNAISGVDMALWDIKGQLAGMPLYQLFGGKSRDAIPAYSHASGETLEALFASVDALIAQGYRHIRCQLGFYGGTPSALHAPDNPTPGAWFDQQEYMSNTVEMFHALREKYGWKLHILHDVHERLFPQQAVQLAKQLEPFQPYFIEDILPPQQSAWLEQVRQQSCVPLALGELFNNPAEWHDLIVNRRIDFIRCHVSQIGGITPALKLAHLCQAFGVRLAWHGPGDMTPIGVAVNTHLNIHLHNAAIQEFIPRSATTNDVFPGAPEVKEGFVYPPVQPGIGVGFNEALALAHPVLYRPHEWTQSRLPDGTIHTP MTPVIIKNIECFITRPDRHNLVTVRVTTEQGITGHGCATFQQRPLAVKTLVDEYLQPLMIGRDANNIEDLWQMMNVNAYWRNGPLMNNAISGVDMALWDIKGQLAGMPLYQLFGGKSRDAIPAYSHASGETLEALFASVDALIAQGYRHIRCQLGFYGGTPSALHAPDNPTPGAWFDQQEYMSNTVEMFHALREKYGWKLHILHDVHERLFPQQAVQLAKQLEPFQPYFIEDILPPQQSAWLEQVRQQSCVPLALGELFNNPAEWHDLIVNRRIDFIRCHVSQIGGITPALKLAHLCQAFGVRLAWHGPGDMTPIGVAVNTHLNIHLHNAAIQEFIPRSATTNDVFPGAPEVKEGFVYPPVQPGIGVGFNEALALAHPVLYRPHEWTQSRLPDGTIHTP 3tji-a1-m2-cC_3tji-a1-m2-cD CRYSTAL STRUCTURE OF AN ENOLASE FROM ENTEROBACTER sp. 638 (EFI TARGET EFI-501662) with BOUND MG A4W7D6 A4W7D6 1.8 X-RAY DIFFRACTION 61 1.0 399742 (Enterobacter sp. 638) 399742 (Enterobacter sp. 638) 399 399 3tji-a1-m1-cA_3tji-a1-m1-cB 3tji-a1-m1-cA_3tji-a1-m2-cC 3tji-a1-m1-cB_3tji-a1-m2-cD 3tji-a1-m1-cC_3tji-a1-m1-cD 3tji-a1-m1-cC_3tji-a1-m2-cA 3tji-a1-m1-cD_3tji-a1-m2-cB 3tji-a1-m2-cA_3tji-a1-m2-cB MTPVIIKNIECFITRPDRHNLVTVRVTTEQGITGHGCATFQQRPLAVKTLVDEYLQPLMIGRDANNIEDLWQMMNVNAYWRNGPLMNNAISGVDMALWDIKGQLAGMPLYQLFGGKSRDAIPAYSHASGETLEALFASVDALIAQGYRHIRCQLGFYGGTPSALHAPDNPTPGAWFDQQEYMSNTVEMFHALREKYGWKLHILHDVHERLFPQQAVQLAKQLEPFQPYFIEDILPPQQSAWLEQVRQQSCVPLALGELFNNPAEWHDLIVNRRIDFIRCHVSQIGGITPALKLAHLCQAFGVRLAWHGPGDMTPIGVAVNTHLNIHLHNAAIQEFIPRSATTNDVFPGAPEVKEGFVYPPVQPGIGVGFNEALALAHPVLYRPHEWTQSRLPDGTIHTP MTPVIIKNIECFITRPDRHNLVTVRVTTEQGITGHGCATFQQRPLAVKTLVDEYLQPLMIGRDANNIEDLWQMMNVNAYWRNGPLMNNAISGVDMALWDIKGQLAGMPLYQLFGGKSRDAIPAYSHASGETLEALFASVDALIAQGYRHIRCQLGFYGGTPSALHAPDNPTPGAWFDQQEYMSNTVEMFHALREKYGWKLHILHDVHERLFPQQAVQLAKQLEPFQPYFIEDILPPQQSAWLEQVRQQSCVPLALGELFNNPAEWHDLIVNRRIDFIRCHVSQIGGITPALKLAHLCQAFGVRLAWHGPGDMTPIGVAVNTHLNIHLHNAAIQEFIPRSATTNDVFPGAPEVKEGFVYPPVQPGIGVGFNEALALAHPVLYRPHEWTQSRLPDGTIHTP 3tjl-a1-m1-cA_3tjl-a1-m2-cA Crystal Structure of a Novel OYE from the Xylose-fermenting Fungus P. stipitis A3LT82 A3LT82 1.5 X-RAY DIFFRACTION 55 1.0 322104 (Scheffersomyces stipitis CBS 6054) 322104 (Scheffersomyces stipitis CBS 6054) 404 404 4qai-a1-m1-cA_4qai-a1-m2-cA 4qai-a2-m1-cB_4qai-a2-m3-cB 4qai-a3-m1-cC_4qai-a3-m1-cE 4qai-a4-m1-cD_4qai-a4-m1-cF SSVKISPLKDSEAFQSIKVGNNTLQTKIVYPPTTRFRALEDHTPSDLQLQYYGDRSTFPGTLLITEATFVSPQASGYEGAAPGIWTDKHAKAWKVITDKVHANGSFVSTQLIFLGRVADPAVMKTRGLNPVSASATYESDAAKEAAEAVGNPVRALTTQEVKDLVYEAYTNAAQKAMDAGFDYIELHAAHGYLLDQFLQPCTNQRTDEYGGSIENRARLILELIDHLSTIVGADKIGIRISPWATFQNMKAHKDTVHPLTTFSYLVHELQQRADKGQGIAYISVVEPRVSGNVDVSEEDQAGDNEFVSKIWKGVILKAGNYSYDAPEFKTLKEDIADKRTLVGFSRYFTSNPNLVWKLRDGIDLVPYDRNTFYSDNNYGYNTFSMDSEEVDKELEIKRVPSAIE SSVKISPLKDSEAFQSIKVGNNTLQTKIVYPPTTRFRALEDHTPSDLQLQYYGDRSTFPGTLLITEATFVSPQASGYEGAAPGIWTDKHAKAWKVITDKVHANGSFVSTQLIFLGRVADPAVMKTRGLNPVSASATYESDAAKEAAEAVGNPVRALTTQEVKDLVYEAYTNAAQKAMDAGFDYIELHAAHGYLLDQFLQPCTNQRTDEYGGSIENRARLILELIDHLSTIVGADKIGIRISPWATFQNMKAHKDTVHPLTTFSYLVHELQQRADKGQGIAYISVVEPRVSGNVDVSEEDQAGDNEFVSKIWKGVILKAGNYSYDAPEFKTLKEDIADKRTLVGFSRYFTSNPNLVWKLRDGIDLVPYDRNTFYSDNNYGYNTFSMDSEEVDKELEIKRVPSAIE 3tjr-a1-m1-cA_3tjr-a1-m1-cB Crystal structure of a Rv0851c ortholog short chain dehydrogenase from Mycobacterium paratuberculosis Q742X5 Q742X5 1.6 X-RAY DIFFRACTION 183 0.996 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 256 265 GFLSGFDGRAAVVTGGASGIGLATATEFARRGARLVLSDVDQPALEQAVNGLRGQGFDAHGVVCDVRHLDEMVRLADEAFRLLGGVDVVFSNAGIVVAGPLAQMNHDDWRWVIDIDLWGSIHAVEAFLPRLLEQGTGGHIAFTASFAGLVPNAGLGTYGVAKYGVVGLAETLAREVKPNGIGVSVLCPMVVETKLVSNSERIRSVSADDVARLTADAILANRLYILPHAAARESIRRRFERIDRTFDEQAAEGWTH GFLSGFDGRAAVVTGGASGIGLATATEFARRGARLVLSDVDQPALEQAVNGLRGQGFDAHGVVCDVRHLDEMVRLADEAFRLLGGVDVVFSNAGIVVAGPLAQMNHDDWRWVIDIDLWGSIHAVEAFLPRLLEQGTGGHIAFTASFAGLVPNAGLGTYGVAKYGVVGLAETLAREVKPNGIGVSVLCPMVVETKLVSNSERIAFGPLPTQDESVSADDVARLTADAILANRLYILPHAAARESIRRRFERIDRTFDEQAAEGWTH 3tjt-a1-m1-cA_3tjt-a1-m2-cA Crystal Structure Analysis of the superoxide dismutase from Clostridium difficile Q186I6 Q186I6 1.801 X-RAY DIFFRACTION 47 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 202 202 4jyy-a1-m1-cA_4jyy-a1-m2-cA 4jz2-a1-m1-cA_4jz2-a1-m2-cA 4jzg-a1-m1-cA_4jzg-a1-m2-cA NNKFKVKPLPYAYDALEPYIDKETMKLHHDKHYQAYVDKLNAALEKYPELYNYSLCELLQNLDSLPKDIATTVRNNAGGAYNHKFFFDIMTPEKTIPSESLKEAIDRDFGSFEKFKQEFQKSALDVFGSGWAWLVATKDGKLSIMTTPNQDSPVSKNLTPIIGLDVWEHAYYLKYQNRRNEYIDNWFNVVNWNGALENYKNL NNKFKVKPLPYAYDALEPYIDKETMKLHHDKHYQAYVDKLNAALEKYPELYNYSLCELLQNLDSLPKDIATTVRNNAGGAYNHKFFFDIMTPEKTIPSESLKEAIDRDFGSFEKFKQEFQKSALDVFGSGWAWLVATKDGKLSIMTTPNQDSPVSKNLTPIIGLDVWEHAYYLKYQNRRNEYIDNWFNVVNWNGALENYKNL 3tk0-a1-m1-cA_3tk0-a1-m2-cA mutation of sfALR P55789 P55789 1.611 X-RAY DIFFRACTION 103 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 3mbg-a1-m1-cA_3mbg-a1-m2-cA 3mbg-a2-m1-cB_3mbg-a2-m1-cC 3o55-a1-m1-cA_3o55-a1-m2-cA 3u2l-a1-m1-cA_3u2l-a1-m2-cA 3u2m-a1-m1-cA_3u2m-a1-m2-cA 3u5s-a1-m1-cA_3u5s-a1-m2-cA 4ldk-a1-m1-cA_4ldk-a1-m2-cA SMRTQQKRDTKFREDCPPDREELGRHSWAVLHTLAAYYPDLPTPEQQQDMAQFIHLFSKFYPSEECAEDLRKRLARNHPDTRTRAAFTQWLCHLHNEVNRKLGKPDFDCSKVDERWRDGWKDGSCD SMRTQQKRDTKFREDCPPDREELGRHSWAVLHTLAAYYPDLPTPEQQQDMAQFIHLFSKFYPSEECAEDLRKRLARNHPDTRTRAAFTQWLCHLHNEVNRKLGKPDFDCSKVDERWRDGWKDGSCD 3tk1-a1-m1-cA_3tk1-a1-m1-cB Crystal structure of a MeaB and Rv1496 ortholog from Mycobacterium thermoresistible bound to GDP G7CAR0 G7CAR0 2.4 X-RAY DIFFRACTION 147 0.993 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 293 319 TVKDLAAAIRSGDRAALPRAITLVESTRADHRERAQELLLELMPDAGRAMHVGITGVPGVGKSTSIEALGMHLIEQGHRVAVLAVDKTRMARLAVHPLGGVAKATRETIVLLEAAGFDVVLVETVGVGQSEVTVADMVDTFVFLTLARTGDQLQGIKKGVLELADIVVVNKADGEHAVEARKAARELAGAMRLITLWRPPVLTMSALEGTGVAELWETVLKHRQVLIDAGEFEKRRRDQEVNWMWTMVRDAVIDRVMTSPGVREIRAEVERQVREGELTAALAAQRLLDAAEL QTVKDLAAAIRSGDRAALPRAITLVESTRADHRERAQELLLELMPDAGRAMHVGITGVPGVGKSTSIEALGMHLIEQGHRVAVLAVDPSSVRSILGDKTRMARLAVHPDAYVRPSPSSGTLGGVAKATRETIVLLEAAGFDVVLVETVGQSEVTVADMVDTFVFLTLARTGDQLQGIKKGVLELADIVVVNKADGEHAVEARKAARELAGAMRLIYPRETLWRPPVLTMSALEGTGVAELWETVLKHRQVLIDAGEFEKRRRDQEVNWMWTMVRDAVIDRVMTSPGVREIRAEVERQVREGELTAALAAQRLLDAAELR 3tk8-a1-m1-cB_3tk8-a1-m1-cC Structure of a 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase from Burkholderia pseudomallei Q3JR17 Q3JR17 1.8 X-RAY DIFFRACTION 131 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 257 258 3tk8-a1-m1-cB_3tk8-a1-m1-cA 3tk8-a1-m1-cC_3tk8-a1-m1-cA SQQLQQIIDNAWENRAELSPKAASAEIREAVAHAIEQLDRGALRVAEKIDGAWTVHQWLKKAVLLSFRLEDNAPMPAGGYSQFYDKVPSKFANYTAEDFAAGGFRVVPPAIARRGSFIAKNVVLMPSYTNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPVIIEDNCFIGARSEVVEGVIVEENSVISMGVYLGQSTKIYDRETGEVTYGRIPAGSVVVAGNLPAKDGTHSLYCAVIVKKV SQQLQQIIDNAWENRAELSPKAASAEIREAVAHAIEQLDRGALRVAEKIDGAWTVHQWLKKAVLLSFRLEDNAPMPAGGYSQFYDKVPSKFANYTAEDFAAGGFRVVPPAIARRGSFIAKNVVLMPSYTNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPVIIEDNCFIGARSEVVEGVIVEENSVISMGVYLGQSTKIYDRETGEVTYGRIPAGSVVVAGNLPAKDGTHSLYCAVIVKKVD 3tka-a1-m1-cA_3tka-a1-m2-cA crystal structure and solution saxs of methyltransferase rsmh from E.coli P60390 P60390 2.25 X-RAY DIFFRACTION 45 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 283 TTVLLDEAVNGLNIRPDGIYIDGTFGRGGHSRLILSQLGEEGRLLAIDRDPQAIAVAKTIDDPRFSIIHGPFSALGEYVAERDLIGKIDGILLDLGVSSPQLDDAERGFSFMRDGPLDMRMDPTRGQSAAEWLQTAEEADIAWVLKTYGEERFAKRIARAIVERNREQPMTRTKELAEVVAAATPVKHPATRTFQAVRIWVNSELEEIEQALKSSLNVLAPGGRLSIISFHSLEDRIVKRFMRENSRGRQLRALGKLMPGEEEVAENPRARSSVLRIAERTNA TTVLLDEAVNGLNIRPDGIYIDGTFGRGGHSRLILSQLGEEGRLLAIDRDPQAIAVAKTIDDPRFSIIHGPFSALGEYVAERDLIGKIDGILLDLGVSSPQLDDAERGFSFMRDGPLDMRMDPTRGQSAAEWLQTAEEADIAWVLKTYGEERFAKRIARAIVERNREQPMTRTKELAEVVAAATPVKHPATRTFQAVRIWVNSELEEIEQALKSSLNVLAPGGRLSIISFHSLEDRIVKRFMRENSRGRQLRALGKLMPGEEEVAENPRARSSVLRIAERTNA 3tkk-a2-m1-cB_3tkk-a2-m1-cD Crystal Structure Analysis of a recombinant predicted acetamidase/ formamidase from the thermophile thermoanaerobacter tengcongensis Q8R8S5 Q8R8S5 1.99 X-RAY DIFFRACTION 198 1.0 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 119072 (Caldanaerobacter subterraneus subsp. tengcongensis) 300 300 3tkk-a1-m1-cA_3tkk-a1-m1-cC SHMKYSLSADHHIFAFSKENKPAISVKSGDELEVETMDFSNQIQSNEDKLDEMDWNRVNPATGPIFVEGAKEGDVLKVKIKKIEVAEKGVLATGKGLGVLGNLMEGLYSKVVDIKDGKVIFNEKLALPVKPMIGVIGVAPKEGSINCGTPGSHGGNMDTTLIAEGAEVYFPVFVEGALLALGDLHALMGDGEVGVSGVEVAGKVLLEVEVIKGLNLKNPVVKTAEVTATIASAESLDKAVEIAVHDMAELFKKHTDLSTEGIATLFSITGNAQISQVVDPLKTARFSLPNWILESYGIRF SHMKYSLSADHHIFAFSKENKPAISVKSGDELEVETMDFSNQIQSNEDKLDEMDWNRVNPATGPIFVEGAKEGDVLKVKIKKIEVAEKGVLATGKGLGVLGNLMEGLYSKVVDIKDGKVIFNEKLALPVKPMIGVIGVAPKEGSINCGTPGSHGGNMDTTLIAEGAEVYFPVFVEGALLALGDLHALMGDGEVGVSGVEVAGKVLLEVEVIKGLNLKNPVVKTAEVTATIASAESLDKAVEIAVHDMAELFKKHTDLSTEGIATLFSITGNAQISQVVDPLKTARFSLPNWILESYGIRF 3tkr-a1-m1-cE_3tkr-a1-m1-cJ Crystal structure of full-length human peroxiredoxin 4 with T118E mutation Q13162 Q13162 2.1 X-RAY DIFFRACTION 188 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 2pn8-a1-m1-cA_2pn8-a1-m1-cB 2pn8-a1-m1-cC_2pn8-a1-m1-cD 2pn8-a1-m1-cE_2pn8-a1-m1-cF 2pn8-a1-m1-cH_2pn8-a1-m1-cG 2pn8-a1-m1-cI_2pn8-a1-m1-cJ 3qpm-a1-m1-cB_3qpm-a1-m1-cA 3qpm-a1-m1-cC_3qpm-a1-m1-cD 3qpm-a1-m1-cE_3qpm-a1-m2-cE 3qpm-a1-m2-cB_3qpm-a1-m2-cA 3qpm-a1-m2-cC_3qpm-a1-m2-cD 3tjb-a1-m1-cB_3tjb-a1-m1-cA 3tjb-a1-m1-cC_3tjb-a1-m1-cD 3tjb-a1-m1-cE_3tjb-a1-m2-cE 3tjb-a1-m2-cB_3tjb-a1-m2-cA 3tjb-a1-m2-cC_3tjb-a1-m2-cD 3tjf-a1-m1-cA_3tjf-a1-m1-cB 3tjf-a1-m1-cD_3tjf-a1-m1-cC 3tjf-a1-m1-cE_3tjf-a1-m2-cE 3tjf-a1-m2-cA_3tjf-a1-m2-cB 3tjf-a1-m2-cD_3tjf-a1-m2-cC 3tjg-a1-m1-cA_3tjg-a1-m1-cB 3tjg-a1-m1-cD_3tjg-a1-m1-cC 3tjg-a1-m1-cE_3tjg-a1-m2-cE 3tjg-a1-m2-cA_3tjg-a1-m2-cB 3tjg-a1-m2-cD_3tjg-a1-m2-cC 3tjj-a1-m1-cA_3tjj-a1-m1-cB 3tjj-a1-m1-cC_3tjj-a1-m1-cD 3tjj-a1-m1-cE_3tjj-a1-m2-cE 3tjj-a1-m2-cA_3tjj-a1-m2-cB 3tjj-a1-m2-cC_3tjj-a1-m2-cD 3tjk-a1-m1-cA_3tjk-a1-m1-cB 3tjk-a1-m1-cC_3tjk-a1-m1-cD 3tjk-a1-m1-cE_3tjk-a1-m2-cE 3tjk-a1-m2-cA_3tjk-a1-m2-cB 3tjk-a1-m2-cC_3tjk-a1-m2-cD 3tkp-a1-m1-cA_3tkp-a1-m2-cD 3tkp-a1-m1-cC_3tkp-a1-m2-cB 3tkp-a1-m1-cD_3tkp-a1-m2-cA 3tkp-a1-m1-cE_3tkp-a1-m2-cE 3tkp-a1-m2-cC_3tkp-a1-m1-cB 3tkq-a1-m1-cC_3tkq-a1-m2-cB 3tkq-a1-m1-cD_3tkq-a1-m2-cA 3tkq-a1-m1-cE_3tkq-a1-m2-cE 3tkq-a1-m2-cC_3tkq-a1-m1-cB 3tkq-a1-m2-cD_3tkq-a1-m1-cA 3tkr-a1-m1-cA_3tkr-a1-m1-cI 3tkr-a1-m1-cB_3tkr-a1-m1-cH 3tkr-a1-m1-cD_3tkr-a1-m1-cF 3tkr-a1-m1-cG_3tkr-a1-m1-cC 3tks-a1-m1-cA_3tks-a1-m2-cD 3tks-a1-m1-cB_3tks-a1-m2-cC 3tks-a1-m1-cC_3tks-a1-m2-cB 3tks-a1-m1-cD_3tks-a1-m2-cA 3tks-a1-m1-cE_3tks-a1-m2-cE 3vwu-a1-m1-cF_3vwu-a1-m1-cE 3vwu-a1-m1-cJ_3vwu-a1-m1-cI 3vwv-a1-m1-cA_3vwv-a1-m1-cB 4rqx-a1-m1-cA_4rqx-a1-m1-cB 4rqx-a1-m1-cC_4rqx-a1-m1-cD 4rqx-a1-m1-cE_4rqx-a1-m2-cE 4rqx-a1-m2-cA_4rqx-a1-m2-cB 4rqx-a1-m2-cC_4rqx-a1-m2-cD 5hqp-a1-m1-cB_5hqp-a1-m1-cA 8ekw-a1-m1-cA_8ekw-a1-m1-cC 8ekw-a1-m1-cB_8ekw-a1-m1-cD 8ekw-a1-m1-cE_8ekw-a1-m1-cJ 8ekw-a1-m1-cF_8ekw-a1-m1-cG 8ekw-a1-m1-cH_8ekw-a1-m1-cI 8eky-a1-m1-cB_8eky-a1-m1-cA 8eky-a1-m1-cD_8eky-a1-m1-cC 8eky-a1-m1-cE_8eky-a1-m1-cJ 8eky-a1-m1-cG_8eky-a1-m1-cF 8eky-a1-m1-cH_8eky-a1-m1-cI HLSKAKISKPAPYWEGTAVIDGEFKELKLTDYRGKYLVFFFYPLDFTFVCPTEIIAFGDRLEEFRSINTEVVACSVDSQFEHLAWINTPRRQGGLGPIRIPLLSDLTHQISKDYGVYLEDSGHTLRGLFIIDDKGILRQITLNDLPVGRSVDETLRLVQAFQYTDKHGEVCPAGWKPGSETIIPDPAGKLKYFDKLN HLSKAKISKPAPYWEGTAVIDGEFKELKLTDYRGKYLVFFFYPLDFTFVCPTEIIAFGDRLEEFRSINTEVVACSVDSQFEHLAWINTPRRQGGLGPIRIPLLSDLTHQISKDYGVYLEDSGHTLRGLFIIDDKGILRQITLNDLPVGRSVDETLRLVQAFQYTDKHGEVCPAGWKPGSETIIPDPAGKLKYFDKLN 3tky-a1-m1-cB_3tky-a1-m1-cA Monolignol o-methyltransferase (momt) O04385 O04385 2.47 X-RAY DIFFRACTION 282 0.98 36903 (Clarkia breweri) 36903 (Clarkia breweri) 349 352 3reo-a1-m1-cA_3reo-a1-m1-cC 3reo-a2-m1-cB_3reo-a2-m1-cD 3tky-a2-m1-cD_3tky-a2-m1-cC 5cvj-a1-m1-cB_5cvj-a1-m1-cD 5cvj-a2-m1-cC_5cvj-a2-m1-cA 5cvu-a1-m1-cA_5cvu-a1-m1-cB 5cvu-a2-m1-cC_5cvu-a2-m1-cD 5cvv-a1-m1-cB_5cvv-a1-m1-cA IQIIPTHSSDEEANLFAMQLASAAVLPMALKAAIELDVLEIMAKSVGYISPAEIAAQLPTTNPEAPVMLDRVLRLLASYSVVTYTLRERLYGLAPVCKFLTKNEDGVSLAPFLLLATDKVLLEPWFYLKDAILEGGIPFNKAYGMNIFDYHGTDHRINKVFNKGMSSNSTITMKKILEMYNGFEGLTTIVDVGGGTGAVASMIVAKYPSINAINFDLPHVIQDAPAFSGVEHLGGDMFDGVPKGDAIFIKWICHDWSDEHCLKLLKNCYAALPDHGKVIVAEYILPPSPDPSIATKVVIHTDALMLAYNPGGKERTEKEFQALAMASGFRGFKVASCAFNTYVMEFLKT SSDEEANLFAMQLASAAVLPMALKAAIELDVLEIMAKSVPPSGYISPAEIAAQLPTTNPEAPVMLDRVLRLLASYSVVTYTLRELPSGKVERLYGLAPVCKFLTKNEDGVSLAPFLLLATDKVLLEPWFYLKDAILEGGIPFNKAYGMNIFDYHGTDHRINKVFNKGMSSNSTITMKKILEMYNGFEGLTTIVDVGGGTGAVASMIVAKYPSINAINFDLPHVIQDAPAFSGVEHLGGDMFDGVPKGDAIFIKWICHDWSDEHCLKLLKNCYAALPDHGKVIVAEYILPPSPDPSIATKVVIHTDALMLAYNPGGKERTEKEFQALAMASGFRGFKVASCAFNTYVMEFLKT 3tkz-a1-m1-cQ_3tkz-a1-m1-cP Structure of the SHP-2 N-SH2 domain in a 1:2 complex with RVIpYFVPLNR peptide 1.8 X-RAY DIFFRACTION 12 1.0 5 6 VIFVP VIFVPL 3tl2-a1-m1-cA_3tl2-a1-m4-cA Crystal structure of Bacillus anthracis str. Ames malate dehydrogenase in closed conformation. Q6HSF4 Q6HSF4 1.7 X-RAY DIFFRACTION 42 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 312 312 3tl2-a1-m2-cA_3tl2-a1-m3-cA MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV 3tl2-a1-m2-cA_3tl2-a1-m4-cA Crystal structure of Bacillus anthracis str. Ames malate dehydrogenase in closed conformation. Q6HSF4 Q6HSF4 1.7 X-RAY DIFFRACTION 126 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 312 312 3tl2-a1-m1-cA_3tl2-a1-m3-cA MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV 3tl2-a1-m3-cA_3tl2-a1-m4-cA Crystal structure of Bacillus anthracis str. Ames malate dehydrogenase in closed conformation. Q6HSF4 Q6HSF4 1.7 X-RAY DIFFRACTION 76 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 312 312 3tl2-a1-m1-cA_3tl2-a1-m2-cA MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV MTIKRKKVSVIGAGFTGATTAFLLAQKELADVVLVDIPQLENPTKGKALDMLEASPVQGFDANIIGTSDYADTADSDVVVITAGIARKPGMSRDDLVATNSKIMKSITRDIAKHSPNAIIVVLTNPVDAMTYSVFKEAGFPKERVIGQSGVLDTARFRTFIAQELNLSVKDITGFVLGGHGDDMVPLVRYSYAGGIPLETLIPKERLEAIVERTRKGGGEIVGLLGNGSAYYAPAASLVEMTEAILKDQRRVLPAIAYLEGEYGYSDLYLGVPVILGGNGIEKIIELELLADEKEALDRSVESVRNVMKVLV 3tlf-a1-m1-cB_3tlf-a1-m1-cF Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium paratuberculosis Q73XB1 Q73XB1 2.15 X-RAY DIFFRACTION 44 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 252 253 3tlf-a1-m1-cA_3tlf-a1-m1-cD 3tlf-a1-m1-cC_3tlf-a1-m1-cE FDTIKYEVDGHTATITLNRPDALNALSPHMITELRAAYHEAENDDRVWLLVVTGTGRAFCSGADVPYLSTYDQWEAPQEGTPPFRTMAKPVLTAVNGICCGAGMDWVTTTDIVIASEQATFFDPHVSIGLVAGRELVRVSRVLPRSIALRMALMGKHERMSAQRAYELGLISEIVEHDRLLERAHEIADIVNSNAPLAVRGTRLAILKGLNVPLHEAEILAETFRERVLRTEDAAEGPRAFVEKRQPNWQCR SFDTIKYEVDGHTATITLNRPDALNALSPHMITELRAAYHEAENDDRVWLLVVTGTGRAFCSGADVPYLSTYDQWEAPQEGTPPFRTMAKPVLTAVNGICCGAGMDWVTTTDIVIASEQATFFDPHVSIGLVAGRELVRVSRVLPRSIALRMALMGKHERMSAQRAYELGLISEIVEHDRLLERAHEIADIVNSNAPLAVRGTRLAILKGLNVPLHEAEILAETFRERVLRTEDAAEGPRAFVEKRQPNWQCR 3tlf-a1-m1-cC_3tlf-a1-m1-cF Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium paratuberculosis Q73XB1 Q73XB1 2.15 X-RAY DIFFRACTION 33 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 252 253 3tlf-a1-m1-cA_3tlf-a1-m1-cE 3tlf-a1-m1-cB_3tlf-a1-m1-cD FDTIKYEVDGHTATITLNRPDALNALSPHMITELRAAYHEAENDDRVWLLVVTGTGRAFCSGADVPYLSTYDQWEAPQEGTPPFRTMAKPVLTAVNGICCGAGMDWVTTTDIVIASEQATFFDPHVSIGLVAGRELVRVSRVLPRSIALRMALMGKHERMSAQRAYELGLISEIVEHDRLLERAHEIADIVNSNAPLAVRGTRLAILKGLNVPLHEAEILAETFRERVLRTEDAAEGPRAFVEKRQPNWQCR SFDTIKYEVDGHTATITLNRPDALNALSPHMITELRAAYHEAENDDRVWLLVVTGTGRAFCSGADVPYLSTYDQWEAPQEGTPPFRTMAKPVLTAVNGICCGAGMDWVTTTDIVIASEQATFFDPHVSIGLVAGRELVRVSRVLPRSIALRMALMGKHERMSAQRAYELGLISEIVEHDRLLERAHEIADIVNSNAPLAVRGTRLAILKGLNVPLHEAEILAETFRERVLRTEDAAEGPRAFVEKRQPNWQCR 3tlf-a3-m1-cF_3tlf-a3-m1-cE Crystal structure of an enoyl-CoA hydratase/isomerase from Mycobacterium paratuberculosis Q73XB1 Q73XB1 2.15 X-RAY DIFFRACTION 145 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 253 254 3tlf-a1-m1-cB_3tlf-a1-m1-cA 3tlf-a1-m1-cB_3tlf-a1-m1-cC 3tlf-a1-m1-cC_3tlf-a1-m1-cA 3tlf-a1-m1-cE_3tlf-a1-m1-cD 3tlf-a1-m1-cF_3tlf-a1-m1-cD 3tlf-a1-m1-cF_3tlf-a1-m1-cE 3tlf-a2-m1-cB_3tlf-a2-m1-cA 3tlf-a2-m1-cB_3tlf-a2-m1-cC 3tlf-a2-m1-cC_3tlf-a2-m1-cA 3tlf-a3-m1-cE_3tlf-a3-m1-cD 3tlf-a3-m1-cF_3tlf-a3-m1-cD SFDTIKYEVDGHTATITLNRPDALNALSPHMITELRAAYHEAENDDRVWLLVVTGTGRAFCSGADVPYLSTYDQWEAPQEGTPPFRTMAKPVLTAVNGICCGAGMDWVTTTDIVIASEQATFFDPHVSIGLVAGRELVRVSRVLPRSIALRMALMGKHERMSAQRAYELGLISEIVEHDRLLERAHEIADIVNSNAPLAVRGTRLAILKGLNVPLHEAEILAETFRERVLRTEDAAEGPRAFVEKRQPNWQCR SFDTIKYEVDGHTATITLNRPDALNALSPHMITELRAAYHEAENDDRVWLLVVTGTGRAFCSGADVRPYLSTYDQWEAPQEGTPPFRTMAKPVLTAVNGICCGAGMDWVTTTDIVIASEQATFFDPHVSIGLVAGRELVRVSRVLPRSIALRMALMGKHERMSAQRAYELGLISEIVEHDRLLERAHEIADIVNSNAPLAVRGTRLAILKGLNVPLHEAEILAETFRERVLRTEDAAEGPRAFVEKRQPNWQCR 3tli-a1-m1-cA_3tli-a1-m2-cA THERMOLYSIN (10% ISOPROPANOL SOAKED CRYSTALS) P00800 P00800 1.95 X-RAY DIFFRACTION 49 1.0 1427 (Bacillus thermoproteolyticus) 1427 (Bacillus thermoproteolyticus) 316 316 1os0-a2-m1-cA_1os0-a2-m2-cA 1tli-a1-m1-cA_1tli-a1-m2-cA 2tli-a1-m1-cA_2tli-a1-m2-cA ITGTSTVGVGRGVLGDQKNINTTYSTYYYLQDNTRGDGIFTYDAKYRTTLPGSLWADADNQFFASYDAPAVDAHYYAGVTYDYYKNVHNRLSYDGNNAAIRSSVHYSQGYNNAFWNGSEMVYGDGDGQTFIPLSGGIDVVAHELTHAVTDYTAGLIYQNESGAINEAISDIFGTLVEFYANKNPDWEIGEDVYTPGISGDSLRSMSDPAKYGDPDHYSKRYTGTQDNGGVHINSGIINKAAYLISQGGTHYGVSVVGIGRDKLGKIFYRALTQYLTPTSNFSQLRAAAVQSATDLYGSTSQEVASVKQAFDAVGVK ITGTSTVGVGRGVLGDQKNINTTYSTYYYLQDNTRGDGIFTYDAKYRTTLPGSLWADADNQFFASYDAPAVDAHYYAGVTYDYYKNVHNRLSYDGNNAAIRSSVHYSQGYNNAFWNGSEMVYGDGDGQTFIPLSGGIDVVAHELTHAVTDYTAGLIYQNESGAINEAISDIFGTLVEFYANKNPDWEIGEDVYTPGISGDSLRSMSDPAKYGDPDHYSKRYTGTQDNGGVHINSGIINKAAYLISQGGTHYGVSVVGIGRDKLGKIFYRALTQYLTPTSNFSQLRAAAVQSATDLYGSTSQEVASVKQAFDAVGVK 3tm3-a1-m1-cA_3tm3-a1-m2-cA Wild-type hemoglobin from Vitreoscilla stercoraria P04252 P04252 1.75 X-RAY DIFFRACTION 33 1.0 61 (Vitreoscilla stercoraria) 61 (Vitreoscilla stercoraria) 144 144 1vhb-a1-m1-cA_1vhb-a1-m1-cB 2vhb-a1-m1-cA_2vhb-a1-m1-cB 3tld-a1-m1-cA_3tld-a1-m1-cB 3vhb-a1-m1-cA_3vhb-a1-m1-cB 4vhb-a1-m1-cB_4vhb-a1-m1-cA MLDQQTINIIKATVPVLKEHGVTITTTFYKNLFAKHPEVRPLFDMGESLEQPKALAMTVLAAAQNIENLPAILPAVKKIAVKHCQAGVAAAHYPIVGQELLGAIKEVLGDAATDDILDAWGKAYGVIADVFIQVEADLYAQAVE MLDQQTINIIKATVPVLKEHGVTITTTFYKNLFAKHPEVRPLFDMGESLEQPKALAMTVLAAAQNIENLPAILPAVKKIAVKHCQAGVAAAHYPIVGQELLGAIKEVLGDAATDDILDAWGKAYGVIADVFIQVEADLYAQAVE 3tm9-a1-m1-cA_3tm9-a1-m2-cA Y29A mutant of Vitreoscilla stercoraria hemoglobin P04252 P04252 1.72 X-RAY DIFFRACTION 26 1.0 61 (Vitreoscilla stercoraria) 61 (Vitreoscilla stercoraria) 146 146 MLDQQTINIIKATVPVLKEHGVTITTTFAKNLFAKHPEVRPLFDMGRQESLEQPKALAMTVLAAAQNIENLPAILPAVKKIAVKHCQAGVAAAHYPIVGQELLGAIKEVLGDAATDDILDAWGKAYGVIADVFIQVEADLYAQAVE MLDQQTINIIKATVPVLKEHGVTITTTFAKNLFAKHPEVRPLFDMGRQESLEQPKALAMTVLAAAQNIENLPAILPAVKKIAVKHCQAGVAAAHYPIVGQELLGAIKEVLGDAATDDILDAWGKAYGVIADVFIQVEADLYAQAVE 3tma-a2-m1-cA_3tma-a2-m2-cA Crystal structure of TrmN from Thermus thermophilus Q72IH5 Q72IH5 2.05 X-RAY DIFFRACTION 70 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 332 332 HMWLEATTHPGLEDLLLEELSALYPGEGAEVDARKGRVRIPRAWVGEEALGLRLAHHLVLFRARLLLSREDPLGALERAALALPWPELEGAGSFRVEARREGEHPFTSPEVERRVGEALHRAYGVPVDLKRPAVRVRVDVRGEEAFLGVQLTERPLSRRFPKAALRGSLTPVLAQALLRLADARPGMRVLDPFTGSGTIALEAASTLGPTSPVYAGDLDEKRLGLAREAALASGLSWIRFLRADARHLPRFFPEVDRILANPPHGLKEGLFHLYWDFLRGALALLPPGGRVALLTLRPALLKRALPPGFALRHARVVEQGGVYPRVFVLEKL HMWLEATTHPGLEDLLLEELSALYPGEGAEVDARKGRVRIPRAWVGEEALGLRLAHHLVLFRARLLLSREDPLGALERAALALPWPELEGAGSFRVEARREGEHPFTSPEVERRVGEALHRAYGVPVDLKRPAVRVRVDVRGEEAFLGVQLTERPLSRRFPKAALRGSLTPVLAQALLRLADARPGMRVLDPFTGSGTIALEAASTLGPTSPVYAGDLDEKRLGLAREAALASGLSWIRFLRADARHLPRFFPEVDRILANPPHGLKEGLFHLYWDFLRGALALLPPGGRVALLTLRPALLKRALPPGFALRHARVVEQGGVYPRVFVLEKL 3tmh-a1-m1-cE_3tmh-a1-m2-cI Crystal structure of dual-specific A-kinase anchoring protein 2 in complex with cAMP-dependent protein kinase A type II alpha and PDZK1 Q5T2W1 Q5T2W1 3.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 3tmh-a1-m1-cA_3tmh-a1-m1-cE 3tmh-a1-m1-cA_3tmh-a1-m2-cI 3tmh-a1-m1-cI_3tmh-a1-m2-cA 3tmh-a1-m1-cI_3tmh-a1-m2-cE 3tmh-a1-m2-cA_3tmh-a1-m2-cE KPKLCRLAKGENGYGFHLNAIRGLPGSFIKEVQKGGPADLAGLEDEDVIIEVNGVNVLDEPYEKVVDRIQSSGKNVTLLVCG KPKLCRLAKGENGYGFHLNAIRGLPGSFIKEVQKGGPADLAGLEDEDVIIEVNGVNVLDEPYEKVVDRIQSSGKNVTLLVCG 3tmk-a4-m1-cH_3tmk-a4-m1-cG CRYSTAL STRUCTURE OF YEAST THYMIDYLATE KINASE COMPLEXED WITH THE BISUBSTRATE INHIBITOR TP5A AT 2.0 A RESOLUTION: IMPLICATIONS FOR CATALYSIS AND AZT ACTIVATION P00572 P00572 2 X-RAY DIFFRACTION 60 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 214 215 1tmk-a1-m1-cA_1tmk-a1-m1-cB 2tmk-a1-m1-cA_2tmk-a1-m1-cB 3tmk-a1-m1-cA_3tmk-a1-m1-cB 3tmk-a2-m1-cC_3tmk-a2-m1-cD 3tmk-a3-m1-cE_3tmk-a3-m1-cF GRGKLILIEGLDRTGKTTQCNILYKKLQPNCKLLKFPERSTRIGGLINEYLTDDSFQLSDQAIHLLFSANRWEIVDKIKKDLLEGKNIVMDRYVYSGVAYSAAKGTNGMDLDWCLQPDVGLLKPDLTLFLSTQDVDNNAEKSGFGDERYETVKFQEKVKQTFMKLLDKEIRKGDESITIVDVTNKGIQEVEALIWQIVEPVLSTHIDHDKFSFF MGRGKLILIEGLDRTGKTTQCNILYKKLQPNCKLLKFPERSTRIGGLINEYLTDDSFQLSDQAIHLLFSANRWEIVDKIKKDLLEGKNIVMDRYVYSGVAYSAAKGTNGMDLDWCLQPDVGLLKPDLTLFLSTQDVDNNAEKSGFGDERYETVKFQEKVKQTFMKLLDKEIRKGDESITIVDVTNKGIQEVEALIWQIVEPVLSTHIDHDKFSFF 3tml-a1-m1-cC_3tml-a1-m1-cD Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia cenocepacia B4EDA2 B4EDA2 1.9 X-RAY DIFFRACTION 23 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 264 264 SMKLCDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICEKLNVPFIYKSSYLGMDEGLRILSEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKARDAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETNAPVVFDATHSVQLPGGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRNPFLENDF SMKLCDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICEKLNVPFIYKSSYLGMDEGLRILSEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKARDAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETNAPVVFDATHSVQLPGGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRNPFLENDF 3tml-a2-m1-cC_3tml-a2-m2-cD Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia cenocepacia B4EDA2 B4EDA2 1.9 X-RAY DIFFRACTION 11 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 264 264 3t4c-a1-m1-cB_3t4c-a1-m1-cA 3t4c-a1-m1-cD_3t4c-a1-m1-cC 3tml-a2-m1-cA_3tml-a2-m2-cB SMKLCDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICEKLNVPFIYKSSYLGMDEGLRILSEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKARDAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETNAPVVFDATHSVQLPGGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRNPFLENDF SMKLCDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICEKLNVPFIYKSSYLGMDEGLRILSEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKARDAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETNAPVVFDATHSVQLPGGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRNPFLENDF 3tml-a2-m2-cB_3tml-a2-m2-cD Crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia cenocepacia B4EDA2 B4EDA2 1.9 X-RAY DIFFRACTION 102 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 264 264 3t4c-a1-m1-cB_3t4c-a1-m1-cC 3t4c-a1-m1-cD_3t4c-a1-m1-cA 3tml-a1-m1-cA_3tml-a1-m1-cC 3tml-a1-m1-cB_3tml-a1-m1-cD 3tml-a2-m1-cA_3tml-a2-m1-cC SMKLCDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICEKLNVPFIYKSSYLGMDEGLRILSEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKARDAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETNAPVVFDATHSVQLPGGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRNPFLENDF SMKLCDFEVGLDQPFFLIAGTCVVESEQMTIDTAGRLKEICEKLNVPFIYKSSYLGMDEGLRILSEVKRQLGLPVLTDVHSIDEIEQVASVVDVLQTPAFLCRQTDFIHACARSGKPVNIKKGQFLAPHDMKNVIDKARDAAREAGLSEDRFMACERGVSFGYNNLVSDMRSLAIMRETNAPVVFDATHSVQLPGGQREFVPVLARAAVATGVAGLFMETHPNPAEAKSDGPNAVPLNRMGALLETLVTLDQAVKRNPFLENDF 3tmo-a2-m1-cA_3tmo-a2-m2-cA The catalytic domain of human deubiquitinase DUBA Q96G74 Q96G74 2.2 X-RAY DIFFRACTION 185 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 AARIEADPATVEQQEHWFEKALRDKKGFIIKQKEDGACLFRAVADQVYGDQDHEVVRKHCDYLKNADYFSNYHGNHIEQAAEYNRPVEVYQYSTGTSAVEPINTFHGIHQNEDEPIRVSYHRNIHYNSVVNPN AARIEADPATVEQQEHWFEKALRDKKGFIIKQKEDGACLFRAVADQVYGDQDHEVVRKHCDYLKNADYFSNYHGNHIEQAAEYNRPVEVYQYSTGTSAVEPINTFHGIHQNEDEPIRVSYHRNIHYNSVVNPN 3tmq-a1-m1-cD_3tmq-a1-m1-cA Crystal structure of a 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia pseudomallei in complex with D-arabinose-5-phosphate Q3JP68 Q3JP68 2.1 X-RAY DIFFRACTION 13 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 264 280 3sz8-a1-m1-cB_3sz8-a1-m1-cC 3sz8-a1-m1-cD_3sz8-a1-m1-cA 3tmq-a1-m1-cB_3tmq-a1-m1-cC 3und-a1-m1-cA_3und-a1-m1-cD 3und-a1-m1-cC_3und-a1-m1-cB MNVAISPGVTAGNSLPFVLFGGINVLESLDFTLDVCGEYVAVTRKLGIPFVFKASFDKANRSSIHSYRGVGLDEGLKIFAEVKARFGVPVITDVHEAEQAAPVAEIADVLQVPAFLARQTDLVVAIAKAGKPVNVKKPQFMSPTQLKHVVSKCGEVGNDRVMLCERGSSFGYDNLVVDMLGFRQMAETTGGCPVIFDVTHSLQCRRQVLDLARAGIAVGIAGLFLEAHPDPDRSALPLHQLEGLLSQMKAIDDLVKRMPALEIR MNVAISPGVTAGNSLPFVLFGGINVLESLDFTLDVCGEYVAVTRKLGIPFVFKASFDKANRSSIHSYRGVGLDEGLKIFAEVKARFGVPVITDVHEAEQAAPVAEIADVLQVPAFLARQTDLVVAIAKAGKPVNVKKPQFMSPTQLKHVVSKCGEVGNDRVMLCERGSSFGYDNLVVDMLGFRQMAETTGGCPVIFDVTHSLQCRDPLGDASGGRRRQVLDLARAGIAVGIAGLFLEAHPDPDRARCDGPSALPLHQLEGLLSQMKAIDDLVKRMPALEI 3tmq-a1-m1-cD_3tmq-a1-m1-cC Crystal structure of a 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia pseudomallei in complex with D-arabinose-5-phosphate Q3JP68 Q3JP68 2.1 X-RAY DIFFRACTION 103 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 264 281 3sz8-a1-m1-cA_3sz8-a1-m1-cC 3sz8-a1-m1-cB_3sz8-a1-m1-cD 3tmq-a1-m1-cB_3tmq-a1-m1-cA 3und-a1-m1-cA_3und-a1-m1-cB 3und-a1-m1-cC_3und-a1-m1-cD MNVAISPGVTAGNSLPFVLFGGINVLESLDFTLDVCGEYVAVTRKLGIPFVFKASFDKANRSSIHSYRGVGLDEGLKIFAEVKARFGVPVITDVHEAEQAAPVAEIADVLQVPAFLARQTDLVVAIAKAGKPVNVKKPQFMSPTQLKHVVSKCGEVGNDRVMLCERGSSFGYDNLVVDMLGFRQMAETTGGCPVIFDVTHSLQCRRQVLDLARAGIAVGIAGLFLEAHPDPDRSALPLHQLEGLLSQMKAIDDLVKRMPALEIR SMNVAISPGVTAGNSLPFVLFGGINVLESLDFTLDVCGEYVAVTRKLGIPFVFKASFDKANRSSIHSYRGVGLDEGLKIFAEVKARFGVPVITDVHEAEQAAPVAEIADVLQVPAFLARQTDLVVAIAKAGKPVNVKKPQFMSPTQLKHVVSKCGEVGNDRVMLCERGSSFGYDNLVVDMLGFRQMAETTGGCPVIFDVTHSLQCRDPLGDASGGRRRQVLDLARAGIAVGIAGLFLEAHPDPDRARCDGPSALPLHQLEGLLSQMKAIDDLVKRMPALEI 3tmr-a1-m1-cB_3tmr-a1-m1-cA IrisFP, planar chromophore Q5S6Z9 Q5S6Z9 2 X-RAY DIFFRACTION 78 1.0 46758 (Lobophyllia hemprichii) 46758 (Lobophyllia hemprichii) 220 221 1zux-a1-m1-cA_1zux-a1-m1-cC 1zux-a1-m1-cB_1zux-a1-m1-cD 2btj-a1-m1-cA_2btj-a1-m1-cD 2btj-a1-m1-cB_2btj-a1-m1-cC 2vvh-a1-m1-cA_2vvh-a1-m1-cC 2vvh-a1-m1-cB_2vvh-a1-m1-cD 2vvi-a1-m1-cA_2vvi-a1-m1-cC 2vvi-a1-m1-cB_2vvi-a1-m1-cD 2vvj-a1-m1-cA_2vvj-a1-m1-cC 2vvj-a1-m1-cD_2vvj-a1-m1-cB 3p8u-a5-m1-cB_3p8u-a5-m1-cA 3p8u-a5-m1-cD_3p8u-a5-m1-cC 3s05-a1-m1-cC_3s05-a1-m1-cA 3s05-a1-m1-cD_3s05-a1-m1-cB 3tmr-a1-m1-cC_3tmr-a1-m1-cD 3tmt-a1-m1-cB_3tmt-a1-m1-cA 3tmt-a1-m1-cC_3tmt-a1-m1-cD 4ljb-a1-m1-cA_4ljb-a1-m1-cC 4ljb-a1-m1-cB_4ljb-a1-m1-cD 4ljc-a1-m1-cA_4ljc-a1-m1-cC 4ljc-a1-m1-cB_4ljc-a1-m1-cD 4ljd-a1-m1-cA_4ljd-a1-m1-cC 4ljd-a1-m1-cB_4ljd-a1-m1-cD 4r6b-a1-m1-cA_4r6b-a1-m1-cC 4r6b-a1-m1-cB_4r6b-a1-m1-cD 5dtl-a1-m1-cA_5dtl-a1-m1-cE 5dtl-a1-m1-cD_5dtl-a1-m1-cJ 5dtl-a2-m1-cB_5dtl-a2-m1-cG 5dtl-a2-m1-cF_5dtl-a2-m1-cK 5dtl-a3-m1-cC_5dtl-a3-m1-cI 5dtl-a3-m1-cH_5dtl-a3-m1-cL 5fvf-a1-m1-cA_5fvf-a1-m1-cB 5fvf-a1-m1-cC_5fvf-a1-m1-cD 5fvg-a1-m1-cA_5fvg-a1-m1-cB 5fvg-a1-m1-cD_5fvg-a1-m1-cC 5fvi-a1-m1-cA_5fvi-a1-m1-cB 5fvi-a1-m1-cD_5fvi-a1-m1-cC MSAIKPDMKINLRMEGNVNGHHFVIDGDGTGKPFEGKQSMDLEVKEGGPLPFAFDILTTAFNRVFAEYPDHIQDYFKQSFPKGYSWERSLTFEDGGICIARNDITMEGDTFYNKVRFHGVNFPANGPVMQKKTLKWEPSTEKMYVRDGVLTGDITMALLLEGNAHYRCDSRTTYKAKEKGVKLPGYHLVDHCIEILSHDKDYNKVKLYEHAVAHSGLPDN HMSAIKPDMKINLRMEGNVNGHHFVIDGDGTGKPFEGKQSMDLEVKEGGPLPFAFDILTTAFNRVFAEYPDHIQDYFKQSFPKGYSWERSLTFEDGGICIARNDITMEGDTFYNKVRFHGVNFPANGPVMQKKTLKWEPSTEKMYVRDGVLTGDITMALLLEGNAHYRCDSRTTYKAKEKGVKLPGYHLVDHCIEILSHDKDYNKVKLYEHAVAHSGLPDN 3tmx-a2-m1-cA_3tmx-a2-m2-cA X-Ray Radiation Damage to HEWL Crystals soaked in 100mM Sodium Nitrate (Dose=1.9MGy) P00698 P00698 1.9 X-RAY DIFFRACTION 42 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 2hu1-a2-m1-cA_2hu1-a2-m2-cA 2hu3-a2-m1-cA_2hu3-a2-m2-cA 3p66-a2-m1-cA_3p66-a2-m2-cA 3tmu-a2-m1-cA_3tmu-a2-m2-cA 3tmv-a2-m1-cA_3tmv-a2-m2-cA 3tmw-a2-m1-cA_3tmw-a2-m2-cA 4b1a-a1-m1-cA_4b1a-a1-m2-cA 4lyb-a2-m1-cA_4lyb-a2-m2-cA 4lyc-a2-m1-cA_4lyc-a2-m2-cA 4phi-a2-m1-cA_4phi-a2-m1-cD 4phi-a2-m1-cB_4phi-a2-m1-cC 5kki-a2-m1-cA_5kki-a2-m2-cA 5yky-a1-m1-cA_5yky-a1-m2-cA KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 3tnj-a1-m1-cA_3tnj-a1-m2-cA Crystal structure of universal stress protein from Nitrosomonas europaea with AMP bound Q82VN8 Q82VN8 2 X-RAY DIFFRACTION 58 1.0 228410 (Nitrosomonas europaea ATCC 19718) 228410 (Nitrosomonas europaea ATCC 19718) 130 130 2pfs-a1-m1-cA_2pfs-a1-m2-cA SVYHHILLAVDFSSEDSQVVQKVRNLASQIGARLSLIHVLDYGTAIPLDTETTYDAMLDVEKQKLSQIGNTLGIDPAHRWLVWGEPREEIIRIAEQENVDLIVVGSHLGSTANSVLHYAKCDVLAVRLRD SVYHHILLAVDFSSEDSQVVQKVRNLASQIGARLSLIHVLDYGTAIPLDTETTYDAMLDVEKQKLSQIGNTLGIDPAHRWLVWGEPREEIIRIAEQENVDLIVVGSHLGSTANSVLHYAKCDVLAVRLRD 3tnp-a1-m1-cB_3tnp-a1-m1-cE Structure and Allostery of the PKA RIIb Tetrameric Holoenzyme P31324 P31324 2.3 X-RAY DIFFRACTION 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 270 270 INRFTRRASVCAEAYNPDRIIHPKTDDQRNRLQEACKDILLFKNLDPEQMSQVLDAMFEKLVKEGEHVIDQGDDGDNFYVIDRGTFDIYVKCDGVGRCVGNYDNRGSFGELALMYNTPKAATITATSPGALWGLDRVTFRRIIVKNNAKKRKMYESFIESLPFLKSLEVSERLKVVDVIGTKVYNDGEQIIAQGDLADSFFIVESGEVKITMKVEIARCFRGQYFGELALVTNKPRAASAHAIGTVKCLAMDVQAFERLLGPCMEIMKRN INRFTRRASVCAEAYNPDRIIHPKTDDQRNRLQEACKDILLFKNLDPEQMSQVLDAMFEKLVKEGEHVIDQGDDGDNFYVIDRGTFDIYVKCDGVGRCVGNYDNRGSFGELALMYNTPKAATITATSPGALWGLDRVTFRRIIVKNNAKKRKMYESFIESLPFLKSLEVSERLKVVDVIGTKVYNDGEQIIAQGDLADSFFIVESGEVKITMKVEIARCFRGQYFGELALVTNKPRAASAHAIGTVKCLAMDVQAFERLLGPCMEIMKRN 3tnu-a1-m1-cA_3tnu-a1-m2-cA Heterocomplex of coil 2B domains of human intermediate filament proteins, keratin 5 (KRT5) and keratin 14 (KRT14) P02533 P02533 3.005 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 SELRRTMQNLEIELQSQLSMKASLENSLEETKGRYCMQLAQIQEMIGSVEEQLAQLRCEMEQQNQEYKILLDVKTRLEQEIATYRRLLEG SELRRTMQNLEIELQSQLSMKASLENSLEETKGRYCMQLAQIQEMIGSVEEQLAQLRCEMEQQNQEYKILLDVKTRLEQEIATYRRLLEG 3tnz-a1-m1-cB_3tnz-a1-m1-cA Crystal structure of Mus musculus iodotyrosine deiodinase (IYD) C217A, C239A bound to FMN and mono-iodotyrosine (MIT) Q9DCX8 Q9DCX8 2.25 X-RAY DIFFRACTION 326 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 222 3gfd-a1-m1-cB_3gfd-a1-m1-cA 3gh8-a1-m1-cB_3gh8-a1-m1-cA 3gh8-a2-m1-cD_3gh8-a2-m1-cC 3gh8-a3-m1-cF_3gh8-a3-m1-cE 3gh8-a4-m1-cH_3gh8-a4-m1-cG 4ttc-a1-m1-cA_4ttc-a1-m1-cB 4ttc-a2-m1-cC_4ttc-a2-m1-cD 4ttc-a3-m1-cE_4ttc-a3-m1-cF SVEHIPFSHTRYPEQEMRMRSQEFYELLNKRRSVRFISSEHVPMEVIENVIKAAGTAPSGAHTEPWTFVVVKDPDMKHKIREIIEEEEEINYMKRMGKRWVTDLKKLRTNWIKEYLDTAPVLILIFKQVHGFAANGKKKVHYYNEISVSIAAGLLLAALQNAGLVTVTTTPLNAGPRLRVLLGRPSHEKLLVLLPVGYPSRDATVPDLKRKALDQIMVTVH SVEHIPFSHTRYPEQEMRMRSQEFYELLNKRRSVRFISSEHVPMEVIENVIKAAGTAPSGAHTEPWTFVVVKDPDMKHKIREIIEEEEEINYMKRMGKRWVTDLKKLRTNWIKEYLDTAPVLILIFKQVHGFAANGKKKVHYYNEISVSIAAGLLLAALQNAGLVTVTTTPLNAGPRLRVLLGRPSHEKLLVLLPVGYPSRDATVPDLKRKALDQIMVTVHH 3to3-a1-m1-cA_3to3-a1-m1-cB Crystal Structure of Petrobactin Biosynthesis Protein AsbB from Bacillus anthracis str. Sterne Q81RQ8 Q81RQ8 2.382 X-RAY DIFFRACTION 83 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 580 582 DYHTKILKAIESEDYISVRRRVLRQLVESLIYEGIITPARIEKEEQILFLIQGLDEDNKSVTYECYGRERITFGRISIDSLIVRVQDGKQEIQSVAQFLEEVFRVVNVEQTKLDSFIHELEQTIFKDTIAQYERCKSYDELENHLIDGHPYHPSYKARIGFQYRDNFRYGYEFRPIKLIWIAAHKKNATVGYENEVIYDKILKSEVGERKLEAYKERIHSGCDPKQYLFIPVHPWQWENFIISNYAEDIQDKGIIYLGESADDYCAQQSRTLRNVTNPKRPYVKVSLNILNTSTLRTLKPYSVASAPAISNWLSNVVSQDSYLRDESRVILLKEFSSVYDTNKKATYGSLGCIWRESVHHYLGEQEDAVPFNGLYAKEKDGTPIIDAWLNKYGIENWLRLLIQKAIIPVIHLVVEHGIALESHGQNILVHKEGLPVRIALKDFHEGLEFYRPFLKENKCPDFTKHKTYANGKNDFFEDRIECLQEVLDALFLFNVGELAFVLADKYEWKEESFWIVVEEIENHFRKYPHLKDRFESIQLYTPTFYAEQLTKRRLYIDVESLVHEVPNPLYRARQLNIQKS ADYHTKILKAIESEDYISVRRRVLRQLVESLIYEGIITPARIEKEEQILFLIQGLDEDNKSVTYECYGRERITFGRISIDSLIVRVQDGKQEIQSVAQFLEEVFRVVNVEQTKLDSFIHELEQTIFKDTIAQYERCNKSYDELENHLIDGHPYHPSYKARIGFQYRDNFRYGYEFRPIKLIWIAAHKKNATVGYENEVIYDKILKSEVGERKLEAYKERIHSGCDPKQYLFIPVHPWQWENFIISNYAEDIQDKGIIYLGESADDYCAQQSRTLRNVTNPKRPYVKVSLNILNTSTLRTLKPYSVASAPAISNWLSNVVSQDSYLRDESRVILLKEFSSVYDTNKKATYGSLGCIWRESVHHYLGEQEDAVPFNGLYAKEKDGTPIIDAWLNKYGIENWLRLLIQKAIIPVIHLVVEHGIALESHGQNILVHKEGLPVRIALKDFHEGLEFYRPFLKENKCPDFTKHKTYANGKNDFFEDRIECLQEVLDALFLFNVGELAFVLADKYEWKEESFWIVVEEIENHFRKYPHLKDRFESIQLYTPTFYAEQLTKRRLYIDVESLVHEVPNPLYRARQLNIQKS 3to7-a2-m2-cA_3to7-a2-m3-cA Crystal structure of yeast Esa1 HAT domain bound to coenzyme A with active site lysine acetylated Q08649 Q08649 1.9 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 275 275 1fy7-a2-m1-cA_1fy7-a2-m2-cA 1fy7-a2-m1-cA_1fy7-a2-m3-cA 1fy7-a2-m2-cA_1fy7-a2-m3-cA 1fy7-a3-m1-cA_1fy7-a3-m2-cA 1fy7-a3-m1-cA_1fy7-a3-m3-cA 1fy7-a3-m2-cA_1fy7-a3-m3-cA 1fy7-a3-m4-cA_1fy7-a3-m5-cA 1fy7-a3-m4-cA_1fy7-a3-m6-cA 1fy7-a3-m5-cA_1fy7-a3-m6-cA 1mj9-a2-m1-cA_1mj9-a2-m2-cA 1mj9-a2-m1-cA_1mj9-a2-m3-cA 1mj9-a2-m2-cA_1mj9-a2-m3-cA 1mj9-a3-m1-cA_1mj9-a3-m2-cA 1mj9-a3-m1-cA_1mj9-a3-m3-cA 1mj9-a3-m2-cA_1mj9-a3-m3-cA 1mj9-a3-m4-cA_1mj9-a3-m5-cA 1mj9-a3-m4-cA_1mj9-a3-m6-cA 1mj9-a3-m5-cA_1mj9-a3-m6-cA 1mja-a2-m1-cA_1mja-a2-m2-cA 1mja-a2-m1-cA_1mja-a2-m3-cA 1mja-a2-m2-cA_1mja-a2-m3-cA 1mja-a3-m1-cA_1mja-a3-m2-cA 1mja-a3-m1-cA_1mja-a3-m3-cA 1mja-a3-m2-cA_1mja-a3-m3-cA 1mja-a3-m4-cA_1mja-a3-m5-cA 1mja-a3-m4-cA_1mja-a3-m6-cA 1mja-a3-m5-cA_1mja-a3-m6-cA 1mjb-a2-m1-cA_1mjb-a2-m2-cA 1mjb-a2-m1-cA_1mjb-a2-m3-cA 1mjb-a2-m2-cA_1mjb-a2-m3-cA 1mjb-a3-m1-cA_1mjb-a3-m2-cA 1mjb-a3-m1-cA_1mjb-a3-m3-cA 1mjb-a3-m2-cA_1mjb-a3-m3-cA 1mjb-a3-m4-cA_1mjb-a3-m5-cA 1mjb-a3-m4-cA_1mjb-a3-m6-cA 1mjb-a3-m5-cA_1mjb-a3-m6-cA 3to6-a1-m1-cA_3to6-a1-m2-cA 3to6-a1-m1-cA_3to6-a1-m3-cA 3to6-a1-m2-cA_3to6-a1-m3-cA 3to7-a2-m1-cA_3to7-a2-m2-cA 3to7-a2-m1-cA_3to7-a2-m3-cA 3to9-a2-m1-cA_3to9-a2-m2-cA 3to9-a2-m1-cA_3to9-a2-m3-cA 3to9-a2-m2-cA_3to9-a2-m3-cA EVARVRNLNRIIMGKYEIEPWYFSPYPIELTDEDFIYIDDFTLQYFGSKKQYERYRKKCTLRHPPGNEIYRDDYVSFFEIDGRKQRTWCRNLCLLSKLFLDHTLYYDVDPFLFYCMTRRDELGHHLVGYFSKEKESADGYNVACILTLPQYQRMGYGKLLIEFSYELSKKENKVGSPEKPLSDLGLLSYRAYWSDTLITLLVEHQKEITIDEISSMTSMTTTDILHTAKTLNILRYYKGQHIIFLNEDILDRYNRLKAKKRRTIDPNRLIWKPPV EVARVRNLNRIIMGKYEIEPWYFSPYPIELTDEDFIYIDDFTLQYFGSKKQYERYRKKCTLRHPPGNEIYRDDYVSFFEIDGRKQRTWCRNLCLLSKLFLDHTLYYDVDPFLFYCMTRRDELGHHLVGYFSKEKESADGYNVACILTLPQYQRMGYGKLLIEFSYELSKKENKVGSPEKPLSDLGLLSYRAYWSDTLITLLVEHQKEITIDEISSMTSMTTTDILHTAKTLNILRYYKGQHIIFLNEDILDRYNRLKAKKRRTIDPNRLIWKPPV 3toc-a1-m1-cA_3toc-a1-m2-cB Crystal structure of Streptococcus pyogenes Csn2 Q99ZV9 Q99ZV9 2.201 X-RAY DIFFRACTION 117 0.995 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 205 212 3toc-a1-m2-cA_3toc-a1-m1-cB 3v7f-a1-m1-cA_3v7f-a1-m2-cB 3v7f-a1-m2-cA_3v7f-a1-m1-cB NLNFSLLDEPIPLRGGTILVLEDVCVFSKIVQYCYQYESELKFFKTIKESEILVTDILGFDVNSSTILKLIHADLESQFNEKPEVKSIDKLVATITELIVFECLENELDLEYDEITILELIKSLGVKVETQSDTIFEKCLEILQIFKYLTKKKLLIFVNSGAFLTKDEVASLQEYISLTNLTVLFLEPRELYDFPQYILDLITKN TNLNFSLLDEPIPLRGGTILVLEDVCVFSKIVQYCYQYESELKFFDHKKTIKESEILVTDILGFDVNSSTILKLIHADLESQFNEKPEVKSIDKLVATITELIVFECLENELDLEYDEITILELIKSLGVKVETSDTIFEKCLEILQIFKYLTKKKLLIFVNSGAFLTKDEVASLQEYISLTNLTVLFLEPRELYDFPQYILDEDYFLITKN 3toc-a1-m2-cA_3toc-a1-m2-cB Crystal structure of Streptococcus pyogenes Csn2 Q99ZV9 Q99ZV9 2.201 X-RAY DIFFRACTION 69 0.995 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 205 212 3toc-a1-m1-cA_3toc-a1-m1-cB 3v7f-a1-m1-cA_3v7f-a1-m1-cB 3v7f-a1-m2-cA_3v7f-a1-m2-cB NLNFSLLDEPIPLRGGTILVLEDVCVFSKIVQYCYQYESELKFFKTIKESEILVTDILGFDVNSSTILKLIHADLESQFNEKPEVKSIDKLVATITELIVFECLENELDLEYDEITILELIKSLGVKVETQSDTIFEKCLEILQIFKYLTKKKLLIFVNSGAFLTKDEVASLQEYISLTNLTVLFLEPRELYDFPQYILDLITKN TNLNFSLLDEPIPLRGGTILVLEDVCVFSKIVQYCYQYESELKFFDHKKTIKESEILVTDILGFDVNSSTILKLIHADLESQFNEKPEVKSIDKLVATITELIVFECLENELDLEYDEITILELIKSLGVKVETSDTIFEKCLEILQIFKYLTKKKLLIFVNSGAFLTKDEVASLQEYISLTNLTVLFLEPRELYDFPQYILDEDYFLITKN 3toe-a1-m1-cA_3toe-a1-m1-cB Structure of Mth10b O27527 O27527 2.197 X-RAY DIFFRACTION 50 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 86 86 NVVYIGNKPVMNYVLAVVTQMNGGTSEVILKARGIAISRAVDVAEIVRNRFIPDIQIENIDICTEEIIGNEGTATNVSAIEIQLRK NVVYIGNKPVMNYVLAVVTQMNGGTSEVILKARGIAISRAVDVAEIVRNRFIPDIQIENIDICTEEIIGNEGTATNVSAIEIQLRK 3toj-a1-m1-cA_3toj-a1-m1-cB Structure of the SPRY domain of human Ash2L Q9UBL3 Q9UBL3 2.07 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 197 SGDLYRACLYERVLLALHDRAPQLKISDDRLTVVGEKGYSMVRASHGVRKGAWYFEITVDEMPPDTAARLGWSQPLGNLQAPLGYDKFSYSWRSKKGTKFHQSIGKHYSSGYGQGDVLGFYINLPEDGSSEIIFYKNGVNQGVAYKDIFEGVYFPAISLYKSCTVSINFGPCFKYPPKDLTYRPMSDMGWGAVVEH SGDLYRACLYERVLLALHDRAPQLKISDDRLTVVGEKGYSMVRASHGVRKGAWYFEITVDEMPPDTAARLGWSQPLGNLQAPLGYDKFSYSWRSKKGTKFHQSIGKHYSSGYGQGDVLGFYINLPEDGSSEIIFYKNGVNQGVAYKDIFEGVYFPAISLYKSCTVSINFGPCFKYPPKDLTYRPMSDMGWGAVVEHT 3tom-a3-m1-cC_3tom-a3-m1-cD Crystal structure of an engineered cytochrome cb562 that forms 2D, Zn-mediated sheets P0ABE7 P0ABE7 2.3 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 106 3tol-a1-m1-cA_3tol-a1-m1-cB 3tol-a2-m1-cC_3tol-a2-m1-cD 3tom-a1-m1-cC_3tom-a1-m1-cD 3tom-a2-m1-cA_3tom-a2-m1-cB 3tom-a3-m1-cA_3tom-a3-m1-cB 5bu7-a1-m1-cA_5bu7-a1-m1-cB 5bu7-a1-m2-cA_5bu7-a1-m2-cB ADLEDNMETLNDNLKVIEKADNAAQVEKALEKMLAAAADALKATPPKLEDKSPDSPEMRDFRHGFAILMGQIHDAAHLANEGKVKEAQAAAEQLKTTCNACHQKYR ADLEDNMETLNDNLKVIEKADNAAQVEKALEKMLAAAADALKATPPKLEDKSPDSPEMRDFRHGFAILMGQIHDAAHLANEGKVKEAQAAAEQLKTTCNACHQKYR 3tos-a8-m1-cD_3tos-a8-m1-cJ Crystal Structure of CalS11, Calicheamicin Methyltransferase Q8KNF1 Q8KNF1 1.55 X-RAY DIFFRACTION 96 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 247 247 3tos-a1-m1-cA_3tos-a1-m1-cC 3tos-a1-m1-cA_3tos-a1-m1-cH 3tos-a1-m1-cC_3tos-a1-m1-cF 3tos-a1-m1-cD_3tos-a1-m1-cB 3tos-a1-m1-cD_3tos-a1-m1-cJ 3tos-a1-m1-cE_3tos-a1-m1-cF 3tos-a1-m1-cE_3tos-a1-m1-cH 3tos-a1-m1-cG_3tos-a1-m1-cB 3tos-a1-m1-cI_3tos-a1-m1-cG 3tos-a1-m1-cI_3tos-a1-m1-cJ 3tos-a2-m1-cA_3tos-a2-m1-cC 3tos-a2-m1-cA_3tos-a2-m1-cH 3tos-a2-m1-cC_3tos-a2-m1-cF 3tos-a2-m1-cD_3tos-a2-m1-cB 3tos-a2-m1-cD_3tos-a2-m1-cJ 3tos-a2-m1-cE_3tos-a2-m1-cF 3tos-a2-m1-cE_3tos-a2-m1-cH 3tos-a2-m1-cG_3tos-a2-m1-cB 3tos-a2-m1-cI_3tos-a2-m1-cG 3tos-a2-m1-cI_3tos-a2-m1-cJ 3tos-a3-m1-cA_3tos-a3-m1-cC 3tos-a3-m1-cA_3tos-a3-m1-cH 3tos-a3-m1-cC_3tos-a3-m1-cF 3tos-a3-m1-cE_3tos-a3-m1-cF 3tos-a3-m1-cE_3tos-a3-m1-cH 3tos-a4-m1-cA_3tos-a4-m1-cC 3tos-a4-m1-cA_3tos-a4-m1-cH 3tos-a4-m1-cC_3tos-a4-m1-cF 3tos-a4-m1-cD_3tos-a4-m1-cB 3tos-a4-m1-cD_3tos-a4-m1-cJ 3tos-a4-m1-cE_3tos-a4-m1-cF 3tos-a4-m1-cE_3tos-a4-m1-cH 3tos-a4-m1-cG_3tos-a4-m1-cB 3tos-a4-m1-cI_3tos-a4-m1-cG 3tos-a4-m1-cI_3tos-a4-m1-cJ 3tos-a5-m1-cA_3tos-a5-m1-cC 3tos-a5-m1-cA_3tos-a5-m1-cH 3tos-a5-m1-cE_3tos-a5-m1-cH 3tos-a5-m1-cI_3tos-a5-m1-cJ 3tos-a6-m1-cD_3tos-a6-m1-cB 3tos-a6-m1-cD_3tos-a6-m1-cJ 3tos-a6-m1-cE_3tos-a6-m1-cF 3tos-a6-m1-cG_3tos-a6-m1-cB 3tos-a6-m1-cI_3tos-a6-m1-cG 3tos-a6-m1-cI_3tos-a6-m1-cJ 3tos-a7-m1-cD_3tos-a7-m1-cB 3tos-a7-m1-cD_3tos-a7-m1-cJ 3tos-a7-m1-cG_3tos-a7-m1-cB 3tos-a8-m1-cC_3tos-a8-m1-cF 3tos-a8-m1-cD_3tos-a8-m1-cB 3tos-a8-m1-cE_3tos-a8-m1-cF 3tos-a8-m1-cE_3tos-a8-m1-cH 3tos-a8-m1-cG_3tos-a8-m1-cB 4gf5-a1-m1-cA_4gf5-a1-m1-cC 4gf5-a1-m1-cA_4gf5-a1-m1-cH 4gf5-a1-m1-cB_4gf5-a1-m1-cD 4gf5-a1-m1-cB_4gf5-a1-m1-cJ 4gf5-a1-m1-cC_4gf5-a1-m1-cF 4gf5-a1-m1-cD_4gf5-a1-m1-cI 4gf5-a1-m1-cE_4gf5-a1-m1-cF 4gf5-a1-m1-cE_4gf5-a1-m1-cH 4gf5-a1-m1-cG_4gf5-a1-m1-cI 4gf5-a1-m1-cG_4gf5-a1-m1-cJ 4gf5-a2-m1-cK_4gf5-a2-m1-cL 4gf5-a2-m1-cK_4gf5-a2-m1-cO 4gf5-a2-m1-cL_4gf5-a2-m1-cN 4gf5-a2-m1-cM_4gf5-a2-m1-cN 4gf5-a2-m1-cM_4gf5-a2-m1-cO 4gf5-a2-m1-cP_4gf5-a2-m1-cQ 4gf5-a2-m1-cP_4gf5-a2-m1-cT 4gf5-a2-m1-cQ_4gf5-a2-m1-cS 4gf5-a2-m1-cR_4gf5-a2-m1-cS 4gf5-a2-m1-cR_4gf5-a2-m1-cT 5hoq-a1-m1-cA_5hoq-a1-m1-cE 5hoq-a1-m1-cB_5hoq-a1-m1-cD 5hoq-a1-m1-cC_5hoq-a1-m1-cE 5hoq-a1-m1-cC_5hoq-a1-m2-cB 5hoq-a1-m1-cD_5hoq-a1-m2-cA 5hoq-a1-m2-cA_5hoq-a1-m2-cE 5hoq-a1-m2-cB_5hoq-a1-m2-cD 5hoq-a1-m2-cC_5hoq-a1-m1-cB 5hoq-a1-m2-cC_5hoq-a1-m2-cE 5hoq-a1-m2-cD_5hoq-a1-m1-cA QDLRAFVHDSPEETETTQRLTKLLTNSPIPTEELVNNLPLFLRRHQTDLLSDALYRQVLDVPGVIEFGVRFGRHLGTFAALRGVYEPYNPLRRIVGFDTFTGFPDVNDVDRVGPTAYQGRFAVPGGYPAYLKEVLDAHECSDFFGHVTQRSVLVEGDVRETVPRYLAENPQTVIALAYFDLDLYEPTKAVLEAIRPYLTKGSIVAFDELDNPKWPGENIARKVLGLDHAPLRLLPGRPAPAYLRWGD QDLRAFVHDSPEETETTQRLTKLLTNSPIPTEELVNNLPLFLRRHQTDLLSDALYRQVLDVPGVIEFGVRFGRHLGTFAALRGVYEPYNPLRRIVGFDTFTGFPDVNDVDRVGPTAYQGRFAVPGGYPAYLKEVLDAHECSDFFGHVTQRSVLVEGDVRETVPRYLAENPQTVIALAYFDLDLYEPTKAVLEAIRPYLTKGSIVAFDELDNPKWPGENIARKVLGLDHAPLRLLPGRPAPAYLRWGD 3tos-a8-m1-cH_3tos-a8-m1-cJ Crystal Structure of CalS11, Calicheamicin Methyltransferase Q8KNF1 Q8KNF1 1.55 X-RAY DIFFRACTION 170 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 247 247 3tos-a1-m1-cA_3tos-a1-m1-cD 3tos-a1-m1-cC_3tos-a1-m1-cB 3tos-a1-m1-cE_3tos-a1-m1-cI 3tos-a1-m1-cF_3tos-a1-m1-cG 3tos-a1-m1-cH_3tos-a1-m1-cJ 3tos-a2-m1-cA_3tos-a2-m1-cD 3tos-a2-m1-cC_3tos-a2-m1-cB 3tos-a2-m1-cE_3tos-a2-m1-cI 3tos-a2-m1-cF_3tos-a2-m1-cG 3tos-a2-m1-cH_3tos-a2-m1-cJ 3tos-a3-m1-cA_3tos-a3-m1-cD 3tos-a3-m1-cE_3tos-a3-m1-cI 3tos-a4-m1-cA_3tos-a4-m1-cD 3tos-a4-m1-cC_3tos-a4-m1-cB 3tos-a4-m1-cE_3tos-a4-m1-cI 3tos-a4-m1-cF_3tos-a4-m1-cG 3tos-a4-m1-cH_3tos-a4-m1-cJ 3tos-a5-m1-cC_3tos-a5-m1-cB 3tos-a5-m1-cE_3tos-a5-m1-cI 3tos-a5-m1-cH_3tos-a5-m1-cJ 3tos-a6-m1-cE_3tos-a6-m1-cI 3tos-a6-m1-cF_3tos-a6-m1-cG 3tos-a7-m1-cF_3tos-a7-m1-cG 3tos-a7-m1-cH_3tos-a7-m1-cJ 3tos-a8-m1-cC_3tos-a8-m1-cB 3tos-a8-m1-cF_3tos-a8-m1-cG 4gf5-a1-m1-cA_4gf5-a1-m1-cJ 4gf5-a1-m1-cB_4gf5-a1-m1-cH 4gf5-a1-m1-cC_4gf5-a1-m1-cG 4gf5-a1-m1-cD_4gf5-a1-m1-cE 4gf5-a1-m1-cF_4gf5-a1-m1-cI 4gf5-a2-m1-cK_4gf5-a2-m1-cQ 4gf5-a2-m1-cL_4gf5-a2-m1-cP 4gf5-a2-m1-cM_4gf5-a2-m1-cR 4gf5-a2-m1-cN_4gf5-a2-m1-cT 4gf5-a2-m1-cO_4gf5-a2-m1-cS 5hoq-a1-m1-cB_5hoq-a1-m1-cE 5hoq-a1-m1-cC_5hoq-a1-m2-cC 5hoq-a1-m1-cD_5hoq-a1-m1-cA 5hoq-a1-m2-cB_5hoq-a1-m2-cE 5hoq-a1-m2-cD_5hoq-a1-m2-cA QDLRAFVHDSPEETETTQRLTKLLTNSPIPTEELVNNLPLFLRRHQTDLLSDALYRQVLDVPGVIEFGVRFGRHLGTFAALRGVYEPYNPLRRIVGFDTFTGFPDVNDVDRVGPTAYQGRFAVPGGYPAYLKEVLDAHECSDFFGHVTQRSVLVEGDVRETVPRYLAENPQTVIALAYFDLDLYEPTKAVLEAIRPYLTKGSIVAFDELDNPKWPGENIARKVLGLDHAPLRLLPGRPAPAYLRWGD QDLRAFVHDSPEETETTQRLTKLLTNSPIPTEELVNNLPLFLRRHQTDLLSDALYRQVLDVPGVIEFGVRFGRHLGTFAALRGVYEPYNPLRRIVGFDTFTGFPDVNDVDRVGPTAYQGRFAVPGGYPAYLKEVLDAHECSDFFGHVTQRSVLVEGDVRETVPRYLAENPQTVIALAYFDLDLYEPTKAVLEAIRPYLTKGSIVAFDELDNPKWPGENIARKVLGLDHAPLRLLPGRPAPAYLRWGD 3tou-a1-m1-cB_3tou-a1-m1-cA Crystal structure of GLUTATHIONE TRANSFERASE (TARGET EFI-501058) from Ralstonia solanacearum GMI1000 with GSH bound Q8XVV6 Q8XVV6 1.75 X-RAY DIFFRACTION 100 1.0 305 (Ralstonia solanacearum) 305 (Ralstonia solanacearum) 202 212 3tot-a1-m1-cB_3tot-a1-m1-cA VMKLIGSHASPYTRKVRVVLAEKKIDYQFVLEDVWNADTQIHQFNPLGKVPCLVMDDGGALFDSRVIAEYADTLSPVARLIPPSGRERVEVRCWEALADGLLDAAVALRVEQTQRTPEQRSESWITRQHHKIDEALKAMSRGLADRTWCNGNHLTLADIAVGCALAYLDFRQPQVDWREQHANLAAFYTRIEKRPSFLETQP VMKLIGSHASPYTRKVRVVLAEKKIDYQFVLEDVWNADTQIHQFNPLGKVPCLVMDDGGALFDSRVIAEYADTLSPVARLIPPSGRERVEVRCWEALADGLLDAAVALRVEQTQRTPEQRSESWITRQHHKIDEALKAMSRGLADRTWCNGNHLTLADIAVGCALAYLDFRQPQVDWREQHANLAAFYTRIEKRPSFLETQPQAENLYFQSH 3tox-a2-m1-cG_3tox-a2-m3-cG Crystal structure of a short chain dehydrogenase in complex with NAD(P) from Sinorhizobium meliloti 1021 Q92SS3 Q92SS3 1.93 X-RAY DIFFRACTION 169 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 251 251 3tox-a1-m1-cA_3tox-a1-m2-cA 3tox-a1-m1-cB_3tox-a1-m2-cB 3tox-a2-m1-cC_3tox-a2-m3-cC 3tox-a3-m1-cD_3tox-a3-m1-cI 3tox-a3-m1-cE_3tox-a3-m1-cF SRLEGKIAIVTGASSGIGRAAALLFAREGAKVVVTARNGNALAELTDEIAGGGGEAAALAGDVGDEALHEALVELAVRRFGGLDTAFNNAGALGAMGEISSLSVEGWRETLDTNLTSAFLAAKYQVPAIAALGGGSLTFTSSFVGHTAGFAGVAPYAASKAGLIGLVQALAVELGARGIRVNALLPGGTDTPANFANLAPETRGFVEGLHALKRIARPEEIAEAALYLASDGASFVTGAALLADGGASVTK SRLEGKIAIVTGASSGIGRAAALLFAREGAKVVVTARNGNALAELTDEIAGGGGEAAALAGDVGDEALHEALVELAVRRFGGLDTAFNNAGALGAMGEISSLSVEGWRETLDTNLTSAFLAAKYQVPAIAALGGGSLTFTSSFVGHTAGFAGVAPYAASKAGLIGLVQALAVELGARGIRVNALLPGGTDTPANFANLAPETRGFVEGLHALKRIARPEEIAEAALYLASDGASFVTGAALLADGGASVTK 3tox-a2-m3-cG_3tox-a2-m1-cC Crystal structure of a short chain dehydrogenase in complex with NAD(P) from Sinorhizobium meliloti 1021 Q92SS3 Q92SS3 1.93 X-RAY DIFFRACTION 126 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 251 254 3tox-a1-m1-cB_3tox-a1-m2-cA 3tox-a1-m2-cB_3tox-a1-m1-cA 3tox-a2-m1-cG_3tox-a2-m3-cC 3tox-a3-m1-cD_3tox-a3-m1-cF 3tox-a3-m1-cE_3tox-a3-m1-cI SRLEGKIAIVTGASSGIGRAAALLFAREGAKVVVTARNGNALAELTDEIAGGGGEAAALAGDVGDEALHEALVELAVRRFGGLDTAFNNAGALGAMGEISSLSVEGWRETLDTNLTSAFLAAKYQVPAIAALGGGSLTFTSSFVGHTAGFAGVAPYAASKAGLIGLVQALAVELGARGIRVNALLPGGTDTPANFANLAPETRGFVEGLHALKRIARPEEIAEAALYLASDGASFVTGAALLADGGASVTK SRLEGKIAIVTGASSGIGRAAALLFAREGAKVVVTARNGNALAELTDEIAGGGGEAAALAGDVGDEALHEALVELAVRRFGGLDTAFNNAGALGAMGEISSLSVEGWRETLDTNLTSAFLAAKYQVPAIAALGGGSLTFTSSFVGHTAGFAGVAPYAASKAGLIGLVQALAVELGARGIRVNALLPGGTDTPANFANLPGAAPETRGFVEGLHALKRIARPEEIAEAALYLASDGASFVTGAALLADGGASVTK 3tox-a2-m3-cG_3tox-a2-m3-cC Crystal structure of a short chain dehydrogenase in complex with NAD(P) from Sinorhizobium meliloti 1021 Q92SS3 Q92SS3 1.93 X-RAY DIFFRACTION 28 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 251 254 3tox-a1-m1-cB_3tox-a1-m1-cA 3tox-a1-m2-cB_3tox-a1-m2-cA 3tox-a2-m1-cG_3tox-a2-m1-cC 3tox-a3-m1-cD_3tox-a3-m1-cE 3tox-a3-m1-cF_3tox-a3-m1-cI SRLEGKIAIVTGASSGIGRAAALLFAREGAKVVVTARNGNALAELTDEIAGGGGEAAALAGDVGDEALHEALVELAVRRFGGLDTAFNNAGALGAMGEISSLSVEGWRETLDTNLTSAFLAAKYQVPAIAALGGGSLTFTSSFVGHTAGFAGVAPYAASKAGLIGLVQALAVELGARGIRVNALLPGGTDTPANFANLAPETRGFVEGLHALKRIARPEEIAEAALYLASDGASFVTGAALLADGGASVTK SRLEGKIAIVTGASSGIGRAAALLFAREGAKVVVTARNGNALAELTDEIAGGGGEAAALAGDVGDEALHEALVELAVRRFGGLDTAFNNAGALGAMGEISSLSVEGWRETLDTNLTSAFLAAKYQVPAIAALGGGSLTFTSSFVGHTAGFAGVAPYAASKAGLIGLVQALAVELGARGIRVNALLPGGTDTPANFANLPGAAPETRGFVEGLHALKRIARPEEIAEAALYLASDGASFVTGAALLADGGASVTK 3toy-a1-m2-cB_3toy-a1-m2-cD CRYSTAL STRUCTURE OF ENOLASE BRADO_4202 (TARGET EFI-501651) FROM Bradyrhizobium sp. ORS278 WITH CALCIUM AND ACETATE BOUND A4YVM8 A4YVM8 1.8 X-RAY DIFFRACTION 14 1.0 114615 (Bradyrhizobium sp. ORS 278) 114615 (Bradyrhizobium sp. ORS 278) 359 359 3toy-a1-m1-cA_3toy-a1-m1-cC 3toy-a1-m1-cA_3toy-a1-m2-cB 3toy-a1-m1-cB_3toy-a1-m1-cD 3toy-a1-m1-cB_3toy-a1-m2-cA 3toy-a1-m1-cC_3toy-a1-m2-cD 3toy-a1-m1-cD_3toy-a1-m2-cC 3toy-a1-m2-cA_3toy-a1-m2-cC 3tte-a3-m1-cB_3tte-a3-m2-cA 3tte-a3-m1-cB_3tte-a3-m3-cA 3tte-a3-m2-cB_3tte-a3-m1-cA 3tte-a3-m2-cB_3tte-a3-m4-cA 3tte-a3-m3-cB_3tte-a3-m1-cA 3tte-a3-m3-cB_3tte-a3-m4-cA 3tte-a3-m4-cB_3tte-a3-m2-cA 3tte-a3-m4-cB_3tte-a3-m3-cA TTAAITGVTARAVITPMKRPLRNAFGVIDSGPLVLIDVTTDQGVTGHSYLFAYTRLALKPLVHLVEDIGRELAGKALVPVDLMKAMDAKFRLLGWQGLVGMAVSGLDMAFWDALGQLAGKPVVELLGGSARPIPAYDSYGVLDARDDERTLRTACDEHGFRAIKSKGGHGDLATDEAMIKGLRALLGPDIALMLDFNQSLDPAEATRRIARLADYDLTWIEEPVPQENLSGHAAVRERSEIPIQAGENWWFPRGFAEAIAAGASDFIMPDLMKVGGITGWLNVAGQADAASIPMSSHILPEASAHVLPVTPTAHFLEVLDFAGAILTEPLRVIDGKVTAKGPGLGLAWNESAVAKYQVT TTAAITGVTARAVITPMKRPLRNAFGVIDSGPLVLIDVTTDQGVTGHSYLFAYTRLALKPLVHLVEDIGRELAGKALVPVDLMKAMDAKFRLLGWQGLVGMAVSGLDMAFWDALGQLAGKPVVELLGGSARPIPAYDSYGVLDARDDERTLRTACDEHGFRAIKSKGGHGDLATDEAMIKGLRALLGPDIALMLDFNQSLDPAEATRRIARLADYDLTWIEEPVPQENLSGHAAVRERSEIPIQAGENWWFPRGFAEAIAAGASDFIMPDLMKVGGITGWLNVAGQADAASIPMSSHILPEASAHVLPVTPTAHFLEVLDFAGAILTEPLRVIDGKVTAKGPGLGLAWNESAVAKYQVT 3toy-a1-m2-cC_3toy-a1-m2-cD CRYSTAL STRUCTURE OF ENOLASE BRADO_4202 (TARGET EFI-501651) FROM Bradyrhizobium sp. ORS278 WITH CALCIUM AND ACETATE BOUND A4YVM8 A4YVM8 1.8 X-RAY DIFFRACTION 83 1.0 114615 (Bradyrhizobium sp. ORS 278) 114615 (Bradyrhizobium sp. ORS 278) 359 359 3toy-a1-m1-cA_3toy-a1-m1-cB 3toy-a1-m1-cC_3toy-a1-m1-cD 3toy-a1-m2-cA_3toy-a1-m2-cB 3tte-a3-m1-cB_3tte-a3-m1-cA 3tte-a3-m2-cB_3tte-a3-m2-cA 3tte-a3-m3-cB_3tte-a3-m3-cA 3tte-a3-m4-cB_3tte-a3-m4-cA TTAAITGVTARAVITPMKRPLRNAFGVIDSGPLVLIDVTTDQGVTGHSYLFAYTRLALKPLVHLVEDIGRELAGKALVPVDLMKAMDAKFRLLGWQGLVGMAVSGLDMAFWDALGQLAGKPVVELLGGSARPIPAYDSYGVLDARDDERTLRTACDEHGFRAIKSKGGHGDLATDEAMIKGLRALLGPDIALMLDFNQSLDPAEATRRIARLADYDLTWIEEPVPQENLSGHAAVRERSEIPIQAGENWWFPRGFAEAIAAGASDFIMPDLMKVGGITGWLNVAGQADAASIPMSSHILPEASAHVLPVTPTAHFLEVLDFAGAILTEPLRVIDGKVTAKGPGLGLAWNESAVAKYQVT TTAAITGVTARAVITPMKRPLRNAFGVIDSGPLVLIDVTTDQGVTGHSYLFAYTRLALKPLVHLVEDIGRELAGKALVPVDLMKAMDAKFRLLGWQGLVGMAVSGLDMAFWDALGQLAGKPVVELLGGSARPIPAYDSYGVLDARDDERTLRTACDEHGFRAIKSKGGHGDLATDEAMIKGLRALLGPDIALMLDFNQSLDPAEATRRIARLADYDLTWIEEPVPQENLSGHAAVRERSEIPIQAGENWWFPRGFAEAIAAGASDFIMPDLMKVGGITGWLNVAGQADAASIPMSSHILPEASAHVLPVTPTAHFLEVLDFAGAILTEPLRVIDGKVTAKGPGLGLAWNESAVAKYQVT 3toz-a4-m1-cG_3toz-a4-m1-cH 2.2 Angstrom Crystal Structure of Shikimate 5-dehydrogenase from Listeria monocytogenes in Complex with NAD. Q8Y9N5 Q8Y9N5 2.2 X-RAY DIFFRACTION 120 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 291 291 3tnl-a1-m1-cA_3tnl-a1-m1-cB 3tnl-a2-m1-cD_3tnl-a2-m1-cC 3toz-a1-m1-cB_3toz-a1-m1-cA 3toz-a2-m1-cC_3toz-a2-m1-cD 3toz-a3-m1-cF_3toz-a3-m1-cE MTNKITERITGHTELIGLIATPIRHSLSPTMHNEAFAKLGLDYVYLAFEVGDKELKDVVQGFRAMNLRGWNVSMPNKTNIHKYLDKLSPAAELVGAVNTVVNDDGVLTGHITDGTGYMRALKEAGHDIIGKKMTICGAGGAATAICIQAALDGVKEISIFNRKDDFYANAEKTVEKINSKTDCKAQLFDIEDHEQLRKEIAESVIFTNATGVGMKPFEGETLLPSADMLRPELIVSDVVYKPTKTRLLEIAEEQGCQTLNGLGMMLWQGAKAFEIWTHKEMPVDYIKEILF MTNKITERITGHTELIGLIATPIRHSLSPTMHNEAFAKLGLDYVYLAFEVGDKELKDVVQGFRAMNLRGWNVSMPNKTNIHKYLDKLSPAAELVGAVNTVVNDDGVLTGHITDGTGYMRALKEAGHDIIGKKMTICGAGGAATAICIQAALDGVKEISIFNRKDDFYANAEKTVEKINSKTDCKAQLFDIEDHEQLRKEIAESVIFTNATGVGMKPFEGETLLPSADMLRPELIVSDVVYKPTKTRLLEIAEEQGCQTLNGLGMMLWQGAKAFEIWTHKEMPVDYIKEILF 3tp4-a3-m1-cA_3tp4-a3-m1-cB Crystal Structure of engineered protein at the resolution 1.98A, Northeast Structural Genomics Consortium Target OR128 1.979 X-RAY DIFFRACTION 68 0.993 32630 (synthetic construct) 32630 (synthetic construct) 452 455 DETIAIVDADATAETRSLLSYLDGVRGEGILFGHHGTTSSGLTTGPTDGTTSDVKNVTGDFPAVFGWSTSIIEGNQRPGLAENTRDENIALFADYIRKADAIGGVNTVGAGVENFVTGGSFYDDTLRAVLPGGSHHAELVAYLDDIAELADASRRDDGTLIPIVFRPWHENAGSWFWWGAAYGSPGEYQELYRFTVEYLRDVKGVSNFLYAWGPGGGFGGNRDVYLRTYPGDAFVDVLGLDTYDSTGSDAFLAGLVADLRIAEIADEKGKVSAFTRFGVSGGVGTNGSSPAQWFTKVLAAIKADPVASRNAYETGENADAGQHFVPVPGDALLEDFQAYAADPFTLFASEVTGAFDRTVAAAPAQPVVHIASPADGARVASAPTTVRVRVGGTDVQSVTVEVAQGGTVVDTLDLAYDGALWWTAPWSPTYTVTATATTAAGTLDVTNEVAAA DETIAIVDADATAETRSLLSYLDGVRGEGILFGHHGTTSSGLTTGPTDGTTSDVKNVTGDFPAVFGWSTSIIEGNQRPGLAENTRDENIALFADYIRKADAIGGVNTVGAGVENFVGSFYGDTLRAVLPGGSHHAELVAYLDDIAELADASRRDDGTLIPIVFRPWHENAGSWFWWGAAYGSPGEYQELYRFTVEYLRDVKGVSNFLYAWGPGGGFGGNRDVYLRTYPGDAFVDVLGLDTYDSTGSDAFLAGLVADLRIAEIADEKGKVSAFTRFGVSGGVGTNGSSPAQWFTKVLAAIKADPVASRNAYETGENADAGQHFVPVPGDALLEDFQAYAADPFTLFASEVTGAFDRTVAAAPAQPVVHIASPADGARVASAPTTVRVRVGGTDVQSVTVEVAQGGTVVDTLDLAYDGALWWTAPWSPTSNSTYTVTATATTAAGTLDVTNEVAAAL 3tp9-a1-m1-cB_3tp9-a1-m1-cA Crystal structure of Alicyclobacillus acidocaldarius protein with beta-lactamase and rhodanese domains C8WS08 C8WS08 2.7 X-RAY DIFFRACTION 83 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 465 466 NAYLRRFYDEGLAHASYLVGCQETGEACVIDPARDVEPYLLTAKREGLRIVAALETHIHADFVSGAREADRAGAAICVSDEGPPEWKSEYVKAYPHRLLKDGDELHFGNVRIVVHTPGHTPEHVSYLLYDGKTSPDVPALFSGDFVFVGDVGRPDLLERVAGESGSSEALARQFRSLRKFEALPDHVQVLPAHGAGSACGKALGAVPSSTVGYEKLVNWALQHKDEDAFVQALLAGQPEAPIYFARKLVNKVGPRLLAELGAPERVDLPPERVRAWREGGVVLDVRPADAFAKRHLAGSLNIPWNKSFVTWAGWLLPADRPIHLLAADAIAPDVIRALRSIGIDDVVDWTDPAAVDRAAPDDVASYANVSPDEVRGALAQQGLWLLDVRNVDEWAGGHLPQAHHIPLSKLAAHIHDVPRDGSVCVYCRTGGRSAIAASLLRAHGVGDVRNVGGYEAWRGKGFPVE NAYLRRFYDEGLAHASYLVGCQETGEACVIDPARDVEPYLLTAKREGLRIVAALETHIHADFVSGAREADRAGAAICVSDEGPPEWKSEYVKAYPHRLLKDGDELHFGNVRIVVHTPGHTPEHVSYLLYDGKTSPDVPALFSGDFVFVGDVGRPDLLERVAGESGSSEALARQFRSLRKFEALPDHVQVLPAHGAGSACGKALGAVPSSTVGYEKLVNWALQHKDEDAFVQALLAGQPEAPIYFARKLVNKVGPRLLAELGAPERVDLPPERVRAWREGGVVLDVRPADAFAKRHLAGSLNIPWNKSFVTWAGWLLPADRPIHLLAADAIAPDVIRALRSIGIDDVVDWTDPAAVDRAAPDDVASYANVSPDEVRGALAQQGLWLLDVRNVDEWAGGHLPQAHHIPLSKLAAHIHDVPRDGSVCVYCRTGGRSAIAASLLRAHGVGDVRNVGGYEAWRGKGFPVEA 3tpc-a2-m1-cG_3tpc-a2-m1-cE Crystal structure of a hypothtical protein SMa1452 from Sinorhizobium meliloti 1021 Q92YS1 Q92YS1 2.34 X-RAY DIFFRACTION 156 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 217 220 3tpc-a1-m1-cA_3tpc-a1-m1-cD 3tpc-a1-m1-cB_3tpc-a1-m1-cC 3tpc-a2-m3-cH_3tpc-a2-m2-cF LKSRVFIVTGASSGLGAAVTRLAQEGATVLGLDLKVRFRNADVTNEADATAALAFAKQEFGHVHGLVNCAGTAPGEKILGRSGPHALDSFARTVAVNLIGTFNIRLAAEVSQGEPDADGERGVIVNTASIAAFDGQIGQAAYAASKGGVAALTLPAARELARFGIRVVTIAPGIFDTPASVPFPPRLGRAEEYAALVKHICENTLNGEVIRLDGALR QLKSRVFIVTGASSGLGAAVTRLAQEGATVLGLDLKPPVRFRNADVTNEADATAALAFAKQEFGHVHGLVNCAGTAPGEKILGRSGPHALDSFARTVAVNLIGTFNIRLAAEVSQGEPDADGERGVIVNTASIAAFDGQIGQAAYAASKGGVAALTLPAARELARFGIRVVTIAPGIFDTPASVPFPPRLGRAEEYAALVKHICENTLNGEVIRLDGALR 3tpc-a2-m3-cH_3tpc-a2-m1-cE Crystal structure of a hypothtical protein SMa1452 from Sinorhizobium meliloti 1021 Q92YS1 Q92YS1 2.34 X-RAY DIFFRACTION 105 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 217 220 3tpc-a1-m1-cB_3tpc-a1-m1-cD 3tpc-a1-m1-cC_3tpc-a1-m1-cA 3tpc-a2-m1-cG_3tpc-a2-m2-cF QLKSRVFIVTGASSGLGAAVTRLAQEGATVLGLDLVRFRNADVTNEADATAALAFAKQEFGHVHGLVNCAGTAPGEKILGRSGPHALDSFARTVAVNLIGTFNIRLAAEVSQGEPDADGERGVIVNTASIAAFDGQIGQAAYAASKGGVAALTLPAARELARFGIRVVTIAPGIFDTPASVPFPPRLGRAEEYAALVKHICENTLNGEVIRLDGALR QLKSRVFIVTGASSGLGAAVTRLAQEGATVLGLDLKPPVRFRNADVTNEADATAALAFAKQEFGHVHGLVNCAGTAPGEKILGRSGPHALDSFARTVAVNLIGTFNIRLAAEVSQGEPDADGERGVIVNTASIAAFDGQIGQAAYAASKGGVAALTLPAARELARFGIRVVTIAPGIFDTPASVPFPPRLGRAEEYAALVKHICENTLNGEVIRLDGALR 3tpf-a1-m1-cA_3tpf-a1-m1-cB Crystal structure of anabolic ornithine carbamoyltransferase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PNU6 Q9PNU6 2.7 X-RAY DIFFRACTION 38 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 290 292 3tpf-a1-m1-cC_3tpf-a1-m1-cA 3tpf-a1-m1-cC_3tpf-a1-m1-cB 3tpf-a2-m1-cE_3tpf-a2-m1-cD 3tpf-a2-m1-cF_3tpf-a2-m1-cD 3tpf-a2-m1-cF_3tpf-a2-m1-cE KHFLTLRDFSKEEILSLVNHASELKKEPKKLLQDKTLAIFEKNSTRTRAFELAITELGGKALFLSSNDLQLSRGEPVKDTARVIGAVDFVRVNKHETLLEFARYSKAPVINALSELYHPTQVLGDLFTIKEWNKQNGIAKVAFIGDSNNCNSWLITAAILGFEISIAPKNYKISPEIWEFAKQALISGAKISLGYDKFEALKDKDVVITDTWVSGEENEKERKIKEFEGFIDEKASVANKDAILLHCLPAYRGYEVSEEIFEKHADVIFEEARNRLYVVKALLCFLDNQR GKHFLTLRDFSKEEILSLVNHASELKKEPKKLLQDKTLAIFEKNSTRTRAFELAITELGGKALFLSSNDLQLSRGEPVKDTARVIGAVDFVRVNKHETLLEFARYSKAPVINALSELYHPTQVLGDLFTIKEWNKQNGIAKVAFIGDSNNCNSWLITAAILGFEISIAPKNYKISPEIWEFAKQALISGAKISLGYDKFEALKDKDVVITDTWVSGEENEKERKIKEFEGFIDEKASVANKDAILLHCLPAYRGYEVSEEIFEKHADVIFEEARNRLYVVKALLCFLDNQRG 3tpw-a1-m2-cA_3tpw-a1-m3-cA CRYSTAL STRUCTURE OF M-PMV DUTPASE - DUPNPP complex revealing distorted ligand geometry (approach intermediate) P07570 P07570 1.65 X-RAY DIFFRACTION 78 1.0 11855 (Mason-Pfizer monkey virus) 11855 (Mason-Pfizer monkey virus) 114 114 2d4l-a1-m1-cA_2d4l-a1-m2-cA 2d4l-a1-m1-cA_2d4l-a1-m3-cA 2d4l-a1-m2-cA_2d4l-a1-m3-cA 2d4m-a1-m1-cA_2d4m-a1-m2-cA 2d4m-a1-m1-cA_2d4m-a1-m3-cA 2d4m-a1-m2-cA_2d4m-a1-m3-cA 2d4n-a1-m1-cA_2d4n-a1-m2-cA 2d4n-a1-m1-cA_2d4n-a1-m3-cA 2d4n-a1-m2-cA_2d4n-a1-m3-cA 3tp1-a1-m1-cA_3tp1-a1-m2-cA 3tp1-a1-m1-cA_3tp1-a1-m3-cA 3tp1-a1-m2-cA_3tp1-a1-m3-cA 3tpn-a1-m1-cA_3tpn-a1-m2-cA 3tpn-a1-m1-cA_3tpn-a1-m3-cA 3tpn-a1-m2-cA_3tpn-a1-m3-cA 3tps-a1-m1-cA_3tps-a1-m2-cA 3tps-a1-m1-cA_3tps-a1-m3-cA 3tps-a1-m2-cA_3tps-a1-m3-cA 3tpw-a1-m1-cA_3tpw-a1-m2-cA 3tpw-a1-m1-cA_3tpw-a1-m3-cA 3tpy-a1-m1-cA_3tpy-a1-m2-cA 3tpy-a1-m1-cA_3tpy-a1-m3-cA 3tpy-a1-m2-cA_3tpy-a1-m3-cA 3tq3-a1-m1-cA_3tq3-a1-m2-cA 3tq3-a1-m1-cA_3tq3-a1-m3-cA 3tq3-a1-m2-cA_3tq3-a1-m3-cA 3tq4-a1-m1-cA_3tq4-a1-m2-cA 3tq4-a1-m1-cA_3tq4-a1-m3-cA 3tq4-a1-m2-cA_3tq4-a1-m3-cA 3tq5-a1-m1-cA_3tq5-a1-m2-cA 3tq5-a1-m1-cA_3tq5-a1-m3-cA 3tq5-a1-m2-cA_3tq5-a1-m3-cA 3trl-a1-m1-cA_3trl-a1-m2-cA 3trl-a1-m1-cA_3trl-a1-m3-cA 3trl-a1-m2-cA_3trl-a1-m3-cA 3trn-a1-m1-cA_3trn-a1-m2-cA 3trn-a1-m1-cA_3trn-a1-m3-cA 3trn-a1-m2-cA_3trn-a1-m3-cA 3ts6-a1-m1-cA_3ts6-a1-m2-cA 3ts6-a1-m1-cA_3ts6-a1-m3-cA 3ts6-a1-m2-cA_3ts6-a1-m3-cA 3tsl-a1-m1-cA_3tsl-a1-m2-cA 3tsl-a1-m1-cA_3tsl-a1-m3-cA 3tsl-a1-m2-cA_3tsl-a1-m3-cA 3tta-a1-m1-cA_3tta-a1-m2-cA 3tta-a1-m1-cA_3tta-a1-m3-cA 3tta-a1-m2-cA_3tta-a1-m3-cA QKQPISKLTRATPGSAGLDLCSTSHTVLTPEMGPQALSTGIYGPLPPNTFGLILGRSSITMKGLQVYPGVIDNDYTGEIKIMAKAVNNIVTVSQGNRIAQLILLPLIETDNKVQ QKQPISKLTRATPGSAGLDLCSTSHTVLTPEMGPQALSTGIYGPLPPNTFGLILGRSSITMKGLQVYPGVIDNDYTGEIKIMAKAVNNIVTVSQGNRIAQLILLPLIETDNKVQ 3tq2-a1-m2-cA_3tq2-a1-m3-cA Merohedral twinning in protein crystals revealed a new synthetic three helix bundle motif 1.1 X-RAY DIFFRACTION 35 1.0 32630 (synthetic construct) 32630 (synthetic construct) 35 35 3tq2-a1-m1-cA_3tq2-a1-m2-cA 3tq2-a1-m1-cA_3tq2-a1-m3-cA KVSALKEKVSALKEQFLMLMFKVSALKEKVSALKE KVSALKEKVSALKEQFLMLMFKVSALKEKVSALKE 3tqc-a1-m1-cA_3tqc-a1-m1-cB Structure of the pantothenate kinase (coaA) from Coxiella burnetii Q83EV9 Q83EV9 2.3 X-RAY DIFFRACTION 134 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 303 305 ITPYLQFNRQQWGNLTLTESDLDKLQGQIEIVSLKEVTEIYLPLSRLLSFYVTARQTLQQATYQFLGKPEPKVPYIIGIAGSVAVGKSTTSRVLKALLSRWPDHPNVEVITTDGFLYSNAKLEKQGLMKRKGFPESYDMPSLLRVLNAIKSGQRNVRIPVYSHHYYDIVRGQYEIVDQPDIVILEGLNILQTGVRKTLQQLQVFVSDFFDFSLFVDAQAQVIQKWYIDRVLSFWRTTFKDPHSYFHYLTQMSETEVAAFAKHVWNEINKVNLMENILPYKNRAQLILEKAADHSIQKVYLRKI ITPYLQFNRQQWGNFPLTLTESDLDKLQGQIEIVSLKEVTEIYLPLSRLLSFYVTARQTLQQATYQFLGKPEPKVPYIIGIAGSVAVGKSTTSRVLKALLSRWPDHPNVEVITTDGFLYSNAKLEKQGLMKRKGFPESYDMPSLLRVLNAIKSGQRNVRIPVYSHHYYDIVRGQYEIVDQPDIVILEGLNILQTGVRKTLQQLQVFVSDFFDFSLFVDAQAQVIQKWYIDRVLSFWRTTFKDPHSYFHYLTQMSETEVAAFAKHVWNEINKVNLMENILPYKNRAQLILEKAADHSIQKVYLRKI 3tqd-a1-m1-cA_3tqd-a1-m2-cA Structure of the 3-deoxy-D-manno-octulosonate cytidylyltransferase (kdsB) from Coxiella burnetii Q83E52 Q83E52 1.8 X-RAY DIFFRACTION 86 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 239 239 EFRVIIPARFDLPGKALVDIAGKPIQHVYESAIKSGAEEVVIATDDKRIRQVAEDFGAVVCTSSDHQSGTERIAEAAVALGFEDDEIIVCLQGDEPLIPPDAIRKLAEDLDEHDKVASLCTPITEVDELFNPHSTKVVLNRRNYALYFSHAPIPWGRDTFSDKENLQLNGSHYRHVGIYAYRVGFLEEYLSWDACPAEKEALEQLRILWHGGRIHVVAKSKCPPGVDTEEDLERVRAYF EFRVIIPARFDLPGKALVDIAGKPIQHVYESAIKSGAEEVVIATDDKRIRQVAEDFGAVVCTSSDHQSGTERIAEAAVALGFEDDEIIVCLQGDEPLIPPDAIRKLAEDLDEHDKVASLCTPITEVDELFNPHSTKVVLNRRNYALYFSHAPIPWGRDTFSDKENLQLNGSHYRHVGIYAYRVGFLEEYLSWDACPAEKEALEQLRILWHGGRIHVVAKSKCPPGVDTEEDLERVRAYF 3tqf-a2-m4-cB_3tqf-a2-m5-cB Structure of the Hpr(Ser) kinase/phosphatase from Coxiella burnetii Q820W5 Q820W5 2.8 X-RAY DIFFRACTION 44 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 147 147 3tqf-a1-m1-cA_3tqf-a1-m2-cA 3tqf-a1-m1-cA_3tqf-a1-m3-cA 3tqf-a1-m2-cA_3tqf-a1-m3-cA 3tqf-a2-m1-cB_3tqf-a2-m4-cB 3tqf-a2-m1-cB_3tqf-a2-m5-cB KQTWHANFLVIDKGVLITGEANIGKSELSLALIDRGHQLVCDDVIDLKQENNQLIGSCPSVANGYILITGIGIIDVPKLFGLDAVVNQHEVHLSISLVKPEKPLDPLNPLYRTEIILGINVPKILFPIHNLPLLIETLVRNHRLKEG KQTWHANFLVIDKGVLITGEANIGKSELSLALIDRGHQLVCDDVIDLKQENNQLIGSCPSVANGYILITGIGIIDVPKLFGLDAVVNQHEVHLSISLVKPEKPLDPLNPLYRTEIILGINVPKILFPIHNLPLLIETLVRNHRLKEG 3tqg-a1-m1-cA_3tqg-a1-m1-cB Structure of the 2-methylcitrate synthase (prpC) from Coxiella burnetii Q83DG4 Q83DG4 2.3 X-RAY DIFFRACTION 292 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 350 352 AGETSIATVGKEGHGLTYRGYRIEDLAANATFEEVAYLLLKNKLPTKSELDAYTKKLVNLRSLPPALKDTLERIPASSHPDVRTGCSLGNLEPENGFENEQNIADRLVAIFPAIQCYWYHYSHHGKRIDTELDDLTLAGYFLHLLLGKKAAQAIDCNASLILYAEHEFNASTFAARVCSATLSDIYSAVTAAIATLRGPLHGGANEAADLILYKTPSEAIAGIKRKLANKELIGFGHAVYRERDPRNAIIKSWAQKLAPNAADGYLFDISDAIENTQDEKKLFPNLDFYSATAYHFLNIPTKLFTPIFVSRVTGWCAHIFEQRKDNRIIRPNADYIGPEEQGWVPIEKRR QSAGETSIATVGKEGHGLTYRGYRIEDLAANATFEEVAYLLLKNKLPTKSELDAYTKKLVNLRSLPPALKDTLERIPASSHPDVRTGCSLGNLEPENGFENEQNIADRLVAIFPAIQCYWYHYSHHGKRIDTELDDLTLAGYFLHLLLGKKAAQAIDCNASLILYAEHEFNASTFAARVCSATLSDIYSAVTAAIATLRGPLHGGANEAADLILYKTPSEAIAGIKRKLANKELIGFGHAVYRERDPRNAIIKSWAQKLAPNAADGYLFDISDAIENTQDEKKLFPNLDFYSATAYHFLNIPTKLFTPIFVSRVTGWCAHIFEQRKDNRIIRPNADYIGPEEQGWVPIEKRR 3tqi-a3-m1-cB_3tqi-a3-m1-cD Structure of the GMP synthase (guaA) from Coxiella burnetii Q83BZ6 Q83BZ6 2.84 X-RAY DIFFRACTION 71 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 464 464 3tqi-a3-m1-cA_3tqi-a3-m1-cC IHQHRILILDFGSQYAQLIARRVREIGVYCELMPCDIDEETIRDFNPHGIILSGGPEAPAFIFEIGCPVLGICYGMQTMAYQLGGKVNEFGHAQLRVLNPAFLFDGIEDQVSPQGEPLLDVWMSHGDIVSELPPGFEATACTDNSPLAAMADFKRRFFGLQFHPEVTHTPQGHRILAHFVIHICQCIPNWTTKHIIEDSIRDIQEKVGKEQVIVGLSGGVDSAVTATLVHKAIGDQLVCVLVDTGLLRLNEVDEVLNVFQKHLGAKVICVDAKDRFMKALKGISDPEEKRKIAGEQFIRVFEEQAKKLNVKWLGQGTIYPDVIESKLIEPLRELFKDEVRKLGLELGLPADLIYRHPFPGPGLAIRILGEVSAEYINILKQADAIFIEELKKSDYYHQVSQAFAVFMPLKSVYGYIIALRAVKQWADLPHEFLSKVSHRIVNEIKEVSRVVYDMTNKPPATIEW IHQHRILILDFGSQYAQLIARRVREIGVYCELMPCDIDEETIRDFNPHGIILSGGPEAPAFIFEIGCPVLGICYGMQTMAYQLGGKVNEFGHAQLRVLNPAFLFDGIEDQVSPQGEPLLDVWMSHGDIVSELPPGFEATACTDNSPLAAMADFKRRFFGLQFHPEVTHTPQGHRILAHFVIHICQCIPNWTTKHIIEDSIRDIQEKVGKEQVIVGLSGGVDSAVTATLVHKAIGDQLVCVLVDTGLLRLNEVDEVLNVFQKHLGAKVICVDAKDRFMKALKGISDPEEKRKIAGEQFIRVFEEQAKKLNVKWLGQGTIYPDVIESKLIEPLRELFKDEVRKLGLELGLPADLIYRHPFPGPGLAIRILGEVSAEYINILKQADAIFIEELKKSDYYHQVSQAFAVFMPLKSVYGYIIALRAVKQWADLPHEFLSKVSHRIVNEIKEVSRVVYDMTNKPPATIEW 3tqi-a3-m1-cC_3tqi-a3-m1-cD Structure of the GMP synthase (guaA) from Coxiella burnetii Q83BZ6 Q83BZ6 2.84 X-RAY DIFFRACTION 98 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 464 464 3tqi-a1-m1-cA_3tqi-a1-m1-cB 3tqi-a2-m1-cC_3tqi-a2-m1-cD 3tqi-a3-m1-cA_3tqi-a3-m1-cB IHQHRILILDFGSQYAQLIARRVREIGVYCELMPCDIDEETIRDFNPHGIILSGGPEAPAFIFEIGCPVLGICYGMQTMAYQLGGKVNEFGHAQLRVLNPAFLFDGIEDQVSPQGEPLLDVWMSHGDIVSELPPGFEATACTDNSPLAAMADFKRRFFGLQFHPEVTHTPQGHRILAHFVIHICQCIPNWTTKHIIEDSIRDIQEKVGKEQVIVGLSGGVDSAVTATLVHKAIGDQLVCVLVDTGLLRLNEVDEVLNVFQKHLGAKVICVDAKDRFMKALKGISDPEEKRKIAGEQFIRVFEEQAKKLNVKWLGQGTIYPDVIESKLIEPLRELFKDEVRKLGLELGLPADLIYRHPFPGPGLAIRILGEVSAEYINILKQADAIFIEELKKSDYYHQVSQAFAVFMPLKSVYGYIIALRAVKQWADLPHEFLSKVSHRIVNEIKEVSRVVYDMTNKPPATIEW IHQHRILILDFGSQYAQLIARRVREIGVYCELMPCDIDEETIRDFNPHGIILSGGPEAPAFIFEIGCPVLGICYGMQTMAYQLGGKVNEFGHAQLRVLNPAFLFDGIEDQVSPQGEPLLDVWMSHGDIVSELPPGFEATACTDNSPLAAMADFKRRFFGLQFHPEVTHTPQGHRILAHFVIHICQCIPNWTTKHIIEDSIRDIQEKVGKEQVIVGLSGGVDSAVTATLVHKAIGDQLVCVLVDTGLLRLNEVDEVLNVFQKHLGAKVICVDAKDRFMKALKGISDPEEKRKIAGEQFIRVFEEQAKKLNVKWLGQGTIYPDVIESKLIEPLRELFKDEVRKLGLELGLPADLIYRHPFPGPGLAIRILGEVSAEYINILKQADAIFIEELKKSDYYHQVSQAFAVFMPLKSVYGYIIALRAVKQWADLPHEFLSKVSHRIVNEIKEVSRVVYDMTNKPPATIEW 3tqj-a1-m1-cA_3tqj-a1-m1-cB Structure of the superoxide dismutase (Fe) (sodB) from Coxiella burnetii P19685 P19685 2.004 X-RAY DIFFRACTION 51 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 192 192 AFELPDLPYKLNALEPHISQETLEYHHGKHHRAYVNKLNKLIEGTPFEKEPLEEIIRKSDGGIFNNAAQHWNHTFYWHCMSPDGGGDPSGELASAIDKTFGSLEKFKALFTDSANNHFGSGWAWLVKDNNGKLEVLSTVNARNPMTEGKKPLMTCDVWEHAYYIDTRNDRPKYVNNFWQVVNWDFVMKNFKS AFELPDLPYKLNALEPHISQETLEYHHGKHHRAYVNKLNKLIEGTPFEKEPLEEIIRKSDGGIFNNAAQHWNHTFYWHCMSPDGGGDPSGELASAIDKTFGSLEKFKALFTDSANNHFGSGWAWLVKDNNGKLEVLSTVNARNPMTEGKKPLMTCDVWEHAYYIDTRNDRPKYVNNFWQVVNWDFVMKNFKS 3tqk-a1-m1-cA_3tqk-a1-m2-cA Structure of Phospho-2-dehydro-3-deoxyheptonate aldolase from Francisella tularensis SCHU S4 Q5NG89 Q5NG89 2.3 X-RAY DIFFRACTION 173 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 335 335 NIKKEKVLIPAEVLIQDIPLLKTSFETVRKSRKEIANIIHGNDDRVAVVVGPCSIHDPAAAIEYATKLKEQVKKFHKDILIIRVYFEKPRTTIGWKGFINDPDLDNSYNINKGLRLARNLLSDLTNGLPCATEFLDVITPQYFAELITWGAIGARTVESQVHRELASGLSASIGFKNATNGDVQVAVDAVKSATYPHHFLSTTKSGSTAIFATKGNQNGHVILRGGASGPNFSKEHVDDCIAKLKKADINTKVIDCSHGNSQKDHSKQISVLADICEQIKHSNDIFGVIESNLVAGNQDINKKPLTYGQSVTDKCVDFEETVKLELAEAVQVRRG NIKKEKVLIPAEVLIQDIPLLKTSFETVRKSRKEIANIIHGNDDRVAVVVGPCSIHDPAAAIEYATKLKEQVKKFHKDILIIRVYFEKPRTTIGWKGFINDPDLDNSYNINKGLRLARNLLSDLTNGLPCATEFLDVITPQYFAELITWGAIGARTVESQVHRELASGLSASIGFKNATNGDVQVAVDAVKSATYPHHFLSTTKSGSTAIFATKGNQNGHVILRGGASGPNFSKEHVDDCIAKLKKADINTKVIDCSHGNSQKDHSKQISVLADICEQIKHSNDIFGVIESNLVAGNQDINKKPLTYGQSVTDKCVDFEETVKLELAEAVQVRRG 3tqn-a2-m1-cB_3tqn-a2-m2-cB Structure of the transcriptional regulator of the GntR family, from Coxiella burnetii. Q83DG1 Q83DG1 2.8 X-RAY DIFFRACTION 20 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 104 104 RWDDKKPIYQQLRDKIVEAIIDGSYVEGEIPSIRKISTEYQINPLTVSKAYQSLLDDNVIEKRRGLGLVKAGARQRLLTQEKQYFLKKQWPQIKNKLERLGIDL RWDDKKPIYQQLRDKIVEAIIDGSYVEGEIPSIRKISTEYQINPLTVSKAYQSLLDDNVIEKRRGLGLVKAGARQRLLTQEKQYFLKKQWPQIKNKLERLGIDL 3tqp-a1-m1-cB_3tqp-a1-m1-cA Structure of an enolase (eno) from Coxiella burnetii Q83B44 Q83B44 2.2 X-RAY DIFFRACTION 113 0.99 777 (Coxiella burnetii) 777 (Coxiella burnetii) 397 411 TATITDINAHEILDSRANPTLEVRVTLSSQAYGCAAVPSREAVELRDNDLERYGGKGVLQAVENVNGPIRDALLGQDPRSQEEIDRIIELDGTENKANLGANAILGVSLAVAYAAANNADLPLYRYLGGDGGPFSPVPNIINGNFQEFIVPVGAPTFAEALRYGAEVFHALKKRLVSRGLSAVGDEGGFAPLPNNEAAFELILEAIEDANYVPGKDIYLALDAASSELYGYDNNQLTSEEIDRLTEWTKKYPVISIEDGLSENDWAGWKLLTERLENKVQLVGDDIFVTNPDILEKGIKKNIANAILVKLNQIGTLTETLATVGLAKSNKYGVIISHRSGETEDTTIADLAVATDARQIKTGSLCRSDRVAKYNRLLQIERELNDQAPYAGKEAFLF TATITDINAHEILDSRANPTLEVRVTLSSQAYGCAAVPSGAEREAVELRDNDLERYGGKGVLQAVENVNGPIRDALLGQDPRSQEEIDRIIELDGTENKANLGANAILGVSLAVAYAAANNADLPLYRYLGGDGGPFSPVPNIINGGNNLDFQEFIVPVGAPTFAEALRYGAEVFHALKKRLVSRGLSAVGDEGGFAPDLPNNEAAFELILEAIEDANYVPGKDIYLALDAASSELYQNGRYDFENNQLTSEEIDRLTEWTKKYPVISIEDGLSENDWAGWKLLTERLENKVQLVGDDIFVTNPDILEKGIKKNIANAILVKLNQIGTLTETLATVGLAKSNKYGVIISHRSGETEDTTIADLAVATDARQIKTGSLCRSDRVAKYNRLLQIERELNDQAPYAGKEAFLFN 3tqr-a2-m1-cA_3tqr-a2-m2-cA Structure of the phosphoribosylglycinamide formyltransferase (purN) in complex with CHES from Coxiella burnetii Q83AY9 Q83AY9 1.97 X-RAY DIFFRACTION 32 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 209 209 EPLPIVVLISGNGTNLQAIIGAIQKGLAIEIRAVISNRADAYGLKRAQQADIPTHIIPHEEFPSRTDFESTLQKTIDHYDPKLIVLAGFRKLGKAFVSHYSGRINIHPSLLPKYTGLNTHERALAAGETEHGVSVHYVTDLDAGPLICQARLSITPQDTPETLKTRVHALEHIIYPEVLSWFAAGRLNYHNNQVFLDGKPLAKSGHAFP EPLPIVVLISGNGTNLQAIIGAIQKGLAIEIRAVISNRADAYGLKRAQQADIPTHIIPHEEFPSRTDFESTLQKTIDHYDPKLIVLAGFRKLGKAFVSHYSGRINIHPSLLPKYTGLNTHERALAAGETEHGVSVHYVTDLDAGPLICQARLSITPQDTPETLKTRVHALEHIIYPEVLSWFAAGRLNYHNNQVFLDGKPLAKSGHAFP 3tqt-a1-m1-cB_3tqt-a1-m1-cA Structure of the D-alanine-D-alanine ligase from Coxiella burnetii Q83BZ9 Q83BZ9 1.88 X-RAY DIFFRACTION 165 0.985 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 337 348 KLHISVLCGGQSTEHEISIQSAKNIVNTLDAAKYLISVIFIDHVGRWYLIDQPEMFLAHSPDHLVKEGSARPITIAFKPWQSLDGRRYSADCVFPMVHGTQGEDGALQGLLELLNLPYVGANVQSSAVCMEKDLTKTVLRAGGIPVVDWHTLSPRDATEGVYQRLLDRWGTSELFVKAVSLGSSVATLPVKTETEFTKAVKEVFRYDDRLMVEPRIRGREIECAVLGNGAPKASLPGEIITTTTSESVTKQIQQIAIDAFKMVHCSGMARVDFFVTPNNKVLVNEINTIPGFTNISMYPKMWEASGLPCPNLLDQLIELAIDRHQEQQKLIRCYEVK AEKLHISVLCGGQSTEHEISIQSAKNIVNTLDAAKYLISVIFIDHVGRWYLIDQPEMFLAHSPDHLVKEGSARPITIAFGDAAKPWQSLRRYSADCVFPMVHGTQGEDGALQGLLELLNLPYVGANVQSSAVCMEKDLTKTVLRAGGIPVVDWHTLSPRDATEGVYQRLLDRWELFVKAVSLGSSVATLPVKTETEFTKAVKEVFRYDDRLMVEPRIRGREIECAVLGNGAPKASLPGEIIPHATTTTSVDLSESVTKQIQQIAIDAFKMVHCSGMARVDFFVTPNNKVLVNEINTIPGFTNISMYPKMWEASGLPCPNLLDQLIELAIDRHQEQQKLIRCYEVKARS 3tqu-a2-m1-cC_3tqu-a2-m1-cD Structure of a HAM1 protein from Coxiella burnetii Q83FA3 Q83FA3 1.9 X-RAY DIFFRACTION 72 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 194 194 3tqu-a1-m1-cA_3tqu-a1-m1-cB LEIVLASQNSSKLAEQELLRDLEIKFIPQTEFSVPDIEETGSTFVENAIIKARHAAKQTGLPALADDSGLTIAALNSAPGVFSSRYAGKNATDAERIQKVLEALEAADDSDRSASFHCVIALENENDPAPLICHGVWEGEIAREPRGKNGFGYDPIFYVPSHQRTAAELDPQEKNAISHRGQALEQLSTVLTEA LEIVLASQNSSKLAEQELLRDLEIKFIPQTEFSVPDIEETGSTFVENAIIKARHAAKQTGLPALADDSGLTIAALNSAPGVFSSRYAGKNATDAERIQKVLEALEAADDSDRSASFHCVIALENENDPAPLICHGVWEGEIAREPRGKNGFGYDPIFYVPSHQRTAAELDPQEKNAISHRGQALEQLSTVLTEA 3tqv-a1-m1-cA_3tqv-a1-m1-cB Structure of the nicotinate-nucleotide pyrophosphorylase from Francisella tularensis. Q5NEY8 Q5NEY8 2.62 X-RAY DIFFRACTION 173 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 273 277 NTDQINKVPNDIVTRLVRESLAEDIATGDITAQLAEDIDTTAFCITREEILCGQDFANEVINQLDKNIQITWLYSDAQKVPANARIFELKGNVRSILTAERTILNFIQLSGTATVTNKLVKLISQYKTKLLDTRKTIPGFRLAQKYAVRCGGGFNHRIGLFDAYLIKENHIGIAKAVTKAKKLDSNKVVEVEVTNLDELNQAIAAKADIVLDNFSGEDIDIAVSIARGKVALEVSGNIDRNSIVAIAKTGVDFISVGAITKHIKAIDLSLQVQ NTDQINKVPNDIVTRLVRESLAEDIATGDITAQLAEDIDTTAFCITREEILCGQDFANEVINQLDKNIQITWLYSDAQKVPANARIFELKGNVRSILTAERTILNFIQLSGTATVTNKLVKLISQYKTKLLDTRKTIPGFRLAQKYAVRCGGGFNHRIGLFDAYLIKENHIRSAGGIAKAVTKAKKLDSNKVVEVEVTNLDELNQAIAAKADIVLDNFSGEDIDIAVSIARGKVALEVSGNIDRNSIVAIAKTGVDFISVGAITKHIKAIDLSLQVQ 3tqx-a1-m1-cA_3tqx-a1-m1-cB Structure of the 2-amino-3-ketobutyrate coenzyme A ligase (kbl) from Coxiella burnetii Q83F40 Q83F40 2.304 X-RAY DIFFRACTION 298 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 386 386 QEILSQLNKEIEGLKKAGLYKSERIITSPQNAEIKVGEKEVLNFCANNYLGLADHPALIKTAQTVVEQYGFGASVRFICGTQTIHKELEKDISEFLGTDDTILYSSCFDANGGLFETLLGPEDAIISDELNHASIIDGIRLCKAQRYRYKNNAGDLEAKLKEADEKGARFKLIATDGVFSDGIIADLKSICDLADKYNALVVDDSHAVGFIGENGRGTPEYCGVADRVDILTGTLGKALGGASGGYTSGHKEIIEWLRNRSRPYLFSNTVAPVIVATSLKVLELLKTEGPQLRKQLQENSRYFRAGEKLGFQLVPGNHPIIPVLGDAQLATNADHLLQEGIYVVGFSYPVVPGKARIRVQSAVHTQQQLDRAIEAFGQVGKKLGAI QEILSQLNKEIEGLKKAGLYKSERIITSPQNAEIKVGEKEVLNFCANNYLGLADHPALIKTAQTVVEQYGFGASVRFICGTQTIHKELEKDISEFLGTDDTILYSSCFDANGGLFETLLGPEDAIISDELNHASIIDGIRLCKAQRYRYKNNAGDLEAKLKEADEKGARFKLIATDGVFSDGIIADLKSICDLADKYNALVVDDSHAVGFIGENGRGTPEYCGVADRVDILTGTLGKALGGASGGYTSGHKEIIEWLRNRSRPYLFSNTVAPVIVATSLKVLELLKTEGPQLRKQLQENSRYFRAGEKLGFQLVPGNHPIIPVLGDAQLATNADHLLQEGIYVVGFSYPVVPGKARIRVQSAVHTQQQLDRAIEAFGQVGKKLGAI 3tqy-a1-m1-cD_3tqy-a1-m1-cC Structure of a single-stranded DNA-binding protein (ssb), from Coxiella burnetii Q83EP4 Q83EP4 2.6001 X-RAY DIFFRACTION 68 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 96 106 3tqy-a1-m1-cA_3tqy-a1-m1-cB RGVNKVILIGNLGQDPEVRYTPNGNAVANVTLATSTTERTEWHRIAFFNRLAEIVGEYLRKGSKIYIEGSLRTRKWQDKNGVDRYTTEIIANEHLD RGVNKVILIGNLGQDPEVRYTPNGNAVANVTLATSTTWRDKQTGELQERTEWHRIAFFNRLAEIVGEYLRKGSKIYIEGSLRTRKWQDKNGVDRYTTEIIANEHLD 3tqz-a1-m2-cA_3tqz-a1-m3-cA Structure of a deoxyuridine 5'-triphosphate nucleotidohydrolase (dut) from Coxiella burnetii Q45920 Q45920 1.75 X-RAY DIFFRACTION 121 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 136 136 3tqz-a1-m1-cA_3tqz-a1-m2-cA 3tqz-a1-m1-cA_3tqz-a1-m3-cA THSVQLKILDKRLGSEFPLPAYATTGSAGLDLRACLDEPLKIEPDETCLISTGLAIYLGHSNVAATILPRSGLGHKHGIVLGNLVGLIDSDYQGPLVSCWNRGKEPYTINPGDRIAQLVVLPILKAQFAVVEEFEL THSVQLKILDKRLGSEFPLPAYATTGSAGLDLRACLDEPLKIEPDETCLISTGLAIYLGHSNVAATILPRSGLGHKHGIVLGNLVGLIDSDYQGPLVSCWNRGKEPYTINPGDRIAQLVVLPILKAQFAVVEEFEL 3tr0-a1-m1-cA_3tr0-a1-m2-cA Structure of guanylate kinase (gmk) from Coxiella burnetii Q83EL7 Q83EL7 1.851 X-RAY DIFFRACTION 84 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 199 199 NKANLFIISAPSGAGKTSLVRALVKALAEIKISISHTTRPKRPGDQEGVDYFFIDETRFQAVKEGAFLEHATIYERHYGTEKDWVLRQLKAGRDVLLEIDWQGARQIRELFPPALSIFILPPSIEALRERLIKRRQDDTAIIEQRLALAREEAHYKEFDYLVVNDNFDQAVQNLIHIISAERLQRDVQEKKLSRLLAEL NKANLFIISAPSGAGKTSLVRALVKALAEIKISISHTTRPKRPGDQEGVDYFFIDETRFQAVKEGAFLEHATIYERHYGTEKDWVLRQLKAGRDVLLEIDWQGARQIRELFPPALSIFILPPSIEALRERLIKRRQDDTAIIEQRLALAREEAHYKEFDYLVVNDNFDQAVQNLIHIISAERLQRDVQEKKLSRLLAEL 3tr2-a1-m1-cA_3tr2-a1-m1-cB Structure of a orotidine 5'-phosphate decarboxylase (pyrF) from Coxiella burnetii Q83E06 Q83E06 2.001 X-RAY DIFFRACTION 121 0.991 777 (Coxiella burnetii) 777 (Coxiella burnetii) 212 214 DPKVIVAIDAGTVEQARAQINPLTPELCHLKIGSILFTRYGPAFVEELQKGYRIFLDLKFYDIPQTVAGACRAVAELGVWNIHISGGRTETVVNALQSITLKEKPLLIGVTILTSLDGSDLKTLGIQEKVPDIVCRATLAKSAGLDGVVCSAQEAALLRKQFDRNFLLVTPGIRRVTPRAAIQAGSDYLVIGRPITQSTDPLKALEAIDKDI DPKVIVAIDAGTVEQARAQINPLTPELCHLKIGSILFTRYGPAFVEELQKGYRIFLDLKFYDIPQTVAGACRAVAELGVWNIHISGGRTETVVNALQSITLKEKPLLIGVTILTSLDGSDLKTLGIQEKVPDIVCRATLAKSAGLDGVVCSAQEAALLRKQFDRNFLLVTPGIRLTPRAAIQAGSDYLVIGRPITQSTDPLKALEAIDKDIKTR 3tr3-a1-m1-cA_3tr3-a1-m1-cB Structure of a bolA protein homologue from Coxiella burnetii Q83DW0 Q83DW0 2.456 X-RAY DIFFRACTION 32 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 76 79 VTTHDIKQWIETGLSESRVISAEGDGHHFEAVVLCPTFEGQTALTRHRLVYNALGSHQSDIHALSLKTYTPDEYER NAVTTHDIKQWIETGLSESRVISAEGDGHHFEAVVLCPTFEGQTALTRHRLVYNALGSHQSDIHALSLKTYTPDEYERG 3tr3-a2-m1-cA_3tr3-a2-m2-cB Structure of a bolA protein homologue from Coxiella burnetii Q83DW0 Q83DW0 2.456 X-RAY DIFFRACTION 30 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 76 79 VTTHDIKQWIETGLSESRVISAEGDGHHFEAVVLCPTFEGQTALTRHRLVYNALGSHQSDIHALSLKTYTPDEYER NAVTTHDIKQWIETGLSESRVISAEGDGHHFEAVVLCPTFEGQTALTRHRLVYNALGSHQSDIHALSLKTYTPDEYERG 3tr4-a1-m1-cB_3tr4-a1-m1-cE Structure of an inorganic pyrophosphatase (ppa) from Coxiella burnetii Q83DR7 Q83DR7 2 X-RAY DIFFRACTION 38 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 166 166 3tr4-a1-m1-cC_3tr4-a1-m1-cF 3tr4-a1-m1-cD_3tr4-a1-m1-cA LVSAGKGIDDFNVIIEIPANGGEVKYEYDKELGFLTVDRFPTSRYPCNYGFVPSTLAQDGDPLDVLVLTPVPVQPGVLRVRALGIKEDEAGEDSKVLAVPVVKACRAYEAIQSLKDISSLLLDAISHFFERYKDLEPNKWAKVKGWEDKEAAKKEFEASIVRFKEK LVSAGKGIDDFNVIIEIPANGGEVKYEYDKELGFLTVDRFPTSRYPCNYGFVPSTLAQDGDPLDVLVLTPVPVQPGVLRVRALGIKEDEAGEDSKVLAVPVVKACRAYEAIQSLKDISSLLLDAISHFFERYKDLEPNKWAKVKGWEDKEAAKKEFEASIVRFKEK 3tr4-a1-m1-cF_3tr4-a1-m1-cE Structure of an inorganic pyrophosphatase (ppa) from Coxiella burnetii Q83DR7 Q83DR7 2 X-RAY DIFFRACTION 48 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 165 166 3tr4-a1-m1-cA_3tr4-a1-m1-cB 3tr4-a1-m1-cC_3tr4-a1-m1-cA 3tr4-a1-m1-cC_3tr4-a1-m1-cB 3tr4-a1-m1-cD_3tr4-a1-m1-cE 3tr4-a1-m1-cD_3tr4-a1-m1-cF LVSAGKGIDDFNVIIEIPANGGEVKYEYDKELGFLTVDRFPTSRYPCNYGFVPSTLAQDGDPLDVLVLTPVPVQPGVLRVRALGIKEDEAGEDSKVLAVPVVKACRAYEAIQSLKDISSLLLDAISHFFERYKDLEPNKWAKVKGWEDKEAAKKEFEASIVRFKE LVSAGKGIDDFNVIIEIPANGGEVKYEYDKELGFLTVDRFPTSRYPCNYGFVPSTLAQDGDPLDVLVLTPVPVQPGVLRVRALGIKEDEAGEDSKVLAVPVVKACRAYEAIQSLKDISSLLLDAISHFFERYKDLEPNKWAKVKGWEDKEAAKKEFEASIVRFKEK 3tr5-a1-m1-cB_3tr5-a1-m1-cA Structure of a peptide chain release factor 3 (prfC) from Coxiella burnetii Q83DC7 Q83DC7 2.11 X-RAY DIFFRACTION 77 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 496 506 VEKQTARRTFAIISHPDAGKTTLTEKLLLFGGAIQLAGTIKSRHATSDWELEKQRGISVTTSVQFPYKDYLINLLDTPGHADFTEDTYRTLTAVDSALVIDAAKGVEPRTIKLEVCRLRHTPITFINKDRDTRPSIELLDEIESILRIHCAPVTWPIGGKYFKGIYHLIEDAIYLYQPSERIEGINNPELDKKLGDLASELRNEIELVKGASHPFEREGYLKGELTPIFFGSAINNFGVGELLDAFVKEAPPPQGRETNSRLVKPEEEKFSGFVFKIQANHRDRIAFLRIASGQYQKGKAYHVRLKKEIQINNALTFAGKRENAEEAWPGDIIGLHNHGTIQIGDTFTQGERFKFTGIPNFASELFRLVRLKDPLKQKALLKGLTQLSEEGATQLFRPLDSNELILGAVGLLQFDVVAYRLENEYNVKCVYESVNVVTARWVICDDKAVLERFNQEQSRNLAYDGGGHLTYLAPSRVNLEITEKWPEIQFSETREH VEKQTARRTFAIISHPDAGKTTLTEKLLLFGGAIQLAGTIKSRHATSDWELEKQRGISVTTSVQFPYKDYLINLLDTPGHADFTEDTYRTLTAVDSALVIDAAKGVEPRTIKLEVCRLRHTPITFINKDRDTRPSIELLDEIESILRIHCAPVTWPIGGKYFKGIYHLIEDAIYLYQPGKHERVGESERIEGINNPELDKKLGDLASELRNEIELVKGASHPFEREGYLKGELTPIFFGSAINNFGVGELLDAFVKEAPPPQGRETNSRLVKPEEEKFSGFVFKIQANDGHRDRIAFLRIASGQYQKGKAYHVRLKKEIQINNALTFAGKRENAEEAWPGDIIGLHNHGTIQIGDTFTQGERFKFTGIPNFASELFRLVRLKDPLKQKALLKGLTQLSEEGATQLFRPLDSNELILGAVGLLQFDVVAYRLENEYNVKCVYESVNVVTARWVICDDKAVLERFNQEQSRNLAYDGGGHLTYLAPSRVNLEITEKWPEIQFSETREH 3tr5-a1-m1-cC_3tr5-a1-m1-cD Structure of a peptide chain release factor 3 (prfC) from Coxiella burnetii Q83DC7 Q83DC7 2.11 X-RAY DIFFRACTION 27 0.996 777 (Coxiella burnetii) 777 (Coxiella burnetii) 495 496 VEKQTARRTFAIISHPDAGKTTLTEKLLLFGGAIQLAGTIKSRHATSDWELEKQVTTSVQFPYKDYLINLLDTPGHADFTEDTYRTLTAVDSALVIDAAKGVEPRTIKLEVCRLRHTPITFINKDRDTRPSIELLDEIESILRIHCAPVTWPIGGKYFKGIYHLIEDAIYLYQPSERIEGINNPELDKKLGDLASELRNEIELVKGASHPFEREGYLKGELTPIFFGSAINNFGVGELLDAFVKEAPPPQGRETNSRLVKPEEEKFSGFVFKIQANDPGHRDRIAFLRIASGQYQKGKAYHVRLKKEIQINNALTFAGKRENAEEAWPGDIIGLHNHGTIQIGDTFTQGERFKFTGIPNFASELFRLVRLKDPLKQKALLKGLTQLSEEGATQLFRPLDSNELILGAVGLLQFDVVAYRLENEYNVKCVYESVNVVTARWVICDDKAVLERFNQEQSRNLAYDGGGHLTYLAPSRVNLEITEKWPEIQFSETREH VEKQTARRTFAIISHPDAGKTTLTEKLLLFGGAIQLAGTIKHATSDWELEKQRSVTTSVQFPYKDYLINLLDTPGHADFTEDTYRTLTAVDSALVIDAAKGVEPRTIKLEVCRLRHTPITFINKDRDTRPSIELLDEIESILRIHCAPVTWPIGGKYFKGIYHLIEDAIYLYQPGSERIEGINNPELDKKLGDLASELRNEIELVKGASHPFEREGYLKGELTPIFFGSAINNFGVGELLDAFVKEAPPPQGRETNSRLVKPEEEKFSGFVFKIQANDPGHRDRIAFLRIASGQYQKGKAYHVRLKKEIQINNALTFAGKRENAEEAWPGDIIGLHNHGTIQIGDTFTQGERFKFTGIPNFASELFRLVRLKDPLKQKALLKGLTQLSEEGATQLFRPLDSNELILGAVGLLQFDVVAYRLENEYNVKCVYESVNVVTARWVICDDKAVLERFNQEQSRNLAYDGGGHLTYLAPSRVNLEITEKWPEIQFSETREH 3tr6-a1-m1-cA_3tr6-a1-m2-cA Structure of a O-methyltransferase from Coxiella burnetii Q83D22 Q83D22 2.7 X-RAY DIFFRACTION 149 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 217 217 SINTTLLTPELYQYLLQVSLREPPLLAELREETTRSFSTYAQTAPEQAQLLALLVKLQAKKVIDIGTFTGYSAIAGLALPKDGTLITCDVDEKSTALAKEYWEKAGLSDKIGLRLSPAKDTLAELIHAGQAWQYDLIYIDADKANTDLYYEESLKLLREGGLIAVDNVLRRGQVADEENQSENNQLIRLFNQKVYKDERVDILIPIGDGLTLARKKS SINTTLLTPELYQYLLQVSLREPPLLAELREETTRSFSTYAQTAPEQAQLLALLVKLQAKKVIDIGTFTGYSAIAGLALPKDGTLITCDVDEKSTALAKEYWEKAGLSDKIGLRLSPAKDTLAELIHAGQAWQYDLIYIDADKANTDLYYEESLKLLREGGLIAVDNVLRRGQVADEENQSENNQLIRLFNQKVYKDERVDILIPIGDGLTLARKKS 3tr8-a1-m1-cA_3tr8-a1-m1-cB Structure of an oligoribonuclease (orn) from Coxiella burnetii Q83C93 Q83C93 2.503 X-RAY DIFFRACTION 75 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 180 180 SNADFSDDNLIWLDLETGLDPERDRIIEIATIVTNSHLDILAEGPAFAIHQPDKLLTADNWNTSHHTASGLLERVKNSSVDEVEAETLTLAFLEKYVSAGKSPLCGNSVCQDRRFLSRYPRLNQFFHYRHLDVTTLKILAQRWAPQIAAAHIKESQHLALQDIRDSIEELRYYRAHLLNL SNADFSDDNLIWLDLETGLDPERDRIIEIATIVTNSHLDILAEGPAFAIHQPDKLLTADNWNTSHHTASGLLERVKNSSVDEVEAETLTLAFLEKYVSAGKSPLCGNSVCQDRRFLSRYPRLNQFFHYRHLDVTTLKILAQRWAPQIAAAHIKESQHLALQDIRDSIEELRYYRAHLLNL 3tr9-a1-m1-cB_3tr9-a1-m1-cA Structure of a dihydropteroate synthase (folP) in complex with pteroic acid from Coxiella burnetii Q83BY6 Q83BY6 1.895 X-RAY DIFFRACTION 29 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 263 270 SFHLRLRDDKRIVFSEPAVGIINVSPNSFYHPHLDLNSALRTAEKVDEGADILDIGGEPSTQIELDRLLPVIDAIKKRFPQLISVDTSRPRVREAVNTGADINDQRALQLDDALTTVSALKTPVCLHFPSETRKPGSTTHFYFLQSVKKELQESIQRCKKAGISEDRIIIDPGFGQGNYGKNVSENFYLLNKLPEFVAGLPVLSGWSRKSIGDVLNQPPENRLFGSIAADVLAVYHGASIIRTHDVKATREAIKIATYTRSVD SFHLRLRDDKRIVFSEPAVGIINVSPNSFYHPHLDLNSALRTAEKVDEGADILDIGGEATNPFVSPSTQIELDRLLPVIDAIKKRFPQLISVDTSRPRVREAVNTGADINDQRALQLDDALTTVSALKTPVCLHFPSETRKPGSTTHFYFLQSVKKELQESIQRCKKAGISEDRIIIDPGFGQGNYGKNVSENFYLLNKLPEFVAGLPVLSGWSRKSIGDVLNQPPENRLFGSIAADVLAVYHGASIIRTHDVKATREAIKIATYTRSVD 3tr9-a1-m1-cC_3tr9-a1-m1-cA Structure of a dihydropteroate synthase (folP) in complex with pteroic acid from Coxiella burnetii Q83BY6 Q83BY6 1.895 X-RAY DIFFRACTION 32 0.996 777 (Coxiella burnetii) 777 (Coxiella burnetii) 262 270 QSFHLRLRDDKRIVFSEPAVGIINVSPNSFYHPHLDLNSALRTAEKVDEGADILDIGGESTQIELDRLLPVIDAIKKRFPQLISVDTSRPRVREAVNTGADINDQRALQLDDALTTVSALKTPVCLHFPSETRKPGSTTHFYFLQSVKKELQESIQRCKKAGISEDRIIIDPGFGQGNYGKNVSENFYLLNKLPEFVAGLPVLSGWSRKSIGDVLNQPPENRLFGSIAADVLAVYHGASIIRTHDVKATREAIKIATYTRSV SFHLRLRDDKRIVFSEPAVGIINVSPNSFYHPHLDLNSALRTAEKVDEGADILDIGGEATNPFVSPSTQIELDRLLPVIDAIKKRFPQLISVDTSRPRVREAVNTGADINDQRALQLDDALTTVSALKTPVCLHFPSETRKPGSTTHFYFLQSVKKELQESIQRCKKAGISEDRIIIDPGFGQGNYGKNVSENFYLLNKLPEFVAGLPVLSGWSRKSIGDVLNQPPENRLFGSIAADVLAVYHGASIIRTHDVKATREAIKIATYTRSVD 3tr9-a3-m1-cB_3tr9-a3-m3-cD Structure of a dihydropteroate synthase (folP) in complex with pteroic acid from Coxiella burnetii Q83BY6 Q83BY6 1.895 X-RAY DIFFRACTION 93 0.996 777 (Coxiella burnetii) 777 (Coxiella burnetii) 263 268 3tr9-a2-m2-cC_3tr9-a2-m1-cA SFHLRLRDDKRIVFSEPAVGIINVSPNSFYHPHLDLNSALRTAEKVDEGADILDIGGEPSTQIELDRLLPVIDAIKKRFPQLISVDTSRPRVREAVNTGADINDQRALQLDDALTTVSALKTPVCLHFPSETRKPGSTTHFYFLQSVKKELQESIQRCKKAGISEDRIIIDPGFGQGNYGKNVSENFYLLNKLPEFVAGLPVLSGWSRKSIGDVLNQPPENRLFGSIAADVLAVYHGASIIRTHDVKATREAIKIATYTRSVD SFHLRLRDDKRIVFSEPAVGIINVSPNSFYHPHLDLNSALRTAEKVDEGADILDIGGEATNPFVSTQIELDRLLPVIDAIKKRFPQLISVDTSRPRVREAVNTGADINDQRALQLDDALTTVSALKTPVCLHFPSETRKPGSTTHFYFLQSVKKELQESIQRCKKAGISEDRIIIDPGFGQGNYGKNVSENFYLLNKLPEFVAGLPVLSGWSRKSIGDVLNQPPENRLFGSIAADVLAVYHGASIIRTHDVKATREAIKIATYTRSVD 3trb-a1-m1-cB_3trb-a1-m2-cB Structure of an addiction module antidote protein of a HigA (higA) family from Coxiella burnetii Q83BL4 Q83BL4 2.001 X-RAY DIFFRACTION 52 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 90 90 RPIHPGEILAEELGFLDKSANQLAKHLAIPTNRVTAILNGARSITADTALRLAKFFGTTPEFWLNLQDAYDIKALKKSGKKIEKEVTPYD RPIHPGEILAEELGFLDKSANQLAKHLAIPTNRVTAILNGARSITADTALRLAKFFGTTPEFWLNLQDAYDIKALKKSGKKIEKEVTPYD 3trb-a2-m1-cA_3trb-a2-m1-cB Structure of an addiction module antidote protein of a HigA (higA) family from Coxiella burnetii Q83BL4 Q83BL4 2.001 X-RAY DIFFRACTION 99 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 89 90 3trb-a1-m1-cA_3trb-a1-m1-cB 3trb-a1-m2-cA_3trb-a1-m2-cB RPIHPGEILAEELGFLDKSANQLAKHLAIPTNRVTAILNGARSITADTALRLAKFFGTTPEFWLNLQDAYDIKALKKSGKKIEKEVTPY RPIHPGEILAEELGFLDKSANQLAKHLAIPTNRVTAILNGARSITADTALRLAKFFGTTPEFWLNLQDAYDIKALKKSGKKIEKEVTPYD 3trc-a1-m1-cA_3trc-a1-m2-cA Structure of the GAF domain from a phosphoenolpyruvate-protein phosphotransferase (ptsP) from Coxiella burnetii Q83BF9 Q83BF9 1.65 X-RAY DIFFRACTION 53 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 165 165 SNANLKILRQITQEVNAAPNLEQALKLVVVRLCEALPADACSLFICDDVHGEYVLATQGLNSKQVGKLRLKFGEGLIGLVGEREEPINLADAPLHPAYKHRPELGEEDYHGFLGIPIIEQGELLGILVIQQLESHHFAEEEEAFCVTLAIHLAAEIAHARAKGAL SNANLKILRQITQEVNAAPNLEQALKLVVVRLCEALPADACSLFICDDVHGEYVLATQGLNSKQVGKLRLKFGEGLIGLVGEREEPINLADAPLHPAYKHRPELGEEDYHGFLGIPIIEQGELLGILVIQQLESHHFAEEEEAFCVTLAIHLAAEIAHARAKGAL 3trf-a2-m1-cB_3trf-a2-m3-cB Structure of a shikimate kinase (aroK) from Coxiella burnetii Q83AJ3 Q83AJ3 2.6 X-RAY DIFFRACTION 147 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 168 168 3trf-a1-m1-cA_3trf-a1-m2-cA TNIYLIGLMGAGKTSVGSQLAKLTKRILYDSDKEIEKRTGADIAWIFEMEGEAGFRRREREMIEALCKLDNIILATGGGVVLDEKNRQQISETGVVIYLTASIDTQLKRIGQKGEMRRPLFIKNNSKEKLQQLNEIRKPLYQAMADLVYPTDDLNPRQLATQILVDIK TNIYLIGLMGAGKTSVGSQLAKLTKRILYDSDKEIEKRTGADIAWIFEMEGEAGFRRREREMIEALCKLDNIILATGGGVVLDEKNRQQISETGVVIYLTASIDTQLKRIGQKGEMRRPLFIKNNSKEKLQQLNEIRKPLYQAMADLVYPTDDLNPRQLATQILVDIK 3trh-a2-m1-cJ_3trh-a2-m1-cO Structure of a phosphoribosylaminoimidazole carboxylase catalytic subunit (purE) from Coxiella burnetii Q83AA3 Q83AA3 2.203 X-RAY DIFFRACTION 39 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 160 160 3trh-a1-m1-cA_3trh-a1-m1-cB 3trh-a1-m1-cA_3trh-a1-m1-cI 3trh-a1-m1-cB_3trh-a1-m1-cK 3trh-a1-m1-cC_3trh-a1-m1-cD 3trh-a1-m1-cC_3trh-a1-m1-cE 3trh-a1-m1-cF_3trh-a1-m1-cD 3trh-a1-m1-cF_3trh-a1-m1-cE 3trh-a1-m1-cK_3trh-a1-m1-cI 3trh-a2-m1-cH_3trh-a2-m1-cJ 3trh-a2-m1-cH_3trh-a2-m1-cN 3trh-a2-m1-cL_3trh-a2-m1-cG 3trh-a2-m1-cL_3trh-a2-m1-cP 3trh-a2-m1-cM_3trh-a2-m1-cG 3trh-a2-m1-cM_3trh-a2-m1-cP 3trh-a2-m1-cN_3trh-a2-m1-cO KIFVAILGSDSDLSTETAFTELKSLGIPFEAHILSAHRTPKETVEFVENADNRGCAVFIAAAGLAAHLAGTIAAHTLKPVIGVPAGGSLGGLDALLSTVQPGGVPVACTAIGKAGAKNAAILAAQIIALQDKSIAQKLVQQRTAKRETLKKADENLQTQL KIFVAILGSDSDLSTETAFTELKSLGIPFEAHILSAHRTPKETVEFVENADNRGCAVFIAAAGLAAHLAGTIAAHTLKPVIGVPAGGSLGGLDALLSTVQPGGVPVACTAIGKAGAKNAAILAAQIIALQDKSIAQKLVQQRTAKRETLKKADENLQTQL 3trh-a2-m1-cL_3trh-a2-m1-cJ Structure of a phosphoribosylaminoimidazole carboxylase catalytic subunit (purE) from Coxiella burnetii Q83AA3 Q83AA3 2.203 X-RAY DIFFRACTION 82 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 159 160 3trh-a1-m1-cA_3trh-a1-m1-cD 3trh-a1-m1-cC_3trh-a1-m1-cI 3trh-a1-m1-cE_3trh-a1-m1-cK 3trh-a1-m1-cF_3trh-a1-m1-cB 3trh-a2-m1-cH_3trh-a2-m1-cG 3trh-a2-m1-cM_3trh-a2-m1-cN 3trh-a2-m1-cO_3trh-a2-m1-cP IFVAILGSDSDLSTETAFTELKSLGIPFEAHILSAHRTPKETVEFVENADNRGCAVFIAAAGLAAHLAGTIAAHTLKPVIGVPAGGSLGGLDALLSTVQPGGVPVACTAIGKAGAKNAAILAAQIIALQDKSIAQKLVQQRTAKRETLKKADENLQTQL KIFVAILGSDSDLSTETAFTELKSLGIPFEAHILSAHRTPKETVEFVENADNRGCAVFIAAAGLAAHLAGTIAAHTLKPVIGVPAGGSLGGLDALLSTVQPGGVPVACTAIGKAGAKNAAILAAQIIALQDKSIAQKLVQQRTAKRETLKKADENLQTQL 3trh-a2-m1-cN_3trh-a2-m1-cP Structure of a phosphoribosylaminoimidazole carboxylase catalytic subunit (purE) from Coxiella burnetii Q83AA3 Q83AA3 2.203 X-RAY DIFFRACTION 110 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 160 160 3trh-a1-m1-cB_3trh-a1-m1-cD 3trh-a1-m1-cC_3trh-a1-m1-cA 3trh-a1-m1-cE_3trh-a1-m1-cI 3trh-a1-m1-cF_3trh-a1-m1-cK 3trh-a2-m1-cH_3trh-a2-m1-cM 3trh-a2-m1-cJ_3trh-a2-m1-cG 3trh-a2-m1-cL_3trh-a2-m1-cO KIFVAILGSDSDLSTETAFTELKSLGIPFEAHILSAHRTPKETVEFVENADNRGCAVFIAAAGLAAHLAGTIAAHTLKPVIGVPAGGSLGGLDALLSTVQPGGVPVACTAIGKAGAKNAAILAAQIIALQDKSIAQKLVQQRTAKRETLKKADENLQTQL KIFVAILGSDSDLSTETAFTELKSLGIPFEAHILSAHRTPKETVEFVENADNRGCAVFIAAAGLAAHLAGTIAAHTLKPVIGVPAGGSLGGLDALLSTVQPGGVPVACTAIGKAGAKNAAILAAQIIALQDKSIAQKLVQQRTAKRETLKKADENLQTQL 3tri-a1-m1-cB_3tri-a1-m1-cA Structure of a pyrroline-5-carboxylate reductase (proC) from Coxiella burnetii Q83A21 Q83A21 2.5 X-RAY DIFFRACTION 370 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 264 266 NTSNITFIGGGNARNIVVGLIANGYDPNRICVTNRSLDKLDFFKEKCGVHTTQDNRQGALNADVVVLAVKPHQIKVCEELKDILSETKILVISLAVGVTTPLIEKWLGKASRIVRAPNTPSSVRAGATGLFANETVDKDQKNLAESIRAVGLVIWVSSEDQIEKIAALSGSGPAYIFLIEALQEAAEQLGLTKETAELLTEQTVLGAARALETEQSVVQLRQFVTSPGGTTEQAIKVLESGNLRELFIKALTAAVNRAKELSKT NTSNITFIGGGNARNIVVGLIANGYDPNRICVTNRSLDKLDFFKEKCGVHTTQDNRQGALNADVVVLAVKPHQIKVCEELKDILSETKILVISLAVGVTTPLIEKWLGKASRIVRAPNTPSSVRAGATGLFANETVDKDQKNLAESIRAVGLVIWVSSEDQIEKIAALSGSGPAYIFLIEALQEAAEQLGLTKETAELLTEQTVLGAARALETEQSVVQLRQFVTSPGGTTEQAIKVLESGNLRELFIKALTAAVNRAKELSKTVD 3trj-a1-m1-cA_3trj-a1-m1-cD Structure of a phosphoheptose isomerase from Francisella tularensis Q5NEF5 Q5NEF5 2.8 X-RAY DIFFRACTION 120 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 180 186 3trj-a1-m1-cB_3trj-a1-m1-cC TSLDKINSYFESSIQAKIETANALPPAIAQAAKAVSCLENGGKVLVCGNGSSGVIAQHFTSKLLNPLPAIALTGDVATITAVGNHYGFSQIFAKQVAALGNEDDILLVITTSGDSENILSAVEEAHDLEKVIALTGGSGGALQNYNTDDIELRVPSDNIANIQENHFLIVHCLCDIIDQK TSLDKINSYFESSIQAKIETANALPPAIAQAAKAVSCLENGGKVLVCGNGSSGVIAQHFTSKLLNHFEERPPLPAIALTGDVATITAVGNHYGFSQIFAKQVAALGNEDDILLVITTSGDSENILSAVEEAHDLEKVIALTGGSGGALQNYNTDDIELRVPSDNIANIQENHFLIVHCLCDIIDQK 3trj-a1-m1-cB_3trj-a1-m1-cD Structure of a phosphoheptose isomerase from Francisella tularensis Q5NEF5 Q5NEF5 2.8 X-RAY DIFFRACTION 90 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 180 186 3trj-a1-m1-cA_3trj-a1-m1-cC TSLDKINSYFESSIQAKIETANALPPAIAQAAKAVSCLENGGKVLVCGNGSSGVIAQHFTSKLLNPLPAIALTGDVATITAVGNHYGFSQIFAKQVAALGNEDDILLVITTSGDSENILSAVEEAHDLEKVIALTGGSGGALQNYNTDDIELRVPSDNIANIQENHFLIVHCLCDIIDQK TSLDKINSYFESSIQAKIETANALPPAIAQAAKAVSCLENGGKVLVCGNGSSGVIAQHFTSKLLNHFEERPPLPAIALTGDVATITAVGNHYGFSQIFAKQVAALGNEDDILLVITTSGDSENILSAVEEAHDLEKVIALTGGSGGALQNYNTDDIELRVPSDNIANIQENHFLIVHCLCDIIDQK 3trj-a1-m1-cC_3trj-a1-m1-cD Structure of a phosphoheptose isomerase from Francisella tularensis Q5NEF5 Q5NEF5 2.8 X-RAY DIFFRACTION 65 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 180 186 3trj-a1-m1-cA_3trj-a1-m1-cB TSLDKINSYFESSIQAKIETANALPPAIAQAAKAVSCLENGGKVLVCGNGSSGVIAQHFTSKLLNPLPAIALTGDVATITAVGNHYGFSQIFAKQVAALGNEDDILLVITTSGDSENILSAVEEAHDLEKVIALTGGSGGALQNYNTDDIELRVPSDNIANIQENHFLIVHCLCDIIDQK TSLDKINSYFESSIQAKIETANALPPAIAQAAKAVSCLENGGKVLVCGNGSSGVIAQHFTSKLLNHFEERPPLPAIALTGDVATITAVGNHYGFSQIFAKQVAALGNEDDILLVITTSGDSENILSAVEEAHDLEKVIALTGGSGGALQNYNTDDIELRVPSDNIANIQENHFLIVHCLCDIIDQK 3trr-a1-m1-cB_3trr-a1-m1-cC Crystal structure of a probable enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1ML12 B1ML12 2.09 X-RAY DIFFRACTION 106 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 251 252 3trr-a1-m1-cA_3trr-a1-m1-cC 3trr-a1-m1-cB_3trr-a1-m1-cA 3trr-a2-m1-cD_3trr-a2-m1-cE 3trr-a2-m1-cD_3trr-a2-m1-cF 3trr-a2-m1-cE_3trr-a2-m1-cF ADEVLIEQRDRVLLITINRPDARNAVNRAVSQGLAAAADQLDSSADLSVAIITGAGGNFCAGMDLKAFVSGEAVLSERGLGFTNVPPRKPIIAAVEGFALAGGTELVLSCDLVVAGRSAKFGIPEVKRGLVAGAGGLLRLPNRIPYQVAMELALTGESFTAEDAAKYGFINRLVDDGQALDTALELAAKITANGPLAVAATKRIIIESASWAPEEAFAKQGEILMPIFVSEDAKEGAKAFAEKRAPVWQGK MADEVLIEQRDRVLLITINRPDARNAVNRAVSQGLAAAADQLDSSADLSVAIITGAGGNFCAGMDLKAFVSGEAVLSERGLGFTNVPPRKPIIAAVEGFALAGGTELVLSCDLVVAGRSAKFGIPEVKRGLVAGAGGLLRLPNRIPYQVAMELALTGESFTAEDAAKYGFINRLVDDGQALDTALELAAKITANGPLAVAATKRIIIESASWAPEEAFAKQGEILMPIFVSEDAKEGAKAFAEKRAPVWQGK 3trt-a1-m1-cB_3trt-a1-m1-cA Crystal structure of stabilised vimentin coil2 fragment P08670 P08670 2.3 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 73 KPDCTAARDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTEVDALK SKPDCTAARDVRQQYESVAAKNLQEAEEWYKSKFADLSEAANRNNDALRQAKQESTEYRRQVQSLTEVDALKG 3ts3-a2-m1-cD_3ts3-a2-m1-cB Crystal structure of the projection domain of the turkey astrovirus capsid protein at 1.5 angstrom resolution Q9Q3G5 Q9Q3G5 1.49 X-RAY DIFFRACTION 164 1.0 246343 (Turkey astrovirus 2) 246343 (Turkey astrovirus 2) 203 205 3ts3-a1-m1-cC_3ts3-a1-m2-cA SIYLPLPQADDQYTPYFVYNFQGERVSTTETGVFCLAAIPAATTSSRYNNQITIPSIGYRGTLFLLDAASWWNILDVTQTGVLFGQPRLGVGVMQTMKTLKQHIKDYTEPAIQKYYPGTTNLDEQLKQRLNLAEGDPVISMGDTNGRRAALFYRTSDEKYILFFSTTEDPGAQYQNLKMLYFWNWSYSDTKQQFLDHLRTVQF SIYLPLPQADDQYTPYFVYNFQGERVSTTETGVFCLAAIPAATTSSRYNNQITIPSIGYRGTGTLFLLDAASWWNILDVTQTGVLFGQPRLGVGVMQTMKTLKQHIKDYTEPAIQKYYPGTTNLDEQLKQRLNLAEGDPVISMGDTNGRRAALFYRTSDEKYILFFSTTEDPGAQYQNLKMLYFWNWSYSDTKQQFLDHLRTVQF 3ts7-a1-m1-cA_3ts7-a1-m1-cB CRYSTAL STRUCTURE OF FARNESYL DIPHOSPHATE SYNTHASE (TARGET EFI-501951) FROM Methylococcus capsulatus Q60AN0 Q60AN0 1.94 X-RAY DIFFRACTION 150 1.0 414 (Methylococcus capsulatus) 414 (Methylococcus capsulatus) 289 297 ERSLSDFMRSSQERVERALDARLPAADRMPERLHQAMRYSVLGGGKRMRPLLTYATGQTIGVAADLLDGPACAVEFIHVYSLIHDDLPAMDDDDLRRGKPTCHKAYDEATAILAGDGLQALAFHVLAQDPSIAVPAENRIAMIETLAKASGPAGMVGGQAIDLASVGKKLDLPGLENMHIRKTGALIRASVRLACLARPGLPAEQFDRLDHYAKCIGLAFQIQDDILDEESDKPNYPALLGLSGAKEKAEEMHEAALESLAGFGPEADLLRELARFIIQRQSAENLYFQ NPERSLSDFMRSSQERVERALDARLPAADRMPERLHQAMRYSVLGGGKRMRPLLTYATGQTIGVAADLLDGPACAVEFIHVYSLIHDDLPAMDDDDLRRGKPTCHKAYDEATAILAGDGLQALAFHVLAQDPSIAVPAENRIAMIETLAKASGPAGMVGGQAIDLASVGKKLDLPGLENMHIRKTGALIRASVRLACLARPGLPAEQFDRLDHYAKCIGLAFQIQDDILDEESDTQTLKPNYPALLGLSGAKEKAEEMHEAALESLAGFGPEADLLRELARFIIQRQSAENLYFQSH 3tsb-a1-m2-cA_3tsb-a1-m4-cA Crystal Structure of Inosine-5'-monophosphate Dehydrogenase from Bacillus anthracis str. Ames A0A6L8P2U9 A0A6L8P2U9 2.595 X-RAY DIFFRACTION 216 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 490 490 3tsb-a1-m1-cA_3tsb-a1-m3-cA 3tsb-a1-m1-cA_3tsb-a1-m4-cA 3tsb-a1-m2-cA_3tsb-a1-m3-cA 3tsd-a1-m1-cA_3tsd-a1-m3-cA 3tsd-a1-m1-cA_3tsd-a1-m4-cA 3tsd-a1-m2-cA_3tsd-a1-m3-cA 3tsd-a1-m2-cA_3tsd-a1-m4-cA QSNAMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGVISDPFFLTPEHQVYDAEHLMGKYRISGVPVVNNLDERKLVGIITNRDMRFIQDYSIKISDVMTKEQLITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIYQGRQFKVYRGMGSVGAMEKGSKDRYFQEGNKKLVPEGIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESHPHHVQITKEAPNYS QSNAMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGVISDPFFLTPEHQVYDAEHLMGKYRISGVPVVNNLDERKLVGIITNRDMRFIQDYSIKISDVMTKEQLITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIYQGRQFKVYRGMGSVGAMEKGSKDRYFQEGNKKLVPEGIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESHPHHVQITKEAPNYS 3tsb-a2-m2-cB_3tsb-a2-m4-cB Crystal Structure of Inosine-5'-monophosphate Dehydrogenase from Bacillus anthracis str. Ames A0A6L8P2U9 A0A6L8P2U9 2.595 X-RAY DIFFRACTION 214 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 434 434 3tsb-a2-m1-cB_3tsb-a2-m3-cB 3tsb-a2-m1-cB_3tsb-a2-m4-cB 3tsb-a2-m2-cB_3tsb-a2-m3-cB ENLYFQSNAMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGVGVPIITNRDMRFILITAPVGTTLSEAEKILQKYKIEKLPLVLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIYQGRQFKVYRGMGSVGAMEKGSKDRYFQEGNKKLVPEGIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESHPHHVQITKEAPNYS ENLYFQSNAMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGVGVPIITNRDMRFILITAPVGTTLSEAEKILQKYKIEKLPLVLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIYQGRQFKVYRGMGSVGAMEKGSKDRYFQEGNKKLVPEGIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESHPHHVQITKEAPNYS 3tsc-a1-m1-cA_3tsc-a1-m1-cD Crystal structure of short chain dehydrogenase MAP_2410 from Mycobacterium paratuberculosis bound to NAD Q73X99 Q73X99 2.05 X-RAY DIFFRACTION 95 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 271 271 3tsc-a1-m1-cB_3tsc-a1-m1-cC GKLEGRVAFITGAARGQGRAHAVRMAAEGADIIAVDIAGKLPSCVPYDPASPDDLSETVRLVEAANRRIVAAVVDTRDFDRLRKVVDDGVAALGRLDIIVANAGVAAPQAWDDITPEDFRDVMDINVTGTWNTVMAGAPRIIEGGRGGSIILISSAAGMKMQPFMIHYTASKHAVTGLARAFAAELGKHSIRVNSVHPGPVNTPMGSGDMVTAVGQAMETNPQLSHVLTPFLPDWVAEPEDIADTVCWLASDESRKVTAAQIPVDQGSTQY GKLEGRVAFITGAARGQGRAHAVRMAAEGADIIAVDIAGKLPSCVPYDPASPDDLSETVRLVEAANRRIVAAVVDTRDFDRLRKVVDDGVAALGRLDIIVANAGVAAPQAWDDITPEDFRDVMDINVTGTWNTVMAGAPRIIEGGRGGSIILISSAAGMKMQPFMIHYTASKHAVTGLARAFAAELGKHSIRVNSVHPGPVNTPMGSGDMVTAVGQAMETNPQLSHVLTPFLPDWVAEPEDIADTVCWLASDESRKVTAAQIPVDQGSTQY 3tsc-a1-m1-cB_3tsc-a1-m1-cD Crystal structure of short chain dehydrogenase MAP_2410 from Mycobacterium paratuberculosis bound to NAD Q73X99 Q73X99 2.05 X-RAY DIFFRACTION 125 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 271 271 3tsc-a1-m1-cA_3tsc-a1-m1-cC GKLEGRVAFITGAARGQGRAHAVRMAAEGADIIAVDIAGKLPSCVPYDPASPDDLSETVRLVEAANRRIVAAVVDTRDFDRLRKVVDDGVAALGRLDIIVANAGVAAPQAWDDITPEDFRDVMDINVTGTWNTVMAGAPRIIEGGRGGSIILISSAAGMKMQPFMIHYTASKHAVTGLARAFAAELGKHSIRVNSVHPGPVNTPMGSGDMVTAVGQAMETNPQLSHVLTPFLPDWVAEPEDIADTVCWLASDESRKVTAAQIPVDQGSTQY GKLEGRVAFITGAARGQGRAHAVRMAAEGADIIAVDIAGKLPSCVPYDPASPDDLSETVRLVEAANRRIVAAVVDTRDFDRLRKVVDDGVAALGRLDIIVANAGVAAPQAWDDITPEDFRDVMDINVTGTWNTVMAGAPRIIEGGRGGSIILISSAAGMKMQPFMIHYTASKHAVTGLARAFAAELGKHSIRVNSVHPGPVNTPMGSGDMVTAVGQAMETNPQLSHVLTPFLPDWVAEPEDIADTVCWLASDESRKVTAAQIPVDQGSTQY 3tsc-a1-m1-cC_3tsc-a1-m1-cD Crystal structure of short chain dehydrogenase MAP_2410 from Mycobacterium paratuberculosis bound to NAD Q73X99 Q73X99 2.05 X-RAY DIFFRACTION 23 1.0 1770 (Mycobacterium avium subsp. paratuberculosis) 1770 (Mycobacterium avium subsp. paratuberculosis) 271 271 3tsc-a1-m1-cA_3tsc-a1-m1-cB GKLEGRVAFITGAARGQGRAHAVRMAAEGADIIAVDIAGKLPSCVPYDPASPDDLSETVRLVEAANRRIVAAVVDTRDFDRLRKVVDDGVAALGRLDIIVANAGVAAPQAWDDITPEDFRDVMDINVTGTWNTVMAGAPRIIEGGRGGSIILISSAAGMKMQPFMIHYTASKHAVTGLARAFAAELGKHSIRVNSVHPGPVNTPMGSGDMVTAVGQAMETNPQLSHVLTPFLPDWVAEPEDIADTVCWLASDESRKVTAAQIPVDQGSTQY GKLEGRVAFITGAARGQGRAHAVRMAAEGADIIAVDIAGKLPSCVPYDPASPDDLSETVRLVEAANRRIVAAVVDTRDFDRLRKVVDDGVAALGRLDIIVANAGVAAPQAWDDITPEDFRDVMDINVTGTWNTVMAGAPRIIEGGRGGSIILISSAAGMKMQPFMIHYTASKHAVTGLARAFAAELGKHSIRVNSVHPGPVNTPMGSGDMVTAVGQAMETNPQLSHVLTPFLPDWVAEPEDIADTVCWLASDESRKVTAAQIPVDQGSTQY 3tsd-a2-m2-cB_3tsd-a2-m4-cB Crystal Structure of Inosine-5'-monophosphate Dehydrogenase from Bacillus anthracis str. Ames complexed with XMP A0A6L8P2U9 A0A6L8P2U9 2.653 X-RAY DIFFRACTION 145 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 426 426 3tsd-a2-m1-cB_3tsd-a2-m3-cB 3tsd-a2-m1-cB_3tsd-a2-m4-cB 3tsd-a2-m2-cB_3tsd-a2-m3-cB TENLYFQSNAMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESTPEHQHLMGKYRISGVPVVRKLVIITNRDMRFISIKISDVMTKEITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGEGRQFKVYRGMIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESH TENLYFQSNAMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESTPEHQHLMGKYRISGVPVVRKLVIITNRDMRFISIKISDVMTKEITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGEGRQFKVYRGMIEGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESH 3tsi-a1-m1-cA_3tsi-a1-m1-cC Structure of the parainfluenza virus 5 (PIV5) hemagglutinin-neuraminidase (HN) stalk domain P04850 P04850 2.651 X-RAY DIFFRACTION 57 1.0 11208 (Simian virus 5 (strain W3)) 11208 (Simian virus 5 (strain W3)) 50 50 SPSSGLGSITDLLNNILSVANQIIYNSAVALPLQLDTLESTLLTAIKSLQ SPSSGLGSITDLLNNILSVANQIIYNSAVALPLQLDTLESTLLTAIKSLQ 3tsm-a1-m1-cB_3tsm-a1-m1-cA Crystal structure of Indole-3-glycerol phosphate synthase from Brucella melitensis Q2YRR4 Q2YRR4 2.15 X-RAY DIFFRACTION 75 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 260 261 ILRKIEAYKREEIAAAKARLALDELKARTRDQSAPRGFLKALEAKRAAGQFALIAEIKKASPSKGLIRPDFDPPALAKAYEEGGAACLSVLTDTPSFQGAPEFLTAARQACSLPALRKDFLFDPYQVYEARSWGADCILIIMASVDDDLAKELEDTAFALGMDALIEVHDEAEMERALKLSSRLLGVNNRNLRSFEVNLAVSERLAKMAPSDRLLVGESGIFTHEDCLRLEKSGIGTFLIGESLMRQHDVAAATRALLTG DILRKIEAYKREEIAAAKARLALDELKARTRDQSAPRGFLKALEAKRAAGQFALIAEIKKASPSKGLIRPDFDPPALAKAYEEGGAACLSVLTDTPSFQGAPEFLTAARQACSLPALRKDFLFDPYQVYEARSWGADCILIIMASVDDDLAKELEDTAFALGMDALIEVHDEAEMERALKLSSRLLGVNNRNLRSFEVNLAVSERLAKMAPSDRLLVGESGIFTHEDCLRLEKSGIGTFLIGESLMRQHDVAAATRALLTG 3tsn-a2-m1-cC_3tsn-a2-m1-cD 4-hydroxythreonine-4-phosphate dehydrogenase from Campylobacter jejuni Q9PN58 Q9PN58 2.63 X-RAY DIFFRACTION 105 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 358 358 3tsn-a1-m1-cA_3tsn-a1-m1-cB AKKLAISIGDINSIGLEILVRSHEELSKICTPFYFIHESLLNKALKLLNLKLFNAKIVAFKDDKDYEFNFIKKENSLEIYSFCLPLGFKVDENFEIQAGEIDAKSGLYGFLSFKAASYFVYEKHAHALLTLPIHKKAWEDAGLKYKGHTDALRDFFKKNAILGCKELFVGLFSEHIPLAKVSKKITFKNLSIFLKDFYKETHFKKGLLGFNPHAGDYGVIGGEEEKIEKAIAFVNAFLHSKKDEKFFKKALKDENLQKELLLNFKGKGVYLPYPLVADTAFTKTGLKNCNRLVAYHDLALAPLKALYFDKSINVSLNLPIIRVSVDHGTAFDKAYKNAKINTKSYFEAAKFAINLHSK AKKLAISIGDINSIGLEILVRSHEELSKICTPFYFIHESLLNKALKLLNLKLFNAKIVAFKDDKDYEFNFIKKENSLEIYSFCLPLGFKVDENFEIQAGEIDAKSGLYGFLSFKAASYFVYEKHAHALLTLPIHKKAWEDAGLKYKGHTDALRDFFKKNAILGCKELFVGLFSEHIPLAKVSKKITFKNLSIFLKDFYKETHFKKGLLGFNPHAGDYGVIGGEEEKIEKAIAFVNAFLHSKKDEKFFKKALKDENLQKELLLNFKGKGVYLPYPLVADTAFTKTGLKNCNRLVAYHDLALAPLKALYFDKSINVSLNLPIIRVSVDHGTAFDKAYKNAKINTKSYFEAAKFAINLHSK 3tsw-a5-m1-cB_3tsw-a5-m1-cD crystal structure of the PDZ3-SH3-GUK core module of Human ZO-1 Q07157 Q07157 2.847 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 194 199 PSMKLVKFRKGDSVGLRLAGGNDVGIFVAGVLEDSPAAKEGLEEGDQILRVNNVDFTNIIREEAVLFLLDLPKGEEVTILAQKKKDVYRRIVESDVGDSFYIRTHFEYEKESPYGLSFNKGEVFRVVDTLYNGKLGSWLAIRIGKNHKEVERGIIPNKNRAEQLASVQYTLPKTFPAYERVVLREQNQLVWVSE RPSMKLVKFRKGDSVGLRLAGGNDVGIFVAGVLEDSPAAKEGLEEGDQILRVNNVDFTNIIREEAVLFLLDLPKGEEVTILAQKKKDVYRRIVESDVGDSFYIRTHFEYEKESPYGLSFNKGEVFRVVDTLYNGKLGSWLAIRIGKNHKEVERGIIPNKNRAEQLASVQYTLPKTFPAYERVVLREIQQQQNQLVWVSE 3tsy-a1-m1-cA_3tsy-a1-m2-cA 4-Coumaroyl-CoA Ligase::Stilbene Synthase fusion protein Q2HY10 Q2HY10 3.1 X-RAY DIFFRACTION 180 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 828 828 DVIFRSKLPDIYIPNHLSLHDYIFQNISEFATKPCLINGPTGHVYTYSDVHVISRQIAANFHKLGVNQNDVVMLLLPNCPEFVLSFLAASFRGATATAANPFFTPAEIAKQAKASNTKLIITEARYVDKIKPLQNDDGVVIVCIDDNESVPIPEGCLRFTELTQSTTEASEVIDSVEISPDDVVALPYSSGTTGLPKGVMLTHKGLVTSVAQQVDGENPNLYFHSDDVILCVLPMFHIYALNSIMLCGLRVGAAILIMPKFEINLLLELIQRCKVTVAPMVPPIVLAIAKSSETEKYDLSSIRVVKSGAAPLGKELEDAVNAKFPNAKLGQGYGMTEAGPVLAMSLGFAKEPFPVKSGACGTVVRNAEMKIVDPDTGDSLSRNQPGEICIRGHQIMKGYLNNPAATAETIDKDGWLHTGDIGLIDDDDELFIVDRLKEASVEEFRNAQRAKGPATILAIGTATPDHCVYQSDYADYYFKVTKSEHMTALKKKFNRICDKSMIKKRYIHLTEEMLEEHPNIGAYMAPSLNIRQEIITAEVPKLGKEAALKALKEWGQPKSKITHLVFCTTSGVEMPGADYKLANLLGLEPSVRRVMLYHQGCYAGGTVLRTAKDLAENNAGARVLVVCSEITVVTFRGPSEDALDSLVGQALFGDGSAAVIVGSDPDISIERPLFQLVSAAQTFIPNSAGAIAGNLREVGLTFHLWPNVPTLISENVEKCLTQAFDPLGISDWNSLFWIAHPGGPAILDAVEAKLNLDKKKLEATRHVLSEYGNMSSACVLFILDEMRKKSLKGERATTGEGLDWGVLFGFGPGLTIETVVLHSIPMVT DVIFRSKLPDIYIPNHLSLHDYIFQNISEFATKPCLINGPTGHVYTYSDVHVISRQIAANFHKLGVNQNDVVMLLLPNCPEFVLSFLAASFRGATATAANPFFTPAEIAKQAKASNTKLIITEARYVDKIKPLQNDDGVVIVCIDDNESVPIPEGCLRFTELTQSTTEASEVIDSVEISPDDVVALPYSSGTTGLPKGVMLTHKGLVTSVAQQVDGENPNLYFHSDDVILCVLPMFHIYALNSIMLCGLRVGAAILIMPKFEINLLLELIQRCKVTVAPMVPPIVLAIAKSSETEKYDLSSIRVVKSGAAPLGKELEDAVNAKFPNAKLGQGYGMTEAGPVLAMSLGFAKEPFPVKSGACGTVVRNAEMKIVDPDTGDSLSRNQPGEICIRGHQIMKGYLNNPAATAETIDKDGWLHTGDIGLIDDDDELFIVDRLKEASVEEFRNAQRAKGPATILAIGTATPDHCVYQSDYADYYFKVTKSEHMTALKKKFNRICDKSMIKKRYIHLTEEMLEEHPNIGAYMAPSLNIRQEIITAEVPKLGKEAALKALKEWGQPKSKITHLVFCTTSGVEMPGADYKLANLLGLEPSVRRVMLYHQGCYAGGTVLRTAKDLAENNAGARVLVVCSEITVVTFRGPSEDALDSLVGQALFGDGSAAVIVGSDPDISIERPLFQLVSAAQTFIPNSAGAIAGNLREVGLTFHLWPNVPTLISENVEKCLTQAFDPLGISDWNSLFWIAHPGGPAILDAVEAKLNLDKKKLEATRHVLSEYGNMSSACVLFILDEMRKKSLKGERATTGEGLDWGVLFGFGPGLTIETVVLHSIPMVT 3tt7-a1-m1-cG_3tt7-a1-m2-cG Structure of ClpP from Bacillus subtilis in complex with DFP P80244 P80244 2.558 X-RAY DIFFRACTION 73 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 180 180 3ktk-a1-m1-cA_3ktk-a1-m1-cK 3ktk-a1-m1-cB_3ktk-a1-m1-cJ 3ktk-a1-m1-cC_3ktk-a1-m1-cI 3ktk-a1-m1-cD_3ktk-a1-m1-cH 3ktk-a1-m1-cE_3ktk-a1-m1-cN 3ktk-a1-m1-cF_3ktk-a1-m1-cM 3ktk-a1-m1-cG_3ktk-a1-m1-cL 3tt7-a1-m1-cA_3tt7-a1-m2-cD 3tt7-a1-m1-cB_3tt7-a1-m2-cF 3tt7-a1-m1-cC_3tt7-a1-m2-cE 3tt7-a1-m1-cD_3tt7-a1-m2-cA 3tt7-a1-m1-cE_3tt7-a1-m2-cC 3tt7-a1-m1-cF_3tt7-a1-m2-cB 7fep-a1-m1-cA_7fep-a1-m1-cH 7fep-a1-m1-cB_7fep-a1-m1-cN 7fep-a1-m1-cC_7fep-a1-m1-cM 7fep-a1-m1-cD_7fep-a1-m1-cL 7fep-a1-m1-cE_7fep-a1-m1-cK 7fep-a1-m1-cF_7fep-a1-m1-cJ 7fep-a1-m1-cG_7fep-a1-m1-cI 7feq-a1-m1-cA_7feq-a1-m1-cH 7feq-a1-m1-cB_7feq-a1-m1-cN 7feq-a1-m1-cC_7feq-a1-m1-cM 7feq-a1-m1-cD_7feq-a1-m1-cL 7feq-a1-m1-cE_7feq-a1-m1-cK 7feq-a1-m1-cF_7feq-a1-m1-cJ 7feq-a1-m1-cG_7feq-a1-m1-cI IPTVIAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLAAEDPEKEISLYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGGAQGQATEIEIAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSAEEALEYGLIDKILT IPTVIAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLAAEDPEKEISLYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGGAQGQATEIEIAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSAEEALEYGLIDKILT 3tte-a3-m2-cB_3tte-a3-m4-cB Crystal structure of enolase brado_4202 (target EFI-501651) from Bradyrhizobium complexed with magnesium and mandelic acid A4YVM8 A4YVM8 2 X-RAY DIFFRACTION 91 1.0 114615 (Bradyrhizobium sp. ORS 278) 114615 (Bradyrhizobium sp. ORS 278) 359 359 3toy-a1-m1-cA_3toy-a1-m2-cA 3toy-a1-m1-cB_3toy-a1-m1-cC 3toy-a1-m1-cD_3toy-a1-m2-cD 3toy-a1-m2-cB_3toy-a1-m2-cC 3tte-a1-m1-cA_3tte-a1-m2-cA 3tte-a2-m1-cB_3tte-a2-m3-cB 3tte-a3-m1-cA_3tte-a3-m2-cA 3tte-a3-m1-cB_3tte-a3-m3-cB 3tte-a3-m3-cA_3tte-a3-m4-cA TTAAITGVTARAVITPMKRPLRNAFGVIDSGPLVLIDVTTDQGVTGHSYLFAYTRLALKPLVHLVEDIGRELAGKALVPVDLMKAMDAKFRLLGWQGLVGMAVSGLDMAFWDALGQLAGKPVVELLGGSARPIPAYDSYGVLDARDDERTLRTACDEHGFRAIKSKGGHGDLATDEAMIKGLRALLGPDIALMLDFNQSLDPAEATRRIARLADYDLTWIEEPVPQENLSGHAAVRERSEIPIQAGENWWFPRGFAEAIAAGASDFIMPDLMKVGGITGWLNVAGQADAASIPMSSHILPEASAHVLPVTPTAHFLEVLDFAGAILTEPLRVIDGKVTAKGPGLGLAWNESAVAKYQVT TTAAITGVTARAVITPMKRPLRNAFGVIDSGPLVLIDVTTDQGVTGHSYLFAYTRLALKPLVHLVEDIGRELAGKALVPVDLMKAMDAKFRLLGWQGLVGMAVSGLDMAFWDALGQLAGKPVVELLGGSARPIPAYDSYGVLDARDDERTLRTACDEHGFRAIKSKGGHGDLATDEAMIKGLRALLGPDIALMLDFNQSLDPAEATRRIARLADYDLTWIEEPVPQENLSGHAAVRERSEIPIQAGENWWFPRGFAEAIAAGASDFIMPDLMKVGGITGWLNVAGQADAASIPMSSHILPEASAHVLPVTPTAHFLEVLDFAGAILTEPLRVIDGKVTAKGPGLGLAWNESAVAKYQVT 3tth-a14-m2-cH_3tth-a14-m2-cG Structure of the spermidine N1-acetyltransferase (speG) from Coxiella burnetii Q83B40 Q83B40 3.298 X-RAY DIFFRACTION 57 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 161 162 3tth-a13-m1-cA_3tth-a13-m1-cB 3tth-a13-m1-cD_3tth-a13-m1-cC 3tth-a13-m1-cF_3tth-a13-m1-cE 3tth-a13-m2-cA_3tth-a13-m2-cB 3tth-a13-m2-cD_3tth-a13-m2-cC 3tth-a13-m2-cF_3tth-a13-m2-cE 3tth-a14-m1-cH_3tth-a14-m1-cG 3tth-a14-m1-cI_3tth-a14-m1-cJ 3tth-a14-m1-cK_3tth-a14-m1-cL 3tth-a14-m2-cI_3tth-a14-m2-cJ 3tth-a14-m2-cK_3tth-a14-m2-cL KKIRLSALEREDLKFVHELNNNLSSYWFEEPYESYRELEDLHIKHIHDQSERRFIIKDLKDNKVGLVELTEIDFIHRRCEFAIIISPGEEGKGYATEATDLTVEYAFSILNLHKIYLLVDEDNPAALHIYRKSGFAEEGKLVDEYYSKGRYRTAIRYVLKK KKIRLSALEREDLKFVHELNNNLSISYWFEEPYESYRELEDLHIKHIHDQSERRFIIKDLKDNKVGLVELTEIDFIHRRCEFAIIISPGEEGKGYATEATDLTVEYAFSILNLHKIYLLVDEDNPAALHIYRKSGFAEEGKLVDEYYSKGRYRTAIRYVLKK 3tth-a14-m2-cH_3tth-a14-m2-cJ Structure of the spermidine N1-acetyltransferase (speG) from Coxiella burnetii Q83B40 Q83B40 3.298 X-RAY DIFFRACTION 29 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 161 162 3tth-a13-m1-cA_3tth-a13-m1-cC 3tth-a13-m1-cA_3tth-a13-m2-cE 3tth-a13-m1-cC_3tth-a13-m1-cE 3tth-a13-m1-cD_3tth-a13-m1-cB 3tth-a13-m1-cD_3tth-a13-m1-cF 3tth-a13-m1-cF_3tth-a13-m2-cB 3tth-a13-m2-cA_3tth-a13-m1-cE 3tth-a13-m2-cA_3tth-a13-m2-cC 3tth-a13-m2-cC_3tth-a13-m2-cE 3tth-a13-m2-cD_3tth-a13-m2-cB 3tth-a13-m2-cD_3tth-a13-m2-cF 3tth-a13-m2-cF_3tth-a13-m1-cB 3tth-a14-m1-cH_3tth-a14-m1-cJ 3tth-a14-m1-cI_3tth-a14-m1-cG 3tth-a14-m1-cI_3tth-a14-m1-cK 3tth-a14-m1-cK_3tth-a14-m2-cG 3tth-a14-m1-cL_3tth-a14-m1-cJ 3tth-a14-m1-cL_3tth-a14-m2-cH 3tth-a14-m2-cI_3tth-a14-m2-cG 3tth-a14-m2-cI_3tth-a14-m2-cK 3tth-a14-m2-cK_3tth-a14-m1-cG 3tth-a14-m2-cL_3tth-a14-m1-cH 3tth-a14-m2-cL_3tth-a14-m2-cJ KKIRLSALEREDLKFVHELNNNLSSYWFEEPYESYRELEDLHIKHIHDQSERRFIIKDLKDNKVGLVELTEIDFIHRRCEFAIIISPGEEGKGYATEATDLTVEYAFSILNLHKIYLLVDEDNPAALHIYRKSGFAEEGKLVDEYYSKGRYRTAIRYVLKK KKIRLSALEREDLKFVHELNNNLSISYWFEEPYESYRELEDLHIKHIHDQSERRFIIKDLKDNKVGLVELTEIDFIHRRCEFAIIISPGEEGKGYATEATDLTVEYAFSILNLHKIYLLVDEDNPAALHIYRKSGFAEEGKLVDEYYSKGRYRTAIRYVLKK 3tth-a14-m2-cK_3tth-a14-m2-cJ Structure of the spermidine N1-acetyltransferase (speG) from Coxiella burnetii Q83B40 Q83B40 3.298 X-RAY DIFFRACTION 11 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 160 162 3tth-a13-m1-cA_3tth-a13-m2-cF 3tth-a13-m1-cC_3tth-a13-m1-cB 3tth-a13-m1-cD_3tth-a13-m1-cE 3tth-a13-m1-cF_3tth-a13-m2-cA 3tth-a13-m2-cC_3tth-a13-m2-cB 3tth-a13-m2-cD_3tth-a13-m2-cE 3tth-a14-m1-cI_3tth-a14-m1-cH 3tth-a14-m1-cK_3tth-a14-m1-cJ 3tth-a14-m2-cI_3tth-a14-m2-cH KKIRLSALEREDLKFVHELNNNLSSYWFEEPYESYRELEDLHIKHIHDQSERRFIIKDLKDNKVGLVELTEIDFIHRRCEFAIIISPGEEGKGYATEATDLTVEYAFSILNLHKIYLLVDEDNPAALHIYRKSGFAEEGKLVDEYYSKGRYRTAIRYVLK KKIRLSALEREDLKFVHELNNNLSISYWFEEPYESYRELEDLHIKHIHDQSERRFIIKDLKDNKVGLVELTEIDFIHRRCEFAIIISPGEEGKGYATEATDLTVEYAFSILNLHKIYLLVDEDNPAALHIYRKSGFAEEGKLVDEYYSKGRYRTAIRYVLKK 3ttp-a1-m1-cA_3ttp-a1-m1-cB Structure of multiresistant HIV-1 protease in complex with darunavir P03367 P03367 2.23 X-RAY DIFFRACTION 145 1.0 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 99 99 PQITLWQRPLVTVKIGGQLREALLDTGADDTIFEDINLPGKWTPKMVGGIGGFMKVRQYDQVVIEICGHKVTSPVLVGPTPLNIIGRNVLTQLGCTLNF PQITLWQRPLVTVKIGGQLREALLDTGADDTIFEDINLPGKWTPKMVGGIGGFMKVRQYDQVVIEICGHKVTSPVLVGPTPLNIIGRNVLTQLGCTLNF 3tty-a3-m1-cB_3tty-a3-m1-cF Crystal structure of beta-galactosidase from Bacillus circulans sp. alkalophilus in complex with galactose 2.25 X-RAY DIFFRACTION 24 1.0 44160 (Niallia circulans subsp. alkalophilus) 44160 (Niallia circulans subsp. alkalophilus) 675 675 3tts-a3-m1-cA_3tts-a3-m1-cD 3tts-a3-m1-cB_3tts-a3-m1-cF 3tts-a3-m1-cC_3tts-a3-m1-cE 3tty-a3-m1-cA_3tty-a3-m1-cD 3tty-a3-m1-cC_3tty-a3-m1-cE MINEKFPKIWYGGDYNPEQWDKATMEEDMRMFNLAGIDVATVNVFSWAKIQRDEVSYDFTWLDDIIERLTKENIYLCLATSTGAHPAWMAKKYPDVLRVDYEGRKRKFGGRHNSCPNSPTYRKYAKILAGKLAERYKDHPQIVMWHVSNEYGGYCYCDNCEKQFRVWLKERYGTLEALNKAWNTSFWSHTFYDWDEIVAPNALSEEWSGNRTNFQGISLDYRRFQSDSLLECFKMERDELKRWTPDIPVTTNLMGFYPELDYFKWAKEMDVVSWDNYPSMDTPFSFTAMAHNLMRGLKSGQPFMLMEQTPGVQNWQPYNSAKRPGVMRLWSYQAVAHGADTVMFFQLRRSVGACEKYHGAVIEHVGHEHTRVFRECAELGKELQQLGDTILDARSEAKVAVMYDWENRWALELSSGPSIALNYVNEVHKYYDALYKQNIQTDMISVEEDLSKYKVVIAPVMYMVKPGFAERVERFVAQGGTFVTTFFSGIVNENDLVTLGGYPGELRNVMGIWAEEIDALLPGHQNEIVLRQDWGGLRGSYSCGILCDVIHAETAEVLAEYGADYYKGTPVLTRNKFGNGQSYYVASSPDADFLQGLIANLCEEQGVKPLLNTPDGVEVAERVKNGTSYLFVMNHNAEEMTFDAGASRQRDLLTGKTISGQATIPARGVMILERA MINEKFPKIWYGGDYNPEQWDKATMEEDMRMFNLAGIDVATVNVFSWAKIQRDEVSYDFTWLDDIIERLTKENIYLCLATSTGAHPAWMAKKYPDVLRVDYEGRKRKFGGRHNSCPNSPTYRKYAKILAGKLAERYKDHPQIVMWHVSNEYGGYCYCDNCEKQFRVWLKERYGTLEALNKAWNTSFWSHTFYDWDEIVAPNALSEEWSGNRTNFQGISLDYRRFQSDSLLECFKMERDELKRWTPDIPVTTNLMGFYPELDYFKWAKEMDVVSWDNYPSMDTPFSFTAMAHNLMRGLKSGQPFMLMEQTPGVQNWQPYNSAKRPGVMRLWSYQAVAHGADTVMFFQLRRSVGACEKYHGAVIEHVGHEHTRVFRECAELGKELQQLGDTILDARSEAKVAVMYDWENRWALELSSGPSIALNYVNEVHKYYDALYKQNIQTDMISVEEDLSKYKVVIAPVMYMVKPGFAERVERFVAQGGTFVTTFFSGIVNENDLVTLGGYPGELRNVMGIWAEEIDALLPGHQNEIVLRQDWGGLRGSYSCGILCDVIHAETAEVLAEYGADYYKGTPVLTRNKFGNGQSYYVASSPDADFLQGLIANLCEEQGVKPLLNTPDGVEVAERVKNGTSYLFVMNHNAEEMTFDAGASRQRDLLTGKTISGQATIPARGVMILERA 3tty-a3-m1-cE_3tty-a3-m1-cF Crystal structure of beta-galactosidase from Bacillus circulans sp. alkalophilus in complex with galactose 2.25 X-RAY DIFFRACTION 160 1.0 44160 (Niallia circulans subsp. alkalophilus) 44160 (Niallia circulans subsp. alkalophilus) 675 675 3tts-a1-m1-cA_3tts-a1-m1-cB 3tts-a1-m1-cA_3tts-a1-m1-cC 3tts-a1-m1-cB_3tts-a1-m1-cC 3tts-a2-m1-cD_3tts-a2-m1-cE 3tts-a2-m1-cD_3tts-a2-m1-cF 3tts-a2-m1-cE_3tts-a2-m1-cF 3tts-a3-m1-cA_3tts-a3-m1-cB 3tts-a3-m1-cA_3tts-a3-m1-cC 3tts-a3-m1-cB_3tts-a3-m1-cC 3tts-a3-m1-cD_3tts-a3-m1-cE 3tts-a3-m1-cD_3tts-a3-m1-cF 3tts-a3-m1-cE_3tts-a3-m1-cF 3tty-a1-m1-cA_3tty-a1-m1-cB 3tty-a1-m1-cA_3tty-a1-m1-cC 3tty-a1-m1-cB_3tty-a1-m1-cC 3tty-a2-m1-cD_3tty-a2-m1-cE 3tty-a2-m1-cD_3tty-a2-m1-cF 3tty-a2-m1-cE_3tty-a2-m1-cF 3tty-a3-m1-cA_3tty-a3-m1-cB 3tty-a3-m1-cA_3tty-a3-m1-cC 3tty-a3-m1-cB_3tty-a3-m1-cC 3tty-a3-m1-cD_3tty-a3-m1-cE 3tty-a3-m1-cD_3tty-a3-m1-cF MINEKFPKIWYGGDYNPEQWDKATMEEDMRMFNLAGIDVATVNVFSWAKIQRDEVSYDFTWLDDIIERLTKENIYLCLATSTGAHPAWMAKKYPDVLRVDYEGRKRKFGGRHNSCPNSPTYRKYAKILAGKLAERYKDHPQIVMWHVSNEYGGYCYCDNCEKQFRVWLKERYGTLEALNKAWNTSFWSHTFYDWDEIVAPNALSEEWSGNRTNFQGISLDYRRFQSDSLLECFKMERDELKRWTPDIPVTTNLMGFYPELDYFKWAKEMDVVSWDNYPSMDTPFSFTAMAHNLMRGLKSGQPFMLMEQTPGVQNWQPYNSAKRPGVMRLWSYQAVAHGADTVMFFQLRRSVGACEKYHGAVIEHVGHEHTRVFRECAELGKELQQLGDTILDARSEAKVAVMYDWENRWALELSSGPSIALNYVNEVHKYYDALYKQNIQTDMISVEEDLSKYKVVIAPVMYMVKPGFAERVERFVAQGGTFVTTFFSGIVNENDLVTLGGYPGELRNVMGIWAEEIDALLPGHQNEIVLRQDWGGLRGSYSCGILCDVIHAETAEVLAEYGADYYKGTPVLTRNKFGNGQSYYVASSPDADFLQGLIANLCEEQGVKPLLNTPDGVEVAERVKNGTSYLFVMNHNAEEMTFDAGASRQRDLLTGKTISGQATIPARGVMILERA MINEKFPKIWYGGDYNPEQWDKATMEEDMRMFNLAGIDVATVNVFSWAKIQRDEVSYDFTWLDDIIERLTKENIYLCLATSTGAHPAWMAKKYPDVLRVDYEGRKRKFGGRHNSCPNSPTYRKYAKILAGKLAERYKDHPQIVMWHVSNEYGGYCYCDNCEKQFRVWLKERYGTLEALNKAWNTSFWSHTFYDWDEIVAPNALSEEWSGNRTNFQGISLDYRRFQSDSLLECFKMERDELKRWTPDIPVTTNLMGFYPELDYFKWAKEMDVVSWDNYPSMDTPFSFTAMAHNLMRGLKSGQPFMLMEQTPGVQNWQPYNSAKRPGVMRLWSYQAVAHGADTVMFFQLRRSVGACEKYHGAVIEHVGHEHTRVFRECAELGKELQQLGDTILDARSEAKVAVMYDWENRWALELSSGPSIALNYVNEVHKYYDALYKQNIQTDMISVEEDLSKYKVVIAPVMYMVKPGFAERVERFVAQGGTFVTTFFSGIVNENDLVTLGGYPGELRNVMGIWAEEIDALLPGHQNEIVLRQDWGGLRGSYSCGILCDVIHAETAEVLAEYGADYYKGTPVLTRNKFGNGQSYYVASSPDADFLQGLIANLCEEQGVKPLLNTPDGVEVAERVKNGTSYLFVMNHNAEEMTFDAGASRQRDLLTGKTISGQATIPARGVMILERA 3tuf-a1-m1-cA_3tuf-a1-m2-cA Structure of the SpoIIQ-SpoIIIAH pore forming complex. P49785 P49785 2.26 X-RAY DIFFRACTION 43 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 115 115 DDLFTTYRLDLEDARSKEREELNAIVSSDDATAKEKSEAYDKMTALSEVEGTEKQLETLIKTQGYEDALVNAEGDKINITVKSDKHSKSKATAIIDLVAKEIKTMKDVAVTFEPS DDLFTTYRLDLEDARSKEREELNAIVSSDDATAKEKSEAYDKMTALSEVEGTEKQLETLIKTQGYEDALVNAEGDKINITVKSDKHSKSKATAIIDLVAKEIKTMKDVAVTFEPS 3tui-a1-m1-cA_3tui-a1-m1-cB Inward facing conformations of the MetNI methionine ABC transporter: CY5 native crystal form P31547 P31547 2.9 X-RAY DIFFRACTION 94 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 216 216 3dhw-a1-m1-cA_3dhw-a1-m1-cB 3dhw-a2-m1-cE_3dhw-a2-m1-cF 3tui-a2-m1-cE_3tui-a2-m1-cF 3tuj-a1-m1-cB_3tuj-a1-m1-cA 3tuz-a1-m1-cA_3tuz-a1-m1-cB 3tuz-a2-m1-cE_3tuz-a2-m1-cF MSEPMMWLLVRGVWETLAMTFVSGFFGFVIGLPVGVLLYVTRPGQIIANAKLYRTVSAIVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPMQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFAGDRIVRAVTR MSEPMMWLLVRGVWETLAMTFVSGFFGFVIGLPVGVLLYVTRPGQIIANAKLYRTVSAIVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPMQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFAGDRIVRAVTR 3tui-a2-m1-cG_3tui-a2-m1-cH Inward facing conformations of the MetNI methionine ABC transporter: CY5 native crystal form P30750 P30750 2.9 X-RAY DIFFRACTION 83 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 343 344 3dhw-a1-m1-cC_3dhw-a1-m1-cD 3dhw-a2-m1-cG_3dhw-a2-m1-cH 3tui-a1-m1-cD_3tui-a1-m1-cC 3tuj-a1-m1-cC_3tuj-a1-m1-cD 3tuz-a1-m1-cD_3tuz-a1-m1-cC 3tuz-a2-m1-cH_3tuz-a2-m1-cG MIKLSNITKVFHQGTRTIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVLVDGQELTTLSESELTKARRQIGMIFQHFNLLSSRTVFGNVALPLELDNTPKDEVKRRVTELLSLVGLGDKHDSYPSNLSGGQKQRVAIARALASNPKVLLCDQATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGELIEQDTVSEVFSHPKTPLAQKFIQSTLHLDIPEDYQERLQAEPFTDCVPMLRLEFTGQSVDAPLLSETARRFNVNNNIISAQMDYAGGVKFGIMLTEMHGTQQDTQAAIAWLQEHHVKVEVLGYV HMIKLSNITKVFHQGTRTIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVLVDGQELTTLSESELTKARRQIGMIFQHFNLLSSRTVFGNVALPLELDNTPKDEVKRRVTELLSLVGLGDKHDSYPSNLSGGQKQRVAIARALASNPKVLLCDQATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGELIEQDTVSEVFSHPKTPLAQKFIQSTLHLDIPEDYQERLQAEPFTDCVPMLRLEFTGQSVDAPLLSETARRFNVNNNIISAQMDYAGGVKFGIMLTEMHGTQQDTQAAIAWLQEHHVKVEVLGYV 3tul-a5-m1-cD_3tul-a5-m1-cB Crystal structure of N-terminal region of Type III Secretion Major Translocator SipB (residues 82-226) Q56019 Q56019 2.793 X-RAY DIFFRACTION 51 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 120 130 3tul-a5-m1-cC_3tul-a5-m1-cA GQLTLLLGKLTLLGDVSLSQLESRLAVWQAIKEFQTALGEAQEATDLYEASIKKTDTAKSVYDAATKKLTQAQNKAQAEAAVEQAGKEATEAKEALDKATDATVKAGTDAKAKAEKADNI GQLTLLLGKLTLLGDVSLSQLESRLAVWQAIESQKEGSKEFQTALGEAQEATDLYEASIKKTDTAKSVYDAATKKLTQAQNKLQAQAEAAVEQAGKEATEAKEALDKATDATVKAGTDAKAKAEKADNIL 3tul-a5-m1-cD_3tul-a5-m1-cC Crystal structure of N-terminal region of Type III Secretion Major Translocator SipB (residues 82-226) Q56019 Q56019 2.793 X-RAY DIFFRACTION 34 0.983 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 120 127 3tul-a5-m1-cB_3tul-a5-m1-cA GQLTLLLGKLTLLGDVSLSQLESRLAVWQAIKEFQTALGEAQEATDLYEASIKKTDTAKSVYDAATKKLTQAQNKAQAEAAVEQAGKEATEAKEALDKATDATVKAGTDAKAKAEKADNI QLTLLLGKLTLLGDVSLSQLESRLAVWQAIESQKEGVSKEFQTALGEAQEATDLYEASIKKTDTAKSVYDAATKKLTQAQNKLAQAEAAVEQAGKEATEAKEALDKATDATVKAGTDAKAKAEKADN 3tuo-a1-m1-cD_3tuo-a1-m1-cA Crystal structure of N-terminal domain of DNA-binding protein satb1 Q01826 Q01826 1.697 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 104 4q2j-a1-m1-cB_4q2j-a1-m1-cA GSGTMLPVFCVVEHYHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQL PGSGTMLPVFCVVEHYENAIEYDCKEEHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQLH 3tuo-a1-m1-cD_3tuo-a1-m1-cC Crystal structure of N-terminal domain of DNA-binding protein satb1 Q01826 Q01826 1.697 X-RAY DIFFRACTION 47 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 91 93 3tuo-a1-m1-cB_3tuo-a1-m1-cA 4q2j-a1-m1-cC_4q2j-a1-m1-cD GSGTMLPVFCVVEHYHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQL GPGSGTMLPVFCVVEHEHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQL 3tv0-a2-m4-cB_3tv0-a2-m1-cA Structure of dynactin p27 subunit O00399 O00399 2.1492 X-RAY DIFFRACTION 35 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 141 143 3tv0-a2-m2-cB_3tv0-a2-m3-cA VKIAPGAVVCVESEIRGDVTIGPRTVIHPKARIIAEAGPIVIGEGNLIEEQALIINAYPDNIPKPMIIGTNNVFEVGCYSQAMKMGDNNVIESKAYVGRNVILTSGCIIGACCNLNTFEVIPENTVIYGADCLRRVQTERP SVKIAPGAVVCVESEIRGDVTIGPRTVIHPKARIIAEAGPIVIGEGNLIEEQALIINAYPDNIKPMIIGTNNVFEVGCYSQAMKMGDNNVIESKAYVGRNVILTSGCIIGACCNLNTFEVIPENTVIYGADCLRRVQTERPQP 3tv0-a2-m4-cB_3tv0-a2-m3-cA Structure of dynactin p27 subunit O00399 O00399 2.1492 X-RAY DIFFRACTION 89 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 141 143 3tv0-a1-m2-cB_3tv0-a1-m1-cA 3tv0-a2-m2-cB_3tv0-a2-m1-cA VKIAPGAVVCVESEIRGDVTIGPRTVIHPKARIIAEAGPIVIGEGNLIEEQALIINAYPDNIPKPMIIGTNNVFEVGCYSQAMKMGDNNVIESKAYVGRNVILTSGCIIGACCNLNTFEVIPENTVIYGADCLRRVQTERP SVKIAPGAVVCVESEIRGDVTIGPRTVIHPKARIIAEAGPIVIGEGNLIEEQALIINAYPDNIKPMIIGTNNVFEVGCYSQAMKMGDNNVIESKAYVGRNVILTSGCIIGACCNLNTFEVIPENTVIYGADCLRRVQTERPQP 3tv2-a1-m1-cA_3tv2-a1-m4-cA Structure of a class II fumarate hydratase from Burkholderia pseudomallei Q3JQ34 Q3JQ34 2.1 X-RAY DIFFRACTION 127 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 457 457 3tv2-a1-m2-cA_3tv2-a1-m3-cA RMERDTFGEIAVPAARLWGAQTQRSLQNFKISTEKQSPELIHALALIKRAAAAVNLELGVLAQDKANAIVAAADEIIAGRHADEFPLAVWQTGSGTQTNMNLNEVIANRASELLGGERGESRAVHPNDDVNRGQSSNDVFPTAMHIAAARAIVDHLLPALRTLRATLDAKAAAFADIVKIGRTHLQDATPLTLGQEFSGYVAQLDQGIRHVEAALPHLYELAQGGTAVGTGLNAHPKFAAGVAAEIGRLTGLPFVSAPNKFEVMAAADALVFAHGALKTVAASLMKIANDIRWLASGPRCGLGELSIPENEPGSSIMPGKVNPTQSEAVTMLCCQVFGNDVAVNFGGASGNFELNVFRPMIAHNVLQSVRLLADGAQGFNDHCAVGIEPNRARIDALLNESLMLVTALNPHIGYDKAAQIAKKAHKEGTTLKAAALALGYVTDAQFDEWVRPEHMVG RMERDTFGEIAVPAARLWGAQTQRSLQNFKISTEKQSPELIHALALIKRAAAAVNLELGVLAQDKANAIVAAADEIIAGRHADEFPLAVWQTGSGTQTNMNLNEVIANRASELLGGERGESRAVHPNDDVNRGQSSNDVFPTAMHIAAARAIVDHLLPALRTLRATLDAKAAAFADIVKIGRTHLQDATPLTLGQEFSGYVAQLDQGIRHVEAALPHLYELAQGGTAVGTGLNAHPKFAAGVAAEIGRLTGLPFVSAPNKFEVMAAADALVFAHGALKTVAASLMKIANDIRWLASGPRCGLGELSIPENEPGSSIMPGKVNPTQSEAVTMLCCQVFGNDVAVNFGGASGNFELNVFRPMIAHNVLQSVRLLADGAQGFNDHCAVGIEPNRARIDALLNESLMLVTALNPHIGYDKAAQIAKKAHKEGTTLKAAALALGYVTDAQFDEWVRPEHMVG 3tv2-a1-m2-cA_3tv2-a1-m4-cA Structure of a class II fumarate hydratase from Burkholderia pseudomallei Q3JQ34 Q3JQ34 2.1 X-RAY DIFFRACTION 248 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 457 457 3tv2-a1-m1-cA_3tv2-a1-m3-cA RMERDTFGEIAVPAARLWGAQTQRSLQNFKISTEKQSPELIHALALIKRAAAAVNLELGVLAQDKANAIVAAADEIIAGRHADEFPLAVWQTGSGTQTNMNLNEVIANRASELLGGERGESRAVHPNDDVNRGQSSNDVFPTAMHIAAARAIVDHLLPALRTLRATLDAKAAAFADIVKIGRTHLQDATPLTLGQEFSGYVAQLDQGIRHVEAALPHLYELAQGGTAVGTGLNAHPKFAAGVAAEIGRLTGLPFVSAPNKFEVMAAADALVFAHGALKTVAASLMKIANDIRWLASGPRCGLGELSIPENEPGSSIMPGKVNPTQSEAVTMLCCQVFGNDVAVNFGGASGNFELNVFRPMIAHNVLQSVRLLADGAQGFNDHCAVGIEPNRARIDALLNESLMLVTALNPHIGYDKAAQIAKKAHKEGTTLKAAALALGYVTDAQFDEWVRPEHMVG RMERDTFGEIAVPAARLWGAQTQRSLQNFKISTEKQSPELIHALALIKRAAAAVNLELGVLAQDKANAIVAAADEIIAGRHADEFPLAVWQTGSGTQTNMNLNEVIANRASELLGGERGESRAVHPNDDVNRGQSSNDVFPTAMHIAAARAIVDHLLPALRTLRATLDAKAAAFADIVKIGRTHLQDATPLTLGQEFSGYVAQLDQGIRHVEAALPHLYELAQGGTAVGTGLNAHPKFAAGVAAEIGRLTGLPFVSAPNKFEVMAAADALVFAHGALKTVAASLMKIANDIRWLASGPRCGLGELSIPENEPGSSIMPGKVNPTQSEAVTMLCCQVFGNDVAVNFGGASGNFELNVFRPMIAHNVLQSVRLLADGAQGFNDHCAVGIEPNRARIDALLNESLMLVTALNPHIGYDKAAQIAKKAHKEGTTLKAAALALGYVTDAQFDEWVRPEHMVG 3tv2-a1-m3-cA_3tv2-a1-m4-cA Structure of a class II fumarate hydratase from Burkholderia pseudomallei Q3JQ34 Q3JQ34 2.1 X-RAY DIFFRACTION 180 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 457 457 3tv2-a1-m1-cA_3tv2-a1-m2-cA RMERDTFGEIAVPAARLWGAQTQRSLQNFKISTEKQSPELIHALALIKRAAAAVNLELGVLAQDKANAIVAAADEIIAGRHADEFPLAVWQTGSGTQTNMNLNEVIANRASELLGGERGESRAVHPNDDVNRGQSSNDVFPTAMHIAAARAIVDHLLPALRTLRATLDAKAAAFADIVKIGRTHLQDATPLTLGQEFSGYVAQLDQGIRHVEAALPHLYELAQGGTAVGTGLNAHPKFAAGVAAEIGRLTGLPFVSAPNKFEVMAAADALVFAHGALKTVAASLMKIANDIRWLASGPRCGLGELSIPENEPGSSIMPGKVNPTQSEAVTMLCCQVFGNDVAVNFGGASGNFELNVFRPMIAHNVLQSVRLLADGAQGFNDHCAVGIEPNRARIDALLNESLMLVTALNPHIGYDKAAQIAKKAHKEGTTLKAAALALGYVTDAQFDEWVRPEHMVG RMERDTFGEIAVPAARLWGAQTQRSLQNFKISTEKQSPELIHALALIKRAAAAVNLELGVLAQDKANAIVAAADEIIAGRHADEFPLAVWQTGSGTQTNMNLNEVIANRASELLGGERGESRAVHPNDDVNRGQSSNDVFPTAMHIAAARAIVDHLLPALRTLRATLDAKAAAFADIVKIGRTHLQDATPLTLGQEFSGYVAQLDQGIRHVEAALPHLYELAQGGTAVGTGLNAHPKFAAGVAAEIGRLTGLPFVSAPNKFEVMAAADALVFAHGALKTVAASLMKIANDIRWLASGPRCGLGELSIPENEPGSSIMPGKVNPTQSEAVTMLCCQVFGNDVAVNFGGASGNFELNVFRPMIAHNVLQSVRLLADGAQGFNDHCAVGIEPNRARIDALLNESLMLVTALNPHIGYDKAAQIAKKAHKEGTTLKAAALALGYVTDAQFDEWVRPEHMVG 3tv9-a1-m1-cA_3tv9-a1-m2-cA Crystal Structure of Putative Peptide Maturation Protein from Shigella flexneri A0A0H2W186 A0A0H2W186 2.497 X-RAY DIFFRACTION 130 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 427 427 FQSNARKILEEAVSTALELASGKSDGAEVAVSKTTGISVSTRYGEVENVEFNSDGALGITVYHQNRKGSASSTDLSPQAIARTVQAALDIARYTSPDPCAGVADKELLAFDAPNLDLFHPAEVSPDEAIELAARAEQAALQADKRITNTEGGSFNSHYGVKVFGNSHGLQGYCSTRHSLFSCVIAEEDERDYAYTIGRASDLQTPEWVGADCARRTLSRLSPRKLSTKAPVIFANEVATGLFGHLVGAIAGGSVYRKSTFLLDSLGKQILPDWLTIEEHPHLLKGLASTPFDSEGVRTERRDIIKDGILTQWLLTSYSARKLGLKSTGHAGGIHNWRIAGQGLSFEQLKEGTGLVVTELGQGVSAITGDYSRGAAGFWVENGEIQYPVSEITIAGNLKDWRNIVTVGNDIETRSNIQCGSVLLPEKI FQSNARKILEEAVSTALELASGKSDGAEVAVSKTTGISVSTRYGEVENVEFNSDGALGITVYHQNRKGSASSTDLSPQAIARTVQAALDIARYTSPDPCAGVADKELLAFDAPNLDLFHPAEVSPDEAIELAARAEQAALQADKRITNTEGGSFNSHYGVKVFGNSHGLQGYCSTRHSLFSCVIAEEDERDYAYTIGRASDLQTPEWVGADCARRTLSRLSPRKLSTKAPVIFANEVATGLFGHLVGAIAGGSVYRKSTFLLDSLGKQILPDWLTIEEHPHLLKGLASTPFDSEGVRTERRDIIKDGILTQWLLTSYSARKLGLKSTGHAGGIHNWRIAGQGLSFEQLKEGTGLVVTELGQGVSAITGDYSRGAAGFWVENGEIQYPVSEITIAGNLKDWRNIVTVGNDIETRSNIQCGSVLLPEKI 3tvi-a2-m1-cC_3tvi-a2-m1-cD Crystal structure of Clostridium acetobutylicum aspartate kinase (CaAK): An important allosteric enzyme for industrial amino acids production Q97MC0 Q97MC0 3 X-RAY DIFFRACTION 149 1.0 1488 (Clostridium acetobutylicum) 1488 (Clostridium acetobutylicum) 426 429 3tvi-a1-m1-cA_3tvi-a1-m1-cB 3tvi-a3-m1-cF_3tvi-a3-m1-cE 3tvi-a4-m1-cH_3tvi-a4-m1-cG 3tvi-a5-m1-cI_3tvi-a5-m1-cJ 3tvi-a6-m1-cK_3tvi-a6-m1-cL LKIVVTKFGGSSLADSNQFKKVKGIIDSDANRKYIIPSAPGKRTNKDYKITDLLYLCNAHVKNGIPFDDVFKLISQRYTEIVSELNIDDIAYYLEKVKKNIENGASSDYAASRGEYLNGVILAKYLNAEFIDAAEVIFFDKSGCFDEKKSYEKIKEKVLSCNKAVIPGFYGSSFNGDVKTFSRGGSDVTGSIISAGVNADLYENWTDVSGFLADPRIVENPKTISKISYKELRELSYVLHEEAIFPVKDSGIPINIKNTNKPSDPGTLILSDTHKEINLGTITGIAGKKNFTVIAIEKALLNSEVGFCRKILSILEYGVSFEHPSGVDSVSLVIEDCKLDGKCDKIIEEIKKQCNPDSIEIHPNALVATVGTGAKTKGIANKIFTALSKENVNIRIDQGSSEINVIVGVETVDFEKAVKSIYNAFN LKIVVTKFGGSSLADSNQFKKVKGIIDSDANRKYIIPSAPGKRTNKDYKITDLLYLCNAHVKNGIPFDDVFKLISQRYTEIVSELNIDDIAYYLEKVKKNIENGASSDYAASRGEYLNGVILAKYLNAEFIDAAEVIFFDKSGCFDEKKSYEKIKEKVLSCNKAVIPGFYGSSFNGDVKTFSRGGSDVTGSIISAGVNADLYENWTDVSGFLADPRIVENPKTISKISYKELRELSYGATVLHEEAIFPVKDSGIPINIKNTNKPSDPGTLILSDTHKEINLGTITGIAGKKNFTVIAIEKALLNSEVGFCRKILSILEYGVSFEHPSGVDSVSLVIEDCKLDGKCDKIIEEIKKQCNPDSIEIHPNALVATVGTGAKTKGIANKIFTALSKENVNIRIDQGSSEINVIVGVETVDFEKAVKSIYNAFN 3tw4-a1-m1-cB_3tw4-a1-m1-cA Crystal Structure of Human Septin 7 GTPase Domain Q16181 Q16181 3.35 X-RAY DIFFRACTION 53 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 212 218 FEFTLMVVGESGLGKSTLINSLFLVQVEQSKVLILLLTIVDTPGFGDAVDNSNCWQPVIDYIDSKFEDYLNAESRVNRRQMPDNRVQCCLYFIAPSGHGLKPLDIEFMKRLHEKVNIIPLIAKADTLTPEECQQFKKQIMKEIQEHKIKIYEFPETLVKKIKDRLPLAVVGNGEHCDFTILRNMLIRTHMQDLKDVTNNVHYENYRSRKLAA FEFTLMVVGESGLGKSTLINSLFLTDLYVEQSKVLIQLLLTIVDTPGFAVDNSNCWQPVIDYIDSKFEDYLNAESRVNRRQMPDNRVQCCLYFIAPSGHGLKPLDIEFMKRLHEKVNIIPLIAKADTLTPEECQQFKKQIMKEIQEHKIKIYEFPETLVKKIKDRLPLAVVGSNTIINGEHCDFTILRNMLIRTHMQDLKDVTNNVHYENYRSRKLAA 3tw9-a3-m1-cA_3tw9-a3-m2-cC Crystal structure of gluconate dehydratase (TARGET EFI-501679) from Salmonella enterica subsp. enterica serovar Enteritidis str. P125109 B5R541 B5R541 1.7 X-RAY DIFFRACTION 79 1.0 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 394 395 3tw9-a3-m1-cA_3tw9-a3-m1-cD 3tw9-a3-m1-cC_3tw9-a3-m1-cB 3tw9-a3-m1-cD_3tw9-a3-m2-cB 3tw9-a3-m2-cA_3tw9-a3-m1-cC 3tw9-a3-m2-cA_3tw9-a3-m2-cD 3tw9-a3-m2-cC_3tw9-a3-m2-cB 3tw9-a3-m2-cD_3tw9-a3-m1-cB 3twa-a4-m1-cA_3twa-a4-m4-cA 3twa-a4-m1-cA_3twa-a4-m5-cA 3twa-a4-m1-cB_3twa-a4-m4-cB 3twa-a4-m1-cB_3twa-a4-m5-cB 3twa-a4-m3-cA_3twa-a4-m4-cA 3twa-a4-m3-cA_3twa-a4-m5-cA 3twa-a4-m3-cB_3twa-a4-m4-cB 3twa-a4-m3-cB_3twa-a4-m5-cB 3twa-a5-m1-cC_3twa-a5-m7-cC 3twa-a5-m1-cC_3twa-a5-m8-cC 3twa-a5-m1-cD_3twa-a5-m7-cD 3twa-a5-m1-cD_3twa-a5-m8-cD 3twa-a5-m6-cC_3twa-a5-m7-cC 3twa-a5-m6-cC_3twa-a5-m8-cC 3twa-a5-m6-cD_3twa-a5-m7-cD 3twa-a5-m6-cD_3twa-a5-m8-cD 3twa-a6-m10-cE_3twa-a6-m2-cE 3twa-a6-m10-cE_3twa-a6-m9-cE 3twa-a6-m11-cE_3twa-a6-m2-cE 3twa-a6-m11-cE_3twa-a6-m9-cE 3twa-a6-m1-cE_3twa-a6-m7-cE 3twa-a6-m1-cE_3twa-a6-m8-cE 3twa-a6-m6-cE_3twa-a6-m7-cE 3twa-a6-m6-cE_3twa-a6-m8-cE 3twb-a4-m1-cA_3twb-a4-m4-cA 3twb-a4-m1-cA_3twb-a4-m5-cA 3twb-a4-m1-cB_3twb-a4-m4-cB 3twb-a4-m1-cB_3twb-a4-m5-cB 3twb-a4-m3-cA_3twb-a4-m4-cA 3twb-a4-m3-cA_3twb-a4-m5-cA 3twb-a4-m3-cB_3twb-a4-m4-cB 3twb-a4-m3-cB_3twb-a4-m5-cB 3twb-a5-m10-cE_3twb-a5-m2-cE 3twb-a5-m10-cE_3twb-a5-m9-cE 3twb-a5-m11-cE_3twb-a5-m2-cE 3twb-a5-m11-cE_3twb-a5-m9-cE 3twb-a5-m1-cE_3twb-a5-m7-cE 3twb-a5-m1-cE_3twb-a5-m8-cE 3twb-a5-m6-cE_3twb-a5-m7-cE 3twb-a5-m6-cE_3twb-a5-m8-cE 3twb-a6-m1-cC_3twb-a6-m7-cC 3twb-a6-m1-cC_3twb-a6-m8-cC 3twb-a6-m1-cD_3twb-a6-m7-cD 3twb-a6-m1-cD_3twb-a6-m8-cD 3twb-a6-m6-cC_3twb-a6-m7-cC 3twb-a6-m6-cC_3twb-a6-m8-cC 3twb-a6-m6-cD_3twb-a6-m7-cD 3twb-a6-m6-cD_3twb-a6-m8-cD 4ihc-a1-m1-cA_4ihc-a1-m1-cG 4ihc-a1-m1-cB_4ihc-a1-m1-cC 4ihc-a1-m1-cB_4ihc-a1-m1-cH 4ihc-a1-m1-cC_4ihc-a1-m1-cE 4ihc-a1-m1-cD_4ihc-a1-m1-cA 4ihc-a1-m1-cD_4ihc-a1-m1-cF 4ihc-a1-m1-cE_4ihc-a1-m1-cH 4ihc-a1-m1-cF_4ihc-a1-m1-cG NLKITNVKTILTAPGGIDLAVVKIETNEPGLYGLGCATFTQRIFAVKSAIDEYMAPFLVGKDPTRIEDIWQSGVVSGYWRNGPIMNNALSGVDMALWDIKGKLAGMPVYDLLGGKCRDGIPLYCHTDGGDEVEVEDNIRARMEEGYQYVRCQMGMIQPKRSPRSKTPGIYFDPDAYAKSVPRLFDHLRNKLGFGIEFIHDVHERVTPVTAINLAKTLEQYQLFYLEDPVAPENIDWLKMLRQQSSTPISMGELFVNVNEWKPLIDNRLIDYIRCHVSTIGGITPARKLAVYSELNGVRTAWHGPGDISPVGVCANMHLDLSSPNFGIQEYTPMNDALRDVFPGCPEIDHGYAYLNDKPGLGIDIDEAKAAKYPCEGGIPSWTMARTPDGTASRP NLKITNVKTILTAPGGIDLAVVKIETNEPGLYGLGCATFTQRIFAVKSAIDEYMAPFLVGKDPTRIEDIWQSGVVSGYWRNGPIMNNALSGVDMALWDIKGKLAGMPVYDLLGGKCRDGIPLYCHTDGGDEVEVEDNIRARMEEGYQYVRCQMGMNIQPKRSPRSKTPGIYFDPDAYAKSVPRLFDHLRNKLGFGIEFIHDVHERVTPVTAINLAKTLEQYQLFYLEDPVAPENIDWLKMLRQQSSTPISMGELFVNVNEWKPLIDNRLIDYIRCHVSTIGGITPARKLAVYSELNGVRTAWHGPGDISPVGVCANMHLDLSSPNFGIQEYTPMNDALRDVFPGCPEIDHGYAYLNDKPGLGIDIDEAKAAKYPCEGGIPSWTMARTPDGTASRP 3twb-a6-m8-cD_3twb-a6-m1-cC Crystal structure of gluconate dehydratase (TARGET EFI-501679) from Salmonella enterica subsp. enterica serovar Enteritidis str. P125109 complexed with magnesium and gluconic acid B5R541 B5R541 1.76 X-RAY DIFFRACTION 78 1.0 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 416 417 3tw9-a1-m1-cA_3tw9-a1-m1-cC 3tw9-a2-m1-cD_3tw9-a2-m1-cB 3tw9-a3-m1-cA_3tw9-a3-m1-cC 3tw9-a3-m1-cD_3tw9-a3-m1-cB 3tw9-a3-m2-cA_3tw9-a3-m2-cC 3tw9-a3-m2-cD_3tw9-a3-m2-cB 3twa-a4-m1-cA_3twa-a4-m4-cB 3twa-a4-m1-cB_3twa-a4-m5-cA 3twa-a4-m3-cA_3twa-a4-m5-cB 3twa-a4-m3-cB_3twa-a4-m4-cA 3twa-a5-m1-cC_3twa-a5-m8-cD 3twa-a5-m1-cD_3twa-a5-m7-cC 3twa-a5-m6-cC_3twa-a5-m7-cD 3twa-a5-m6-cD_3twa-a5-m8-cC 3twa-a6-m10-cE_3twa-a6-m6-cE 3twa-a6-m1-cE_3twa-a6-m11-cE 3twa-a6-m2-cE_3twa-a6-m8-cE 3twa-a6-m7-cE_3twa-a6-m9-cE 3twb-a4-m1-cA_3twb-a4-m4-cB 3twb-a4-m3-cA_3twb-a4-m5-cB 3twb-a4-m4-cA_3twb-a4-m3-cB 3twb-a4-m5-cA_3twb-a4-m1-cB 3twb-a5-m10-cE_3twb-a5-m6-cE 3twb-a5-m1-cE_3twb-a5-m11-cE 3twb-a5-m2-cE_3twb-a5-m8-cE 3twb-a5-m7-cE_3twb-a5-m9-cE 3twb-a6-m1-cD_3twb-a6-m7-cC 3twb-a6-m6-cD_3twb-a6-m8-cC 3twb-a6-m7-cD_3twb-a6-m6-cC 4ihc-a1-m1-cB_4ihc-a1-m1-cD 4ihc-a1-m1-cC_4ihc-a1-m1-cA 4ihc-a1-m1-cE_4ihc-a1-m1-cG 4ihc-a1-m1-cF_4ihc-a1-m1-cH SNLKITNVKTILTAPGGIDLAVVKIETNEPGLYGLGCATFTQRIFAVKSAIDEYMAPFLVGKDPTRIEDIWQSGVVSGYWRNGPIMNNALSGVDMALWDIKGKLAGMPVYDLLGGKCRDGIPLYCHTDGGDEVEVEDNIRARMEEGYQYVRCQMGMYGGAGTDDLKLIATQLARAKNIQPKRSPRSKTPGIYFDPDAYAKSVPRLFDHLRNKLGFGIEFIHDVHERVTPVTAINLAKTLEQYQLFYLEDPVAPENIDWLKMLRQQSSTPISMGELFVNVNEWKPLIDNRLIDYIRCHVSTIGGITPARKLAVYSELNGVRTAWHGPGDISPVGVCANMHLDLSSPNFGIQEYTPMNDALRDVFPGCPEIDHGYAYLNDKPGLGIDIDEAKAAKYPCEGGIPSWTMARTPDGTASRP VSNLKITNVKTILTAPGGIDLAVVKIETNEPGLYGLGCATFTQRIFAVKSAIDEYMAPFLVGKDPTRIEDIWQSGVVSGYWRNGPIMNNALSGVDMALWDIKGKLAGMPVYDLLGGKCRDGIPLYCHTDGGDEVEVEDNIRARMEEGYQYVRCQMGMYGGAGTDDLKLIATQLARAKNIQPKRSPRSKTPGIYFDPDAYAKSVPRLFDHLRNKLGFGIEFIHDVHERVTPVTAINLAKTLEQYQLFYLEDPVAPENIDWLKMLRQQSSTPISMGELFVNVNEWKPLIDNRLIDYIRCHVSTIGGITPARKLAVYSELNGVRTAWHGPGDISPVGVCANMHLDLSSPNFGIQEYTPMNDALRDVFPGCPEIDHGYAYLNDKPGLGIDIDEAKAAKYPCEGGIPSWTMARTPDGTASRP 3twb-a6-m8-cD_3twb-a6-m8-cC Crystal structure of gluconate dehydratase (TARGET EFI-501679) from Salmonella enterica subsp. enterica serovar Enteritidis str. P125109 complexed with magnesium and gluconic acid B5R541 B5R541 1.76 X-RAY DIFFRACTION 162 1.0 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 416 417 3tw9-a3-m1-cA_3tw9-a3-m1-cB 3tw9-a3-m1-cC_3tw9-a3-m2-cC 3tw9-a3-m1-cD_3tw9-a3-m2-cD 3tw9-a3-m2-cA_3tw9-a3-m2-cB 3twa-a1-m1-cA_3twa-a1-m1-cB 3twa-a2-m1-cC_3twa-a2-m1-cD 3twa-a3-m1-cE_3twa-a3-m2-cE 3twa-a4-m1-cA_3twa-a4-m1-cB 3twa-a4-m3-cA_3twa-a4-m3-cB 3twa-a4-m4-cA_3twa-a4-m4-cB 3twa-a4-m5-cA_3twa-a4-m5-cB 3twa-a5-m1-cC_3twa-a5-m1-cD 3twa-a5-m6-cC_3twa-a5-m6-cD 3twa-a5-m7-cC_3twa-a5-m7-cD 3twa-a5-m8-cC_3twa-a5-m8-cD 3twa-a6-m10-cE_3twa-a6-m8-cE 3twa-a6-m11-cE_3twa-a6-m7-cE 3twa-a6-m1-cE_3twa-a6-m2-cE 3twa-a6-m6-cE_3twa-a6-m9-cE 3twb-a1-m1-cD_3twb-a1-m1-cC 3twb-a2-m1-cE_3twb-a2-m2-cE 3twb-a3-m1-cA_3twb-a3-m1-cB 3twb-a4-m1-cA_3twb-a4-m1-cB 3twb-a4-m3-cA_3twb-a4-m3-cB 3twb-a4-m4-cA_3twb-a4-m4-cB 3twb-a4-m5-cA_3twb-a4-m5-cB 3twb-a5-m10-cE_3twb-a5-m8-cE 3twb-a5-m11-cE_3twb-a5-m7-cE 3twb-a5-m1-cE_3twb-a5-m2-cE 3twb-a5-m6-cE_3twb-a5-m9-cE 3twb-a6-m1-cD_3twb-a6-m1-cC 3twb-a6-m6-cD_3twb-a6-m6-cC 3twb-a6-m7-cD_3twb-a6-m7-cC 4ihc-a1-m1-cB_4ihc-a1-m1-cA 4ihc-a1-m1-cC_4ihc-a1-m1-cG 4ihc-a1-m1-cD_4ihc-a1-m1-cH 4ihc-a1-m1-cE_4ihc-a1-m1-cF SNLKITNVKTILTAPGGIDLAVVKIETNEPGLYGLGCATFTQRIFAVKSAIDEYMAPFLVGKDPTRIEDIWQSGVVSGYWRNGPIMNNALSGVDMALWDIKGKLAGMPVYDLLGGKCRDGIPLYCHTDGGDEVEVEDNIRARMEEGYQYVRCQMGMYGGAGTDDLKLIATQLARAKNIQPKRSPRSKTPGIYFDPDAYAKSVPRLFDHLRNKLGFGIEFIHDVHERVTPVTAINLAKTLEQYQLFYLEDPVAPENIDWLKMLRQQSSTPISMGELFVNVNEWKPLIDNRLIDYIRCHVSTIGGITPARKLAVYSELNGVRTAWHGPGDISPVGVCANMHLDLSSPNFGIQEYTPMNDALRDVFPGCPEIDHGYAYLNDKPGLGIDIDEAKAAKYPCEGGIPSWTMARTPDGTASRP VSNLKITNVKTILTAPGGIDLAVVKIETNEPGLYGLGCATFTQRIFAVKSAIDEYMAPFLVGKDPTRIEDIWQSGVVSGYWRNGPIMNNALSGVDMALWDIKGKLAGMPVYDLLGGKCRDGIPLYCHTDGGDEVEVEDNIRARMEEGYQYVRCQMGMYGGAGTDDLKLIATQLARAKNIQPKRSPRSKTPGIYFDPDAYAKSVPRLFDHLRNKLGFGIEFIHDVHERVTPVTAINLAKTLEQYQLFYLEDPVAPENIDWLKMLRQQSSTPISMGELFVNVNEWKPLIDNRLIDYIRCHVSTIGGITPARKLAVYSELNGVRTAWHGPGDISPVGVCANMHLDLSSPNFGIQEYTPMNDALRDVFPGCPEIDHGYAYLNDKPGLGIDIDEAKAAKYPCEGGIPSWTMARTPDGTASRP 3twd-a3-m3-cA_3twd-a3-m8-cB glmuC1 in complex with an antibacterial inhibitor P0ACC7 P0ACC7 1.9 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 222 222 3twd-a3-m1-cA_3twd-a3-m6-cB 3twd-a3-m2-cA_3twd-a3-m7-cB ASRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRPA ASRLERVYQSEQAEKLLLAGVMLRDPARFDLRGTLTHGRDVEIDTNVIIEGNVTLGHRVKIGTGCVIKNSVIGDDCEISPYTVVEDANLAAACTIGPFARLRPGAELLEGAHVGNFVEMKKARLGKGSKAGHLTYLGDAEIGDNVNIGAGTITCNYDGANKFKTIIGDDVFVGSDTQLVAPVTVGKGATIAAGTTVTRNVGENALAISRVPQTQKEGWRRPA 3twe-a1-m2-cB_3twe-a1-m1-cA Crystal Structure of the de novo designed peptide alpha4H 1.36 X-RAY DIFFRACTION 16 1.0 25 26 3twe-a1-m1-cB_3twe-a1-m2-cA NADELYKELEDLQERLRKLRKKLRS GNADELYKELEDLQERLRKLRKKLRS 3twe-a2-m1-cB_3twe-a2-m1-cA Crystal Structure of the de novo designed peptide alpha4H 1.36 X-RAY DIFFRACTION 32 1.0 25 26 3twe-a1-m1-cB_3twe-a1-m1-cA 3twe-a1-m2-cB_3twe-a1-m2-cA NADELYKELEDLQERLRKLRKKLRS GNADELYKELEDLQERLRKLRKKLRS 3twf-a2-m1-cA_3twf-a2-m1-cB Crystal structure of the de novo designed fluorinated peptide alpha4F3a 1.54 X-RAY DIFFRACTION 12 1.0 22 23 3twf-a1-m1-cA_3twf-a1-m1-cB 3twf-a1-m2-cA_3twf-a1-m2-cB GNADELYKEEDLQERRKLRKKR GNADELYKEEDLQERRKLRKKRS 3twk-a3-m1-cB_3twk-a3-m1-cA Crystal structure of arabidopsis thaliana FPG O80358 O80358 2.3 X-RAY DIFFRACTION 82 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 284 291 PELPEVEAARRAIEENCLGKKIKRVIIADDNKVIHGISPTIISARRKGKNLWLELDSPPFPSFQFGAGAIYIKGVAVTKYKRSAVKDSEEWPSKYSKFFVELDDGLELSFTDKRRFAKVRLLANPTSVSPISELGPDALLEPTVDEFAESLAKKKITIKPLLLDQGYISGIGNWIADEVLYQARIHPLQTASSLSKEQCEALHTSIKEVIEKAVEVDADSSQFPSNWIFHNREKKPGKAFVDGKKIDFITAGGRTTAYVPELQKLYGKCVDKLAAALEHHHHHH PELPEVEAARRAIEENCLGKKIKRVIIADDNKVIHGISPSDFQTSILGKTIISARRKGKNLWLELDSPPFPSFQFGAGAIYIKGVAVTKYKRSAVKDSEEWPSKYSKFFVELDDGLELSFTDKRRFAKVRLLANPTSVSPISELGPDALLEPTVDEFAESLAKKKITIKPLLLDQGYISGIGNWIADEVLYQARIHPLQTASSLSKEQCEALHTSIKEVIEKAVEVDADSSQFPSNWIFHNREKKPGKAFVDGKKIDFITAGGRTTAYVPELQKLYGKCVDKLAAALEHHH 3two-a1-m1-cA_3two-a1-m1-cB The crystal structure of CAD from Helicobacter pylori complexed with NADP(H) D0ITF8 D0ITF8 2.18 X-RAY DIFFRACTION 104 1.0 290847 (Helicobacter pylori 51) 290847 (Helicobacter pylori 51) 347 348 MRVQSKGFAIFSKDEHFKPHDFSRHAVGPRDVLIDILYAGICHSDIHSAYSEWKEGIYPMIPGHEIAGIIKEVGKGVKKFKIGDVVGVGCFVNSCKACKPCKEHQEQFCTKVVFTYDCLDSFHDNEPHMGGYSNNIVVDENYVISVDKNAPLEKVAPLLCAGITTYSPLKFSKVTKGTKVGVAGFGGLGSMAVKYAVAMGAEVSVFARNEHKKQDALSMGVKHFYTDPKQCKEELDFIISTIPTHYDLKDYLKLLTYNGDLALVGLPPVEVAPVLSVFDFIHLGNRKVYGSLIGGIKETQEMVDFSIKHNIYPEIDLILGKDIDTAYHNLTHGKAKFRYVIDMKKSF MRVQSKGFAIFSKDEHFKPHDFSRHAVGPRDVLIDILYAGICHSDIHSAYSEWKEGIYPMIPGHEIAGIIKEVGKGVKKFKIGDVVGVGCFVNSCKACKPCKEHQEQFCTKVVFTYDCLDSFHDNEPHMGGYSNNIVVDENYVISVDKNAPLEKVAPLLCAGITTYSPLKFSKVTKGTKVGVAGFGGLGSMAVKYAVAMGAEVSVFARNEHKKQDALSMGVKHFYTDPKQCKEELDFIISTIPTHYDLKDYLKLLTYNGDLALVGLPPVEVAPVLSVFDFIHLGNRKVYGSLIGGIKETQEMVDFSIKHNIYPEIDLILGKDIDTAYHNLTHGKAKFRYVIDMKKSFD 3tww-a1-m1-cA_3tww-a1-m1-cB Crystal structure of ARC4 from human Tankyrase 2 in complex with peptide from human LNPEP (chimeric peptide) Q9H2K2 Q9H2K2 2 X-RAY DIFFRACTION 11 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 GNSEADRQLLEAAKAGDVETVKKLCTVQSVNCRDIEGRQSTPLHFAAGYNRVSVVEYLLQHGADVHAKDKGGLVPLHNACSYGHYEVAELLVKHGAVVNVADLWKFTPLHEAAAKGKYEICKLLLQHGADPTKKNRDGNTPLDLVKDGDTDIQDLLR MGNSEADRQLLEAAKAGDVETVKKLCTVQSVNCRDIEGRQSTPLHFAAGYNRVSVVEYLLQHGADVHAKDKGGLVPLHNACSYGHYEVAELLVKHGAVVNVADLWKFTPLHEAAAKGKYEICKLLLQHGADPTKKNRDGNTPLDLVKDGDTDIQDLL 3twx-a1-m1-cA_3twx-a1-m2-cB Crystal structure of ARC4 from human Tankyrase 2 in complex with peptide from human FNBP1 (chimeric peptide) Q9H2K2 Q9H2K2 1.8 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 158 158 3twq-a1-m1-cA_3twq-a1-m1-cB MGNSEADRQLLEAAKAGDVETVKKLCTVQSVNCRDIEGRQSTPLHFAAGYNRVSVVEYLLQHGADVHAKDKGGLVPLHNACSYGHYEVAELLVKHGAVVNVADLWKFTPLHEAAAKGKYEICKLLLQHGADPTKKNRDGNTPLDLVKDGDTDIQDLLR MGNSEADRQLLEAAKAGDVETVKKLCTVQSVNCRDIEGRQSTPLHFAAGYNRVSVVEYLLQHGADVHAKDKGGLVPLHNACSYGHYEVAELLVKHGAVVNVADLWKFTPLHEAAAKGKYEICKLLLQHGADPTKKNRDGNTPLDLVKDGDTDIQDLLR 3tx3-a1-m1-cB_3tx3-a1-m1-cA CysZ, a putative sulfate permease Q5QUJ8 Q5QUJ8 2.3 X-RAY DIFFRACTION 37 0.996 135577 (Idiomarina loihiensis) 135577 (Idiomarina loihiensis) 226 227 AAYSNSGLAYIGRGLELIRTKGLRRYVVVPILTNLILFSLAFTWLYGEVDEFILWPLAVITIIALFSFIFSTIMHLIAAPFNGLLAEKVERYESGESLGDEGFLGLFKDIPRTLKREMQKLMYYIPRALGFFLLSLVIPVIGQVLWYIFVCWMMSIQYLDYPFDNHKLSFPRMRSELHQQRSKTLGFGFGVTVLTMIPLINLIIMPLAVCGATSLWVDHYRRSALS AYSNSGLAYIGRGLELIRTKGLRRYVVVPILTNLILFSLAFTWLYGEVDYWEFILWPLAVITIIALFSFIFSTIMHLIAAPFNGLLAEKVERYESGESLGDEGFLGLFKDIPRTLKREMQKLMYYIPRALGFFLLSLVIPVIGQVLWYIFVCWMMSIQYLDYPFDNHKLSFPRMRSELHQQRSKTLGFGFGVTVLTMIPLINLIIMPLAVCGATSLWVDHYRRSALS 3tx8-a1-m1-cA_3tx8-a1-m2-cA Crystal structure of a succinyl-diaminopimelate desuccinylase (ArgE) from Corynebacterium glutamicum ATCC 13032 at 2.97 A resolution Q59284 Q59284 2.972 X-RAY DIFFRACTION 131 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 354 354 DLLGDPIVLTQRLVDIPSPSGQEKQIADEIEDALRNLNLPGVEVFRFNNNVLARTNRGLASRVLAGHIDTVPIADNLPSRVEDGIYGCGTVDKSGLAVYLHTFATLATSTELKHDLTLIAYECEEVADHLNGLGHIRDEHPEWLAADLALLGEPTGGWIEAGCQGNLRIKVTAHGVRAHSARSWLGDNAHKLSPIISKVAAYKAAEVNIDGLTYREGLNIVFCESGVANNVIPDLAWNLNFRFAPNRDLNEAIEHVVETLELDGQDGIEWAVEDGAGGALPGLGQQVTSGLIDAVGREKIRAKFGWTDVSRFSAGIPALNFGAGDPSFAHKRDEQCPVEQITDVAAILKQYLSE DLLGDPIVLTQRLVDIPSPSGQEKQIADEIEDALRNLNLPGVEVFRFNNNVLARTNRGLASRVLAGHIDTVPIADNLPSRVEDGIYGCGTVDKSGLAVYLHTFATLATSTELKHDLTLIAYECEEVADHLNGLGHIRDEHPEWLAADLALLGEPTGGWIEAGCQGNLRIKVTAHGVRAHSARSWLGDNAHKLSPIISKVAAYKAAEVNIDGLTYREGLNIVFCESGVANNVIPDLAWNLNFRFAPNRDLNEAIEHVVETLELDGQDGIEWAVEDGAGGALPGLGQQVTSGLIDAVGREKIRAKFGWTDVSRFSAGIPALNFGAGDPSFAHKRDEQCPVEQITDVAAILKQYLSE 3txo-a2-m1-cA_3txo-a2-m2-cA PKC eta kinase in complex with a naphthyridine P24723 P24723 2.05 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 317 317 DNFEFIRVLGKGSFGKVMLARVKETGDLYAVKVLKKDVILQDDDVECTMTEKRILSLARNHPFLTQLFCCFQTPDRLFFVMEFVNGGDLMFHIQKSRRFDEARARFYAAEIISALMFLHDKGIIYRDLKLDNVLLDHEGHCKLADFGMCKEGICGTPDYIAPEILQEMLYGPAVDWWAMGVLLYEMLCGHAPFEAENEDDLFEAILNDEVVYPTWLHEDATGILKSFMTKNPTMRLGSLTQGGEHAILRHPFFKEIDWAQLNHRQIEPPFRPRIKSREDVSNFDPDFIKEEPVLPIDEGHLPMINQDEFRNFEYVSP DNFEFIRVLGKGSFGKVMLARVKETGDLYAVKVLKKDVILQDDDVECTMTEKRILSLARNHPFLTQLFCCFQTPDRLFFVMEFVNGGDLMFHIQKSRRFDEARARFYAAEIISALMFLHDKGIIYRDLKLDNVLLDHEGHCKLADFGMCKEGICGTPDYIAPEILQEMLYGPAVDWWAMGVLLYEMLCGHAPFEAENEDDLFEAILNDEVVYPTWLHEDATGILKSFMTKNPTMRLGSLTQGGEHAILRHPFFKEIDWAQLNHRQIEPPFRPRIKSREDVSNFDPDFIKEEPVLPIDEGHLPMINQDEFRNFEYVSP 3txq-a1-m1-cA_3txq-a1-m1-cK Crystal Structure of phage 44RR small terminase gp16 Q6U9F0 Q6U9F0 2.8 X-RAY DIFFRACTION 106 1.0 115987 (Biquartavirus 44RR2) 115987 (Biquartavirus 44RR2) 87 87 3txq-a1-m1-cA_3txq-a1-m1-cC 3txq-a1-m1-cB_3txq-a1-m1-cH 3txq-a1-m1-cB_3txq-a1-m1-cI 3txq-a1-m1-cC_3txq-a1-m1-cE 3txq-a1-m1-cD_3txq-a1-m1-cG 3txq-a1-m1-cD_3txq-a1-m1-cJ 3txq-a1-m1-cE_3txq-a1-m1-cF 3txq-a1-m1-cF_3txq-a1-m1-cG 3txq-a1-m1-cH_3txq-a1-m1-cK 3txq-a1-m1-cI_3txq-a1-m1-cJ 3txs-a1-m1-cA_3txs-a1-m1-cB 3txs-a1-m1-cA_3txs-a1-m2-cD 3txs-a1-m1-cB_3txs-a1-m1-cC 3txs-a1-m1-cD_3txs-a1-m1-cC 3txs-a1-m1-cD_3txs-a1-m3-cA 3txs-a1-m2-cA_3txs-a1-m2-cB 3txs-a1-m2-cA_3txs-a1-m3-cD 3txs-a1-m2-cB_3txs-a1-m2-cC 3txs-a1-m2-cD_3txs-a1-m2-cC 3txs-a1-m3-cA_3txs-a1-m3-cB 3txs-a1-m3-cB_3txs-a1-m3-cC 3txs-a1-m3-cD_3txs-a1-m3-cC VYAPLVLRDPVSNPNNRKIDQDDDYELVRRNMHYQSQMLLDMAKIALENAKNADSPRHVEVFAQLMGQMTTTNKEMLKMHKEMKDLA VYAPLVLRDPVSNPNNRKIDQDDDYELVRRNMHYQSQMLLDMAKIALENAKNADSPRHVEVFAQLMGQMTTTNKEMLKMHKEMKDLA 3txs-a1-m3-cD_3txs-a1-m3-cB Crystal Structure of phage 44RR small terminase gp16 Q6U9F0 Q6U9F0 1.81 X-RAY DIFFRACTION 11 1.0 115987 (Biquartavirus 44RR2) 115987 (Biquartavirus 44RR2) 89 90 3txs-a1-m1-cA_3txs-a1-m1-cC 3txs-a1-m1-cA_3txs-a1-m2-cC 3txs-a1-m1-cD_3txs-a1-m1-cB 3txs-a1-m2-cA_3txs-a1-m2-cC 3txs-a1-m2-cA_3txs-a1-m3-cC 3txs-a1-m2-cD_3txs-a1-m2-cB 3txs-a1-m3-cA_3txs-a1-m1-cC 3txs-a1-m3-cA_3txs-a1-m3-cC QVYAPLVLRDPVSNPNNRKIDQDDDYELVRRNMHYQSQMLLDMAKIALENAKNADSPRHVEVFAQLMGQMTTTNKEMLKMHKEMKDLAG QVYAPLVLRDPVSNPNNRKIDQDDDYELVRRNMHYQSQMLLDMAKIALENAKNADSPRHVEVFAQLMGQMTTTNKEMLKMHKEMKDLAGA 3txv-a2-m1-cA_3txv-a2-m2-cA Crystal structure of a probable tagatose 6 phosphate kinase from Sinorhizobium meliloti 1021 Q92UY3 Q92UY3 2.8 X-RAY DIFFRACTION 55 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 379 379 RGIPSICSAHPLVIEAALRAHREKAPVLIEATCNQVNQDGGYTGTPEDFTRFVGAIADRIEFPREKILLGGDHLGPNPWKHLPADEAAKAEAITAYAKAGFTKLHLDTSGCAGEPTALPDATTAARAARLAAVAEDAVLPVYIIGTELEVTAPEAAIETVRVHRAAFEEAGAAGAFSRVVGAVVQPGVEFGNENVIAYDRARAEKLSATLGQLHGVFEAHSTDYQTPDALRELVADGFAILKVGPGLTFALREALYGLDQIAAFLFPAARERTLAEVTEAVREEPANWAKYYHGSAEEQRLQRHFSYSDRIRYYWPHPKAAAAVDELSLLDGVAIPETLISQFLAGSYARVRNGEVAPQAKPLALAAVDAVLQDYFAAC RGIPSICSAHPLVIEAALRAHREKAPVLIEATCNQVNQDGGYTGTPEDFTRFVGAIADRIEFPREKILLGGDHLGPNPWKHLPADEAAKAEAITAYAKAGFTKLHLDTSGCAGEPTALPDATTAARAARLAAVAEDAVLPVYIIGTELEVTAPEAAIETVRVHRAAFEEAGAAGAFSRVVGAVVQPGVEFGNENVIAYDRARAEKLSATLGQLHGVFEAHSTDYQTPDALRELVADGFAILKVGPGLTFALREALYGLDQIAAFLFPAARERTLAEVTEAVREEPANWAKYYHGSAEEQRLQRHFSYSDRIRYYWPHPKAAAAVDELSLLDGVAIPETLISQFLAGSYARVRNGEVAPQAKPLALAAVDAVLQDYFAAC 3txy-a1-m1-cA_3txy-a1-m2-cA Structure of an Isochorismatase family protein (BTH_II2229) from Burkholderia thailandensis Q2T332 Q2T332 1.7 X-RAY DIFFRACTION 97 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 190 190 SIPTLNPTVALVAIDLQNGIVVLPMVPQSGGDVVAKTAELANAFRARKLPVIFVHTSYQPDGAVALKVKTDVPPSPPNLDPEWSAFAPALGVQPLDVVVTKHQWGAFTGTDLDVQLRRRGITDIVLTGIATNIGVESTAREAYENNYNVVVVSDAVSTWSTDAQTFALTQIFPKLGQVATAADVEAALET SIPTLNPTVALVAIDLQNGIVVLPMVPQSGGDVVAKTAELANAFRARKLPVIFVHTSYQPDGAVALKVKTDVPPSPPNLDPEWSAFAPALGVQPLDVVVTKHQWGAFTGTDLDVQLRRRGITDIVLTGIATNIGVESTAREAYENNYNVVVVSDAVSTWSTDAQTFALTQIFPKLGQVATAADVEAALET 3ty1-a1-m1-cB_3ty1-a1-m1-cC Crystal structure of a putative aldose 1-epimerase (KPN_04629) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 1.90 A resolution A6THE6 A6THE6 1.9 X-RAY DIFFRACTION 94 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 379 379 3ty1-a1-m1-cA_3ty1-a1-m1-cB 3ty1-a1-m1-cA_3ty1-a1-m1-cC GAKTWVLTNAEEGIDKGNWQINSDQLKVKDHAFSIEQKVLHGGKQEGSKILTIHSKDGLTITLSPTRGNLLRIEGFGSRGWDSPVKEVVNPAFINLESRNGLGWLEGFNEVRCGYEWTGHPVTADGQIYTLHGKAGNTPASLVEVEVADSAPYEIRIRGLVKESTFKKADLQTLTELRYVPGSNSFSLHDVLTNHADYPHDYQIIYHSNFGTPILEEGARFLAPISSISPFNDYAKSGLKTWQTYQGPTKDFDEVFNIQPLADENHQTLAAVVNKAGDKGASIQFDTRQLPVLTLWKNTDTVKQGYVTGIEPGTSYAYPVTIERKQKRVKQLQPGASAQFDLTYTLLHDSAQVAAVEQKIAKIQGDNKVAENETPIAKE GAKTWVLTNAEEGIDKGNWQINSDQLKVKDHAFSIEQKVLHGGKQEGSKILTIHSKDGLTITLSPTRGNLLRIEGFGSRGWDSPVKEVVNPAFINLESRNGLGWLEGFNEVRCGYEWTGHPVTADGQIYTLHGKAGNTPASLVEVEVADSAPYEIRIRGLVKESTFKKADLQTLTELRYVPGSNSFSLHDVLTNHADYPHDYQIIYHSNFGTPILEEGARFLAPISSISPFNDYAKSGLKTWQTYQGPTKDFDEVFNIQPLADENHQTLAAVVNKAGDKGASIQFDTRQLPVLTLWKNTDTVKQGYVTGIEPGTSYAYPVTIERKQKRVKQLQPGASAQFDLTYTLLHDSAQVAAVEQKIAKIQGDNKVAENETPIAKE 3ty2-a1-m1-cA_3ty2-a1-m1-cB Structure of a 5'-nucleotidase (surE) from Coxiella burnetii Q9KI21 Q9KI21 1.885 X-RAY DIFFRACTION 216 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 245 245 KLRLLLSNDDGVYAKGLAILAKTLADLGEVDVVAPDRNRSGASNSLTLNAPLHIKNLENGISVEGTPTDCVHLAITGVLPEPDVVAGINAGPNLGDDVWYSGTVAAAEGRFLGLPALAVSLGGELFRYYETAAKVVYQLIQRIEKDPLPPSTILNINVPDLPYEELKGFEVTRLGTRHRAEPTIRQIDPRGHPIYWVGAAGPEQDSGPGTDFFANHHCVSITPLRVDLTHYEAFDQLASWVKRLE KLRLLLSNDDGVYAKGLAILAKTLADLGEVDVVAPDRNRSGASNSLTLNAPLHIKNLENGISVEGTPTDCVHLAITGVLPEPDVVAGINAGPNLGDDVWYSGTVAAAEGRFLGLPALAVSLGGELFRYYETAAKVVYQLIQRIEKDPLPPSTILNINVPDLPYEELKGFEVTRLGTRHRAEPTIRQIDPRGHPIYWVGAAGPEQDSGPGTDFFANHHCVSITPLRVDLTHYEAFDQLASWVKRLE 3ty4-a1-m1-cA_3ty4-a1-m1-cB Crystal structure of homoisocitrate dehydrogenase from Schizosaccharomyces pombe O14104 O14104 1.55 X-RAY DIFFRACTION 149 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 356 357 3ty3-a1-m1-cB_3ty3-a1-m1-cA RRIVLGLIPADGIGKEVVPAARRLMENLPAKHKLKFDFIDLDAGWGTFERTGKALPERTVERLKTECNAALFGAVQSPTHKVAGYSSPIVALRKKMGLYANVRPVKSLDGAKGKPVDLVIVRENTECLYVKEERMVQNTPGKRVAEAIRRISEEASTKIGKMAFEIAKSRQKIRESGTYSIHKKPLVTIIHKSNVMSVTDGLFRESCRHAQSLDPSYASINVDEQIVDSMVYRLFREPECFDVVVAPNLYGDILSDGAASLIGSLGLVPSANVGDNFVMSEPVHGSAPDIAGRGIANPVATFRSVALMLEFMGHQDAAADIYTAVDKVLTEGKVLTPDLGGKSGTNEITDAVLANI TRRIVLGLIPADGIGKEVVPAARRLMENLPAKHKLKFDFIDLDAGWGTFERTGKALPERTVERLKTECNAALFGAVQSPTHKVAGYSSPIVALRKKMGLYANVRPVKSLDGAKGKPVDLVIVRENTECLYVKEERMVQNTPGKRVAEAIRRISEEASTKIGKMAFEIAKSRQKIRESGTYSIHKKPLVTIIHKSNVMSVTDGLFRESCRHAQSLDPSYASINVDEQIVDSMVYRLFREPECFDVVVAPNLYGDILSDGAASLIGSLGLVPSANVGDNFVMSEPVHGSAPDIAGRGIANPVATFRSVALMLEFMGHQDAAADIYTAVDKVLTEGKVLTPDLGGKSGTNEITDAVLANI 3ty5-a1-m1-cA_3ty5-a1-m1-cB Crystal Structure of C. thermocellum PNKP Ligase domain in complex with ATP A3DJ38 A3DJ38 2.4 X-RAY DIFFRACTION 133 0.984 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 381 381 3ty8-a1-m1-cA_3ty8-a1-m1-cB RHMSRFAADPHWLIYLPPTMSPCETSKKEGMLEHPIEAFEYFRTRGVGKVVCGQKHMGSRAVVIVCKDSQVAEKRFGVLDGTAGICYTRTGRHFFDDMQLEAELIDRVRKVLDKSGFWGDFNTDWVCLDCELMPWSAKAQKLLEEQYSAVGISGRVVLDEAVKLLKQASLNKNADINELLQRFTERSEMMQKYVEAYRKYCWPVNSIDDLKLAPFHILATEGKVHSDKNHIWHMDTIAKYCTQDDSLIMATNHILVDVTDAESVDKGIKWWEDLTASGGEGMVVKPYDFIVKNGRELLQPAVKCRGREYLRIIYGPEYTMDENIERLRNRAVGKKRSLALREFSLGMEALERFVRNEPLYRVHECVFGVLALESEPVDPRL SRFAADPHWLIYLPPTMSPCETSKKEGMLEHPIEAFEYFRTRGVGKVVCGQKHMGSRAVVIVCKDSQVAEKRFGVLDGTAGICYTRTGRHFFDDMQLEAELIDRVRKVLDKSGFWGDFNTDWVCLDCELMPWSAKAQKEQYSAVGISGRVVLDEAVKLLKQASLNKTVSSGKNADINELLQRFTERSEMMQKYVEAYRKYCWPVNSIDDLKLAPFHILATEGKVHSDKNHIWHMDTIAKYCTQDDSLIMATNHILVDVTDAESVDKGIKWWEDLTASGGEGMVVKPYDFIVKNGRELLQPAVKCRGREYLRIIYGPEYTMDENIERLRNRAVGKKRSLALREFSLGMEALERFVRNEPLYRVHECVFGVLALESEPVDPRL 3ty6-a1-m1-cE_3ty6-a1-m2-cF ATP-dependent Protease HslV from Bacillus anthracis str. Ames Q81WK5 Q81WK5 2.498 X-RAY DIFFRACTION 35 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 178 178 3ty6-a1-m1-cA_3ty6-a1-m2-cB 3ty6-a1-m1-cB_3ty6-a1-m2-cA 3ty6-a1-m1-cC_3ty6-a1-m1-cD 3ty6-a1-m1-cF_3ty6-a1-m2-cE 3ty6-a1-m2-cC_3ty6-a1-m2-cD NFHATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRKLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL NFHATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRKLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL 3ty6-a1-m2-cC_3ty6-a1-m2-cE ATP-dependent Protease HslV from Bacillus anthracis str. Ames Q81WK5 Q81WK5 2.498 X-RAY DIFFRACTION 77 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 176 178 3ty6-a1-m1-cA_3ty6-a1-m2-cA 3ty6-a1-m1-cB_3ty6-a1-m1-cD 3ty6-a1-m1-cC_3ty6-a1-m1-cE 3ty6-a1-m1-cF_3ty6-a1-m2-cF 3ty6-a1-m2-cB_3ty6-a1-m2-cD HATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRKLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL NFHATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRKLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL 3ty6-a1-m2-cE_3ty6-a1-m2-cF ATP-dependent Protease HslV from Bacillus anthracis str. Ames Q81WK5 Q81WK5 2.498 X-RAY DIFFRACTION 50 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 178 178 3ty6-a1-m1-cA_3ty6-a1-m1-cB 3ty6-a1-m1-cA_3ty6-a1-m2-cD 3ty6-a1-m1-cC_3ty6-a1-m1-cB 3ty6-a1-m1-cC_3ty6-a1-m2-cF 3ty6-a1-m1-cD_3ty6-a1-m1-cE 3ty6-a1-m1-cD_3ty6-a1-m2-cA 3ty6-a1-m1-cE_3ty6-a1-m1-cF 3ty6-a1-m2-cA_3ty6-a1-m2-cB 3ty6-a1-m2-cC_3ty6-a1-m1-cF 3ty6-a1-m2-cC_3ty6-a1-m2-cB 3ty6-a1-m2-cD_3ty6-a1-m2-cE NFHATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRKLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL NFHATTIFAVHHNGECAMAGDGQVTMGNAVVMKHTARKVRKLFQGKVLAGFAGSVADAFTLFEMFEGKLEEYNGNLQRAAVEMAKQWRGDKMLRQLEAMLIVMDKTTMLLVSGTGEVIEPDDGILAIGSGGNYALSAGRALKQYASEHLTAKQIAKASLEIAGDICVYTNHNIIVEEL 3ty7-a1-m1-cA_3ty7-a1-m1-cB Crystal Structure of Aldehyde Dehydrogenase family Protein from Staphylococcus aureus Q99SD6 Q99SD6 2.4 X-RAY DIFFRACTION 84 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 445 447 ARDYTKQYINGEWVESNSNETIEVINPATEEVIGKVAKGNKADVDKAVEAADDVYLEFRHTSVKERQALLDKIVKEYENRKDDIVQAITDELGAPLSLSERVHYQGLNHFVAARDALDNYEFEERRGDDLVVKEAIGVSGLITPWNFPTNQTSLKLAAAFAAGSPVVLKPSEETPFAAVILAEIFDKVGVPKGVFNLVNGDGAGVGNPLSEHPKVRSFTGSGPTGSEKAAKDFKKVSLELGGKSPYIVLDDVDIKEAAKATTGKVVNNTGQVCTAGTRVLVPNKIKDAFLAELKEQFSQVRVGNPREDGTQVGPIISKKQFDQVQNYINKGIEEGAELFYGGPGKPEGLEKGYFARPTIFINVDNQTIAQEEIFGPVSVITYNDLDEAIQIANDTKYGLAGYVIGKDKETLHKVARSIEAGTVEINEAGGIEEFLEVKSIAGYFK ARDYTKQYINGEWVESNSNETIEVINPATEEVIGKVAKGNKADVDKAVEAADDVYLEFRHTSVKERQALLDKIVKEYENRKDDIVQAITDELGAPLSLSERVHYQGLNHFVAARDALDNYEFEERRGDDLVVKEAIGVSGLITPWNFPTNQTSLKLAAAFAAGSPVVLKPSEETPFAAVILAEIFDKVGVPKGVFNLVNGDGAGVGNPLSEHPKVRSFTGSGPTGSKIEKAAKDFKKVSLELGGKSPYIVLDDVDIKEAAKATTGKVVNNTGQVCTAGTRVLVPNKIKDAFLAELKEQFSQVRVGNPREDGTQVGPIISKKQFDQVQNYINKGIEEGAELFYGGPGKPEGLEKGYFARPTIFINVDNQTIAQEEIFGPVSVITYNDLDEAIQIANDTKYGLAGYVIGKDKETLHKVARSIEAGTVEINEAGGIEEFLEVKSIAGYFK 3ty9-a3-m1-cB_3ty9-a3-m3-cD Crystal Structure of C. Thermocellum PNKP Ligase Domain AMP-Adenylate A3DJ38 A3DJ38 3.12 X-RAY DIFFRACTION 67 0.992 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 374 374 3ty9-a1-m1-cA_3ty9-a1-m2-cC SMSRFAADPHWLIYLPPTMSPCETSKKEGMLEHPIEAFEYFRTRGVGKVVCEQKHMGSRAVVIVCKDSQVAEKRFGVLDGTAGICYTRTGRHFFDDMQLEAELIDRVRKVLDKSGFWGDFNTDWVCLDCELMPWSAKAQKLLEEQYSAVGISGRVVLDEAVKLLKQASLNDINELLQRFTERSEMMQKYVEAYRKYCWPVNSIDDLKLAPFHILATEGKVHSDKNHIWHMDTIAKYCTQDDSLIMATNHILVDVTDAESVDKGIKWWEDLTASGGEGMVVKPYDFIVKNLLQPAVKCRGREYLRIIYGPEYTMDENIERLRNRAVGKKRSLALREFSLGMEALERFVRNEPLYRVHECVFGVLALESEPVDPRL SMSRFAADPHWLIYLPPTMSPCETSKKEGMLEHPIEAFEYFRTRGVGKVVCEQKHMGSRAVVIVCKDSQVAEKRFGVLDGTAGICYTRTGRHFFDDMQLEAELIDRVRKVLDKSGFWGDFNTDWVCLDCELMPWSAKAQKLLEEQYSAVGISGRVVLDEAVKLLKQASLNADINELLQRFTERSEMMQKYVEAYRKYCWPVNSIDDLKLAPFHILATEGKVHSDKNHIWHMDTIAKYCTQDDSLIMATNHILVDVTDAESVDKGIKWWEDLTASGGEGMVVKPYDFIRELLQPAVKCRGREYLRIIYGPEYTMDENIERLRNRAVGKKRSLALREFSLGMEALERFVRNEPLYRVHECVFGVLALESEPVDPRL 3ty9-a4-m1-cD_3ty9-a4-m1-cC Crystal Structure of C. Thermocellum PNKP Ligase Domain AMP-Adenylate A3DJ38 A3DJ38 3.12 X-RAY DIFFRACTION 59 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 374 376 3ty9-a2-m1-cB_3ty9-a2-m1-cA SMSRFAADPHWLIYLPPTMSPCETSKKEGMLEHPIEAFEYFRTRGVGKVVCEQKHMGSRAVVIVCKDSQVAEKRFGVLDGTAGICYTRTGRHFFDDMQLEAELIDRVRKVLDKSGFWGDFNTDWVCLDCELMPWSAKAQKLLEEQYSAVGISGRVVLDEAVKLLKQASLNADINELLQRFTERSEMMQKYVEAYRKYCWPVNSIDDLKLAPFHILATEGKVHSDKNHIWHMDTIAKYCTQDDSLIMATNHILVDVTDAESVDKGIKWWEDLTASGGEGMVVKPYDFIRELLQPAVKCRGREYLRIIYGPEYTMDENIERLRNRAVGKKRSLALREFSLGMEALERFVRNEPLYRVHECVFGVLALESEPVDPRL SMSRFAADPHWLIYLPPTMSPCETSKKEGMLEHPIEAFEYFRTRGVGKVVCEQKHMGSRAVVIVCKDSQVAEKRFGVLDGTAGICYTRTGRHFFDDMQLEAELIDRVRKVLDKSGFWGDFNTDWVCLDCELMPWSAKAQKLLEEQYSAVGISGRVVLDEAVKLLKQASLNNADINELLQRFTERSEMMQKYVEAYRKYCWPVNSIDDLKLAPFHILATEGKVHSDKNHIWHMDTIAKYCTQDDSLIMATNHILVDVTDAESVDKGIKWWEDLTASGGEGMVVKPYDFIVRELLQPAVKCRGREYLRIIYGPEYTMDENIERLRNRAVGKKRSLALREFSLGMEALERFVRNEPLYRVHECVFGVLALESEPVDPRL 3typ-a1-m1-cA_3typ-a1-m1-cB The crystal structure of the inorganic triphosphatase NE1496 Q82UI9 Q82UI9 1.9 X-RAY DIFFRACTION 54 0.993 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 146 150 2fbl-a1-m1-cA_2fbl-a1-m1-cB EIERKFLVATFPDGELHAVPLRQGYLTTPTDSIELRLRQQGTEYFMTLKSERQEYEIQIDVTQFEMLWPATEGRRVEKTRYSGKLPDGQLFELDVFAGHLSPLMLVEVEFLSEDAAQAFIPPPWFGEEVTEDKRYKNKALALSIPG GHMVTEIERKFLVATFPDGELHAVPLRQGYLTTPTDSIELRLRQQGTEYFMTLKSEQEYEIQIDVTQFEMLWPATEGRRVEKTRYSGKLPDGQLFELDVFAGHLSPLMLVEVEFLSEDAAQAFIPPPWFGEEVTEDKRYKNKALALSIPG 3tys-a1-m1-cA_3tys-a1-m2-cA Crystal structure of transcriptional regulator VanUg, Form II Q6WRY9 Q6WRY9 1.121 X-RAY DIFFRACTION 101 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 73 73 3tyr-a1-m1-cB_3tyr-a1-m1-cA RENLYFQGRVSYNKLWKLLIDRDKKGELREAVGVSKSTFAKLGKNENVSLTVLLAICEYLNCDFGDIIEALPE RENLYFQGRVSYNKLWKLLIDRDKKGELREAVGVSKSTFAKLGKNENVSLTVLLAICEYLNCDFGDIIEALPE 3tyt-a2-m1-cA_3tyt-a2-m2-cA Crystal structure of a Heterogeneous nuclear ribonucleoprotein L (Hnrpl) from Mus musculus at 1.60 A resolution Q8R081 Q8R081 1.6 X-RAY DIFFRACTION 59 1.0 10090 (Mus musculus) 10090 (Mus musculus) 204 204 ADSPVLMVYGLDQSKMNCDRVFNVFCLYGNVEKVKFMKSKPGAAMVEMADGYAVDRAITHLNNNFMFGQKMNVCVSKQPAIMPGQSYGLEDGSCSYKDFSESRNNRFSTPEQAAKNRIQHPSNVLHFFNAPLEVTEENFFEICDELGVKRPTSVKVFSGKSERSSSGLLEWDSKSDALETLGFLNHYQMKNPNGPYPYTLKLCF ADSPVLMVYGLDQSKMNCDRVFNVFCLYGNVEKVKFMKSKPGAAMVEMADGYAVDRAITHLNNNFMFGQKMNVCVSKQPAIMPGQSYGLEDGSCSYKDFSESRNNRFSTPEQAAKNRIQHPSNVLHFFNAPLEVTEENFFEICDELGVKRPTSVKVFSGKSERSSSGLLEWDSKSDALETLGFLNHYQMKNPNGPYPYTLKLCF 3tyw-a6-m1-cB_3tyw-a6-m3-cC Crystal Structure of CYP105N1 from Streptomyces coelicolor A3(2) Q9EWP1 Q9EWP1 2.9 X-RAY DIFFRACTION 105 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 397 398 3tyw-a5-m1-cA_3tyw-a5-m2-cD PPRDFPIQRGCPFAAPAEYAALRTDDPVARVTLPTRREAWVVTRYDDVRELLSDPRVSADIRRPGFPALGEGEQEAGARFRPFIRTDAPEHTRYRRMLLPAFTVRRVRAMRPAVQARVDEILDGMLAAGGPVDLVSAYANAVSTSVICELLGIPRHDLEFFRDVTRISGSRNSTAEQVSEALGGLFGLLGGLVAERREEPRDDLISKLVTDHLVPGNVTTEQLLSTLGITINAGRETTTSMIALSTLLLLDRPELPAELRKDPDLMPAAVDELLRVLSVADSIPLRVAAEDIELSGRTVPADDGVIALLAGANHDPEQFDDPERVDFHRTDNHHVAFGYGVHQCVGQHLARLELEVALETLLRRVPTLRLAGERDQVVVKHDSATFGLEELMVTWHH PPRDFPIQRGCPFAAPAEYAALRTDDPVARVTLPTRREAWVVTRYDDVRELLSDPRVSADIRRPGFPALGEGEQEAGARFRPFIRTDAPEHTRYRRMLLPAFTVRRVRAMRPAVQARVDEILDGMLAAGGPVDLVSAYANAVSTSVICELLGIPRHDLEFFRDVTRISGSRNSTAEQVSEALGGLFGLLGGLVAERREEPRDDLISKLVTDHLVPGNVTTEQLLSTLGITINAGRETTTSMIALSTLLLLDRPELPAELRKDPDLMPAAVDELLRVLSVADSIPLRVAAEDIELSGRTVPADDGVIALLAGANHDPEQFDDPERVDFHRTDNHHVAFGYGVHQCVGQHLARLELEVALETLLRRVPTLRLAGERDQVVVKHDSATFGLEELMVTWHHH 3tyy-a1-m1-cB_3tyy-a1-m1-cA Crystal Structure of Human Lamin-B1 Coil 2 Segment P20700 P20700 2.399 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 75 ESRACLERIQELEDLLAKEKDNSRRMLTDKEREMAEIRDQMQQQLNDYEQLLDVKLALDMEISAYRKLLEG QKESRACLERIQELEDLLAKEKDNSRRMLTDKEREMAEIRDQMQQQLNDYEQLLDVKLALDMEISAYRKLLEGEE 3tyz-a1-m1-cA_3tyz-a1-m1-cB Crystal Structure of the Yersinia pestis Dihydropteroate synthetase with substrate transition state complex. A0A2S9PLG4 A0A2S9PLG4 2.07 X-RAY DIFFRACTION 84 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 275 276 3tyu-a1-m1-cB_3tyu-a1-m1-cA 3tzf-a1-m1-cB_3tzf-a1-m1-cA 3tzn-a1-m1-cB_3tzn-a1-m1-cA 5jq9-a1-m1-cB_5jq9-a1-m1-cA MHLTARGLTLDLSRPQVMGILNVTPDSFSDGGCHNNLDQALQHAQRMLSAGATLIDIGGESTRPGAAEVSEQEELDRVVPVVEALAQRFDVWLSVDTSKAAVITESAHAGAHLINDIRSLQEPGALEAAAKTGLPVCLMHMQGQPKNMQHSPYYDDLMTDINRFFQHHIERCVAAGIAKNKLLLDPGFGFGKNLAHNYQLLAHLSELHHFELPLLVGMSRKSMVGQLLNVPPQQRVIGSVACAVIAAMQGAQIIRVHDVKETVEAMCIVEATRSA MHLTARGLTLDLSRPQVMGILNVTPDSFSDGGCHNNLDQALQHAQRMLSAGATLIDIGGESTRPGAAEVSEQEELDRVVPVVEALAQRFDVWLSVDTSKAAVITESAHAGAHLINDIRSLQEPGALEAAAKTGLPVCLMHMQGQPKNMQHSPYYDDLMTDINRFFQHHIERCVAAGIAKNKLLLDPGFGFGKNLAHNYQLLAHLSELHHFELPLLVGMSRKSMVGQLLNVPPQQRVIGSVACAVIAAMQGAQIIRVHDVKETVEAMCIVEATRSAK 3tz6-a1-m1-cA_3tz6-a1-m2-cA Crystal structure of Aspartate semialdehyde dehydrogenase Complexed With inhibitor SMCS (CYS) And Phosphate From Mycobacterium tuberculosis H37Rv P9WNX5 P9WNX5 1.95 X-RAY DIFFRACTION 227 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 342 342 3vos-a1-m1-cA_3vos-a1-m2-cA GLSIGIVGATGQVGQVMRTLLDERDFPASAVRFFASARSQGRKLAFRGQEIEVEDAETADPSGLDIALFSAGSAMSKVQAPRFAAAGVTVIDNSSAWRKDPDVPLVVSEVNFERDAHRRPKGIIANPNCTTMAAMPVLKVLHDEARLVRLVVSSYQAVSGSGLAGVAELAEQARAVIGGAEQLVYDGGALEFPPPNTYVAPIAFNVVPLAGSLVDDGSGETDEDQKLRFESRKILGIPDLLVSGTCVRVPVFTGHSLSINAEFAQPLSPERARELLDGATGVQLVDVPTPLAAAGVDESLVGRIRRDPGVPDGRGLALFVSGDNLRKGAALNTIQIAELLTA GLSIGIVGATGQVGQVMRTLLDERDFPASAVRFFASARSQGRKLAFRGQEIEVEDAETADPSGLDIALFSAGSAMSKVQAPRFAAAGVTVIDNSSAWRKDPDVPLVVSEVNFERDAHRRPKGIIANPNCTTMAAMPVLKVLHDEARLVRLVVSSYQAVSGSGLAGVAELAEQARAVIGGAEQLVYDGGALEFPPPNTYVAPIAFNVVPLAGSLVDDGSGETDEDQKLRFESRKILGIPDLLVSGTCVRVPVFTGHSLSINAEFAQPLSPERARELLDGATGVQLVDVPTPLAAAGVDESLVGRIRRDPGVPDGRGLALFVSGDNLRKGAALNTIQIAELLTA 3tze-a1-m1-cB_3tze-a1-m1-cA Crystal structure of a tryptophanyl-tRNA synthetase from Encephalitozoon cuniculi bound to tryptophan O96771 O96771 2.6 X-RAY DIFFRACTION 101 1.0 284813 (Encephalitozoon cuniculi GB-M1) 284813 (Encephalitozoon cuniculi GB-M1) 339 360 DYDKIINQFGCEKFNQALADRLEKLSGKPAHYFFRRGIVFAHRDFNLLLDEIANNRPFYLYTGRGPSSKTMHIGHTIPFLLCKYMQDAFKIRLVIQITDDEKFLWKSMRLEDAMAYGRENIKDIVTLGFDPKLTYIFSNVEASHHFEENILKISKTINLNEAIKVFGFDMSSNIGQVGFPAKEIAPCFSSSFRFIGKGAMCLVPAAVDQDPFFRLARDKAKALGEKKPSSIYVSLLPDLKGVNPNSSIYLDDAQDTIRKKIIAYAYSDIDVDVPFEYLKYFLDDDQELEKYRSGYIKGEITSKEMKEKCVVVIQEFVSRYQESRKRVTDDDLRAFIDIN VPVAIDYDKIINQFGCEKFNQALADRLEKLSGKPAHYFFRRGIVFAHRDFNLLLDEIANNRPFYLYTGRGPSSKTMHIGHTIPFLLCKYMQDAFKIRLVIQITDDEKFLWKSMRLEDAMAYGRENIKDIVTLGFDPKLTYIFSNVEASHHFEENILKISKTINLNEAIKVFGFDMSSNIGQVGFPAKEIAPCFSSSFRFIGKGAMCLVPAAVDQDPFFRLARDKAKALGEKKPSSIYVSLLPDLKGVNRKMSASDPNSSIYLDDAQDTIRKKIIAYAYSGGRKTGGDIDVDVPFEYLKYFLDDDQELEKYRSGYIKGEITSKEMKEKCVVVIQEFVSRYQESRKRVTDDDLRAFIDINKF 3tzl-a1-m1-cA_3tzl-a1-m1-cB Crystal Structure of Tryptophanyl-tRNA Synthetase from Campylobacter jejuni complexed with ADP and Tryptophane Q9PIB4 Q9PIB4 2.154 X-RAY DIFFRACTION 89 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 309 310 3m5w-a1-m1-cA_3m5w-a1-m1-cB RVLTGLQPSGDLHIGNYFGAIKQVDAQEKSQFFIANYHATSSQDGEKLKQNSLKAAAAFLSLGIDPQKSVFWLQSDVKEVELYWILSQFTPGLLERAHSYKDKVAKGLSASHGLFSYPVLAADILLFDTRIVPVGKDQIQHVEIARDIALKVNNEWGEIFTLPEARVNEEVAVVVGTDGAKSKSYQNTIDIFSSEKTLKKQISSIVTDSTALEDPKDHENCNIFKIAKLFLDESGQKELQIRYEKGGEGYGHFKIYLNELVNAYFKEAREKYNELLEKPSHLKEILDFGATKARKIAQEKQKIYEKIGL ARVLTGLQPSGDLHIGNYFGAIKQVDAQEKSQFFIANYHATSSQDGEKLKQNSLKAAAAFLSLGIDPQKSVFWLQSDVKEVELYWILSQFTPGLLERAHSYKDKVAKGLSASHGLFSYPVLAADILLFDTRIVPVGKDQIQHVEIARDIALKVNNEWGEIFTLPEARVNEEVAVVVGTDGAKSKSYQNTIDIFSSEKTLKKQISSIVTDSTALEDPKDHENCNIFKIAKLFLDESGQKELQIRYEKGGEGYGHFKIYLNELVNAYFKEAREKYNELLEKPSHLKEILDFGATKARKIAQEKQKIYEKIGL 3tzq-a2-m1-cE_3tzq-a2-m1-cH Crystal structure of a short-chain type dehydrogenase/reductase from Mycobacterium marinum B2HKN3 B2HKN3 2.5 X-RAY DIFFRACTION 118 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 260 261 3tzq-a1-m1-cA_3tzq-a1-m1-cD 3tzq-a1-m1-cB_3tzq-a1-m1-cC 3tzq-a2-m1-cG_3tzq-a2-m1-cF AELENKVAIITGACGGIGLETSRVLARAGARVVLADLPETDLAGAAASVGRGAVHHVVDLTNEVSVRALIDFTIDTFGRLDIVDNNAAHSDPADMLVTQMTVDVWDDTFTVNARGTMLMCKYAIPRLISAGGGAIVNISSATAHAAYDMSTAYACTKAAIETLTRYVATQYGRHGVRCNAIAPGLVRTPRLEVGLPQPIVDIFATHHLAGRIGEPHEIAELVCFLASDRAAFITGQVIAADSGLLAHLPGLPQIRASVAE AELENKVAIITGACGGIGLETSRVLARAGARVVLADLPETDLAGAAASVGRGAVHHVVDLTNEVSVRALIDFTIDTFGRLDIVDNNAAHSDPADMLVTQMTVDVWDDTFTVNARGTMLMCKYAIPRLISAGGGAIVNISSATAHAAYDMSTAYACTKAAIETLTRYVATQYGRHGVRCNAIAPGLVRTPRLEVGLPQPIVDIFATHHLAGRIGEPHEIAELVCFLASDRAAFITGQVIAADSGLLAHLPGLPQIRASVAEL 3tzq-a2-m1-cF_3tzq-a2-m1-cH Crystal structure of a short-chain type dehydrogenase/reductase from Mycobacterium marinum B2HKN3 B2HKN3 2.5 X-RAY DIFFRACTION 87 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 261 261 3tzq-a1-m1-cA_3tzq-a1-m1-cC 3tzq-a1-m1-cB_3tzq-a1-m1-cD 3tzq-a2-m1-cE_3tzq-a2-m1-cG AELENKVAIITGACGGIGLETSRVLARAGARVVLADLPETDLAGAAASVGRGAVHHVVDLTNEVSVRALIDFTIDTFGRLDIVDNNAAHSDPADMLVTQMTVDVWDDTFTVNARGTMLMCKYAIPRLISAGGGAIVNISSATAHAAYDMSTAYACTKAAIETLTRYVATQYGRHGVRCNAIAPGLVRTPRLEVGLPQPIVDIFATHHLAGRIGEPHEIAELVCFLASDRAAFITGQVIAADSGLLAHLPGLPQIRASVAEL AELENKVAIITGACGGIGLETSRVLARAGARVVLADLPETDLAGAAASVGRGAVHHVVDLTNEVSVRALIDFTIDTFGRLDIVDNNAAHSDPADMLVTQMTVDVWDDTFTVNARGTMLMCKYAIPRLISAGGGAIVNISSATAHAAYDMSTAYACTKAAIETLTRYVATQYGRHGVRCNAIAPGLVRTPRLEVGLPQPIVDIFATHHLAGRIGEPHEIAELVCFLASDRAAFITGQVIAADSGLLAHLPGLPQIRASVAEL 3tzq-a2-m1-cG_3tzq-a2-m1-cH Crystal structure of a short-chain type dehydrogenase/reductase from Mycobacterium marinum B2HKN3 B2HKN3 2.5 X-RAY DIFFRACTION 103 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 260 261 3tzq-a1-m1-cB_3tzq-a1-m1-cA 3tzq-a1-m1-cD_3tzq-a1-m1-cC 3tzq-a2-m1-cE_3tzq-a2-m1-cF AELENKVAIITGACGGIGLETSRVLARAGARVVLADLPETDLAGAAASVGRGAVHHVVDLTNEVSVRALIDFTIDTFGRLDIVDNNAAHSDPADMLVTQMTVDVWDDTFTVNARGTMLMCKYAIPRLISAGGGAIVNISSATAHAAYDMSTAYACTKAAIETLTRYVATQYGRHGVRCNAIAPGLVRTPRLEVGLPQPIVDIFATHHLAGRIGEPHEIAELVCFLASDRAAFITGQVIAADSGLLAHLPGLPQIRASVAE AELENKVAIITGACGGIGLETSRVLARAGARVVLADLPETDLAGAAASVGRGAVHHVVDLTNEVSVRALIDFTIDTFGRLDIVDNNAAHSDPADMLVTQMTVDVWDDTFTVNARGTMLMCKYAIPRLISAGGGAIVNISSATAHAAYDMSTAYACTKAAIETLTRYVATQYGRHGVRCNAIAPGLVRTPRLEVGLPQPIVDIFATHHLAGRIGEPHEIAELVCFLASDRAAFITGQVIAADSGLLAHLPGLPQIRASVAEL 3tzt-a1-m1-cB_3tzt-a1-m1-cA The structure of a protein in glycosyl transferase family 8 from Anaerococcus prevotii. C7RG54 C7RG54 2.1 X-RAY DIFFRACTION 49 0.982 525919 (Anaerococcus prevotii DSM 20548) 525919 (Anaerococcus prevotii DSM 20548) 224 226 ADALLLTLDENYIPQKVLTSIYINNPGRIFDVYLIHSRISEDKLKDLGEDLKKFSYTLYPIRATKEYYRLLAGEFLPENLGEILYLDPDLVINPLDDLLRTDISDYILAAASHDYYNSGLLLINLKRAREEIDPDEIFSFVLPDQDILNAYGDRIYPLDDLIYNYDARNYSSYLIRSKKQADLAWLDHTVVLHFCGRDKPWKKNHRNKFTSLYKHYSLTKRYLA AADALLLTLDENYIPQKVLTSIYINNPGRIFDVYLIHSRISEDKLKDLGEDLKKFSYTLYPIRATDPKEYYRLLAGEFLPENLGEILYLDPDLVINPLDDLLRTDISDYILAAASHYYNSGLLLINLKRAREEIDPDEIFSFVEDNQDILNAYGDRIYPLDDLIYNYDARNYSSYLIRSKKQADLAWLDHTVVLHFCGRDKPWKKNHRNKFTSLYKHYSLTKRYLA 3tzu-a2-m1-cB_3tzu-a2-m1-cD Crystal structure of a glycine cleavage system H protein (GCVH) from Mycobacterium marinum B2HKH2 B2HKH2 2.3 X-RAY DIFFRACTION 40 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 127 127 3tzu-a1-m1-cA_3tzu-a1-m1-cC IPGDRSYTADHEWIDIAPGAATPDGPVRVGITSVAVEALGDLVFVQLPEVGETVSAGESCGEVESTKTVSDLIAPASGQIVEVNTAAVDDPATIATDPYGAGWLYSVQPTAVGELLTASEYAGQNGL IPGDRSYTADHEWIDIAPGAATPDGPVRVGITSVAVEALGDLVFVQLPEVGETVSAGESCGEVESTKTVSDLIAPASGQIVEVNTAAVDDPATIATDPYGAGWLYSVQPTAVGELLTASEYAGQNGL 3u02-a1-m1-cD_3u02-a1-m1-cB Crystal Structure of the tRNA modifier TiaS from Pyrococcus furiosus, Northeast Structural Genomics Consortium Target PfR225 Q8TZX0 Q8TZX0 2.399 X-RAY DIFFRACTION 81 0.995 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 218 239 3u02-a1-m1-cC_3u02-a1-m1-cA LIHIGIDDTCTYIGAILYREISKIAEPLDFPRLIRLNPGAVASFKIDEEKIKEVKTLVIRYVRELPGIVFLIGEVPKELEEFSLRALREHVTIEEAEHVARKVNAEVYKRGIIGGLAAIGYPLEKFTYELLAYRKREYWGTPRRVIKESVFYADKWSYPFTYDNVDPYKRTVLITPHGKDPVLVGIRGIDVGKILQVFEIKIEEPIEFFQVYKTNQNT LIHIGIDDCTYIGAILYREISKIAEPLDFPRLIRLNPNVPYKTRGNGAVASFKIDEEKIKEVKTLVIRYVRELADIDHENTNPGIVFLIGEVPKELEEFSLRALREHVTIEEAEHVARKVNAEVYKFKLGRGIIGGLAAIGYPLEKFTYELLAYRKREYWGTPRRVIKESVFYADKWSYPFTYDNVDPYKRTVLITPHGKDPVLVGIRGIDVGKILQVFEIKIEEPIEFFQVYKTNQNT 3u02-a3-m1-cD_3u02-a3-m1-cC Crystal Structure of the tRNA modifier TiaS from Pyrococcus furiosus, Northeast Structural Genomics Consortium Target PfR225 Q8TZX0 Q8TZX0 2.399 X-RAY DIFFRACTION 88 0.986 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 218 221 3u02-a1-m1-cD_3u02-a1-m1-cC LIHIGIDDTCTYIGAILYREISKIAEPLDFPRLIRLNPGAVASFKIDEEKIKEVKTLVIRYVRELPGIVFLIGEVPKELEEFSLRALREHVTIEEAEHVARKVNAEVYKRGIIGGLAAIGYPLEKFTYELLAYRKREYWGTPRRVIKESVFYADKWSYPFTYDNVDPYKRTVLITPHGKDPVLVGIRGIDVGKILQVFEIKIEEPIEFFQVYKTNQNT LIHIGIDDCTYIGAILYREISKIAEPLDFPRLIRLNNGAVASFKIDEEKIKEVKTLVIRYVRELADINPGIVFLIGEVPKELEEFSLRALREHVTIEEAEHVARKVNAEVYGRGIIGGLAAIGYPLEKFTYELLAYRKREYWGTPRRVIKESVFYADKWSYPFTYDNVDPYKRTVLITPHGKDPVLVGIRGIDVGKILQVFEIKIEEPIEFFQVYKTNQNT 3u04-a1-m1-cA_3u04-a1-m2-cA Crystal structure of peptide deformylase from ehrlichia chaffeensis in complex with actinonin Q2GI30 Q2GI30 1.7 X-RAY DIFFRACTION 31 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 172 172 MSVLSIVTVPDKRLSLCSEEVEKVDQSIRKLVDDMFETMHANQGLGLAAVQVGVHKRILVMNVPEEIEGYELYGGPYCIINPKIVDISQEKVKLKEGCLSVPGYFDYIVRPQRIAVQYLDYNGNECIIKAQGWLARCLQHEIDHLNGTVFLKYLSKFKRDFAIEKVKKKERT MSVLSIVTVPDKRLSLCSEEVEKVDQSIRKLVDDMFETMHANQGLGLAAVQVGVHKRILVMNVPEEIEGYELYGGPYCIINPKIVDISQEKVKLKEGCLSVPGYFDYIVRPQRIAVQYLDYNGNECIIKAQGWLARCLQHEIDHLNGTVFLKYLSKFKRDFAIEKVKKKERT 3u09-a1-m1-cA_3u09-a1-m2-cA Crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase (FabG)(G92D) from Vibrio cholerae Q9KQH7 Q9KQH7 1.75 X-RAY DIFFRACTION 135 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 248 248 3op4-a1-m1-cB_3op4-a1-m2-cA 3op4-a1-m2-cB_3op4-a1-m1-cA 3rro-a1-m1-cA_3rro-a1-m2-cA 3rro-a1-m1-cB_3rro-a1-m2-cB 3rsh-a1-m1-cA_3rsh-a1-m2-cA 3rsh-a1-m1-cB_3rsh-a1-m2-cB 3tzh-a1-m1-cA_3tzh-a1-m2-cA 3tzh-a1-m1-cF_3tzh-a1-m2-cF 3tzh-a2-m1-cB_3tzh-a2-m3-cB 3tzh-a2-m1-cE_3tzh-a2-m3-cE 3tzh-a3-m1-cC_3tzh-a3-m4-cC 3tzh-a3-m1-cD_3tzh-a3-m4-cD 3tzk-a1-m1-cA_3tzk-a1-m2-cA 3tzk-a1-m1-cB_3tzk-a1-m2-cB 3u09-a1-m1-cB_3u09-a1-m2-cB 4i08-a1-m1-cA_4i08-a1-m2-cA 4i08-a1-m1-cB_4i08-a1-m2-cB 4wk6-a1-m1-cC_4wk6-a1-m1-cB 4wk6-a1-m1-cD_4wk6-a1-m1-cA 5end-a1-m1-cA_5end-a1-m2-cA 5end-a1-m1-cB_5end-a1-m2-cB MSQFMNLEGKVALVTGASRGIGKAIAELLAERGAKVIGTATSESGAQAISDYLGDNGKGMALNVTNPESIEAVLKAITDEFGGVDILVNNADITRDNLLMRMKEEEWSDIMETNLTSIFRLSKAVLRGMMKKRQGRIINVGSVVGTMGNAGQANYAAAKAGVIGFTKSMAREVASRGVTVNTVAPGFIETDMTKALNDEQRTATLAQVPAGRLGDPREIASAVAFLASPEAAYITGETLHVNGGMYMI MSQFMNLEGKVALVTGASRGIGKAIAELLAERGAKVIGTATSESGAQAISDYLGDNGKGMALNVTNPESIEAVLKAITDEFGGVDILVNNADITRDNLLMRMKEEEWSDIMETNLTSIFRLSKAVLRGMMKKRQGRIINVGSVVGTMGNAGQANYAAAKAGVIGFTKSMAREVASRGVTVNTVAPGFIETDMTKALNDEQRTATLAQVPAGRLGDPREIASAVAFLASPEAAYITGETLHVNGGMYMI 3u09-a1-m2-cA_3u09-a1-m2-cB Crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase (FabG)(G92D) from Vibrio cholerae Q9KQH7 Q9KQH7 1.75 X-RAY DIFFRACTION 116 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 248 248 3op4-a1-m1-cB_3op4-a1-m1-cA 3op4-a1-m2-cB_3op4-a1-m2-cA 3rro-a1-m1-cA_3rro-a1-m1-cB 3rro-a1-m2-cA_3rro-a1-m2-cB 3rsh-a1-m1-cA_3rsh-a1-m1-cB 3rsh-a1-m2-cA_3rsh-a1-m2-cB 3tzh-a1-m1-cA_3tzh-a1-m1-cF 3tzh-a1-m2-cA_3tzh-a1-m2-cF 3tzh-a2-m1-cB_3tzh-a2-m1-cE 3tzh-a2-m3-cB_3tzh-a2-m3-cE 3tzh-a3-m1-cC_3tzh-a3-m1-cD 3tzh-a3-m4-cC_3tzh-a3-m4-cD 3tzk-a1-m1-cA_3tzk-a1-m1-cB 3tzk-a1-m2-cA_3tzk-a1-m2-cB 3u09-a1-m1-cA_3u09-a1-m1-cB 4i08-a1-m1-cA_4i08-a1-m1-cB 4i08-a1-m2-cA_4i08-a1-m2-cB 4wk6-a1-m1-cB_4wk6-a1-m1-cA 4wk6-a1-m1-cD_4wk6-a1-m1-cC 5end-a1-m1-cB_5end-a1-m1-cA 5end-a1-m2-cB_5end-a1-m2-cA MSQFMNLEGKVALVTGASRGIGKAIAELLAERGAKVIGTATSESGAQAISDYLGDNGKGMALNVTNPESIEAVLKAITDEFGGVDILVNNADITRDNLLMRMKEEEWSDIMETNLTSIFRLSKAVLRGMMKKRQGRIINVGSVVGTMGNAGQANYAAAKAGVIGFTKSMAREVASRGVTVNTVAPGFIETDMTKALNDEQRTATLAQVPAGRLGDPREIASAVAFLASPEAAYITGETLHVNGGMYMI MSQFMNLEGKVALVTGASRGIGKAIAELLAERGAKVIGTATSESGAQAISDYLGDNGKGMALNVTNPESIEAVLKAITDEFGGVDILVNNADITRDNLLMRMKEEEWSDIMETNLTSIFRLSKAVLRGMMKKRQGRIINVGSVVGTMGNAGQANYAAAKAGVIGFTKSMAREVASRGVTVNTVAPGFIETDMTKALNDEQRTATLAQVPAGRLGDPREIASAVAFLASPEAAYITGETLHVNGGMYMI 3u0a-a2-m2-cB_3u0a-a2-m1-cA Crystal structure of an Acyl-CoA thioesterase II TesB2 from Mycobacterium marinum B2HN47 B2HN47 2.5 X-RAY DIFFRACTION 25 0.984 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 252 256 3u0a-a2-m1-cB_3u0a-a2-m2-cA MAIEEILDLEQLEVNIYRGSTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPLPGLFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGYQP AIEEILDLEQLEVNIYRGSVLQRTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPDDLPGRQFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGY 3u0a-a3-m1-cA_3u0a-a3-m3-cA Crystal structure of an Acyl-CoA thioesterase II TesB2 from Mycobacterium marinum B2HN47 B2HN47 2.5 X-RAY DIFFRACTION 21 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 256 256 AIEEILDLEQLEVNIYRGSVLQRTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPDDLPGRQFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGY AIEEILDLEQLEVNIYRGSVLQRTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPDDLPGRQFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGY 3u0a-a3-m3-cB_3u0a-a3-m1-cA Crystal structure of an Acyl-CoA thioesterase II TesB2 from Mycobacterium marinum B2HN47 B2HN47 2.5 X-RAY DIFFRACTION 28 0.984 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 252 256 3u0a-a3-m1-cB_3u0a-a3-m3-cA MAIEEILDLEQLEVNIYRGSTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPLPGLFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGYQP AIEEILDLEQLEVNIYRGSVLQRTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPDDLPGRQFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGY 3u0a-a3-m3-cB_3u0a-a3-m3-cA Crystal structure of an Acyl-CoA thioesterase II TesB2 from Mycobacterium marinum B2HN47 B2HN47 2.5 X-RAY DIFFRACTION 202 0.984 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 252 256 3u0a-a1-m1-cB_3u0a-a1-m1-cA 3u0a-a2-m1-cB_3u0a-a2-m1-cA 3u0a-a2-m2-cB_3u0a-a2-m2-cA 3u0a-a3-m1-cB_3u0a-a3-m1-cA MAIEEILDLEQLEVNIYRGSTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPLPGLFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGYQP AIEEILDLEQLEVNIYRGSVLQRTFGGHVAGQSLVSAVRTVDPRYQVHSLHGYFLRSGDAQEPTVFLVERTRDGGSFVTRRVNAVQHGEVIFSMGASFQTAQNGISHQDAMPAAPPPDDLPGRQFEEWDVRIVPRDLLAPLPGKASQQQVWFRHRDPLPDDPVLHICALAYMSDLTLLGSAQVTHLAEREHLQVASLDHAMWFMRGFRADEWLLYDQSSPSAGGGRALTHGKIFTQGGELVAAVMQEGLTRYPSGY 3u0b-a1-m1-cA_3u0b-a1-m2-cA Crystal structure of an oxidoreductase from Mycobacterium smegmatis A0QPE7 A0QPE7 1.7 X-RAY DIFFRACTION 232 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 415 415 5vp5-a1-m1-cA_5vp5-a1-m2-cA QPETLRRYRPGDPPLAGSLLIGGSGRVAEPLRTALADDYNLVSNNIGGRWADSFGGVVFDATGITEAEGLKELYTFFTPLLRNLAPCARVVVVGTTPAEAGSVHAQVVQRALEGFTRSLGKELRRGATVSLVYLSADAKPGATGLESTMRFILSAKSAYVDGQVFRVGAADSTPPADWDKPLDGKVAVVTGAARGIGATIAEVFARDGATVVAIDVDGAAEDLKRVADKVGGTALTLDVTADDAVDKITAHVTEHHGGKVDILVNNAGITRDKLLANMDEKRWDAVIAVNLLAPQRLTEGLVGNGTIGEGGRVIGLSSMAGIAGNRGQTNYATTKAGMIGLAEALAPVLADKGITINAVAPGFIETREVGRRLNSLFQGGQPVDVAELIAYFASPASNAVTGNTIRVCGQAMLGA QPETLRRYRPGDPPLAGSLLIGGSGRVAEPLRTALADDYNLVSNNIGGRWADSFGGVVFDATGITEAEGLKELYTFFTPLLRNLAPCARVVVVGTTPAEAGSVHAQVVQRALEGFTRSLGKELRRGATVSLVYLSADAKPGATGLESTMRFILSAKSAYVDGQVFRVGAADSTPPADWDKPLDGKVAVVTGAARGIGATIAEVFARDGATVVAIDVDGAAEDLKRVADKVGGTALTLDVTADDAVDKITAHVTEHHGGKVDILVNNAGITRDKLLANMDEKRWDAVIAVNLLAPQRLTEGLVGNGTIGEGGRVIGLSSMAGIAGNRGQTNYATTKAGMIGLAEALAPVLADKGITINAVAPGFIETREVGRRLNSLFQGGQPVDVAELIAYFASPASNAVTGNTIRVCGQAMLGA 3u0f-a1-m1-cA_3u0f-a1-m2-cA The structure of Beta-ketoacyl synthase from Brucella melitensis bound to the fragment 7-hydroxycoumarin Q2YQQ9 Q2YQQ9 1.25 X-RAY DIFFRACTION 298 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 407 407 3lrf-a1-m1-cA_3lrf-a1-m2-cA 3mqd-a1-m1-cA_3mqd-a1-m2-cA 3u0e-a1-m1-cA_3u0e-a1-m2-cA 4jv3-a1-m1-cA_4jv3-a1-m2-cA MRRVVVTGMGIVSSIGSNTEEVTASLREAKSGISRAEEYAELGFRCQVHGAPDIDIESLVDRRAMRFHGRGTAWNHIAMDQAIADAGLTEEEVSNERTGIIMGSGGPSTRTIVDSADITREKGPKRVGPFAVPKAMSSTASATLATFFKIKGINYSISSACATSNHCIGNAYEMIQYGKQDRMFAGGCEDLDWTLSVLFDAMGAMSSKYNDTPSTASRAYDKNRDGFVIAGGAGVLVLEDLETALARGAKIYGEIVGYGATSDGYDMVAPSGEGAIRCMKMALSTVTSKIDYINPHATSTPAGDAPEIEAIRQIFGAGDVCPPIAATKSLTGHSLGATGVQEAIYSLLMMQNNFICESAHIEELDPAFADMPIVRKRIDNVQLNTVLSNSFGFGGTNATLVFQRYQG MRRVVVTGMGIVSSIGSNTEEVTASLREAKSGISRAEEYAELGFRCQVHGAPDIDIESLVDRRAMRFHGRGTAWNHIAMDQAIADAGLTEEEVSNERTGIIMGSGGPSTRTIVDSADITREKGPKRVGPFAVPKAMSSTASATLATFFKIKGINYSISSACATSNHCIGNAYEMIQYGKQDRMFAGGCEDLDWTLSVLFDAMGAMSSKYNDTPSTASRAYDKNRDGFVIAGGAGVLVLEDLETALARGAKIYGEIVGYGATSDGYDMVAPSGEGAIRCMKMALSTVTSKIDYINPHATSTPAGDAPEIEAIRQIFGAGDVCPPIAATKSLTGHSLGATGVQEAIYSLLMMQNNFICESAHIEELDPAFADMPIVRKRIDNVQLNTVLSNSFGFGGTNATLVFQRYQG 3u0h-a1-m1-cB_3u0h-a1-m2-cB The Structure of a Xylose Isomerase domain protein from Alicyclobacillus acidocaldarius subsp. acidocaldarius. C8WQZ7 C8WQZ7 2.3 X-RAY DIFFRACTION 49 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 275 275 3u0h-a1-m1-cA_3u0h-a1-m2-cA AEPCLHPTLVDETSLVLYLDLARETGYRYVDVPFHWLEAEAERHGDAAVEAFQRRGLVLANLGLPLNLYDSEPVFLRELSLLPDRARLCARLGARSVTAFLWPSDEEPVRYISQLARRIRQVAVELLPLGRVGLEYVGPHHLRHRRYPFVQSLADLKTFWEAIGAPNVGALVDSYHWYTAGEHEDDLAQLPPEKVVYVHINDTRDAPEDAHDGKRLLPGDGRIPLVPFLRGLYLAGYRGPVAAEVLHETPLDGTGESRARLVRERLEKLIALAKG AEPCLHPTLVDETSLVLYLDLARETGYRYVDVPFHWLEAEAERHGDAAVEAFQRRGLVLANLGLPLNLYDSEPVFLRELSLLPDRARLCARLGARSVTAFLWPSDEEPVRYISQLARRIRQVAVELLPLGRVGLEYVGPHHLRHRRYPFVQSLADLKTFWEAIGAPNVGALVDSYHWYTAGEHEDDLAQLPPEKVVYVHINDTRDAPEDAHDGKRLLPGDGRIPLVPFLRGLYLAGYRGPVAAEVLHETPLDGTGESRARLVRERLEKLIALAKG 3u0h-a2-m1-cA_3u0h-a2-m1-cB The Structure of a Xylose Isomerase domain protein from Alicyclobacillus acidocaldarius subsp. acidocaldarius. C8WQZ7 C8WQZ7 2.3 X-RAY DIFFRACTION 68 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 275 275 3u0h-a1-m1-cA_3u0h-a1-m1-cB 3u0h-a1-m2-cA_3u0h-a1-m2-cB AEPCLHPTLVDETSLVLYLDLARETGYRYVDVPFHWLEAEAERHGDAAVEAFQRRGLVLANLGLPLNLYDSEPVFLRELSLLPDRARLCARLGARSVTAFLWPSDEEPVRYISQLARRIRQVAVELLPLGRVGLEYVGPHHLRHRRYPFVQSLADLKTFWEAIGAPNVGALVDSYHWYTAGEHEDDLAQLPPEKVVYVHINDTRDAPEDAHDGKRLLPGDGRIPLVPFLRGLYLAGYRGPVAAEVLHETPLDGTGESRARLVRERLEKLIALAKG AEPCLHPTLVDETSLVLYLDLARETGYRYVDVPFHWLEAEAERHGDAAVEAFQRRGLVLANLGLPLNLYDSEPVFLRELSLLPDRARLCARLGARSVTAFLWPSDEEPVRYISQLARRIRQVAVELLPLGRVGLEYVGPHHLRHRRYPFVQSLADLKTFWEAIGAPNVGALVDSYHWYTAGEHEDDLAQLPPEKVVYVHINDTRDAPEDAHDGKRLLPGDGRIPLVPFLRGLYLAGYRGPVAAEVLHETPLDGTGESRARLVRERLEKLIALAKG 3u0o-a1-m1-cA_3u0o-a1-m1-cB The crystal structure of selenophosphate synthetase from E. coli P16456 P16456 2.25 X-RAY DIFFRACTION 189 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 319 335 ILHSEQAKFVDPNLLVGNETRDDAAVYDLGNGTSVISTTDFFMPIVDNPFDFGRIAATNAISDIFAMGGKPIMAIAILGWPINKLSPEIAREVTEGGRYACRQAGIALAGGHSIDAPEPIFGLAVTGIVPTERVKKNSTAQAGCKLFLTKPLGIGVLTTAEKKSLLKPEHQGLATEVMCRMNIAGASFANIEGVKAMTDVTGFGLLGHLSEMCQGAGVQARVDYEAIPKLPGVEEYIKLGAVPGGTERNFASYGHLMGEMPREVRDLLCDPQTSGGLLLAVMPEAENEVKATAAEFGIELTAIGELVPARGGRAMVEIR HGAGCGCKISPKVLETILHSEQAKFVDPNLLVGNETRDDAAVYDLGNGTSVISTTDFFMPIVDNPFDFGRIAATNAISDIFAMGGKPIMAIAILGWPINKLSPEIAREVTEGGRYACRQAGIALAGGHSIDAPEPIFGLAVTGIVPTERVKKNSTAQAGCKLFLTKPLGIGVLTTAEKKSLLKPEHQGLATEVMCRMNIAGASFANIEGVKAMTDVTGFGLLGHLSEMCQGAGVQARVDYEAIPKLPGVEEYIKLGAVPGGTERNFASYGHLMGEMPREVRDLLCDPQTSGGLLLAVMPEAENEVKATAAEFGIELTAIGELVPARGGRAMVEIR 3u0y-a2-m2-cB_3u0y-a2-m1-cA Crystal structure of the Fucosylgalactoside alpha N-acetylgalactosaminyltransferase (GTA, cisAB mutant L266G, G268A) in complex with compound 382 and UDP P16442 P16442 1.6 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 288 3v0l-a2-m1-cA_3v0l-a2-m3-cA VSLPRMVYPQPKVLTPCRKDVLVVTPWLAPIVWEGTFNIDILNEQFRLQNTTIGLTVFAIKKYVAFLKLFLETAEKHFMVGHRVHYYVFTDQPAAVPRVTLGTGRQLSVLEVRAYKRWQDVSMRRMEMISDFCERRFLSEVDYLVCVDVDMEFRDHVGVEILTPLFGTLHPGFYGSSREAFTYERRPQSQAYIPKDEGDFYYGGAFFGGSVQEVQRLTRACHQAMMVDQANGIEAVWHDESHLNKYLLRHKPTKVLSPEYLWDQQLLGWPAVLRKLRFTAVP AIGEFMVSLPRMVYPQPKVLTPCRKDVLVVTPWLAPIVWEGTFNIDILNEQFRLQNTTIGLTVFAIKKYVAFLKLFLETAEKHFMVGHRVHYYVFTDQPAAVPRVTLGTGRQLSVLEVRAYKRWQDVSMRRMEMISDFCERRFLSEVDYLVCVDVDMEFRDHVGVEILTPLFGTLHPGFYGSSREAFTYERRPQSQAYIPKDEGDFYYGGAFFGGSVQEVQRLTRACHQAMMVDQANGIEAVWHDESHLNKYLLRHKPTKVLSPEYLWDQQLLGWPAVLRKLRFTAVP 3u15-a2-m1-cD_3u15-a2-m1-cC Structure of hDMX with Dimer Inducing Indolyl Hydantoin RO-2443 O15151 O15151 1.8 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 81 82 3u15-a1-m1-cA_3u15-a1-m1-cB QVRPKLPLLKILHAAGAQGEMFTVKEVMHYLGQYIMVKQLYDQQEQHMVYCGGDLLGELLGRQSFSVKDPSPLYDMLRKNL QVRPKLPLLKILHAAGAQGEMFTVKEVMHYLGQYIMVKQLYDQQEQHMVYCGGDLLGELLGRQSFSVKDPSPLYDMLRKNLV 3u17-a3-m1-cA_3u17-a3-m1-cB Structure of BasE N-terminal domain from Acinetobacter baumannii bound to 6-(p-benzoyl)phenyl-1-(pyridin-4-ylmethyl)-1H-pyrazolo[3,4-b]pyridine-4-carboxylic acid 2.1 X-RAY DIFFRACTION 47 1.0 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 433 436 3o82-a3-m1-cA_3o82-a3-m1-cB 3o84-a3-m1-cA_3o84-a3-m1-cB 3u16-a3-m1-cA_3u16-a3-m1-cB KQLIEFVRWSPERAQHYRNKGYWIDQPLTRILTVGVQSHPHSLAIICGERQLSYIELDRLSTNLATRLAEKGLGKGDTALVQLPNVAEFYIVFFALLKAGVVVLNALYSHRQYELNAFIKQIQPKLLIGSRQHEVFSNNQFIDSLHDVNLSPEIILMLNHQATDFGLLDWIETPAETFVDFSSTPADEVAFFQLSGTGTPKLIPRTHNDYDYSVRASAEICGLNSNTRLLCALPAPHNFMLSSPGALGVLHAGGCVVMAPNPEPLNCFSIIQRHQVNMASLVPSAVIMWLEKAAQYKDQIQSLKLLQVGGASFPESLARQVPEVLNCKLQQVFGMAEGLVNYTRLDDSDEQIFTTQGRPISSDDEIKIVDEQYREVPEGEIGMLATRGPYTFCGYYQSPEHNSQVFDEDNYYYSGDLVQRTPDGNLRVVGRIK KQLIEFVRWSPERAQHYRNKGYWIDQPLTRILTVGVQSHPHSLAIICGERQLSYIELDRLSTNLATRLAEKGLGKGDTALVQLPNVAEFYIVFFALLKAGVVVLNALYSHRQYELNAFIKQIQPKLLIGSRQHEVFSNNQFIDSLHDVNLSPEIILMLNHQATDFGLLDWIETPAETFVDFSSTPADEVAFFQLSGGSTGTPKLIPRTHNDYDYSVRASAEICGLNSNTRLLCALPAPHNFMLSSPGALGVLHAGGCVVMAPNPEPLNCFSIIQRHQVNMASLVPSAVIMWLEKAAQYKDQIQSLKLLQVGGASFPESLARQVPEVLNCKLQQVFGMAEGLVNYTRLDDSDEQIFTTQGRPISSDDEIKIVDEQYREVPEGEIGMLATRGPYTFCGYYQSPEHNSQVFDEDNYYYSGDLVQRTPDGNLRVVGRIKD 3u1a-a3-m1-cA_3u1a-a3-m2-cC N-terminal 81-aa fragment of smooth muscle tropomyosin alpha P04268 P04268 2 X-RAY DIFFRACTION 17 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 82 84 HMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA 3u1a-a3-m1-cB_3u1a-a3-m2-cC N-terminal 81-aa fragment of smooth muscle tropomyosin alpha P04268 P04268 2 X-RAY DIFFRACTION 13 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 84 84 AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA 3u1a-a3-m2-cD_3u1a-a3-m1-cA N-terminal 81-aa fragment of smooth muscle tropomyosin alpha P04268 P04268 2 X-RAY DIFFRACTION 12 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 80 82 HMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAA HMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA 3u1a-a3-m2-cD_3u1a-a3-m1-cB N-terminal 81-aa fragment of smooth muscle tropomyosin alpha P04268 P04268 2 X-RAY DIFFRACTION 13 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 80 84 HMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAA AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA 3u1a-a3-m2-cD_3u1a-a3-m2-cC N-terminal 81-aa fragment of smooth muscle tropomyosin alpha P04268 P04268 2 X-RAY DIFFRACTION 129 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 80 84 3u1a-a1-m1-cA_3u1a-a1-m1-cB 3u1a-a2-m1-cD_3u1a-a2-m1-cC 3u1a-a3-m1-cA_3u1a-a3-m1-cB HMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAA AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKA 3u1c-a2-m1-cB_3u1c-a2-m3-cB Anti-parallel dimer of N-terminal 98-aa fragment of smooth muscle tropomyosin alpha P04268 P04268 1.8 X-RAY DIFFRACTION 158 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 101 101 3u1c-a1-m1-cA_3u1c-a1-m2-cA AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKAESEVASLNRRIQLVEEE AGHMDAIKKKMQMLKLDKENALDRAEQAEADKKAAEERSKQLEDDIVQLEKQLRVTEDSRDQVLEELHKSEDSLLFAEENAAKAESEVASLNRRIQLVEEE 3u1d-a1-m1-cB_3u1d-a1-m1-cA The structure of a protein with a GntR superfamily winged-helix-turn-helix domain from Halomicrobium mukohataei. C7P2E9 C7P2E9 1.8 X-RAY DIFFRACTION 55 1.0 485914 (Halomicrobium mukohataei DSM 12286) 485914 (Halomicrobium mukohataei DSM 12286) 141 145 DRGERPNGFGDELERRRFVLHETRLDVLHQILAQPDGVLSVEELLYRNPDETEANLRYHVDELVDRGIVEKIPVPRAKSVDDPPTTFYAVTGEGIALLRAVSYEEAAVWRSVYEQERTDRIEAIENLETRPDVDYESRGAT ATQDRGERPNGFGDELERRRFVLHETRLDVLHQILAQPDGVLSVEELLYRNPDETEANLRYHVDELVDRGIVEKIPVPRAKSVDDPPTTFYAVTGEGIALLRAVSYEEAAVWRSVYEQERTDRIEAIENLETRPDVDYESRGATA 3u1h-a1-m1-cA_3u1h-a1-m1-cB Crystal structure of IPMDH from the last common ancestor of Bacillus 2.8 X-RAY DIFFRACTION 136 0.997 1409 (Bacillus sp. (in: firmicutes)) 1409 (Bacillus sp. (in: firmicutes)) 355 357 KKIAVLPGDGIGPEVMEAAIEVLKAVAERFGHEFEFEYGLIGGAAIDEAGTPLPEETLDVCRGSDAILLGAVGGPKWDQNPSELRPEKGLLGIRKGLDLFANLRPVKVYDSLADASPLKKEVIEGVDLVIVRELTGGLYFEEGEEAAVDTLLYTREEIERIIRKAFELALTRKKKVTSVDKANVLESSRLWREVAEEVAKEYPDVELEHMLVDNAAMQLIRNPRQFDVIVTENMFGDILSDEASMITGSLGMLPSASLSTDGLGLYEPVHGSAPDIAGKGIANPLATILSAAMMLRYSFGLEEEAKAIEKAVEKVLAEGYRTADIAKPGGKYVSTTEMTDEVKAAVVDELATSAI KKKIAVLPGDGIGPEVMEAAIEVLKAVAERFGHEFEFEYGLIGGAAIDEAGTPLPEETLDVCRGSDAILLGAVGGPKWDQNPSELRPEKGLLGIRKGLDLFANLRPVKVYDSLADASPLKKEVIEGVDLVIVRELTGGLYEEGEEAAVDTLLYTREEIERIIRKAFELALTRKKKVTSVDKANVLESSRLWREVAEEVAKEYPDVELEHMLVDNAAMQLIRNPRQFDVIVTENMFGDILSDEASMITGSLGMLPSASLSTDGLGLYEPVHGSAPDIAGKGIANPLATILSAAMMLRYSFGLEEEAKAIEKAVEKVLAEGYRTADIAKPGGKYVSTTEMTDEVKAAVVDELATSAIMT 3u1k-a1-m2-cA_3u1k-a1-m3-cA Crystal structure of human PNPase Q8TCS8 Q8TCS8 2.13 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 619 619 3u1k-a1-m1-cA_3u1k-a1-m2-cA 3u1k-a1-m1-cA_3u1k-a1-m3-cA 3u1k-a2-m1-cD_3u1k-a2-m1-cC MASAVAVDLGNRKLEISSGKLARFADGSAVVQSGDTAVMVTAVSKTKPSPSQFMPLVVDYRQKAAAAGRIPTNYLTSDKEILTSRIIDRSIRPLFPAGYFYDTQVLCNLLAVDGVNEPDVLAINGASVALSLSDIPWNGPVGAVRIGIIDGEYVVNPTRKEMSSSTLNLVVAGAPKSQIVMLEASAENILQQDFCHAIKVGVKYTQQIIQGIQQLVKETGVTKRTPQKLFTPSPEIVKYTHKLAMERLYAVFTDYEHDKVSRDEAVNKIRLDTEEQLKEKFPEADPYEIIESFNVVAKEVFRSIVLNEYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESGIKSDQVITAINGIKDKNFMLHYEFPPYATNEIGKVTGLNRRELGHGALAEKALYPVIPRDFPFTIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTDPEKGEIEDYRLLTDILGIEDYNGDMDFKIAGTNKGITALQADIKLPGIPIKIVMEAIQQASVAKKEILQIMNKTISKPRASRKENGPVVETVQVPLSKRAKFVGPGGYNLKKLQAETGVTISQVDEETFSVFAPTPSAMHEARDFITE MASAVAVDLGNRKLEISSGKLARFADGSAVVQSGDTAVMVTAVSKTKPSPSQFMPLVVDYRQKAAAAGRIPTNYLTSDKEILTSRIIDRSIRPLFPAGYFYDTQVLCNLLAVDGVNEPDVLAINGASVALSLSDIPWNGPVGAVRIGIIDGEYVVNPTRKEMSSSTLNLVVAGAPKSQIVMLEASAENILQQDFCHAIKVGVKYTQQIIQGIQQLVKETGVTKRTPQKLFTPSPEIVKYTHKLAMERLYAVFTDYEHDKVSRDEAVNKIRLDTEEQLKEKFPEADPYEIIESFNVVAKEVFRSIVLNEYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESGIKSDQVITAINGIKDKNFMLHYEFPPYATNEIGKVTGLNRRELGHGALAEKALYPVIPRDFPFTIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTDPEKGEIEDYRLLTDILGIEDYNGDMDFKIAGTNKGITALQADIKLPGIPIKIVMEAIQQASVAKKEILQIMNKTISKPRASRKENGPVVETVQVPLSKRAKFVGPGGYNLKKLQAETGVTISQVDEETFSVFAPTPSAMHEARDFITE 3u1k-a2-m1-cD_3u1k-a2-m1-cB Crystal structure of human PNPase Q8TCS8 Q8TCS8 2.13 X-RAY DIFFRACTION 126 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 614 617 3u1k-a2-m1-cB_3u1k-a2-m1-cC MASAVAVDLGNRKLEISSGKLARFADGSAVVQSGDTAVMVTAVSKTKPSPSQFMPLVVDYRQKAAAAGRIPTNYLTSDKEILTSRIIDRSIRPLFPAGYFYDTQVLCNLLAVDGVNEPDVLAINGASVALSLSDIPWNGPVGAVRIGIIDGEYVVNPTRKEMSSSTLNLVVAGAPKSQIVMLEASAENILQQDFCHAIKVGVKYTQQIIQGIQQLVKETGVTKRTPQKLFTPSPEIVKYTHKLAMERLYAVFTDYEHDKVSRDEAVNKIRLDTEEQLKEKFPEADPYEIIESFNVVAKEVFRSIVLNEYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESGIKSDQVITAINGIKDKNFMLHYEFPPYATNEIGKVTLNRRELGHGALAEKALYPVIPRDFPFTIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTIEDYRLLTDILGIEDYNGDMDFKIAGTNKGITALQADIKLPGIPIKIVMEAIQQASVAKKEILQIMNKTISKPRASRKENGPVVETVQVPLSKRAKFVGPGGYNLKKLQAETGVTISQVDEETFSVFAPTPSAMHEARDFITEIC MASAVAVDLGNRKLEISSGKLARFADGSAVVQSGDTAVMVTAVSKTKPSPSQFMPLVVDYRQKAAAAGRIPTNYLGTSDKEILTSRIIDRSIRPLFPAGYFYDTQVLCNLLAVDGVNEPDVLAINGASVALSLSDIPWNGPVGAVRIGIIDGEYVVNPTRKEMSSSTLNLVVAGAPKSQIVMLEASAENILQQDFCHAIKVGVKYTQQIIQGIQQLVKETGVTKRTPQKLFTPSPEIVKYTHKLAMERLYAVFTDYEHDKVSRDEAVNKIRLDTEEQLKEKFPEADPYEIIESFNVVAKEVFRSIVLNEYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESGIQVITAINGIKDKNFMLHYEFPPYATNEIGKVTGLNRRELGHGALAEKALYPVIPRDFPFTIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTDPGEIEDYRLLTDILGIEDYNGDMDFKIAGTNKGITALQADIKLPGIPIKIVMEAIQQASVAKKEILQIMNKTISKPRASRKENGPVVETVQVPLSKRAKFVGPGGYNLKKLQAETGVTISQVDEETFSVFAPTPSAMHEARDFITEIC 3u1t-a3-m1-cA_3u1t-a3-m2-cB Haloalkane Dehalogenase, DmmA, of marine microbial origin Q6DND9 Q6DND9 2.2 X-RAY DIFFRACTION 47 1.0 32644 (unidentified) 32644 (unidentified) 287 288 3u1t-a3-m2-cA_3u1t-a3-m1-cB SSEFPFAKRTVEVEGATIAYVDEGSGQPVLFLHGNPTSSYLWRNIIPYVVAAGYRAVAPDLIGGDSAKPDIEYRLQDHVAYDGFIDALGLDDVLVIHDWGSVIGRHARLNPDRVAAVAFEALVPPALPPSYEAGPQLGPLFRDLRTADVGEKVLDGNFFVETILPEGVVRSLSEAEAAYRAPFPTRQSRLPTLQWPREVPIGGEPAFAEAEVLKNGEWLASPIPKLLFHAEPGALAPKPVVDYLSENVPNLEVRFVGAGTHFLQEDHPHLIGQGIADWLRRNKPHAS SSSEFPFAKRTVEVEGATIAYVDEGSGQPVLFLHGNPTSSYLWRNIIPYVVAAGYRAVAPDLIGGDSAKPDIEYRLQDHVAYDGFIDALGLDDVLVIHDWGSVIGRHARLNPDRVAAVAFEALVPPALPPSYEAGPQLGPLFRDLRTADVGEKVLDGNFFVETILPEGVVRSLSEAEAAYRAPFPTRQSRLPTLQWPREVPIGGEPAFAEAEVLKNGEWLASPIPKLLFHAEPGALAPKPVVDYLSENVPNLEVRFVGAGTHFLQEDHPHLIGQGIADWLRRNKPHAS 3u1t-a3-m2-cA_3u1t-a3-m2-cB Haloalkane Dehalogenase, DmmA, of marine microbial origin Q6DND9 Q6DND9 2.2 X-RAY DIFFRACTION 34 1.0 32644 (unidentified) 32644 (unidentified) 287 288 3u1t-a3-m1-cA_3u1t-a3-m1-cB SSEFPFAKRTVEVEGATIAYVDEGSGQPVLFLHGNPTSSYLWRNIIPYVVAAGYRAVAPDLIGGDSAKPDIEYRLQDHVAYDGFIDALGLDDVLVIHDWGSVIGRHARLNPDRVAAVAFEALVPPALPPSYEAGPQLGPLFRDLRTADVGEKVLDGNFFVETILPEGVVRSLSEAEAAYRAPFPTRQSRLPTLQWPREVPIGGEPAFAEAEVLKNGEWLASPIPKLLFHAEPGALAPKPVVDYLSENVPNLEVRFVGAGTHFLQEDHPHLIGQGIADWLRRNKPHAS SSSEFPFAKRTVEVEGATIAYVDEGSGQPVLFLHGNPTSSYLWRNIIPYVVAAGYRAVAPDLIGGDSAKPDIEYRLQDHVAYDGFIDALGLDDVLVIHDWGSVIGRHARLNPDRVAAVAFEALVPPALPPSYEAGPQLGPLFRDLRTADVGEKVLDGNFFVETILPEGVVRSLSEAEAAYRAPFPTRQSRLPTLQWPREVPIGGEPAFAEAEVLKNGEWLASPIPKLLFHAEPGALAPKPVVDYLSENVPNLEVRFVGAGTHFLQEDHPHLIGQGIADWLRRNKPHAS 3u1u-a1-m1-cB_3u1u-a1-m1-cA Crystal structure of RNA polymerase-associated protein RTF1 homolog Plus-3 domain Q92541 Q92541 1.8 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 127 SQPVSLPEELNRVRLSRHKLERWCHPFFAKTVTGCFVRIGIGNPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFKWKEAFSAGQLPTLDEINKKELSIKEA PKSQPVSLPEELNRVRLSRHKLERWCHPFFAKTVTGCFVRIGIGNPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFKWKEAFSAGQLPTLDEINKKELSIKEA 3u1u-a2-m1-cB_3u1u-a2-m2-cA Crystal structure of RNA polymerase-associated protein RTF1 homolog Plus-3 domain Q92541 Q92541 1.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 127 SQPVSLPEELNRVRLSRHKLERWCHPFFAKTVTGCFVRIGIGNPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFKWKEAFSAGQLPTLDEINKKELSIKEA PKSQPVSLPEELNRVRLSRHKLERWCHPFFAKTVTGCFVRIGIGNPVYRVAEITGVVETAKVYQLGGTRTNKGLQLRHGNDQRVFRLEFVSNQEFTESEFKWKEAFSAGQLPTLDEINKKELSIKEA 3u1w-a2-m1-cC_3u1w-a2-m2-cC Crystal structure of a Calcium binding protein (BDI_1975) from Parabacteroides distasonis ATCC 8503 at 2.00 A resolution A6LDE6 A6LDE6 2 X-RAY DIFFRACTION 52 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 243 243 3u1w-a1-m1-cA_3u1w-a1-m1-cB HQGIIPLPPVENAFQEKYPDAKNPVFEIEGNYYVVDFNNGGSETTAWFTDQGIWEKIDISFAQLPAAVSTAFKQSFYSNWTVDDTYAINRLNGIVYKIEAEQSNSEVDLYYSQYGNLIKAVDDEINNDAPIVIPKEVSNLEITFANAELLDIQQNSLGYELDIDNQIYKVAQLNKDYRWQSTTWASEQEVPQIVQGFESSAYASDKVQSIYTLLNANGTFYLFKVSHNGQDKTITFDVFGNIV HQGIIPLPPVENAFQEKYPDAKNPVFEIEGNYYVVDFNNGGSETTAWFTDQGIWEKIDISFAQLPAAVSTAFKQSFYSNWTVDDTYAINRLNGIVYKIEAEQSNSEVDLYYSQYGNLIKAVDDEINNDAPIVIPKEVSNLEITFANAELLDIQQNSLGYELDIDNQIYKVAQLNKDYRWQSTTWASEQEVPQIVQGFESSAYASDKVQSIYTLLNANGTFYLFKVSHNGQDKTITFDVFGNIV 3u1x-a1-m1-cA_3u1x-a1-m1-cB Crystal structure of a putative glycosyl hydrolase (BDI_1869) from Parabacteroides distasonis ATCC 8503 at 1.70 A resolution A6LD40 A6LD40 1.7 X-RAY DIFFRACTION 40 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 213 219 KDNVLTEEEKAEGYTLLFNGKDFTGWKFNGGDVKGWQVEDGVIVGYGVSTDIVTVKNYHNFQIKWDWKIGAQGNSGFLYHVQEGPKYKAPFETGPEYQLIDDDNYPWVSETGKEGLEDWQKTGCNYAYVPETKQVNPPGEWNSSVLYKDGYVEHWLNGEKLFSFQEGSEDWKRRYSGKWEAFPDYGISTTGKLCFQDHGSKVYFKNVKIKDLD KDNVLTEEEKAEGYTLLFNGKDFTGWKFNGGDVKGWQVEDGVIVGYGADTTIKVSTDIVTVKNYHNFQIKWDWKIGAQGNSGFLYHVQEGPKYKAPFETGPEYQLIDDDNYPWVSETGKEGLEDWQKTGCNYAYVPETKQVNPPGEWNSSVLYKDGYVEHWLNGEKLFSFQEGSEDWKRRYSGKWEAFPDYGISTTGKLCFQDHGSKVYFKNVKIKDLD 3u1y-a3-m1-cB_3u1y-a3-m2-cA Potent Inhibitors of LpxC for the Treatment of Gram-Negative Infections P47205 P47205 2 X-RAY DIFFRACTION 10 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 299 299 MIKQRTLKNIIRATGVGLHSGEKVYLTLKPAPVDTGIVFSRTDLDPVVEIPARAENVGETTMSTTLVKGDVKVDTVEHLLSAMAGLGIDNAYVELSASEVPIMDGSAGPFVFLIQSAGLQEQEAAKKFIRIKREVSVEEGDKRAVFVPFDGFKVSFEIDFDHPVFRGRTQQASVDFSSTSFVKEVSRARTFGFMRDIEYLRSQNLALGGSVENAIVVDENRVLNEDGLRYEDEFVKHKILDAIGDLYLLGNSLIGEFRGFKSGHALNNQLLRTLIADKDAWEVVTFEDARTAPISYMRP MIKQRTLKNIIRATGVGLHSGEKVYLTLKPAPVDTGIVFSRTDLDPVVEIPARAENVGETTMSTTLVKGDVKVDTVEHLLSAMAGLGIDNAYVELSASEVPIMDGSAGPFVFLIQSAGLQEQEAAKKFIRIKREVSVEEGDKRAVFVPFDGFKVSFEIDFDHPVFRGRTQQASVDFSSTSFVKEVSRARTFGFMRDIEYLRSQNLALGGSVENAIVVDENRVLNEDGLRYEDEFVKHKILDAIGDLYLLGNSLIGEFRGFKSGHALNNQLLRTLIADKDAWEVVTFEDARTAPISYMRP 3u22-a1-m1-cA_3u22-a1-m2-cB Crystal structure of a putative HmuY_like heme binding protein (BVU_2192) from Bacteroides vulgatus ATCC 8482 at 2.12 A resolution A6L2D9 A6L2D9 2.12 X-RAY DIFFRACTION 13 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 173 173 3u22-a1-m1-cB_3u22-a1-m2-cA ELGFIRTDPSTHSGTIYIDATDYRRWTFIDFHTQKVDSVNVTDSEQKEPEEWDIAVHRYDVKTNAGAVLETGFTGFSALRNADAPEGAYVEDVWTTAKIAIDSGDGNIVYESYYNEELSKWLNVDKSNPPTYTLSNKVYVKLKDGTYAAVRLTNYNASGVKGFTIDYIYPFEL ELGFIRTDPSTHSGTIYIDATDYRRWTFIDFHTQKVDSVNVTDSEQKEPEEWDIAVHRYDVKTNAGAVLETGFTGFSALRNADAPEGAYVEDVWTTAKIAIDSGDGNIVYESYYNEELSKWLNVDKSNPPTYTLSNKVYVKLKDGTYAAVRLTNYNASGVKGFTIDYIYPFEL 3u22-a1-m1-cB_3u22-a1-m2-cB Crystal structure of a putative HmuY_like heme binding protein (BVU_2192) from Bacteroides vulgatus ATCC 8482 at 2.12 A resolution A6L2D9 A6L2D9 2.12 X-RAY DIFFRACTION 61 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 173 173 ELGFIRTDPSTHSGTIYIDATDYRRWTFIDFHTQKVDSVNVTDSEQKEPEEWDIAVHRYDVKTNAGAVLETGFTGFSALRNADAPEGAYVEDVWTTAKIAIDSGDGNIVYESYYNEELSKWLNVDKSNPPTYTLSNKVYVKLKDGTYAAVRLTNYNASGVKGFTIDYIYPFEL ELGFIRTDPSTHSGTIYIDATDYRRWTFIDFHTQKVDSVNVTDSEQKEPEEWDIAVHRYDVKTNAGAVLETGFTGFSALRNADAPEGAYVEDVWTTAKIAIDSGDGNIVYESYYNEELSKWLNVDKSNPPTYTLSNKVYVKLKDGTYAAVRLTNYNASGVKGFTIDYIYPFEL 3u22-a1-m2-cA_3u22-a1-m2-cB Crystal structure of a putative HmuY_like heme binding protein (BVU_2192) from Bacteroides vulgatus ATCC 8482 at 2.12 A resolution A6L2D9 A6L2D9 2.12 X-RAY DIFFRACTION 36 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 173 173 3u22-a1-m1-cA_3u22-a1-m1-cB ELGFIRTDPSTHSGTIYIDATDYRRWTFIDFHTQKVDSVNVTDSEQKEPEEWDIAVHRYDVKTNAGAVLETGFTGFSALRNADAPEGAYVEDVWTTAKIAIDSGDGNIVYESYYNEELSKWLNVDKSNPPTYTLSNKVYVKLKDGTYAAVRLTNYNASGVKGFTIDYIYPFEL ELGFIRTDPSTHSGTIYIDATDYRRWTFIDFHTQKVDSVNVTDSEQKEPEEWDIAVHRYDVKTNAGAVLETGFTGFSALRNADAPEGAYVEDVWTTAKIAIDSGDGNIVYESYYNEELSKWLNVDKSNPPTYTLSNKVYVKLKDGTYAAVRLTNYNASGVKGFTIDYIYPFEL 3u27-a2-m1-cD_3u27-a2-m1-cF Crystal structure of ethanolamine utilization protein EutL from Leptotrichia buccalis C-1013-b C7NCS6 C7NCS6 1.852 X-RAY DIFFRACTION 90 1.0 523794 (Leptotrichia buccalis C-1013-b) 523794 (Leptotrichia buccalis C-1013-b) 215 215 3u27-a1-m1-cB_3u27-a1-m1-cC 3u27-a1-m1-cB_3u27-a1-m2-cE 3u27-a1-m1-cC_3u27-a1-m2-cE 3u27-a2-m1-cA_3u27-a2-m1-cD 3u27-a2-m1-cA_3u27-a2-m1-cF AKGDRLKANVLAVRLIPNVDSDAKELGLPNEHRSIGILTADCDDVTYTALDEATKKAVVDVAYGKSFYGGAANANTKLAGEVIGILSGPTPAEVKSGLAAAVDFIENEAAFISANDDDSIAYFAHCISRTGTYLSKTAGIPEGESLAYLIAPPLEAYALDVALKAADVRLVAFYGPPSETNFGGGLLTGSQSACKAACDAFAEAVKFVADNPLNY AKGDRLKANVLAVRLIPNVDSDAKELGLPNEHRSIGILTADCDDVTYTALDEATKKAVVDVAYGKSFYGGAANANTKLAGEVIGILSGPTPAEVKSGLAAAVDFIENEAAFISANDDDSIAYFAHCISRTGTYLSKTAGIPEGESLAYLIAPPLEAYALDVALKAADVRLVAFYGPPSETNFGGGLLTGSQSACKAACDAFAEAVKFVADNPLNY 3u29-a1-m1-cB_3u29-a1-m1-cC Crystal Structure of a KGD Collagen Mimetic Peptide at 2.0 A 2 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 17 3u29-a1-m1-cA_3u29-a1-m1-cB 3u29-a2-m1-cD_3u29-a2-m1-cE 3u29-a2-m1-cE_3u29-a2-m1-cF PGPGPGPKGDGPGPGPG PGPGPGPKGDGPGPGPG 3u29-a2-m1-cD_3u29-a2-m1-cF Crystal Structure of a KGD Collagen Mimetic Peptide at 2.0 A 2 X-RAY DIFFRACTION 37 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 17 3u29-a1-m1-cA_3u29-a1-m1-cC PGPGPGPKGDGPGPGPG PGPGPGPKGDGPGPGPG 3u2a-a1-m1-cA_3u2a-a1-m2-cA Adaptor dependent degradation of a cell-cycle regulator reveals diversity in substrate architectures A0A0H3CDG5 A0A0H3CDG5 1.7 X-RAY DIFFRACTION 104 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 111 111 IWDATATLEALGAADVALWIWEPETDRLRLNGAARALGLGPLAPECSSAAFRALALPQDRAQAEEVLKPREPGSEVVARFRVRGGETLWRGVWLEEGVRAAGVVAPETKFS IWDATATLEALGAADVALWIWEPETDRLRLNGAARALGLGPLAPECSSAAFRALALPQDRAQAEEVLKPREPGSEVVARFRVRGGETLWRGVWLEEGVRAAGVVAPETKFS 3u2e-a1-m1-cB_3u2e-a1-m1-cA EAL domain of phosphodiesterase PdeA in complex with 5'-pGpG and Mg++ Q9A310 Q9A310 2.32 X-RAY DIFFRACTION 64 0.996 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 246 251 LSRLALEADLRGAIGRGEITPYFQPIVRLSTGALSGFEALARWIHPRRGLPPDEFLPLIEEGLSELGAHHAAAQQLSTWRAAHPAGNLTVSVNLSTGEIDRPGLVADVAETLRVNRLPRGALKLEVTESDIRDPERAAVILKTLRDAGAGLALDDFGTGFSSLSYLTRLPFDTLKIDRYFVRTGNNAGSAKIVRSVVKLGQDLDLEVVAEGVENAEAHALQSLGCDYGQGFGYAPALSPQEAEVYL SRLALEADLRGAIGRGEITPYFQPIVRLSTGALSGFEALARWIHPRRGLPPDEFLPLIEEGLSELGAHHAAAQQLSTWRAAHPAGNLTVSVNLSTGEIDRPGLVADVAETLRVNRLPRGALKLEVTESDIRDPERAAVILKTLRDAGAGLALDDFGTGFSSLSYLTRLPFDTLKIDRYFVRTGNNAGSAKIVRSVVKLGQDLDLEVVAEGVENAEAHALQSLGCDYGQGFGYAPALSPQEAEVYLNEAYVD 3u2g-a1-m1-cA_3u2g-a1-m2-cA Crystal structure of the C-terminal DUF1608 domain of the Methanosarcina acetivorans S-layer (MA0829) protein Q8TSG7 Q8TSG7 2.3 X-RAY DIFFRACTION 47 1.0 188937 (Methanosarcina acetivorans C2A) 188937 (Methanosarcina acetivorans C2A) 269 269 3u2h-a1-m1-cA_3u2h-a1-m2-cA TYEIRGQVASGFGDQSWDASSFAGFYYDIDDNVSTETLTVSDLDGNVIPEGGLVYTTTIADVDFEYYNPDAGWDQYPVGFFAEEYIPINPDKADKIAKLVLDSDDKYTIRTGELDLGEGYAIEAKQVDVDGEKVWLEFTKDGEFVDDEIISVSTADDEANTWDVELDDIEDEDDVVVLKVHVNQVFQGAVDSIAQIEGLWLIDYANATIESDDEFGNLDDVSIDGDTLKISNEDTFTLTRDSEEEIGEGYFIADTSSSDLRYYPYVEKT TYEIRGQVASGFGDQSWDASSFAGFYYDIDDNVSTETLTVSDLDGNVIPEGGLVYTTTIADVDFEYYNPDAGWDQYPVGFFAEEYIPINPDKADKIAKLVLDSDDKYTIRTGELDLGEGYAIEAKQVDVDGEKVWLEFTKDGEFVDDEIISVSTADDEANTWDVELDDIEDEDDVVVLKVHVNQVFQGAVDSIAQIEGLWLIDYANATIESDDEFGNLDDVSIDGDTLKISNEDTFTLTRDSEEEIGEGYFIADTSSSDLRYYPYVEKT 3u2r-a2-m1-cA_3u2r-a2-m2-cA Crystal structure of MarR transcription factor from Planctomyces limnophilus D5SNV8 D5SNV8 2.2 X-RAY DIFFRACTION 109 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 132 132 3u2r-a1-m1-cA_3u2r-a1-m2-cA 3u2r-a1-m3-cA_3u2r-a1-m4-cA RFDSLTQEAYLQLWRTYDRKAIEEEIFSQFELSAQQYNTLRLLRSVHPEGATLQIADRLAPDITRLIDRLDDRGLVLRTRKPENRRVVEVALTDAGLKLLKDLEEPVRQCHERQLGHLAADELHELIRLELA RFDSLTQEAYLQLWRTYDRKAIEEEIFSQFELSAQQYNTLRLLRSVHPEGATLQIADRLAPDITRLIDRLDDRGLVLRTRKPENRRVVEVALTDAGLKLLKDLEEPVRQCHERQLGHLAADELHELIRLELA 3u2r-a3-m1-cA_3u2r-a3-m4-cA Crystal structure of MarR transcription factor from Planctomyces limnophilus D5SNV8 D5SNV8 2.2 X-RAY DIFFRACTION 25 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 132 132 3u2r-a1-m1-cA_3u2r-a1-m4-cA 3u2r-a1-m2-cA_3u2r-a1-m3-cA RFDSLTQEAYLQLWRTYDRKAIEEEIFSQFELSAQQYNTLRLLRSVHPEGATLQIADRLAPDITRLIDRLDDRGLVLRTRKPENRRVVEVALTDAGLKLLKDLEEPVRQCHERQLGHLAADELHELIRLELA RFDSLTQEAYLQLWRTYDRKAIEEEIFSQFELSAQQYNTLRLLRSVHPEGATLQIADRLAPDITRLIDRLDDRGLVLRTRKPENRRVVEVALTDAGLKLLKDLEEPVRQCHERQLGHLAADELHELIRLELA 3u35-a1-m1-cB_3u35-a1-m1-cD Crystal structure of the general stress FMN/FAD binding protein from the phytopathogen Xanthomonas citri Q8PK08 Q8PK08 2.5 X-RAY DIFFRACTION 23 1.0 141 141 3u34-a1-m1-cB_3u34-a1-m1-cD 3u35-a1-m1-cA_3u35-a1-m1-cC TKELQEKFWKALKSDRTVMLGLDGVEDGHARPMTAQIEGDSGGPIWFFTSKDNALIAMLGQGRRVIGAFSSKGHDLFASISGSLREDTDPAMVDRLWNPYVAAWYEGGKTDPNLALLRLDADHAQIWLNESSLLAGIKVLL TKELQEKFWKALKSDRTVMLGLDGVEDGHARPMTAQIEGDSGGPIWFFTSKDNALIAMLGQGRRVIGAFSSKGHDLFASISGSLREDTDPAMVDRLWNPYVAAWYEGGKTDPNLALLRLDADHAQIWLNESSLLAGIKVLL 3u35-a3-m1-cB_3u35-a3-m1-cA Crystal structure of the general stress FMN/FAD binding protein from the phytopathogen Xanthomonas citri Q8PK08 Q8PK08 2.5 X-RAY DIFFRACTION 69 1.0 141 142 3dmb-a1-m1-cB_3dmb-a1-m1-cA 3dmb-a1-m1-cC_3dmb-a1-m2-cC 3dmb-a1-m2-cB_3dmb-a1-m2-cA 3u34-a1-m1-cB_3u34-a1-m1-cA 3u34-a1-m1-cD_3u34-a1-m1-cC 3u34-a3-m1-cB_3u34-a3-m1-cA 3u34-a5-m1-cD_3u34-a5-m1-cC 3u35-a1-m1-cB_3u35-a1-m1-cA 3u35-a1-m1-cD_3u35-a1-m1-cC 3u35-a5-m1-cD_3u35-a5-m1-cC TKELQEKFWKALKSDRTVMLGLDGVEDGHARPMTAQIEGDSGGPIWFFTSKDNALIAMLGQGRRVIGAFSSKGHDLFASISGSLREDTDPAMVDRLWNPYVAAWYEGGKTDPNLALLRLDADHAQIWLNESSLLAGIKVLL TKELQEKFWKALKSDRTVMLGLDGVEDGHARPMTAQIEGDSGGPIWFFTSKDNALIAMLGQGRRVIGAFSSKGHDLFASISGSLREDTDPAMVDRLWNPYVAAWYEGGKTDPNLALLRLDADHAQIWLNESSLLAGIKVLLG 3u35-a4-m1-cB_3u35-a4-m1-cC Crystal structure of the general stress FMN/FAD binding protein from the phytopathogen Xanthomonas citri Q8PK08 Q8PK08 2.5 X-RAY DIFFRACTION 99 1.0 141 142 3u34-a1-m1-cB_3u34-a1-m1-cC 3u34-a1-m1-cD_3u34-a1-m1-cA 3u34-a2-m1-cD_3u34-a2-m1-cA 3u34-a4-m1-cB_3u34-a4-m1-cC 3u35-a1-m1-cB_3u35-a1-m1-cC 3u35-a1-m1-cD_3u35-a1-m1-cA 3u35-a2-m1-cD_3u35-a2-m1-cA TKELQEKFWKALKSDRTVMLGLDGVEDGHARPMTAQIEGDSGGPIWFFTSKDNALIAMLGQGRRVIGAFSSKGHDLFASISGSLREDTDPAMVDRLWNPYVAAWYEGGKTDPNLALLRLDADHAQIWLNESSLLAGIKVLL DTKELQEKFWKALKSDRTVMLGLDGVEDGHARPMTAQIEGDSGGPIWFFTSKDNALIAMLGQGRRVIGAFSSKGHDLFASISGSLREDTDPAMVDRLWNPYVAAWYEGGKTDPNLALLRLDADHAQIWLNESSLLAGIKVLL 3u39-a1-m1-cB_3u39-a1-m1-cC Crystal Structure of the apo Bacillus Stearothermophilus phosphofructokinase P00512 P00512 2.7921 X-RAY DIFFRACTION 97 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 318 319 1mto-a1-m1-cA_1mto-a1-m1-cB 1mto-a1-m1-cC_1mto-a1-m1-cD 1mto-a2-m1-cE_1mto-a2-m1-cF 1mto-a2-m1-cG_1mto-a2-m1-cH 3pfk-a1-m1-cA_3pfk-a1-m2-cA 3pfk-a1-m3-cA_3pfk-a1-m4-cA 3u39-a1-m1-cA_3u39-a1-m1-cD 4i36-a1-m1-cA_4i36-a1-m1-cD 4i36-a1-m1-cB_4i36-a1-m1-cC 4i4i-a1-m1-cA_4i4i-a1-m1-cD 4i4i-a1-m1-cB_4i4i-a1-m1-cC 4i7e-a1-m1-cA_4i7e-a1-m1-cD 4i7e-a1-m1-cB_4i7e-a1-m1-cC 4pfk-a1-m1-cA_4pfk-a1-m2-cA 4pfk-a1-m3-cA_4pfk-a1-m4-cA 6pfk-a1-m1-cA_6pfk-a1-m1-cD 6pfk-a1-m1-cB_6pfk-a1-m1-cC MKRIGVLTSGGDSPGMNAAIRSVVRKAIYHGVEVYGVYHGYAGLIAGNIKKLEVGDVGDIIHRGGTILYTARCPEFKTEEGQKKGIEQLKKHGIEGLVVIGGDGSYQGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWSGLAGGAETILIPEADYDMNDVIARLKRGHERGKKHSIIIVAEGVGSGVDFGRQIQEATGFETRVTVLGHVQRGGSPTAFDRVLASRLGARAVELLLEGKGGRCVGIQNNQLVDHDIAEALANKHTIDQRMYALSKELS MKRIGVLTSGGDSPGMNAAIRSVVRKAIYHGVEVYGVYHGYAGLIAGNIKKLEVGDVGDIIHRGGTILYTARCPEFKTEEGQKKGIEQLKKHGIEGLVVIGGDGSYQGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWSGLAGGAETILIPEADYDMNDVIARLKRGHERGKKHSIIIVAEGVGSGVDFGRQIQEATGFETRVTVLGHVQRGGSPTAFDRVLASRLGARAVELLLEGKGGRCVGIQNNQLVDHDIAEALANKHTIDQRMYALSKELSI 3u3n-a2-m1-cC_3u3n-a2-m2-cC Crystal structure of tablysin-15 F8QQG5 F8QQG5 1.651 X-RAY DIFFRACTION 53 1.0 485572 (Tabanus yao) 485572 (Tabanus yao) 228 228 VNYCRLPCRGDNYHVGCGEPAYAQECGQSPRTRELLKEHRNEILSKINDVRDHVAKGSWGLPVAARMKVVVWDAELAGLAKRHTKGCVGETHACRNTERFWLPGQLNFKYSGDKLPRIKELIDDAVKKGHLQKHNITREIIENYREGDVKELALAISDRVTAVGCGLTTWEDGAKARALLTCNFSSQNTRGRPVYKIGNSPGEKCIEKDETYKNLCSATEPIDPNKSN VNYCRLPCRGDNYHVGCGEPAYAQECGQSPRTRELLKEHRNEILSKINDVRDHVAKGSWGLPVAARMKVVVWDAELAGLAKRHTKGCVGETHACRNTERFWLPGQLNFKYSGDKLPRIKELIDDAVKKGHLQKHNITREIIENYREGDVKELALAISDRVTAVGCGLTTWEDGAKARALLTCNFSSQNTRGRPVYKIGNSPGEKCIEKDETYKNLCSATEPIDPNKSN 3u3p-a1-m1-cA_3u3p-a1-m2-cA The S-SAD phased crystal structure of the ecto-domain of Death Receptor 6 (DR6) O75509 O75509 2.09 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 3qo4-a2-m1-cA_3qo4-a2-m2-cA 3u3q-a1-m1-cA_3u3q-a1-m2-cA 3u3s-a1-m1-cA_3u3s-a1-m2-cA 3u3t-a1-m1-cA_3u3t-a1-m2-cA 3u3v-a1-m1-cA_3u3v-a1-m2-cA IGTYRHVDRATGQVLTCDKCPAGTYVSEHCTNTSLRVCSSCPVGTFTRHENGIEKCHDCSQPCPWPMIEKLPCAALTDRECTCPPGMFQSNATCAPHTVCPVGWGVRKKGTETEDVRCKQCARGTFSDVPSSVMKCKAYTDCLSQNLVVIKPGTKETDNVCGTL IGTYRHVDRATGQVLTCDKCPAGTYVSEHCTNTSLRVCSSCPVGTFTRHENGIEKCHDCSQPCPWPMIEKLPCAALTDRECTCPPGMFQSNATCAPHTVCPVGWGVRKKGTETEDVRCKQCARGTFSDVPSSVMKCKAYTDCLSQNLVVIKPGTKETDNVCGTL 3u3w-a1-m1-cA_3u3w-a1-m1-cB Crystal Structure of Bacillus thuringiensis PlcR in complex with the peptide PapR7 and DNA Q45782 Q45782 2.4 X-RAY DIFFRACTION 86 1.0 527021 (Bacillus thuringiensis Bt407) 527021 (Bacillus thuringiensis Bt407) 280 280 AEKLGSEIKKIRVLRGLTQKQLSENICHQSEVSRIESGAVYPSMDILQGIAAKLQIPIIHFYEVLIYSDIERKKQFKDQVIMLCKQKRYKEIYNKVWNELKKEEYHPEFQQFLQWQYYVAAYVLKKVDYEYCILELKKLLNQQLTGIDVYQNLYIENAIANIYAENGYLKKGIDLFEQILKQLEALHDNEEFDVKVRYNHAKALYLDSRYEESLYQVNKAIEISCRINSMALIGQLYYQRGECLRKLEYEEAEIEDAYKKASFFFDILEMHAYKEALVNK AEKLGSEIKKIRVLRGLTQKQLSENICHQSEVSRIESGAVYPSMDILQGIAAKLQIPIIHFYEVLIYSDIERKKQFKDQVIMLCKQKRYKEIYNKVWNELKKEEYHPEFQQFLQWQYYVAAYVLKKVDYEYCILELKKLLNQQLTGIDVYQNLYIENAIANIYAENGYLKKGIDLFEQILKQLEALHDNEEFDVKVRYNHAKALYLDSRYEESLYQVNKAIEISCRINSMALIGQLYYQRGECLRKLEYEEAEIEDAYKKASFFFDILEMHAYKEALVNK 3u3x-a3-m1-cM_3u3x-a3-m2-cM Crystal structure of a putative oxidoreductase from Sinorhizobium meliloti 1021 Q92T66 Q92T66 2.79 X-RAY DIFFRACTION 153 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 324 324 3u3x-a1-m1-cA_3u3x-a1-m1-cD 3u3x-a2-m1-cG_3u3x-a2-m1-cJ ELRFAAVGLNHNHIYGQVNCLLRAGARLAGFHEKDDALAAEFSAVYADARRIATAEEILEDENIGLIVSAAVSSERAELAIRAQHGKDVLVDKPGTSFDQLAKLRRVQAETGRIFSILYSEHFESPATVKAGELVAAGAIGEVVHIVGLGPHRLRRETRPDWFFRRADYGGILTDIASHQCEQFLFFTGVNDATVLSASVGNQSVPDAPELQDTGSIHLSTGRTTGIHVNWLTPEGPTWGDGRLFIVGTSGTIEVRKTVDLAGREGGNHLFLADRNGVEHIDCSRVDLPFGRQFLADIRDRTETAPQERCFKAELALQAQAIAE ELRFAAVGLNHNHIYGQVNCLLRAGARLAGFHEKDDALAAEFSAVYADARRIATAEEILEDENIGLIVSAAVSSERAELAIRAQHGKDVLVDKPGTSFDQLAKLRRVQAETGRIFSILYSEHFESPATVKAGELVAAGAIGEVVHIVGLGPHRLRRETRPDWFFRRADYGGILTDIASHQCEQFLFFTGVNDATVLSASVGNQSVPDAPELQDTGSIHLSTGRTTGIHVNWLTPEGPTWGDGRLFIVGTSGTIEVRKTVDLAGREGGNHLFLADRNGVEHIDCSRVDLPFGRQFLADIRDRTETAPQERCFKAELALQAQAIAE 3u40-a1-m1-cA_3u40-a1-m1-cB Crystal structure of a purine nucleoside phosphorylase from Entamoeba histolytica bound to adenosine C4LXG4 C4LXG4 2.05 X-RAY DIFFRACTION 107 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 238 238 3tl6-a1-m1-cB_3tl6-a1-m1-cA 3tl6-a1-m1-cC_3tl6-a1-m1-cD 3tl6-a1-m1-cF_3tl6-a1-m1-cE 3u40-a1-m1-cC_3u40-a1-m1-cD 3u40-a1-m1-cF_3u40-a1-m1-cE MAEHCPTPHNGAKYGEIAETVLMAGDPLRVKLLADTYLTDVVQYNSVRGAVGYTGYYKGVKLSVQAHGMGMPSIGIYAYELFNFYGVKRIIRIGSAGAFDESLKLGDIVIGMGACYDSNFERQYDIPGKYSCIADFQLCREAVDAAEKLGYRYKVGNIYSANYFYDDGDHSGAWKKMGVLAVEMEAAALYMIAARARKQALCMLTISDLCYGSGEKMTAEERRTKFTQMMEVALSLAK MAEHCPTPHNGAKYGEIAETVLMAGDPLRVKLLADTYLTDVVQYNSVRGAVGYTGYYKGVKLSVQAHGMGMPSIGIYAYELFNFYGVKRIIRIGSAGAFDESLKLGDIVIGMGACYDSNFERQYDIPGKYSCIADFQLCREAVDAAEKLGYRYKVGNIYSANYFYDDGDHSGAWKKMGVLAVEMEAAALYMIAARARKQALCMLTISDLCYGSGEKMTAEERRTKFTQMMEVALSLAK 3u40-a1-m1-cF_3u40-a1-m1-cA Crystal structure of a purine nucleoside phosphorylase from Entamoeba histolytica bound to adenosine C4LXG4 C4LXG4 2.05 X-RAY DIFFRACTION 106 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 227 238 3tl6-a1-m1-cB_3tl6-a1-m1-cC 3tl6-a1-m1-cE_3tl6-a1-m1-cD 3tl6-a1-m1-cF_3tl6-a1-m1-cA 3u40-a1-m1-cC_3u40-a1-m1-cB 3u40-a1-m1-cE_3u40-a1-m1-cD MAEHCPTPHNGAKYGEIAETVLMAGDPLRVKLLADTYLTDVVQYNSVRGAVGYTGYYKGVKLSVQAHGMGMPSIGIYAYELFNFYGVKRIIRIGSAGAFDESLKLGDIVIGMGACYDSNFERQYDIPGKYSCIADFQLCREAVDAAEKLGYRYKVGNIYSANYFYDDGDHSGAWKKMGVLAVEMEAAALYMIAARARKQALCMLTISDLCRRTKFTQMMEVALSLAK MAEHCPTPHNGAKYGEIAETVLMAGDPLRVKLLADTYLTDVVQYNSVRGAVGYTGYYKGVKLSVQAHGMGMPSIGIYAYELFNFYGVKRIIRIGSAGAFDESLKLGDIVIGMGACYDSNFERQYDIPGKYSCIADFQLCREAVDAAEKLGYRYKVGNIYSANYFYDDGDHSGAWKKMGVLAVEMEAAALYMIAARARKQALCMLTISDLCYGSGEKMTAEERRTKFTQMMEVALSLAK 3u49-a1-m1-cA_3u49-a1-m1-cC Crystal structure of YwfH, NADPH dependent reductase involved in Bacilysin biosynthesis P39644 P39644 1.75 X-RAY DIFFRACTION 85 0.992 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 249 252 3u49-a2-m1-cD_3u49-a2-m1-cB 3u4c-a1-m1-cA_3u4c-a1-m2-cA 3u4d-a1-m1-cA_3u4d-a1-m2-cA SKRTAFVMGASQGIGKAIALKLADQHFSLVINSRNLDNIESVKEDILAKHPEASVIVLAGDMSDQHTRAGIFQKIESQCGRLDVLINNIPGGAPDTFDNCNIEDMTATFTQKTVAYIDAIKRASSLMKQNEFGRIINIVGNLWKEPGANMFTNSMMNAALINASKNISIQLAPHNITVNCLNPGFIATDRYHQFVENVMKKNSISGIPMKRVGSAEETAALAAFLASEEASYITGQQISADGGSMKSIL SKRTAFVMGASQGIGKAIALKLADQHFSLVINSRNLDNIESVKEDILAKHPEASVIVLAGDMSDQHTRAGIFQKIESQCGRLDVLINNIPGGAPDTFDNCNIEDMTATFTQKTVAYIDAIKRASSLMKQNEFGRIINIVGNLWKEPGANMFTNSMMNAALINASKNISIQLAPHNITVNCLNPGFIATDRYHQFVENVMKKNSISKQKASGIPMKRVGSAEETAALAAFLASEEASYITGQQISADGGSMKS 3u4a-a1-m1-cA_3u4a-a1-m1-cB From soil to structure: a novel dimeric family 3-beta-glucosidase isolated from compost using metagenomic analysis 2.196 X-RAY DIFFRACTION 224 0.999 702656 (compost metagenome) 702656 (compost metagenome) 739 742 3u48-a1-m1-cA_3u48-a1-m1-cB MKMNQFINALMAKMTLDEKIGQLNLPGAGDITTGQASSSGIAQKIKEGKVGGLFNIKSVTKIKEVQRIAVEESRLKIPLLFGMDVIHGYETAFPIPLGLSCTWDMELIEKSARIAAIEASADGICWTFSPMVDISRDPRWGRVSEGSGEDPYLGAQIAKAMVKGYQGKDFSDNTSIMACVKHFALYGAGEAGRDYNTVDMSRVRMYNEYFPPYKAAVDAGVGSVMTSFNEIDGIPATGNKWLMTDVLRKRIGAFKGFVVTNYTAINEMIDHGMGDLQTVSALALRAGVDMDMVGEGFLTTLKKSLQEGKITQAQIDAACKRILEAKYKLGLFSDPYKYCNEERARTQIFTPEHRKIAREIAAQSFVLLKNDNNVLPLKKSGTIALVGPLADNRVNMPGTWSVAAKHAESVSLLEGLKKAAGNDARILYAHGSNLDEDKSLIERATMFGKTLKYDPRPKDVVIKEAVDIANQADVIVAALGESAEMSGEASSRSNIEIPALQRELLQALLKTGKPVVLVLFTGRPLALTWEHENVPAILNVWFAGTEAGDAISDALFGVVNPSGKLSATFPRNVGQVPIYYNHKNTGRPLPEGQWFQKFRSNYLDVPNDPLYPFGYGLSFTKFTYGDLKLSSTNLKGNQTLTASIELTNSGDYDGAEVVQLYIRDLVGSTTRPVKELKGFQKVFLKKGETKTITFKITPEDLKFYNYDLKYDWEPGEFVIMVGGNSRDLKSQKINWLKDP KMNQFINALMAKMTLDEKIGQLNLPGAGDITTGQASSSGIAQKIKEGKVGGLFNIKSVTKIKEVQRIAVEESRLKIPLLFGMDVIHGYETAFPIPLGLSCTWDMELIEKSARIAAIEASADGICWTFSPMVDISRDPRWGRVSEGSGEDPYLGAQIAKAMVKGYQGKDFSDNTSIMACVKHFALYGAGEAGRDYNTVDMSRVRMYNEYFPPYKAAVDAGVGSVMTSFNEIDGIPATGNKWLMTDVLRKRIGAFKGFVVTNYTAINEMIDHGMGDLQTVSALALRAGVDMDMVGEGFLTTLKKSLQEGKITQAQIDAACKRILEAKYKLGLFSDPYKYCNEERARTQIFTPEHRKIAREIAAQSFVLLKNDNNVLPLKKSGTIALVGPLADNRVNMPGTWSVAAKHAESVSLLEGLKKAAGNDARILYAHGSNLDEDKSLIERATMFGKTLKYDPRPKDVVIKEAVDIANQADVIVAALGESAEMSGEASSRSNIEIPALQRELLQALLKTGKPVVLVLFTGRPLALTWEHENVPAILNVWFAGTEAGDAISDALFGVVNPSGKLSATFPRNVGQVPIYYNHKNTGRPLPEGQWFQKFRSNYLDVPNDPLYPFGYGLSFTKFTYGDLKLSSTNLKGNQTLTASIELTNSGDYDGAEVVQLYIRDLVGSTTRPVKELKGFQKVFLKKGETKTITFKITPEDLKFYNYDLKYDWEPGEFVIMVGGNSRDLKSQKINWLKDPAFLY 3u4f-a2-m1-cC_3u4f-a2-m1-cD Crystal structure of a mandelate racemase (muconate lactonizing enzyme family protein) from Roseovarius nubinhibens A3SMJ4 A3SMJ4 1.9 X-RAY DIFFRACTION 67 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 358 360 3u4f-a1-m1-cA_3u4f-a1-m1-cB FQSKLTAIETFTNEFVGFVRVTSEDGARGWGQVSTYHSDITCEVLHRQVAPWLGQDCSDLDDLLDLVTEREHKFPGSYLRRAAGVDTAIWDLRGKQAGKPVAELLGGSAGTIRAYASSKRDITPHDEAERKRLRDAHGFDAFKVRAGAEVGRGRDEWPGRTEEIVPTRREGDSAALLIDANSCYAPAQAIELGKLLQDHGFSHFEEPCPYWELEQTKEVSEALDIDVTGGEQDCDLTTWRRIDRAVDVVQPDILYLGGICRTLRVARAEAAALPVTPHCANLSLVTLFTHLLRAIPNAGKYLEFSIEGEDYYPWQDGLFVEDPYRIEDGHARVTEAPGWGVEICPEWLARSAYKVSRA LYFQSKLTAIETFTNEFVGFVRVTSEDGARGWGQVSTYHSDITCEVLHRQVAPWLGQDCSDLDDLLDLVTEREHKFPGSYLRRAAGVDTAIWDLRGKQAGKPVAELLGGSAGTIRAYASSKRDITPHDEAERKRLRDAHGFDAFKVRAGAEVGRGRDEWPGRTEEIVPTRREGDSAALLIDANSCYAPAQAIELGKLLQDHGFSHFEEPCPYWELEQTKEVSEALDIDVTGGEQDCDLTTWRRIDRAVDVVQPDILYLGGICRTLRVARAEAAALPVTPHCANLSLVTLFTHLLRAIPNAGKYLEFSIEGEDYYPWQDGLFVEDPYRIEDGHARVTEAPGWGVEICPEWLARSAYKVSRA 3u4g-a1-m1-cA_3u4g-a1-m2-cA The Structure of CobT from Pyrococcus horikoshii O57746 O57746 1.9 X-RAY DIFFRACTION 70 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 321 321 KKVKSLFLLVLGNTEISTIPGISVAGATPELTKITPVADAEYLFYEKPLTIDTIPVTPEGHPTPAIITKAARELSNFPILVVRGGTYLAPLIPHVHISNVVGRDFRREPALPEVEVIIERAKLLGKELEKIANEIVIGESTPGGTTTAQAILWALGYENPQELKEKVIKEGFKRVGIEKGGLKDKPLEALKEFGDPIATVLGLSLGFGGDVVLAGGTQLAVSALLKSLGEDLSRFIATTRWVVEDPSATFIETAREIGIISYVAELDFSKSKFKGLRDYERGYVKEGVGAGGATWLAVKAGYSPEDVSKKVEELYERLGLR KKVKSLFLLVLGNTEISTIPGISVAGATPELTKITPVADAEYLFYEKPLTIDTIPVTPEGHPTPAIITKAARELSNFPILVVRGGTYLAPLIPHVHISNVVGRDFRREPALPEVEVIIERAKLLGKELEKIANEIVIGESTPGGTTTAQAILWALGYENPQELKEKVIKEGFKRVGIEKGGLKDKPLEALKEFGDPIATVLGLSLGFGGDVVLAGGTQLAVSALLKSLGEDLSRFIATTRWVVEDPSATFIETAREIGIISYVAELDFSKSKFKGLRDYERGYVKEGVGAGGATWLAVKAGYSPEDVSKKVEELYERLGLR 3u4j-a1-m1-cB_3u4j-a1-m1-cD Crystal structure of NAD-dependent aldehyde dehydrogenase from Sinorhizobium meliloti Q930S8 Q930S8 2 X-RAY DIFFRACTION 53 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 495 496 3u4j-a1-m1-cA_3u4j-a1-m1-cC LSNFIAPDSNDPRLRIKSRYQLVDGKSVDAASGSTIDRVSPGHAGEVVGTWPEASADDVRKAVAAARKAFDAGPWPRSGAERSRLFKVADLILARQEELALIESLEVGKPIAQARGEIGFCADLWSYAAGQARALEGQTHNNIGDDRLGLVLREPVGVVGIITPWNFPFIIASERVPWAIGSGCTVVLKPSEFTSGTSIRLAELAREAGIPDGVFNVVTGYGDPAGQVLAEDPNVDVAFTGSVRVGTKLGEIAARTVKRVGLELGGKGPQIVFADADLDAAADGIAYGVYHNAGQCCISGSRLLVQEGIRDALERLLDISRKVAFGDPLNERTKIGAISEAHAEKVHSYVTAGITSGAELLLGGERIGEAGLYYAPTVFAGVTPDSIAREEIFGPVLSTLTFKTADEAVALANATEFGLSASVWSTNLETALQTIRRIRAGRCWINSVIDGTPELPIGGYKKSGLGRELGRYGFDEYSQFKGVHVTLGRPAPWFT LSNFIAPDSNDPRLRIKSRYQLVDGKSVDAASGSTIDRVSPGHAGEVVGTWPEASADDVRKAVAAARKAFDAGPWPRSGAERSRLFKVADLILARQEELALIESLEVGKPIAQARGEIGFCADLWSYAAGQARALEGQTHNNIGDDRLGLVLREPVGVVGIITPWNFPFIIASERVPWAIGSGCTVVLKPSEFTSGTSIRLAELAREAGIPDGVFNVVTGYGDPAGQVLAEDPNVDVAFTGSVRVGTKLGEIAARTVKRVGLELGGKGPQIVFADADLDAAADGIAYGVYHNAGQCCISGSRLLVQEGIRDALERLLDISRKVAFGDPLNERTKIGAISEAHAEKVHSYVTAGITSGAELLLGGERIGREAGLYYAPTVFAGVTPDSIAREEIFGPVLSTLTFKTADEAVALANATEFGLSASVWSTNLETALQTIRRIRAGRCWINSVIDGTPELPIGGYKKSGLGRELGRYGFDEYSQFKGVHVTLGRPAPWFT 3u4j-a1-m1-cD_3u4j-a1-m1-cA Crystal structure of NAD-dependent aldehyde dehydrogenase from Sinorhizobium meliloti Q930S8 Q930S8 2 X-RAY DIFFRACTION 79 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 496 497 3u4j-a1-m1-cB_3u4j-a1-m1-cC LSNFIAPDSNDPRLRIKSRYQLVDGKSVDAASGSTIDRVSPGHAGEVVGTWPEASADDVRKAVAAARKAFDAGPWPRSGAERSRLFKVADLILARQEELALIESLEVGKPIAQARGEIGFCADLWSYAAGQARALEGQTHNNIGDDRLGLVLREPVGVVGIITPWNFPFIIASERVPWAIGSGCTVVLKPSEFTSGTSIRLAELAREAGIPDGVFNVVTGYGDPAGQVLAEDPNVDVAFTGSVRVGTKLGEIAARTVKRVGLELGGKGPQIVFADADLDAAADGIAYGVYHNAGQCCISGSRLLVQEGIRDALERLLDISRKVAFGDPLNERTKIGAISEAHAEKVHSYVTAGITSGAELLLGGERIGREAGLYYAPTVFAGVTPDSIAREEIFGPVLSTLTFKTADEAVALANATEFGLSASVWSTNLETALQTIRRIRAGRCWINSVIDGTPELPIGGYKKSGLGRELGRYGFDEYSQFKGVHVTLGRPAPWFT VLSNFIAPDSNDPRLRIKSRYQLVDGKSVDAASGSTIDRVSPGHAGEVVGTWPEASADDVRKAVAAARKAFDAGPWPRSGAERSRLFKVADLILARQEELALIESLEVGKPIAQARGEIGFCADLWSYAAGQARALEGQTHNNIGDDRLGLVLREPVGVVGIITPWNFPFIIASERVPWAIGSGCTVVLKPSEFTSGTSIRLAELAREAGIPDGVFNVVTGYGDPAGQVLAEDPNVDVAFTGSVRVGTKLGEIAARTVKRVGLELGGKGPQIVFADADLDAAADGIAYGVYHNAGQCCISGSRLLVQEGIRDALERLLDISRKVAFGDPLNERTKIGAISEAHAEKVHSYVTAGITSGAELLLGGERIGREAGLYYAPTVFAGVTPDSIAREEIFGPVLSTLTFKTADEAVALANATEFGLSASVWSTNLETALQTIRRIRAGRCWINSVIDGTPELPIGGYKKSGLGRELGRYGFDEYSQFKGVHVTLGRPAPWFT 3u4j-a1-m1-cD_3u4j-a1-m1-cC Crystal structure of NAD-dependent aldehyde dehydrogenase from Sinorhizobium meliloti Q930S8 Q930S8 2 X-RAY DIFFRACTION 208 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 496 497 3u4j-a1-m1-cB_3u4j-a1-m1-cA LSNFIAPDSNDPRLRIKSRYQLVDGKSVDAASGSTIDRVSPGHAGEVVGTWPEASADDVRKAVAAARKAFDAGPWPRSGAERSRLFKVADLILARQEELALIESLEVGKPIAQARGEIGFCADLWSYAAGQARALEGQTHNNIGDDRLGLVLREPVGVVGIITPWNFPFIIASERVPWAIGSGCTVVLKPSEFTSGTSIRLAELAREAGIPDGVFNVVTGYGDPAGQVLAEDPNVDVAFTGSVRVGTKLGEIAARTVKRVGLELGGKGPQIVFADADLDAAADGIAYGVYHNAGQCCISGSRLLVQEGIRDALERLLDISRKVAFGDPLNERTKIGAISEAHAEKVHSYVTAGITSGAELLLGGERIGREAGLYYAPTVFAGVTPDSIAREEIFGPVLSTLTFKTADEAVALANATEFGLSASVWSTNLETALQTIRRIRAGRCWINSVIDGTPELPIGGYKKSGLGRELGRYGFDEYSQFKGVHVTLGRPAPWFT VLSNFIAPDSNDPRLRIKSRYQLVDGKSVDAASGSTIDRVSPGHAGEVVGTWPEASADDVRKAVAAARKAFDAGPWPRSGAERSRLFKVADLILARQEELALIESLEVGKPIAQARGEIGFCADLWSYAAGQARALEGQTHNNIGDDRLGLVLREPVGVVGIITPWNFPFIIASERVPWAIGSGCTVVLKPSEFTSGTSIRLAELAREAGIPDGVFNVVTGYGDPAGQVLAEDPNVDVAFTGSVRVGTKLGEIAARTVKRVGLELGGKGPQIVFADADLDAAADGIAYGVYHNAGQCCISGSRLLVQEGIRDALERLLDISRKVAFGDPLNERTKIGAISEAHAEKVHSYVTAGITSGAELLLGGERIGREAGLYYAPTVFAGVTPDSIAREEIFGPVLSTLTFKTADEAVALANATEFGLSASVWSTNLETALQTIRRIRAGRCWINSVIDGTPELPIGGYKKSGLGRELGRYGFDEYSQFKGVHVTLGRPAPWFT 3u4z-a3-m1-cA_3u4z-a3-m2-cB Crystal Structure of the Tetrahymena telomerase processivity factor Teb1 OB-B D2CVN6 D2CVN6 2.3 X-RAY DIFFRACTION 76 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 109 109 TLLISEVLKTSKQYLSVLAQVVDIQSSDKNIRLKICDNSCNQELKVVIFPDLCYEWRDKFSINKWYYFNEFVRQIYNDEVQLKNNIHSSIKESDDQRKVITYNQEQGVF TLLISEVLKTSKQYLSVLAQVVDIQSSDKNIRLKICDNSCNQELKVVIFPDLCYEWRDKFSINKWYYFNEFVRQIYNDEVQLKNNIHSSIKESDDQRKVITYNQEQGVF 3u59-a2-m1-cC_3u59-a2-m2-cC N-terminal 98-aa fragment of smooth muscle tropomyosin beta P19352 P19352 2.5 X-RAY DIFFRACTION 142 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 101 101 3u59-a1-m1-cA_3u59-a1-m1-cB 3u59-a3-m1-cD_3u59-a3-m3-cD GASMEAIKKKMQMLKLDKENAIDRAEQAEADKKQAEDRCKQLEEEQQGLQKKLKGTEDEVEKYSESVKEAQEKLEQAEKKATDAEAEVASLNRRIQLVEEE GASMEAIKKKMQMLKLDKENAIDRAEQAEADKKQAEDRCKQLEEEQQGLQKKLKGTEDEVEKYSESVKEAQEKLEQAEKKATDAEAEVASLNRRIQLVEEE 3u5t-a3-m1-cD_3u5t-a3-m3-cD The crystal structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Sinorhizobium meliloti Q92W70 Q92W70 2.4 X-RAY DIFFRACTION 112 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 225 225 3u5t-a1-m1-cA_3u5t-a1-m2-cA 3u5t-a1-m1-cC_3u5t-a1-m2-cC 3u5t-a3-m1-cB_3u5t-a3-m3-cB KVAIVTGASRGIGAAIAARLASDGFTVVINYAGKAAAAEEVAGKIEAAGGKALTAQADVSDPAAVRRLFATAEEAFGGVDVLVNNAGIPLTTIAETGDAVFDRVIAVNLKGTFNTLREAAQRLRVGGRIINSTSQVGLLHPSYGIYAAAKAGVEATHVLSKELRGRDITVNAVAPGPTVRDRFAKLAPLERLGTPQDIAGAVAFLAGPDGAWVNGQVLRANGGII KVAIVTGASRGIGAAIAARLASDGFTVVINYAGKAAAAEEVAGKIEAAGGKALTAQADVSDPAAVRRLFATAEEAFGGVDVLVNNAGIPLTTIAETGDAVFDRVIAVNLKGTFNTLREAAQRLRVGGRIINSTSQVGLLHPSYGIYAAAKAGVEATHVLSKELRGRDITVNAVAPGPTVRDRFAKLAPLERLGTPQDIAGAVAFLAGPDGAWVNGQVLRANGGII 3u5t-a4-m1-cD_3u5t-a4-m1-cB The crystal structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Sinorhizobium meliloti Q92W70 Q92W70 2.4 X-RAY DIFFRACTION 100 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 225 230 3u5t-a1-m1-cC_3u5t-a1-m1-cA 3u5t-a1-m2-cC_3u5t-a1-m2-cA 3u5t-a2-m1-cC_3u5t-a2-m1-cA 3u5t-a3-m1-cD_3u5t-a3-m1-cB 3u5t-a3-m3-cD_3u5t-a3-m3-cB KVAIVTGASRGIGAAIAARLASDGFTVVINYAGKAAAAEEVAGKIEAAGGKALTAQADVSDPAAVRRLFATAEEAFGGVDVLVNNAGIPLTTIAETGDAVFDRVIAVNLKGTFNTLREAAQRLRVGGRIINSTSQVGLLHPSYGIYAAAKAGVEATHVLSKELRGRDITVNAVAPGPTVRDRFAKLAPLERLGTPQDIAGAVAFLAGPDGAWVNGQVLRANGGII NKVAIVTGASRGIGAAIAARLASDGFTVVINYAGKAAAAEEVAGKIEAAGGKALTAQADVSDPAAVRRLFATAEEAFGGVDVLVNNAGIPLTTIAETGDAVFDRVIAVNLKGTFNTLREAAQRLRVGGRIINSTSQVGLLHPSYGIYAAAKAGVEATHVLSKELRGRDITVNAVAPGPTATDLVRDRFAKLAPLERLGTPQDIAGAVAFLAGPDGAWVNGQVLRANGGII 3u5v-a1-m1-cA_3u5v-a1-m2-cA Crystal structure of Max-E47 P15923 P15923 1.7 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 62 62 HNALERKRRRDINEAFRELGRMCQMHLKSDKAQTKLLILQQAVQVILGLEQQVRERNLNPLN HNALERKRRRDINEAFRELGRMCQMHLKSDKAQTKLLILQQAVQVILGLEQQVRERNLNPLN 3u5w-a1-m1-cA_3u5w-a1-m2-cA Crystal Structure of a probable FAD-binding, putative uncharacterized protein from Brucella melitensis, apo form Q2YQN9 Q2YQN9 2.05 X-RAY DIFFRACTION 78 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 126 126 3u0i-a1-m1-cA_3u0i-a1-m2-cA LITEMSDYDIREMIQHKHVGRLGYVVDDRPIIVPMTFRFSGGSFYSFTTDGQKTNAMRKNDAICILFDQIESQTKWRTVLVQGRYREIAREDEEEAIVRIMANEPTWWKPVFFRVDIEKLSGHQAE LITEMSDYDIREMIQHKHVGRLGYVVDDRPIIVPMTFRFSGGSFYSFTTDGQKTNAMRKNDAICILFDQIESQTKWRTVLVQGRYREIAREDEEEAIVRIMANEPTWWKPVFFRVDIEKLSGHQAE 3u5z-a1-m1-cC_3u5z-a1-m1-cD Structure of T4 Bacteriophage clamp loader bound to the T4 clamp, primer-template DNA, and ATP analog P04526 P04526 3.5 X-RAY DIFFRACTION 129 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 320 320 3u5z-a1-m1-cB_3u5z-a1-m1-cC 3u5z-a1-m1-cE_3u5z-a1-m1-cD 3u5z-a2-m1-cL_3u5z-a2-m1-cM 3u5z-a2-m1-cM_3u5z-a2-m1-cN 3u5z-a2-m1-cO_3u5z-a2-m1-cN 3u60-a1-m1-cB_3u60-a1-m1-cC 3u60-a1-m1-cD_3u60-a1-m1-cC 3u60-a1-m1-cE_3u60-a1-m1-cD 3u61-a1-m1-cC_3u61-a1-m1-cD 3u61-a1-m1-cE_3u61-a1-m1-cD SMITVNEKEHILEQKYRPSTIDECILPAFDKETFKSITSKGKIPHIILHSPSPGTGKTTVAKALCHDVNADMMFVNGSDCKIDFVRGPLTNFASAASFDGRQKVIVIDEFDRSGLAESQRHLRSFMEAYSSNCSIIITANNIDGIIKPLQSRCRVITFGQPTDEDKIEMMKQMIRRLTEICKHEGIAIADMKVVAALVKKNFPDFRKTIGELDSYSSKGVLDAGILSLVTNDRGAIDDVLESLKNKDVKQLRALAPKYAADYSWFVGKLAEEIYSRVTPQSIIRMYEIVGENNQYHGIAANTELHLAYLFIQLACEMQWK SMITVNEKEHILEQKYRPSTIDECILPAFDKETFKSITSKGKIPHIILHSPSPGTGKTTVAKALCHDVNADMMFVNGSDCKIDFVRGPLTNFASAASFDGRQKVIVIDEFDRSGLAESQRHLRSFMEAYSSNCSIIITANNIDGIIKPLQSRCRVITFGQPTDEDKIEMMKQMIRRLTEICKHEGIAIADMKVVAALVKKNFPDFRKTIGELDSYSSKGVLDAGILSLVTNDRGAIDDVLESLKNKDVKQLRALAPKYAADYSWFVGKLAEEIYSRVTPQSIIRMYEIVGENNQYHGIAANTELHLAYLFIQLACEMQWK 3u61-a1-m1-cB_3u61-a1-m1-cC Structure of T4 Bacteriophage Clamp Loader Bound To Closed Clamp, DNA and ATP Analog and ADP P04526 P04526 3.2 X-RAY DIFFRACTION 71 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 305 319 ITVNEKEHILEQKYRPSTIDECILPAFDKETFKSITSKGKIPHIILHSPSPGTGKTTVAKALCHDVNADMMFVNGSDCKIDFVRGPLTNFASAASFDGRQKVIVIDEFDRSGLAESQRHLRSFMEAYSSNCSIIITANNIDGIIKPLQSRCRVITFGQPTDEDKIEMMKQMIRRLTEICKHEGIAIADMKVVAALVKKNFPDFRKTIGELDSYSSKGVLDAIDDVLESLKNKDVKQLRALAPKYAADYSWFVGKLAEEIYSRVTPQSIIRMYEIVGENNQYHGIAANTELHLAYLFIQLACEMQW SMITVNEKEHILEQKYRPSTIDECILPAFDKETFKSITSKGKIPHIILHSPSPGTGKTTVAKALCHDVNADMMFVNGSDCKIDFVRGPLTNFASAASFDGRQKVIVIDEFDRSGLAESQRHLRSFMEAYSSNCSIIITANNIDGIIKPLQSRCRVITFGQPTDEDKIEMMKQMIRRLTEICKHEGIAIADMKVVAALVKKNFPDFRKTIGELDSYSSKGVLDAGILSLVTNDRGAIDDVLESLKNKDVKQLRALAPKYAADYSWFVGKLAEEIYSRVTPQSIIRMYEIVGENNQYHGIAANTELHLAYLFIQLACEMQW 3u64-a2-m4-cA_3u64-a2-m9-cA The Crystal Structure of Tat-T (Tp0956) O83922 O83922 2.3 X-RAY DIFFRACTION 28 1.0 243276 (Treponema pallidum subsp. pallidum str. Nichols) 243276 (Treponema pallidum subsp. pallidum str. Nichols) 271 271 3u64-a1-m1-cA_3u64-a1-m2-cA 3u64-a1-m1-cA_3u64-a1-m3-cA 3u64-a1-m2-cA_3u64-a1-m3-cA 3u64-a2-m10-cA_3u64-a2-m4-cA 3u64-a2-m10-cA_3u64-a2-m9-cA 3u64-a2-m11-cA_3u64-a2-m6-cA 3u64-a2-m11-cA_3u64-a2-m7-cA 3u64-a2-m12-cA_3u64-a2-m5-cA 3u64-a2-m12-cA_3u64-a2-m8-cA 3u64-a2-m1-cA_3u64-a2-m2-cA 3u64-a2-m1-cA_3u64-a2-m3-cA 3u64-a2-m2-cA_3u64-a2-m3-cA 3u64-a2-m5-cA_3u64-a2-m8-cA 3u64-a2-m6-cA_3u64-a2-m7-cA 4di3-a1-m1-cA_4di3-a1-m1-cB 4di3-a1-m1-cA_4di3-a1-m1-cC 4di3-a1-m1-cB_4di3-a1-m1-cC 4di4-a1-m1-cA_4di4-a1-m2-cA 4di4-a1-m1-cA_4di4-a1-m3-cA 4di4-a1-m2-cA_4di4-a1-m3-cA DFTRVFTEEDDLDLVAQSLPLVLKVYEALHLQNPAHRGLSLAVGRLYIMYANAFVQTPAQYLPEDEFEAQNEAYSRARKLYLRGARYALSSLETAYPGFTREVFSGDEQRLHKVLSRCTRVDVGTLYWVGTGYVAAFALTPLGSALPDTVHAAVMMLERACDLWPSYQEGAVWNVLTKFYAAAPESFGGGMEKAHTAFEHLTRYCSAHDPDHHITYADALCIPLNNRAGFDEALDRALAIDPESVPHNKLLVILSQKRARWLKAHVQDFFL DFTRVFTEEDDLDLVAQSLPLVLKVYEALHLQNPAHRGLSLAVGRLYIMYANAFVQTPAQYLPEDEFEAQNEAYSRARKLYLRGARYALSSLETAYPGFTREVFSGDEQRLHKVLSRCTRVDVGTLYWVGTGYVAAFALTPLGSALPDTVHAAVMMLERACDLWPSYQEGAVWNVLTKFYAAAPESFGGGMEKAHTAFEHLTRYCSAHDPDHHITYADALCIPLNNRAGFDEALDRALAIDPESVPHNKLLVILSQKRARWLKAHVQDFFL 3u64-a2-m6-cA_3u64-a2-m9-cA The Crystal Structure of Tat-T (Tp0956) O83922 O83922 2.3 X-RAY DIFFRACTION 16 1.0 243276 (Treponema pallidum subsp. pallidum str. Nichols) 243276 (Treponema pallidum subsp. pallidum str. Nichols) 271 271 3u64-a2-m10-cA_3u64-a2-m2-cA 3u64-a2-m10-cA_3u64-a2-m5-cA 3u64-a2-m11-cA_3u64-a2-m8-cA 3u64-a2-m12-cA_3u64-a2-m4-cA 3u64-a2-m12-cA_3u64-a2-m7-cA 3u64-a2-m1-cA_3u64-a2-m11-cA 3u64-a2-m1-cA_3u64-a2-m8-cA 3u64-a2-m2-cA_3u64-a2-m5-cA 3u64-a2-m3-cA_3u64-a2-m6-cA 3u64-a2-m3-cA_3u64-a2-m9-cA 3u64-a2-m4-cA_3u64-a2-m7-cA DFTRVFTEEDDLDLVAQSLPLVLKVYEALHLQNPAHRGLSLAVGRLYIMYANAFVQTPAQYLPEDEFEAQNEAYSRARKLYLRGARYALSSLETAYPGFTREVFSGDEQRLHKVLSRCTRVDVGTLYWVGTGYVAAFALTPLGSALPDTVHAAVMMLERACDLWPSYQEGAVWNVLTKFYAAAPESFGGGMEKAHTAFEHLTRYCSAHDPDHHITYADALCIPLNNRAGFDEALDRALAIDPESVPHNKLLVILSQKRARWLKAHVQDFFL DFTRVFTEEDDLDLVAQSLPLVLKVYEALHLQNPAHRGLSLAVGRLYIMYANAFVQTPAQYLPEDEFEAQNEAYSRARKLYLRGARYALSSLETAYPGFTREVFSGDEQRLHKVLSRCTRVDVGTLYWVGTGYVAAFALTPLGSALPDTVHAAVMMLERACDLWPSYQEGAVWNVLTKFYAAAPESFGGGMEKAHTAFEHLTRYCSAHDPDHHITYADALCIPLNNRAGFDEALDRALAIDPESVPHNKLLVILSQKRARWLKAHVQDFFL 3u66-a3-m1-cA_3u66-a3-m4-cA Crystal structure of T6SS SciP/TssL from Escherichia Coli Enteroaggregative 042 D3GU40 D3GU40 2.63 X-RAY DIFFRACTION 53 1.0 216592 (Escherichia coli 042) 216592 (Escherichia coli 042) 166 166 3u66-a3-m2-cA_3u66-a3-m3-cA ISRAEQIFYPGWLVSQLRSGQPVEDGKALYRRACQLVKQAREELAEAGFSQKSSDILYAFCALLDESVLNREWRTWQQDPLQAHFFGTLNAGEELWERIREQLKLPAPDVAVLTCLCRTLQLGFTGQYRSQDDERREDVIRALTARVPAFTFAQDAPVVVRAPGYR ISRAEQIFYPGWLVSQLRSGQPVEDGKALYRRACQLVKQAREELAEAGFSQKSSDILYAFCALLDESVLNREWRTWQQDPLQAHFFGTLNAGEELWERIREQLKLPAPDVAVLTCLCRTLQLGFTGQYRSQDDERREDVIRALTARVPAFTFAQDAPVVVRAPGYR 3u66-a3-m2-cA_3u66-a3-m4-cA Crystal structure of T6SS SciP/TssL from Escherichia Coli Enteroaggregative 042 D3GU40 D3GU40 2.63 X-RAY DIFFRACTION 39 1.0 216592 (Escherichia coli 042) 216592 (Escherichia coli 042) 166 166 3u66-a3-m1-cA_3u66-a3-m3-cA ISRAEQIFYPGWLVSQLRSGQPVEDGKALYRRACQLVKQAREELAEAGFSQKSSDILYAFCALLDESVLNREWRTWQQDPLQAHFFGTLNAGEELWERIREQLKLPAPDVAVLTCLCRTLQLGFTGQYRSQDDERREDVIRALTARVPAFTFAQDAPVVVRAPGYR ISRAEQIFYPGWLVSQLRSGQPVEDGKALYRRACQLVKQAREELAEAGFSQKSSDILYAFCALLDESVLNREWRTWQQDPLQAHFFGTLNAGEELWERIREQLKLPAPDVAVLTCLCRTLQLGFTGQYRSQDDERREDVIRALTARVPAFTFAQDAPVVVRAPGYR 3u66-a3-m3-cA_3u66-a3-m4-cA Crystal structure of T6SS SciP/TssL from Escherichia Coli Enteroaggregative 042 D3GU40 D3GU40 2.63 X-RAY DIFFRACTION 84 1.0 216592 (Escherichia coli 042) 216592 (Escherichia coli 042) 166 166 3u66-a2-m1-cA_3u66-a2-m2-cA 3u66-a3-m1-cA_3u66-a3-m2-cA ISRAEQIFYPGWLVSQLRSGQPVEDGKALYRRACQLVKQAREELAEAGFSQKSSDILYAFCALLDESVLNREWRTWQQDPLQAHFFGTLNAGEELWERIREQLKLPAPDVAVLTCLCRTLQLGFTGQYRSQDDERREDVIRALTARVPAFTFAQDAPVVVRAPGYR ISRAEQIFYPGWLVSQLRSGQPVEDGKALYRRACQLVKQAREELAEAGFSQKSSDILYAFCALLDESVLNREWRTWQQDPLQAHFFGTLNAGEELWERIREQLKLPAPDVAVLTCLCRTLQLGFTGQYRSQDDERREDVIRALTARVPAFTFAQDAPVVVRAPGYR 3u6g-a1-m1-cB_3u6g-a1-m1-cA Crystal structure of a domain of unknown function, DUF4425 (BVU_3708) from Bacteroides vulgatus ATCC 8482 at 1.35 A resolution A6L6K5 A6L6K5 1.35 X-RAY DIFFRACTION 116 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 121 123 DFQTGIHKIVIQQSGDTDSFEVSVSIGGADKGGPAKLYNDKGEYIGDSYSAQIRTATSCCTNGNAFFTCAGSVSSISEAGKRLHITVIGYIDDKEVNRLEKEYITDGNTLIETFSVSTKEI ASDFQTGIHKIVIQQSGDTDSFEVSVSIGGADKGGPAKLYNDKGEYIGDSYSAQIRTATSCCTNGNAFFTCAGSVSSISEAGKRLHITVIGYIDDKEVNRLEKEYITDGNTLIETFSVSTKEI 3u6h-a2-m1-cA_3u6h-a2-m2-cA Crystal structure of c-Met in complex with pyrazolone inhibitor 26 P08581 P08581 2 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 280 280 3efj-a1-m1-cB_3efj-a1-m1-cA 3efk-a1-m1-cB_3efk-a1-m1-cA 3u6i-a2-m1-cA_3u6i-a2-m2-cA 5t3q-a1-m1-cA_5t3q-a1-m2-cA VHIDLSALNPELVQAVQHVVIGPSSLIVHFNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGPVKWMALESLQTQKFTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKAEMRPSFSELVSRISAIFSTFIGEHYVH VHIDLSALNPELVQAVQHVVIGPSSLIVHFNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGPVKWMALESLQTQKFTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKAEMRPSFSELVSRISAIFSTFIGEHYVH 3u6y-a1-m1-cA_3u6y-a1-m1-cC Crystal structure of ALBA2-DNA complex Q9YAX2 Q9YAX2 2 X-RAY DIFFRACTION 57 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 99 99 2h9u-a1-m1-cA_2h9u-a1-m2-cA MACEGAPEVRIGRKPVMNYVLAILTTLMEQGTNQVVVKARGRNINRAVDAVEIVRKRFAKNIEIKDIKIDSQEIEVQTPEGQTRTRRVSSIEICLEKAG MACEGAPEVRIGRKPVMNYVLAILTTLMEQGTNQVVVKARGRNINRAVDAVEIVRKRFAKNIEIKDIKIDSQEIEVQTPEGQTRTRRVSSIEICLEKAG 3u7i-a2-m1-cD_3u7i-a2-m1-cB The crystal structure of FMN-dependent NADH-azoreductase 1 (GBAA0966) from Bacillus anthracis str. Ames Ancestor Q81UB2 Q81UB2 1.75 X-RAY DIFFRACTION 74 0.991 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 212 213 3u7i-a1-m1-cA_3u7i-a1-m1-cC 4m0c-a1-m1-cB_4m0c-a1-m1-cA NKTLIINAHPKVDDTSSVSIKVFKHFLESYKELISNNETIEQINLYDDVVPIDKTVLSAWEKQGNGQELTREEQKVTERSEILQQFKSANTYVIVLPLHNFNIPSKLKDYDNIIARETFKYTETGSVGLLKDGRRLVIQASGGIYTNDDWYTDVEYSHKYLKAFNFLGIEDYQIVRAQGTAVLDPTEVLQNAYKEVEEAASRLANKYIFSLE SNANKTLIINAHPKVDDTSSVSIKVFKHFLESYKELISNNETIEQINLYDDVVPIDKTVLSAWEKQGNGQELTREEQKVTERSEILQQFKSANTYVIVLPLHNFNIPSKLKDYDNIIARETFKYTETGSVGLLKDGRRLVIQASGGIYTNDDWYTDVEYSHKYLKAFNFLGIEDYQIVRAQGTAVLDPTEVLQNAYKEVEEAASRLANKYIFS 3u7r-a2-m1-cA_3u7r-a2-m2-cB FerB - flavoenzyme NAD(P)H:(acceptor) oxidoreductase (FerB) from Paracoccus denitrificans A1B9E3 A1B9E3 1.4 X-RAY DIFFRACTION 30 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 176 176 3u7r-a2-m1-cB_3u7r-a2-m2-cA VKTVAVVGSLRKDSLNHKLKVLQKLAEGRLEFHLLHIGDLPHYNDDLWADAPESVLRLKDRIEHSDAVLAITPEYNRSYPGIKNAIDWATRPYGQNSWKGKPAAVIGTSPGVIGAALAQARLKNDLLHVGTVSPEAYIQWHAEAYAADGSVTDEKTAKFLQGFVDAFVDWIEKHGL VKTVAVVGSLRKDSLNHKLKVLQKLAEGRLEFHLLHIGDLPHYNDDLWADAPESVLRLKDRIEHSDAVLAITPEYNRSYPGIKNAIDWATRPYGQNSWKGKPAAVIGTSPGVIGAALAQARLKNDLLHVGTVSPEAYIQWHAEAYAADGSVTDEKTAKFLQGFVDAFVDWIEKHGL 3u7r-a2-m1-cB_3u7r-a2-m2-cB FerB - flavoenzyme NAD(P)H:(acceptor) oxidoreductase (FerB) from Paracoccus denitrificans A1B9E3 A1B9E3 1.4 X-RAY DIFFRACTION 22 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 176 176 3u7r-a2-m1-cA_3u7r-a2-m2-cA VKTVAVVGSLRKDSLNHKLKVLQKLAEGRLEFHLLHIGDLPHYNDDLWADAPESVLRLKDRIEHSDAVLAITPEYNRSYPGIKNAIDWATRPYGQNSWKGKPAAVIGTSPGVIGAALAQARLKNDLLHVGTVSPEAYIQWHAEAYAADGSVTDEKTAKFLQGFVDAFVDWIEKHGL VKTVAVVGSLRKDSLNHKLKVLQKLAEGRLEFHLLHIGDLPHYNDDLWADAPESVLRLKDRIEHSDAVLAITPEYNRSYPGIKNAIDWATRPYGQNSWKGKPAAVIGTSPGVIGAALAQARLKNDLLHVGTVSPEAYIQWHAEAYAADGSVTDEKTAKFLQGFVDAFVDWIEKHGL 3u7r-a2-m2-cA_3u7r-a2-m2-cB FerB - flavoenzyme NAD(P)H:(acceptor) oxidoreductase (FerB) from Paracoccus denitrificans A1B9E3 A1B9E3 1.4 X-RAY DIFFRACTION 74 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 176 176 3u7r-a1-m1-cA_3u7r-a1-m1-cB 3u7r-a2-m1-cA_3u7r-a2-m1-cB VKTVAVVGSLRKDSLNHKLKVLQKLAEGRLEFHLLHIGDLPHYNDDLWADAPESVLRLKDRIEHSDAVLAITPEYNRSYPGIKNAIDWATRPYGQNSWKGKPAAVIGTSPGVIGAALAQARLKNDLLHVGTVSPEAYIQWHAEAYAADGSVTDEKTAKFLQGFVDAFVDWIEKHGL VKTVAVVGSLRKDSLNHKLKVLQKLAEGRLEFHLLHIGDLPHYNDDLWADAPESVLRLKDRIEHSDAVLAITPEYNRSYPGIKNAIDWATRPYGQNSWKGKPAAVIGTSPGVIGAALAQARLKNDLLHVGTVSPEAYIQWHAEAYAADGSVTDEKTAKFLQGFVDAFVDWIEKHGL 3u7s-a1-m1-cA_3u7s-a1-m1-cB HIV PR drug resistant patient's variant in complex with darunavir P35963 P35963 2.05 X-RAY DIFFRACTION 147 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 PQITLWQRPLVVVKVGGQLMEALLDTGADDTIFEEMNLPGRWTPKMIGGIGGFLNVRQYDQVPIEICGHKVVSTVLIGPTPLNVIGRNVMTQIGCTLNF PQITLWQRPLVVVKVGGQLMEALLDTGADDTIFEEMNLPGRWTPKMIGGIGGFLNVRQYDQVPIEICGHKVVSTVLIGPTPLNVIGRNVMTQIGCTLNF 3u7v-a1-m2-cA_3u7v-a1-m4-cA The structure of a putative Beta-galactosidase from Caulobacter crescentus CB15. A0A0H3C5N2 A0A0H3C5N2 1.8 X-RAY DIFFRACTION 66 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 502 502 3u7v-a1-m1-cA_3u7v-a1-m3-cA 3u7v-a1-m1-cA_3u7v-a1-m4-cA 3u7v-a1-m2-cA_3u7v-a1-m3-cA DAAPQLVTKDGRHALVDGAPFLLAAQVNNSSAWPSQAKVWPAIEKVGANTVQVPIAWEQIEPVEGQFDFSYLDLLLEQARERKVRLVLLWFGTWKNSSPSYAPEWVKLDDKRFPRLIKDDGERSYSSPLAKSTLDADRKAFVALTHLKAKDAAQKTVIVQVENETGTYGSVRDFGPAAQKVFNGPAPATLVKAVGAKPGTWSQAFGKDADEFFHAWHIGRFVDQVAAGGKAVYPLPYVNAALRDPIKPGDPKTYSAGGPTDNVIGVWQAAAPSIDLIAPDIYKESVKYEAVLGHYARPNNALFVAETGNDPAYARYVFSTLGKQGIGWSPFGDYTGYGNYPLGAAKVDEALIEVFAANYRLLAPARELARLSFEGKVWGGAEPDDRAAQTTTGDWTVSLRYGKWQFGASDWTWLKDRPPGPQGPEGGGLVAQLSPNEFLVTGRNVRVEFGRATADGKPARVEEGHFENGQWVFDRLWNGDQTDYGLNFTGGSQILRVKLATY DAAPQLVTKDGRHALVDGAPFLLAAQVNNSSAWPSQAKVWPAIEKVGANTVQVPIAWEQIEPVEGQFDFSYLDLLLEQARERKVRLVLLWFGTWKNSSPSYAPEWVKLDDKRFPRLIKDDGERSYSSPLAKSTLDADRKAFVALTHLKAKDAAQKTVIVQVENETGTYGSVRDFGPAAQKVFNGPAPATLVKAVGAKPGTWSQAFGKDADEFFHAWHIGRFVDQVAAGGKAVYPLPYVNAALRDPIKPGDPKTYSAGGPTDNVIGVWQAAAPSIDLIAPDIYKESVKYEAVLGHYARPNNALFVAETGNDPAYARYVFSTLGKQGIGWSPFGDYTGYGNYPLGAAKVDEALIEVFAANYRLLAPARELARLSFEGKVWGGAEPDDRAAQTTTGDWTVSLRYGKWQFGASDWTWLKDRPPGPQGPEGGGLVAQLSPNEFLVTGRNVRVEFGRATADGKPARVEEGHFENGQWVFDRLWNGDQTDYGLNFTGGSQILRVKLATY 3u7x-a3-m1-cB_3u7x-a3-m2-cA Crystal structure of the human eIF4E-4EBP1 peptide complex without cap P06730 P06730 2.1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 PEHYIKHPLQNRWALWFFKNDKSKTWQANLRLISKFDTVEDFWALYNHIQLSSNLMPGCDYSLFKDGIEPMWEDEKNKRGGRWLITLNKQQRRSDLDRFWLETLLCLIGESFDDYSDDVCGAVVNVRAKGDKIAIWTTECENREAVTHIGRVYKERLGLPPKIVIGYQSHADTATKSGSTTKNRFVV PEHYIKHPLQNRWALWFFKNDKSKTWQANLRLISKFDTVEDFWALYNHIQLSSNLMPGCDYSLFKDGIEPMWEDEKNKRGGRWLITLNKQQRRSDLDRFWLETLLCLIGESFDDYSDDVCGAVVNVRAKGDKIAIWTTECENREAVTHIGRVYKERLGLPPKIVIGYQSHADTATKSGSTTKNRFVV 3u80-a1-m1-cB_3u80-a1-m1-cA 1.60 Angstrom Resolution Crystal Structure of a 3-Dehydroquinate Dehydratase-like Protein from Bifidobacterium longum D6ZTY6 D6ZTY6 1.6 X-RAY DIFFRACTION 46 0.984 759350 (Bifidobacterium longum subsp. longum JDM301) 759350 (Bifidobacterium longum subsp. longum JDM301) 123 127 MTKVIVVNGPNQDLDTLRKLCAEWGKDLGLEVEVRQTDDEAEMVRWMHQAADEKTPVVMNPAAFTHYSYALADAAHMVIDENLPLMEVHISNPSARVATGTITGMGFYGYKLALDAVAHLLSE MTKVIVVNGPNLRQDLDTLRKLCAEWGKDLGLEVEVRQTDDEAEMVRWMHQAADEKTPVVMNPAAFTHYSYALADAAHMVIDENLPLMEVHISNPSVISPVATGTITGMGFYGYKLALDAVAHLLSE 3u85-a2-m1-cA_3u85-a2-m2-cA Crystal structure of human menin in complex with MLL1 O00255 O00255 3 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 484 484 4i80-a1-m1-cA_4i80-a1-m2-cA GLKAAQKTLFPLRSIDDVVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRVIPTNVPELTFQPSPAPDPPGGLTYFPVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRAHIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTWHGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQLQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHIYPYMYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKEAASLLEASALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWATFLVQSLGRFEGQVRQKVRIVSGTVAGTARGPVLTFQSEKMKGMKELLVATKINSSAIKLQLTA GLKAAQKTLFPLRSIDDVVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRVIPTNVPELTFQPSPAPDPPGGLTYFPVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRAHIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTWHGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQLQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHIYPYMYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKEAASLLEASALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWATFLVQSLGRFEGQVRQKVRIVSGTVAGTARGPVLTFQSEKMKGMKELLVATKINSSAIKLQLTA 3u8e-a1-m2-cA_3u8e-a1-m3-cA Crystal Structure of Cysteine Protease from Bulbs of Crocus sativus at 1.3 A Resolution G8JLU6 G8JLU6 1.31 X-RAY DIFFRACTION 30 1.0 82528 (Crocus sativus) 82528 (Crocus sativus) 216 216 3u8e-a1-m1-cA_3u8e-a1-m2-cA 3u8e-a1-m1-cA_3u8e-a1-m3-cA APASIDWRKKGAVTSVKDQGACGMCWAFGATGAIEGIDAITTGRLISVSEQQIVDCDTGGDADDAFRWVITNGGIASDANYPYTGVDGTCDLNKPIAARIDGYTNVPNSSSALLDAVAKQPVSVNIYTSSTSFQLYTGPGIFAGSSCSDDPATVDHTVLIVGYGSNGTNADYWIVKNSWGTEWGIDGYILIRRNTNRPDGVCAIDAWGSYPTKSTS APASIDWRKKGAVTSVKDQGACGMCWAFGATGAIEGIDAITTGRLISVSEQQIVDCDTGGDADDAFRWVITNGGIASDANYPYTGVDGTCDLNKPIAARIDGYTNVPNSSSALLDAVAKQPVSVNIYTSSTSFQLYTGPGIFAGSSCSDDPATVDHTVLIVGYGSNGTNADYWIVKNSWGTEWGIDGYILIRRNTNRPDGVCAIDAWGSYPTKSTS 3u8v-a3-m1-cA_3u8v-a3-m1-cB Three dimensional structure of the Small Metal Binding Protein, SMBP Q82S91 Q82S91 1.9 X-RAY DIFFRACTION 24 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 83 83 SGHTAHVDEAVKHAEEAVAHGKEGHTDQLLEHAKESLTHAKAASTHVGHGIKHLEDAIKHGEEGHVGVATKHAQEAIEHLRAS SGHTAHVDEAVKHAEEAVAHGKEGHTDQLLEHAKESLTHAKAASTHVGHGIKHLEDAIKHGEEGHVGVATKHAQEAIEHLRAS 3u8z-a2-m1-cD_3u8z-a2-m1-cB human merlin FERM domain P35240 P35240 2.64 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 237 260 3u8z-a1-m1-cA_3u8z-a1-m1-cC KTFTVRIVTMDAEMEFNCEMKWKGKDLFDLVCRTLGLRETWFFGLQYTIKDTVAWLKMDKKVLPVTFHFLAKFYPENAEEELVQEITQHLFFLQVKKQILDEKIYCPPEASVLLASYAVQAKYARDEAEMEYLKIAQDLEMYGVNYFAIRNKKGTELLLGVDALGLHIYDPENRLTPKISFPWNEIRNISYSDKEFTIKPLDKKIDVFKFNSSKLRVNKLILQLCIGNHDLFMRRRK KTFTVRIVTMDAEMEFNCEMKWKGKDLFDLVCRTLGLRETWFFGLQYTIKDTVAWLKMDKKVLPVTFHFLAKFYPENAEEELVQEITQHLFFLQVKKQILDEKIYCPPEASVLLASYAVQAKYGDQMTPEMWEERITAWYAEHRGRARDEAEMEYLKIAQDLEMYGVNYFAIRNKKGTELLLGVDALGLHIYDPENRLTPKISFPWNEIRNISYSDKEFTIKPLDKKIDVFKFNSSKLRVNKLILQLCIGNHDLFMRRRK 3u96-a1-m1-cA_3u96-a1-m1-cB Crystal Structure of YopHQ357F(Catalytic Domain, Residues 163-468) in complex with pNCS P15273 P15273 1.8 X-RAY DIFFRACTION 60 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 282 282 SPYGPEARAELSSRLTTLRNTLAPATNDPRYLQACGGEKLNRFRDIQCRRQTAVRADLNANYIQVGNTRTIACQYPLQSQLESHFRMLAENRTPVLAVLASSSEIANQRFGMPDYFRQSGTYGSITVESKMTQQVGLGDGIMADMYTLTIREAGQKTISVPVVHVGNWPDFTAVSSEVTKALASLVDQTAETKRNMYESKGSSAVADDSKLRPVIHCRAGVGRTAQLIGAMCMNDSRNSQLSVEDMVSQMRVQRNGIMVQKDEQLDVLIKLAEGQGRPLLNS SPYGPEARAELSSRLTTLRNTLAPATNDPRYLQACGGEKLNRFRDIQCRRQTAVRADLNANYIQVGNTRTIACQYPLQSQLESHFRMLAENRTPVLAVLASSSEIANQRFGMPDYFRQSGTYGSITVESKMTQQVGLGDGIMADMYTLTIREAGQKTISVPVVHVGNWPDFTAVSSEVTKALASLVDQTAETKRNMYESKGSSAVADDSKLRPVIHCRAGVGRTAQLIGAMCMNDSRNSQLSVEDMVSQMRVQRNGIMVQKDEQLDVLIKLAEGQGRPLLNS 3u97-a1-m2-cA_3u97-a1-m4-cA 1.1 Angstrom-resolution crystal structure of the Brucella abortus ribonuclease toxin, BrnT Q57DF0 Q57DF0 1.102 X-RAY DIFFRACTION 38 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 74 74 3u97-a1-m1-cA_3u97-a1-m3-cA 3u97-a1-m1-cA_3u97-a1-m4-cA 3u97-a1-m2-cA_3u97-a1-m3-cA TKIIWDEPKRQTNIAKHGLDFADLHFEFFLSAKVFPTKADRLAIGEFNGLIIIAVIFKPVGSEALSVISRSASQ TKIIWDEPKRQTNIAKHGLDFADLHFEFFLSAKVFPTKADRLAIGEFNGLIIIAVIFKPVGSEALSVISRSASQ 3u9f-a5-m1-cO_3u9f-a5-m1-cN Structure of CATI in complex with chloramphenicol P62577 P62577 2.9 X-RAY DIFFRACTION 83 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 212 1noc-a2-m1-cB_1noc-a2-m4-cB 1noc-a2-m1-cB_1noc-a2-m5-cB 1noc-a2-m4-cB_1noc-a2-m5-cB 1pd5-a1-m1-cA_1pd5-a1-m1-cB 1pd5-a1-m1-cA_1pd5-a1-m1-cC 1pd5-a1-m1-cC_1pd5-a1-m1-cB 1pd5-a2-m1-cD_1pd5-a2-m1-cE 1pd5-a2-m1-cF_1pd5-a2-m1-cD 1pd5-a2-m1-cF_1pd5-a2-m1-cE 1pd5-a3-m1-cG_1pd5-a3-m1-cH 1pd5-a3-m1-cG_1pd5-a3-m1-cI 1pd5-a3-m1-cI_1pd5-a3-m1-cH 1pd5-a4-m1-cJ_1pd5-a4-m1-cK 1pd5-a4-m1-cL_1pd5-a4-m1-cJ 1pd5-a4-m1-cL_1pd5-a4-m1-cK 1q23-a1-m1-cA_1q23-a1-m1-cB 1q23-a1-m1-cC_1q23-a1-m1-cA 1q23-a1-m1-cC_1q23-a1-m1-cB 1q23-a2-m1-cD_1q23-a2-m1-cE 1q23-a2-m1-cF_1q23-a2-m1-cD 1q23-a2-m1-cF_1q23-a2-m1-cE 1q23-a3-m1-cG_1q23-a3-m1-cH 1q23-a3-m1-cG_1q23-a3-m1-cI 1q23-a3-m1-cI_1q23-a3-m1-cH 1q23-a4-m1-cJ_1q23-a4-m1-cK 1q23-a4-m1-cL_1q23-a4-m1-cJ 1q23-a4-m1-cL_1q23-a4-m1-cK 3u9b-a1-m1-cA_3u9b-a1-m1-cB 3u9b-a1-m1-cA_3u9b-a1-m1-cC 3u9b-a1-m1-cB_3u9b-a1-m1-cC 3u9b-a2-m1-cD_3u9b-a2-m1-cE 3u9b-a2-m1-cF_3u9b-a2-m1-cD 3u9b-a2-m1-cF_3u9b-a2-m1-cE 3u9b-a3-m1-cG_3u9b-a3-m1-cH 3u9b-a3-m1-cG_3u9b-a3-m1-cI 3u9b-a3-m1-cI_3u9b-a3-m1-cH 3u9f-a1-m1-cA_3u9f-a1-m1-cB 3u9f-a1-m1-cA_3u9f-a1-m1-cC 3u9f-a1-m1-cB_3u9f-a1-m1-cC 3u9f-a2-m1-cD_3u9f-a2-m1-cF 3u9f-a2-m1-cE_3u9f-a2-m1-cD 3u9f-a2-m1-cE_3u9f-a2-m1-cF 3u9f-a3-m1-cH_3u9f-a3-m1-cG 3u9f-a3-m1-cH_3u9f-a3-m1-cI 3u9f-a3-m1-cI_3u9f-a3-m1-cG 3u9f-a4-m1-cJ_3u9f-a4-m1-cK 3u9f-a4-m1-cJ_3u9f-a4-m1-cL 3u9f-a4-m1-cK_3u9f-a4-m1-cL 3u9f-a5-m1-cM_3u9f-a5-m1-cN 3u9f-a5-m1-cM_3u9f-a5-m1-cO 3u9f-a6-m1-cR_3u9f-a6-m1-cP 3u9f-a6-m1-cR_3u9f-a6-m1-cS 3u9f-a6-m1-cS_3u9f-a6-m1-cP GYTTVDISQWHRKEHFEAFQSVAQCTYNQTVQLDITAFLKTVKKNKHKFYPAFIHILARLMNAHPEFRMAMKDGELVIWDSVHPCYTVFHEQTETFSSLWSEYHDDFRQFLHIYSQDVACYGENLAYFPKGFIENMFFVSANPWVSFTSFDLNVANMDNFFAPVFTMGKYYTQGDKVLMPLAIQVHHAVCDGFHVGRMLNELQQYCDEWQG TGYTTVDISQWHRKEHFEAFQSVAQCTYNQTVQLDITAFLKTVKKNKHKFYPAFIHILARLMNAHPEFRMAMKDGELVIWDSVHPCYTVFHEQTETFSSLWSEYHDDFRQFLHIYSQDVACYGENLAYFPKGFIENMFFVSANPWVSFTSFDLNVANMDNFFAPVFTMGKYYTQGDKVLMPLAIQVHHAVCDGFHVGRMLNELQQYCDEWQG 3u9g-a2-m1-cA_3u9g-a2-m2-cA Crystal structure of the Zinc finger antiviral protein Q8K3Y6 Q8K3Y6 1.801 X-RAY DIFFRACTION 66 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 217 217 DPGVCCFITKILCAHGGRMTLEELLGEIRLPEAQLYELLETAGPDRFVLLETTRSVVATTRARVCRRKYCQRPCDSLHLCKLNLLGRCHYAQSQRNLCKYSHDVLSEQNFQILKNHELSGLNQEELACLLVQSDPFFLPEICKSYKGEGRKQTCGQPQPCERLHICEHFTRGNCSYLNCLRSHNLMDRKVLTIMREHGLSPDVVQNIQDICNNKHAR DPGVCCFITKILCAHGGRMTLEELLGEIRLPEAQLYELLETAGPDRFVLLETTRSVVATTRARVCRRKYCQRPCDSLHLCKLNLLGRCHYAQSQRNLCKYSHDVLSEQNFQILKNHELSGLNQEELACLLVQSDPFFLPEICKSYKGEGRKQTCGQPQPCERLHICEHFTRGNCSYLNCLRSHNLMDRKVLTIMREHGLSPDVVQNIQDICNNKHAR 3u9i-a1-m1-cA_3u9i-a1-m1-cB The crystal structure of Mandelate racemase/muconate lactonizing enzyme from Roseiflexus sp. A5UXJ3 A5UXJ3 2.9 X-RAY DIFFRACTION 88 0.997 357808 (Roseiflexus sp. RS-1) 357808 (Roseiflexus sp. RS-1) 346 354 TAPTTIRALTVAPLDIPLHEVARNLLVAVELTDGTRGYGEAAPFPAFNGETQDMAHAAILAARSLVEGADVREWRRIALALPALPGMTGSARCAIETAILDALTRRARLPLWAFFGGAATSLETDVTITVTAAARAAQAIVARGVTTIKIKIGTIRTMEHDLARIVAIRDVAPTARLILDGNCGYTAPDALRLLDMLGVHGIVPALFEQPVAKDDEEGLRRLTATRRVPVAADESVASATDAARLARNAAVDVLNIKLMKCGIVEALDIAAIARTAGLHLMIGGMVESLLAMTVSACFAAGQGGFRFVDLDTPLFLAENPFDGGMTYHGGTIDLTLIEAGHGVTPR MTAPTTIRALTVAPLDIPLHVARNLLVAVELTDGTRGYGEAAPFPAFNGETQDMAHAAILAARSLVEGADVREWRRIALALPALPGMTGSARCAIETAILDALTRRARLPLWAFFGGAATSLETDVTITTGSVTAAARAAQAIVARGVTTIKIKIGAGTTIRTMEHDLARIVAIRDVAPTARLILDGNCGYTAPDALRLLDMLGVHGIVPALFEQPVAKDDEEGLRRLTATRRVPVAADESVASATDAARLARNAAVDVLNIKLMKCGIVEALDIAAIARTAGLHLMIGGMVESLLAMTVSACFAAGQGGFRFVDLDTPLFLAENPFDGGMTYHGGTIDLTLIEAGHGVTPRSP 3u9l-a1-m1-cA_3u9l-a1-m2-cA The crystal structure of 3-oxoacyl-[acyl-carrier-protein] reductase (NADPH) from Sinorhizobium meliloti Q92W71 Q92W71 2.1 X-RAY DIFFRACTION 212 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 281 281 KKIILITGASSGFGRLTAEALAGAGHRVYASRDIVGRNASNVEAIAGFARDNDVDLRTLELDVQSQVSVDRAIDQIIGEDGRIDVLIHNAGHVFGPAEAFTPEQFAELYDINVLSTQRVNRAALPHRRQKHGLLIWISSSSSAGGTPPYLAPYFAAKAADAIAVQYARELSRWGIETSIIVPGAFSGVPDDHARQAEYEAGPNAGLGEEIKKAFAAIVPPDADVSLVADAIVRVVGTASGKRPFRVHVDPAEDGADVGFSVLDRLRAELHRVGLSDLLKPR KKIILITGASSGFGRLTAEALAGAGHRVYASRDIVGRNASNVEAIAGFARDNDVDLRTLELDVQSQVSVDRAIDQIIGEDGRIDVLIHNAGHVFGPAEAFTPEQFAELYDINVLSTQRVNRAALPHRRQKHGLLIWISSSSSAGGTPPYLAPYFAAKAADAIAVQYARELSRWGIETSIIVPGAFSGVPDDHARQAEYEAGPNAGLGEEIKKAFAAIVPPDADVSLVADAIVRVVGTASGKRPFRVHVDPAEDGADVGFSVLDRLRAELHRVGLSDLLKPR 3u9r-a1-m1-cB_3u9r-a1-m6-cB Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC), beta subunit Q9I297 Q9I297 1.5 X-RAY DIFFRACTION 313 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 536 536 3u9r-a1-m2-cB_3u9r-a1-m5-cB 3u9r-a1-m3-cB_3u9r-a1-m4-cB 3u9s-a1-m1-cB_3u9s-a1-m1-cL 3u9s-a1-m1-cD_3u9s-a1-m1-cJ 3u9s-a1-m1-cF_3u9s-a1-m1-cH HMAILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLAGPPLVKAATGEVVSAEELGGADVHCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVLIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGGEQAAGVLAQVKREQAERAGQQLGVEEEAKIKAPILEQYEHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM HMAILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLAGPPLVKAATGEVVSAEELGGADVHCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVLIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGGEQAAGVLAQVKREQAERAGQQLGVEEEAKIKAPILEQYEHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM 3u9r-a1-m3-cB_3u9r-a1-m6-cB Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC), beta subunit Q9I297 Q9I297 1.5 X-RAY DIFFRACTION 38 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 536 536 3u9r-a1-m1-cB_3u9r-a1-m5-cB 3u9r-a1-m2-cB_3u9r-a1-m4-cB 3u9s-a1-m1-cB_3u9s-a1-m1-cJ 3u9s-a1-m1-cD_3u9s-a1-m1-cH 3u9s-a1-m1-cF_3u9s-a1-m1-cL HMAILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLAGPPLVKAATGEVVSAEELGGADVHCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVLIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGGEQAAGVLAQVKREQAERAGQQLGVEEEAKIKAPILEQYEHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM HMAILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLAGPPLVKAATGEVVSAEELGGADVHCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVLIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGGEQAAGVLAQVKREQAERAGQQLGVEEEAKIKAPILEQYEHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM 3u9r-a1-m5-cB_3u9r-a1-m6-cB Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC), beta subunit Q9I297 Q9I297 1.5 X-RAY DIFFRACTION 49 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 536 536 3u9r-a1-m1-cB_3u9r-a1-m2-cB 3u9r-a1-m1-cB_3u9r-a1-m3-cB 3u9r-a1-m2-cB_3u9r-a1-m3-cB 3u9r-a1-m4-cB_3u9r-a1-m5-cB 3u9r-a1-m4-cB_3u9r-a1-m6-cB 3u9s-a1-m1-cB_3u9s-a1-m1-cD 3u9s-a1-m1-cB_3u9s-a1-m1-cF 3u9s-a1-m1-cD_3u9s-a1-m1-cF 3u9s-a1-m1-cH_3u9s-a1-m1-cJ 3u9s-a1-m1-cH_3u9s-a1-m1-cL 3u9s-a1-m1-cJ_3u9s-a1-m1-cL HMAILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLAGPPLVKAATGEVVSAEELGGADVHCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVLIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGGEQAAGVLAQVKREQAERAGQQLGVEEEAKIKAPILEQYEHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM HMAILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPRQDEVFPDREHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLAGPPLVKAATGEVVSAEELGGADVHCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGFMVGQKYEAGGIAKHGAKLVTAVACARVPKFTVLIGGSFGAGNYGMCGRAYDPRFLWMWPNARIGVMGGEQAAGVLAQVKREQAERAGQQLGVEEEAKIKAPILEQYEHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM 3u9s-a1-m1-cK_3u9s-a1-m1-cI Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC) 750 kD holoenzyme, CoA complex Q9I299 Q9I299 3.5 X-RAY DIFFRACTION 34 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 497 498 3u9s-a1-m1-cC_3u9s-a1-m1-cA 3u9s-a1-m1-cC_3u9s-a1-m1-cE 3u9s-a1-m1-cE_3u9s-a1-m1-cA 3u9s-a1-m1-cI_3u9s-a1-m1-cG 3u9s-a1-m1-cK_3u9s-a1-m1-cG 3u9t-a1-m1-cA_3u9t-a1-m2-cA 3u9t-a1-m1-cA_3u9t-a1-m3-cA 3u9t-a1-m2-cA_3u9t-a1-m3-cA 3u9t-a1-m4-cA_3u9t-a1-m5-cA 3u9t-a1-m4-cA_3u9t-a1-m6-cA 3u9t-a1-m5-cA_3u9t-a1-m6-cA YRSIQRLLVANRGEIACRVMRSARALGIGSVAVHSDIDRHARHVAEADIAVDLGGAKPADSYLRGDRIIAAALASGAQAIHPGYGFLSENADFARACEEAGLLFLGPPAAAIDAMGSKSAAKALMEEAGVPLVPGLLKPRHVEIQVFADRHGHCLYLNERDCSIQRRHQKVVEEAPAPGLGAELRRAMGEAAVRAAQAIGYVGAGTVEFLLDERGQFFFMEMNTRLQVEHPVTEAITGLDLVAWQIRVARGEALPLTQEQVPLNGHAIEVRLYAEDPEGDFLPASGRLMLYREAAAGPGRRVDSGVREGDEVSPFYDPMLAKLIAWGETREEARQRLLAMLAETSVGGLRTNLAFLRRILGHPAFAAAELDTGFIARHQDDLLPAPQALPEHFWQAAAEAWLQSEPGHRRDDDPHSPWSRNDGWRSALARESDLMLRCRDERRCVRLRHASPSQYRLDGDDLVSRVDGVTRRSAALRRGRQLFLEWEGELLAIEAVD YRSIQRLLVANRGEIACRVMRSARALGIGSVAVHSDIDRHARHVAEADIAVDLGGAKPADSYLRGDRIIAAALASGAQAIHPGYGFLSENADFARACEEAGLLFLGPPAAAIDAMGSKSAAKALMEEAGVPLVPGLLKPRHVEIQVFADRHGHCLYLNERDCSIQRRHQKVVEEAPAPGLGAELRRAMGEAAVRAAQAIGYVGAGTVEFLLDERGQFFFMEMNTRLQVEHPVTEAITGLDLVAWQIRVARGEALPLTQEQVPLNGHAIEVRLYAEDPEGDFLPASGRLMLYREAAAGPGRRVDSGVREGDEVSPFYDPMLAKLIAWGETREEARQRLLAMLAETSVGGLRTNLAFLRRILGHPAFAAAELDTGFIARHQDDLLPAPQALPEHFWQAAAEAWLQSEPGHRRDDDPHSPWSRNDGWRSALARESDLMLRCRDERRCVRLRHASPSQYRLDGDDLVSRVDGVTRRSAALRRGRQLFLEWEGELLAIEAVDK 3u9t-a1-m1-cB_3u9t-a1-m6-cB Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC) 750 kD holoenzyme, free enzyme Q9I297 Q9I297 2.9 X-RAY DIFFRACTION 38 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 437 437 3u9t-a1-m2-cB_3u9t-a1-m5-cB 3u9t-a1-m3-cB_3u9t-a1-m4-cB AILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGGIAKHGAKLVTAVACARVPKFTVLIGGGMCGRAYDPRFLWMWPNARHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM AILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGGIAKHGAKLVTAVACARVPKFTVLIGGGMCGRAYDPRFLWMWPNARHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM 3u9t-a1-m3-cB_3u9t-a1-m6-cB Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC) 750 kD holoenzyme, free enzyme Q9I297 Q9I297 2.9 X-RAY DIFFRACTION 120 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 437 437 3u9t-a1-m1-cB_3u9t-a1-m5-cB 3u9t-a1-m2-cB_3u9t-a1-m4-cB AILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGGIAKHGAKLVTAVACARVPKFTVLIGGGMCGRAYDPRFLWMWPNARHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM AILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGGIAKHGAKLVTAVACARVPKFTVLIGGGMCGRAYDPRFLWMWPNARHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM 3u9t-a1-m5-cB_3u9t-a1-m6-cB Crystal structure of P. aeruginosa 3-methylcrotonyl-CoA carboxylase (MCC) 750 kD holoenzyme, free enzyme Q9I297 Q9I297 2.9 X-RAY DIFFRACTION 46 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 437 437 3u9t-a1-m1-cB_3u9t-a1-m2-cB 3u9t-a1-m1-cB_3u9t-a1-m3-cB 3u9t-a1-m2-cB_3u9t-a1-m3-cB 3u9t-a1-m4-cB_3u9t-a1-m5-cB 3u9t-a1-m4-cB_3u9t-a1-m6-cB AILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGGIAKHGAKLVTAVACARVPKFTVLIGGGMCGRAYDPRFLWMWPNARHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM AILHTQINPRSAEFAANAATMLEQVNALRTLLGRIHEGGGSAAQARHSARGKLLVRERINRLLDPGSPFLELSALAAHEVYGEEVAAAGIVAGIGRVEGVECMIVGNDATVKGGTYYPLTVKKHLRAQAIALENRLPCIYLVDSGGANLPHFGRIFFNQANMSARGIPQIAVVMGSCTAGGAYVPAMSDETVMVREQATIFLCKVSGVADHYAEDDDHALAIARRCVANLNWRKQGQLQCRAPRAPLYPAEELYGVIPADSKQPYDVREVIARLVDGSEFDEFKALFGTTLVCGFAHLHGYPIAILANNGILFAEAAQKGAHFIELACQRGIPLLFLQNITGGIAKHGAKLVTAVACARVPKFTVLIGGGMCGRAYDPRFLWMWPNARHQGHPYYSSARLWDDGVIDPAQTREVLALALSAALNAPIEPTAFGVFRM 3ua0-a1-m1-cA_3ua0-a1-m2-cA N-Terminal Domain of Bombyx mori Fibroin Mediates the Assembly of Silk in Response to pH Decrease P05790 P05790 3 X-RAY DIFFRACTION 55 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 76 76 FDEDYFGSDVTVQSSNTTDEIIRDASGAVIEEQITTKKQRKNILGKNEKIKTFVITTDSDGNESIVEEDVLKTLSD FDEDYFGSDVTVQSSNTTDEIIRDASGAVIEEQITTKKQRKNILGKNEKIKTFVITTDSDGNESIVEEDVLKTLSD 3ua0-a1-m1-cB_3ua0-a1-m2-cB N-Terminal Domain of Bombyx mori Fibroin Mediates the Assembly of Silk in Response to pH Decrease P05790 P05790 3 X-RAY DIFFRACTION 10 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 67 67 INDFDEVTVQSSNTTDEIIRDASGAVIEEQITTKKQRNEKIKTFVITTDSDGNESIVEEDVLKTLSD INDFDEVTVQSSNTTDEIIRDASGAVIEEQITTKKQRNEKIKTFVITTDSDGNESIVEEDVLKTLSD 3ua3-a1-m1-cB_3ua3-a1-m1-cA Crystal Structure of Protein Arginine Methyltransferase PRMT5 in complex with SAH P46580 P46580 3 X-RAY DIFFRACTION 104 0.997 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 637 648 3ua4-a1-m1-cB_3ua4-a1-m1-cA AANSRIHIGWATTLDVAENLDRHVATFCTRLGEFKYNFVVYPIGGVVRAFWTPNGSAENHPPVIDLPDVQLRNDLWESYVVGKISPWIDCDSSDPAFASLSEEHLLKELSYICYLGLQTAIELTRISSPRTAAILKKWIWTRNSRFTVWVQLPSAIEKCKDYDAFTIEHVDLWTIWADFRKNCGNFSGVYFQVALTISSELPDELTELKLVDRWKAEPLAAFVIESGLFASIPSAHINLLKHLWTTDALRIVLRATTDTFKYNTSIKSEYSQALRHAVLQAPLQPLSENLDSGVYNTFEQDQIKYDVYGEAVVGALKDLGADGRKTVVIYLLGGGRGPIGTKILKSEREYNNTFRSLKVKLYIVEKNPNAIVTLKYNVRTWKRRVTIIESDRSLPGIAKDRGFEQPDIIVSELLGSFGDNELSPECLDGVTGFLKPTTISIPQKYTSYVKPISTHIHQTIKAQSIPYLSRAIPSHGRGEPELDEDEWIQKYPQGHVRNNDQIYVVYLSKYIPLAETTKPVFTFEHPNFNSSNERSDSIEFVDRNADLGFAGYFDLQLYKTVLSIEPSTHTPGVSWFPAVIPLRDQLRVGEGDRISLKIDRKVDNTGVWYEWHVEKKKTNGESVSTPIQNPNGESYYR NSRIHIGWATTLDVAENLDRHVATFCTRLGEFKYNFVVYPIGGVVRAFWTPNGSAENHPPVIDLPDVQLRNDLWESYVVGKISPWIDCDSSDPAFASLSEEHLLKELSYICYLGLQTAIELTRISSPRTAAILKKWIWTRNSRFTVWVQLPSAIEKCKDYDAFTIEHVDLWTIWADFRKNCGNFSGVYFQVALTISSELPDELTELKLVDRWKAEPLAAFVIESGLFISGRNGEASIPSAHINLLKHLWTTDALRIVLRATTDTFKYNTSIKSEYSQALRHAVRVLQAPLQPLSENLDSGVYNTFEQDQIKYDVYGEAVVGALKDLGADGRKTVVIYLLGGGRGPIGTKILKSEREYNNTFRQGQESLKVKLYIVEKNPNAIVTLKYNVRTWKRRVTIIESDRSLPGIAKDRGFEQPDIIVSELLGSFGDNELSPECLDGVTGFLKPTTISIPQKYTSYVKPISTHIHQTIKAQSIPYLSRAIPSHGRGEPELDEDEWIQKYPQGHVRNNDQIYVVYLSKYIPLAETTKPVFTFEHPNFNSSNERSDSIEFVDRNADLGFAGYFDLQLYKTVLSIEPSTHTPGVSWFPAVIPLRDQLRVGEGDRISLKIDRKVDNTGVWYEWHVEKKKTNGESVSTPIQNPNGESYYR 3ua5-a3-m2-cB_3ua5-a3-m1-cA Crystal Structure of P450 2B6 (Y226H/K262R) in complex with two molecules of Amlodipine P20813 P20813 2.8 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 465 KLPPGPRPLPLLGNLLQMDRRGLLKSFLRFREKYGDVFTVHLGPRPVVMLCGVEAIREALVDKAEAFSGRGKIAMVDPFFRGYGVIFANGNRWKVLRRFSVTTMRDFGMGKRSVEERIQEEAQCLIEELRKSKGALMDPTFLFQSITANIICSIVFGKRFHYQDQEFLKMLNLFYQTFSLISSVFGQLFELFSGFLKHFPGAHRQVYKNLQEINAYIGHSVEKHRETLDPSAPRDLIDTYLLHMEKEKSNAEFSHQNLNLNTLSLFFAGTETTSTTLRYGFLLMLKYPHVAERVYREIEQVIGPHRPPELHDRAKMPYTEAVIYEIQRFSDLLPMGVPHIVTQHTSFRGYIIPKDTEVFLILSTALHDPHYFEKPDAFNPDHFLDANGALKKTEAFIPFSLGKRICLGEGIARAELFLFFTTILQNFSMASPVAPEDIDLTPQECGVGKIPPTYQIRFLPRH GKLPPGPRPLPLLGNLLQMDRRGLLKSFLRFREKYGDVFTVHLGPRPVVMLCGVEAIREALVDKAEAFSGRGKIAMVDPFFRGYGVIFANGNRWKVLRRFSVTTMRDFGMGKRSVEERIQEEAQCLIEELRKSKGALMDPTFLFQSITANIICSIVFGKRFHYQDQEFLKMLNLFYQTFSLISSVFGQLFELFSGFLKHFPGAHRQVYKNLQEINAYIGHSVEKHRETLDPSAPRDLIDTYLLHMEKEKSNAHSEFSHQNLNLNTLSLFFAGTETTSTTLRYGFLLMLKYPHVAERVYREIEQVIGPHRPPELHDRAKMPYTEAVIYEIQRFSDLLPMGVPHIVTQHTSFRGYIIPKDTEVFLILSTALHDPHYFEKPDAFNPDHFLDANGALKKTEAFIPFSLGKRICLGEGIARAELFLFFTTILQNFSMASPVAPEDIDLTPQECGVGKIPPTYQIRFLPRH 3uaf-a1-m1-cA_3uaf-a1-m2-cA Crystal Structure of a TTR-52 mutant of C. elegans G5ED35 G5ED35 2.01 X-RAY DIFFRACTION 53 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 117 117 KTSCLMATGVLKCPTDPEAVKKVHIDLWDAAAAAAESDDLMGRTWSDRNGNFQVTGCASDFGPINTPDPYLYIQHNCPHRDSNATNPIQIDVIPLFLPSIVRLGNVYLDRYLEDYHH KTSCLMATGVLKCPTDPEAVKKVHIDLWDAAAAAAESDDLMGRTWSDRNGNFQVTGCASDFGPINTPDPYLYIQHNCPHRDSNATNPIQIDVIPLFLPSIVRLGNVYLDRYLEDYHH 3uao-a1-m1-cH_3uao-a1-m1-cB Structure and Catalytic Mechanism of the Vitamin B3 Degradative Enzyme Maleamate Amidohydrolase from Bordetalla bronchiseptica RB50 A0A0H3LKK8 A0A0H3LKK8 2.399 X-RAY DIFFRACTION 51 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 197 199 3ot4-a1-m1-cB_3ot4-a1-m1-cH 3ot4-a1-m1-cF_3ot4-a1-m1-cA 3ot4-a2-m1-cD_3ot4-a2-m1-cE 3ot4-a2-m1-cG_3ot4-a2-m1-cC 3uao-a1-m1-cF_3uao-a1-m1-cA 3uao-a2-m1-cD_3uao-a2-m1-cE 3uao-a2-m1-cG_3uao-a2-m1-cC SYERQGFGAALPLKAPYGLLIVDFVNGFADPAQFGGGNIAAAIETTRTVLAAARERGWAVAHSRIVYADDDADGNIFSIKVPGMLTLKEHAPASAIVPQLAPQAGEYVVRKSTPSAFYGTMLAAWLAQRGVQTLLVAGATTSGVRASVVDAMSAGFRPLVLSDCVGDRALGPHEANLFDMRQKYAAVMTHDEALAKT LGSYERQGFGAALPLKAPYGLLIVDFVNGFADPAQFGGGNIAAAIETTRTVLAAARERGWAVAHSRIVYADDDADGNIFSIKVPGMLTLKEHAPASAIVPQLAPQAGEYVVRKSTPSAFYGTMLAAWLAQRGVQTLLVAGATTSGVRASVVDAMSAGFRPLVLSDCVGDRALGPHEANLFDMRQKYAAVMTHDEALAKT 3uao-a2-m1-cC_3uao-a2-m1-cE Structure and Catalytic Mechanism of the Vitamin B3 Degradative Enzyme Maleamate Amidohydrolase from Bordetalla bronchiseptica RB50 A0A0H3LKK8 A0A0H3LKK8 2.399 X-RAY DIFFRACTION 142 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 200 200 3ot4-a1-m1-cA_3ot4-a1-m1-cH 3ot4-a1-m1-cF_3ot4-a1-m1-cB 3ot4-a2-m1-cC_3ot4-a2-m1-cE 3ot4-a2-m1-cG_3ot4-a2-m1-cD 3uao-a1-m1-cF_3uao-a1-m1-cB 3uao-a1-m1-cH_3uao-a1-m1-cA 3uao-a2-m1-cG_3uao-a2-m1-cD LGSYERQGFGAALPLKAPYGLLIVDFVNGFADPAQFGGGNIAAAIETTRTVLAAARERGWAVAHSRIVYADDDADGNIFSIKVPGMLTLKEHAPASAIVPQLAPQAGEYVVRKSTPSAFYGTMLAAWLAQRGVQTLLVAGATTSGVRASVVDAMSAGFRPLVLSDCVGDRALGPHEANLFDMRQKYAAVMTHDEALAKTK LGSYERQGFGAALPLKAPYGLLIVDFVNGFADPAQFGGGNIAAAIETTRTVLAAARERGWAVAHSRIVYADDDADGNIFSIKVPGMLTLKEHAPASAIVPQLAPQAGEYVVRKSTPSAFYGTMLAAWLAQRGVQTLLVAGATTSGVRASVVDAMSAGFRPLVLSDCVGDRALGPHEANLFDMRQKYAAVMTHDEALAKTK 3uao-a2-m1-cD_3uao-a2-m1-cC Structure and Catalytic Mechanism of the Vitamin B3 Degradative Enzyme Maleamate Amidohydrolase from Bordetalla bronchiseptica RB50 A0A0H3LKK8 A0A0H3LKK8 2.399 X-RAY DIFFRACTION 33 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 199 200 3ot4-a1-m1-cA_3ot4-a1-m1-cB 3ot4-a1-m1-cF_3ot4-a1-m1-cH 3ot4-a2-m1-cC_3ot4-a2-m1-cD 3ot4-a2-m1-cG_3ot4-a2-m1-cE 3uao-a1-m1-cA_3uao-a1-m1-cB 3uao-a1-m1-cH_3uao-a1-m1-cF 3uao-a2-m1-cG_3uao-a2-m1-cE GSYERQGFGAALPLKAPYGLLIVDFVNGFADPAQFGGGNIAAAIETTRTVLAAARERGWAVAHSRIVYADDDADGNIFSIKVPGMLTLKEHAPASAIVPQLAPQAGEYVVRKSTPSAFYGTMLAAWLAQRGVQTLLVAGATTSGVRASVVDAMSAGFRPLVLSDCVGDRALGPHEANLFDMRQKYAAVMTHDEALAKTK LGSYERQGFGAALPLKAPYGLLIVDFVNGFADPAQFGGGNIAAAIETTRTVLAAARERGWAVAHSRIVYADDDADGNIFSIKVPGMLTLKEHAPASAIVPQLAPQAGEYVVRKSTPSAFYGTMLAAWLAQRGVQTLLVAGATTSGVRASVVDAMSAGFRPLVLSDCVGDRALGPHEANLFDMRQKYAAVMTHDEALAKTK 3uaq-a1-m1-cB_3uaq-a1-m1-cA Crystal Structure of the N-lobe Domain of Lactoferrin Binding Protein B (LbpB) of Moraxella bovis H9KVH9 H9KVH9 2.9318 X-RAY DIFFRACTION 11 1.0 476 (Moraxella bovis) 476 (Moraxella bovis) 273 276 VLGSVLAIPKRNQAYDKKKLTHLEEHVPLDENNITTAHTNPLPALTKELQERYEGGKIYQSDDKYKFVKAGWIFTGLRPDETIKTDEDTDQPKQYTKGDGYLYYYGDNPTGVANYTGHWDFVTDVKREREAFGGGSGYKMDSGFGDEVGATSFAEQVFGQYAPRQGNHRAVFKADFDAKKLTGTLSTKQKAIASSPETYVDRYDIDATIKGNRFAGSAIAKNTKSSFLEPNFFNKNADNRLEGGFYGENAEELAGKFLTNDNSVFAVFAGKQD PVLGSVLAIPKRNQAYDKKKLTHLEEHVPLDENNITTAHTNPLPALTKELQERYEGGKIYQSDDKYKFVKAGWIFTGLRPDETIKTDEDTDQPKQYTKGDGYLYYYGDNPTGVANYTGHWDFVTDVKRERESQAFGGGSGYKMDSGFGDEVGATSFAEQVFGQYAPRQGNHRAVFKADFDAKKLTGTLSTKQKAIASSPETYVDRYDIDATIKGNRFAGSAIAKNTKSSFLEPNFFNKNADNRLEGGFYGENAEELAGKFLTNDNSVFAVFAGKQD 3uar-a1-m1-cA_3uar-a1-m2-cA Crystal structure of glutathione transferase (TARGET EFI-501774) from methylococcus capsulatus str. bath with gsh bound Q60CN1 Q60CN1 2.6 X-RAY DIFFRACTION 85 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 203 203 3uap-a1-m1-cA_3uap-a1-m2-cA VMKLYYFPGACSLAPHIVLREAGLDFELENVDLGTKKTGSGADFLQVNPKGYVPALQLDDGQVLTEDQVILQYLADLKPESGLMPPSGTFERYRLLEWLAFISTEIHKTFGPFWNPESPEASKQIALGLLSRRLDYVEDRLEAGGPWLMGDRYSVADAYLSTVLGWCEYLKIDLSKWPRILAYLERNQARPAVQAAMKAEGLI VMKLYYFPGACSLAPHIVLREAGLDFELENVDLGTKKTGSGADFLQVNPKGYVPALQLDDGQVLTEDQVILQYLADLKPESGLMPPSGTFERYRLLEWLAFISTEIHKTFGPFWNPESPEASKQIALGLLSRRLDYVEDRLEAGGPWLMGDRYSVADAYLSTVLGWCEYLKIDLSKWPRILAYLERNQARPAVQAAMKAEGLI 3uax-a1-m1-cA_3uax-a1-m6-cA Crystal structure of adenosine phosphorylase from Bacillus cereus complexed with inosine Q5EEL8 Q5EEL8 1.2 X-RAY DIFFRACTION 97 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 226 226 1xe3-a1-m1-cA_1xe3-a1-m1-cD 1xe3-a1-m1-cB_1xe3-a1-m1-cE 1xe3-a1-m1-cF_1xe3-a1-m1-cC 2ac7-a1-m1-cA_2ac7-a1-m1-cB 2ac7-a1-m2-cA_2ac7-a1-m2-cB 2ac7-a1-m3-cA_2ac7-a1-m3-cB 3uav-a1-m1-cA_3uav-a1-m6-cA 3uav-a1-m2-cA_3uav-a1-m5-cA 3uav-a1-m3-cA_3uav-a1-m4-cA 3uaw-a1-m1-cA_3uaw-a1-m6-cA 3uaw-a1-m2-cA_3uaw-a1-m5-cA 3uaw-a1-m3-cA_3uaw-a1-m4-cA 3uax-a1-m2-cA_3uax-a1-m5-cA 3uax-a1-m3-cA_3uax-a1-m4-cA 3uay-a1-m1-cA_3uay-a1-m6-cA 3uay-a1-m2-cA_3uay-a1-m5-cA 3uay-a1-m3-cA_3uay-a1-m4-cA 3uaz-a1-m1-cA_3uaz-a1-m6-cA 3uaz-a1-m2-cA_3uaz-a1-m5-cA 3uaz-a1-m3-cA_3uaz-a1-m4-cA SVHIEAKQGEIAESILLPGDPLRAKYIAETFLEDVTCYNNVRGMLGFTGTYKGKRVSVQGTGMGVPSISIYVNELIQSYGVKNLIRVGTCGAIQKDVKVRDVIIAMTACTDSNMNRLTFPGFDFAPAANFDLLKKAYDAGTEKGLHVRVGNVLTADVFYRESMDMVKKLGDYGVLAVEMETTALYTLAAKYGVNALSVLTVSDHIFSEERQTTFNEMIEIALDAAI SVHIEAKQGEIAESILLPGDPLRAKYIAETFLEDVTCYNNVRGMLGFTGTYKGKRVSVQGTGMGVPSISIYVNELIQSYGVKNLIRVGTCGAIQKDVKVRDVIIAMTACTDSNMNRLTFPGFDFAPAANFDLLKKAYDAGTEKGLHVRVGNVLTADVFYRESMDMVKKLGDYGVLAVEMETTALYTLAAKYGVNALSVLTVSDHIFSEERQTTFNEMIEIALDAAI 3uax-a1-m3-cA_3uax-a1-m6-cA Crystal structure of adenosine phosphorylase from Bacillus cereus complexed with inosine Q5EEL8 Q5EEL8 1.2 X-RAY DIFFRACTION 94 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 226 226 1xe3-a1-m1-cA_1xe3-a1-m1-cF 1xe3-a1-m1-cB_1xe3-a1-m1-cD 1xe3-a1-m1-cC_1xe3-a1-m1-cE 2ac7-a1-m1-cA_2ac7-a1-m3-cB 2ac7-a1-m2-cA_2ac7-a1-m1-cB 2ac7-a1-m3-cA_2ac7-a1-m2-cB 3uav-a1-m1-cA_3uav-a1-m5-cA 3uav-a1-m2-cA_3uav-a1-m4-cA 3uav-a1-m3-cA_3uav-a1-m6-cA 3uaw-a1-m1-cA_3uaw-a1-m5-cA 3uaw-a1-m2-cA_3uaw-a1-m4-cA 3uaw-a1-m3-cA_3uaw-a1-m6-cA 3uax-a1-m1-cA_3uax-a1-m5-cA 3uax-a1-m2-cA_3uax-a1-m4-cA 3uay-a1-m1-cA_3uay-a1-m5-cA 3uay-a1-m2-cA_3uay-a1-m4-cA 3uay-a1-m3-cA_3uay-a1-m6-cA 3uaz-a1-m1-cA_3uaz-a1-m5-cA 3uaz-a1-m2-cA_3uaz-a1-m4-cA 3uaz-a1-m3-cA_3uaz-a1-m6-cA SVHIEAKQGEIAESILLPGDPLRAKYIAETFLEDVTCYNNVRGMLGFTGTYKGKRVSVQGTGMGVPSISIYVNELIQSYGVKNLIRVGTCGAIQKDVKVRDVIIAMTACTDSNMNRLTFPGFDFAPAANFDLLKKAYDAGTEKGLHVRVGNVLTADVFYRESMDMVKKLGDYGVLAVEMETTALYTLAAKYGVNALSVLTVSDHIFSEERQTTFNEMIEIALDAAI SVHIEAKQGEIAESILLPGDPLRAKYIAETFLEDVTCYNNVRGMLGFTGTYKGKRVSVQGTGMGVPSISIYVNELIQSYGVKNLIRVGTCGAIQKDVKVRDVIIAMTACTDSNMNRLTFPGFDFAPAANFDLLKKAYDAGTEKGLHVRVGNVLTADVFYRESMDMVKKLGDYGVLAVEMETTALYTLAAKYGVNALSVLTVSDHIFSEERQTTFNEMIEIALDAAI 3ub1-a2-m1-cF_3ub1-a2-m1-cB Ntf2 like protein involved in plasmid conjugation Q1PLH8 Q1PLH8 1.8 X-RAY DIFFRACTION 102 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 247 248 3ub1-a1-m1-cA_3ub1-a1-m1-cC 3ub1-a1-m1-cA_3ub1-a1-m1-cE 3ub1-a1-m1-cC_3ub1-a1-m1-cE 3ub1-a2-m1-cB_3ub1-a2-m1-cD 3ub1-a2-m1-cF_3ub1-a2-m1-cD SLETQAFSFAEEFAWDYFSRYPSDTQDFVRRITKYTTEQLANENNGTYSDVIYTSAFYFEKYSENQVNVSVKARVRVYTPKAGQEQTPQDQLQYDTNLVDYYLEVPIVFDKDNAVDALPVTAPPEKAYFKNKEFSGTSENDADKTKKITDSVSQFFKAYYEQNQTQIDYFLVDGADIKGAGQKFSFNKIDRINIYKLSDKEFLAIVDLNVDSFGNAIKQGFNLTVVQEGDKFLVKTLEPRTSNIDLN SSLETQAFSFAEEFAWDYFSRYPSDTQDFVRRITKYTTEQLANENNGTYSDVIYTSAFYFEKYSENQVNVSVKARVRVYTPKAGQEQTPQDQLQYDTNLVDYYLEVPIVFDKDNAVDALPVTAPPEKAYFKNKEFSGTSENDADKTKKITDSVSQFFKAYYEQNQTQIDYFLVDGADIKGAGQKFSFNKIDRINIYKLSDKEFLAIVDLNVDSFGNAIKQGFNLTVVQEGDKFLVKTLEPRTSNIDLN 3ub3-a1-m1-cA_3ub3-a1-m2-cA D96N variant of TIR domain of Mal/TIRAP P58753 P58753 2.75 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 2y92-a1-m1-cA_2y92-a1-m2-cA 3ub2-a1-m1-cA_3ub2-a1-m2-cA 3ub4-a1-m1-cA_3ub4-a1-m2-cA 4lqd-a1-m1-cA_4lqd-a1-m2-cA SSRWSKDYDVCVCHSEENLVAAQDLVSYLEGAIVSELCQALSSSHCRVLLITPGFLQDPWCKYQMLQALTEAPGAEGCTIPLLSGLSRAAYPPELRFMYYVDGRGPDGGFRQVKEAVMRYLQTLS SSRWSKDYDVCVCHSEENLVAAQDLVSYLEGAIVSELCQALSSSHCRVLLITPGFLQDPWCKYQMLQALTEAPGAEGCTIPLLSGLSRAAYPPELRFMYYVDGRGPDGGFRQVKEAVMRYLQTLS 3ub6-a1-m1-cA_3ub6-a1-m1-cB Periplasmic portion of the Helicobacter pylori chemoreceptor TlpB with urea bound B6JPK4 B6JPK4 1.38 X-RAY DIFFRACTION 89 1.0 102617 (Helicobacter pylori SS1) 102617 (Helicobacter pylori SS1) 164 164 3ub7-a1-m1-cA_3ub7-a1-m1-cB 3ub8-a1-m1-cA_3ub8-a1-m1-cB 3ub9-a1-m1-cA_3ub9-a1-m1-cB LAQLMEHLETGQYKKREKTLAYMTKILEQGIHEYYKSFDNDTARKMALDYFKRINDDKGMIYMVVVDKNGVVLFDPVNPKTVGQSGLDAQSVDGVYYVRGYLEAAKKGGGYTYYKMPKYDGGVPEKKFAYSHYDEVSQMVIAATSYYTDINTENKAIKEGVNKV LAQLMEHLETGQYKKREKTLAYMTKILEQGIHEYYKSFDNDTARKMALDYFKRINDDKGMIYMVVVDKNGVVLFDPVNPKTVGQSGLDAQSVDGVYYVRGYLEAAKKGGGYTYYKMPKYDGGVPEKKFAYSHYDEVSQMVIAATSYYTDINTENKAIKEGVNKV 3ubc-a1-m1-cA_3ubc-a1-m1-cD Oxygen-bound hell's gate globin I by LB nanotemplate method B3DUZ7 B3DUZ7 1.65 X-RAY DIFFRACTION 54 1.0 481448 (Methylacidiphilum infernorum V4) 481448 (Methylacidiphilum infernorum V4) 131 131 3s1i-a1-m1-cA_3s1i-a1-m1-cB 3s1i-a2-m1-cC_3s1i-a2-m2-cC 3s1j-a1-m1-cA_3s1j-a1-m1-cB 3s1j-a2-m1-cC_3s1j-a2-m2-cC 3ubv-a1-m1-cA_3ubv-a1-m1-cD IDQKEKELIKESWKRIEPNKNEIGLLFYANLFKEEPTVSVLFQNPISSQSRKLMQVLGILVQGIDNLEGLIPTLQDLGRRHKQYGVVDSHYPLVGDCLLKSIQEYLGQGFTEEAKAAWTKVYGIAAQVMTA IDQKEKELIKESWKRIEPNKNEIGLLFYANLFKEEPTVSVLFQNPISSQSRKLMQVLGILVQGIDNLEGLIPTLQDLGRRHKQYGVVDSHYPLVGDCLLKSIQEYLGQGFTEEAKAAWTKVYGIAAQVMTA 3ubc-a1-m1-cA_3ubc-a1-m1-cG Oxygen-bound hell's gate globin I by LB nanotemplate method B3DUZ7 B3DUZ7 1.65 X-RAY DIFFRACTION 31 1.0 481448 (Methylacidiphilum infernorum V4) 481448 (Methylacidiphilum infernorum V4) 131 131 3ubv-a1-m1-cA_3ubv-a1-m1-cG IDQKEKELIKESWKRIEPNKNEIGLLFYANLFKEEPTVSVLFQNPISSQSRKLMQVLGILVQGIDNLEGLIPTLQDLGRRHKQYGVVDSHYPLVGDCLLKSIQEYLGQGFTEEAKAAWTKVYGIAAQVMTA IDQKEKELIKESWKRIEPNKNEIGLLFYANLFKEEPTVSVLFQNPISSQSRKLMQVLGILVQGIDNLEGLIPTLQDLGRRHKQYGVVDSHYPLVGDCLLKSIQEYLGQGFTEEAKAAWTKVYGIAAQVMTA 3ubf-a2-m1-cA_3ubf-a2-m2-cA Crystal structure of Drosophila N-cadherin EC1-3, I O15943 O15943 2.5 X-RAY DIFFRACTION 10 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 298 298 SAVRPTKRIEFTEADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELGPEKTIDFWVIITNKYTDNQRVIILVKDVNDEPPYFINRPLPMQAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVRTRGTDLFQLDMEYVLYVKAEDQNGQSTPEERLSIVGGKRAPQFYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGPTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDV SAVRPTKRIEFTEADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELGPEKTIDFWVIITNKYTDNQRVIILVKDVNDEPPYFINRPLPMQAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVRTRGTDLFQLDMEYVLYVKAEDQNGQSTPEERLSIVGGKRAPQFYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGPTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDV 3ubf-a3-m1-cA_3ubf-a3-m3-cA Crystal structure of Drosophila N-cadherin EC1-3, I O15943 O15943 2.5 X-RAY DIFFRACTION 46 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 298 298 SAVRPTKRIEFTEADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELGPEKTIDFWVIITNKYTDNQRVIILVKDVNDEPPYFINRPLPMQAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVRTRGTDLFQLDMEYVLYVKAEDQNGQSTPEERLSIVGGKRAPQFYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGPTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDV SAVRPTKRIEFTEADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELGPEKTIDFWVIITNKYTDNQRVIILVKDVNDEPPYFINRPLPMQAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVRTRGTDLFQLDMEYVLYVKAEDQNGQSTPEERLSIVGGKRAPQFYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGPTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTDV 3ubg-a3-m1-cA_3ubg-a3-m1-cB Crystal structure of Drosophila N-cadherin EC1-3, II O15943 O15943 2.502 X-RAY DIFFRACTION 56 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 303 310 AVRPTKRIEFTEADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELGPEKTIDFWVIITNIKYTDNQRVIILVKDVNDEPPYFINRPLPMQAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVRTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQFYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGPTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVT AVRPTKRIEFTEADGDTEGKSVFQLEKETDKETFKIRDDNPWVTVETNGAVRVKKKWDYEELGPEKTIDFWVIITNMGHNAGIKYTDNQRVIILVKDVNDEPPYFINRPLPMQAVVQLNAPPNTPVFTLQARDPDTDHNIHYFIVRDRTGGRFEVDERSGVVRTRGTDLFQLDMEYVLYVKAEDQNGKVDDRRFQSTPEERLSIVGGKRAPQFYMPSYEAEIPENQKKDSDIISIKAKSFADREIRYTLKAQGQGAGTFNIGPTSGIVKLAKELDFEDLRQPHVYSLIVTATEDSGGFSTSVDLTIRVTD 3ubk-a1-m1-cB_3ubk-a1-m1-cA Crystal structure of glutathione transferase (TARGET EFI-501770) from leptospira interrogans Q8F2Y8 Q8F2Y8 1.95 X-RAY DIFFRACTION 84 1.0 189518 (Leptospira interrogans serovar Lai str. 56601) 189518 (Leptospira interrogans serovar Lai str. 56601) 206 209 3ubl-a1-m1-cB_3ubl-a1-m1-cA VMIKLHGASISNYVNKVKLGILEKGLEYEQIRIAPSQEEDFLKISPMGKIPVLEMDGKFIFESGAILEFLDTIFPQTPKLIPEDPWEAARVREISTIIETYLDIPARRIYSPEIVEEVHSTLVKGIKALQRVVRFSPYIAGNVFTLADCSGFAHLSVLDEELRPFYPNNHPLDLLNGWKEYFVFMKTKAGPALVEKDKQILKKILA VMIKLHGASISNYVNKVKLGILEKGLEYEQIRIAPSQEEDFLKISPMGKIPVLEMDGKFIFESGAILEFLDTIFPQTPKLIPEDPWEAARVREISTIIETYLDIPARRIYLSPEIVEEVHSTLVKGIKALQRVVRFSPYIAGNVFTLADCSGFAHLSVLDEELRPFYPNNHPLDLLNGWKEYFVFMKTKAGPALVEKDKQILKKILARA 3ubm-a2-m1-cC_3ubm-a2-m1-cD Formyl-CoA:oxalate CoA-transferase from Acetobacter aceti A9X6P7 A9X6P7 1.992 X-RAY DIFFRACTION 513 1.0 435 (Acetobacter aceti) 435 (Acetobacter aceti) 429 430 3ubm-a1-m1-cA_3ubm-a1-m1-cB SKPLDGIKVIDFGGVQSVPSAAQLLAWYGADVIKIERVGVGDITRNQLRDIPDADALYFTMLNCNKRSVELNTKTPEGKAVFEKCIKWADILLENFRPGAMERMGFTWEYLQQLNPRLIYGTVKGFGENSPWAGVSAYENVAQCAGGATSTTGYWNGAPLVDGQAPGNNNGPLVSAAALGDSNTGNHLLIGVLAALFGRERTGKGQKISVSMQDAVLNLCRVKLRDQQRLERVGYLEEYPQYPNGKFGDTVPRGGNAGGGGQPGWILKCKGWETDDNAYIYCTVQEQDWGPTCEAIGKPEWATDPKYNTAKARETHMFEIFAAIEKAIADKTKYEAVAHLAKYRVPCSPVLSMKEIAEAPDLRESGTIVEVQQPKRGTFLTINPIKFSGFTPEIKAAPLLGQHTDEVLAELGYSAEEIKSLRDKKITCA NSKPLDGIKVIDFGGVQSVPSAAQLLAWYGADVIKIERVGVGDITRNQLRDIPDADALYFTMLNCNKRSVELNTKTPEGKAVFEKCIKWADILLENFRPGAMERMGFTWEYLQQLNPRLIYGTVKGFGENSPWAGVSAYENVAQCAGGATSTTGYWNGAPLVDGQAPGNNNGPLVSAAALGDSNTGNHLLIGVLAALFGRERTGKGQKISVSMQDAVLNLCRVKLRDQQRLERVGYLEEYPQYPNGKFGDTVPRGGNAGGGGQPGWILKCKGWETDDNAYIYCTVQEQDWGPTCEAIGKPEWATDPKYNTAKARETHMFEIFAAIEKAIADKTKYEAVAHLAKYRVPCSPVLSMKEIAEAPDLRESGTIVEVQQPKRGTFLTINPIKFSGFTPEIKAAPLLGQHTDEVLAELGYSAEEIKSLRDKKITCA 3ubo-a1-m1-cB_3ubo-a1-m1-cA The crystal structure of adenosine kinase from Sinorhizobium meliloti Q92T17 Q92T17 2.601 X-RAY DIFFRACTION 67 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 321 332 AKYDVLTIGNAIVDIIARCDDSFLEENGIIKGANLINADRAELLYSRGPAVEASGGSAGNTAAGVASLGGRAAYFGKVADDQLGEIFTHDIRAQGVHFQTKPLDGHPPTARSIFVTEDGERSNTYLGACVELGPEDVEDDVVAQSKVTYFEGYLWDPPRAKDAIREAARIAHAHGRETATLSDSFCVHRYRSEFLELRSGTVDIVFANRQEALALYETEDFDRALELLARDCKLAAVTLSEEGSVVVRGAERVRVGASVLEQVVDTTGAGDLYAAGFLFGYTSGRSLEECSKLGNLAAGIVIGQIGPRPLVSLATAARQAA AKYDVLTIGNAIVDIIARCDDSFLEENGIIKGANLINADRAELLYSRGPAVEASGGSAGNTAAGVASLGGRAAYFGKVADDQLGEIFTHDIRAQGVHFQTKPLDGHPPTARSIFVTEDGERSNTYLGACVELGPEDVEDDVVAQSKVTYFEGYLWDPPRAKDAIREAARIAHAHGRETATLSDSFCVHRYRSEFLELRSGTVDIVFANRQEALALYETEDFDRALELLARDCKLAAVTLSEEGSVVVRGAERVRVGASVLEQVVDTTGAGDLYAAGFLFGYTSGRSLEECSKLGNLAAGIVIGQIGPRPLVSLATAARQAALVAENLYFQSH 3uc7-a1-m1-cB_3uc7-a1-m1-cE Trp-cage cyclo-TC1 - monoclinic crystal form 1.1 X-RAY DIFFRACTION 14 1.0 22 22 3uc8-a1-m1-cB_3uc8-a1-m2-cB GDAYAQWLADGGPSSGRPPPSG GDAYAQWLADGGPSSGRPPPSG 3uc8-a1-m1-cA_3uc8-a1-m2-cB Trp-cage cyclo-TC1 - tetragonal crystal form 1.33 X-RAY DIFFRACTION 18 1.0 22 22 3uc7-a1-m1-cA_3uc7-a1-m1-cE 3uc7-a1-m1-cB_3uc7-a1-m1-cD 3uc8-a1-m1-cB_3uc8-a1-m2-cA GDAYAQWLADGGPSSGRPPPSG GDAYAQWLADGGPSSGRPPPSG 3uc8-a1-m1-cA_3uc8-a1-m2-cC Trp-cage cyclo-TC1 - tetragonal crystal form 1.33 X-RAY DIFFRACTION 18 1.0 22 22 3uc7-a1-m1-cA_3uc7-a1-m1-cF 3uc7-a1-m1-cC_3uc7-a1-m1-cD 3uc8-a1-m1-cC_3uc8-a1-m2-cA GDAYAQWLADGGPSSGRPPPSG GDAYAQWLADGGPSSGRPPPSG 3uc8-a1-m2-cA_3uc8-a1-m2-cC Trp-cage cyclo-TC1 - tetragonal crystal form 1.33 X-RAY DIFFRACTION 11 1.0 22 22 3uc7-a1-m1-cA_3uc7-a1-m1-cB 3uc7-a1-m1-cA_3uc7-a1-m1-cC 3uc7-a1-m1-cB_3uc7-a1-m1-cC 3uc7-a1-m1-cD_3uc7-a1-m1-cE 3uc7-a1-m1-cD_3uc7-a1-m1-cF 3uc7-a1-m1-cE_3uc7-a1-m1-cF 3uc8-a1-m1-cA_3uc8-a1-m1-cB 3uc8-a1-m1-cA_3uc8-a1-m1-cC 3uc8-a1-m1-cB_3uc8-a1-m1-cC 3uc8-a1-m2-cA_3uc8-a1-m2-cB 3uc8-a1-m2-cB_3uc8-a1-m2-cC GDAYAQWLADGGPSSGRPPPSG GDAYAQWLADGGPSSGRPPPSG 3uca-a1-m1-cB_3uca-a1-m1-cA Crystal structure of isoprenoid synthase (target EFI-501974) from clostridium perfringens Q8XJE0 Q8XJE0 2 X-RAY DIFFRACTION 149 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 269 274 AMNINSLKEEVDQSLKAYFNKDREYNKVLYDSMAYSINVGGKRIRPILMLLSYYIYKSDYKKILTPAMAIEMIHTYSLIHDDLPCMDNDDLRRGKPTNHKVFGEAIAVLAGDALLNEAMKILVDYSLEEGKSALKATKIIADAAGSDGMIGGQIVDIINEDSLKELDYMHLKKTGELIKASIMSGAVLAEASEGDIKKLEGFGYKLGLAFQIKDDILDVVNNYITIFGLEECKKKCVNITEECIEILSSIKGNTEPLKVLTMKLLERKF AMNINSLKEEVDQSLKAYFNKDREYNKVLYDSMAYSINVGGKRIRPILMLLSYYIYKSDYKKILTPAMAIEMIHTYSLIHDDLPCMDNDDLRRGKPTNHKVFGEAIAVLAGDALLNEAMKILVDYSLEEGKSALKATKIIADAAGSDGMIGGQIVDIINEDKEEISLKELDYMHLKKTGELIKASIMSGAVLAEASEGDIKKLEGFGYKLGLAFQIKDDILDVVGNNYITIFGLEECKKKCVNITEECIEILSSIKGNTEPLKVLTMKLLERKF 3uce-a4-m1-cB_3uce-a4-m1-cD Crystal structure of a small-chain dehydrogenase in complex with NADPH Q7MBY8 Q7MBY8 1.798 X-RAY DIFFRACTION 114 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 219 219 3uce-a1-m1-cA_3uce-a1-m1-cC 3uce-a1-m1-cB_3uce-a1-m1-cD 3uce-a2-m1-cA_3uce-a2-m1-cC DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLTKTEAYKGMNADDRDAMYQRTQSHLPVGKVGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLTKTEAYKGMNADDRDAMYQRTQSHLPVGKVGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG 3uce-a5-m1-cC_3uce-a5-m1-cD Crystal structure of a small-chain dehydrogenase in complex with NADPH Q7MBY8 Q7MBY8 1.798 X-RAY DIFFRACTION 118 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 219 219 3uce-a1-m1-cA_3uce-a1-m1-cB 3uce-a1-m1-cC_3uce-a1-m1-cD 3uce-a3-m1-cA_3uce-a3-m1-cB 3ucf-a1-m1-cD_3ucf-a1-m1-cC 3ucf-a5-m1-cD_3ucf-a5-m1-cC DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLTKTEAYKGMNADDRDAMYQRTQSHLPVGKVGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLTKTEAYKGMNADDRDAMYQRTQSHLPVGKVGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG 3ucf-a3-m1-cA_3ucf-a3-m1-cB Crystal structure of a small-chain dehydrogenase Q7MBY8 Q7MBY8 2.347 X-RAY DIFFRACTION 98 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 187 195 3ucf-a1-m1-cA_3ucf-a1-m1-cB DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLLPVGKVGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG 3ucf-a4-m1-cD_3ucf-a4-m1-cB Crystal structure of a small-chain dehydrogenase Q7MBY8 Q7MBY8 2.347 X-RAY DIFFRACTION 112 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 186 195 3ucf-a1-m1-cA_3ucf-a1-m1-cC 3ucf-a1-m1-cD_3ucf-a1-m1-cB 3ucf-a2-m1-cA_3ucf-a2-m1-cC DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGEASDIAMAYLFAIQNSYMTGTVIDVDGGALL DKTVYVVLGGTSGIGAELAKQLESEHTIVHVASRQTGLDISDEKSVYHYFETIGAFDHLIVTAGSYAPAGKVVDVEVTQAKYAFDTKFWGAVLAAKHGARYLKQGGSITLTSGMLSRKVVANTYVKAAINAAIEATTKVLAKELAPIRVNAISPGLLPVGKVGEASDIAMAYLFAIQNSYMTGTVIDVDGGALLG 3uch-a2-m2-cA_3uch-a2-m3-cA Crystal structure of a peptidyl-prolyl cis-trans isomerase E (PPIE) from Homo sapiens at 2.50 A resolution Q9UNP9 Q9UNP9 2.5 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 168 3uch-a2-m1-cA_3uch-a2-m2-cA 3uch-a2-m1-cA_3uch-a2-m3-cA GEPIAKKARSNPQVYDIKIGNKPAGRIQLLRSDVVPTAENFRCLCTHEKGFGFKGSSFHRIIPQFCQGGDFTNHNGTGGKSIYGKKFDDENFILKHTGPGLLSANSGPNTNGSQFFLTCDKTDWLDGKHVVFGEVTEGLDVLRQIEAQGSKDGKPKQKVIIADCGEYV GEPIAKKARSNPQVYDIKIGNKPAGRIQLLRSDVVPTAENFRCLCTHEKGFGFKGSSFHRIIPQFCQGGDFTNHNGTGGKSIYGKKFDDENFILKHTGPGLLSANSGPNTNGSQFFLTCDKTDWLDGKHVVFGEVTEGLDVLRQIEAQGSKDGKPKQKVIIADCGEYV 3ucj-a1-m1-cA_3ucj-a1-m2-cB Coccomyxa beta-carbonic anhydrase in complex with acetazolamide Q96554 Q96554 1.85 X-RAY DIFFRACTION 128 1.0 41892 (Coccomyxa sp. PA) 41892 (Coccomyxa sp. PA) 222 222 3ucj-a1-m1-cB_3ucj-a1-m2-cA 3uck-a1-m1-cA_3uck-a1-m2-cB 3uck-a1-m1-cB_3uck-a1-m2-cA 3ucm-a1-m1-cA_3ucm-a1-m2-cB 3ucm-a1-m1-cB_3ucm-a1-m2-cA 3ucn-a1-m1-cA_3ucn-a1-m2-cB 3ucn-a1-m1-cB_3ucn-a1-m2-cA 3uco-a1-m1-cA_3uco-a1-m2-cB 3uco-a1-m1-cB_3uco-a1-m2-cA TADLSPLLEANRKWADECAAKDSTYFSKVAGSQAPEYLYIGCADSRVSPAQLFNMAPGEVFVQRNVGNLVSNKDLNCMSCLEYTVDHLKIKHILVCGHYNCGACKAGLVWHPKTAGVTNLWISDVREVRDKNAAKLHGLSADDAWDKMVELNVEAQVFNVCASPIVQAAWARGQPLSVHGIVYTPGTGLVKELIKPITGMEDAGALLRADLKQHCFFSESLA TADLSPLLEANRKWADECAAKDSTYFSKVAGSQAPEYLYIGCADSRVSPAQLFNMAPGEVFVQRNVGNLVSNKDLNCMSCLEYTVDHLKIKHILVCGHYNCGACKAGLVWHPKTAGVTNLWISDVREVRDKNAAKLHGLSADDAWDKMVELNVEAQVFNVCASPIVQAAWARGQPLSVHGIVYTPGTGLVKELIKPITGMEDAGALLRADLKQHCFFSESLA 3ucj-a1-m1-cB_3ucj-a1-m2-cB Coccomyxa beta-carbonic anhydrase in complex with acetazolamide Q96554 Q96554 1.85 X-RAY DIFFRACTION 10 1.0 41892 (Coccomyxa sp. PA) 41892 (Coccomyxa sp. PA) 222 222 3ucj-a1-m1-cA_3ucj-a1-m2-cA 3ucn-a1-m1-cB_3ucn-a1-m2-cB 3uco-a1-m1-cA_3uco-a1-m2-cA TADLSPLLEANRKWADECAAKDSTYFSKVAGSQAPEYLYIGCADSRVSPAQLFNMAPGEVFVQRNVGNLVSNKDLNCMSCLEYTVDHLKIKHILVCGHYNCGACKAGLVWHPKTAGVTNLWISDVREVRDKNAAKLHGLSADDAWDKMVELNVEAQVFNVCASPIVQAAWARGQPLSVHGIVYTPGTGLVKELIKPITGMEDAGALLRADLKQHCFFSESLA TADLSPLLEANRKWADECAAKDSTYFSKVAGSQAPEYLYIGCADSRVSPAQLFNMAPGEVFVQRNVGNLVSNKDLNCMSCLEYTVDHLKIKHILVCGHYNCGACKAGLVWHPKTAGVTNLWISDVREVRDKNAAKLHGLSADDAWDKMVELNVEAQVFNVCASPIVQAAWARGQPLSVHGIVYTPGTGLVKELIKPITGMEDAGALLRADLKQHCFFSESLA 3ucj-a1-m2-cA_3ucj-a1-m2-cB Coccomyxa beta-carbonic anhydrase in complex with acetazolamide Q96554 Q96554 1.85 X-RAY DIFFRACTION 235 1.0 41892 (Coccomyxa sp. PA) 41892 (Coccomyxa sp. PA) 222 222 3ucj-a1-m1-cA_3ucj-a1-m1-cB 3uck-a1-m1-cA_3uck-a1-m1-cB 3uck-a1-m2-cA_3uck-a1-m2-cB 3ucm-a1-m1-cA_3ucm-a1-m1-cB 3ucm-a1-m2-cA_3ucm-a1-m2-cB 3ucn-a1-m1-cA_3ucn-a1-m1-cB 3ucn-a1-m2-cA_3ucn-a1-m2-cB 3uco-a1-m1-cA_3uco-a1-m1-cB 3uco-a1-m2-cA_3uco-a1-m2-cB TADLSPLLEANRKWADECAAKDSTYFSKVAGSQAPEYLYIGCADSRVSPAQLFNMAPGEVFVQRNVGNLVSNKDLNCMSCLEYTVDHLKIKHILVCGHYNCGACKAGLVWHPKTAGVTNLWISDVREVRDKNAAKLHGLSADDAWDKMVELNVEAQVFNVCASPIVQAAWARGQPLSVHGIVYTPGTGLVKELIKPITGMEDAGALLRADLKQHCFFSESLA TADLSPLLEANRKWADECAAKDSTYFSKVAGSQAPEYLYIGCADSRVSPAQLFNMAPGEVFVQRNVGNLVSNKDLNCMSCLEYTVDHLKIKHILVCGHYNCGACKAGLVWHPKTAGVTNLWISDVREVRDKNAAKLHGLSADDAWDKMVELNVEAQVFNVCASPIVQAAWARGQPLSVHGIVYTPGTGLVKELIKPITGMEDAGALLRADLKQHCFFSESLA 3ucq-a1-m1-cA_3ucq-a1-m2-cA Crystal structure of amylosucrase from Deinococcus geothermalis Q1J0W0 Q1J0W0 1.97 X-RAY DIFFRACTION 100 1.0 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 650 650 3uer-a1-m1-cA_3uer-a1-m2-cA GPLGSMLKDVLTSELAAQVRDAFDDDRDAETFLLRLERYGEDLWESLRAVYGDQVRALPGRLLEVMLHAYHARPAELRRLDEARLLRPDWLQRPEMVGYVAYTDRFAGTLKGVEERLDYLEGLGVKYLHLMPLLRPREGENDGGYAVQDYRAVRPDLGTMDDLSALARALRGRGISLVLDLVLNHVAREHAWAQKARAGDPKYRAYFHLFPDRRGPDAFEATLPEIFPDFAPGNFSWDEEIGEGEGGWVWTTFNSYQWDLNWANPDVFLEFVDIILYLANRGVEVFRLDAIAFIWKRLGTDCQNQPEVHHLTRALRAAARIVAPAVAFKAEAIVAPADLIHYLGTRAHHGKVSDMAYHNSLMVQLWSSLASRNTRLFEEALRAFPPKPTSTTWGLYVRCHDDIGWAISDEDAARAGLNGAAHRHFLSDFYSGQFPGSFARGLVFQYNPVNGDRRISGSAASLAGLEAALETGDPGRIEDAVRRLLLLHTVILGFGGVPLLYMGDELALLNDYAFEDVPEHAPDNRWVHRPQMDWALAERVRQEPSSPAGRVNTGLRHLLRVRRDTPQLHASIESQVLPSPDSRALLLRRDHPLGGMVQVYNFSEETVMLPSHVLRDVLGDHVQDRLSGSAFRLDRPTVRLGYRALWLTAG GPLGSMLKDVLTSELAAQVRDAFDDDRDAETFLLRLERYGEDLWESLRAVYGDQVRALPGRLLEVMLHAYHARPAELRRLDEARLLRPDWLQRPEMVGYVAYTDRFAGTLKGVEERLDYLEGLGVKYLHLMPLLRPREGENDGGYAVQDYRAVRPDLGTMDDLSALARALRGRGISLVLDLVLNHVAREHAWAQKARAGDPKYRAYFHLFPDRRGPDAFEATLPEIFPDFAPGNFSWDEEIGEGEGGWVWTTFNSYQWDLNWANPDVFLEFVDIILYLANRGVEVFRLDAIAFIWKRLGTDCQNQPEVHHLTRALRAAARIVAPAVAFKAEAIVAPADLIHYLGTRAHHGKVSDMAYHNSLMVQLWSSLASRNTRLFEEALRAFPPKPTSTTWGLYVRCHDDIGWAISDEDAARAGLNGAAHRHFLSDFYSGQFPGSFARGLVFQYNPVNGDRRISGSAASLAGLEAALETGDPGRIEDAVRRLLLLHTVILGFGGVPLLYMGDELALLNDYAFEDVPEHAPDNRWVHRPQMDWALAERVRQEPSSPAGRVNTGLRHLLRVRRDTPQLHASIESQVLPSPDSRALLLRRDHPLGGMVQVYNFSEETVMLPSHVLRDVLGDHVQDRLSGSAFRLDRPTVRLGYRALWLTAG 3ucr-a2-m1-cB_3ucr-a2-m1-cD Crystal structure of the immunoreceptor TIGIT IgV domain Q495A1 Q495A1 2.627 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 3ucr-a1-m1-cA_3ucr-a1-m1-cC 3udw-a1-m1-cB_3udw-a1-m1-cA MTGTIETTGNISAEKGGSIILQCHLSSTTAQVTQVNWEQQDQLLAICNADLGWHISPSFKDRVAPGPGLGLTLQSLTVNDTGEYFCIYHTYPDGTYTGRIFLEVLE MTGTIETTGNISAEKGGSIILQCHLSSTTAQVTQVNWEQQDQLLAICNADLGWHISPSFKDRVAPGPGLGLTLQSLTVNDTGEYFCIYHTYPDGTYTGRIFLEVLE 3ucs-a1-m1-cA_3ucs-a1-m1-cB Crystal structure of the complex between CBPA J-domain and CBPM B5Y388 B5Y388 1.87 X-RAY DIFFRACTION 64 1.0 507522 (Klebsiella pneumoniae 342) 507522 (Klebsiella pneumoniae 342) 99 100 ATVTVTFTITELCLRTGVSEEELTEIVGLGMIEPHQPQADTWLFDDSAVTIVHRAVRLRNELELDWPGIAVALTLLDENARLTRENRLLQQRLARFLAH ATVTVTFTITELCLRTGVSEEELTEIVGLGMIEPHQPQADTWLFDDSAVTIVHRAVRLRNELELDWPGIAVALTLLDENARLTRENRLLQQRLARFLAHG 3uct-a1-m1-cB_3uct-a1-m1-cA Structure of Mn2+-bound N-terminal domain of calmodulin in the presence of Zn2+ P0DP23 P0DP23 1.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 76 LTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARK DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMK 3ucw-a2-m1-cC_3ucw-a2-m2-cD Structure of MG2+ bound N-Terminal domain of Calmodulin P0DP23 P0DP23 1.76 X-RAY DIFFRACTION 49 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 76 78 3ucw-a1-m1-cA_3ucw-a1-m1-cB ADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKM DQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDT 3ucx-a1-m2-cA_3ucx-a1-m4-cA The structure of a Short chain dehydrogenase from Mycobacterium smegmatis A0R4R9 A0R4R9 1.85 X-RAY DIFFRACTION 96 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 258 258 3ucx-a1-m1-cA_3ucx-a1-m3-cA GLLTDKVVVISGVGPALGTTLARRCAEQGADLVLAARTVERLEDVAKQVTDTGRRALSVGTDITDDAQVAHLVDETMKAYGRVDVVINNAFRVPSMKPFANTTFEHMRDAIELTVFGALRLIQGFTPALEESKGAVVNVNSMVVRHSQAKYGAYKMAKSALLAMSQTLATELGEKGIRVNSVLPGYIWGGTLKSYFEHQAGKYGTSVEDIYNAAAAGSDLKRLPTEDEVASAILFMASDLASGITGQALDVNCGEYKA GLLTDKVVVISGVGPALGTTLARRCAEQGADLVLAARTVERLEDVAKQVTDTGRRALSVGTDITDDAQVAHLVDETMKAYGRVDVVINNAFRVPSMKPFANTTFEHMRDAIELTVFGALRLIQGFTPALEESKGAVVNVNSMVVRHSQAKYGAYKMAKSALLAMSQTLATELGEKGIRVNSVLPGYIWGGTLKSYFEHQAGKYGTSVEDIYNAAAAGSDLKRLPTEDEVASAILFMASDLASGITGQALDVNCGEYKA 3ucx-a1-m3-cA_3ucx-a1-m4-cA The structure of a Short chain dehydrogenase from Mycobacterium smegmatis A0R4R9 A0R4R9 1.85 X-RAY DIFFRACTION 115 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 258 258 3ucx-a1-m1-cA_3ucx-a1-m2-cA GLLTDKVVVISGVGPALGTTLARRCAEQGADLVLAARTVERLEDVAKQVTDTGRRALSVGTDITDDAQVAHLVDETMKAYGRVDVVINNAFRVPSMKPFANTTFEHMRDAIELTVFGALRLIQGFTPALEESKGAVVNVNSMVVRHSQAKYGAYKMAKSALLAMSQTLATELGEKGIRVNSVLPGYIWGGTLKSYFEHQAGKYGTSVEDIYNAAAAGSDLKRLPTEDEVASAILFMASDLASGITGQALDVNCGEYKA GLLTDKVVVISGVGPALGTTLARRCAEQGADLVLAARTVERLEDVAKQVTDTGRRALSVGTDITDDAQVAHLVDETMKAYGRVDVVINNAFRVPSMKPFANTTFEHMRDAIELTVFGALRLIQGFTPALEESKGAVVNVNSMVVRHSQAKYGAYKMAKSALLAMSQTLATELGEKGIRVNSVLPGYIWGGTLKSYFEHQAGKYGTSVEDIYNAAAAGSDLKRLPTEDEVASAILFMASDLASGITGQALDVNCGEYKA 3udb-a8-m2-cE_3udb-a8-m1-cB Crystal structure of SnRK2.6 Q940H6 Q940H6 2.567 X-RAY DIFFRACTION 45 0.992 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 255 278 3udb-a7-m1-cC_3udb-a7-m1-cD 3udb-a7-m1-cF_3udb-a7-m1-cA 3udb-a8-m1-cE_3udb-a8-m2-cB 3zuu-a1-m1-cA_3zuu-a1-m1-cB PIMHDSDRYELVKDIGVARLMRDKQANELVAVKYIERGEKIDENVKREIINHRSLRHPNIVRFKEVILTPTHLAIVMEYASGGELFERICNAGRFSEDEARFFFQQLISGVSYAHAMQLENTLLDGSPAPRLKIATPAYIAPEVLLKKEYDGKVADVWSCGVTLYVMLVGAYPFEPKNFRKTIHRILNVQYAIPDYVHISPECRHLISRIFVADPAKRISIPEIRNHEWFLKNLPADLMNGQSIEEIMQIIAEAT LPIMHDSDRYELVKDIGAGNFGVARLMRDKQANELVAVKYIERGEKIDENVKREIINHRSLRHPNIVRFKEVILTPTHLAIVMEYASGGELFERICNAGRFSEDEARFFFQQLISGVSYAHAMQVAHRDLKLENTLLDGSPAPRLKIADFGYGTPAYIAPEVLLKKEYDGKVADVWSCGVTLYVMLVGAYPFEDPEEPKNFRKTIHRILNVQYAIPDYVHISPECRHLISRIFVADPAKRISIPEIRNHEWFLKNLPADLQPGQSIEEIMQIIAEATV 3udb-a8-m2-cE_3udb-a8-m2-cB Crystal structure of SnRK2.6 Q940H6 Q940H6 2.567 X-RAY DIFFRACTION 34 0.992 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 255 278 3udb-a7-m1-cC_3udb-a7-m1-cA 3udb-a7-m1-cF_3udb-a7-m1-cD 3udb-a8-m1-cE_3udb-a8-m1-cB PIMHDSDRYELVKDIGVARLMRDKQANELVAVKYIERGEKIDENVKREIINHRSLRHPNIVRFKEVILTPTHLAIVMEYASGGELFERICNAGRFSEDEARFFFQQLISGVSYAHAMQLENTLLDGSPAPRLKIATPAYIAPEVLLKKEYDGKVADVWSCGVTLYVMLVGAYPFEPKNFRKTIHRILNVQYAIPDYVHISPECRHLISRIFVADPAKRISIPEIRNHEWFLKNLPADLMNGQSIEEIMQIIAEAT LPIMHDSDRYELVKDIGAGNFGVARLMRDKQANELVAVKYIERGEKIDENVKREIINHRSLRHPNIVRFKEVILTPTHLAIVMEYASGGELFERICNAGRFSEDEARFFFQQLISGVSYAHAMQVAHRDLKLENTLLDGSPAPRLKIADFGYGTPAYIAPEVLLKKEYDGKVADVWSCGVTLYVMLVGAYPFEDPEEPKNFRKTIHRILNVQYAIPDYVHISPECRHLISRIFVADPAKRISIPEIRNHEWFLKNLPADLQPGQSIEEIMQIIAEATV 3udc-a1-m1-cB_3udc-a1-m1-cG Crystal structure of a membrane protein P0C0S1 P0C0S1 3.355 X-RAY DIFFRACTION 188 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 267 267 3t9n-a1-m1-cB_3t9n-a1-m1-cA 3t9n-a1-m1-cB_3t9n-a1-m1-cG 3t9n-a1-m1-cC_3t9n-a1-m1-cF 3t9n-a1-m1-cC_3t9n-a1-m1-cG 3t9n-a1-m1-cD_3t9n-a1-m1-cA 3t9n-a1-m1-cE_3t9n-a1-m1-cD 3t9n-a1-m1-cE_3t9n-a1-m1-cF 3udc-a1-m1-cA_3udc-a1-m1-cB 3udc-a1-m1-cA_3udc-a1-m1-cD 3udc-a1-m1-cC_3udc-a1-m1-cF 3udc-a1-m1-cC_3udc-a1-m1-cG 3udc-a1-m1-cD_3udc-a1-m1-cE 3udc-a1-m1-cE_3udc-a1-m1-cF YDIKAVKFLLDVLKILIIAFIGIKFADFLIYRFYKLYSKSKIQLPQRKIDTLTSLTKNAVRYIIYFLAGASILKLFNIDMTSLLAVAGIGSLAIGFGAQNLVKDMISGFFIIFEDQFSVGDYVTINGISGTVEEIGLRVTKIRGFSDGLHIIPNGEIKMVTNLTKDSMMAVVNIAFPIDEDVDKIIEGLQEICEEVKKSRDDLIEGPTVLGITDMQDSKLVIMVYAKTQPMQKWAVERDIRYRVKKMFDQKNISFPYPQMDVNFKRV YDIKAVKFLLDVLKILIIAFIGIKFADFLIYRFYKLYSKSKIQLPQRKIDTLTSLTKNAVRYIIYFLAGASILKLFNIDMTSLLAVAGIGSLAIGFGAQNLVKDMISGFFIIFEDQFSVGDYVTINGISGTVEEIGLRVTKIRGFSDGLHIIPNGEIKMVTNLTKDSMMAVVNIAFPIDEDVDKIIEGLQEICEEVKKSRDDLIEGPTVLGITDMQDSKLVIMVYAKTQPMQKWAVERDIRYRVKKMFDQKNISFPYPQMDVNFKRV 3udd-a3-m1-cA_3udd-a3-m1-cB Tankyrase-1 in complex with small molecule inhibitor O95271 O95271 1.95 X-RAY DIFFRACTION 45 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 204 210 3uh4-a3-m1-cA_3uh4-a3-m1-cB GTILLDLAPEDKEYQSVEEEMQSTIREHRDGGNAGGIFNRYNVIRIQKVVNKKLRERFCHRQKEVSEENHNHHNERMLFHGSPFINAIIHKGFDERHAYIGGMFGAGIYFAENSSKSNQYVYGIGGGTGCPTHKDRSCYICHRQMLFCRVTLGKSFLQFSTIKMAHAPPGHHSVIGRYAEYVIYRGEQAYPEYLITYQIMKPEA GTILLDLAPEDKEYQSVEEEMQSTIREHRDGGNAGGIFNRYNVIRIQKVVNKKLRERFCHRQKEVSEENHNHHNERMLFHGSPFINAIIHKGFDERHAYIGGMFGAGIYFAENSSKSNQYVYGIGGGTGCPTHKDRSCYICHRQMLFCRVTLGKSFLQFSTIKMAHAPPGHHSVIGRPSVNGLAYAEYVIYRGEQAYPEYLITYQIMKPE 3udg-a2-m1-cB_3udg-a2-m1-cC Structure of Deinococcus radiodurans SSB bound to ssDNA Q9RY51 Q9RY51 2.4 X-RAY DIFFRACTION 55 0.981 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 214 214 3udg-a1-m1-cA_3udg-a1-m2-cA GMNHVYLIGALARDPELRYTGNGMAVFEATVAGEDRVERNLPWYHRVSILGKPAEWQAERNLKGGDAVVVEGTLEYRQWEAPEGGKRSAVNVKALRMEQLGTQPELIQDAGGGVRMSGAMNEVLVLGNVTRDPEIRYTPAGDAVLSLSIAVNENYQDRQGQRQEKVHYIDATLWRDLAENMKELRKGDPVMIMGRLVNRNSTRVEATRVEALAR RGMNHVYLIGALARDPELRYTGNGMAVFEATVAGEDRVIRERNLPWYHRVSILGKPAEWQAERNLKGGDAVVVEGTLEYRQWEAPEGGKRSAVNVKALRMEQLGTQPELIQDAGGGVRMSGAMNEVLVLGNVTRDPEIRYTPAGDAVLSLSIAVNENYQDGQRQEKVHYIDATLWRDLAENMKELRKGDPVMIMGRLVNESTRVEATRVEALAR 3udu-a4-m3-cH_3udu-a4-m1-cF Crystal structure of putative 3-isopropylmalate dehydrogenase from Campylobacter jejuni Q9PLW0 Q9PLW0 1.85 X-RAY DIFFRACTION 154 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 354 356 3udo-a1-m1-cA_3udo-a1-m2-cA 3udu-a1-m1-cB_3udu-a1-m1-cA 3udu-a2-m1-cC_3udu-a2-m1-cD 3udu-a3-m1-cE_3udu-a3-m2-cG TYKVAVLAGDGIGPLVMKEALKILTFIAQKYNFSFELNEAKIGGASIDAYGVALSDETLKLCEQSDAILFGSVGGPKWDLPIDQRPERASLLPLRKHFNLFANLRPCKIYESLTHASPLKNEIIQKGVDILCVRELTGGIYFGKQDLGKESAYDTEIYTKKEIERIARIAFESARIRKKKVHLIDKANVLASSILWREVVANVAKDYQDINLEYMYVDNAAMQIVKNPSIFDVMLCSNLFGDILSDELAAINGSLGLLSSASLNDKGFGLYEPAGGSAPDIAHLNIANPIAQILSAALMLKYSFKEEQAAQDIENAISLALAQGKMTKDLNAKSYLNTDEMGDCILEILKENDN KTYKVAVLAGDGIGPLVMKEALKILTFIAQKYNFSFELNEAKIGGASIDAYGVALSDETLKLCEQSDAILFGSVGGPKWDNLPIDQRPERASLLPLRKHFNLFANLRPCKIYESLTHASPLKNEIIQKGVDILCVRELTGGIYFGKQDLGKESAYDTEIYTKKEIERIARIAFESARIRKKKVHLIDKANVLASSILWREVVANVAKDYQDINLEYMYVDNAAMQIVKNPSIFDVMLCSNLFGDILSDELAAINGSLGLLSSASLNDKGFGLYEPAGGSAPDIAHLNIANPIAQILSAALMLKYSFKEEQAAQDIENAISLALAQGKMTKDLNAKSYLNTDEMGDCILEILKENDN 3udx-a1-m1-cB_3udx-a1-m1-cA Crystal structure of Acinetobacter baumannii PBP1a in complex with Imipenem G1C794 G1C794 2.5 X-RAY DIFFRACTION 131 0.997 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 595 598 3udf-a1-m1-cA_3udf-a1-m1-cB 3udi-a1-m1-cA_3udi-a1-m1-cB 3ue0-a1-m1-cB_3ue0-a1-m1-cA 3ue1-a1-m1-cB_3ue1-a1-m1-cA KPLQVYTADNQLIAEYGGKLSIPVEYKQIPPNFIHAFLAAEDSSFFNLSKEDILSLYVNKIFLGKNAYGIAAAAKIYYNKSINELSIAQMAMIAGLPKAPSKYNPVVNPERALERRNWILGRMLQLGYISQAEYQKAVAEPINLNMPNRDLNNIHPYAGEMVRSELVKHFGEQAIDSGYKVYTTINAKRQAIAEKAVQDGLEAYDRRHGWRGAEAHDKPLSEFRAYANTYPAQVTKVNSSSFEALMQDGSTVTVQWSGMSWARPYRNANSVGAAPSRASQIVKVKDIVRLRPNEAKTAWSLVQVPKVQGQLIAINPNDGSIEAIVGGYNFYQSKFNRALQGWRQPGSTIKPFLYALALERGMTPYSMVNDSPITIGKWTPKNSDGRYLGMIPLRRALYLSRNTVSVRLLQTVGIERTRQLFMDFGLQEDQIPRNYTIALGTPQVLPIQMATGYATFANGGYRVQPHFIQRIEDAYGKVIYEAKPEYACIPCINAQYRQAQRILKSSSAYDMANILRDVIEHGIGRSDLGGKTGTTNDAKDAWFAGFNGKLVTVTWVGFDQPTTLGRREYGGIAALPIWINFMGQALQGTPAAWVR KPLQVYTADNQLIAEYGGKLSIPVEYKQIPPNFIHAFLAAEDSSFFQNLSKEDILSLYVNKIFLGKNAYGIAAAAKIYYNKSINELSIAQMAMIAGLPKAPSKYNPVVNPERALERRNWILGRMLQLGYISQAEYQKAVAEPINLNMPNRDLNNIHPYAGEMVRSELVKHFGEQAIDSGYKVYTTINAKRQAIAEKAVQDGLEAYDRRHGWRGAEAHDKPLSEFRAYANTYPAQVTKVNSSSFEALMQDGSTVTVQWSGMSWARPYRNANSVGAAPSRASQIVKVKDIVRLRPNEAKTAWSLVQVPKVQGQLIAINPNDGSIEAIVGGYNFYQSKFNRALQGWRQPGSTIKPFLYALALERGMTPYSMVNDSPITIGKWTPKNSDGRYLGMIPLRRALYLSRNTVSVRLLQTVGIERTRQLFMDFGLQEDQIPRNYTIALGTPQVLPIQMATGYATFANGGYRVQPHFIQRIEDAYGKVIYEAKPEYACIPCIQYRQAQRILKSSSAYDMANILRDVIEHGTIGRSDLGGKTGTTNDAKDAWFAGFNGKLVTVTWVGFDQPTTLGRREYGGIAALPIWINFMGQALQGTPAAWVRLEK 3udz-a1-m1-cA_3udz-a1-m1-cB Inositol 1,3,4,5,6-pentakisphosphate 2-kinase from A. thaliana in complex with ADP and IP6. Q93YN9 Q93YN9 2.5 X-RAY DIFFRACTION 29 0.995 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 374 389 3uds-a3-m1-cB_3uds-a3-m1-cA 3udt-a3-m1-cA_3udt-a3-m1-cB EILEEKDASDWIYRGEGGANLVLAYAGSSPLFVGKVIRIQKARRSVLTSDEQHLWRENNELISSPNKEVLEQRYVQNVIIPLLGPKHVDAGVRVSVSKEFLECVDKKVTKQRPLWRVNAANVDTSHDSALILNDHSLFDCISVEIKPKCGFLPTSRFIGKENILKTSVSRFKHQLLKLEYIEISEESEYDPLDLFSGSKERVLEAIKALYSTPQNNFRVFLNGSLILGGSGESTGRTSPEIGYAFEDALKGFIQSRTECFLQLVSDAVYGSGVLDRLLEIQKLDKLDIEGAIHCYYDIINQPCPIALPLDESLKIVKEYLIAATAKDCSIISFQSTNQTFDYKVHFIDLSLKPLKRESYYKLDKKIISFYNRKQ ILEEKDASDWIYRGEGGANLVLAYAGSSPLFVGKVIRIQKARRVLTSDEQHLWRENNELISSPNKEVLEQRYVQNVIIPLLGPKHVDAGVRVSVSKEFLECVDKKVTKQRPLWRVNAANVDTSHDSALILNDHSLFDCISVEIKPKCGFLPTSRFIGKENILKTSVSRFKHQLLKLEYIEISEESEYDPLDLFSGSKERVLEAIKALYSTPQNNFRVFLNGSLILGGSGESTGRTSPEIGYAFEDALKGFIQSEDGHRTECFLQLVSDAVYGSGVLDRLLEIQKLDKLDIEGAIHCYYDIINQPCPILSLHALPLDESLKIVKEYLIAATAKDCSIISFQSYVSLKPTNQTFDYKVHFIDLSLKPLKRESYYKLDKKIISFYNRKQKAE 3ue6-a4-m1-cB_3ue6-a4-m1-cA The dark structure of the blue-light photoreceptor Aureochrome1 LOV A8QW55 A8QW55 2.75 X-RAY DIFFRACTION 76 1.0 195983 (Vaucheria frigida) 195983 (Vaucheria frigida) 128 135 3ue6-a1-m1-cB_3ue6-a1-m1-cA 3ue6-a2-m1-cC_3ue6-a2-m1-cD 3ue6-a3-m1-cF_3ue6-a3-m1-cE 3ue6-a4-m1-cC_3ue6-a4-m1-cD 3ue6-a4-m1-cF_3ue6-a4-m1-cE 3ulf-a1-m1-cB_3ulf-a1-m1-cA 3ulf-a2-m1-cC_3ulf-a2-m1-cD 3ulf-a3-m1-cF_3ulf-a3-m1-cE 3ulf-a4-m1-cB_3ulf-a4-m1-cA 3ulf-a4-m1-cC_3ulf-a4-m1-cD 3ulf-a4-m1-cF_3ulf-a4-m1-cE SLVKALQMAQQNFVITDASLPDNPIVYASRGFLTLTGYSLDQILGRNCRFLQGPETDPRAVDKIRNAITKGVDTSVCLLNYRQDGTTFWNLFFVAGLRDSKGNIVNYVGVQSKVSEDYAKLLVNEQNI EDPDYSLVKALQMAQQNFVITDASLPDNPIVYASRGFLTLTGYSLDQILGRNCRFLQGPETDPRAVDKIRNAITKGVDTSVCLLNYRQDGTTFWNLFFVAGLRDSKGNIVNYVGVQSKVSEDYAKLLVNEQNIEY 3ue6-a4-m1-cD_3ue6-a4-m1-cE The dark structure of the blue-light photoreceptor Aureochrome1 LOV A8QW55 A8QW55 2.75 X-RAY DIFFRACTION 14 1.0 195983 (Vaucheria frigida) 195983 (Vaucheria frigida) 130 138 3ue6-a4-m1-cB_3ue6-a4-m1-cD 3ue6-a4-m1-cB_3ue6-a4-m1-cE 3ue6-a4-m1-cC_3ue6-a4-m1-cA 3ue6-a4-m1-cC_3ue6-a4-m1-cF 3ue6-a4-m1-cF_3ue6-a4-m1-cA 3ulf-a4-m1-cB_3ulf-a4-m1-cD 3ulf-a4-m1-cB_3ulf-a4-m1-cE 3ulf-a4-m1-cC_3ulf-a4-m1-cA 3ulf-a4-m1-cC_3ulf-a4-m1-cF 3ulf-a4-m1-cD_3ulf-a4-m1-cE 3ulf-a4-m1-cF_3ulf-a4-m1-cA YSLVKALQMAQQNFVITDASLPDNPIVYASRGFLTLTGYSLDQILGRNCRFLQGPETDPRAVDKIRNAITKGVDTSVCLLNYRQDGTTFWNLFFVAGLRDSKGNIVNYVGVQSKVSEDYAKLLVNEQNIE RILEDPDYSLVKALQMAQQNFVITDASLPDNPIVYASRGFLTLTGYSLDQILGRNCRFLQGPETDPRAVDKIRNAITKGVDTSVCLLNYRQDGTTFWNLFFVAGLRDSKGNIVNYVGVQSKVSEDYAKLLVNEQNIEY 3ue6-a4-m1-cF_3ue6-a4-m1-cD The dark structure of the blue-light photoreceptor Aureochrome1 LOV A8QW55 A8QW55 2.75 X-RAY DIFFRACTION 19 1.0 195983 (Vaucheria frigida) 195983 (Vaucheria frigida) 127 130 3ue6-a4-m1-cA_3ue6-a4-m1-cE 3ue6-a4-m1-cC_3ue6-a4-m1-cB 3ulf-a4-m1-cA_3ulf-a4-m1-cE 3ulf-a4-m1-cC_3ulf-a4-m1-cB 3ulf-a4-m1-cF_3ulf-a4-m1-cD LVKALQMAQQNFVITDASLPDNPIVYASRGFLTLTGYSLDQILGRNCRFLQGPETDPRAVDKIRNAITKGVDTSVCLLNYRQDGTTFWNLFFVAGLRDSKGNIVNYVGVQSKVSEDYAKLLVNEQNI YSLVKALQMAQQNFVITDASLPDNPIVYASRGFLTLTGYSLDQILGRNCRFLQGPETDPRAVDKIRNAITKGVDTSVCLLNYRQDGTTFWNLFFVAGLRDSKGNIVNYVGVQSKVSEDYAKLLVNEQNIE 3ue9-a2-m1-cB_3ue9-a2-m1-cD Crystal structure of Adenylosuccinate synthetase (AMPSase) (purA) from Burkholderia thailandensis Q2SWD3 Q2SWD3 1.95 X-RAY DIFFRACTION 201 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 421 425 3ue9-a1-m1-cA_3ue9-a1-m1-cC TPGRNVVVVGTQWGDEGKGKIVDWLTDHAQGVVRFQGGHNAGHTILRLIPSGIMREGVACYIGNGVVLSPEALFKEIGELEEAGLSVRERLFISEATTLILPYHIAIDQAREARGIGPAYEDKVGRRALRVQDLFDARTFADRLRENLDFHNFVLTQYLGGAAVDFQATLDTMLGYADRLRPMVADVSRRLYEENHAGRNLLFEGAQGTLLDIDHGTYPFVTSSNCVAGAAAAGAGVGPQKLNYILGITKAYCTRVGSGPFPSELYDADNPSRQDQIGITLANVGKEFGSVTGRPRRTGWLDAAALRRSIQINGVSGLCMTKLDVLDGLDEVKLCVGYKIDGEDADLLPRGAAEVARCEPVYETFGGWKESTVGINSWDALPANARAYLTRVQEVAGVPIDMVSTGPDRDETILLRHPFKV VTPGRNVVVVGTQWGDEGKGKIVDWLTDHAQGVVRFQGGHNAGHTLTILRLIPSGIMREGVACYIGNGVVLSPEALFKEIGELEEAGLSVRERLFISEATTLILPYHIAIDQAREARRGIGPAYEDKVGRRALRVQDLFDARTFADRLRENLDFHNFVLTQYLGGAAVDFQATLDTMLGYADRLRPMVADVSRRLYEENHAGRNLLFEGAQGTLLDIDHGTYPFVTSSNCVAGAAAAGAGVGPQKLNYILGITKAYCTRVGSGPFPSELYDADNPSRQDQIGITLANVGKEFGSVTGRPRRTGWLDAAALRRSIQINGVSGLCMTKLDVLDGLDEVKLCVGYKIDGEDADLLPRGAAEVARCEPVYETFGGWKESTVGINSWDALPANARAYLTRVQEVAGVPIDMVSTGPDRDETILLRHPFKV 3ueb-a2-m1-cD_3ueb-a2-m1-cC Crystal structure of TON_0450 from Thermococcus onnurineus NA1 B6YTZ3 B6YTZ3 1.98 X-RAY DIFFRACTION 58 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 99 103 3ueb-a1-m1-cA_3ueb-a1-m1-cB 3ueb-a3-m1-cF_3ueb-a3-m1-cE SSGKRVIHIGLPELSEEQLIEIGELAQETIIDYVFDHLTRSEVKDIEVTMRINREETLDLEIEVYLEVPIFVKVDVDKLIDEAVERAYEIVERKLREIA GSSGKRVIHIGLPELSEEQLIEIGELAQETIIDYVFDHLTRSEVKDIEVTMRINREETLDLEIEVYLEVPIFVKVDVDKLIDEAVERAYEIVERKLREIANER 3uef-a1-m1-cA_3uef-a1-m1-cC Crystal structure of human Survivin bound to histone H3 (C2 space group). O15392 O15392 2.45 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 137 1e31-a1-m1-cA_1e31-a1-m1-cB 1f3h-a1-m1-cB_1f3h-a1-m1-cA 1xox-a1-m1-cA_1xox-a1-m1-cB 3uec-a1-m1-cA_3uec-a1-m2-cA 3ued-a1-m1-cA_3ued-a1-m1-cC 3uee-a1-m1-cA_3uee-a1-m1-cC 3ueg-a1-m1-cA_3ueg-a1-m1-cB 3ueh-a1-m1-cA_3ueh-a1-m1-cB 3uei-a1-m1-cA_3uei-a1-m1-cB 3uig-a1-m1-cA_3uig-a1-m1-cB 3uih-a1-m1-cB_3uih-a1-m1-cA 3uii-a1-m1-cA_3uii-a1-m1-cB 3uij-a1-m1-cA_3uij-a1-m1-cB 3uik-a1-m1-cA_3uik-a1-m1-cB 4a0i-a1-m1-cA_4a0i-a1-m1-cB 6sho-a1-m1-cA_6sho-a1-m1-cB 7lbk-a1-m1-cB_7lbk-a1-m1-cA 7lbo-a1-m1-cB_7lbo-a1-m1-cA 7lbp-a1-m1-cA_7lbp-a1-m1-cC 7lbq-a1-m1-cA_7lbq-a1-m2-cA TLPPAWQPFLKDHRISTFKNWPFLEGCACTPERMAEAGFIHCPTENEPDLAQCFFCFKELEGWEPDDDPIEEHKKHSSGCAFLSVKKQFEELTLGEFLKLDRERAKNKIAKETNNKKKEFEETAKKVRRAIEQLAA TLPPAWQPFLKDHRISTFKNWPFLEGCACTPERMAEAGFIHCPTENEPDLAQCFFCFKELEGWEPDDDPIEEHKKHSSGCAFLSVKKQFEELTLGEFLKLDRERAKNKIAKETNNKKKEFEETAKKVRRAIEQLAAM 3ueo-a2-m1-cB_3ueo-a2-m1-cD Crystal structure of TopBP1 BRCT4/5 domains in complex with a phospho-peptide Q92547 Q92547 2.6 X-RAY DIFFRACTION 16 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 3ueo-a1-m1-cA_3ueo-a1-m1-cC GLFSQKSFLVLGFSNENESNIANIIKENAGKIMTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS GLFSQKSFLVLGFSNENESNIANIIKENAGKIMVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENST 3uep-a1-m1-cA_3uep-a1-m1-cB Crystal structure of YscQ-C from Yersinia pseudotuberculosis P40296 P40296 2.25 X-RAY DIFFRACTION 167 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 85 85 PLTDLNQLPVQVSFEVGRQILDWHTLTSLEPGSLIDLTTPVDGEVRLLANGRLLGHGRLVEIQGRLGVRIERLTEVTISLEVLFQ PLTDLNQLPVQVSFEVGRQILDWHTLTSLEPGSLIDLTTPVDGEVRLLANGRLLGHGRLVEIQGRLGVRIERLTEVTISLEVLFQ 3ues-a1-m1-cA_3ues-a1-m1-cB Crystal structure of alpha-1,3/4-fucosidase from Bifidobacterium longum subsp. infantis complexed with deoxyfuconojirimycin B7GNN8 B7GNN8 1.6 X-RAY DIFFRACTION 84 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 457 458 3uet-a1-m1-cA_3uet-a1-m1-cB INLNYLANVRPSSRQLAWQRMEMYAFLHFGMNTMTDREWGLGHEDPALFNPRNVDVDQWMDALVAGGMAGVILTCKHHDGFCLWPSRLTRHTVASSPWREGKGDLVREVSESARRHGLKFGVYLSPWDRTEESYGKGKAYDDFYVGQLTELLTQYGPIFSVWLDGANGEGKNGKTQYYDWDRYYNVIRSLQPDAVISVCGPDVRWAGNEAGHVRDNEWSVVPRRLRSAELTTTVSSQDDDLGSREAVAGYGDNVCWYPAEVDTSIRPGWFYHQSEDDKVMSADQLFDLWLSAVGGNSSLLLNIPPSPEGLLAEPDVQSLKGLGRRVSEFREALASVRCEARTSSASAAAAHLVDGNRDTFWRPDADDAAPAITLTLPQPTTINAIVIEEAIEHGQRIEHLRVTGALPDGTERVLGQAGTVGYRRILRFDDVEVSSVTLHVDGSRLAPMISRAAAVRI GINLNYLANVRPSSRQLAWQRMEMYAFLHFGMNTMTDREWGLGHEDPALFNPRNVDVDQWMDALVAGGMAGVILTCKHHDGFCLWPSRLTRHTVASSPWREGKGDLVREVSESARRHGLKFGVYLSPWDRTEESYGKGKAYDDFYVGQLTELLTQYGPIFSVWLDGANGEGKNGKTQYYDWDRYYNVIRSLQPDAVISVCGPDVRWAGNEAGHVRDNEWSVVPRRLRSAELTTTVSSQDDDLGSREAVAGYGDNVCWYPAEVDTSIRPGWFYHQSEDDKVMSADQLFDLWLSAVGGNSSLLLNIPPSPEGLLAEPDVQSLKGLGRRVSEFREALASVRCEARTSSASAAAAHLVDGNRDTFWRPDADDAAPAITLTLPQPTTINAIVIEEAIEHGQRIEHLRVTGALPDGTERVLGQAGTVGYRRILRFDDVEVSSVTLHVDGSRLAPMISRAAAVRI 3uey-a1-m1-cA_3uey-a1-m1-cB Structural and functional characterization of an anesthetic binding site in the second cysteine-rich domain of protein kinase Cdelta P28867 P28867 1.301 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 65 65 3uff-a1-m1-cA_3uff-a1-m1-cB 3ugd-a1-m1-cA_3ugd-a1-m1-cB 3ugi-a1-m1-cA_3ugi-a1-m1-cB 3ugl-a1-m1-cA_3ugl-a1-m1-cB GSRRASVGSHRFKVFNYMSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCEFIVTD GSRRASVGSHRFKVFNYMSPTFCDHCGSLLWGLVKQGLKCEDCGMNVHHKCREKVANLCEFIVTD 3uez-a2-m1-cB_3uez-a2-m3-cC Crystal structure of the human Colony-Stimulating Factor 1 (hCSF-1) cytokine in complex with the viral receptor BARF1 P03228 P03228 3.414 X-RAY DIFFRACTION 91 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 185 186 2ch8-a1-m1-cD_2ch8-a1-m1-cA 2ch8-a1-m2-cD_2ch8-a1-m2-cA 2ch8-a1-m3-cD_2ch8-a1-m3-cA 2ch8-a2-m1-cB_2ch8-a2-m1-cC 2ch8-a2-m2-cB_2ch8-a2-m2-cC 2ch8-a2-m3-cB_2ch8-a2-m3-cC 3uez-a1-m1-cA_3uez-a1-m2-cD 3uez-a1-m2-cA_3uez-a1-m3-cD 3uez-a1-m3-cA_3uez-a1-m1-cD 3uez-a2-m2-cB_3uez-a2-m1-cC 3uez-a2-m3-cB_3uez-a2-m2-cC 4adf-a1-m1-cB_4adf-a1-m1-cF 4adf-a1-m1-cC_4adf-a1-m1-cE 4adf-a1-m1-cD_4adf-a1-m1-cA 4adf-a2-m1-cO_4adf-a2-m1-cM 4adf-a2-m1-cQ_4adf-a2-m1-cP 4adf-a2-m1-cR_4adf-a2-m1-cN 4adq-a1-m1-cA_4adq-a1-m2-cD 4adq-a1-m2-cA_4adq-a1-m3-cD 4adq-a1-m3-cA_4adq-a1-m1-cD 4adq-a2-m1-cB_4adq-a2-m3-cC 4adq-a2-m2-cB_4adq-a2-m1-cC 4adq-a2-m3-cB_4adq-a2-m2-cC 4fa8-a1-m1-cA_4fa8-a1-m1-cB 4fa8-a1-m1-cD_4fa8-a1-m2-cD 4fa8-a1-m2-cA_4fa8-a1-m2-cB 4fa8-a2-m1-cA_4fa8-a2-m1-cB 4fa8-a2-m1-cD_4fa8-a2-m2-cD 4fa8-a2-m2-cA_4fa8-a2-m2-cB VTAFLGERVTLTSYWRRVSLGPEIEVSWFKLGPGEEQVLIGRMHHDVIFIEWPFRGFFDIHRSANTFFLVVTAANISHDGNYLCRMKLGETEVTKQEHLSVVKPLTLSVHSERSQFPDFSVLTVTCTVNAFPHPHVQWLMVMKEKDGSLSVAVDLSLPKPWHLPVTCVGKNDKEEAHGVYVSGYL VTAFLGERVTLTSYWRRVSLGPEIEVSWFKLGPGEEQVLIGRMHHDVIFIEWPFRGFFDIHRSANTFFLVVTAANISHDGNYLCRMKLGETEVTKQEHLSVVKPLTLSVHSERSQFPDFSVLTVTCTVNAFPHPHVQWLMVMKEKDGSLSVAVDLSLPKPWHLPVTCVGKNDKEEAHGVYVSGYLS 3uez-a2-m2-cB_3uez-a2-m3-cB Crystal structure of the human Colony-Stimulating Factor 1 (hCSF-1) cytokine in complex with the viral receptor BARF1 P03228 P03228 3.414 X-RAY DIFFRACTION 13 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 185 185 2ch8-a1-m1-cA_2ch8-a1-m2-cA 2ch8-a1-m1-cA_2ch8-a1-m3-cA 2ch8-a1-m1-cD_2ch8-a1-m2-cD 2ch8-a1-m1-cD_2ch8-a1-m3-cD 2ch8-a1-m2-cA_2ch8-a1-m3-cA 2ch8-a1-m2-cD_2ch8-a1-m3-cD 2ch8-a2-m1-cB_2ch8-a2-m2-cB 2ch8-a2-m1-cB_2ch8-a2-m3-cB 2ch8-a2-m1-cC_2ch8-a2-m2-cC 2ch8-a2-m1-cC_2ch8-a2-m3-cC 2ch8-a2-m2-cB_2ch8-a2-m3-cB 2ch8-a2-m2-cC_2ch8-a2-m3-cC 3uez-a1-m1-cA_3uez-a1-m2-cA 3uez-a1-m1-cA_3uez-a1-m3-cA 3uez-a1-m2-cA_3uez-a1-m3-cA 3uez-a2-m1-cB_3uez-a2-m2-cB 3uez-a2-m1-cB_3uez-a2-m3-cB 4adf-a1-m1-cD_4adf-a1-m1-cB 4adf-a1-m1-cE_4adf-a1-m1-cB 4adf-a2-m1-cP_4adf-a2-m1-cM 4adf-a2-m1-cQ_4adf-a2-m1-cN 4adq-a1-m1-cD_4adq-a1-m2-cD 4adq-a1-m1-cD_4adq-a1-m3-cD 4adq-a1-m2-cD_4adq-a1-m3-cD 4adq-a2-m1-cB_4adq-a2-m2-cB 4adq-a2-m1-cB_4adq-a2-m3-cB 4adq-a2-m2-cB_4adq-a2-m3-cB 4fa8-a1-m1-cA_4fa8-a1-m1-cD 4fa8-a1-m1-cA_4fa8-a1-m2-cB 4fa8-a1-m1-cD_4fa8-a1-m2-cB 4fa8-a1-m2-cA_4fa8-a1-m1-cB 4fa8-a1-m2-cA_4fa8-a1-m2-cD 4fa8-a1-m2-cD_4fa8-a1-m1-cB 4fa8-a2-m1-cA_4fa8-a2-m1-cD 4fa8-a2-m1-cA_4fa8-a2-m2-cB 4fa8-a2-m1-cD_4fa8-a2-m2-cB 4fa8-a2-m2-cA_4fa8-a2-m1-cB 4fa8-a2-m2-cA_4fa8-a2-m2-cD 4fa8-a2-m2-cD_4fa8-a2-m1-cB VTAFLGERVTLTSYWRRVSLGPEIEVSWFKLGPGEEQVLIGRMHHDVIFIEWPFRGFFDIHRSANTFFLVVTAANISHDGNYLCRMKLGETEVTKQEHLSVVKPLTLSVHSERSQFPDFSVLTVTCTVNAFPHPHVQWLMVMKEKDGSLSVAVDLSLPKPWHLPVTCVGKNDKEEAHGVYVSGYL VTAFLGERVTLTSYWRRVSLGPEIEVSWFKLGPGEEQVLIGRMHHDVIFIEWPFRGFFDIHRSANTFFLVVTAANISHDGNYLCRMKLGETEVTKQEHLSVVKPLTLSVHSERSQFPDFSVLTVTCTVNAFPHPHVQWLMVMKEKDGSLSVAVDLSLPKPWHLPVTCVGKNDKEEAHGVYVSGYL 3uez-a2-m3-cB_3uez-a2-m3-cC Crystal structure of the human Colony-Stimulating Factor 1 (hCSF-1) cytokine in complex with the viral receptor BARF1 P03228 P03228 3.414 X-RAY DIFFRACTION 37 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 185 186 2ch8-a1-m1-cD_2ch8-a1-m2-cA 2ch8-a1-m2-cD_2ch8-a1-m3-cA 2ch8-a1-m3-cD_2ch8-a1-m1-cA 2ch8-a2-m1-cB_2ch8-a2-m3-cC 2ch8-a2-m1-cC_2ch8-a2-m2-cB 2ch8-a2-m2-cC_2ch8-a2-m3-cB 3uez-a1-m1-cA_3uez-a1-m1-cD 3uez-a1-m2-cA_3uez-a1-m2-cD 3uez-a1-m3-cA_3uez-a1-m3-cD 3uez-a2-m1-cB_3uez-a2-m1-cC 3uez-a2-m2-cB_3uez-a2-m2-cC 4adf-a1-m1-cA_4adf-a1-m1-cB 4adf-a1-m1-cC_4adf-a1-m1-cD 4adf-a1-m1-cE_4adf-a1-m1-cF 4adf-a2-m1-cM_4adf-a2-m1-cN 4adf-a2-m1-cO_4adf-a2-m1-cP 4adf-a2-m1-cQ_4adf-a2-m1-cR 4adq-a1-m1-cA_4adq-a1-m1-cD 4adq-a1-m2-cA_4adq-a1-m2-cD 4adq-a1-m3-cA_4adq-a1-m3-cD 4adq-a2-m1-cB_4adq-a2-m1-cC 4adq-a2-m2-cB_4adq-a2-m2-cC 4adq-a2-m3-cB_4adq-a2-m3-cC 4fa8-a1-m1-cA_4fa8-a1-m2-cA 4fa8-a1-m1-cD_4fa8-a1-m1-cB 4fa8-a1-m2-cD_4fa8-a1-m2-cB 4fa8-a2-m1-cA_4fa8-a2-m2-cA 4fa8-a2-m1-cD_4fa8-a2-m1-cB 4fa8-a2-m2-cD_4fa8-a2-m2-cB VTAFLGERVTLTSYWRRVSLGPEIEVSWFKLGPGEEQVLIGRMHHDVIFIEWPFRGFFDIHRSANTFFLVVTAANISHDGNYLCRMKLGETEVTKQEHLSVVKPLTLSVHSERSQFPDFSVLTVTCTVNAFPHPHVQWLMVMKEKDGSLSVAVDLSLPKPWHLPVTCVGKNDKEEAHGVYVSGYL VTAFLGERVTLTSYWRRVSLGPEIEVSWFKLGPGEEQVLIGRMHHDVIFIEWPFRGFFDIHRSANTFFLVVTAANISHDGNYLCRMKLGETEVTKQEHLSVVKPLTLSVHSERSQFPDFSVLTVTCTVNAFPHPHVQWLMVMKEKDGSLSVAVDLSLPKPWHLPVTCVGKNDKEEAHGVYVSGYLS 3uf0-a3-m1-cA_3uf0-a3-m2-cB Crystal structure of a putative NAD(P) dependent gluconate 5-dehydrogenase from Beutenbergia cavernae(EFI target EFI-502044) with bound NADP (low occupancy) C5BY10 C5BY10 2 X-RAY DIFFRACTION 132 1.0 471853 (Beutenbergia cavernae DSM 12333) 471853 (Beutenbergia cavernae DSM 12333) 249 249 3uf0-a1-m1-cA_3uf0-a1-m2-cB 3uf0-a1-m1-cB_3uf0-a1-m2-cA 3uf0-a3-m1-cB_3uf0-a3-m2-cA GPFSLAGRTAVVTGAGSGIGRAIAHGYARAGAHVLAWGRTDGVKEVADEIADGGGSAEAVVADLADLEGAANVAEELAATRRVDVLVNNAGIIARAPAEEVSLGRWREVLTVNLDAAWVLSRSFGTAMLAHGSGRIVTIASMLSFQGGRNVAAYAASKHAVVGLTRALASEWAGRGVGVNALAPGYVVTANTAALRADDERAAEITARIPAGRWATPEDMVGPAVFLASDAASYVHGQVLAVDGGWLAS GPFSLAGRTAVVTGAGSGIGRAIAHGYARAGAHVLAWGRTDGVKEVADEIADGGGSAEAVVADLADLEGAANVAEELAATRRVDVLVNNAGIIARAPAEEVSLGRWREVLTVNLDAAWVLSRSFGTAMLAHGSGRIVTIASMLSFQGGRNVAAYAASKHAVVGLTRALASEWAGRGVGVNALAPGYVVTANTAALRADDERAAEITARIPAGRWATPEDMVGPAVFLASDAASYVHGQVLAVDGGWLAS 3uf0-a3-m1-cB_3uf0-a3-m2-cB Crystal structure of a putative NAD(P) dependent gluconate 5-dehydrogenase from Beutenbergia cavernae(EFI target EFI-502044) with bound NADP (low occupancy) C5BY10 C5BY10 2 X-RAY DIFFRACTION 14 1.0 471853 (Beutenbergia cavernae DSM 12333) 471853 (Beutenbergia cavernae DSM 12333) 249 249 3uf0-a1-m1-cA_3uf0-a1-m2-cA 3uf0-a1-m1-cB_3uf0-a1-m2-cB 3uf0-a3-m1-cA_3uf0-a3-m2-cA GPFSLAGRTAVVTGAGSGIGRAIAHGYARAGAHVLAWGRTDGVKEVADEIADGGGSAEAVVADLADLEGAANVAEELAATRRVDVLVNNAGIIARAPAEEVSLGRWREVLTVNLDAAWVLSRSFGTAMLAHGSGRIVTIASMLSFQGGRNVAAYAASKHAVVGLTRALASEWAGRGVGVNALAPGYVVTANTAALRADDERAAEITARIPAGRWATPEDMVGPAVFLASDAASYVHGQVLAVDGGWLAS GPFSLAGRTAVVTGAGSGIGRAIAHGYARAGAHVLAWGRTDGVKEVADEIADGGGSAEAVVADLADLEGAANVAEELAATRRVDVLVNNAGIIARAPAEEVSLGRWREVLTVNLDAAWVLSRSFGTAMLAHGSGRIVTIASMLSFQGGRNVAAYAASKHAVVGLTRALASEWAGRGVGVNALAPGYVVTANTAALRADDERAAEITARIPAGRWATPEDMVGPAVFLASDAASYVHGQVLAVDGGWLAS 3uf0-a3-m2-cA_3uf0-a3-m2-cB Crystal structure of a putative NAD(P) dependent gluconate 5-dehydrogenase from Beutenbergia cavernae(EFI target EFI-502044) with bound NADP (low occupancy) C5BY10 C5BY10 2 X-RAY DIFFRACTION 128 1.0 471853 (Beutenbergia cavernae DSM 12333) 471853 (Beutenbergia cavernae DSM 12333) 249 249 3uf0-a1-m1-cA_3uf0-a1-m1-cB 3uf0-a1-m2-cA_3uf0-a1-m2-cB 3uf0-a2-m1-cA_3uf0-a2-m1-cB 3uf0-a3-m1-cA_3uf0-a3-m1-cB GPFSLAGRTAVVTGAGSGIGRAIAHGYARAGAHVLAWGRTDGVKEVADEIADGGGSAEAVVADLADLEGAANVAEELAATRRVDVLVNNAGIIARAPAEEVSLGRWREVLTVNLDAAWVLSRSFGTAMLAHGSGRIVTIASMLSFQGGRNVAAYAASKHAVVGLTRALASEWAGRGVGVNALAPGYVVTANTAALRADDERAAEITARIPAGRWATPEDMVGPAVFLASDAASYVHGQVLAVDGGWLAS GPFSLAGRTAVVTGAGSGIGRAIAHGYARAGAHVLAWGRTDGVKEVADEIADGGGSAEAVVADLADLEGAANVAEELAATRRVDVLVNNAGIIARAPAEEVSLGRWREVLTVNLDAAWVLSRSFGTAMLAHGSGRIVTIASMLSFQGGRNVAAYAASKHAVVGLTRALASEWAGRGVGVNALAPGYVVTANTAALRADDERAAEITARIPAGRWATPEDMVGPAVFLASDAASYVHGQVLAVDGGWLAS 3uf1-a2-m1-cC_3uf1-a2-m1-cD Crystal Structure of Vimentin (fragment 144-251) from Homo sapiens, Northeast Structural Genomics Consortium Target HR4796B P08670 P08670 2.81 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 108 3swk-a1-m1-cB_3swk-a1-m1-cA 3uf1-a1-m1-cA_3uf1-a1-m1-cB HHHSHSRLGDLYEEERELRRQVDQLTNDKARVEVERDNLAEDIRLREKLQEELQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKLHEEEIQELQ HHHHSHSRLGDLYEEERELRRQVDQLTNDKARVEVERDNLAEDIRLREKLQEELQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKLHEEEIQELQAQ 3uf6-a1-m1-cA_3uf6-a1-m1-cB The crystal structure of a possible phosphate acetyl/butaryl transferase (from Listeria monocytogenes EGD-e) in complex with CoD (3'-dephosphocoenzyme A) Q8Y7B7 Q8Y7B7 1.8 X-RAY DIFFRACTION 129 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 282 283 3tng-a1-m1-cA_3tng-a1-m2-cA 3u9e-a1-m1-cA_3u9e-a1-m1-cB KSRFFSDVAETSSFVFAVAGADDEVVLETIRLALKQKLGKFLLFGKKEDKTLTANESVTWIQTDTAEAAAQGAILAVKNKEADILVKGFIPTATLHHVLKKENGLRTDQLLSQIAIFDIPTYHKPLLITDCANVAPKTKEKIAITENALAVAHQIGITNPKIALLSAVEEVTAKPSTLEAQEVVQHFGNQISVSGPLALDVAISKEAALHKGITDSSAGEADILIAPNIETGNALYKSLVYFAGAKVGSAVVGAKVPIVISSRNDSPENKLASFILTVRLVE TKSRFFSDVAETSSFVFAVAGADDEVVLETIRLALKQKLGKFLLFGKKEDKTLTANESVTWIQTDTAEAAAQGAILAVKNKEADILVKGFIPTATLHHVLKKENGLRTDQLLSQIAIFDIPTYHKPLLITDCANVAPKTKEKIAITENALAVAHQIGITNPKIALLSAVEEVTAKPSTLEAQEVVQHFGNQISVSGPLALDVAISKEAALHKGITDSSAGEADILIAPNIETGNALYKSLVYFAGAKVGSAVVGAKVPIVISSRNDSPENKLASFILTVRLVE 3ufe-a1-m1-cB_3ufe-a1-m1-cA Structure of transcriptional antiterminator (BGLG-family) at 1.5 A resolution O31691 O31691 1.5 X-RAY DIFFRACTION 162 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 101 109 3gwh-a1-m1-cA_3gwh-a1-m1-cB QHSQLMAQLVEVIEDSFQMKVNKESVNYLRLIRHIRFTIERIKKEEPTKEPEKLMLLLKNEYPLCYNTAWKLIKILQQTLKKPVHEAEAVYLTLHLIPINQ LRPLSEVNQHSQLMAQLVEVIEDSFQMKVNKESVNYLRLIRHIRFTIERIKKEEPTKEPEKLMLLLKNEYPLCYNTAWKLIKILQQTLKKPVHEAEAVYLTLHLIPINQ 3ufj-a2-m1-cB_3ufj-a2-m1-cA Human Thymine DNA Glycosylase Bound to Substrate Analog 2'-fluoro-2'-deoxyuridine Q13569 Q13569 2.967 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 185 2rba-a1-m1-cA_2rba-a1-m1-cB 3ufj-a1-m1-cB_3ufj-a1-m1-cA 3uo7-a1-m1-cB_3uo7-a1-m1-cA 3uob-a1-m1-cB_3uob-a1-m1-cA TLPDILTFNLDIVIIGINPGLMAAYKGHHYPGPGNHFWKCLFMSGLSEVQLNHMDDHTLPGKYGIGFTNMVERTTPGSKDLSSKEFREGGRILVQKLQKYQPRIAVFNGKCIYEIFSKEVFGVKVKNLEFGLQPHKIPDTETLCYVMPSSSARCAQFPRAQDKVHYYIKLKDLRDQLKGIER LTKTLPDILTFNLDIVIIGINPGLMAAYKGHHYPGPGNHFWKCLFMSGLSEVQLNHMDDHTLPGKYGIGFTNMVERTTPGSKDLSSKEFREGGRILVQKLQKYQPRIAVFNGKCIYEIFSKEVFGVKVKNLEFGLQPHKIPDTETLCYVMPSSSARCAQFPRAQDKVHYYIKLKDLRDQLKGIER 3ug3-a1-m1-cB_3ug3-a1-m1-cE Crystal structure of alpha-L-arabinofuranosidase from Thermotoga maritima ligand free form Q9WYB7 Q9WYB7 1.8 X-RAY DIFFRACTION 30 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 482 482 3s2c-a1-m1-cA_3s2c-a1-m1-cB 3s2c-a1-m1-cC_3s2c-a1-m1-cD 3s2c-a1-m1-cE_3s2c-a1-m1-cF 3s2c-a2-m1-cG_3s2c-a2-m1-cH 3s2c-a2-m1-cJ_3s2c-a2-m1-cI 3s2c-a2-m1-cK_3s2c-a2-m1-cL 3ug3-a1-m1-cD_3ug3-a1-m1-cA 3ug3-a1-m1-cF_3ug3-a1-m1-cC 3ug4-a1-m1-cB_3ug4-a1-m1-cE 3ug4-a1-m1-cD_3ug4-a1-m1-cA 3ug4-a1-m1-cF_3ug4-a1-m1-cC 3ug5-a1-m1-cB_3ug5-a1-m1-cE 3ug5-a1-m1-cD_3ug5-a1-m1-cA 3ug5-a1-m1-cF_3ug5-a1-m1-cC SYGIVVDPKEVVKPISRHIYGHFTEHLGRCIYGGIYEEGSPLSDERGFRKDVLEAVKRIKVPNLRWPGGNFVSNYHWEDGIGPKDQRPVRFDLAWQQEETNRFGTDEFIEYCREIGAEPYISINMGTGTLDEALHWLEYCNGKGNTYYAQLRRKYGHPEPYNVKFWGIGNEMYGEWQVGHMTADEYARAAKEYTKWMKVFDPTIKAIAVGCDDPIWNLRVLQEAGDVIDFISYHFYTGSDDYYETVSTVYLLKERLIGVKKLIDMVDTARKRGVKIALDEWNVWYRVSDNKLEEPYDLKDGIFACGVLVLLQKMSDIVPLANLAQLVNALGAIHTEKDGLILTPVYKAFELIVNHSGEKLVKTHVESETYNIEGVMFINKMPFSVENAPFLDAAASISEDGKKLFIAVVNYRKEDALKVPIRVEGLGQKKATVYTLTGPDVNARNTMENPNVVDITSETITVDTEFEHTFKPFSCSVIEVEL SYGIVVDPKEVVKPISRHIYGHFTEHLGRCIYGGIYEEGSPLSDERGFRKDVLEAVKRIKVPNLRWPGGNFVSNYHWEDGIGPKDQRPVRFDLAWQQEETNRFGTDEFIEYCREIGAEPYISINMGTGTLDEALHWLEYCNGKGNTYYAQLRRKYGHPEPYNVKFWGIGNEMYGEWQVGHMTADEYARAAKEYTKWMKVFDPTIKAIAVGCDDPIWNLRVLQEAGDVIDFISYHFYTGSDDYYETVSTVYLLKERLIGVKKLIDMVDTARKRGVKIALDEWNVWYRVSDNKLEEPYDLKDGIFACGVLVLLQKMSDIVPLANLAQLVNALGAIHTEKDGLILTPVYKAFELIVNHSGEKLVKTHVESETYNIEGVMFINKMPFSVENAPFLDAAASISEDGKKLFIAVVNYRKEDALKVPIRVEGLGQKKATVYTLTGPDVNARNTMENPNVVDITSETITVDTEFEHTFKPFSCSVIEVEL 3ug3-a1-m1-cE_3ug3-a1-m1-cF Crystal structure of alpha-L-arabinofuranosidase from Thermotoga maritima ligand free form Q9WYB7 Q9WYB7 1.8 X-RAY DIFFRACTION 26 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 482 482 3s2c-a1-m1-cA_3s2c-a1-m1-cD 3s2c-a1-m1-cA_3s2c-a1-m1-cF 3s2c-a1-m1-cB_3s2c-a1-m1-cC 3s2c-a1-m1-cB_3s2c-a1-m1-cE 3s2c-a1-m1-cC_3s2c-a1-m1-cE 3s2c-a1-m1-cD_3s2c-a1-m1-cF 3s2c-a2-m1-cG_3s2c-a2-m1-cI 3s2c-a2-m1-cG_3s2c-a2-m1-cK 3s2c-a2-m1-cH_3s2c-a2-m1-cL 3s2c-a2-m1-cI_3s2c-a2-m1-cK 3s2c-a2-m1-cJ_3s2c-a2-m1-cH 3s2c-a2-m1-cJ_3s2c-a2-m1-cL 3ug3-a1-m1-cA_3ug3-a1-m1-cB 3ug3-a1-m1-cA_3ug3-a1-m1-cC 3ug3-a1-m1-cB_3ug3-a1-m1-cC 3ug3-a1-m1-cD_3ug3-a1-m1-cE 3ug3-a1-m1-cD_3ug3-a1-m1-cF 3ug4-a1-m1-cA_3ug4-a1-m1-cB 3ug4-a1-m1-cA_3ug4-a1-m1-cC 3ug4-a1-m1-cB_3ug4-a1-m1-cC 3ug4-a1-m1-cD_3ug4-a1-m1-cE 3ug4-a1-m1-cD_3ug4-a1-m1-cF 3ug4-a1-m1-cE_3ug4-a1-m1-cF 3ug5-a1-m1-cA_3ug5-a1-m1-cB 3ug5-a1-m1-cA_3ug5-a1-m1-cC 3ug5-a1-m1-cB_3ug5-a1-m1-cC 3ug5-a1-m1-cD_3ug5-a1-m1-cE 3ug5-a1-m1-cD_3ug5-a1-m1-cF 3ug5-a1-m1-cE_3ug5-a1-m1-cF SYGIVVDPKEVVKPISRHIYGHFTEHLGRCIYGGIYEEGSPLSDERGFRKDVLEAVKRIKVPNLRWPGGNFVSNYHWEDGIGPKDQRPVRFDLAWQQEETNRFGTDEFIEYCREIGAEPYISINMGTGTLDEALHWLEYCNGKGNTYYAQLRRKYGHPEPYNVKFWGIGNEMYGEWQVGHMTADEYARAAKEYTKWMKVFDPTIKAIAVGCDDPIWNLRVLQEAGDVIDFISYHFYTGSDDYYETVSTVYLLKERLIGVKKLIDMVDTARKRGVKIALDEWNVWYRVSDNKLEEPYDLKDGIFACGVLVLLQKMSDIVPLANLAQLVNALGAIHTEKDGLILTPVYKAFELIVNHSGEKLVKTHVESETYNIEGVMFINKMPFSVENAPFLDAAASISEDGKKLFIAVVNYRKEDALKVPIRVEGLGQKKATVYTLTGPDVNARNTMENPNVVDITSETITVDTEFEHTFKPFSCSVIEVEL SYGIVVDPKEVVKPISRHIYGHFTEHLGRCIYGGIYEEGSPLSDERGFRKDVLEAVKRIKVPNLRWPGGNFVSNYHWEDGIGPKDQRPVRFDLAWQQEETNRFGTDEFIEYCREIGAEPYISINMGTGTLDEALHWLEYCNGKGNTYYAQLRRKYGHPEPYNVKFWGIGNEMYGEWQVGHMTADEYARAAKEYTKWMKVFDPTIKAIAVGCDDPIWNLRVLQEAGDVIDFISYHFYTGSDDYYETVSTVYLLKERLIGVKKLIDMVDTARKRGVKIALDEWNVWYRVSDNKLEEPYDLKDGIFACGVLVLLQKMSDIVPLANLAQLVNALGAIHTEKDGLILTPVYKAFELIVNHSGEKLVKTHVESETYNIEGVMFINKMPFSVENAPFLDAAASISEDGKKLFIAVVNYRKEDALKVPIRVEGLGQKKATVYTLTGPDVNARNTMENPNVVDITSETITVDTEFEHTFKPFSCSVIEVEL 3ug7-a2-m1-cB_3ug7-a2-m3-cB Crystal Structure of Get3 from Methanocaldococcus jannaschii Q58542 Q58542 2.901 X-RAY DIFFRACTION 163 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 303 303 3ug6-a1-m1-cA_3ug6-a1-m1-cB 3ug6-a1-m1-cC_3ug6-a1-m1-cD 3ug7-a1-m1-cA_3ug7-a1-m2-cA 3ug7-a1-m1-cD_3ug7-a1-m2-cD 3ug7-a2-m1-cC_3ug7-a2-m3-cC DGTKYIMFGGKGGVGKTTMSAATGVYLAEKGLKVVIVSTDPAHSLRDIFEQEFGHEPTKVKGYDNLYVVEIDPQKAMEEYKEKLKAQIEENPFLGEMLEDQLEMAALSPGTDESAAFDVFLKYMDSNEFDVVIFDTAPTGHTLRFLGMPEVMDKYMTKLIKLRKQMSGFMKMMKKLLPFDYDKMLEELEKMKERIVRARNILSDPERTAFRLVVIPEEMSILESERAMKALQKYGIPIDAVIVNQLIPEDVQCDFCRARRELQLKRLEMIKEKFGDKVIAYVPLLRTEAKGIETLKQIAKILY DGTKYIMFGGKGGVGKTTMSAATGVYLAEKGLKVVIVSTDPAHSLRDIFEQEFGHEPTKVKGYDNLYVVEIDPQKAMEEYKEKLKAQIEENPFLGEMLEDQLEMAALSPGTDESAAFDVFLKYMDSNEFDVVIFDTAPTGHTLRFLGMPEVMDKYMTKLIKLRKQMSGFMKMMKKLLPFDYDKMLEELEKMKERIVRARNILSDPERTAFRLVVIPEEMSILESERAMKALQKYGIPIDAVIVNQLIPEDVQCDFCRARRELQLKRLEMIKEKFGDKVIAYVPLLRTEAKGIETLKQIAKILY 3ug7-a2-m3-cC_3ug7-a2-m1-cB Crystal Structure of Get3 from Methanocaldococcus jannaschii Q58542 Q58542 2.901 X-RAY DIFFRACTION 15 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 301 303 3ug6-a1-m1-cA_3ug6-a1-m1-cC 3ug6-a1-m1-cB_3ug6-a1-m1-cD 3ug7-a1-m1-cD_3ug7-a1-m2-cA 3ug7-a1-m2-cD_3ug7-a1-m1-cA 3ug7-a2-m1-cC_3ug7-a2-m3-cB TKYIMFGGKGGVGKTTMSAATGVYLAEKGLKVVIVSTDPAHSLRDIFEQEFGHEPTKVKGYDNLYVVEIDPQKAMEEYKEKLKAQIEENPFLGEMLEDQLEMAALSPGTDESAAFDVFLKYMDSNEFDVVIFDTAPTGHTLRFLGMPEVMDKYMTKLIKLRKQMSGFMKMMKKLLPFDYDKMLEELEKMKERIVRARNILSDPERTAFRLVVIPEEMSILESERAMKALQKYGIPIDAVIVNQLIPEDVQCDFCRARRELQLKRLEMIKEKFGDKVIAYVPLLRTEAKGIETLKQIAKILY DGTKYIMFGGKGGVGKTTMSAATGVYLAEKGLKVVIVSTDPAHSLRDIFEQEFGHEPTKVKGYDNLYVVEIDPQKAMEEYKEKLKAQIEENPFLGEMLEDQLEMAALSPGTDESAAFDVFLKYMDSNEFDVVIFDTAPTGHTLRFLGMPEVMDKYMTKLIKLRKQMSGFMKMMKKLLPFDYDKMLEELEKMKERIVRARNILSDPERTAFRLVVIPEEMSILESERAMKALQKYGIPIDAVIVNQLIPEDVQCDFCRARRELQLKRLEMIKEKFGDKVIAYVPLLRTEAKGIETLKQIAKILY 3ug7-a2-m3-cC_3ug7-a2-m3-cB Crystal Structure of Get3 from Methanocaldococcus jannaschii Q58542 Q58542 2.901 X-RAY DIFFRACTION 90 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 301 303 3ug6-a1-m1-cA_3ug6-a1-m1-cD 3ug6-a1-m1-cB_3ug6-a1-m1-cC 3ug7-a1-m1-cD_3ug7-a1-m1-cA 3ug7-a1-m2-cD_3ug7-a1-m2-cA 3ug7-a2-m1-cC_3ug7-a2-m1-cB TKYIMFGGKGGVGKTTMSAATGVYLAEKGLKVVIVSTDPAHSLRDIFEQEFGHEPTKVKGYDNLYVVEIDPQKAMEEYKEKLKAQIEENPFLGEMLEDQLEMAALSPGTDESAAFDVFLKYMDSNEFDVVIFDTAPTGHTLRFLGMPEVMDKYMTKLIKLRKQMSGFMKMMKKLLPFDYDKMLEELEKMKERIVRARNILSDPERTAFRLVVIPEEMSILESERAMKALQKYGIPIDAVIVNQLIPEDVQCDFCRARRELQLKRLEMIKEKFGDKVIAYVPLLRTEAKGIETLKQIAKILY DGTKYIMFGGKGGVGKTTMSAATGVYLAEKGLKVVIVSTDPAHSLRDIFEQEFGHEPTKVKGYDNLYVVEIDPQKAMEEYKEKLKAQIEENPFLGEMLEDQLEMAALSPGTDESAAFDVFLKYMDSNEFDVVIFDTAPTGHTLRFLGMPEVMDKYMTKLIKLRKQMSGFMKMMKKLLPFDYDKMLEELEKMKERIVRARNILSDPERTAFRLVVIPEEMSILESERAMKALQKYGIPIDAVIVNQLIPEDVQCDFCRARRELQLKRLEMIKEKFGDKVIAYVPLLRTEAKGIETLKQIAKILY 3ugb-a1-m1-cA_3ugb-a1-m2-cA UbcH5c~Ubiquitin Conjugate P61077 P61077 2.35 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 ALKRINKELSDLARDPPAQCSAGPVGDDMFHWQATIMGPNDSPYQGGVFFLTIHFPTDYPFKPPKVAFTTRIYHPNINSNGSISLDILRSQWSPALTISKVLLSICSLLCDPNPDDPLVPEIARIYKTDRDKYNRISREWTQKYAM ALKRINKELSDLARDPPAQCSAGPVGDDMFHWQATIMGPNDSPYQGGVFFLTIHFPTDYPFKPPKVAFTTRIYHPNINSNGSISLDILRSQWSPALTISKVLLSICSLLCDPNPDDPLVPEIARIYKTDRDKYNRISREWTQKYAM 3ugs-a1-m1-cA_3ugs-a1-m1-cB Crystal structure of a probable undecaprenyl diphosphate synthase (uppS) from Campylobacter jejuni Q9PP99 Q9PP99 2.457 X-RAY DIFFRACTION 106 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 205 208 MNELKHLAVVMDGNRGVKTMQKLMEVCMEENISNLSLFAFSTENWKRPKDEIDFIFELLDRCLDEALEKFEKNNVRLRAIGDLSRLEDKVREKITLVEEKTKHCDALCVNLAISYGARDEIIRAAKRVIEKKLELNEENLTQNLDLPLDVDLMLRVGNAKRLSNFLLWQCSYAEIYFSETLFPSLTKREFKRIIKEFRNRERTFG MNELKHLAVVMDGNRSQGVKTMQKLMEVCMEENISNLSLFAFSTENWKRPKDEIDFIFELLDRCLDEALEKFEKNNVRLRAIGDLSRLEDKVREKITLVEEKTKHCDALCVNLAISYGARDEIIRAAKRVIEKKLELNEENLTQNLDLPLDVDLMLRVGNAKRLSNFLLWQCSYAEIYFSETLFPSLTKREFKRIIKEFRNRERTFGK 3ugv-a1-m1-cC_3ugv-a1-m1-cH Crystal structure of an enolase from alpha pretobacterium bal199 (EFI TARGET EFI-501650) with bound MG A8TYI5 A8TYI5 2.3 X-RAY DIFFRACTION 83 1.0 331869 (alpha proteobacterium BAL199) 331869 (alpha proteobacterium BAL199) 363 363 3ugv-a1-m1-cA_3ugv-a1-m1-cF 3ugv-a1-m1-cB_3ugv-a1-m1-cE 3ugv-a1-m1-cD_3ugv-a1-m1-cG TLTFRKLTARPVLLKLQRPVTARIATIPDWPLILIDIETEEGVPGRAYLEPYVPKAMKYLVPALHDMSDMLAGQPLAPAEIYDKTRKSLHFVGYAGLSMIAASGVDMAVWDALARAANMPLCTLLGGTPGSVKAYNSNGLWLKSPAEVAAEAVELKAEGQGTGFKGLKLRMGRDDPAVDIETAEAVWDAVGRDTALMVDFNQGLDMAEAMHRTRQIDDLGLEWIEEPVVYDNFDGYAQLRHDLKTPLMIGENFYGPREMHQALQAGACDLVMPDFMRIGGVSGWMRAAGVAGAWGIPMSTHLYPEVGAHVMRVTETAHWLEWQSWADPILQEPYALSDGDLIVPDKPGLGLDWDEDVVAANLV TLTFRKLTARPVLLKLQRPVTARIATIPDWPLILIDIETEEGVPGRAYLEPYVPKAMKYLVPALHDMSDMLAGQPLAPAEIYDKTRKSLHFVGYAGLSMIAASGVDMAVWDALARAANMPLCTLLGGTPGSVKAYNSNGLWLKSPAEVAAEAVELKAEGQGTGFKGLKLRMGRDDPAVDIETAEAVWDAVGRDTALMVDFNQGLDMAEAMHRTRQIDDLGLEWIEEPVVYDNFDGYAQLRHDLKTPLMIGENFYGPREMHQALQAGACDLVMPDFMRIGGVSGWMRAAGVAGAWGIPMSTHLYPEVGAHVMRVTETAHWLEWQSWADPILQEPYALSDGDLIVPDKPGLGLDWDEDVVAANLV 3ugv-a1-m1-cD_3ugv-a1-m1-cH Crystal structure of an enolase from alpha pretobacterium bal199 (EFI TARGET EFI-501650) with bound MG A8TYI5 A8TYI5 2.3 X-RAY DIFFRACTION 81 1.0 331869 (alpha proteobacterium BAL199) 331869 (alpha proteobacterium BAL199) 363 363 3ugv-a1-m1-cA_3ugv-a1-m1-cG 3ugv-a1-m1-cB_3ugv-a1-m1-cF 3ugv-a1-m1-cC_3ugv-a1-m1-cE TLTFRKLTARPVLLKLQRPVTARIATIPDWPLILIDIETEEGVPGRAYLEPYVPKAMKYLVPALHDMSDMLAGQPLAPAEIYDKTRKSLHFVGYAGLSMIAASGVDMAVWDALARAANMPLCTLLGGTPGSVKAYNSNGLWLKSPAEVAAEAVELKAEGQGTGFKGLKLRMGRDDPAVDIETAEAVWDAVGRDTALMVDFNQGLDMAEAMHRTRQIDDLGLEWIEEPVVYDNFDGYAQLRHDLKTPLMIGENFYGPREMHQALQAGACDLVMPDFMRIGGVSGWMRAAGVAGAWGIPMSTHLYPEVGAHVMRVTETAHWLEWQSWADPILQEPYALSDGDLIVPDKPGLGLDWDEDVVAANLV TLTFRKLTARPVLLKLQRPVTARIATIPDWPLILIDIETEEGVPGRAYLEPYVPKAMKYLVPALHDMSDMLAGQPLAPAEIYDKTRKSLHFVGYAGLSMIAASGVDMAVWDALARAANMPLCTLLGGTPGSVKAYNSNGLWLKSPAEVAAEAVELKAEGQGTGFKGLKLRMGRDDPAVDIETAEAVWDAVGRDTALMVDFNQGLDMAEAMHRTRQIDDLGLEWIEEPVVYDNFDGYAQLRHDLKTPLMIGENFYGPREMHQALQAGACDLVMPDFMRIGGVSGWMRAAGVAGAWGIPMSTHLYPEVGAHVMRVTETAHWLEWQSWADPILQEPYALSDGDLIVPDKPGLGLDWDEDVVAANLV 3ugv-a1-m1-cG_3ugv-a1-m1-cH Crystal structure of an enolase from alpha pretobacterium bal199 (EFI TARGET EFI-501650) with bound MG A8TYI5 A8TYI5 2.3 X-RAY DIFFRACTION 25 1.0 331869 (alpha proteobacterium BAL199) 331869 (alpha proteobacterium BAL199) 363 363 3ugv-a1-m1-cA_3ugv-a1-m1-cB 3ugv-a1-m1-cA_3ugv-a1-m1-cD 3ugv-a1-m1-cB_3ugv-a1-m1-cC 3ugv-a1-m1-cC_3ugv-a1-m1-cD 3ugv-a1-m1-cE_3ugv-a1-m1-cF 3ugv-a1-m1-cE_3ugv-a1-m1-cH 3ugv-a1-m1-cG_3ugv-a1-m1-cF TLTFRKLTARPVLLKLQRPVTARIATIPDWPLILIDIETEEGVPGRAYLEPYVPKAMKYLVPALHDMSDMLAGQPLAPAEIYDKTRKSLHFVGYAGLSMIAASGVDMAVWDALARAANMPLCTLLGGTPGSVKAYNSNGLWLKSPAEVAAEAVELKAEGQGTGFKGLKLRMGRDDPAVDIETAEAVWDAVGRDTALMVDFNQGLDMAEAMHRTRQIDDLGLEWIEEPVVYDNFDGYAQLRHDLKTPLMIGENFYGPREMHQALQAGACDLVMPDFMRIGGVSGWMRAAGVAGAWGIPMSTHLYPEVGAHVMRVTETAHWLEWQSWADPILQEPYALSDGDLIVPDKPGLGLDWDEDVVAANLV TLTFRKLTARPVLLKLQRPVTARIATIPDWPLILIDIETEEGVPGRAYLEPYVPKAMKYLVPALHDMSDMLAGQPLAPAEIYDKTRKSLHFVGYAGLSMIAASGVDMAVWDALARAANMPLCTLLGGTPGSVKAYNSNGLWLKSPAEVAAEAVELKAEGQGTGFKGLKLRMGRDDPAVDIETAEAVWDAVGRDTALMVDFNQGLDMAEAMHRTRQIDDLGLEWIEEPVVYDNFDGYAQLRHDLKTPLMIGENFYGPREMHQALQAGACDLVMPDFMRIGGVSGWMRAAGVAGAWGIPMSTHLYPEVGAHVMRVTETAHWLEWQSWADPILQEPYALSDGDLIVPDKPGLGLDWDEDVVAANLV 3uh2-a3-m1-cA_3uh2-a3-m2-cB Tankyrase-1 in complexed with PJ34 O95271 O95271 2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 208 GTILLDLAPEDKEYQSVEEEMQSTIREHRDGGNAGGIFNRYNVIRIQKVVNKKLRERFCHRQKEVSEENHNHHNERMLFHGSPFINAIIHKGFDERHAGMFGAGIYFAENSSKSNQYVYGIGGGTGCPTHKDRSCYICHRQMLFCRVTLGKSFLQFSTIKMAHAPPGHHSVIGRYAEYVIYRGEQAYPEYLITYQIMKP GTILLDLAPEDKEYQSVEEEMQSTIREHRDGGNAGGIFNRYNVIRIQKVVNKKLRERFCHRQKEVSEENHNHHNERMLFHGSPFINAIIHKGFDERHAYGMFGAGIYFAENSSKSNQYVYGIGGGTGCPTHKDRSCYICHRQMLFCRVTLGKSFLQFSTIKMAHAPPGHHSVIGRPSVNGLAYAEYVIYRGEQAYPEYLITYQIMKPE 3uha-a3-m1-cA_3uha-a3-m2-cB Crystal Structure of Saccharopine Dehydrogenase from Saccharomyces cervisiae complexed with NAD. P38998 P38998 2.3 X-RAY DIFFRACTION 18 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 365 365 AVTLHLRAETKPLEARAALTPTTVKKLIAKGFKIYVEDSPQSTFNINEYRQAGAIIVPAGSWKTAPRDRIIIGLKEMPETDTFPLVHEHIQFAHCYKDQAGWQNVLMRFIKGHGTLYDLEFLENDQGRRVAAFGFYAGFAGAALGVRDWAFKQTHSDDEDLPAVSPYPNEKALVKDVTKDYKEALATGARKPTVLIIGALGRSGSGAIDLLHKVGIPDANILKWDIKETSRGGPFDEIPQADIFINCIYLSKPIAPFTNMEKLNNPNRRLRTVVDVSADTTNPHNPIPIYTVATVFNKPTVLVPTTAGPKLSVISIDHLPSLLPREASEFFSHDLLPSLELLPQRKTAPVWVRAKKLFDRHCARV AVTLHLRAETKPLEARAALTPTTVKKLIAKGFKIYVEDSPQSTFNINEYRQAGAIIVPAGSWKTAPRDRIIIGLKEMPETDTFPLVHEHIQFAHCYKDQAGWQNVLMRFIKGHGTLYDLEFLENDQGRRVAAFGFYAGFAGAALGVRDWAFKQTHSDDEDLPAVSPYPNEKALVKDVTKDYKEALATGARKPTVLIIGALGRSGSGAIDLLHKVGIPDANILKWDIKETSRGGPFDEIPQADIFINCIYLSKPIAPFTNMEKLNNPNRRLRTVVDVSADTTNPHNPIPIYTVATVFNKPTVLVPTTAGPKLSVISIDHLPSLLPREASEFFSHDLLPSLELLPQRKTAPVWVRAKKLFDRHCARV 3uha-a3-m1-cB_3uha-a3-m2-cB Crystal Structure of Saccharopine Dehydrogenase from Saccharomyces cervisiae complexed with NAD. P38998 P38998 2.3 X-RAY DIFFRACTION 17 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 365 365 3uha-a3-m1-cA_3uha-a3-m2-cA AVTLHLRAETKPLEARAALTPTTVKKLIAKGFKIYVEDSPQSTFNINEYRQAGAIIVPAGSWKTAPRDRIIIGLKEMPETDTFPLVHEHIQFAHCYKDQAGWQNVLMRFIKGHGTLYDLEFLENDQGRRVAAFGFYAGFAGAALGVRDWAFKQTHSDDEDLPAVSPYPNEKALVKDVTKDYKEALATGARKPTVLIIGALGRSGSGAIDLLHKVGIPDANILKWDIKETSRGGPFDEIPQADIFINCIYLSKPIAPFTNMEKLNNPNRRLRTVVDVSADTTNPHNPIPIYTVATVFNKPTVLVPTTAGPKLSVISIDHLPSLLPREASEFFSHDLLPSLELLPQRKTAPVWVRAKKLFDRHCARV AVTLHLRAETKPLEARAALTPTTVKKLIAKGFKIYVEDSPQSTFNINEYRQAGAIIVPAGSWKTAPRDRIIIGLKEMPETDTFPLVHEHIQFAHCYKDQAGWQNVLMRFIKGHGTLYDLEFLENDQGRRVAAFGFYAGFAGAALGVRDWAFKQTHSDDEDLPAVSPYPNEKALVKDVTKDYKEALATGARKPTVLIIGALGRSGSGAIDLLHKVGIPDANILKWDIKETSRGGPFDEIPQADIFINCIYLSKPIAPFTNMEKLNNPNRRLRTVVDVSADTTNPHNPIPIYTVATVFNKPTVLVPTTAGPKLSVISIDHLPSLLPREASEFFSHDLLPSLELLPQRKTAPVWVRAKKLFDRHCARV 3uha-a3-m2-cA_3uha-a3-m2-cB Crystal Structure of Saccharopine Dehydrogenase from Saccharomyces cervisiae complexed with NAD. P38998 P38998 2.3 X-RAY DIFFRACTION 49 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 365 365 3uha-a1-m1-cA_3uha-a1-m1-cB 3uha-a2-m1-cA_3uha-a2-m1-cB 3uha-a3-m1-cA_3uha-a3-m1-cB AVTLHLRAETKPLEARAALTPTTVKKLIAKGFKIYVEDSPQSTFNINEYRQAGAIIVPAGSWKTAPRDRIIIGLKEMPETDTFPLVHEHIQFAHCYKDQAGWQNVLMRFIKGHGTLYDLEFLENDQGRRVAAFGFYAGFAGAALGVRDWAFKQTHSDDEDLPAVSPYPNEKALVKDVTKDYKEALATGARKPTVLIIGALGRSGSGAIDLLHKVGIPDANILKWDIKETSRGGPFDEIPQADIFINCIYLSKPIAPFTNMEKLNNPNRRLRTVVDVSADTTNPHNPIPIYTVATVFNKPTVLVPTTAGPKLSVISIDHLPSLLPREASEFFSHDLLPSLELLPQRKTAPVWVRAKKLFDRHCARV AVTLHLRAETKPLEARAALTPTTVKKLIAKGFKIYVEDSPQSTFNINEYRQAGAIIVPAGSWKTAPRDRIIIGLKEMPETDTFPLVHEHIQFAHCYKDQAGWQNVLMRFIKGHGTLYDLEFLENDQGRRVAAFGFYAGFAGAALGVRDWAFKQTHSDDEDLPAVSPYPNEKALVKDVTKDYKEALATGARKPTVLIIGALGRSGSGAIDLLHKVGIPDANILKWDIKETSRGGPFDEIPQADIFINCIYLSKPIAPFTNMEKLNNPNRRLRTVVDVSADTTNPHNPIPIYTVATVFNKPTVLVPTTAGPKLSVISIDHLPSLLPREASEFFSHDLLPSLELLPQRKTAPVWVRAKKLFDRHCARV 3uhi-a1-m1-cA_3uhi-a1-m1-cB HBI (K96R) CO bound P02213 P02213 2.5 X-RAY DIFFRACTION 60 1.0 145 145 1hbi-a1-m1-cA_1hbi-a1-m1-cB 1jwn-a1-m1-cA_1jwn-a1-m1-cB 1jwn-a2-m1-cC_1jwn-a2-m1-cD 1jzk-a1-m1-cA_1jzk-a1-m1-cB 1jzk-a2-m1-cC_1jzk-a2-m1-cD 1jzl-a1-m1-cA_1jzl-a1-m1-cB 1jzm-a1-m1-cA_1jzm-a1-m1-cB 1nwi-a1-m1-cA_1nwi-a1-m1-cB 1nwi-a2-m1-cC_1nwi-a2-m1-cD 1nwn-a1-m1-cA_1nwn-a1-m1-cB 1nxf-a1-m1-cA_1nxf-a1-m1-cB 2auo-a1-m1-cA_2auo-a1-m1-cB 2aup-a1-m1-cA_2aup-a1-m1-cB 2auq-a1-m1-cA_2auq-a1-m1-cB 2aur-a1-m1-cA_2aur-a1-m1-cB 2av0-a1-m1-cA_2av0-a1-m1-cB 2av3-a1-m1-cA_2av3-a1-m1-cB 2grf-a1-m1-cA_2grf-a1-m1-cB 2grh-a1-m1-cA_2grh-a1-m1-cB 2grz-a1-m1-cA_2grz-a1-m1-cB 2r4w-a1-m1-cA_2r4w-a1-m1-cB 2r4x-a1-m1-cA_2r4x-a1-m1-cB 2r4y-a1-m1-cA_2r4y-a1-m1-cB 2r4z-a1-m1-cA_2r4z-a1-m1-cB 2z85-a1-m1-cA_2z85-a1-m1-cB 2z8a-a1-m1-cA_2z8a-a1-m1-cB 3g46-a1-m1-cA_3g46-a1-m1-cB 3g4q-a1-m1-cA_3g4q-a1-m1-cB 3g4r-a1-m1-cA_3g4r-a1-m1-cB 3g4u-a1-m1-cA_3g4u-a1-m1-cB 3g4v-a1-m1-cA_3g4v-a1-m1-cB 3g4w-a1-m1-cA_3g4w-a1-m1-cB 3g4y-a1-m1-cA_3g4y-a1-m1-cB 3g52-a1-m1-cA_3g52-a1-m1-cB 3g53-a1-m1-cA_3g53-a1-m1-cB 3qob-a1-m1-cA_3qob-a1-m1-cB 3sdh-a1-m1-cA_3sdh-a1-m1-cB 3ugy-a1-m1-cA_3ugy-a1-m1-cB 3ugz-a1-m1-cA_3ugz-a1-m1-cB 3uh3-a1-m1-cA_3uh3-a1-m1-cB 3uh5-a1-m1-cA_3uh5-a1-m1-cB 3uh6-a1-m1-cA_3uh6-a1-m1-cB 3uh7-a1-m1-cA_3uh7-a1-m1-cB 3uhb-a1-m1-cA_3uhb-a1-m1-cB 3uhc-a1-m1-cA_3uhc-a1-m1-cB 3uhd-a1-m1-cB_3uhd-a1-m1-cA 3uhe-a1-m1-cA_3uhe-a1-m1-cB 3uhg-a1-m1-cA_3uhg-a1-m1-cB 3uhh-a1-m1-cA_3uhh-a1-m1-cB 3uhi-a2-m1-cC_3uhi-a2-m1-cD 3uhk-a1-m1-cA_3uhk-a1-m1-cB 3uhk-a2-m1-cC_3uhk-a2-m1-cD 3uhn-a1-m1-cA_3uhn-a1-m1-cB 3uhq-a1-m1-cA_3uhq-a1-m1-cB 3uhr-a1-m1-cA_3uhr-a1-m1-cB 3uhs-a1-m1-cA_3uhs-a1-m1-cB 3uht-a1-m1-cA_3uht-a1-m1-cB 3uhu-a1-m1-cA_3uhu-a1-m1-cB 3uhv-a1-m1-cA_3uhv-a1-m1-cB 3uhw-a1-m1-cA_3uhw-a1-m1-cB 3uhx-a1-m1-cA_3uhx-a1-m1-cB 3uhy-a1-m1-cB_3uhy-a1-m1-cA 3uhz-a1-m1-cA_3uhz-a1-m1-cB 3ui0-a1-m1-cA_3ui0-a1-m1-cB 4hbi-a1-m1-cA_4hbi-a1-m1-cB 4sdh-a1-m1-cA_4sdh-a1-m1-cB 5hbi-a1-m1-cA_5hbi-a1-m1-cB 6hbi-a1-m1-cA_6hbi-a1-m1-cB 7hbi-a1-m1-cA_7hbi-a1-m1-cB SVYDAAAQLTADVKKDLRDSWKVIGSDKKGNGVALMTTLFADNQETIGYFKRLGDVSQGMANDKLRGHSITLMYALQNFIDQLDNPDDLVCVVERFAVNHITRKISAAEFGKINGPIKKVLASKNFGDKYANAWAKLVAVVQAAL SVYDAAAQLTADVKKDLRDSWKVIGSDKKGNGVALMTTLFADNQETIGYFKRLGDVSQGMANDKLRGHSITLMYALQNFIDQLDNPDDLVCVVERFAVNHITRKISAAEFGKINGPIKKVLASKNFGDKYANAWAKLVAVVQAAL 3uhj-a7-m1-cA_3uhj-a7-m1-cD Crystal structure of a probable glycerol dehydrogenase from Sinorhizobium meliloti 1021 Q92MR2 Q92MR2 2.34 X-RAY DIFFRACTION 37 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 353 354 3uhj-a1-m1-cA_3uhj-a1-m1-cD 3uhj-a1-m1-cC_3uhj-a1-m1-cB 3uhj-a2-m2-cE_3uhj-a2-m3-cG 3uhj-a2-m3-cF_3uhj-a2-m2-cH 3uhj-a7-m1-cC_3uhj-a7-m1-cB 3uhj-a7-m1-cC_3uhj-a7-m3-cG 3uhj-a7-m2-cE_3uhj-a7-m1-cB 3uhj-a7-m2-cE_3uhj-a7-m3-cG 3uhj-a7-m2-cH_3uhj-a7-m1-cA 3uhj-a7-m3-cF_3uhj-a7-m1-cD 3uhj-a7-m3-cF_3uhj-a7-m2-cH ARAFGGPNKYIQRAGEIDKLAAYLAPLGKRALVLIDRVLFDALSERISLDIRFERFGGECCTSEIERVRKVAIEHGSDILVGVGGGKTADTAKIVAIDTGARIVIAPTIASTDAPCSAIAVRYTEHGVYEEALRLPRNPDAVVVDSALVAAAPARFLVAGIGDALSTWFEARSNIESRTDNYVAGGFPATEAGAIARHCQDVLTRDAVKAKIAVEAGLLTPAVENIIEANTLLSGLGFENCGCSAAHGIHDGLTVLEEVHGYFHGEKVAFGTLCLLLENRDRAEIEAIRFCRSVGLPTKLADLGIVDDVPAKIGRVAEAACRPGNIIYATPVTITVPAVRDAILALDAFSRSI ARAFGGPNKYIQRAGEIDKLAAYLAPLGKRALVLIDRVLFDALSERISLDIRFERFGGECCTSEIERVRKVAIEHGSDILVGVGGGKTADTAKIVAIDTGARIVIAPTIASTDAPCSAIAVRYTEHGVYEEALRLPRNPDAVVVDSALVAAAPARFLVAGIGDALSTWFEARSNIESRTDNYVAGGFPATEAGAIARHCQDVLTRDAVKAKIAVEAGLLTPAVENIIEANTLLSGLGFENCGCSAAHGIHDGLTVLEEVHGYFHGEKVAFGTLCLLLENRDRAEIEAIRFCRSVGLPTKLADLGIVDDVPAKIGRVAEAACRPGNIIYATPVTITVPAVRDAILALDAFSRSIH 3uhj-a7-m3-cF_3uhj-a7-m3-cG Crystal structure of a probable glycerol dehydrogenase from Sinorhizobium meliloti 1021 Q92MR2 Q92MR2 2.34 X-RAY DIFFRACTION 109 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 348 353 3uhj-a1-m1-cA_3uhj-a1-m1-cB 3uhj-a1-m1-cC_3uhj-a1-m1-cD 3uhj-a2-m2-cE_3uhj-a2-m2-cH 3uhj-a2-m3-cF_3uhj-a2-m3-cG 3uhj-a3-m1-cA_3uhj-a3-m1-cB 3uhj-a4-m1-cC_3uhj-a4-m1-cD 3uhj-a5-m1-cE_3uhj-a5-m1-cH 3uhj-a6-m1-cF_3uhj-a6-m1-cG 3uhj-a7-m1-cA_3uhj-a7-m1-cB 3uhj-a7-m1-cC_3uhj-a7-m1-cD 3uhj-a7-m2-cE_3uhj-a7-m2-cH ARAFGGPNKYIQRAGEIDKLAAYLAPLGKRALVLIDRVLFDALSERISLDIRFERFGGECCTSEIERVRKVAIEHGSDILVGVGGGKTADTAKIVAIDTGARIVIAPTIASTDAPCSAIAVRYTEHGVYEEALRLPRNPDAVVVDSALVAAAPARFLVAGIGDALSTWFEARSNIESRTDNFPATEAGAIARHCQDVLTRDAVKAKIAVEAGLLTPAVENIIEANTLLSGLGFENCGCSAAHGIHDGLTVLEEVHGYFHGEKVAFGTLCLLLENRDRAEIEAIRFCRSVGLPTKLADLGIVDDVPAKIGRVAEAACRPGNIIYATPVTITVPAVRDAILALDAFSRSI ARAFGGPNKYIQRAGEIDKLAAYLAPLGKRALVLIDRVLFDALSERISLDIRFERFGGECCTSEIERVRKVAIEHGSDILVGVGGGKTADTAKIVAIDTGARIVIAPTIASTDAPCSAIAVRYTEHGVYEEALRLPRNPDAVVVDSALVAAAPARFLVAGIGDALSTWFEARSNIESRTDNYVAGGFPATEAGAIARHCQDVLTRDAVKAKIAVEAGLLTPAVENIIEANTLLSGLGFENCGCSAAHGIHDGLTVLEEVHGYFHGEKVAFGTLCLLLENRDRAEIEAIRFCRSVGLPTKLADLGIVDDVPAKIGRVAEAACRPGNIIYATPVTITVPAVRDAILALDAFSRSI 3uiw-a3-m1-cB_3uiw-a3-m2-cB Zebrafish Grx2 (APO) Q6DH06 Q6DH06 2.601 X-RAY DIFFRACTION 48 1.0 7955 (Danio rerio) 7955 (Danio rerio) 109 109 3uiw-a3-m1-cA_3uiw-a3-m2-cA GLSSSACGQFVQDIVSSNCVVIFSKTTCPYCKMAKGVFNEIGATYKVVELDEHNDGRRLQETLAELTGARTVPRVFINGQCIGGGSDTKQLHQQGKLLPLIEQCRPCCL GLSSSACGQFVQDIVSSNCVVIFSKTTCPYCKMAKGVFNEIGATYKVVELDEHNDGRRLQETLAELTGARTVPRVFINGQCIGGGSDTKQLHQQGKLLPLIEQCRPCCL 3uiw-a3-m2-cB_3uiw-a3-m2-cA Zebrafish Grx2 (APO) Q6DH06 Q6DH06 2.601 X-RAY DIFFRACTION 51 1.0 7955 (Danio rerio) 7955 (Danio rerio) 109 110 3uiw-a3-m1-cB_3uiw-a3-m1-cA GLSSSACGQFVQDIVSSNCVVIFSKTTCPYCKMAKGVFNEIGATYKVVELDEHNDGRRLQETLAELTGARTVPRVFINGQCIGGGSDTKQLHQQGKLLPLIEQCRPCCL PGLSSSACGQFVQDIVSSNCVVIFSKTTCPYCKMAKGVFNEIGATYKVVELDEHNDGRRLQETLAELTGARTVPRVFINGQCIGGGSDTKQLHQQGKLLPLIEQCRPCCL 3uiz-a8-m1-cB_3uiz-a8-m1-cD Crystal structure of SefD_dscA in D2O P12061 P12061 3.1 X-RAY DIFFRACTION 89 0.985 149539 (Salmonella enterica subsp. enterica serovar Enteritidis) 149539 (Salmonella enterica subsp. enterica serovar Enteritidis) 134 136 3uiy-a2-m1-cA_3uiy-a2-m2-cA 3uiz-a7-m1-cE_3uiz-a7-m1-cA 3uiz-a9-m2-cF_3uiz-a9-m1-cC SLKLMIKINEAVFYDRITSNKIIGTGHLFNREGKKILISSSLEKIKNTPGAYIIRGQNNSAHKLRIRIGGEDWQPDNSGIGMVSHSDFTNEFNIYFFGNGDIPVDTYLISIYATEIEGNKAVVQAAVTIAAKLN LKLMIKINEAVFYDRITSNKIIGTGHLFNREGKKILISSSLEKIKNTPGAYIIRGQNNSAHKLRIRIGGEDWQPDNSGIGMVSHSDFTNEFNIYFFGNGDIPVDTYLISIYATEIQGFVGNKAVVQAAVTIAAKLN 3uj2-a1-m1-cE_3uj2-a1-m1-cH CRYSTAL STRUCTURE OF AN ENOLASE FROM ANAEROSTIPES CACCAE (EFI TARGET EFI-502054) WITH BOUND MG AND SULFATE B0MAG5 B0MAG5 2 X-RAY DIFFRACTION 85 1.0 411490 (Anaerostipes caccae L1-92) 411490 (Anaerostipes caccae L1-92) 423 423 3uj2-a1-m1-cA_3uj2-a1-m1-cF 3uj2-a1-m1-cB_3uj2-a1-m1-cC 3uj2-a1-m1-cD_3uj2-a1-m1-cG NYLEIEKVIGREIIDSRGNPTVEAEVYLAGGVTGRGTAPSGGEFEALELRDGDKGRFGGKGVTKAVQNINTEISEILSGMDASDIYAVDRAMIDADGTKDKSKFGANAVLAVSIACAKAAAAALGVPLYRFLGGLNANRLPVPMMNILNGGAHAANTVDVQEFMIMPVGAESFREALRQCTEVFHALAGLLKSKGLATSVGDEGGFAPDLASDEEAIEYILEAVKLAGYEPGRDFVLAMDAASSEWKGEKKGEYILPKCKRKFASEELVAHWKSLCERYPIVSIEDGLDEEDWEGWQYMTRELGDKIQLVGDDLFVTNTERLNKGIKERCGNSILIKLNQIGTVSETLEAIKMAHKAGYTAVVSHRSGETEDTTIADLAVALNTGQIKTGAPSRSERVAKYNQLLRIEEELGDSAVYPGFTTF NYLEIEKVIGREIIDSRGNPTVEAEVYLAGGVTGRGTAPSGGEFEALELRDGDKGRFGGKGVTKAVQNINTEISEILSGMDASDIYAVDRAMIDADGTKDKSKFGANAVLAVSIACAKAAAAALGVPLYRFLGGLNANRLPVPMMNILNGGAHAANTVDVQEFMIMPVGAESFREALRQCTEVFHALAGLLKSKGLATSVGDEGGFAPDLASDEEAIEYILEAVKLAGYEPGRDFVLAMDAASSEWKGEKKGEYILPKCKRKFASEELVAHWKSLCERYPIVSIEDGLDEEDWEGWQYMTRELGDKIQLVGDDLFVTNTERLNKGIKERCGNSILIKLNQIGTVSETLEAIKMAHKAGYTAVVSHRSGETEDTTIADLAVALNTGQIKTGAPSRSERVAKYNQLLRIEEELGDSAVYPGFTTF 3uj2-a1-m1-cG_3uj2-a1-m1-cH CRYSTAL STRUCTURE OF AN ENOLASE FROM ANAEROSTIPES CACCAE (EFI TARGET EFI-502054) WITH BOUND MG AND SULFATE B0MAG5 B0MAG5 2 X-RAY DIFFRACTION 117 1.0 411490 (Anaerostipes caccae L1-92) 411490 (Anaerostipes caccae L1-92) 423 423 3uj2-a1-m1-cA_3uj2-a1-m1-cB 3uj2-a1-m1-cC_3uj2-a1-m1-cD 3uj2-a1-m1-cE_3uj2-a1-m1-cF NYLEIEKVIGREIIDSRGNPTVEAEVYLAGGVTGRGTAPSGGEFEALELRDGDKGRFGGKGVTKAVQNINTEISEILSGMDASDIYAVDRAMIDADGTKDKSKFGANAVLAVSIACAKAAAAALGVPLYRFLGGLNANRLPVPMMNILNGGAHAANTVDVQEFMIMPVGAESFREALRQCTEVFHALAGLLKSKGLATSVGDEGGFAPDLASDEEAIEYILEAVKLAGYEPGRDFVLAMDAASSEWKGEKKGEYILPKCKRKFASEELVAHWKSLCERYPIVSIEDGLDEEDWEGWQYMTRELGDKIQLVGDDLFVTNTERLNKGIKERCGNSILIKLNQIGTVSETLEAIKMAHKAGYTAVVSHRSGETEDTTIADLAVALNTGQIKTGAPSRSERVAKYNQLLRIEEELGDSAVYPGFTTF NYLEIEKVIGREIIDSRGNPTVEAEVYLAGGVTGRGTAPSGGEFEALELRDGDKGRFGGKGVTKAVQNINTEISEILSGMDASDIYAVDRAMIDADGTKDKSKFGANAVLAVSIACAKAAAAALGVPLYRFLGGLNANRLPVPMMNILNGGAHAANTVDVQEFMIMPVGAESFREALRQCTEVFHALAGLLKSKGLATSVGDEGGFAPDLASDEEAIEYILEAVKLAGYEPGRDFVLAMDAASSEWKGEKKGEYILPKCKRKFASEELVAHWKSLCERYPIVSIEDGLDEEDWEGWQYMTRELGDKIQLVGDDLFVTNTERLNKGIKERCGNSILIKLNQIGTVSETLEAIKMAHKAGYTAVVSHRSGETEDTTIADLAVALNTGQIKTGAPSRSERVAKYNQLLRIEEELGDSAVYPGFTTF 3uj3-a1-m1-cX_3uj3-a1-m4-cX Crystal Structure of the synaptic tetramer of the G-Segment Invertase (Gin) P03015 P03015 3.51 X-RAY DIFFRACTION 51 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 124 124 3uj3-a1-m2-cX_3uj3-a1-m3-cX LIGYVRVATNDQNTDLQRNALVCAGCEQIFEDKLSGTRTDRPGLKRALKRLQKGDTLVVWKLDRLGRSMKHLISLVGELRERGINFRSLTDSIDTSSPMGRFFFHVMGALAEVERELIIERTMA LIGYVRVATNDQNTDLQRNALVCAGCEQIFEDKLSGTRTDRPGLKRALKRLQKGDTLVVWKLDRLGRSMKHLISLVGELRERGINFRSLTDSIDTSSPMGRFFFHVMGALAEVERELIIERTMA 3uj3-a1-m2-cX_3uj3-a1-m4-cX Crystal Structure of the synaptic tetramer of the G-Segment Invertase (Gin) P03015 P03015 3.51 X-RAY DIFFRACTION 10 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 124 124 3uj3-a1-m1-cX_3uj3-a1-m3-cX LIGYVRVATNDQNTDLQRNALVCAGCEQIFEDKLSGTRTDRPGLKRALKRLQKGDTLVVWKLDRLGRSMKHLISLVGELRERGINFRSLTDSIDTSSPMGRFFFHVMGALAEVERELIIERTMA LIGYVRVATNDQNTDLQRNALVCAGCEQIFEDKLSGTRTDRPGLKRALKRLQKGDTLVVWKLDRLGRSMKHLISLVGELRERGINFRSLTDSIDTSSPMGRFFFHVMGALAEVERELIIERTMA 3ujh-a1-m1-cB_3ujh-a1-m1-cA Crystal structure of substrate-bound Glucose-6-phosphate isomerase from Toxoplasma gondii 2.1 X-RAY DIFFRACTION 471 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 558 566 QLEQCASHGKLLQEKKKLEKLHLRDLLKDEARNDLLIRSTDQGVYLDFSRQKITLETLQHLVNLAHERQVPAMVKRMFSGEKINQTENRAVLHVALRMPEGSEPVHVDGKNVLDEVHAVLRRIRVFSEKVRSGEIRGHTGKKLVNVISIGIGGSYLGTEFVHLALAAEGYAAEKAHGRQIHFLANVDPVDVWLAERGFDPEETLVVVISKTFTTAETMMNARSVRDWYLHHYKGDERALGAHFCAVSTNLDGTSKFGIQSDRVFGFWDWVGGRYSVTSAVGILPLALQYGYDVAQEFLNGAHAMDVHFKTAELADNLPMLMGLISVWNATFFGYSNVAVLPYAQALLRFPAHIQQLTMESNGKRVTMDGKTLDFDVGEIFFGEPGTNGQHSFYQLIHQGRVIPAEFIGFCKSQRAIKLKEEPVSNHDELMSNFFAQPDALAFGKTPEELRKEGIPEKLVPHKTFPGDRPSCMLLFPEISPFHIGQLLALYEHRVAVEGWLWGINSFDQWGVELGKVLAKGVRGILQKRREGKAPHESGQSELCSSTRKILEHYVQQSK GPGSMAPTQLEQCASHGKLLQEKKKLEKLHLRDLLKDEARNDLLIRSTDQGVYLDFSRQKITLETLQHLVNLAHERQVPAMVKRMFSGEKINQTENRAVLHVALRMPEGSEPVHVDGKNVLDEVHAVLRRIRVFSEKVRSGEIRGHTGKKLVNVISIGIGGSYLGTEFVHLALAAEGYAAEKAHGRQIHFLANVDPVDVWLAERGFDPEETLVVVISKTFTTAETMMNARSVRDWYLHHYKGDERALGAHFCAVSTNLDGTSKFGIQSDRVFGFWDWVGGRYSVTSAVGILPLALQYGYDVAQEFLNGAHAMDVHFKTAELADNLPMLMGLISVWNATFFGYSNVAVLPYAQALLRFPAHIQQLTMESNGKRVTMDGKTLDFDVGEIFFGEPGTNGQHSFYQLIHQGRVIPAEFIGFCKSQRAIKLKEEPVSNHDELMSNFFAQPDALAFGKTPEELRKEGIPEKLVPHKTFPGDRPSCMLLFPEISPFHIGQLLALYEHRVAVEGWLWGINSFDQWGVELGKVLAKGVRGILQKRREGKAPHESGQSELCSSTRKILEHYVQQSK 3ujm-a1-m1-cA_3ujm-a1-m1-cB Crystal structure of the NTF2-like domain of the Drosophila melanogaster Rasputin protein Q9VFT4 Q9VFT4 2.741 X-RAY DIFFRACTION 79 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 117 117 MSVGREFVRQYYTLLNKAPNHLHRFYNHNSSYIHGESKLVVGQREIHNRIQQLNFNDCHAKISQVDAQATLGNGVVVQVTGELSNDGQPMRRFTQTFVLAAQSPKKYYVHNDIFRYQ MSVGREFVRQYYTLLNKAPNHLHRFYNHNSSYIHGESKLVVGQREIHNRIQQLNFNDCHAKISQVDAQATLGNGVVVQVTGELSNDGQPMRRFTQTFVLAAQSPKKYYVHNDIFRYQ 3ujp-a1-m2-cB_3ujp-a1-m1-cA Structure of MntC protein at 2.7A Q79EF9 Q79EF9 2.7 X-RAY DIFFRACTION 15 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 267 274 3ujp-a1-m1-cB_3ujp-a1-m2-cA EKKKVLTTFTVLADMVQNVAGDKLVVESITRIGAEIHGYEPTPSDIVKAQDADLILYNGMNLERWFEQFLGNVKDVPSVVLTEGIEPIPITDKPNPHAWMSPRNALVYVENIRQAFVELDPDNAKYYNANAAVYSEQLKAIDRQLGADLEQVPANQRFLVSCEGAFSYLARDYGMEEIYMWPINAEQQFTPKQVQTVIEEVKTNNVPTIFCESTVSDKGQKQVAQATGARFGGNLYVDSLSTEEGPVPTFLDLLEYDARVITNGLLA TEEKKKVLTTFTVLADMVQNVAGDKLVVESITRIGAEIHGYEPTPSDIVKAQDADLILYNGMNLERWFEQFLGNVKDVPSVVLTEGIEPIPIADGPYTDKPNPHAWMSPRNALVYVENIRQAFVELDPDNAKYYNANAAVYSEQLKAIDRQLGADLEQVPANQRFLVSCEGAFSYLARDYGMEEIYMWPINAEQQFTPKQVQTVIEEVKTNNVPTIFCESTVSDKGQKQVAQATGARFGGNLYVDSLSTEEGPVPTFLDLLEYDARVITNGLLA 3ujp-a1-m2-cB_3ujp-a1-m2-cA Structure of MntC protein at 2.7A Q79EF9 Q79EF9 2.7 X-RAY DIFFRACTION 52 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 267 274 3ujp-a1-m1-cB_3ujp-a1-m1-cA EKKKVLTTFTVLADMVQNVAGDKLVVESITRIGAEIHGYEPTPSDIVKAQDADLILYNGMNLERWFEQFLGNVKDVPSVVLTEGIEPIPITDKPNPHAWMSPRNALVYVENIRQAFVELDPDNAKYYNANAAVYSEQLKAIDRQLGADLEQVPANQRFLVSCEGAFSYLARDYGMEEIYMWPINAEQQFTPKQVQTVIEEVKTNNVPTIFCESTVSDKGQKQVAQATGARFGGNLYVDSLSTEEGPVPTFLDLLEYDARVITNGLLA TEEKKKVLTTFTVLADMVQNVAGDKLVVESITRIGAEIHGYEPTPSDIVKAQDADLILYNGMNLERWFEQFLGNVKDVPSVVLTEGIEPIPIADGPYTDKPNPHAWMSPRNALVYVENIRQAFVELDPDNAKYYNANAAVYSEQLKAIDRQLGADLEQVPANQRFLVSCEGAFSYLARDYGMEEIYMWPINAEQQFTPKQVQTVIEEVKTNNVPTIFCESTVSDKGQKQVAQATGARFGGNLYVDSLSTEEGPVPTFLDLLEYDARVITNGLLA 3ujp-a1-m2-cB_3ujp-a1-m2-cC Structure of MntC protein at 2.7A Q79EF9 Q79EF9 2.7 X-RAY DIFFRACTION 23 0.996 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 267 272 3ujp-a1-m1-cB_3ujp-a1-m1-cC EKKKVLTTFTVLADMVQNVAGDKLVVESITRIGAEIHGYEPTPSDIVKAQDADLILYNGMNLERWFEQFLGNVKDVPSVVLTEGIEPIPITDKPNPHAWMSPRNALVYVENIRQAFVELDPDNAKYYNANAAVYSEQLKAIDRQLGADLEQVPANQRFLVSCEGAFSYLARDYGMEEIYMWPINAEQQFTPKQVQTVIEEVKTNNVPTIFCESTVSDKGQKQVAQATGARFGGNLYVDSLSTEEGPVPTFLDLLEYDARVITNGLLA EEKKKVLTTFTVLADMVQNVAGDKLVVESITRIGAEIHGYEPTPSDIVKAQDADLILYNGMNLERWFEQFLGNVKDVPSVVLTEGIEPIPIADGPYTDKPNPHAWMSPRNALVYVENIRQAFVELDPDNAKYYNANAAVYSEQLKAIDRQLGADLEQVPANQRFLVSCEGAFSYLARDYGMEEIYMWPINAEQQFTPKQVQTVIEEVKTNNVPTIFCESTVSDKGQKQVAQATGARFGGNLYVDSLSTEEGPVPTFLDLLEYDARVITNGLL 3ujz-a2-m1-cA_3ujz-a2-m2-cA Crystal structure of enterohemorrhagic E. coli StcE O82882 O82882 2.5 X-RAY DIFFRACTION 29 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 592 592 NSAIYFNTSQPINDLQGSLAAEVKFAQSQILPAHPKEGDSQPHLTSLRKSLLLVRPVKADDKTPVQVEARDDNNKILGTLTLYPPSSLPDTIYHLDGVPLENNRITYAQHIWSAELPAHWIVPGLNLVIKQGNLSGRLNDIKIGAPGELLLHTIDIGLTTPRDRFDFAADAAAHREYFQTIPVSRIVNNYAPLHLKEVLPTGELLTDDPGNGGWHSGTRQRIGKELVSHGIDNANYGLNSTAGLGENSHPYVVAQLAAHNSRGNYANGIQVHGGSGGGGIVTLDSTLGNEFSHDVGHNYGLGHYVDGFKGSVHRSAENNNSTWGWDGDKKRFIPNFYPSQTNEKSCLNNQCQEPFDGHKFGFDAAGGSPFSAANRFTYTPNSSAIIQRFFENKAVFDSRSSTGFSKWNADTQEEPYEHTIEARKPEQFGVPVTTLVGYYDPEGTLSSYIYPAYGAYGFTYSNKFHINVPTESQPLDTKSLTPAPEGLTYTVNGQALPAKENEGCIVSVNSGKRYCLPVGQRSGYSLPDWIVGQEVYVDSGAKAKVLLSDWDNLSYNRIGEFVGNVNPADKKVKAWNGQYLDFSKPRSRVVYK NSAIYFNTSQPINDLQGSLAAEVKFAQSQILPAHPKEGDSQPHLTSLRKSLLLVRPVKADDKTPVQVEARDDNNKILGTLTLYPPSSLPDTIYHLDGVPLENNRITYAQHIWSAELPAHWIVPGLNLVIKQGNLSGRLNDIKIGAPGELLLHTIDIGLTTPRDRFDFAADAAAHREYFQTIPVSRIVNNYAPLHLKEVLPTGELLTDDPGNGGWHSGTRQRIGKELVSHGIDNANYGLNSTAGLGENSHPYVVAQLAAHNSRGNYANGIQVHGGSGGGGIVTLDSTLGNEFSHDVGHNYGLGHYVDGFKGSVHRSAENNNSTWGWDGDKKRFIPNFYPSQTNEKSCLNNQCQEPFDGHKFGFDAAGGSPFSAANRFTYTPNSSAIIQRFFENKAVFDSRSSTGFSKWNADTQEEPYEHTIEARKPEQFGVPVTTLVGYYDPEGTLSSYIYPAYGAYGFTYSNKFHINVPTESQPLDTKSLTPAPEGLTYTVNGQALPAKENEGCIVSVNSGKRYCLPVGQRSGYSLPDWIVGQEVYVDSGAKAKVLLSDWDNLSYNRIGEFVGNVNPADKKVKAWNGQYLDFSKPRSRVVYK 3uk1-a1-m1-cA_3uk1-a1-m1-cB Crystal structure of a transketolase from Burkholderia thailandensis with an oxidized cysteinesulfonic acid in the active site Q2SZA7 Q2SZA7 2.15 X-RAY DIFFRACTION 319 0.997 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 650 668 3upt-a1-m1-cB_3upt-a1-m1-cA SPASTTLMANAIRALAMDAVQQANSGHPGMPMGMAEIGVALWSRHLKHNPTNPHWADRDRFVLSNGHGSMLLYSLLHLTGYDLPIEELKNFRQLHSKTPGHPEYGITPGVETTTGPLGQGLANAVGMALGEALLAAEFNRDDAKIVDHHTYVFLGDGLMEGISHEACSLAGTLKLNKLIALYDDNGISIDGDVVNWFHDDTPKRFEAYGWNVIPNVNGHDVDAIDAAIAKAKRSDKPSLICCKTGADEIAKTREALGWTWAPFVIPQEVYAAWDAKEAGKRSEDDWNAAFAQYRAKYPAEAAEFERRMAGTLPADWAAKAAAIVAGANERGETVATRKASQQTIEGLAAVLPELLGGSADLTGSNLTNWKASKAVRANADGPGVQWGNHINYGVREFGMSAAINGLVLHGGYKPFGGTFLTFSDYSRNALRVAALMKVPSIFVFTHDSIGLGEDGPTHQSVEHVASLRLIPNLDVWRPADTVETAVAWTYAVAHQHPSCLIFSRQNLAFNARTDAQLANVEKGGYVLRDWDEEIVARKIILIATGSEVELAMKAVEPLAQQGIAARVVSMPSSDVFDRQDAEYRERVLPHGVRRVAIEAGVTDFWRKYVGLEGGVVGIDTFGESAPAGVLFKHFGFTVEHVIETAKAVLA ASTTLMANAIRALAMDAVQQANSGHPGMPMGMAEIGVALWSRHLKHNPTNPHWADRDRFVLSNGHGSMLLYSLLHLTGYDLPIEELKNFRQLHSKTPGHPEYGITPGVETTTGPLGQGLANAVGMALGEALLAAEFNRDDAKIVDHHTYVFLGDGLMEGISHEACSLAGTLKLNKLIALYDDNGISIDGDVVNWFHDDTPKRFEAYGWNVIPNVNGHDVDAIDAAIAKAKRSDKPSLICCKTRIGNGAATKAGGHDVHGAPLGADEIAKTREALGWTWAPFVIPQEVYAAWDAKEAGKRSEDDWNAAFAQYRAKYPAEAAEFERRMAGTLPADWAAKAAAIVAGANERGETVATRKASQQTIEGLAAVLPELLGGSADLTGSNLTNWKASKAVRANADGPGVQWGNHINYGVREFGMSAAINGLVLHGGYKPFGGTFLTFSDYSRNALRVAALMKVPSIFVFTHDSIGLGEDGPTHQSVEHVASLRLIPNLDVWRPADTVETAVAWTYAVAHQHPSCLIFSRQNLAFNARTDAQLANVEKGGYVLRDWDEEIVARKIILIATGSEVELAMKAVEPLAQQGIAARVVSMPSSDVFDRQDAEYRERVLPHGVRRVAIEAGVTDFWRKYVGLEGGVVGIDTFGESAPAGVLFKHFGFTVEHVIETAKAVLA 3uk2-a1-m1-cA_3uk2-a1-m1-cB The structure of Pantothenate synthetase from Burkholderia thailandensis Q2T095 Q2T095 2.25 X-RAY DIFFRACTION 61 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 280 280 SMKVISSIQELRDQLRGQNRTAFVPTMGNLHEGHLSLMRLARQHGDPVVASIFVNRLQFGPNEDFDKYPRTLQEDIEKLQKENVYVLFAPTERDMYPEPQEYRVQPPHDLGDILEGEFRPGFFTGVCTVVTKLMACVQPRVAVFGKKDYQQLMIVRRMCQQLALPVEIVAAETVRDADGLALSSRNRYLSEAERAEAPELAKTLARVRDAVLDGERDLAAIERRAVAHLSARGWQPDYVSIRRRENLVAPSAAQIEAGDPLVVLTAAKLGATRLIDNLEI SMKVISSIQELRDQLRGQNRTAFVPTMGNLHEGHLSLMRLARQHGDPVVASIFVNRLQFGPNEDFDKYPRTLQEDIEKLQKENVYVLFAPTERDMYPEPQEYRVQPPHDLGDILEGEFRPGFFTGVCTVVTKLMACVQPRVAVFGKKDYQQLMIVRRMCQQLALPVEIVAAETVRDADGLALSSRNRYLSEAERAEAPELAKTLARVRDAVLDGERDLAAIERRAVAHLSARGWQPDYVSIRRRENLVAPSAAQIEAGDPLVVLTAAKLGATRLIDNLEI 3uk6-a2-m1-cH_3uk6-a2-m1-cG Crystal Structure of the Tip48 (Tip49b) hexamer Q9Y230 Q9Y230 2.95 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 277 330 3uk6-a1-m1-cD_3uk6-a1-m1-cC IGAHSHIREPRQASQGMVGQLAARRAAGVVLEMIRAVLIAGQPGTGKTAIAMGMAQALGPDTPFTAIAGSEIFSLEMSKTEALTQAFRRSIGVTVSLHEIDVINSFSEIKSEVREQINAKVAEWIPGVLFIDEVHMLDIESFSFLNRALESDMAPVLIMATNRGITRIRGTSYQSPHGIPIDLLDRLLIVSTTPYSEKDTKQILRIRCEEEDVEMSEDAYTVLTRIGLETSLRYAIQLITAASLVCRKRKGTEVQVDDIKRVYSLFLDESRSTQYMK TTKVPEIRDVTRIERIGAHSHIRGLGLDDALEPRQASQGMVGQLAARRAAGVVLEMIREGKIAGRAVLIAGQPGTGKTAIAMGMAQALGPDTPFTAIAGSEIFSLEMSKTEALTQAFRRSIGVRIKATVSLHEIDVINSRTQGFLALFSGDTGEIKSEVREQINAKVAEWREEGAEIIPGVLFIDEVHMLDIESFSFLNRALESDMAPVLIMATNRGITRIRGTSYQSPHGIPIDLLDRLLIVSTTPYSEKDTKQILRIRCEEEDVEMSEDAYTVLTRIGLETSLRYAIQLITAASLVCRKRKGTEVQVDDIKRVYSLFLDESRSTQYMK 3ukm-a2-m1-cC_3ukm-a2-m1-cD Crystal structure of the human two pore domain potassium ion channel K2P1 (TWIK-1) O00180 O00180 3.4 X-RAY DIFFRACTION 161 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 3ukm-a1-m1-cA_3ukm-a1-m1-cB 7sk0-a1-m1-cA_7sk0-a1-m1-cB 7sk1-a1-m1-cA_7sk1-a1-m1-cB NSATMFGFLVLGYLLYLVFGAVVFSSVELPYEDLLRQELRKLKRRFLEEHECLSEQQLEQFLGRVLEASNYGVSVLWNWDFTSALFFASTVLSTTGYGHTVPLSDGGKAFCIIYSVIGIPFTLLFLTAVVQRITVHVTRRPVLYFSKQVVAIVHAVLLGFVTVSCFFFIPAAVFSVLEDDWNFLESFYFCFISLSTIGLGDYVPGEGYNQKFRELYKIGITCYLLLGLIAMLVVLETFCELHELKKFRKMFY NSATMFGFLVLGYLLYLVFGAVVFSSVELPYEDLLRQELRKLKRRFLEEHECLSEQQLEQFLGRVLEASNYGVSVLWNWDFTSALFFASTVLSTTGYGHTVPLSDGGKAFCIIYSVIGIPFTLLFLTAVVQRITVHVTRRPVLYFSKQVVAIVHAVLLGFVTVSCFFFIPAAVFSVLEDDWNFLESFYFCFISLSTIGLGDYVPGEGYNQKFRELYKIGITCYLLLGLIAMLVVLETFCELHELKKFRKMFY 3uko-a2-m1-cA_3uko-a2-m2-cB Crystal Structure of S-Nitrosoglutathione Reductase from Arabidopsis thaliana, complex with NADH Q96533 Q96533 1.4 X-RAY DIFFRACTION 11 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 378 378 3uko-a2-m1-cB_3uko-a2-m2-cA ATQGQVITCKAAVAYEPNKPLVIEDVQVAPPQAGEVRIKILYTALCHTDAYTWSGKDPEGLFPCILGHEAAGIVESVGEGVTEVQAGDHVIPCYQAECRECKFCKSGKTNLCGKVRSATGVGIMMNDRKSRFSVNGKPIYHFMGTSTFSQYTVVHDVSVAKIDPTAPLDKVCLLGCGVPTGLGAVWNTAKVEPGSNVAIFGLGTVGLAVAEGAKTAGASRIIGIDIDSKKYETAKKFGVNEFVNPKDHDKPIQEVIVDLTDGGVDYSFECIGNVSVMRAALECCHKGWGTSVIVGVAASGQEISTRPFQLVTGRVWKGTAFGGFKSRTQVPWLVEKYMNKEIKVDEYITHNLTLGEINKAFDLLHEGTCLRCVLDTSK ATQGQVITCKAAVAYEPNKPLVIEDVQVAPPQAGEVRIKILYTALCHTDAYTWSGKDPEGLFPCILGHEAAGIVESVGEGVTEVQAGDHVIPCYQAECRECKFCKSGKTNLCGKVRSATGVGIMMNDRKSRFSVNGKPIYHFMGTSTFSQYTVVHDVSVAKIDPTAPLDKVCLLGCGVPTGLGAVWNTAKVEPGSNVAIFGLGTVGLAVAEGAKTAGASRIIGIDIDSKKYETAKKFGVNEFVNPKDHDKPIQEVIVDLTDGGVDYSFECIGNVSVMRAALECCHKGWGTSVIVGVAASGQEISTRPFQLVTGRVWKGTAFGGFKSRTQVPWLVEKYMNKEIKVDEYITHNLTLGEINKAFDLLHEGTCLRCVLDTSK 3uko-a2-m1-cB_3uko-a2-m2-cB Crystal Structure of S-Nitrosoglutathione Reductase from Arabidopsis thaliana, complex with NADH Q96533 Q96533 1.4 X-RAY DIFFRACTION 28 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 378 378 3uko-a2-m1-cA_3uko-a2-m2-cA 4gl4-a1-m1-cA_4gl4-a1-m2-cA 4gl4-a2-m1-cB_4gl4-a2-m2-cB ATQGQVITCKAAVAYEPNKPLVIEDVQVAPPQAGEVRIKILYTALCHTDAYTWSGKDPEGLFPCILGHEAAGIVESVGEGVTEVQAGDHVIPCYQAECRECKFCKSGKTNLCGKVRSATGVGIMMNDRKSRFSVNGKPIYHFMGTSTFSQYTVVHDVSVAKIDPTAPLDKVCLLGCGVPTGLGAVWNTAKVEPGSNVAIFGLGTVGLAVAEGAKTAGASRIIGIDIDSKKYETAKKFGVNEFVNPKDHDKPIQEVIVDLTDGGVDYSFECIGNVSVMRAALECCHKGWGTSVIVGVAASGQEISTRPFQLVTGRVWKGTAFGGFKSRTQVPWLVEKYMNKEIKVDEYITHNLTLGEINKAFDLLHEGTCLRCVLDTSK ATQGQVITCKAAVAYEPNKPLVIEDVQVAPPQAGEVRIKILYTALCHTDAYTWSGKDPEGLFPCILGHEAAGIVESVGEGVTEVQAGDHVIPCYQAECRECKFCKSGKTNLCGKVRSATGVGIMMNDRKSRFSVNGKPIYHFMGTSTFSQYTVVHDVSVAKIDPTAPLDKVCLLGCGVPTGLGAVWNTAKVEPGSNVAIFGLGTVGLAVAEGAKTAGASRIIGIDIDSKKYETAKKFGVNEFVNPKDHDKPIQEVIVDLTDGGVDYSFECIGNVSVMRAALECCHKGWGTSVIVGVAASGQEISTRPFQLVTGRVWKGTAFGGFKSRTQVPWLVEKYMNKEIKVDEYITHNLTLGEINKAFDLLHEGTCLRCVLDTSK 3ukt-a1-m1-cA_3ukt-a1-m1-cB Structure of the C-linker/CNBHD of zELK channels in P1 21 1 space group A8WHX9 A8WHX9 2.3 X-RAY DIFFRACTION 63 1.0 7955 (Danio rerio) 7955 (Danio rerio) 196 198 3ukn-a1-m1-cA_3ukn-a1-m1-cB 3ukn-a2-m1-cC_3ukn-a2-m2-cC 3ukt-a2-m1-cD_3ukt-a2-m1-cC 3ukv-a1-m1-cA_3ukv-a1-m1-cB RSLYHTRTKDLKDFIRVHRLPKALAQRMLECFQTTWSVNNGIDVSELLKDFPDELRADIAMHLNKELLQLPLFESASRGCLRSLSLIIKTSFCAPGEFLIRQGDALQAIYFVCSGSMEVLKDNTVLAILGKGDLIGSDSLTKEQVIKTNANVKALTYCDLQYISLKGLREVLRLYPEYAQKFVSEIQHDLTYNLRE RRSLYHTRTKDLKDFIRVHRLPKALAQRMLECFQTTWSVNNGIDVSELLKDFPDELRADIAMHLNKELLQLPLFESASRGCLRSLSLIIKTSFCAPGEFLIRQGDALQAIYFVCSGSMEVLKDNTVLAILGKGDLIGSDSLTKEQVIKTNANVKALTYCDLQYISLKGLREVLRLYPEYAQKFVSEIQHDLTYNLREG 3ul2-a2-m1-cC_3ul2-a2-m3-cC Galactose-specific lectin from Dolichos lablab in P6522 space group B3EWQ9 B3EWQ9 2.5 X-RAY DIFFRACTION 61 1.0 35936 (Lablab purpureus) 35936 (Lablab purpureus) 248 248 3ujo-a1-m1-cA_3ujo-a1-m1-cB 3ujo-a1-m1-cC_3ujo-a1-m1-cD 3ujq-a1-m1-cA_3ujq-a1-m1-cB 3ujq-a1-m1-cC_3ujq-a1-m1-cD 3uk9-a1-m1-cA_3uk9-a1-m1-cB 3uk9-a1-m1-cC_3uk9-a1-m1-cD 3uk9-a2-m1-cE_3uk9-a2-m1-cF 3uk9-a2-m1-cG_3uk9-a2-m1-cH 3ul2-a1-m1-cB_3ul2-a1-m1-cD 3ul2-a1-m2-cB_3ul2-a1-m2-cD 3ul2-a2-m1-cA_3ul2-a2-m3-cA ANLISFTFKKFNETNLILQRDATVSSGKLRITKAAENGVPTAGSLGRAFYSTPIQIWDNTTGTVASWATSFTFNLQAPNAASPADGLAFALVPVGSQPKDKGGFLGLFDSKNYASSNQTVAVEFDTFYNGGWDPTERHIGIDVNSIKSIKTTSWDFANGENAEVLITYDSSTNLLVASLVHPSQKTSFIVSERVDLTSVLPEWVSVGFSATTGLSKGYVETNEVLSWSFASKLSINKNKLAIFNLEGK ANLISFTFKKFNETNLILQRDATVSSGKLRITKAAENGVPTAGSLGRAFYSTPIQIWDNTTGTVASWATSFTFNLQAPNAASPADGLAFALVPVGSQPKDKGGFLGLFDSKNYASSNQTVAVEFDTFYNGGWDPTERHIGIDVNSIKSIKTTSWDFANGENAEVLITYDSSTNLLVASLVHPSQKTSFIVSERVDLTSVLPEWVSVGFSATTGLSKGYVETNEVLSWSFASKLSINKNKLAIFNLEGK 3ul2-a2-m3-cA_3ul2-a2-m3-cC Galactose-specific lectin from Dolichos lablab in P6522 space group B3EWQ9 B3EWQ9 2.5 X-RAY DIFFRACTION 174 1.0 35936 (Lablab purpureus) 35936 (Lablab purpureus) 248 248 3ujo-a1-m1-cC_3ujo-a1-m1-cA 3ujo-a1-m1-cD_3ujo-a1-m1-cB 3ujq-a1-m1-cC_3ujq-a1-m1-cA 3ujq-a1-m1-cD_3ujq-a1-m1-cB 3uk9-a1-m1-cC_3uk9-a1-m1-cA 3uk9-a1-m1-cD_3uk9-a1-m1-cB 3uk9-a2-m1-cE_3uk9-a2-m1-cG 3uk9-a2-m1-cF_3uk9-a2-m1-cH 3ul2-a1-m1-cB_3ul2-a1-m2-cB 3ul2-a1-m1-cD_3ul2-a1-m2-cD 3ul2-a2-m1-cA_3ul2-a2-m1-cC ANLISFTFKKFNETNLILQRDATVSSGKLRITKAAENGVPTAGSLGRAFYSTPIQIWDNTTGTVASWATSFTFNLQAPNAASPADGLAFALVPVGSQPKDKGGFLGLFDSKNYASSNQTVAVEFDTFYNGGWDPTERHIGIDVNSIKSIKTTSWDFANGENAEVLITYDSSTNLLVASLVHPSQKTSFIVSERVDLTSVLPEWVSVGFSATTGLSKGYVETNEVLSWSFASKLSINKNKLAIFNLEGK ANLISFTFKKFNETNLILQRDATVSSGKLRITKAAENGVPTAGSLGRAFYSTPIQIWDNTTGTVASWATSFTFNLQAPNAASPADGLAFALVPVGSQPKDKGGFLGLFDSKNYASSNQTVAVEFDTFYNGGWDPTERHIGIDVNSIKSIKTTSWDFANGENAEVLITYDSSTNLLVASLVHPSQKTSFIVSERVDLTSVLPEWVSVGFSATTGLSKGYVETNEVLSWSFASKLSINKNKLAIFNLEGK 3ul5-a1-m1-cB_3ul5-a1-m1-cA Saccharum officinarum canecystatin-1 in space group C2221 Q7Y0Q9 Q7Y0Q9 2.3 X-RAY DIFFRACTION 164 1.0 4547 (Saccharum officinarum) 4547 (Saccharum officinarum) 81 82 3ul5-a2-m1-cC_3ul5-a2-m1-cD 3ul6-a1-m1-cA_3ul6-a1-m1-cB ENDLEAIELARFAVAEHNSKTNAMLEFERLVKVRHQVVAGTMHHFTVQVKEAGGGKKLYEAKVWEKVWENFKQLQSFQPVG HENDLEAIELARFAVAEHNSKTNAMLEFERLVKVRHQVVAGTMHHFTVQVKEAGGGKKLYEAKVWEKVWENFKQLQSFQPVG 3ulb-a1-m1-cB_3ulb-a1-m1-cA Crystal structure of the pleckstrin homology domain of Saccharomyces cerevisiae Avo1, a TORC2 subunit, in the P212121 crystal form Q08236 Q08236 1.9 X-RAY DIFFRACTION 121 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 97 102 KYKVWRRQQMSFINKHERTLAIDGDYIYIVPVKTKSLHISQVVLVKKSKRVPEHFKIFVRREGQDDIKRYYFEAVSGQECTEIVTRLQNLLSAYRMN YHKYKVWRRQQMSFINKHERTLAIDGDYIYIVPPENVKTKSLHISQVVLVKKSKRVPEHFKIFVRREGQDDIKRYYFEAVSGQECTEIVTRLQNLLSAYRMN 3ulc-a1-m1-cA_3ulc-a1-m2-cA Crystal structure of the pleckstrin homology domain of Saccharomyces cerevisiae Avo1, a TORC2 subunit, in the P3121 crystal form Q08236 Q08236 2.8 X-RAY DIFFRACTION 140 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 100 100 AYHKYKVWRRQQMSFINKHERTLAIDGDYIYIVPPENVKTKSLHISQVVLVKKSKRVPEHFKIFVRRDDIKRYYFEAVSGQECTEIVTRLQNLLSAYRMN AYHKYKVWRRQQMSFINKHERTLAIDGDYIYIVPPENVKTKSLHISQVVLVKKSKRVPEHFKIFVRRDDIKRYYFEAVSGQECTEIVTRLQNLLSAYRMN 3ulh-a1-m1-cA_3ulh-a1-m2-cA Crystal structure of a RNA binding domain of THO complex subunit 4 protein (THOC4) from Homo sapiens at 2.54 A resolution Q86V81 Q86V81 2.54 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 AGVETGGKLLVSNLDFGVSDADIQELFAEFGTLKKAAVHYDRSGRSLGTADVHFERKADALKAKQYNGVPLDGRPNIQLVTS AGVETGGKLLVSNLDFGVSDADIQELFAEFGTLKKAAVHYDRSGRSLGTADVHFERKADALKAKQYNGVPLDGRPNIQLVTS 3ulj-a3-m1-cA_3ulj-a3-m2-cB Crystal structure of apo Lin28B cold shock domain B4F6I0 B4F6I0 1.06 X-RAY DIFFRACTION 32 0.989 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 87 89 3ulj-a3-m2-cA_3ulj-a3-m1-cB PQVLRGSGHCKWFNVRMGFGFISMTSREGSPLENPVDVFVHQSKLYMEGFRSLKEGEPVEFTFKKSSKGFESLRVTGPGGNPCLGNE GSDPQVLRGSGHCKWFNVRMGFGFISMTSREGSPLENPVDVFVHQSKLYMEGFRSLKEGEPVEFTFKSSKGFESLRVTGPGGNPCLGNE 3ulj-a3-m2-cA_3ulj-a3-m2-cB Crystal structure of apo Lin28B cold shock domain B4F6I0 B4F6I0 1.06 X-RAY DIFFRACTION 25 0.989 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 87 89 3ulj-a3-m1-cA_3ulj-a3-m1-cB PQVLRGSGHCKWFNVRMGFGFISMTSREGSPLENPVDVFVHQSKLYMEGFRSLKEGEPVEFTFKKSSKGFESLRVTGPGGNPCLGNE GSDPQVLRGSGHCKWFNVRMGFGFISMTSREGSPLENPVDVFVHQSKLYMEGFRSLKEGEPVEFTFKSSKGFESLRVTGPGGNPCLGNE 3ulk-a2-m1-cB_3ulk-a2-m4-cA E. coli Ketol-acid reductoisomerase in complex with NADPH and Mg2+ P05793 P05793 2.3 X-RAY DIFFRACTION 59 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 488 488 1yrl-a1-m1-cA_1yrl-a1-m1-cC 1yrl-a1-m1-cB_1yrl-a1-m1-cD 3ulk-a1-m1-cA_3ulk-a1-m4-cB 3ulk-a1-m2-cA_3ulk-a1-m3-cB 3ulk-a2-m2-cB_3ulk-a2-m3-cA MANYFNTLNLRQQLAQLGKRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAV MANYFNTLNLRQQLAQLGKRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAV 3ulk-a2-m2-cB_3ulk-a2-m4-cA E. coli Ketol-acid reductoisomerase in complex with NADPH and Mg2+ P05793 P05793 2.3 X-RAY DIFFRACTION 41 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 488 488 1yrl-a1-m1-cB_1yrl-a1-m1-cC 1yrl-a1-m1-cD_1yrl-a1-m1-cA 3ulk-a1-m1-cA_3ulk-a1-m3-cB 3ulk-a1-m2-cA_3ulk-a1-m4-cB 3ulk-a2-m1-cB_3ulk-a2-m3-cA MANYFNTLNLRQQLAQLGKRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAV MANYFNTLNLRQQLAQLGKRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAV 3ulk-a2-m3-cA_3ulk-a2-m4-cA E. coli Ketol-acid reductoisomerase in complex with NADPH and Mg2+ P05793 P05793 2.3 X-RAY DIFFRACTION 10 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 488 488 3ulk-a1-m1-cA_3ulk-a1-m2-cA MANYFNTLNLRQQLAQLGKRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAV MANYFNTLNLRQQLAQLGKRFMGRDEFADGASYLQGKKVVIVGCGAQGLNQGLNMRDSGLDISYALRKEAIAEKRASWRKATENGFKVGTYEELIPQADLVINLTPDKQHSDVVRTVQPLMKDGAALGYSHGFNIVEVGEQIRKDITVVMVAPKCPGTEVREEYKRGFGVPTLIAVHPENDPKGEGMAIAKAWAAATGGHRAGVLESSFVAEVKSDLMGEQTILCGMLQAGSLLCFDKLVEEGTDPAYAEKLIQFGWETITEALKQGGITLMMDRLSNPAKLRAYALSEQLKEIMAPLFQKHMDDIISGEFSSGMMADWANDDKKLLTWREETGKTAFETAPQYEGKIGEQEYFDKGVLMIAMVKAGVELAFETMVDSGIIEESAYYESLHELPLIANTIARKRLYEMNVVISDTAEYGNYLFSYACVPLLKPFMAELQPGDLGKAIPEGAVDNGQLRDVNEAIRSHAIEQVGKKLRGYMTDMKRIAV 3ulp-a1-m1-cD_3ulp-a1-m1-cA Plasmodium falciparum SSB complex with ssDNA Q8I415 Q8I415 2.1 X-RAY DIFFRACTION 15 0.991 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 113 114 3ulp-a1-m1-cB_3ulp-a1-m1-cC MNEKSLNKIMLIGRVGCEPDIKILNGGDKVATFSLATNEFWRDRNELKSKTDWHRIVVYDQNIVDLIDKYLRKGRRVYVQGSLHTRKWHTNSQPKQITEIILSYNKGDLIFLD MNEKSLNKIMLIGRVGCEPDIKILNGGDKVATFSLATNEFWRDRNTNELKSKTDWHRIVVYDQNIVDLIDKYLRKGRRVYVQGSLHTRKWHTSQPKQITEIILSYNKGDLIFLD 3ulp-a1-m1-cD_3ulp-a1-m1-cB Plasmodium falciparum SSB complex with ssDNA Q8I415 Q8I415 2.1 X-RAY DIFFRACTION 13 0.991 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 113 114 3ulp-a1-m1-cA_3ulp-a1-m1-cC MNEKSLNKIMLIGRVGCEPDIKILNGGDKVATFSLATNEFWRDRNELKSKTDWHRIVVYDQNIVDLIDKYLRKGRRVYVQGSLHTRKWHTNSQPKQITEIILSYNKGDLIFLD MNEKSLNKIMLIGRVGCEPDIKILNGGDKVATFSLATNEFWRDRTNELKSKTDWHRIVVYDQNIVDLIDKYLRKGRRVYVQGSLHTRKWHTNDQPKQITEIILSYNKGDLIFLD 3ulp-a1-m1-cD_3ulp-a1-m1-cC Plasmodium falciparum SSB complex with ssDNA Q8I415 Q8I415 2.1 X-RAY DIFFRACTION 97 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 113 116 3ulp-a1-m1-cA_3ulp-a1-m1-cB MNEKSLNKIMLIGRVGCEPDIKILNGGDKVATFSLATNEFWRDRNELKSKTDWHRIVVYDQNIVDLIDKYLRKGRRVYVQGSLHTRKWHTNSQPKQITEIILSYNKGDLIFLD MNEKSLNKIMLIGRVGCEPDIKILNGGDKVATFSLATNEFWRDRNTNELKSKTDWHRIVVYDQNIVDLIDKYLRKGRRVYVQGSLHTRKWHTNNSQPKQITEIILSYNKGDLIFLD 3ulx-a1-m1-cA_3ulx-a1-m2-cA Crystal structural of the conserved domain of Rice Stress-responsive NAC1 Q75HE5 Q75HE5 2.6 X-RAY DIFFRACTION 48 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 146 146 AEAELNLPPGFRFHPTDDELVEHYLCRKAAGQRLPVPIIAEVDLYKFDPWDLPERALFGAREWYFFTPRDRSRPNRAAGNGYWKATGADKPVAPRGRTLGIKKALVFYAGKAPRGVKTDWIMHEYRLADAGRLDDWVLCRLYNKKN AEAELNLPPGFRFHPTDDELVEHYLCRKAAGQRLPVPIIAEVDLYKFDPWDLPERALFGAREWYFFTPRDRSRPNRAAGNGYWKATGADKPVAPRGRTLGIKKALVFYAGKAPRGVKTDWIMHEYRLADAGRLDDWVLCRLYNKKN 3ulz-a2-m1-cA_3ulz-a2-m2-cA Crystal structure of apo BAK1 Q94F62 Q94F62 2.6 X-RAY DIFFRACTION 39 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 291 291 GQLKRFSLRELQVASDNFNKNILGRGGFGKVYKGRLADGLVAVKRLKEGELQFQTEVEMISMAVHRNLLRLRGFCMTPTERLLVYPYMANGSVASCLRERPESQPPLDWPKRQRIALGSARGLAYLHDHCDPKIIHRDVKAANILLDEEFEAVVGDFGLAKLMDYKDHVAVRGIGHIAPEYLSTGKSSEKTDVFGYGVMLLELITGQRAFDLARLANDDDVMLLDWVKGLLKEKKLEALVDVDLQGNYKDEEVEQLIQVALLCTQSSPMERPKMSEVVRMLEGDGLAERWE GQLKRFSLRELQVASDNFNKNILGRGGFGKVYKGRLADGLVAVKRLKEGELQFQTEVEMISMAVHRNLLRLRGFCMTPTERLLVYPYMANGSVASCLRERPESQPPLDWPKRQRIALGSARGLAYLHDHCDPKIIHRDVKAANILLDEEFEAVVGDFGLAKLMDYKDHVAVRGIGHIAPEYLSTGKSSEKTDVFGYGVMLLELITGQRAFDLARLANDDDVMLLDWVKGLLKEKKLEALVDVDLQGNYKDEEVEQLIQVALLCTQSSPMERPKMSEVVRMLEGDGLAERWE 3um2-a1-m1-cA_3um2-a1-m2-cD Crystal structure of the Brox Bro1 domain in complex with the C-terminal tail of CHMP5 Q5VW32 Q5VW32 2.589 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 375 375 3uly-a1-m1-cA_3uly-a1-m2-cA 3um0-a1-m1-cA_3um0-a1-m2-cA 3um1-a1-m1-cA_3um1-a1-m2-cD THWFHRNPLKATAPVSFNYYGVVTGPSASKICNDLRSSRARLLELFTDLSCNPEMMKNAADSYFSLLQGFINSLDESTQESKLRYIQNFKWTDTLQGQVPSAQQDAVFELISMGFNVALWYTKYASRLAGKENITEDEAKEVHRSLKIAAGIFKHLKESHLPKLITPAEKGRDLESRLIEAYVIQCQAEAQEVTIARAIELKHAPGLIAALAYETANFYQKADHTLSSLEPAYSAKWRKYLHLKMCFYTAYAYCYHGETLLASDKCGEAIRSLQEAEKLYAKAEALCKEYGETKGPGPTVKPSGHLFFRKLGNLVKNTLEKCQRENGFIYFQKIPTEAPQLELKANYGLVEPIPFEFPPTSVQWTPETLAAFDLT THWFHRNPLKATAPVSFNYYGVVTGPSASKICNDLRSSRARLLELFTDLSCNPEMMKNAADSYFSLLQGFINSLDESTQESKLRYIQNFKWTDTLQGQVPSAQQDAVFELISMGFNVALWYTKYASRLAGKENITEDEAKEVHRSLKIAAGIFKHLKESHLPKLITPAEKGRDLESRLIEAYVIQCQAEAQEVTIARAIELKHAPGLIAALAYETANFYQKADHTLSSLEPAYSAKWRKYLHLKMCFYTAYAYCYHGETLLASDKCGEAIRSLQEAEKLYAKAEALCKEYGETKGPGPTVKPSGHLFFRKLGNLVKNTLEKCQRENGFIYFQKIPTEAPQLELKANYGLVEPIPFEFPPTSVQWTPETLAAFDLT 3um7-a1-m1-cB_3um7-a1-m1-cA Crystal structure of the human two pore domain K+ ion channel TRAAK (K2P4.1) Q9NYG8 Q9NYG8 3.31 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 259 MRSTTLLALLALVLLYLVSGALVFRALEQPHEQQAQRELGEVREKFLRAHPCVSDQELGLLIKEVADALGGGADPETQSAWDLGSAFFFSGTIITTIGYGNVALRTDAGRLFCIFYALVGIPLFGILLAGVGDRLGSSLRHGIGHIVRVLSAMLFLLIGCLLFVLTPTFVFCYMEDWSKLEAIYFVIVTLTTVGFGDYVAGADPRQDSPAYQPLVWFWILLGLAYFASVLTTIGNWLRVVSRRT RAMRSTTLLALLALVLLYLVSGALVFRALEQPHEQQAQRELGEVREKFLRAHPCVSDQELGLLIKEVADALGGGADPETQSTSAWDLGSAFFFSGTIITTIGYGNVALRTDAGRLFCIFYALVGIPLFGILLAGVGDRLGSSLRHGIGHIEAIFLKWHPELVRVLSAMLFLLIGCLLFVLTPTFVFCYMEDWSKLEAIYFVIVTLTTVGFGDYVAGADPRQDSPAYQPLVWFWILLGLAYFASVLTTIGNWLRVVSRRT 3um9-a1-m1-cA_3um9-a1-m1-cB Crystal Structure of the Defluorinating L-2-Haloacid Dehalogenase Bpro0530 Q12G50 Q12G50 2.19 X-RAY DIFFRACTION 86 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 225 225 GMHAIKAVVFDLYGTLYDVYSVRTSCERIFPGQGEMVSKMWRQKQLEYTWMRTLMGQYQDFESATLDALRYTCGSLGLALDADGEAHLCSEYLSLTPFADVPQALQQLRAAGLKTAILSNGSRHSIRQVVGNSGLTNSFDHLISVDEVRLFKPHQKVYELAMDTLHLGESEILFVSCNSWDATGAKYFGYPVCWINRSNGVFDQLGVVPDIVVSDVGVLASRFSP GMHAIKAVVFDLYGTLYDVYSVRTSCERIFPGQGEMVSKMWRQKQLEYTWMRTLMGQYQDFESATLDALRYTCGSLGLALDADGEAHLCSEYLSLTPFADVPQALQQLRAAGLKTAILSNGSRHSIRQVVGNSGLTNSFDHLISVDEVRLFKPHQKVYELAMDTLHLGESEILFVSCNSWDATGAKYFGYPVCWINRSNGVFDQLGVVPDIVVSDVGVLASRFSP 3uma-a5-m1-cB_3uma-a5-m1-cC Crystal structure of a hypothetical peroxiredoxin protein frm Sinorhizobium meliloti Q92RF9 Q92RF9 2.2 X-RAY DIFFRACTION 61 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 155 161 3uma-a4-m1-cA_3uma-a4-m2-cA TIAVGDKLPNATFKEKTADGPVEVTTELLFKGKRVVLFAVPGAFTPTCSLNHLPGYLENRDAILARGVDDIAVVAVNDLHVGAWATHSGGGKIHFLSDWNAAFTKAIGEIDLSAGTLGIRSKRYSLVEDGVVKALNIEESPGQATASGAAALELL NLYFQSTIAVGDKLPNATFKEKTADGPVEVTTELLFKGKRVVLFAVPGAFTPTCSLNHLPGYLENRDAILARGVDDIAVVAVNDLHVGAWATHSGGGKIHFLSDWNAAFTKAIGEIDLSAGTLGIRSKRYSLVEDGVVKALNIEESPGQATASGAAALELL 3umb-a1-m1-cA_3umb-a1-m2-cA Crystal Structure of the L-2-Haloacid Dehalogenase RSc1362 Q8XZN3 Q8XZN3 2.2 X-RAY DIFFRACTION 92 1.0 305 (Ralstonia solanacearum) 305 (Ralstonia solanacearum) 222 222 TSIRAVVFDAYGTLFDVYSVAARAEQLFPGKGEALSVLWRDRQIDYTRIRSLAGPSGEHYKPFWDVTVDALRYACARLNLPLGNHAEATLREYACLSAFPENVPVLRQLREGLPLGILSNGNPQLEIAVKSAGSGLFDHVLSVDAVRLYKTAPAAYALAPRAFGVPAAQILFVSSNGWDACGATWHGFTTFWINRLGHPPEALDVAPAAAGHDRDLLQFVQA TSIRAVVFDAYGTLFDVYSVAARAEQLFPGKGEALSVLWRDRQIDYTRIRSLAGPSGEHYKPFWDVTVDALRYACARLNLPLGNHAEATLREYACLSAFPENVPVLRQLREGLPLGILSNGNPQLEIAVKSAGSGLFDHVLSVDAVRLYKTAPAAYALAPRAFGVPAAQILFVSSNGWDACGATWHGFTTFWINRLGHPPEALDVAPAAAGHDRDLLQFVQA 3umc-a2-m1-cD_3umc-a2-m1-cB Crystal Structure of the L-2-Haloacid Dehalogenase PA0810 Q9I5C9 Q9I5C9 2.15 X-RAY DIFFRACTION 38 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 221 228 3umc-a1-m1-cC_3umc-a1-m1-cA GRAILFDVFGTLVDWRSSLIEQFQALERELPCVELTDRWRQQYKPADRVRNGQAPWQHLDQLHRQSLEALAGEFGLALDEALLQRITGFWHRLRPWPDTLAGHALKADYWLAALSNGNTALLDVARHAGLPWDLLCADLFGHYKPDPQVYLGACRLLDLPPQEVLCAAHNYDLKAARALGLKTAFIARPLEYGPGQSQDLAAEQDWDLIASDLLDLHRQLA GRAILFDVFGTLVDWRSSLIEQFQALERELGGTLPCVELTDRWRQQYKPADRVRNGQAPWQHLDQLHRQSLEALAGEFGLALDEALLQRITGFWHRLRPWPDTLAGHALKADYWLAALSNGNTALLDVARHAGLPWDLLCADLFGHYKPDPQVYLGACRLLDLPPQEVLCAAHNYDLKAARALGLKTAFIARPLEYGPGQSQDLAAEQDWDLIASDLLDLHRQLAASA 3umg-a1-m1-cA_3umg-a1-m1-cB Crystal Structure of the Defluorinating L-2-Haloacid Dehalogenase Rha0230 Q0SK70 Q0SK70 2.25 X-RAY DIFFRACTION 47 0.996 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 247 247 3umg-a2-m1-cC_3umg-a2-m1-cD 3umg-a3-m1-cF_3umg-a3-m1-cE 3umg-a4-m1-cH_3umg-a4-m1-cG VPFRSPSTGRNVRAVLFDTFGTVVDWRTGIATAVADYAARHQLEVDAVAFADRWRARYQPSMDAILSGAREFVTLDILHRENLDFVLRESGIDPTNHDSGELDELARAWHVLTPWPDSVPGLTAIKAEYIIGPLSNGNTSLLLDMAKNAGIPWDVIIGSDINRKYKPDPQAYLRTAQVLGLHPGEVMLAAAHNGDLEAAHATGLATAFILRPVEHGPHQTDDLAPTGSWDISATDITDLAAQLRAGS GVPFRSPSTGRNVRAVLFDTFGTVVDWRTGIATAVADYAARHQLEVDAVAFADRWRARYQPSMDAILSGAREFVTLDILHRENLDFVLRESGIDPTNHDSGELDELARAWHVLTPWPDSVPGLTAIKAEYIIGPLSNGNTSLLLDMAKNAGIPWDVIIGSDINRKYKPDPQAYLRTAQVLGLHPGEVMLAAAHNGDLEAAHATGLATAFILRPVEHGPHQTDDLAPTGSWDISATDITDLAAQLRAG 3umo-a1-m1-cA_3umo-a1-m2-cB Crystal structure of the Phosphofructokinase-2 from Escherichia coli in complex with Potassium P06999 P06999 1.696 X-RAY DIFFRACTION 63 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 309 3cqd-a1-m1-cA_3cqd-a1-m2-cB 3cqd-a1-m2-cA_3cqd-a1-m1-cB 3n1c-a1-m1-cA_3n1c-a1-m1-cC 3n1c-a1-m1-cB_3n1c-a1-m1-cD 3umo-a1-m1-cB_3umo-a1-m2-cA 3ump-a1-m1-cB_3ump-a1-m2-cA 3ump-a1-m2-cB_3ump-a1-m1-cA 3uqd-a1-m1-cA_3uqd-a1-m1-cB 3uqd-a1-m1-cC_3uqd-a1-m1-cD 3uqe-a1-m1-cB_3uqe-a1-m1-cA 3uqe-a1-m2-cB_3uqe-a1-m2-cA MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR 3umo-a1-m1-cB_3umo-a1-m2-cB Crystal structure of the Phosphofructokinase-2 from Escherichia coli in complex with Potassium P06999 P06999 1.696 X-RAY DIFFRACTION 10 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 309 3cqd-a1-m1-cA_3cqd-a1-m2-cA 3cqd-a1-m1-cB_3cqd-a1-m2-cB 3umo-a1-m1-cA_3umo-a1-m2-cA 3ump-a1-m1-cA_3ump-a1-m2-cA 3ump-a1-m1-cB_3ump-a1-m2-cB MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR 3umo-a2-m1-cA_3umo-a2-m1-cB Crystal structure of the Phosphofructokinase-2 from Escherichia coli in complex with Potassium P06999 P06999 1.696 X-RAY DIFFRACTION 86 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 309 3cqd-a1-m1-cA_3cqd-a1-m1-cB 3cqd-a1-m2-cA_3cqd-a1-m2-cB 3n1c-a1-m1-cA_3n1c-a1-m1-cD 3n1c-a1-m1-cB_3n1c-a1-m1-cC 3umo-a1-m1-cA_3umo-a1-m1-cB 3umo-a1-m2-cA_3umo-a1-m2-cB 3ump-a1-m1-cB_3ump-a1-m1-cA 3ump-a1-m2-cB_3ump-a1-m2-cA 3ump-a2-m1-cB_3ump-a2-m1-cA 3uqd-a1-m1-cB_3uqd-a1-m1-cD 3uqd-a1-m1-cC_3uqd-a1-m1-cA 3uqe-a1-m1-cB_3uqe-a1-m2-cA 3uqe-a1-m2-cB_3uqe-a1-m1-cA MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR MVRIYTLTLAPSLDSATITPQIYPEGKLRCTAPVFEPGGGGINVARAIAHLGGSATAIFPAGGATGEHLVSLLADENVPVATVEAKDWTRQNLHVHVEASGEQYRFVMPGAALNEDEFRQLEEQVLEIESGAILVISGSLPPGVKLEKLTQLISAAQKQGIRCIVDSSGEALSAALAIGNIELVKPNQKELSALVNRELTQPDDVRKAAQEIVNSGKAKRVVVSLGPQGALGVDSENCIQVVPPPVKSQSTVGAGDSMVGAMTLKLAENASLEEMVRFGVAAGSAATLNQGTRLCSHDDTQKIYAYLSR 3umz-a1-m1-cA_3umz-a1-m1-cB Crystal Structure of the human MDC1 FHA Domain Q14676 Q14676 1.65 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 3un0-a1-m1-cB_3un0-a1-m1-cA 3unm-a1-m1-cA_3unm-a1-m1-cB EPVGRLHIFSGAHGPEKDFPLHLGKNVVGRMPDCSVALPFPSISKQHAEIEILAWDKAPILRDCGSLNGTQILRPPKVLSPGVSHRLRDQELILFADLLCQYHRL EPVGRLHIFSGAHGPEKDFPLHLGKNVVGRMPDCSVALPFPSISKQHAEIEILAWDKAPILRDCGSLNGTQILRPPKVLSPGVSHRLRDQELILFADLLCQYHRL 3un0-a2-m1-cB_3un0-a2-m2-cA Crystal Structure of MDC1 FHA Domain Q14676 Q14676 2.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 109 NVEPVGRLHIFSGAHGPEKDFPLHLGKNVVGRMPDCSVALPFPSISKQHAEIEILAWDKAPILRDCGSLNGTQILRPPKVLSPGVSHRLRDQELILFADLLCQYHRL CNVEPVGRLHIFSGAHGPEKDFPLHLGKNVVGRMPDCSVALPFPSISKQHAEIEILAWDKAPILRDCGSLNGTQILRPPKVLSPGVSHRLRDQELILFADLLCQYHRLD 3un1-a1-m1-cB_3un1-a1-m1-cD Crystal structure of an oxidoreductase from Sinorhizobium meliloti 1021 Q7ANT0 Q7ANT0 2.45 X-RAY DIFFRACTION 24 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 228 229 3un1-a1-m1-cC_3un1-a1-m1-cA NQQKVVVITGASQGIGAGLVRAYRDRNYRVVATSRSIKPSADPDIHTVAGDISKPETADRIVREGIERFGRIDSLVNNAGVFLAKPFVETQEDYDHNLGVNVAGFFHITQRAAAELKQGSGHIVSITTSLVDQPVGPSALASLTKGGLNAVTRSLAEFSRSGVRVNAVSPGVIKTPHPAETHSTLAGLHPVGRGEIRDVVDAVLYLEHAGFITGEILHVDGGQNAGRW RNQQKVVVITGASQGIGAGLVRAYRDRNYRVVATSRSIKPSADPDIHTVAGDISKPETADRIVREGIERFGRIDSLVNNAGVFLAKPFVETQEDYDHNLGVNVAGFFHITQRAAAELKQGSGHIVSITTSLVDQPVGPSALASLTKGGLNAVTRSLAEFSRSGVRVNAVSPGVIKTPHPAETHSTLAGLHPVGRGEIRDVVDAVLYLEHAGFITGEILHVDGGQNAGRW 3un1-a4-m1-cC_3un1-a4-m1-cB Crystal structure of an oxidoreductase from Sinorhizobium meliloti 1021 Q7ANT0 Q7ANT0 2.45 X-RAY DIFFRACTION 103 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 227 228 3un1-a1-m1-cC_3un1-a1-m1-cB 3un1-a1-m1-cD_3un1-a1-m1-cA 3un1-a3-m1-cD_3un1-a3-m1-cA QQKVVVITGASQGIGAGLVRAYRDRNYRVVATSRSIKPSADPDIHTVAGDISKPETADRIVREGIERFGRIDSLVNNAGVFLAKPFVETQEDYDHNLGVNVAGFFHITQRAAAELKQGSGHIVSITTSLVDQPVGPSALASLTKGGLNAVTRSLAEFSRSGVRVNAVSPGVIKTPHPAETHSTLAGLHPVGRGEIRDVVDAVLYLEHAGFITGEILHVDGGQNAGRW NQQKVVVITGASQGIGAGLVRAYRDRNYRVVATSRSIKPSADPDIHTVAGDISKPETADRIVREGIERFGRIDSLVNNAGVFLAKPFVETQEDYDHNLGVNVAGFFHITQRAAAELKQGSGHIVSITTSLVDQPVGPSALASLTKGGLNAVTRSLAEFSRSGVRVNAVSPGVIKTPHPAETHSTLAGLHPVGRGEIRDVVDAVLYLEHAGFITGEILHVDGGQNAGRW 3un1-a5-m1-cC_3un1-a5-m1-cD Crystal structure of an oxidoreductase from Sinorhizobium meliloti 1021 Q7ANT0 Q7ANT0 2.45 X-RAY DIFFRACTION 106 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 227 229 3un1-a1-m1-cB_3un1-a1-m1-cA 3un1-a1-m1-cC_3un1-a1-m1-cD 3un1-a2-m1-cB_3un1-a2-m1-cA QQKVVVITGASQGIGAGLVRAYRDRNYRVVATSRSIKPSADPDIHTVAGDISKPETADRIVREGIERFGRIDSLVNNAGVFLAKPFVETQEDYDHNLGVNVAGFFHITQRAAAELKQGSGHIVSITTSLVDQPVGPSALASLTKGGLNAVTRSLAEFSRSGVRVNAVSPGVIKTPHPAETHSTLAGLHPVGRGEIRDVVDAVLYLEHAGFITGEILHVDGGQNAGRW RNQQKVVVITGASQGIGAGLVRAYRDRNYRVVATSRSIKPSADPDIHTVAGDISKPETADRIVREGIERFGRIDSLVNNAGVFLAKPFVETQEDYDHNLGVNVAGFFHITQRAAAELKQGSGHIVSITTSLVDQPVGPSALASLTKGGLNAVTRSLAEFSRSGVRVNAVSPGVIKTPHPAETHSTLAGLHPVGRGEIRDVVDAVLYLEHAGFITGEILHVDGGQNAGRW 3un9-a1-m2-cA_3un9-a1-m2-cB Crystal structure of an immune receptor Q86UT6 Q86UT6 2.65 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 3un9-a1-m1-cA_3un9-a1-m1-cB 3un9-a1-m1-cC_3un9-a1-m1-cA 3un9-a1-m1-cC_3un9-a1-m1-cB 3un9-a1-m2-cC_3un9-a1-m2-cA 3un9-a1-m2-cC_3un9-a1-m2-cB RQVLPPSELLDHLFFHYEFQNQRFSAEVLSSLRQLNLAGVRMTPVKCTVVAAVLGSGRHALDEVNLASCQLDPAGLRTLLPVFLRARKLGLQLNSLGPEACKDLRDLLLHDQCQITTLRLSNNPLTAAGVAVLMEGLAGNTSVTHLSLLHTGLGDEGLELLAAQLDRNRQLQELNVAYNGAGDTAALALARAAREHPSLELLHLYFNELSSEGRQVLRDLGARVVVSLTVSEYWSVILSEVQRNLNSWDRARVQRHLELLLRDLEDSRGATLNPWRKAQLLRVEGEVRALLEQL RQVLPPSELLDHLFFHYEFQNQRFSAEVLSSLRQLNLAGVRMTPVKCTVVAAVLGSGRHALDEVNLASCQLDPAGLRTLLPVFLRARKLGLQLNSLGPEACKDLRDLLLHDQCQITTLRLSNNPLTAAGVAVLMEGLAGNTSVTHLSLLHTGLGDEGLELLAAQLDRNRQLQELNVAYNGAGDTAALALARAAREHPSLELLHLYFNELSSEGRQVLRDLGARVVVSLTVSEYWSVILSEVQRNLNSWDRARVQRHLELLLRDLEDSRGATLNPWRKAQLLRVEGEVRALLEQL 3un9-a1-m2-cC_3un9-a1-m1-cB Crystal structure of an immune receptor Q86UT6 Q86UT6 2.65 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 294 3un9-a1-m1-cA_3un9-a1-m2-cA 3un9-a1-m1-cC_3un9-a1-m2-cB VLPPSELLDHLFFHYEFQNQRFSAEVLSSLRQLNLAGVRMTPVKCTVVAAVLGSGRHALDEVNLASCQLDPAGLRTLLPVFLRARKLGLQLNSLGPEACKDLRDLLLHDQCQITTLRLSNNPLTAAGVAVLMEGLAGNTSVTHLSLLHTGLGDEGLELLAAQLDRNRQLQELNVAYNGAGDTAALALARAAREHPSLELLHLYFNELSSEGRQVLRDLGARVVVSLTVSEYWSVILSEVQVQRHLELLLRDLEDSRGATPWRKAQLLRVEGEVRALLEQ RQVLPPSELLDHLFFHYEFQNQRFSAEVLSSLRQLNLAGVRMTPVKCTVVAAVLGSGRHALDEVNLASCQLDPAGLRTLLPVFLRARKLGLQLNSLGPEACKDLRDLLLHDQCQITTLRLSNNPLTAAGVAVLMEGLAGNTSVTHLSLLHTGLGDEGLELLAAQLDRNRQLQELNVAYNGAGDTAALALARAAREHPSLELLHLYFNELSSEGRQVLRDLGARVVVSLTVSEYWSVILSEVQRNLNSWDRARVQRHLELLLRDLEDSRGATLNPWRKAQLLRVEGEVRALLEQL 3unc-a1-m1-cA_3unc-a1-m1-cB Crystal Structure of Bovine Milk Xanthine Dehydrogenase to 1.65A Resolution P80457 P80457 1.65 X-RAY DIFFRACTION 175 1.0 9913 (Bos taurus) 9913 (Bos taurus) 1286 1289 1fo4-a1-m1-cB_1fo4-a1-m1-cA 1n5x-a1-m1-cA_1n5x-a1-m1-cB 1v97-a1-m1-cB_1v97-a1-m1-cA 1vdv-a1-m1-cB_1vdv-a1-m1-cA 3am9-a1-m1-cB_3am9-a1-m1-cA 3amz-a1-m1-cB_3amz-a1-m1-cA 3ax7-a1-m1-cB_3ax7-a1-m1-cA 3ax9-a1-m1-cB_3ax9-a1-m1-cA 3bdj-a1-m1-cA_3bdj-a1-m1-cB 3una-a1-m1-cA_3una-a1-m1-cB 3uni-a1-m1-cB_3uni-a1-m1-cA 7d6o-a1-m1-cA_7d6o-a1-m1-cB 8hxm-a1-m1-cA_8hxm-a1-m1-cB 8j79-a1-m1-cA_8j79-a1-m1-cB ADELVFFVNGKKVVEKNADPETTLLAYLRRKLGLRGTKLGCGEGGCGACTVMLSKYDRLQDKIIHFSANACLAPICTLHHVAVTTVEGIGSTKTRLHPVQERIAKSHGSQCGFCTPGIVMSMYTLLRNQPEPTVEEIEDAFQGNLCRCTGYRPILQGFRTFAPSLFNPEEFMPLDPTQEPIFPPELLRLKDVPPKQLRFEGERVTWIQASTLKELLDLKAQHPEAKLVVGNTEIGIEMKFKNQLFPMIICPAWIPELNAVEHGPEGISFGAACALSSVEKTLLEAVAKLPTQKTEVFRGVLEQLRWFAGKQVKSVASLGGNIITASPISDLNPVFMASGTKLTIVSRGTRRTVPMDHTFFPSYRKTLLGPEEILLSIEIPYSREDEFFSAFKQASRREDDIAKVTCGMRVLFQPGSMQVKELALCYGGMADRTISALKTTQKQLSKFWNEKLLQDVCAGLAEELSLSPDAPGGMIEFRRTLTLSFFFKFYLTVLKKLGKLDPTYTSATLLFQKDPPANIQLFQEVPNGQSKEDTVGRPLPHLAAAMQASGEAVYCDDIPRYENELFLRLVTSTRAHAKIKSIDVSEAQKVPGFVCFLSADDIPGSNETGLFNDETVFAKDTVTCVGHIIGAVVADTPEHAERAAHVVKVTYEDLPAIITIEDAIKNNSFYGSELKIEKGDLKKGFSEADNVVSGELYIGGQDHFYLETHCTIAIPKGEEGEMELFVSTQNAMKTQSFVAKMLGVPVNRILVRVKRMGGGFGGKETRSTLVSVAVALAAYKTGHPVRCMLDRNEDMLITGGRHPFLARYKVGFMKTGTIVALEVDHYSNAGNSRDLSHSIMERALFHMDNCYKIPNIRGTGRLCKTNLSSNTAFRGFGGPQALFIAENWMSEVAVTCGLPAEEVRWKNMYKEGDLTHFNQRLEGFSVPRCWDECLKSSQYYARKSEVDKFNKENCWKKRGLCIIPTKFGISFTVPFLNQAGALIHVYTDGSVLVSHGGTEMGQGLHTKMVQVASKALKIPISKIYISETSTNTVPNSSPTAASVSTDIYGQAVYEACQTILKRLEPFKKKNPDGSWEDWVMAAYQDRVSLSTTGFYRTPNLGYSFETNSGNAFHYFTYGVACSEVEIDCLTGDHKNLRTDIVMDVGSSLNPAIDIGQVEGAFVQGLGLFTLEELHYSPEGSLHTRGPSTYKIPAFGSIPTEFRVSLLRDCPNKKAIYASKAVGEPPLFLGASVFFAIKDAIRAARAQHTNNNTKELFRLDSPATPEKIRNACVDKFTTLCKPWSLRV ADELVFFVNGKKVVEKNADPETTLLAYLRRKLGLRGTKLGCGEGGCGACTVMLSKYDRLQDKIIHFSANACLAPICTLHHVAVTTVEGIGSTKTRLHPVQERIAKSHGSQCGFCTPGIVMSMYTLLRNQPEPTVEEIEDAFQGNLCRCTGYRPILQGFRTFAPSLFNPEEFMPLDPTQEPIFPPELLRLKDVPPKQLRFEGERVTWIQASTLKELLDLKAQHPEAKLVVGNTEIGIEMKFKNQLFPMIICPAWIPELNAVEHGPEGISFGAACALSSVEKTLLEAVAKLPTQKTEVFRGVLEQLRWFAGKQVKSVASLGGNIITASPISDLNPVFMASGTKLTIVSRGTRRTVPMDHTFFPSYRKTLLGPEEILLSIEIPYSREDEFFSAFKQASRREDDIAKVTCGMRVLFQPGSMQVKELALCYGGMADRTISALKTTQKQLSKFWNEKLLQDVCAGLAEELSLSPDAPGGMIEFRRTLTLSFFFKFYLTVLKKLGKLDPTYTSATLLFQKDPPANIQLFQEVPNGQSKEDTVGRPLPHLAAAMQASGEAVYCDDIPRYENELFLRLVTSTRAHAKIKSIDVSEAQKVPGFVCFLSADDIPGSNETGLFNDETVFAKDTVTCVGHIIGAVVADTPEHAERAAHVVKVTYEDLPAIITIEDAIKNNSFYGSELKIEKGDLKKGFSEADNVVSGELYIGGQDHFYLETHCTIAIPKGEEGEMELFVSTQNAMKTQSFVAKMLGVPVNRILVRVKRMGGGFGGKETRSTLVSVAVALAAYKTGHPVRCMLDRNEDMLITGGRHPFLARYKVGFMKTGTIVALEVDHYSNAGNSRDLSHSIMERALFHMDNCYKIPNIRGTGRLCKTNLSSNTAFRGFGGPQALFIAENWMSEVAVTCGLPAEEVRWKNMYKEGDLTHFNQRLEGFSVPRCWDECLKSSQYYARKSEVDKFNKENCWKKRGLCIIPTKFGISFTVPFLNQAGALIHVYTDGSVLVSHGGTEMGQGLHTKMVQVASKALKIPISKIYISETSTNTVPNSSPTAASVSTDIYGQAVYEACQTILKRLEPFKKKNPDGSWEDWVMAAYQDRVSLSTTGFYRTPNLGYSFETNSGNAFHYFTYGVACSEVEIDCLTGDHKNLRTDIVMDVGSSLNPAIDIGQVEGAFVQGLGLFTLEELHYSPEGSLHTRGPSTYKIPAFGSIPTEFRVSLLRDCPNKKAIYASKAVGEPPLFLGASVFFAIKDAIRAARAQHTNNNTKELFRLDSPATPEKIRNACVDKFTTLCVTCKPWSLRV 3und-a1-m1-cB_3und-a1-m1-cD Substrate-bound crystal structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Burkholderia pseudomallei Q3JP68 Q3JP68 2.1 X-RAY DIFFRACTION 104 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 284 284 3sz8-a1-m1-cB_3sz8-a1-m1-cA 3sz8-a1-m1-cD_3sz8-a1-m1-cC 3tmq-a1-m1-cA_3tmq-a1-m1-cC 3tmq-a1-m1-cD_3tmq-a1-m1-cB 3und-a1-m1-cC_3und-a1-m1-cA PGSMNVAISPGVTAGNSLPFVLFGGINVLESLDFTLDVCGEYVAVTRKLGIPFVFKASFDKANRSSIHSYRGVGLDEGLKIFAEVKARFGVPVITDVHEAEQAAPVAEIADVLQVPAFLARQTDLVVAIAKAGKPVNVKKPQFMSPTQLKHVVSKCGEVGNDRVMLCERGSSFGYDNLVVDMLGFRQMAETTGGCPVIFDVTHSLQCRDPLGDASGGRRRQVLDLARAGIAVGIAGLFLEAHPDPDRARCDGPSALPLHQLEGLLSQMKAIDDLVKRMPALEIR PGSMNVAISPGVTAGNSLPFVLFGGINVLESLDFTLDVCGEYVAVTRKLGIPFVFKASFDKANRSSIHSYRGVGLDEGLKIFAEVKARFGVPVITDVHEAEQAAPVAEIADVLQVPAFLARQTDLVVAIAKAGKPVNVKKPQFMSPTQLKHVVSKCGEVGNDRVMLCERGSSFGYDNLVVDMLGFRQMAETTGGCPVIFDVTHSLQCRDPLGDASGGRRRQVLDLARAGIAVGIAGLFLEAHPDPDRARCDGPSALPLHQLEGLLSQMKAIDDLVKRMPALEIR 3unv-a2-m1-cB_3unv-a2-m2-cB Pantoea agglomerans Phenylalanine Aminomutase Q84FL5 Q84FL5 1.54 X-RAY DIFFRACTION 338 1.0 549 (Pantoea agglomerans) 549 (Pantoea agglomerans) 513 513 3unv-a1-m1-cA_3unv-a1-m2-cA SFHISSGKDISLEEIARAARDHQPVTLHDEVVNRVTRSRSILESMVSDERVIYGVNTSMGGFVNYIVPIAKASELQNNLINAVATNVGKYFDDTTVRATMLARIVSLSRGNSAISIVNFKKLIEIYNQGIVPCIPEKGSLGDLGPLAAIALVCTGQWKARYQGEQMSGAMALEKAGISPMELSFKEGLALINGTSAMVGLGVLLYDEVKRLFDTYLTVTSLSIEGLHGKTKPFEPAVHRMKPHQGQLEVATTIWETLADSSLAVNEHEVEKLIAEEMDGLVKASNHQIEDAYSIRCTPQILGPVADTLKNIKQTLTNELNSSNDNPLIDQTTEEVFHNGHFHGQYVSMAMDHLNIALVTMMNLANRRIDRFMDKSNSNGLPPFLCAENAGLRLGLMGGQFMTASITAESRASCMPMSIQSLSTTGDFQDIVSFGLVAARRVREQLKNLKYVFSFELLCACQAVDIRGTAGLSKRTRALYDKTRTLVPYLEEDKTISDYIESIAQTVLTKNSDI SFHISSGKDISLEEIARAARDHQPVTLHDEVVNRVTRSRSILESMVSDERVIYGVNTSMGGFVNYIVPIAKASELQNNLINAVATNVGKYFDDTTVRATMLARIVSLSRGNSAISIVNFKKLIEIYNQGIVPCIPEKGSLGDLGPLAAIALVCTGQWKARYQGEQMSGAMALEKAGISPMELSFKEGLALINGTSAMVGLGVLLYDEVKRLFDTYLTVTSLSIEGLHGKTKPFEPAVHRMKPHQGQLEVATTIWETLADSSLAVNEHEVEKLIAEEMDGLVKASNHQIEDAYSIRCTPQILGPVADTLKNIKQTLTNELNSSNDNPLIDQTTEEVFHNGHFHGQYVSMAMDHLNIALVTMMNLANRRIDRFMDKSNSNGLPPFLCAENAGLRLGLMGGQFMTASITAESRASCMPMSIQSLSTTGDFQDIVSFGLVAARRVREQLKNLKYVFSFELLCACQAVDIRGTAGLSKRTRALYDKTRTLVPYLEEDKTISDYIESIAQTVLTKNSDI 3uoa-a1-m1-cC_3uoa-a1-m1-cB Crystal structure of the MALT1 paracaspase (P21 form) Q9UDY8 Q9UDY8 1.75 X-RAY DIFFRACTION 111 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 363 364 3v4l-a1-m1-cA_3v4l-a1-m2-cA 3v4o-a1-m1-cA_3v4o-a1-m2-cA 4i1p-a3-m1-cA_4i1p-a3-m2-cC MLAKDKVALLIGNMNYREHPKLKAPLVDVYELTNLLRQLDFKVVSLLDLTEYEMRNAVDEFLLLLDKGVYGLLYYAGHGYENFGNSFMVPVDAPNPYRSENCLCVQNILKLMQEKETGLNVFLLDMCRKRNDYDDTIPILDALKVTANIVFGYATCQGAEAFEIQHSGLANGIFMKFLKDRLLEDKKITVLLDEVAEDMGKCHLTKGKQALEIRSSLSEKRALTDPIQNLQWAKAHELPESMCLKFDCGVQIQLGFAAEFSNVMIIYTSIVYKPPEIIMCDAYVTDFPLDLDIDPKDANKGTPEETGSYLVSHCLYTRLSSLQKLKEHLVFTVCLSYQYSGLTVEDKQEVNVGKPLIAKLDMH MLAKDKVALLIGNMNYREHPKLKAPLVDVYELTNLLRQLDFKVVSLLDLTEYEMRNAVDEFLLLLDKGVYGLLYYAGHGYENFGNSFMVPVDAPNPYRSENCLCVQNILKLMQEKETGLNVFLLDMCRKRNDYDDTIPILDALKVTANIVFGYATCQGAEAFEIQHSGLANGIFMKFLKDRLLEDKKITVLLDEVAEDMGKCHLTKGKQALEIRSSLSEKRALTDPIQWAKAHELPESMCLKFDCGVQIQLGFAAEFSNVMIIYTSIVYKPPEIIMCDAYVTDFPLDLDIDPKDANKGTPEETGSYLVSKDLPKHCLYTRLSSLQKLKEHLVFTVCLSYQYSGLEDTVEDKQEVNVGKPLIAKL 3uoe-a1-m1-cB_3uoe-a1-m1-cA The crystal structure of dehydrogenase from Sinorhizobium meliloti Q930Q4 Q930Q4 2.311 X-RAY DIFFRACTION 240 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 310 329 SRLPPARLRNLSVALLEKRGVPADSARLQANLLLEAELRGLPSHGLQRLPLLLSRLDKGLANPTTRGNGTWRRASFLSVDGERGLGPVVDARVTRRILKETGLAIAAIRNANHGLAYYAEAAARDGLIGIVSTSEALVHPFGGTQALIGTNPVAIGIPAAGHPFVLDLATSIVSWAVDRDGRATTDPHAAQAGAIAPFGDAKGYGLGLAIELLVAALAGSNLAPDVNGTLDDIHPANKGDLLILIDPSAGAGSIPALAAYLDRLRLSRPLDPTQPVAIPGDGARARRAAAAKTGIELPQPLFDHLTALEA LYFQSRLPPARLRNLSVALLEKRGVPADSARLQANLLLEAELRGLPSHGLQRLPLLLSRLDKGLANPTTRGNGTWRRASFLSVDGERGLGPVVDARVTRRILKETGLAIAAIRNANHGLAYYAEAAARDGLIGIVSTSEALVHPFGGTQALIGTNPVAIGIPAAGHPFVLDLATSIVSGKINNHARGLAIPPGWAVDRDGRATTDPHAAQAGAIAPFGDAKGYGLGLAIELLVAALAGSNLAPDVNGTLDDIHPANKGDLLILIDPSAGAGSIPALAAYLDRLRLSRPLDPTQPVAIPGDGARARRAAAAKTGIELPQPLFDHLTALEA 3uog-a1-m1-cA_3uog-a1-m2-cB Crystal structure of putative Alcohol dehydrogenase from Sinorhizobium meliloti 1021 Q92MZ8 Q92MZ8 2.2 X-RAY DIFFRACTION 13 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 335 335 3uog-a1-m1-cB_3uog-a1-m2-cA SKWQEWSTETVAPHDLKLAERPVPEAGEHDIIVRTLAVSLNYRDKLVLETGGLDLAFPFVPASDSGVVEAVGKSVTRFRPGDRVISTFAPGWLDGLRPGTGRTPAYETLGGAHPGVLSEYVVLPEGWFVAAPKSLDAAEASTLPCAGLTAWFALVEKGHLRAGDRVVVQGTGGVALFGLQIAKATGAEVIVTSSSREKLDRAFALGADHGINRLEEDWVERVYALTGDRGADHILEIAGGAGLGQSLKAVAPDGRISVIGVLEGFEVSGPVGPLLLKSPVVQGISVGHRRALEDLVGAVDRLGLKPVIDRYKFTEVPEALAHLDRGPFGKVVIEF SKWQEWSTETVAPHDLKLAERPVPEAGEHDIIVRTLAVSLNYRDKLVLETGGLDLAFPFVPASDSGVVEAVGKSVTRFRPGDRVISTFAPGWLDGLRPGTGRTPAYETLGGAHPGVLSEYVVLPEGWFVAAPKSLDAAEASTLPCAGLTAWFALVEKGHLRAGDRVVVQGTGGVALFGLQIAKATGAEVIVTSSSREKLDRAFALGADHGINRLEEDWVERVYALTGDRGADHILEIAGGAGLGQSLKAVAPDGRISVIGVLEGFEVSGPVGPLLLKSPVVQGISVGHRRALEDLVGAVDRLGLKPVIDRYKFTEVPEALAHLDRGPFGKVVIEF 3uog-a1-m1-cB_3uog-a1-m2-cB Crystal structure of putative Alcohol dehydrogenase from Sinorhizobium meliloti 1021 Q92MZ8 Q92MZ8 2.2 X-RAY DIFFRACTION 45 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 335 335 3uog-a1-m1-cA_3uog-a1-m2-cA SKWQEWSTETVAPHDLKLAERPVPEAGEHDIIVRTLAVSLNYRDKLVLETGGLDLAFPFVPASDSGVVEAVGKSVTRFRPGDRVISTFAPGWLDGLRPGTGRTPAYETLGGAHPGVLSEYVVLPEGWFVAAPKSLDAAEASTLPCAGLTAWFALVEKGHLRAGDRVVVQGTGGVALFGLQIAKATGAEVIVTSSSREKLDRAFALGADHGINRLEEDWVERVYALTGDRGADHILEIAGGAGLGQSLKAVAPDGRISVIGVLEGFEVSGPVGPLLLKSPVVQGISVGHRRALEDLVGAVDRLGLKPVIDRYKFTEVPEALAHLDRGPFGKVVIEF SKWQEWSTETVAPHDLKLAERPVPEAGEHDIIVRTLAVSLNYRDKLVLETGGLDLAFPFVPASDSGVVEAVGKSVTRFRPGDRVISTFAPGWLDGLRPGTGRTPAYETLGGAHPGVLSEYVVLPEGWFVAAPKSLDAAEASTLPCAGLTAWFALVEKGHLRAGDRVVVQGTGGVALFGLQIAKATGAEVIVTSSSREKLDRAFALGADHGINRLEEDWVERVYALTGDRGADHILEIAGGAGLGQSLKAVAPDGRISVIGVLEGFEVSGPVGPLLLKSPVVQGISVGHRRALEDLVGAVDRLGLKPVIDRYKFTEVPEALAHLDRGPFGKVVIEF 3uog-a2-m1-cA_3uog-a2-m1-cB Crystal structure of putative Alcohol dehydrogenase from Sinorhizobium meliloti 1021 Q92MZ8 Q92MZ8 2.2 X-RAY DIFFRACTION 156 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 335 335 3uog-a1-m1-cA_3uog-a1-m1-cB 3uog-a1-m2-cA_3uog-a1-m2-cB SKWQEWSTETVAPHDLKLAERPVPEAGEHDIIVRTLAVSLNYRDKLVLETGGLDLAFPFVPASDSGVVEAVGKSVTRFRPGDRVISTFAPGWLDGLRPGTGRTPAYETLGGAHPGVLSEYVVLPEGWFVAAPKSLDAAEASTLPCAGLTAWFALVEKGHLRAGDRVVVQGTGGVALFGLQIAKATGAEVIVTSSSREKLDRAFALGADHGINRLEEDWVERVYALTGDRGADHILEIAGGAGLGQSLKAVAPDGRISVIGVLEGFEVSGPVGPLLLKSPVVQGISVGHRRALEDLVGAVDRLGLKPVIDRYKFTEVPEALAHLDRGPFGKVVIEF SKWQEWSTETVAPHDLKLAERPVPEAGEHDIIVRTLAVSLNYRDKLVLETGGLDLAFPFVPASDSGVVEAVGKSVTRFRPGDRVISTFAPGWLDGLRPGTGRTPAYETLGGAHPGVLSEYVVLPEGWFVAAPKSLDAAEASTLPCAGLTAWFALVEKGHLRAGDRVVVQGTGGVALFGLQIAKATGAEVIVTSSSREKLDRAFALGADHGINRLEEDWVERVYALTGDRGADHILEIAGGAGLGQSLKAVAPDGRISVIGVLEGFEVSGPVGPLLLKSPVVQGISVGHRRALEDLVGAVDRLGLKPVIDRYKFTEVPEALAHLDRGPFGKVVIEF 3uoi-a2-m1-ck_3uoi-a2-m1-cw Mycobacterium tuberculosis bacterioferritin, BfrA P9WPQ9 P9WPQ9 1.9 X-RAY DIFFRACTION 45 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 159 159 2wtl-a1-m1-cA_2wtl-a1-m2-cA 2wtl-a1-m1-cA_2wtl-a1-m3-cA 2wtl-a1-m1-cB_2wtl-a1-m1-cC 2wtl-a1-m1-cB_2wtl-a1-m2-cD 2wtl-a1-m1-cC_2wtl-a1-m1-cF 2wtl-a1-m1-cD_2wtl-a1-m3-cB 2wtl-a1-m1-cD_2wtl-a1-m3-cF 2wtl-a1-m1-cE_2wtl-a1-m2-cE 2wtl-a1-m1-cE_2wtl-a1-m3-cE 2wtl-a1-m1-cF_2wtl-a1-m2-cD 2wtl-a1-m2-cA_2wtl-a1-m4-cA 2wtl-a1-m2-cB_2wtl-a1-m2-cC 2wtl-a1-m2-cB_2wtl-a1-m4-cD 2wtl-a1-m2-cC_2wtl-a1-m2-cF 2wtl-a1-m2-cE_2wtl-a1-m4-cE 2wtl-a1-m2-cF_2wtl-a1-m4-cD 2wtl-a1-m3-cA_2wtl-a1-m4-cA 2wtl-a1-m3-cB_2wtl-a1-m3-cC 2wtl-a1-m3-cC_2wtl-a1-m3-cF 2wtl-a1-m3-cD_2wtl-a1-m4-cB 2wtl-a1-m3-cD_2wtl-a1-m4-cF 2wtl-a1-m3-cE_2wtl-a1-m4-cE 2wtl-a1-m4-cB_2wtl-a1-m4-cC 2wtl-a1-m4-cC_2wtl-a1-m4-cF 3qb9-a1-m1-cA_3qb9-a1-m3-cA 3qb9-a1-m1-cA_3qb9-a1-m4-cA 3qb9-a1-m1-cB_3qb9-a1-m1-cC 3qb9-a1-m1-cB_3qb9-a1-m3-cD 3qb9-a1-m1-cC_3qb9-a1-m1-cF 3qb9-a1-m1-cD_3qb9-a1-m4-cB 3qb9-a1-m1-cD_3qb9-a1-m4-cF 3qb9-a1-m1-cE_3qb9-a1-m3-cE 3qb9-a1-m1-cE_3qb9-a1-m4-cE 3qb9-a1-m1-cF_3qb9-a1-m3-cD 3qb9-a1-m2-cA_3qb9-a1-m3-cA 3qb9-a1-m2-cA_3qb9-a1-m4-cA 3qb9-a1-m2-cB_3qb9-a1-m2-cC 3qb9-a1-m2-cB_3qb9-a1-m4-cD 3qb9-a1-m2-cC_3qb9-a1-m2-cF 3qb9-a1-m2-cD_3qb9-a1-m3-cB 3qb9-a1-m2-cD_3qb9-a1-m3-cF 3qb9-a1-m2-cE_3qb9-a1-m3-cE 3qb9-a1-m2-cE_3qb9-a1-m4-cE 3qb9-a1-m2-cF_3qb9-a1-m4-cD 3qb9-a1-m3-cB_3qb9-a1-m3-cC 3qb9-a1-m3-cC_3qb9-a1-m3-cF 3qb9-a1-m4-cB_3qb9-a1-m4-cC 3qb9-a1-m4-cC_3qb9-a1-m4-cF 3uof-a1-m1-cA_3uof-a1-m3-cA 3uof-a1-m1-cA_3uof-a1-m4-cA 3uof-a1-m1-cB_3uof-a1-m1-cC 3uof-a1-m1-cB_3uof-a1-m4-cD 3uof-a1-m1-cC_3uof-a1-m1-cF 3uof-a1-m1-cD_3uof-a1-m3-cB 3uof-a1-m1-cD_3uof-a1-m3-cF 3uof-a1-m1-cE_3uof-a1-m3-cE 3uof-a1-m1-cE_3uof-a1-m4-cE 3uof-a1-m1-cF_3uof-a1-m4-cD 3uof-a1-m2-cA_3uof-a1-m3-cA 3uof-a1-m2-cA_3uof-a1-m4-cA 3uof-a1-m2-cB_3uof-a1-m2-cC 3uof-a1-m2-cB_3uof-a1-m3-cD 3uof-a1-m2-cC_3uof-a1-m2-cF 3uof-a1-m2-cD_3uof-a1-m4-cB 3uof-a1-m2-cD_3uof-a1-m4-cF 3uof-a1-m2-cE_3uof-a1-m3-cE 3uof-a1-m2-cE_3uof-a1-m4-cE 3uof-a1-m2-cF_3uof-a1-m3-cD 3uof-a1-m3-cB_3uof-a1-m3-cC 3uof-a1-m3-cC_3uof-a1-m3-cF 3uof-a1-m4-cB_3uof-a1-m4-cC 3uof-a1-m4-cC_3uof-a1-m4-cF 3uoi-a1-m1-cA_3uoi-a1-m1-cM 3uoi-a1-m1-cA_3uoi-a1-m1-cS 3uoi-a1-m1-cB_3uoi-a1-m1-cC 3uoi-a1-m1-cB_3uoi-a1-m1-cV 3uoi-a1-m1-cC_3uoi-a1-m1-cF 3uoi-a1-m1-cD_3uoi-a1-m1-cN 3uoi-a1-m1-cD_3uoi-a1-m1-cR 3uoi-a1-m1-cE_3uoi-a1-m1-cQ 3uoi-a1-m1-cE_3uoi-a1-m1-cW 3uoi-a1-m1-cF_3uoi-a1-m1-cV 3uoi-a1-m1-cG_3uoi-a1-m1-cM 3uoi-a1-m1-cG_3uoi-a1-m1-cS 3uoi-a1-m1-cH_3uoi-a1-m1-cI 3uoi-a1-m1-cH_3uoi-a1-m1-cP 3uoi-a1-m1-cI_3uoi-a1-m1-cL 3uoi-a1-m1-cJ_3uoi-a1-m1-cT 3uoi-a1-m1-cJ_3uoi-a1-m1-cX 3uoi-a1-m1-cK_3uoi-a1-m1-cQ 3uoi-a1-m1-cK_3uoi-a1-m1-cW 3uoi-a1-m1-cL_3uoi-a1-m1-cP 3uoi-a1-m1-cN_3uoi-a1-m1-cO 3uoi-a1-m1-cO_3uoi-a1-m1-cR 3uoi-a1-m1-cT_3uoi-a1-m1-cU 3uoi-a1-m1-cU_3uoi-a1-m1-cX 3uoi-a2-m1-ca_3uoi-a2-m1-cm 3uoi-a2-m1-ca_3uoi-a2-m1-cs 3uoi-a2-m1-cb_3uoi-a2-m1-cc 3uoi-a2-m1-cb_3uoi-a2-m1-cv 3uoi-a2-m1-cc_3uoi-a2-m1-cf 3uoi-a2-m1-cd_3uoi-a2-m1-cn 3uoi-a2-m1-cd_3uoi-a2-m1-cr 3uoi-a2-m1-ce_3uoi-a2-m1-cq 3uoi-a2-m1-ce_3uoi-a2-m1-cw 3uoi-a2-m1-cf_3uoi-a2-m1-cv 3uoi-a2-m1-cg_3uoi-a2-m1-cm 3uoi-a2-m1-cg_3uoi-a2-m1-cs 3uoi-a2-m1-ch_3uoi-a2-m1-ci 3uoi-a2-m1-ch_3uoi-a2-m1-cp 3uoi-a2-m1-ci_3uoi-a2-m1-cl 3uoi-a2-m1-cj_3uoi-a2-m1-ct 3uoi-a2-m1-cj_3uoi-a2-m1-cx 3uoi-a2-m1-ck_3uoi-a2-m1-cq 3uoi-a2-m1-cl_3uoi-a2-m1-cp 3uoi-a2-m1-cn_3uoi-a2-m1-co 3uoi-a2-m1-co_3uoi-a2-m1-cr 3uoi-a2-m1-ct_3uoi-a2-m1-cu 3uoi-a2-m1-cu_3uoi-a2-m1-cx MQGDPDVLRLLNEQLTSELTAINQYFLHSKMQDNWGFTELAAHTRAESFDEMRHAEEITDRILLLDGLPNYQRIGSLRIGQTLREQFEADLAIEYDVLNRLKPGIVMCREKQDTTSAVLLEKIVADEEEHIDYLETQLELMDKLGEELYSAQCVSRPPT MQGDPDVLRLLNEQLTSELTAINQYFLHSKMQDNWGFTELAAHTRAESFDEMRHAEEITDRILLLDGLPNYQRIGSLRIGQTLREQFEADLAIEYDVLNRLKPGIVMCREKQDTTSAVLLEKIVADEEEHIDYLETQLELMDKLGEELYSAQCVSRPPT 3uoi-a2-m1-ck_3uoi-a2-m1-cx Mycobacterium tuberculosis bacterioferritin, BfrA P9WPQ9 P9WPQ9 1.9 X-RAY DIFFRACTION 23 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 159 159 2wtl-a1-m1-cA_2wtl-a1-m2-cB 2wtl-a1-m1-cA_2wtl-a1-m2-cD 2wtl-a1-m1-cB_2wtl-a1-m1-cD 2wtl-a1-m1-cB_2wtl-a1-m3-cA 2wtl-a1-m1-cC_2wtl-a1-m1-cE 2wtl-a1-m1-cC_2wtl-a1-m3-cF 2wtl-a1-m1-cD_2wtl-a1-m3-cA 2wtl-a1-m1-cE_2wtl-a1-m3-cF 2wtl-a1-m1-cF_2wtl-a1-m2-cC 2wtl-a1-m1-cF_2wtl-a1-m2-cE 2wtl-a1-m2-cA_2wtl-a1-m4-cB 2wtl-a1-m2-cA_2wtl-a1-m4-cD 2wtl-a1-m2-cB_2wtl-a1-m2-cD 2wtl-a1-m2-cC_2wtl-a1-m2-cE 2wtl-a1-m2-cF_2wtl-a1-m4-cC 2wtl-a1-m2-cF_2wtl-a1-m4-cE 2wtl-a1-m3-cB_2wtl-a1-m3-cD 2wtl-a1-m3-cB_2wtl-a1-m4-cA 2wtl-a1-m3-cC_2wtl-a1-m3-cE 2wtl-a1-m3-cC_2wtl-a1-m4-cF 2wtl-a1-m3-cD_2wtl-a1-m4-cA 2wtl-a1-m3-cE_2wtl-a1-m4-cF 2wtl-a1-m4-cB_2wtl-a1-m4-cD 2wtl-a1-m4-cC_2wtl-a1-m4-cE 3qb9-a1-m1-cA_3qb9-a1-m3-cB 3qb9-a1-m1-cA_3qb9-a1-m3-cD 3qb9-a1-m1-cB_3qb9-a1-m1-cD 3qb9-a1-m1-cB_3qb9-a1-m4-cA 3qb9-a1-m1-cC_3qb9-a1-m1-cE 3qb9-a1-m1-cC_3qb9-a1-m4-cF 3qb9-a1-m1-cD_3qb9-a1-m4-cA 3qb9-a1-m1-cE_3qb9-a1-m4-cF 3qb9-a1-m1-cF_3qb9-a1-m3-cC 3qb9-a1-m1-cF_3qb9-a1-m3-cE 3qb9-a1-m2-cA_3qb9-a1-m4-cB 3qb9-a1-m2-cA_3qb9-a1-m4-cD 3qb9-a1-m2-cB_3qb9-a1-m2-cD 3qb9-a1-m2-cB_3qb9-a1-m3-cA 3qb9-a1-m2-cC_3qb9-a1-m2-cE 3qb9-a1-m2-cC_3qb9-a1-m3-cF 3qb9-a1-m2-cD_3qb9-a1-m3-cA 3qb9-a1-m2-cE_3qb9-a1-m3-cF 3qb9-a1-m2-cF_3qb9-a1-m4-cC 3qb9-a1-m2-cF_3qb9-a1-m4-cE 3qb9-a1-m3-cB_3qb9-a1-m3-cD 3qb9-a1-m3-cC_3qb9-a1-m3-cE 3qb9-a1-m4-cB_3qb9-a1-m4-cD 3qb9-a1-m4-cC_3qb9-a1-m4-cE 3uof-a1-m1-cA_3uof-a1-m4-cB 3uof-a1-m1-cA_3uof-a1-m4-cD 3uof-a1-m1-cB_3uof-a1-m1-cD 3uof-a1-m1-cB_3uof-a1-m3-cA 3uof-a1-m1-cC_3uof-a1-m1-cE 3uof-a1-m1-cC_3uof-a1-m3-cF 3uof-a1-m1-cD_3uof-a1-m3-cA 3uof-a1-m1-cE_3uof-a1-m3-cF 3uof-a1-m1-cF_3uof-a1-m4-cC 3uof-a1-m1-cF_3uof-a1-m4-cE 3uof-a1-m2-cA_3uof-a1-m3-cB 3uof-a1-m2-cA_3uof-a1-m3-cD 3uof-a1-m2-cB_3uof-a1-m2-cD 3uof-a1-m2-cB_3uof-a1-m4-cA 3uof-a1-m2-cC_3uof-a1-m2-cE 3uof-a1-m2-cC_3uof-a1-m4-cF 3uof-a1-m2-cD_3uof-a1-m4-cA 3uof-a1-m2-cE_3uof-a1-m4-cF 3uof-a1-m2-cF_3uof-a1-m3-cC 3uof-a1-m2-cF_3uof-a1-m3-cE 3uof-a1-m3-cB_3uof-a1-m3-cD 3uof-a1-m3-cC_3uof-a1-m3-cE 3uof-a1-m4-cB_3uof-a1-m4-cD 3uof-a1-m4-cC_3uof-a1-m4-cE 3uoi-a1-m1-cA_3uoi-a1-m1-cT 3uoi-a1-m1-cA_3uoi-a1-m1-cV 3uoi-a1-m1-cB_3uoi-a1-m1-cD 3uoi-a1-m1-cB_3uoi-a1-m1-cM 3uoi-a1-m1-cC_3uoi-a1-m1-cE 3uoi-a1-m1-cC_3uoi-a1-m1-cR 3uoi-a1-m1-cD_3uoi-a1-m1-cM 3uoi-a1-m1-cE_3uoi-a1-m1-cR 3uoi-a1-m1-cF_3uoi-a1-m1-cU 3uoi-a1-m1-cF_3uoi-a1-m1-cW 3uoi-a1-m1-cG_3uoi-a1-m1-cN 3uoi-a1-m1-cG_3uoi-a1-m1-cP 3uoi-a1-m1-cH_3uoi-a1-m1-cJ 3uoi-a1-m1-cH_3uoi-a1-m1-cS 3uoi-a1-m1-cI_3uoi-a1-m1-cK 3uoi-a1-m1-cI_3uoi-a1-m1-cX 3uoi-a1-m1-cJ_3uoi-a1-m1-cS 3uoi-a1-m1-cK_3uoi-a1-m1-cX 3uoi-a1-m1-cL_3uoi-a1-m1-cO 3uoi-a1-m1-cL_3uoi-a1-m1-cQ 3uoi-a1-m1-cN_3uoi-a1-m1-cP 3uoi-a1-m1-cO_3uoi-a1-m1-cQ 3uoi-a1-m1-cT_3uoi-a1-m1-cV 3uoi-a1-m1-cU_3uoi-a1-m1-cW 3uoi-a2-m1-ca_3uoi-a2-m1-ct 3uoi-a2-m1-ca_3uoi-a2-m1-cv 3uoi-a2-m1-cb_3uoi-a2-m1-cd 3uoi-a2-m1-cb_3uoi-a2-m1-cm 3uoi-a2-m1-cc_3uoi-a2-m1-ce 3uoi-a2-m1-cc_3uoi-a2-m1-cr 3uoi-a2-m1-cd_3uoi-a2-m1-cm 3uoi-a2-m1-ce_3uoi-a2-m1-cr 3uoi-a2-m1-cf_3uoi-a2-m1-cu 3uoi-a2-m1-cf_3uoi-a2-m1-cw 3uoi-a2-m1-cg_3uoi-a2-m1-cn 3uoi-a2-m1-cg_3uoi-a2-m1-cp 3uoi-a2-m1-ch_3uoi-a2-m1-cj 3uoi-a2-m1-ch_3uoi-a2-m1-cs 3uoi-a2-m1-ci_3uoi-a2-m1-ck 3uoi-a2-m1-ci_3uoi-a2-m1-cx 3uoi-a2-m1-cj_3uoi-a2-m1-cs 3uoi-a2-m1-cl_3uoi-a2-m1-co 3uoi-a2-m1-cl_3uoi-a2-m1-cq 3uoi-a2-m1-cn_3uoi-a2-m1-cp 3uoi-a2-m1-co_3uoi-a2-m1-cq 3uoi-a2-m1-ct_3uoi-a2-m1-cv 3uoi-a2-m1-cu_3uoi-a2-m1-cw MQGDPDVLRLLNEQLTSELTAINQYFLHSKMQDNWGFTELAAHTRAESFDEMRHAEEITDRILLLDGLPNYQRIGSLRIGQTLREQFEADLAIEYDVLNRLKPGIVMCREKQDTTSAVLLEKIVADEEEHIDYLETQLELMDKLGEELYSAQCVSRPPT MQGDPDVLRLLNEQLTSELTAINQYFLHSKMQDNWGFTELAAHTRAESFDEMRHAEEITDRILLLDGLPNYQRIGSLRIGQTLREQFEADLAIEYDVLNRLKPGIVMCREKQDTTSAVLLEKIVADEEEHIDYLETQLELMDKLGEELYSAQCVSRPPT 3uoi-a2-m1-cw_3uoi-a2-m1-cx Mycobacterium tuberculosis bacterioferritin, BfrA P9WPQ9 P9WPQ9 1.9 X-RAY DIFFRACTION 48 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 159 159 2wtl-a1-m1-cA_2wtl-a1-m1-cB 2wtl-a1-m1-cC_2wtl-a1-m1-cD 2wtl-a1-m1-cE_2wtl-a1-m1-cF 2wtl-a1-m2-cA_2wtl-a1-m2-cB 2wtl-a1-m2-cC_2wtl-a1-m2-cD 2wtl-a1-m2-cE_2wtl-a1-m2-cF 2wtl-a1-m3-cA_2wtl-a1-m3-cB 2wtl-a1-m3-cC_2wtl-a1-m3-cD 2wtl-a1-m3-cE_2wtl-a1-m3-cF 2wtl-a1-m4-cA_2wtl-a1-m4-cB 2wtl-a1-m4-cC_2wtl-a1-m4-cD 2wtl-a1-m4-cE_2wtl-a1-m4-cF 3qb9-a1-m1-cA_3qb9-a1-m1-cB 3qb9-a1-m1-cC_3qb9-a1-m1-cD 3qb9-a1-m1-cE_3qb9-a1-m1-cF 3qb9-a1-m2-cA_3qb9-a1-m2-cB 3qb9-a1-m2-cC_3qb9-a1-m2-cD 3qb9-a1-m2-cE_3qb9-a1-m2-cF 3qb9-a1-m3-cA_3qb9-a1-m3-cB 3qb9-a1-m3-cC_3qb9-a1-m3-cD 3qb9-a1-m3-cE_3qb9-a1-m3-cF 3qb9-a1-m4-cA_3qb9-a1-m4-cB 3qb9-a1-m4-cC_3qb9-a1-m4-cD 3qb9-a1-m4-cE_3qb9-a1-m4-cF 3uof-a1-m1-cA_3uof-a1-m1-cB 3uof-a1-m1-cC_3uof-a1-m1-cD 3uof-a1-m1-cE_3uof-a1-m1-cF 3uof-a1-m2-cA_3uof-a1-m2-cB 3uof-a1-m2-cC_3uof-a1-m2-cD 3uof-a1-m2-cE_3uof-a1-m2-cF 3uof-a1-m3-cA_3uof-a1-m3-cB 3uof-a1-m3-cC_3uof-a1-m3-cD 3uof-a1-m3-cE_3uof-a1-m3-cF 3uof-a1-m4-cA_3uof-a1-m4-cB 3uof-a1-m4-cC_3uof-a1-m4-cD 3uof-a1-m4-cE_3uof-a1-m4-cF 3uoi-a1-m1-cA_3uoi-a1-m1-cB 3uoi-a1-m1-cC_3uoi-a1-m1-cD 3uoi-a1-m1-cE_3uoi-a1-m1-cF 3uoi-a1-m1-cG_3uoi-a1-m1-cH 3uoi-a1-m1-cI_3uoi-a1-m1-cJ 3uoi-a1-m1-cK_3uoi-a1-m1-cL 3uoi-a1-m1-cM_3uoi-a1-m1-cN 3uoi-a1-m1-cO_3uoi-a1-m1-cP 3uoi-a1-m1-cQ_3uoi-a1-m1-cR 3uoi-a1-m1-cS_3uoi-a1-m1-cT 3uoi-a1-m1-cU_3uoi-a1-m1-cV 3uoi-a1-m1-cW_3uoi-a1-m1-cX 3uoi-a2-m1-ca_3uoi-a2-m1-cb 3uoi-a2-m1-cc_3uoi-a2-m1-cd 3uoi-a2-m1-ce_3uoi-a2-m1-cf 3uoi-a2-m1-cg_3uoi-a2-m1-ch 3uoi-a2-m1-ci_3uoi-a2-m1-cj 3uoi-a2-m1-ck_3uoi-a2-m1-cl 3uoi-a2-m1-cm_3uoi-a2-m1-cn 3uoi-a2-m1-co_3uoi-a2-m1-cp 3uoi-a2-m1-cq_3uoi-a2-m1-cr 3uoi-a2-m1-cs_3uoi-a2-m1-ct 3uoi-a2-m1-cu_3uoi-a2-m1-cv MQGDPDVLRLLNEQLTSELTAINQYFLHSKMQDNWGFTELAAHTRAESFDEMRHAEEITDRILLLDGLPNYQRIGSLRIGQTLREQFEADLAIEYDVLNRLKPGIVMCREKQDTTSAVLLEKIVADEEEHIDYLETQLELMDKLGEELYSAQCVSRPPT MQGDPDVLRLLNEQLTSELTAINQYFLHSKMQDNWGFTELAAHTRAESFDEMRHAEEITDRILLLDGLPNYQRIGSLRIGQTLREQFEADLAIEYDVLNRLKPGIVMCREKQDTTSAVLLEKIVADEEEHIDYLETQLELMDKLGEELYSAQCVSRPPT 3uow-a1-m1-cB_3uow-a1-m1-cA Crystal Structure of PF10_0123, a GMP Synthetase from Plasmodium Falciparum Q8IJR9 Q8IJR9 2.72 X-RAY DIFFRACTION 89 0.998 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 477 517 4wim-a1-m1-cB_4wim-a1-m1-cA KILVLNFGSQYFHLIVKRLNNIKIFSETKDYKDIKDMNIKGVILSGGPYSEVFEYFLEKKIPIFGICYGMQEIAVQMNYGCTDVNININNITYCAMDLYSNYKLMNCCLFENIKSDITTVWMNHNDEVTKIPENFYLVSSSENCLICSIYNKEYNIYGVQYHPEVYESLDGELMFYNFAYNICKCKFDPIRYHELELKNIEKYKHDHYVIAAMSGGIDSTVAAAYTHKIFKERFFGIFIDNGLLRKNEAENVYTFLKSTFPDMNITKIDASENFLSNLQGVTDPEQKRKIIGKLFIEEFEKAVNNIDDINKTFLLQGTLYPDIIESKKFKLFEPFKYLFKDDVKTLSRELNLPEEITNRHPFPGPGLAIRVIGEINKHKLNILREVDDIFINDLKQYGLYNQISQAFAVLLSSKSVGYDYVCVLRAVKTSSFMTANWYQIPYDILDKITTRILSEVKGVNRILYDVSSKPPATIEFE YDKILVLNFGSQYFHLIVKRLNNIKIFSETKDYGVELKDIKDMNIKGVILSGGPYSVTEAGSPHLKKEVFEYFLEKKIPIFGICYGMQEIAVQMNGEVKKSKTSEYGCTDVNILRNDNINNITYCRNFSSAMDLYSNYKLMNCCLFENIKSDITTVWMNHNDEVTKIPENFYLVSSSENCLICSIYNKEYNIYGVQYHPEVYESLDGELMFYNFAYNICKCKKFDPIRYHELELKNIEKYKHDHYVIAAMSGGIDSTVAAAYTHKIFKERFFGIFIDNGLLRKNEAENVYTFLKSTFPDMNITKIDASENFLSNLQGVTDPEQKRKIIGKLFIEEFEKAVNNIDIDINKTFLLQGTLYPDIIESKCSLKFKLFEPFKYLFKDDVKTLSRELNLPEEITNRHPFPGPGLAIRVIGEINKHKLNILREVDDIFINDLKQYGLYNQISQAFAVLLSSKSVYDYVCVLRAVKTSSFMTANWYQIPYDILDKITTRILSEVKGVNRILYDVSSKPPATIEFE 3uoz-a3-m1-cA_3uoz-a3-m1-cB Crystal Structure of OTEMO complex with FAD and NADP (form 2) H3JQW0 H3JQW0 2.407 X-RAY DIFFRACTION 59 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 540 540 3uov-a1-m1-cB_3uov-a1-m1-cA 3uox-a3-m1-cB_3uox-a3-m1-cA 3uoy-a3-m1-cA_3uoy-a3-m1-cB 3up4-a3-m1-cA_3up4-a3-m1-cB 3up5-a3-m1-cB_3up5-a3-m1-cA KSPALDAVVIGAGVTGIYQAFLINQAGMKVLGIEAGEDVGGTWYWNRYPGCRLDTESYAYGYFALKGIIPEWEWSENFASQPEMLRYVNRAADAMDVRKHYRFNTRVTAARYVENDRLWEVTLDNEEVVTCRFLISATGPLSASRMPDIKGIDSFKGESFHSSRWPTDAEGAPKGVDFTGKRVGVIGTGATGVQIIPIAAETAKELYVFQRTPNWCTPLGNSPMSKEKMDSLRNRYPTILEYVKSTDTAFPYHRDPRKGTDVSESERDAFFEELYRQPGYGIWLSGFRDLLLNKESNKFLADFVAKKIRQRVKDPVVAEKLIPKDHPFGAKRVPMETNYYETYNRDNVHLVDIREAPIQEVTPEGIKTADAAYDLDVIIYATGFDAVTGSLDRIDIRGKDNVRLIDAWAEGPSTYLGLQARGFPNFFTLVGPHNGSTFCNVGVCGGLQAEWVLRMISYMKDNGFTYSEPTQAAENRWTEEVYADFSRTLLAEANAWWVKTTTKPDGSVVRRTLVHVSGGPEYRKRCEQVAYNNYNGFELA KSPALDAVVIGAGVTGIYQAFLINQAGMKVLGIEAGEDVGGTWYWNRYPGCRLDTESYAYGYFALKGIIPEWEWSENFASQPEMLRYVNRAADAMDVRKHYRFNTRVTAARYVENDRLWEVTLDNEEVVTCRFLISATGPLSASRMPDIKGIDSFKGESFHSSRWPTDAEGAPKGVDFTGKRVGVIGTGATGVQIIPIAAETAKELYVFQRTPNWCTPLGNSPMSKEKMDSLRNRYPTILEYVKSTDTAFPYHRDPRKGTDVSESERDAFFEELYRQPGYGIWLSGFRDLLLNKESNKFLADFVAKKIRQRVKDPVVAEKLIPKDHPFGAKRVPMETNYYETYNRDNVHLVDIREAPIQEVTPEGIKTADAAYDLDVIIYATGFDAVTGSLDRIDIRGKDNVRLIDAWAEGPSTYLGLQARGFPNFFTLVGPHNGSTFCNVGVCGGLQAEWVLRMISYMKDNGFTYSEPTQAAENRWTEEVYADFSRTLLAEANAWWVKTTTKPDGSVVRRTLVHVSGGPEYRKRCEQVAYNNYNGFELA 3up1-a1-m1-cB_3up1-a1-m1-cA Crystal structure of the unliganded human interleukin-7 receptor extracellular domain P16871 P16871 2.15 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 201 DDYSFSCYSQLEVNGSQHSLTCAFEDPDVNTTNLEFEICGALVEVKCLNFRKLQEIYFIETKKFLLIGKSNICVKVGEKSLTCKKIDLTTIVKPEAPFDLSVVYREGANDFVVTFNTSHLQKKYVKVLMHDVAYRQEKDENKWTHVNLSSTKLTLLQRKLQPAAMYEIKVRSIPDHYFKGFWSEWSPSYYFRTPEI DAELDDYSFSCYSQLEVNGSQHSLTCAFEDPDVNTTNLEFEICGALVEVKCLNFRKLQEIYFIETKKFLLIGKSNICVKVGEKSLTCKKIDLTTIVKPEAPFDLSVVYREGANDFVVTFNTSHLQKKYVKVLMHDVAYRQEKDENKWTHVNLSSTKLTLLQRKLQPAAMYEIKVRSIPDHYFKGFWSEWSPSYYFRTPEIN 3upb-a1-m1-cB_3upb-a1-m1-cA 1.5 Angstrom Resolution Crystal Structure of Transaldolase from Francisella tularensis in Covalent Complex with Arabinose-5-Phosphate Q5NFX0 Q5NFX0 1.5 X-RAY DIFFRACTION 45 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 309 311 3te9-a3-m1-cA_3te9-a3-m1-cB 3tkf-a1-m1-cA_3tkf-a1-m1-cB 3tno-a1-m1-cB_3tno-a1-m1-cA 4e0c-a1-m1-cB_4e0c-a1-m1-cA KSVLEQLKQVTMVVADTGDFELIKKYKPVDATTNPSLILKAVKEQKYSNLVAETISKVKANNPDLNSDDLVKEIAIEILVSFGIKILDVIEGKVSSEVDARVSFNSATTIDYAKRIIARYESNGIPKDRVLIKIAATWEGIKAAKLLQKEGINCNLTLIFDKAQAKACAEAGVYLVSPFVGRITDWQMQQNNLKTFPAIADDDGVNSVKAIYKLYKSHGFKTIVMGASFRNVEQVIALAGCDALTISPVLLEELKNRDEHLEVKLTQISEADFRWLMNENAMATHKLAEGIRLFTKDTIELENIIKQNL MQKSVLEQLKQVTMVVADTGDFELIKKYKPVDATTNPSLILKAVKEQKYSNLVAETISKVKANNPDLNSDDLVKEIAIEILVSFGIKILDVIEGKVSSEVDARVSFNSATTIDYAKRIIARYESNGIPKDRVLIKIAATWEGIKAAKLLQKEGINCNLTLIFDKAQAKACAEAGVYLVSPFVGRITDWQMQQNNLKTFPAIADDDGVNSVKAIYKLYKSHGFKTIVMGASFRNVEQVIALAGCDALTISPVLLEELKNRDEHLEVKLTQISEADFRWLMNENAMATHKLAEGIRLFTKDTIELENIIKQNL 3upc-a15-m1-cG_3upc-a15-m1-cH A general strategy for the generation of human antibody variable domains with increased aggregation resistance P01764 P01764 2.8 X-RAY DIFFRACTION 142 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 3upc-a11-m1-cA_3upc-a11-m1-cB 3upc-a12-m1-cC_3upc-a12-m1-cD 3upc-a13-m1-cE_3upc-a13-m1-cI 3upc-a14-m1-cF_3upc-a14-m1-cJ QLLESGGGLVQPGGSLRLSCAASGFTFSDEDMSWVRQAPGKGLEWVSAISGSGGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAKSYGAFDYWGQGTLVTVS QLLESGGGLVQPGGSLRLSCAASGFTFSDEDMSWVRQAPGKGLEWVSAISGSGGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAKSYGAFDYWGQGTLVTVS 3upf-a4-m1-cC_3upf-a4-m2-cC Crystal structure of murine norovirus RNA-dependent RNA polymerase bound to NF023 Q80J95 Q80J95 2.6 X-RAY DIFFRACTION 59 1.0 223997 (Murine norovirus 1) 223997 (Murine norovirus 1) 471 471 3nah-a1-m1-cA_3nah-a1-m2-cA 3nah-a1-m1-cB_3nah-a1-m1-cC 3nah-a1-m2-cB_3nah-a1-m2-cC 3nai-a1-m1-cA_3nai-a1-m2-cA 3nai-a2-m1-cB_3nai-a2-m1-cC 3qid-a1-m1-cA_3qid-a1-m2-cA 3qid-a2-m1-cB_3qid-a2-m1-cC 3sfg-a1-m1-cA_3sfg-a1-m2-cA 3sfg-a2-m1-cB_3sfg-a2-m1-cC 3sfu-a1-m1-cA_3sfu-a1-m2-cA 3sfu-a2-m1-cC_3sfu-a2-m1-cB 3upf-a4-m1-cA_3upf-a4-m1-cB 3upf-a4-m2-cA_3upf-a4-m2-cB 3uqs-a4-m1-cA_3uqs-a4-m1-cB 3uqs-a4-m1-cC_3uqs-a4-m2-cC 3uqs-a4-m2-cA_3uqs-a4-m2-cB 3ur0-a4-m1-cA_3ur0-a4-m1-cB 3ur0-a4-m2-cC_3ur0-a4-m3-cC 3ur0-a4-m4-cA_3ur0-a4-m4-cB 4nru-a7-m1-cA_4nru-a7-m1-cB 4nru-a7-m1-cF_4nru-a7-m1-cE 4nru-a7-m2-cC_4nru-a7-m2-cD 5y3d-a1-m1-cA_5y3d-a1-m1-cB 5y3d-a1-m1-cC_5y3d-a1-m1-cE 5y3d-a1-m1-cD_5y3d-a1-m1-cF PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGQRPSQLMALLGEAAMHGEKYYRTVASRVSKEVPRHRSVLRWVRFG PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGQRPSQLMALLGEAAMHGEKYYRTVASRVSKEVPRHRSVLRWVRFG 3upl-a1-m1-cA_3upl-a1-m1-cB Crystal structure of the Brucella abortus enzyme catalyzing the first committed step of the methylerythritol 4-phosphate pathway. Q2YIM3 Q2YIM3 1.5 X-RAY DIFFRACTION 188 0.998 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 437 437 3upy-a1-m1-cA_3upy-a1-m1-cB TTNVALVGLARDLAARAETGKPIRIGLIGAGEMGTDIVTQVARMQGIEVGALSARRLPNTFKAIRTAYGDEENAREATTESAMTRAIEAGKIAVTDDNDLILSNPLIDVIIDATGIPEVGAETGIAAIRNGKHLVMMNVEADVTIGPYLKAQADKQGVIYSLGAGDEPSSCMELIEFVSALGYEVVSAGKGKNNPLNFDATPDDYRQEADRRNMNVRLLVEFIDGSKTMVEMAAIANATGLVPDIAGMHGPRASIDQLSHTLIPQAEGGVLSKSGVVDYSIGKGVSPGVFVVAKMDHPRLNERLEDLKIGKGPYFTFHRPYHLTSLEVPLTVARVVLHGKTDMVPLPKPVAEVCAVAKKDMQPGEHLDAIGQYCYRSWIMTVPEARAAKAIPCGLLQNGTVIAPIKKGELITYANAAPQPGSRIAELRALQDAMLGQ MTTNVALVGLARDLAARAETGKPIRIGLIGAGEMGTDIVTQVARMQGIEVGALSARRLPNTFKAIRTAYGDEENAREATTESAMTRAIEAGKIAVTDDNDLILSNPLIDVIIDATGIPEVGAETGIAAIRNGKHLVMMNVEADVTIGPYLKAQADKQGVIYSLGAGDEPSSCMELIEFVSALGYEVVSAGKGKNNPLNFDATPDDYRQEADRRNMNVRLLVEFIDGSKTMVEMAAIANATGLVPDIAGMHGPRASIDQLSHTLIPQAEGGVLSKSGVVDYSIGKGVSPGVFVVAKMDHPRLNERLEDLKIGKGPYFTFHRPYHLTSLEVPLTVARVVLHGKTDMVPLPKPVAEVCAVAKKDMQPGEHLDAIGQYCYRSWIMTVPEARAAKAIPCGLLQNGTVIAPIKKGELITYANAAPQPGSRIAELRALQDAMLG 3ups-a1-m1-cA_3ups-a1-m2-cA Crystal structure of iojap-like protein from Zymomonas mobilis Q5NLX3 Q5NLX3 1.75 X-RAY DIFFRACTION 73 1.0 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 104 104 FDPELLKLVTDSLDDDQALEIATIPLAGKSSIADYVIASGRSSRQVTAAQKLADRIKAATGYVSKIEGLPAADWVLLDAGDIIIHLFRPEVRSFYNLERWGFGD FDPELLKLVTDSLDDDQALEIATIPLAGKSSIADYVIASGRSSRQVTAAQKLADRIKAATGYVSKIEGLPAADWVLLDAGDIIIHLFRPEVRSFYNLERWGFGD 3uqc-a2-m1-cA_3uqc-a2-m1-cD Structure of the Intracellular Kinase Homology Domain of Rv3910 at 2.2 A resolution P9WJK3 P9WJK3 2.256 X-RAY DIFFRACTION 26 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 246 249 3uqc-a1-m1-cB_3uqc-a1-m1-cC VQLVPGARIANGRYRLLIFHGGVPPLQFWQALDTALDRQVALTFVDPQGVLPDDVLQETLSRTLRLSRIDKPGVARVLDVVHTRAGGLVVAEWIRGGSLQEVADTSPSPVGAIRAMQSLAAAADAAHRAGVALSIDHPSRVRVSIDGDVVLAYPATMPDANPQDDIRGIGASLYALLVNRWPLPEAGVRSGLAPAERDTAGQPIEPADIDRDIPFQISAVAARSVQGDGGIRSASTLLNLMQQATA DVQLVPGARIANGRYRLLIFHGGVPPLQFWQALDTALDRQVALTFVDPQGVLPDDVLQETLSRTLRLSRIDKPGVARVLDVVHTRAGGLVVAEWIRGGSLQEVADTSPSPVGAIRAMQSLAAAADAAHRAGVALSIDHPSRVRVSIDGDVVLAYPATMPDANPQDDIRGIGASLYALLVNRWPLPEAGVRSGLAPAERDTAGQPIEPADIDRDIPFQISAVAARSVQGDGGIRSASTLLNLMQQATAVA 3uqh-a1-m1-cB_3uqh-a1-m1-cA Crystal structure of aba receptor pyl10 (apo) Q8H1R0 Q8H1R0 3 X-RAY DIFFRACTION 59 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 155 159 SQCSSTLVKHIKAPLHLVWSIVRRFDEPQKYKPFISRCVVQGKKLEVGSVREVDLKSGLPATKSTEVLEILDDNEHILGIRIVGGDHRLKNYSSTISLHSETIDGKTGTLAIESFVVDVPEGNTKEETCFFVEALIQCNLNSLADVTERLQAESM SQCSSTLVKHIKAPLHLVWSIVRRFDEPQKYKPFISRCVVQGKKLEVGSVREVDLKSGLPATKSTEVLEILDDNEHILGIRIVGGDHRLKNYSSTISLHSETIDGKTGTLAIESFVVDVPEGNTKEETCFFVEALIQCNLNSLADVTERLQAESMEKKI 3uqs-a4-m1-cA_3uqs-a4-m2-cB Crystal structures of murine norovirus RNA-dependent RNA polymerase Q80J95 Q80J95 2 X-RAY DIFFRACTION 31 0.998 223997 (Murine norovirus 1) 223997 (Murine norovirus 1) 478 482 3nah-a1-m1-cB_3nah-a1-m1-cA 3nah-a1-m1-cB_3nah-a1-m2-cC 3nah-a1-m1-cC_3nah-a1-m2-cA 3nah-a1-m1-cC_3nah-a1-m2-cB 3nah-a1-m2-cB_3nah-a1-m2-cA 3nah-a1-m2-cC_3nah-a1-m1-cA 3upf-a4-m1-cA_3upf-a4-m2-cB 3upf-a4-m1-cC_3upf-a4-m1-cA 3upf-a4-m1-cC_3upf-a4-m2-cB 3upf-a4-m2-cA_3upf-a4-m1-cB 3upf-a4-m2-cC_3upf-a4-m1-cB 3upf-a4-m2-cC_3upf-a4-m2-cA 3uqs-a4-m1-cC_3uqs-a4-m1-cA 3uqs-a4-m1-cC_3uqs-a4-m2-cB 3uqs-a4-m2-cA_3uqs-a4-m1-cB 3uqs-a4-m2-cC_3uqs-a4-m1-cB 3uqs-a4-m2-cC_3uqs-a4-m2-cA 3ur0-a4-m1-cA_3ur0-a4-m4-cB 3ur0-a4-m2-cC_3ur0-a4-m1-cB 3ur0-a4-m2-cC_3ur0-a4-m4-cA 3ur0-a4-m3-cC_3ur0-a4-m1-cA 3ur0-a4-m3-cC_3ur0-a4-m4-cB 3ur0-a4-m4-cA_3ur0-a4-m1-cB 4nru-a7-m1-cA_4nru-a7-m1-cE 4nru-a7-m1-cA_4nru-a7-m2-cC 4nru-a7-m1-cE_4nru-a7-m2-cC 4nru-a7-m1-cF_4nru-a7-m1-cB 4nru-a7-m1-cF_4nru-a7-m2-cD 4nru-a7-m2-cD_4nru-a7-m1-cB LPRPSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGQRPSQLMALLGEAAMHGEKYYRTVASRVSKEAVVPRHRSVLRWVRFG PRPSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGHAQRPSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSVVPRHRSVLRWVRFG 3uqz-a3-m1-cB_3uqz-a3-m2-cA X-ray structure of DNA processing protein A (DprA) from Streptococcus pneumoniae A0A0H2UQA6 A0A0H2UQA6 2.7 X-RAY DIFFRACTION 61 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 275 278 3uqz-a1-m2-cB_3uqz-a1-m1-cA 3uqz-a2-m1-cC_3uqz-a2-m2-cC KITNYEIYKLKKSGLTNQQILKVLEYGENVDQELLLGDIADISGCRNPAVFERYFQIDDAHLSKEFQKFPSFSILDDCYPWDLSEIYDAPVLLFYKGNLDLLKFPKVAVVGSRACSKQGAKSVEKVIQGLENELVIVSGLAKGIDTAAHAALQNGGKTIAVIGTGLDVFYPKANKRLQDYIGNDHLVLSEYGPGEQPLKFHFPARNRIIAGLCRGVIVAEAKRSGSLITCERAEEGRDVFAIPGSILDGLSDGCHHLIQEGAKLVTSGQDVLAEF KITNYEIYKLKKSGLTNQQILKVLEYGENVDQELLLGDIADISGCRNPAVFERYFQIDDAHLSKEFQKFPSFSILDDCYPWDLSEIYDAPVLLFYKGNLDLLKFPKVAVVGSRACSKQGAKSVEKVIQGLENELVIVSGLAKGIDTAAHAALQNGGKTIAVIGTGLDVFYPKANKRLQDYIGNDHLVLSEYGPGEQPLKFHFPARNRIIAGLCRGVIVAEAKRSGSLITCERAEEGRDVFAIPGSILDGLSDGCHHLIQEGAKLVTSGQDVLAEFEFH 3urh-a1-m1-cA_3urh-a1-m1-cB Crystal structure of a dihydrolipoamide dehydrogenase from Sinorhizobium meliloti 1021 Q92LK0 Q92LK0 1.9 X-RAY DIFFRACTION 235 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 449 453 YDLIVIGSGPGGYVCAIKAAQLGKVAVVEKRSTYGGTCLNVGCIPSKALLHASEFHQAQHGLEALGVEVANPKLNLQKAHKDATVKSNVDGVSFLFKKNKIDGFQGTGKVLGQGKVSVTNEKGEEQVLEAKNVVIATGSDVAGIPGVEVAFDEKTIVSSTGALALEKVPASIVVGGGVIGLELGSVWARLGAKVTVVEFLDTILGGDGEVAKQLQRLTKQGIDFKLGAKVTGAVKSGDGAKVTFEPVKGGEATTLDAEVVLIATGRKPSTDGLGLAKAGVVLDSRGRVEIDRHFQTSIAGVYAIGDVVRGPLAHKAEDEGVAVAEIIAGQAGHVNYDVIPGVVYTQPEVASVGKTEEELKAAGVAYKIGKFPFTANGRARALQTDGFVKILADKETDRVLGGHIIGFGAGEIHEIAVLEFGGSSEDLGRTCHAHPTSEAVKEAALSTFF YDLIVIGSGPGGYVCAIKAAQLGKVAVVEKRSTYGGTCLNVGCIPSKALLHASEFHQAQHGLEALGVEVANPKLNLQKAHKDATVKSNVDGVSFLFKKNKIDGFQGTGKVLGQGKVSVTNEKGEEQVLEAKNVVIATGSDVAGIPGVEVAFDEKTIVSSTGALALEKVPASIVVGGGVIGLELGSVWARLGAKVTVVEFLDTILGGDGEVAKQLQRLTKQGIDFKLGAKVTGAVKSGDGAKVTFEPVKGGEATTLDAEVVLIATGRKPSTDGLGLAKAGVVLDSRGRVEIDRHFQTSIAGVYAIGDVVRGPLAHKAEDEGVAVAEIIAGQAGHVNYDVIPGVVYTQPEVASVGKTEEELKAAGVAYKIGKFPFTANGRARALQTDGFVKILADKETDRVLGGHIIGFGAGEIHEIAVLEFGGSSEDLGRTCHAHPTSEAVKEAALSTFFKPIH 3urr-a1-m1-cB_3urr-a1-m1-cA Structure of PTS IIA-like nitrogen-regulatory protein PtsN (BTH_I0484) (ptsN) Q2T1A8 Q2T1A8 1.397 X-RAY DIFFRACTION 87 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 150 152 4gqx-a1-m1-cA_4gqx-a1-m1-cB SMNRLAKILPLENVVIGLSVTSKKRVFEQAGLIFENQIARSTVTDNLFARERLGSTGLGEGVAIPHGRIKGLKHPLAAFVRLAEPIPFEAPDGQPVSLLIFLLVPEQATQAHLEILSEIAQLLSDRDTRERLHTEPDRDELHRLLTQWQP SMNRLAKILPLENVVIGLSVTSKKRVFEQAGLIFENQNGIARSTVTDNLFARERLGSTGLGEGVAIPHGRIKGLKHPLAAFVRLAEPIPFEAPDGQPVSLLIFLLVPEQATQAHLEILSEIAQLLSDRDTRERLHTEPDRDELHRLLTQWQP 3ury-a4-m1-cA_3ury-a4-m1-cB Crystal Structure of Superantigen-like Protein, Exotoxin from Staphylococcus aureus subsp. aureus NCTC 8325 Q2G1S8 Q2G1S8 1.9 X-RAY DIFFRACTION 24 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 193 193 3ury-a3-m1-cA_3ury-a3-m1-cB 3ury-a3-m2-cA_3ury-a3-m2-cB INPKFKDLRAYYTKPSLEFKNEIGIILKKWTTIRFMNVVPDYFIYKIALVGKDDKKYGEGVHRNVDVFVVLEENNYNLEKYSVGGITKSNSKKVDHKAGVRITKEDNKGTISHDVSEFKITKEQISLKELDFKLRKQLIEKNNLYGNVGSGKIVIKMKNGGKYTFELHKKLQENRMADVIDGTNIDNIEVNIK INPKFKDLRAYYTKPSLEFKNEIGIILKKWTTIRFMNVVPDYFIYKIALVGKDDKKYGEGVHRNVDVFVVLEENNYNLEKYSVGGITKSNSKKVDHKAGVRITKEDNKGTISHDVSEFKITKEQISLKELDFKLRKQLIEKNNLYGNVGSGKIVIKMKNGGKYTFELHKKLQENRMADVIDGTNIDNIEVNIK 3ury-a5-m1-cA_3ury-a5-m2-cA Crystal Structure of Superantigen-like Protein, Exotoxin from Staphylococcus aureus subsp. aureus NCTC 8325 Q2G1S8 Q2G1S8 1.9 X-RAY DIFFRACTION 25 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 193 193 3ury-a3-m1-cA_3ury-a3-m2-cA 3ury-a3-m1-cB_3ury-a3-m2-cB 3ury-a6-m1-cB_3ury-a6-m2-cB 4rco-a3-m1-cA_4rco-a3-m1-cB INPKFKDLRAYYTKPSLEFKNEIGIILKKWTTIRFMNVVPDYFIYKIALVGKDDKKYGEGVHRNVDVFVVLEENNYNLEKYSVGGITKSNSKKVDHKAGVRITKEDNKGTISHDVSEFKITKEQISLKELDFKLRKQLIEKNNLYGNVGSGKIVIKMKNGGKYTFELHKKLQENRMADVIDGTNIDNIEVNIK INPKFKDLRAYYTKPSLEFKNEIGIILKKWTTIRFMNVVPDYFIYKIALVGKDDKKYGEGVHRNVDVFVVLEENNYNLEKYSVGGITKSNSKKVDHKAGVRITKEDNKGTISHDVSEFKITKEQISLKELDFKLRKQLIEKNNLYGNVGSGKIVIKMKNGGKYTFELHKKLQENRMADVIDGTNIDNIEVNIK 3us1-a1-m2-cD_3us1-a1-m1-cA Structure of p63 DNA Binding Domain in Complex with a 22 Base Pair Response Element Containing a Two Base Pair ""GC"" Spacer Between Half Sites Q9H3D4 Q9H3D4 2.8 X-RAY DIFFRACTION 22 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 182 193 3qym-a1-m1-cB_3qym-a1-m1-cA 3qym-a1-m1-cC_3qym-a1-m1-cD 3qym-a2-m1-cF_3qym-a2-m1-cE 3qym-a2-m1-cH_3qym-a2-m1-cG 3qym-a3-m1-cC_3qym-a3-m1-cD 3qym-a3-m1-cF_3qym-a3-m1-cE 3qyn-a1-m1-cD_3qyn-a1-m1-cC 3us0-a1-m1-cD_3us0-a1-m1-cC 3us1-a1-m1-cD_3us1-a1-m2-cA 3us2-a1-m1-cB_3us2-a1-m1-cA 3us2-a1-m1-cD_3us2-a1-m1-cC 3us2-a2-m1-cH_3us2-a2-m1-cG 3us2-a2-m1-cJ_3us2-a2-m1-cI DYPGPHSFDVSFQTWTYSTELKKLYCQIAKTCPIQIKVMTPPPQGAVIRAMPVYKKAEHVTEVVKRCPNHELSREFNEGQIAPPSHLIRVEGNSHAQYVEDPITGRQSVLVPYEPPQVGTEFTTVLYNFMCNSSCVGGMNRRPILIIVTLETRDGQVLGRRCFEARICACPGRDRKADEDSI SPSNTDYPGPHSFDVSFQQSSTKSATWTYSTELKKLYCQIAKTCPIQIKVMTPPPQGAVIRAMPVYKKAEHVTEVVKRCPNHELSREFNEGQIAPPSHLIRVEGNSHAQYVEDPITGRQSVLVPYEPPQVGTEFTTVLYNFMCNSSCVGGMNRRPILIIVTLETRDGQVLGRRCFEARICACPGRDRKADEDS 3us2-a2-m1-cH_3us2-a2-m1-cI Structure of p63 DNA Binding Domain in Complex with a 19 Base Pair A/T Rich Response Element Containing Two Half Sites with a Single Base Pair Overlap Q9H3D4 Q9H3D4 4.2 X-RAY DIFFRACTION 38 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 182 193 3qym-a1-m1-cA_3qym-a1-m1-cD 3qym-a2-m1-cH_3qym-a2-m1-cE 3us2-a1-m1-cB_3us2-a1-m1-cC DYPGPHSFDVSFQTWTYSTELKKLYCQIAKTCPIQIKVMTPPPQGAVIRAMPVYKKAEHVTEVVKRCPNHELSREFNEGQIAPPSHLIRVEGNSHAQYVEDPITGRQSVLVPYEPPQVGTEFTTVLYNFMCNSSCVGGMNRRPILIIVTLETRDGQVLGRRCFEARICACPGRDRKADEDSI SPSNTDYPGPHSFDVSFQQSSTKSATWTYSTELKKLYCQIAKTCPIQIKVMTPPPQGAVIRAMPVYKKAEHVTEVVKRCPNHELSREFNEGQIAPPSHLIRVEGNSHAQYVEDPITGRQSVLVPYEPPQVGTEFTTVLYNFMCNSSCVGGMNRRPILIIVTLETRDGQVLGRRCFEARICACPGRDRKADEDS 3us4-a2-m1-cA_3us4-a2-m2-cA Crystal structure of a SH2 domain of a megakaryocyte-associated tyrosine kinase (MATK) from Homo sapiens at 1.50 A resolution P42679 P42679 1.5 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 LSLPWFHGKISGQEAVQQLQPPEDGLFLVRESARHPGDYVLCVSFGRDVIHYRVLHRDGHLTIDEAVFFCNLDVEHYSKDKGAICTKLVRPKRK LSLPWFHGKISGQEAVQQLQPPEDGLFLVRESARHPGDYVLCVSFGRDVIHYRVLHRDGHLTIDEAVFFCNLDVEHYSKDKGAICTKLVRPKRK 3us8-a1-m1-cA_3us8-a1-m1-cB Crystal Structure of an isocitrate dehydrogenase from Sinorhizobium meliloti 1021 Q92PG6 Q92PG6 2.25 X-RAY DIFFRACTION 247 0.997 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 393 393 AKIKVANPVVELDGDETRIIWQFIKDKLIHPYLDLDLEYYDLGVENRDATDDQVTIDAANAIKKHGVGVKCATITPDEGRVEEFKLKKWKSPNGTIRNILGGVIFREPIICKNVPRLVPGWTKPIIVGRHAFGDQYRATDFKFPGKGKLSIKFVGEDGQTIEHDVYDAPGAGVALAYNLDESITEFARASFNYGLQRKVPVYLSTKNTILKAYDGRFKDIFQKVFDEEFAAQFKAEKLWYEHRLIDDVASALKWSGGYVWACKNYDGDVQSDIVAQGFGSLGLTSVLTPDGKTVEAEAAHGTVTRHYRQHQKGEETSTNSIASIFAWTRGLAHRAKLDGNAELAKFSETLERVCVDTVESGFTKDLALLIGPDQPWLSTTGFLDKIDENLRKA KIKVANPVVELDGDETRIIWQFIKDKLIHPYLDLDLEYYDLGVENRDATDDQVTIDAANAIKKHGVGVKCATITPDEGRVEEFKLKKWKSPNGTIRNILGGVIFREPIICKNVPRLVPGWTKPIIVGRHAFGDQYRATDFKFPGKGKLSIKFVGEDGQTIEHDVYDAPGAGVALAYNLDESITEFARASFNYGLQRKVPVYLSTKNTILKAYDGRFKDIFQKVFDEEFAAQFKAEKLWYEHRLIDDVASALKWSGGYVWACKNYDGDVQSDIVAQGFGSLGLTSVLTPDGKTVEAEAAHGTVTRHYRQHQKGEETSTNSIASIFAWTRGLAHRAKLDGNAELAKFSETLERVCVDTVESGFTKDLALLIGPDQPWLSTTGFLDKIDENLRKAA 3usb-a3-m1-cB_3usb-a3-m9-cA Crystal Structure of Bacillus anthracis Inosine Monophosphate Dehydrogenase in the complex with IMP A0A6L8P2U9 A0A6L8P2U9 2.38 X-RAY DIFFRACTION 52 0.997 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 388 428 3usb-a3-m5-cB_3usb-a3-m8-cA 3usb-a3-m6-cB_3usb-a3-m11-cA 3usb-a3-m7-cB_3usb-a3-m10-cA NLYFQSNAWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGDTVTEADAIAARQGGLGIIHKNSIEQQAEQVDKVKRSESGVISDPFFLTPEGVPVIITNRDRFIISDVTKEQLITAPVGTTLSEAEKILQKYKIEKLPLLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADATRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDVKALAAGAHVVLGSFAGVAESPGETEIYQGRQFKVVPYKGPLADTVHQLVGGLRAGGYCGAQDLEFLRENAQFIRSGAGLL LYFQSNAWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGDTVTEADAIAARQGGLGIIHKNSIEQQAEQVDKVKRSESGVISDPFFLTPEHQVYDAEHLGKYRISGVPVVNNLDERKLVGIITNRDRFIQDYSIKISDVTKEQLITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADATRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDVKALAAGAHVVLGSFAGVAESPGETEIYQGRQFKVVPYKGPLADTVHQLVGGLRAGGYCGAQDLEFLRENAQFIRSGAGLL 3usb-a3-m11-cA_3usb-a3-m9-cA Crystal Structure of Bacillus anthracis Inosine Monophosphate Dehydrogenase in the complex with IMP A0A6L8P2U9 A0A6L8P2U9 2.38 X-RAY DIFFRACTION 119 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 428 428 3usb-a1-m1-cA_3usb-a1-m3-cA 3usb-a1-m1-cA_3usb-a1-m4-cA 3usb-a1-m2-cA_3usb-a1-m3-cA 3usb-a1-m2-cA_3usb-a1-m4-cA 3usb-a2-m1-cB_3usb-a2-m6-cB 3usb-a2-m1-cB_3usb-a2-m7-cB 3usb-a2-m5-cB_3usb-a2-m6-cB 3usb-a2-m5-cB_3usb-a2-m7-cB 3usb-a3-m10-cA_3usb-a3-m8-cA 3usb-a3-m10-cA_3usb-a3-m9-cA 3usb-a3-m11-cA_3usb-a3-m8-cA 3usb-a3-m1-cB_3usb-a3-m6-cB 3usb-a3-m1-cB_3usb-a3-m7-cB 3usb-a3-m5-cB_3usb-a3-m6-cB 3usb-a3-m5-cB_3usb-a3-m7-cB LYFQSNAWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGDTVTEADAIAARQGGLGIIHKNSIEQQAEQVDKVKRSESGVISDPFFLTPEHQVYDAEHLGKYRISGVPVVNNLDERKLVGIITNRDRFIQDYSIKISDVTKEQLITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADATRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDVKALAAGAHVVLGSFAGVAESPGETEIYQGRQFKVVPYKGPLADTVHQLVGGLRAGGYCGAQDLEFLRENAQFIRSGAGLL LYFQSNAWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGDTVTEADAIAARQGGLGIIHKNSIEQQAEQVDKVKRSESGVISDPFFLTPEHQVYDAEHLGKYRISGVPVVNNLDERKLVGIITNRDRFIQDYSIKISDVTKEQLITAPVGTTLSEAEKILQKYKIEKLPLVDNNGVLQGLITIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADATRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDVKALAAGAHVVLGSFAGVAESPGETEIYQGRQFKVVPYKGPLADTVHQLVGGLRAGGYCGAQDLEFLRENAQFIRSGAGLL 3uss-a1-m1-cA_3uss-a1-m1-cB Crystal structure of Cysteine dioxygenase from Pseudomonas aeruginosa Q9I0N5 Q9I0N5 2.7 X-RAY DIFFRACTION 96 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 196 196 SILRLDRLRQFIGELATLLDSRPDESTLLAQAHPLLAELVHQDDWLPEDCARPDPQRYQQYLLHVDSRQRFSVVSFVWGPGQITPVHDHRVWGLIGMLRGAEYSQPYAFDAGGRPHPSGARRRLEPGEVEALSPRIGDVHQVSNAFSDRTSISIHVYGANIGAVRRAVFSAEGEEKPFISGYSNSRLPNIWDLSKE SILRLDRLRQFIGELATLLDSRPDESTLLAQAHPLLAELVHQDDWLPEDCARPDPQRYQQYLLHVDSRQRFSVVSFVWGPGQITPVHDHRVWGLIGMLRGAEYSQPYAFDAGGRPHPSGARRRLEPGEVEALSPRIGDVHQVSNAFSDRTSISIHVYGANIGAVRRAVFSAEGEEKPFISGYSNSRLPNIWDLSKE 3ust-a1-m1-cA_3ust-a1-m2-cA Structure of BmNPV ORF075 (p33) O92452 O92452 2.1 X-RAY DIFFRACTION 59 1.0 271108 (Bombyx mori nucleopolyhedrovirus) 271108 (Bombyx mori nucleopolyhedrovirus) 232 232 SSIPLTPLFSRYKDSYLLYSFRLIDLLRASKSAHLTKLLSSQATYLYHFACLKYKDIQKYEVQQLIEWAINASPDDLQQFRIEFDKTTELNLRSCQPKSFTYTFTTIWDTHFLSLIIDDVYTRDKSSLDFVQQLKTKVLFYNVFFILQCACRDHYNVKGFLIYHIELIEIALDKEKYGTDITFVDSYNNLKNLAYVITFHNHVNDYKWIQRNQKPPAHYERTWGEYKKLLNL SSIPLTPLFSRYKDSYLLYSFRLIDLLRASKSAHLTKLLSSQATYLYHFACLKYKDIQKYEVQQLIEWAINASPDDLQQFRIEFDKTTELNLRSCQPKSFTYTFTTIWDTHFLSLIIDDVYTRDKSSLDFVQQLKTKVLFYNVFFILQCACRDHYNVKGFLIYHIELIEIALDKEKYGTDITFVDSYNNLKNLAYVITFHNHVNDYKWIQRNQKPPAHYERTWGEYKKLLNL 3usu-a1-m1-cB_3usu-a1-m1-cC Crystal structure of Butea monosperma seed lectin H2L2M6 H2L2M6 2.46 X-RAY DIFFRACTION 66 0.992 56060 (Butea monosperma) 56060 (Butea monosperma) 242 250 3usu-a1-m1-cD_3usu-a1-m1-cA 3usu-a2-m1-cF_3usu-a2-m1-cG 3usu-a2-m1-cH_3usu-a2-m1-cE 4m3c-a1-m1-cB_4m3c-a1-m1-cC 4m3c-a1-m1-cD_4m3c-a1-m1-cA TTNTDSFTFSKFKPNQPNLKKQGDATVTSSGTLQLTKVDKNGVPDPKSLGRALYASPINIWDSKTGVVASFATSFRFTIYAPNIATIADGLAFFLAPVSSPPKAGAGFLGLFDSAVFNSSYQTVAVEFDTYENTVFLDPPDTHIGIDVNSIKSIKTVKWDLANGEAAKVLITYDSSAKLLVAALVYPSSKTSFILSDVVDLKSVLPEWVSIGFSAATGASSGYIETHDVFSWSFASKLSFAA TTNTDSFTFSKFKPNQPNLKKQGDATVTSSGTLQLTKVDKNGVPDPKSLGRALYASPINIWDSKTGVVASFATSFRFTIYAPNIATIADGLAFFLAPVSSPPKAGAGFLGLFDSAVFNSSYQTVAVEFDTYENTVFLDPPDTHIGIDVNSIKSIKTVKWDLANGEAAKVLITYDSSAKLLVAALVYPSSKTSFILSDVVDLKSVLPEWVSIGFSAATGASSGYIETHDVFSWSFASKLSFLDLASFLVAN 3usu-a1-m1-cD_3usu-a1-m1-cC Crystal structure of Butea monosperma seed lectin H2L2M6 H2L2M6 2.46 X-RAY DIFFRACTION 80 0.992 56060 (Butea monosperma) 56060 (Butea monosperma) 242 250 3usu-a1-m1-cB_3usu-a1-m1-cA 3usu-a2-m1-cF_3usu-a2-m1-cE 3usu-a2-m1-cH_3usu-a2-m1-cG 4m3c-a1-m1-cB_4m3c-a1-m1-cA 4m3c-a1-m1-cD_4m3c-a1-m1-cC TTNTDSFTFSKFKPNQPNLKKQGDATVTSSGTLQLTKVDKNGVPDPKSLGRALYASPINIWDSKTGVVASFATSFRFTIYAPNIATIADGLAFFLAPVSSPPKAGAGFLGLFDSAVFNSSYQTVAVEFDTYENTVFLDPPDTHIGIDVNSIKSIKTVKWDLANGEAAKVLITYDSSAKLLVAALVYPSSKTSFILSDVVDLKSVLPEWVSIGFSAATGASSGYIETHDVFSWSFASKLSFAA TTNTDSFTFSKFKPNQPNLKKQGDATVTSSGTLQLTKVDKNGVPDPKSLGRALYASPINIWDSKTGVVASFATSFRFTIYAPNIATIADGLAFFLAPVSSPPKAGAGFLGLFDSAVFNSSYQTVAVEFDTYENTVFLDPPDTHIGIDVNSIKSIKTVKWDLANGEAAKVLITYDSSAKLLVAALVYPSSKTSFILSDVVDLKSVLPEWVSIGFSAATGASSGYIETHDVFSWSFASKLSFLDLASFLVAN 3usy-a4-m1-cB_3usy-a4-m3-cB Crystal structure of Flig (residue 116-343) from H. Pylori O25119 O25119 2.706 X-RAY DIFFRACTION 213 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 226 226 3usy-a3-m1-cA_3usy-a3-m2-cA GPLGSMQKNFAYLGKIKPQQLADFIINEHPQTIALILAHMEAPNAAETLSYFPDEMKAEISIRMANLGEISPQVVKRVSTVLENKLESLTSYKIEVGGLRAVAEIFNRLGQKSAKTTLARIESVDNKLAGAIKEMMFTFEDIVKLDNFAIREILKVADKKDLSLALKTSTKDLTDKFLNNMSSRAAEQFVEEMQYLGAVKIKDVDVAQRKIIEIVQSLQEKGVIQT GPLGSMQKNFAYLGKIKPQQLADFIINEHPQTIALILAHMEAPNAAETLSYFPDEMKAEISIRMANLGEISPQVVKRVSTVLENKLESLTSYKIEVGGLRAVAEIFNRLGQKSAKTTLARIESVDNKLAGAIKEMMFTFEDIVKLDNFAIREILKVADKKDLSLALKTSTKDLTDKFLNNMSSRAAEQFVEEMQYLGAVKIKDVDVAQRKIIEIVQSLQEKGVIQT 3ut1-a1-m1-cA_3ut1-a1-m2-cA Crystal structure of the 3-MBT repeat domain of L3MBTL3 Q96JM7 Q96JM7 2.05 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 313 313 AWCWASYLEEEKAVAVPAKLFKEHQSFPYNKNGFKVGMKLEGVDPEHQSVYCVLTVAEVCGYRIKLHFDGYSDCYDFWVNADALDIHPVGWCEKTGHKLHPPKGYKEEEFNWQTYLKTCKAQAAPKSLFENQNITVIPSGFRVGMKLEAVDKKNPSFICVATVTDMVDNRFLVHFDNWDESYDYWCEASSPHIHPVGWCKEHRRTLITPPGYVKHFSWDKYLEETNSLPAPARAFKVKPPHGFQKKMKLEVVDKRNPMFIRVATVADTDDHRVKVHFDGWNNCYDYWIDADSPDIHPVGWCSKTGHPLQPPLS AWCWASYLEEEKAVAVPAKLFKEHQSFPYNKNGFKVGMKLEGVDPEHQSVYCVLTVAEVCGYRIKLHFDGYSDCYDFWVNADALDIHPVGWCEKTGHKLHPPKGYKEEEFNWQTYLKTCKAQAAPKSLFENQNITVIPSGFRVGMKLEAVDKKNPSFICVATVTDMVDNRFLVHFDNWDESYDYWCEASSPHIHPVGWCKEHRRTLITPPGYVKHFSWDKYLEETNSLPAPARAFKVKPPHGFQKKMKLEVVDKRNPMFIRVATVADTDDHRVKVHFDGWNNCYDYWIDADSPDIHPVGWCSKTGHPLQPPLS 3ut4-a1-m1-cA_3ut4-a1-m1-cB Structural view of a non Pfam singleton and crystal packing analysis A3DJ21 A3DJ21 2.03 X-RAY DIFFRACTION 52 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 128 128 3ut7-a1-m1-cA_3ut7-a1-m2-cA 3ut8-a1-m1-cA_3ut8-a1-m1-cB TSLRDLIPKHKFDNSTIDQLCKLIDNEIEPIIFDLLKWLQDYNWPIAKDILPVVVLHQSIAMPHILTILQGNDIMWKYWVIKLMIPYLIYPNKQLVKSELERLSSLEIINEDIREIVNLSKDYLHFYY TSLRDLIPKHKFDNSTIDQLCKLIDNEIEPIIFDLLKWLQDYNWPIAKDILPVVVLHQSIAMPHILTILQGNDIMWKYWVIKLMIPYLIYPNKQLVKSELERLSSLEIINEDIREIVNLSKDYLHFYY 3utz-a4-m1-cF_3utz-a4-m1-cC Endogenous-like inhibitory antibodies targeting activated metalloproteinase motifs show therapeutic potential 2.18 X-RAY DIFFRACTION 30 0.995 10090 (Mus musculus) 10090 (Mus musculus) 213 214 EVKLVESGGGLVKPGGSLKLSCAASGFAFSTYDMSWIRQTPEKRLEWVATISSGGSYTYYPDSVKGRFTISKDNARNTLYLQMSSLRSGDTALYYCTRFRYDGWYFDVWGQGTTVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP EVKLVESGGGLVKPGGSLKLSCAASGFAFSTYDMSWIRQTPEKRLEWVATISSGGYTYYPDSVKGRFTISKDNARNTLYLQMSSLRSGDTALYYCTRFRYDGWYFDVWGQGTTVTVSSASTKGPSVFPLAPSSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP 3uu2-a1-m1-cB_3uu2-a1-m1-cC Salmonella typhi osmoporin(OmpC):an Outer Membrane Protein P0A264 P0A264 3.59 X-RAY DIFFRACTION 114 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 298 298 3upg-a1-m1-cA_3upg-a1-m2-cA 3upg-a1-m1-cA_3upg-a1-m3-cA 3upg-a1-m2-cA_3upg-a1-m3-cA 3uu2-a1-m1-cA_3uu2-a1-m1-cB 3uu2-a1-m1-cA_3uu2-a1-m1-cC AEIYNKDGNKLDLFGKVDGLHYFSDDKGSDGDQTYMRIGFKGETQVNDQLTGYGQWEYQIQGNQTEGSNDSWTRVAFAGLKFADAGSFDYGRNYGVTYDVTSWTDVLPEFGGDTYGADNFMQQRGNGYATYRNTDFFGLVDGLDFALQYQGKGDGYGGSLTYAIGEGFSVGGAITTSKATVYTGGLKYDANNIYLAAQYSQTYAQNFEVVAQYQFDFGLRPSVAYLQSKGKDISNGYGASYGDQDIVKYVDVGATYYFNKNMSTYVDYKINLLDKNDFTRDAGINTDDIVALGLVYQF AEIYNKDGNKLDLFGKVDGLHYFSDDKGSDGDQTYMRIGFKGETQVNDQLTGYGQWEYQIQGNQTEGSNDSWTRVAFAGLKFADAGSFDYGRNYGVTYDVTSWTDVLPEFGGDTYGADNFMQQRGNGYATYRNTDFFGLVDGLDFALQYQGKGDGYGGSLTYAIGEGFSVGGAITTSKATVYTGGLKYDANNIYLAAQYSQTYAQNFEVVAQYQFDFGLRPSVAYLQSKGKDISNGYGASYGDQDIVKYVDVGATYYFNKNMSTYVDYKINLLDKNDFTRDAGINTDDIVALGLVYQF 3uun-a3-m1-cB_3uun-a3-m1-cA Crystal Structure of N-terminal first spectrin repeat of dystrophin P11532 P11532 2.3 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 116 VNLDRYQTALEEVLSWLLSAEDTLQAQGEISNDVEVVKDQFHTHEGYMMDLTAHQGRVGNILQLGSKLIGTGKLSEDEETEVQEQMNLLNSRWECLRVASMEKQSNLHRVLMDL EVNLDRYQTALEEVLSWLLSAEDTLQAQGEISNDVEVVKDQFHTHEGYMMDLTAHQGRVGNILQLGSKLIGTGKLSEDEETEVQEQMNLLNSRWECLRVASMEKQSNLHRVLMDLQ 3uuw-a1-m1-cB_3uuw-a1-m1-cD 1.63 Angstrom Resolution Crystal Structure of Dehydrogenase (MviM) from Clostridium difficile. Q180U8 Q180U8 1.63 X-RAY DIFFRACTION 53 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 303 303 3uuw-a1-m1-cC_3uuw-a1-m1-cA KNIKMGMIGLGSIAQKAYLPILTKSERFEFVGAFTPNKVKREKICSDYRIMPFDSIESLAKKCDCIFLHSSTETHYEIIKILLNLGVHVYVDKPLASTVSQGEELIELSTKKNLNLMVGFNRRFCPMYKEIKNNATEIVSINICKHGLNSLRNVRFDSTLIDDYIHVIDTALWLANEDVEISGEDLFLTDNKNLIFVSHKLKGKNFSINTSMHRDSGTKLEQVEILSKGKIQRVKNLNVLEIEEGGNLTLKQSGAWVNILKQKGFEDISNHFIDCIENNIKPAINGEECIKAQRLLEKIINSV KNIKMGMIGLGSIAQKAYLPILTKSERFEFVGAFTPNKVKREKICSDYRIMPFDSIESLAKKCDCIFLHSSTETHYEIIKILLNLGVHVYVDKPLASTVSQGEELIELSTKKNLNLMVGFNRRFCPMYKEIKNNATEIVSINICKHGLNSLRNVRFDSTLIDDYIHVIDTALWLANEDVEISGEDLFLTDNKNLIFVSHKLKGKNFSINTSMHRDSGTKLEQVEILSKGKIQRVKNLNVLEIEEGGNLTLKQSGAWVNILKQKGFEDISNHFIDCIENNIKPAINGEECIKAQRLLEKIINSV 3uuw-a1-m1-cC_3uuw-a1-m1-cD 1.63 Angstrom Resolution Crystal Structure of Dehydrogenase (MviM) from Clostridium difficile. Q180U8 Q180U8 1.63 X-RAY DIFFRACTION 105 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 303 303 3uuw-a1-m1-cB_3uuw-a1-m1-cA KNIKMGMIGLGSIAQKAYLPILTKSERFEFVGAFTPNKVKREKICSDYRIMPFDSIESLAKKCDCIFLHSSTETHYEIIKILLNLGVHVYVDKPLASTVSQGEELIELSTKKNLNLMVGFNRRFCPMYKEIKNNATEIVSINICKHGLNSLRNVRFDSTLIDDYIHVIDTALWLANEDVEISGEDLFLTDNKNLIFVSHKLKGKNFSINTSMHRDSGTKLEQVEILSKGKIQRVKNLNVLEIEEGGNLTLKQSGAWVNILKQKGFEDISNHFIDCIENNIKPAINGEECIKAQRLLEKIINSV KNIKMGMIGLGSIAQKAYLPILTKSERFEFVGAFTPNKVKREKICSDYRIMPFDSIESLAKKCDCIFLHSSTETHYEIIKILLNLGVHVYVDKPLASTVSQGEELIELSTKKNLNLMVGFNRRFCPMYKEIKNNATEIVSINICKHGLNSLRNVRFDSTLIDDYIHVIDTALWLANEDVEISGEDLFLTDNKNLIFVSHKLKGKNFSINTSMHRDSGTKLEQVEILSKGKIQRVKNLNVLEIEEGGNLTLKQSGAWVNILKQKGFEDISNHFIDCIENNIKPAINGEECIKAQRLLEKIINSV 3uuw-a1-m1-cD_3uuw-a1-m1-cA 1.63 Angstrom Resolution Crystal Structure of Dehydrogenase (MviM) from Clostridium difficile. Q180U8 Q180U8 1.63 X-RAY DIFFRACTION 18 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 303 304 3uuw-a1-m1-cB_3uuw-a1-m1-cC KNIKMGMIGLGSIAQKAYLPILTKSERFEFVGAFTPNKVKREKICSDYRIMPFDSIESLAKKCDCIFLHSSTETHYEIIKILLNLGVHVYVDKPLASTVSQGEELIELSTKKNLNLMVGFNRRFCPMYKEIKNNATEIVSINICKHGLNSLRNVRFDSTLIDDYIHVIDTALWLANEDVEISGEDLFLTDNKNLIFVSHKLKGKNFSINTSMHRDSGTKLEQVEILSKGKIQRVKNLNVLEIEEGGNLTLKQSGAWVNILKQKGFEDISNHFIDCIENNIKPAINGEECIKAQRLLEKIINSV KNIKMGMIGLGSIAQKAYLPILTKSERFEFVGAFTPNKVKREKICSDYRIMPFDSIESLAKKCDCIFLHSSTETHYEIIKILLNLGVHVYVDKPLASTVSQGEELIELSTKKNLNLMVGFNRRFCPMYKEIKNNATEIVSINICKHGLNSLRNVRFDSTLIDDYIHVIDTALWLANEDVEISGEDLFLTDNKNLIFVSHKLKGKNFSINTSMHRDSGTKLEQVEILSKGKIQRVKNLNVLEIEEGGNLTLKQSGAWVNILKQKGFEDISNHFIDCIENNIKPAINGEECIKAQRLLEKIINSVK 3uux-a3-m1-cB_3uux-a3-m3-cB Crystal structure of yeast Fis1 in complex with Mdv1 fragment containing N-terminal extension and coiled coil domains P47025 P47025 3.9 X-RAY DIFFRACTION 143 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 132 132 3uux-a2-m1-cD_3uux-a2-m2-cD DNKTCFRMLTYISDDLLNEIPKETSLFQGFKSYLPIAELAIEGVETAAISSSYSPSALKSFSQTLVNSLEFLNIQKNSTLSEIRDIEVEVENLRQKKEKLLGKIANIEQNQLLLEDNLKQIDDRLDFLEEYG DNKTCFRMLTYISDDLLNEIPKETSLFQGFKSYLPIAELAIEGVETAAISSSYSPSALKSFSQTLVNSLEFLNIQKNSTLSEIRDIEVEVENLRQKKEKLLGKIANIEQNQLLLEDNLKQIDDRLDFLEEYG 3uv0-a1-m1-cA_3uv0-a1-m1-cB Crystal structure of the drosophila MU2 FHA domain Q9W061 Q9W061 1.9 X-RAY DIFFRACTION 60 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 97 99 DVSLFFGGLPAILLKADTIYRIGRQKGLEISIADESMELAHATACILRRGVVRLAALVGKIFVNDQEETVVDIGMENAVAGKVKLRFGNVEARLEFG MADVSLFFGGLPAILLKADTIYRIGRQKGLEISIADESMELAHATACILRRGVVRLAALVGKIFVNDQEETVVDIGMENAVAGKVKLRFGNVEARLEFG 3uv1-a1-m1-cA_3uv1-a1-m1-cB Crystal structure a major allergen from dust mite Q26456 Q26456 2 X-RAY DIFFRACTION 103 1.0 6954 (Dermatophagoides farinae) 6954 (Dermatophagoides farinae) 184 184 DKITEEINKAIDDAIAAIEQSETIDPKVPDHADKFERHVGILDFKGELARNIEARGLKQKRQGDANVKGEEGIVKAHLLIGVHDDIVSEYDLAYKLGDLHPTTHVISDIQDFVVALSLEIPDEGNITTSFEVRQFANVVNHIGGLSILDPIFGVLSDVLTAIFQDTVRKETKVLAPAFKRELEK DKITEEINKAIDDAIAAIEQSETIDPKVPDHADKFERHVGILDFKGELARNIEARGLKQKRQGDANVKGEEGIVKAHLLIGVHDDIVSEYDLAYKLGDLHPTTHVISDIQDFVVALSLEIPDEGNITTSFEVRQFANVVNHIGGLSILDPIFGVLSDVLTAIFQDTVRKETKVLAPAFKRELEK 3uv9-a2-m2-cA_3uv9-a2-m3-cA Structure of the rhesus monkey TRIM5alpha deltav1 PRYSPRY domain Q0PF16 Q0PF16 1.549 X-RAY DIFFRACTION 127 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 183 183 3uv9-a2-m1-cA_3uv9-a2-m2-cA 3uv9-a2-m1-cA_3uv9-a2-m3-cA TELTDARRYWVDVTLATNNISHAVIAEDKRQVSSRAGTGVLGSQSITSGKHYWEVDVSKKSAWILGVCAGFQSDAMYNIEQNENYQPKYGYWVIGLQEGVKYSVFQDGSSHTPFAPFIVPLSVIICPDRVGVFVDYEACTVSFFNITNHGFLIYKFSQCSFSKPVFPYLNPRKCTVPMTLCSP TELTDARRYWVDVTLATNNISHAVIAEDKRQVSSRAGTGVLGSQSITSGKHYWEVDVSKKSAWILGVCAGFQSDAMYNIEQNENYQPKYGYWVIGLQEGVKYSVFQDGSSHTPFAPFIVPLSVIICPDRVGVFVDYEACTVSFFNITNHGFLIYKFSQCSFSKPVFPYLNPRKCTVPMTLCSP 3uve-a1-m1-cA_3uve-a1-m1-cD Crystal structure of Carveol dehydrogenase ((+)-trans-carveol dehydrogenase) from Mycobacterium avium A0A0H2ZTN5 A0A0H2ZTN5 1.55 X-RAY DIFFRACTION 94 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 281 281 3uve-a1-m1-cB_3uve-a1-m1-cC TGRVEGKVAFVTGAARGQGRSHAVRLAQEGADIIAVDICKPIRAGVVDTAIPASTPEDLAETADLVKGHNRRIVTAEVDVRDYDALKAAVDSGVEQLGRLDIIVANAGIGNGGDTLDKTSEEDWTEMIDINLAGVWKTVKAGVPHMIAGGRGGSIILTSSVGGLKAYPHTGHYVAAKHGVVGLMRAFGVELGQHMIRVNSVHPTHVKTPMLHNEGTFKMFRPDLENPGPDDMAPICQMFHTLPIPWVEPIDISNAVLFFASDEARYITGVTLPIDAGSCLK TGRVEGKVAFVTGAARGQGRSHAVRLAQEGADIIAVDICKPIRAGVVDTAIPASTPEDLAETADLVKGHNRRIVTAEVDVRDYDALKAAVDSGVEQLGRLDIIVANAGIGNGGDTLDKTSEEDWTEMIDINLAGVWKTVKAGVPHMIAGGRGGSIILTSSVGGLKAYPHTGHYVAAKHGVVGLMRAFGVELGQHMIRVNSVHPTHVKTPMLHNEGTFKMFRPDLENPGPDDMAPICQMFHTLPIPWVEPIDISNAVLFFASDEARYITGVTLPIDAGSCLK 3uve-a1-m1-cC_3uve-a1-m1-cD Crystal structure of Carveol dehydrogenase ((+)-trans-carveol dehydrogenase) from Mycobacterium avium A0A0H2ZTN5 A0A0H2ZTN5 1.55 X-RAY DIFFRACTION 124 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 281 281 3uve-a1-m1-cA_3uve-a1-m1-cB TGRVEGKVAFVTGAARGQGRSHAVRLAQEGADIIAVDICKPIRAGVVDTAIPASTPEDLAETADLVKGHNRRIVTAEVDVRDYDALKAAVDSGVEQLGRLDIIVANAGIGNGGDTLDKTSEEDWTEMIDINLAGVWKTVKAGVPHMIAGGRGGSIILTSSVGGLKAYPHTGHYVAAKHGVVGLMRAFGVELGQHMIRVNSVHPTHVKTPMLHNEGTFKMFRPDLENPGPDDMAPICQMFHTLPIPWVEPIDISNAVLFFASDEARYITGVTLPIDAGSCLK TGRVEGKVAFVTGAARGQGRSHAVRLAQEGADIIAVDICKPIRAGVVDTAIPASTPEDLAETADLVKGHNRRIVTAEVDVRDYDALKAAVDSGVEQLGRLDIIVANAGIGNGGDTLDKTSEEDWTEMIDINLAGVWKTVKAGVPHMIAGGRGGSIILTSSVGGLKAYPHTGHYVAAKHGVVGLMRAFGVELGQHMIRVNSVHPTHVKTPMLHNEGTFKMFRPDLENPGPDDMAPICQMFHTLPIPWVEPIDISNAVLFFASDEARYITGVTLPIDAGSCLK 3uw1-a1-m1-cA_3uw1-a1-m2-cA Crystal structure of ribose-5-phosphate isomerase a from burkholderia thailandensis with ribose-5-phosphate Q2SVL4 Q2SVL4 1.71 X-RAY DIFFRACTION 87 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 232 232 3u7j-a1-m1-cA_3u7j-a1-m2-cA LLMTQDELKRLVGEAAARYVTDNVPQGAVIGVGTGSTANCFIDALAAVKDRYRGAVSSSVATTERLKSHGIRVFDLNEIESLQVYVDGADEIDESGAMIKGGGGALTREKIVASVAETFVCIADASKRVAMLGQFPLPVEVVPMARTAIGRRLAALGGVPVLRVKQDGTPYVTDNGNEILDVKGLRIDDPRALEAAINGWPGVVTVGLFAQRGADLCLLGTEHGVETLRYAA LLMTQDELKRLVGEAAARYVTDNVPQGAVIGVGTGSTANCFIDALAAVKDRYRGAVSSSVATTERLKSHGIRVFDLNEIESLQVYVDGADEIDESGAMIKGGGGALTREKIVASVAETFVCIADASKRVAMLGQFPLPVEVVPMARTAIGRRLAALGGVPVLRVKQDGTPYVTDNGNEILDVKGLRIDDPRALEAAINGWPGVVTVGLFAQRGADLCLLGTEHGVETLRYAA 3uw1-a2-m1-cA_3uw1-a2-m3-cA Crystal structure of ribose-5-phosphate isomerase a from burkholderia thailandensis with ribose-5-phosphate Q2SVL4 Q2SVL4 1.71 X-RAY DIFFRACTION 82 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 232 232 3u7j-a2-m1-cA_3u7j-a2-m3-cA LLMTQDELKRLVGEAAARYVTDNVPQGAVIGVGTGSTANCFIDALAAVKDRYRGAVSSSVATTERLKSHGIRVFDLNEIESLQVYVDGADEIDESGAMIKGGGGALTREKIVASVAETFVCIADASKRVAMLGQFPLPVEVVPMARTAIGRRLAALGGVPVLRVKQDGTPYVTDNGNEILDVKGLRIDDPRALEAAINGWPGVVTVGLFAQRGADLCLLGTEHGVETLRYAA LLMTQDELKRLVGEAAARYVTDNVPQGAVIGVGTGSTANCFIDALAAVKDRYRGAVSSSVATTERLKSHGIRVFDLNEIESLQVYVDGADEIDESGAMIKGGGGALTREKIVASVAETFVCIADASKRVAMLGQFPLPVEVVPMARTAIGRRLAALGGVPVLRVKQDGTPYVTDNGNEILDVKGLRIDDPRALEAAINGWPGVVTVGLFAQRGADLCLLGTEHGVETLRYAA 3uw3-a1-m1-cA_3uw3-a1-m1-cB Crystal Structure of an Aspartate-Semialdehyde Dehydrogenase from Burkholderia Thailandensis Q2T7H5 Q2T7H5 1.55 X-RAY DIFFRACTION 248 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 374 375 GSMNVGLVGWRGMVGSVLMQRMQEEGDFDLIEPVFFSTSNAGGKAPSFAKNETTLKDATSIDDLKKCDVIITCQGGDYTNDVFPKLRAAGWNGYWIDAASSLRMKDDAVIILDPVNLNVIKDALVNGTKNFIGGNCTVSLMLMALGGLFRENLVDWMTAMTYQAASGAGAQNMRELLAQMGTLNGAVAAQLADPASAILDIDRRVLAAMNGDAMPTSQFGVPLAGSLIPWIDKDLGNGMSREEWKGGAETNKILGKPAMGEPGSVPVDGLCVRIGAMRCHSQALTIKLKKDVPLDEINGILASANDWVKVVPNEREASMRDLSPAKVTGTLSVPVGRLRKLAMGGEYLSAFTVGDQLLWGAAEPLRRMLRILLD GSMNVGLVGWRGMVGSVLMQRMQEEGDFDLIEPVFFSTSNAGGKAPSFAKNETTLKDATSIDDLKKCDVIITCQGGDYTNDVFPKLRAAGWNGYWIDAASSLRMKDDAVIILDPVNLNVIKDALVNGTKNFIGGNCTVSLMLMALGGLFRENLVDWMTAMTYQAASGAGAQNMRELLAQMGTLNGAVAAQLADPASAILDIDRRVLAAMNGDAMPTSQFGVPLAGSLIPWIDKDLGNGMSREEWKGGAETNKILGKPAMGEPGSVPVDGLCVRIGAMRCHSQALTIKLKKDVPLDEINGILASANDWVKVVPNEREASMRDLSPAKVTGTLSVPVGRLRKLAMGGEYLSAFTVGDQLLWGAAEPLRRMLRILLDK 3uw6-a1-m4-cC_3uw6-a1-m1-cA Crystal Structure of Engineered Protein, Northeast Structural Genomics Consortium Target OR120 P10724 P10724 2.3 X-RAY DIFFRACTION 17 0.997 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 361 362 3uw6-a1-m1-cB_3uw6-a1-m4-cB 3uw6-a1-m1-cC_3uw6-a1-m2-cA NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIASVCGNAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVTGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLYDTGGSLGVKDEEETKRIVALIERHPHFVLEGLWTWFATYFSYQYTRFLHLEWLPSRPPLVHCANSAASLRFPDRTFNVQFGIAYGLAPSLPYPLKEAFSLHSRLVHVKKLQPGEKVSFGATYTAQTEEWIGTIPIGYKDGWLRRLQHFHVLVDGQKAPIVGRILGDCIRLPGPLPVGTKVTLIGRQGDKVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIEVRNAIGRG NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIASVCGNAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVTGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLYDTGGSLGVKDEEETKRIVALIERHPHFVLEGLWTWFATYFSYQYTRFLHLEWLPSRPPLVHCANSAASLRFPDRTFNVQFGIAYGLAPSPGPYPLKEAFSLHSRLVHVKKLQPGEKVSFGATYTAQTEEWIGTIPIGYKDGWLRRLQHFHVLVDGQKAPIVGRILGDCIRLPGPLPVGTKVTLIGRQGDKVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIEVRNAIGRG 3uw6-a1-m4-cC_3uw6-a1-m2-cA Crystal Structure of Engineered Protein, Northeast Structural Genomics Consortium Target OR120 P10724 P10724 2.3 X-RAY DIFFRACTION 12 0.997 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 361 362 3uw6-a1-m1-cA_3uw6-a1-m4-cB 3uw6-a1-m1-cB_3uw6-a1-m2-cA 3uw6-a1-m1-cC_3uw6-a1-m1-cA 3uw6-a1-m1-cC_3uw6-a1-m4-cB 3uw6-a1-m4-cC_3uw6-a1-m1-cB NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIASVCGNAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVTGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLYDTGGSLGVKDEEETKRIVALIERHPHFVLEGLWTWFATYFSYQYTRFLHLEWLPSRPPLVHCANSAASLRFPDRTFNVQFGIAYGLAPSLPYPLKEAFSLHSRLVHVKKLQPGEKVSFGATYTAQTEEWIGTIPIGYKDGWLRRLQHFHVLVDGQKAPIVGRILGDCIRLPGPLPVGTKVTLIGRQGDKVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIEVRNAIGRG NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIASVCGNAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVTGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLYDTGGSLGVKDEEETKRIVALIERHPHFVLEGLWTWFATYFSYQYTRFLHLEWLPSRPPLVHCANSAASLRFPDRTFNVQFGIAYGLAPSPGPYPLKEAFSLHSRLVHVKKLQPGEKVSFGATYTAQTEEWIGTIPIGYKDGWLRRLQHFHVLVDGQKAPIVGRILGDCIRLPGPLPVGTKVTLIGRQGDKVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIEVRNAIGRG 3uw6-a3-m1-cC_3uw6-a3-m1-cB Crystal Structure of Engineered Protein, Northeast Structural Genomics Consortium Target OR120 P10724 P10724 2.3 X-RAY DIFFRACTION 193 0.997 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 361 362 3uw6-a1-m1-cA_3uw6-a1-m2-cA 3uw6-a1-m1-cC_3uw6-a1-m1-cB 3uw6-a1-m4-cC_3uw6-a1-m4-cB 3uw6-a2-m1-cA_3uw6-a2-m5-cA NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIASVCGNAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVTGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLYDTGGSLGVKDEEETKRIVALIERHPHFVLEGLWTWFATYFSYQYTRFLHLEWLPSRPPLVHCANSAASLRFPDRTFNVQFGIAYGLAPSLPYPLKEAFSLHSRLVHVKKLQPGEKVSFGATYTAQTEEWIGTIPIGYKDGWLRRLQHFHVLVDGQKAPIVGRILGDCIRLPGPLPVGTKVTLIGRQGDKVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIEVRNAIGRG NDFHRDTWAEVDLDAIYDNVENLRRLLPDDTHIASVCGNAYGHGDVQVARTALEAGASRLAVAFLDEALALREKGIEAPILVTGASRPADAALAAQQRIALTVFRSDWLEEASALYSGPFPIHFHLYDTGGSLGVKDEEETKRIVALIERHPHFVLEGLWTWFATDYFSYQYTRFLHLEWLPSRPPLVHCANSAASLRFPDRTFNVQFGIAYGLAPSPPYPLKEAFSLHSRLVHVKKLQPGEKVSFGATYTAQTEEWIGTIPIGYKDGWLRRLQHFHVLVDGQKAPIVGRILGDCIRLPGPLPVGTKVTLIGRQGDKVISIDDVARHLETINYEVPCTISYRVPRIFFRHKRIEVRNAIGRG 3uw9-a1-m1-cC_3uw9-a1-m1-cA Crystal Structure of the first bromodomain of human BRD4 in complex with a diacetylated histone 4 peptide (H4K8acK12ac) O60885 O60885 2.3 X-RAY DIFFRACTION 10 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 112 124 PKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTE MNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPT 3uwc-a2-m1-cA_3uwc-a2-m2-cA Structure of an aminotransferase (DegT-DnrJ-EryC1-StrS family) from Coxiella burnetii in complex with PMP B5U8Q1 B5U8Q1 1.8 X-RAY DIFFRACTION 149 1.0 777 (Coxiella burnetii) 777 (Coxiella burnetii) 362 362 RVPYSYLERQFADIEPYLNDLREFIKTADFTLGAELEKFEKRFAALHNAPHAIGVGTGTDALASFKLNIGAGDEVITCANTFIASVGAIVQAGATPVLVDSENGYVIDPEKIEAAITDKTKAIPVHYTGNIADPALAKIAKKHNLHIVEDACQTILGRINDKFVGSWGQFACFSLHPLKNLNVWSDAGVIITHSDEYAEKLRLYRNHGLINRDVCVEYGINCRDTIQAVIANRLNQLETITEKRRGIAHLYDQSFVDLSEFIDVPVRREGVYHVFHIYVLRVKYRDQLFQYLKDNGIEVKIHYPIAHLQPAAKSLGYQQGDFPAEKHGEAVITLPAHPYLTEEEINYIIKKVREFYLEKHYN RVPYSYLERQFADIEPYLNDLREFIKTADFTLGAELEKFEKRFAALHNAPHAIGVGTGTDALASFKLNIGAGDEVITCANTFIASVGAIVQAGATPVLVDSENGYVIDPEKIEAAITDKTKAIPVHYTGNIADPALAKIAKKHNLHIVEDACQTILGRINDKFVGSWGQFACFSLHPLKNLNVWSDAGVIITHSDEYAEKLRLYRNHGLINRDVCVEYGINCRDTIQAVIANRLNQLETITEKRRGIAHLYDQSFVDLSEFIDVPVRREGVYHVFHIYVLRVKYRDQLFQYLKDNGIEVKIHYPIAHLQPAAKSLGYQQGDFPAEKHGEAVITLPAHPYLTEEEINYIIKKVREFYLEKHYN 3uwd-a2-m1-cA_3uwd-a2-m2-cA Crystal Structure of Phosphoglycerate Kinase from Bacillus Anthracis Q81X75 Q81X75 1.68 X-RAY DIFFRACTION 28 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 380 380 NKKSIRDVDLKGKRVFCRVDFNVPGKITDETRIRAALPTIQYLVEQGAKVILASHLGRPKGQAVEELRLTPVAARLGELLGKDVKKADEAFGPVAQEVAANEGDVLVLENVRFYAGEEKNDAELAKEFAALADIFVNDAFGAAHRAHASTAGIADYLPAVSGLLEKELEVLGKALSNPERPFAAIIGGAKVKDKIGLIRHLLDKVDNLIIGGGLAYTFVKALGHEIGLSLCEDDKIELAKEFQLAKEKGVNFYPVDVVITEEFSETATTKIVGIDSIPSNWEGVDIGPKTREIYADVIKNSKLVVWNGPGVFETPFAEGTKAVGQALADAEGTYSVIGGGDSAAAVEKFGADKSHISTGGGASLEFEGKELPGVVCLNDK NKKSIRDVDLKGKRVFCRVDFNVPGKITDETRIRAALPTIQYLVEQGAKVILASHLGRPKGQAVEELRLTPVAARLGELLGKDVKKADEAFGPVAQEVAANEGDVLVLENVRFYAGEEKNDAELAKEFAALADIFVNDAFGAAHRAHASTAGIADYLPAVSGLLEKELEVLGKALSNPERPFAAIIGGAKVKDKIGLIRHLLDKVDNLIIGGGLAYTFVKALGHEIGLSLCEDDKIELAKEFQLAKEKGVNFYPVDVVITEEFSETATTKIVGIDSIPSNWEGVDIGPKTREIYADVIKNSKLVVWNGPGVFETPFAEGTKAVGQALADAEGTYSVIGGGDSAAAVEKFGADKSHISTGGGASLEFEGKELPGVVCLNDK 3uwk-a3-m2-cB_3uwk-a3-m1-cA Structure Guided Development of Novel Thymidine Mimetics targeting Pseudomonas aeruginosa Thymidylate Kinase: from Hit to Lead Generation Q9HZN8 Q9HZN8 1.91 X-RAY DIFFRACTION 75 0.995 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 196 202 3uwo-a3-m1-cB_3uwo-a3-m1-cA 3uxm-a5-m1-cA_3uxm-a5-m2-cB 3uxm-a6-m1-cC_3uxm-a6-m1-cD 4e5u-a1-m1-cA_4e5u-a1-m1-cB 4edh-a1-m1-cA_4edh-a1-m1-cB 4esh-a2-m1-cA_4esh-a2-m2-cA 4gmd-a1-m1-cC_4gmd-a1-m1-cA 4gmd-a2-m1-cB_4gmd-a2-m1-cD GLFVTLEGPEGAGKSTNRDYLAERLRERGIEVQLTREPGGTPLAERIRELLLAPSDEPMAADTELLLMFAARAQHLAGVIRPALARGAVVLCDRFTDATYAYQGGGRGLPEARIAALESFVQGDLRPDLTLVFDLPVEIGDRFEQEDRRFFEAVRQTYLQRAAQAPERYQVLDAGLPLAEVQAGLDRLLPNLLERL GLFVTLEGPEGAGKSTNRDYLAERLRERGIEVQLTREPGGTPLAERIRELLLAPSDEPMAADTELLLMFAARAQHLAGVIRPALARGAVVLCDRFTDATYAYQGGGRGLPEARIAALESFVQGDLRPDLTLVFDLPVEIGLARAAARDRFEQEDRRFFEAVRQTYLQRAAQAPERYQVLDAGLPLAEVQAGLDRLLPNLLER 3uwl-a1-m1-cA_3uwl-a1-m1-cB Crystal structure of Enteroccocus faecalis thymidylate synthase (EfTS) in complex with 5-formyl tetrahydrofolate Q834R3 Q834R3 2.07 X-RAY DIFFRACTION 123 0.997 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 292 314 3uwl-a2-m1-cC_3uwl-a2-m1-cD 4o7u-a1-m1-cA_4o7u-a1-m1-cB 4o7u-a2-m1-cC_4o7u-a2-m1-cD 5j7w-a1-m1-cA_5j7w-a1-m1-cD 5j7w-a2-m1-cB_5j7w-a2-m1-cC 6qxs-a1-m1-cA_6qxs-a1-m1-cB 6qxs-a2-m1-cC_6qxs-a2-m1-cD 6qya-a1-m1-cA_6qya-a1-m1-cB 6qya-a2-m1-cC_6qya-a2-m1-cD MEEAYLALGKKILEEGHFKEDRTGTGTYSLFGYQMRFDLAKGFPLLTTKRVPFGLIKSELLWFLKGDTNIRYLLERNNHIWDEWAFERYVKSADYQGEEHQKFCDAILNDAEFAEKYGELGNIYGAQWRHWETKDGSFIDQLANVIEMIKTNPDSRRLIVSAWNPEDVPSMALPPCHTMFQFYVNEGKLSCQLYQRSADVFLGVPFNIASYALLTHLIAHETGLEVGEFVHTLGDAHLYQNHVEQMQEQLSREVRSFPTLVLNPDKASVFDFDMEDIKVEGYDPHPTIKAPI MEEAYLALGKKILEEGHFKEDRTGTGTYSLFGYQMRFDLAKGFPLLTTKRVPFGLIKSELLWFLKGDTNIRYLLERNNHIWDEWAFERYVKSADYQGPDMTDFGHRVLQDPAFAEQYKEEHQKFCDAILNDAEFAEKYGELGNIYGAQWRHWETKDGSFIDQLANVIEMIKTNPDSRRLIVSAWNPEDVPSMALPPHTMFQFYVNEGKLSCQLYQRSADVFLGVPFNIASYALLTHLIAHETGLEVGEFVHTLGDAHLYQNHVEQMQEQLSREVRSFPTLVLNPDKASVFDFDMEDIKVEGYDPHPTIKAPIAV 3uwx-a1-m1-cA_3uwx-a1-m2-cA Crystal structure of UvrA-UvrB complex A0A0E0TG05 A0A0E0TG05 4.398 X-RAY DIFFRACTION 68 1.0 550542 (Geobacillus sp. Y412MC52) 550542 (Geobacillus sp. Y412MC52) 945 945 MDKIIVKGARAHNLKNIDVEIPRGKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMEKPDVDAIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGRPICPTHGIEIQSQTIEQMVDRLLSYPERTKMQILAPIVSGKKGTHAKTLEDIRKQGYVRVRIDREMRELTGDIELEKNKKHSIDVVVDRIIIKDGIAARLADSLETALKLADGKVVVDVIGEGELLFSEKHACPYCGFSIGELEPRLFSFNSPFGACPDCDGLGAKLEVDLDLVIPNDELTLKEHAIAPWEPYYPQLLEAVCRHYGIPMDVPVKDLPKEQLDKILYGSGGEPIYFRYTNDFGQVREQYIAFEGVIPNVERRYRETSSDYIREQMEKYMAEQPCPTCQGYRLKKESLAVLVGGKHIGEVTAMSVTEALAFFDGLELTEKEAQIARLILREIRDRLGFLQNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSRLTGVLYVLDEPSIGLHQRDNDRLIATLKSMRDLGNTLIVVEHDEDTMLAADYLIDIGPGAGIHGGEVVAAGTPEEVMNDPNSLTGQYLSGKKFIPIPAERRRPDGRWLEVVGAREHNLKNVSVKIPLGTFVAVTGVSGSGKSTLVNEVLYKALAQKLHRAKAKPGEHRDIRGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIIKIEMHFLPDVYVPCEVCHGKRYNRETLEVTYKGKNIAEVLDMTVEDALDFFASIPKIKRKLETLYDVGLGYMKLGQPATTLSGGEAQRVKLAAELHRRSNGRTLYILDEPTTGLHVDDIARLLDVLHRLVDNGDTVLVIEHNLDVIKTADYIIDLGPEGGDRGGQIVAVGTPEEVAEVKESHTGRYLKPILERDRARMQARYEA MDKIIVKGARAHNLKNIDVEIPRGKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMEKPDVDAIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGRPICPTHGIEIQSQTIEQMVDRLLSYPERTKMQILAPIVSGKKGTHAKTLEDIRKQGYVRVRIDREMRELTGDIELEKNKKHSIDVVVDRIIIKDGIAARLADSLETALKLADGKVVVDVIGEGELLFSEKHACPYCGFSIGELEPRLFSFNSPFGACPDCDGLGAKLEVDLDLVIPNDELTLKEHAIAPWEPYYPQLLEAVCRHYGIPMDVPVKDLPKEQLDKILYGSGGEPIYFRYTNDFGQVREQYIAFEGVIPNVERRYRETSSDYIREQMEKYMAEQPCPTCQGYRLKKESLAVLVGGKHIGEVTAMSVTEALAFFDGLELTEKEAQIARLILREIRDRLGFLQNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSRLTGVLYVLDEPSIGLHQRDNDRLIATLKSMRDLGNTLIVVEHDEDTMLAADYLIDIGPGAGIHGGEVVAAGTPEEVMNDPNSLTGQYLSGKKFIPIPAERRRPDGRWLEVVGAREHNLKNVSVKIPLGTFVAVTGVSGSGKSTLVNEVLYKALAQKLHRAKAKPGEHRDIRGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIIKIEMHFLPDVYVPCEVCHGKRYNRETLEVTYKGKNIAEVLDMTVEDALDFFASIPKIKRKLETLYDVGLGYMKLGQPATTLSGGEAQRVKLAAELHRRSNGRTLYILDEPTTGLHVDDIARLLDVLHRLVDNGDTVLVIEHNLDVIKTADYIIDLGPEGGDRGGQIVAVGTPEEVAEVKESHTGRYLKPILERDRARMQARYEA 3uwz-a1-m1-cB_3uwz-a1-m1-cA Crystal structure of Staphylococcus aureus triosephosphate isomerase complexed with glycerol-2-phosphate Q6GIL6 Q6GIL6 2.5 X-RAY DIFFRACTION 137 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 250 254 3m9y-a1-m1-cA_3m9y-a1-m1-cB 3uwu-a1-m1-cB_3uwu-a1-m1-cA 3uwv-a1-m1-cB_3uwv-a1-m1-cA 3uww-a1-m1-cB_3uww-a1-m1-cA 3uwy-a1-m1-cB_3uwy-a1-m1-cA MRTPIIAGNWKMNKTVQEAKDFVNALPTLPDSKEVESVICAPAIQLDALTTAVKEGKAQGLEIGAQNTYFEDNGAFTGETSPVALADLGVKYVVIGHSERRELFHETDEEINKKAHAIFKHGMTPIICVGETDEERESGKANDVVGEQVKKAVAGLSEDQLKSVVIAYEPIWAIKSSTSEDANEMCAFVRQTIADLSSKEVSEATRIQYGGSVKPNNIKEYMAQTDIDGALVGGASLKVEDFVQLLEGAK SMRTPIIAGNWKMNKTVQEAKDFVNALPTLPDSKEVESVICAPAIQLDALTTAVKEGKAQGLEIGAQNTYFEDNGAFTGETSPVALADLGVKYVVIGHSERRELFHETDEEINKKAHAIFKHGMTPIICVGETDEERESGKANDVVGEQVKKAVAGLSEDQLKSVVIAYEPIWAIGTGKSSTSEDANEMCAFVRQTIADLSSKEVSEATRIQYGGSVKPNNIKEYMAQTDIDGALVGGASLKVEDFVQLLEGAK 3ux2-a1-m1-cA_3ux2-a1-m2-cA Crystal Structure of Domain-Swapped Fam96a Major dimer Q9H5X1 Q9H5X1 1.8 X-RAY DIFFRACTION 244 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 122 SNARIEEKALEVYDLIRTIRDPEKPNTLEELEVVSESCVEVQEINEEEYLVIIRFTPTVPHCSLATLIGLCLRVKLQRCLPFKHKLEIYISEGDINKQINDKERVAAAENPNLREIVEQCVL SNARIEEKALEVYDLIRTIRDPEKPNTLEELEVVSESCVEVQEINEEEYLVIIRFTPTVPHCSLATLIGLCLRVKLQRCLPFKHKLEIYISEGDINKQINDKERVAAAENPNLREIVEQCVL 3ux3-a1-m1-cA_3ux3-a1-m1-cB Crystal Structure of Domain-Swapped Fam96a minor dimer Q9H5X1 Q9H5X1 1.8 X-RAY DIFFRACTION 134 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 SNARIMEEKALEVYDLIRTIRDPEKPNTLEELEVVSESCVEVQEINEEEYLVIIRFTPTVPHCSLATLIGLCLRVKLQRCLPFKHKLEIYISEGTHSTEEDINKQINDKERVAAAMENPNLREIVEQCVL SNARIMEEKALEVYDLIRTIRDPEKPNTLEELEVVSESCVEVQEINEEEYLVIIRFTPTVPHCSLATLIGLCLRVKLQRCLPFKHKLEIYISEGTHSTEEDINKQINDKERVAAAMENPNLREIVEQCVL 3ux8-a1-m1-cA_3ux8-a1-m2-cA Crystal structure of UvrA A0A0E0TG05 A0A0E0TG05 2.1 X-RAY DIFFRACTION 67 1.0 550542 (Geobacillus sp. Y412MC52) 550542 (Geobacillus sp. Y412MC52) 564 564 DKIIVKGARAHNLKNIDVEIPRGKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESPDVDAIEGLSPAISIDQKTRSTVGTVTEIYSVIRDRLGFLQNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSRLTGVLYVLDEPSIGLHQRDNDRLIATLKSMRDLGNTLIVVEHDEDTMLAADYLIDIGPGAGIHGGEVVAAGTPEEVMNDPNSLTGQYLSGKKFIPIPAERRRPDGRWLEVVGAREHNLKNVSVKIPLGTFVAVTGVSGSGKSTLVNEVLYKALAQKLHRAKAKPGEHRDIRGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIVPCEVCHGKRYNRETLEVTYKGKNIAEVLDMTVEDALDFFASIPKIKRKLETLYDVGLGYMKLGQPATTLSGGEAQRVKLAAELHRRSNGRTLYILDEPTTGLHVDDIARLLDVLHRLVDNGDTVLVIEHNLDVIKTADYIIDLGPEGGDRGGQIVAVGTPEEVAEVKESHTGRYLKPILERDRARMQARYEA DKIIVKGARAHNLKNIDVEIPRGKLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESPDVDAIEGLSPAISIDQKTRSTVGTVTEIYSVIRDRLGFLQNVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSRLTGVLYVLDEPSIGLHQRDNDRLIATLKSMRDLGNTLIVVEHDEDTMLAADYLIDIGPGAGIHGGEVVAAGTPEEVMNDPNSLTGQYLSGKKFIPIPAERRRPDGRWLEVVGAREHNLKNVSVKIPLGTFVAVTGVSGSGKSTLVNEVLYKALAQKLHRAKAKPGEHRDIRGLEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFASTNEAKVRGYKKGRFSFNVKGGRCEACHGDGIVPCEVCHGKRYNRETLEVTYKGKNIAEVLDMTVEDALDFFASIPKIKRKLETLYDVGLGYMKLGQPATTLSGGEAQRVKLAAELHRRSNGRTLYILDEPTTGLHVDDIARLLDVLHRLVDNGDTVLVIEHNLDVIKTADYIIDLGPEGGDRGGQIVAVGTPEEVAEVKESHTGRYLKPILERDRARMQARYEA 3uxg-a2-m1-cA_3uxg-a2-m2-cA Crystal structure of RFXANK O14593 O14593 1.85 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 SLSIHQLAAQGELDQLKEHLRKGDNLVNKPDERGFTPLIWASAFGEIETVRFLLEWGADPHILAKERESALSLASTGGYTDIVGLLLERDVDINIYDWNGGTPLLYAVHGNHVKCVEALLARGADLTTEADSGYTPMDLAVALGYRKVQQVIENHILKLFQSN SLSIHQLAAQGELDQLKEHLRKGDNLVNKPDERGFTPLIWASAFGEIETVRFLLEWGADPHILAKERESALSLASTGGYTDIVGLLLERDVDINIYDWNGGTPLLYAVHGNHVKCVEALLARGADLTTEADSGYTPMDLAVALGYRKVQQVIENHILKLFQSN 3uxi-a1-m1-cA_3uxi-a1-m1-cD Crystal structure of L-rhamnose isomerase W38A mutant from Bacillus halodurans Q9KCL9 Q9KCL9 2.73 X-RAY DIFFRACTION 50 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 402 404 3uxi-a1-m1-cB_3uxi-a1-m1-cC SQFERAKIEYGQWGIDVEEALERLKQVPISIHCAQGDDVGGFELSGDYPGKATTPEELRMDLEKALSLIPGKHRVNLHAIYAETDGKVVERDQLEPRHFEKWVRWAKRHGLGLDFNPTLFSHEKAKDGLTLAHPDQAIRQFWIDHCIASRKIGEYFGKELETPCLTNIWIPDGYKDTPSDRLTPRKRLKESLDQIFAAEINEAYNLDAVESKLFGIGSESYVVGSHEFYLSYALKNDKLCLLDTGHYHPTETVSNKISAMLLFHDKLALHVSRPVRWDSDHVVTFDDELREIALEIVRNDALDRVLIGLDFFDASINRIAAWTIGTRNVIKALLFAMLIPHKQLKEWQETGDYTRRLAVLEEFKTYPLGAIWNEYCERMNVPIKEEWLKEIAIYEKEVLLQR MKSQFERAKIEYGQWGIDVEEALERLKQVPISIHCAQGDDVGGFELSGDYPGKATTPEELRMDLEKALSLIPGKHRVNLHAIYAETDGKVVERDQLEPRHFEKWVRWAKRHGLGLDFNPTLFSHEKAKDGLTLAHPDQAIRQFWIDHCIASRKIGEYFGKELETPCLTNIWIPDGYKDTPSDRLTPRKRLKESLDQIFAAEINEAYNLDAVESKLFGIGSESYVVGSHEFYLSYALKNDKLCLLDTGHYHPTETVSNKISAMLLFHDKLALHVSRPVRWDSDHVVTFDDELREIALEIVRNDALDRVLIGLDFFDASINRIAAWTIGTRNVIKALLFAMLIPHKQLKEWQETGDYTRRLAVLEEFKTYPLGAIWNEYCERMNVPIKEEWLKEIAIYEKEVLLQR 3uxi-a1-m1-cB_3uxi-a1-m1-cD Crystal structure of L-rhamnose isomerase W38A mutant from Bacillus halodurans Q9KCL9 Q9KCL9 2.73 X-RAY DIFFRACTION 81 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 402 404 3uxi-a1-m1-cA_3uxi-a1-m1-cC SQFERAKIEYGQWGIDVEEALERLKQVPISIHCAQGDDVGGFELSGDYPGKATTPEELRMDLEKALSLIPGKHRVNLHAIYAETDGKVVERDQLEPRHFEKWVRWAKRHGLGLDFNPTLFSHEKAKDGLTLAHPDQAIRQFWIDHCIASRKIGEYFGKELETPCLTNIWIPDGYKDTPSDRLTPRKRLKESLDQIFAAEINEAYNLDAVESKLFGIGSESYVVGSHEFYLSYALKNDKLCLLDTGHYHPTETVSNKISAMLLFHDKLALHVSRPVRWDSDHVVTFDDELREIALEIVRNDALDRVLIGLDFFDASINRIAAWTIGTRNVIKALLFAMLIPHKQLKEWQETGDYTRRLAVLEEFKTYPLGAIWNEYCERMNVPIKEEWLKEIAIYEKEVLLQR MKSQFERAKIEYGQWGIDVEEALERLKQVPISIHCAQGDDVGGFELSGDYPGKATTPEELRMDLEKALSLIPGKHRVNLHAIYAETDGKVVERDQLEPRHFEKWVRWAKRHGLGLDFNPTLFSHEKAKDGLTLAHPDQAIRQFWIDHCIASRKIGEYFGKELETPCLTNIWIPDGYKDTPSDRLTPRKRLKESLDQIFAAEINEAYNLDAVESKLFGIGSESYVVGSHEFYLSYALKNDKLCLLDTGHYHPTETVSNKISAMLLFHDKLALHVSRPVRWDSDHVVTFDDELREIALEIVRNDALDRVLIGLDFFDASINRIAAWTIGTRNVIKALLFAMLIPHKQLKEWQETGDYTRRLAVLEEFKTYPLGAIWNEYCERMNVPIKEEWLKEIAIYEKEVLLQR 3uxj-a2-m1-cC_3uxj-a2-m1-cD Crystal Structure of 7-cyano-7-deazaguanine reductase, QueF from Vibrio cholerae complexed with NADP and PreQ0 Q9KTK0 Q9KTK0 1.401 X-RAY DIFFRACTION 128 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 255 257 3bp1-a1-m1-cB_3bp1-a1-m1-cA 3bp1-a1-m1-cC_3bp1-a1-m1-cD 3bp1-a2-m1-cB_3bp1-a2-m1-cA 3bp1-a3-m1-cC_3bp1-a3-m1-cD 3rj4-a1-m1-cB_3rj4-a1-m1-cA 3rj4-a1-m2-cB_3rj4-a1-m2-cA 3rj4-a2-m1-cB_3rj4-a2-m1-cA 3rzp-a1-m1-cA_3rzp-a1-m1-cB 3rzp-a2-m1-cD_3rzp-a2-m1-cC 3s19-a1-m1-cB_3s19-a1-m1-cA 3s19-a2-m1-cC_3s19-a2-m1-cD 3uxj-a1-m1-cB_3uxj-a1-m1-cA 3uxv-a1-m1-cA_3uxv-a1-m1-cB 3uxv-a2-m1-cD_3uxv-a2-m1-cC 4ghm-a1-m1-cA_4ghm-a1-m1-cB 4iqi-a1-m1-cA_4iqi-a1-m2-cA 4iqi-a2-m1-cB_4iqi-a2-m3-cB NQYDPSLLQPVPRSLNRNDLHLSATLPFQGCDIWTLYELSWLNQKGLPQVAIGEVSIPATSANLIESKSFKLYLNSYNQTRFASWDEVQTRLVHDLSACAGETVTVNVKSLNEYTAEPIVTQGECIDDQDIEIANYEFDDALLQGAAQGEEVSEVLHSHLLKSNCLITNQPDWGSVEIAYHGAKNREALLRYLVSFREHNEFHEQCVERIFTDIRYCQPQSLTVYARYTRLGGLDINPFRSSHQSAPNHNQRARQ YANQYDPSLLQPVPRSLNRNDLHLSATLPFQGCDIWTLYELSWLNQKGLPQVAIGEVSIPATSANLIESKSFKLYLNSYNQTRFASWDEVQTRLVHDLSACAGETVTVNVKSLNEYTAEPIVTQGECIDDQDIEIANYEFDDALLQGAAQGEEVSEVLHSHLLKSNCLITNQPDWGSVEIAYHGAKNREALLRYLVSFREHNEFHEQCVERIFTDIRYCQPQSLTVYARYTRLGGLDINPFRSSHQSAPNHNQRARQ 3uxy-a1-m1-cD_3uxy-a1-m1-cC The crystal structure of short chain dehydrogenase from Rhodobacter sphaeroides Q3IVH6 Q3IVH6 2.097 X-RAY DIFFRACTION 13 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 234 237 3uxy-a1-m1-cA_3uxy-a1-m1-cB FEGKVALVTGAAGGIGGAVVTALRAAGARVAVADRAVAGIAADLHLPGDLREAAYADGLPGAVAAGLGRLDIVVNNAGVISRGRITETTDADWSLSLGVNVEAPFRICRAAIPLAAAGGGAIVNVASCWGLRPGPGHALYCLTKAALASLTQCGDHAPQGIRINAVCPNEVNTPLRTGFAFDPDRAVAELGRTVPLGRIAEPEDIADVVLFLASDAARYLCGSLVEVNGGKAVA FEGKVALVTGAAGGIGGAVVTALRAAGARVAVADRAVAGIAADLHLPGDLREAAYADGLPGAVAAGLGRLDIVVNNAGVISRGRITETTDADWSLSLGVNVEAPFRICRAAIPLAAAGGGAIVNVASCWGLRPGPGHALYCLTKAALASLTQCGDHAPQGIRINAVCPNEVNTPLRTGFAKRGFDPDRAVAELGRTVPLGRIAEPEDIADVVLFLASDAARYLCGSLVEVNGGKAVA 3uxy-a4-m1-cD_3uxy-a4-m1-cB The crystal structure of short chain dehydrogenase from Rhodobacter sphaeroides Q3IVH6 Q3IVH6 2.097 X-RAY DIFFRACTION 108 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 234 239 3uxy-a1-m1-cA_3uxy-a1-m1-cC 3uxy-a1-m1-cD_3uxy-a1-m1-cB 3uxy-a2-m1-cA_3uxy-a2-m1-cC FEGKVALVTGAAGGIGGAVVTALRAAGARVAVADRAVAGIAADLHLPGDLREAAYADGLPGAVAAGLGRLDIVVNNAGVISRGRITETTDADWSLSLGVNVEAPFRICRAAIPLAAAGGGAIVNVASCWGLRPGPGHALYCLTKAALASLTQCGDHAPQGIRINAVCPNEVNTPLRTGFAFDPDRAVAELGRTVPLGRIAEPEDIADVVLFLASDAARYLCGSLVEVNGGKAVA QGFEGKVALVTGAAGGIGGAVVTALRAAGARVAVADRAVAGIAADLHLPGDLREAAYADGLPGAVAAGLGRLDIVVNNAGVISRGRITETTDADWSLSLGVNVEAPFRICRAAIPLAAAGGGAIVNVASCWGLRPGPGHALYCLTKAALASLTQCGDHAPQGIRINAVCPNEVNTPLRTGFAKRGFDPDRAVAELGRTVPLGRIAEPEDIADVVLFLASDAARYLCGSLVEVNGGKAVA 3uxy-a5-m1-cC_3uxy-a5-m1-cB The crystal structure of short chain dehydrogenase from Rhodobacter sphaeroides Q3IVH6 Q3IVH6 2.097 X-RAY DIFFRACTION 100 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 237 239 3uxy-a1-m1-cC_3uxy-a1-m1-cB 3uxy-a1-m1-cD_3uxy-a1-m1-cA 3uxy-a3-m1-cD_3uxy-a3-m1-cA FEGKVALVTGAAGGIGGAVVTALRAAGARVAVADRAVAGIAADLHLPGDLREAAYADGLPGAVAAGLGRLDIVVNNAGVISRGRITETTDADWSLSLGVNVEAPFRICRAAIPLAAAGGGAIVNVASCWGLRPGPGHALYCLTKAALASLTQCGDHAPQGIRINAVCPNEVNTPLRTGFAKRGFDPDRAVAELGRTVPLGRIAEPEDIADVVLFLASDAARYLCGSLVEVNGGKAVA QGFEGKVALVTGAAGGIGGAVVTALRAAGARVAVADRAVAGIAADLHLPGDLREAAYADGLPGAVAAGLGRLDIVVNNAGVISRGRITETTDADWSLSLGVNVEAPFRICRAAIPLAAAGGGAIVNVASCWGLRPGPGHALYCLTKAALASLTQCGDHAPQGIRINAVCPNEVNTPLRTGFAKRGFDPDRAVAELGRTVPLGRIAEPEDIADVVLFLASDAARYLCGSLVEVNGGKAVA 3uyi-a1-m1-cA_3uyi-a1-m2-cA Crystal Structure of Perakine Reductase, Founder Member of a Novel AKR Subfamily with Unique Conformational Changes during NADPH Binding Q3L181 Q3L181 2.313 X-RAY DIFFRACTION 213 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 312 312 HMPRVKLGTQGLEVSKLGFGCMGLSGLPEEQGIAVIKEAFNCGITFFDTSDIYGENGSNEELLGKALKQLPREKIQVGTKFGIHEIGFSGVKAKGTPDYVRSCCEASLKRLDVDYIDLFYIHRIDTTVPIEITMGELKLVEEGKIKYVGLSEASPDTIRRAHAVHPVTALQIEYSLWTRDIEDEIVPLCRQLGIGIVPYSPIGRGLFAGKAIKESKNKQIYYRIEALSQKHGCTPVQLALAWVLHQGEDVVPIPGTTKIKNLHNNVGALKVKLTKEDLKEISDAVPLDEVAGESIHEVIAVTNWKFANTPPL HMPRVKLGTQGLEVSKLGFGCMGLSGLPEEQGIAVIKEAFNCGITFFDTSDIYGENGSNEELLGKALKQLPREKIQVGTKFGIHEIGFSGVKAKGTPDYVRSCCEASLKRLDVDYIDLFYIHRIDTTVPIEITMGELKLVEEGKIKYVGLSEASPDTIRRAHAVHPVTALQIEYSLWTRDIEDEIVPLCRQLGIGIVPYSPIGRGLFAGKAIKESKNKQIYYRIEALSQKHGCTPVQLALAWVLHQGEDVVPIPGTTKIKNLHNNVGALKVKLTKEDLKEISDAVPLDEVAGESIHEVIAVTNWKFANTPPL 3uyj-a1-m1-cB_3uyj-a1-m1-cA Crystal structure of JMJD5 catalytic core domain in complex with nickle and alpha-KG Q8N371 Q8N371 2.351 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 238 EKTVPRLHRPSLQHFREQFLVPGRPVILKGVADHWPCMQKWSLEYIQEIAGCRTVPVEVGSRYTDEEWSQTLMTVNEFISKYIVNEPRDVGYLAQHQLFDQIPELKQDISIPDYCSLGDGEEEEITINAWFGPQGTISPLHQDPQQNFLVQVMGRKYIRLYSPQESGALYPHNTSQVDVENPDLEKFPKFAKAPFLSCILSPGEILFIPVKYWHYVRALDLSFSVSFWWS GLIPDVKLEKTVPRLHRPSLQHFREQFLVPGRPVILKGVADHWPCMQKWSLEYIQEIAGCRTVPVEVGSRYTDEEWSQTLMTVNEFISKYIVNEPRDVGYLAQHQLFDQIPELKQDISIPDYCSLGDGEEEEITINAWFGPQGTISPLHQDPQQNFLVQVMGRKYIRLYSPQESGALYPHNTSQVDVENPDLEKFPKFAKAPFLSCILSPGEILFIPVKYWHYVRALDLSFSVSFWWS 3uyk-a1-m1-cB_3uyk-a1-m1-cA Spinosyn Rhamnosyltransferase SpnG complexed with spinosyn aglycone Q9ALM8 Q9ALM8 1.7 X-RAY DIFFRACTION 123 1.0 60894 (Saccharopolyspora spinosa) 60894 (Saccharopolyspora spinosa) 369 373 3tsa-a1-m1-cA_3tsa-a1-m1-cB 3uyl-a1-m1-cB_3uyl-a1-m1-cA MRVLVVPLPYPTHLMAMVPLCWALQASGHEVLIAAPPELQATAHGAGLTTAGIRFPNPAFGQRDTEAGRQLWEQTASNVAQSSLDQLPEYLRLAEAWRPSVLLVDVCALIGRVLGGLLDLPVVLHRWGVDPTAGPFSDRAHELLDPVCRHHGLTGLPTPELILDPCPPSLQASDAPQGAPVQYVPYNGSGAFPAWGAARTSARRVCICMGRMVLNATGPAPLLRAVAAATELPGVEAVIAVPPEHRALLTDLPDNARIAESVPLNLFLRTCELVICAGGSGTAFTATRLGIPQLVLPQYFDQFDYARNLAAAGAGICLPDEQAQSDHEQFTDSIATVLGDTGFAAAAIKLSDEITAMPHPAALVRTLEN HMRVLVVPLPYPTHLMAMVPLCWALQASGHEVLIAAPPELQATAHGAGLTTAGIRRFPNPAFGQRDTEAGRQLWEQTASNVAQSSLDQLPEYLRLAEAWRPSVLLVDVCALIGRVLGGLLDLPVVLHRWGVDPTAGPFSDRAHELLDPVCRHHGLTGLPTPELILDPCPPSLQASDAPQGAPVQYVPYNGSGAFPAWGAARTSARRVCICMGRMVLNATGPAPLLRAVAAATELPGVEAVIAVPPEHRALLTDLPDNARIAESVPLNLFLRTCELVICAGGSGTAFTATRLGIPQLVLPQYFDQFDYARNLAAAGAGICLPDEQAQSDHEQFTDSIATVLGDTGFAAAAIKLSDEITAMPHPAALVRTLENTA 3uyu-a1-m1-cB_3uyu-a1-m1-cA Structural basis for the antifreeze activity of an ice-binding protein (LeIBP) from Arctic yeast C7F6X3 C7F6X3 1.57 X-RAY DIFFRACTION 88 1.0 662878 (Leucosporidium sp. AY30) 662878 (Leucosporidium sp. AY30) 228 229 3uyv-a1-m1-cA_3uyv-a1-m2-cA QRDLSVELGVASNFAILAKAGISSVPDSAILGDIGVSPAAATYITGFGLTQSTTYATSPQVTGIYAADYSTPTPNYLAAAVANAETAYNQAAGFVDPDFLELGAGELRDQTLVPGLYKWTSSVSVPTDLTFEGNGDATWVFQIAGGLSADGVAFTLAGGANSTNIAFQVGDDVTVGKGAHFEGVLLAKRFVTLQTGSSLNGRVLSQTEVALQKATVNSPFVPAPEVVQ QRDLSVELGVASNFAILAKAGISSVPDSAILGDIGVSPAAATYITGFGLTQDSTTYATSPQVTGIYAADYSTPTPNYLAAAVANAETAYNQAAGFVDPDFLELGAGELRDQTLVPGLYKWTSSVSVPTDLTFEGNGDATWVFQIAGGLSADGVAFTLAGGANSTNIAFQVGDDVTVGKGAHFEGVLLAKRFVTLQTGSSLNGRVLSQTEVALQKATVNSPFVPAPEVVQ 3uzo-a1-m1-cA_3uzo-a1-m1-cB Crystal Structures of Branched-Chain Aminotransferase from Deinococcus radiodurans Complexes with alpha-Ketoisocaproate and L-Glutamate Suggest Its Radio-Resistance for Catalysis Q9RTX5 Q9RTX5 2 X-RAY DIFFRACTION 206 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 335 335 3uyy-a1-m1-cA_3uyy-a1-m1-cB 3uzb-a1-m1-cA_3uzb-a1-m1-cB 3uzb-a2-m1-cC_3uzb-a2-m1-cD IDWSTLGFSYIRTDLRYLAHWKDGEWDAGTLTEDNQIHLAEGSTALHYGQQCFEGLKAYRCADGSINLFRPDQNAARMRMSCRRLLMPELSDEQFIDACLQVVRANEHFLPPYGTGGSLYLRPFVIGVGDNIGVRTAPEFIFSVFCVPVGPYFKGGLTPTNFITSDYDRAAPHGTGAAKVGGNYAASLLPGYEAKKRDFADVIYLDPATHTTIEEAGAANFFAITQDGQKFVTPQSPSILPSITKYSLLWLAEHRLGLEVEEGDIRIDELGKFSEAGACGTAAVITPIGGIQHGDDFHVFYSESEPGPVTRRLYDELVGIQYGDKEAPEGWIVKV IDWSTLGFSYIRTDLRYLAHWKDGEWDAGTLTEDNQIHLAEGSTALHYGQQCFEGLKAYRCADGSINLFRPDQNAARMRMSCRRLLMPELSDEQFIDACLQVVRANEHFLPPYGTGGSLYLRPFVIGVGDNIGVRTAPEFIFSVFCVPVGPYFKGGLTPTNFITSDYDRAAPHGTGAAKVGGNYAASLLPGYEAKKRDFADVIYLDPATHTTIEEAGAANFFAITQDGQKFVTPQSPSILPSITKYSLLWLAEHRLGLEVEEGDIRIDELGKFSEAGACGTAAVITPIGGIQHGDDFHVFYSESEPGPVTRRLYDELVGIQYGDKEAPEGWIVKV 3v00-a4-m1-cC_3v00-a4-m2-cC Studies of a constitutively active G-alpha subunit provide insights into the mechanism of G protein activation. P04695 P04695 2.9 X-RAY DIFFRACTION 14 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 353 353 HHHMGAGASAEEKHSRELEKKLKEDAEKDARTVKLLLLGAGESGKSTIVKQMKIIHQDPYSLEECLEFIAIIYGNTLQSILAIVRAMTTLNIQYGDSARQDDARKLMHMADTIEEGTMPKEMSDIIQRLWKDSGIQACFDRASEYQLNDSAGYYLSDLERLVTPGYVPTEQDVLRSRVKTTGIIETQFSFKDLNFRMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMHLFNSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAGNYIKVQFLELNMRRDVKEIYSHMTCATDTQNVKFVFDAVTDIIIKENLKDCGLF HHHMGAGASAEEKHSRELEKKLKEDAEKDARTVKLLLLGAGESGKSTIVKQMKIIHQDPYSLEECLEFIAIIYGNTLQSILAIVRAMTTLNIQYGDSARQDDARKLMHMADTIEEGTMPKEMSDIIQRLWKDSGIQACFDRASEYQLNDSAGYYLSDLERLVTPGYVPTEQDVLRSRVKTTGIIETQFSFKDLNFRMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMHLFNSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAGNYIKVQFLELNMRRDVKEIYSHMTCATDTQNVKFVFDAVTDIIIKENLKDCGLF 3v00-a5-m1-cB_3v00-a5-m1-cA Studies of a constitutively active G-alpha subunit provide insights into the mechanism of G protein activation. P04695 P04695 2.9 X-RAY DIFFRACTION 45 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 342 351 3v00-a4-m1-cB_3v00-a4-m1-cA 3v00-a4-m1-cB_3v00-a4-m1-cC 3v00-a4-m2-cB_3v00-a4-m2-cA 3v00-a4-m2-cB_3v00-a4-m2-cC EKHSRELEKKLKEDAEKDARTVKLLLLGAGESGKSTIVKQMKIIHQDPYSLEECLEFIAIIYGNTLQSILAIVRAMTTLNIQYGDSARQDDARKLMHMADTIEEGTMPKEMSDIIQRLWKDSGIQACFDRASEYQLNDSAGYYLSDLERLVTPGYVPTEQDVLRSRVKTTGIIETQFSFKDLNFRMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMHLFNSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAGNYIKVQFLELNMRRDVKEIYSHMTCATDTQNVKFVFDAVTDIIIKENLKDCGLF HMGAGASAEEKHSRELEKKLKEDAEKDARTVKLLLLGAGESGKSTIVKQMKIIHQDPYSLEECLEFIAIIYGNTLQSILAIVRAMTTLNIQYGDSARQDDARKLMHMADTIEEGTMPKEMSDIIQRLWKDSGIQACFDRASEYQLNDSAGYYLSDLERLVTPGYVPTEQDVLRSRVKTTGIIETQFSFKDLNFRMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMHLFNSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAGNYIKVQFLELNMRRDVKEIYSHMTCATDTQNVKFVFDAVTDIIIKENLKDCGLF 3v00-a6-m2-cA_3v00-a6-m1-cC Studies of a constitutively active G-alpha subunit provide insights into the mechanism of G protein activation. P04695 P04695 2.9 X-RAY DIFFRACTION 88 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 351 353 3v00-a4-m1-cA_3v00-a4-m2-cC 3v00-a4-m1-cB_3v00-a4-m2-cB 3v00-a4-m2-cA_3v00-a4-m1-cC 3v00-a5-m1-cA_3v00-a5-m2-cC 3v00-a7-m1-cB_3v00-a7-m2-cB HMGAGASAEEKHSRELEKKLKEDAEKDARTVKLLLLGAGESGKSTIVKQMKIIHQDPYSLEECLEFIAIIYGNTLQSILAIVRAMTTLNIQYGDSARQDDARKLMHMADTIEEGTMPKEMSDIIQRLWKDSGIQACFDRASEYQLNDSAGYYLSDLERLVTPGYVPTEQDVLRSRVKTTGIIETQFSFKDLNFRMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMHLFNSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAGNYIKVQFLELNMRRDVKEIYSHMTCATDTQNVKFVFDAVTDIIIKENLKDCGLF HHHMGAGASAEEKHSRELEKKLKEDAEKDARTVKLLLLGAGESGKSTIVKQMKIIHQDPYSLEECLEFIAIIYGNTLQSILAIVRAMTTLNIQYGDSARQDDARKLMHMADTIEEGTMPKEMSDIIQRLWKDSGIQACFDRASEYQLNDSAGYYLSDLERLVTPGYVPTEQDVLRSRVKTTGIIETQFSFKDLNFRMFDVGGQRSERKKWIHCFEGVTAIIFCVALSDYDLVLAEDEEMNRMHESMHLFNSICNNKWFTDTSIILFLNKKDLFEEKIKKSPLTICYPEYAGSNTYEEAGNYIKVQFLELNMRRDVKEIYSHMTCATDTQNVKFVFDAVTDIIIKENLKDCGLF 3v05-a2-m1-cC_3v05-a2-m1-cD 2.4 Angstrom Crystal Structure of Superantigen-like Protein from Staphylococcus aureus. Q2G1S5 Q2G1S5 2.4 X-RAY DIFFRACTION 53 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 187 192 3v05-a1-m1-cB_3v05-a1-m1-cA 4rfb-a1-m1-cB_4rfb-a1-m1-cA 4rfb-a2-m1-cC_4rfb-a2-m1-cD 4rgt-a1-m1-cA_4rgt-a1-m1-cB HNYKSLKYYYSKPSIELKNLDGLYRQKVTDKGVYVWKDRKDYFVGLLGKDIEKYPQGEHDKQDAFLVIEEETVNGRQYSIGGLSKTNSKEFSKEVDVKVTRKSKDSKFKITKEEISLKELDFKLRKKLMEEEKLYGAVNNRKGKIVVKMEDDKFYTFELTKKLQPHRMGDTIDGTKIKEINVELEYK HNYKSLKYYYSKPSIELKNLDGLYRQKVTDKGVYVWKDRKDYFVGLLGKDIEKYPQGEHDKQDAFLVIEEETVNGRQYSIGGLSKTNSKEFSKEVDVKVTRKISSEKSKDSKFKITKEEISLKELDFKLRKKLMEEEKLYGAVNNRKGKIVVKMEDDKFYTFELTKKLQPHRMGDTIDGTKIKEINVELEYK 3v0e-a2-m1-cA_3v0e-a2-m2-cA Crystal structure of Ciona intestinalis voltage sensor-containing phosphatase (Ci-VSP), residues 256-576(C363S) Q4W8A1 Q4W8A1 1.65 X-RAY DIFFRACTION 58 1.0 7719 (Ciona intestinalis) 7719 (Ciona intestinalis) 320 320 MRKDGFDLDLTYVTDHVIAMSFPSSGRQSLFRNPIGEVSRFFKTKHPDKFRIYNLCSERGYDETKFDNHVYRVMIDDHNVPTLVDLLKFIDDAKVWMTSDPDHVIAIHSKGGKGRTGTLVSSWLLEDGKFDTAKEALEYFGSRRTDFEVGDVFQGVETASQIRYVGYFEKIKKNYGGQLPPMKKLKVTGVTITAIQGVGRGNGSDLSMQIVSERQEVLLCKFAEGYNCALQYDATDDCVTCEVKNCPVLAGDIKVRFMSTSKSLPRGYDNCPFYFWFNTSLVEGDHVTLKREEIDNPHKKKTWKIYRDNFTVKLTFSDAE MRKDGFDLDLTYVTDHVIAMSFPSSGRQSLFRNPIGEVSRFFKTKHPDKFRIYNLCSERGYDETKFDNHVYRVMIDDHNVPTLVDLLKFIDDAKVWMTSDPDHVIAIHSKGGKGRTGTLVSSWLLEDGKFDTAKEALEYFGSRRTDFEVGDVFQGVETASQIRYVGYFEKIKKNYGGQLPPMKKLKVTGVTITAIQGVGRGNGSDLSMQIVSERQEVLLCKFAEGYNCALQYDATDDCVTCEVKNCPVLAGDIKVRFMSTSKSLPRGYDNCPFYFWFNTSLVEGDHVTLKREEIDNPHKKKTWKIYRDNFTVKLTFSDAE 3v0r-a1-m1-cA_3v0r-a1-m4-cA Crystal structure of Alternaria alternata allergen Alt a 1 P79085 P79085 1.9 X-RAY DIFFRACTION 46 1.0 5599 (Alternaria alternata) 5599 (Alternaria alternata) 130 130 3v0r-a1-m2-cA_3v0r-a1-m3-cA ASCPVTTEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKLEDHKWYSCGENSFMDFSFDSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKSS ASCPVTTEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKLEDHKWYSCGENSFMDFSFDSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKSS 3v0r-a1-m2-cA_3v0r-a1-m4-cA Crystal structure of Alternaria alternata allergen Alt a 1 P79085 P79085 1.9 X-RAY DIFFRACTION 54 1.0 5599 (Alternaria alternata) 5599 (Alternaria alternata) 130 130 3v0r-a1-m1-cA_3v0r-a1-m3-cA ASCPVTTEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKLEDHKWYSCGENSFMDFSFDSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKSS ASCPVTTEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKLEDHKWYSCGENSFMDFSFDSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKSS 3v0u-a2-m1-cA_3v0u-a2-m2-cA Crystal Structure of Perakine Reductase, Founder Member of a Novel AKR Subfamily with Unique Conformational Changes during NADPH Binding Q3L181 Q3L181 2.203 X-RAY DIFFRACTION 49 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 282 282 HMPRVKLGTQGLEVSKLGFGCMGLSGDYNDALPEEQGIAVIKEAFNCGITFFDTSDIYGENGSNEELLGKALKQLPREKIQVGTKFGIHEIGFSGVKAKGTPDYVRSCCEASLKRLDVDYIDLFYIHRIDTTVPIEITMGELKKLVEEGKIKYVGLSEASPDTIRRAHAVHPVTALQIEYSLWTRDIEDEIVPLCRQLGIGIVPYSNKQIYYRIEALSQKHGCTPVQLALAWVLHQGEDVVPIPGTTKIKNLHNNVGALKVKLTKEDLKEISDAVPANTPPL HMPRVKLGTQGLEVSKLGFGCMGLSGDYNDALPEEQGIAVIKEAFNCGITFFDTSDIYGENGSNEELLGKALKQLPREKIQVGTKFGIHEIGFSGVKAKGTPDYVRSCCEASLKRLDVDYIDLFYIHRIDTTVPIEITMGELKKLVEEGKIKYVGLSEASPDTIRRAHAVHPVTALQIEYSLWTRDIEDEIVPLCRQLGIGIVPYSNKQIYYRIEALSQKHGCTPVQLALAWVLHQGEDVVPIPGTTKIKNLHNNVGALKVKLTKEDLKEISDAVPANTPPL 3v17-a1-m1-cA_3v17-a1-m1-cB Crystal structure of the Fe(II)/alpha-ketoglutarate dependent taurine dioxygenase from Pseudomonas putida KT2440 Q88RA3 Q88RA3 2.57 X-RAY DIFFRACTION 12 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 276 276 SLTITPLSPALGAQISGVDISRDISAEERDAIEQALLQHQVLFLRDQPINPEQQARFAARFGDLHIHPIYPNVPDTPQVLVLDTAVTDVRDNAVWHTDVTFLPTPALGAVLSAKQLPAYGGDTLWASGIAAFEALSAPLREMLDGLTATHDFTKSFPLERFGTTPQDLARWEATRRNNPPLSHPVVRTHPVSGRKALFVNEGFTTRINELSELESDALLRLLFAHATRPEFSIRWRWQENDVAFWDNRVTQHFAVDDYRPNRRVMHRATILGDAPF SLTITPLSPALGAQISGVDISRDISAEERDAIEQALLQHQVLFLRDQPINPEQQARFAARFGDLHIHPIYPNVPDTPQVLVLDTAVTDVRDNAVWHTDVTFLPTPALGAVLSAKQLPAYGGDTLWASGIAAFEALSAPLREMLDGLTATHDFTKSFPLERFGTTPQDLARWEATRRNNPPLSHPVVRTHPVSGRKALFVNEGFTTRINELSELESDALLRLLFAHATRPEFSIRWRWQENDVAFWDNRVTQHFAVDDYRPNRRVMHRATILGDAPF 3v1b-a1-m1-cA_3v1b-a1-m1-cB Crystal structure of de novo designed MID1-apo2 1.28 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 32630 (synthetic construct) 46 48 GSPLAQQIKNIHSFIHQAKAAGRMDEVRTLQENLHQLMHEYFQQSD GSGSPLAQQIKNIHSFIHQAKAAGRMDEVRTLQENLHQLMHEYFQQSD 3v1c-a1-m1-cA_3v1c-a1-m1-cB Crystal structure of de novo designed MID1-zinc 1.129 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 46 47 GSPLAQQIKNIHSFIHQAKAAGRMDEVRTLQENLHQLMHEYFQQSD SGSPLAQQIKNIHSFIHQAKAAGRMDEVRTLQENLHQLMHEYFQQSD 3v1d-a4-m1-cE_3v1d-a4-m1-cH Crystal structure of de novo designed MID1-cobalt 1.239 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 48 48 3v1d-a1-m1-cA_3v1d-a1-m1-cF 3v1d-a2-m1-cB_3v1d-a2-m1-cC 3v1d-a3-m1-cD_3v1d-a3-m1-cG 3v1f-a1-m1-cB_3v1f-a1-m1-cA GSGSPLAQQIKNIHSFIHQAKAAGRMDEVRTLQENLHQLMHEYFQQSD GSGSPLAQQIKNIHSFIHQAKAAGRMDEVRTLQENLHQLMHEYFQQSD 3v1t-a1-m1-cC_3v1t-a1-m1-cD Crystal structure of a putative ketoacyl reductase (FabG4) from Mycobacterium tuberculosis H37Rv at 1.9 Angstrom resolution O53665 O53665 1.88 X-RAY DIFFRACTION 232 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 407 409 3lls-a1-m1-cB_3lls-a1-m1-cA 3m1l-a1-m1-cB_3m1l-a1-m1-cA 3q6i-a1-m1-cB_3q6i-a1-m1-cA 3q6i-a2-m1-cD_3q6i-a2-m1-cC 3v1u-a1-m1-cA_3v1u-a1-m2-cA 4fw8-a1-m1-cB_4fw8-a1-m1-cA 4fw8-a2-m1-cD_4fw8-a2-m1-cC PQPETLRRYRAGEPPLTGSLLIGGAGRVVEPLRAALEKDYDLVDSFGGLVFDATGITEPAGLKGLHEFFTPVLRNLGRCGRVVVVGGTPEAAASTNERIAQRALEGFTRSLGKELRRGATTALVYLSPDAKPAATGLESTMRFLLSAKSAYVDGQVFSVGADDSTPPADWEKPLDGKVAIVTGAARGIGATIAEVFARDGAHVVAIDVESAAENLAETASKVGGTALWLDVTADDAVDKISEHLRDHHGGKADILVNNAGITRDKLLANMDDARWDAVLAVNLLAPLRLTEGLVGNGSIGEGGRVIGLSSIAGIAGNRGQTNYATTKAGMIGITQALAPGLAAKGITINAVAPGFIETREVGRRLNSLLQGGQPVDVAEAIAYFASPASNAVTGNVIRVCGQAMIGA PQPETLRRYRAGEPPLTGSLLIGGAGRVVEPLRAALEKDYDLVDSFGGLVFDATGITEPAGLKGLHEFFTPVLRNLGRCGRVVVVGGTPEAAASTNERIAQRALEGFTRSLGKELRRGATTALVYLSPDAKPAATGLESTMRFLLSAKSAYVDGQVFSVGADDSTPPADWEKPLDGKVAIVTGAARGIGATIAEVFARDGAHVVAIDVESAAENLAETASKVGGTALWLDVTADDAVDKISEHLRDHHGGKADILVNNAGITRDKLLANMDDARWDAVLAVNLLAPLRLTEGLVGNGSIGEGGRVIGLSSIAGIAGNRGQTNYATTKAGMIGITQALAPGLAAKGITINAVAPGFIETQTREVGRRLNSLLQGGQPVDVAEAIAYFASPASNAVTGNVIRVCGQAMIGA 3v1x-a1-m1-cA_3v1x-a1-m2-cA Crystal structure of 2-methylisoborneol synthase from Streptomyces coelicolor A3(2) in complex with Mg2+ and 2-fluorogeranyl diphosphate Q9F1Y6 Q9F1Y6 1.955 X-RAY DIFFRACTION 191 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 311 311 3v1v-a1-m1-cA_3v1v-a1-m2-cA 4la5-a1-m1-cA_4la5-a1-m2-cA 4la6-a1-m1-cA_4la6-a1-m2-cA GRAVPGLYHHPVPEPDPVRVEEVSRRIKRWAEDEVQLYPFDGFSVGRYMVGCHPDAPTVDHLMLATRLMVAENAVDDSPVGLGGRLLLAHTAIDHFHSTAEYTPTWQASLAADAPRRAYDSAMGYFVRAATPSQSDRYRHDMARLHLGYLAEGAWAQTGHVPEVWEYLAMRQFNNFRPCPTITDTVGGYELPADLHARPDMQRVIALAGNATTIVNDLYSYTKELNSPGRHLNLPVVIAEREQLCERDAYLKAVEVHNELQHSFEAAAADLAEACPLPPVLRFLRGVAAWVDGNHDWHRTNTYRYSLPDFW GRAVPGLYHHPVPEPDPVRVEEVSRRIKRWAEDEVQLYPFDGFSVGRYMVGCHPDAPTVDHLMLATRLMVAENAVDDSPVGLGGRLLLAHTAIDHFHSTAEYTPTWQASLAADAPRRAYDSAMGYFVRAATPSQSDRYRHDMARLHLGYLAEGAWAQTGHVPEVWEYLAMRQFNNFRPCPTITDTVGGYELPADLHARPDMQRVIALAGNATTIVNDLYSYTKELNSPGRHLNLPVVIAEREQLCERDAYLKAVEVHNELQHSFEAAAADLAEACPLPPVLRFLRGVAAWVDGNHDWHRTNTYRYSLPDFW 3v1y-a1-m1-cB_3v1y-a1-m1-cC Crystal structures of glyceraldehyde-3-phosphate dehydrogenase complexes with NAD Q0J8A4 Q0J8A4 1.86 X-RAY DIFFRACTION 25 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 336 336 3e5r-a1-m1-cA_3e5r-a1-m1-cO 3e5r-a1-m1-cB_3e5r-a1-m1-cC 3e6a-a1-m1-cA_3e6a-a1-m1-cO 3e6a-a1-m1-cB_3e6a-a1-m1-cC 3v1y-a1-m1-cA_3v1y-a1-m1-cO GKIKIGINGFGRIGRLVARVALQSEDVELVAVNDPFITTDYMTYMFKYDTVHGQWKHSDIKIKDSKTLLLGEKPVTVFGIRNPDEIPWAEAGAEYVVESTGVFTDKEKAAAHLKGGAKKVVISAPSKDAPMFVCGVNEDKYTSDIDIVSNASCTTNCLAPLAKVIHDNFGIIEGLMTTVHAITATQKTVDGPSSKDWRGGRAASFNIIPSSTGAAKAVGKVLPDLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYDAIKSAIKSASEGKLKGIIGYVEEDLVSTDFVGDSRSSIFDAKAGIALNDNFVKLVAWYDNEWGYSNRVIDLIRHMAKTQ GKIKIGINGFGRIGRLVARVALQSEDVELVAVNDPFITTDYMTYMFKYDTVHGQWKHSDIKIKDSKTLLLGEKPVTVFGIRNPDEIPWAEAGAEYVVESTGVFTDKEKAAAHLKGGAKKVVISAPSKDAPMFVCGVNEDKYTSDIDIVSNASCTTNCLAPLAKVIHDNFGIIEGLMTTVHAITATQKTVDGPSSKDWRGGRAASFNIIPSSTGAAKAVGKVLPDLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYDAIKSAIKSASEGKLKGIIGYVEEDLVSTDFVGDSRSSIFDAKAGIALNDNFVKLVAWYDNEWGYSNRVIDLIRHMAKTQ 3v1y-a1-m1-cB_3v1y-a1-m1-cO Crystal structures of glyceraldehyde-3-phosphate dehydrogenase complexes with NAD Q0J8A4 Q0J8A4 1.86 X-RAY DIFFRACTION 97 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 336 336 3e5r-a1-m1-cA_3e5r-a1-m1-cC 3e5r-a1-m1-cB_3e5r-a1-m1-cO 3e6a-a1-m1-cA_3e6a-a1-m1-cC 3e6a-a1-m1-cB_3e6a-a1-m1-cO 3v1y-a1-m1-cA_3v1y-a1-m1-cC GKIKIGINGFGRIGRLVARVALQSEDVELVAVNDPFITTDYMTYMFKYDTVHGQWKHSDIKIKDSKTLLLGEKPVTVFGIRNPDEIPWAEAGAEYVVESTGVFTDKEKAAAHLKGGAKKVVISAPSKDAPMFVCGVNEDKYTSDIDIVSNASCTTNCLAPLAKVIHDNFGIIEGLMTTVHAITATQKTVDGPSSKDWRGGRAASFNIIPSSTGAAKAVGKVLPDLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYDAIKSAIKSASEGKLKGIIGYVEEDLVSTDFVGDSRSSIFDAKAGIALNDNFVKLVAWYDNEWGYSNRVIDLIRHMAKTQ GKIKIGINGFGRIGRLVARVALQSEDVELVAVNDPFITTDYMTYMFKYDTVHGQWKHSDIKIKDSKTLLLGEKPVTVFGIRNPDEIPWAEAGAEYVVESTGVFTDKEKAAAHLKGGAKKVVISAPSKDAPMFVCGVNEDKYTSDIDIVSNASCTTNCLAPLAKVIHDNFGIIEGLMTTVHAITATQKTVDGPSSKDWRGGRAASFNIIPSSTGAAKAVGKVLPDLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYDAIKSAIKSASEGKLKGIIGYVEEDLVSTDFVGDSRSSIFDAKAGIALNDNFVKLVAWYDNEWGYSNRVIDLIRHMAKTQ 3v1y-a1-m1-cC_3v1y-a1-m1-cO Crystal structures of glyceraldehyde-3-phosphate dehydrogenase complexes with NAD Q0J8A4 Q0J8A4 1.86 X-RAY DIFFRACTION 137 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 336 336 3e5r-a1-m1-cA_3e5r-a1-m1-cB 3e5r-a1-m1-cC_3e5r-a1-m1-cO 3e6a-a1-m1-cA_3e6a-a1-m1-cB 3e6a-a1-m1-cC_3e6a-a1-m1-cO 3v1y-a1-m1-cA_3v1y-a1-m1-cB GKIKIGINGFGRIGRLVARVALQSEDVELVAVNDPFITTDYMTYMFKYDTVHGQWKHSDIKIKDSKTLLLGEKPVTVFGIRNPDEIPWAEAGAEYVVESTGVFTDKEKAAAHLKGGAKKVVISAPSKDAPMFVCGVNEDKYTSDIDIVSNASCTTNCLAPLAKVIHDNFGIIEGLMTTVHAITATQKTVDGPSSKDWRGGRAASFNIIPSSTGAAKAVGKVLPDLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYDAIKSAIKSASEGKLKGIIGYVEEDLVSTDFVGDSRSSIFDAKAGIALNDNFVKLVAWYDNEWGYSNRVIDLIRHMAKTQ GKIKIGINGFGRIGRLVARVALQSEDVELVAVNDPFITTDYMTYMFKYDTVHGQWKHSDIKIKDSKTLLLGEKPVTVFGIRNPDEIPWAEAGAEYVVESTGVFTDKEKAAAHLKGGAKKVVISAPSKDAPMFVCGVNEDKYTSDIDIVSNASCTTNCLAPLAKVIHDNFGIIEGLMTTVHAITATQKTVDGPSSKDWRGGRAASFNIIPSSTGAAKAVGKVLPDLNGKLTGMSFRVPTVDVSVVDLTVRIEKAASYDAIKSAIKSASEGKLKGIIGYVEEDLVSTDFVGDSRSSIFDAKAGIALNDNFVKLVAWYDNEWGYSNRVIDLIRHMAKTQ 3v2b-a2-m1-cA_3v2b-a2-m2-cA Human poly(adp-ribose) polymerase 15 (ARTD7, BAL3), macro domain 2 in complex with adenosine-5-diphosphoribose Q460N3 Q460N3 2.2 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 YFQSMTAYEMKIGAITFQVATGDIATEQVDVIVNSTARTFNRKSGVSRAILEGAGQAVESECAVLAAQPHRDFIITPGGCLKCKIIIHVPGGKDVRKTVTSVLEECEQRKYTSVSLPAIGTGNAGKNPITVADNIIDAIVDFSSQHSTPSLKTVKVVIFQPELLNIFYDSMKKRDL YFQSMTAYEMKIGAITFQVATGDIATEQVDVIVNSTARTFNRKSGVSRAILEGAGQAVESECAVLAAQPHRDFIITPGGCLKCKIIIHVPGGKDVRKTVTSVLEECEQRKYTSVSLPAIGTGNAGKNPITVADNIIDAIVDFSSQHSTPSLKTVKVVIFQPELLNIFYDSMKKRDL 3v2g-a2-m1-cA_3v2g-a2-m2-cA Crystal structure of a dehydrogenase/reductase from Sinorhizobium meliloti 1021 Q92WA6 Q92WA6 2.3 X-RAY DIFFRACTION 122 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 248 248 3v2g-a1-m1-cA_3v2g-a1-m2-cA 3v2g-a1-m3-cA_3v2g-a1-m4-cA FQSTSISLAGKTAFVTGGSRGIGAAIAKRLALEGAAVALTYVNAAERAQAVVSEIEQAGGRAVAIRADNRDAEAIEQAIRETVEALGGLDILVNSAGIWHSAPLEETTVADFDEVAVNFRAPFVAIRSASRHLGDGGRIITIGSNLAELVPWPGISLYSASKAALAGLTKGLARDLGPRGITVNIVHPGSTDTDNPADGDHAEAQRERIATGSYGEPQDIAGLVAWLAGPQGKFVTGASLTIDGGANA FQSTSISLAGKTAFVTGGSRGIGAAIAKRLALEGAAVALTYVNAAERAQAVVSEIEQAGGRAVAIRADNRDAEAIEQAIRETVEALGGLDILVNSAGIWHSAPLEETTVADFDEVAVNFRAPFVAIRSASRHLGDGGRIITIGSNLAELVPWPGISLYSASKAALAGLTKGLARDLGPRGITVNIVHPGSTDTDNPADGDHAEAQRERIATGSYGEPQDIAGLVAWLAGPQGKFVTGASLTIDGGANA 3v2g-a3-m1-cA_3v2g-a3-m4-cA Crystal structure of a dehydrogenase/reductase from Sinorhizobium meliloti 1021 Q92WA6 Q92WA6 2.3 X-RAY DIFFRACTION 117 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 248 248 3v2g-a1-m1-cA_3v2g-a1-m4-cA 3v2g-a1-m2-cA_3v2g-a1-m3-cA FQSTSISLAGKTAFVTGGSRGIGAAIAKRLALEGAAVALTYVNAAERAQAVVSEIEQAGGRAVAIRADNRDAEAIEQAIRETVEALGGLDILVNSAGIWHSAPLEETTVADFDEVAVNFRAPFVAIRSASRHLGDGGRIITIGSNLAELVPWPGISLYSASKAALAGLTKGLARDLGPRGITVNIVHPGSTDTDNPADGDHAEAQRERIATGSYGEPQDIAGLVAWLAGPQGKFVTGASLTIDGGANA FQSTSISLAGKTAFVTGGSRGIGAAIAKRLALEGAAVALTYVNAAERAQAVVSEIEQAGGRAVAIRADNRDAEAIEQAIRETVEALGGLDILVNSAGIWHSAPLEETTVADFDEVAVNFRAPFVAIRSASRHLGDGGRIITIGSNLAELVPWPGISLYSASKAALAGLTKGLARDLGPRGITVNIVHPGSTDTDNPADGDHAEAQRERIATGSYGEPQDIAGLVAWLAGPQGKFVTGASLTIDGGANA 3v2h-a1-m2-cB_3v2h-a1-m1-cA The crystal structure of D-beta-hydroxybutyrate dehydrogenase from Sinorhizobium meliloti O86034 O86034 3 X-RAY DIFFRACTION 11 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 222 223 3v2h-a1-m1-cB_3v2h-a1-m2-cA STKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEIRTVTDEVAGLSSGTVLHHPADTKPSEIADAVADRFGGADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPKKKGWGRIINIASAHGLVASPFKSAYVAAKHGIGLTKTVALEVAESGVTVNSICPGYVLGQPTKKFITVEQVASLALYLAGDDAAQITGTHVSDGGWTAQ STKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEIRTVTDEVAGLSSGTVLHHPADTKPSEIADAVADRFGGADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPKKKGWGRIINIASAHGLVASPFKSAYVAAKHGIGLTKTVALEVAESGVTVNSICPGYVLTGQPTKKFITVEQVASLALYLAGDDAAQITGTHVSDGGWTAQ 3v2h-a2-m1-cB_3v2h-a2-m1-cA The crystal structure of D-beta-hydroxybutyrate dehydrogenase from Sinorhizobium meliloti O86034 O86034 3 X-RAY DIFFRACTION 108 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 222 223 3v2h-a1-m1-cB_3v2h-a1-m1-cA 3v2h-a1-m2-cB_3v2h-a1-m2-cA STKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEIRTVTDEVAGLSSGTVLHHPADTKPSEIADAVADRFGGADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPKKKGWGRIINIASAHGLVASPFKSAYVAAKHGIGLTKTVALEVAESGVTVNSICPGYVLGQPTKKFITVEQVASLALYLAGDDAAQITGTHVSDGGWTAQ STKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEIRTVTDEVAGLSSGTVLHHPADTKPSEIADAVADRFGGADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPKKKGWGRIINIASAHGLVASPFKSAYVAAKHGIGLTKTVALEVAESGVTVNSICPGYVLTGQPTKKFITVEQVASLALYLAGDDAAQITGTHVSDGGWTAQ 3v2h-a4-m1-cB_3v2h-a4-m2-cB The crystal structure of D-beta-hydroxybutyrate dehydrogenase from Sinorhizobium meliloti O86034 O86034 3 X-RAY DIFFRACTION 131 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 222 222 3v2h-a1-m1-cA_3v2h-a1-m2-cA 3v2h-a1-m1-cB_3v2h-a1-m2-cB 3v2h-a3-m1-cA_3v2h-a3-m2-cA STKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEIRTVTDEVAGLSSGTVLHHPADTKPSEIADAVADRFGGADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPKKKGWGRIINIASAHGLVASPFKSAYVAAKHGIGLTKTVALEVAESGVTVNSICPGYVLGQPTKKFITVEQVASLALYLAGDDAAQITGTHVSDGGWTAQ STKTAVITGSTSGIGLAIARTLAKAGANIVLNGFGAPDEIRTVTDEVAGLSSGTVLHHPADTKPSEIADAVADRFGGADILVNNAGVQFVEKIEDFPVEQWDRIIAVNLSSSFHTIRGAIPPKKKGWGRIINIASAHGLVASPFKSAYVAAKHGIGLTKTVALEVAESGVTVNSICPGYVLGQPTKKFITVEQVASLALYLAGDDAAQITGTHVSDGGWTAQ 3v2p-a1-m1-cA_3v2p-a1-m1-cE COMPcc in complex with fatty acids Q9R0G6 Q9R0G6 1.873 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 45 45 1fbm-a1-m1-cA_1fbm-a1-m1-cB 1fbm-a1-m1-cA_1fbm-a1-m1-cE 1fbm-a1-m1-cB_1fbm-a1-m1-cC 1fbm-a1-m1-cC_1fbm-a1-m1-cD 1fbm-a1-m1-cD_1fbm-a1-m1-cE 1mz9-a1-m1-cA_1mz9-a1-m1-cB 1mz9-a1-m1-cA_1mz9-a1-m1-cE 1mz9-a1-m1-cB_1mz9-a1-m1-cC 1mz9-a1-m1-cC_1mz9-a1-m1-cD 1mz9-a1-m1-cD_1mz9-a1-m1-cE 1vdf-a1-m1-cA_1vdf-a1-m1-cB 1vdf-a1-m1-cA_1vdf-a1-m1-cE 1vdf-a1-m1-cB_1vdf-a1-m1-cC 1vdf-a1-m1-cC_1vdf-a1-m1-cD 1vdf-a1-m1-cD_1vdf-a1-m1-cE 3v2n-a1-m1-cA_3v2n-a1-m1-cB 3v2n-a1-m1-cA_3v2n-a1-m1-cE 3v2n-a1-m1-cB_3v2n-a1-m1-cC 3v2n-a1-m1-cC_3v2n-a1-m1-cD 3v2n-a1-m1-cD_3v2n-a1-m1-cE 3v2p-a1-m1-cA_3v2p-a1-m1-cB 3v2p-a1-m1-cB_3v2p-a1-m1-cC 3v2p-a1-m1-cC_3v2p-a1-m1-cD 3v2p-a1-m1-cD_3v2p-a1-m1-cE 3v2q-a1-m1-cA_3v2q-a1-m1-cB 3v2q-a1-m1-cA_3v2q-a1-m1-cE 3v2q-a1-m1-cB_3v2q-a1-m1-cC 3v2q-a1-m1-cC_3v2q-a1-m1-cD 3v2q-a1-m1-cD_3v2q-a1-m1-cE 3v2r-a1-m1-cA_3v2r-a1-m1-cB 3v2r-a1-m1-cA_3v2r-a1-m1-cE 3v2r-a1-m1-cB_3v2r-a1-m1-cC 3v2r-a1-m1-cC_3v2r-a1-m1-cD 3v2r-a1-m1-cD_3v2r-a1-m1-cE MDLAPQMLRELQETNAALQDVRELLRQQVKEITFLKNTVMECDAC MDLAPQMLRELQETNAALQDVRELLRQQVKEITFLKNTVMECDAC 3v2u-a1-m1-cB_3v2u-a1-m1-cA Crystal structure of the yeast GAL regulon complex of the repressor, Gal80p, and the transducer, Gal3p, with galactose and ATP P04387 P04387 2.105 X-RAY DIFFRACTION 129 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 402 409 3bts-a1-m1-cA_3bts-a1-m1-cB 3btu-a1-m1-cB_3btu-a1-m1-cA 3btu-a2-m1-cC_3btu-a2-m1-cD 3btu-a3-m1-cE_3btu-a3-m1-cF 3btv-a1-m1-cA_3btv-a1-m1-cB AAPIRVGFVGLNAAKGWAIKTHYPAILQLSSQFQITALYSPKIETSIATIQRLKLSNATAFPTLESFASSSTIDMIVIAIQVASHYEVVMPLLEFSKNNPNLKYLFVEWALACSLDQAESIYKAAAERGVQTIISLQGRKSPYILRAKELISQGYIGDINSIEIAGNGGWYGYERPVKSPKYIYEIGNGVDLVTTTFGHTIDILQYMTSSYFSRINAMVFNNIPEQELIDERGNRLGQRVPKTVPDHLLFQGTLLNGNVPVSCSFKGGKPTKKFTKNLVIDIHGTKGDLKLEGDAGFAEISNLVLYYSGTRAGKEIMEVYHLRNYNAIVGNIHRLYQSISDFHFNTKKIPELPSQFVMQGFDFEGFPTLMDALILHRLIESVYKSNMMGSTLNVSNISHYSL AAPIRVGFVGLNAAKGWAIKTHYPAILQLSSQFQITALYSPKIETSIATIQRLKLSNATAFPTLESFASSSTIDMIVIAIQVASHYEVVMPLLEFSKNNPNLKYLFVEWALACSLDQAESIYKAAAERGVQTIISLQGRKSPYILRAKELISQGYIGDINSIEIAGNGGWYGYERPVKSPKYIYEIGNGVDLVTTTFGHTIDILQYMTSSYFSRINAMVFNNIPEQELIDERGNRLGQRVPKTVPDHLLFQGTLLNGNVPVSCSFKGGKPTKKFTKNLVIDIHGTKGDLKLEGDAGFAEISNLVLYYSGTRALDPGYDAGKEIMEVYHLRNYNAIVGNIHRLYQSISDFHFNTKKIPELPSQFVMQGFDFEGFPTLMDALILHRLIESVYKSNMMGSTLNVSNISHYSL 3v2u-a1-m1-cD_3v2u-a1-m1-cC Crystal structure of the yeast GAL regulon complex of the repressor, Gal80p, and the transducer, Gal3p, with galactose and ATP P13045 P13045 2.105 X-RAY DIFFRACTION 40 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 514 516 NTNVPIFSSPRSFEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSNKFETAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ NTNVPIFSSPLPRSFEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSNKFETAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ 3v3e-a1-m1-cA_3v3e-a1-m1-cB Crystal Structure of the Human Nur77 Ligand-binding Domain P22736 P22736 2.06 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 237 3v3q-a1-m1-cA_3v3q-a1-m1-cB 4jgv-a1-m1-cB_4jgv-a1-m1-cA 4re8-a3-m1-cB_4re8-a3-m1-cA 4ree-a3-m1-cB_4ree-a3-m1-cA 4ref-a3-m1-cA_4ref-a3-m1-cB 4rze-a1-m1-cB_4rze-a1-m1-cA 4rzf-a1-m1-cB_4rzf-a1-m1-cA 4rzg-a1-m1-cA_4rzg-a1-m1-cB 4whg-a3-m1-cB_4whg-a3-m1-cA 6kz5-a1-m1-cB_6kz5-a1-m1-cA PANLLTSLVRAHLDSGPSTAKLDYSKFQELVLPHFGKEDAGDVQQFYDLLSGSLEVIRKWAEKIPGFAELSPADQDLLLESAFLELFILRLAYRSKPGEGKLIFCSGLVLHRLQCARGFGDWIDSILAFSRSLHSLLVDVPAFACLSALVLITDRHGLQEPRRVEELQNRIASCLKEHVAAVAGASCLSRLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPPIIDKIFMDTLPF PANLLTSLVRAHLDSGPSTAKLDYSKFQELVLPHFGKEDAGDVQQFYDLLSGSLEVIRKWAEKIPGFAELSPADQDLLLESAFLELFILRLAYRSKPGEGKLIFCSGLVLHRLQCARGFGDWIDSILAFSRSLHSLLVDVPAFACLSALVLITDRHGLQEPRRVEELQNRIASCLKEHVAAVAGEPQASCLSRLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPPIIDKIFMDTLPF 3v3v-a3-m3-cA_3v3v-a3-m8-cA Structural and functional analysis of quercetagetin, a natural JNK1 inhibitor P45983 P45983 2.7 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 351 351 3v3v-a2-m1-cA_3v3v-a2-m2-cA 3v3v-a3-m1-cA_3v3v-a3-m2-cA 3v3v-a3-m4-cA_3v3v-a3-m6-cA 3v3v-a3-m5-cA_3v3v-a3-m7-cA DNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSPEVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMIKGGVLFPGTDHIDQWNKVIEQLGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHLKASQARDLLSKMLVIDASKRISVDEALQHPYINVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDL DNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSPEVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMIKGGVLFPGTDHIDQWNKVIEQLGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHLKASQARDLLSKMLVIDASKRISVDEALQHPYINVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDL 3v3v-a3-m4-cA_3v3v-a3-m8-cA Structural and functional analysis of quercetagetin, a natural JNK1 inhibitor P45983 P45983 2.7 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 351 351 2g01-a3-m1-cA_2g01-a3-m1-cB 2gmx-a3-m1-cA_2gmx-a3-m1-cB 2h96-a3-m1-cB_2h96-a3-m1-cA 2no3-a3-m1-cA_2no3-a3-m1-cB 3o17-a3-m1-cA_3o17-a3-m1-cB 3o2m-a3-m1-cA_3o2m-a3-m1-cB 3v3v-a3-m1-cA_3v3v-a3-m6-cA 3v3v-a3-m2-cA_3v3v-a3-m5-cA 3v3v-a3-m3-cA_3v3v-a3-m7-cA DNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSPEVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMIKGGVLFPGTDHIDQWNKVIEQLGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHLKASQARDLLSKMLVIDASKRISVDEALQHPYINVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDL DNNFYSVEIGDSTFTVLKRYQNLKPIGSGAQGIVCAAYDAILERNVAIKKLSRPFQNQTHAKRAYRELVLMKCVNHKNIIGLLNVFTPQKSLEEFQDVYIVMELMDANLCQVIQMELDHERMSYLLYQMLCGIKHLHSAGIIHRDLKPSNIVVKSDCTLKILDFGLARTAGTSPEVVTRYYRAPEVILGMGYKENVDIWSVGCIMGEMIKGGVLFPGTDHIDQWNKVIEQLGTPCPEFMKKLQPTVRTYVENRPKYAGYSFEKLFPDVLFPADSEHLKASQARDLLSKMLVIDASKRISVDEALQHPYINVWYDPSEAEAPPPKIPDKQLDEREHTIEEWKELIYKEVMDL 3v3x-a2-m1-cB_3v3x-a2-m1-cD Nitroxide Spin Labels in Protein GB1: N8/K28 Double Mutant P19909 P19909 2 X-RAY DIFFRACTION 148 1.0 1320 (Streptococcus sp. 'group G') 1320 (Streptococcus sp. 'group G') 56 56 3v3x-a1-m1-cA_3v3x-a1-m1-cC MQYKLILCGKTLKGETTTEAVDAATAECVFKQYANDNGVDGEWTYDDATKTFTVTE MQYKLILCGKTLKGETTTEAVDAATAECVFKQYANDNGVDGEWTYDDATKTFTVTE 3v42-a3-m1-cA_3v42-a3-m2-cB Crystal structure of renal tumor suppressor protein, folliculin Q8NFG4 Q8NFG4 2 X-RAY DIFFRACTION 65 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 196 199 LPVFKSLRHMRQVLGAPSFRMLAWHVLMGNQVIWKSRDVDLVQSAFEVLRTMLPVGCVRIIPYSSQYEEAYRCNFLGLSPHVQIPPHVLSSEFAVIVEVHAAASLSKYEFVVTSGSPRVGPTILNKIEAALTNQNLSVDVVDQALVALKEEWMNKVKVLFKFTKVPKEDTQKLLSILGASEEDNVKLLKFWMTGLS LPVFKSLRHMRQVLGAPSFRMLAWHVLMGNQVIWKSRDVDLVQSAFEVLRTMLPVGCVRIIPYSSQYEEAYRCNFLGLSPHVQIPPHVLSSEFAVIVEVHAQSLSKYEFVVTSGSPVAADRVGPTILNKIEAALTNQNLSVDVVDQALVALKEEWMNKVKVLFKFTKRPKEDTQKLLSILGASEEDNVKLLKFWMTGLS 3v47-a1-m1-cA_3v47-a1-m1-cB Crystal structure of the N-terminal fragment of zebrafish TLR5 in complex with Salmonella flagellin Q4G1L2 Q4G1L2 2.47 X-RAY DIFFRACTION 38 1.0 7955 (Danio rerio) 7955 (Danio rerio) 441 441 ECSVIGYNAICINRGLHQVPELPAHVNYVDLSLNSIAELNETSFSRLQDLQFLKVEQQTPGLVIRNNTFRGLSSLIILKLDYNQFLQLETGAFNGLANLEVLTLTQCNLDGAVLSGNFFKPLTSLEMLVLRDNNIKKIQPASFFLNMRRFHVLDLTFNKVKSICEEDLLNFQGKHFTLLRLSSITLQDMNEYWLGWEKCGNPFKNTSITTLDLSGNGFKESMAKRFFDAIAGTKIQSLILSNSYNMGSSFGHTNFKDPDNFTFKGLEASGVKTCDLSKSKIFALLKSVFSHFTDLEQLTLAQNEINKIDDNAFWGLTHLLKLNLSQNFLGSIDSRMFENLDKLEVLDLSYNHIRALGDQSFLGLPNLKELALDTNQLKSVPDGIFDRLTSLQKIWLHTNPWDCSCPRIDYLSRWLNKNSQKEQGSAKCSGSGKPVRSIICP ECSVIGYNAICINRGLHQVPELPAHVNYVDLSLNSIAELNETSFSRLQDLQFLKVEQQTPGLVIRNNTFRGLSSLIILKLDYNQFLQLETGAFNGLANLEVLTLTQCNLDGAVLSGNFFKPLTSLEMLVLRDNNIKKIQPASFFLNMRRFHVLDLTFNKVKSICEEDLLNFQGKHFTLLRLSSITLQDMNEYWLGWEKCGNPFKNTSITTLDLSGNGFKESMAKRFFDAIAGTKIQSLILSNSYNMGSSFGHTNFKDPDNFTFKGLEASGVKTCDLSKSKIFALLKSVFSHFTDLEQLTLAQNEINKIDDNAFWGLTHLLKLNLSQNFLGSIDSRMFENLDKLEVLDLSYNHIRALGDQSFLGLPNLKELALDTNQLKSVPDGIFDRLTSLQKIWLHTNPWDCSCPRIDYLSRWLNKNSQKEQGSAKCSGSGKPVRSIICP 3v48-a1-m1-cB_3v48-a1-m1-cA Crystal Structure of the putative alpha/beta hydrolase RutD from E.coli B6I985 B6I985 2.1 X-RAY DIFFRACTION 91 1.0 409438 (Escherichia coli SE11) 409438 (Escherichia coli SE11) 257 262 HKLSLSPPPYADAPVVVLISGLGGSGSYWLPQLAVLEQEYQVVCYDQRGTGNNPDTLAEDYSIAQAAELHQALVAAGIEHYAVVGHALGALVGQLALDYPASVTVLISVNGWLRINAHTRRCFQVRERLLYSGGAQAWVEAQPLFLYPADWAARAPRLEAEDALALAHFQGKNNLLRRLNALKRADFSHHADRIRCPVQIICASDDLLVPTACSSELHAALPDSQKVPYGGHACNVTDPETFNALLLNGLASLLHHR GHKLSLSPPPYADAPVVVLISGLGGSGSYWLPQLAVLEQEYQVVCYDQRGTGNNPDTLAEDYSIAQAAELHQALVAAGIEHYAVVGHALGALVGQLALDYPASVTVLISVNGWLRINAHTRRCFQVRERLLYSGGAQAWVEAQPLFLYPADWAARAPRLEAEDALALAHFQGKNNLLRRLNALKRADFSHHADRIRCPVQIICASDDLLVPTACSSELHAALPDSQKVPYGGHACNVTDPETFNALLLNGLASLLHHREAAL 3v4b-a1-m1-cA_3v4b-a1-m8-cA Crystal structure of an enolase from the soil bacterium Cellvibrio japonicus (TARGET EFI-502161) with bound MG and L-tartrate B3PDB1 B3PDB1 1.4 X-RAY DIFFRACTION 77 1.0 498211 (Cellvibrio japonicus Ueda107) 498211 (Cellvibrio japonicus Ueda107) 384 384 3v3w-a1-m1-cA_3v3w-a1-m8-cA 3v3w-a1-m2-cA_3v3w-a1-m7-cA 3v3w-a1-m3-cA_3v3w-a1-m6-cA 3v3w-a1-m4-cA_3v3w-a1-m5-cA 3v4b-a1-m2-cA_3v4b-a1-m7-cA 3v4b-a1-m3-cA_3v4b-a1-m6-cA 3v4b-a1-m4-cA_3v4b-a1-m5-cA MKIVDAKVIVTCPGRNFVTLKIVTDQGIYGIGDATLNGREKSVVSYLEDYLIPVLIGRDPQQIEDIWQFFYRGAYWRRGPVGMTALAAIDVALWDIKAKLANMPLYQLLGGKSRERILSYTHANGKDLDSTLEAVRKAKDKGYKAIRVQCGIPGIDLPSVEVWSTEKYLNYIPDVFAAVRKEFGPDIHLLHDVHHRLTPIEAARLGKALEPYHLFWMEDAVPAENQESFKLIRQHTTTPLAVGEVFNSIHDCRELIQNQWIDYIRTTIVHAGGISQMRRIADFASLFHVRTGFHGATDLSPVCMGAALHFDYWVPNFGIQEHMAHSEQMNAVFPHAYTFNDGYFTPGEKPGHGVDIDEKLAAQYPYKRACLPVNRLEDGTLWHW MKIVDAKVIVTCPGRNFVTLKIVTDQGIYGIGDATLNGREKSVVSYLEDYLIPVLIGRDPQQIEDIWQFFYRGAYWRRGPVGMTALAAIDVALWDIKAKLANMPLYQLLGGKSRERILSYTHANGKDLDSTLEAVRKAKDKGYKAIRVQCGIPGIDLPSVEVWSTEKYLNYIPDVFAAVRKEFGPDIHLLHDVHHRLTPIEAARLGKALEPYHLFWMEDAVPAENQESFKLIRQHTTTPLAVGEVFNSIHDCRELIQNQWIDYIRTTIVHAGGISQMRRIADFASLFHVRTGFHGATDLSPVCMGAALHFDYWVPNFGIQEHMAHSEQMNAVFPHAYTFNDGYFTPGEKPGHGVDIDEKLAAQYPYKRACLPVNRLEDGTLWHW 3v4b-a1-m3-cA_3v4b-a1-m8-cA Crystal structure of an enolase from the soil bacterium Cellvibrio japonicus (TARGET EFI-502161) with bound MG and L-tartrate B3PDB1 B3PDB1 1.4 X-RAY DIFFRACTION 141 1.0 498211 (Cellvibrio japonicus Ueda107) 498211 (Cellvibrio japonicus Ueda107) 384 384 3v3w-a1-m1-cA_3v3w-a1-m5-cA 3v3w-a1-m2-cA_3v3w-a1-m6-cA 3v3w-a1-m3-cA_3v3w-a1-m8-cA 3v3w-a1-m4-cA_3v3w-a1-m7-cA 3v4b-a1-m1-cA_3v4b-a1-m5-cA 3v4b-a1-m2-cA_3v4b-a1-m6-cA 3v4b-a1-m4-cA_3v4b-a1-m7-cA MKIVDAKVIVTCPGRNFVTLKIVTDQGIYGIGDATLNGREKSVVSYLEDYLIPVLIGRDPQQIEDIWQFFYRGAYWRRGPVGMTALAAIDVALWDIKAKLANMPLYQLLGGKSRERILSYTHANGKDLDSTLEAVRKAKDKGYKAIRVQCGIPGIDLPSVEVWSTEKYLNYIPDVFAAVRKEFGPDIHLLHDVHHRLTPIEAARLGKALEPYHLFWMEDAVPAENQESFKLIRQHTTTPLAVGEVFNSIHDCRELIQNQWIDYIRTTIVHAGGISQMRRIADFASLFHVRTGFHGATDLSPVCMGAALHFDYWVPNFGIQEHMAHSEQMNAVFPHAYTFNDGYFTPGEKPGHGVDIDEKLAAQYPYKRACLPVNRLEDGTLWHW MKIVDAKVIVTCPGRNFVTLKIVTDQGIYGIGDATLNGREKSVVSYLEDYLIPVLIGRDPQQIEDIWQFFYRGAYWRRGPVGMTALAAIDVALWDIKAKLANMPLYQLLGGKSRERILSYTHANGKDLDSTLEAVRKAKDKGYKAIRVQCGIPGIDLPSVEVWSTEKYLNYIPDVFAAVRKEFGPDIHLLHDVHHRLTPIEAARLGKALEPYHLFWMEDAVPAENQESFKLIRQHTTTPLAVGEVFNSIHDCRELIQNQWIDYIRTTIVHAGGISQMRRIADFASLFHVRTGFHGATDLSPVCMGAALHFDYWVPNFGIQEHMAHSEQMNAVFPHAYTFNDGYFTPGEKPGHGVDIDEKLAAQYPYKRACLPVNRLEDGTLWHW 3v4b-a1-m6-cA_3v4b-a1-m8-cA Crystal structure of an enolase from the soil bacterium Cellvibrio japonicus (TARGET EFI-502161) with bound MG and L-tartrate B3PDB1 B3PDB1 1.4 X-RAY DIFFRACTION 52 1.0 498211 (Cellvibrio japonicus Ueda107) 498211 (Cellvibrio japonicus Ueda107) 384 384 3v3w-a1-m1-cA_3v3w-a1-m3-cA 3v3w-a1-m1-cA_3v3w-a1-m4-cA 3v3w-a1-m2-cA_3v3w-a1-m3-cA 3v3w-a1-m2-cA_3v3w-a1-m4-cA 3v3w-a1-m5-cA_3v3w-a1-m7-cA 3v3w-a1-m5-cA_3v3w-a1-m8-cA 3v3w-a1-m6-cA_3v3w-a1-m7-cA 3v3w-a1-m6-cA_3v3w-a1-m8-cA 3v4b-a1-m1-cA_3v4b-a1-m3-cA 3v4b-a1-m1-cA_3v4b-a1-m4-cA 3v4b-a1-m2-cA_3v4b-a1-m3-cA 3v4b-a1-m2-cA_3v4b-a1-m4-cA 3v4b-a1-m5-cA_3v4b-a1-m7-cA 3v4b-a1-m5-cA_3v4b-a1-m8-cA 3v4b-a1-m6-cA_3v4b-a1-m7-cA MKIVDAKVIVTCPGRNFVTLKIVTDQGIYGIGDATLNGREKSVVSYLEDYLIPVLIGRDPQQIEDIWQFFYRGAYWRRGPVGMTALAAIDVALWDIKAKLANMPLYQLLGGKSRERILSYTHANGKDLDSTLEAVRKAKDKGYKAIRVQCGIPGIDLPSVEVWSTEKYLNYIPDVFAAVRKEFGPDIHLLHDVHHRLTPIEAARLGKALEPYHLFWMEDAVPAENQESFKLIRQHTTTPLAVGEVFNSIHDCRELIQNQWIDYIRTTIVHAGGISQMRRIADFASLFHVRTGFHGATDLSPVCMGAALHFDYWVPNFGIQEHMAHSEQMNAVFPHAYTFNDGYFTPGEKPGHGVDIDEKLAAQYPYKRACLPVNRLEDGTLWHW MKIVDAKVIVTCPGRNFVTLKIVTDQGIYGIGDATLNGREKSVVSYLEDYLIPVLIGRDPQQIEDIWQFFYRGAYWRRGPVGMTALAAIDVALWDIKAKLANMPLYQLLGGKSRERILSYTHANGKDLDSTLEAVRKAKDKGYKAIRVQCGIPGIDLPSVEVWSTEKYLNYIPDVFAAVRKEFGPDIHLLHDVHHRLTPIEAARLGKALEPYHLFWMEDAVPAENQESFKLIRQHTTTPLAVGEVFNSIHDCRELIQNQWIDYIRTTIVHAGGISQMRRIADFASLFHVRTGFHGATDLSPVCMGAALHFDYWVPNFGIQEHMAHSEQMNAVFPHAYTFNDGYFTPGEKPGHGVDIDEKLAAQYPYKRACLPVNRLEDGTLWHW 3v4c-a1-m1-cB_3v4c-a1-m1-cA Crystal structure of a semialdehyde dehydrogenase from Sinorhizobium meliloti 1021 Q92WS7 Q92WS7 1.91 X-RAY DIFFRACTION 161 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 491 493 FTPKGKHLVAGEWLDGAGTFASAPAHGPAHDFAVGTVELVNRACEAAEEAFWTYGYSSRKERAAFLRAIADEIEARAEAITEIGSQETGLPEARLNGERGRTTGQLRLFADHIEKGDYLDRRVDAAPERQPAPRQEIRLVQRPVGPVAVFGASNFPLAFSTAGGDTAAALAAGCPVVVKGHSAHPGTGEIVAEAVDAAIRKTGVHPGVFSLIQGGSRDVGHALVQHPHIKAVGFTGSLAGGRALFDLCAARPEPIPFFGELGSVNPFLLPEALKARAETLGQGWAGSLTGAGQFCTNPGIAVVIEGADADRFTTAAVEALAKVAPQTLTDGIAKAYRDGQARFATRNAVKPLLATESSGRDASPNLFETTGAQFLADHALGEEVFGPLGLVVRVGSPAEEELARGFQGQLTATIHDAGDLETARRLRPVLERKAGRVLVNGFPTGVEVVDSVHGGPYPASTNFGATSVGTSIRRFLRPVAYQNPEDLLPED IFTPKGKHLVAGEWLDGAGTFASAPAHGPAHDFAVGTVELVNRACEAAEEAFWTYGYSSRKERAAFLRAIADEIEARAEAITEIGSQETGLPEARLNGERGRTTGQLRLFADHIEKGDYLDRRVDAAPERQPAPRQEIRLVQRPVGPVAVFGASNFPLAFSTAGGDTAAALAAGCPVVVKGHSAHPGTGEIVAEAVDAAIRKTGVHPGVFSLIQGGSRDVGHALVQHPHIKAVGFTGSLAGGRALFDLCAARPEPIPFFGELGSVNPFLLPEALKARAETLGQGWAGSLTGAGQFCTNPGIAVVIEGADADRFTTAAVEALAKVAPQTLTDGIAKAYRDGQARFATRNAVKPLLATESSGRDASPNLFETTGAQFLADHALGEEVFGPLGLVVRVGSPAEEELARGFQGQLTATIHDAGDLETARRLRPVLERKAGRVLVNGFPTGVEVVDSVHGGPYPASTNFGATSVGTSIRRFLRPVAYQNPEDLLPEDF 3v4d-a1-m1-cA_3v4d-a1-m1-cC Crystal structure of RutC protein a member of the YjgF family from E.coli P0AFQ6 P0AFQ6 1.95 X-RAY DIFFRACTION 74 1.0 217992 (Escherichia coli O6) 217992 (Escherichia coli O6) 119 124 3v4d-a1-m1-cA_3v4d-a1-m1-cF 3v4d-a1-m1-cC_3v4d-a1-m1-cF 3v4d-a2-m1-cB_3v4d-a2-m1-cD 3v4d-a2-m1-cE_3v4d-a2-m1-cD PKSVIIPAGPFVPGTLADGVVYVSGTLAFDQHNNVLFADDPKAQTRHVLETIRKVIETAGGTADVTFNSIFITDWKNYAAINEIYAEFFPGDKPARFCIQCGLVKPDALVEIATIAHIA GHPKSVIIPAGSAPFVPGTLADGVVYVSGTLAFDQHNNVLFADDPKAQTRHVLETIRKVIETAGGTADVTFNSIFITDWKNYAAINEIYAEFFPGDKPARFCIQCGLVKPDALVEIATIAHIAK 3v4g-a1-m2-cA_3v4g-a1-m6-cA 1.60 Angstrom resolution crystal structure of an arginine repressor from Vibrio vulnificus CMCP6 Q7MP98 Q7MP98 1.6 X-RAY DIFFRACTION 43 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 145 145 3v4g-a1-m1-cA_3v4g-a1-m4-cA 3v4g-a1-m3-cA_3v4g-a1-m5-cA KQDNLVRAFKALLKEERFGSQGEIVEALKQEGFENINQSKVSRMLTKFGAVRTRNAKMEMVYCLPTVSSSLRELVLDVDHNQALVVIHTGPGAAQLIARMLDSLGKSEGILGVVAGDDTIFITPTLTITTEQLFKSVCELFEYAG KQDNLVRAFKALLKEERFGSQGEIVEALKQEGFENINQSKVSRMLTKFGAVRTRNAKMEMVYCLPTVSSSLRELVLDVDHNQALVVIHTGPGAAQLIARMLDSLGKSEGILGVVAGDDTIFITPTLTITTEQLFKSVCELFEYAG 3v4g-a1-m5-cA_3v4g-a1-m6-cA 1.60 Angstrom resolution crystal structure of an arginine repressor from Vibrio vulnificus CMCP6 Q7MP98 Q7MP98 1.6 X-RAY DIFFRACTION 56 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 145 145 3v4g-a1-m1-cA_3v4g-a1-m2-cA 3v4g-a1-m1-cA_3v4g-a1-m3-cA 3v4g-a1-m2-cA_3v4g-a1-m3-cA 3v4g-a1-m4-cA_3v4g-a1-m5-cA 3v4g-a1-m4-cA_3v4g-a1-m6-cA KQDNLVRAFKALLKEERFGSQGEIVEALKQEGFENINQSKVSRMLTKFGAVRTRNAKMEMVYCLPTVSSSLRELVLDVDHNQALVVIHTGPGAAQLIARMLDSLGKSEGILGVVAGDDTIFITPTLTITTEQLFKSVCELFEYAG KQDNLVRAFKALLKEERFGSQGEIVEALKQEGFENINQSKVSRMLTKFGAVRTRNAKMEMVYCLPTVSSSLRELVLDVDHNQALVVIHTGPGAAQLIARMLDSLGKSEGILGVVAGDDTIFITPTLTITTEQLFKSVCELFEYAG 3v4h-a2-m1-cB_3v4h-a2-m6-cB Crystal structure of a type VI secretion system effector from Yersinia pestis Q8CLE0 Q8CLE0 2.1 X-RAY DIFFRACTION 18 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 129 129 3v4h-a2-m1-cA_3v4h-a2-m5-cA 3v4h-a2-m2-cA_3v4h-a2-m4-cA 3v4h-a2-m2-cB_3v4h-a2-m5-cB 3v4h-a2-m3-cA_3v4h-a2-m6-cA 3v4h-a2-m3-cB_3v4h-a2-m4-cB DMFIKIDGIEGESLDANHKNEIQVLAWNWDVAQKASVSDFCFAHYIDKASPNLLSYCLLGKHIKNVQFVLRKAPLEYLTIKFTDVIITRVDMAGSLETRPREEIRFSFTKMTQDYVMQKSGVISANYDV DMFIKIDGIEGESLDANHKNEIQVLAWNWDVAQKASVSDFCFAHYIDKASPNLLSYCLLGKHIKNVQFVLRKAPLEYLTIKFTDVIITRVDMAGSLETRPREEIRFSFTKMTQDYVMQKSGVISANYDV 3v4h-a2-m6-cB_3v4h-a2-m3-cA Crystal structure of a type VI secretion system effector from Yersinia pestis Q8CLE0 Q8CLE0 2.1 X-RAY DIFFRACTION 11 0.984 632 (Yersinia pestis) 632 (Yersinia pestis) 129 131 3v4h-a2-m1-cB_3v4h-a2-m5-cA 3v4h-a2-m2-cB_3v4h-a2-m4-cA 3v4h-a2-m3-cB_3v4h-a2-m6-cA 3v4h-a2-m4-cB_3v4h-a2-m2-cA 3v4h-a2-m5-cB_3v4h-a2-m1-cA DMFIKIDGIEGESLDANHKNEIQVLAWNWDVAQKASVSDFCFAHYIDKASPNLLSYCLLGKHIKNVQFVLRKAPLEYLTIKFTDVIITRVDMAGSLETRPREEIRFSFTKMTQDYVMQKSGVISANYDV DMFIKIDGIEGESLDANHKNEIQVLAWNWDVAQHKASVSDFCFAHYIDKASPNLLSYCLLGKHIKNVQFVLRKPLEYLTIKFTDVIITRVDMAGSLEDRPREEIRFSFTKMTQDYVMQNAKSGVISANYDV 3v4h-a2-m6-cB_3v4h-a2-m6-cA Crystal structure of a type VI secretion system effector from Yersinia pestis Q8CLE0 Q8CLE0 2.1 X-RAY DIFFRACTION 61 0.984 632 (Yersinia pestis) 632 (Yersinia pestis) 129 131 3v4h-a1-m1-cB_3v4h-a1-m1-cA 3v4h-a1-m1-cB_3v4h-a1-m3-cA 3v4h-a1-m2-cB_3v4h-a1-m1-cA 3v4h-a1-m2-cB_3v4h-a1-m2-cA 3v4h-a1-m3-cB_3v4h-a1-m2-cA 3v4h-a1-m3-cB_3v4h-a1-m3-cA 3v4h-a2-m1-cB_3v4h-a2-m1-cA 3v4h-a2-m1-cB_3v4h-a2-m3-cA 3v4h-a2-m2-cB_3v4h-a2-m1-cA 3v4h-a2-m2-cB_3v4h-a2-m2-cA 3v4h-a2-m3-cB_3v4h-a2-m2-cA 3v4h-a2-m3-cB_3v4h-a2-m3-cA 3v4h-a2-m4-cB_3v4h-a2-m4-cA 3v4h-a2-m4-cB_3v4h-a2-m6-cA 3v4h-a2-m5-cB_3v4h-a2-m4-cA 3v4h-a2-m5-cB_3v4h-a2-m5-cA 3v4h-a2-m6-cB_3v4h-a2-m5-cA DMFIKIDGIEGESLDANHKNEIQVLAWNWDVAQKASVSDFCFAHYIDKASPNLLSYCLLGKHIKNVQFVLRKAPLEYLTIKFTDVIITRVDMAGSLETRPREEIRFSFTKMTQDYVMQKSGVISANYDV DMFIKIDGIEGESLDANHKNEIQVLAWNWDVAQHKASVSDFCFAHYIDKASPNLLSYCLLGKHIKNVQFVLRKPLEYLTIKFTDVIITRVDMAGSLEDRPREEIRFSFTKMTQDYVMQNAKSGVISANYDV 3v4k-a3-m1-cA_3v4k-a3-m2-cB First-In-Class Small Molecule Inhibitors of the Single-strand DNA Cytosine Deaminase APOBEC3G Q9HC16 Q9HC16 1.38 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 3v4j-a3-m1-cA_3v4j-a3-m2-cB HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ 3v4k-a4-m1-cA_3v4k-a4-m3-cB First-In-Class Small Molecule Inhibitors of the Single-strand DNA Cytosine Deaminase APOBEC3G Q9HC16 Q9HC16 1.38 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ 3v4k-a4-m1-cB_3v4k-a4-m3-cA First-In-Class Small Molecule Inhibitors of the Single-strand DNA Cytosine Deaminase APOBEC3G Q9HC16 Q9HC16 1.38 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ 3v4k-a4-m3-cA_3v4k-a4-m3-cB First-In-Class Small Molecule Inhibitors of the Single-strand DNA Cytosine Deaminase APOBEC3G Q9HC16 Q9HC16 1.38 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 3v4k-a1-m1-cA_3v4k-a1-m1-cB 3v4k-a2-m1-cA_3v4k-a2-m1-cB 3v4k-a3-m1-cA_3v4k-a3-m1-cB 3v4k-a3-m2-cA_3v4k-a3-m2-cB 3v4k-a4-m1-cA_3v4k-a4-m1-cB HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ HSMDPPTFTFNFNNEPWVRGRHETYLCYEVERMHNDTWVKLNQRRGFLANQAPHKHGFLEGRHAELCFLDVIPFWKLDLDQDYRVTCFTSWSPCFSCAQEMAKFISKNKHVSLCIKTARIYDDQGRCQEGLRTLAEAGAKISIMTYSEFKHCWDTFVDHQGAPFQPWDGLDEHSQDLSGRLRAILQ 3v4m-a1-m1-cA_3v4m-a1-m2-cA Crystal structure of a RNA binding domain of a U2 small nuclear ribonucleoprotein auxiliary factor 2 (U2AF) from Mus musculus at 1.80 A resolution P26369 P26369 1.8 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 102 102 GGHPTEVLCLNVLPEELLDDEEYEEIVEDVRDECSKYGLVKSIEIPRPVDGVEVPGCGKIFVEFTSVFDCQKAQGLTGRKFANRVVVTKYCDPDSYHRRDFW GGHPTEVLCLNVLPEELLDDEEYEEIVEDVRDECSKYGLVKSIEIPRPVDGVEVPGCGKIFVEFTSVFDCQKAQGLTGRKFANRVVVTKYCDPDSYHRRDFW 3v4m-a1-m2-cB_3v4m-a1-m1-cA Crystal structure of a RNA binding domain of a U2 small nuclear ribonucleoprotein auxiliary factor 2 (U2AF) from Mus musculus at 1.80 A resolution P26369 P26369 1.8 X-RAY DIFFRACTION 24 1.0 10090 (Mus musculus) 10090 (Mus musculus) 101 102 3v4m-a1-m1-cB_3v4m-a1-m2-cA GHPTEVLCLNVLPEELLDDEEYEEIVEDVRDECSKYGLVKSIEIPRPVDGVEVPGCGKIFVEFTSVFDCQKAQGLTGRKFANRVVVTKYCDPDSYHRRDFW GGHPTEVLCLNVLPEELLDDEEYEEIVEDVRDECSKYGLVKSIEIPRPVDGVEVPGCGKIFVEFTSVFDCQKAQGLTGRKFANRVVVTKYCDPDSYHRRDFW 3v4m-a2-m1-cB_3v4m-a2-m1-cA Crystal structure of a RNA binding domain of a U2 small nuclear ribonucleoprotein auxiliary factor 2 (U2AF) from Mus musculus at 1.80 A resolution P26369 P26369 1.8 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 101 102 3v4m-a1-m1-cB_3v4m-a1-m1-cA 3v4m-a1-m2-cB_3v4m-a1-m2-cA GHPTEVLCLNVLPEELLDDEEYEEIVEDVRDECSKYGLVKSIEIPRPVDGVEVPGCGKIFVEFTSVFDCQKAQGLTGRKFANRVVVTKYCDPDSYHRRDFW GGHPTEVLCLNVLPEELLDDEEYEEIVEDVRDECSKYGLVKSIEIPRPVDGVEVPGCGKIFVEFTSVFDCQKAQGLTGRKFANRVVVTKYCDPDSYHRRDFW 3v4n-a6-m1-cC_3v4n-a6-m2-cD The Biochemical and Structural Basis for Inhibition of Enterococcus faecalis HMG-CoA Synthatse, mvaS, by Hymeglusin Q9FD71 Q9FD71 1.6 X-RAY DIFFRACTION 211 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 382 382 1x9e-a1-m1-cA_1x9e-a1-m1-cB 1ysl-a1-m1-cA_1ysl-a1-m1-cB 2hdb-a1-m1-cA_2hdb-a1-m1-cB 3v4n-a5-m1-cB_3v4n-a5-m1-cA 3v4x-a5-m1-cB_3v4x-a5-m1-cA 3v4x-a6-m1-cC_3v4x-a6-m2-cD MTIGIDKISFFVPPYYIDMTALAEARNVDPGKFHIGIGQDQMAVNPISQDIVTFAANAAEAILTKEDKEAIDMVIVGTESSIDESKAAAVVLHRLMGIQPFARSFEIKEAYGATAGLQLAKNHVALHPDKKVLVVAADIAKYGLNSGGEPTQGAGAVAMLVSSEPRILALKEDNVMLTQDIYDFWRPTGHPYPMVDGPLSNETYIQSFAQVWDEHKKRTGLDFADYDALAFHIPYTKMGKKALLAKISDQTEAEQERILARYEESIIYSRRVGNLYTGSLYLGLISLLENATTLTAGNQIGLFSYGSGAVAEFFTGELVAGYQNHLQKETHLALLDNRTELSIAEYEAMFAETLDTDIDQTLEDELKYSISAINNTVRSYRN MTIGIDKISFFVPPYYIDMTALAEARNVDPGKFHIGIGQDQMAVNPISQDIVTFAANAAEAILTKEDKEAIDMVIVGTESSIDESKAAAVVLHRLMGIQPFARSFEIKEAYGATAGLQLAKNHVALHPDKKVLVVAADIAKYGLNSGGEPTQGAGAVAMLVSSEPRILALKEDNVMLTQDIYDFWRPTGHPYPMVDGPLSNETYIQSFAQVWDEHKKRTGLDFADYDALAFHIPYTKMGKKALLAKISDQTEAEQERILARYEESIIYSRRVGNLYTGSLYLGLISLLENATTLTAGNQIGLFSYGSGAVAEFFTGELVAGYQNHLQKETHLALLDNRTELSIAEYEAMFAETLDTDIDQTLEDELKYSISAINNTVRSYRN 3v4q-a2-m1-cA_3v4q-a2-m2-cA Structure of R335W mutant of human Lamin P02545 P02545 3.06 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 1x8y-a1-m1-cA_1x8y-a1-m2-cA 3v4w-a2-m1-cA_3v4w-a2-m2-cA 3v5b-a2-m1-cA_3v5b-a2-m2-cA 6yjd-a1-m1-cA_6yjd-a1-m2-cA LAAKEAKLRDLEDSLARERDTSWRLLAEKEREMAEMRARMQQQLDEYQELLDIKLALDMEIHAYRKLLEGEEER LAAKEAKLRDLEDSLARERDTSWRLLAEKEREMAEMRARMQQQLDEYQELLDIKLALDMEIHAYRKLLEGEEER 3v4r-a1-m1-cB_3v4r-a1-m1-cA Crystal structure of a UvrB dimer-DNA complex P37954 P37954 3.25 X-RAY DIFFRACTION 85 0.997 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 579 586 DRFELVSKYQPQGDQPKAIEKLVKGIQEGKKHQTLLGATGTGKTFTVSNLIKEVNKPTLVIAHNKTLAGQLYSEFKEFFPNNAVEYFVSYYDYYQPEAYVPQTDTFIEKDASINDEIDKLRHSATSALFERRDVIIIASVSCIYGLGSPEEYREMVVSLRTEMEIERNELLRKLVDIQYARNDIDFQRGTFRVRGDVVEIFPASRDEHCVRVEFFGDEIERIREVDALTGEILGDRDHVAIFPASMEKAIQNIEKELEEQLKVMHENGKLLEAQRLEQRTRYDLEMMREMGFCSGIENYSRHLTLRPPGSTPYTLLDYFPDDFMIVVDESHVTIPQVRGMFNGDQARKQVLVDHGFRLPSALDNRPLRFEEFEKHMHNIVYVSATPGPYEIEHTDEMVEQIIRPTGLLDPLIDVRPIEGQIDDLIGEIQARIERNERVLVTTLTKKMSEDLTDYLKEIGIKVNYLHSEIKTLERIEIIRDLRLGKYDVLVGINLLREGLDIPEVSLVAILDADKEGFLRSERSLIQTIGRAARNAEGRVIMYADKITKSMEIAINETKRRREQQERFNEEHGITPKTIN DRFELVSKYQPQGDQPKAIEKLVKGIQEGKKHQTLLGATGTGKTFTVSNLIKEVNKPTLVIAHNKTLAGQLYSEFKEFFPNNAVEYFVSYYDYYQPEAYVPQTDTFIEKDASINDEIDKLRHSATSALFERRDVIIIASVSCIYGLGSPEEYREMVVSLRTEMEIERNELLRKLVDIQYARNDIDFQRGTFRVRGDVVEIFPRDEHCVRVEFFGDEIERIREVDALTGEILGDRDHVAIFPASHFVTRAEKMEKAIQNIEKELEEQLKVMHENGKLLEAQRLEQRTRYDLEMMREMGFCSGIENYSRHLTLRPPGSTPYTLLDYFPDDFMIVVDESHVTIPQVRGMFNGDQARKQVLVDHGFRLPSALDNRPLRFEEFEKHMHNIVYVSATPGPYEIEHTDEMVEQIIRPTGLLDPLIDVRPIEGQIDDLIGEIQARIERNERVLVTTLTKKMSEDLTDYLKEIGIKVNYLHSEIKTLERIEIIRDLRLGKYDVLVGINLLREGLDIPEVSLVAILDADKEGFLRSERSLIQTIGRAARNAEGRVIMYADKITKSMEIAINETKRRREQQERFNEEHGITPKTINK 3v5n-a1-m1-cD_3v5n-a1-m1-cA The crystal structure of oxidoreductase from Sinorhizobium meliloti Q92LX1 Q92LX1 2.802 X-RAY DIFFRACTION 84 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 340 346 3v5n-a1-m1-cC_3v5n-a1-m1-cB QKRIRLGVGGGIGAVHRIAARLDDHYELVAGALSSTPEKAEASGRELGLDPSRVYSDFKEAIREAKLKNGIEAVAIVTPNHVHYAAAKEFLKRGIHVICDKPLTSTLADAKKLKKAADESDALFVLTHNYTGYPVRQAREIENGDIGAVRLVQEYPQDWLTGSTGDIGTHAYNLGCFVSGLELEELAADLDSFVGGRQLDDNAHVLRFREKDGTRAKGLWCSQVAPGHENGLVRVYGTKGGLEWTQKDPNYLWYTPFGEPKRLLTRAGAGASPAAARVSRIPSGHPEGYLEGFANIYSEAARAIYAKRDPSVIYPTIDDGRGTFVDACVRSSERNGAWIK QKRIRLGVGGGAFIGAVHRIAARLDDHYELVAGALSSTPEKAEASGRELGLDPSRVYSDFKEAIREAKLKNGIEAVAIVTPNHVHYAAAKEFLKRGIHVICDKPLTSTLADAKKLKKAADESDALFVLTHNYTGYPVRQAREIENGDIGAVRLVQEYPQDWLTENGGSTGDIGTHAYNLGCFVSGLELEELAADLDSFVGGRQLDDNAHVLRFREKDGTRAKGLWCSQVAPGHENGLVRVYGTKGGLEWTQKDPNYLWYTPFGEPKRLLTRAGAGASPAAARVSRIPSGHPEGYLEGFANIYSEAARAIYAKRADPSVIYPTIDDGRGTFVDACVRSSERNGAWIK 3v5n-a1-m1-cD_3v5n-a1-m1-cB The crystal structure of oxidoreductase from Sinorhizobium meliloti Q92LX1 Q92LX1 2.802 X-RAY DIFFRACTION 31 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 340 345 3v5n-a1-m1-cC_3v5n-a1-m1-cA QKRIRLGVGGGIGAVHRIAARLDDHYELVAGALSSTPEKAEASGRELGLDPSRVYSDFKEAIREAKLKNGIEAVAIVTPNHVHYAAAKEFLKRGIHVICDKPLTSTLADAKKLKKAADESDALFVLTHNYTGYPVRQAREIENGDIGAVRLVQEYPQDWLTGSTGDIGTHAYNLGCFVSGLELEELAADLDSFVGGRQLDDNAHVLRFREKDGTRAKGLWCSQVAPGHENGLVRVYGTKGGLEWTQKDPNYLWYTPFGEPKRLLTRAGAGASPAAARVSRIPSGHPEGYLEGFANIYSEAARAIYAKRDPSVIYPTIDDGRGTFVDACVRSSERNGAWIK QKRIRLGVGGGAFIGAVHRIAARLDDHYELVAGALSSTPEKAEASGRELGLDPSRVYSDFKEAIREAKLKNGIEAVAIVTPNHVHYAAAKEFLKRGIHVICDKPLTSTLADAKKLKKAADESDALFVLTHNYTGYPVRQAREIENGDIGAVRLVQEYPQDWLTEGGSTGDIGTHAYNLGCFVSGLELEELAADLDSFVGGRQLDDNAHVLRFREKDGTRAKGLWCSQVAPGHENGLVRVYGTKGGLEWTQKDPNYLWYTPFGEPKRLLTRAGAGASPAAARVSRIPSGHPEGYLEGFANIYSEAARAIYAKRADPSVIYPTIDDGRGTFVDACVRSSERNGAWIK 3v5n-a1-m1-cD_3v5n-a1-m1-cC The crystal structure of oxidoreductase from Sinorhizobium meliloti Q92LX1 Q92LX1 2.802 X-RAY DIFFRACTION 100 0.991 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 340 342 3v5n-a1-m1-cB_3v5n-a1-m1-cA QKRIRLGVGGGIGAVHRIAARLDDHYELVAGALSSTPEKAEASGRELGLDPSRVYSDFKEAIREAKLKNGIEAVAIVTPNHVHYAAAKEFLKRGIHVICDKPLTSTLADAKKLKKAADESDALFVLTHNYTGYPVRQAREIENGDIGAVRLVQEYPQDWLTGSTGDIGTHAYNLGCFVSGLELEELAADLDSFVGGRQLDDNAHVLRFREKDGTRAKGLWCSQVAPGHENGLVRVYGTKGGLEWTQKDPNYLWYTPFGEPKRLLTRAGAGASPAAARVSRIPSGHPEGYLEGFANIYSEAARAIYAKRDPSVIYPTIDDGRGTFVDACVRSSERNGAWIK QKRIRLGVGGAFIGAVHRIAARLDDHYELVAGALSSTPEKAEASGRELGLDPSRVYSDFKEAIREAKLKNGIEAVAIVTPNHVHYAAAKEFLKRGIHVICDKPLTSTLADAKKLKKAADESDALFVLTHNYTGYPVRQAREIENGDIGAVRLVQEYPQDWLTEGGSTGDIGTHAYNLGCFVSGLELEELAADLDSFVGGRQLDDNAHVLRFREKDGTRAKGLWCSQVAPGHENGLVRVYGTKGGLEWTQKDPNYLWYTPFGEPKRLLTRAGAGASPAAARVSRIPSGHPEGYLEGFANIYSEAARAIYAADPSVIYPTIDDGRGTFVDACVRSSERNGAWIK 3v5r-a3-m1-cA_3v5r-a3-m3-cA Crystal structure of the unliganded form of Gal3p P13045 P13045 2.099 X-RAY DIFFRACTION 37 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 499 499 FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSNKAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSNKAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ 3v5r-a3-m3-cB_3v5r-a3-m3-cA Crystal structure of the unliganded form of Gal3p P13045 P13045 2.099 X-RAY DIFFRACTION 105 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 497 499 3v5r-a1-m1-cB_3v5r-a1-m1-cA 3v5r-a2-m1-cB_3v5r-a2-m1-cA 3v5r-a2-m2-cB_3v5r-a2-m2-cA 3v5r-a3-m1-cB_3v5r-a3-m1-cA FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSNKAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ 3v5r-a4-m3-cB_3v5r-a4-m5-cB Crystal structure of the unliganded form of Gal3p P13045 P13045 2.099 X-RAY DIFFRACTION 57 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 497 497 3v5r-a2-m1-cB_3v5r-a2-m2-cB FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ 3v5r-a4-m5-cB_3v5r-a4-m4-cA Crystal structure of the unliganded form of Gal3p P13045 P13045 2.099 X-RAY DIFFRACTION 14 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 497 499 3v5r-a3-m1-cB_3v5r-a3-m3-cA 3v5r-a3-m3-cB_3v5r-a3-m1-cA 3v5r-a4-m3-cB_3v5r-a4-m1-cA FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ FEQKHLAVVDAFFQTYHVKPDFIARSPGRVNLIGEHIDYCDFSVLPLAIDVDMLCAVKILDEKNPSITLTNADPKFAQRKFDLPLDGSYMAIDPSVSEWSNYFKCGLHVAHSYLKKIAPERFNNTPLVGAQIFCQSDIPTGGGLSSAFTCAAALATIRANMGKNFDISKKDLTRITAVAEHYVGVNNGGMDQATSVYGEEDHALYVEFRPKLKATPFKFPQLKNHEISFVIANTLVKSNKAPTNYNLRVIEVTVAANALATRYSVALPSHKDNSNSERGNLRDFMDAYYARYENQAQPWNGDIGTGIERLLKMLQLVEESFSRKKSGFTVHEASTALNCSREEFTRDYLTTFPVRFQVLKLYQRAKHVYSESLRVLKALKMMTSATFHTDEDFFTDFGRLMNESQASCDKLYECSCIETNQICSIALANGSFGSRLTGAGWGGCTIHLVPSGANGNVEQVRKALIEKFYNVRYPDLTDEELKDAIIVSKPALGTCLYEQ 3v64-a1-m1-cB_3v64-a1-m1-cA Crystal Structure of agrin and LRP4 P25304 P25304 2.85 X-RAY DIFFRACTION 23 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 190 191 3v65-a1-m1-cA_3v65-a1-m1-cC LETLAFDGRTYIEYLNAVIESELTNEIPAEKALQSNHFELSLRTEATQGLVLWIGKAAERADYMALAIVDGHLQLSYDLGSQPVVLRSTVKVNTNRWLRIRAHREHREGSLQVGNEAPVTGSSPLGATQLDTDGALWLGGLQKLPVGQALPKAYGTGFVGCLRDVVVGHRQLHLLEDAVTKPELRPCPTP ALETLAFDGRTYIEYLNAVIESELTNEIPAEKALQSNHFELSLRTEATQGLVLWIGKAAERADYMALAIVDGHLQLSYDLGSQPVVLRSTVKVNTNRWLRIRAHREHREGSLQVGNEAPVTGSSPLGATQLDTDGALWLGGLQKLPVGQALPKAYGTGFVGCLRDVVVGHRQLHLLEDAVTKPELRPCPTP 3v67-a1-m1-cB_3v67-a1-m1-cA Periplasmic domain of Vibrio parahaemolyticus CpxA Q87KW6 Q87KW6 2.3 X-RAY DIFFRACTION 59 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 131 132 RKARDIPDEHYQRIIETRDAIQNKYSKETDLGRILFRVEGNRAGKHDPRPRVFFSDYNGNVLTTDKRSNFQLRAMQNFVTSIEDYNKPKQRLYGRYMIAGPVPIVLADSELLMYVGFKWNEPPPLLLRLFD PRKARDIPDEHYQRIIETRDAIQNKYSKETDLGRILFRVEGNRAGKHDPRPRVFFSDYNGNVLTTDKRSNFQLRAMQNFVTSIEDYNKPKQRLYGRYMIAGPVPIVLADSELLMYVGFKWNEPPPLLLRLFD 3v69-a1-m1-cB_3v69-a1-m1-cA Filia-N crystal structure Q9CWU5 Q9CWU5 2.2 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 112 116 SLKRFQTLVPLDHKQGTLFEIIGEPKLPKWFHVECLEDPKRLYVEPRLLEIMFGKDGEHIPHLESMLHTLIHVNVWGPERRAEIWIFGPPPFRRDVDRMLTDLAHYCRMKLM ASLKRFQTLVPLDHKQGTLFEIIGEPKLPKWFHVECLEDPKRLYVEPRLLEIMFGKDGEHIPHLESMLHTLIHVNVWGPERRAEIWIFGPPPFRRDVDRMLTDLAHYCRMKLMEIE 3v6b-a1-m1-cA_3v6b-a1-m2-cA VEGFR-2/VEGF-E complex structure P52584 P52584 3.205 X-RAY DIFFRACTION 100 1.0 10258 (Orf virus) 10258 (Orf virus) 94 94 TKGWSEVLKGSECKPRPIVVPVSETHPELTSQRFNPPCVTLMRCGGCCNDESLECVPTEEVNVTMELLGASGSGSNGMQRLSFVEHKKCDCRPR TKGWSEVLKGSECKPRPIVVPVSETHPELTSQRFNPPCVTLMRCGGCCNDESLECVPTEEVNVTMELLGASGSGSNGMQRLSFVEHKKCDCRPR 3v6m-a3-m1-cF_3v6m-a3-m1-cG Inhibition of caspase-6 activity by single mutation outside the active site P55212 P55212 2.692 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 203 204 2wdp-a1-m1-cA_2wdp-a1-m1-cB 2wdp-a2-m1-cC_2wdp-a2-m1-cD 3k7e-a1-m1-cB_3k7e-a1-m1-cA 3k7e-a1-m1-cC_3k7e-a1-m1-cD 3nkf-a1-m1-cD_3nkf-a1-m1-cC 3nkf-a3-m1-cD_3nkf-a3-m1-cC 3p45-a1-m1-cD_3p45-a1-m1-cB 3p45-a3-m1-cL_3p45-a3-m1-cJ 3s8e-a1-m1-cB_3s8e-a1-m1-cA 3s8e-a2-m1-cC_3s8e-a2-m1-cD 3s8e-a3-m1-cE_3s8e-a3-m1-cF 3s8e-a4-m1-cG_3s8e-a4-m1-cH 3v6m-a1-m1-cB_3v6m-a1-m1-cA 3v6m-a2-m1-cD_3v6m-a2-m1-cC 3v6m-a4-m1-cI_3v6m-a4-m1-cJ 4fxo-a1-m1-cA_4fxo-a1-m1-cB 4fxo-a1-m1-cC_4fxo-a1-m1-cD 6deu-a1-m1-cA_6deu-a1-m2-cA 6deu-a2-m1-cB_6deu-a2-m2-cB 6dev-a1-m1-cA_6dev-a1-m1-cB 6dev-a2-m1-cD_6dev-a2-m1-cC DPAEKYKMDHRRRGIALIFNHERFFWHLTLPERRGTCADRDNLTRRFSDLGFEVKCFNDLKAEELLLKIHEVSTVSHADADCFVCVFLSHGEGNHIYAYDAKIEIQTLTGLFKGDKCHSLVGKPKIFIIQACYTLPAGADFLMCYSVTVNGSWYIQDLCEMLGKYGSSLEFTELLTLVNRKVEQRVPCFASMLTKKLHFFPKS FDPAEKYKMDHRRRGIALIFNHERFFWHLTLPERRGTCADRDNLTRRFSDLGFEVKCFNDLKAEELLLKIHEVSTVSHADADCFVCVFLSHGEGNHIYAYDAKIEIQTLTGLFKGDKCHSLVGKPKIFIIQACYTLPAGADFLMCYSVTVNGSWYIQDLCEMLGKYGSSLEFTELLTLVNRKVEQRVPCFASMLTKKLHFFPKS 3v75-a1-m1-cA_3v75-a1-m2-cA Crystal structure of putative orotidine 5'-phosphate decarboxylase from Streptomyces avermitilis ma-4680 Q827Q5 Q827Q5 1.4 X-RAY DIFFRACTION 180 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 280 280 NLYFQGSLEPFGARLSRADDRGPLCVGIDPHASLLADWGLSDDVAGLERFSRTVVEALGEHVAVFKPQSAFFERFGSRGVAVLEKTVAEARAAGALVVDAKRGDIGSTAAYAEAFLRKDSPLFSDALTVSPYLGYGSLRPAVELARESGAGLFVLALTSNPEGGEVQHAVRTDGRDVAATLAHLAAENAGEEPLGSFGAVVGATLGDLSSYDLDINGPLLAPGIGAQGAAPADLPGVFGAAVRNVVPNVSRGVLRHGPDVRALRTAADRFAEEIRAAVAA NLYFQGSLEPFGARLSRADDRGPLCVGIDPHASLLADWGLSDDVAGLERFSRTVVEALGEHVAVFKPQSAFFERFGSRGVAVLEKTVAEARAAGALVVDAKRGDIGSTAAYAEAFLRKDSPLFSDALTVSPYLGYGSLRPAVELARESGAGLFVLALTSNPEGGEVQHAVRTDGRDVAATLAHLAAENAGEEPLGSFGAVVGATLGDLSSYDLDINGPLLAPGIGAQGAAPADLPGVFGAAVRNVVPNVSRGVLRHGPDVRALRTAADRFAEEIRAAVAA 3v76-a1-m1-cA_3v76-a1-m2-cA The crystal structure of a flavoprotein from Sinorhizobium meliloti Q92RY0 Q92RY0 2.51 X-RAY DIFFRACTION 72 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 380 380 QDVVIIGAGAAGCAIEAGKRGRRVLVIDHARAPGEKIRISGGGRCNFTNIHASPRNFLSGNPHFCKSALARYRPQDFVALVERHGIGWHEKTLGQLFCDHSAKDIIRLAEKEAGVQLRLETSIGEVERTASGFRVTTSAGTVDAASLVVASGGKSIPKGATGLAYRIAEQFGLPVVETRPALVPLTLDQAQLAKLGALAGVAADAEARFGKAAFREAVLITHRGLSGPAILQISSYWREGEEIVLRLPDIDIASILKGRRANGRQAVQTALADILPRRLAQFFADEAKLTGRLADLSDKTIDALASSIQVWAVKPAGSEGYRTAEVTLGGVDTRALDSRTQAKEVPGLYFVGECVDVTGWLGGYNFQWAWASGFVAGQDV QDVVIIGAGAAGCAIEAGKRGRRVLVIDHARAPGEKIRISGGGRCNFTNIHASPRNFLSGNPHFCKSALARYRPQDFVALVERHGIGWHEKTLGQLFCDHSAKDIIRLAEKEAGVQLRLETSIGEVERTASGFRVTTSAGTVDAASLVVASGGKSIPKGATGLAYRIAEQFGLPVVETRPALVPLTLDQAQLAKLGALAGVAADAEARFGKAAFREAVLITHRGLSGPAILQISSYWREGEEIVLRLPDIDIASILKGRRANGRQAVQTALADILPRRLAQFFADEAKLTGRLADLSDKTIDALASSIQVWAVKPAGSEGYRTAEVTLGGVDTRALDSRTQAKEVPGLYFVGECVDVTGWLGGYNFQWAWASGFVAGQDV 3v77-a3-m1-cC_3v77-a3-m1-cF Crystal structure of a putative fumarylacetoacetate isomerase/hydrolase from Oleispira antarctica D2YW46 D2YW46 2.1 X-RAY DIFFRACTION 82 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 221 221 3v77-a1-m1-cA_3v77-a1-m1-cD 3v77-a2-m1-cB_3v77-a2-m2-cE AELILNQRPYPRDLGKIVCVGRNYAAHAKELNNPIPSSPILFIKPASSAVPFGPVFSIPKDQGSVHHELEIAILIGKALSRASTEQVAESIAGIGLGLDLTLRDVQDQLKEKGHPWERAKSFDGACPLTEFVAVNLASEDEWQAIGLTLEKNGQFQQQGSSAELFPILPLIAHSEHFSLQPGDVILTGTPAGVGPLEVGDSLSAKLSLEDNVLLTCDGVVI AELILNQRPYPRDLGKIVCVGRNYAAHAKELNNPIPSSPILFIKPASSAVPFGPVFSIPKDQGSVHHELEIAILIGKALSRASTEQVAESIAGIGLGLDLTLRDVQDQLKEKGHPWERAKSFDGACPLTEFVAVNLASEDEWQAIGLTLEKNGQFQQQGSSAELFPILPLIAHSEHFSLQPGDVILTGTPAGVGPLEVGDSLSAKLSLEDNVLLTCDGVVI 3v78-a1-m1-cA_3v78-a1-m1-cB Crystal Structure of Transcriptional Regulator P95092 P95092 2.299 X-RAY DIFFRACTION 108 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 172 173 3t6n-a1-m1-cA_3t6n-a1-m1-cB 3v6g-a1-m1-cA_3v6g-a1-m1-cB AGRRQAIVEAAERVIARQGLGGLSHRRVAAEANVPVGSTTYYFNDLDALREAALAHAANASADLLAQWRSDLDKDRDLAATLARLTTVYLADQDRYRTLNELYMAAAHRPELQRLARLWPDGLLALLEPRIGRRAANAVTVFFDGATLHALITGTPLSTDELTDAIARLVAD PAGRRQAIVEAAERVIARQGLGGLSHRRVAAEANVPVGSTTYYFNDLDALREAALAHAANASADLLAQWRSDLDKDRDLAATLARLTTVYLADQDRYRTLNELYMAAAHRPELQRLARLWPDGLLALLEPRIGRRAANAVTVFFDGATLHALITGTPLSTDELTDAIARLVAD 3v7i-a1-m1-cA_3v7i-a1-m2-cA Germicidin synthase (Gcs) from Streptomyces coelicolor, a type III polyketide synthase Q9K464 Q9K464 2.9 X-RAY DIFFRACTION 174 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 384 384 AMAAYLCAPAVIHGEHSVETREIVEEVRGRHPHAPWAPRIDGIAASTGIESRGWMLPLEAAVAPGGGGDLGAAREALEQDANRAIAALKAVPASQTVQERTAPAWEAVQAYGERAARGALQIAGLDVADVDCLITSNSTTPALPGLDVALANRLPLRGDTMLLPATQWACVAGTRSLALAADLVAADPDRVVLVVISEALSTTYQPADDTLESLIVRLLFADTAVAAVVTGRPRPESVLRLDAAWHHTLPGTRDLHRLETRADGTHFVMDRRGPRAVQETVTAMWEWLRVRYEDDPSSWHPDVLLAHPGGTRVLEYMEQTMPDEWPSGLLSYSRDSYTSGNRGGAAVFDILRRAHDAGQKTGSRAVLYAAAPGLTATALEGEWL AMAAYLCAPAVIHGEHSVETREIVEEVRGRHPHAPWAPRIDGIAASTGIESRGWMLPLEAAVAPGGGGDLGAAREALEQDANRAIAALKAVPASQTVQERTAPAWEAVQAYGERAARGALQIAGLDVADVDCLITSNSTTPALPGLDVALANRLPLRGDTMLLPATQWACVAGTRSLALAADLVAADPDRVVLVVISEALSTTYQPADDTLESLIVRLLFADTAVAAVVTGRPRPESVLRLDAAWHHTLPGTRDLHRLETRADGTHFVMDRRGPRAVQETVTAMWEWLRVRYEDDPSSWHPDVLLAHPGGTRVLEYMEQTMPDEWPSGLLSYSRDSYTSGNRGGAAVFDILRRAHDAGQKTGSRAVLYAAAPGLTATALEGEWL 3v7o-a1-m1-cA_3v7o-a1-m1-cB Crystal structure of the C-terminal domain of Ebola virus VP30 (strain Reston-89) Q8JPX6 Q8JPX6 2.25 X-RAY DIFFRACTION 140 1.0 386032 (Reston ebolavirus - Reston (1989)) 386032 (Reston ebolavirus - Reston (1989)) 126 203 GLTLAVLLQIAEHWATRDLRQIEDSKLRALLTLCAVLTRKFSKSQLGLLCETHLRHEGLGQDQADSVLEVYQRLHSDKGGNFEAALWQQWDRQSLIMFISAFLNIALQIPCESSSVVVSGLATLYP ETHINLKVSDGSSEIFFKIKKTTPLRRLMEAFAKRQGKEMDSLRFLYDGIRIQADQTPEDLDMEDNDIIEAHREQIGGLTLAVLLQIAEHWATRDLRQIEDSKLRALLTLCAVLTRKFSKSQLGLLCETHLRHEGLGQDQADSVLEVYQRLHSDKGGNFEAALWQQWDRQSLIMFISAFLNIALQIPCESSSVVVSGLATLYP 3v86-a1-m2-cA_3v86-a1-m3-cA Computational Design of a Protein Crystal 2.91 X-RAY DIFFRACTION 29 1.0 27 27 3v86-a1-m1-cA_3v86-a1-m2-cA 3v86-a1-m1-cA_3v86-a1-m3-cA YVYQLKDEVGELKGEVRALKDEVKDLK YVYQLKDEVGELKGEVRALKDEVKDLK 3v8b-a1-m1-cC_3v8b-a1-m1-cD Crystal Structure of a 3-ketoacyl-ACP reductase from Sinorhizobium meliloti 1021 Q92U42 Q92U42 2.7 X-RAY DIFFRACTION 111 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 254 255 3v8b-a1-m1-cA_3v8b-a1-m1-cB PVALITGAGSGIGRATALALAADGVTVGALGRTRTEVEEVADEIVGAGGQAIALEADVSDELQRNAVRDLVLKFGHLDIVVANAGINGVWAPIDDLKPFEWDETIAVNLRGTFLTLHLTVPYLKQRGGGAIVVVSSINGTRTFTTPGATAYTATKAAQVAIVQQLALELGKHHIRVNAVCPGAIETNISDNTKLRHEEETAIPVEWPKGQVPITDGQPGRSEDVAELIRFLVSERARHVTGSPVWIDGGQGLLR SPVALITGAGSGIGRATALALAADGVTVGALGRTRTEVEEVADEIVGAGGQAIALEADVSDELQRNAVRDLVLKFGHLDIVVANAGINGVWAPIDDLKPFEWDETIAVNLRGTFLTLHLTVPYLKQRGGGAIVVVSSINGTRTFTTPGATAYTATKAAQVAIVQQLALELGKHHIRVNAVCPGAIETNISDNTKLRHEEETAIPVEWPKGQVPITDGQPGRSEDVAELIRFLVSERARHVTGSPVWIDGGQGLLR 3v8b-a1-m1-cD_3v8b-a1-m1-cA Crystal Structure of a 3-ketoacyl-ACP reductase from Sinorhizobium meliloti 1021 Q92U42 Q92U42 2.7 X-RAY DIFFRACTION 128 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 255 256 3v8b-a1-m1-cC_3v8b-a1-m1-cB SPVALITGAGSGIGRATALALAADGVTVGALGRTRTEVEEVADEIVGAGGQAIALEADVSDELQRNAVRDLVLKFGHLDIVVANAGINGVWAPIDDLKPFEWDETIAVNLRGTFLTLHLTVPYLKQRGGGAIVVVSSINGTRTFTTPGATAYTATKAAQVAIVQQLALELGKHHIRVNAVCPGAIETNISDNTKLRHEEETAIPVEWPKGQVPITDGQPGRSEDVAELIRFLVSERARHVTGSPVWIDGGQGLLR PSPVALITGAGSGIGRATALALAADGVTVGALGRTRTEVEEVADEIVGAGGQAIALEADVSDELQRNAVRDLVLKFGHLDIVVANAGINGVWAPIDDLKPFEWDETIAVNLRGTFLTLHLTVPYLKQRGGGAIVVVSSINGTRTFTTPGATAYTATKAAQVAIVQQLALELGKHHIRVNAVCPGAIETNISDNTKLRHEEETAIPVEWPKGQVPITDGQPGRSEDVAELIRFLVSERARHVTGSPVWIDGGQGLLR 3v8b-a1-m1-cD_3v8b-a1-m1-cB Crystal Structure of a 3-ketoacyl-ACP reductase from Sinorhizobium meliloti 1021 Q92U42 Q92U42 2.7 X-RAY DIFFRACTION 34 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 255 256 3v8b-a1-m1-cC_3v8b-a1-m1-cA SPVALITGAGSGIGRATALALAADGVTVGALGRTRTEVEEVADEIVGAGGQAIALEADVSDELQRNAVRDLVLKFGHLDIVVANAGINGVWAPIDDLKPFEWDETIAVNLRGTFLTLHLTVPYLKQRGGGAIVVVSSINGTRTFTTPGATAYTATKAAQVAIVQQLALELGKHHIRVNAVCPGAIETNISDNTKLRHEEETAIPVEWPKGQVPITDGQPGRSEDVAELIRFLVSERARHVTGSPVWIDGGQGLLR PSPVALITGAGSGIGRATALALAADGVTVGALGRTRTEVEEVADEIVGAGGQAIALEADVSDELQRNAVRDLVLKFGHLDIVVANAGINGVWAPIDDLKPFEWDETIAVNLRGTFLTLHLTVPYLKQRGGGAIVVVSSINGTRTFTTPGATAYTATKAAQVAIVQQLALELGKHHIRVNAVCPGAIETNISDNTKLRHEEETAIPVEWPKGQVPITDGQPGRSEDVAELIRFLVSERARHVTGSPVWIDGGQGLLR 3v8d-a1-m1-cB_3v8d-a1-m1-cA Crystal structure of human CYP7A1 in complex with 7-ketocholesterol P22680 P22680 1.9 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 467 479 3dax-a1-m1-cB_3dax-a1-m1-cA SRRRQTGEPPLENGLIPYLGCALQFGANPLEFLRANQRKHGHVFTCKLMGKYVHFITNPLSYHKVLCHGKYFDWKKFHFALSAKAFGHRSIDPMDGNTTENINDTFIKTLQGHALNSLTESMMENLQRIMRPPVAAWVTEGMYSFCYRVMFEAGYLTIFGRDLTRRDTQKAHILNNLDNFKQFDKVFPALVAGLPIHMFRTAHNAREKLAESLRHENLQKRESISELISLRMFLNDTLSTFDDLEKAKTHLVVLWASQANTIPATFWSLFQMIRNPEAMKAATEEVKRTLENAGQKVSLPICLSQAELNDLPVLDSIIKESLRLSSASLNIRTAKEDFTLHLEDGSYNIRKDDIIALYPQLMHLDPEIYPDPLTFKYDRYLDENGKTKTTFYCNGLKLKYYYMPFGSGATICPGRLFAIHEIKQFLILMLSYFELELIAKCPPLDQSRAGLGILPPLNDIEFKYKFK SRRRQTGEPPLENGLIPYLGCALQFGANPLEFLRANQRKHGHVFTCKLMGKYVHFITNPLSYHKVLCHGKYFDWKKFHFALSAKAFGHRSIDPMDGNTTENINDTFIKTLQGHALNSLTESMMENLQRIMRPPVSSNSKTAAWVTEGMYSFCYRVMFEAGYLTIFGRDLTRRDTQKAHILNNLDNFKQFDKVFPALVAGLPIHMFRTAHNAREKLAESLRHENLQKRESISELISLRMFLNDTLSTFDDLEKAKTHLVVLWASQANTIPATFWSLFQMIRNPEAMKAATEEVKRTLENAGQKVSLEGNPICLSQAELNDLPVLDSIIKESLRLSSASLNIRTAKEDFTLHLEDGSYNIRKDDIIALYPQLMHLDPEIYPDPLTFKYDRYLDENGKTKTTFYCNGLKLKYYYMPFGSGATICPGRLFAIHEIKQFLILMLSYFELELIAKCPPLDQSRAGLGILPPLNDIEFKYKFKHHH 3v8h-a2-m1-cC_3v8h-a2-m1-cB Crystal structure of Thymidylate Synthase from Burkholderia thailandensis Q2SXY2 Q2SXY2 1.65 X-RAY DIFFRACTION 178 0.99 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 288 311 3v8h-a1-m1-cD_3v8h-a1-m1-cA KQYLDLVRTILDTGTWQSNRTGIRTIGIPGAMLRFDLQQGFPLAFKSAIGELVGFLRATRSAAEFRALGCKVWDANANENAQWLANPYRRGADDLGDVYGVQWRRWPGYKVLDAHADAQIADATSRGFRIVARFEEGGADKVLLHKAIDQLRDCLDTIVRDPSSRRILFHGWNPAVLDEIALPACHLLYQFLPNVERREISLCLYIRSNDVGLGTPFNLAEGAALLTLVGRLTGYSPRWFTYFIGDAHIYENQPRLELAERVPDYAKTGKYEPQWLERVEPSDFTLVG MKQYLDLVRTILDTGTWQSNIRTIGIPGAMLRFDLQQGFPAVTTKKLAFKSAIGELVGFLRATRSAAEFRALGCKVWDANANENAQWLANPYRRGADDLGDVYGVQWRRWPGYKVLDAHADAQIADATSRGFRIVARFEEGGADKVLLHKAIDQLRDCLDTIVRDPSSRRILFHGWNPAVLDEIALPACHLLYQFLPNVERREISLCLYIRSNDVGLGTPFNLAEGAALLTLVGRLTGYSPRWFTYFIGDAHIYENQLDMLKQQLEREPFESPRLELAERVPDYAKTGKYEPQWLERVEPSDFTLVGYRHH 3v9m-a1-m1-cA_3v9m-a1-m1-cB Phospholipase ACII4 from Australian King Brown Snake P04056 P04056 1.563 X-RAY DIFFRACTION 53 1.0 8670 (Pseudechis australis) 8670 (Pseudechis australis) 118 118 NLIQFGNMIQCANKGSRPSLDYADYGCYCGWGGSGTPVDELDRCCQVHDNCYEQAGKKGCFPKLTLYSWKCTGNVPTCNSKPGCKSFVCACDAAAAKCFAKAPYKKENYNIDTKKRCK NLIQFGNMIQCANKGSRPSLDYADYGCYCGWGGSGTPVDELDRCCQVHDNCYEQAGKKGCFPKLTLYSWKCTGNVPTCNSKPGCKSFVCACDAAAAKCFAKAPYKKENYNIDTKKRCK 3v9o-a1-m2-cA_3v9o-a1-m4-cA Crystal structure of Dihydroneopterin aldolase (BTH_I0291) from Burkholderia thailendensis bound to guanine. Q2T1V0 Q2T1V0 1.451 X-RAY DIFFRACTION 79 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 121 121 3v9o-a1-m1-cA_3v9o-a1-m3-cA 3v9o-a1-m1-cA_3v9o-a1-m4-cA 3v9o-a1-m2-cA_3v9o-a1-m3-cA ALLHPRLADCRRLYLRNHEVYMNIGAGEQRVVINVDLFVPLALTTPVEDKLREVVDYDLMKQSVAQCVARGHIHLQETLCDAIAASLLAHDAVRAVRVSTEKPDAYPDCDAVGVEVFRIKD ALLHPRLADCRRLYLRNHEVYMNIGAGEQRVVINVDLFVPLALTTPVEDKLREVVDYDLMKQSVAQCVARGHIHLQETLCDAIAASLLAHDAVRAVRVSTEKPDAYPDCDAVGVEVFRIKD 3v9p-a3-m1-cA_3v9p-a3-m2-cB Crystal structure of Thymidylate kinase from Burkholderia thailandensis Q2SWM4 Q2SWM4 1.9 X-RAY DIFFRACTION 71 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 199 202 ARGKFITFEGIDKTTHLQWFCDRLQERLGPAGRHVVVTREPGGTRLGETLREILLNQPMDLETEALLMFAGRREHLALVIEPALARGDWVVSDRFTDATFAYQGGGRGLPRDKLEALERWVQGGFQPDLTVLFDVPPQIASARRGAVRMPESESDAFFARTRAEYLRRAQEAPHRFVIVDSSEPIAQIRKQLEGVLAAL ARGKFITFEGIDKTTHLQWFCDRLQERLGPAGRHVVVTREPGGTRLGETLREILLNQPMDLETEALLMFAGRREHLALVIEPALARGDWVVSDRFTDATFAYQGGGRGLPRDKLEALERWVQGGFQPDLTVLFDVPPQIASARRGAVRMPDKFESESDAFFARTRAEYLRRAQEAPHRFVIVDSSEPIAQIRKQLEGVLAAL 3v9r-a1-m1-cC_3v9r-a1-m1-cA Crystal structure of Saccharomyces cerevisiae MHF complex Q3E835 Q3E835 2.4 X-RAY DIFFRACTION 19 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 85 86 DDEDRAQLKARLWIRVEERLQQVLSSEDIKYTPRFINSLLELAYLQLGEGSDLQAFARHAGRGVVNKSDLLYLRKQPDLQERVTQ NDDEDRAQLKARLWIRVEERLQQVLSSEDIKYTPRFINSLLELAYLQLGEGSDLQAFARHAGRGVVNKSDLLYLRKQPDLQERVTQ 3va2-a1-m1-cA_3va2-a1-m1-cB Crystal structure of human Interleukin-5 in complex with its alpha receptor P05113 P05113 2.703 X-RAY DIFFRACTION 177 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 109 1hul-a1-m1-cA_1hul-a1-m1-cB 3qt2-a1-m1-cD_3qt2-a1-m1-cC 3qt2-a2-m1-cE_3qt2-a2-m1-cF IPTSALVKETLALLSTHRTLLIANETLRIPVPVHKNHQLCTEEIFQGIGTLESQTVQGGTVERLFKNLSLIKKYIDGQKKKCGEERRRVNQFLDYLQEFLGVMNTEW IPTSALVKETLALLSTHRTLLIANETLRIPVPVHKNHQLCTEEIFQGIGTLESQTVQGGTVERLFKNLSLIKKYIDGQKKKCGEERRRVNQFLDYLQEFLGVMNTEWII 3va4-a1-m1-cB_3va4-a1-m1-cA Crystal structure of the mammalian MDC1 FHA domain complexed with CHK2 pThr68 peptide Q5PSV9 Q5PSV9 1.54 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 108 111 3va1-a1-m1-cA_3va1-a1-m1-cB MEPIGQLRLFSGTHGPERDFPLYLGKNVVGRSPDCSVALPFPSISKQHAVIEISAWNKAPILQDCGSLNGTQIVKPPRVLPPGVSHRLRDQELILFADFPCQYHRLDV HMEPIGQLRLFSGTHGPERDFPLYLGKNVVGRSPDCSVALPFPSISKQHAVIEISAWNKAPILQDCGSLNGTQIVKPPRVLPPGVSHRLRDQELILFADFPCQYHRLDVPP 3va8-a1-m1-cA_3va8-a1-m2-cA Crystal structure of enolase FG03645.1 (target EFI-502278) from Gibberella zeae PH-1 complexed with magnesium, formate and sulfate 2 X-RAY DIFFRACTION 90 1.0 5518 (Fusarium graminearum) 5518 (Fusarium graminearum) 427 427 NLYFQSMSQRSIIKEIVITPVAFHDMPLLNSVGVHEPFALRSIIEIITEDSYGLGESYGDSAHLDRLQKAADKIKGLSVYSTNVIYQRCVESLRNDTNGDGMGGMVVTASVADKVFSPFEVACLDLQGKLAGISVSDLLGGRVRDSVQYSAYLFYKWGGHPGDEDDEYGPALDPEGVVKQAKKIIDEYGFKAIKLKGGVFPPADEVAAIKALHKAFPGVPLRLDPNAAWTVETSKWVAKELEGIVEYLEDPAGEIEGMAAVAKEASMPLATNMAVVAFDHLPPSILQDAVQVILSDHHFWGGLRKSQTLASICATWGLRLSMHSNSHLGISLAAMTHLASATPNLDYACDTHWPWKRRDEDVVIEGALKWKDGGVIVPSGPGLGVELDRERLAKLHQQYVDCGLKKRDDTTYMKRFKPEFSEKIPRW NLYFQSMSQRSIIKEIVITPVAFHDMPLLNSVGVHEPFALRSIIEIITEDSYGLGESYGDSAHLDRLQKAADKIKGLSVYSTNVIYQRCVESLRNDTNGDGMGGMVVTASVADKVFSPFEVACLDLQGKLAGISVSDLLGGRVRDSVQYSAYLFYKWGGHPGDEDDEYGPALDPEGVVKQAKKIIDEYGFKAIKLKGGVFPPADEVAAIKALHKAFPGVPLRLDPNAAWTVETSKWVAKELEGIVEYLEDPAGEIEGMAAVAKEASMPLATNMAVVAFDHLPPSILQDAVQVILSDHHFWGGLRKSQTLASICATWGLRLSMHSNSHLGISLAAMTHLASATPNLDYACDTHWPWKRRDEDVVIEGALKWKDGGVIVPSGPGLGVELDRERLAKLHQQYVDCGLKKRDDTTYMKRFKPEFSEKIPRW 3va9-a2-m1-cA_3va9-a2-m2-cA Crystal structure of the Rhodopseudomonas palustris histidine kinase HK9 sensor domain Q6N7G5 Q6N7G5 2.3 X-RAY DIFFRACTION 51 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 127 127 TNKALLAISAIQQAVLEAETSERGFLLTGIETYRDSYIRARDALAARLDGLRAVLADNPEQIAHIDELRLLTDMRMAQLGRVVELGPERMREALDILEQARVDRLTERIETSLSVLTRAEQALLIQR TNKALLAISAIQQAVLEAETSERGFLLTGIETYRDSYIRARDALAARLDGLRAVLADNPEQIAHIDELRLLTDMRMAQLGRVVELGPERMREALDILEQARVDRLTERIETSLSVLTRAEQALLIQR 3vab-a1-m1-cA_3vab-a1-m1-cB Crystal structure of Diaminopimelate decarboxylase from Brucella melitensis bound to PLP Q8YJJ9 Q8YJJ9 2.1 X-RAY DIFFRACTION 235 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 419 419 GPGSMVNHFEYRNGVLHAENVSLPEIAKAVGTPFYVYSRATIERHFRVFHDAFADMDTLVTYALANSNQAVLTALAKLGAGADTVSQGEIRRALAAGIPANRIVFSGVGKTPREMDFALEAGIYCFNVESEPELEILSARAVAAGKVAPVSLRINPDVDAKTHAKIKSENKFGIPRDKARAAYARAASLPGLNVVGIDMHIGSQIIDLEPFDNAFALMAELVKELQADGHNIRHVDVGGGLGIPYRTPPPPPVAYAQIVAKHIKPLGLKTVFEPGRLIVGNAGLLVTEVIFVKEGDAKNFVIVDAAMNDLIRPTLYDAFHDIRPVIMPNDNAPRIRADFVGPVCETGDYLGLDREVAKPAPGDLIAICTTGAYGAVLSSTYNSRLLIPEVLGDGERYHVVRPRRTYEELLALDSVPDWL GPGSMVNHFEYRNGVLHAENVSLPEIAKAVGTPFYVYSRATIERHFRVFHDAFADMDTLVTYALANSNQAVLTALAKLGAGADTVSQGEIRRALAAGIPANRIVFSGVGKTPREMDFALEAGIYCFNVESEPELEILSARAVAAGKVAPVSLRINPDVDAKTHAKIKSENKFGIPRDKARAAYARAASLPGLNVVGIDMHIGSQIIDLEPFDNAFALMAELVKELQADGHNIRHVDVGGGLGIPYRTPPPPPVAYAQIVAKHIKPLGLKTVFEPGRLIVGNAGLLVTEVIFVKEGDAKNFVIVDAAMNDLIRPTLYDAFHDIRPVIMPNDNAPRIRADFVGPVCETGDYLGLDREVAKPAPGDLIAICTTGAYGAVLSSTYNSRLLIPEVLGDGERYHVVRPRRTYEELLALDSVPDWL 3vai-a1-m1-cA_3vai-a1-m1-cB Structure of U2AF65 variant with BrU3C5 DNA P26368 P26368 2.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 3vag-a1-m1-cA_3vag-a1-m1-cB 3vah-a1-m1-cA_3vah-a1-m1-cB 3vaj-a1-m1-cA_3vaj-a1-m1-cB 3vak-a1-m1-cA_3vak-a1-m1-cB 3val-a1-m1-cB_3val-a1-m1-cA 4tu8-a1-m1-cA_4tu8-a1-m1-cB 4tu9-a1-m1-cA_4tu9-a1-m1-cB GPLGSARRLYVGNIPFGITEEAMMDFFNAQMRLGGLTQAPGNPVLAVQINQDKNFAFLEFRSVDETTQAMAFDGIIFQGQSLKIRRPHDYQPLPGAHKLFIGGLPNYLNDDQVKELLTSFGPLKAFNLVKDSATGLSKGYAFCEYVDINVTDQAIAGLNGMQLGDKKLLVQRAS GPLGSARRLYVGNIPFGITEEAMMDFFNAQMRLGGLTQAPGNPVLAVQINQDKNFAFLEFRSVDETTQAMAFDGIIFQGQSLKIRRPHDYQPLPGAHKLFIGGLPNYLNDDQVKELLTSFGPLKAFNLVKDSATGLSKGYAFCEYVDINVTDQAIAGLNGMQLGDKKLLVQRAS 3val-a1-m1-cI_3val-a1-m1-cA Structure of U2AF65 variant with BrU5C1 DNA P26368 P26368 2.5 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 172 174 LGSARRLYVGNIPFGITEEAMMDFFNAQMRLGGLTQAPGNPVLAVQINQDKNFAFLEFRSVDETTQAMAFDGIIFQGQSLKIRRPHDYQPLPGAHKLFIGGLPNYLNDDQVKELLTSFGPLKAFNLVKDSATGLSKGYAFCEYVDINVTDQAIAGLNGMQLGDKKLLVQRAS GPLGSARRLYVGNIPFGITEEAMMDFFNAQMRLGGLTQAPGNPVLAVQINQDKNFAFLEFRSVDETTQAMAFDGIIFQGQSLKIRRPHDYQPLPGAHKLFIGGLPNYLNDDQVKELLTSFGPLKAFNLVKDSATGLSKGYAFCEYVDINVTDQAIAGLNGMQLGDKKLLVQRAS 3vat-a1-m6-cA_3vat-a1-m9-cA Crystal structure of DNPEP, ZnMg form Q2HJH1 Q2HJH1 2.1 X-RAY DIFFRACTION 274 1.0 9913 (Bos taurus) 9913 (Bos taurus) 458 458 3var-a1-m10-cA_3var-a1-m7-cA 3var-a1-m11-cA_3var-a1-m5-cA 3var-a1-m12-cA_3var-a1-m3-cA 3var-a1-m1-cA_3var-a1-m4-cA 3var-a1-m2-cA_3var-a1-m8-cA 3var-a1-m6-cA_3var-a1-m9-cA 3vat-a1-m10-cA_3vat-a1-m7-cA 3vat-a1-m11-cA_3vat-a1-m5-cA 3vat-a1-m12-cA_3vat-a1-m3-cA 3vat-a1-m1-cA_3vat-a1-m4-cA 3vat-a1-m2-cA_3vat-a1-m8-cA 4dyo-a1-m10-cA_4dyo-a1-m7-cA 4dyo-a1-m11-cA_4dyo-a1-m5-cA 4dyo-a1-m12-cA_4dyo-a1-m3-cA 4dyo-a1-m1-cA_4dyo-a1-m4-cA 4dyo-a1-m2-cA_4dyo-a1-m8-cA 4dyo-a1-m6-cA_4dyo-a1-m9-cA 4dyo-a2-m1-cA_4dyo-a2-m4-cA 7u5h-a1-m1-cA_7u5h-a1-m1-cD 7u5h-a1-m1-cB_7u5h-a1-m1-cH 7u5h-a1-m1-cC_7u5h-a1-m1-cL 7u5h-a1-m1-cE_7u5h-a1-m1-cK 7u5h-a1-m1-cF_7u5h-a1-m1-cI 7u5h-a1-m1-cG_7u5h-a1-m1-cJ GRARKEAVQAAARELLKFVNRSPSPFHAVAECRSRLLQAGFHELKETESWDIKPESKYFLTRNSSTIIAFAVGGQYVPGNGFSLIGAHTDSPCLRVKRRSRRSQVGFQQVGVETYGGGIWSTWFDRDLTLAGRVIVKCPTSGRLEQRLVHVDRPILRIPHLAIHLQRNVNENFGPNMEMHLVPILATSIQEELEKGERHHSVLTSLLCAHLGLSPEDILEMELCLADTQPAVLGGAYEEFIFAPRLDNLHSCFCALQALIDSCSAPASLAADPHVRMIALYDNEEVGSESAQGAQSLLTELVLRRISASPQHLTAFEEAIPKSYMISADMAHAVHPNYLDKHEENHRPLFHKGPVIKVNSKQRYASNAVSEALIREVASSVGVPLQDLMVRNDSPCGTTIGPILASRLGLRVLDLGSPQLAMHSIRETACTTGVLQTITLFKGFFELFPSLSRSLLVD GRARKEAVQAAARELLKFVNRSPSPFHAVAECRSRLLQAGFHELKETESWDIKPESKYFLTRNSSTIIAFAVGGQYVPGNGFSLIGAHTDSPCLRVKRRSRRSQVGFQQVGVETYGGGIWSTWFDRDLTLAGRVIVKCPTSGRLEQRLVHVDRPILRIPHLAIHLQRNVNENFGPNMEMHLVPILATSIQEELEKGERHHSVLTSLLCAHLGLSPEDILEMELCLADTQPAVLGGAYEEFIFAPRLDNLHSCFCALQALIDSCSAPASLAADPHVRMIALYDNEEVGSESAQGAQSLLTELVLRRISASPQHLTAFEEAIPKSYMISADMAHAVHPNYLDKHEENHRPLFHKGPVIKVNSKQRYASNAVSEALIREVASSVGVPLQDLMVRNDSPCGTTIGPILASRLGLRVLDLGSPQLAMHSIRETACTTGVLQTITLFKGFFELFPSLSRSLLVD 3vat-a1-m8-cA_3vat-a1-m9-cA Crystal structure of DNPEP, ZnMg form Q2HJH1 Q2HJH1 2.1 X-RAY DIFFRACTION 147 1.0 9913 (Bos taurus) 9913 (Bos taurus) 458 458 3var-a1-m10-cA_3var-a1-m11-cA 3var-a1-m10-cA_3var-a1-m12-cA 3var-a1-m11-cA_3var-a1-m12-cA 3var-a1-m1-cA_3var-a1-m2-cA 3var-a1-m1-cA_3var-a1-m3-cA 3var-a1-m2-cA_3var-a1-m3-cA 3var-a1-m4-cA_3var-a1-m5-cA 3var-a1-m4-cA_3var-a1-m6-cA 3var-a1-m5-cA_3var-a1-m6-cA 3var-a1-m7-cA_3var-a1-m8-cA 3var-a1-m7-cA_3var-a1-m9-cA 3var-a1-m8-cA_3var-a1-m9-cA 3vat-a1-m10-cA_3vat-a1-m11-cA 3vat-a1-m10-cA_3vat-a1-m12-cA 3vat-a1-m11-cA_3vat-a1-m12-cA 3vat-a1-m1-cA_3vat-a1-m2-cA 3vat-a1-m1-cA_3vat-a1-m3-cA 3vat-a1-m2-cA_3vat-a1-m3-cA 3vat-a1-m4-cA_3vat-a1-m5-cA 3vat-a1-m4-cA_3vat-a1-m6-cA 3vat-a1-m5-cA_3vat-a1-m6-cA 3vat-a1-m7-cA_3vat-a1-m8-cA 3vat-a1-m7-cA_3vat-a1-m9-cA 4dyo-a1-m10-cA_4dyo-a1-m2-cA 4dyo-a1-m10-cA_4dyo-a1-m6-cA 4dyo-a1-m11-cA_4dyo-a1-m9-cA 4dyo-a1-m12-cA_4dyo-a1-m4-cA 4dyo-a1-m12-cA_4dyo-a1-m8-cA 4dyo-a1-m1-cA_4dyo-a1-m11-cA 4dyo-a1-m1-cA_4dyo-a1-m9-cA 4dyo-a1-m2-cA_4dyo-a1-m6-cA 4dyo-a1-m3-cA_4dyo-a1-m5-cA 4dyo-a1-m3-cA_4dyo-a1-m7-cA 4dyo-a1-m4-cA_4dyo-a1-m8-cA 4dyo-a1-m5-cA_4dyo-a1-m7-cA 7u5h-a1-m1-cA_7u5h-a1-m1-cI 7u5h-a1-m1-cA_7u5h-a1-m1-cK 7u5h-a1-m1-cB_7u5h-a1-m1-cF 7u5h-a1-m1-cB_7u5h-a1-m1-cJ 7u5h-a1-m1-cC_7u5h-a1-m1-cE 7u5h-a1-m1-cC_7u5h-a1-m1-cG 7u5h-a1-m1-cD_7u5h-a1-m1-cH 7u5h-a1-m1-cD_7u5h-a1-m1-cL 7u5h-a1-m1-cE_7u5h-a1-m1-cG 7u5h-a1-m1-cF_7u5h-a1-m1-cJ 7u5h-a1-m1-cH_7u5h-a1-m1-cL 7u5h-a1-m1-cI_7u5h-a1-m1-cK GRARKEAVQAAARELLKFVNRSPSPFHAVAECRSRLLQAGFHELKETESWDIKPESKYFLTRNSSTIIAFAVGGQYVPGNGFSLIGAHTDSPCLRVKRRSRRSQVGFQQVGVETYGGGIWSTWFDRDLTLAGRVIVKCPTSGRLEQRLVHVDRPILRIPHLAIHLQRNVNENFGPNMEMHLVPILATSIQEELEKGERHHSVLTSLLCAHLGLSPEDILEMELCLADTQPAVLGGAYEEFIFAPRLDNLHSCFCALQALIDSCSAPASLAADPHVRMIALYDNEEVGSESAQGAQSLLTELVLRRISASPQHLTAFEEAIPKSYMISADMAHAVHPNYLDKHEENHRPLFHKGPVIKVNSKQRYASNAVSEALIREVASSVGVPLQDLMVRNDSPCGTTIGPILASRLGLRVLDLGSPQLAMHSIRETACTTGVLQTITLFKGFFELFPSLSRSLLVD GRARKEAVQAAARELLKFVNRSPSPFHAVAECRSRLLQAGFHELKETESWDIKPESKYFLTRNSSTIIAFAVGGQYVPGNGFSLIGAHTDSPCLRVKRRSRRSQVGFQQVGVETYGGGIWSTWFDRDLTLAGRVIVKCPTSGRLEQRLVHVDRPILRIPHLAIHLQRNVNENFGPNMEMHLVPILATSIQEELEKGERHHSVLTSLLCAHLGLSPEDILEMELCLADTQPAVLGGAYEEFIFAPRLDNLHSCFCALQALIDSCSAPASLAADPHVRMIALYDNEEVGSESAQGAQSLLTELVLRRISASPQHLTAFEEAIPKSYMISADMAHAVHPNYLDKHEENHRPLFHKGPVIKVNSKQRYASNAVSEALIREVASSVGVPLQDLMVRNDSPCGTTIGPILASRLGLRVLDLGSPQLAMHSIRETACTTGVLQTITLFKGFFELFPSLSRSLLVD 3vav-a1-m1-cE_3vav-a1-m1-cA Crystal structure of 3-methyl-2-oxobutanoate hydroxymethyltransferase from Burkholderia thailandensis Q2SYZ1 Q2SYZ1 1.8 X-RAY DIFFRACTION 22 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 251 260 3ez4-a1-m1-cA_3ez4-a1-m1-cB 3ez4-a1-m1-cA_3ez4-a1-m1-cE 3ez4-a1-m1-cB_3ez4-a1-m1-cC 3ez4-a1-m1-cD_3ez4-a1-m1-cC 3ez4-a1-m1-cD_3ez4-a1-m1-cE 3ez4-a1-m1-cG_3ez4-a1-m1-cF 3ez4-a1-m1-cG_3ez4-a1-m1-cH 3ez4-a1-m1-cH_3ez4-a1-m1-cI 3ez4-a1-m1-cJ_3ez4-a1-m1-cF 3ez4-a1-m1-cJ_3ez4-a1-m1-cI 3vav-a1-m1-cA_3vav-a1-m1-cB 3vav-a1-m1-cC_3vav-a1-m1-cB 3vav-a1-m1-cC_3vav-a1-m1-cD 3vav-a1-m1-cE_3vav-a1-m1-cD 3vav-a1-m1-cF_3vav-a1-m1-cJ 3vav-a1-m1-cG_3vav-a1-m1-cF 3vav-a1-m1-cG_3vav-a1-m1-cH 3vav-a1-m1-cI_3vav-a1-m1-cH 3vav-a1-m1-cI_3vav-a1-m1-cJ RPAVTVPKLQAMREAGEKIAMLTCYDASFAALLDRANVDVQLIGDSLGNVLQGQTTTLPVTLDDIAYHTACVARAQPRALIVADLPFGTYGTPADAFASAVKLMRAGAQMVKFEGGEWLAETVRFLVERAVPVCAHVGLTPQSTEAGAAQLLRDARAVEEAGAQLIVLEAVPTLVAAEVTRELSIPTIGIGAGAECSGQVLVLHDMLGVFPGKRPRFVKDFMQGQPSIFAAVEAYVRAVKDGSFPGPEHSF RPAVTVPKLQAMREAGEKIAMLTCYDASFAALLDRANVDVQLIGDSLGNVLQGQTTTLPVTLDDIAYHTACVARAQPRALIVADLPFGTYGTPADAFASAVKLMRAGAQMVKFEGGEWLAETVRFLVERAVPVCAHVGLTPQSVHAFGVQGKTEAGAAQLLRDARAVEEAGAQLIVLEAVPTLVAAEVTRELSIPTIGIGAGAECSGQVLVLHDMLGVFPGKRPRFVKDFMQGQPSIFAAVEAYVRAVKDGSFPGPEHSF 3vav-a1-m1-cE_3vav-a1-m1-cJ Crystal structure of 3-methyl-2-oxobutanoate hydroxymethyltransferase from Burkholderia thailandensis Q2SYZ1 Q2SYZ1 1.8 X-RAY DIFFRACTION 74 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 251 263 3ez4-a1-m1-cA_3ez4-a1-m1-cF 3ez4-a1-m1-cC_3ez4-a1-m1-cH 3ez4-a1-m1-cD_3ez4-a1-m1-cI 3ez4-a1-m1-cE_3ez4-a1-m1-cJ 3ez4-a1-m1-cG_3ez4-a1-m1-cB 3vav-a1-m1-cC_3vav-a1-m1-cH 3vav-a1-m1-cF_3vav-a1-m1-cA 3vav-a1-m1-cG_3vav-a1-m1-cB 3vav-a1-m1-cI_3vav-a1-m1-cD RPAVTVPKLQAMREAGEKIAMLTCYDASFAALLDRANVDVQLIGDSLGNVLQGQTTTLPVTLDDIAYHTACVARAQPRALIVADLPFGTYGTPADAFASAVKLMRAGAQMVKFEGGEWLAETVRFLVERAVPVCAHVGLTPQSTEAGAAQLLRDARAVEEAGAQLIVLEAVPTLVAAEVTRELSIPTIGIGAGAECSGQVLVLHDMLGVFPGKRPRFVKDFMQGQPSIFAAVEAYVRAVKDGSFPGPEHSF RPAVTVPKLQAMREAGEKIAMLTCYDASFAALLDRANVDVQLIGDSLGNVLQGQTTTLPVTLDDIAYHTACVARAQPRALIVADLPFGTYGTPADAFASAVKLMRAGAQMVKFEGGEWLAETVRFLVERAVPVCAHVGLTPQSVHAFGGFKVQGKTEAGAAQLLRDARAVEEAGAQLIVLEAVPTLVAAEVTRELSIPTIGIGAGAECSGQVLVLHDMLGVFPGKRPRFVKDFMQGQPSIFAAVEAYVRAVKDGSFPGPEHSF 3vax-a3-m1-cA_3vax-a3-m1-cB Crystal structure of DndA from streptomyces lividans A7TUX7 A7TUX7 2.4 X-RAY DIFFRACTION 163 1.0 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 358 358 TYLDAAATTRVDQRVADIVLHWMTAEFGNAGSRHEYGIRAKRGVERAREYLASTVSAEPDELIFTSGATESNNIALLGLAPYGERTGRRHIITSAIEHKAVLEPLEHLAGRGFEVDFLTPGPSGRISVEGVMERLRPDTLLVSLMHVNNETGVIQPVAELAQQLRATPTYLHVDAAQGYGKVPGDLTTPIDMISISGHKIGAPKGVGALVTRRREEMDDERVPLEPIMFGGGQERKLRPGTLPVPLIMGLAEAAKIFEAEHAQWQVAAQDLRSRLLAGLASTSFQVNGDQDHVVPHILNLSFEDVDAEAFLVTLKDLVAVATGSASTSASFTPSHVLRAMGLPEEAASKSLRFSWTPG TYLDAAATTRVDQRVADIVLHWMTAEFGNAGSRHEYGIRAKRGVERAREYLASTVSAEPDELIFTSGATESNNIALLGLAPYGERTGRRHIITSAIEHKAVLEPLEHLAGRGFEVDFLTPGPSGRISVEGVMERLRPDTLLVSLMHVNNETGVIQPVAELAQQLRATPTYLHVDAAQGYGKVPGDLTTPIDMISISGHKIGAPKGVGALVTRRREEMDDERVPLEPIMFGGGQERKLRPGTLPVPLIMGLAEAAKIFEAEHAQWQVAAQDLRSRLLAGLASTSFQVNGDQDHVVPHILNLSFEDVDAEAFLVTLKDLVAVATGSASTSASFTPSHVLRAMGLPEEAASKSLRFSWTPG 3vay-a1-m1-cA_3vay-a1-m1-cB Crystal structure of 2-Haloacid Dehalogenase from Pseudomonas syringae pv. Tomato DC3000 Q88B12 Q88B12 1.979 X-RAY DIFFRACTION 37 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 230 230 MIKLVTFDLDDTLWDTAPAIVGAEAALRDWLAEQAPKLGPVPVEHLWEIRSRLLDEDPSFKHRISALRRRVLFHALEDAGYDSDEAQQLADESFEVFLHGRHQVQIFPEVQPTLEILAKTFTLGVITNGNADVRRLGLADYFAFALCAEDLGIGKPDPAPFLEALRRAKVDASAAVHVGDHPSDDIAGAQQAGMRAIWYNPQGKAWDADRLPDAEIHNLSQLPEVLARWA MIKLVTFDLDDTLWDTAPAIVGAEAALRDWLAEQAPKLGPVPVEHLWEIRSRLLDEDPSFKHRISALRRRVLFHALEDAGYDSDEAQQLADESFEVFLHGRHQVQIFPEVQPTLEILAKTFTLGVITNGNADVRRLGLADYFAFALCAEDLGIGKPDPAPFLEALRRAKVDASAAVHVGDHPSDDIAGAQQAGMRAIWYNPQGKAWDADRLPDAEIHNLSQLPEVLARWA 3vb8-a1-m1-cB_3vb8-a1-m1-cA Crystal Structure of Engineered Protein, Northeast Structural Genomics Consortium Target OR43 2.9 X-RAY DIFFRACTION 37 1.0 32630 (synthetic construct) 32630 (synthetic construct) 151 153 MSVVDYVVTSFNSTSQMSHELLFSVKKRWFVKPFEHSRRYGLLAYMLLPGNYIKFGLYVLKNQDYARFEIAWVHVDKDGKIEERTVYSIETYWHIFIDIENDLNCPYVLAKFIEMRPEFEKTAWVEESNYSIAEDDIQMVESIKRYLERKI MSVVDYVVTSFNSTSQMSHELLFSVKKRWFVKPFEHSRRYGLLAYMLLPGNYIKFGLYVLKNQDYARFEIAWVHVDKDGKIEERTVYSIETYWHIFIDIENDLNCPYVLAKFIEMRPEFEKTAWVEESNYSIAEDDIQMVESIKRYLERKIAS 3vb9-a2-m1-cC_3vb9-a2-m1-cD Crystal structure of VPA0735 from Vibrio parahaemolyticus in monoclinic form, NorthEast Structural Genomics target VpR109 Q87I71 Q87I71 2.1 X-RAY DIFFRACTION 163 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 446 446 2p3y-a1-m1-cA_2p3y-a1-m1-cB 3vb9-a1-m1-cA_3vb9-a1-m1-cB ETVVPSRVGDLKFESDFPTQETKNLNEDFQRATQAYLWGIPASSIEWLNVSRNDFKFEEGQGFFNTLKQKQGIITANFTTPYVIGTWNLEKTGPLIINLPEAKAGLDVHQRVLSDLSLLGPDKGKGGKYLIVPPGEKYKDLNPKGYYVIRPKTNVVYGGIRILEPDVDRVVKQVVPNITTQPYADGKLGRKIPVAQVPEIDWTHIPKDGLEYWKTIHQIIQENPVEERDRFVAQLKFLGIEKGKPFNPTEEQKKILLEASKVGRAAQSNDYTKRFTQPYWKGTNWKDAISVSLDQRSENYDELDERAAWFYEAITVSRGKSTIPGFGQRYLVTYQDSDGNWLSGEHTYKLHVPANVPASNFWSTTVYDENNRLIINDAGSPDISSRKNLKVNSDGSIDVYYGPKPVKGYENNWVQTNPGEGWFTYFRFYGPTEKFDKSWTGDIELV ETVVPSRVGDLKFESDFPTQETKNLNEDFQRATQAYLWGIPASSIEWLNVSRNDFKFEEGQGFFNTLKQKQGIITANFTTPYVIGTWNLEKTGPLIINLPEAKAGLDVHQRVLSDLSLLGPDKGKGGKYLIVPPGEKYKDLNPKGYYVIRPKTNVVYGGIRILEPDVDRVVKQVVPNITTQPYADGKLGRKIPVAQVPEIDWTHIPKDGLEYWKTIHQIIQENPVEERDRFVAQLKFLGIEKGKPFNPTEEQKKILLEASKVGRAAQSNDYTKRFTQPYWKGTNWKDAISVSLDQRSENYDELDERAAWFYEAITVSRGKSTIPGFGQRYLVTYQDSDGNWLSGEHTYKLHVPANVPASNFWSTTVYDENNRLIINDAGSPDISSRKNLKVNSDGSIDVYYGPKPVKGYENNWVQTNPGEGWFTYFRFYGPTEKFDKSWTGDIELV 3vba-a2-m1-cD_3vba-a2-m1-cC Crystal structure of methanogen 3-isopropylmalate isomerase small subunit Q58673 Q58673 2 X-RAY DIFFRACTION 29 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 163 166 3vba-a1-m1-cA_3vba-a1-m1-cB 3vba-a3-m1-cE_3vba-a3-m1-cF MRSIIKGRVWKFGNNVDTDAILPARYLVYTKPEELAQFVMTGADPDFPKKVKPGDIIVGGKNFGCGSSREHAPLGLKGAGISCVIAESFARIFYRNAINVGLPLIECKGISEKVNEGDELEVNLETGEIKNLTTGEVLKGQKLPEFMMEILEAGGLMPYLKKK MRSIIKGRVWKFGNNVDTDAILPARYLVYTKPEELAQFVMTGADPDFPKKVKPGDIIVGGKNFGCGSSREHAPLGLKGAGISCVIAESFARIFYRNAINVGLPLIECKGISEKVNEGDELEVNLETGEIKNLTTGEVLKGQKLPEFMMEILEAGGLMPYLKKKMAE 3vbp-a1-m1-cA_3vbp-a1-m1-cE Crystal Structure of the D94N mutant of AntD, an N-acyltransferase from Bacillus cereus in complex with dTDP and Coenzyme A 2.3 X-RAY DIFFRACTION 84 1.0 699184 (Bacillus cereus SJ1) 699184 (Bacillus cereus SJ1) 185 185 3vbi-a1-m1-cA_3vbi-a1-m1-cC 3vbi-a1-m1-cA_3vbi-a1-m1-cE 3vbi-a1-m1-cC_3vbi-a1-m1-cE 3vbj-a1-m1-cA_3vbj-a1-m1-cC 3vbj-a1-m1-cA_3vbj-a1-m1-cE 3vbj-a1-m1-cE_3vbj-a1-m1-cC 3vbk-a1-m1-cA_3vbk-a1-m1-cC 3vbk-a1-m1-cA_3vbk-a1-m1-cE 3vbk-a1-m1-cC_3vbk-a1-m1-cE 3vbl-a1-m1-cA_3vbl-a1-m1-cC 3vbl-a1-m1-cA_3vbl-a1-m1-cE 3vbl-a1-m1-cE_3vbl-a1-m1-cC 3vbm-a1-m1-cA_3vbm-a1-m1-cC 3vbm-a1-m1-cA_3vbm-a1-m1-cE 3vbm-a1-m1-cC_3vbm-a1-m1-cE 3vbn-a1-m1-cA_3vbn-a1-m1-cC 3vbn-a1-m1-cA_3vbn-a1-m1-cE 3vbn-a1-m1-cE_3vbn-a1-m1-cC 3vbp-a1-m1-cA_3vbp-a1-m1-cC 3vbp-a1-m1-cE_3vbp-a1-m1-cC NSFYSQEELKKIGFLSVGKNVLISKKASIYNPGVISIGNNVRIDDFCILSGKVTIGSYSHIAAYTALYGGEVGIEMYDFANISSRTIVYAAINDFSGNALMGPTIPNQYKNVKTGKVILKKHVIIGAHSIIFPNVVIGEGVAVGAMSMVKESLDDWYIYVGVPVRKIKARKRKIVELENEFLKSM NSFYSQEELKKIGFLSVGKNVLISKKASIYNPGVISIGNNVRIDDFCILSGKVTIGSYSHIAAYTALYGGEVGIEMYDFANISSRTIVYAAINDFSGNALMGPTIPNQYKNVKTGKVILKKHVIIGAHSIIFPNVVIGEGVAVGAMSMVKESLDDWYIYVGVPVRKIKARKRKIVELENEFLKSM 3vbz-a3-m1-cA_3vbz-a3-m1-cB Crystal structure of Taipoxin beta subunit isoform 2 P0CG57 P0CG57 1.76 X-RAY DIFFRACTION 42 1.0 8667 (Oxyuranus scutellatus scutellatus) 8667 (Oxyuranus scutellatus scutellatus) 118 118 NLVQFGFMIECAIRNRRPALDFMNYGCYCGTVGRGTPVDDLDRCCQVHDECYATAEKHGCYPSLTTYQWECRQVGNECNSKTQCEVFVCACDLAAAKCLAQEDYNPAHFNINTGERCK NLVQFGFMIECAIRNRRPALDFMNYGCYCGTVGRGTPVDDLDRCCQVHDECYATAEKHGCYPSLTTYQWECRQVGNECNSKTQCEVFVCACDLAAAKCLAQEDYNPAHFNINTGERCK 3vc3-a3-m1-cE_3vc3-a3-m2-cF Crystal structure of beta-cyanoalanine synthase K95A mutant in soybean I1L6I6 I1L6I6 1.766 X-RAY DIFFRACTION 231 1.0 3847 (Glycine max) 3847 (Glycine max) 322 323 3vbe-a1-m1-cA_3vbe-a1-m1-cB 3vbe-a2-m1-cD_3vbe-a2-m1-cC 3vc3-a1-m1-cA_3vc3-a1-m1-cB 3vc3-a2-m1-cC_3vc3-a2-m1-cD STNIKKHVSQLIGRTPLVYLNKVTEGCGAYVAVKQEMMQPTASIADRPAYAMITDAEEKNLITPGKTTLIEPTSGNMGISMAFMAAMKGYKMVLTMPSYTSLERRVTMRAFGAELILTDPAKGMGGTVKKAYELLENTPNAHMLQQFSNPANTQVHFETTGPEIWEDTNGQVDIFVMGIGSGGTVSGVGQYLKSKNPNVKIYGVEPSESNVLNGGKPGPHHITGNGVGFKPDILDLDVMEKVLEVSSEDAVNMARVLALKEGLMVGISSGANTVAALRLAQLPENKGKLIVTVHPSFGERYLSSVLFQELRQEAENMQPVAV STNIKKHVSQLIGRTPLVYLNKVTEGCGAYVAVKQEMMQPTASIADRPAYAMITDAEEKNLITPGKTTLIEPTSGNMGISMAFMAAMKGYKMVLTMPSYTSLERRVTMRAFGAELILTDPAKGMGGTVKKAYELLENTPNAHMLQQFSNPANTQVHFETTGPEIWEDTNGQVDIFVMGIGSGGTVSGVGQYLKSKNPNVKIYGVEPSESNVLNGGKPGPHHITGNGVGFKPDILDLDVMEKVLEVSSEDAVNMARVLALKEGLMVGISSGANTVAALRLAQLPENKGKLIVTVHPSFGERYLSSVLFQELRQEAENMQPVAVD 3vc5-a1-m1-cA_3vc5-a1-m2-cA Crystal structure of enolase Tbis_1083(TARGET EFI-502310) FROM Thermobispora bispora DSM 43833 complexed with phosphate D6Y7Y6 D6Y7Y6 1.5 X-RAY DIFFRACTION 83 1.0 469371 (Thermobispora bispora DSM 43833) 469371 (Thermobispora bispora DSM 43833) 419 419 3vc6-a1-m1-cA_3vc6-a1-m2-cA MLIREVRVTPVAFRDPPLLNAAGVHQPWALRTIVEVVTDEGITGLGETYGDLAHLEQVRAAAARLPGLDVYALHRIYRRVADVVGANIVTDMHGLTGSSSRVKTVDRVFAAFEVACLDIQGKAAGRPVADLLGGKVRDAVPYSAYLFYKWAGHPGKPEDRFGPALDPDGIVAQARLLIGEYGFRSIKLKGGVFPPEQEAEAIQALRDAFPGLPLRLDPNAAWTVETSIRVGRALDGVLEYLEDPTPGIDGMARVAAEVPMPLATNMCVVTPEHLPAAVERRPIGVLLIDHHYWGGLVRSAHIATLCATFGIELSMHSNSHLGISLAAMTHLAAATPAITHACDTHTPWQDGQDVVAPGALRFVDGAVPVPDGPGLGVELDRDALAVMHEQYERCGIRTRDDEGYMRSFDPSFSTRRGFW MLIREVRVTPVAFRDPPLLNAAGVHQPWALRTIVEVVTDEGITGLGETYGDLAHLEQVRAAAARLPGLDVYALHRIYRRVADVVGANIVTDMHGLTGSSSRVKTVDRVFAAFEVACLDIQGKAAGRPVADLLGGKVRDAVPYSAYLFYKWAGHPGKPEDRFGPALDPDGIVAQARLLIGEYGFRSIKLKGGVFPPEQEAEAIQALRDAFPGLPLRLDPNAAWTVETSIRVGRALDGVLEYLEDPTPGIDGMARVAAEVPMPLATNMCVVTPEHLPAAVERRPIGVLLIDHHYWGGLVRSAHIATLCATFGIELSMHSNSHLGISLAAMTHLAAATPAITHACDTHTPWQDGQDVVAPGALRFVDGAVPVPDGPGLGVELDRDALAVMHEQYERCGIRTRDDEGYMRSFDPSFSTRRGFW 3vc7-a4-m1-cB_3vc7-a4-m2-cB Crystal Structure of a putative oxidoreductase from Sinorhizobium meliloti 1021 Q92N93 Q92N93 2.231 X-RAY DIFFRACTION 102 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 235 235 3vc7-a2-m1-cA_3vc7-a2-m2-cA 3vc7-a3-m1-cB_3vc7-a3-m2-cB 3vc7-a4-m1-cA_3vc7-a4-m2-cA 4eso-a1-m1-cA_4eso-a1-m1-cB 4eso-a1-m1-cD_4eso-a1-m1-cC GNYQGKKAIVIGGTHGGLATVRRLVEGGAEVLLTGRNESNIARIREEFGPRVHALRSDIADLNEIAVLGAAAGQTLGAIDLLHINAGVSELEPFDQVSEASYDRQFAVNTKGAFFTVQRLTPLIREGGSIVFTSSVADEGGHPGSVYSASKAALVSFASVLAAELLPRGIRVNSVSPGFIDTRAEFKTLGDNITPKRNGTADEVARAVLFLAFEATFTTGAKLAVDGGLGQKLST GNYQGKKAIVIGGTHGGLATVRRLVEGGAEVLLTGRNESNIARIREEFGPRVHALRSDIADLNEIAVLGAAAGQTLGAIDLLHINAGVSELEPFDQVSEASYDRQFAVNTKGAFFTVQRLTPLIREGGSIVFTSSVADEGGHPGSVYSASKAALVSFASVLAAELLPRGIRVNSVSPGFIDTRAEFKTLGDNITPKRNGTADEVARAVLFLAFEATFTTGAKLAVDGGLGQKLST 3vc7-a4-m2-cA_3vc7-a4-m2-cB Crystal Structure of a putative oxidoreductase from Sinorhizobium meliloti 1021 Q92N93 Q92N93 2.231 X-RAY DIFFRACTION 135 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 234 235 3vc7-a1-m1-cA_3vc7-a1-m1-cB 3vc7-a4-m1-cA_3vc7-a4-m1-cB 4eso-a1-m1-cC_4eso-a1-m1-cA 4eso-a1-m1-cD_4eso-a1-m1-cB NYQGKKAIVIGGTHGGLATVRRLVEGGAEVLLTGRNESNIARIREEFGPRVHALRSDIADLNEIAVLGAAAGQTLGAIDLLHINAGVSELEPFDQVSEASYDRQFAVNTKGAFFTVQRLTPLIREGGSIVFTSSVADEGGHPGSVYSASKAALVSFASVLAAELLPRGIRVNSVSPGFIDTRAEFKTLGDNITPKRNGTADEVARAVLFLAFEATFTTGAKLAVDGGLGQKLST GNYQGKKAIVIGGTHGGLATVRRLVEGGAEVLLTGRNESNIARIREEFGPRVHALRSDIADLNEIAVLGAAAGQTLGAIDLLHINAGVSELEPFDQVSEASYDRQFAVNTKGAFFTVQRLTPLIREGGSIVFTSSVADEGGHPGSVYSASKAALVSFASVLAAELLPRGIRVNSVSPGFIDTRAEFKTLGDNITPKRNGTADEVARAVLFLAFEATFTTGAKLAVDGGLGQKLST 3vc8-a1-m1-cA_3vc8-a1-m1-cB Crystal structure of the C-terminal cytoplasmic domain of non-structural protein 4 from mouse hepatitis virus A59 P0C6X9 P0C6X9 2 X-RAY DIFFRACTION 10 1.0 591071 (Murine coronavirus inf-MHV-A59) 591071 (Murine coronavirus inf-MHV-A59) 81 85 TFEEMALTTFMITKESYCKLKNSVSDVAFNRYLSLYNKYRYFSGKMDTAAYREAACSQLAKAMETFNHNNGNDVLYQPPTA TFEEMALTTFMITKESYCKLKNSVSDVAFNRYLSLYNKYRYFSGKMDTAAYREAACSQLAKAMETFNHNNGNDVLYQPPTASVTT 3vcb-a1-m1-cA_3vcb-a1-m1-cB C425S mutant of the C-terminal cytoplasmic domain of non-structural protein 4 from mouse hepatitis virus A59 P0C6X9 P0C6X9 2.4 X-RAY DIFFRACTION 94 1.0 591071 (Murine coronavirus inf-MHV-A59) 591071 (Murine coronavirus inf-MHV-A59) 89 89 STFEEMALTTFMITKESYSKLKNSVSDVAFNRYLSLYNKYRYFSGKMDTAAYREAACSQLAKAMETFNHNNGNDVLYQPPTASVTTSFL STFEEMALTTFMITKESYSKLKNSVSDVAFNRYLSLYNKYRYFSGKMDTAAYREAACSQLAKAMETFNHNNGNDVLYQPPTASVTTSFL 3vcc-a3-m1-cB_3vcc-a3-m1-cA CRYSTAL STRUCTURE OF D-Galacturonate Dehydratase from GEOBACILLUS SP. complexed with Mg D3EID5 D3EID5 1.64 X-RAY DIFFRACTION 66 0.997 481743 (Paenibacillus sp. Y412MC10) 481743 (Paenibacillus sp. Y412MC10) 385 386 3ops-a5-m1-cA_3ops-a5-m2-cC 3ops-a6-m3-cD_3ops-a6-m1-cB 3p3b-a1-m1-cB_3p3b-a1-m1-cA 3qpe-a1-m1-cB_3qpe-a1-m1-cA 3qpe-a2-m1-cC_3qpe-a2-m1-cD SLNITGIQSDWKVEKIEFAKLTGERARSAGANGRIGVHGKSCTVDIARITIDGQTGYGSSIHMTPEWAEDVIGRRLLDLFDDRGRLREAYRLQLEYPVLDWLGQRQGKPVYDLVSGAHLETGASLVVPCYDTSLYFDDLHLADERAAVALMQEEAMQGYAKGQRHFKIKVGRGGRHMPLWEGTKRDIAIVRGISEVAGPAGKIMIDANNAYNLNLTKEVLAALSDVNLYWLEEAFHEDEALYEDLKEWLGQRGQNVLIADGEGLASPHLIEWATRGRVDVLQYDIIWPGFTHWMELGEKLDAHGLRSAPHCYGNAYGIYASGHLSAAVRNFEFVEYDDITIEGMDVSGYRIENGEIHVPATPGFGIVFDDELVTYLINRSGWSEG LNITGIQSDWKVEKIEFAKLTGERARSAGANGRIGVHGKSCTVDIARITIDGQTGYGSSIHMTPEWAEDVIGRRLLDLFDDRGRLREAYRLQLEYPVLDWLGQRQGKPVYDLVSGAHLETGASLVVPCYDTSLYFDDLHLADERAAVALMQEEAMQGYAKGQRHFKIKVGRGGRHMPLWEGTKRDIAIVRGISEVAGPAGKIMIDANNAYNLNLTKEVLAALSDVNLYWLEEAFHEDEALYEDLKEWLGQRGQNVLIADGEGLASPHLIEWATRGRVDVLQYDIIWPGFTHWMELGEKLDAHGLRSAPHCYGNAYGIYASGHLSAAVRNFEFVEYDDITIEGMDVSGYRIENGEIHVPATPGFGIVFDDELVTYLINRSGWSEGHH 3vcr-a2-m4-cB_3vcr-a2-m5-cB Crystal structure of a putative Kdpg (2-keto-3-deoxy-6-phosphogluconate) aldolase from Oleispira antarctica D2YW47 D2YW47 1.84 X-RAY DIFFRACTION 53 1.0 188908 (Oleispira antarctica) 188908 (Oleispira antarctica) 213 213 3vcr-a1-m1-cA_3vcr-a1-m2-cA 3vcr-a1-m1-cA_3vcr-a1-m3-cA 3vcr-a1-m2-cA_3vcr-a1-m3-cA 3vcr-a2-m1-cB_3vcr-a2-m4-cB 3vcr-a2-m1-cB_3vcr-a2-m5-cB TQLDTWLANTKPLIPVIVIDDLVHAIPAKALVAGGVHLLEVTLRTEAGLAAISAIKKAVPEAIVGAGTVCTADDFQKAIDAGAQFIVSPGLTPELIEKAKQVKLDGQWQGVFLPGVATASEVIAAQAGITQLKCFPASAIGGAKLLKAWSGPFPDIQFCPTGGISKDNYKEYLGLPNVICAGGSWLTESKLLIEGDWNEVTRRASEIVKLSDI TQLDTWLANTKPLIPVIVIDDLVHAIPAKALVAGGVHLLEVTLRTEAGLAAISAIKKAVPEAIVGAGTVCTADDFQKAIDAGAQFIVSPGLTPELIEKAKQVKLDGQWQGVFLPGVATASEVIAAQAGITQLKCFPASAIGGAKLLKAWSGPFPDIQFCPTGGISKDNYKEYLGLPNVICAGGSWLTESKLLIEGDWNEVTRRASEIVKLSDI 3vcx-a1-m1-cB_3vcx-a1-m1-cA Crystal structure of a putative glyoxalase/bleomycin resistance protein from Rhodopseudomonas palustris CGA009 Q6NBC6 Q6NBC6 1.39 X-RAY DIFFRACTION 108 0.992 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 119 120 STSYYPVITSDVAATAAFYCQHFGFRPLFEADWYVHLQSAEDPAVNLAILDGQHSTIPAAGRGQVSGLILNFEVDDPDREYARLQQAGLPILLTLRDEDQRHFITADPNGVLIDIIKPI RSTSYYPVITSDVAATAAFYCQHFGFRPLFEADWYVHLQSAEDPAVNLAILDGQHSTIPAAGRGQVSGLILNFEVDDPDREYARLQQAGLPILLTLRDEGQRHFITADPNGVLIDIIKPI 3vcy-a5-m1-cA_3vcy-a5-m1-cD Structure of MurA (UDP-N-acetylglucosamine enolpyruvyl transferase), from Vibrio fischeri in complex with substrate UDP-N-acetylglucosamine and the drug fosfomycin. B5F9P4 B5F9P4 1.925 X-RAY DIFFRACTION 27 1.0 388396 (Aliivibrio fischeri MJ11) 388396 (Aliivibrio fischeri MJ11) 419 419 3vcy-a5-m1-cB_3vcy-a5-m1-cC MDKFRIQGSDKPLSGEVTISGAKNAALPILFASLLAEEPVEVANVPKLRDVDTTMELLKRLGAEVSRNGSVHIDASGVNDFCAPYDLVKTMRASIWALGPLVARFGKGQVSLPGGCAIGARPVDLHIHGLEQLGATIKLEEGYVKAEVDGRLKGAHIVMDKVSVGATITVMCAATLAEGTTVLENAAREPEIVDTANFLNAIGAKVSGMGTDTITIEGVERLGGGYHEVVADRIETGTFLVAAAVSGGKIVCKNTKAHLLEAVLAKLEEAGADVQTGDDWISLDMTGRELKAVNIRTAPHPAFPTDMQAQFTLLNMMAKGSGIITETIFENRFMHIPELQRMGAHAEIEGNTAICGDTDGLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYDKIEDKLTALGANIERVHS MDKFRIQGSDKPLSGEVTISGAKNAALPILFASLLAEEPVEVANVPKLRDVDTTMELLKRLGAEVSRNGSVHIDASGVNDFCAPYDLVKTMRASIWALGPLVARFGKGQVSLPGGCAIGARPVDLHIHGLEQLGATIKLEEGYVKAEVDGRLKGAHIVMDKVSVGATITVMCAATLAEGTTVLENAAREPEIVDTANFLNAIGAKVSGMGTDTITIEGVERLGGGYHEVVADRIETGTFLVAAAVSGGKIVCKNTKAHLLEAVLAKLEEAGADVQTGDDWISLDMTGRELKAVNIRTAPHPAFPTDMQAQFTLLNMMAKGSGIITETIFENRFMHIPELQRMGAHAEIEGNTAICGDTDGLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYDKIEDKLTALGANIERVHS 3vcy-a5-m1-cB_3vcy-a5-m1-cD Structure of MurA (UDP-N-acetylglucosamine enolpyruvyl transferase), from Vibrio fischeri in complex with substrate UDP-N-acetylglucosamine and the drug fosfomycin. B5F9P4 B5F9P4 1.925 X-RAY DIFFRACTION 53 1.0 388396 (Aliivibrio fischeri MJ11) 388396 (Aliivibrio fischeri MJ11) 419 419 3vcy-a5-m1-cA_3vcy-a5-m1-cC MDKFRIQGSDKPLSGEVTISGAKNAALPILFASLLAEEPVEVANVPKLRDVDTTMELLKRLGAEVSRNGSVHIDASGVNDFCAPYDLVKTMRASIWALGPLVARFGKGQVSLPGGCAIGARPVDLHIHGLEQLGATIKLEEGYVKAEVDGRLKGAHIVMDKVSVGATITVMCAATLAEGTTVLENAAREPEIVDTANFLNAIGAKVSGMGTDTITIEGVERLGGGYHEVVADRIETGTFLVAAAVSGGKIVCKNTKAHLLEAVLAKLEEAGADVQTGDDWISLDMTGRELKAVNIRTAPHPAFPTDMQAQFTLLNMMAKGSGIITETIFENRFMHIPELQRMGAHAEIEGNTAICGDTDGLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYDKIEDKLTALGANIERVHS MDKFRIQGSDKPLSGEVTISGAKNAALPILFASLLAEEPVEVANVPKLRDVDTTMELLKRLGAEVSRNGSVHIDASGVNDFCAPYDLVKTMRASIWALGPLVARFGKGQVSLPGGCAIGARPVDLHIHGLEQLGATIKLEEGYVKAEVDGRLKGAHIVMDKVSVGATITVMCAATLAEGTTVLENAAREPEIVDTANFLNAIGAKVSGMGTDTITIEGVERLGGGYHEVVADRIETGTFLVAAAVSGGKIVCKNTKAHLLEAVLAKLEEAGADVQTGDDWISLDMTGRELKAVNIRTAPHPAFPTDMQAQFTLLNMMAKGSGIITETIFENRFMHIPELQRMGAHAEIEGNTAICGDTDGLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYDKIEDKLTALGANIERVHS 3vcy-a5-m1-cC_3vcy-a5-m1-cD Structure of MurA (UDP-N-acetylglucosamine enolpyruvyl transferase), from Vibrio fischeri in complex with substrate UDP-N-acetylglucosamine and the drug fosfomycin. B5F9P4 B5F9P4 1.925 X-RAY DIFFRACTION 96 1.0 388396 (Aliivibrio fischeri MJ11) 388396 (Aliivibrio fischeri MJ11) 419 419 3vcy-a5-m1-cA_3vcy-a5-m1-cB MDKFRIQGSDKPLSGEVTISGAKNAALPILFASLLAEEPVEVANVPKLRDVDTTMELLKRLGAEVSRNGSVHIDASGVNDFCAPYDLVKTMRASIWALGPLVARFGKGQVSLPGGCAIGARPVDLHIHGLEQLGATIKLEEGYVKAEVDGRLKGAHIVMDKVSVGATITVMCAATLAEGTTVLENAAREPEIVDTANFLNAIGAKVSGMGTDTITIEGVERLGGGYHEVVADRIETGTFLVAAAVSGGKIVCKNTKAHLLEAVLAKLEEAGADVQTGDDWISLDMTGRELKAVNIRTAPHPAFPTDMQAQFTLLNMMAKGSGIITETIFENRFMHIPELQRMGAHAEIEGNTAICGDTDGLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYDKIEDKLTALGANIERVHS MDKFRIQGSDKPLSGEVTISGAKNAALPILFASLLAEEPVEVANVPKLRDVDTTMELLKRLGAEVSRNGSVHIDASGVNDFCAPYDLVKTMRASIWALGPLVARFGKGQVSLPGGCAIGARPVDLHIHGLEQLGATIKLEEGYVKAEVDGRLKGAHIVMDKVSVGATITVMCAATLAEGTTVLENAAREPEIVDTANFLNAIGAKVSGMGTDTITIEGVERLGGGYHEVVADRIETGTFLVAAAVSGGKIVCKNTKAHLLEAVLAKLEEAGADVQTGDDWISLDMTGRELKAVNIRTAPHPAFPTDMQAQFTLLNMMAKGSGIITETIFENRFMHIPELQRMGAHAEIEGNTAICGDTDGLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYDKIEDKLTALGANIERVHS 3vcz-a2-m1-cB_3vcz-a2-m2-cB 1.80 Angstrom resolution crystal structure of a putative translation initiation inhibitor from Vibrio vulnificus CMCP6 1.8 X-RAY DIFFRACTION 21 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 127 127 TKVLHTDSAPAAIGPYIQGVDLGNMVLTSGQIPVNPATGEVPADIAAQARQSLDNVKAVVEASGLTVGDIVKMTVFVKDLNDFGTVNEVYGNFFDEHNVAHYPARSCVEVARLPKDVGIEIEAIAVR TKVLHTDSAPAAIGPYIQGVDLGNMVLTSGQIPVNPATGEVPADIAAQARQSLDNVKAVVEASGLTVGDIVKMTVFVKDLNDFGTVNEVYGNFFDEHNVAHYPARSCVEVARLPKDVGIEIEAIAVR 3vcz-a2-m2-cB_3vcz-a2-m2-cC 1.80 Angstrom resolution crystal structure of a putative translation initiation inhibitor from Vibrio vulnificus CMCP6 1.8 X-RAY DIFFRACTION 68 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 127 127 3vcz-a1-m1-cA_3vcz-a1-m1-cB 3vcz-a1-m1-cA_3vcz-a1-m1-cC 3vcz-a1-m1-cB_3vcz-a1-m1-cC 3vcz-a2-m1-cA_3vcz-a2-m1-cB 3vcz-a2-m1-cA_3vcz-a2-m1-cC 3vcz-a2-m1-cB_3vcz-a2-m1-cC 3vcz-a2-m2-cA_3vcz-a2-m2-cB 3vcz-a2-m2-cA_3vcz-a2-m2-cC TKVLHTDSAPAAIGPYIQGVDLGNMVLTSGQIPVNPATGEVPADIAAQARQSLDNVKAVVEASGLTVGDIVKMTVFVKDLNDFGTVNEVYGNFFDEHNVAHYPARSCVEVARLPKDVGIEIEAIAVR TKVLHTDSAPAAIGPYIQGVDLGNMVLTSGQIPVNPATGEVPADIAAQARQSLDNVKAVVEASGLTVGDIVKMTVFVKDLNDFGTVNEVYGNFFDEHNVAHYPARSCVEVARLPKDVGIEIEAIAVR 3vd0-a2-m1-cL_3vd0-a2-m1-cK structure of p73 DNA binding domain tetramer modulates p73 transactivation O15350 O15350 2.95 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 206 3vd0-a1-m1-cB_3vd0-a1-m1-cA 3vd0-a1-m1-cD_3vd0-a1-m1-cC 3vd0-a2-m1-cI_3vd0-a2-m1-cJ 3vd1-a1-m1-cB_3vd1-a1-m1-cA 3vd1-a1-m1-cD_3vd1-a1-m1-cC 3vd1-a2-m1-cI_3vd1-a2-m1-cJ 3vd1-a2-m1-cK_3vd1-a2-m1-cL 3vd2-a1-m1-cB_3vd2-a1-m1-cA 3vd2-a1-m1-cD_3vd2-a1-m1-cC 3vd2-a2-m1-cI_3vd2-a2-m1-cJ 4g82-a1-m1-cB_4g82-a1-m1-cA 4g82-a1-m2-cB_4g82-a1-m2-cA 4g83-a1-m1-cA_4g83-a1-m1-cB 4g83-a1-m2-cA_4g83-a1-m2-cB 4guo-a1-m1-cB_4guo-a1-m1-cA 4guo-a1-m1-cD_4guo-a1-m1-cC 4guo-a2-m1-cI_4guo-a2-m1-cJ 4guo-a2-m1-cK_4guo-a2-m1-cL 4guq-a1-m1-cB_4guq-a1-m1-cA 5kbd-a1-m1-cA_5kbd-a1-m1-cB 7ezj-a1-m1-cB_7ezj-a1-m1-cA 7ezj-a1-m1-cD_7ezj-a1-m1-cC 7ezj-a2-m1-cJ_7ezj-a2-m1-cI 7ezj-a2-m1-cL_7ezj-a2-m1-cK 7ezj-a3-m1-ca_7ezj-a3-m1-cb 7ezj-a3-m1-cd_7ezj-a3-m1-cc 7ezj-a4-m1-cj_7ezj-a4-m1-ci 7ezj-a4-m1-cl_7ezj-a4-m1-ck HEFIPSNTDYPGPHHFEVTFQQSSTAKSATWTYSPLLKKLYCQIAKTCPIQIKVSTPPPPGTAIRAMPVYKKAEHVTDVVKRCPNHELGRDFNEGQSAPASHLIRVEGNNLSQYVDDPVTGRQSVVVPYEPPQVGTEFTTILYNFMCNSSCVGGMNRRPILIIITLEMRDGQVLGRRSFEGRICACPGRDRKADEDHYREQ HHHHHHEFIPSNTDYPGPHHFEVTFQQSSTAKSATWTYSPLLKKLYCQIAKTCPIQIKVSTPPPPGTAIRAMPVYKKAEHVTDVVKRCPNHELGRDFNEGQSAPASHLIRVEGNNLSQYVDDPVTGRQSVVVPYEPPQVGTEFTTILYNFMCNSSCVGGMNRRPILIIITLEMRDGQVLGRRSFEGRICACPGRDRKADEDHYREQ 3vdd-a1-m8-cD_3vdd-a1-m9-cD Structure of HRV2 capsid complexed with antiviral compound BTA798 P04936 P04936 3.2 X-RAY DIFFRACTION 12 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 36 36 3vdd-a1-m10-cD_3vdd-a1-m6-cD 3vdd-a1-m10-cD_3vdd-a1-m9-cD 3vdd-a1-m11-cD_3vdd-a1-m12-cD 3vdd-a1-m11-cD_3vdd-a1-m15-cD 3vdd-a1-m12-cD_3vdd-a1-m13-cD 3vdd-a1-m13-cD_3vdd-a1-m14-cD 3vdd-a1-m14-cD_3vdd-a1-m15-cD 3vdd-a1-m16-cD_3vdd-a1-m17-cD 3vdd-a1-m16-cD_3vdd-a1-m20-cD 3vdd-a1-m17-cD_3vdd-a1-m18-cD 3vdd-a1-m18-cD_3vdd-a1-m19-cD 3vdd-a1-m19-cD_3vdd-a1-m20-cD 3vdd-a1-m1-cD_3vdd-a1-m2-cD 3vdd-a1-m1-cD_3vdd-a1-m5-cD 3vdd-a1-m21-cD_3vdd-a1-m22-cD 3vdd-a1-m21-cD_3vdd-a1-m25-cD 3vdd-a1-m22-cD_3vdd-a1-m23-cD 3vdd-a1-m23-cD_3vdd-a1-m24-cD 3vdd-a1-m24-cD_3vdd-a1-m25-cD 3vdd-a1-m26-cD_3vdd-a1-m27-cD 3vdd-a1-m26-cD_3vdd-a1-m30-cD 3vdd-a1-m27-cD_3vdd-a1-m28-cD 3vdd-a1-m28-cD_3vdd-a1-m29-cD 3vdd-a1-m29-cD_3vdd-a1-m30-cD 3vdd-a1-m2-cD_3vdd-a1-m3-cD 3vdd-a1-m31-cD_3vdd-a1-m32-cD 3vdd-a1-m31-cD_3vdd-a1-m35-cD 3vdd-a1-m32-cD_3vdd-a1-m33-cD 3vdd-a1-m33-cD_3vdd-a1-m34-cD 3vdd-a1-m34-cD_3vdd-a1-m35-cD 3vdd-a1-m36-cD_3vdd-a1-m37-cD 3vdd-a1-m36-cD_3vdd-a1-m40-cD 3vdd-a1-m37-cD_3vdd-a1-m38-cD 3vdd-a1-m38-cD_3vdd-a1-m39-cD 3vdd-a1-m39-cD_3vdd-a1-m40-cD 3vdd-a1-m3-cD_3vdd-a1-m4-cD 3vdd-a1-m41-cD_3vdd-a1-m42-cD 3vdd-a1-m41-cD_3vdd-a1-m45-cD 3vdd-a1-m42-cD_3vdd-a1-m43-cD 3vdd-a1-m43-cD_3vdd-a1-m44-cD 3vdd-a1-m44-cD_3vdd-a1-m45-cD 3vdd-a1-m46-cD_3vdd-a1-m47-cD 3vdd-a1-m46-cD_3vdd-a1-m50-cD 3vdd-a1-m47-cD_3vdd-a1-m48-cD 3vdd-a1-m48-cD_3vdd-a1-m49-cD 3vdd-a1-m49-cD_3vdd-a1-m50-cD 3vdd-a1-m4-cD_3vdd-a1-m5-cD 3vdd-a1-m51-cD_3vdd-a1-m52-cD 3vdd-a1-m51-cD_3vdd-a1-m55-cD 3vdd-a1-m52-cD_3vdd-a1-m53-cD 3vdd-a1-m53-cD_3vdd-a1-m54-cD 3vdd-a1-m54-cD_3vdd-a1-m55-cD 3vdd-a1-m56-cD_3vdd-a1-m57-cD 3vdd-a1-m56-cD_3vdd-a1-m60-cD 3vdd-a1-m57-cD_3vdd-a1-m58-cD 3vdd-a1-m58-cD_3vdd-a1-m59-cD 3vdd-a1-m59-cD_3vdd-a1-m60-cD 3vdd-a1-m6-cD_3vdd-a1-m7-cD 3vdd-a1-m7-cD_3vdd-a1-m8-cD LNYFNINYFKDAASNGASKLEFTQDPSKFTDPVKDV LNYFNINYFKDAASNGASKLEFTQDPSKFTDPVKDV 3vdg-a1-m1-cA_3vdg-a1-m2-cA Crystal structure of enolase MSMEG_6132 (TARGET EFI-502282) from Mycobacterium smegmatis str. MC2 155 complexed with formate and acetate A0R5B5 A0R5B5 1.9 X-RAY DIFFRACTION 90 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 424 424 3vfc-a1-m1-cA_3vfc-a1-m2-cA SMAHNRIRITGARVTPVAFADPPLLNTVGVHQPYALRAVIQLDTDAGLTGLGETYADTVHLERLQAAAHAIVGRSVFSTNVIRALISDALGGDRTGDGSGLAGMITSASVVDRVFSPFEVACLDVQGQVTGRPVSDLLGGAVRDAVPFSAYLFYKWAAHPGAEPDGWGAALDPDGIVAQARRMIDEYGFSAIKLKGGVFAPEEEMAAVEALRAAFPDHPLRLDPNAAWTPQTSVKVAAGLEGVLEYLEDPTPGLDGMAEVAAQAPMPLATNMCVVAFDQLPAAVAKNSVQVVLSDHHYWGGLQRSRLLAGICDTFGLGLSMHSNSHLGISLAAMVHLAAATPNLTYACDTHWPWRHEDVVAPGALNFCDGEVQVPATPGLGVEIDEDALAALHEQYLRCGIRDRDDTGYMRSIDPGFNASGPRW SMAHNRIRITGARVTPVAFADPPLLNTVGVHQPYALRAVIQLDTDAGLTGLGETYADTVHLERLQAAAHAIVGRSVFSTNVIRALISDALGGDRTGDGSGLAGMITSASVVDRVFSPFEVACLDVQGQVTGRPVSDLLGGAVRDAVPFSAYLFYKWAAHPGAEPDGWGAALDPDGIVAQARRMIDEYGFSAIKLKGGVFAPEEEMAAVEALRAAFPDHPLRLDPNAAWTPQTSVKVAAGLEGVLEYLEDPTPGLDGMAEVAAQAPMPLATNMCVVAFDQLPAAVAKNSVQVVLSDHHYWGGLQRSRLLAGICDTFGLGLSMHSNSHLGISLAAMVHLAAATPNLTYACDTHWPWRHEDVVAPGALNFCDGEVQVPATPGLGVEIDEDALAALHEQYLRCGIRDRDDTGYMRSIDPGFNASGPRW 3vdj-a2-m2-cA_3vdj-a2-m3-cA Crystal structure of circumsporozoite protein aTSR domain, R32 native form Q7K740 Q7K740 1.698 X-RAY DIFFRACTION 49 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 71 71 3vdj-a2-m1-cA_3vdj-a2-m2-cA 3vdj-a2-m1-cA_3vdj-a2-m3-cA 3vdk-a2-m1-cA_3vdk-a2-m2-cA 3vdk-a2-m1-cA_3vdk-a2-m3-cA 3vdk-a2-m2-cA_3vdk-a2-m3-cA 3vdl-a4-m1-cA_3vdl-a4-m1-cB 3vdl-a4-m1-cA_3vdl-a4-m1-cC 3vdl-a4-m1-cB_3vdl-a4-m1-cC YVEFEPSDKHIKEYLNKIQNSLSTEWSPCSVTCGNGIQVRIKPGSANKPKDELDYANDIEKKICKMEKCPH YVEFEPSDKHIKEYLNKIQNSLSTEWSPCSVTCGNGIQVRIKPGSANKPKDELDYANDIEKKICKMEKCPH 3vdn-a1-m1-cB_3vdn-a1-m2-cB Crystal Structure of VldE, the pseudo-glycosyltransferase, in complex with GDP Q15JG1 Q15JG1 2.55 X-RAY DIFFRACTION 120 1.0 264445 (Streptomyces hygroscopicus subsp. limoneus) 264445 (Streptomyces hygroscopicus subsp. limoneus) 474 474 3t5t-a1-m1-cA_3t5t-a1-m1-cB 3t7d-a1-m1-cB_3t7d-a1-m1-cA 3vdm-a1-m1-cA_3vdm-a1-m2-cA 3vdm-a2-m1-cB_3vdm-a2-m3-cB 4f96-a1-m1-cA_4f96-a1-m1-cB 4f97-a1-m1-cB_4f97-a1-m1-cA 4f9f-a1-m1-cB_4f9f-a1-m1-cA 4f9f-a2-m1-cC_4f9f-a2-m1-cF 4f9f-a3-m1-cE_4f9f-a3-m1-cD SEIFLASKRAAITYDTDPATGEPRAWLAPGGTGNVVAEQAGVLNISWIASADSEDDRRASALNPDGVTMELHSGREILVRLIRHDPAVFRNVQNFMTANLMWAANNYGWDRWTQPSFGSDAREGWADFGRFTRDFADAILKSSAQSADPVYLVHDYQLVGVPALLREQRPDAPILLFVHIPWPSADYWRILPKEIRTGILHGMLPATTIGFFADRWCRNFLESVADLLPDARIDREAMTVEWRGHRTRLRTMPLGYSPLTNPQLPEGIEEWADGHRLVVHSGRTDPIKNAERAVRAFVLAARGGGLEKTRMLVRMNPNRLYVPANADYVHRVETAVAEANAELGSDTVRIDNDNDVNHTIACFRRADLLIFNSTVDGQNLSTFEAPLVNERDADVILSETCGAAEVLGEYCRSVNPFDLVEQAEAISAALAAGPRQRAEAAARRRDAARPWTLEAWVQAQLDGLAADHAARTAT SEIFLASKRAAITYDTDPATGEPRAWLAPGGTGNVVAEQAGVLNISWIASADSEDDRRASALNPDGVTMELHSGREILVRLIRHDPAVFRNVQNFMTANLMWAANNYGWDRWTQPSFGSDAREGWADFGRFTRDFADAILKSSAQSADPVYLVHDYQLVGVPALLREQRPDAPILLFVHIPWPSADYWRILPKEIRTGILHGMLPATTIGFFADRWCRNFLESVADLLPDARIDREAMTVEWRGHRTRLRTMPLGYSPLTNPQLPEGIEEWADGHRLVVHSGRTDPIKNAERAVRAFVLAARGGGLEKTRMLVRMNPNRLYVPANADYVHRVETAVAEANAELGSDTVRIDNDNDVNHTIACFRRADLLIFNSTVDGQNLSTFEAPLVNERDADVILSETCGAAEVLGEYCRSVNPFDLVEQAEAISAALAAGPRQRAEAAARRRDAARPWTLEAWVQAQLDGLAADHAARTAT 3vdp-a1-m1-cB_3vdp-a1-m1-cA Structure and biochemical studies of the recombination mediator protein RecR in RecFOR pathway Q8RDI4 Q8RDI4 2.451 X-RAY DIFFRACTION 177 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 195 197 3vdp-a2-m1-cC_3vdp-a2-m1-cD 3vdu-a1-m1-cA_3vdu-a1-m2-cA 4o6o-a1-m1-cA_4o6o-a1-m1-cB 4o6o-a2-m1-cC_4o6o-a2-m1-cD 4o6p-a1-m1-cC_4o6p-a1-m1-cB STSVAKLIEELSKLPGIGPKTAQRLAFFIINMPLDEVRSLSQAIIEAKEKLRYCKICFNITDKEVCDICSDENRDHSTICVVSHPMDVVAMEKVKEYKGVYHVLHGVISPIEGVGPEDIRIKELLERVRDGSVKEVILATNPDIEGEATAMYIAKLLKPFGVKVTRIAHGIPVGGDLEYTDVVTLSKALEGRREV YYSTSVAKLIEELSKLPGIGPKTAQRLAFFIINMPLDEVRSLSQAIIEAKEKLRYCKICFNITDKEVCDICSDENRDHSTICVVSHPMDVVAMEKVKEYKGVYHVLHGVISPIEGVGPEDIRIKELLERVRDGSVKEVILATNPDIEGEATAMYIAKLLKPFGVKVTRIAHGIPVGGDLEYTDVVTLSKALEGRREV 3vdy-a1-m1-cB_3vdy-a1-m2-cB B. subtilis SsbB/ssDNA C0SPB6 C0SPB6 2.8 X-RAY DIFFRACTION 21 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 97 97 3vdy-a1-m1-cA_3vdy-a1-m2-cA MFNQVMLVGRLTKDPDLRYTSAGAAVAHVTLAVNRSFKNASGEIEADYVNCTLWRKTAENTALYCQKGSLVGVSGRIQTRNVYVTEVLADTVRFMDP MFNQVMLVGRLTKDPDLRYTSAGAAVAHVTLAVNRSFKNASGEIEADYVNCTLWRKTAENTALYCQKGSLVGVSGRIQTRNVYVTEVLADTVRFMDP 3vdy-a1-m2-cB_3vdy-a1-m1-cA B. subtilis SsbB/ssDNA C0SPB6 C0SPB6 2.8 X-RAY DIFFRACTION 80 0.99 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 97 101 3vdy-a1-m1-cB_3vdy-a1-m2-cA MFNQVMLVGRLTKDPDLRYTSAGAAVAHVTLAVNRSFKNASGEIEADYVNCTLWRKTAENTALYCQKGSLVGVSGRIQTRNVYVTEVLADTVRFMDP HMFNQVMLVGRLTKDPDLRYTSAGAAVAHVTLAVNRSFKNASGEIEADYVNCTLWRKTAENTALYCQKGSLVGVSGRIQTRSYEVNVYVTEVLADTVRFMD 3ve2-a1-m3-cA_3ve2-a1-m4-cA The 2.1 angstrom crystal structure of Transferrin binding protein B (TbpB) from serogroup B M982 Neisseria meningitidis Q09057 Q09057 2.14 X-RAY DIFFRACTION 23 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 514 514 DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPKEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAENTFTIEGMIQGNGFEGTAKTAESGFDLDPKAYITDAKVKGGFYGPKAEELGGWFAYPGASSATVVFGAKRQQP DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPKEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAENTFTIEGMIQGNGFEGTAKTAESGFDLDPKAYITDAKVKGGFYGPKAEELGGWFAYPGASSATVVFGAKRQQP 3ve2-a1-m4-cA_3ve2-a1-m2-cB The 2.1 angstrom crystal structure of Transferrin binding protein B (TbpB) from serogroup B M982 Neisseria meningitidis Q09057 Q09057 2.14 X-RAY DIFFRACTION 26 0.988 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 514 519 3ve2-a1-m3-cA_3ve2-a1-m1-cB DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPKEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAENTFTIEGMIQGNGFEGTAKTAESGFDLDPKAYITDAKVKGGFYGPKAEELGGWFAYPGASSATVVFGAKRQQP DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPSNAGNGVNQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLNDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKSKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAEQTFTIEGMIQGNGFEGTAKTAESGFDLPKAYITDAKVKGGFYGPKAEELGGWFAYPASSATVVFGAKRQ 3ve2-a2-m1-cB_3ve2-a2-m5-cB The 2.1 angstrom crystal structure of Transferrin binding protein B (TbpB) from serogroup B M982 Neisseria meningitidis Q09057 Q09057 2.14 X-RAY DIFFRACTION 10 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 519 519 DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPSNAGNGVNQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLNDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKSKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAEQTFTIEGMIQGNGFEGTAKTAESGFDLPKAYITDAKVKGGFYGPKAEELGGWFAYPASSATVVFGAKRQ DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPSNAGNGVNQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLNDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKSKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAEQTFTIEGMIQGNGFEGTAKTAESGFDLPKAYITDAKVKGGFYGPKAEELGGWFAYPASSATVVFGAKRQ 3ve2-a3-m4-cA_3ve2-a3-m1-cB The 2.1 angstrom crystal structure of Transferrin binding protein B (TbpB) from serogroup B M982 Neisseria meningitidis Q09057 Q09057 2.14 X-RAY DIFFRACTION 11 0.988 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 514 519 3ve2-a1-m3-cA_3ve2-a1-m2-cB 3ve2-a1-m4-cA_3ve2-a1-m1-cB 3ve2-a2-m4-cA_3ve2-a2-m1-cB 3ve2-a2-m6-cA_3ve2-a2-m5-cB DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPKEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAENTFTIEGMIQGNGFEGTAKTAESGFDLDPKAYITDAKVKGGFYGPKAEELGGWFAYPGASSATVVFGAKRQQP DQGGYGFAMRLKRRNWYPGAEESEVKLNESDWEATGLPTKPKELPKRQKSVIEKVETDGDSDIYSSPYLTPSNAGNGVNQPKNQATGHENFQYVYSGWFYKHAASEKDFSNKKIKSGDDGYIFYHGEKPSRQLPASGKVIYKGVWHFVTDTKKGQDFREIIQPSKKQGDRYSGFSGDGSEEYSNKNESTLKDDHEGYGFTSNLEVDFGNKKLTGKLIRNNASLNDKHTTQYYSLDAQITGNRFNGTATATDKKENETKLHPFVSDSSSLSGGFFGPQGEELGFRFLSDDQKVAVVGSAKTKDKSKLTTVLDAVELTLNDKKIKNLDNFSNAAQLVVDGIMIPLLPEFTRKFEHTPETKTYEVEVCCSNLNYLKYGMLTRKVEQSMFLQGERTDEKEIPTDQNVVYRGSWYGHIANGTSWSGNASDKEGGNRAEFTVNFADKKITGKLTAEQTFTIEGMIQGNGFEGTAKTAESGFDLPKAYITDAKVKGGFYGPKAEELGGWFAYPASSATVVFGAKRQ 3ve5-a1-m1-cA_3ve5-a1-m1-cD Structure of recombination mediator protein RecR16-196 deletion mutant Q8RDI4 Q8RDI4 2.8 X-RAY DIFFRACTION 94 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 181 181 PGIGPKTAQRLAFFIINMPLDEVRSLSQAIIEAKEKLRYCKICFNITDKEVCDICSDENRDHSTICVVSHPMDVVAMEKVKEYKGVYHVLHGVISPIEGVGPEDIRIKELLERVRDGSVKEVILATNPDIEGEATAMYIAKLLKPFGVKVTRIAHGIPVGGDLEYTDVVTLSKALEGRREV PGIGPKTAQRLAFFIINMPLDEVRSLSQAIIEAKEKLRYCKICFNITDKEVCDICSDENRDHSTICVVSHPMDVVAMEKVKEYKGVYHVLHGVISPIEGVGPEDIRIKELLERVRDGSVKEVILATNPDIEGEATAMYIAKLLKPFGVKVTRIAHGIPVGGDLEYTDVVTLSKALEGRREV 3ve9-a1-m1-cA_3ve9-a1-m1-cB Crystal structure of orotidine 5'-monophosphate decarboxylase from Metallosphaera sedula A4YI54 A4YI54 1.45 X-RAY DIFFRACTION 107 1.0 399549 (Metallosphaera sedula DSM 5348) 399549 (Metallosphaera sedula DSM 5348) 204 204 3ve7-a1-m1-cB_3ve7-a1-m1-cA MNRVILSLDSPIPEETLRKLNGKVAGIKVGWPLLLNLGKEKVKELVGLVDGIKILDLKLADIDNTMILIVDELKDITNSFIAHAFVGVEGSLASLSQRVDLFLVLSMSHPGWNDAFYPYLREVARRVNPKGFVAPATRPSMISRVKGDFPDKLVISPGVGTQGAKPGIALCHGADYEIVGRSVYQSADPVRKLEEIVRSQEEVL MNRVILSLDSPIPEETLRKLNGKVAGIKVGWPLLLNLGKEKVKELVGLVDGIKILDLKLADIDNTMILIVDELKDITNSFIAHAFVGVEGSLASLSQRVDLFLVLSMSHPGWNDAFYPYLREVARRVNPKGFVAPATRPSMISRVKGDFPDKLVISPGVGTQGAKPGIALCHGADYEIVGRSVYQSADPVRKLEEIVRSQEEVL 3vea-a1-m1-cB_3vea-a1-m2-cB Crystal Structure of matP-matS23mer Q8ZG78 Q8ZG78 2.55 X-RAY DIFFRACTION 12 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 149 149 MKYQQLENLESGWKWAYLVKKHREGEAITRHIENSAAQDAVEQLMKLENEPVKVQEWIDAHMNVNLATRMKQTIRARRKRHFNAEHQHTRKKSIDLEFLVWQRLAVLARRRGNTLSDTVVQLIEDAERKEKYASQMSSLKQDLKDILDK MKYQQLENLESGWKWAYLVKKHREGEAITRHIENSAAQDAVEQLMKLENEPVKVQEWIDAHMNVNLATRMKQTIRARRKRHFNAEHQHTRKKSIDLEFLVWQRLAVLARRRGNTLSDTVVQLIEDAERKEKYASQMSSLKQDLKDILDK 3vea-a1-m2-cA_3vea-a1-m2-cB Crystal Structure of matP-matS23mer Q8ZG78 Q8ZG78 2.55 X-RAY DIFFRACTION 119 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 149 149 3vea-a1-m1-cA_3vea-a1-m1-cB 3veb-a1-m1-cA_3veb-a1-m1-cB 3veb-a1-m2-cA_3veb-a1-m2-cB MKYQQLENLESGWKWAYLVKKHREGEAITRHIENSAAQDAVEQLMKLENEPVKVQEWIDAHMNVNLATRMKQTIRARRKRHFNAEHQHTRKKSIDLEFLVWQRLAVLARRRGNTLSDTVVQLIEDAERKEKYASQMSSLKQDLKDILDK MKYQQLENLESGWKWAYLVKKHREGEAITRHIENSAAQDAVEQLMKLENEPVKVQEWIDAHMNVNLATRMKQTIRARRKRHFNAEHQHTRKKSIDLEFLVWQRLAVLARRRGNTLSDTVVQLIEDAERKEKYASQMSSLKQDLKDILDK 3veb-a1-m1-cA_3veb-a1-m2-cB Crystal Structure of Matp-matS Q8ZG78 Q8ZG78 2.8 X-RAY DIFFRACTION 11 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 146 150 3veb-a1-m2-cA_3veb-a1-m1-cB KYQQLENLESGWKWAYLVKKHREGEAITRHIENSAAQDAVEQLMKLENEPVKVQEWIDAHMNVNLATRMKQTIRARRKRHFNAEHQHTRKKSIDLEFLVWQRLAVLARRRGNTLSDTVVQLIEDAERKEKYASQMSSLKQDLKDIL MKYQQLENLESGWKWAYLVKKHREGEAITRHIENSAAQDAVEQLMKLENEPVKVQEWIDAHMNVNLATRMKQTIRARRKRHFNAEHQHTRKKSIDLEFLVWQRLAVLARRRGNTLSDTVVQLIEDAERKEKYASQMSSLKQDLKDILDKE 3vej-a1-m1-cA_3vej-a1-m1-cB Crystal structure of the Get5 carboxyl domain from S. cerevisiae Q12285 Q12285 1.23 X-RAY DIFFRACTION 43 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 40 41 2lnz-a1-m1-cA_2lnz-a1-m1-cB VDLTVPWDDIEALLKNNFENDQAAVRQVMERLQKGWSLAK SVDLTVPWDDIEALLKNNFENDQAAVRQVMERLQKGWSLAK 3vem-a2-m1-cD_3vem-a2-m1-cC Structural basis of transcriptional gene silencing mediated by Arabidopsis MOM1 Q9M658 Q9M658 3.2 X-RAY DIFFRACTION 75 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 80 83 3vem-a1-m1-cA_3vem-a1-m1-cB FNDPFLHELEKLRRESENSKKTFEEKKSILKAELERKMAEVQAEFRRKFHEVEAEHNTRTTKIEKDKNLVIMNKLLANAF FPVFNDPFLHELEKLRRESENSKKTFEEKKSILKAELERKMAEVQAEFRRKFHEVEAEHNTRTTKIEKDKNLVIMNKLLANAF 3vfz-a3-m1-cA_3vfz-a3-m1-cB Crystal structure of -35 promoter binding domain of SigD of Mycobacterium tuberculosis P9WGG9 P9WGG9 1.901 X-RAY DIFFRACTION 54 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 61 62 DSVTRNELLEILPAKQREILILRVVVGLSAEETAAAVGSTTGAVRVAQHRALQRLKDEIVA DSVTRNELLEILPAKQREILILRVVVGLSAEETAAAVGSTTGAVRVAQHRALQRLKDEIVAA 3vg8-a1-m1-cB_3vg8-a1-m2-cJ Crystal structure of hypothetical protein TTHB210 from Thermus thermophilus HB8 Q53VW9 Q53VW9 2.2 X-RAY DIFFRACTION 46 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 113 113 3vg8-a1-m1-cF_3vg8-a1-m2-cF 3vg8-a1-m1-cJ_3vg8-a1-m2-cB NVSEALKGALPNFIPGLGTLYVDPSTLPEGPFLAYDRAGNLVKVVFVPLKKLNESHKYVDIGTKTLRALGITRIDHVNIPSGPHPGVSEPHYHIELVLVSVDQERKVLEGEPY NVSEALKGALPNFIPGLGTLYVDPSTLPEGPFLAYDRAGNLVKVVFVPLKKLNESHKYVDIGTKTLRALGITRIDHVNIPSGPHPGVSEPHYHIELVLVSVDQERKVLEGEPY 3vg8-a1-m2-cG_3vg8-a1-m2-cF Crystal structure of hypothetical protein TTHB210 from Thermus thermophilus HB8 Q53VW9 Q53VW9 2.2 X-RAY DIFFRACTION 76 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 104 113 3vg8-a1-m1-cA_3vg8-a1-m1-cJ 3vg8-a1-m1-cC_3vg8-a1-m1-cB 3vg8-a1-m1-cG_3vg8-a1-m1-cF 3vg8-a1-m1-cI_3vg8-a1-m1-cH 3vg8-a1-m2-cA_3vg8-a1-m2-cJ 3vg8-a1-m2-cC_3vg8-a1-m2-cB 3vg8-a1-m2-cI_3vg8-a1-m2-cH GALPNFIPGLGTLYVDPSTLPEGPFLAYDRAGNLVKVVFVPLKKLNESHKYVDIGTKTLRALGITRIDHVNIPSGPHPGVSEPHYHIELVLVSVDQERKVLEGE NVSEALKGALPNFIPGLGTLYVDPSTLPEGPFLAYDRAGNLVKVVFVPLKKLNESHKYVDIGTKTLRALGITRIDHVNIPSGPHPGVSEPHYHIELVLVSVDQERKVLEGEPY 3vg8-a1-m2-cI_3vg8-a1-m2-cJ Crystal structure of hypothetical protein TTHB210 from Thermus thermophilus HB8 Q53VW9 Q53VW9 2.2 X-RAY DIFFRACTION 92 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 107 113 3vg8-a1-m1-cA_3vg8-a1-m1-cB 3vg8-a1-m1-cD_3vg8-a1-m1-cC 3vg8-a1-m1-cE_3vg8-a1-m1-cF 3vg8-a1-m1-cG_3vg8-a1-m1-cH 3vg8-a1-m1-cI_3vg8-a1-m1-cJ 3vg8-a1-m2-cA_3vg8-a1-m2-cB 3vg8-a1-m2-cD_3vg8-a1-m2-cC 3vg8-a1-m2-cE_3vg8-a1-m2-cF 3vg8-a1-m2-cG_3vg8-a1-m2-cH EALKGALPNFIPGLGTLYVDPSTLPEGPFLAYDRAGNLVKVVFVPLKKLNESHKYVDIGTKTLRALGITRIDHVNIPSGPHPGVSEPHYHIELVLVSVDQERKVLEG NVSEALKGALPNFIPGLGTLYVDPSTLPEGPFLAYDRAGNLVKVVFVPLKKLNESHKYVDIGTKTLRALGITRIDHVNIPSGPHPGVSEPHYHIELVLVSVDQERKVLEGEPY 3vgf-a2-m1-cA_3vgf-a2-m2-cA Crystal structure of glycosyltrehalose trehalohydrolase (D252S) complexed with maltotriosyltrehalose Q55088 Q55088 2.3 X-RAY DIFFRACTION 53 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 555 555 1eh9-a1-m1-cA_1eh9-a1-m2-cA 1eha-a1-m1-cA_1eha-a1-m2-cA 3vgb-a2-m1-cA_3vgb-a2-m2-cA 3vgd-a2-m1-cA_3vgd-a2-m2-cA 3vge-a2-m1-cA_3vge-a2-m2-cA 3vgg-a2-m1-cA_3vgg-a2-m2-cA 3vgh-a2-m1-cA_3vgh-a2-m2-cA AYKIDGNEVIFTLWAPYQKSVKLKVLEKGLYEMERDEKGYFTITLNNVKVRDRYKYVLDDASEIPDPASRYQPEGVHGPSQIIQESKEFNNETFLKKEDLIIYEIHVGTFTPEGTFEGVIRKLDYLKDLGITAIEIMPIAQFPGKRDWGYDGVYLYAVQNSYGGPEGFRKLVDEAHKKGLGVILDVVYNHVGPEGNYMVKLGPYFSQKYKTPWGLTFNFDDAESDEVRKFILENVEYWIKEYNVDGFRLSAVHAIIDTSPKHILEEIADVVHKYNRIVIAESDLNDPRVVNPKEKCGYNIDAQWVDDFHHSIHAYLTGERQGYYTDFGNLDDIVKSYKDVFVYDGKYSNFRRKTHGEPVGELDGCNFVVYIQNHDQVGNRGKGERIIKLVDRESYKIAAALYLLSPYIPMIFMGEEYGEENPFYFFSDFSDSKLIQGVREGRKKENGQDTDPQDESTFNASKLSWKIDEEIFSFYKILIKMRKELSIACDRRVNVVNGENWLIIKGREYFSLYVFSKSSIEVKYSGTLLLSSNNSFPQHIEEGKYEFDKGFALYK AYKIDGNEVIFTLWAPYQKSVKLKVLEKGLYEMERDEKGYFTITLNNVKVRDRYKYVLDDASEIPDPASRYQPEGVHGPSQIIQESKEFNNETFLKKEDLIIYEIHVGTFTPEGTFEGVIRKLDYLKDLGITAIEIMPIAQFPGKRDWGYDGVYLYAVQNSYGGPEGFRKLVDEAHKKGLGVILDVVYNHVGPEGNYMVKLGPYFSQKYKTPWGLTFNFDDAESDEVRKFILENVEYWIKEYNVDGFRLSAVHAIIDTSPKHILEEIADVVHKYNRIVIAESDLNDPRVVNPKEKCGYNIDAQWVDDFHHSIHAYLTGERQGYYTDFGNLDDIVKSYKDVFVYDGKYSNFRRKTHGEPVGELDGCNFVVYIQNHDQVGNRGKGERIIKLVDRESYKIAAALYLLSPYIPMIFMGEEYGEENPFYFFSDFSDSKLIQGVREGRKKENGQDTDPQDESTFNASKLSWKIDEEIFSFYKILIKMRKELSIACDRRVNVVNGENWLIIKGREYFSLYVFSKSSIEVKYSGTLLLSSNNSFPQHIEEGKYEFDKGFALYK 3vgk-a1-m1-cF_3vgk-a1-m1-cD Crystal structure of a ROK family glucokinase from Streptomyces griseus B1VZT1 B1VZT1 3.25 X-RAY DIFFRACTION 125 1.0 455632 (Streptomyces griseus subsp. griseus NBRC 13350) 455632 (Streptomyces griseus subsp. griseus NBRC 13350) 310 311 3vgk-a1-m1-cA_3vgk-a1-m1-cG 3vgk-a2-m1-cC_3vgk-a2-m1-cB 3vgk-a2-m1-cE_3vgk-a2-m1-cH 3vgl-a1-m1-cA_3vgl-a1-m2-cA 3vgl-a1-m3-cA_3vgl-a1-m4-cA 3vgm-a1-m1-cA_3vgm-a1-m3-cA 3vgm-a1-m2-cA_3vgm-a1-m4-cA LTIGVDIGGTKIAAGVVDEEGRILSTFKVATPPTAEGIVDAICAAVAGASEGHDVEAVGIGAAGYVDDKRATVLFAPNIDWRHEPLKDKVEQRVGLPVVVENDANAAAWGEYRFGAGQGHDDVICITLGTGLGGGIIIGNKLRRGRFGVAAEFGHIRVVPDGLLCGCGSQGCWEQYASGRALVRYAKQRANATPENAAVLLGLGDGSVDGIEGKHISEAARQGDPVAVDSFRELARWAGAGLADLASLFDPSAFIVGGGVSDEGELVLDPIRKSFRRWLIGGEWRPHAQVLAAQLGGKAGLVGAADLARQ LTIGVDIGGTKIAAGVVDEEGRILSTFKVATPPTAEGIVDAICAAVAGASEGHDVEAVGIGAAGYVDDKRATVLFAPNIDWRHEPLKDKVEQRVGLPVVVENDANAAAWGEYRFGAGQGHDDVICITLGTGLGGGIIIGNKLRRGRFGVAAEFGHIRVVPDGLLCGCGSQGCWEQYASGRALVRYAKQRANATPENAAVLLGLGDGSVDGIEGKHISEAARQGDPVAVDSFRELARWAGAGLADLASLFDPSAFIVGGGVSDEGELVLDPIRKSFRRWLIGGEWRPHAQVLAAQLGGKAGLVGAADLARQG 3vgk-a2-m1-cC_3vgk-a2-m1-cE Crystal structure of a ROK family glucokinase from Streptomyces griseus B1VZT1 B1VZT1 3.25 X-RAY DIFFRACTION 27 1.0 455632 (Streptomyces griseus subsp. griseus NBRC 13350) 455632 (Streptomyces griseus subsp. griseus NBRC 13350) 310 310 3vgk-a1-m1-cA_3vgk-a1-m1-cD 3vgk-a1-m1-cF_3vgk-a1-m1-cG 3vgk-a2-m1-cH_3vgk-a2-m1-cB 3vgl-a1-m1-cA_3vgl-a1-m3-cA 3vgl-a1-m2-cA_3vgl-a1-m4-cA 3vgm-a1-m1-cA_3vgm-a1-m4-cA 3vgm-a1-m2-cA_3vgm-a1-m3-cA LTIGVDIGGTKIAAGVVDEEGRILSTFKVATPPTAEGIVDAICAAVAGASEGHDVEAVGIGAAGYVDDKRATVLFAPNIDWRHEPLKDKVEQRVGLPVVVENDANAAAWGEYRFGAGQGHDDVICITLGTGLGGGIIIGNKLRRGRFGVAAEFGHIRVVPDGLLCGCGSQGCWEQYASGRALVRYAKQRANATPENAAVLLGLGDGSVDGIEGKHISEAARQGDPVAVDSFRELARWAGAGLADLASLFDPSAFIVGGGVSDEGELVLDPIRKSFRRWLIGGEWRPHAQVLAAQLGGKAGLVGAADLARQ LTIGVDIGGTKIAAGVVDEEGRILSTFKVATPPTAEGIVDAICAAVAGASEGHDVEAVGIGAAGYVDDKRATVLFAPNIDWRHEPLKDKVEQRVGLPVVVENDANAAAWGEYRFGAGQGHDDVICITLGTGLGGGIIIGNKLRRGRFGVAAEFGHIRVVPDGLLCGCGSQGCWEQYASGRALVRYAKQRANATPENAAVLLGLGDGSVDGIEGKHISEAARQGDPVAVDSFRELARWAGAGLADLASLFDPSAFIVGGGVSDEGELVLDPIRKSFRRWLIGGEWRPHAQVLAAQLGGKAGLVGAADLARQ 3vgm-a1-m3-cA_3vgm-a1-m4-cA Crystal structure of a ROK family glucokinase from Streptomyces griseus in complex with glucose B1VZT1 B1VZT1 1.84 X-RAY DIFFRACTION 27 1.0 455632 (Streptomyces griseus subsp. griseus NBRC 13350) 455632 (Streptomyces griseus subsp. griseus NBRC 13350) 312 312 3vgk-a1-m1-cD_3vgk-a1-m1-cG 3vgk-a2-m1-cC_3vgk-a2-m1-cH 3vgm-a1-m1-cA_3vgm-a1-m2-cA GLTIGVDIGGTKIAAGVVDEEGRILSTFKVATPPTAEGIVDAICAAVAGASEGHDVEAVGIGAAGYVDDKRATVLFAPNIDWRHEPLKDKVEQRVGLPVVVENDANAAAWGEYRFGAGQGHDDVICITLGTGLGGGIIIGNKLRRGRFGVAAEFGHIRVVPDGLLCGCGSQGCWEQYASGRALVRYAKQRANATPENAAVLLGLGDGSVDGIEGKHISEAARQGDPVAVDSFRELARWAGAGLADLASLFDPSAFIVGGGVSDEGELVLDPIRKSFRRWLIGGEWRPHAQVLAAQLGGKAGLVGAADLARQG GLTIGVDIGGTKIAAGVVDEEGRILSTFKVATPPTAEGIVDAICAAVAGASEGHDVEAVGIGAAGYVDDKRATVLFAPNIDWRHEPLKDKVEQRVGLPVVVENDANAAAWGEYRFGAGQGHDDVICITLGTGLGGGIIIGNKLRRGRFGVAAEFGHIRVVPDGLLCGCGSQGCWEQYASGRALVRYAKQRANATPENAAVLLGLGDGSVDGIEGKHISEAARQGDPVAVDSFRELARWAGAGLADLASLFDPSAFIVGGGVSDEGELVLDPIRKSFRRWLIGGEWRPHAQVLAAQLGGKAGLVGAADLARQG 3vgu-a3-m1-cC_3vgu-a3-m1-cG E134A mutant nucleoside diphosphate kinase derived from Halomonas sp. 593 Q83WH5 Q83WH5 2.3 X-RAY DIFFRACTION 71 1.0 195704 (Halomonas sp. #593) 195704 (Halomonas sp. #593) 140 140 3vgs-a1-m1-cA_3vgs-a1-m1-cB 3vgt-a1-m1-cA_3vgt-a1-m2-cA 3vgt-a2-m1-cB_3vgt-a2-m1-cC 3vgt-a3-m1-cD_3vgt-a3-m1-cE 3vgu-a1-m1-cA_3vgu-a1-m1-cE 3vgu-a2-m1-cB_3vgu-a2-m1-cF 3vgu-a4-m1-cH_3vgu-a4-m1-cD 3vgv-a1-m1-cA_3vgv-a1-m1-cB 3vgv-a2-m1-cD_3vgv-a2-m1-cC 3vgv-a3-m1-cE_3vgv-a3-m1-cF 3vgv-a4-m1-cG_3vgv-a4-m1-cH 3vgv-a5-m1-cJ_3vgv-a5-m1-cI 3vgv-a6-m1-cK_3vgv-a6-m1-cL 3vgv-a7-m1-cN_3vgv-a7-m1-cM 3vgv-a8-m1-cO_3vgv-a8-m1-cP ATERTLSIIKPDAVAKNVIGEIESRFEKAGLKIVAAKMLQLSQEQAEGFYAEHKERPFFGDLVGFMTSGPVVVQVLEGENAIAANRDLMGATNPKEAEAGTIRADYAQSIDANAVHGSDSPESAAREIAYFFAESEICSR ATERTLSIIKPDAVAKNVIGEIESRFEKAGLKIVAAKMLQLSQEQAEGFYAEHKERPFFGDLVGFMTSGPVVVQVLEGENAIAANRDLMGATNPKEAEAGTIRADYAQSIDANAVHGSDSPESAAREIAYFFAESEICSR 3vgy-a1-m1-cC_3vgy-a1-m3-cC Structure of HIV-1 gp41 NHR/fusion inhibitor complex P321 P03375 P03375 2.034 X-RAY DIFFRACTION 40 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 49 49 3vgy-a1-m1-cC_3vgy-a1-m2-cC 5yb4-a1-m1-cD_5yb4-a1-m1-cE 5yb4-a1-m1-cF_5yb4-a1-m1-cD 5yb4-a1-m1-cF_5yb4-a1-m1-cE ADIGSEFSGIVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARILAVERYL ADIGSEFSGIVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARILAVERYL 3vh2-a1-m1-cA_3vh2-a1-m2-cA Crystal structure of Saccharomyces cerevisiae Atg7 (1-613) P38862 P38862 3.3 X-RAY DIFFRACTION 182 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 582 582 3t7e-a1-m1-cA_3t7e-a1-m2-cA 3vh1-a1-m1-cA_3vh1-a1-m2-cA 4gsl-a1-m1-cB_4gsl-a1-m1-cA SERVLSYAPAFKSFLDTSFFQELSRLKLDTCQPLTVNLDLHNIPKSADQVPLFLTNRSFEKHNNKRTNEVPLQGSIFNFNVLDEFKNLDKQLFLHQRALECWEDGIKDINKCVSFVIISFADLKKYRFYYWLGVPCFQRPSSTVLHVRPEPSLKGLFSKCQKWFDVNYSKWVCILDADDEIVNYDKCIIRKTKVLAIRDTSTMENVPSALTKNFLSVLQYDVPDLIDFKLLIIRQNEGSFALNATFASIDPDMKVSGWERNVQGKLAPRVVDLSSLLDPLKIADQSVDLNLKLMKWRILPDLNLDIIKNTKVLLLGAGTLGCYVSRALIAWGVRKITFVDNGTVSYSNPVRQALYNFEDCGKPKAELAAASLKRIFPLMDATGVKLSIPMIGHKLVNEEAQHKDFDRLRALIKEHDIIFLLVDSRESRWLPSLLSNIENKTVINAALGFDSYLVMRHGQLGCYFCHDVVAPTDSLTDRTLDQMCTVTRPGVAMMASSLAVELMTSLLQTKYSGSETTVLGDIPHQIRGFLHNFSILKLETPAYEHCPACSPKVIEAFTDLGWEFVKKALEHPLYLEEISGLS SERVLSYAPAFKSFLDTSFFQELSRLKLDTCQPLTVNLDLHNIPKSADQVPLFLTNRSFEKHNNKRTNEVPLQGSIFNFNVLDEFKNLDKQLFLHQRALECWEDGIKDINKCVSFVIISFADLKKYRFYYWLGVPCFQRPSSTVLHVRPEPSLKGLFSKCQKWFDVNYSKWVCILDADDEIVNYDKCIIRKTKVLAIRDTSTMENVPSALTKNFLSVLQYDVPDLIDFKLLIIRQNEGSFALNATFASIDPDMKVSGWERNVQGKLAPRVVDLSSLLDPLKIADQSVDLNLKLMKWRILPDLNLDIIKNTKVLLLGAGTLGCYVSRALIAWGVRKITFVDNGTVSYSNPVRQALYNFEDCGKPKAELAAASLKRIFPLMDATGVKLSIPMIGHKLVNEEAQHKDFDRLRALIKEHDIIFLLVDSRESRWLPSLLSNIENKTVINAALGFDSYLVMRHGQLGCYFCHDVVAPTDSLTDRTLDQMCTVTRPGVAMMASSLAVELMTSLLQTKYSGSETTVLGDIPHQIRGFLHNFSILKLETPAYEHCPACSPKVIEAFTDLGWEFVKKALEHPLYLEEISGLS 3vh3-a1-m1-cA_3vh3-a1-m2-cA Crystal structure of Atg7CTD-Atg8 complex P38862 P38862 2 X-RAY DIFFRACTION 181 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 320 320 3rui-a1-m1-cA_3rui-a1-m2-cA 3vh4-a1-m1-cA_3vh4-a1-m2-cA 4gsk-a1-m1-cA_4gsk-a1-m1-cB MLKIADQSVDLNLKLMKWRILPDLNLDIIKNTKVLLLGAGTLGCYVSRALIAWGVRKITFVDNGTVSYSNPVRQALYNFEDCGKPKAELAAASLKRIFPLMDATGVKLSIPMIGHKLVNEEAQHKDFDRLRALIKEHDIIFLLVDSRESRWLPSLLSNIENKTVINAALGFDSYLVMRHGNRDEQSSKQLGCYFCHDVVAPTDSLTDRTLDQMCTVTRPGVAMMASSLAVELMTSLLQTKYSGSETTVLGDIPHQIRGFLHNFSILKLETPAYEHCPACSPKVIEAFTDLGWEFVKKALEHPLYLEEISGLSVIKQEVER MLKIADQSVDLNLKLMKWRILPDLNLDIIKNTKVLLLGAGTLGCYVSRALIAWGVRKITFVDNGTVSYSNPVRQALYNFEDCGKPKAELAAASLKRIFPLMDATGVKLSIPMIGHKLVNEEAQHKDFDRLRALIKEHDIIFLLVDSRESRWLPSLLSNIENKTVINAALGFDSYLVMRHGNRDEQSSKQLGCYFCHDVVAPTDSLTDRTLDQMCTVTRPGVAMMASSLAVELMTSLLQTKYSGSETTVLGDIPHQIRGFLHNFSILKLETPAYEHCPACSPKVIEAFTDLGWEFVKKALEHPLYLEEISGLSVIKQEVER 3vhs-a1-m1-cA_3vhs-a1-m1-cB Crystal structure of UBZ of human WRNIP1 Q96S55 Q96S55 1.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 26 FQVQCPVCQQMMPAAHINSHLDRCL EFQVQCPVCQQMMPAAHINSHLDRCL 3vhx-a2-m1-cH_3vhx-a2-m1-cF The crystal structure of Arf6-MKLP1 (Mitotic kinesin-like protein 1) complex Q02241 Q02241 2.81 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 102 3vhx-a1-m1-cB_3vhx-a1-m1-cD DRWVDHKPASNMQTETVMQPHVPHAITVSVANEKALAKCEKYMLTHQELASDGEIETKLIKGDIYKTRGGGQSVQFTDIETLKQESPN PPIRLRHRRSRSAGDRWVDHKPASNMQTETVMQPHVPHAITVSVANEKALAKCEKYMLTHQELASDGEIETKLIKGDIYKTRGGGQSVQFTDIETLKQESPN 3vi6-a2-m2-cA_3vi6-a2-m3-cA Crystal Structure of human ribosomal protein L30e P62888 P62888 1.59 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 3vi6-a2-m1-cA_3vi6-a2-m2-cA 3vi6-a2-m1-cA_3vi6-a2-m3-cA KSLESINSRLQLVMKSGKYVLGYKQTLKMIRQGKAKLVILANNCPALRKSEIEYYAMLAKTGVHHYSGNNIELGTACGKYYRVCTLAIIDPGDSDII KSLESINSRLQLVMKSGKYVLGYKQTLKMIRQGKAKLVILANNCPALRKSEIEYYAMLAKTGVHHYSGNNIELGTACGKYYRVCTLAIIDPGDSDII 3via-a3-m1-cA_3via-a3-m1-cB Crystal structure of the PH domain of Evectin-2 from human Q96CS7 Q96CS7 1.75 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 GSMAFVKSGWLLRQSTILKRWKKNWFDLWSDGHLIYYDDQTRQNIEDKVHMPMDCINIRTGQECRDTQPPDGKSKDCMLQIVCRDGKTISLCAESTDDCLAWKFTLQDSRTN GSMAFVKSGWLLRQSTILKRWKKNWFDLWSDGHLIYYDDQTRQNIEDKVHMPMDCINIRTGQECRDTQPPDGKSKDCMLQIVCRDGKTISLCAESTDDCLAWKFTLQDSRTN 3vii-a2-m1-cA_3vii-a2-m2-cA Crystal structure of beta-glucosidase from termite Neotermes koshunensis in complex with Bis-Tris Q8T0W7 Q8T0W7 0.97 X-RAY DIFFRACTION 71 1.0 60586 (Neotermes koshunensis) 60586 (Neotermes koshunensis) 472 472 3vif-a2-m1-cA_3vif-a2-m2-cA 3vig-a2-m1-cA_3vig-a2-m2-cA 3vih-a2-m1-cA_3vih-a2-m2-cA 3vij-a2-m1-cA_3vij-a2-m2-cA 3vik-a2-m1-cA_3vik-a2-m2-cA 3vil-a2-m1-cA_3vil-a2-m2-cA 3vim-a2-m1-cA_3vim-a2-m2-cA 3vin-a2-m1-cA_3vin-a2-m2-cA 3vio-a2-m1-cA_3vio-a2-m2-cA 3vip-a2-m1-cA_3vip-a2-m2-cA TVYTFPDEFKLGAATASYQIEGAWDENGKGPNIWDTLTHEHPDYVVDGATGDIADDSYHLYKEDVKILKELGAQVYRFSISWARVLPEGHDNIVNQDGIDYYNNLINELLANGIEPMVTMYHWDLPQALQDLGGWPNLVLAKYSENYARVLFKNFGDRVKLWLTFNEPLTFMDGYASEIGMAPSINTPGIGDYLAAHTVIHAHARIYHLYDQEFRAEQGGKVGISLNINWCEPATNSAEDRASCENYQQFNLGLYAHPIFTEEGDYPAVLKDRVSRNSADEGYTDSRLPQFTAEEVEYIRGTHDFLGINFYTALLGKSGVEGYEPSRYRDSGVILTQDAAWPISASSWLKVVPWGFRKELNWIKNEYNNPPVFITENGFSDYGGLNDTGRVHYYTEHLKEMLKAIHEDGVNVIGYTAWSLMDNFEWLRGYSEKFGIYAVDFEDPARPRIPKESAKVLAEIMNTRKIPERFRD TVYTFPDEFKLGAATASYQIEGAWDENGKGPNIWDTLTHEHPDYVVDGATGDIADDSYHLYKEDVKILKELGAQVYRFSISWARVLPEGHDNIVNQDGIDYYNNLINELLANGIEPMVTMYHWDLPQALQDLGGWPNLVLAKYSENYARVLFKNFGDRVKLWLTFNEPLTFMDGYASEIGMAPSINTPGIGDYLAAHTVIHAHARIYHLYDQEFRAEQGGKVGISLNINWCEPATNSAEDRASCENYQQFNLGLYAHPIFTEEGDYPAVLKDRVSRNSADEGYTDSRLPQFTAEEVEYIRGTHDFLGINFYTALLGKSGVEGYEPSRYRDSGVILTQDAAWPISASSWLKVVPWGFRKELNWIKNEYNNPPVFITENGFSDYGGLNDTGRVHYYTEHLKEMLKAIHEDGVNVIGYTAWSLMDNFEWLRGYSEKFGIYAVDFEDPARPRIPKESAKVLAEIMNTRKIPERFRD 3vir-a1-m1-cC_3vir-a1-m1-cA Crystal strcture of Swi5 from fission yeast Q9UUB7 Q9UUB7 2.7 X-RAY DIFFRACTION 20 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 53 69 EQQKEQLESSLQDALAKLKNRDAKQTVQKHIDLLHTYNEIRDIALGMIGKVAE HLLEQQKEQLESSLQDALAKLKNRDAKQTVQKHIDLLHTYNEIRDIALGMIGKVAEHEKCTSVELFDRF 3vir-a1-m1-cC_3vir-a1-m1-cB Crystal strcture of Swi5 from fission yeast Q9UUB7 Q9UUB7 2.7 X-RAY DIFFRACTION 11 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 53 66 EQQKEQLESSLQDALAKLKNRDAKQTVQKHIDLLHTYNEIRDIALGMIGKVAE EKSQLESRVHLLEQQKEQLESSLQDALAKLKNRDAKQTVQKHIDLLHTYNEIRDIALGMIGKVAEH 3vir-a1-m1-cC_3vir-a1-m1-cD Crystal strcture of Swi5 from fission yeast Q9UUB7 Q9UUB7 2.7 X-RAY DIFFRACTION 39 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 53 63 EQQKEQLESSLQDALAKLKNRDAKQTVQKHIDLLHTYNEIRDIALGMIGKVAE VHLLEQQKEQLESSLQDALAKLKNRDAKQTVQKHIDLLHTYNEIRDIALGMIGKVAEHEKCTS 3viv-a1-m1-cA_3viv-a1-m1-cB 1510-N membrane-bound stomatin-specific protease K138A mutant in complex with a substrate peptide O59179 O59179 2.25 X-RAY DIFFRACTION 45 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 219 219 3bpp-a2-m1-cA_3bpp-a2-m3-cA 3wg5-a1-m1-cA_3wg5-a1-m1-cB LAKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADAMMNIVQRIQQSKIPVIIYVYPPGASAASAGTYIALGSHLIAMAPGTSIGACRPILGYSQNGSIIEAPPAITNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGMKTKIPVNGRYVTLNFTNVEVRYLAPSFKDKLISYITDL LAKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADAMMNIVQRIQQSKIPVIIYVYPPGASAASAGTYIALGSHLIAMAPGTSIGACRPILGYSQNGSIIEAPPAITNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGMKTKIPVNGRYVTLNFTNVEVRYLAPSFKDKLISYITDL 3vjf-a1-m1-cB_3vjf-a1-m1-cA Crystal structure of de novo 4-helix bundle protein WA20 2.2 X-RAY DIFFRACTION 142 1.0 32630 (synthetic construct) 32630 (synthetic construct) 83 92 LNKLVEHIKELLQQLNKNWHRHQGNLHDNQQEQLFQEFQHFKLQNIHEQQFNQVDNHLQSESDTVHHFHNKLQELNNFHHLVH GKLNKLVEHIKELLQQLNKNWHRHQGNLHDNQQEQLFQEFQHFQGNQDDGKLQNIHEQQFNQVDNHLQSESDTVHHFHNKLQELNNFHHLVH 3vjh-a1-m2-cB_3vjh-a1-m1-cA Human PPAR GAMMA ligand binding domain in complex with JKPL35 P37231 P37231 2.22 X-RAY DIFFRACTION 49 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 246 261 2ath-a1-m1-cA_2ath-a1-m1-cB 2g0g-a1-m1-cA_2g0g-a1-m1-cB 2g0h-a1-m1-cA_2g0h-a1-m1-cB 2hwq-a1-m1-cB_2hwq-a1-m1-cA 2hwq-a1-m2-cB_2hwq-a1-m2-cA 2hwr-a1-m1-cB_2hwr-a1-m1-cA 2hwr-a1-m2-cB_2hwr-a1-m2-cA 2pob-a1-m1-cB_2pob-a1-m1-cA 2zk0-a2-m2-cB_2zk0-a2-m1-cA 2zk1-a2-m2-cB_2zk1-a2-m1-cA 2zk2-a2-m2-cB_2zk2-a2-m1-cA 2zk3-a2-m2-cB_2zk3-a2-m1-cA 2zk4-a2-m2-cB_2zk4-a2-m1-cA 2zk5-a2-m2-cB_2zk5-a2-m1-cA 2zk6-a2-m2-cB_2zk6-a2-m1-cA 2zno-a2-m2-cB_2zno-a2-m1-cA 2zvt-a2-m2-cB_2zvt-a2-m1-cA 3ads-a2-m2-cB_3ads-a2-m1-cA 3adw-a2-m2-cB_3adw-a2-m1-cA 3adx-a2-m2-cB_3adx-a2-m1-cA 3an3-a2-m2-cB_3an3-a2-m1-cA 3an4-a2-m2-cB_3an4-a2-m1-cA 3b3k-a2-m1-cA_3b3k-a2-m2-cB 3d6d-a2-m1-cA_3d6d-a2-m2-cB 3gbk-a1-m1-cA_3gbk-a1-m1-cB 3ho0-a1-m1-cA_3ho0-a1-m2-cB 3noa-a1-m1-cA_3noa-a1-m1-cB 3vsp-a2-m2-cB_3vsp-a2-m1-cA 4e4k-a2-m1-cA_4e4k-a2-m2-cB 4e4q-a2-m1-cA_4e4q-a2-m2-cB 4em9-a3-m1-cB_4em9-a3-m3-cA 4em9-a3-m2-cB_4em9-a3-m4-cA 4ema-a3-m2-cB_4ema-a3-m1-cA 4jl4-a2-m2-cB_4jl4-a2-m1-cA 4r6s-a2-m2-cB_4r6s-a2-m1-cA 5tto-a1-m2-cB_5tto-a1-m1-cA 6aug-a3-m1-cA_6aug-a3-m2-cB 6c1i-a1-m2-cB_6c1i-a1-m1-cA 6jey-a1-m2-cB_6jey-a1-m1-cA 6jf0-a1-m2-cB_6jf0-a1-m1-cA 6l89-a1-m2-cB_6l89-a1-m1-cA 7cxe-a1-m2-cB_7cxe-a1-m1-cA 7lot-a1-m2-cB_7lot-a1-m1-cA ESADLRALAKHLYDSYIKSFPLTKAKARAILTGDKSPFVIYDMNSLMMGEDKIKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTHPLLQEIY QLNPESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDL 3vjj-a1-m2-cB_3vjj-a1-m4-cB Crystal Structure Analysis of the P9-1 Q913E4 Q913E4 3 X-RAY DIFFRACTION 26 1.0 10990 (Rice black streaked dwarf virus) 10990 (Rice black streaked dwarf virus) 270 270 3vjj-a1-m1-cA_3vjj-a1-m3-cA 3vjj-a1-m1-cA_3vjj-a1-m4-cA 3vjj-a1-m1-cB_3vjj-a1-m3-cB 3vjj-a1-m1-cB_3vjj-a1-m4-cB 3vjj-a1-m2-cA_3vjj-a1-m3-cA 3vjj-a1-m2-cA_3vjj-a1-m4-cA 3vjj-a1-m2-cB_3vjj-a1-m3-cB ERRTFGSYKIEELTIKNTKKIPLLDDGIFELLNYLIDGTNFDKTCYCGFNYSHLPNLERDFNVASIYVRENFELCTENLDLKDEKEENSKPVTPKVVTPKEEKKTVEMSLLPILNRLSSEILEGEAAVVNVFKMYIKGFLMYLGENPNSYDRQLNIEKYRPLLISIIGYEHLIGTRVKEVNHIFYQLATFDNYPFDLLRFQLSSLISTPALIREKIAKEGLFKIITTVLFRGINGSESFLNIKRYRKFKTRIVGNVDCVIKSDFSSLKLD ERRTFGSYKIEELTIKNTKKIPLLDDGIFELLNYLIDGTNFDKTCYCGFNYSHLPNLERDFNVASIYVRENFELCTENLDLKDEKEENSKPVTPKVVTPKEEKKTVEMSLLPILNRLSSEILEGEAAVVNVFKMYIKGFLMYLGENPNSYDRQLNIEKYRPLLISIIGYEHLIGTRVKEVNHIFYQLATFDNYPFDLLRFQLSSLISTPALIREKIAKEGLFKIITTVLFRGINGSESFLNIKRYRKFKTRIVGNVDCVIKSDFSSLKLD 3vjj-a1-m4-cB_3vjj-a1-m2-cA Crystal Structure Analysis of the P9-1 Q913E4 Q913E4 3 X-RAY DIFFRACTION 110 0.996 10990 (Rice black streaked dwarf virus) 10990 (Rice black streaked dwarf virus) 270 277 3vjj-a1-m1-cB_3vjj-a1-m4-cA 3vjj-a1-m2-cB_3vjj-a1-m3-cA 3vjj-a1-m3-cB_3vjj-a1-m1-cA ERRTFGSYKIEELTIKNTKKIPLLDDGIFELLNYLIDGTNFDKTCYCGFNYSHLPNLERDFNVASIYVRENFELCTENLDLKDEKEENSKPVTPKVVTPKEEKKTVEMSLLPILNRLSSEILEGEAAVVNVFKMYIKGFLMYLGENPNSYDRQLNIEKYRPLLISIIGYEHLIGTRVKEVNHIFYQLATFDNYPFDLLRFQLSSLISTPALIREKIAKEGLFKIITTVLFRGINGSESFLNIKRYRKFKTRIVGNVDCVIKSDFSSLKLD QERRTFGSYKIEELTIKTKKIPLLDDGIFELLNYLIDGTNFDKTCYCGFNYSHLPNLERDFNVASIYVRENFELCTENLDLKDEKEENSKPVTPKVVTPKEEKKTVEMSLLPILNRESEESLSSEILEGEAAVVNVFKMYIKGFLMYLGENPNSYDRQLNIEKYRPLLISIIGYEHLIGTRVPNKEVNHIFYQLATFDNYPFDLLRFQLSSLISTPALIREKIAKEGLFKIITTVLFRGINGSESFLNIKRYRKFKTRIVGNVDCVIKSDFSSLKLD 3vjj-a1-m4-cB_3vjj-a1-m4-cA Crystal Structure Analysis of the P9-1 Q913E4 Q913E4 3 X-RAY DIFFRACTION 45 0.996 10990 (Rice black streaked dwarf virus) 10990 (Rice black streaked dwarf virus) 270 277 3vjj-a1-m1-cB_3vjj-a1-m1-cA 3vjj-a1-m2-cB_3vjj-a1-m2-cA 3vjj-a1-m3-cB_3vjj-a1-m3-cA ERRTFGSYKIEELTIKNTKKIPLLDDGIFELLNYLIDGTNFDKTCYCGFNYSHLPNLERDFNVASIYVRENFELCTENLDLKDEKEENSKPVTPKVVTPKEEKKTVEMSLLPILNRLSSEILEGEAAVVNVFKMYIKGFLMYLGENPNSYDRQLNIEKYRPLLISIIGYEHLIGTRVKEVNHIFYQLATFDNYPFDLLRFQLSSLISTPALIREKIAKEGLFKIITTVLFRGINGSESFLNIKRYRKFKTRIVGNVDCVIKSDFSSLKLD QERRTFGSYKIEELTIKTKKIPLLDDGIFELLNYLIDGTNFDKTCYCGFNYSHLPNLERDFNVASIYVRENFELCTENLDLKDEKEENSKPVTPKVVTPKEEKKTVEMSLLPILNRESEESLSSEILEGEAAVVNVFKMYIKGFLMYLGENPNSYDRQLNIEKYRPLLISIIGYEHLIGTRVPNKEVNHIFYQLATFDNYPFDLLRFQLSSLISTPALIREKIAKEGLFKIITTVLFRGINGSESFLNIKRYRKFKTRIVGNVDCVIKSDFSSLKLD 3vjz-a1-m1-cB_3vjz-a1-m1-cA Crystal structure of the DNA mimic protein DMP19 Q9K0P4 Q9K0P4 1.8 X-RAY DIFFRACTION 135 0.988 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 163 164 ALTLPEDIRQQEPSALLYTLVSAYLEHTAQTGDESLSCLSDDQHTLTAFCYLDSQVEEGGFVQLIASGYGEYIFRNPLADSLRRWKIKAVPKVLDKAKALYEQHGKTIETLADGGADIPSLRKQFPEFEEWDGAYYEAAEQDLPLLAEHIQSNWETFAHIGQA HMTALTLPEDIRQQEPSALLYTLVSAYLEHTAQTGDESLSCLSDDQHTLTAFCYLDSQVEEGGFVQLIASGYGEYIFRNPLADSLRRWKIKAVPKVLDKAKALYEQHGKTIETLADGGADIPSLRKQFPEFEEWDGAYYEAAEQDLPLLAEHIQSNWETFAHIG 3vk0-a2-m1-cB_3vk0-a2-m1-cC Crystal Structure of hypothetical transcription factor NHTF from Neisseria Q7DDD9 Q7DDD9 1.88 X-RAY DIFFRACTION 60 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 87 88 3vk0-a1-m1-cA_3vk0-a1-m2-cA KLTLPAELPDEQDLRAVLAYNMRLFRVNKGWSQEELARQCGLDRTYVSAVERKRWNIALSNIEKMAAALGVAAYQLLLPPQERLKLM KLTLPAELPDEQDLRAVLAYNMRLFRVNKGWSQEELARQCGLDRTYVSAVERKRWNIALSNIEKMAAALGVAAYQLLLPPQERLKLMT 3vk5-a1-m1-cB_3vk5-a1-m1-cA Crystal structure of MoeO5 in complex with its product FPG A0A011 A0A011 1.39 X-RAY DIFFRACTION 52 1.0 566461 (Streptomyces viridosporus ATCC 14672) 566461 (Streptomyces viridosporus ATCC 14672) 252 253 3vka-a1-m1-cB_3vka-a1-m1-cA 3vkb-a1-m1-cA_3vkb-a1-m1-cB 3vkc-a1-m1-cA_3vkc-a1-m1-cB 3vkd-a1-m1-cB_3vkd-a1-m1-cA PPLWRPGRVLARLREHQPGPVHIIDPFKVPVTEAVEKAAELTRLGFAAVLLASTDYESFESHMEPYVAAVKAATPLPVVLHFPPRPGAGFPVVRGADALLLPALLGSGDDYFVWKSFLETLAAFPGRIPREEWPELLLTVALTFGEDPRTGDLLGTVPVSTASTEEIDRYLHVARAFGFHMVYLYSRNEHVPPEVVRHFRKGLGPDQVLFVSGNVRSGRQVTEYLDSGADYVGFAGALEQPDWRSALAEIAG APPLWRPGRVLARLREHQPGPVHIIDPFKVPVTEAVEKAAELTRLGFAAVLLASTDYESFESHMEPYVAAVKAATPLPVVLHFPPRPGAGFPVVRGADALLLPALLGSGDDYFVWKSFLETLAAFPGRIPREEWPELLLTVALTFGEDPRTGDLLGTVPVSTASTEEIDRYLHVARAFGFHMVYLYSRNEHVPPEVVRHFRKGLGPDQVLFVSGNVRSGRQVTEYLDSGADYVGFAGALEQPDWRSALAEIAG 3vk6-a1-m1-cA_3vk6-a1-m2-cA Crystal structure of a phosphotyrosine binding domain Q9JIY2 Q9JIY2 1.9 X-RAY DIFFRACTION 128 1.0 10090 (Mus musculus) 10090 (Mus musculus) 96 96 VHFCDKCGLPIKVYGRMIPCKHVFCYDCAILHEKKGDKMCPGCSDPVQRIEQCTRGSLFMCSIVQGCKRTYLSQRDLQAHINHRHMRAGKPVTRAS VHFCDKCGLPIKVYGRMIPCKHVFCYDCAILHEKKGDKMCPGCSDPVQRIEQCTRGSLFMCSIVQGCKRTYLSQRDLQAHINHRHMRAGKPVTRAS 3vk9-a3-m1-cC_3vk9-a3-m1-cD Crystal structure of delta-class glutathione transferase from silkmoth Q60GK5 Q60GK5 2.001 X-RAY DIFFRACTION 90 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 215 215 3vk9-a1-m1-cA_3vk9-a1-m2-cA 3vk9-a2-m1-cB_3vk9-a2-m2-cB MTIDLYYVPGSAPCRAVLLTAKALNLNLNLKLVDLHHGEQLKPEYLKLNPQHTVPTLVDDGLSIWESRAIITYLVNKYAKGSSLYPEDPKARALVDQRLYFDIGTLYQRFSDYFYPQVFAGAPADKAKNEKVQEALQLLDKFLEGQKYVAGPNLTVADLSLIASVSSLEASDIDFKKYANVKRWYETVKSTAPGYQEANEKGLEAFKGLVNSMLK MTIDLYYVPGSAPCRAVLLTAKALNLNLNLKLVDLHHGEQLKPEYLKLNPQHTVPTLVDDGLSIWESRAIITYLVNKYAKGSSLYPEDPKARALVDQRLYFDIGTLYQRFSDYFYPQVFAGAPADKAKNEKVQEALQLLDKFLEGQKYVAGPNLTVADLSLIASVSSLEASDIDFKKYANVKRWYETVKSTAPGYQEANEKGLEAFKGLVNSMLK 3vkj-a1-m1-cC_3vkj-a1-m2-cD Crystal structure of Sulfolobus shibatae isopentenyl diphosphate isomerase, octameric form P61615 P61615 1.7 X-RAY DIFFRACTION 45 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 363 363 3vkj-a1-m1-cA_3vkj-a1-m2-cB 3vkj-a1-m1-cB_3vkj-a1-m2-cA 3vkj-a1-m1-cD_3vkj-a1-m2-cC IVNRKVEHVEIAAFENVDGLSSSTFLNDVILVHQGFPGISFSEINTKTKFFRKEISVPVMVTGMTGGRNELGRINKIIAEVAEKFGIPMGVGSQRVAIEKAEARESFAIVRKVAPTIPIIANLGMPQLVKGYGLKEFQDAIQMIEADAIAVHLNPAQEVFQPEGEPEYQIYALEKLRDISKELSVPIIVKESGNGISMETAKLLYSYGIKNFDTSGQGGTNWIAIEMIRDIRRGNWKAESAKNFLDWGVPTAASIMEVRYSVPDSFLVGSGGIRSGLDAAKAIALGADIAGMALPVLKSAIEGKESLEQFFRKIIFELKAAMMLTGSKDVDALKKTSIVILGKLKEWAEYRGINLSIYEKVRK IVNRKVEHVEIAAFENVDGLSSSTFLNDVILVHQGFPGISFSEINTKTKFFRKEISVPVMVTGMTGGRNELGRINKIIAEVAEKFGIPMGVGSQRVAIEKAEARESFAIVRKVAPTIPIIANLGMPQLVKGYGLKEFQDAIQMIEADAIAVHLNPAQEVFQPEGEPEYQIYALEKLRDISKELSVPIIVKESGNGISMETAKLLYSYGIKNFDTSGQGGTNWIAIEMIRDIRRGNWKAESAKNFLDWGVPTAASIMEVRYSVPDSFLVGSGGIRSGLDAAKAIALGADIAGMALPVLKSAIEGKESLEQFFRKIIFELKAAMMLTGSKDVDALKKTSIVILGKLKEWAEYRGINLSIYEKVRK 3vl1-a3-m1-cA_3vl1-a3-m1-cB Crystal structure of yeast Rpn14 P53196 P53196 1.6 X-RAY DIFFRACTION 137 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 416 416 MTKTITVAHIQYDFKAVLEENDENDDEFYINVDKNLNEIKEHKIVVLGNSRGVDAGKGNTFEKVGSHLYKARLDGHDFLFNTIIRDGSKMLKRADYTAVDTAKLQMRRFILGTTEGDIKVLDSNFNLQREIDQAHVSEITKLKFFPSGEALISSSQDMQLKIWSVKDGSNPRTLIGHRATVTDIAIIDRGRNVLSASLDGTIRLWECGTGTTIHTFNRKENPHDGVNSIALFVGTDRQLHEISTSKKNNLEFGTYGKYVIAGHVSGVITVHNVFSKEQTIQLPSKFTCSCNSLTVDGNNANYIYAGYENGMLAQWDLRSPECPVGEFLINEGTPINNVYFAAGALFVSSGFDTSIKLDIISDPESERPAIEFETPTFLVSNDDAVSQFCYVSDDESNGEVLEVGKNNFCALYNLSN MTKTITVAHIQYDFKAVLEENDENDDEFYINVDKNLNEIKEHKIVVLGNSRGVDAGKGNTFEKVGSHLYKARLDGHDFLFNTIIRDGSKMLKRADYTAVDTAKLQMRRFILGTTEGDIKVLDSNFNLQREIDQAHVSEITKLKFFPSGEALISSSQDMQLKIWSVKDGSNPRTLIGHRATVTDIAIIDRGRNVLSASLDGTIRLWECGTGTTIHTFNRKENPHDGVNSIALFVGTDRQLHEISTSKKNNLEFGTYGKYVIAGHVSGVITVHNVFSKEQTIQLPSKFTCSCNSLTVDGNNANYIYAGYENGMLAQWDLRSPECPVGEFLINEGTPINNVYFAAGALFVSSGFDTSIKLDIISDPESERPAIEFETPTFLVSNDDAVSQFCYVSDDESNGEVLEVGKNNFCALYNLSN 3vlk-a1-m1-cA_3vlk-a1-m1-cB Crystal Structure Analysis of the Ser305Ala variant of KatG from Haloarcula marismortui O59651 O59651 2 X-RAY DIFFRACTION 268 1.0 272569 (Haloarcula marismortui ATCC 43049) 272569 (Haloarcula marismortui ATCC 43049) 714 714 1itk-a1-m1-cA_1itk-a1-m1-cB 1itk-a2-m1-cA_1itk-a2-m1-cB 1itk-a2-m2-cA_1itk-a2-m2-cB 3uw8-a1-m1-cA_3uw8-a1-m1-cB 3vlh-a1-m1-cA_3vlh-a1-m1-cB 3vli-a1-m1-cA_3vli-a1-m1-cB 3vlj-a1-m1-cB_3vlj-a1-m1-cA 3vll-a1-m1-cA_3vll-a1-m1-cB 3vlm-a1-m1-cB_3vlm-a1-m1-cA KRPKSNQDWWPSKLNLEILDQNARDVGPVEDDFDYAEEFQKLDLEAVKSDLEELMTSSQDWWPADYGHYGPLFIRMAWHSAGTYRTADGRGGAAGGRQRFAPINSWPDNANLDKARRLLLPIKQKYGQKISWADLMILAGNVAIESMGFKTFGYAGGREDAFEEDKAVNWGPEDEFETQERFDEPGEIQEGLGASVMGLIYVNPEGPDGNPDPEASAKNIRQTFDRMAMNDKETAALIAGGHTFGKVHGADDPEENLGPEPEAAPIEQQGLGWQNKNGNSKGGEMITAGIEGPWTQSPTEWDMGYINNLLDYEWEPEKGPGGAWQWAPKSEELKNSVPDAHDPDEKQTPMMLTTDIALKRDPDYREVMETFQENPMEFGMNFAKAWYKLTHRDMGPPERFLGPEVPDEEMIWQDPLPDADYDLIGDEEIAELKEEILDSDLSVSQLVKTAWASASTYRDSDKRGGANGARLRLEPQKNWEVNEPEQLETVLGTLENIQTEFNDSRSDGTQVSLADLIVLGGNAAVEQAAANAGYDVEIPFEPGRVDAGPEHTDAPSFDALKPKVDGVRNYIQDDITRPAEEVLVDNADLLNLTASELTALIGGMRSIGANYQDTDLGVFTDEPETLTNDFFVNLLDMGTEWEPAADSEHRYKGLDRDTGEVKWEATRIDLIFGSNDRLRAISEVYGSADAEKKLVHDFVDTWSKVMKLDRFDLE KRPKSNQDWWPSKLNLEILDQNARDVGPVEDDFDYAEEFQKLDLEAVKSDLEELMTSSQDWWPADYGHYGPLFIRMAWHSAGTYRTADGRGGAAGGRQRFAPINSWPDNANLDKARRLLLPIKQKYGQKISWADLMILAGNVAIESMGFKTFGYAGGREDAFEEDKAVNWGPEDEFETQERFDEPGEIQEGLGASVMGLIYVNPEGPDGNPDPEASAKNIRQTFDRMAMNDKETAALIAGGHTFGKVHGADDPEENLGPEPEAAPIEQQGLGWQNKNGNSKGGEMITAGIEGPWTQSPTEWDMGYINNLLDYEWEPEKGPGGAWQWAPKSEELKNSVPDAHDPDEKQTPMMLTTDIALKRDPDYREVMETFQENPMEFGMNFAKAWYKLTHRDMGPPERFLGPEVPDEEMIWQDPLPDADYDLIGDEEIAELKEEILDSDLSVSQLVKTAWASASTYRDSDKRGGANGARLRLEPQKNWEVNEPEQLETVLGTLENIQTEFNDSRSDGTQVSLADLIVLGGNAAVEQAAANAGYDVEIPFEPGRVDAGPEHTDAPSFDALKPKVDGVRNYIQDDITRPAEEVLVDNADLLNLTASELTALIGGMRSIGANYQDTDLGVFTDEPETLTNDFFVNLLDMGTEWEPAADSEHRYKGLDRDTGEVKWEATRIDLIFGSNDRLRAISEVYGSADAEKKLVHDFVDTWSKVMKLDRFDLE 3vm6-a1-m1-cA_3vm6-a1-m2-cA Crystal structure of ribose-1,5-bisphosphate isomerase from Thermococcus kodakarensis KOD1 in complex with alpha-D-ribose-1,5-bisphosphate Q5JFM9 Q5JFM9 2.85 X-RAY DIFFRACTION 148 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 321 321 3a11-a1-m1-cA_3a11-a1-m1-cB 3a11-a1-m1-cC_3a11-a1-m1-cD 3a11-a1-m1-cE_3a11-a1-m1-cF 3a9c-a1-m1-cA_3a9c-a1-m1-cB 3a9c-a1-m1-cC_3a9c-a1-m1-cD 3a9c-a1-m1-cE_3a9c-a1-m1-cF 3vm6-a1-m1-cB_3vm6-a1-m2-cC 3vm6-a1-m1-cC_3vm6-a1-m2-cB AVVKEVLEIAEKIKNMEIRGAGKIARSAAYALQLQAEKSKATNVDEFWKEMKQAAKILFETRPTAVSLPNALRYVMHRGKIAYSSGADLEQLRFVIINAAKEFIHNSEKALERIGEFGAKRIEDGDVIMTHSHSKAAISVMKTAWEQGKDIKVIVTETRPKWQGKITAKELASYGIPVIYVVDSAARHYMKMTDKVVMGADSITVNGAVINKIGTALIALTAKEHRVWTMIAAETYKFHPETMLGQLVEIEMRDPTEVIPEDELKTWPKNIEVWNPAFDVTPPEYVDVIITERGIIPPYAAIDILREEFGWALKYTEPWED AVVKEVLEIAEKIKNMEIRGAGKIARSAAYALQLQAEKSKATNVDEFWKEMKQAAKILFETRPTAVSLPNALRYVMHRGKIAYSSGADLEQLRFVIINAAKEFIHNSEKALERIGEFGAKRIEDGDVIMTHSHSKAAISVMKTAWEQGKDIKVIVTETRPKWQGKITAKELASYGIPVIYVVDSAARHYMKMTDKVVMGADSITVNGAVINKIGTALIALTAKEHRVWTMIAAETYKFHPETMLGQLVEIEMRDPTEVIPEDELKTWPKNIEVWNPAFDVTPPEYVDVIITERGIIPPYAAIDILREEFGWALKYTEPWED 3vm6-a1-m2-cB_3vm6-a1-m2-cC Crystal structure of ribose-1,5-bisphosphate isomerase from Thermococcus kodakarensis KOD1 in complex with alpha-D-ribose-1,5-bisphosphate Q5JFM9 Q5JFM9 2.85 X-RAY DIFFRACTION 41 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 321 321 3vm6-a1-m1-cA_3vm6-a1-m1-cB 3vm6-a1-m1-cA_3vm6-a1-m1-cC 3vm6-a1-m1-cB_3vm6-a1-m1-cC 3vm6-a1-m2-cA_3vm6-a1-m2-cB 3vm6-a1-m2-cA_3vm6-a1-m2-cC AVVKEVLEIAEKIKNMEIRGAGKIARSAAYALQLQAEKSKATNVDEFWKEMKQAAKILFETRPTAVSLPNALRYVMHRGKIAYSSGADLEQLRFVIINAAKEFIHNSEKALERIGEFGAKRIEDGDVIMTHSHSKAAISVMKTAWEQGKDIKVIVTETRPKWQGKITAKELASYGIPVIYVVDSAARHYMKMTDKVVMGADSITVNGAVINKIGTALIALTAKEHRVWTMIAAETYKFHPETMLGQLVEIEMRDPTEVIPEDELKTWPKNIEVWNPAFDVTPPEYVDVIITERGIIPPYAAIDILREEFGWALKYTEPWED AVVKEVLEIAEKIKNMEIRGAGKIARSAAYALQLQAEKSKATNVDEFWKEMKQAAKILFETRPTAVSLPNALRYVMHRGKIAYSSGADLEQLRFVIINAAKEFIHNSEKALERIGEFGAKRIEDGDVIMTHSHSKAAISVMKTAWEQGKDIKVIVTETRPKWQGKITAKELASYGIPVIYVVDSAARHYMKMTDKVVMGADSITVNGAVINKIGTALIALTAKEHRVWTMIAAETYKFHPETMLGQLVEIEMRDPTEVIPEDELKTWPKNIEVWNPAFDVTPPEYVDVIITERGIIPPYAAIDILREEFGWALKYTEPWED 3vmj-a1-m1-cA_3vmj-a1-m2-cA 3-isopropylmalate dehydrogenase from Shewanella oneidensis MR-1 Q8E9N3 Q8E9N3 1.56 X-RAY DIFFRACTION 179 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 364 364 3vkz-a1-m1-cA_3vkz-a1-m2-cA 3vl2-a1-m1-cA_3vl2-a1-m2-cA 3vl3-a1-m1-cA_3vl3-a1-m2-cA 3vl4-a1-m1-cA_3vl4-a1-m2-cA 3vl6-a1-m1-cA_3vl6-a1-m2-cA 3vl7-a1-m1-cA_3vl7-a1-m2-cA 3wzv-a1-m1-cA_3wzv-a1-m2-cA 3wzw-a1-m1-cA_3wzw-a1-m2-cA 3wzx-a1-m1-cA_3wzx-a1-m2-cA 3wzy-a1-m1-cA_3wzy-a1-m2-cA SSYQIAVLAGDGIGPEVMAEARKVLKAVEARFGLNIEYTEYDVGGIAIDNHGCPLPEATLKGCEAADAILFGSVGGPKWEKLPPNEQPERGALLPLRGHFELFCNLRPAKLHDGLEHMSPLRSDISARGFDVLCVRELTGGIYFGKPKGRQGEGESEEAFDTMRYSRREISRIARIAFEAARGRRKKVTSVDKANVLACSVLWRQVVEEVAVDFPDVELEHIYIDNATMQLLRRPDEFDVMLCSNLFGDILSDEIAMLTGSMGLLSSASMNSTGFGLFEPAGGSAPDIAGKGIANPIAQILSAALMLRHSLKQEEAASAIERAVTKALNSGYLTGELLSSDQRHKAKTTVQMGDFIADAVKAGV SSYQIAVLAGDGIGPEVMAEARKVLKAVEARFGLNIEYTEYDVGGIAIDNHGCPLPEATLKGCEAADAILFGSVGGPKWEKLPPNEQPERGALLPLRGHFELFCNLRPAKLHDGLEHMSPLRSDISARGFDVLCVRELTGGIYFGKPKGRQGEGESEEAFDTMRYSRREISRIARIAFEAARGRRKKVTSVDKANVLACSVLWRQVVEEVAVDFPDVELEHIYIDNATMQLLRRPDEFDVMLCSNLFGDILSDEIAMLTGSMGLLSSASMNSTGFGLFEPAGGSAPDIAGKGIANPIAQILSAALMLRHSLKQEEAASAIERAVTKALNSGYLTGELLSSDQRHKAKTTVQMGDFIADAVKAGV 3vmk-a1-m1-cB_3vmk-a1-m1-cA 3-isopropylmalate dehydrogenase from Shewanella benthica DB21 MT-2 D2YZL2 D2YZL2 1.48 X-RAY DIFFRACTION 179 1.0 43661 (Shewanella benthica) 43661 (Shewanella benthica) 368 369 3vml-a1-m1-cA_3vml-a1-m2-cA HHHHGSSYQIAVLAGDGIGPEVMAEARKVLAAVEKRFDLSIEYSEYDVGGAAIDNHGCPLPEATLKGCEAADAVLFGSVGGPKWEHLPPNDQPERGALLPLRGHFELFCNMRPAKLHPGLEHMSPLRSDISEKGFDILCVRELTGGIYFGKPKGRQGEGENEEAFDTMRYSRKEIRRIAKIAFESAQGRRKKVTSVDKANVLACSVLWREVVEEVAKDYPDVELEHIYIDNATMQLLRRPNEFDVMLCSNLFGDIVSDEIAMLTGSMGLLASISMNSQGFGMYEPAGGSAPDIAGQGIANPVAQILSAALLLRHSLKLEDAALAIEAAVSKALSDGYLTCELLPASERSQAKSTSQMGDYIAQAIAEG HHHHHGSSYQIAVLAGDGIGPEVMAEARKVLAAVEKRFDLSIEYSEYDVGGAAIDNHGCPLPEATLKGCEAADAVLFGSVGGPKWEHLPPNDQPERGALLPLRGHFELFCNMRPAKLHPGLEHMSPLRSDISEKGFDILCVRELTGGIYFGKPKGRQGEGENEEAFDTMRYSRKEIRRIAKIAFESAQGRRKKVTSVDKANVLACSVLWREVVEEVAKDYPDVELEHIYIDNATMQLLRRPNEFDVMLCSNLFGDIVSDEIAMLTGSMGLLASISMNSQGFGMYEPAGGSAPDIAGQGIANPVAQILSAALLLRHSLKLEDAALAIEAAVSKALSDGYLTCELLPASERSQAKSTSQMGDYIAQAIAEG 3vmx-a2-m1-cD_3vmx-a2-m1-cC Crystal Structure of a parallel coiled-coil dimerization domain from the voltage-gated proton channel Q3U2S8 Q3U2S8 1.45 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 47 48 3vmx-a1-m1-cA_3vmx-a1-m1-cB 3vmy-a1-m1-cB_3vmy-a1-m1-cA 3vmy-a2-m1-cD_3vmy-a2-m1-cC 3vmz-a1-m1-cA_3vmz-a1-m1-cB 3vmz-a2-m1-cD_3vmz-a2-m1-cC 3vn0-a1-m1-cA_3vn0-a1-m1-cB 3vn0-a2-m1-cD_3vn0-a2-m1-cC GSERQILRLKQINIQLATKIQHLEFSCSEKEQEIERLNKLLKQNGLL GSERQILRLKQINIQLATKIQHLEFSCSEKEQEIERLNKLLKQNGLLG 3vn4-a2-m1-cA_3vn4-a2-m2-cA Crystal structure of the exosite-containing fragment of human ADAMTS13 (P475S mutant) Q76LX8 Q76LX8 2.8 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 375 375 DAQPGLYYSANEQCRVAFGPKAVACTFHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLSFYHWGAAVSHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKP DAQPGLYYSANEQCRVAFGPKAVACTFHLDMCQALSCHTDPLDQSSCSRLLVPLLDGTECGVEKWCSKGRCRSLVELTPIAAVHGRWSSWGPRSPCSRSCGGGVVTRRRQCNNPRPAFGGRACVGADLQAEMCNTQACEKTQLEFMSQQCARTDGQPLSFYHWGAAVSHSQGDALCRHMCRAIGESFIMKRGDSFLDGTRCMPSGPREDGTLSLCVSGSCRTFGCDGRMDSQQVWDRCQVCGGDNSTCSPRKGSFTAGRAREYVTFLTVTPNLTSVYIANHRPLFTHLAVRIGGRYVVAGKMSISPNTTYPSLLEDGRVEYRVALTEDRLPRLEEIRIWGPLQEDADIQVYRRYGEEYGNLTRPDITFTYFQPKP 3vnc-a1-m1-cB_3vnc-a1-m1-cA Crystal Structure of TIP-alpha N25 from Helicobacter Pylori in its natural dimeric form O25318 O25318 2.6 X-RAY DIFFRACTION 61 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 147 148 SFLQDVPYWMLQNRSEYITQGVDSSHIVDGKKTEEIEKIATKRATIRVAQNIVHKLKEAYLSKTNRIKQKITNEMFIQMTQPIYDSLMNVDRLGIYINPNNEEVFALVRARGFDKDALSEGLHKMSLDNQAVSILVAKVEEIFKDSV NSFLQDVPYWMLQNRSEYITQGVDSSHIVDGKKTEEIEKIATKRATIRVAQNIVHKLKEAYLSKTNRIKQKITNEMFIQMTQPIYDSLMNVDRLGIYINPNNEEVFALVRARGFDKDALSEGLHKMSLDNQAVSILVAKVEEIFKDSV 3vne-a2-m1-cA_3vne-a2-m2-cA Structure of the ebolavirus protein VP24 from Sudan Q5XX02 Q5XX02 2 X-RAY DIFFRACTION 57 1.0 186540 (Sudan ebolavirus) 186540 (Sudan ebolavirus) 218 218 3vnf-a2-m1-cA_3vnf-a2-m2-cA NLVTPKRELEQGVAFSDLCNFLVTPTVQGWKVYWAGLEFDVNQKGITLLNRLKVNDFAPAWAMTRNLFPHLFKNQQSEVQTPIWALRVILAAGILDQLEPLSGALNLIADWLLTTSTNHFNMRTQRVKDQLSMRMLSLIRSNIINFINKLETLHVVNYKGLLSSVEIGTPSYAIIITRTNMGYLVEVQEPDKSAMDIRHPGPVKFSLLHESTLKPVAT NLVTPKRELEQGVAFSDLCNFLVTPTVQGWKVYWAGLEFDVNQKGITLLNRLKVNDFAPAWAMTRNLFPHLFKNQQSEVQTPIWALRVILAAGILDQLEPLSGALNLIADWLLTTSTNHFNMRTQRVKDQLSMRMLSLIRSNIINFINKLETLHVVNYKGLLSSVEIGTPSYAIIITRTNMGYLVEVQEPDKSAMDIRHPGPVKFSLLHESTLKPVAT 3vni-a1-m1-cC_3vni-a1-m1-cD Crystal structures of D-Psicose 3-epimerase from Clostridium cellulolyticum H10 and its complex with ketohexose sugars B8I944 B8I944 1.98 X-RAY DIFFRACTION 30 1.0 394503 (Ruminiclostridium cellulolyticum H10) 394503 (Ruminiclostridium cellulolyticum H10) 288 288 3vni-a1-m1-cA_3vni-a1-m1-cB 3vnj-a1-m1-cB_3vnj-a1-m1-cA 3vnj-a1-m1-cC_3vnj-a1-m1-cD 3vnk-a1-m1-cB_3vnk-a1-m1-cA 3vnk-a1-m1-cD_3vnk-a1-m1-cC 3vnl-a1-m1-cB_3vnl-a1-m1-cA 3vnl-a1-m1-cC_3vnl-a1-m1-cD 3vnm-a1-m1-cA_3vnm-a1-m1-cB 3vnm-a1-m1-cC_3vnm-a1-m1-cD 7e9w-a1-m1-cA_7e9w-a1-m1-cB 7e9w-a1-m1-cC_7e9w-a1-m1-cD MKHGIYYAYWEQEWEADYKYYIEKVAKLGFDILEIAASPLPFYSDIQINELKACAHGNGITLTVGHGPSAEQNLSSPDPDIRKNAKAFYTDLLKRLYKLDVHLIGGALYSYWPIDYTKTIDKKGDWERSVESVREVAKVAEACGVDFCLEVLNRFENYLINTAQEGVDFVKQVDHNNVKVMLDTFHMNIEEDSIGGAIRTAGSYLGHLHTGECNRKVPGRGRIPWVEIGEALADIGYNGSVVMEPFVRMGGTVGSNIKVWRDISNGADEKMLDREAQAALDFSRYVLE MKHGIYYAYWEQEWEADYKYYIEKVAKLGFDILEIAASPLPFYSDIQINELKACAHGNGITLTVGHGPSAEQNLSSPDPDIRKNAKAFYTDLLKRLYKLDVHLIGGALYSYWPIDYTKTIDKKGDWERSVESVREVAKVAEACGVDFCLEVLNRFENYLINTAQEGVDFVKQVDHNNVKVMLDTFHMNIEEDSIGGAIRTAGSYLGHLHTGECNRKVPGRGRIPWVEIGEALADIGYNGSVVMEPFVRMGGTVGSNIKVWRDISNGADEKMLDREAQAALDFSRYVLE 3vni-a1-m1-cD_3vni-a1-m1-cA Crystal structures of D-Psicose 3-epimerase from Clostridium cellulolyticum H10 and its complex with ketohexose sugars B8I944 B8I944 1.98 X-RAY DIFFRACTION 78 1.0 394503 (Ruminiclostridium cellulolyticum H10) 394503 (Ruminiclostridium cellulolyticum H10) 288 289 3vni-a1-m1-cC_3vni-a1-m1-cB 3vnj-a1-m1-cB_3vnj-a1-m1-cC 3vnj-a1-m1-cD_3vnj-a1-m1-cA 3vnk-a1-m1-cB_3vnk-a1-m1-cC 3vnk-a1-m1-cD_3vnk-a1-m1-cA 3vnl-a1-m1-cB_3vnl-a1-m1-cC 3vnl-a1-m1-cD_3vnl-a1-m1-cA 3vnm-a1-m1-cA_3vnm-a1-m1-cD 3vnm-a1-m1-cC_3vnm-a1-m1-cB 7e9w-a1-m1-cA_7e9w-a1-m1-cD 7e9w-a1-m1-cB_7e9w-a1-m1-cC MKHGIYYAYWEQEWEADYKYYIEKVAKLGFDILEIAASPLPFYSDIQINELKACAHGNGITLTVGHGPSAEQNLSSPDPDIRKNAKAFYTDLLKRLYKLDVHLIGGALYSYWPIDYTKTIDKKGDWERSVESVREVAKVAEACGVDFCLEVLNRFENYLINTAQEGVDFVKQVDHNNVKVMLDTFHMNIEEDSIGGAIRTAGSYLGHLHTGECNRKVPGRGRIPWVEIGEALADIGYNGSVVMEPFVRMGGTVGSNIKVWRDISNGADEKMLDREAQAALDFSRYVLE MKHGIYYAYWEQEWEADYKYYIEKVAKLGFDILEIAASPLPFYSDIQINELKACAHGNGITLTVGHGPSAEQNLSSPDPDIRKNAKAFYTDLLKRLYKLDVHLIGGALYSYWPIDYTKTIDKKGDWERSVESVREVAKVAEACGVDFCLEVLNRFENYLINTAQEGVDFVKQVDHNNVKVMLDTFHMNIEEDSIGGAIRTAGSYLGHLHTGECNRKVPGRGRIPWVEIGEALADIGYNGSVVMEPFVRMGGTVGSNIKVWRDISNGADEKMLDREAQAALDFSRYVLEC 3vnj-a1-m1-cB_3vnj-a1-m1-cD Crystal structures of D-Psicose 3-epimerase with D-psicose from Clostridium cellulolyticum H10 B8I944 B8I944 2.08 X-RAY DIFFRACTION 10 1.0 394503 (Ruminiclostridium cellulolyticum H10) 394503 (Ruminiclostridium cellulolyticum H10) 288 289 3vnl-a1-m1-cB_3vnl-a1-m1-cD 3vnm-a1-m1-cB_3vnm-a1-m1-cD MKHGIYYAYWEQEWEADYKYYIEKVAKLGFDILEIAASPLPFYSDIQINELKACAHGNGITLTVGHGPSAEQNLSSPDPDIRKNAKAFYTDLLKRLYKLDVHLIGGALYSYWPIDYTKTIDKKGDWERSVESVREVAKVAEACGVDFCLEVLNRFENYLINTAQEGVDFVKQVDHNNVKVMLDTFHMNIEEDSIGGAIRTAGSYLGHLHTGECNRKVPGRGRIPWVEIGEALADIGYNGSVVMEPFVRMGGTVGSNIKVWRDISNGADEKMLDREAQAALDFSRYVLE MKHGIYYAYWEQEWEADYKYYIEKVAKLGFDILEIAASPLPFYSDIQINELKACAHGNGITLTVGHGPSAEQNLSSPDPDIRKNAKAFYTDLLKRLYKLDVHLIGGALYSYWPIDYTKTIDKKGDWERSVESVREVAKVAEACGVDFCLEVLNRFENYLINTAQEGVDFVKQVDHNNVKVMLDTFHMNIEEDSIGGAIRTAGSYLGHLHTGECNRKVPGRGRIPWVEIGEALADIGYNGSVVMEPFVRMGGTVGSNIKVWRDISNGADEKMLDREAQAALDFSRYVLEC 3vnp-a1-m1-cB_3vnp-a1-m1-cC Crystal structure of hypothetical protein (GK2848) from Geobacillus Kaustophilus Q5KW03 Q5KW03 2.4 X-RAY DIFFRACTION 55 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 171 171 3vnp-a1-m1-cA_3vnp-a1-m1-cB 3vnp-a1-m1-cA_3vnp-a1-m1-cC GMIYPYKGKTPQIAASAFIADYVTITGDVVIGEETSIWFNTVIRGDVAPTVIGNRVNIQDNSILHQSPNNPLIIEDGVTVGHQVILHSAIVRKNALIGMGSIILDRAEIGEGAFIGAGSLVPPGKKIPPNTLALGRPAKVVRELTEDDIREMERIRREYVEKGQYYKALQQ GMIYPYKGKTPQIAASAFIADYVTITGDVVIGEETSIWFNTVIRGDVAPTVIGNRVNIQDNSILHQSPNNPLIIEDGVTVGHQVILHSAIVRKNALIGMGSIILDRAEIGEGAFIGAGSLVPPGKKIPPNTLALGRPAKVVRELTEDDIREMERIRREYVEKGQYYKALQQ 3vnx-a1-m16-cA_3vnx-a1-m9-cA Crystal structure of ferritin from multicellular green algae, Ulva pertusa. H7CGH2 H7CGH2 2.4 X-RAY DIFFRACTION 97 1.0 3120 (Ulva pertusa) 3120 (Ulva pertusa) 195 195 3vnx-a1-m10-cA_3vnx-a1-m13-cA 3vnx-a1-m11-cA_3vnx-a1-m14-cA 3vnx-a1-m12-cA_3vnx-a1-m15-cA 3vnx-a1-m17-cA_3vnx-a1-m5-cA 3vnx-a1-m18-cA_3vnx-a1-m8-cA 3vnx-a1-m19-cA_3vnx-a1-m7-cA 3vnx-a1-m1-cA_3vnx-a1-m22-cA 3vnx-a1-m20-cA_3vnx-a1-m6-cA 3vnx-a1-m21-cA_3vnx-a1-m4-cA 3vnx-a1-m24-cA_3vnx-a1-m3-cA 3vnx-a1-m2-cA_3vnx-a1-m23-cA VFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQLRRVGKGVGVYLLDQELGEE VFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQLRRVGKGVGVYLLDQELGEE 3vnx-a1-m23-cA_3vnx-a1-m9-cA Crystal structure of ferritin from multicellular green algae, Ulva pertusa. H7CGH2 H7CGH2 2.4 X-RAY DIFFRACTION 29 1.0 3120 (Ulva pertusa) 3120 (Ulva pertusa) 195 195 3vnx-a1-m10-cA_3vnx-a1-m21-cA 3vnx-a1-m10-cA_3vnx-a1-m24-cA 3vnx-a1-m11-cA_3vnx-a1-m21-cA 3vnx-a1-m11-cA_3vnx-a1-m24-cA 3vnx-a1-m12-cA_3vnx-a1-m22-cA 3vnx-a1-m12-cA_3vnx-a1-m23-cA 3vnx-a1-m13-cA_3vnx-a1-m5-cA 3vnx-a1-m13-cA_3vnx-a1-m8-cA 3vnx-a1-m14-cA_3vnx-a1-m6-cA 3vnx-a1-m14-cA_3vnx-a1-m7-cA 3vnx-a1-m15-cA_3vnx-a1-m6-cA 3vnx-a1-m15-cA_3vnx-a1-m7-cA 3vnx-a1-m16-cA_3vnx-a1-m5-cA 3vnx-a1-m16-cA_3vnx-a1-m8-cA 3vnx-a1-m17-cA_3vnx-a1-m4-cA 3vnx-a1-m18-cA_3vnx-a1-m2-cA 3vnx-a1-m18-cA_3vnx-a1-m3-cA 3vnx-a1-m19-cA_3vnx-a1-m2-cA 3vnx-a1-m19-cA_3vnx-a1-m3-cA 3vnx-a1-m1-cA_3vnx-a1-m17-cA 3vnx-a1-m1-cA_3vnx-a1-m20-cA 3vnx-a1-m20-cA_3vnx-a1-m4-cA 3vnx-a1-m22-cA_3vnx-a1-m9-cA VFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQLRRVGKGVGVYLLDQELGEE VFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQLRRVGKGVGVYLLDQELGEE 3vnx-a1-m5-cA_3vnx-a1-m9-cA Crystal structure of ferritin from multicellular green algae, Ulva pertusa. H7CGH2 H7CGH2 2.4 X-RAY DIFFRACTION 86 1.0 3120 (Ulva pertusa) 3120 (Ulva pertusa) 195 195 3vnx-a1-m10-cA_3vnx-a1-m3-cA 3vnx-a1-m10-cA_3vnx-a1-m8-cA 3vnx-a1-m11-cA_3vnx-a1-m4-cA 3vnx-a1-m11-cA_3vnx-a1-m6-cA 3vnx-a1-m12-cA_3vnx-a1-m2-cA 3vnx-a1-m12-cA_3vnx-a1-m7-cA 3vnx-a1-m13-cA_3vnx-a1-m17-cA 3vnx-a1-m13-cA_3vnx-a1-m21-cA 3vnx-a1-m14-cA_3vnx-a1-m19-cA 3vnx-a1-m14-cA_3vnx-a1-m24-cA 3vnx-a1-m15-cA_3vnx-a1-m20-cA 3vnx-a1-m15-cA_3vnx-a1-m22-cA 3vnx-a1-m16-cA_3vnx-a1-m18-cA 3vnx-a1-m16-cA_3vnx-a1-m23-cA 3vnx-a1-m17-cA_3vnx-a1-m21-cA 3vnx-a1-m18-cA_3vnx-a1-m23-cA 3vnx-a1-m19-cA_3vnx-a1-m24-cA 3vnx-a1-m1-cA_3vnx-a1-m5-cA 3vnx-a1-m1-cA_3vnx-a1-m9-cA 3vnx-a1-m20-cA_3vnx-a1-m22-cA 3vnx-a1-m2-cA_3vnx-a1-m7-cA 3vnx-a1-m3-cA_3vnx-a1-m8-cA 3vnx-a1-m4-cA_3vnx-a1-m6-cA VFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQLRRVGKGVGVYLLDQELGEE VFQPFSEVQGELSTVTQAPVTDSYARVEYHIECEAAINEQINIEYTISYVYHALHSYFARDNVGLPGFAKFFKEASDEEREHAHMLMDYQTKRGGRVELKPLAAPEMEFANDDKGEALYAMELALSLEKLNFQKLQALQAIADKHKDAALCDFVEGGLLSEQVDAVKEHAVYVSQLRRVGKGVGVYLLDQELGEE 3vny-a3-m1-cA_3vny-a3-m4-cA Crystal structure of beta-glucuronidase from Acidobacterium capsulatum C1F2K5 C1F2K5 1.5 X-RAY DIFFRACTION 38 1.0 240015 (Acidobacterium capsulatum ATCC 51196) 240015 (Acidobacterium capsulatum ATCC 51196) 466 466 3vny-a3-m2-cA_3vny-a3-m3-cA 3vo0-a3-m1-cA_3vo0-a3-m4-cA 3vo0-a3-m2-cA_3vo0-a3-m3-cA SPVRVGLSVDASALGHTIPPDYTGLSYEQAQMANPNYFSGANTQLAGFLRTLGRQGVLRIGGNTSEYTFWNRHAKPTAADEHLAAGPDKGHHAAAREVITPEAVNNLSEFLDKTGWKLIYGLNLGKGTPENAADEAAYVMETIGADRLLAFQLGNEPDLFYRNGIRPASYDFAAYAGDWQRFFTAIRKRVPNAPFAGPDTAYNTKWLVPFADKFKHDVKFISSHYYAEGPPTDPSMTIERLMKPNPRLLGETAGLKQVEADTGLPFRLTETNSCYQGGKQGVSDTFAAALWAGDLMYQQAAAGSTGINFHGGGYGWYTPVAGTPEDGFIARPEYYGMLLFAQAGAGQLLGAKLTDNSAAPLLTAYALRGTDGRTRIALFNKNLDADVEVAISGVASPSGTVLRLEAPRADDTTDVTFGGAPVGASGSWSPLVQEYVPGHSGQFVLHMRKASGALLEFAKLAAALQH SPVRVGLSVDASALGHTIPPDYTGLSYEQAQMANPNYFSGANTQLAGFLRTLGRQGVLRIGGNTSEYTFWNRHAKPTAADEHLAAGPDKGHHAAAREVITPEAVNNLSEFLDKTGWKLIYGLNLGKGTPENAADEAAYVMETIGADRLLAFQLGNEPDLFYRNGIRPASYDFAAYAGDWQRFFTAIRKRVPNAPFAGPDTAYNTKWLVPFADKFKHDVKFISSHYYAEGPPTDPSMTIERLMKPNPRLLGETAGLKQVEADTGLPFRLTETNSCYQGGKQGVSDTFAAALWAGDLMYQQAAAGSTGINFHGGGYGWYTPVAGTPEDGFIARPEYYGMLLFAQAGAGQLLGAKLTDNSAAPLLTAYALRGTDGRTRIALFNKNLDADVEVAISGVASPSGTVLRLEAPRADDTTDVTFGGAPVGASGSWSPLVQEYVPGHSGQFVLHMRKASGALLEFAKLAAALQH 3vny-a3-m3-cA_3vny-a3-m4-cA Crystal structure of beta-glucuronidase from Acidobacterium capsulatum C1F2K5 C1F2K5 1.5 X-RAY DIFFRACTION 90 1.0 240015 (Acidobacterium capsulatum ATCC 51196) 240015 (Acidobacterium capsulatum ATCC 51196) 466 466 3vny-a2-m1-cA_3vny-a2-m2-cA 3vny-a3-m1-cA_3vny-a3-m2-cA 3vnz-a2-m1-cA_3vnz-a2-m2-cA 3vo0-a2-m1-cA_3vo0-a2-m2-cA 3vo0-a3-m1-cA_3vo0-a3-m2-cA 3vo0-a3-m3-cA_3vo0-a3-m4-cA 5g0m-a1-m1-cA_5g0m-a1-m2-cA SPVRVGLSVDASALGHTIPPDYTGLSYEQAQMANPNYFSGANTQLAGFLRTLGRQGVLRIGGNTSEYTFWNRHAKPTAADEHLAAGPDKGHHAAAREVITPEAVNNLSEFLDKTGWKLIYGLNLGKGTPENAADEAAYVMETIGADRLLAFQLGNEPDLFYRNGIRPASYDFAAYAGDWQRFFTAIRKRVPNAPFAGPDTAYNTKWLVPFADKFKHDVKFISSHYYAEGPPTDPSMTIERLMKPNPRLLGETAGLKQVEADTGLPFRLTETNSCYQGGKQGVSDTFAAALWAGDLMYQQAAAGSTGINFHGGGYGWYTPVAGTPEDGFIARPEYYGMLLFAQAGAGQLLGAKLTDNSAAPLLTAYALRGTDGRTRIALFNKNLDADVEVAISGVASPSGTVLRLEAPRADDTTDVTFGGAPVGASGSWSPLVQEYVPGHSGQFVLHMRKASGALLEFAKLAAALQH SPVRVGLSVDASALGHTIPPDYTGLSYEQAQMANPNYFSGANTQLAGFLRTLGRQGVLRIGGNTSEYTFWNRHAKPTAADEHLAAGPDKGHHAAAREVITPEAVNNLSEFLDKTGWKLIYGLNLGKGTPENAADEAAYVMETIGADRLLAFQLGNEPDLFYRNGIRPASYDFAAYAGDWQRFFTAIRKRVPNAPFAGPDTAYNTKWLVPFADKFKHDVKFISSHYYAEGPPTDPSMTIERLMKPNPRLLGETAGLKQVEADTGLPFRLTETNSCYQGGKQGVSDTFAAALWAGDLMYQQAAAGSTGINFHGGGYGWYTPVAGTPEDGFIARPEYYGMLLFAQAGAGQLLGAKLTDNSAAPLLTAYALRGTDGRTRIALFNKNLDADVEVAISGVASPSGTVLRLEAPRADDTTDVTFGGAPVGASGSWSPLVQEYVPGHSGQFVLHMRKASGALLEFAKLAAALQH 3vol-a1-m1-cA_3vol-a1-m2-cA X-ray Crystal Structure of PAS-HAMP Aer2 in the CN-bound Form Q9I6V6 Q9I6V6 2.399 X-RAY DIFFRACTION 121 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 138 138 GSHMARIKSALDNVSANVMIADNDLNIIYMNRTVSEMLGRAEADIRKQLPNFDAGRLMGANIDVFHKNPAHQRHLLANLTGVHKAELNLGGRRFSLDVVPVFNDANERLGSAVQWTDRTEEHRAEQEVSQLVQAAAAG GSHMARIKSALDNVSANVMIADNDLNIIYMNRTVSEMLGRAEADIRKQLPNFDAGRLMGANIDVFHKNPAHQRHLLANLTGVHKAELNLGGRRFSLDVVPVFNDANERLGSAVQWTDRTEEHRAEQEVSQLVQAAAAG 3vop-a1-m1-cA_3vop-a1-m1-cB Structure of Vaccinia virus A27 P11258 P11258 2.2 X-RAY DIFFRACTION 36 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 40 40 ETLKQRLTNLEKKITNVTTKFEQIEKAAKRNDEVLFRLEN ETLKQRLTNLEKKITNVTTKFEQIEKAAKRNDEVLFRLEN 3vop-a1-m1-cA_3vop-a1-m1-cC Structure of Vaccinia virus A27 P11258 P11258 2.2 X-RAY DIFFRACTION 21 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 40 43 ETLKQRLTNLEKKITNVTTKFEQIEKAAKRNDEVLFRLEN DNEETLKQRLTNLEKKITNVTTKFEQIEKAAKRNDEVLFRLEN 3vop-a1-m1-cB_3vop-a1-m1-cC Structure of Vaccinia virus A27 P11258 P11258 2.2 X-RAY DIFFRACTION 20 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 40 43 ETLKQRLTNLEKKITNVTTKFEQIEKAAKRNDEVLFRLEN DNEETLKQRLTNLEKKITNVTTKFEQIEKAAKRNDEVLFRLEN 3voq-a1-m1-cB_3voq-a1-m1-cA Crystal structure of the pleckstrin homology domain of human Sin1, a TORC2 subunit Q9BPZ7 Q9BPZ7 2 X-RAY DIFFRACTION 37 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 113 116 GAMATVQDMLSSHHYKSFKVSMIHRLRFTTDVQLGISGDKVEIDPVIKQKPISIDSDLLCACDLAEEKSPSHAIFKLTYLSNHDYKHLYFESDAATVNEIVLKVNYILESRAS GAMATVQDMLSSHHYKSFKVSMIHRLRFTTDVQLGISGDKVEIDPVTKFWIKQKPISIDSDLLCACDLAEEKSPSHAIFKLTYLSNHDYKHLYFESDAATVNEIVLKVNYILESRA 3vov-a1-m1-cC_3vov-a1-m1-cD Crystal Structure of ROK Hexokinase from Thermus thermophilus Q5SLJ4 Q5SLJ4 2.02 X-RAY DIFFRACTION 129 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 289 296 3vov-a1-m1-cA_3vov-a1-m1-cB MKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVK MKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIRNIPGVQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVKD 3vov-a1-m1-cD_3vov-a1-m1-cA Crystal Structure of ROK Hexokinase from Thermus thermophilus Q5SLJ4 Q5SLJ4 2.02 X-RAY DIFFRACTION 76 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 296 297 3vov-a1-m1-cC_3vov-a1-m1-cB MKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIRNIPGVQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVKD MKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIRNIPGVQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVKDG 3vov-a1-m1-cD_3vov-a1-m1-cB Crystal Structure of ROK Hexokinase from Thermus thermophilus Q5SLJ4 Q5SLJ4 2.02 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 296 298 MKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIRNIPGVQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVKD MKVVGLDLGGTKIAAGVFDGKRLLSKVVVPTPKEGGERVAEALAEAAERAEREAGVRGEAIGLGTPGPLDFRRGVIRPNIPGVQDFPIRRILEEATGRPVFLENDANAAALAEHHLGAAQGEESSLYLTVSTGIGGGVVLGGRVLRGERGQGGELGHLTLLPGGPACGCGLEGCLEALAAGRALERDATYAFQRPVDTRELFRLFQAGDPKAERLVLQAARYVGIGLASLVKAFDPGVVVLGGGVALNAPEGYWEALLEAYRRYLQGWEAPPLRRARLGAEAGLLGAALTAYLEVKDG 3vox-a2-m1-cC_3vox-a2-m1-cD X-ray Crystal Structure of Wild Type HrtR in the Apo Form Q9CHR1 Q9CHR1 3.1 X-RAY DIFFRACTION 109 0.994 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 175 177 3vok-a1-m1-cA_3vok-a1-m2-cA 3vox-a1-m1-cB_3vox-a1-m1-cA 3vp5-a1-m1-cA_3vp5-a1-m2-cA PKSTYFSLSDEKRNRVYDACLNEFQTHSFHEAKIMHIVKALDIPRGSFYQYFEDLKDAYFYVLSQETLEIHDLFFNLLKDNSIEESLDKYKYLLLENLIDSPQYKLYKYRFLDWTYELERDWKENDNPISQVLKSVVHNLVYRLFSENWTEKTFIENYDKEIKLVTEGLLNYITD PKSTYFSLSDEKRNRVYDACLNEFQTHSFHEAKIMHIVKALDIPRGSFYQYFEDLKDAYFYVLSQETLEIHDLFFNLLKDNSIEESLDKYKYLLLENLIDSPQYKLYKYRFLDWTYELERDWKPQSNDNPISQVLKSVVHNLVYRLFSENWTEKTFIENYDKEIKLVTEGLLNYITD 3vp6-a1-m1-cB_3vp6-a1-m1-cA Structural characterization of Glutamic Acid Decarboxylase; insights into the mechanism of autoinactivation Q99259 Q99259 2.1 X-RAY DIFFRACTION 477 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 490 499 2okj-a1-m1-cA_2okj-a1-m1-cB FSNLFARDLLPAKNGEEQTVQFLLEVVDILLNYVRKTFDRSTKVLDFHHPHQLLEGMEGFNLELSDHPESLEQILVDCRDTLKYGVRTGHPRFFNQLSTGLDIIGLAGEWLTSTANTNMFTYEIAPVFVLMEQITLKKMREIVGWSSKDGDGIFSPGGAISNMYSIMAARYKYFPEVKTKGMAAVPKLVLFTSEQSHYSIKKAGAALGFGTDNVILIKCNERGKIIPADFEAKILEAKQKGYVPFYVNATAGTTVYGAFDPIQEIADICEKYNLWLHVDAAWGGGLLMSRKHRHKLNGIERANSVTWNPHMMGVLLQCSAILVKEKGILQGCNQMHASYLFQQDKHYDVSYDTGDKAIQCGRHVDIFKFWLMWKAKGTVGFENQINKCLELAEYLYAKIKNREEFEMVFNGEPEHTNVCFWYIPQSDSPQRREKLHKVAPKIKALMMESGTTMVGYQPQGDKANFFRMVISNPAATQSDIDFLIEEIERL TDFSNLFARDLLPAKNGEEQTVQFLLEVVDILLNYVRKTFDRSTKVLDFHHPHQLLEGMEGFNLELSDHPESLEQILVDCRDTLKYGVRTGHPRFFNQLSTGLDIIGLAGEWLTSTANTNMFTYEIAPVFVLMEQITLKKMREIVGWSSKDGDGIFSPGGAISNMYSIMAARYKYFPEVKTKGMAAVPKLVLFTSEQSHYSIKKAGAALGFGTDNVILIKCNERGKIIPADFEAKILEAKQKGYVPFYVNATAGTTVYGAFDPIQEIADICEKYNLWLHVDAAWGGGLLMSRKHRHKLNGIERANSVTWNPHMMGVLLQCSAILVKEKGILQGCNQMHASYLFQQDKHYDVSYDTGDKAIQCGRHVDIFKFWLMWKAKGTVGFENQINKCLELAEYLYAKIKNREEFEMVFNGEPEHTNVCFWYIPQSLRGVPDSPQRREKLHKVAPKIKALMMESGTTMVGYQPQGDKANFFRMVISNPAATQSDIDFLIEEIERLGQ 3vp7-a2-m1-cA_3vp7-a2-m2-cA Crystal structure of the beta-alpha repeated, autophagy-specific (BARA) domain of Vps30/Atg6 Q02948 Q02948 2.3 X-RAY DIFFRACTION 77 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 166 166 INIFNATFKISHSGPFATINGLRLGSIPESVVPWKEINAALGQLILLLATINKNLKINLVDYELQPMGSFSKIKKRMDWLILPVYYDETKFDKSLETTLEIISEITRQLSTIASSLELPYIMNKDKINGLSVKLHGSSPNLEWTTAMKFLLTNVKWLLAFSSNLLS INIFNATFKISHSGPFATINGLRLGSIPESVVPWKEINAALGQLILLLATINKNLKINLVDYELQPMGSFSKIKKRMDWLILPVYYDETKFDKSLETTLEIISEITRQLSTIASSLELPYIMNKDKINGLSVKLHGSSPNLEWTTAMKFLLTNVKWLLAFSSNLLS 3vp8-a1-m1-cA_3vp8-a1-m1-cD Crystal structure of the N-terminal domain of the yeast general corepressor Tup1p P16649 P16649 1.91 X-RAY DIFFRACTION 20 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 75 78 3vp8-a1-m1-cC_3vp8-a1-m1-cB SVSNTQNKLNELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYELELTHRKMKDAYEEEIK TASVSNTQNKLNELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYELELTHRKMKDAYEEEIKH 3vp8-a1-m1-cC_3vp8-a1-m1-cD Crystal structure of the N-terminal domain of the yeast general corepressor Tup1p P16649 P16649 1.91 X-RAY DIFFRACTION 80 0.987 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 77 78 3vp8-a1-m1-cA_3vp8-a1-m1-cB SVSNTQNKLNELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYELELTHRKMKDAYEEEIKHL TASVSNTQNKLNELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYELELTHRKMKDAYEEEIKH 3vp8-a1-m1-cD_3vp8-a1-m1-cB Crystal structure of the N-terminal domain of the yeast general corepressor Tup1p P16649 P16649 1.91 X-RAY DIFFRACTION 33 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 78 80 3vp8-a1-m1-cA_3vp8-a1-m1-cC TASVSNTQNKLNELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYELELTHRKMKDAYEEEIKH TASVSNTQNKLNELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYELELTHRKMKDAYEEEIKHLK 3vp9-a1-m1-cA_3vp9-a1-m2-cA Crystal structure of the N-terminal domain of the yeast general corepressor Tup1p mutant P16649 P16649 1.799 X-RAY DIFFRACTION 51 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 70 70 DAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYERELTHRKMKDAYEEEIKHLKLGLEQ DAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYERELTHRKMKDAYEEEIKHLKLGLEQ 3vp9-a1-m2-cA_3vp9-a1-m2-cB Crystal structure of the N-terminal domain of the yeast general corepressor Tup1p mutant P16649 P16649 1.799 X-RAY DIFFRACTION 64 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 70 77 3vp9-a1-m1-cA_3vp9-a1-m1-cB DAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYERELTHRKMKDAYEEEIKHLKLGLEQ ELLDAIRQEFLQVSQEANTYRLQNQKDYDFKMNQQLAEMQQIRNTVYERELTHRKMKDAYEEEIKHLKLGLEQRDHQ 3vpb-a1-m1-cC_3vpb-a1-m1-cD ArgX from Sulfolobus tokodaii complexed with LysW/Glu/ADP/Mg/Zn/Sulfate Q970U6 Q970U6 1.8 X-RAY DIFFRACTION 166 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 281 281 3vpb-a1-m1-cA_3vpb-a1-m1-cB 3vpc-a1-m1-cA_3vpc-a1-m1-cB 3vpc-a1-m1-cC_3vpc-a1-m1-cD MRVVLIVDIVRQEEKLIAKALEENKVQYDIINVAQEPLPFNKALGRYDVAIIRPVSMYRALYSSAVLEAAGVHTINSSDVINVCGDKILTYSKLYREGIPIPDSIIALSAEAALKAYEQRGFPLIDKPPIGSWGRLVSLIRDVFEGKTIIEHRELMGNSALKAHIVQEYIQYKGRDIRCIAIGEELLGCYARNIPPNEWRANVALGGTPSNIEVDEKLKETVVKAVSIVHGEFVSIDILEHPNKGYVVNELNDVPEFKGFMVATNINVAQKLVEYIKENYS MRVVLIVDIVRQEEKLIAKALEENKVQYDIINVAQEPLPFNKALGRYDVAIIRPVSMYRALYSSAVLEAAGVHTINSSDVINVCGDKILTYSKLYREGIPIPDSIIALSAEAALKAYEQRGFPLIDKPPIGSWGRLVSLIRDVFEGKTIIEHRELMGNSALKAHIVQEYIQYKGRDIRCIAIGEELLGCYARNIPPNEWRANVALGGTPSNIEVDEKLKETVVKAVSIVHGEFVSIDILEHPNKGYVVNELNDVPEFKGFMVATNINVAQKLVEYIKENYS 3vpc-a1-m1-cA_3vpc-a1-m1-cD ArgX from Sulfolobus tokodaii complexed with ADP Q970U6 Q970U6 1.87 X-RAY DIFFRACTION 44 1.0 111955 (Sulfurisphaera tokodaii) 111955 (Sulfurisphaera tokodaii) 282 282 3vpb-a1-m1-cA_3vpb-a1-m1-cC 3vpb-a1-m1-cD_3vpb-a1-m1-cB 3vpc-a1-m1-cC_3vpc-a1-m1-cB MRVVLIVDIVRQEEKLIAKALEENKVQYDIINVAQEPLPFNKALGRYDVAIIRPVSMYRALYSSAVLEAAGVHTINSSDVINVCGDKILTYSKLYREGIPIPDSIIALSAEAALKAYEQRGFPLIDKPPIGSWGRLVSLIRDVFEGKTIIEHRELMGNSALKAHIVQEYIQYKGRDIRCIAIGEELLGCYARNIPPNEWRANVALGGTPSNIEVDEKLKETVVKAVSIVHGEFVSIDILEHPNKGYVVNELNDVPEFKGFMVATNINVAQKLVEYIKENYSK MRVVLIVDIVRQEEKLIAKALEENKVQYDIINVAQEPLPFNKALGRYDVAIIRPVSMYRALYSSAVLEAAGVHTINSSDVINVCGDKILTYSKLYREGIPIPDSIIALSAEAALKAYEQRGFPLIDKPPIGSWGRLVSLIRDVFEGKTIIEHRELMGNSALKAHIVQEYIQYKGRDIRCIAIGEELLGCYARNIPPNEWRANVALGGTPSNIEVDEKLKETVVKAVSIVHGEFVSIDILEHPNKGYVVNELNDVPEFKGFMVATNINVAQKLVEYIKENYSK 3vpd-a1-m2-cB_3vpd-a1-m1-cA LysX from Thermus thermophilus complexed with AMP-PNP Q5SH23 Q5SH23 1.95 X-RAY DIFFRACTION 68 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 268 281 3vpd-a1-m1-cB_3vpd-a1-m2-cA MLAILYDRIRPDERMLFERAEALGLPYKKVYVPALPMVLGERPEALEGVTVALERCVSQSRGLAAARYLTALGIPVVNRPEVIEACGDKWATSVALAKAGLPQPKTALATDREEALRLMEAFGYPVVLKPVIGSWGRLLAKVTDRAAAEALLEHKEVLGGFQHQLFYIQEYVEKPGRDIRVFVVGERAIAAIYRQAENCPLTEEIARLSVGAAEAVGGGVVAVDLFESERGLLVNEVNHTMEFKNSVHTTGVDIPGEILRYAWEVARG MLAILYDRIRPDERMLFERAEALGLPYKKVYVPALPMVLGERPEALEGVTVALERCVSQSRGLAAARYLTALGIPVVNRPEVIEACGDKWATSVALAKAGLPQPKTALATDREEALRLMEAFGYPVVLKPVIGSWGRLLAKVTDRAAAEALLEHKEVLGGFQHQLFYIQEYVEKPGRDIRVFVVGERAIAAIYRRSAHWITNTARGGQAENCPLTEEIARLSVGAAEAVGGGVVAVDLFESERGLLVNEVNHTMEFKNSVHTTGVDIPGEILRYAWEVARG 3vpd-a1-m2-cB_3vpd-a1-m2-cA LysX from Thermus thermophilus complexed with AMP-PNP Q5SH23 Q5SH23 1.95 X-RAY DIFFRACTION 109 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 268 281 3vpd-a1-m1-cB_3vpd-a1-m1-cA MLAILYDRIRPDERMLFERAEALGLPYKKVYVPALPMVLGERPEALEGVTVALERCVSQSRGLAAARYLTALGIPVVNRPEVIEACGDKWATSVALAKAGLPQPKTALATDREEALRLMEAFGYPVVLKPVIGSWGRLLAKVTDRAAAEALLEHKEVLGGFQHQLFYIQEYVEKPGRDIRVFVVGERAIAAIYRQAENCPLTEEIARLSVGAAEAVGGGVVAVDLFESERGLLVNEVNHTMEFKNSVHTTGVDIPGEILRYAWEVARG MLAILYDRIRPDERMLFERAEALGLPYKKVYVPALPMVLGERPEALEGVTVALERCVSQSRGLAAARYLTALGIPVVNRPEVIEACGDKWATSVALAKAGLPQPKTALATDREEALRLMEAFGYPVVLKPVIGSWGRLLAKVTDRAAAEALLEHKEVLGGFQHQLFYIQEYVEKPGRDIRVFVVGERAIAAIYRRSAHWITNTARGGQAENCPLTEEIARLSVGAAEAVGGGVVAVDLFESERGLLVNEVNHTMEFKNSVHTTGVDIPGEILRYAWEVARG 3vpr-a2-m1-cC_3vpr-a2-m1-cD Crystal Structure of a TetR Family Transcriptional Regulator PfmR from Thermus thermophilus HB8 Q53WD9 Q53WD9 2.27 X-RAY DIFFRACTION 90 0.983 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 177 180 3vpr-a1-m1-cB_3vpr-a1-m1-cA DRILEEAAKLFTEKGYEATSVQDLAQALGLSKAALYHHFGSKEEILYEISLLALKGLVAAGEKALEVADPKEALRRFEAHARYFEENYPFFVTLQGIKSLSPENRLKTIALRDRHEENLRAILRRGVEQGVFREVDVALAGRAVLSLNWIRWFRPDGPRAEEVARAYHDLILRGLER VTTTRDRILEEAAKLFTEKGYEATSVQDLAQALGLSKAALYHHFGSKEEILYEISLLALKGLVAAGEKALEVADPKEALRRFEAHARYFEENYPFFVTLQGIKSLSPENRLKTIALRDRHEENLRAILRRGVEQGVFREVDVALAGRAVLSLNWIRWFRPRAEEVARAYHDLILRGLERG 3vpx-a1-m2-cA_3vpx-a1-m4-cB Crystal structure of leucine dehydrogenase from a psychrophilic bacterium Sporosarcina psychrophila. I0IJU1 I0IJU1 2.55 X-RAY DIFFRACTION 41 1.0 1476 (Sporosarcina psychrophila) 1476 (Sporosarcina psychrophila) 356 359 3vpx-a1-m1-cA_3vpx-a1-m3-cB 3vpx-a1-m3-cA_3vpx-a1-m2-cB 3vpx-a1-m4-cA_3vpx-a1-m1-cB MEIFKYMEHQDYEQLVICQDKASGLKAIIAIHDTTLGPALGGTRMWTYASEEEAIEDALRLARGMTYKNAAAGLNLGGGKTVIIGNPKTDKNDEMFRAFGRYIEGLNGRYITAEDVGTTEADMDLINLETDYVTGTSNPSPVTAYGIYYGMKAAAKEAFGDDSLAGKTVAVQGVGNVAYALCEYLHEEGAKLIITDINEEAVQRAVDAFGATAVGINEIYSQEADIFAPCALGAIINDETIPQLKAKVIAGSANNQLKETRHGDLIHEMGIVYAPDYVINSGGVINVADELDGYNRERALKRVEGIYDVIGKIFAISKRDNIPTYVAADRMAEERIARVANTRSTFLQNEKSVLSR MEIFKYMEHQDYEQLVICQDKASGLKAIIAIHDTTLGPALGGTRMWTYASEEEAIEDALRLARGMTYKNAAAGLNLGGGKTVIIGNPKTDKNDEMFRAFGRYIEGLNGRYITAEDVGTTEADMDLINLETDYVTGTSAGANPSPVTAYGIYYGMKAAAKEAFGDDSLAGKTVAVQGVGNVAYALCEYLHEEGAKLIITDINEEAVQRAVDAFGATAVGINEIYSQEADIFAPCALGAIINDETIPQLKAKVIAGSANNQLKETRHGDLIHEMGIVYAPDYVINSGGVINVADELDGYNRERALKRVEGIYDVIGKIFAISKRDNIPTYVAADRMAEERIARVANTRSTFLQNEKSVLSR 3vpx-a1-m2-cB_3vpx-a1-m4-cB Crystal structure of leucine dehydrogenase from a psychrophilic bacterium Sporosarcina psychrophila. I0IJU1 I0IJU1 2.55 X-RAY DIFFRACTION 33 1.0 1476 (Sporosarcina psychrophila) 1476 (Sporosarcina psychrophila) 359 359 3vpx-a1-m1-cA_3vpx-a1-m3-cA 3vpx-a1-m1-cA_3vpx-a1-m4-cA 3vpx-a1-m1-cB_3vpx-a1-m3-cB 3vpx-a1-m1-cB_3vpx-a1-m4-cB 3vpx-a1-m2-cA_3vpx-a1-m3-cA 3vpx-a1-m2-cA_3vpx-a1-m4-cA 3vpx-a1-m2-cB_3vpx-a1-m3-cB MEIFKYMEHQDYEQLVICQDKASGLKAIIAIHDTTLGPALGGTRMWTYASEEEAIEDALRLARGMTYKNAAAGLNLGGGKTVIIGNPKTDKNDEMFRAFGRYIEGLNGRYITAEDVGTTEADMDLINLETDYVTGTSAGANPSPVTAYGIYYGMKAAAKEAFGDDSLAGKTVAVQGVGNVAYALCEYLHEEGAKLIITDINEEAVQRAVDAFGATAVGINEIYSQEADIFAPCALGAIINDETIPQLKAKVIAGSANNQLKETRHGDLIHEMGIVYAPDYVINSGGVINVADELDGYNRERALKRVEGIYDVIGKIFAISKRDNIPTYVAADRMAEERIARVANTRSTFLQNEKSVLSR MEIFKYMEHQDYEQLVICQDKASGLKAIIAIHDTTLGPALGGTRMWTYASEEEAIEDALRLARGMTYKNAAAGLNLGGGKTVIIGNPKTDKNDEMFRAFGRYIEGLNGRYITAEDVGTTEADMDLINLETDYVTGTSAGANPSPVTAYGIYYGMKAAAKEAFGDDSLAGKTVAVQGVGNVAYALCEYLHEEGAKLIITDINEEAVQRAVDAFGATAVGINEIYSQEADIFAPCALGAIINDETIPQLKAKVIAGSANNQLKETRHGDLIHEMGIVYAPDYVINSGGVINVADELDGYNRERALKRVEGIYDVIGKIFAISKRDNIPTYVAADRMAEERIARVANTRSTFLQNEKSVLSR 3vpx-a1-m4-cA_3vpx-a1-m4-cB Crystal structure of leucine dehydrogenase from a psychrophilic bacterium Sporosarcina psychrophila. I0IJU1 I0IJU1 2.55 X-RAY DIFFRACTION 83 1.0 1476 (Sporosarcina psychrophila) 1476 (Sporosarcina psychrophila) 356 359 3vpx-a1-m1-cA_3vpx-a1-m1-cB 3vpx-a1-m2-cA_3vpx-a1-m2-cB 3vpx-a1-m3-cA_3vpx-a1-m3-cB MEIFKYMEHQDYEQLVICQDKASGLKAIIAIHDTTLGPALGGTRMWTYASEEEAIEDALRLARGMTYKNAAAGLNLGGGKTVIIGNPKTDKNDEMFRAFGRYIEGLNGRYITAEDVGTTEADMDLINLETDYVTGTSNPSPVTAYGIYYGMKAAAKEAFGDDSLAGKTVAVQGVGNVAYALCEYLHEEGAKLIITDINEEAVQRAVDAFGATAVGINEIYSQEADIFAPCALGAIINDETIPQLKAKVIAGSANNQLKETRHGDLIHEMGIVYAPDYVINSGGVINVADELDGYNRERALKRVEGIYDVIGKIFAISKRDNIPTYVAADRMAEERIARVANTRSTFLQNEKSVLSR MEIFKYMEHQDYEQLVICQDKASGLKAIIAIHDTTLGPALGGTRMWTYASEEEAIEDALRLARGMTYKNAAAGLNLGGGKTVIIGNPKTDKNDEMFRAFGRYIEGLNGRYITAEDVGTTEADMDLINLETDYVTGTSAGANPSPVTAYGIYYGMKAAAKEAFGDDSLAGKTVAVQGVGNVAYALCEYLHEEGAKLIITDINEEAVQRAVDAFGATAVGINEIYSQEADIFAPCALGAIINDETIPQLKAKVIAGSANNQLKETRHGDLIHEMGIVYAPDYVINSGGVINVADELDGYNRERALKRVEGIYDVIGKIFAISKRDNIPTYVAADRMAEERIARVANTRSTFLQNEKSVLSR 3vpz-a1-m1-cA_3vpz-a1-m2-cA Crystal structure of glucokinase from Antarctic psychrotroph at 1.69A H7CHS4 H7CHS4 1.69 X-RAY DIFFRACTION 154 1.0 1161203 (Pseudoalteromonas sp. AS-131) 1161203 (Pseudoalteromonas sp. AS-131) 322 322 QFDPILVADIGGTNARFALITAFDAAKNEFVIEYNHTFPSADFGSLQNATRHYLSTVPHIKPVRACLAVAGPIKAGQVHLTNLGWHFSVSEFKQAFSFLQLEVINDFAAFAYAAPYLDSNQNVVIKAGQADENSNIAVMGPGTGFGAACLVRTAQSSAVLSSEGGHISLAAVTDLDAKLLIELRKEHPHVSLETVFSGPGIAHLYKAMAAVNGITAKHLDAAQISNLANTGECEVCDATLNQFCDWLGSAAGDLALAYGALGGLFIGGGILPRMQSRLLESRFVERFSQKGIMSQYNGQVPVTLVTQDNIPLIGAAACLHNS QFDPILVADIGGTNARFALITAFDAAKNEFVIEYNHTFPSADFGSLQNATRHYLSTVPHIKPVRACLAVAGPIKAGQVHLTNLGWHFSVSEFKQAFSFLQLEVINDFAAFAYAAPYLDSNQNVVIKAGQADENSNIAVMGPGTGFGAACLVRTAQSSAVLSSEGGHISLAAVTDLDAKLLIELRKEHPHVSLETVFSGPGIAHLYKAMAAVNGITAKHLDAAQISNLANTGECEVCDATLNQFCDWLGSAAGDLALAYGALGGLFIGGGILPRMQSRLLESRFVERFSQKGIMSQYNGQVPVTLVTQDNIPLIGAAACLHNS 3vq2-a1-m1-cA_3vq2-a1-m1-cB Crystal structure of mouse TLR4/MD-2/LPS complex Q9QUK6 Q9QUK6 2.48 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 581 581 3vq1-a1-m1-cA_3vq1-a1-m1-cB 5ijd-a1-m1-cA_5ijd-a1-m1-cB 7mlm-a1-m1-cA_7mlm-a1-m2-cA PCIEVVPNITYQCMDQKLSKVPDDIPSSTKNIDLSFNPLKILKSYSFSNFSELQWLDLSRCEIETIEDKAWHGLHHLSNLILTGNPIQSFSPGSFSGLTSLENLVAVETKLASLESFPIGQLITLKKLNVAHNFIHSCKLPAYFSNLTNLVHVDLSYNYIQTITVNDLQFLRENPQVNLSLDMSLNPIDFIQDQAFQGIKLHELTLRGNFNSSNIMKTCLQNLAGLHVHRLILGEFKDERNLEIFEPSIMEGLCDVTIDEFRLTYTNDFSDDIVKFHCLANVSAMSLAGVSIKYLEDVPKHFKWQSLSIIRCQLKQFPTLDLPFLKSLTLTMNKGSISFKKVALPSLSYLDLSRNALSFSGCCSYSDLGTNSLRHLDLSFNGAIIMSANFMGLEELQHLDFQHSTLKRVTEFSAFLSLEKLLYLDISYTNTKIDFDGIFLGLTSLNTLKMAGNSFKDNTLSNVFANTTNLTFLDLSKCQLEQISWGVFDTLHRLQLLNMSHNNLLFLDSSHYNQLYSLSTLDCSFNRIETSKGILQHFPKSLAFFNLTNNSVACICEHQKFLQWVKEQKQFLVNVEQMTCA PCIEVVPNITYQCMDQKLSKVPDDIPSSTKNIDLSFNPLKILKSYSFSNFSELQWLDLSRCEIETIEDKAWHGLHHLSNLILTGNPIQSFSPGSFSGLTSLENLVAVETKLASLESFPIGQLITLKKLNVAHNFIHSCKLPAYFSNLTNLVHVDLSYNYIQTITVNDLQFLRENPQVNLSLDMSLNPIDFIQDQAFQGIKLHELTLRGNFNSSNIMKTCLQNLAGLHVHRLILGEFKDERNLEIFEPSIMEGLCDVTIDEFRLTYTNDFSDDIVKFHCLANVSAMSLAGVSIKYLEDVPKHFKWQSLSIIRCQLKQFPTLDLPFLKSLTLTMNKGSISFKKVALPSLSYLDLSRNALSFSGCCSYSDLGTNSLRHLDLSFNGAIIMSANFMGLEELQHLDFQHSTLKRVTEFSAFLSLEKLLYLDISYTNTKIDFDGIFLGLTSLNTLKMAGNSFKDNTLSNVFANTTNLTFLDLSKCQLEQISWGVFDTLHRLQLLNMSHNNLLFLDSSHYNQLYSLSTLDCSFNRIETSKGILQHFPKSLAFFNLTNNSVACICEHQKFLQWVKEQKQFLVNVEQMTCA 3vqj-a1-m1-cA_3vqj-a1-m4-cA Crystal Structutre of Thiobacillus thioparus THI115 Carbonyl Sulfide Hydrolase H1AAP2 H1AAP2 1.2 X-RAY DIFFRACTION 268 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 213 213 3vqj-a1-m2-cA_3vqj-a1-m3-cA 3vrk-a1-m1-cA_3vrk-a1-m4-cA 3vrk-a1-m2-cA_3vrk-a1-m3-cA NTDALLENNRLYAGGQATHRPGHPGMQPIQPSRRVAVVACMDARLDVEDLLGLQTGEAHIIRNAGGVINEDAIRCLIISHHLLNTHEIILVHHTRCGMLAFTDDLLRAGLEGDAAAEKLIGQATGRAFVSAGKASASPAAFQAFRGPPEPLDAPRSDASTERIAADVRRGLSIILNHPWLPTAGPDAITVRGFIYDVDTGRLEEVSYPGPMGG NTDALLENNRLYAGGQATHRPGHPGMQPIQPSRRVAVVACMDARLDVEDLLGLQTGEAHIIRNAGGVINEDAIRCLIISHHLLNTHEIILVHHTRCGMLAFTDDLLRAGLEGDAAAEKLIGQATGRAFVSAGKASASPAAFQAFRGPPEPLDAPRSDASTERIAADVRRGLSIILNHPWLPTAGPDAITVRGFIYDVDTGRLEEVSYPGPMGG 3vqj-a1-m3-cA_3vqj-a1-m4-cA Crystal Structutre of Thiobacillus thioparus THI115 Carbonyl Sulfide Hydrolase H1AAP2 H1AAP2 1.2 X-RAY DIFFRACTION 91 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 213 213 3vqj-a1-m1-cA_3vqj-a1-m2-cA 3vrk-a1-m1-cA_3vrk-a1-m2-cA 3vrk-a1-m3-cA_3vrk-a1-m4-cA NTDALLENNRLYAGGQATHRPGHPGMQPIQPSRRVAVVACMDARLDVEDLLGLQTGEAHIIRNAGGVINEDAIRCLIISHHLLNTHEIILVHHTRCGMLAFTDDLLRAGLEGDAAAEKLIGQATGRAFVSAGKASASPAAFQAFRGPPEPLDAPRSDASTERIAADVRRGLSIILNHPWLPTAGPDAITVRGFIYDVDTGRLEEVSYPGPMGG NTDALLENNRLYAGGQATHRPGHPGMQPIQPSRRVAVVACMDARLDVEDLLGLQTGEAHIIRNAGGVINEDAIRCLIISHHLLNTHEIILVHHTRCGMLAFTDDLLRAGLEGDAAAEKLIGQATGRAFVSAGKASASPAAFQAFRGPPEPLDAPRSDASTERIAADVRRGLSIILNHPWLPTAGPDAITVRGFIYDVDTGRLEEVSYPGPMGG 3vqk-a1-m2-cC_3vqk-a1-m4-cC Small heat shock protein hsp14.0 of wild type Q970D9 Q970D9 4.5 X-RAY DIFFRACTION 44 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 107 107 3vqk-a1-m1-cA_3vqk-a1-m1-cB 3vqk-a1-m1-cA_3vqk-a1-m4-cD 3vqk-a1-m1-cB_3vqk-a1-m1-cE 3vqk-a1-m1-cC_3vqk-a1-m3-cC 3vqk-a1-m1-cC_3vqk-a1-m4-cC 3vqk-a1-m1-cD_3vqk-a1-m3-cA 3vqk-a1-m1-cD_3vqk-a1-m3-cE 3vqk-a1-m1-cE_3vqk-a1-m4-cD 3vqk-a1-m1-cF_3vqk-a1-m3-cF 3vqk-a1-m1-cF_3vqk-a1-m4-cF 3vqk-a1-m2-cA_3vqk-a1-m2-cB 3vqk-a1-m2-cA_3vqk-a1-m3-cD 3vqk-a1-m2-cB_3vqk-a1-m2-cE 3vqk-a1-m2-cC_3vqk-a1-m3-cC 3vqk-a1-m2-cD_3vqk-a1-m4-cA 3vqk-a1-m2-cD_3vqk-a1-m4-cE 3vqk-a1-m2-cE_3vqk-a1-m3-cD 3vqk-a1-m2-cF_3vqk-a1-m3-cF 3vqk-a1-m2-cF_3vqk-a1-m4-cF 3vqk-a1-m3-cA_3vqk-a1-m3-cB 3vqk-a1-m3-cB_3vqk-a1-m3-cE 3vqk-a1-m4-cA_3vqk-a1-m4-cB 3vqk-a1-m4-cB_3vqk-a1-m4-cE RGFYELVYPPVDMYEEGGYLVVVADLAGFNKEKIKARVSGQNELIIEAEREITEPGVKYLTQRPKYVRKVIRLPYNVAKDAEISGKYENGVLTIRIPIAGTSVIKIE RGFYELVYPPVDMYEEGGYLVVVADLAGFNKEKIKARVSGQNELIIEAEREITEPGVKYLTQRPKYVRKVIRLPYNVAKDAEISGKYENGVLTIRIPIAGTSVIKIE 3vqk-a1-m4-cB_3vqk-a1-m4-cD Small heat shock protein hsp14.0 of wild type Q970D9 Q970D9 4.5 X-RAY DIFFRACTION 107 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 107 107 3aac-a1-m1-cB_3aac-a1-m1-cA 3vqk-a1-m1-cA_3vqk-a1-m1-cC 3vqk-a1-m1-cB_3vqk-a1-m1-cD 3vqk-a1-m1-cE_3vqk-a1-m1-cF 3vqk-a1-m2-cA_3vqk-a1-m2-cC 3vqk-a1-m2-cB_3vqk-a1-m2-cD 3vqk-a1-m2-cE_3vqk-a1-m2-cF 3vqk-a1-m3-cA_3vqk-a1-m3-cC 3vqk-a1-m3-cB_3vqk-a1-m3-cD 3vqk-a1-m3-cE_3vqk-a1-m3-cF 3vqk-a1-m4-cA_3vqk-a1-m4-cC 3vqk-a1-m4-cE_3vqk-a1-m4-cF 3vql-a1-m1-cA_3vql-a1-m1-cB 3vqm-a1-m1-cB_3vqm-a1-m1-cA 3vqm-a2-m1-cC_3vqm-a2-m1-cD 3vqm-a3-m1-cF_3vqm-a3-m1-cE 3vqm-a4-m1-cH_3vqm-a4-m1-cG 3vqm-a5-m1-cI_3vqm-a5-m1-cJ 3vqm-a6-m1-cL_3vqm-a6-m1-cK 3vqm-a7-m1-cN_3vqm-a7-m1-cM RGFYELVYPPVDMYEEGGYLVVVADLAGFNKEKIKARVSGQNELIIEAEREITEPGVKYLTQRPKYVRKVIRLPYNVAKDAEISGKYENGVLTIRIPIAGTSVIKIE RGFYELVYPPVDMYEEGGYLVVVADLAGFNKEKIKARVSGQNELIIEAEREITEPGVKYLTQRPKYVRKVIRLPYNVAKDAEISGKYENGVLTIRIPIAGTSVIKIE 3vqt-a6-m1-cC_3vqt-a6-m1-cD Crystal structure analysis of the translation factor RF3 B8DIL5 B8DIL5 1.8 X-RAY DIFFRACTION 50 0.992 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 491 494 3vqt-a5-m1-cB_3vqt-a5-m1-cA SSRLEREAARRRTFAIISHPDAGKTTLTEKLLLFGGAIQMAGSVKAVTTSVMQFPYRDRVVNLLDTPGHQDFSEDTYRVLTAVDSALVVIDAAKGVEAQTRKLMDVCRMRATPVMTFVNKMDREALHPLDVMADIEQHLQIECAPMTWPIGMGSSFKGTYDLLHKQLHLFIQSGIVIHGADDPQLDEYLGDQAEQLRMDLALLEEAGTPFDEERYLKGELTPVFFGSAINNFGVREMLDMFVEFAPGPQPRPAATRVVEPGEEAFTGVVFKIQRMAFLRICSGTFTRGMRLKHHRTGKDVTVANATIFMAQDRTGVEEAFPGDIIGIPNHGTIKIGDTFTESKEVLKFVGIPNFAPEHFRRVRLKNPLKAKQLQKGLEQLAEEGAVQLFRPLVNNDYILGAVGVLQFDVIVARLADEYGVDAVYEGVSTHTARWVYCEDKKIFADFQDYHRGELAVDAEGALAYLAPNPWRLESAMERYPKVEFRTTREIS SSRLEREAARRRTFAIISHPDAGKTTLTEKLLLFGGAIQMAGSVTTSVMQFPYRDRVVNLLDTPGHQDFSEDTYRVLTAVDSALVVIDAAKGVEAQTRKLMDVCRMRATPVMTFVNKMDREALHPLDVMADIEQHLQIECAPMTWPIGMGSSFKGTYDLLHKQLHLFSRIQSGIVIHGADDPQLDEYLGDQAEQLRMDLALLEEAGTPFDEERYLKGELTPVFFGSAINNFGVREMLDMFVEFAPGPQPRPAATRVVEPGEEAFTGVVFKIQANHRDRMAFLRICSGTFTRGMRLKHHRTGKDVTVANATIFMAQDRTGVEEAFPGDIIGIPNHGTIKIGDTFTESKEVLKFVGIPNFAPEHFRRVRLKNPLKAKQLQKGLEQLAEEGAVQLFRPLVNNDYILGAVGVLQFDVIVARLADEYGVDAVYEGVSTHTARWVYCEDKKIFADFQDYHRGELAVDAEGALAYLAPNPWRLESAMERYPKVEFRTTREI 3vr0-a1-m1-cA_3vr0-a1-m1-cB Crystal structure of Pyrococcus furiosus PbaB, an archaeal proteasome activator Q8U1R3 Q8U1R3 2.2 X-RAY DIFFRACTION 88 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 244 244 3vr0-a1-m1-cA_3vr0-a1-m1-cD 3vr0-a1-m1-cB_3vr0-a1-m1-cC 3vr0-a1-m1-cC_3vr0-a1-m1-cD MKETTIVVYERPDIYDPIFIEGLPGIGLVGKLAAEHLIQELKAKKFAELYSPHFMHQVLIRKNSVVELMKNEFYYWKSPDDEHRDLIIVTGDTQVPPTDSYGHFEVAGKMLDFVQEFGTREIITMGGYQVPEIQGEPRVLAAVTHEDLIEYYKSKLEGCSVEVIWREDEGGAIVGAAGLLLGIGKLRGMFGISLLGESLGYIVDAKAAKAVLSAVTKILGLEIDMTALDERAKETEEILRKVEE MKETTIVVYERPDIYDPIFIEGLPGIGLVGKLAAEHLIQELKAKKFAELYSPHFMHQVLIRKNSVVELMKNEFYYWKSPDDEHRDLIIVTGDTQVPPTDSYGHFEVAGKMLDFVQEFGTREIITMGGYQVPEIQGEPRVLAAVTHEDLIEYYKSKLEGCSVEVIWREDEGGAIVGAAGLLLGIGKLRGMFGISLLGESLGYIVDAKAAKAVLSAVTKILGLEIDMTALDERAKETEEILRKVEE 3vr1-a6-m1-cC_3vr1-a6-m1-cD Crystal structure analysis of the translation factor RF3 B8DIL5 B8DIL5 3 X-RAY DIFFRACTION 74 1.0 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 883 (Desulfovibrio vulgaris str. 'Miyazaki F') 516 516 3vr1-a5-m1-cA_3vr1-a5-m1-cB MSSRLEREAARRRTFAIISHPDAGKTTLTEKLLLFGGAIQMAGSVKARKAARHATSDWMAMERERGISVTTSVMQFPYRDRVVNLLDTPGHQDFSEDTYRVLTAVDSALVVIDAAKGVEAQTRKLMDVCRMRATPVMTFVNKMDREALHPLDVMADIEQHLQIECAPMTWPIGMGSSFKGTYDLLHKQLHLFSAIQSGIVIHGADDPQLDEYLGDQAEQLRMDLALLEEAGTPFDEERYLKGELTPVFFGSAINNFGVREMLDMFVEFAPGPQPRPAATRVVEPGEEAFTGVVFKIQARMAFLRICSGTFTRGMRLKHHRTGKDVTVANATIFMAQDRTGVEEAFPGDIIGIPNHGTIKIGDTFTESKEVLKFVGIPNFAPEHFRRVRLKNPLKAKQLQKGLEQLAEEGAVQLFRPLVNNDYILGAVGVLQFDVIVARLADEYGVDAVYEGVSTHTARWVYCEDKKIFADFQDYHRGELAVDAEGALAYLAPNPWRLESAMERYPKVEFRTTREIS MSSRLEREAARRRTFAIISHPDAGKTTLTEKLLLFGGAIQMAGSVKARKAARHATSDWMAMERERGISVTTSVMQFPYRDRVVNLLDTPGHQDFSEDTYRVLTAVDSALVVIDAAKGVEAQTRKLMDVCRMRATPVMTFVNKMDREALHPLDVMADIEQHLQIECAPMTWPIGMGSSFKGTYDLLHKQLHLFSAIQSGIVIHGADDPQLDEYLGDQAEQLRMDLALLEEAGTPFDEERYLKGELTPVFFGSAINNFGVREMLDMFVEFAPGPQPRPAATRVVEPGEEAFTGVVFKIQARMAFLRICSGTFTRGMRLKHHRTGKDVTVANATIFMAQDRTGVEEAFPGDIIGIPNHGTIKIGDTFTESKEVLKFVGIPNFAPEHFRRVRLKNPLKAKQLQKGLEQLAEEGAVQLFRPLVNNDYILGAVGVLQFDVIVARLADEYGVDAVYEGVSTHTARWVYCEDKKIFADFQDYHRGELAVDAEGALAYLAPNPWRLESAMERYPKVEFRTTREIS 3vrc-a1-m1-cA_3vrc-a1-m1-cB Crystal structure of cytochrome c' from Thermochromatium tepidum C7G528 C7G528 1 X-RAY DIFFRACTION 63 1.0 1050 (Thermochromatium tepidum) 1050 (Thermochromatium tepidum) 130 131 DLSPEEQIETRQAGYAFMAWNMGKIKANLEGEYNADQVRAAANVVAAIANSGMGALYGPGTDKNVGAVKTRAKPELFQNLEDVGKLARDLGTAANALAAAAATGEANAVKSAFADVGAACKACHQKYRAD ADLSPEEQIETRQAGYAFMAWNMGKIKANLEGEYNADQVRAAANVVAAIANSGMGALYGPGTDKNVGAVKTRAKPELFQNLEDVGKLARDLGTAANALAAAAATGEANAVKSAFADVGAACKACHQKYRAD 3vrf-a1-m1-cA_3vrf-a1-m2-cA The crystal structure of hemoglobin from woolly mammoth in the carbonmonoxy forms D3U1H8 D3U1H8 1.55 X-RAY DIFFRACTION 12 1.0 37349 (Mammuthus primigenius) 37349 (Mammuthus primigenius) 141 141 VLSDNDKTNVKATWSKVGDHASDYVAEALERMFFSFPTTKTYFPHFDLSHGSGQVKGHGKKVGEALTQAVGHLDDLPSALSALSDLHAHKLRVDPVNFKLLSHCLLVTLSSHQPTEFTPEVHASLDKFLSNVSTVLTSKYR VLSDNDKTNVKATWSKVGDHASDYVAEALERMFFSFPTTKTYFPHFDLSHGSGQVKGHGKKVGEALTQAVGHLDDLPSALSALSDLHAHKLRVDPVNFKLLSHCLLVTLSSHQPTEFTPEVHASLDKFLSNVSTVLTSKYR 3vrl-a3-m1-cC_3vrl-a3-m1-cD Crystal structure of BMJ4 p24 capsid protein in complex with A10F9 Fab Q9DGV7 Q9DGV7 3.2 X-RAY DIFFRACTION 30 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 73 73 SILDIKQGPKESFRDYVDRFFKTLRAEQCTQDVKNWMTDTLLVQNANPDCKTILRALGPGATLEEMMTACQGV SILDIKQGPKESFRDYVDRFFKTLRAEQCTQDVKNWMTDTLLVQNANPDCKTILRALGPGATLEEMMTACQGV 3vrq-a3-m1-cB_3vrq-a3-m1-cA Crystal structure of the tyrosine kinase binding domain of Cbl-c (PL mutant) Q9ULV8 Q9ULV8 2.39 X-RAY DIFFRACTION 38 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 275 278 WEEARALGRAVRMLQRLEEQCVSPPSLRDLLPRTAQLLREVAHSRRAPGGPGGSGDFLLIYLANLEAKSRQVAALRLRRQLAKLAIIFSHMHAELHALFPGGKYCGHMYQLTKAPAHTFWRESCGARCVLPWAEFESLLGTCHPTALALRTTIDLTCSGHVSIFEFDVFTRLFQPWPTLLKNWQLLAVNHPGYMAFLTYDEVQERLQACRDKPGSYIFRLSCTRLGQWAIGYVSSDGSILQTIPANKPLSQVLLEGQKDGFYLYPDGKTHNPDLT QWEEARALGRAVRMLQRLEEQCPPSLRDLLPRTAQLLREVAHSRPGGPGGSGDFLLIYLANLEAKSRQVAALSRLRRQLAKLAIIFSHMHAELHALFPGGKYCGHMYQLTKAPAHTFWRESCGARCVLPWAEFESLLGTCHPVEPGCTALALRTTIDLTCSGHVSIFEFDVFTRLFQPWPTLLKNWQLLAVNHPGYMAFLTYDEVQERLQACRDKPGSYIFRLSCTRLGQWAIGYVSSDGSILQTIPANKPLSQVLLEGQKDGFYLYPDGKTHNPDLT 3vs8-a1-m1-cC_3vs8-a1-m1-cA Crystal structure of type III PKS ArsC C1DM33 C1DM33 1.76 X-RAY DIFFRACTION 229 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 402 404 3vs8-a2-m1-cH_3vs8-a2-m1-cB 3vs8-a3-m1-cD_3vs8-a3-m1-cE 3vs8-a4-m1-cG_3vs8-a4-m1-cF 3vs9-a1-m1-cC_3vs9-a1-m1-cA 3vs9-a2-m1-cH_3vs9-a2-m1-cB 3vs9-a3-m1-cE_3vs9-a3-m1-cD 3vs9-a4-m1-cG_3vs9-a4-m1-cF HPNSAVLADFIPVQLAKPVPQRITLELTAYGFARAHCLSNGITDEEGFVQVYKTVKEKFDKYAVSPAQIKQRQLVYFPKLTDIRDGNFDIADPEPDQAHLRLFDIKKDPRGADLKTRHESYAKVVGKGLEQMFEGTLEAPDDLIHVTCSGYLAPSPAERMVADRGWFETTVTHSYNMGCYGAFPAIKMAHGMLASAQWGATPPKTRVDIAHTELMSAHNNIAESRVDNIISATLFSDGLIKYSVYPEDELRRQGLRGLRILAMSEHLLPDSADTMTGVPGSHQFVMTLSPLVPAIIKRHVRAFAVDLLRRAGMDFERDKDALSFAIHPGGPKIVDHVQEELGLAEDQVAISKSVFLENGNMSSSTIPHILKAYLEEATVGTRIACLGFGPGLTAAGLVLEKI HPNSAVLADFIPVQLAKPVPQRITLELTAYGFARAHCLSNGITDEEGFVQVYKTVKEKFDKYAVSPAQIKQRQLVYFPKLTDIRFGDGNFDIADPEPDQAHLRLFDIKKDPRGADLKTRHESYAKVVGKGLEQMFEGTLEAPDDLIHVTCSGYLAPSPAERMVADRGWFETTVTHSYNMGCYGAFPAIKMAHGMLASAQWGATPPKTRVDIAHTELMSAHNNIAESRVDNIISATLFSDGLIKYSVYPEDELRRQGLRGLRILAMSEHLLPDSADTMTGVPGSHQFVMTLSPLVPAIIKRHVRAFAVDLLRRAGMDFERDKDALSFAIHPGGPKIVDHVQEELGLAEDQVAISKSVFLENGNMSSSTIPHILKAYLEEATVGTRIACLGFGPGLTAAGLVLEKI 3vsj-a1-m1-cD_3vsj-a1-m1-cB Crystal structure of 1,6-APD (2-ANIMOPHENOL-1,6-DIOXYGENASE) complexed with intermediate products Q6J1Z6 Q6J1Z6 2.3 X-RAY DIFFRACTION 56 1.0 543891 (Comamonas testosteroni CNB-1) 543891 (Comamonas testosteroni CNB-1) 299 303 3vsg-a1-m1-cD_3vsg-a1-m1-cB 3vsh-a1-m1-cB_3vsh-a1-m1-cD 3vsi-a1-m1-cD_3vsi-a1-m1-cB MQGEIIAGFLAPHPPHLVYGENPPQNEPRSQGGWEVLRWAYERARERLDAMKPDVLLVHSPHWITSVGHHFLGVPELSGKSVDPIFPNVFRYDFSLNVDVELAEACAEEGRKAGLVTKMMRNPKFRVDYGTITTLHLIRPQWDIPVVGISANNSPYYLNTKEGMSEMDVLGKATREAIRKTGRKAVLLASNTLSHWHFHEEPTIPEDMSKEYPATMAGYQWDIRMIELMRQGKTSEVFKLLPQFIDEAFAEVKSGAFTWMHAAMQYPELAAELFGYGTVIGTGNAVMEWDLRKAGLSML MQGEIIAGFLAPHPPHLVYGENPPQNEPRSQGGWEVLRWAYERARERLDAMKPDVLLVHSPHWITSVGHHFLGVPELSGKSVDPIFPNVFRYDFSLNVDVELAEACAEEGRKAGLVTKMMRNPKFRVDYGTITTLHLIRPQWDIPVVGISANNSPYYLNTKEGMSEMDVLGKATREAIRKTGRKAVLLASNTLSHWHFHEEPTIPEDMSKEYPATMAGYQWDIRMIELMRQGKTSEVFKLLPQFIDEAFAEVKSGAFTWMHAAMQYPELAAELFGYGTVIGTGNAVMEWDLRKAGLSMLGAAD 3vsk-a1-m1-cA_3vsk-a1-m1-cB Crystal structure of penicillin-binding protein 3 (PBP3) from methicilin-resistant Staphylococcus aureus in the apo form. A0A0H3K0B9 A0A0H3K0B9 2.301 X-RAY DIFFRACTION 110 0.998 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 631 631 3vsl-a1-m1-cA_3vsl-a1-m1-cB AQGSHYKQIIKNDENITVNESVPRGRILDRNGKVLVDNASKMAITYTRGRKTTQSEMLDTAEKLSKLIKMDTKKITERDKKDFWIQLHPKKAKAMMTKEQAMLADGSIKQDQYDKQLLSKIRKSQLDELSSKDLQVLAIFREMNAGTVLDPQMIKNEDVSEKEYAAVSQQLSKLPGVNTSMDWDRKYPYGDTLRGIFGDVSTPAEGIPKELTEHYLSKGYSRNDRVGKSYLEYQYEDVLRGKKKEMKYTTDKSGKVTSSEVLNPGARGQDLKLTIDIDLQKEVEALLDKQIKKLRSQGAKDMDNAMMVVQNPKNGDILALAGKQINKSGKMTDYDIGTFTSQFAVGSSVKGGTLLAGYQNKAIKVGETMVDEPLHFQGGLTKRSYFNKNGHVSINDKQALMHSSNVYMFKTALKLAGDPYYSGMALPSDISSPAQKLRRGLNQVGLGVKTGIDLPNETRGQIEPLTNNPGNYLDLSIGQYDTYTPLQLSQYVSTIANDGYRIQPHIGLTIHESTNKDEVGPLKKKINGTVLNKVNNTEKEIKQIQEGFKMAFNDKDGTGYVSFKDTVVPTAGKTGTAEVFQEPRVNSTYIGYAPIDDPKLAFSIVYTNQPVPPPWLTGGDLGRDVINYYFK AQGSHYKQIIKNDENITVNESVPRGRILDRNGKVLVDNASKMAITYTRGRKTTQSEMLDTAEKLSKLIKMDTKKITERDKKDFWIQLHPKKAKAMMTKEQAMLADGSIKQDQYDKQLLSKIRKSQLDELSSKDLQVLAIFREMNAGTVLDPQMIKNEDVSEKEYAAVSQQLSKLPGVNTSMDWDRKYPYGDTLRGIFGDVSTPAEGIPKELTEHYLSKGYSRNDRVGKSYLEYQYEDVLRGKKKEMKYTTDKSGKVTSSEVLNPGARGQDLKLTIDIDLQKEVEALLDKQIKKLRSQGAKDMDNAMMVVQNPKNGDILALAGKQINKSGKMTDYDIGTFTSQFAVGSSVKGGTLLAGYQNKAIKVGETMVDEPLHFQGGLTKRSYFNKNGHVSINDKQALMHSSNVYMFKTALKLAGDPYYSGMALPSDISSPAQKLRRGLNQVGLGVKTGIDLPNETRGQIEPLTNNPGNYLDLSIGQYDTYTPLQLSQYVSTIANDGYRIQPHIGLTIHESTNKDEVGPLKKKINGTVLNKVNNTEKEIKQIQEGFKMAFNDKDTGYVSFKDTVVPTAGKTGTAEVFQNEPRVNSTYIGYAPIDDPKLAFSIVYTNQPVPPPWLTGGDLGRDVINYYFK 3vsv-a1-m1-cA_3vsv-a1-m1-cD The complex structure of XylC with xylose A2ICH1 A2ICH1 1.48 X-RAY DIFFRACTION 95 1.0 638 638 3vst-a1-m1-cA_3vst-a1-m1-cD 3vst-a1-m1-cB_3vst-a1-m1-cC 3vsu-a1-m1-cA_3vsu-a1-m1-cD 3vsu-a1-m1-cB_3vsu-a1-m1-cC 3vsv-a1-m1-cB_3vsv-a1-m1-cC MEYHVAKTGSDEGKGTLKDPFLTINKAASVAMAGDTIIVHEGVYREWVKPKYKGLSDKRRITYKAAEGEKVVIKGSERIQSWQRVEGNVWRCQLPNSFFGEFNPYKEEVFGDWLLTVNEKKHLGDVYLNGMSFYEVTNYEDLFNPQLRTEVLDHWTQKIVPIKNAEQTKYVWYAEVDREKTTIYANFQGADPNEEFVEINVRRSCFYPVETGIDYITVKGFEMAHAATPWAPPTADQPGLIGPNWSKGWIIEDNIIHDAKCSAISIGKEATTGNNYRSIRKDKPGYQYQLEAVFNAKRNGWSKEKIGSHIIRNNTIYDCGQNAIVGHLGGVFSEIYNNHIYNIALKREFYGHEIAGIKLHAAIDVQIHHNRIHDCSLGLWLDWEAQGTRVSKNLFYNNNRDVFVEVSHGPYLVDHNILSSEYAIDNMSQGGAYINNLIAGKMNQRKVLNRSTQYHLPHSTEVAGFAFVYGGDDRFYNNIFIGKEGLENVGTSHYNNCTTSLEEYIEKVNEVPGDLGEFERVEQPVYINKNAYFNGAEPFEKEKDNLVKKDFDPKLAIIDEGDEVYLSLQLPDEFENIVGDIHSTKTLERVRIVDAEYESPDGKELVLDTDYLDAKKPENSSIGPIALLKKGNNYIKVW MEYHVAKTGSDEGKGTLKDPFLTINKAASVAMAGDTIIVHEGVYREWVKPKYKGLSDKRRITYKAAEGEKVVIKGSERIQSWQRVEGNVWRCQLPNSFFGEFNPYKEEVFGDWLLTVNEKKHLGDVYLNGMSFYEVTNYEDLFNPQLRTEVLDHWTQKIVPIKNAEQTKYVWYAEVDREKTTIYANFQGADPNEEFVEINVRRSCFYPVETGIDYITVKGFEMAHAATPWAPPTADQPGLIGPNWSKGWIIEDNIIHDAKCSAISIGKEATTGNNYRSIRKDKPGYQYQLEAVFNAKRNGWSKEKIGSHIIRNNTIYDCGQNAIVGHLGGVFSEIYNNHIYNIALKREFYGHEIAGIKLHAAIDVQIHHNRIHDCSLGLWLDWEAQGTRVSKNLFYNNNRDVFVEVSHGPYLVDHNILSSEYAIDNMSQGGAYINNLIAGKMNQRKVLNRSTQYHLPHSTEVAGFAFVYGGDDRFYNNIFIGKEGLENVGTSHYNNCTTSLEEYIEKVNEVPGDLGEFERVEQPVYINKNAYFNGAEPFEKEKDNLVKKDFDPKLAIIDEGDEVYLSLQLPDEFENIVGDIHSTKTLERVRIVDAEYESPDGKELVLDTDYLDAKKPENSSIGPIALLKKGNNYIKVW 3vsv-a1-m1-cB_3vsv-a1-m1-cD The complex structure of XylC with xylose A2ICH1 A2ICH1 1.48 X-RAY DIFFRACTION 47 1.0 638 638 3vst-a1-m1-cA_3vst-a1-m1-cC 3vst-a1-m1-cB_3vst-a1-m1-cD 3vsu-a1-m1-cA_3vsu-a1-m1-cC 3vsu-a1-m1-cB_3vsu-a1-m1-cD 3vsv-a1-m1-cA_3vsv-a1-m1-cC MEYHVAKTGSDEGKGTLKDPFLTINKAASVAMAGDTIIVHEGVYREWVKPKYKGLSDKRRITYKAAEGEKVVIKGSERIQSWQRVEGNVWRCQLPNSFFGEFNPYKEEVFGDWLLTVNEKKHLGDVYLNGMSFYEVTNYEDLFNPQLRTEVLDHWTQKIVPIKNAEQTKYVWYAEVDREKTTIYANFQGADPNEEFVEINVRRSCFYPVETGIDYITVKGFEMAHAATPWAPPTADQPGLIGPNWSKGWIIEDNIIHDAKCSAISIGKEATTGNNYRSIRKDKPGYQYQLEAVFNAKRNGWSKEKIGSHIIRNNTIYDCGQNAIVGHLGGVFSEIYNNHIYNIALKREFYGHEIAGIKLHAAIDVQIHHNRIHDCSLGLWLDWEAQGTRVSKNLFYNNNRDVFVEVSHGPYLVDHNILSSEYAIDNMSQGGAYINNLIAGKMNQRKVLNRSTQYHLPHSTEVAGFAFVYGGDDRFYNNIFIGKEGLENVGTSHYNNCTTSLEEYIEKVNEVPGDLGEFERVEQPVYINKNAYFNGAEPFEKEKDNLVKKDFDPKLAIIDEGDEVYLSLQLPDEFENIVGDIHSTKTLERVRIVDAEYESPDGKELVLDTDYLDAKKPENSSIGPIALLKKGNNYIKVW MEYHVAKTGSDEGKGTLKDPFLTINKAASVAMAGDTIIVHEGVYREWVKPKYKGLSDKRRITYKAAEGEKVVIKGSERIQSWQRVEGNVWRCQLPNSFFGEFNPYKEEVFGDWLLTVNEKKHLGDVYLNGMSFYEVTNYEDLFNPQLRTEVLDHWTQKIVPIKNAEQTKYVWYAEVDREKTTIYANFQGADPNEEFVEINVRRSCFYPVETGIDYITVKGFEMAHAATPWAPPTADQPGLIGPNWSKGWIIEDNIIHDAKCSAISIGKEATTGNNYRSIRKDKPGYQYQLEAVFNAKRNGWSKEKIGSHIIRNNTIYDCGQNAIVGHLGGVFSEIYNNHIYNIALKREFYGHEIAGIKLHAAIDVQIHHNRIHDCSLGLWLDWEAQGTRVSKNLFYNNNRDVFVEVSHGPYLVDHNILSSEYAIDNMSQGGAYINNLIAGKMNQRKVLNRSTQYHLPHSTEVAGFAFVYGGDDRFYNNIFIGKEGLENVGTSHYNNCTTSLEEYIEKVNEVPGDLGEFERVEQPVYINKNAYFNGAEPFEKEKDNLVKKDFDPKLAIIDEGDEVYLSLQLPDEFENIVGDIHSTKTLERVRIVDAEYESPDGKELVLDTDYLDAKKPENSSIGPIALLKKGNNYIKVW 3vsv-a1-m1-cC_3vsv-a1-m1-cD The complex structure of XylC with xylose A2ICH1 A2ICH1 1.48 X-RAY DIFFRACTION 28 1.0 638 638 3vst-a1-m1-cA_3vst-a1-m1-cB 3vst-a1-m1-cC_3vst-a1-m1-cD 3vsu-a1-m1-cA_3vsu-a1-m1-cB 3vsu-a1-m1-cC_3vsu-a1-m1-cD 3vsv-a1-m1-cA_3vsv-a1-m1-cB MEYHVAKTGSDEGKGTLKDPFLTINKAASVAMAGDTIIVHEGVYREWVKPKYKGLSDKRRITYKAAEGEKVVIKGSERIQSWQRVEGNVWRCQLPNSFFGEFNPYKEEVFGDWLLTVNEKKHLGDVYLNGMSFYEVTNYEDLFNPQLRTEVLDHWTQKIVPIKNAEQTKYVWYAEVDREKTTIYANFQGADPNEEFVEINVRRSCFYPVETGIDYITVKGFEMAHAATPWAPPTADQPGLIGPNWSKGWIIEDNIIHDAKCSAISIGKEATTGNNYRSIRKDKPGYQYQLEAVFNAKRNGWSKEKIGSHIIRNNTIYDCGQNAIVGHLGGVFSEIYNNHIYNIALKREFYGHEIAGIKLHAAIDVQIHHNRIHDCSLGLWLDWEAQGTRVSKNLFYNNNRDVFVEVSHGPYLVDHNILSSEYAIDNMSQGGAYINNLIAGKMNQRKVLNRSTQYHLPHSTEVAGFAFVYGGDDRFYNNIFIGKEGLENVGTSHYNNCTTSLEEYIEKVNEVPGDLGEFERVEQPVYINKNAYFNGAEPFEKEKDNLVKKDFDPKLAIIDEGDEVYLSLQLPDEFENIVGDIHSTKTLERVRIVDAEYESPDGKELVLDTDYLDAKKPENSSIGPIALLKKGNNYIKVW MEYHVAKTGSDEGKGTLKDPFLTINKAASVAMAGDTIIVHEGVYREWVKPKYKGLSDKRRITYKAAEGEKVVIKGSERIQSWQRVEGNVWRCQLPNSFFGEFNPYKEEVFGDWLLTVNEKKHLGDVYLNGMSFYEVTNYEDLFNPQLRTEVLDHWTQKIVPIKNAEQTKYVWYAEVDREKTTIYANFQGADPNEEFVEINVRRSCFYPVETGIDYITVKGFEMAHAATPWAPPTADQPGLIGPNWSKGWIIEDNIIHDAKCSAISIGKEATTGNNYRSIRKDKPGYQYQLEAVFNAKRNGWSKEKIGSHIIRNNTIYDCGQNAIVGHLGGVFSEIYNNHIYNIALKREFYGHEIAGIKLHAAIDVQIHHNRIHDCSLGLWLDWEAQGTRVSKNLFYNNNRDVFVEVSHGPYLVDHNILSSEYAIDNMSQGGAYINNLIAGKMNQRKVLNRSTQYHLPHSTEVAGFAFVYGGDDRFYNNIFIGKEGLENVGTSHYNNCTTSLEEYIEKVNEVPGDLGEFERVEQPVYINKNAYFNGAEPFEKEKDNLVKKDFDPKLAIIDEGDEVYLSLQLPDEFENIVGDIHSTKTLERVRIVDAEYESPDGKELVLDTDYLDAKKPENSSIGPIALLKKGNNYIKVW 3vtf-a1-m1-cA_3vtf-a1-m2-cA Structure of a UDP-glucose dehydrogenase from the hyperthermophilic archaeon Pyrobaculum islandicum A1RUM9 A1RUM9 2 X-RAY DIFFRACTION 168 1.0 384616 (Pyrobaculum islandicum DSM 4184) 384616 (Pyrobaculum islandicum DSM 4184) 432 432 GLVPRGSHMASLSVLGLGYVGVVHAVGFALLGHRVVGYDVNPSIVERLRAGRPHIYEPGLEEALGRALSSGRLSFAESAEEAVAATDATFIAVGTPPAPDGSADLRYVEAAARAVGRGIRAKGRWHLVVVKSTVPPGTTEGLVARAVAEEAGGVKFSVASNPEFLREGSALEDFFKPDRIVIGAGDERAASFLLDVYKAVDAPKLVMKPREAELVKYASNVFLALKISFANEVGLLAKRLGVDTYRVFEAVGLDKRIGRHYFGAGLGFGGSCFPKDTLAFIRFGESLGLEMAISKAVLRVNEYMPRYAVQLLEERLGGLRGRHVGVLGLAFKPNTDDVRESRGVEVARLLLERGARVYVHDPMAMEKARAVLGDSVTYVEDPQALLDQVEGVIIATAWPQYEGLDYRGKVVVDGRYVKKAREAKIYEGVAWA GLVPRGSHMASLSVLGLGYVGVVHAVGFALLGHRVVGYDVNPSIVERLRAGRPHIYEPGLEEALGRALSSGRLSFAESAEEAVAATDATFIAVGTPPAPDGSADLRYVEAAARAVGRGIRAKGRWHLVVVKSTVPPGTTEGLVARAVAEEAGGVKFSVASNPEFLREGSALEDFFKPDRIVIGAGDERAASFLLDVYKAVDAPKLVMKPREAELVKYASNVFLALKISFANEVGLLAKRLGVDTYRVFEAVGLDKRIGRHYFGAGLGFGGSCFPKDTLAFIRFGESLGLEMAISKAVLRVNEYMPRYAVQLLEERLGGLRGRHVGVLGLAFKPNTDDVRESRGVEVARLLLERGARVYVHDPMAMEKARAVLGDSVTYVEDPQALLDQVEGVIIATAWPQYEGLDYRGKVVVDGRYVKKAREAKIYEGVAWA 3vti-a1-m1-cC_3vti-a1-m1-cD Crystal structure of HypE-HypF complex Q8RDA7 Q8RDA7 2.56 X-RAY DIFFRACTION 188 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 305 305 GALIEEVFADAFDNEYIRAMEDAALLFGNITLTTDSFTVKPLFFPGGDIGKLAVCGTVNDASMRGAKPLFLTAAFIIEEGFPVEDLKKIVKSMAEAAKEAGVKIVAGDTKVVEKGSVDRIFINTSGIGVLYEGANVSIKNAKPGDIVLISGTIGDHGMAVMSAREELQFDTPIFSDVAPLNGLIEKLMTLGEAIKVLRDPTRGGVAEVLYEISKMSGVGIKIYEEKLPVKESVKSACEFMGIDFLHLANEGKVVVVVERDYAEKALEIMKSHEYGKDAEIIGEVNDSKLVTINTIYGTSRIVDRP GALIEEVFADAFDNEYIRAMEDAALLFGNITLTTDSFTVKPLFFPGGDIGKLAVCGTVNDASMRGAKPLFLTAAFIIEEGFPVEDLKKIVKSMAEAAKEAGVKIVAGDTKVVEKGSVDRIFINTSGIGVLYEGANVSIKNAKPGDIVLISGTIGDHGMAVMSAREELQFDTPIFSDVAPLNGLIEKLMTLGEAIKVLRDPTRGGVAEVLYEISKMSGVGIKIYEEKLPVKESVKSACEFMGIDFLHLANEGKVVVVVERDYAEKALEIMKSHEYGKDAEIIGEVNDSKLVTINTIYGTSRIVDRP 3vtn-a1-m2-cA_3vtn-a1-m3-cA The crystal structure of the C-terminal domain of Mu phage central spike - Pt derivative for MAD Q9T1V4 Q9T1V4 1.75 X-RAY DIFFRACTION 205 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 71 71 3vtn-a1-m1-cA_3vtn-a1-m2-cA 3vtn-a1-m1-cA_3vtn-a1-m3-cA 3vto-a1-m1-cA_3vto-a1-m1-cB 3vto-a1-m1-cA_3vto-a1-m1-cC 3vto-a1-m1-cC_3vto-a1-m1-cB 3vto-a2-m1-cP_3vto-a2-m1-cR 3vto-a2-m1-cR_3vto-a2-m1-cQ RIRLTKDGRCIITCKTVEVYADESMTVDTPRTTFTGDVEIQKGLGVKGKSQFDSNITAPDAIINGKSTDKH RIRLTKDGRCIITCKTVEVYADESMTVDTPRTTFTGDVEIQKGLGVKGKSQFDSNITAPDAIINGKSTDKH 3vts-a1-m1-cA_3vts-a1-m1-cB Crystal structure of a three finger toxin from snake venom B3EWH9 B3EWH9 2.426 X-RAY DIFFRACTION 35 1.0 8626 (Hemachatus haemachatus) 8626 (Hemachatus haemachatus) 61 61 LKCHNKLVPFLSKTCPEGKNLCYKMTLMKMPKIPIKRGCTDACPKSSLLVKVVCCNKDKCN LKCHNKLVPFLSKTCPEGKNLCYKMTLMKMPKIPIKRGCTDACPKSSLLVKVVCCNKDKCN 3vty-a5-m1-cD_3vty-a5-m1-cC Crystal structure of MamA K7N5L8 K7N5L8 2 X-RAY DIFFRACTION 45 1.0 29290 (Candidatus Magnetobacterium bavaricum) 29290 (Candidatus Magnetobacterium bavaricum) 171 178 3vtx-a3-m1-cA_3vtx-a3-m2-cB 3vty-a5-m1-cA_3vty-a5-m1-cB IYMDIGDKKRTKGDFDGAIRAYKKVLKADPNNVETLLKLGKTYMDIGLPNDAIESLKKFVVLDTTSAEAYYILGSANFMIDEKQAAIDALQRAIALNTVYADAYYKLGLVYDSMGEHDKAIEAYEKTISIKPGFIRAYQSIGLAYEGKGLRDEAVKYFKKALEKEEKKAKY ETTTIYMDIGDKKRTKGDFDGAIRAYKKVLKADPNNVETLLKLGKTYMDIGLPNDAIESLKKFVVLDTTSAEAYYILGSANFMIDEKQAAIDALQRAIALNTVYADAYYKLGLVYDSMGEHDKAIEAYEKTISIKPGFIRAYQSIGLAYEGKGLRDEAVKYFKKALEKEEKKAKYELA 3vty-a7-m1-cB_3vty-a7-m1-cC Crystal structure of MamA K7N5L8 K7N5L8 2 X-RAY DIFFRACTION 71 1.0 29290 (Candidatus Magnetobacterium bavaricum) 29290 (Candidatus Magnetobacterium bavaricum) 175 178 3vty-a5-m1-cB_3vty-a5-m1-cC 3vty-a5-m1-cD_3vty-a5-m1-cA 3vty-a6-m1-cD_3vty-a6-m1-cA ETTTIYMDIGDKKRTKGDFDGAIRAYKKVLKADPNNVETLLKLGKTYMDIGLPNDAIESLKKFVVLDTTSAEAYYILGSANFMIDEKQAAIDALQRAIALNTVYADAYYKLGLVYDSMGEHDKAIEAYEKTISIKPGFIRAYQSIGLAYEGKGLRDEAVKYFKKALEKEEKKAKY ETTTIYMDIGDKKRTKGDFDGAIRAYKKVLKADPNNVETLLKLGKTYMDIGLPNDAIESLKKFVVLDTTSAEAYYILGSANFMIDEKQAAIDALQRAIALNTVYADAYYKLGLVYDSMGEHDKAIEAYEKTISIKPGFIRAYQSIGLAYEGKGLRDEAVKYFKKALEKEEKKAKYELA 3vtz-a1-m1-cC_3vtz-a1-m1-cD Structure of Thermoplasma volcanium aldohexose dehydrogenase Q97CM7 Q97CM7 2.3 X-RAY DIFFRACTION 84 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 252 252 3vtz-a1-m1-cA_3vtz-a1-m1-cB EEFTDKVAIVTGGSSGIGLAVVDALVRYGAKVVSVSLDEVNVSDHFKIDVTNEEEVKEAVEKTTKKYGRIDILVNNAGIEQYSPLHLTPTEIWRRIIDVNVNGSYLMAKYTIPVMLAIGHGSIINIASVQSYAATKNAAAYVTSKHALLGLTRSVAIDYAPKIRCNAVCPGTIMTPMVIKAAKMEVGEDENAVERKIEEWGRQHPMGRIGRPEEVAEVVAFLASDRSSFITGACLTVDGGLLSKLPISTPNA EEFTDKVAIVTGGSSGIGLAVVDALVRYGAKVVSVSLDEVNVSDHFKIDVTNEEEVKEAVEKTTKKYGRIDILVNNAGIEQYSPLHLTPTEIWRRIIDVNVNGSYLMAKYTIPVMLAIGHGSIINIASVQSYAATKNAAAYVTSKHALLGLTRSVAIDYAPKIRCNAVCPGTIMTPMVIKAAKMEVGEDENAVERKIEEWGRQHPMGRIGRPEEVAEVVAFLASDRSSFITGACLTVDGGLLSKLPISTPNA 3vtz-a1-m1-cD_3vtz-a1-m1-cA Structure of Thermoplasma volcanium aldohexose dehydrogenase Q97CM7 Q97CM7 2.3 X-RAY DIFFRACTION 118 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 252 253 3vtz-a1-m1-cC_3vtz-a1-m1-cB EEFTDKVAIVTGGSSGIGLAVVDALVRYGAKVVSVSLDEVNVSDHFKIDVTNEEEVKEAVEKTTKKYGRIDILVNNAGIEQYSPLHLTPTEIWRRIIDVNVNGSYLMAKYTIPVMLAIGHGSIINIASVQSYAATKNAAAYVTSKHALLGLTRSVAIDYAPKIRCNAVCPGTIMTPMVIKAAKMEVGEDENAVERKIEEWGRQHPMGRIGRPEEVAEVVAFLASDRSSFITGACLTVDGGLLSKLPISTPNA EEFTDKVAIVTGGSSGIGLAVVDALVRYGAKVVSVSLDEDVNVSDHFKIDVTNEEEVKEAVEKTTKKYGRIDILVNNAGIEQYSPLHLTPTEIWRRIIDVNVNGSYLMAKYTIPVMLAIGHGSIINIASVQSYAATKNAAAYVTSKHALLGLTRSVAIDYAPKIRCNAVCPGTIMTPMVIKAAKMEVGEDENAVERKIEEWGRQHPMGRIGRPEEVAEVVAFLASDRSSFITGACLTVDGGLLSKLPISTPNA 3vtz-a1-m1-cD_3vtz-a1-m1-cB Structure of Thermoplasma volcanium aldohexose dehydrogenase Q97CM7 Q97CM7 2.3 X-RAY DIFFRACTION 130 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 252 253 3vtz-a1-m1-cC_3vtz-a1-m1-cA EEFTDKVAIVTGGSSGIGLAVVDALVRYGAKVVSVSLDEVNVSDHFKIDVTNEEEVKEAVEKTTKKYGRIDILVNNAGIEQYSPLHLTPTEIWRRIIDVNVNGSYLMAKYTIPVMLAIGHGSIINIASVQSYAATKNAAAYVTSKHALLGLTRSVAIDYAPKIRCNAVCPGTIMTPMVIKAAKMEVGEDENAVERKIEEWGRQHPMGRIGRPEEVAEVVAFLASDRSSFITGACLTVDGGLLSKLPISTPNA EEFTDKVAIVTGGSSGIGLAVVDALVRYGAKVVSVSLDEKVNVSDHFKIDVTNEEEVKEAVEKTTKKYGRIDILVNNAGIEQYSPLHLTPTEIWRRIIDVNVNGSYLMAKYTIPVMLAIGHGSIINIASVQSYAATKNAAAYVTSKHALLGLTRSVAIDYAPKIRCNAVCPGTIMTPMVIKAAKMEVGEDENAVERKIEEWGRQHPMGRIGRPEEVAEVVAFLASDRSSFITGACLTVDGGLLSKLPISTPNA 3vu1-a3-m1-cA_3vu1-a3-m1-cB Crystal structure of the C-terminal globular domain of oligosaccharyltransferase (PhAglB-L, O74088_PYRHO) from Pyrococcus horikoshii O74088 O74088 2.7 X-RAY DIFFRACTION 77 0.982 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 488 490 EIEVTGWEQALKWLRSNTSKYATATSWWDYGYWIESSLLGNRRRDRDHILALFLARDGNISEVDFESWELNYFIIYLNDWAKFNAISYLGGAITRKEYNGDENGRGRVTTILLTQAAGNVYVNPYARIVIKVIQQNKTRRIAVNIGQLECSPILSVAFPGNIKIKGSGRCSDGSPFPYVVYLTPSLGVLAYYKVATSNFVKLAFGIPTSSYSEFAEKLFSNFIPVYQYGSVIVYEFRPFAIYKIEDFINGTWREVGKLSPGKHTLRLYISAFGRDIKNATLYVYALNGTKIIKRIKVGEIKYMNHLEEYPIIVNVTLPTAQKYRFILAQKGPVGVLTGPVRVNGKITNPAYIMREGESGRLELKVGVDKEYTADLYLRATFIYLVRKGGKSNEDYDASFEPHMDTFFITKLKEGIKLRPGENEIVVNAEMPKNAISSYKEKLEKEHGDKLIIRGIRVEPVFIVEKEYTMIEVSASAPHHHHHHHHHHH TEIEVTGWEQALKWLRSNTSKYATATSWWDYGYWIESSLLGNRRASADGGHARDRDHILALFLARDGNISEVDFESWELNYFIIYLNDWAKFNAISYLGGAITRKEYNGDENGRGRVTTILLTQAAGNVYVNPYARIVIKVIQQNKTRRIAVNIGQLECSPILSVAFPGNIKIKGSGRCSDGSPFPYVVYLTPSLGVLAYYKVATSNFVKLAFGIPTSSYSEFAEKLFSNFIPVYQYGSVIVYEFRPFAIYKIEDFINGTWREVGKLSPGKHTLRLYISAFGRDIKNATLYVYALNGTKIIKRIKVGEIKYMNHLEEYPIIVNVTLPTAQKYRFILAQKGPVGVLTGPVRVNGKITNPAYIMREGESGRLELKVGVDKEYTADLYLRATFIYLVRKGGKSNEDYDASFEPHMDTFFITKLKEGIKLRPGENEIVVNAEMPKNAISSYKEKLEKEHGDKLIIRGIRVEPVFIVEKEYTMIEVSASAPHHSS 3vu4-a3-m1-cB_3vu4-a3-m1-cA Crystal structure of Kluyvelomyces marxianus Hsv2 J3QW34 J3QW34 2.6 X-RAY DIFFRACTION 21 1.0 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 301 319 SNPVTDYEFNQDQSCLILSTLKSFEIYNVHPVAHIMSQEMRHLSKVRMLHRTNYVAFVTGVKEVVHIWDDVKKQDVSRIKVDAPVKDLFLSREFIVVSYGDVISVFKFGNPWKRITDDIRFGGVCEFSNGLLVYSNEFNLGQIHITKLQKGVLIKAHTNPIKMVRLNRKSDMVATCSQDGTIIRVFKTEDGVLVREFRRGLDRADVVDMKWSTDGSKLAVVSDKWTLHVFEIFNDQSEWSLCNFKLSVDKHVRGCKIAWISESSLVVVWPHTRMIETFKVVFDDEMERWLIQMDQREQLMI SNPVTDYEFNQDQSCLILSTLKSFEIYNVHPVAHIMSQEMRHLSKVRMLHRTNYVAFVTGVKEVVHIWDDVKKQDVSRIKVDAPVKDLFLSREFIVVSYGDVISVFKFGNPWKRITDDIRFGGVCEFSNGLLVYSNEFNLGQIHITKLQSKGVLIKAHTNPIKMVRLNRKSDMVATCSQDGTIIRVFKTEDGVLVREFRRGLDRADVVDMKWSTDGSKLAVVSDKWTLHVFEIFNDQDNKRHALKGWINMKYFQSEWSLCNFKLSVDKHVRGCKIAWISESSLVVVWPHTRMIETFKVVFDDEMERWLIQMDQREQLMI 3vuq-a2-m1-cD_3vuq-a2-m1-cC Crystal structure of TTHA0167, a transcriptional regulator, TetR/AcrR family from Thermus thermophilus HB8 Q5SLX6 Q5SLX6 2.05 X-RAY DIFFRACTION 125 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 178 179 3vuq-a1-m1-cB_3vuq-a1-m1-cA VKDKKRAILEATLAVLRERGLSGLKMEEVARRAEVGKGTIYLYFRDKRDLLKALVEERTWAFYREVEEVVRRKAPFFVRLEEVLRRRLAWVQEWRGLWAAVAREAMDDPTPWLKGLHEHYLRLLEELLRSGQSEGAVRTGLSPRATAAVIAAMGCTPSLEVEAYLEHLMEVLRKGVEP GVKDKKRAILEATLAVLRERGLSGLKMEEVARRAEVGKGTIYLYFRDKRDLLKALVEERTWAFYREVEEVVRRKAPFFVRLEEVLRRRLAWVQEWRGLWAAVAREAMDDPTPWLKGLHEHYLRLLEELLRSGQSEGAVRTGLSPRATAAVIAAMGCTPSLEVEAYLEHLMEVLRKGVEP 3vur-a1-m1-cA_3vur-a1-m2-cA Crystal structure of Bombyx mori sigma-class glutathione transferase in complex with glutathionesulfonic acid Q5CCJ4 Q5CCJ4 1.365 X-RAY DIFFRACTION 63 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 203 203 3vpq-a1-m1-cA_3vpq-a1-m2-cA 3vpt-a1-m1-cA_3vpt-a1-m2-cA PNVKFYYFPVKALGESQRLLLAYGGQEFEDNRISSENWPEFKPKTPFGQMPVLEIDGKQYAQSTAICRYLGRKYGLAGANDEEAFEIDQNVEFLNDIRASAASVHYEKDEAVKAKKKAELEETKYPFFFEKLNEILTKNNGHIALGKLTWGDFVYAGMYDYLKAMLQKPDLEQKYPAFRKPIEAVLAIPKVKAYVDAAPRTEL PNVKFYYFPVKALGESQRLLLAYGGQEFEDNRISSENWPEFKPKTPFGQMPVLEIDGKQYAQSTAICRYLGRKYGLAGANDEEAFEIDQNVEFLNDIRASAASVHYEKDEAVKAKKKAELEETKYPFFFEKLNEILTKNNGHIALGKLTWGDFVYAGMYDYLKAMLQKPDLEQKYPAFRKPIEAVLAIPKVKAYVDAAPRTEL 3vv1-a1-m1-cB_3vv1-a1-m1-cA Crystal Structure of Caenorhabditis elegans galectin LEC-6 Q9N384 Q9N384 1.5 X-RAY DIFFRACTION 63 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 140 141 GISFRNEFFNPQTPVNIPVQGFSNGARLRLVLLPTSADSRFHINLRTPDDIVLHFNARFDEGAVVNNSTSGGGWQSEDRHANPFQQNKIYTLEFVSNGGIISIFVNGAHFADFVERTPSHGVHLIEIEGGVHVHSAHVSH IGISFRNEFFNPQTPVNIPVQGFSNGARLRLVLLPTSADSRFHINLRTPDDIVLHFNARFDEGAVVNNSTSGGGWQSEDRHANPFQQNKIYTLEFVSNGGIISIFVNGAHFADFVERTPSHGVHLIEIEGGVHVHSAHVSH 3vv3-a1-m1-cA_3vv3-a1-m1-cB Crystal structure of deseasin MCP-01 from Pseudoalteromonas sp. SM9913 1.76 X-RAY DIFFRACTION 79 1.0 234831 (Pseudoalteromonas sp. SM9913) 234831 (Pseudoalteromonas sp. SM9913) 329 329 SATNDPRFDDLWGLNNEGQTGGTADADIDAPEAWSISTGSRDVVVGVIDTGVDYSHPDLAANAWVNSGEIAGDGIDNDGNGYIDDVHGINAITDVGDPMDDEGHGTHVSGTIGASGNNGVGVVGVNHDVSIVGCKFLAADGTGSTSGAIKCIDYMVGLKNAGVNLRVLNNSWGGGGFSQALADAITASEQADILFVAAAGNDAVDNDQNPHYPSNYENDNVLSIASTDSRDNMSSFSQWGLTSVDMGAPGSGILSTVPGNSYATYSGTSMATPHVAGAAALVLSVNPDLTTLELKELLMSSGDANAALNGKTVAGTRLNVNQALIDADP SATNDPRFDDLWGLNNEGQTGGTADADIDAPEAWSISTGSRDVVVGVIDTGVDYSHPDLAANAWVNSGEIAGDGIDNDGNGYIDDVHGINAITDVGDPMDDEGHGTHVSGTIGASGNNGVGVVGVNHDVSIVGCKFLAADGTGSTSGAIKCIDYMVGLKNAGVNLRVLNNSWGGGGFSQALADAITASEQADILFVAAAGNDAVDNDQNPHYPSNYENDNVLSIASTDSRDNMSSFSQWGLTSVDMGAPGSGILSTVPGNSYATYSGTSMATPHVAGAAALVLSVNPDLTTLELKELLMSSGDANAALNGKTVAGTRLNVNQALIDADP 3vv4-a2-m3-cA_3vv4-a2-m1-cB Crystal structure of cyanobacteriochrome TePixJ GAF domain Q8DLC7 Q8DLC7 2 X-RAY DIFFRACTION 55 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 153 160 3vv4-a1-m1-cA_3vv4-a1-m2-cB LSELRDRQAIFETLVAKGRELLACDRVIVYAFDDNYVGTVVAESVAEGWPQARDQVIEDPCFREHWVEAYRQGRIQATTDIFKAGLTECHLNQLRPLKVRANLVVPMVIDDQLFGLLIAHQCSEPRQWQEIEIDQFSELASTGSLVLERLHFL DHMAAVQLSELRDRQAIFETLVAKGRELLACDRVIVYAFDDNYVGTVVAESVAEGWPQARDQVIEDPCFREHWVEAYRQGRIQATTDIFKAGLTECHLNQLRPLKVRANLVVPMVIDDQLFGLLIAHQCSEPRQWQEIEIDQFSELASTGSLVLERLHFL 3vvb-a1-m1-cA_3vvb-a1-m6-cA Crystal Structure of Capsular Polysaccharide Synthesizing Enzyme CapE from Staphylococcus aureus in apo form A0A0H3JPH0 A0A0H3JPH0 2.8 X-RAY DIFFRACTION 74 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 270 270 3vvb-a1-m2-cA_3vvb-a1-m5-cA 3vvb-a1-m3-cA_3vvb-a1-m4-cA FDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLAETLLTREEYAQCEDMGDYFRVPADSYEYNSDNTHILTVEEIKEKLLTLEYVRNEL FDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLAETLLTREEYAQCEDMGDYFRVPADSYEYNSDNTHILTVEEIKEKLLTLEYVRNEL 3vvb-a1-m2-cA_3vvb-a1-m6-cA Crystal Structure of Capsular Polysaccharide Synthesizing Enzyme CapE from Staphylococcus aureus in apo form A0A0H3JPH0 A0A0H3JPH0 2.8 X-RAY DIFFRACTION 56 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 270 270 3vvb-a1-m1-cA_3vvb-a1-m4-cA 3vvb-a1-m3-cA_3vvb-a1-m5-cA FDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLAETLLTREEYAQCEDMGDYFRVPADSYEYNSDNTHILTVEEIKEKLLTLEYVRNEL FDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLAETLLTREEYAQCEDMGDYFRVPADSYEYNSDNTHILTVEEIKEKLLTLEYVRNEL 3vvi-a2-m1-cE_3vvi-a2-m1-cF Crystal structure of the coiled-coil domain of the transient receptor potential channel from Gibberella zeae (TRPGz) I1RJZ4 I1RJZ4 1.25 X-RAY DIFFRACTION 20 1.0 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 21 21 3vvi-a1-m1-cA_3vvi-a1-m1-cB 3vvi-a1-m1-cB_3vvi-a1-m1-cC 3vvi-a1-m1-cC_3vvi-a1-m1-cD 3vvi-a2-m1-cF_3vvi-a2-m1-cG 3vvi-a2-m1-cG_3vvi-a2-m1-cH VRKLRAEMEELKSMLSQLGKT VRKLRAEMEELKSMLSQLGKT 3vvi-a2-m1-cE_3vvi-a2-m1-cH Crystal structure of the coiled-coil domain of the transient receptor potential channel from Gibberella zeae (TRPGz) I1RJZ4 I1RJZ4 1.25 X-RAY DIFFRACTION 16 1.0 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 21 21 3vvi-a1-m1-cA_3vvi-a1-m1-cD VRKLRAEMEELKSMLSQLGKT VRKLRAEMEELKSMLSQLGKT 3vvm-a1-m1-cA_3vvm-a1-m1-cB Crystal structure of G52A-P55G mutant of L-serine-O-acetyltransferase found in D-cycloserine biosynthetic pathway D2Z028 D2Z028 1.7 X-RAY DIFFRACTION 127 1.0 58340 (Streptomyces lavendulae subsp. lavendulae) 58340 (Streptomyces lavendulae subsp. lavendulae) 368 369 3vvl-a1-m1-cA_3vvl-a1-m1-cB MREFIPPASRFIELPDGFAMRRGGALYGARIAYETFGSLNAARDNAVLVLTALSGDAHAASRPDDPTPGWWEAMVGPGKPVDTDLWHVICVNSLGSCKGSTGPASTDPRTGEPYRLSFPELSIEDIADAAAHTVRALGISRLACVVGASMGGMSALALLARHPELARTHISLSGAVHALPFSIAVRSLQREAIRSDPGWLQGHYDEGEGPRRGMLTARKLGMMTYRSAQEWDCRFGRTRIGERRFGPEFEVESYLDFHAQRFADRFDPNSYLYLSHAMDQFDLGDGGGGGGGAPGALSRMRVERALVMGARTDILFPLSQQQEIADGLSAGGADVSFLPVDTPAGHDAFLVDIERFGPPVAKFLAIVA MREFIPPASRFIELPDGFAMRRGGALYGARIAYETFGSLNAARDNAVLVLTALSGDAHAASRPDDPTPGWWEAMVGPGKPVDTDLWHVICVNSLGSCKGSTGPASTDPRTGEPYRLSFPELSIEDIADAAAHTVRALGISRLACVVGASMGGMSALALLARHPELARTHISLSGAVHALPFSIAVRSLQREAIRSDPGWLQGHYDEGEGPRRGMLTARKLGMMTYRSAQEWDCRFGRTRIGERGRFGPEFEVESYLDFHAQRFADRFDPNSYLYLSHAMDQFDLGDGGGGGGGAPGALSRMRVERALVMGARTDILFPLSQQQEIADGLSAGGADVSFLPVDTPAGHDAFLVDIERFGPPVAKFLAIVA 3vvu-a1-m2-cA_3vvu-a1-m3-cA Crystal structure of reconstructed bacterial ancestral NDK, Bac1 2.4 X-RAY DIFFRACTION 28 1.0 139 139 3vvt-a1-m1-cA_3vvt-a1-m2-cA 3vvt-a1-m1-cA_3vvt-a1-m3-cA 3vvt-a1-m1-cB_3vvt-a1-m2-cB 3vvt-a1-m1-cB_3vvt-a1-m3-cB 3vvt-a1-m2-cA_3vvt-a1-m3-cA 3vvt-a1-m2-cB_3vvt-a1-m3-cB 3vvu-a1-m1-cA_3vvu-a1-m2-cA 3vvu-a1-m1-cA_3vvu-a1-m3-cA 3vvu-a1-m1-cB_3vvu-a1-m2-cB 3vvu-a1-m1-cB_3vvu-a1-m3-cB 3vvu-a1-m2-cB_3vvu-a1-m3-cB MERTFVMIKPDGVQRGLIGEIISRFERKGFKIVAMKLMRISQELAEKHYAEHREKPFFSGLVDFITSGPVVAMVLEGKNVVEVVRKMIGATNPKEAAPGTIRGDFGMSVGKNVIHGSDSLESAEREISLFFKDEELVEW MERTFVMIKPDGVQRGLIGEIISRFERKGFKIVAMKLMRISQELAEKHYAEHREKPFFSGLVDFITSGPVVAMVLEGKNVVEVVRKMIGATNPKEAAPGTIRGDFGMSVGKNVIHGSDSLESAEREISLFFKDEELVEW 3vvu-a2-m1-cA_3vvu-a2-m1-cB Crystal structure of reconstructed bacterial ancestral NDK, Bac1 2.4 X-RAY DIFFRACTION 76 1.0 139 139 3vvt-a1-m1-cA_3vvt-a1-m1-cB 3vvt-a1-m2-cA_3vvt-a1-m2-cB 3vvt-a1-m3-cA_3vvt-a1-m3-cB 3vvt-a2-m1-cA_3vvt-a2-m1-cB 3vvu-a1-m1-cA_3vvu-a1-m1-cB 3vvu-a1-m2-cA_3vvu-a1-m2-cB 3vvu-a1-m3-cA_3vvu-a1-m3-cB MERTFVMIKPDGVQRGLIGEIISRFERKGFKIVAMKLMRISQELAEKHYAEHREKPFFSGLVDFITSGPVVAMVLEGKNVVEVVRKMIGATNPKEAAPGTIRGDFGMSVGKNVIHGSDSLESAEREISLFFKDEELVEW MERTFVMIKPDGVQRGLIGEIISRFERKGFKIVAMKLMRISQELAEKHYAEHREKPFFSGLVDFITSGPVVAMVLEGKNVVEVVRKMIGATNPKEAAPGTIRGDFGMSVGKNVIHGSDSLESAEREISLFFKDEELVEW 3vvv-a1-m1-cA_3vvv-a1-m2-cA Skich domain of NDP52 Q13137 Q13137 1.35 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 GPSQVIFNSVEKFYIPGGDVTCHYTFTQHFIPRRKDWIGIFRVGWKTTREYYTFMWVTLPIDKQQEVQFKAYYLPKDDEYYQFCYVDEDGVVRGASIPFQFRPENEED GPSQVIFNSVEKFYIPGGDVTCHYTFTQHFIPRRKDWIGIFRVGWKTTREYYTFMWVTLPIDKQQEVQFKAYYLPKDDEYYQFCYVDEDGVVRGASIPFQFRPENEED 3vw6-a1-m1-cB_3vw6-a1-m1-cA Crystal structure of human apoptosis signal-regulating kinase 1 (ASK1) with imidazopyridine inhibitor Q99683 Q99683 2.4 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 255 LEYDYEYDENGDRVVLGKGTYGIVYAGRDLSNQVRIAIKEIPEQPLHEEIALHKHLKHKNIVQYLGSFSENGFIKIFMEQVPGGSLSALLRSKWGPLKDNEQTIGFYTKQILEGLKYLHDNQIVHRDIKGDNVLINTYSGVLKISDFGTSKRLTGTLQYMAPEIIDKGPRGYGKAADIWSLGCTIIEMATGKPPFYELGEPQAAMFKVGMFKVHPEIPESMSAEAKAFILKCFEPDPDKRACANDLLVDEFLK LEYDYEYDENGDRVVLGKGTYGIVYAGRDLSNQVRIAIKEIPEQPLHEEIALHKHLKHKNIVQYLGSFSENGFIKIFMEQVPGGSLSALLRSKWGPLKDNEQTIGFYTKQILEGLKYLHDNQIVHRDIKGDNVLINTYSGVLKISDFGTSKRLTFTGTLQYMAPEIIDKGPRGYGKAADIWSLGCTIIEMATGKPPFYELGEPQAAMFKVGMFKVHPEIPESMSAEAKAFILKCFEPDPDKRACANDLLVDEFLK 3vwn-a1-m1-cX_3vwn-a1-m2-cX Crystal structure of 6-aminohexanoate-dimer hydrolase G181D/R187G/H266N/D370Y mutant P07062 P07062 1.2 X-RAY DIFFRACTION 207 1.0 37931 (Paenarthrobacter ureafaciens) 37931 (Paenarthrobacter ureafaciens) 384 384 1wyb-a2-m1-cA_1wyb-a2-m2-cA 1wyc-a2-m1-cA_1wyc-a2-m2-cA 2dcf-a2-m1-cA_2dcf-a2-m2-cA 2e8i-a2-m1-cA_2e8i-a2-m2-cA 2zly-a1-m1-cA_2zly-a1-m2-cA 2zm0-a1-m1-cA_2zm0-a1-m2-cA 2zm2-a1-m1-cA_2zm2-a1-m2-cA 2zm7-a1-m1-cA_2zm7-a1-m2-cA 2zm8-a1-m1-cA_2zm8-a1-m2-cA 2zm9-a1-m1-cA_2zm9-a1-m2-cA 2zma-a1-m1-cA_2zma-a1-m2-cA 3a65-a1-m1-cA_3a65-a1-m2-cA 3a66-a1-m1-cA_3a66-a1-m2-cA 3vwl-a1-m1-cA_3vwl-a1-m2-cA 3vwm-a1-m1-cA_3vwm-a1-m2-cA 3vwp-a1-m1-cA_3vwp-a1-m2-cA 3vwq-a1-m1-cA_3vwq-a1-m2-cA 3vwr-a1-m1-cA_3vwr-a1-m2-cA STGQHPARYPGAAAGEPTLDSWQEPPHNRWAFAHLGEMVPSAAVSRRPGHALARLGAIAAQLPDLEQRLEQTYTDAFLVLRGTEVVAEYYRAGFAPDDRHLLMSVSKSLCGTVVGALVDEGRIDPAQPVTEYVPELAGSVYDGPSVLQVLDMQISIDYNEDYVDPASEVQTHDRSAGWGTRRHGDPADTYEFLTTLRGDGSTGEFQYCSANTDVLAWIVERVTGLRYVEALSTYLWAKLDADRDATITVDTTGFGFANGGVSCTARDLARVGRMMLDGGVAPGGRVVSEDWVRRVLAGGSHEAMTDKGFTNTFPDGSYTRQWWCTGNERGNVSGIGIHGQNLWLDPLTDSVIVKLSSWPDPYTEHWHRLQNGILLDVSRALDAV STGQHPARYPGAAAGEPTLDSWQEPPHNRWAFAHLGEMVPSAAVSRRPGHALARLGAIAAQLPDLEQRLEQTYTDAFLVLRGTEVVAEYYRAGFAPDDRHLLMSVSKSLCGTVVGALVDEGRIDPAQPVTEYVPELAGSVYDGPSVLQVLDMQISIDYNEDYVDPASEVQTHDRSAGWGTRRHGDPADTYEFLTTLRGDGSTGEFQYCSANTDVLAWIVERVTGLRYVEALSTYLWAKLDADRDATITVDTTGFGFANGGVSCTARDLARVGRMMLDGGVAPGGRVVSEDWVRRVLAGGSHEAMTDKGFTNTFPDGSYTRQWWCTGNERGNVSGIGIHGQNLWLDPLTDSVIVKLSSWPDPYTEHWHRLQNGILLDVSRALDAV 3vwx-a2-m1-cB_3vwx-a2-m1-cC Structural analysis of an epsilon-class glutathione S-transferase from housefly, Musca domestica Q9U795 Q9U795 1.8 X-RAY DIFFRACTION 99 1.0 7370 (Musca domestica) 7370 (Musca domestica) 218 220 3vwx-a1-m1-cA_3vwx-a1-m1-cD KLVLYGIDPSPPVRACLLTLKALNLPFEYKVVNLFAKEHLSEEYLKKNPQHTVPTLEEDGHLIWDSHAIMAYLVSKYGKDDSLYPKDLLKRAVVDQRMYFEAGVLFQGGLRNITAPLFFRNQTQIPQHQIDSIVESYGFLESFLKNNKYMAGDHLTIADFSIVTSVTSLVAFAEIDQSKFPKLSAWLKSLQSLPFYEEANGAGAKQLVAMVKSKNLTI KLVLYGIDPSPPVRACLLTLKALNLPFEYKVVNLFAKEHLSEEYLKKNPQHTVPTLEEDGHLIWDSHAIMAYLVSKYGKDDSLYPKDLLKRAVVDQRMYFEAGVLFQGGLRNITAPLFFRNQTQIPQHQIDSIVESYGFLESFLKNNKYMAGDHLTIADFSIVTSVTSLVAFAEIDQSKFPKLSAWLKSLQSLPFYEEANGAGAKQLVAMVKSKNLTIVP 3vx4-a1-m1-cA_3vx4-a1-m1-cD Crystal Structure of the Nucleotide-Binding Domain of S. mutans ComA, a Bifunctional ATP-binding Cassette Transporter Involved in the Quorum-sensing Pathway Q8DW05 Q8DW05 2.69 X-RAY DIFFRACTION 88 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 239 240 SFLDGDISFENLSYKYGFGRDTLSDINLSIKKGSKVSLVGASGSGKTTLAKLIVNFYEPNKGIVRINGNDLKVIDKTALRRHISYLPQQAYVFSGSIMDNLVLGAKEGTSQEDIIRACEIAEIRSDIEQMPQGYQTELSDGAGISGGQKQRIALARALLTQAPVLILDAATSSLDILTEKKIISNLLQMTEKTIIFVAHRLSISQRTDEVIVMDQGKIVEQGTHKELLAKQGFYYNLFN NSFLDGDISFENLSYKYGFGRDTLSDINLSIKKGSKVSLVGASGSGKTTLAKLIVNFYEPNKGIVRINGNDLKVIDKTALRRHISYLPQQAYVFSGSIMDNLVLGAKEGTSQEDIIRACEIAEIRSDIEQMPQGYQTELSDGAGISGGQKQRIALARALLTQAPVLILDAATSSLDILTEKKIISNLLQMTEKTIIFVAHRLSISQRTDEVIVMDQGKIVEQGTHKELLAKQGFYYNLFN 3vx6-a2-m1-cA_3vx6-a2-m2-cA Crystal structure of Kluyveromyces marxianus Atg7NTD L7MTK3 L7MTK3 2.6 X-RAY DIFFRACTION 41 1.0 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 265 265 DLKFAPSFQSFVDSSFFHELSRLKLDIFKLDSDEKALYTQLDLNQFTSNVLAISLRDDSFQKPDHNIILKGYLLNFNTIELFKNCNKIQFIKEKGQELLQRGLENDLNEIISFYMISFADLKKYKFYYWICMPSFQSDGATYQIISSKVIASDSDISVSFIKQNVIIACVISGVIQKATPDNLKVCEKVVFKDFSHLKDIPSAVTKNILTVWSKLSPRETYTICFLRSDESSFEAEIIINNGNNPSLKVSGWEKLAPKSIDLSSL DLKFAPSFQSFVDSSFFHELSRLKLDIFKLDSDEKALYTQLDLNQFTSNVLAISLRDDSFQKPDHNIILKGYLLNFNTIELFKNCNKIQFIKEKGQELLQRGLENDLNEIISFYMISFADLKKYKFYYWICMPSFQSDGATYQIISSKVIASDSDISVSFIKQNVIIACVISGVIQKATPDNLKVCEKVVFKDFSHLKDIPSAVTKNILTVWSKLSPRETYTICFLRSDESSFEAEIIINNGNNPSLKVSGWEKLAPKSIDLSSL 3vxc-a1-m1-cA_3vxc-a1-m1-cB Crystal Structure of Xylobiose-BxlE complex from Streptomyces thermoviolaceus OPC-520 Q76BU9 Q76BU9 1.85 X-RAY DIFFRACTION 83 1.0 1952 (Streptomyces thermoviolaceus) 1952 (Streptomyces thermoviolaceus) 398 398 TITAMVYGDDAVKVQDKAASRFNASAEAKKANAKVKMERIPASDYPAKLRTAMGSPNAPDIFFNWGGGSIKAYKEAGQLVDLTDVIKSDEVLSTGFLPSVVAAGSLDGHEYGIPMRGMQPVLLFYNKSVFAEHKLTPPTTWDQLLDNVAKLKKAGVTPFALGGVEIWPELMWLEYLVDRIGGPQVFDKIRNGDASGWGDPAVLKAAQTVKQLVDEGAFGKGFSSVSYNNGGAPALLAKGKAGMHLMGSWEYSTQLGKFPDFAKKDLGWCAFPSFEGGAGDIRNVVGNPCNYWSVNARTGNKDGAIAFLRDCASEAYTKDLIDNGDVPTTTIAENMLDSSPNPEFAKFQYQLVQKAPNFTLSWDQAVDPDWQQPMLTEINKLFVGKSSPEQFVSALKGL TITAMVYGDDAVKVQDKAASRFNASAEAKKANAKVKMERIPASDYPAKLRTAMGSPNAPDIFFNWGGGSIKAYKEAGQLVDLTDVIKSDEVLSTGFLPSVVAAGSLDGHEYGIPMRGMQPVLLFYNKSVFAEHKLTPPTTWDQLLDNVAKLKKAGVTPFALGGVEIWPELMWLEYLVDRIGGPQVFDKIRNGDASGWGDPAVLKAAQTVKQLVDEGAFGKGFSSVSYNNGGAPALLAKGKAGMHLMGSWEYSTQLGKFPDFAKKDLGWCAFPSFEGGAGDIRNVVGNPCNYWSVNARTGNKDGAIAFLRDCASEAYTKDLIDNGDVPTTTIAENMLDSSPNPEFAKFQYQLVQKAPNFTLSWDQAVDPDWQQPMLTEINKLFVGKSSPEQFVSALKGL 3vxd-a6-m1-cD_3vxd-a6-m1-cB Crystal structure of unsaturated glucuronyl hydrolase mutant D115N from Streptcoccus agalactiae Q8E372 Q8E372 2 X-RAY DIFFRACTION 61 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 353 354 3vxd-a5-m1-cA_3vxd-a5-m1-cC 3wux-a2-m1-cA_3wux-a2-m2-cA MMKIKPVKVESIENPKRFLNSRLLTKIEVEEAIEKALKQLYINIDYFGEEYPTPATFNNIYKVMDNTEWTNGFWTGCLWLAYEYNQDKKLKNIAHKNVLSFLNRINNRIALDHHNLGFLYTPSCTAEYRINGDVKALEATIKAADKLMERYLIIDCLLNIQLLFFAYEQTGDEKYRQVAVNHFYASANNVVRDDSSAFSWARGQAWGIYGIPLSYRKMKDYQQIILFKGMTNYFLNRLPEDKVSYWDLIFTDGSGQPRDTSATATAVCGIHEMLKYLPEVDPDKETYKYAMHTMLRSLIEQYSNNELIAGRPLLLHGVYSWHSGKGVDEGNIWGDYYYLEALIRFYKDWELYW MMKIKPVKVESIENPKRFLNSRLLTKIEVEEAIEKALKQLYINIDYFGEEYPTPATFNNIYKVMDNTEWTNGFWTGCLWLAYEYNQDKKLKNIAHKNVLSFLNRINNRIALDHHNLGFLYTPSCTAEYRINGDVKALEATIKAADKLMERYLIIDCLLNIQLLFFAYEQTGDEKYRQVAVNHFYASANNVVRDDSSAFSSWARGQAWGIYGIPLSYRKMKDYQQIILFKGMTNYFLNRLPEDKVSYWDLIFTDGSGQPRDTSATATAVCGIHEMLKYLPEVDPDKETYKYAMHTMLRSLIEQYSNNELIAGRPLLLHGVYSWHSGKGVDEGNIWGDYYYLEALIRFYKDWELYW 3vy8-a2-m2-cX_3vy8-a2-m3-cX Crystal Structure of PorB from Neisseria meningitidis in complex with Cesium ion, space group P63 2.12 X-RAY DIFFRACTION 110 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 341 341 3a2s-a1-m1-cX_3a2s-a1-m2-cX 3a2s-a1-m1-cX_3a2s-a1-m3-cX 3a2s-a1-m2-cX_3a2s-a1-m3-cX 3vy8-a2-m1-cX_3vy8-a2-m2-cX 3vy8-a2-m1-cX_3vy8-a2-m3-cX 3vy9-a2-m1-cX_3vy9-a2-m2-cX 3vy9-a2-m1-cX_3vy9-a2-m3-cX 3vy9-a2-m2-cX_3vy9-a2-m3-cX 3vzt-a1-m1-cX_3vzt-a1-m2-cX 3vzt-a1-m1-cX_3vzt-a1-m3-cX 3vzt-a1-m2-cX_3vzt-a1-m3-cX 3vzu-a1-m1-cX_3vzu-a1-m2-cX 3vzu-a1-m1-cX_3vzu-a1-m3-cX 3vzu-a1-m2-cX_3vzu-a1-m3-cX 3vzw-a1-m1-cX_3vzw-a1-m2-cX 3vzw-a1-m1-cX_3vzw-a1-m3-cX 3vzw-a1-m2-cX_3vzw-a1-m3-cX 7de8-a1-m1-cX_7de8-a1-m2-cX 7de8-a1-m1-cX_7de8-a1-m3-cX 7de8-a1-m2-cX_7de8-a1-m3-cX QVTLYGTIKAGVEVSRVKDAGTYKAQGGKSKTATQIADFGSKIGFKGQEDLGNGMKAIWQLEQKASIAGTNSGWGNRQSFIGLKGGFGTVRAGNLNTVLKDSGDNVNAWESGSNTEDVLGLGTIGRVESREISVRYDSPVFAGFSGSVQYVPRDNANDVDKYKHTKSSRESYHAGLKYENAGFFGQYAGSFAKYADLNTDAERVAVNTANAHPVKDYQVHRVVAGYDANDLYVSVAGQYEAAKNNEVGSIKGKKHEQTQVAATAAYRFGNVTPRVSYAHGFKAKVNGVKDANYQYDQVIVGADYDFSKRTSALVSAGWLKQGKGAGKVEQTASMVGLRHKF QVTLYGTIKAGVEVSRVKDAGTYKAQGGKSKTATQIADFGSKIGFKGQEDLGNGMKAIWQLEQKASIAGTNSGWGNRQSFIGLKGGFGTVRAGNLNTVLKDSGDNVNAWESGSNTEDVLGLGTIGRVESREISVRYDSPVFAGFSGSVQYVPRDNANDVDKYKHTKSSRESYHAGLKYENAGFFGQYAGSFAKYADLNTDAERVAVNTANAHPVKDYQVHRVVAGYDANDLYVSVAGQYEAAKNNEVGSIKGKKHEQTQVAATAAYRFGNVTPRVSYAHGFKAKVNGVKDANYQYDQVIVGADYDFSKRTSALVSAGWLKQGKGAGKVEQTASMVGLRHKF 3vyg-a1-m1-cA_3vyg-a1-m1-cJ Crystal structure of Thiocyanate hydrolase mutant R136W O66187 O66187 1.72 X-RAY DIFFRACTION 10 1.0 931 (Thiobacillus thioparus) 931 (Thiobacillus thioparus) 120 120 2dd4-a1-m1-cD_2dd4-a1-m1-cG 2dxb-a1-m1-cD_2dxb-a1-m1-cG 2dxb-a2-m1-cP_2dxb-a2-m1-cS 2dxc-a1-m1-cD_2dxc-a1-m1-cG 2zzd-a1-m1-cD_2zzd-a1-m1-cG KPVWDRTHHAKMATGIGDPQCFKGMAGKSKFNVGDRVRIKDLPDLFYTRTMTYTRGATGTIVRLVYESPAAEDEAFGNEENVEWFYSIVFAQKDLWPEYSDTFANDTLETEIPERYLEKA KPVWDRTHHAKMATGIGDPQCFKGMAGKSKFNVGDRVRIKDLPDLFYTRTMTYTRGATGTIVRLVYESPAAEDEAFGNEENVEWFYSIVFAQKDLWPEYSDTFANDTLETEIPERYLEKA 3vyh-a1-m1-cA_3vyh-a1-m2-cA Crystal structure of aW116R mutant of nitrile hydratase from Pseudonocardia thermophilla Q7SID2 Q7SID2 1.63 X-RAY DIFFRACTION 21 1.0 1848 (Pseudonocardia thermophila) 1848 (Pseudonocardia thermophila) 201 201 1ire-a1-m1-cA_1ire-a1-m2-cA 1ugp-a2-m1-cA_1ugp-a2-m2-cA 1ugq-a2-m1-cA_1ugq-a2-m2-cA 1ugr-a2-m1-cA_1ugr-a2-m2-cA 1ugs-a2-m1-cA_1ugs-a2-m2-cA 7sjz-a1-m1-cA_7sjz-a1-m2-cA 7w8l-a1-m1-cA_7w8l-a1-m2-cA 7w8m-a1-m1-cA_7w8m-a1-m2-cA TENILRKSDEEIQKEITARVKALESMLIEQGILTTSMIDRMAEIYENEVGPHLGAKVVVKAWTDPEFKKRLLADGTEACKELGIGGLQGEDMMWVENTDEVHHVVVCTLSYPRPVLGLPPNWFKEPQYRSRVVREPRQLLKEEFGFEVPPSKEIKVWDSSSEMRFVVLPQRPAGTDGWSEEELATLVTRESMIGVEPAKAV TENILRKSDEEIQKEITARVKALESMLIEQGILTTSMIDRMAEIYENEVGPHLGAKVVVKAWTDPEFKKRLLADGTEACKELGIGGLQGEDMMWVENTDEVHHVVVCTLSYPRPVLGLPPNWFKEPQYRSRVVREPRQLLKEEFGFEVPPSKEIKVWDSSSEMRFVVLPQRPAGTDGWSEEELATLVTRESMIGVEPAKAV 3vyi-a1-m1-cA_3vyi-a1-m1-cB Crystal Structure of a trimeric coiled-coil (I/I-type) assembly domain from the voltage-gated proton channel mutant Q3U2S8 Q3U2S8 2.305 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 46 46 3vyi-a1-m1-cA_3vyi-a1-m1-cC 3vyi-a2-m1-cD_3vyi-a2-m1-cF 3vyi-a2-m1-cE_3vyi-a2-m1-cD 3vyi-a4-m1-cK_3vyi-a4-m1-cJ SERQILRIKQNINQIATKIQHIEFSISEIEQEIERINKLIKQNGLL SERQILRIKQNINQIATKIQHIEFSISEIEQEIERINKLIKQNGLL 3vyi-a2-m1-cE_3vyi-a2-m1-cF Crystal Structure of a trimeric coiled-coil (I/I-type) assembly domain from the voltage-gated proton channel mutant Q3U2S8 Q3U2S8 2.305 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 46 49 3vyi-a1-m1-cB_3vyi-a1-m1-cC 3vyi-a3-m1-cG_3vyi-a3-m1-cI 3vyi-a4-m1-cL_3vyi-a4-m1-cJ SERQILRIKQNINQIATKIQHIEFSISEIEQEIERINKLIKQNGLL GSERQILRIKQNINQIATKIQHIEFSISEIEQEIERINKLIKQNGLLGD 3vyl-a1-m1-cC_3vyl-a1-m1-cD Structure of L-ribulose 3-epimerase N0DP12 N0DP12 2.7 X-RAY DIFFRACTION 51 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 297 297 3vyl-a1-m1-cA_3vyl-a1-m1-cB 3vyl-a2-m1-cE_3vyl-a2-m1-cF 3vyl-a2-m1-cG_3vyl-a2-m1-cH MARIGIHSFVWSASSAQSELERTLANTRDAGFDLIEFSYLDPADVDIGRLAKRIADLGLGVAISIGLPADGDISSADKAVAARGVEILNQTIALTRDLGGRKVAGILSAGHGLQVEAPTRDQWNRSAAALAKVAETAKAAGVTLNLEIVNRFESNLLNTAAQGLAFIEDTGSDNIFLHLDTFHMNIEEADVGLAIRHAAGKIGYVHIGESHRGFLGTGNIDFAAIFDALTAIGYADDLSFESFSSEIVDENLSKKTAIWRNLWTDNMALAKHARAFIGLGLETARRKAELVSARHKP MARIGIHSFVWSASSAQSELERTLANTRDAGFDLIEFSYLDPADVDIGRLAKRIADLGLGVAISIGLPADGDISSADKAVAARGVEILNQTIALTRDLGGRKVAGILSAGHGLQVEAPTRDQWNRSAAALAKVAETAKAAGVTLNLEIVNRFESNLLNTAAQGLAFIEDTGSDNIFLHLDTFHMNIEEADVGLAIRHAAGKIGYVHIGESHRGFLGTGNIDFAAIFDALTAIGYADDLSFESFSSEIVDENLSKKTAIWRNLWTDNMALAKHARAFIGLGLETARRKAELVSARHKP 3vyl-a2-m1-cE_3vyl-a2-m1-cG Structure of L-ribulose 3-epimerase N0DP12 N0DP12 2.7 X-RAY DIFFRACTION 77 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 297 297 3vyl-a1-m1-cA_3vyl-a1-m1-cC 3vyl-a1-m1-cB_3vyl-a1-m1-cD 3vyl-a2-m1-cF_3vyl-a2-m1-cH MARIGIHSFVWSASSAQSELERTLANTRDAGFDLIEFSYLDPADVDIGRLAKRIADLGLGVAISIGLPADGDISSADKAVAARGVEILNQTIALTRDLGGRKVAGILSAGHGLQVEAPTRDQWNRSAAALAKVAETAKAAGVTLNLEIVNRFESNLLNTAAQGLAFIEDTGSDNIFLHLDTFHMNIEEADVGLAIRHAAGKIGYVHIGESHRGFLGTGNIDFAAIFDALTAIGYADDLSFESFSSEIVDENLSKKTAIWRNLWTDNMALAKHARAFIGLGLETARRKAELVSARHKP MARIGIHSFVWSASSAQSELERTLANTRDAGFDLIEFSYLDPADVDIGRLAKRIADLGLGVAISIGLPADGDISSADKAVAARGVEILNQTIALTRDLGGRKVAGILSAGHGLQVEAPTRDQWNRSAAALAKVAETAKAAGVTLNLEIVNRFESNLLNTAAQGLAFIEDTGSDNIFLHLDTFHMNIEEADVGLAIRHAAGKIGYVHIGESHRGFLGTGNIDFAAIFDALTAIGYADDLSFESFSSEIVDENLSKKTAIWRNLWTDNMALAKHARAFIGLGLETARRKAELVSARHKP 3vyl-a2-m1-cE_3vyl-a2-m1-cH Structure of L-ribulose 3-epimerase N0DP12 N0DP12 2.7 X-RAY DIFFRACTION 77 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 297 297 3vyl-a1-m1-cA_3vyl-a1-m1-cD 3vyl-a1-m1-cB_3vyl-a1-m1-cC 3vyl-a2-m1-cF_3vyl-a2-m1-cG MARIGIHSFVWSASSAQSELERTLANTRDAGFDLIEFSYLDPADVDIGRLAKRIADLGLGVAISIGLPADGDISSADKAVAARGVEILNQTIALTRDLGGRKVAGILSAGHGLQVEAPTRDQWNRSAAALAKVAETAKAAGVTLNLEIVNRFESNLLNTAAQGLAFIEDTGSDNIFLHLDTFHMNIEEADVGLAIRHAAGKIGYVHIGESHRGFLGTGNIDFAAIFDALTAIGYADDLSFESFSSEIVDENLSKKTAIWRNLWTDNMALAKHARAFIGLGLETARRKAELVSARHKP MARIGIHSFVWSASSAQSELERTLANTRDAGFDLIEFSYLDPADVDIGRLAKRIADLGLGVAISIGLPADGDISSADKAVAARGVEILNQTIALTRDLGGRKVAGILSAGHGLQVEAPTRDQWNRSAAALAKVAETAKAAGVTLNLEIVNRFESNLLNTAAQGLAFIEDTGSDNIFLHLDTFHMNIEEADVGLAIRHAAGKIGYVHIGESHRGFLGTGNIDFAAIFDALTAIGYADDLSFESFSSEIVDENLSKKTAIWRNLWTDNMALAKHARAFIGLGLETARRKAELVSARHKP 3vyu-a1-m1-cB_3vyu-a1-m2-cB Crystal structure of the HypC-HypD-HypE complex (form II) Q5JII1 Q5JII1 2.75 X-RAY DIFFRACTION 29 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 367 367 FEAYRSREVAMKLVEKIREEAKTLDGEIRIMHVCGTHEDTVTRHGIRSLLPENVKVVSGPGCPVCITPVEDIVAMQLIMRKAREEGEEIILTTFGDMYKIPTPMGSFADLKSEGFDVRIVYGIFDTYRIAKENPDKTVVHFSPGFETTTAPAAGMLNVAAQEELENFKIYSVHRLTPPAVEVLLKQGTVFQGLIAPGHVSTIIGVKGWEYLTEKYGIPQVVAGFEPNDVLMAILMLIRMYKEGEARIINEYERAVKYEGNVVAQKMIDKFFEVVDAKWRALGVFPKSGLELRKEWKDFEIRSFYKVEVPKNLPDLEKGCRCGAVLRGLALPTDCPLFGKTCTPRHPVGPCMVSYEGTCQIFYKYGVL FEAYRSREVAMKLVEKIREEAKTLDGEIRIMHVCGTHEDTVTRHGIRSLLPENVKVVSGPGCPVCITPVEDIVAMQLIMRKAREEGEEIILTTFGDMYKIPTPMGSFADLKSEGFDVRIVYGIFDTYRIAKENPDKTVVHFSPGFETTTAPAAGMLNVAAQEELENFKIYSVHRLTPPAVEVLLKQGTVFQGLIAPGHVSTIIGVKGWEYLTEKYGIPQVVAGFEPNDVLMAILMLIRMYKEGEARIINEYERAVKYEGNVVAQKMIDKFFEVVDAKWRALGVFPKSGLELRKEWKDFEIRSFYKVEVPKNLPDLEKGCRCGAVLRGLALPTDCPLFGKTCTPRHPVGPCMVSYEGTCQIFYKYGVL 3vz0-a2-m1-cC_3vz0-a2-m1-cD Structural insights into cofactor and substrate selection by Gox0499 Q5FTL8 Q5FTL8 2.3 X-RAY DIFFRACTION 144 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 445 445 3vz0-a1-m1-cA_3vz0-a1-m1-cB IVYQTLNPTTETVERSFDLHTPAQKDITDRAEHVWKTDWKLRSIAQRKEIVSRAADLLRRDRQHHASLIATEGKALPDALEEIDVTADILSFYANGAEEFLAPTPLKVKTGQAKIINQPLGIIYCIEPWNFPYYQLARVAGPNLAGNVVIAKHAPNVPQCALAFEKLFHDAGAPVGAYANIFLDNDQSAELIKDERIRGVALTGSERAGQAVAAQAGAALKKDTELGGSDAFIVLDDADLDLAVKWAVWGRFANNGQVCTAAKRIVHEKVYDAFLDGLKTAITRFRIGNPLDRDTTHGPSSLRAELALDQTAEAVKGGATLVAGGKRDRKGFFEPTILTDVSKDNPVFYQEIFGPVAVVHKVASEQAAIDLANDSPYGLGGAVFSRDIARAEKVAEQVETGVFINTATAAAPELPFGGIKNSGFGRELSFLGIEEFINRKLVRIG IVYQTLNPTTETVERSFDLHTPAQKDITDRAEHVWKTDWKLRSIAQRKEIVSRAADLLRRDRQHHASLIATEGKALPDALEEIDVTADILSFYANGAEEFLAPTPLKVKTGQAKIINQPLGIIYCIEPWNFPYYQLARVAGPNLAGNVVIAKHAPNVPQCALAFEKLFHDAGAPVGAYANIFLDNDQSAELIKDERIRGVALTGSERAGQAVAAQAGAALKKDTELGGSDAFIVLDDADLDLAVKWAVWGRFANNGQVCTAAKRIVHEKVYDAFLDGLKTAITRFRIGNPLDRDTTHGPSSLRAELALDQTAEAVKGGATLVAGGKRDRKGFFEPTILTDVSKDNPVFYQEIFGPVAVVHKVASEQAAIDLANDSPYGLGGAVFSRDIARAEKVAEQVETGVFINTATAAAPELPFGGIKNSGFGRELSFLGIEEFINRKLVRIG 3vzd-a1-m1-cE_3vzd-a1-m1-cA Crystal structure of Sphingosine Kinase 1 with inhibitor and ADP Q9NYA1 Q9NYA1 2.3 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 349 3vzd-a1-m1-cB_3vzd-a1-m1-cD GVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG MGSGVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVGSQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG 3vzd-a1-m1-cE_3vzd-a1-m1-cD Crystal structure of Sphingosine Kinase 1 with inhibitor and ADP Q9NYA1 Q9NYA1 2.3 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 349 3vzd-a1-m1-cB_3vzd-a1-m1-cA GVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG MGSGVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVGSQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG 3vzd-a2-m1-cC_3vzd-a2-m2-cA Crystal structure of Sphingosine Kinase 1 with inhibitor and ADP Q9NYA1 Q9NYA1 2.3 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 346 349 3vzd-a2-m1-cB_3vzd-a2-m3-cD 3vzd-a2-m1-cB_3vzd-a2-m4-cF 3vzd-a2-m4-cF_3vzd-a2-m3-cD MGSGVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG MGSGVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVGSQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG 3vzd-a2-m4-cE_3vzd-a2-m4-cF Crystal structure of Sphingosine Kinase 1 with inhibitor and ADP Q9NYA1 Q9NYA1 2.3 X-RAY DIFFRACTION 33 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 344 346 3vzd-a1-m1-cB_3vzd-a1-m1-cC 3vzd-a1-m1-cE_3vzd-a1-m1-cF 3vzd-a2-m1-cB_3vzd-a2-m1-cC 3vzd-a2-m2-cA_3vzd-a2-m3-cD GVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRVQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG MGSGVLPRPCRVLVLLNPRGGKGKALQLFRSHVQPLLAEAEISFTLMLTERRNHARELVRSEELGRWDALVVMSGDGLMHEVVNGLMERPDWETAIQKPLCSLPAGSGNALAASLNHYAGYEQVTNEDLLTNCTLLLCRRLLSPMNLLSLHTASGLRLFSVLSLAWGFIADVDLESEKYRRLGEMRFTLGTFLRLAALRTYRGRLAYLPVGRQGPVDAHLVPLEEPVPSHWTVVPDEDFVLVLALLHSHLGSEMFAAPMGRCAAGVMHLFYVRAGVSRAMLLRLFLAMEKGRHMEYECPYLVYVPVVAFRLEPKDGKGVFAVDGELMVSEAVQGQVHPNYFWMVSG 3vzh-a2-m1-cA_3vzh-a2-m2-cA Crystal Structure of CRISPR-associated Protein Q99YS3 Q99YS3 1.7 X-RAY DIFFRACTION 56 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 194 194 GHMYRSRDFYVRVSGQRALFTNPARSSYSVPTRQALNGIVDAIYYKPTFTNIVTEVKVINQIQTELQGVRSYVSYLSDVVYLIKFHFVWNEDRKDLNSDRLPAKHEAIMERSIRKGGRRDVFLGTRECLGLVDDISQEEYETTVSYYNGVNIDLGIMFHSFAYPTPLKSYFTKTVMKNGVITFKAQSECDIVNT GHMYRSRDFYVRVSGQRALFTNPARSSYSVPTRQALNGIVDAIYYKPTFTNIVTEVKVINQIQTELQGVRSYVSYLSDVVYLIKFHFVWNEDRKDLNSDRLPAKHEAIMERSIRKGGRRDVFLGTRECLGLVDDISQEEYETTVSYYNGVNIDLGIMFHSFAYPTPLKSYFTKTVMKNGVITFKAQSECDIVNT 3vzi-a3-m2-cB_3vzi-a3-m1-cA Crystal Structure of CRISPR-associated Protein A0A0J9X178 A0A0J9X178 2.66 X-RAY DIFFRACTION 46 0.986 360094 (Xanthomonas oryzae pv. oryzae PXO99A) 360094 (Xanthomonas oryzae pv. oryzae PXO99A) 213 214 HMSYGVRLHVWGERALFTRPEMKVERVSYDIITPSAARGILEAIHWKPAIRWVVDSIQVLKPICFESIAASISKAIKAGRTDELVKYVEEDRQQRAATVLREVGYIIAAHFEMTDKAGPDDNVGKHLDIFNRRARRGQCFQAPCLGTREFPASFALLGDDDTPPASDPALSGERDLGWMLHDIDFADGMTPRFFRARMVDGLVAVPPPQDGGV HMSYGVRLHVWGERALFTRPEMKVERVSYDIITPSAARGILEAIHWKPAIRWVVDSIQVLKPICFESIRRLSAASISKAIKAGRTDELVKYVEEDRQQRAATVLREVGYIIAAHFEMTDKAGPDDNVGKHLDIFNRRARRGQCFQAPCLGTREFPASFALLGDDDASDPALSGERDLGWMLHDIDFADGMTPRFFRARMVDGLVAVPPPQDGGV 3vzx-a1-m1-cA_3vzx-a1-m1-cB Crystal structure of PcrB from bacillus subtilis subap. subtilis str. 168 O34790 O34790 1.54 X-RAY DIFFRACTION 86 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 227 228 1viz-a3-m1-cB_1viz-a3-m2-cA 3vzy-a1-m1-cA_3vzy-a1-m1-cB 3vzz-a1-m1-cA_3vzz-a1-m1-cB 3w00-a1-m1-cA_3w00-a1-m1-cB MYDVTEWKHVFKLDPNKDLPDEQLEILCESGTDAVIIGGSDGVTEDNVLRMMSKVRRFLVPCVLEVSAIEAIVPGFDLYFIPSVLNSKNADWIVGMHQKAMKEYGELMSMEEIVAEGYCIANPDCKAAALTEADADLNMDDIVAYARVSELLQLPIFYLEYSGVLGDIEAVKKTKAVLETSTLFYGGGIKDAETAKQYAEHADVIVVGNAVYEDFDRALKTVAAVKG MYDVTEWKHVFKLDPNKDLPDEQLEILCESGTDAVIIGGSDGVTEDNVLRMMSKVRRFLVPCVLEVSAIEAIVPGFDLYFIPSVLNSKNADWIVGMHQKAMKEYGELMSMEEIVAEGYCIANPDCKAAALTEADADLNMDDIVAYARVSELLQLPIFYLEYSGVLGDIEAVKKTKAVLETSTLFYGGGIKDAETAKQYAEHADVIVVGNAVYEDFDRALKTVAAVKGE 3w01-a1-m1-cB_3w01-a1-m1-cA Crystal structure of PcrB complexed with PEG from Staphylococcus aureus subsp. aureus Mu3 A7X435 A7X435 1.54 X-RAY DIFFRACTION 67 0.987 418127 (Staphylococcus aureus subsp. aureus Mu3) 418127 (Staphylococcus aureus subsp. aureus Mu3) 227 230 3w02-a1-m1-cA_3w02-a1-m1-cB AGAMYDIKKWRHIFKLDPAKHISDDDLDAICMSQTDAIMIGVTEDNVIHLMSKIRRYPLPLVLEISNIESVMPGFDFYFVPTVLNSTDVAFHNGTLLEALKTYGHSIDFEEVIFEGYVVCNADSKVAKHTKANTDLTTEDLEAYAQMVNHMYRLPVMYIEYSGIYGDVSKVQAVSEHLTETQLFYGGGISSEQQATEMAAIADTIIVGDIIYKDIKKALKTVKIKES AGAGAMYDIKKWRHIFKLDPAKHISDDDLDAICMSQTDAIMIGGTDDVTEDNVIHLMSKIRRYPLPLVLEISNIESVMPGFDFYFVPTVLNSTDVAFHNGTLLEALKTYGHSIDFEEVIFEGYVVCNADSKVAKHTKANTDLTTEDLEAYAQMVNHMYRLPVMYIEYSGIYGDVSKVQAVSEHLTETQLFYGGGISSEQQATEMAAIADTIIVGDIIYKDIKKALKTVKI 3w08-a1-m1-cA_3w08-a1-m1-cB Crystal structure of aldoxime dehydratase Q7WSJ4 Q7WSJ4 1.8 X-RAY DIFFRACTION 65 1.0 587753 (Pseudomonas chlororaphis) 587753 (Pseudomonas chlororaphis) 351 351 MESAIDTHLKCPRTLSRRVPEEYQPPFPMWVARADEQLQQVVMGYLGVQYRGEAQREAALQAMRHIVSSFSLPDGPQTHDLTHHTDSSGFDNLMVVGYWKDPAAHCRWLRSAEVNDWWTSQDRLGEGLGYFREISAPRAEQFETLYAFQDNLPGVGAVMDSTSGEIEEHGYWGSMRDRFPISQTDWMKPTNELQVVAGDPAKGGRVVIMGHDNIALIRSGQDWADAEAEERSLYLDEILPTLQDGMDFLRDNGQPLGCYSNRFVRNIDLDGNFLDVSYNIGHWRSLEKLERWAESHPTHLRIFVTFFRVAAGLKKLRLYHEVSVSDAKSQVFEYINCHPHTGMLRDAVVAP MESAIDTHLKCPRTLSRRVPEEYQPPFPMWVARADEQLQQVVMGYLGVQYRGEAQREAALQAMRHIVSSFSLPDGPQTHDLTHHTDSSGFDNLMVVGYWKDPAAHCRWLRSAEVNDWWTSQDRLGEGLGYFREISAPRAEQFETLYAFQDNLPGVGAVMDSTSGEIEEHGYWGSMRDRFPISQTDWMKPTNELQVVAGDPAKGGRVVIMGHDNIALIRSGQDWADAEAEERSLYLDEILPTLQDGMDFLRDNGQPLGCYSNRFVRNIDLDGNFLDVSYNIGHWRSLEKLERWAESHPTHLRIFVTFFRVAAGLKKLRLYHEVSVSDAKSQVFEYINCHPHTGMLRDAVVAP 3w0e-a1-m1-cA_3w0e-a1-m1-cB Structure of elastase inhibitor AFUEI (crystal form II) Q4WZ11 Q4WZ11 1.8 X-RAY DIFFRACTION 53 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 68 68 3w0d-a1-m1-cA_3w0d-a1-m1-cB DPATCEKEAQFVKQELIGQPYTDAVANALQSNPIRVLHPGDMITMEYIASRLNIQVNENNEIISAHCA DPATCEKEAQFVKQELIGQPYTDAVANALQSNPIRVLHPGDMITMEYIASRLNIQVNENNEIISAHCA 3w1i-a1-m1-cD_3w1i-a1-m1-cC Crystal structure of the N-terminal truncated selenocysteine synthase SelA O67140 O67140 3.192 X-RAY DIFFRACTION 274 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 381 383 3w1h-a1-m1-cB_3w1h-a1-m1-cA 3w1h-a1-m1-cD_3w1h-a1-m1-cC 3w1h-a1-m1-cE_3w1h-a1-m2-cE 3w1h-a1-m2-cB_3w1h-a1-m2-cA 3w1h-a1-m2-cD_3w1h-a1-m2-cC 3w1i-a1-m1-cB_3w1i-a1-m1-cA 3w1i-a1-m1-cE_3w1i-a1-m1-cF 3w1i-a1-m1-cG_3w1i-a1-m1-cH 3w1i-a1-m1-cI_3w1i-a1-m1-cJ 3w1j-a1-m1-cB_3w1j-a1-m1-cA 3w1j-a1-m1-cD_3w1j-a1-m1-cC 3w1j-a1-m1-cE_3w1j-a1-m1-cF 3w1j-a1-m1-cG_3w1j-a1-m1-cH 3w1j-a1-m1-cI_3w1j-a1-m1-cJ 3w1k-a1-m1-cA_3w1k-a1-m1-cB 3w1k-a1-m1-cC_3w1k-a1-m1-cD 3w1k-a1-m1-cE_3w1k-a1-m2-cE 3w1k-a1-m2-cA_3w1k-a1-m2-cB 3w1k-a1-m2-cC_3w1k-a1-m2-cD 3wcn-a1-m1-cA_3wcn-a1-m1-cB 3wco-a1-m1-cB_3wco-a1-m1-cA LKPNIKRVINATGVVINTNLGRAPLSKDVINFISEIANGYSNLEYNLEEGKRGSRIAHIEKYLNELTGAESSFVVNNNAGAVFLVLNTLAEGKEVIISRGELVEIGGSFRIPDIKKSGAILREVGTTNKTKVSDYEGAINQNTALLKVHKSNFYEGFVEEVKLEDLVKLGHKYGIPTYYDAGSGLLINLKEFGISVDEPNFRDCISLGIDLVSGSGDLLGGPQAGIIVGKKNLIEKIKKNPIARALRIDKLTLSGLETLKLYFEKRYEDIPVIRLTQDEKALRQKAKRLEKLLKDIPGLKISVIKDKAKPGGGSLPELELPTYCVAIRHDRLSSQELSRRLRLAEPPIVCRIREDQLLFDRTVFHEDLKTIKKTLQELLSI KSLKPNIKRVINATGVVINTNLGRAPLSKDVINFISEIANGYSNLEYNLEEGKRGSRIAHIEKYLNELTGAESSFVVNNNAGAVFLVLNTLAEGKEVIISRGELVEIGGSFRIPDIKKSGAILREVGTTNKTKVSDYEGAINQNTALLKVHKSNFYEGFVEEVKLEDLVKLGHKYGIPTYYDAGSGLLINLKEFGISVDEPNFRDCISLGIDLVSGSGDLLGGPQAGIIVGKKNLIEKIKKNPIARALRIDKLTLSGLETLKLYFEKRYEDIPVIRLTQDEKALRQKAKRLEKLLKDIPGLKISVIKDKAKPGGGSLPELELPTYCVAIRHDRLSSQELSRRLRLAEPPIVCRIREDQLLFDRTVFHEDLKTIKKTLQELLSI 3w1j-a1-m1-cB_3w1j-a1-m1-cC Crystal structure of the N-terminal truncated selenocysteine synthase SelA in complex with thiosulfate O67140 O67140 3.252 X-RAY DIFFRACTION 93 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 389 391 3w1h-a1-m1-cA_3w1h-a1-m2-cA 3w1h-a1-m1-cB_3w1h-a1-m1-cC 3w1h-a1-m1-cD_3w1h-a1-m1-cE 3w1h-a1-m2-cB_3w1h-a1-m2-cC 3w1h-a1-m2-cD_3w1h-a1-m2-cE 3w1i-a1-m1-cB_3w1i-a1-m1-cC 3w1i-a1-m1-cD_3w1i-a1-m1-cE 3w1i-a1-m1-cG_3w1i-a1-m1-cF 3w1i-a1-m1-cI_3w1i-a1-m1-cH 3w1i-a1-m1-cJ_3w1i-a1-m1-cA 3w1j-a1-m1-cA_3w1j-a1-m1-cJ 3w1j-a1-m1-cD_3w1j-a1-m1-cE 3w1j-a1-m1-cG_3w1j-a1-m1-cF 3w1j-a1-m1-cH_3w1j-a1-m1-cI 3w1k-a1-m1-cA_3w1k-a1-m2-cA 3w1k-a1-m1-cB_3w1k-a1-m1-cC 3w1k-a1-m1-cD_3w1k-a1-m1-cE 3w1k-a1-m2-cB_3w1k-a1-m2-cC 3w1k-a1-m2-cD_3w1k-a1-m2-cE SLMKPNIKRVINATGVVINTNLGRAPLSKDVINFISEIANGYSNLEYNLEEGKRGSRIAHIEKYLNELTGAESSFVVNNNAGAVFLVLNTLAEGKEVIISRGELVEIGGSFRIPDIMKKSGAILREVGTTNKTKVSDYEGAINQNTALLMKVHKSNFYMEGFVEEVKLEDLVKLGHKYGIPTYYDAGSGLLINLKEFGISVDEPNFRDCISLGIDLVSGSGDLLGGPQAGIIVGKKNLIEKIKKNPIARALRIDKLTLSGLEMTLKLYFEKRYEDIPVIRMLTQDEKALRQKAKRLEKLLKDIPGLKISVIKDKAKPGGGSLPELELPTYCVAIRHDRLSSQELSRRLRLAEPPIVCRIREDQLLFDMRTVFHEDLKTIKKTLQELLSI MKSLMKPNIKRVINATGVVINTNLGRAPLSKDVINFISEIANGYSNLEYNLEEGKRGSRIAHIEKYLNELTGAESSFVVNNNAGAVFLVLNTLAEGKEVIISRGELVEIGGSFRIPDIMKKSGAILREVGTTNKTKVSDYEGAINQNTALLMKVHKSNFYMEGFVEEVKLEDLVKLGHKYGIPTYYDAGSGLLINLKEFGISVDEPNFRDCISLGIDLVSGSGDLLGGPQAGIIVGKKNLIEKIKKNPIARALRIDKLTLSGLEMTLKLYFEKRYEDIPVIRMLTQDEKALRQKAKRLEKLLKDIPGLKISVIKDKAKPGGGSLPELELPTYCVAIRHDRLSSQELSRRLRLAEPPIVCRIREDQLLFDMRTVFHEDLKTIKKTLQELLSI 3w1o-a3-m1-cA_3w1o-a3-m1-cB Neisseria DNA mimic protein DMP12 Q9JXC6 Q9JXC6 1.85 X-RAY DIFFRACTION 64 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 115 115 HNLLIFCLKDNVSISEYTEMIDWAYKNIQSETVVEITENQIIEYQNRGLWRLVSEITDNWLFGPSEGDWLIDKESILAVKEKLQNSDFSTEPLVKNIIHVLEYAIKNEKTVIFHF HNLLIFCLKDNVSISEYTEMIDWAYKNIQSETVVEITENQIIEYQNRGLWRLVSEITDNWLFGPSEGDWLIDKESILAVKEKLQNSDFSTEPLVKNIIHVLEYAIKNEKTVIFHF 3w1s-a2-m1-cA_3w1s-a2-m2-cA Crystal structure of Saccharomyces cerevisiae Atg12-Atg5 conjugate bound to the N-terminal domain of Atg16 Q12380 Q12380 2.6 X-RAY DIFFRACTION 28 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 261 261 NDIKQLLWNGELNVLVSIDPSFLMKGSPREIAVLRIRVPRETYLVNYMPLIWNKIKSFLSFDPLTDSEKYFWFEHNKTPIPWNYPVGVLFDCLADVLTFLRIHLVMGDSLPPTIIPIAKTQAEKFWFHQWKQVCFILNGSSKAIMSLSVNEARKFWGSVITRNFQDFIEISNKISSSRPRHIPLIIQTSRTSGTFRISQPTISMTGVNPTLKDIEGDILDVKEDVMVICQGIEIPWHMLLYDLYSKLRSFDGFLYITLVPI NDIKQLLWNGELNVLVSIDPSFLMKGSPREIAVLRIRVPRETYLVNYMPLIWNKIKSFLSFDPLTDSEKYFWFEHNKTPIPWNYPVGVLFDCLADVLTFLRIHLVMGDSLPPTIIPIAKTQAEKFWFHQWKQVCFILNGSSKAIMSLSVNEARKFWGSVITRNFQDFIEISNKISSSRPRHIPLIIQTSRTSGTFRISQPTISMTGVNPTLKDIEGDILDVKEDVMVICQGIEIPWHMLLYDLYSKLRSFDGFLYITLVPI 3w1v-a1-m3-cB_3w1v-a1-m2-cA Crystal Structure of Capsular Polysaccharide Synthesizing Enzyme CapE from Staphylococcus aureus in complex with inihibitor A0A0H3JPH0 A0A0H3JPH0 2.1 X-RAY DIFFRACTION 63 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 346 347 3vvc-a1-m1-cA_3vvc-a1-m6-cA 3vvc-a1-m2-cA_3vvc-a1-m5-cA 3vvc-a1-m3-cA_3vvc-a1-m4-cA 3w1v-a1-m1-cB_3w1v-a1-m3-cA 3w1v-a1-m2-cB_3w1v-a1-m1-cA 4g5h-a1-m1-cA_4g5h-a1-m4-cA 4g5h-a1-m2-cA_4g5h-a1-m6-cA 4g5h-a1-m3-cA_4g5h-a1-m5-cA GLVPRGSAMGFDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMASRGSVIPLFIDKIKAGEPLTITDPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLELFEADNAIEIIGTRHGEKKAETLLTREEYAQCEDMGDYFRVPADSRDLNYSNYVETGNEKITQSYEYNSDNTHILTVEEIKEKLLTLEYVRNELNDY GLVPRGSAMGFDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMASRGSVIPLFIDKIKAGEPLTITDPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLELFEADNAIEIIGTRHGEKKAETLLTREEYAQCEDMGDYFRVPADSRDLNYSNYVETGNEKITQSYEYNSDNTHILTVEEIKEKLLTLEYVRNELNDYK 3w1y-a1-m1-cB_3w1y-a1-m1-cA Crystal structure of T brucei ATG8.2 in complex with E coli S10 Q57WE7 Q57WE7 2.3 X-RAY DIFFRACTION 21 1.0 104 120 YRYQYTRSFAERAKETESARLRYPKHIPILCEPTSDCNKFLLPETATVMEFMMALRQRLLLEEGQAVFVFIGNELPPNSACLGDIYARAKDPDGFLYVSYGVEN HYRYQYTRSFAERAKETESARLRYPKHIPILCEPTSVRLFSTRQQVQRELDCNKFLLPETATVMEFMMALRQRLLLEEGQAVFVFIGNELPPNSACLGDIYARAKDPDGFLYVSYGVENT 3w1y-a2-m2-cB_3w1y-a2-m1-cA Crystal structure of T brucei ATG8.2 in complex with E coli S10 Q57WE7 Q57WE7 2.3 X-RAY DIFFRACTION 19 1.0 104 120 YRYQYTRSFAERAKETESARLRYPKHIPILCEPTSDCNKFLLPETATVMEFMMALRQRLLLEEGQAVFVFIGNELPPNSACLGDIYARAKDPDGFLYVSYGVEN HYRYQYTRSFAERAKETESARLRYPKHIPILCEPTSVRLFSTRQQVQRELDCNKFLLPETATVMEFMMALRQRLLLEEGQAVFVFIGNELPPNSACLGDIYARAKDPDGFLYVSYGVENT 3w1z-a1-m1-cA_3w1z-a1-m4-cB Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 11 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 134 143 3w1z-a1-m2-cA_3w1z-a1-m3-cB 3w1z-a1-m3-cA_3w1z-a1-m2-cB 3w1z-a1-m4-cA_3w1z-a1-m1-cB PPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK MSLQPFFGFPPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w1z-a1-m1-cB_3w1z-a1-m4-cB Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 19 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 143 143 3w1z-a1-m2-cB_3w1z-a1-m3-cB MSLQPFFGFPPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK MSLQPFFGFPPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w1z-a1-m2-cA_3w1z-a1-m4-cA Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 16 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 134 134 3w1z-a1-m1-cA_3w1z-a1-m3-cA PPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK PPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w1z-a1-m4-cC_3w1z-a1-m1-cB Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 100 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 130 143 3w1z-a1-m1-cC_3w1z-a1-m4-cB 3w1z-a1-m2-cC_3w1z-a1-m3-cB 3w1z-a1-m3-cC_3w1z-a1-m2-cB NDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK MSLQPFFGFPPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w1z-a1-m4-cD_3w1z-a1-m2-cB Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 26 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 110 143 3w1z-a1-m1-cC_3w1z-a1-m1-cA 3w1z-a1-m1-cD_3w1z-a1-m3-cB 3w1z-a1-m2-cC_3w1z-a1-m2-cA 3w1z-a1-m2-cD_3w1z-a1-m4-cB 3w1z-a1-m3-cC_3w1z-a1-m3-cA 3w1z-a1-m3-cD_3w1z-a1-m1-cB 3w1z-a1-m4-cC_3w1z-a1-m4-cA ELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK MSLQPFFGFPPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w1z-a1-m4-cD_3w1z-a1-m4-cA Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 59 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 110 134 3w1z-a1-m1-cD_3w1z-a1-m1-cA 3w1z-a1-m1-cD_3w1z-a1-m3-cA 3w1z-a1-m2-cD_3w1z-a1-m2-cA 3w1z-a1-m2-cD_3w1z-a1-m4-cA 3w1z-a1-m3-cD_3w1z-a1-m1-cA 3w1z-a1-m3-cD_3w1z-a1-m3-cA 3w1z-a1-m4-cD_3w1z-a1-m2-cA ELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK PPTVNDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w1z-a1-m4-cD_3w1z-a1-m4-cC Heat shock protein 16.0 from Schizosaccharomyces pombe O14368 O14368 2.401 X-RAY DIFFRACTION 103 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 110 130 3w1z-a1-m1-cA_3w1z-a1-m1-cB 3w1z-a1-m1-cD_3w1z-a1-m1-cC 3w1z-a1-m2-cA_3w1z-a1-m2-cB 3w1z-a1-m2-cD_3w1z-a1-m2-cC 3w1z-a1-m3-cA_3w1z-a1-m3-cB 3w1z-a1-m3-cD_3w1z-a1-m3-cC 3w1z-a1-m4-cA_3w1z-a1-m4-cB ELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK NDLFSDFVSYSPRLNNQIPGELSPSIDVHEGKDTVSVDVELPGVKKEDVQVHYDSGKLTISGEVVNERKNESTEGNQRWSERRFGSFSRTITIPAKIDADRIEANFSNGLLTVTLPKVEKSQTKKQIAIK 3w20-a1-m1-cB_3w20-a1-m1-cA Crystal Structure of a Novel N-Substituted L-Amino Acid Dioxygenase from Burkholderia ambifaria AMMD Q0B2N4 Q0B2N4 1.77 X-RAY DIFFRACTION 92 0.996 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 240 244 3w21-a1-m1-cB_3w21-a1-m1-cA QHTYPAQLRFGTAARAEHTIAAAIHALDADEADAIVDIVPDGERDAWWDDEGFSSSVTLGQLQREQGDKLVSKAAEYFGIACRVNDGLRTTRFVRLFSDALDAKPLTIGDYEVEFLLATRRVYEPAPHCDDVSYGRDTVNWPLKRSFPRQLGGFLTIQGADNDAGVWDNRPESRAALDEHAEYRETGAIAALERAAKILKPQPGQLTLFQSKNLHAIERCTSTRRTGLFLIHTEDGWRFD QHTYPAQLRFGTAARAEHTIAAAIHALDADEADAIVDIVPDGERDAWWDDEGFSSSVTLGQLQREQGDKLVSKAAEYFGIACRVNDGLRTTRFVRLFSDALDAKPLTIGYEVEFLLATRRVYEPFEAPFAPHCDDVSYGRDTVNWPLKRSFPRQLGGFLTIQGADNDAGVWDNRPESRAALDEHAEYRETGAIAALERAAKILKPQPGQLTLFQSKNLHAIERCTSTRRTGLFLIHTEDGWRFD 3w2w-a2-m1-cB_3w2w-a2-m2-cB Crystal structure of the Cmr2dHD-Cmr3 subcomplex bound to ATP Q8U1S7 Q8U1S7 2.5 X-RAY DIFFRACTION 240 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 308 308 MIEVTFTPYDVLLFRESRPFDAGSESVARSIIPLPQTVAGAIRTLLKGLKNCVGVGEEEPEFTLVGIAIGTEKGRIYPLPFNIIKSFYKVVNPGRFLGKLILPPKGKYKSGYVTESILEKYLKGELKEVEENKVIRIEKEKRIGIKLMLYTVEFLRIEKIYAWIEDPGCGIKDILSSYEFLTLGGESRVAFVEVDDKTPDIFNRELGSTKKALFYFSTPTIGKVGEIVQELEKRLNAKIDDYLLVSSRPTAISGWDMHEKKPKGTKFAIPPGSVLFVEFKEEVEVPPYIKLGKLKKLGYGLALGGIWE MIEVTFTPYDVLLFRESRPFDAGSESVARSIIPLPQTVAGAIRTLLKGLKNCVGVGEEEPEFTLVGIAIGTEKGRIYPLPFNIIKSFYKVVNPGRFLGKLILPPKGKYKSGYVTESILEKYLKGELKEVEENKVIRIEKEKRIGIKLMLYTVEFLRIEKIYAWIEDPGCGIKDILSSYEFLTLGGESRVAFVEVDDKTPDIFNRELGSTKKALFYFSTPTIGKVGEIVQELEKRLNAKIDDYLLVSSRPTAISGWDMHEKKPKGTKFAIPPGSVLFVEFKEEVEVPPYIKLGKLKKLGYGLALGGIWE 3w2z-a1-m1-cA_3w2z-a1-m2-cA Crystal structure of the cyanobacterial protein Q8YXY7 Q8YXY7 1.8 X-RAY DIFFRACTION 79 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 178 178 SGLVPRGSHMAVSKVMEKILRVSNIDKIFQTTTQEIRQLLKCDRVAVYRFNPDWSGEFVAESVGSGWVKLVGPDIKTVWEDTHLQETQGGRYRHQESFVVNDIYEAGHFSCHLEILEQFEIKAYIIVPVFAAEKLWGLLAAYQNSGTREWVEWESSFLTQVGLQFGIAISHAEYLEQT SGLVPRGSHMAVSKVMEKILRVSNIDKIFQTTTQEIRQLLKCDRVAVYRFNPDWSGEFVAESVGSGWVKLVGPDIKTVWEDTHLQETQGGRYRHQESFVVNDIYEAGHFSCHLEILEQFEIKAYIIVPVFAAEKLWGLLAAYQNSGTREWVEWESSFLTQVGLQFGIAISHAEYLEQT 3w34-a1-m1-cB_3w34-a1-m1-cA Ternary complex of Thermus thermophilus HB8 uridine-cytidine kinase with substrates Q5SKR5 Q5SKR5 1.91 X-RAY DIFFRACTION 63 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 203 208 3asy-a1-m1-cB_3asy-a1-m1-cA 3asz-a1-m1-cA_3asz-a1-m1-cB 3w8r-a1-m1-cB_3w8r-a1-m1-cA KPFVIGIAGGTASGKTTLAQALARTLGERVALLPMDHYYKDLGHLPLEERLRVNYDHPDAFDLALYLEHAQALLRGLPVEMPVYDFRAYTRSPRRTPVRPAPVVILEGILVLYPKELRDLMDLKVFVDADADERFIRRLKRDVLERGRSLEGVVAQYLEQVKPMHLHFVEPTKRYADVIVPRGGQNPVALEMLAAKALARLAR PKPFVIGIAGGTASGKTTLAQALARTLGERVALLPMDHYYKDLGHLPLEERLRVNYDHPDAFDLALYLEHAQALLRGLPVEMPVYDFRAYTRSPRRTPVRPAPVVILEGILVLYPKELRDLMDLKVFVDADADERFIRRLKRDVLERGRSLEGVVAQYLEQVKPMHLHFVEPTKRYADVIVPRGGQNPVALEMLAAKALARLARMGAA 3w36-a1-m1-cA_3w36-a1-m1-cB Crystal structure of holo-type bacterial Vanadium-dependent chloroperoxidase A7KH27 A7KH27 1.97 X-RAY DIFFRACTION 147 0.998 470 471 3w35-a1-m1-cA_3w35-a1-m1-cB IEFDLDKDNYIKWAQPTDENAGQSPTLAILGPMDVTVFLWINRVVWLAAFDALAPYHETAVGVYSQIPRRPSSESATNRNLNIAALHAQHGVWKRVLPQQVDQLRELMTALGLDPSDETENLSSPVGIGNVAAKNAFNALKNDGMNFLGYEGRKYNPRPWADYTGYEPVNTAFKVNNPSRWQPQLQAHNARRAGGGPGDLGIYVTQHFVTPQTARTKAHIFRDPSRFRIPRPEFSDHTNTRAYKRSVDEIIDASANLNDERKALAEIMENKLWGIGHSSIVIANKYDQNNEMGVHGWCHWMLAHVLATFEPLIAAWHHKTRFDAVRPVTAIRHVYGNRKIRAWGGVGMGTVDIRASEWSSYLPVGDHPEYPSGSTSLCSATSQAARRYFDSDELDWTINYPAGSTVVEPGITPGKDLSIHIPTWTDFTRTCATSRVWGGVHFQTTVDRTIDFGEQFGDLAHEFVQRHVKG EFDLDKDNYIKWAQPTDENAGQSPTLAILGPMDVTVFLWINRVVWLAAFDALAPYHETAVGVYSQIPRRPSSESATNRNLNIAALHAQHGVWKRVLPQQVDQLRELMTALGLDPSDETENLSSPVGIGNVAAKNAFNALKNDGMNFLGYEGRKYNPRPWADYTGYEPVNTAFKVNNPSRWQPQLQAHNARRAGGGPGDLGIYVTQHFVTPQTARTKAHIFRDPSRFRIPRPEFSDHTNTRAYKRSVDEIIDASANLNDERKALAEIMENKLWGIGHSSIVIANKYDQNNEMGVHGWCHWMLAHVLATFEPLIAAWHHKTRFDAVRPVTAIRHVYGNRKIRAWGGVGMGTVDIRASEWSSYLPVGDHPEYPSGSTSLCSATSQAARRYFDSDELDWTINYPAGSTVVEPGITPGKDLSIHIPTWTDFTRTCATSRVWGGVHFQTTVDRTIDFGEQFGDLAHEFVQRHVKGDV 3w3s-a1-m1-cA_3w3s-a1-m2-cA Crystal structure of A. aeolicus tRNASec in complex with M. kandleri SerRS Q8TVD2 Q8TVD2 3.095 X-RAY DIFFRACTION 312 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 519 519 ELKFSAEVELTLSREVDPAEIEPTVEEFVKEANEDLLQRGVPTGKEGAKIESYYVLYDTIYEITGTRYLRPHEAARVRKRLAERLGRKHRVGVRDLKIPRYEVVLRFDREVTYDYVGYVPVADDVVVEDGTVRLTFQDVDEELRRHVIDRVIRLVAWAVEERSELVERVTKVEPGTVVDESGPRRIRFRGDVTEEARRRGWVKEFPGRGQWIYTPPAALFEVLRDFLLERVTRKLGFEPALFPKLIPLETFRRYLHGLPDGYYVCPPKRDPELFDDFKRELYVWGELNERTLGSLKEKLRDPGYVLAPAQCEPFYELLRDEVVDPERLPIKLYDCSGWTYRWEGGAAKGLERVNEFQRIEHVWIAEPEEAYRIRRELLEATKRVAEELELEWKVVVSDDPFYLEGRLLEDRDIELPDVPSYEFEVYLPFKGERSSEEAWISVGSFNVHGEHFVDGFNVKEKSGRTLFTGCAGLGVTRWVVGLLAQHGFYPYEWPEPILERIDEKFGGLPEVPKTLTWPE ELKFSAEVELTLSREVDPAEIEPTVEEFVKEANEDLLQRGVPTGKEGAKIESYYVLYDTIYEITGTRYLRPHEAARVRKRLAERLGRKHRVGVRDLKIPRYEVVLRFDREVTYDYVGYVPVADDVVVEDGTVRLTFQDVDEELRRHVIDRVIRLVAWAVEERSELVERVTKVEPGTVVDESGPRRIRFRGDVTEEARRRGWVKEFPGRGQWIYTPPAALFEVLRDFLLERVTRKLGFEPALFPKLIPLETFRRYLHGLPDGYYVCPPKRDPELFDDFKRELYVWGELNERTLGSLKEKLRDPGYVLAPAQCEPFYELLRDEVVDPERLPIKLYDCSGWTYRWEGGAAKGLERVNEFQRIEHVWIAEPEEAYRIRRELLEATKRVAEELELEWKVVVSDDPFYLEGRLLEDRDIELPDVPSYEFEVYLPFKGERSSEEAWISVGSFNVHGEHFVDGFNVKEKSGRTLFTGCAGLGVTRWVVGLLAQHGFYPYEWPEPILERIDEKFGGLPEVPKTLTWPE 3w4u-a1-m1-cA_3w4u-a1-m1-cC Human zeta-2 beta-2-s hemoglobin P02008 P02008 1.95 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 SLTKTERTIIVSMWAKISTQADTIGTETLERLFLSHPQTKTYFPHFDLHPGSAQLRAHGSKVVAAVGDAVKSIDDIGGALSKLSELHAYILRVDPVNFKLLSHCLLVTLAARFPADFTAEAHAAWDKFLSVVSSVLTEKYR SLTKTERTIIVSMWAKISTQADTIGTETLERLFLSHPQTKTYFPHFDLHPGSAQLRAHGSKVVAAVGDAVKSIDDIGGALSKLSELHAYILRVDPVNFKLLSHCLLVTLAARFPADFTAEAHAAWDKFLSVVSSVLTEKYR 3w4y-a2-m1-cB_3w4y-a2-m2-cB Crystal structure of yeast Erv1 core P27882 P27882 2 X-RAY DIFFRACTION 129 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 118 118 3w4y-a1-m1-cA_3w4y-a1-m1-cC 4e0h-a1-m1-cA_4e0h-a1-m2-cA 4e0i-a1-m1-cB_4e0i-a1-m1-cA 4e0i-a2-m1-cC_4e0i-a2-m2-cC SHMPGSRTYRKVDPPDVEQLGRSSWTLLHSVAASYPAQPTDQQKGEMKQFLNIFSHIYPCNWCAKDFEKYIRENAPQVESREELGRWMCEAHNKVNKKLRKPKFDCNFWEKRWKDGWD SHMPGSRTYRKVDPPDVEQLGRSSWTLLHSVAASYPAQPTDQQKGEMKQFLNIFSHIYPCNWCAKDFEKYIRENAPQVESREELGRWMCEAHNKVNKKLRKPKFDCNFWEKRWKDGWD 3w5j-a1-m1-cB_3w5j-a1-m1-cA Crystal structure of GDP-bound NfeoB from Gallionella capsiferriformans D9SIP4 D9SIP4 1.932 X-RAY DIFFRACTION 105 1.0 395494 (Gallionella capsiferriformans ES-2) 395494 (Gallionella capsiferriformans ES-2) 193 194 3w5i-a1-m1-cA_3w5i-a1-m1-cB FKRIALLGMPNTGKSTLFNRMTGGAARVGNWPGITVELLSGKILLGADMVEIIDLPGIYDLHGFSDDEQVVRHFLHDNVPDLALVILNATQIERQMSLLLQLKQLNMNIVVLLNMSDEAKQYGITIDSRKMSELLQIPVFQLSTGYQEALQAVTRALRYPTPGMAENVRTQLEQDEHIEAEMVRILKSAVQIP QFKRIALLGMPNTGKSTLFNRMTGGAARVGNWPGITVELLSGKILLGADMVEIIDLPGIYDLHGFSDDEQVVRHFLHDNVPDLALVILNATQIERQMSLLLQLKQLNMNIVVLLNMSDEAKQYGITIDSRKMSELLQIPVFQLSTGYQEALQAVTRALRYPTPGMAENVRTQLEQDEHIEAEMVRILKSAVQIP 3w5s-a1-m1-cA_3w5s-a1-m1-cB Crystal Structure of Maleylacetate Reductase from Rhizobium sp. strain MTP-10005 A1IIX4 A1IIX4 1.49 X-RAY DIFFRACTION 71 1.0 267998 (Rhizobium sp. MTP-10005) 267998 (Rhizobium sp. MTP-10005) 350 350 MQPFVYTTAPARIVFGTGSSVGVAEEIRRLGLSRALVLSTPHQKGDAEALAARLGPLAAGVFSDAAMHTPVEVTKRAVEAYRAAGADCVVSLGGGSTTGLGKAIALRTDAPQIVIPTTYAGSEVTPILGQTENGVKTTLRGPEILPEVVIYDAELTLGLPVGISMTSGLNAMAHAAEALYARDRNPIASMMAVEGLRAMIEALPGVRMEPQDTKARETALYGAWLCGTVLGAVGMSLHHKLCHTLGGSLDLPHAETHAVLLPYTIAYVEQAVPDQLAPLAALVGGRAGTGLYDFAARLGAPASLAALGVGGEDLDAMAELATANPYWCPRPVEKTAIRALLQRAFEGARP MQPFVYTTAPARIVFGTGSSVGVAEEIRRLGLSRALVLSTPHQKGDAEALAARLGPLAAGVFSDAAMHTPVEVTKRAVEAYRAAGADCVVSLGGGSTTGLGKAIALRTDAPQIVIPTTYAGSEVTPILGQTENGVKTTLRGPEILPEVVIYDAELTLGLPVGISMTSGLNAMAHAAEALYARDRNPIASMMAVEGLRAMIEALPGVRMEPQDTKARETALYGAWLCGTVLGAVGMSLHHKLCHTLGGSLDLPHAETHAVLLPYTIAYVEQAVPDQLAPLAALVGGRAGTGLYDFAARLGAPASLAALGVGGEDLDAMAELATANPYWCPRPVEKTAIRALLQRAFEGARP 3w67-a1-m1-cA_3w67-a1-m1-cB Crystal structure of mouse alpha-tocopherol transfer protein in complex with alpha-tocopherol and phosphatidylinositol-(3,4)-bisphosphate Q8BWP5 Q8BWP5 2.61 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 251 253 3w67-a1-m1-cC_3w67-a1-m1-cD 3w68-a1-m1-cA_3w68-a1-m1-cB 3w68-a1-m1-cD_3w68-a1-m1-cC QPGLAELRRRVQEAGVPQTPQPLTDAFLLRFLRARDFDLDLAWRLMKNYYKWRAECPELSADLRPRSILGLLKAGYHGVLRSRDSTGSRVLIYRIAYWDPKVFTAYDVFRVSLITSELIVQEVETQRNGVKAIFDLEGWQVSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKDRIHLHGNNYKSSMLQHFPDILPREYGGKEFSMEDICQEWTNFIMKSEDYLSSISE LLQPGLAELRRRVQEAGVPQTPQPLTDAFLLRFLRARDFDLDLAWRLMKNYYKWRAECPELSADLRPRSILGLLKAGYHGVLRSRDSTGSRVLIYRIAYWDPKVFTAYDVFRVSLITSELIVQEVETQRNGVKAIFDLEGWQVSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKDRIHLHGNNYKSSMLQHFPDILPREYGGKEFSMEDICQEWTNFIMKSEDYLSSISE 3w68-a1-m1-cA_3w68-a1-m1-cC Crystal structure of mouse alpha-tocopherol transfer protein in complex with alpha-tocopherol and phosphatidylinositol-(4,5)-bisphosphate Q8BWP5 Q8BWP5 2.05 X-RAY DIFFRACTION 15 0.996 10090 (Mus musculus) 10090 (Mus musculus) 251 252 3w67-a1-m1-cC_3w67-a1-m1-cA 3w67-a1-m1-cD_3w67-a1-m1-cB 3w68-a1-m1-cD_3w68-a1-m1-cB QPGLAELRRRVQEAGVPQTPQPLTDAFLLRFLRARDFDLDLAWRLMKNYYKWRAECPELSADLRPRSILGLLKAGYHGVLRSRDSTGSRVLIYRIAYWDPKVFTAYDVFRVSLITSELIVQEVETQRNGVKAIFDLEGWQVSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKDRIHLHGNNYKSSMLQHFPDILPREYGGKEFSMEDICQEWTNFIMKSEDYLSSISE PGLAELRRRVQEAGVPQTPQPLTDAFLLRFLRARDFDLDLAWRLMKNYYKWRAECPELSADLRPRSILGLLKAGYHGVLRSRDSTGSRVLIYRIAYWDPKVFTAYDVFRVSLITSELIVQEVETQRNGVKAIFDLEGWQVSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKDRIHLHGNNYKSSMLQHFPDILPREYGGKEFSMEDICQEWTNFIMKSEDYLSSISETI 3w6j-a2-m1-cE_3w6j-a2-m1-cF Crystal structure of ScpAB core complex A0A0E0TE00 A0A0E0TE00 2.6 X-RAY DIFFRACTION 100 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 164 170 3w6j-a1-m1-cC_3w6j-a1-m1-cB 3w6k-a2-m1-cE_3w6k-a2-m1-cF KPAKAIVEALLFAAGDEGLSLSQIAAVLEVSELEAKAVIEELQQDCRREERGIQLVELGGVFLLATKKEHAPYLKKLVEAPLSQAALETLAIIAYRQPITRAEIEEIRGVKSDKPLQTLMARALIKEVGRAEGTGRPILYGTTPEFLDYFGLKTLEELPPLPEW ALKPAKAIVEALLFAAGDEGLSLSQIAAVLEVSELEAKAVIEELQQDCRREERGIQLVELGGVFLLATKKEHAPYLKKLVEAPGASPLSQAALETLAIIAYRQPITRAEIEEIRGVKSDKPLQTLMARALIKEVGRAEGTGRPILYGTTPEFLDYFGLKTLEELPPLPEW 3w6s-a2-m1-cC_3w6s-a2-m1-cB yeast N-acetyltransferase Mpr1 involved in oxidative stress tolerance via proline metabolism E9P8D2 E9P8D2 1.9 X-RAY DIFFRACTION 98 1.0 658763 (Saccharomyces cerevisiae Sigma1278b) 658763 (Saccharomyces cerevisiae Sigma1278b) 223 224 3w6s-a1-m1-cA_3w6s-a1-m2-cA 3w6x-a1-m1-cA_3w6x-a1-m1-cB 3w6x-a2-m1-cD_3w6x-a2-m1-cC 3w6x-a3-m1-cF_3w6x-a3-m1-cE 3w6x-a4-m1-cG_3w6x-a4-m1-cH 3w6x-a5-m1-cI_3w6x-a5-m1-cJ 3w6x-a6-m1-cK_3w6x-a6-m1-cL 3w91-a1-m1-cA_3w91-a1-m2-cA 3w91-a2-m1-cB_3w91-a2-m1-cC SIEWKLTANLRNGPTFFQPLADSIEPLQFKLIGSDTVATAFPVFDTKYIPDSLINYLFKLFNLEIESGKTYPQLHSLTKQGFLNYWFHSFAVVVLQTDEKFIQDNQDWNSVLLGTFYIKPNYAPRCSHNCNAGFLVNGAHRGQKVGYRLAQVYLNWAPLLGYKYSIFNLVFVTNQASWIWDKLNFQRIGLVPHAGILNGFSEPVDAIIYGKDLTKIEPEFLSM SIEWKLTANLRNGPTFFQPLADSIEPLQFKLIGSDTVATAFPVFDTKYIPDSLINYLFKLFNLEIESGKTYPQLHSLTKQGFLNYWFHSFAVVVLQTDEKFIQDNQDWNSVLLGTFYIKPNYAPRCSHNCNAGFLVNGAHRGQKVGYRLAQVYLNWAPLLGYKYSIFNLVFVTNQASWKIWDKLNFQRIGLVPHAGILNGFSEPVDAIIYGKDLTKIEPEFLSM 3w77-a1-m1-cA_3w77-a1-m1-cB Crystal Structure of azoreductase AzrA Q0WXX2 Q0WXX2 1.66 X-RAY DIFFRACTION 79 1.0 391699 (Bacillus sp. B29) 391699 (Bacillus sp. B29) 207 207 3p0r-a1-m1-cA_3p0r-a1-m2-cA ATVLFVKANNRPAEQAVSVKLYEAFLANYKEAHPNDTVVELDLYKEELPYVGVDMINGTFKAGKGFDLTEEEAKAVAVADKYLNQFLEADKVVFGFPLWNLTIPAVLHTYIDYLNRAGKTFKYTPEGPVGLIGDKKIALLNARGGVYSEGPAAEVEMAVKYVASMMGFFGATNMETVIIEGHNQFPDKAEEIIAAGLEEAAKVASKF ATVLFVKANNRPAEQAVSVKLYEAFLANYKEAHPNDTVVELDLYKEELPYVGVDMINGTFKAGKGFDLTEEEAKAVAVADKYLNQFLEADKVVFGFPLWNLTIPAVLHTYIDYLNRAGKTFKYTPEGPVGLIGDKKIALLNARGGVYSEGPAAEVEMAVKYVASMMGFFGATNMETVIIEGHNQFPDKAEEIIAAGLEEAAKVASKF 3w79-a2-m1-cC_3w79-a2-m1-cD Crystal Structure of azoreductase AzrC in complex with sulfone-modified azo dye Orange I C0STY1 C0STY1 2.4 X-RAY DIFFRACTION 83 1.0 391699 (Bacillus sp. B29) 391699 (Bacillus sp. B29) 210 210 3w78-a1-m1-cA_3w78-a1-m1-cB 3w78-a2-m1-cD_3w78-a2-m2-cD 3w78-a3-m1-cC_3w78-a3-m2-cC 3w79-a1-m1-cA_3w79-a1-m1-cB 3w7a-a1-m1-cA_3w7a-a1-m1-cB 3w7a-a2-m1-cC_3w7a-a2-m1-cD TKVLFITANPNSAEGSFGMAVGEAFIEAYKNEHPQDEVVTIDLFNTTVPAIDADVFAAWGKFAAGEGFEALTEVQQQKVAAMNTNLETFMNADRYVFVTPMWNFSYPPVVKAYLDNVAIAGKTFKYTENGPVGLLEGKKALHIQATGGVYSEGAYAAVDFGRNHLKTVLGFVGVNDTEYIAVEGMNANPEKAQEIKEAAIANARELAKRF TKVLFITANPNSAEGSFGMAVGEAFIEAYKNEHPQDEVVTIDLFNTTVPAIDADVFAAWGKFAAGEGFEALTEVQQQKVAAMNTNLETFMNADRYVFVTPMWNFSYPPVVKAYLDNVAIAGKTFKYTENGPVGLLEGKKALHIQATGGVYSEGAYAAVDFGRNHLKTVLGFVGVNDTEYIAVEGMNANPEKAQEIKEAAIANARELAKRF 3w7b-a1-m1-cB_3w7b-a1-m2-cB Crystal structure of formyltetrahydrofolate deformylase from Thermus thermophilus HB8 Q5SIP8 Q5SIP8 2.71 X-RAY DIFFRACTION 56 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 285 285 3w7b-a1-m1-cA_3w7b-a1-m2-cA MEEARLLVTCPDRPGIVAAVSGFLYAHGANITDLQQHSTDPEGGTFFMRVAFTASHLDLARPALERAFQEVVASRFQMQWRLAYASERKRTAILVSKPAHALLELLWRYRVGELPMELRLVISNHPDHREEVERFGIPYHHVPVEKGRKEEAEERILALLEAEGVELVVLARYMQILSPGFVERFPMRIINIHHSFLPAFAGADPYRQAYERGVKLIGATAHYVTEELDQGPIIEQDVVRVSHRHSVREMKRLGRELERTVLARAVRWHLEDRILVHENRTVVFV MEEARLLVTCPDRPGIVAAVSGFLYAHGANITDLQQHSTDPEGGTFFMRVAFTASHLDLARPALERAFQEVVASRFQMQWRLAYASERKRTAILVSKPAHALLELLWRYRVGELPMELRLVISNHPDHREEVERFGIPYHHVPVEKGRKEEAEERILALLEAEGVELVVLARYMQILSPGFVERFPMRIINIHHSFLPAFAGADPYRQAYERGVKLIGATAHYVTEELDQGPIIEQDVVRVSHRHSVREMKRLGRELERTVLARAVRWHLEDRILVHENRTVVFV 3w7b-a1-m2-cA_3w7b-a1-m2-cB Crystal structure of formyltetrahydrofolate deformylase from Thermus thermophilus HB8 Q5SIP8 Q5SIP8 2.71 X-RAY DIFFRACTION 72 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 285 285 3w7b-a1-m1-cA_3w7b-a1-m1-cB MEEARLLVTCPDRPGIVAAVSGFLYAHGANITDLQQHSTDPEGGTFFMRVAFTASHLDLARPALERAFQEVVASRFQMQWRLAYASERKRTAILVSKPAHALLELLWRYRVGELPMELRLVISNHPDHREEVERFGIPYHHVPVEKGRKEEAEERILALLEAEGVELVVLARYMQILSPGFVERFPMRIINIHHSFLPAFAGADPYRQAYERGVKLIGATAHYVTEELDQGPIIEQDVVRVSHRHSVREMKRLGRELERTVLARAVRWHLEDRILVHENRTVVFV MEEARLLVTCPDRPGIVAAVSGFLYAHGANITDLQQHSTDPEGGTFFMRVAFTASHLDLARPALERAFQEVVASRFQMQWRLAYASERKRTAILVSKPAHALLELLWRYRVGELPMELRLVISNHPDHREEVERFGIPYHHVPVEKGRKEEAEERILALLEAEGVELVVLARYMQILSPGFVERFPMRIINIHHSFLPAFAGADPYRQAYERGVKLIGATAHYVTEELDQGPIIEQDVVRVSHRHSVREMKRLGRELERTVLARAVRWHLEDRILVHENRTVVFV 3w88-a1-m1-cA_3w88-a1-m1-cB Structure of Trypanosoma cruzi dihydroorotate dehydrogenase in complex with SH-1-200 Q4D3W2 Q4D3W2 1.4 X-RAY DIFFRACTION 171 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 314 314 2djl-a1-m1-cA_2djl-a1-m1-cB 2djx-a1-m1-cA_2djx-a1-m1-cB 2e68-a1-m1-cA_2e68-a1-m1-cB 2e6a-a1-m1-cA_2e6a-a1-m1-cB 2e6d-a1-m1-cA_2e6d-a1-m1-cB 2e6f-a1-m1-cA_2e6f-a1-m1-cB 3c3n-a1-m1-cA_3c3n-a1-m1-cD 3c3n-a1-m1-cB_3c3n-a1-m1-cC 3w1a-a1-m1-cA_3w1a-a1-m1-cB 3w1l-a1-m1-cA_3w1l-a1-m1-cB 3w1m-a1-m1-cA_3w1m-a1-m1-cB 3w1n-a1-m1-cA_3w1n-a1-m1-cB 3w1p-a1-m1-cA_3w1p-a1-m1-cB 3w1q-a1-m1-cA_3w1q-a1-m1-cB 3w1r-a1-m1-cA_3w1r-a1-m1-cB 3w1t-a1-m1-cA_3w1t-a1-m1-cB 3w1u-a1-m1-cA_3w1u-a1-m1-cB 3w1x-a1-m1-cA_3w1x-a1-m1-cB 3w22-a1-m1-cA_3w22-a1-m1-cB 3w23-a1-m1-cA_3w23-a1-m1-cB 3w2j-a1-m1-cA_3w2j-a1-m1-cB 3w2k-a1-m1-cA_3w2k-a1-m1-cB 3w2l-a1-m1-cA_3w2l-a1-m1-cB 3w2m-a1-m1-cA_3w2m-a1-m1-cB 3w2n-a1-m1-cA_3w2n-a1-m1-cB 3w2u-a1-m1-cA_3w2u-a1-m1-cB 3w3o-a1-m1-cA_3w3o-a1-m1-cB 3w6y-a1-m1-cA_3w6y-a1-m1-cB 3w70-a1-m1-cA_3w70-a1-m1-cB 3w71-a1-m1-cA_3w71-a1-m1-cB 3w72-a1-m1-cA_3w72-a1-m1-cB 3w73-a1-m1-cA_3w73-a1-m1-cB 3w74-a1-m1-cA_3w74-a1-m1-cB 3w75-a1-m1-cA_3w75-a1-m1-cB 3w76-a1-m1-cA_3w76-a1-m1-cB 3w7c-a1-m1-cA_3w7c-a1-m1-cB 3w7d-a1-m1-cA_3w7d-a1-m1-cB 3w7e-a1-m1-cA_3w7e-a1-m1-cB 3w7g-a1-m1-cA_3w7g-a1-m1-cB 3w7h-a1-m1-cA_3w7h-a1-m1-cB 3w7i-a1-m1-cA_3w7i-a1-m1-cB 3w7j-a1-m1-cA_3w7j-a1-m1-cB 3w7k-a1-m1-cA_3w7k-a1-m1-cB 3w7l-a1-m1-cA_3w7l-a1-m1-cB 3w7m-a1-m1-cA_3w7m-a1-m1-cB 3w7n-a1-m1-cA_3w7n-a1-m1-cB 3w7o-a1-m1-cA_3w7o-a1-m1-cB 3w7p-a1-m1-cA_3w7p-a1-m1-cB 3w7q-a1-m1-cA_3w7q-a1-m1-cB 3w83-a1-m1-cA_3w83-a1-m1-cB 3w84-a1-m1-cA_3w84-a1-m1-cB 3w85-a1-m1-cA_3w85-a1-m1-cB 3w86-a1-m1-cA_3w86-a1-m1-cB 3w87-a1-m1-cA_3w87-a1-m1-cB 4jd4-a1-m1-cA_4jd4-a1-m1-cB 4jdb-a1-m1-cA_4jdb-a1-m1-cB 5e93-a1-m1-cA_5e93-a1-m1-cB 5ea9-a1-m1-cA_5ea9-a1-m1-cB SMCLKLNLLDHVFANPFMNAAGVLCSTEEDLRCMTASSSGALVSKSCTSAPRDGNPEPRYMAFPLGSINSMGLPNLGFDFYLKYASDLHDYSKKPLFLSISGLSVEENVAMVRRLAPVAQEKGVLLELNLSCPNVPGKPQVAYDFEAMRTYLQQVSLAYGLPFGVKMPPYFDIAHFDTAAAVLNEFPLVKFVTCVNSVGNGLVIDAESESVVIKPKQGFGGLGGKYILPTALANVNAFYRRCPDKLVFGCGGVYSGEDAFLHILAGASMVQVGTALQEEGPGIFTRLEDELLEIMARKGYRTLEEFRGRVKTIE SMCLKLNLLDHVFANPFMNAAGVLCSTEEDLRCMTASSSGALVSKSCTSAPRDGNPEPRYMAFPLGSINSMGLPNLGFDFYLKYASDLHDYSKKPLFLSISGLSVEENVAMVRRLAPVAQEKGVLLELNLSCPNVPGKPQVAYDFEAMRTYLQQVSLAYGLPFGVKMPPYFDIAHFDTAAAVLNEFPLVKFVTCVNSVGNGLVIDAESESVVIKPKQGFGGLGGKYILPTALANVNAFYRRCPDKLVFGCGGVYSGEDAFLHILAGASMVQVGTALQEEGPGIFTRLEDELLEIMARKGYRTLEEFRGRVKTIE 3w8q-a1-m1-cA_3w8q-a1-m2-cA Structure of the Human Mitogen-Activated Protein Kinase Kinase 1 (MEK1) Q02750 Q02750 2.2 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 318 ELELDEQQRKRLEAFLTQKQKVGELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFGCQRPPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLN ELELDEQQRKRLEAFLTQKQKVGELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFGCQRPPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLN 3w8s-a1-m1-cA_3w8s-a1-m2-cA Crystal structure of monomeric Na-GST-3, a glutathione s-transferase from the major human hookworm parasite Necator americanus D3U1A7 D3U1A7 2.07 X-RAY DIFFRACTION 75 1.0 51031 (Necator americanus) 51031 (Necator americanus) 205 205 VHYKLTYFDGRGAAEIIRQIFVLAGQEYEDIRLSHDEWPKYKNEMPFGQLPVLEVDGKKLAQSFAIARFVAKKFGFAGKCPFEEALVDSITDQYKDFINEIRPFLRVAMGFAEGDLEKLSNEVFLPAREKFFGFMTNFLKESKSGYLVGDSLTFADLYLAECASEFAKKTPTIFDGFPEIKAHAEKVRSNPALKKWIETRPETKF VHYKLTYFDGRGAAEIIRQIFVLAGQEYEDIRLSHDEWPKYKNEMPFGQLPVLEVDGKKLAQSFAIARFVAKKFGFAGKCPFEEALVDSITDQYKDFINEIRPFLRVAMGFAEGDLEKLSNEVFLPAREKFFGFMTNFLKESKSGYLVGDSLTFADLYLAECASEFAKKTPTIFDGFPEIKAHAEKVRSNPALKKWIETRPETKF 3w8v-a1-m1-cB_3w8v-a1-m1-cC Crystal Structure Analysis of the synthetic GCN4 coiled coil peptide 2.1 X-RAY DIFFRACTION 32 1.0 32 32 3w8v-a1-m1-cA_3w8v-a1-m1-cB 3w8v-a1-m1-cA_3w8v-a1-m1-cC RVARLEKKVSALEKKVAGLEKEVARLKKLVGE RVARLEKKVSALEKKVAGLEKEVARLKKLVGE 3w93-a1-m1-cC_3w93-a1-m1-cA Crystal Structure Analysis of the synthetic GCN4 Ester coiled coil peptide 1.5 X-RAY DIFFRACTION 30 1.0 30 31 3w92-a1-m1-cA_3w92-a1-m1-cB 3w92-a1-m1-cA_3w92-a1-m1-cC 3w92-a1-m1-cB_3w92-a1-m1-cC 3w93-a1-m1-cA_3w93-a1-m1-cB 3w93-a1-m1-cC_3w93-a1-m1-cB RVARLEKKVSALEKKVALEKEVARLKKLVG RVARLEKKVSALEKKVALEKEVARLKKLVGE 3w9b-a2-m1-cC_3w9b-a2-m1-cD Crystal structure of Candida antarctica lipase B with anion-tag P41365 P41365 2.9 X-RAY DIFFRACTION 86 1.0 317 317 3w9b-a1-m1-cA_3w9b-a1-m1-cB LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTP LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTP 3w9f-a5-m2-cC_3w9f-a5-m1-cA Crystal structure of the ankyrin repeat domain of chicken TRPV4 in complex with IP3 A0A1D5PXA5 A0A1D5PXA5 1.9 X-RAY DIFFRACTION 29 0.992 9031 (Gallus gallus) 9031 (Gallus gallus) 249 255 3w9f-a6-m3-cD_3w9f-a6-m1-cB 3w9g-a5-m2-cC_3w9g-a5-m1-cA 3w9g-a6-m3-cD_3w9g-a6-m1-cB KVFNRPILFDIVSRGSPDGLEGLLSFLLTHKKRLTDEEFREPSTGKTCLPKALLNLSAGRNDTIPILLDIAEKTGNMREFINSPFRDVYYRGQTALHIAIERRCKHYVELLVEKGADVHAQARGRFFYFYFGELPLSLAACTNQPHIVHYLTENGHKQADLRRQDSRGNTVLHALVAIADNTRENTKFVTKMYDLLLIKCAKLFPDTNLEALLNNDGLSPLMMAAKTGKIGIFQHIIRREIADAAAHHH MKVFNRPILFDIVSRGSPDGLEGLLSFLLTHKKRLTDEEFREPSTGKTCLPKALLNLSAGRNDTIPILLDIAEKTGNMREFINSPFRDVYYRGQTALHIAIERRCKHYVELLVEKGADVHAQARGRFFQPKDEGGYFYFGELPLSLAACTNQPHIVHYLTENGHKQADLRRQDSRGNTVLHALVAIADNTRENTKFVTKMYDLLLIKCAKLFPDTNLEALLNNDGLSPLMMAAKTGKIGIFQHIIRREIADAAAH 3w9j-a2-m1-cD_3w9j-a2-m1-cE Structural basis for the inhibition of bacterial multidrug exporters P52002 P52002 3.15 X-RAY DIFFRACTION 220 0.999 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 1019 1030 2v50-a1-m1-cA_2v50-a1-m1-cB 2v50-a1-m1-cA_2v50-a1-m1-cC 2v50-a1-m1-cB_2v50-a1-m1-cC 2v50-a2-m1-cD_2v50-a2-m1-cE 2v50-a2-m1-cD_2v50-a2-m1-cF 2v50-a2-m1-cE_2v50-a2-m1-cF 3w9i-a1-m1-cA_3w9i-a1-m1-cB 3w9i-a1-m1-cA_3w9i-a1-m1-cC 3w9i-a1-m1-cB_3w9i-a1-m1-cC 3w9i-a2-m1-cD_3w9i-a2-m1-cE 3w9i-a2-m1-cD_3w9i-a2-m1-cF 3w9i-a2-m1-cE_3w9i-a2-m1-cF 3w9j-a1-m1-cA_3w9j-a1-m1-cB 3w9j-a1-m1-cA_3w9j-a1-m1-cC 3w9j-a1-m1-cB_3w9j-a1-m1-cC 3w9j-a2-m1-cD_3w9j-a2-m1-cF 3w9j-a2-m1-cE_3w9j-a2-m1-cF 6iia-a1-m1-cA_6iia-a1-m1-cB 6iia-a1-m1-cA_6iia-a1-m1-cC 6iia-a1-m1-cB_6iia-a1-m1-cC 6iia-a2-m1-cD_6iia-a2-m1-cE 6iia-a2-m1-cD_6iia-a2-m1-cF 6iia-a2-m1-cE_6iia-a2-m1-cF 6iok-a1-m1-cE_6iok-a1-m1-cG 6iok-a1-m1-cF_6iok-a1-m1-cE 6iok-a1-m1-cF_6iok-a1-m1-cG 6iol-a1-m1-cE_6iol-a1-m1-cG 6iol-a1-m1-cF_6iol-a1-m1-cE 6iol-a1-m1-cF_6iol-a1-m1-cG 6t7s-a1-m1-cJ_6t7s-a1-m1-cK 6t7s-a1-m1-cJ_6t7s-a1-m1-cL 6t7s-a1-m1-cK_6t7s-a1-m1-cL 6ta5-a1-m1-cJ_6ta5-a1-m1-cK 6ta5-a1-m1-cJ_6ta5-a1-m1-cL 6ta5-a1-m1-cK_6ta5-a1-m1-cL 6ta6-a1-m1-cJ_6ta6-a1-m1-cK 6ta6-a1-m1-cJ_6ta6-a1-m1-cL 6ta6-a1-m1-cK_6ta6-a1-m1-cL MSKFFIDRPIFAWVIALVIMLAGGLSILSLPVNQYPAIAPPAIAVQVSYPGASAETVQDTVVQVIEQQMNGIDNLRYISSESNSDGSMTITVTFEQGTDPDIAQVQVQNKLQLATPLLPQEVQRQGIRVTKAVKNFLMVVGVVSTDGSMTKEDLSNYIVSNIQDPLSRTKGVGDFQVFGSQYSMRIWLDPAKLNSYQLTPGDVSSAIQAQNVQISSGQLGGLPAVKGQQLNATIIGKTRLQTAEQFENILLKVNPDGSQVRLKDVADVGLGGQDYSINAQFNGSPASGIAIKLATGANALDTAKAIRQTIANLEPFMPQGMKVVYPYDTTPVVSASIHEVVKTLGEAILLVFLVMYLFLQNFRATLIPTIAVPVVLLGTFGVLAAFGFSINTLTMFGMVLAIGLLVDDAIVVVENVERVMAEEGLSPREAARKSMGQIQGALVGIAMVLSAVFLPMAFFGGSTGVIYRQFSITIVSAMALSVIVALILTPALCATMLKPFFGWFNRMFLSTTHGYERGVASILKHRAPYLLIYVVIVAGMIWMFTRIPTAFLPDEDQGVLFAQVQTPPGSSAERTQVVVDSMREYLLEKESSSVSSVFTVTGFNFAGRGQSSGMAFIMLKPWEERPGGENSVFELAKRAQMHFFSFKDAMVFAFAPPSVLELGNATGFDLFLQDQAGVGHEVLLQARNKFLMLAAQNPALQRVRPNGMSDEPQYKLEIDDEKASALGVSLADINSTVSIAWGSSYVNDFIDRGRVKRVYLQGRPDARMNPDDLSKWYVRNDKGEMVPFNAFATGKWEYGSPKLERYNGVPAMEILGEPAPGLSSGDAMAAVEEIVKQLPKGVGYSWTGLSYEERLSGSQAPALYALSLLVVFLCLAALYESWSIPFSVMLVVPLGVIGALLATSMRGLSNDVFFQVGLLTTIGLSAKNAILIVEFAKELHEQGKGIVEAAIEACRMRLRPIVMTSLAFILGVVPLAISTGAGSGSQHAIGTGVIGGMVTATVLAIFWVPLFYVAVSTLF MSKFFIDRPIFAWVIALVIMLAGGLSILSLPVNQYPAIAPPAIAVQVSYPGASAETVQDTVVQVIEQQMNGIDNLRYISSESNSDGSMTITVTFEQGTDPDIAQVQVQNKLQLATPLLPQEVQRQGIRVTKAVKNFLMVVGVVSTDGSMTKEDLSNYIVSNIQDPLSRTKGVGDFQVFGSQYSMRIWLDPAKLNSYQLTPGDVSSAIQAQNVQISSGQLGGLPAVKGQQLNATIIGKTRLQTAEQFENILLKVNPDGSQVRLKDVADVGLGGQDYSINAQFNGSPASGIAIKLATGANALDTAKAIRQTIANLEPFMPQGMKVVYPYDTTPVVSASIHEVVKTLGEAILLVFLVMYLFLQNFRATLIPTIAVPVVLLGTFGVLAAFGFSINTLTMFGMVLAIGLLVDDAIVVVENVERVMAEEGLSPREAARKSMGQIQGALVGIAMVLSAVFLPMAFFGGSTGVIYRQFSITIVSAMALSVIVALILTPALCATMLKPIEKGDHGEHKGGFFGWFNRMFLSTTHGYERGVASILKHRAPYLLIYVVIVAGMIWMFTRIPTAFLPDEDQGVLFAQVQTPPGSSAERTQVVVDSMREYLLEKESSSVSSVFTVTGFNFAGRGQSSGMAFIMLKPWEERPGGENSVFELAKRAQMHFFSFKDAMVFAFAPPSVLELGNATGFDLFLQDQAGVGHEVLLQARNKFLMLAAQNPALQRVRPNGMSDEPQYKLEIDDEKASALGVSLADINSTVSIAWGSSYVNDFIDRGRVKRVYLQGRPDARMNPDDLSKWYVRNDKGEMVPFNAFATGKWEYGSPKLERYNGVPAMEILGEPAPGLSSGDAMAAVEEIVKQLPKGVGYSWTGLSYEERLSGSQAPALYALSLLVVFLCLAALYESWSIPFSVMLVVPLGVIGALLATSMRGLSNDVFFQVGLLTTIGLSAKNAILIVEFAKELHEQGKGIVEAAIEACRMRLRPIVMTSLAFILGVVPLAISTGAGSGSQHAIGTGVIGGMVTATVLAIFWVPLFYVAVSTL 3w9s-a1-m1-cA_3w9s-a1-m1-cB Crystal Structure Analysis of the N-terminal Receiver domain of Response Regulator PmrA 1.7 X-RAY DIFFRACTION 42 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 116 117 4s04-a1-m1-cA_4s04-a1-m1-cB 4s05-a1-m1-cA_4s05-a1-m1-cB KILVIEDDALLLQGLILAMQSEGYVCDGVSTAHEAALSLASNHYSLIVLDLGLPDEDGLHFLSRMRREKMTQPVLILTARDTLEDRISGLDTGADDYLVKPFALEELNARIRALLR KILVIEDDALLLQGLILAMQSEGYVCDGVSTAHEAALSLASNHYSLIVLDLGLPDEDGLHFLSRMRREKMTQPVLILTARDTLEDRISGLDTGADDYLVKPFALEELNARIRALLRR 3w9t-a1-m1-cF_3w9t-a1-m1-cG pore-forming CEL-III Q868M7 Q868M7 2.9 X-RAY DIFFRACTION 220 1.0 40245 (Cucumaria echinata) 40245 (Cucumaria echinata) 431 431 3w9t-a1-m1-cA_3w9t-a1-m1-cB 3w9t-a1-m1-cA_3w9t-a1-m1-cG 3w9t-a1-m1-cB_3w9t-a1-m1-cC 3w9t-a1-m1-cC_3w9t-a1-m1-cD 3w9t-a1-m1-cD_3w9t-a1-m1-cE 3w9t-a1-m1-cE_3w9t-a1-m1-cF VLCTNPLDIGELRSFKSKQCVDIVGNQGSGNIATYDCDGLSDQQIIICGDGTIRNEARNYCFTPDGSGNANVMSSPCTLYPEIPSSQRWRQGRRKTFTDNGGIEQVATEIINLASGKCLDIEGSDGTGDIGVYDCQNLDDQYFYVRSRGPELFYGRLRNEKSDLCLDVEGSDGKGNVLMYSCEDNLDQWFRYYENGEIVNAKSGMCLDVEGSDGSGNVGIYRCDDLRDQMWSRPNAYCNGDYCSFLNKESNKCLDVSGDQGTGDVGTWQCDGLPDQRFKWVFDDWEVPTATWNMVGCDQNGKVSQQISNTISFSSTVTAGVAVEVSSTIEKGVIFAKATVSVKVTASLSKAWTNSQSGTTAITYTCDNYDSDEEFTRGCMWQLAIETTEVKSGDLLVWNPQIVKCTRSNTAPGCAPFTKCANEDCTFCTDI VLCTNPLDIGELRSFKSKQCVDIVGNQGSGNIATYDCDGLSDQQIIICGDGTIRNEARNYCFTPDGSGNANVMSSPCTLYPEIPSSQRWRQGRRKTFTDNGGIEQVATEIINLASGKCLDIEGSDGTGDIGVYDCQNLDDQYFYVRSRGPELFYGRLRNEKSDLCLDVEGSDGKGNVLMYSCEDNLDQWFRYYENGEIVNAKSGMCLDVEGSDGSGNVGIYRCDDLRDQMWSRPNAYCNGDYCSFLNKESNKCLDVSGDQGTGDVGTWQCDGLPDQRFKWVFDDWEVPTATWNMVGCDQNGKVSQQISNTISFSSTVTAGVAVEVSSTIEKGVIFAKATVSVKVTASLSKAWTNSQSGTTAITYTCDNYDSDEEFTRGCMWQLAIETTEVKSGDLLVWNPQIVKCTRSNTAPGCAPFTKCANEDCTFCTDI 3wa1-a1-m2-cA_3wa1-a1-m4-cA Crystal structure of BinB: A receptor binding component of the binary toxin from Lysinibacillus sphaericus P18568 P18568 1.75 X-RAY DIFFRACTION 50 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 389 389 3wa1-a1-m1-cA_3wa1-a1-m3-cA TNYPLNTTPTSLNYNLPEISKKFYNLKNKYSRNGYGLSKTEFPSSIENCPSNEYSIMYDNKDPRFLIRFLLDDGRYIIADRDDGEVFDEAPTYLDNNNHPIISRHYTGEERQKFEQVGSGDYITGEQFFQFYTQNKTRVLSNCRALDSRTILLSTAKIFPIYPPASETQLTAFVNSSFYAAAIPQLPQTSLLENIPEPTSLDDSGVLPKDAVRAVKGSALLPCIIVHDPNLNNSDKMKFNTYYLLEYKEYWHQLWSQIIPAHQTVKIQERTGISEVVQNSMIEDLNMYIGADFGMYFYLRSSGFKEQITRGLNRPLSQTTTQLGERVEEMEYYNSNDLDVRYVKYALAREFTLKRVNGEIVKNWVAVDYRMAGIQSYPNAPITNPLTLT TNYPLNTTPTSLNYNLPEISKKFYNLKNKYSRNGYGLSKTEFPSSIENCPSNEYSIMYDNKDPRFLIRFLLDDGRYIIADRDDGEVFDEAPTYLDNNNHPIISRHYTGEERQKFEQVGSGDYITGEQFFQFYTQNKTRVLSNCRALDSRTILLSTAKIFPIYPPASETQLTAFVNSSFYAAAIPQLPQTSLLENIPEPTSLDDSGVLPKDAVRAVKGSALLPCIIVHDPNLNNSDKMKFNTYYLLEYKEYWHQLWSQIIPAHQTVKIQERTGISEVVQNSMIEDLNMYIGADFGMYFYLRSSGFKEQITRGLNRPLSQTTTQLGERVEEMEYYNSNDLDVRYVKYALAREFTLKRVNGEIVKNWVAVDYRMAGIQSYPNAPITNPLTLT 3wa1-a1-m3-cA_3wa1-a1-m4-cA Crystal structure of BinB: A receptor binding component of the binary toxin from Lysinibacillus sphaericus P18568 P18568 1.75 X-RAY DIFFRACTION 40 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 389 389 3wa1-a1-m1-cA_3wa1-a1-m2-cA TNYPLNTTPTSLNYNLPEISKKFYNLKNKYSRNGYGLSKTEFPSSIENCPSNEYSIMYDNKDPRFLIRFLLDDGRYIIADRDDGEVFDEAPTYLDNNNHPIISRHYTGEERQKFEQVGSGDYITGEQFFQFYTQNKTRVLSNCRALDSRTILLSTAKIFPIYPPASETQLTAFVNSSFYAAAIPQLPQTSLLENIPEPTSLDDSGVLPKDAVRAVKGSALLPCIIVHDPNLNNSDKMKFNTYYLLEYKEYWHQLWSQIIPAHQTVKIQERTGISEVVQNSMIEDLNMYIGADFGMYFYLRSSGFKEQITRGLNRPLSQTTTQLGERVEEMEYYNSNDLDVRYVKYALAREFTLKRVNGEIVKNWVAVDYRMAGIQSYPNAPITNPLTLT TNYPLNTTPTSLNYNLPEISKKFYNLKNKYSRNGYGLSKTEFPSSIENCPSNEYSIMYDNKDPRFLIRFLLDDGRYIIADRDDGEVFDEAPTYLDNNNHPIISRHYTGEERQKFEQVGSGDYITGEQFFQFYTQNKTRVLSNCRALDSRTILLSTAKIFPIYPPASETQLTAFVNSSFYAAAIPQLPQTSLLENIPEPTSLDDSGVLPKDAVRAVKGSALLPCIIVHDPNLNNSDKMKFNTYYLLEYKEYWHQLWSQIIPAHQTVKIQERTGISEVVQNSMIEDLNMYIGADFGMYFYLRSSGFKEQITRGLNRPLSQTTTQLGERVEEMEYYNSNDLDVRYVKYALAREFTLKRVNGEIVKNWVAVDYRMAGIQSYPNAPITNPLTLT 3wa6-a2-m1-cA_3wa6-a2-m2-cA Crystal structure of tannase from Lactobacillus plantarum in the orthorhombic crystal B3Y018 B3Y018 1.8 X-RAY DIFFRACTION 53 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 466 466 RLIFDADWLVPEQVQVAGQAIQYYAARNIQYVQHPVAAIQVLNVFVPAAYLHGSSVNGYQRATAPILMPNTVGGYLPGPADDPQRVTWPTNAGTIQQALKRGYVVVAAGIRGRTTVDKSGQRVGQAPAFIVDMKAAIRYVKYNQGRLPGDTNRIITNGTSAGGATSALAGASGNSAYFEPALTALGAAPATDDIFAVSAYCPIHNLEHADMAYEWQFNGINDWHRYQPVAGTTKNGRPKFEPVSGQLTVEEQALSLALKAQFSTYLNQLQLTASDGTHLTLNEAGMGSFRDVVRQLLISSAQTAFDQGTDIHKYAGFVVTGNQVTDLDLSAYLKSLTRMKAVPAFDQLDLTSPENNLFGDATAKAKHFTALAQTRSTVTAQLADAELIQAINPLSYLTTTSSQVAKHWRIRHGAADRDTSFAIPIILAIMLENHGYGIDFALPWDIPHSGDYDLGDLFSWIDGLCQ RLIFDADWLVPEQVQVAGQAIQYYAARNIQYVQHPVAAIQVLNVFVPAAYLHGSSVNGYQRATAPILMPNTVGGYLPGPADDPQRVTWPTNAGTIQQALKRGYVVVAAGIRGRTTVDKSGQRVGQAPAFIVDMKAAIRYVKYNQGRLPGDTNRIITNGTSAGGATSALAGASGNSAYFEPALTALGAAPATDDIFAVSAYCPIHNLEHADMAYEWQFNGINDWHRYQPVAGTTKNGRPKFEPVSGQLTVEEQALSLALKAQFSTYLNQLQLTASDGTHLTLNEAGMGSFRDVVRQLLISSAQTAFDQGTDIHKYAGFVVTGNQVTDLDLSAYLKSLTRMKAVPAFDQLDLTSPENNLFGDATAKAKHFTALAQTRSTVTAQLADAELIQAINPLSYLTTTSSQVAKHWRIRHGAADRDTSFAIPIILAIMLENHGYGIDFALPWDIPHSGDYDLGDLFSWIDGLCQ 3waa-a1-m1-cG_3waa-a1-m1-cC The nucleosome containing human H2A.Z.2 Q71UI9 Q71UI9 3.2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 107 1f66-a1-m1-cC_1f66-a1-m1-cG 3wa9-a1-m1-cG_3wa9-a1-m1-cC 5b33-a1-m1-cG_5b33-a1-m1-cC 5z30-a1-m1-cC_5z30-a1-m1-cG 6jou-a1-m1-cG_6jou-a1-m1-cC 6m4d-a1-m1-cC_6m4d-a1-m1-cG 7m1x-a1-m1-cG_7m1x-a1-m1-cC 8gxq-a1-m1-cNC_8gxq-a1-m1-cNG 8gxs-a1-m1-cNC_8gxs-a1-m1-cNG VSRSQRAGLQFPVGRIHRHLKTRTTSHGRVGATAAVYSAAILEYLTAEVLELAGNASKDLKVKRITPRHLQLAIRGDEELDSLIKATIAGGGVIPHIHKSLIGK AKAVSRSQRAGLQFPVGRIHRHLKTRTTSHGRVGATAAVYSAAILEYLTAEVLELAGNASKDLKVKRITPRHLQLAIRGDEELDSLIKATIAGGGVIPHIHKSLIGK 3wad-a1-m1-cA_3wad-a1-m1-cB Crystal structure of glycosyltransferase VinC involved in the biosynthesis of vicenistatin Q76KZ6 Q76KZ6 2 X-RAY DIFFRACTION 109 1.0 1944 (Streptomyces halstedii) 1944 (Streptomyces halstedii) 398 401 3wag-a1-m1-cA_3wag-a1-m1-cB MRVLMTVFANRSHLYNMVPLAWALTTAGHEVHIASHPDNVQAISDSGLTAVPVGNDLNIMAALTLNETRPEKLTWQYIHDVFAQYSQIYEYMADSTMTADLVAHARQWQPDLVIWDALTYAGPIAAEAVGAPHVRMLFGLDQWGRMRDHFNRLTGERAADDRHDPLADWLATKGEPHGVAFTESLVTGTTTLAVAPPWMSFPSEQPALSMRHLPFNGPAVLPDWLREAPSRPRVCLTLGLTLRELNVTLADFVNAVADIDADVVATFSAEQVAEIGDLPDNVRAVDFVPLHALLPSCAAIVHHGGGGTRTNAIRYGVPQLIVPNWLWDEGYVAERFAERGAALVTEVPDLTPDRLRDQLRRLIAEPSFKAAAEQIQKEYDALPSLTETVGELVRVAER MRVLMTVFANRSHLYNMVPLAWALTTAGHEVHIASHPDNVQAISDSGLTAVPVGNDLNIMAALTLNETRPEKLTWQYIHDVFAQYSQIYEYMADSTMTADLVAHARQWQPDLVIWDALTYAGPIAAEAVGAPHVRMLFGLDQWGRMRDHFNRLTGERAADDRHDPLADWLATKGEPHGVAFTESLVTGTTTLAVAPPWMSFPSEQPALSMRHLPFNGPAVLPDWLREAPSRPRVCLTLGLTLRELNVTLADFVNAVADIDADVVATFSAEQVAEIGDLPDNVRAVDFVPLHALLPSCAAIVHHGGGGTRTNAIRYGVPQLIVPNWLWDEGYVAERFAERGAALVTEVPDLTPDRLRDQLRRLIAEPSFKAAAEQIQKEYDALPSLTETVGELVRVAERGRS 3wae-a1-m1-cB_3wae-a1-m1-cA X-ray structure of Fe(III)-bicarbonates-ttfbpa, a ferric ion-binding protein from thermus thermophilus HB8 Q5SHV2 Q5SHV2 1.7 X-RAY DIFFRACTION 89 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 308 309 3waf-a1-m1-cA_3waf-a1-m1-cB TLTIYSGRGQSLVEPLVKQFEAETGIRVQVRYSTDAQILAALQEEGSRSPADLFWANTAGALGQASAKGLLRPLGETLLEKPIAFVPASRTWVPVTVRLRVLAYNPDRIKAEELPESLLDLPRFAREKGLVGRVGWTPTYSSFQDMVAGMIALYGEEKTREWLLAMKALAPKAYPSNPAMLDAIRAGEVDLGSTNHYYVVRFRRAGYRLGMHHFRDGDAGNLALVTGAGLLKTSKNLAAATRFLTYLLSPQAQQYFVGNIGEYPLVKGVALDPNLLPLEEALAKSPKLDLEKLPLDRALRLLRETGVL PTLTIYSGRGQSLVEPLVKQFEAETGIRVQVRYSTDAQILAALQEEGSRSPADLFWANTAGALGQASAKGLLRPLGETLLEKPIAFVPASRTWVPVTVRLRVLAYNPDRIKAEELPESLLDLPRFAREKGLVGRVGWTPTYSSFQDMVAGMIALYGEEKTREWLLAMKALAPKAYPSNPAMLDAIRAGEVDLGSTNHYYVVRFRRAGYRLGMHHFRDGDAGNLALVTGAGLLKTSKNLAAATRFLTYLLSPQAQQYFVGNIGEYPLVKGVALDPNLLPLEEALAKSPKLDLEKLPLDRALRLLRETGVL 3wam-a2-m1-cA_3wam-a2-m2-cA Crystal structure of human LC3C_8-125 Q9BXW4 Q9BXW4 1.75 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 3wap-a2-m1-cA_3wap-a2-m2-cA RPFKQRKSLAIRQEEVAGIRAKFPNKIPVVVERYPRETFLPPLDKTKFLVPQELTMTQFLSIIRSRMVLRATEAFYLLVNNKSLVSMSATMAEIYRDYKDEDGFVYMTYASQETF RPFKQRKSLAIRQEEVAGIRAKFPNKIPVVVERYPRETFLPPLDKTKFLVPQELTMTQFLSIIRSRMVLRATEAFYLLVNNKSLVSMSATMAEIYRDYKDEDGFVYMTYASQETF 3wan-a1-m1-cA_3wan-a1-m1-cB Crystal structure of Atg13 LIR-fused human LC3A_2-121 Q9H492 Q9H492 1.77 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 128 DDFVMIGSPSDRPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETF DDFVMIGSPSDRPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF 3was-a1-m2-cB_3was-a1-m3-cB Crystal structure of 4-O-beta-D-mannosyl-D-glucose phosphorylase MGP complexed with Man-Glc+PO4 Q5LH68 Q5LH68 1.5 X-RAY DIFFRACTION 158 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 389 389 3was-a1-m1-cA_3was-a1-m2-cA 3was-a1-m1-cA_3was-a1-m3-cA 3was-a1-m1-cB_3was-a1-m2-cB 3was-a1-m1-cB_3was-a1-m3-cB 3was-a1-m2-cA_3was-a1-m3-cA 3wat-a1-m1-cA_3wat-a1-m2-cA 3wat-a1-m1-cA_3wat-a1-m3-cA 3wat-a1-m1-cB_3wat-a1-m2-cB 3wat-a1-m1-cB_3wat-a1-m3-cB 3wat-a1-m2-cA_3wat-a1-m3-cA 3wat-a1-m2-cB_3wat-a1-m3-cB 3wau-a1-m1-cA_3wau-a1-m2-cA 3wau-a1-m1-cA_3wau-a1-m3-cA 3wau-a1-m1-cB_3wau-a1-m2-cB 3wau-a1-m1-cB_3wau-a1-m3-cB 3wau-a1-m2-cA_3wau-a1-m3-cA 3wau-a1-m2-cB_3wau-a1-m3-cB 4kmi-a1-m1-cA_4kmi-a1-m2-cA 4kmi-a1-m1-cA_4kmi-a1-m3-cA 4kmi-a1-m1-cB_4kmi-a1-m2-cB 4kmi-a1-m1-cB_4kmi-a1-m3-cB 4kmi-a1-m2-cA_4kmi-a1-m3-cA 4kmi-a1-m2-cB_4kmi-a1-m3-cB SLFNDKVAKLLAGHEALLMRKNEPVEEGNGVITRYRYPVLTAAHTPVFWRYDLNEETNPFLMERIGMNATLNAGAIKWDGKYLMLVRVEGADRKSFFAVAESPNGIDNFRFWEYPVTLPEDVVPATNVYDMRLTAHEDGWIYGIFCAERHDDNAPIGDLSSATATAGIARTKDLKNWERLPDLKTKSQQRNVVLHPEFVDGKYALYTRPQDGFIDTGSGGGIGWALIDDITHAEVGEEKIIDKRYYHTIKEVKNGEGPHPIKTPQGWLHLAHGVRNCAAGLRYVLYMYMTSLDDPTRLIASPAGYFMAPVGEERIGDVSNVLFSNGWIADDDGKVFIYYASSDTRMHVATSTIERLVDYCLHTPQDGFSSSASVEILKNLIERNLRLMK SLFNDKVAKLLAGHEALLMRKNEPVEEGNGVITRYRYPVLTAAHTPVFWRYDLNEETNPFLMERIGMNATLNAGAIKWDGKYLMLVRVEGADRKSFFAVAESPNGIDNFRFWEYPVTLPEDVVPATNVYDMRLTAHEDGWIYGIFCAERHDDNAPIGDLSSATATAGIARTKDLKNWERLPDLKTKSQQRNVVLHPEFVDGKYALYTRPQDGFIDTGSGGGIGWALIDDITHAEVGEEKIIDKRYYHTIKEVKNGEGPHPIKTPQGWLHLAHGVRNCAAGLRYVLYMYMTSLDDPTRLIASPAGYFMAPVGEERIGDVSNVLFSNGWIADDDGKVFIYYASSDTRMHVATSTIERLVDYCLHTPQDGFSSSASVEILKNLIERNLRLMK 3was-a1-m3-cA_3was-a1-m3-cB Crystal structure of 4-O-beta-D-mannosyl-D-glucose phosphorylase MGP complexed with Man-Glc+PO4 Q5LH68 Q5LH68 1.5 X-RAY DIFFRACTION 24 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 389 389 3was-a1-m1-cA_3was-a1-m1-cB 3was-a1-m2-cA_3was-a1-m2-cB 3wat-a1-m1-cA_3wat-a1-m1-cB 3wat-a1-m2-cA_3wat-a1-m2-cB 3wat-a1-m3-cA_3wat-a1-m3-cB 3wau-a1-m1-cB_3wau-a1-m1-cA 3wau-a1-m2-cB_3wau-a1-m2-cA 3wau-a1-m3-cB_3wau-a1-m3-cA 4kmi-a1-m1-cA_4kmi-a1-m1-cB 4kmi-a1-m2-cA_4kmi-a1-m2-cB 4kmi-a1-m3-cA_4kmi-a1-m3-cB SLFNDKVAKLLAGHEALLMRKNEPVEEGNGVITRYRYPVLTAAHTPVFWRYDLNEETNPFLMERIGMNATLNAGAIKWDGKYLMLVRVEGADRKSFFAVAESPNGIDNFRFWEYPVTLPEDVVPATNVYDMRLTAHEDGWIYGIFCAERHDDNAPIGDLSSATATAGIARTKDLKNWERLPDLKTKSQQRNVVLHPEFVDGKYALYTRPQDGFIDTGSGGGIGWALIDDITHAEVGEEKIIDKRYYHTIKEVKNGEGPHPIKTPQGWLHLAHGVRNCAAGLRYVLYMYMTSLDDPTRLIASPAGYFMAPVGEERIGDVSNVLFSNGWIADDDGKVFIYYASSDTRMHVATSTIERLVDYCLHTPQDGFSSSASVEILKNLIERNLRLMK SLFNDKVAKLLAGHEALLMRKNEPVEEGNGVITRYRYPVLTAAHTPVFWRYDLNEETNPFLMERIGMNATLNAGAIKWDGKYLMLVRVEGADRKSFFAVAESPNGIDNFRFWEYPVTLPEDVVPATNVYDMRLTAHEDGWIYGIFCAERHDDNAPIGDLSSATATAGIARTKDLKNWERLPDLKTKSQQRNVVLHPEFVDGKYALYTRPQDGFIDTGSGGGIGWALIDDITHAEVGEEKIIDKRYYHTIKEVKNGEGPHPIKTPQGWLHLAHGVRNCAAGLRYVLYMYMTSLDDPTRLIASPAGYFMAPVGEERIGDVSNVLFSNGWIADDDGKVFIYYASSDTRMHVATSTIERLVDYCLHTPQDGFSSSASVEILKNLIERNLRLMK 3wb1-a1-m1-cB_3wb1-a1-m1-cC HcgB from Methanocaldococcus jannaschii Q57912 Q57912 2.4 X-RAY DIFFRACTION 51 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 157 157 3wb0-a1-m1-cA_3wb0-a1-m1-cD 3wb0-a1-m1-cB_3wb0-a1-m1-cC 3wb1-a1-m1-cA_3wb1-a1-m1-cD 3wb2-a1-m1-cA_3wb2-a1-m1-cD 3wb2-a1-m1-cB_3wb2-a1-m1-cC VVMEEIIKKAFIESINNIRRGDKEEELKKIQEKIVNAKKIVVATNNQKKFKVIRDIMLRVCNAEIKMLDIDTRFADLTRMPALTKGLIALDIEKADLYIARGRLGAPGSGSMLVILDEKGRVLTASLSPSSVIHKEDIEERIKKELIEALSRIGISI VVMEEIIKKAFIESINNIRRGDKEEELKKIQEKIVNAKKIVVATNNQKKFKVIRDIMLRVCNAEIKMLDIDTRFADLTRMPALTKGLIALDIEKADLYIARGRLGAPGSGSMLVILDEKGRVLTASLSPSSVIHKEDIEERIKKELIEALSRIGISI 3wb1-a1-m1-cB_3wb1-a1-m1-cD HcgB from Methanocaldococcus jannaschii Q57912 Q57912 2.4 X-RAY DIFFRACTION 24 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 157 157 3wb0-a1-m1-cA_3wb0-a1-m1-cC 3wb0-a1-m1-cB_3wb0-a1-m1-cD 3wb1-a1-m1-cA_3wb1-a1-m1-cC 3wb2-a1-m1-cB_3wb2-a1-m1-cD 3wb2-a1-m1-cC_3wb2-a1-m1-cA VVMEEIIKKAFIESINNIRRGDKEEELKKIQEKIVNAKKIVVATNNQKKFKVIRDIMLRVCNAEIKMLDIDTRFADLTRMPALTKGLIALDIEKADLYIARGRLGAPGSGSMLVILDEKGRVLTASLSPSSVIHKEDIEERIKKELIEALSRIGISI VVMEEIIKKAFIESINNIRRGDKEEELKKIQEKIVNAKKIVVATNNQKKFKVIRDIMLRVCNAEIKMLDIDTRFADLTRMPALTKGLIALDIEKADLYIARGRLGAPGSGSMLVILDEKGRVLTASLSPSSVIHKEDIEERIKKELIEALSRIGISI 3wb1-a1-m1-cC_3wb1-a1-m1-cD HcgB from Methanocaldococcus jannaschii Q57912 Q57912 2.4 X-RAY DIFFRACTION 159 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 157 157 3wb0-a1-m1-cB_3wb0-a1-m1-cA 3wb0-a1-m1-cC_3wb0-a1-m1-cD 3wb1-a1-m1-cA_3wb1-a1-m1-cB 3wb2-a1-m1-cB_3wb2-a1-m1-cA 3wb2-a1-m1-cC_3wb2-a1-m1-cD 5d5q-a1-m1-cB_5d5q-a1-m1-cA 5d5q-a2-m1-cC_5d5q-a2-m1-cD VVMEEIIKKAFIESINNIRRGDKEEELKKIQEKIVNAKKIVVATNNQKKFKVIRDIMLRVCNAEIKMLDIDTRFADLTRMPALTKGLIALDIEKADLYIARGRLGAPGSGSMLVILDEKGRVLTASLSPSSVIHKEDIEERIKKELIEALSRIGISI VVMEEIIKKAFIESINNIRRGDKEEELKKIQEKIVNAKKIVVATNNQKKFKVIRDIMLRVCNAEIKMLDIDTRFADLTRMPALTKGLIALDIEKADLYIARGRLGAPGSGSMLVILDEKGRVLTASLSPSSVIHKEDIEERIKKELIEALSRIGISI 3wb9-a1-m1-cA_3wb9-a1-m2-cB Crystal Structures of meso-diaminopimelate dehydrogenase from Symbiobacterium thermophilum Q67PI3 Q67PI3 1.93 X-RAY DIFFRACTION 14 1.0 292459 (Symbiobacterium thermophilum IAM 14863) 292459 (Symbiobacterium thermophilum IAM 14863) 297 297 3wb9-a1-m1-cB_3wb9-a1-m2-cA 3wb9-a1-m1-cC_3wb9-a1-m2-cC 3wbb-a1-m1-cA_3wbb-a1-m1-cB 3wbb-a1-m1-cC_3wbb-a1-m2-cC 3wbb-a1-m2-cA_3wbb-a1-m2-cB 3wbf-a1-m1-cA_3wbf-a1-m1-cC 3wbf-a1-m1-cB_3wbf-a1-m2-cB 3wbf-a1-m2-cA_3wbf-a1-m2-cC KLRVAVVGYGNVGRYALEAVQAAPDMELVGVVRRKVLAATPPELTGVRVVTDISQLEGVQGALLCVPTRSVPEYAEAMLRRGIHTVDSYDIHGDLADLRRRLDPVAREHGAAAVISAGWDPGTDSIIRALLEFMAPKGITYTNFGPGMSMGHSVAVKAIPGVRDALSMTIPAGMGVHKRAVYVELEPGADFAEVERAIKTDPYFVRDETRVTQVESVSALMDVGHGVVMERKGVSGATHNQLFRFEMRINNPALTAQVMVAALRAAARQKPGCYTMIEIPVIDYLPGDREAWIRKLV KLRVAVVGYGNVGRYALEAVQAAPDMELVGVVRRKVLAATPPELTGVRVVTDISQLEGVQGALLCVPTRSVPEYAEAMLRRGIHTVDSYDIHGDLADLRRRLDPVAREHGAAAVISAGWDPGTDSIIRALLEFMAPKGITYTNFGPGMSMGHSVAVKAIPGVRDALSMTIPAGMGVHKRAVYVELEPGADFAEVERAIKTDPYFVRDETRVTQVESVSALMDVGHGVVMERKGVSGATHNQLFRFEMRINNPALTAQVMVAALRAAARQKPGCYTMIEIPVIDYLPGDREAWIRKLV 3wb9-a1-m1-cB_3wb9-a1-m2-cC Crystal Structures of meso-diaminopimelate dehydrogenase from Symbiobacterium thermophilum Q67PI3 Q67PI3 1.93 X-RAY DIFFRACTION 41 1.0 292459 (Symbiobacterium thermophilum IAM 14863) 292459 (Symbiobacterium thermophilum IAM 14863) 297 297 3wb9-a1-m1-cA_3wb9-a1-m1-cB 3wb9-a1-m1-cA_3wb9-a1-m2-cC 3wb9-a1-m1-cC_3wb9-a1-m2-cA 3wb9-a1-m1-cC_3wb9-a1-m2-cB 3wb9-a1-m2-cA_3wb9-a1-m2-cB 3wbb-a1-m1-cA_3wbb-a1-m2-cB 3wbb-a1-m1-cA_3wbb-a1-m2-cC 3wbb-a1-m1-cB_3wbb-a1-m1-cC 3wbb-a1-m1-cB_3wbb-a1-m2-cA 3wbb-a1-m1-cC_3wbb-a1-m2-cA 3wbb-a1-m2-cB_3wbb-a1-m2-cC 3wbf-a1-m1-cA_3wbf-a1-m1-cB 3wbf-a1-m1-cA_3wbf-a1-m2-cC 3wbf-a1-m1-cB_3wbf-a1-m2-cC 3wbf-a1-m1-cC_3wbf-a1-m2-cA 3wbf-a1-m1-cC_3wbf-a1-m2-cB 3wbf-a1-m2-cA_3wbf-a1-m2-cB KLRVAVVGYGNVGRYALEAVQAAPDMELVGVVRRKVLAATPPELTGVRVVTDISQLEGVQGALLCVPTRSVPEYAEAMLRRGIHTVDSYDIHGDLADLRRRLDPVAREHGAAAVISAGWDPGTDSIIRALLEFMAPKGITYTNFGPGMSMGHSVAVKAIPGVRDALSMTIPAGMGVHKRAVYVELEPGADFAEVERAIKTDPYFVRDETRVTQVESVSALMDVGHGVVMERKGVSGATHNQLFRFEMRINNPALTAQVMVAALRAAARQKPGCYTMIEIPVIDYLPGDREAWIRKLV KLRVAVVGYGNVGRYALEAVQAAPDMELVGVVRRKVLAATPPELTGVRVVTDISQLEGVQGALLCVPTRSVPEYAEAMLRRGIHTVDSYDIHGDLADLRRRLDPVAREHGAAAVISAGWDPGTDSIIRALLEFMAPKGITYTNFGPGMSMGHSVAVKAIPGVRDALSMTIPAGMGVHKRAVYVELEPGADFAEVERAIKTDPYFVRDETRVTQVESVSALMDVGHGVVMERKGVSGATHNQLFRFEMRINNPALTAQVMVAALRAAARQKPGCYTMIEIPVIDYLPGDREAWIRKLV 3wb9-a1-m2-cA_3wb9-a1-m2-cC Crystal Structures of meso-diaminopimelate dehydrogenase from Symbiobacterium thermophilum Q67PI3 Q67PI3 1.93 X-RAY DIFFRACTION 214 1.0 292459 (Symbiobacterium thermophilum IAM 14863) 292459 (Symbiobacterium thermophilum IAM 14863) 297 297 3wb9-a1-m1-cA_3wb9-a1-m1-cC 3wb9-a1-m1-cB_3wb9-a1-m2-cB 3wbb-a1-m1-cA_3wbb-a1-m1-cC 3wbb-a1-m1-cB_3wbb-a1-m2-cB 3wbb-a1-m2-cA_3wbb-a1-m2-cC 3wbf-a1-m1-cA_3wbf-a1-m2-cA 3wbf-a1-m1-cB_3wbf-a1-m1-cC 3wbf-a1-m2-cB_3wbf-a1-m2-cC KLRVAVVGYGNVGRYALEAVQAAPDMELVGVVRRKVLAATPPELTGVRVVTDISQLEGVQGALLCVPTRSVPEYAEAMLRRGIHTVDSYDIHGDLADLRRRLDPVAREHGAAAVISAGWDPGTDSIIRALLEFMAPKGITYTNFGPGMSMGHSVAVKAIPGVRDALSMTIPAGMGVHKRAVYVELEPGADFAEVERAIKTDPYFVRDETRVTQVESVSALMDVGHGVVMERKGVSGATHNQLFRFEMRINNPALTAQVMVAALRAAARQKPGCYTMIEIPVIDYLPGDREAWIRKLV KLRVAVVGYGNVGRYALEAVQAAPDMELVGVVRRKVLAATPPELTGVRVVTDISQLEGVQGALLCVPTRSVPEYAEAMLRRGIHTVDSYDIHGDLADLRRRLDPVAREHGAAAVISAGWDPGTDSIIRALLEFMAPKGITYTNFGPGMSMGHSVAVKAIPGVRDALSMTIPAGMGVHKRAVYVELEPGADFAEVERAIKTDPYFVRDETRVTQVESVSALMDVGHGVVMERKGVSGATHNQLFRFEMRINNPALTAQVMVAALRAAARQKPGCYTMIEIPVIDYLPGDREAWIRKLV 3wbh-a1-m1-cA_3wbh-a1-m1-cB Structural characteristics of alkaline phosphatase from a moderately halophilic bacteria Halomonas sp.593 B5BP20 B5BP20 2.1 X-RAY DIFFRACTION 344 1.0 195704 (Halomonas sp. #593) 195704 (Halomonas sp. #593) 497 497 EVKNVILMIGDGMGPQQVGLLETYANQAPDSIYDGEPTAFHQLAKEGVVGFSLTHPEDAVVVDSACSATQLASGIYSGSEVIGIDAEGNPVETVLELAQARGKATGLVSDTRLTHATPAAFAAHQPHRSLENEIAVDMLEVGPDVMLSGGLRHWVPQSASEDAEVTSLMDGAYEPASKRQDDRNLLAEAVEKGYGLAFSREQLEADQSDKLLGLFANSGMADGIEYRNTRDDADRREPTLHEMTQAALNRLEQDEDGFFLMVEGGQIDWAGHSNDAGTMLNEMVKFEEAVQGVYDWAKGREDTVILVTADHETGAFGLSYSSADLPEPQSKSGPAFAERDYAPNFNFGDFALLDSLYHQKASFSTLLSEFGALEEEQRTPARLMEMVNANSDFQIDEEQAEAVLADKPNPYHVEGHSYLEAEEVPAIQDFDAFYPYNDRGNVLGRVLGTAQNVVWGTGTHTHTPVNVFAWGPAETILPVSSIQHHSEVGQYLKSLVE EVKNVILMIGDGMGPQQVGLLETYANQAPDSIYDGEPTAFHQLAKEGVVGFSLTHPEDAVVVDSACSATQLASGIYSGSEVIGIDAEGNPVETVLELAQARGKATGLVSDTRLTHATPAAFAAHQPHRSLENEIAVDMLEVGPDVMLSGGLRHWVPQSASEDAEVTSLMDGAYEPASKRQDDRNLLAEAVEKGYGLAFSREQLEADQSDKLLGLFANSGMADGIEYRNTRDDADRREPTLHEMTQAALNRLEQDEDGFFLMVEGGQIDWAGHSNDAGTMLNEMVKFEEAVQGVYDWAKGREDTVILVTADHETGAFGLSYSSADLPEPQSKSGPAFAERDYAPNFNFGDFALLDSLYHQKASFSTLLSEFGALEEEQRTPARLMEMVNANSDFQIDEEQAEAVLADKPNPYHVEGHSYLEAEEVPAIQDFDAFYPYNDRGNVLGRVLGTAQNVVWGTGTHTHTPVNVFAWGPAETILPVSSIQHHSEVGQYLKSLVE 3wbm-a1-m1-cA_3wbm-a1-m1-cC Crystal Structure of protein-RNA complex P60848 P60848 2 X-RAY DIFFRACTION 34 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 86 86 TPTPSNVVLIGKKPVMNYVLAALTLLNQGVSEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIKEIRVGSQVVSRVSTIEIAIRKK TPTPSNVVLIGKKPVMNYVLAALTLLNQGVSEIVIKARGRAISKAVDTVEIVRNRFLPDKIEIKEIRVGSQVVSRVSTIEIAIRKK 3wbr-a3-m1-cE_3wbr-a3-m1-cD Crystal structure of carbohydrate recognition domain of Blood Dendritic Cell Antigen-2 (BDCA2) lectin (crystal form-3) Q8WTT0 Q8WTT0 2.2 X-RAY DIFFRACTION 116 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 3wbp-a1-m1-cB_3wbp-a1-m1-cA 3wbq-a1-m1-cB_3wbq-a1-m1-cA 3wbr-a1-m1-cA_3wbr-a1-m1-cB 3wbr-a2-m1-cC_3wbr-a2-m1-cG 3wbr-a4-m1-cH_3wbr-a4-m1-cF CPTPWTSFQSSCYFISTGMQSWTKSQKNCSVMGADLVVINTREEQDFIIQNLKRNSSYFLGLSDPGGRRHWQWVDQTPYNENVTFWHSGEPNNLDERCAIINFRSSEWGWNDIHCHVPQKSICKM CPTPWTSFQSSCYFISTGMQSWTKSQKNCSVMGADLVVINTREEQDFIIQNLKRNSSYFLGLSDPGGRRHWQWVDQTPYNENVTFWHSGEPNNLDERCAIINFRSEWGWNDIHCHVPQKSICKMKK 3wc0-a3-m1-cI_3wc0-a3-m1-cL Crystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with GTP 3.03 X-RAY DIFFRACTION 10 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 242 242 3wbz-a1-m1-cA_3wbz-a1-m1-cD 3wbz-a1-m1-cB_3wbz-a1-m1-cC 3wbz-a2-m1-cG_3wbz-a2-m1-cF 3wbz-a2-m1-cH_3wbz-a2-m1-cE 3wc0-a1-m1-cA_3wc0-a1-m1-cD 3wc0-a1-m1-cB_3wc0-a1-m1-cC 3wc0-a2-m1-cE_3wc0-a2-m1-cH 3wc0-a2-m1-cF_3wc0-a2-m1-cG 3wc0-a3-m1-cJ_3wc0-a3-m1-cK 3wc0-a4-m1-cN_3wc0-a4-m1-cO 3wc0-a4-m1-cP_3wc0-a4-m1-cM 3wc1-a1-m1-cA_3wc1-a1-m1-cD 3wc2-a1-m1-cA_3wc2-a1-m1-cD 3wc2-a1-m1-cB_3wc2-a1-m1-cC SKYEYVKLFEKENYLLPDTYIIIRVDGKGFHKFSQFYEFEKPNDLKALQVMNSAAEKLMSKYSDVMLAYGDSDEYSFLLRKNCQLYERREMKLTTLFSSLMSTYYMYFWSQYFPDKPLHIDHLPNFDARAVLYPDFKHIRNYFSWRQVDCHINNLYNTTFWNLVLKLKMTPQQAEQRLMGTVASDKNEILFKECGVNYNNESEMYKKGTIIVREFENAELKIYHVDIINDDSWWKSRPWLKD SKYEYVKLFEKENYLLPDTYIIIRVDGKGFHKFSQFYEFEKPNDLKALQVMNSAAEKLMSKYSDVMLAYGDSDEYSFLLRKNCQLYERREMKLTTLFSSLMSTYYMYFWSQYFPDKPLHIDHLPNFDARAVLYPDFKHIRNYFSWRQVDCHINNLYNTTFWNLVLKLKMTPQQAEQRLMGTVASDKNEILFKECGVNYNNESEMYKKGTIIVREFENAELKIYHVDIINDDSWWKSRPWLKD 3wc0-a4-m1-cM_3wc0-a4-m1-cO Crystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with GTP 3.03 X-RAY DIFFRACTION 19 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 265 265 3wbz-a1-m1-cA_3wbz-a1-m1-cC 3wbz-a1-m1-cB_3wbz-a1-m1-cD 3wbz-a2-m1-cF_3wbz-a2-m1-cH 3wbz-a2-m1-cG_3wbz-a2-m1-cE 3wc0-a1-m1-cA_3wc0-a1-m1-cC 3wc0-a1-m1-cB_3wc0-a1-m1-cD 3wc0-a2-m1-cE_3wc0-a2-m1-cG 3wc0-a2-m1-cF_3wc0-a2-m1-cH 3wc0-a3-m1-cI_3wc0-a3-m1-cK 3wc0-a3-m1-cL_3wc0-a3-m1-cJ 3wc0-a4-m1-cP_3wc0-a4-m1-cN 3wc1-a1-m1-cA_3wc1-a1-m1-cC 3wc1-a1-m1-cB_3wc1-a1-m1-cD 3wc2-a1-m1-cA_3wc2-a1-m1-cC 3wc2-a1-m1-cB_3wc2-a1-m1-cD SKYEYVKLFEKENYLLPDTYIIIRVDGKGFHKFSQFYEFEKPNDLKALQVMNSAAEKLMSKYSDVMLAYGDSDEYSFLLRKNCQLYERREMKLTTLFSSLMSTYYMYFWSQYFPDKPLHIDHLPNFDARAVLYPDFKHIRNYFSWRQVDCHINNLYNTTFWNLVLKLKMTPQQAEQRLMGTVASDKNEILFKECGVNYNNESEMYKKGTIIVREFENYETEDEAELSKRQVQRLEKKRKKAELKIYHVDIINDDSWWKSRPWLKD SKYEYVKLFEKENYLLPDTYIIIRVDGKGFHKFSQFYEFEKPNDLKALQVMNSAAEKLMSKYSDVMLAYGDSDEYSFLLRKNCQLYERREMKLTTLFSSLMSTYYMYFWSQYFPDKPLHIDHLPNFDARAVLYPDFKHIRNYFSWRQVDCHINNLYNTTFWNLVLKLKMTPQQAEQRLMGTVASDKNEILFKECGVNYNNESEMYKKGTIIVREFENYETEDEAELSKRQVQRLEKKRKKAELKIYHVDIINDDSWWKSRPWLKD 3wc0-a9-m1-cI_3wc0-a9-m1-cJ Crystal structure of C. albicans tRNA(His) guanylyltransferase (Thg1) with GTP 3.03 X-RAY DIFFRACTION 128 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 242 265 3wbz-a1-m1-cB_3wbz-a1-m1-cA 3wbz-a1-m1-cC_3wbz-a1-m1-cD 3wbz-a2-m1-cF_3wbz-a2-m1-cE 3wbz-a2-m1-cG_3wbz-a2-m1-cH 3wc0-a10-m1-cL_3wc0-a10-m1-cK 3wc0-a11-m1-cM_3wc0-a11-m1-cN 3wc0-a12-m1-cP_3wc0-a12-m1-cO 3wc0-a1-m1-cA_3wc0-a1-m1-cB 3wc0-a1-m1-cC_3wc0-a1-m1-cD 3wc0-a2-m1-cE_3wc0-a2-m1-cF 3wc0-a2-m1-cG_3wc0-a2-m1-cH 3wc0-a3-m1-cI_3wc0-a3-m1-cJ 3wc0-a3-m1-cL_3wc0-a3-m1-cK 3wc0-a4-m1-cM_3wc0-a4-m1-cN 3wc0-a4-m1-cP_3wc0-a4-m1-cO 3wc0-a5-m1-cA_3wc0-a5-m1-cB 3wc0-a6-m1-cC_3wc0-a6-m1-cD 3wc0-a7-m1-cE_3wc0-a7-m1-cF 3wc0-a8-m1-cG_3wc0-a8-m1-cH 3wc1-a1-m1-cA_3wc1-a1-m1-cB 3wc1-a1-m1-cC_3wc1-a1-m1-cD 3wc2-a1-m1-cA_3wc2-a1-m1-cB 3wc2-a1-m1-cC_3wc2-a1-m1-cD SKYEYVKLFEKENYLLPDTYIIIRVDGKGFHKFSQFYEFEKPNDLKALQVMNSAAEKLMSKYSDVMLAYGDSDEYSFLLRKNCQLYERREMKLTTLFSSLMSTYYMYFWSQYFPDKPLHIDHLPNFDARAVLYPDFKHIRNYFSWRQVDCHINNLYNTTFWNLVLKLKMTPQQAEQRLMGTVASDKNEILFKECGVNYNNESEMYKKGTIIVREFENAELKIYHVDIINDDSWWKSRPWLKD SKYEYVKLFEKENYLLPDTYIIIRVDGKGFHKFSQFYEFEKPNDLKALQVMNSAAEKLMSKYSDVMLAYGDSDEYSFLLRKNCQLYERREMKLTTLFSSLMSTYYMYFWSQYFPDKPLHIDHLPNFDARAVLYPDFKHIRNYFSWRQVDCHINNLYNTTFWNLVLKLKMTPQQAEQRLMGTVASDKNEILFKECGVNYNNESEMYKKGTIIVREFENYETEDEAELSKRQVQRLEKKRKKAELKIYHVDIINDDSWWKSRPWLKD 3wc8-a1-m1-cA_3wc8-a1-m2-cA Dimeric horse cytochrome c obtained by refolding with desalting method P00004 P00004 1.8 X-RAY DIFFRACTION 155 1.0 9796 (Equus caballus) 9796 (Equus caballus) 104 104 3nbs-a1-m1-cA_3nbs-a1-m1-cB 3nbs-a2-m1-cC_3nbs-a2-m1-cD 3wui-a1-m1-cA_3wui-a1-m2-cA GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE 3wcb-a1-m1-cC_3wcb-a1-m1-cD The complex structure of TcSQS with ligand, BPH1237 Q4CWB4 Q4CWB4 3 X-RAY DIFFRACTION 13 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFTFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFTFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wcc-a1-m1-cA_3wcc-a1-m1-cB The complex structure of TcSQS with ligand, E5700 Q4CWB4 Q4CWB4 2.32 X-RAY DIFFRACTION 30 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 3wce-a1-m1-cA_3wce-a1-m1-cB 3wcg-a1-m1-cA_3wcg-a1-m1-cC 3wcg-a1-m1-cA_3wcg-a1-m1-cD 3wcg-a1-m1-cB_3wcg-a1-m1-cD DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wcc-a1-m1-cA_3wcc-a1-m1-cD The complex structure of TcSQS with ligand, E5700 Q4CWB4 Q4CWB4 2.32 X-RAY DIFFRACTION 11 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 3wcb-a1-m1-cB_3wcb-a1-m1-cD 3wce-a1-m1-cA_3wce-a1-m1-cD 3wcg-a1-m1-cC_3wcg-a1-m1-cD DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wce-a1-m1-cC_3wce-a1-m1-cD The complex structure of TcSQS with ligand, ER119884 Q4CWB4 Q4CWB4 2.75 X-RAY DIFFRACTION 10 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wcj-a1-m1-cA_3wcj-a1-m1-cD The complex structure of HsSQS wtih ligand,E5700 P37268 P37268 2.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 335 3wc9-a1-m1-cA_3wc9-a1-m1-cD 3wc9-a1-m1-cB_3wc9-a1-m1-cF 3wcd-a1-m1-cA_3wcd-a1-m1-cD 3wcd-a1-m1-cB_3wcd-a1-m1-cF 3wcf-a1-m1-cA_3wcf-a1-m1-cD 3wcf-a1-m1-cB_3wcf-a1-m1-cF 3wch-a1-m1-cA_3wch-a1-m1-cD 3wch-a1-m1-cB_3wch-a1-m1-cF 3wci-a1-m1-cA_3wci-a1-m1-cD 3wci-a1-m1-cB_3wci-a1-m1-cF 3wcj-a1-m1-cB_3wcj-a1-m1-cF 3wcl-a1-m1-cA_3wcl-a1-m1-cD 3wcl-a1-m1-cB_3wcl-a1-m1-cF 3wcm-a1-m1-cD_3wcm-a1-m1-cA 3wcm-a1-m1-cF_3wcm-a1-m1-cB 3wsa-a1-m1-cD_3wsa-a1-m1-cA 3wsa-a1-m1-cF_3wsa-a1-m1-cB LSSSLKTCYKYLNQTSRSFAAVIQALDGEMRNAVCIFYLVLRALDTLEDDMTISVEKKVPLLHNFHSFLYQPDWRFMESKEKDRQVLEDFPTISLEFRNLAEKYQTVIADICRRMGIGMAEFLDKHVTSEQEWDKYCHYVAGLVGIGLSRLFSASEFEDPLVGEDTERANSMGLFLQKTNIIRDYLEDQQGGREFWPQEVWSRYVKKLGDFALPENIDLAVQCLNELITNALHHIPDVITYLSRLRNQSVFNFCAIPQVMAIATLAACYNNQQVFKGAVLIRLGQAVTLMMDATNMPAVKAIIYQYMEEIYHRIPDSNPSSSKTRQIISTIRTQ LSSSLKTCYKYLNQTSRSFAAVIQALDGEMRNAVCIFYLVLRALDTLEDDMTISVEKKVPLLHNFHSFLYQPDWRFMESKEKDRQVLEDFPTISLEFRNLAEKYQTVIADICRRMGIGMAEFLDKHVTSEQEWDKYCHYVAGLVGIGLSRLFSASEFEDPLVGEDTERANSMGLFLQKTNIIRDYLEDQQGGREFWPQEVWSRYVKKLGDFALPENIDLAVQCLNELITNALHHIPDVITYLSRLRNQSVFNFCAIPQVMAIATLAACYNNQQVFKGAVLIRLGQAVTLMMDATNMPAVKAIIYQYMEEIYHRIPDSNPSSSKTRQIISTIRTQN 3wcl-a1-m1-cB_3wcl-a1-m1-cD The complex structure of HsSQS wtih ligand,BPH1344 P37268 P37268 2.24 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3wc9-a1-m1-cB_3wc9-a1-m1-cD 3wcd-a1-m1-cB_3wcd-a1-m1-cD 3wcf-a1-m1-cB_3wcf-a1-m1-cD 3wch-a1-m1-cB_3wch-a1-m1-cD 3wci-a1-m1-cB_3wci-a1-m1-cD 3wcj-a1-m1-cB_3wcj-a1-m1-cD 3wcm-a1-m1-cD_3wcm-a1-m1-cB 3wsa-a1-m1-cD_3wsa-a1-m1-cB LSSSLKTCYKYLNQTSRSFAAVIQALDGEMRNAVCIFYLVLRALDTLEDDMTISVEKKVPLLHNFHSFLYQPDWRFMESKEKDRQVLEDFPTISLEFRNLAEKYQTVIADICRRMGIGMAEFLDKHVTSEQEWDKYCHYVAGLVGIGLSRLFSASEFEDPLVGEDTERANSMGLFLQKTNIIRDYLEDQQGGREFWPQEVWSRYVKKLGDFALPENIDLAVQCLNELITNALHHIPDVITYLSRLRNQSVFNFCAIPQVMAIATLAACYNNQQVFKGAVLIRLGQAVTLMMDATNMPAVKAIIYQYMEEIYHRIPDSNPSSSKTRQIISTIRTQ LSSSLKTCYKYLNQTSRSFAAVIQALDGEMRNAVCIFYLVLRALDTLEDDMTISVEKKVPLLHNFHSFLYQPDWRFMESKEKDRQVLEDFPTISLEFRNLAEKYQTVIADICRRMGIGMAEFLDKHVTSEQEWDKYCHYVAGLVGIGLSRLFSASEFEDPLVGEDTERANSMGLFLQKTNIIRDYLEDQQGGREFWPQEVWSRYVKKLGDFALPENIDLAVQCLNELITNALHHIPDVITYLSRLRNQSVFNFCAIPQVMAIATLAACYNNQQVFKGAVLIRLGQAVTLMMDATNMPAVKAIIYQYMEEIYHRIPDSNPSSSKTRQIISTIRTQ 3wcl-a3-m1-cD_3wcl-a3-m1-cE The complex structure of HsSQS wtih ligand,BPH1344 P37268 P37268 2.24 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3vjb-a1-m1-cA_3vjb-a1-m1-cB 3vjb-a1-m1-cA_3vjb-a1-m1-cC 3vjb-a1-m1-cB_3vjb-a1-m1-cC 3vjb-a2-m1-cE_3vjb-a2-m1-cD 3vjb-a2-m1-cF_3vjb-a2-m1-cD 3vjb-a2-m1-cF_3vjb-a2-m1-cE 3vjc-a1-m1-cB_3vjc-a1-m1-cA 3vjc-a1-m1-cC_3vjc-a1-m1-cA 3vjc-a1-m1-cC_3vjc-a1-m1-cB 3vjc-a2-m1-cD_3vjc-a2-m1-cE 3vjc-a2-m1-cF_3vjc-a2-m1-cD 3vjc-a2-m1-cF_3vjc-a2-m1-cE 3wc9-a1-m1-cA_3wc9-a1-m1-cB 3wc9-a1-m1-cA_3wc9-a1-m1-cC 3wc9-a1-m1-cB_3wc9-a1-m1-cC 3wc9-a1-m1-cD_3wc9-a1-m1-cE 3wc9-a1-m1-cD_3wc9-a1-m1-cF 3wc9-a1-m1-cE_3wc9-a1-m1-cF 3wc9-a2-m1-cA_3wc9-a2-m1-cB 3wc9-a2-m1-cA_3wc9-a2-m1-cC 3wc9-a2-m1-cB_3wc9-a2-m1-cC 3wc9-a3-m1-cD_3wc9-a3-m1-cE 3wc9-a3-m1-cD_3wc9-a3-m1-cF 3wc9-a3-m1-cE_3wc9-a3-m1-cF 3wcd-a1-m1-cA_3wcd-a1-m1-cB 3wcd-a1-m1-cA_3wcd-a1-m1-cC 3wcd-a1-m1-cB_3wcd-a1-m1-cC 3wcd-a1-m1-cD_3wcd-a1-m1-cE 3wcd-a1-m1-cD_3wcd-a1-m1-cF 3wcd-a1-m1-cE_3wcd-a1-m1-cF 3wcd-a2-m1-cA_3wcd-a2-m1-cB 3wcd-a2-m1-cA_3wcd-a2-m1-cC 3wcd-a2-m1-cB_3wcd-a2-m1-cC 3wcd-a3-m1-cD_3wcd-a3-m1-cE 3wcd-a3-m1-cD_3wcd-a3-m1-cF 3wcd-a3-m1-cE_3wcd-a3-m1-cF 3wcf-a1-m1-cA_3wcf-a1-m1-cB 3wcf-a1-m1-cA_3wcf-a1-m1-cC 3wcf-a1-m1-cB_3wcf-a1-m1-cC 3wcf-a1-m1-cD_3wcf-a1-m1-cE 3wcf-a1-m1-cD_3wcf-a1-m1-cF 3wcf-a1-m1-cE_3wcf-a1-m1-cF 3wcf-a2-m1-cA_3wcf-a2-m1-cB 3wcf-a2-m1-cA_3wcf-a2-m1-cC 3wcf-a2-m1-cB_3wcf-a2-m1-cC 3wcf-a3-m1-cD_3wcf-a3-m1-cE 3wcf-a3-m1-cD_3wcf-a3-m1-cF 3wcf-a3-m1-cE_3wcf-a3-m1-cF 3wch-a1-m1-cA_3wch-a1-m1-cB 3wch-a1-m1-cA_3wch-a1-m1-cC 3wch-a1-m1-cB_3wch-a1-m1-cC 3wch-a1-m1-cD_3wch-a1-m1-cE 3wch-a1-m1-cD_3wch-a1-m1-cF 3wch-a1-m1-cE_3wch-a1-m1-cF 3wch-a2-m1-cA_3wch-a2-m1-cB 3wch-a2-m1-cA_3wch-a2-m1-cC 3wch-a2-m1-cB_3wch-a2-m1-cC 3wch-a3-m1-cD_3wch-a3-m1-cE 3wch-a3-m1-cD_3wch-a3-m1-cF 3wch-a3-m1-cE_3wch-a3-m1-cF 3wci-a1-m1-cA_3wci-a1-m1-cB 3wci-a1-m1-cA_3wci-a1-m1-cC 3wci-a1-m1-cB_3wci-a1-m1-cC 3wci-a1-m1-cD_3wci-a1-m1-cE 3wci-a1-m1-cD_3wci-a1-m1-cF 3wci-a1-m1-cE_3wci-a1-m1-cF 3wci-a2-m1-cA_3wci-a2-m1-cB 3wci-a2-m1-cA_3wci-a2-m1-cC 3wci-a2-m1-cB_3wci-a2-m1-cC 3wci-a3-m1-cD_3wci-a3-m1-cE 3wci-a3-m1-cD_3wci-a3-m1-cF 3wci-a3-m1-cE_3wci-a3-m1-cF 3wcj-a1-m1-cA_3wcj-a1-m1-cC 3wcj-a1-m1-cB_3wcj-a1-m1-cA 3wcj-a1-m1-cB_3wcj-a1-m1-cC 3wcj-a1-m1-cD_3wcj-a1-m1-cE 3wcj-a1-m1-cF_3wcj-a1-m1-cD 3wcj-a1-m1-cF_3wcj-a1-m1-cE 3wcj-a2-m1-cA_3wcj-a2-m1-cC 3wcj-a2-m1-cB_3wcj-a2-m1-cA 3wcj-a2-m1-cB_3wcj-a2-m1-cC 3wcj-a3-m1-cD_3wcj-a3-m1-cE 3wcj-a3-m1-cF_3wcj-a3-m1-cD 3wcj-a3-m1-cF_3wcj-a3-m1-cE 3wcl-a1-m1-cA_3wcl-a1-m1-cB 3wcl-a1-m1-cA_3wcl-a1-m1-cC 3wcl-a1-m1-cB_3wcl-a1-m1-cC 3wcl-a1-m1-cD_3wcl-a1-m1-cE 3wcl-a1-m1-cD_3wcl-a1-m1-cF 3wcl-a1-m1-cE_3wcl-a1-m1-cF 3wcl-a2-m1-cA_3wcl-a2-m1-cB 3wcl-a2-m1-cA_3wcl-a2-m1-cC 3wcl-a2-m1-cB_3wcl-a2-m1-cC 3wcl-a3-m1-cD_3wcl-a3-m1-cF 3wcl-a3-m1-cE_3wcl-a3-m1-cF 3wcm-a1-m1-cA_3wcm-a1-m1-cB 3wcm-a1-m1-cA_3wcm-a1-m1-cC 3wcm-a1-m1-cB_3wcm-a1-m1-cC 3wcm-a1-m1-cD_3wcm-a1-m1-cE 3wcm-a1-m1-cD_3wcm-a1-m1-cF 3wcm-a1-m1-cF_3wcm-a1-m1-cE 3wcm-a2-m1-cA_3wcm-a2-m1-cB 3wcm-a2-m1-cA_3wcm-a2-m1-cC 3wcm-a2-m1-cB_3wcm-a2-m1-cC 3wcm-a3-m1-cD_3wcm-a3-m1-cE 3wcm-a3-m1-cD_3wcm-a3-m1-cF 3wcm-a3-m1-cF_3wcm-a3-m1-cE 3wef-a1-m1-cA_3wef-a1-m1-cB 3wef-a1-m1-cA_3wef-a1-m1-cC 3wef-a1-m1-cB_3wef-a1-m1-cC 3wef-a2-m1-cD_3wef-a2-m1-cE 3wef-a2-m1-cF_3wef-a2-m1-cD 3wef-a2-m1-cF_3wef-a2-m1-cE 3wsa-a1-m1-cA_3wsa-a1-m1-cB 3wsa-a1-m1-cA_3wsa-a1-m1-cC 3wsa-a1-m1-cB_3wsa-a1-m1-cC 3wsa-a1-m1-cD_3wsa-a1-m1-cE 3wsa-a1-m1-cD_3wsa-a1-m1-cF 3wsa-a1-m1-cF_3wsa-a1-m1-cE 3wsa-a2-m1-cA_3wsa-a2-m1-cB 3wsa-a2-m1-cA_3wsa-a2-m1-cC 3wsa-a2-m1-cB_3wsa-a2-m1-cC 3wsa-a3-m1-cD_3wsa-a3-m1-cE 3wsa-a3-m1-cD_3wsa-a3-m1-cF 3wsa-a3-m1-cF_3wsa-a3-m1-cE LSSSLKTCYKYLNQTSRSFAAVIQALDGEMRNAVCIFYLVLRALDTLEDDMTISVEKKVPLLHNFHSFLYQPDWRFMESKEKDRQVLEDFPTISLEFRNLAEKYQTVIADICRRMGIGMAEFLDKHVTSEQEWDKYCHYVAGLVGIGLSRLFSASEFEDPLVGEDTERANSMGLFLQKTNIIRDYLEDQQGGREFWPQEVWSRYVKKLGDFALPENIDLAVQCLNELITNALHHIPDVITYLSRLRNQSVFNFCAIPQVMAIATLAACYNNQQVFKGAVLIRLGQAVTLMMDATNMPAVKAIIYQYMEEIYHRIPDSNPSSSKTRQIISTIRTQ LSSSLKTCYKYLNQTSRSFAAVIQALDGEMRNAVCIFYLVLRALDTLEDDMTISVEKKVPLLHNFHSFLYQPDWRFMESKEKDRQVLEDFPTISLEFRNLAEKYQTVIADICRRMGIGMAEFLDKHVTSEQEWDKYCHYVAGLVGIGLSRLFSASEFEDPLVGEDTERANSMGLFLQKTNIIRDYLEDQQGGREFWPQEVWSRYVKKLGDFALPENIDLAVQCLNELITNALHHIPDVITYLSRLRNQSVFNFCAIPQVMAIATLAACYNNQQVFKGAVLIRLGQAVTLMMDATNMPAVKAIIYQYMEEIYHRIPDSNPSSSKTRQIISTIRTQ 3wd6-a6-m1-cB_3wd6-a6-m1-cC Crystal structure of Bombyx mori omega-class glutathione transferase in complex with GSH A8R5V3 A8R5V3 2.5 X-RAY DIFFRACTION 59 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 241 241 3wd6-a5-m1-cA_3wd6-a5-m2-cD INFNTKHLRKGDPLPPFNGKLRVYNMRYCPYAQRTILALNAKQIDYEVVNIDLIDKPEWLTTKSAFAKVPAIEIAEDVTIYESLVTVEYLDEVYPKRPLLPQDPLKKALDKIIVEASAPIQSLFIKILKFSDTVNEEHVAAYHKALDFIQEQLKNRGTVFLDGSEPGYADYMIWPWFERLRAFAHDERVRLEPSKYSLLLEYIDNMLKDSAVSQYLIPLEILAKFHEAYTKKERPNYELLN INFNTKHLRKGDPLPPFNGKLRVYNMRYCPYAQRTILALNAKQIDYEVVNIDLIDKPEWLTTKSAFAKVPAIEIAEDVTIYESLVTVEYLDEVYPKRPLLPQDPLKKALDKIIVEASAPIQSLFIKILKFSDTVNEEHVAAYHKALDFIQEQLKNRGTVFLDGSEPGYADYMIWPWFERLRAFAHDERVRLEPSKYSLLLEYIDNMLKDSAVSQYLIPLEILAKFHEAYTKKERPNYELLN 3wd8-a2-m1-cC_3wd8-a2-m1-cD TypeIII polyketide synthases U3KRF1 U3KRF1 2.463 X-RAY DIFFRACTION 196 1.0 164113 (Citrus x microcarpa) 164113 (Citrus x microcarpa) 391 391 3wd8-a1-m1-cA_3wd8-a1-m1-cB GSMAKVKNFLNAKRSKGPASILAIGTANPPTCFNQSDYPDFYFRVTDCEHKTELKDKFKRICDRSAVKKRYLHVTEEVLKENPSMRSYNAPSLDARQALLIEQVPKLGKEAAAKAIKEWGQPLSKITHLVFSAMAGVDIPGADLRLMNLLGLEPSVKRLMIYSQGCFIGGAAIRCAKDFAENNAGARVLVVFSDIMNMYFHEPQEAHLDILVGQAVFGDGAAAVIVGADPEVSIERPLFHVVSSTQMSVPDTNKFIRAHVKEMGMELYLSKDVPATVGKNIEKLLVDAVSPFGISDWNSLFYSVHPGGRAILDQVELNLGLGKEKLRASRHVLSEYGNMGGSSVYFILDEIRKKSMQEAKPTTGDGLEWGVLFAIGPGLTVETVILLSVPI GSMAKVKNFLNAKRSKGPASILAIGTANPPTCFNQSDYPDFYFRVTDCEHKTELKDKFKRICDRSAVKKRYLHVTEEVLKENPSMRSYNAPSLDARQALLIEQVPKLGKEAAAKAIKEWGQPLSKITHLVFSAMAGVDIPGADLRLMNLLGLEPSVKRLMIYSQGCFIGGAAIRCAKDFAENNAGARVLVVFSDIMNMYFHEPQEAHLDILVGQAVFGDGAAAVIVGADPEVSIERPLFHVVSSTQMSVPDTNKFIRAHVKEMGMELYLSKDVPATVGKNIEKLLVDAVSPFGISDWNSLFYSVHPGGRAILDQVELNLGLGKEKLRASRHVLSEYGNMGGSSVYFILDEIRKKSMQEAKPTTGDGLEWGVLFAIGPGLTVETVILLSVPI 3wdm-a1-m1-cB_3wdm-a1-m1-cA Crystal structure of 4-phosphopantoate-beta-alanine ligase from Thermococcus kodakarensis Q5JIZ8 Q5JIZ8 2 X-RAY DIFFRACTION 115 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 256 259 3wdk-a1-m1-cB_3wdk-a1-m1-cA 3wdk-a2-m1-cC_3wdk-a2-m1-cD 3wdl-a1-m1-cB_3wdl-a1-m1-cA 3wdl-a2-m1-cD_3wdl-a2-m1-cC 3wdm-a2-m1-cD_3wdm-a2-m1-cC 4mb0-a1-m1-cA_4mb0-a1-m1-cB 4mb0-a2-m1-cD_4mb0-a2-m1-cC 4mb2-a1-m1-cA_4mb2-a1-m1-cB 4mb2-a2-m1-cC_4mb2-a2-m1-cD VNIPKSHPRYWSLYYREKIIEGMEKGMTAKAGLIAHGRGEAFDYLIGERTIEPAERAMRAAVAKFLLAEHPVISVNGNVAALVPKETIELAKALNAKLEINLFYRTEERVRTIAEELRKYDPEIEILGINPTKRIPGLEHERGKVDENGIWKADVVLVPLEDGDRTEALVRMGKFVVTVDLNPLSRSARMADITIVDNIVRAYPRMVELAREMKDYSREELLKIVGEYDNGKTLSDVLLHIRDRLTRLAEEGIWRR VNIPKSHPRYWSLYYREKIIEGMEKGMTAKAGLIAHGRGEAFDYLIGERTIEPAERAMRAAVAKFLLAEHPVISVNGNVAALVPKETIELAKALNAKLEINLFYRTEERVRTIAEELRKYDPEIEILGINPTKRIPGLEHERGKVDENGIWKADVVLVPLEDGDRTEALVRMGKFVVTVDLNPLSRSARMADITIVDNIVRAYPRMVELAREMKDYSREELLKIVGEYDNGKTLSDVLLHIRDRLTRLAEEGIWRRKEL 3wds-a1-m1-cA_3wds-a1-m1-cD Crystal structure of 3-quinuclidinone reductase from Agrobacterium tumefaciens G1K3P5 G1K3P5 1.72 X-RAY DIFFRACTION 114 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 257 257 3ak4-a1-m1-cA_3ak4-a1-m1-cD 3ak4-a1-m1-cB_3ak4-a1-m1-cC 3wds-a1-m1-cB_3wds-a1-m1-cC IFDLSGRKAIVTGGSKGIGAAIARALDKAGATVAIADLDVMAAQAVVAGLENGGFAVEVDVTKRASVDAAMQKAIDALGGFDLLCANAGVSTMRPAVDITDEEWDFNFDVNARGVFLANQIACRHFLASNTKGVIVNTASLAAKVGAPLLAHYSASKFAVFGWTQALAREMAPKNIRVNCVCPGFVKTAMQEREIIWEAELRGMTPEAVRAEYVSLTPLGRIEEPEDVADVVVFLASDAARFMTGQGINVTGGVRMD IFDLSGRKAIVTGGSKGIGAAIARALDKAGATVAIADLDVMAAQAVVAGLENGGFAVEVDVTKRASVDAAMQKAIDALGGFDLLCANAGVSTMRPAVDITDEEWDFNFDVNARGVFLANQIACRHFLASNTKGVIVNTASLAAKVGAPLLAHYSASKFAVFGWTQALAREMAPKNIRVNCVCPGFVKTAMQEREIIWEAELRGMTPEAVRAEYVSLTPLGRIEEPEDVADVVVFLASDAARFMTGQGINVTGGVRMD 3wds-a1-m1-cC_3wds-a1-m1-cD Crystal structure of 3-quinuclidinone reductase from Agrobacterium tumefaciens G1K3P5 G1K3P5 1.72 X-RAY DIFFRACTION 114 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 257 257 3ak4-a1-m1-cA_3ak4-a1-m1-cB 3ak4-a1-m1-cC_3ak4-a1-m1-cD 3wds-a1-m1-cA_3wds-a1-m1-cB IFDLSGRKAIVTGGSKGIGAAIARALDKAGATVAIADLDVMAAQAVVAGLENGGFAVEVDVTKRASVDAAMQKAIDALGGFDLLCANAGVSTMRPAVDITDEEWDFNFDVNARGVFLANQIACRHFLASNTKGVIVNTASLAAKVGAPLLAHYSASKFAVFGWTQALAREMAPKNIRVNCVCPGFVKTAMQEREIIWEAELRGMTPEAVRAEYVSLTPLGRIEEPEDVADVVVFLASDAARFMTGQGINVTGGVRMD IFDLSGRKAIVTGGSKGIGAAIARALDKAGATVAIADLDVMAAQAVVAGLENGGFAVEVDVTKRASVDAAMQKAIDALGGFDLLCANAGVSTMRPAVDITDEEWDFNFDVNARGVFLANQIACRHFLASNTKGVIVNTASLAAKVGAPLLAHYSASKFAVFGWTQALAREMAPKNIRVNCVCPGFVKTAMQEREIIWEAELRGMTPEAVRAEYVSLTPLGRIEEPEDVADVVVFLASDAARFMTGQGINVTGGVRMD 3we0-a1-m1-cA_3we0-a1-m2-cB L-Amino acid oxidase/monooxygenase from Pseudomonas sp. AIU 813 B3IVI6 B3IVI6 1.9 X-RAY DIFFRACTION 120 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 540 540 3we0-a1-m1-cB_3we0-a1-m2-cA KKPITIFGPDFPFAFDDWLEHPAGLGSIPAARHGEEVAIVGAGIAGLVAAYELMKLGLKPVVYEASKMGGRLRSQAFNGTDGIIAELGGMRFPVSSTAFYHYVDKLGLETKPFPNPLTPASRSTVIDLEGQTYYAEKAADLPALFQEVTDAWADALESGARFGDIQQAIRDRDVPRLKELWNTLVPLWDDRTFYDFVATSKAFAKLSFQHREVFGQVGFGTGGWDSDFPNSMLEIFRVVMTNCDDHQHLVVGGVEQVPQGIWRHVPERCAHWPEGTSLSSLHGGAPRTGVKRIARASDGRLAVTDNWGDCRHYAAVLTTCQSWLLTTQIDCEESLFSQKMWMALDRTRYMQSSKTFVMVDRPFWKDKDPETGRDLMSMTLTDRLTRGTYLFDNGDDKPGVICLSYAWHPVEKRVQLALDALKKIYPKTDIAGHIIGDPITISWEADPHFLGAFKGALPGHYRYNQRMYAHFMQAQMPVEQRGIFIAGDDVSWTPAWVEGAVQTSLNAVWGIMNHFGGKTHADNPGPGDVFDEIGQIALAD KKPITIFGPDFPFAFDDWLEHPAGLGSIPAARHGEEVAIVGAGIAGLVAAYELMKLGLKPVVYEASKMGGRLRSQAFNGTDGIIAELGGMRFPVSSTAFYHYVDKLGLETKPFPNPLTPASRSTVIDLEGQTYYAEKAADLPALFQEVTDAWADALESGARFGDIQQAIRDRDVPRLKELWNTLVPLWDDRTFYDFVATSKAFAKLSFQHREVFGQVGFGTGGWDSDFPNSMLEIFRVVMTNCDDHQHLVVGGVEQVPQGIWRHVPERCAHWPEGTSLSSLHGGAPRTGVKRIARASDGRLAVTDNWGDCRHYAAVLTTCQSWLLTTQIDCEESLFSQKMWMALDRTRYMQSSKTFVMVDRPFWKDKDPETGRDLMSMTLTDRLTRGTYLFDNGDDKPGVICLSYAWHPVEKRVQLALDALKKIYPKTDIAGHIIGDPITISWEADPHFLGAFKGALPGHYRYNQRMYAHFMQAQMPVEQRGIFIAGDDVSWTPAWVEGAVQTSLNAVWGIMNHFGGKTHADNPGPGDVFDEIGQIALAD 3we5-a1-m1-cA_3we5-a1-m1-cB Crystal structure of ubiquitin conjugating enzyme E2 UbcA1 from Agrocybe aegerita H9CTH3 H9CTH3 1.7 X-RAY DIFFRACTION 25 1.0 141 141 GSVSARRLAKELREIQSEGCPVGITLVDASDFSKWLFTIEVMGNSQYQGEAYTLQFRFDAQYPISSPAVQFVVTDGKEAPVHPHVYSNGHICASILGSEWSPVLSVIAVCVTLQSMLASCKKKERPADNDRYVRTAPDNPK GSVSARRLAKELREIQSEGCPVGITLVDASDFSKWLFTIEVMGNSQYQGEAYTLQFRFDAQYPISSPAVQFVVTDGKEAPVHPHVYSNGHICASILGSEWSPVLSVIAVCVTLQSMLASCKKKERPADNDRYVRTAPDNPK 3wea-a3-m1-cA_3wea-a3-m1-cB Crystal structure of a Niemann-Pick type C2 protein from Japanese carpenter ant W5JXD9 W5JXD9 1.8 X-RAY DIFFRACTION 28 1.0 84547 (Camponotus japonicus) 84547 (Camponotus japonicus) 132 132 FVFEDCGSEVGKFSDIIISSCDPSEEKCSIIRESEIHVSMKFTPSVDVKNVEAKAFGVLLDVPVPFPLKKPEICKDPDSGVKCPLKKDVEIEYKVTFFVEKATPALSLEIMWEFRNEKDEKITCVKFPAKIK FVFEDCGSEVGKFSDIIISSCDPSEEKCSIIRESEIHVSMKFTPSVDVKNVEAKAFGVLLDVPVPFPLKKPEICKDPDSGVKCPLKKDVEIEYKVTFFVEKATPALSLEIMWEFRNEKDEKITCVKFPAKIK 3weu-a2-m2-cA_3weu-a2-m2-cB Crystal structure of the L-Lys epsilon-oxidase from Marinomonas mediterranea F2JXJ3 F2JXJ3 1.93 X-RAY DIFFRACTION 50 0.997 717774 (Marinomonas mediterranea MMB-1) 717774 (Marinomonas mediterranea MMB-1) 682 682 2ymw-a1-m1-cA_2ymw-a1-m1-cB 2ymw-a1-m2-cA_2ymw-a1-m2-cB 3weu-a1-m1-cA_3weu-a1-m1-cB 3weu-a2-m1-cA_3weu-a2-m1-cB 3wev-a1-m1-cA_3wev-a1-m1-cB 3wev-a2-m1-cA_3wev-a2-m1-cB 3wev-a2-m2-cA_3wev-a2-m2-cB ALSVHPSIGVARLGNANTDNFVLNPMEIGGLPYEHDVDLKPTTTVVNFKDEAGIRRQGQVFKVFGASNEELTLDSPNVKNIEWTVHLANKKAAWYEFRELNGNLLYGRDNSYSARGVPWRNASKTASSERQSLIIDLGPRSVSGVMATVEISINNIPETYLHPSYPSGELLQGSKHFESLGTLRTDSQGRLIVLGGYGFAGGNTDLSGGGDDWYDDISDGSVTCVVTYSDDSSETSTAWMVVGSPDFAPEIVNISTLSDTCFDVGVRNFDLVPDMYDSATGHYKSDYVANFDRDILPIIQRISQYQWVSNVQSMSGFFSFQFDYRDGSAANKANRMKYYNYFRQLDNKVIGDYDQPQQVLMSSEVEGDILPLMPMNSGSNSVSSSNFYDLTDNVVEKFLALDATQLFLLGQWAEGEFTAGPADDYPVSDMDTASIGNCVGLPMCPGIEMTWSLQNPVIYKDAYQIKHYQDKAYFDVNGLTPERDECEEETGCEPGDLTKRMACPWQADFFNCTIQTVNFSEPSVNKASQTETVTSRTHYEWGNLPAGVSVPDQSSVSATKNVDEKVPLPPAYYSYWPPQSPWDVLTGELDTEGQLHSHLPAGQQINYARGINSYSQMVEHWSALAFIRDRNQNNDGFPFFTETERNHELFDFKEVLVGQVTGNSEDNETSLPVFFINANKES ALSVHPSIGVARLGNANTDNFVLNPMEIGGLPYEHDVDLKPTTTVVNFKDEAGIRRQGQVFKVFGASNEELTLDSPNVKNIEWTVHLANKKAAWYEFRELNGNLLYGRDNSYSARGVPWRNASKTASSERQSLIIDLGPRSVSGVMATVEISINNIPETYLHPSYPSGELLQGSKHFESLGTLRTDSQGRLIVLGGYGFAGGNTDLSGYGGGDDWYDDISDGSVTCVVTYSDDSSETSTAWMVVGSPDFAPEIVNISTLSDTCFDVGVRNFDLVPDMYDSATGHYKSDYVANFDRDILPIIQRISQYQWVSNVQSMSGFFSFQFDYRDGSAANKANRMKYYNYFRQLDNKVIGDYDQPQQVLMSSEVEGDILPLMPMNSGSNSVSSSNFYDLTDNVVEKFLALDATQLFLLGQWAEGEFTAGPADDYPVSDMDTASIGNCVGLPMCPGIEMTWSLQNPVIYKDAYQIKHYQDKAYFDVNGLTPERDECEEETGCEPGDLTKRMACPWQADFFNCTIQTVNFSEPSVNKASQTETVTSRTHYEWGNLPAGVSVPDQSSVSATKNVDEKVPLPPAYYSYWPPQSPWDVLTGELDTEGQLHSHLPAGQQINYARGINSYSQMVEHWSALAFIRDRNQNNDGFPFFTETERNHELFDFKEVLVGQVTGNSEDNETSLPVFFINANK 3wev-a2-m1-cA_3wev-a2-m2-cB Crystal structure of the Schiff base intermediate of L-Lys epsilon-oxidase from Marinomonas mediterranea with L-Lys F2JXJ3 F2JXJ3 1.98 X-RAY DIFFRACTION 110 0.999 717774 (Marinomonas mediterranea MMB-1) 717774 (Marinomonas mediterranea MMB-1) 679 680 2ymw-a1-m1-cA_2ymw-a1-m2-cB 2ymw-a1-m2-cA_2ymw-a1-m1-cB 3weu-a2-m1-cA_3weu-a2-m2-cB 3weu-a2-m1-cB_3weu-a2-m2-cA 3wev-a2-m2-cA_3wev-a2-m1-cB ALSVHPSIGVARLGNANTDNFVLNPMEIGGLPYEHDVDLKPTTTVVNFKDEAGCIRRQGQVFKVFGASNEELTLDSPNVKNIEWTVHLANKKAAWYEFRELNGNLLYGRDNSYSARGVPWRNASKTASSERQSLIIDLGPRSVSGVMATVEISINNIPETYLHPSYPSGELLQGSKHFESLGTLRTDSQGRLIVLGGYGFAGGNTDGGDDWYDDISDGSVTCVVTYSDDSSETSTAWMVVGSPDFAPEIVNISTLSDTCFDVGVRNFDLVPDMYDSATGHYKSDYVANFDRDILPIIQRISQYQWVSNVQSMSGFFSFQFDYRDGSAANKANRMKYYNYFRQLDNKVIGDYDQPQQVLMSSEVEGDILPLMPMNSGSNSVSSSNFYDLTDNVVEKFLALDATQLFLLGQWAEGEFTAGPADDYPVSDMDTASIGNCVGLPMCPGIEMTWSLQNPVIYKDAYQIKHYQDKAYFDVNGLTPERDECEEETGCEPGDLTKRMACPWQADFFNCTIQTVNFSEPSVNKASQTETVTSRTHYEWGNLPAGVSVPDQSSVSATKNVDEKVPLPPAYYSYWPPQSPWDVLTGELDTEGQLHSHLPAGQQINYARGINSYSQMVEHWSALAFIRDRNQNNDGFPFFTETERNHELFDFKEVLVGQVTGNSEDNETSLPVFFINANKE ALSVHPSIGVARLGNANTDNFVLNPMEIGGLPYEHDVDLKPTTTVVNFKDEAGCIRRQGQVFKVFGASNEELTLDSPNVKNIEWTVHLANKKAAWYEFRELNGNLLYGRDNSYSARGVPWRNASKTASSERQSLIIDLGPRSVSGVMATVEISINNIPETYLHPSYPSGELLQGSKHFESLGTLRTDSQGRLIVLGGYGFAGGNTDLSGGDDWYDDISDGSVTCVVTYSDDSSETSTAWMVVGSPDFAPEIVNISTLSDTCFDVGVRNFDLVPDMYDSATGHYKSDYVANFDRDILPIIQRISQYQWVSNVQSMSGFFSFQFDYRDGSAANKANRMKYYNYFRQLDNKVIGDYDQPQQVLMSSEVEGDILPLMPMNSGSNSVSSSNFYDLTDNVVEKFLALDATQLFLLGQWAEGEFTAGPADDYPVSDMDTASIGNCVGLPMCPGIEMTWSLQNPVIYKDAYQIKHYQDKAYFDVNGLTPERDECEEETGCEPGDLTKRMACPWQADFFNCTIQTVNFSEPSVNKASQTETVTSRTHYEWGNLPAGVSVPDQSSVSATKNVDEKVPLPPAYYSYWPPQSPWDVLTGELDTEGQLHSHLPAGQQINYARGINSYSQMVEHWSALAFIRDRNQNNDGFPFFTETERNHELFDFKEVLVGQVTGNSEDNETSLPVFFINANK 3wev-a2-m1-cB_3wev-a2-m2-cB Crystal structure of the Schiff base intermediate of L-Lys epsilon-oxidase from Marinomonas mediterranea with L-Lys F2JXJ3 F2JXJ3 1.98 X-RAY DIFFRACTION 225 1.0 717774 (Marinomonas mediterranea MMB-1) 717774 (Marinomonas mediterranea MMB-1) 680 680 2ymw-a1-m1-cA_2ymw-a1-m2-cA 2ymw-a1-m1-cB_2ymw-a1-m2-cB 3weu-a2-m1-cA_3weu-a2-m2-cA 3weu-a2-m1-cB_3weu-a2-m2-cB 3wev-a2-m1-cA_3wev-a2-m2-cA ALSVHPSIGVARLGNANTDNFVLNPMEIGGLPYEHDVDLKPTTTVVNFKDEAGCIRRQGQVFKVFGASNEELTLDSPNVKNIEWTVHLANKKAAWYEFRELNGNLLYGRDNSYSARGVPWRNASKTASSERQSLIIDLGPRSVSGVMATVEISINNIPETYLHPSYPSGELLQGSKHFESLGTLRTDSQGRLIVLGGYGFAGGNTDLSGGDDWYDDISDGSVTCVVTYSDDSSETSTAWMVVGSPDFAPEIVNISTLSDTCFDVGVRNFDLVPDMYDSATGHYKSDYVANFDRDILPIIQRISQYQWVSNVQSMSGFFSFQFDYRDGSAANKANRMKYYNYFRQLDNKVIGDYDQPQQVLMSSEVEGDILPLMPMNSGSNSVSSSNFYDLTDNVVEKFLALDATQLFLLGQWAEGEFTAGPADDYPVSDMDTASIGNCVGLPMCPGIEMTWSLQNPVIYKDAYQIKHYQDKAYFDVNGLTPERDECEEETGCEPGDLTKRMACPWQADFFNCTIQTVNFSEPSVNKASQTETVTSRTHYEWGNLPAGVSVPDQSSVSATKNVDEKVPLPPAYYSYWPPQSPWDVLTGELDTEGQLHSHLPAGQQINYARGINSYSQMVEHWSALAFIRDRNQNNDGFPFFTETERNHELFDFKEVLVGQVTGNSEDNETSLPVFFINANK ALSVHPSIGVARLGNANTDNFVLNPMEIGGLPYEHDVDLKPTTTVVNFKDEAGCIRRQGQVFKVFGASNEELTLDSPNVKNIEWTVHLANKKAAWYEFRELNGNLLYGRDNSYSARGVPWRNASKTASSERQSLIIDLGPRSVSGVMATVEISINNIPETYLHPSYPSGELLQGSKHFESLGTLRTDSQGRLIVLGGYGFAGGNTDLSGGDDWYDDISDGSVTCVVTYSDDSSETSTAWMVVGSPDFAPEIVNISTLSDTCFDVGVRNFDLVPDMYDSATGHYKSDYVANFDRDILPIIQRISQYQWVSNVQSMSGFFSFQFDYRDGSAANKANRMKYYNYFRQLDNKVIGDYDQPQQVLMSSEVEGDILPLMPMNSGSNSVSSSNFYDLTDNVVEKFLALDATQLFLLGQWAEGEFTAGPADDYPVSDMDTASIGNCVGLPMCPGIEMTWSLQNPVIYKDAYQIKHYQDKAYFDVNGLTPERDECEEETGCEPGDLTKRMACPWQADFFNCTIQTVNFSEPSVNKASQTETVTSRTHYEWGNLPAGVSVPDQSSVSATKNVDEKVPLPPAYYSYWPPQSPWDVLTGELDTEGQLHSHLPAGQQINYARGINSYSQMVEHWSALAFIRDRNQNNDGFPFFTETERNHELFDFKEVLVGQVTGNSEDNETSLPVFFINANK 3wf8-a2-m1-cA_3wf8-a2-m2-cA Crystal structure of S6K1 kinase domain in complex with a quinoline derivative 2-oxo-2-[(4-sulfamoylphenyl)amino]ethyl 7,8,9,10-tetrahydro-6H-cyclohepta[b]quinoline-11-carboxylate P23443 P23443 1.975 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 287 287 3wf9-a2-m1-cA_3wf9-a2-m2-cA KIRPECFELLRVLGKGGYGKVFQVRKVTGANTGKIFAMKVLKKAMIVRNAKDTAHTKAERNILEEVKHPFIVDLIYAFQTGGKLYLILEYLSGGELFMQLEREGIFMEDTACFYLAEISMALGHLHQKGIIYRDLKPENIMLNHQGHVKLTDFGLCKESIHDGTVTHFCGTIEYMAPEILMRSGHNRAVDWWSLGALMYDMLTGAPPFTGENRKKTIDKILKCKLNLPPYLTQEARDLLKKLLKRNAASRLGAGPGDAGEVQAHPFFRHINWEELLARKVEPPFKPL KIRPECFELLRVLGKGGYGKVFQVRKVTGANTGKIFAMKVLKKAMIVRNAKDTAHTKAERNILEEVKHPFIVDLIYAFQTGGKLYLILEYLSGGELFMQLEREGIFMEDTACFYLAEISMALGHLHQKGIIYRDLKPENIMLNHQGHVKLTDFGLCKESIHDGTVTHFCGTIEYMAPEILMRSGHNRAVDWWSLGALMYDMLTGAPPFTGENRKKTIDKILKCKLNLPPYLTQEARDLLKKLLKRNAASRLGAGPGDAGEVQAHPFFRHINWEELLARKVEPPFKPL 3wfi-a1-m1-cA_3wfi-a1-m1-cB The crystal structure of D-mandelate dehydrogenase E3USM3 E3USM3 1.997 X-RAY DIFFRACTION 85 1.0 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 311 312 MKIAIAGAGAMGSRFGLMLHQSGNEVLLIDGWAEHVQQIKEHGLQANFNGKEVEAKLPIVLQSEVEKEDQVDLIILFTKAMQLEKMLQDIQSLIKKDTEVLCLLNGIGHEDIIEKFVPMENIYIGNTMWTAGLEGPGQVKLFGSGSVELQNLGDGKEAAAKKLADKLSESGLNAHFSDNIHYSIYRKACVNGTMNGLCTILDVNMAELGKTSTAHKMVATIVNEFAKVAAVEKIELDVPEVIAHCESCFDPETIGLHYPSMYQDLIKNHRLTEIDYINGAISRKGKKYGVATPYCDFLTELVHAKEDSLNV MKIAIAGAGAMGSRFGLMLHQSGNEVLLIDGWAEHVQQIKEHGLQANFNGKEVEAKLPIVLQSEVEKEDQVDLIILFTKAMQLEKMLQDIQSLIKKDTEVLCLLNGIGHEDIIEKFVPMENIYIGNTMWTAGLEGPGQVKLFGSGSVELQNLGDGKEAAAKKLADKLSESGLNAHFSDNIHYSIYRKACVNGTMNGLCTILDVNMAELGKTSTAHKMVATIVNEFAKVAAVEKIELDVPEVIAHCESCFDPETIGLHYPSMYQDLIKNHRLTEIDYINGAISRKGKKYGVATPYCDFLTELVHAKEDSLNVK 3wfj-a1-m1-cA_3wfj-a1-m1-cE The complex structure of D-mandelate dehydrogenase with NADH E3USM3 E3USM3 2.8 X-RAY DIFFRACTION 88 0.993 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 299 299 3wfj-a2-m1-cB_3wfj-a2-m1-cG 3wfj-a3-m1-cH_3wfj-a3-m1-cC 3wfj-a4-m1-cF_3wfj-a4-m1-cD 5x20-a1-m1-cB_5x20-a1-m1-cA 5x20-a2-m1-cD_5x20-a2-m1-cC 5x20-a3-m1-cF_5x20-a3-m1-cE MKIAIAGAGAMGSRFGLMLHQSGNEVLLIDGWAEHVQQIKEHGLQANFEVEAKLPIVLQSEVDLIILFTKAMQLEKMLQDIQSLIDTEVLCLLNGIGHEDIIEKFVPMENIYIGNTMWTAGLEGPGQVKLFGSGSVELQNLGDGKEAAAKKLADKLSESGLNAHFSDNIHYSIYRKACVNGTMNGLCTILDVNMAELGKTSTAHKMVATIVNEFAKVAAVEKIELDVPEVIAHCESCFDPETIGLHYPSMYQDLIKNHRLTEIDYINGAISRKGKKYGVATPYCDFLTELVHAKEDSLN MKIAIAGAGAMGSRFGLMLHQSGNEVLLIDGWAEHVQQIKEHGLQANFVEAKLPIVLQSVDLIILFTKAMQLEKMLQDIQSLIKKDTEVLCLLNGIGHEDIIEKFVPMENIYIGNTMWTAGLEGPGQVKLFGSGSVELQNLGDGKEAAAKKLADKLSESGLNAHFSDNIHYSIYRKACVNGTMNGLCTILDVNMAELGKTSTAHKMVATIVNEFAKVAAVEKIELDVPEVIAHCESCFDPETIGLHYPSMYQDLIKNHRLTEIDYINGAISRKGKKYGVATPYCDFLTELVHAKEDSLN 3wfp-a11-m1-cE_3wfp-a11-m1-cF tRNA processing enzyme (apo form 2) O67911 O67911 4.005 X-RAY DIFFRACTION 111 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 411 411 3wfp-a10-m1-cC_3wfp-a10-m1-cD 3wfp-a12-m1-cG_3wfp-a12-m1-cH 3wfp-a9-m1-cB_3wfp-a9-m1-cA LNFYLSYFDDVAKVLPREHYCFIVGGWVRDRILGEPVGYNIDVDFLTTADPVELAKNFAKRIGGHFFVFEPTIASVVLHLPPYRYRFDFSPLKGKDLEKALIEDLKERDFTANAIAVNLDDVLSIGAKQTIVYDPTGGIKDLEQGLLRPVSIENLKRDPVRVLRGFRIAIEKNLQLTEDFYEFVKEDPRIVLKSAVERITHELFKIMKEKTAHKVIRELYEYGVLEAIIPEIGRLREVKDPLDEHTLKTLEYLEQVIEDRAKYLSAELLENFGKKRVLGEFTDVELLKWGALFHDIGKPQTFVTFYEHDKVGAQIVREIGERLRWGDEATEFVAKLVRHHLRPFFLREAFKKGELKRRGMANFWRECGDIAPHLFLLSIADAMASGDEEEDIKALMETIAELESFNRNEMK LNFYLSYFDDVAKVLPREHYCFIVGGWVRDRILGEPVGYNIDVDFLTTADPVELAKNFAKRIGGHFFVFEPTIASVVLHLPPYRYRFDFSPLKGKDLEKALIEDLKERDFTANAIAVNLDDVLSIGAKQTIVYDPTGGIKDLEQGLLRPVSIENLKRDPVRVLRGFRIAIEKNLQLTEDFYEFVKEDPRIVLKSAVERITHELFKIMKEKTAHKVIRELYEYGVLEAIIPEIGRLREVKDPLDEHTLKTLEYLEQVIEDRAKYLSAELLENFGKKRVLGEFTDVELLKWGALFHDIGKPQTFVTFYEHDKVGAQIVREIGERLRWGDEATEFVAKLVRHHLRPFFLREAFKKGELKRRGMANFWRECGDIAPHLFLLSIADAMASGDEEEDIKALMETIAELESFNRNEMK 3wfv-a1-m2-cA_3wfv-a1-m3-cA HIV-1 CRF07 gp41 Q994K2 Q994K2 1.8 X-RAY DIFFRACTION 86 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 86 86 3wfv-a1-m1-cA_3wfv-a1-m2-cA 3wfv-a1-m1-cA_3wfv-a1-m3-cA AGAGQSNDSGIVQQQSNLLRAIEAQQHLLQLTVWGIKQLQTRVLGGGGRWMQWDKEISNYTNTVYRLLEESQNQQERNEKDLLALA AGAGQSNDSGIVQQQSNLLRAIEAQQHLLQLTVWGIKQLQTRVLGGGGRWMQWDKEISNYTNTVYRLLEESQNQQERNEKDLLALA 3wfw-a1-m1-cA_3wfw-a1-m2-cA Crystal Structure of the Closed Form of the HGbRL's Globin Domain B3DUZ1 B3DUZ1 1.65 X-RAY DIFFRACTION 139 1.0 481448 (Methylacidiphilum infernorum V4) 481448 (Methylacidiphilum infernorum V4) 138 138 MTREEIKMIQKSWLRVIDKMDEAGLLFYRRLFDVEPKVRPLFKIDIEKQGRKLMDVLNWIVLNLQDIDAALDAARELARRHVKYGVKAEHYPVVGHTLIWTLRKMIGSEWTKQLEQLWTQAYEALAQVMIEEHHHHHH MTREEIKMIQKSWLRVIDKMDEAGLLFYRRLFDVEPKVRPLFKIDIEKQGRKLMDVLNWIVLNLQDIDAALDAARELARRHVKYGVKAEHYPVVGHTLIWTLRKMIGSEWTKQLEQLWTQAYEALAQVMIEEHHHHHH 3wfx-a1-m1-cB_3wfx-a1-m1-cA Crystal Structure of the Imidazole-Bound Form of the HGbRL's Globin Domain B3DUZ1 B3DUZ1 1.94 X-RAY DIFFRACTION 131 1.0 481448 (Methylacidiphilum infernorum V4) 481448 (Methylacidiphilum infernorum V4) 135 136 MTREEIKMIQKSWLRVIDKMDEAGLLFYRRLFDVEPKVRPLFKIDIEKQGRKLMDVLNWIVLNLQDIDAALDAARELARRHVKYGVKAEHYPVVGHTLIWTLRKMIGSEWTKQLEQLWTQAYEALAQVMIEEHHH MTREEIKMIQKSWLRVIDKMDEAGLLFYRRLFDVEPKVRPLFKIDIEKQGRKLMDVLNWIVLNLQDIDAALDAARELARRHVKYGVKAEHYPVVGHTLIWTLRKMIGSEWTKQLEQLWTQAYEALAQVMIEEHHHH 3wgc-a1-m1-cC_3wgc-a1-m1-cB Aeromonas jandaei L-allo-threonine aldolase H128Y/S292R double mutant O07051 O07051 2.5 X-RAY DIFFRACTION 45 1.0 650 (Aeromonas jandaei) 650 (Aeromonas jandaei) 325 333 3wgb-a1-m1-cA_3wgb-a1-m1-cC 3wgb-a1-m1-cB_3wgb-a1-m1-cD 3wgc-a1-m1-cA_3wgc-a1-m1-cD RYIDLRSDTVTQPTDAMRQCMLHAEVGDDVYGEDPGVNALEAYGADLLGKEAALFVPSGTMSNLLAVMSHCQRGEGAVLGSAAHIYRYEAQGSAVLGSVALQPVPMQADGSLALADVRAAIAPDDVYFTPTRLVCLENTHNGKVLPLPYLREMRELVDEHGLQLHLDGARLFNAVVASGHTVRELVAPFDSVSICLSKGLGAPVGSLLVGSHAFIARARRLRKMVGGGMRQAGILAQAGLFALQQHVVRLADDHRRARQLAEGLAGIRLDLAQVQTNMVFLQLRAPLLAFMKARGILFSELRLVTHLQIHDDDIEEVIDAFTEYL RYIDLRSDTVTQPTDAMRQCMLHAEVGDDVYGEDPGVNALEAYGADLLGKEAALFVPSGTMSNLLAVMSHCQRGEGAVLGSAAHIYRYEAQGSAVLGSVALQPVPMQADGSLALADVRAAIAPDDVYFTPTRLVCLENTHNGKVLPLPYLREMRELVDEHGLQLHLDGARLFNAVVASGHTVRELVAPFDSVSICLSKGLGAPVGSLLVGSHAFIARARRLRKMVGGGMRQAGILAQAGLFALQQHVVRLADDHRRARQLAEGLAALPGIRLDLAQVQTNMVFLQLTSGERAPLLAFMKARGILFSGELRLVTHLQIHDDDIEEVIDAFTEYL 3wgc-a1-m1-cC_3wgc-a1-m1-cD Aeromonas jandaei L-allo-threonine aldolase H128Y/S292R double mutant O07051 O07051 2.5 X-RAY DIFFRACTION 33 1.0 650 (Aeromonas jandaei) 650 (Aeromonas jandaei) 325 331 3wgb-a1-m1-cA_3wgb-a1-m1-cD 3wgb-a1-m1-cB_3wgb-a1-m1-cC 3wgc-a1-m1-cA_3wgc-a1-m1-cB RYIDLRSDTVTQPTDAMRQCMLHAEVGDDVYGEDPGVNALEAYGADLLGKEAALFVPSGTMSNLLAVMSHCQRGEGAVLGSAAHIYRYEAQGSAVLGSVALQPVPMQADGSLALADVRAAIAPDDVYFTPTRLVCLENTHNGKVLPLPYLREMRELVDEHGLQLHLDGARLFNAVVASGHTVRELVAPFDSVSICLSKGLGAPVGSLLVGSHAFIARARRLRKMVGGGMRQAGILAQAGLFALQQHVVRLADDHRRARQLAEGLAGIRLDLAQVQTNMVFLQLRAPLLAFMKARGILFSELRLVTHLQIHDDDIEEVIDAFTEYL RYIDLRSDTVTQPTDAMRQCMLHAEVGDDVYGEDPGVNALEAYGADLLGKEAALFVPSGTMSNLLAVMSHCQRGEGAVLGSAAHIYRYEAQGSAVLGSVALQPVPMQADGSLALADVRAAIAPDDVYFTPTRLVCLENTHNGKVLPLPYLREMRELVDEHGLQLHLDGARLFNAVVASGHTVRELVAPFDSVSICLSKGLGAPVGSLLVGSHAFIARARRLRKMVGGGMRQAGILAQAGLFALQQHVVRLADDHRRARQLAEGLAALPGIRLDLAQVQTNMVFLQLTERAPLLAFMKARGILFSGELRLVTHLQIHDDDIEEVIDAFTEYL 3wgc-a1-m1-cD_3wgc-a1-m1-cB Aeromonas jandaei L-allo-threonine aldolase H128Y/S292R double mutant O07051 O07051 2.5 X-RAY DIFFRACTION 155 1.0 650 (Aeromonas jandaei) 650 (Aeromonas jandaei) 331 333 3wgb-a1-m1-cB_3wgb-a1-m1-cA 3wgb-a1-m1-cD_3wgb-a1-m1-cC 3wgc-a1-m1-cA_3wgc-a1-m1-cC RYIDLRSDTVTQPTDAMRQCMLHAEVGDDVYGEDPGVNALEAYGADLLGKEAALFVPSGTMSNLLAVMSHCQRGEGAVLGSAAHIYRYEAQGSAVLGSVALQPVPMQADGSLALADVRAAIAPDDVYFTPTRLVCLENTHNGKVLPLPYLREMRELVDEHGLQLHLDGARLFNAVVASGHTVRELVAPFDSVSICLSKGLGAPVGSLLVGSHAFIARARRLRKMVGGGMRQAGILAQAGLFALQQHVVRLADDHRRARQLAEGLAALPGIRLDLAQVQTNMVFLQLTERAPLLAFMKARGILFSGELRLVTHLQIHDDDIEEVIDAFTEYL RYIDLRSDTVTQPTDAMRQCMLHAEVGDDVYGEDPGVNALEAYGADLLGKEAALFVPSGTMSNLLAVMSHCQRGEGAVLGSAAHIYRYEAQGSAVLGSVALQPVPMQADGSLALADVRAAIAPDDVYFTPTRLVCLENTHNGKVLPLPYLREMRELVDEHGLQLHLDGARLFNAVVASGHTVRELVAPFDSVSICLSKGLGAPVGSLLVGSHAFIARARRLRKMVGGGMRQAGILAQAGLFALQQHVVRLADDHRRARQLAEGLAALPGIRLDLAQVQTNMVFLQLTSGERAPLLAFMKARGILFSGELRLVTHLQIHDDDIEEVIDAFTEYL 3wgi-a2-m1-cC_3wgi-a2-m1-cD Crystal structure of RSP in complex with beta-NAD+ and operator DNA D5KM69 D5KM69 3.25 X-RAY DIFFRACTION 170 1.0 509192 (Thermoanaerobacter ethanolicus JW 200) 509192 (Thermoanaerobacter ethanolicus JW 200) 217 217 3wg9-a1-m1-cA_3wg9-a1-m1-cB 3wg9-a2-m1-cC_3wg9-a2-m1-cD 3wgg-a1-m1-cA_3wgg-a1-m1-cB 3wgh-a1-m1-cA_3wgh-a1-m1-cB 3wgi-a1-m1-cA_3wgi-a1-m1-cB KTIVSMAVIRRLPRYHRYLEELLKNDVKRISSRELSEKMGVTASQIRQDLNNFGGFGQQGYGYNVEELYNNLTKILGLDKTYNTIIIGAGNLGQAIANYTSFEKSGFNLKGIFDINPRLFGLKIRDVEVMDVETVEDFIARNKIDIGILCIPKDNAQYTADRLVRAGIKAIWNFLPIDLKVPDDVILENVHLSDSLFTVSYRLNEEELFKKLKGETA KTIVSMAVIRRLPRYHRYLEELLKNDVKRISSRELSEKMGVTASQIRQDLNNFGGFGQQGYGYNVEELYNNLTKILGLDKTYNTIIIGAGNLGQAIANYTSFEKSGFNLKGIFDINPRLFGLKIRDVEVMDVETVEDFIARNKIDIGILCIPKDNAQYTADRLVRAGIKAIWNFLPIDLKVPDDVILENVHLSDSLFTVSYRLNEEELFKKLKGETA 3wgy-a1-m1-cA_3wgy-a1-m1-cB Crystal structure of meso-dapdh Q154L/T173I/R199M/P248S/H249N/N276S mutant with 4-methyl-2-oxovalerate of from Clostridium tetani E88 Q890V3 Q890V3 2 X-RAY DIFFRACTION 204 1.0 212717 (Clostridium tetani E88) 212717 (Clostridium tetani E88) 323 324 3wgo-a1-m1-cA_3wgo-a1-m1-cB 3wgq-a1-m1-cA_3wgq-a1-m1-cB 3wgz-a1-m1-cA_3wgz-a1-m1-cB KIRIGIVGYGNIGKGVEKAIKQNDDMELEAIFTRRDINKVDSNNSKLVHISRLELYKDTVDVMILCGGSATDLVEQGPMIASQFNTVDSFDNHGRIPQHFERMDEISKKAGNISLISTGWDPGLFSLNRLLGESILPKGKTHTFWGKGVSLGHSDAIRRVQGVKNGIQYIIPIKGALDKARSGEQCDFTTREKHEMVCYVVPEENADLKKIEQDIKTMPDYFADYNTTVHFITEEELKLNHAGLSNGGFVIRSGNTQGGAKQVMEFNLNLESSAEFTSSVLVAYSRAIYKLSKEGKKGAVTVLDIPFSYLSPKTPEELRKELL SKIRIGIVGYGNIGKGVEKAIKQNDDMELEAIFTRRDINKVDSNNSKLVHISRLELYKDTVDVMILCGGSATDLVEQGPMIASQFNTVDSFDNHGRIPQHFERMDEISKKAGNISLISTGWDPGLFSLNRLLGESILPKGKTHTFWGKGVSLGHSDAIRRVQGVKNGIQYIIPIKGALDKARSGEQCDFTTREKHEMVCYVVPEENADLKKIEQDIKTMPDYFADYNTTVHFITEEELKLNHAGLSNGGFVIRSGNTQGGAKQVMEFNLNLESSAEFTSSVLVAYSRAIYKLSKEGKKGAVTVLDIPFSYLSPKTPEELRKELL 3whc-a3-m1-cF_3whc-a3-m1-cE Crystal structure of a transcriptional regulator FadR from Bacillus subtilis in complex with stearoyl-CoA P94548 P94548 2.2 X-RAY DIFFRACTION 129 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 186 190 1vi0-a1-m1-cB_1vi0-a1-m1-cA 3whb-a1-m1-cB_3whb-a1-m1-cA 3whc-a1-m1-cB_3whc-a1-m1-cA 3whc-a2-m1-cD_3whc-a2-m1-cC KYMQIIDAAVEVIAENGYHQSQVSKIAKQAGVADGTIYLYFKNKEDILISLFKEKMGQFIERMEEDIKEKATAKEKLALVISKHFSLLAGDHNLAIVTQLELRQSNLELRQKINEILKGYLNILDGILTEGIQSGEIKEGLDVRLARQMIFGTIDETVTTWVMNDQKYDLVALSNSVLELLVSGIH KRPKYMQIIDAAVEVIAENGYHQSQVSKIAKQAGVADGTIYLYFKNKEDILISLFKEKMGQFIERMEEDIKEKATAKEKLALVISKHFSLLAGDHNLAIVTQLELRQSNLELRQKINEILKGYLNILDGILTEGIQSGEIKEGLDVRLARQMIFGTIDETVTTWVMNDQKYDLVALSNSVLELLVSGIHN 3whd-a3-m1-cA_3whd-a3-m1-cC C-type lectin, human MCL Q8WXI8 Q8WXI8 2.29 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 148 HAKLKCIKSTWNCCPIDWRAFQSNCYFPLTDNKTWAESERNCSGMGAHLMTISTEAEQNFIIQFLDRRLSYFLGLRDENAKGQWRWVDQTPFNPRRVFWHKNEPDNSQGENCVVLVYNQDKWAWNDVPCNFEASRICKIPGTTLN MHAKLKCIKEKSTWNCCPIDWRAFQSNCYFPLTDNKTWAESERNCSGMGAHLMTISTEAEQNFIIQFLDRRLSYFLGLRDENAKGQWRWVDQTPFNPRRVFWHKNEPDNSQGENCVVLVYNQDKWAWNDVPCNFEASRICKIPGTTLN 3whi-a3-m1-cA_3whi-a3-m2-cA Crystal structure of unautoprocessed form of IS1-inserted Pro-subtilisin E P04189 P04189 2.4 X-RAY DIFFRACTION 62 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 355 355 TEKKYIVGFKQTMSAMSSAKKKDVISEKGGKVQKQFKYVNAAAATLDEKAVKELKKDPSVAYVEEDHIAHEYGKPSWLQPAQSVPYGISQIKAPALHSQGYTGSNVKVAVIDSGIDSSHPDLNVRGGASFVPSETNPYQDGSSHGTHVAGTIAALNNSIGVLGVSPSASLYAVKVLDSTGSGQYSWIINGIEWAISNNMDVINMSLGGPTGSTALKTVVDKAVSSGIVVAAAAGNEGSSGSTSTVGYPAKYPSTIAVGAVNSSNQRASFSSAGSELDVMAPGVSIQSTLPGGTYGAYNGTAMATPHVAGAAALILSKHPTWTNAQVRDRLESTATYLGNSFYYGKGLINVQAAAQ TEKKYIVGFKQTMSAMSSAKKKDVISEKGGKVQKQFKYVNAAAATLDEKAVKELKKDPSVAYVEEDHIAHEYGKPSWLQPAQSVPYGISQIKAPALHSQGYTGSNVKVAVIDSGIDSSHPDLNVRGGASFVPSETNPYQDGSSHGTHVAGTIAALNNSIGVLGVSPSASLYAVKVLDSTGSGQYSWIINGIEWAISNNMDVINMSLGGPTGSTALKTVVDKAVSSGIVVAAAAGNEGSSGSTSTVGYPAKYPSTIAVGAVNSSNQRASFSSAGSELDVMAPGVSIQSTLPGGTYGAYNGTAMATPHVAGAAALILSKHPTWTNAQVRDRLESTATYLGNSFYYGKGLINVQAAAQ 3whj-a2-m1-cA_3whj-a2-m2-cA Crystal structure of Nas2 N-terminal domain P40555 P40555 1.65 X-RAY DIFFRACTION 86 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 111 111 MEEEELSKLLANVKIDPSLTSRISQIDSFKLSELMVLKTDIETQLEAYFSVLEQQGIGMDSAYPRSDVDVLQVTMIRKNVNMLKNDLNHLLQRSHVLLNQHFDNMNVKSNQ MEEEELSKLLANVKIDPSLTSRISQIDSFKLSELMVLKTDIETQLEAYFSVLEQQGIGMDSAYPRSDVDVLQVTMIRKNVNMLKNDLNHLLQRSHVLLNQHFDNMNVKSNQ 3whj-a3-m1-cA_3whj-a3-m3-cA Crystal structure of Nas2 N-terminal domain P40555 P40555 1.65 X-RAY DIFFRACTION 55 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 111 111 MEEEELSKLLANVKIDPSLTSRISQIDSFKLSELMVLKTDIETQLEAYFSVLEQQGIGMDSAYPRSDVDVLQVTMIRKNVNMLKNDLNHLLQRSHVLLNQHFDNMNVKSNQ MEEEELSKLLANVKIDPSLTSRISQIDSFKLSELMVLKTDIETQLEAYFSVLEQQGIGMDSAYPRSDVDVLQVTMIRKNVNMLKNDLNHLLQRSHVLLNQHFDNMNVKSNQ 3wi5-a1-m2-cA_3wi5-a1-m3-cA Crystal structure of the Loop 7 mutant PorB from Neisseria meningitidis serogroup B P30690 P30690 2.4 X-RAY DIFFRACTION 95 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 312 312 3wi4-a1-m1-cA_3wi4-a1-m2-cA 3wi4-a1-m1-cA_3wi4-a1-m3-cA 3wi4-a1-m2-cA_3wi4-a1-m3-cA 3wi5-a1-m1-cA_3wi5-a1-m2-cA 3wi5-a1-m1-cA_3wi5-a1-m3-c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wid-a1-m1-cB_3wid-a1-m1-cD Structure of a glucose dehydrogenase T277F mutant in complex with NADP Q979W2 Q979W2 2.25 X-RAY DIFFRACTION 208 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 360 360 3wic-a1-m1-cA_3wic-a1-m1-cC 3wic-a1-m1-cB_3wic-a1-m1-cD 3wid-a1-m1-cC_3wid-a1-m1-cA 3wie-a1-m1-cA_3wie-a1-m1-cC 3wie-a1-m1-cB_3wie-a1-m1-cD STINAIVTDAPKGGVKYTKIDMPEPEKYEAKLKPVYIGICGTDRGEVAGALSFTYNPEGENFLVLGHEALLQVLDVSDNNYIKRGDFVVPLVRRPGKCVNCRIGRQDNCSIGDPDKHEAGITGLHGFMRDVIYDDIQNLVKVNDPDLGKIAVLTEPLKNVMKAFEVFDVVSKRSIFQNDDSTFIGKKMVVIGSGSEAFLYSFVGKDRGFDVTMVNRHDETENKMKMMDDFGVGFSNYLKDMPDKIDLLVDTSGDPSTIFKFVKKVNNNGVVILFGFNGKAPGYPVNGEDIDYIVERNITIAGSVDAAKIHYVQALDSLSNWYHRHPQTIKDIITYEAKPEETNIFFQKPKGEIKTVIKWP STINAIVTDAPKGGVKYTKIDMPEPEKYEAKLKPVYIGICGTDRGEVAGALSFTYNPEGENFLVLGHEALLQVLDVSDNNYIKRGDFVVPLVRRPGKCVNCRIGRQDNCSIGDPDKHEAGITGLHGFMRDVIYDDIQNLVKVNDPDLGKIAVLTEPLKNVMKAFEVFDVVSKRSIFQNDDSTFIGKKMVVIGSGSEAFLYSFVGKDRGFDVTMVNRHDETENKMKMMDDFGVGFSNYLKDMPDKIDLLVDTSGDPSTIFKFVKKVNNNGVVILFGFNGKAPGYPVNGEDIDYIVERNITIAGSVDAAKIHYVQALDSLSNWYHRHPQTIKDIITYEAKPEETNIFFQKPKGEIKTVIKWP 3wid-a1-m1-cC_3wid-a1-m1-cD Structure of a glucose dehydrogenase T277F mutant in complex with NADP Q979W2 Q979W2 2.25 X-RAY DIFFRACTION 57 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 358 360 3wic-a1-m1-cA_3wic-a1-m1-cB 3wic-a1-m1-cC_3wic-a1-m1-cD 3wid-a1-m1-cA_3wid-a1-m1-cB 3wie-a1-m1-cA_3wie-a1-m1-cB 3wie-a1-m1-cC_3wie-a1-m1-cD STINAIVTDAPKGGVKYTKIDMPEPYEAKLKPVYIGICGTDRGEVAGALSFTYNPEGENFLVLGHEALLQVLDVSDNNYIKRGDFVVPLVRRPGKCVNCRIGRQDNCSIGDPDKHEAGITGLHGFMRDVIYDDIQNLVKVNDPDLGKIAVLTEPLKNVMKAFEVFDVVSKRSIFQNDDSTFIGKKMVVIGSGSEAFLYSFVGKDRGFDVTMVNRHDETENKMKMMDDFGVGFSNYLKDMPDKIDLLVDTSGDPSTIFKFVKKVNNNGVVILFGFNGKAPGYPVNGEDIDYIVERNITIAGSVDAAKIHYVQALDSLSNWYHRHPQTIKDIITYEAKPEETNIFFQKPKGEIKTVIKWP STINAIVTDAPKGGVKYTKIDMPEPEKYEAKLKPVYIGICGTDRGEVAGALSFTYNPEGENFLVLGHEALLQVLDVSDNNYIKRGDFVVPLVRRPGKCVNCRIGRQDNCSIGDPDKHEAGITGLHGFMRDVIYDDIQNLVKVNDPDLGKIAVLTEPLKNVMKAFEVFDVVSKRSIFQNDDSTFIGKKMVVIGSGSEAFLYSFVGKDRGFDVTMVNRHDETENKMKMMDDFGVGFSNYLKDMPDKIDLLVDTSGDPSTIFKFVKKVNNNGVVILFGFNGKAPGYPVNGEDIDYIVERNITIAGSVDAAKIHYVQALDSLSNWYHRHPQTIKDIITYEAKPEETNIFFQKPKGEIKTVIKWP 3wig-a2-m1-cA_3wig-a2-m2-cA Human MEK1 kinase in complex with CH5126766 and MgAMP-PNP Q02750 Q02750 2.7 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 3orn-a2-m1-cA_3orn-a2-m2-cA MELKDDDFEKISELGAGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPPPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIG MELKDDDFEKISELGAGVVFKVSHKPSGLVMARKLIHLEIKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDSMANSFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPPPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIG 3win-a1-m3-cA_3win-a1-m3-cB Clostridium botulinum Hemagglutinin Q33CP6 Q33CP6 3.5 X-RAY DIFFRACTION 63 1.0 36827 (Clostridium botulinum B) 36827 (Clostridium botulinum B) 286 286 3win-a1-m1-cA_3win-a1-m1-cB 3win-a1-m2-cA_3win-a1-m2-cB 4ouj-a3-m1-cA_4ouj-a3-m2-cB NSLNDKIVTISCKANTDLFFYQVPGNGNVSLFQQTRNYLERWRIIYDSNKAAYKIKSMNIYNTNLVLTWNAPTHNISAQQDSNADNQYWLLLKDIGNNSFIIASYKNPNLVLYADTVARNLKLSTLNNSSYIKFIIEDYVISDFKNFTCRISPILAGGKVVQQVSMTNLAVNLYIWNNDLNQKWTIIYNEEKAAYQFFNKILSNGVLTWIFSDGNTVRVSSSAQNNDAQYWLINPVSDNYDRYTITNLRDKTKVLDLYGGQTADGTTIQVFNSNGGDNQIWTMSNP NSLNDKIVTISCKANTDLFFYQVPGNGNVSLFQQTRNYLERWRIIYDSNKAAYKIKSMNIYNTNLVLTWNAPTHNISAQQDSNADNQYWLLLKDIGNNSFIIASYKNPNLVLYADTVARNLKLSTLNNSSYIKFIIEDYVISDFKNFTCRISPILAGGKVVQQVSMTNLAVNLYIWNNDLNQKWTIIYNEEKAAYQFFNKILSNGVLTWIFSDGNTVRVSSSAQNNDAQYWLINPVSDNYDRYTITNLRDKTKVLDLYGGQTADGTTIQVFNSNGGDNQIWTMSNP 3wir-a2-m1-cB_3wir-a2-m1-cD Crystal structure of kojibiose phosphorylase complexed with glucose A4XGP2 A4XGP2 2.05 X-RAY DIFFRACTION 64 1.0 351627 (Caldicellulosiruptor saccharolyticus DSM 8903) 351627 (Caldicellulosiruptor saccharolyticus DSM 8903) 756 756 3wiq-a1-m1-cA_3wiq-a1-m2-cA 3wir-a1-m1-cA_3wir-a1-m1-cC MKLSEREWLIEQDKLEASGKFETCFALTNGYIGIRGINEEVFCEETPGTYIAGVFDKSTAQVTELVNLPNPIGLRIYINREFLNPLKCEILEFKRVLDLKQGILYRKLRLKDVKGRITTIEGFRFVSMNNKNLIVQKYDVVCENYSAVLNVESFIDATTVNSKDVPNDRVKHYEIDKKKDFADGIYLGITTKDKKYKVGIASSTKVLLNNQRCYFNRFTKDLGYIITENFEVEAKQGERYEIEKLTVLVSSREKNVGDVFETCTNKLKEFETKSAEKLLFEHIEEYKRLWDVANIDIVGDEVANKSVKFNIFHLISMANPEDEHVSLGAKGLHGEGYKGHVFWDTEIFMLPFYIYTNPAAAKAMLMYRYNLLDAARENARKNGYKGAQFPWESADTGEEETPKWGYDYLGNPVRIWTGDIEYHISADIAYAVMNYVRATDDIDFLLNYGSEIIIETARFWASICKYNKEKGRYEINDVIGPDEFHEHCNNNAYTNYLAKWNLLKASELCNLLLEKYPKYFEKLSKKINLSDEEPFVWQEIASKIYIPYHPDKKLIEQFEGYFNLKDFVIKEYDQNNMPVWPEGVELDKLNNYQLIKQADVVMLLYLLGEEFDDQTKKINYDYYEKRTMHKSSLSPSIYALMGVRVGETNRAYINFMRTALTDLEDNQGNTHLGIHAASLGGTWQALVFGFGGISIEKDDVLSVNPWLPEKWESLKFSIWWKGNLLDFKITKDNVEVKKRVEKGNVKLKIKGQEAII MKLSEREWLIEQDKLEASGKFETCFALTNGYIGIRGINEEVFCEETPGTYIAGVFDKSTAQVTELVNLPNPIGLRIYINREFLNPLKCEILEFKRVLDLKQGILYRKLRLKDVKGRITTIEGFRFVSMNNKNLIVQKYDVVCENYSAVLNVESFIDATTVNSKDVPNDRVKHYEIDKKKDFADGIYLGITTKDKKYKVGIASSTKVLLNNQRCYFNRFTKDLGYIITENFEVEAKQGERYEIEKLTVLVSSREKNVGDVFETCTNKLKEFETKSAEKLLFEHIEEYKRLWDVANIDIVGDEVANKSVKFNIFHLISMANPEDEHVSLGAKGLHGEGYKGHVFWDTEIFMLPFYIYTNPAAAKAMLMYRYNLLDAARENARKNGYKGAQFPWESADTGEEETPKWGYDYLGNPVRIWTGDIEYHISADIAYAVMNYVRATDDIDFLLNYGSEIIIETARFWASICKYNKEKGRYEINDVIGPDEFHEHCNNNAYTNYLAKWNLLKASELCNLLLEKYPKYFEKLSKKINLSDEEPFVWQEIASKIYIPYHPDKKLIEQFEGYFNLKDFVIKEYDQNNMPVWPEGVELDKLNNYQLIKQADVVMLLYLLGEEFDDQTKKINYDYYEKRTMHKSSLSPSIYALMGVRVGETNRAYINFMRTALTDLEDNQGNTHLGIHAASLGGTWQALVFGFGGISIEKDDVLSVNPWLPEKWESLKFSIWWKGNLLDFKITKDNVEVKKRVEKGNVKLKIKGQEAII 3wis-a1-m24-cA_3wis-a1-m9-cA Crystal structure of Burkholderia xenovorans DmrB in complex with FMN: A Cubic Protein Cage for Redox Transfer Q13QT8 Q13QT8 1.901 X-RAY DIFFRACTION 49 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 180 180 3wis-a1-m10-cA_3wis-a1-m22-cA 3wis-a1-m11-cA_3wis-a1-m23-cA 3wis-a1-m12-cA_3wis-a1-m21-cA 3wis-a1-m13-cA_3wis-a1-m2-cA 3wis-a1-m14-cA_3wis-a1-m4-cA 3wis-a1-m16-cA_3wis-a1-m3-cA 3wis-a1-m17-cA_3wis-a1-m6-cA 3wis-a1-m18-cA_3wis-a1-m8-cA 3wis-a1-m19-cA_3wis-a1-m5-cA 3wis-a1-m1-cA_3wis-a1-m15-cA 3wis-a1-m20-cA_3wis-a1-m7-cA 4mwg-a1-m10-cA_4mwg-a1-m22-cA 4mwg-a1-m11-cA_4mwg-a1-m23-cA 4mwg-a1-m12-cA_4mwg-a1-m21-cA 4mwg-a1-m13-cA_4mwg-a1-m2-cA 4mwg-a1-m14-cA_4mwg-a1-m4-cA 4mwg-a1-m16-cA_4mwg-a1-m3-cA 4mwg-a1-m17-cA_4mwg-a1-m6-cA 4mwg-a1-m18-cA_4mwg-a1-m8-cA 4mwg-a1-m19-cA_4mwg-a1-m5-cA 4mwg-a1-m1-cA_4mwg-a1-m15-cA 4mwg-a1-m20-cA_4mwg-a1-m7-cA 4mwg-a1-m24-cA_4mwg-a1-m9-cA FKPDARFAWCVTGSGHLLDESIALALELPRADLFLSAAAEEVLPLYGWALPRLRKHFRVFRDNSASGVPVGMLYHGMYHTVVIAPATSNTVAKCAFGISDTLPTNMYAQAGKQCIPGIVFACDTEPTVVTQSPNEWVELRPRAIELDNVERLSRFEYTTLVRSLDELKAALGERLSTLDL FKPDARFAWCVTGSGHLLDESIALALELPRADLFLSAAAEEVLPLYGWALPRLRKHFRVFRDNSASGVPVGMLYHGMYHTVVIAPATSNTVAKCAFGISDTLPTNMYAQAGKQCIPGIVFACDTEPTVVTQSPNEWVELRPRAIELDNVERLSRFEYTTLVRSLDELKAALGERLSTLDL 3wis-a1-m4-cA_3wis-a1-m9-cA Crystal structure of Burkholderia xenovorans DmrB in complex with FMN: A Cubic Protein Cage for Redox Transfer Q13QT8 Q13QT8 1.901 X-RAY DIFFRACTION 60 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 180 180 3wis-a1-m10-cA_3wis-a1-m18-cA 3wis-a1-m10-cA_3wis-a1-m2-cA 3wis-a1-m11-cA_3wis-a1-m20-cA 3wis-a1-m12-cA_3wis-a1-m17-cA 3wis-a1-m12-cA_3wis-a1-m3-cA 3wis-a1-m13-cA_3wis-a1-m24-cA 3wis-a1-m13-cA_3wis-a1-m7-cA 3wis-a1-m14-cA_3wis-a1-m22-cA 3wis-a1-m14-cA_3wis-a1-m6-cA 3wis-a1-m15-cA_3wis-a1-m21-cA 3wis-a1-m15-cA_3wis-a1-m8-cA 3wis-a1-m16-cA_3wis-a1-m23-cA 3wis-a1-m16-cA_3wis-a1-m5-cA 3wis-a1-m17-cA_3wis-a1-m3-cA 3wis-a1-m18-cA_3wis-a1-m2-cA 3wis-a1-m19-cA_3wis-a1-m4-cA 3wis-a1-m19-cA_3wis-a1-m9-cA 3wis-a1-m1-cA_3wis-a1-m11-cA 3wis-a1-m1-cA_3wis-a1-m20-cA 3wis-a1-m21-cA_3wis-a1-m8-cA 3wis-a1-m22-cA_3wis-a1-m6-cA 3wis-a1-m23-cA_3wis-a1-m5-cA 3wis-a1-m24-cA_3wis-a1-m7-cA 4mwg-a1-m10-cA_4mwg-a1-m18-cA 4mwg-a1-m10-cA_4mwg-a1-m2-cA 4mwg-a1-m11-cA_4mwg-a1-m20-cA 4mwg-a1-m12-cA_4mwg-a1-m17-cA 4mwg-a1-m12-cA_4mwg-a1-m3-cA 4mwg-a1-m13-cA_4mwg-a1-m24-cA 4mwg-a1-m13-cA_4mwg-a1-m7-cA 4mwg-a1-m14-cA_4mwg-a1-m22-cA 4mwg-a1-m14-cA_4mwg-a1-m6-cA 4mwg-a1-m15-cA_4mwg-a1-m21-cA 4mwg-a1-m15-cA_4mwg-a1-m8-cA 4mwg-a1-m16-cA_4mwg-a1-m23-cA 4mwg-a1-m16-cA_4mwg-a1-m5-cA 4mwg-a1-m17-cA_4mwg-a1-m3-cA 4mwg-a1-m18-cA_4mwg-a1-m2-cA 4mwg-a1-m19-cA_4mwg-a1-m4-cA 4mwg-a1-m19-cA_4mwg-a1-m9-cA 4mwg-a1-m1-cA_4mwg-a1-m11-cA 4mwg-a1-m1-cA_4mwg-a1-m20-cA 4mwg-a1-m21-cA_4mwg-a1-m8-cA 4mwg-a1-m22-cA_4mwg-a1-m6-cA 4mwg-a1-m23-cA_4mwg-a1-m5-cA 4mwg-a1-m24-cA_4mwg-a1-m7-cA 4mwg-a1-m4-cA_4mwg-a1-m9-cA FKPDARFAWCVTGSGHLLDESIALALELPRADLFLSAAAEEVLPLYGWALPRLRKHFRVFRDNSASGVPVGMLYHGMYHTVVIAPATSNTVAKCAFGISDTLPTNMYAQAGKQCIPGIVFACDTEPTVVTQSPNEWVELRPRAIELDNVERLSRFEYTTLVRSLDELKAALGERLSTLDL FKPDARFAWCVTGSGHLLDESIALALELPRADLFLSAAAEEVLPLYGWALPRLRKHFRVFRDNSASGVPVGMLYHGMYHTVVIAPATSNTVAKCAFGISDTLPTNMYAQAGKQCIPGIVFACDTEPTVVTQSPNEWVELRPRAIELDNVERLSRFEYTTLVRSLDELKAALGERLSTLDL 3wit-a1-m2-cA_3wit-a1-m3-cA Crystal structure of the C-terminal region of VgrG1 from E. coli O157 EDL933 Q8XBY5 Q8XBY5 1.95 X-RAY DIFFRACTION 96 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 63 63 3wit-a1-m1-cA_3wit-a1-m2-cA 3wit-a1-m1-cA_3wit-a1-m3-cA GTIAGSVHVIKEILAVEESKIALTPDGIQLQVGESTVIRLSKDGITIVGGSVFINGLEHHHHH GTIAGSVHVIKEILAVEESKIALTPDGIQLQVGESTVIRLSKDGITIVGGSVFINGLEHHHHH 3wiu-a4-m1-cB_3wiu-a4-m1-cA Crystal structure of Pro-S324A/L349A P58502 P58502 1.8 X-RAY DIFFRACTION 64 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 387 395 NTIRVIVSVDKAKFNPHEVLGIGGHIVYQFKLIPAVVVDVPANAVGKLKKMPGVEKVEFDHQAVLLGKPSPAQTIPWGIERVKAPSVWSITDGSVSVIQVAVLDTGVDYDHPDLAANIAWCVSTLRGKVSTKLRDCADQNGHGTHVIGTIAALNNDIGVVGVAPGVQIYSVRVLDARGSGSYSDIAIGIEQAILGPDGVADKDGDGIIAGDPDDDAAEVISMSLGGPADDSYLYDMIIQAYNAGIVIVAASGNEGAPSPSYPAAYPEVIAVGAIDSNDNIASFSNRQPEVSAPGVDILSTYPDDSYETLMGTAMATPHVSGVVALIQAAYYQKYGKIAPVGTFDDISKNTVRGILHITADDLGPTGWDADYGYGVVRAALAVQAALG NTIRVIVSVDKAKFNPHEVLGIGGHIVYQFKLIPAVVVDVPANAVGKLKKMPGVEKVEFDHQAVLLGKPSWLGGGSTQPAQTIPWGIERVKAPSVWSITDGSVSVIQVAVLDTGVDYDHPDLAANIAWCVSTLRGKVSTKLRDCADQNGHGTHVIGTIAALNNDIGVVGVAPGVQIYSVRVLDARGSGSYSDIAIGIEQAILGPDGVADKDGDGIIAGDPDDDAAEVISMSLGGPADDSYLYDMIIQAYNAGIVIVAASGNEGAPSPSYPAAYPEVIAVGAIDSNDNIASFSNRQPEVSAPGVDILSTYPDDSYETLMGTAMATPHVSGVVALIQAAYYQKYGKIAPVGTFDDISKNTVRGILHITADDLGPTGWDADYGYGVVRAALAVQAALG 3wj1-a1-m2-cA_3wj1-a1-m4-cA Crystal structure of SSHESTI Q5NU42 Q5NU42 1.5 X-RAY DIFFRACTION 61 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 304 304 3wj1-a1-m1-cA_3wj1-a1-m3-cA 4p9n-a1-m1-cA_4p9n-a1-m3-cA 4p9n-a1-m2-cA_4p9n-a1-m4-cA PLDPRIKKLLESGFVVPIGKASVDEVRKIFRQLASAAPKAEVRKVEDIKIPGSETSINARVYFPKAKGPYGVLVYLHGGGFVIGDVESYDPLCRAITNACNCVVVSVDYRLAPEYKFPSAVIDSFDATNWIYNNLDKFDGEMGIAIAGDSAGGNLAAVVALLSKGKLDLKYQILIYPAVGFDSVSRSMIEYSDGFFLTREHIEWFGSQYLRSPADLLDFRFSPIIAQDLSGLPPALIITAEYDPLRDQGEAYANRLLQAGVPVTSVRFNNVIHGFLSFFPLIDQGKDAIGLIGSVLRRTFYDKS PLDPRIKKLLESGFVVPIGKASVDEVRKIFRQLASAAPKAEVRKVEDIKIPGSETSINARVYFPKAKGPYGVLVYLHGGGFVIGDVESYDPLCRAITNACNCVVVSVDYRLAPEYKFPSAVIDSFDATNWIYNNLDKFDGEMGIAIAGDSAGGNLAAVVALLSKGKLDLKYQILIYPAVGFDSVSRSMIEYSDGFFLTREHIEWFGSQYLRSPADLLDFRFSPIIAQDLSGLPPALIITAEYDPLRDQGEAYANRLLQAGVPVTSVRFNNVIHGFLSFFPLIDQGKDAIGLIGSVLRRTFYDKS 3wj1-a1-m3-cA_3wj1-a1-m4-cA Crystal structure of SSHESTI Q5NU42 Q5NU42 1.5 X-RAY DIFFRACTION 88 1.0 2286 (Saccharolobus shibatae) 2286 (Saccharolobus shibatae) 304 304 3wj1-a1-m1-cA_3wj1-a1-m2-cA 4p9n-a1-m1-cA_4p9n-a1-m2-cA 4p9n-a1-m3-cA_4p9n-a1-m4-cA 5lk6-a1-m1-cA_5lk6-a1-m1-cB 5lk6-a2-m1-cC_5lk6-a2-m1-cD PLDPRIKKLLESGFVVPIGKASVDEVRKIFRQLASAAPKAEVRKVEDIKIPGSETSINARVYFPKAKGPYGVLVYLHGGGFVIGDVESYDPLCRAITNACNCVVVSVDYRLAPEYKFPSAVIDSFDATNWIYNNLDKFDGEMGIAIAGDSAGGNLAAVVALLSKGKLDLKYQILIYPAVGFDSVSRSMIEYSDGFFLTREHIEWFGSQYLRSPADLLDFRFSPIIAQDLSGLPPALIITAEYDPLRDQGEAYANRLLQAGVPVTSVRFNNVIHGFLSFFPLIDQGKDAIGLIGSVLRRTFYDKS PLDPRIKKLLESGFVVPIGKASVDEVRKIFRQLASAAPKAEVRKVEDIKIPGSETSINARVYFPKAKGPYGVLVYLHGGGFVIGDVESYDPLCRAITNACNCVVVSVDYRLAPEYKFPSAVIDSFDATNWIYNNLDKFDGEMGIAIAGDSAGGNLAAVVALLSKGKLDLKYQILIYPAVGFDSVSRSMIEYSDGFFLTREHIEWFGSQYLRSPADLLDFRFSPIIAQDLSGLPPALIITAEYDPLRDQGEAYANRLLQAGVPVTSVRFNNVIHGFLSFFPLIDQGKDAIGLIGSVLRRTFYDKS 3wj2-a1-m1-cA_3wj2-a1-m1-cD Crystal structure of ESTFA (FE-lacking apo form) Q2PCE5 Q2PCE5 1.61 X-RAY DIFFRACTION 94 1.0 74969 (Ferroplasma acidiphilum) 74969 (Ferroplasma acidiphilum) 299 300 3wj2-a1-m1-cB_3wj2-a1-m1-cC MVDPDFNSLIELSKSAGDMTKIEPAMLRNFLDESSLSSRGAPVEIKEIKDYKIKLDGRTLNARMYDDNNAKSAILYYHGGGFLFGNIETYDNYCRFLAKESGVKIISIEYRLAPEHKFPDAFNDAYDSFHYIAKKKKDFGIEGRIGVAGDSAGANLAAALCLKCRDGKTEMPAVQVLFYPSLAPDNFSRSFIEYSDNYVLTGKMIRYFGNMYSKNINPYFSPLVADDFSNLPPAIMVTNEYDPLRDPEETYVKKLREAGVRAVGIRGIGMIHGSATDFEVSDGARNIVKMVARIIPDYL NMVDPDFNSLIELSKSAGDMTKIEPAMLRNFLDESSLSSRGAPVEIKEIKDYKIKLDGRTLNARMYDDNNAKSAILYYHGGGFLFGNIETYDNYCRFLAKESGVKIISIEYRLAPEHKFPDAFNDAYDSFHYIAKKKKDFGIEGRIGVAGDSAGANLAAALCLKCRDGKTEMPAVQVLFYPSLAPDNFSRSFIEYSDNYVLTGKMIRYFGNMYSKNINPYFSPLVADDFSNLPPAIMVTNEYDPLRDPEETYVKKLREAGVRAVGIRGIGMIHGSATDFEVSDGARNIVKMVARIIPDYL 3wj2-a1-m1-cC_3wj2-a1-m1-cD Crystal structure of ESTFA (FE-lacking apo form) Q2PCE5 Q2PCE5 1.61 X-RAY DIFFRACTION 56 1.0 74969 (Ferroplasma acidiphilum) 74969 (Ferroplasma acidiphilum) 300 300 3wj2-a1-m1-cA_3wj2-a1-m1-cB NMVDPDFNSLIELSKSAGDMTKIEPAMLRNFLDESSLSSRGAPVEIKEIKDYKIKLDGRTLNARMYDDNNAKSAILYYHGGGFLFGNIETYDNYCRFLAKESGVKIISIEYRLAPEHKFPDAFNDAYDSFHYIAKKKKDFGIEGRIGVAGDSAGANLAAALCLKCRDGKTEMPAVQVLFYPSLAPDNFSRSFIEYSDNYVLTGKMIRYFGNMYSKNINPYFSPLVADDFSNLPPAIMVTNEYDPLRDPEETYVKKLREAGVRAVGIRGIGMIHGSATDFEVSDGARNIVKMVARIIPDYL NMVDPDFNSLIELSKSAGDMTKIEPAMLRNFLDESSLSSRGAPVEIKEIKDYKIKLDGRTLNARMYDDNNAKSAILYYHGGGFLFGNIETYDNYCRFLAKESGVKIISIEYRLAPEHKFPDAFNDAYDSFHYIAKKKKDFGIEGRIGVAGDSAGANLAAALCLKCRDGKTEMPAVQVLFYPSLAPDNFSRSFIEYSDNYVLTGKMIRYFGNMYSKNINPYFSPLVADDFSNLPPAIMVTNEYDPLRDPEETYVKKLREAGVRAVGIRGIGMIHGSATDFEVSDGARNIVKMVARIIPDYL 3wj7-a1-m1-cB_3wj7-a1-m1-cC Crystal structure of gox2253 Q5FNR0 Q5FNR0 2.6 X-RAY DIFFRACTION 54 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 330 330 3wj7-a1-m1-cA_3wj7-a1-m1-cB 3wj7-a1-m1-cA_3wj7-a1-m1-cC NDVTLVTGATGFVGSAVARVLEERGHRLRLLVRPTSDRSNIAELNAELAVGDLSDPDTLAPALKGVKILFHVAADYRLWVPDPETMMKANVEGTRNLMLAALEAGVEKIIYCSSVAALGLRSDGVPADETTPVSESQVIGIYKLSKYRAEQEVLRLIREKNLPAIIVNPSTPVGPRDIKPTPTGQMILDCASGNMPAYVETGLNIVHVDDVAEGHALALERGKIGEKYILGGENIMLGDLFRMVSQIAGVKPPAVKLKQSWLYPVALVSEWLARGFGIEPRVTRETLAMSKKLMFFSSDKAKKELGYAPRPARDAVTDAIAWFRQHGRMK NDVTLVTGATGFVGSAVARVLEERGHRLRLLVRPTSDRSNIAELNAELAVGDLSDPDTLAPALKGVKILFHVAADYRLWVPDPETMMKANVEGTRNLMLAALEAGVEKIIYCSSVAALGLRSDGVPADETTPVSESQVIGIYKLSKYRAEQEVLRLIREKNLPAIIVNPSTPVGPRDIKPTPTGQMILDCASGNMPAYVETGLNIVHVDDVAEGHALALERGKIGEKYILGGENIMLGDLFRMVSQIAGVKPPAVKLKQSWLYPVALVSEWLARGFGIEPRVTRETLAMSKKLMFFSSDKAKKELGYAPRPARDAVTDAIAWFRQHGRMK 3wjm-a1-m1-cB_3wjm-a1-m1-cC Crystal structure of Bombyx mori Sp2/Sp3 heterohexamer H9JHM9 H9JHM9 2.8 X-RAY DIFFRACTION 36 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 668 668 4l37-a1-m1-cA_4l37-a1-m2-cA 4l37-a1-m1-cA_4l37-a1-m3-cA 4l37-a1-m2-cA_4l37-a1-m3-cA EFKTTPVDAAFVEKQKKILSLFYNVNEISYEAEYYKVAQDFNIEASKDCYTNMKAYENFMMMYKVGFLPKNLEFSIFYEKMREEAIALFKLFYYAKDFECFYKTACYARVYMNQGMFLYAYYIAIIQRSDTASFVLPAPYEAYPQYFVNMEVKNKMDYVKMMDGCLDEKICYNYGIIKENEQFVMYANYSNSLTYPNNEDRIAYLTEDVGLNAYYYYFHSHLPFWWNSGKYGAFKERRGEIYFFFYQQLLARYYMERLTNGLGKIPEFSWYSPLRTGYLPPFNSFYYPFAQRSNDYELHTEKNYEEIRFLDIYEKTFFQYLQQGHFKAFDKKIDLHSSKAVNFVGNYWQTNADLFEEDFLQFYQRSYEVNARRVLGAAPKPFNQYTFIPSALDFYQTSARDPAFYQLYKRIVQYIIEFKQYQVPYTQEALHFVGLKISDVKVDKMVTFFDHFDFDAFNTVYFSKEELKSSPHGYKVRQPRLNHKPFTVTIDIKSDVATNAVVKMFLGPKYDENGFPFSLEDNWMNFYELDWFVQKVNPGQSQITRSSTDFAFFKEDSLPMAEIYKLLDQGKIPTDMFNSSDTMPSRLMLPKGTYDGFPFQLFVFVYPYEPTPKESEPFKAVVPDNKPFGYPFDRPVLPQYFKQPNMFFKKVLVYHEGELFPYLFNIPH EFKTTPVDAAFVEKQKKILSLFYNVNEISYEAEYYKVAQDFNIEASKDCYTNMKAYENFMMMYKVGFLPKNLEFSIFYEKMREEAIALFKLFYYAKDFECFYKTACYARVYMNQGMFLYAYYIAIIQRSDTASFVLPAPYEAYPQYFVNMEVKNKMDYVKMMDGCLDEKICYNYGIIKENEQFVMYANYSNSLTYPNNEDRIAYLTEDVGLNAYYYYFHSHLPFWWNSGKYGAFKERRGEIYFFFYQQLLARYYMERLTNGLGKIPEFSWYSPLRTGYLPPFNSFYYPFAQRSNDYELHTEKNYEEIRFLDIYEKTFFQYLQQGHFKAFDKKIDLHSSKAVNFVGNYWQTNADLFEEDFLQFYQRSYEVNARRVLGAAPKPFNQYTFIPSALDFYQTSARDPAFYQLYKRIVQYIIEFKQYQVPYTQEALHFVGLKISDVKVDKMVTFFDHFDFDAFNTVYFSKEELKSSPHGYKVRQPRLNHKPFTVTIDIKSDVATNAVVKMFLGPKYDENGFPFSLEDNWMNFYELDWFVQKVNPGQSQITRSSTDFAFFKEDSLPMAEIYKLLDQGKIPTDMFNSSDTMPSRLMLPKGTYDGFPFQLFVFVYPYEPTPKESEPFKAVVPDNKPFGYPFDRPVLPQYFKQPNMFFKKVLVYHEGELFPYLFNIPH 3wjm-a1-m1-cB_3wjm-a1-m1-cD Crystal structure of Bombyx mori Sp2/Sp3 heterohexamer H9JHM9 H9JHM9 2.8 X-RAY DIFFRACTION 24 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 668 672 EFKTTPVDAAFVEKQKKILSLFYNVNEISYEAEYYKVAQDFNIEASKDCYTNMKAYENFMMMYKVGFLPKNLEFSIFYEKMREEAIALFKLFYYAKDFECFYKTACYARVYMNQGMFLYAYYIAIIQRSDTASFVLPAPYEAYPQYFVNMEVKNKMDYVKMMDGCLDEKICYNYGIIKENEQFVMYANYSNSLTYPNNEDRIAYLTEDVGLNAYYYYFHSHLPFWWNSGKYGAFKERRGEIYFFFYQQLLARYYMERLTNGLGKIPEFSWYSPLRTGYLPPFNSFYYPFAQRSNDYELHTEKNYEEIRFLDIYEKTFFQYLQQGHFKAFDKKIDLHSSKAVNFVGNYWQTNADLFEEDFLQFYQRSYEVNARRVLGAAPKPFNQYTFIPSALDFYQTSARDPAFYQLYKRIVQYIIEFKQYQVPYTQEALHFVGLKISDVKVDKMVTFFDHFDFDAFNTVYFSKEELKSSPHGYKVRQPRLNHKPFTVTIDIKSDVATNAVVKMFLGPKYDENGFPFSLEDNWMNFYELDWFVQKVNPGQSQITRSSTDFAFFKEDSLPMAEIYKLLDQGKIPTDMFNSSDTMPSRLMLPKGTYDGFPFQLFVFVYPYEPTPKESEPFKAVVPDNKPFGYPFDRPVLPQYFKQPNMFFKKVLVYHEGELFPYLFNIPH EFKTTPVDAAFVEKQKKILSLFYNVNEISYEAEYYKVAQDFNIEASKDCYTNMKAYENFMMMYKVGFLPKNLEFSIFYEKMREEAIALFKLFYYAKDFECFYKTACYARVYMNQGMFLYAYYIAIIQRSDTASFVLPAPYEAYPQYFVNMEVKNKMDYVKMMDGCLDEKICYNYGIIKENEQFVMYANYSNSLTYPNNEDRIAYLTEDVGLNAYYYYFHSHLPFWWNSGKYGAFKERRGEIYFFFYQQLLARYYMERLTNGLGKIPEFSWYSPLRTGYLPPFNSFYYPFAQRSNDYELHTEKNYEEIRFLDIYEKTFFQYLQQGHFKAFDKKIDLHSSKAVNFVGNYWQTNADLFEEDFLQFYQRSYEVNARRVLGAAPKPFNQYTFIPSALDFYQTSARDPAFYQLYKRIVQYIIEFKQYQVPYTQEALHFVGLKISDVKVDKMVTFFDHFDFDAFNTVYFSKEELKSSPHGYKVRQPRLNHKPFTVTIDIKSDVATNAVVKMFLGPKYDENGFPFSLEDNWMNFYELDWFVQKVNPGQSQITRSSTDFAFFKEDSLPMAEIYKLLDQGKIPTDMFNSSDTMPSRLMLPKGTYDGFPFQLFVFVYPYEPTPKESEPFKAVVPDNKPFGYPFDRPVLPQYFKQPNMFFKKVLVYHEGELFPYLFNIPHYTPD 3wjm-a1-m1-cE_3wjm-a1-m1-cA Crystal structure of Bombyx mori Sp2/Sp3 heterohexamer Q1HPP4 Q1HPP4 2.8 X-RAY DIFFRACTION 34 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 669 670 TIKTKNVDAVFVEKQKKILSFFQDVSQLNTDDEYYKIGKDYDIEMNMDNYTNKKAVEEFLKMYRTGFMPKNLEFSVFYDKMRDEAIALFHLFYYAKDFETFYKTACFARVHLNQGQFLYAFYIAVIQRSDCHGFVVPAPYEVYPKMFMNMEVLQKIYVTKMQDGLINPEAAAKYGIHKENDYFVYKANYSNAVLYNNEEQRLTYFTEDIGMNAYYYYFHSHLPFWWTSEKYGALKERRGEVYFYFYQQLLARYYFERLTNGLGKIPEFSWYSPIKTGYYPLMLTKFTPFAQRPDYYNLHTEENYERVRFLDTYEKTFVQFLQKDHFEAFGQKIDFHDPKAINFVGNYWQDNADLYGEEVTKDYQRSYEVFARRVLGAAPMPFDKYTFMPSAMDFYQTSLRDPAFYQLYNRIVEYIVEFKQYLKPYTQDKLYFDGVKITDVKVDKLTTFFENFEFDASNSVYFSKEEIKNNHVHDVKVRQPRLNHSPFNVNIEVDSNVASDAVVKIFLAPKYDDNGIPLTLEDNWMKFFELDWFTTKLTAGQNKIIRNSNEFVIFKEDSVPMTEIMKMLDEGKVPFDMSEEFCYMPKRLMLPRGTEGGFPFQLFVFVYPFDNKGKDLAPFESFVLDNKPLGFPLDRPVVDALFKVPNMYFKDIFIYHEGERFPYKFNIPS TIKTKNVDAVFVEKQKKILSFFQDVSQLNTDDEYYKIGKDYDIEMNMDNYTNKKAVEEFLKMYRTGFMPKNLEFSVFYDKMRDEAIALFHLFYYAKDFETFYKTACFARVHLNQGQFLYAFYIAVIQRSDCHGFVVPAPYEVYPKMFMNMEVLQKIYVTKMQDGLINPEAAAKYGIHKENDYFVYKANYSNAVLYNNEEQRLTYFTEDIGMNAYYYYFHSHLPFWWTSEKYGALKERRGEVYFYFYQQLLARYYFERLTNGLGKIPEFSWYSPIKTGYYPLMLTKFTPFAQRPDYYNLHTEENYERVRFLDTYEKTFVQFLQKDHFEAFGQKIDFHDPKAINFVGNYWQDNADLYGEEVTKDYQRSYEVFARRVLGAAPMPFDKYTFMPSAMDFYQTSLRDPAFYQLYNRIVEYIVEFKQYLKPYTQDKLYFDGVKITDVKVDKLTTFFENFEFDASNSVYFSKEEIKNNHVHDVKVRQPRLNHSPFNVNIEVDSNVASDAVVKIFLAPKYDDNGIPLTLEDNWMKFFELDWFTTKLTAGQNKIIRNSNEFVIFKEDSVPMTEIMKMLDEGKVPFDMSEEFCYMPKRLMLPRGTEGGFPFQLFVFVYPFDNKGKDLAPFESFVLDNKPLGFPLDRPVVDALFKVPNMYFKDIFIYHEGERFPYKFNIPSY 3wjr-a1-m1-cA_3wjr-a1-m2-cA crystal structure of HypE in complex with a nucleotide Q5JII7 Q5JII7 1.864 X-RAY DIFFRACTION 265 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 336 336 2z1e-a2-m1-cA_2z1e-a2-m2-cA 2z1f-a2-m1-cA_2z1f-a2-m2-cA 3vys-a1-m1-cC_3vys-a1-m2-cC 3vyt-a1-m1-cC_3vyt-a1-m2-cC 3vyu-a2-m1-cC_3vyu-a2-m3-cC 3wjp-a1-m1-cA_3wjp-a1-m2-cA 3wjq-a1-m1-cA_3wjq-a1-m2-cA EKIKLEHGAGGEIMEELLRDVILKTLTLKSAGGIGLDALDDGATIPFGDKHIVFTIDGHTVKPLFFPGGDIGRLAVSGTVNDLAVMGAEPIALANSMIIGEGLDMEVLKRVLKSMDETAREVPVPIVTGDTKVVEDKIEMFVITAGIGIAEHPVSDAGAKVGDAVLVSGTIGDHGIALMSHREGIAFETELKSDVAPIWDVVKAVAETIGWENIHAMKDPTRAGLSNALNEIARKSNVGILVREADIPIRPEVRAASEMLGISPYDVANEGKVVMVVAREYAEEALEAMRKTEKGRNAAIIGEVIADYRGKVLLETGIGGKRFMEPPEGDPVPRIC EKIKLEHGAGGEIMEELLRDVILKTLTLKSAGGIGLDALDDGATIPFGDKHIVFTIDGHTVKPLFFPGGDIGRLAVSGTVNDLAVMGAEPIALANSMIIGEGLDMEVLKRVLKSMDETAREVPVPIVTGDTKVVEDKIEMFVITAGIGIAEHPVSDAGAKVGDAVLVSGTIGDHGIALMSHREGIAFETELKSDVAPIWDVVKAVAETIGWENIHAMKDPTRAGLSNALNEIARKSNVGILVREADIPIRPEVRAASEMLGISPYDVANEGKVVMVVAREYAEEALEAMRKTEKGRNAAIIGEVIADYRGKVLLETGIGGKRFMEPPEGDPVPRIC 3wjs-a2-m1-cA_3wjs-a2-m2-cA Crystal structure of GYE (old yellow enzyme) A1E8I9 A1E8I9 3.3 X-RAY DIFFRACTION 110 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 315 315 MPTLFDPIDFGPIHAKNRIVMSPLTRGRADKEAVPTPIMAEYYAQRASAGLIITEATGISREGLGWPFAPGIWSDAQVEAWKPIVAGVHAKGGKIVCQLWHMGRMVHSSVTGTQPVSSSATTAPGEVHTYEGKKPFEQARAIDAADISRILNDYENAARNAIRAGFDGVQIHAANGYLIDEFLRNGTNHRTDEYGGVPENRIRFLKEVTERVIAAIGADRTGVRLSPNGDTQGCIDSAPETVFVPAAKLLQDLGVAWLELREPGPNGTFGKTDQPKLSPQIRKVFLRPLVLNQDYTFEAAQTALAEGKADAIAFG MPTLFDPIDFGPIHAKNRIVMSPLTRGRADKEAVPTPIMAEYYAQRASAGLIITEATGISREGLGWPFAPGIWSDAQVEAWKPIVAGVHAKGGKIVCQLWHMGRMVHSSVTGTQPVSSSATTAPGEVHTYEGKKPFEQARAIDAADISRILNDYENAARNAIRAGFDGVQIHAANGYLIDEFLRNGTNHRTDEYGGVPENRIRFLKEVTERVIAAIGADRTGVRLSPNGDTQGCIDSAPETVFVPAAKLLQDLGVAWLELREPGPNGTFGKTDQPKLSPQIRKVFLRPLVLNQDYTFEAAQTALAEGKADAIAFG 3wkr-a1-m1-cC_3wkr-a1-m1-cD Crystal structure of the SepCysS-SepCysE complex from Methanocaldococcus jannaschii Q58876 Q58876 2.803 X-RAY DIFFRACTION 112 0.985 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 68 68 3wkr-a2-m1-cH_3wkr-a2-m1-cG 3wks-a1-m1-cC_3wks-a1-m1-cD 5x6b-a1-m1-cE_5x6b-a1-m1-cF ISYKDAKPGKIDVNEFKKAIYLLIEADDFLYKKAPKHELNEEEAKEFCKLIIKCQEHLNKILANFGFE SYKDAKPGKIDVNEFKKAIYLLIEADDFLYKKAPKHELNEEEAKEFCKLIIKCQEHLNKILANFGFEF 3wkr-a2-m1-cF_3wkr-a2-m1-cE Crystal structure of the SepCysS-SepCysE complex from Methanocaldococcus jannaschii Q59072 Q59072 2.803 X-RAY DIFFRACTION 196 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 362 364 3wkr-a1-m1-cA_3wkr-a1-m1-cB 3wks-a1-m1-cA_3wks-a1-m1-cB 5x6b-a1-m1-cI_5x6b-a1-m1-cJ INLDKYKNLTRSLTREFINLNPIQRGGILPKEAKKAVYEYWDGPPIKDFLEDIAKFLNMDCARPTHGAREGKFIVMHAICKEGDYVVLDKNAHYTSYVAAERAKLNVAEVGYEEEYPTYKINLEGYKEVIDNLEDKGKNVGLILLTHVDGEYGNLNDAKKVGKIAKEKGIPFLLNCAYTVGRMPVNGKEVKADFIVASGHSMAASAPCGILAFSEEFSDKITKTSEKFPVKEIEMLGCTSRGLPIVTLMASFPHVVERVKKWDEELKKTRYVVDELEKIGFKQLGIKPKEHDLIKFETPVLDEIAKKDKRRGFFFYDELKKRGIGGIRAGVTKEIKMSVYGLEWEQVEYVVNAIKEIVESCK INLDKYKNLTRSLTREFINLNPIQRGGILPKEAKKAVYEYWDGTCPPIKDFLEDIAKFLNMDCARPTHGAREGKFIVMHAICKEGDYVVLDKNAHYTSYVAAERAKLNVAEVGYEEEYPTYKINLEGYKEVIDNLEDKGKNVGLILLTHVDGEYGNLNDAKKVGKIAKEKGIPFLLNCAYTVGRMPVNGKEVKADFIVASGHSMAASAPCGILAFSEEFSDKITKTSEKFPVKEIEMLGCTSRGLPIVTLMASFPHVVERVKKWDEELKKTRYVVDELEKIGFKQLGIKPKEHDLIKFETPVLDEIAKKDKRRGFFFYDELKKRGIGGIRAGVTKEIKMSVYGLEWEQVEYVVNAIKEIVESCK 3wkv-a2-m2-cA_3wkv-a2-m3-cA Voltage-gated proton channel: VSOP/Hv1 chimeric channel Q3U2S8 Q3U2S8 3.453 X-RAY DIFFRACTION 68 1.0 10090 (Mus musculus) 10090 (Mus musculus) 140 140 3wkv-a2-m1-cA_3wkv-a2-m2-cA 3wkv-a2-m1-cA_3wkv-a2-m3-cA FRSRLRKLFSHRFQVIIICLVVLDALLVLAELLLDLKVTAFHYMSFAILVFFMLDLGLRIFAYGFTNPWEVADGLIVVVSFVLDLVLLFFEALGLLILLRLWRVARIINGIIISRMKQLEDKIEELLSKIYHLENEIARL FRSRLRKLFSHRFQVIIICLVVLDALLVLAELLLDLKVTAFHYMSFAILVFFMLDLGLRIFAYGFTNPWEVADGLIVVVSFVLDLVLLFFEALGLLILLRLWRVARIINGIIISRMKQLEDKIEELLSKIYHLENEIARL 3wkx-a1-m1-cA_3wkx-a1-m2-cA Crystal structure of GH127 beta-L-arabinofuranosidase HypBA1 from Bifidobacterium longum arabinose complex form E8MGH8 E8MGH8 2 X-RAY DIFFRACTION 175 1.0 565042 (Bifidobacterium longum subsp. longum JCM 1217) 565042 (Bifidobacterium longum subsp. longum JCM 1217) 657 657 3wkw-a1-m1-cA_3wkw-a1-m2-cA 3wre-a1-m1-cA_3wre-a1-m2-cA 3wrf-a1-m1-cA_3wrf-a1-m2-cA 3wrg-a1-m1-cA_3wrg-a1-m2-cA 7bzl-a1-m1-cA_7bzl-a1-m2-cA 7dif-a1-m1-cA_7dif-a1-m2-cA 7exu-a1-m1-cA_7exu-a1-m2-cA 7exv-a1-m1-cA_7exv-a1-m2-cA 7exw-a1-m1-cA_7exw-a1-m2-cA MNVTITSPFWKRRRDQIVESVIPYQWGVMNDEIDTTVPDDPAGNQLADSKSHAVANLKVAAGELDDEFHGMVFQDSDVYKWLEEAAYALAYHPDPELKALCDRTVDLIARAQQSDGYLDTPYQIKSGVWADRPRFSLIQQSHEMYVMGHYIEAAVAYHQVTGNEQALEVAKKMADCLDANFGPEEGKIHGADGHPEIELALAKLYEETGEKRYLTLSQYLIDVRGQDPQFYAKQLKAMNGDNIFHGFYKPTYFQAAEPVRDQQTADGHAVRVGYLCTGVAHVGRLLGDQGLIDTAKRFWKNIVTRRMYVTGAIGSTHVGESFTYDYDLPNDTMYGETCASVAMSMFAQQMLDLEPKGEYADVLEKELFNGSIAGISLDGKQYYYVNALETTPDGLDNPDRHHVLSHRVDWFGCACCPANIARLIASVDRYIYTERDGGKTVLSHQFIANTAEFASGLTVEQRSNFPWDGHVEYTVSLPASATDSSVRFGLRIPGWSRGSYTLTVNGKPAVGSLEDGFVYLVVNAGDTLEIALELDMSVKFVRANSRVRSDAGQVAVMRGPLVYCAEQVDNPGDLWNYRLADGVTGADAAVAFQADLLGGVDTVDLPAVREHADEDDAPLYVDADEPRAGEPATLRLVPYYSWANREIGEMRVFQRRA MNVTITSPFWKRRRDQIVESVIPYQWGVMNDEIDTTVPDDPAGNQLADSKSHAVANLKVAAGELDDEFHGMVFQDSDVYKWLEEAAYALAYHPDPELKALCDRTVDLIARAQQSDGYLDTPYQIKSGVWADRPRFSLIQQSHEMYVMGHYIEAAVAYHQVTGNEQALEVAKKMADCLDANFGPEEGKIHGADGHPEIELALAKLYEETGEKRYLTLSQYLIDVRGQDPQFYAKQLKAMNGDNIFHGFYKPTYFQAAEPVRDQQTADGHAVRVGYLCTGVAHVGRLLGDQGLIDTAKRFWKNIVTRRMYVTGAIGSTHVGESFTYDYDLPNDTMYGETCASVAMSMFAQQMLDLEPKGEYADVLEKELFNGSIAGISLDGKQYYYVNALETTPDGLDNPDRHHVLSHRVDWFGCACCPANIARLIASVDRYIYTERDGGKTVLSHQFIANTAEFASGLTVEQRSNFPWDGHVEYTVSLPASATDSSVRFGLRIPGWSRGSYTLTVNGKPAVGSLEDGFVYLVVNAGDTLEIALELDMSVKFVRANSRVRSDAGQVAVMRGPLVYCAEQVDNPGDLWNYRLADGVTGADAAVAFQADLLGGVDTVDLPAVREHADEDDAPLYVDADEPRAGEPATLRLVPYYSWANREIGEMRVFQRRA 3wky-a1-m2-cA_3wky-a1-m3-cB Crystal structure of hemolymph type prophenoloxidase (proPOb) from crustacean G5EKM4 G5EKM4 1.801 X-RAY DIFFRACTION 85 0.998 27405 (Penaeus japonicus) 27405 (Penaeus japonicus) 654 655 3wky-a1-m1-cA_3wky-a1-m2-cB 3wky-a1-m3-cA_3wky-a1-m1-cB DEELRQLFYLPYESTSTLADRLGIQLPPLELSTAVTVLDPELKAKLGSALSIPEGIPFFAFNKQHSQAVKDLSKVFIEAKSLNVLKDVAIMVKDHVNSAVFLAALYHTYYERKDLSPGDTPPLPTVLPDRFVPTFIINKAKKLAKSAIINNQTEVVVEWHSDETGLSSRSPEHRVSYWREDMNLNSFHWHWHLSNPYIEPGDRDRRGELFYYMHHNLVARYNMERLSLNLKPVKAFEDWRIPVQDGYFPHLTTGNGQEWSSRQDSTFFQDIREIPLVDSNYVSQLEMWRTHLYHGIDVGYLIHENGSYVRLTDNPEVGEDYGINLVGEALEAGDSVNPDVYGNIHNLGHDFLGQSHDPAKKHSTTSGVMGAVETAVRDPVFFRWHKFIDNVFHRYKLTQPPYTPRQLSGNITVLNVTVQEEHWIDDYVSPENLLHTFFTPKTFNSSSGIDFRLKRDDNITVHIKSNFLEHPDFSYTITVNNPTSDFKRMKLRIFLAPKFDEEGVKMNYASLLRYWTEVDVFETDPIAPGIAYITRHSNESSILSTTAFAFSGCSWPRNLQVPRGTQDGMNFHFFVMATDVSSSSFCGRPDQPIPDPWPMGYPLERRSSKATIEDFVDEHPNMMLQEVTITHLRDPSSVLRRPISERKECLLFTC DEELRQLFYLPYESTSTLADRLGIQLPPLELSPTAVTVLDPELKAKLGSALSIPEGIPFFAFNKQHSQAVKDLSKVFIEAKSLNVLKDVAIMVKDHVNSAVFLAALYHTYYERKDLSPGDTPPLPTVLPDRFVPTFIINKAKKLAKSAIINNQTEVVVEWHSDETGLSSRSPEHRVSYWREDMNLNSFHWHWHLSNPYYIEPGDRDRRGELFYYMHHNLVARYNMERLSLNLKPVKAFEDWRIPVQDGYFPHLTTGNGQEWSSRQDSTFFQDIREIPLVDSNYVSQLEMWRTHLYHGIDVGYLIHENGSYVRLTDNPEVGEDYGINLVGEALEAGDSVNPDVYGNIHNLGHDFLGQSHDPAKKHSTTSGVMGAVETAVRDPVFFRWHKFIDNVFHRYKLTQPPYTPRQLSGNITVLNVTVQEEHWIDDYVSPENLLHTFFTPKTFNSSSGIDFRLKRDDNITVHIKSNFLEHPDFSYTITVNNPTSDFKRMKLRIFLAPKFDEEGVKMNYASLLRYWTEVDVFETDPIAPGIAYITRHSNESSILSTTAFAFSGCSWPRNLQVPRGTQDGMNFHFFVMATDVSSSFCGRPDQPIPDPWPMGYPLERRSSKATIEDFVDEHPNMMLQEVTITHLRDPSSVLRRPISERKECLLFTC 3wky-a1-m2-cB_3wky-a1-m3-cB Crystal structure of hemolymph type prophenoloxidase (proPOb) from crustacean G5EKM4 G5EKM4 1.801 X-RAY DIFFRACTION 68 1.0 27405 (Penaeus japonicus) 27405 (Penaeus japonicus) 655 655 3wky-a1-m1-cA_3wky-a1-m2-cA 3wky-a1-m1-cA_3wky-a1-m3-cA 3wky-a1-m1-cB_3wky-a1-m2-cB 3wky-a1-m1-cB_3wky-a1-m3-cB 3wky-a1-m2-cA_3wky-a1-m3-cA DEELRQLFYLPYESTSTLADRLGIQLPPLELSPTAVTVLDPELKAKLGSALSIPEGIPFFAFNKQHSQAVKDLSKVFIEAKSLNVLKDVAIMVKDHVNSAVFLAALYHTYYERKDLSPGDTPPLPTVLPDRFVPTFIINKAKKLAKSAIINNQTEVVVEWHSDETGLSSRSPEHRVSYWREDMNLNSFHWHWHLSNPYYIEPGDRDRRGELFYYMHHNLVARYNMERLSLNLKPVKAFEDWRIPVQDGYFPHLTTGNGQEWSSRQDSTFFQDIREIPLVDSNYVSQLEMWRTHLYHGIDVGYLIHENGSYVRLTDNPEVGEDYGINLVGEALEAGDSVNPDVYGNIHNLGHDFLGQSHDPAKKHSTTSGVMGAVETAVRDPVFFRWHKFIDNVFHRYKLTQPPYTPRQLSGNITVLNVTVQEEHWIDDYVSPENLLHTFFTPKTFNSSSGIDFRLKRDDNITVHIKSNFLEHPDFSYTITVNNPTSDFKRMKLRIFLAPKFDEEGVKMNYASLLRYWTEVDVFETDPIAPGIAYITRHSNESSILSTTAFAFSGCSWPRNLQVPRGTQDGMNFHFFVMATDVSSSFCGRPDQPIPDPWPMGYPLERRSSKATIEDFVDEHPNMMLQEVTITHLRDPSSVLRRPISERKECLLFTC DEELRQLFYLPYESTSTLADRLGIQLPPLELSPTAVTVLDPELKAKLGSALSIPEGIPFFAFNKQHSQAVKDLSKVFIEAKSLNVLKDVAIMVKDHVNSAVFLAALYHTYYERKDLSPGDTPPLPTVLPDRFVPTFIINKAKKLAKSAIINNQTEVVVEWHSDETGLSSRSPEHRVSYWREDMNLNSFHWHWHLSNPYYIEPGDRDRRGELFYYMHHNLVARYNMERLSLNLKPVKAFEDWRIPVQDGYFPHLTTGNGQEWSSRQDSTFFQDIREIPLVDSNYVSQLEMWRTHLYHGIDVGYLIHENGSYVRLTDNPEVGEDYGINLVGEALEAGDSVNPDVYGNIHNLGHDFLGQSHDPAKKHSTTSGVMGAVETAVRDPVFFRWHKFIDNVFHRYKLTQPPYTPRQLSGNITVLNVTVQEEHWIDDYVSPENLLHTFFTPKTFNSSSGIDFRLKRDDNITVHIKSNFLEHPDFSYTITVNNPTSDFKRMKLRIFLAPKFDEEGVKMNYASLLRYWTEVDVFETDPIAPGIAYITRHSNESSILSTTAFAFSGCSWPRNLQVPRGTQDGMNFHFFVMATDVSSSFCGRPDQPIPDPWPMGYPLERRSSKATIEDFVDEHPNMMLQEVTITHLRDPSSVLRRPISERKECLLFTC 3wky-a1-m3-cA_3wky-a1-m3-cB Crystal structure of hemolymph type prophenoloxidase (proPOb) from crustacean G5EKM4 G5EKM4 1.801 X-RAY DIFFRACTION 46 0.998 27405 (Penaeus japonicus) 27405 (Penaeus japonicus) 654 655 3wky-a1-m1-cA_3wky-a1-m1-cB 3wky-a1-m2-cA_3wky-a1-m2-cB DEELRQLFYLPYESTSTLADRLGIQLPPLELSTAVTVLDPELKAKLGSALSIPEGIPFFAFNKQHSQAVKDLSKVFIEAKSLNVLKDVAIMVKDHVNSAVFLAALYHTYYERKDLSPGDTPPLPTVLPDRFVPTFIINKAKKLAKSAIINNQTEVVVEWHSDETGLSSRSPEHRVSYWREDMNLNSFHWHWHLSNPYIEPGDRDRRGELFYYMHHNLVARYNMERLSLNLKPVKAFEDWRIPVQDGYFPHLTTGNGQEWSSRQDSTFFQDIREIPLVDSNYVSQLEMWRTHLYHGIDVGYLIHENGSYVRLTDNPEVGEDYGINLVGEALEAGDSVNPDVYGNIHNLGHDFLGQSHDPAKKHSTTSGVMGAVETAVRDPVFFRWHKFIDNVFHRYKLTQPPYTPRQLSGNITVLNVTVQEEHWIDDYVSPENLLHTFFTPKTFNSSSGIDFRLKRDDNITVHIKSNFLEHPDFSYTITVNNPTSDFKRMKLRIFLAPKFDEEGVKMNYASLLRYWTEVDVFETDPIAPGIAYITRHSNESSILSTTAFAFSGCSWPRNLQVPRGTQDGMNFHFFVMATDVSSSSFCGRPDQPIPDPWPMGYPLERRSSKATIEDFVDEHPNMMLQEVTITHLRDPSSVLRRPISERKECLLFTC DEELRQLFYLPYESTSTLADRLGIQLPPLELSPTAVTVLDPELKAKLGSALSIPEGIPFFAFNKQHSQAVKDLSKVFIEAKSLNVLKDVAIMVKDHVNSAVFLAALYHTYYERKDLSPGDTPPLPTVLPDRFVPTFIINKAKKLAKSAIINNQTEVVVEWHSDETGLSSRSPEHRVSYWREDMNLNSFHWHWHLSNPYYIEPGDRDRRGELFYYMHHNLVARYNMERLSLNLKPVKAFEDWRIPVQDGYFPHLTTGNGQEWSSRQDSTFFQDIREIPLVDSNYVSQLEMWRTHLYHGIDVGYLIHENGSYVRLTDNPEVGEDYGINLVGEALEAGDSVNPDVYGNIHNLGHDFLGQSHDPAKKHSTTSGVMGAVETAVRDPVFFRWHKFIDNVFHRYKLTQPPYTPRQLSGNITVLNVTVQEEHWIDDYVSPENLLHTFFTPKTFNSSSGIDFRLKRDDNITVHIKSNFLEHPDFSYTITVNNPTSDFKRMKLRIFLAPKFDEEGVKMNYASLLRYWTEVDVFETDPIAPGIAYITRHSNESSILSTTAFAFSGCSWPRNLQVPRGTQDGMNFHFFVMATDVSSSFCGRPDQPIPDPWPMGYPLERRSSKATIEDFVDEHPNMMLQEVTITHLRDPSSVLRRPISERKECLLFTC 3wmd-a1-m1-cA_3wmd-a1-m1-cB Crystal structure of epoxide hydrolase MonBI Q846W7 Q846W7 1.999 X-RAY DIFFRACTION 89 1.0 144 147 MNEFARKKRALEHSRRINAGDLDAIIDLYAPDAVLEDPVGLPPVTGHDALRAHYEPLLAAHLREEAAEPVAGQDATHALIQISSVMDYLPVGPLYAERGWLKAPDAPGTARIHRTAMLVIRMDASGLIRHLKSYWGTSDLTVLG GRHMNEFARKKRALEHSRRINAGDLDAIIDLYAPDAVLEDPVGLPPVTGHDALRAHYEPLLAAHLREEAAEPVAGQDATHALIQISSVMDYLPVGPLYAERGWLKAPDAPGTARIHRTAMLVIRMDASGLIRHLKSYWGTSDLTVLG 3wmf-a2-m1-cA_3wmf-a2-m2-cA Crystal structure of an inward-facing eukaryotic ABC multitrug transporter G277V/A278V/A279V mutant M1VAN7 M1VAN7 2.6 X-RAY DIFFRACTION 361 1.0 45157 (Cyanidioschyzon merolae) 45157 (Cyanidioschyzon merolae) 588 588 3wme-a2-m1-cA_3wme-a2-m2-cA 6a6n-a1-m1-cA_6a6n-a1-m2-cA 7vr5-a1-m1-cA_7vr5-a1-m2-cA TGVTARRIFALAWSSSATMIVIGFIASILEGATLPAFAIVFGRMFQVFTKSKSQIEGETWKYSVGFVGIGVFEFIVAGSRTALFGIASERLARDLRVAAFSNLVEQDVTYFDRRKAGELGGKLNNDVQVIQYSFSKLGAVLFNLAQCVVGIIVAFIFAPALTGVLIALSPLVVLAVVVQMIEMSGNTKRSSEAYASAGSVAAEVFSNIRTTKAFEAERYETQRYGSKLDPLYRLGRRRYISDGLFFGLSMLVIFCVYALALWWGGQLIARGSLNLGNLLTAFFSAILGFMGVGQAAQVWPDVTRGLGAGGELFAMIDRVPQYRRPDPGAEVVTQPLVLKQGIVFENVHFRYPTRMNVEVLRGISLTIPNGKTVAIVGGSGAGKSTIIQLLMRFYDIEPQGGGLLLFDGTPAWNYDFHALRSQIGLVSQEPVLFSGTIRDNILYGKRDATDEEVIQALREANAYSFVMALPDGLDTEVGERGLALSGGQKQRIAIARAILKHPTLLCLDESTSALDAESEALVQEALDRMMASDGVTSVVIAHRLSTVARADLILVMQDGVVVEQGNHSELMALGPSGFYYQLVEKQLA TGVTARRIFALAWSSSATMIVIGFIASILEGATLPAFAIVFGRMFQVFTKSKSQIEGETWKYSVGFVGIGVFEFIVAGSRTALFGIASERLARDLRVAAFSNLVEQDVTYFDRRKAGELGGKLNNDVQVIQYSFSKLGAVLFNLAQCVVGIIVAFIFAPALTGVLIALSPLVVLAVVVQMIEMSGNTKRSSEAYASAGSVAAEVFSNIRTTKAFEAERYETQRYGSKLDPLYRLGRRRYISDGLFFGLSMLVIFCVYALALWWGGQLIARGSLNLGNLLTAFFSAILGFMGVGQAAQVWPDVTRGLGAGGELFAMIDRVPQYRRPDPGAEVVTQPLVLKQGIVFENVHFRYPTRMNVEVLRGISLTIPNGKTVAIVGGSGAGKSTIIQLLMRFYDIEPQGGGLLLFDGTPAWNYDFHALRSQIGLVSQEPVLFSGTIRDNILYGKRDATDEEVIQALREANAYSFVMALPDGLDTEVGERGLALSGGQKQRIAIARAILKHPTLLCLDESTSALDAESEALVQEALDRMMASDGVTSVVIAHRLSTVARADLILVMQDGVVVEQGNHSELMALGPSGFYYQLVEKQLA 3wmi-a1-m2-cA_3wmi-a1-m3-cA Crystal structure of EIAV wild type gp45 E2E2L9 E2E2L9 1.9 X-RAY DIFFRACTION 40 1.0 9796 (Equus caballus) 9796 (Equus caballus) 57 57 3wmi-a1-m1-cA_3wmi-a1-m2-cA 3wmi-a1-m1-cA_3wmi-a1-m3-cA 3wmj-a1-m1-cA_3wmj-a1-m2-cA 3wmj-a1-m1-cA_3wmj-a1-m3-cA 3wmj-a1-m2-cA_3wmj-a1-m3-cA STENLYFQSNADSVQNHTFEVENNTINGLELVEEQVHILYAMVLQTHADVQLLKEQQ STENLYFQSNADSVQNHTFEVENNTINGLELVEEQVHILYAMVLQTHADVQLLKEQQ 3wmq-a1-m1-cA_3wmq-a1-m6-cA Crystal structure of the complex between SLL-2 and GalNAc. A4CYJ6 A4CYJ6 1.6 X-RAY DIFFRACTION 24 1.0 301888 (Sinularia lochmodes) 301888 (Sinularia lochmodes) 94 94 3wmp-a1-m1-cA_3wmp-a1-m1-cD 3wmp-a1-m1-cB_3wmp-a1-m1-cE 3wmp-a1-m1-cC_3wmp-a1-m1-cF 3wmq-a1-m2-cA_3wmq-a1-m5-cA 3wmq-a1-m3-cA_3wmq-a1-m4-cA 5x4a-a1-m1-cA_5x4a-a1-m1-cF 5x4a-a1-m1-cB_5x4a-a1-m1-cE 5x4a-a1-m1-cC_5x4a-a1-m1-cD 5x4a-a2-m1-cG_5x4a-a2-m1-cL 5x4a-a2-m1-cH_5x4a-a2-m1-cK 5x4a-a2-m1-cI_5x4a-a2-m1-cJ RLIHVSRCEMGTSTHRCWPRPCDTSSDEPISFWPPFENTPNVIVSFGMLDVDNSNNLRVNSSADDVTVGGFTLHYNSWYTTTVWNYKLIWIACD RLIHVSRCEMGTSTHRCWPRPCDTSSDEPISFWPPFENTPNVIVSFGMLDVDNSNNLRVNSSADDVTVGGFTLHYNSWYTTTVWNYKLIWIACD 3wmt-a1-m1-cB_3wmt-a1-m1-cA Crystal structure of feruloyl esterase B from Aspergillus oryzae Q2UP89 Q2UP89 1.5 X-RAY DIFFRACTION 115 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 498 503 SFQAECESFKAKINVTNANVHSVTYVPAGVNISMADNPSPITSTFAFCRIALNVTTSSKSQIFMEAWLPSNYSGRFLSTGNGGLGGCVKYDDMAYAAGYGFATVGTNNGHFGNNGVSFYQNTEVVEDFAYRALHTGVVVGKELTKNFYPQGYNKSYYLGCSTGGRQGWKSVQTFPDDFDGVVAGAPAFNFINLTSWGARFLTLTGDSSAETFVTETQWTAVHNEIIRQCDSLDGAKDGIIEDPDLCQPIIEALLCNATQSSTSGTCLTGAQVKTVNGVFSATYGLNGSFLYPRMQPGSELAAYSSYYSGTPFAYAEDWYRYVVFNNTNWDVATWTVQDAAIANAQDPYQISTWNGDLSPFQKKGGKVLHYHGMEDAIISSESSKVYYKHVADTMNLSPSELDSFYRFFPISGMAHCANADGPSAIGQGTGTFAGNNPQDNVLLAMVQWVEEGVAPDFVRGAKLNGSTVEYRRKHCKYPKRNRYVGPGSYTDENAWECV SFQAECESFKAKINVTNANVHSVTYVPAGVNISMADNPSICGGDPITSTFAFCRIALNVTTSSKSQIFMEAWLPSNYSGRFLSTGNGGLGGCVKYDDMAYAAGYGFATVGTNNGHFGNNGVSFYQNTEVVEDFAYRALHTGVVVGKELTKNFYPQGYNKSYYLGCSTGGRQGWKSVQTFPDDFDGVVAGAPAFNFINLTSWGARFLTLTGDSSAETFVTETQWTAVHNEIIRQCDSLDGAKDGIIEDPDLCQPIIEALLCNATQSSTSGTCLTGAQVKTVNGVFSATYGLNGSFLYPRMQPGSELAAYSSYYSGTPFAYAEDWYRYVVFNNTNWDVATWTVQDAAIANAQDPYQISTWNGDLSPFQKKGGKVLHYHGMEDAIISSESSKVYYKHVADTMNLSPSELDSFYRFFPISGMAHCANADGPSAIGQGTGTFAGNNPQDNVLLAMVQWVEEGVAPDFVRGAKLNGSTVEYRRKHCKYPKRNRYVGPGSYTDENAWECV 3wmu-a1-m1-cA_3wmu-a1-m1-cB The structure of an anti-cancer lectin mytilec apo-form from the mussel Mytilus galloprovincialis B3EWR1 B3EWR1 1.1 X-RAY DIFFRACTION 33 1.0 29158 (Mytilus galloprovincialis) 29158 (Mytilus galloprovincialis) 151 153 3wmv-a1-m1-cB_3wmv-a1-m1-cA 6bfm-a1-m1-cA_6bfm-a1-m1-cB HMATFLIKHKASGKFLHPKGGSSNPANDTNLVLHSDIHERMYFQFDVVDERWGYIKHAASGKIVHPLGGKADPPNETKLVLHQDRHDRALFAMDFFNDNIIHKAGKYVHPKGGSTNPPNETLTVMHGDKHGAMEFIFVSPKNKDKRVLVYV GSHMATFLIKHKASGKFLHPKGGSSNPANDTNLVLHSDIHERMYFQFDVVDERWGYIKHAASGKIVHPLGGKADPPNETKLVLHQDRHDRALFAMDFFNDNIIHKAGKYVHPKGGSTNPPNETLTVMHGDKHGAMEFIFVSPKNKDKRVLVYV 3wmw-a1-m1-cA_3wmw-a1-m1-cB GalE-like L-Threonine dehydrogenase from Cupriavidus necator (apo form) Q0K312 Q0K312 2.25 X-RAY DIFFRACTION 51 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 277 278 KPKILIVGQIGSELALALAERYGRTNVITSDGELATVVERHGITQVYLLAAPQWAWNLNMTSLLNVLELARQTGLERVFWPSSIAAFGPTTPAGQTPQKTVMEPTTVYGISKQAGEGWCRWYHANHGVDVRSVRYPGLISHKTPPGGGTTDYAVDIFHAAVTGEPYTCFLKEDEALPMMYMPDAIRATIELMEAPADKLSERGSYNIAGMSFTPAQIAAAIREQVPGFQIRYEPDYRQAIAQGWPDSIDDSVARADWGWKAQYGLKEMVADMLANLK KPKILIVGGQIGSELALALAERYGRTNVITSDGELATVVERHGITQVYLLAAPQWAWNLNMTSLLNVLELARQTGLERVFWPSSIAAFGPTTPAGQTPQKTVMEPTTVYGISKQAGEGWCRWYHANHGVDVRSVRYPGLISHKTPPGGGTTDYAVDIFHAAVTGEPYTCFLKEDEALPMMYMPDAIRATIELMEAPADKLSERGSYNIAGMSFTPAQIAAAIREQVPGFQIRYEPDYRQAIAQGWPDSIDDSVARADWGWKAQYGLKEMVADMLANLK 3wmx-a1-m1-cC_3wmx-a1-m1-cA GalE-like L-Threonine dehydrogenase from Cupriavidus necator (holo form) Q0K312 Q0K312 2.5 X-RAY DIFFRACTION 49 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 308 310 3wmx-a2-m1-cD_3wmx-a2-m1-cB 7eps-a1-m1-cB_7eps-a1-m1-cA 7eps-a2-m1-cD_7eps-a2-m1-cC PKILIVGANGQIGSELALALAERYGRTNVITSDVVPTGRHVHLTHEMLNATDRGELATVVERHGITQVYLLAAALSATGEKAPQWAWNLNMTSLLNVLELARQTGLERVFWPSSIAAFGPTTPAGQTPQKTVMEPTTVYGISKQAGEGWCRWYHANHGVDVRSVRYPGLISHKTPPGGGTTDYAVDIFHAAVTGEPYTCFLKEDEALPMMYMPDAIRATIELMEAPADKLSERGSYNIAGMSFTPAQIAAAIREQVPGFQIRYEPDYRQAIAQGWPDSIDDSVARADWGWKAQYGLKEMVADMLANLK GKPKILIVGANGQIGSELALALAERYGRTNVITSDVVPTGRHVHLTHEMLNATDRGELATVVERHGITQVYLLAAALSATGEKAPQWAWNLNMTSLLNVLELARQTGLERVFWPSSIAAFGPTTPAGQTPQKTVMEPTTVYGISKQAGEGWCRWYHANHGVDVRSVRYPGLISHKTPPGGGTTDYAVDIFHAAVTGEPYTCFLKEDEALPMMYMPDAIRATIELMEAPADKLSERGSYNIAGMSFTPAQIAAAIREQVPGFQIRYEPDYRQAIAQGWPDSIDDSVARADWGWKAQYGLKEMVADMLANLK 3wn8-a1-m1-cA_3wn8-a1-m1-cC Crystal Structure of Collagen-Model Peptide, (POG)3-PRG-(POG)4 1.45 X-RAY DIFFRACTION 40 1.0 17 17 3wn8-a1-m1-cB_3wn8-a1-m1-cA PGPGPGPRGPGPGPGPG PGPGPGPRGPGPGPGPG 3wn8-a1-m1-cB_3wn8-a1-m1-cC Crystal Structure of Collagen-Model Peptide, (POG)3-PRG-(POG)4 1.45 X-RAY DIFFRACTION 40 1.0 16 17 PGPGPGPRGPGPGPGP PGPGPGPRGPGPGPGPG 3wnq-a1-m1-cA_3wnq-a1-m1-cD Crystal structure of (R)-carbonyl reductase H49A mutant from Candida Parapsilosis in complex with 2-hydroxyacetophenone A1X808 A1X808 2.95 X-RAY DIFFRACTION 33 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 335 335 3wle-a1-m1-cA_3wle-a1-m1-cB 3wle-a1-m1-cC_3wle-a1-m1-cD 3wlf-a1-m1-cC_3wlf-a1-m1-cA 3wlf-a1-m1-cD_3wlf-a1-m1-cB 3wnq-a1-m1-cB_3wnq-a1-m1-cC 4c4o-a1-m1-cC_4c4o-a1-m1-cA 4c4o-a1-m1-cD_4c4o-a1-m1-cB SIPSSQYGFVFNKQSGLKLRNDLPVHKPKAGQLLLKVDAVGLCHSDLAVIYEGLDCGDNYVMGHEIAGTVAAVGDDVINYKVGDRVACVGPNGCGGCKYCRGAIDNVCKNAFGDWFGLGYDGGYQQYLLVTRPRNLSRIPDNVSADVAAASTDAVLTPYHAIKMAQVSPTSNILLIGAGGLGGNAIQVAKAFGAKVTVLDKKKEARDQAKKLGADAVYETLPESISPGSFSACFDFVSVQATFDVCQKYVEPKGVIMPVGLGAPNLSFNLGDLALREIRILGSFWGTTNDLDDVLKLVSEGKVKPVVRSAKLKELPEYIEKLRNNAYEGRVVFNP SIPSSQYGFVFNKQSGLKLRNDLPVHKPKAGQLLLKVDAVGLCHSDLAVIYEGLDCGDNYVMGHEIAGTVAAVGDDVINYKVGDRVACVGPNGCGGCKYCRGAIDNVCKNAFGDWFGLGYDGGYQQYLLVTRPRNLSRIPDNVSADVAAASTDAVLTPYHAIKMAQVSPTSNILLIGAGGLGGNAIQVAKAFGAKVTVLDKKKEARDQAKKLGADAVYETLPESISPGSFSACFDFVSVQATFDVCQKYVEPKGVIMPVGLGAPNLSFNLGDLALREIRILGSFWGTTNDLDDVLKLVSEGKVKPVVRSAKLKELPEYIEKLRNNAYEGRVVFNP 3wnq-a1-m1-cB_3wnq-a1-m1-cD Crystal structure of (R)-carbonyl reductase H49A mutant from Candida Parapsilosis in complex with 2-hydroxyacetophenone A1X808 A1X808 2.95 X-RAY DIFFRACTION 56 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 335 335 3wle-a1-m1-cA_3wle-a1-m1-cC 3wle-a1-m1-cB_3wle-a1-m1-cD 3wlf-a1-m1-cB_3wlf-a1-m1-cA 3wlf-a1-m1-cD_3wlf-a1-m1-cC 3wnq-a1-m1-cA_3wnq-a1-m1-cC 4c4o-a1-m1-cC_4c4o-a1-m1-cB 4c4o-a1-m1-cD_4c4o-a1-m1-cA SIPSSQYGFVFNKQSGLKLRNDLPVHKPKAGQLLLKVDAVGLCHSDLAVIYEGLDCGDNYVMGHEIAGTVAAVGDDVINYKVGDRVACVGPNGCGGCKYCRGAIDNVCKNAFGDWFGLGYDGGYQQYLLVTRPRNLSRIPDNVSADVAAASTDAVLTPYHAIKMAQVSPTSNILLIGAGGLGGNAIQVAKAFGAKVTVLDKKKEARDQAKKLGADAVYETLPESISPGSFSACFDFVSVQATFDVCQKYVEPKGVIMPVGLGAPNLSFNLGDLALREIRILGSFWGTTNDLDDVLKLVSEGKVKPVVRSAKLKELPEYIEKLRNNAYEGRVVFNP SIPSSQYGFVFNKQSGLKLRNDLPVHKPKAGQLLLKVDAVGLCHSDLAVIYEGLDCGDNYVMGHEIAGTVAAVGDDVINYKVGDRVACVGPNGCGGCKYCRGAIDNVCKNAFGDWFGLGYDGGYQQYLLVTRPRNLSRIPDNVSADVAAASTDAVLTPYHAIKMAQVSPTSNILLIGAGGLGGNAIQVAKAFGAKVTVLDKKKEARDQAKKLGADAVYETLPESISPGSFSACFDFVSVQATFDVCQKYVEPKGVIMPVGLGAPNLSFNLGDLALREIRILGSFWGTTNDLDDVLKLVSEGKVKPVVRSAKLKELPEYIEKLRNNAYEGRVVFNP 3wnq-a1-m1-cC_3wnq-a1-m1-cD Crystal structure of (R)-carbonyl reductase H49A mutant from Candida Parapsilosis in complex with 2-hydroxyacetophenone A1X808 A1X808 2.95 X-RAY DIFFRACTION 108 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 335 335 3wle-a1-m1-cA_3wle-a1-m1-cD 3wle-a1-m1-cB_3wle-a1-m1-cC 3wlf-a1-m1-cC_3wlf-a1-m1-cB 3wlf-a1-m1-cD_3wlf-a1-m1-cA 3wnq-a1-m1-cA_3wnq-a1-m1-cB 4c4o-a1-m1-cA_4c4o-a1-m1-cB SIPSSQYGFVFNKQSGLKLRNDLPVHKPKAGQLLLKVDAVGLCHSDLAVIYEGLDCGDNYVMGHEIAGTVAAVGDDVINYKVGDRVACVGPNGCGGCKYCRGAIDNVCKNAFGDWFGLGYDGGYQQYLLVTRPRNLSRIPDNVSADVAAASTDAVLTPYHAIKMAQVSPTSNILLIGAGGLGGNAIQVAKAFGAKVTVLDKKKEARDQAKKLGADAVYETLPESISPGSFSACFDFVSVQATFDVCQKYVEPKGVIMPVGLGAPNLSFNLGDLALREIRILGSFWGTTNDLDDVLKLVSEGKVKPVVRSAKLKELPEYIEKLRNNAYEGRVVFNP SIPSSQYGFVFNKQSGLKLRNDLPVHKPKAGQLLLKVDAVGLCHSDLAVIYEGLDCGDNYVMGHEIAGTVAAVGDDVINYKVGDRVACVGPNGCGGCKYCRGAIDNVCKNAFGDWFGLGYDGGYQQYLLVTRPRNLSRIPDNVSADVAAASTDAVLTPYHAIKMAQVSPTSNILLIGAGGLGGNAIQVAKAFGAKVTVLDKKKEARDQAKKLGADAVYETLPESISPGSFSACFDFVSVQATFDVCQKYVEPKGVIMPVGLGAPNLSFNLGDLALREIRILGSFWGTTNDLDDVLKLVSEGKVKPVVRSAKLKELPEYIEKLRNNAYEGRVVFNP 3wnv-a3-m1-cA_3wnv-a3-m1-cB Crystal structure of a glyoxylate reductase from Paecilomyes thermophila A0A0B4J185 A0A0B4J185 1.75 X-RAY DIFFRACTION 135 1.0 566408 (Paecilomyces sp. 'thermophila') 566408 (Paecilomyces sp. 'thermophila') 328 328 MPSQAALLIGDIVHARAEWEALSSLVTLKEFPEGGREKFLENCKSGQYDDVIAIYRSNISTKHTGPFDRELISALPKSVKYICHNGAGYDNIDVDAATEAGIAISSTPIAVNNATADVAIFLMIGALRQAYVPITAIRAGEWHGKTTLGHDPNGKTLGILGMGGIGREVARRARAFGMNIIYHNRNKLPPELEDGAKYVSFDELLAQSDVFSLNLALNASTRHIIGEKELAKMKDGVVIVNTARGALIDEKALVRALESGKVASVGLDVYENEPQVEPGLLNNPRAMLLPHIGTMTYETQKEMELLVLNNLRSAIEKGELLTQVPEQK MPSQAALLIGDIVHARAEWEALSSLVTLKEFPEGGREKFLENCKSGQYDDVIAIYRSNISTKHTGPFDRELISALPKSVKYICHNGAGYDNIDVDAATEAGIAISSTPIAVNNATADVAIFLMIGALRQAYVPITAIRAGEWHGKTTLGHDPNGKTLGILGMGGIGREVARRARAFGMNIIYHNRNKLPPELEDGAKYVSFDELLAQSDVFSLNLALNASTRHIIGEKELAKMKDGVVIVNTARGALIDEKALVRALESGKVASVGLDVYENEPQVEPGLLNNPRAMLLPHIGTMTYETQKEMELLVLNNLRSAIEKGELLTQVPEQK 3wnz-a1-m1-cA_3wnz-a1-m2-cA Crystal structure of Bacillus subtilis YwfE, an L-amino acid ligase, with bound ADP-Mg-Pi P39641 P39641 1.9 X-RAY DIFFRACTION 49 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 465 465 3wo0-a1-m1-cA_3wo0-a1-m2-cA 3wo1-a1-m1-cA_3wo1-a1-m2-cA KTVLVIADLGGCPPHMFYKSAAEKYNLVSFIPRPFAITASHAALIEKYSVAVIKDKDYFKSLADFEHPDSIYWAHEDHNKPEEEVVEQIVKVAEMFGADAITTNNELFIAPMAKACERLGLRGAGVQAAENARDKNKMRDAFNKAGVKSIKNKRVTTLEDFRAALEEIGTPLILKPTYLASSIGVTLITDTETAEDEFNRVNDYLKSINVPKAVTFEAPFIAEEFLQGEYGDWYQTEGYSDYISIEGIMADGEYFPIAIHDKTPQIGFTETSHITPSILDEEAKKKIVEAAKKANEGLGLQNCATHTEIKLMKNREPGLIESAARFAGWNMIPNIKKVFGLDMAQLLLDVLCFGKDADLPDGLLDQEPYYVADCHLYPQHFKQNGQIPETAEDLVIEAIDIPDGLLKGDTEIVSFSAAAPGTSVDLTLFEAFNSIAAFELKGSNSQDVAESIRQIQQHAKLTAKY KTVLVIADLGGCPPHMFYKSAAEKYNLVSFIPRPFAITASHAALIEKYSVAVIKDKDYFKSLADFEHPDSIYWAHEDHNKPEEEVVEQIVKVAEMFGADAITTNNELFIAPMAKACERLGLRGAGVQAAENARDKNKMRDAFNKAGVKSIKNKRVTTLEDFRAALEEIGTPLILKPTYLASSIGVTLITDTETAEDEFNRVNDYLKSINVPKAVTFEAPFIAEEFLQGEYGDWYQTEGYSDYISIEGIMADGEYFPIAIHDKTPQIGFTETSHITPSILDEEAKKKIVEAAKKANEGLGLQNCATHTEIKLMKNREPGLIESAARFAGWNMIPNIKKVFGLDMAQLLLDVLCFGKDADLPDGLLDQEPYYVADCHLYPQHFKQNGQIPETAEDLVIEAIDIPDGLLKGDTEIVSFSAAAPGTSVDLTLFEAFNSIAAFELKGSNSQDVAESIRQIQQHAKLTAKY 3wo8-a1-m1-cA_3wo8-a1-m1-cB Crystal structure of the beta-N-acetylglucosaminidase from Thermotoga maritima Q9WZR6 Q9WZR6 2.43 X-RAY DIFFRACTION 184 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 447 448 DLGKLFFCGFNDFNEEVKEIIRKYRPTGILIYPGVLSKEYLLMDFMSFLSKEGDFLISSDHEGGQLEVLKYVPSSPGNLAFGKNSPDVTYRYSRVAGKIMEIVGLNMVFAPVLDLLSDIRSYGSDPKIVAEHGARACEGYLEGGVIPCIKHFPGHGKARETLPVVDAPFEKLWEEDLLPFRKVLEREKKVTVMTAHVRYSSIDSLPATLSEKIITDVLREKIGFDGLVISDAMEMSAVSNNFSVEEIVSLFLNAGGNMILLGDYRNLPVYYETLVKLLEDGKVQKDKVERSIRTVEKYLAFAKKNSGVGFLADVSMKAVEFLGFEKIDHTSEVTLLVPSSENLSQADTTGGDYDQIPEIVSRFFEVENVVRYTVEDGPEFVEGDLIFDFVADIPNEKALKAHLSLPAEKTVYFVLRNPFDVRYFEGRKIVVTRSTKPISIYKSLEHF DLGKLFFCGFNDFNEEVKEIIRKYRPTGILIYPGVLSKEYLLMDFMSFLSKEGDFLISSDHEGGQLEVLKYVPSSPGNLAFGKNSPDVTYRYSRVAGKIMEIVGLNMVFAPVLDLLSDIRSYGSDPKIVAEHGARACEGYLEGGVIPCIKHFPGHGKARETLPVVDAPFEKLWEEDLLPFRKVLEREKKVTVMTAHVRYSSIDSLPATLSEKIITDVLREKIGFDGLVISDAMEMSAVSNNFSVEEIVSLFLNAGGNMILLGDYRNLPVYYETLVKLLEDGKVQKDKVERSIRTVEKYLAFAKKNSGVGFLADVSMKAVEFLGFEKIDHTSEVTLLVPSSENLSQADTTGGDYDQIPEIVSRFFEVENVVRYTVEDGPEFVEGDLIFDFVADIPNEKALKAHLSLPAEKTVYFVLRNPFDVRYFEGRKIVVTRSTKPISIYKSLEHFL 3woc-a7-m1-cE_3woc-a7-m1-cA Crystal structure of a prostate-specific WGA16 glycoprotein lectin, form II A0A0A8IK66 A0A0A8IK66 2.4 X-RAY DIFFRACTION 61 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 137 138 3woc-a8-m1-cB_3woc-a8-m2-cD 3woc-a9-m1-cC_3woc-a9-m1-cF GSGQMFGNGKGSYFITSKDNETGITGIRVFVGPVGLIKSIQVRYGSSWSEKYGIPGGKAHELILHPGEHIISIYGRYRTFLQHVTLITNQGRSASFGLETGKGFFAAPNLTGQVLEGVYGQFWLYGITGIGFTWGFP GSGQMFGNGKGSYFITSKDNETGITGIRVFVGPVGLIKSIQVRYGSSWSEKYGIPGGKAHELILHPGEHIISIYGRYRTFLQHVTLITNQGRSASFGLETGKGFFAAPNLTGQVLEGVYGQFWLYGITGIGFTWGFPR 3wod-a1-m1-cH_3wod-a1-m1-cG RNA polymerase-gp39 complex A7XX65 A7XX65 3.6 X-RAY DIFFRACTION 17 1.0 466051 (Oshimavirus P2345) 466051 (Oshimavirus P2345) 91 127 5xj0-a1-m1-cH_5xj0-a1-m1-cG FVEPYIRLFEAIPDAETELATFYDADLDTLPPRMFLPSGDLYTPPGPVRLEEIKRKRRVRLVKVSIYRYAYAYAWQGDNGILHLYHAPVVL GFVEPYIRLFEAIPDAETELATFYDADLDTLPPRMFLPSGDLYTPPGPVRLEEIKRKRRVRLVKVSIYRFEHVGLGLAARPYAYAYAWQGDNGILHLYHAPVVLEDEVTYNESYVRLMRAMGHVDAF 3woh-a1-m1-cA_3woh-a1-m4-cA Structure of Ketoreductase SiaM from Streptomyces sp. A7248 K9M8L2 K9M8L2 2.5 X-RAY DIFFRACTION 129 1.0 1233308 (Streptomyces sp. A7248) 1233308 (Streptomyces sp. A7248) 235 235 3woh-a1-m2-cA_3woh-a1-m3-cA GALSGKVALVTGGSRGLGRAMALRLARDGAAVAIVYVSDDSSAKETQGEIERLGGTARSYRCDVSDAEQVTRCVKAVTADLGPVDILVNNAGIIRDGLAASIKDEDYDAVMNTNLKGAFLFIKACYFGFIRKRSGSIINISSVSGVFGSAGQANYASAKAGLIGLTKSIAKELAERNVRCNAVAPGLIATDRLDPVPMRRFGRPDEVAGLVAFLAGDESSYITGQVVCVDGGMAM GALSGKVALVTGGSRGLGRAMALRLARDGAAVAIVYVSDDSSAKETQGEIERLGGTARSYRCDVSDAEQVTRCVKAVTADLGPVDILVNNAGIIRDGLAASIKDEDYDAVMNTNLKGAFLFIKACYFGFIRKRSGSIINISSVSGVFGSAGQANYASAKAGLIGLTKSIAKELAERNVRCNAVAPGLIATDRLDPVPMRRFGRPDEVAGLVAFLAGDESSYITGQVVCVDGGMAM 3woh-a1-m3-cA_3woh-a1-m4-cA Structure of Ketoreductase SiaM from Streptomyces sp. A7248 K9M8L2 K9M8L2 2.5 X-RAY DIFFRACTION 100 1.0 1233308 (Streptomyces sp. A7248) 1233308 (Streptomyces sp. A7248) 235 235 3woh-a1-m1-cA_3woh-a1-m2-cA GALSGKVALVTGGSRGLGRAMALRLARDGAAVAIVYVSDDSSAKETQGEIERLGGTARSYRCDVSDAEQVTRCVKAVTADLGPVDILVNNAGIIRDGLAASIKDEDYDAVMNTNLKGAFLFIKACYFGFIRKRSGSIINISSVSGVFGSAGQANYASAKAGLIGLTKSIAKELAERNVRCNAVAPGLIATDRLDPVPMRRFGRPDEVAGLVAFLAGDESSYITGQVVCVDGGMAM GALSGKVALVTGGSRGLGRAMALRLARDGAAVAIVYVSDDSSAKETQGEIERLGGTARSYRCDVSDAEQVTRCVKAVTADLGPVDILVNNAGIIRDGLAASIKDEDYDAVMNTNLKGAFLFIKACYFGFIRKRSGSIINISSVSGVFGSAGQANYASAKAGLIGLTKSIAKELAERNVRCNAVAPGLIATDRLDPVPMRRFGRPDEVAGLVAFLAGDESSYITGQVVCVDGGMAM 3wom-a1-m1-cA_3wom-a1-m1-cB Crystal structure of the DAP BII dipeptide complex II V5YM14 V5YM14 1.86 X-RAY DIFFRACTION 52 1.0 128785 (Pseudoxanthomonas mexicana) 128785 (Pseudoxanthomonas mexicana) 697 697 3woi-a1-m1-cA_3woi-a1-m2-cA 3woi-a2-m1-cB_3woi-a2-m3-cB 3woj-a1-m1-cA_3woj-a1-m1-cB 3wok-a1-m1-cA_3wok-a1-m1-cB 3wol-a1-m1-cA_3wol-a1-m1-cB 3won-a1-m1-cA_3won-a1-m1-cB 3woo-a1-m1-cA_3woo-a1-m1-cB 3wop-a1-m1-cA_3wop-a1-m1-cB 3woq-a1-m1-cA_3woq-a1-m1-cB 3wor-a1-m1-cA_3wor-a1-m1-cB GEGMWVPQQLPEIAGPLKKAGLKLSPQQISDLTGDPMGAVVALGGCTASFVSPNGLVVTNHHCAYGAIQLNSTAENNLIKNGFNAPTTADEVSAGPNARVFVLDEITDVTKDAKAAIAAAGDDALARTKALEAFEKKLIADCEAEAGFRCRLYSFSGGNTYRLFKNLEIKDVRLAYAPPGSVGKFGGDIDNWMWPRHTGDFAFYRAYVGKDGKPAAFSKDNVPYQPKHWLKFADQPLGAGDFVMVAGYPGSTNRYALAAEFDNTAQWTYPTIARHYKNQIAMVEAAGKQNADIQVKYAATMAGWNNTSKNYDGQLEGFKRIDAAGQKLREEAAVLGWLKGQGAKGQPALDAHAKLLDLLEQSKATRDRDLTLALFNNTAMLGSATQLYRLSIEREKPNAERESGYQERDLPAIEGGLKQLERRYVAAMDRQLQEYWLNEYIKLPADQRVAAVDAWLGGNDAAAVKRALDRLAGTKLGSTEERLKWFAADRKAFEASNDPAIQYAVAVMPTLLKLEQERKTRAGENLAARPVYLQALADYKKSQGEFVYPDANLSLRITFGNVMGYAPKDGMEYTPFTTLEGVVAKETGQDPFDSPKALLDAVAAKRYGGLEDKRIGSVPVNYLSDLDITGGNSGSPVLDAHGKLVGLAFDGNWESVSSNWVFDPKMTRMIAVDGRYLRWIMQEVYPAPQLLKEMNVG GEGMWVPQQLPEIAGPLKKAGLKLSPQQISDLTGDPMGAVVALGGCTASFVSPNGLVVTNHHCAYGAIQLNSTAENNLIKNGFNAPTTADEVSAGPNARVFVLDEITDVTKDAKAAIAAAGDDALARTKALEAFEKKLIADCEAEAGFRCRLYSFSGGNTYRLFKNLEIKDVRLAYAPPGSVGKFGGDIDNWMWPRHTGDFAFYRAYVGKDGKPAAFSKDNVPYQPKHWLKFADQPLGAGDFVMVAGYPGSTNRYALAAEFDNTAQWTYPTIARHYKNQIAMVEAAGKQNADIQVKYAATMAGWNNTSKNYDGQLEGFKRIDAAGQKLREEAAVLGWLKGQGAKGQPALDAHAKLLDLLEQSKATRDRDLTLALFNNTAMLGSATQLYRLSIEREKPNAERESGYQERDLPAIEGGLKQLERRYVAAMDRQLQEYWLNEYIKLPADQRVAAVDAWLGGNDAAAVKRALDRLAGTKLGSTEERLKWFAADRKAFEASNDPAIQYAVAVMPTLLKLEQERKTRAGENLAARPVYLQALADYKKSQGEFVYPDANLSLRITFGNVMGYAPKDGMEYTPFTTLEGVVAKETGQDPFDSPKALLDAVAAKRYGGLEDKRIGSVPVNYLSDLDITGGNSGSPVLDAHGKLVGLAFDGNWESVSSNWVFDPKMTRMIAVDGRYLRWIMQEVYPAPQLLKEMNVG 3won-a2-m1-cA_3won-a2-m2-cB Crystal structure of the DAP BII dipeptide complex III V5YM14 V5YM14 1.75 X-RAY DIFFRACTION 32 1.0 128785 (Pseudoxanthomonas mexicana) 128785 (Pseudoxanthomonas mexicana) 697 697 GEGMWVPQQLPEIAGPLKKAGLKLSPQQISDLTGDPMGAVVALGGCTASFVSPNGLVVTNHHCAYGAIQLNSTAENNLIKNGFNAPTTADEVSAGPNARVFVLDEITDVTKDAKAAIAAAGDDALARTKALEAFEKKLIADCEAEAGFRCRLYSFSGGNTYRLFKNLEIKDVRLAYAPPGSVGKFGGDIDNWMWPRHTGDFAFYRAYVGKDGKPAAFSKDNVPYQPKHWLKFADQPLGAGDFVMVAGYPGSTNRYALAAEFDNTAQWTYPTIARHYKNQIAMVEAAGKQNADIQVKYAATMAGWNNTSKNYDGQLEGFKRIDAAGQKLREEAAVLGWLKGQGAKGQPALDAHAKLLDLLEQSKATRDRDLTLALFNNTAMLGSATQLYRLSIEREKPNAERESGYQERDLPAIEGGLKQLERRYVAAMDRQLQEYWLNEYIKLPADQRVAAVDAWLGGNDAAAVKRALDRLAGTKLGSTEERLKWFAADRKAFEASNDPAIQYAVAVMPTLLKLEQERKTRAGENLAARPVYLQALADYKKSQGEFVYPDANLSLRITFGNVMGYAPKDGMEYTPFTTLEGVVAKETGQDPFDSPKALLDAVAAKRYGGLEDKRIGSVPVNYLSDLDITGGNSGSPVLDAHGKLVGLAFDGNWESVSSNWVFDPKMTRMIAVDGRYLRWIMQEVYPAPQLLKEMNVG GEGMWVPQQLPEIAGPLKKAGLKLSPQQISDLTGDPMGAVVALGGCTASFVSPNGLVVTNHHCAYGAIQLNSTAENNLIKNGFNAPTTADEVSAGPNARVFVLDEITDVTKDAKAAIAAAGDDALARTKALEAFEKKLIADCEAEAGFRCRLYSFSGGNTYRLFKNLEIKDVRLAYAPPGSVGKFGGDIDNWMWPRHTGDFAFYRAYVGKDGKPAAFSKDNVPYQPKHWLKFADQPLGAGDFVMVAGYPGSTNRYALAAEFDNTAQWTYPTIARHYKNQIAMVEAAGKQNADIQVKYAATMAGWNNTSKNYDGQLEGFKRIDAAGQKLREEAAVLGWLKGQGAKGQPALDAHAKLLDLLEQSKATRDRDLTLALFNNTAMLGSATQLYRLSIEREKPNAERESGYQERDLPAIEGGLKQLERRYVAAMDRQLQEYWLNEYIKLPADQRVAAVDAWLGGNDAAAVKRALDRLAGTKLGSTEERLKWFAADRKAFEASNDPAIQYAVAVMPTLLKLEQERKTRAGENLAARPVYLQALADYKKSQGEFVYPDANLSLRITFGNVMGYAPKDGMEYTPFTTLEGVVAKETGQDPFDSPKALLDAVAAKRYGGLEDKRIGSVPVNYLSDLDITGGNSGSPVLDAHGKLVGLAFDGNWESVSSNWVFDPKMTRMIAVDGRYLRWIMQEVYPAPQLLKEMNVG 3wp8-a1-m2-cA_3wp8-a1-m3-cA Acinetobacter sp. Tol 5 AtaA C-terminal Ylhead fused to GCN4 adaptors (Chead) K7ZP88 K7ZP88 1.97 X-RAY DIFFRACTION 434 1.0 710648 (Acinetobacter sp. Tol 5) 710648 (Acinetobacter sp. Tol 5) 317 317 3wp8-a1-m1-cA_3wp8-a1-m2-cA 3wp8-a1-m1-cA_3wp8-a1-m3-cA KIEEILSKIYHIENEIARIKKLIAVITSNITEVVDGNGNKVNIIDQVVNTKPDNKNQDSLFLTYDKQGQETTDRLTIGQTVQKMNTDGIKFFHTNADTSKGDLGTTNDSSAGGLNSTAIGVNAIVANGADSSVALGHNTKVNGKQSIAIGSGAEALGNQSISIGTGNKVTGDHSGAIGDGTIVNGANSYSVGNNNQVLTDDTFVLGNNVTKTIAGSVVLGNGSAATTGAGEAGYALSVATNADKAAITKTTSSTGAVAVGDASSGIYRQITGVAAGSVDSDAVNVAQMKQIEDKIEEILSKIYHIENEIARIKKLIK KIEEILSKIYHIENEIARIKKLIAVITSNITEVVDGNGNKVNIIDQVVNTKPDNKNQDSLFLTYDKQGQETTDRLTIGQTVQKMNTDGIKFFHTNADTSKGDLGTTNDSSAGGLNSTAIGVNAIVANGADSSVALGHNTKVNGKQSIAIGSGAEALGNQSISIGTGNKVTGDHSGAIGDGTIVNGANSYSVGNNNQVLTDDTFVLGNNVTKTIAGSVVLGNGSAATTGAGEAGYALSVATNADKAAITKTTSSTGAVAVGDASSGIYRQITGVAAGSVDSDAVNVAQMKQIEDKIEEILSKIYHIENEIARIKKLIK 3wpa-a1-m2-cA_3wpa-a1-m3-cA Acinetobacter sp. Tol 5 AtaA C-terminal stalk_FL fused to GCN4 adaptors (CstalkFL) K7ZP88 K7ZP88 1.79 X-RAY DIFFRACTION 628 1.0 710648 (Acinetobacter sp. Tol 5) 710648 (Acinetobacter sp. Tol 5) 346 346 3wpa-a1-m1-cA_3wpa-a1-m2-cA 3wpa-a1-m1-cA_3wpa-a1-m3-cA NVAQGNQTNVGDALTALDNAINTAATTSKSTVSNGQNIVVSKSKNADGSDNYEVSTAKDLTVDSVKAGDTVLNNAGITIGNNAVVLNNTGLTISGGPSVTLAGIDAGNKTIQNVANAVNATDAVNKGQLDSAINNVNNNVNELANNAVKYDDASKDKITLGGGATGTTITNVKDGTVAQGSKDAVNGGQLWNVQQQVDQNTTDISNIKNDINNGTVGLVQQAGKDAPVTVAKDTGGTTVNVAGTDGNRVVTGVKEGAVNATSKDAVNGSQLNTTNQAVVNYLGGGAGYDNITGSFTAPSYTVGDSKYNNVGGAIDALNQADQALNSKIDNVSNKLDNAFRITNNRI NVAQGNQTNVGDALTALDNAINTAATTSKSTVSNGQNIVVSKSKNADGSDNYEVSTAKDLTVDSVKAGDTVLNNAGITIGNNAVVLNNTGLTISGGPSVTLAGIDAGNKTIQNVANAVNATDAVNKGQLDSAINNVNNNVNELANNAVKYDDASKDKITLGGGATGTTITNVKDGTVAQGSKDAVNGGQLWNVQQQVDQNTTDISNIKNDINNGTVGLVQQAGKDAPVTVAKDTGGTTVNVAGTDGNRVVTGVKEGAVNATSKDAVNGSQLNTTNQAVVNYLGGGAGYDNITGSFTAPSYTVGDSKYNNVGGAIDALNQADQALNSKIDNVSNKLDNAFRITNNRI 3wpc-a1-m1-cA_3wpc-a1-m1-cB Crystal structure of horse TLR9 in complex with agonistic DNA1668_12mer Q2EEY0 Q2EEY0 1.6 X-RAY DIFFRACTION 102 1.0 9796 (Equus caballus) 9796 (Equus caballus) 747 749 TLPPFLPCELQPHGLVNCNWLFLKSVPHFSAAAPRDNVTSLSLLSNRIHHLHDSDFAQLSNLQKLNLKWNCPPAGLSPMHFPCHMTIEPNTFLAVPTLEELNLSYNGITTVPALPSSLVSLILSRTNILQLDPTSLTGLHALRFLYMDGNCYYKNPCGRALEVAPGALLGLGNLTHLSLKYNNLTTVPRSLPPSLEYLLLSYNHIVTLAPEDLANLTALRVLDVGGNCRRCDHARNPCVECPHKFPQLHSDTFSHLSRLEGLVLKDSSLYQLNPRWFRGLGNLTVLDLSENFLYDCITKTKAFQGLAQLRRLNLSFNYHKKVSFAHLTLAPSFGSLLSLQELDMHGIFFRSLSQKTLQPLARLPMLQRLYLQMNFINQAQLGIFKDFPGLRYIDLSDNRISGAVEEDFMPSCKNLSFTLDLSRNNLVTVQPEMFAQLSRLQCLRLSHNSISQAVNGSQFVPLTSLQVLDLSHNKLDLYHGRSFTELPRLEALDLSYNSQPFSMRGVGHNLSFVAQLPTLRYLSLAHNGIHSRVSQQLCSTSLWALDFSGNSLSQMWAEGDLYLRFFQGLRSLIRLDLSQNRLHTLLPCTLGNLPKSLQLLRLRNNYLAFFNWSSLTLLPNLETLDLAGNQLKALSNGSLPSGTQLQRLDVSRNSIIFVVPGFFALATRLRELNLSANALRTVEPSWFGFLAGSLEVLDVSANPLHCACAAFVDFLLQVQAAVPGLPSRVKCGSPGQLQGRSIFAQDL TLPPFLPCELQPHGLVNCNWLFLKSVPHFSAAAPRDNVTSLSLLSNRIHHLHDSDFAQLSNLQKLNLKWNCPPAGLSPMHFPCHMTIEPNTFLAVPTLEELNLSYNGITTVPALPSSLVSLILSRTNILQLDPTSLTGLHALRFLYMDGNCYYKNPCGRALEVAPGALLGLGNLTHLSLKYNNLTTVPRSLPPSLEYLLLSYNHIVTLAPEDLANLTALRVLDVGGNCRRCDHARNPCVECPHKFPQLHSDTFSHLSRLEGLVLKDSSLYQLNPRWFRGLGNLTVLDLSENFLYDCITKTKAFQGLAQLRRLNLSFNYHKKVSFAHLTLAPSFGSLLSLQELDMHGIFFRSLSQKTLQPLARLPMLQRLYLQMNFINQAQLGIFKDFPGLRYIDLSDNRISGAVESEDFMPSCKNLSFTLDLSRNNLVTVQPEMFAQLSRLQCLRLSHNSISQAVNGSQFVPLTSLQVLDLSHNKLDLYHGRSFTELPRLEALDLSYNSQPFSMRGVGHNLSFVAQLPTLRYLSLAHNGIHSRVSQQLCSTSLWALDFSGNSLSQMWAEGDLYLRFFQGLRSLIRLDLSQNRLHTLLPCTLGNLPKSLQLLRLRNNYLAFFNWSSLTLLPNLETLDLAGNQLKALSNGSLPSGTQLQRLDVSRNSIIFVVPGFFALATRLRELNLSANALRTVEPSWFGFLAGSLEVLDVSANPLHCACGAAFVDFLLQVQAAVPGLPSRVKCGSPGQLQGRSIFAQDL 3wpe-a1-m1-cA_3wpe-a1-m2-cA Crystal structure of bovine TLR9 in complex with agonistic DNA1668_12mer Q5I2M5 Q5I2M5 2.38 X-RAY DIFFRACTION 93 1.0 9913 (Bos taurus) 9913 (Bos taurus) 714 714 5y3m-a1-m1-cB_5y3m-a1-m1-cA PAFLPCELQPHGQVDCNWLFLKSVPHFSAGAPRANVTSLSLISNRIHHLHDSDFVHLSNLRVLNLKWNCPPAGLSPMHFPCRMTIEPNTFLAVPTLEELNLSYNGITTVPALPSSLVSLSLSHTSILVLGPTHFTGLHALRFLYMDGNCYYMNPCPRALEVAPGALLGLGNLTHLSLKYNNLTEVPRRLPPSLDTLLLSYNHIVTLAPEDLANLTALRVLDVGGNCRRCDHARNPCRECPKNFPKLHPDTFSHLSRLEGLVLKDSSLYKLEKDWFRGLGRLQVLDLSENFLYDYITKTTIFNDLTQLRRLNLSFNYHKKVSFAHLHLASSFGSLVSLEKLDMHGIFFRSLTNITLQSLTRLPKLQSLHLQLNFINQAQLSIFGAFPSLLFVDLSDNRISSCNLNFTLDLSRNNLVTIQQEMFTRLSRLQCLRLSHNSISQAVNGSQFVPLTSLRVLDLSHNKLDLYHGRSFTELPQLEALDLSYNSQPFSMQGVGHNLSFVAQLPSLRYLSLAHNGIHSRVSQKLSSASLRALDFSGNSLSQMWAEGDLYLCFFKGLRNLVQLDLSENHLHTLLPRHLDNLPKSLRQLRLRDNNLAFFNWSSLTVLPRLEALDLAGNQLKALSNGSLPPGIRLQKLDVSSNSIGFVIPGFFVRATRLIELNLSANALKTVDPSWFGAGTLKILDVSANPLHCAAFVDFLLERQEAVPVTCGSPG PAFLPCELQPHGQVDCNWLFLKSVPHFSAGAPRANVTSLSLISNRIHHLHDSDFVHLSNLRVLNLKWNCPPAGLSPMHFPCRMTIEPNTFLAVPTLEELNLSYNGITTVPALPSSLVSLSLSHTSILVLGPTHFTGLHALRFLYMDGNCYYMNPCPRALEVAPGALLGLGNLTHLSLKYNNLTEVPRRLPPSLDTLLLSYNHIVTLAPEDLANLTALRVLDVGGNCRRCDHARNPCRECPKNFPKLHPDTFSHLSRLEGLVLKDSSLYKLEKDWFRGLGRLQVLDLSENFLYDYITKTTIFNDLTQLRRLNLSFNYHKKVSFAHLHLASSFGSLVSLEKLDMHGIFFRSLTNITLQSLTRLPKLQSLHLQLNFINQAQLSIFGAFPSLLFVDLSDNRISSCNLNFTLDLSRNNLVTIQQEMFTRLSRLQCLRLSHNSISQAVNGSQFVPLTSLRVLDLSHNKLDLYHGRSFTELPQLEALDLSYNSQPFSMQGVGHNLSFVAQLPSLRYLSLAHNGIHSRVSQKLSSASLRALDFSGNSLSQMWAEGDLYLCFFKGLRNLVQLDLSENHLHTLLPRHLDNLPKSLRQLRLRDNNLAFFNWSSLTVLPRLEALDLAGNQLKALSNGSLPPGIRLQKLDVSSNSIGFVIPGFFVRATRLIELNLSANALKTVDPSWFGAGTLKILDVSANPLHCAAFVDFLLERQEAVPVTCGSPG 3wpp-a1-m2-cA_3wpp-a1-m3-cA Acinetobacter sp. Tol 5 AtaA YDD-DALL3 domains in C-terminal stalk fused to GCN4 adaptors (CstalkC1iii) K7ZP88 K7ZP88 1.952 X-RAY DIFFRACTION 164 1.0 710648 (Acinetobacter sp. Tol 5) 710648 (Acinetobacter sp. Tol 5) 104 104 3wpo-a1-m1-cA_3wpo-a1-m1-cB 3wpo-a1-m1-cA_3wpo-a1-m1-cC 3wpo-a1-m1-cC_3wpo-a1-m1-cB 3wpp-a1-m1-cA_3wpp-a1-m2-cA 3wpp-a1-m1-cA_3wpp-a1-m3-cA 3wqa-a1-m1-cA_3wqa-a1-m1-cB 3wqa-a1-m1-cA_3wqa-a1-m1-cC 3wqa-a1-m1-cB_3wqa-a1-m1-cC IEEILSKIYHIENEIARIKKLIDSAINNVNNNVNELANNAVKYDDASKDKITLGGGATGTTITNVKDGTVAQGSKDAVNGGQLWNVQQQVDQNTTDISNIKNDI IEEILSKIYHIENEIARIKKLIDSAINNVNNNVNELANNAVKYDDASKDKITLGGGATGTTITNVKDGTVAQGSKDAVNGGQLWNVQQQVDQNTTDISNIKNDI 3wpr-a1-m1-cB_3wpr-a1-m1-cC Acinetobacter sp. Tol 5 AtaA N-terminal half of C-terminal stalk fused to GCN4 adaptors (CstalkN) K7ZP88 K7ZP88 1.899 X-RAY DIFFRACTION 322 1.0 710648 (Acinetobacter sp. Tol 5) 710648 (Acinetobacter sp. Tol 5) 207 218 1gcm-a1-m1-cA_1gcm-a1-m1-cB 1gcm-a1-m1-cA_1gcm-a1-m1-cC 1gcm-a1-m1-cB_1gcm-a1-m1-cC 1piq-a1-m1-cA_1piq-a1-m2-cA 1piq-a1-m1-cA_1piq-a1-m3-cA 1piq-a1-m2-cA_1piq-a1-m3-cA 3wpr-a1-m1-cB_3wpr-a1-m1-cA 3wpr-a1-m1-cC_3wpr-a1-m1-cA 5kkv-a1-m1-cA_5kkv-a1-m2-cA 5kkv-a1-m1-cA_5kkv-a1-m3-cA 5kkv-a1-m2-cA_5kkv-a1-m3-cA IEDKIEEILSKIYHIENEIARIKKLIKAVGNQVVTTQTTLVNSLGGNAKVNADGTITGPTYNVAQGNQTNVGDALTALDNAINTAATTSKSTVSNGQNIVVSKSKNADGSDNYEVSTAKDLTVDSVKAGDTVLNNAGITIGNNAVVLNNTGLTISGGPSVTLAGIDAGNKTIQNVANAVNATDAVNKGQMKQIEDKIEEILSKIYHI KQIEDKIEEILSKIYHIENEIARIKKLIKAVGNQVVTTQTTLVNSLGGNAKVNADGTITGPTYNVAQGNQTNVGDALTALDNAINTAATTSKSTVSNGQNIVVSKSKNADGSDNYEVSTAKDLTVDSVKAGDTVLNNAGITIGNNAVVLNNTGLTISGGPSVTLAGIDAGNKTIQNVANAVNATDAVNKGQMKQIEDKIEEILSKIYHIENEIARIKK 3wps-a1-m1-cA_3wps-a1-m1-cB crystal structure of the GAP domain of MgcRacGAP(S387D) Q9H0H5 Q9H0H5 2.7 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 IGEGLADFVSQTSPIPSIVVHCVNEIEQRGLTETGLYRIDGCDRTVKELKEKFLRVKTVPLLSKVDDIHAICSLLKDFLRNLKEPLLTFRLNRAFEAAEITDEDNSIAAYQAVGELPQANRDTLAFLIHLQRVAQSPHTKDVANLAKVFGPTIVAHAVPNPDPVTSQDIKRQPKVVERLLSLPLEYWSQFVE IGEGLADFVSQTSPIPSIVVHCVNEIEQRGLTETGLYRIDGCDRTVKELKEKFLRVKTVPLLSKVDDIHAICSLLKDFLRNLKEPLLTFRLNRAFEAAEITDEDNSIAAYQAVGELPQANRDTLAFLIHLQRVAQSPHTKDVANLAKVFGPTIVAHAVPNPDPVTSQDIKRQPKVVERLLSLPLEYWSQFVE 3wpw-a1-m1-cA_3wpw-a1-m1-cB Structure of PomBc5, a periplasmic fragment of PomB from Vibrio O06874 O06874 2 X-RAY DIFFRACTION 69 1.0 663 (Vibrio alginolyticus) 663 (Vibrio alginolyticus) 149 149 3wpx-a1-m1-cA_3wpx-a1-m1-cB SQEMETLMESIKKALEREIEQGAIEVENLGQQIVIRMREKGAFPEGSAFLQPKFRPLVRQIAELVKDVPGIVRVSGHTDNRPLDSELYRSNWDLSSQRAVSVAQEMEKVRGFSHQRLRVRGMADTEPLLPNDSDDNRALNRRVEISIMQ SQEMETLMESIKKALEREIEQGAIEVENLGQQIVIRMREKGAFPEGSAFLQPKFRPLVRQIAELVKDVPGIVRVSGHTDNRPLDSELYRSNWDLSSQRAVSVAQEMEKVRGFSHQRLRVRGMADTEPLLPNDSDDNRALNRRVEISIMQ 3wqj-a1-m2-cA_3wqj-a1-m3-cA Crystal structure of archaerhodopsin-2 at 1.8 angstrom resolution P29563 P29563 1.8 X-RAY DIFFRACTION 32 1.0 29285 (Halobacterium sp. AUS-2) 29285 (Halobacterium sp. AUS-2) 234 234 2ei4-a1-m1-cA_2ei4-a1-m2-cA 2ei4-a1-m1-cA_2ei4-a1-m3-cA 2ei4-a1-m2-cA_2ei4-a1-m3-cA 2z55-a1-m1-cA_2z55-a1-m2-cA 2z55-a1-m1-cA_2z55-a1-m3-cA 2z55-a1-m2-cA_2z55-a1-m3-cA 2z55-a2-m1-cB_2z55-a2-m2-cB 2z55-a2-m1-cB_2z55-a2-m3-cB 2z55-a2-m2-cB_2z55-a2-m3-cB 2z55-a5-m1-cD_2z55-a5-m4-cD 2z55-a5-m1-cD_2z55-a5-m5-cD 2z55-a5-m4-cD_2z55-a5-m5-cD 2z55-a6-m1-cE_2z55-a6-m4-cE 2z55-a6-m1-cE_2z55-a6-m5-cE 2z55-a6-m4-cE_2z55-a6-m5-cE 3wqj-a1-m1-cA_3wqj-a1-m2-cA 3wqj-a1-m1-cA_3wqj-a1-m3-cA QAGFDLLNDGRPETLWLGIGTLLMLIGTFYFIARGWGVTDKEAREYYAITILVPGIASAAYLAMFFGIGVTEVELASGTVLDIYYARYADWLFTTPLLLLDLALLAKVDRVTIGTLIGVDALMIVTGLIGALSKTPLARYTWWLFSTIAFLFVLYYLLTSLRSAAAKRSEEVRSTFNTLTALVAVLWTAYPILWIVGTEGAGVVGLGIETLAFMVLDVTAKVGFGFVLLRSRAI QAGFDLLNDGRPETLWLGIGTLLMLIGTFYFIARGWGVTDKEAREYYAITILVPGIASAAYLAMFFGIGVTEVELASGTVLDIYYARYADWLFTTPLLLLDLALLAKVDRVTIGTLIGVDALMIVTGLIGALSKTPLARYTWWLFSTIAFLFVLYYLLTSLRSAAAKRSEEVRSTFNTLTALVAVLWTAYPILWIVGTEGAGVVGLGIETLAFMVLDVTAKVGFGFVLLRSRAI 3wqo-a1-m1-cB_3wqo-a1-m1-cA Crystal structure of D-tagatose 3-epimerase-like protein Q58707 Q58707 2.64 X-RAY DIFFRACTION 55 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 267 271 MKFGVSSLVESLTSSMEKIAEHNFDAWEIVCEGTHYLSPKNIKYLMELRDRYEVEIVVHAPFSDLNPASMNERVRKLTVECIRDAIEGAFELDSEVVVVHPGYIPELWSNYVSEILDNNFSTLSEIVEIAEDYGIKIGLENMPNFRGVLGITPESLLEIVKDIDSKNLGITFDIGHANTAGNPAEFVEKLQNIGIGIIHVHAHDNNGYDDEHLKIGEGNINFIEVLEKLKEIGYDGVISIENKNIRDAVKSKEILKEYLEIVNEKVA DMKFGVSSLVFLPESLTSSMEKIAEHNFDAWEIVCEGTHYLSPKNIKYLMELRDRYEVEIVVHAPFSDLNPASMNERVRKLTVECIRDAIEGAFELDSEVVVVHPGYIPELWSNYVSEILDNNFSTLSEIVEIAEDYGIKIGLENMPNFRGVLGITPESLLEIVKDIDSKNLGITFDIGHANTAGNPAEFVEKLQNIGIGIIHVHAHDNNGYDDEHLKIGEGNINFIEVLEKLKEIGYDGVISIENKNIRDAVKSKEILKEYLEIVNEKVA 3wqp-a2-m3-cF_3wqp-a2-m3-cG Crystal structure of Rubisco T289D mutant from Thermococcus kodakarensis O93627 O93627 2.25 X-RAY DIFFRACTION 12 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 435 435 3a12-a1-m1-cD_3a12-a1-m1-cE 3a12-a1-m2-cD_3a12-a1-m2-cE 3a13-a1-m1-cE_3a13-a1-m1-cD 3a13-a1-m2-cE_3a13-a1-m2-cD 3a13-a2-m1-cJ_3a13-a2-m1-cI 3a13-a2-m3-cJ_3a13-a2-m3-cI 3kdn-a1-m1-cD_3kdn-a1-m1-cE 3kdo-a1-m1-cA_3kdo-a1-m1-cE 3kdo-a1-m1-cB_3kdo-a1-m1-cC 3kdo-a1-m1-cD_3kdo-a1-m1-cC 3kdo-a1-m1-cD_3kdo-a1-m1-cE 3kdo-a1-m1-cF_3kdo-a1-m1-cJ 3wqp-a1-m1-cA_3wqp-a1-m1-cB 3wqp-a1-m1-cB_3wqp-a1-m1-cC 3wqp-a1-m1-cD_3wqp-a1-m1-cC 3wqp-a1-m1-cD_3wqp-a1-m1-cE 3wqp-a1-m2-cA_3wqp-a1-m2-cB 3wqp-a1-m2-cB_3wqp-a1-m2-cC 3wqp-a1-m2-cD_3wqp-a1-m2-cC 3wqp-a1-m2-cD_3wqp-a1-m2-cE 3wqp-a2-m1-cF_3wqp-a2-m1-cG 3wqp-a2-m1-cF_3wqp-a2-m1-cJ 3wqp-a2-m1-cI_3wqp-a2-m1-cJ 3wqp-a2-m3-cF_3wqp-a2-m3-cJ 3wqp-a2-m3-cI_3wqp-a2-m3-cJ YDYYVDKGYEPSKKRDIIAVFRVTPAEGYTIEQAAGAVAAESSTGTWTTLYPWYEQERWADLSAKAYDFHDMGDGSWIVRIAYPFHAFEEANLPGLLASIAGNIFGMKRVKGLRLEDLYFPEKLIREFDGPAFGIEGVRKMLEIKDRPIYGVVPKPKVGYSPEEFEKLAYDLLSNGADYMDDENLTSPWYNRFEERAEIMAKIIDKVENETGEKKTWFANITADLLEMEQRLEVLADLGLKHAMVDVVITGWGALRYIRDLAADYGLAIHGHRAMHAAFDRNPYHGISMFVLAKLYRLIGIDQLHVGTAGAGKLEGGKWDVIQNARILRESHYKPDENDVFHLEQKFYSIKAAFPTSSGGLHPGNIQPVIEALGTDIVLQLGGGTLGHPDGPAAGARAVRQAIDAIMQGIPLDEYAKTHKELARALEKWGHVTPV YDYYVDKGYEPSKKRDIIAVFRVTPAEGYTIEQAAGAVAAESSTGTWTTLYPWYEQERWADLSAKAYDFHDMGDGSWIVRIAYPFHAFEEANLPGLLASIAGNIFGMKRVKGLRLEDLYFPEKLIREFDGPAFGIEGVRKMLEIKDRPIYGVVPKPKVGYSPEEFEKLAYDLLSNGADYMDDENLTSPWYNRFEERAEIMAKIIDKVENETGEKKTWFANITADLLEMEQRLEVLADLGLKHAMVDVVITGWGALRYIRDLAADYGLAIHGHRAMHAAFDRNPYHGISMFVLAKLYRLIGIDQLHVGTAGAGKLEGGKWDVIQNARILRESHYKPDENDVFHLEQKFYSIKAAFPTSSGGLHPGNIQPVIEALGTDIVLQLGGGTLGHPDGPAAGARAVRQAIDAIMQGIPLDEYAKTHKELARALEKWGHVTPV 3wqy-a1-m1-cA_3wqy-a1-m1-cB Crystal structure of Archaeoglobus fulgidus alanyl-tRNA synthetase in complex with wild-type tRNA(Ala) having G3.U70 O28029 O28029 3.3 X-RAY DIFFRACTION 127 0.999 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 905 905 2zvf-a1-m1-cA_2zvf-a1-m1-cB 2zvf-a2-m1-cC_2zvf-a2-m1-cD 2zvf-a3-m1-cF_2zvf-a3-m1-cE 2zvf-a4-m1-cG_2zvf-a4-m1-cH 3wqz-a1-m1-cB_3wqz-a1-m1-cA TLDEEYLDITFLTENGFVRKRCPKCGKHFWTADPEREICGDPPCESYSFIGNPVFKKPFELDEMREYYLNFFERRGHGRIERYPVVARWRTDIYLTIASIADFQPFVTSGVAPPPANPLTISQPCIRLDDLDSVGRTGRHLTLFEMMAHHAFNYPGKEIYWKNETVAYCTELLNELGVKKEDIVYKEEPWAGGGNAGPCLEAIVGGLEVATLVFMNLEEHPEGDIEIKGARYRKMDNYIVDTGYGLERFVWASKGTPTVYDAIFPEVVDTIIDNSNVSFNREDERVRRIVAESSKLAGIMGELRGERLNQLRKSVADTVGVSVEELEGIVVPLEKVYSLADHTRCILFMLGDGLVPSNAGAGYLARLMIRRSLRLAEELELGLDLYDLVEMHKKILGFEFDVPLSTVQEILELEKERYRTTVSKGTRLVERLVERKKKLEKDDLIELYDSHGIPVELAVGIAAEKGAEVEMPKDIYAELAKRHSKAEKVQEKKITLQNEYPATEKLYYDDPTLLEFEAEVIGVEGDFVILNRSAFYPESGGQDNDVGYLIANGGKFEVVDVLEADGVVLHVVKGAKPEVGTKVKGVIDSDVRWRHMRHHSATHVLLYSLQKVLGNHVWQAGARKEFSKARLDVTHFRRPSEEEIKEIEMLANREILANKPIKWEWMDRIEAERKFGFRLYQGGVPPGRKIRVVQVGDDVQACGGTHCRSTGEIGMLKILKVESIQDGVIRFEFAAGEAAIEAVEEMERLLREASSILRVEPAKLPKTVERFFEEWKDQRKEIERLKSVIADLWADILMERAEEFDSMKVVAEVVDADMQALQKLAERLAEKGAVGCLMAKGEGKVFVVTFSGQKYDARELLREIGRVAKGSGGGRKDVAQGAVQQLLDREEMLDVIFRFLSEHEG MTLDEEYLDITFLTENGFVRKRCPKCGKHFWTADPEREICGDPPCESYSFIGNPVFKKPFELDEMREYYLNFFERRGHGRIERYPVVARWRTDIYLTIASIADFQPFVTSGVAPPPANPLTISQPCIRLDDLDSVGRTGRHLTLFEMMAHHAFNYPGKEIYWKNETVAYCTELLNELGVKKEDIVYKEEPWAGGGNAGPCLEAIVGGLEVATLVFMNLEEHPEGDIEIKGARYRKMDNYIVDTGYGLERFVWASKGTPTVYDAIFPEVVDTIIDNSNVSFNREDERVRRIVAESSKLAGIMGELRGERLNQLRKSVADTVGVSVEELEGIVVPLEKVYSLADHTRCILFMLGDGLVPSNAGAGYLARLMIRRSLRLAEELELGLDLYDLVEMHKKILGFEFDVPLSTVQEILELEKERYRTTVSKGTRLVERLVERKKKLEKDDLIELYDSHGIPVELAVGIAAEKGAEVEMPKDIYAELAKRHSKAEKVQEKKITLQNEYPATEKLYYDDPTLLEFEAEVIGVEGDFVILNRSAFYPESGGQDNDVGYLIANGGKFEVVDVLEADGVVLHVVKGAKPEVGTKVKGVIDSDVRWRHMRHHSATHVLLYSLQKVLGNHVWQAGARKEFSKARLDVTHFRRPSEEEIKEIEMLANREILANKPIKWEWMDRIEAERKFGFRLYQGGVPPGRKIRVVQVGDDVQACGGTHCRSTGEIGMLKILKVESIQDGVIRFEFAAGEAAIEAVEEMERLLREASSILRVEPAKLPKTVERFFEEWKDQRKEIERLKSVIADLWADILMERAEEFDSMKVVAEVVDADMQALQKLAERLAEKGAVGCLMAKGEGKVFVVTFSGQKYDARELLREIGRVAKGSGGGRKDVAQGAVQQLLDREEMLDVIFRFLSEHE 3wr1-a1-m1-cA_3wr1-a1-m2-cA Crystal structure of Cormorant (Phalacrocorax carbo) hemoglobin P10780 P10780 3.5 X-RAY DIFFRACTION 12 1.0 9209 (Phalacrocorax carbo) 9209 (Phalacrocorax carbo) 141 141 VLSASDKTNVKGVFAKVGGSAEAYGAETLERMFTAYPQTKTYFPHFDLHHGSAQIKAHGKKVAAALVEAANHIDDIAGALSKLSDLHAQKLRVDPVNFKLLGHCFLVVVAIHHPTLLTPEVHASLDKFMCAVAKELTAKYR VLSASDKTNVKGVFAKVGGSAEAYGAETLERMFTAYPQTKTYFPHFDLHHGSAQIKAHGKKVAAALVEAANHIDDIAGALSKLSDLHAQKLRVDPVNFKLLGHCFLVVVAIHHPTLLTPEVHASLDKFMCAVAKELTAKYR 3wr9-a1-m1-cA_3wr9-a1-m1-cB Crystal structure of the Anaerobic DesB-Gallate complex G2IKE5 G2IKE5 2.4 X-RAY DIFFRACTION 399 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 416 416 3wku-a1-m1-cB_3wku-a1-m1-cA 3wpm-a1-m1-cB_3wpm-a1-m1-cA 3wr3-a1-m1-cB_3wr3-a1-m1-cA 3wr4-a1-m1-cB_3wr4-a1-m1-cA 3wr8-a1-m1-cB_3wr8-a1-m1-cA 3wra-a1-m1-cB_3wra-a1-m1-cA 3wrb-a1-m1-cA_3wrb-a1-m1-cB 3wrc-a1-m1-cA_3wrc-a1-m1-cB AKIIGGFAVSHTPTIAFAHDANKYDDPVWAPIFQGFEPVKQWLAEQKPDVTFYVYNDHMTSFFEHYSHFALGVGEEYSPADEGGGQRDLPPIKGDPELAKHIAECLVADEFDLAYWQGMGLDHGAFSPLSVLLPHEHGWPCRIVPLQCGVLQHPIPKARRFWNFGRSLRRAIQSYPRDIKVAIAGTGGLSHQVHGERAGFNNTEWDMEFMERLANDPESLLGATVTDLAKKGGWEGAEVVMWLLMRGALSPEVKTLHQSYFLPSMTAIATMLFEDQGDAAPPAESDEALRARAKRELAGVEEIEGTYPFTIDRAVKGFRINHFLHRLIEPDFRKRFVEDPEGLFAESDLTEEEKSLIRNRDWIGMIHYGVIFFMLEKMAAVLGIGNIDVYAAFRGLSVPEFQKTRNAAITYSVAGK AKIIGGFAVSHTPTIAFAHDANKYDDPVWAPIFQGFEPVKQWLAEQKPDVTFYVYNDHMTSFFEHYSHFALGVGEEYSPADEGGGQRDLPPIKGDPELAKHIAECLVADEFDLAYWQGMGLDHGAFSPLSVLLPHEHGWPCRIVPLQCGVLQHPIPKARRFWNFGRSLRRAIQSYPRDIKVAIAGTGGLSHQVHGERAGFNNTEWDMEFMERLANDPESLLGATVTDLAKKGGWEGAEVVMWLLMRGALSPEVKTLHQSYFLPSMTAIATMLFEDQGDAAPPAESDEALRARAKRELAGVEEIEGTYPFTIDRAVKGFRINHFLHRLIEPDFRKRFVEDPEGLFAESDLTEEEKSLIRNRDWIGMIHYGVIFFMLEKMAAVLGIGNIDVYAAFRGLSVPEFQKTRNAAITYSVAGK 3wrw-a3-m1-cF_3wrw-a3-m1-cE Crystal structure of the N-terminal domain of resistance protein A7M6E7 A7M6E7 2.71 X-RAY DIFFRACTION 161 0.984 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 372 378 3wrv-a1-m1-cB_3wrv-a1-m1-cA 3wrw-a1-m1-cB_3wrw-a1-m1-cA 3wrw-a2-m1-cC_3wrw-a2-m1-cD NSPRVFCIGTADTKFDELRFLSEHVRSSLNSFSNKSSFKVGVTVVDVSTSWKETNSCADFDFVPSKDVLSCLAIAISKALETFLSIANDEQNLAGVIGLGGSGGTSLLSSAFRSLPIGIPKVIISTVASGQTESYIGTSDLVLFPSVVDICGINNVSKVVLSNAGAAFAGVIGRLESFTVGVTFGVTTPCVNAVKERLVKEGYETLVFHATGVGGRAEDLVRGGFIQGVLDITTTEVADYVVGGVACDSSRFDAILEKKIPLVLSVGALDVNFNEQVSLRTTVGENKKFAAFIAEKLNKASSSVCVCLPEKGVSALDAPGKDFYDPEATSCLTRELQLLENNERCQVKVLPYHINDAEFANALVDSFLEISP NSPRVFCIGTADTKFDELRFLSEHVRSSLNSFSNKSSFKVGVTVVDVSTSWKETNSCADFDFVPSKDVLSCHTFADIRGLAIAISKALETFLSIANDEQNLAGVIGLGGSGGTSLLSSAFRSLPIGIPKVIISTVASGQTESYIGTSDLVLFPSVVDICGINNVSKVVLSNAGAAFAGVIGRLESKFTVGVTFGVTTPCVNAVKERLVKEGYETLVFHATGVGGRAEDLVRGGFIQGVLDITTTEVADYVVGGVACDSSRFDAILEKKIPLVLSVGALDVNFGPKEQVSLRTTVGENKKFAAFIAEKLNKASSSVCVCLPEKGVSALDAPGKDFYDPEATSCLTRELQLLCQVKVLPYHINDAEFANALVDSFLEISP 3ws7-a2-m1-cA_3ws7-a2-m2-cA The 1.18 A resolution structure of L-serine 3-dehydrogenase complexed with NADP+ and sulfate ion from the hyperthermophilic archaeon Pyrobaculum calidifontis A3MU08 A3MU08 1.18 X-RAY DIFFRACTION 184 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 293 293 3w6u-a2-m1-cA_3w6u-a2-m2-cA 3w6z-a2-m1-cA_3w6z-a2-m2-cA 5xvh-a1-m1-cA_5xvh-a1-m2-cA HHHSSGLVPRGSHMRVGFIGLGIMGGPMATHLLKAGFLAAVYNRTREKTKPFAEAGVYVAESPADLAKRVDVVIVMVSDAPDVEQVLFGPSGVVEGARPGLIVVDMSTNSPDWARKFAERLAQYGIEFLDAPVTGGQKGAIEGTLTIMVGGKEELFHRLLPIFKAMGRDIVYMGPVGYGQAMKLVNQVVVALNTVAMVEGLKLAKALGLDMDKVAEVLTARSGAIELYLPKLLKGDLSPGFKAEHLKKDLGYVLEEARKRGVKLPGAELAYELYRKMVEDGAGSLGIHALGFY HHHSSGLVPRGSHMRVGFIGLGIMGGPMATHLLKAGFLAAVYNRTREKTKPFAEAGVYVAESPADLAKRVDVVIVMVSDAPDVEQVLFGPSGVVEGARPGLIVVDMSTNSPDWARKFAERLAQYGIEFLDAPVTGGQKGAIEGTLTIMVGGKEELFHRLLPIFKAMGRDIVYMGPVGYGQAMKLVNQVVVALNTVAMVEGLKLAKALGLDMDKVAEVLTARSGAIELYLPKLLKGDLSPGFKAEHLKKDLGYVLEEARKRGVKLPGAELAYELYRKMVEDGAGSLGIHALGFY 3wsb-a1-m1-cA_3wsb-a1-m1-cB The Tuberculosis Drug SQ109 Inhibits Trypanosoma cruzi Cell Proliferation and acts Synergistically with Posaconazole Q4CWB4 Q4CWB4 2.4 X-RAY DIFFRACTION 11 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wsb-a1-m1-cA_3wsb-a1-m1-cC The Tuberculosis Drug SQ109 Inhibits Trypanosoma cruzi Cell Proliferation and acts Synergistically with Posaconazole Q4CWB4 Q4CWB4 2.4 X-RAY DIFFRACTION 15 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 3wcb-a1-m1-cA_3wcb-a1-m1-cC DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wsb-a1-m1-cB_3wsb-a1-m1-cC The Tuberculosis Drug SQ109 Inhibits Trypanosoma cruzi Cell Proliferation and acts Synergistically with Posaconazole Q4CWB4 Q4CWB4 2.4 X-RAY DIFFRACTION 12 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 341 341 3wcb-a1-m1-cA_3wcb-a1-m1-cB DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ DEDLRFCYDILQAVSRSFAVVIMELDEEMRDAVCIFYLVLRALDTVEDDMSIPVEFKLRELPKFHEHLHDTTWCMSGVGVGRERELLERYTHVTRAYSRLGKAYQDVISGICERMANGMCDFLTRKVETKADYDLYCHYVAGLVGHGLTLLYVSSGLEDVRLADDLTNANHMGLFLQKTNIIRDFYEDICEVPPRVFWPREIWEKYTDDLHAFKDELHEAKAVECLNAMVADALVHVPHVVEYLASLRDPSVFAFSAIPQVMAMATLSLVFNNKDVFHTKVKTTRGATARIFHYSTELQATLQMLKTYTLRLAARMNAQDACYDRIEHLVNDAIRAMESHQ 3wsc-a1-m1-cA_3wsc-a1-m1-cB Crystal structure of alginate-binding protein Algp7 Q25C86 Q25C86 1.992 X-RAY DIFFRACTION 136 1.0 90322 (Sphingomonas sp. A1) 90322 (Sphingomonas sp. A1) 251 251 VAPLDLVQPISDYKIYVSENLQTLVRDTREFTNAVKAGDVAKAKKLFASTRMSYERIEPIAELFSDLDASIDSRADDHEKAEKDPAFFGFHRIEYGLFAQNSAKGLAPVADKLMADVLELQKRIRGLTFPPEKVVGGAAVLMEEVAATKISGEEDRYSHTDLWDFQANFEGAKKIVDLFRPLVVKDNRAFADKVDANFDTVFKTLAKYRTADGGFELYGKLSERDRKVLAGRVNTLAEDLSKMRGLLGLDL VAPLDLVQPISDYKIYVSENLQTLVRDTREFTNAVKAGDVAKAKKLFASTRMSYERIEPIAELFSDLDASIDSRADDHEKAEKDPAFFGFHRIEYGLFAQNSAKGLAPVADKLMADVLELQKRIRGLTFPPEKVVGGAAVLMEEVAATKISGEEDRYSHTDLWDFQANFEGAKKIVDLFRPLVVKDNRAFADKVDANFDTVFKTLAKYRTADGGFELYGKLSERDRKVLAGRVNTLAEDLSKMRGLLGLDL 3wsg-a1-m1-cB_3wsg-a1-m1-cA Reduced HcgD from Methanocaldococcus jannaschii with citrate 1.996 X-RAY DIFFRACTION 78 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 245 248 3wsd-a1-m1-cB_3wsd-a1-m1-cA 3wsd-a1-m1-cC_3wsd-a1-m1-cD 3wsd-a1-m1-cE_3wsd-a1-m1-cF 3wse-a1-m1-cB_3wse-a1-m1-cA 3wse-a1-m1-cC_3wse-a1-m1-cD 3wse-a1-m1-cE_3wse-a1-m1-cF 3wsf-a1-m1-cB_3wsf-a1-m1-cA 3wsf-a1-m1-cC_3wsf-a1-m1-cD 3wsf-a1-m1-cE_3wsf-a1-m1-cF 3wsg-a1-m1-cC_3wsg-a1-m1-cD 3wsg-a1-m1-cE_3wsg-a1-m1-cF 3wsh-a1-m1-cA_3wsh-a1-m2-cB 3wsh-a1-m1-cB_3wsh-a1-m3-cA 3wsh-a1-m2-cA_3wsh-a1-m3-cB 3wsh-a2-m1-cC_3wsh-a2-m4-cF 3wsh-a2-m1-cF_3wsh-a2-m5-cC 3wsh-a2-m4-cC_3wsh-a2-m5-cF 3wsh-a3-m1-cD_3wsh-a3-m2-cG 3wsh-a3-m1-cG_3wsh-a3-m3-cD 3wsh-a3-m2-cD_3wsh-a3-m3-cG 3wsh-a4-m1-cE_3wsh-a4-m7-cJ 3wsh-a4-m1-cJ_3wsh-a4-m6-cE 3wsh-a4-m6-cJ_3wsh-a4-m7-cE 3wsh-a5-m1-cH_3wsh-a5-m6-cI 3wsh-a5-m1-cI_3wsh-a5-m7-cH 3wsh-a5-m6-cH_3wsh-a5-m7-cI 3wsh-a6-m1-cK_3wsh-a6-m5-cL 3wsh-a6-m1-cL_3wsh-a6-m4-cK 3wsh-a6-m4-cL_3wsh-a6-m5-cK 3wsi-a1-m1-cB_3wsi-a1-m1-cA 3wsi-a1-m1-cC_3wsi-a1-m1-cD 3wsi-a1-m1-cE_3wsi-a1-m1-cF 4iwg-a2-m1-cA_4iwg-a2-m2-cB 4iwg-a2-m1-cB_4iwg-a2-m2-cA 4iwg-a2-m1-cC_4iwg-a2-m2-cC 4iwm-a1-m1-cA_4iwm-a1-m1-cD 4iwm-a1-m1-cB_4iwm-a1-m1-cE 4iwm-a1-m1-cC_4iwm-a1-m1-cF NMKAKEIIEFIETFAPKDLAIEGDNIGLQVGDNLDKEIKKLGIALDPSLSVIKKAEKEGVDFLFTHHPLLKDPIRNFTGVIYKKLKILMENDIILYSAHTNLDICKNGLNDALAELYNLENPKPLYDNGLGRVGIFKGSFEEFLEITKKYIHKNPIVVKSKEVDDNFKLAVLSGYGLSQSSIKYVAEKADVYLSGDLTHHSKILAEELGLVVVDATHYSTEVFGLKKFKEFLSSNLDLEIISLDF EVVNMKAKEIIEFIETFAPKDLAIEGDNIGLQVGDNLDKEIKKLGIALDPSLSVIKKAEKEGVDFLFTHHPLLKDPIRNFTGVIYKKLKILMENDIILYSAHTNLDICKNGLNDALAELYNLENPKPLYDNGLGRVGIFKGSFEEFLEITKKYIHKNPIVVKSKEVDDNFKLAVLSGYGLSQSSIKYVAEKADVYLSGDLTHHSKILAEELGLVVVDATHYSTEVFGLKKFKEFLSSNLDLEIISLDF 3wsg-a1-m1-cF_3wsg-a1-m1-cA Reduced HcgD from Methanocaldococcus jannaschii with citrate 1.996 X-RAY DIFFRACTION 44 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 245 248 3wsd-a1-m1-cB_3wsd-a1-m1-cD 3wsd-a1-m1-cC_3wsd-a1-m1-cE 3wsd-a1-m1-cF_3wsd-a1-m1-cA 3wse-a1-m1-cB_3wse-a1-m1-cD 3wse-a1-m1-cE_3wse-a1-m1-cC 3wse-a1-m1-cF_3wse-a1-m1-cA 3wsf-a1-m1-cB_3wsf-a1-m1-cD 3wsf-a1-m1-cC_3wsf-a1-m1-cE 3wsf-a1-m1-cF_3wsf-a1-m1-cA 3wsg-a1-m1-cB_3wsg-a1-m1-cD 3wsg-a1-m1-cE_3wsg-a1-m1-cC 3wsh-a1-m1-cA_3wsh-a1-m1-cB 3wsh-a1-m2-cA_3wsh-a1-m2-cB 3wsh-a1-m3-cA_3wsh-a1-m3-cB 3wsh-a2-m1-cC_3wsh-a2-m1-cF 3wsh-a2-m4-cC_3wsh-a2-m4-cF 3wsh-a2-m5-cC_3wsh-a2-m5-cF 3wsh-a3-m1-cD_3wsh-a3-m1-cG 3wsh-a3-m2-cD_3wsh-a3-m2-cG 3wsh-a3-m3-cD_3wsh-a3-m3-cG 3wsh-a4-m1-cE_3wsh-a4-m1-cJ 3wsh-a4-m6-cE_3wsh-a4-m6-cJ 3wsh-a4-m7-cE_3wsh-a4-m7-cJ 3wsh-a5-m1-cH_3wsh-a5-m1-cI 3wsh-a5-m6-cH_3wsh-a5-m6-cI 3wsh-a5-m7-cH_3wsh-a5-m7-cI 3wsh-a6-m1-cK_3wsh-a6-m1-cL 3wsh-a6-m4-cK_3wsh-a6-m4-cL 3wsh-a6-m5-cK_3wsh-a6-m5-cL 3wsi-a1-m1-cB_3wsi-a1-m1-cD 3wsi-a1-m1-cE_3wsi-a1-m1-cC 3wsi-a1-m1-cF_3wsi-a1-m1-cA NMKAKEIIEFIETFAPKDLAIEGDNIGLQVGDNLDKEIKKLGIALDPSLSVIKKAEKEGVDFLFTHHPLLKDPIRNFTGVIYKKLKILMENDIILYSAHTNLDICKNGLNDALAELYNLENPKPLYDNGLGRVGIFKGSFEEFLEITKKYIHKNPIVVKSKEVDDNFKLAVLSGYGLSQSSIKYVAEKADVYLSGDLTHHSKILAEELGLVVVDATHYSTEVFGLKKFKEFLSSNLDLEIISLDF EVVNMKAKEIIEFIETFAPKDLAIEGDNIGLQVGDNLDKEIKKLGIALDPSLSVIKKAEKEGVDFLFTHHPLLKDPIRNFTGVIYKKLKILMENDIILYSAHTNLDICKNGLNDALAELYNLENPKPLYDNGLGRVGIFKGSFEEFLEITKKYIHKNPIVVKSKEVDDNFKLAVLSGYGLSQSSIKYVAEKADVYLSGDLTHHSKILAEELGLVVVDATHYSTEVFGLKKFKEFLSSNLDLEIISLDF 3wsw-a1-m1-cB_3wsw-a1-m1-cD Crystal structure of minor L-lactate dehydrogenase from Enterococcus mundtii in the ligands-bound form V5XPB8 V5XPB8 2.3 X-RAY DIFFRACTION 38 1.0 53346 (Enterococcus mundtii) 53346 (Enterococcus mundtii) 313 314 3wsv-a1-m1-cA_3wsv-a1-m1-cC 3wsv-a1-m1-cB_3wsv-a1-m1-cD 3wsw-a1-m1-cC_3wsw-a1-m1-cA KTSRKVVIVGTGFVGTSIAYAMINQGVANELVLIDVNQEKAEGEALDLLDGMAWGEKNVSVWSGTYEECQDANLVILTAGVNQKPGQTRLDLVKTNATITRQIVKEVMASGFDGIFVVASNPVDILTYLTWQESGLPASRVVGTGTTLDTTRFRKEIALKLAVDPRSVHGYILGEHGDSEVAAWSHTTVGGKPIMEYVEKDHRLEENDLTVLADKVKNAAYEIIDRKKATYYGIGMSTTRIVKAILNNEQAVLPVSAYLNGEYGEEDIFTGVPSIVDENGVREIIDLSITPQEKAMFHQSVSELKAVLDTVRL KTSRKVVIVGTGFVGTSIAYAMINQGVANELVLIDVNQEKAEGEALDLLDGMAWGEKNVSVWSGTYEECQDANLVILTAGVNQKPGQTRLDLVKTNATITRQIVKEVMASGFDGIFVVASNPVDILTYLTWQESGLPASRVVGTGTTLDTTRFRKEIALKLAVDPRSVHGYILGEHGDSEVAAWSHTTVGGKPIMEYVEKDHRLEENDLTVLADKVKNAAYEIIDRKKATYYGIGMSTTRIVKAILNNEQAVLPVSAYLNGEYGEEDIFTGVPSIVDENGVREIIDLSITPQEKAMFHQSVSELKAVLDTVRLE 3wsw-a1-m1-cC_3wsw-a1-m1-cD Crystal structure of minor L-lactate dehydrogenase from Enterococcus mundtii in the ligands-bound form V5XPB8 V5XPB8 2.3 X-RAY DIFFRACTION 168 1.0 53346 (Enterococcus mundtii) 53346 (Enterococcus mundtii) 314 314 3wsv-a1-m1-cA_3wsv-a1-m1-cB 3wsv-a1-m1-cC_3wsv-a1-m1-cD 3wsw-a1-m1-cB_3wsw-a1-m1-cA KTSRKVVIVGTGFVGTSIAYAMINQGVANELVLIDVNQEKAEGEALDLLDGMAWGEKNVSVWSGTYEECQDANLVILTAGVNQKPGQTRLDLVKTNATITRQIVKEVMASGFDGIFVVASNPVDILTYLTWQESGLPASRVVGTGTTLDTTRFRKEIALKLAVDPRSVHGYILGEHGDSEVAAWSHTTVGGKPIMEYVEKDHRLEENDLTVLADKVKNAAYEIIDRKKATYYGIGMSTTRIVKAILNNEQAVLPVSAYLNGEYGEEDIFTGVPSIVDENGVREIIDLSITPQEKAMFHQSVSELKAVLDTVRLE KTSRKVVIVGTGFVGTSIAYAMINQGVANELVLIDVNQEKAEGEALDLLDGMAWGEKNVSVWSGTYEECQDANLVILTAGVNQKPGQTRLDLVKTNATITRQIVKEVMASGFDGIFVVASNPVDILTYLTWQESGLPASRVVGTGTTLDTTRFRKEIALKLAVDPRSVHGYILGEHGDSEVAAWSHTTVGGKPIMEYVEKDHRLEENDLTVLADKVKNAAYEIIDRKKATYYGIGMSTTRIVKAILNNEQAVLPVSAYLNGEYGEEDIFTGVPSIVDENGVREIIDLSITPQEKAMFHQSVSELKAVLDTVRLE 3wsw-a1-m1-cD_3wsw-a1-m1-cA Crystal structure of minor L-lactate dehydrogenase from Enterococcus mundtii in the ligands-bound form V5XPB8 V5XPB8 2.3 X-RAY DIFFRACTION 96 1.0 53346 (Enterococcus mundtii) 53346 (Enterococcus mundtii) 314 316 3wsv-a1-m1-cA_3wsv-a1-m1-cD 3wsv-a1-m1-cC_3wsv-a1-m1-cB 3wsw-a1-m1-cB_3wsw-a1-m1-cC KTSRKVVIVGTGFVGTSIAYAMINQGVANELVLIDVNQEKAEGEALDLLDGMAWGEKNVSVWSGTYEECQDANLVILTAGVNQKPGQTRLDLVKTNATITRQIVKEVMASGFDGIFVVASNPVDILTYLTWQESGLPASRVVGTGTTLDTTRFRKEIALKLAVDPRSVHGYILGEHGDSEVAAWSHTTVGGKPIMEYVEKDHRLEENDLTVLADKVKNAAYEIIDRKKATYYGIGMSTTRIVKAILNNEQAVLPVSAYLNGEYGEEDIFTGVPSIVDENGVREIIDLSITPQEKAMFHQSVSELKAVLDTVRLE KTSRKVVIVGTGFVGTSIAYAMINQGVANELVLIDVNQEKAEGEALDLLDGMAWGEKNVSVWSGTYEECQDANLVILTAGVNQKPGQTRLDLVKTNATITRQIVKEVMASGFDGIFVVASNPVDILTYLTWQESGLPASRVVGTGTTLDTTRFRKEIALKLAVDPRSVHGYILGEHGDSEVAAWSHTTVGGKPIMEYVEKDHRLEENDLTVLADKVKNAAYEIIDRKKATYYGIGMSTTRIVKAILNNEQAVLPVSAYLNGEYGEEDIFTGVPSIVDENGVREIIDLSITPQEKAMFHQSVSELKAVLDTVRLEHH 3wtb-a2-m1-cD_3wtb-a2-m1-cE Crystal structure of Gox0525 Q5FTJ3 Q5FTJ3 2.2 X-RAY DIFFRACTION 11 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 243 243 3wtb-a1-m1-cC_3wtb-a1-m1-cH 3wtb-a1-m1-cG_3wtb-a1-m1-cA MTHRVALITGGSRGIGAAIALKLAQDGFDIAITYARNEKAAQKVVSEVEALGRKAVAVQADGGSTDGNIAAITKTHEAFGRLDALVCNAGIYPYGPIAQMTVTQIEEVLNLNLRAAMVETVEALKYMKTGGRLIYIGSAFGERAPFPGISLYAATKAGLIGFTKGVARDLGPQGITANVVEPGPIATDLNPEDGAAAAVIRKFTATESYGKVNDIARTVSFLASPDASYITGASILVDGGLVA MTHRVALITGGSRGIGAAIALKLAQDGFDIAITYARNEKAAQKVVSEVEALGRKAVAVQADGGSTDGNIAAITKTHEAFGRLDALVCNAGIYPYGPIAQMTVTQIEEVLNLNLRAAMVETVEALKYMKTGGRLIYIGSAFGERAPFPGISLYAATKAGLIGFTKGVARDLGPQGITANVVEPGPIATDLNPEDGAAAAVIRKFTATESYGKVNDIARTVSFLASPDASYITGASILVDGGLVA 3wtb-a2-m1-cD_3wtb-a2-m1-cF Crystal structure of Gox0525 Q5FTJ3 Q5FTJ3 2.2 X-RAY DIFFRACTION 146 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 243 243 3wtb-a1-m1-cC_3wtb-a1-m1-cG 3wtb-a1-m1-cH_3wtb-a1-m1-cA 3wtb-a2-m1-cE_3wtb-a2-m1-cB MTHRVALITGGSRGIGAAIALKLAQDGFDIAITYARNEKAAQKVVSEVEALGRKAVAVQADGGSTDGNIAAITKTHEAFGRLDALVCNAGIYPYGPIAQMTVTQIEEVLNLNLRAAMVETVEALKYMKTGGRLIYIGSAFGERAPFPGISLYAATKAGLIGFTKGVARDLGPQGITANVVEPGPIATDLNPEDGAAAAVIRKFTATESYGKVNDIARTVSFLASPDASYITGASILVDGGLVA MTHRVALITGGSRGIGAAIALKLAQDGFDIAITYARNEKAAQKVVSEVEALGRKAVAVQADGGSTDGNIAAITKTHEAFGRLDALVCNAGIYPYGPIAQMTVTQIEEVLNLNLRAAMVETVEALKYMKTGGRLIYIGSAFGERAPFPGISLYAATKAGLIGFTKGVARDLGPQGITANVVEPGPIATDLNPEDGAAAAVIRKFTATESYGKVNDIARTVSFLASPDASYITGASILVDGGLVA 3wtb-a2-m1-cE_3wtb-a2-m1-cF Crystal structure of Gox0525 Q5FTJ3 Q5FTJ3 2.2 X-RAY DIFFRACTION 115 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 243 243 3wtb-a1-m1-cC_3wtb-a1-m1-cA 3wtb-a1-m1-cG_3wtb-a1-m1-cH 3wtb-a2-m1-cD_3wtb-a2-m1-cB MTHRVALITGGSRGIGAAIALKLAQDGFDIAITYARNEKAAQKVVSEVEALGRKAVAVQADGGSTDGNIAAITKTHEAFGRLDALVCNAGIYPYGPIAQMTVTQIEEVLNLNLRAAMVETVEALKYMKTGGRLIYIGSAFGERAPFPGISLYAATKAGLIGFTKGVARDLGPQGITANVVEPGPIATDLNPEDGAAAAVIRKFTATESYGKVNDIARTVSFLASPDASYITGASILVDGGLVA MTHRVALITGGSRGIGAAIALKLAQDGFDIAITYARNEKAAQKVVSEVEALGRKAVAVQADGGSTDGNIAAITKTHEAFGRLDALVCNAGIYPYGPIAQMTVTQIEEVLNLNLRAAMVETVEALKYMKTGGRLIYIGSAFGERAPFPGISLYAATKAGLIGFTKGVARDLGPQGITANVVEPGPIATDLNPEDGAAAAVIRKFTATESYGKVNDIARTVSFLASPDASYITGASILVDGGLVA 3wtc-a1-m1-cB_3wtc-a1-m2-cB Crystal structure of Gox2036 Q5FPC4 Q5FPC4 1.65 X-RAY DIFFRACTION 122 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 259 259 3wtc-a1-m1-cA_3wtc-a1-m2-cA MSLSGKIAAVTGAAQGIGKAIALRLAKDGADVILLDVKQDTLAETAKEVEALGRRAVALTADISNRDQFRSTLADAAKTLGGLDIMVNNAGICQVKPILDIEPAEIEKIFSINVQGVLWGMQAAATLFKEKGTKGKIINACSIAGHEGYPLLGAYSATKFAVRALTQSAAKELASSGITVNSYCPGIVGTDMWVTIDKRMAEITGTEIGATYKKYVEGIALGRVETADDVAGFVAYLSSSDADYMTGQSVLIDGGLVFR MSLSGKIAAVTGAAQGIGKAIALRLAKDGADVILLDVKQDTLAETAKEVEALGRRAVALTADISNRDQFRSTLADAAKTLGGLDIMVNNAGICQVKPILDIEPAEIEKIFSINVQGVLWGMQAAATLFKEKGTKGKIINACSIAGHEGYPLLGAYSATKFAVRALTQSAAKELASSGITVNSYCPGIVGTDMWVTIDKRMAEITGTEIGATYKKYVEGIALGRVETADDVAGFVAYLSSSDADYMTGQSVLIDGGLVFR 3wtc-a1-m2-cA_3wtc-a1-m2-cB Crystal structure of Gox2036 Q5FPC4 Q5FPC4 1.65 X-RAY DIFFRACTION 95 1.0 290633 (Gluconobacter oxydans 621H) 290633 (Gluconobacter oxydans 621H) 259 259 3wtc-a1-m1-cA_3wtc-a1-m1-cB MSLSGKIAAVTGAAQGIGKAIALRLAKDGADVILLDVKQDTLAETAKEVEALGRRAVALTADISNRDQFRSTLADAAKTLGGLDIMVNNAGICQVKPILDIEPAEIEKIFSINVQGVLWGMQAAATLFKEKGTKGKIINACSIAGHEGYPLLGAYSATKFAVRALTQSAAKELASSGITVNSYCPGIVGTDMWVTIDKRMAEITGTEIGATYKKYVEGIALGRVETADDVAGFVAYLSSSDADYMTGQSVLIDGGLVFR MSLSGKIAAVTGAAQGIGKAIALRLAKDGADVILLDVKQDTLAETAKEVEALGRRAVALTADISNRDQFRSTLADAAKTLGGLDIMVNNAGICQVKPILDIEPAEIEKIFSINVQGVLWGMQAAATLFKEKGTKGKIINACSIAGHEGYPLLGAYSATKFAVRALTQSAAKELASSGITVNSYCPGIVGTDMWVTIDKRMAEITGTEIGATYKKYVEGIALGRVETADDVAGFVAYLSSSDADYMTGQSVLIDGGLVFR 3wtd-a1-m1-cA_3wtd-a1-m1-cB Structure of PAXX Q9BUH6 Q9BUH6 2.35 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 141 3wtf-a1-m1-cA_3wtf-a1-m1-cB SPPLCTLPPGPEPPRFVCYCEGEGFNLYVTDAAELWSTCFTPDSLAALKARFGLEDITPRFRAACEQQAVALTLQEDRASLTLSGGPSALAFDLSKVPGPEAAPRLRALTLGLAKRVWSLERRLAAA SPPLCTLPPGPEPPRFVCYCEGEESGEGDRGGFNLYVTDAAELWSTCFTPDSLAALKARFGLSAAEDITPRFRAACEQQAVALTLQEDRASLTLSGGPSALAFDLSKVPGPEAAPRLRALTLGLAKRVWSLERRLAAAEET 3wu0-a1-m1-cB_3wu0-a1-m1-cA Crystal structure of phosphorylated ETS-1 DNA binding and autoinhibitory domains (276-441) P14921 P14921 2.6 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 140 KGTFKDYVRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHAMLDVK KGTFKDYVRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHAMLDVKPDAD 3wua-a2-m1-cA_3wua-a2-m2-cA Spatiotemporal development of soaked protein crystal; derivative 3610 sec P00698 P00698 2 X-RAY DIFFRACTION 13 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 3wu7-a2-m1-cA_3wu7-a2-m2-cA 3wu8-a2-m1-cA_3wu8-a2-m2-cA 3wu9-a2-m1-cA_3wu9-a2-m2-cA KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 3wuc-a1-m1-cA_3wuc-a1-m2-cB X-ray crystal structure of Xenopus laevis galectin-Va Q91786 Q91786 1.6 X-RAY DIFFRACTION 40 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 135 137 3wuc-a1-m2-cA_3wuc-a1-m1-cB MDMEPDVRITNLNLHKGHRVEVRGRIAKGTNRFAVDLGTDSRNLICHCNPRFEYSVDKNTIVLNSKQNDVWDIEKKETAFPFKSGSETMLIFDFEDCITVHLPDGKEIPFTCRFPIEVINYLALNNIELISISVH GSMDMEPDVRITNLNLHKGHRVEVRGRIAKGTNRFAVDLGTDSRNLICHCNPRFEYSVDKNTIVLNSKQNDVWDIEKKETAFPFKSGSETMLIFDFEDCITVHLPDGKEIPFTCRFPIEVINYLALNNIELISISVH 3wuc-a1-m2-cA_3wuc-a1-m2-cB X-ray crystal structure of Xenopus laevis galectin-Va Q91786 Q91786 1.6 X-RAY DIFFRACTION 46 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 135 137 3wuc-a1-m1-cA_3wuc-a1-m1-cB MDMEPDVRITNLNLHKGHRVEVRGRIAKGTNRFAVDLGTDSRNLICHCNPRFEYSVDKNTIVLNSKQNDVWDIEKKETAFPFKSGSETMLIFDFEDCITVHLPDGKEIPFTCRFPIEVINYLALNNIELISISVH GSMDMEPDVRITNLNLHKGHRVEVRGRIAKGTNRFAVDLGTDSRNLICHCNPRFEYSVDKNTIVLNSKQNDVWDIEKKETAFPFKSGSETMLIFDFEDCITVHLPDGKEIPFTCRFPIEVINYLALNNIELISISVH 3wud-a1-m1-cA_3wud-a1-m2-cA X-ray crystal structure of Xenopus laevis galectin-Ib Q98UD4 Q98UD4 1.68 X-RAY DIFFRACTION 44 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 132 132 AGMVMNNFSLKQGHCLELKGFIPKDAKSFAINLGKDSSNYVIHFNPRFDHEGDTNKIICNSKEENSWGTEQRENVFPFQQGAETSICFEYQADHLKVKLSDGQEFNFPIRMPLDTITFLSMDGIELKAISLH AGMVMNNFSLKQGHCLELKGFIPKDAKSFAINLGKDSSNYVIHFNPRFDHEGDTNKIICNSKEENSWGTEQRENVFPFQQGAETSICFEYQADHLKVKLSDGQEFNFPIRMPLDTITFLSMDGIELKAISLH 3wup-a2-m2-cA_3wup-a2-m3-cA Crystal Structure of the Ubiquitin-Binding Zinc Finger (UBZ) Domain of the Human DNA Polymerase Eta Q9Y253 Q9Y253 1.6 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 3wup-a2-m1-cA_3wup-a2-m2-cA 3wup-a2-m1-cA_3wup-a2-m3-cA EDQVPCEKCGSLVPVWDMPEHMDYHFALELQ EDQVPCEKCGSLVPVWDMPEHMDYHFALELQ 3wur-a1-m1-cA_3wur-a1-m1-cB Structure of DMP19 Complex with 18-crown-6 Q9K0P4 Q9K0P4 1.45 X-RAY DIFFRACTION 67 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 162 165 ALTLPEDIRQQEPSALLYTLVSAYLEHTAQTGDESLSCLSDDQHTLTAFCYLDSQVEEGGFVQLIASGYGEYIFRNPLADSLRRWKIKAVPKVLDKAKALYEQHGKTIETLADGGADIPSLRKQFPEFEEWDGAYYEAAEQDLPLLAEHIQSNWETFAHIGQ MTALTLPEDIRQQEPSALLYTLVSAYLEHTAQTGDESLSCLSDDQHTLTAFCYLDSQVEEGGFVQLIASGYGEYIFRNPLADSLRRWKIKAVPKVLDKAKALYEQHGKTIETLADGGADIPSLRKQFPEFEEWDGAYYEAAEQDLPLLAEHIQSNWETFAHIGQA 3wuv-a6-m1-cP_3wuv-a6-m1-cQ Structure basis of inactivating cell abscission with chimera peptide 2 Q53EZ4 Q53EZ4 2.79 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 62 3e1r-a1-m1-cB_3e1r-a1-m1-cA 3wut-a1-m1-cB_3wut-a1-m1-cA 3wut-a2-m1-cE_3wut-a2-m1-cD 3wut-a3-m1-cH_3wut-a3-m1-cG 3wuu-a1-m1-cB_3wuu-a1-m1-cA 3wuu-a2-m1-cD_3wuu-a2-m1-cE 3wuu-a4-m1-cK_3wuu-a4-m1-cJ 3wuv-a1-m1-cA_3wuv-a1-m1-cB 3wuv-a2-m1-cD_3wuv-a2-m1-cE 3wuv-a3-m1-cG_3wuv-a3-m1-cH 3wuv-a4-m1-cJ_3wuv-a4-m1-cK 3wuv-a5-m1-cM_3wuv-a5-m1-cN GAMGSFNSSINNIHEMEIQLKDALEKNQQWLVYDQQREVYVKGLLAKIFELEKKTETA GAMGSFNSSINNIHEMEIQLKDALEKNQQWLVYDQQREVYVKGLLAKIFELEKKTETAAHSL 3wuy-a3-m1-cA_3wuy-a3-m1-cB Crystal structure of Nit6803 Q55949 Q55949 3.1 X-RAY DIFFRACTION 40 0.997 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 287 287 IMLNYTKNIRAAAAQISPVLFSQQGTMEKVLDAIANAAKKGVELIVFPETFVPYYPYFSFVEPPVLMGKSHLKLYQEAVTVPGKVTQAIAQAAKTHGMVVVLGVNEREEGSLYNTQLIFDADGALVLKRRKITPTYHERMVWGQGDGAGLRTVDTTVGRLGALACWEHYNPLARYALMAQHEQIHCGQFPGSMVGQIFADQMEVTMRHHALESGCFVINATGWLTAEQKLQITTDEKMHQALSGGCYTAIISPEGKHLCEPIAEGEGLAIADLDFSLIAKRKRMMDS MLNYTKNIRAAAAQISPVLFSQQGTMEKVLDAIANAAKKGVELIVFPETFVPYYPYFSFVEPPVLMGKSHLKLYQEAVTVPGKVTQAIAQAAKTHGMVVVLGVNEREEGSLYNTQLIFDADGALVLKRRKITPTYHERMVWGQGDGAGLRTVDTTVGRLGALACWEHYNPLARYALMAQHEQIHCGQFPGSMVGQIFADQMEVTMRHHALESGCFVINATGWLTAEQKLQITTDEKMHQALSGGCYTAIISPEGKHLCEPIAEGEGLAIADLDFSLIAKRKRMMDSV 3wv8-a1-m1-cA_3wv8-a1-m1-cB ATP-bound HcgE from Methanothermobacter marburgensis D9PY12 D9PY12 1.8 X-RAY DIFFRACTION 24 1.0 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 201 201 KVPHGEVTLVGAGRLGFRTALNLMQIHRGGPERIKVIDGQKVSADDLIFRLMGAKIGEYKVKFIESLACDGFSRTVQGIPEYITGDNLRLIGGDVVCVEIAGGDTLPITTEIIRYAQERGAATISTMGVFGIGEEDVSVVDIDEADPENPIAAYLQAEGIHEHVLVGTGKLIRDWEPVTPHVLDRVSEVMTAEILKLLRGA KVPHGEVTLVGAGRLGFRTALNLMQIHRGGPERIKVIDGQKVSADDLIFRLMGAKIGEYKVKFIESLACDGFSRTVQGIPEYITGDNLRLIGGDVVCVEIAGGDTLPITTEIIRYAQERGAATISTMGVFGIGEEDVSVVDIDEADPENPIAAYLQAEGIHEHVLVGTGKLIRDWEPVTPHVLDRVSEVMTAEILKLLRGA 3wv9-a6-m2-cB_3wv9-a6-m3-cB Guanylylpyridinol (GP)- and ATP-bound HcgE from Methanothermobacter marburgensis D9PY12 D9PY12 2.75 X-RAY DIFFRACTION 66 1.0 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 205 205 3wv7-a1-m1-cA_3wv7-a1-m1-cB 3wv7-a1-m1-cA_3wv7-a1-m1-cC 3wv7-a1-m1-cB_3wv7-a1-m1-cC 3wv9-a5-m1-cA_3wv9-a5-m2-cA 3wv9-a5-m1-cA_3wv9-a5-m3-cA 3wv9-a5-m2-cA_3wv9-a5-m3-cA 3wv9-a6-m1-cB_3wv9-a6-m2-cB 3wv9-a6-m1-cB_3wv9-a6-m3-cB 3wv9-a7-m1-cC_3wv9-a7-m4-cC 3wv9-a7-m1-cC_3wv9-a7-m5-cC 3wv9-a7-m4-cC_3wv9-a7-m5-cC 3wv9-a8-m1-cD_3wv9-a8-m6-cD 3wv9-a8-m1-cD_3wv9-a8-m7-cD 3wv9-a8-m6-cD_3wv9-a8-m7-cD EGKKVPHGEVTLVGAGRLGFRTALNLMQIHRGGPERIKVIDGQKVSADDLIFRLMGAKIGEYKVKFIESLACDGFSRTVQGIPEYITGDNLRLIGGDVVCVEIAGGDTLPITTEIIRYAQERGAATISTMGVFGIGEEDVSVVDIDEADPENPIAAYLQAEGIHEHVLVGTGKLIRDWEPVTPHVLDRVSEVMTAEILKLLRGAQ EGKKVPHGEVTLVGAGRLGFRTALNLMQIHRGGPERIKVIDGQKVSADDLIFRLMGAKIGEYKVKFIESLACDGFSRTVQGIPEYITGDNLRLIGGDVVCVEIAGGDTLPITTEIIRYAQERGAATISTMGVFGIGEEDVSVVDIDEADPENPIAAYLQAEGIHEHVLVGTGKLIRDWEPVTPHVLDRVSEVMTAEILKLLRGAQ 3wvb-a1-m1-cA_3wvb-a1-m1-cB HcgF from Methanocaldococcus jannaschii Q58649 Q58649 1.7 X-RAY DIFFRACTION 94 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 167 167 3wva-a1-m1-cA_3wva-a1-m1-cB 3wvc-a1-m1-cA_3wvc-a1-m1-cB MITVATAECFTHANIGLTIHKAAAGYEDFEFKYLFSEEDLKLMKNVRVISAMFVPSIIGVEKLLDIKLPEPDFNYKYAKAYSEEKDLEVAKLMAEGLKKKLNVNISIGSTAGVGRGAICILTDNNRYLFTSDVYANLITFENIKERQKNGIEKGIKRFLEILKKEYF MITVATAECFTHANIGLTIHKAAAGYEDFEFKYLFSEEDLKLMKNVRVISAMFVPSIIGVEKLLDIKLPEPDFNYKYAKAYSEEKDLEVAKLMAEGLKKKLNVNISIGSTAGVGRGAICILTDNNRYLFTSDVYANLITFENIKERQKNGIEKGIKRFLEILKKEYF 3wvo-a2-m1-cC_3wvo-a2-m2-cC Crystal structure of Thermobifida fusca Cse1 Q47PI4 Q47PI4 3.31 X-RAY DIFFRACTION 105 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 540 540 3wvo-a1-m1-cB_3wvo-a1-m1-cA MTTDAPSFNLITQPWLPVQYRDGTEKELSLLEVFKQAPLLRRLVGDVPTQEFALLRLLLAILHDAIGGPEDSDEWAELWTQDEAEQQLPFDCIASYLEQYYHRFDLLHPTTPFFQVADLHTQKNDVFSLDRIVADVPNGELFFTMRARGVDRLSFAEAARWLVHAHAYDTSGIKSGAVGDPRAKGGKGYPQGVSWAGNLGGILVEGANLYETLLLNLVAFDTDNLIVTPEDRPAWRQPPTTAAPADDEELAQRPYGLCDLYTWQSRRIRLHYDADGVYGVLLAYGDPLAPHNKHNHEPMTAWRRSPAQEKKLKKPQVYLPREHDPTRSAWRGLGALVAGEASGAEQRGEAAAIVRPRILDWVARLVNEGFLPEDYFIRTRLIGVSYGTQQAVIDEIVDDHVAMAVVLLHERDSGLGRTAIKAVEDAEKAVTVLGGLAADLAKAAGADPETPRAAARDRGFGMLDGPFRTWLATLAPGTDATERRRAWQQKAHRIISDLGRQLVAEAGEAAWNGRTDVWLNASRADLKFRAELKKELPMAT MTTDAPSFNLITQPWLPVQYRDGTEKELSLLEVFKQAPLLRRLVGDVPTQEFALLRLLLAILHDAIGGPEDSDEWAELWTQDEAEQQLPFDCIASYLEQYYHRFDLLHPTTPFFQVADLHTQKNDVFSLDRIVADVPNGELFFTMRARGVDRLSFAEAARWLVHAHAYDTSGIKSGAVGDPRAKGGKGYPQGVSWAGNLGGILVEGANLYETLLLNLVAFDTDNLIVTPEDRPAWRQPPTTAAPADDEELAQRPYGLCDLYTWQSRRIRLHYDADGVYGVLLAYGDPLAPHNKHNHEPMTAWRRSPAQEKKLKKPQVYLPREHDPTRSAWRGLGALVAGEASGAEQRGEAAAIVRPRILDWVARLVNEGFLPEDYFIRTRLIGVSYGTQQAVIDEIVDDHVAMAVVLLHERDSGLGRTAIKAVEDAEKAVTVLGGLAADLAKAAGADPETPRAAARDRGFGMLDGPFRTWLATLAPGTDATERRRAWQQKAHRIISDLGRQLVAEAGEAAWNGRTDVWLNASRADLKFRAELKKELPMAT 3wvr-a2-m1-cB_3wvr-a2-m1-cC Structure of ATP grasp protein with AMP A0A0A6YVN3 A0A0A6YVN3 2.175 X-RAY DIFFRACTION 96 1.0 68187 (Streptomyces cirratus) 68187 (Streptomyces cirratus) 426 429 3wvq-a1-m1-cB_3wvq-a1-m1-cA 3wvq-a2-m1-cC_3wvq-a2-m1-cD 3wvr-a1-m1-cD_3wvr-a1-m1-cA RLLVGNDWSEELAEPTGSTGWAVQRLVWFARDGDVLVLPVAPQEEFLAYVTSLTGTRRSSLTVVVPPPGRLGAGALTADRLADPRFLAALREAFAGRPVHEVFALWPDAVVADLADALGCPEALEGHDFLTQSGGLIGSSKAAFRALAAGAGVALPAGAVCADRRRAHRHVTRLLDEGSPVILKQDYGSGSDGNEILSRTPGLALRGARALRVLADSAALDAYLDERWDWLTEGGRHRVVVERYHPGSRAYFAEFWISDGGVRLGGHGERYRPLPDSQVPAPDLDQAQLDDLVEGGRRLCVALHALGYRGVLSADAVVTPAGEVLFTEHNGRATGSTHIYEIVGKRVVGPGFGTDRILLERVWPEGWEAPSFAGALTRLRDSGHLYDPETRRGAVILAAYNTHRKGVLCYVAEDLEAALHREESVS RLLVGNDWSEELAEPTGSTGWAVQRLVWFARDGDVLVLPVAPQEEFLAYVTSLTGTRRSSLTVVVPPPGRLGAGALTADRLADPRFLAALREAFAGRPVHEVFALWPDAVVADLADALGCPEALEGHDFLTQSGGLIGSSKAAFRALAAGAGVALPAGAVCADRRRAHRHVTRLLDEGSPVILKQDYGSGSDGNEILSRTPGLALRGARALRVLADSAALDAYLDERWDWLTEGGRHRVVVERYHPGSRAYFAEFWISDGGVRLGGHGERYRPLPDSQVPAPDLDQAQLDDLVEGGRRLCVALHALGYRGVLSADAVVTPAGEVLFTEHNGRATGSTHIYEIVGKRVVGPGFGTDRILLERVWPEGWEAPSFAGALTRLRDSGHLYDPETRRGAVILAAYNTHRKGVLCYVAEDLEAALHREESVSRLF 3ww0-a1-m1-cB_3ww0-a1-m1-cA Crystal structure of F97A mutant, a new nuclear transport receptor of Hsp70 Q53FT3 Q53FT3 2.5 X-RAY DIFFRACTION 196 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 175 177 SMFGCLVAGRLVQTAAQQVAEDKFVFDLPDYESINHVVVFMLGTIPFPEGMGGSVYFSYPGMPVWQLLGFVTNGKPSAIFKISGLSVAQIGISVELLDSMAQQTPVGNAAVSSVDSFTQFTQKMLDNFYNFASSFAVSQAQMTPSPSEMFIPANVVLKWYENFQRRLAQNPLFWK GSMFGCLVAGRLVQTAAQQVAEDKFVFDLPDYESINHVVVFMLGTIPFPEGMGGSVYFSYPDMPVWQLLGFVTNGKPSAIFKISGLSVAQIGISVELLDSMAQQTPVGNAAVSSVDSFTQFTQKMLDNFYNFASSFAVSQAQMTPSPSEMFIPANVVLKWYENFQRRLAQNPLFWKT 3ww1-a1-m1-cA_3ww1-a1-m2-cB X-ray structure of Cellulomonas parahominis L-ribose isomerase with L-ribose L0N3Y0 L0N3Y0 1.95 X-RAY DIFFRACTION 55 1.0 285079 (Cellulomonas parahominis) 285079 (Cellulomonas parahominis) 242 242 3ww1-a1-m1-cB_3ww1-a1-m2-cA 3ww2-a1-m1-cB_3ww2-a1-m2-cA 3ww2-a1-m2-cB_3ww2-a1-m1-cA 3ww3-a1-m1-cA_3ww3-a1-m2-cB 3ww3-a1-m2-cA_3ww3-a1-m1-cB 3ww4-a1-m1-cB_3ww4-a1-m2-cA 3ww4-a1-m2-cB_3ww4-a1-m1-cA TRTAISRREYDEWLSEAASLARALRYPVTPEMVNDSAGIVFGDDQYEAFAHGLWSREPYEVMVILESLNEPAVDGLPAAGAAHAEYSGLCDKLMIVHPGKFCPPHFHQRKTESYEVVLGEMEVFYAPEPVTVGDDDVLSFSPMPEGSPWPEGVALPAGREDSYAGLTSYVRLRAGDPKFVMHRKHLHAFRCPADSPVPLVVREVSTYSHEPTEAPLPQWRGLHDNTFVAEAANSGRLATAIA TRTAISRREYDEWLSEAASLARALRYPVTPEMVNDSAGIVFGDDQYEAFAHGLWSREPYEVMVILESLNEPAVDGLPAAGAAHAEYSGLCDKLMIVHPGKFCPPHFHQRKTESYEVVLGEMEVFYAPEPVTVGDDDVLSFSPMPEGSPWPEGVALPAGREDSYAGLTSYVRLRAGDPKFVMHRKHLHAFRCPADSPVPLVVREVSTYSHEPTEAPLPQWRGLHDNTFVAEAANSGRLATAIA 3ww3-a1-m2-cA_3ww3-a1-m2-cB X-ray structures of Cellulomonas parahominis L-ribose isomerase with no ligand L0N3Y0 L0N3Y0 1.9 X-RAY DIFFRACTION 196 1.0 285079 (Cellulomonas parahominis) 285079 (Cellulomonas parahominis) 240 242 3ww1-a1-m1-cA_3ww1-a1-m1-cB 3ww1-a1-m2-cA_3ww1-a1-m2-cB 3ww2-a1-m1-cB_3ww2-a1-m1-cA 3ww2-a1-m2-cB_3ww2-a1-m2-cA 3ww3-a1-m1-cA_3ww3-a1-m1-cB 3ww4-a1-m1-cB_3ww4-a1-m1-cA 3ww4-a1-m2-cB_3ww4-a1-m2-cA TRTAISRREYDEWLSEAASLARALRYPVTPEMVNDSAGIVFGDDQYEAFAHGLWSREPYEVMVILESLNEPAVDGLPAAGAAHAEYSGLCDKLMIVHPGKFCPPHFHQRKTESYEVVLGEMEVFYAPEPVTVGDDDVLSFSPMPEGSPWPEGVALPAGREDSYAGLTSYVRLRAGDPKFVMHRKHLHAFRCPADSPVPLVVREVSTYSHEPAPLPQWRGLHDNTFVAEAANSGRLATAIA TRTAISRREYDEWLSEAASLARALRYPVTPEMVNDSAGIVFGDDQYEAFAHGLWSREPYEVMVILESLNEPAVDGLPAAGAAHAEYSGLCDKLMIVHPGKFCPPHFHQRKTESYEVVLGEMEVFYAPEPVTVGDDDVLSFSPMPEGSPWPEGVALPAGREDSYAGLTSYVRLRAGDPKFVMHRKHLHAFRCPADSPVPLVVREVSTYSHEPTAAPLPQWRGLHDNTFVAEAANSGRLATAIA 3wwj-a6-m1-cL_3wwj-a6-m1-cJ Crystal structure of an engineered sitagliptin-producing transaminase, ATA-117-Rd11 F7J696 F7J696 2.2 X-RAY DIFFRACTION 141 1.0 1042534 (Arthrobacter sp. KNK168) 1042534 (Arthrobacter sp. KNK168) 317 318 3wwh-a1-m1-cA_3wwh-a1-m2-cA 3wwi-a1-m1-cA_3wwi-a1-m1-cB 3wwi-a2-m1-cC_3wwi-a2-m1-cD 3wwi-a3-m1-cE_3wwi-a3-m1-cL 3wwi-a4-m1-cF_3wwi-a4-m1-cK 3wwi-a5-m1-cG_3wwi-a5-m1-cJ 3wwi-a6-m1-cH_3wwi-a6-m1-cI 3wwj-a1-m1-cA_3wwj-a1-m1-cB 3wwj-a2-m1-cC_3wwj-a2-m1-cE 3wwj-a3-m1-cD_3wwj-a3-m1-cF 3wwj-a4-m1-cG_3wwj-a4-m1-cH 3wwj-a5-m1-cI_3wwj-a5-m1-cK 5fr9-a1-m1-cD_5fr9-a1-m1-cF 5fr9-a1-m1-cL_5fr9-a1-m1-cJ 5fr9-a2-m1-cC_5fr9-a2-m1-cE 5fr9-a2-m1-cK_5fr9-a2-m1-cI 5fr9-a3-m1-cA_5fr9-a3-m1-cB 5fr9-a3-m1-cG_5fr9-a3-m1-cH THDTGLDYITYSDYELDPANPLAGGAAWIEGAFVPPSEARISIFDQGFYTSDATYTTFHVWNGNAFRLGDHIERLFSNAESIRLIPPLTQDEVKEIALELVAKTELREAMVTVTITRGYSSTPFERDITKHRPQVYMSAPYQWIVPFDRIRDGVHLMVAQSVRRTPRSSIDPQVKNFQWGDLIRAIQETHDRGFELPLLLDCDNLLAEGPGFNVVVIKDGVVRSPGRAALPGITRKTVLEIAESLGHEAILADITPAELYDADEVLGCSTGGGVWPFVSVDGNSISDGVPGPVTQSIIRRYWELNVEPSSLLTPVQY YTHDTGLDYITYSDYELDPANPLAGGAAWIEGAFVPPSEARISIFDQGFYTSDATYTTFHVWNGNAFRLGDHIERLFSNAESIRLIPPLTQDEVKEIALELVAKTELREAMVTVTITRGYSSTPFERDITKHRPQVYMSAPYQWIVPFDRIRDGVHLMVAQSVRRTPRSSIDPQVKNFQWGDLIRAIQETHDRGFELPLLLDCDNLLAEGPGFNVVVIKDGVVRSPGRAALPGITRKTVLEIAESLGHEAILADITPAELYDADEVLGCSTGGGVWPFVSVDGNSISDGVPGPVTQSIIRRYWELNVEPSSLLTPVQY 3wwm-a1-m1-cA_3wwm-a1-m2-cA Crystal structure of LysZ from Thermus thermophilus with ADP O50147 O50147 2.8 X-RAY DIFFRACTION 110 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 269 269 3u6u-a1-m1-cA_3u6u-a1-m1-cC 3wwn-a1-m1-cA_3wwn-a1-m2-cA MIVVKVGGAEGINYEAVAKDAASLWKEGVKLLLVHGGSAETNKVAEALGHPPRFLTHPGGQVSRLTDRKTLEIFEMVYCGLVNKRLVELLQKEGANAIGLSGLDGRLFVGRRKTAVKYVENGKVKVHRGDYTGTVEEVNKALLDLLLQAGYLPVLTPPALSYENEAINTDGDQIAALLATLYGAEALVYLSNVPGLLARYPDEASLVREIPVERIEDPEYLALAQGRMKRKVMGAVEAVRGGVKRVVFADARVENPIRRALSGEGTVVR MIVVKVGGAEGINYEAVAKDAASLWKEGVKLLLVHGGSAETNKVAEALGHPPRFLTHPGGQVSRLTDRKTLEIFEMVYCGLVNKRLVELLQKEGANAIGLSGLDGRLFVGRRKTAVKYVENGKVKVHRGDYTGTVEEVNKALLDLLLQAGYLPVLTPPALSYENEAINTDGDQIAALLATLYGAEALVYLSNVPGLLARYPDEASLVREIPVERIEDPEYLALAQGRMKRKVMGAVEAVRGGVKRVVFADARVENPIRRALSGEGTVVR 3wwp-a1-m1-cB_3wwp-a1-m1-cA S-selective hydroxynitrile lyase from Baliospermum montanum (apo2) D1MX73 D1MX73 1.9 X-RAY DIFFRACTION 58 1.0 316758 (Baliospermum montanum) 316758 (Baliospermum montanum) 261 265 3wwo-a1-m1-cA_3wwo-a1-m1-cB 3wwp-a2-m1-cL_3wwp-a2-m1-cG 3wwp-a3-m1-cM_3wwp-a3-m1-cR GFMVSAHFILIHTICHGAWLWYKLIPLLQSAGHNATAIDLVASGIDPRQLEQIGTWEQYSEPLFTLIESIPEGKKVILVGESGGGINIALAAEKYPEKVSALVFHNALMPDIDHSPAFVYKKFSEVFTDWKDSIFSNYTYGNDTVTAVELGDRTLAENIFSNSPIEDVELAKHLVRKGSFFEQDLDTLPNFTSEGYGSIRRVYVYGEEDQIFSRDFQLWQINNYKPDKVYCVPSADHKIQISKVNELAQILQEVANSASDL EGFMVSAHFILIHTICHGAWLWYKLIPLLQSAGHNATAIDLVASGIDPRQLEQIGTWEQYSEPLFTLIESIPEGKKVILVGESGGGINIALAAEKYPEKVSALVFHNALMPDIDHSPAFVYKKFSEVFTDWKDSIFSNYTYGNDTVTAVELGDRTLAENIFSNSPIEDVELAKHLVRKGSFFEQDLDTLPNFTSEGYGSIRRVYVYGEEDQIFSRDFQLWQINNYKPDKVYCVPSADHKIQISKVNELAQILQEVANSASDLLAV 3wwv-a1-m1-cA_3wwv-a1-m2-cA C-terminal domain of stomatin operon partner protein 1510-C from Pyrococcus horikoshii O59179 O59179 2.4 X-RAY DIFFRACTION 31 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 64 64 RTGKEEMIGLIGTVVEELNPEGMIKVRGELWKARSKFNGKIEKGEKVRVVDMDGLTLIVVRERK RTGKEEMIGLIGTVVEELNPEGMIKVRGELWKARSKFNGKIEKGEKVRVVDMDGLTLIVVRERK 3wx0-a1-m1-cB_3wx0-a1-m1-cA The crystal structure of D-lactate dehydrogenase from Escherichia coli 3.3 X-RAY DIFFRACTION 199 0.985 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 274 303 4cuj-a1-m1-cC_4cuj-a1-m1-cB 4cuj-a1-m1-cD_4cuj-a1-m1-cA 4cuk-a1-m1-cA_4cuk-a1-m1-cB 4cuk-a1-m1-cD_4cuk-a1-m1-cC 5z1z-a1-m1-cB_5z1z-a1-m1-cA 5z1z-a1-m1-cD_5z1z-a1-m1-cC AVYSTKQYDKKYLQQVNESFGFELEFFDFLLTANGCEAVCIFVNDDGSRPVHGVKYIALRCAGFNNVDLELGLKVVRVPAYDPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDVEYVDLPTLFSESDVISLHCPLTPENYHLLNEAAFDQMKNGVMIVNTSRGALIDSQAAIEALKNQKIGSLGMDVYDVFRRLSACHNVLFTGHQAFLTAEALTSISQTTLQNLSNGETCP KLAVYSTKQYDKKYLQQVNESFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLKVVRVPAYDPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDPYPSAAALELGVEYVDLPTLFSESDVISLHCPLTPENYHLLNEAAFDQMKNGVMIVNTSRGALIDSQAAIEALKNQKIGSLGMDVYEDVFRRLSACHNVLFTGHQAFLTAEALTSISQTTLQNLSNLEKG 3wx4-a1-m1-cA_3wx4-a1-m2-cA CRYSTAL STRUCTURE of T4 PHAGE ARN PROTEIN P39510 P39510 1.9 X-RAY DIFFRACTION 82 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 98 98 MIIDSQSVVQYTFKIDILEKLYKFLPNLYHSIVNELVEELHLENNDFLIGTYKDLSKAGYFYVIPAPGKNIDDVLKTIMIYVHDYEIEDYFELEHHHH MIIDSQSVVQYTFKIDILEKLYKFLPNLYHSIVNELVEELHLENNDFLIGTYKDLSKAGYFYVIPAPGKNIDDVLKTIMIYVHDYEIEDYFELEHHHH 3wx6-a1-m2-cA_3wx6-a1-m6-cA Crystal structure of Type Six Secretion System protein Q63K67 Q63K67 2.7 X-RAY DIFFRACTION 49 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 107 107 3wx6-a1-m1-cA_3wx6-a1-m5-cA 3wx6-a1-m1-cA_3wx6-a1-m6-cA 3wx6-a1-m2-cA_3wx6-a1-m4-cA 3wx6-a1-m3-cA_3wx6-a1-m4-cA 3wx6-a1-m3-cA_3wx6-a1-m5-cA LKVKGKTQGEIKILAFKNDYDPARLQEGLTPAAAARGTITLTKEDRSSPQFLQALGKREEEFEITILFTYKFEKVLITHDQYSPIEEIKFTYSGYSLEIAGAANWTN LKVKGKTQGEIKILAFKNDYDPARLQEGLTPAAAARGTITLTKEDRSSPQFLQALGKREEEFEITILFTYKFEKVLITHDQYSPIEEIKFTYSGYSLEIAGAANWTN 3wx6-a1-m2-cB_3wx6-a1-m6-cB Crystal structure of Type Six Secretion System protein Q63K67 Q63K67 2.7 X-RAY DIFFRACTION 53 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 107 107 3wx6-a1-m1-cB_3wx6-a1-m5-cB 3wx6-a1-m1-cB_3wx6-a1-m6-cB 3wx6-a1-m2-cB_3wx6-a1-m4-cB 3wx6-a1-m3-cB_3wx6-a1-m4-cB 3wx6-a1-m3-cB_3wx6-a1-m5-cB AGIYLKVKGKTQGEIKGSFKNDYDPARLQEGLTPAAAARGTITLTKEDRSSPQFLQALGKREEEFEITITYKFEKVLITHDQIKFTYSGYSLEHAESGIAGAANWTN AGIYLKVKGKTQGEIKGSFKNDYDPARLQEGLTPAAAARGTITLTKEDRSSPQFLQALGKREEEFEITITYKFEKVLITHDQIKFTYSGYSLEHAESGIAGAANWTN 3wx7-a3-m1-cA_3wx7-a3-m1-cB Crystal structure of COD A6P4T5 A6P4T5 1.349 X-RAY DIFFRACTION 101 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 402 402 TKGTIYLTFDDGPINASIDVINVLNQEEVKATFYFNAWHLDGIGDENEDRALEALKLALDSGHIVANHSYDHMVHNCVEEFGPNSAAECNATGDHQINSYQDPAYDASMFAENLSVLEKYLPNITSYPNYKANEFARLPYTNGWRVTKDFKADGLCATSDDLKPWEPGYACDTANPSNSVKAAIAVQNILANNGYQTHGWDVDWAPENWGIAMPANSLTEAEPFLGYVDSALNTCAPTTINPINSKAQEFPCGTPLHADKVIVLTHEFLFEDGKRGMGATQNLPKLTKFIQLAKQAGYVFDTMDNYTPNWQVGNNYSAGDYVLHLGTVYQAVTSHTAQQDWAPSPTSSLWTNADPATNWTQNVSYKQGDVVTYQGLRYLVNVPHVSQADWSPSSQNTLFTAL TKGTIYLTFDDGPINASIDVINVLNQEEVKATFYFNAWHLDGIGDENEDRALEALKLALDSGHIVANHSYDHMVHNCVEEFGPNSAAECNATGDHQINSYQDPAYDASMFAENLSVLEKYLPNITSYPNYKANEFARLPYTNGWRVTKDFKADGLCATSDDLKPWEPGYACDTANPSNSVKAAIAVQNILANNGYQTHGWDVDWAPENWGIAMPANSLTEAEPFLGYVDSALNTCAPTTINPINSKAQEFPCGTPLHADKVIVLTHEFLFEDGKRGMGATQNLPKLTKFIQLAKQAGYVFDTMDNYTPNWQVGNNYSAGDYVLHLGTVYQAVTSHTAQQDWAPSPTSSLWTNADPATNWTQNVSYKQGDVVTYQGLRYLVNVPHVSQADWSPSSQNTLFTAL 3wxb-a1-m1-cB_3wxb-a1-m1-cA Crystal structure of NADPH bound carbonyl reductase from chicken fatty liver F1N9C1 F1N9C1 1.98 X-RAY DIFFRACTION 113 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 252 269 LRVRSVLVTGANRGIGLGFVQHLLALSNPPEWVFATCRDPKGQRAQELQKLASKHPNLVIVPLEVTDPASIKAAAASVGERLKGSGLNLLINNAGIARANTIDNETLKDMSEVYTTNTIAPLLLSQAFLPMLKKAAQEGLSCSKAAIINISSTAGSIQDLYLWQYGQALSYRCSKAALNMLTRCQSMGYREHGIFCVALHPGWVKTDMGGTLEDKSRVTVDESVGGMLKVLSNLSEKDSGAFLNWEGKVMAW SSGLVPRGSHMGELRVRSVLVTGANRGIGLGFVQHLLALSNPPEWVFATCRDPKGQRAQELQKLASKHPNLVIVPLEVTDPASIKAAAASVGERLKGSGLNLLINNAGIARANTIDNETLKDMSEVYTTNTIAPLLLSQAFLPMLKKAAQENPGSGLSCSKAAIINISSTAGSIQDLYLWQYGQALSYRCSKAALNMLTRCQSMGYREHGIFCVALHPGWVKTDMGGTLEDKSRVTVDESVGGMLKVLSNLSEKDSGAFLNWEGKVMAW 3wxo-a1-m1-cA_3wxo-a1-m2-cA Crystal structure of isoniazid bound KatG catalase peroxidase from Synechococcus elongatus PCC7942 Q31MN3 Q31MN3 2.12 X-RAY DIFFRACTION 344 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 710 710 1ub2-a1-m1-cA_1ub2-a1-m2-cA 3wnu-a1-m1-cA_3wnu-a1-m2-cA 3x16-a1-m1-cA_3x16-a1-m2-cA 4pae-a1-m1-cA_4pae-a1-m2-cA MHGGATTVNISTAEWWPKALNLDILSQHDRKTNPMGPDFNYQEEVKKLDVAALKQDLQALMTDSQDWWPADWGHYGGLMIRLTWHAAGTYRIADGRGGAGTGNQRFAPLNSWPDNTNLDKARRLLWPIKQKYGNKLSWADLIAYAGTIAYESMGLKTFGFAFGREDIWHPEKDIYWGPEKEWVPPSTNPNSRYTGDRELENPLAAVTMGLIYVNPEGVDGNPDPLKTAHDVRVTFARMAMNDEETVALTAGGHTVGKCHGNGNAALLGPEPEGADVEDQGLGWINKTQSGIGRNAVTSGLEGAWTPHPTQWDNGYFRMLLNYDWELKKSPAGAWQWEPINPREEDLPVDVEDPSIRRNLVMTDADMAMKMDPEYRKISERFYQDPAYFADVFARAWFKLTHRDMGPKARYIGPDVPQEDLIWQDPIPAGNRNYDVQAVKDRIAASGLSISELVSTAWDSARTYRNSDKRGGANGARIRLAPQKDWEGNEPDRLAKVLAVLEGIAAATGASVADVIVLAGNVGVEQAARAAGVEIVLPFAPGRGDATAEQTDTESFAVLEPIHDGYRNWLKQDYAATPEELLLDRTQLLGLTAPEMTVLIGGLRVLGTNHGGTKHGVFTDREGVLTNDFFVNLTDMNYLWKPAGKNLYEICDRKTNQVKWTATRVDLVFGSNSILRAYSELYAQDDNKEKFVRDFVAAWTKVMNADRFDLD MHGGATTVNISTAEWWPKALNLDILSQHDRKTNPMGPDFNYQEEVKKLDVAALKQDLQALMTDSQDWWPADWGHYGGLMIRLTWHAAGTYRIADGRGGAGTGNQRFAPLNSWPDNTNLDKARRLLWPIKQKYGNKLSWADLIAYAGTIAYESMGLKTFGFAFGREDIWHPEKDIYWGPEKEWVPPSTNPNSRYTGDRELENPLAAVTMGLIYVNPEGVDGNPDPLKTAHDVRVTFARMAMNDEETVALTAGGHTVGKCHGNGNAALLGPEPEGADVEDQGLGWINKTQSGIGRNAVTSGLEGAWTPHPTQWDNGYFRMLLNYDWELKKSPAGAWQWEPINPREEDLPVDVEDPSIRRNLVMTDADMAMKMDPEYRKISERFYQDPAYFADVFARAWFKLTHRDMGPKARYIGPDVPQEDLIWQDPIPAGNRNYDVQAVKDRIAASGLSISELVSTAWDSARTYRNSDKRGGANGARIRLAPQKDWEGNEPDRLAKVLAVLEGIAAATGASVADVIVLAGNVGVEQAARAAGVEIVLPFAPGRGDATAEQTDTESFAVLEPIHDGYRNWLKQDYAATPEELLLDRTQLLGLTAPEMTVLIGGLRVLGTNHGGTKHGVFTDREGVLTNDFFVNLTDMNYLWKPAGKNLYEICDRKTNQVKWTATRVDLVFGSNSILRAYSELYAQDDNKEKFVRDFVAAWTKVMNADRFDLD 3wxy-a1-m1-cA_3wxy-a1-m1-cB Crystal structure of CsyB complexed with CoA-SH Q2U852 Q2U852 1.706 X-RAY DIFFRACTION 187 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 376 376 3wxz-a1-m1-cB_3wxz-a1-m1-cA 3wy0-a1-m1-cA_3wy0-a1-m1-cB SVSIVGIASRCAPHKLGADELEAIARRHYSSTPSLEKMLEINRKTRIDHRYSVFSSDHEHWHRPTIPSFSECDSLFKEYGIPLASAASARAIQDWGGVPDEITHLVAVTCTNTAHPGFDSVLCRKLGLKCNVRRVLLHGIGCGGGISAMRVAHELLLGSTQQGVPARALIVACEVPTVFARSELDIMDKTQDVNVAMCLFGDCAAALVLSNGIGHKASEQRPIWNILNCEPTQFDGTEDIAHFNVHDKGYHAIIDKRIPQLTGKCVPAGFQSLISSTPSLALEEKNYVPSNYGWAVHPGGYAVLVAAQDALGLTADDLRASYDAYRDGGNTISTTIIRILEKLRDEHKHGSNQKDKLVLAAIGHGITLETAILTRP SVSIVGIASRCAPHKLGADELEAIARRHYSSTPSLEKMLEINRKTRIDHRYSVFSSDHEHWHRPTIPSFSECDSLFKEYGIPLASAASARAIQDWGGVPDEITHLVAVTCTNTAHPGFDSVLCRKLGLKCNVRRVLLHGIGCGGGISAMRVAHELLLGSTQQGVPARALIVACEVPTVFARSELDIMDKTQDVNVAMCLFGDCAAALVLSNGIGHKASEQRPIWNILNCEPTQFDGTEDIAHFNVHDKGYHAIIDKRIPQLTGKCVPAGFQSLISSTPSLALEEKNYVPSNYGWAVHPGGYAVLVAAQDALGLTADDLRASYDAYRDGGNTISTTIIRILEKLRDEHKHGSNQKDKLVLAAIGHGITLETAILTRP 3wyc-a1-m1-cA_3wyc-a1-m1-cB Structure of a meso-diaminopimelate dehydrogenase in complex with NADP G1UII1 G1UII1 2.07 X-RAY DIFFRACTION 232 1.0 51173 (Ureibacillus thermosphaericus) 51173 (Ureibacillus thermosphaericus) 327 327 3wyb-a1-m1-cA_3wyb-a1-m1-cB 5gz1-a1-m1-cA_5gz1-a1-m1-cB 5gz3-a1-m1-cB_5gz3-a1-m1-cA 5gz6-a1-m1-cB_5gz6-a1-m1-cA SKIRIGIVGYGNLGRGVEAAIQQNPDMELVAVFTRRDPKTVAVKSNVKVLHVDDAQSYKDEIDVMILCGGSATDLPEQGPYFAQYFNTIDSFDTHARIPDYFDAVNAAAEQSGKVAIISVGWDPGLFSLNRLLGEVVLPVGNTYTFWGKGVSQGHSDAIRRIQGVKNAVQYTIPIDEAVNRVRSGENPELSTREKHARECFVVLEEGADPAKVEHEIKTMPNYFDEYDTTVHFISEEELKQNHSGMPHGGFVIRSGKSDEGHKQIIEFSLNLESNPMFTSSALVAYARAAYRLSQNGDKGAKTVFDIPFGLLSPKSPEDLRKELLTR SKIRIGIVGYGNLGRGVEAAIQQNPDMELVAVFTRRDPKTVAVKSNVKVLHVDDAQSYKDEIDVMILCGGSATDLPEQGPYFAQYFNTIDSFDTHARIPDYFDAVNAAAEQSGKVAIISVGWDPGLFSLNRLLGEVVLPVGNTYTFWGKGVSQGHSDAIRRIQGVKNAVQYTIPIDEAVNRVRSGENPELSTREKHARECFVVLEEGADPAKVEHEIKTMPNYFDEYDTTVHFISEEELKQNHSGMPHGGFVIRSGKSDEGHKQIIEFSLNLESNPMFTSSALVAYARAAYRLSQNGDKGAKTVFDIPFGLLSPKSPEDLRKELLTR 3wyd-a1-m1-cB_3wyd-a1-m1-cA C-terminal esterase domain of LC-Est1 A0A0A6YVN5 A0A0A6YVN5 1.53 X-RAY DIFFRACTION 46 1.0 155900 (uncultured organism) 155900 (uncultured organism) 191 193 PYRLYVPTTYDGTKAFPLVIALHGMGGDENSYFDSYQRGAFMIEAENRGYIVACPKGYVGPAERDVMDVIAEVRRDYKIDPDRIYMTGHSMGGYGTWSIAMNHPDVFAALAPVAGGGNPLGMANIAHIPQLVVHGDNDKTVPVERSRVMVEAAKKHGTEIKYIEIPGGDHVSVAARTFKDVFDWFDSHKRK PYRLYVPTTYDGTKAFPLVIALHGMGGDENSYFDSYQRGAFMIEAENRGYIVACPKGYVGPAERDVMDVIAEVRRDYKIDPDRIYMTGHSMGGYGTWSIAMNHPDVFAALAPVAGGGNPLGMANIAHIPQLVVHGDNDKTVPVERSRVMVEAAKKHGTEIKYIEIPGGDHVSVAARTFKDVFDWFDSHKRKRP 3wye-a1-m1-cB_3wye-a1-m2-cB Crystal Structure of chimeric engineered (2S,3S)-butanediol dehydrogenase complexed with NAD+ Q48436 Q48436 1.58 X-RAY DIFFRACTION 103 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 239 239 3wye-a1-m1-cA_3wye-a1-m2-cA KVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAAVEAFKKEGHGGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQTAARDLAPLGITVNGYCPGIVGTGMWEQIDAELSKSIALGRPSVPEDVAGLVSFLASPDSDYMTGQSLLIDGGMVFN KVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAAVEAFKKEGHGGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQTAARDLAPLGITVNGYCPGIVGTGMWEQIDAELSKSIALGRPSVPEDVAGLVSFLASPDSDYMTGQSLLIDGGMVFN 3wye-a1-m2-cB_3wye-a1-m2-cA Crystal Structure of chimeric engineered (2S,3S)-butanediol dehydrogenase complexed with NAD+ Q48436 Q48436 1.58 X-RAY DIFFRACTION 112 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 239 255 3wye-a1-m1-cB_3wye-a1-m1-cA KVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAAVEAFKKEGHGGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQTAARDLAPLGITVNGYCPGIVGTGMWEQIDAELSKSIALGRPSVPEDVAGLVSFLASPDSDYMTGQSLLIDGGMVFN KKVALVTGAGQGIGKAIALRLVKDGFAVAIADYNDATAKAVASEINQAGGHAVAVKVDVSDRDQVFAAVEQARKTLGGFDVIVNNAGIAQIKPLLEVTEEDLKQIYSVNVFSVFFGIQAAVEAFKKEGHGGKIINAASIAAIQGFPILSAYSTTKFAVRGLTQTAARDLAPLGITVNGYCPGIVGTGMWEQIDAELSKINGKPIGENFKEYSSSIALGRPSVPEDVAGLVSFLASPDSDYMTGQSLLIDGGMVFN 3wyr-a1-m1-cA_3wyr-a1-m2-cB Crystal structure of Killer cell immunoglobulin-like receptor 2DL4 Q99706 Q99706 2.8 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 3wyr-a1-m1-cB_3wyr-a1-m2-cA KPFCSAWPSAVVPQGGHVTLRCHYRRGFNIFTLYKKDGVPVPELYNRIFWNSFLISPVTPAHAGTYRCRGFHPHSPTEWSAPSNPLVIMVTGLYEKPSLTARPGPTVRTGENVTLSCSSQSSFDIYHLSREGEAHELRLPAVPSINGTFQADFPLGPATHGETYRCFGSFHGSPYEWSDASDPLPVSVT KPFCSAWPSAVVPQGGHVTLRCHYRRGFNIFTLYKKDGVPVPELYNRIFWNSFLISPVTPAHAGTYRCRGFHPHSPTEWSAPSNPLVIMVTGLYEKPSLTARPGPTVRTGENVTLSCSSQSSFDIYHLSREGEAHELRLPAVPSINGTFQADFPLGPATHGETYRCFGSFHGSPYEWSDASDPLPVSVT 3wyr-a1-m2-cA_3wyr-a1-m2-cB Crystal structure of Killer cell immunoglobulin-like receptor 2DL4 Q99706 Q99706 2.8 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 3wyr-a1-m1-cA_3wyr-a1-m1-cB KPFCSAWPSAVVPQGGHVTLRCHYRRGFNIFTLYKKDGVPVPELYNRIFWNSFLISPVTPAHAGTYRCRGFHPHSPTEWSAPSNPLVIMVTGLYEKPSLTARPGPTVRTGENVTLSCSSQSSFDIYHLSREGEAHELRLPAVPSINGTFQADFPLGPATHGETYRCFGSFHGSPYEWSDASDPLPVSVT KPFCSAWPSAVVPQGGHVTLRCHYRRGFNIFTLYKKDGVPVPELYNRIFWNSFLISPVTPAHAGTYRCRGFHPHSPTEWSAPSNPLVIMVTGLYEKPSLTARPGPTVRTGENVTLSCSSQSSFDIYHLSREGEAHELRLPAVPSINGTFQADFPLGPATHGETYRCFGSFHGSPYEWSDASDPLPVSVT 3wyw-a1-m1-cA_3wyw-a1-m1-cB Structural characterization of catalytic site of a Nilaparvata lugens delta-class glutathione transferase Q8N0B3 Q8N0B3 1.7 X-RAY DIFFRACTION 78 1.0 108931 (Nilaparvata lugens) 108931 (Nilaparvata lugens) 213 214 PIDLYYVPGSAPCRNVLLAAKAVGVDLNLKLTDLKSGQHLTPEFIKLNPQHNVPTLDDNGFVLNESRAIMTYLADQYGKDDSLYPKDPKKRAKVNQRLYFDMGTLYQSFGDAYYPHMFGGAPLDEDKKKKLGDALVFLDGFLEKSAFVAGEDLTLADLAIVASISTIEAVEYDLSPYKNINSWYSKVKAAAPGYKEANEEGAKGFGQMFKAMT MPIDLYYVPGSAPCRNVLLAAKAVGVDLNLKLTDLKSGQHLTPEFIKLNPQHNVPTLDDNGFVLNESRAIMTYLADQYGKDDSLYPKDPKKRAKVNQRLYFDMGTLYQSFGDAYYPHMFGGAPLDEDKKKKLGDALVFLDGFLEKSAFVAGEDLTLADLAIVASISTIEAVEYDLSPYKNINSWYSKVKAAAPGYKEANEEGAKGFGQMFKAMT 3wz0-a1-m1-cA_3wz0-a1-m1-cC On archaeal homologs of the human RNase P proteins Pop5 and Rpp30 in the hyperthermophilic archaeon Thermococcus kodakarensis Q5JJ62 Q5JJ62 2.79 X-RAY DIFFRACTION 31 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 104 105 NRYIAFQVIGERPFKKDEIKKAVWEASLSALGYLGSARAKPWFIKFDEKSQTGIVRVDRKHVEELRFALTMLTEINGSKVIFRTLGVSGTIKRLKRKFLAEYGW KNRYIAFQVIGERPFKKDEIKKAVWEASLSALGYLGSARAKPWFIKFDEKSQTGIVRVDRKHVEELRFALTMLTEINGSKVIFRTLGVSGTIKRLKRKFLAEYGW 3x0g-a1-m1-cA_3x0g-a1-m2-cA Crystal structure of the ectodomain of African green monkey CD81 large extracellular loop (agmCD81-LEL) A0A0D9RBI8 A0A0D9RBI8 1.899 X-RAY DIFFRACTION 42 1.0 60711 (Chlorocebus sabaeus) 60711 (Chlorocebus sabaeus) 93 93 SHMFVNKDQIAKDVKQFYDQALQQAVVDDDANNAKAVVKTFHETVDCCGSSTLAALTTSVLKNNLCPSGSNIISNLLKKDCHQKIDDFFSGKL SHMFVNKDQIAKDVKQFYDQALQQAVVDDDANNAKAVVKTFHETVDCCGSSTLAALTTSVLKNNLCPSGSNIISNLLKKDCHQKIDDFFSGKL 3x0x-a1-m1-cA_3x0x-a1-m1-cD Crystal structure of apo-DszC from Rhodococcus erythropolis D-1 A0A0C6DRW4 A0A0C6DRW4 2.11 X-RAY DIFFRACTION 107 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 400 400 3x0x-a1-m1-cB_3x0x-a1-m1-cC 3x0x-a2-m1-cE_3x0x-a2-m1-cF 3x0x-a2-m1-cG_3x0x-a2-m1-cH 3x0y-a1-m1-cF_3x0y-a1-m1-cH 3x0y-a1-m1-cG_3x0y-a1-m1-cA 3x0y-a2-m1-cB_3x0y-a2-m1-cC 3x0y-a2-m1-cE_3x0y-a2-m1-cD 4jek-a1-m1-cA_4jek-a1-m1-cF 4jek-a1-m1-cG_4jek-a1-m1-cH 4jek-a2-m1-cB_4jek-a2-m1-cE 4jek-a2-m1-cC_4jek-a2-m1-cD 4nxl-a1-m1-cA_4nxl-a1-m1-cB 4nxl-a1-m1-cC_4nxl-a1-m1-cD NDPVAVARGLAEKWRATAVERDRAGGSATAEREDLRASGLLSLLVPREYGGWGADWPTAIEVVREIAAADGSLGHLFGYHLTNAPMIELIGSQEQEEHLYTQIAQNNWWTGNASSENNSHVLDWKVRATPTEDGGYVLNGTKHFCSGAKGSDLLFVFGVVQDDSPQQGAIIAAAIPTSRAGVTPNDDWAAIGMRQTDSGSTDFHNVKVEPDEVLGAPNAFVLAFIQSERGSLFAPIAQLIFANVYLGIAHGALDAAREYTRTQARPWTPAGIQQATEDPYTIRSYGEFTIALQGADAAAREAAHLLQTVWDKGDALTPEDRGELMVKVSGVKALATNAALNISSGVFEVIGARGTHPRYGFDRFWRNVRTHSLHDPVSYKIADVGKHTLNGQYPIPGFTS NDPVAVARGLAEKWRATAVERDRAGGSATAEREDLRASGLLSLLVPREYGGWGADWPTAIEVVREIAAADGSLGHLFGYHLTNAPMIELIGSQEQEEHLYTQIAQNNWWTGNASSENNSHVLDWKVRATPTEDGGYVLNGTKHFCSGAKGSDLLFVFGVVQDDSPQQGAIIAAAIPTSRAGVTPNDDWAAIGMRQTDSGSTDFHNVKVEPDEVLGAPNAFVLAFIQSERGSLFAPIAQLIFANVYLGIAHGALDAAREYTRTQARPWTPAGIQQATEDPYTIRSYGEFTIALQGADAAAREAAHLLQTVWDKGDALTPEDRGELMVKVSGVKALATNAALNISSGVFEVIGARGTHPRYGFDRFWRNVRTHSLHDPVSYKIADVGKHTLNGQYPIPGFTS 3x0x-a1-m1-cC_3x0x-a1-m1-cD Crystal structure of apo-DszC from Rhodococcus erythropolis D-1 A0A0C6DRW4 A0A0C6DRW4 2.11 X-RAY DIFFRACTION 119 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 400 400 3x0x-a1-m1-cA_3x0x-a1-m1-cB 3x0x-a2-m1-cE_3x0x-a2-m1-cG 3x0x-a2-m1-cF_3x0x-a2-m1-cH 3x0y-a1-m1-cF_3x0y-a1-m1-cA 3x0y-a1-m1-cH_3x0y-a1-m1-cG 3x0y-a2-m1-cB_3x0y-a2-m1-cD 3x0y-a2-m1-cC_3x0y-a2-m1-cE 4doy-a1-m1-cA_4doy-a1-m1-cC 4doy-a2-m1-cB_4doy-a2-m1-cE 4doy-a3-m1-cD_4doy-a3-m1-cF 4doy-a4-m1-cG_4doy-a4-m1-cH 4jek-a1-m1-cA_4jek-a1-m1-cH 4jek-a1-m1-cF_4jek-a1-m1-cG 4jek-a2-m1-cB_4jek-a2-m1-cC 4jek-a2-m1-cD_4jek-a2-m1-cE 4nxl-a1-m1-cA_4nxl-a1-m1-cD 4nxl-a1-m1-cB_4nxl-a1-m1-cC NDPVAVARGLAEKWRATAVERDRAGGSATAEREDLRASGLLSLLVPREYGGWGADWPTAIEVVREIAAADGSLGHLFGYHLTNAPMIELIGSQEQEEHLYTQIAQNNWWTGNASSENNSHVLDWKVRATPTEDGGYVLNGTKHFCSGAKGSDLLFVFGVVQDDSPQQGAIIAAAIPTSRAGVTPNDDWAAIGMRQTDSGSTDFHNVKVEPDEVLGAPNAFVLAFIQSERGSLFAPIAQLIFANVYLGIAHGALDAAREYTRTQARPWTPAGIQQATEDPYTIRSYGEFTIALQGADAAAREAAHLLQTVWDKGDALTPEDRGELMVKVSGVKALATNAALNISSGVFEVIGARGTHPRYGFDRFWRNVRTHSLHDPVSYKIADVGKHTLNGQYPIPGFTS NDPVAVARGLAEKWRATAVERDRAGGSATAEREDLRASGLLSLLVPREYGGWGADWPTAIEVVREIAAADGSLGHLFGYHLTNAPMIELIGSQEQEEHLYTQIAQNNWWTGNASSENNSHVLDWKVRATPTEDGGYVLNGTKHFCSGAKGSDLLFVFGVVQDDSPQQGAIIAAAIPTSRAGVTPNDDWAAIGMRQTDSGSTDFHNVKVEPDEVLGAPNAFVLAFIQSERGSLFAPIAQLIFANVYLGIAHGALDAAREYTRTQARPWTPAGIQQATEDPYTIRSYGEFTIALQGADAAAREAAHLLQTVWDKGDALTPEDRGELMVKVSGVKALATNAALNISSGVFEVIGARGTHPRYGFDRFWRNVRTHSLHDPVSYKIADVGKHTLNGQYPIPGFTS 3x15-a1-m1-cA_3x15-a1-m1-cG Dimeric Aquifex aeolicus cytochrome c555 O67504 O67504 1.6 X-RAY DIFFRACTION 157 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 87 87 ADGKAIFQQKGCGSCHQANVDTVGPSLKKIAQAYAGKEDQLIKFLKGEAPAIVDPAKEAIMKPQLTMLKGLSDAELKALADFILSHK ADGKAIFQQKGCGSCHQANVDTVGPSLKKIAQAYAGKEDQLIKFLKGEAPAIVDPAKEAIMKPQLTMLKGLSDAELKALADFILSHK 3x15-a2-m1-cD_3x15-a2-m1-cJ Dimeric Aquifex aeolicus cytochrome c555 O67504 O67504 1.6 X-RAY DIFFRACTION 143 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 87 87 ADGKAIFQQKGCGSCHQANVDTVGPSLKKIAQAYAGKEDQLIKFLKGEAPAIVDPAKEAIMKPQLTMLKGLSDAELKALADFILSHK ADGKAIFQQKGCGSCHQANVDTVGPSLKKIAQAYAGKEDQLIKFLKGEAPAIVDPAKEAIMKPQLTMLKGLSDAELKALADFILSHK 3x1b-a1-m1-cA_3x1b-a1-m1-cB Crystal structure of laccase from Lentinus sp. at 1.8 A resolution 1.8 X-RAY DIFFRACTION 94 1.0 5357 (Lentinus) 5357 (Lentinus) 500 500 SVGPVANLKIGNAAVSPDGYTRDAVVVNGATPGPLIVGNKGDNFRLNVIDELTNHTMLKSTSIHWHGFFQHGTNWADGGAFVNQCPISSGHSFSYNFQAKDQAGTFWYHSHLSTQYCDGLRGPFVVYDPKDPHKKLYDVDNESTVITLEDWYHTAARLGPRFPLGSDSTLINGLGRSATTATGDLAVIKVTRGKRYRFRLVSLSCDPFYTFSIDGHNMTIIEADAVNTKPHTVDSLEIFAGQRYSFILNANQPVDNYWVRANPNFGNVGFTNGINSAILRYDGAAVAEPATAIPPASVTPLLETDLHPLVSTPVPGSPVAGGVDKALNFVFNFDGTNFFINDATFTPPSVPVLLQILSGAQAAQDLLPSGSVIPLPALSTIELSFPATANAPGVPHPFHLHGHTFAVVRSAGSTAYNYEDPVWRDVVSTGTPAAGDNVTIRFVTDNPGPWFLHCHIDFHLEAGFAVVFAEDLPGTPAANPVPQSWSDLCPIYDALAEDDQ SVGPVANLKIGNAAVSPDGYTRDAVVVNGATPGPLIVGNKGDNFRLNVIDELTNHTMLKSTSIHWHGFFQHGTNWADGGAFVNQCPISSGHSFSYNFQAKDQAGTFWYHSHLSTQYCDGLRGPFVVYDPKDPHKKLYDVDNESTVITLEDWYHTAARLGPRFPLGSDSTLINGLGRSATTATGDLAVIKVTRGKRYRFRLVSLSCDPFYTFSIDGHNMTIIEADAVNTKPHTVDSLEIFAGQRYSFILNANQPVDNYWVRANPNFGNVGFTNGINSAILRYDGAAVAEPATAIPPASVTPLLETDLHPLVSTPVPGSPVAGGVDKALNFVFNFDGTNFFINDATFTPPSVPVLLQILSGAQAAQDLLPSGSVIPLPALSTIELSFPATANAPGVPHPFHLHGHTFAVVRSAGSTAYNYEDPVWRDVVSTGTPAAGDNVTIRFVTDNPGPWFLHCHIDFHLEAGFAVVFAEDLPGTPAANPVPQSWSDLCPIYDALAEDDQ 3x1l-a1-m1-cC_3x1l-a1-m1-cE Crystal Structure of the CRISPR-Cas RNA Silencing Cmr Complex Bound to a Target Analog O28416 O28416 2.096 X-RAY DIFFRACTION 15 0.994 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 322 330 KAVVFGLYSITPVHAGSGAELSVIDLPIQRERHTGFPVIWGQSLKGVLRSRFRQLELDEKIEVSQKWKWKEKTKEVLKEKADEFIKKVEERKRDPLLTEIVFGPATDGASEHAGAVSVGDAKILLFPVRSAKGVFAFVTSPIVIQRLKEDFELVSVELSNNETIAGNALILNGENKVILEDIVLKVKSDSNVIENLVEVLKTLFGDNFFGKPIESIKERIAIVSDDVFKSFTRFSTEIVARVRIDAEKGTVARGGLWYEEFLPSDTLMYSLIAVGSPKKENLPKEVDNTQKIVNVLKVTFNNAFLQIGGDETVGKGFVKVRA DMFEKAVVFGLYSITPVHAGSGAELSVIDLPIQRERHTGFPVIWGQSLKGVLRSRFRQLELDEKIEVSQKWKWKEKTKEVLKEKADEFIKKVEERKRDPLLTEIVFGPATDGASEHAGAVSVGDAKILLFPVRSAKGVFAFVTSPIVIQRLKEDFELVSEIENVELSNNETIAGNALILNGENKVILEDIVLKVKSDSNVIENLVEVLKTLFGDNFFGKPIESIKERIAIVSDDVFKSFTRFSTEIVARVRIDAEKGTVARGGLWYEEFLPSDTLMYSLIAVGSPKKLPKEVDNTQKIVNVLKVTFNNAFLQIGGDETVGKGFVKVRAGV 3x1l-a1-m1-cF_3x1l-a1-m1-cG Crystal Structure of the CRISPR-Cas RNA Silencing Cmr Complex Bound to a Target Analog O28417 O28417 2.096 X-RAY DIFFRACTION 43 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 146 152 IREIEQERASFAFKVVSDIKDKYSQNKKVQGKYSSYAEKAPTIILNNGLGATLAFFLSKLIDDVDYKSINPESFGNAENIAYAFLYKHLSTWLAEGNGKDSAFSGLTNGEDPLKYIMEKTAIDVAISTEEALSILNWIKKFAKAML DIREIEQERASFAFKVVSDIKDKYSQNKKVQGKYSSYAEKAPTIILNNGLGATLAFFLSKLEKPIDDVDYKSINPESFGNAENIAYAFLYKHLSTWLAEGNGKDSAFSGLTNGEDPLKYIMEKTAIDVAISTEEALSILNWIKKFAKAMLEE 3x27-a2-m1-cC_3x27-a2-m1-cD Structure of McbB in complex with tryptophan R4QPW9 R4QPW9 2.481 X-RAY DIFFRACTION 197 1.0 531310 (Marinactinospora thermotolerans) 531310 (Marinactinospora thermotolerans) 307 310 3x27-a1-m1-cA_3x27-a1-m1-cB QIEIEWVQPGITVTADLSWERNPELAELLWTGLLPYNSLQNHALVSGNHLYHLIADPRLVYTEARYKEDRTKSPDGTVFLSQLQHLAVKYGPLTEYLPAAPVGSVVPEDIDALREAGRACWKAAWETKQPIEVRVRRKGEAVTDFALPRTPPVDHPGVQKLVEEIQDETERVWITPPAEIVDHQGRIASRAGSYDQYFSTLVFLNGEVRPLGYCALNGLLKICRTTDLTLNDLKRITPTFIKTPAEFLGYTGLDTLWRFTQQVLTLLPDVETREQYFALVNALALYANLNTWNLHFFPWQHGTDYRY SHRQIEIEWVQPGITVTADLSWERNPELAELLWTGLLPYNSLQNHALVSGNHLYHLIADPRLVYTEARYKEDRTKSPDGTVFLSQLQHLAVKYGPLTEYLPAAPVGSVVPEDIDALREAGRACWKAAWETKQPIEVRVRRKGEAVTDFALPRTPPVDHPGVQKLVEEIQDETERVWITPPAEIVDHQGRIASRAGSYDQYFSTLVFLNGEVRPLGYCALNGLLKICRTTDLTLNDLKRITPTFIKTPAEFLGYTGLDTLWRFTQQVLTLLPDVETREQYFALVNALALYANLNTWNLHFFPWQHGTDYRY 3x2f-a1-m2-cB_3x2f-a1-m1-cA A Thermophilic S-Adenosylhomocysteine Hydrolase O51933 O51933 2.04 X-RAY DIFFRACTION 150 0.998 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 404 406 3x2e-a1-m1-cA_3x2e-a1-m1-cB 3x2e-a1-m1-cC_3x2e-a1-m1-cD 3x2f-a1-m1-cB_3x2f-a1-m2-cA 5tov-a1-m1-cB_5tov-a1-m2-cB 5tow-a1-m1-cB_5tow-a1-m2-cB ANTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMKYLFDNRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNLAAGDGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYLRSWQ NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMKYLFDNRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNLAAGDGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYLRSWQHHH 3x2z-a1-m1-cB_3x2z-a1-m1-cC Crystal structure of metallo-beta-lactamase in complex with nickel from Thermotoga maritima Q9X0P5 Q9X0P5 2.33 X-RAY DIFFRACTION 71 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 227 227 3x2x-a1-m1-cA_3x2x-a1-m1-cB 3x2x-a1-m1-cA_3x2x-a1-m1-cC 3x2x-a1-m1-cB_3x2x-a1-m1-cC 3x2y-a1-m1-cA_3x2y-a1-m1-cB 3x2y-a1-m1-cA_3x2y-a1-m1-cC 3x2y-a1-m1-cB_3x2y-a1-m1-cC 3x2z-a1-m1-cA_3x2z-a1-m1-cB 3x2z-a1-m1-cA_3x2z-a1-m1-cC 3x30-a1-m1-cA_3x30-a1-m2-cA 3x30-a1-m1-cA_3x30-a1-m3-cA 3x30-a1-m2-cA_3x30-a1-m3-cA GMKVTFLGHAVVLIEGKKNIIIDPFISGNPVCPVKLEGLPKIDYILVTHGHGDHLGDAVEIAKKNDATVISNYEICHYLGKKGVKTHAMHIGGSYLFDFGRVKMTPAVHGSGILDGDSMIYGGNPSGFLITIEGKKIYHAGDTGLTREMELLAEENVDVAFLPIGGNFVMDVEDAVRAAVMIKPKKVVPMHYGTWELIFADVELFKKKVEEKGVECVILEPGESLEL GMKVTFLGHAVVLIEGKKNIIIDPFISGNPVCPVKLEGLPKIDYILVTHGHGDHLGDAVEIAKKNDATVISNYEICHYLGKKGVKTHAMHIGGSYLFDFGRVKMTPAVHGSGILDGDSMIYGGNPSGFLITIEGKKIYHAGDTGLTREMELLAEENVDVAFLPIGGNFVMDVEDAVRAAVMIKPKKVVPMHYGTWELIFADVELFKKKVEEKGVECVILEPGESLEL 3x38-a2-m1-cD_3x38-a2-m1-cC Crystal structure of the C-terminal domain of Sld7 Q08457 Q08457 1.801 X-RAY DIFFRACTION 36 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 77 79 3x38-a1-m1-cA_3x38-a1-m1-cB KRLQFNETLSKLILGGLRLRGISNSITDYQKLYKITFDAAEFTHRDELKRISMGSGEEVSFESLQETVETLLKLFTK KRLQFNETLSKLILGGLRLRGISNSITDYQKLYKITFDAAEFTHRDELKRISMGSGEEVSFESLQETVETLLKLFTKSL 3x39-a2-m1-cB_3x39-a2-m3-cB Domain-swapped dimer of Pseudomonas aeruginosa cytochrome c551 P00099 P00099 1.5 X-RAY DIFFRACTION 95 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 82 82 3x39-a1-m1-cA_3x39-a1-m2-cA EDPEVLFKNKGCVACHAIDTKMVGPAYKDVAAKFAGQAGAEAELAQRIKNGSQGVWGPIPMPPNAVSDDEAQTLAKWVLSQK EDPEVLFKNKGCVACHAIDTKMVGPAYKDVAAKFAGQAGAEAELAQRIKNGSQGVWGPIPMPPNAVSDDEAQTLAKWVLSQK 3x3u-a1-m1-cA_3x3u-a1-m1-cC Crystal structure of wild-type of E. coli CutA1 P69488 P69488 2.09 X-RAY DIFFRACTION 81 0.99 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 104 105 1naq-a1-m1-cB_1naq-a1-m1-cA 1naq-a1-m1-cB_1naq-a1-m1-cC 1naq-a1-m1-cC_1naq-a1-m1-cA 1naq-a2-m1-cD_1naq-a2-m1-cE 1naq-a2-m1-cD_1naq-a2-m1-cF 1naq-a2-m1-cE_1naq-a2-m1-cF 1naq-a3-m1-cB_1naq-a3-m1-cA 1naq-a3-m1-cB_1naq-a3-m1-cC 1naq-a3-m1-cC_1naq-a3-m1-cA 1naq-a3-m1-cD_1naq-a3-m1-cE 1naq-a3-m1-cD_1naq-a3-m1-cF 1naq-a3-m1-cE_1naq-a3-m1-cF 3aa8-a1-m1-cA_3aa8-a1-m1-cB 3aa8-a1-m1-cA_3aa8-a1-m1-cC 3aa8-a1-m1-cC_3aa8-a1-m1-cB 3aa9-a1-m1-cA_3aa9-a1-m1-cC 3aa9-a1-m1-cB_3aa9-a1-m1-cA 3aa9-a1-m1-cB_3aa9-a1-m1-cC 3ah6-a1-m1-cA_3ah6-a1-m1-cB 3ah6-a1-m1-cA_3ah6-a1-m1-cC 3ah6-a1-m1-cB_3ah6-a1-m1-cC 3ah6-a2-m1-cE_3ah6-a2-m1-cD 3ah6-a2-m1-cE_3ah6-a2-m1-cF 3ah6-a2-m1-cF_3ah6-a2-m1-cD 3opk-a1-m1-cA_3opk-a1-m1-cB 3opk-a1-m1-cA_3opk-a1-m1-cC 3opk-a1-m1-cB_3opk-a1-m1-cC 3x3u-a1-m1-cA_3x3u-a1-m1-cB 3x3u-a1-m1-cB_3x3u-a1-m1-cC 3x3u-a2-m1-cD_3x3u-a2-m1-cF 3x3u-a2-m1-cE_3x3u-a2-m1-cD 3x3u-a2-m1-cE_3x3u-a2-m1-cF 4y6i-a1-m1-cA_4y6i-a1-m1-cB 4y6i-a1-m1-cA_4y6i-a1-m1-cC 4y6i-a2-m1-cD_4y6i-a2-m1-cE 4y6i-a2-m1-cD_4y6i-a2-m1-cF 4y6i-a2-m1-cE_4y6i-a2-m1-cF TASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR SNTASVVVLCTAPDEATAQDLAAKVLAEKLAACATLIPGATSLYYWEGKLEQEYEVQMILKTTVSHQQALLECLKSHHPYQTPELLVLPVTHGDTDYLSWLNASL 3x43-a1-m1-cA_3x43-a1-m1-cD Crystal structure of O-ureido-L-serine synthase D2Z027 D2Z027 2.25 X-RAY DIFFRACTION 174 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 316 316 3x43-a1-m1-cC_3x43-a1-m1-cB 3x43-a2-m1-cF_3x43-a2-m1-cG 3x43-a2-m1-cH_3x43-a2-m1-cE 3x44-a1-m1-cA_3x44-a1-m2-cA 3x44-a1-m1-cB_3x44-a1-m2-cB PLFNSILDTIGRTPIVRLQRMAPEHTSVYVKVESFNPGGSVKDRLALSVVLDAEAKGLLKPGDTIVECTSGNVGIALAMVAAARGYRFVAVMGDTYSVERRKLIRAYGGKLVLFPGHLGSKGGNLIADELAEKYGWFRARQFDNPANPSYHRETTASEILADFAGKRLDHFVTGFGTTGTLTGVGQMLRVARPEVRVVALEPSNAAMLARGEWSPHQIQGLAPNFVPGVLDRSVIDDLVTMDEVTARDTSRRLAAEEGIFAGISAGATVATALSIAEHAPEGTVLLAMLPDTGERYLSTFLFDGVDEGSDDAWLAS PLFNSILDTIGRTPIVRLQRMAPEHTSVYVKVESFNPGGSVKDRLALSVVLDAEAKGLLKPGDTIVECTSGNVGIALAMVAAARGYRFVAVMGDTYSVERRKLIRAYGGKLVLFPGHLGSKGGNLIADELAEKYGWFRARQFDNPANPSYHRETTASEILADFAGKRLDHFVTGFGTTGTLTGVGQMLRVARPEVRVVALEPSNAAMLARGEWSPHQIQGLAPNFVPGVLDRSVIDDLVTMDEVTARDTSRRLAAEEGIFAGISAGATVATALSIAEHAPEGTVLLAMLPDTGERYLSTFLFDGVDEGSDDAWLAS 3x43-a2-m1-cH_3x43-a2-m1-cG Crystal structure of O-ureido-L-serine synthase D2Z027 D2Z027 2.25 X-RAY DIFFRACTION 72 1.0 1914 (Streptomyces lavendulae) 1914 (Streptomyces lavendulae) 316 317 3x43-a1-m1-cA_3x43-a1-m1-cB 3x43-a1-m1-cD_3x43-a1-m1-cC 3x43-a2-m1-cF_3x43-a2-m1-cE 3x44-a1-m1-cB_3x44-a1-m1-cA 3x44-a1-m2-cB_3x44-a1-m2-cA PLFNSILDTIGRTPIVRLQRMAPEHTSVYVKVESFNPGGSVKDRLALSVVLDAEAKGLLKPGDTIVECTSGNVGIALAMVAAARGYRFVAVMGDTYSVERRKLIRAYGGKLVLFPGHLGSKGGNLIADELAEKYGWFRARQFDNPANPSYHRETTASEILADFAGKRLDHFVTGFGTTGTLTGVGQMLRVARPEVRVVALEPSNAAMLARGEWSPHQIQGLAPNFVPGVLDRSVIDDLVTMDEVTARDTSRRLAAEEGIFAGISAGATVATALSIAEHAPEGTVLLAMLPDTGERYLSTFLFDGVDEGSDDAWLAS PLFNSILDTIGRTPIVRLQRMAPEHTSVYVKVESFNPGGSVKDRLALSVVLDAEAKGLLKPGDTIVECTSGNVGIALAMVAAARGYRFVAVMGDTYSVERRKLIRAYGGKLVLFPGHLGSKGGNLIADELAEKYGWFRARQFDNPANPSYHRETTASEILADFAGKRLDHFVTGFGTTGTLTGVGQMLRVARPEVRVVALEPSNAAMLARGEWSPHQIQGLAPNFVPGVLDRSVIDDLVTMDEVTARDTSRRLAAEEGIFAGISAGATVATALSIAEHAPEGTVLLAMLPDTGERYLSTFLFDGVDEGSDDAWLASL 3zbg-a1-m1-cA_3zbg-a1-m1-cB Crystal structure of wild-type SCP2 thiolase from Leishmania mexicana at 1.85 A E9AW84 E9AW84 1.85 X-RAY DIFFRACTION 207 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 430 430 3zbk-a1-m1-cA_3zbk-a1-m1-cB 3zbl-a1-m1-cA_3zbl-a1-m1-cB 3zbn-a1-m1-cA_3zbn-a1-m1-cB 3zbn-a2-m1-cC_3zbn-a2-m1-cD 5lnq-a1-m1-cA_5lnq-a1-m1-cB 5lnq-a2-m1-cC_5lnq-a2-m1-cD 5lot-a1-m1-cA_5lot-a1-m1-cB 5lot-a2-m1-cC_5lot-a2-m1-cD AASRVFIVGGHITPFVGKGSPLFIDKKHPDFGKKKNMTLEEILATTVQGTMEHSGLSGREGIVDQVVVGNFLGELFSSQGHLGPAAIGSLTYGQAGSKNPLMYKPAMRVEGAASGGLAVISAMNALKSGSADITLAVGVEVQTTASARVGGDYLARAADYQRQRQLDDFTFPCLFAKRMKYIAEHNHFTMEDTARVAAKAYANGNKNPLAHMHTRKLTFEQCNGEDPSNVKFLGNETYKEYLRMTDCSQVSDGGAGVVLANEEGLRKMGLSPNDSRLVEIKSIACAVSNLYEDPDDACCMFTSRQAAQKALSMANIKPSDLNVAEVHDCFTIAEMLMYEALGIAEYGHAKDLIRNGDTTLEGRIPVNTGGGLLSFGHPVGATGIKQIMEVYRQMKGQCEAYQMKKIPALGATLNMGGDDKTAVSAVLQNI AASRVFIVGGHITPFVGKGSPLFIDKKHPDFGKKKNMTLEEILATTVQGTMEHSGLSGREGIVDQVVVGNFLGELFSSQGHLGPAAIGSLTYGQAGSKNPLMYKPAMRVEGAASGGLAVISAMNALKSGSADITLAVGVEVQTTASARVGGDYLARAADYQRQRQLDDFTFPCLFAKRMKYIAEHNHFTMEDTARVAAKAYANGNKNPLAHMHTRKLTFEQCNGEDPSNVKFLGNETYKEYLRMTDCSQVSDGGAGVVLANEEGLRKMGLSPNDSRLVEIKSIACAVSNLYEDPDDACCMFTSRQAAQKALSMANIKPSDLNVAEVHDCFTIAEMLMYEALGIAEYGHAKDLIRNGDTTLEGRIPVNTGGGLLSFGHPVGATGIKQIMEVYRQMKGQCEAYQMKKIPALGATLNMGGDDKTAVSAVLQNI 3zbh-a3-m1-cC_3zbh-a3-m1-cD Geobacillus thermodenitrificans EsxA crystal form I A4IKE4 A4IKE4 1.94 X-RAY DIFFRACTION 67 0.989 33940 (Geobacillus thermodenitrificans) 33940 (Geobacillus thermodenitrificans) 90 93 3zbh-a1-m1-cA_3zbh-a1-m1-cB TPEELRGVARQYNVESSNVTELIARLDQMSHTLQGIWEGASSEAFIQQYQELRPSFEKMAVLLNEVGQQLHNSATILEDTDQQIASQIRG VIRLTPEELRGVARQYNVESSNVTELIARLDQMSHTLQGIWEGASSEAFIQQYQELRPSFEKMAVLLNEVGQQLHNSATILEDTDQQIASQIR 3zbj-a1-m1-cM_3zbj-a1-m1-cN Fitting results in the I-layer of the subnanometer structure of the bacterial pKM101 type IV secretion system core complex digested with elastase Q46704 Q46704 8.5 ELECTRON MICROSCOPY 59 1.0 511693 (Escherichia coli BL21) 511693 (Escherichia coli BL21) 112 112 2ypw-a1-m1-cA_2ypw-a1-m1-cB 2ypw-a1-m1-cA_2ypw-a1-m1-cN 2ypw-a1-m1-cB_2ypw-a1-m1-cC 2ypw-a1-m1-cC_2ypw-a1-m1-cD 2ypw-a1-m1-cD_2ypw-a1-m1-cE 2ypw-a1-m1-cE_2ypw-a1-m1-cF 2ypw-a1-m1-cF_2ypw-a1-m1-cG 2ypw-a1-m1-cG_2ypw-a1-m1-cH 2ypw-a1-m1-cH_2ypw-a1-m1-cI 2ypw-a1-m1-cI_2ypw-a1-m1-cJ 2ypw-a1-m1-cJ_2ypw-a1-m1-cK 2ypw-a1-m1-cK_2ypw-a1-m1-cL 2ypw-a1-m1-cL_2ypw-a1-m1-cM 2ypw-a1-m1-cM_2ypw-a1-m1-cN 3zbj-a1-m1-cA_3zbj-a1-m1-cB 3zbj-a1-m1-cA_3zbj-a1-m1-cN 3zbj-a1-m1-cB_3zbj-a1-m1-cC 3zbj-a1-m1-cC_3zbj-a1-m1-cD 3zbj-a1-m1-cD_3zbj-a1-m1-cE 3zbj-a1-m1-cE_3zbj-a1-m1-cF 3zbj-a1-m1-cF_3zbj-a1-m1-cG 3zbj-a1-m1-cG_3zbj-a1-m1-cH 3zbj-a1-m1-cH_3zbj-a1-m1-cI 3zbj-a1-m1-cI_3zbj-a1-m1-cJ 3zbj-a1-m1-cJ_3zbj-a1-m1-cK 3zbj-a1-m1-cK_3zbj-a1-m1-cL 3zbj-a1-m1-cL_3zbj-a1-m1-cM LEVGRNSPYDYRIKSVVYNPVNVVKIDAVAGVATHIVVAPDETYITHAFGDSESRTFAHKMNHFFVKPKQAMSDTNLVIVTDKRTYNIVLHFIGEETKKNADGTVSKSFIET LEVGRNSPYDYRIKSVVYNPVNVVKIDAVAGVATHIVVAPDETYITHAFGDSESRTFAHKMNHFFVKPKQAMSDTNLVIVTDKRTYNIVLHFIGEETKKNADGTVSKSFIET 3zbv-a1-m1-cA_3zbv-a1-m2-cA Crystal Structure of murine Angiogenin-2 Q64438 Q64438 1.64 X-RAY DIFFRACTION 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 118 118 DSRYTKFLTQHYDAKPKGRDDRYCESMMVKRKLTSFCKDVNTFIHDTKNNIKAICGKKGSPYGRNLRISKSHFQVTTCTHKGRSPRPPCRYRASKGFRYIIIGCENGWPVHFDESFIS DSRYTKFLTQHYDAKPKGRDDRYCESMMVKRKLTSFCKDVNTFIHDTKNNIKAICGKKGSPYGRNLRISKSHFQVTTCTHKGRSPRPPCRYRASKGFRYIIIGCENGWPVHFDESFIS 3zbw-a1-m1-cA_3zbw-a1-m1-cB Crystal Structure of murine Angiogenin-3 P97802 P97802 1.801 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 120 121 DNYRYIKFLTQHYDAKPTGRDYRYCESMMKKRKLTSPCKEVNTFIHDTKNNIKAICGENGNPYGVNFRISNSRFQVTTCTHKGGSPRPPCQYNAFKDFRYIVIACEDGWPVHFDESFISP QDNYRYIKFLTQHYDAKPTGRDYRYCESMMKKRKLTSPCKEVNTFIHDTKNNIKAICGENGNPYGVNFRISNSRFQVTTCTHKGGSPRPPCQYNAFKDFRYIVIACEDGWPVHFDESFISP 3zby-a4-m1-cD_3zby-a4-m3-cD Ligand-free structure of CYP142 from Mycobacterium smegmatis A0R4Q6 A0R4Q6 1.93 X-RAY DIFFRACTION 61 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 402 402 3zby-a1-m1-cC_3zby-a1-m1-cF 3zby-a2-m1-cE_3zby-a2-m1-cB 3zby-a3-m1-cA_3zby-a3-m2-cA TQMLTRPDVDLVNGMFYADGGAREAYRWMRANEPVFRDRNGLAAATTYQAVLDAERNPELFSSTGGIRPDQPGMPYMIDMDDPQHLLRRKLVNAGFTRKRVMDKVDSIGRLCDTLIDAVCERGECDFVRDIAAPLPMAVIGDMLGVLPTERDMLLKWSDDLVCGLSSHVDEAAIQKLMDTFAAYTEFTKDVITKRRAEPTDDLFSVLVNSEVEGQRMSDDEIVFETLLILIGGDETTRHTLSGGTEQLLRHRDQWDALVADVDLLPGAIEEMLRWTSPVKNMCRTLTADTVFHGTELRAGEKIMLMFESANFDESVFGDPDNFRIDRNPNSHVAFGFGTHFCLGNQLARLELRLMTERVLRRLPDLRLADDAPVPLRPANFVSGPESMPVVFTPSAPVLAHH TQMLTRPDVDLVNGMFYADGGAREAYRWMRANEPVFRDRNGLAAATTYQAVLDAERNPELFSSTGGIRPDQPGMPYMIDMDDPQHLLRRKLVNAGFTRKRVMDKVDSIGRLCDTLIDAVCERGECDFVRDIAAPLPMAVIGDMLGVLPTERDMLLKWSDDLVCGLSSHVDEAAIQKLMDTFAAYTEFTKDVITKRRAEPTDDLFSVLVNSEVEGQRMSDDEIVFETLLILIGGDETTRHTLSGGTEQLLRHRDQWDALVADVDLLPGAIEEMLRWTSPVKNMCRTLTADTVFHGTELRAGEKIMLMFESANFDESVFGDPDNFRIDRNPNSHVAFGFGTHFCLGNQLARLELRLMTERVLRRLPDLRLADDAPVPLRPANFVSGPESMPVVFTPSAPVLAHH 3zc0-a3-m4-cH_3zc0-a3-m1-cK Structure of AfC3PO - duplex RNA complex O28024 O28024 2.982 X-RAY DIFFRACTION 67 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 187 189 3zc0-a1-m1-cE_3zc0-a1-m2-cJ 3zc0-a1-m1-cF_3zc0-a1-m2-cI 3zc0-a1-m1-cH_3zc0-a1-m2-cK 3zc0-a1-m2-cL_3zc0-a1-m1-cG 3zc0-a2-m1-cA_3zc0-a2-m3-cB 3zc0-a2-m1-cD_3zc0-a2-m3-cC 3zc0-a2-m3-cA_3zc0-a2-m1-cB 3zc0-a2-m3-cD_3zc0-a2-m1-cC 3zc0-a3-m1-cI_3zc0-a3-m4-cF 3zc0-a3-m1-cJ_3zc0-a3-m4-cE 3zc0-a3-m1-cL_3zc0-a3-m4-cG 3zc1-a1-m1-cA_3zc1-a1-m1-cF 3zc1-a1-m1-cB_3zc1-a1-m1-cE 3zc1-a1-m1-cD_3zc1-a1-m1-cG 3zc1-a1-m1-cH_3zc1-a1-m1-cC MRLEECRKRLEELEAAREELLKVLREMRIHSTKSIALIHAGKVEEAEQELKKAIELLEKVKAYREYPEIYFYLCNDAMQELVEAIAFKNAISGEFTFEIDLEVTPAAFLNGFAAAVGELRRYALTKLIEGDFKSAERMLEVMEKIYERLMEFTTFPDKLVSGLRKKLDVARGGIERTKSDYIAAKVA MRLEECRKRLEELEAAREELLKVLREMRIHSTKSIALIHAGKVEEAEQELKKAIELLEKVKAYREYPEIYFYLCNDAMQELVEAIAFKNAISGEFTFEIDLEVTPAAFLNGFAAAVGELRRYALTKLIEGDFKSAERMLEVMEKIYERLMEFTTFPDKLVSGLRKKLDVARGGIERTKSDYIAAKVARL 3zc0-a3-m4-cH_3zc0-a3-m4-cG Structure of AfC3PO - duplex RNA complex O28024 O28024 2.982 X-RAY DIFFRACTION 34 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 187 189 3zc0-a1-m1-cE_3zc0-a1-m1-cF 3zc0-a1-m1-cG_3zc0-a1-m1-cF 3zc0-a1-m1-cH_3zc0-a1-m1-cE 3zc0-a1-m1-cH_3zc0-a1-m1-cG 3zc0-a1-m2-cI_3zc0-a1-m2-cJ 3zc0-a1-m2-cK_3zc0-a1-m2-cJ 3zc0-a1-m2-cL_3zc0-a1-m2-cI 3zc0-a1-m2-cL_3zc0-a1-m2-cK 3zc0-a2-m1-cA_3zc0-a2-m1-cB 3zc0-a2-m1-cC_3zc0-a2-m1-cB 3zc0-a2-m1-cD_3zc0-a2-m1-cA 3zc0-a2-m1-cD_3zc0-a2-m1-cC 3zc0-a2-m3-cA_3zc0-a2-m3-cB 3zc0-a2-m3-cC_3zc0-a2-m3-cB 3zc0-a2-m3-cD_3zc0-a2-m3-cA 3zc0-a2-m3-cD_3zc0-a2-m3-cC 3zc0-a3-m1-cI_3zc0-a3-m1-cJ 3zc0-a3-m1-cK_3zc0-a3-m1-cJ 3zc0-a3-m1-cL_3zc0-a3-m1-cI 3zc0-a3-m1-cL_3zc0-a3-m1-cK 3zc0-a3-m4-cE_3zc0-a3-m4-cF 3zc0-a3-m4-cG_3zc0-a3-m4-cF 3zc0-a3-m4-cH_3zc0-a3-m4-cE 3zc1-a1-m1-cA_3zc1-a1-m1-cB 3zc1-a1-m1-cC_3zc1-a1-m1-cB 3zc1-a1-m1-cD_3zc1-a1-m1-cA 3zc1-a1-m1-cD_3zc1-a1-m1-cC 3zc1-a1-m1-cE_3zc1-a1-m1-cF 3zc1-a1-m1-cG_3zc1-a1-m1-cF 3zc1-a1-m1-cH_3zc1-a1-m1-cE 3zc1-a1-m1-cH_3zc1-a1-m1-cG MRLEECRKRLEELEAAREELLKVLREMRIHSTKSIALIHAGKVEEAEQELKKAIELLEKVKAYREYPEIYFYLCNDAMQELVEAIAFKNAISGEFTFEIDLEVTPAAFLNGFAAAVGELRRYALTKLIEGDFKSAERMLEVMEKIYERLMEFTTFPDKLVSGLRKKLDVARGGIERTKSDYIAAKVA MRLEECRKRLEELEAAREELLKVLREMRIHSTKSIALIHAGKVEEAEQELKKAIELLEKVKAYREYPEIYFYLCNDAMQELVEAIAFKNAISGEFTFEIDLEVTPAAFLNGFAAAVGELRRYALTKLIEGDFKSAERMLEVMEKIYERLMEFTTFPDKLVSGLRKKLDVARGGIERTKSDYIAAKVARL 3zc9-a1-m1-cA_3zc9-a1-m2-cA Crystal Structure of Murraya koenigii Miraculin-Like Protein at 2.2 A resolution at pH 4.6 D2YW43 D2YW43 2.24 X-RAY DIFFRACTION 54 1.0 182 182 3iir-a1-m1-cA_3iir-a1-m1-cB DPLLDINGNVVEASRDYYLVSVIGGAGGGGLTLYRGRNELCPLDVIQLSPDLHKGTRLRFAAYNNTSIIHEAVDLNVKFSTETSCNEPTVWRVDNYDPSRGKWFITTGGVEGNPGAQTLKNWFKLERVGTDQGTYEIVHCPSVCKSCVFLCNDVGVSYDYRRRLALTAGNERVFGVVIVPAN DPLLDINGNVVEASRDYYLVSVIGGAGGGGLTLYRGRNELCPLDVIQLSPDLHKGTRLRFAAYNNTSIIHEAVDLNVKFSTETSCNEPTVWRVDNYDPSRGKWFITTGGVEGNPGAQTLKNWFKLERVGTDQGTYEIVHCPSVCKSCVFLCNDVGVSYDYRRRLALTAGNERVFGVVIVPAN 3zcc-a1-m1-cA_3zcc-a1-m1-cB High resolution structure of the asymmetric R333G Hamp-Dhp mutant P0AEJ4 P0AEJ4 1.25 X-RAY DIFFRACTION 172 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 110 110 3zrx-a1-m1-cB_3zrx-a1-m1-cA 5b1n-a1-m1-cA_5b1n-a1-m2-cA STITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDGTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYL STITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDGTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYL 3zco-a1-m1-cA_3zco-a1-m2-cA Crystal structure of S. cerevisiae Sir3 C-terminal domain P06701 P06701 2.7 X-RAY DIFFRACTION 59 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 127 127 ETISKKIIGMSLLMRTFLYTLAQETEGTNRHTLALETVLIKMVKMLRDNPGYKASKEIKKVICGAWEPAITIEKLKQFSWISVVNDLVGEKLVVVVLEEPSASIMVELKLPLEINYAFSMDEEFKNM ETISKKIIGMSLLMRTFLYTLAQETEGTNRHTLALETVLIKMVKMLRDNPGYKASKEIKKVICGAWEPAITIEKLKQFSWISVVNDLVGEKLVVVVLEEPSASIMVELKLPLEINYAFSMDEEFKNM 3zd2-a1-m1-cB_3zd2-a1-m1-cA THE STRUCTURE OF THE TWO N-TERMINAL DOMAINS OF COMPLEMENT FACTOR H RELATED PROTEIN 1 SHOWS FORMATION OF A NOVEL DIMERISATION INTERFACE Q03591 Q03591 1.99 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 125 ATFCDFPKINHGILYDEEKYSQVPTGEVFYYSCEYNFVSPSKSFWTRITCTEEGWSPTPKCLRLCFFPFVENGHSESSGQTHLEGDTVQIICNTGYRLQNNENNISCVERGWSTPPKCR EATFCDFPKINHGILYDEEKYKPFSQVPTGEVFYYSCEYNFVSPSKSFWTRITCTEEGWSPTPKCLRLCFFPFVENGHSESSGQTHLEGDTVQIICNTGYRLQNNENNISCVERGWSTPPKCRST 3zdm-a1-m1-cA_3zdm-a1-m1-cD Crystal structure of the Sgt2 N domain and the Get5 UBL domain complex Q12118 Q12118 1.803 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 69 69 SASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILN SASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILN 3zdm-a1-m1-cE_3zdm-a1-m1-cA Crystal structure of the Sgt2 N domain and the Get5 UBL domain complex Q12118 Q12118 1.803 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 50 69 3zdm-a1-m1-cB_3zdm-a1-m1-cD SASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAV SASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILN 3zdm-a1-m1-cE_3zdm-a1-m1-cD Crystal structure of the Sgt2 N domain and the Get5 UBL domain complex Q12118 Q12118 1.803 X-RAY DIFFRACTION 43 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 50 69 3zdm-a1-m1-cB_3zdm-a1-m1-cA 4asv-a1-m1-cA_4asv-a1-m1-cB 4asw-a1-m1-cA_4asw-a1-m1-cB SASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAV SASKEEIAALIVNYFSSIVEKKEISEDGADSLNVAMDCISEAFGFEREAVSGILGKSEFKGQHLADILN 3zdq-a1-m1-cA_3zdq-a1-m2-cA STRUCTURE OF THE HUMAN MITOCHONDRIAL ABC TRANSPORTER, ABCB10 (NUCLEOTIDE-FREE FORM) Q9NRK6 Q9NRK6 2.85 X-RAY DIFFRACTION 272 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 570 570 4ayt-a1-m1-cA_4ayt-a1-m2-cA 4ayw-a1-m1-cA_4ayw-a1-m2-cA 4ayx-a1-m1-cA_4ayx-a1-m2-cA GLPEARKLLGLAYPERRRLAAAVGFLTMSSVISMSAPFFLGKIIDVIYTNPTVDYSDNLTRLCLGLSAVFLCGAAANAIRVYLMQTSGQRIVNRLRTSLFSSILRQEVAFFDKTRTGELINRLSSDTALLGRSVTENLSDGLRAGAQASVGISMMFFVSPNLATFVLSVVPPVSIIAVIYGRYLRKLTKVTQDSLAQATQLAEERIGNVRTVRAFGKEMTEIEKYASKVDHVMQLARKEAFARAGFFGATGLSGNLIVLSVLYKGGLLMGSAHMTVGELSSFLMYAFWVGISIGGLSSFYSELMKGLGAGGRLWELLEREPKLPFNEGVILNEKSFQGALEFKNVHFAYPARPEVPIFQDFSLSIPSGSVTALVGPSGSGKSTVLSLLLRLYDPASGTISLDGHDIRQLNPVWLRSKIGTVSQEPILFSCSIAENIAYGADDPSSVTAEEIQRVAEVANAVAFIRNFPQGFNTVVGEKGVLLSGGQKQRIAIARALLKNPKILLLDEATSALDAENEYLVQEALDRLMDGRTVLVIAHRLSTIKNANMVAVLDQGKITEYGKHEELLSKP GLPEARKLLGLAYPERRRLAAAVGFLTMSSVISMSAPFFLGKIIDVIYTNPTVDYSDNLTRLCLGLSAVFLCGAAANAIRVYLMQTSGQRIVNRLRTSLFSSILRQEVAFFDKTRTGELINRLSSDTALLGRSVTENLSDGLRAGAQASVGISMMFFVSPNLATFVLSVVPPVSIIAVIYGRYLRKLTKVTQDSLAQATQLAEERIGNVRTVRAFGKEMTEIEKYASKVDHVMQLARKEAFARAGFFGATGLSGNLIVLSVLYKGGLLMGSAHMTVGELSSFLMYAFWVGISIGGLSSFYSELMKGLGAGGRLWELLEREPKLPFNEGVILNEKSFQGALEFKNVHFAYPARPEVPIFQDFSLSIPSGSVTALVGPSGSGKSTVLSLLLRLYDPASGTISLDGHDIRQLNPVWLRSKIGTVSQEPILFSCSIAENIAYGADDPSSVTAEEIQRVAEVANAVAFIRNFPQGFNTVVGEKGVLLSGGQKQRIAIARALLKNPKILLLDEATSALDAENEYLVQEALDRLMDGRTVLVIAHRLSTIKNANMVAVLDQGKITEYGKHEELLSKP 3zdr-a1-m1-cA_3zdr-a1-m2-cA Structure of the Alcohol dehydrogenase (ADH) domain of a bifunctional ADHE dehydrogenase from Geobacillus thermoglucosidasius NCIMB 11955 2.504 X-RAY DIFFRACTION 124 1.0 1426 (Parageobacillus thermoglucosidasius) 1426 (Parageobacillus thermoglucosidasius) 402 402 NMQWFKVPPKIYFEKNAVQYLAKMPDISRAFIVTDPGMVKLGYVDKVLYYLRRRPDYVHSEIFSEVEPDPSIETVMKGVDMMRSFEPDVIIALGGGSPMDAAKAMWLFYEHPTADFNALKQKFLDIRKRVYKYPKLGQKAKFVAIPTTSGTGSEVTSFAVITDKKTNIKYPLADYELTPDVAIVDPQFVMTVPKHVTADTGMDVLTHAIEAYVSNMANDYTDGLAMKAIQLVFEYLPRAYQNGADELAREKMHNASTIAGMAFANAFLGINHSLAHKLGAEFHIPHGRANTILMPHVIRYNAAKPKKYFKADQRYAEIARMLGLPARTTEEGVESLVQAIIKLAKQLDMPLSIEACGVSKQEFESKVEKLAELAFEDQTTANPKLPLVSDLVHIYRQAFKGV NMQWFKVPPKIYFEKNAVQYLAKMPDISRAFIVTDPGMVKLGYVDKVLYYLRRRPDYVHSEIFSEVEPDPSIETVMKGVDMMRSFEPDVIIALGGGSPMDAAKAMWLFYEHPTADFNALKQKFLDIRKRVYKYPKLGQKAKFVAIPTTSGTGSEVTSFAVITDKKTNIKYPLADYELTPDVAIVDPQFVMTVPKHVTADTGMDVLTHAIEAYVSNMANDYTDGLAMKAIQLVFEYLPRAYQNGADELAREKMHNASTIAGMAFANAFLGINHSLAHKLGAEFHIPHGRANTILMPHVIRYNAAKPKKYFKADQRYAEIARMLGLPARTTEEGVESLVQAIIKLAKQLDMPLSIEACGVSKQEFESKVEKLAELAFEDQTTANPKLPLVSDLVHIYRQAFKGV 3zds-a5-m1-cL_3zds-a5-m13-cK Structure of homogentisate 1,2-dioxygenase in complex with reaction intermediates of homogentisate with oxygen. Q88E47 Q88E47 1.7 X-RAY DIFFRACTION 80 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 426 426 3zds-a1-m1-cA_3zds-a1-m1-cD 3zds-a1-m1-cC_3zds-a1-m1-cE 3zds-a1-m1-cG_3zds-a1-m1-cB 3zds-a2-m1-cH_3zds-a2-m2-cJ 3zds-a2-m1-cI_3zds-a2-m3-cF 3zds-a2-m1-cK_3zds-a2-m4-cL 3zds-a3-m1-cJ_3zds-a3-m7-cH 3zds-a3-m5-cF_3zds-a3-m7-cI 3zds-a3-m6-cL_3zds-a3-m7-cK 3zds-a4-m10-cH_3zds-a4-m8-cJ 3zds-a4-m10-cK_3zds-a4-m9-cL 3zds-a4-m1-cF_3zds-a4-m10-cI 3zds-a5-m11-cF_3zds-a5-m13-cI 3zds-a5-m12-cJ_3zds-a5-m13-cH 4aq2-a1-m1-cD_4aq2-a1-m1-cA 4aq2-a1-m1-cE_4aq2-a1-m1-cB 4aq2-a1-m1-cF_4aq2-a1-m1-cC 4aq2-a2-m1-cG_4aq2-a2-m1-cJ 4aq2-a2-m1-cH_4aq2-a2-m1-cK 4aq2-a2-m1-cL_4aq2-a2-m1-cI 4aq6-a1-m1-cA_4aq6-a1-m1-cD 4aq6-a1-m1-cB_4aq6-a1-m1-cE 4aq6-a1-m1-cC_4aq6-a1-m1-cF 4aq6-a2-m1-cG_4aq6-a2-m1-cJ 4aq6-a2-m1-cH_4aq6-a2-m1-cK 4aq6-a2-m1-cL_4aq6-a2-m1-cI DLHYLSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELLSGTAFTMARSELRRTWLYRIRPSALHPRFERLARQPLGGPLGGINPNRLRWSPQPIPAEPTDFIEGWLPMAANAGAEKPAGVSIYIYRANRSMERVFFNADGELLLVPEQGRLRIATELGVMEVEPLEIAVIPRGMKFRVELLDGQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLTPVAHYEEAEGPVQLVQKFLGEHWACELQHSPLDVVAWHGSNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGMANMDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLINGAYDAKAEGFLPGGASLHGVMSAHGPDAETCEKAIAADLAPHKIDNTMAFMFETSQVLRPSLQALECPQLQADYDSCWATLPSTFNPNRR DLHYLSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELLSGTAFTMARSELRRTWLYRIRPSALHPRFERLARQPLGGPLGGINPNRLRWSPQPIPAEPTDFIEGWLPMAANAGAEKPAGVSIYIYRANRSMERVFFNADGELLLVPEQGRLRIATELGVMEVEPLEIAVIPRGMKFRVELLDGQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLTPVAHYEEAEGPVQLVQKFLGEHWACELQHSPLDVVAWHGSNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGMANMDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLINGAYDAKAEGFLPGGASLHGVMSAHGPDAETCEKAIAADLAPHKIDNTMAFMFETSQVLRPSLQALECPQLQADYDSCWATLPSTFNPNRR 3zds-a5-m12-cJ_3zds-a5-m13-cK Structure of homogentisate 1,2-dioxygenase in complex with reaction intermediates of homogentisate with oxygen. Q88E47 Q88E47 1.7 X-RAY DIFFRACTION 125 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 426 426 3zds-a1-m1-cA_3zds-a1-m1-cG 3zds-a1-m1-cB_3zds-a1-m1-cE 3zds-a1-m1-cC_3zds-a1-m1-cD 3zds-a2-m1-cH_3zds-a2-m3-cF 3zds-a2-m1-cI_3zds-a2-m4-cL 3zds-a2-m1-cK_3zds-a2-m2-cJ 3zds-a3-m1-cJ_3zds-a3-m7-cK 3zds-a3-m5-cF_3zds-a3-m7-cH 3zds-a3-m6-cL_3zds-a3-m7-cI 3zds-a4-m10-cI_3zds-a4-m9-cL 3zds-a4-m10-cK_3zds-a4-m8-cJ 3zds-a4-m1-cF_3zds-a4-m10-cH 3zds-a5-m11-cF_3zds-a5-m13-cH 3zds-a5-m1-cL_3zds-a5-m13-cI 4aq2-a1-m1-cC_4aq2-a1-m1-cD 4aq2-a1-m1-cE_4aq2-a1-m1-cA 4aq2-a1-m1-cF_4aq2-a1-m1-cB 4aq2-a2-m1-cG_4aq2-a2-m1-cK 4aq2-a2-m1-cI_4aq2-a2-m1-cJ 4aq2-a2-m1-cL_4aq2-a2-m1-cH 4aq6-a1-m1-cA_4aq6-a1-m1-cE 4aq6-a1-m1-cB_4aq6-a1-m1-cF 4aq6-a1-m1-cC_4aq6-a1-m1-cD 4aq6-a2-m1-cG_4aq6-a2-m1-cK 4aq6-a2-m1-cH_4aq6-a2-m1-cL 4aq6-a2-m1-cJ_4aq6-a2-m1-cI DLHYLSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELLSGTAFTMARSELRRTWLYRIRPSALHPRFERLARQPLGGPLGGINPNRLRWSPQPIPAEPTDFIEGWLPMAANAGAEKPAGVSIYIYRANRSMERVFFNADGELLLVPEQGRLRIATELGVMEVEPLEIAVIPRGMKFRVELLDGQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLTPVAHYEEAEGPVQLVQKFLGEHWACELQHSPLDVVAWHGSNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGMANMDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLINGAYDAKAEGFLPGGASLHGVMSAHGPDAETCEKAIAADLAPHKIDNTMAFMFETSQVLRPSLQALECPQLQADYDSCWATLPSTFNPNRR DLHYLSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELLSGTAFTMARSELRRTWLYRIRPSALHPRFERLARQPLGGPLGGINPNRLRWSPQPIPAEPTDFIEGWLPMAANAGAEKPAGVSIYIYRANRSMERVFFNADGELLLVPEQGRLRIATELGVMEVEPLEIAVIPRGMKFRVELLDGQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLTPVAHYEEAEGPVQLVQKFLGEHWACELQHSPLDVVAWHGSNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGMANMDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLINGAYDAKAEGFLPGGASLHGVMSAHGPDAETCEKAIAADLAPHKIDNTMAFMFETSQVLRPSLQALECPQLQADYDSCWATLPSTFNPNRR 3zds-a5-m13-cI_3zds-a5-m13-cK Structure of homogentisate 1,2-dioxygenase in complex with reaction intermediates of homogentisate with oxygen. Q88E47 Q88E47 1.7 X-RAY DIFFRACTION 143 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 426 426 3zds-a1-m1-cA_3zds-a1-m1-cB 3zds-a1-m1-cA_3zds-a1-m1-cC 3zds-a1-m1-cB_3zds-a1-m1-cC 3zds-a1-m1-cD_3zds-a1-m1-cE 3zds-a1-m1-cG_3zds-a1-m1-cD 3zds-a1-m1-cG_3zds-a1-m1-cE 3zds-a2-m1-cH_3zds-a2-m1-cI 3zds-a2-m1-cH_3zds-a2-m1-cK 3zds-a2-m1-cI_3zds-a2-m1-cK 3zds-a2-m2-cJ_3zds-a2-m3-cF 3zds-a2-m2-cJ_3zds-a2-m4-cL 3zds-a2-m3-cF_3zds-a2-m4-cL 3zds-a3-m1-cJ_3zds-a3-m5-cF 3zds-a3-m1-cJ_3zds-a3-m6-cL 3zds-a3-m5-cF_3zds-a3-m6-cL 3zds-a3-m7-cH_3zds-a3-m7-cI 3zds-a3-m7-cH_3zds-a3-m7-cK 3zds-a3-m7-cI_3zds-a3-m7-cK 3zds-a4-m10-cH_3zds-a4-m10-cI 3zds-a4-m10-cH_3zds-a4-m10-cK 3zds-a4-m10-cI_3zds-a4-m10-cK 3zds-a4-m1-cF_3zds-a4-m8-cJ 3zds-a4-m1-cF_3zds-a4-m9-cL 3zds-a4-m8-cJ_3zds-a4-m9-cL 3zds-a5-m11-cF_3zds-a5-m12-cJ 3zds-a5-m13-cH_3zds-a5-m13-cI 3zds-a5-m13-cH_3zds-a5-m13-cK 3zds-a5-m1-cL_3zds-a5-m11-cF 3zds-a5-m1-cL_3zds-a5-m12-cJ 4aq2-a1-m1-cA_4aq2-a1-m1-cB 4aq2-a1-m1-cC_4aq2-a1-m1-cA 4aq2-a1-m1-cC_4aq2-a1-m1-cB 4aq2-a1-m1-cE_4aq2-a1-m1-cD 4aq2-a1-m1-cE_4aq2-a1-m1-cF 4aq2-a1-m1-cF_4aq2-a1-m1-cD 4aq2-a2-m1-cG_4aq2-a2-m1-cH 4aq2-a2-m1-cG_4aq2-a2-m1-cI 4aq2-a2-m1-cI_4aq2-a2-m1-cH 4aq2-a2-m1-cJ_4aq2-a2-m1-cK 4aq2-a2-m1-cL_4aq2-a2-m1-cJ 4aq2-a2-m1-cL_4aq2-a2-m1-cK 4aq6-a1-m1-cA_4aq6-a1-m1-cB 4aq6-a1-m1-cA_4aq6-a1-m1-cC 4aq6-a1-m1-cB_4aq6-a1-m1-cC 4aq6-a1-m1-cE_4aq6-a1-m1-cD 4aq6-a1-m1-cF_4aq6-a1-m1-cD 4aq6-a1-m1-cF_4aq6-a1-m1-cE 4aq6-a2-m1-cG_4aq6-a2-m1-cH 4aq6-a2-m1-cG_4aq6-a2-m1-cI 4aq6-a2-m1-cH_4aq6-a2-m1-cI 4aq6-a2-m1-cJ_4aq6-a2-m1-cK 4aq6-a2-m1-cJ_4aq6-a2-m1-cL 4aq6-a2-m1-cL_4aq6-a2-m1-cK DLHYLSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELLSGTAFTMARSELRRTWLYRIRPSALHPRFERLARQPLGGPLGGINPNRLRWSPQPIPAEPTDFIEGWLPMAANAGAEKPAGVSIYIYRANRSMERVFFNADGELLLVPEQGRLRIATELGVMEVEPLEIAVIPRGMKFRVELLDGQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLTPVAHYEEAEGPVQLVQKFLGEHWACELQHSPLDVVAWHGSNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGMANMDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLINGAYDAKAEGFLPGGASLHGVMSAHGPDAETCEKAIAADLAPHKIDNTMAFMFETSQVLRPSLQALECPQLQADYDSCWATLPSTFNPNRR DLHYLSGFGNEFASEALPGALPVGQNSPQKAPYGLYAELLSGTAFTMARSELRRTWLYRIRPSALHPRFERLARQPLGGPLGGINPNRLRWSPQPIPAEPTDFIEGWLPMAANAGAEKPAGVSIYIYRANRSMERVFFNADGELLLVPEQGRLRIATELGVMEVEPLEIAVIPRGMKFRVELLDGQARGYIAENHGAPLRLPDLGPIGSNGLANPRDFLTPVAHYEEAEGPVQLVQKFLGEHWACELQHSPLDVVAWHGSNVPYKYDLRRFNTIGTVSFDHPDPSIFTVLTSPTSVHGMANMDFVIFPPRWMVAENTFRPPWFHRNLMNEFMGLINGAYDAKAEGFLPGGASLHGVMSAHGPDAETCEKAIAADLAPHKIDNTMAFMFETSQVLRPSLQALECPQLQADYDSCWATLPSTFNPNRR 3zdu-a1-m1-cA_3zdu-a1-m2-cA Crystal structure of the human CDKL3 kinase domain Q8IVW4 Q8IVW4 2.2 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 MEMYETLGKVGEGSYGTVMKCKHKNTGQIVAIKIFYNKIAMREIKFLKQFHHENLVNLIEVFRQKKKIHLVFEFIDHTVLDELQHYCHGLESKRLRKYLFQILRAIDYLHSNNIIHRDIKPENILVSQSGITKLCDFGFARTDIYDDEVATRWYRAPELVLKDTSYGKPVDIWALGCMIIEMATGNPYLPSSSDLDLLHKIVLKVGNLSPHLQNIFSKSPIFAGVVLPQVQHPKNARKKYPKLNGLLADIVHACLQIDPADRISSSDLLHHEYFTRDGFIEKFMPELKAKLLQEAKV MEMYETLGKVGEGSYGTVMKCKHKNTGQIVAIKIFYNKIAMREIKFLKQFHHENLVNLIEVFRQKKKIHLVFEFIDHTVLDELQHYCHGLESKRLRKYLFQILRAIDYLHSNNIIHRDIKPENILVSQSGITKLCDFGFARTDIYDDEVATRWYRAPELVLKDTSYGKPVDIWALGCMIIEMATGNPYLPSSSDLDLLHKIVLKVGNLSPHLQNIFSKSPIFAGVVLPQVQHPKNARKKYPKLNGLLADIVHACLQIDPADRISSSDLLHHEYFTRDGFIEKFMPELKAKLLQEAKV 3zdv-a1-m1-cA_3zdv-a1-m1-cD Crystal structure of the LecB lectin from Pseudomonas aeruginosa in complex with Methyl 6-(2,4,6-trimethylphenylsulfonylamido)-6-deoxy-alpha-D-mannopyranoside Q9HYN5 Q9HYN5 1.41 X-RAY DIFFRACTION 38 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 114 114 1gzt-a1-m1-cA_1gzt-a1-m1-cD 1gzt-a1-m1-cB_1gzt-a1-m1-cC 1our-a1-m1-cA_1our-a1-m4-cA 1our-a1-m2-cA_1our-a1-m3-cA 1ous-a1-m1-cB_1ous-a1-m1-cC 1ous-a1-m1-cD_1ous-a1-m1-cA 1oux-a1-m1-cA_1oux-a1-m1-cD 1oux-a1-m1-cB_1oux-a1-m1-cC 1ovp-a1-m1-cA_1ovp-a1-m4-cA 1ovp-a1-m2-cA_1ovp-a1-m3-cA 1ovs-a1-m1-cA_1ovs-a1-m1-cD 1ovs-a1-m1-cB_1ovs-a1-m1-cC 1oxc-a1-m1-cA_1oxc-a1-m1-cD 1oxc-a1-m1-cB_1oxc-a1-m1-cC 1uzv-a1-m1-cA_1uzv-a1-m1-cD 1uzv-a1-m1-cB_1uzv-a1-m1-cC 1w8f-a1-m1-cA_1w8f-a1-m1-cD 1w8f-a1-m1-cB_1w8f-a1-m1-cC 1w8h-a1-m1-cA_1w8h-a1-m1-cB 1w8h-a1-m1-cC_1w8h-a1-m1-cD 2boj-a1-m1-cA_2boj-a1-m1-cD 2boj-a1-m1-cB_2boj-a1-m1-cC 2bp6-a1-m1-cA_2bp6-a1-m1-cC 2bp6-a1-m1-cB_2bp6-a1-m1-cD 2jdh-a1-m1-cA_2jdh-a1-m1-cD 2jdh-a1-m1-cB_2jdh-a1-m1-cC 2jdk-a1-m1-cA_2jdk-a1-m1-cD 2jdk-a1-m1-cB_2jdk-a1-m1-cC 2jdm-a1-m1-cA_2jdm-a1-m1-cD 2jdm-a1-m1-cB_2jdm-a1-m1-cC 2jdn-a1-m1-cA_2jdn-a1-m1-cD 2jdn-a1-m1-cB_2jdn-a1-m1-cC 2jdp-a1-m1-cA_2jdp-a1-m1-cD 2jdp-a1-m1-cB_2jdp-a1-m1-cC 2jdu-a1-m1-cA_2jdu-a1-m1-cC 2jdu-a1-m1-cB_2jdu-a1-m1-cD 2jdy-a1-m1-cA_2jdy-a1-m1-cD 2jdy-a1-m1-cB_2jdy-a1-m1-cC 2vuc-a1-m1-cA_2vuc-a1-m1-cD 2vuc-a1-m1-cB_2vuc-a1-m1-cC 2vud-a1-m1-cA_2vud-a1-m1-cD 2vud-a1-m1-cB_2vud-a1-m1-cC 3dcq-a1-m1-cA_3dcq-a1-m1-cD 3dcq-a1-m1-cB_3dcq-a1-m1-cC 3zdv-a1-m1-cB_3zdv-a1-m1-cC 4ce8-a1-m1-cA_4ce8-a1-m1-cD 4ce8-a1-m1-cC_4ce8-a1-m1-cB 4ut5-a1-m1-cA_4ut5-a1-m1-cD 4ut5-a1-m1-cB_4ut5-a1-m1-cC 5a3o-a1-m1-cA_5a3o-a1-m1-cD 5a3o-a1-m1-cB_5a3o-a1-m1-cC 5hch-a1-m1-cA_5hch-a1-m2-cA 5hch-a1-m3-cA_5hch-a1-m4-cA 5i8x-a1-m1-cA_5i8x-a1-m1-cC 5i8x-a1-m1-cB_5i8x-a1-m1-cD 5nes-a1-m1-cA_5nes-a1-m1-cD 5nes-a1-m1-cB_5nes-a1-m1-cC 5ney-a1-m1-cA_5ney-a1-m1-cC 5ney-a1-m1-cB_5ney-a1-m1-cD 5nf0-a1-m1-cA_5nf0-a1-m1-cD 5nf0-a1-m1-cB_5nf0-a1-m1-cC 5ngq-a1-m1-cA_5ngq-a1-m1-cD 5ngq-a1-m1-cB_5ngq-a1-m1-cC 6r35-a1-m1-cA_6r35-a1-m1-cD 6r35-a1-m1-cB_6r35-a1-m1-cC 6s5p-a1-m1-cA_6s5p-a1-m1-cD 6s5p-a1-m1-cB_6s5p-a1-m1-cC 6s7g-a1-m1-cA_6s7g-a1-m1-cB 6s7g-a1-m1-cC_6s7g-a1-m1-cD 6y0u-a1-m1-cA_6y0u-a1-m1-cC 6y0u-a1-m1-cB_6y0u-a1-m1-cD 6y0v-a1-m1-cA_6y0v-a1-m1-cD 6y0v-a1-m1-cB_6y0v-a1-m1-cC 7nef-a1-m1-cA_7nef-a1-m1-cD 7nef-a1-m1-cB_7nef-a1-m1-cC 7nef-a1-m1-cE_7nef-a1-m1-cH 7nef-a1-m1-cF_7nef-a1-m1-cG 7prg-a1-m1-cA_7prg-a1-m1-cD 7prg-a1-m1-cB_7prg-a1-m1-cC 7psy-a1-m1-cA_7psy-a1-m1-cD 7psy-a1-m1-cB_7psy-a1-m1-cC 8aij-a1-m1-cAAA_8aij-a1-m1-cDDD 8aij-a1-m1-cBBB_8aij-a1-m1-cCCC 8aiy-a1-m1-cAAA_8aiy-a1-m1-cDDD 8aiy-a1-m1-cBBB_8aiy-a1-m1-cCCC 8an9-a1-m1-cA_8an9-a1-m1-cD 8an9-a1-m1-cB_8an9-a1-m1-cC 8ano-a1-m1-cA_8ano-a1-m1-cD 8ano-a1-m1-cB_8ano-a1-m1-cC 8anr-a1-m1-cA_8anr-a1-m4-cB 8anr-a1-m2-cA_8anr-a1-m3-cB 8aoo-a1-m1-cA_8aoo-a1-m1-cD 8aoo-a1-m1-cB_8aoo-a1-m1-cC ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG 3ze3-a1-m1-cE_3ze3-a1-m1-cF Crystal structure of the integral membrane diacylglycerol kinase - delta7 P0ABN1 P0ABN1 2.05 X-RAY DIFFRACTION 81 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 83 88 7dvm-a1-m1-cA_7dvm-a1-m1-cB 7dvm-a1-m1-cA_7dvm-a1-m1-cC 7dvm-a1-m1-cB_7dvm-a1-m1-cC VAVLLCVVIAAVDAVTRVLLISSVMLVMIVELLNSAIEAVVDRIGSEYHELSGRAKDLGSAAVLIAIIDAVITWAILLWSHFG EGVAVLLCVVIAAWLDVDAVTRVLLISSVMLVMIVELLNSAIEAVVDRIGSEYHELSGRAKDLGSAAVLIAIIDAVITWAILLWSHFG 3zei-a1-m1-cA_3zei-a1-m2-cA Structure of the Mycobacterium tuberculosis O-Acetylserine Sulfhydrylase (OASS) CysK1 in complex with a small molecule inhibitor P9WP55 P9WP55 2 X-RAY DIFFRACTION 141 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 300 300 2q3b-a1-m1-cA_2q3b-a1-m2-cA 2q3c-a1-m1-cA_2q3c-a1-m2-cA 2q3d-a1-m1-cA_2q3d-a1-m2-cA MSIAEDITQLIGRTPLVRLRRVTDGAVADIVAKLEFFNPANSVKDRIGVAMLQAAEQAGLIKPDTIILEPTSGNTGIALAMVCAARGYRCVLTMPETMSLERRMLLRAYGAELILTPGADGMSGAIAKAEELAKTDQRYFVPQQFENPANPAIHRVTTAEEVWRDTDGKVDIVVAGVGTGGTITGVAQVIKERKPSARFVAVEPAASPVLSGGQKGPHPIQGIGAGFVPPVLDQDLVDEIITVGNEDALNVARRLAREEGLLVGISSGAATVAALQVARRPENAGKLIVVVLPDFGERYL MSIAEDITQLIGRTPLVRLRRVTDGAVADIVAKLEFFNPANSVKDRIGVAMLQAAEQAGLIKPDTIILEPTSGNTGIALAMVCAARGYRCVLTMPETMSLERRMLLRAYGAELILTPGADGMSGAIAKAEELAKTDQRYFVPQQFENPANPAIHRVTTAEEVWRDTDGKVDIVVAGVGTGGTITGVAQVIKERKPSARFVAVEPAASPVLSGGQKGPHPIQGIGAGFVPPVLDQDLVDEIITVGNEDALNVARRLAREEGLLVGISSGAATVAALQVARRPENAGKLIVVVLPDFGERYL 3zf8-a1-m1-cA_3zf8-a1-m2-cA Crystal structure of Saccharomyces cerevisiae Mnn9 in complex with GDP and Mn. P39107 P39107 1.98 X-RAY DIFFRACTION 144 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 288 288 HIAHYDLNKLHSTSEAAVNKEHILILTPMQTFHQQYWDNLLQLNYPRELIELGFITPRTATGDLALKKLENAIKKVQTDKKTQRFSKITILRQNSALDVQKERRAAMALARNELLFSTIGPHTSWVLWLNADIIETPPSLIQDMTKHNKAILAANIYQRFYDEEKKQPSIRPYDFNNWQESDTGLEIASQMGDDEIIVEGYAEIATYRPLMAHFYDANGVPGEEMALDGVGGGCTLVKAEVHRDGAMFPNFPFYHLIETEGFAKMAKRLNYDVFGLPNYLVYHIEEEN HIAHYDLNKLHSTSEAAVNKEHILILTPMQTFHQQYWDNLLQLNYPRELIELGFITPRTATGDLALKKLENAIKKVQTDKKTQRFSKITILRQNSALDVQKERRAAMALARNELLFSTIGPHTSWVLWLNADIIETPPSLIQDMTKHNKAILAANIYQRFYDEEKKQPSIRPYDFNNWQESDTGLEIASQMGDDEIIVEGYAEIATYRPLMAHFYDANGVPGEEMALDGVGGGCTLVKAEVHRDGAMFPNFPFYHLIETEGFAKMAKRLNYDVFGLPNYLVYHIEEEN 3zfe-a1-m23-cA_3zfe-a1-m9-cA Human enterovirus 71 in complex with capsid binding inhibitor WIN51711 A9X4C2 A9X4C2 2.7 X-RAY DIFFRACTION 22 1.0 39054 (Enterovirus A71) 39054 (Enterovirus A71) 296 296 3vbf-a1-m10-cA_3vbf-a1-m5-cA 3vbf-a1-m11-cA_3vbf-a1-m37-cA 3vbf-a1-m12-cA_3vbf-a1-m46-cA 3vbf-a1-m13-cA_3vbf-a1-m44-cA 3vbf-a1-m14-cA_3vbf-a1-m28-cA 3vbf-a1-m15-cA_3vbf-a1-m20-cA 3vbf-a1-m16-cA_3vbf-a1-m27-cA 3vbf-a1-m17-cA_3vbf-a1-m51-cA 3vbf-a1-m18-cA_3vbf-a1-m59-cA 3vbf-a1-m19-cA_3vbf-a1-m38-cA 3vbf-a1-m1-cA_3vbf-a1-m22-cA 3vbf-a1-m21-cA_3vbf-a1-m42-cA 3vbf-a1-m23-cA_3vbf-a1-m9-cA 3vbf-a1-m24-cA_3vbf-a1-m53-cA 3vbf-a1-m25-cA_3vbf-a1-m30-cA 3vbf-a1-m26-cA_3vbf-a1-m52-cA 3vbf-a1-m29-cA_3vbf-a1-m43-cA 3vbf-a1-m2-cA_3vbf-a1-m41-cA 3vbf-a1-m31-cA_3vbf-a1-m57-cA 3vbf-a1-m32-cA_3vbf-a1-m6-cA 3vbf-a1-m33-cA_3vbf-a1-m4-cA 3vbf-a1-m34-cA_3vbf-a1-m48-cA 3vbf-a1-m35-cA_3vbf-a1-m40-cA 3vbf-a1-m36-cA_3vbf-a1-m47-cA 3vbf-a1-m39-cA_3vbf-a1-m58-cA 3vbf-a1-m3-cA_3vbf-a1-m49-cA 3vbf-a1-m45-cA_3vbf-a1-m50-cA 3vbf-a1-m54-cA_3vbf-a1-m8-cA 3vbf-a1-m55-cA_3vbf-a1-m60-cA 3vbf-a1-m56-cA_3vbf-a1-m7-cA 3vbh-a1-m10-cA_3vbh-a1-m5-cA 3vbh-a1-m11-cA_3vbh-a1-m37-cA 3vbh-a1-m12-cA_3vbh-a1-m46-cA 3vbh-a1-m13-cA_3vbh-a1-m44-cA 3vbh-a1-m14-cA_3vbh-a1-m28-cA 3vbh-a1-m15-cA_3vbh-a1-m20-cA 3vbh-a1-m16-cA_3vbh-a1-m27-cA 3vbh-a1-m17-cA_3vbh-a1-m51-cA 3vbh-a1-m18-cA_3vbh-a1-m59-cA 3vbh-a1-m19-cA_3vbh-a1-m38-cA 3vbh-a1-m1-cA_3vbh-a1-m22-cA 3vbh-a1-m21-cA_3vbh-a1-m42-cA 3vbh-a1-m23-cA_3vbh-a1-m9-cA 3vbh-a1-m24-cA_3vbh-a1-m53-cA 3vbh-a1-m25-cA_3vbh-a1-m30-cA 3vbh-a1-m26-cA_3vbh-a1-m52-cA 3vbh-a1-m29-cA_3vbh-a1-m43-cA 3vbh-a1-m2-cA_3vbh-a1-m41-cA 3vbh-a1-m31-cA_3vbh-a1-m57-cA 3vbh-a1-m32-cA_3vbh-a1-m6-cA 3vbh-a1-m33-cA_3vbh-a1-m4-cA 3vbh-a1-m34-cA_3vbh-a1-m48-cA 3vbh-a1-m35-cA_3vbh-a1-m40-cA 3vbh-a1-m36-cA_3vbh-a1-m47-cA 3vbh-a1-m39-cA_3vbh-a1-m58-cA 3vbh-a1-m3-cA_3vbh-a1-m49-cA 3vbh-a1-m45-cA_3vbh-a1-m50-cA 3vbh-a1-m54-cA_3vbh-a1-m8-cA 3vbh-a1-m55-cA_3vbh-a1-m60-cA 3vbh-a1-m56-cA_3vbh-a1-m7-cA 3vbs-a1-m10-cA_3vbs-a1-m5-cA 3vbs-a1-m11-cA_3vbs-a1-m37-cA 3vbs-a1-m12-cA_3vbs-a1-m46-cA 3vbs-a1-m13-cA_3vbs-a1-m44-cA 3vbs-a1-m14-cA_3vbs-a1-m28-cA 3vbs-a1-m15-cA_3vbs-a1-m20-cA 3vbs-a1-m16-cA_3vbs-a1-m27-cA 3vbs-a1-m17-cA_3vbs-a1-m51-cA 3vbs-a1-m18-cA_3vbs-a1-m59-cA 3vbs-a1-m19-cA_3vbs-a1-m38-cA 3vbs-a1-m1-cA_3vbs-a1-m22-cA 3vbs-a1-m21-cA_3vbs-a1-m42-cA 3vbs-a1-m23-cA_3vbs-a1-m9-cA 3vbs-a1-m24-cA_3vbs-a1-m53-cA 3vbs-a1-m25-cA_3vbs-a1-m30-cA 3vbs-a1-m26-cA_3vbs-a1-m52-cA 3vbs-a1-m29-cA_3vbs-a1-m43-cA 3vbs-a1-m2-cA_3vbs-a1-m41-cA 3vbs-a1-m31-cA_3vbs-a1-m57-cA 3vbs-a1-m32-cA_3vbs-a1-m6-cA 3vbs-a1-m33-cA_3vbs-a1-m4-cA 3vbs-a1-m34-cA_3vbs-a1-m48-cA 3vbs-a1-m35-cA_3vbs-a1-m40-cA 3vbs-a1-m36-cA_3vbs-a1-m47-cA 3vbs-a1-m39-cA_3vbs-a1-m58-cA 3vbs-a1-m3-cA_3vbs-a1-m49-cA 3vbs-a1-m45-cA_3vbs-a1-m50-cA 3vbs-a1-m54-cA_3vbs-a1-m8-cA 3vbs-a1-m55-cA_3vbs-a1-m60-cA 3vbs-a1-m56-cA_3vbs-a1-m7-cA 3zfe-a1-m10-cA_3zfe-a1-m5-cA 3zfe-a1-m11-cA_3zfe-a1-m37-cA 3zfe-a1-m12-cA_3zfe-a1-m46-cA 3zfe-a1-m13-cA_3zfe-a1-m44-cA 3zfe-a1-m14-cA_3zfe-a1-m28-cA 3zfe-a1-m15-cA_3zfe-a1-m20-cA 3zfe-a1-m16-cA_3zfe-a1-m27-cA 3zfe-a1-m17-cA_3zfe-a1-m51-cA 3zfe-a1-m18-cA_3zfe-a1-m59-cA 3zfe-a1-m19-cA_3zfe-a1-m38-cA 3zfe-a1-m1-cA_3zfe-a1-m22-cA 3zfe-a1-m21-cA_3zfe-a1-m42-cA 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6z3q-a1-m11-cA_6z3q-a1-m37-cA 6z3q-a1-m12-cA_6z3q-a1-m46-cA 6z3q-a1-m13-cA_6z3q-a1-m44-cA 6z3q-a1-m14-cA_6z3q-a1-m28-cA 6z3q-a1-m15-cA_6z3q-a1-m20-cA 6z3q-a1-m16-cA_6z3q-a1-m27-cA 6z3q-a1-m17-cA_6z3q-a1-m51-cA 6z3q-a1-m18-cA_6z3q-a1-m59-cA 6z3q-a1-m19-cA_6z3q-a1-m38-cA 6z3q-a1-m1-cA_6z3q-a1-m22-cA 6z3q-a1-m21-cA_6z3q-a1-m42-cA 6z3q-a1-m23-cA_6z3q-a1-m9-cA 6z3q-a1-m24-cA_6z3q-a1-m53-cA 6z3q-a1-m25-cA_6z3q-a1-m30-cA 6z3q-a1-m26-cA_6z3q-a1-m52-cA 6z3q-a1-m29-cA_6z3q-a1-m43-cA 6z3q-a1-m2-cA_6z3q-a1-m41-cA 6z3q-a1-m31-cA_6z3q-a1-m57-cA 6z3q-a1-m32-cA_6z3q-a1-m6-cA 6z3q-a1-m33-cA_6z3q-a1-m4-cA 6z3q-a1-m34-cA_6z3q-a1-m48-cA 6z3q-a1-m35-cA_6z3q-a1-m40-cA 6z3q-a1-m36-cA_6z3q-a1-m47-cA 6z3q-a1-m39-cA_6z3q-a1-m58-cA 6z3q-a1-m3-cA_6z3q-a1-m49-cA 6z3q-a1-m45-cA_6z3q-a1-m50-cA 6z3q-a1-m54-cA_6z3q-a1-m8-cA 6z3q-a1-m55-cA_6z3q-a1-m60-cA 6z3q-a1-m56-cA_6z3q-a1-m7-cA DRVADVIESSIGDSVSRALTQALPAPTGQNTQVSSHRLDTGEVPALQAAEIGASSNTSDESMIETRCVLNSHSTAETTLDSFFSRAGLVGEIDLPLEGTTNPNGYANWDIDITGYAQMRRKVELFTYMRFDAEFTFVACTPTGQVVPQLLQYMFVPPGAPKPESRESLAWQTATNPSVFVKLTDPPAQVSVPFMSPASAYQWFYDGYPTFGEHKQEKDLEYGACPNNMMGTFSVRNVGSSKSKYPLVVRIYMRMKHVRAWIPRPMRNQNYLFKANPNYAGNSIKPTGTSRTAITTL DRVADVIESSIGDSVSRALTQALPAPTGQNTQVSSHRLDTGEVPALQAAEIGASSNTSDESMIETRCVLNSHSTAETTLDSFFSRAGLVGEIDLPLEGTTNPNGYANWDIDITGYAQMRRKVELFTYMRFDAEFTFVACTPTGQVVPQLLQYMFVPPGAPKPESRESLAWQTATNPSVFVKLTDPPAQVSVPFMSPASAYQWFYDGYPTFGEHKQEKDLEYGACPNNMMGTFSVRNVGSSKSKYPLVVRIYMRMKHVRAWIPRPMRNQNYLFKANPNYAGNSIKPTGTSRTAITTL 3zfe-a1-m54-cA_3zfe-a1-m9-cA Human enterovirus 71 in complex with capsid binding inhibitor WIN51711 A9X4C2 A9X4C2 2.7 X-RAY DIFFRACTION 12 1.0 39054 (Enterovirus A71) 39054 (Enterovirus A71) 296 296 3vbf-a1-m10-cA_3vbf-a1-m23-cA 3vbf-a1-m11-cA_3vbf-a1-m20-cA 3vbf-a1-m11-cA_3vbf-a1-m38-cA 3vbf-a1-m12-cA_3vbf-a1-m37-cA 3vbf-a1-m12-cA_3vbf-a1-m47-cA 3vbf-a1-m13-cA_3vbf-a1-m45-cA 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6z3q-a1-m34-cA_6z3q-a1-m49-cA 6z3q-a1-m34-cA_6z3q-a1-m4-cA 6z3q-a1-m35-cA_6z3q-a1-m36-cA 6z3q-a1-m35-cA_6z3q-a1-m48-cA 6z3q-a1-m36-cA_6z3q-a1-m48-cA 6z3q-a1-m37-cA_6z3q-a1-m47-cA 6z3q-a1-m39-cA_6z3q-a1-m59-cA 6z3q-a1-m3-cA_6z3q-a1-m41-cA 6z3q-a1-m3-cA_6z3q-a1-m50-cA 6z3q-a1-m40-cA_6z3q-a1-m58-cA 6z3q-a1-m41-cA_6z3q-a1-m50-cA 6z3q-a1-m45-cA_6z3q-a1-m46-cA 6z3q-a1-m4-cA_6z3q-a1-m49-cA 6z3q-a1-m51-cA_6z3q-a1-m60-cA 6z3q-a1-m54-cA_6z3q-a1-m9-cA 6z3q-a1-m55-cA_6z3q-a1-m56-cA 6z3q-a1-m55-cA_6z3q-a1-m8-cA 6z3q-a1-m56-cA_6z3q-a1-m8-cA 6z3q-a1-m57-cA_6z3q-a1-m7-cA 6z3q-a1-m5-cA_6z3q-a1-m6-cA DRVADVIESSIGDSVSRALTQALPAPTGQNTQVSSHRLDTGEVPALQAAEIGASSNTSDESMIETRCVLNSHSTAETTLDSFFSRAGLVGEIDLPLEGTTNPNGYANWDIDITGYAQMRRKVELFTYMRFDAEFTFVACTPTGQVVPQLLQYMFVPPGAPKPESRESLAWQTATNPSVFVKLTDPPAQVSVPFMSPASAYQWFYDGYPTFGEHKQEKDLEYGACPNNMMGTFSVRNVGSSKSKYPLVVRIYMRMKHVRAWIPRPMRNQNYLFKANPNYAGNSIKPTGTSRTAITTL 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3vbs-a1-m22-cC_3vbs-a1-m25-cC 3vbs-a1-m23-cC_3vbs-a1-m25-cC 3vbs-a1-m26-cC_3vbs-a1-m28-cC 3vbs-a1-m26-cC_3vbs-a1-m29-cC 3vbs-a1-m27-cC_3vbs-a1-m29-cC 3vbs-a1-m27-cC_3vbs-a1-m30-cC 3vbs-a1-m28-cC_3vbs-a1-m30-cC 3vbs-a1-m2-cC_3vbs-a1-m4-cC 3vbs-a1-m2-cC_3vbs-a1-m5-cC 3vbs-a1-m31-cC_3vbs-a1-m33-cC 3vbs-a1-m31-cC_3vbs-a1-m34-cC 3vbs-a1-m32-cC_3vbs-a1-m34-cC 3vbs-a1-m32-cC_3vbs-a1-m35-cC 3vbs-a1-m33-cC_3vbs-a1-m35-cC 3vbs-a1-m36-cC_3vbs-a1-m38-cC 3vbs-a1-m36-cC_3vbs-a1-m39-cC 3vbs-a1-m37-cC_3vbs-a1-m39-cC 3vbs-a1-m37-cC_3vbs-a1-m40-cC 3vbs-a1-m38-cC_3vbs-a1-m40-cC 3vbs-a1-m3-cC_3vbs-a1-m5-cC 3vbs-a1-m41-cC_3vbs-a1-m43-cC 3vbs-a1-m41-cC_3vbs-a1-m44-cC 3vbs-a1-m42-cC_3vbs-a1-m44-cC 3vbs-a1-m42-cC_3vbs-a1-m45-cC 3vbs-a1-m43-cC_3vbs-a1-m45-cC 3vbs-a1-m46-cC_3vbs-a1-m48-cC 3vbs-a1-m46-cC_3vbs-a1-m49-cC 3vbs-a1-m47-cC_3vbs-a1-m49-cC 3vbs-a1-m47-cC_3vbs-a1-m50-cC 3vbs-a1-m48-cC_3vbs-a1-m50-cC 3vbs-a1-m51-cC_3vbs-a1-m53-cC 3vbs-a1-m51-cC_3vbs-a1-m54-cC 3vbs-a1-m52-cC_3vbs-a1-m54-cC 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3zfe-a1-m58-cC_3zfe-a1-m60-cC 3zfe-a1-m6-cC_3zfe-a1-m8-cC 3zfe-a1-m6-cC_3zfe-a1-m9-cC 3zff-a1-m10-cC_3zff-a1-m7-cC 3zff-a1-m10-cC_3zff-a1-m8-cC 3zff-a1-m11-cC_3zff-a1-m13-cC 3zff-a1-m11-cC_3zff-a1-m14-cC 3zff-a1-m12-cC_3zff-a1-m14-cC 3zff-a1-m12-cC_3zff-a1-m15-cC 3zff-a1-m13-cC_3zff-a1-m15-cC 3zff-a1-m16-cC_3zff-a1-m18-cC 3zff-a1-m16-cC_3zff-a1-m19-cC 3zff-a1-m17-cC_3zff-a1-m19-cC 3zff-a1-m17-cC_3zff-a1-m20-cC 3zff-a1-m18-cC_3zff-a1-m20-cC 3zff-a1-m1-cC_3zff-a1-m3-cC 3zff-a1-m1-cC_3zff-a1-m4-cC 3zff-a1-m21-cC_3zff-a1-m23-cC 3zff-a1-m21-cC_3zff-a1-m24-cC 3zff-a1-m22-cC_3zff-a1-m24-cC 3zff-a1-m22-cC_3zff-a1-m25-cC 3zff-a1-m23-cC_3zff-a1-m25-cC 3zff-a1-m26-cC_3zff-a1-m28-cC 3zff-a1-m26-cC_3zff-a1-m29-cC 3zff-a1-m27-cC_3zff-a1-m29-cC 3zff-a1-m27-cC_3zff-a1-m30-cC 3zff-a1-m28-cC_3zff-a1-m30-cC 3zff-a1-m2-cC_3zff-a1-m4-cC 3zff-a1-m2-cC_3zff-a1-m5-cC 3zff-a1-m31-cC_3zff-a1-m33-cC 3zff-a1-m31-cC_3zff-a1-m34-cC 3zff-a1-m32-cC_3zff-a1-m34-cC 3zff-a1-m32-cC_3zff-a1-m35-cC 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8c6d-a1-m23-cC_8c6d-a1-m31-cC 8c6d-a1-m24-cC_8c6d-a1-m30-cC 8c6d-a1-m26-cC_8c6d-a1-m31-cC 8c6d-a1-m26-cC_8c6d-a1-m45-cC 8c6d-a1-m27-cC_8c6d-a1-m40-cC 8c6d-a1-m27-cC_8c6d-a1-m44-cC 8c6d-a1-m28-cC_8c6d-a1-m29-cC 8c6d-a1-m28-cC_8c6d-a1-m39-cC 8c6d-a1-m29-cC_8c6d-a1-m7-cC 8c6d-a1-m2-cC_8c6d-a1-m39-cC 8c6d-a1-m2-cC_8c6d-a1-m7-cC 8c6d-a1-m30-cC_8c6d-a1-m6-cC 8c6d-a1-m32-cC_8c6d-a1-m37-cC 8c6d-a1-m32-cC_8c6d-a1-m9-cC 8c6d-a1-m33-cC_8c6d-a1-m4-cC 8c6d-a1-m33-cC_8c6d-a1-m8-cC 8c6d-a1-m34-cC_8c6d-a1-m35-cC 8c6d-a1-m35-cC_8c6d-a1-m43-cC 8c6d-a1-m36-cC_8c6d-a1-m42-cC 8c6d-a1-m36-cC_8c6d-a1-m60-cC 8c6d-a1-m37-cC_8c6d-a1-m59-cC 8c6d-a1-m38-cC_8c6d-a1-m43-cC 8c6d-a1-m3-cC_8c6d-a1-m34-cC 8c6d-a1-m3-cC_8c6d-a1-m38-cC 8c6d-a1-m40-cC_8c6d-a1-m41-cC 8c6d-a1-m41-cC_8c6d-a1-m49-cC 8c6d-a1-m42-cC_8c6d-a1-m48-cC 8c6d-a1-m44-cC_8c6d-a1-m49-cC 8c6d-a1-m46-cC_8c6d-a1-m47-cC 8c6d-a1-m47-cC_8c6d-a1-m55-cC 8c6d-a1-m48-cC_8c6d-a1-m54-cC 8c6d-a1-m4-cC_8c6d-a1-m5-cC 8c6d-a1-m50-cC_8c6d-a1-m55-cC 8c6d-a1-m52-cC_8c6d-a1-m53-cC 8c6d-a1-m54-cC_8c6d-a1-m60-cC 8c6d-a1-m58-cC_8c6d-a1-m59-cC 8c6d-a1-m58-cC_8c6d-a1-m9-cC 8hi2-a1-m10-cC_8hi2-a1-m6-cC 8hi2-a1-m10-cC_8hi2-a1-m9-cC 8hi2-a1-m11-cC_8hi2-a1-m12-cC 8hi2-a1-m11-cC_8hi2-a1-m15-cC 8hi2-a1-m12-cC_8hi2-a1-m13-cC 8hi2-a1-m13-cC_8hi2-a1-m14-cC 8hi2-a1-m14-cC_8hi2-a1-m15-cC 8hi2-a1-m16-cC_8hi2-a1-m17-cC 8hi2-a1-m16-cC_8hi2-a1-m20-cC 8hi2-a1-m17-cC_8hi2-a1-m18-cC 8hi2-a1-m18-cC_8hi2-a1-m19-cC 8hi2-a1-m19-cC_8hi2-a1-m20-cC 8hi2-a1-m1-cC_8hi2-a1-m2-cC 8hi2-a1-m1-cC_8hi2-a1-m5-cC 8hi2-a1-m21-cC_8hi2-a1-m22-cC 8hi2-a1-m21-cC_8hi2-a1-m25-cC 8hi2-a1-m22-cC_8hi2-a1-m23-cC 8hi2-a1-m23-cC_8hi2-a1-m24-cC 8hi2-a1-m24-cC_8hi2-a1-m25-cC 8hi2-a1-m26-cC_8hi2-a1-m27-cC 8hi2-a1-m26-cC_8hi2-a1-m30-cC 8hi2-a1-m27-cC_8hi2-a1-m28-cC 8hi2-a1-m28-cC_8hi2-a1-m29-cC 8hi2-a1-m29-cC_8hi2-a1-m30-cC 8hi2-a1-m2-cC_8hi2-a1-m3-cC 8hi2-a1-m31-cC_8hi2-a1-m32-cC 8hi2-a1-m31-cC_8hi2-a1-m35-cC 8hi2-a1-m32-cC_8hi2-a1-m33-cC 8hi2-a1-m33-cC_8hi2-a1-m34-cC 8hi2-a1-m34-cC_8hi2-a1-m35-cC 8hi2-a1-m36-cC_8hi2-a1-m37-cC 8hi2-a1-m36-cC_8hi2-a1-m40-cC 8hi2-a1-m37-cC_8hi2-a1-m38-cC 8hi2-a1-m38-cC_8hi2-a1-m39-cC 8hi2-a1-m39-cC_8hi2-a1-m40-cC 8hi2-a1-m3-cC_8hi2-a1-m4-cC 8hi2-a1-m41-cC_8hi2-a1-m42-cC 8hi2-a1-m41-cC_8hi2-a1-m45-cC 8hi2-a1-m42-cC_8hi2-a1-m43-cC 8hi2-a1-m43-cC_8hi2-a1-m44-cC 8hi2-a1-m44-cC_8hi2-a1-m45-cC 8hi2-a1-m46-cC_8hi2-a1-m47-cC 8hi2-a1-m46-cC_8hi2-a1-m50-cC 8hi2-a1-m47-cC_8hi2-a1-m48-cC 8hi2-a1-m48-cC_8hi2-a1-m49-cC 8hi2-a1-m49-cC_8hi2-a1-m50-cC 8hi2-a1-m4-cC_8hi2-a1-m5-cC 8hi2-a1-m51-cC_8hi2-a1-m52-cC 8hi2-a1-m51-cC_8hi2-a1-m55-cC 8hi2-a1-m52-cC_8hi2-a1-m53-cC 8hi2-a1-m53-cC_8hi2-a1-m54-cC 8hi2-a1-m54-cC_8hi2-a1-m55-cC 8hi2-a1-m56-cC_8hi2-a1-m57-cC 8hi2-a1-m56-cC_8hi2-a1-m60-cC 8hi2-a1-m57-cC_8hi2-a1-m58-cC 8hi2-a1-m58-cC_8hi2-a1-m59-cC 8hi2-a1-m59-cC_8hi2-a1-m60-cC 8hi2-a1-m6-cC_8hi2-a1-m7-cC 8hi2-a1-m7-cC_8hi2-a1-m8-cC 8hi2-a1-m8-cC_8hi2-a1-m9-cC GFPTEPKPGTNQFLTTDDGVSAPILPNFHPTPCIHIPGEVRNLLELCQVETILEVNNVPTNATSLMERLRFPVSAQAGKGELCAVFRADPGRDGPWQSTMLGQLCGYYTQWSGSLEVTFMFTGSFMATGKMLIAYTPPGGPLPKDRATAMLGTHVIWDFGLQSSVTLVIPWISNTHYRAHARDGVFDYYTTGLVSIWYQTNYVVPIGAPNTAYIIALAAAQKNFTMKLCKDTSHILQTASIQ GFPTEPKPGTNQFLTTDDGVSAPILPNFHPTPCIHIPGEVRNLLELCQVETILEVNNVPTNATSLMERLRFPVSAQAGKGELCAVFRADPGRDGPWQSTMLGQLCGYYTQWSGSLEVTFMFTGSFMATGKMLIAYTPPGGPLPKDRATAMLGTHVIWDFGLQSSVTLVIPWISNTHYRAHARDGVFDYYTTGLVSIWYQTNYVVPIGAPNTAYIIALAAAQKNFTMKLCKDTSHILQTASIQ 3zfi-a1-m1-cB_3zfi-a1-m1-cA Rap1a protein (SMA2260) from Serratia marcescens S4S1V8 S4S1V8 1.98 X-RAY DIFFRACTION 94 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 92 93 AHLTSDDVNLPGSDFFRFYRSADKQEKEKARIYLLGVLDATEGKSWCQYSQLQTVTLQEFVFEFFNKLPAARLHERAAPLIEEALATRFPCK IAHLTSDDVNLPGSDFFRFYRSADKQEKEKARIYLLGVLDATEGKSWCQYSQLQTVTLQEFVFEFFNKLPAARLHERAAPLIEEALATRFPCK 3zgd-a1-m1-cA_3zgd-a1-m1-cB crystal structure of a KEAP1 mutant Q14145 Q14145 1.98 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 285 4l7b-a1-m1-cA_4l7b-a1-m1-cB 6fmp-a1-m1-cA_6fmp-a1-m1-cB 6fmq-a1-m1-cA_6fmq-a1-m1-cB 6rog-a1-m1-cA_6rog-a1-m1-cX GRLIYTAGGYFRQSLSYLEAYNPSDGTWLRLADLQVPRSGLAGCVVGGLLYAVGGRNNSPDGNTDSSALDCYNPMTNQWSPCAPMSVPRNRIGVGVIDGHIYAVGGSHGCIHHNSVERYEPERDEWHLVAPMLTRRIGVGVAVLNRLLYAVGGFDGTNRLNSAECYYPERNEWRMITAMNTIRSGAGVCVLHNCIYAAGGYDGQDQLNSVERYDVATATWTFVAPMKHRRSALGITVHQGRIYVLGGYDGHTFLDSVECYDPDTDTWSEVTRMTSGRSGVGVAVT GRLIYTAGGYFRQSLSYLEAYNPSDGTWLRLADLQVPRSGLAGCVVGGLLYAVGGRNNSPDGNTDSSALDCYNPMTNQWSPCAPMSVPRNRIGVGVIDGHIYAVGGSHGCIHHNSVERYEPERDEWHLVAPMLTRRIGVGVAVLNRLLYAVGGFDGTNRLNSAECYYPERNEWRMITAMNTIRSGAGVCVLHNCIYAAGGYDGQDQLNSVERYDVATATWTFVAPMKHRRSALGITVHQGRIYVLGGYDGHTFLDSVECYDPDTDTWSEVTRMTSGRSGVGVAVT 3zgx-a1-m1-cA_3zgx-a1-m1-cB Crystal structure of the kleisin-N SMC interface in prokaryotic condensin P51834 P51834 3.4 X-RAY DIFFRACTION 55 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 345 351 MFLKRLDVIGFKSFAERISVDFVKGVTAVVGPGKSNITDAIRWVLGEQSLAEVTLTLDNDDHFLPIDHEVSVTRRVYRSGESEFLINNQPCRLKDIIDLFMDEAFSIISQGKVEEILSSKAEDRRSIFEEAAGVLKYKTRKKKAENKLFETQDNLNRVEDILHELEGFERVNERYKFLSEQKEDLTEAKNTLFQVIEEMDEEMTKRFNDTFVQIRSHFDQVFRSLFGGGRAELRLTDPNDLLHSGVEIIAQPPGKKLQNLNLLSGGERALTAIALLFSILKVRPVPFCVLDEVEAALDEANVFRFAQYLKKYSSDTQFIVITHRKGTMEEADVLYGVTMVSKVIS MFLKRLDVIGFKSFAERISVDFVKGVTAVVGPGKSNITDAIRWVLGEQSSRKRLNLAEVTLTLDNDDHFLPIDHEVSVTRRVYRSGESEFLINNQPCRLKDIIDLFMDEAFSIISQGKVEEILSSKAEDRRSIFEEAAGVLKYKTRKKKAENKLFETQDNLNRVEDILHELEGFERVNERYKFLSEQKEDLTEAKNTLFQVIEEMDEEMTKRFNDTFVQIRSHFDQVFRSLFGGGRAELRLTDPNDLLHSGVEIIAQPPGKKLQNLNLLSGGERALTAIALLFSILKVRPVPFCVLDEVEAALDEANVFRFAQYLKKYSSDTQFIVITHRKGTMEEADVLYGVTMVSKVIS 3zgx-a1-m1-cC_3zgx-a1-m1-cZ Crystal structure of the kleisin-N SMC interface in prokaryotic condensin P35154 P35154 3.4 X-RAY DIFFRACTION 59 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 67 67 TFEGPLDLLLHLINRLEIDIYDIPVAKITEQYLLYVHTMRVLELDIASEYLVMAATLLSIKSRMLLP TFEGPLDLLLHLINRLEIDIYDIPVAKITEQYLLYVHTMRVLELDIASEYLVMAATLLSIKSRMLLP 3zha-a1-m1-cB_3zha-a1-m1-cA Molecular basis for the action of the collagen-specific chaperone Hsp47 SERPINH1 and its structure-specific client recognition. C7C419 C7C419 2.55 X-RAY DIFFRACTION 19 0.995 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 364 380 3zha-a2-m1-cQ_3zha-a2-m1-cP 3zha-a3-m1-cD_3zha-a3-m1-cC 4au2-a1-m1-cB_4au2-a1-m1-cA MLSPKAATLAERSAGLAFSLYQAMAKDQAVENILLSPVVVASSLGLVSLGGKATTASQAKAVLSAEQLRDEEVHAGLGELLRSLSRNVTWKLGSRLYGPSSVSFAEDFVRSSKQHYNCEHSKINFRDKRSALQSINEWAAQTTDGKLPEVTKDVERTDGALLVNAMFFKPHWDEKFHHKMVDNRGFMVTRSYTVGVTMMHRTGLYNYYDDEKEKLQIVEMPLAHKLSSLIILMPHHVEPLERLEKLLTKEQLKIWMGKMQKKAVAISLPKGVVEVTHDLQKHLAGLGLTEAIDKNKADLSRMSGKKDLYLASVFHATAFEWDTEGNPFRSPKLFYADHPFIFLVRDTQSGSLLFIGRLVRPKGD MLSPKAATLAERSAGLAFSLYQAMAKDQAVENILLSPVVVASSLGLVSLGGKATTASQAKAVLSAEQLRDEEVHAGLGELLRSLSVTWKLGSRLYGPSSVSFAEDFVRSSKQHYNCEHSKINFRDKRSALQSINEWAAQTTDGKLPEVTKDVERTDGALLVNAMFFKPHWDEKFHHKMVDNRGFMVTRSYTVGVTMMHRTGLYNYYDDEKEKLQIVEMPLAHKLSSLIILMPHHVEPLERLEKLLTKEQLKIWMGKMQKKAVAISLPKGVVEVTHDLQKHLAGLGLTEAIDKNKADLSRMSGKKDLYLASVFHATAFEWDTEGNPFDQDIYGREELRSPKLFYADHPFIFLVRDTQSGSLLFIGRLVRPKGDKMRDELLE 3zha-a3-m1-cJ_3zha-a3-m1-cI Molecular basis for the action of the collagen-specific chaperone Hsp47 SERPINH1 and its structure-specific client recognition. 2.55 X-RAY DIFFRACTION 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 15 16 3zha-a1-m1-cG_3zha-a1-m1-cF PPGPPGPTGPRGPPG PPGPPGPTGPRGPPGP 3zha-a4-m1-cM_3zha-a4-m1-cN Molecular basis for the action of the collagen-specific chaperone Hsp47 SERPINH1 and its structure-specific client recognition. 2.55 X-RAY DIFFRACTION 51 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 17 3zha-a1-m1-cF_3zha-a1-m1-cE 3zha-a2-m1-cR_3zha-a2-m1-cS 3zha-a2-m1-cT_3zha-a2-m1-cS 3zha-a3-m1-cI_3zha-a3-m1-cH 3zha-a4-m1-cN_3zha-a4-m1-cO PPGPPGPTGPRGPPGPP PPGPPGPTGPRGPPGPP 3zha-a4-m1-cM_3zha-a4-m1-cO Molecular basis for the action of the collagen-specific chaperone Hsp47 SERPINH1 and its structure-specific client recognition. 2.55 X-RAY DIFFRACTION 48 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 17 3zha-a1-m1-cG_3zha-a1-m1-cE 3zha-a2-m1-cT_3zha-a2-m1-cR 3zha-a3-m1-cJ_3zha-a3-m1-cH PPGPPGPTGPRGPPGPP PPGPPGPTGPRGPPGPP 3zhb-a1-m1-cB_3zhb-a1-m1-cA R-imine reductase from Streptomyces kanamyceticus in complex with NADP. Q1EQE0 Q1EQE0 2.73 X-RAY DIFFRACTION 292 1.0 1967 (Streptomyces kanamyceticus) 1967 (Streptomyces kanamyceticus) 285 288 3zgy-a1-m1-cC_3zgy-a1-m1-cD 3zgy-a2-m1-cB_3zgy-a2-m1-cA 3zhb-a2-m1-cC_3zhb-a2-m1-cD TPVTVIGLGLMGQALAGAFLGAGHPTTVWNRTAAEPLVARGAKSAGSVAEAVAASPLVVVCVSDYDAVHALLDPLDGTALQGRTLVNLTSGTSAQARERAAWADGRGADYLDGAILAGPAAIGTADAVVLLSGPRSAFDPHASALGGLGAGTTYLGADHGLASLYDAAGLVMMWSILNGFLQGAALLGTAGVDATTFAPFITQGIGTVADWLPGYARQIDDGAYPADDAAIDTHLATMEHLIHESEFLGVNAELPRFIKALADRAVADGHGGSGYPALIEQFRTH EHTPVTVIGLGLMGQALAGAFLGAGHPTTVWNRTAAKEPLVARGAKSAGSVAEAVAASPLVVVCVSDYDAVHALLDPLDGTALQGRTLVNLTSGTSAQARERAAWADGRGADYLDGAILAGPAAIGTADAVVLLSGPRSAFDPHASALGGLGAGTTYLGADHGLASLYDAAGLVMMWSILNGFLQGAALLGTAGVDATTFAPFITQGIGTVADWLPGYARQIDDGAYPADDAAIDTHLATMEHLIHESEFLGVNAELPRFIKALADRAVADGHGGSGYPALIEQFRTH 3zhc-a1-m1-cA_3zhc-a1-m1-cB Structure of the phytase from Citrobacter braakii at 2.3 angstrom resolution. Q2VY22 Q2VY22 2.3 X-RAY DIFFRACTION 72 1.0 57706 (Citrobacter braakii) 57706 (Citrobacter braakii) 396 407 MKLERVVIVSRHGVRAPTKFTPIMKNVTPDQWPQWDVPLGWLTPRGGELVSELGQYQRLWFTSKGLLNNQTCPSPGQVAVIADTDQRTRKTGEAFLAGLAPKCQIQVHYQKKNDPLFNPVKMGKCSFNTLQVCNAILERAGGNIELYTQRYQSSFRTLENVLNFSQSETCKKCTLPEALPSELKCTPDNVSLPGAWSLSSTLTEIFLLQEAQGMPQVAWGRITGEKEWRDLLSLHNAQFDLLQRTPEVARSRATPLLDMIDTALLTNGTTENRYGIKLPVSLLFIAGHDTNLANLSGALDLNWSLPGQPDNTPPGGELVFEKWKRTSDNTDWVQVSFVYQTLRDMRDIQPLSLEKPAGKVDLKLIACEEKNSQGMCSLKSFSRLIKEIRVPECAVT GMKLERVVIVSRHGVRAPTKFTPIMKNVTPDQWPQWDVPLGWLTPRGGELVSELGQYQRLWFTSKGLLNNQTCPSPGQVAVIADTDQRTRKTGEAFLAGLAPKCQIQVHYQKDEEKNDPLFNPVKMGKCSFNTLQVCNAILERAGGNIELYTQRYQSSFRTLENVLNFSQSETCKTTEKSTKCTLPEALPSELKCTPDNVSLPGAWSLSSTLTEIFLLQEAQGMPQVAWGRITGEKEWRDLLSLHNAQFDLLQRTPEVARSRATPLLDMIDTALLTNGTTENRYGIKLPVSLLFIAGHDTNLANLSGALDLNWSLPGQPDNTPPGGELVFEKWKRTSDNTDWVQVSFVYQTLRDMRDIQPLSLEKPAGKVDLKLIACEEKNSQGMCSLKSFSRLIKEIRVPECAVTE 3zhd-a1-m1-cA_3zhd-a1-m3-cB The crystal structure of single domain antibody 8-4 scaffold. P01764 P01764 1.962 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 3zhd-a1-m1-cB_3zhd-a1-m2-cA 3zhd-a1-m2-cB_3zhd-a1-m3-cA EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYAMGWVRQAPGKGPEVVSLISGSGGSTWYDDSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARHAPSTEAPDYWGQGTLVTVSS EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYAMGWVRQAPGKGPEVVSLISGSGGSTWYDDSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARHAPSTEAPDYWGQGTLVTVSS 3zhd-a1-m2-cB_3zhd-a1-m3-cB The crystal structure of single domain antibody 8-4 scaffold. P01764 P01764 1.962 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 3zhd-a1-m1-cA_3zhd-a1-m2-cA 3zhd-a1-m1-cA_3zhd-a1-m3-cA 3zhd-a1-m1-cB_3zhd-a1-m2-cB 3zhd-a1-m1-cB_3zhd-a1-m3-cB 3zhd-a1-m2-cA_3zhd-a1-m3-cA EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYAMGWVRQAPGKGPEVVSLISGSGGSTWYDDSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARHAPSTEAPDYWGQGTLVTVSS EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYAMGWVRQAPGKGPEVVSLISGSGGSTWYDDSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARHAPSTEAPDYWGQGTLVTVSS 3zhd-a1-m3-cA_3zhd-a1-m3-cB The crystal structure of single domain antibody 8-4 scaffold. P01764 P01764 1.962 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 3zhd-a1-m1-cA_3zhd-a1-m1-cB 3zhd-a1-m2-cA_3zhd-a1-m2-cB 3zhk-a1-m1-cA_3zhk-a1-m1-cB EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYAMGWVRQAPGKGPEVVSLISGSGGSTWYDDSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARHAPSTEAPDYWGQGTLVTVSS EVQLVESGGGLVQPGGSLRLSCAASGFTFSSYAMGWVRQAPGKGPEVVSLISGSGGSTWYDDSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARHAPSTEAPDYWGQGTLVTVSS 3zhg-a4-m1-cD_3zhg-a4-m5-cD Crystallographic structure of the native mouse SIGN-R1 CRD domain Q8CJ91 Q8CJ91 1.87 X-RAY DIFFRACTION 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 133 133 3zhg-a1-m1-cA_3zhg-a1-m2-cA 3zhg-a2-m1-cB_3zhg-a2-m3-cB 3zhg-a3-m1-cC_3zhg-a3-m4-cC RLCRLCPWDWTFLLGNCYFFSKSQRNWNDAVTACKEVKAQLVIINSDEEQTFLQQTSKAKGPTWMGLSDLKKEATWLWVDGSTLSSRFQKYWNRGEPNNIGEEDCVEFAGDGWNDSKCELKKFWICKKSATPC RLCRLCPWDWTFLLGNCYFFSKSQRNWNDAVTACKEVKAQLVIINSDEEQTFLQQTSKAKGPTWMGLSDLKKEATWLWVDGSTLSSRFQKYWNRGEPNNIGEEDCVEFAGDGWNDSKCELKKFWICKKSATPC 3zib-a2-m1-cC_3zib-a2-m1-cD Rap2a protein (SMA2265) from Serratia marcescens 1.9 X-RAY DIFFRACTION 76 0.99 615 (Serratia marcescens) 615 (Serratia marcescens) 96 96 3zib-a1-m1-cA_3zib-a1-m1-cB TYTPEEYLKNYALSVCIAEGYSAKEVKNDAAAAARGYTEFGDYSLEAHTAVRALAKEFLAKPYDSSGEPMTMAKCIDLVHSQELQAIIKKYQGKDD TYTPEEYLKNYALSVCIAEGYSAKEVKNDAAAAARGYTEFGDYSLEAHTAVRALAKEFLAKPYDSMSGEPMTMAKCIDLVHSQELQAIIKKYQGKD 3zie-a3-m1-cD_3zie-a3-m1-cC SepF-like protein from Archaeoglobus fulgidus O29476 O29476 2 X-RAY DIFFRACTION 89 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 81 82 3zie-a1-m1-cA_3zie-a1-m1-cB 3zie-a2-m1-cE_3zie-a2-m1-cF VYIRVAEVTGLNEVPEIKREIYDGNIVVADIAFIKHDKLTLDRVLKDLRQLAEDVKGDIVGLGEDYVITPTGIKVDRNKIR VYIRVAEVTGLNEVPEIKREIYDGNIVVADIAFIKHDKLTLDRVLKDLRQLAEDVKGDIVGLGEDYVITPTGIKVDRNKIRS 3zif-a1-m10-cA_3zif-a1-m9-cC Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 11 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cC_3zif-a1-m6-cA 3zif-a1-m11-cA_3zif-a1-m15-cC 3zif-a1-m11-cC_3zif-a1-m12-cA 3zif-a1-m12-cC_3zif-a1-m13-cA 3zif-a1-m13-cC_3zif-a1-m14-cA 3zif-a1-m14-cC_3zif-a1-m15-cA 3zif-a1-m16-cA_3zif-a1-m20-cC 3zif-a1-m16-cC_3zif-a1-m17-cA 3zif-a1-m17-cC_3zif-a1-m18-cA 3zif-a1-m18-cC_3zif-a1-m19-cA 3zif-a1-m19-cC_3zif-a1-m20-cA 3zif-a1-m1-cA_3zif-a1-m5-cC 3zif-a1-m1-cC_3zif-a1-m2-cA 3zif-a1-m21-cA_3zif-a1-m25-cC 3zif-a1-m21-cC_3zif-a1-m22-cA 3zif-a1-m22-cC_3zif-a1-m23-cA 3zif-a1-m23-cC_3zif-a1-m24-cA 3zif-a1-m24-cC_3zif-a1-m25-cA 3zif-a1-m26-cA_3zif-a1-m30-cC 3zif-a1-m26-cC_3zif-a1-m27-cA 3zif-a1-m27-cC_3zif-a1-m28-cA 3zif-a1-m28-cC_3zif-a1-m29-cA 3zif-a1-m29-cC_3zif-a1-m30-cA 3zif-a1-m2-cC_3zif-a1-m3-cA 3zif-a1-m31-cA_3zif-a1-m35-cC 3zif-a1-m31-cC_3zif-a1-m32-cA 3zif-a1-m32-cC_3zif-a1-m33-cA 3zif-a1-m33-cC_3zif-a1-m34-cA 3zif-a1-m34-cC_3zif-a1-m35-cA 3zif-a1-m36-cA_3zif-a1-m40-cC 3zif-a1-m36-cC_3zif-a1-m37-cA 3zif-a1-m37-cC_3zif-a1-m38-cA 3zif-a1-m38-cC_3zif-a1-m39-cA 3zif-a1-m39-cC_3zif-a1-m40-cA 3zif-a1-m3-cC_3zif-a1-m4-cA 3zif-a1-m41-cA_3zif-a1-m45-cC 3zif-a1-m41-cC_3zif-a1-m42-cA 3zif-a1-m42-cC_3zif-a1-m43-cA 3zif-a1-m43-cC_3zif-a1-m44-cA 3zif-a1-m44-cC_3zif-a1-m45-cA 3zif-a1-m46-cA_3zif-a1-m50-cC 3zif-a1-m46-cC_3zif-a1-m47-cA 3zif-a1-m47-cC_3zif-a1-m48-cA 3zif-a1-m48-cC_3zif-a1-m49-cA 3zif-a1-m49-cC_3zif-a1-m50-cA 3zif-a1-m4-cC_3zif-a1-m5-cA 3zif-a1-m51-cA_3zif-a1-m55-cC 3zif-a1-m51-cC_3zif-a1-m52-cA 3zif-a1-m52-cC_3zif-a1-m53-cA 3zif-a1-m53-cC_3zif-a1-m54-cA 3zif-a1-m54-cC_3zif-a1-m55-cA 3zif-a1-m56-cA_3zif-a1-m60-cC 3zif-a1-m56-cC_3zif-a1-m57-cA 3zif-a1-m57-cC_3zif-a1-m58-cA 3zif-a1-m58-cC_3zif-a1-m59-cA 3zif-a1-m59-cC_3zif-a1-m60-cA 3zif-a1-m6-cC_3zif-a1-m7-cA 3zif-a1-m7-cC_3zif-a1-m8-cA 3zif-a1-m8-cC_3zif-a1-m9-cA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m55-cE_3zif-a1-m9-cE Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 14 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cE_3zif-a1-m24-cE 3zif-a1-m11-cE_3zif-a1-m16-cE 3zif-a1-m12-cE_3zif-a1-m38-cE 3zif-a1-m13-cE_3zif-a1-m47-cE 3zif-a1-m14-cE_3zif-a1-m45-cE 3zif-a1-m15-cE_3zif-a1-m29-cE 3zif-a1-m17-cE_3zif-a1-m28-cE 3zif-a1-m18-cE_3zif-a1-m52-cE 3zif-a1-m19-cE_3zif-a1-m60-cE 3zif-a1-m1-cE_3zif-a1-m6-cE 3zif-a1-m20-cE_3zif-a1-m39-cE 3zif-a1-m21-cE_3zif-a1-m26-cE 3zif-a1-m22-cE_3zif-a1-m43-cE 3zif-a1-m25-cE_3zif-a1-m54-cE 3zif-a1-m27-cE_3zif-a1-m53-cE 3zif-a1-m2-cE_3zif-a1-m23-cE 3zif-a1-m30-cE_3zif-a1-m44-cE 3zif-a1-m31-cE_3zif-a1-m36-cE 3zif-a1-m32-cE_3zif-a1-m58-cE 3zif-a1-m33-cE_3zif-a1-m7-cE 3zif-a1-m34-cE_3zif-a1-m5-cE 3zif-a1-m35-cE_3zif-a1-m49-cE 3zif-a1-m37-cE_3zif-a1-m48-cE 3zif-a1-m3-cE_3zif-a1-m42-cE 3zif-a1-m40-cE_3zif-a1-m59-cE 3zif-a1-m41-cE_3zif-a1-m46-cE 3zif-a1-m4-cE_3zif-a1-m50-cE 3zif-a1-m51-cE_3zif-a1-m56-cE 3zif-a1-m57-cE_3zif-a1-m8-cE LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m55-cE_3zif-a1-m9-cF Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 18 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cE_3zif-a1-m24-cF 3zif-a1-m10-cF_3zif-a1-m24-cE 3zif-a1-m11-cE_3zif-a1-m16-cF 3zif-a1-m11-cF_3zif-a1-m16-cE 3zif-a1-m12-cE_3zif-a1-m38-cF 3zif-a1-m12-cF_3zif-a1-m38-cE 3zif-a1-m13-cE_3zif-a1-m47-cF 3zif-a1-m13-cF_3zif-a1-m47-cE 3zif-a1-m14-cE_3zif-a1-m45-cF 3zif-a1-m14-cF_3zif-a1-m45-cE 3zif-a1-m15-cE_3zif-a1-m29-cF 3zif-a1-m15-cF_3zif-a1-m29-cE 3zif-a1-m17-cE_3zif-a1-m28-cF 3zif-a1-m17-cF_3zif-a1-m28-cE 3zif-a1-m18-cE_3zif-a1-m52-cF 3zif-a1-m18-cF_3zif-a1-m52-cE 3zif-a1-m19-cE_3zif-a1-m60-cF 3zif-a1-m19-cF_3zif-a1-m60-cE 3zif-a1-m1-cE_3zif-a1-m6-cF 3zif-a1-m1-cF_3zif-a1-m6-cE 3zif-a1-m20-cE_3zif-a1-m39-cF 3zif-a1-m20-cF_3zif-a1-m39-cE 3zif-a1-m21-cE_3zif-a1-m26-cF 3zif-a1-m21-cF_3zif-a1-m26-cE 3zif-a1-m22-cE_3zif-a1-m43-cF 3zif-a1-m22-cF_3zif-a1-m43-cE 3zif-a1-m25-cE_3zif-a1-m54-cF 3zif-a1-m25-cF_3zif-a1-m54-cE 3zif-a1-m27-cE_3zif-a1-m53-cF 3zif-a1-m27-cF_3zif-a1-m53-cE 3zif-a1-m2-cE_3zif-a1-m23-cF 3zif-a1-m2-cF_3zif-a1-m23-cE 3zif-a1-m30-cE_3zif-a1-m44-cF 3zif-a1-m30-cF_3zif-a1-m44-cE 3zif-a1-m31-cE_3zif-a1-m36-cF 3zif-a1-m31-cF_3zif-a1-m36-cE 3zif-a1-m32-cE_3zif-a1-m58-cF 3zif-a1-m32-cF_3zif-a1-m58-cE 3zif-a1-m33-cE_3zif-a1-m7-cF 3zif-a1-m33-cF_3zif-a1-m7-cE 3zif-a1-m34-cE_3zif-a1-m5-cF 3zif-a1-m34-cF_3zif-a1-m5-cE 3zif-a1-m35-cE_3zif-a1-m49-cF 3zif-a1-m35-cF_3zif-a1-m49-cE 3zif-a1-m37-cE_3zif-a1-m48-cF 3zif-a1-m37-cF_3zif-a1-m48-cE 3zif-a1-m3-cE_3zif-a1-m42-cF 3zif-a1-m3-cF_3zif-a1-m42-cE 3zif-a1-m40-cE_3zif-a1-m59-cF 3zif-a1-m40-cF_3zif-a1-m59-cE 3zif-a1-m41-cE_3zif-a1-m46-cF 3zif-a1-m41-cF_3zif-a1-m46-cE 3zif-a1-m4-cE_3zif-a1-m50-cF 3zif-a1-m4-cF_3zif-a1-m50-cE 3zif-a1-m51-cE_3zif-a1-m56-cF 3zif-a1-m51-cF_3zif-a1-m56-cE 3zif-a1-m55-cF_3zif-a1-m9-cE 3zif-a1-m57-cE_3zif-a1-m8-cF 3zif-a1-m57-cF_3zif-a1-m8-cE LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m57-cI_3zif-a1-m9-cL Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 22 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cC_3zif-a1-m10-cD 3zif-a1-m10-cC_3zif-a1-m6-cK 3zif-a1-m10-cD_3zif-a1-m6-cK 3zif-a1-m10-cF_3zif-a1-m24-cG 3zif-a1-m10-cG_3zif-a1-m24-cF 3zif-a1-m10-cH_3zif-a1-m10-cL 3zif-a1-m10-cH_3zif-a1-m55-cI 3zif-a1-m10-cI_3zif-a1-m25-cH 3zif-a1-m10-cI_3zif-a1-m25-cL 3zif-a1-m10-cK_3zif-a1-m9-cC 3zif-a1-m10-cK_3zif-a1-m9-cD 3zif-a1-m10-cL_3zif-a1-m55-cI 3zif-a1-m11-cC_3zif-a1-m11-cD 3zif-a1-m11-cC_3zif-a1-m12-cK 3zif-a1-m11-cD_3zif-a1-m12-cK 3zif-a1-m11-cF_3zif-a1-m16-cG 3zif-a1-m11-cG_3zif-a1-m16-cF 3zif-a1-m11-cH_3zif-a1-m11-cL 3zif-a1-m11-cH_3zif-a1-m29-cI 3zif-a1-m11-cI_3zif-a1-m17-cH 3zif-a1-m11-cI_3zif-a1-m17-cL 3zif-a1-m11-cK_3zif-a1-m15-cC 3zif-a1-m11-cK_3zif-a1-m15-cD 3zif-a1-m11-cL_3zif-a1-m29-cI 3zif-a1-m12-cC_3zif-a1-m12-cD 3zif-a1-m12-cC_3zif-a1-m13-cK 3zif-a1-m12-cD_3zif-a1-m13-cK 3zif-a1-m12-cF_3zif-a1-m38-cG 3zif-a1-m12-cG_3zif-a1-m38-cF 3zif-a1-m12-cH_3zif-a1-m12-cL 3zif-a1-m12-cH_3zif-a1-m16-cI 3zif-a1-m12-cI_3zif-a1-m39-cH 3zif-a1-m12-cI_3zif-a1-m39-cL 3zif-a1-m12-cL_3zif-a1-m16-cI 3zif-a1-m13-cC_3zif-a1-m13-cD 3zif-a1-m13-cC_3zif-a1-m14-cK 3zif-a1-m13-cD_3zif-a1-m14-cK 3zif-a1-m13-cF_3zif-a1-m47-cG 3zif-a1-m13-cG_3zif-a1-m47-cF 3zif-a1-m13-cH_3zif-a1-m13-cL 3zif-a1-m13-cH_3zif-a1-m38-cI 3zif-a1-m13-cI_3zif-a1-m48-cH 3zif-a1-m13-cI_3zif-a1-m48-cL 3zif-a1-m13-cL_3zif-a1-m38-cI 3zif-a1-m14-cC_3zif-a1-m14-cD 3zif-a1-m14-cC_3zif-a1-m15-cK 3zif-a1-m14-cD_3zif-a1-m15-cK 3zif-a1-m14-cF_3zif-a1-m45-cG 3zif-a1-m14-cG_3zif-a1-m45-cF 3zif-a1-m14-cH_3zif-a1-m14-cL 3zif-a1-m14-cH_3zif-a1-m47-cI 3zif-a1-m14-cI_3zif-a1-m41-cH 3zif-a1-m14-cI_3zif-a1-m41-cL 3zif-a1-m14-cL_3zif-a1-m47-cI 3zif-a1-m15-cC_3zif-a1-m15-cD 3zif-a1-m15-cF_3zif-a1-m29-cG 3zif-a1-m15-cG_3zif-a1-m29-cF 3zif-a1-m15-cH_3zif-a1-m15-cL 3zif-a1-m15-cH_3zif-a1-m45-cI 3zif-a1-m15-cI_3zif-a1-m30-cH 3zif-a1-m15-cI_3zif-a1-m30-cL 3zif-a1-m15-cL_3zif-a1-m45-cI 3zif-a1-m16-cC_3zif-a1-m16-cD 3zif-a1-m16-cC_3zif-a1-m17-cK 3zif-a1-m16-cD_3zif-a1-m17-cK 3zif-a1-m16-cH_3zif-a1-m16-cL 3zif-a1-m16-cH_3zif-a1-m39-cI 3zif-a1-m16-cK_3zif-a1-m20-cC 3zif-a1-m16-cK_3zif-a1-m20-cD 3zif-a1-m16-cL_3zif-a1-m39-cI 3zif-a1-m17-cC_3zif-a1-m17-cD 3zif-a1-m17-cC_3zif-a1-m18-cK 3zif-a1-m17-cD_3zif-a1-m18-cK 3zif-a1-m17-cF_3zif-a1-m28-cG 3zif-a1-m17-cG_3zif-a1-m28-cF 3zif-a1-m17-cH_3zif-a1-m17-cL 3zif-a1-m17-cI_3zif-a1-m29-cH 3zif-a1-m17-cI_3zif-a1-m29-cL 3zif-a1-m18-cC_3zif-a1-m18-cD 3zif-a1-m18-cC_3zif-a1-m19-cK 3zif-a1-m18-cD_3zif-a1-m19-cK 3zif-a1-m18-cF_3zif-a1-m52-cG 3zif-a1-m18-cG_3zif-a1-m52-cF 3zif-a1-m18-cH_3zif-a1-m18-cL 3zif-a1-m18-cH_3zif-a1-m28-cI 3zif-a1-m18-cI_3zif-a1-m53-cH 3zif-a1-m18-cI_3zif-a1-m53-cL 3zif-a1-m18-cL_3zif-a1-m28-cI 3zif-a1-m19-cC_3zif-a1-m19-cD 3zif-a1-m19-cC_3zif-a1-m20-cK 3zif-a1-m19-cD_3zif-a1-m20-cK 3zif-a1-m19-cF_3zif-a1-m60-cG 3zif-a1-m19-cG_3zif-a1-m60-cF 3zif-a1-m19-cH_3zif-a1-m19-cL 3zif-a1-m19-cH_3zif-a1-m52-cI 3zif-a1-m19-cI_3zif-a1-m56-cH 3zif-a1-m19-cI_3zif-a1-m56-cL 3zif-a1-m19-cL_3zif-a1-m52-cI 3zif-a1-m1-cC_3zif-a1-m1-cD 3zif-a1-m1-cC_3zif-a1-m2-cK 3zif-a1-m1-cD_3zif-a1-m2-cK 3zif-a1-m1-cF_3zif-a1-m6-cG 3zif-a1-m1-cG_3zif-a1-m6-cF 3zif-a1-m1-cH_3zif-a1-m1-cL 3zif-a1-m1-cH_3zif-a1-m34-cI 3zif-a1-m1-cI_3zif-a1-m7-cH 3zif-a1-m1-cI_3zif-a1-m7-cL 3zif-a1-m1-cK_3zif-a1-m5-cC 3zif-a1-m1-cK_3zif-a1-m5-cD 3zif-a1-m1-cL_3zif-a1-m34-cI 3zif-a1-m20-cC_3zif-a1-m20-cD 3zif-a1-m20-cF_3zif-a1-m39-cG 3zif-a1-m20-cG_3zif-a1-m39-cF 3zif-a1-m20-cH_3zif-a1-m20-cL 3zif-a1-m20-cH_3zif-a1-m60-cI 3zif-a1-m20-cI_3zif-a1-m40-cH 3zif-a1-m20-cI_3zif-a1-m40-cL 3zif-a1-m20-cL_3zif-a1-m60-cI 3zif-a1-m21-cC_3zif-a1-m21-cD 3zif-a1-m21-cC_3zif-a1-m22-cK 3zif-a1-m21-cD_3zif-a1-m22-cK 3zif-a1-m21-cF_3zif-a1-m26-cG 3zif-a1-m21-cG_3zif-a1-m26-cF 3zif-a1-m21-cH_3zif-a1-m21-cL 3zif-a1-m21-cH_3zif-a1-m54-cI 3zif-a1-m21-cI_3zif-a1-m27-cH 3zif-a1-m21-cI_3zif-a1-m27-cL 3zif-a1-m21-cK_3zif-a1-m25-cC 3zif-a1-m21-cK_3zif-a1-m25-cD 3zif-a1-m21-cL_3zif-a1-m54-cI 3zif-a1-m22-cC_3zif-a1-m22-cD 3zif-a1-m22-cC_3zif-a1-m23-cK 3zif-a1-m22-cD_3zif-a1-m23-cK 3zif-a1-m22-cF_3zif-a1-m43-cG 3zif-a1-m22-cG_3zif-a1-m43-cF 3zif-a1-m22-cH_3zif-a1-m22-cL 3zif-a1-m22-cH_3zif-a1-m26-cI 3zif-a1-m22-cI_3zif-a1-m44-cH 3zif-a1-m22-cI_3zif-a1-m44-cL 3zif-a1-m22-cL_3zif-a1-m26-cI 3zif-a1-m23-cC_3zif-a1-m23-cD 3zif-a1-m23-cC_3zif-a1-m24-cK 3zif-a1-m23-cD_3zif-a1-m24-cK 3zif-a1-m23-cH_3zif-a1-m23-cL 3zif-a1-m23-cH_3zif-a1-m43-cI 3zif-a1-m23-cI_3zif-a1-m3-cH 3zif-a1-m23-cI_3zif-a1-m3-cL 3zif-a1-m23-cL_3zif-a1-m43-cI 3zif-a1-m24-cC_3zif-a1-m24-cD 3zif-a1-m24-cC_3zif-a1-m25-cK 3zif-a1-m24-cD_3zif-a1-m25-cK 3zif-a1-m24-cH_3zif-a1-m24-cL 3zif-a1-m24-cI_3zif-a1-m6-cH 3zif-a1-m24-cI_3zif-a1-m6-cL 3zif-a1-m25-cC_3zif-a1-m25-cD 3zif-a1-m25-cF_3zif-a1-m54-cG 3zif-a1-m25-cG_3zif-a1-m54-cF 3zif-a1-m25-cH_3zif-a1-m25-cL 3zif-a1-m25-cI_3zif-a1-m55-cH 3zif-a1-m25-cI_3zif-a1-m55-cL 3zif-a1-m26-cC_3zif-a1-m26-cD 3zif-a1-m26-cC_3zif-a1-m27-cK 3zif-a1-m26-cD_3zif-a1-m27-cK 3zif-a1-m26-cH_3zif-a1-m26-cL 3zif-a1-m26-cH_3zif-a1-m44-cI 3zif-a1-m26-cK_3zif-a1-m30-cC 3zif-a1-m26-cK_3zif-a1-m30-cD 3zif-a1-m26-cL_3zif-a1-m44-cI 3zif-a1-m27-cC_3zif-a1-m27-cD 3zif-a1-m27-cC_3zif-a1-m28-cK 3zif-a1-m27-cD_3zif-a1-m28-cK 3zif-a1-m27-cF_3zif-a1-m53-cG 3zif-a1-m27-cG_3zif-a1-m53-cF 3zif-a1-m27-cH_3zif-a1-m27-cL 3zif-a1-m27-cI_3zif-a1-m54-cH 3zif-a1-m27-cI_3zif-a1-m54-cL 3zif-a1-m28-cC_3zif-a1-m28-cD 3zif-a1-m28-cC_3zif-a1-m29-cK 3zif-a1-m28-cD_3zif-a1-m29-cK 3zif-a1-m28-cH_3zif-a1-m28-cL 3zif-a1-m28-cH_3zif-a1-m53-cI 3zif-a1-m28-cL_3zif-a1-m53-cI 3zif-a1-m29-cC_3zif-a1-m29-cD 3zif-a1-m29-cC_3zif-a1-m30-cK 3zif-a1-m29-cD_3zif-a1-m30-cK 3zif-a1-m29-cH_3zif-a1-m29-cL 3zif-a1-m2-cC_3zif-a1-m2-cD 3zif-a1-m2-cC_3zif-a1-m3-cK 3zif-a1-m2-cD_3zif-a1-m3-cK 3zif-a1-m2-cF_3zif-a1-m23-cG 3zif-a1-m2-cG_3zif-a1-m23-cF 3zif-a1-m2-cH_3zif-a1-m2-cL 3zif-a1-m2-cH_3zif-a1-m6-cI 3zif-a1-m2-cI_3zif-a1-m24-cH 3zif-a1-m2-cI_3zif-a1-m24-cL 3zif-a1-m2-cL_3zif-a1-m6-cI 3zif-a1-m30-cC_3zif-a1-m30-cD 3zif-a1-m30-cF_3zif-a1-m44-cG 3zif-a1-m30-cG_3zif-a1-m44-cF 3zif-a1-m30-cH_3zif-a1-m30-cL 3zif-a1-m30-cI_3zif-a1-m45-cH 3zif-a1-m30-cI_3zif-a1-m45-cL 3zif-a1-m31-cC_3zif-a1-m31-cD 3zif-a1-m31-cC_3zif-a1-m32-cK 3zif-a1-m31-cD_3zif-a1-m32-cK 3zif-a1-m31-cF_3zif-a1-m36-cG 3zif-a1-m31-cG_3zif-a1-m36-cF 3zif-a1-m31-cH_3zif-a1-m31-cL 3zif-a1-m31-cH_3zif-a1-m49-cI 3zif-a1-m31-cI_3zif-a1-m37-cH 3zif-a1-m31-cI_3zif-a1-m37-cL 3zif-a1-m31-cK_3zif-a1-m35-cC 3zif-a1-m31-cK_3zif-a1-m35-cD 3zif-a1-m31-cL_3zif-a1-m49-cI 3zif-a1-m32-cC_3zif-a1-m32-cD 3zif-a1-m32-cC_3zif-a1-m33-cK 3zif-a1-m32-cD_3zif-a1-m33-cK 3zif-a1-m32-cF_3zif-a1-m58-cG 3zif-a1-m32-cG_3zif-a1-m58-cF 3zif-a1-m32-cH_3zif-a1-m32-cL 3zif-a1-m32-cH_3zif-a1-m36-cI 3zif-a1-m32-cI_3zif-a1-m59-cH 3zif-a1-m32-cI_3zif-a1-m59-cL 3zif-a1-m32-cL_3zif-a1-m36-cI 3zif-a1-m33-cC_3zif-a1-m33-cD 3zif-a1-m33-cC_3zif-a1-m34-cK 3zif-a1-m33-cD_3zif-a1-m34-cK 3zif-a1-m33-cF_3zif-a1-m7-cG 3zif-a1-m33-cG_3zif-a1-m7-cF 3zif-a1-m33-cH_3zif-a1-m33-cL 3zif-a1-m33-cH_3zif-a1-m58-cI 3zif-a1-m33-cI_3zif-a1-m8-cH 3zif-a1-m33-cI_3zif-a1-m8-cL 3zif-a1-m33-cL_3zif-a1-m58-cI 3zif-a1-m34-cC_3zif-a1-m34-cD 3zif-a1-m34-cC_3zif-a1-m35-cK 3zif-a1-m34-cD_3zif-a1-m35-cK 3zif-a1-m34-cF_3zif-a1-m5-cG 3zif-a1-m34-cG_3zif-a1-m5-cF 3zif-a1-m34-cH_3zif-a1-m34-cL 3zif-a1-m34-cH_3zif-a1-m7-cI 3zif-a1-m34-cL_3zif-a1-m7-cI 3zif-a1-m35-cC_3zif-a1-m35-cD 3zif-a1-m35-cF_3zif-a1-m49-cG 3zif-a1-m35-cG_3zif-a1-m49-cF 3zif-a1-m35-cH_3zif-a1-m35-cL 3zif-a1-m35-cH_3zif-a1-m5-cI 3zif-a1-m35-cI_3zif-a1-m50-cH 3zif-a1-m35-cI_3zif-a1-m50-cL 3zif-a1-m35-cL_3zif-a1-m5-cI 3zif-a1-m36-cC_3zif-a1-m36-cD 3zif-a1-m36-cC_3zif-a1-m37-cK 3zif-a1-m36-cD_3zif-a1-m37-cK 3zif-a1-m36-cH_3zif-a1-m36-cL 3zif-a1-m36-cH_3zif-a1-m59-cI 3zif-a1-m36-cK_3zif-a1-m40-cC 3zif-a1-m36-cK_3zif-a1-m40-cD 3zif-a1-m36-cL_3zif-a1-m59-cI 3zif-a1-m37-cC_3zif-a1-m37-cD 3zif-a1-m37-cC_3zif-a1-m38-cK 3zif-a1-m37-cD_3zif-a1-m38-cK 3zif-a1-m37-cF_3zif-a1-m48-cG 3zif-a1-m37-cG_3zif-a1-m48-cF 3zif-a1-m37-cH_3zif-a1-m37-cL 3zif-a1-m37-cI_3zif-a1-m49-cH 3zif-a1-m37-cI_3zif-a1-m49-cL 3zif-a1-m38-cC_3zif-a1-m38-cD 3zif-a1-m38-cC_3zif-a1-m39-cK 3zif-a1-m38-cD_3zif-a1-m39-cK 3zif-a1-m38-cH_3zif-a1-m38-cL 3zif-a1-m38-cH_3zif-a1-m48-cI 3zif-a1-m38-cL_3zif-a1-m48-cI 3zif-a1-m39-cC_3zif-a1-m39-cD 3zif-a1-m39-cC_3zif-a1-m40-cK 3zif-a1-m39-cD_3zif-a1-m40-cK 3zif-a1-m39-cH_3zif-a1-m39-cL 3zif-a1-m3-cC_3zif-a1-m3-cD 3zif-a1-m3-cC_3zif-a1-m4-cK 3zif-a1-m3-cD_3zif-a1-m4-cK 3zif-a1-m3-cF_3zif-a1-m42-cG 3zif-a1-m3-cG_3zif-a1-m42-cF 3zif-a1-m3-cH_3zif-a1-m3-cL 3zif-a1-m3-cI_3zif-a1-m43-cH 3zif-a1-m3-cI_3zif-a1-m43-cL 3zif-a1-m40-cC_3zif-a1-m40-cD 3zif-a1-m40-cF_3zif-a1-m59-cG 3zif-a1-m40-cG_3zif-a1-m59-cF 3zif-a1-m40-cH_3zif-a1-m40-cL 3zif-a1-m40-cI_3zif-a1-m60-cH 3zif-a1-m40-cI_3zif-a1-m60-cL 3zif-a1-m41-cC_3zif-a1-m41-cD 3zif-a1-m41-cC_3zif-a1-m42-cK 3zif-a1-m41-cD_3zif-a1-m42-cK 3zif-a1-m41-cF_3zif-a1-m46-cG 3zif-a1-m41-cG_3zif-a1-m46-cF 3zif-a1-m41-cH_3zif-a1-m41-cL 3zif-a1-m41-cI_3zif-a1-m47-cH 3zif-a1-m41-cI_3zif-a1-m47-cL 3zif-a1-m41-cK_3zif-a1-m45-cC 3zif-a1-m41-cK_3zif-a1-m45-cD 3zif-a1-m42-cC_3zif-a1-m42-cD 3zif-a1-m42-cC_3zif-a1-m43-cK 3zif-a1-m42-cD_3zif-a1-m43-cK 3zif-a1-m42-cH_3zif-a1-m42-cL 3zif-a1-m42-cH_3zif-a1-m46-cI 3zif-a1-m42-cL_3zif-a1-m46-cI 3zif-a1-m43-cC_3zif-a1-m43-cD 3zif-a1-m43-cC_3zif-a1-m44-cK 3zif-a1-m43-cD_3zif-a1-m44-cK 3zif-a1-m43-cH_3zif-a1-m43-cL 3zif-a1-m44-cC_3zif-a1-m44-cD 3zif-a1-m44-cC_3zif-a1-m45-cK 3zif-a1-m44-cD_3zif-a1-m45-cK 3zif-a1-m44-cH_3zif-a1-m44-cL 3zif-a1-m45-cC_3zif-a1-m45-cD 3zif-a1-m45-cH_3zif-a1-m45-cL 3zif-a1-m46-cC_3zif-a1-m46-cD 3zif-a1-m46-cC_3zif-a1-m47-cK 3zif-a1-m46-cD_3zif-a1-m47-cK 3zif-a1-m46-cH_3zif-a1-m46-cL 3zif-a1-m46-cK_3zif-a1-m50-cC 3zif-a1-m46-cK_3zif-a1-m50-cD 3zif-a1-m47-cC_3zif-a1-m47-cD 3zif-a1-m47-cC_3zif-a1-m48-cK 3zif-a1-m47-cD_3zif-a1-m48-cK 3zif-a1-m47-cH_3zif-a1-m47-cL 3zif-a1-m48-cC_3zif-a1-m48-cD 3zif-a1-m48-cC_3zif-a1-m49-cK 3zif-a1-m48-cD_3zif-a1-m49-cK 3zif-a1-m48-cH_3zif-a1-m48-cL 3zif-a1-m49-cC_3zif-a1-m49-cD 3zif-a1-m49-cC_3zif-a1-m50-cK 3zif-a1-m49-cD_3zif-a1-m50-cK 3zif-a1-m49-cH_3zif-a1-m49-cL 3zif-a1-m4-cC_3zif-a1-m4-cD 3zif-a1-m4-cC_3zif-a1-m5-cK 3zif-a1-m4-cD_3zif-a1-m5-cK 3zif-a1-m4-cF_3zif-a1-m50-cG 3zif-a1-m4-cG_3zif-a1-m50-cF 3zif-a1-m4-cH_3zif-a1-m42-cI 3zif-a1-m4-cH_3zif-a1-m4-cL 3zif-a1-m4-cI_3zif-a1-m46-cH 3zif-a1-m4-cI_3zif-a1-m46-cL 3zif-a1-m4-cL_3zif-a1-m42-cI 3zif-a1-m50-cC_3zif-a1-m50-cD 3zif-a1-m50-cH_3zif-a1-m50-cL 3zif-a1-m51-cC_3zif-a1-m51-cD 3zif-a1-m51-cC_3zif-a1-m52-cK 3zif-a1-m51-cD_3zif-a1-m52-cK 3zif-a1-m51-cF_3zif-a1-m56-cG 3zif-a1-m51-cG_3zif-a1-m56-cF 3zif-a1-m51-cH_3zif-a1-m51-cL 3zif-a1-m51-cH_3zif-a1-m9-cI 3zif-a1-m51-cI_3zif-a1-m57-cH 3zif-a1-m51-cI_3zif-a1-m57-cL 3zif-a1-m51-cK_3zif-a1-m55-cC 3zif-a1-m51-cK_3zif-a1-m55-cD 3zif-a1-m51-cL_3zif-a1-m9-cI 3zif-a1-m52-cC_3zif-a1-m52-cD 3zif-a1-m52-cC_3zif-a1-m53-cK 3zif-a1-m52-cD_3zif-a1-m53-cK 3zif-a1-m52-cH_3zif-a1-m52-cL 3zif-a1-m52-cH_3zif-a1-m56-cI 3zif-a1-m52-cL_3zif-a1-m56-cI 3zif-a1-m53-cC_3zif-a1-m53-cD 3zif-a1-m53-cC_3zif-a1-m54-cK 3zif-a1-m53-cD_3zif-a1-m54-cK 3zif-a1-m53-cH_3zif-a1-m53-cL 3zif-a1-m54-cC_3zif-a1-m54-cD 3zif-a1-m54-cC_3zif-a1-m55-cK 3zif-a1-m54-cD_3zif-a1-m55-cK 3zif-a1-m54-cH_3zif-a1-m54-cL 3zif-a1-m55-cC_3zif-a1-m55-cD 3zif-a1-m55-cF_3zif-a1-m9-cG 3zif-a1-m55-cG_3zif-a1-m9-cF 3zif-a1-m55-cH_3zif-a1-m55-cL 3zif-a1-m56-cC_3zif-a1-m56-cD 3zif-a1-m56-cC_3zif-a1-m57-cK 3zif-a1-m56-cD_3zif-a1-m57-cK 3zif-a1-m56-cH_3zif-a1-m56-cL 3zif-a1-m56-cK_3zif-a1-m60-cC 3zif-a1-m56-cK_3zif-a1-m60-cD 3zif-a1-m57-cC_3zif-a1-m57-cD 3zif-a1-m57-cC_3zif-a1-m58-cK 3zif-a1-m57-cD_3zif-a1-m58-cK 3zif-a1-m57-cF_3zif-a1-m8-cG 3zif-a1-m57-cG_3zif-a1-m8-cF 3zif-a1-m57-cH_3zif-a1-m57-cL 3zif-a1-m57-cI_3zif-a1-m9-cH 3zif-a1-m58-cC_3zif-a1-m58-cD 3zif-a1-m58-cC_3zif-a1-m59-cK 3zif-a1-m58-cD_3zif-a1-m59-cK 3zif-a1-m58-cH_3zif-a1-m58-cL 3zif-a1-m58-cH_3zif-a1-m8-cI 3zif-a1-m58-cL_3zif-a1-m8-cI 3zif-a1-m59-cC_3zif-a1-m59-cD 3zif-a1-m59-cC_3zif-a1-m60-cK 3zif-a1-m59-cD_3zif-a1-m60-cK 3zif-a1-m59-cH_3zif-a1-m59-cL 3zif-a1-m5-cC_3zif-a1-m5-cD 3zif-a1-m5-cH_3zif-a1-m50-cI 3zif-a1-m5-cH_3zif-a1-m5-cL 3zif-a1-m5-cL_3zif-a1-m50-cI 3zif-a1-m60-cC_3zif-a1-m60-cD 3zif-a1-m60-cH_3zif-a1-m60-cL 3zif-a1-m6-cC_3zif-a1-m6-cD 3zif-a1-m6-cC_3zif-a1-m7-cK 3zif-a1-m6-cD_3zif-a1-m7-cK 3zif-a1-m6-cH_3zif-a1-m6-cL 3zif-a1-m7-cC_3zif-a1-m7-cD 3zif-a1-m7-cC_3zif-a1-m8-cK 3zif-a1-m7-cD_3zif-a1-m8-cK 3zif-a1-m7-cH_3zif-a1-m7-cL 3zif-a1-m8-cC_3zif-a1-m8-cD 3zif-a1-m8-cC_3zif-a1-m9-cK 3zif-a1-m8-cD_3zif-a1-m9-cK 3zif-a1-m8-cH_3zif-a1-m8-cL 3zif-a1-m9-cC_3zif-a1-m9-cD 3zif-a1-m9-cH_3zif-a1-m9-cL LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m57-cQ_3zif-a1-m9-cQ Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly Q64845 Q64845 4.5 ELECTRON MICROSCOPY 63 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 107 107 3zif-a1-m10-cN_3zif-a1-m10-cO 3zif-a1-m10-cN_3zif-a1-m10-cP 3zif-a1-m10-cO_3zif-a1-m10-cP 3zif-a1-m10-cQ_3zif-a1-m25-cQ 3zif-a1-m10-cQ_3zif-a1-m55-cQ 3zif-a1-m11-cN_3zif-a1-m11-cO 3zif-a1-m11-cN_3zif-a1-m11-cP 3zif-a1-m11-cO_3zif-a1-m11-cP 3zif-a1-m11-cQ_3zif-a1-m17-cQ 3zif-a1-m11-cQ_3zif-a1-m29-cQ 3zif-a1-m12-cN_3zif-a1-m12-cO 3zif-a1-m12-cN_3zif-a1-m12-cP 3zif-a1-m12-cO_3zif-a1-m12-cP 3zif-a1-m12-cQ_3zif-a1-m16-cQ 3zif-a1-m12-cQ_3zif-a1-m39-cQ 3zif-a1-m13-cN_3zif-a1-m13-cO 3zif-a1-m13-cN_3zif-a1-m13-cP 3zif-a1-m13-cO_3zif-a1-m13-cP 3zif-a1-m13-cQ_3zif-a1-m38-cQ 3zif-a1-m13-cQ_3zif-a1-m48-cQ 3zif-a1-m14-cN_3zif-a1-m14-cO 3zif-a1-m14-cN_3zif-a1-m14-cP 3zif-a1-m14-cO_3zif-a1-m14-cP 3zif-a1-m14-cQ_3zif-a1-m41-cQ 3zif-a1-m14-cQ_3zif-a1-m47-cQ 3zif-a1-m15-cN_3zif-a1-m15-cO 3zif-a1-m15-cN_3zif-a1-m15-cP 3zif-a1-m15-cO_3zif-a1-m15-cP 3zif-a1-m15-cQ_3zif-a1-m30-cQ 3zif-a1-m15-cQ_3zif-a1-m45-cQ 3zif-a1-m16-cN_3zif-a1-m16-cO 3zif-a1-m16-cN_3zif-a1-m16-cP 3zif-a1-m16-cO_3zif-a1-m16-cP 3zif-a1-m16-cQ_3zif-a1-m39-cQ 3zif-a1-m17-cN_3zif-a1-m17-cO 3zif-a1-m17-cN_3zif-a1-m17-cP 3zif-a1-m17-cO_3zif-a1-m17-cP 3zif-a1-m17-cQ_3zif-a1-m29-cQ 3zif-a1-m18-cN_3zif-a1-m18-cO 3zif-a1-m18-cN_3zif-a1-m18-cP 3zif-a1-m18-cO_3zif-a1-m18-cP 3zif-a1-m18-cQ_3zif-a1-m28-cQ 3zif-a1-m18-cQ_3zif-a1-m53-cQ 3zif-a1-m19-cN_3zif-a1-m19-cO 3zif-a1-m19-cN_3zif-a1-m19-cP 3zif-a1-m19-cO_3zif-a1-m19-cP 3zif-a1-m19-cQ_3zif-a1-m52-cQ 3zif-a1-m19-cQ_3zif-a1-m56-cQ 3zif-a1-m1-cN_3zif-a1-m1-cO 3zif-a1-m1-cN_3zif-a1-m1-cP 3zif-a1-m1-cO_3zif-a1-m1-cP 3zif-a1-m1-cQ_3zif-a1-m34-cQ 3zif-a1-m1-cQ_3zif-a1-m7-cQ 3zif-a1-m20-cN_3zif-a1-m20-cO 3zif-a1-m20-cN_3zif-a1-m20-cP 3zif-a1-m20-cO_3zif-a1-m20-cP 3zif-a1-m20-cQ_3zif-a1-m40-cQ 3zif-a1-m20-cQ_3zif-a1-m60-cQ 3zif-a1-m21-cN_3zif-a1-m21-cO 3zif-a1-m21-cN_3zif-a1-m21-cP 3zif-a1-m21-cO_3zif-a1-m21-cP 3zif-a1-m21-cQ_3zif-a1-m27-cQ 3zif-a1-m21-cQ_3zif-a1-m54-cQ 3zif-a1-m22-cN_3zif-a1-m22-cO 3zif-a1-m22-cN_3zif-a1-m22-cP 3zif-a1-m22-cO_3zif-a1-m22-cP 3zif-a1-m22-cQ_3zif-a1-m26-cQ 3zif-a1-m22-cQ_3zif-a1-m44-cQ 3zif-a1-m23-cN_3zif-a1-m23-cO 3zif-a1-m23-cN_3zif-a1-m23-cP 3zif-a1-m23-cO_3zif-a1-m23-cP 3zif-a1-m23-cQ_3zif-a1-m3-cQ 3zif-a1-m23-cQ_3zif-a1-m43-cQ 3zif-a1-m24-cN_3zif-a1-m24-cO 3zif-a1-m24-cN_3zif-a1-m24-cP 3zif-a1-m24-cO_3zif-a1-m24-cP 3zif-a1-m24-cQ_3zif-a1-m6-cQ 3zif-a1-m25-cN_3zif-a1-m25-cO 3zif-a1-m25-cN_3zif-a1-m25-cP 3zif-a1-m25-cO_3zif-a1-m25-cP 3zif-a1-m25-cQ_3zif-a1-m55-cQ 3zif-a1-m26-cN_3zif-a1-m26-cO 3zif-a1-m26-cN_3zif-a1-m26-cP 3zif-a1-m26-cO_3zif-a1-m26-cP 3zif-a1-m26-cQ_3zif-a1-m44-cQ 3zif-a1-m27-cN_3zif-a1-m27-cO 3zif-a1-m27-cN_3zif-a1-m27-cP 3zif-a1-m27-cO_3zif-a1-m27-cP 3zif-a1-m27-cQ_3zif-a1-m54-cQ 3zif-a1-m28-cN_3zif-a1-m28-cO 3zif-a1-m28-cN_3zif-a1-m28-cP 3zif-a1-m28-cO_3zif-a1-m28-cP 3zif-a1-m28-cQ_3zif-a1-m53-cQ 3zif-a1-m29-cN_3zif-a1-m29-cO 3zif-a1-m29-cN_3zif-a1-m29-cP 3zif-a1-m29-cO_3zif-a1-m29-cP 3zif-a1-m2-cN_3zif-a1-m2-cO 3zif-a1-m2-cN_3zif-a1-m2-cP 3zif-a1-m2-cO_3zif-a1-m2-cP 3zif-a1-m2-cQ_3zif-a1-m24-cQ 3zif-a1-m2-cQ_3zif-a1-m6-cQ 3zif-a1-m30-cN_3zif-a1-m30-cO 3zif-a1-m30-cN_3zif-a1-m30-cP 3zif-a1-m30-cO_3zif-a1-m30-cP 3zif-a1-m30-cQ_3zif-a1-m45-cQ 3zif-a1-m31-cN_3zif-a1-m31-cO 3zif-a1-m31-cN_3zif-a1-m31-cP 3zif-a1-m31-cO_3zif-a1-m31-cP 3zif-a1-m31-cQ_3zif-a1-m37-cQ 3zif-a1-m31-cQ_3zif-a1-m49-cQ 3zif-a1-m32-cN_3zif-a1-m32-cO 3zif-a1-m32-cN_3zif-a1-m32-cP 3zif-a1-m32-cO_3zif-a1-m32-cP 3zif-a1-m32-cQ_3zif-a1-m36-cQ 3zif-a1-m32-cQ_3zif-a1-m59-cQ 3zif-a1-m33-cN_3zif-a1-m33-cO 3zif-a1-m33-cN_3zif-a1-m33-cP 3zif-a1-m33-cO_3zif-a1-m33-cP 3zif-a1-m33-cQ_3zif-a1-m58-cQ 3zif-a1-m33-cQ_3zif-a1-m8-cQ 3zif-a1-m34-cN_3zif-a1-m34-cO 3zif-a1-m34-cN_3zif-a1-m34-cP 3zif-a1-m34-cO_3zif-a1-m34-cP 3zif-a1-m34-cQ_3zif-a1-m7-cQ 3zif-a1-m35-cN_3zif-a1-m35-cO 3zif-a1-m35-cN_3zif-a1-m35-cP 3zif-a1-m35-cO_3zif-a1-m35-cP 3zif-a1-m35-cQ_3zif-a1-m50-cQ 3zif-a1-m35-cQ_3zif-a1-m5-cQ 3zif-a1-m36-cN_3zif-a1-m36-cO 3zif-a1-m36-cN_3zif-a1-m36-cP 3zif-a1-m36-cO_3zif-a1-m36-cP 3zif-a1-m36-cQ_3zif-a1-m59-cQ 3zif-a1-m37-cN_3zif-a1-m37-cO 3zif-a1-m37-cN_3zif-a1-m37-cP 3zif-a1-m37-cO_3zif-a1-m37-cP 3zif-a1-m37-cQ_3zif-a1-m49-cQ 3zif-a1-m38-cN_3zif-a1-m38-cO 3zif-a1-m38-cN_3zif-a1-m38-cP 3zif-a1-m38-cO_3zif-a1-m38-cP 3zif-a1-m38-cQ_3zif-a1-m48-cQ 3zif-a1-m39-cN_3zif-a1-m39-cO 3zif-a1-m39-cN_3zif-a1-m39-cP 3zif-a1-m39-cO_3zif-a1-m39-cP 3zif-a1-m3-cN_3zif-a1-m3-cO 3zif-a1-m3-cN_3zif-a1-m3-cP 3zif-a1-m3-cO_3zif-a1-m3-cP 3zif-a1-m3-cQ_3zif-a1-m43-cQ 3zif-a1-m40-cN_3zif-a1-m40-cO 3zif-a1-m40-cN_3zif-a1-m40-cP 3zif-a1-m40-cO_3zif-a1-m40-cP 3zif-a1-m40-cQ_3zif-a1-m60-cQ 3zif-a1-m41-cN_3zif-a1-m41-cO 3zif-a1-m41-cN_3zif-a1-m41-cP 3zif-a1-m41-cO_3zif-a1-m41-cP 3zif-a1-m41-cQ_3zif-a1-m47-cQ 3zif-a1-m42-cN_3zif-a1-m42-cO 3zif-a1-m42-cN_3zif-a1-m42-cP 3zif-a1-m42-cO_3zif-a1-m42-cP 3zif-a1-m42-cQ_3zif-a1-m46-cQ 3zif-a1-m43-cN_3zif-a1-m43-cO 3zif-a1-m43-cN_3zif-a1-m43-cP 3zif-a1-m43-cO_3zif-a1-m43-cP 3zif-a1-m44-cN_3zif-a1-m44-cO 3zif-a1-m44-cN_3zif-a1-m44-cP 3zif-a1-m44-cO_3zif-a1-m44-cP 3zif-a1-m45-cN_3zif-a1-m45-cO 3zif-a1-m45-cN_3zif-a1-m45-cP 3zif-a1-m45-cO_3zif-a1-m45-cP 3zif-a1-m46-cN_3zif-a1-m46-cO 3zif-a1-m46-cN_3zif-a1-m46-cP 3zif-a1-m46-cO_3zif-a1-m46-cP 3zif-a1-m47-cN_3zif-a1-m47-cO 3zif-a1-m47-cN_3zif-a1-m47-cP 3zif-a1-m47-cO_3zif-a1-m47-cP 3zif-a1-m48-cN_3zif-a1-m48-cO 3zif-a1-m48-cN_3zif-a1-m48-cP 3zif-a1-m48-cO_3zif-a1-m48-cP 3zif-a1-m49-cN_3zif-a1-m49-cO 3zif-a1-m49-cN_3zif-a1-m49-cP 3zif-a1-m49-cO_3zif-a1-m49-cP 3zif-a1-m4-cN_3zif-a1-m4-cO 3zif-a1-m4-cN_3zif-a1-m4-cP 3zif-a1-m4-cO_3zif-a1-m4-cP 3zif-a1-m4-cQ_3zif-a1-m42-cQ 3zif-a1-m4-cQ_3zif-a1-m46-cQ 3zif-a1-m50-cN_3zif-a1-m50-cO 3zif-a1-m50-cN_3zif-a1-m50-cP 3zif-a1-m50-cO_3zif-a1-m50-cP 3zif-a1-m51-cN_3zif-a1-m51-cO 3zif-a1-m51-cN_3zif-a1-m51-cP 3zif-a1-m51-cO_3zif-a1-m51-cP 3zif-a1-m51-cQ_3zif-a1-m57-cQ 3zif-a1-m51-cQ_3zif-a1-m9-cQ 3zif-a1-m52-cN_3zif-a1-m52-cO 3zif-a1-m52-cN_3zif-a1-m52-cP 3zif-a1-m52-cO_3zif-a1-m52-cP 3zif-a1-m52-cQ_3zif-a1-m56-cQ 3zif-a1-m53-cN_3zif-a1-m53-cO 3zif-a1-m53-cN_3zif-a1-m53-cP 3zif-a1-m53-cO_3zif-a1-m53-cP 3zif-a1-m54-cN_3zif-a1-m54-cO 3zif-a1-m54-cN_3zif-a1-m54-cP 3zif-a1-m54-cO_3zif-a1-m54-cP 3zif-a1-m55-cN_3zif-a1-m55-cO 3zif-a1-m55-cN_3zif-a1-m55-cP 3zif-a1-m55-cO_3zif-a1-m55-cP 3zif-a1-m56-cN_3zif-a1-m56-cO 3zif-a1-m56-cN_3zif-a1-m56-cP 3zif-a1-m56-cO_3zif-a1-m56-cP 3zif-a1-m57-cN_3zif-a1-m57-cO 3zif-a1-m57-cN_3zif-a1-m57-cP 3zif-a1-m57-cO_3zif-a1-m57-cP 3zif-a1-m58-cN_3zif-a1-m58-cO 3zif-a1-m58-cN_3zif-a1-m58-cP 3zif-a1-m58-cO_3zif-a1-m58-cP 3zif-a1-m58-cQ_3zif-a1-m8-cQ 3zif-a1-m59-cN_3zif-a1-m59-cO 3zif-a1-m59-cN_3zif-a1-m59-cP 3zif-a1-m59-cO_3zif-a1-m59-cP 3zif-a1-m5-cN_3zif-a1-m5-cO 3zif-a1-m5-cN_3zif-a1-m5-cP 3zif-a1-m5-cO_3zif-a1-m5-cP 3zif-a1-m5-cQ_3zif-a1-m50-cQ 3zif-a1-m60-cN_3zif-a1-m60-cO 3zif-a1-m60-cN_3zif-a1-m60-cP 3zif-a1-m60-cO_3zif-a1-m60-cP 3zif-a1-m6-cN_3zif-a1-m6-cO 3zif-a1-m6-cN_3zif-a1-m6-cP 3zif-a1-m6-cO_3zif-a1-m6-cP 3zif-a1-m7-cN_3zif-a1-m7-cO 3zif-a1-m7-cN_3zif-a1-m7-cP 3zif-a1-m7-cO_3zif-a1-m7-cP 3zif-a1-m8-cN_3zif-a1-m8-cO 3zif-a1-m8-cN_3zif-a1-m8-cP 3zif-a1-m8-cO_3zif-a1-m8-cP 3zif-a1-m9-cN_3zif-a1-m9-cO 3zif-a1-m9-cN_3zif-a1-m9-cP 3zif-a1-m9-cO_3zif-a1-m9-cP EGRIYVPYVTARLPKWSGSVQDKTGSNMLGGVVLPPNSQAHRTETVGTEATRDNLHAEGARRPEDQTPYMILVEDSLGGLKRRMDLLEESNQQLLATLNRLRTGLAA EGRIYVPYVTARLPKWSGSVQDKTGSNMLGGVVLPPNSQAHRTETVGTEATRDNLHAEGARRPEDQTPYMILVEDSLGGLKRRMDLLEESNQQLLATLNRLRTGLAA 3zif-a1-m8-cA_3zif-a1-m9-cB Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 11 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cA_3zif-a1-m6-cB 3zif-a1-m10-cB_3zif-a1-m9-cA 3zif-a1-m11-cA_3zif-a1-m12-cB 3zif-a1-m11-cB_3zif-a1-m15-cA 3zif-a1-m12-cA_3zif-a1-m13-cB 3zif-a1-m13-cA_3zif-a1-m14-cB 3zif-a1-m14-cA_3zif-a1-m15-cB 3zif-a1-m16-cA_3zif-a1-m17-cB 3zif-a1-m16-cB_3zif-a1-m20-cA 3zif-a1-m17-cA_3zif-a1-m18-cB 3zif-a1-m18-cA_3zif-a1-m19-cB 3zif-a1-m19-cA_3zif-a1-m20-cB 3zif-a1-m1-cA_3zif-a1-m2-cB 3zif-a1-m1-cB_3zif-a1-m5-cA 3zif-a1-m21-cA_3zif-a1-m22-cB 3zif-a1-m21-cB_3zif-a1-m25-cA 3zif-a1-m22-cA_3zif-a1-m23-cB 3zif-a1-m23-cA_3zif-a1-m24-cB 3zif-a1-m24-cA_3zif-a1-m25-cB 3zif-a1-m26-cA_3zif-a1-m27-cB 3zif-a1-m26-cB_3zif-a1-m30-cA 3zif-a1-m27-cA_3zif-a1-m28-cB 3zif-a1-m28-cA_3zif-a1-m29-cB 3zif-a1-m29-cA_3zif-a1-m30-cB 3zif-a1-m2-cA_3zif-a1-m3-cB 3zif-a1-m31-cA_3zif-a1-m32-cB 3zif-a1-m31-cB_3zif-a1-m35-cA 3zif-a1-m32-cA_3zif-a1-m33-cB 3zif-a1-m33-cA_3zif-a1-m34-cB 3zif-a1-m34-cA_3zif-a1-m35-cB 3zif-a1-m36-cA_3zif-a1-m37-cB 3zif-a1-m36-cB_3zif-a1-m40-cA 3zif-a1-m37-cA_3zif-a1-m38-cB 3zif-a1-m38-cA_3zif-a1-m39-cB 3zif-a1-m39-cA_3zif-a1-m40-cB 3zif-a1-m3-cA_3zif-a1-m4-cB 3zif-a1-m41-cA_3zif-a1-m42-cB 3zif-a1-m41-cB_3zif-a1-m45-cA 3zif-a1-m42-cA_3zif-a1-m43-cB 3zif-a1-m43-cA_3zif-a1-m44-cB 3zif-a1-m44-cA_3zif-a1-m45-cB 3zif-a1-m46-cA_3zif-a1-m47-cB 3zif-a1-m46-cB_3zif-a1-m50-cA 3zif-a1-m47-cA_3zif-a1-m48-cB 3zif-a1-m48-cA_3zif-a1-m49-cB 3zif-a1-m49-cA_3zif-a1-m50-cB 3zif-a1-m4-cA_3zif-a1-m5-cB 3zif-a1-m51-cA_3zif-a1-m52-cB 3zif-a1-m51-cB_3zif-a1-m55-cA 3zif-a1-m52-cA_3zif-a1-m53-cB 3zif-a1-m53-cA_3zif-a1-m54-cB 3zif-a1-m54-cA_3zif-a1-m55-cB 3zif-a1-m56-cA_3zif-a1-m57-cB 3zif-a1-m56-cB_3zif-a1-m60-cA 3zif-a1-m57-cA_3zif-a1-m58-cB 3zif-a1-m58-cA_3zif-a1-m59-cB 3zif-a1-m59-cA_3zif-a1-m60-cB 3zif-a1-m6-cA_3zif-a1-m7-cB 3zif-a1-m7-cA_3zif-a1-m8-cB LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m8-cF_3zif-a1-m9-cK Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 68 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cB_3zif-a1-m10-cD 3zif-a1-m10-cC_3zif-a1-m6-cJ 3zif-a1-m10-cF_3zif-a1-m24-cI 3zif-a1-m10-cF_3zif-a1-m6-cK 3zif-a1-m10-cG_3zif-a1-m10-cL 3zif-a1-m10-cH_3zif-a1-m25-cH 3zif-a1-m10-cH_3zif-a1-m55-cH 3zif-a1-m10-cI_3zif-a1-m24-cF 3zif-a1-m10-cI_3zif-a1-m25-cK 3zif-a1-m10-cJ_3zif-a1-m9-cC 3zif-a1-m10-cK_3zif-a1-m55-cI 3zif-a1-m10-cK_3zif-a1-m9-cF 3zif-a1-m11-cB_3zif-a1-m11-cD 3zif-a1-m11-cC_3zif-a1-m12-cJ 3zif-a1-m11-cF_3zif-a1-m12-cK 3zif-a1-m11-cF_3zif-a1-m16-cI 3zif-a1-m11-cG_3zif-a1-m11-cL 3zif-a1-m11-cH_3zif-a1-m17-cH 3zif-a1-m11-cH_3zif-a1-m29-cH 3zif-a1-m11-cI_3zif-a1-m16-cF 3zif-a1-m11-cI_3zif-a1-m17-cK 3zif-a1-m11-cJ_3zif-a1-m15-cC 3zif-a1-m11-cK_3zif-a1-m15-cF 3zif-a1-m11-cK_3zif-a1-m29-cI 3zif-a1-m12-cB_3zif-a1-m12-cD 3zif-a1-m12-cC_3zif-a1-m13-cJ 3zif-a1-m12-cF_3zif-a1-m13-cK 3zif-a1-m12-cF_3zif-a1-m38-cI 3zif-a1-m12-cG_3zif-a1-m12-cL 3zif-a1-m12-cH_3zif-a1-m16-cH 3zif-a1-m12-cH_3zif-a1-m39-cH 3zif-a1-m12-cI_3zif-a1-m38-cF 3zif-a1-m12-cI_3zif-a1-m39-cK 3zif-a1-m12-cK_3zif-a1-m16-cI 3zif-a1-m13-cB_3zif-a1-m13-cD 3zif-a1-m13-cC_3zif-a1-m14-cJ 3zif-a1-m13-cF_3zif-a1-m14-cK 3zif-a1-m13-cF_3zif-a1-m47-cI 3zif-a1-m13-cG_3zif-a1-m13-cL 3zif-a1-m13-cH_3zif-a1-m38-cH 3zif-a1-m13-cH_3zif-a1-m48-cH 3zif-a1-m13-cI_3zif-a1-m47-cF 3zif-a1-m13-cI_3zif-a1-m48-cK 3zif-a1-m13-cK_3zif-a1-m38-cI 3zif-a1-m14-cB_3zif-a1-m14-cD 3zif-a1-m14-cC_3zif-a1-m15-cJ 3zif-a1-m14-cF_3zif-a1-m15-cK 3zif-a1-m14-cF_3zif-a1-m45-cI 3zif-a1-m14-cG_3zif-a1-m14-cL 3zif-a1-m14-cH_3zif-a1-m41-cH 3zif-a1-m14-cH_3zif-a1-m47-cH 3zif-a1-m14-cI_3zif-a1-m41-cK 3zif-a1-m14-cI_3zif-a1-m45-cF 3zif-a1-m14-cK_3zif-a1-m47-cI 3zif-a1-m15-cB_3zif-a1-m15-cD 3zif-a1-m15-cF_3zif-a1-m29-cI 3zif-a1-m15-cG_3zif-a1-m15-cL 3zif-a1-m15-cH_3zif-a1-m30-cH 3zif-a1-m15-cH_3zif-a1-m45-cH 3zif-a1-m15-cI_3zif-a1-m29-cF 3zif-a1-m15-cI_3zif-a1-m30-cK 3zif-a1-m15-cK_3zif-a1-m45-cI 3zif-a1-m16-cB_3zif-a1-m16-cD 3zif-a1-m16-cC_3zif-a1-m17-cJ 3zif-a1-m16-cF_3zif-a1-m17-cK 3zif-a1-m16-cG_3zif-a1-m16-cL 3zif-a1-m16-cH_3zif-a1-m39-cH 3zif-a1-m16-cJ_3zif-a1-m20-cC 3zif-a1-m16-cK_3zif-a1-m20-cF 3zif-a1-m16-cK_3zif-a1-m39-cI 3zif-a1-m17-cB_3zif-a1-m17-cD 3zif-a1-m17-cC_3zif-a1-m18-cJ 3zif-a1-m17-cF_3zif-a1-m18-cK 3zif-a1-m17-cF_3zif-a1-m28-cI 3zif-a1-m17-cG_3zif-a1-m17-cL 3zif-a1-m17-cH_3zif-a1-m29-cH 3zif-a1-m17-cI_3zif-a1-m28-cF 3zif-a1-m17-cI_3zif-a1-m29-cK 3zif-a1-m18-cB_3zif-a1-m18-cD 3zif-a1-m18-cC_3zif-a1-m19-cJ 3zif-a1-m18-cF_3zif-a1-m19-cK 3zif-a1-m18-cF_3zif-a1-m52-cI 3zif-a1-m18-cG_3zif-a1-m18-cL 3zif-a1-m18-cH_3zif-a1-m28-cH 3zif-a1-m18-cH_3zif-a1-m53-cH 3zif-a1-m18-cI_3zif-a1-m52-cF 3zif-a1-m18-cI_3zif-a1-m53-cK 3zif-a1-m18-cK_3zif-a1-m28-cI 3zif-a1-m19-cB_3zif-a1-m19-cD 3zif-a1-m19-cC_3zif-a1-m20-cJ 3zif-a1-m19-cF_3zif-a1-m20-cK 3zif-a1-m19-cF_3zif-a1-m60-cI 3zif-a1-m19-cG_3zif-a1-m19-cL 3zif-a1-m19-cH_3zif-a1-m52-cH 3zif-a1-m19-cH_3zif-a1-m56-cH 3zif-a1-m19-cI_3zif-a1-m56-cK 3zif-a1-m19-cI_3zif-a1-m60-cF 3zif-a1-m19-cK_3zif-a1-m52-cI 3zif-a1-m1-cB_3zif-a1-m1-cD 3zif-a1-m1-cC_3zif-a1-m2-cJ 3zif-a1-m1-cF_3zif-a1-m2-cK 3zif-a1-m1-cF_3zif-a1-m6-cI 3zif-a1-m1-cG_3zif-a1-m1-cL 3zif-a1-m1-cH_3zif-a1-m34-cH 3zif-a1-m1-cH_3zif-a1-m7-cH 3zif-a1-m1-cI_3zif-a1-m6-cF 3zif-a1-m1-cI_3zif-a1-m7-cK 3zif-a1-m1-cJ_3zif-a1-m5-cC 3zif-a1-m1-cK_3zif-a1-m34-cI 3zif-a1-m1-cK_3zif-a1-m5-cF 3zif-a1-m20-cB_3zif-a1-m20-cD 3zif-a1-m20-cF_3zif-a1-m39-cI 3zif-a1-m20-cG_3zif-a1-m20-cL 3zif-a1-m20-cH_3zif-a1-m40-cH 3zif-a1-m20-cH_3zif-a1-m60-cH 3zif-a1-m20-cI_3zif-a1-m39-cF 3zif-a1-m20-cI_3zif-a1-m40-cK 3zif-a1-m20-cK_3zif-a1-m60-cI 3zif-a1-m21-cB_3zif-a1-m21-cD 3zif-a1-m21-cC_3zif-a1-m22-cJ 3zif-a1-m21-cF_3zif-a1-m22-cK 3zif-a1-m21-cF_3zif-a1-m26-cI 3zif-a1-m21-cG_3zif-a1-m21-cL 3zif-a1-m21-cH_3zif-a1-m27-cH 3zif-a1-m21-cH_3zif-a1-m54-cH 3zif-a1-m21-cI_3zif-a1-m26-cF 3zif-a1-m21-cI_3zif-a1-m27-cK 3zif-a1-m21-cJ_3zif-a1-m25-cC 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LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m8-cM_3zif-a1-m9-cM Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly 4.5 ELECTRON MICROSCOPY 234 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 450 450 3zif-a1-m10-cM_3zif-a1-m6-cM 3zif-a1-m10-cM_3zif-a1-m9-cM 3zif-a1-m11-cM_3zif-a1-m12-cM 3zif-a1-m11-cM_3zif-a1-m15-cM 3zif-a1-m12-cM_3zif-a1-m13-cM 3zif-a1-m13-cM_3zif-a1-m14-cM 3zif-a1-m14-cM_3zif-a1-m15-cM 3zif-a1-m16-cM_3zif-a1-m17-cM 3zif-a1-m16-cM_3zif-a1-m20-cM 3zif-a1-m17-cM_3zif-a1-m18-cM 3zif-a1-m18-cM_3zif-a1-m19-cM 3zif-a1-m19-cM_3zif-a1-m20-cM 3zif-a1-m1-cM_3zif-a1-m2-cM 3zif-a1-m1-cM_3zif-a1-m5-cM 3zif-a1-m21-cM_3zif-a1-m22-cM 3zif-a1-m21-cM_3zif-a1-m25-cM 3zif-a1-m22-cM_3zif-a1-m23-cM 3zif-a1-m23-cM_3zif-a1-m24-cM 3zif-a1-m24-cM_3zif-a1-m25-cM 3zif-a1-m26-cM_3zif-a1-m27-cM 3zif-a1-m26-cM_3zif-a1-m30-cM 3zif-a1-m27-cM_3zif-a1-m28-cM 3zif-a1-m28-cM_3zif-a1-m29-cM 3zif-a1-m29-cM_3zif-a1-m30-cM 3zif-a1-m2-cM_3zif-a1-m3-cM 3zif-a1-m31-cM_3zif-a1-m32-cM 3zif-a1-m31-cM_3zif-a1-m35-cM 3zif-a1-m32-cM_3zif-a1-m33-cM 3zif-a1-m33-cM_3zif-a1-m34-cM 3zif-a1-m34-cM_3zif-a1-m35-cM 3zif-a1-m36-cM_3zif-a1-m37-cM 3zif-a1-m36-cM_3zif-a1-m40-cM 3zif-a1-m37-cM_3zif-a1-m38-cM 3zif-a1-m38-cM_3zif-a1-m39-cM 3zif-a1-m39-cM_3zif-a1-m40-cM 3zif-a1-m3-cM_3zif-a1-m4-cM 3zif-a1-m41-cM_3zif-a1-m42-cM 3zif-a1-m41-cM_3zif-a1-m45-cM 3zif-a1-m42-cM_3zif-a1-m43-cM 3zif-a1-m43-cM_3zif-a1-m44-cM 3zif-a1-m44-cM_3zif-a1-m45-cM 3zif-a1-m46-cM_3zif-a1-m47-cM 3zif-a1-m46-cM_3zif-a1-m50-cM 3zif-a1-m47-cM_3zif-a1-m48-cM 3zif-a1-m48-cM_3zif-a1-m49-cM 3zif-a1-m49-cM_3zif-a1-m50-cM 3zif-a1-m4-cM_3zif-a1-m5-cM 3zif-a1-m51-cM_3zif-a1-m52-cM 3zif-a1-m51-cM_3zif-a1-m55-cM 3zif-a1-m52-cM_3zif-a1-m53-cM 3zif-a1-m53-cM_3zif-a1-m54-cM 3zif-a1-m54-cM_3zif-a1-m55-cM 3zif-a1-m56-cM_3zif-a1-m57-cM 3zif-a1-m56-cM_3zif-a1-m60-cM 3zif-a1-m57-cM_3zif-a1-m58-cM 3zif-a1-m58-cM_3zif-a1-m59-cM 3zif-a1-m59-cM_3zif-a1-m60-cM 3zif-a1-m6-cM_3zif-a1-m7-cM 3zif-a1-m7-cM_3zif-a1-m8-cM DEIHVPPRYAAASAGRNSIRYSMLPPLYDTTKIYLIDNKSSDIQTLNYQNDHSDYLTTIVQNSDFTPLEASNHSIELDERSRWGGNLKTILYTNLPNITQHMFSNSFRVKMMASKKDGVPQYEWFPLRLPEGNFSETMVIDLMNNAIVELYLALGRQEGVKEEDIGVKIDTRNFSLGYDPQTQLVTPGVYTNEAMHADIVLLPGCAIDFTHSRLNNLLGIRKRFPYQEGFVISYEDLKGGNIPALMDVEEFNKSKTVRALREDPKGRSYHVGEDPEARENETAYRSWYLAYNYGDPEKGVRATTLLTTGDVTCGVEQIYWSLPDMALDPVTFKASLKTSNYPVVGTELLPLVPRSFYNAQAVYSQWIQEKTNQTHVFNRFPENQILVRPPAPTITSISENKPSLTDHGIVPLRNRLGGVQRVTLTDARRRSCPYVYKSLGIVTPQVLSSR DEIHVPPRYAAASAGRNSIRYSMLPPLYDTTKIYLIDNKSSDIQTLNYQNDHSDYLTTIVQNSDFTPLEASNHSIELDERSRWGGNLKTILYTNLPNITQHMFSNSFRVKMMASKKDGVPQYEWFPLRLPEGNFSETMVIDLMNNAIVELYLALGRQEGVKEEDIGVKIDTRNFSLGYDPQTQLVTPGVYTNEAMHADIVLLPGCAIDFTHSRLNNLLGIRKRFPYQEGFVISYEDLKGGNIPALMDVEEFNKSKTVRALREDPKGRSYHVGEDPEARENETAYRSWYLAYNYGDPEKGVRATTLLTTGDVTCGVEQIYWSLPDMALDPVTFKASLKTSNYPVVGTELLPLVPRSFYNAQAVYSQWIQEKTNQTHVFNRFPENQILVRPPAPTITSISENKPSLTDHGIVPLRNRLGGVQRVTLTDARRRSCPYVYKSLGIVTPQVLSSR 3zif-a1-m9-cB_3zif-a1-m9-cJ Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 111 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cB_3zif-a1-m10-cJ 3zif-a1-m10-cE_3zif-a1-m10-cG 3zif-a1-m11-cB_3zif-a1-m11-cJ 3zif-a1-m11-cE_3zif-a1-m11-cG 3zif-a1-m12-cB_3zif-a1-m12-cJ 3zif-a1-m12-cE_3zif-a1-m12-cG 3zif-a1-m13-cB_3zif-a1-m13-cJ 3zif-a1-m13-cE_3zif-a1-m13-cG 3zif-a1-m14-cB_3zif-a1-m14-cJ 3zif-a1-m14-cE_3zif-a1-m14-cG 3zif-a1-m15-cB_3zif-a1-m15-cJ 3zif-a1-m15-cE_3zif-a1-m15-cG 3zif-a1-m16-cB_3zif-a1-m16-cJ 3zif-a1-m16-cE_3zif-a1-m16-cG 3zif-a1-m17-cB_3zif-a1-m17-cJ 3zif-a1-m17-cE_3zif-a1-m17-cG 3zif-a1-m18-cB_3zif-a1-m18-cJ 3zif-a1-m18-cE_3zif-a1-m18-cG 3zif-a1-m19-cB_3zif-a1-m19-cJ 3zif-a1-m19-cE_3zif-a1-m19-cG 3zif-a1-m1-cB_3zif-a1-m1-cJ 3zif-a1-m1-cE_3zif-a1-m1-cG 3zif-a1-m20-cB_3zif-a1-m20-cJ 3zif-a1-m20-cE_3zif-a1-m20-cG 3zif-a1-m21-cB_3zif-a1-m21-cJ 3zif-a1-m21-cE_3zif-a1-m21-cG 3zif-a1-m22-cB_3zif-a1-m22-cJ 3zif-a1-m22-cE_3zif-a1-m22-cG 3zif-a1-m23-cB_3zif-a1-m23-cJ 3zif-a1-m23-cE_3zif-a1-m23-cG 3zif-a1-m24-cB_3zif-a1-m24-cJ 3zif-a1-m24-cE_3zif-a1-m24-cG 3zif-a1-m25-cB_3zif-a1-m25-cJ 3zif-a1-m25-cE_3zif-a1-m25-cG 3zif-a1-m26-cB_3zif-a1-m26-cJ 3zif-a1-m26-cE_3zif-a1-m26-cG 3zif-a1-m27-cB_3zif-a1-m27-cJ 3zif-a1-m27-cE_3zif-a1-m27-cG 3zif-a1-m28-cB_3zif-a1-m28-cJ 3zif-a1-m28-cE_3zif-a1-m28-cG 3zif-a1-m29-cB_3zif-a1-m29-cJ 3zif-a1-m29-cE_3zif-a1-m29-cG 3zif-a1-m2-cB_3zif-a1-m2-cJ 3zif-a1-m2-cE_3zif-a1-m2-cG 3zif-a1-m30-cB_3zif-a1-m30-cJ 3zif-a1-m30-cE_3zif-a1-m30-cG 3zif-a1-m31-cB_3zif-a1-m31-cJ 3zif-a1-m31-cE_3zif-a1-m31-cG 3zif-a1-m32-cB_3zif-a1-m32-cJ 3zif-a1-m32-cE_3zif-a1-m32-cG 3zif-a1-m33-cB_3zif-a1-m33-cJ 3zif-a1-m33-cE_3zif-a1-m33-cG 3zif-a1-m34-cB_3zif-a1-m34-cJ 3zif-a1-m34-cE_3zif-a1-m34-cG 3zif-a1-m35-cB_3zif-a1-m35-cJ 3zif-a1-m35-cE_3zif-a1-m35-cG 3zif-a1-m36-cB_3zif-a1-m36-cJ 3zif-a1-m36-cE_3zif-a1-m36-cG 3zif-a1-m37-cB_3zif-a1-m37-cJ 3zif-a1-m37-cE_3zif-a1-m37-cG 3zif-a1-m38-cB_3zif-a1-m38-cJ 3zif-a1-m38-cE_3zif-a1-m38-cG 3zif-a1-m39-cB_3zif-a1-m39-cJ 3zif-a1-m39-cE_3zif-a1-m39-cG 3zif-a1-m3-cB_3zif-a1-m3-cJ 3zif-a1-m3-cE_3zif-a1-m3-cG 3zif-a1-m40-cB_3zif-a1-m40-cJ 3zif-a1-m40-cE_3zif-a1-m40-cG 3zif-a1-m41-cB_3zif-a1-m41-cJ 3zif-a1-m41-cE_3zif-a1-m41-cG 3zif-a1-m42-cB_3zif-a1-m42-cJ 3zif-a1-m42-cE_3zif-a1-m42-cG 3zif-a1-m43-cB_3zif-a1-m43-cJ 3zif-a1-m43-cE_3zif-a1-m43-cG 3zif-a1-m44-cB_3zif-a1-m44-cJ 3zif-a1-m44-cE_3zif-a1-m44-cG 3zif-a1-m45-cB_3zif-a1-m45-cJ 3zif-a1-m45-cE_3zif-a1-m45-cG 3zif-a1-m46-cB_3zif-a1-m46-cJ 3zif-a1-m46-cE_3zif-a1-m46-cG 3zif-a1-m47-cB_3zif-a1-m47-cJ 3zif-a1-m47-cE_3zif-a1-m47-cG 3zif-a1-m48-cB_3zif-a1-m48-cJ 3zif-a1-m48-cE_3zif-a1-m48-cG 3zif-a1-m49-cB_3zif-a1-m49-cJ 3zif-a1-m49-cE_3zif-a1-m49-cG 3zif-a1-m4-cB_3zif-a1-m4-cJ 3zif-a1-m4-cE_3zif-a1-m4-cG 3zif-a1-m50-cB_3zif-a1-m50-cJ 3zif-a1-m50-cE_3zif-a1-m50-cG 3zif-a1-m51-cB_3zif-a1-m51-cJ 3zif-a1-m51-cE_3zif-a1-m51-cG 3zif-a1-m52-cB_3zif-a1-m52-cJ 3zif-a1-m52-cE_3zif-a1-m52-cG 3zif-a1-m53-cB_3zif-a1-m53-cJ 3zif-a1-m53-cE_3zif-a1-m53-cG 3zif-a1-m54-cB_3zif-a1-m54-cJ 3zif-a1-m54-cE_3zif-a1-m54-cG 3zif-a1-m55-cB_3zif-a1-m55-cJ 3zif-a1-m55-cE_3zif-a1-m55-cG 3zif-a1-m56-cB_3zif-a1-m56-cJ 3zif-a1-m56-cE_3zif-a1-m56-cG 3zif-a1-m57-cB_3zif-a1-m57-cJ 3zif-a1-m57-cE_3zif-a1-m57-cG 3zif-a1-m58-cB_3zif-a1-m58-cJ 3zif-a1-m58-cE_3zif-a1-m58-cG 3zif-a1-m59-cB_3zif-a1-m59-cJ 3zif-a1-m59-cE_3zif-a1-m59-cG 3zif-a1-m5-cB_3zif-a1-m5-cJ 3zif-a1-m5-cE_3zif-a1-m5-cG 3zif-a1-m60-cB_3zif-a1-m60-cJ 3zif-a1-m60-cE_3zif-a1-m60-cG 3zif-a1-m6-cB_3zif-a1-m6-cJ 3zif-a1-m6-cE_3zif-a1-m6-cG 3zif-a1-m7-cB_3zif-a1-m7-cJ 3zif-a1-m7-cE_3zif-a1-m7-cG 3zif-a1-m8-cB_3zif-a1-m8-cJ 3zif-a1-m8-cE_3zif-a1-m8-cG 3zif-a1-m9-cE_3zif-a1-m9-cG LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m9-cE_3zif-a1-m9-cL Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 24 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cA_3zif-a1-m6-cA 3zif-a1-m10-cA_3zif-a1-m9-cA 3zif-a1-m10-cB_3zif-a1-m9-cC 3zif-a1-m10-cC_3zif-a1-m6-cB 3zif-a1-m10-cD_3zif-a1-m10-cJ 3zif-a1-m10-cE_3zif-a1-m10-cL 3zif-a1-m11-cA_3zif-a1-m12-cA 3zif-a1-m11-cA_3zif-a1-m15-cA 3zif-a1-m11-cB_3zif-a1-m15-cC 3zif-a1-m11-cC_3zif-a1-m12-cB 3zif-a1-m11-cD_3zif-a1-m11-cJ 3zif-a1-m11-cE_3zif-a1-m11-cL 3zif-a1-m12-cA_3zif-a1-m13-cA 3zif-a1-m12-cC_3zif-a1-m13-cB 3zif-a1-m12-cD_3zif-a1-m12-cJ 3zif-a1-m12-cE_3zif-a1-m12-cL 3zif-a1-m13-cA_3zif-a1-m14-cA 3zif-a1-m13-cC_3zif-a1-m14-cB 3zif-a1-m13-cD_3zif-a1-m13-cJ 3zif-a1-m13-cE_3zif-a1-m13-cL 3zif-a1-m14-cA_3zif-a1-m15-cA 3zif-a1-m14-cC_3zif-a1-m15-cB 3zif-a1-m14-cD_3zif-a1-m14-cJ 3zif-a1-m14-cE_3zif-a1-m14-cL 3zif-a1-m15-cD_3zif-a1-m15-cJ 3zif-a1-m15-cE_3zif-a1-m15-cL 3zif-a1-m16-cA_3zif-a1-m17-cA 3zif-a1-m16-cA_3zif-a1-m20-cA 3zif-a1-m16-cB_3zif-a1-m20-cC 3zif-a1-m16-cC_3zif-a1-m17-cB 3zif-a1-m16-cD_3zif-a1-m16-cJ 3zif-a1-m16-cE_3zif-a1-m16-cL 3zif-a1-m17-cA_3zif-a1-m18-cA 3zif-a1-m17-cC_3zif-a1-m18-cB 3zif-a1-m17-cD_3zif-a1-m17-cJ 3zif-a1-m17-cE_3zif-a1-m17-cL 3zif-a1-m18-cA_3zif-a1-m19-cA 3zif-a1-m18-cC_3zif-a1-m19-cB 3zif-a1-m18-cD_3zif-a1-m18-cJ 3zif-a1-m18-cE_3zif-a1-m18-cL 3zif-a1-m19-cA_3zif-a1-m20-cA 3zif-a1-m19-cC_3zif-a1-m20-cB 3zif-a1-m19-cD_3zif-a1-m19-cJ 3zif-a1-m19-cE_3zif-a1-m19-cL 3zif-a1-m1-cA_3zif-a1-m2-cA 3zif-a1-m1-cA_3zif-a1-m5-cA 3zif-a1-m1-cB_3zif-a1-m5-cC 3zif-a1-m1-cC_3zif-a1-m2-cB 3zif-a1-m1-cD_3zif-a1-m1-cJ 3zif-a1-m1-cE_3zif-a1-m1-cL 3zif-a1-m20-cD_3zif-a1-m20-cJ 3zif-a1-m20-cE_3zif-a1-m20-cL 3zif-a1-m21-cA_3zif-a1-m22-cA 3zif-a1-m21-cA_3zif-a1-m25-cA 3zif-a1-m21-cB_3zif-a1-m25-cC 3zif-a1-m21-cC_3zif-a1-m22-cB 3zif-a1-m21-cD_3zif-a1-m21-cJ 3zif-a1-m21-cE_3zif-a1-m21-cL 3zif-a1-m22-cA_3zif-a1-m23-cA 3zif-a1-m22-cC_3zif-a1-m23-cB 3zif-a1-m22-cD_3zif-a1-m22-cJ 3zif-a1-m22-cE_3zif-a1-m22-cL 3zif-a1-m23-cA_3zif-a1-m24-cA 3zif-a1-m23-cC_3zif-a1-m24-cB 3zif-a1-m23-cD_3zif-a1-m23-cJ 3zif-a1-m23-cE_3zif-a1-m23-cL 3zif-a1-m24-cA_3zif-a1-m25-cA 3zif-a1-m24-cC_3zif-a1-m25-cB 3zif-a1-m24-cD_3zif-a1-m24-cJ 3zif-a1-m24-cE_3zif-a1-m24-cL 3zif-a1-m25-cD_3zif-a1-m25-cJ 3zif-a1-m25-cE_3zif-a1-m25-cL 3zif-a1-m26-cA_3zif-a1-m27-cA 3zif-a1-m26-cA_3zif-a1-m30-cA 3zif-a1-m26-cB_3zif-a1-m30-cC 3zif-a1-m26-cC_3zif-a1-m27-cB 3zif-a1-m26-cD_3zif-a1-m26-cJ 3zif-a1-m26-cE_3zif-a1-m26-cL 3zif-a1-m27-cA_3zif-a1-m28-cA 3zif-a1-m27-cC_3zif-a1-m28-cB 3zif-a1-m27-cD_3zif-a1-m27-cJ 3zif-a1-m27-cE_3zif-a1-m27-cL 3zif-a1-m28-cA_3zif-a1-m29-cA 3zif-a1-m28-cC_3zif-a1-m29-cB 3zif-a1-m28-cD_3zif-a1-m28-cJ 3zif-a1-m28-cE_3zif-a1-m28-cL 3zif-a1-m29-cA_3zif-a1-m30-cA 3zif-a1-m29-cC_3zif-a1-m30-cB 3zif-a1-m29-cD_3zif-a1-m29-cJ 3zif-a1-m29-cE_3zif-a1-m29-cL 3zif-a1-m2-cA_3zif-a1-m3-cA 3zif-a1-m2-cC_3zif-a1-m3-cB 3zif-a1-m2-cD_3zif-a1-m2-cJ 3zif-a1-m2-cE_3zif-a1-m2-cL 3zif-a1-m30-cD_3zif-a1-m30-cJ 3zif-a1-m30-cE_3zif-a1-m30-cL 3zif-a1-m31-cA_3zif-a1-m32-cA 3zif-a1-m31-cA_3zif-a1-m35-cA 3zif-a1-m31-cB_3zif-a1-m35-cC 3zif-a1-m31-cC_3zif-a1-m32-cB 3zif-a1-m31-cD_3zif-a1-m31-cJ 3zif-a1-m31-cE_3zif-a1-m31-cL 3zif-a1-m32-cA_3zif-a1-m33-cA 3zif-a1-m32-cC_3zif-a1-m33-cB 3zif-a1-m32-cD_3zif-a1-m32-cJ 3zif-a1-m32-cE_3zif-a1-m32-cL 3zif-a1-m33-cA_3zif-a1-m34-cA 3zif-a1-m33-cC_3zif-a1-m34-cB 3zif-a1-m33-cD_3zif-a1-m33-cJ 3zif-a1-m33-cE_3zif-a1-m33-cL 3zif-a1-m34-cA_3zif-a1-m35-cA 3zif-a1-m34-cC_3zif-a1-m35-cB 3zif-a1-m34-cD_3zif-a1-m34-cJ 3zif-a1-m34-cE_3zif-a1-m34-cL 3zif-a1-m35-cD_3zif-a1-m35-cJ 3zif-a1-m35-cE_3zif-a1-m35-cL 3zif-a1-m36-cA_3zif-a1-m37-cA 3zif-a1-m36-cA_3zif-a1-m40-cA 3zif-a1-m36-cB_3zif-a1-m40-cC 3zif-a1-m36-cC_3zif-a1-m37-cB 3zif-a1-m36-cD_3zif-a1-m36-cJ 3zif-a1-m36-cE_3zif-a1-m36-cL 3zif-a1-m37-cA_3zif-a1-m38-cA 3zif-a1-m37-cC_3zif-a1-m38-cB 3zif-a1-m37-cD_3zif-a1-m37-cJ 3zif-a1-m37-cE_3zif-a1-m37-cL 3zif-a1-m38-cA_3zif-a1-m39-cA 3zif-a1-m38-cC_3zif-a1-m39-cB 3zif-a1-m38-cD_3zif-a1-m38-cJ 3zif-a1-m38-cE_3zif-a1-m38-cL 3zif-a1-m39-cA_3zif-a1-m40-cA 3zif-a1-m39-cC_3zif-a1-m40-cB 3zif-a1-m39-cD_3zif-a1-m39-cJ 3zif-a1-m39-cE_3zif-a1-m39-cL 3zif-a1-m3-cA_3zif-a1-m4-cA 3zif-a1-m3-cC_3zif-a1-m4-cB 3zif-a1-m3-cD_3zif-a1-m3-cJ 3zif-a1-m3-cE_3zif-a1-m3-cL 3zif-a1-m40-cD_3zif-a1-m40-cJ 3zif-a1-m40-cE_3zif-a1-m40-cL 3zif-a1-m41-cA_3zif-a1-m42-cA 3zif-a1-m41-cA_3zif-a1-m45-cA 3zif-a1-m41-cB_3zif-a1-m45-cC 3zif-a1-m41-cC_3zif-a1-m42-cB 3zif-a1-m41-cD_3zif-a1-m41-cJ 3zif-a1-m41-cE_3zif-a1-m41-cL 3zif-a1-m42-cA_3zif-a1-m43-cA 3zif-a1-m42-cC_3zif-a1-m43-cB 3zif-a1-m42-cD_3zif-a1-m42-cJ 3zif-a1-m42-cE_3zif-a1-m42-cL 3zif-a1-m43-cA_3zif-a1-m44-cA 3zif-a1-m43-cC_3zif-a1-m44-cB 3zif-a1-m43-cD_3zif-a1-m43-cJ 3zif-a1-m43-cE_3zif-a1-m43-cL 3zif-a1-m44-cA_3zif-a1-m45-cA 3zif-a1-m44-cC_3zif-a1-m45-cB 3zif-a1-m44-cD_3zif-a1-m44-cJ 3zif-a1-m44-cE_3zif-a1-m44-cL 3zif-a1-m45-cD_3zif-a1-m45-cJ 3zif-a1-m45-cE_3zif-a1-m45-cL 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3zif-a1-m6-cA_3zif-a1-m7-cA 3zif-a1-m6-cC_3zif-a1-m7-cB 3zif-a1-m6-cD_3zif-a1-m6-cJ 3zif-a1-m6-cE_3zif-a1-m6-cL 3zif-a1-m7-cA_3zif-a1-m8-cA 3zif-a1-m7-cC_3zif-a1-m8-cB 3zif-a1-m7-cD_3zif-a1-m7-cJ 3zif-a1-m7-cE_3zif-a1-m7-cL 3zif-a1-m8-cA_3zif-a1-m9-cA 3zif-a1-m8-cC_3zif-a1-m9-cB 3zif-a1-m8-cD_3zif-a1-m8-cJ 3zif-a1-m8-cE_3zif-a1-m8-cL 3zif-a1-m9-cD_3zif-a1-m9-cJ LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zif-a1-m9-cK_3zif-a1-m9-cL Cryo-EM structures of two intermediates provide insight into adenovirus assembly and disassembly P03278 P03278 4.5 ELECTRON MICROSCOPY 573 1.0 10510 (Bovine adenovirus 3) 10510 (Bovine adenovirus 3) 903 903 3zif-a1-m10-cA_3zif-a1-m10-cB 3zif-a1-m10-cA_3zif-a1-m10-cC 3zif-a1-m10-cB_3zif-a1-m10-cC 3zif-a1-m10-cD_3zif-a1-m10-cE 3zif-a1-m10-cD_3zif-a1-m10-cF 3zif-a1-m10-cE_3zif-a1-m10-cF 3zif-a1-m10-cG_3zif-a1-m10-cH 3zif-a1-m10-cG_3zif-a1-m10-cI 3zif-a1-m10-cH_3zif-a1-m10-cI 3zif-a1-m10-cJ_3zif-a1-m10-cK 3zif-a1-m10-cJ_3zif-a1-m10-cL 3zif-a1-m10-cK_3zif-a1-m10-cL 3zif-a1-m11-cA_3zif-a1-m11-cB 3zif-a1-m11-cA_3zif-a1-m11-cC 3zif-a1-m11-cB_3zif-a1-m11-cC 3zif-a1-m11-cD_3zif-a1-m11-cE 3zif-a1-m11-cD_3zif-a1-m11-cF 3zif-a1-m11-cE_3zif-a1-m11-cF 3zif-a1-m11-cG_3zif-a1-m11-cH 3zif-a1-m11-cG_3zif-a1-m11-cI 3zif-a1-m11-cH_3zif-a1-m11-cI 3zif-a1-m11-cJ_3zif-a1-m11-cK 3zif-a1-m11-cJ_3zif-a1-m11-cL 3zif-a1-m11-cK_3zif-a1-m11-cL 3zif-a1-m12-cA_3zif-a1-m12-cB 3zif-a1-m12-cA_3zif-a1-m12-cC 3zif-a1-m12-cB_3zif-a1-m12-cC 3zif-a1-m12-cD_3zif-a1-m12-cE 3zif-a1-m12-cD_3zif-a1-m12-cF 3zif-a1-m12-cE_3zif-a1-m12-cF 3zif-a1-m12-cG_3zif-a1-m12-cH 3zif-a1-m12-cG_3zif-a1-m12-cI 3zif-a1-m12-cH_3zif-a1-m12-cI 3zif-a1-m12-cJ_3zif-a1-m12-cK 3zif-a1-m12-cJ_3zif-a1-m12-cL 3zif-a1-m12-cK_3zif-a1-m12-cL 3zif-a1-m13-cA_3zif-a1-m13-cB 3zif-a1-m13-cA_3zif-a1-m13-cC 3zif-a1-m13-cB_3zif-a1-m13-cC 3zif-a1-m13-cD_3zif-a1-m13-cE 3zif-a1-m13-cD_3zif-a1-m13-cF 3zif-a1-m13-cE_3zif-a1-m13-cF 3zif-a1-m13-cG_3zif-a1-m13-cH 3zif-a1-m13-cG_3zif-a1-m13-cI 3zif-a1-m13-cH_3zif-a1-m13-cI 3zif-a1-m13-cJ_3zif-a1-m13-cK 3zif-a1-m13-cJ_3zif-a1-m13-cL 3zif-a1-m13-cK_3zif-a1-m13-cL 3zif-a1-m14-cA_3zif-a1-m14-cB 3zif-a1-m14-cA_3zif-a1-m14-cC 3zif-a1-m14-cB_3zif-a1-m14-cC 3zif-a1-m14-cD_3zif-a1-m14-cE 3zif-a1-m14-cD_3zif-a1-m14-cF 3zif-a1-m14-cE_3zif-a1-m14-cF 3zif-a1-m14-cG_3zif-a1-m14-cH 3zif-a1-m14-cG_3zif-a1-m14-cI 3zif-a1-m14-cH_3zif-a1-m14-cI 3zif-a1-m14-cJ_3zif-a1-m14-cK 3zif-a1-m14-cJ_3zif-a1-m14-cL 3zif-a1-m14-cK_3zif-a1-m14-cL 3zif-a1-m15-cA_3zif-a1-m15-cB 3zif-a1-m15-cA_3zif-a1-m15-cC 3zif-a1-m15-cB_3zif-a1-m15-cC 3zif-a1-m15-cD_3zif-a1-m15-cE 3zif-a1-m15-cD_3zif-a1-m15-cF 3zif-a1-m15-cE_3zif-a1-m15-cF 3zif-a1-m15-cG_3zif-a1-m15-cH 3zif-a1-m15-cG_3zif-a1-m15-cI 3zif-a1-m15-cH_3zif-a1-m15-cI 3zif-a1-m15-cJ_3zif-a1-m15-cK 3zif-a1-m15-cJ_3zif-a1-m15-cL 3zif-a1-m15-cK_3zif-a1-m15-cL 3zif-a1-m16-cA_3zif-a1-m16-cB 3zif-a1-m16-cA_3zif-a1-m16-cC 3zif-a1-m16-cB_3zif-a1-m16-cC 3zif-a1-m16-cD_3zif-a1-m16-cE 3zif-a1-m16-cD_3zif-a1-m16-cF 3zif-a1-m16-cE_3zif-a1-m16-cF 3zif-a1-m16-cG_3zif-a1-m16-cH 3zif-a1-m16-cG_3zif-a1-m16-cI 3zif-a1-m16-cH_3zif-a1-m16-cI 3zif-a1-m16-cJ_3zif-a1-m16-cK 3zif-a1-m16-cJ_3zif-a1-m16-cL 3zif-a1-m16-cK_3zif-a1-m16-cL 3zif-a1-m17-cA_3zif-a1-m17-cB 3zif-a1-m17-cA_3zif-a1-m17-cC 3zif-a1-m17-cB_3zif-a1-m17-cC 3zif-a1-m17-cD_3zif-a1-m17-cE 3zif-a1-m17-cD_3zif-a1-m17-cF 3zif-a1-m17-cE_3zif-a1-m17-cF 3zif-a1-m17-cG_3zif-a1-m17-cH 3zif-a1-m17-cG_3zif-a1-m17-cI 3zif-a1-m17-cH_3zif-a1-m17-cI 3zif-a1-m17-cJ_3zif-a1-m17-cK 3zif-a1-m17-cJ_3zif-a1-m17-cL 3zif-a1-m17-cK_3zif-a1-m17-cL 3zif-a1-m18-cA_3zif-a1-m18-cB 3zif-a1-m18-cA_3zif-a1-m18-cC 3zif-a1-m18-cB_3zif-a1-m18-cC 3zif-a1-m18-cD_3zif-a1-m18-cE 3zif-a1-m18-cD_3zif-a1-m18-cF 3zif-a1-m18-cE_3zif-a1-m18-cF 3zif-a1-m18-cG_3zif-a1-m18-cH 3zif-a1-m18-cG_3zif-a1-m18-cI 3zif-a1-m18-cH_3zif-a1-m18-cI 3zif-a1-m18-cJ_3zif-a1-m18-cK 3zif-a1-m18-cJ_3zif-a1-m18-cL 3zif-a1-m18-cK_3zif-a1-m18-cL 3zif-a1-m19-cA_3zif-a1-m19-cB 3zif-a1-m19-cA_3zif-a1-m19-cC 3zif-a1-m19-cB_3zif-a1-m19-cC 3zif-a1-m19-cD_3zif-a1-m19-cE 3zif-a1-m19-cD_3zif-a1-m19-cF 3zif-a1-m19-cE_3zif-a1-m19-cF 3zif-a1-m19-cG_3zif-a1-m19-cH 3zif-a1-m19-cG_3zif-a1-m19-cI 3zif-a1-m19-cH_3zif-a1-m19-cI 3zif-a1-m19-cJ_3zif-a1-m19-cK 3zif-a1-m19-cJ_3zif-a1-m19-cL 3zif-a1-m19-cK_3zif-a1-m19-cL 3zif-a1-m1-cA_3zif-a1-m1-cB 3zif-a1-m1-cA_3zif-a1-m1-cC 3zif-a1-m1-cB_3zif-a1-m1-cC 3zif-a1-m1-cD_3zif-a1-m1-cE 3zif-a1-m1-cD_3zif-a1-m1-cF 3zif-a1-m1-cE_3zif-a1-m1-cF 3zif-a1-m1-cG_3zif-a1-m1-cH 3zif-a1-m1-cG_3zif-a1-m1-cI 3zif-a1-m1-cH_3zif-a1-m1-cI 3zif-a1-m1-cJ_3zif-a1-m1-cK 3zif-a1-m1-cJ_3zif-a1-m1-cL 3zif-a1-m1-cK_3zif-a1-m1-cL 3zif-a1-m20-cA_3zif-a1-m20-cB 3zif-a1-m20-cA_3zif-a1-m20-cC 3zif-a1-m20-cB_3zif-a1-m20-cC 3zif-a1-m20-cD_3zif-a1-m20-cE 3zif-a1-m20-cD_3zif-a1-m20-cF 3zif-a1-m20-cE_3zif-a1-m20-cF 3zif-a1-m20-cG_3zif-a1-m20-cH 3zif-a1-m20-cG_3zif-a1-m20-cI 3zif-a1-m20-cH_3zif-a1-m20-cI 3zif-a1-m20-cJ_3zif-a1-m20-cK 3zif-a1-m20-cJ_3zif-a1-m20-cL 3zif-a1-m20-cK_3zif-a1-m20-cL 3zif-a1-m21-cA_3zif-a1-m21-cB 3zif-a1-m21-cA_3zif-a1-m21-cC 3zif-a1-m21-cB_3zif-a1-m21-cC 3zif-a1-m21-cD_3zif-a1-m21-cE 3zif-a1-m21-cD_3zif-a1-m21-cF 3zif-a1-m21-cE_3zif-a1-m21-cF 3zif-a1-m21-cG_3zif-a1-m21-cH 3zif-a1-m21-cG_3zif-a1-m21-cI 3zif-a1-m21-cH_3zif-a1-m21-cI 3zif-a1-m21-cJ_3zif-a1-m21-cK 3zif-a1-m21-cJ_3zif-a1-m21-cL 3zif-a1-m21-cK_3zif-a1-m21-cL 3zif-a1-m22-cA_3zif-a1-m22-cB 3zif-a1-m22-cA_3zif-a1-m22-cC 3zif-a1-m22-cB_3zif-a1-m22-cC 3zif-a1-m22-cD_3zif-a1-m22-cE 3zif-a1-m22-cD_3zif-a1-m22-cF 3zif-a1-m22-cE_3zif-a1-m22-cF 3zif-a1-m22-cG_3zif-a1-m22-cH 3zif-a1-m22-cG_3zif-a1-m22-cI 3zif-a1-m22-cH_3zif-a1-m22-cI 3zif-a1-m22-cJ_3zif-a1-m22-cK 3zif-a1-m22-cJ_3zif-a1-m22-cL 3zif-a1-m22-cK_3zif-a1-m22-cL 3zif-a1-m23-cA_3zif-a1-m23-cB 3zif-a1-m23-cA_3zif-a1-m23-cC 3zif-a1-m23-cB_3zif-a1-m23-cC 3zif-a1-m23-cD_3zif-a1-m23-cE 3zif-a1-m23-cD_3zif-a1-m23-cF 3zif-a1-m23-cE_3zif-a1-m23-cF 3zif-a1-m23-cG_3zif-a1-m23-cH 3zif-a1-m23-cG_3zif-a1-m23-cI 3zif-a1-m23-cH_3zif-a1-m23-cI 3zif-a1-m23-cJ_3zif-a1-m23-cK 3zif-a1-m23-cJ_3zif-a1-m23-cL 3zif-a1-m23-cK_3zif-a1-m23-cL 3zif-a1-m24-cA_3zif-a1-m24-cB 3zif-a1-m24-cA_3zif-a1-m24-cC 3zif-a1-m24-cB_3zif-a1-m24-cC 3zif-a1-m24-cD_3zif-a1-m24-cE 3zif-a1-m24-cD_3zif-a1-m24-cF 3zif-a1-m24-cE_3zif-a1-m24-cF 3zif-a1-m24-cG_3zif-a1-m24-cH 3zif-a1-m24-cG_3zif-a1-m24-cI 3zif-a1-m24-cH_3zif-a1-m24-cI 3zif-a1-m24-cJ_3zif-a1-m24-cK 3zif-a1-m24-cJ_3zif-a1-m24-cL 3zif-a1-m24-cK_3zif-a1-m24-cL 3zif-a1-m25-cA_3zif-a1-m25-cB 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3zif-a1-m7-cE_3zif-a1-m7-cF 3zif-a1-m7-cG_3zif-a1-m7-cH 3zif-a1-m7-cG_3zif-a1-m7-cI 3zif-a1-m7-cH_3zif-a1-m7-cI 3zif-a1-m7-cJ_3zif-a1-m7-cK 3zif-a1-m7-cJ_3zif-a1-m7-cL 3zif-a1-m7-cK_3zif-a1-m7-cL 3zif-a1-m8-cA_3zif-a1-m8-cB 3zif-a1-m8-cA_3zif-a1-m8-cC 3zif-a1-m8-cB_3zif-a1-m8-cC 3zif-a1-m8-cD_3zif-a1-m8-cE 3zif-a1-m8-cD_3zif-a1-m8-cF 3zif-a1-m8-cE_3zif-a1-m8-cF 3zif-a1-m8-cG_3zif-a1-m8-cH 3zif-a1-m8-cG_3zif-a1-m8-cI 3zif-a1-m8-cH_3zif-a1-m8-cI 3zif-a1-m8-cJ_3zif-a1-m8-cK 3zif-a1-m8-cJ_3zif-a1-m8-cL 3zif-a1-m8-cK_3zif-a1-m8-cL 3zif-a1-m9-cA_3zif-a1-m9-cB 3zif-a1-m9-cA_3zif-a1-m9-cC 3zif-a1-m9-cB_3zif-a1-m9-cC 3zif-a1-m9-cD_3zif-a1-m9-cE 3zif-a1-m9-cD_3zif-a1-m9-cF 3zif-a1-m9-cE_3zif-a1-m9-cF 3zif-a1-m9-cG_3zif-a1-m9-cH 3zif-a1-m9-cG_3zif-a1-m9-cI 3zif-a1-m9-cH_3zif-a1-m9-cI 3zif-a1-m9-cJ_3zif-a1-m9-cK 3zif-a1-m9-cJ_3zif-a1-m9-cL LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA LPQWSYMHIAGQDASEYLSPGLVQFAQATESYFNIGNKFRNPTVAPTHDVTTERSQRLQLRFVPVDREDTQYSYKTRFQLAVGDNRVLDMASTYFDIRGTLDRGASFKPYSGTAYNSFAPKSAPNNTQFRQANNGHPAQTIAQASYVATIGGANNDLQMGVDERQLPVYANTTYQPEPQLGIEGWTAGSMAVIDQAGGRVLRNPTQTPCYGSYAKPTNEHGGITKANTQVEKKYYRTGDNGNPETVFYTEEADVLTPDTHLVHAVPAADRAKVEGLSQHAAPNRPNFIGFRDCFVGLMYYNSGGNLGVLAGQSSQLNAVVDLQDRNTELSYQMLLANTTDRSRYFSMWNQAMDSYDPEVRVIDNVGVEDEMPNYCFPLSGVQIGNRSHEVQRNQQQWQNVANSDNNYIGKGNLPAMEINLAANLWRSFLYSNVALYLPDNLKFTPHNIQLPPNTNTYEYMNGRIPVSGLIDTYVNIGTRWSPDVMDNVNPFNHHRNSGLRYRSQLLGNGRFCDFHIQVPQKFFAIRNLLLLPGTYTYEWSFRKDVNMILQSTLGNDLRVDGATVNITSVNLYASFFPMSHNTASTLEAMLRNDTNDQSFNDYLSAANMLYPIPPNATQLPIPSRNWAAFRGWSLTRLKQRETPALGSPFDPYFTYSGTIPYLDGTFYLSHTFRKVAIQFDSSVTWPGNDRLLTPNEFEIKISVDGEGYNVAQSNMTKDWFLVQMLANYNIGYQGYHLPPDYKDRTFSFLHNFIPMCRQVPNPATEGYFGLGIVNHRTTPAYWFRFCRAPREGHPYPQLALPPHWDPRHALRDPERKFLCDRTLWRIPFSSNFMSMGSLTDLGQNLLYANAAHALDMTFEMDPINEPTLLYVLFEVFDVARVHQPHRGVIEVVYLRTPFSAGNA 3zig-a2-m1-cB_3zig-a2-m2-cB SepF-like protein from Pyrococcus furiosus I6V3Q6 I6V3Q6 2.5 X-RAY DIFFRACTION 68 1.0 1185654 (Pyrococcus furiosus COM1) 1185654 (Pyrococcus furiosus COM1) 83 83 3zig-a1-m1-cA_3zig-a1-m2-cA VKPKVVYIKKIVISTHADLKRVSDELKSGNIVIVELTPLEQKPELLKKIAEQLTTASIIGGDYAKICGSPLKVILTPPEIKIA VKPKVVYIKKIVISTHADLKRVSDELKSGNIVIVELTPLEQKPELLKKIAEQLTTASIIGGDYAKICGSPLKVILTPPEIKIA 3zih-a1-m1-cA_3zih-a1-m1-cB Bacillus subtilis SepF, C-terminal domain O31728 O31728 2 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 79 80 3zii-a1-m1-cA_3zii-a1-m2-cA SSKVVLSEPRVYAEAQEIADHLKNRRAVVVNLQRIQHDQAKRIVDFLSGTVYAIGGDIQRIGSDIFLCTPDNVDVSGTI SSKVVLSEPRVYAEAQEIADHLKNRRAVVVNLQRIQHDQAKRIVDFLSGTVYAIGGDIQRIGSDIFLCTPDNVDVSGTIS 3zit-a1-m1-cA_3zit-a1-m1-cB Crystal structure of the thioredoxin-like protein BC3987 mutant T8A Q819J1 Q819J1 1.18 X-RAY DIFFRACTION 25 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 74 78 KIEVYAQPDCPPCVIVKEFLKHNNVAYEEFDVKKDAAARNRLLYDYDSYSTPTVVIDGEVVAGFQIEKLQQLLN MKKIEVYAQPDCPPCVIVKEFLKHNNVAYEEFDVKKDAAARNRLLYDYDSYSTPTVVIDGEVVAGFQIEKLQQLLNIE 3zje-a1-m1-cB_3zje-a1-m1-cA A20 OTU domain in reversibly oxidised (SOH) state P21580 P21580 1.84 X-RAY DIFFRACTION 41 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 323 328 3zjd-a1-m1-cB_3zjd-a1-m1-cA 3zjf-a1-m1-cB_3zjf-a1-m1-cA 5v3b-a1-m1-cA_5v3b-a1-m1-cB 5v3b-a2-m1-cC_5v3b-a2-m1-cD 5v3p-a2-m1-cB_5v3p-a2-m1-cC VLPQALYLSNMRKAVKIRERTPEDIFKPTNGIIHHFKTMHRYTLEMFRTCQFCPQFREIIHKALIDRNIQATLESQKKLNWCREVRKLVALKTNGDGNLMHATSQYMWSVQDTDLVLRKALFSTLKETDTRNFKFRWQLESLKSQEFVWNDEWDNLIKMASTDTPGLQYNSLEEIHIFVLCNILRRPIIVISDLKVGGIYLPLHWPAQECYRYPIVLGYDSHHFVPLVTLKDGPEIRAVPLVNRDRGRFEDLKVHFLTDPENEMKEKLLKEYLMVIEIPVQGWDHGTTHLINAAKLDEANLPKEINLVDDYFELVQHEYKKWQ VLPQALYLSNMRKAVKIRERTPEDIFKPTNGIIHHFKTMHRYTLEMFRTCQFCPQFREIIHKALIDRNIQATLESQKKLNWCREVRKLVALKTNGDGNLMHATSQYMWSVQDTDLVLRKALFSTLKETDTRNFKFRWQLESLKSDTRNWNDEWDNLIKMASTDTPGLQYNSLEEIHIFVLCNILRRPIIVISDKMLRSLLKVGGIYLPLHWPAQECYRYPIVLGYDSHHFVPLVTLKDGPEIRAVPLVNRDRGRFEDLKVHFLTDPENEMKEKLLKEYLMVIEIPVQGWDHGTTHLINAAKLDEANLPKEINLVDDYFELVQHEYKKW 3zk2-a2-m1-cS_3zk2-a2-m1-cT Crystal structure of the sodium binding rotor ring at pH 8.7 Q8RGD7 Q8RGD7 2.63 X-RAY DIFFRACTION 195 1.0 851 (Fusobacterium nucleatum) 851 (Fusobacterium nucleatum) 89 89 3zk1-a1-m1-cA_3zk1-a1-m1-cB 3zk1-a1-m1-cA_3zk1-a1-m1-cK 3zk1-a1-m1-cB_3zk1-a1-m1-cC 3zk1-a1-m1-cC_3zk1-a1-m1-cD 3zk1-a1-m1-cD_3zk1-a1-m1-cE 3zk1-a1-m1-cE_3zk1-a1-m1-cF 3zk1-a1-m1-cF_3zk1-a1-m1-cG 3zk1-a1-m1-cG_3zk1-a1-m1-cH 3zk1-a1-m1-cH_3zk1-a1-m1-cI 3zk1-a1-m1-cI_3zk1-a1-m1-cJ 3zk1-a1-m1-cJ_3zk1-a1-m1-cK 3zk1-a2-m1-cL_3zk1-a2-m1-cM 3zk1-a2-m1-cL_3zk1-a2-m1-cV 3zk1-a2-m1-cM_3zk1-a2-m1-cN 3zk1-a2-m1-cN_3zk1-a2-m1-cO 3zk1-a2-m1-cO_3zk1-a2-m1-cP 3zk1-a2-m1-cP_3zk1-a2-m1-cQ 3zk1-a2-m1-cQ_3zk1-a2-m1-cR 3zk1-a2-m1-cR_3zk1-a2-m1-cS 3zk1-a2-m1-cS_3zk1-a2-m1-cT 3zk1-a2-m1-cT_3zk1-a2-m1-cU 3zk1-a2-m1-cU_3zk1-a2-m1-cV 3zk2-a1-m1-cA_3zk2-a1-m1-cB 3zk2-a1-m1-cA_3zk2-a1-m1-cK 3zk2-a1-m1-cB_3zk2-a1-m1-cC 3zk2-a1-m1-cC_3zk2-a1-m1-cD 3zk2-a1-m1-cD_3zk2-a1-m1-cE 3zk2-a1-m1-cE_3zk2-a1-m1-cF 3zk2-a1-m1-cF_3zk2-a1-m1-cG 3zk2-a1-m1-cG_3zk2-a1-m1-cH 3zk2-a1-m1-cH_3zk2-a1-m1-cI 3zk2-a1-m1-cI_3zk2-a1-m1-cJ 3zk2-a1-m1-cJ_3zk2-a1-m1-cK 3zk2-a2-m1-cL_3zk2-a2-m1-cM 3zk2-a2-m1-cL_3zk2-a2-m1-cV 3zk2-a2-m1-cM_3zk2-a2-m1-cN 3zk2-a2-m1-cN_3zk2-a2-m1-cO 3zk2-a2-m1-cO_3zk2-a2-m1-cP 3zk2-a2-m1-cP_3zk2-a2-m1-cQ 3zk2-a2-m1-cQ_3zk2-a2-m1-cR 3zk2-a2-m1-cR_3zk2-a2-m1-cS 3zk2-a2-m1-cT_3zk2-a2-m1-cU 3zk2-a2-m1-cU_3zk2-a2-m1-cV MDLLTAKTIVLGCSAVGAGLAMIAGLGPGIGEGYAAGKAVESVARQPEARGSIISTMILGQAVAESTGIYSLVIALILLYANPFLSKLG MDLLTAKTIVLGCSAVGAGLAMIAGLGPGIGEGYAAGKAVESVARQPEARGSIISTMILGQAVAESTGIYSLVIALILLYANPFLSKLG 3zk4-a1-m2-cC_3zk4-a1-m1-cA Structure of purple acid phosphatase PPD1 isolated from yellow lupin (Lupinus luteus) seeds Q8VX11 Q8VX11 1.65 X-RAY DIFFRACTION 61 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 568 569 3zk4-a1-m1-cB_3zk4-a1-m2-cB 3zk4-a1-m1-cC_3zk4-a1-m2-cA AYIKATPNVLGFEGHYTEWVTLQYSNNKPSIDDWIGVFSPANFSASTCPGENKMTNPPFLCSAPIKFQYANFSSHSYKDTGKGSLKLQLINQRSDFSFALFTGGLTNPKLIAVSNKVSFVNPNAPVYPRLAQGKTWDEITVTWTSGYDINDAEPFVEWGPKEGNLVKTPAGTLTFDRNTMCGAPARTVGWRDPGYIHTSFLKELWPNREYTYKLGHRLFNGTTIWSKEYHFKASPYPGQSSVQRVVIFGDMGKAEADGSNEYNNFQPGSLNTTKQIIQDLEDIDIVFHIGDLCYANGYISQWDQFTAQIEPIASTVPYMTASGNHERDWPGTGSFYGNLDSGGECGVPAQTMFFVPAENREKFWYSTDYGMFRFCIAHTELDWRKGTEQYEFIEKCLASVDRQKQPWLIFLAHRVLGYSSAGFYVQEGSFEEPMGREDLQHLWQKYKVDIAMYGHVHNYERTCPIYQNVCTNKEKHNYKGNLNGTIHVVVGGGGASLAEFAPINTTWSIFKDHDFGFVKLTAFDHSNLLLEYRKSSDGQVYDSFTISRDYRDILACSVDSCPTTTLAS HAYIKATPNVLGFEGHYTEWVTLQYSNNKPSIDDWIGVFSPANFSASTCPGENKMTNPPFLCSAPIKFQYANFSSHSYKDTGKGSLKLQLINQRSDFSFALFTGGLTNPKLIAVSNKVSFVNPNAPVYPRLAQGKTWDEITVTWTSGYDINDAEPFVEWGPKEGNLVKTPAGTLTFDRNTMCGAPARTVGWRDPGYIHTSFLKELWPNREYTYKLGHRLFNGTTIWSKEYHFKASPYPGQSSVQRVVIFGDMGKAEADGSNEYNNFQPGSLNTTKQIIQDLEDIDIVFHIGDLCYANGYISQWDQFTAQIEPIASTVPYMTASGNHERDWPGTGSFYGNLDSGGECGVPAQTMFFVPAENREKFWYSTDYGMFRFCIAHTELDWRKGTEQYEFIEKCLASVDRQKQPWLIFLAHRVLGYSSAGFYVQEGSFEEPMGREDLQHLWQKYKVDIAMYGHVHNYERTCPIYQNVCTNKEKHNYKGNLNGTIHVVVGGGGASLAEFAPINTTWSIFKDHDFGFVKLTAFDHSNLLLEYRKSSDGQVYDSFTISRDYRDILACSVDSCPTTTLAS 3zk4-a1-m2-cC_3zk4-a1-m1-cB Structure of purple acid phosphatase PPD1 isolated from yellow lupin (Lupinus luteus) seeds Q8VX11 Q8VX11 1.65 X-RAY DIFFRACTION 23 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 568 571 3zk4-a1-m1-cA_3zk4-a1-m2-cA 3zk4-a1-m1-cC_3zk4-a1-m2-cB AYIKATPNVLGFEGHYTEWVTLQYSNNKPSIDDWIGVFSPANFSASTCPGENKMTNPPFLCSAPIKFQYANFSSHSYKDTGKGSLKLQLINQRSDFSFALFTGGLTNPKLIAVSNKVSFVNPNAPVYPRLAQGKTWDEITVTWTSGYDINDAEPFVEWGPKEGNLVKTPAGTLTFDRNTMCGAPARTVGWRDPGYIHTSFLKELWPNREYTYKLGHRLFNGTTIWSKEYHFKASPYPGQSSVQRVVIFGDMGKAEADGSNEYNNFQPGSLNTTKQIIQDLEDIDIVFHIGDLCYANGYISQWDQFTAQIEPIASTVPYMTASGNHERDWPGTGSFYGNLDSGGECGVPAQTMFFVPAENREKFWYSTDYGMFRFCIAHTELDWRKGTEQYEFIEKCLASVDRQKQPWLIFLAHRVLGYSSAGFYVQEGSFEEPMGREDLQHLWQKYKVDIAMYGHVHNYERTCPIYQNVCTNKEKHNYKGNLNGTIHVVVGGGGASLAEFAPINTTWSIFKDHDFGFVKLTAFDHSNLLLEYRKSSDGQVYDSFTISRDYRDILACSVDSCPTTTLAS DEHAYIKATPNVLGFEGHYTEWVTLQYSNNKPSIDDWIGVFSPANFSASTCPGENKMTNPPFLCSAPIKFQYANFSSHSYKDTGKGSLKLQLINQRSDFSFALFTGGLTNPKLIAVSNKVSFVNPNAPVYPRLAQGKTWDEITVTWTSGYDINDAEPFVEWGPKEGNLVKTPAGTLTFDRNTMCGAPARTVGWRDPGYIHTSFLKELWPNREYTYKLGHRLFNGTTIWSKEYHFKASPYPGQSSVQRVVIFGDMGKAEADGSNEYNNFQPGSLNTTKQIIQDLEDIDIVFHIGDLCYANGYISQWDQFTAQIEPIASTVPYMTASGNHERDWPGTGSFYGNLDSGGECGVPAQTMFFVPAENREKFWYSTDYGMFRFCIAHTELDWRKGTEQYEFIEKCLASVDRQKQPWLIFLAHRVLGYSSAGFYVQEGSFEEPMGREDLQHLWQKYKVDIAMYGHVHNYERTCPIYQNVCTNKEKHNYKGNLNGTIHVVVGGGGASLAEFAPINTTWSIFKDHDFGFVKLTAFDHSNLLLEYRKSSDGQVYDSFTISRDYRDILACSVDSCPTTTLAS 3zk4-a1-m2-cC_3zk4-a1-m2-cB Structure of purple acid phosphatase PPD1 isolated from yellow lupin (Lupinus luteus) seeds Q8VX11 Q8VX11 1.65 X-RAY DIFFRACTION 103 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 568 571 3zk4-a1-m1-cA_3zk4-a1-m1-cB 3zk4-a1-m1-cC_3zk4-a1-m1-cA 3zk4-a1-m1-cC_3zk4-a1-m1-cB 3zk4-a1-m2-cA_3zk4-a1-m2-cB 3zk4-a1-m2-cC_3zk4-a1-m2-cA AYIKATPNVLGFEGHYTEWVTLQYSNNKPSIDDWIGVFSPANFSASTCPGENKMTNPPFLCSAPIKFQYANFSSHSYKDTGKGSLKLQLINQRSDFSFALFTGGLTNPKLIAVSNKVSFVNPNAPVYPRLAQGKTWDEITVTWTSGYDINDAEPFVEWGPKEGNLVKTPAGTLTFDRNTMCGAPARTVGWRDPGYIHTSFLKELWPNREYTYKLGHRLFNGTTIWSKEYHFKASPYPGQSSVQRVVIFGDMGKAEADGSNEYNNFQPGSLNTTKQIIQDLEDIDIVFHIGDLCYANGYISQWDQFTAQIEPIASTVPYMTASGNHERDWPGTGSFYGNLDSGGECGVPAQTMFFVPAENREKFWYSTDYGMFRFCIAHTELDWRKGTEQYEFIEKCLASVDRQKQPWLIFLAHRVLGYSSAGFYVQEGSFEEPMGREDLQHLWQKYKVDIAMYGHVHNYERTCPIYQNVCTNKEKHNYKGNLNGTIHVVVGGGGASLAEFAPINTTWSIFKDHDFGFVKLTAFDHSNLLLEYRKSSDGQVYDSFTISRDYRDILACSVDSCPTTTLAS DEHAYIKATPNVLGFEGHYTEWVTLQYSNNKPSIDDWIGVFSPANFSASTCPGENKMTNPPFLCSAPIKFQYANFSSHSYKDTGKGSLKLQLINQRSDFSFALFTGGLTNPKLIAVSNKVSFVNPNAPVYPRLAQGKTWDEITVTWTSGYDINDAEPFVEWGPKEGNLVKTPAGTLTFDRNTMCGAPARTVGWRDPGYIHTSFLKELWPNREYTYKLGHRLFNGTTIWSKEYHFKASPYPGQSSVQRVVIFGDMGKAEADGSNEYNNFQPGSLNTTKQIIQDLEDIDIVFHIGDLCYANGYISQWDQFTAQIEPIASTVPYMTASGNHERDWPGTGSFYGNLDSGGECGVPAQTMFFVPAENREKFWYSTDYGMFRFCIAHTELDWRKGTEQYEFIEKCLASVDRQKQPWLIFLAHRVLGYSSAGFYVQEGSFEEPMGREDLQHLWQKYKVDIAMYGHVHNYERTCPIYQNVCTNKEKHNYKGNLNGTIHVVVGGGGASLAEFAPINTTWSIFKDHDFGFVKLTAFDHSNLLLEYRKSSDGQVYDSFTISRDYRDILACSVDSCPTTTLAS 3zkb-a4-m1-cF_3zkb-a4-m1-cE CRYSTAL STRUCTURE OF THE ATPASE REGION OF Mycobacterium tuberculosis GyrB WITH AMPPNP P9WG45 P9WG45 2.9 X-RAY DIFFRACTION 180 0.995 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 383 386 3zkb-a1-m1-cC_3zkb-a1-m1-cD 3zkb-a2-m1-cP_3zkb-a2-m1-cO 3zkb-a3-m1-cK_3zkb-a3-m1-cL 3zkb-a5-m1-cA_3zkb-a5-m1-cB 3zkb-a6-m1-cH_3zkb-a6-m1-cG 3zkb-a7-m1-cI_3zkb-a7-m1-cJ 3zkb-a8-m1-cN_3zkb-a8-m1-cM 3zkd-a1-m1-cD_3zkd-a1-m1-cC 3zkd-a2-m1-cG_3zkd-a2-m1-cH 3zkd-a3-m1-cF_3zkd-a3-m1-cE 3zkd-a4-m1-cB_3zkd-a4-m1-cA EYGAASITILEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGYATTVNVVLLEDGGVEVADDGRGIPVATHASGIPTVDVVMTQLHAGGKFDSDAYAISGGLHGVGVSVVNALSTRLEVEIKRDGYEWSQVYEKSEPLGLKQGAPTKKTGSTVRFWADPAVFETTEYDFETVARRLQEMAFLNKGLTINLTDERVVKSRTFHYPGGLVDFVKHINRTKNAIHSSIVDFSGKGTGHEVEIAMQWNAGYSESVHTFANTINTHEGGTHEEGFRSALTSVVNKYAKDRKLLKDKDPNLTGDDIREGLAAVISVKVSEPQFEGQTKTKLGNTEVKSFVQKVCNEQLTHWFEANPTDAKVVVNKAVSSAQARIAARKARE EYGAASITILEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGYATTVNVVLLEDGGVEVADDGRGIPVATHASGIPTVDVVMTQLHAGGKFDSDAYAISGGLHGVGVSVVNALSTRLEVEIKRDGYEWSQVYEKSEPLGLKQGAPTKKTGSTVRFWADPAVFETTEYDFETVARRLQEMAFLNKGLTINLTDERVTAPHKVKSRTFHYPGGLVDFVKHINRTKNAIHSSIVDFSGKGTGHEVEIAMQWNAGYSESVHTFANTINTHEGGTHEEGFRSALTSVVNKYAKDRKLLKDPNLTGDDIREGLAAVISVKVSEPQFEGQTKTKLGNTEVKSFVQKVCNEQLTHWFEANPTDAKVVVNKAVSSAQARIAARKARE 3zkc-a1-m1-cA_3zkc-a1-m1-cB Crystal structure of the master regulator for biofilm formation SinR in complex with DNA. P06533 P06533 3 X-RAY DIFFRACTION 31 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 61 63 IGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLL MIGQRIKQYRKEKGYSLSELAEKAGVAKSYLSSIERNLQTNPSIQFLEKVSAVLDVSVHTLLD 3zke-a3-m1-cI_3zke-a3-m1-cK Structure of LC8 in complex with Nek9 peptide P63167 P63167 2.2 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 1f3c-a1-m1-cA_1f3c-a1-m1-cB 1f95-a1-m1-cA_1f95-a1-m1-cB 1f96-a1-m1-cA_1f96-a1-m1-cB 1re6-a1-m1-cA_1re6-a1-m1-cB 2p2t-a1-m1-cA_2p2t-a1-m2-cA 2pg1-a1-m1-cA_2pg1-a1-m1-cB 2pg1-a2-m1-cC_2pg1-a2-m1-cD 2pg1-a3-m1-cA_2pg1-a3-m1-cB 2pg1-a3-m1-cC_2pg1-a3-m1-cD 2xqq-a1-m1-cC_2xqq-a1-m1-cA 2xqq-a2-m2-cD_2xqq-a2-m1-cB 2xqq-a3-m1-cD_2xqq-a3-m3-cB 3bri-a1-m1-cA_3bri-a1-m2-cA 3brl-a1-m1-cA_3brl-a1-m2-cA 3dvh-a1-m1-cC_3dvh-a1-m2-cC 3dvh-a2-m1-cA_3dvh-a2-m1-cB 3dvp-a1-m1-cA_3dvp-a1-m1-cB 3dvt-a1-m1-cE_3dvt-a1-m1-cF 3dvt-a2-m1-cC_3dvt-a2-m1-cD 3dvt-a3-m1-cA_3dvt-a3-m1-cB 3e2b-a1-m1-cA_3e2b-a1-m2-cA 3fm7-a1-m1-cE_3fm7-a1-m1-cF 3glw-a1-m1-cA_3glw-a1-m3-cA 3glw-a1-m2-cA_3glw-a1-m4-cA 3p8m-a1-m1-cA_3p8m-a1-m1-cB 3zke-a1-m1-cA_3zke-a1-m1-cC 3zke-a2-m1-cE_3zke-a2-m1-cG 3zkf-a1-m1-cK_3zkf-a1-m1-cE 3zkf-a2-m1-cA_3zkf-a2-m1-cC 3zkf-a3-m1-cG_3zkf-a3-m1-cI 4d07-a1-m1-cA_4d07-a1-m2-cA 4qh7-a1-m1-cA_4qh7-a1-m1-cB 4qh7-a2-m1-cE_4qh7-a2-m1-cF 4qh8-a1-m1-cA_4qh8-a1-m1-cB 4qh8-a2-m1-cF_4qh8-a2-m1-cE 4qh8-a3-m1-cH_4qh8-a3-m1-cG 5e0l-a1-m1-cA_5e0l-a1-m2-cA 5e0m-a1-m1-cA_5e0m-a1-m2-cA 6rlb-a1-m1-cI_6rlb-a1-m1-cJ 6rlb-a1-m1-cK_6rlb-a1-m1-cL 6rlb-a1-m1-cM_6rlb-a1-m1-cN 6sc2-a1-m1-cI_6sc2-a1-m1-cJ 6sc2-a1-m1-cK_6sc2-a1-m1-cL 6sc2-a1-m1-cM_6sc2-a1-m1-cN 7d35-a1-m1-cA_7d35-a1-m2-cA 7jtk-a1-m1-ca_7jtk-a1-m1-cb 7jtk-a1-m1-cc_7jtk-a1-m1-cd 7jts-a1-m1-ca_7jts-a1-m1-cb 7jts-a1-m1-cc_7jts-a1-m1-cd 7jts-a1-m1-ce_7jts-a1-m1-cf 7jts-a1-m1-cg_7jts-a1-m1-ch 7ju4-a1-m1-ca_7ju4-a1-m1-cb 7ju4-a1-m1-cc_7ju4-a1-m1-cd 7ju4-a1-m1-ce_7ju4-a1-m1-cf 7ju4-a1-m1-cg_7ju4-a1-m1-ch 7ju4-a1-m1-co_7ju4-a1-m1-cp 7ju4-a1-m1-cq_7ju4-a1-m1-cr 7k3j-a1-m1-cA_7k3j-a1-m1-cG 7k3j-a1-m1-cK_7k3j-a1-m1-cI 7k3j-a2-m1-cC_7k3j-a2-m2-cE 7k3k-a1-m1-cA_7k3k-a1-m2-cA 7k3l-a1-m1-cA_7k3l-a1-m2-cA 7kzm-a1-m1-cL_7kzm-a1-m1-cM 7kzn-a1-m1-cL_7kzn-a1-m1-cM 8glv-a1-m1-cAM_8glv-a1-m1-cAL 8glv-a1-m1-cAN_8glv-a1-m1-cAQ 8glv-a1-m1-cAO_8glv-a1-m1-cAP 8glv-a1-m1-cBq_8glv-a1-m1-cCB 8glv-a1-m1-cBr_8glv-a1-m1-cCC 8glv-a1-m1-cFA_8glv-a1-m1-cGe 8glv-a1-m1-cI6_8glv-a1-m1-cIu 8glv-a1-m1-cIo_8glv-a1-m1-cIp 8glv-a1-m1-cIq_8glv-a1-m1-cIr 8glv-a1-m1-cIs_8glv-a1-m1-cIt 8glv-a1-m1-cKc_8glv-a1-m1-cKd 8glv-a1-m1-cKe_8glv-a1-m1-cKf 8glv-a1-m1-cKM_8glv-a1-m1-cKN 8glv-a1-m1-cKO_8glv-a1-m1-cKP 8glv-a1-m1-cKQ_8glv-a1-m1-cKR 8glv-a1-m1-cKS_8glv-a1-m1-cKT 8glv-a1-m1-cLE_8glv-a1-m1-cLF 8glv-a1-m1-cMC_8glv-a1-m1-cMD KAVIKNADMSEEMQQDSVECATQALEKYNIEKDIAAHIKKEFDKKYNPTWHCIVGRNFGSYVTHETKHFIYFYLGQVAILLFKSG KAVIKNADMSEEMQQDSVECATQALEKYNIEKDIAAHIKKEFDKKYNPTWHCIVGRNFGSYVTHETKHFIYFYLGQVAILLFKSG 3zlj-a2-m1-cC_3zlj-a2-m1-cD CRYSTAL STRUCTURE OF FULL-LENGTH E.COLI DNA MISMATCH REPAIR PROTEIN MUTS D835R MUTANT IN COMPLEX WITH GT MISMATCHED DNA P23909 P23909 3.1 X-RAY DIFFRACTION 53 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 31 31 SPAVEALENLDPRSLTPRQALEWIYRLKSLV SPAVEALENLDPRSLTPRQALEWIYRLKSLV 3zll-a1-m1-cA_3zll-a1-m1-cB Pseudomonas aeruginosa RmlA in complex with allosteric inhibitor Q9HU22 Q9HU22 2 X-RAY DIFFRACTION 36 0.997 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 297 298 HHHHHKRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY HHHHHMKRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY 3zll-a1-m1-cD_3zll-a1-m1-cB Pseudomonas aeruginosa RmlA in complex with allosteric inhibitor Q9HU22 Q9HU22 2 X-RAY DIFFRACTION 15 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 293 298 3zll-a1-m1-cC_3zll-a1-m1-cA MKRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY HHHHHMKRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY 3zmd-a2-m1-cD_3zmd-a2-m1-cC Crystal structure of AbsC, a MarR family transcriptional regulator from Streptomyces coelicolor Q9L2B5 Q9L2B5 1.95 X-RAY DIFFRACTION 143 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 148 149 3zmd-a1-m1-cA_3zmd-a1-m1-cB TRWLTDTEQCAWRTHLEVNRLLTHQLEKDLQPFGLTMNDYEILVNLSESEGDRMRMSDLATATMQSKSRLSHQITRMENANLVRRENCESDRRGLFAVLTEHGLETMRKVAPHHVASVRRHFIDLLAPEDLTELDKALKPIAEHLRGQ ATRWLTDTEQCAWRTHLEVNRLLTHQLEKDLQPFGLTMNDYEILVNLSESEGDRMRMSDLATATMQSKSRLSHQITRMENANLVRRENCESDRRGLFAVLTEHGLETMRKVAPHHVASVRRHFIDLLAPEDLTELDKALKPIAEHLRGQ 3zmf-a3-m6-cA_3zmf-a3-m7-cA Salmonella enterica SadA 303-358 fused to GCN4 adaptors (SadAK2) P03069 P03069 1.85 X-RAY DIFFRACTION 164 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 111 111 3zmf-a1-m1-cC_3zmf-a1-m2-cC 3zmf-a1-m1-cC_3zmf-a1-m3-cC 3zmf-a1-m2-cC_3zmf-a1-m3-cC 3zmf-a2-m1-cB_3zmf-a2-m4-cB 3zmf-a2-m1-cB_3zmf-a2-m5-cB 3zmf-a2-m4-cB_3zmf-a2-m5-cB 3zmf-a3-m1-cA_3zmf-a3-m6-cA 3zmf-a3-m1-cA_3zmf-a3-m7-cA QIEDKIEEILSKIYHIENEIARIKKLITNTEASVAGLAEDALLWDESISAFSASHTGNASKITNLAAGTLAADSTDAVNGSQMKQIEDKIEEILSKIYHIENEIARIKKLI QIEDKIEEILSKIYHIENEIARIKKLITNTEASVAGLAEDALLWDESISAFSASHTGNASKITNLAAGTLAADSTDAVNGSQMKQIEDKIEEILSKIYHIENEIARIKKLI 3zmo-a1-m1-cA_3zmo-a1-m4-cA VP16, a capsid protein of bacteriophage P23-77 (VP16-type-1) C8CHL4 C8CHL4 1.8 X-RAY DIFFRACTION 38 1.0 172 172 3zmo-a1-m2-cA_3zmo-a1-m3-cA QEAFNRIKALRPGARPATILRSGPEFSVYSGTQRVKVGEFVVPAGASWVLPNPVPVILKLYDTGGNQLPHTTDVFLAKRTKGFDFPEFLAKVQYASYYDLTEAQLRDAKFYQNILQTLSPLRAPQPPQGVVLREGDVLEVYVEAPAGVTVNLNDPRTRIELPIGVDNSNPTL QEAFNRIKALRPGARPATILRSGPEFSVYSGTQRVKVGEFVVPAGASWVLPNPVPVILKLYDTGGNQLPHTTDVFLAKRTKGFDFPEFLAKVQYASYYDLTEAQLRDAKFYQNILQTLSPLRAPQPPQGVVLREGDVLEVYVEAPAGVTVNLNDPRTRIELPIGVDNSNPTL 3zmo-a1-m2-cA_3zmo-a1-m4-cA VP16, a capsid protein of bacteriophage P23-77 (VP16-type-1) C8CHL4 C8CHL4 1.8 X-RAY DIFFRACTION 187 1.0 172 172 3zmo-a1-m1-cA_3zmo-a1-m3-cA 3zn4-a1-m1-cA_3zn4-a1-m2-cA 3zn5-a1-m1-cE_3zn5-a1-m1-cF 3zn5-a2-m1-cB_3zn5-a2-m1-cA 3zn5-a3-m1-cH_3zn5-a3-m1-cG 3zn5-a4-m1-cD_3zn5-a4-m1-cC 3zn6-a1-m1-cB_3zn6-a1-m2-cB QEAFNRIKALRPGARPATILRSGPEFSVYSGTQRVKVGEFVVPAGASWVLPNPVPVILKLYDTGGNQLPHTTDVFLAKRTKGFDFPEFLAKVQYASYYDLTEAQLRDAKFYQNILQTLSPLRAPQPPQGVVLREGDVLEVYVEAPAGVTVNLNDPRTRIELPIGVDNSNPTL QEAFNRIKALRPGARPATILRSGPEFSVYSGTQRVKVGEFVVPAGASWVLPNPVPVILKLYDTGGNQLPHTTDVFLAKRTKGFDFPEFLAKVQYASYYDLTEAQLRDAKFYQNILQTLSPLRAPQPPQGVVLREGDVLEVYVEAPAGVTVNLNDPRTRIELPIGVDNSNPTL 3zn3-a1-m1-cA_3zn3-a1-m2-cA N-terminal domain of S. pombe Cdc23 APC subunit O94556 O94556 1.9 X-RAY DIFFRACTION 130 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 246 246 MQLREIRNCLLKCISECSERGLVYAVRWAAEMLNGMNPIANEKLLEVEEKNIYLLAKSYFDCKEFERAAYTLQNCKSSKSIFLRLYSKYLAGEKKSENREFYYISEVLESLHYQGNKDPYLLYLSGVVYRKRKQDSKAIDFLKSCVLKAPFFWSAWLELSLSIDSLETLTTVVSQLPSTHIMTKIFYVYASHELHQVNSSAYEKLAEAEIIFPNSRYLKTQRALLTYDSRFENILTNDPAENLYFQ MQLREIRNCLLKCISECSERGLVYAVRWAAEMLNGMNPIANEKLLEVEEKNIYLLAKSYFDCKEFERAAYTLQNCKSSKSIFLRLYSKYLAGEKKSENREFYYISEVLESLHYQGNKDPYLLYLSGVVYRKRKQDSKAIDFLKSCVLKAPFFWSAWLELSLSIDSLETLTTVVSQLPSTHIMTKIFYVYASHELHQVNSSAYEKLAEAEIIFPNSRYLKTQRALLTYDSRFENILTNDPAENLYFQ 3znc-a1-m2-cA_3znc-a1-m1-cA MURINE CARBONIC ANHYDRASE IV COMPLEXED WITH BRINZOLAMIDE Q64444 Q64444 2.8 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 250 250 2znc-a1-m2-cA_2znc-a1-m1-cA WCYEIQTEDPRSSCLGPEKWPGACKENQQSPINIVTARTKVNPRLTPFILVGYDQKQQWPIKNNQHTVEMTLGGGACIIGGDLPARYEAVQLHLHWSNGNDNGSEHSIDGRHFAMEMHIVHKKLDKFAVLAFMIEVGDKVNKGFQPLVEALPSISKPHSTSTVRESSLQDMLPPSTKMYTYFRYNGSLTTPNCDETVIWTVYKQPIKIHKNQFLEFSKNLYYDEDQKLNMKDNVRPLQPLGKRQVFKSHA WCYEIQTEDPRSSCLGPEKWPGACKENQQSPINIVTARTKVNPRLTPFILVGYDQKQQWPIKNNQHTVEMTLGGGACIIGGDLPARYEAVQLHLHWSNGNDNGSEHSIDGRHFAMEMHIVHKKLDKFAVLAFMIEVGDKVNKGFQPLVEALPSISKPHSTSTVRESSLQDMLPPSTKMYTYFRYNGSLTTPNCDETVIWTVYKQPIKIHKNQFLEFSKNLYYDEDQKLNMKDNVRPLQPLGKRQVFKSHA 3znj-a2-m1-cA_3znj-a2-m1-cD Crystal structure of unliganded ClcF from R.opacus 1CP in crystal form 1. Q8G9L0 Q8G9L0 2.1 X-RAY DIFFRACTION 31 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 94 94 3znj-a1-m1-c1_3znj-a1-m1-cX 3znj-a1-m1-c3_3znj-a1-m1-cZ 3znj-a1-m1-c4_3znj-a1-m1-cW 3znj-a1-m1-c5_3znj-a1-m1-c2 3znj-a1-m1-cY_3znj-a1-m1-cV 3znj-a2-m1-cB_3znj-a2-m1-cI 3znj-a2-m1-cC_3znj-a2-m1-cF 3znj-a2-m1-cE_3znj-a2-m1-cH 3znj-a2-m1-cG_3znj-a2-m1-cJ 3znj-a3-m1-c7_3znj-a3-m1-ce 3znj-a3-m1-c8_3znj-a3-m1-cb 3znj-a3-m1-c9_3znj-a3-m1-c6 3znj-a3-m1-ca_3znj-a3-m1-cd 3znj-a3-m1-cc_3znj-a3-m1-cf 3znj-a4-m1-cK_3znj-a4-m1-cN 3znj-a4-m1-cL_3znj-a4-m1-cT 3znj-a4-m1-cM_3znj-a4-m1-cP 3znj-a4-m1-cO_3znj-a4-m1-cS 3znj-a4-m1-cR_3znj-a4-m1-cU 3znu-a1-m1-cA_3znu-a1-m1-cB 3znu-a1-m1-cC_3znu-a1-m1-cG 3znu-a1-m1-cH_3znu-a1-m1-cF 3znu-a1-m1-cI_3znu-a1-m1-cE 3znu-a1-m1-cJ_3znu-a1-m1-cD 3zo7-a1-m1-cA_3zo7-a1-m1-cB 3zo7-a1-m1-cC_3zo7-a1-m1-cG 3zo7-a1-m1-cD_3zo7-a1-m1-cJ 3zo7-a1-m1-cE_3zo7-a1-m1-cI 3zo7-a1-m1-cF_3zo7-a1-m1-cH 4fpi-a1-m1-cA_4fpi-a1-m1-cD 4fpi-a1-m1-cB_4fpi-a1-m1-cI 4fpi-a1-m1-cC_4fpi-a1-m1-cF 4fpi-a1-m1-cE_4fpi-a1-m1-cH 4fpi-a1-m1-cG_4fpi-a1-m1-cJ 4fpi-a2-m1-cK_4fpi-a2-m1-cN 4fpi-a2-m1-cL_4fpi-a2-m1-cT 4fpi-a2-m1-cM_4fpi-a2-m1-cP 4fpi-a2-m1-cO_4fpi-a2-m1-cS 4fpi-a2-m1-cR_4fpi-a2-m1-cU MLYLVRMTVNLPRNLDPREEERLKASEKARSRTLQEQGQWRYLWRTTGKYGNISVFDVNSHDELHEILWSLPFFPYLTIDVEPLSHHPARVGKD MLYLVRMTVNLPRNLDPREEERLKASEKARSRTLQEQGQWRYLWRTTGKYGNISVFDVNSHDELHEILWSLPFFPYLTIDVEPLSHHPARVGKD 3znj-a2-m1-cB_3znj-a2-m1-cD Crystal structure of unliganded ClcF from R.opacus 1CP in crystal form 1. Q8G9L0 Q8G9L0 2.1 X-RAY DIFFRACTION 16 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 94 94 3znj-a1-m1-c2_3znj-a1-m1-c4 3znj-a1-m1-c2_3znj-a1-m1-cZ 3znj-a1-m1-c3_3znj-a1-m1-c1 3znj-a1-m1-c4_3znj-a1-m1-cV 3znj-a1-m1-c5_3znj-a1-m1-cW 3znj-a1-m1-cV_3znj-a1-m1-cX 3znj-a1-m1-cX_3znj-a1-m1-cZ 3znj-a1-m1-cY_3znj-a1-m1-c1 3znj-a1-m1-cY_3znj-a1-m1-cW 3znj-a2-m1-cA_3znj-a2-m1-cC 3znj-a2-m1-cA_3znj-a2-m1-cI 3znj-a2-m1-cB_3znj-a2-m1-cJ 3znj-a2-m1-cC_3znj-a2-m1-cE 3znj-a2-m1-cD_3znj-a2-m1-cF 3znj-a2-m1-cE_3znj-a2-m1-cG 3znj-a2-m1-cF_3znj-a2-m1-cH 3znj-a2-m1-cG_3znj-a2-m1-cI 3znj-a2-m1-cH_3znj-a2-m1-cJ 3znj-a3-m1-c6_3znj-a3-m1-c8 3znj-a3-m1-c7_3znj-a3-m1-cf 3znj-a3-m1-c8_3znj-a3-m1-ca 3znj-a3-m1-c9_3znj-a3-m1-c7 3znj-a3-m1-c9_3znj-a3-m1-cb 3znj-a3-m1-ca_3znj-a3-m1-cc 3znj-a3-m1-cb_3znj-a3-m1-cd 3znj-a3-m1-cd_3znj-a3-m1-cf 3znj-a3-m1-ce_3znj-a3-m1-c6 3znj-a3-m1-ce_3znj-a3-m1-cc 3znj-a4-m1-cK_3znj-a4-m1-cM 3znj-a4-m1-cK_3znj-a4-m1-cT 3znj-a4-m1-cL_3znj-a4-m1-cN 3znj-a4-m1-cL_3znj-a4-m1-cU 3znj-a4-m1-cM_3znj-a4-m1-cO 3znj-a4-m1-cN_3znj-a4-m1-cP 3znj-a4-m1-cO_3znj-a4-m1-cR 3znj-a4-m1-cP_3znj-a4-m1-cS 3znj-a4-m1-cR_3znj-a4-m1-cT 3znj-a4-m1-cS_3znj-a4-m1-cU 3znu-a1-m1-cA_3znu-a1-m1-cC 3znu-a1-m1-cB_3znu-a1-m1-cD 3znu-a1-m1-cB_3znu-a1-m1-cG 3znu-a1-m1-cC_3znu-a1-m1-cE 3znu-a1-m1-cE_3znu-a1-m1-cF 3znu-a1-m1-cH_3znu-a1-m1-cD 3znu-a1-m1-cI_3znu-a1-m1-cG 3znu-a1-m1-cI_3znu-a1-m1-cH 3znu-a1-m1-cJ_3znu-a1-m1-cA 3znu-a1-m1-cJ_3znu-a1-m1-cF 3zo7-a1-m1-cA_3zo7-a1-m1-cC 3zo7-a1-m1-cA_3zo7-a1-m1-cJ 3zo7-a1-m1-cB_3zo7-a1-m1-cG 3zo7-a1-m1-cD_3zo7-a1-m1-cB 3zo7-a1-m1-cD_3zo7-a1-m1-cH 3zo7-a1-m1-cE_3zo7-a1-m1-cC 3zo7-a1-m1-cE_3zo7-a1-m1-cF 3zo7-a1-m1-cF_3zo7-a1-m1-cJ 3zo7-a1-m1-cH_3zo7-a1-m1-cI 3zo7-a1-m1-cI_3zo7-a1-m1-cG 4fpi-a1-m1-cA_4fpi-a1-m1-cC 4fpi-a1-m1-cA_4fpi-a1-m1-cI 4fpi-a1-m1-cB_4fpi-a1-m1-cD 4fpi-a1-m1-cB_4fpi-a1-m1-cJ 4fpi-a1-m1-cD_4fpi-a1-m1-cF 4fpi-a1-m1-cE_4fpi-a1-m1-cC 4fpi-a1-m1-cE_4fpi-a1-m1-cG 4fpi-a1-m1-cF_4fpi-a1-m1-cH 4fpi-a1-m1-cG_4fpi-a1-m1-cI 4fpi-a1-m1-cH_4fpi-a1-m1-cJ 4fpi-a2-m1-cK_4fpi-a2-m1-cM 4fpi-a2-m1-cK_4fpi-a2-m1-cT 4fpi-a2-m1-cL_4fpi-a2-m1-cN 4fpi-a2-m1-cL_4fpi-a2-m1-cU 4fpi-a2-m1-cM_4fpi-a2-m1-cO 4fpi-a2-m1-cN_4fpi-a2-m1-cP 4fpi-a2-m1-cO_4fpi-a2-m1-cR 4fpi-a2-m1-cP_4fpi-a2-m1-cS 4fpi-a2-m1-cR_4fpi-a2-m1-cT 4fpi-a2-m1-cS_4fpi-a2-m1-cU MLYLVRMTVNLPRNLDPREEERLKASEKARSRTLQEQGQWRYLWRTTGKYGNISVFDVNSHDELHEILWSLPFFPYLTIDVEPLSHHPARVGKD MLYLVRMTVNLPRNLDPREEERLKASEKARSRTLQEQGQWRYLWRTTGKYGNISVFDVNSHDELHEILWSLPFFPYLTIDVEPLSHHPARVGKD 3znj-a2-m1-cI_3znj-a2-m1-cJ Crystal structure of unliganded ClcF from R.opacus 1CP in crystal form 1. Q8G9L0 Q8G9L0 2.1 X-RAY DIFFRACTION 80 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 94 94 3znj-a1-m1-c1_3znj-a1-m1-cZ 3znj-a1-m1-c3_3znj-a1-m1-c2 3znj-a1-m1-c5_3znj-a1-m1-c4 3znj-a1-m1-cV_3znj-a1-m1-cW 3znj-a1-m1-cY_3znj-a1-m1-cX 3znj-a2-m1-cA_3znj-a2-m1-cB 3znj-a2-m1-cC_3znj-a2-m1-cD 3znj-a2-m1-cE_3znj-a2-m1-cF 3znj-a2-m1-cG_3znj-a2-m1-cH 3znj-a3-m1-c7_3znj-a3-m1-c6 3znj-a3-m1-c9_3znj-a3-m1-c8 3znj-a3-m1-ca_3znj-a3-m1-cb 3znj-a3-m1-cc_3znj-a3-m1-cd 3znj-a3-m1-ce_3znj-a3-m1-cf 3znj-a4-m1-cK_3znj-a4-m1-cL 3znj-a4-m1-cM_3znj-a4-m1-cN 3znj-a4-m1-cO_3znj-a4-m1-cP 3znj-a4-m1-cR_3znj-a4-m1-cS 3znj-a4-m1-cT_3znj-a4-m1-cU 3znu-a1-m1-cA_3znu-a1-m1-cD 3znu-a1-m1-cB_3znu-a1-m1-cC 3znu-a1-m1-cE_3znu-a1-m1-cG 3znu-a1-m1-cI_3znu-a1-m1-cF 3znu-a1-m1-cJ_3znu-a1-m1-cH 3zo7-a1-m1-cB_3zo7-a1-m1-cC 3zo7-a1-m1-cD_3zo7-a1-m1-cA 3zo7-a1-m1-cE_3zo7-a1-m1-cG 3zo7-a1-m1-cF_3zo7-a1-m1-cI 3zo7-a1-m1-cH_3zo7-a1-m1-cJ 4fpi-a1-m1-cA_4fpi-a1-m1-cB 4fpi-a1-m1-cC_4fpi-a1-m1-cD 4fpi-a1-m1-cE_4fpi-a1-m1-cF 4fpi-a1-m1-cG_4fpi-a1-m1-cH 4fpi-a1-m1-cI_4fpi-a1-m1-cJ 4fpi-a2-m1-cK_4fpi-a2-m1-cL 4fpi-a2-m1-cM_4fpi-a2-m1-cN 4fpi-a2-m1-cO_4fpi-a2-m1-cP 4fpi-a2-m1-cR_4fpi-a2-m1-cS 4fpi-a2-m1-cT_4fpi-a2-m1-cU MLYLVRMTVNLPRNLDPREEERLKASEKARSRTLQEQGQWRYLWRTTGKYGNISVFDVNSHDELHEILWSLPFFPYLTIDVEPLSHHPARVGKD MLYLVRMTVNLPRNLDPREEERLKASEKARSRTLQEQGQWRYLWRTTGKYGNISVFDVNSHDELHEILWSLPFFPYLTIDVEPLSHHPARVGKD 3zo9-a1-m1-cA_3zo9-a1-m2-cA The structure of Trehalose Synthase (TreS) of Mycobacterium smegmatis A0R6E0 A0R6E0 1.84 X-RAY DIFFRACTION 14 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 549 549 3zo9-a1-m1-cB_3zo9-a1-m2-cB 5jy7-a1-m1-cA_5jy7-a1-m1-cC 5jy7-a1-m1-cB_5jy7-a1-m1-cD LPTDTNWFKHAVFYEVLVRAFYDSNADGIGDLRGLTEKLDYIKWLGVDCLWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVTLLDAAHRRGIRIITDLVMNHTSDQHEWFQESRHNPDGPYGDFYVWSDTSDRYPDARIIFVDTEESNWTFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMLDVLRFWLDLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRCRKAIDDEYPGRVLLAEANQWPADVVAYFGDPDTGGDECHMAFHFPLMPRIFMAVRRESRFPISEILAQTPPIPDTAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLENDRNQIELFTALLLSLPGSPVLYYGDEIGMGDIIWLGDRDSVRTPMQWTPDRNAGFSKATPGRLYLPPNQDAVYGYHSVNVEAQLDSSSSLLNWTRNMLAVRSRHDAFAVGTFRELGGSNPSVLAYIREVTTDAVLCVNNLSRFPQPIELNLQQWAGYIPVEMTGYVEFPSIGQLPYLLTLPGHGFYWFQLREPD LPTDTNWFKHAVFYEVLVRAFYDSNADGIGDLRGLTEKLDYIKWLGVDCLWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVTLLDAAHRRGIRIITDLVMNHTSDQHEWFQESRHNPDGPYGDFYVWSDTSDRYPDARIIFVDTEESNWTFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMLDVLRFWLDLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRCRKAIDDEYPGRVLLAEANQWPADVVAYFGDPDTGGDECHMAFHFPLMPRIFMAVRRESRFPISEILAQTPPIPDTAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLENDRNQIELFTALLLSLPGSPVLYYGDEIGMGDIIWLGDRDSVRTPMQWTPDRNAGFSKATPGRLYLPPNQDAVYGYHSVNVEAQLDSSSSLLNWTRNMLAVRSRHDAFAVGTFRELGGSNPSVLAYIREVTTDAVLCVNNLSRFPQPIELNLQQWAGYIPVEMTGYVEFPSIGQLPYLLTLPGHGFYWFQLREPD 3zo9-a1-m1-cA_3zo9-a1-m2-cB The structure of Trehalose Synthase (TreS) of Mycobacterium smegmatis A0R6E0 A0R6E0 1.84 X-RAY DIFFRACTION 33 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 549 571 3zo9-a1-m2-cA_3zo9-a1-m1-cB 5jy7-a1-m1-cA_5jy7-a1-m1-cD 5jy7-a1-m1-cC_5jy7-a1-m1-cB 5jy7-a2-m1-cE_5jy7-a2-m1-cG 5jy7-a2-m1-cH_5jy7-a2-m1-cF LPTDTNWFKHAVFYEVLVRAFYDSNADGIGDLRGLTEKLDYIKWLGVDCLWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVTLLDAAHRRGIRIITDLVMNHTSDQHEWFQESRHNPDGPYGDFYVWSDTSDRYPDARIIFVDTEESNWTFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMLDVLRFWLDLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRCRKAIDDEYPGRVLLAEANQWPADVVAYFGDPDTGGDECHMAFHFPLMPRIFMAVRRESRFPISEILAQTPPIPDTAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLENDRNQIELFTALLLSLPGSPVLYYGDEIGMGDIIWLGDRDSVRTPMQWTPDRNAGFSKATPGRLYLPPNQDAVYGYHSVNVEAQLDSSSSLLNWTRNMLAVRSRHDAFAVGTFRELGGSNPSVLAYIREVTTDAVLCVNNLSRFPQPIELNLQQWAGYIPVEMTGYVEFPSIGQLPYLLTLPGHGFYWFQLREPD HPNAEDFGHARTLPTDTNWFKHAVFYEVLVRAFYDSNADGIGDLRGLTEKLDYIKWLGVDCLWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVTLLDAAHRRGIRIITDLVMNHTSDQHEWFQESRHNPDGPYGDFYVWSDTSDRYPDARIIFVDTEESNWTFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMLDVLRFWLDLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRCRKAIDDEYPGRVLLAEANQWPADVVAYFGDPDTGGDECHMAFHFPLMPRIFMAVRRESRFPISEILAQTPPIPDTAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLENDRNQIELFTALLLSLPGSPVLYYGDEIGMGDIIWLGDRDSVRTPMQWTPDRNAGFSKATPGRLYLPPNQDAVYGYHSVNVEAQLDSSSSLLNWTRNMLAVRSRHDAFAVGTFRELGGSNPSVLAYIREVTRQQGDGGAKTDAVLCVNNLSRFPQPIELNLQQWAGYIPVEMTGYVEFPSIGQLPYLLTLPGHGFYWFQLREPDP 3zod-a1-m1-cA_3zod-a1-m2-cA Crystal structure of FMN-binding protein (NP_142786.1) from Pyrococcus horikoshii with bound benzene-1,4-diol O58586 O58586 1.68 X-RAY DIFFRACTION 237 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 180 180 2r6v-a1-m1-cA_2r6v-a1-m2-cA 3zoc-a1-m1-cA_3zoc-a1-m2-cA 3zog-a1-m1-cA_3zog-a1-m2-cA HENLYFQGMEGYRLLYPMRTYLIVSGHGEETNVMAADWVTVVSFDPFIVGVAVAPKRTTHKLIKKYGEFVISVPSLDVLRDVWIAGTKKGPSKLKEMSVTLIPSKKVKVPSIEEALANIECRVIDARSYGDHTFFVGEVVGYTYKDYAFEKGKPNLKAKFLAHVSWSEFVTFSEKVHKAE HENLYFQGMEGYRLLYPMRTYLIVSGHGEETNVMAADWVTVVSFDPFIVGVAVAPKRTTHKLIKKYGEFVISVPSLDVLRDVWIAGTKKGPSKLKEMSVTLIPSKKVKVPSIEEALANIECRVIDARSYGDHTFFVGEVVGYTYKDYAFEKGKPNLKAKFLAHVSWSEFVTFSEKVHKAE 3zok-a2-m1-cC_3zok-a2-m1-cD Structure of 3-Dehydroquinate Synthase from Actinidia chinensis in complex with NAD U3KRF2 U3KRF2 2.4 X-RAY DIFFRACTION 105 1.0 3625 (Actinidia chinensis) 3625 (Actinidia chinensis) 365 365 3zok-a1-m1-cA_3zok-a1-m1-cB PTIVDVDLGDRSYPIYIGSGLLDQPDLLQRHVHGKRVLVVTNSTVAPIYLDKVVGALTNENPNVSVESVILPDGEKYKNMDTLMKVFDKAIESRLDRRCTFVALGGGVIGDMCGYAAASFLRGVNFIQIPTTVMAQVDSSVGGKTGINHRLGKNLIGAFYQPQCVLIDTDTLNTLPDRELASGLAEVVKYGLIRDANFFEWQEKNMPALMARDPSALAYAIKRSCENKAEVVSLDEKESGLRATLNLGHTFGHAIETGFGYGQWLHGEAVAAGMVMAVDMSYRLGWIDESIVNRAHNILQQAKLPTAPPETMTVEMFKSVMAVDKKVADGLLRLILLKGPLGNCVFTGDYDRKALDETLHAFCKS PTIVDVDLGDRSYPIYIGSGLLDQPDLLQRHVHGKRVLVVTNSTVAPIYLDKVVGALTNENPNVSVESVILPDGEKYKNMDTLMKVFDKAIESRLDRRCTFVALGGGVIGDMCGYAAASFLRGVNFIQIPTTVMAQVDSSVGGKTGINHRLGKNLIGAFYQPQCVLIDTDTLNTLPDRELASGLAEVVKYGLIRDANFFEWQEKNMPALMARDPSALAYAIKRSCENKAEVVSLDEKESGLRATLNLGHTFGHAIETGFGYGQWLHGEAVAAGMVMAVDMSYRLGWIDESIVNRAHNILQQAKLPTAPPETMTVEMFKSVMAVDKKVADGLLRLILLKGPLGNCVFTGDYDRKALDETLHAFCKS 3zpg-a1-m1-cA_3zpg-a1-m2-cA Acinetobacter baumannii RibD, form 2 D0CB74 D0CB74 1.99 X-RAY DIFFRACTION 132 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 354 354 3zpc-a1-m1-cB_3zpc-a1-m1-cA SELKQDQYWMQQAIELAKRGLYSTKPNPNVGCVIVKDDQLIGEGFHPKAGQPHAEVFALRQAGEQAQGATAYVTLEPCAHYGRTPPCAEALVKAQVKKVVVACPDPNPLVAGKGVQILKNAGIEVEIGICEDLAAKLNQGFLKAMSTGMPYVRLKVASSLDGRTAMASGESITGSAARQDVQHWRAISGAVITGIDTVIADDCQLNVRSLHNIDIETVAQPKRVILDRRGRLPLTAKILENPETVMVMGPYRQELADLGVIQLEIQPLKTLLQTLSKQYQIYDVLIEAGATLSSAFLQEGLIDEMISYVAPTLLGQSARAMFNADFEYMAQQLRFKLLDVIQLDQDIRLRLIPT SELKQDQYWMQQAIELAKRGLYSTKPNPNVGCVIVKDDQLIGEGFHPKAGQPHAEVFALRQAGEQAQGATAYVTLEPCAHYGRTPPCAEALVKAQVKKVVVACPDPNPLVAGKGVQILKNAGIEVEIGICEDLAAKLNQGFLKAMSTGMPYVRLKVASSLDGRTAMASGESITGSAARQDVQHWRAISGAVITGIDTVIADDCQLNVRSLHNIDIETVAQPKRVILDRRGRLPLTAKILENPETVMVMGPYRQELADLGVIQLEIQPLKTLLQTLSKQYQIYDVLIEAGATLSSAFLQEGLIDEMISYVAPTLLGQSARAMFNADFEYMAQQLRFKLLDVIQLDQDIRLRLIPT 3zpl-a2-m1-cF_3zpl-a2-m1-cE Crystal structure of Sco3205, a MarR family transcriptional regulator from Streptomyces coelicolor, in complex with DNA Q9KYU1 Q9KYU1 2.8 X-RAY DIFFRACTION 144 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 154 160 3zpl-a1-m1-cA_3zpl-a1-m1-cB WLTAEEQLVWRSYIEAATLLEDHLDRQLQRDAGMPHVYYGLLVKLAESPRRRLRMTELAKYAKITRSRLSHAVARLEKNGWVRREDCPSDKRGQFAILTDEGYEVLRRTAPGHVDAVRQAVFDRLTPEQQKSLGEIMRIVAEGLQPSEDLPWLR NDEPRWLTAEEQLVWRSYIEAATLLEDHLDRQLQRDAGMPHVYYGLLVKLAESPRRRLRMTELAKYAKITRSRLSHAVARLEKNGWVRREDCPSDKRGQFAILTDEGYEVLRRTAPGHVDAVRQAVFDRLTPEQQKSLGEIMRIVAEGLQPSEADLPWLR 3zpn-a2-m1-cC_3zpn-a2-m1-cD Structure of Psb28 Q8DLJ8 Q8DLJ8 2.361 X-RAY DIFFRACTION 73 1.0 146786 (Thermosynechococcus vestitus) 146786 (Thermosynechococcus vestitus) 106 106 3zpn-a1-m1-cB_3zpn-a1-m1-cA MAEIQFIRGINEEVVPDVRLTRARDGSSGQAMFYFDNPKIVQEGNLEVTGMYMVDEEGEIVTRDVNAKFINGQPVAIEATYTMRSPQEWDRFIRFMDRYAASHGLG MAEIQFIRGINEEVVPDVRLTRARDGSSGQAMFYFDNPKIVQEGNLEVTGMYMVDEEGEIVTRDVNAKFINGQPVAIEATYTMRSPQEWDRFIRFMDRYAASHGLG 3zpx-a1-m1-cA_3zpx-a1-m1-cB USTILAGO MAYDIS LIPASE UM03410, SHORT FORM WITHOUT FLAP 1.99 X-RAY DIFFRACTION 59 1.0 5270 (Ustilago maydis) 5270 (Ustilago maydis) 382 382 ADPNDDLFYTTPDNINTYANGQVIQSRKADTDIGNSNKVEAFQLQYRTTNTQKEAQANVATVWIPNKPASPPKIFSYQVYQDSTQLNCAPSYSFLKGLDKPNKATTILEAPIIIGWALQQGFYVVSSDHEGPRSSFIAGYEEGMAILDGIRALKNYAKLPTDSAIGFYGYSGGAHATGWAANLAGSYAPEHNIIGAAYGGLPASARDTFNFLNKGAFAGFAIAGVSGLALAYPDVETYIQSRLNAKGEKVFKQVRSRGFCIGQVVLTYPFVDAYSLINDTNLLNEEPVASTLKSETLVQAEASYTVPVPKFPRFIWHALLDEIVPFHSAATYVKEQCSKGADINWNVYSFAEHISAELFGLLPGLDWLNKAYKGQAPKVPCG ADPNDDLFYTTPDNINTYANGQVIQSRKADTDIGNSNKVEAFQLQYRTTNTQKEAQANVATVWIPNKPASPPKIFSYQVYQDSTQLNCAPSYSFLKGLDKPNKATTILEAPIIIGWALQQGFYVVSSDHEGPRSSFIAGYEEGMAILDGIRALKNYAKLPTDSAIGFYGYSGGAHATGWAANLAGSYAPEHNIIGAAYGGLPASARDTFNFLNKGAFAGFAIAGVSGLALAYPDVETYIQSRLNAKGEKVFKQVRSRGFCIGQVVLTYPFVDAYSLINDTNLLNEEPVASTLKSETLVQAEASYTVPVPKFPRFIWHALLDEIVPFHSAATYVKEQCSKGADINWNVYSFAEHISAELFGLLPGLDWLNKAYKGQAPKVPCG 3zq4-a1-m1-cD_3zq4-a1-m1-cE Unusual, dual endo- and exo-nuclease activity in the degradosome explained by crystal structure analysis of RNase J1 Q45493 Q45493 3 X-RAY DIFFRACTION 166 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 538 544 3zq4-a1-m1-cC_3zq4-a1-m1-cA NDQTAVFALGGLGEIGKNTYAVQFQDEIVLIDAGIKFPEDELLGIDYVIPDYTYLVKNEDKIKGLFITHGHEDHIGGIPYLLRQVNIPVYGGKLAIGLLRNKLEEHGLLRQTKLNIIGEDDIVKFRKTAVSFFRTTHSIPDSYGIVVKTPPGNIVHTGDFKFDFTPVGEPANLTKMAEIGKEGVLCLLSDSTNSENPEFTMSERRVGESIHDIFRKVDGRIIFATFASNIHRLQQVIEAAVQNGRKVAVFGRSMESAIEIGQTLGYINCPKNTFIEHNEINRMPANKVTILCTGSQGEPMAALSRIANGTHRQISINPGDTVVFSSSPIPGNTISVSRTINQLYRAGAEVIHGPLNDIHTSGHGGQEEQKLMLRLIKPKFFMPIHGEYRMQKMHVKLATDCGIPEENCFIMDNGEVLALKGDEASVAGKIPSGSVYIDGSGIGDIGNIVLRDRRILSEEGLVIVVVSIDMDDFKISAGPDLISRGFVDLINDAQELISNHLQKVMWSEIKNEITDTLAPFLYEKTKRRPMILPIIMEV NDQTAVFALGGLGEIGKNTYAVQFQDEIVLIDAGIKFPEDELLGIDYVIPDYTYLVKNEDKIKGLFITHGHEDHIGGIPYLLRQVNIPVYGGKLAIGLLRNKLEEHGLLRQTKLNIIGEDDIVKFRKTAVSFFRTTHSIPDSYGIVVKTPPGNIVHTGDFKFDFTPVGEPANLTKMAEIGKEGVLCLLSDSTNSENPEFTMSERRVGESIHDIFRKVDGRIIFATFASNIHRLQQVIEAAVQNGRKVAVFGRSMESAIEIGQTLGYINCPKNTFIEHNEINRMPANKVTILCTGSQGEPMAALSRIANGTHRQISINPGDTVVFSSSPIPGNTISVSRTINQLYRAGAEVIHGPLNDIHTSGHGGQEEQKLMLRLIKPKFFMPIHGEYRMQKMHVKLATDCGIPEENCFIMDNGEVLALKGDEASVAGKIPSGSVYIDGSGIGDIGNIVLRDRRILSEEGLVIVVVSIDMDDFKISAGPDLISRGFVDLINDAQELISNHLQKVMERKTTQWSEIKNEITDTLAPFLYEKTKRRPMILPIIMEV 3zq4-a1-m1-cE_3zq4-a1-m1-cA Unusual, dual endo- and exo-nuclease activity in the degradosome explained by crystal structure analysis of RNase J1 Q45493 Q45493 3 X-RAY DIFFRACTION 54 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 544 550 3zq4-a1-m1-cD_3zq4-a1-m1-cC NDQTAVFALGGLGEIGKNTYAVQFQDEIVLIDAGIKFPEDELLGIDYVIPDYTYLVKNEDKIKGLFITHGHEDHIGGIPYLLRQVNIPVYGGKLAIGLLRNKLEEHGLLRQTKLNIIGEDDIVKFRKTAVSFFRTTHSIPDSYGIVVKTPPGNIVHTGDFKFDFTPVGEPANLTKMAEIGKEGVLCLLSDSTNSENPEFTMSERRVGESIHDIFRKVDGRIIFATFASNIHRLQQVIEAAVQNGRKVAVFGRSMESAIEIGQTLGYINCPKNTFIEHNEINRMPANKVTILCTGSQGEPMAALSRIANGTHRQISINPGDTVVFSSSPIPGNTISVSRTINQLYRAGAEVIHGPLNDIHTSGHGGQEEQKLMLRLIKPKFFMPIHGEYRMQKMHVKLATDCGIPEENCFIMDNGEVLALKGDEASVAGKIPSGSVYIDGSGIGDIGNIVLRDRRILSEEGLVIVVVSIDMDDFKISAGPDLISRGFVDLINDAQELISNHLQKVMERKTTQWSEIKNEITDTLAPFLYEKTKRRPMILPIIMEV NDQTAVFALGGLGEIGKNTYAVQFQDEIVLIDAGIKFPEDELLGIDYVIPDYTYLVKNEDKIKGLFITHGHEDHIGGIPYLLRQVNIPVYGGKLAIGLLRNKLEEHGLLRQTKLNIIGEDDIVKFRKTAVSFFRTTHSIPDSYGIVVKTPPGNIVHTGDFKFDFTPVGEPANLTKMAEIGKEGVLCLLSDSTNSENPEFTMSERRVGESIHDIFRKVDGRIIFATFASNIHRLQQVIEAAVQNGRKVAVFGRSMESAIEIGQTLGYINCPKNTFIEHNEINRMPANKVTILCTGSQGEPMAALSRIANGTHRQISINPGDTVVFSSSPIPGNTISVSRTINQLYRAGAEVIHGPLNDIHTSGHGGQEEQKLMLRLIKPKFFMPIHGEYRMQKMHVKLATDCGIPEENCFIMDNGEVLALKGDEASVAGKIPSGSVYIDGSGIGDIGNIVLRDRRILSEEGLVIVVVSIDMDDFKISAGPDLISRGFVYMRESGDLINDAQELISNHLQKVMERKTTQWSEIKNEITDTLAPFLYEKTKRRPMILPIIMEV 3zq5-a1-m1-cA_3zq5-a1-m2-cA Structure of the Y263F mutant of the cyanobacterial phytochrome Cph1 Q55168 Q55168 1.95 X-RAY DIFFRACTION 157 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 517 517 2vea-a1-m1-cA_2vea-a1-m2-cA ATTVQLSDQSLRQLETLAIHTAHLIQPHGLVVVLQEPDLTISQISANCTGILGRSPEDLLGRTLGEVFDSFQIDPIQSRLTAGQISSLNPSKLWARVMGDDFVIFDGVFHRNSDGLLVCELEPAYTSDNLPFLGFYHMANAALNRLRQQANLRDFYDVIVEEVRRMTGFDRVMLYRFDENNHGDVIAEDKRDDMEPYLGLHYPESDIPQPARRLFIHNPIRVIPDVYGVAVPLTPAVNPSTNRAVDLTESILRSAYHCHLTFLKNMGVGASLTISLIKDGHLWGLIACHHQTPKVIPFELRKACEFFGRVVFSNISAQEDTETFDYRVQLAEHEAVLLDKMTTAADFVEGLTNHPDRLLGLTGSQGAAICFGEKLILVGETPDEKAVQYLLQWLENREVQDVFFTSSLSQIYPDAVNFKSVASGLLAIPIARHNFLLWFRPEVLQTVNWGGDPNHAYEATQEDGKIELHPRQSFDLWKEIVRLQSLPWQSVEIQSALALKKAIVNLILRQAEEHHHH ATTVQLSDQSLRQLETLAIHTAHLIQPHGLVVVLQEPDLTISQISANCTGILGRSPEDLLGRTLGEVFDSFQIDPIQSRLTAGQISSLNPSKLWARVMGDDFVIFDGVFHRNSDGLLVCELEPAYTSDNLPFLGFYHMANAALNRLRQQANLRDFYDVIVEEVRRMTGFDRVMLYRFDENNHGDVIAEDKRDDMEPYLGLHYPESDIPQPARRLFIHNPIRVIPDVYGVAVPLTPAVNPSTNRAVDLTESILRSAYHCHLTFLKNMGVGASLTISLIKDGHLWGLIACHHQTPKVIPFELRKACEFFGRVVFSNISAQEDTETFDYRVQLAEHEAVLLDKMTTAADFVEGLTNHPDRLLGLTGSQGAAICFGEKLILVGETPDEKAVQYLLQWLENREVQDVFFTSSLSQIYPDAVNFKSVASGLLAIPIARHNFLLWFRPEVLQTVNWGGDPNHAYEATQEDGKIELHPRQSFDLWKEIVRLQSLPWQSVEIQSALALKKAIVNLILRQAEEHHHH 3zq6-a2-m1-cC_3zq6-a2-m1-cD ADP-ALF4 COMPLEX OF M. THERM. TRC40 O27555 O27555 2.107 X-RAY DIFFRACTION 166 1.0 145262 (Methanothermobacter thermautotrophicus) 145262 (Methanothermobacter thermautotrophicus) 284 307 AFKDLFKFNKGKTTFVFIGGKGGVGKTTISAATALWMARSGKKTLVISTDPAHSLSDSLEREIGHTPTKITENLYAVEIDPEVAMEEYQASMSPGIDEAAAFDQFLRYMTTDEYDIVIFDTAPTGHTLRLLSFPEIMDSWVGKMIKIRRQIGSMDEEEEDRALQDMEATKKQINAAREVMSDPERTSFKMVVIPEEMSIYESERAMKALEKYSIHADGVIVNQVLPEESDCEFCNARRKLQQERLKQIREKFSDKVVAEVPLLKKEAKGIETLEKIAEQLYGEP AFKDLFKFNKGKTTFVFIGGKGGVGKTTISAATALWMARSGKKTLVISTDPAHSLSDSLEREIGHTPTKITENLYAVEIDPEVAMEEYQAKLMLQDQMDMASMSPGIDEAAAFDQFLRYMTTDEYDIVIFDTAPTGHTLRLLSFPEIMDSWVGKMIKIRRQIGSMAKAFKNILPFMGDEEEEDRALQDMEATKKQINAAREVMSDPERTSFKMVVIPEEMSIYESERAMKALEKYSIHADGVIVNQVLPEESDCEFCNARRKLQQERLKQIREKFSDKVVAEVPLLKKEAKGIETLEKIAEQLYGEP 3zq8-a1-m1-cC_3zq8-a1-m1-cD STRUCTURE OF LINEAR GRAMICIDIN D OBTAINED USING TYPE I CRYSTALS GROWN IN A monovaccenin LIPID CUBIC PHASE 1.7 X-RAY DIFFRACTION 16 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 8 8 GAAVWWWW GAAVWWWW 3zql-a2-m1-cB_3zql-a2-m1-cA DNA-bound form of TetR-like repressor SimR Q9AMH9 Q9AMH9 2.99 X-RAY DIFFRACTION 167 1.0 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 226 236 2y2z-a1-m1-cA_2y2z-a1-m2-cA 2y30-a1-m1-cB_2y30-a1-m1-cA 2y31-a1-m1-cB_2y31-a1-m1-cA 3zql-a1-m1-cD_3zql-a1-m1-cC VSIWMHPEPTLSRDQIVRAAVKVADTEGVEAASMRRVAAELGAGTMSLYYYVPTKEDLVELMVDEVIGETRLPDRPGPDWRAALTLAANEKRALWLRHPWLATAWRNGHPVWGPNSLRQQEFVLGTLGVFDLQVDELLSLIGLYNGYVESFVRNEVGWLEEARRTKVDMREWMRRSGPYAQQLVDSGEYPMFARVLAETVAPHMGPDQRFRSGLERLLDSIGASLD VSIWMHPEPAGRRSARSHRTLSRDQIVRAAVKVADTEGVEAASMRRVAAELGAGTMSLYYYVPTKEDLVELMVDEVIGETRLPDRPGPDWRAALTLAANEKRALWLRHPWLATAWRNGHPVWGPNSLRQQEFVLGTLGVFDLQVDELLSLIGLYNGYVESFVRNEVGWLEEARRTKVDMREWMRRSGPYAQQLVDSGEYPMFARVLAETVAPHMGPDQRFRSGLERLLDSIGASLD 3zqn-a1-m1-cB_3zqn-a1-m1-cC Crystal structure of the small terminase oligomerization core domain from a SPP1-like bacteriophage (crystal form 2) P68928 P68928 2.2 X-RAY DIFFRACTION 85 1.0 10773 (Bacillus phage SF6) 10773 (Bacillus phage SF6) 68 68 3zqm-a1-m1-cB_3zqm-a1-m1-cA 3zqm-a1-m1-cB_3zqm-a1-m1-cC 3zqm-a1-m1-cC_3zqm-a1-m1-cD 3zqm-a1-m1-cD_3zqm-a1-m1-cE 3zqm-a1-m1-cF_3zqm-a1-m1-cE 3zqm-a1-m1-cF_3zqm-a1-m1-cG 3zqm-a1-m1-cH_3zqm-a1-m1-cG 3zqm-a1-m1-cH_3zqm-a1-m1-cI 3zqm-a1-m1-cJ_3zqm-a1-m1-cA 3zqm-a1-m1-cJ_3zqm-a1-m1-cI 3zqn-a1-m1-cA_3zqn-a1-m1-cB 3zqn-a1-m1-cA_3zqn-a1-m1-cJ 3zqn-a1-m1-cC_3zqn-a1-m1-cD 3zqn-a1-m1-cD_3zqn-a1-m1-cE 3zqn-a1-m1-cE_3zqn-a1-m1-cF 3zqn-a1-m1-cF_3zqn-a1-m1-cG 3zqn-a1-m1-cG_3zqn-a1-m1-cH 3zqn-a1-m1-cH_3zqn-a1-m1-cI 3zqn-a1-m1-cJ_3zqn-a1-m1-cI 3zqo-a1-m1-cB_3zqo-a1-m1-cA 3zqo-a1-m1-cB_3zqo-a1-m1-cC 3zqo-a1-m1-cC_3zqo-a1-m1-cD 3zqo-a1-m1-cE_3zqo-a1-m1-cD 3zqo-a1-m1-cE_3zqo-a1-m1-cF 3zqo-a1-m1-cF_3zqo-a1-m1-cG 3zqo-a1-m1-cG_3zqo-a1-m1-cH 3zqo-a1-m1-cH_3zqo-a1-m1-cI 3zqo-a1-m1-cI_3zqo-a1-m1-cA 3zqo-a2-m1-cK_3zqo-a2-m1-cJ 3zqo-a2-m1-cK_3zqo-a2-m1-cL 3zqo-a2-m1-cL_3zqo-a2-m1-cM 3zqo-a2-m1-cN_3zqo-a2-m1-cM 3zqo-a2-m1-cN_3zqo-a2-m1-cO 3zqo-a2-m1-cO_3zqo-a2-m1-cP 3zqo-a2-m1-cP_3zqo-a2-m1-cQ 3zqo-a2-m1-cR_3zqo-a2-m1-cJ 3zqo-a2-m1-cR_3zqo-a2-m1-cQ 3zqp-a1-m1-cA_3zqp-a1-m1-cI 3zqp-a1-m1-cD_3zqp-a1-m1-cC 3zqp-a1-m1-cD_3zqp-a1-m1-cE 3zqp-a1-m1-cF_3zqp-a1-m1-cE 3zqp-a1-m1-cF_3zqp-a1-m1-cG 3zqp-a1-m1-cG_3zqp-a1-m1-cH 3zqp-a1-m1-cI_3zqp-a1-m1-cH 3zqq-a1-m1-cA_3zqq-a1-m2-cC 3zqq-a1-m2-cA_3zqq-a1-m3-cC 3zqq-a1-m3-cA_3zqq-a1-m1-cC HARIDARLKEINEKKILQANEVLEHLTRIALGQEKEQVLGIGKGAETKTHVEVSAKDRIKALELLGKA HARIDARLKEINEKKILQANEVLEHLTRIALGQEKEQVLGIGKGAETKTHVEVSAKDRIKALELLGKA 3zqq-a1-m2-cB_3zqq-a1-m3-cC Crystal structure of the full-length small terminase from a SPP1-like bacteriophage P68928 P68928 4 X-RAY DIFFRACTION 11 1.0 10773 (Bacillus phage SF6) 10773 (Bacillus phage SF6) 77 134 3zqq-a1-m1-cB_3zqq-a1-m2-cC 3zqq-a1-m3-cB_3zqq-a1-m1-cC KILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG KLSPKQERFIEEYFINDMNATKAAIAAGYSKNSASAIGAENLQKPAIRARIDARLKKKILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG 3zqq-a1-m2-cC_3zqq-a1-m3-cC Crystal structure of the full-length small terminase from a SPP1-like bacteriophage P68928 P68928 4 X-RAY DIFFRACTION 12 1.0 10773 (Bacillus phage SF6) 10773 (Bacillus phage SF6) 134 134 3zqq-a1-m1-cC_3zqq-a1-m2-cC 3zqq-a1-m1-cC_3zqq-a1-m3-cC KLSPKQERFIEEYFINDMNATKAAIAAGYSKNSASAIGAENLQKPAIRARIDARLKKKILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG KLSPKQERFIEEYFINDMNATKAAIAAGYSKNSASAIGAENLQKPAIRARIDARLKKKILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG 3zqq-a1-m3-cB_3zqq-a1-m3-cA Crystal structure of the full-length small terminase from a SPP1-like bacteriophage P68928 P68928 4 X-RAY DIFFRACTION 136 0.987 10773 (Bacillus phage SF6) 10773 (Bacillus phage SF6) 77 132 3zqq-a1-m1-cB_3zqq-a1-m1-cA 3zqq-a1-m2-cB_3zqq-a1-m2-cA KILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG KLSPKQERFIEEYFINDMNATKAAIAAGYSKNSASAIGAENLQKPAIRARIDARLKKILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDS 3zqq-a1-m3-cB_3zqq-a1-m3-cC Crystal structure of the full-length small terminase from a SPP1-like bacteriophage P68928 P68928 4 X-RAY DIFFRACTION 146 1.0 10773 (Bacillus phage SF6) 10773 (Bacillus phage SF6) 77 134 3zqp-a1-m1-cA_3zqp-a1-m1-cB 3zqp-a1-m1-cB_3zqp-a1-m1-cC 3zqq-a1-m1-cB_3zqq-a1-m1-cC 3zqq-a1-m2-cB_3zqq-a1-m2-cC KILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG KLSPKQERFIEEYFINDMNATKAAIAAGYSKNSASAIGAENLQKPAIRARIDARLKKKILQANEVLEHLTRIALGQEKEQVLMGIGKGAETKTHVEVSAKDRIKALELLGKAHAVFTDKQKVETNQVIIVDDSG 3zqs-a1-m1-cA_3zqs-a1-m2-cB Human FANCL central domain Q9NW38 Q9NW38 2 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 3zqs-a1-m1-cB_3zqs-a1-m2-cA QFYSSLIEEIGTLGWDKLVYADTCFSTIKLKAEDASGREHLITLKLKAKYPAESPDYFVDFPVPFCASWTPQSSLISIYSQFLAAIESLKAFWDVMDEIDEKTWVLEPEKPPRSATARRIALGNNVSINIEVDPRHPTMLPECFFLGADHVVKPLGIKLSRNIHLWDPENSVLQNLKDVLEIDFPA QFYSSLIEEIGTLGWDKLVYADTCFSTIKLKAEDASGREHLITLKLKAKYPAESPDYFVDFPVPFCASWTPQSSLISIYSQFLAAIESLKAFWDVMDEIDEKTWVLEPEKPPRSATARRIALGNNVSINIEVDPRHPTMLPECFFLGADHVVKPLGIKLSRNIHLWDPENSVLQNLKDVLEIDFPA 3zqs-a1-m2-cA_3zqs-a1-m2-cB Human FANCL central domain Q9NW38 Q9NW38 2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 3zqs-a1-m1-cA_3zqs-a1-m1-cB QFYSSLIEEIGTLGWDKLVYADTCFSTIKLKAEDASGREHLITLKLKAKYPAESPDYFVDFPVPFCASWTPQSSLISIYSQFLAAIESLKAFWDVMDEIDEKTWVLEPEKPPRSATARRIALGNNVSINIEVDPRHPTMLPECFFLGADHVVKPLGIKLSRNIHLWDPENSVLQNLKDVLEIDFPA QFYSSLIEEIGTLGWDKLVYADTCFSTIKLKAEDASGREHLITLKLKAKYPAESPDYFVDFPVPFCASWTPQSSLISIYSQFLAAIESLKAFWDVMDEIDEKTWVLEPEKPPRSATARRIALGNNVSINIEVDPRHPTMLPECFFLGADHVVKPLGIKLSRNIHLWDPENSVLQNLKDVLEIDFPA 3zrg-a1-m1-cB_3zrg-a1-m1-cA Crystal structure of RxLR effector PexRD2 from Phytophthora infestans D0NIN5 D0NIN5 1.75 X-RAY DIFFRACTION 73 1.0 4787 (Phytophthora infestans) 4787 (Phytophthora infestans) 65 66 GPALNTEKMKTMLKAGMTVDDYAAKLKLTDKIAAAANSARAMEKLGETLKMKKLLRYLNYVAEHT GPALNTEKMKTMLKAGMTVDDYAAKLKLTDKIAAAANSARAMEKLGETLKMKKLLRYLNYVAEHTA 3zri-a2-m1-cA_3zri-a2-m2-cA N-domain of ClpV from Vibrio cholerae 1.8 X-RAY DIFFRACTION 85 1.0 345076 (Vibrio cholerae V52) 345076 (Vibrio cholerae V52) 165 165 3zrj-a3-m1-cA_3zrj-a3-m1-cB HHHHHHTDPIRIELPTLIAKLNAQSKLALEQAASLCIERQHPEVTLEHYLDVLLDNPLSDVRLVLKQAGLEVDQVKQAIASTYSREQVLDTYPAFSPLLVELLQEAWLLSSTELEQAELRSGAIFLAALTRADRYLSFKLISLFEGINRENLKKHFAILSDSAET HHHHHHTDPIRIELPTLIAKLNAQSKLALEQAASLCIERQHPEVTLEHYLDVLLDNPLSDVRLVLKQAGLEVDQVKQAIASTYSREQVLDTYPAFSPLLVELLQEAWLLSSTELEQAELRSGAIFLAALTRADRYLSFKLISLFEGINRENLKKHFAILSDSAET 3zrp-a1-m1-cA_3zrp-a1-m1-cB Crystal structure and substrate specificity of a thermophilic archaeal serine : pyruvate aminotransferase from Sulfolobus solfataricus Q97VM5 Q97VM5 1.75 X-RAY DIFFRACTION 150 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 377 377 3zrq-a1-m1-cA_3zrq-a1-m1-cB 3zrq-a1-m2-cA_3zrq-a1-m2-cB 3zrr-a1-m1-cA_3zrr-a1-m1-cB 3zrr-a1-m2-cA_3zrr-a1-m2-cB LHVGPTTIKEDVLVAGLENNVGFTSKEFVEALAYSLKGLRYVMGASKNYQPLIIPGGGTSAMESVTSLLKPNDKILVVSNGVFGDRWEQIFKRYPVNVKVLRPSPGDYVKPGEVEEEVRKSEYKLVALTHVETSTGVREPVKDVINKIRKYVELIVVDGVSSVGAEEVKAEEWNVDVYLTASQKALGSAAGLGLLLLSPKALSILDSQNSIAGYYLDLRNWLPVMRGAEEGKAAYFATPPVHVILQLAEAFRLIEKEGIENRIKRHTMVASAIRAGLEALGLEIVARRPESYSNTVTGVILKVADPQKVLAGTVNEGVEFAPGVHPAFKYFRIGHMGWVTPNDAIIAISVIERTLRKLGEPIRFGEGVKAVEEVLFS LHVGPTTIKEDVLVAGLENNVGFTSKEFVEALAYSLKGLRYVMGASKNYQPLIIPGGGTSAMESVTSLLKPNDKILVVSNGVFGDRWEQIFKRYPVNVKVLRPSPGDYVKPGEVEEEVRKSEYKLVALTHVETSTGVREPVKDVINKIRKYVELIVVDGVSSVGAEEVKAEEWNVDVYLTASQKALGSAAGLGLLLLSPKALSILDSQNSIAGYYLDLRNWLPVMRGAEEGKAAYFATPPVHVILQLAEAFRLIEKEGIENRIKRHTMVASAIRAGLEALGLEIVARRPESYSNTVTGVILKVADPQKVLAGTVNEGVEFAPGVHPAFKYFRIGHMGWVTPNDAIIAISVIERTLRKLGEPIRFGEGVKAVEEVLFS 3zrq-a1-m1-cA_3zrq-a1-m2-cB Crystal structure and substrate specificity of a thermophilic archaeal serine : pyruvate aminotransferase from Sulfolobus solfataricus Q97VM5 Q97VM5 1.8 X-RAY DIFFRACTION 61 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 382 382 3zrq-a1-m1-cB_3zrq-a1-m2-cA 3zrr-a1-m1-cA_3zrr-a1-m2-cB 3zrr-a1-m1-cB_3zrr-a1-m2-cA DKLLLHVGPTTIKEDVLVAGLENNVGFTSKEFVEALAYSLKGLRYVMGASKNYQPLIIPGGGTSAMESVTSLLKPNDKILVVSNGVFGDRWEQIFKRYPVNVKVLRPSPGDYVKPGEVEEEVRKSEYKLVALTHVETSTGVREPVKDVINKIRKYVELIVVDGVSSVGAEEVKAEEWNVDVYLTASQKALGSAAGLGLLLLSPKALSILDSQNSIAGYYLDLRNWLPVMRGAEEGKAAYFATPPVHVILQLAEAFRLIEKEGIENRIKRHTMVASAIRAGLEALGLEIVARRPESYSNTVTGVILKVADPQKVLAGTVNEGVEFAPGVHPAFKYFRIGHMGWVTPNDAIIAISVIERTLRKLGEPIRFGEGVKAVEEVLFSA DKLLLHVGPTTIKEDVLVAGLENNVGFTSKEFVEALAYSLKGLRYVMGASKNYQPLIIPGGGTSAMESVTSLLKPNDKILVVSNGVFGDRWEQIFKRYPVNVKVLRPSPGDYVKPGEVEEEVRKSEYKLVALTHVETSTGVREPVKDVINKIRKYVELIVVDGVSSVGAEEVKAEEWNVDVYLTASQKALGSAAGLGLLLLSPKALSILDSQNSIAGYYLDLRNWLPVMRGAEEGKAAYFATPPVHVILQLAEAFRLIEKEGIENRIKRHTMVASAIRAGLEALGLEIVARRPESYSNTVTGVILKVADPQKVLAGTVNEGVEFAPGVHPAFKYFRIGHMGWVTPNDAIIAISVIERTLRKLGEPIRFGEGVKAVEEVLFSA 3zrt-a1-m1-cC_3zrt-a1-m1-cA Crystal structure of human PSD-95 PDZ1-2 P78352 P78352 3.398 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 197 GSMEYEEITLERGNSGLGFSIAGGTDNPHIGDDPSIFITKIIPGGAAAQDGRLRVNDSILFVNEVDVREVTHSAAVEALKEAGSIVRLYVMRRKPPAEKVMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGRLQIGDKILAVNSVGLEDVMHEDAVAALKNTYDVVYLKVAKP MHHHHHPRGSMEYEEITLERGNSGLGFSIAGGTDNPHIGDDPSIFITKIIPGGAAAQDGRLRVNDSILFVNEVDVREVTHSAAVEALKEAGSIVRLYVMRRKPPAEKVMEIKLIKGPKGLGFSIAGGVGNQHIPGDNSIYVTKIIEGGAAHKDGRLQIGDKILAVNSVGLEDVMHEDAVAALKNTYDVVYLKVAKPS 3zrw-a1-m1-cB_3zrw-a1-m1-cA The structure of the dimeric Hamp-Dhp fusion A291V mutant P0AEJ4 P0AEJ4 2.25 X-RAY DIFFRACTION 137 0.991 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 110 111 3zrv-a1-m1-cA_3zrv-a1-m1-cB 3zrw-a2-m1-cD_3zrw-a2-m1-cC 4cti-a1-m1-cC_4cti-a1-m1-cD 5b1o-a1-m1-cB_5b1o-a1-m1-cA STITRPIIELSNTVDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQQADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYL STITRPIIELSNTVDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKQLADDRTLLMAGVSHDLRTPLTRIRLATEMMSEQDGYLAESINKDIEECNAIIEQFIDYLR 3zs2-a1-m1-cB_3zs2-a1-m1-cJ TyrB25,NMePheB26,LysB28,ProB29-insulin analogue crystal structure P01308 P01308 1.97 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 28 FVNQHLCGSHLVEALYLVCGERGFYT FVNQHLCGSHLVEALYLVCGERGFYTKP 3zs2-a1-m1-cF_3zs2-a1-m1-cH TyrB25,NMePheB26,LysB28,ProB29-insulin analogue crystal structure P01308 P01308 1.97 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 26 3zs2-a1-m1-cD_3zs2-a1-m1-cB VNQHLCGSHLVEALYLVCGERGFY FVNQHLCGSHLVEALYLVCGERGFYT 3zs2-a1-m1-cL_3zs2-a1-m1-cJ TyrB25,NMePheB26,LysB28,ProB29-insulin analogue crystal structure P01308 P01308 1.97 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 28 FVNQHLCGSHLVEALYLVCGERGFY FVNQHLCGSHLVEALYLVCGERGFYTKP 3zs7-a1-m1-cA_3zs7-a1-m2-cA Crystal structure of pyridoxal kinase from Trypanosoma brucei O15927 O15927 2 X-RAY DIFFRACTION 120 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 277 277 MSEKTVLSIQSFVTHGYVGNKAATFPLQLHGFDVDGINTVCLSNHSGYPVIRGHRMSLQEYDELMEGVRANNFLSNYRYILTGYINNVDIIGRIRDTLKEVRELREKEDKKLTFICDPVMKEVLDAYRELVPLADIVTPNYFEASLLSGVTVNDLSSAILAADWFHNCGVAHVIIKSFRNPTHLRFLYSVKEGSEAAVRRFSGVVPYHEGRYTGTGDVFAACLLAFSHSHPMDVAIGKSMAVLQELIIATRKSRELRVVASPQVVLQPSTVVDVKPI MSEKTVLSIQSFVTHGYVGNKAATFPLQLHGFDVDGINTVCLSNHSGYPVIRGHRMSLQEYDELMEGVRANNFLSNYRYILTGYINNVDIIGRIRDTLKEVRELREKEDKKLTFICDPVMKEVLDAYRELVPLADIVTPNYFEASLLSGVTVNDLSSAILAADWFHNCGVAHVIIKSFRNPTHLRFLYSVKEGSEAAVRRFSGVVPYHEGRYTGTGDVFAACLLAFSHSHPMDVAIGKSMAVLQELIIATRKSRELRVVASPQVVLQPSTVVDVKPI 3zs8-a1-m1-cA_3zs8-a1-m1-cB S. cerevisiae Get3 complexed with a cytosolic Get1 fragment Q12154 Q12154 3 X-RAY DIFFRACTION 51 0.986 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 280 296 TVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDGIDEALSFMEVMKHIKRQEQETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE TVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMNLADLTGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 3zsc-a1-m2-cA_3zsc-a1-m3-cA Catalytic function and substrate recognition of the pectate lyase from Thermotoga maritima Q9WYR4 Q9WYR4 1.94 X-RAY DIFFRACTION 62 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 329 329 3zsc-a1-m1-cA_3zsc-a1-m2-cA 3zsc-a1-m1-cA_3zsc-a1-m3-cA DKPVGFASVPTADLPEGTVGGLGGEIVFVRTAEELEKYTTAEGKYVIVVDGTIVFEPKREIKVLSDKTIVGINDAKIVGGGLVIKDAQNVIIRNIHFEGFYMEDDPRGKKYDFDYINVENSHHIWIDHITFVNGNDGAVDIKKYSNYITVSWNKFVDHDKVSLVGSSDKEDPEQAGQAYKVTYHHNYFKNLIQRMPRIRFGMAHVFNNFYSMGLRTGVSGNVFPIYGVASAMGAKVHVEGNYFMGYGAVMAEAGIAFLPTRIMGPVEGYLTLGEGDAKNEFYYCKEPEVRPVEEGKPALDPREYYDYTLDPVQDVPKIVVDGAGAGKLV DKPVGFASVPTADLPEGTVGGLGGEIVFVRTAEELEKYTTAEGKYVIVVDGTIVFEPKREIKVLSDKTIVGINDAKIVGGGLVIKDAQNVIIRNIHFEGFYMEDDPRGKKYDFDYINVENSHHIWIDHITFVNGNDGAVDIKKYSNYITVSWNKFVDHDKVSLVGSSDKEDPEQAGQAYKVTYHHNYFKNLIQRMPRIRFGMAHVFNNFYSMGLRTGVSGNVFPIYGVASAMGAKVHVEGNYFMGYGAVMAEAGIAFLPTRIMGPVEGYLTLGEGDAKNEFYYCKEPEVRPVEEGKPALDPREYYDYTLDPVQDVPKIVVDGAGAGKLV 3zta-a1-m1-cA_3zta-a1-m2-cA The bacterial stressosome: a modular system that has been adapted to control secondary messenger signaling Q2RIF4 Q2RIF4 2.7 X-RAY DIFFRACTION 57 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 136 136 KAENIVEKAINLLSKEDQAGVHFNEISALTRDFCRAILSDLEQSGFTTSELEKEIADKVKIFAQGYHIEVLQLILEKILDSFISVIREQYHDLQAAASYITTVRDHIFKGTSFLLKALQTQREVIQKQNEALELST KAENIVEKAINLLSKEDQAGVHFNEISALTRDFCRAILSDLEQSGFTTSELEKEIADKVKIFAQGYHIEVLQLILEKILDSFISVIREQYHDLQAAASYITTVRDHIFKGTSFLLKALQTQREVIQKQNEALELST 3ztb-a1-m1-cA_3ztb-a1-m1-cB The bacterial stressosome: a modular system that has been adapted to control secondary messenger signaling Q2RIF5 Q2RIF5 2.8 X-RAY DIFFRACTION 30 0.982 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 113 113 RVPILKVDDYWVVAIEETLHDQSVIQFKEELLHNITGVAGKGLVIDISALEVVDFVTRVLIEISRLAELLGLPFVLTGIKPAVAITLTEMGLDLRGMATALNLQKGLDKLKNL PILKVDDYWVVAIEETLHDQSVIQFKEELLHNITGVAGKGLVIDISALEVVDFVTRVLIEISRLAELLGLPFVLTGIKPAVAITLTEMGLDLRGMATALNLQKGLDKLKNLAR 3ztg-a1-m1-cA_3ztg-a1-m1-cB Solution structure of the RING finger-like domain of Retinoblastoma Binding Protein-6 (RBBP6) Q7Z6E9 Q7Z6E9 NOT SOLUTION NMR 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 GPLGSEDDPIPDELLCLICKDIMTDAVVIPCCGNSYCDECIRTALLESDEHTCPTCHQNDVSPDALIANKFLRQAVNNFKNETGYTKRLRKQ GPLGSEDDPIPDELLCLICKDIMTDAVVIPCCGNSYCDECIRTALLESDEHTCPTCHQNDVSPDALIANKFLRQAVNNFKNETGYTKRLRKQ 3zth-a1-m1-cA_3zth-a1-m2-cB Crystal structure of Stu0660 of Streptococcus thermophilus Q5M539 Q5M539 2.4 X-RAY DIFFRACTION 148 1.0 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 339 339 3zth-a1-m1-cB_3zth-a1-m2-cA KFFVQHPYKERIELNIGAITQIVGQNNELKYYTWQILSWYFGGKKYSSEDLSIFDYEEPTILDEAREIVKRSSYHYIDISSFKDLLEQEYKKGTLAQGYLRKIVNQVDIVGHLEKINEQVELIEEANRHINLNCGQVEYHLENLPLTLDQLLTKNFSPFFAIENKNLSFEWVSNIDKLSLFLELDHLLSQTTEKYLIVLKNIDGFISEESYTIFYRQICHLVKKYPNLTFILFPSDQGYLKIDEENSRFVNILSDQVEHLYDVEFYERVKYYPSNDFPTREGFRSLETVTPYLLTKLRQPSLSLVDSVILNILNQLFHFSYRIRCSQTPDKELLQKFLE KFFVQHPYKERIELNIGAITQIVGQNNELKYYTWQILSWYFGGKKYSSEDLSIFDYEEPTILDEAREIVKRSSYHYIDISSFKDLLEQEYKKGTLAQGYLRKIVNQVDIVGHLEKINEQVELIEEANRHINLNCGQVEYHLENLPLTLDQLLTKNFSPFFAIENKNLSFEWVSNIDKLSLFLELDHLLSQTTEKYLIVLKNIDGFISEESYTIFYRQICHLVKKYPNLTFILFPSDQGYLKIDEENSRFVNILSDQVEHLYDVEFYERVKYYPSNDFPTREGFRSLETVTPYLLTKLRQPSLSLVDSVILNILNQLFHFSYRIRCSQTPDKELLQKFLE 3zth-a2-m1-cA_3zth-a2-m1-cB Crystal structure of Stu0660 of Streptococcus thermophilus Q5M539 Q5M539 2.4 X-RAY DIFFRACTION 192 1.0 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 339 339 3zth-a1-m1-cA_3zth-a1-m1-cB 3zth-a1-m2-cA_3zth-a1-m2-cB KFFVQHPYKERIELNIGAITQIVGQNNELKYYTWQILSWYFGGKKYSSEDLSIFDYEEPTILDEAREIVKRSSYHYIDISSFKDLLEQEYKKGTLAQGYLRKIVNQVDIVGHLEKINEQVELIEEANRHINLNCGQVEYHLENLPLTLDQLLTKNFSPFFAIENKNLSFEWVSNIDKLSLFLELDHLLSQTTEKYLIVLKNIDGFISEESYTIFYRQICHLVKKYPNLTFILFPSDQGYLKIDEENSRFVNILSDQVEHLYDVEFYERVKYYPSNDFPTREGFRSLETVTPYLLTKLRQPSLSLVDSVILNILNQLFHFSYRIRCSQTPDKELLQKFLE KFFVQHPYKERIELNIGAITQIVGQNNELKYYTWQILSWYFGGKKYSSEDLSIFDYEEPTILDEAREIVKRSSYHYIDISSFKDLLEQEYKKGTLAQGYLRKIVNQVDIVGHLEKINEQVELIEEANRHINLNCGQVEYHLENLPLTLDQLLTKNFSPFFAIENKNLSFEWVSNIDKLSLFLELDHLLSQTTEKYLIVLKNIDGFISEESYTIFYRQICHLVKKYPNLTFILFPSDQGYLKIDEENSRFVNILSDQVEHLYDVEFYERVKYYPSNDFPTREGFRSLETVTPYLLTKLRQPSLSLVDSVILNILNQLFHFSYRIRCSQTPDKELLQKFLE 3ztl-a1-m1-cC_3ztl-a1-m1-cB Crystal structure of decameric form of Peroxiredoxin I from Schistosoma mansoni O97161 O97161 3 X-RAY DIFFRACTION 55 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 182 183 3zl5-a1-m1-cA_3zl5-a1-m1-cJ 3zl5-a1-m1-cB_3zl5-a1-m1-cC 3zl5-a1-m1-cE_3zl5-a1-m1-cD 3zl5-a1-m1-cG_3zl5-a1-m1-cF 3zl5-a1-m1-cI_3zl5-a1-m1-cH 3zlp-a1-m1-cA_3zlp-a1-m1-cJ 3zlp-a1-m1-cB_3zlp-a1-m1-cC 3zlp-a1-m1-cE_3zlp-a1-m1-cD 3zlp-a1-m1-cG_3zlp-a1-m1-cF 3zlp-a1-m1-cI_3zlp-a1-m1-cH 3zlp-a2-m1-cK_3zlp-a2-m1-cT 3zlp-a2-m1-cL_3zlp-a2-m1-cM 3zlp-a2-m1-cO_3zlp-a2-m1-cN 3zlp-a2-m1-cQ_3zlp-a2-m1-cP 3zlp-a2-m1-cS_3zlp-a2-m1-cR 3zlp-a3-m1-ca_3zlp-a3-m1-cZ 3zlp-a3-m1-cc_3zlp-a3-m1-cb 3zlp-a3-m1-cU_3zlp-a3-m1-cd 3zlp-a3-m1-cV_3zlp-a3-m1-cW 3zlp-a3-m1-cY_3zlp-a3-m1-cX 3zlp-a4-m1-ce_3zlp-a4-m1-cn 3zlp-a4-m1-cf_3zlp-a4-m1-cg 3zlp-a4-m1-ci_3zlp-a4-m1-ch 3zlp-a4-m1-ck_3zlp-a4-m1-cj 3zlp-a4-m1-cm_3zlp-a4-m1-cl 3ztl-a1-m1-cA_3ztl-a1-m1-cJ 3ztl-a1-m1-cD_3ztl-a1-m1-cE 3ztl-a1-m1-cG_3ztl-a1-m1-cF 3ztl-a1-m1-cH_3ztl-a1-m1-cI 3zvj-a1-m1-cA_3zvj-a1-m1-cJ 3zvj-a1-m1-cB_3zvj-a1-m1-cC 3zvj-a1-m1-cF_3zvj-a1-m1-cG 3zvj-a1-m1-cI_3zvj-a1-m1-cH 3zvj-a1-m1-cK_3zvj-a1-m1-cT 3zvj-a1-m1-cL_3zvj-a1-m1-cM 3zvj-a1-m1-cN_3zvj-a1-m1-cO 3zvj-a1-m1-cQ_3zvj-a1-m1-cP 3zvj-a1-m1-cR_3zvj-a1-m1-cS MVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVCPVNWKRGQHGIKV MVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVCPVNWKRGQHGIKVN 3ztl-a1-m1-cD_3ztl-a1-m1-cC Crystal structure of decameric form of Peroxiredoxin I from Schistosoma mansoni O97161 O97161 3 X-RAY DIFFRACTION 147 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 172 182 3zl5-a1-m1-cA_3zl5-a1-m1-cB 3zl5-a1-m1-cD_3zl5-a1-m1-cC 3zl5-a1-m1-cE_3zl5-a1-m1-cF 3zl5-a1-m1-cG_3zl5-a1-m1-cH 3zl5-a1-m1-cI_3zl5-a1-m1-cJ 3zlp-a1-m1-cA_3zlp-a1-m1-cB 3zlp-a1-m1-cD_3zlp-a1-m1-cC 3zlp-a1-m1-cE_3zlp-a1-m1-cF 3zlp-a1-m1-cG_3zlp-a1-m1-cH 3zlp-a1-m1-cI_3zlp-a1-m1-cJ 3zlp-a2-m1-cK_3zlp-a2-m1-cL 3zlp-a2-m1-cN_3zlp-a2-m1-cM 3zlp-a2-m1-cO_3zlp-a2-m1-cP 3zlp-a2-m1-cQ_3zlp-a2-m1-cR 3zlp-a2-m1-cS_3zlp-a2-m1-cT 3zlp-a3-m1-ca_3zlp-a3-m1-cb 3zlp-a3-m1-cc_3zlp-a3-m1-cd 3zlp-a3-m1-cU_3zlp-a3-m1-cV 3zlp-a3-m1-cX_3zlp-a3-m1-cW 3zlp-a3-m1-cY_3zlp-a3-m1-cZ 3zlp-a4-m1-ce_3zlp-a4-m1-cf 3zlp-a4-m1-ch_3zlp-a4-m1-cg 3zlp-a4-m1-ci_3zlp-a4-m1-cj 3zlp-a4-m1-ck_3zlp-a4-m1-cl 3zlp-a4-m1-cm_3zlp-a4-m1-cn 3ztl-a1-m1-cA_3ztl-a1-m1-cB 3ztl-a1-m1-cE_3ztl-a1-m1-cF 3ztl-a1-m1-cH_3ztl-a1-m1-cG 3ztl-a1-m1-cI_3ztl-a1-m1-cJ 3zvj-a1-m1-cA_3zvj-a1-m1-cB 3zvj-a1-m1-cD_3zvj-a1-m1-cC 3zvj-a1-m1-cE_3zvj-a1-m1-cF 3zvj-a1-m1-cH_3zvj-a1-m1-cG 3zvj-a1-m1-cI_3zvj-a1-m1-cJ 3zvj-a1-m1-cK_3zvj-a1-m1-cL 3zvj-a1-m1-cN_3zvj-a1-m1-cM 3zvj-a1-m1-cO_3zvj-a1-m1-cP 3zvj-a1-m1-cQ_3zvj-a1-m1-cR 3zvj-a1-m1-cT_3zvj-a1-m1-cS VLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVCPVNW MVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVCPVNWKRGQHGIKV 3ztq-a2-m1-cG_3ztq-a2-m1-cH Hexagonal crystal form P61 of the Aquifex aeolicus nucleoside diphosphate kinase O67528 O67528 2.1 X-RAY DIFFRACTION 57 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 141 141 3zto-a1-m1-cA_3zto-a1-m4-cA 3zto-a1-m2-cA_3zto-a1-m3-cA 3ztp-a1-m1-cA_3ztp-a1-m2-cA 3ztp-a1-m1-cC_3ztp-a1-m2-cC 3ztq-a1-m1-cA_3ztq-a1-m1-cB 3ztq-a1-m1-cC_3ztq-a1-m1-cD 3ztq-a2-m1-cE_3ztq-a2-m1-cF 3ztr-a1-m1-cA_3ztr-a1-m1-cB 3ztr-a1-m1-cC_3ztr-a1-m1-cD 3ztr-a2-m1-cE_3ztr-a2-m1-cF 3ztr-a2-m1-cG_3ztr-a2-m1-cH 3ztr-a3-m1-cI_3ztr-a3-m1-cJ 3ztr-a3-m1-cK_3ztr-a3-m1-cL 3zts-a1-m1-cA_3zts-a1-m1-cB 3zts-a1-m1-cC_3zts-a1-m1-cD 3zts-a2-m1-cE_3zts-a2-m1-cF 3zts-a2-m1-cG_3zts-a2-m1-cH 3zts-a3-m1-cI_3zts-a3-m1-cJ 3zts-a3-m1-cK_3zts-a3-m1-cL AVERTLIIVKPDAMEKGALGKILDRFIQEGFQIKALKMFRFTPEKAGEFYYVHRERPFFQELVEFMSSGPVVAAVLEGEDAIKRVREIIGPTDSEEARKVAPNSIRAQFGTDKGKNAIHASDSPESAQYEICFIFSGLEIV AVERTLIIVKPDAMEKGALGKILDRFIQEGFQIKALKMFRFTPEKAGEFYYVHRERPFFQELVEFMSSGPVVAAVLEGEDAIKRVREIIGPTDSEEARKVAPNSIRAQFGTDKGKNAIHASDSPESAQYEICFIFSGLEIV 3zts-a3-m1-cI_3zts-a3-m1-cK Hexagonal form P6122 of the Aquifex aeolicus nucleoside diphosphate kinase (FINAL STAGE OF RADIATION DAMAGE) O67528 O67528 2.3 X-RAY DIFFRACTION 30 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 141 141 3zto-a1-m1-cA_3zto-a1-m2-cA 3zto-a1-m3-cA_3zto-a1-m4-cA 3ztp-a1-m1-cA_3ztp-a1-m1-cC 3ztp-a1-m2-cA_3ztp-a1-m2-cC 3ztq-a1-m1-cA_3ztq-a1-m1-cC 3ztq-a1-m1-cB_3ztq-a1-m1-cD 3ztq-a2-m1-cE_3ztq-a2-m1-cG 3ztq-a2-m1-cF_3ztq-a2-m1-cH 3ztr-a1-m1-cA_3ztr-a1-m1-cC 3ztr-a1-m1-cB_3ztr-a1-m1-cD 3ztr-a2-m1-cE_3ztr-a2-m1-cG 3ztr-a2-m1-cF_3ztr-a2-m1-cH 3ztr-a3-m1-cI_3ztr-a3-m1-cK 3ztr-a3-m1-cJ_3ztr-a3-m1-cL 3zts-a1-m1-cA_3zts-a1-m1-cC 3zts-a1-m1-cB_3zts-a1-m1-cD 3zts-a2-m1-cE_3zts-a2-m1-cG 3zts-a2-m1-cF_3zts-a2-m1-cH 3zts-a3-m1-cJ_3zts-a3-m1-cL AVERTLIIVKPDAMEKGALGKILDRFIQEGFQIKALKMFRFTPEKAGEFYYVHRERPFFQELVEFMSSGPVVAAVLEGEDAIKRVREIIGPTDSEEARKVAPNSIRAQFGTDKGKNAIHASDSPESAQYEICFIFSGLEIV AVERTLIIVKPDAMEKGALGKILDRFIQEGFQIKALKMFRFTPEKAGEFYYVHRERPFFQELVEFMSSGPVVAAVLEGEDAIKRVREIIGPTDSEEARKVAPNSIRAQFGTDKGKNAIHASDSPESAQYEICFIFSGLEIV 3ztv-a1-m1-cA_3ztv-a1-m2-cA Structure of Haemophilus influenzae NAD nucleotidase (NadN) P44569 P44569 1.3 X-RAY DIFFRACTION 70 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 565 565 3zu0-a1-m1-cB_3zu0-a1-m1-cA HKAVELSILHINDHHSYLEPHETRINLNGQQTKVDIGGFSAVNAKLNKLRKKYKNPLVLHAGDAITGTLYFTLFGGSADAAVMNAGNFHYFTLGNHEFDAGNEGLLKLLEPLKIPVLSANVIPDKSSILYNKWKPYDIFTVDGEKIAIIGLDTVNKTVNSSSPGKDVKFYDEIATAQIMANALKQQGINKIILLSHAGSEKNIEIAQKVNDIDVIVTGDSHYLYGNDELRSLKLPVIYEYPLEFKNPNGEPVFVMEGWAYSAVVGDLGVKFSPEGIASITRKIPHVLMSSHKLQVKNSEGKWAELTGDERKKALDTLKSMKSISLDDHDAKTDKLIAKYKSEKDRLAQEIVGVITGSAMPGGSANRIPNKAGSNPEGSIATRFIAETMYNELKTVDLTIQNAGGVRADILPGNVTFNDAYTFLPFGNTLYTYKMEGSLVKQVLEDAMQFALVDGSTGAFPYGAGIRYEANETPNAEGKRLVSVEVLNKTQQWEPIDDNKRYLVGTNAYVAGGKDGYKTFGKLFNDPKYEGVDTYLPDAESFIKFMKKHPHFEAYTSSNVKFNAST HKAVELSILHINDHHSYLEPHETRINLNGQQTKVDIGGFSAVNAKLNKLRKKYKNPLVLHAGDAITGTLYFTLFGGSADAAVMNAGNFHYFTLGNHEFDAGNEGLLKLLEPLKIPVLSANVIPDKSSILYNKWKPYDIFTVDGEKIAIIGLDTVNKTVNSSSPGKDVKFYDEIATAQIMANALKQQGINKIILLSHAGSEKNIEIAQKVNDIDVIVTGDSHYLYGNDELRSLKLPVIYEYPLEFKNPNGEPVFVMEGWAYSAVVGDLGVKFSPEGIASITRKIPHVLMSSHKLQVKNSEGKWAELTGDERKKALDTLKSMKSISLDDHDAKTDKLIAKYKSEKDRLAQEIVGVITGSAMPGGSANRIPNKAGSNPEGSIATRFIAETMYNELKTVDLTIQNAGGVRADILPGNVTFNDAYTFLPFGNTLYTYKMEGSLVKQVLEDAMQFALVDGSTGAFPYGAGIRYEANETPNAEGKRLVSVEVLNKTQQWEPIDDNKRYLVGTNAYVAGGKDGYKTFGKLFNDPKYEGVDTYLPDAESFIKFMKKHPHFEAYTSSNVKFNAST 3zu2-a1-m1-cA_3zu2-a1-m2-cA Structure of the enoyl-ACP reductase FabV from Yersinia pestis with the cofactor NADH (SIRAS) Q8Z9U1 Q8Z9U1 2.1 X-RAY DIFFRACTION 54 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 415 415 4bkq-a1-m1-cA_4bkq-a1-m2-cA HHHSSGLVPRGSHMLEMIIKPRVRGFICVTAHPTGCEANVKKQIDYVTTEGPIANGPKRVLVIGASTGYGLAARITAAFGCGADTLGVFFERPGEEGKPGTSGWYNSAAFHKFAAQKGLYAKSINGDAFSDEIKQLTIDAIKQDLGQVDQVIYSLASPRRTHPKTGEVFNSALKPIGNAVNLRGLDTDKEVIKESVLQPATQSEIDSTVAVMGGEDWQMWIDALLDAGVLAEGAQTTAFTYLGEKITHDIYWNGSIGAAKKDLDQKVLAIRESLAAHGGGDARVSVLKAVVSQASSAIPMMPLYLSLLFKVMKEKGTHEGCIEQVYSLYKDSLCGDSPHMDQEGRLRADYKELDPEVQNQVQQLWDQVTNDNIYQLTDFVGYKSEFLNLFGFGIDGVDYDADVNPDVKIPNLIQG HHHSSGLVPRGSHMLEMIIKPRVRGFICVTAHPTGCEANVKKQIDYVTTEGPIANGPKRVLVIGASTGYGLAARITAAFGCGADTLGVFFERPGEEGKPGTSGWYNSAAFHKFAAQKGLYAKSINGDAFSDEIKQLTIDAIKQDLGQVDQVIYSLASPRRTHPKTGEVFNSALKPIGNAVNLRGLDTDKEVIKESVLQPATQSEIDSTVAVMGGEDWQMWIDALLDAGVLAEGAQTTAFTYLGEKITHDIYWNGSIGAAKKDLDQKVLAIRESLAAHGGGDARVSVLKAVVSQASSAIPMMPLYLSLLFKVMKEKGTHEGCIEQVYSLYKDSLCGDSPHMDQEGRLRADYKELDPEVQNQVQQLWDQVTNDNIYQLTDFVGYKSEFLNLFGFGIDGVDYDADVNPDVKIPNLIQG 3zu6-a1-m1-cA_3zu6-a1-m1-cB The 3-dimensional structure of MpgP from Thermus thermophilus HB27, in complex with the alpha-mannosylglycerate and orthophosphate reaction products. Q72K29 Q72K29 1.9 X-RAY DIFFRACTION 47 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 250 252 3ztw-a1-m1-cB_3ztw-a1-m1-cA 3zty-a1-m1-cA_3zty-a1-m1-cB 3zup-a1-m1-cA_3zup-a1-m1-cB 3zw7-a1-m1-cA_3zw7-a1-m1-cB 3zwd-a1-m1-cA_3zwd-a1-m1-cB 3zwk-a1-m1-cA_3zwk-a1-m1-cB 3zx4-a1-m1-cA_3zx4-a1-m1-cB 3zx5-a1-m1-cA_3zx5-a1-m1-cB MIVFTDLDGTLLDERGELGPAREALERLRALGVPVVPVTAKTRKEVEALGLEPPFIVENGGGLYLPRDWPVRAGRPKGGYRVVSLAWPYRKVRARLREAEALAGRPILGYGDLTAEAVARLTGLSREAARRAKAREYDETLVLCPEEVEAVLEALEAVGLEWTHGGRFYHAAKGADKGRAVARLRALWPDPEEARFAVGLGDSLNDLPLFRAVDLAVYVGRGDPPEGVLATPAPGPEGFRYAVERYLLPR MIVFTDLDGTLLDERGELGPAREALERLRALGVPVVPVTAKTRKEVEALGLEPPFIVENGGGLYLPRDWPVRAGRPKGGYRVVSLAWPYRKVRARLREAEALAGRPILGYGDLTAEAVARLTGLSREAARRAKAREYDETLVLCPEEVEAVLEALEAVGLEWTHGGRFYHAAKGADKGRAVARLRALWPDPEEARFAVGLGDSLNDLPLFRAVDLAVYVGRGDPPEGVLATPAPGPEGFRYAVERYLLPRLS 3zue-a1-m10-cB_3zue-a1-m9-cC Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 77 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 543 547 3j1p-a1-m10-cB_3j1p-a1-m10-cC 3j1p-a1-m11-cB_3j1p-a1-m11-cC 3j1p-a1-m12-cB_3j1p-a1-m12-cC 3j1p-a1-m13-cB_3j1p-a1-m13-cC 3j1p-a1-m14-cB_3j1p-a1-m14-cC 3j1p-a1-m15-cB_3j1p-a1-m15-cC 3j1p-a1-m16-cB_3j1p-a1-m16-cC 3j1p-a1-m17-cB_3j1p-a1-m17-cC 3j1p-a1-m18-cB_3j1p-a1-m18-cC 3j1p-a1-m19-cB_3j1p-a1-m19-cC 3j1p-a1-m1-cB_3j1p-a1-m1-cC 3j1p-a1-m20-cB_3j1p-a1-m20-cC 3j1p-a1-m21-cB_3j1p-a1-m21-cC 3j1p-a1-m22-cB_3j1p-a1-m22-cC 3j1p-a1-m23-cB_3j1p-a1-m23-cC 3j1p-a1-m24-cB_3j1p-a1-m24-cC 3j1p-a1-m25-cB_3j1p-a1-m25-cC 3j1p-a1-m26-cB_3j1p-a1-m26-cC 3j1p-a1-m27-cB_3j1p-a1-m27-cC 3j1p-a1-m28-cB_3j1p-a1-m28-cC 3j1p-a1-m29-cB_3j1p-a1-m29-cC 3j1p-a1-m2-cB_3j1p-a1-m2-cC 3j1p-a1-m30-cB_3j1p-a1-m30-cC 3j1p-a1-m31-cB_3j1p-a1-m31-cC 3j1p-a1-m32-cB_3j1p-a1-m32-cC 3j1p-a1-m33-cB_3j1p-a1-m33-cC 3j1p-a1-m34-cB_3j1p-a1-m34-cC 3j1p-a1-m35-cB_3j1p-a1-m35-cC 3j1p-a1-m36-cB_3j1p-a1-m36-cC 3j1p-a1-m37-cB_3j1p-a1-m37-cC 3j1p-a1-m38-cB_3j1p-a1-m38-cC 3j1p-a1-m39-cB_3j1p-a1-m39-cC 3j1p-a1-m3-cB_3j1p-a1-m3-cC 3j1p-a1-m40-cB_3j1p-a1-m40-cC 3j1p-a1-m41-cB_3j1p-a1-m41-cC 3j1p-a1-m42-cB_3j1p-a1-m42-cC 3j1p-a1-m43-cB_3j1p-a1-m43-cC 3j1p-a1-m44-cB_3j1p-a1-m44-cC 3j1p-a1-m45-cB_3j1p-a1-m45-cC 3j1p-a1-m46-cB_3j1p-a1-m46-cC 3j1p-a1-m47-cB_3j1p-a1-m47-cC 3j1p-a1-m48-cB_3j1p-a1-m48-cC 3j1p-a1-m49-cB_3j1p-a1-m49-cC 3j1p-a1-m4-cB_3j1p-a1-m4-cC 3j1p-a1-m50-cB_3j1p-a1-m50-cC 3j1p-a1-m51-cB_3j1p-a1-m51-cC 3j1p-a1-m52-cB_3j1p-a1-m52-cC 3j1p-a1-m53-cB_3j1p-a1-m53-cC 3j1p-a1-m54-cB_3j1p-a1-m54-cC 3j1p-a1-m55-cB_3j1p-a1-m55-cC 3j1p-a1-m56-cB_3j1p-a1-m56-cC 3j1p-a1-m57-cB_3j1p-a1-m57-cC 3j1p-a1-m58-cB_3j1p-a1-m58-cC 3j1p-a1-m59-cB_3j1p-a1-m59-cC 3j1p-a1-m5-cB_3j1p-a1-m5-cC 3j1p-a1-m60-cB_3j1p-a1-m60-cC 3j1p-a1-m6-cB_3j1p-a1-m6-cC 3j1p-a1-m7-cB_3j1p-a1-m7-cC 3j1p-a1-m8-cB_3j1p-a1-m8-cC 3j1p-a1-m9-cB_3j1p-a1-m9-cC 3zue-a1-m11-cB_3zue-a1-m15-cC 3zue-a1-m12-cB_3zue-a1-m11-cC 3zue-a1-m13-cB_3zue-a1-m12-cC 3zue-a1-m14-cB_3zue-a1-m13-cC 3zue-a1-m15-cB_3zue-a1-m14-cC 3zue-a1-m16-cB_3zue-a1-m20-cC 3zue-a1-m17-cB_3zue-a1-m16-cC 3zue-a1-m18-cB_3zue-a1-m17-cC 3zue-a1-m19-cB_3zue-a1-m18-cC 3zue-a1-m1-cB_3zue-a1-m5-cC 3zue-a1-m20-cB_3zue-a1-m19-cC 3zue-a1-m21-cB_3zue-a1-m25-cC 3zue-a1-m22-cB_3zue-a1-m21-cC 3zue-a1-m23-cB_3zue-a1-m22-cC 3zue-a1-m24-cB_3zue-a1-m23-cC 3zue-a1-m25-cB_3zue-a1-m24-cC 3zue-a1-m26-cB_3zue-a1-m30-cC 3zue-a1-m27-cB_3zue-a1-m26-cC 3zue-a1-m28-cB_3zue-a1-m27-cC 3zue-a1-m29-cB_3zue-a1-m28-cC 3zue-a1-m2-cB_3zue-a1-m1-cC 3zue-a1-m30-cB_3zue-a1-m29-cC 3zue-a1-m31-cB_3zue-a1-m35-cC 3zue-a1-m32-cB_3zue-a1-m31-cC 3zue-a1-m33-cB_3zue-a1-m32-cC 3zue-a1-m34-cB_3zue-a1-m33-cC 3zue-a1-m35-cB_3zue-a1-m34-cC 3zue-a1-m36-cB_3zue-a1-m40-cC 3zue-a1-m37-cB_3zue-a1-m36-cC 3zue-a1-m38-cB_3zue-a1-m37-cC 3zue-a1-m39-cB_3zue-a1-m38-cC 3zue-a1-m3-cB_3zue-a1-m2-cC 3zue-a1-m40-cB_3zue-a1-m39-cC 3zue-a1-m41-cB_3zue-a1-m45-cC 3zue-a1-m42-cB_3zue-a1-m41-cC 3zue-a1-m43-cB_3zue-a1-m42-cC 3zue-a1-m44-cB_3zue-a1-m43-cC 3zue-a1-m45-cB_3zue-a1-m44-cC 3zue-a1-m46-cB_3zue-a1-m50-cC 3zue-a1-m47-cB_3zue-a1-m46-cC 3zue-a1-m48-cB_3zue-a1-m47-cC 3zue-a1-m49-cB_3zue-a1-m48-cC 3zue-a1-m4-cB_3zue-a1-m3-cC 3zue-a1-m50-cB_3zue-a1-m49-cC 3zue-a1-m51-cB_3zue-a1-m55-cC 3zue-a1-m52-cB_3zue-a1-m51-cC 3zue-a1-m53-cB_3zue-a1-m52-cC 3zue-a1-m54-cB_3zue-a1-m53-cC 3zue-a1-m55-cB_3zue-a1-m54-cC 3zue-a1-m56-cB_3zue-a1-m60-cC 3zue-a1-m57-cB_3zue-a1-m56-cC 3zue-a1-m58-cB_3zue-a1-m57-cC 3zue-a1-m59-cB_3zue-a1-m58-cC 3zue-a1-m5-cB_3zue-a1-m4-cC 3zue-a1-m60-cB_3zue-a1-m59-cC 3zue-a1-m6-cB_3zue-a1-m10-cC 3zue-a1-m7-cB_3zue-a1-m6-cC 3zue-a1-m8-cB_3zue-a1-m7-cC 3zue-a1-m9-cB_3zue-a1-m8-cC LDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zue-a1-m23-cA_3zue-a1-m9-cC Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 16 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 547 547 3zue-a1-m10-cA_3zue-a1-m5-cC 3zue-a1-m10-cB_3zue-a1-m6-cB 3zue-a1-m10-cB_3zue-a1-m9-cB 3zue-a1-m10-cC_3zue-a1-m5-cA 3zue-a1-m11-cA_3zue-a1-m37-cC 3zue-a1-m11-cB_3zue-a1-m12-cB 3zue-a1-m11-cB_3zue-a1-m15-cB 3zue-a1-m11-cC_3zue-a1-m37-cA 3zue-a1-m12-cA_3zue-a1-m46-cC 3zue-a1-m12-cB_3zue-a1-m13-cB 3zue-a1-m12-cC_3zue-a1-m46-cA 3zue-a1-m13-cA_3zue-a1-m44-cC 3zue-a1-m13-cB_3zue-a1-m14-cB 3zue-a1-m13-cC_3zue-a1-m44-cA 3zue-a1-m14-cA_3zue-a1-m28-cC 3zue-a1-m14-cB_3zue-a1-m15-cB 3zue-a1-m14-cC_3zue-a1-m28-cA 3zue-a1-m15-cA_3zue-a1-m20-cC 3zue-a1-m15-cC_3zue-a1-m20-cA 3zue-a1-m16-cA_3zue-a1-m27-cC 3zue-a1-m16-cB_3zue-a1-m17-cB 3zue-a1-m16-cB_3zue-a1-m20-cB 3zue-a1-m16-cC_3zue-a1-m27-cA 3zue-a1-m17-cA_3zue-a1-m51-cC 3zue-a1-m17-cB_3zue-a1-m18-cB 3zue-a1-m17-cC_3zue-a1-m51-cA 3zue-a1-m18-cA_3zue-a1-m59-cC 3zue-a1-m18-cB_3zue-a1-m19-cB 3zue-a1-m18-cC_3zue-a1-m59-cA 3zue-a1-m19-cA_3zue-a1-m38-cC 3zue-a1-m19-cB_3zue-a1-m20-cB 3zue-a1-m19-cC_3zue-a1-m38-cA 3zue-a1-m1-cA_3zue-a1-m22-cC 3zue-a1-m1-cB_3zue-a1-m2-cB 3zue-a1-m1-cB_3zue-a1-m5-cB 3zue-a1-m1-cC_3zue-a1-m22-cA 3zue-a1-m21-cA_3zue-a1-m42-cC 3zue-a1-m21-cB_3zue-a1-m22-cB 3zue-a1-m21-cB_3zue-a1-m25-cB 3zue-a1-m21-cC_3zue-a1-m42-cA 3zue-a1-m22-cB_3zue-a1-m23-cB 3zue-a1-m23-cB_3zue-a1-m24-cB 3zue-a1-m23-cC_3zue-a1-m9-cA 3zue-a1-m24-cA_3zue-a1-m53-cC 3zue-a1-m24-cB_3zue-a1-m25-cB 3zue-a1-m24-cC_3zue-a1-m53-cA 3zue-a1-m25-cA_3zue-a1-m30-cC 3zue-a1-m25-cC_3zue-a1-m30-cA 3zue-a1-m26-cA_3zue-a1-m52-cC 3zue-a1-m26-cB_3zue-a1-m27-cB 3zue-a1-m26-cB_3zue-a1-m30-cB 3zue-a1-m26-cC_3zue-a1-m52-cA 3zue-a1-m27-cB_3zue-a1-m28-cB 3zue-a1-m28-cB_3zue-a1-m29-cB 3zue-a1-m29-cA_3zue-a1-m43-cC 3zue-a1-m29-cB_3zue-a1-m30-cB 3zue-a1-m29-cC_3zue-a1-m43-cA 3zue-a1-m2-cA_3zue-a1-m41-cC 3zue-a1-m2-cB_3zue-a1-m3-cB 3zue-a1-m2-cC_3zue-a1-m41-cA 3zue-a1-m31-cA_3zue-a1-m57-cC 3zue-a1-m31-cB_3zue-a1-m32-cB 3zue-a1-m31-cB_3zue-a1-m35-cB 3zue-a1-m31-cC_3zue-a1-m57-cA 3zue-a1-m32-cA_3zue-a1-m6-cC 3zue-a1-m32-cB_3zue-a1-m33-cB 3zue-a1-m32-cC_3zue-a1-m6-cA 3zue-a1-m33-cA_3zue-a1-m4-cC 3zue-a1-m33-cB_3zue-a1-m34-cB 3zue-a1-m33-cC_3zue-a1-m4-cA 3zue-a1-m34-cA_3zue-a1-m48-cC 3zue-a1-m34-cB_3zue-a1-m35-cB 3zue-a1-m34-cC_3zue-a1-m48-cA 3zue-a1-m35-cA_3zue-a1-m40-cC 3zue-a1-m35-cC_3zue-a1-m40-cA 3zue-a1-m36-cA_3zue-a1-m47-cC 3zue-a1-m36-cB_3zue-a1-m37-cB 3zue-a1-m36-cB_3zue-a1-m40-cB 3zue-a1-m36-cC_3zue-a1-m47-cA 3zue-a1-m37-cB_3zue-a1-m38-cB 3zue-a1-m38-cB_3zue-a1-m39-cB 3zue-a1-m39-cA_3zue-a1-m58-cC 3zue-a1-m39-cB_3zue-a1-m40-cB 3zue-a1-m39-cC_3zue-a1-m58-cA 3zue-a1-m3-cA_3zue-a1-m49-cC 3zue-a1-m3-cB_3zue-a1-m4-cB 3zue-a1-m3-cC_3zue-a1-m49-cA 3zue-a1-m41-cB_3zue-a1-m42-cB 3zue-a1-m41-cB_3zue-a1-m45-cB 3zue-a1-m42-cB_3zue-a1-m43-cB 3zue-a1-m43-cB_3zue-a1-m44-cB 3zue-a1-m44-cB_3zue-a1-m45-cB 3zue-a1-m45-cA_3zue-a1-m50-cC 3zue-a1-m45-cC_3zue-a1-m50-cA 3zue-a1-m46-cB_3zue-a1-m47-cB 3zue-a1-m46-cB_3zue-a1-m50-cB 3zue-a1-m47-cB_3zue-a1-m48-cB 3zue-a1-m48-cB_3zue-a1-m49-cB 3zue-a1-m49-cB_3zue-a1-m50-cB 3zue-a1-m4-cB_3zue-a1-m5-cB 3zue-a1-m51-cB_3zue-a1-m52-cB 3zue-a1-m51-cB_3zue-a1-m55-cB 3zue-a1-m52-cB_3zue-a1-m53-cB 3zue-a1-m53-cB_3zue-a1-m54-cB 3zue-a1-m54-cA_3zue-a1-m8-cC 3zue-a1-m54-cB_3zue-a1-m55-cB 3zue-a1-m54-cC_3zue-a1-m8-cA 3zue-a1-m55-cA_3zue-a1-m60-cC 3zue-a1-m55-cC_3zue-a1-m60-cA 3zue-a1-m56-cA_3zue-a1-m7-cC 3zue-a1-m56-cB_3zue-a1-m57-cB 3zue-a1-m56-cB_3zue-a1-m60-cB 3zue-a1-m56-cC_3zue-a1-m7-cA 3zue-a1-m57-cB_3zue-a1-m58-cB 3zue-a1-m58-cB_3zue-a1-m59-cB 3zue-a1-m59-cB_3zue-a1-m60-cB 3zue-a1-m6-cB_3zue-a1-m7-cB 3zue-a1-m7-cB_3zue-a1-m8-cB 3zue-a1-m8-cB_3zue-a1-m9-cB TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zue-a1-m8-cA_3zue-a1-m9-cA Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 46 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 547 547 3zue-a1-m10-cA_3zue-a1-m6-cA 3zue-a1-m10-cA_3zue-a1-m9-cA 3zue-a1-m10-cB_3zue-a1-m10-cC 3zue-a1-m10-cB_3zue-a1-m23-cC 3zue-a1-m11-cA_3zue-a1-m12-cA 3zue-a1-m11-cA_3zue-a1-m15-cA 3zue-a1-m11-cB_3zue-a1-m11-cC 3zue-a1-m11-cB_3zue-a1-m20-cC 3zue-a1-m12-cA_3zue-a1-m13-cA 3zue-a1-m12-cB_3zue-a1-m12-cC 3zue-a1-m12-cB_3zue-a1-m37-cC 3zue-a1-m13-cA_3zue-a1-m14-cA 3zue-a1-m13-cB_3zue-a1-m13-cC 3zue-a1-m13-cB_3zue-a1-m46-cC 3zue-a1-m14-cA_3zue-a1-m15-cA 3zue-a1-m14-cB_3zue-a1-m14-cC 3zue-a1-m14-cB_3zue-a1-m44-cC 3zue-a1-m15-cB_3zue-a1-m15-cC 3zue-a1-m15-cB_3zue-a1-m28-cC 3zue-a1-m16-cA_3zue-a1-m17-cA 3zue-a1-m16-cA_3zue-a1-m20-cA 3zue-a1-m16-cB_3zue-a1-m15-cC 3zue-a1-m16-cB_3zue-a1-m16-cC 3zue-a1-m17-cA_3zue-a1-m18-cA 3zue-a1-m17-cB_3zue-a1-m17-cC 3zue-a1-m17-cB_3zue-a1-m27-cC 3zue-a1-m18-cA_3zue-a1-m19-cA 3zue-a1-m18-cB_3zue-a1-m18-cC 3zue-a1-m18-cB_3zue-a1-m51-cC 3zue-a1-m19-cA_3zue-a1-m20-cA 3zue-a1-m19-cB_3zue-a1-m19-cC 3zue-a1-m19-cB_3zue-a1-m59-cC 3zue-a1-m1-cA_3zue-a1-m2-cA 3zue-a1-m1-cA_3zue-a1-m5-cA 3zue-a1-m1-cB_3zue-a1-m10-cC 3zue-a1-m1-cB_3zue-a1-m1-cC 3zue-a1-m20-cB_3zue-a1-m20-cC 3zue-a1-m20-cB_3zue-a1-m38-cC 3zue-a1-m21-cA_3zue-a1-m22-cA 3zue-a1-m21-cA_3zue-a1-m25-cA 3zue-a1-m21-cB_3zue-a1-m21-cC 3zue-a1-m21-cB_3zue-a1-m30-cC 3zue-a1-m22-cA_3zue-a1-m23-cA 3zue-a1-m22-cB_3zue-a1-m22-cC 3zue-a1-m22-cB_3zue-a1-m42-cC 3zue-a1-m23-cA_3zue-a1-m24-cA 3zue-a1-m23-cB_3zue-a1-m1-cC 3zue-a1-m23-cB_3zue-a1-m23-cC 3zue-a1-m24-cA_3zue-a1-m25-cA 3zue-a1-m24-cB_3zue-a1-m24-cC 3zue-a1-m24-cB_3zue-a1-m9-cC 3zue-a1-m25-cB_3zue-a1-m25-cC 3zue-a1-m25-cB_3zue-a1-m53-cC 3zue-a1-m26-cA_3zue-a1-m27-cA 3zue-a1-m26-cA_3zue-a1-m30-cA 3zue-a1-m26-cB_3zue-a1-m25-cC 3zue-a1-m26-cB_3zue-a1-m26-cC 3zue-a1-m27-cA_3zue-a1-m28-cA 3zue-a1-m27-cB_3zue-a1-m27-cC 3zue-a1-m27-cB_3zue-a1-m52-cC 3zue-a1-m28-cA_3zue-a1-m29-cA 3zue-a1-m28-cB_3zue-a1-m16-cC 3zue-a1-m28-cB_3zue-a1-m28-cC 3zue-a1-m29-cA_3zue-a1-m30-cA 3zue-a1-m29-cB_3zue-a1-m14-cC 3zue-a1-m29-cB_3zue-a1-m29-cC 3zue-a1-m2-cA_3zue-a1-m3-cA 3zue-a1-m2-cB_3zue-a1-m22-cC 3zue-a1-m2-cB_3zue-a1-m2-cC 3zue-a1-m30-cB_3zue-a1-m30-cC 3zue-a1-m30-cB_3zue-a1-m43-cC 3zue-a1-m31-cA_3zue-a1-m32-cA 3zue-a1-m31-cA_3zue-a1-m35-cA 3zue-a1-m31-cB_3zue-a1-m31-cC 3zue-a1-m31-cB_3zue-a1-m40-cC 3zue-a1-m32-cA_3zue-a1-m33-cA 3zue-a1-m32-cB_3zue-a1-m32-cC 3zue-a1-m32-cB_3zue-a1-m57-cC 3zue-a1-m33-cA_3zue-a1-m34-cA 3zue-a1-m33-cB_3zue-a1-m33-cC 3zue-a1-m33-cB_3zue-a1-m6-cC 3zue-a1-m34-cA_3zue-a1-m35-cA 3zue-a1-m34-cB_3zue-a1-m34-cC 3zue-a1-m34-cB_3zue-a1-m4-cC 3zue-a1-m35-cB_3zue-a1-m35-cC 3zue-a1-m35-cB_3zue-a1-m48-cC 3zue-a1-m36-cA_3zue-a1-m37-cA 3zue-a1-m36-cA_3zue-a1-m40-cA 3zue-a1-m36-cB_3zue-a1-m35-cC 3zue-a1-m36-cB_3zue-a1-m36-cC 3zue-a1-m37-cA_3zue-a1-m38-cA 3zue-a1-m37-cB_3zue-a1-m37-cC 3zue-a1-m37-cB_3zue-a1-m47-cC 3zue-a1-m38-cA_3zue-a1-m39-cA 3zue-a1-m38-cB_3zue-a1-m11-cC 3zue-a1-m38-cB_3zue-a1-m38-cC 3zue-a1-m39-cA_3zue-a1-m40-cA 3zue-a1-m39-cB_3zue-a1-m19-cC 3zue-a1-m39-cB_3zue-a1-m39-cC 3zue-a1-m3-cA_3zue-a1-m4-cA 3zue-a1-m3-cB_3zue-a1-m3-cC 3zue-a1-m3-cB_3zue-a1-m41-cC 3zue-a1-m40-cB_3zue-a1-m40-cC 3zue-a1-m40-cB_3zue-a1-m58-cC 3zue-a1-m41-cA_3zue-a1-m42-cA 3zue-a1-m41-cA_3zue-a1-m45-cA 3zue-a1-m41-cB_3zue-a1-m41-cC 3zue-a1-m41-cB_3zue-a1-m50-cC 3zue-a1-m42-cA_3zue-a1-m43-cA 3zue-a1-m42-cB_3zue-a1-m2-cC 3zue-a1-m42-cB_3zue-a1-m42-cC 3zue-a1-m43-cA_3zue-a1-m44-cA 3zue-a1-m43-cB_3zue-a1-m21-cC 3zue-a1-m43-cB_3zue-a1-m43-cC 3zue-a1-m44-cA_3zue-a1-m45-cA 3zue-a1-m44-cB_3zue-a1-m29-cC 3zue-a1-m44-cB_3zue-a1-m44-cC 3zue-a1-m45-cB_3zue-a1-m13-cC 3zue-a1-m45-cB_3zue-a1-m45-cC 3zue-a1-m46-cA_3zue-a1-m47-cA 3zue-a1-m46-cA_3zue-a1-m50-cA 3zue-a1-m46-cB_3zue-a1-m45-cC 3zue-a1-m46-cB_3zue-a1-m46-cC 3zue-a1-m47-cA_3zue-a1-m48-cA 3zue-a1-m47-cB_3zue-a1-m12-cC 3zue-a1-m47-cB_3zue-a1-m47-cC 3zue-a1-m48-cA_3zue-a1-m49-cA 3zue-a1-m48-cB_3zue-a1-m36-cC 3zue-a1-m48-cB_3zue-a1-m48-cC 3zue-a1-m49-cA_3zue-a1-m50-cA 3zue-a1-m49-cB_3zue-a1-m34-cC 3zue-a1-m49-cB_3zue-a1-m49-cC 3zue-a1-m4-cA_3zue-a1-m5-cA 3zue-a1-m4-cB_3zue-a1-m49-cC 3zue-a1-m4-cB_3zue-a1-m4-cC 3zue-a1-m50-cB_3zue-a1-m3-cC 3zue-a1-m50-cB_3zue-a1-m50-cC 3zue-a1-m51-cA_3zue-a1-m52-cA 3zue-a1-m51-cA_3zue-a1-m55-cA 3zue-a1-m51-cB_3zue-a1-m51-cC 3zue-a1-m51-cB_3zue-a1-m60-cC 3zue-a1-m52-cA_3zue-a1-m53-cA 3zue-a1-m52-cB_3zue-a1-m17-cC 3zue-a1-m52-cB_3zue-a1-m52-cC 3zue-a1-m53-cA_3zue-a1-m54-cA 3zue-a1-m53-cB_3zue-a1-m26-cC 3zue-a1-m53-cB_3zue-a1-m53-cC 3zue-a1-m54-cA_3zue-a1-m55-cA 3zue-a1-m54-cB_3zue-a1-m24-cC 3zue-a1-m54-cB_3zue-a1-m54-cC 3zue-a1-m55-cB_3zue-a1-m55-cC 3zue-a1-m55-cB_3zue-a1-m8-cC 3zue-a1-m56-cA_3zue-a1-m57-cA 3zue-a1-m56-cA_3zue-a1-m60-cA 3zue-a1-m56-cB_3zue-a1-m55-cC 3zue-a1-m56-cB_3zue-a1-m56-cC 3zue-a1-m57-cA_3zue-a1-m58-cA 3zue-a1-m57-cB_3zue-a1-m57-cC 3zue-a1-m57-cB_3zue-a1-m7-cC 3zue-a1-m58-cA_3zue-a1-m59-cA 3zue-a1-m58-cB_3zue-a1-m31-cC 3zue-a1-m58-cB_3zue-a1-m58-cC 3zue-a1-m59-cA_3zue-a1-m60-cA 3zue-a1-m59-cB_3zue-a1-m39-cC 3zue-a1-m59-cB_3zue-a1-m59-cC 3zue-a1-m5-cB_3zue-a1-m33-cC 3zue-a1-m5-cB_3zue-a1-m5-cC 3zue-a1-m60-cB_3zue-a1-m18-cC 3zue-a1-m60-cB_3zue-a1-m60-cC 3zue-a1-m6-cA_3zue-a1-m7-cA 3zue-a1-m6-cB_3zue-a1-m5-cC 3zue-a1-m6-cB_3zue-a1-m6-cC 3zue-a1-m7-cA_3zue-a1-m8-cA 3zue-a1-m7-cB_3zue-a1-m32-cC 3zue-a1-m7-cB_3zue-a1-m7-cC 3zue-a1-m8-cB_3zue-a1-m56-cC 3zue-a1-m8-cB_3zue-a1-m8-cC 3zue-a1-m9-cB_3zue-a1-m54-cC 3zue-a1-m9-cB_3zue-a1-m9-cC TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zue-a1-m9-cA_3zue-a1-m9-cC Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 58 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 547 547 3j1p-a1-m10-cA_3j1p-a1-m10-cC 3j1p-a1-m11-cA_3j1p-a1-m11-cC 3j1p-a1-m12-cA_3j1p-a1-m12-cC 3j1p-a1-m13-cA_3j1p-a1-m13-cC 3j1p-a1-m14-cA_3j1p-a1-m14-cC 3j1p-a1-m15-cA_3j1p-a1-m15-cC 3j1p-a1-m16-cA_3j1p-a1-m16-cC 3j1p-a1-m17-cA_3j1p-a1-m17-cC 3j1p-a1-m18-cA_3j1p-a1-m18-cC 3j1p-a1-m19-cA_3j1p-a1-m19-cC 3j1p-a1-m1-cA_3j1p-a1-m1-cC 3j1p-a1-m20-cA_3j1p-a1-m20-cC 3j1p-a1-m21-cA_3j1p-a1-m21-cC 3j1p-a1-m22-cA_3j1p-a1-m22-cC 3j1p-a1-m23-cA_3j1p-a1-m23-cC 3j1p-a1-m24-cA_3j1p-a1-m24-cC 3j1p-a1-m25-cA_3j1p-a1-m25-cC 3j1p-a1-m26-cA_3j1p-a1-m26-cC 3j1p-a1-m27-cA_3j1p-a1-m27-cC 3j1p-a1-m28-cA_3j1p-a1-m28-cC 3j1p-a1-m29-cA_3j1p-a1-m29-cC 3j1p-a1-m2-cA_3j1p-a1-m2-cC 3j1p-a1-m30-cA_3j1p-a1-m30-cC 3j1p-a1-m31-cA_3j1p-a1-m31-cC 3j1p-a1-m32-cA_3j1p-a1-m32-cC 3j1p-a1-m33-cA_3j1p-a1-m33-cC 3j1p-a1-m34-cA_3j1p-a1-m34-cC 3j1p-a1-m35-cA_3j1p-a1-m35-cC 3j1p-a1-m36-cA_3j1p-a1-m36-cC 3j1p-a1-m37-cA_3j1p-a1-m37-cC 3j1p-a1-m38-cA_3j1p-a1-m38-cC 3j1p-a1-m39-cA_3j1p-a1-m39-cC 3j1p-a1-m3-cA_3j1p-a1-m3-cC 3j1p-a1-m40-cA_3j1p-a1-m40-cC 3j1p-a1-m41-cA_3j1p-a1-m41-cC 3j1p-a1-m42-cA_3j1p-a1-m42-cC 3j1p-a1-m43-cA_3j1p-a1-m43-cC 3j1p-a1-m44-cA_3j1p-a1-m44-cC 3j1p-a1-m45-cA_3j1p-a1-m45-cC 3j1p-a1-m46-cA_3j1p-a1-m46-cC 3j1p-a1-m47-cA_3j1p-a1-m47-cC 3j1p-a1-m48-cA_3j1p-a1-m48-cC 3j1p-a1-m49-cA_3j1p-a1-m49-cC 3j1p-a1-m4-cA_3j1p-a1-m4-cC 3j1p-a1-m50-cA_3j1p-a1-m50-cC 3j1p-a1-m51-cA_3j1p-a1-m51-cC 3j1p-a1-m52-cA_3j1p-a1-m52-cC 3j1p-a1-m53-cA_3j1p-a1-m53-cC 3j1p-a1-m54-cA_3j1p-a1-m54-cC 3j1p-a1-m55-cA_3j1p-a1-m55-cC 3j1p-a1-m56-cA_3j1p-a1-m56-cC 3j1p-a1-m57-cA_3j1p-a1-m57-cC 3j1p-a1-m58-cA_3j1p-a1-m58-cC 3j1p-a1-m59-cA_3j1p-a1-m59-cC 3j1p-a1-m5-cA_3j1p-a1-m5-cC 3j1p-a1-m60-cA_3j1p-a1-m60-cC 3j1p-a1-m6-cA_3j1p-a1-m6-cC 3j1p-a1-m7-cA_3j1p-a1-m7-cC 3j1p-a1-m8-cA_3j1p-a1-m8-cC 3j1p-a1-m9-cA_3j1p-a1-m9-cC 3zue-a1-m10-cA_3zue-a1-m10-cC 3zue-a1-m11-cA_3zue-a1-m11-cC 3zue-a1-m12-cA_3zue-a1-m12-cC 3zue-a1-m13-cA_3zue-a1-m13-cC 3zue-a1-m14-cA_3zue-a1-m14-cC 3zue-a1-m15-cA_3zue-a1-m15-cC 3zue-a1-m16-cA_3zue-a1-m16-cC 3zue-a1-m17-cA_3zue-a1-m17-cC 3zue-a1-m18-cA_3zue-a1-m18-cC 3zue-a1-m19-cA_3zue-a1-m19-cC 3zue-a1-m1-cA_3zue-a1-m1-cC 3zue-a1-m20-cA_3zue-a1-m20-cC 3zue-a1-m21-cA_3zue-a1-m21-cC 3zue-a1-m22-cA_3zue-a1-m22-cC 3zue-a1-m23-cA_3zue-a1-m23-cC 3zue-a1-m24-cA_3zue-a1-m24-cC 3zue-a1-m25-cA_3zue-a1-m25-cC 3zue-a1-m26-cA_3zue-a1-m26-cC 3zue-a1-m27-cA_3zue-a1-m27-cC 3zue-a1-m28-cA_3zue-a1-m28-cC 3zue-a1-m29-cA_3zue-a1-m29-cC 3zue-a1-m2-cA_3zue-a1-m2-cC 3zue-a1-m30-cA_3zue-a1-m30-cC 3zue-a1-m31-cA_3zue-a1-m31-cC 3zue-a1-m32-cA_3zue-a1-m32-cC 3zue-a1-m33-cA_3zue-a1-m33-cC 3zue-a1-m34-cA_3zue-a1-m34-cC 3zue-a1-m35-cA_3zue-a1-m35-cC 3zue-a1-m36-cA_3zue-a1-m36-cC 3zue-a1-m37-cA_3zue-a1-m37-cC 3zue-a1-m38-cA_3zue-a1-m38-cC 3zue-a1-m39-cA_3zue-a1-m39-cC 3zue-a1-m3-cA_3zue-a1-m3-cC 3zue-a1-m40-cA_3zue-a1-m40-cC 3zue-a1-m41-cA_3zue-a1-m41-cC 3zue-a1-m42-cA_3zue-a1-m42-cC 3zue-a1-m43-cA_3zue-a1-m43-cC 3zue-a1-m44-cA_3zue-a1-m44-cC 3zue-a1-m45-cA_3zue-a1-m45-cC 3zue-a1-m46-cA_3zue-a1-m46-cC 3zue-a1-m47-cA_3zue-a1-m47-cC 3zue-a1-m48-cA_3zue-a1-m48-cC 3zue-a1-m49-cA_3zue-a1-m49-cC 3zue-a1-m4-cA_3zue-a1-m4-cC 3zue-a1-m50-cA_3zue-a1-m50-cC 3zue-a1-m51-cA_3zue-a1-m51-cC 3zue-a1-m52-cA_3zue-a1-m52-cC 3zue-a1-m53-cA_3zue-a1-m53-cC 3zue-a1-m54-cA_3zue-a1-m54-cC 3zue-a1-m55-cA_3zue-a1-m55-cC 3zue-a1-m56-cA_3zue-a1-m56-cC 3zue-a1-m57-cA_3zue-a1-m57-cC 3zue-a1-m58-cA_3zue-a1-m58-cC 3zue-a1-m59-cA_3zue-a1-m59-cC 3zue-a1-m5-cA_3zue-a1-m5-cC 3zue-a1-m60-cA_3zue-a1-m60-cC 3zue-a1-m6-cA_3zue-a1-m6-cC 3zue-a1-m7-cA_3zue-a1-m7-cC 3zue-a1-m8-cA_3zue-a1-m8-cC TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zue-a1-m9-cB_3zue-a1-m10-cA Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 35 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 543 547 3zue-a1-m10-cA_3zue-a1-m23-cC 3zue-a1-m10-cB_3zue-a1-m5-cC 3zue-a1-m10-cB_3zue-a1-m6-cA 3zue-a1-m11-cA_3zue-a1-m20-cC 3zue-a1-m11-cB_3zue-a1-m12-cA 3zue-a1-m11-cB_3zue-a1-m37-cC 3zue-a1-m11-cC_3zue-a1-m38-cA 3zue-a1-m12-cA_3zue-a1-m37-cC 3zue-a1-m12-cB_3zue-a1-m13-cA 3zue-a1-m12-cB_3zue-a1-m46-cC 3zue-a1-m12-cC_3zue-a1-m47-cA 3zue-a1-m13-cA_3zue-a1-m46-cC 3zue-a1-m13-cB_3zue-a1-m14-cA 3zue-a1-m13-cB_3zue-a1-m44-cC 3zue-a1-m13-cC_3zue-a1-m45-cA 3zue-a1-m14-cA_3zue-a1-m44-cC 3zue-a1-m14-cB_3zue-a1-m15-cA 3zue-a1-m14-cB_3zue-a1-m28-cC 3zue-a1-m14-cC_3zue-a1-m29-cA 3zue-a1-m15-cA_3zue-a1-m28-cC 3zue-a1-m15-cB_3zue-a1-m11-cA 3zue-a1-m15-cB_3zue-a1-m20-cC 3zue-a1-m15-cC_3zue-a1-m16-cA 3zue-a1-m16-cB_3zue-a1-m17-cA 3zue-a1-m16-cB_3zue-a1-m27-cC 3zue-a1-m16-cC_3zue-a1-m28-cA 3zue-a1-m17-cA_3zue-a1-m27-cC 3zue-a1-m17-cB_3zue-a1-m18-cA 3zue-a1-m17-cB_3zue-a1-m51-cC 3zue-a1-m17-cC_3zue-a1-m52-cA 3zue-a1-m18-cA_3zue-a1-m51-cC 3zue-a1-m18-cB_3zue-a1-m19-cA 3zue-a1-m18-cB_3zue-a1-m59-cC 3zue-a1-m18-cC_3zue-a1-m60-cA 3zue-a1-m19-cA_3zue-a1-m59-cC 3zue-a1-m19-cB_3zue-a1-m20-cA 3zue-a1-m19-cB_3zue-a1-m38-cC 3zue-a1-m19-cC_3zue-a1-m39-cA 3zue-a1-m1-cA_3zue-a1-m10-cC 3zue-a1-m1-cB_3zue-a1-m22-cC 3zue-a1-m1-cB_3zue-a1-m2-cA 3zue-a1-m1-cC_3zue-a1-m23-cA 3zue-a1-m20-cA_3zue-a1-m38-cC 3zue-a1-m20-cB_3zue-a1-m15-cC 3zue-a1-m20-cB_3zue-a1-m16-cA 3zue-a1-m21-cA_3zue-a1-m30-cC 3zue-a1-m21-cB_3zue-a1-m22-cA 3zue-a1-m21-cB_3zue-a1-m42-cC 3zue-a1-m21-cC_3zue-a1-m43-cA 3zue-a1-m22-cA_3zue-a1-m42-cC 3zue-a1-m22-cB_3zue-a1-m1-cC 3zue-a1-m22-cB_3zue-a1-m23-cA 3zue-a1-m23-cB_3zue-a1-m24-cA 3zue-a1-m23-cB_3zue-a1-m9-cC 3zue-a1-m24-cA_3zue-a1-m9-cC 3zue-a1-m24-cB_3zue-a1-m25-cA 3zue-a1-m24-cB_3zue-a1-m53-cC 3zue-a1-m24-cC_3zue-a1-m54-cA 3zue-a1-m25-cA_3zue-a1-m53-cC 3zue-a1-m25-cB_3zue-a1-m21-cA 3zue-a1-m25-cB_3zue-a1-m30-cC 3zue-a1-m25-cC_3zue-a1-m26-cA 3zue-a1-m26-cB_3zue-a1-m27-cA 3zue-a1-m26-cB_3zue-a1-m52-cC 3zue-a1-m26-cC_3zue-a1-m53-cA 3zue-a1-m27-cA_3zue-a1-m52-cC 3zue-a1-m27-cB_3zue-a1-m16-cC 3zue-a1-m27-cB_3zue-a1-m28-cA 3zue-a1-m28-cB_3zue-a1-m14-cC 3zue-a1-m28-cB_3zue-a1-m29-cA 3zue-a1-m29-cB_3zue-a1-m30-cA 3zue-a1-m29-cB_3zue-a1-m43-cC 3zue-a1-m29-cC_3zue-a1-m44-cA 3zue-a1-m2-cA_3zue-a1-m22-cC 3zue-a1-m2-cB_3zue-a1-m3-cA 3zue-a1-m2-cB_3zue-a1-m41-cC 3zue-a1-m2-cC_3zue-a1-m42-cA 3zue-a1-m30-cA_3zue-a1-m43-cC 3zue-a1-m30-cB_3zue-a1-m25-cC 3zue-a1-m30-cB_3zue-a1-m26-cA 3zue-a1-m31-cA_3zue-a1-m40-cC 3zue-a1-m31-cB_3zue-a1-m32-cA 3zue-a1-m31-cB_3zue-a1-m57-cC 3zue-a1-m31-cC_3zue-a1-m58-cA 3zue-a1-m32-cA_3zue-a1-m57-cC 3zue-a1-m32-cB_3zue-a1-m33-cA 3zue-a1-m32-cB_3zue-a1-m6-cC 3zue-a1-m32-cC_3zue-a1-m7-cA 3zue-a1-m33-cA_3zue-a1-m6-cC 3zue-a1-m33-cB_3zue-a1-m34-cA 3zue-a1-m33-cB_3zue-a1-m4-cC 3zue-a1-m33-cC_3zue-a1-m5-cA 3zue-a1-m34-cA_3zue-a1-m4-cC 3zue-a1-m34-cB_3zue-a1-m35-cA 3zue-a1-m34-cB_3zue-a1-m48-cC 3zue-a1-m34-cC_3zue-a1-m49-cA 3zue-a1-m35-cA_3zue-a1-m48-cC 3zue-a1-m35-cB_3zue-a1-m31-cA 3zue-a1-m35-cB_3zue-a1-m40-cC 3zue-a1-m35-cC_3zue-a1-m36-cA 3zue-a1-m36-cB_3zue-a1-m37-cA 3zue-a1-m36-cB_3zue-a1-m47-cC 3zue-a1-m36-cC_3zue-a1-m48-cA 3zue-a1-m37-cA_3zue-a1-m47-cC 3zue-a1-m37-cB_3zue-a1-m11-cC 3zue-a1-m37-cB_3zue-a1-m38-cA 3zue-a1-m38-cB_3zue-a1-m19-cC 3zue-a1-m38-cB_3zue-a1-m39-cA 3zue-a1-m39-cB_3zue-a1-m40-cA 3zue-a1-m39-cB_3zue-a1-m58-cC 3zue-a1-m39-cC_3zue-a1-m59-cA 3zue-a1-m3-cA_3zue-a1-m41-cC 3zue-a1-m3-cB_3zue-a1-m49-cC 3zue-a1-m3-cB_3zue-a1-m4-cA 3zue-a1-m3-cC_3zue-a1-m50-cA 3zue-a1-m40-cA_3zue-a1-m58-cC 3zue-a1-m40-cB_3zue-a1-m35-cC 3zue-a1-m40-cB_3zue-a1-m36-cA 3zue-a1-m41-cA_3zue-a1-m50-cC 3zue-a1-m41-cB_3zue-a1-m2-cC 3zue-a1-m41-cB_3zue-a1-m42-cA 3zue-a1-m42-cB_3zue-a1-m21-cC 3zue-a1-m42-cB_3zue-a1-m43-cA 3zue-a1-m43-cB_3zue-a1-m29-cC 3zue-a1-m43-cB_3zue-a1-m44-cA 3zue-a1-m44-cB_3zue-a1-m13-cC 3zue-a1-m44-cB_3zue-a1-m45-cA 3zue-a1-m45-cB_3zue-a1-m41-cA 3zue-a1-m45-cB_3zue-a1-m50-cC 3zue-a1-m45-cC_3zue-a1-m46-cA 3zue-a1-m46-cB_3zue-a1-m12-cC 3zue-a1-m46-cB_3zue-a1-m47-cA 3zue-a1-m47-cB_3zue-a1-m36-cC 3zue-a1-m47-cB_3zue-a1-m48-cA 3zue-a1-m48-cB_3zue-a1-m34-cC 3zue-a1-m48-cB_3zue-a1-m49-cA 3zue-a1-m49-cB_3zue-a1-m3-cC 3zue-a1-m49-cB_3zue-a1-m50-cA 3zue-a1-m4-cA_3zue-a1-m49-cC 3zue-a1-m4-cB_3zue-a1-m33-cC 3zue-a1-m4-cB_3zue-a1-m5-cA 3zue-a1-m50-cB_3zue-a1-m45-cC 3zue-a1-m50-cB_3zue-a1-m46-cA 3zue-a1-m51-cA_3zue-a1-m60-cC 3zue-a1-m51-cB_3zue-a1-m17-cC 3zue-a1-m51-cB_3zue-a1-m52-cA 3zue-a1-m52-cB_3zue-a1-m26-cC 3zue-a1-m52-cB_3zue-a1-m53-cA 3zue-a1-m53-cB_3zue-a1-m24-cC 3zue-a1-m53-cB_3zue-a1-m54-cA 3zue-a1-m54-cB_3zue-a1-m55-cA 3zue-a1-m54-cB_3zue-a1-m8-cC 3zue-a1-m54-cC_3zue-a1-m9-cA 3zue-a1-m55-cA_3zue-a1-m8-cC 3zue-a1-m55-cB_3zue-a1-m51-cA 3zue-a1-m55-cB_3zue-a1-m60-cC 3zue-a1-m55-cC_3zue-a1-m56-cA 3zue-a1-m56-cB_3zue-a1-m57-cA 3zue-a1-m56-cB_3zue-a1-m7-cC 3zue-a1-m56-cC_3zue-a1-m8-cA 3zue-a1-m57-cA_3zue-a1-m7-cC 3zue-a1-m57-cB_3zue-a1-m31-cC 3zue-a1-m57-cB_3zue-a1-m58-cA 3zue-a1-m58-cB_3zue-a1-m39-cC 3zue-a1-m58-cB_3zue-a1-m59-cA 3zue-a1-m59-cB_3zue-a1-m18-cC 3zue-a1-m59-cB_3zue-a1-m60-cA 3zue-a1-m5-cB_3zue-a1-m10-cC 3zue-a1-m5-cB_3zue-a1-m1-cA 3zue-a1-m5-cC_3zue-a1-m6-cA 3zue-a1-m60-cB_3zue-a1-m55-cC 3zue-a1-m60-cB_3zue-a1-m56-cA 3zue-a1-m6-cB_3zue-a1-m32-cC 3zue-a1-m6-cB_3zue-a1-m7-cA 3zue-a1-m7-cB_3zue-a1-m56-cC 3zue-a1-m7-cB_3zue-a1-m8-cA 3zue-a1-m8-cB_3zue-a1-m54-cC 3zue-a1-m8-cB_3zue-a1-m9-cA 3zue-a1-m9-cB_3zue-a1-m23-cC LDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zue-a1-m9-cB_3zue-a1-m8-cA Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 70 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 543 547 3j1p-a1-m10-cA_3j1p-a1-m10-cB 3j1p-a1-m11-cA_3j1p-a1-m11-cB 3j1p-a1-m12-cA_3j1p-a1-m12-cB 3j1p-a1-m13-cA_3j1p-a1-m13-cB 3j1p-a1-m14-cA_3j1p-a1-m14-cB 3j1p-a1-m15-cA_3j1p-a1-m15-cB 3j1p-a1-m16-cA_3j1p-a1-m16-cB 3j1p-a1-m17-cA_3j1p-a1-m17-cB 3j1p-a1-m18-cA_3j1p-a1-m18-cB 3j1p-a1-m19-cA_3j1p-a1-m19-cB 3j1p-a1-m1-cA_3j1p-a1-m1-cB 3j1p-a1-m20-cA_3j1p-a1-m20-cB 3j1p-a1-m21-cA_3j1p-a1-m21-cB 3j1p-a1-m22-cA_3j1p-a1-m22-cB 3j1p-a1-m23-cA_3j1p-a1-m23-cB 3j1p-a1-m24-cA_3j1p-a1-m24-cB 3j1p-a1-m25-cA_3j1p-a1-m25-cB 3j1p-a1-m26-cA_3j1p-a1-m26-cB 3j1p-a1-m27-cA_3j1p-a1-m27-cB 3j1p-a1-m28-cA_3j1p-a1-m28-cB 3j1p-a1-m29-cA_3j1p-a1-m29-cB 3j1p-a1-m2-cA_3j1p-a1-m2-cB 3j1p-a1-m30-cA_3j1p-a1-m30-cB 3j1p-a1-m31-cA_3j1p-a1-m31-cB 3j1p-a1-m32-cA_3j1p-a1-m32-cB 3j1p-a1-m33-cA_3j1p-a1-m33-cB 3j1p-a1-m34-cA_3j1p-a1-m34-cB 3j1p-a1-m35-cA_3j1p-a1-m35-cB 3j1p-a1-m36-cA_3j1p-a1-m36-cB 3j1p-a1-m37-cA_3j1p-a1-m37-cB 3j1p-a1-m38-cA_3j1p-a1-m38-cB 3j1p-a1-m39-cA_3j1p-a1-m39-cB 3j1p-a1-m3-cA_3j1p-a1-m3-cB 3j1p-a1-m40-cA_3j1p-a1-m40-cB 3j1p-a1-m41-cA_3j1p-a1-m41-cB 3j1p-a1-m42-cA_3j1p-a1-m42-cB 3j1p-a1-m43-cA_3j1p-a1-m43-cB 3j1p-a1-m44-cA_3j1p-a1-m44-cB 3j1p-a1-m45-cA_3j1p-a1-m45-cB 3j1p-a1-m46-cA_3j1p-a1-m46-cB 3j1p-a1-m47-cA_3j1p-a1-m47-cB 3j1p-a1-m48-cA_3j1p-a1-m48-cB 3j1p-a1-m49-cA_3j1p-a1-m49-cB 3j1p-a1-m4-cA_3j1p-a1-m4-cB 3j1p-a1-m50-cA_3j1p-a1-m50-cB 3j1p-a1-m51-cA_3j1p-a1-m51-cB 3j1p-a1-m52-cA_3j1p-a1-m52-cB 3j1p-a1-m53-cA_3j1p-a1-m53-cB 3j1p-a1-m54-cA_3j1p-a1-m54-cB 3j1p-a1-m55-cA_3j1p-a1-m55-cB 3j1p-a1-m56-cA_3j1p-a1-m56-cB 3j1p-a1-m57-cA_3j1p-a1-m57-cB 3j1p-a1-m58-cA_3j1p-a1-m58-cB 3j1p-a1-m59-cA_3j1p-a1-m59-cB 3j1p-a1-m5-cA_3j1p-a1-m5-cB 3j1p-a1-m60-cA_3j1p-a1-m60-cB 3j1p-a1-m6-cA_3j1p-a1-m6-cB 3j1p-a1-m7-cA_3j1p-a1-m7-cB 3j1p-a1-m8-cA_3j1p-a1-m8-cB 3j1p-a1-m9-cA_3j1p-a1-m9-cB 3zue-a1-m10-cB_3zue-a1-m9-cA 3zue-a1-m11-cB_3zue-a1-m15-cA 3zue-a1-m12-cB_3zue-a1-m11-cA 3zue-a1-m13-cB_3zue-a1-m12-cA 3zue-a1-m14-cB_3zue-a1-m13-cA 3zue-a1-m15-cB_3zue-a1-m14-cA 3zue-a1-m16-cB_3zue-a1-m20-cA 3zue-a1-m17-cB_3zue-a1-m16-cA 3zue-a1-m18-cB_3zue-a1-m17-cA 3zue-a1-m19-cB_3zue-a1-m18-cA 3zue-a1-m1-cB_3zue-a1-m5-cA 3zue-a1-m20-cB_3zue-a1-m19-cA 3zue-a1-m21-cB_3zue-a1-m25-cA 3zue-a1-m22-cB_3zue-a1-m21-cA 3zue-a1-m23-cB_3zue-a1-m22-cA 3zue-a1-m24-cB_3zue-a1-m23-cA 3zue-a1-m25-cB_3zue-a1-m24-cA 3zue-a1-m26-cB_3zue-a1-m30-cA 3zue-a1-m27-cB_3zue-a1-m26-cA 3zue-a1-m28-cB_3zue-a1-m27-cA 3zue-a1-m29-cB_3zue-a1-m28-cA 3zue-a1-m2-cB_3zue-a1-m1-cA 3zue-a1-m30-cB_3zue-a1-m29-cA 3zue-a1-m31-cB_3zue-a1-m35-cA 3zue-a1-m32-cB_3zue-a1-m31-cA 3zue-a1-m33-cB_3zue-a1-m32-cA 3zue-a1-m34-cB_3zue-a1-m33-cA 3zue-a1-m35-cB_3zue-a1-m34-cA 3zue-a1-m36-cB_3zue-a1-m40-cA 3zue-a1-m37-cB_3zue-a1-m36-cA 3zue-a1-m38-cB_3zue-a1-m37-cA 3zue-a1-m39-cB_3zue-a1-m38-cA 3zue-a1-m3-cB_3zue-a1-m2-cA 3zue-a1-m40-cB_3zue-a1-m39-cA 3zue-a1-m41-cB_3zue-a1-m45-cA 3zue-a1-m42-cB_3zue-a1-m41-cA 3zue-a1-m43-cB_3zue-a1-m42-cA 3zue-a1-m44-cB_3zue-a1-m43-cA 3zue-a1-m45-cB_3zue-a1-m44-cA 3zue-a1-m46-cB_3zue-a1-m50-cA 3zue-a1-m47-cB_3zue-a1-m46-cA 3zue-a1-m48-cB_3zue-a1-m47-cA 3zue-a1-m49-cB_3zue-a1-m48-cA 3zue-a1-m4-cB_3zue-a1-m3-cA 3zue-a1-m50-cB_3zue-a1-m49-cA 3zue-a1-m51-cB_3zue-a1-m55-cA 3zue-a1-m52-cB_3zue-a1-m51-cA 3zue-a1-m53-cB_3zue-a1-m52-cA 3zue-a1-m54-cB_3zue-a1-m53-cA 3zue-a1-m55-cB_3zue-a1-m54-cA 3zue-a1-m56-cB_3zue-a1-m60-cA 3zue-a1-m57-cB_3zue-a1-m56-cA 3zue-a1-m58-cB_3zue-a1-m57-cA 3zue-a1-m59-cB_3zue-a1-m58-cA 3zue-a1-m5-cB_3zue-a1-m4-cA 3zue-a1-m60-cB_3zue-a1-m59-cA 3zue-a1-m6-cB_3zue-a1-m10-cA 3zue-a1-m7-cB_3zue-a1-m6-cA 3zue-a1-m8-cB_3zue-a1-m7-cA LDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zue-a1-m9-cB_3zue-a1-m9-cA Rabbit Hemorrhagic Disease Virus (RHDV)capsid protein Q86119 Q86119 10.3 ELECTRON MICROSCOPY 245 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 543 547 3zue-a1-m10-cB_3zue-a1-m10-cA 3zue-a1-m10-cC_3zue-a1-m5-cC 3zue-a1-m11-cB_3zue-a1-m11-cA 3zue-a1-m11-cC_3zue-a1-m37-cC 3zue-a1-m12-cB_3zue-a1-m12-cA 3zue-a1-m12-cC_3zue-a1-m46-cC 3zue-a1-m13-cB_3zue-a1-m13-cA 3zue-a1-m13-cC_3zue-a1-m44-cC 3zue-a1-m14-cB_3zue-a1-m14-cA 3zue-a1-m14-cC_3zue-a1-m28-cC 3zue-a1-m15-cB_3zue-a1-m15-cA 3zue-a1-m15-cC_3zue-a1-m20-cC 3zue-a1-m16-cB_3zue-a1-m16-cA 3zue-a1-m16-cC_3zue-a1-m27-cC 3zue-a1-m17-cB_3zue-a1-m17-cA 3zue-a1-m17-cC_3zue-a1-m51-cC 3zue-a1-m18-cB_3zue-a1-m18-cA 3zue-a1-m18-cC_3zue-a1-m59-cC 3zue-a1-m19-cB_3zue-a1-m19-cA 3zue-a1-m19-cC_3zue-a1-m38-cC 3zue-a1-m1-cB_3zue-a1-m1-cA 3zue-a1-m1-cC_3zue-a1-m22-cC 3zue-a1-m20-cB_3zue-a1-m20-cA 3zue-a1-m21-cB_3zue-a1-m21-cA 3zue-a1-m21-cC_3zue-a1-m42-cC 3zue-a1-m22-cB_3zue-a1-m22-cA 3zue-a1-m23-cB_3zue-a1-m23-cA 3zue-a1-m23-cC_3zue-a1-m9-cC 3zue-a1-m24-cB_3zue-a1-m24-cA 3zue-a1-m24-cC_3zue-a1-m53-cC 3zue-a1-m25-cB_3zue-a1-m25-cA 3zue-a1-m25-cC_3zue-a1-m30-cC 3zue-a1-m26-cB_3zue-a1-m26-cA 3zue-a1-m26-cC_3zue-a1-m52-cC 3zue-a1-m27-cB_3zue-a1-m27-cA 3zue-a1-m28-cB_3zue-a1-m28-cA 3zue-a1-m29-cB_3zue-a1-m29-cA 3zue-a1-m29-cC_3zue-a1-m43-cC 3zue-a1-m2-cB_3zue-a1-m2-cA 3zue-a1-m2-cC_3zue-a1-m41-cC 3zue-a1-m30-cB_3zue-a1-m30-cA 3zue-a1-m31-cB_3zue-a1-m31-cA 3zue-a1-m31-cC_3zue-a1-m57-cC 3zue-a1-m32-cB_3zue-a1-m32-cA 3zue-a1-m32-cC_3zue-a1-m6-cC 3zue-a1-m33-cB_3zue-a1-m33-cA 3zue-a1-m33-cC_3zue-a1-m4-cC 3zue-a1-m34-cB_3zue-a1-m34-cA 3zue-a1-m34-cC_3zue-a1-m48-cC 3zue-a1-m35-cB_3zue-a1-m35-cA 3zue-a1-m35-cC_3zue-a1-m40-cC 3zue-a1-m36-cB_3zue-a1-m36-cA 3zue-a1-m36-cC_3zue-a1-m47-cC 3zue-a1-m37-cB_3zue-a1-m37-cA 3zue-a1-m38-cB_3zue-a1-m38-cA 3zue-a1-m39-cB_3zue-a1-m39-cA 3zue-a1-m39-cC_3zue-a1-m58-cC 3zue-a1-m3-cB_3zue-a1-m3-cA 3zue-a1-m3-cC_3zue-a1-m49-cC 3zue-a1-m40-cB_3zue-a1-m40-cA 3zue-a1-m41-cB_3zue-a1-m41-cA 3zue-a1-m42-cB_3zue-a1-m42-cA 3zue-a1-m43-cB_3zue-a1-m43-cA 3zue-a1-m44-cB_3zue-a1-m44-cA 3zue-a1-m45-cB_3zue-a1-m45-cA 3zue-a1-m45-cC_3zue-a1-m50-cC 3zue-a1-m46-cB_3zue-a1-m46-cA 3zue-a1-m47-cB_3zue-a1-m47-cA 3zue-a1-m48-cB_3zue-a1-m48-cA 3zue-a1-m49-cB_3zue-a1-m49-cA 3zue-a1-m4-cB_3zue-a1-m4-cA 3zue-a1-m50-cB_3zue-a1-m50-cA 3zue-a1-m51-cB_3zue-a1-m51-cA 3zue-a1-m52-cB_3zue-a1-m52-cA 3zue-a1-m53-cB_3zue-a1-m53-cA 3zue-a1-m54-cB_3zue-a1-m54-cA 3zue-a1-m54-cC_3zue-a1-m8-cC 3zue-a1-m55-cB_3zue-a1-m55-cA 3zue-a1-m55-cC_3zue-a1-m60-cC 3zue-a1-m56-cB_3zue-a1-m56-cA 3zue-a1-m56-cC_3zue-a1-m7-cC 3zue-a1-m57-cB_3zue-a1-m57-cA 3zue-a1-m58-cB_3zue-a1-m58-cA 3zue-a1-m59-cB_3zue-a1-m59-cA 3zue-a1-m5-cB_3zue-a1-m5-cA 3zue-a1-m60-cB_3zue-a1-m60-cA 3zue-a1-m6-cB_3zue-a1-m6-cA 3zue-a1-m7-cB_3zue-a1-m7-cA 3zue-a1-m8-cB_3zue-a1-m8-cA 4ejr-a1-m1-cA_4ejr-a1-m2-cA 4ejr-a2-m1-cB_4ejr-a2-m3-cB LDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT TTDGLDPGVVATTSVVTAENSSASIATAGIGGPPQQVDQQETWRTNFYYNDVFTWSVADAPGSILYTVQHSPQNNPFTAVLSQMYAGWAGGMQFRFIVAGSGVFGGRLVAAVIPPGIEIGPGLEVRQFPHVVIDARSLEPVTNTMPDLRPNMYHPTGDPGLVPTLVLSVYNNLINPFGGSTSAIQVTVETRPSEDFEFVMIRAPSSKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAVDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGAQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPNANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSASGTQYGTGSQPLPVTIGLSLNNYSSSLMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGALTTLIDLTELIDVRPVGPRPSKSTLVFNLGGT 3zuh-a1-m1-cE_3zuh-a1-m1-cF Negative stain EM Map of the AAA protein CbbX, a red-type Rubisco activase from R. sphaeroides P95648 P95648 21.0 ELECTRON MICROSCOPY 81 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 286 286 3zuh-a1-m1-cA_3zuh-a1-m1-cB 3zuh-a1-m1-cA_3zuh-a1-m1-cF 3zuh-a1-m1-cB_3zuh-a1-m1-cC 3zuh-a1-m1-cC_3zuh-a1-m1-cD 3zuh-a1-m1-cD_3zuh-a1-m1-cE PTSIDLRAEYEGSGAKEVLEELDRELIGLKPVKDRIRETAALLLVERARQKLGLTPTLHMSFTGNPGTGKTTVALKMAGLLHRLGYVRKGHLVSVTRDDLVGQYIGHTAPKTKEVLKRAMGGVLFIDEAYYLYRPDNERDYGQEAIEILLQVMENNRDDLVVILAGYADRMENFFQSNPGFRSRIAHHIEFPDYSDEELFEIAGHMLDDQNYQMTPEAETALRAYIGLRRNQPHFANARSIRNALDRARLRQANRLFTASSGPLDARALSTIAEEDIRASRVFKGG PTSIDLRAEYEGSGAKEVLEELDRELIGLKPVKDRIRETAALLLVERARQKLGLTPTLHMSFTGNPGTGKTTVALKMAGLLHRLGYVRKGHLVSVTRDDLVGQYIGHTAPKTKEVLKRAMGGVLFIDEAYYLYRPDNERDYGQEAIEILLQVMENNRDDLVVILAGYADRMENFFQSNPGFRSRIAHHIEFPDYSDEELFEIAGHMLDDQNYQMTPEAETALRAYIGLRRNQPHFANARSIRNALDRARLRQANRLFTASSGPLDARALSTIAEEDIRASRVFKGG 3zv0-a1-m1-cC_3zv0-a1-m1-cD Structure of the SHQ1P-CBF5P complex P33322 P33322 2.8 X-RAY DIFFRACTION 169 0.993 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 152 157 SEWPLLLKNFDKLLVRSGSPLKRDLKSYISSGPLETLLVGYKRIVVKDSAVNAVCYGAKLMIPGLLRYEEGIELYDEIVLITTKGEAIAVAIAQMSTVDLASCDHGVVASVKRCIMERDLYPRRWGLGPVAQKKKQMKADGKLDKYGRVNEN TSEWPLLLKNFDKLLVRSGHYTPIPLKRDLKSYISSGPLETLLVGYKRIVVKDSAVNAVCYGAKLMIPGLLRYEEGIELYDEIVLITTKGEAIAVAIAQMSTVDLASCDHGVVASVKRCIMERDLYPRRWGLGPVAQKKKQMKADGKLDKYGRVNEN 3zv4-a1-m1-cA_3zv4-a1-m2-cB CRYSTAL STRUCTURE OF CIS-BIPHENYL-2,3-DIHYDRODIOL-2,3-DEHYDROGENASE (BPHB) FROM PANDORAEA PNOMENUSA STRAIN B-356 IN APO FORM AT 1.8 ANGSTROM Q46381 Q46381 1.8 X-RAY DIFFRACTION 129 1.0 93220 (Pandoraea pnomenusa) 93220 (Pandoraea pnomenusa) 265 268 2y93-a1-m1-cA_2y93-a1-m2-cB 2y93-a1-m1-cB_2y93-a1-m2-cA 2y99-a1-m1-cA_2y99-a1-m2-cB 2y99-a1-m1-cB_2y99-a1-m2-cA 3zv3-a1-m1-cA_3zv3-a1-m2-cB 3zv3-a1-m2-cA_3zv3-a1-m1-cB 3zv4-a1-m2-cA_3zv4-a1-m1-cB 3zv5-a1-m1-cB_3zv5-a1-m2-cA 3zv5-a1-m2-cB_3zv5-a1-m1-cA 3zv6-a1-m1-cB_3zv6-a1-m2-cA 3zv6-a1-m2-cB_3zv6-a1-m1-cA MKLTGEVALITGGASGLGRALVDRFVAEGARVAVLDKSAERLRELEVAHGGNAVGVVGDVRSLQDQKRAAERCLAAFGKIDTLIPNAGIWDYSTALADLPEDKIDAAFDDIFHVNVKGYIHAVKACLPALVSSRGSVVFTISNAGFYPNGGGPLYTATKHAVVGLVRQMAFELAPHVRVNGVAPGGMNTRGPSSLGVPLADMLKSVLPIGRMPALEEYTGAYVFFATRGDSLPATGALLNYDGGMGVRGFLTAAGGADLPEKLNI MKLTGEVALITGGASGLGRALVDRFVAEGARVAVLDKSAERLRELEVAHGGNAVGVVGDVRSLQDQKRAAERCLAAFGKIDTLIPNAGIWDYSTALADLPEDKIDAAFDDIFHVNVKGYIHAVKACLPALVSSRGSVVFTISNAGFYPNGGGPLYTATKHAVVGLVRQMAFELAPHVRVNGVAPGGMNTDLRGPSSLGSVPLADMLKSVLPIGRMPALEEYTGAYVFFATRGDSLPATGALLNYDGGMGVRGFLTAAGGADLPEKLNI 3zv4-a1-m1-cB_3zv4-a1-m2-cB CRYSTAL STRUCTURE OF CIS-BIPHENYL-2,3-DIHYDRODIOL-2,3-DEHYDROGENASE (BPHB) FROM PANDORAEA PNOMENUSA STRAIN B-356 IN APO FORM AT 1.8 ANGSTROM Q46381 Q46381 1.8 X-RAY DIFFRACTION 42 1.0 93220 (Pandoraea pnomenusa) 93220 (Pandoraea pnomenusa) 268 268 2y93-a1-m1-cA_2y93-a1-m2-cA 2y93-a1-m1-cB_2y93-a1-m2-cB 2y99-a1-m1-cA_2y99-a1-m2-cA 2y99-a1-m1-cB_2y99-a1-m2-cB 3zv3-a1-m1-cA_3zv3-a1-m2-cA 3zv3-a1-m1-cB_3zv3-a1-m2-cB 3zv4-a1-m1-cA_3zv4-a1-m2-cA 3zv5-a1-m1-cA_3zv5-a1-m2-cA 3zv5-a1-m1-cB_3zv5-a1-m2-cB 3zv6-a1-m1-cA_3zv6-a1-m2-cA 3zv6-a1-m1-cB_3zv6-a1-m2-cB MKLTGEVALITGGASGLGRALVDRFVAEGARVAVLDKSAERLRELEVAHGGNAVGVVGDVRSLQDQKRAAERCLAAFGKIDTLIPNAGIWDYSTALADLPEDKIDAAFDDIFHVNVKGYIHAVKACLPALVSSRGSVVFTISNAGFYPNGGGPLYTATKHAVVGLVRQMAFELAPHVRVNGVAPGGMNTDLRGPSSLGSVPLADMLKSVLPIGRMPALEEYTGAYVFFATRGDSLPATGALLNYDGGMGVRGFLTAAGGADLPEKLNI MKLTGEVALITGGASGLGRALVDRFVAEGARVAVLDKSAERLRELEVAHGGNAVGVVGDVRSLQDQKRAAERCLAAFGKIDTLIPNAGIWDYSTALADLPEDKIDAAFDDIFHVNVKGYIHAVKACLPALVSSRGSVVFTISNAGFYPNGGGPLYTATKHAVVGLVRQMAFELAPHVRVNGVAPGGMNTDLRGPSSLGSVPLADMLKSVLPIGRMPALEEYTGAYVFFATRGDSLPATGALLNYDGGMGVRGFLTAAGGADLPEKLNI 3zv4-a1-m2-cA_3zv4-a1-m2-cB CRYSTAL STRUCTURE OF CIS-BIPHENYL-2,3-DIHYDRODIOL-2,3-DEHYDROGENASE (BPHB) FROM PANDORAEA PNOMENUSA STRAIN B-356 IN APO FORM AT 1.8 ANGSTROM Q46381 Q46381 1.8 X-RAY DIFFRACTION 189 1.0 93220 (Pandoraea pnomenusa) 93220 (Pandoraea pnomenusa) 265 268 2y93-a1-m1-cA_2y93-a1-m1-cB 2y93-a1-m2-cA_2y93-a1-m2-cB 2y99-a1-m1-cA_2y99-a1-m1-cB 2y99-a1-m2-cA_2y99-a1-m2-cB 3zv3-a1-m1-cA_3zv3-a1-m1-cB 3zv3-a1-m2-cA_3zv3-a1-m2-cB 3zv4-a1-m1-cA_3zv4-a1-m1-cB 3zv5-a1-m1-cB_3zv5-a1-m1-cA 3zv5-a1-m2-cB_3zv5-a1-m2-cA 3zv6-a1-m1-cB_3zv6-a1-m1-cA 3zv6-a1-m2-cB_3zv6-a1-m2-cA MKLTGEVALITGGASGLGRALVDRFVAEGARVAVLDKSAERLRELEVAHGGNAVGVVGDVRSLQDQKRAAERCLAAFGKIDTLIPNAGIWDYSTALADLPEDKIDAAFDDIFHVNVKGYIHAVKACLPALVSSRGSVVFTISNAGFYPNGGGPLYTATKHAVVGLVRQMAFELAPHVRVNGVAPGGMNTRGPSSLGVPLADMLKSVLPIGRMPALEEYTGAYVFFATRGDSLPATGALLNYDGGMGVRGFLTAAGGADLPEKLNI MKLTGEVALITGGASGLGRALVDRFVAEGARVAVLDKSAERLRELEVAHGGNAVGVVGDVRSLQDQKRAAERCLAAFGKIDTLIPNAGIWDYSTALADLPEDKIDAAFDDIFHVNVKGYIHAVKACLPALVSSRGSVVFTISNAGFYPNGGGPLYTATKHAVVGLVRQMAFELAPHVRVNGVAPGGMNTDLRGPSSLGSVPLADMLKSVLPIGRMPALEEYTGAYVFFATRGDSLPATGALLNYDGGMGVRGFLTAAGGADLPEKLNI 3zve-a1-m1-cA_3zve-a1-m2-cA 3C protease of Enterovirus 68 complexed with Michael receptor inhibitor 84 A1E4A3 A1E4A3 1.8 X-RAY DIFFRACTION 43 1.0 42789 (enterovirus D68) 42789 (enterovirus D68) 188 188 3zv8-a1-m1-cA_3zv8-a1-m2-cA 3zv9-a1-m1-cA_3zv9-a1-m2-cA 3zva-a1-m1-cA_3zva-a1-m2-cA 3zvb-a1-m1-cA_3zvb-a1-m2-cA 3zvc-a1-m1-cA_3zvc-a1-m2-cA 3zvd-a1-m1-cA_3zvd-a1-m2-cA 3zvf-a1-m1-cA_3zvf-a1-m2-cA 3zvg-a1-m1-cA_3zvg-a1-m2-cA 7l8h-a1-m1-cA_7l8h-a1-m1-cB GPGFDFAQAIMKKNTVVARTEKGEFTMLGVHDRVAVIPTHASVGETIYINDVETKVLDACALRDLTDTNLEITIVKLDRNQKFRDIRHFLPRYEDDYNDAVLSVHTSKFPNMYIPVGQVTNYGFLNLGGTPTHRILMYNFPTRAGQCGGVVTTTGKVIGIHVGGNGAQGFAAMLLHSYFTDTQKHHHH GPGFDFAQAIMKKNTVVARTEKGEFTMLGVHDRVAVIPTHASVGETIYINDVETKVLDACALRDLTDTNLEITIVKLDRNQKFRDIRHFLPRYEDDYNDAVLSVHTSKFPNMYIPVGQVTNYGFLNLGGTPTHRILMYNFPTRAGQCGGVVTTTGKVIGIHVGGNGAQGFAAMLLHSYFTDTQKHHHH 3zvi-a1-m1-cA_3zvi-a1-m1-cB Methylaspartate ammonia lyase from Clostridium tetanomorphum mutant L384A Q05514 Q05514 1.9 X-RAY DIFFRACTION 172 1.0 1553 (Clostridium tetanomorphum) 1553 (Clostridium tetanomorphum) 415 415 1kcz-a1-m1-cA_1kcz-a1-m1-cB 1kd0-a1-m1-cA_1kd0-a1-m1-cB 3zvh-a1-m1-cA_3zvh-a1-m1-cB MKIVDVLCTPGLTGFYFDDQRAIKKGAGHDGFTYTGSTVTEGFTQVRQKGESISVLLVLEDGQVAHGDCAAVQYSGAGGRDPLFLAKDFIPVIEKEIAPKLIGREITNFKPMAEEFDKMTVNGNRLHTAIRYGITQAILDAVAKTRKVTMAEVIRDEYNPGAEINAVPVFAQSGDDRYDNVDKMIIKEADVLPHALINNVEEKLGLKGEKLLEYVKWLRDRIIKLRVREDYAPIFHIDVYGTIGAAFDVDIKAMADYIQTLAEAAKPFHLRIEGPMDVEDRQKQMEAMRDLRAELDGRGVDAELVADEWCNTVEDVKFFTDNKAGHMVQIKTPDLGGVNNIADAIMYCKANGMGAYCGGTCNETNRSAEVTTNIGMACGARQVAAKPGMGVDEGMMIVKNEMNRVLALVGRRKKL MKIVDVLCTPGLTGFYFDDQRAIKKGAGHDGFTYTGSTVTEGFTQVRQKGESISVLLVLEDGQVAHGDCAAVQYSGAGGRDPLFLAKDFIPVIEKEIAPKLIGREITNFKPMAEEFDKMTVNGNRLHTAIRYGITQAILDAVAKTRKVTMAEVIRDEYNPGAEINAVPVFAQSGDDRYDNVDKMIIKEADVLPHALINNVEEKLGLKGEKLLEYVKWLRDRIIKLRVREDYAPIFHIDVYGTIGAAFDVDIKAMADYIQTLAEAAKPFHLRIEGPMDVEDRQKQMEAMRDLRAELDGRGVDAELVADEWCNTVEDVKFFTDNKAGHMVQIKTPDLGGVNNIADAIMYCKANGMGAYCGGTCNETNRSAEVTTNIGMACGARQVAAKPGMGVDEGMMIVKNEMNRVLALVGRRKKL 3zvj-a1-m1-cJ_3zvj-a1-m1-cS Crystal structure of high molecular weight (HMW) form of Peroxiredoxin I from Schistosoma mansoni O97161 O97161 3 X-RAY DIFFRACTION 31 0.988 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 171 172 3zvj-a1-m1-cB_3zvj-a1-m1-cK 3zvj-a1-m1-cD_3zvj-a1-m1-cM 3zvj-a1-m1-cO_3zvj-a1-m1-cF 3zvj-a1-m1-cQ_3zvj-a1-m1-cH MVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVCPV GSTMVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVC 3zvj-a1-m1-cK_3zvj-a1-m1-cJ Crystal structure of high molecular weight (HMW) form of Peroxiredoxin I from Schistosoma mansoni O97161 O97161 3 X-RAY DIFFRACTION 13 0.994 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 170 171 3zvj-a1-m1-cB_3zvj-a1-m1-cM 3zvj-a1-m1-cH_3zvj-a1-m1-cS 3zvj-a1-m1-cO_3zvj-a1-m1-cD 3zvj-a1-m1-cQ_3zvj-a1-m1-cF TMVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVC MVLLPNRPAPEFKGQAVINGEFKEICLKDYRGKYVVLFFYPADFTFVCPTEIIAFSDQVEEFNSRNCQVIACSTDSQYSHLAWDNLDRKSGGLGHMKIPLLADRKQEISKAYGVFDEEDGNAFRGLFIIDPNGILRQITINDKPVGRSVDETLRLLDAFQFVEKHGEVCPV 3zvk-a1-m1-cC_3zvk-a1-m1-cD Crystal structure of VapBC2 from Rickettsia felis bound to a DNA fragment from their promoter Q4UNB2 Q4UNB2 2.5 X-RAY DIFFRACTION 86 1.0 42862 (Rickettsia felis) 42862 (Rickettsia felis) 132 132 3zvk-a1-m1-cB_3zvk-a1-m1-cA MIYMLGTNICVYAINKHPDSYYNNLELLAKNNTIAISSIVLAELQYGVSKSKKKEQNQSKLDIFLSRLEIIDFSAKCTFYYGELRTELEQKGLIIGNNDLLIASHAIAENATLVTNNIKFKRIPNLILENWD MIYMLGTNICVYAINKHPDSYYNNLELLAKNNTIAISSIVLAELQYGVSKSKKKEQNQSKLDIFLSRLEIIDFSAKCTFYYGELRTELEQKGLIIGNNDLLIASHAIAENATLVTNNIKFKRIPNLILENWD 3zvk-a1-m1-cD_3zvk-a1-m1-cB Crystal structure of VapBC2 from Rickettsia felis bound to a DNA fragment from their promoter Q4UNB2 Q4UNB2 2.5 X-RAY DIFFRACTION 11 1.0 42862 (Rickettsia felis) 42862 (Rickettsia felis) 132 133 MIYMLGTNICVYAINKHPDSYYNNLELLAKNNTIAISSIVLAELQYGVSKSKKKEQNQSKLDIFLSRLEIIDFSAKCTFYYGELRTELEQKGLIIGNNDLLIASHAIAENATLVTNNIKFKRIPNLILENWD MIYMLGTNICVYAINKHPDSYYNNLELLAKNNTIAISSIVLAELQYGVSKSKKKEQNQSKLDIFLSRLEIIDFSAKCTFYYGELRTELEQKGLIIGNNDLLIASHAIAENATLVTNNIKEFKRIPNLILENWD 3zvk-a1-m1-cE_3zvk-a1-m1-cH Crystal structure of VapBC2 from Rickettsia felis bound to a DNA fragment from their promoter Q4UNB3 Q4UNB3 2.5 X-RAY DIFFRACTION 122 0.982 42862 (Rickettsia felis) 42862 (Rickettsia felis) 57 57 3zvk-a1-m1-cG_3zvk-a1-m1-cF NKAKIFMNGQSQAVRLPKEFRFSVKEVSVIPLGKGIVLQPLPNSWKDVFQEMAEISS MNKAKIFMNGQSQAVRLPKEFRFSVKEVSVIPLGKGIVLQPLPNSWKDVFQEMAEIS 3zw5-a1-m1-cB_3zw5-a1-m1-cA Crystal structure of the human Glyoxalase domain-containing protein 5 A6NK44 A6NK44 1.6 X-RAY DIFFRACTION 188 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 132 IRRLDHIVMTVKSIKDTTMFYSKILGMEVMTFKEDRKALCFGDQKFNLHEVGKEFEPKAAHPVPGSLDICLITEVPLEEMIQHLKACDVPIEEGPVPRTGAKGPIMSIYFRDPDRNLIEVSNY ENLYFQSMLIRRLDHIVMTVKSIKDTTMFYSKILGMEVMTFKEDRKALCFGDQKFNLHEVGKEFEPKAAHPVPGSLDICLITEVPLEEMIQHLKACDVPIEEGPVPRTGAKGPIMSIYFRDPDRNLIEVSNY 3zw6-a1-m1-cE_3zw6-a1-m1-cF MODEL OF HEXAMERIC AAA DOMAIN ARRANGEMENT OF GREEN-TYPE RUBISCO ACTIVASE FROM TOBACCO. Q40460 Q40460 20.0 ELECTRON MICROSCOPY 92 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 263 263 3zw6-a1-m1-cA_3zw6-a1-m1-cB 3zw6-a1-m1-cA_3zw6-a1-m1-cF 3zw6-a1-m1-cB_3zw6-a1-m1-cC 3zw6-a1-m1-cC_3zw6-a1-m1-cD 3zw6-a1-m1-cD_3zw6-a1-m1-cE NLDNKLDGFYIAPAFMDKLVVHITKNFLKLPNIKVPLILGIWGGKGQGKSFQCELVFRKMGINPIMMSAGELESGEPAKLIRQRYREAAEIIRKGNMCCLFINDLDNNQMVNATLMNIADNPTENARVPIIVTGNDFSTAPLIRDGRMEKFYWAPTREDRIGVCTGIFRTDNVPAEDVVKIVDNFPGQSIDFFGALRARVYDDEVRKWVSGTGIEKIGDKLLNSFDGPPTFEQPKMTIEKLLEYGNMLVQEQENVKRVQLADK NLDNKLDGFYIAPAFMDKLVVHITKNFLKLPNIKVPLILGIWGGKGQGKSFQCELVFRKMGINPIMMSAGELESGEPAKLIRQRYREAAEIIRKGNMCCLFINDLDNNQMVNATLMNIADNPTENARVPIIVTGNDFSTAPLIRDGRMEKFYWAPTREDRIGVCTGIFRTDNVPAEDVVKIVDNFPGQSIDFFGALRARVYDDEVRKWVSGTGIEKIGDKLLNSFDGPPTFEQPKMTIEKLLEYGNMLVQEQENVKRVQLADK 3zw8-a1-m1-cB_3zw8-a1-m1-cA Crystal Structure Of Rat Peroxisomal Multifunctional Enzyme Type 1 (rpMFE1) In Apo Form P07896 P07896 2.5 X-RAY DIFFRACTION 55 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 720 725 SHMAEYLRLPHSLAMIRLCNPPVNAVSPTVIREVRNGLQKAGSDHTVKAIVICGANGNFCAGADIHGFSAFTPGLALGSLVDEIQRYQKPVLAAIQGVALGGGLELALGCHYRIANAKARVGLPEVTLGILPGARGTQLLPRVVGVPVALDLITSGKYLSADEALRLGILDAVVKSDPVEEAIKFAQKIIDKPIEPRRIFNKPVPSLPNMDSVFAEAIAKVRKQYPGVLAPETCVRSIQASVKHPYEVGIKEEEKLFMYLRASGQAKALQYAFFAEKSANKWSTPSGASWKTASAQPVSSVGVLGLGTMGRGIAISFARVGISVVAVESDPKQLDAAKKIITFTLEKEASRAHQNGQASAKPKLRFSSSTKELSTVDLVVEAVFEDMNLKKKVFAELSALCKPGAFLCTNTSALNVDDIASSTDRPQLVIGTHFFSPAHVMRLLEVIPSRYSSPTTIATVMSLSKKIGKIGVVVGNCYGFVGNRMLAPYYNQGFFLLEEGSKPEDVDGVLEEFGFKMGPFRVSDLAGLDVGWKIRKGQGLTGPSLPPGTPVRKRGNSRYSPLGDMLCEAGRFGQKTGKGWYQYDKPLGRIHKPDPWLSTFLSQYREVHHIEQRTISKEEILERCLYSLINEAFRILEEGMAARPEHIDVIYLHGYGWPRHKGGPMFYAASVGLPTVLEKLQKYYRQNPDIPQLEPSDYLRRLVAQGSPPLKEWQSLAGPH PRGSHMAEYLRLPHSLAMIRLCNPPVNAVSPTVIREVRNGLQKAGSDHTVKAIVICGANGNFCAGADIHGFSAFTPGLALGSLVDEIQRYQKPVLAAIQGVALGGGLELALGCHYRIANAKARVGLPEVTLGILPGARGTQLLPRVVGVPVALDLITSGKYLSADEALRLGILDAVVKSDPVEEAIKFAQKIIDKPIEPRRIFNKPVPSLPNMDSVFAEAIAKVRKQYPGVLAPETCVRSIQASVKHPYEVGIKEEEKLFMYLRASGQAKALQYAFFAEKSANKWSTPSGASWKTASAQPVSSVGVLGLGTMGRGIAISFARVGISVVAVESDPKQLDAAKKIITFTLEKEASRAHQNGQASAKPKLRFSSSTKELSTVDLVVEAVFEDMNLKKKVFAELSALCKPGAFLCTNTSALNVDDIASSTDRPQLVIGTHFFSPAHVMRLLEVIPSRYSSPTTIATVMSLSKKIGKIGVVVGNCYGFVGNRMLAPYYNQGFFLLEEGSKPEDVDGVLEEFGFKMGPFRVSDLAGLDVGWKIRKGQGLTGPSLPPGTPVRKRGNSRYSPLGDMLCEAGRFGQKTGKGWYQYDKPLGRIHKPDPWLSTFLSQYREVHHIEQRTISKEEILERCLYSLINEAFRILEEGMAARPEHIDVIYLHGYGWPRHKGGPMFYAASVGLPTVLEKLQKYYRQNPDIPQLEPSDYLRRLVAQGSPPLKEWQSLAGPHGS 3zwf-a1-m1-cA_3zwf-a1-m1-cB Crystal structure of Human tRNase Z, short form (ELAC1). Q9H777 Q9H777 1.7 X-RAY DIFFRACTION 93 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 MDVTFLGTGAAYPSPTRGASAVVLRCEGECWLFDCGEGTQTQLMKSQLKAGRITKIFITHLHGDHFFGLPGLLCTISLQSQPIEIYGPVGLRDFIWRTMELSHTELVFHYVVHELVPTADQCPAQGRTILLDSEENSYLLFDDEQFVVKAFRLFHRIPSFGFSVVEKKVGRKICILGDCSGVVGDGGVKLCFEADLLIHEATLDDAQMDKAKEHGHSTPQMAATFAKLCRAKRLVLTHFSQRYQEVTLAEDFMVISIPI MDVTFLGTGAAYPSPTRGASAVVLRCEGECWLFDCGEGTQTQLMKSQLKAGRITKIFITHLHGDHFFGLPGLLCTISLQSVSKQPIEIYGPVGLRDFIWRTMELSHTELVFHYVVHELVPTADQCPAQGRTILLDSEENSYLLFDDEQFVVKAFRLFHRIPSFGFSVVEKGRKICILGDCSGVVGDGGVKLCFEADLLIHEATLDDAQMDKAKEHGHSTPQMAATFAKLCRAKRLVLTHFSQRQEVTLAEDFMVISIPI 3zwq-a1-m1-cA_3zwq-a1-m2-cA HYPERTHERMOPHILIC ESTERASE FROM THE ARCHEON PYROBACULUM CALIDIFONTIS A3MVR4 A3MVR4 2 X-RAY DIFFRACTION 37 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 313 313 2yh2-a1-m1-cC_2yh2-a1-m1-cB 2yh2-a1-m1-cD_2yh2-a1-m1-cA 3zwq-a1-m1-cB_3zwq-a1-m2-cB MPLSPILRQILQQLAAQLQFRPDMDVKTVREQFEKSSLILVKMANEPIHRVEDITIPGRGGPIRARVYRPRDGERLPAVVYYHGGGFVLGSVETHDHVCRRLANLSGAVVVSVDYRLAPEHKFPAAVEDAYDAAKWVADNYDKLGVDNGKIAVAGDSAGGNLAAVTAIMARDRGESFVKYQVLIYPAVNLTGSPTVSRVEYSGPEYVILTADLMAWFGRQYFSKPQDALSPYASPIFADLSNLPPALVITAEYDPLRDEGELYAHLLKTRGVRAVAVRYNGVIHGFVNFYPILEEGREAVSQIAASIKSMAVA MPLSPILRQILQQLAAQLQFRPDMDVKTVREQFEKSSLILVKMANEPIHRVEDITIPGRGGPIRARVYRPRDGERLPAVVYYHGGGFVLGSVETHDHVCRRLANLSGAVVVSVDYRLAPEHKFPAAVEDAYDAAKWVADNYDKLGVDNGKIAVAGDSAGGNLAAVTAIMARDRGESFVKYQVLIYPAVNLTGSPTVSRVEYSGPEYVILTADLMAWFGRQYFSKPQDALSPYASPIFADLSNLPPALVITAEYDPLRDEGELYAHLLKTRGVRAVAVRYNGVIHGFVNFYPILEEGREAVSQIAASIKSMAVA 3zwq-a1-m2-cB_3zwq-a1-m1-cA HYPERTHERMOPHILIC ESTERASE FROM THE ARCHEON PYROBACULUM CALIDIFONTIS A3MVR4 A3MVR4 2 X-RAY DIFFRACTION 10 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 305 313 3zwq-a1-m1-cB_3zwq-a1-m2-cA MPLSPILRQILQQLDMDVKTVREQFEKSSLILVKMANEPIHRVEDITIPGRGGPIRARVYRPRDGERLPAVVYYHGGGFVLGSVETHDHVCRRLANLSGAVVVSVDYRLAPEHKFPAAVEDAYDAAKWVADNYDKLGVDNGKIAVAGDSAGGNLAAVTAIMARDRGESFVKYQVLIYPAVNLTGSPTVSRVEYSGPEYVILTADLMAWFGRQYFSKPQDALSPYASPIFADLSNLPPALVITAEYDPLRDEGELYAHLLKTRGVRAVAVRYNGVIHGFVNFYPILEEGREAVSQIAASIKSMAVA MPLSPILRQILQQLAAQLQFRPDMDVKTVREQFEKSSLILVKMANEPIHRVEDITIPGRGGPIRARVYRPRDGERLPAVVYYHGGGFVLGSVETHDHVCRRLANLSGAVVVSVDYRLAPEHKFPAAVEDAYDAAKWVADNYDKLGVDNGKIAVAGDSAGGNLAAVTAIMARDRGESFVKYQVLIYPAVNLTGSPTVSRVEYSGPEYVILTADLMAWFGRQYFSKPQDALSPYASPIFADLSNLPPALVITAEYDPLRDEGELYAHLLKTRGVRAVAVRYNGVIHGFVNFYPILEEGREAVSQIAASIKSMAVA 3zwq-a1-m2-cB_3zwq-a1-m2-cA HYPERTHERMOPHILIC ESTERASE FROM THE ARCHEON PYROBACULUM CALIDIFONTIS A3MVR4 A3MVR4 2 X-RAY DIFFRACTION 108 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 305 313 2yh2-a1-m1-cB_2yh2-a1-m1-cA 2yh2-a1-m1-cC_2yh2-a1-m1-cD 3zwq-a1-m1-cB_3zwq-a1-m1-cA MPLSPILRQILQQLDMDVKTVREQFEKSSLILVKMANEPIHRVEDITIPGRGGPIRARVYRPRDGERLPAVVYYHGGGFVLGSVETHDHVCRRLANLSGAVVVSVDYRLAPEHKFPAAVEDAYDAAKWVADNYDKLGVDNGKIAVAGDSAGGNLAAVTAIMARDRGESFVKYQVLIYPAVNLTGSPTVSRVEYSGPEYVILTADLMAWFGRQYFSKPQDALSPYASPIFADLSNLPPALVITAEYDPLRDEGELYAHLLKTRGVRAVAVRYNGVIHGFVNFYPILEEGREAVSQIAASIKSMAVA MPLSPILRQILQQLAAQLQFRPDMDVKTVREQFEKSSLILVKMANEPIHRVEDITIPGRGGPIRARVYRPRDGERLPAVVYYHGGGFVLGSVETHDHVCRRLANLSGAVVVSVDYRLAPEHKFPAAVEDAYDAAKWVADNYDKLGVDNGKIAVAGDSAGGNLAAVTAIMARDRGESFVKYQVLIYPAVNLTGSPTVSRVEYSGPEYVILTADLMAWFGRQYFSKPQDALSPYASPIFADLSNLPPALVITAEYDPLRDEGELYAHLLKTRGVRAVAVRYNGVIHGFVNFYPILEEGREAVSQIAASIKSMAVA 3zx3-a2-m1-cC_3zx3-a2-m1-cD Crystal Structure and Domain Rotation of NTPDase1 CD39 P97687 P97687 1.7 X-RAY DIFFRACTION 64 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 393 397 3zx0-a1-m1-cA_3zx0-a1-m1-cB 3zx0-a2-m1-cC_3zx0-a2-m1-cD 3zx2-a1-m1-cA_3zx2-a1-m1-cB 3zx2-a2-m1-cC_3zx2-a2-m1-cD 3zx3-a1-m1-cA_3zx3-a1-m1-cB VKYGIVLDAGSSHTNLYIYKWPVVQQLEECQVKGPGISKYAQKTDEIAAYLAECMKMSTERIPASKQHQTPVYLGATAGMRLLRMESKQSADEVLAAVSRSLKSYPFDFQGAKIITGQEEGAYGWITINYLLGRFKGSTFGALDLGGASTQITFVPLNSTLEAPETSLQFRLYGTDYTVYTHSFLCYGKDQALWQKLAQDIQVSSGGILKDPCFYPGYKKVVNVSELYGTPCTKRFEKKLPFNQFQVQGTGDYEQCHQSILKIFNNSHCPYSQCAFNGVFLPPLQGSFGAFSAFYFVMDFFKKMASSQEKMTEITKNFCSKPWEEVKASYPTVKEKYLSEYCFSGTYILSLLLQGYNFTGTSWDQIHFMGKIKDSNAGWTLGYMLNLTNMIPA NVKYGIVLDAGSSHTNLYIYKWPAVVQQLEECQVKGPGISKYAQKTDEIAAYLAECMKMSTERIPASKQHQTPVYLGATAGMRLLRMESKQSADEVLAAVSRSLKSYPFDFQGAKIITGQEEGAYGWITINYLLGRFKGSTFGALDLGGASTQITFVPLNSTLEAPETSLQFRLYGTDYTVYTHSFLCYGKDQALWQKLAQDIQVSSGGILKDPCFYPGYKKVVNVSELYGTPCTKRFEKKLPFNQFQVQGTGDYEQCHQSILKIFNNSHCPYSQCAFNGVFLPPLQGSFGAFSAFYFVMDFFKKMANDSVSSQEKMTEITKNFCSKPWEEVKASYPTVKEKYLSEYCFSGTYILSLLLQGYNFTGTSWDQIHFMGKIKDSNAGWTLGYMLNLTNMI 3zx6-a1-m1-cA_3zx6-a1-m1-cB Structure of Hamp(AF1503)-Tsr fusion - Hamp (A291V) mutant P02942 P02942 2.65 X-RAY DIFFRACTION 415 0.997 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 303 303 2y0q-a1-m1-cA_2y0q-a1-m1-cB 2y0q-a2-m1-cC_2y0q-a2-m1-cD 2y20-a1-m1-cA_2y20-a1-m1-cB 2y20-a2-m1-cD_2y20-a2-m1-cC 2y20-a3-m1-cE_2y20-a3-m1-cF 2y21-a1-m1-cK_2y21-a1-m1-cL 2y21-a3-m1-cH_2y21-a3-m1-cG 2y21-a4-m1-cE_2y21-a4-m1-cF 2y21-a5-m1-cC_2y21-a5-m1-cD TITRPIIELSNTVDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLMRTVGDVRNGANAIYSGASEIATGNNDLSSRTEQQAASLEETAASMEQLTATVKQNAENARQASHLALSASETAQRGGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGETMAEIVSAVTRVTDIMGEIASASDEQSRGIDQVGLAVAEMDRVTQQNAALVEESAAAAAALEEQASRLTEAVAVFRIQ STITRPIIELSNTVDKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLMRTVGDVRNGANAIYSGASEIATGNNDLSSRTEQQAASLEETAASMEQLTATVKQNAENARQASHLALSASETAQRGGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGETMAEIVSAVTRVTDIMGEIASASDEQSRGIDQVGLAVAEMDRVTQQNAALVEESAAAAAALEEQASRLTEAVAVFRI 3zx8-a1-m8-cA_3zx8-a1-m9-cA Cryo-EM reconstruction of native and expanded Turnip Crinkle virus P06663 P06663 11.5 ELECTRON MICROSCOPY 53 1.0 11988 (Turnip crinkle virus) 11988 (Turnip crinkle virus) 267 267 3zx8-a1-m10-cA_3zx8-a1-m6-cA 3zx8-a1-m10-cA_3zx8-a1-m9-cA 3zx8-a1-m10-cB_3zx8-a1-m6-cC 3zx8-a1-m11-cA_3zx8-a1-m12-cA 3zx8-a1-m11-cA_3zx8-a1-m15-cA 3zx8-a1-m11-cB_3zx8-a1-m12-cC 3zx8-a1-m12-cA_3zx8-a1-m13-cA 3zx8-a1-m12-cB_3zx8-a1-m13-cC 3zx8-a1-m13-cA_3zx8-a1-m14-cA 3zx8-a1-m13-cB_3zx8-a1-m14-cC 3zx8-a1-m14-cA_3zx8-a1-m15-cA 3zx8-a1-m14-cB_3zx8-a1-m15-cC 3zx8-a1-m15-cB_3zx8-a1-m11-cC 3zx8-a1-m16-cA_3zx8-a1-m17-cA 3zx8-a1-m16-cA_3zx8-a1-m20-cA 3zx8-a1-m16-cB_3zx8-a1-m17-cC 3zx8-a1-m17-cA_3zx8-a1-m18-cA 3zx8-a1-m17-cB_3zx8-a1-m18-cC 3zx8-a1-m18-cA_3zx8-a1-m19-cA 3zx8-a1-m18-cB_3zx8-a1-m19-cC 3zx8-a1-m19-cA_3zx8-a1-m20-cA 3zx8-a1-m19-cB_3zx8-a1-m20-cC 3zx8-a1-m1-cA_3zx8-a1-m2-cA 3zx8-a1-m1-cA_3zx8-a1-m5-cA 3zx8-a1-m1-cB_3zx8-a1-m2-cC 3zx8-a1-m20-cB_3zx8-a1-m16-cC 3zx8-a1-m21-cA_3zx8-a1-m22-cA 3zx8-a1-m21-cA_3zx8-a1-m25-cA 3zx8-a1-m21-cB_3zx8-a1-m22-cC 3zx8-a1-m22-cA_3zx8-a1-m23-cA 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3zx9-a1-m59-cA_3zx9-a1-m60-cA 3zx9-a1-m59-cB_3zx9-a1-m60-cC 3zx9-a1-m5-cB_3zx9-a1-m1-cC 3zx9-a1-m60-cB_3zx9-a1-m56-cC 3zx9-a1-m6-cA_3zx9-a1-m7-cA 3zx9-a1-m6-cB_3zx9-a1-m7-cC 3zx9-a1-m7-cA_3zx9-a1-m8-cA 3zx9-a1-m7-cB_3zx9-a1-m8-cC 3zx9-a1-m8-cA_3zx9-a1-m9-cA 3zx9-a1-m8-cB_3zx9-a1-m9-cC 3zx9-a1-m9-cB_3zx9-a1-m10-cC GITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI GITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI 3zx8-a1-m9-cA_3zx8-a1-m9-cB Cryo-EM reconstruction of native and expanded Turnip Crinkle virus P06663 P06663 11.5 ELECTRON MICROSCOPY 43 1.0 11988 (Turnip crinkle virus) 11988 (Turnip crinkle virus) 267 267 3zx8-a1-m10-cA_3zx8-a1-m10-cB 3zx8-a1-m10-cA_3zx8-a1-m10-cC 3zx8-a1-m10-cB_3zx8-a1-m10-cC 3zx8-a1-m11-cA_3zx8-a1-m11-cB 3zx8-a1-m11-cA_3zx8-a1-m11-cC 3zx8-a1-m11-cB_3zx8-a1-m11-cC 3zx8-a1-m12-cA_3zx8-a1-m12-cB 3zx8-a1-m12-cA_3zx8-a1-m12-cC 3zx8-a1-m12-cB_3zx8-a1-m12-cC 3zx8-a1-m13-cA_3zx8-a1-m13-cB 3zx8-a1-m13-cA_3zx8-a1-m13-cC 3zx8-a1-m13-cB_3zx8-a1-m13-cC 3zx8-a1-m14-cA_3zx8-a1-m14-cB 3zx8-a1-m14-cA_3zx8-a1-m14-cC 3zx8-a1-m14-cB_3zx8-a1-m14-cC 3zx8-a1-m15-cA_3zx8-a1-m15-cB 3zx8-a1-m15-cA_3zx8-a1-m15-cC 3zx8-a1-m15-cB_3zx8-a1-m15-cC 3zx8-a1-m16-cA_3zx8-a1-m16-cB 3zx8-a1-m16-cA_3zx8-a1-m16-cC 3zx8-a1-m16-cB_3zx8-a1-m16-cC 3zx8-a1-m17-cA_3zx8-a1-m17-cB 3zx8-a1-m17-cA_3zx8-a1-m17-cC 3zx8-a1-m17-cB_3zx8-a1-m17-cC 3zx8-a1-m18-cA_3zx8-a1-m18-cB 3zx8-a1-m18-cA_3zx8-a1-m18-cC 3zx8-a1-m18-cB_3zx8-a1-m18-cC 3zx8-a1-m19-cA_3zx8-a1-m19-cB 3zx8-a1-m19-cA_3zx8-a1-m19-cC 3zx8-a1-m19-cB_3zx8-a1-m19-cC 3zx8-a1-m1-cA_3zx8-a1-m1-cB 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3zx8-a1-m5-cA_3zx8-a1-m5-cC 3zx8-a1-m5-cB_3zx8-a1-m5-cC 3zx8-a1-m60-cA_3zx8-a1-m60-cB 3zx8-a1-m60-cA_3zx8-a1-m60-cC 3zx8-a1-m60-cB_3zx8-a1-m60-cC 3zx8-a1-m6-cA_3zx8-a1-m6-cB 3zx8-a1-m6-cA_3zx8-a1-m6-cC 3zx8-a1-m6-cB_3zx8-a1-m6-cC 3zx8-a1-m7-cA_3zx8-a1-m7-cB 3zx8-a1-m7-cA_3zx8-a1-m7-cC 3zx8-a1-m7-cB_3zx8-a1-m7-cC 3zx8-a1-m8-cA_3zx8-a1-m8-cB 3zx8-a1-m8-cA_3zx8-a1-m8-cC 3zx8-a1-m8-cB_3zx8-a1-m8-cC 3zx8-a1-m9-cA_3zx8-a1-m9-cC 3zx8-a1-m9-cB_3zx8-a1-m9-cC GITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI GITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI 3zx9-a1-m55-cB_3zx9-a1-m9-cC Cryo-EM reconstruction of native and expanded Turnip Crinkle virus P06663 P06663 17.0 ELECTRON MICROSCOPY 91 1.0 11988 (Turnip crinkle virus) 11988 (Turnip crinkle virus) 267 294 3zx8-a1-m10-cB_3zx8-a1-m24-cC 3zx8-a1-m11-cB_3zx8-a1-m16-cC 3zx8-a1-m12-cB_3zx8-a1-m38-cC 3zx8-a1-m13-cB_3zx8-a1-m47-cC 3zx8-a1-m14-cB_3zx8-a1-m45-cC 3zx8-a1-m15-cB_3zx8-a1-m29-cC 3zx8-a1-m16-cB_3zx8-a1-m11-cC 3zx8-a1-m17-cB_3zx8-a1-m28-cC 3zx8-a1-m18-cB_3zx8-a1-m52-cC 3zx8-a1-m19-cB_3zx8-a1-m60-cC 3zx8-a1-m1-cB_3zx8-a1-m6-cC 3zx8-a1-m20-cB_3zx8-a1-m39-cC 3zx8-a1-m21-cB_3zx8-a1-m26-cC 3zx8-a1-m22-cB_3zx8-a1-m43-cC 3zx8-a1-m23-cB_3zx8-a1-m2-cC 3zx8-a1-m24-cB_3zx8-a1-m10-cC 3zx8-a1-m25-cB_3zx8-a1-m54-cC 3zx8-a1-m26-cB_3zx8-a1-m21-cC 3zx8-a1-m27-cB_3zx8-a1-m53-cC 3zx8-a1-m28-cB_3zx8-a1-m17-cC 3zx8-a1-m29-cB_3zx8-a1-m15-cC 3zx8-a1-m2-cB_3zx8-a1-m23-cC 3zx8-a1-m30-cB_3zx8-a1-m44-cC 3zx8-a1-m31-cB_3zx8-a1-m36-cC 3zx8-a1-m32-cB_3zx8-a1-m58-cC 3zx8-a1-m33-cB_3zx8-a1-m7-cC 3zx8-a1-m34-cB_3zx8-a1-m5-cC 3zx8-a1-m35-cB_3zx8-a1-m49-cC 3zx8-a1-m36-cB_3zx8-a1-m31-cC 3zx8-a1-m37-cB_3zx8-a1-m48-cC 3zx8-a1-m38-cB_3zx8-a1-m12-cC 3zx8-a1-m39-cB_3zx8-a1-m20-cC 3zx8-a1-m3-cB_3zx8-a1-m42-cC 3zx8-a1-m40-cB_3zx8-a1-m59-cC 3zx8-a1-m41-cB_3zx8-a1-m46-cC 3zx8-a1-m42-cB_3zx8-a1-m3-cC 3zx8-a1-m43-cB_3zx8-a1-m22-cC 3zx8-a1-m44-cB_3zx8-a1-m30-cC 3zx8-a1-m45-cB_3zx8-a1-m14-cC 3zx8-a1-m46-cB_3zx8-a1-m41-cC 3zx8-a1-m47-cB_3zx8-a1-m13-cC 3zx8-a1-m48-cB_3zx8-a1-m37-cC 3zx8-a1-m49-cB_3zx8-a1-m35-cC 3zx8-a1-m4-cB_3zx8-a1-m50-cC 3zx8-a1-m50-cB_3zx8-a1-m4-cC 3zx8-a1-m51-cB_3zx8-a1-m56-cC 3zx8-a1-m52-cB_3zx8-a1-m18-cC 3zx8-a1-m53-cB_3zx8-a1-m27-cC 3zx8-a1-m54-cB_3zx8-a1-m25-cC 3zx8-a1-m55-cB_3zx8-a1-m9-cC 3zx8-a1-m56-cB_3zx8-a1-m51-cC 3zx8-a1-m57-cB_3zx8-a1-m8-cC 3zx8-a1-m58-cB_3zx8-a1-m32-cC 3zx8-a1-m59-cB_3zx8-a1-m40-cC 3zx8-a1-m5-cB_3zx8-a1-m34-cC 3zx8-a1-m60-cB_3zx8-a1-m19-cC 3zx8-a1-m6-cB_3zx8-a1-m1-cC 3zx8-a1-m7-cB_3zx8-a1-m33-cC 3zx8-a1-m8-cB_3zx8-a1-m57-cC 3zx8-a1-m9-cB_3zx8-a1-m55-cC 3zx9-a1-m10-cB_3zx9-a1-m24-cC 3zx9-a1-m11-cB_3zx9-a1-m16-cC 3zx9-a1-m12-cB_3zx9-a1-m38-cC 3zx9-a1-m13-cB_3zx9-a1-m47-cC 3zx9-a1-m14-cB_3zx9-a1-m45-cC 3zx9-a1-m15-cB_3zx9-a1-m29-cC 3zx9-a1-m16-cB_3zx9-a1-m11-cC 3zx9-a1-m17-cB_3zx9-a1-m28-cC 3zx9-a1-m18-cB_3zx9-a1-m52-cC 3zx9-a1-m19-cB_3zx9-a1-m60-cC 3zx9-a1-m1-cB_3zx9-a1-m6-cC 3zx9-a1-m20-cB_3zx9-a1-m39-cC 3zx9-a1-m21-cB_3zx9-a1-m26-cC 3zx9-a1-m22-cB_3zx9-a1-m43-cC 3zx9-a1-m23-cB_3zx9-a1-m2-cC 3zx9-a1-m24-cB_3zx9-a1-m10-cC 3zx9-a1-m25-cB_3zx9-a1-m54-cC 3zx9-a1-m26-cB_3zx9-a1-m21-cC 3zx9-a1-m27-cB_3zx9-a1-m53-cC 3zx9-a1-m28-cB_3zx9-a1-m17-cC 3zx9-a1-m29-cB_3zx9-a1-m15-cC 3zx9-a1-m2-cB_3zx9-a1-m23-cC 3zx9-a1-m30-cB_3zx9-a1-m44-cC 3zx9-a1-m31-cB_3zx9-a1-m36-cC 3zx9-a1-m32-cB_3zx9-a1-m58-cC 3zx9-a1-m33-cB_3zx9-a1-m7-cC 3zx9-a1-m34-cB_3zx9-a1-m5-cC 3zx9-a1-m35-cB_3zx9-a1-m49-cC 3zx9-a1-m36-cB_3zx9-a1-m31-cC 3zx9-a1-m37-cB_3zx9-a1-m48-cC 3zx9-a1-m38-cB_3zx9-a1-m12-cC 3zx9-a1-m39-cB_3zx9-a1-m20-cC 3zx9-a1-m3-cB_3zx9-a1-m42-cC 3zx9-a1-m40-cB_3zx9-a1-m59-cC 3zx9-a1-m41-cB_3zx9-a1-m46-cC 3zx9-a1-m42-cB_3zx9-a1-m3-cC 3zx9-a1-m43-cB_3zx9-a1-m22-cC 3zx9-a1-m44-cB_3zx9-a1-m30-cC 3zx9-a1-m45-cB_3zx9-a1-m14-cC 3zx9-a1-m46-cB_3zx9-a1-m41-cC 3zx9-a1-m47-cB_3zx9-a1-m13-cC 3zx9-a1-m48-cB_3zx9-a1-m37-cC 3zx9-a1-m49-cB_3zx9-a1-m35-cC 3zx9-a1-m4-cB_3zx9-a1-m50-cC 3zx9-a1-m50-cB_3zx9-a1-m4-cC 3zx9-a1-m51-cB_3zx9-a1-m56-cC 3zx9-a1-m52-cB_3zx9-a1-m18-cC 3zx9-a1-m53-cB_3zx9-a1-m27-cC 3zx9-a1-m54-cB_3zx9-a1-m25-cC 3zx9-a1-m56-cB_3zx9-a1-m51-cC 3zx9-a1-m57-cB_3zx9-a1-m8-cC 3zx9-a1-m58-cB_3zx9-a1-m32-cC 3zx9-a1-m59-cB_3zx9-a1-m40-cC 3zx9-a1-m5-cB_3zx9-a1-m34-cC 3zx9-a1-m60-cB_3zx9-a1-m19-cC 3zx9-a1-m6-cB_3zx9-a1-m1-cC 3zx9-a1-m7-cB_3zx9-a1-m33-cC 3zx9-a1-m8-cB_3zx9-a1-m57-cC 3zx9-a1-m9-cB_3zx9-a1-m55-cC GITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI KVTRLSAPVALAYREVSTQPRVSTARDGITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI 3zx9-a1-m55-cC_3zx9-a1-m9-cC Cryo-EM reconstruction of native and expanded Turnip Crinkle virus P06663 P06663 17.0 ELECTRON MICROSCOPY 41 1.0 11988 (Turnip crinkle virus) 11988 (Turnip crinkle virus) 294 294 3zx9-a1-m10-cC_3zx9-a1-m24-cC 3zx9-a1-m11-cC_3zx9-a1-m16-cC 3zx9-a1-m12-cC_3zx9-a1-m38-cC 3zx9-a1-m13-cC_3zx9-a1-m47-cC 3zx9-a1-m14-cC_3zx9-a1-m45-cC 3zx9-a1-m15-cC_3zx9-a1-m29-cC 3zx9-a1-m17-cC_3zx9-a1-m28-cC 3zx9-a1-m18-cC_3zx9-a1-m52-cC 3zx9-a1-m19-cC_3zx9-a1-m60-cC 3zx9-a1-m1-cC_3zx9-a1-m6-cC 3zx9-a1-m20-cC_3zx9-a1-m39-cC 3zx9-a1-m21-cC_3zx9-a1-m26-cC 3zx9-a1-m22-cC_3zx9-a1-m43-cC 3zx9-a1-m25-cC_3zx9-a1-m54-cC 3zx9-a1-m27-cC_3zx9-a1-m53-cC 3zx9-a1-m2-cC_3zx9-a1-m23-cC 3zx9-a1-m30-cC_3zx9-a1-m44-cC 3zx9-a1-m31-cC_3zx9-a1-m36-cC 3zx9-a1-m32-cC_3zx9-a1-m58-cC 3zx9-a1-m33-cC_3zx9-a1-m7-cC 3zx9-a1-m34-cC_3zx9-a1-m5-cC 3zx9-a1-m35-cC_3zx9-a1-m49-cC 3zx9-a1-m37-cC_3zx9-a1-m48-cC 3zx9-a1-m3-cC_3zx9-a1-m42-cC 3zx9-a1-m40-cC_3zx9-a1-m59-cC 3zx9-a1-m41-cC_3zx9-a1-m46-cC 3zx9-a1-m4-cC_3zx9-a1-m50-cC 3zx9-a1-m51-cC_3zx9-a1-m56-cC 3zx9-a1-m57-cC_3zx9-a1-m8-cC KVTRLSAPVALAYREVSTQPRVSTARDGITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI KVTRLSAPVALAYREVSTQPRVSTARDGITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI 3zxa-a1-m55-cC_3zxa-a1-m9-cC Structure and Assembly of Turnip Crinkle Virus I. X-ray Crystallographic Structure Analysis at 3.2 A Resolution P06663 P06663 3.2 X-RAY DIFFRACTION 88 1.0 11988 (Turnip crinkle virus) 11988 (Turnip crinkle virus) 295 295 3zx8-a1-m10-cA_3zx8-a1-m9-cB 3zx8-a1-m10-cB_3zx8-a1-m6-cA 3zx8-a1-m10-cC_3zx8-a1-m24-cC 3zx8-a1-m11-cA_3zx8-a1-m15-cB 3zx8-a1-m11-cB_3zx8-a1-m12-cA 3zx8-a1-m11-cC_3zx8-a1-m16-cC 3zx8-a1-m12-cB_3zx8-a1-m13-cA 3zx8-a1-m12-cC_3zx8-a1-m38-cC 3zx8-a1-m13-cB_3zx8-a1-m14-cA 3zx8-a1-m13-cC_3zx8-a1-m47-cC 3zx8-a1-m14-cB_3zx8-a1-m15-cA 3zx8-a1-m14-cC_3zx8-a1-m45-cC 3zx8-a1-m15-cC_3zx8-a1-m29-cC 3zx8-a1-m16-cA_3zx8-a1-m20-cB 3zx8-a1-m16-cB_3zx8-a1-m17-cA 3zx8-a1-m17-cB_3zx8-a1-m18-cA 3zx8-a1-m17-cC_3zx8-a1-m28-cC 3zx8-a1-m18-cB_3zx8-a1-m19-cA 3zx8-a1-m18-cC_3zx8-a1-m52-cC 3zx8-a1-m19-cB_3zx8-a1-m20-cA 3zx8-a1-m19-cC_3zx8-a1-m60-cC 3zx8-a1-m1-cA_3zx8-a1-m5-cB 3zx8-a1-m1-cB_3zx8-a1-m2-cA 3zx8-a1-m1-cC_3zx8-a1-m6-cC 3zx8-a1-m20-cC_3zx8-a1-m39-cC 3zx8-a1-m21-cA_3zx8-a1-m25-cB 3zx8-a1-m21-cB_3zx8-a1-m22-cA 3zx8-a1-m21-cC_3zx8-a1-m26-cC 3zx8-a1-m22-cB_3zx8-a1-m23-cA 3zx8-a1-m22-cC_3zx8-a1-m43-cC 3zx8-a1-m23-cB_3zx8-a1-m24-cA 3zx8-a1-m24-cB_3zx8-a1-m25-cA 3zx8-a1-m25-cC_3zx8-a1-m54-cC 3zx8-a1-m26-cA_3zx8-a1-m30-cB 3zx8-a1-m26-cB_3zx8-a1-m27-cA 3zx8-a1-m27-cB_3zx8-a1-m28-cA 3zx8-a1-m27-cC_3zx8-a1-m53-cC 3zx8-a1-m28-cB_3zx8-a1-m29-cA 3zx8-a1-m29-cB_3zx8-a1-m30-cA 3zx8-a1-m2-cB_3zx8-a1-m3-cA 3zx8-a1-m2-cC_3zx8-a1-m23-cC 3zx8-a1-m30-cC_3zx8-a1-m44-cC 3zx8-a1-m31-cA_3zx8-a1-m35-cB 3zx8-a1-m31-cB_3zx8-a1-m32-cA 3zx8-a1-m31-cC_3zx8-a1-m36-cC 3zx8-a1-m32-cB_3zx8-a1-m33-cA 3zx8-a1-m32-cC_3zx8-a1-m58-cC 3zx8-a1-m33-cB_3zx8-a1-m34-cA 3zx8-a1-m33-cC_3zx8-a1-m7-cC 3zx8-a1-m34-cB_3zx8-a1-m35-cA 3zx8-a1-m34-cC_3zx8-a1-m5-cC 3zx8-a1-m35-cC_3zx8-a1-m49-cC 3zx8-a1-m36-cA_3zx8-a1-m40-cB 3zx8-a1-m36-cB_3zx8-a1-m37-cA 3zx8-a1-m37-cB_3zx8-a1-m38-cA 3zx8-a1-m37-cC_3zx8-a1-m48-cC 3zx8-a1-m38-cB_3zx8-a1-m39-cA 3zx8-a1-m39-cB_3zx8-a1-m40-cA 3zx8-a1-m3-cB_3zx8-a1-m4-cA 3zx8-a1-m3-cC_3zx8-a1-m42-cC 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3zxa-a1-m1-cC_3zxa-a1-m6-cC 3zxa-a1-m20-cC_3zxa-a1-m39-cC 3zxa-a1-m21-cC_3zxa-a1-m26-cC 3zxa-a1-m22-cC_3zxa-a1-m43-cC 3zxa-a1-m25-cC_3zxa-a1-m54-cC 3zxa-a1-m27-cC_3zxa-a1-m53-cC 3zxa-a1-m2-cC_3zxa-a1-m23-cC 3zxa-a1-m30-cC_3zxa-a1-m44-cC 3zxa-a1-m31-cC_3zxa-a1-m36-cC 3zxa-a1-m32-cC_3zxa-a1-m58-cC 3zxa-a1-m33-cC_3zxa-a1-m7-cC 3zxa-a1-m34-cC_3zxa-a1-m5-cC 3zxa-a1-m35-cC_3zxa-a1-m49-cC 3zxa-a1-m37-cC_3zxa-a1-m48-cC 3zxa-a1-m3-cC_3zxa-a1-m42-cC 3zxa-a1-m40-cC_3zxa-a1-m59-cC 3zxa-a1-m41-cC_3zxa-a1-m46-cC 3zxa-a1-m4-cC_3zxa-a1-m50-cC 3zxa-a1-m51-cC_3zxa-a1-m56-cC 3zxa-a1-m57-cC_3zxa-a1-m8-cC QKVTRLSAPVALAYREVSTQPRVSTARDGITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI 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X-ray Crystallographic Structure Analysis at 3.2 A Resolution P06663 P06663 3.2 X-RAY DIFFRACTION 24 1.0 11988 (Turnip crinkle virus) 11988 (Turnip crinkle virus) 295 295 3zx8-a1-m10-cC_3zx8-a1-m25-cC 3zx8-a1-m10-cC_3zx8-a1-m55-cC 3zx8-a1-m11-cC_3zx8-a1-m17-cC 3zx8-a1-m11-cC_3zx8-a1-m29-cC 3zx8-a1-m12-cC_3zx8-a1-m16-cC 3zx8-a1-m12-cC_3zx8-a1-m39-cC 3zx8-a1-m13-cC_3zx8-a1-m38-cC 3zx8-a1-m13-cC_3zx8-a1-m48-cC 3zx8-a1-m14-cC_3zx8-a1-m41-cC 3zx8-a1-m14-cC_3zx8-a1-m47-cC 3zx8-a1-m15-cC_3zx8-a1-m30-cC 3zx8-a1-m15-cC_3zx8-a1-m45-cC 3zx8-a1-m16-cC_3zx8-a1-m39-cC 3zx8-a1-m17-cC_3zx8-a1-m29-cC 3zx8-a1-m18-cC_3zx8-a1-m28-cC 3zx8-a1-m18-cC_3zx8-a1-m53-cC 3zx8-a1-m19-cC_3zx8-a1-m52-cC 3zx8-a1-m19-cC_3zx8-a1-m56-cC 3zx8-a1-m1-cC_3zx8-a1-m34-cC 3zx8-a1-m1-cC_3zx8-a1-m7-cC 3zx8-a1-m20-cC_3zx8-a1-m40-cC 3zx8-a1-m20-cC_3zx8-a1-m60-cC 3zx8-a1-m21-cC_3zx8-a1-m27-cC 3zx8-a1-m21-cC_3zx8-a1-m54-cC 3zx8-a1-m22-cC_3zx8-a1-m26-cC 3zx8-a1-m22-cC_3zx8-a1-m44-cC 3zx8-a1-m23-cC_3zx8-a1-m3-cC 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3zx9-a1-m10-cC_3zx9-a1-m25-cC 3zx9-a1-m10-cC_3zx9-a1-m55-cC 3zx9-a1-m11-cC_3zx9-a1-m17-cC 3zx9-a1-m11-cC_3zx9-a1-m29-cC 3zx9-a1-m12-cC_3zx9-a1-m16-cC 3zx9-a1-m12-cC_3zx9-a1-m39-cC 3zx9-a1-m13-cC_3zx9-a1-m38-cC 3zx9-a1-m13-cC_3zx9-a1-m48-cC 3zx9-a1-m14-cC_3zx9-a1-m41-cC 3zx9-a1-m14-cC_3zx9-a1-m47-cC 3zx9-a1-m15-cC_3zx9-a1-m30-cC 3zx9-a1-m15-cC_3zx9-a1-m45-cC 3zx9-a1-m16-cC_3zx9-a1-m39-cC 3zx9-a1-m17-cC_3zx9-a1-m29-cC 3zx9-a1-m18-cC_3zx9-a1-m28-cC 3zx9-a1-m18-cC_3zx9-a1-m53-cC 3zx9-a1-m19-cC_3zx9-a1-m52-cC 3zx9-a1-m19-cC_3zx9-a1-m56-cC 3zx9-a1-m1-cC_3zx9-a1-m34-cC 3zx9-a1-m1-cC_3zx9-a1-m7-cC 3zx9-a1-m20-cC_3zx9-a1-m40-cC 3zx9-a1-m20-cC_3zx9-a1-m60-cC 3zx9-a1-m21-cC_3zx9-a1-m27-cC 3zx9-a1-m21-cC_3zx9-a1-m54-cC 3zx9-a1-m22-cC_3zx9-a1-m26-cC 3zx9-a1-m22-cC_3zx9-a1-m44-cC 3zx9-a1-m23-cC_3zx9-a1-m3-cC 3zx9-a1-m23-cC_3zx9-a1-m43-cC 3zx9-a1-m24-cC_3zx9-a1-m6-cC 3zx9-a1-m25-cC_3zx9-a1-m55-cC 3zx9-a1-m26-cC_3zx9-a1-m44-cC 3zx9-a1-m27-cC_3zx9-a1-m54-cC 3zx9-a1-m28-cC_3zx9-a1-m53-cC 3zx9-a1-m2-cC_3zx9-a1-m24-cC 3zx9-a1-m2-cC_3zx9-a1-m6-cC 3zx9-a1-m30-cC_3zx9-a1-m45-cC 3zx9-a1-m31-cC_3zx9-a1-m37-cC 3zx9-a1-m31-cC_3zx9-a1-m49-cC 3zx9-a1-m32-cC_3zx9-a1-m36-cC 3zx9-a1-m32-cC_3zx9-a1-m59-cC 3zx9-a1-m33-cC_3zx9-a1-m58-cC 3zx9-a1-m33-cC_3zx9-a1-m8-cC 3zx9-a1-m34-cC_3zx9-a1-m7-cC 3zx9-a1-m35-cC_3zx9-a1-m50-cC 3zx9-a1-m35-cC_3zx9-a1-m5-cC 3zx9-a1-m36-cC_3zx9-a1-m59-cC 3zx9-a1-m37-cC_3zx9-a1-m49-cC 3zx9-a1-m38-cC_3zx9-a1-m48-cC 3zx9-a1-m3-cC_3zx9-a1-m43-cC 3zx9-a1-m40-cC_3zx9-a1-m60-cC 3zx9-a1-m41-cC_3zx9-a1-m47-cC 3zx9-a1-m42-cC_3zx9-a1-m46-cC 3zx9-a1-m4-cC_3zx9-a1-m42-cC 3zx9-a1-m4-cC_3zx9-a1-m46-cC 3zx9-a1-m51-cC_3zx9-a1-m57-cC 3zx9-a1-m51-cC_3zx9-a1-m9-cC 3zx9-a1-m52-cC_3zx9-a1-m56-cC 3zx9-a1-m57-cC_3zx9-a1-m9-cC 3zx9-a1-m58-cC_3zx9-a1-m8-cC 3zx9-a1-m5-cC_3zx9-a1-m50-cC 3zxa-a1-m10-cC_3zxa-a1-m25-cC 3zxa-a1-m10-cC_3zxa-a1-m55-cC 3zxa-a1-m11-cC_3zxa-a1-m17-cC 3zxa-a1-m11-cC_3zxa-a1-m29-cC 3zxa-a1-m12-cC_3zxa-a1-m16-cC 3zxa-a1-m12-cC_3zxa-a1-m39-cC 3zxa-a1-m13-cC_3zxa-a1-m38-cC 3zxa-a1-m13-cC_3zxa-a1-m48-cC 3zxa-a1-m14-cC_3zxa-a1-m41-cC 3zxa-a1-m14-cC_3zxa-a1-m47-cC 3zxa-a1-m15-cC_3zxa-a1-m30-cC 3zxa-a1-m15-cC_3zxa-a1-m45-cC 3zxa-a1-m16-cC_3zxa-a1-m39-cC 3zxa-a1-m17-cC_3zxa-a1-m29-cC 3zxa-a1-m18-cC_3zxa-a1-m28-cC 3zxa-a1-m18-cC_3zxa-a1-m53-cC 3zxa-a1-m19-cC_3zxa-a1-m52-cC 3zxa-a1-m19-cC_3zxa-a1-m56-cC 3zxa-a1-m1-cC_3zxa-a1-m34-cC 3zxa-a1-m1-cC_3zxa-a1-m7-cC 3zxa-a1-m20-cC_3zxa-a1-m40-cC 3zxa-a1-m20-cC_3zxa-a1-m60-cC 3zxa-a1-m21-cC_3zxa-a1-m27-cC 3zxa-a1-m21-cC_3zxa-a1-m54-cC 3zxa-a1-m22-cC_3zxa-a1-m26-cC 3zxa-a1-m22-cC_3zxa-a1-m44-cC 3zxa-a1-m23-cC_3zxa-a1-m3-cC 3zxa-a1-m23-cC_3zxa-a1-m43-cC 3zxa-a1-m24-cC_3zxa-a1-m6-cC 3zxa-a1-m25-cC_3zxa-a1-m55-cC 3zxa-a1-m26-cC_3zxa-a1-m44-cC 3zxa-a1-m27-cC_3zxa-a1-m54-cC 3zxa-a1-m28-cC_3zxa-a1-m53-cC 3zxa-a1-m2-cC_3zxa-a1-m24-cC 3zxa-a1-m2-cC_3zxa-a1-m6-cC 3zxa-a1-m30-cC_3zxa-a1-m45-cC 3zxa-a1-m31-cC_3zxa-a1-m37-cC 3zxa-a1-m31-cC_3zxa-a1-m49-cC 3zxa-a1-m32-cC_3zxa-a1-m36-cC 3zxa-a1-m32-cC_3zxa-a1-m59-cC 3zxa-a1-m33-cC_3zxa-a1-m58-cC 3zxa-a1-m33-cC_3zxa-a1-m8-cC 3zxa-a1-m34-cC_3zxa-a1-m7-cC 3zxa-a1-m35-cC_3zxa-a1-m50-cC 3zxa-a1-m35-cC_3zxa-a1-m5-cC 3zxa-a1-m36-cC_3zxa-a1-m59-cC 3zxa-a1-m37-cC_3zxa-a1-m49-cC 3zxa-a1-m38-cC_3zxa-a1-m48-cC 3zxa-a1-m3-cC_3zxa-a1-m43-cC 3zxa-a1-m40-cC_3zxa-a1-m60-cC 3zxa-a1-m41-cC_3zxa-a1-m47-cC 3zxa-a1-m42-cC_3zxa-a1-m46-cC 3zxa-a1-m4-cC_3zxa-a1-m42-cC 3zxa-a1-m4-cC_3zxa-a1-m46-cC 3zxa-a1-m51-cC_3zxa-a1-m57-cC 3zxa-a1-m51-cC_3zxa-a1-m9-cC 3zxa-a1-m52-cC_3zxa-a1-m56-cC 3zxa-a1-m58-cC_3zxa-a1-m8-cC 3zxa-a1-m5-cC_3zxa-a1-m50-cC QKVTRLSAPVALAYREVSTQPRVSTARDGITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI QKVTRLSAPVALAYREVSTQPRVSTARDGITRSGSELITTLKKNTDTEPKYTTAVLNPSEPGTFNQLIKEAAQYEKYRFTSLRFRYSPMSPSTTGGKVALAFDRDAAKPPPNDLASLYNIEGCVSSVPWTGFILTVPTDSTDRFVADGISDPKLVDFGKLIMATYGQGAAQLGEVRVEYTVQLKNRTGSTSAQIGDFAGVKDGPRLVSWSKTKGTAGWEHDCHFLGTGNFSLTLFYEKAPVSGLENADASDFSVLGEAAAGSVQWAGVKVAERGQGVKMVTTEEQPKGKWQALRI 3zxc-a1-m1-cA_3zxc-a1-m1-cB E69 deletion mutant single insulin-like growth factor binding domain protein (SIBD-1) from Cupiennius salei G4V4F9 G4V4F9 1.4 X-RAY DIFFRACTION 61 1.0 6928 (Cupiennius salei) 6928 (Cupiennius salei) 71 74 3zxb-a1-m1-cA_3zxb-a1-m1-cB 3zxb-a2-m1-cD_3zxb-a2-m1-cC FTCPECRPELCGDPGYCEYGTTKDACDCCPVCFQGPGGYCGGPEDVFGICADGFACVPLVDPIVGTCVKIP FTCPECRPELCGDPGYCEYGTTKDACDCCPVCFQGPGGYCGGPEDVFGICADGFACVPLVGERDPIVGTCVKIP 3zxo-a1-m1-cA_3zxo-a1-m1-cB CRYSTAL STRUCTURE OF THE MUTANT ATP-BINDING DOMAIN OF MYCOBACTERIUM TUBERCULOSIS DOSS P9WGK3 P9WGK3 1.9 X-RAY DIFFRACTION 43 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 122 122 TRLRQRIDAAVAQFADSGLRTSVQFVGPLSVVDSALADQAEAVVREAVSNAVRHAAASTLTVRVKVDDDLIEVTDNGRGPDEFTGSGLTNLRQRAEQAGGEFTLASPGASGTVLRWSAPLSQ VTRLRQRIDAAVAQFADSGLRTSVQFVGPLSVVDSALADQAEAVVREAVSNAVRHAAASTLTVRVKVDDDLIEVTDNGRGPDEFTGSGLTNLRQRAEQAGGEFTLASPGASGTVLRWSAPLS 3zxo-a2-m1-cB_3zxo-a2-m2-cA CRYSTAL STRUCTURE OF THE MUTANT ATP-BINDING DOMAIN OF MYCOBACTERIUM TUBERCULOSIS DOSS P9WGK3 P9WGK3 1.9 X-RAY DIFFRACTION 84 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 122 122 VTRLRQRIDAAVAQFADSGLRTSVQFVGPLSVVDSALADQAEAVVREAVSNAVRHAAASTLTVRVKVDDDLIEVTDNGRGPDEFTGSGLTNLRQRAEQAGGEFTLASPGASGTVLRWSAPLS TRLRQRIDAAVAQFADSGLRTSVQFVGPLSVVDSALADQAEAVVREAVSNAVRHAAASTLTVRVKVDDDLIEVTDNGRGPDEFTGSGLTNLRQRAEQAGGEFTLASPGASGTVLRWSAPLSQ 3zxp-a1-m1-cB_3zxp-a1-m1-cC Structural and Functional Analyses of the Bro1 Domain Protein BROX Q5VW32 Q5VW32 2.495 X-RAY DIFFRACTION 25 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 384 384 3zxp-a1-m1-cB_3zxp-a1-m1-cA 3zxp-a1-m1-cC_3zxp-a1-m1-cA FTMTHWFHRNPLKATAPVSFNYYGVVTGPSASKICNDLRSSRARLLELFTDLSCNPEMMKNAADSYFSLLQGFINSLDESTQESKLRYIQNFKWTDTLQGQVPSAQQDAVFELISMGFNVALWYTKYASRLAGKENITEDEAKEVHRSLKIAAGIFKHLKESHLPKLITPAEKGRDLESRLIEAYVIQCQAEAQEVTIARAIELKHAPGLIAALAYETANFYQKADHTLSSLEPAYSAKWRKYLHLKMCFYTAYAYCYHGETLLASDKCGEAIRSLQEAEKLYAKAEALCKEYGETKGPGPTVKPSGHLFFRKLGNLVKNTLEKCQRENGFIYFQKIPTEAPQLELKANYGLVEPIPFEFPPTSVQWTPETLAAFDEVKPVKEP THWFHRNPLKATAPVSFNYYGVVTGPSASKICNDLRSSRARLLELFTDLSCNPEMMKNAADSYFSLLQGFINSLDESTQESKLRYIQNFKWTDTLQGQVPSAQQDAVFELISMGFNVALWYTKYASRLAGKENITEDEAKEVHRSLKIAAGIFKHLKESHLPKLITPAEKGRDLESRLIEAYVIQCQAEAQEVTIARAIELKHAPGLIAALAYETANFYQKADHTLSSLEPAYSAKWRKYLHLKMCFYTAYAYCYHGETLLASDKCGEAIRSLQEAEKLYAKAEALCKEYGETKGPGPTVKPSGHLFFRKLGNLVKNTLEKCQRENGFIYFQKIPTEAPQLELKANYGLVEPIPFEFPPTSVQWTPETLAAFDLTKEEVKPVKE 3zxq-a1-m1-cA_3zxq-a1-m1-cB CRYSTAL STRUCTURE OF THE ATP-BINDING DOMAIN OF MYCOBACTERIUM TUBERCULOSIS DOST P9WGK1 P9WGK1 1.9 X-RAY DIFFRACTION 243 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 123 124 TGLRHRLDKVIDQLAIPALHTTVQYTGPLSVVDTVLANHAEAVLREAVSNAVRHANATSLAINVSVEDDVRVEVVDDGVGISGDITESGLRNLRQRADDAGGEFTVENMPTGGTLLRWSAPLR TGLRHRLDKVIDQLAIPALHTTVQYTGPLSVVDTVLANHAEAVLREAVSNAVRHANATSLAINVSVEDDVRVEVVDDGVGISGDITESGLRNLRQRADDAGGEFTVENMPTGGTLLRWSAPLRL 3zxq-a2-m1-cA_3zxq-a2-m2-cB CRYSTAL STRUCTURE OF THE ATP-BINDING DOMAIN OF MYCOBACTERIUM TUBERCULOSIS DOST P9WGK1 P9WGK1 1.9 X-RAY DIFFRACTION 61 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 123 124 TGLRHRLDKVIDQLAIPALHTTVQYTGPLSVVDTVLANHAEAVLREAVSNAVRHANATSLAINVSVEDDVRVEVVDDGVGISGDITESGLRNLRQRADDAGGEFTVENMPTGGTLLRWSAPLR TGLRHRLDKVIDQLAIPALHTTVQYTGPLSVVDTVLANHAEAVLREAVSNAVRHANATSLAINVSVEDDVRVEVVDDGVGISGDITESGLRNLRQRADDAGGEFTVENMPTGGTLLRWSAPLRL 3zxt-a2-m1-cD_3zxt-a2-m1-cC Dimeric structure of DAPK-1 catalytic domain in complex with AMPPCP- Mg P53355 P53355 2.65 X-RAY DIFFRACTION 92 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 245 259 2y4p-a1-m1-cD_2y4p-a1-m1-cC 2y4p-a2-m1-cB_2y4p-a2-m1-cA ENVDDYYDTGEELGSGQFAVVKKCREKSTGLQYAAKFIVSREDIEREVSILKEIQHPNVITLHEVYENKTDVILILELVAGGELFDFLAETEEEATEFLKQILNGVYYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANVSAVNYEFEDEYFSNTSALAKDFIRRLLVKDPKKRMTIQDSLQHPWIK RQENVDDYYDTGEELGQFAVVKKCREKSTGLQYAAKFIKKRRTKSSRRGVSREDIEREVSILKEIQHPNVITLHEVYENKTDVILILELVAGGELFDFLAEKESLTEEEATEFLKQILNGVYYLHSLQIAHFDLKPENIMLLDRNVPKPRIKIIDFGLAHKIDPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGDTKQETLANVSAVNYEFEDEYFSNTSALAKDFIRRLLVKDPKKRMTIQDSLQHPWIK 3zy0-a1-m1-cD_3zy0-a1-m1-cB Crystal structure of a truncated variant of the human p63 tetramerization domain lacking the C-terminal helix Q9H3D4 Q9H3D4 1.9 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 25 3zy0-a1-m1-cC_3zy0-a1-m1-cA LLYLPVRGRETYELLKIKESLELQ LLYLPVRGRETYELLKIKESLELQY 3zy1-a1-m1-cA_3zy1-a1-m4-cA Crystal structure of the human p63 tetramerization domain Q9H3D4 Q9H3D4 2.15 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 3zy1-a1-m2-cA_3zy1-a1-m3-cA 4a9z-a1-m1-cA_4a9z-a1-m1-cC 4a9z-a1-m1-cD_4a9z-a1-m1-cB 7z73-a1-m1-cC_7z73-a1-m1-cA 7z73-a1-m1-cD_7z73-a1-m1-cB DELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQ DELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQ 3zy1-a1-m2-cA_3zy1-a1-m4-cA Crystal structure of the human p63 tetramerization domain Q9H3D4 Q9H3D4 2.15 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 3zy1-a1-m1-cA_3zy1-a1-m3-cA 4a9z-a1-m1-cB_4a9z-a1-m1-cA DELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQ DELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQ 3zy5-a1-m1-cA_3zy5-a1-m2-cA Crystal structure of POFUT1 in complex with GDP-fucose (crystal-form-I) Q18014 Q18014 1.96 X-RAY DIFFRACTION 72 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 356 356 3zy2-a1-m1-cA_3zy2-a1-m2-cA 3zy4-a1-m1-cA_3zy4-a1-m2-cA 3zy6-a1-m1-cA_3zy6-a1-m2-cA AEATDPNGYIVFCPCMGRFGNQVDQFLGVLAFAKALDRTLVLPNFIEFKHPETKMIPFEFLFQVGTVAKYTRVVTMQEFTKKIMPTVWPPEKRKAFCWTPRQAIYAEPGCHSKEGNPFGPYWDQIDVSFVGDEYFGDIPGGFDLNQMGSRKKWLEKFPSEEYPVLAFSSAPAPFPSKGKVWSIQKYLRWSSRITEQAKKFISANLAKPFVAVHLRNDADWVRVCEHIDTTTNRPLFASEQCLGEGHHLGTLTKEICSPSKQQILEQIVEKVGSIGAKSVFVASDKDHMIDEINEALKPYEIEAHRQEPDDMYTSLAIMGRADLFVGNCVSTFSHIVKRERDHAGQSPRPSAFFGIR AEATDPNGYIVFCPCMGRFGNQVDQFLGVLAFAKALDRTLVLPNFIEFKHPETKMIPFEFLFQVGTVAKYTRVVTMQEFTKKIMPTVWPPEKRKAFCWTPRQAIYAEPGCHSKEGNPFGPYWDQIDVSFVGDEYFGDIPGGFDLNQMGSRKKWLEKFPSEEYPVLAFSSAPAPFPSKGKVWSIQKYLRWSSRITEQAKKFISANLAKPFVAVHLRNDADWVRVCEHIDTTTNRPLFASEQCLGEGHHLGTLTKEICSPSKQQILEQIVEKVGSIGAKSVFVASDKDHMIDEINEALKPYEIEAHRQEPDDMYTSLAIMGRADLFVGNCVSTFSHIVKRERDHAGQSPRPSAFFGIR 3zy7-a1-m1-cA_3zy7-a1-m1-cB Crystal structure of computationally redesigned gamma-adaptin appendage domain forming a symmetric homodimer P22892 P22892 1.09 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 116 116 MIPSITAYDALGLKIEFTFERSSVTVITIQASNSTELDMTDFVFQAAVPKTFQLQLLSPSSSVVPAFNTGTITQVIKVLNPQKQQLRMRIKLTFNWNGYKVQSEAEVNNFPPQSWQ MIPSITAYDALGLKIEFTFERSSVTVITIQASNSTELDMTDFVFQAAVPKTFQLQLLSPSSSVVPAFNTGTITQVIKVLNPQKQQLRMRIKLTFNWNGYKVQSEAEVNNFPPQSWQ 3zye-a1-m1-cA_3zye-a1-m2-cA Crystal structure of 3C protease mutant (T68A) of coxsackievirus B3 Q5UEA2 Q5UEA2 1.85 X-RAY DIFFRACTION 55 1.0 12072 (Coxsackievirus B3) 12072 (Coxsackievirus B3) 181 181 2vb0-a1-m1-cA_2vb0-a1-m2-cA 2ztx-a2-m1-cA_2ztx-a2-m2-cA 2zty-a2-m1-cA_2zty-a2-m2-cA 2ztz-a3-m1-cA_2ztz-a3-m1-cB 2zu1-a3-m1-cA_2zu1-a3-m1-cB 2zu3-a2-m1-cA_2zu3-a2-m2-cA 3q3x-a3-m1-cB_3q3x-a3-m1-cA 3q3y-a3-m1-cA_3q3y-a3-m1-cB 3ruo-a1-m1-cB_3ruo-a1-m1-cA 3zyd-a1-m1-cA_3zyd-a1-m2-cA 3zz3-a1-m1-cA_3zz3-a1-m2-cA 3zz3-a2-m1-cB_3zz3-a2-m3-cB 3zz4-a1-m1-cA_3zz4-a1-m2-cA 3zz4-a2-m1-cB_3zz4-a2-m3-cB 3zz5-a1-m1-cA_3zz5-a1-m2-cA 3zz6-a1-m1-cA_3zz6-a1-m2-cA 3zz7-a1-m1-cA_3zz7-a1-m2-cA 3zz8-a1-m1-cA_3zz8-a1-m2-cA 3zz9-a1-m1-cA_3zz9-a1-m2-cA 3zza-a1-m1-cA_3zza-a1-m2-cA 3zzb-a1-m1-cA_3zzb-a1-m2-cA 5bpe-a2-m1-cA_5bpe-a2-m2-cA MGPAFEFAVAMMKRNSSTVKTEYGEFTMLGIYDRWAVLPRHAKPGPTILMNDQEVGVLDAKELVDKDGANLELTLLKLNRNEKFRDIRGFLAKEEVEVNEAVLAINTSKFPNMYIPVGQVTEYGFLNLGGTPTKRMLMYNFPTRAGQCGGVLMSTGKVLGIHVGGNGHQGFSAALLKHYFN MGPAFEFAVAMMKRNSSTVKTEYGEFTMLGIYDRWAVLPRHAKPGPTILMNDQEVGVLDAKELVDKDGANLELTLLKLNRNEKFRDIRGFLAKEEVEVNEAVLAINTSKFPNMYIPVGQVTEYGFLNLGGTPTKRMLMYNFPTRAGQCGGVLMSTGKVLGIHVGGNGHQGFSAALLKHYFN 3zyl-a1-m1-cB_3zyl-a1-m1-cA Structure of a truncated CALM (PICALM) ANTH domain O55012 O55012 1.7 X-RAY DIFFRACTION 32 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 247 260 TGSAVSKTVCKATTHEIMGPKKKHLDYLIQCTNEMNVNIPQLADSLFERTTNSSWVVVFKSLITTHHLMVYGNERFIQYLASRNTLFNLSNFLDKSGLQGYDMSTFIRRYSRYLNEKAVSYRQVAFDFTKVKRGADGVMRTMNTEKLLKTVPIIQNQMDALLDFNVNSNELTNGVINAAFMLLFKDAIRLFAAYNEGIINLLEKYFDMKKNQCKEGLDIYKKFLTRMTRISEFLKVAEQVGIDRGDI SLTDRITAAQHSVTGSAVSKTVCKATTHEIMGPKKKHLDYLIQCTNEMNVNIPQLADSLFERTTNSSWVVVFKSLITTHHLMVYGNERFIQYLASRNTLFNLSNFLDKSGLQGYDMSTFIRRYSRYLNEKAVSYRQVAFDFTKVKRGADGVMRTMNTEKLLKTVPIIQNQMDALLDFNVNSNELTNGVINAAFMLLFKDAIRLFAAYNEGIINLLEKYFDMKKNQCKEGLDIYKKFLTRMTRISEFLKVAEQVGIDRGDI 3zyr-a1-m1-cA_3zyr-a1-m1-cB Structure of the lectin from Platypodium elegans in complex with heptasaccharide G1EUI6 G1EUI6 1.65 X-RAY DIFFRACTION 56 1.0 115002 (Platypodium elegans) 115002 (Platypodium elegans) 240 241 3zvx-a1-m1-cB_3zvx-a1-m1-cA 5u38-a1-m1-cA_5u38-a1-m2-cA STDSLSFSFINFDRDERNLIFQGDAHTSRNNILQLTRTDSNGAPVRSTVGRILHSAQVRLWEKSTNRVANLQTQFSFFLSSPLSNPADGIAFFIAPPDTTIPSGSAGGLLGLFNPRTALNESANQVLAVEFDTFFAQNSNTWDPNYQHIGIDVNSIRSSKVVRWERREGKTLNVLVTYNPSTRTIDVVATYPDGQRYQLSHVVDLTTILPEWVRVGFSAASGEQFQTHNLESWSFTSTLL STDSLSFSFINFDRDERNLIFQGDAHTSRNNILQLTRTDSNGAPVRSTVGRILHSAQVRLWEKSTNRVANLQTQFSFFLSSPLSNPADGIAFFIAPPDTTIPSGSAGGLLGLFNPRTALNESANQVLAVEFDTFFAQNSNTWDPNYQHIGIDVNSIRSSKVVRWERREGKTLNVLVTYNPSTRTIDVVATYPDGQRYQLSHVVDLTTILPEWVRVGFSAASGEQFQTHNLESWSFTSTLLY 3zys-a1-m8-cB_3zys-a1-m9-cE Human dynamin 1 deltaPRD polymer stabilized with GMPPCP P20591 P20591 12.2 ELECTRON MICROSCOPY 55 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 211 219 3zys-a1-m10-cB_3zys-a1-m11-cE 3zys-a1-m11-cB_3zys-a1-m12-cE 3zys-a1-m1-cB_3zys-a1-m8-cE 3zys-a1-m2-cB_3zys-a1-m3-cE 3zys-a1-m3-cB_3zys-a1-m4-cE 3zys-a1-m4-cB_3zys-a1-m5-cE 3zys-a1-m5-cB_3zys-a1-m6-cE 3zys-a1-m6-cB_3zys-a1-m1-cE 3zys-a1-m9-cB_3zys-a1-m10-cE DENEKMFFLIDKVNAFNQDITALMQGEETVGEEDIRLFTRLRHEFHKWSTIIENNFQEGHKILSRKIQKYRTFETIVKQQIKALEEPAVDMLHTVTDMVRLAFTDVSIKNFEEFFNLHRTAKSKIEDIRAEQEREGEKLIRLHFQMEQIVEIFQHLMAYHQEASKRISSHIPLIIQFFMLQTYGQQLQKAMLQLLQDKDTYSWLLKERSDT EDENEKMFFLIDKVNAFNQDITALMQGEETVGEEDIRLFTRLRHEFHKWSTIIENNFQEGHKILSRKIQKFENFVNYRTFETIVKQQIKALEEPAVDMLHTVTDMVRLAFTDVSIKNFEEFFNLHRTAKSKIEDIRAEQEREGEKLIRLHFQMEQIVYSMEEIFQHLMAYHQEASKRISSHIPLIIQFFMLQTYGQQLQKAMLQLLQDKDTYSWLLKER 3zyt-a1-m2-cA_3zyt-a1-m3-cA Structure Determination of EstA from Arthrobacter nitroguajacolicus Rue61a K4DIE4 K4DIE4 2.45 X-RAY DIFFRACTION 54 1.0 211146 (Paenarthrobacter nitroguajacolicus) 211146 (Paenarthrobacter nitroguajacolicus) 372 372 3zyt-a1-m1-cA_3zyt-a1-m2-cA 3zyt-a1-m1-cA_3zyt-a1-m3-cA MHSQVIAPGFEPVAELFGVFLEQDPDYSAQVAAYHRGVKVLDLSGGPHIRPDSVTGVFSCSKGMAGLVMALLVQDGELDLEAEVVKYWPEFGVEGKSSITVAQLLSHRAGLLGVEGGLTLHEVNNSELAAAKLAELPPLWKPGTAFGYHALTIGIFMEELCRRITGSTLQEVFEQRIRAVTGANFYLGLPESEESRFAQFRWAADPSWPWVDPASHFGLAANAAVGDILDLPNIREVRAAGLSSAAGVASAEGMARIYAAALTGLEGKSAMPPLLTEETIRTVSAEQVFGIDRVFGETGCFGTVFMKSHTRMPFGSYRAFGHDGASASLGFADPVYELGFGYVPQTAEPGGVGCRNFQLSSAVREVIAGFAA MHSQVIAPGFEPVAELFGVFLEQDPDYSAQVAAYHRGVKVLDLSGGPHIRPDSVTGVFSCSKGMAGLVMALLVQDGELDLEAEVVKYWPEFGVEGKSSITVAQLLSHRAGLLGVEGGLTLHEVNNSELAAAKLAELPPLWKPGTAFGYHALTIGIFMEELCRRITGSTLQEVFEQRIRAVTGANFYLGLPESEESRFAQFRWAADPSWPWVDPASHFGLAANAAVGDILDLPNIREVRAAGLSSAAGVASAEGMARIYAAALTGLEGKSAMPPLLTEETIRTVSAEQVFGIDRVFGETGCFGTVFMKSHTRMPFGSYRAFGHDGASASLGFADPVYELGFGYVPQTAEPGGVGCRNFQLSSAVREVIAGFAA 3zyv-a2-m1-cC_3zyv-a2-m1-cD Crystal structure of the mouse liver Aldehyde Oxidase 3 (mAOX3) G3X982 G3X982 2.545 X-RAY DIFFRACTION 165 0.996 10090 (Mus musculus) 10090 (Mus musculus) 1244 1257 3zyv-a1-m1-cA_3zyv-a1-m1-cB SDELIFFVNGKKVTERNADPEVNLLFYLRKVIRLTGTKYGCGGGDCGACTVMISRYDPISKRISHFSATACLVPICSLHGAAVTTVEGIGSTKTRIHPVQERIAKGHGTQCGFCTPGMVMSIYTLLRNHPEPSTEQIMETLGGNLCRCTGYRPIVESAKSFCTKLYEKKEFQPLDPTQELIFPPELMRMAEQNTVLTFRGERTTWIAPGTLNDLLELKMKHPSAPLVIGNTYLGLHMKYPIIISPARILELFVVTNTKQGLTLGTGLSLTQVKNVLSDVVSRLPKEKTQIYCALLKQLKTLAGQQIRNVASLGGHIISRLPTSDLNPILGIGNCILNVASTEGIQQIPLNDHFLAGILKPEQVLISVFVPRSSKWEFVSAFRQAPRQQNAFATVNAGMKVVFNTITDLGILYGGIGATVISADKSCRQLIGRCWDEEMLDDAGKMICEEVSLLMAAPGGMEEYRKTLAISFLFMFYLDVLKQLKTRDSQKLLHIEDFPGMQSFQDVDFQQPLQDPIGRPIMHQSGIKHATGEAVFCDDMSVLPGELFLAVVTSSKSHAKIISLDASEALASLGVVDVVTARDVPGDNGEESLYAQDEVICVGQIVCAVAADSYAHAQQAAKKVKIVYQDIPMIVTVQDALQYESFIGPERKLEQGNVEEAFQCADQILEGEVHLGGQEHFYMETQSVRVVPKGEDKEMDIYVSSQDAAFTQEMVARTLGIPKNRINCHVKRVGGAFGGKASKPGLLASVAAVAAQKTGRPIRFILERRDDMLITGGRHPLLGKYKIGFMNNGKIKAADIQLYINGGCTPDDSELVIEYALLKLENAYNLRVRGRVCKTNLPSNTAFRGFGFPQGAFVTETCMSAVAAKCRPPEKVRELNMYRTIDRTIHNQTNLLQCWEACVENSSYYNRKKAVDEFNQQRFWKKRGIAIIPMKFSVGFPKTFYYQAAALVQIYTDGSVLVAHGGVELGQGINTKMIQVASRELKIPMSYIHLDEMSTVTVPNTVTTGASTGADVNGRAVQNACQILMKRLEPIIKQNPSGTWEEWVKEAFVQSISLSATGYFRGYQADMDWEKGEGDIFPYFVFGAACSEVEIDCLTGAHKNIRTDIVMDGSFSINPAVDIGQIEGAFVQGLGLYTLEELKYSPEGVLYTRHQYKIASVTDIPEEFHVSLLTPTPNPKAIYSSKGLGEAGTFLGCSVFFAIAAAVAAAREERPIWAINSPATAEVIRMACEDQFTNLPWSIPV SDELIFFVNGKKVTERNADPEVNLLFYLRKVIRLTGTKYGCGGGDCGACTVMISRYDPISKRISHFSATACLVPICSLHGAAVTTVEGIGSTKTRIHPVQERIAKGHGTQCGFCTPGMVMSIYTLLRNHPEPSTEQIMETLGGNLCRCTGYRPIVESAKSFCTKLYEKKEFQPLDPTQELIFPPELMRMAENTVLTFRGERTTWIAPGTLNDLLELKMKHPSAPLVIGNTYLGLHMKFTDVSYPIIISPARILELFVVTNTKQGLTLGTGLSLTQVKNVLSDVVSRLPKEKTQIYCALLKQLKTLAGQQIRNVASLGGHIISRLPTSDLNPILGIGNCILNVASTEGIQQIPLNDHFLAILKPEQVLISVFVPRSSKWEFVSAFRQAPRQQNAFATVNAGMKVVFKEDTNTITDLGILYGGIGATVISADKSCRQLIGRCWDEEMLDDAGKMICEEVSLAPGGMEEYRKTLAISFLFMFYLDVLKQLKTRDISQKLLHILEDFPYGMQSFQDVDFQQPLQDPIGRPIMHQSGIKHATGEAVFCDDMSVLPGELFLAVVTSSKSHAKIISLDASEALASLGVVDVVTARDVPGDNGEESLYAQDEVICVGQIVCAVAADSYAHAQQAAKKVKIVYQDIPMIVTVQDALQYESFIGPERKLEQGNVEEAFQCADQILEGEVHLGGQEHFYMETQSVRVVPKGEDKEMDIYVSSQDAAFTQEMVARTLGIPKNRINCHVKRVGGAFGGKASKPGLLASVAAVAAQKTGRPIRFILERRDDMLITGGRHPLLGKYKIGFMNNGKIKAADIQLYINGGCTPDDSELVIEYALLKLENAYKIPNLRVRGRVCKTNLPSNTAFRGFGFPQGAFVTETCMSAVAAKCRPPEKVRELNMYRTIDRTIHNQETNLLQCWEACVENSSYYNRKKAVDEFNQQRFWKKRGIAIIPMKFSVGFPKTFYYQAAALVQIYTDGSVLVAHGGVELGQGINTKMIQVASRELKIPMSYIHLDEMSTVTVPNTVTTGASTGADVNGRAVQNACQILMKRLEPIIKQNPSGTWEEWVKEAFVQSISLSATGYFRGYQADMDWEKGEGDIFPYFVFGAACSEVEIDCLTGAHKNIRTDIVMDGSFSINPAVDIGQIEGAFVQGLGLYTLEELKYSPEGVLYTRGPHQYKIASVTDIPEEFHVSLLTPTPNPKAIYSSKGLGEAGTFLGCSVFFAIAAAVAAAREERPIWAINSPATAEVIRMACEDQFTNLPWSIPV 3zyy-a1-m1-cY_3zyy-a1-m1-cX Reductive activator for corrinoid,iron-sulfur protein Q3ACS2 Q3ACS2 2.2 X-RAY DIFFRACTION 119 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 522 628 SGVMNELDLAEEDELDPLFKEVSLELPVPTLDDPRDDLSRLTATFSRQENGNLIVEYEQLKDLPQILRNENFSVTVGVSDYLGLNKALYIKSGSASQRVFGLAIDIGTTTVVVQLVDLVSGKVLGTKGNYNKQAAFGDDVISRIIYVDENPDGAEKLRKAVLSTINELIFQLCKEHGVEKKEIMAAVVAGNTTMTHLFLEIDPRYIRLEPYTPAALFIPPVPATEAKIEMNPKGFVYIMPNVASYVGGDITSGVLYTGLANSDEITLFIDIGTNGEMVLGNKDWLVTCACSAGPAFEGSGIKHGMRAMQGAIERVSISEAGLKVKYQTVGGIPPVGICGSGLIDLLANLKRAGIIDRSGKIDRTVNKERIREGEDGLEFVLAWANESGNNKDIVITEADIQNLIRAKAAIFAGVRTMLAMVDLPLEAIDRVIIAGGFGKYLNIKDAITIGLLPDIDINKFSYVGNSSLKGARKALLSRKACAEVKEIARKMTYLELSVGTTFMDEFVSASFIPHTDLHLFPS EYKVLFKPDQKEVAISENTNLMEALNLAGINIKTVCGGAGTCGKCLVRVVDGQKRVESYGKLKQEEIAQGYVLACQTYPESDLIIEIPFDSRLTQHQIVTDDEKASGVMNELDLAEEDELDPLFKEVSLELPVPTLDDPRDDLSRLTATFSRQENGNLIVEYEQLKDLPQILRNENFSVTVGVSDYLGLNKALYIKSGSASQRVFGLAIDIGTTTVVVQLVDLVSGKVLGTKGNYNKQAAFGDDVISRIIYVDENPDGAEKLRKAVLSTINELIFQLCKEHGVEKKEIMAAVVAGNTTMTHLFLEIDPRYIRLEPYTPAALFIPPVPATEAKIEMNPKGFVYIMPNVASYVGGDITSGVLYTGLANSDEITLFIDIGTNGEMVLGNKDWLVTCACSAGPAFEGSGIKHGMRAMQGAIERVSISEAGLKVKYQTVGGIPPVGICGSGLIDLLANLKRAGIIDRSGKIDRTVNKERIREGEDGLEFVLAWANESGNNKDIVITEADIQNLIRAKAAIFAGVRTMLAMVDLPLEAIDRVIIAGGFGKYLNIKDAITIGLLPDIDINKFSYVGNSSLKGARKALLSRKACAEVKEIARKMTYLELSVGTTFMDEFVSASFIPHTDLHLFPSV 3zzd-a1-m1-cA_3zzd-a1-m2-cA Crystal structure of 3C protease mutant (T68A and N126Y) of coxsackievirus B3 complexed with alpha, beta-unsaturated ethyl ester inhibitor 85 Q5UEA2 Q5UEA2 2.1 X-RAY DIFFRACTION 37 1.0 12072 (Coxsackievirus B3) 12072 (Coxsackievirus B3) 180 180 3zzc-a1-m1-cA_3zzc-a1-m2-cA GPAFEFAVAMMKRNSSTVKTEYGEFTMLGIYDRWAVLPRHAKPGPTILMNDQEVGVLDAKELVDKDGANLELTLLKLNRNEKFRDIRGFLAKEEVEVNEAVLAINTSKFPNMYIPVGQVTEYGFLYLGGTPTKRMLMYNFPTRAGQCGGVLMSTGKVLGIHVGGNGHQGFSAALLKHYFN GPAFEFAVAMMKRNSSTVKTEYGEFTMLGIYDRWAVLPRHAKPGPTILMNDQEVGVLDAKELVDKDGANLELTLLKLNRNEKFRDIRGFLAKEEVEVNEAVLAINTSKFPNMYIPVGQVTEYGFLYLGGTPTKRMLMYNFPTRAGQCGGVLMSTGKVLGIHVGGNGHQGFSAALLKHYFN 3zzf-a1-m1-cB_3zzf-a1-m1-cA Crystal structure of the amino acid kinase domain from Saccharomyces cerevisiae acetylglutamate kinase complexed with its substrate N- acetylglutamate Q01217 Q01217 2.2 X-RAY DIFFRACTION 73 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 289 291 3zzf-a1-m1-cD_3zzf-a1-m1-cC 3zzg-a1-m1-cB_3zzg-a1-m1-cA 3zzg-a1-m1-cD_3zzg-a1-m1-cC 3zzh-a1-m1-cB_3zzh-a1-m1-cA 3zzh-a1-m1-cC_3zzh-a1-m1-cD 3zzi-a1-m1-cC_3zzi-a1-m1-cD 3zzi-a2-m1-cE_3zzi-a2-m1-cF 3zzi-a2-m1-cG_3zzi-a2-m1-cH 4ab7-a1-m1-cD_4ab7-a1-m1-cC 4ab7-a2-m1-cE_4ab7-a2-m1-cF 4ab7-a2-m1-cH_4ab7-a2-m1-cG GFSATRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRG NGFSATRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRGY 3zzf-a1-m1-cB_3zzf-a1-m1-cC Crystal structure of the amino acid kinase domain from Saccharomyces cerevisiae acetylglutamate kinase complexed with its substrate N- acetylglutamate Q01217 Q01217 2.2 X-RAY DIFFRACTION 57 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 289 291 3zzf-a1-m1-cD_3zzf-a1-m1-cA 3zzg-a1-m1-cB_3zzg-a1-m1-cC 3zzg-a1-m1-cD_3zzg-a1-m1-cA 3zzh-a1-m1-cC_3zzh-a1-m1-cB 3zzh-a1-m1-cD_3zzh-a1-m1-cA 3zzi-a1-m1-cB_3zzi-a1-m1-cC 4ab7-a1-m1-cB_4ab7-a1-m1-cC GFSATRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRG NGFSATRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRGY 3zzi-a2-m1-cE_3zzi-a2-m1-cH Crystal structure of a tetrameric acetylglutamate kinase from Saccharomyces cerevisiae Q01217 Q01217 3.8 X-RAY DIFFRACTION 94 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 436 436 3zzi-a1-m1-cA_3zzi-a1-m1-cD 3zzi-a2-m1-cF_3zzi-a2-m1-cG 4ab7-a1-m1-cA_4ab7-a1-m1-cD 4ab7-a2-m1-cE_4ab7-a2-m1-cH 4ab7-a2-m1-cF_4ab7-a2-m1-cG TRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRGYKLVKRSSIGEFPSADALRKALQRDAGISSGKESVASYLRYLENSDFVSYADEPLEAVAIVKKDTNVPTLDKFVCSDAAWLNNVTDNVFNVLRRDFPALQWVVSENDANIAWHFDKSQGSYLKGGKVLFWYGIDDINTISELVENFVKSCD TRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRGYKLVKRSSIGEFPSADALRKALQRDAGISSGKESVASYLRYLENSDFVSYADEPLEAVAIVKKDTNVPTLDKFVCSDAAWLNNVTDNVFNVLRRDFPALQWVVSENDANIAWHFDKSQGSYLKGGKVLFWYGIDDINTISELVENFVKSCD 3zzl-a1-m4-cB_3zzl-a1-m4-cC Bacillus halodurans trp RNA-binding attenuation protein (TRAP): a 12- subunit assembly Q9KCC6 Q9KCC6 1.67 X-RAY DIFFRACTION 74 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 70 70 3zzl-a1-m1-cA_3zzl-a1-m1-cB 3zzl-a1-m1-cA_3zzl-a1-m4-cC 3zzl-a1-m1-cB_3zzl-a1-m1-cC 3zzl-a1-m1-cC_3zzl-a1-m2-cA 3zzl-a1-m2-cA_3zzl-a1-m2-cB 3zzl-a1-m2-cB_3zzl-a1-m2-cC 3zzl-a1-m2-cC_3zzl-a1-m3-cA 3zzl-a1-m3-cA_3zzl-a1-m3-cB 3zzl-a1-m3-cB_3zzl-a1-m3-cC 3zzl-a1-m3-cC_3zzl-a1-m4-cA 3zzl-a1-m4-cA_3zzl-a1-m4-cB SNFFVIKAKENGVNVFGMTRGTDTRFHHSEKLDKGEVMIAQFTEHTSAVKIRGKAIIQTSYGTLDTEKDE SNFFVIKAKENGVNVFGMTRGTDTRFHHSEKLDKGEVMIAQFTEHTSAVKIRGKAIIQTSYGTLDTEKDE 3zzm-a1-m1-cB_3zzm-a1-m1-cA Crystal structure of Mycobacterium tuberculosis PurH with a novel bound nucleotide CFAIR, at 2.2 A resolution. P9WHM7 P9WHM7 2.2 X-RAY DIFFRACTION 456 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 518 520 4a1o-a1-m1-cA_4a1o-a1-m1-cB GRRPIRRALISVYDKTGLVDLAQGLSAAGVEIISTGSTAKTIADTGIPVTPVEQLTGFPEVLDGRVKTLHPRVHAGLLADLRKSEHAAALEQLGIEAFELVVVNLYPFSQTVESGASVDDCVEQIDIGGPAMVRAAAKNHPSAAVVTDPLGYHGVLAALRAGGFTLAERKRLASLAFQHIAEYDIAVASWMQQTLAPEHPVAAFPQWFGRSWRRVAMLRYGENPHQQAALYGDPTAWPGLAQAEQLHGKDMSYNNFTDADAAWRAAFDHEQTCVAIIKHANPCGIAISSVSVADAHRKAHECDPLSAYGGVIAANTEVSVEMAEYVSTIFTEVIVAPGYAPGALDVLARKKNIRVLVAAEPLAGGSELRPISGGLLIQQSDQLDAHGDNPANWTLATGSPADPATLTDLVFAWRACRAVKSNAIVIAADGATVGVGMGQVNRVDAARLAVERGGERVRGAVAASDAFFPFPDGLETLAAAGVTAVVHPGGSVRDEEVTEAAAKAGVTLYLTGARHFAH DDGRRPIRRALISVYDKTGLVDLAQGLSAAGVEIISTGSTAKTIADTGIPVTPVEQLTGFPEVLDGRVKTLHPRVHAGLLADLRKSEHAAALEQLGIEAFELVVVNLYPFSQTVESGASVDDCVEQIDIGGPAMVRAAAKNHPSAAVVTDPLGYHGVLAALRAGGFTLAERKRLASLAFQHIAEYDIAVASWMQQTLAPEHPVAAFPQWFGRSWRRVAMLRYGENPHQQAALYGDPTAWPGLAQAEQLHGKDMSYNNFTDADAAWRAAFDHEQTCVAIIKHANPCGIAISSVSVADAHRKAHECDPLSAYGGVIAANTEVSVEMAEYVSTIFTEVIVAPGYAPGALDVLARKKNIRVLVAAEPLAGGSELRPISGGLLIQQSDQLDAHGDNPANWTLATGSPADPATLTDLVFAWRACRAVKSNAIVIAADGATVGVGMGQVNRVDAARLAVERGGERVRGAVAASDAFFPFPDGLETLAAAGVTAVVHPGGSVRDEEVTEAAAKAGVTLYLTGARHFAH 3zzn-a1-m1-cD_3zzn-a1-m1-cA 5-Mutant (R79W, R151A, E279A, E299A,E313A) Lactate-Dehydrogenase from Thermus thermophillus Q5SJA1 Q5SJA1 2.9 X-RAY DIFFRACTION 40 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 310 310 2e37-a1-m1-cB_2e37-a1-m2-cA 2e37-a1-m2-cB_2e37-a1-m1-cA 2e37-a2-m1-cD_2e37-a2-m1-cE 2e37-a2-m1-cF_2e37-a2-m1-cC 2e37-a6-m1-cH_2e37-a6-m3-cG 2e37-a6-m3-cH_2e37-a6-m1-cG 2v6m-a1-m1-cB_2v6m-a1-m1-cC 2v6m-a1-m1-cD_2v6m-a1-m1-cA 2v7p-a1-m1-cB_2v7p-a1-m1-cC 2v7p-a1-m1-cD_2v7p-a1-m1-cA 2xxb-a1-m1-cA_2xxb-a1-m2-cA 2xxb-a1-m2-cB_2xxb-a1-m1-cB 2xxj-a1-m1-cA_2xxj-a1-m1-cD 2xxj-a1-m1-cB_2xxj-a1-m1-cC 3vpg-a1-m1-cC_3vpg-a1-m1-cA 3vpg-a1-m1-cD_3vpg-a1-m1-cB 3vph-a1-m1-cB_3vph-a1-m1-cC 3vph-a1-m1-cD_3vph-a1-m1-cA 3zzn-a1-m1-cB_3zzn-a1-m1-cC 4a73-a1-m1-cB_4a73-a1-m1-cC 4a73-a1-m1-cD_4a73-a1-m1-cA MKVGIVGSGMVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVWAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVMTQVAYALSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVAGVLEVSLSLPRILGAGGVAGTVYPSLSPEERAALRRSAEILKEAAFALGF MKVGIVGSGMVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVWAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVMTQVAYALSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVAGVLEVSLSLPRILGAGGVAGTVYPSLSPEERAALRRSAEILKEAAFALGF 3zzn-a1-m1-cD_3zzn-a1-m1-cC 5-Mutant (R79W, R151A, E279A, E299A,E313A) Lactate-Dehydrogenase from Thermus thermophillus Q5SJA1 Q5SJA1 2.9 X-RAY DIFFRACTION 131 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 310 310 2e37-a1-m1-cB_2e37-a1-m1-cA 2e37-a1-m2-cB_2e37-a1-m2-cA 2e37-a2-m1-cD_2e37-a2-m1-cC 2e37-a2-m1-cE_2e37-a2-m1-cF 2e37-a3-m1-cH_2e37-a3-m1-cG 2e37-a4-m1-cB_2e37-a4-m1-cA 2e37-a4-m1-cD_2e37-a4-m1-cC 2e37-a5-m1-cE_2e37-a5-m1-cF 2e37-a5-m1-cH_2e37-a5-m1-cG 2e37-a6-m1-cH_2e37-a6-m1-cG 2e37-a6-m3-cH_2e37-a6-m3-cG 2v6m-a1-m1-cB_2v6m-a1-m1-cA 2v6m-a1-m1-cD_2v6m-a1-m1-cC 2v7p-a1-m1-cB_2v7p-a1-m1-cA 2v7p-a1-m1-cD_2v7p-a1-m1-cC 2xxb-a1-m1-cA_2xxb-a1-m1-cB 2xxb-a1-m2-cB_2xxb-a1-m2-cA 2xxj-a1-m1-cB_2xxj-a1-m1-cA 2xxj-a1-m1-cC_2xxj-a1-m1-cD 3vpg-a1-m1-cC_3vpg-a1-m1-cB 3vpg-a1-m1-cD_3vpg-a1-m1-cA 3vph-a1-m1-cA_3vph-a1-m1-cB 3vph-a1-m1-cD_3vph-a1-m1-cC 3zzn-a1-m1-cB_3zzn-a1-m1-cA 4a73-a1-m1-cB_4a73-a1-m1-cA 4a73-a1-m1-cD_4a73-a1-m1-cC MKVGIVGSGMVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVWAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVMTQVAYALSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVAGVLEVSLSLPRILGAGGVAGTVYPSLSPEERAALRRSAEILKEAAFALGF MKVGIVGSGMVGSATAYALALLGVAREVVLVDLDRKLAQAHAEDILHATPFAHPVWVWAGSYGDLEGARAVVLAAGVAQRPGETRLQLLDRNAQVFAQVVPRVLEAAPEAVLLVATNPVDVMTQVAYALSGLPPGRVVGSGTILDTARFRALLAEYLRVAPQSVHAYVLGEHGDSEVLVWSSAQVGGVPLLEFAEARGRALSPEDRARIDEGVRRAAYRIIEGKGATYYGIGAGLARLVRAILTDEKGVYTVSAFTPEVAGVLEVSLSLPRILGAGGVAGTVYPSLSPEERAALRRSAEILKEAAFALGF 3zzw-a1-m1-cB_3zzw-a1-m1-cA Crystal structure of the kinase domain of ROR2 Q01974 Q01974 2.9 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 269 KEISLSAVRFMEELGEDRFGKVYKGHLFGPAPGEQTQAVAIKTLKDKAEGPLREEFRHEAMLRARLQHPNVVCLLGVVTKDQPLSMIFSYCSHGDLHEFLVMRSPDFVHLVAQIAAGMEYLSSHHVVHKDLATRNVLVYDKLNVKISDLGLFREVYAADYYKLLGNSLLPIRWMAPEAIMYGKFSIDSDIWSYGVVLWEVFSYGLQPYCGYSNQDVVEMIRNRQVLPCPDDCPAWVYALMIECWNEFPSRRPRFKDIHSRLRAWG KEISLSAVRFMEELGEDRFGKVYKGHLFGPAPGEQTQAVAIKTLKDKAEGPLREEFRHEAMLRARLQHPNVVCLLGVVTKDQPLSMIFSYCSHGDLHEFLVMRSALEPPDFVHLVAQIAAGMEYLSSHHVVHKDLATRNVLVYDKLNVKISDLGLFREVYAADYYKLLGNSLLPIRWMAPEAIMYGKFSIDSDIWSYGVVLWEVFSYGLQPYCGYSNQDVVEMIRNRQVLPCPDDCPAWVYALMIECWNEFPSRRPRFKDIHSRLRAWG 4a0g-a1-m1-cB_4a0g-a1-m1-cA Structure of bifunctional DAPA aminotransferase-DTB synthetase from Arabidopsis thaliana in its apo form. B0F481 B0F481 2.502 X-RAY DIFFRACTION 542 0.995 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 756 769 4a0f-a1-m1-cA_4a0f-a1-m1-cB 4a0h-a1-m1-cB_4a0h-a1-m1-cA 4a0r-a1-m1-cB_4a0r-a1-m1-cA VSPFHLPLNHPTYLIWSANTSLGKTLVSTGIAASFLLQQSATKLLYLKPIQTGFPSDSDSRFVFSKLDSLSLRRQIPISISNSVLHSSLPAAKSLGLGMCSLNFRDEKTVTGAPELLCKTLYAWEAAISPHLAAERENATVEDSVVLQMIEKCLKEEMDLLCLVETAGGVASPGPSGTLQCDLYRPFRLPGILVGDGRLGGISGTIAAYESLKLRGYDIAAVVFEDHGLVNEVPLTSYLRNKVPVLVLPPVPKDPSDDLIEWFVESDGVFKALKETMVLANLERLERLNGMAKLAGEVFWWPFTQHKLVHQETVTVIDSRCGENFSIYKASDNSSLSQQFDACASWWTQGPDPTFQAELAREMGYTAARFGHVMFPENVYEPALKCAELLLDGVGKGWASRVYFSDNGSTAIEIALKMAFRKFCVDHNFIVVKVIALRGSYHGDTLGAMEAQAPSPYTGFLQQPWYTGRGLFLDPPTVFLSNGSWNISLPESFSTFTSRDEIFDKSRDASTLARIYSAYLSKHLQAHVGALIIEPVIHGAGGMHMVDPLFQRVLVNECRNRKIPVIFDEVFTGFWRLGVETTTELLGCKPDIACFAKLLTGGMVPLAVTLATDAVFDSFSGDSKLKALLHGHSYSAHAMGCATAAKAIQWFKDPETNHNITSQGKTLRELWDEELVQQISSHSAVQRVVVIGTLFALELKASLYAKSLLIMLREDGIFTRPLGNVIYLMCGPCTSPEICRRLLTKLYKRLGEFNRT PFHLPLNHPTYLIWSANTSLGKTLVSTGIAASFLLQQPSSSATKLLYLKPIQTGFPSDSDSRFVFSKLDSLSLRRQIPISISNSVLHSSLPAAKSLGLNVEVSESGMCSLNFRDEKTVTGAPELLCKTLYAWEAAISPHLAAERENATVEDSVVLQMIEKCLKEEMDLLCLVETAGGVASPGPSGTLQCDLYRPFRLPGILVGDGRLGGISGTIAAYESLKLRGYDIAAVVFEDHGLVNEVPLTSYLRNKVPVLVLPPVPKDPSDDLIEWFVESDGVFKALKETMVLANLERLERLNGMAKLAGEVFWWPFTQHKLVHQETVTVIDSRCGENFSIYKASDNSSLSQQFDACASWWTQGPDPTFQAELAREMGYTAARFGHVMFPENVYEPALKCAELLLDGVGKGWASRVYFSDNGSTAIEIALKMAFRKFCVDHNFIVVKVIALRGSYHGDTLGAMEAQAPSPYTGFLQQPWYTGRGLFLDPPTVFLSNGSWNISLPESFSEIAPEYGTFTSRDEIFDKSRDASTLARIYSAYLSKHLAHVGALIIEPVIHGAGGMHMVDPLFQRVLVNECRNRKIPVIFDEVFTGFWRLGVETTTELLGCKPDIACFAKLLTGGMVPLAVTLATDAVFDSFSGDSKLKALLHGHSYSAHAMGCATAAKAIQWFKDPETNHNITSQGKTLRELWDEELVQQISSHSAVQRVVVIGTLFALELKSLYAKSLLIMLREDGIFTRPLGNVIYLMCGPCTSPEICRRLLTKLYKRLGEFNRT 4a0o-a1-m1-cA_4a0o-a1-m1-cC Symmetry-free cryo-EM map of TRiC in the nucleotide-free (apo) state Q3ZBH0 Q3ZBH0 10.5 ELECTRON MICROSCOPY 53 1.0 9913 (Bos taurus) 9913 (Bos taurus) 339 482 AGADEERAETARLSSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAARQALLNSAVDHGSDEVKFRQDLMNIAGTTLSSKLLTHHKDHFTKLAVEAVLRLKGSGNLCTIVLRGATQQILDEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLASRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGKTTAGLDMKEGTIGDMSVLGITESFQVKRQVLLSAAEAAEVILRVDNIIKAAPR AGADEERAETARLSSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAARQALLNSAVDHGSDEVKFRQDLMNIAGTTLSSKLLTHHKDHFTKLAVEAVLRLKGSGNLEAIHVIKKLGGSLADSYLDEGFLLDKKIGVNQPKRIENAKILIANTGMDEKVERILKHGINCFINRQLIYNYPEQLFGAAGVMAIEHADFVGVERLALVTGGEIASTFDHPELVKLGSCKLIEEVMIGEDKLIHFSGVALGEACTIVLRGATQQILDEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLASRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGKTTAGLDMKEGTIGDMSVLGITESFQVKRQVLLSAAEAAEVILRVDNIIKAAPR 4a0o-a1-m1-cA_4a0o-a1-m1-cF Symmetry-free cryo-EM map of TRiC in the nucleotide-free (apo) state Q3ZBH0 Q3ZBH0 10.5 ELECTRON MICROSCOPY 68 1.0 9913 (Bos taurus) 9913 (Bos taurus) 339 488 AGADEERAETARLSSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAARQALLNSAVDHGSDEVKFRQDLMNIAGTTLSSKLLTHHKDHFTKLAVEAVLRLKGSGNLCTIVLRGATQQILDEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLASRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGKTTAGLDMKEGTIGDMSVLGITESFQVKRQVLLSAAEAAEVILRVDNIIKAAPR AGADEERAETARLSSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAARQALLNSAVDHGSDEVKFRQDLMNIAGTTLSSKLLTHHKDHFTKLAVEAVLRLKGSGNLEAIHVIKKLGGSLADSYLDEGFLLDKKIGVNQPKRIENAKILIANTGMDEKEKMKEKVERILKHGINCFINRQLIYNYPEQLFGAAGVMAIEHADFVGVERLALVTGGEIASTFDHPELVKLGSCKLIEEVMIGEDKLIHFSGVALGEACTIVLRGATQQILDEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLASRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGKTTAGLDMKEGTIGDMSVLGITESFQVKRQVLLSAAEAAEVILRVDNIIKAAPR 4a0o-a1-m1-cM_4a0o-a1-m1-cO Symmetry-free cryo-EM map of TRiC in the nucleotide-free (apo) state Q3ZBH0 Q3ZBH0 10.5 ELECTRON MICROSCOPY 35 1.0 9913 (Bos taurus) 9913 (Bos taurus) 388 481 AGADEERAETARLSSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAARQALLNSAVDHGSDEVKFRQDLMNIAGTTLSSKLLTHHKDHFTKLAVEAVLRLKGSGNLEAIHVIKKLGGSLADSYLDEGFLLDKLIEEVMIGEDKLIHFSGVALGEACTIVLRGATQQILDEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLASRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGKTTAGLDMKEGTIGDMSVLGITESFQVKRQVLLSAAEAAEVILRVDNIIKAAPR AGADEERAETARLSSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAARQALLNSAVDHGSDEVKFRQDLMNIAGTTLSSKLLTHHKDHFTKLAVEAVLRLKGSGNLEAIHVIKKLGGSLADSYLDEGFLLDKKIGVNQPKRIENAKILIANTGMEKVERILKHGINCFINRQLIYNYPEQLFGAAGVMAIEHADFVGVERLALVTGGEIASTFDHPELVKLGSCKLIEEVMIGEDKLIHFSGVALGEACTIVLRGATQQILDEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLASRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGKTTAGLDMKEGTIGDMSVLGITESFQVKRQVLLSAAEAAEVILRVDNIIKAAPR 4a0s-a1-m1-cC_4a0s-a1-m1-cD STRUCTURE OF THE 2-OCTENOYL-COA CARBOXYLASE REDUCTASE CINF IN COMPLEX WITH NADP AND 2-OCTENOYL-COA F0V3Z3 F0V3Z3 1.9 X-RAY DIFFRACTION 105 1.0 319633 (Streptomyces cinnabarigriseus) 319633 (Streptomyces cinnabarigriseus) 444 444 4a0s-a1-m1-cA_4a0s-a1-m1-cB 4a10-a1-m1-cA_4a10-a1-m1-cB 4a10-a1-m1-cC_4a10-a1-m1-cD SSLSRAVLDGASAAEIEAAPVPDTYLALHLRAEDADMFKGVADKDVRKSLRLGEVPMPELAPDEVLVAVMASSINYNTVWSAMFEPIPTFHFLKQNARQGGWATRHDQPYHVLGSDCSGVVVRTGIGVRRWKPGDHVIVHPAHVDEQEPATHGDGMLGTEQRAWGFETNFGGLAEYGVVRASQLLPKPAHLTWEEAAVSPLCAGTAYRMLVSDRGAQMKQGDIVLIWGASGGLGSYAIQFVKNGGGIPVAVVSSAQKEAAVRALGCDLVINRAELGITDDIADDPRRVVETGRKLAKLVVEKAGREPDIVFEHTGRVTFGLSVIVARRGGTVVTCGSSSGYLHTFDNRYLWMKLKKIVGSHGANHEEQQATNRLFESGAVVPAMSAVYPLAEAAEACRVVQTSRQVGKVAVLCMAPEQGLGVTDPDLRARLGEDRLNPLRGLTA SSLSRAVLDGASAAEIEAAPVPDTYLALHLRAEDADMFKGVADKDVRKSLRLGEVPMPELAPDEVLVAVMASSINYNTVWSAMFEPIPTFHFLKQNARQGGWATRHDQPYHVLGSDCSGVVVRTGIGVRRWKPGDHVIVHPAHVDEQEPATHGDGMLGTEQRAWGFETNFGGLAEYGVVRASQLLPKPAHLTWEEAAVSPLCAGTAYRMLVSDRGAQMKQGDIVLIWGASGGLGSYAIQFVKNGGGIPVAVVSSAQKEAAVRALGCDLVINRAELGITDDIADDPRRVVETGRKLAKLVVEKAGREPDIVFEHTGRVTFGLSVIVARRGGTVVTCGSSSGYLHTFDNRYLWMKLKKIVGSHGANHEEQQATNRLFESGAVVPAMSAVYPLAEAAEACRVVQTSRQVGKVAVLCMAPEQGLGVTDPDLRARLGEDRLNPLRGLTA 4a0s-a1-m1-cD_4a0s-a1-m1-cA STRUCTURE OF THE 2-OCTENOYL-COA CARBOXYLASE REDUCTASE CINF IN COMPLEX WITH NADP AND 2-OCTENOYL-COA F0V3Z3 F0V3Z3 1.9 X-RAY DIFFRACTION 107 1.0 319633 (Streptomyces cinnabarigriseus) 319633 (Streptomyces cinnabarigriseus) 444 445 4a0s-a1-m1-cC_4a0s-a1-m1-cB 4a10-a1-m1-cC_4a10-a1-m1-cB 4a10-a1-m1-cD_4a10-a1-m1-cA SSLSRAVLDGASAAEIEAAPVPDTYLALHLRAEDADMFKGVADKDVRKSLRLGEVPMPELAPDEVLVAVMASSINYNTVWSAMFEPIPTFHFLKQNARQGGWATRHDQPYHVLGSDCSGVVVRTGIGVRRWKPGDHVIVHPAHVDEQEPATHGDGMLGTEQRAWGFETNFGGLAEYGVVRASQLLPKPAHLTWEEAAVSPLCAGTAYRMLVSDRGAQMKQGDIVLIWGASGGLGSYAIQFVKNGGGIPVAVVSSAQKEAAVRALGCDLVINRAELGITDDIADDPRRVVETGRKLAKLVVEKAGREPDIVFEHTGRVTFGLSVIVARRGGTVVTCGSSSGYLHTFDNRYLWMKLKKIVGSHGANHEEQQATNRLFESGAVVPAMSAVYPLAEAAEACRVVQTSRQVGKVAVLCMAPEQGLGVTDPDLRARLGEDRLNPLRGLTA SSLSRAVLDGASAAEIEAAPVPDTYLALHLRAEDADMFKGVADKDVRKSLRLGEVPMPELAPDEVLVAVMASSINYNTVWSAMFEPIPTFHFLKQNARQGGWATRHDQPYHVLGSDCSGVVVRTGIGVRRWKPGDHVIVHPAHVDEQEPATHGDGMLGTEQRAWGFETNFGGLAEYGVVRASQLLPKPAHLTWEEAAVSPLCAGTAYRMLVSDRGAQMKQGDIVLIWGASGGLGSYAIQFVKNGGGIPVAVVSSAQKEAAVRALGCDLVINRAELGITDDIADDPRRVVETGRKLAKLVVEKAGREPDIVFEHTGRVTFGLSVIVARRGGTVVTCGSSSGYLHTFDNRYLWMKLKKIVGSHGANHEEQQATNRLFESGAVVPAMSAVYPLAEAAEACRVVQTSRQVGKVAVLCMAPEQGLGVTDPDLRARLGEDRLNPLRGLTAT 4a0s-a1-m1-cD_4a0s-a1-m1-cB STRUCTURE OF THE 2-OCTENOYL-COA CARBOXYLASE REDUCTASE CINF IN COMPLEX WITH NADP AND 2-OCTENOYL-COA F0V3Z3 F0V3Z3 1.9 X-RAY DIFFRACTION 49 1.0 319633 (Streptomyces cinnabarigriseus) 319633 (Streptomyces cinnabarigriseus) 444 445 4a0s-a1-m1-cC_4a0s-a1-m1-cA 4a10-a1-m1-cC_4a10-a1-m1-cA 4a10-a1-m1-cD_4a10-a1-m1-cB SSLSRAVLDGASAAEIEAAPVPDTYLALHLRAEDADMFKGVADKDVRKSLRLGEVPMPELAPDEVLVAVMASSINYNTVWSAMFEPIPTFHFLKQNARQGGWATRHDQPYHVLGSDCSGVVVRTGIGVRRWKPGDHVIVHPAHVDEQEPATHGDGMLGTEQRAWGFETNFGGLAEYGVVRASQLLPKPAHLTWEEAAVSPLCAGTAYRMLVSDRGAQMKQGDIVLIWGASGGLGSYAIQFVKNGGGIPVAVVSSAQKEAAVRALGCDLVINRAELGITDDIADDPRRVVETGRKLAKLVVEKAGREPDIVFEHTGRVTFGLSVIVARRGGTVVTCGSSSGYLHTFDNRYLWMKLKKIVGSHGANHEEQQATNRLFESGAVVPAMSAVYPLAEAAEACRVVQTSRQVGKVAVLCMAPEQGLGVTDPDLRARLGEDRLNPLRGLTA SSLSRAVLDGASAAEIEAAPVPDTYLALHLRAEDADMFKGVADKDVRKSLRLGEVPMPELAPDEVLVAVMASSINYNTVWSAMFEPIPTFHFLKQNARQGGWATRHDQPYHVLGSDCSGVVVRTGIGVRRWKPGDHVIVHPAHVDEQEPATHGDGMLGTEQRAWGFETNFGGLAEYGVVRASQLLPKPAHLTWEEAAVSPLCAGTAYRMLVSDRGAQMKQGDIVLIWGASGGLGSYAIQFVKNGGGIPVAVVSSAQKEAAVRALGCDLVINRAELGITDDIADDPRRVVETGRKLAKLVVEKAGREPDIVFEHTGRVTFGLSVIVARRGGTVVTCGSSSGYLHTFDNRYLWMKLKKIVGSHGANHEEQQATNRLFESGAVVPAMSAVYPLAEAAEACRVVQTSRQVGKVAVLCMAPEQGLGVTDPDLRARLGEDRLNPLRGLTAT 4a0u-a1-m1-cC_4a0u-a1-m1-cB Structure of the carboxy-terminal domain of bacteriophage T7 fibre gp17 containing residues 371-553, C2221 crystal form. P03748 P03748 2 X-RAY DIFFRACTION 201 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 183 186 4a0t-a1-m1-cB_4a0t-a1-m1-cA 4a0t-a1-m1-cB_4a0t-a1-m1-cC 4a0t-a1-m1-cC_4a0t-a1-m1-cA 4a0u-a1-m1-cA_4a0u-a1-m1-cB 4a0u-a1-m1-cA_4a0u-a1-m1-cC GHVLQLESASDKAHYILSKDGNRNNWYIGRGSDNNNDCTFHSYVHGTTLTLKQDYAVVNKHFHVGQAVVATDGNIQGTKWGGKWLDAYLRDSFVAKSKAWTQVWSGSAGGGVSVTVSQDLRFRNIWIKCANNSWNFFRTGPDGIYFIASDGGWLRFQIHSNGLGFKNIADSRSVPNAIMVENE KAMGHVLQLESASDKAHYILSKDGNRNNWYIGRGSDNNNDCTFHSYVHGTTLTLKQDYAVVNKHFHVGQAVVATDGNIQGTKWGGKWLDAYLRDSFVAKSKAWTQVWSGSAGGGVSVTVSQDLRFRNIWIKCANNSWNFFRTGPDGIYFIASDGGWLRFQIHSNGLGFKNIADSRSVPNAIMVENE 4a0x-a1-m3-cA_4a0x-a1-m6-cA Structure of the global transcription regulator FapR from Staphylococcus aureus Q2FZ56 Q2FZ56 2.4 X-RAY DIFFRACTION 64 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 184 184 4a0x-a1-m1-cA_4a0x-a1-m4-cA 4a0x-a1-m2-cA_4a0x-a1-m5-cA 4a0y-a1-m1-cB_4a0y-a1-m1-cA 4a0y-a1-m2-cB_4a0y-a1-m2-cA 4a0z-a1-m1-cB_4a0z-a1-m1-cA LKLKKDKRREAIRQQIDSNPFITDHELSDLFQVSIQTIRLDRTYLNIPELRKRIKLVAEKNYDQISSIEEQEFIGDLIQVNPNVKAQSILDITSDSVFHKTGIARGHVLFAQANSLCVALIKQPTVLTHESSIQFIEKVKLNDTVRAEARVVNQTAKHYYVEVKSYVKHTLVFKGNFKMFYDKR LKLKKDKRREAIRQQIDSNPFITDHELSDLFQVSIQTIRLDRTYLNIPELRKRIKLVAEKNYDQISSIEEQEFIGDLIQVNPNVKAQSILDITSDSVFHKTGIARGHVLFAQANSLCVALIKQPTVLTHESSIQFIEKVKLNDTVRAEARVVNQTAKHYYVEVKSYVKHTLVFKGNFKMFYDKR 4a0y-a1-m1-cA_4a0y-a1-m2-cA Structure of the global transcription regulator FapR from Staphylococcus aureus Q2FZ56 Q2FZ56 2.6 X-RAY DIFFRACTION 62 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 184 184 LKLKKDKRREAIRQQIDSNPFITDHELSDLFQVSIQTIRLDRTYLNIPELRKRIKLVAEKNYDQISSIEEQEFIGDLIQVNPNVKAQSILDITSDSVFHKTGIARGHVLFAQANSLCVALIKQPTVLTHESSIQFIEKVKLNDTVRAEARVVNQTAKHYYVEVKSYVKHTLVFKGNFKMFYDKR LKLKKDKRREAIRQQIDSNPFITDHELSDLFQVSIQTIRLDRTYLNIPELRKRIKLVAEKNYDQISSIEEQEFIGDLIQVNPNVKAQSILDITSDSVFHKTGIARGHVLFAQANSLCVALIKQPTVLTHESSIQFIEKVKLNDTVRAEARVVNQTAKHYYVEVKSYVKHTLVFKGNFKMFYDKR 4a12-a1-m1-cD_4a12-a1-m1-cC Structure of the global transcription regulator FapR from Staphylococcus aureus in complex with DNA operator Q2FZ56 Q2FZ56 3.15 X-RAY DIFFRACTION 116 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 182 185 4a12-a1-m1-cA_4a12-a1-m1-cB KLKKDKRREAIRQQIDSNPFITDHELSDLFQVSIQTIRLDRTYLNIPELRKRIKLVAEKNYDQISSIEEQEFIGDLIQVNPNVKAQSILDITSDSVFHKTGIARGHVLFAQANSLCVALIKQPTVLTHESSIQFIEKVKLNDTVRAEARVVNQTAKHYYVEVKSYVKHTLVFKGNFKFYDKR ETLKLKKDKRREAIRQQIDSNPFITDHELSDLFQVSIQTIRLDRTYLNIPELRKRIKLVAEKNYDQISSIEEQEFIGDLIQVNPNVKAQSILDITSDSVFHKTGIARGHVLFAQANSLCVALIKQPTVLTHESSIQFIEKVKLNDTVRAEARVVNQTAKHYYVEVKSYVKHTLVFKGNFKFYDKR 4a1f-a1-m1-cB_4a1f-a1-m1-cA Crystal structure of C-terminal domain of Helicobacter pylori DnaB Helicase O25916 O25916 2.5 X-RAY DIFFRACTION 96 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 307 323 ARNIKEVLESAMDLITENQRKGSLEVTGIPTGFVQLDNYTSGFNKGSLVIIGARPSMGKTSLMMNMVLSALNDDRGVAVFSLEMSAEQLALRALSDLTSINMHDLESGRLDDDQWENLAKCFDHLSQKKLFFYDKSYVRIEQIRLQLRKLKSQHKELGIAFIDYLQLQIAEISRELKTLARELEIPIIALVQLNRSLENRDDKRPILSDIKDSGGIEQDADIVLFLYRGYIYQMRAEDNKIDKLKKEGKIEEAQELYLKVNEERRIHKQNGSIEEAEIIVAKNRNGATGTVYTRFNAPFTRYEDMPI ARNIKEVLESAMDLITENQRKGSLEVTGIPTGFVQLDNYTSGFNKGSLVIIGARPSMGKTSLMMNMVLSALNDDRGVAVFSLEMSAEQLALRALSDLTSINMHDLESGRLDDDQWENLAKCFDHLSQKKLFFYDKSYVRIEQIRLQLRKLKSQHKELGIAFIDYLQLMSGSKATKERHEQIAEISRELKTLARELEIPIIALVQLNRSLENRDDKRPILSDIKDSGGIEQDADIVLFLYRGYIYQMRAEDNKIDKLKKEGKIEEAQELYLKVNEERRIHKQNGSIEEAEIIVAKNRNGATGTVYTRFNAPFTRYEDMPIDSHL 4a1i-a5-m1-cE_4a1i-a5-m1-cD ykud from B.subtilis O34816 O34816 1.76 X-RAY DIFFRACTION 59 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 164 165 4a1i-a1-m1-cH_4a1i-a1-m1-cA 4a1i-a2-m1-cG_4a1i-a2-m2-cB 4a1i-a3-m3-cG_4a1i-a3-m1-cB 4a1i-a4-m1-cF_4a1i-a4-m1-cC MLTYQVKQGDTLNSIAADFRISTAALLQANPSLQAGLTAGQSIVIPGLPDPYTIPYHIAVSIGAKTLTLSLNNRVMKTYPIAVGKILTQTPTGEFYIINRQRNPGGPFGAYWLSLSAAHYGIHGTNNPASIGKAVSKGCIRMHNKDVIELASIVPNGTRVTINR GMLTYQVKQGDTLNSIAADFRISTAALLQANPSLQAGLTAGQSIVIPGLPDPYTIPYHIAVSIGAKTLTLSLNNRVMKTYPIAVGKILTQTPTGEFYIINRQRNPGGPFGAYWLSLSAAHYGIHGTNNPASIGKAVSKGCIRMHNKDVIELASIVPNGTRVTINR 4a1k-a1-m1-cA_4a1k-a1-m2-cA Ykud L,D-transpeptidase O34816 O34816 1.75 X-RAY DIFFRACTION 43 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 164 164 4a1j-a1-m1-cA_4a1j-a1-m1-cB GMLTYQVKQGDTLNSIAADFRISTAALLQANPSLQAGLTAGQSIVIPGLPDPYTIPYHIAVSIGAKTLTLSLNNRVMKTYPIAVGKILTQTPTGEFYIINRQRNPGGPFGAYWLSLSAAHYGIHGTNNPASIGKAVSKGIRMHNKDVIELASIVPNGTRVTINR GMLTYQVKQGDTLNSIAADFRISTAALLQANPSLQAGLTAGQSIVIPGLPDPYTIPYHIAVSIGAKTLTLSLNNRVMKTYPIAVGKILTQTPTGEFYIINRQRNPGGPFGAYWLSLSAAHYGIHGTNNPASIGKAVSKGIRMHNKDVIELASIVPNGTRVTINR 4a1r-a6-m1-cC_4a1r-a6-m1-cD The Structure of Serratia marcescens Lip, a membrane bound component of the Type VI Secretion System. G5EA77 G5EA77 1.92 X-RAY DIFFRACTION 73 0.985 615 (Serratia marcescens) 615 (Serratia marcescens) 137 139 PSRYSLVFDADRQVNAAAQPAPIKIRVLLLRSDAEFMDADFFSLQNDAKSVLGNSLLDSDQFFLTPGQTGKKLGGQSALDARYIGVIAEYQNLDGKTWRISLPLPEPTFYKVWQFSPDELEAHIVAGVSGLRPVKKV VPSRYSLVFDADRQVNAAPAPIKIRVLLLRSDAEFMDADFFSLQNDAKSVLGNSLLDSDQFFLTPGQTGKKLGGQSALDARYIGVIAEYQNLDGKTWRISLPLPEPTETNFYKVWQFSPDELEAHIVAGVSGLRPVKKV 4a20-a1-m1-cA_4a20-a1-m2-cA Crystal structure of the Ubl domain of Mdy2 (Get5) at 1.78A Q12285 Q12285 1.78 X-RAY DIFFRACTION 46 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 80 80 AAVHLTLKKIQAPKFSIEHDFSPSDTILQIKQHLISEEKASHISEIKLLLKGKVLHDNLFLSDLKVTPANSTITVMIKPN AAVHLTLKKIQAPKFSIEHDFSPSDTILQIKQHLISEEKASHISEIKLLLKGKVLHDNLFLSDLKVTPANSTITVMIKPN 4a25-a1-m2-cD_4a25-a1-m3-cD X-ray structure Dps from Kineococcus radiotolerans in complex with Mn (II) ions. A6WG04 A6WG04 2 X-RAY DIFFRACTION 71 1.0 131568 (Kineococcus radiotolerans) 131568 (Kineococcus radiotolerans) 166 166 4a25-a1-m1-cA_4a25-a1-m1-cC 4a25-a1-m1-cA_4a25-a1-m2-cB 4a25-a1-m1-cB_4a25-a1-m3-cC 4a25-a1-m1-cC_4a25-a1-m2-cB 4a25-a1-m1-cD_4a25-a1-m2-cD 4a25-a1-m1-cD_4a25-a1-m3-cD 4a25-a1-m2-cA_4a25-a1-m2-cC 4a25-a1-m2-cA_4a25-a1-m3-cB 4a25-a1-m2-cC_4a25-a1-m3-cB 4a25-a1-m3-cA_4a25-a1-m1-cB 4a25-a1-m3-cA_4a25-a1-m3-cC TIHDVQTTGLTQDAVTGFDASSRLNAGLQEVLVDLTALHLQGKQAHWNIVGENWRDLHLQLDTLVEAARGFSDDVAERMRAVGGVPDARPQTVAASRIGDVGPDEIDTRACVEAIVALVRHTVDTIRRVHDPIDAEDPASADLLHAITLELEKQAWMIGSENRSPR TIHDVQTTGLTQDAVTGFDASSRLNAGLQEVLVDLTALHLQGKQAHWNIVGENWRDLHLQLDTLVEAARGFSDDVAERMRAVGGVPDARPQTVAASRIGDVGPDEIDTRACVEAIVALVRHTVDTIRRVHDPIDAEDPASADLLHAITLELEKQAWMIGSENRSPR 4a25-a1-m3-cB_4a25-a1-m3-cC X-ray structure Dps from Kineococcus radiotolerans in complex with Mn (II) ions. A6WG04 A6WG04 2 X-RAY DIFFRACTION 40 1.0 131568 (Kineococcus radiotolerans) 131568 (Kineococcus radiotolerans) 169 169 4a25-a1-m1-cA_4a25-a1-m2-cA 4a25-a1-m1-cA_4a25-a1-m3-cA 4a25-a1-m1-cB_4a25-a1-m1-cC 4a25-a1-m1-cD_4a25-a1-m2-cB 4a25-a1-m1-cD_4a25-a1-m2-cC 4a25-a1-m2-cA_4a25-a1-m3-cA 4a25-a1-m2-cB_4a25-a1-m2-cC 4a25-a1-m2-cD_4a25-a1-m3-cB 4a25-a1-m2-cD_4a25-a1-m3-cC 4a25-a1-m3-cD_4a25-a1-m1-cB 4a25-a1-m3-cD_4a25-a1-m1-cC TTIHDVQTTGLTQDAVTGFDASSRLNAGLQEVLVDLTALHLQGKQAHWNIVGENWRDLHLQLDTLVEAARGFSDDVAERMRAVGGVPDARPQTVAASRIGDVGPDEIDTRACVEAIVALVRHTVDTIRRVHDPIDAEDPASADLLHAITLELEKQAWMIGSENRSPRRR TTIHDVQTTGLTQDAVTGFDASSRLNAGLQEVLVDLTALHLQGKQAHWNIVGENWRDLHLQLDTLVEAARGFSDDVAERMRAVGGVPDARPQTVAASRIGDVGPDEIDTRACVEAIVALVRHTVDTIRRVHDPIDAEDPASADLLHAITLELEKQAWMIGSENRSPRRR 4a25-a1-m3-cD_4a25-a1-m3-cC X-ray structure Dps from Kineococcus radiotolerans in complex with Mn (II) ions. A6WG04 A6WG04 2 X-RAY DIFFRACTION 85 1.0 131568 (Kineococcus radiotolerans) 131568 (Kineococcus radiotolerans) 166 169 4a25-a1-m1-cA_4a25-a1-m1-cB 4a25-a1-m1-cD_4a25-a1-m1-cC 4a25-a1-m2-cA_4a25-a1-m2-cB 4a25-a1-m2-cD_4a25-a1-m2-cC 4a25-a1-m3-cA_4a25-a1-m3-cB TIHDVQTTGLTQDAVTGFDASSRLNAGLQEVLVDLTALHLQGKQAHWNIVGENWRDLHLQLDTLVEAARGFSDDVAERMRAVGGVPDARPQTVAASRIGDVGPDEIDTRACVEAIVALVRHTVDTIRRVHDPIDAEDPASADLLHAITLELEKQAWMIGSENRSPR TTIHDVQTTGLTQDAVTGFDASSRLNAGLQEVLVDLTALHLQGKQAHWNIVGENWRDLHLQLDTLVEAARGFSDDVAERMRAVGGVPDARPQTVAASRIGDVGPDEIDTRACVEAIVALVRHTVDTIRRVHDPIDAEDPASADLLHAITLELEKQAWMIGSENRSPRRR 4a26-a1-m1-cB_4a26-a1-m1-cA The crystal structure of Leishmania major N5,N10- methylenetetrahydrofolate dehydrogenase/cyclohydrolase Q4Q9F9 Q4Q9F9 2.7 X-RAY DIFFRACTION 99 1.0 5664 (Leishmania major) 5664 (Leishmania major) 290 296 AQIIDGKAIAAAIRSELKDKVAALRELYGGRVPGLASIIVGQRMDSKKYVQLKHKAAAEVGMASFNVELPEDISQEVLEVNVEKLNNDPNCHGIIVQLPLPKHLNENRAIEKIHPHKDADALLPVNVGLLHYKGREPPFTPCTAKGVIVLLKRCGIEMAGKRAVVLGRSNIVGAPVAALLMKENATVTIVHSGTSTEDMIDYLRTADIVIAAMGQPGYVKGEWIKEGAAVVDVGTTPVPDPSGYRLVGDVCFEEAAARAAWISPVPGGVGPMTIAMLLENTLEAFKAALG SAQIIDGKAIAAAIRSELKDKVAALRELYGGRVPGLASIIVGQRMDSKKYVQLKHKAAAEVGMASFNVELPEDISQEVLEVNVEKLNNDPNCHGIIVQLPLPKHLNENRAIEKIHPHKDADALLPVNVGLLHYKGREPPFTPCTAKGVIVLLKRCGIEMAGKRAVVLGRSNIVGAPVAALLMKENATVTIVHSGTSTEDMIDYLRTADIVIAAMGQPGYVKGEWIKEGAAVVDVGTTPVPDPSRKDGYRLVGDVCFEEAAARAAWISPVPGGVGPMTIAMLLENTLEAFKAALGVS 4a27-a1-m1-cB_4a27-a1-m1-cA Crystal structure of human synaptic vesicle membrane protein VAT-1 homolog-like protein Q9HCJ6 Q9HCJ6 2.1 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 309 314 MEMRAVVLAGFGGLNKLRLFRKAMPEPQDGELKIRVKACGLNFIDLMVRQGNIDNPPKTPLVPGFECSGIVEALGDSVKGYEIGDRVMAFVNYNAWAEVVCTPVEFVYKIPDDMSFSEAAAFPMNFVTAYVMLFEVANLREGMSVLVHSAGGGVGQAVAQLCSTVPNVTVFGTASTFKHEAIKDSVTHLFDRYVQEVKRISAEGVDIVLDCLLSLLKPLGTYILYGNPIKLYEENKVIAGFSLLNLLFKQGRAGLIRGVVEKLIGLYNQKKIKPVVDSLWALEEVKEAMQRIHDRGNIGKLILDVEKTP SMEMRAVVLAGFGGLNKLRLFRKAMPEPQDGELKIRVKACGLNFIDLMVRQGNIDNPPKTPLVPGFECSGIVEALGDSVKGYEIGDRVMAFVNYNAWAEVVCTPVEFVYKIPDDMSFSEAAAFPMNFVTAYVMLFEVANLREGMSVLVHSAGGGVGQAVAQLCSTVPNVTVFGTASTFKHEAIKDSVTHLFDRNADYVQEVKRISAEGVDIVLDCLCLSLLKPLGTYILYGNPIKLYEENKVIAGFSLLNLLFKQGRAGLIRGVVEKLIGLYNQKKIKPVVDSLWALEEVKEAMQRIHDRGNIGKLILDVEKTP 4a2l-a3-m1-cE_4a2l-a3-m1-cF Structure of the periplasmic domain of the heparin and heparan sulphate sensing hybrid two component system BT4663 in apo and ligand bound forms Q89YR8 Q89YR8 2.6 X-RAY DIFFRACTION 93 0.997 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 744 749 4a2l-a1-m1-cB_4a2l-a1-m1-cA 4a2l-a2-m1-cD_4a2l-a2-m1-cC 4a2m-a1-m1-cA_4a2m-a1-m1-cB 4a2m-a2-m1-cC_4a2m-a2-m1-cD QITFSYISINEGLSQSTVFSIDQDKRGNMWFATYDGVNKYDGYAFTVYQHNEDDPNSIANDISRIVKTDSQGRVWIGTRDGLSRYDEEKDIFQNFFYEKNGKHLQVNGIEEISPEQLLISTPEGLIMFDIKESKFIDDSFSTAMHKTIASTLYRQGDQIYIGTSTDGLYTYSITQKTFEKVIPTKQIQAILQQSPTRIWVATEGAGLFLINPKTKEIKNYLHSPSNPKSISSNYIRSLAMDSQNRLWIGTFNDLNIYHEGTDSFASYSSNPVENGSLSQRSVRSIFMDSQGGMWLGTYFGGLNYYHPIRNRFKNIRNIPYKNSLSDNVVSCIVEDKDKNLWIGTNDGGLNLYNPITQRFTSYTLGSNNIKAVYVDEKKSLVYIGTHAGGLSILHRNSGQVENFNQRNSQLVNENVYAILPDGEGNLWLGTLSALVRFNPEQRSFTTIEKEKDGTPVVSKQITTLFRDSHKRLWIGGEEGLSVFKQEGLDIQKASILPVSNVTKLFTNCIYEASNGIIWVGTREGFYCFNEKDKQIKRYNTTNGLPNNVVYGILEDSFGRLWLSTNRGISCFNPETEKFRNFTESDGLQSNQFNTASYCRTSVGQMYFGGINGITTFRPELLLDNPYTPPVVITKLQLFNKVVRPDDETGILTKNISETKSITLKSWQTAFSIEFVVSNYISGQHNTFAYKLEGYDKEWYYLTDSRTVSYSNLPQGTYQFLVKAANSDGKWNPIPTALEIIVLPI QITFSYISINEGLSQSTVFSIDQDKRGNMWFATYDGVNKYDGYAFTVYQHNEDDPNSIANDISRIVKTDSQGRVWIGTRDGLSRYDEEKDIFQNFFYEKNGKHLQVNGIEEISPEQLLISTPEGLIMFDIKESKFIDDSFSTAMHKTIASTLYRQGDQIYIGTSTDGLYTYSITQKTFEKVGTKQIQAILQQSPTRIWVATEGAGLFLINPKTKEIKNYLHSPSNPKSISSNYIRSLAMDSQNRLWIGTFNDLNIYHEGTDSFASYSSNPVENGSLSQRSVRSIFMDSQGGMWLGTYFGGLNYYHPIRNRFKNIRNIPYKNSLSDNVVSCIVEDKDKNLWIGTNDGGLNLYNPITQRFTSYTLQEARGIGSNNIKAVYVDEKKSLVYIGTHAGGLSILHRNSGQVENFNQRNSQLVNENVYAILPDGEGNLWLGTLSALVRFNPEQRSFTTIEKEKDGTPVVSKQITTLFRDSHKRLWIGGEEGLSVFKQEGLDIQKASILPVSNVTKLFTNCIYEASNGIIWVGTREGFYCFNEKDKQIKRYNTTNGLPNNVVYGILEDSFGRLWLSTNRGISCFNPETEKFRNFTESDGLQSNQFNTASYCRTSVGQMYFGGINGITTFRPELLLDNPYTPPVVITKLQLFNKVVRPDDETGILTKNISETKSITLKSWQTAFSIEFVVSNYISGQHNTFAYKLEGYDKEWYYLTDSRTVSYSNLPQGTYQFLVKAANSDGKWNPIPTALEIIVLPI 4a2u-a4-m1-cG_4a2u-a4-m1-cH CRP(CAP) from Myco. Tuberculosis, with cAMP 2.63 X-RAY DIFFRACTION 103 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 224 227 3d0s-a1-m1-cB_3d0s-a1-m1-cA 3i54-a1-m1-cB_3i54-a1-m1-cA 3i54-a2-m1-cC_3i54-a2-m1-cD 3mzh-a1-m1-cA_3mzh-a1-m1-cB 4a2u-a1-m1-cA_4a2u-a1-m1-cB 4a2u-a2-m1-cD_4a2u-a2-m1-cC 4a2u-a3-m1-cE_4a2u-a3-m1-cF MDEILARAGIFQGVEPSAIAALTKQLQPVDFPRGHTVFAEGEPGDRLYIIISGKVKIGRRAPDGRENLLTIMGPSDMFGELSIFDPGPRTSSATTITEVRAVSMDRDALRSWIADRPEISEQLLRVLARRLRRTNNNLADLIFTDVPGRVAKQLLQLAQRFGTQEGGALRVTHDLTQEEIAQLVGASRETVNKALADFAHRGWIRLEGKSVLISDSERLARRAR GSHMDEILARAGIFQGVEPSAIAALTKQLQPVDFPRGHTVFAEGEPGDRLYIIISGKVKIGRRAPDGRENLLTIMGPSDMFGELSIFDPGPRTSSATTITEVRAVSMDRDALRSWIADRPEISEQLLRVLARRLRRTNNNLADLIFTDVPGRVAKQLLQLAQRFGTQEGGALRVTHDLTQEEIAQLVGASRETVNKALADFAHRGWIRLEGKSVLISDSERLARRAR 4a34-a2-m1-cM_4a34-a2-m1-cQ Crystal structure of the fucose mutarotase in complex with L-fucose from Streptococcus pneumoniae A0A0H2ZNZ5 A0A0H2ZNZ5 2.5 X-RAY DIFFRACTION 31 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 140 140 4a34-a1-m1-cA_4a34-a1-m1-cJ 4a34-a1-m1-cB_4a34-a1-m1-cF 4a34-a1-m1-cC_4a34-a1-m1-cG 4a34-a1-m1-cD_4a34-a1-m1-cH 4a34-a1-m1-cE_4a34-a1-m1-cI 4a34-a2-m1-cK_4a34-a2-m1-cT 4a34-a2-m1-cL_4a34-a2-m1-cP 4a34-a2-m1-cN_4a34-a2-m1-cR 4a34-a2-m1-cO_4a34-a2-m1-cS LKHIPKNISPDLLKTLMEMGHGDEIVLADANYPSASCANKLIRCDGVNIPELLDSILYLMPLDSYVDSSIQFMNVVSGDDIPKIWGTYRQMIEGHGTDLKTITYLRREDFYERSKKAYAIVATGETSLYANIILKKGVVV LKHIPKNISPDLLKTLMEMGHGDEIVLADANYPSASCANKLIRCDGVNIPELLDSILYLMPLDSYVDSSIQFMNVVSGDDIPKIWGTYRQMIEGHGTDLKTITYLRREDFYERSKKAYAIVATGETSLYANIILKKGVVV 4a34-a2-m1-cN_4a34-a2-m1-cS Crystal structure of the fucose mutarotase in complex with L-fucose from Streptococcus pneumoniae A0A0H2ZNZ5 A0A0H2ZNZ5 2.5 X-RAY DIFFRACTION 49 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 140 140 4a34-a1-m1-cA_4a34-a1-m1-cF 4a34-a1-m1-cB_4a34-a1-m1-cG 4a34-a1-m1-cC_4a34-a1-m1-cH 4a34-a1-m1-cD_4a34-a1-m1-cI 4a34-a1-m1-cE_4a34-a1-m1-cJ 4a34-a2-m1-cK_4a34-a2-m1-cP 4a34-a2-m1-cL_4a34-a2-m1-cQ 4a34-a2-m1-cM_4a34-a2-m1-cR 4a34-a2-m1-cO_4a34-a2-m1-cT LKHIPKNISPDLLKTLMEMGHGDEIVLADANYPSASCANKLIRCDGVNIPELLDSILYLMPLDSYVDSSIQFMNVVSGDDIPKIWGTYRQMIEGHGTDLKTITYLRREDFYERSKKAYAIVATGETSLYANIILKKGVVV LKHIPKNISPDLLKTLMEMGHGDEIVLADANYPSASCANKLIRCDGVNIPELLDSILYLMPLDSYVDSSIQFMNVVSGDDIPKIWGTYRQMIEGHGTDLKTITYLRREDFYERSKKAYAIVATGETSLYANIILKKGVVV 4a34-a2-m1-cR_4a34-a2-m1-cS Crystal structure of the fucose mutarotase in complex with L-fucose from Streptococcus pneumoniae A0A0H2ZNZ5 A0A0H2ZNZ5 2.5 X-RAY DIFFRACTION 29 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 140 140 4a34-a1-m1-cA_4a34-a1-m1-cB 4a34-a1-m1-cB_4a34-a1-m1-cC 4a34-a1-m1-cC_4a34-a1-m1-cD 4a34-a1-m1-cE_4a34-a1-m1-cA 4a34-a1-m1-cE_4a34-a1-m1-cD 4a34-a1-m1-cF_4a34-a1-m1-cG 4a34-a1-m1-cF_4a34-a1-m1-cJ 4a34-a1-m1-cG_4a34-a1-m1-cH 4a34-a1-m1-cH_4a34-a1-m1-cI 4a34-a1-m1-cJ_4a34-a1-m1-cI 4a34-a2-m1-cK_4a34-a2-m1-cL 4a34-a2-m1-cK_4a34-a2-m1-cO 4a34-a2-m1-cL_4a34-a2-m1-cM 4a34-a2-m1-cM_4a34-a2-m1-cN 4a34-a2-m1-cN_4a34-a2-m1-cO 4a34-a2-m1-cP_4a34-a2-m1-cQ 4a34-a2-m1-cP_4a34-a2-m1-cT 4a34-a2-m1-cQ_4a34-a2-m1-cR 4a34-a2-m1-cS_4a34-a2-m1-cT LKHIPKNISPDLLKTLMEMGHGDEIVLADANYPSASCANKLIRCDGVNIPELLDSILYLMPLDSYVDSSIQFMNVVSGDDIPKIWGTYRQMIEGHGTDLKTITYLRREDFYERSKKAYAIVATGETSLYANIILKKGVVV LKHIPKNISPDLLKTLMEMGHGDEIVLADANYPSASCANKLIRCDGVNIPELLDSILYLMPLDSYVDSSIQFMNVVSGDDIPKIWGTYRQMIEGHGTDLKTITYLRREDFYERSKKAYAIVATGETSLYANIILKKGVVV 4a35-a1-m1-cA_4a35-a1-m2-cA Crystal structure of human Mitochondrial enolase superfamily member 1 (ENOSF1) Q7L5Y1 Q7L5Y1 1.74 X-RAY DIFFRACTION 186 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 441 441 SMVRGRISRLSVRDVRFPTSLGGHGADAMHTDPDYSAAYVVIETDAEDGIKGCGITFTLGKGTEVVVCAVNALAHHVLNKDLKDIVGDFRGFYRQLTSDGQLRWIGPEKGVVHLATAAVLNAVWDLWAKQEGKPVWKLLVDMDPRMLVSCIDFRYITDVLTEEDALEILQKGQIGKKEREKQMLAQGYPAYTTSCAWLGYSDDTLKQLCAQALKDGWTRFKVKVGADLQDDMRRCQIIRDMIGPEKTLMMDANQRWDVPEAVEWMSKLAKFKPLWIEEPTSPDDILGHATISKALVPLGIGIATGEQCHNRVIFKQLLQAKALQFLQIDSCRLGSVNENLSVLLMAKKFEIPVCPHAGGVGLCELVQHLIIFDYISVSASLENRVCEYVDHLHEHFKYPVMIQRASYMPPKDPGYSTEMKEESVKKHQYPDGEVWKKLLPA SMVRGRISRLSVRDVRFPTSLGGHGADAMHTDPDYSAAYVVIETDAEDGIKGCGITFTLGKGTEVVVCAVNALAHHVLNKDLKDIVGDFRGFYRQLTSDGQLRWIGPEKGVVHLATAAVLNAVWDLWAKQEGKPVWKLLVDMDPRMLVSCIDFRYITDVLTEEDALEILQKGQIGKKEREKQMLAQGYPAYTTSCAWLGYSDDTLKQLCAQALKDGWTRFKVKVGADLQDDMRRCQIIRDMIGPEKTLMMDANQRWDVPEAVEWMSKLAKFKPLWIEEPTSPDDILGHATISKALVPLGIGIATGEQCHNRVIFKQLLQAKALQFLQIDSCRLGSVNENLSVLLMAKKFEIPVCPHAGGVGLCELVQHLIIFDYISVSASLENRVCEYVDHLHEHFKYPVMIQRASYMPPKDPGYSTEMKEESVKKHQYPDGEVWKKLLPA 4a3n-a1-m1-cA_4a3n-a1-m2-cA Crystal Structure of HMG-BOX of Human SOX17 Q9H6I2 Q9H6I2 2.4 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 RPMNAFMVWAKDERKRLAQQNPDLHNAELSKMLGKSWKALTLAEKRPFVEEAERLRVQHMQDHP RPMNAFMVWAKDERKRLAQQNPDLHNAELSKMLGKSWKALTLAEKRPFVEEAERLRVQHMQDHP 4a3r-a2-m1-cC_4a3r-a2-m7-cD Crystal structure of Enolase from Bacillus subtilis. P37869 P37869 2.2 X-RAY DIFFRACTION 89 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 428 428 4a3r-a1-m1-cA_4a3r-a1-m2-cB 4a3r-a1-m1-cB_4a3r-a1-m3-cA 4a3r-a1-m2-cA_4a3r-a1-m4-cB 4a3r-a1-m3-cB_4a3r-a1-m4-cA 4a3r-a2-m1-cD_4a3r-a2-m5-cC 4a3r-a2-m5-cD_4a3r-a2-m6-cC 4a3r-a2-m6-cD_4a3r-a2-m7-cC 7xml-a1-m1-cA_7xml-a1-m1-cB MPYIVDVYAREVLDSRGNPTVEVEVYTETGAFGRALVPSGASTGEYEAVELRDGDKDRYLGKGVLTAVNNVNEIIAPELLGFDVTEQNAIDQLLIELDGTENKGKLGANAILGVSMACARAAADFLQIPLYQYLGGFNSKTLPVPMMNIVNGGEHADNNVDIQEFMIMPVGAPNFREALRMGAQIFHSLKSVLSAKGLNTAVGDEGGFAPNLGSNEEALQTIVEAIEKAGFKPGEEVKLAMDAASSEFYNKEDGKYHLSGEGVVKTSAEMVDWYEELVSKYPIISIEDGLDENDWEGHKLLTERLGKKVQLVGDDLFVTNTKKLSEGIKNGVGNSILIKVNQIGTLTETFDAIEMAKRAGYTAVISHRSGETEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLAETAQYHGINSFYNL MPYIVDVYAREVLDSRGNPTVEVEVYTETGAFGRALVPSGASTGEYEAVELRDGDKDRYLGKGVLTAVNNVNEIIAPELLGFDVTEQNAIDQLLIELDGTENKGKLGANAILGVSMACARAAADFLQIPLYQYLGGFNSKTLPVPMMNIVNGGEHADNNVDIQEFMIMPVGAPNFREALRMGAQIFHSLKSVLSAKGLNTAVGDEGGFAPNLGSNEEALQTIVEAIEKAGFKPGEEVKLAMDAASSEFYNKEDGKYHLSGEGVVKTSAEMVDWYEELVSKYPIISIEDGLDENDWEGHKLLTERLGKKVQLVGDDLFVTNTKKLSEGIKNGVGNSILIKVNQIGTLTETFDAIEMAKRAGYTAVISHRSGETEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLAETAQYHGINSFYNL 4a3r-a2-m7-cC_4a3r-a2-m7-cD Crystal structure of Enolase from Bacillus subtilis. P37869 P37869 2.2 X-RAY DIFFRACTION 119 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 428 428 4a3r-a1-m1-cA_4a3r-a1-m1-cB 4a3r-a1-m2-cA_4a3r-a1-m2-cB 4a3r-a1-m3-cA_4a3r-a1-m3-cB 4a3r-a1-m4-cA_4a3r-a1-m4-cB 4a3r-a2-m1-cC_4a3r-a2-m1-cD 4a3r-a2-m5-cC_4a3r-a2-m5-cD 4a3r-a2-m6-cC_4a3r-a2-m6-cD MPYIVDVYAREVLDSRGNPTVEVEVYTETGAFGRALVPSGASTGEYEAVELRDGDKDRYLGKGVLTAVNNVNEIIAPELLGFDVTEQNAIDQLLIELDGTENKGKLGANAILGVSMACARAAADFLQIPLYQYLGGFNSKTLPVPMMNIVNGGEHADNNVDIQEFMIMPVGAPNFREALRMGAQIFHSLKSVLSAKGLNTAVGDEGGFAPNLGSNEEALQTIVEAIEKAGFKPGEEVKLAMDAASSEFYNKEDGKYHLSGEGVVKTSAEMVDWYEELVSKYPIISIEDGLDENDWEGHKLLTERLGKKVQLVGDDLFVTNTKKLSEGIKNGVGNSILIKVNQIGTLTETFDAIEMAKRAGYTAVISHRSGETEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLAETAQYHGINSFYNL MPYIVDVYAREVLDSRGNPTVEVEVYTETGAFGRALVPSGASTGEYEAVELRDGDKDRYLGKGVLTAVNNVNEIIAPELLGFDVTEQNAIDQLLIELDGTENKGKLGANAILGVSMACARAAADFLQIPLYQYLGGFNSKTLPVPMMNIVNGGEHADNNVDIQEFMIMPVGAPNFREALRMGAQIFHSLKSVLSAKGLNTAVGDEGGFAPNLGSNEEALQTIVEAIEKAGFKPGEEVKLAMDAASSEFYNKEDGKYHLSGEGVVKTSAEMVDWYEELVSKYPIISIEDGLDENDWEGHKLLTERLGKKVQLVGDDLFVTNTKKLSEGIKNGVGNSILIKVNQIGTLTETFDAIEMAKRAGYTAVISHRSGETEDSTIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLAETAQYHGINSFYNL 4a3s-a2-m1-cB_4a3s-a2-m7-cA Crystal structure of PFK from Bacillus subtilis O34529 O34529 2.3 X-RAY DIFFRACTION 110 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 319 319 4a3s-a1-m1-cA_4a3s-a1-m3-cB 4a3s-a1-m2-cA_4a3s-a1-m4-cB 4a3s-a2-m5-cB_4a3s-a2-m6-cA MKRIGVLTSGGDSPGMNAAVRAVVRKAIYHDVEVYGIYNGYAGLISGKIEKLELGSVGDIIHRGGTKLYTARCPEFKTVEGREKGIANLKKLGIEGLVVIGGDGSYMGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWAGLAGGAESILIPEADYDMHEIIARLKRGHERGKKHSIIIVAEGVGSGVEFGKRIEEETNLETRVSVLGHIQRGGSPSAADRVLASRLGAYAVELLLEGKGGRCVGIQNNKLVDHDIIEILETKHTVEQNMYQLSKELSI MKRIGVLTSGGDSPGMNAAVRAVVRKAIYHDVEVYGIYNGYAGLISGKIEKLELGSVGDIIHRGGTKLYTARCPEFKTVEGREKGIANLKKLGIEGLVVIGGDGSYMGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWAGLAGGAESILIPEADYDMHEIIARLKRGHERGKKHSIIIVAEGVGSGVEFGKRIEEETNLETRVSVLGHIQRGGSPSAADRVLASRLGAYAVELLLEGKGGRCVGIQNNKLVDHDIIEILETKHTVEQNMYQLSKELSI 4a3s-a2-m6-cA_4a3s-a2-m7-cA Crystal structure of PFK from Bacillus subtilis O34529 O34529 2.3 X-RAY DIFFRACTION 103 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 319 319 4a3s-a1-m1-cA_4a3s-a1-m2-cA 4a3s-a1-m3-cB_4a3s-a1-m4-cB 4a3s-a2-m1-cB_4a3s-a2-m5-cB MKRIGVLTSGGDSPGMNAAVRAVVRKAIYHDVEVYGIYNGYAGLISGKIEKLELGSVGDIIHRGGTKLYTARCPEFKTVEGREKGIANLKKLGIEGLVVIGGDGSYMGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWAGLAGGAESILIPEADYDMHEIIARLKRGHERGKKHSIIIVAEGVGSGVEFGKRIEEETNLETRVSVLGHIQRGGSPSAADRVLASRLGAYAVELLLEGKGGRCVGIQNNKLVDHDIIEILETKHTVEQNMYQLSKELSI MKRIGVLTSGGDSPGMNAAVRAVVRKAIYHDVEVYGIYNGYAGLISGKIEKLELGSVGDIIHRGGTKLYTARCPEFKTVEGREKGIANLKKLGIEGLVVIGGDGSYMGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWAGLAGGAESILIPEADYDMHEIIARLKRGHERGKKHSIIIVAEGVGSGVEFGKRIEEETNLETRVSVLGHIQRGGSPSAADRVLASRLGAYAVELLLEGKGGRCVGIQNNKLVDHDIIEILETKHTVEQNMYQLSKELSI 4a3t-a1-m1-cA_4a3t-a1-m1-cB yeast regulatory particle proteasome assembly chaperone Hsm3 P38348 P38348 2.1 X-RAY DIFFRACTION 70 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 433 459 3vld-a3-m1-cA_3vld-a3-m1-cB 3vle-a3-m1-cB_3vle-a3-m1-cA 4fp7-a1-m1-cB_4fp7-a1-m1-cA YVENLLTQLENELNEDINTLLRKCSLNLVTVKPLLATIKRFLTSNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDIIDLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVNG NYVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVVSLPDMDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSAGAIIDLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVNG 4a3y-a1-m3-cB_4a3y-a1-m4-cB Crystal structure of Raucaffricine glucosidase from ajmaline biosynthesis pathway Q9SPP9 Q9SPP9 2.15 X-RAY DIFFRACTION 44 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 468 468 3u57-a1-m1-cA_3u57-a1-m2-cA 3u57-a1-m1-cB_3u57-a1-m3-cB 3u57-a1-m2-cB_3u57-a1-m4-cB 3u57-a1-m3-cA_3u57-a1-m4-cA 3u5u-a1-m1-cA_3u5u-a1-m2-cA 3u5u-a1-m1-cB_3u5u-a1-m3-cB 3u5u-a1-m2-cB_3u5u-a1-m4-cB 3u5u-a1-m3-cA_3u5u-a1-m4-cA 3u5y-a1-m1-cA_3u5y-a1-m2-cA 3u5y-a1-m1-cB_3u5y-a1-m3-cB 3u5y-a1-m2-cB_3u5y-a1-m4-cB 3u5y-a1-m3-cA_3u5y-a1-m4-cA 4a3y-a1-m1-cA_4a3y-a1-m4-cA 4a3y-a1-m1-cB_4a3y-a1-m2-cB 4a3y-a1-m2-cA_4a3y-a1-m3-cA DATRISRSDFPADFIMGTGSSAYQIEGGARDGGRGPSIWDTFTHRRPDMIRGGTNGDVAVDSYHLYKEDVNILKNLGLDAYRFSISWSRVLPGGRLSGGVNKEGINYYNNLIDGLLANGIKPFVTLFHWDVPQALEDEYGGFLSPRIVDDFCEYAELCFWEFGDRVKHWMTLNEPWTFSVHGYATGLYAPGRGRTGNPGTEPYWVTHHLLLAHAAAVELYKNKFQRGQEGQIGISHATQWMEPWDENSASDVEAAARALDFMLGWFMEPITSGDYPKSMKKFVGSRLPKFSPEQSKMLKGSYDFVGLNYYTASYVTNANFSYNTDIHVTYETDRNGVPIGPQSGSDWLLIYPEGIRKILVYTKKTYNVPLIYVTENGVDDVKNTNLTLSEARKDSMRLKYLQDHIFNVRQAMNDGVNVKGYFAWSLLDNFEWGEGYGVRFGIIHIDYNDNFARYPKDSAVWLMNSFHK DATRISRSDFPADFIMGTGSSAYQIEGGARDGGRGPSIWDTFTHRRPDMIRGGTNGDVAVDSYHLYKEDVNILKNLGLDAYRFSISWSRVLPGGRLSGGVNKEGINYYNNLIDGLLANGIKPFVTLFHWDVPQALEDEYGGFLSPRIVDDFCEYAELCFWEFGDRVKHWMTLNEPWTFSVHGYATGLYAPGRGRTGNPGTEPYWVTHHLLLAHAAAVELYKNKFQRGQEGQIGISHATQWMEPWDENSASDVEAAARALDFMLGWFMEPITSGDYPKSMKKFVGSRLPKFSPEQSKMLKGSYDFVGLNYYTASYVTNANFSYNTDIHVTYETDRNGVPIGPQSGSDWLLIYPEGIRKILVYTKKTYNVPLIYVTENGVDDVKNTNLTLSEARKDSMRLKYLQDHIFNVRQAMNDGVNVKGYFAWSLLDNFEWGEGYGVRFGIIHIDYNDNFARYPKDSAVWLMNSFHK 4a3y-a1-m4-cB_4a3y-a1-m3-cA Crystal structure of Raucaffricine glucosidase from ajmaline biosynthesis pathway Q9SPP9 Q9SPP9 2.15 X-RAY DIFFRACTION 43 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 468 469 3u57-a1-m1-cA_3u57-a1-m2-cB 3u57-a1-m1-cA_3u57-a1-m3-cB 3u57-a1-m1-cB_3u57-a1-m2-cA 3u57-a1-m1-cB_3u57-a1-m3-cA 3u57-a1-m2-cA_3u57-a1-m4-cB 3u57-a1-m2-cB_3u57-a1-m4-cA 3u57-a1-m3-cA_3u57-a1-m4-cB 3u57-a1-m3-cB_3u57-a1-m4-cA 3u5u-a1-m1-cA_3u5u-a1-m2-cB 3u5u-a1-m1-cA_3u5u-a1-m3-cB 3u5u-a1-m1-cB_3u5u-a1-m2-cA 3u5u-a1-m1-cB_3u5u-a1-m3-cA 3u5u-a1-m2-cA_3u5u-a1-m4-cB 3u5u-a1-m2-cB_3u5u-a1-m4-cA 3u5u-a1-m3-cA_3u5u-a1-m4-cB 3u5u-a1-m3-cB_3u5u-a1-m4-cA 3u5y-a1-m1-cA_3u5y-a1-m2-cB 3u5y-a1-m1-cA_3u5y-a1-m3-cB 3u5y-a1-m1-cB_3u5y-a1-m2-cA 3u5y-a1-m1-cB_3u5y-a1-m3-cA 3u5y-a1-m2-cA_3u5y-a1-m4-cB 3u5y-a1-m2-cB_3u5y-a1-m4-cA 3u5y-a1-m3-cA_3u5y-a1-m4-cB 3u5y-a1-m3-cB_3u5y-a1-m4-cA 4a3y-a1-m1-cB_4a3y-a1-m2-cA 4a3y-a1-m1-cB_4a3y-a1-m4-cA 4a3y-a1-m2-cB_4a3y-a1-m1-cA 4a3y-a1-m2-cB_4a3y-a1-m3-cA 4a3y-a1-m3-cB_4a3y-a1-m2-cA 4a3y-a1-m3-cB_4a3y-a1-m4-cA 4a3y-a1-m4-cB_4a3y-a1-m1-cA DATRISRSDFPADFIMGTGSSAYQIEGGARDGGRGPSIWDTFTHRRPDMIRGGTNGDVAVDSYHLYKEDVNILKNLGLDAYRFSISWSRVLPGGRLSGGVNKEGINYYNNLIDGLLANGIKPFVTLFHWDVPQALEDEYGGFLSPRIVDDFCEYAELCFWEFGDRVKHWMTLNEPWTFSVHGYATGLYAPGRGRTGNPGTEPYWVTHHLLLAHAAAVELYKNKFQRGQEGQIGISHATQWMEPWDENSASDVEAAARALDFMLGWFMEPITSGDYPKSMKKFVGSRLPKFSPEQSKMLKGSYDFVGLNYYTASYVTNANFSYNTDIHVTYETDRNGVPIGPQSGSDWLLIYPEGIRKILVYTKKTYNVPLIYVTENGVDDVKNTNLTLSEARKDSMRLKYLQDHIFNVRQAMNDGVNVKGYFAWSLLDNFEWGEGYGVRFGIIHIDYNDNFARYPKDSAVWLMNSFHK DATRISRSDFPADFIMGTGSSAYQIEGGARDGGRGPSIWDTFTHRRPDMIRGGTNGDVAVDSYHLYKEDVNILKNLGLDAYRFSISWSRVLPGGRLSGGVNKEGINYYNNLIDGLLANGIKPFVTLFHWDVPQALEDEYGGFLSPRIVDDFCEYAELCFWEFGDRVKHWMTLNEPWTFSVHGYATGLYAPGRGRTGNPGTEPYWVTHHLLLAHAAAVELYKNKFQRGQEGQIGISHATQWMEPWDENSASDVEAAARALDFMLGWFMEPITSGDYPKSMKKFVGSRLPKFSPEQSKMLKGSYDFVGLNYYTASYVTNASNFSYNTDIHVTYETDRNGVPIGPQSGSDWLLIYPEGIRKILVYTKKTYNVPLIYVTENGVDDVKNTNLTLSEARKDSMRLKYLQDHIFNVRQAMNDGVNVKGYFAWSLLDNFEWGEGYGVRFGIIHIDYNDNFARYPKDSAVWLMNSFHK 4a46-a1-m1-cA_4a46-a1-m1-cC Crosstalk between Cu(I) and Zn(II) homeostasis P73213 P73213 1.85 X-RAY DIFFRACTION 21 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 63 63 TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGHEVE TIQLTVPTIACEACAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGHEVE 4a47-a2-m1-cB_4a47-a2-m3-cB Crosstalk between Cu(I) and Zn(II) homeostasis P73213 P73213 1.9 X-RAY DIFFRACTION 61 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 63 63 2xmj-a1-m1-cB_2xmj-a1-m1-cA 2xmk-a1-m1-cA_2xmk-a1-m1-cB 2xmm-a1-m1-cA_2xmm-a1-m1-cB 4a46-a1-m1-cA_4a46-a1-m1-cB 4a46-a1-m1-cC_4a46-a1-m1-cD 4a47-a1-m1-cA_4a47-a1-m2-cA 4a47-a3-m1-cC_4a47-a3-m2-cC 4a47-a4-m1-cD_4a47-a4-m3-cD TIQLTVPTMDCTSCAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGHEVE TIQLTVPTMDCTSCAEAVTKAVQNEDAQATVQVDLTSKKVTITSALGEEQLRTAIASAGHEVE 4a56-a1-m1-cA_4a56-a1-m2-cA Crystal structure of the type 2 secretion system pilotin from Klebsiella Oxytoca H0USY9 H0USY9 1.24 X-RAY DIFFRACTION 31 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 93 93 VSGQAQLEQLASVAAGARYLKNKCNRSDLPADEAINRAAINVGKKRGWANIDANLLSQRSAQLYQQLQQDSTPEATKCSQFNRQLAPFIDSLR VSGQAQLEQLASVAAGARYLKNKCNRSDLPADEAINRAAINVGKKRGWANIDANLLSQRSAQLYQQLQQDSTPEATKCSQFNRQLAPFIDSLR 4a5k-a1-m1-cC_4a5k-a1-m1-cD Structural analyses of Slm1-PH domain demonstrate ligand binding in the non-canonical site P40485 P40485 1.76 X-RAY DIFFRACTION 33 0.991 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 113 114 4a5k-a1-m1-cA_4a5k-a1-m1-cB 4a5k-a1-m1-cC_4a5k-a1-m1-cB 4a5k-a1-m1-cD_4a5k-a1-m1-cA FTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSTSSSTGSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS PFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSTSNSTGSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS 4a5m-a3-m1-cE_4a5m-a3-m1-cF Redox regulator HypR in its oxidized form P37486 P37486 3 X-RAY DIFFRACTION 92 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 96 97 4a5m-a1-m1-cA_4a5m-a1-m1-cB 4a5m-a2-m1-cC_4a5m-a2-m1-cD 4a5m-a4-m1-cG_4a5m-a4-m1-cH 4a5n-a1-m1-cA_4a5n-a1-m1-cB 4a5n-a2-m1-cC_4a5n-a2-m1-cD CPVEFTLDVIGGKWKGILFYHMIDGKKRFNEFRRICPSITQRMLTLQLRELEADGIVHREVYHQVPPKVEYSLTEFGRTLEPIVLQMKEWGESNRD CPVEFTLDVIGGKWKGILFYHMIDGKKRFNEFRRICPSITQRMLTLQLRELEADGIVHREVYHQVPPKVEYSLTEFGRTLEPIVLQMKEWGESNRDV 4a5o-a2-m1-cD_4a5o-a2-m1-cC Crystal structure of Pseudomonas aeruginosa N5, N10- methylenetetrahydrofolate dehydrogenase-cyclohydrolase (FolD) Q9I2U6 Q9I2U6 2.2 X-RAY DIFFRACTION 92 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 273 283 4a5o-a1-m1-cA_4a5o-a1-m1-cB TAQLIDGKAIAANLRQQIAQRVTERRQQGLRVPGLAVILVGTDPASQVYVAHKRKDCEEVGFLSQAYDLPAETSQDDLLALIDRLNDDPAIDGILVQLPLPAHLDASLLLERIHPDKDVDGFHPYNIGRLAQRMPLLRPCTPKGIMTLLASTGADLYGMDAVVVGASNIVGRPMALELLLGGCTVTVTHRFTRDLADHVSRADLVVVAAGKPGLVKGEWIKEGAIVIDVGIGDVEYEVAAQRASWITPVPGGVGPMTRACLLENTLHAAEHLH TAQLIDGKAIAANLRQQIAQRVTERRQQGLRVPGLAVILVGTDPASQVYVAHKRKDCEEVGFLSQAYDLPAETSQDDLLALIDRLNDDPAIDGILVQLPLPAHLDASLLLERIHPDKDVDGFHPYNIGRLAQRMPLLRPCTPKGIMTLLASTGADLYGMDAVVVGASNIVGRPMALELLLGGCTVTVTHRFTRDLADHVSRADLVVVAAGKPGLVKGEWIKEGAIVIDVGINRQADGRLVGDVEYEVAAQRASWITPVPGGVGPMTRACLLENTLHAAEHLHD 4a5p-a1-m3-cC_4a5p-a1-m3-cB Structure of the Shigella flexneri MxiA protein P0A1I5 P0A1I5 3.15 X-RAY DIFFRACTION 46 0.996 424718 (Shigella flexneri 5a) 424718 (Shigella flexneri 5a) 285 292 4a5p-a1-m1-cA_4a5p-a1-m1-cB 4a5p-a1-m1-cA_4a5p-a1-m2-cC 4a5p-a1-m1-cC_4a5p-a1-m1-cB 4a5p-a1-m2-cA_4a5p-a1-m2-cB 4a5p-a1-m2-cA_4a5p-a1-m3-cC 4a5p-a1-m2-cC_4a5p-a1-m2-cB 4a5p-a1-m3-cA_4a5p-a1-m1-cC 4a5p-a1-m3-cA_4a5p-a1-m3-cB ISSETVPLILLFAEDMEGLIERIRSQFFIDYGVRLPTILYRTSNELVDDIVLLINEVRADSFNIYFDVCITVVSTSYNERVISWVDVSYTEISAQDEFYHQLSQALLNNINEIFGIQETKNMLDQFENRYPDLLEVFRHVTIQRISEVLQRLLGENISVRNLKLIMESLALWAPREDVITLVEHVRASLSRYICSKIAVSGEIVVMLSGYIEDAIRGIRQMDIEVSDEVMETLAHALRELRNANFVLLVSVDIRRFVRLIDNRFSILVISYAEIDEAYTINVLTI SSETVPLILLFAEDMEGLIERIRSQFFIDYGVRLPTILYRTSNELVDDIVLLINEVRADSFNIYFDVCITIDALGIPVVSTSYNERVISWVDVSYTENISAQDEFYHQLSQALLNNINEIFGIQETKNMLDQFENRYPDLLEVFRHVTIQRISEVLQRLLGENISVRNLKLIMESLALWAPREDVITLVEHVRASLSRYICSKIAVSGEIVVMLSGYIEDAIRGIRQMDIEVSDEVMETLAHALRELRNANFVLLVSVDIRRFVRLIDNRFSILVISYAEIDEAYTINVLTI 4a5y-a1-m1-cB_4a5y-a1-m1-cC Intermediate state of human kinesin Eg5 in complex with Ispinesib P52732 P52732 2.45 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 339 KNIQVVVRCRPFNAHSIVECDPVRKEVSVKTYTFDMVFGASTKQIDVYRSVVCPILDEVIMGYNCTIFAYGQTGTGKTFTMEGERSPNEEYTWEEDPLAGIIPRTLHQIFEKLTDNGTEFSVKVSLLEIYNEELFDLLNPSSDVSERLQMFDDPRNKRGVIIKGLEEITVHNKDEVYQILEKGAAKRTTAATLMNAYSSRSHSVFSVTIHMKVKIGKLNLVDLAGSENNQSLLTLGRVITALVERTPHVPYRESKLTRILQDSLGGRTRTSIIATISPASLNLEETLSTLEYAHRAKNILNK KNIQVVVRCRPFNLAERKASAHSIVECDPVRKEVSVRTGGLADKSSRKTYTFDMVFGASTKQIDVYRSVVCPILDEVIMGYNCTIFAYGQTGTGKTFTMEGERSPNEEYTWEEDPLAGIIPRTLHQIFEKLTDNGTEFSVKVSLLEIYNEELFDLLNPSSDVSERLQMFDDPRNKRGVIIKGLEEITVHNKDEVYQILEKGAAKRTTAATLMNAYSSRSHSVFSVTIHMKETTIDGEELVKIGKLNLVDLAGSENRAREAGNINQSLLTLGRVITALVERTPHVPYRESKLTRILQDSLGGRTRTSIIATISPASLNLEETLSTLEYAHRAKNILNKPE 4a5z-a2-m1-cB_4a5z-a2-m1-cD Structures of MITD1 Q8WV92 Q8WV92 2.3 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 2ymb-a1-m1-cB_2ymb-a1-m1-cD 4a5z-a1-m1-cA_4a5z-a1-m1-cC HHHHDQIKIEENATGFSYESLFREYLNETVTEVWIEDPYIRHTHQLYNFLRFCELIKCKVKTIHLLTSLDEGIEQVQQSRGLQEIEESLRSHGVLLEVQYSSSIHDREIRFNNGWIKIGRGLDYFKKPQSRFSLGYCDFDLRPCHETTVDIFHD HHHHDQIKIEENATGFSYESLFREYLNETVTEVWIEDPYIRHTHQLYNFLRFCELIKCKVKTIHLLTSLDEGIEQVQQSRGLQEIEESLRSHGVLLEVQYSSSIHDREIRFNNGWIKIGRGLDYFKKPQSRFSLGYCDFDLRPCHETTVDIFHD 4a61-a1-m1-cA_4a61-a1-m2-cA ParM from plasmid R1 in complex with AMPPNP P11904 P11904 2 X-RAY DIFFRACTION 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 309 309 HHLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDERDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSSYLADDIIIHRKDNNYLKQRINSIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN HHLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDERDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSSYLADDIIIHRKDNNYLKQRINSIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLIGN 4a64-a1-m1-cD_4a64-a1-m1-cA Crystal structure of the N-terminal domain of human Cul4B at 2.57A resolution Q13620 Q13620 2.57 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 320 348 4a64-a1-m1-cC_4a64-a1-m1-cB DETWQKLKEAVEAIQNSTSIKYNLEELYQAVENLCNLYKQLRQICEDHIKAQIHQFREDLDSVLFLKKIDRCWQNHCRQMIMIRSIFLFLDRTYVLQNSMLPSIWDMGLELFRAHIISDQKVQNKTIDGILLLIERERNGEAIDRSLLRSLLSMLSDLQIYQDSFEQRFLEETNRLYAAEGQKLMQEREVPEYLHHVNKRLEEEADRLITYLDQTTQKSLIATVEKQLLGEHLTAILQKGLNNLLDENRIQDLSLLYQLFSRVRGGVQVLLQQWIEYIKAFGSTIVIELDDFKDKVDHIIDICFLKNEKFINAMKEAFET SMPKLPENYTDETWQKLKEAVEAIQNSTSIKYNLEELYQAVENLCSYKISANLYKQLRQICEDHIKAQIHQFREDSLDSVLFLKKIDRCWQNHCRQMIMIRSIFLFLDRTYVLQNSMLPSIWDMGLELFRAHIISDQKVQNKTIDGILLLIERERNGEAIDRSLLRSLLSMLSDLQIYQDSFEQRFLEETNRLYAAEGQKLMQEREVPEYLHHVNKRLEEEADRLITYLDQTTQKSLIATVEKQLLGEHLTAILQKGLNNLLDENRIQDLSLLYQLFSRVRGGVQVLLQQWIEYIKAFGSTIVINPEKDKTMRQELDDFKDKVDHIIDICFLKNEKFINAMKEAFETF 4a64-a1-m1-cD_4a64-a1-m1-cB Crystal structure of the N-terminal domain of human Cul4B at 2.57A resolution Q13620 Q13620 2.57 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 320 345 4a64-a1-m1-cC_4a64-a1-m1-cA DETWQKLKEAVEAIQNSTSIKYNLEELYQAVENLCNLYKQLRQICEDHIKAQIHQFREDLDSVLFLKKIDRCWQNHCRQMIMIRSIFLFLDRTYVLQNSMLPSIWDMGLELFRAHIISDQKVQNKTIDGILLLIERERNGEAIDRSLLRSLLSMLSDLQIYQDSFEQRFLEETNRLYAAEGQKLMQEREVPEYLHHVNKRLEEEADRLITYLDQTTQKSLIATVEKQLLGEHLTAILQKGLNNLLDENRIQDLSLLYQLFSRVRGGVQVLLQQWIEYIKAFGSTIVIELDDFKDKVDHIIDICFLKNEKFINAMKEAFET SMPKLPENYTDETWQKLKEAVEAIQNSTSIKYNLEELYQAVENLCSYKISANLYKQLRQICEDHIKAQIHQFREDSLDSVLFLKKIDRCWQNHCRQMIMIRSIFLFLDRTYVLQNSMLPSIWDMGLELFRAHIISDQKVQNKTIDGILLLIERERNGEAIDRSLLRSLLSMLSDLQIYQDSFEQRFLEETNRLYAAEGQKLMQEREVPEYLHHVNKRLEEEADRLITYLDQTTQKSLIATVEKQLLGEHLTAILQKGLNNLLDENRIQDLSLLYQLFSRVRGGVQVLLQQWIEYIKAFGSTIVINPKTMRQELDDFKDKVDHIIDICFLKNEKFINAMKEAFETF 4a64-a1-m1-cD_4a64-a1-m1-cC Crystal structure of the N-terminal domain of human Cul4B at 2.57A resolution Q13620 Q13620 2.57 X-RAY DIFFRACTION 55 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 320 333 4a64-a1-m1-cB_4a64-a1-m1-cA DETWQKLKEAVEAIQNSTSIKYNLEELYQAVENLCNLYKQLRQICEDHIKAQIHQFREDLDSVLFLKKIDRCWQNHCRQMIMIRSIFLFLDRTYVLQNSMLPSIWDMGLELFRAHIISDQKVQNKTIDGILLLIERERNGEAIDRSLLRSLLSMLSDLQIYQDSFEQRFLEETNRLYAAEGQKLMQEREVPEYLHHVNKRLEEEADRLITYLDQTTQKSLIATVEKQLLGEHLTAILQKGLNNLLDENRIQDLSLLYQLFSRVRGGVQVLLQQWIEYIKAFGSTIVIELDDFKDKVDHIIDICFLKNEKFINAMKEAFET DETWQKLKEAVEAIQNSTSIKYNLEELYQAVENLCSYNLYKQLRQICEDHIKAQIHQFRELDSVLFLKKIDRCWQNHCRQMIMIRSIFLFLDRTYVLQNSMLPSIWDMGLELFRAHIISDQKVQNKTIDGILLLIERERNGEAIDRSLLRSLLSMLSDLQIYQDSFEQRFLEETNRLYAAEGQKLMQEREVPEYLHHVNKRLEEEADRLITYLDQTTQKSLIATVEKQLLGEHLTAILQKGLNNLLDENRIQDLSLLYQLFSRVRGGVQVLLQQWIEYIKAFGSTIVINPEKDKTMRQELDDFKDKVDHIIDICFLKNEKFINAMKEAFETFI 4a6a-a2-m1-cI_4a6a-a2-m1-cL A115V variant of dCTP deaminase-dUTPase from Mycobacterium tuberculosis in complex with dTTP P9WP17 P9WP17 2.9 X-RAY DIFFRACTION 16 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 189 189 4a6a-a1-m1-cB_4a6a-a1-m1-cE 4a6a-a1-m1-cC_4a6a-a1-m1-cF 4a6a-a1-m1-cD_4a6a-a1-m1-cA 4a6a-a2-m1-cJ_4a6a-a2-m1-cG 4a6a-a2-m1-cK_4a6a-a2-m1-cH MLLSDRDLRAEISSGRLGIDPFDDTLVQPSSIDVRLDCLFRVFNNTRYTHIDPAKQQDELTSLVQPVDGEPFVLHPGEFVLGSTLELFTLPDNLAGRLEGKSSLGRLGLLTHSTVGFIDPGFSGHITLELSNVANLPITLWPGMKIGQLCMLRLTSPSEHPYGSSRAGSKYQGQRGPTPSRSYQNFIRS MLLSDRDLRAEISSGRLGIDPFDDTLVQPSSIDVRLDCLFRVFNNTRYTHIDPAKQQDELTSLVQPVDGEPFVLHPGEFVLGSTLELFTLPDNLAGRLEGKSSLGRLGLLTHSTVGFIDPGFSGHITLELSNVANLPITLWPGMKIGQLCMLRLTSPSEHPYGSSRAGSKYQGQRGPTPSRSYQNFIRS 4a6a-a2-m1-cJ_4a6a-a2-m1-cL A115V variant of dCTP deaminase-dUTPase from Mycobacterium tuberculosis in complex with dTTP P9WP17 P9WP17 2.9 X-RAY DIFFRACTION 143 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 188 189 2qlp-a1-m1-cB_2qlp-a1-m1-cA 2qlp-a1-m1-cB_2qlp-a1-m1-cC 2qlp-a1-m1-cC_2qlp-a1-m1-cA 2qlp-a2-m1-cE_2qlp-a2-m1-cD 2qlp-a2-m1-cF_2qlp-a2-m1-cD 2qlp-a2-m1-cF_2qlp-a2-m1-cE 2qxx-a1-m1-cA_2qxx-a1-m2-cA 2qxx-a1-m1-cA_2qxx-a1-m3-cA 2qxx-a1-m2-cA_2qxx-a1-m3-cA 2qxx-a2-m1-cB_2qxx-a2-m2-cB 2qxx-a2-m1-cB_2qxx-a2-m3-cB 2qxx-a2-m2-cB_2qxx-a2-m3-cB 4a6a-a1-m1-cA_4a6a-a1-m1-cC 4a6a-a1-m1-cB_4a6a-a1-m1-cD 4a6a-a1-m1-cB_4a6a-a1-m1-cF 4a6a-a1-m1-cD_4a6a-a1-m1-cF 4a6a-a1-m1-cE_4a6a-a1-m1-cA 4a6a-a1-m1-cE_4a6a-a1-m1-cC 4a6a-a2-m1-cG_4a6a-a2-m1-cI 4a6a-a2-m1-cH_4a6a-a2-m1-cL 4a6a-a2-m1-cJ_4a6a-a2-m1-cH 4a6a-a2-m1-cK_4a6a-a2-m1-cG 4a6a-a2-m1-cK_4a6a-a2-m1-cI MLLSDRDLRAEISSGRLGIDPFDDTLVQPSSIDVRLDCLFRVFNNTRYTHIDPAKQQDELTSLVQPVDGEPFVLHPGEFVLGSTLELFTLPDNLAGRLEGKSSLGRLGLLTHSTVGFIDPGFSGHITLELSNVANLPITLWPGMKIGQLCMLRLTSPSEHPYGSSRAGSKYQGQRGPTPSRSYQNFIR MLLSDRDLRAEISSGRLGIDPFDDTLVQPSSIDVRLDCLFRVFNNTRYTHIDPAKQQDELTSLVQPVDGEPFVLHPGEFVLGSTLELFTLPDNLAGRLEGKSSLGRLGLLTHSTVGFIDPGFSGHITLELSNVANLPITLWPGMKIGQLCMLRLTSPSEHPYGSSRAGSKYQGQRGPTPSRSYQNFIRS 4a6a-a2-m1-cK_4a6a-a2-m1-cL A115V variant of dCTP deaminase-dUTPase from Mycobacterium tuberculosis in complex with dTTP P9WP17 P9WP17 2.9 X-RAY DIFFRACTION 34 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 188 189 4a6a-a1-m1-cB_4a6a-a1-m1-cA 4a6a-a1-m1-cD_4a6a-a1-m1-cC 4a6a-a1-m1-cE_4a6a-a1-m1-cF 4a6a-a2-m1-cG_4a6a-a2-m1-cH 4a6a-a2-m1-cJ_4a6a-a2-m1-cI MLLSDRDLRAEISSGRLGIDPFDDTLVQPSSIDVRLDCLFRVFNNTRYTHIDPAKQQDELTSLVQPVDGEPFVLHPGEFVLGSTLELFTLPDNLAGRLEGKSSLGRLGLLTHSTVGFIDPGFSGHITLELSNVANLPITLWPGMKIGQLCMLRLTSPSEHPYGSSRAGSKYQGQRGPTPSRSYQNFIR MLLSDRDLRAEISSGRLGIDPFDDTLVQPSSIDVRLDCLFRVFNNTRYTHIDPAKQQDELTSLVQPVDGEPFVLHPGEFVLGSTLELFTLPDNLAGRLEGKSSLGRLGLLTHSTVGFIDPGFSGHITLELSNVANLPITLWPGMKIGQLCMLRLTSPSEHPYGSSRAGSKYQGQRGPTPSRSYQNFIRS 4a6d-a1-m1-cA_4a6d-a1-m2-cA Crystal structure of human N-acetylserotonin methyltransferase (ASMT) in complex with SAM P46597 P46597 2.4 X-RAY DIFFRACTION 245 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 345 345 4a6e-a1-m1-cA_4a6e-a1-m2-cA MGSSEDQAYRLLNDYANGFMVSQVLFAACELGVFDLLAEAPGPLDVAAVAAGVRASAHGTELLLDICVSLKLLKVETRGGKAFYRNTELSSDYLTTVSPTSQCSMLKYMGRTSYRCWGHLADAVREGRNQYLETFGVPAEELFTAIYRSEGERLQFMQALQEVWSVNGRSVLTAFDLSVFPLMCDLGGGAGALAKECMSLYPGCKITVFDIPEVVWTAKQHFSFEEQIDFQEGDFFKDPLPEADLYILARVLHDWADGKCSHLLERIYHTCKPGGGILVIESLLDEDRRGPLLTQLYSLNMLVQTEGQERTPTHYHMLLSSAGFRDFQFKKTGAIYDAILARKGT MGSSEDQAYRLLNDYANGFMVSQVLFAACELGVFDLLAEAPGPLDVAAVAAGVRASAHGTELLLDICVSLKLLKVETRGGKAFYRNTELSSDYLTTVSPTSQCSMLKYMGRTSYRCWGHLADAVREGRNQYLETFGVPAEELFTAIYRSEGERLQFMQALQEVWSVNGRSVLTAFDLSVFPLMCDLGGGAGALAKECMSLYPGCKITVFDIPEVVWTAKQHFSFEEQIDFQEGDFFKDPLPEADLYILARVLHDWADGKCSHLLERIYHTCKPGGGILVIESLLDEDRRGPLLTQLYSLNMLVQTEGQERTPTHYHMLLSSAGFRDFQFKKTGAIYDAILARKGT 4a6f-a1-m1-cA_4a6f-a1-m2-cA Crystal structure of Slm1-PH domain in complex with Phosphoserine P40485 P40485 1.68 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 105 105 PFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSGSDAKFVLHAKQRGHNWVFKADSYESMMSWFDNLKILTST PFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSGSDAKFVLHAKQRGHNWVFKADSYESMMSWFDNLKILTST 4a6h-a1-m1-cA_4a6h-a1-m1-cB Crystal structure of Slm1-PH domain in complex with Inositol-4- phosphate P40485 P40485 1.449 X-RAY DIFFRACTION 26 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 108 108 4a6k-a1-m1-cA_4a6k-a1-m1-cB HPFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS HPFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS 4a6h-a1-m1-cD_4a6h-a1-m1-cA Crystal structure of Slm1-PH domain in complex with Inositol-4- phosphate P40485 P40485 1.449 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 106 108 4a6h-a1-m1-cC_4a6h-a1-m1-cB 4a6k-a1-m1-cD_4a6k-a1-m1-cA PFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS HPFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS 4a6h-a1-m1-cD_4a6h-a1-m1-cB Crystal structure of Slm1-PH domain in complex with Inositol-4- phosphate P40485 P40485 1.449 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 106 108 4a6h-a1-m1-cC_4a6h-a1-m1-cA 4a6k-a1-m1-cD_4a6k-a1-m1-cB PFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS HPFTEIKSGFLERRSKFLKSYSKGYYVLTPNFLHEFKTADRKKDLVPVMSLALSECTVTEHSRKNSDAKFVLHAKQNGIIRRGHNWVFKADSYESMMSWFDNLKILTS 4a7k-a1-m1-cA_4a7k-a1-m2-cA Bifunctional Aldos-2-ulose dehydratase P84193 P84193 2 X-RAY DIFFRACTION 191 1.0 879 879 4a7y-a1-m1-cA_4a7y-a1-m2-cA 4a7z-a1-m1-cA_4a7z-a1-m2-cA QPAALPLFQPQLVQGGRPDGYWVEAFPFRSDSSKCPNIIGYGLGTYDMKSDIQMLVNPYATTNNQSSSWTPVPLAKLDFPVAMHYADITKNGFNDVIITDQYGSSMDDIWAYGGRVSWLENPGELRDNWTMRTIGHSPGMHRLKAGHFTRTDRVQVVAVPIVVASSDLTTPADVIIFTAPDDPRSEQLWQRDVVGTRHLVHEVAIVPAAETDGEMRFDQIILAGRDGVDCLWYDGARWQRHLVGTGLPEERGDPYWGAGSAAVGRVGDDYAGYICSAEAFHGNTVSVYTKPAGSPTGIVRAEWTRHVLDVFGPLNGKHTGSIHQVVCADIDGDGEDEFLVAMMGADPPDFQRTGVWCYKLVDRTNMKFSKTKVSSVSAGRIATANFHSQGSEVDIATISYSVPGYFESPNPSINVFLSTGILAERLDEEVMLRVVRAGSTRFKTEMEFLDVAGKKLTLVVLPPFARLDVERNVSGVKVMAGTVCWADENGKHERVPATRPFGCESMIVSADYLESGEEGAILVLYKPSSTSGRPPFRSMDELVAHNLFPAYVPDSVRAMKFPWVRCADRPWAHGRFKDLDFFNLIGFHVNFADDSAAVLAHVQLWTAGIGVSAGFHNHVEASFCEIHACIANGTGRGGMRWATVPDANFNPDSPNLEDTELIVVPDMHEHGPLWRTRPDGHPLLRMNDTIDYPWHAWLAGAGNPSPQAFDVWVAFEFPGFETFSTPPPPRVLEPGRYAIRFGDPHQTASLALQKNDATDGTPVLALLDLDGGPSPQAWNISHVPGTDMYEIAHAKTGSLVCARWPPVKNQRVAGTHSPAAMGLTSRWAVTKNTKGQITFRLPEAPDHGPLFLSVSAIDAIPVIVQGDSIELSAWSLVPA QPAALPLFQPQLVQGGRPDGYWVEAFPFRSDSSKCPNIIGYGLGTYDMKSDIQMLVNPYATTNNQSSSWTPVPLAKLDFPVAMHYADITKNGFNDVIITDQYGSSMDDIWAYGGRVSWLENPGELRDNWTMRTIGHSPGMHRLKAGHFTRTDRVQVVAVPIVVASSDLTTPADVIIFTAPDDPRSEQLWQRDVVGTRHLVHEVAIVPAAETDGEMRFDQIILAGRDGVDCLWYDGARWQRHLVGTGLPEERGDPYWGAGSAAVGRVGDDYAGYICSAEAFHGNTVSVYTKPAGSPTGIVRAEWTRHVLDVFGPLNGKHTGSIHQVVCADIDGDGEDEFLVAMMGADPPDFQRTGVWCYKLVDRTNMKFSKTKVSSVSAGRIATANFHSQGSEVDIATISYSVPGYFESPNPSINVFLSTGILAERLDEEVMLRVVRAGSTRFKTEMEFLDVAGKKLTLVVLPPFARLDVERNVSGVKVMAGTVCWADENGKHERVPATRPFGCESMIVSADYLESGEEGAILVLYKPSSTSGRPPFRSMDELVAHNLFPAYVPDSVRAMKFPWVRCADRPWAHGRFKDLDFFNLIGFHVNFADDSAAVLAHVQLWTAGIGVSAGFHNHVEASFCEIHACIANGTGRGGMRWATVPDANFNPDSPNLEDTELIVVPDMHEHGPLWRTRPDGHPLLRMNDTIDYPWHAWLAGAGNPSPQAFDVWVAFEFPGFETFSTPPPPRVLEPGRYAIRFGDPHQTASLALQKNDATDGTPVLALLDLDGGPSPQAWNISHVPGTDMYEIAHAKTGSLVCARWPPVKNQRVAGTHSPAAMGLTSRWAVTKNTKGQITFRLPEAPDHGPLFLSVSAIDAIPVIVQGDSIELSAWSLVPA 4a7p-a2-m1-cB_4a7p-a2-m2-cB Se-Met derivatized UgdG, UDP-glucose dehydrogenase from Sphingomonas elodea A4UTT2 A4UTT2 3.403 X-RAY DIFFRACTION 157 1.0 179878 (Sphingomonas elodea) 179878 (Sphingomonas elodea) 420 420 4a7p-a1-m1-cA_4a7p-a1-m2-cA VRIAIGTGYVGLVSGACFSDFGHEVVCVDKDARKIELLHQNVPIYEPGLDALVASNVKAGRLSFTTDLAEGVKDADAVFIAVGTPSRRGDGHADLSYVFAAAREIAENLTKPSVIVTKSTVPVGTGDEVERIIAEVAPNSGAKVVSNPEFLREGAAIEDFKRPDRVVVGTEDEFARQVREIYRPLSLSAPVLFTGRRTSELIKYAANAFLAVKITFINEIADLCEQVGADVQEVSRGIGDNRFLHAGPGYGGSCFPKDTLALKTAADNETPLRIVEATVQVNDARKRAGRKVIKAGGDVRGKTVGILGLTFKPNTDDRDAPSLSIIAALQDAGATVKAYDPEGVEQASKLTDVEFVENPYAAADGADALVIVTEWDAFRALDLTRIKNSLKSPVLVDLRNIYPPAELERAGLQYTGVGKP VRIAIGTGYVGLVSGACFSDFGHEVVCVDKDARKIELLHQNVPIYEPGLDALVASNVKAGRLSFTTDLAEGVKDADAVFIAVGTPSRRGDGHADLSYVFAAAREIAENLTKPSVIVTKSTVPVGTGDEVERIIAEVAPNSGAKVVSNPEFLREGAAIEDFKRPDRVVVGTEDEFARQVREIYRPLSLSAPVLFTGRRTSELIKYAANAFLAVKITFINEIADLCEQVGADVQEVSRGIGDNRFLHAGPGYGGSCFPKDTLALKTAADNETPLRIVEATVQVNDARKRAGRKVIKAGGDVRGKTVGILGLTFKPNTDDRDAPSLSIIAALQDAGATVKAYDPEGVEQASKLTDVEFVENPYAAADGADALVIVTEWDAFRALDLTRIKNSLKSPVLVDLRNIYPPAELERAGLQYTGVGKP 4a7x-a1-m1-cB_4a7x-a1-m1-cA Crystal structure of uridylate kinase from Helicobacter pylori P56106 P56106 2.49 X-RAY DIFFRACTION 105 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 228 234 4a7w-a1-m1-cA_4a7w-a1-m1-cB 4a7x-a2-m1-cD_4a7x-a2-m1-cC 4a7x-a3-m1-cE_4a7x-a3-m1-cF NKRVLVKFSGEALAGDNQFGIDIHVLDHIAKEIKSLVENDIEVGIVIGGGNIIRGVSAAQGGIIRRTSGDYMGMLATVINAVAMQEALEHIGLDTRVQSAIEIKEICESYIYRKAIRHLEKGRVVIFGAGTGNPFFTTDTAATLRAIEIGSDLIIKATKVDGIYDKDAKKLDTLSYNDALIGDIEVMDDTAISLAKDNKLPIVVCNMFKKGNLLQVIKHQQGVFSMVK NKRVLVKFSGEALAGDNQFGIDIHVLDHIAKEIKSLVENDIEVGIVIGGGNIIRGVSAAQGGIIRRTSGDYMGMLATVINAVAMQEALEHIGLDTRVQSAIEIKEICESYIYRKAIRHLEKGRVVIFGAGTGNPFFTTDTAATLRAIEIGSDLIIKATKVDGIYDKDPNKFKDAKKLDTLSYNDALIGDIEVMDDTAISLAKDNKLPIVVCNMFKKGNLLQVIKHQQGVFSMVK 4a8b-a1-m1-cM_4a8b-a1-m1-cR Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with lysozymes P00698 P00698 13.0 ELECTRON MICROSCOPY 10 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 4a8b-a1-m1-cM_4a8b-a1-m1-cQ KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 4a8b-a1-m1-cN_4a8b-a1-m1-cQ Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with lysozymes P00698 P00698 13.0 ELECTRON MICROSCOPY 20 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 4a8b-a1-m1-cN_4a8b-a1-m1-cR Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with lysozymes P00698 P00698 13.0 ELECTRON MICROSCOPY 29 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 4a8b-a1-m1-cO_4a8b-a1-m1-cQ Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with lysozymes P00698 P00698 13.0 ELECTRON MICROSCOPY 10 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 4a8b-a1-m1-cO_4a8b-a1-m1-cR Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with lysozymes P00698 P00698 13.0 ELECTRON MICROSCOPY 13 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 4a8b-a1-m1-cP_4a8b-a1-m1-cQ Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with lysozymes P00698 P00698 13.0 ELECTRON MICROSCOPY 10 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 129 129 KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGCRL 4a8c-a1-m1-cF_4a8c-a1-m1-cK Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with a binding peptide P39099 P39099 7.5 ELECTRON MICROSCOPY 177 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 395 395 4a8a-a1-m1-cA_4a8a-a1-m1-cE 4a8a-a1-m1-cA_4a8a-a1-m1-cL 4a8a-a1-m1-cB_4a8a-a1-m1-cD 4a8a-a1-m1-cB_4a8a-a1-m1-cI 4a8a-a1-m1-cC_4a8a-a1-m1-cH 4a8a-a1-m1-cC_4a8a-a1-m1-cJ 4a8a-a1-m1-cD_4a8a-a1-m1-cI 4a8a-a1-m1-cE_4a8a-a1-m1-cL 4a8a-a1-m1-cF_4a8a-a1-m1-cG 4a8a-a1-m1-cF_4a8a-a1-m1-cK 4a8a-a1-m1-cG_4a8a-a1-m1-cK 4a8a-a1-m1-cH_4a8a-a1-m1-cJ 4a8b-a1-m1-cA_4a8b-a1-m1-cE 4a8b-a1-m1-cA_4a8b-a1-m1-cL 4a8b-a1-m1-cB_4a8b-a1-m1-cD 4a8b-a1-m1-cB_4a8b-a1-m1-cI 4a8b-a1-m1-cC_4a8b-a1-m1-cH 4a8b-a1-m1-cC_4a8b-a1-m1-cJ 4a8b-a1-m1-cD_4a8b-a1-m1-cI 4a8b-a1-m1-cE_4a8b-a1-m1-cL 4a8b-a1-m1-cF_4a8b-a1-m1-cK 4a8b-a1-m1-cG_4a8b-a1-m1-cF 4a8b-a1-m1-cG_4a8b-a1-m1-cK 4a8b-a1-m1-cH_4a8b-a1-m1-cJ 4a8c-a1-m1-cA_4a8c-a1-m1-cE 4a8c-a1-m1-cA_4a8c-a1-m1-cL 4a8c-a1-m1-cB_4a8c-a1-m1-cD 4a8c-a1-m1-cB_4a8c-a1-m1-cI 4a8c-a1-m1-cC_4a8c-a1-m1-cH 4a8c-a1-m1-cC_4a8c-a1-m1-cJ 4a8c-a1-m1-cD_4a8c-a1-m1-cI 4a8c-a1-m1-cE_4a8c-a1-m1-cL 4a8c-a1-m1-cF_4a8c-a1-m1-cG 4a8c-a1-m1-cG_4a8c-a1-m1-cK 4a8c-a1-m1-cH_4a8c-a1-m1-cJ PLPSLAPMLEKVLPAVVSVRVEGTAQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNAGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLMR PLPSLAPMLEKVLPAVVSVRVEGTAQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNAGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLMR 4a8c-a1-m1-cJ_4a8c-a1-m1-cL Symmetrized cryo-EM reconstruction of E. coli DegQ 12-mer in complex with a binding peptide P39099 P39099 7.5 ELECTRON MICROSCOPY 55 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 395 395 4a8a-a1-m1-cA_4a8a-a1-m1-cB 4a8a-a1-m1-cA_4a8a-a1-m1-cC 4a8a-a1-m1-cD_4a8a-a1-m1-cE 4a8a-a1-m1-cD_4a8a-a1-m1-cF 4a8a-a1-m1-cE_4a8a-a1-m1-cF 4a8a-a1-m1-cG_4a8a-a1-m1-cH 4a8a-a1-m1-cG_4a8a-a1-m1-cI 4a8a-a1-m1-cH_4a8a-a1-m1-cI 4a8a-a1-m1-cJ_4a8a-a1-m1-cK 4a8a-a1-m1-cJ_4a8a-a1-m1-cL 4a8a-a1-m1-cK_4a8a-a1-m1-cL 4a8b-a1-m1-cA_4a8b-a1-m1-cB 4a8b-a1-m1-cA_4a8b-a1-m1-cC 4a8b-a1-m1-cB_4a8b-a1-m1-cC 4a8b-a1-m1-cD_4a8b-a1-m1-cE 4a8b-a1-m1-cD_4a8b-a1-m1-cF 4a8b-a1-m1-cE_4a8b-a1-m1-cF 4a8b-a1-m1-cG_4a8b-a1-m1-cH 4a8b-a1-m1-cG_4a8b-a1-m1-cI 4a8b-a1-m1-cH_4a8b-a1-m1-cI 4a8b-a1-m1-cJ_4a8b-a1-m1-cK 4a8b-a1-m1-cJ_4a8b-a1-m1-cL 4a8b-a1-m1-cK_4a8b-a1-m1-cL 4a8c-a1-m1-cA_4a8c-a1-m1-cB 4a8c-a1-m1-cA_4a8c-a1-m1-cC 4a8c-a1-m1-cB_4a8c-a1-m1-cC 4a8c-a1-m1-cD_4a8c-a1-m1-cE 4a8c-a1-m1-cD_4a8c-a1-m1-cF 4a8c-a1-m1-cE_4a8c-a1-m1-cF 4a8c-a1-m1-cG_4a8c-a1-m1-cH 4a8c-a1-m1-cG_4a8c-a1-m1-cI 4a8c-a1-m1-cH_4a8c-a1-m1-cI 4a8c-a1-m1-cJ_4a8c-a1-m1-cK 4a8c-a1-m1-cK_4a8c-a1-m1-cL PLPSLAPMLEKVLPAVVSVRVEGTAQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNAGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLMR PLPSLAPMLEKVLPAVVSVRVEGTAQPFEGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNAGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLMR 4a8e-a1-m1-cA_4a8e-a1-m2-cA The structure of a dimeric Xer recombinase from archaea Q9V1P5 Q9V1P5 2.99 X-RAY DIFFRACTION 62 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 266 266 RDDTIEEFATYLELEGKSRNTVRMYTYYISKFFEEGHSPTARDALRFLAKLKRKGYSTRSLNLVIQALKAYFKFEGLDSEAEKLKTPKMPKTLPKSLTEEEVRRIINAAETLRDRLILLLLYGAGLRVSELCNLRVEDVNFEYGVIVVRGGKGGKDRVVPISESLLSEIKRYLESRNDDSPYLFVEMKRKRKDKLSPKTVWRLVKKYGRKAGVELTPHQLRHSFATHMLERGIDIRIIQELLGHTQIYTKVSTKHLKEAVKKAKLV RDDTIEEFATYLELEGKSRNTVRMYTYYISKFFEEGHSPTARDALRFLAKLKRKGYSTRSLNLVIQALKAYFKFEGLDSEAEKLKTPKMPKTLPKSLTEEEVRRIINAAETLRDRLILLLLYGAGLRVSELCNLRVEDVNFEYGVIVVRGGKGGKDRVVPISESLLSEIKRYLESRNDDSPYLFVEMKRKRKDKLSPKTVWRLVKKYGRKAGVELTPHQLRHSFATHMLERGIDIRIIQELLGHTQIYTKVSTKHLKEAVKKAKLV 4a8p-a1-m1-cA_4a8p-a1-m1-cC Crystal structure of putrescine transcarbamylase from Enterococcus faecalis with N5-(phosphonoacetyl)-L-ornithine Q837U7 Q837U7 2 X-RAY DIFFRACTION 108 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 339 339 3txx-a1-m1-cA_3txx-a1-m1-cB 3txx-a1-m1-cA_3txx-a1-m1-cC 3txx-a1-m1-cC_3txx-a1-m1-cB 3txx-a2-m1-cE_3txx-a2-m1-cD 3txx-a2-m1-cF_3txx-a2-m1-cD 3txx-a3-m1-cH_3txx-a3-m1-cG 3txx-a3-m1-cI_3txx-a3-m1-cG 3txx-a3-m1-cI_3txx-a3-m1-cH 3txx-a4-m1-cJ_3txx-a4-m1-cK 3txx-a4-m1-cJ_3txx-a4-m1-cL 3txx-a4-m1-cK_3txx-a4-m1-cL 4a8h-a1-m1-cA_4a8h-a1-m2-cA 4a8h-a1-m1-cA_4a8h-a1-m3-cA 4a8h-a1-m2-cA_4a8h-a1-m3-cA 4a8h-a2-m1-cB_4a8h-a2-m4-cB 4a8h-a2-m1-cB_4a8h-a2-m5-cB 4a8h-a2-m4-cB_4a8h-a2-m5-cB 4a8p-a1-m1-cB_4a8p-a1-m1-cA 4a8p-a1-m1-cB_4a8p-a1-m1-cC 4a8p-a2-m1-cE_4a8p-a2-m1-cD 4a8p-a2-m1-cF_4a8p-a2-m1-cD 4a8p-a2-m1-cF_4a8p-a2-m1-cE 4a8t-a1-m1-cA_4a8t-a1-m2-cA 4a8t-a1-m1-cA_4a8t-a1-m3-cA 4a8t-a1-m2-cA_4a8t-a1-m3-cA 4a8t-a1-m4-cA_4a8t-a1-m5-cA 4a8t-a1-m4-cA_4a8t-a1-m6-cA 4a8t-a1-m5-cA_4a8t-a1-m6-cA 4am8-a1-m1-cA_4am8-a1-m1-cB 4am8-a1-m1-cC_4am8-a1-m1-cA 4am8-a1-m1-cC_4am8-a1-m1-cB 4am8-a2-m1-cE_4am8-a2-m1-cD 4am8-a2-m1-cE_4am8-a2-m1-cF 4am8-a2-m1-cF_4am8-a2-m1-cD MKRDYVTTETYTKEEMHYLVDLSLKIKEAIKNGYYPQLLKNKSLGMIFQQSSTRTRVSFETAMEQLGGHGEYLAPGQIQLGGHETIEDTSRVLSRLVDILMARVERHHSIVDLANCATIPVINGMSDYNHPTQELGDLCTMVEHLPEGKKLEDCKVVFVGDATQVCFSLGLITTKMGMNFVHFGPEGFQLNEEHQAKLAKNCEVSGGSFLVTDDASSVEGADFLYTDVWYGLYEAELSEEERMKVFYPKYQVNQEMMDRAGANCKFMHCLPATRGEEVTDEVIDGKNSICFDEAENRLTSIRGLLVYLMNDYEAKNPYDLIKQAEAKKELEVFLDTQSI MKRDYVTTETYTKEEMHYLVDLSLKIKEAIKNGYYPQLLKNKSLGMIFQQSSTRTRVSFETAMEQLGGHGEYLAPGQIQLGGHETIEDTSRVLSRLVDILMARVERHHSIVDLANCATIPVINGMSDYNHPTQELGDLCTMVEHLPEGKKLEDCKVVFVGDATQVCFSLGLITTKMGMNFVHFGPEGFQLNEEHQAKLAKNCEVSGGSFLVTDDASSVEGADFLYTDVWYGLYEAELSEEERMKVFYPKYQVNQEMMDRAGANCKFMHCLPATRGEEVTDEVIDGKNSICFDEAENRLTSIRGLLVYLMNDYEAKNPYDLIKQAEAKKELEVFLDTQSI 4a8t-a1-m3-cA_4a8t-a1-m6-cA Crystal structure of putrescine transcarbamylase from Enterococcus faecalis lacking its C-terminal Helix, with bound N5-(phosphonoacetyl) -L-ornithine Q837U7 Q837U7 1.59 X-RAY DIFFRACTION 10 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 317 317 4a8t-a1-m1-cA_4a8t-a1-m4-cA 4a8t-a1-m2-cA_4a8t-a1-m5-cA SMKRDYVTTETYTKEEMHYLVDLSLKIKEAIKNGYYPQLLKNKSLGMIFQQSSTRTRVSFETAMEQLGGHGEYLAPGIQLGGHETIEDTSRVLSRLVDILMARVERHHSIVDLANCATIPVINGMSDYNHPTQELGDLCTMVEHLPEGKKLEDCKVVFVGDATQVCFSLGLITTKMGMNFVHFGPEGFQLNEEHQAKLAKNCEVSGGSFLVTDDASSVEGADFLYTDVWYGLYEAELSEEERMKVFYPKYQVNQEMMDRAGANCKFMHCLPATRGEEVTDEVIDGKNSICFDEAENRLTSIRGLLVYLMNDYEAKNP SMKRDYVTTETYTKEEMHYLVDLSLKIKEAIKNGYYPQLLKNKSLGMIFQQSSTRTRVSFETAMEQLGGHGEYLAPGIQLGGHETIEDTSRVLSRLVDILMARVERHHSIVDLANCATIPVINGMSDYNHPTQELGDLCTMVEHLPEGKKLEDCKVVFVGDATQVCFSLGLITTKMGMNFVHFGPEGFQLNEEHQAKLAKNCEVSGGSFLVTDDASSVEGADFLYTDVWYGLYEAELSEEERMKVFYPKYQVNQEMMDRAGANCKFMHCLPATRGEEVTDEVIDGKNSICFDEAENRLTSIRGLLVYLMNDYEAKNP 4a8z-a1-m1-cA_4a8z-a1-m2-cA Human myelin P2 protein, K112Q mutant P02689 P02689 1.801 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 4d6b-a1-m1-cA_4d6b-a1-m2-cA GMSNKFLGTWKLVSSENFDDYMKALGVGLATRKLGNLAKPTVIISKKGDIITIRTESTFKNTEISFKLGQEFEETTADNRKTKSIVTLQRGSLNQVQRWDGKETTIKRKLVNGQMVAECKMKGVVCTRIYEKV GMSNKFLGTWKLVSSENFDDYMKALGVGLATRKLGNLAKPTVIISKKGDIITIRTESTFKNTEISFKLGQEFEETTADNRKTKSIVTLQRGSLNQVQRWDGKETTIKRKLVNGQMVAECKMKGVVCTRIYEKV 4a9g-a1-m1-cJ_4a9g-a1-m1-cY Symmetrized cryo-EM reconstruction of E. coli DegQ 24-mer in complex with beta-casein P39099 P39099 7.5 ELECTRON MICROSCOPY 84 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 390 390 4a9g-a1-m1-cA_4a9g-a1-m1-cO 4a9g-a1-m1-cA_4a9g-a1-m1-cP 4a9g-a1-m1-cB_4a9g-a1-m1-cO 4a9g-a1-m1-cB_4a9g-a1-m1-cP 4a9g-a1-m1-cC_4a9g-a1-m1-cM 4a9g-a1-m1-cC_4a9g-a1-m1-cN 4a9g-a1-m1-cD_4a9g-a1-m1-cM 4a9g-a1-m1-cD_4a9g-a1-m1-cN 4a9g-a1-m1-cE_4a9g-a1-m1-cR 4a9g-a1-m1-cE_4a9g-a1-m1-cT 4a9g-a1-m1-cF_4a9g-a1-m1-cQ 4a9g-a1-m1-cF_4a9g-a1-m1-cS 4a9g-a1-m1-cG_4a9g-a1-m1-cR 4a9g-a1-m1-cG_4a9g-a1-m1-cT 4a9g-a1-m1-cH_4a9g-a1-m1-cQ 4a9g-a1-m1-cH_4a9g-a1-m1-cS 4a9g-a1-m1-cI_4a9g-a1-m1-cV 4a9g-a1-m1-cI_4a9g-a1-m1-cW 4a9g-a1-m1-cJ_4a9g-a1-m1-cU 4a9g-a1-m1-cK_4a9g-a1-m1-cU 4a9g-a1-m1-cK_4a9g-a1-m1-cY 4a9g-a1-m1-cL_4a9g-a1-m1-cV 4a9g-a1-m1-cL_4a9g-a1-m1-cW PLPSLAPMLEKVLPAVVSVRVEGTAGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNAGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLM PLPSLAPMLEKVLPAVVSVRVEGTAGLGSGVIINASKGYVLTNNHVINQAQKISIQLNDGREFDAKLIGSDDQSDIALLQIQNPSKLTQIAIADSDKLRVGDFAVAVGNPFGLGQTATSGIVSALGRSGLNLEGLENFIQTDASINRGNAGGALLNLNGELIGINTAILAPGGGSVGIGFAIPSNMARTLAQQLIDFGEIKRGLLGIKGTEMSADIAKAFNLDVQRGAFVSEVLPGSGSAKAGVKAGDIITSLNGKPLNSFAELRSRIATTEPGTKVKLGLLRNGKPLEVEVTLDTSTSSSASAEMITPALEGATLSDGQLKDGGKGIKIDEVVKGSPAAQAGLQKDDVIIGVNRDRVNSIAEMRKVLAAKPAIIALQIVRGNESIYLLM 4a9z-a1-m1-cB_4a9z-a1-m1-cC CRYSTAL STRUCTURE OF HUMAN P63 TETRAMERIZATION DOMAIN Q9H3D4 Q9H3D4 2.29 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 58 DDELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQQQQQ DDELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQQQQQQHQHLLQKQTSIQ 4aa8-a1-m1-cA_4aa8-a1-m2-cA Bovine chymosin at 1.8A resolution P00794 P00794 1.801 X-RAY DIFFRACTION 11 1.0 9913 (Bos taurus) 9913 (Bos taurus) 323 323 4auc-a1-m1-cB_4auc-a1-m1-cA GEVASVPLTNYLDSQYFGKIYLGTPPQEFTVLFDTGSSDFWVPSIYCKSNACKNHQRFDPRKSSTFQNLGKPLSIHYGTGSMQGILGYDTVTVSNIVDIQQTVGLSTQEPGDVFTYAEFDGILGMAYPSLASEYSIPVFDNMMNRHLVAQDLFSVYMDRNGQESMLTLGAIDPSYYTGSLHWVPVTVQQYWQFTVDSVTISGVVVACEGGCQAILDTGTSKLVGPSSDILNIQQAIGATQNQYGEFDIDCDNLSYMPTVVFEINGKMYPLTPSAYTSQDQGFCTSGFQSENHSQKWILGDVFIREYYSVFDRANNLVGLAKAI GEVASVPLTNYLDSQYFGKIYLGTPPQEFTVLFDTGSSDFWVPSIYCKSNACKNHQRFDPRKSSTFQNLGKPLSIHYGTGSMQGILGYDTVTVSNIVDIQQTVGLSTQEPGDVFTYAEFDGILGMAYPSLASEYSIPVFDNMMNRHLVAQDLFSVYMDRNGQESMLTLGAIDPSYYTGSLHWVPVTVQQYWQFTVDSVTISGVVVACEGGCQAILDTGTSKLVGPSSDILNIQQAIGATQNQYGEFDIDCDNLSYMPTVVFEINGKMYPLTPSAYTSQDQGFCTSGFQSENHSQKWILGDVFIREYYSVFDRANNLVGLAKAI 4aai-a1-m1-cA_4aai-a1-m1-cB THERMOSTABLE PROTEIN FROM HYPERTHERMOPHILIC VIRUS SSV-RH Q6TRU9 Q6TRU9 NOT SOLUTION NMR 168 1.0 256994 (Sulfolobus virus Ragged Hills) 256994 (Sulfolobus virus Ragged Hills) 73 73 MVESKKIAKKKTTLAFDEDVYHTLKLVSVYLNRDMTEIIEEAVVMWLIQNKEKLPNELKPKIDEISKRFFPAK MVESKKIAKKKTTLAFDEDVYHTLKLVSVYLNRDMTEIIEEAVVMWLIQNKEKLPNELKPKIDEISKRFFPAK 4aal-a1-m1-cB_4aal-a1-m1-cA MacA wild-type oxidized Q74FY6 Q74FY6 1.84 X-RAY DIFFRACTION 125 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 319 320 4aao-a1-m1-cA_4aao-a1-m1-cB EDVMKRAQGLFKPIPAKPPVMKDNPASPSRVELGRMLFFDPRLSASHLISCNTCHNVGLGGTDILETSIGHGWQKGPRNSPTVLNAVYNIAQFWDGRAEDLAAQAKGPVQASVEMNNKPENLVATLKSIPGYPPLFRKAFPGQGDPVTFDNVAKAIEVFEATLVTPDAPFDKYLKGNRKAISSTAEQGLALFLDKGCAACHSGVNMGGTGYFPFGVREDPGVDDTGRYKVTSTAADKYVFRSPSLRNVAITMPYFHSGKVWKLKDAVKIMGSAQLGISITDADADKIVTFLNTLTGAQPKVMHPVLPPNSDDTPRPVSN EDVMKRAQGLFKPIPAKPPVMKDNPASPSRVELGRMLFFDPRLSASHLISCNTCHNVGLGGTDILETSIGHGWQKGPRNSPTVLNAVYNIAQFWDGRAEDLAAQAKGPVQASVEMNNKPENLVATLKSIPGYPPLFRKAFPGQGDPVTFDNVAKAIEVFEATLVTPDAPFDKYLKGNRKAISSTAEQGLALFLDKGCAACHSGVNMGGTGYFPFGVREDPGPVDDTGRYKVTSTAADKYVFRSPSLRNVAITMPYFHSGKVWKLKDAVKIMGSAQLGISITDADADKIVTFLNTLTGAQPKVMHPVLPPNSDDTPRPVSN 4aan-a1-m1-cA_4aan-a1-m2-cA MacA wild-type fully reduced Q74FY6 Q74FY6 1.22 X-RAY DIFFRACTION 98 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 322 322 4aam-a1-m1-cA_4aam-a1-m2-cA DVMKRAQGLFKPIPAKPPVMKDNPASPSRVELGRMLFFDPRLSASHLISCNTCHNVGLGGTDILETSIGHGWQKGPRNPTVLNAVYNIAQFWDGRAEDLAAQAKGPVQASVEMNNKPENLVATLKSIPGYPPLFRKAFPGQGDPVTFDNVAKAIEVFEATLVTPDAPFDKYLKGNRKAISSTAEQGLALFLDKGCAACHSGVNMGGTGYFPFGVREDPGPVVRPVDDTGRYKVTSTAADKYVFRSPSLRNVAITMPYFHSGKVWKLKDAVKIMGSAQLGISITDADADKIVTFLNTLTGAQPKVMHPVLPPNSDDTPRPVSN DVMKRAQGLFKPIPAKPPVMKDNPASPSRVELGRMLFFDPRLSASHLISCNTCHNVGLGGTDILETSIGHGWQKGPRNPTVLNAVYNIAQFWDGRAEDLAAQAKGPVQASVEMNNKPENLVATLKSIPGYPPLFRKAFPGQGDPVTFDNVAKAIEVFEATLVTPDAPFDKYLKGNRKAISSTAEQGLALFLDKGCAACHSGVNMGGTGYFPFGVREDPGPVVRPVDDTGRYKVTSTAADKYVFRSPSLRNVAITMPYFHSGKVWKLKDAVKIMGSAQLGISITDADADKIVTFLNTLTGAQPKVMHPVLPPNSDDTPRPVSN 4aar-a1-m1-cF_4aar-a1-m1-cG ATP-triggered molecular mechanics of the chaperonin GroEL P0A6F5 P0A6F5 8.0 ELECTRON MICROSCOPY 97 1.0 562 (Escherichia coli) 562 (Escherichia coli) 523 523 4aaq-a1-m1-cA_4aaq-a1-m1-cB 4aaq-a1-m1-cA_4aaq-a1-m1-cG 4aaq-a1-m1-cB_4aaq-a1-m1-cC 4aaq-a1-m1-cC_4aaq-a1-m1-cD 4aaq-a1-m1-cD_4aaq-a1-m1-cE 4aaq-a1-m1-cE_4aaq-a1-m1-cF 4aaq-a1-m1-cF_4aaq-a1-m1-cG 4aar-a1-m1-cA_4aar-a1-m1-cB 4aar-a1-m1-cA_4aar-a1-m1-cG 4aar-a1-m1-cB_4aar-a1-m1-cC 4aar-a1-m1-cC_4aar-a1-m1-cD 4aar-a1-m1-cD_4aar-a1-m1-cE 4aar-a1-m1-cE_4aar-a1-m1-cF 4aas-a1-m1-cA_4aas-a1-m1-cB 4aas-a1-m1-cA_4aas-a1-m1-cG 4aas-a1-m1-cB_4aas-a1-m1-cC 4aas-a1-m1-cC_4aas-a1-m1-cD 4aas-a1-m1-cD_4aas-a1-m1-cE 4aas-a1-m1-cE_4aas-a1-m1-cF 4aas-a1-m1-cF_4aas-a1-m1-cG 4aau-a1-m1-cA_4aau-a1-m1-cB 4aau-a1-m1-cA_4aau-a1-m1-cG 4aau-a1-m1-cB_4aau-a1-m1-cC 4aau-a1-m1-cC_4aau-a1-m1-cD 4aau-a1-m1-cD_4aau-a1-m1-cE 4aau-a1-m1-cE_4aau-a1-m1-cF 4aau-a1-m1-cF_4aau-a1-m1-cG 4ab2-a1-m1-cA_4ab2-a1-m1-cB 4ab2-a1-m1-cA_4ab2-a1-m1-cG 4ab2-a1-m1-cB_4ab2-a1-m1-cC 4ab2-a1-m1-cC_4ab2-a1-m1-cD 4ab2-a1-m1-cD_4ab2-a1-m1-cE 4ab2-a1-m1-cE_4ab2-a1-m1-cF 4ab2-a1-m1-cF_4ab2-a1-m1-cG 4ab3-a1-m1-cA_4ab3-a1-m1-cB 4ab3-a1-m1-cA_4ab3-a1-m1-cG 4ab3-a1-m1-cB_4ab3-a1-m1-cC 4ab3-a1-m1-cC_4ab3-a1-m1-cD 4ab3-a1-m1-cD_4ab3-a1-m1-cE 4ab3-a1-m1-cE_4ab3-a1-m1-cF 4ab3-a1-m1-cF_4ab3-a1-m1-cG 4ab3-a1-m1-cH_4ab3-a1-m1-cI 4ab3-a1-m1-cH_4ab3-a1-m1-cN 4ab3-a1-m1-cI_4ab3-a1-m1-cJ 4ab3-a1-m1-cJ_4ab3-a1-m1-cK 4ab3-a1-m1-cK_4ab3-a1-m1-cL 4ab3-a1-m1-cL_4ab3-a1-m1-cM 4ab3-a1-m1-cM_4ab3-a1-m1-cN AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEAALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDL AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEAALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDL 4aay-a1-m1-cD_4aay-a1-m1-cF Crystal Structure of the arsenite oxidase protein complex from Rhizobium species strain NT-26 Q6VAL9 Q6VAL9 2.7 X-RAY DIFFRACTION 10 1.0 132 132 AAGVEYPANRLANISELTLNEPLDVAYPDEDAAGVLLKLGTRVEGGVGPDGDIVGFSTICPHKGFPLSYSADNKTFNCPGHFSVFDPEKGGQQVWGQATQNLPQYVLRVADNGDIFAEGVDELIYGRLSNVL AAGVEYPANRLANISELTLNEPLDVAYPDEDAAGVLLKLGTRVEGGVGPDGDIVGFSTICPHKGFPLSYSADNKTFNCPGHFSVFDPEKGGQQVWGQATQNLPQYVLRVADNGDIFAEGVDELIYGRLSNVL 4ab2-a1-m1-cG_4ab2-a1-m1-cN ATP-triggered molecular mechanics of the chaperonin GroEL P0A6F5 P0A6F5 8.5 ELECTRON MICROSCOPY 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 523 523 4aar-a1-m1-cA_4aar-a1-m1-cH 4aar-a1-m1-cB_4aar-a1-m1-cI 4aar-a1-m1-cC_4aar-a1-m1-cJ 4aar-a1-m1-cD_4aar-a1-m1-cK 4aar-a1-m1-cE_4aar-a1-m1-cL 4aar-a1-m1-cF_4aar-a1-m1-cM 4aar-a1-m1-cG_4aar-a1-m1-cN 4ab2-a1-m1-cA_4ab2-a1-m1-cH 4ab2-a1-m1-cB_4ab2-a1-m1-cI 4ab2-a1-m1-cC_4ab2-a1-m1-cJ 4ab2-a1-m1-cD_4ab2-a1-m1-cK 4ab2-a1-m1-cE_4ab2-a1-m1-cL 4ab2-a1-m1-cF_4ab2-a1-m1-cM 4ab3-a1-m1-cA_4ab3-a1-m1-cH 4ab3-a1-m1-cB_4ab3-a1-m1-cI 4ab3-a1-m1-cC_4ab3-a1-m1-cJ 4ab3-a1-m1-cD_4ab3-a1-m1-cK 4ab3-a1-m1-cE_4ab3-a1-m1-cL 4ab3-a1-m1-cF_4ab3-a1-m1-cM 4ab3-a1-m1-cG_4ab3-a1-m1-cN AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEAALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDL AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEAALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDL 4ab5-a1-m1-cA_4ab5-a1-m1-cB Regulatory domain structure of NMB2055 (MetR) a LysR family regulator from N. meningitidis Q9JXG8 Q9JXG8 2.51 X-RAY DIFFRACTION 55 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 210 214 4ab6-a1-m1-cB_4ab6-a1-m1-cA GEAGELRIAVECHTCFDWLPAGEFRPWPQVELDIVSGFQADPVGLLLQHRADLAIVSEAEKQNGISFQPLFAYEVGICAPDHPLAAKNVWTAEDFIGETLITYPVPDELDLPKKILIPKNINPPRRHSELTIAIIQLVASRRGIAALPYWTVPYLEKGYVVHRQITADGLQSKLYAAIRTEDTDKSYLNNFCQIIRERGFADLPGLSELE PTEGEAGELRIAVECHTCFDWLPAGEFRPWPQVELDIVSGFQADPVGLLLQHRADLAIVSEAEKQNGISFQPLFAYEVGICAPDHPLAAKNVWTAEDFIGETLITYPVPDELDLPKKILIPKNINPPRRHSELTIAIIQLVASRRGIAALPYWTVPYLEKGYVVHRQITADGLQSKLYAAIRTEDTDKSYLNNFCQIIRERGFADLPGLSELEP 4ab7-a1-m1-cA_4ab7-a1-m1-cB Crystal structure of a tetrameric acetylglutamate kinase from Saccharomyces cerevisiae complexed with its substrate N- acetylglutamate Q01217 Q01217 3.25 X-RAY DIFFRACTION 75 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 405 436 3zzi-a1-m1-cA_3zzi-a1-m1-cB QFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRGYKLVKRSSIGEFPSADALRKALQRDAGISSGKESVASYLRYLENSDFVSYADEPLEAVAIVKKDTNVPTLDKFVCSDAAWLNNVTDNVFNVLRRDFPALQWVVSENDANIAWHFDKSQGSYLKGGKVLFWYGIDDINTISELVENFVKSCD TRSTVIQLLNNISTKREVEQYLKYFTSVSQQQFAVIKVGGAIISDNLHELASCLAFLYHVGLYPIVLHGTGPQVNGRLEAQGIEPDYIDGIRITDEHTMAVVRKCFLEQNLKLVTALEQLGVRARPITSGVFTADYLDKDKYKLVGNIKSVTKEPIEASIKAGALPILTSLAETASGQMLNVNADVAAGELARVFEPLKIVYLNEKGGIINGSTGEKISMINLDEEYDDLMKQSWVKYGTKLKIREIKELLDYLPRSSSVAIINVQDLQKELFTDSGAGTMIRRGYKLVKRSSIGEFPSADALRKALQRDAGISSGKESVASYLRYLENSDFVSYADEPLEAVAIVKKDTNVPTLDKFVCSDAAWLNNVTDNVFNVLRRDFPALQWVVSENDANIAWHFDKSQGSYLKGGKVLFWYGIDDINTISELVENFVKSCD 4abm-a1-m1-cA_4abm-a1-m1-cB Crystal Structure of CHMP4B hairpin Q9H444 Q9H444 1.8 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 GAMEQEAIQRLRDTEEMLSKKQEFLEKKIEQELTAAKKHGTKNKRAALQALKRKKRYEKQLAQIDGTLSTIEFQREALE GAMEQEAIQRLRDTEEMLSKKQEFLEKKIEQELTAAKKHGTKNKRAALQALKRKKRYEKQLAQIDGTLSTIEFQREALE 4abx-a2-m1-cB_4abx-a2-m1-cC Crystal structure of Deinococcus radiodurans RecN coiled-coil domain Q9WXF2 Q9WXF2 2.041 X-RAY DIFFRACTION 127 0.994 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 166 167 4abx-a1-m1-cD_4abx-a1-m1-cA TQRERARQIDLLAFQVQEISEVSPDPGEEEGLNTELSRLSNLHTIAQAAAGGVELLSDGDLNAAGLIGEAVRALNAGAKYDETVMQLQNELRAALESVQAIAGELRDVAEGSAADPEALDRVEARLSALSKLKNKYGPTLEDVVEFGAQAAEELAGLEEDERDAGS PFTQRERARQIDLLAFQVQEISEVSPDPGEEEGLNTELSRLSNLHTIAQAAAGGVELLSDGDLNAAGLIGEAVRALNAGAKYDETVMQLQNELRAALESVQAIAGELRDVAEGSAADPEALDRVEARLSALSKLKNKYGPTLEDVVEFGAQAAEELAGLEEDERDAG 4ad9-a2-m1-cE_4ad9-a2-m1-cF Crystal structure of human LACTB2. Q53H82 Q53H82 2.6 X-RAY DIFFRACTION 37 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 284 285 4ad9-a1-m1-cB_4ad9-a1-m1-cA 4ad9-a1-m1-cB_4ad9-a1-m1-cC 4ad9-a1-m1-cC_4ad9-a1-m1-cA 4ad9-a2-m1-cE_4ad9-a2-m1-cD 4ad9-a2-m1-cF_4ad9-a2-m1-cD AAVLQRVERLSNRVVRVLGCNPGPMTLQGTNTYLVGTGPRRILIDTGEPAIPEYISCLKQALTEFNTAIQEIVVTHWHRDHSGGIGDICKSINNDTTYCIKKLPRNPQREEIIGNGEQQYVYLKDGDVIKTEGATLRVLYTPGHTDDHMALLLEEENAIFSGDCILGEGTTVFEDLYDYMNSLKELLKIKADIIYPGHGPVIHNAEAKIQQYISHRNIREQQILTLFRENFEKSFTVMELVKIIYKNTPENLHEMAKHNLLLHLKKLEKEGKIFSNTPDKKWKA VLQRVERLSNRVVRVLGCNPGPMTLQGTNTYLVGTGPRRILIDTGEPAIPEYISCLKQALTEFNTAIQEIVVTHWHRDHSGGIGDICKSINNDTTYCIKKLPRNPQREEIIGNGEQQYVYLKDGDVIKTEGATLRVLYTPGHTDDHMALLLEEENAIFSGDCILGEGTTVFEDLYDYMNSLKELLKIKADIIYPGHGPVIHNAEAKIQQYISHRNIREQQILTLFRENFEKSFTVMELVKIIYKNTPENLHEMAKHNLLLHLKKLEKEGKIFSNTDPDKKWKAHL 4adb-a2-m1-cC_4adb-a2-m1-cD Structural and functional study of succinyl-ornithine transaminase from E. coli P77581 P77581 2.2 X-RAY DIFFRACTION 353 1.0 511693 (Escherichia coli BL21) 511693 (Escherichia coli BL21) 399 400 4adb-a1-m1-cA_4adb-a1-m1-cB 4adc-a1-m1-cA_4adc-a1-m1-cB 4adc-a2-m1-cC_4adc-a2-m1-cD 4add-a1-m1-cA_4add-a1-m1-cB 4add-a2-m1-cC_4add-a2-m1-cD 4ade-a1-m1-cA_4ade-a1-m2-cA 4ade-a2-m1-cB_4ade-a2-m3-cB PITRENFDEWMIPVYAPAPFIPVRGEGSRLWDQQGKEYIDFAGGIAVNALGHAHPELREALNEQASKFWHTGNGYTNEPVLRLAKKLIDATFADRVFFCNSGAEANEAALKLARKFAHDRYGSHKSGIVAFKNAFHGRTLFTVSAGGQPAYSQDFAPLPADIRHAAYNDINSASALIDDSTCAVIVEPIQGEGGVVPASNAFLQGLRELCNRHNALLIFDEVQTGVGRTGELYAYMHYGVTPDLLTTAKALGGGFPVGALLATEECARVMTVGTHGTTYGGNPLASAVAGKVLELINTPEMLNGVKQRHDWFVERLNTINHRYGLFSEVRGLGLLIGCVLNADYAGQAKQISQEAAKAGVMVLIAGGNVVRFAPALNVSEEEVTTGLDRFAAACEHFVS QPITRENFDEWMIPVYAPAPFIPVRGEGSRLWDQQGKEYIDFAGGIAVNALGHAHPELREALNEQASKFWHTGNGYTNEPVLRLAKKLIDATFADRVFFCNSGAEANEAALKLARKFAHDRYGSHKSGIVAFKNAFHGRTLFTVSAGGQPAYSQDFAPLPADIRHAAYNDINSASALIDDSTCAVIVEPIQGEGGVVPASNAFLQGLRELCNRHNALLIFDEVQTGVGRTGELYAYMHYGVTPDLLTTAKALGGGFPVGALLATEECARVMTVGTHGTTYGGNPLASAVAGKVLELINTPEMLNGVKQRHDWFVERLNTINHRYGLFSEVRGLGLLIGCVLNADYAGQAKQISQEAAKAGVMVLIAGGNVVRFAPALNVSEEEVTTGLDRFAAACEHFVS 4adi-a1-m1-cA_4adi-a1-m1-cC Crystal structure of the Rubella virus envelope glycoprotein E1 in post-fusion form (crystal form I) P08563 P08563 1.8 X-RAY DIFFRACTION 226 0.998 11041 (Rubella virus) 11041 (Rubella virus) 425 425 4adg-a1-m1-cA_4adg-a1-m1-cB 4adg-a1-m1-cA_4adg-a1-m1-cC 4adg-a1-m1-cB_4adg-a1-m1-cC 4adi-a1-m1-cB_4adi-a1-m1-cA 4adi-a1-m1-cB_4adi-a1-m1-cC 4adj-a1-m1-cA_4adj-a1-m1-cB 4adj-a1-m1-cA_4adj-a1-m1-cC 4adj-a1-m1-cB_4adj-a1-m1-cC EAFTYLCTAPGCATQTPVPVRLAGVRFESKIVDGGCFAPWDLEATGACICEIPTDVSCEGLGAWVPTAPCARIWNGTQRACTFWAVNAYSSGGYAQLASYFNPGGSYYKQYHPTACEVEPAFGHSDAACWGFPTDTVMSVFALASYVQHPHKTVRVKFHTETRTVWQLSVAGVSCNVTTEHPFCNTPHGQLEVQVPPDPGDLVEYIMNQQSRWGLGSPNCHGPDWASPVCQRHSPDCSRLVGATPERPRLRLVDADDPLLRTAPGPGEVWVTPVIGSQARKCGLHIRAGPYGHATVEMPEWIHAHTTSDPWHPPGPLGLKFKTVRPALAPPRNVRVTGCYQCGTPALVEGLAPGGGNCHLTVNGEDVGAFPPGKFVTAALLNTPPPYQVSCGGESDRASARVIDPAAQSFTGVVYGTHTTAVSET EAFTYLCTAPGCATQTPVPVRLAGVRFESKIVDGGCFAPWDLEATGACICEIPTDVSCEGLGAWVPTAPCARIWNGTQRACTFWAVNAYSSGGYAQLASYFNPGGSYYKQYHPTACEVEPAFGHSDAACWGFPTDTVMSVFALASYVQHPKTVRVKFHTETRTVWQLSVAGVSCNVTTEHPFCNTPHGQLEVQVPPDPGDLVEYIMNNQQSRWGLGSPNCHGPDWASPVCQRHSPDCSRLVGATPERPRLRLVDADDPLLRTAPGPGEVWVTPVIGSQARKCGLHIRAGPYGHATVEMPEWIHAHTTSDPWHPPGPLGLKFKTVRPALAPPRNVRVTGCYQCGTPALVEGLAPGGGNCHLTVNGEDVGAFPPGKFVTAALLNTPPPYQVSCGGESDRASARVIDPAAQSFTGVVYGTHTTAVSET 4adn-a1-m1-cB_4adn-a1-m1-cA Fusidic acid resistance protein FusB Q8GNY5 Q8GNY5 1.65 X-RAY DIFFRACTION 55 0.995 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 207 213 GMKTMIYPHQYNYIRSVILRLKNVYKTVNDKETVKVIQSETYNDINEIFGHIDDDIEESLKVLMNIRLSNKEIEAILNKFLEYVVPFELPSPQKLQKVFKKVKKIKIPQFEEYDLKVSSFVGWNELASNRKYIIYYDEKKQLKGLYGEISNQVVKGFCTICNKESNVSLFMKKQYVKKGDYICRDSIHCNKQLTDINQFYNFIDKLD MKTMIYPHQYNYIRSVILRLKNVYKTVNDKETVKVIQSETYNDINEIFGHIDDDIEESLKVLMNIRLSNKEIEAILNKFLEYVVPFELPSPQKLQKVFKKVKKIKIPQFEEYDLKVSSFVGWNELASNRKYIIYYDEKKQLKGLYGEISNQVVKGFCTICNKESNVSLFMKKSKTNSDGQYVKKGDYICRDSIHCNKQLTDINQFYNFIDKLD 4adq-a2-m3-cH_4adq-a2-m3-cG CRYSTAL STRUCTURE OF THE MOUSE COLONY-STIMULATING FACTOR 1 (MCSF-1) CYTOKINE IN COMPLEX WITH THE VIRAL RECEPTOR BARF1 P07141 P07141 4.5 X-RAY DIFFRACTION 56 1.0 10090 (Mus musculus) 10090 (Mus musculus) 142 143 3ejj-a1-m1-cB_3ejj-a1-m1-cA 3uf5-a1-m1-cB_3uf5-a1-m1-cA 4adq-a1-m1-cF_4adq-a1-m1-cE 4adq-a1-m2-cF_4adq-a1-m2-cE 4adq-a1-m3-cF_4adq-a1-m3-cE 4adq-a2-m1-cH_4adq-a2-m1-cG 4adq-a2-m2-cH_4adq-a2-m2-cG EHCSHMIGNGHLKVLQQLIDSQMETSCQIAFEFVDQEQLDDPVCYLKKAFFLVQDIIDETMRFKDNTPNANATERLQELSNNLNSCFTKDYEEQNKACVRTFHETPLQLLEKIKNFFNETKNLLEKDWNIFTKNCNNSFAKC SEHCSHMIGNGHLKVLQQLIDSQMETSCQIAFEFVDQEQLDDPVCYLKKAFFLVQDIIDETMRFKDNTPNANATERLQELSNNLNSCFTKDYEEQNKACVRTFHETPLQLLEKIKNFFNETKNLLEKDWNIFTKNCNNSFAKC 4ads-a2-m1-cE_4ads-a2-m1-cF Crystal structure of plasmodial PLP synthase complex 3.61 X-RAY DIFFRACTION 77 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 282 282 4ads-a1-m1-cA_4ads-a1-m1-cB 4ads-a1-m1-cA_4ads-a1-m1-cF 4ads-a1-m1-cB_4ads-a1-m1-cC 4ads-a1-m1-cC_4ads-a1-m1-cD 4ads-a1-m1-cD_4ads-a1-m1-cE 4ads-a1-m1-cE_4ads-a1-m1-cF 4ads-a1-m2-cA_4ads-a1-m2-cB 4ads-a1-m2-cA_4ads-a1-m2-cF 4ads-a1-m2-cB_4ads-a1-m2-cC 4ads-a1-m2-cC_4ads-a1-m2-cD 4ads-a1-m2-cD_4ads-a1-m2-cE 4ads-a1-m2-cE_4ads-a1-m2-cF 4ads-a2-m1-cA_4ads-a2-m1-cB 4ads-a2-m1-cA_4ads-a2-m1-cF 4ads-a2-m1-cB_4ads-a2-m1-cC 4ads-a2-m1-cC_4ads-a2-m1-cD 4ads-a2-m1-cD_4ads-a2-m1-cE 4adt-a1-m1-cB_4adt-a1-m4-cA 4adt-a1-m1-cB_4adt-a1-m6-cA 4adt-a1-m2-cB_4adt-a1-m3-cA 4adt-a1-m2-cB_4adt-a1-m6-cA 4adt-a1-m3-cB_4adt-a1-m2-cA 4adt-a1-m3-cB_4adt-a1-m5-cA 4adt-a1-m4-cB_4adt-a1-m1-cA 4adt-a1-m4-cB_4adt-a1-m5-cA 4adt-a1-m5-cB_4adt-a1-m3-cA 4adt-a1-m5-cB_4adt-a1-m4-cA 4adt-a1-m6-cB_4adt-a1-m1-cA 4adt-a1-m6-cB_4adt-a1-m2-cA 4adu-a1-m1-cB_4adu-a1-m4-cA 4adu-a1-m1-cB_4adu-a1-m6-cA 4adu-a1-m2-cB_4adu-a1-m3-cA 4adu-a1-m2-cB_4adu-a1-m6-cA 4adu-a1-m3-cB_4adu-a1-m2-cA 4adu-a1-m3-cB_4adu-a1-m5-cA 4adu-a1-m4-cB_4adu-a1-m1-cA 4adu-a1-m4-cB_4adu-a1-m5-cA 4adu-a1-m5-cB_4adu-a1-m3-cA 4adu-a1-m5-cB_4adu-a1-m4-cA 4adu-a1-m6-cB_4adu-a1-m1-cA 4adu-a1-m6-cB_4adu-a1-m2-cA DYADNDSILLKHGWCEMLKGGVIMDVKNVEQAKIAEKAGAIGVMILENIPSELRNTDGVARSVDPLKIEEIRKCISINVLAKVRIGHFVEAQILEELKVDMLDESEVLTMADEYNHINKHKFKTPFVCGCTNLGEALRRISEGASMIRTKGEAGTGNIIEAIKHIRTVNNEIKYLCSLDESEVYNFAKKLRAPIDLILLTRKLKRLPVVNFAAGGIATPADAAMCMQLGMDGVFVGSGIFESENPQKMASSIVMAVSNFNNPKILLNVSLGLGKAMHGNTAA DYADNDSILLKHGWCEMLKGGVIMDVKNVEQAKIAEKAGAIGVMILENIPSELRNTDGVARSVDPLKIEEIRKCISINVLAKVRIGHFVEAQILEELKVDMLDESEVLTMADEYNHINKHKFKTPFVCGCTNLGEALRRISEGASMIRTKGEAGTGNIIEAIKHIRTVNNEIKYLCSLDESEVYNFAKKLRAPIDLILLTRKLKRLPVVNFAAGGIATPADAAMCMQLGMDGVFVGSGIFESENPQKMASSIVMAVSNFNNPKILLNVSLGLGKAMHGNTAA 4adt-a1-m1-cB_4adt-a1-m6-cB Crystal structure of plasmodial PLP synthase 2.42 X-RAY DIFFRACTION 49 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 262 262 4ads-a1-m1-cA_4ads-a1-m2-cE 4ads-a1-m1-cB_4ads-a1-m2-cD 4ads-a1-m1-cC_4ads-a1-m2-cC 4ads-a1-m1-cD_4ads-a1-m2-cB 4ads-a1-m1-cE_4ads-a1-m2-cA 4ads-a1-m1-cF_4ads-a1-m2-cF 4adt-a1-m1-cA_4adt-a1-m4-cA 4adt-a1-m2-cA_4adt-a1-m6-cA 4adt-a1-m2-cB_4adt-a1-m3-cB 4adt-a1-m3-cA_4adt-a1-m5-cA 4adt-a1-m4-cB_4adt-a1-m5-cB 4adu-a1-m1-cA_4adu-a1-m4-cA 4adu-a1-m1-cB_4adu-a1-m6-cB 4adu-a1-m2-cA_4adu-a1-m6-cA 4adu-a1-m2-cB_4adu-a1-m3-cB 4adu-a1-m3-cA_4adu-a1-m5-cA 4adu-a1-m4-cB_4adu-a1-m5-cB CEMLKGGVIMDVKNVEQAKIAEKAGAIGVMILENIPTDGVARSVDPLKIEEIRKCISINVLAKVRIGHFVEAQILEELKVDMLDESEVLTMADEYNHINKHKFKTPFVCGCTNLGEALRRISEGASMIRTKGEAGTGNIIEAIKHIRTVNNEIKYLCSLDESEVYNFAKKLRAPIDLILLTRKLKRLPVVNFAAGGIATPADAAMCMQLGMDGVFVGSGIFESENPQKMASSIVMAVSNFNNPKILLNVSLGLGKAMHGNTK CEMLKGGVIMDVKNVEQAKIAEKAGAIGVMILENIPTDGVARSVDPLKIEEIRKCISINVLAKVRIGHFVEAQILEELKVDMLDESEVLTMADEYNHINKHKFKTPFVCGCTNLGEALRRISEGASMIRTKGEAGTGNIIEAIKHIRTVNNEIKYLCSLDESEVYNFAKKLRAPIDLILLTRKLKRLPVVNFAAGGIATPADAAMCMQLGMDGVFVGSGIFESENPQKMASSIVMAVSNFNNPKILLNVSLGLGKAMHGNTK 4adt-a1-m6-cB_4adt-a1-m6-cA Crystal structure of plasmodial PLP synthase 2.42 X-RAY DIFFRACTION 19 1.0 5821 (Plasmodium berghei) 5821 (Plasmodium berghei) 262 273 4ads-a1-m1-cA_4ads-a1-m2-cD 4ads-a1-m1-cB_4ads-a1-m2-cC 4ads-a1-m1-cC_4ads-a1-m2-cB 4ads-a1-m1-cD_4ads-a1-m2-cA 4ads-a1-m1-cE_4ads-a1-m2-cF 4ads-a1-m1-cF_4ads-a1-m2-cE 4adt-a1-m1-cB_4adt-a1-m1-cA 4adt-a1-m2-cB_4adt-a1-m2-cA 4adt-a1-m3-cB_4adt-a1-m3-cA 4adt-a1-m4-cB_4adt-a1-m4-cA 4adt-a1-m5-cB_4adt-a1-m5-cA 4adu-a1-m1-cB_4adu-a1-m1-cA 4adu-a1-m2-cB_4adu-a1-m2-cA 4adu-a1-m3-cB_4adu-a1-m3-cA 4adu-a1-m4-cB_4adu-a1-m4-cA 4adu-a1-m5-cB_4adu-a1-m5-cA 4adu-a1-m6-cB_4adu-a1-m6-cA CEMLKGGVIMDVKNVEQAKIAEKAGAIGVMILENIPTDGVARSVDPLKIEEIRKCISINVLAKVRIGHFVEAQILEELKVDMLDESEVLTMADEYNHINKHKFKTPFVCGCTNLGEALRRISEGASMIRTKGEAGTGNIIEAIKHIRTVNNEIKYLCSLDESEVYNFAKKLRAPIDLILLTRKLKRLPVVNFAAGGIATPADAAMCMQLGMDGVFVGSGIFESENPQKMASSIVMAVSNFNNPKILLNVSLGLGKAMHGNTK DNDSILLKHGWCEMLKGGVIMDVKNVEQAKIAEKAGAIGVMILENIPTDGVARSVDPLKIEEIRKCISINVLAKVRIGHFVEAQILEELKVDMLDESEVLTMADEYNHINKHKFKTPFVCGCTNLGEALRRISEGASMIRTKGEAGTGNIIEAIKHIRTVNNEIKYLCSLDESEVYNFAKKLRAPIDLILLTRKLKRLPVVNFAAGGIATPADAAMCMQLGMDGVFVGSGIFESENPQKMASSIVMAVSNFNNPKILLNVSLGLGKAMHGNTK 4adz-a1-m2-cA_4adz-a1-m2-cB Crystal Structure of the apo form of a Copper-sensitive operon Regulator (CsoR) protein from Streptomyces lividans D6EK73 D6EK73 1.7 X-RAY DIFFRACTION 76 1.0 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 90 90 4adz-a1-m1-cA_4adz-a1-m1-cB 4uig-a1-m1-cA_4uig-a1-m4-cA 4uig-a1-m2-cA_4uig-a1-m3-cA YHKQKAEHLKRLRRIEGQIRGLQRMVDEDVYCIDILTQVSASTKALQSFALQLLEEHLRHCVADAALKGGTEIDAKVEEATKAIGRLLRT YHKQKAEHLKRLRRIEGQIRGLQRMVDEDVYCIDILTQVSASTKALQSFALQLLEEHLRHCVADAALKGGTEIDAKVEEATKAIGRLLRT 4ae4-a1-m1-cA_4ae4-a1-m1-cB The UBAP1 subunit of ESCRT-I interacts with ubiquitin via a novel SOUBA domain Q9NZ09 Q9NZ09 1.65 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 106 SHSPSERQCVETVVNGYSYECVLRAKAAGANIEQILDYLFAHGQLCEKGFDPLLVEEALEHQCSEEKEFLQLSKFKEGFELKDIKEVLLLHNNDQDNALEDLARA SHSPSERQCVETVVNGYSYECVLRAKAAGANIEQILDYLFAHGQLCEKGFDPLLVEEALEHQCSEEKEFLQLSKFKEGFELKDIKEVLLLHNNDQDNALEDLARAG 4ae7-a1-m1-cA_4ae7-a1-m2-cA Crystal structure of human THEM5 Q8N1Q8 Q8N1Q8 1.45 X-RAY DIFFRACTION 159 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 LKDYALPNASWCSDMLSLYQEFLEKTKSSGWIKLPSFKSNRDHIRGLKLPDCRIFTRCIQVEGQGFEYVIFFQPTQKKSVCLFQPGSYLEGPPGFAHGGSLAAMMDETFSKTAFLAGEGLFTLSLNIRFKNLIPVDSLVVMDVEVDKIEDQKLYMSCIAHSRDQQTVYAKSSGVFLQLQLEEESPQ LKDYALPNASWCSDMLSLYQEFLEKTKSSGWIKLPSFKSNRDHIRGLKLPDCRIFTRCIQVEGQGFEYVIFFQPTQKKSVCLFQPGSYLEGPPGFAHGGSLAAMMDETFSKTAFLAGEGLFTLSLNIRFKNLIPVDSLVVMDVEVDKIEDQKLYMSCIAHSRDQQTVYAKSSGVFLQLQLEEESPQ 4ae8-a2-m1-cD_4ae8-a2-m1-cC Crystal structure of human THEM4 Q5T1C6 Q5T1C6 1.594 X-RAY DIFFRACTION 117 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 165 168 4ae8-a1-m1-cB_4ae8-a1-m1-cA 4gah-a1-m1-cA_4gah-a1-m1-cB LKDCSVPNPSWNKDLRLLFDQFMKKCEDGSWKRLPSYQAQLFTRSFDDGLGFEYVMFYNDIEKRMVCLFQGGPYLEGPPGFIHGGAIATMIDATVGMCAMMAGGIVMTANLNINYKRPIPLCSVVMINSQLDKVEGRKFFVSCNVQSVDEKTLYSEATSLFIKLN LKDCSVPNPSWNKDLRLLFDQFMKKCEDGSWKRLPSYKRTSQAQLFTRSFDDGLGFEYVMFYNDIEKRMVCLFQGGPYLEGPPGFIHGGAIATMIDATVGMCAMMAGGIVMTANLNINYKRPIPLCSVVMINSQLDKVEGRKFFVSCNVQSVDEKTLYSEATSLFIKL 4aea-a2-m1-cB_4aea-a2-m2-cB Dimeric alpha-cobratoxin X-ray structure: Localization of intermolecular disulfides and possible mode of binding to nicotinic acetylcholine receptors P01391 P01391 1.94 X-RAY DIFFRACTION 113 1.0 8649 (Naja kaouthia) 8649 (Naja kaouthia) 67 67 4aea-a1-m1-cA_4aea-a1-m2-cA IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPT IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPT 4aec-a1-m1-cB_4aec-a1-m1-cA Crystal Structure of the Arabidopsis thaliana O-Acetyl-Serine-(Thiol)- Lyase C Q43725 Q43725 2.4 X-RAY DIFFRACTION 195 0.984 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 319 323 GLNIADNVSQLIGKTPMVYLNSIAKGCVANIAAKLEIMEPCCSVKDRIGYSMVTDAEQKGFISPGKSVLVEPTSGNTGIGLAFIAASRGYRLILTMPASMSMERRVLLKAFGAELVLTDPAKGMTGAVQKAEEILKNTPDAYMLQQFDNPANPKIHYETTGPEIWDDTKGKVDIFVAGIGTGGTITGVGRFIKEKNPKTQVIGVEPTESDILSGGKPGPHKIQGIGAGFIPKNLDQKIMDEVIAISSEEAIETAKQLALKEGLMVGISSGAAAAAAIKVAKRPENAGKLIAVVFPSFGERYLSTPLFQSIREEVEKMQP AVKRETGPDGLNIADNVSQLIGKTPMVYLNSIAKGCVANIAAKLEIMEPCCSVKDRIGYSMVTDAEQKGFISPGKSVLVEPTSGNTGIGLAFIAASRGYRLILTMPASMSMERRVLLKAFGAELVLTDPAKGMTGAVQKAEEILKNTPDAYMLQQFDNPANPKIHYETTGPEIWDDTKGKVDIFVAGIGTGGTITGVGRFIKEKNPKTQVIGVEPTESDILSGGKPGPHKIQGIGAGFIPKNLDQKIMDEVIAISSEEAIETAKQLALKEGLMVGISSGAAAAAAIKVAKRPENAGKLIAVVFPSFGERYLSTPLFQSIREEV 4aeq-a1-m1-cA_4aeq-a1-m2-cA Crystal structure of the dimeric immunity protein Cmi solved by direct methods (Arcimboldo) P18002 P18002 1.892 X-RAY DIFFRACTION 161 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 90 90 KGPACYQVSDEQARTFVKNDYLQRMKRWDNDVQLLGTEIPKITWEKIERSLTDVEDEKTLLVPFKAEGPDGKRMYYGMYHCEEGYVEYAN KGPACYQVSDEQARTFVKNDYLQRMKRWDNDVQLLGTEIPKITWEKIERSLTDVEDEKTLLVPFKAEGPDGKRMYYGMYHCEEGYVEYAN 4aey-a1-m7-cA_4aey-a1-m8-cA Crystal structure of FolX from Pseudomonas aeruginosa Q9HYG7 Q9HYG7 3 X-RAY DIFFRACTION 47 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 107 107 4aey-a1-m1-cA_4aey-a1-m2-cA 4aey-a1-m1-cA_4aey-a1-m3-cA 4aey-a1-m2-cA_4aey-a1-m4-cA 4aey-a1-m3-cA_4aey-a1-m4-cA 4aey-a1-m5-cA_4aey-a1-m6-cA 4aey-a1-m5-cA_4aey-a1-m7-cA 4aey-a1-m6-cA_4aey-a1-m8-cA PGMARIRVKDLRLRTFIGIKEEEILNKQDVLINLTILYPAHALNYRTITKAIIRHVEENRFALLERMTQEILDLVMENPAVRYAEVEVDKPHALRFAESVSITLAGH PGMARIRVKDLRLRTFIGIKEEEILNKQDVLINLTILYPAHALNYRTITKAIIRHVEENRFALLERMTQEILDLVMENPAVRYAEVEVDKPHALRFAESVSITLAGH 4af0-a2-m6-cB_4af0-a2-m7-cB Crystal structure of cryptococcal inosine monophosphate dehydrogenase E3P6S0 E3P6S0 2.2 X-RAY DIFFRACTION 162 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 395 395 4af0-a1-m1-cA_4af0-a1-m2-cA 4af0-a1-m1-cA_4af0-a1-m3-cA 4af0-a1-m2-cA_4af0-a1-m4-cA 4af0-a1-m3-cA_4af0-a1-m4-cA 4af0-a2-m1-cB_4af0-a2-m5-cB 4af0-a2-m1-cB_4af0-a2-m7-cB 4af0-a2-m5-cB_4af0-a2-m6-cB TNPNAPPRPDSLLNPSDALKHLEEYPRGDGLSLQELMDSRKNGGLTYNDFLVLPGHINFPASDVSLQSKATKNIVLNTPFLSSPMDTVTEDRMAIALALHGGLGIIHHNCSAEEQAAMVRRVKKYENYPYASKVPESKQLYCGAAIGTRPGDKDRLKLLAEAGLDVVVLDSSQGNSVYQIEFIKWIKQTYPKIDVIAGNVVTREQAAQLIAAGADGLRIGMGSGSICITQEVMAVGRPQGTAVYAVAEFASRFGIPCIADGGIGNIGHIAKALALGASAVMMGGLLAGTTESPGEYFYHEGKRVKVYRGMGSIEAMEHTGLDNAATARYFSEADAVKVAQGVSGDVADKGSINKFVPYLFTGLQHSLQDAGIKSVSELHSCARSGSLRFELRTAS TNPNAPPRPDSLLNPSDALKHLEEYPRGDGLSLQELMDSRKNGGLTYNDFLVLPGHINFPASDVSLQSKATKNIVLNTPFLSSPMDTVTEDRMAIALALHGGLGIIHHNCSAEEQAAMVRRVKKYENYPYASKVPESKQLYCGAAIGTRPGDKDRLKLLAEAGLDVVVLDSSQGNSVYQIEFIKWIKQTYPKIDVIAGNVVTREQAAQLIAAGADGLRIGMGSGSICITQEVMAVGRPQGTAVYAVAEFASRFGIPCIADGGIGNIGHIAKALALGASAVMMGGLLAGTTESPGEYFYHEGKRVKVYRGMGSIEAMEHTGLDNAATARYFSEADAVKVAQGVSGDVADKGSINKFVPYLFTGLQHSLQDAGIKSVSELHSCARSGSLRFELRTAS 4af5-a1-m1-cA_4af5-a1-m2-cA Structure of the C. glutamicum AcnR Crystal Form I Q8NQ97 Q8NQ97 1.9 X-RAY DIFFRACTION 116 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 173 173 4ac6-a1-m1-cA_4ac6-a1-m2-cA 4aci-a1-m1-cA_4aci-a1-m1-cB RQEILEGARRCFAEHGYEGATVRRLEEATGKSRGAIFHHFGDKENLFLALAREDAARMAEVVENGLVEVMRGMLEDPERYDWMSVRLEISKQLRTDPVFRAKWIDHQSVLDEAVRVRLSRNVDKGQMRTDVPIEVLHTFLETVLDGFISRLATGASTEGLSEVLDLVEGTVRK RQEILEGARRCFAEHGYEGATVRRLEEATGKSRGAIFHHFGDKENLFLALAREDAARMAEVVENGLVEVMRGMLEDPERYDWMSVRLEISKQLRTDPVFRAKWIDHQSVLDEAVRVRLSRNVDKGQMRTDVPIEVLHTFLETVLDGFISRLATGASTEGLSEVLDLVEGTVRK 4afb-a1-m1-cA_4afb-a1-m2-cA Crystal Structure of subtype-switched Epithelial Adhesin 1 to 3 A domain (Epa1to3A) from Candida glabrata in complex with glycerol Q6VBJ0 Q6VBJ0 1.9 X-RAY DIFFRACTION 36 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 227 227 4a3x-a2-m1-cA_4a3x-a2-m2-cA 4af9-a1-m1-cA_4af9-a1-m2-cA 6y9j-a1-m1-cA_6y9j-a1-m2-cA SKDPTTFPLGCSPDITTPKKGLSMELYSYDFRKKGSYPCWDAAYLDPNYPRTGYKSHRLLAKVDGVTGNINFYYHATKGCTPQLGHLPASYNYPKPLTMTNFTMLLYGYFRPKVTGFHTFTISADDLLFVNFGAGNAFDCCRRDSSADHFGNYQAYAIWGSKTAKDELTVHLDAGVYYPIRLFYNNIGKDGALSFTFKTESNENTVSDFSEYFFSLDDTEEGCPGLI SKDPTTFPLGCSPDITTPKKGLSMELYSYDFRKKGSYPCWDAAYLDPNYPRTGYKSHRLLAKVDGVTGNINFYYHATKGCTPQLGHLPASYNYPKPLTMTNFTMLLYGYFRPKVTGFHTFTISADDLLFVNFGAGNAFDCCRRDSSADHFGNYQAYAIWGSKTAKDELTVHLDAGVYYPIRLFYNNIGKDGALSFTFKTESNENTVSDFSEYFFSLDDTEEGCPGLI 4afi-a1-m1-cB_4afi-a1-m1-cA Complex between Vamp7 longin domain and fragment of delta-adaptin from AP3 P70280 P70280 2.8 X-RAY DIFFRACTION 168 1.0 10090 (Mus musculus) 10090 (Mus musculus) 152 155 GVEHIPVVQIDLSVPLKVPGLPMSDQYVKLEEAMAILFAVVARGTTILAKHAWCGGNFLEVTEQILAKIPSENNKLTYSHGNYLFHYICQDRIVYLCITDDDFERSRAFSFLNEVKKRFQTTYGSRAQTALPYAMNSEFSSVLAAQLKHHSE TPGVEHIPVVQIDLSVPLKVPGLPMSDQYVKLEEAMAILFAVVARGTTILAKHAWCGGNFLEVTEQILAKIPSENNKLTYSHGNYLFHYICQDRIVYLCITDDDFERSRAFSFLNEVKKRFQTTYGSRAQTALPYAMNSEFSSVLAAQLKHHSEN 4afl-a3-m1-cD_4afl-a3-m1-cE The crystal structure of the ING4 dimerization domain reveals the functional organization of the ING family of chromatin binding proteins. Q9UNL4 Q9UNL4 2.275 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 96 4afl-a1-m1-cA_4afl-a1-m1-cC YLEHYLDSIENLPFELQRNFQLRDLDQRTEDLKAEIDKLATEYSLSSEEKLALLKQIQEAYGKCKEFGDDKVQLAQTYEVDKHIRRLDTD GYLEHYLDSIENLPFELQRNFQLRDLDQRTEDLKAEIDKLATEYSSARSLSSEEKLALLKQIQEAYGKCKEFGDDKVQLAQTYEVDKHIRRLDTDL 4afm-a1-m1-cA_4afm-a1-m2-cA Structural and biochemical characterization of a novel Carbohydrate Binding Module of endoglucanase Cel5A from Eubacterium cellulosolvens. Q3LHN3 Q3LHN3 1.25 X-RAY DIFFRACTION 49 1.0 29322 ([Eubacterium] cellulosolvens) 29322 ([Eubacterium] cellulosolvens) 125 125 GDIVLFSGSKHVEFTDWGGTDWPSAYELQPPYQTPFDLNKNFEIKVDYSGADIVLIFARWEHGSKPQIWAQISPYYVVDGTAVFTKEQIAKAYGSDDFSDLDYIGVKPLPSADGTVTKIVASYTS GDIVLFSGSKHVEFTDWGGTDWPSAYELQPPYQTPFDLNKNFEIKVDYSGADIVLIFARWEHGSKPQIWAQISPYYVVDGTAVFTKEQIAKAYGSDDFSDLDYIGVKPLPSADGTVTKIVASYTS 4ag6-a1-m1-cD_4ag6-a1-m1-cA Structure of VirB4 of Thermoanaerobacter pseudethanolicus B0KAW2 B0KAW2 2.35 X-RAY DIFFRACTION 67 0.995 496866 (Thermoanaerobacter pseudethanolicus) 496866 (Thermoanaerobacter pseudethanolicus) 188 367 4ag5-a1-m1-cD_4ag5-a1-m1-cA 4ag5-a2-m1-cC_4ag5-a2-m1-cB 4ag6-a2-m1-cC_4ag6-a2-m1-cB GKSFTAKLLLREYQGIIIDINCTGGENPLQVFQSPLALHIQTLRTFFSLYLRDLTDTEKAALEDALVEVYKEAGITWDTDPRGVPKWPTVKELYEYCVKKAEENPETYGRLSVLLKRAAEGADSYLWAGPFDVHDLQQVKRAQYFNVLSFAWNILERDVLVVDEATPQAIAFLRDTSKRIRGSLIVIS SGINDGSGIVLGKDRDGGLVLVDIWKRGGDRTNSNWTILAKPGAGKSFTAKLLLREYQGSRVIIIDPEREYKECRKLGGVWINCTGGEGKINPLQVRLRPQSPLALHIQTLRTFFSLYLRDLTDTEKAALEDALVEVYKEAGITWDTDPRGVPNDKWPTVKELYEYCVKKAEENPETYGRLSVLLKRAAEGADSYLWAGPTAVEADSDFIVFDVHDLQNAEDQVKRAQYFNVLSFAWNILERDRRERTVLVVDEAWLVDPQTPQAIAFLRDTSKRIRKYNGSLIVISQNVIDFLAPEVQRYGQALLDNPTYKLLLAQGEKDLEAITTLNLSEAEHDLLVNAKRGEGLFVAGTQRIHIKIEAAPYEQY 4ag7-a1-m1-cB_4ag7-a1-m1-cA C. elegans glucosamine-6-phosphate N-acetyltransferase (GNA1): coenzyme A adduct Q17427 Q17427 1.55 X-RAY DIFFRACTION 175 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 164 165 4ag9-a1-m1-cA_4ag9-a1-m1-cB SHIFDASVLAPHIPSNLPDNFKVRPLAKDDFSKGYVDLLSQLTSVGNLDQEAFEKRFEAMRTSVPNYHIVVIEDSNSQKVVASASLVVEMKFIHGAGSRGRVEDVVVDTEMRRQKLGAVLLKTLVSLGKSLGVYKISLECVPELLPFYSQFGFQDDCNFMTQRF MSHIFDASVLAPHIPSNLPDNFKVRPLAKDDFSKGYVDLLSQLTSVGNLDQEAFEKRFEAMRTSVPNYHIVVIEDSNSQKVVASASLVVEMKFIHGAGSRGRVEDVVVDTEMRRQKLGAVLLKTLVSLGKSLGVYKISLECVPELLPFYSQFGFQDDCNFMTQRF 4agi-a2-m1-cA_4agi-a2-m1-cB Crystal Structure of Fucose binding lectin from Aspergillus Fumigatus (AFL) in complex with seleno fucoside. Q4WW81 Q4WW81 1.6 X-RAY DIFFRACTION 67 1.0 312 312 4agi-a1-m1-cC_4agi-a1-m1-cD 4agt-a1-m1-cA_4agt-a1-m1-cB 4aha-a1-m1-cA_4aha-a1-m1-cB 4c1y-a1-m1-cA_4c1y-a1-m1-cB 4c1y-a2-m1-cC_4c1y-a2-m1-cD 4d4u-a1-m1-cA_4d4u-a1-m1-cB STPGAQQVLFRTGIAAVNSTNHLRVYFQDVYGSIRESLYEGSWANGTEKNVIGNAKLGSPVAATSKELKHIRVYTLTEGNTLQEFAYDSGTGWYNGGLGGAKFQVAPYSIAAVFLAGTDALQLRIYAQKPDNTIQEYMWNGDGWKEGTNLGGALPGTGIGATSFRYTDYNGPSIRIWFQTDDLKLVQRAYDPHKGWYPDLVTIFDRAPPRTAIAATSFGAGNSSIYMRIYFVNSDNTIWQVWDHGKGYHDKGTITPVIQGSEVAIISWGSFANNGPDLRLYFQNGTYISAVSEWVWNRAHGSQLGRSALPPA STPGAQQVLFRTGIAAVNSTNHLRVYFQDVYGSIRESLYEGSWANGTEKNVIGNAKLGSPVAATSKELKHIRVYTLTEGNTLQEFAYDSGTGWYNGGLGGAKFQVAPYSIAAVFLAGTDALQLRIYAQKPDNTIQEYMWNGDGWKEGTNLGGALPGTGIGATSFRYTDYNGPSIRIWFQTDDLKLVQRAYDPHKGWYPDLVTIFDRAPPRTAIAATSFGAGNSSIYMRIYFVNSDNTIWQVWDHGKGYHDKGTITPVIQGSEVAIISWGSFANNGPDLRLYFQNGTYISAVSEWVWNRAHGSQLGRSALPPA 4agr-a1-m1-cA_4agr-a1-m1-cC Structure of a tetrameric galectin from Cinachyrella sp. (Ball sponge) I0IV54 I0IV54 2.1 X-RAY DIFFRACTION 48 1.0 76781 (Cinachyrella) 76781 (Cinachyrella) 140 144 4agg-a1-m1-cA_4agg-a1-m2-cA 4agg-a1-m1-cB_4agg-a1-m2-cB 4agr-a1-m1-cB_4agr-a1-m1-cD 4agv-a1-m1-cA_4agv-a1-m1-cC 4agv-a1-m1-cB_4agv-a1-m1-cD PIQSIKVDPMKSGGLGVVYRSPDKGRVSLYLYNDGEDILLVVDARFDWRGEQNVLVLNSKFWGPEVRPEGFPFPCCGYVTTITVRVEIGADGFTLSANGIEIVKYPYRDGLPPPVTKFQYVFQDQGASETAQLESLSAYY PIQSIKVDPMKSGGLGVVYRSPDKGRVSLYLYNDGEDILLVVDARFDWRGEQNVLVLNSKFAGGEWGPEVRPEGFPFPCCGYVTTITVRVEIGADGFTLSANGIEIVKYPYRDGLPPPVTKFQYVFQDQGASETAQLESLSAYY 4agr-a1-m1-cC_4agr-a1-m1-cD Structure of a tetrameric galectin from Cinachyrella sp. (Ball sponge) I0IV54 I0IV54 2.1 X-RAY DIFFRACTION 56 1.0 76781 (Cinachyrella) 76781 (Cinachyrella) 144 144 4agg-a1-m1-cA_4agg-a1-m1-cB 4agg-a1-m2-cA_4agg-a1-m2-cB 4agr-a1-m1-cA_4agr-a1-m1-cB 4agv-a1-m1-cA_4agv-a1-m1-cB 4agv-a1-m1-cC_4agv-a1-m1-cD PIQSIKVDPMKSGGLGVVYRSPDKGRVSLYLYNDGEDILLVVDARFDWRGEQNVLVLNSKFAGGEWGPEVRPEGFPFPCCGYVTTITVRVEIGADGFTLSANGIEIVKYPYRDGLPPPVTKFQYVFQDQGASETAQLESLSAYY PIQSIKVDPMKSGGLGVVYRSPDKGRVSLYLYNDGEDILLVVDARFDWRGEQNVLVLNSKFAGGEWGPEVRPEGFPFPCCGYVTTITVRVEIGADGFTLSANGIEIVKYPYRDGLPPPVTKFQYVFQDQGASETAQLESLSAYY 4ags-a1-m1-cA_4ags-a1-m1-cC Leishmania TDR1 - a unique trimeric glutathione transferase A4I8P2 A4I8P2 2.3 X-RAY DIFFRACTION 54 0.993 5671 (Leishmania infantum) 5671 (Leishmania infantum) 430 430 4ags-a1-m1-cB_4ags-a1-m1-cA 4ags-a1-m1-cB_4ags-a1-m1-cC RALKLYVSATCPFCHRVEIVAREKQVSYDRVAVGLREEPQWYKQINPRETVPTLEVGNADKRFFESLIAQYLDNSGAPAGALGSSAAQRHQIEFFLAQVGDFIGAAHGLLRDPLSGEKRKADDNAAYVDGLLAANQTTGPYYCDGEFTADVALVPFLVRLKPALYYAGYDVFCKAPRKALWAAAAQRASVRETSPTAAQCIENYRHLVPESAPGANGGHVLYSNLFCPFVDRARLASELRKFQHIVEVPLHPQPEWYKYINPRDTVPALFTPSGEAVHESQLIVQYIDCVATKGSALVPRGDAEKEYEVGFFVENAGYFVGGLSWIIRGGEDAKAELQWAAGELEQQLAKHPFGEGPFFGGKRNAGDVAILPFLVRAKAFPEFSGGYDLFAHFPLLNGLAEAGATPEAKSVFRTLEEYKEHIRKRQRRAQ ARALKLYVSATCPFCHRVEIVAREKQVSYDRVAVGLREEPQWYKQINPRETVPTLEVGKRFFESLIAQYLDNSGAPAGALGSSAAQRHQIEFFLAQVGDFIGAAHGLLRDPLSGEKRKADDNAAYVDGLLAANQTTGPYYCDGEFTADVALVPFLVRLKPALYYAGYDVFCKAPRKALWAAAAQRASVRETSPTAAQCIENYRHLVPESAPGANGGHVLYSNLFCPFVDRARLASELRKFQHIVEVPLHPQPEWYKYINPRDTVPALFTPSGEAVHESQLIVQYIDCVATKGSALVPRGDAEKEYEVGFFVENAGYFVGGLSWIIRGGEDAKAELQWAAGELEQQLAKHPFGEGPFFGGKRNAGDVAILPFLVRAKAFPEFSGGYDLFAHFPLLNGLAEAGATPEAKSVFRTLEEYKEHIRKRQRRAQSG 4ah6-a2-m1-cC_4ah6-a2-m1-cD Human mitochondrial aspartyl-tRNA synthetase Q6PI48 Q6PI48 3.7 X-RAY DIFFRACTION 344 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 589 589 4ah6-a1-m1-cA_4ah6-a1-m1-cB PEFSSFVVRTNTCGELRSSHLGQEVTLCGWIQYRRQNTFLVLRDFDGLVQVIIPQDESAASVKKILCEAPVESVVQVSGTVISRPAGQENPKMPTGEIEIKVKTAELLNACKKLPFEIKNFVKKTEALRLQYRYLDLRSFQMQYNLRLRSQMVMKMREYLCNLHGFVDIETPTLFKRTPGGAKEFLVPSREPGKFYSLPQSPQQFKQLLMVGGLDRYFQVARCYRDEGSRPDRQPEFTQIDIEMSFVDQTGIQSLIEGLLQYSWPNDKDPVVVPFPTMTFAEVLATYGTDKPDTRFGMKIIDISDVFRNTEIGFLQDALSKPHGTVKAICIPEGAKYLKRKDIESIRNFAADHFNQEILPVFLNANRNWNSPVANFIMESQRLELIRLMETQEEDVVLLTAGEHNKACSLLGKLRLECADLLETRGVVLRDPTLFSFLWVVDFPLFLPKEENPRELESAHHPFTAPHPSDIHLLYTEPKKARSQHYDLVLNGNEIGGGSIRIHNAELQRYILATLLKEDVKMLSHLLQALDYGAPPHGGIALGLDRLICLVTGSPSIRDVIAFPKSFRGHDLMSNTPDSVPPEELKPYH PEFSSFVVRTNTCGELRSSHLGQEVTLCGWIQYRRQNTFLVLRDFDGLVQVIIPQDESAASVKKILCEAPVESVVQVSGTVISRPAGQENPKMPTGEIEIKVKTAELLNACKKLPFEIKNFVKKTEALRLQYRYLDLRSFQMQYNLRLRSQMVMKMREYLCNLHGFVDIETPTLFKRTPGGAKEFLVPSREPGKFYSLPQSPQQFKQLLMVGGLDRYFQVARCYRDEGSRPDRQPEFTQIDIEMSFVDQTGIQSLIEGLLQYSWPNDKDPVVVPFPTMTFAEVLATYGTDKPDTRFGMKIIDISDVFRNTEIGFLQDALSKPHGTVKAICIPEGAKYLKRKDIESIRNFAADHFNQEILPVFLNANRNWNSPVANFIMESQRLELIRLMETQEEDVVLLTAGEHNKACSLLGKLRLECADLLETRGVVLRDPTLFSFLWVVDFPLFLPKEENPRELESAHHPFTAPHPSDIHLLYTEPKKARSQHYDLVLNGNEIGGGSIRIHNAELQRYILATLLKEDVKMLSHLLQALDYGAPPHGGIALGLDRLICLVTGSPSIRDVIAFPKSFRGHDLMSNTPDSVPPEELKPYH 4ahq-a1-m1-cC_4ahq-a1-m1-cA Crystal Structure of N-acetylneuraminic acid lyase mutant K165C from Staphylococcus aureus Q2G160 Q2G160 1.95 X-RAY DIFFRACTION 71 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 292 293 4ah7-a1-m1-cC_4ah7-a1-m1-cA 4ah7-a1-m1-cD_4ah7-a1-m1-cB 4aho-a1-m1-cA_4aho-a1-m1-cC 4aho-a1-m1-cD_4aho-a1-m1-cB 4ahp-a1-m1-cA_4ahp-a1-m1-cC 4ahp-a1-m1-cD_4ahp-a1-m1-cB 4ahq-a1-m1-cD_4ahq-a1-m1-cB 4ama-a1-m1-cA_4ama-a1-m1-cC 4ama-a1-m1-cD_4ama-a1-m1-cB 5a8g-a1-m1-cA_5a8g-a1-m1-cB 5a8g-a1-m2-cA_5a8g-a1-m2-cB 5kzd-a1-m1-cA_5kzd-a1-m1-cB 5kzd-a1-m1-cC_5kzd-a1-m1-cD 5kze-a1-m1-cA_5kze-a1-m1-cB 5kze-a1-m1-cF_5kze-a1-m1-cH 5kze-a2-m1-cC_5kze-a2-m1-cD 5kze-a2-m1-cE_5kze-a2-m1-cG 5lky-a1-m1-cA_5lky-a1-m1-cC 5lky-a1-m1-cB_5lky-a1-m1-cD NKDLKGLYAALLVPFDENGQVNEQGLKQIAQNAIETEELDGLYVNGSSGENFLLNTEQKKQVFKVAKEAVGDKVKLIAQVGSLDLNEAIELGKYATELGYDALSAVTPFYYPFTFEEIRDYYFDIIEATQNNMIIYAIPDLTGVNISIEQFSELFNHEKIVGVCYTAPNFFLLERIRKAFPDKLILSGFDEMLVQATISGVDGAIGSTYNVNGRRARKIFDLARQGQIQEAYQLQHDSNDIIETVLSMGIYPTLKEILRHRGIDAGLPKRPFKPFNEAHRQTLDQLIAKYDL HNKDLKGLYAALLVPFDENGQVNEQGLKQIAQNAIETEELDGLYVNGSSGENFLLNTEQKKQVFKVAKEAVGDKVKLIAQVGSLDLNEAIELGKYATELGYDALSAVTPFYYPFTFEEIRDYYFDIIEATQNNMIIYAIPDLTGVNISIEQFSELFNHEKIVGVCYTAPNFFLLERIRKAFPDKLILSGFDEMLVQATISGVDGAIGSTYNVNGRRARKIFDLARQGQIQEAYQLQHDSNDIIETVLSMGIYPTLKEILRHRGIDAGLPKRPFKPFNEAHRQTLDQLIAKYDL 4ahq-a1-m1-cC_4ahq-a1-m1-cB Crystal Structure of N-acetylneuraminic acid lyase mutant K165C from Staphylococcus aureus Q2G160 Q2G160 1.95 X-RAY DIFFRACTION 81 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 292 293 4ah7-a1-m1-cC_4ah7-a1-m1-cB 4ah7-a1-m1-cD_4ah7-a1-m1-cA 4aho-a1-m1-cC_4aho-a1-m1-cB 4aho-a1-m1-cD_4aho-a1-m1-cA 4ahp-a1-m1-cB_4ahp-a1-m1-cC 4ahp-a1-m1-cD_4ahp-a1-m1-cA 4ahq-a1-m1-cD_4ahq-a1-m1-cA 4ama-a1-m1-cB_4ama-a1-m1-cC 4ama-a1-m1-cD_4ama-a1-m1-cA 5a8g-a1-m1-cA_5a8g-a1-m2-cA 5a8g-a1-m1-cB_5a8g-a1-m2-cB 5kzd-a1-m1-cA_5kzd-a1-m1-cC 5kzd-a1-m1-cB_5kzd-a1-m1-cD 5kze-a1-m1-cA_5kze-a1-m1-cH 5kze-a1-m1-cB_5kze-a1-m1-cF 5kze-a2-m1-cC_5kze-a2-m1-cG 5kze-a2-m1-cD_5kze-a2-m1-cE 5lky-a1-m1-cA_5lky-a1-m1-cD 5lky-a1-m1-cB_5lky-a1-m1-cC NKDLKGLYAALLVPFDENGQVNEQGLKQIAQNAIETEELDGLYVNGSSGENFLLNTEQKKQVFKVAKEAVGDKVKLIAQVGSLDLNEAIELGKYATELGYDALSAVTPFYYPFTFEEIRDYYFDIIEATQNNMIIYAIPDLTGVNISIEQFSELFNHEKIVGVCYTAPNFFLLERIRKAFPDKLILSGFDEMLVQATISGVDGAIGSTYNVNGRRARKIFDLARQGQIQEAYQLQHDSNDIIETVLSMGIYPTLKEILRHRGIDAGLPKRPFKPFNEAHRQTLDQLIAKYDL HNKDLKGLYAALLVPFDENGQVNEQGLKQIAQNAIETEELDGLYVNGSSGENFLLNTEQKKQVFKVAKEAVGDKVKLIAQVGSLDLNEAIELGKYATELGYDALSAVTPFYYPFTFEEIRDYYFDIIEATQNNMIIYAIPDLTGVNISIEQFSELFNHEKIVGVCYTAPNFFLLERIRKAFPDKLILSGFDEMLVQATISGVDGAIGSTYNVNGRRARKIFDLARQGQIQEAYQLQHDSNDIIETVLSMGIYPTLKEILRHRGIDAGLPKRPFKPFNEAHRQTLDQLIAKYDL 4aib-a2-m1-cC_4aib-a2-m1-cD Crystal Structure of Ornithine Decarboxylase from Entamoeba histolytica. Q58P26 Q58P26 2.87 X-RAY DIFFRACTION 75 0.994 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 323 325 4aib-a1-m1-cB_4aib-a1-m1-cA SLEVKEFALNLISQFEPENQPLGFWIFDTEGVEKAVERWKKNMPTVRPCFAVKCNPEPHLVKLLGELGCGFDCASLNEIKEVLDLGFNPEDITYSQTFKPYNQLIEASHLGINHTIVDSIDEVQKIAKYAPKMGIMIRIMDEVEIVLKEIKDKGLNLDGVHFHVSEVFTKALTKARNTVTLAEQFGMKPYLIDIGGGFSAPFEEFAATIEKTIKELEFPERTRFIAEPGRYMASNAFHLVSSLHGKRVRIQNGKKQIEYTSGKSCECITQKVNENTKMYESIIYGDKVATQELPEMEPGKDWLLFPNMGAYTIHVIYTLPLKS SLEVKEFALNLISQFEPENQPLGFWIFDTEGVEKAVERWKKNMPTVRPCFAVKCNPEPHLVKLLGELGCGFDCASLNEIKEVLDLGFNPEDITYSQTFKPYNQLIEASHLGINHTIVDSIDEVQKIAKYAPKMGIMIRIMDEVEIVLKEIKDKGLNLDGVHFHVSEVFTKALTKARNTVTLAEQFGMKPYLIDIGGGFSAPFEEFAATIEKTIKELEFPERTRFIAEPGRYMASNAFHLVSSLHGKRVRIQNGKKQIEYTSGFEKQKSCECITQKVNENTKMYESIIYGDKVATQELPEMEPGKDWLLFPNMGAYTIHVIYTLPL 4aid-a3-m6-cC_4aid-a3-m7-cC Crystal structure of C. crescentus PNPase bound to RNase E recognition peptide Q9AC32 Q9AC32 2.6 X-RAY DIFFRACTION 113 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 539 539 4aid-a1-m1-cA_4aid-a1-m2-cA 4aid-a1-m1-cA_4aid-a1-m3-cA 4aid-a1-m2-cA_4aid-a1-m3-cA 4aid-a2-m1-cB_4aid-a2-m4-cB 4aid-a2-m1-cB_4aid-a2-m5-cB 4aid-a2-m4-cB_4aid-a2-m5-cB 4aid-a3-m1-cC_4aid-a3-m6-cC 4aid-a3-m1-cC_4aid-a3-m7-cC 4aim-a1-m1-cA_4aim-a1-m2-cA 4aim-a1-m1-cA_4aim-a1-m3-cA 4aim-a1-m2-cA_4aim-a1-m3-cA 4am3-a1-m1-cB_4am3-a1-m1-cA 4am3-a1-m1-cB_4am3-a1-m1-cC 4am3-a1-m1-cC_4am3-a1-m1-cA DPMFDIKRKTIEWGGKTLVLETGRIARQADGAVLATMGETVVLATAVFAKSQKPGQDFFPLTVNYQEKTFAAGKIPGGFFKREGRPSEKETLVSRLIDRPIRPLFVKGFKNEVQVVVTVLQHDLENDPDILGMVAASAALCLSGAPFMGPIGAARVGWVDGAYVLNPTLDEMKESKMDLVVAGTADAVMMVESEIQELSEEIVLGGVNFAHQQMQAVIDAIIDLAEHAAKEPFAFEPEDTDAIKAKMKDLVGADIAAAYKIQKKQDRYEAVGAAKKKAIAAIFKELEADVVRRGILDTGLRIDGRDVKTVRPILGEVGILPRTHGSALFTRGETQAIVVATLGTGDDEQFIDALEGTYKESFLLHYNFPPYSVGETGRMGSPGRREIGHGKLAWRALRPMLPTKEDFPYTIRLVSEITESNGSSSMATVCGSSLAMMDAGVPLVRPVSGIAMGLILEQDGFAVLSDILGDEDHLGDMDFKVAGTSEGLTSLQMDIKIAGITPAIMEQALAQAKEGRAHILGEMNKAMDAPRADVGDFAP DPMFDIKRKTIEWGGKTLVLETGRIARQADGAVLATMGETVVLATAVFAKSQKPGQDFFPLTVNYQEKTFAAGKIPGGFFKREGRPSEKETLVSRLIDRPIRPLFVKGFKNEVQVVVTVLQHDLENDPDILGMVAASAALCLSGAPFMGPIGAARVGWVDGAYVLNPTLDEMKESKMDLVVAGTADAVMMVESEIQELSEEIVLGGVNFAHQQMQAVIDAIIDLAEHAAKEPFAFEPEDTDAIKAKMKDLVGADIAAAYKIQKKQDRYEAVGAAKKKAIAAIFKELEADVVRRGILDTGLRIDGRDVKTVRPILGEVGILPRTHGSALFTRGETQAIVVATLGTGDDEQFIDALEGTYKESFLLHYNFPPYSVGETGRMGSPGRREIGHGKLAWRALRPMLPTKEDFPYTIRLVSEITESNGSSSMATVCGSSLAMMDAGVPLVRPVSGIAMGLILEQDGFAVLSDILGDEDHLGDMDFKVAGTSEGLTSLQMDIKIAGITPAIMEQALAQAKEGRAHILGEMNKAMDAPRADVGDFAP 4aig-a1-m1-cA_4aig-a1-m2-cA ADAMALYSIN II WITH PHOSPHONATE INHIBITOR P34179 P34179 2 X-RAY DIFFRACTION 38 1.0 8729 (Crotalus adamanteus) 8729 (Crotalus adamanteus) 201 201 1iag-a1-m1-cA_1iag-a1-m2-cA 2aig-a1-m1-cP_2aig-a1-m2-cP 3aig-a1-m1-cA_3aig-a1-m2-cA NLPQRYIELVVVADRRVFMKYNSDLNIIRTRVHEIVNIINEFYRSLNIRVSLTDLEIWSGQDFITIQSSSSNTLNSFGEWRERVLLTRKRHDNAQLLTAINFEGKIIGKAYTSSMCNPRSSVGIVKDHSPINLLVAVTMAHELGHNLGMEHDGKDCLRGASLCIMRPGLTPGRSYEFSDDSMGYYQKFLNQYKPQCILNKP NLPQRYIELVVVADRRVFMKYNSDLNIIRTRVHEIVNIINEFYRSLNIRVSLTDLEIWSGQDFITIQSSSSNTLNSFGEWRERVLLTRKRHDNAQLLTAINFEGKIIGKAYTSSMCNPRSSVGIVKDHSPINLLVAVTMAHELGHNLGMEHDGKDCLRGASLCIMRPGLTPGRSYEFSDDSMGYYQKFLNQYKPQCILNKP 4aik-a1-m1-cA_4aik-a1-m1-cB Crystal structure of RovA from Yersinia in complex with an invasin promoter fragment B1JJ73 B1JJ73 1.85 X-RAY DIFFRACTION 127 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 139 142 4aih-a1-m1-cB_4aih-a1-m1-cA 4aih-a2-m1-cC_4aih-a2-m1-cD 4aih-a3-m1-cF_4aih-a3-m1-cE 4aij-a1-m1-cA_4aij-a1-m1-cB STLGSDLARLVRVWRALIDHRLKPLELTQTHWVTLYNINRLPPEQSQIQLAKAIGIEQPSLVRTLDQLEEKGLITRHTSANDRRAKRIKLTEQSSPIIEQVDGVISSTRKEILGGISSDEIAVLSGLIDKLEKNIIQLQ ESTLGSDLARLVRVWRALIDHRLKPLELTQTHWVTLYNINRLPPEQSQIQLAKAIGIEQPSLVRTLDQLEEKGLITRHTSANDRRAKRIKLTEQSSPIIEQVDGVISSTRKEILGGISSDEIAVLSGLIDKLEKNIIQLQTK 4aip-a1-m1-cB_4aip-a1-m1-cC The FrpB iron transporter from Neisseria meningitidis (F3-3 variant) Q51162 Q51162 2.4 X-RAY DIFFRACTION 46 0.991 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 665 665 4aip-a1-m1-cA_4aip-a1-m1-cB 4aip-a1-m1-cA_4aip-a1-m1-cC GDRQGSKIRTNIVTLQQKDESTATDMRELLKEEPSIDFGGGNGTSQFLTLRGMGQNSVDIKVDNAYSDSQILYHQGRFIVDPALVKVVSVQKGAGSASAGIGATNGAIIAKTVDAQDLLKGLDKNWGVRLNSGFASNNGVSYGASVFGKEGNFDGLFSYNRNDEKDYEAGKGFRNVNGGKTVPYSALDKRSYLAKIGTTFGDDDHRIVLSHMKDQHRGIRTVREEFTVGDKSSRINIDRQAPAYRETTQSNTNLAYTGKNLGFVEKLDANAYVLEKERYSADDSGTGYAGNVKGPNHTRITTRGANFNFDSRLAEQTLLKYGINYRHQEIKPQAFLNSKFSEQQMKDRADEDTVHAYKLSNPTKTDTGVYIEAIHDIGDFTLTGGLRYDRFKVKTHDGKTVSSSNLNPSFGVIWQPHEHWSFSASHNYASRSPRLYDALQTHGKRGIISIADGTKAERARNTEIGFNYNDGTFAANGSYFWQTIKDALANPQNRSVAVREAVNAGYIKNHGYELGASYRTGGLTAKVGVSHSKPRFYDTHKDKLLSANPEFGAQVGRTWTASLAYRFQNPNLEIGWRGRYVQKATGSILAAGQKDRKGNLENVVRKGFGVNDVFANWKPLGKDTLNVNLSVNNVFNKFYYPHSQRWTNTLPGVGRDVRLGVNYKF DRQGSKIRTNIVTLQQKDESTATDMRELLKEEPSIDFGGGNGTSQFLTLRGMGQNSVDIKVDNAYSDSQILYHQGRFIVDPALVKVVSVQKGAGSASAGIGATNGAIIAKTVDAQDLLKGLDKNWGVRLNSGFASNNGVSYGASVFGKEGNFDGLFSYNRNDEKDYEAGKGFRNVNGGKTVPYSALDKRSYLAKIGTTFGDDDHRIVLSHMKDQHRGIRTVREEFTVGDKSSRINIDRQAPAYRETTQSNTNLAYTGKNLGFVEKLDANAYVLEKERYSADDSGTGYAGNVKGPNHTRITTRGANFNFDSRLAEQTLLKYGINYRHQEIKPQAFLNSKFSIPTTPMEQQMKDRADEDTVHAYKLSNPTKTDTGVYIEAIHDIGDFTLTGGLRYDRFKVKTHDGKTVSSSNLNPSFGVIWQPHEHWSFSASHNYASRSPRLYDALQTHGKRGIISIADGTKAERARNTEIGFNYNDGTFAANGSYFWQTIKDALANPQVREAVNAGYIKNHGYELGASYRTGGLTAKVGVSHSKPRFYDTHKDKLLSANPEFGAQVGRTWTASLAYRFQNPNLEIGWRGRYVQKATGSILAAGQKDRKGNLENVVRKGFGVNDVFANWKPLGKDTLNVNLSVNNVFNKFYYPHSQRWTNTLPGVGRDVRLGVNYKF 4aiy-a1-m1-cF_4aiy-a1-m1-cL R6 HUMAN INSULIN HEXAMER (SYMMETRIC), NMR, 'GREEN' SUBSTATE, AVERAGE STRUCTURE P01308 P01308 NOT SOLUTION NMR 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 4aiy-a1-m1-cB_4aiy-a1-m1-cH 4aiy-a1-m1-cD_4aiy-a1-m1-cJ FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 4aiz-a1-m1-cB_4aiz-a1-m1-cD Crystallographic structure of 3mJL2 from the germinal line lambda 3 Q5NV90 Q5NV90 1.75 X-RAY DIFFRACTION 19 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 ELMQPPSVSVSPGQTARITCSGDALPKQYAYWYQQKPGQAPVLVIYKDSERPSGIPERFSGSSSGTTVTLTISGVQAEDEADYYCQSADSSGTYVVFGGGTKLVVL ELMQPPSVSVSPGQTARITCSGDALPKQYAYWYQQKPGQAPVLVIYKDSERPSGIPERFSGSSSGTTVTLTISGVQAEDEADYYCQSADSSGTYVVFGGGTKLTVL 4aiz-a1-m1-cD_4aiz-a1-m1-cA Crystallographic structure of 3mJL2 from the germinal line lambda 3 Q5NV90 Q5NV90 1.75 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 107 4aiz-a1-m1-cB_4aiz-a1-m1-cC ELMQPPSVSVSPGQTARITCSGDALPKQYAYWYQQKPGQAPVLVIYKDSERPSGIPERFSGSSSGTTVTLTISGVQAEDEADYYCQSADSSGTYVVFGGGTKLTVL YELMQPPSVSVSPGQTARITCSGDALPKQYAYWYQQKPGQAPVLVIYKDSERPSGIPERFSGSSSGTTVTLTISGVQAEDEADYYCQSADSSGTYVVFGGGTKLTVL 4aiz-a1-m1-cD_4aiz-a1-m1-cC Crystallographic structure of 3mJL2 from the germinal line lambda 3 Q5NV90 Q5NV90 1.75 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 107 4aiz-a1-m1-cB_4aiz-a1-m1-cA ELMQPPSVSVSPGQTARITCSGDALPKQYAYWYQQKPGQAPVLVIYKDSERPSGIPERFSGSSSGTTVTLTISGVQAEDEADYYCQSADSSGTYVVFGGGTKLTVL YELMQPPSVSVSPGQTARITCSGDALPKQYAYWYQQKPGQAPVLVIYKDSERPSGIPERFSGSSSGTTVTLTISGVQAEDEADYYCQSADSSGTYVVFGGGTKLTVL 4aj0-a2-m1-cD_4aj0-a2-m1-cB Crystallographic structure of an amyloidogenic variant, 3rCW, of the germinal line lambda 3 1.7 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 107 4aj0-a1-m1-cA_4aj0-a1-m1-cC YELTQPPSVSVSPGQTASITCSGDKLGDKYAYWYQQKPGQSPVLVIYQDSKRPSGIPERFSGSNSGNTATLTISGTQAMDEADYYCQAADSSTAVVFGGGTKLTVL SYELTQPPSVSVSPGQTASITCSGDKLGDKYAYWYQQKPGQSPVLVIYQDSKRPSGIPERFSGSNSGNTATLTISGTQAMDEADYYCQAADSSTAVVFGGGTKLTVL 4aj5-a1-m1-c1_4aj5-a1-m1-cU Crystal structure of the Ska core complex Q8IX90 Q8IX90 3.32 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 100 4aj5-a1-m1-c4_4aj5-a1-m1-cW 4aj5-a1-m1-cV_4aj5-a1-m1-cY 4aj5-a1-m1-cX_4aj5-a1-m1-c2 4aj5-a1-m1-cZ_4aj5-a1-m1-c3 DPIRSFCGKLRSLASTLDCETARLQRALDGEESDFEDYPMRILYDLHSEVQTLKDDINILLDKARLENQEGIDFIKATKVLMEKNSMDIMKIREYFQKY MDPIRSFCGKLRSLASTLDCETARLQRALDGEESDFEDYPMRILYDLHSEVQTLKDDINILLDKARLENQEGIDFIKATKVLMEKNSMDIMKIREYFQKY 4aj5-a1-m1-cC_4aj5-a1-m1-cG Crystal structure of the Ska core complex Q96BD8 Q96BD8 3.32 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 86 4aj5-a1-m1-cE_4aj5-a1-m1-cJ 4aj5-a1-m1-cH_4aj5-a1-m1-cD 4aj5-a1-m1-cI_4aj5-a1-m1-cB SSDLEQLCSHVNEKIGNIKKTLSLRNCGQEPTLKTVLNKIGDEIIVINELLNKLELEIQYQEQTNNSLKELCESLEEDY SSDLEQLCSHVNEKIGNIKKTLSLRNCGQEPTLKTVLNKIGDEIIVINELLNKLELEIQYQEQTNNSLKELCESLEEDYKDIEHLK 4aj5-a1-m1-cP_4aj5-a1-m1-cL Crystal structure of the Ska core complex Q8WVK7 Q8WVK7 3.32 X-RAY DIFFRACTION 18 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 105 106 4aj5-a1-m1-cK_4aj5-a1-m1-cT 4aj5-a1-m1-cR_4aj5-a1-m1-cO 4aj5-a1-m1-cS_4aj5-a1-m1-cM HMEAEVDKLELMFQKAESDLDYIQYRLEYEIKTNHNPVTLLKELSVIKSRYQTLYARFKPVAVEQKESKSRICATVKKTMNMIQKLQKQTDLSPLTKEEKTAAEQ HMEAEVDKLELMFQKAESDLDYIQYRLEYEIKTNNPVTLLKELSVIKSRYQTLYARFKPVAVEQKESKSRICATVKKTMNMIQKLQKQTDLELSPLTKEEKTAAEQ 4aj5-a1-m1-cS_4aj5-a1-m1-cT Crystal structure of the Ska core complex Q8WVK7 Q8WVK7 3.32 X-RAY DIFFRACTION 17 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 107 110 4aj5-a1-m1-cK_4aj5-a1-m1-cM 4aj5-a1-m1-cL_4aj5-a1-m1-cR 4aj5-a1-m1-cL_4aj5-a1-m1-cS 4aj5-a1-m1-cN_4aj5-a1-m1-cK 4aj5-a1-m1-cN_4aj5-a1-m1-cO 4aj5-a1-m1-cP_4aj5-a1-m1-cM 4aj5-a1-m1-cP_4aj5-a1-m1-cO 4aj5-a1-m1-cQ_4aj5-a1-m1-cR 4aj5-a1-m1-cQ_4aj5-a1-m1-cT GHMEAEVDKLELMFQKAESDLDYIQYRLEYEIKTNHPVTLLKELSVIKSRYQTLYARFKPVAVEQKESKSRICATVKKTMNMIQKLQKQTDLELSPLTKEEKTAAEQ HMEAEVDKLELMFQKAESDLDYIQYRLEYEIKTNHNPVTLLKELSVIKSRYQTLYARFKPVAVEQKESKSRICATVKKTMNMIQKLQKQTDLELSPLTKEEKTAAEQFKF 4ak1-a1-m1-cA_4ak1-a1-m6-cA Structure of BT4661, a SusE-like surface located polysaccharide binding protein from the Bacteroides thetaiotaomicron heparin utilisation locus Q89YS0 Q89YS0 1.95 X-RAY DIFFRACTION 63 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 600 600 4ak1-a1-m2-cA_4ak1-a1-m4-cA 4ak1-a1-m3-cA_4ak1-a1-m5-cA FTIYYTGMTDIGPSMTGVISSPTYKGGTPYDFAITRITLDGEPFSDSIFAIDSETGKITLNSTSNTPVGLYKLSVACYSNNNRYEYTDIVEINMMKPVPDGIKTTEGNHISISNYTIASAMNIQPGKYILSFKLTTAATGEDPEKGIFENALEINVRPLIYTPDEGKIEEEGERSPETTFQSNIPANTDKITIDPTTGVLSVAAHHGFKDGEKSVKAVFENVFTLNTVEFIEPIANFGYADVNDVQAVEIDINKNENFKGDEVKYEFVNLPTDLQGELALDLDGNIAIKKGNKIPVGQYTVQVMATNTKGSETATFTLTITANPNYFTYFRYGNNLGLTPIENYADQFRIEAGGKLNSVKPVPTATDAKDGLSSLKWEVELKHNPNNTKATINESTGQITITGLKQGQCGMVMVTATAGEGKTAVSVKQPVFFHFSMISDSNVQLEYTPFVFQVNPARGGESIAPSLGAGIDKSTFRLDYRRDFFYYNIAGPDSHISGALAQKVDNFLSEMWNSYDATAGTSRKPMSYFENTTNLSKALGYIDQTDFKVHINPNLWRNKDGYANGAMIGQITYDVTGKDPQAATSGARVSPIFIWFDTKF FTIYYTGMTDIGPSMTGVISSPTYKGGTPYDFAITRITLDGEPFSDSIFAIDSETGKITLNSTSNTPVGLYKLSVACYSNNNRYEYTDIVEINMMKPVPDGIKTTEGNHISISNYTIASAMNIQPGKYILSFKLTTAATGEDPEKGIFENALEINVRPLIYTPDEGKIEEEGERSPETTFQSNIPANTDKITIDPTTGVLSVAAHHGFKDGEKSVKAVFENVFTLNTVEFIEPIANFGYADVNDVQAVEIDINKNENFKGDEVKYEFVNLPTDLQGELALDLDGNIAIKKGNKIPVGQYTVQVMATNTKGSETATFTLTITANPNYFTYFRYGNNLGLTPIENYADQFRIEAGGKLNSVKPVPTATDAKDGLSSLKWEVELKHNPNNTKATINESTGQITITGLKQGQCGMVMVTATAGEGKTAVSVKQPVFFHFSMISDSNVQLEYTPFVFQVNPARGGESIAPSLGAGIDKSTFRLDYRRDFFYYNIAGPDSHISGALAQKVDNFLSEMWNSYDATAGTSRKPMSYFENTTNLSKALGYIDQTDFKVHINPNLWRNKDGYANGAMIGQITYDVTGKDPQAATSGARVSPIFIWFDTKF 4ak1-a1-m3-cA_4ak1-a1-m6-cA Structure of BT4661, a SusE-like surface located polysaccharide binding protein from the Bacteroides thetaiotaomicron heparin utilisation locus Q89YS0 Q89YS0 1.95 X-RAY DIFFRACTION 86 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 600 600 4ak1-a1-m1-cA_4ak1-a1-m2-cA 4ak1-a1-m4-cA_4ak1-a1-m5-cA FTIYYTGMTDIGPSMTGVISSPTYKGGTPYDFAITRITLDGEPFSDSIFAIDSETGKITLNSTSNTPVGLYKLSVACYSNNNRYEYTDIVEINMMKPVPDGIKTTEGNHISISNYTIASAMNIQPGKYILSFKLTTAATGEDPEKGIFENALEINVRPLIYTPDEGKIEEEGERSPETTFQSNIPANTDKITIDPTTGVLSVAAHHGFKDGEKSVKAVFENVFTLNTVEFIEPIANFGYADVNDVQAVEIDINKNENFKGDEVKYEFVNLPTDLQGELALDLDGNIAIKKGNKIPVGQYTVQVMATNTKGSETATFTLTITANPNYFTYFRYGNNLGLTPIENYADQFRIEAGGKLNSVKPVPTATDAKDGLSSLKWEVELKHNPNNTKATINESTGQITITGLKQGQCGMVMVTATAGEGKTAVSVKQPVFFHFSMISDSNVQLEYTPFVFQVNPARGGESIAPSLGAGIDKSTFRLDYRRDFFYYNIAGPDSHISGALAQKVDNFLSEMWNSYDATAGTSRKPMSYFENTTNLSKALGYIDQTDFKVHINPNLWRNKDGYANGAMIGQITYDVTGKDPQAATSGARVSPIFIWFDTKF FTIYYTGMTDIGPSMTGVISSPTYKGGTPYDFAITRITLDGEPFSDSIFAIDSETGKITLNSTSNTPVGLYKLSVACYSNNNRYEYTDIVEINMMKPVPDGIKTTEGNHISISNYTIASAMNIQPGKYILSFKLTTAATGEDPEKGIFENALEINVRPLIYTPDEGKIEEEGERSPETTFQSNIPANTDKITIDPTTGVLSVAAHHGFKDGEKSVKAVFENVFTLNTVEFIEPIANFGYADVNDVQAVEIDINKNENFKGDEVKYEFVNLPTDLQGELALDLDGNIAIKKGNKIPVGQYTVQVMATNTKGSETATFTLTITANPNYFTYFRYGNNLGLTPIENYADQFRIEAGGKLNSVKPVPTATDAKDGLSSLKWEVELKHNPNNTKATINESTGQITITGLKQGQCGMVMVTATAGEGKTAVSVKQPVFFHFSMISDSNVQLEYTPFVFQVNPARGGESIAPSLGAGIDKSTFRLDYRRDFFYYNIAGPDSHISGALAQKVDNFLSEMWNSYDATAGTSRKPMSYFENTTNLSKALGYIDQTDFKVHINPNLWRNKDGYANGAMIGQITYDVTGKDPQAATSGARVSPIFIWFDTKF 4ak5-a1-m1-cB_4ak5-a1-m1-cA Native crystal structure of BpGH117 B5CY74 B5CY74 1.7 X-RAY DIFFRACTION 272 1.0 310297 (Phocaeicola plebeius) 310297 (Phocaeicola plebeius) 369 370 4ak6-a1-m1-cB_4ak6-a1-m1-cA 4ak7-a1-m1-cA_4ak7-a1-m1-cB YDERKADSLGIPKGNKLSAAMKRAMKWENHDNKWFFEYKMEPLKGDLAYEEGVVRRDPSAMLKIGDTYYVWYSKSYGPTQGFAGDIEKDKVFPWDRCDIWYATSKDGLTWKEQGIAVKRGEKGAYDDRSVFTPEVMEWKGKYYLCYQAVKSPYTVRVKNTIGMACADSPEGLWTKTDKPVLEPSDTGEWEGDEDNRFKVVSKGDFDSHKVHDPCIIPYNGKFYMYYKGERMGEEITWGGREIKHGVAIAENPMGPYVKSEYNPISNSGHEVCVWPYKGGIASLITTDGPEKNTLQWSPDGINFEIMSVVKGAPHAIGLNRSADAEKEPTEILRWGLTHIYNSSDYQSIMRFSTWTLQTHTAKGESKERK NYDERKADSLGIPKGNKLSAAMKRAMKWENHDNKWFFEYKMEPLKGDLAYEEGVVRRDPSAMLKIGDTYYVWYSKSYGPTQGFAGDIEKDKVFPWDRCDIWYATSKDGLTWKEQGIAVKRGEKGAYDDRSVFTPEVMEWKGKYYLCYQAVKSPYTVRVKNTIGMACADSPEGLWTKTDKPVLEPSDTGEWEGDEDNRFKVVSKGDFDSHKVHDPCIIPYNGKFYMYYKGERMGEEITWGGREIKHGVAIAENPMGPYVKSEYNPISNSGHEVCVWPYKGGIASLITTDGPEKNTLQWSPDGINFEIMSVVKGAPHAIGLNRSADAEKEPTEILRWGLTHIYNSSDYQSIMRFSTWTLQTHTAKGESKERK 4ak9-a1-m1-cB_4ak9-a1-m1-cA Structure of chloroplast FtsY from Physcomitrella patens 1.8 X-RAY DIFFRACTION 48 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 297 302 PDIQLLFSGFSKTRENLAVVDELLTYWNLDESESILDELEEVLLVSDFGPKTALKIVDTIRKDILAGRLKSGPQIKEALKKNIFKLLTERVTTTELQLGNSRPAVLMIVGVGGKTTTLGKLANRFKKEGVKVLMAAGDTAAAGEQLEVWAQRTGSEIVMAPRPAAVLSQAVRRAVEEDFDVVLCDTSGRLHTNYNLMEELRGCKRAVSKALSSAPNEVLLVLDGTTGLNMLAQAREFNQVIGVTGFILTKLDGTARGGCVVSVVDELSIPVKFVGVGEGIDDLQPFDAQSFVDALFP SQDPDIQLLFSGFSKTRENLAVVDELLTYWNLDESESILDELEEVLLVSDFGPKTALKIVDTIRKDILAGRLKSGPQIKEALKKNIFKLLTERVTTTELQLGNSRPAVLMIVGVNGGGKTTTLGKLANRFKKEGVKVLMAAGDTAAAGEQLEVWAQRTGSEIVMAPRPAAVLSQAVRRAVEEDFDVVLCDTSGRLHTNYNLMEELRGCKRAVSKALSSAPNEVLLVLDGTTGLNMLAQAREFNQVIGVTGFILTKLDGTARGGCVVSVVDELSIPVKFVGVGEGIDDLQPFDAQSFVDALFP 4akf-a1-m1-cA_4akf-a1-m2-cA Crystal structure of VipD from Legionella pneumophila Q5ZRP9 Q5ZRP9 2.9 X-RAY DIFFRACTION 141 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 560 560 GSMKLAEIMTKSRKLKRNLLEISKTEAGQYSVSAPEHKGLVLSGGGAKGISYLGMIQALQERGKIKNLTHVSGASAGAMTASILAVGMDIKDIKKLIEGLDITKLLDNSGVGFRARGDRFRNILDVIYMMQMKKHLESVQQPIPPEQQMNYGILKQKIALYEDKLSRAGIVINNVDDIINLTKSVKDLEKLDKALNSIPTELKGAKGEQLENPRLTLGDLGRLRELLPEENKHLIKNLSVVVTNQTKHELERYSEDTTPQQSIAQVVQWSGAHPVLFVPGRNAKGEYIADGGILDNMPEIEGLDREEVLCVKAEAGTAFEDRVNKAKQSAMEAISWFKARMDSLVEATIGGKWLHATSSVLNREKVYYNIDNMIYINTGEVTTTNTSPTPEQRARAVKNGYDQTMQLLDSHKQTFDHPLMAILYIGHDKLKDALIDEKSEKEIFEASAHAQAILHLQEQIVKEMNDGDYSSVQNYLDQIEDILTVDAKMDDIQKEKAFALCIKQVNFLSEGKLETYLNKVEAEAKAAAEPSWATKILNLLWAPIEWVVSLFKGPAQDFKV GSMKLAEIMTKSRKLKRNLLEISKTEAGQYSVSAPEHKGLVLSGGGAKGISYLGMIQALQERGKIKNLTHVSGASAGAMTASILAVGMDIKDIKKLIEGLDITKLLDNSGVGFRARGDRFRNILDVIYMMQMKKHLESVQQPIPPEQQMNYGILKQKIALYEDKLSRAGIVINNVDDIINLTKSVKDLEKLDKALNSIPTELKGAKGEQLENPRLTLGDLGRLRELLPEENKHLIKNLSVVVTNQTKHELERYSEDTTPQQSIAQVVQWSGAHPVLFVPGRNAKGEYIADGGILDNMPEIEGLDREEVLCVKAEAGTAFEDRVNKAKQSAMEAISWFKARMDSLVEATIGGKWLHATSSVLNREKVYYNIDNMIYINTGEVTTTNTSPTPEQRARAVKNGYDQTMQLLDSHKQTFDHPLMAILYIGHDKLKDALIDEKSEKEIFEASAHAQAILHLQEQIVKEMNDGDYSSVQNYLDQIEDILTVDAKMDDIQKEKAFALCIKQVNFLSEGKLETYLNKVEAEAKAAAEPSWATKILNLLWAPIEWVVSLFKGPAQDFKV 4akg-a1-m1-cA_4akg-a1-m1-cB Dynein Motor Domain - ATP complex P36022 P36022 3.3 X-RAY DIFFRACTION 23 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 2650 2650 1b8x-a2-m1-cA_1b8x-a2-m2-cA 1bg5-a1-m1-cA_1bg5-a1-m2-cA 1dug-a1-m1-cA_1dug-a1-m1-cB 1gne-a1-m1-cA_1gne-a1-m2-cA 1gta-a1-m1-cA_1gta-a1-m2-cA 1gtb-a1-m1-cA_1gtb-a1-m2-cA 1m99-a1-m1-cA_1m99-a1-m2-cA 1m9a-a1-m1-cA_1m9a-a1-m2-cA 1m9b-a1-m1-cA_1m9b-a1-m2-cA 1u87-a1-m1-cA_1u87-a1-m2-cA 1u88-a1-m1-cA_1u88-a1-m1-cB 1ua5-a1-m1-cA_1ua5-a1-m2-cA 1y6e-a1-m1-cA_1y6e-a1-m1-cB 3crt-a1-m1-cA_3crt-a1-m2-cA 3cru-a1-m1-cA_3cru-a1-m2-cA 3d0z-a1-m1-cA_3d0z-a1-m2-cA 4ai6-a1-m1-cA_4ai6-a1-m1-cB 4aki-a1-m1-cA_4aki-a1-m1-cB 4ecb-a1-m1-cB_4ecb-a1-m1-cA 4ecc-a1-m1-cA_4ecc-a1-m2-cA 4wr4-a1-m1-cA_4wr4-a1-m2-cA 4wr5-a1-m1-cA_4wr5-a1-m2-cA 5gzz-a1-m1-cB_5gzz-a1-m1-cC 5gzz-a2-m1-cD_5gzz-a2-m1-cE 5gzz-a3-m1-cF_5gzz-a3-m1-cG 6ji6-a1-m1-cA_6ji6-a1-m2-cA 6n8u-a1-m2-cB_6n8u-a1-m1-cA 6rwd-a1-m1-cA_6rwd-a1-m1-cB SPILGYWKIKGLVQPTRLLLEYLEEKYEEHLYERDEGDKWRNKKFELGLEFPNLPYYIDGDVKLTQSMAIIRYIADKHNMLGGCPKERAEISMLEGAVLDIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTHPDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIAWPLQGWQATFGGGDHPPFVIEKSLNRIKKFWKEAQYEVIEHSSGLKLVREWDVLEQACKEDLEELVSMKASNYYKIFEQDCLDLESKLTKLSEIQVNWVEVQFYWLDLYGILGENLDIQNFLPLETSKFKSLTSEYKMITTRAFQLDTTIEVIHIPNFDTTLKLTIDSLKMIKSSLSTFLERQRRQFPRFYFLGNDDLLKIIGSGKHHDQVSKFMKKMFGSIESIIFLEDFITGVRSVEGEVLNLNEKIELKDSIQAQEWLNILDTEIKLSVFTQFRDCLGQIKDGTDIEVVVSKYIFQAILLSAQVMWTELVEKCLQTNQFSKYWKEVDMKIKGLLDKLNKSSDNVKKKIEALLVEYLHFNNVIGQLKNCSTKEEARLLWAKVQKFYQKNDTLDDLNSVFISQSGYLLQYKFEYIGIPERLIYTPLLLIGFATLTDSLHQKYGGCFFGPAGTGKTETVKAFGQNLGRVVVVFNCDDSFDYQVLSRLLVGITQIGAWGCFDEFNRLDEKVLSAVSANIQQIQNGLQVGKSHITLLEEETPLSPHTAVFITLNPGYNGRSELPENLKKSFREFSMKSPQSGTIAEMILQIMGFEDSKSLASKIVHFLELLSSKCSSMNHYHFGLRTLKGVLRNCSPLISEFGEGEKTVVESLKRVILPSLGDTDELVFKDELSKIFDSAGTPLNSKAIVQCLKDAGQRSGFSMSEEFLKKCMQFYYMQKTQQALILVGKAGCGKTATWKTVIDAMAIFDGHANVVYVIDTKVLTKESLYGSMLKATLEWRDGLFTSILRRVNDDITGTFKNSRIWVVFDSDLDPEYVEAMNSVLDDNKILTLPNGERLPIPPNFRILFETDNLDHTTPATITRCGLLWFSTDVCSISSKIDHLLNKSYEALDNKLSMFELDKLKDLISDSFDMASLTNIFTCSNDLVHILGVRTFNKLETAVQLAVHLISSYRQWFQNLDDKSLKDVITLLIKRSLLYALAGDSTGESQRAFIQTINTYFGHDSQELSDYSTIVIANDKLSFSSFCSEIPSVSLEAHEVMRPDIVIPTIDTIKHEKIFYDLLNSKRGIILCGPPGSGKTMIMNNALRNSSLYDVVGINFSKDTTTEHILSALHRHTNYVTTSKGLTLLPKSDIKNLVLFCDEINLPKLDKYGSQNVVLFLRQLMEKQGFWKTPENKWVTIERIHIVGACNPPTDPGRIPMSERFTRHAAILYLGYPSGKSLSQIYEIYYKAIFKLVPEFRSYTEPFARASVHLYNECKARYSTGLQSHYLFSPRELTRLVRGVYTAINTGPRQTLRSLIRLWAYEAWRIFADRLVGVKEKNSFEQLLYETVDKYLPNQDLGNISSTSLLFSGLLSLDFKEVNKTDLVNFIEERFKTFCDEELEVPMVIHESMVDHILRIDRALKQVQGHMMLIGASRTGKTILTRFVAWLNGLKIVQPKIHRHSNLSDFDMILKKAISDCSLKESRTCLIIDESNILETAFLERMNTLLANADIPDLFQGEEYDKLLNNLRNKTRSLGLLLDTEQELYDWFVGEIAKNLHVVFTICDPTNNKSSAMISSPALFNRCIINWMGDWDTKTMSQVANNMVDVIPMEFTDFTIRDAVVNILIHFDRNFYQKMKVGVNPRSPGYFIDGLRALVKLVTAKYQDLQENQRFVNVGLEKLNESVKSLTFEKERWLNTTKQFSKTSQELIGNCIISSIYETYFGHLNERERADMLVILKRLLGKFAVKYDVNYRFIDYLVTLDEKMKWLECGLDKNDYFLENMSIVMNSQDAVPFLLDPSSHMITVISNYYGNKTVLLSFLEEGFVKRLENAIRFGSVVIIQDGEFFDPIISRLISREFNHAGNRVTVEIGDHEVDVSGDFKLFIHSCDPSGDIPIFLRSRVRLVHFVTNKESIETRIFDITLTEENAEMQRKREDLIKLNTEYKLKLKNLEKRLLEELNNSQGNMLENDELMVTLNNLKKEAMNIEKKLSESEEFFPQFDNLVEEYSIIGKHSVKIFSMLEKFGQFHWFYGISIGQFLSCFKRVFITRVDEILWLLYQEVYCQFSTALDKKFKMIMAMTMFCLYKFDIESEQYKEAVLTMIGVLSESSDGVPKLTVDTNNDLRYLWDYVTTKSYISALNWFKNEFFVDEWNIADVVANSDNNYFTMASERDVDGTFKLIELAKASKESLKIIPLGSIENLNYAQEEISKSKIEGGWILLQNIQMSLSWVKTYLHKHVEETKAAEEHEKFKMFMTCHLTGDKLPAPLLQRTDRFVYEDIPGILDTVKDLWGSQFFTGKISGVWSVYCTFLLSWFHALITARTRLVPHGFSKKYYFNDCDFQFASVYLENVLATNSTNNIPWAQVRDHIATIVYGGKIDEEKDLEVVAKLCAHVFCGSDNLQIVPGVRIPQPLLQQSEEEERARLTAILSNTIEPADSLSSWLQLPRESILNYERLQAKEVASSTEQLLQEM SPILGYWKIKGLVQPTRLLLEYLEEKYEEHLYERDEGDKWRNKKFELGLEFPNLPYYIDGDVKLTQSMAIIRYIADKHNMLGGCPKERAEISMLEGAVLDIRYGVSRIAYSKDFETLKVDFLSKLPEMLKMFEDRLCHKTYLNGDHVTHPDFMLYDALDVVLYMDPMCLDAFPKLVCFKKRIEAIPQIDKYLKSSKYIAWPLQGWQATFGGGDHPPFVIEKSLNRIKKFWKEAQYEVIEHSSGLKLVREWDVLEQACKEDLEELVSMKASNYYKIFEQDCLDLESKLTKLSEIQVNWVEVQFYWLDLYGILGENLDIQNFLPLETSKFKSLTSEYKMITTRAFQLDTTIEVIHIPNFDTTLKLTIDSLKMIKSSLSTFLERQRRQFPRFYFLGNDDLLKIIGSGKHHDQVSKFMKKMFGSIESIIFLEDFITGVRSVEGEVLNLNEKIELKDSIQAQEWLNILDTEIKLSVFTQFRDCLGQIKDGTDIEVVVSKYIFQAILLSAQVMWTELVEKCLQTNQFSKYWKEVDMKIKGLLDKLNKSSDNVKKKIEALLVEYLHFNNVIGQLKNCSTKEEARLLWAKVQKFYQKNDTLDDLNSVFISQSGYLLQYKFEYIGIPERLIYTPLLLIGFATLTDSLHQKYGGCFFGPAGTGKTETVKAFGQNLGRVVVVFNCDDSFDYQVLSRLLVGITQIGAWGCFDEFNRLDEKVLSAVSANIQQIQNGLQVGKSHITLLEEETPLSPHTAVFITLNPGYNGRSELPENLKKSFREFSMKSPQSGTIAEMILQIMGFEDSKSLASKIVHFLELLSSKCSSMNHYHFGLRTLKGVLRNCSPLISEFGEGEKTVVESLKRVILPSLGDTDELVFKDELSKIFDSAGTPLNSKAIVQCLKDAGQRSGFSMSEEFLKKCMQFYYMQKTQQALILVGKAGCGKTATWKTVIDAMAIFDGHANVVYVIDTKVLTKESLYGSMLKATLEWRDGLFTSILRRVNDDITGTFKNSRIWVVFDSDLDPEYVEAMNSVLDDNKILTLPNGERLPIPPNFRILFETDNLDHTTPATITRCGLLWFSTDVCSISSKIDHLLNKSYEALDNKLSMFELDKLKDLISDSFDMASLTNIFTCSNDLVHILGVRTFNKLETAVQLAVHLISSYRQWFQNLDDKSLKDVITLLIKRSLLYALAGDSTGESQRAFIQTINTYFGHDSQELSDYSTIVIANDKLSFSSFCSEIPSVSLEAHEVMRPDIVIPTIDTIKHEKIFYDLLNSKRGIILCGPPGSGKTMIMNNALRNSSLYDVVGINFSKDTTTEHILSALHRHTNYVTTSKGLTLLPKSDIKNLVLFCDEINLPKLDKYGSQNVVLFLRQLMEKQGFWKTPENKWVTIERIHIVGACNPPTDPGRIPMSERFTRHAAILYLGYPSGKSLSQIYEIYYKAIFKLVPEFRSYTEPFARASVHLYNECKARYSTGLQSHYLFSPRELTRLVRGVYTAINTGPRQTLRSLIRLWAYEAWRIFADRLVGVKEKNSFEQLLYETVDKYLPNQDLGNISSTSLLFSGLLSLDFKEVNKTDLVNFIEERFKTFCDEELEVPMVIHESMVDHILRIDRALKQVQGHMMLIGASRTGKTILTRFVAWLNGLKIVQPKIHRHSNLSDFDMILKKAISDCSLKESRTCLIIDESNILETAFLERMNTLLANADIPDLFQGEEYDKLLNNLRNKTRSLGLLLDTEQELYDWFVGEIAKNLHVVFTICDPTNNKSSAMISSPALFNRCIINWMGDWDTKTMSQVANNMVDVIPMEFTDFTIRDAVVNILIHFDRNFYQKMKVGVNPRSPGYFIDGLRALVKLVTAKYQDLQENQRFVNVGLEKLNESVKSLTFEKERWLNTTKQFSKTSQELIGNCIISSIYETYFGHLNERERADMLVILKRLLGKFAVKYDVNYRFIDYLVTLDEKMKWLECGLDKNDYFLENMSIVMNSQDAVPFLLDPSSHMITVISNYYGNKTVLLSFLEEGFVKRLENAIRFGSVVIIQDGEFFDPIISRLISREFNHAGNRVTVEIGDHEVDVSGDFKLFIHSCDPSGDIPIFLRSRVRLVHFVTNKESIETRIFDITLTEENAEMQRKREDLIKLNTEYKLKLKNLEKRLLEELNNSQGNMLENDELMVTLNNLKKEAMNIEKKLSESEEFFPQFDNLVEEYSIIGKHSVKIFSMLEKFGQFHWFYGISIGQFLSCFKRVFITRVDEILWLLYQEVYCQFSTALDKKFKMIMAMTMFCLYKFDIESEQYKEAVLTMIGVLSESSDGVPKLTVDTNNDLRYLWDYVTTKSYISALNWFKNEFFVDEWNIADVVANSDNNYFTMASERDVDGTFKLIELAKASKESLKIIPLGSIENLNYAQEEISKSKIEGGWILLQNIQMSLSWVKTYLHKHVEETKAAEEHEKFKMFMTCHLTGDKLPAPLLQRTDRFVYEDIPGILDTVKDLWGSQFFTGKISGVWSVYCTFLLSWFHALITARTRLVPHGFSKKYYFNDCDFQFASVYLENVLATNSTNNIPWAQVRDHIATIVYGGKIDEEKDLEVVAKLCAHVFCGSDNLQIVPGVRIPQPLLQQSEEEERARLTAILSNTIEPADSLSSWLQLPRESILNYERLQAKEVASSTEQLLQEM 4akk-a1-m1-cB_4akk-a1-m1-cA Structure of the NasR transcription antiterminator Q48468 Q48468 2.145 X-RAY DIFFRACTION 137 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 367 368 PEVVDWFARARRLQKQQLHQLAQQGTLAGQISALVHMLQCERGASNIWLCSGGRLYAAECRAGAALVDEQLTRFYAALEPARDAASSALCWRIACAVWYLPQLAALRKRVRDREIAAEEATGQFSRIIRHLLNIVPQLNDSIDDPQIAGRMVALYSFMQGKELAGQERALGALGFARGQFSDELRQQLVDRIDGQQPCFDSFQALAQPPQTALFAEQCQASLEIEQLRRVACTRQPPADEGETALRWFCAQTQRLEQLRGVEELLIVDLLNAADALLEGSIALRLDKQLLPLVRQQAHELQQLSGQLASLKDALEERKLIEKAKSVLMTYQGMQEEQAWQALRKMAMDKNQRMVEIARALLTVKALW PEVVDWFARARRLQKQQLHQLAQQGTLAGQISALVHMLQCERGASNIWLCSGGRLYAAECRAGAALVDEQLTRFYAALEPARDAASSALCWRIACAVWYLPQLAALRKRVRDREIAAEEATGQFSRIIRHLLNIVPQLNDSIDDPQIAGRMVALYSFMQGKELAGQERALGALGFARGQFSDELRQQLVDRIDGQQPCFDSFQALAQPPQTALFAEQCQASLEIEQLRRVACTRQPPADEGETALRWFCAQTQRLEQLRGVEELLIVDLLNAADALLEGSIALRLDKQLLPLVRQQAHELQQLSGQLASLKDALEERKLIEKAKSVLMTYQGMQEEQAWQALRKMAMDKNQRMVEIARALLTVKALWR 4akv-a1-m1-cA_4akv-a1-m1-cB Crystal structure of human sorting nexin 33 (SNX33) Q8WV41 Q8WV41 2.651 X-RAY DIFFRACTION 154 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 345 349 MYSIEMGPRGPQWKANPHPFACSVEDPISYKLTPTHAASPVYRRYKHFDWLYNRLLHKFTVISVPHLPEKQEDFIEKRKRRLILWMDHMTSHPVLSQYEGFQHFLSCLDDKQWKMGKRRAEKDEMVGASFLLTFQIPTEHQDLQDVEDRVDTFKAFSKKMDDSVLQLSTVASELVRKHVGGFRKEFQKLGSAFQAISHSFQMDPPFCSEALNSAISHTGRTYEAIGEMFAEQPKNDLFQMLDTLSLYQGLLSNFPDIIHLQKGAFAKVKESQRMSDEGRMVQDEADGIRRRCRVVGFALQAEMNHFHQRRELDFKHMMQNYLRQQILFYQRVGQQLEKTLRMYDN YFQSMYSIEMGPRGPQWKANPHPFACSVEDSYISYKLTPTHAASPVYRRYKHFDWLYNRLLHKFTVISVPHLPEKQDFIEKRKRRLILWMDHMTSHPVLSQYEGFQHFLSCLDDKQWKMGKRRAEKDEMVGASFLLTFQIPTEHQDLQDVEDRVDTFKAFSKKMDDSVLQLSTVASELVRKHVGGFRKEFQKLGSAFQAISHSFQMDPPFCSEALNSAISHTGRTYEAIGEMFAEQPKNDLFQMLDTLSLYQGLLSNFPDIIHLQKGAFAKVKESQRMSDEGRMVQDEADGIRRRCRVVGFALQAEMNHFHQRRELDFKHMMQNYLRQQILFYQRVGQQLEKTLRMYDN 4akx-a1-m1-cA_4akx-a1-m2-cA Structure of the heterodimeric complex ExoU-SpcU from the type III secretion system (T3SS) of Pseudomonas aeruginosa O66100 O66100 2.94 X-RAY DIFFRACTION 73 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 119 IDTWLAQWGLRLPSSNDATLRLQPAEGPELVERLEGGWLFVVELGLVPSGLPLGVILQLLQVNSPFSSLAPVKLAADDAGRLVLWAEARDGVDDVDALNRLHDRLREGHSRLVPLLEPT IDTWLAQWGLRLPSSNDATLRLQPAEGPELVERLEGGWLFVVELGLVPSGLPLGVILQLLQVNSPFSSLAPVKLAADDAGRLVLWAEARDGVDDVDALNRLHDRLREGHSRLVPLLEPT 4alb-a2-m1-cC_4alb-a2-m2-cC Structure of Phenolic Acid Decarboxylase from Bacillus subtilis: Tyr19Ala mutant in complex with coumaric acid O07006 O07006 3.03 X-RAY DIFFRACTION 77 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 158 158 2p8g-a1-m1-cA_2p8g-a1-m2-cA 4alb-a1-m1-cA_4alb-a1-m1-cB NFIGSHMIYTYENGWEAEIYIKNDHTIDYRIHSGMVAGRWVRDQEVNIVKLTEGVYKVSWTEPTGTDVSLNFMPNEKRMHGIIFFPKWVHEHPEITVCYQNDHIDLMKESREKYETYPKYVVPEFAEITFLKNEGVDNEEVISKAPYEGMTDDIRAGR NFIGSHMIYTYENGWEAEIYIKNDHTIDYRIHSGMVAGRWVRDQEVNIVKLTEGVYKVSWTEPTGTDVSLNFMPNEKRMHGIIFFPKWVHEHPEITVCYQNDHIDLMKESREKYETYPKYVVPEFAEITFLKNEGVDNEEVISKAPYEGMTDDIRAGR 4alg-a1-m1-cA_4alg-a1-m2-cA N-Terminal Bromodomain of Human BRD2 With IBET-151 P25440 P25440 1.6 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 PGRVTNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQEEQELVV PGRVTNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQEEQELVV 4aln-a1-m1-cB_4aln-a1-m1-cA Crystal structure of S. aureus FabI (P32) A0A0H3JLH9 A0A0H3JLH9 3.05 X-RAY DIFFRACTION 69 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 220 229 4alm-a1-m1-cC_4alm-a1-m1-cD 4aln-a3-m1-cJ_4aln-a3-m1-cI 4aln-a3-m1-cL_4aln-a3-m1-cK NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFTSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAI NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAI 4aln-a3-m1-cJ_4aln-a3-m1-cK Crystal structure of S. aureus FabI (P32) A0A0H3JLH9 A0A0H3JLH9 3.05 X-RAY DIFFRACTION 104 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 210 218 NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSTSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTVMGVAKASLEANVKYLALDLGPDNIRVNAISANTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFH NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSITSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAI 4aln-a3-m1-cL_4aln-a3-m1-cI Crystal structure of S. aureus FabI (P32) A0A0H3JLH9 A0A0H3JLH9 3.05 X-RAY DIFFRACTION 85 0.995 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 193 214 4aln-a1-m1-cB_4aln-a1-m1-cC 4aln-a1-m1-cD_4aln-a1-m1-cA NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTVMGVAKASLEANVKYLALDLGPDNIRVNAISDQVEVGKTAAYLLSDLSSGVTGENIHVDSGF NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSITSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYNVMGVAKASLEANVKYLALDLGPDNIRVNAISNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAI 4alp-a1-m4-cD_4alp-a1-m2-cB The Lin28b Cold shock domain in complex with hexauridine B4F6I0 B4F6I0 1.48 X-RAY DIFFRACTION 16 1.0 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 84 86 4alp-a1-m1-cC_4alp-a1-m1-cA 4alp-a1-m1-cD_4alp-a1-m1-cB 4alp-a1-m2-cC_4alp-a1-m4-cA VLRGSGHCKWFNVRMGFGFISMTSREGSPLENPVDVFVHQSKLYMEGFRSLKEGEPVEFTFKKSSKGFESLRVTGPGGNPCLGN QVLRGSGHCKWFNVRMGFGFISMTSREGSPLENPVDVFVHQSKLYMEGFRSLKEGEPVEFTFKKSSKGFESLRVTGPGGNPCLGNE 4am5-a1-m8-cA_4am5-a1-m9-cB Bacterioferritin from Blastochloris viridis K7N5M0 K7N5M0 1.58 X-RAY DIFFRACTION 35 1.0 1079 (Blastochloris viridis) 1079 (Blastochloris viridis) 159 159 4am2-a1-m10-cA_4am2-a1-m5-cB 4am2-a1-m10-cA_4am2-a1-m8-cB 4am2-a1-m10-cB_4am2-a1-m4-cA 4am2-a1-m10-cB_4am2-a1-m7-cA 4am2-a1-m11-cA_4am2-a1-m12-cB 4am2-a1-m11-cA_4am2-a1-m9-cB 4am2-a1-m11-cB_4am2-a1-m3-cA 4am2-a1-m12-cA_4am2-a1-m4-cB 4am2-a1-m12-cB_4am2-a1-m2-cA 4am2-a1-m1-cA_4am2-a1-m11-cB 4am2-a1-m1-cA_4am2-a1-m6-cB 4am2-a1-m1-cB_4am2-a1-m12-cA 4am2-a1-m1-cB_4am2-a1-m5-cA 4am2-a1-m2-cA_4am2-a1-m9-cB 4am2-a1-m2-cB_4am2-a1-m4-cA 4am2-a1-m2-cB_4am2-a1-m7-cA 4am2-a1-m3-cA_4am2-a1-m6-cB 4am2-a1-m3-cB_4am2-a1-m8-cA 4am2-a1-m3-cB_4am2-a1-m9-cA 4am2-a1-m4-cB_4am2-a1-m5-cA 4am2-a1-m5-cB_4am2-a1-m6-cA 4am2-a1-m6-cA_4am2-a1-m8-cB 4am2-a1-m7-cB_4am2-a1-m8-cA 4am2-a1-m7-cB_4am2-a1-m9-cA 4am4-a1-m10-cA_4am4-a1-m5-cB 4am4-a1-m10-cA_4am4-a1-m6-cB 4am4-a1-m10-cB_4am4-a1-m4-cA 4am4-a1-m11-cA_4am4-a1-m3-cB 4am4-a1-m11-cB_4am4-a1-m12-cA 4am4-a1-m11-cB_4am4-a1-m9-cA 4am4-a1-m12-cA_4am4-a1-m2-cB 4am4-a1-m12-cB_4am4-a1-m4-cA 4am4-a1-m1-cA_4am4-a1-m10-cB 4am4-a1-m1-cA_4am4-a1-m12-cB 4am4-a1-m1-cB_4am4-a1-m11-cA 4am4-a1-m1-cB_4am4-a1-m6-cA 4am4-a1-m2-cA_4am4-a1-m4-cB 4am4-a1-m2-cA_4am4-a1-m7-cB 4am4-a1-m2-cB_4am4-a1-m9-cA 4am4-a1-m3-cA_4am4-a1-m8-cB 4am4-a1-m3-cA_4am4-a1-m9-cB 4am4-a1-m3-cB_4am4-a1-m6-cA 4am4-a1-m4-cB_4am4-a1-m5-cA 4am4-a1-m5-cA_4am4-a1-m7-cB 4am4-a1-m5-cB_4am4-a1-m8-cA 4am4-a1-m6-cB_4am4-a1-m8-cA 4am4-a1-m7-cA_4am4-a1-m8-cB 4am4-a1-m7-cA_4am4-a1-m9-cB 4am5-a1-m10-cA_4am5-a1-m4-cB 4am5-a1-m10-cA_4am5-a1-m5-cB 4am5-a1-m10-cB_4am5-a1-m6-cA 4am5-a1-m11-cA_4am5-a1-m3-cB 4am5-a1-m11-cB_4am5-a1-m12-cA 4am5-a1-m11-cB_4am5-a1-m7-cA 4am5-a1-m12-cA_4am5-a1-m2-cB 4am5-a1-m12-cB_4am5-a1-m6-cA 4am5-a1-m1-cA_4am5-a1-m10-cB 4am5-a1-m1-cA_4am5-a1-m12-cB 4am5-a1-m1-cB_4am5-a1-m11-cA 4am5-a1-m1-cB_4am5-a1-m4-cA 4am5-a1-m2-cA_4am5-a1-m6-cB 4am5-a1-m2-cA_4am5-a1-m8-cB 4am5-a1-m2-cB_4am5-a1-m7-cA 4am5-a1-m3-cA_4am5-a1-m7-cB 4am5-a1-m3-cA_4am5-a1-m9-cB 4am5-a1-m3-cB_4am5-a1-m4-cA 4am5-a1-m4-cB_4am5-a1-m9-cA 4am5-a1-m5-cA_4am5-a1-m6-cB 4am5-a1-m5-cA_4am5-a1-m8-cB 4am5-a1-m5-cB_4am5-a1-m9-cA 4am5-a1-m7-cB_4am5-a1-m8-cA MKGDQKVIEYLNRGLRSELTAVSQYWLHYRMLEDWGYKDLAKKWRAESIEEMAHADKFVERILFLEGLPNLQTLDPLRIGQTVKEVLESDLAAEREARALYQEGAAYAASVGDFPSKNLFEELMGDEEHHIDFLETQLDLVSKLGLELYAQHHIGKLDD MKGDQKVIEYLNRGLRSELTAVSQYWLHYRMLEDWGYKDLAKKWRAESIEEMAHADKFVERILFLEGLPNLQTLDPLRIGQTVKEVLESDLAAEREARALYQEGAAYAASVGDFPSKNLFEELMGDEEHHIDFLETQLDLVSKLGLELYAQHHIGKLDD 4am5-a1-m8-cB_4am5-a1-m9-cB Bacterioferritin from Blastochloris viridis K7N5M0 K7N5M0 1.58 X-RAY DIFFRACTION 21 1.0 1079 (Blastochloris viridis) 1079 (Blastochloris viridis) 159 159 4am2-a1-m10-cA_4am2-a1-m7-cA 4am2-a1-m10-cA_4am2-a1-m8-cA 4am2-a1-m10-cB_4am2-a1-m4-cB 4am2-a1-m10-cB_4am2-a1-m5-cB 4am2-a1-m11-cA_4am2-a1-m3-cA 4am2-a1-m11-cA_4am2-a1-m9-cA 4am2-a1-m11-cB_4am2-a1-m12-cB 4am2-a1-m12-cA_4am2-a1-m2-cA 4am2-a1-m12-cA_4am2-a1-m4-cA 4am2-a1-m1-cA_4am2-a1-m5-cA 4am2-a1-m1-cA_4am2-a1-m6-cA 4am2-a1-m1-cB_4am2-a1-m11-cB 4am2-a1-m1-cB_4am2-a1-m12-cB 4am2-a1-m2-cA_4am2-a1-m4-cA 4am2-a1-m2-cB_4am2-a1-m7-cB 4am2-a1-m2-cB_4am2-a1-m9-cB 4am2-a1-m3-cA_4am2-a1-m9-cA 4am2-a1-m3-cB_4am2-a1-m6-cB 4am2-a1-m3-cB_4am2-a1-m8-cB 4am2-a1-m4-cB_4am2-a1-m5-cB 4am2-a1-m5-cA_4am2-a1-m6-cA 4am2-a1-m6-cB_4am2-a1-m8-cB 4am2-a1-m7-cA_4am2-a1-m8-cA 4am2-a1-m7-cB_4am2-a1-m9-cB 4am4-a1-m10-cA_4am4-a1-m4-cA 4am4-a1-m10-cA_4am4-a1-m5-cA 4am4-a1-m10-cB_4am4-a1-m6-cB 4am4-a1-m11-cA_4am4-a1-m12-cA 4am4-a1-m11-cB_4am4-a1-m3-cB 4am4-a1-m11-cB_4am4-a1-m9-cB 4am4-a1-m12-cB_4am4-a1-m2-cB 4am4-a1-m12-cB_4am4-a1-m4-cB 4am4-a1-m1-cA_4am4-a1-m11-cA 4am4-a1-m1-cA_4am4-a1-m12-cA 4am4-a1-m1-cB_4am4-a1-m10-cB 4am4-a1-m1-cB_4am4-a1-m6-cB 4am4-a1-m2-cA_4am4-a1-m7-cA 4am4-a1-m2-cA_4am4-a1-m9-cA 4am4-a1-m2-cB_4am4-a1-m4-cB 4am4-a1-m3-cA_4am4-a1-m6-cA 4am4-a1-m3-cA_4am4-a1-m8-cA 4am4-a1-m3-cB_4am4-a1-m9-cB 4am4-a1-m4-cA_4am4-a1-m5-cA 4am4-a1-m5-cB_4am4-a1-m7-cB 4am4-a1-m5-cB_4am4-a1-m8-cB 4am4-a1-m6-cA_4am4-a1-m8-cA 4am4-a1-m7-cA_4am4-a1-m9-cA 4am4-a1-m7-cB_4am4-a1-m8-cB 4am5-a1-m10-cA_4am5-a1-m5-cA 4am5-a1-m10-cA_4am5-a1-m6-cA 4am5-a1-m10-cB_4am5-a1-m4-cB 4am5-a1-m11-cA_4am5-a1-m12-cA 4am5-a1-m11-cB_4am5-a1-m3-cB 4am5-a1-m11-cB_4am5-a1-m7-cB 4am5-a1-m12-cB_4am5-a1-m2-cB 4am5-a1-m12-cB_4am5-a1-m6-cB 4am5-a1-m1-cA_4am5-a1-m11-cA 4am5-a1-m1-cA_4am5-a1-m12-cA 4am5-a1-m1-cB_4am5-a1-m10-cB 4am5-a1-m1-cB_4am5-a1-m4-cB 4am5-a1-m2-cA_4am5-a1-m7-cA 4am5-a1-m2-cA_4am5-a1-m8-cA 4am5-a1-m2-cB_4am5-a1-m6-cB 4am5-a1-m3-cA_4am5-a1-m4-cA 4am5-a1-m3-cA_4am5-a1-m9-cA 4am5-a1-m3-cB_4am5-a1-m7-cB 4am5-a1-m4-cA_4am5-a1-m9-cA 4am5-a1-m5-cA_4am5-a1-m6-cA 4am5-a1-m5-cB_4am5-a1-m8-cB 4am5-a1-m5-cB_4am5-a1-m9-cB 4am5-a1-m7-cA_4am5-a1-m8-cA MKGDQKVIEYLNRGLRSELTAVSQYWLHYRMLEDWGYKDLAKKWRAESIEEMAHADKFVERILFLEGLPNLQTLDPLRIGQTVKEVLESDLAAEREARALYQEGAAYAASVGDFPSKNLFEELMGDEEHHIDFLETQLDLVSKLGLELYAQHHIGKLDD MKGDQKVIEYLNRGLRSELTAVSQYWLHYRMLEDWGYKDLAKKWRAESIEEMAHADKFVERILFLEGLPNLQTLDPLRIGQTVKEVLESDLAAEREARALYQEGAAYAASVGDFPSKNLFEELMGDEEHHIDFLETQLDLVSKLGLELYAQHHIGKLDD 4am5-a1-m9-cA_4am5-a1-m9-cB Bacterioferritin from Blastochloris viridis K7N5M0 K7N5M0 1.58 X-RAY DIFFRACTION 53 1.0 1079 (Blastochloris viridis) 1079 (Blastochloris viridis) 159 159 4am2-a1-m10-cA_4am2-a1-m10-cB 4am2-a1-m11-cA_4am2-a1-m11-cB 4am2-a1-m12-cA_4am2-a1-m12-cB 4am2-a1-m1-cA_4am2-a1-m1-cB 4am2-a1-m2-cA_4am2-a1-m2-cB 4am2-a1-m3-cA_4am2-a1-m3-cB 4am2-a1-m4-cA_4am2-a1-m4-cB 4am2-a1-m5-cA_4am2-a1-m5-cB 4am2-a1-m6-cA_4am2-a1-m6-cB 4am2-a1-m7-cA_4am2-a1-m7-cB 4am2-a1-m8-cA_4am2-a1-m8-cB 4am2-a1-m9-cA_4am2-a1-m9-cB 4am4-a1-m10-cA_4am4-a1-m10-cB 4am4-a1-m11-cA_4am4-a1-m11-cB 4am4-a1-m12-cA_4am4-a1-m12-cB 4am4-a1-m1-cA_4am4-a1-m1-cB 4am4-a1-m2-cA_4am4-a1-m2-cB 4am4-a1-m3-cA_4am4-a1-m3-cB 4am4-a1-m4-cA_4am4-a1-m4-cB 4am4-a1-m5-cA_4am4-a1-m5-cB 4am4-a1-m6-cA_4am4-a1-m6-cB 4am4-a1-m7-cA_4am4-a1-m7-cB 4am4-a1-m8-cA_4am4-a1-m8-cB 4am4-a1-m9-cA_4am4-a1-m9-cB 4am5-a1-m10-cA_4am5-a1-m10-cB 4am5-a1-m11-cA_4am5-a1-m11-cB 4am5-a1-m12-cA_4am5-a1-m12-cB 4am5-a1-m1-cA_4am5-a1-m1-cB 4am5-a1-m2-cA_4am5-a1-m2-cB 4am5-a1-m3-cA_4am5-a1-m3-cB 4am5-a1-m4-cA_4am5-a1-m4-cB 4am5-a1-m5-cA_4am5-a1-m5-cB 4am5-a1-m6-cA_4am5-a1-m6-cB 4am5-a1-m7-cA_4am5-a1-m7-cB 4am5-a1-m8-cA_4am5-a1-m8-cB MKGDQKVIEYLNRGLRSELTAVSQYWLHYRMLEDWGYKDLAKKWRAESIEEMAHADKFVERILFLEGLPNLQTLDPLRIGQTVKEVLESDLAAEREARALYQEGAAYAASVGDFPSKNLFEELMGDEEHHIDFLETQLDLVSKLGLELYAQHHIGKLDD MKGDQKVIEYLNRGLRSELTAVSQYWLHYRMLEDWGYKDLAKKWRAESIEEMAHADKFVERILFLEGLPNLQTLDPLRIGQTVKEVLESDLAAEREARALYQEGAAYAASVGDFPSKNLFEELMGDEEHHIDFLETQLDLVSKLGLELYAQHHIGKLDD 4amb-a1-m1-cA_4amb-a1-m1-cB Crystal structure of the glycosyltransferase SnogD from Streptomyces nogalater Q9RN61 Q9RN61 2.62 X-RAY DIFFRACTION 115 1.0 38314 (Streptomyces nogalater) 38314 (Streptomyces nogalater) 370 373 SMRALFITSPGLSHILPTVPLAQALRALGHEVRYATGGDIRAVAEAGLCAVDVSPGVNYAKLFVPPMHSEGLGEGFFAEMFARVSAVAVDGALRTARSWRPDLVVHTPTQGAGPLTAAALQLPCVELPLGPADSEPGLGALIRRAMSKDYERHGVTGEPTGSVRLTTTPPSVEALLPEDRRSPGAWPMRYVPYNGGAVLPDWLPPAAGRRRIAVTLGSIDALSGGIAKLAPLFSEVADVDAEFVLTLGGGDLALLGELPANVRVVEWIPLGALLETCDAIIHHGGSGTLLTALAAGVPQCVIPHGSYDTNRDVLTGLGIGFDAEAGSLGAEQCRRLLDDAGLREAALRVRQEMSEMPPPAETAAKLVALA QSMRALFITSPGLSHILPTVPLAQALRALGHEVRYATGGDIRAVAEAGLCAVDVSPGVNYAKLFVPPMHSEGLGEGFFAEMFARVSAVAVDGALRTARSWRPDLVVHTPTQGAGPLTAAALQLPCVELPLGPADSEPGLGALIRRAMSKDYERHGVTGEPTGSVRLTTTPPSVEALLPEDRRSPGAWPMRYVPYNGGAVLPDWLPPAAGRRRIAVTLGSIDALSGGIAKLAPLFSEVADVDAEFVLTLGGGDLALLGELPANVRVVEWIPLGALLETCDAIIHHGGSGTLLTALAAGVPQCVIPHGSYQDTNRDVLTGLGIGFDAEAGSLGAEQCRRLLDDAGLREAALRVRQEMSEMPPPAETAAKLVALAG 4amg-a1-m1-cA_4amg-a1-m1-cB Crystal structure of the glycosyltransferase SnogD from Streptomyces nogalater Q9RN61 Q9RN61 2.59 X-RAY DIFFRACTION 121 0.994 38314 (Streptomyces nogalater) 38314 (Streptomyces nogalater) 361 369 4an4-a2-m1-cC_4an4-a2-m1-cD QSMRALFITSPGLSHILPTVPLAQALRALGHEVRYATGGDIRAVAEAGLCAVDVSPGVNYAKLFVPDDGEGFFAEMFARVSAVAVDGALRTARSWRPDLVVHTPTQGAGPLTAAALQLPCVELPLGPADSEPGLGALIRRAMSKDYERHGVTGEPTGSVRLTTTPPSVEALLPEDRRSPGAWPMRYVPYNGGAVLPDWLPPAAGRRRIAVTLGSIDSGGIAKLAPLFSEVADVDAEFVLTLGGGDLALLGELPANVRVVEWIPLGALLETCDAIIHHGGSGTLLTALAAGVPQCVIPHQDTNRDVLTGLGIGFDAEAGSLGAEQCRRLLDDAGLREAALRVRQEMSEMPPPAETAALVALA QSMRALFITSPGLSHILPTVPLAQALRALGHEVRYATGGDIRAVAEAGLCAVDVSPGVNYAKLFVPDDPMHSEGLGEGFFAEMFARVSAVAVDGALRTARSWRPDLVVHTPTQGAGPLTAAALQLPCVELPLGPADSEPGLGALIRRAMSKDYERHGVTGEPTGSVRLTTTPPSVEALLPEDRRSPGAWPMRYVPYNGGAVLPDWLPPAAGRRRIAVTLGSIDALSGGIAKLAPLFSEVADVDAEFVLTLGGGDLALLGELPANVRVVEWIPLGALLETCDAIIHHGGSGTLLTALAAGVPQCVIPHGTNRDVLTGLGIGFDAEAGSLGAEQCRRLLDDAGLREAALRVRQEMSEMPPPAETAALVALA 4amh-a1-m1-cB_4amh-a1-m1-cA Influence of circular permutation on the folding pathway of a PDZ domain Q12959 Q12959 2.3 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 94 KGLGFSIAGGVGNQHWPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVALEEVTHEEAVTALKNTSDFVYLKVAKPGSGEKIMEIKLIK SKGLGFSIAGGVGNQHWPGDNSIYVTKIIEGGAAHKDGKLQIGDKLLAVNNVALEEVTHEEAVTALKNTSDFVYLKVAKPGSGEKIMEIKLIKG 4amt-a1-m1-cA_4amt-a1-m2-cA Crystal structure at 2.6A of human prorenin P00797 P00797 2.6 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 349 349 TTFKRIFLKRMPSIRESLKERGVDMARLGPEILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR TTFKRIFLKRMPSIRESLKERGVDMARLGPEILTNYMDTQYYGEIGIGTPPQTFKVVFDTGSSNVWVPSSKCSRLYTACVYHKLFDASDSSSYKHNGTELTLRYSTGTVSGFLSQDIITVGGITVTQMFGEVTEMPALPFMLAEFDGVVGMGFIEQAIGRVTPIFDNIISQGVLKEDVFSFYYNRDLGGQIVLGGSDPQHYEGNFHYINLIKTGVWQIQMKGVSVGSSTLLCEDGCLALVDTGASYISGSTSSIEKLMEALGAKKRLFDYVVKCNEGPTLPDISFHLGGKEYTLTSADYVFKKLCTLAIHAMDIPPPTGPTWALGATFIRKFYTEFDRRNNRIGFALAR 4amu-a1-m2-cA_4amu-a1-m3-cD Structure of ornithine carbamoyltransferase from Mycoplasma penetrans with a P321 space group Q8EVF5 Q8EVF5 2.5 X-RAY DIFFRACTION 62 1.0 28227 (Malacoplasma penetrans) 28227 (Malacoplasma penetrans) 344 344 4amu-a1-m1-cA_4amu-a1-m2-cD 4amu-a1-m1-cA_4amu-a1-m3-cC 4amu-a1-m1-cB_4amu-a1-m2-cB 4amu-a1-m1-cB_4amu-a1-m3-cB 4amu-a1-m1-cC_4amu-a1-m2-cA 4amu-a1-m1-cC_4amu-a1-m3-cD 4amu-a1-m1-cD_4amu-a1-m2-cC 4amu-a1-m1-cD_4amu-a1-m3-cA 4amu-a1-m2-cB_4amu-a1-m3-cB 4amu-a1-m2-cC_4amu-a1-m3-cA 4amu-a1-m2-cD_4amu-a1-m3-cC 4anf-a1-m1-cA_4anf-a1-m2-cB 4anf-a1-m1-cA_4anf-a1-m3-cC 4anf-a1-m1-cB_4anf-a1-m2-cC 4anf-a1-m1-cB_4anf-a1-m3-cA 4anf-a1-m1-cC_4anf-a1-m2-cA 4anf-a1-m1-cC_4anf-a1-m3-cB 4anf-a1-m1-cD_4anf-a1-m2-cD 4anf-a1-m1-cD_4anf-a1-m3-cD 4anf-a1-m2-cA_4anf-a1-m3-cB 4anf-a1-m2-cB_4anf-a1-m3-cC 4anf-a1-m2-cC_4anf-a1-m3-cA 4anf-a1-m2-cD_4anf-a1-m3-cD KHMPVNLKGRSLDSLLNFTTEEVQHLIDLSIDLKKAKYQGLHINNRPLVGKNIAILFQKDSTRTRCAFEVAASDLGAGVTYIGPSGSNMGKKESIEDTAKVLGRFYDGIEFRGFAQSDVDALVKYSGVPVWNGLTDDEHPTQIIADFMTMKEKFGNLKNKKIVFIGDYKNNVGVSTMIGAAFNGMHVVMCGPDNYKNEIDKNVLAKCIELFKRNGGSLRFSTDKILAAQDADVIYTDVWVSLGEPFELFDKRIGELKNFQVDMNMIKAAKNDVIFLHCLPAFHDDHTSFSKEVATTLGAKYPIVAKGEMEVTDEVFQSLHNKAFDQAENRMHSIKAIILSTIGY KHMPVNLKGRSLDSLLNFTTEEVQHLIDLSIDLKKAKYQGLHINNRPLVGKNIAILFQKDSTRTRCAFEVAASDLGAGVTYIGPSGSNMGKKESIEDTAKVLGRFYDGIEFRGFAQSDVDALVKYSGVPVWNGLTDDEHPTQIIADFMTMKEKFGNLKNKKIVFIGDYKNNVGVSTMIGAAFNGMHVVMCGPDNYKNEIDKNVLAKCIELFKRNGGSLRFSTDKILAAQDADVIYTDVWVSLGEPFELFDKRIGELKNFQVDMNMIKAAKNDVIFLHCLPAFHDDHTSFSKEVATTLGAKYPIVAKGEMEVTDEVFQSLHNKAFDQAENRMHSIKAIILSTIGY 4amu-a1-m3-cB_4amu-a1-m3-cD Structure of ornithine carbamoyltransferase from Mycoplasma penetrans with a P321 space group Q8EVF5 Q8EVF5 2.5 X-RAY DIFFRACTION 30 1.0 28227 (Malacoplasma penetrans) 28227 (Malacoplasma penetrans) 344 344 4amu-a1-m1-cA_4amu-a1-m1-cC 4amu-a1-m1-cB_4amu-a1-m1-cD 4amu-a1-m2-cA_4amu-a1-m2-cC 4amu-a1-m2-cB_4amu-a1-m2-cD 4amu-a1-m3-cA_4amu-a1-m3-cC 4anf-a1-m1-cA_4anf-a1-m1-cC 4anf-a1-m1-cB_4anf-a1-m1-cD 4anf-a1-m2-cA_4anf-a1-m2-cC 4anf-a1-m2-cB_4anf-a1-m2-cD 4anf-a1-m3-cA_4anf-a1-m3-cC 4anf-a1-m3-cB_4anf-a1-m3-cD KHMPVNLKGRSLDSLLNFTTEEVQHLIDLSIDLKKAKYQGLHINNRPLVGKNIAILFQKDSTRTRCAFEVAASDLGAGVTYIGPSGSNMGKKESIEDTAKVLGRFYDGIEFRGFAQSDVDALVKYSGVPVWNGLTDDEHPTQIIADFMTMKEKFGNLKNKKIVFIGDYKNNVGVSTMIGAAFNGMHVVMCGPDNYKNEIDKNVLAKCIELFKRNGGSLRFSTDKILAAQDADVIYTDVWVSLGEPFELFDKRIGELKNFQVDMNMIKAAKNDVIFLHCLPAFHDDHTSFSKEVATTLGAKYPIVAKGEMEVTDEVFQSLHNKAFDQAENRMHSIKAIILSTIGY KHMPVNLKGRSLDSLLNFTTEEVQHLIDLSIDLKKAKYQGLHINNRPLVGKNIAILFQKDSTRTRCAFEVAASDLGAGVTYIGPSGSNMGKKESIEDTAKVLGRFYDGIEFRGFAQSDVDALVKYSGVPVWNGLTDDEHPTQIIADFMTMKEKFGNLKNKKIVFIGDYKNNVGVSTMIGAAFNGMHVVMCGPDNYKNEIDKNVLAKCIELFKRNGGSLRFSTDKILAAQDADVIYTDVWVSLGEPFELFDKRIGELKNFQVDMNMIKAAKNDVIFLHCLPAFHDDHTSFSKEVATTLGAKYPIVAKGEMEVTDEVFQSLHNKAFDQAENRMHSIKAIILSTIGY 4an6-a1-m1-cB_4an6-a1-m1-cA Kuntiz type trypsin inhibitor with factor Xa inhibitory activity F4ZZG4 F4ZZG4 1.94 X-RAY DIFFRACTION 87 0.982 58860 (Tamarindus indica) 58860 (Tamarindus indica) 171 172 YTVHDTDGKPVLNNAGQYYILPAKQGKGGGLGLSNDDDGNCPLTVSQTPIDLPIGLPVRFSSRARISHITTALSLNIEFTIAPACAPKPARWRIFNEQSSEKGYTPVKISDDFSSAAPFQIKKFEEDYKLVYCSKSRKCVDLGIKIDDEKNRRLVLKEGDPFKVKFKKVDE YTVHDTDGKPVLNNAGQYYILPAKQGKGGGLGLSNDDDGNCPLTVSQTPIDLPIGLPVRFSSRARISHITTALSLNIEFTIAPACAPKPARWRIFNEQSSEKGYTPVKISDDFSSAAPFQIKKFEEDYKLVYCSKSESGERKCVDLGIKIDNRRLVLKEGDPFKVKFKKVDE 4anf-a1-m1-cC_4anf-a1-m3-cD Structure of the ornithine carbamoyltransferase from Mycoplasma penetrans with a P23 Space group Q8EVF5 Q8EVF5 2.6 X-RAY DIFFRACTION 33 1.0 28227 (Malacoplasma penetrans) 28227 (Malacoplasma penetrans) 342 342 4amu-a1-m1-cA_4amu-a1-m2-cB 4amu-a1-m1-cA_4amu-a1-m3-cD 4amu-a1-m1-cB_4amu-a1-m2-cD 4amu-a1-m1-cB_4amu-a1-m3-cA 4amu-a1-m1-cC_4amu-a1-m2-cC 4amu-a1-m1-cC_4amu-a1-m3-cC 4amu-a1-m1-cD_4amu-a1-m2-cA 4amu-a1-m1-cD_4amu-a1-m3-cB 4amu-a1-m2-cA_4amu-a1-m3-cB 4amu-a1-m2-cB_4amu-a1-m3-cD 4amu-a1-m2-cC_4amu-a1-m3-cC 4amu-a1-m2-cD_4amu-a1-m3-cA 4anf-a1-m1-cA_4anf-a1-m2-cA 4anf-a1-m1-cA_4anf-a1-m3-cA 4anf-a1-m1-cB_4anf-a1-m2-cD 4anf-a1-m1-cB_4anf-a1-m3-cC 4anf-a1-m1-cC_4anf-a1-m2-cB 4anf-a1-m1-cD_4anf-a1-m2-cC 4anf-a1-m1-cD_4anf-a1-m3-cB 4anf-a1-m2-cA_4anf-a1-m3-cA 4anf-a1-m2-cB_4anf-a1-m3-cD 4anf-a1-m2-cC_4anf-a1-m3-cB 4anf-a1-m2-cD_4anf-a1-m3-cC MPVNLKGRSLDSLLNFTTEEVQHLIDLSIDLKKAKYQGLHINNRPLVGKNIAILFQKDSTRTRCAFEVAASDLGAGVTYIGPSGSNMGKKESIEDTAKVLGRFYDGIEFRGFAQSDVDALVKYSGVPVWNGLTDDEHPTQIIADFMTMKEKFGNLKNKKIVFIGDYKNNVGVSTMIGAAFNGMHVVMCGPDNYKNEIDKNVLAKCIELFKRNGGSLRFSTDKILAAQDADVIYTDVWVSLGEPFELFDKRIGELKNFQVDMNMIKAAKNDVIFLHCLPAFHDDHTSFSKEVATTLGAKYPIVAKGEMEVTDEVFQSLHNKAFDQAENRMHSIKAIILSTIGY MPVNLKGRSLDSLLNFTTEEVQHLIDLSIDLKKAKYQGLHINNRPLVGKNIAILFQKDSTRTRCAFEVAASDLGAGVTYIGPSGSNMGKKESIEDTAKVLGRFYDGIEFRGFAQSDVDALVKYSGVPVWNGLTDDEHPTQIIADFMTMKEKFGNLKNKKIVFIGDYKNNVGVSTMIGAAFNGMHVVMCGPDNYKNEIDKNVLAKCIELFKRNGGSLRFSTDKILAAQDADVIYTDVWVSLGEPFELFDKRIGELKNFQVDMNMIKAAKNDVIFLHCLPAFHDDHTSFSKEVATTLGAKYPIVAKGEMEVTDEVFQSLHNKAFDQAENRMHSIKAIILSTIGY 4ang-a1-m9-cA_4ang-a1-m9-cB Small RNA phage PRR1 in complex with an RNA operator fragment P03616 P03616 3.5 X-RAY DIFFRACTION 247 1.0 12024 (Pseudomonas phage PRR1) 12024 (Pseudomonas phage PRR1) 131 131 2vf9-a1-m10-cA_2vf9-a1-m10-cB 2vf9-a1-m10-cC_2vf9-a1-m24-cC 2vf9-a1-m11-cA_2vf9-a1-m11-cB 2vf9-a1-m11-cC_2vf9-a1-m16-cC 2vf9-a1-m12-cA_2vf9-a1-m12-cB 2vf9-a1-m12-cC_2vf9-a1-m38-cC 2vf9-a1-m13-cA_2vf9-a1-m13-cB 2vf9-a1-m13-cC_2vf9-a1-m47-cC 2vf9-a1-m14-cA_2vf9-a1-m14-cB 2vf9-a1-m14-cC_2vf9-a1-m45-cC 2vf9-a1-m15-cA_2vf9-a1-m15-cB 2vf9-a1-m15-cC_2vf9-a1-m29-cC 2vf9-a1-m16-cA_2vf9-a1-m16-cB 2vf9-a1-m17-cA_2vf9-a1-m17-cB 2vf9-a1-m17-cC_2vf9-a1-m28-cC 2vf9-a1-m18-cA_2vf9-a1-m18-cB 2vf9-a1-m18-cC_2vf9-a1-m52-cC 2vf9-a1-m19-cA_2vf9-a1-m19-cB 2vf9-a1-m19-cC_2vf9-a1-m60-cC 2vf9-a1-m1-cA_2vf9-a1-m1-cB 2vf9-a1-m1-cC_2vf9-a1-m6-cC 2vf9-a1-m20-cA_2vf9-a1-m20-cB 2vf9-a1-m20-cC_2vf9-a1-m39-cC 2vf9-a1-m21-cA_2vf9-a1-m21-cB 2vf9-a1-m21-cC_2vf9-a1-m26-cC 2vf9-a1-m22-cA_2vf9-a1-m22-cB 2vf9-a1-m22-cC_2vf9-a1-m43-cC 2vf9-a1-m23-cA_2vf9-a1-m23-cB 2vf9-a1-m24-cA_2vf9-a1-m24-cB 2vf9-a1-m25-cA_2vf9-a1-m25-cB 2vf9-a1-m25-cC_2vf9-a1-m54-cC 2vf9-a1-m26-cA_2vf9-a1-m26-cB 2vf9-a1-m27-cA_2vf9-a1-m27-cB 2vf9-a1-m27-cC_2vf9-a1-m53-cC 2vf9-a1-m28-cA_2vf9-a1-m28-cB 2vf9-a1-m29-cA_2vf9-a1-m29-cB 2vf9-a1-m2-cA_2vf9-a1-m2-cB 2vf9-a1-m2-cC_2vf9-a1-m23-cC 2vf9-a1-m30-cA_2vf9-a1-m30-cB 2vf9-a1-m30-cC_2vf9-a1-m44-cC 2vf9-a1-m31-cA_2vf9-a1-m31-cB 2vf9-a1-m31-cC_2vf9-a1-m36-cC 2vf9-a1-m32-cA_2vf9-a1-m32-cB 2vf9-a1-m32-cC_2vf9-a1-m58-cC 2vf9-a1-m33-cA_2vf9-a1-m33-cB 2vf9-a1-m33-cC_2vf9-a1-m7-cC 2vf9-a1-m34-cA_2vf9-a1-m34-cB 2vf9-a1-m34-cC_2vf9-a1-m5-cC 2vf9-a1-m35-cA_2vf9-a1-m35-cB 2vf9-a1-m35-cC_2vf9-a1-m49-cC 2vf9-a1-m36-cA_2vf9-a1-m36-cB 2vf9-a1-m37-cA_2vf9-a1-m37-cB 2vf9-a1-m37-cC_2vf9-a1-m48-cC 2vf9-a1-m38-cA_2vf9-a1-m38-cB 2vf9-a1-m39-cA_2vf9-a1-m39-cB 2vf9-a1-m3-cA_2vf9-a1-m3-cB 2vf9-a1-m3-cC_2vf9-a1-m42-cC 2vf9-a1-m40-cA_2vf9-a1-m40-cB 2vf9-a1-m40-cC_2vf9-a1-m59-cC 2vf9-a1-m41-cA_2vf9-a1-m41-cB 2vf9-a1-m41-cC_2vf9-a1-m46-cC 2vf9-a1-m42-cA_2vf9-a1-m42-cB 2vf9-a1-m43-cA_2vf9-a1-m43-cB 2vf9-a1-m44-cA_2vf9-a1-m44-cB 2vf9-a1-m45-cA_2vf9-a1-m45-cB 2vf9-a1-m46-cA_2vf9-a1-m46-cB 2vf9-a1-m47-cA_2vf9-a1-m47-cB 2vf9-a1-m48-cA_2vf9-a1-m48-cB 2vf9-a1-m49-cA_2vf9-a1-m49-cB 2vf9-a1-m4-cA_2vf9-a1-m4-cB 2vf9-a1-m4-cC_2vf9-a1-m50-cC 2vf9-a1-m50-cA_2vf9-a1-m50-cB 2vf9-a1-m51-cA_2vf9-a1-m51-cB 2vf9-a1-m51-cC_2vf9-a1-m56-cC 2vf9-a1-m52-cA_2vf9-a1-m52-cB 2vf9-a1-m53-cA_2vf9-a1-m53-cB 2vf9-a1-m54-cA_2vf9-a1-m54-cB 2vf9-a1-m55-cA_2vf9-a1-m55-cB 2vf9-a1-m55-cC_2vf9-a1-m9-cC 2vf9-a1-m56-cA_2vf9-a1-m56-cB 2vf9-a1-m57-cA_2vf9-a1-m57-cB 2vf9-a1-m57-cC_2vf9-a1-m8-cC 2vf9-a1-m58-cA_2vf9-a1-m58-cB 2vf9-a1-m59-cA_2vf9-a1-m59-cB 2vf9-a1-m5-cA_2vf9-a1-m5-cB 2vf9-a1-m60-cA_2vf9-a1-m60-cB 2vf9-a1-m6-cA_2vf9-a1-m6-cB 2vf9-a1-m7-cA_2vf9-a1-m7-cB 2vf9-a1-m8-cA_2vf9-a1-m8-cB 2vf9-a1-m9-cA_2vf9-a1-m9-cB 4ang-a1-m10-cA_4ang-a1-m10-cB 4ang-a1-m10-cC_4ang-a1-m24-cC 4ang-a1-m11-cA_4ang-a1-m11-cB 4ang-a1-m11-cC_4ang-a1-m16-cC 4ang-a1-m12-cA_4ang-a1-m12-cB 4ang-a1-m12-cC_4ang-a1-m38-cC 4ang-a1-m13-cA_4ang-a1-m13-cB 4ang-a1-m13-cC_4ang-a1-m47-cC 4ang-a1-m14-cA_4ang-a1-m14-cB 4ang-a1-m14-cC_4ang-a1-m45-cC 4ang-a1-m15-cA_4ang-a1-m15-cB 4ang-a1-m15-cC_4ang-a1-m29-cC 4ang-a1-m16-cA_4ang-a1-m16-cB 4ang-a1-m17-cA_4ang-a1-m17-cB 4ang-a1-m17-cC_4ang-a1-m28-cC 4ang-a1-m18-cA_4ang-a1-m18-cB 4ang-a1-m18-cC_4ang-a1-m52-cC 4ang-a1-m19-cA_4ang-a1-m19-cB 4ang-a1-m19-cC_4ang-a1-m60-cC 4ang-a1-m1-cA_4ang-a1-m1-cB 4ang-a1-m1-cC_4ang-a1-m6-cC 4ang-a1-m20-cA_4ang-a1-m20-cB 4ang-a1-m20-cC_4ang-a1-m39-cC 4ang-a1-m21-cA_4ang-a1-m21-cB 4ang-a1-m21-cC_4ang-a1-m26-cC 4ang-a1-m22-cA_4ang-a1-m22-cB 4ang-a1-m22-cC_4ang-a1-m43-cC 4ang-a1-m23-cA_4ang-a1-m23-cB 4ang-a1-m24-cA_4ang-a1-m24-cB 4ang-a1-m25-cA_4ang-a1-m25-cB 4ang-a1-m25-cC_4ang-a1-m54-cC 4ang-a1-m26-cA_4ang-a1-m26-cB 4ang-a1-m27-cA_4ang-a1-m27-cB 4ang-a1-m27-cC_4ang-a1-m53-cC 4ang-a1-m28-cA_4ang-a1-m28-cB 4ang-a1-m29-cA_4ang-a1-m29-cB 4ang-a1-m2-cA_4ang-a1-m2-cB 4ang-a1-m2-cC_4ang-a1-m23-cC 4ang-a1-m30-cA_4ang-a1-m30-cB 4ang-a1-m30-cC_4ang-a1-m44-cC 4ang-a1-m31-cA_4ang-a1-m31-cB 4ang-a1-m31-cC_4ang-a1-m36-cC 4ang-a1-m32-cA_4ang-a1-m32-cB 4ang-a1-m32-cC_4ang-a1-m58-cC 4ang-a1-m33-cA_4ang-a1-m33-cB 4ang-a1-m33-cC_4ang-a1-m7-cC 4ang-a1-m34-cA_4ang-a1-m34-cB 4ang-a1-m34-cC_4ang-a1-m5-cC 4ang-a1-m35-cA_4ang-a1-m35-cB 4ang-a1-m35-cC_4ang-a1-m49-cC 4ang-a1-m36-cA_4ang-a1-m36-cB 4ang-a1-m37-cA_4ang-a1-m37-cB 4ang-a1-m37-cC_4ang-a1-m48-cC 4ang-a1-m38-cA_4ang-a1-m38-cB 4ang-a1-m39-cA_4ang-a1-m39-cB 4ang-a1-m3-cA_4ang-a1-m3-cB 4ang-a1-m3-cC_4ang-a1-m42-cC 4ang-a1-m40-cA_4ang-a1-m40-cB 4ang-a1-m40-cC_4ang-a1-m59-cC 4ang-a1-m41-cA_4ang-a1-m41-cB 4ang-a1-m41-cC_4ang-a1-m46-cC 4ang-a1-m42-cA_4ang-a1-m42-cB 4ang-a1-m43-cA_4ang-a1-m43-cB 4ang-a1-m44-cA_4ang-a1-m44-cB 4ang-a1-m45-cA_4ang-a1-m45-cB 4ang-a1-m46-cA_4ang-a1-m46-cB 4ang-a1-m47-cA_4ang-a1-m47-cB 4ang-a1-m48-cA_4ang-a1-m48-cB 4ang-a1-m49-cA_4ang-a1-m49-cB 4ang-a1-m4-cA_4ang-a1-m4-cB 4ang-a1-m4-cC_4ang-a1-m50-cC 4ang-a1-m50-cA_4ang-a1-m50-cB 4ang-a1-m51-cA_4ang-a1-m51-cB 4ang-a1-m51-cC_4ang-a1-m56-cC 4ang-a1-m52-cA_4ang-a1-m52-cB 4ang-a1-m53-cA_4ang-a1-m53-cB 4ang-a1-m54-cA_4ang-a1-m54-cB 4ang-a1-m55-cA_4ang-a1-m55-cB 4ang-a1-m55-cC_4ang-a1-m9-cC 4ang-a1-m56-cA_4ang-a1-m56-cB 4ang-a1-m57-cA_4ang-a1-m57-cB 4ang-a1-m57-cC_4ang-a1-m8-cC 4ang-a1-m58-cA_4ang-a1-m58-cB 4ang-a1-m59-cA_4ang-a1-m59-cB 4ang-a1-m5-cA_4ang-a1-m5-cB 4ang-a1-m60-cA_4ang-a1-m60-cB 4ang-a1-m6-cA_4ang-a1-m6-cB 4ang-a1-m7-cA_4ang-a1-m7-cB 4ang-a1-m8-cA_4ang-a1-m8-cB AQLQNLVLKDREATPNDHTFVPRDIRDNVGEVVESTGVPIGESRFTISLRKTSNGRYKSTLKLVVPVVQSQTVNGIVTPVVVRTSYVTVDFDYDARSTTKERNNFVGMIADALKADKMLVHDTIVNLQGVY AQLQNLVLKDREATPNDHTFVPRDIRDNVGEVVESTGVPIGESRFTISLRKTSNGRYKSTLKLVVPVVQSQTVNGIVTPVVVRTSYVTVDFDYDARSTTKERNNFVGMIADALKADKMLVHDTIVNLQGVY 4ang-a1-m9-cA_4ang-a1-m9-cC Small RNA phage PRR1 in complex with an RNA operator fragment P03616 P03616 3.5 X-RAY DIFFRACTION 25 1.0 12024 (Pseudomonas phage PRR1) 12024 (Pseudomonas phage PRR1) 131 131 2vf9-a1-m10-cA_2vf9-a1-m10-cC 2vf9-a1-m10-cA_2vf9-a1-m6-cB 2vf9-a1-m10-cB_2vf9-a1-m9-cA 2vf9-a1-m10-cB_2vf9-a1-m9-cC 2vf9-a1-m10-cC_2vf9-a1-m6-cB 2vf9-a1-m11-cA_2vf9-a1-m11-cC 2vf9-a1-m11-cA_2vf9-a1-m12-cB 2vf9-a1-m11-cB_2vf9-a1-m15-cA 2vf9-a1-m11-cB_2vf9-a1-m15-cC 2vf9-a1-m11-cC_2vf9-a1-m12-cB 2vf9-a1-m12-cA_2vf9-a1-m12-cC 2vf9-a1-m12-cA_2vf9-a1-m13-cB 2vf9-a1-m12-cC_2vf9-a1-m13-cB 2vf9-a1-m13-cA_2vf9-a1-m13-cC 2vf9-a1-m13-cA_2vf9-a1-m14-cB 2vf9-a1-m13-cC_2vf9-a1-m14-cB 2vf9-a1-m14-cA_2vf9-a1-m14-cC 2vf9-a1-m14-cA_2vf9-a1-m15-cB 2vf9-a1-m14-cC_2vf9-a1-m15-cB 2vf9-a1-m15-cA_2vf9-a1-m15-cC 2vf9-a1-m16-cA_2vf9-a1-m16-cC 2vf9-a1-m16-cA_2vf9-a1-m17-cB 2vf9-a1-m16-cB_2vf9-a1-m20-cA 2vf9-a1-m16-cB_2vf9-a1-m20-cC 2vf9-a1-m16-cC_2vf9-a1-m17-cB 2vf9-a1-m17-cA_2vf9-a1-m17-cC 2vf9-a1-m17-cA_2vf9-a1-m18-cB 2vf9-a1-m17-cC_2vf9-a1-m18-cB 2vf9-a1-m18-cA_2vf9-a1-m18-cC 2vf9-a1-m18-cA_2vf9-a1-m19-cB 2vf9-a1-m18-cC_2vf9-a1-m19-cB 2vf9-a1-m19-cA_2vf9-a1-m19-cC 2vf9-a1-m19-cA_2vf9-a1-m20-cB 2vf9-a1-m19-cC_2vf9-a1-m20-cB 2vf9-a1-m1-cA_2vf9-a1-m1-cC 2vf9-a1-m1-cA_2vf9-a1-m2-cB 2vf9-a1-m1-cB_2vf9-a1-m5-cA 2vf9-a1-m1-cB_2vf9-a1-m5-cC 2vf9-a1-m1-cC_2vf9-a1-m2-cB 2vf9-a1-m20-cA_2vf9-a1-m20-cC 2vf9-a1-m21-cA_2vf9-a1-m21-cC 2vf9-a1-m21-cA_2vf9-a1-m22-cB 2vf9-a1-m21-cB_2vf9-a1-m25-cA 2vf9-a1-m21-cB_2vf9-a1-m25-cC 2vf9-a1-m21-cC_2vf9-a1-m22-cB 2vf9-a1-m22-cA_2vf9-a1-m22-cC 2vf9-a1-m22-cA_2vf9-a1-m23-cB 2vf9-a1-m22-cC_2vf9-a1-m23-cB 2vf9-a1-m23-cA_2vf9-a1-m23-cC 2vf9-a1-m23-cA_2vf9-a1-m24-cB 2vf9-a1-m23-cC_2vf9-a1-m24-cB 2vf9-a1-m24-cA_2vf9-a1-m24-cC 2vf9-a1-m24-cA_2vf9-a1-m25-cB 2vf9-a1-m24-cC_2vf9-a1-m25-cB 2vf9-a1-m25-cA_2vf9-a1-m25-cC 2vf9-a1-m26-cA_2vf9-a1-m26-cC 2vf9-a1-m26-cA_2vf9-a1-m27-cB 2vf9-a1-m26-cB_2vf9-a1-m30-cA 2vf9-a1-m26-cB_2vf9-a1-m30-cC 2vf9-a1-m26-cC_2vf9-a1-m27-cB 2vf9-a1-m27-cA_2vf9-a1-m27-cC 2vf9-a1-m27-cA_2vf9-a1-m28-cB 2vf9-a1-m27-cC_2vf9-a1-m28-cB 2vf9-a1-m28-cA_2vf9-a1-m28-cC 2vf9-a1-m28-cA_2vf9-a1-m29-cB 2vf9-a1-m28-cC_2vf9-a1-m29-cB 2vf9-a1-m29-cA_2vf9-a1-m29-cC 2vf9-a1-m29-cA_2vf9-a1-m30-cB 2vf9-a1-m29-cC_2vf9-a1-m30-cB 2vf9-a1-m2-cA_2vf9-a1-m2-cC 2vf9-a1-m2-cA_2vf9-a1-m3-cB 2vf9-a1-m2-cC_2vf9-a1-m3-cB 2vf9-a1-m30-cA_2vf9-a1-m30-cC 2vf9-a1-m31-cA_2vf9-a1-m31-cC 2vf9-a1-m31-cA_2vf9-a1-m32-cB 2vf9-a1-m31-cB_2vf9-a1-m35-cA 2vf9-a1-m31-cB_2vf9-a1-m35-cC 2vf9-a1-m31-cC_2vf9-a1-m32-cB 2vf9-a1-m32-cA_2vf9-a1-m32-cC 2vf9-a1-m32-cA_2vf9-a1-m33-cB 2vf9-a1-m32-cC_2vf9-a1-m33-cB 2vf9-a1-m33-cA_2vf9-a1-m33-cC 2vf9-a1-m33-cA_2vf9-a1-m34-cB 2vf9-a1-m33-cC_2vf9-a1-m34-cB 2vf9-a1-m34-cA_2vf9-a1-m34-cC 2vf9-a1-m34-cA_2vf9-a1-m35-cB 2vf9-a1-m34-cC_2vf9-a1-m35-cB 2vf9-a1-m35-cA_2vf9-a1-m35-cC 2vf9-a1-m36-cA_2vf9-a1-m36-cC 2vf9-a1-m36-cA_2vf9-a1-m37-cB 2vf9-a1-m36-cB_2vf9-a1-m40-cA 2vf9-a1-m36-cB_2vf9-a1-m40-cC 2vf9-a1-m36-cC_2vf9-a1-m37-cB 2vf9-a1-m37-cA_2vf9-a1-m37-cC 2vf9-a1-m37-cA_2vf9-a1-m38-cB 2vf9-a1-m37-cC_2vf9-a1-m38-cB 2vf9-a1-m38-cA_2vf9-a1-m38-cC 2vf9-a1-m38-cA_2vf9-a1-m39-cB 2vf9-a1-m38-cC_2vf9-a1-m39-cB 2vf9-a1-m39-cA_2vf9-a1-m39-cC 2vf9-a1-m39-cA_2vf9-a1-m40-cB 2vf9-a1-m39-cC_2vf9-a1-m40-cB 2vf9-a1-m3-cA_2vf9-a1-m3-cC 2vf9-a1-m3-cA_2vf9-a1-m4-cB 2vf9-a1-m3-cC_2vf9-a1-m4-cB 2vf9-a1-m40-cA_2vf9-a1-m40-cC 2vf9-a1-m41-cA_2vf9-a1-m41-cC 2vf9-a1-m41-cA_2vf9-a1-m42-cB 2vf9-a1-m41-cB_2vf9-a1-m45-cA 2vf9-a1-m41-cB_2vf9-a1-m45-cC 2vf9-a1-m41-cC_2vf9-a1-m42-cB 2vf9-a1-m42-cA_2vf9-a1-m42-cC 2vf9-a1-m42-cA_2vf9-a1-m43-cB 2vf9-a1-m42-cC_2vf9-a1-m43-cB 2vf9-a1-m43-cA_2vf9-a1-m43-cC 2vf9-a1-m43-cA_2vf9-a1-m44-cB 2vf9-a1-m43-cC_2vf9-a1-m44-cB 2vf9-a1-m44-cA_2vf9-a1-m44-cC 2vf9-a1-m44-cA_2vf9-a1-m45-cB 2vf9-a1-m44-cC_2vf9-a1-m45-cB 2vf9-a1-m45-cA_2vf9-a1-m45-cC 2vf9-a1-m46-cA_2vf9-a1-m46-cC 2vf9-a1-m46-cA_2vf9-a1-m47-cB 2vf9-a1-m46-cB_2vf9-a1-m50-cA 2vf9-a1-m46-cB_2vf9-a1-m50-cC 2vf9-a1-m46-cC_2vf9-a1-m47-cB 2vf9-a1-m47-cA_2vf9-a1-m47-cC 2vf9-a1-m47-cA_2vf9-a1-m48-cB 2vf9-a1-m47-cC_2vf9-a1-m48-cB 2vf9-a1-m48-cA_2vf9-a1-m48-cC 2vf9-a1-m48-cA_2vf9-a1-m49-cB 2vf9-a1-m48-cC_2vf9-a1-m49-cB 2vf9-a1-m49-cA_2vf9-a1-m49-cC 2vf9-a1-m49-cA_2vf9-a1-m50-cB 2vf9-a1-m49-cC_2vf9-a1-m50-cB 2vf9-a1-m4-cA_2vf9-a1-m4-cC 2vf9-a1-m4-cA_2vf9-a1-m5-cB 2vf9-a1-m4-cC_2vf9-a1-m5-cB 2vf9-a1-m50-cA_2vf9-a1-m50-cC 2vf9-a1-m51-cA_2vf9-a1-m51-cC 2vf9-a1-m51-cA_2vf9-a1-m52-cB 2vf9-a1-m51-cB_2vf9-a1-m55-cA 2vf9-a1-m51-cB_2vf9-a1-m55-cC 2vf9-a1-m51-cC_2vf9-a1-m52-cB 2vf9-a1-m52-cA_2vf9-a1-m52-cC 2vf9-a1-m52-cA_2vf9-a1-m53-cB 2vf9-a1-m52-cC_2vf9-a1-m53-cB 2vf9-a1-m53-cA_2vf9-a1-m53-cC 2vf9-a1-m53-cA_2vf9-a1-m54-cB 2vf9-a1-m53-cC_2vf9-a1-m54-cB 2vf9-a1-m54-cA_2vf9-a1-m54-cC 2vf9-a1-m54-cA_2vf9-a1-m55-cB 2vf9-a1-m54-cC_2vf9-a1-m55-cB 2vf9-a1-m55-cA_2vf9-a1-m55-cC 2vf9-a1-m56-cA_2vf9-a1-m56-cC 2vf9-a1-m56-cA_2vf9-a1-m57-cB 2vf9-a1-m56-cB_2vf9-a1-m60-cA 2vf9-a1-m56-cB_2vf9-a1-m60-cC 2vf9-a1-m56-cC_2vf9-a1-m57-cB 2vf9-a1-m57-cA_2vf9-a1-m57-cC 2vf9-a1-m57-cA_2vf9-a1-m58-cB 2vf9-a1-m57-cC_2vf9-a1-m58-cB 2vf9-a1-m58-cA_2vf9-a1-m58-cC 2vf9-a1-m58-cA_2vf9-a1-m59-cB 2vf9-a1-m58-cC_2vf9-a1-m59-cB 2vf9-a1-m59-cA_2vf9-a1-m59-cC 2vf9-a1-m59-cA_2vf9-a1-m60-cB 2vf9-a1-m59-cC_2vf9-a1-m60-cB 2vf9-a1-m5-cA_2vf9-a1-m5-cC 2vf9-a1-m60-cA_2vf9-a1-m60-cC 2vf9-a1-m6-cA_2vf9-a1-m6-cC 2vf9-a1-m6-cA_2vf9-a1-m7-cB 2vf9-a1-m6-cC_2vf9-a1-m7-cB 2vf9-a1-m7-cA_2vf9-a1-m7-cC 2vf9-a1-m7-cA_2vf9-a1-m8-cB 2vf9-a1-m7-cC_2vf9-a1-m8-cB 2vf9-a1-m8-cA_2vf9-a1-m8-cC 2vf9-a1-m8-cA_2vf9-a1-m9-cB 2vf9-a1-m8-cC_2vf9-a1-m9-cB 2vf9-a1-m9-cA_2vf9-a1-m9-cC 4ang-a1-m10-cA_4ang-a1-m10-cC 4ang-a1-m10-cA_4ang-a1-m6-cB 4ang-a1-m10-cB_4ang-a1-m9-cA 4ang-a1-m10-cB_4ang-a1-m9-cC 4ang-a1-m10-cC_4ang-a1-m6-cB 4ang-a1-m11-cA_4ang-a1-m11-cC 4ang-a1-m11-cA_4ang-a1-m12-cB 4ang-a1-m11-cB_4ang-a1-m15-cA 4ang-a1-m11-cB_4ang-a1-m15-cC 4ang-a1-m11-cC_4ang-a1-m12-cB 4ang-a1-m12-cA_4ang-a1-m12-cC 4ang-a1-m12-cA_4ang-a1-m13-cB 4ang-a1-m12-cC_4ang-a1-m13-cB 4ang-a1-m13-cA_4ang-a1-m13-cC 4ang-a1-m13-cA_4ang-a1-m14-cB 4ang-a1-m13-cC_4ang-a1-m14-cB 4ang-a1-m14-cA_4ang-a1-m14-cC 4ang-a1-m14-cA_4ang-a1-m15-cB 4ang-a1-m14-cC_4ang-a1-m15-cB 4ang-a1-m15-cA_4ang-a1-m15-cC 4ang-a1-m16-cA_4ang-a1-m16-cC 4ang-a1-m16-cA_4ang-a1-m17-cB 4ang-a1-m16-cB_4ang-a1-m20-cA 4ang-a1-m16-cB_4ang-a1-m20-cC 4ang-a1-m16-cC_4ang-a1-m17-cB 4ang-a1-m17-cA_4ang-a1-m17-cC 4ang-a1-m17-cA_4ang-a1-m18-cB 4ang-a1-m17-cC_4ang-a1-m18-cB 4ang-a1-m18-cA_4ang-a1-m18-cC 4ang-a1-m18-cA_4ang-a1-m19-cB 4ang-a1-m18-cC_4ang-a1-m19-cB 4ang-a1-m19-cA_4ang-a1-m19-cC 4ang-a1-m19-cA_4ang-a1-m20-cB 4ang-a1-m19-cC_4ang-a1-m20-cB 4ang-a1-m1-cA_4ang-a1-m1-cC 4ang-a1-m1-cA_4ang-a1-m2-cB 4ang-a1-m1-cB_4ang-a1-m5-cA 4ang-a1-m1-cB_4ang-a1-m5-cC 4ang-a1-m1-cC_4ang-a1-m2-cB 4ang-a1-m20-cA_4ang-a1-m20-cC 4ang-a1-m21-cA_4ang-a1-m21-cC 4ang-a1-m21-cA_4ang-a1-m22-cB 4ang-a1-m21-cB_4ang-a1-m25-cA 4ang-a1-m21-cB_4ang-a1-m25-cC 4ang-a1-m21-cC_4ang-a1-m22-cB 4ang-a1-m22-cA_4ang-a1-m22-cC 4ang-a1-m22-cA_4ang-a1-m23-cB 4ang-a1-m22-cC_4ang-a1-m23-cB 4ang-a1-m23-cA_4ang-a1-m23-cC 4ang-a1-m23-cA_4ang-a1-m24-cB 4ang-a1-m23-cC_4ang-a1-m24-cB 4ang-a1-m24-cA_4ang-a1-m24-cC 4ang-a1-m24-cA_4ang-a1-m25-cB 4ang-a1-m24-cC_4ang-a1-m25-cB 4ang-a1-m25-cA_4ang-a1-m25-cC 4ang-a1-m26-cA_4ang-a1-m26-cC 4ang-a1-m26-cA_4ang-a1-m27-cB 4ang-a1-m26-cB_4ang-a1-m30-cA 4ang-a1-m26-cB_4ang-a1-m30-cC 4ang-a1-m26-cC_4ang-a1-m27-cB 4ang-a1-m27-cA_4ang-a1-m27-cC 4ang-a1-m27-cA_4ang-a1-m28-cB 4ang-a1-m27-cC_4ang-a1-m28-cB 4ang-a1-m28-cA_4ang-a1-m28-cC 4ang-a1-m28-cA_4ang-a1-m29-cB 4ang-a1-m28-cC_4ang-a1-m29-cB 4ang-a1-m29-cA_4ang-a1-m29-cC 4ang-a1-m29-cA_4ang-a1-m30-cB 4ang-a1-m29-cC_4ang-a1-m30-cB 4ang-a1-m2-cA_4ang-a1-m2-cC 4ang-a1-m2-cA_4ang-a1-m3-cB 4ang-a1-m2-cC_4ang-a1-m3-cB 4ang-a1-m30-cA_4ang-a1-m30-cC 4ang-a1-m31-cA_4ang-a1-m31-cC 4ang-a1-m31-cA_4ang-a1-m32-cB 4ang-a1-m31-cB_4ang-a1-m35-cA 4ang-a1-m31-cB_4ang-a1-m35-cC 4ang-a1-m31-cC_4ang-a1-m32-cB 4ang-a1-m32-cA_4ang-a1-m32-cC 4ang-a1-m32-cA_4ang-a1-m33-cB 4ang-a1-m32-cC_4ang-a1-m33-cB 4ang-a1-m33-cA_4ang-a1-m33-cC 4ang-a1-m33-cA_4ang-a1-m34-cB 4ang-a1-m33-cC_4ang-a1-m34-cB 4ang-a1-m34-cA_4ang-a1-m34-cC 4ang-a1-m34-cA_4ang-a1-m35-cB 4ang-a1-m34-cC_4ang-a1-m35-cB 4ang-a1-m35-cA_4ang-a1-m35-cC 4ang-a1-m36-cA_4ang-a1-m36-cC 4ang-a1-m36-cA_4ang-a1-m37-cB 4ang-a1-m36-cB_4ang-a1-m40-cA 4ang-a1-m36-cB_4ang-a1-m40-cC 4ang-a1-m36-cC_4ang-a1-m37-cB 4ang-a1-m37-cA_4ang-a1-m37-cC 4ang-a1-m37-cA_4ang-a1-m38-cB 4ang-a1-m37-cC_4ang-a1-m38-cB 4ang-a1-m38-cA_4ang-a1-m38-cC 4ang-a1-m38-cA_4ang-a1-m39-cB 4ang-a1-m38-cC_4ang-a1-m39-cB 4ang-a1-m39-cA_4ang-a1-m39-cC 4ang-a1-m39-cA_4ang-a1-m40-cB 4ang-a1-m39-cC_4ang-a1-m40-cB 4ang-a1-m3-cA_4ang-a1-m3-cC 4ang-a1-m3-cA_4ang-a1-m4-cB 4ang-a1-m3-cC_4ang-a1-m4-cB 4ang-a1-m40-cA_4ang-a1-m40-cC 4ang-a1-m41-cA_4ang-a1-m41-cC 4ang-a1-m41-cA_4ang-a1-m42-cB 4ang-a1-m41-cB_4ang-a1-m45-cA 4ang-a1-m41-cB_4ang-a1-m45-cC 4ang-a1-m41-cC_4ang-a1-m42-cB 4ang-a1-m42-cA_4ang-a1-m42-cC 4ang-a1-m42-cA_4ang-a1-m43-cB 4ang-a1-m42-cC_4ang-a1-m43-cB 4ang-a1-m43-cA_4ang-a1-m43-cC 4ang-a1-m43-cA_4ang-a1-m44-cB 4ang-a1-m43-cC_4ang-a1-m44-cB 4ang-a1-m44-cA_4ang-a1-m44-cC 4ang-a1-m44-cA_4ang-a1-m45-cB 4ang-a1-m44-cC_4ang-a1-m45-cB 4ang-a1-m45-cA_4ang-a1-m45-cC 4ang-a1-m46-cA_4ang-a1-m46-cC 4ang-a1-m46-cA_4ang-a1-m47-cB 4ang-a1-m46-cB_4ang-a1-m50-cA 4ang-a1-m46-cB_4ang-a1-m50-cC 4ang-a1-m46-cC_4ang-a1-m47-cB 4ang-a1-m47-cA_4ang-a1-m47-cC 4ang-a1-m47-cA_4ang-a1-m48-cB 4ang-a1-m47-cC_4ang-a1-m48-cB 4ang-a1-m48-cA_4ang-a1-m48-cC 4ang-a1-m48-cA_4ang-a1-m49-cB 4ang-a1-m48-cC_4ang-a1-m49-cB 4ang-a1-m49-cA_4ang-a1-m49-cC 4ang-a1-m49-cA_4ang-a1-m50-cB 4ang-a1-m49-cC_4ang-a1-m50-cB 4ang-a1-m4-cA_4ang-a1-m4-cC 4ang-a1-m4-cA_4ang-a1-m5-cB 4ang-a1-m4-cC_4ang-a1-m5-cB 4ang-a1-m50-cA_4ang-a1-m50-cC 4ang-a1-m51-cA_4ang-a1-m51-cC 4ang-a1-m51-cA_4ang-a1-m52-cB 4ang-a1-m51-cB_4ang-a1-m55-cA 4ang-a1-m51-cB_4ang-a1-m55-cC 4ang-a1-m51-cC_4ang-a1-m52-cB 4ang-a1-m52-cA_4ang-a1-m52-cC 4ang-a1-m52-cA_4ang-a1-m53-cB 4ang-a1-m52-cC_4ang-a1-m53-cB 4ang-a1-m53-cA_4ang-a1-m53-cC 4ang-a1-m53-cA_4ang-a1-m54-cB 4ang-a1-m53-cC_4ang-a1-m54-cB 4ang-a1-m54-cA_4ang-a1-m54-cC 4ang-a1-m54-cA_4ang-a1-m55-cB 4ang-a1-m54-cC_4ang-a1-m55-cB 4ang-a1-m55-cA_4ang-a1-m55-cC 4ang-a1-m56-cA_4ang-a1-m56-cC 4ang-a1-m56-cA_4ang-a1-m57-cB 4ang-a1-m56-cB_4ang-a1-m60-cA 4ang-a1-m56-cB_4ang-a1-m60-cC 4ang-a1-m56-cC_4ang-a1-m57-cB 4ang-a1-m57-cA_4ang-a1-m57-cC 4ang-a1-m57-cA_4ang-a1-m58-cB 4ang-a1-m57-cC_4ang-a1-m58-cB 4ang-a1-m58-cA_4ang-a1-m58-cC 4ang-a1-m58-cA_4ang-a1-m59-cB 4ang-a1-m58-cC_4ang-a1-m59-cB 4ang-a1-m59-cA_4ang-a1-m59-cC 4ang-a1-m59-cA_4ang-a1-m60-cB 4ang-a1-m59-cC_4ang-a1-m60-cB 4ang-a1-m5-cA_4ang-a1-m5-cC 4ang-a1-m60-cA_4ang-a1-m60-cC 4ang-a1-m6-cA_4ang-a1-m6-cC 4ang-a1-m6-cA_4ang-a1-m7-cB 4ang-a1-m6-cC_4ang-a1-m7-cB 4ang-a1-m7-cA_4ang-a1-m7-cC 4ang-a1-m7-cA_4ang-a1-m8-cB 4ang-a1-m7-cC_4ang-a1-m8-cB 4ang-a1-m8-cA_4ang-a1-m8-cC 4ang-a1-m8-cA_4ang-a1-m9-cB 4ang-a1-m8-cC_4ang-a1-m9-cB AQLQNLVLKDREATPNDHTFVPRDIRDNVGEVVESTGVPIGESRFTISLRKTSNGRYKSTLKLVVPVVQSQTVNGIVTPVVVRTSYVTVDFDYDARSTTKERNNFVGMIADALKADKMLVHDTIVNLQGVY AQLQNLVLKDREATPNDHTFVPRDIRDNVGEVVESTGVPIGESRFTISLRKTSNGRYKSTLKLVVPVVQSQTVNGIVTPVVVRTSYVTVDFDYDARSTTKERNNFVGMIADALKADKMLVHDTIVNLQGVY 4ani-a1-m1-cB_4ani-a1-m1-cA Structural basis for the intermolecular communication between DnaK and GrpE in the DnaK chaperone system from Geobacillus kaustophilus HTA426 Q5KWZ6 Q5KWZ6 4.094 X-RAY DIFFRACTION 124 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 154 156 ELAAAKAQIAELEAKLSEMEHRYLRLYADFENFRRRTRQEMEAAEKYRAQSLASDLLPVLDNFERALKIETDNEQAKSILQGMEMVYRSLVDALKKEGVEAIEAVGKPFDPYLHQAVMQAEAEGYEPNTVVEELQKGYKLKDRVLRPAMVKVSQ AEELAAAKAQIAELEAKLSEMEHRYLRLYADFENFRRRTRQEMEAAEKYRAQSLASDLLPVLDNFERALKIETDNEQAKSILQGMEMVYRSLVDALKKEGVEAIEAVGKPFDPYLHQAVMQAEAEGYEPNTVVEELQKGYKLKDRVLRPAMVKVSQ 4ani-a1-m1-cG_4ani-a1-m1-cC Structural basis for the intermolecular communication between DnaK and GrpE in the DnaK chaperone system from Geobacillus kaustophilus HTA426 Q5KWZ7 Q5KWZ7 4.094 X-RAY DIFFRACTION 14 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 502 509 MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFISHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFISANENGPLHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD 4ani-a1-m1-cH_4ani-a1-m1-cC Structural basis for the intermolecular communication between DnaK and GrpE in the DnaK chaperone system from Geobacillus kaustophilus HTA426 Q5KWZ7 Q5KWZ7 4.094 X-RAY DIFFRACTION 70 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 501 509 4ani-a1-m1-cG_4ani-a1-m1-cD MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFIHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFISANENGPLHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD 4ani-a1-m1-cH_4ani-a1-m1-cD Structural basis for the intermolecular communication between DnaK and GrpE in the DnaK chaperone system from Geobacillus kaustophilus HTA426 Q5KWZ7 Q5KWZ7 4.094 X-RAY DIFFRACTION 11 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 501 509 MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFIHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFISANENGPLHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD 4ani-a1-m1-cH_4ani-a1-m1-cG Structural basis for the intermolecular communication between DnaK and GrpE in the DnaK chaperone system from Geobacillus kaustophilus HTA426 Q5KWZ7 Q5KWZ7 4.094 X-RAY DIFFRACTION 28 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 501 502 4ani-a1-m1-cC_4ani-a1-m1-cD MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFIHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD MSKIIGIDLGTTNSCVAVLEGGEVKVIPNPEGNRTTPSVVAFKNGERLVGEVAKRQAITNPNTIISIKRHMGTDYKVEIEGKQYTPQEISAIILQYLKSYAEDYLGEPVTRAVITVPAYFNDAQRQATKDAGRIAGLEVERIINEPTAAALAYGLDKEEDQTILVYDLGGGTFDVSILELGDGVFEVKATAGDNHLGGDDFDQVIIDYLVNQFKQEHGIDLSKDKMALQRLKDAAEKAKKELSGVTQTQISLPFISHLEMTLTRAKFEELSAHLVERTMGPVRQALQDAGLTPADIDKVILVGGSTRIPAVQEAIKRELGKEPHKGVNPDEVVAIGAAIQGGVIAGEVKDVVLLDVTPLSLGIETMGGVFTKLIERNTTIPTSKSQVFTTAADNQTTVDIHVLQGERPMAADNKSLGRFQLTGIPPAPRGVPQIEVTFDIDANGIVHVRAKDLGTNKEQSITIKSSSGLSEEEIQRMIKEAEENAEADRKRKEAAELRNEAD 4ao6-a1-m1-cA_4ao6-a1-m2-cA Native structure of a novel cold-adapted esterase from an Arctic intertidal metagenomic library 1.6 X-RAY DIFFRACTION 31 1.0 32644 (unidentified) 32644 (unidentified) 222 222 4ao7-a1-m1-cA_4ao7-a1-m2-cA 4ao8-a1-m1-cA_4ao8-a1-m2-cA MSWNGKDERKLSVQERGFSLEVDGRTVPGVYWSPAEGSSDRLVLLGHEYIEQVAKLLVGRGISAMAIDGPGTDVVGLDAFPRMWHEGGGTAAVIADWAAALDFIEAEEGPRPTGWWGLSMGTMMGLPVTASDKRIKVALLGLMGVEGVNGEDLVRLAPQVTCPVRYLLQWDDELVSLQSGLELFGKLGTKQKTLHVNPGKHSAVPTWEMFAGTVDYLDQRLK MSWNGKDERKLSVQERGFSLEVDGRTVPGVYWSPAEGSSDRLVLLGHEYIEQVAKLLVGRGISAMAIDGPGTDVVGLDAFPRMWHEGGGTAAVIADWAAALDFIEAEEGPRPTGWWGLSMGTMMGLPVTASDKRIKVALLGLMGVEGVNGEDLVRLAPQVTCPVRYLLQWDDELVSLQSGLELFGKLGTKQKTLHVNPGKHSAVPTWEMFAGTVDYLDQRLK 4ao9-a1-m1-cA_4ao9-a1-m1-cB Biochemical properties and crystal structure of a novel beta- phenylalanine aminotransferase from Variovorax paradoxus H8WR05 H8WR05 1.5 X-RAY DIFFRACTION 366 1.0 34073 (Variovorax paradoxus) 34073 (Variovorax paradoxus) 433 433 4aoa-a1-m1-cA_4aoa-a1-m1-cB THAAIDQALADAYRRFTDANPASQRQFEAQARYMPGANSRSVLFYAPFPLTIARGEGAALWDADGHRYADFIAEYTAGVYGHSAPEIRDAVIEAMQGGINLTGHNLLEGRLARLICERFPQIEQLRFTNSGTEANLMALTAALHFTGRRKIVVFSGGYHGGVLGFGARPSPTTVPFDFLVLPYNDAQTARAQIERHGPEIAVVLVEPMQGASGCIPGQPDFLQALRESATQVGALLVFDEVMTSRLAPHGLANKLGIRSDLTTLGKYIGGGMSFGAFGGRADVMALFDPRTGPLAHSGTFNNNVMTMAAGYAGLTKLFTPEAAGALAERGEALRARLNALCANEGVAMQFTGIGSLMNAHFVQGDVRSSEDLAAVDGRLRQLLFFHLLNEDIYSSPRGFVVLSLPLTDADIDRYVAAIGSFIGGHGALLPRAN THAAIDQALADAYRRFTDANPASQRQFEAQARYMPGANSRSVLFYAPFPLTIARGEGAALWDADGHRYADFIAEYTAGVYGHSAPEIRDAVIEAMQGGINLTGHNLLEGRLARLICERFPQIEQLRFTNSGTEANLMALTAALHFTGRRKIVVFSGGYHGGVLGFGARPSPTTVPFDFLVLPYNDAQTARAQIERHGPEIAVVLVEPMQGASGCIPGQPDFLQALRESATQVGALLVFDEVMTSRLAPHGLANKLGIRSDLTTLGKYIGGGMSFGAFGGRADVMALFDPRTGPLAHSGTFNNNVMTMAAGYAGLTKLFTPEAAGALAERGEALRARLNALCANEGVAMQFTGIGSLMNAHFVQGDVRSSEDLAAVDGRLRQLLFFHLLNEDIYSSPRGFVVLSLPLTDADIDRYVAAIGSFIGGHGALLPRAN 4aod-a1-m1-cA_4aod-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 390 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cA_4aod-a1-m8-cE 4aod-a1-m10-cE_4aod-a1-m3-cA 4aod-a1-m11-cA_4aod-a1-m6-cE 4aod-a1-m11-cE_4aod-a1-m4-cA 4aod-a1-m12-cA_4aod-a1-m7-cE 4aod-a1-m12-cE_4aod-a1-m2-cA 4aod-a1-m1-cE_4aod-a1-m5-cA 4aod-a1-m2-cE_4aod-a1-m7-cA 4aod-a1-m3-cE_4aod-a1-m8-cA 4aod-a1-m4-cE_4aod-a1-m6-cA 4aod-a1-m5-cE_4aod-a1-m9-cA SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m11-cC_4aod-a1-m9-cC Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 114 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cC_4aod-a1-m12-cC 4aod-a1-m1-cC_4aod-a1-m3-cC 4aod-a1-m2-cC_4aod-a1-m4-cC 4aod-a1-m5-cC_4aod-a1-m7-cC 4aod-a1-m6-cC_4aod-a1-m8-cC SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m11-cC_4aod-a1-m9-cD Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 40 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cC_4aod-a1-m12-cD 4aod-a1-m10-cD_4aod-a1-m12-cC 4aod-a1-m11-cD_4aod-a1-m9-cC 4aod-a1-m1-cC_4aod-a1-m3-cD 4aod-a1-m1-cD_4aod-a1-m3-cC 4aod-a1-m2-cC_4aod-a1-m4-cD 4aod-a1-m2-cD_4aod-a1-m4-cC 4aod-a1-m5-cC_4aod-a1-m7-cD 4aod-a1-m5-cD_4aod-a1-m7-cC 4aod-a1-m6-cC_4aod-a1-m8-cD 4aod-a1-m6-cD_4aod-a1-m8-cC SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m11-cD_4aod-a1-m9-cD Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 432 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cD_4aod-a1-m12-cD 4aod-a1-m1-cD_4aod-a1-m3-cD 4aod-a1-m2-cD_4aod-a1-m4-cD 4aod-a1-m5-cD_4aod-a1-m7-cD 4aod-a1-m6-cD_4aod-a1-m8-cD SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m5-cA_4aod-a1-m9-cA Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 783 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cA_4aod-a1-m3-cA 4aod-a1-m10-cA_4aod-a1-m8-cA 4aod-a1-m11-cA_4aod-a1-m4-cA 4aod-a1-m11-cA_4aod-a1-m6-cA 4aod-a1-m12-cA_4aod-a1-m2-cA 4aod-a1-m12-cA_4aod-a1-m7-cA 4aod-a1-m1-cA_4aod-a1-m5-cA 4aod-a1-m1-cA_4aod-a1-m9-cA 4aod-a1-m2-cA_4aod-a1-m7-cA 4aod-a1-m3-cA_4aod-a1-m8-cA 4aod-a1-m4-cA_4aod-a1-m6-cA SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m5-cA_4aod-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 551 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cA_4aod-a1-m3-cE 4aod-a1-m10-cE_4aod-a1-m8-cA 4aod-a1-m11-cA_4aod-a1-m4-cE 4aod-a1-m11-cE_4aod-a1-m6-cA 4aod-a1-m12-cA_4aod-a1-m2-cE 4aod-a1-m12-cE_4aod-a1-m7-cA 4aod-a1-m1-cA_4aod-a1-m5-cE 4aod-a1-m1-cE_4aod-a1-m9-cA 4aod-a1-m2-cA_4aod-a1-m7-cE 4aod-a1-m3-cA_4aod-a1-m8-cE 4aod-a1-m4-cA_4aod-a1-m6-cE SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m5-cB_4aod-a1-m9-cD Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 109 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cB_4aod-a1-m3-cD 4aod-a1-m10-cD_4aod-a1-m8-cB 4aod-a1-m11-cB_4aod-a1-m4-cD 4aod-a1-m11-cD_4aod-a1-m6-cB 4aod-a1-m12-cB_4aod-a1-m2-cD 4aod-a1-m12-cD_4aod-a1-m7-cB 4aod-a1-m1-cB_4aod-a1-m5-cD 4aod-a1-m1-cD_4aod-a1-m9-cB 4aod-a1-m2-cB_4aod-a1-m7-cD 4aod-a1-m3-cB_4aod-a1-m8-cD 4aod-a1-m4-cB_4aod-a1-m6-cD SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m5-cB_4aod-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 623 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cB_4aod-a1-m3-cE 4aod-a1-m10-cE_4aod-a1-m8-cB 4aod-a1-m11-cB_4aod-a1-m4-cE 4aod-a1-m11-cE_4aod-a1-m6-cB 4aod-a1-m12-cB_4aod-a1-m2-cE 4aod-a1-m12-cE_4aod-a1-m7-cB 4aod-a1-m1-cB_4aod-a1-m5-cE 4aod-a1-m1-cE_4aod-a1-m9-cB 4aod-a1-m2-cB_4aod-a1-m7-cE 4aod-a1-m3-cB_4aod-a1-m8-cE 4aod-a1-m4-cB_4aod-a1-m6-cE SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m5-cE_4aod-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 53 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cE_4aod-a1-m3-cE 4aod-a1-m10-cE_4aod-a1-m8-cE 4aod-a1-m11-cE_4aod-a1-m4-cE 4aod-a1-m11-cE_4aod-a1-m6-cE 4aod-a1-m12-cE_4aod-a1-m2-cE 4aod-a1-m12-cE_4aod-a1-m7-cE 4aod-a1-m1-cE_4aod-a1-m5-cE 4aod-a1-m1-cE_4aod-a1-m9-cE 4aod-a1-m2-cE_4aod-a1-m7-cE 4aod-a1-m3-cE_4aod-a1-m8-cE 4aod-a1-m4-cE_4aod-a1-m6-cE SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aod-a1-m9-cD_4aod-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 1 (BgAChBP1) J9PBR4 J9PBR4 6.0 ELECTRON MICROSCOPY 103 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aod-a1-m10-cA_4aod-a1-m10-cB 4aod-a1-m10-cA_4aod-a1-m10-cE 4aod-a1-m10-cB_4aod-a1-m10-cC 4aod-a1-m10-cC_4aod-a1-m10-cD 4aod-a1-m10-cD_4aod-a1-m10-cE 4aod-a1-m11-cA_4aod-a1-m11-cB 4aod-a1-m11-cA_4aod-a1-m11-cE 4aod-a1-m11-cB_4aod-a1-m11-cC 4aod-a1-m11-cC_4aod-a1-m11-cD 4aod-a1-m11-cD_4aod-a1-m11-cE 4aod-a1-m12-cA_4aod-a1-m12-cB 4aod-a1-m12-cA_4aod-a1-m12-cE 4aod-a1-m12-cB_4aod-a1-m12-cC 4aod-a1-m12-cC_4aod-a1-m12-cD 4aod-a1-m12-cD_4aod-a1-m12-cE 4aod-a1-m1-cA_4aod-a1-m1-cB 4aod-a1-m1-cA_4aod-a1-m1-cE 4aod-a1-m1-cB_4aod-a1-m1-cC 4aod-a1-m1-cC_4aod-a1-m1-cD 4aod-a1-m1-cD_4aod-a1-m1-cE 4aod-a1-m2-cA_4aod-a1-m2-cB 4aod-a1-m2-cA_4aod-a1-m2-cE 4aod-a1-m2-cB_4aod-a1-m2-cC 4aod-a1-m2-cC_4aod-a1-m2-cD 4aod-a1-m2-cD_4aod-a1-m2-cE 4aod-a1-m3-cA_4aod-a1-m3-cB 4aod-a1-m3-cA_4aod-a1-m3-cE 4aod-a1-m3-cB_4aod-a1-m3-cC 4aod-a1-m3-cC_4aod-a1-m3-cD 4aod-a1-m3-cD_4aod-a1-m3-cE 4aod-a1-m4-cA_4aod-a1-m4-cB 4aod-a1-m4-cA_4aod-a1-m4-cE 4aod-a1-m4-cB_4aod-a1-m4-cC 4aod-a1-m4-cC_4aod-a1-m4-cD 4aod-a1-m4-cD_4aod-a1-m4-cE 4aod-a1-m5-cA_4aod-a1-m5-cB 4aod-a1-m5-cA_4aod-a1-m5-cE 4aod-a1-m5-cB_4aod-a1-m5-cC 4aod-a1-m5-cC_4aod-a1-m5-cD 4aod-a1-m5-cD_4aod-a1-m5-cE 4aod-a1-m6-cA_4aod-a1-m6-cB 4aod-a1-m6-cA_4aod-a1-m6-cE 4aod-a1-m6-cB_4aod-a1-m6-cC 4aod-a1-m6-cC_4aod-a1-m6-cD 4aod-a1-m6-cD_4aod-a1-m6-cE 4aod-a1-m7-cA_4aod-a1-m7-cB 4aod-a1-m7-cA_4aod-a1-m7-cE 4aod-a1-m7-cB_4aod-a1-m7-cC 4aod-a1-m7-cC_4aod-a1-m7-cD 4aod-a1-m7-cD_4aod-a1-m7-cE 4aod-a1-m8-cA_4aod-a1-m8-cB 4aod-a1-m8-cA_4aod-a1-m8-cE 4aod-a1-m8-cB_4aod-a1-m8-cC 4aod-a1-m8-cC_4aod-a1-m8-cD 4aod-a1-m8-cD_4aod-a1-m8-cE 4aod-a1-m9-cA_4aod-a1-m9-cB 4aod-a1-m9-cA_4aod-a1-m9-cE 4aod-a1-m9-cB_4aod-a1-m9-cC 4aod-a1-m9-cC_4aod-a1-m9-cD SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP SRRSRSEILQDVLSRCSPLNIPIEDDQPVKVSFEYSLQKIFRADVENDEVDIGLWTTLVWKDRCLNWFNEFTSFKELTVPIAEIWTPDIFIFDSVGAPEIFSDKLARVSQDGTVTYVPQLKVRLSCPLADLKLETGVTCSLKSGSWTHSTQELTLEVNAKVDLGDYASDTRFQLLNATQQVNRKQYPCCPETYEDTTLSFTFRKP 4aoe-a1-m1-cA_4aoe-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 383 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cA_4aoe-a1-m8-cE 4aoe-a1-m10-cE_4aoe-a1-m3-cA 4aoe-a1-m11-cA_4aoe-a1-m6-cE 4aoe-a1-m11-cE_4aoe-a1-m4-cA 4aoe-a1-m12-cA_4aoe-a1-m7-cE 4aoe-a1-m12-cE_4aoe-a1-m2-cA 4aoe-a1-m1-cE_4aoe-a1-m5-cA 4aoe-a1-m2-cE_4aoe-a1-m7-cA 4aoe-a1-m3-cE_4aoe-a1-m8-cA 4aoe-a1-m4-cE_4aoe-a1-m6-cA 4aoe-a1-m5-cE_4aoe-a1-m9-cA TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m11-cC_4aoe-a1-m9-cC Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 109 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cC_4aoe-a1-m12-cC 4aoe-a1-m1-cC_4aoe-a1-m3-cC 4aoe-a1-m2-cC_4aoe-a1-m4-cC 4aoe-a1-m5-cC_4aoe-a1-m7-cC 4aoe-a1-m6-cC_4aoe-a1-m8-cC TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m11-cC_4aoe-a1-m9-cD Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 30 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cC_4aoe-a1-m12-cD 4aoe-a1-m10-cD_4aoe-a1-m12-cC 4aoe-a1-m11-cD_4aoe-a1-m9-cC 4aoe-a1-m1-cC_4aoe-a1-m3-cD 4aoe-a1-m1-cD_4aoe-a1-m3-cC 4aoe-a1-m2-cC_4aoe-a1-m4-cD 4aoe-a1-m2-cD_4aoe-a1-m4-cC 4aoe-a1-m5-cC_4aoe-a1-m7-cD 4aoe-a1-m5-cD_4aoe-a1-m7-cC 4aoe-a1-m6-cC_4aoe-a1-m8-cD 4aoe-a1-m6-cD_4aoe-a1-m8-cC TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m11-cD_4aoe-a1-m9-cD Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 430 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cD_4aoe-a1-m12-cD 4aoe-a1-m1-cD_4aoe-a1-m3-cD 4aoe-a1-m2-cD_4aoe-a1-m4-cD 4aoe-a1-m5-cD_4aoe-a1-m7-cD 4aoe-a1-m6-cD_4aoe-a1-m8-cD TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m5-cA_4aoe-a1-m9-cA Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 801 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cA_4aoe-a1-m3-cA 4aoe-a1-m10-cA_4aoe-a1-m8-cA 4aoe-a1-m11-cA_4aoe-a1-m4-cA 4aoe-a1-m11-cA_4aoe-a1-m6-cA 4aoe-a1-m12-cA_4aoe-a1-m2-cA 4aoe-a1-m12-cA_4aoe-a1-m7-cA 4aoe-a1-m1-cA_4aoe-a1-m5-cA 4aoe-a1-m1-cA_4aoe-a1-m9-cA 4aoe-a1-m2-cA_4aoe-a1-m7-cA 4aoe-a1-m3-cA_4aoe-a1-m8-cA 4aoe-a1-m4-cA_4aoe-a1-m6-cA TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m5-cA_4aoe-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 536 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cA_4aoe-a1-m3-cE 4aoe-a1-m10-cE_4aoe-a1-m8-cA 4aoe-a1-m11-cA_4aoe-a1-m4-cE 4aoe-a1-m11-cE_4aoe-a1-m6-cA 4aoe-a1-m12-cA_4aoe-a1-m2-cE 4aoe-a1-m12-cE_4aoe-a1-m7-cA 4aoe-a1-m1-cA_4aoe-a1-m5-cE 4aoe-a1-m1-cE_4aoe-a1-m9-cA 4aoe-a1-m2-cA_4aoe-a1-m7-cE 4aoe-a1-m3-cA_4aoe-a1-m8-cE 4aoe-a1-m4-cA_4aoe-a1-m6-cE TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m5-cB_4aoe-a1-m9-cD Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 113 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cB_4aoe-a1-m3-cD 4aoe-a1-m10-cD_4aoe-a1-m8-cB 4aoe-a1-m11-cB_4aoe-a1-m4-cD 4aoe-a1-m11-cD_4aoe-a1-m6-cB 4aoe-a1-m12-cB_4aoe-a1-m2-cD 4aoe-a1-m12-cD_4aoe-a1-m7-cB 4aoe-a1-m1-cB_4aoe-a1-m5-cD 4aoe-a1-m1-cD_4aoe-a1-m9-cB 4aoe-a1-m2-cB_4aoe-a1-m7-cD 4aoe-a1-m3-cB_4aoe-a1-m8-cD 4aoe-a1-m4-cB_4aoe-a1-m6-cD TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m5-cB_4aoe-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 631 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cB_4aoe-a1-m3-cE 4aoe-a1-m10-cE_4aoe-a1-m8-cB 4aoe-a1-m11-cB_4aoe-a1-m4-cE 4aoe-a1-m11-cE_4aoe-a1-m6-cB 4aoe-a1-m12-cB_4aoe-a1-m2-cE 4aoe-a1-m12-cE_4aoe-a1-m7-cB 4aoe-a1-m1-cB_4aoe-a1-m5-cE 4aoe-a1-m1-cE_4aoe-a1-m9-cB 4aoe-a1-m2-cB_4aoe-a1-m7-cE 4aoe-a1-m3-cB_4aoe-a1-m8-cE 4aoe-a1-m4-cB_4aoe-a1-m6-cE TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m5-cE_4aoe-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 53 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cE_4aoe-a1-m3-cE 4aoe-a1-m10-cE_4aoe-a1-m8-cE 4aoe-a1-m11-cE_4aoe-a1-m4-cE 4aoe-a1-m11-cE_4aoe-a1-m6-cE 4aoe-a1-m12-cE_4aoe-a1-m2-cE 4aoe-a1-m12-cE_4aoe-a1-m7-cE 4aoe-a1-m1-cE_4aoe-a1-m5-cE 4aoe-a1-m1-cE_4aoe-a1-m9-cE 4aoe-a1-m2-cE_4aoe-a1-m7-cE 4aoe-a1-m3-cE_4aoe-a1-m8-cE 4aoe-a1-m4-cE_4aoe-a1-m6-cE TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoe-a1-m9-cD_4aoe-a1-m9-cE Biomphalaria glabrata Acetylcholine-binding protein type 2 (BgAChBP2) J7JGR6 J7JGR6 6.0 ELECTRON MICROSCOPY 93 1.0 6526 (Biomphalaria glabrata) 6526 (Biomphalaria glabrata) 205 205 4aoe-a1-m10-cA_4aoe-a1-m10-cB 4aoe-a1-m10-cA_4aoe-a1-m10-cE 4aoe-a1-m10-cB_4aoe-a1-m10-cC 4aoe-a1-m10-cC_4aoe-a1-m10-cD 4aoe-a1-m10-cD_4aoe-a1-m10-cE 4aoe-a1-m11-cA_4aoe-a1-m11-cB 4aoe-a1-m11-cA_4aoe-a1-m11-cE 4aoe-a1-m11-cB_4aoe-a1-m11-cC 4aoe-a1-m11-cC_4aoe-a1-m11-cD 4aoe-a1-m11-cD_4aoe-a1-m11-cE 4aoe-a1-m12-cA_4aoe-a1-m12-cB 4aoe-a1-m12-cA_4aoe-a1-m12-cE 4aoe-a1-m12-cB_4aoe-a1-m12-cC 4aoe-a1-m12-cC_4aoe-a1-m12-cD 4aoe-a1-m12-cD_4aoe-a1-m12-cE 4aoe-a1-m1-cA_4aoe-a1-m1-cB 4aoe-a1-m1-cA_4aoe-a1-m1-cE 4aoe-a1-m1-cB_4aoe-a1-m1-cC 4aoe-a1-m1-cC_4aoe-a1-m1-cD 4aoe-a1-m1-cD_4aoe-a1-m1-cE 4aoe-a1-m2-cA_4aoe-a1-m2-cB 4aoe-a1-m2-cA_4aoe-a1-m2-cE 4aoe-a1-m2-cB_4aoe-a1-m2-cC 4aoe-a1-m2-cC_4aoe-a1-m2-cD 4aoe-a1-m2-cD_4aoe-a1-m2-cE 4aoe-a1-m3-cA_4aoe-a1-m3-cB 4aoe-a1-m3-cA_4aoe-a1-m3-cE 4aoe-a1-m3-cB_4aoe-a1-m3-cC 4aoe-a1-m3-cC_4aoe-a1-m3-cD 4aoe-a1-m3-cD_4aoe-a1-m3-cE 4aoe-a1-m4-cA_4aoe-a1-m4-cB 4aoe-a1-m4-cA_4aoe-a1-m4-cE 4aoe-a1-m4-cB_4aoe-a1-m4-cC 4aoe-a1-m4-cC_4aoe-a1-m4-cD 4aoe-a1-m4-cD_4aoe-a1-m4-cE 4aoe-a1-m5-cA_4aoe-a1-m5-cB 4aoe-a1-m5-cA_4aoe-a1-m5-cE 4aoe-a1-m5-cB_4aoe-a1-m5-cC 4aoe-a1-m5-cC_4aoe-a1-m5-cD 4aoe-a1-m5-cD_4aoe-a1-m5-cE 4aoe-a1-m6-cA_4aoe-a1-m6-cB 4aoe-a1-m6-cA_4aoe-a1-m6-cE 4aoe-a1-m6-cB_4aoe-a1-m6-cC 4aoe-a1-m6-cC_4aoe-a1-m6-cD 4aoe-a1-m6-cD_4aoe-a1-m6-cE 4aoe-a1-m7-cA_4aoe-a1-m7-cB 4aoe-a1-m7-cA_4aoe-a1-m7-cE 4aoe-a1-m7-cB_4aoe-a1-m7-cC 4aoe-a1-m7-cC_4aoe-a1-m7-cD 4aoe-a1-m7-cD_4aoe-a1-m7-cE 4aoe-a1-m8-cA_4aoe-a1-m8-cB 4aoe-a1-m8-cA_4aoe-a1-m8-cE 4aoe-a1-m8-cB_4aoe-a1-m8-cC 4aoe-a1-m8-cC_4aoe-a1-m8-cD 4aoe-a1-m8-cD_4aoe-a1-m8-cE 4aoe-a1-m9-cA_4aoe-a1-m9-cB 4aoe-a1-m9-cA_4aoe-a1-m9-cE 4aoe-a1-m9-cB_4aoe-a1-m9-cC 4aoe-a1-m9-cC_4aoe-a1-m9-cD TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI TKKSREEIVKEILGRANPNNIPIVDEQPVKVSFKYSLQDIYTADVGTDQVELGLWLVISWKDRSLSWSNECTTFNELTLPSKYIWLPHIEVYNSIGKPGIHSDQLVRVYKDGTVTFVPQYTIRFSCALENVTTEQGAACTLKFGPWTYDVRDLVLDESQQVDLTTYAGGERFQLIEAKQKVNKKTYPCCPQSFEDIELRVTFKKI 4aoo-a2-m2-cA_4aoo-a2-m3-cA B. subtilis dUTPase YncF in complex with dU PPi and Mg in H32 O31801 O31801 2.3 X-RAY DIFFRACTION 148 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 143 143 2baz-a1-m1-cA_2baz-a1-m1-cB 2baz-a1-m1-cA_2baz-a1-m1-cC 2baz-a1-m1-cB_2baz-a1-m1-cC 2xcd-a1-m1-cD_2xcd-a1-m1-cE 2xcd-a1-m1-cD_2xcd-a1-m1-cF 2xcd-a1-m1-cE_2xcd-a1-m1-cF 2xcd-a2-m1-cA_2xcd-a2-m1-cB 2xcd-a2-m1-cA_2xcd-a2-m1-cC 2xcd-a2-m1-cB_2xcd-a2-m1-cC 2xce-a1-m1-cA_2xce-a1-m1-cB 2xce-a1-m1-cA_2xce-a1-m1-cC 2xce-a1-m1-cB_2xce-a1-m1-cC 2xce-a2-m1-cD_2xce-a2-m1-cE 2xce-a2-m1-cD_2xce-a2-m1-cF 2xce-a2-m1-cE_2xce-a2-m1-cF 2xx6-a1-m1-cB_2xx6-a1-m1-cA 2xx6-a1-m1-cB_2xx6-a1-m1-cC 2xx6-a1-m1-cC_2xx6-a1-m1-cA 2xx6-a2-m1-cD_2xx6-a2-m2-cD 2xx6-a2-m1-cD_2xx6-a2-m3-cD 2xx6-a2-m2-cD_2xx6-a2-m3-cD 2xy3-a1-m1-cA_2xy3-a1-m1-cC 2xy3-a1-m1-cB_2xy3-a1-m1-cA 2xy3-a1-m1-cB_2xy3-a1-m1-cC 2xy3-a2-m1-cE_2xy3-a2-m1-cD 2xy3-a2-m1-cF_2xy3-a2-m1-cD 2xy3-a2-m1-cF_2xy3-a2-m1-cE 2y1t-a1-m1-cA_2y1t-a1-m1-cB 2y1t-a1-m1-cC_2y1t-a1-m1-cA 2y1t-a1-m1-cC_2y1t-a1-m1-cB 2y1t-a2-m1-cE_2y1t-a2-m1-cD 2y1t-a2-m1-cE_2y1t-a2-m1-cF 2y1t-a2-m1-cF_2y1t-a2-m1-cD 4ao5-a1-m1-cA_4ao5-a1-m1-cB 4ao5-a1-m1-cA_4ao5-a1-m1-cC 4ao5-a1-m1-cC_4ao5-a1-m1-cB 4ao5-a2-m1-cD_4ao5-a2-m1-cE 4ao5-a2-m1-cF_4ao5-a2-m1-cD 4ao5-a2-m1-cF_4ao5-a2-m1-cE 4aoo-a1-m1-cB_4aoo-a1-m1-cC 4aoo-a1-m1-cB_4aoo-a1-m1-cD 4aoo-a1-m1-cC_4aoo-a1-m1-cD 4aoo-a2-m1-cA_4aoo-a2-m2-cA 4aoo-a2-m1-cA_4aoo-a2-m3-cA 4aoz-a1-m1-cA_4aoz-a1-m1-cB 4aoz-a1-m1-cC_4aoz-a1-m1-cB 4apz-a10-m1-cV_4apz-a10-m1-cW 4apz-a10-m1-cV_4apz-a10-m1-cX 4apz-a10-m1-cW_4apz-a10-m1-cX 4apz-a11-m1-c2_4apz-a11-m1-c3 4apz-a11-m1-c2_4apz-a11-m1-c4 4apz-a11-m1-c3_4apz-a11-m1-c4 4apz-a12-m1-c5_4apz-a12-m1-c6 4apz-a12-m1-c5_4apz-a12-m1-c7 4apz-a12-m1-c6_4apz-a12-m1-c7 4apz-a13-m1-cJ_4apz-a13-m1-cK 4apz-a13-m1-cJ_4apz-a13-m1-cL 4apz-a13-m1-cK_4apz-a13-m1-cL 4apz-a14-m1-cG_4apz-a14-m1-cH 4apz-a14-m1-cG_4apz-a14-m1-cI 4apz-a14-m1-cH_4apz-a14-m1-cI 4apz-a15-m1-cc_4apz-a15-m1-cb 4apz-a15-m1-cc_4apz-a15-m1-cd 4apz-a15-m1-cd_4apz-a15-m1-cb 4apz-a16-m1-cM_4apz-a16-m1-cN 4apz-a16-m1-cM_4apz-a16-m1-cO 4apz-a16-m1-cN_4apz-a16-m1-cO 4apz-a1-m1-ck_4apz-a1-m1-cl 4apz-a1-m1-ck_4apz-a1-m1-cm 4apz-a1-m1-cl_4apz-a1-m1-cm 4apz-a2-m1-ce_4apz-a2-m1-cf 4apz-a2-m1-ce_4apz-a2-m1-cg 4apz-a2-m1-cf_4apz-a2-m1-cg 4apz-a3-m1-c1_4apz-a3-m1-cY 4apz-a3-m1-c1_4apz-a3-m1-cZ 4apz-a3-m1-cY_4apz-a3-m1-cZ 4apz-a4-m1-cP_4apz-a4-m1-cQ 4apz-a4-m1-cP_4apz-a4-m1-cR 4apz-a4-m1-cR_4apz-a4-m1-cQ 4apz-a5-m1-c8_4apz-a5-m1-c9 4apz-a5-m1-c8_4apz-a5-m1-ca 4apz-a5-m1-c9_4apz-a5-m1-ca 4apz-a6-m1-cS_4apz-a6-m1-cT 4apz-a6-m1-cS_4apz-a6-m1-cU 4apz-a6-m1-cT_4apz-a6-m1-cU 4apz-a7-m1-cD_4apz-a7-m1-cE 4apz-a7-m1-cD_4apz-a7-m1-cF 4apz-a7-m1-cE_4apz-a7-m1-cF 4apz-a8-m1-cB_4apz-a8-m1-cA 4apz-a8-m1-cB_4apz-a8-m1-cC 4apz-a8-m1-cC_4apz-a8-m1-cA 4apz-a9-m1-ch_4apz-a9-m1-ci 4apz-a9-m1-ch_4apz-a9-m1-cj 4apz-a9-m1-ci_4apz-a9-m1-cj 4b0h-a1-m1-cA_4b0h-a1-m1-cB 4b0h-a1-m1-cA_4b0h-a1-m1-cC 4b0h-a1-m1-cB_4b0h-a1-m1-cC TMQIKIKYLDETQTRISKIEQGDWIDLRAAEDVTIKKDEFKLVPLGVAMELPEGYEAHVVPRSSTYKNFGVIQTNSMGVIDESYKGDNDFWFFPAYALRDTEIKKGDRICQFRIMKKMPAVELVEVEHLGNEDRGGLGSTGTK TMQIKIKYLDETQTRISKIEQGDWIDLRAAEDVTIKKDEFKLVPLGVAMELPEGYEAHVVPRSSTYKNFGVIQTNSMGVIDESYKGDNDFWFFPAYALRDTEIKKGDRICQFRIMKKMPAVELVEVEHLGNEDRGGLGSTGTK 4aoy-a2-m1-cC_4aoy-a2-m1-cA Open CtIDH. The complex structures of Isocitrate dehydrogenase from Clostridium thermocellum and Desulfotalea psychrophila, support a new active site locking mechanism 2.35 X-RAY DIFFRACTION 214 0.997 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 371 376 4aou-a1-m1-cA_4aou-a1-m2-cA 4aoy-a1-m1-cB_4aoy-a1-m1-cD SKIKMKVPLVEMDGDEMTRIIWRLIKENLLEPYIELNTEYYDLGLENRDKTEDQVTIDAARAIQKYGVGVKCATITPNAQRVEEYNLKKMWKSPNGTIRAILDGTVFRAPIVVNSIKPFVKGWKKPISIARHNVEYYVPSAGKAELVFTSENGEVSRQTIHEFDGPGVIMGMHNTDKSIRSFARACFNYALDMNQDLWFSTKDTISKTYDHRFKDIFQEIYENEYKEKFEAKNLQYFYTLIDDAVARIIRSEGGMVWACKNDVMSDMVASAFGSLAMMTSVLVSPDGKYEFEAANSMATIFAWTGALKKRGELDGIKELVDFATKLEQASVQTIENGVMTKDLASLSEVPEKKIVNTEDFLKEIRKTFEGM SKIKMKVPLVEMDGDEMTRIIWRLIKENLLEPYIELNTEYYDLGLENRDKTEDQVTIDAARAIQKYGVGVKCATITPNAQRVEEYNLKKMWKSPNGTIRAILDGTVFRAPIVVNSIKPFVKGWKKPISIARHKNVEYYVPSAGKAELVFTSENGEVSRQTIHEFDGPGVIMGMHNTDKSIRSFARACFNYALDMNQDLWFSTKDTISKTYDHRFKDIFQEIYENEYKEKFEAKNLQYFYTLIDDAVARIIRSEGGMVWACKNDGDVMSDMVASAFGSLAMMTSVLVSPDGKYEFEATSTNSMATIFAWTGALKKRGELDGIKELVDFATKLEQASVQTIENGVMTKDLASLSEVPEKKIVNTEDFLKEIRKTFEGM 4ap5-a1-m1-cA_4ap5-a1-m1-cB Crystal structure of human POFUT2 Q9Y2G5 Q9Y2G5 3.003 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 389 389 SRRRYLLYDVNPPEGFNLRRDVYIRIASLLKTLLKTEEWVLVLPPWGRLYHWQSPDIHQVRIPWSEFFDLPSLNKNIPVIEYEQFIAESGGPFIDQVYVLQSYAEGWKEGTWEEKVDERPCIDQLLYSQDKHEYYRGWFWGYEETRGLNVSCLSVQGSASIVAPLLLRNTSARSVMLDRAENLLHDHYGGKEYWDTRRSMVFARHLREVGDEFRSRHLNSTDDADRIPFQEDWMKMKVKLGSALGGPYLGVHLRRKDFIWGHRQDVPSLEGAVRKIRSLMKTHRLDKVFVATDAVRKEYEELKKLLPEMVRFEPTWEELELYKDGGVAIIDQWICAHARFFIGTSVSTFSFRIHEEREILGLDPKTTYNRFCGDQEKACEQPTHWKITY SRRRYLLYDVNPPEGFNLRRDVYIRIASLLKTLLKTEEWVLVLPPWGRLYHWQSPDIHQVRIPWSEFFDLPSLNKNIPVIEYEQFIAESGGPFIDQVYVLQSYAEGWKEGTWEEKVDERPCIDQLLYSQDKHEYYRGWFWGYEETRGLNVSCLSVQGSASIVAPLLLRNTSARSVMLDRAENLLHDHYGGKEYWDTRRSMVFARHLREVGDEFRSRHLNSTDDADRIPFQEDWMKMKVKLGSALGGPYLGVHLRRKDFIWGHRQDVPSLEGAVRKIRSLMKTHRLDKVFVATDAVRKEYEELKKLLPEMVRFEPTWEELELYKDGGVAIIDQWICAHARFFIGTSVSTFSFRIHEEREILGLDPKTTYNRFCGDQEKACEQPTHWKITY 4ap9-a2-m5-cC_4ap9-a2-m7-cC Crystal structure of phosphoserine phosphatase from T. onnurineus in complex with NDSB-201 B6YX36 B6YX36 1.783 X-RAY DIFFRACTION 12 1.0 342948 (Thermococcus onnurineus) 342948 (Thermococcus onnurineus) 193 193 4ap9-a1-m1-cA_4ap9-a1-m2-cA 4ap9-a1-m1-cA_4ap9-a1-m3-cA 4ap9-a1-m1-cB_4ap9-a1-m2-cB 4ap9-a1-m1-cB_4ap9-a1-m3-cB 4ap9-a1-m2-cA_4ap9-a1-m4-cA 4ap9-a1-m2-cB_4ap9-a1-m4-cB 4ap9-a1-m3-cA_4ap9-a1-m4-cA 4ap9-a1-m3-cB_4ap9-a1-m4-cB 4ap9-a2-m1-cC_4ap9-a2-m6-cC 4ap9-a2-m1-cC_4ap9-a2-m7-cC 4ap9-a2-m1-cD_4ap9-a2-m6-cD 4ap9-a2-m1-cD_4ap9-a2-m7-cD 4ap9-a2-m5-cC_4ap9-a2-m6-cC 4ap9-a2-m5-cD_4ap9-a2-m6-cD 4ap9-a2-m5-cD_4ap9-a2-m7-cD 4b6j-a1-m1-cA_4b6j-a1-m1-cB 4b6j-a1-m1-cA_4b6j-a1-m2-cD 4b6j-a1-m1-cB_4b6j-a1-m2-cC 4b6j-a1-m1-cC_4b6j-a1-m1-cD 4b6j-a1-m1-cC_4b6j-a1-m2-cB 4b6j-a1-m1-cD_4b6j-a1-m2-cA 4b6j-a1-m2-cA_4b6j-a1-m2-cB 4b6j-a1-m2-cC_4b6j-a1-m2-cD GADPQFKKVAVIDIEGTLTDFEFWREARITGKREIEELLEKGLSGEVEWLDSLLKRVGLIRGIDEGTFLRTREKVNVSPEARELVETLREKGFKVVLISGSFEEVLEPFKELGDEFANRAIFEDGKFQGIRLRFRDKGEFLKRFRDGFILAGDGYADAKFERADGIAVGREIPGADLLVKDLKELVDFIKNLK GADPQFKKVAVIDIEGTLTDFEFWREARITGKREIEELLEKGLSGEVEWLDSLLKRVGLIRGIDEGTFLRTREKVNVSPEARELVETLREKGFKVVLISGSFEEVLEPFKELGDEFANRAIFEDGKFQGIRLRFRDKGEFLKRFRDGFILAGDGYADAKFERADGIAVGREIPGADLLVKDLKELVDFIKNLK 4ap9-a2-m7-cC_4ap9-a2-m7-cD Crystal structure of phosphoserine phosphatase from T. onnurineus in complex with NDSB-201 B6YX36 B6YX36 1.783 X-RAY DIFFRACTION 60 1.0 342948 (Thermococcus onnurineus) 342948 (Thermococcus onnurineus) 193 193 4ap9-a1-m1-cA_4ap9-a1-m1-cB 4ap9-a1-m2-cA_4ap9-a1-m2-cB 4ap9-a1-m3-cA_4ap9-a1-m3-cB 4ap9-a1-m4-cA_4ap9-a1-m4-cB 4ap9-a2-m1-cC_4ap9-a2-m1-cD 4ap9-a2-m5-cC_4ap9-a2-m5-cD 4ap9-a2-m6-cC_4ap9-a2-m6-cD 4b6j-a1-m1-cA_4b6j-a1-m1-cD 4b6j-a1-m1-cB_4b6j-a1-m1-cC 4b6j-a1-m2-cA_4b6j-a1-m2-cD 4b6j-a1-m2-cB_4b6j-a1-m2-cC GADPQFKKVAVIDIEGTLTDFEFWREARITGKREIEELLEKGLSGEVEWLDSLLKRVGLIRGIDEGTFLRTREKVNVSPEARELVETLREKGFKVVLISGSFEEVLEPFKELGDEFANRAIFEDGKFQGIRLRFRDKGEFLKRFRDGFILAGDGYADAKFERADGIAVGREIPGADLLVKDLKELVDFIKNLK GADPQFKKVAVIDIEGTLTDFEFWREARITGKREIEELLEKGLSGEVEWLDSLLKRVGLIRGIDEGTFLRTREKVNVSPEARELVETLREKGFKVVLISGSFEEVLEPFKELGDEFANRAIFEDGKFQGIRLRFRDKGEFLKRFRDGFILAGDGYADAKFERADGIAVGREIPGADLLVKDLKELVDFIKNLK 4aps-a1-m1-cA_4aps-a1-m1-cB Crystal structure of a POT family peptide transporter in an inward open conformation. Q5M4H8 Q5M4H8 3.3 X-RAY DIFFRACTION 76 1.0 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 446 446 7ac6-a1-m1-cY_7ac6-a1-m1-cA QPLGLSTLFMTEMWERFSYYGMRAILLYYMWFLISTGDLHITRATAASIMAIYASMVYLSGTIGGFVADRIIGARPAVFWGGVLIMLGHIVLALPFGASALFGSIILIIIGTGFLKPNVSTLVGTLYDEHDRRRDAGFSIFVFGINLGAFIAPLIVGAAQEAAGYHVAFSLAAIGMFIGLLVYYFGGKKTLDPHYLRPTDPLAPEEVKPLLVKVSLAVAGFIAIIVVMNLVGWNSLPAYINLLTIVAIAIPVFYFAWMIVVSYIPLFIAAVLFWAIEEQGSVVLATFAAERVDSSWFPVSWFQSLNPLFIMLYTPFFAWLWTAWKKNSPTKFAVGLMFAGLSFLLMAIPGALYGTSGKVSPLWLVGSWALVILGEMLISPVGLSVTTKLAPKAFNSQMMSMWFLSSSVGSALNAQLVTLYNAKSEVAYFSYFGLGSVVLGIVLVFL QPLGLSTLFMTEMWERFSYYGMRAILLYYMWFLISTGDLHITRATAASIMAIYASMVYLSGTIGGFVADRIIGARPAVFWGGVLIMLGHIVLALPFGASALFGSIILIIIGTGFLKPNVSTLVGTLYDEHDRRRDAGFSIFVFGINLGAFIAPLIVGAAQEAAGYHVAFSLAAIGMFIGLLVYYFGGKKTLDPHYLRPTDPLAPEEVKPLLVKVSLAVAGFIAIIVVMNLVGWNSLPAYINLLTIVAIAIPVFYFAWMIVVSYIPLFIAAVLFWAIEEQGSVVLATFAAERVDSSWFPVSWFQSLNPLFIMLYTPFFAWLWTAWKKNSPTKFAVGLMFAGLSFLLMAIPGALYGTSGKVSPLWLVGSWALVILGEMLISPVGLSVTTKLAPKAFNSQMMSMWFLSSSVGSALNAQLVTLYNAKSEVAYFSYFGLGSVVLGIVLVFL 4apt-a2-m1-cD_4apt-a2-m1-cC The structure of the AXH domain of ataxin-1. P54253 P54253 2.5 X-RAY DIFFRACTION 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 125 1oa8-a1-m1-cA_1oa8-a1-m1-cB 1oa8-a2-m1-cC_1oa8-a2-m1-cD 4apt-a1-m1-cA_4apt-a1-m1-cB 4aqp-a1-m1-cA_4aqp-a1-m1-cB 4aqp-a2-m1-cD_4aqp-a2-m1-cC AMAPPTLPPYFMKGSIIQLANGELKKVEDLKTEDFIQSAEISNDLKIDSSTVERIEDSHSPGVAVIQFAVGEHRAQVSVEVLVEYPFFVFGQGWSSCCPERTSQLFDLPCSKLSVGDVCISLTL AMAPPTLPPYFMKGSIIQLANGELKKVEDLKTEDFIQSAEISNDLKIDSSTVERIEDSHSPGVAVIQFAVGEHRAQVSVEVLVEYPFFVFGQGWSSCCPERTSQLFDLPCSKLSVGDVCISLTLK 4apv-a1-m1-cA_4apv-a1-m2-cA The Klebsiella pneumoniae primosomal PriB protein: identification, crystal structure, and ssDNA binding mode 2.095 X-RAY DIFFRACTION 103 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 97 97 TNRLELSGIICRTPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQMPVIISGHENQAITHSITVGSAVTVRGFISCHKALSKMVLHAEQIELID TNRLELSGIICRTPLRKVSPSGIPHCQFVLEHRSVQEEAGFHRQAWCQMPVIISGHENQAITHSITVGSAVTVRGFISCHKALSKMVLHAEQIELID 4apw-a1-m1-cH_4apw-a1-m1-cK Alp12 filament structure Q89A01 Q89A01 19.7 ELECTRON MICROSCOPY 100 1.0 1513 (Clostridium tetani) 1513 (Clostridium tetani) 323 323 4apw-a1-m1-cF_4apw-a1-m1-cI 4apw-a1-m1-cG_4apw-a1-m1-cJ TNEYVMTLDAGKYETKLIGKNKKGTTEDIKRVIFKTKIYNLEDGYIDIEGNSHKIELDGKEYLIGEQGVEDSSETSKTNLIHKLAAYTAITQVLDSNKNNKVQLVLACPLSVLRNAKAKEEYRDYIKGNGEITVKVDDKEYSFEITDITIKAEGSGVLFLEQENFKNKNVAVIDFGGLNMGFSLYRNCVVNPSERFIEEHGVKDLIIRVGDALTDLNNGNLITNEQAESALNNGYMKKGGEIDTESSTVIKKVKEKFLKDAIKLIEKRGFKLDQLDSLIFIGGTTQKLKEQISKTYPNNSIITNNSQWTTCEGLYKVAVAKYC TNEYVMTLDAGKYETKLIGKNKKGTTEDIKRVIFKTKIYNLEDGYIDIEGNSHKIELDGKEYLIGEQGVEDSSETSKTNLIHKLAAYTAITQVLDSNKNNKVQLVLACPLSVLRNAKAKEEYRDYIKGNGEITVKVDDKEYSFEITDITIKAEGSGVLFLEQENFKNKNVAVIDFGGLNMGFSLYRNCVVNPSERFIEEHGVKDLIIRVGDALTDLNNGNLITNEQAESALNNGYMKKGGEIDTESSTVIKKVKEKFLKDAIKLIEKRGFKLDQLDSLIFIGGTTQKLKEQISKTYPNNSIITNNSQWTTCEGLYKVAVAKYC 4apw-a1-m1-cL_4apw-a1-m1-cP Alp12 filament structure Q89A01 Q89A01 19.7 ELECTRON MICROSCOPY 58 1.0 1513 (Clostridium tetani) 1513 (Clostridium tetani) 323 323 4apw-a1-m1-cA_4apw-a1-m1-cE 4apw-a1-m1-cA_4apw-a1-m1-cF 4apw-a1-m1-cB_4apw-a1-m1-cF 4apw-a1-m1-cB_4apw-a1-m1-cG 4apw-a1-m1-cC_4apw-a1-m1-cG 4apw-a1-m1-cC_4apw-a1-m1-cH 4apw-a1-m1-cD_4apw-a1-m1-cH 4apw-a1-m1-cI_4apw-a1-m1-cM 4apw-a1-m1-cI_4apw-a1-m1-cN 4apw-a1-m1-cJ_4apw-a1-m1-cN 4apw-a1-m1-cJ_4apw-a1-m1-cO 4apw-a1-m1-cK_4apw-a1-m1-cO 4apw-a1-m1-cK_4apw-a1-m1-cP TNEYVMTLDAGKYETKLIGKNKKGTTEDIKRVIFKTKIYNLEDGYIDIEGNSHKIELDGKEYLIGEQGVEDSSETSKTNLIHKLAAYTAITQVLDSNKNNKVQLVLACPLSVLRNAKAKEEYRDYIKGNGEITVKVDDKEYSFEITDITIKAEGSGVLFLEQENFKNKNVAVIDFGGLNMGFSLYRNCVVNPSERFIEEHGVKDLIIRVGDALTDLNNGNLITNEQAESALNNGYMKKGGEIDTESSTVIKKVKEKFLKDAIKLIEKRGFKLDQLDSLIFIGGTTQKLKEQISKTYPNNSIITNNSQWTTCEGLYKVAVAKYC TNEYVMTLDAGKYETKLIGKNKKGTTEDIKRVIFKTKIYNLEDGYIDIEGNSHKIELDGKEYLIGEQGVEDSSETSKTNLIHKLAAYTAITQVLDSNKNNKVQLVLACPLSVLRNAKAKEEYRDYIKGNGEITVKVDDKEYSFEITDITIKAEGSGVLFLEQENFKNKNVAVIDFGGLNMGFSLYRNCVVNPSERFIEEHGVKDLIIRVGDALTDLNNGNLITNEQAESALNNGYMKKGGEIDTESSTVIKKVKEKFLKDAIKLIEKRGFKLDQLDSLIFIGGTTQKLKEQISKTYPNNSIITNNSQWTTCEGLYKVAVAKYC 4apw-a1-m1-cO_4apw-a1-m1-cP Alp12 filament structure Q89A01 Q89A01 19.7 ELECTRON MICROSCOPY 135 1.0 1513 (Clostridium tetani) 1513 (Clostridium tetani) 323 323 4apw-a1-m1-cA_4apw-a1-m1-cB 4apw-a1-m1-cB_4apw-a1-m1-cC 4apw-a1-m1-cC_4apw-a1-m1-cD 4apw-a1-m1-cE_4apw-a1-m1-cF 4apw-a1-m1-cF_4apw-a1-m1-cG 4apw-a1-m1-cG_4apw-a1-m1-cH 4apw-a1-m1-cI_4apw-a1-m1-cJ 4apw-a1-m1-cJ_4apw-a1-m1-cK 4apw-a1-m1-cK_4apw-a1-m1-cL 4apw-a1-m1-cM_4apw-a1-m1-cN 4apw-a1-m1-cN_4apw-a1-m1-cO TNEYVMTLDAGKYETKLIGKNKKGTTEDIKRVIFKTKIYNLEDGYIDIEGNSHKIELDGKEYLIGEQGVEDSSETSKTNLIHKLAAYTAITQVLDSNKNNKVQLVLACPLSVLRNAKAKEEYRDYIKGNGEITVKVDDKEYSFEITDITIKAEGSGVLFLEQENFKNKNVAVIDFGGLNMGFSLYRNCVVNPSERFIEEHGVKDLIIRVGDALTDLNNGNLITNEQAESALNNGYMKKGGEIDTESSTVIKKVKEKFLKDAIKLIEKRGFKLDQLDSLIFIGGTTQKLKEQISKTYPNNSIITNNSQWTTCEGLYKVAVAKYC TNEYVMTLDAGKYETKLIGKNKKGTTEDIKRVIFKTKIYNLEDGYIDIEGNSHKIELDGKEYLIGEQGVEDSSETSKTNLIHKLAAYTAITQVLDSNKNNKVQLVLACPLSVLRNAKAKEEYRDYIKGNGEITVKVDDKEYSFEITDITIKAEGSGVLFLEQENFKNKNVAVIDFGGLNMGFSLYRNCVVNPSERFIEEHGVKDLIIRVGDALTDLNNGNLITNEQAESALNNGYMKKGGEIDTESSTVIKKVKEKFLKDAIKLIEKRGFKLDQLDSLIFIGGTTQKLKEQISKTYPNNSIITNNSQWTTCEGLYKVAVAKYC 4apy-a1-m1-cA_4apy-a1-m2-cA Ethylene glycol-bound form of P450 CYP125A3 from Mycobacterium smegmatis A0R4Y3 A0R4Y3 2 X-RAY DIFFRACTION 49 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 414 414 PTPNIPSDFDFLDATLNLERLPVEELAELRKSEPIHWVDVPGGTGGFGDKGYWLVTKHADVKEVSRRSDVFGSSPDGAIPVWPQDMTREAVDLQRAVLLNMDAPQHTRLRKIISRGFTPRAIGRLEDELRSRAQKIAQTAAAQGAGDFVEQVSCELPLQAIAELLGVPQDDRDKLFRWSNEMTAGEDPEYADVDPAMSSFELISYAMKMAEERAVNPTEDIVTKLIEADIDGEKLSDDEFGFFVVMLAVAGNETTRNSITHGMIAFAQNPDQWELYKKERPETAADEIVRWATPVSAFQRTALEDVELGGVQIKKGQRVVMSYRSANFDEEVFEDPHTFNILRSPNPHVGFGGTGAHYCIGANLARMTINLIFNAIADNMPDLKPIGAPERLKSGWLNGIKHWQVDYTGAGKAS PTPNIPSDFDFLDATLNLERLPVEELAELRKSEPIHWVDVPGGTGGFGDKGYWLVTKHADVKEVSRRSDVFGSSPDGAIPVWPQDMTREAVDLQRAVLLNMDAPQHTRLRKIISRGFTPRAIGRLEDELRSRAQKIAQTAAAQGAGDFVEQVSCELPLQAIAELLGVPQDDRDKLFRWSNEMTAGEDPEYADVDPAMSSFELISYAMKMAEERAVNPTEDIVTKLIEADIDGEKLSDDEFGFFVVMLAVAGNETTRNSITHGMIAFAQNPDQWELYKKERPETAADEIVRWATPVSAFQRTALEDVELGGVQIKKGQRVVMSYRSANFDEEVFEDPHTFNILRSPNPHVGFGGTGAHYCIGANLARMTINLIFNAIADNMPDLKPIGAPERLKSGWLNGIKHWQVDYTGAGKAS 4aqj-a1-m1-cA_4aqj-a1-m2-cA Structure of human S100A7 D24G bound to zinc and calcium P31151 P31151 1.6 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 1psr-a1-m1-cA_1psr-a1-m1-cB 2psr-a1-m1-cA_2psr-a1-m2-cA 2wnd-a1-m1-cA_2wnd-a1-m2-cA 2wor-a1-m1-cA_2wor-a1-m2-cA 2wos-a1-m1-cA_2wos-a1-m2-cA 3psr-a1-m1-cA_3psr-a1-m1-cB 4aqi-a1-m1-cA_4aqi-a1-m2-cA SNTQAERSIIGMIDMFHKYTRRDGKIDKPSLLTMMKENFPNFLSACDKKGTNYLADVFEKKDKNEDKKIDFSEFLSLLGDIATDYHKQSHGAAPCS SNTQAERSIIGMIDMFHKYTRRDGKIDKPSLLTMMKENFPNFLSACDKKGTNYLADVFEKKDKNEDKKIDFSEFLSLLGDIATDYHKQSHGAAPCS 4aql-a1-m1-cA_4aql-a1-m2-cA HUMAN GUANINE DEAMINASE IN COMPLEX WITH VALACYCLOVIR Q9Y2T3 Q9Y2T3 1.99 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 2uz9-a1-m1-cA_2uz9-a1-m2-cA 3e0l-a1-m1-cA_3e0l-a1-m1-cB LAHIFRGTFVHSTWTCPMEVLRDHLLGVSDSGKIVFLEEASQQEKLAKEWCFKPCEIRELSHHEFFMPGLVDTHIHASQYSFAGSSIDLPLLEWLTKYTFPAEHRFQNIDFAEEVYTRVVRRTLKNGTTTACYFATIHTDSSLLLADITDKFGQRAFVGKVCMDLNDTFPEYKETTEESIKETERFVSEMLQKNYSRVKPIVTPRFSLSCSETLMGELGNIAKTRDLHIQSHISENRDEVEAVKNLYPSYKNYTSVYDKNNLLTNKTVMAHGCYLSAEELNVFHERGASIAHCPNSNLSLSSGFLNVLEVLKHEVKIGLGTDVAGGYSYSMLDAIRRAVMVSNILLINKVNEKSLTLKEVFRLATLGGSQALGLDGEIGNFEVGKEFDAILINPKASDSPIDLFYGDFFGDISEAVIQKFLYLGDDRNIEEVYVGGKQVVPF LAHIFRGTFVHSTWTCPMEVLRDHLLGVSDSGKIVFLEEASQQEKLAKEWCFKPCEIRELSHHEFFMPGLVDTHIHASQYSFAGSSIDLPLLEWLTKYTFPAEHRFQNIDFAEEVYTRVVRRTLKNGTTTACYFATIHTDSSLLLADITDKFGQRAFVGKVCMDLNDTFPEYKETTEESIKETERFVSEMLQKNYSRVKPIVTPRFSLSCSETLMGELGNIAKTRDLHIQSHISENRDEVEAVKNLYPSYKNYTSVYDKNNLLTNKTVMAHGCYLSAEELNVFHERGASIAHCPNSNLSLSSGFLNVLEVLKHEVKIGLGTDVAGGYSYSMLDAIRRAVMVSNILLINKVNEKSLTLKEVFRLATLGGSQALGLDGEIGNFEVGKEFDAILINPKASDSPIDLFYGDFFGDISEAVIQKFLYLGDDRNIEEVYVGGKQVVPF 4aqn-a1-m1-cB_4aqn-a1-m1-cA Crystal structure of pesticin from Y. pestis Q57159 Q57159 1.98 X-RAY DIFFRACTION 44 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 338 340 VPAFLFSGSTLSSYRITIALPHYVDLPGRSNFKLMYIMGFPIDTEMEKDSEYSNKIRQESKISKTEGTVSYEQKITVETGQEKDGVKVYRVMVLEGTIAESIEHLDKKENEDILNNNRNRIVLADNTVINFDNISQLKEFLRRSVNIVDHDIFSSNGFEGFNPTSHFPSNPSSDYFNSTGVTFGSGVDLGQRSKQDLLNDGVPQYIADRLDGYYMLRGKEAYDKVRTAPLTLSDNEAHLLSNIYIDKFSHKIEGLFNDANIGLRFSDLPLRTRTALVSIGYQKGFKLSRTAPTVWNKVIAKDWNGLVNAFNNIVDGMSDRRKREGALVQKDIDSGLLK VPAFLFSGSTLSSYRPNITIALPHYVDLPGRSNFKLMYIMGFPIDTEMEKDSEYSNKIRQESKISKTEGTVSYEQKITVETGQEKDGVKVYRVMVLEGTIAESIEHLDKKENEDILNNNRNRIVLADNTVINFDNISQLKEFLRRSVNIVDHDIFSSNGFEGFNPTSHFPSNPSSDYFNSTGVTFGSGVDLGQRSKQDLLNDGVPQYIADRLDGYYMLRGKEAYDKVRTAPLTLSDNEAHLLSNIYIDKFSHKIEGLFNDANIGLRFSDLPLRTRTALVSIGYQKGFKLSRTAPTVWNKVIAKDWNGLVNAFNNIVDGMSDRRKREGALVQKDIDSGLLK 4aqt-a1-m1-cA_4aqt-a1-m2-cA Laminin gamma1 LN-LE1-2 structure P02468 P02468 3.2 X-RAY DIFFRACTION 80 1.0 10090 (Mus musculus) 10090 (Mus musculus) 356 356 ECADEGGRPQRCMPEFVNAAFNVTVVATNTCGTPPEEYCVQTVTKSCHLCDAGQQHLQHGAAFLTDYNNQADTTWWQSQTMLAGVQYPNSINLTLHLGKAFDITYVRLKFHTSRPESFAIYKRTREDGPWIPYQYYSGSCENTYSKANRGFIRTGGDEQQALCTDEFSDISPLTGGNVAFSTLEGRPSAYNFDNSPVLQEWVTATDIRVTLNRLNTFGDEVFNEPKVLKSYYYAISDFAVGGRCKCNGHASECVKNEFDKLMCNCKHNTYGVDCEKCLPFFNDRPWRRATAESASECLPCDCNGRSQECYFDPELYRSTGHGGHCTNCRDNTDGAKCERCRENFFRLGNTEACSPA ECADEGGRPQRCMPEFVNAAFNVTVVATNTCGTPPEEYCVQTVTKSCHLCDAGQQHLQHGAAFLTDYNNQADTTWWQSQTMLAGVQYPNSINLTLHLGKAFDITYVRLKFHTSRPESFAIYKRTREDGPWIPYQYYSGSCENTYSKANRGFIRTGGDEQQALCTDEFSDISPLTGGNVAFSTLEGRPSAYNFDNSPVLQEWVTATDIRVTLNRLNTFGDEVFNEPKVLKSYYYAISDFAVGGRCKCNGHASECVKNEFDKLMCNCKHNTYGVDCEKCLPFFNDRPWRRATAESASECLPCDCNGRSQECYFDPELYRSTGHGGHCTNCRDNTDGAKCERCRENFFRLGNTEACSPA 4ar2-a1-m57-cA_4ar2-a1-m9-cA Dodecahedron formed of penton base protein from adenovirus Ad3 Q2Y0H9 Q2Y0H9 3.8 X-RAY DIFFRACTION 21 1.0 45659 (Human adenovirus B3) 45659 (Human adenovirus B3) 455 455 4aqq-a1-m10-cA_4aqq-a1-m25-cA 4aqq-a1-m10-cA_4aqq-a1-m55-cA 4aqq-a1-m11-cA_4aqq-a1-m17-cA 4aqq-a1-m11-cA_4aqq-a1-m29-cA 4aqq-a1-m12-cA_4aqq-a1-m16-cA 4aqq-a1-m12-cA_4aqq-a1-m39-cA 4aqq-a1-m13-cA_4aqq-a1-m38-cA 4aqq-a1-m13-cA_4aqq-a1-m48-cA 4aqq-a1-m14-cA_4aqq-a1-m41-cA 4aqq-a1-m14-cA_4aqq-a1-m47-cA 4aqq-a1-m15-cA_4aqq-a1-m30-cA 4aqq-a1-m15-cA_4aqq-a1-m45-cA 4aqq-a1-m16-cA_4aqq-a1-m39-cA 4aqq-a1-m17-cA_4aqq-a1-m29-cA 4aqq-a1-m18-cA_4aqq-a1-m28-cA 4aqq-a1-m18-cA_4aqq-a1-m53-cA 4aqq-a1-m19-cA_4aqq-a1-m52-cA 4aqq-a1-m19-cA_4aqq-a1-m56-cA 4aqq-a1-m1-cA_4aqq-a1-m34-cA 4aqq-a1-m1-cA_4aqq-a1-m7-cA 4aqq-a1-m20-cA_4aqq-a1-m40-cA 4aqq-a1-m20-cA_4aqq-a1-m60-cA 4aqq-a1-m21-cA_4aqq-a1-m27-cA 4aqq-a1-m21-cA_4aqq-a1-m54-cA 4aqq-a1-m22-cA_4aqq-a1-m26-cA 4aqq-a1-m22-cA_4aqq-a1-m44-cA 4aqq-a1-m23-cA_4aqq-a1-m3-cA 4aqq-a1-m23-cA_4aqq-a1-m43-cA 4aqq-a1-m24-cA_4aqq-a1-m6-cA 4aqq-a1-m25-cA_4aqq-a1-m55-cA 4aqq-a1-m26-cA_4aqq-a1-m44-cA 4aqq-a1-m27-cA_4aqq-a1-m54-cA 4aqq-a1-m28-cA_4aqq-a1-m53-cA 4aqq-a1-m2-cA_4aqq-a1-m24-cA 4aqq-a1-m2-cA_4aqq-a1-m6-cA 4aqq-a1-m30-cA_4aqq-a1-m45-cA 4aqq-a1-m31-cA_4aqq-a1-m37-cA 4aqq-a1-m31-cA_4aqq-a1-m49-cA 4aqq-a1-m32-cA_4aqq-a1-m36-cA 4aqq-a1-m32-cA_4aqq-a1-m59-cA 4aqq-a1-m33-cA_4aqq-a1-m58-cA 4aqq-a1-m33-cA_4aqq-a1-m8-cA 4aqq-a1-m34-cA_4aqq-a1-m7-cA 4aqq-a1-m35-cA_4aqq-a1-m50-cA 4aqq-a1-m35-cA_4aqq-a1-m5-cA 4aqq-a1-m36-cA_4aqq-a1-m59-cA 4aqq-a1-m37-cA_4aqq-a1-m49-cA 4aqq-a1-m38-cA_4aqq-a1-m48-cA 4aqq-a1-m3-cA_4aqq-a1-m43-cA 4aqq-a1-m40-cA_4aqq-a1-m60-cA 4aqq-a1-m41-cA_4aqq-a1-m47-cA 4aqq-a1-m42-cA_4aqq-a1-m46-cA 4aqq-a1-m4-cA_4aqq-a1-m42-cA 4aqq-a1-m4-cA_4aqq-a1-m46-cA 4aqq-a1-m51-cA_4aqq-a1-m57-cA 4aqq-a1-m51-cA_4aqq-a1-m9-cA 4aqq-a1-m52-cA_4aqq-a1-m56-cA 4aqq-a1-m57-cA_4aqq-a1-m9-cA 4aqq-a1-m58-cA_4aqq-a1-m8-cA 4aqq-a1-m5-cA_4aqq-a1-m50-cA 4ar2-a1-m10-cA_4ar2-a1-m25-cA 4ar2-a1-m10-cA_4ar2-a1-m55-cA 4ar2-a1-m11-cA_4ar2-a1-m17-cA 4ar2-a1-m11-cA_4ar2-a1-m29-cA 4ar2-a1-m12-cA_4ar2-a1-m16-cA 4ar2-a1-m12-cA_4ar2-a1-m39-cA 4ar2-a1-m13-cA_4ar2-a1-m38-cA 4ar2-a1-m13-cA_4ar2-a1-m48-cA 4ar2-a1-m14-cA_4ar2-a1-m41-cA 4ar2-a1-m14-cA_4ar2-a1-m47-cA 4ar2-a1-m15-cA_4ar2-a1-m30-cA 4ar2-a1-m15-cA_4ar2-a1-m45-cA 4ar2-a1-m16-cA_4ar2-a1-m39-cA 4ar2-a1-m17-cA_4ar2-a1-m29-cA 4ar2-a1-m18-cA_4ar2-a1-m28-cA 4ar2-a1-m18-cA_4ar2-a1-m53-cA 4ar2-a1-m19-cA_4ar2-a1-m52-cA 4ar2-a1-m19-cA_4ar2-a1-m56-cA 4ar2-a1-m1-cA_4ar2-a1-m34-cA 4ar2-a1-m1-cA_4ar2-a1-m7-cA 4ar2-a1-m20-cA_4ar2-a1-m40-cA 4ar2-a1-m20-cA_4ar2-a1-m60-cA 4ar2-a1-m21-cA_4ar2-a1-m27-cA 4ar2-a1-m21-cA_4ar2-a1-m54-cA 4ar2-a1-m22-cA_4ar2-a1-m26-cA 4ar2-a1-m22-cA_4ar2-a1-m44-cA 4ar2-a1-m23-cA_4ar2-a1-m3-cA 4ar2-a1-m23-cA_4ar2-a1-m43-cA 4ar2-a1-m24-cA_4ar2-a1-m6-cA 4ar2-a1-m25-cA_4ar2-a1-m55-cA 4ar2-a1-m26-cA_4ar2-a1-m44-cA 4ar2-a1-m27-cA_4ar2-a1-m54-cA 4ar2-a1-m28-cA_4ar2-a1-m53-cA 4ar2-a1-m2-cA_4ar2-a1-m24-cA 4ar2-a1-m2-cA_4ar2-a1-m6-cA 4ar2-a1-m30-cA_4ar2-a1-m45-cA 4ar2-a1-m31-cA_4ar2-a1-m37-cA 4ar2-a1-m31-cA_4ar2-a1-m49-cA 4ar2-a1-m32-cA_4ar2-a1-m36-cA 4ar2-a1-m32-cA_4ar2-a1-m59-cA 4ar2-a1-m33-cA_4ar2-a1-m58-cA 4ar2-a1-m33-cA_4ar2-a1-m8-cA 4ar2-a1-m34-cA_4ar2-a1-m7-cA 4ar2-a1-m35-cA_4ar2-a1-m50-cA 4ar2-a1-m35-cA_4ar2-a1-m5-cA 4ar2-a1-m36-cA_4ar2-a1-m59-cA 4ar2-a1-m37-cA_4ar2-a1-m49-cA 4ar2-a1-m38-cA_4ar2-a1-m48-cA 4ar2-a1-m3-cA_4ar2-a1-m43-cA 4ar2-a1-m40-cA_4ar2-a1-m60-cA 4ar2-a1-m41-cA_4ar2-a1-m47-cA 4ar2-a1-m42-cA_4ar2-a1-m46-cA 4ar2-a1-m4-cA_4ar2-a1-m42-cA 4ar2-a1-m4-cA_4ar2-a1-m46-cA 4ar2-a1-m51-cA_4ar2-a1-m57-cA 4ar2-a1-m51-cA_4ar2-a1-m9-cA 4ar2-a1-m52-cA_4ar2-a1-m56-cA 4ar2-a1-m58-cA_4ar2-a1-m8-cA 4ar2-a1-m5-cA_4ar2-a1-m50-cA PTEGRNSIRYSELSPLYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTINFDERSRWGGQLKTIMHTNMPNVNEYMFSNKFKARVMVSRKAPEGVTVNDTYDHKEDILKYEWFEFILPEGNFSATMTIDLMNNAIIDNYLEIGRQNGVLESDIGVKFDTRNFRLGWDPETKLIMPGVYTYEAFHPDIVLLPGCGVDFTESRLSNLLGIRKRHPFQEGFKIMYEDLEGGNIPALLDVTAYEESKKDKKELKIQPLEKDSKSRSYNVLEDKINTAYRSWYLSYNYGNPEKGIRSWTLLTTSDVTCGAEQVYWSLPDMMQDPVTFRSTRQVNNYPVVGAELMPVFSKSFYNEQAVYSQQLRQATSLTHVFNRFPENQILIRPPAPTITTVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSR PTEGRNSIRYSELSPLYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTINFDERSRWGGQLKTIMHTNMPNVNEYMFSNKFKARVMVSRKAPEGVTVNDTYDHKEDILKYEWFEFILPEGNFSATMTIDLMNNAIIDNYLEIGRQNGVLESDIGVKFDTRNFRLGWDPETKLIMPGVYTYEAFHPDIVLLPGCGVDFTESRLSNLLGIRKRHPFQEGFKIMYEDLEGGNIPALLDVTAYEESKKDKKELKIQPLEKDSKSRSYNVLEDKINTAYRSWYLSYNYGNPEKGIRSWTLLTTSDVTCGAEQVYWSLPDMMQDPVTFRSTRQVNNYPVVGAELMPVFSKSFYNEQAVYSQQLRQATSLTHVFNRFPENQILIRPPAPTITTVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSR 4ar2-a1-m58-cA_4ar2-a1-m9-cA Dodecahedron formed of penton base protein from adenovirus Ad3 Q2Y0H9 Q2Y0H9 3.8 X-RAY DIFFRACTION 90 1.0 45659 (Human adenovirus B3) 45659 (Human adenovirus B3) 455 455 4aqq-a1-m10-cA_4aqq-a1-m51-cA 4aqq-a1-m11-cA_4aqq-a1-m30-cA 4aqq-a1-m12-cA_4aqq-a1-m17-cA 4aqq-a1-m13-cA_4aqq-a1-m39-cA 4aqq-a1-m14-cA_4aqq-a1-m48-cA 4aqq-a1-m15-cA_4aqq-a1-m41-cA 4aqq-a1-m16-cA_4aqq-a1-m40-cA 4aqq-a1-m18-cA_4aqq-a1-m29-cA 4aqq-a1-m19-cA_4aqq-a1-m53-cA 4aqq-a1-m1-cA_4aqq-a1-m35-cA 4aqq-a1-m20-cA_4aqq-a1-m56-cA 4aqq-a1-m21-cA_4aqq-a1-m55-cA 4aqq-a1-m22-cA_4aqq-a1-m27-cA 4aqq-a1-m23-cA_4aqq-a1-m44-cA 4aqq-a1-m24-cA_4aqq-a1-m3-cA 4aqq-a1-m25-cA_4aqq-a1-m6-cA 4aqq-a1-m26-cA_4aqq-a1-m45-cA 4aqq-a1-m28-cA_4aqq-a1-m54-cA 4aqq-a1-m2-cA_4aqq-a1-m7-cA 4aqq-a1-m31-cA_4aqq-a1-m50-cA 4aqq-a1-m32-cA_4aqq-a1-m37-cA 4aqq-a1-m33-cA_4aqq-a1-m59-cA 4aqq-a1-m34-cA_4aqq-a1-m8-cA 4aqq-a1-m36-cA_4aqq-a1-m60-cA 4aqq-a1-m38-cA_4aqq-a1-m49-cA 4aqq-a1-m42-cA_4aqq-a1-m47-cA 4aqq-a1-m46-cA_4aqq-a1-m5-cA 4aqq-a1-m4-cA_4aqq-a1-m43-cA 4aqq-a1-m52-cA_4aqq-a1-m57-cA 4aqq-a1-m58-cA_4aqq-a1-m9-cA 4ar2-a1-m10-cA_4ar2-a1-m51-cA 4ar2-a1-m11-cA_4ar2-a1-m30-cA 4ar2-a1-m12-cA_4ar2-a1-m17-cA 4ar2-a1-m13-cA_4ar2-a1-m39-cA 4ar2-a1-m14-cA_4ar2-a1-m48-cA 4ar2-a1-m15-cA_4ar2-a1-m41-cA 4ar2-a1-m16-cA_4ar2-a1-m40-cA 4ar2-a1-m18-cA_4ar2-a1-m29-cA 4ar2-a1-m19-cA_4ar2-a1-m53-cA 4ar2-a1-m1-cA_4ar2-a1-m35-cA 4ar2-a1-m20-cA_4ar2-a1-m56-cA 4ar2-a1-m21-cA_4ar2-a1-m55-cA 4ar2-a1-m22-cA_4ar2-a1-m27-cA 4ar2-a1-m23-cA_4ar2-a1-m44-cA 4ar2-a1-m24-cA_4ar2-a1-m3-cA 4ar2-a1-m25-cA_4ar2-a1-m6-cA 4ar2-a1-m26-cA_4ar2-a1-m45-cA 4ar2-a1-m28-cA_4ar2-a1-m54-cA 4ar2-a1-m2-cA_4ar2-a1-m7-cA 4ar2-a1-m31-cA_4ar2-a1-m50-cA 4ar2-a1-m32-cA_4ar2-a1-m37-cA 4ar2-a1-m33-cA_4ar2-a1-m59-cA 4ar2-a1-m34-cA_4ar2-a1-m8-cA 4ar2-a1-m36-cA_4ar2-a1-m60-cA 4ar2-a1-m38-cA_4ar2-a1-m49-cA 4ar2-a1-m42-cA_4ar2-a1-m47-cA 4ar2-a1-m46-cA_4ar2-a1-m5-cA 4ar2-a1-m4-cA_4ar2-a1-m43-cA 4ar2-a1-m52-cA_4ar2-a1-m57-cA PTEGRNSIRYSELSPLYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTINFDERSRWGGQLKTIMHTNMPNVNEYMFSNKFKARVMVSRKAPEGVTVNDTYDHKEDILKYEWFEFILPEGNFSATMTIDLMNNAIIDNYLEIGRQNGVLESDIGVKFDTRNFRLGWDPETKLIMPGVYTYEAFHPDIVLLPGCGVDFTESRLSNLLGIRKRHPFQEGFKIMYEDLEGGNIPALLDVTAYEESKKDKKELKIQPLEKDSKSRSYNVLEDKINTAYRSWYLSYNYGNPEKGIRSWTLLTTSDVTCGAEQVYWSLPDMMQDPVTFRSTRQVNNYPVVGAELMPVFSKSFYNEQAVYSQQLRQATSLTHVFNRFPENQILIRPPAPTITTVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSR PTEGRNSIRYSELSPLYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTINFDERSRWGGQLKTIMHTNMPNVNEYMFSNKFKARVMVSRKAPEGVTVNDTYDHKEDILKYEWFEFILPEGNFSATMTIDLMNNAIIDNYLEIGRQNGVLESDIGVKFDTRNFRLGWDPETKLIMPGVYTYEAFHPDIVLLPGCGVDFTESRLSNLLGIRKRHPFQEGFKIMYEDLEGGNIPALLDVTAYEESKKDKKELKIQPLEKDSKSRSYNVLEDKINTAYRSWYLSYNYGNPEKGIRSWTLLTTSDVTCGAEQVYWSLPDMMQDPVTFRSTRQVNNYPVVGAELMPVFSKSFYNEQAVYSQQLRQATSLTHVFNRFPENQILIRPPAPTITTVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSR 4ar2-a1-m8-cA_4ar2-a1-m9-cA Dodecahedron formed of penton base protein from adenovirus Ad3 Q2Y0H9 Q2Y0H9 3.8 X-RAY DIFFRACTION 193 1.0 45659 (Human adenovirus B3) 45659 (Human adenovirus B3) 455 455 4aqq-a1-m10-cA_4aqq-a1-m6-cA 4aqq-a1-m10-cA_4aqq-a1-m9-cA 4aqq-a1-m11-cA_4aqq-a1-m12-cA 4aqq-a1-m11-cA_4aqq-a1-m15-cA 4aqq-a1-m12-cA_4aqq-a1-m13-cA 4aqq-a1-m13-cA_4aqq-a1-m14-cA 4aqq-a1-m14-cA_4aqq-a1-m15-cA 4aqq-a1-m16-cA_4aqq-a1-m17-cA 4aqq-a1-m16-cA_4aqq-a1-m20-cA 4aqq-a1-m17-cA_4aqq-a1-m18-cA 4aqq-a1-m18-cA_4aqq-a1-m19-cA 4aqq-a1-m19-cA_4aqq-a1-m20-cA 4aqq-a1-m1-cA_4aqq-a1-m2-cA 4aqq-a1-m1-cA_4aqq-a1-m5-cA 4aqq-a1-m21-cA_4aqq-a1-m22-cA 4aqq-a1-m21-cA_4aqq-a1-m25-cA 4aqq-a1-m22-cA_4aqq-a1-m23-cA 4aqq-a1-m23-cA_4aqq-a1-m24-cA 4aqq-a1-m24-cA_4aqq-a1-m25-cA 4aqq-a1-m26-cA_4aqq-a1-m27-cA 4aqq-a1-m26-cA_4aqq-a1-m30-cA 4aqq-a1-m27-cA_4aqq-a1-m28-cA 4aqq-a1-m28-cA_4aqq-a1-m29-cA 4aqq-a1-m29-cA_4aqq-a1-m30-cA 4aqq-a1-m2-cA_4aqq-a1-m3-cA 4aqq-a1-m31-cA_4aqq-a1-m32-cA 4aqq-a1-m31-cA_4aqq-a1-m35-cA 4aqq-a1-m32-cA_4aqq-a1-m33-cA 4aqq-a1-m33-cA_4aqq-a1-m34-cA 4aqq-a1-m34-cA_4aqq-a1-m35-cA 4aqq-a1-m36-cA_4aqq-a1-m37-cA 4aqq-a1-m36-cA_4aqq-a1-m40-cA 4aqq-a1-m37-cA_4aqq-a1-m38-cA 4aqq-a1-m38-cA_4aqq-a1-m39-cA 4aqq-a1-m39-cA_4aqq-a1-m40-cA 4aqq-a1-m3-cA_4aqq-a1-m4-cA 4aqq-a1-m41-cA_4aqq-a1-m42-cA 4aqq-a1-m41-cA_4aqq-a1-m45-cA 4aqq-a1-m42-cA_4aqq-a1-m43-cA 4aqq-a1-m43-cA_4aqq-a1-m44-cA 4aqq-a1-m44-cA_4aqq-a1-m45-cA 4aqq-a1-m46-cA_4aqq-a1-m47-cA 4aqq-a1-m46-cA_4aqq-a1-m50-cA 4aqq-a1-m47-cA_4aqq-a1-m48-cA 4aqq-a1-m48-cA_4aqq-a1-m49-cA 4aqq-a1-m49-cA_4aqq-a1-m50-cA 4aqq-a1-m4-cA_4aqq-a1-m5-cA 4aqq-a1-m51-cA_4aqq-a1-m52-cA 4aqq-a1-m51-cA_4aqq-a1-m55-cA 4aqq-a1-m52-cA_4aqq-a1-m53-cA 4aqq-a1-m53-cA_4aqq-a1-m54-cA 4aqq-a1-m54-cA_4aqq-a1-m55-cA 4aqq-a1-m56-cA_4aqq-a1-m57-cA 4aqq-a1-m56-cA_4aqq-a1-m60-cA 4aqq-a1-m57-cA_4aqq-a1-m58-cA 4aqq-a1-m58-cA_4aqq-a1-m59-cA 4aqq-a1-m59-cA_4aqq-a1-m60-cA 4aqq-a1-m6-cA_4aqq-a1-m7-cA 4aqq-a1-m7-cA_4aqq-a1-m8-cA 4aqq-a1-m8-cA_4aqq-a1-m9-cA 4ar2-a1-m10-cA_4ar2-a1-m6-cA 4ar2-a1-m10-cA_4ar2-a1-m9-cA 4ar2-a1-m11-cA_4ar2-a1-m12-cA 4ar2-a1-m11-cA_4ar2-a1-m15-cA 4ar2-a1-m12-cA_4ar2-a1-m13-cA 4ar2-a1-m13-cA_4ar2-a1-m14-cA 4ar2-a1-m14-cA_4ar2-a1-m15-cA 4ar2-a1-m16-cA_4ar2-a1-m17-cA 4ar2-a1-m16-cA_4ar2-a1-m20-cA 4ar2-a1-m17-cA_4ar2-a1-m18-cA 4ar2-a1-m18-cA_4ar2-a1-m19-cA 4ar2-a1-m19-cA_4ar2-a1-m20-cA 4ar2-a1-m1-cA_4ar2-a1-m2-cA 4ar2-a1-m1-cA_4ar2-a1-m5-cA 4ar2-a1-m21-cA_4ar2-a1-m22-cA 4ar2-a1-m21-cA_4ar2-a1-m25-cA 4ar2-a1-m22-cA_4ar2-a1-m23-cA 4ar2-a1-m23-cA_4ar2-a1-m24-cA 4ar2-a1-m24-cA_4ar2-a1-m25-cA 4ar2-a1-m26-cA_4ar2-a1-m27-cA 4ar2-a1-m26-cA_4ar2-a1-m30-cA 4ar2-a1-m27-cA_4ar2-a1-m28-cA 4ar2-a1-m28-cA_4ar2-a1-m29-cA 4ar2-a1-m29-cA_4ar2-a1-m30-cA 4ar2-a1-m2-cA_4ar2-a1-m3-cA 4ar2-a1-m31-cA_4ar2-a1-m32-cA 4ar2-a1-m31-cA_4ar2-a1-m35-cA 4ar2-a1-m32-cA_4ar2-a1-m33-cA 4ar2-a1-m33-cA_4ar2-a1-m34-cA 4ar2-a1-m34-cA_4ar2-a1-m35-cA 4ar2-a1-m36-cA_4ar2-a1-m37-cA 4ar2-a1-m36-cA_4ar2-a1-m40-cA 4ar2-a1-m37-cA_4ar2-a1-m38-cA 4ar2-a1-m38-cA_4ar2-a1-m39-cA 4ar2-a1-m39-cA_4ar2-a1-m40-cA 4ar2-a1-m3-cA_4ar2-a1-m4-cA 4ar2-a1-m41-cA_4ar2-a1-m42-cA 4ar2-a1-m41-cA_4ar2-a1-m45-cA 4ar2-a1-m42-cA_4ar2-a1-m43-cA 4ar2-a1-m43-cA_4ar2-a1-m44-cA 4ar2-a1-m44-cA_4ar2-a1-m45-cA 4ar2-a1-m46-cA_4ar2-a1-m47-cA 4ar2-a1-m46-cA_4ar2-a1-m50-cA 4ar2-a1-m47-cA_4ar2-a1-m48-cA 4ar2-a1-m48-cA_4ar2-a1-m49-cA 4ar2-a1-m49-cA_4ar2-a1-m50-cA 4ar2-a1-m4-cA_4ar2-a1-m5-cA 4ar2-a1-m51-cA_4ar2-a1-m52-cA 4ar2-a1-m51-cA_4ar2-a1-m55-cA 4ar2-a1-m52-cA_4ar2-a1-m53-cA 4ar2-a1-m53-cA_4ar2-a1-m54-cA 4ar2-a1-m54-cA_4ar2-a1-m55-cA 4ar2-a1-m56-cA_4ar2-a1-m57-cA 4ar2-a1-m56-cA_4ar2-a1-m60-cA 4ar2-a1-m57-cA_4ar2-a1-m58-cA 4ar2-a1-m58-cA_4ar2-a1-m59-cA 4ar2-a1-m59-cA_4ar2-a1-m60-cA 4ar2-a1-m6-cA_4ar2-a1-m7-cA 4ar2-a1-m7-cA_4ar2-a1-m8-cA 6hcr-a1-m1-c1_6hcr-a1-m1-c3 6hcr-a1-m1-c1_6hcr-a1-m1-cA 6hcr-a1-m1-c2_6hcr-a1-m1-ct 6hcr-a1-m1-c2_6hcr-a1-m1-cw 6hcr-a1-m1-c3_6hcr-a1-m1-c7 6hcr-a1-m1-c4_6hcr-a1-m1-c6 6hcr-a1-m1-c4_6hcr-a1-m1-cE 6hcr-a1-m1-c5_6hcr-a1-m1-c7 6hcr-a1-m1-c5_6hcr-a1-m1-cA 6hcr-a1-m1-c6_6hcr-a1-m1-cB 6hcr-a1-m1-c8_6hcr-a1-m1-cB 6hcr-a1-m1-c8_6hcr-a1-m1-cE 6hcr-a1-m1-c9_6hcr-a1-m1-cC 6hcr-a1-m1-c9_6hcr-a1-m1-cz 6hcr-a1-m1-cb_6hcr-a1-m1-cf 6hcr-a1-m1-cC_6hcr-a1-m1-cS 6hcr-a1-m1-cd_6hcr-a1-m1-cf 6hcr-a1-m1-cD_6hcr-a1-m1-cG 6hcr-a1-m1-cd_6hcr-a1-m1-ch 6hcr-a1-m1-cD_6hcr-a1-m1-cP 6hcr-a1-m1-ce_6hcr-a1-m1-cg 6hcr-a1-m1-ce_6hcr-a1-m1-cm 6hcr-a1-m1-cF_6hcr-a1-m1-cI 6hcr-a1-m1-cF_6hcr-a1-m1-cR 6hcr-a1-m1-cg_6hcr-a1-m1-ck 6hcr-a1-m1-cG_6hcr-a1-m1-cM 6hcr-a1-m1-cH_6hcr-a1-m1-cK 6hcr-a1-m1-cH_6hcr-a1-m1-cT 6hcr-a1-m1-ci_6hcr-a1-m1-ck 6hcr-a1-m1-ci_6hcr-a1-m1-cm 6hcr-a1-m1-cI_6hcr-a1-m1-cO 6hcr-a1-m1-cj_6hcr-a1-m1-cl 6hcr-a1-m1-cJ_6hcr-a1-m1-cM 6hcr-a1-m1-cJ_6hcr-a1-m1-cP 6hcr-a1-m1-cj_6hcr-a1-m1-cr 6hcr-a1-m1-cK_6hcr-a1-m1-cQ 6hcr-a1-m1-cL_6hcr-a1-m1-cO 6hcr-a1-m1-cl_6hcr-a1-m1-cp 6hcr-a1-m1-cL_6hcr-a1-m1-cR 6hcr-a1-m1-cn_6hcr-a1-m1-cp 6hcr-a1-m1-cN_6hcr-a1-m1-cQ 6hcr-a1-m1-cn_6hcr-a1-m1-cr 6hcr-a1-m1-cN_6hcr-a1-m1-cT 6hcr-a1-m1-co_6hcr-a1-m1-cq 6hcr-a1-m1-co_6hcr-a1-m1-cx 6hcr-a1-m1-cq_6hcr-a1-m1-cu 6hcr-a1-m1-cs_6hcr-a1-m1-cu 6hcr-a1-m1-cS_6hcr-a1-m1-cW 6hcr-a1-m1-cs_6hcr-a1-m1-cx 6hcr-a1-m1-ct_6hcr-a1-m1-cv 6hcr-a1-m1-cV_6hcr-a1-m1-ca 6hcr-a1-m1-cV_6hcr-a1-m1-cX 6hcr-a1-m1-cv_6hcr-a1-m1-cy 6hcr-a1-m1-cw_6hcr-a1-m1-cy 6hcr-a1-m1-cW_6hcr-a1-m1-cz 6hcr-a1-m1-cX_6hcr-a1-m1-cc 6hcr-a1-m1-cY_6hcr-a1-m1-ca 6hcr-a1-m1-cY_6hcr-a1-m1-cc 6hcr-a1-m1-cZ_6hcr-a1-m1-cb 6hcr-a1-m1-cZ_6hcr-a1-m1-ch PTEGRNSIRYSELSPLYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTINFDERSRWGGQLKTIMHTNMPNVNEYMFSNKFKARVMVSRKAPEGVTVNDTYDHKEDILKYEWFEFILPEGNFSATMTIDLMNNAIIDNYLEIGRQNGVLESDIGVKFDTRNFRLGWDPETKLIMPGVYTYEAFHPDIVLLPGCGVDFTESRLSNLLGIRKRHPFQEGFKIMYEDLEGGNIPALLDVTAYEESKKDKKELKIQPLEKDSKSRSYNVLEDKINTAYRSWYLSYNYGNPEKGIRSWTLLTTSDVTCGAEQVYWSLPDMMQDPVTFRSTRQVNNYPVVGAELMPVFSKSFYNEQAVYSQQLRQATSLTHVFNRFPENQILIRPPAPTITTVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSR PTEGRNSIRYSELSPLYDTTKLYLVDNKSADIASLNYQNDHSNFLTTVVQNNDFTPTEASTQTINFDERSRWGGQLKTIMHTNMPNVNEYMFSNKFKARVMVSRKAPEGVTVNDTYDHKEDILKYEWFEFILPEGNFSATMTIDLMNNAIIDNYLEIGRQNGVLESDIGVKFDTRNFRLGWDPETKLIMPGVYTYEAFHPDIVLLPGCGVDFTESRLSNLLGIRKRHPFQEGFKIMYEDLEGGNIPALLDVTAYEESKKDKKELKIQPLEKDSKSRSYNVLEDKINTAYRSWYLSYNYGNPEKGIRSWTLLTTSDVTCGAEQVYWSLPDMMQDPVTFRSTRQVNNYPVVGAELMPVFSKSFYNEQAVYSQQLRQATSLTHVFNRFPENQILIRPPAPTITTVSENVPALTDHGTLPLRSSIRGVQRVTVTDARRRTCPYVYKALGIVAPRVLSSR 4arf-a1-m1-cA_4arf-a1-m2-cA CRYSTAL STRUCTURE OF THE PEPTIDASE DOMAIN OF COLLAGENASE H FROM CLOSTRIDIUM HISTOLYTICUM IN COMPLEX WITH THE PEPTIDIC INHIBITOR ISOAMYLPHOSPHONYL-GLY-PRO-ALA AT 1.77 ANGSTROM RESOLUTION. Q46085 Q46085 1.77 X-RAY DIFFRACTION 62 1.0 1498 (Hathewaya histolytica) 1498 (Hathewaya histolytica) 380 380 YCPKTYTFDDGKVIIKAGARVEEEKVKRLYWASKEVNSQFFRVYGIDKPLEEGNPDDILTMVIYNSPEEYKLNSVLYGYDTNNGGMYIEPEGTFFTYEREAQESTYTLEELFRHEYTHYLQGRYAVPGQWGRTKLYDNDRLTWYEEGGAELFAGSTRTSGILPRKSIVSNIHNTTRNNRYKLSDTVHSKYGASFEFYNYACMFMDYMYNKDMGILNKLNDLAKNNDVDGYDNYIRDLSSNHALNDKYQDHMQERIDNYENLTVPFVADDYLVRHAYKNPNEIYSEISEVAKLKDAKSEVKKSQYFSTFTLRGSYTGGVSKGKLEDQKAMNKFIDDSLKKLDTYSWSGYKTLTAYFTNYKVDSSNKVTYDVVFHGYLPNEG YCPKTYTFDDGKVIIKAGARVEEEKVKRLYWASKEVNSQFFRVYGIDKPLEEGNPDDILTMVIYNSPEEYKLNSVLYGYDTNNGGMYIEPEGTFFTYEREAQESTYTLEELFRHEYTHYLQGRYAVPGQWGRTKLYDNDRLTWYEEGGAELFAGSTRTSGILPRKSIVSNIHNTTRNNRYKLSDTVHSKYGASFEFYNYACMFMDYMYNKDMGILNKLNDLAKNNDVDGYDNYIRDLSSNHALNDKYQDHMQERIDNYENLTVPFVADDYLVRHAYKNPNEIYSEISEVAKLKDAKSEVKKSQYFSTFTLRGSYTGGVSKGKLEDQKAMNKFIDDSLKKLDTYSWSGYKTLTAYFTNYKVDSSNKVTYDVVFHGYLPNEG 4arg-a1-m1-cA_4arg-a1-m1-cC Structure of the immature retroviral capsid at 8A resolution by cryo- electron microscopy I6L8L3 I6L8L3 7.0 ELECTRON MICROSCOPY 154 1.0 11855 (Mason-Pfizer monkey virus) 11855 (Mason-Pfizer monkey virus) 114 114 PRTLNAWVKVVEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHRGSDIAGTTSTLQEQIGWMTHNPPIPVGEIYKRWIILGLNKIVRMY PRTLNAWVKVVEEKAFSPEVIPMFSALSEGATPQDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHRGSDIAGTTSTLQEQIGWMTHNPPIPVGEIYKRWIILGLNKIVRMY 4art-a1-m1-cB_4art-a1-m1-cA STRUCTURE OF THE ORF273 PROTEIN FROM THE ACIDIANUS TWO-TAILED VIRUS Q3V4T6 Q3V4T6 2.15 X-RAY DIFFRACTION 66 1.0 315953 (Acidianus two-tailed virus) 315953 (Acidianus two-tailed virus) 231 237 ATNDEEKLADIVENEIEKEIENFYYYILRDGKIYPASDYDIEVEKGKRSANDIYAFVETDVTRDFDEFLFDIDYGLPSISDILKFYLEKAGFRIANEVPTPNLKYYIHAVVEFPQYLAVNIYDIDSLARALRIPQIVEQKLGNKPRTITADEFNDIERIVAEEQPILAGYTYDEALRIPYHYYVDHNNSFKDDALKIAHAYLQLFPTPYQVCYEWKARWFNKIDCLKLERL IDATNDEEKLADIVENEIEKEIRKIENFYYYILRDGKIYPASDYDIEVEKGKRSANDIYAFVETDVTRDFDEFLFDIDYGLPSISDILKFYLEKAGFRIANEVPTPNLKYYIHAVVEFPQYLAVNIYDIDSLARALRIPQIVEQKLGNKPRTITADEFNDIERIVAEEQPILAGYTYDEALRIPYHYYVDHNNSFKDDALKIAHAYLQLFPTPYQVCYEWKARWFNKIDCLKLERLK 4as2-a2-m1-cC_4as2-a2-m1-cD Pseudomonas Aeruginosa Phosphorylcholine Phosphatase. Monoclinic form Q9HTR2 Q9HTR2 2.12 X-RAY DIFFRACTION 131 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 327 327 4as2-a1-m1-cA_4as2-a1-m1-cB 4as3-a1-m1-cA_4as3-a1-m1-cB 4as3-a2-m1-cC_4as3-a2-m1-cD TELEHWPAPAARQLNALIEANANKGAYAVFDMDNTSYRYDLEESLLPYLEMKGVLTRDRLDPSLKLIPFKDQAGHKESLFSYYYRLCEIDDMVCYPWVAQVFSGFTLRELKGYVDELMAYGKPIPATYYDGDKLATLDVEPPRVFSGQRELYNKLMENGIEVYVISAAHEELVRMVAADPRYGYNAKPENVIGVTTLLKNRKTGELTTARKQIAEGKYDPKANLDLEVTPYLWTPATWMAGKQAAILTYIDRWKRPILVAGDTPDSDGYMLFNGTAENGVHLWVNRKAKYMEQINGMIKQHSAAQAKAGLPVTADRNWVIVTPEQIQ TELEHWPAPAARQLNALIEANANKGAYAVFDMDNTSYRYDLEESLLPYLEMKGVLTRDRLDPSLKLIPFKDQAGHKESLFSYYYRLCEIDDMVCYPWVAQVFSGFTLRELKGYVDELMAYGKPIPATYYDGDKLATLDVEPPRVFSGQRELYNKLMENGIEVYVISAAHEELVRMVAADPRYGYNAKPENVIGVTTLLKNRKTGELTTARKQIAEGKYDPKANLDLEVTPYLWTPATWMAGKQAAILTYIDRWKRPILVAGDTPDSDGYMLFNGTAENGVHLWVNRKAKYMEQINGMIKQHSAAQAKAGLPVTADRNWVIVTPEQIQ 4as5-a2-m1-cC_4as5-a2-m1-cD Structure of mouse inositol monophosphatase 1 O55023 O55023 2.43 X-RAY DIFFRACTION 102 1.0 10090 (Mus musculus) 10090 (Mus musculus) 274 274 4as5-a1-m1-cA_4as5-a1-m1-cB DPWQECMDYAVILARQAGEMIREALKNEMDVMIKSSPADLVTVTDQKVEKMLMSSIKEKYPCHSFIGEESVAAGEKTVFTEQPTWVIDPIDGTTNFVHRFPFVAVSIGFLVNKEMEFGIVYSCVEDKMYTGRKGKGAFCNGQKLQVSQQEDITKSLLVTELGSSRKPETLRIVLSNMEKLCSIPIHGIRSVGTAAVNMCLVATGGADAYYEMGIHCWDMAGAGIIVTEAGGVLMDVTGGPFDLMSRRIIAANSITLAKRIAKEIEIIPLQRDDE DPWQECMDYAVILARQAGEMIREALKNEMDVMIKSSPADLVTVTDQKVEKMLMSSIKEKYPCHSFIGEESVAAGEKTVFTEQPTWVIDPIDGTTNFVHRFPFVAVSIGFLVNKEMEFGIVYSCVEDKMYTGRKGKGAFCNGQKLQVSQQEDITKSLLVTELGSSRKPETLRIVLSNMEKLCSIPIHGIRSVGTAAVNMCLVATGGADAYYEMGIHCWDMAGAGIIVTEAGGVLMDVTGGPFDLMSRRIIAANSITLAKRIAKEIEIIPLQRDDE 4asn-a2-m1-cC_4asn-a2-m2-cC TubR from Bacillus megaterium pBM400 Q848W2 Q848W2 3.5 X-RAY DIFFRACTION 36 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 89 89 4asn-a1-m1-cA_4asn-a1-m1-cB SDYFEEVRKLTIEDVSILGWLFQNEANAVFKAIKKSSIADELEYSTANFRKTLNKLEAIHFIGTVTGGKEHKLYLTEYGQQAVQQAIHH SDYFEEVRKLTIEDVSILGWLFQNEANAVFKAIKKSSIADELEYSTANFRKTLNKLEAIHFIGTVTGGKEHKLYLTEYGQQAVQQAIHH 4ass-a1-m1-cB_4ass-a1-m1-cC TubR bound to tubC - 26 bp - from Bacillus thuringiensis serovar israelensis pBtoxis Q8KNP2 Q8KNP2 7 X-RAY DIFFRACTION 18 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 90 90 4ass-a1-m1-cD_4ass-a1-m1-cE 4ass-a1-m1-cF_4ass-a1-m1-cG 4ass-a1-m1-cH_4ass-a1-m1-cI FYTLNIAEIAERIGNDDCAYQVLAFINENGEAQLNKTAVAEIQLSKPTVFATVNSFYCAGYIDETRVGRSKIYTLSDLGVEIVECFKQKA FYTLNIAEIAERIGNDDCAYQVLAFINENGEAQLNKTAVAEIQLSKPTVFATVNSFYCAGYIDETRVGRSKIYTLSDLGVEIVECFKQKA 4asy-a1-m1-cC_4asy-a1-m1-cD Pseudomonas aeruginosa RmlA in complex with allosteric inhibitor Q9HU22 Q9HU22 2.3 X-RAY DIFFRACTION 98 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 293 293 1fxo-a1-m1-cA_1fxo-a1-m1-cC 1fxo-a1-m1-cD_1fxo-a1-m1-cB 1fxo-a2-m1-cF_1fxo-a2-m1-cG 1fxo-a2-m1-cH_1fxo-a2-m1-cE 1fzw-a1-m1-cA_1fzw-a1-m1-cC 1fzw-a1-m1-cB_1fzw-a1-m1-cD 1fzw-a2-m1-cE_1fzw-a2-m1-cH 1fzw-a2-m1-cG_1fzw-a2-m1-cF 1g0r-a1-m1-cA_1g0r-a1-m1-cC 1g0r-a1-m1-cB_1g0r-a1-m1-cD 1g0r-a2-m1-cE_1g0r-a2-m1-cH 1g0r-a2-m1-cG_1g0r-a2-m1-cF 1g1l-a1-m1-cA_1g1l-a1-m1-cC 1g1l-a1-m1-cD_1g1l-a1-m1-cB 1g1l-a2-m1-cE_1g1l-a2-m1-cH 1g1l-a2-m1-cG_1g1l-a2-m1-cF 1g23-a1-m1-cA_1g23-a1-m1-cC 1g23-a1-m1-cB_1g23-a1-m1-cD 1g23-a2-m1-cE_1g23-a2-m1-cH 1g23-a2-m1-cF_1g23-a2-m1-cG 1g2v-a1-m1-cA_1g2v-a1-m1-cC 1g2v-a1-m1-cB_1g2v-a1-m1-cD 1g2v-a2-m1-cE_1g2v-a2-m1-cG 1g2v-a2-m1-cF_1g2v-a2-m1-cH 1g3l-a1-m1-cA_1g3l-a1-m1-cC 1g3l-a1-m1-cB_1g3l-a1-m1-cD 3zlk-a1-m1-cA_3zlk-a1-m2-cA 3zlk-a1-m1-cB_3zlk-a1-m2-cB 3zlk-a2-m1-cC_3zlk-a2-m3-cC 3zlk-a2-m1-cD_3zlk-a2-m3-cD 4arw-a1-m1-cA_4arw-a1-m2-cA 4arw-a1-m1-cD_4arw-a1-m2-cD 4arw-a2-m1-cB_4arw-a2-m3-cB 4arw-a2-m1-cC_4arw-a2-m3-cC 4asj-a1-m1-cC_4asj-a1-m2-cC 4asj-a2-m1-cA_4asj-a2-m3-cA 4asj-a3-m1-cB_4asj-a3-m3-cB 4asj-a4-m1-cD_4asj-a4-m2-cD 4asy-a1-m1-cB_4asy-a1-m1-cA 4b2w-a1-m1-cA_4b2w-a1-m2-cA 4b2w-a1-m1-cD_4b2w-a1-m2-cD 4b2w-a2-m1-cB_4b2w-a2-m3-cB 4b2w-a2-m1-cC_4b2w-a2-m3-cC 4b2x-a1-m1-cA_4b2x-a1-m2-cA 4b2x-a1-m1-cC_4b2x-a1-m2-cC 4b2x-a2-m1-cB_4b2x-a2-m3-cB 4b2x-a2-m1-cD_4b2x-a2-m3-cD 4b3u-a1-m1-cA_4b3u-a1-m2-cA 4b3u-a1-m1-cB_4b3u-a1-m2-cB 4b3u-a2-m1-cC_4b3u-a2-m3-cC 4b3u-a2-m1-cD_4b3u-a2-m3-cD 4b42-a1-m1-cA_4b42-a1-m2-cA 4b42-a1-m1-cC_4b42-a1-m2-cC 4b42-a2-m1-cB_4b42-a2-m3-cB 4b42-a2-m1-cD_4b42-a2-m3-cD 4b4b-a1-m1-cB_4b4b-a1-m2-cB 4b4b-a1-m1-cC_4b4b-a1-m2-cC 4b4b-a2-m1-cA_4b4b-a2-m3-cA 4b4b-a2-m1-cD_4b4b-a2-m3-cD 4b4g-a1-m1-cA_4b4g-a1-m2-cA 4b4g-a1-m1-cD_4b4g-a1-m2-cD 4b4g-a2-m1-cB_4b4g-a2-m3-cB 4b4g-a2-m1-cC_4b4g-a2-m3-cC 4b4m-a1-m1-cA_4b4m-a1-m2-cA 4b4m-a1-m1-cB_4b4m-a1-m2-cB 4b4m-a2-m1-cC_4b4m-a2-m3-cC 4b4m-a2-m1-cD_4b4m-a2-m3-cD 4b5b-a1-m1-cA_4b5b-a1-m2-cA 4b5b-a1-m1-cB_4b5b-a1-m2-cB 4b5b-a2-m1-cC_4b5b-a2-m3-cC 4b5b-a2-m1-cD_4b5b-a2-m3-cD 5fts-a1-m1-cA_5fts-a1-m2-cA 5fts-a1-m1-cC_5fts-a1-m2-cC 5fts-a2-m1-cB_5fts-a2-m3-cB 5fts-a2-m1-cD_5fts-a2-m3-cD 5ftv-a1-m1-cA_5ftv-a1-m2-cA 5ftv-a1-m1-cB_5ftv-a1-m2-cB 5ftv-a2-m1-cC_5ftv-a2-m3-cC 5ftv-a2-m1-cD_5ftv-a2-m3-cD 5fu0-a1-m1-cC_5fu0-a1-m2-cC 5fu0-a1-m1-cD_5fu0-a1-m2-cD 5fu0-a2-m1-cA_5fu0-a2-m3-cA 5fu0-a2-m1-cB_5fu0-a2-m3-cB 5fu8-a1-m1-cC_5fu8-a1-m2-cC 5fu8-a1-m1-cD_5fu8-a1-m2-cD 5fu8-a2-m1-cA_5fu8-a2-m3-cA 5fu8-a2-m1-cB_5fu8-a2-m3-cB 5fuh-a1-m1-cA_5fuh-a1-m2-cA 5fuh-a1-m1-cB_5fuh-a1-m2-cB 5fuh-a2-m1-cC_5fuh-a2-m3-cC 5fuh-a2-m1-cD_5fuh-a2-m3-cD 5fye-a1-m1-cC_5fye-a1-m2-cC 5fye-a1-m1-cD_5fye-a1-m2-cD 5fye-a2-m1-cA_5fye-a2-m3-cA 5fye-a2-m1-cB_5fye-a2-m3-cB 6t37-a1-m1-cA_6t37-a1-m2-cA 6t37-a1-m1-cB_6t37-a1-m2-cB 6t37-a2-m1-cC_6t37-a2-m3-cC 6t37-a2-m1-cD_6t37-a2-m3-cD 6t38-a1-m1-cC_6t38-a1-m1-cB 6tqg-a1-m1-cC_6tqg-a1-m1-cA 6tqg-a1-m1-cD_6tqg-a1-m1-cB MKRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY MKRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGIREILIISTPQDTPRFQQLLGDGSNWGLDLQYAVQPSPDGLAQAFLIGESFIGNDLSALVLGDNLYYGHDFHELLGSASQRQTGASVFAYHVLDPERYGVVEFDQGGKAISLEEKPLEPKSNYAVTGLYFYDQQVVDIARDLKPSPRGELEITDVNRAYLERGQLSVEIMGRGYAWLDTGTHDSLLEAGQFIATLENRQGLKVACPEEIAYRQKWIDAAQLEKLAAPLAKNGYGQYLKRLLTETVY 4at2-a1-m1-cA_4at2-a1-m2-cA The crystal structure of 3-ketosteroid-delta4-(5alpha)-dehydrogenase from Rhodococcus jostii RHA1 in complex with 4-androstene-3,17- dione Q0S4Q9 Q0S4Q9 1.6 X-RAY DIFFRACTION 123 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 483 483 4at0-a1-m1-cA_4at0-a1-m2-cA IRPRSATTVTEWDYEADVVVAGYGIAGVAASIEAARAGADVLVLERTSGWGGATALAGGFIYLGGGTPLQKACGFDDSPENMKTFMMAALGPGADEEKITDYCEGSVEHYNWLVDCGVPFKESFWGEPGWEPPFDDGLMYSGGENAAPFNEIAAPAPRGHVPQMDGKRTGEKGGGYMLMKPLVETAEKLGVRAEYDMRVQTLVTDDTGRVVGIVAKQYGKEVAVRARRGVVLATGSFAYNDKMIEAHAPRLIGRPGAAIEEHDGRSILMAQALGADLAHMDATEVAFVCDPQLIVRGILVNGRGQRYVPEDTYSGRIGQMTLFHQDNQAFLIIDEASYEEGAAATTATPFLRVQPKWAAETVEELESDMGLPAGALQSTVEVYNKHAAEGSDPLLHKKSEWVKPIGTPVAALDLRGFTLGFTLGGLRTTVNSEVLHVSGEPIPGLFAAGRCTSGVCAGGYASGTSLGDGSFYGRRAGISAAKQ IRPRSATTVTEWDYEADVVVAGYGIAGVAASIEAARAGADVLVLERTSGWGGATALAGGFIYLGGGTPLQKACGFDDSPENMKTFMMAALGPGADEEKITDYCEGSVEHYNWLVDCGVPFKESFWGEPGWEPPFDDGLMYSGGENAAPFNEIAAPAPRGHVPQMDGKRTGEKGGGYMLMKPLVETAEKLGVRAEYDMRVQTLVTDDTGRVVGIVAKQYGKEVAVRARRGVVLATGSFAYNDKMIEAHAPRLIGRPGAAIEEHDGRSILMAQALGADLAHMDATEVAFVCDPQLIVRGILVNGRGQRYVPEDTYSGRIGQMTLFHQDNQAFLIIDEASYEEGAAATTATPFLRVQPKWAAETVEELESDMGLPAGALQSTVEVYNKHAAEGSDPLLHKKSEWVKPIGTPVAALDLRGFTLGFTLGGLRTTVNSEVLHVSGEPIPGLFAAGRCTSGVCAGGYASGTSLGDGSFYGRRAGISAAKQ 4atd-a1-m1-cA_4atd-a1-m1-cB Crystal structure of native Raucaffricine glucosidase Q9SPP9 Q9SPP9 2.1 X-RAY DIFFRACTION 48 1.0 4060 (Rauvolfia serpentina) 4060 (Rauvolfia serpentina) 469 469 3u57-a1-m1-cA_3u57-a1-m1-cB 3u57-a1-m2-cA_3u57-a1-m2-cB 3u57-a1-m3-cA_3u57-a1-m3-cB 3u57-a1-m4-cA_3u57-a1-m4-cB 3u5u-a1-m1-cA_3u5u-a1-m1-cB 3u5u-a1-m2-cA_3u5u-a1-m2-cB 3u5u-a1-m3-cA_3u5u-a1-m3-cB 3u5u-a1-m4-cA_3u5u-a1-m4-cB 3u5y-a1-m1-cA_3u5y-a1-m1-cB 3u5y-a1-m2-cA_3u5y-a1-m2-cB 3u5y-a1-m3-cA_3u5y-a1-m3-cB 3u5y-a1-m4-cA_3u5y-a1-m4-cB 4a3y-a1-m1-cB_4a3y-a1-m1-cA 4a3y-a1-m2-cB_4a3y-a1-m2-cA 4a3y-a1-m3-cB_4a3y-a1-m3-cA 4a3y-a1-m4-cB_4a3y-a1-m4-cA DATRISRSDFPADFIMGTGSSAYQIEGGARDGGRGPSIWDTFTHRRPDMIRGGTNGDVAVDSYHLYKEDVNILKNLGLDAYRFSISWSRVLPGGRLSGGVNKEGINYYNNLIDGLLANGIKPFVTLFHWDVPQALEDEYGGFLSPRIVDDFCEYAELCFWEFGDRVKHWMTLNEPWTFSVHGYATGLYAPGRGRTGNPGTEPYWVTHHLLLAHAAAVELYKNKFQRGQEGQIGISHATQWMEPWDENSASDVEAAARALDFMLGWFMEPITSGDYPKSMKKFVGSRLPKFSPEQSKMLKGSYDFVGLNYYTASYVTNASNFSYNTDIHVTYETDRNGVPIGPQSGSDWLLIYPEGIRKILVYTKKTYNVPLIYVTENGVDDVKNTNLTLSEARKDSMRLKYLQDHIFNVRQAMNDGVNVKGYFAWSLLDNFEWGEGYGVRFGIIHIDYNDNFARYPKDSAVWLMNSFHK DATRISRSDFPADFIMGTGSSAYQIEGGARDGGRGPSIWDTFTHRRPDMIRGGTNGDVAVDSYHLYKEDVNILKNLGLDAYRFSISWSRVLPGGRLSGGVNKEGINYYNNLIDGLLANGIKPFVTLFHWDVPQALEDEYGGFLSPRIVDDFCEYAELCFWEFGDRVKHWMTLNEPWTFSVHGYATGLYAPGRGRTGNPGTEPYWVTHHLLLAHAAAVELYKNKFQRGQEGQIGISHATQWMEPWDENSASDVEAAARALDFMLGWFMEPITSGDYPKSMKKFVGSRLPKFSPEQSKMLKGSYDFVGLNYYTASYVTNASNFSYNTDIHVTYETDRNGVPIGPQSGSDWLLIYPEGIRKILVYTKKTYNVPLIYVTENGVDDVKNTNLTLSEARKDSMRLKYLQDHIFNVRQAMNDGVNVKGYFAWSLLDNFEWGEGYGVRFGIIHIDYNDNFARYPKDSAVWLMNSFHK 4atm-a1-m1-cA_4atm-a1-m2-cA Crystal structure of the BAR domain of human Amphiphysin, isoform 1 at 1.8 Angstrom resolution featuring increased order at the N- terminus. P49418 P49418 1.783 X-RAY DIFFRACTION 141 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 3sog-a1-m1-cA_3sog-a1-m2-cA RAQEKVLQKLGKADETKDEQFEEYVQNFKRQEAEGTRLQRELRGYLAAIKGMQEASMKLTESLHEVYEPDWYGREDVKMVGEKCDVLWEDFHQKLVDESLLTLDTYLGQFPDIKNRIAKRSRKLVDYDSARHHLEALQSSKRKDESRISKAEEEFQKAQKVFEEFNVDLQEELPSLWSRRVGFYVNTFKNVSSLEAKFHKEIAVLCHKLYEVMTKLGDQHA RAQEKVLQKLGKADETKDEQFEEYVQNFKRQEAEGTRLQRELRGYLAAIKGMQEASMKLTESLHEVYEPDWYGREDVKMVGEKCDVLWEDFHQKLVDESLLTLDTYLGQFPDIKNRIAKRSRKLVDYDSARHHLEALQSSKRKDESRISKAEEEFQKAQKVFEEFNVDLQEELPSLWSRRVGFYVNTFKNVSSLEAKFHKEIAVLCHKLYEVMTKLGDQHA 4atq-a3-m1-cL_4atq-a3-m1-cI GABA-transaminase A1R958 in complex with external aldimine PLP-GABA adduct A1R958 A1R958 2.75 X-RAY DIFFRACTION 410 0.995 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 436 440 4atp-a1-m1-cA_4atp-a1-m1-cB 4atp-a1-m1-cD_4atp-a1-m1-cC 4atp-a2-m1-cF_4atp-a2-m1-cE 4atp-a2-m1-cG_4atp-a2-m1-cH 4atp-a3-m1-cJ_4atp-a3-m1-cK 4atp-a3-m1-cL_4atp-a3-m1-cI 4atq-a1-m1-cA_4atq-a1-m1-cB 4atq-a1-m1-cD_4atq-a1-m1-cC 4atq-a2-m1-cE_4atq-a2-m1-cF 4atq-a2-m1-cG_4atq-a2-m1-cH 4atq-a3-m1-cK_4atq-a3-m1-cJ RIEQKRNINGAFPGPKSQALAERRSAVVAAGVASGVPVYVEDADGGIIRDVDGNSFIDLGSGIAVTSVGASDPAVVAAVQEAAAHFTHTCFMVTPYEGYVAVTEQLNRLTPGDHAKRTVLFNSGAEAVENAVKVARLATGRDAVVAFDHAYHGRTNLTMALTAKAMPYKTNFGPFAPEVYRMPMSYPFREENPEITGAEAAKRAITMIEKQIGGDQVAAIIIEPIQGEGGFIVPAEGFLPALSEWAKEKGIVFIADEVQSGFCRTGEWFAVDHEGVVPDIITMAKGIAGGLPLSAITGRADLLDAVHPGGLGGTYGGNPVACAAALAAIDTMEQHDLNGRARHIEELALGKLRELSVVGDIRGRGAMLAIELVQPGSKEPNAELTKAVAAACLKEGVIILTCGTYGNVIRLLPPLVISDELLIDGLEVLAAAIKAH SYRIEQKRNGAFPGPKSQALAERRSAVVAAGVASGVPVYVEDADGGIIRDVDGNSFIDLGSGIAVTSVGASDPAVVAAVQEAAAHFTHTCFMVTPYEGYVAVTEQLNRLTPGDHAKRTVLFNSGAEAVENAVKVARLATGRDAVVAFDHAYHGRTNLTMALTAKAMPYKTNFGPFAPEVYRMPMSYPFREENPEITGAEAAKRAITMIEKQIGGDQVAAIIIEPIQGEGGFIVPAEGFLPALSEWAKEKGIVFIADEVQSGFCRTGEWFAVDHEGVVPDIITMAKGIAGGLPLSAITGRADLLDAVHPGGLGGTYGGNPVACAAALAAIDTMEQHDLNGRARHIEELALGKLRELAAESVVGDIRGRGAMLAIELVQPGSKEPNAELTKAVAAACLKEGVIILTCGTYGNVIRLLPPLVISDELLIDGLEVLAAAIKAHA 4atq-a3-m1-cL_4atq-a3-m1-cK GABA-transaminase A1R958 in complex with external aldimine PLP-GABA adduct A1R958 A1R958 2.75 X-RAY DIFFRACTION 66 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 436 437 4atp-a1-m1-cB_4atp-a1-m1-cC 4atp-a1-m1-cD_4atp-a1-m1-cA 4atp-a2-m1-cF_4atp-a2-m1-cG 4atp-a2-m1-cH_4atp-a2-m1-cE 4atp-a3-m1-cJ_4atp-a3-m1-cI 4atp-a3-m1-cL_4atp-a3-m1-cK 4atq-a1-m1-cB_4atq-a1-m1-cC 4atq-a1-m1-cD_4atq-a1-m1-cA 4atq-a2-m1-cG_4atq-a2-m1-cF 4atq-a2-m1-cH_4atq-a2-m1-cE 4atq-a3-m1-cJ_4atq-a3-m1-cI RIEQKRNINGAFPGPKSQALAERRSAVVAAGVASGVPVYVEDADGGIIRDVDGNSFIDLGSGIAVTSVGASDPAVVAAVQEAAAHFTHTCFMVTPYEGYVAVTEQLNRLTPGDHAKRTVLFNSGAEAVENAVKVARLATGRDAVVAFDHAYHGRTNLTMALTAKAMPYKTNFGPFAPEVYRMPMSYPFREENPEITGAEAAKRAITMIEKQIGGDQVAAIIIEPIQGEGGFIVPAEGFLPALSEWAKEKGIVFIADEVQSGFCRTGEWFAVDHEGVVPDIITMAKGIAGGLPLSAITGRADLLDAVHPGGLGGTYGGNPVACAAALAAIDTMEQHDLNGRARHIEELALGKLRELSVVGDIRGRGAMLAIELVQPGSKEPNAELTKAVAAACLKEGVIILTCGTYGNVIRLLPPLVISDELLIDGLEVLAAAIKAH YRIEQKRNINGAFPGPKSQALAERRSAVVAAGVASGVPVYVEDADGGIIRDVDGNSFIDLGSGIAVTSVGASDPAVVAAVQEAAAHFTHTCFMVTPYEGYVAVTEQLNRLTPGDHAKRTVLFNSGAEAVENAVKVARLATGRDAVVAFDHAYHGRTNLTMALTAKAMPYKTNFGPFAPEVYRMPMSYPFREENPEITGAEAAKRAITMIEKQIGGDQVAAIIIEPIQGEGGFIVPAEGFLPALSEWAKEKGIVFIADEVQSGFCRTGEWFAVDHEGVVPDIITMAKGIAGGLPLSAITGRADLLDAVHPGGLGGTYGGNPVACAAALAAIDTMEQHDLNGRARHIEELALGKLRELSVVGDIRGRGAMLAIELVQPGSKEPNAELTKAVAAACLKEGVIILTCGTYGNVIRLLPPLVISDELLIDGLEVLAAAIKAH 4aty-a1-m1-cA_4aty-a1-m2-cA Crystal structure of a Terephthalate 1,2-cis-dihydrodioldehydrogenase from Burkholderia xenovorans LB400 Q13RP4 Q13RP4 1.85 X-RAY DIFFRACTION 110 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 309 309 RAMTVALAIGDPNGIGPEIAVKAAAQMQPIVLFGDAFVIRRYARQCCLMLRLVPSAIDMVDVASLPAEAFVPGEVAAAAGTATLAYVSAALRAARAGQVDAVIACPHSETAINASGAGYPGFVAHEMGMPAEDVYLLLIGGGLRIVHATLHEGIASALARLDQRHVERAARAAVQALQLMGIAHPVVGLMGINPHAGEGGLFGRDDIDITEPVARKLRDDGMTVIGPQGADLLLTNPDIDVFVAMYHDQGHIPVKLRAGRHSAALSIGAGVLFSSVGHGSGFDIAGTLLADPAPLLGAIRLVTTGTVLA RAMTVALAIGDPNGIGPEIAVKAAAQMQPIVLFGDAFVIRRYARQCCLMLRLVPSAIDMVDVASLPAEAFVPGEVAAAAGTATLAYVSAALRAARAGQVDAVIACPHSETAINASGAGYPGFVAHEMGMPAEDVYLLLIGGGLRIVHATLHEGIASALARLDQRHVERAARAAVQALQLMGIAHPVVGLMGINPHAGEGGLFGRDDIDITEPVARKLRDDGMTVIGPQGADLLLTNPDIDVFVAMYHDQGHIPVKLRAGRHSAALSIGAGVLFSSVGHGSGFDIAGTLLADPAPLLGAIRLVTTGTVLA 4au1-a1-m1-cA_4au1-a1-m2-cA Crystal Structure of CobH (precorrin-8x methyl mutase) complexed with C5 desmethyl-HBA D5AV08 D5AV08 1.45 X-RAY DIFFRACTION 124 1.0 272942 (Rhodobacter capsulatus SB 1003) 272942 (Rhodobacter capsulatus SB 1003) 208 208 4fdv-a1-m1-cA_4fdv-a1-m2-cA 5n0g-a1-m1-cA_5n0g-a1-m2-cA PHEYEKDGAKIYVQSFATIRAEADLARFTPEEEVVVVRMIHAAGMVGLENHVRFAPGMAIAARAALEAGAPILCDARMVSEGITRARLPAKNEVICTLQDPRVPALAQEMGNTRSAAALELWRPKLEGAVVAIGNAPTALFHLLNMLEDPACPRPAAIIGCPVGFIGAAESKAALAVANPVPWVIVEGRLGGSAITVAAVNALACRKE PHEYEKDGAKIYVQSFATIRAEADLARFTPEEEVVVVRMIHAAGMVGLENHVRFAPGMAIAARAALEAGAPILCDARMVSEGITRARLPAKNEVICTLQDPRVPALAQEMGNTRSAAALELWRPKLEGAVVAIGNAPTALFHLLNMLEDPACPRPAAIIGCPVGFIGAAESKAALAVANPVPWVIVEGRLGGSAITVAAVNALACRKE 4au3-a1-m1-cE_4au3-a1-m1-cF Crystal Structure of a Hsp47-collagen complex Q96A83 Q96A83 2.78 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 16 PGPPGPPGPRGPPGP PGPPGPPGPRGPPGPP 4au3-a2-m1-cI_4au3-a2-m1-cH Crystal Structure of a Hsp47-collagen complex Q96A83 Q96A83 2.78 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 16 17 PPGPPGPPGPRGPPGP PPGPPGPPGPRGPPGPP 4au3-a2-m1-cJ_4au3-a2-m1-cH Crystal Structure of a Hsp47-collagen complex Q96A83 Q96A83 2.78 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 17 PPGPPGPPGPRGPPG PPGPPGPPGPRGPPGPP 4au3-a2-m1-cJ_4au3-a2-m1-cI Crystal Structure of a Hsp47-collagen complex Q96A83 Q96A83 2.78 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 16 PPGPPGPPGPRGPPG PPGPPGPPGPRGPPGP 4aud-a1-m2-cB_4aud-a1-m3-cB Crystal structure of alternaria alternata major allergen alt a 1 P79085 P79085 2.67 X-RAY DIFFRACTION 46 1.0 5599 (Alternaria alternata) 5599 (Alternaria alternata) 121 121 4aud-a1-m1-cA_4aud-a1-m2-cA 4aud-a1-m1-cA_4aud-a1-m3-cA 4aud-a1-m1-cB_4aud-a1-m2-cB 4aud-a1-m1-cB_4aud-a1-m3-cB 4aud-a1-m2-cA_4aud-a1-m3-cA TEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKEDHKWYSCGENSFNFSFGSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKS TEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKEDHKWYSCGENSFNFSFGSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKS 4aud-a1-m3-cA_4aud-a1-m3-cB Crystal structure of alternaria alternata major allergen alt a 1 P79085 P79085 2.67 X-RAY DIFFRACTION 56 1.0 5599 (Alternaria alternata) 5599 (Alternaria alternata) 121 121 3v0r-a2-m1-cA_3v0r-a2-m5-cA 4aud-a1-m1-cA_4aud-a1-m1-cB 4aud-a1-m2-cA_4aud-a1-m2-cB TEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKEDHKWYSCGENSFNFSFGSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKS TEGDYVWKISEFYGRKPEGTYYNSLGFNIKATNGGTLDFTCSAQADKEDHKWYSCGENSFNFSFGSDRSGLLLKQKVSDDITYVATATLPNYCRAGGNGPKDFVCQGVADAYITLVTLPKS 4aui-a1-m1-cB_4aui-a1-m1-cC STRUCTURE AND FUNCTION OF THE PORB PORIN FROM DISSEMINATING N. GONORRHOEAE Q51056 Q51056 3.2 X-RAY DIFFRACTION 100 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 308 308 4aui-a1-m1-cA_4aui-a1-m1-cB 4aui-a1-m1-cA_4aui-a1-m1-cC DVTLYGTIKAGVETSRSVAHHGAQADRVKTATEIADLGSKIGFKGQEDLGNGLKAIWQLEQKAYVSGTDTGWGNRQSFIGLKGGFGKVRVGRLNNILKDTGNFNPWEGKSYYSGLSNIAQPEERHVSVRYDSPEFAGFSGSVQYVPNDNSGKNRSESYHAGFNYKNDGFFVQYAGSYKRHNYTTEKHQVHRLVGGYDHDALYASVAVQQQDAKLTWRDDNSHNSQTEVATTVAYRFGNVTPRVSYAHGFKGSVYDADHDNTYDQVVVGAEYDFSKRTSALVSAGWLQKGKGAEKFVATVGGVGLRHKF DVTLYGTIKAGVETSRSVAHHGAQADRVKTATEIADLGSKIGFKGQEDLGNGLKAIWQLEQKAYVSGTDTGWGNRQSFIGLKGGFGKVRVGRLNNILKDTGNFNPWEGKSYYSGLSNIAQPEERHVSVRYDSPEFAGFSGSVQYVPNDNSGKNRSESYHAGFNYKNDGFFVQYAGSYKRHNYTTEKHQVHRLVGGYDHDALYASVAVQQQDAKLTWRDDNSHNSQTEVATTVAYRFGNVTPRVSYAHGFKGSVYDADHDNTYDQVVVGAEYDFSKRTSALVSAGWLQKGKGAEKFVATVGGVGLRHKF 4auo-a1-m1-cE_4auo-a1-m1-cC Crystal structure of MMP-1(E200A) in complex with a triple-helical collagen peptide 3 X-RAY DIFFRACTION 75 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 32 GPGPGPGPQGLAGQRGIVGLGQRGERGP GPGPGPGPQGLAGQRGIVGLGQRGERGPGPGP 4auo-a1-m1-cE_4auo-a1-m1-cD Crystal structure of MMP-1(E200A) in complex with a triple-helical collagen peptide 3 X-RAY DIFFRACTION 79 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 30 4auo-a1-m1-cD_4auo-a1-m1-cC GPGPGPGPQGLAGQRGIVGLGQRGERGP GPGPGPGPQGLAGQRGIVGLGQRGERGPGP 4auo-a2-m1-cF_4auo-a2-m1-cG Crystal structure of MMP-1(E200A) in complex with a triple-helical collagen peptide 3 X-RAY DIFFRACTION 86 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GPGPGPGPQGLAGQRGIVGLGQRGERGPGP GPGPGPGPQGLAGQRGIVGLGQRGERGPGP 4auo-a2-m1-cH_4auo-a2-m1-cF Crystal structure of MMP-1(E200A) in complex with a triple-helical collagen peptide 3 X-RAY DIFFRACTION 78 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 30 GPGPGPGPQGLAGQRGIVGLGQRGERGP GPGPGPGPQGLAGQRGIVGLGQRGERGPGP 4auo-a2-m1-cH_4auo-a2-m1-cG Crystal structure of MMP-1(E200A) in complex with a triple-helical collagen peptide 3 X-RAY DIFFRACTION 80 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 30 GPGPGPGPQGLAGQRGIVGLGQRGERGP GPGPGPGPQGLAGQRGIVGLGQRGERGPGP 4auq-a1-m1-cB_4auq-a1-m1-cE Structure of BIRC7-UbcH5b-Ub complex. Q96CA5 Q96CA5 2.176 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 QLRRLQEERTCKVCLDRAVSIVFVPCGHLVCAECAPGLQLCPICRAPVRSRVRTFLS QLRRLQEERTCKVCLDRAVSIVFVPCGHLVCAECAPGLQLCPICRAPVRSRVRTFLS 4auv-a1-m2-cB_4auv-a1-m1-cA Crystal Structure of the BRMS1 N-terminal region Q9HCU9 Q9HCU9 1.999 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 35 4auv-a1-m1-cB_4auv-a1-m2-cA 4auv-a2-m1-cC_4auv-a2-m3-cC 4auv-a2-m4-cG_4auv-a2-m5-cG 4auv-a3-m1-cC_4auv-a3-m3-cC 4auv-a4-m1-cG_4auv-a4-m6-cG SECVSEMLDLEKQFSELKEKLFRERLS SEDYERRRSECVSEMLDLEKQFSELKEKLFRERLS 4auv-a1-m2-cD_4auv-a1-m2-cE Crystal Structure of the BRMS1 N-terminal region Q9HCU9 Q9HCU9 1.999 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 21 4auv-a1-m1-cD_4auv-a1-m1-cE SECVSEMLDLEKQFSELK RSECVSEMLDLEKQFSELKEK 4auv-a2-m1-cH_4auv-a2-m5-cG Crystal Structure of the BRMS1 N-terminal region Q9HCU9 Q9HCU9 1.999 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 27 4auv-a1-m1-cD_4auv-a1-m1-cB 4auv-a1-m2-cD_4auv-a1-m2-cB 4auv-a2-m3-cH_4auv-a2-m4-cG SECVSEMLDLEKQFSELKEKLF SECVSEMLDLEKQFSELKEKLFRERLS 4auv-a2-m5-cG_4auv-a2-m3-cC Crystal Structure of the BRMS1 N-terminal region Q9HCU9 Q9HCU9 1.999 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 35 4auv-a1-m1-cA_4auv-a1-m2-cA 4auv-a1-m1-cB_4auv-a1-m2-cB 4auv-a2-m4-cG_4auv-a2-m1-cC SECVSEMLDLEKQFSELKEKLFRERLS SEDYERRRSECVSEMLDLEKQFSELKEKLFRERLS 4auv-a3-m3-cH_4auv-a3-m3-cC Crystal Structure of the BRMS1 N-terminal region Q9HCU9 Q9HCU9 1.999 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 35 4auv-a1-m1-cD_4auv-a1-m1-cA 4auv-a1-m2-cD_4auv-a1-m2-cA 4auv-a2-m1-cH_4auv-a2-m1-cC 4auv-a2-m3-cH_4auv-a2-m3-cC 4auv-a3-m1-cH_4auv-a3-m1-cC SECVSEMLDLEKQFSELKEKLF SEDYERRRSECVSEMLDLEKQFSELKEKLFRERLS 4auw-a1-m1-cB_4auw-a1-m1-cA CRYSTAL STRUCTURE OF THE BZIP HOMODIMERIC MAFB IN COMPLEX WITH THE C- MARE BINDING SITE P54841 P54841 2.9 X-RAY DIFFRACTION 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 85 87 2wty-a1-m1-cA_2wty-a1-m1-cB 4auw-a2-m1-cF_4auw-a2-m1-cE DDQLVSMSVRELNRHLRGFTKDEVIRLKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVK SDDQLVSMSVRELNRHLRGFTKDEVIRLKQKRRTLKNRGYAQSCRYKRVQQKHHLENEKTQLIQQVEQLKQEVSRLARERDAYKVKS 4av2-a1-m1-cK_4av2-a1-m1-cL Single particle electron microscopy of PilQ dodecameric complexes from Neisseria meningitidis. Q70M91 Q70M91 26.0 ELECTRON MICROSCOPY 108 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 274 274 4av2-a1-m1-cA_4av2-a1-m1-cB 4av2-a1-m1-cA_4av2-a1-m1-cL 4av2-a1-m1-cB_4av2-a1-m1-cC 4av2-a1-m1-cC_4av2-a1-m1-cD 4av2-a1-m1-cD_4av2-a1-m1-cE 4av2-a1-m1-cE_4av2-a1-m1-cF 4av2-a1-m1-cF_4av2-a1-m1-cG 4av2-a1-m1-cG_4av2-a1-m1-cH 4av2-a1-m1-cH_4av2-a1-m1-cI 4av2-a1-m1-cI_4av2-a1-m1-cJ 4av2-a1-m1-cJ_4av2-a1-m1-cK TNIDFRKDGKNAGIIELAALGFAGQPDISQQHDHIIVTLKNHTLPTTLQRSLDVADFKTPVQKVTLKRLNNDTQLIITTAGNWELVNKSAAPGYFTFQVLFTGRKISLDFQDVEIRTILQILAKESGMNIVASDSVNGKMTLSLKDVPWDQALDLVMQARNLDMRQQGNIVNIAPRDELLAKDKAFLQAEKDIADLGALYSQNFQLKYKNVEEFRSILRLDNADTTGNRNTLISGRGSVLIDPATNTLIVTDTRSVIEKFRKLIDELDVPAQQV TNIDFRKDGKNAGIIELAALGFAGQPDISQQHDHIIVTLKNHTLPTTLQRSLDVADFKTPVQKVTLKRLNNDTQLIITTAGNWELVNKSAAPGYFTFQVLFTGRKISLDFQDVEIRTILQILAKESGMNIVASDSVNGKMTLSLKDVPWDQALDLVMQARNLDMRQQGNIVNIAPRDELLAKDKAFLQAEKDIADLGALYSQNFQLKYKNVEEFRSILRLDNADTTGNRNTLISGRGSVLIDPATNTLIVTDTRSVIEKFRKLIDELDVPAQQV 4avm-a1-m1-cA_4avm-a1-m2-cA Crystal structure of the N-BAR domain of human bridging integrator 2. Q9UBW5 Q9UBW5 1.91 X-RAY DIFFRACTION 147 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 4i1q-a1-m1-cB_4i1q-a1-m1-cA KQVQKKFSRAQEKVLQKLGKAVETKDERFEQSASNFYQQQAEGHKLYKDLKNFLSAVKVMHESSKRVSETLQEIYSSEWDGHEELKAIVWNNDLLWEDYEEKLADQAVRTMEIYVAQFSEIKERIAKRGRKLVDYDSARHHLEAVQNAKKKDEAKTAKAEEEFNKAQTVFEDLNQELLEELPILYNSRIGCYVTIFQNISNLRDVFYREMSKLNHNLYEVMSKLERQHSN KQVQKKFSRAQEKVLQKLGKAVETKDERFEQSASNFYQQQAEGHKLYKDLKNFLSAVKVMHESSKRVSETLQEIYSSEWDGHEELKAIVWNNDLLWEDYEEKLADQAVRTMEIYVAQFSEIKERIAKRGRKLVDYDSARHHLEAVQNAKKKDEAKTAKAEEEFNKAQTVFEDLNQELLEELPILYNSRIGCYVTIFQNISNLRDVFYREMSKLNHNLYEVMSKLERQHSN 4avr-a1-m1-cA_4avr-a1-m1-cB Crystal structure of the hypothetical protein Pa4485 from Pseudomonas aeruginosa Q9HVT6 Q9HVT6 1.08 X-RAY DIFFRACTION 61 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 94 94 MDTGEASYYGSRHAGLRTASGERYNPNAMTAAHRTLPFGARVRVTNLDNRRSVVVRINDRGPFRRGRIIDVSRKAAEGLGMIRSGVAPVRIESL MDTGEASYYGSRHAGLRTASGERYNPNAMTAAHRTLPFGARVRVTNLDNRRSVVVRINDRGPFRRGRIIDVSRKAAEGLGMIRSGVAPVRIESL 4avs-a1-m1-cD_4avs-a1-m1-cE Structure of N-Acetyl-L-Proline bound to Serum Amyloid P Component P02743 P02743 1.399 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 1gyk-a1-m1-cA_1gyk-a1-m1-cC 1gyk-a1-m1-cA_1gyk-a1-m1-cD 1gyk-a1-m1-cB_1gyk-a1-m1-cD 1gyk-a1-m1-cB_1gyk-a1-m1-cE 1gyk-a1-m1-cC_1gyk-a1-m1-cE 1lgn-a1-m1-cA_1lgn-a1-m1-cB 1lgn-a1-m1-cA_1lgn-a1-m1-cE 1lgn-a1-m1-cB_1lgn-a1-m1-cC 1lgn-a1-m1-cC_1lgn-a1-m1-cD 1lgn-a1-m1-cD_1lgn-a1-m1-cE 1sac-a1-m1-cA_1sac-a1-m1-cB 1sac-a1-m1-cA_1sac-a1-m1-cE 1sac-a1-m1-cB_1sac-a1-m1-cC 1sac-a1-m1-cC_1sac-a1-m1-cD 1sac-a1-m1-cD_1sac-a1-m1-cE 2a3w-a1-m1-cA_2a3w-a1-m1-cB 2a3w-a1-m1-cA_2a3w-a1-m1-cE 2a3w-a1-m1-cB_2a3w-a1-m1-cC 2a3w-a1-m1-cC_2a3w-a1-m1-cD 2a3w-a1-m1-cD_2a3w-a1-m1-cE 2a3w-a1-m1-cF_2a3w-a1-m1-cG 2a3w-a1-m1-cF_2a3w-a1-m1-cJ 2a3w-a1-m1-cG_2a3w-a1-m1-cH 2a3w-a1-m1-cH_2a3w-a1-m1-cI 2a3w-a1-m1-cI_2a3w-a1-m1-cJ 2a3w-a2-m1-cK_2a3w-a2-m1-cL 2a3w-a2-m1-cK_2a3w-a2-m1-cO 2a3w-a2-m1-cL_2a3w-a2-m1-cM 2a3w-a2-m1-cM_2a3w-a2-m1-cN 2a3w-a2-m1-cN_2a3w-a2-m1-cO 2a3w-a2-m1-cP_2a3w-a2-m1-cQ 2a3w-a2-m1-cP_2a3w-a2-m1-cT 2a3w-a2-m1-cQ_2a3w-a2-m1-cR 2a3w-a2-m1-cR_2a3w-a2-m1-cS 2a3w-a2-m1-cS_2a3w-a2-m1-cT 2a3x-a1-m1-cA_2a3x-a1-m1-cB 2a3x-a1-m1-cA_2a3x-a1-m1-cE 2a3x-a1-m1-cB_2a3x-a1-m1-cC 2a3x-a1-m1-cC_2a3x-a1-m1-cD 2a3x-a1-m1-cD_2a3x-a1-m1-cE 2a3x-a1-m1-cF_2a3x-a1-m1-cG 2a3x-a1-m1-cF_2a3x-a1-m1-cJ 2a3x-a1-m1-cG_2a3x-a1-m1-cH 2a3x-a1-m1-cH_2a3x-a1-m1-cI 2a3x-a1-m1-cI_2a3x-a1-m1-cJ 2a3y-a1-m1-cA_2a3y-a1-m1-cB 2a3y-a1-m1-cA_2a3y-a1-m1-cE 2a3y-a1-m1-cB_2a3y-a1-m1-cC 2a3y-a1-m1-cC_2a3y-a1-m1-cD 2a3y-a1-m1-cD_2a3y-a1-m1-cE 2w08-a1-m1-cA_2w08-a1-m1-cB 2w08-a1-m1-cA_2w08-a1-m1-cE 2w08-a1-m1-cB_2w08-a1-m1-cC 2w08-a1-m1-cC_2w08-a1-m1-cD 2w08-a1-m1-cD_2w08-a1-m1-cE 3d5o-a1-m1-cA_3d5o-a1-m1-cB 3d5o-a1-m1-cA_3d5o-a1-m1-cE 3d5o-a1-m1-cB_3d5o-a1-m1-cC 3d5o-a1-m1-cC_3d5o-a1-m2-cD 3d5o-a1-m1-cE_3d5o-a1-m2-cD 3kqr-a1-m1-cA_3kqr-a1-m1-cB 3kqr-a1-m1-cA_3kqr-a1-m1-cE 3kqr-a1-m1-cB_3kqr-a1-m1-cC 3kqr-a1-m1-cC_3kqr-a1-m1-cD 3kqr-a1-m1-cD_3kqr-a1-m1-cE 4avs-a1-m1-cA_4avs-a1-m1-cB 4avs-a1-m1-cA_4avs-a1-m1-cE 4avs-a1-m1-cB_4avs-a1-m1-cC 4avs-a1-m1-cC_4avs-a1-m1-cD 4avt-a1-m1-cA_4avt-a1-m1-cC 4avt-a1-m1-cA_4avt-a1-m1-cI 4avt-a1-m1-cC_4avt-a1-m1-cE 4avt-a1-m1-cE_4avt-a1-m1-cG 4avt-a1-m1-cG_4avt-a1-m1-cI 4avt-a2-m1-cB_4avt-a2-m1-cD 4avt-a2-m1-cB_4avt-a2-m1-cJ 4avt-a2-m1-cD_4avt-a2-m1-cF 4avt-a2-m1-cF_4avt-a2-m1-cH 4avt-a2-m1-cH_4avt-a2-m1-cJ 4avv-a1-m1-cA_4avv-a1-m1-cB 4avv-a1-m1-cA_4avv-a1-m1-cE 4avv-a1-m1-cB_4avv-a1-m1-cC 4avv-a1-m1-cC_4avv-a1-m1-cD 4avv-a1-m1-cD_4avv-a1-m1-cE 4ayu-a1-m1-cA_4ayu-a1-m1-cC 4ayu-a1-m1-cA_4ayu-a1-m1-cD 4ayu-a1-m1-cB_4ayu-a1-m1-cC 4ayu-a1-m1-cB_4ayu-a1-m1-cE 4ayu-a1-m1-cD_4ayu-a1-m1-cE HTDLSGKVFVFPRESVTDHVNLITPLEKPLQNFTLCFRAYSDLSRAYSLFSYNTQGRDNELLVYKERVGEYSLYIGRHKVTSKVIEKFPAPVHICVSWESSSGIAEFWINGTPLVKKGLRQGYFVEAQPKIVLGQEQDSYGGKFDRSQSFVGEIGDLYMWDSVLPPENILSAYQGTPLPANILDWQALNYEIRGYVIIKPLVWV HTDLSGKVFVFPRESVTDHVNLITPLEKPLQNFTLCFRAYSDLSRAYSLFSYNTQGRDNELLVYKERVGEYSLYIGRHKVTSKVIEKFPAPVHICVSWESSSGIAEFWINGTPLVKKGLRQGYFVEAQPKIVLGQEQDSYGGKFDRSQSFVGEIGDLYMWDSVLPPENILSAYQGTPLPANILDWQALNYEIRGYVIIKPLVWV 4aw2-a1-m1-cA_4aw2-a1-m2-cA Crystal structure of CDC42 binding protein kinase alpha (MRCK alpha) O54874 O54874 1.7 X-RAY DIFFRACTION 168 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 398 398 SGEVRLRQLEQFILDGPAQTNGQCFSVETLLDILICLYDECNNSPLRREKNILEYLEWAKPFTSKVKQMRLHREDFEILKVIGRGAFGEVAVVKLKNADKVFAMKILNKWEMLKRAETACFREERDVLVNGDSKWITTLHYAFQDDNNLYLVMDYYVGGDLLTLLSKFEDRLPEEMARFYLAEMVIAIDSVHQLHYVHRDIKPDNILMDMNGHIRLADFGSCLKLMEDGTVQSSVAVGTPDYISPEILQAMEGGKGRYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHKERFQFPTQVTDVSENAKDLIRRLICSREHRLGQNGIEDFKKHPFFSGIDWDNIRNCEAPYIPEVSSPTDTSNFDVDSGHHLPFVGFTYTSSCVLSDRSCLR SGEVRLRQLEQFILDGPAQTNGQCFSVETLLDILICLYDECNNSPLRREKNILEYLEWAKPFTSKVKQMRLHREDFEILKVIGRGAFGEVAVVKLKNADKVFAMKILNKWEMLKRAETACFREERDVLVNGDSKWITTLHYAFQDDNNLYLVMDYYVGGDLLTLLSKFEDRLPEEMARFYLAEMVIAIDSVHQLHYVHRDIKPDNILMDMNGHIRLADFGSCLKLMEDGTVQSSVAVGTPDYISPEILQAMEGGKGRYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHKERFQFPTQVTDVSENAKDLIRRLICSREHRLGQNGIEDFKKHPFFSGIDWDNIRNCEAPYIPEVSSPTDTSNFDVDSGHHLPFVGFTYTSSCVLSDRSCLR 4aw3-a1-m1-cA_4aw3-a1-m1-cB Structure of the mixed-function P450 MycG F286V mutant in complex with mycinamicin V in P1 space group Q59523 Q59523 2.05 X-RAY DIFFRACTION 66 1.0 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 393 393 EPRAYPFNDVHGLTLAGRYGELQETEPVSRVRPPYGEEAWLVTRYEDVRAVLGDGRFVRGPSMTRDEPRTRPEMVKGGLLSMDPPEHSRLRRLVVKAFTARRAESLRPRAREIAHELVDQMAATGQPADLVAMFARQLPVRVICELLGVPSADHDRFTRWSGAFLSTAEVTAEEMQEAAEQAYAYMGDLIDRRRKEPTDDLVSALVQARDQQDSLSEQELLDLAIGLLVAGYESTTTQIADFVYLLMTRPELRRQLLDRPELIPSAVEELTRWVPLGVGTAVPRYAVEDVTLRGVTIRAGEPVLASTGAANRDQAQFPDADRIDVDRTPNQHLGFGHGVHHCLGAPLARVELQVALEVLLQRLPGIRLGIPETQLRWSEGMLLRGPLELPVVW EPRAYPFNDVHGLTLAGRYGELQETEPVSRVRPPYGEEAWLVTRYEDVRAVLGDGRFVRGPSMTRDEPRTRPEMVKGGLLSMDPPEHSRLRRLVVKAFTARRAESLRPRAREIAHELVDQMAATGQPADLVAMFARQLPVRVICELLGVPSADHDRFTRWSGAFLSTAEVTAEEMQEAAEQAYAYMGDLIDRRRKEPTDDLVSALVQARDQQDSLSEQELLDLAIGLLVAGYESTTTQIADFVYLLMTRPELRRQLLDRPELIPSAVEELTRWVPLGVGTAVPRYAVEDVTLRGVTIRAGEPVLASTGAANRDQAQFPDADRIDVDRTPNQHLGFGHGVHHCLGAPLARVELQVALEVLLQRLPGIRLGIPETQLRWSEGMLLRGPLELPVVW 4aw6-a6-m1-cD_4aw6-a6-m1-cE Crystal structure of the human nuclear membrane zinc metalloprotease ZMPSTE24 (FACE1) O75844 O75844 3.4 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 418 418 4aw6-a5-m1-cB_4aw6-a5-m1-cA LWEMPAEKRIFGAVLLFSWTVYLWETFLAQRQRRIYKTTTHVPPELGQIMDSETFEKSRLYQLDKSTFSFWSGLYSETEGTLILLFGGIPYLWRLSGRPEYEITQSLVFLLLATLFSALAGLPWSLYNTFVIEEKHGFNQQTLGFFMKDAIKKFVVTQCILLPVSSLLLYIIKIGGDYFFIYAWLFTLVVSLVLVTIYADYIAPLFDKFTPLPEGKLKEEIEVMAKSIDFPLTKVYVVEGSKRSSHSNAYFYGFFKNKRIVLFDTLLEQGCKNEEVLAVLGHELGHWKLGHTVKNIIISQMNSFLCFFLFAVLIGRKELFAAFGFYDSQPTLIGLLIIFQFIFSPYNEVLSFCLTVLSRRFEFQADAFAKKLGKAKDLYSALIKLNKDNLGFPVSDWLFSMWHYSHPPLLERLQALKT LWEMPAEKRIFGAVLLFSWTVYLWETFLAQRQRRIYKTTTHVPPELGQIMDSETFEKSRLYQLDKSTFSFWSGLYSETEGTLILLFGGIPYLWRLSGRPEYEITQSLVFLLLATLFSALAGLPWSLYNTFVIEEKHGFNQQTLGFFMKDAIKKFVVTQCILLPVSSLLLYIIKIGGDYFFIYAWLFTLVVSLVLVTIYADYIAPLFDKFTPLPEGKLKEEIEVMAKSIDFPLTKVYVVEGSKRSSHSNAYFYGFFKNKRIVLFDTLLEQGCKNEEVLAVLGHELGHWKLGHTVKNIIISQMNSFLCFFLFAVLIGRKELFAAFGFYDSQPTLIGLLIIFQFIFSPYNEVLSFCLTVLSRRFEFQADAFAKKLGKAKDLYSALIKLNKDNLGFPVSDWLFSMWHYSHPPLLERLQALKT 4aw8-a1-m1-cA_4aw8-a1-m2-cA X-ray structure of ZinT from Salmonella enterica in complex with zinc ion and PEG A0A315GY36 A0A315GY36 2 X-RAY DIFFRACTION 38 1.0 440534 (Salmonella enterica subsp. enterica serovar 4,[5],12:i:- str. CVM23701) 440534 (Salmonella enterica subsp. enterica serovar 4,[5],12:i:- str. CVM23701) 186 186 APMTEVEQKAAAGVFDDANVRDRALTDWDGMWQSVYPYLVSGELDPVFRQKAKKDPEKTFEDIKAYYRKGYVTNVETIGIENGVIEFHRDNNVASCKYNYAGYKILTYASGKKGVRYLFECKDANSKAPKYVQFSDHIIAPRKSAHFHIFMGNTSQQALLQEMENWPTYYPYQLKANEVVDEMLHH APMTEVEQKAAAGVFDDANVRDRALTDWDGMWQSVYPYLVSGELDPVFRQKAKKDPEKTFEDIKAYYRKGYVTNVETIGIENGVIEFHRDNNVASCKYNYAGYKILTYASGKKGVRYLFECKDANSKAPKYVQFSDHIIAPRKSAHFHIFMGNTSQQALLQEMENWPTYYPYQLKANEVVDEMLHH 4awb-a1-m1-cA_4awb-a1-m1-cB Crystal structure of active legumain in complex with AAN-CMK Q99538 Q99538 2.7 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 262 4awb-a1-m1-cI_4awb-a1-m1-cB 4awb-a1-m1-cJ_4awb-a1-m1-cA 7o50-a1-m1-cH_7o50-a1-m1-cA 7o50-a2-m1-cC_7o50-a2-m1-cB GGKHWVVIVAGSNGWYNYRHQADACHAYQIIHRNGIPDEQIVVMMYDDIAYSEDNPTPGIVINRPNGTDVYQGVPKDYTGEDVTPQNFLAVLRGDAEAVKGIGSGKVLKSGPQDHVFIYFTDHGSTGILVFPNEDLHVKDLNETIHYMYKHKMYRKMVFYIEACESGSMMNHLPDNINVYATTAANPRESSYACYYDEKRSTYLGDWYSVNWMEDSDVEDLTKETLHKQYHLVKSHTQTSHVMQYGNKTISTMKVMQFQGM GGKHWVVIVAGSNGWYNYRHQADACHAYQIIHRNGIPDEQIVVMMYDDIAYSEDNPTPGIVINRPNGTDVYQGVPKDYTGEDVTPQNFLAVLRGDAEAVKGIGSGKVLKSGPQDHVFIYFTDHGSTGILVFPNEDLHVKDLNETIHYMYKHKMYRKMVFYIEACESGSMMNHLPDNINVYATTAANPRESSYACYYDEKRSTYLGDWYSVNWMEDSDVEDLTKETLHKQYHLVKSHTQTSHVMQYGNKTISTMKVMQFQGMK 4ax2-a1-m1-cA_4ax2-a1-m2-cA New Type VI-secreted toxins and self-resistance proteins in Serratia marcescens K4DIE5 K4DIE5 1.88 X-RAY DIFFRACTION 130 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 124 124 QGHMAPIQDPVAFIKQMPYHQVVKELALSRCLAQVSDSDKAFSLDAARTANAMREWMPFDIESGDEKINVLIDKYKSRINEFHSKSQGVTLNCLRLYHSPELDKLSRQLIAGNPDRTWNQDNAK QGHMAPIQDPVAFIKQMPYHQVVKELALSRCLAQVSDSDKAFSLDAARTANAMREWMPFDIESGDEKINVLIDKYKSRINEFHSKSQGVTLNCLRLYHSPELDKLSRQLIAGNPDRTWNQDNAK 4axd-a1-m1-cA_4axd-a1-m2-cA Inositol 1,3,4,5,6-pentakisphosphate 2-kinase in complex with AMPPNP Q93YN9 Q93YN9 2.05 X-RAY DIFFRACTION 70 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 433 433 MEMILEEKDASDWIYRGEGGANLVLAYAGSSPLFVGKVIRIQKARRNDKAIKNSNGVVSVLTSDEQHLWRENNELISSPNKEVLEQRYVQNVIIPLLGPKHVDAGVRVSVSKEFLECVDKKVTKQRPLARVNAANVDTSHDSALILNDHSLFSQGITSGGDCISVEIKPKCGFLPTSRFIGKENMLKTSVSRFKMHQLLKLEYIEISEESEYDPLDLFSGSKERVLEAIKALYSTPQNNFRVFLNGSLILGGSGESTGRTSPEIGYAFEDALKGFIQSEDGHRTECFLQLVSDAVYGSGVLDRLLEIQKLDKLDIEGAIHCYYDIINQPCPICREGRPLEAELSLHALPLDESLKIVKEYLIAATAKDCSIMISFQSRNAWDSEPGDYVSLKPTNQTFDYKVHFIDLSLKPLKRMESYYKLDKKIISFYNRKQ MEMILEEKDASDWIYRGEGGANLVLAYAGSSPLFVGKVIRIQKARRNDKAIKNSNGVVSVLTSDEQHLWRENNELISSPNKEVLEQRYVQNVIIPLLGPKHVDAGVRVSVSKEFLECVDKKVTKQRPLARVNAANVDTSHDSALILNDHSLFSQGITSGGDCISVEIKPKCGFLPTSRFIGKENMLKTSVSRFKMHQLLKLEYIEISEESEYDPLDLFSGSKERVLEAIKALYSTPQNNFRVFLNGSLILGGSGESTGRTSPEIGYAFEDALKGFIQSEDGHRTECFLQLVSDAVYGSGVLDRLLEIQKLDKLDIEGAIHCYYDIINQPCPICREGRPLEAELSLHALPLDESLKIVKEYLIAATAKDCSIMISFQSRNAWDSEPGDYVSLKPTNQTFDYKVHFIDLSLKPLKRMESYYKLDKKIISFYNRKQ 4axi-a1-m3-cB_4axi-a1-m2-cA Structure of the Clostridium difficile EutS protein Q187M0 Q187M0 1.51 X-RAY DIFFRACTION 10 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 115 116 4axi-a1-m1-cB_4axi-a1-m3-cA 4axi-a1-m2-cB_4axi-a1-m1-cA TEESKQRVIQEYVPGKQVTLAHIIANPNEDIYKKLGLVLDKKDAIGILTITPSEASIIAADVATKASNVSLGFIDRFSGSVVISGDVSSVESALNDVLEVLGNMLNFSSTKITRT TEESKQRVIQEYVPGKQVTLAHIIANPNEDIYKKLGLVLDKKDAIGILTITPSEASIIAADVATKASNVSLGFIDRFSGSVVISGDVSSVESALNDVLEVLGNMLNFSSTKITRTL 4axi-a1-m3-cB_4axi-a1-m3-cA Structure of the Clostridium difficile EutS protein Q187M0 Q187M0 1.51 X-RAY DIFFRACTION 98 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 115 116 4axi-a1-m1-cB_4axi-a1-m1-cA 4axi-a1-m1-cB_4axi-a1-m2-cA 4axi-a1-m2-cB_4axi-a1-m2-cA 4axi-a1-m2-cB_4axi-a1-m3-cA 4axi-a1-m3-cB_4axi-a1-m1-cA TEESKQRVIQEYVPGKQVTLAHIIANPNEDIYKKLGLVLDKKDAIGILTITPSEASIIAADVATKASNVSLGFIDRFSGSVVISGDVSSVESALNDVLEVLGNMLNFSSTKITRT TEESKQRVIQEYVPGKQVTLAHIIANPNEDIYKKLGLVLDKKDAIGILTITPSEASIIAADVATKASNVSLGFIDRFSGSVVISGDVSSVESALNDVLEVLGNMLNFSSTKITRTL 4axj-a1-m2-cC_4axj-a1-m1-cA Structure of the Clostridium difficile EutM protein Q187N0 Q187N0 1.62 X-RAY DIFFRACTION 74 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 86 87 4axj-a1-m1-cA_4axj-a1-m1-cB 4axj-a1-m1-cC_4axj-a1-m1-cB 4axj-a1-m1-cC_4axj-a1-m2-cA 4axj-a1-m2-cA_4axj-a1-m2-cB 4axj-a1-m2-cC_4axj-a1-m2-cB NALGMIETKGLVGAIEAADAMVKAANVQLVGKEQVGGGLVTVMVRGDVGAVKAATDAGAAAAERVGELISVHVIPRPHFEVDAILP ANALGMIETKGLVGAIEAADAMVKAANVQLVGKEQVGGGLVTVMVRGDVGAVKAATDAGAAAAERVGELISVHVIPRPHFEVDAILP 4axl-a1-m1-cA_4axl-a1-m2-cA HUMAN CATHEPSIN L APO FORM WITH ZN P07711 P07711 1.92 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 APRSVDWREKGYVTPVKNQGQCGSCWAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLVVGYGFESTESDNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV APRSVDWREKGYVTPVKNQGQCGSCWAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLVVGYGFESTESDNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV 4axo-a1-m1-cA_4axo-a1-m1-cB Structure of the Clostridium difficile EutQ protein Q187N7 Q187N7 1 X-RAY DIFFRACTION 133 0.992 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 126 137 DTVDFVRNKDISGITSIKLPTVKVSESDRLDTGNPSDVVYTKDLFTLEESPRLGCGMMEMKETTFDWTLNYDEIDYVIDGTLDIIIDGRKVSASSGELIFIPKGSKIQFSVPDYARFIYVTYPADW TVDFVRNKDISGITSIKLPTVKVSESDRLDTGNPSDVVYTKDLFTLEESPRLGCGMMEMKETTFDWTLNYDEIDYVIDGTLDIIIDGRKVSASSGELIFIPKGSKIQFSVPDYARFIYVTYPADWASQNLEHHHHHH 4axs-a1-m1-cA_4axs-a1-m2-cA Structure of Carbamate Kinase from Mycoplasma penetrans Q8EVF4 Q8EVF4 2.5 X-RAY DIFFRACTION 173 1.0 28227 (Malacoplasma penetrans) 28227 (Malacoplasma penetrans) 291 291 RIVIALGGNALGDNPSQQKELVKIPAAKIAALIQEGHEVIVGHGNGPQVGMIFNAFADAKKANEKTALVPFAEAGGMSQGYIGYHMLTAISNELKKLNIQKDVLYFLTQTIVDANDPAFKNPTKPVGPFYSNPNSVIVKVVASPIPVDFIGIDAIKQNVNNGCVCIVGGGGGIPTIIQDNQYIGVDGVIDKDFALAKIADAVNADIFVVLTAVDYVYVDFNKPTQKALKTVDVKALNNFINQDQFAKGSMLPKIKAAMGFVNGHPNRSAIIADLSKVEDALKGLSGTKIIA RIVIALGGNALGDNPSQQKELVKIPAAKIAALIQEGHEVIVGHGNGPQVGMIFNAFADAKKANEKTALVPFAEAGGMSQGYIGYHMLTAISNELKKLNIQKDVLYFLTQTIVDANDPAFKNPTKPVGPFYSNPNSVIVKVVASPIPVDFIGIDAIKQNVNNGCVCIVGGGGGIPTIIQDNQYIGVDGVIDKDFALAKIADAVNADIFVVLTAVDYVYVDFNKPTQKALKTVDVKALNNFINQDQFAKGSMLPKIKAAMGFVNGHPNRSAIIADLSKVEDALKGLSGTKIIA 4axv-a1-m1-cA_4axv-a1-m2-cA Biochemical and structural characterization of the MpaA amidase as part of a conserved scavenging pathway for peptidoglycan derived peptides in gamma-proteobacteria A7N805 A7N805 2.17 X-RAY DIFFRACTION 167 1.0 239 239 VLFQGPASLIPRTERAAFLITPTSYGKSVLGAPLLYFPAQVESNSRGLILAGTHGDETASIAGLSCALRSLPAECLKHDVILSNPDANQLGTRANANQVDLNRAFPTQNWTEHGTVYRWSSHTPVRDVKVKTGDKEQLEPEVDALISLIELRRPKFVVSFHEPLAFVDDPAHSDLAKWLGKQFNLPIVDDVDYETPGSFGTWCNERQLPCITVELPPISADLTIEKHLDAFIALLQHDP VLFQGPASLIPRTERAAFLITPTSYGKSVLGAPLLYFPAQVESNSRGLILAGTHGDETASIAGLSCALRSLPAECLKHDVILSNPDANQLGTRANANQVDLNRAFPTQNWTEHGTVYRWSSHTPVRDVKVKTGDKEQLEPEVDALISLIELRRPKFVVSFHEPLAFVDDPAHSDLAKWLGKQFNLPIVDDVDYETPGSFGTWCNERQLPCITVELPPISADLTIEKHLDAFIALLQHDP 4axy-a1-m1-cA_4axy-a1-m1-cB A molecular basis for the action of the collagen-specific chaperone Hsp47-SERPINH1 and its structure-specific client recognition. 1.24 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 18 18 PPGPPGPTGPRGPPGPPG PPGPPGPTGPRGPPGPPG 4axy-a1-m1-cA_4axy-a1-m1-cC A molecular basis for the action of the collagen-specific chaperone Hsp47-SERPINH1 and its structure-specific client recognition. 1.24 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 18 18 PPGPPGPTGPRGPPGPPG PPGPPGPTGPRGPPGPPG 4axy-a1-m1-cB_4axy-a1-m1-cC A molecular basis for the action of the collagen-specific chaperone Hsp47-SERPINH1 and its structure-specific client recognition. 1.24 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 18 18 PPGPPGPTGPRGPPGPPG PPGPPGPTGPRGPPGPPG 4aya-a1-m1-cB_4aya-a1-m1-cA Crystal structure of ID2 HLH homodimer at 2.1A resolution Q02363 Q02363 2.103 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 48 59 LLYNMNDCYSKLKELVPSIPQNKKVSKMEILQHVIDYILDLQIALDSH DDPMSLLYNMNDCYSKLKELVPSIPQNKKVSKMEILQHVIDYILDLQIALDSHLKPSFL 4ayc-a1-m2-cB_4ayc-a1-m1-cA RNF8 RING domain structure O76064 O76064 1.9 X-RAY DIFFRACTION 19 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 126 136 4ayc-a1-m1-cB_4ayc-a1-m2-cA KDFEAIIQAKNKELEQTKEEKEKMQAQKEEVLSHMNDVLENELQCIICSEYFIEAVTLNCAHSFCSYCINEWMKRKIECPICRKDIKSKTYSLVLDNINKMVNNLSSEVKERRIVLIRERKAKRLF LGSMEELNRSKKDFEAIIQAKNKELEQTKEEKEKMQAQKEEVLSHMNDVLENELQCIICSEYFIEAVTLNCAHSFCSYCINEWMKRKIECPICRKDIKSKTYSLVLDNCINKMVNNLSSEVKERRIVLIRERKAKR 4ayn-a1-m1-cB_4ayn-a1-m1-cA Structure of the C-terminal barrel of Neisseria meningitidis FHbp Variant 2 C6KHT4 C6KHT4 2.06 X-RAY DIFFRACTION 77 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 119 125 GEHTAFNQLPSGKAEYHGKAFSSDDPNGRLHYSIDFTKKQGYGRIEHLKTPEQNVELASAELKADEKSHAVILGDTRYGSEEKGTYHLALFGDRAQEIAGSATVKIREKVHEIGIAGKQ GGEHTAFNQLPSGKAEYHGKAFSSDDPNGRLHYSIDFTKKQGYGRIEHLKTPEQNVELASAELKADEKSHAVILGDTRYGSEEKGTYHLALFGDRAQEIAGSATVKIREKVHEIGIAGKQLEHHH 4ayz-a1-m1-cB_4ayz-a1-m1-cA X-ray Structure of human SOUL Q9Y5Z4 Q9Y5Z4 3.5 X-RAY DIFFRACTION 35 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 176 180 AVETPGWKAPEDAGPQPGSYEIRHYGPAKWVSTSVESDWDSAIQTGFTKLNSYIQGKNEKEKIKTAPVTSYVEPGSGPFESSTITISLYIPSEQQFDPPRPLESDVFIEDRAETVFVRSFDGFSSAQKNQEQLLTLASILREDGKVFDEKVYYTAGYNSPVKLLNRNNEVWLIQKN AAAQAVETPGWKAPEDAGPQPGSYEIRHYGPAKWVSTSVESDWDSAIQTGFTKLNSYIQGKNEKEKIKTAPVTSYVEPGSGPFSESTITISLYIPSEQQFDPPRPLESDVFIEDRAETVFVRSFDGFSSAQKNQEQLLTLASILREDGKVFDEKVYYTAGYNSPVKLLNRNNEVWLIQKN 4az1-a1-m1-cB_4az1-a1-m1-cA Crystal structure of the Trypanosoma cruzi protein tyrosine phosphatase TcPTP1, a potential therapeutic target for Chagas' disease Q4E4C8 Q4E4C8 2.181 X-RAY DIFFRACTION 48 0.986 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 292 294 SNCFPFTKLSVQAQYERVQREFSLLLRQEDPRSISFATSLKNRHKNRYLDILANEATLYPQVTDAPGASTPYYINGNLIDLDLPHKFVACQAPVVQGIPDFLAMLYEKKISLVIMVTKLEEGGFVKADRYWPEERGSGSIAVSGNCGLTISEDPGKAYEVEDELKITRRYLILQRADEPPHKFTQVQYTGWPDHGIPQSATSLEALLTNVKNSPTTVPVVVHCSAGIGRTGTLIGAYAALTHLERGTLTDTTVYDVVSAMRRQRFGMVQRMEQYFVIYLTLMCRLGVDIKAL DSNCFPFTKLSVQAQYERVQREFSLLLRQEDPRSISFATSLKNRHKNRYLDILANEATLYPQVTDSTPYYINGNLIDLDLPHKFVACQAPVVQGIPDFLAMLYEKKISLVIMVTKLEEGGFVKADRYWPEERGSGSIAVSGNCGLTISEDPGKAYEVEDELKITRRYLILQRADEPPHKFTQVQYTGWPDHGIPQSATSLEALLTNVKNSPTTVPVVVHCSAGIGRTGTLIGAYAALTHLERGTLTDTTVYDVVSAMRRQRFGMVQRMEQYFVIYLTLMCRLGVDIKALVGLLN 4az5-a1-m1-cA_4az5-a1-m2-cA Differential inhibition of the tandem GH20 catalytic modules in the pneumococcal exo-beta-D-N-acetylglucosaminidase, StrH P49610 P49610 1.73 X-RAY DIFFRACTION 18 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 434 434 NEKLAKKKIVSIDAGRKYFSPEQLKEIIDKAKHYGYTDLHLLVGNDGLRFMLDDMSITANGKTYASDDVKRAIEKGTNDYYNDPNGNHLTESQMTDLINYAKDKGIGLIPTVNSPGHMDAILNAMKELGIQNPNFSYFGKKSARTVDLDNEQAVAFTKALIDKYAAYFAKKTEIFNIGLDEYANDATDAKGWSVLQADKYYPNEGYPVKGYEKFIAYANDLARIVKSHGLKPMAFNDGIYYNSDTSFGSFDKDIIVSMWTGGWGGYDVASSKLLAEKGHQILNTNDAWYYVLGRNADGQGWYNLDQGLNGIKNTPITSVPKTEGADIPIIGGMVAAWADTPSARYSPSRLFKLMRHFANANAEYFAADYESAEQALNEVPKDLNRYTAESVTAVKEAEKAIRSLDSNLSRAQQDTIDQAIAKLQETVNNLTLTP NEKLAKKKIVSIDAGRKYFSPEQLKEIIDKAKHYGYTDLHLLVGNDGLRFMLDDMSITANGKTYASDDVKRAIEKGTNDYYNDPNGNHLTESQMTDLINYAKDKGIGLIPTVNSPGHMDAILNAMKELGIQNPNFSYFGKKSARTVDLDNEQAVAFTKALIDKYAAYFAKKTEIFNIGLDEYANDATDAKGWSVLQADKYYPNEGYPVKGYEKFIAYANDLARIVKSHGLKPMAFNDGIYYNSDTSFGSFDKDIIVSMWTGGWGGYDVASSKLLAEKGHQILNTNDAWYYVLGRNADGQGWYNLDQGLNGIKNTPITSVPKTEGADIPIIGGMVAAWADTPSARYSPSRLFKLMRHFANANAEYFAADYESAEQALNEVPKDLNRYTAESVTAVKEAEKAIRSLDSNLSRAQQDTIDQAIAKLQETVNNLTLTP 4az9-a2-m3-cA_4az9-a2-m1-cB Crystal structure of phox homology domain of human sorting nexin 24 Q9Y343 Q9Y343 1.75 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 114 4az9-a1-m1-cA_4az9-a1-m2-cB GTENLYFQSMEVYIPSFRYEESDLERGYTVFKIEVLMNGRKHFVEKRYSEFHALHKKLKKCIKTPEIPSKHVRNWVPKVLEQRRQGLETYLQAVILENEELPKLFLDFLNV GTENLYFQSMEVYIPSFRYEESDLERGYTVFKIEVLMNGRKHFVEKRYSEFHALHKKLKKCIKTPEIPSKHVRNWVPKVLEQRRQGLETYLQAVILENEELPKLFLDFLNVRHL 4azb-a1-m1-cA_4azb-a1-m2-cA Differential inhibition of the tandem GH20 catalytic modules in the pneumococcal exo-beta-D-N-acetylglucosaminidase, StrH P49610 P49610 2.1 X-RAY DIFFRACTION 90 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 408 408 NEKLAKKKIVSIDAGRKYFSPEQLKEIIDKAKHYGYTDLHLLVGNDGLRFMLDDMSITANGKTYASDDVKRAIEKGTNDYYNDPNGNHLTESQMTDLINYAKDKGIGLIPTVNSPGHMDAILNAMKELGIQNPNFSYFGKKSARTVDLDNEQAVAFTKALIDKYAAYFAKKTEIFNIGLDEYANDATDAKGWSVLQADKYYPNEGYPVKGYEKFIAYANDLARIVKSHGLKPMAFNDGIYYNSDTSFGSFDKDIIVSMWTGGWGGYDVASSKLLAEKGHQILNTNDAWYYVLGRNADGQGGGNLDQGLNGIKNTPITSVPKTEGADIPIIGGMVAAWADTPSARYSPSRLFKLMRHFANANAEYFAADYESAEQALNEVPKDAIRSLDSNLSRAQQDTIDQAIAKLQE NEKLAKKKIVSIDAGRKYFSPEQLKEIIDKAKHYGYTDLHLLVGNDGLRFMLDDMSITANGKTYASDDVKRAIEKGTNDYYNDPNGNHLTESQMTDLINYAKDKGIGLIPTVNSPGHMDAILNAMKELGIQNPNFSYFGKKSARTVDLDNEQAVAFTKALIDKYAAYFAKKTEIFNIGLDEYANDATDAKGWSVLQADKYYPNEGYPVKGYEKFIAYANDLARIVKSHGLKPMAFNDGIYYNSDTSFGSFDKDIIVSMWTGGWGGYDVASSKLLAEKGHQILNTNDAWYYVLGRNADGQGGGNLDQGLNGIKNTPITSVPKTEGADIPIIGGMVAAWADTPSARYSPSRLFKLMRHFANANAEYFAADYESAEQALNEVPKDAIRSLDSNLSRAQQDTIDQAIAKLQE 4azm-a1-m1-cB_4azm-a1-m1-cA Human epidermal fatty acid-binding protein (FABP5) in complex with the inhibitor BMS-309413 Q01469 Q01469 2.75 X-RAY DIFFRACTION 223 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 134 135 ATVQQLEGRWRLVDSKGFDEYMKELGVGIALRKMGAMAKPDCIITCDGKNLTIKTESTLKTTQFSCTLGEKFEETTADGRKTQTVCNFTDGALVQHQEWDGKESTITRKLKDGKLVVECVMNNVTCTRIYEKVE HMATVQQLEGRWRLVDSKGFDEYMKELGVGIALRKMGAMAKPDCIITCDGKNLTIKTESTLKTTQFSCTLGEKFEETTADGRKTQTVCNFTDGALVQHQEWDGKESTITRKLKDGKLVVECVMNNVTCTRIYEKV 4azq-a1-m1-cA_4azq-a1-m2-cA Murine epidermal fatty acid-binding protein (FABP5) in complex with the endocannabinoid 2-arachidonoylglycerol Q05816 Q05816 2 X-RAY DIFFRACTION 30 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 136 4azo-a1-m1-cA_4azo-a1-m2-cA HMASLKDLEGKWRLMESHGFEEYMKELGVGLALRKMAAMAKPDCIITCDGNNITVKTESTVKTTVFSCNLGEKFEETTADGRKTETVCTFQDGALVQHQQWDGKESTITRKLKDGKMIVECVMNNATCTRVYEKVQ HMASLKDLEGKWRLMESHGFEEYMKELGVGLALRKMAAMAKPDCIITCDGNNITVKTESTVKTTVFSCNLGEKFEETTADGRKTETVCTFQDGALVQHQQWDGKESTITRKLKDGKMIVECVMNNATCTRVYEKVQ 4azr-a1-m1-cA_4azr-a1-m1-cB Human epidermal fatty acid-binding protein (FABP5) in complex with the endocannabinoid anandamide Q01469 Q01469 2.95 X-RAY DIFFRACTION 241 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 135 HMATVQQLEGRWRLVDSKGFDEYMKELGVGIALRKMGAMAKPDCIITCDGKNLTIKTESTVKTTQFSCTLGEKFEETTADGRKTQTVCNFTDGALVQHQEWDGKESTITRKLKDGKLVVECVMNNVTCTRIYEKV HMATVQQLEGRWRLVDSKGFDEYMKELGVGIALRKMGAMAKPDCIITCDGKNLTIKTESTVKTTQFSCTLGEKFEETTADGRKTQTVCNFTDGALVQHQEWDGKESTITRKLKDGKLVVECVMNNVTCTRIYEKV 4b03-a1-m10-cE_4b03-a1-m9-cF 6A Electron cryomicroscopy structure of immature Dengue virus serotype 1 G3F5K5 G3F5K5 6.0 ELECTRON MICROSCOPY 33 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 166 166 4b03-a1-m10-cF_4b03-a1-m6-cE 4b03-a1-m11-cE_4b03-a1-m15-cF 4b03-a1-m11-cF_4b03-a1-m12-cE 4b03-a1-m12-cF_4b03-a1-m13-cE 4b03-a1-m13-cF_4b03-a1-m14-cE 4b03-a1-m14-cF_4b03-a1-m15-cE 4b03-a1-m16-cE_4b03-a1-m20-cF 4b03-a1-m16-cF_4b03-a1-m17-cE 4b03-a1-m17-cF_4b03-a1-m18-cE 4b03-a1-m18-cF_4b03-a1-m19-cE 4b03-a1-m19-cF_4b03-a1-m20-cE 4b03-a1-m1-cE_4b03-a1-m5-cF 4b03-a1-m1-cF_4b03-a1-m2-cE 4b03-a1-m21-cE_4b03-a1-m25-cF 4b03-a1-m21-cF_4b03-a1-m22-cE 4b03-a1-m22-cF_4b03-a1-m23-cE 4b03-a1-m23-cF_4b03-a1-m24-cE 4b03-a1-m24-cF_4b03-a1-m25-cE 4b03-a1-m26-cE_4b03-a1-m30-cF 4b03-a1-m26-cF_4b03-a1-m27-cE 4b03-a1-m27-cF_4b03-a1-m28-cE 4b03-a1-m28-cF_4b03-a1-m29-cE 4b03-a1-m29-cF_4b03-a1-m30-cE 4b03-a1-m2-cF_4b03-a1-m3-cE 4b03-a1-m31-cE_4b03-a1-m35-cF 4b03-a1-m31-cF_4b03-a1-m32-cE 4b03-a1-m32-cF_4b03-a1-m33-cE 4b03-a1-m33-cF_4b03-a1-m34-cE 4b03-a1-m34-cF_4b03-a1-m35-cE 4b03-a1-m36-cE_4b03-a1-m40-cF 4b03-a1-m36-cF_4b03-a1-m37-cE 4b03-a1-m37-cF_4b03-a1-m38-cE 4b03-a1-m38-cF_4b03-a1-m39-cE 4b03-a1-m39-cF_4b03-a1-m40-cE 4b03-a1-m3-cF_4b03-a1-m4-cE 4b03-a1-m41-cE_4b03-a1-m45-cF 4b03-a1-m41-cF_4b03-a1-m42-cE 4b03-a1-m42-cF_4b03-a1-m43-cE 4b03-a1-m43-cF_4b03-a1-m44-cE 4b03-a1-m44-cF_4b03-a1-m45-cE 4b03-a1-m46-cE_4b03-a1-m50-cF 4b03-a1-m46-cF_4b03-a1-m47-cE 4b03-a1-m47-cF_4b03-a1-m48-cE 4b03-a1-m48-cF_4b03-a1-m49-cE 4b03-a1-m49-cF_4b03-a1-m50-cE 4b03-a1-m4-cF_4b03-a1-m5-cE 4b03-a1-m51-cE_4b03-a1-m55-cF 4b03-a1-m51-cF_4b03-a1-m52-cE 4b03-a1-m52-cF_4b03-a1-m53-cE 4b03-a1-m53-cF_4b03-a1-m54-cE 4b03-a1-m54-cF_4b03-a1-m55-cE 4b03-a1-m56-cE_4b03-a1-m60-cF 4b03-a1-m56-cF_4b03-a1-m57-cE 4b03-a1-m57-cF_4b03-a1-m58-cE 4b03-a1-m58-cF_4b03-a1-m59-cE 4b03-a1-m59-cF_4b03-a1-m60-cE 4b03-a1-m6-cF_4b03-a1-m7-cE 4b03-a1-m7-cF_4b03-a1-m8-cE 4b03-a1-m8-cF_4b03-a1-m9-cE FHLTTRGGEPHMIVSKQERGKSLLFKTSAGVNMCTLIAMDLGELCEDTMTYKCPRITETEPDDVDCWCNATETWVTYGTCSQTGEHRRDKRSVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTPSMA FHLTTRGGEPHMIVSKQERGKSLLFKTSAGVNMCTLIAMDLGELCEDTMTYKCPRITETEPDDVDCWCNATETWVTYGTCSQTGEHRRDKRSVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTPSMA 4b03-a1-m54-cD_4b03-a1-m9-cD 6A Electron cryomicroscopy structure of immature Dengue virus serotype 1 G3F5K5 G3F5K5 6.0 ELECTRON MICROSCOPY 11 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 166 166 4b03-a1-m10-cD_4b03-a1-m23-cD 4b03-a1-m11-cD_4b03-a1-m20-cD 4b03-a1-m11-cD_4b03-a1-m38-cD 4b03-a1-m12-cD_4b03-a1-m37-cD 4b03-a1-m12-cD_4b03-a1-m47-cD 4b03-a1-m13-cD_4b03-a1-m45-cD 4b03-a1-m13-cD_4b03-a1-m46-cD 4b03-a1-m14-cD_4b03-a1-m29-cD 4b03-a1-m14-cD_4b03-a1-m44-cD 4b03-a1-m15-cD_4b03-a1-m16-cD 4b03-a1-m15-cD_4b03-a1-m28-cD 4b03-a1-m16-cD_4b03-a1-m28-cD 4b03-a1-m17-cD_4b03-a1-m27-cD 4b03-a1-m17-cD_4b03-a1-m52-cD 4b03-a1-m18-cD_4b03-a1-m51-cD 4b03-a1-m18-cD_4b03-a1-m60-cD 4b03-a1-m19-cD_4b03-a1-m39-cD 4b03-a1-m19-cD_4b03-a1-m59-cD 4b03-a1-m1-cD_4b03-a1-m10-cD 4b03-a1-m1-cD_4b03-a1-m23-cD 4b03-a1-m20-cD_4b03-a1-m38-cD 4b03-a1-m21-cD_4b03-a1-m30-cD 4b03-a1-m21-cD_4b03-a1-m43-cD 4b03-a1-m22-cD_4b03-a1-m42-cD 4b03-a1-m24-cD_4b03-a1-m54-cD 4b03-a1-m24-cD_4b03-a1-m9-cD 4b03-a1-m25-cD_4b03-a1-m26-cD 4b03-a1-m25-cD_4b03-a1-m53-cD 4b03-a1-m26-cD_4b03-a1-m53-cD 4b03-a1-m27-cD_4b03-a1-m52-cD 4b03-a1-m29-cD_4b03-a1-m44-cD 4b03-a1-m2-cD_4b03-a1-m22-cD 4b03-a1-m2-cD_4b03-a1-m42-cD 4b03-a1-m30-cD_4b03-a1-m43-cD 4b03-a1-m31-cD_4b03-a1-m40-cD 4b03-a1-m31-cD_4b03-a1-m58-cD 4b03-a1-m32-cD_4b03-a1-m57-cD 4b03-a1-m32-cD_4b03-a1-m7-cD 4b03-a1-m33-cD_4b03-a1-m5-cD 4b03-a1-m33-cD_4b03-a1-m6-cD 4b03-a1-m34-cD_4b03-a1-m49-cD 4b03-a1-m34-cD_4b03-a1-m4-cD 4b03-a1-m35-cD_4b03-a1-m36-cD 4b03-a1-m35-cD_4b03-a1-m48-cD 4b03-a1-m36-cD_4b03-a1-m48-cD 4b03-a1-m37-cD_4b03-a1-m47-cD 4b03-a1-m39-cD_4b03-a1-m59-cD 4b03-a1-m3-cD_4b03-a1-m41-cD 4b03-a1-m3-cD_4b03-a1-m50-cD 4b03-a1-m40-cD_4b03-a1-m58-cD 4b03-a1-m41-cD_4b03-a1-m50-cD 4b03-a1-m45-cD_4b03-a1-m46-cD 4b03-a1-m4-cD_4b03-a1-m49-cD 4b03-a1-m51-cD_4b03-a1-m60-cD 4b03-a1-m55-cD_4b03-a1-m56-cD 4b03-a1-m55-cD_4b03-a1-m8-cD 4b03-a1-m56-cD_4b03-a1-m8-cD 4b03-a1-m57-cD_4b03-a1-m7-cD 4b03-a1-m5-cD_4b03-a1-m6-cD FHLTTRGGEPHMIVSKQERGKSLLFKTSAGVNMCTLIAMDLGELCEDTMTYKCPRITETEPDDVDCWCNATETWVTYGTCSQTGEHRRDKRSVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTPSMA FHLTTRGGEPHMIVSKQERGKSLLFKTSAGVNMCTLIAMDLGELCEDTMTYKCPRITETEPDDVDCWCNATETWVTYGTCSQTGEHRRDKRSVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTPSMA 4b03-a1-m8-cC_4b03-a1-m9-cC 6A Electron cryomicroscopy structure of immature Dengue virus serotype 1 G3F5K5 G3F5K5 6.0 ELECTRON MICROSCOPY 10 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 495 495 4b03-a1-m10-cC_4b03-a1-m6-cC 4b03-a1-m10-cC_4b03-a1-m9-cC 4b03-a1-m11-cC_4b03-a1-m12-cC 4b03-a1-m11-cC_4b03-a1-m15-cC 4b03-a1-m12-cC_4b03-a1-m13-cC 4b03-a1-m13-cC_4b03-a1-m14-cC 4b03-a1-m14-cC_4b03-a1-m15-cC 4b03-a1-m16-cC_4b03-a1-m17-cC 4b03-a1-m16-cC_4b03-a1-m20-cC 4b03-a1-m17-cC_4b03-a1-m18-cC 4b03-a1-m18-cC_4b03-a1-m19-cC 4b03-a1-m19-cC_4b03-a1-m20-cC 4b03-a1-m1-cC_4b03-a1-m2-cC 4b03-a1-m1-cC_4b03-a1-m5-cC 4b03-a1-m21-cC_4b03-a1-m22-cC 4b03-a1-m21-cC_4b03-a1-m25-cC 4b03-a1-m22-cC_4b03-a1-m23-cC 4b03-a1-m23-cC_4b03-a1-m24-cC 4b03-a1-m24-cC_4b03-a1-m25-cC 4b03-a1-m26-cC_4b03-a1-m27-cC 4b03-a1-m26-cC_4b03-a1-m30-cC 4b03-a1-m27-cC_4b03-a1-m28-cC 4b03-a1-m28-cC_4b03-a1-m29-cC 4b03-a1-m29-cC_4b03-a1-m30-cC 4b03-a1-m2-cC_4b03-a1-m3-cC 4b03-a1-m31-cC_4b03-a1-m32-cC 4b03-a1-m31-cC_4b03-a1-m35-cC 4b03-a1-m32-cC_4b03-a1-m33-cC 4b03-a1-m33-cC_4b03-a1-m34-cC 4b03-a1-m34-cC_4b03-a1-m35-cC 4b03-a1-m36-cC_4b03-a1-m37-cC 4b03-a1-m36-cC_4b03-a1-m40-cC 4b03-a1-m37-cC_4b03-a1-m38-cC 4b03-a1-m38-cC_4b03-a1-m39-cC 4b03-a1-m39-cC_4b03-a1-m40-cC 4b03-a1-m3-cC_4b03-a1-m4-cC 4b03-a1-m41-cC_4b03-a1-m42-cC 4b03-a1-m41-cC_4b03-a1-m45-cC 4b03-a1-m42-cC_4b03-a1-m43-cC 4b03-a1-m43-cC_4b03-a1-m44-cC 4b03-a1-m44-cC_4b03-a1-m45-cC 4b03-a1-m46-cC_4b03-a1-m47-cC 4b03-a1-m46-cC_4b03-a1-m50-cC 4b03-a1-m47-cC_4b03-a1-m48-cC 4b03-a1-m48-cC_4b03-a1-m49-cC 4b03-a1-m49-cC_4b03-a1-m50-cC 4b03-a1-m4-cC_4b03-a1-m5-cC 4b03-a1-m51-cC_4b03-a1-m52-cC 4b03-a1-m51-cC_4b03-a1-m55-cC 4b03-a1-m52-cC_4b03-a1-m53-cC 4b03-a1-m53-cC_4b03-a1-m54-cC 4b03-a1-m54-cC_4b03-a1-m55-cC 4b03-a1-m56-cC_4b03-a1-m57-cC 4b03-a1-m56-cC_4b03-a1-m60-cC 4b03-a1-m57-cC_4b03-a1-m58-cC 4b03-a1-m58-cC_4b03-a1-m59-cC 4b03-a1-m59-cC_4b03-a1-m60-cC 4b03-a1-m6-cC_4b03-a1-m7-cC 4b03-a1-m7-cC_4b03-a1-m8-cC MRCVGISNRDFVEGLSATGWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAILRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTTATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGVSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVIQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKKGSSIGKMFEATARGARRMAILGDTAWDFGSIGGVFTSVGKLVHQIFGTAYGVLFSGVSWTMKIGIGILLTWLGLNSRSTSLSMTCIAVGMVTLYLGVMVQA MRCVGISNRDFVEGLSATGWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAILRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTTATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGVSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVIQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKKGSSIGKMFEATARGARRMAILGDTAWDFGSIGGVFTSVGKLVHQIFGTAYGVLFSGVSWTMKIGIGILLTWLGLNSRSTSLSMTCIAVGMVTLYLGVMVQA 4b03-a1-m9-cD_4b03-a1-m9-cE 6A Electron cryomicroscopy structure of immature Dengue virus serotype 1 G3F5K5 G3F5K5 6.0 ELECTRON MICROSCOPY 20 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 166 166 4b03-a1-m10-cD_4b03-a1-m10-cE 4b03-a1-m11-cD_4b03-a1-m11-cE 4b03-a1-m12-cD_4b03-a1-m12-cE 4b03-a1-m13-cD_4b03-a1-m13-cE 4b03-a1-m14-cD_4b03-a1-m14-cE 4b03-a1-m15-cD_4b03-a1-m15-cE 4b03-a1-m16-cD_4b03-a1-m16-cE 4b03-a1-m17-cD_4b03-a1-m17-cE 4b03-a1-m18-cD_4b03-a1-m18-cE 4b03-a1-m19-cD_4b03-a1-m19-cE 4b03-a1-m1-cD_4b03-a1-m1-cE 4b03-a1-m20-cD_4b03-a1-m20-cE 4b03-a1-m21-cD_4b03-a1-m21-cE 4b03-a1-m22-cD_4b03-a1-m22-cE 4b03-a1-m23-cD_4b03-a1-m23-cE 4b03-a1-m24-cD_4b03-a1-m24-cE 4b03-a1-m25-cD_4b03-a1-m25-cE 4b03-a1-m26-cD_4b03-a1-m26-cE 4b03-a1-m27-cD_4b03-a1-m27-cE 4b03-a1-m28-cD_4b03-a1-m28-cE 4b03-a1-m29-cD_4b03-a1-m29-cE 4b03-a1-m2-cD_4b03-a1-m2-cE 4b03-a1-m30-cD_4b03-a1-m30-cE 4b03-a1-m31-cD_4b03-a1-m31-cE 4b03-a1-m32-cD_4b03-a1-m32-cE 4b03-a1-m33-cD_4b03-a1-m33-cE 4b03-a1-m34-cD_4b03-a1-m34-cE 4b03-a1-m35-cD_4b03-a1-m35-cE 4b03-a1-m36-cD_4b03-a1-m36-cE 4b03-a1-m37-cD_4b03-a1-m37-cE 4b03-a1-m38-cD_4b03-a1-m38-cE 4b03-a1-m39-cD_4b03-a1-m39-cE 4b03-a1-m3-cD_4b03-a1-m3-cE 4b03-a1-m40-cD_4b03-a1-m40-cE 4b03-a1-m41-cD_4b03-a1-m41-cE 4b03-a1-m42-cD_4b03-a1-m42-cE 4b03-a1-m43-cD_4b03-a1-m43-cE 4b03-a1-m44-cD_4b03-a1-m44-cE 4b03-a1-m45-cD_4b03-a1-m45-cE 4b03-a1-m46-cD_4b03-a1-m46-cE 4b03-a1-m47-cD_4b03-a1-m47-cE 4b03-a1-m48-cD_4b03-a1-m48-cE 4b03-a1-m49-cD_4b03-a1-m49-cE 4b03-a1-m4-cD_4b03-a1-m4-cE 4b03-a1-m50-cD_4b03-a1-m50-cE 4b03-a1-m51-cD_4b03-a1-m51-cE 4b03-a1-m52-cD_4b03-a1-m52-cE 4b03-a1-m53-cD_4b03-a1-m53-cE 4b03-a1-m54-cD_4b03-a1-m54-cE 4b03-a1-m55-cD_4b03-a1-m55-cE 4b03-a1-m56-cD_4b03-a1-m56-cE 4b03-a1-m57-cD_4b03-a1-m57-cE 4b03-a1-m58-cD_4b03-a1-m58-cE 4b03-a1-m59-cD_4b03-a1-m59-cE 4b03-a1-m5-cD_4b03-a1-m5-cE 4b03-a1-m60-cD_4b03-a1-m60-cE 4b03-a1-m6-cD_4b03-a1-m6-cE 4b03-a1-m7-cD_4b03-a1-m7-cE 4b03-a1-m8-cD_4b03-a1-m8-cE FHLTTRGGEPHMIVSKQERGKSLLFKTSAGVNMCTLIAMDLGELCEDTMTYKCPRITETEPDDVDCWCNATETWVTYGTCSQTGEHRRDKRSVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTPSMA FHLTTRGGEPHMIVSKQERGKSLLFKTSAGVNMCTLIAMDLGELCEDTMTYKCPRITETEPDDVDCWCNATETWVTYGTCSQTGEHRRDKRSVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTPSMA 4b04-a2-m1-cD_4b04-a2-m1-cC Crystal structure of the Catalytic Domain of Human DUSP26 (C152S) Q9BV47 Q9BV47 2.205 X-RAY DIFFRACTION 122 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 147 150 2e0t-a1-m1-cA_2e0t-a1-m2-cA 4b04-a1-m1-cB_4b04-a1-m1-cA 4hrf-a1-m1-cC_4hrf-a1-m1-cA 4hrf-a1-m1-cD_4hrf-a1-m1-cB 4hrf-a2-m1-cC_4hrf-a2-m1-cA 4hrf-a3-m1-cD_4hrf-a3-m1-cB HADEVWPGLYLGDQMANNRRELRRLGITHVLNASHRGTPEAYEGLGIRYLGVEAHDSPAFDMSIHFQTAADFIHRALSQPGGKILVHSAVGVSRSATLVLAYLMLYHHLTLVEAIKKVKDHRGIIPNRGFLRQLLALDRRLRQGLEA MHADEVWPGLYLGDQDMANNRRELRRLGITHVLNASHGTPEAYEGLGIRYLGVEAHDSPAFDMSIHFQTAADFIHRALSQPGGKILVHSAVGVSRSATLVLAYLMLYHHLTLVEAIKKVKDHRGIIPNRGFLRQLLALDRRLRQGLEALE 4b09-a1-m1-cB_4b09-a1-m1-cA Structure of unphosphorylated BaeR dimer P69229 P69229 3.3 X-RAY DIFFRACTION 80 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 214 216 4b09-a2-m1-cD_4b09-a2-m1-cC 4b09-a3-m1-cF_4b09-a3-m1-cE 4b09-a4-m1-cH_4b09-a4-m1-cG 4b09-a5-m1-cJ_4b09-a5-m1-cI NTPRILIVEDEPKLGQLLIDYLRAASYAPTLISHGDQVLPYVRQTPPDLILLDLMLPGTDGLMLREIRRFSDIPIVMVTAKIEEIDRLLGLEIGADDYIKPYSPREVVARVKTILPLIIDEGRFQASWRGKMLDLTPAEFRLLKTLSHEPGKVFSREQLLNHLYDDYRVVTDRTIDSHIKNLRRKLESLDAEQSFIRAVYGVGYRWEADACRIV NTPRILIVEDEPKLGQLLIDYLRAASYAPTLISHGDQVLPYVRQTPPDLILLDLMLPGTDGLMLREIRRFSDIPIVMVTAKIEEIDRLLGLEIGADDYIKPYSPREVVARVKTILRSPLIIDEGRFQASWRGKMLDLTPAEFRLLKTLSHEPGKVFSREQLLNHLYDDYRVVTDRTIDSHIKNLRRKLESLDAEQSFIRAVYGVGYRWEADACRIV 4b0f-a1-m1-cC_4b0f-a1-m1-cE Heptameric core complex structure of C4b-binding (C4BP) protein from human P04003 P04003 2.8 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 47 53 4b0f-a1-m1-cB_4b0f-a1-m1-cD 4b0f-a1-m1-cC_4b0f-a1-m1-cA 4b0f-a1-m1-cE_4b0f-a1-m1-cG 4b0f-a1-m1-cF_4b0f-a1-m1-cA 4b0f-a1-m1-cF_4b0f-a1-m1-cD PEGCEQVLTGKRLQCLPNPEDVKALEVYKLSLEIEQLELQRDSARQS ETPEGCEQVLTGKRLQCLPNPEDVKALEVYKLSLEIEQLELQRDSARQSTLDK 4b0n-a1-m1-cA_4b0n-a1-m1-cB Crystal structure of PKS-I from the brown algae Ectocarpus siliculosus D8LJ35 D8LJ35 2.85 X-RAY DIFFRACTION 155 1.0 2880 (Ectocarpus siliculosus) 2880 (Ectocarpus siliculosus) 379 379 KDEQTVYPVIAGMAIGNPQYRCTQNEALAVASKCPGLESIKPVLERIYGNSRIGSRYFAVPDFTPGRAAKGDPLFYPADGSYQVPVDVRLDKFKEKAVPLVSDVARRAIKEAGLNVEDISKLVVVSSTGFLGPGLDCELIKNLGLTRSVDRTLIGFMGCAAAMNGFRNANDYVTANPGKYALMICVELSSVHTTFDDNINDAILHAIFADGCAAAVLKGARKSECPKGTLAIVDNHAWLMEGTEDGITLAIKPNGITCTLSKFLPQYIAKNIAFFADGFLKKHKLGRDDVDFWCVHPGGRRIIEEAQNGLGLSEEQTADSWAVLGEYGNMLSPSVMFVLSRVFKRHNAALAQGKPGYQTGMAFSFSPGVGAEGILLRQI KDEQTVYPVIAGMAIGNPQYRCTQNEALAVASKCPGLESIKPVLERIYGNSRIGSRYFAVPDFTPGRAAKGDPLFYPADGSYQVPVDVRLDKFKEKAVPLVSDVARRAIKEAGLNVEDISKLVVVSSTGFLGPGLDCELIKNLGLTRSVDRTLIGFMGCAAAMNGFRNANDYVTANPGKYALMICVELSSVHTTFDDNINDAILHAIFADGCAAAVLKGARKSECPKGTLAIVDNHAWLMEGTEDGITLAIKPNGITCTLSKFLPQYIAKNIAFFADGFLKKHKLGRDDVDFWCVHPGGRRIIEEAQNGLGLSEEQTADSWAVLGEYGNMLSPSVMFVLSRVFKRHNAALAQGKPGYQTGMAFSFSPGVGAEGILLRQI 4b0t-a1-m1-cA_4b0t-a1-m1-cB Structure of the Pup Ligase PafA of the Prokaryotic Ubiquitin-like Modification Pathway in Complex with ADP Q8NQE1 Q8NQE1 2.159 X-RAY DIFFRACTION 429 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 470 472 STVESALTRRIMGIETEYGLTFVDRPDEIARRMFRPIVEKYSSSNIFIPNGSRLYLDVGSHPEYATAECDNLTQLINFEKAGDVIADRMAVDAEESLAKEDIAGQVYLFKNNVDSVGNSYGCHENYLVGRSMPLKALGKRLMPFLITRQLICGAGRIHHPNPLDKGESFPLGYCISQRSDHVWEGVSSATTRSRPIINTRDEPHADSHSYRRLHVIVGDANMAEPSIALKVGSTLLVLEMIEADFGLPSLELANDIASIREISRDATGSTLLSLKDGTTMTALQIQQVVFEHASKWLEQRPEPEFSGTSNTEMARVLDLWGRMLKAIESGDFSEVDTEIDWVIKKKLIDRFIQRGNLGLDDPKLAQVDLTYHDIRPGRGLFSVLQSRGMIKRWTTDEAILAAVDTAPDTTRAHLRGRILKAADTLGVPVTVDWMRHKVNRPEPQSVELGDPFSAVNSEVDQLIEYMTVHA STVESALTRRIMGIETEYGLTFVDLRPDEIARRMFRPIVEKYSSSNIFIPNGSRLYLDVGSHPEYATAECDNLTQLINFEKAGDVIADRMAVDAEESLAKEDIAGQVYLFKNNVDSVGNSYGCHENYLVGRSMPLKALGKRLMPFLITRQLICGAGRIHHPNPLDKGESFPLGYCISQRSDHVWEGVSSATTRSRPIINTRDEPHADSHSYRRLHVIVGDANMAEPSIALKVGSTLLVLEMIEADFGLPSLELANDIASIREISRDATGSTLLSLKDGTTMTALQIQQVVFEHASKWLEQRPEPEFSGTSNTEMARVLDLWGRMLKAIESGDFSEVDTEIDWVIKKKLIDRFIQRGNLGLDDPKLAQVDLTYHDIRPGRGLFSVLQSRGMIKRWTTDEAILAAVDTAPDTTRAHLRGRILKAADTLGVPVTVDWMRHKVNRPEPQSVELGDPFSAVNSEVDQLIEYMTVHAE 4b0z-a1-m1-cB_4b0z-a1-m1-cA Crystal structure of S. pombe Rpn12 P50524 P50524 1.585 X-RAY DIFFRACTION 27 0.991 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 220 227 DLNHLADLYDRKDWNACKKELLKLKVELAKQNLFVPTSDKEKASFARNVFEYGVLVSIQTCDIESFARYASQVIPFYHDSLVPSSRMGLVTGLNLLYLLSENRIAEFHTALESVPDKSLFERDPYVEWVISLEQNVMEGAFDKVASMIRSCNFPEFSYFMKIVMSMVRNEIATCAEKVYSEIPLSNATSLLYLENTKETEKLAEERGWDIRDGVIYFPKE GPLGSMSTLDLNHLADLYDRKDWNACKKELLKLKVELAKQNLFVPTSDKEKASFARNVFEYGVLVSIQTCDIESFARYASQVIPFYHDSLVPSSRMGLVTGLNLLYLLSENRIAEFHTALESVPDKSLFERDPYVEWVISLEQNVMEGAFDKVASMIRSCNFPEFSYFMKIVMSMVRNEIATCAEKVYSEIPLSNATSLLYLENTKETEKLAEERGWDIRDGVIYFP 4b15-a1-m1-cA_4b15-a1-m2-cA crystal structure of tamarind chitinase like lectin (TCLL) S4S1V9 S4S1V9 1.49 X-RAY DIFFRACTION 74 1.0 58860 (Tamarindus indica) 58860 (Tamarindus indica) 265 265 4b16-a1-m1-cA_4b16-a1-m2-cA GGNIVVYWGQGGSDNSEGSLKEACKSGHYNMIVLEELITYDNGRDPDLNLGAHCVNCTSLQQEIKYCQLKLIKILLQIGQVTPTKEDTKDTTKDLSQYLDSNFFSGKSGPLGEVYLDGIDIASVPEGLNLKFDELVQALNDSATSRRIYLSASPNCVYPDYYLDKAIQTQKLDFLFVQFFYALPCIYTQGLPEDLFQAMKTWTSNVPESIFMALPATPDLNGYIPPRVLNKEILPAVTQASNFAGVMIFDRYFDRFRKYSSKIKR GGNIVVYWGQGGSDNSEGSLKEACKSGHYNMIVLEELITYDNGRDPDLNLGAHCVNCTSLQQEIKYCQLKLIKILLQIGQVTPTKEDTKDTTKDLSQYLDSNFFSGKSGPLGEVYLDGIDIASVPEGLNLKFDELVQALNDSATSRRIYLSASPNCVYPDYYLDKAIQTQKLDFLFVQFFYALPCIYTQGLPEDLFQAMKTWTSNVPESIFMALPATPDLNGYIPPRVLNKEILPAVTQASNFAGVMIFDRYFDRFRKYSSKIKR 4b17-a1-m1-cA_4b17-a1-m2-cA Crystal structure of C2498 2'-O-ribose methyltransferase RlmM from Escherichia coli in complex with S-adenosylmethionine P0ADR6 P0ADR6 2.6 X-RAY DIFFRACTION 23 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 356 356 MNKVVLLCRPGFEKECAAEITDKAGQREIFGFARVKENAGYVIYECYQPDDGDKLIRELPFSSLIFARQWFVVGELLQHLPPEDRITPIVGMLQGVVEKGGELRVEVADTNESKELLKFCRKFTVPLRAALRDAGVLANYETPKRPVVHVFFIAPGCYTGYSYSNNNSPFYMGIPRLKFPADAPSRSTLKLEEAFHVFIPADEWDERLANGMWAVDLGACPGGWTYQLVKRNMWVYSVDNGPMAQSLMDTGQVTWLREDGFKFRPTRSNISWMVCDMVEKPAKVAALMAQWLVNGWCRETIFNLKLPMKKRYEEVSHNLAYIQAQLDEHGINAQIQARQLYHDREEVTVHVRRIWA MNKVVLLCRPGFEKECAAEITDKAGQREIFGFARVKENAGYVIYECYQPDDGDKLIRELPFSSLIFARQWFVVGELLQHLPPEDRITPIVGMLQGVVEKGGELRVEVADTNESKELLKFCRKFTVPLRAALRDAGVLANYETPKRPVVHVFFIAPGCYTGYSYSNNNSPFYMGIPRLKFPADAPSRSTLKLEEAFHVFIPADEWDERLANGMWAVDLGACPGGWTYQLVKRNMWVYSVDNGPMAQSLMDTGQVTWLREDGFKFRPTRSNISWMVCDMVEKPAKVAALMAQWLVNGWCRETIFNLKLPMKKRYEEVSHNLAYIQAQLDEHGINAQIQARQLYHDREEVTVHVRRIWA 4b28-a1-m1-cA_4b28-a1-m2-cA Crystal structure of DMSP lyase RdDddP from Roseobacter denitrificans Q166H0 Q166H0 2.15 X-RAY DIFFRACTION 259 1.0 375451 (Roseobacter denitrificans OCh 114) 375451 (Roseobacter denitrificans OCh 114) 437 437 RKIDPSRGATLGDGSPNDMNRVEIGPTQLAFAEWHTARLDLPDLAAMRRFRHRRLTDHVVARGYAGLLMFDPLNIRYATDSTNMQLWNTHNPFRATLLCADGYMVMWDYKNSPFLSEFNPLVREQRAGADLFYFDRGDKVDVAADVFANEVRILLRDHAPGLRRLAVDKVMLHGLRALQAQGFEIMDGEEVTEKARSVKGPDEIRAMRCASHACEVAVRKMEDFARSKVGDGVTCENDIWAILHSENVRRGGEWIETRLLASGPRSNPWFQECGPRVCQRNEIISFDTDLVGAYGICTDISRSWWIGDQKPRADMIYAMQHGVEHIRTNMEMLKPGVMIPELSANTHVLDAKFQKQKYGCLMHGVGLCDEWPLVAYPDHAVAGAYDYPLEPGMTLCVEALISEEGGDFSIKLEDQVLITEDGYENLTKYPFDPALMG RKIDPSRGATLGDGSPNDMNRVEIGPTQLAFAEWHTARLDLPDLAAMRRFRHRRLTDHVVARGYAGLLMFDPLNIRYATDSTNMQLWNTHNPFRATLLCADGYMVMWDYKNSPFLSEFNPLVREQRAGADLFYFDRGDKVDVAADVFANEVRILLRDHAPGLRRLAVDKVMLHGLRALQAQGFEIMDGEEVTEKARSVKGPDEIRAMRCASHACEVAVRKMEDFARSKVGDGVTCENDIWAILHSENVRRGGEWIETRLLASGPRSNPWFQECGPRVCQRNEIISFDTDLVGAYGICTDISRSWWIGDQKPRADMIYAMQHGVEHIRTNMEMLKPGVMIPELSANTHVLDAKFQKQKYGCLMHGVGLCDEWPLVAYPDHAVAGAYDYPLEPGMTLCVEALISEEGGDFSIKLEDQVLITEDGYENLTKYPFDPALMG 4b2o-a1-m1-cA_4b2o-a1-m1-cD Crystal structure of Bacillus subtilis YmdB, a global regulator of late adaptive responses. O31775 O31775 1.64 X-RAY DIFFRACTION 16 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 264 264 4b2o-a1-m1-cB_4b2o-a1-m1-cC MRILFIGDVVGSPGRDMVKEYVPKLKTKYKPHFTIINGENAAHGKGLTEKIYHSLIQSGADAITMGNHTWDKKEIFDFIDDVPNLVRPANFPEGTPGKGITYVKANGKELAVINLQGRTFLPPLDDPFLKADELIAEAAKRTPYIFIDFHAEATSEKLALGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETIIKRFKTNLPVRFTVAEGKTTLSGVVIDIDDQTKKAVKIERILINDDHMFFE MRILFIGDVVGSPGRDMVKEYVPKLKTKYKPHFTIINGENAAHGKGLTEKIYHSLIQSGADAITMGNHTWDKKEIFDFIDDVPNLVRPANFPEGTPGKGITYVKANGKELAVINLQGRTFLPPLDDPFLKADELIAEAAKRTPYIFIDFHAEATSEKLALGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETIIKRFKTNLPVRFTVAEGKTTLSGVVIDIDDQTKKAVKIERILINDDHMFFE 4b2o-a1-m1-cB_4b2o-a1-m1-cD Crystal structure of Bacillus subtilis YmdB, a global regulator of late adaptive responses. O31775 O31775 1.64 X-RAY DIFFRACTION 30 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 264 264 4b2o-a1-m1-cA_4b2o-a1-m1-cC MRILFIGDVVGSPGRDMVKEYVPKLKTKYKPHFTIINGENAAHGKGLTEKIYHSLIQSGADAITMGNHTWDKKEIFDFIDDVPNLVRPANFPEGTPGKGITYVKANGKELAVINLQGRTFLPPLDDPFLKADELIAEAAKRTPYIFIDFHAEATSEKLALGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETIIKRFKTNLPVRFTVAEGKTTLSGVVIDIDDQTKKAVKIERILINDDHMFFE MRILFIGDVVGSPGRDMVKEYVPKLKTKYKPHFTIINGENAAHGKGLTEKIYHSLIQSGADAITMGNHTWDKKEIFDFIDDVPNLVRPANFPEGTPGKGITYVKANGKELAVINLQGRTFLPPLDDPFLKADELIAEAAKRTPYIFIDFHAEATSEKLALGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETIIKRFKTNLPVRFTVAEGKTTLSGVVIDIDDQTKKAVKIERILINDDHMFFE 4b2o-a1-m1-cC_4b2o-a1-m1-cD Crystal structure of Bacillus subtilis YmdB, a global regulator of late adaptive responses. O31775 O31775 1.64 X-RAY DIFFRACTION 92 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 264 264 4b2o-a1-m1-cA_4b2o-a1-m1-cB MRILFIGDVVGSPGRDMVKEYVPKLKTKYKPHFTIINGENAAHGKGLTEKIYHSLIQSGADAITMGNHTWDKKEIFDFIDDVPNLVRPANFPEGTPGKGITYVKANGKELAVINLQGRTFLPPLDDPFLKADELIAEAAKRTPYIFIDFHAEATSEKLALGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETIIKRFKTNLPVRFTVAEGKTTLSGVVIDIDDQTKKAVKIERILINDDHMFFE MRILFIGDVVGSPGRDMVKEYVPKLKTKYKPHFTIINGENAAHGKGLTEKIYHSLIQSGADAITMGNHTWDKKEIFDFIDDVPNLVRPANFPEGTPGKGITYVKANGKELAVINLQGRTFLPPLDDPFLKADELIAEAAKRTPYIFIDFHAEATSEKLALGWYTDGRASAVVGTHTHVQTADNRILPKGTAYITDVGMTGPYDGILGMDRETIIKRFKTNLPVRFTVAEGKTTLSGVVIDIDDQTKKAVKIERILINDDHMFFE 4b2t-a1-m1-cZ_4b2t-a1-m1-cz The crystal structures of the eukaryotic chaperonin CCT reveal its functional partitioning Q3MHL7 Q3MHL7 5.5 X-RAY DIFFRACTION 35 1.0 9913 (Bos taurus) 9913 (Bos taurus) 481 481 VKTLNPKAEVARAQAALAVNISAARGLQDVLRTNLGPKGTMKMLVSGAGDIKLTKDGNVLLHEMQIQHPTASLIAKVATAQDDITGDGTTSNVLIIGELLKQADLYISEGLHPRIITEGFEAAKEKALQFLEQVKVSKEMDRETLIDVARTSLRTKVHAELADVLTEAVVDSILAIKKPIDLFMVEIMEMKHKSETDTSLIRGLVLDARHPDMKKRVEDAYILTCNVSLEYIEDRVKKIIELKGFVVINQKGIDPFSLDALAKEGIIALRRAKRRNMERLTLACGGIALNSLDDLNPDCLGHAGLVYEYTLGEEKFTFIEKCNNPRSVTLLIKGPNKHTLTQIKDAIRDGLRAVKNAIDDGCVVPGAGAVEVAMAEALVKYKPSVKGRAQLGVQAFADALLIIPKVLAQNSGFDLQETLVKVQAEHSESGQLVGVDLNTGEPMVAAEAGIWDNYCVKKQLLHSCTVIATNILLVDEIMRAG VKTLNPKAEVARAQAALAVNISAARGLQDVLRTNLGPKGTMKMLVSGAGDIKLTKDGNVLLHEMQIQHPTASLIAKVATAQDDITGDGTTSNVLIIGELLKQADLYISEGLHPRIITEGFEAAKEKALQFLEQVKVSKEMDRETLIDVARTSLRTKVHAELADVLTEAVVDSILAIKKPIDLFMVEIMEMKHKSETDTSLIRGLVLDARHPDMKKRVEDAYILTCNVSLEYIEDRVKKIIELKGFVVINQKGIDPFSLDALAKEGIIALRRAKRRNMERLTLACGGIALNSLDDLNPDCLGHAGLVYEYTLGEEKFTFIEKCNNPRSVTLLIKGPNKHTLTQIKDAIRDGLRAVKNAIDDGCVVPGAGAVEVAMAEALVKYKPSVKGRAQLGVQAFADALLIIPKVLAQNSGFDLQETLVKVQAEHSESGQLVGVDLNTGEPMVAAEAGIWDNYCVKKQLLHSCTVIATNILLVDEIMRAG 4b3z-a1-m1-cB_4b3z-a1-m1-cD Structure of the human collapsin response mediator protein-1, a lung cancer suppressor Q14194 Q14194 3.05 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 469 477 4b3z-a1-m1-cC_4b3z-a1-m1-cA DRLLIKGGRIINDDQSLYADVYLEDGLIKQIGENLIVPGGVKTIEANGRMVIPGGIDVNTYLQKADDFFQGTRAALVGGTTMIIDHVVPEPGSSLLTSFEKWHEAADTKSCCDYSLHVDITSWYDGVREELEVLVQDKGVNSFQVYMAYKDVYQMSDSQLYEAFTFLKGLGAVILVHAENGDLIAQEQKRILEMGITGPEGHALSRPEELEAEAVFRAITIAGRINCPVYITKVMSKSAADIIALARKKGPLVFGEPIAASLGTDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYLTSLLACGDLQVTGSGHCPYSTAQKAVGKDNFTLIPEGVNGIEERMTVVWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRIAVGSDADVVIWDPDKLKTITAKSHKSAVEYNIFEGMECHGSPLVVISQGKIVFEDGNINVNKGMGRFIPRKAFPEHLYQRVKIRNKVFG DRLLIKGGRIINDDQSLYADVYLEDGLIKQIGENLIVPGGVKTIEANGRMVIPGGIDVNTYLQKTAADDFFQGTRAALVGGTTMIIDHVVPEPGSSLLTSFEKWHEAADTKSCCDYSLHVDITSWYDGVREELEVLVQDKGVNSFQVYMAYKDVYQMSDSQLYEAFTFLKGLGAVILVHAENGDLIAQEQKRILEMGITGPEGHALSRPEELEAEAVFRAITIAGRINCPVYITKVMSKSAADIIALARKKGPLVFGEPIAASLGTDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYLTSLLACGDLQVTGSGHCPYSTAQKAVGKDNFTLIPEGVNGIEERMTVVWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRIAVGSDADVVIWDPDKLKTITAKSHKSAVEYNIFEGMECHGSPLVVISQGKIVFEDGNINVNKGMGRFIPRKAFPEHLYQRVKIRNKVFGLQGVSR 4b4c-a1-m1-cA_4b4c-a1-m2-cA Crystal structure of the DNA-binding domain of human CHD1. O14646 O14646 1.62 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 KGFSDAEIRRFIKSYKKFGGPLERLDAIARDAELVDKSETDLRRLGELVHNGCIKALKGPTFRISGVQVNAKLVISHEEELIPLHKSIPSDPEERKQYTIPCHTKAAHFDIDWGKEDDSNLLIGIYEYGYGSWEMIKMDPDLSLTHKILPDDPDKKPQAKQLQTRADYLIKLLSRDLAKKEALSGAG KGFSDAEIRRFIKSYKKFGGPLERLDAIARDAELVDKSETDLRRLGELVHNGCIKALKGPTFRISGVQVNAKLVISHEEELIPLHKSIPSDPEERKQYTIPCHTKAAHFDIDWGKEDDSNLLIGIYEYGYGSWEMIKMDPDLSLTHKILPDDPDKKPQAKQLQTRADYLIKLLSRDLAKKEALSGAG 4b4d-a1-m1-cA_4b4d-a1-m2-cA Crystal structure of FAD-containing ferredoxin-NADP reductase from Xanthomonas axonopodis pv. citri Q8PMH0 Q8PMH0 1.5 X-RAY DIFFRACTION 28 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 256 256 AFGAETVLEVRHWTDAYFSFTTTRDAGFRFENGQFVMIGLETETRPLLRAYSIASANWEEHLEFFSIKVPDGPLTSRLQHIQPGDKVLVGKKPTGTLLISDLHPGRNLYLLGTGTGLAPWLSIIKDPETYERFDKVILTQGVRFVQDLAYRDYFERELPQHEFLGDLLREKLLYYPAVTRETFANQGRLTELMADGRMQQTLGLPTLDPANDRFMICGSPQMLADLRSLLDSRGFQTSPRIGTPGHYVFERAFVEK AFGAETVLEVRHWTDAYFSFTTTRDAGFRFENGQFVMIGLETETRPLLRAYSIASANWEEHLEFFSIKVPDGPLTSRLQHIQPGDKVLVGKKPTGTLLISDLHPGRNLYLLGTGTGLAPWLSIIKDPETYERFDKVILTQGVRFVQDLAYRDYFERELPQHEFLGDLLREKLLYYPAVTRETFANQGRLTELMADGRMQQTLGLPTLDPANDRFMICGSPQMLADLRSLLDSRGFQTSPRIGTPGHYVFERAFVEK 4b4k-a2-m1-cH_4b4k-a2-m1-cL Crystal structure of Bacillus anthracis PurE A0A6L7HA71 A0A6L7HA71 2.5 X-RAY DIFFRACTION 129 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 155 156 1xmp-a1-m1-cA_1xmp-a1-m1-cB 1xmp-a1-m1-cD_1xmp-a1-m1-cC 1xmp-a1-m1-cE_1xmp-a1-m1-cF 4ay3-a1-m1-cA_4ay3-a1-m1-cB 4ay3-a2-m1-cC_4ay3-a2-m2-cC 4ay3-a3-m1-cD_4ay3-a3-m2-cD 4ay4-a1-m1-cA_4ay4-a1-m1-cB 4ay4-a1-m1-cC_4ay4-a1-m2-cC 4ay4-a1-m1-cD_4ay4-a1-m2-cD 4ay4-a1-m2-cA_4ay4-a1-m2-cB 4b4k-a1-m1-cA_4b4k-a1-m1-cB 4b4k-a1-m1-cC_4b4k-a1-m2-cC 4b4k-a1-m1-cD_4b4k-a1-m2-cD 4b4k-a1-m2-cA_4b4k-a1-m2-cB 4b4k-a2-m1-cF_4b4k-a2-m1-cE 4b4k-a2-m1-cJ_4b4k-a2-m1-cI 4b4k-a2-m1-cK_4b4k-a2-m1-cG KSLVGVIMGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRREAIEKDVRE KSLVGVIMGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRREAIEKDVREG 4b4k-a2-m1-cJ_4b4k-a2-m1-cK Crystal structure of Bacillus anthracis PurE A0A6L7HA71 A0A6L7HA71 2.5 X-RAY DIFFRACTION 27 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 155 156 1xmp-a1-m1-cA_1xmp-a1-m1-cC 1xmp-a1-m1-cA_1xmp-a1-m1-cH 1xmp-a1-m1-cB_1xmp-a1-m1-cG 1xmp-a1-m1-cD_1xmp-a1-m1-cB 1xmp-a1-m1-cD_1xmp-a1-m1-cF 1xmp-a1-m1-cE_1xmp-a1-m1-cC 1xmp-a1-m1-cE_1xmp-a1-m1-cH 4ay4-a1-m1-cA_4ay4-a1-m1-cD 4ay4-a1-m1-cA_4ay4-a1-m2-cC 4ay4-a1-m1-cB_4ay4-a1-m2-cD 4ay4-a1-m1-cC_4ay4-a1-m1-cB 4ay4-a1-m1-cC_4ay4-a1-m2-cA 4ay4-a1-m2-cA_4ay4-a1-m2-cD 4ay4-a1-m2-cB_4ay4-a1-m1-cD 4ay4-a1-m2-cC_4ay4-a1-m2-cB 4b4k-a1-m1-cA_4b4k-a1-m1-cD 4b4k-a1-m1-cA_4b4k-a1-m2-cC 4b4k-a1-m1-cB_4b4k-a1-m1-cC 4b4k-a1-m1-cB_4b4k-a1-m2-cD 4b4k-a1-m1-cD_4b4k-a1-m2-cB 4b4k-a1-m2-cA_4b4k-a1-m1-cC 4b4k-a1-m2-cA_4b4k-a1-m2-cD 4b4k-a1-m2-cB_4b4k-a1-m2-cC 4b4k-a2-m1-cF_4b4k-a2-m1-cG 4b4k-a2-m1-cF_4b4k-a2-m1-cL 4b4k-a2-m1-cH_4b4k-a2-m1-cE 4b4k-a2-m1-cH_4b4k-a2-m1-cJ 4b4k-a2-m1-cI_4b4k-a2-m1-cG 4b4k-a2-m1-cI_4b4k-a2-m1-cL 4b4k-a2-m1-cK_4b4k-a2-m1-cE KSLVGVIMGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRREAIEKDVRE KSLVGVIMGSTSDWETMKYACDILDELNIPYEKKVVSAHRTPDYMFEYAETARERGLKVIIAGAGGAAHLPGMVAAKTNLPVIGVPVQSKALNGLDSLLSIVQMPGGVPVATVAIGKAGSTNAGLLAAQILGSFHDDIHDALELRREAIEKDVREG 4b4u-a1-m1-cA_4b4u-a1-m1-cB Crystal structure of Acinetobacter baumannii N5, N10- methylenetetrahydrofolate dehydrogenase-cyclohydrolase (FolD) complexed with NADP cofactor D0CBC8 D0CBC8 1.45 X-RAY DIFFRACTION 95 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 282 286 4b4v-a1-m1-cA_4b4v-a1-m1-cB 4b4w-a1-m1-cA_4b4w-a1-m1-cB MALVLDGRALAKQIEENLLVRVEALKAKTGRTPILATILVGDDGASATYVRMKGNACRRVGMDSLKIELPQETTTEQLLAEIEKLNANPDVHGILLQHPVPAQIDERACFDAISLAKDVDGVTCLGFGRMAMGEAAYGSATPAGIMTILKENNIEIAGKHAVVVGRSAILGKPMAMMLLQANATVTICHSRTQNLPELVKQADIIVGAVGKAELIQKDWIKQGAVVVDAGFHPRDGGGVGDIQLQGIEEIASAYTPVPGGVGPMTITTLIRQTVEAAEKALG FQGHMALVLDGRALAKQIEENLLVRVEALKAKTGRTPILATILVGDDGASATYVRMKGNACRRVGMDSLKIELPQETTTEQLLAEIEKLNANPDVHGILLQHPVPAQIDERACFDAISLAKDVDGVTCLGFGRMAMGEAAYGSATPAGIMTILKENNIEIAGKHAVVVGRSAILGKPMAMMLLQANATVTICHSRTQNLPELVKQADIIVGAVGKAELIQKDWIKQGAVVVDAGFHPRDGGGVGDIQLQGIEEIASAYTPVPGGVGPMTITTLIRQTVEAAEKALG 4b4y-a1-m1-cA_4b4y-a1-m2-cA crystal structure of the neuroglobin from the photosymbiotic marine acoel Symsagittifera roscoffensis L7MTK4 L7MTK4 2.3 X-RAY DIFFRACTION 35 1.0 84072 (Symsagittifera roscoffensis) 84072 (Symsagittifera roscoffensis) 149 149 AMQVSEEQQSLIMEDVQVLLPNYDDFVEDVLQQFMEENPETFQIFPWADASKTAKEMRSHPRFKSHAKSIGKVISDCLVDLNGVKKHEPKLSSLGAMHTKKKVPTELFGKLGGCILTQVVKRVSEAKWSEEKKEAWLKAYGIITVMVTE AMQVSEEQQSLIMEDVQVLLPNYDDFVEDVLQQFMEENPETFQIFPWADASKTAKEMRSHPRFKSHAKSIGKVISDCLVDLNGVKKHEPKLSSLGAMHTKKKVPTELFGKLGGCILTQVVKRVSEAKWSEEKKEAWLKAYGIITVMVTE 4b56-a1-m1-cB_4b56-a1-m1-cA Structure of ectonucleotide pyrophosphatase-phosphodiesterase-1 (NPP1) P06802 P06802 3 X-RAY DIFFRACTION 67 0.997 10090 (Mus musculus) 10090 (Mus musculus) 737 816 KKSWVEETCESIDTPECPAEFESPPTLLFSLDGFRAEYLHTWGGLLPVISKLKNCGTYTKNMRPMYPTKTFPNHYSIVTGLYPESHGIIDNKMYDPKMNASFSLKSKEKFNPLWYKGQPIWVTANHQEVKSGTYFWPGSDVEIDGILPDIYKVYNGSVPFEERILAVLEWLQLPSHERPHFYTLYLEEPDSSGHSHGPVSSEVIKALQKVDRLVGMLMDGLKDLGLDKCLNLILISDHGMEQGSCKKYVYLNKYLGDVNNVKVVYGPAARLRPTDVPETYYSFNYEALAKNLSCREPNQHFRPYLKPFLPKRLHFAKSDRIEPLTFYLDPQWQLALNPSERKYCGSGFHGSDNLFSNMQALFIGYGPAFKHGAEVDSFENIEVYNLMCDLLGLIPAPNNGSHGSLNHLLKKPIYNPSHPKEEGFLSQCPIKSTSNDLGCTCDPWIVPIKDFEKQLNLTTEDVDDIYHMTVPYGRPRILLKQHHVCLLQQQQFLTGYSLDLLMPLWASYTFLRNDQFSRDDFSNCLYQDLRIPLSPVHKCSYYKSNSKLSYGFLTPPRLNRVSNHIYSEALLTSNIVPMYQSFQVIWHYLHDTLLQRYAHERNGINVVSGPVFDFDYDGRYDSLEILKQNSRVIRSQEILIPTHFFIVLTSCKQLSETPLECSALESSAYILPHRPDNIESCTHGKRESSWVEELLTLHRARVTDVELITGLSFYQDRQESVSELLRLKTHLPIFSQE KSCKGRCFERTFSNCRCDAACVSLGNCCLDFQETCVEPTHIWTCNKFRCGEKRLSRFVCSCADDCKTHNDCCINYSSVCQDKKSWVEETCESIDTPECPAEFESPPTLLFSLDGFRAEYLHTWGGLLPVISKLKNCGTYTKNMRPMYPTKTFPNHYSIVTGLYPESHGIIDNKMYDPKMNASFSLKSKEKFNPLWYKGQPIWVTANHQEVKSGTYFWPGSDVEIDGILPDIYKVYNGSVPFEERILAVLEWLQLPSHERPHFYTLYLEEPDSSGHSHGPVSSEVIKALQKVDRLVGMLMDGLKDLGLDKCLNLILISDHGMEQGSCKKYVYLNKYLGDVNNVKVVYGPAARLRPTDVPETYYSFNYEALAKNLSCREPNQHFRPYLKPFLPKRLHFAKSDRIEPLTFYLDPQWQLALNPSERKYCGSGFHGSDNLFSNMQALFIGYGPAFKHGAEVDSFENIEVYNLMCDLLGLIPAPNNGSHGSLNHLLKKPIYNPSHPKEEGFLSQCPIKSTSNDLGCTCDPWIVPIKDFEKQLNLTTEDVDDIYHMTVPYGRPRILLKQHHVCLLQQQQFLTGYSLDLLMPLWASYTFLRNDQFSRDDFSNCLYQDLRIPLSPVHKCSYYKSNSKLSYGFLTPPRLNRVSNHIYSEALLTSNIVPMYQSFQVIWHYLHDTLLQRYAHERNGINVVSGPVFDFDYDGRYDSLEILKQNSRVIRSQEILIPTHFFIVLTSCKQLSETPLECSALESSAYILPHRPDNIESCTHGKRESSWVEELLTLHRARVTDVELITGLSFYQDRQESVSELLRLKTHLPIFS 4b5d-a1-m1-cD_4b5d-a1-m1-cE Capitella teleta AChBP in complex with psychonicline (3-((2(S)- Azetidinyl)methoxy)-5-((1S,2R)-2-(2-hydroxyethyl)cyclopropyl)pyridine) I6L8L2 I6L8L2 2.195 X-RAY DIFFRACTION 81 1.0 283909 (Capitella teleta) 283909 (Capitella teleta) 211 211 4afg-a1-m1-cA_4afg-a1-m1-cB 4afg-a1-m1-cA_4afg-a1-m1-cE 4afg-a1-m1-cB_4afg-a1-m1-cC 4afg-a1-m1-cC_4afg-a1-m1-cD 4afg-a1-m1-cD_4afg-a1-m1-cE 4afh-a1-m1-cA_4afh-a1-m1-cB 4afh-a1-m1-cB_4afh-a1-m1-cC 4afh-a1-m1-cC_4afh-a1-m1-cD 4afh-a1-m1-cE_4afh-a1-m1-cA 4afh-a1-m1-cE_4afh-a1-m1-cD 4b5d-a1-m1-cA_4b5d-a1-m1-cB 4b5d-a1-m1-cA_4b5d-a1-m1-cE 4b5d-a1-m1-cB_4b5d-a1-m1-cC 4b5d-a1-m1-cC_4b5d-a1-m1-cD NGLMAKRLRRELLNTYEQLGKSGLPFLDDIGKVDVKFGLSLQLLKSIEQRGMGFNSIGTFKAIVKLSWVDTILRWDPEPPFDFQKIEISPDEIWTPDIKLFNSVDLDMTLDRTTQAIVFSNGTVLWIPPAVLKVLCVSQDDVDSCHFQFGSWVYSVDEVDIHFMDDKAEVLLDFYQDSLEILENSAQRQEVVYPCCESAYVEMKYLLALRS NGLMAKRLRRELLNTYEQLGKSGLPFLDDIGKVDVKFGLSLQLLKSIEQRGMGFNSIGTFKAIVKLSWVDTILRWDPEPPFDFQKIEISPDEIWTPDIKLFNSVDLDMTLDRTTQAIVFSNGTVLWIPPAVLKVLCVSQDDVDSCHFQFGSWVYSVDEVDIHFMDDKAEVLLDFYQDSLEILENSAQRQEVVYPCCESAYVEMKYLLALRS 4b5o-a1-m1-cA_4b5o-a1-m2-cA Crystal structure of human alpha tubulin acetyltransferase catalytic domain Q5SQI0 Q5SQI0 1.05 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 SMEFPFDVDALFPERITVLDQHLRPPARRPGTTTPARVDLQQQIMTIIDELGKASAKAQNLSAPITSASRMQSNRHVVYILKDSSARPAIIGFIKVGYKKLFVLDDREAHNEVEPLCILDFYIHESVQRHGHGRELFQYMLQKERVEPHQLAIDRPSQKLLKFLNKHYNLETTVPQVNNFVIFEGFFAHQHR SMEFPFDVDALFPERITVLDQHLRPPARRPGTTTPARVDLQQQIMTIIDELGKASAKAQNLSAPITSASRMQSNRHVVYILKDSSARPAIIGFIKVGYKKLFVLDDREAHNEVEPLCILDFYIHESVQRHGHGRELFQYMLQKERVEPHQLAIDRPSQKLLKFLNKHYNLETTVPQVNNFVIFEGFFAHQHR 4b5q-a1-m1-cA_4b5q-a1-m1-cB The lytic polysaccharide monooxygenase GH61D structure from the basidiomycota fungus Phanerochaete chrysosporium H1AE14 H1AE14 1.75 X-RAY DIFFRACTION 42 1.0 217 217 HYTFPDFIEPSGTVTGDWVYVRETQNHYSNGPVTDVTSPEFRCYELDLQNTAGQTQTATVSAGDTVGFKANSAIYHPGYLDVMMSPASPAANSPEAGTGQTWFKIYEEKPQFENGQLVFDTTQQEVTFTIPKSLPSGQYLLRIEQIALHVASSYGGAQFYIGCAQLNVENGGNGTPGPLVSIPGVYTGYEPGILINIYNLPKNFTGYPAPGPAVWQG HYTFPDFIEPSGTVTGDWVYVRETQNHYSNGPVTDVTSPEFRCYELDLQNTAGQTQTATVSAGDTVGFKANSAIYHPGYLDVMMSPASPAANSPEAGTGQTWFKIYEEKPQFENGQLVFDTTQQEVTFTIPKSLPSGQYLLRIEQIALHVASSYGGAQFYIGCAQLNVENGGNGTPGPLVSIPGVYTGYEPGILINIYNLPKNFTGYPAPGPAVWQG 4b5s-a1-m1-cA_4b5s-a1-m3-cB Crystal structures of divalent metal dependent pyruvate aldolase, HpaI, in complex with pyruvate B1IS70 B1IS70 1.68 X-RAY DIFFRACTION 28 1.0 481805 (Escherichia coli ATCC 8739) 481805 (Escherichia coli ATCC 8739) 251 251 2v5j-a1-m1-cB_2v5j-a1-m2-cA 2v5j-a1-m2-cB_2v5j-a1-m3-cA 2v5j-a1-m3-cB_2v5j-a1-m1-cA 2v5k-a1-m1-cA_2v5k-a1-m2-cB 2v5k-a1-m1-cB_2v5k-a1-m3-cA 2v5k-a1-m2-cA_2v5k-a1-m3-cB 4b5s-a1-m1-cB_4b5s-a1-m2-cA 4b5s-a1-m2-cB_4b5s-a1-m3-cA 4b5t-a1-m1-cA_4b5t-a1-m2-cB 4b5t-a1-m1-cB_4b5t-a1-m3-cA 4b5t-a1-m2-cA_4b5t-a1-m3-cB 4b5u-a1-m1-cA_4b5u-a1-m2-cB 4b5u-a1-m1-cB_4b5u-a1-m3-cA 4b5u-a1-m2-cA_4b5u-a1-m3-cB 4b5v-a1-m1-cA_4b5v-a1-m2-cB 4b5v-a1-m1-cB_4b5v-a1-m3-cA 4b5v-a1-m2-cA_4b5v-a1-m3-cB 4b5w-a1-m1-cB_4b5w-a1-m1-cD 4b5w-a1-m1-cC_4b5w-a1-m1-cF 4b5w-a1-m1-cE_4b5w-a1-m1-cA 4b5x-a1-m1-cA_4b5x-a1-m1-cB 4b5x-a1-m2-cA_4b5x-a1-m2-cB 4b5x-a1-m3-cA_4b5x-a1-m3-cB MENSFKAALKAGRPQIGLWLGLSSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDVGTQTLLVPMVQNADEAREAVRATRYPPAGIRGVGSALARASRWNRIPDYLQKANDQMCVLVQIETREAMKNLPQILDVEGVDGVFIGPADLSADMGYAGNPQHPEVQAAIEQAIVQIRESGKAPGILIANEQLAKRYLELGALFVAVGVDTTLLARAAEALAARFG MENSFKAALKAGRPQIGLWLGLSSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDVGTQTLLVPMVQNADEAREAVRATRYPPAGIRGVGSALARASRWNRIPDYLQKANDQMCVLVQIETREAMKNLPQILDVEGVDGVFIGPADLSADMGYAGNPQHPEVQAAIEQAIVQIRESGKAPGILIANEQLAKRYLELGALFVAVGVDTTLLARAAEALAARFG 4b5s-a1-m2-cB_4b5s-a1-m3-cB Crystal structures of divalent metal dependent pyruvate aldolase, HpaI, in complex with pyruvate B1IS70 B1IS70 1.68 X-RAY DIFFRACTION 61 1.0 481805 (Escherichia coli ATCC 8739) 481805 (Escherichia coli ATCC 8739) 251 251 2v5j-a1-m1-cA_2v5j-a1-m2-cA 2v5j-a1-m1-cA_2v5j-a1-m3-cA 2v5j-a1-m1-cB_2v5j-a1-m2-cB 2v5j-a1-m1-cB_2v5j-a1-m3-cB 2v5j-a1-m2-cA_2v5j-a1-m3-cA 2v5j-a1-m2-cB_2v5j-a1-m3-cB 2v5k-a1-m1-cA_2v5k-a1-m2-cA 2v5k-a1-m1-cA_2v5k-a1-m3-cA 2v5k-a1-m1-cB_2v5k-a1-m2-cB 2v5k-a1-m1-cB_2v5k-a1-m3-cB 2v5k-a1-m2-cA_2v5k-a1-m3-cA 2v5k-a1-m2-cB_2v5k-a1-m3-cB 4b5s-a1-m1-cA_4b5s-a1-m2-cA 4b5s-a1-m1-cA_4b5s-a1-m3-cA 4b5s-a1-m1-cB_4b5s-a1-m2-cB 4b5s-a1-m1-cB_4b5s-a1-m3-cB 4b5s-a1-m2-cA_4b5s-a1-m3-cA 4b5t-a1-m1-cA_4b5t-a1-m2-cA 4b5t-a1-m1-cA_4b5t-a1-m3-cA 4b5t-a1-m1-cB_4b5t-a1-m2-cB 4b5t-a1-m1-cB_4b5t-a1-m3-cB 4b5t-a1-m2-cA_4b5t-a1-m3-cA 4b5t-a1-m2-cB_4b5t-a1-m3-cB 4b5u-a1-m1-cA_4b5u-a1-m2-cA 4b5u-a1-m1-cA_4b5u-a1-m3-cA 4b5u-a1-m1-cB_4b5u-a1-m2-cB 4b5u-a1-m1-cB_4b5u-a1-m3-cB 4b5u-a1-m2-cA_4b5u-a1-m3-cA 4b5u-a1-m2-cB_4b5u-a1-m3-cB 4b5v-a1-m1-cA_4b5v-a1-m2-cA 4b5v-a1-m1-cA_4b5v-a1-m3-cA 4b5v-a1-m1-cB_4b5v-a1-m2-cB 4b5v-a1-m1-cB_4b5v-a1-m3-cB 4b5v-a1-m2-cA_4b5v-a1-m3-cA 4b5v-a1-m2-cB_4b5v-a1-m3-cB 4b5w-a1-m1-cB_4b5w-a1-m1-cA 4b5w-a1-m1-cC_4b5w-a1-m1-cA 4b5w-a1-m1-cC_4b5w-a1-m1-cB 4b5w-a1-m1-cD_4b5w-a1-m1-cE 4b5w-a1-m1-cD_4b5w-a1-m1-cF 4b5w-a1-m1-cF_4b5w-a1-m1-cE 4b5x-a1-m1-cA_4b5x-a1-m2-cA 4b5x-a1-m1-cA_4b5x-a1-m3-cA 4b5x-a1-m1-cB_4b5x-a1-m2-cB 4b5x-a1-m1-cB_4b5x-a1-m3-cB 4b5x-a1-m2-cA_4b5x-a1-m3-cA 4b5x-a1-m2-cB_4b5x-a1-m3-cB MENSFKAALKAGRPQIGLWLGLSSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDVGTQTLLVPMVQNADEAREAVRATRYPPAGIRGVGSALARASRWNRIPDYLQKANDQMCVLVQIETREAMKNLPQILDVEGVDGVFIGPADLSADMGYAGNPQHPEVQAAIEQAIVQIRESGKAPGILIANEQLAKRYLELGALFVAVGVDTTLLARAAEALAARFG MENSFKAALKAGRPQIGLWLGLSSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDVGTQTLLVPMVQNADEAREAVRATRYPPAGIRGVGSALARASRWNRIPDYLQKANDQMCVLVQIETREAMKNLPQILDVEGVDGVFIGPADLSADMGYAGNPQHPEVQAAIEQAIVQIRESGKAPGILIANEQLAKRYLELGALFVAVGVDTTLLARAAEALAARFG 4b5s-a1-m3-cA_4b5s-a1-m3-cB Crystal structures of divalent metal dependent pyruvate aldolase, HpaI, in complex with pyruvate B1IS70 B1IS70 1.68 X-RAY DIFFRACTION 104 1.0 481805 (Escherichia coli ATCC 8739) 481805 (Escherichia coli ATCC 8739) 251 251 2v5j-a1-m1-cB_2v5j-a1-m1-cA 2v5j-a1-m2-cB_2v5j-a1-m2-cA 2v5j-a1-m3-cB_2v5j-a1-m3-cA 2v5k-a1-m1-cA_2v5k-a1-m1-cB 2v5k-a1-m2-cA_2v5k-a1-m2-cB 2v5k-a1-m3-cA_2v5k-a1-m3-cB 4b5s-a1-m1-cA_4b5s-a1-m1-cB 4b5s-a1-m2-cA_4b5s-a1-m2-cB 4b5t-a1-m1-cA_4b5t-a1-m1-cB 4b5t-a1-m2-cA_4b5t-a1-m2-cB 4b5t-a1-m3-cA_4b5t-a1-m3-cB 4b5u-a1-m1-cA_4b5u-a1-m1-cB 4b5u-a1-m2-cA_4b5u-a1-m2-cB 4b5u-a1-m3-cA_4b5u-a1-m3-cB 4b5v-a1-m1-cA_4b5v-a1-m1-cB 4b5v-a1-m2-cA_4b5v-a1-m2-cB 4b5v-a1-m3-cA_4b5v-a1-m3-cB 4b5w-a1-m1-cB_4b5w-a1-m1-cF 4b5w-a1-m1-cC_4b5w-a1-m1-cE 4b5w-a1-m1-cD_4b5w-a1-m1-cA 4b5x-a1-m1-cA_4b5x-a1-m2-cB 4b5x-a1-m2-cA_4b5x-a1-m3-cB 4b5x-a1-m3-cA_4b5x-a1-m1-cB MENSFKAALKAGRPQIGLWLGLSSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDVGTQTLLVPMVQNADEAREAVRATRYPPAGIRGVGSALARASRWNRIPDYLQKANDQMCVLVQIETREAMKNLPQILDVEGVDGVFIGPADLSADMGYAGNPQHPEVQAAIEQAIVQIRESGKAPGILIANEQLAKRYLELGALFVAVGVDTTLLARAAEALAARFG MENSFKAALKAGRPQIGLWLGLSSSYSAELLAGAGFDWLLIDGEHAPNNVQTVLTQLQAIAPYPSQPVVRPSWNDPVQIKQLLDVGTQTLLVPMVQNADEAREAVRATRYPPAGIRGVGSALARASRWNRIPDYLQKANDQMCVLVQIETREAMKNLPQILDVEGVDGVFIGPADLSADMGYAGNPQHPEVQAAIEQAIVQIRESGKAPGILIANEQLAKRYLELGALFVAVGVDTTLLARAAEALAARFG 4b6i-a2-m1-cB_4b6i-a2-m1-cC Crystal structure Rap2b (SMA2266) from Serratia marcescens J9PBR6 J9PBR6 1.95 X-RAY DIFFRACTION 118 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 100 102 4b6i-a1-m1-cA_4b6i-a1-m1-cD MENSLNALSQEALYKNWLTSRCIGKSTDSERTKQDAFRSASAYLELSKLPMDAFEQGEKLAEQYANKNSQGSVQGTYHTLDCLSLQNASEAETIFERYSK GHMENSLNALSQEALYKNWLTSRCIGKSTDSERTKQDAFRSASAYLELSKLPMDAFEQGEKLAEQYANKNSQGSVQGTYHTLDCLSLQNASEAETIFERYSK 4b6j-a1-m1-cD_4b6j-a1-m2-cD Crystal structure of phosphoserine phosphatase from T. onnurineus B6YX36 B6YX36 3.34 X-RAY DIFFRACTION 57 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 200 200 4ap9-a1-m1-cA_4ap9-a1-m2-cB 4ap9-a1-m1-cB_4ap9-a1-m3-cA 4ap9-a1-m2-cA_4ap9-a1-m4-cB 4ap9-a1-m3-cB_4ap9-a1-m4-cA 4ap9-a2-m1-cC_4ap9-a2-m6-cD 4ap9-a2-m1-cD_4ap9-a2-m7-cC 4ap9-a2-m5-cC_4ap9-a2-m7-cD 4ap9-a2-m5-cD_4ap9-a2-m6-cC 4b6j-a1-m1-cA_4b6j-a1-m1-cC 4b6j-a1-m1-cB_4b6j-a1-m2-cB 4b6j-a1-m2-cA_4b6j-a1-m2-cC GAMDPQFMKKVAVIDIEGTLTDFEFWREMARITGKREIEELLEKGLSGEVEWLDSLLKRVGLIRGIDEGTFLRTREKVNVSPEARELVETLREKGFKVVLISGSFEEVLEPFKELGDEFMANRAIFEDGKFQGIRLRFRDKGEFLKRFRDGFILAMGDGYADAKMFERADMGIAVGREIPGADLLVKDLKELVDFIKNLK GAMDPQFMKKVAVIDIEGTLTDFEFWREMARITGKREIEELLEKGLSGEVEWLDSLLKRVGLIRGIDEGTFLRTREKVNVSPEARELVETLREKGFKVVLISGSFEEVLEPFKELGDEFMANRAIFEDGKFQGIRLRFRDKGEFLKRFRDGFILAMGDGYADAKMFERADMGIAVGREIPGADLLVKDLKELVDFIKNLK 4b79-a1-m1-cB_4b79-a1-m2-cB THE AEROPATH PROJECT AND PSEUDOMONAS AERUGINOSA HIGH-THROUGHPUT CRYSTALLOGRAPHIC STUDIES FOR ASSESSMENT OF POTENTIAL TARGETS IN EARLY STAGE DRUG DISCOVERY. Q9HWT0 Q9HWT0 1.98 X-RAY DIFFRACTION 107 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 233 233 4b79-a1-m1-cA_4b79-a1-m2-cA MVFQHDIYAGQQVLVTGGSSGIGAAIAMQFAELGAEVVALGLDADGVHAPRHPRIRREELDITDSQRLQRLFEALPRLDVLVNNAGISRDREEYDLATFERVLRLNLSAAMLASQLARPLLAQRGGSILNIASMYSTFGSADRPAYSASKGAIVQLTRSLACEYAAERIRVNAIAPGWIDTDVEATRRIMQRTPLARWGEAPEVASAAAFLCGPGASFVTGAVLAVDGGYLCA MVFQHDIYAGQQVLVTGGSSGIGAAIAMQFAELGAEVVALGLDADGVHAPRHPRIRREELDITDSQRLQRLFEALPRLDVLVNNAGISRDREEYDLATFERVLRLNLSAAMLASQLARPLLAQRGGSILNIASMYSTFGSADRPAYSASKGAIVQLTRSLACEYAAERIRVNAIAPGWIDTDVEATRRIMQRTPLARWGEAPEVASAAAFLCGPGASFVTGAVLAVDGGYLCA 4b79-a1-m2-cB_4b79-a1-m2-cA THE AEROPATH PROJECT AND PSEUDOMONAS AERUGINOSA HIGH-THROUGHPUT CRYSTALLOGRAPHIC STUDIES FOR ASSESSMENT OF POTENTIAL TARGETS IN EARLY STAGE DRUG DISCOVERY. Q9HWT0 Q9HWT0 1.98 X-RAY DIFFRACTION 142 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 233 236 4avy-a1-m1-cA_4avy-a1-m1-cB 4b79-a1-m1-cB_4b79-a1-m1-cA MVFQHDIYAGQQVLVTGGSSGIGAAIAMQFAELGAEVVALGLDADGVHAPRHPRIRREELDITDSQRLQRLFEALPRLDVLVNNAGISRDREEYDLATFERVLRLNLSAAMLASQLARPLLAQRGGSILNIASMYSTFGSADRPAYSASKGAIVQLTRSLACEYAAERIRVNAIAPGWIDTDVEATRRIMQRTPLARWGEAPEVASAAAFLCGPGASFVTGAVLAVDGGYLCA MVFQHDIYAGQQVLVTGGSSGIGAAIAMQFAELGAEVVALGLDADGVHAPRHPRIRREELDITDSQRLQRLFEALPRLDVLVNNAGISRDREEYDLATFERVLRLNLSAAMLASQLARPLLAQRGGSILNIASMYSTFGSADRPAYSASKGAIVQLTRSLACEYAAERIRVNAIAPGWIDTPKADVEATRRIMQRTPLARWGEAPEVASAAAFLCGPGASFVTGAVLAVDGGYLCA 4b7c-a2-m1-cC_4b7c-a2-m1-cD Crystal structure of hypothetical protein PA1648 from Pseudomonas aeruginosa. Q9I377 Q9I377 2.1 X-RAY DIFFRACTION 88 0.991 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 323 325 4b7c-a1-m1-cA_4b7c-a1-m1-cB 4b7c-a3-m1-cE_4b7c-a3-m1-cF 4b7c-a4-m1-cH_4b7c-a4-m1-cG 4b7c-a5-m1-cJ_4b7c-a5-m1-cI 4b7x-a1-m1-cG_4b7x-a1-m1-cH 4b7x-a2-m1-cC_4b7x-a2-m1-cD 4b7x-a4-m1-cA_4b7x-a4-m1-cB 4b7x-a6-m1-cE_4b7x-a6-m1-cF QINRQYQLAQRPSGLPGRDTFSFVETPLGEPAEGQILVKNEYLSLDPAMRGWMNDARSYIPPVGIGEVMRALGVGKVLVSKHPGFQAGDYVNGALGVQDYFIGEPKGFYKVDPSRAPLPRYLSALGMTGMTAYFALLDVGQPKNGETVVISGAAGAVGSVAGQIARLKGCRVVGIAGGAEKCRFLVEELGFDGAIDYKNEDLAAGLKRECPKGIDVFFDNVGGEILDTVLTRIAFKARIVLCGAISQAVRGPANYLSLLVNRARMEGMVVMDYAQRFPEGLKEMATWLAEGKLQSREDIVEGLETFPETLLKLFSFGKLVLKV QINRQYQLAQRPSGLPGRDTFSFVETPLGEPAEGQILVKNEYLSLDPAMRGWMNDARSYIPPVGIGEVMRALGVGKVLVSKHPGFQAGDYVNGALGVQDYFIGEPKGFYKVDPSRAPLPRYLSALGMTGMTAYFALLDVGQPKNGETVVISGAAGAVGSVAGQIARLKGCRVVGIAGGAEKCRFLVEELGFDGAIDYKNEDLAAGLKRECPKGIDVFFDNVGGEILDTVLTRIAFKARIVLCGAISQYNGPANYLSLLVNRARMEGMVVMDYAQRFPEGLKEMATWLAEGKLQSREDIVEGLETFPETLLKLFSGENFGKLVLKV 4b7c-a6-m1-cK_4b7c-a6-m1-cL Crystal structure of hypothetical protein PA1648 from Pseudomonas aeruginosa. Q9I377 Q9I377 2.1 X-RAY DIFFRACTION 79 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 286 325 INRQYTFSFVETPLGEPAEGQILVKNEYLSLDPAMREVMRALGVGKVLVSKHPGFQAGDYVNGALGVQDYFIGEPKGFYKVDPSRAPLPRYLSALGMTGMTAYFALLDVGQPKNGETVVISGAAGAVGSVAGQIARLKGCRVVGIAGGAEKCRFLVEELGFDGAIDYKNEDLAAGLKRECPKGIDVFFDNVGGEILDTVLTRIAFKARIVLCGAIGPANYLSLLVNRARMEGMVVMDYAQRFPEGLKEMATWLAEGKLQSREDIVEGLETFPETLLKLFGKLVLKV QINRQYQLAQRPSGLPGRDTFSFVETPLGEPAEGQILVKNEYLSLDPAMRGWMNDARSYIPPVGIGEVMRALGVGKVLVSKHPGFQAGDYVNGALGVQDYFIGEPKGFYKVDPSRAPLPRYLSALGMTGMTAYFALLDVGQPKNGETVVISGAAGAVGSVAGQIARLKGCRVVGIAGGAEKCRFLVEELGFDGAIDYKNEDLAAGLKRECPKGIDVFFDNVGGEILDTVLTRIAFKARIVLCGAISQYRGPANYLSLLVNRARMEGMVVMDYAQRFPEGLKEMATWLAEGKLQSREDIVEGLETFPETLLKLFSGENFGKLVLKV 4b7h-a1-m1-cB_4b7h-a1-m1-cD Structure of a highdose liganded bacterial catalase 1.39 X-RAY DIFFRACTION 309 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 514 514 4b7f-a1-m1-cB_4b7f-a1-m1-cD 4b7f-a1-m1-cC_4b7f-a1-m1-cA 4b7g-a1-m1-cA_4b7g-a1-m1-cC 4b7g-a1-m1-cB_4b7g-a1-m1-cD 4b7h-a1-m1-cC_4b7h-a1-m1-cA EKSAADQIVDRGMRPKLSGNTTRHNGAPVPSENISATAGPQGPNVLNDIHLIEKLAHFNRENVPERIPHAKGHGAFGELHITEDVSEYTKADLFQPGKVTPLAVRFSTVAGEQGSPDTWRDVHGFALRFYTEEGNYDIVGNNTPTFFLRDGMKFPDFIHSQKRLNKNGLRDADMQWDFWTRAPESAHQVTYLMGDRGTPKTSRHQDGFGSHTFQWINAEGKPVWVKYHFKTRQGWDCFTDAEAAKVAGENADYQREDLYNAIENGDFPIWDVKVQIMPFEDAENYRWNPFDLTKTWSQKDYPLIPVGYFILNRNPRNFFAQIEQIALDPGNIVPGVGLSPDRMLQARIFAYADQQRYRIGANYRDLPVNRPINEVNTYSREGSMQYIFDAEGEPSYSPNRYDKGAGYLDNGTDSSSNHTSYGQADDIYVNPDPHGTDLVRAAYVKHQDDDDFIQPGILYREVLDEGEKERLADNISNAMQGISEATEPRVYDYWNNVDENLGARVKELYLQKKA EKSAADQIVDRGMRPKLSGNTTRHNGAPVPSENISATAGPQGPNVLNDIHLIEKLAHFNRENVPERIPHAKGHGAFGELHITEDVSEYTKADLFQPGKVTPLAVRFSTVAGEQGSPDTWRDVHGFALRFYTEEGNYDIVGNNTPTFFLRDGMKFPDFIHSQKRLNKNGLRDADMQWDFWTRAPESAHQVTYLMGDRGTPKTSRHQDGFGSHTFQWINAEGKPVWVKYHFKTRQGWDCFTDAEAAKVAGENADYQREDLYNAIENGDFPIWDVKVQIMPFEDAENYRWNPFDLTKTWSQKDYPLIPVGYFILNRNPRNFFAQIEQIALDPGNIVPGVGLSPDRMLQARIFAYADQQRYRIGANYRDLPVNRPINEVNTYSREGSMQYIFDAEGEPSYSPNRYDKGAGYLDNGTDSSSNHTSYGQADDIYVNPDPHGTDLVRAAYVKHQDDDDFIQPGILYREVLDEGEKERLADNISNAMQGISEATEPRVYDYWNNVDENLGARVKELYLQKKA 4b7h-a1-m1-cC_4b7h-a1-m1-cD Structure of a highdose liganded bacterial catalase 1.39 X-RAY DIFFRACTION 394 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 514 514 4b7f-a1-m1-cB_4b7f-a1-m1-cA 4b7f-a1-m1-cC_4b7f-a1-m1-cD 4b7g-a1-m1-cA_4b7g-a1-m1-cB 4b7g-a1-m1-cC_4b7g-a1-m1-cD 4b7h-a1-m1-cB_4b7h-a1-m1-cA EKSAADQIVDRGMRPKLSGNTTRHNGAPVPSENISATAGPQGPNVLNDIHLIEKLAHFNRENVPERIPHAKGHGAFGELHITEDVSEYTKADLFQPGKVTPLAVRFSTVAGEQGSPDTWRDVHGFALRFYTEEGNYDIVGNNTPTFFLRDGMKFPDFIHSQKRLNKNGLRDADMQWDFWTRAPESAHQVTYLMGDRGTPKTSRHQDGFGSHTFQWINAEGKPVWVKYHFKTRQGWDCFTDAEAAKVAGENADYQREDLYNAIENGDFPIWDVKVQIMPFEDAENYRWNPFDLTKTWSQKDYPLIPVGYFILNRNPRNFFAQIEQIALDPGNIVPGVGLSPDRMLQARIFAYADQQRYRIGANYRDLPVNRPINEVNTYSREGSMQYIFDAEGEPSYSPNRYDKGAGYLDNGTDSSSNHTSYGQADDIYVNPDPHGTDLVRAAYVKHQDDDDFIQPGILYREVLDEGEKERLADNISNAMQGISEATEPRVYDYWNNVDENLGARVKELYLQKKA EKSAADQIVDRGMRPKLSGNTTRHNGAPVPSENISATAGPQGPNVLNDIHLIEKLAHFNRENVPERIPHAKGHGAFGELHITEDVSEYTKADLFQPGKVTPLAVRFSTVAGEQGSPDTWRDVHGFALRFYTEEGNYDIVGNNTPTFFLRDGMKFPDFIHSQKRLNKNGLRDADMQWDFWTRAPESAHQVTYLMGDRGTPKTSRHQDGFGSHTFQWINAEGKPVWVKYHFKTRQGWDCFTDAEAAKVAGENADYQREDLYNAIENGDFPIWDVKVQIMPFEDAENYRWNPFDLTKTWSQKDYPLIPVGYFILNRNPRNFFAQIEQIALDPGNIVPGVGLSPDRMLQARIFAYADQQRYRIGANYRDLPVNRPINEVNTYSREGSMQYIFDAEGEPSYSPNRYDKGAGYLDNGTDSSSNHTSYGQADDIYVNPDPHGTDLVRAAYVKHQDDDDFIQPGILYREVLDEGEKERLADNISNAMQGISEATEPRVYDYWNNVDENLGARVKELYLQKKA 4b7h-a1-m1-cD_4b7h-a1-m1-cA Structure of a highdose liganded bacterial catalase 1.39 X-RAY DIFFRACTION 205 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 514 515 4b7f-a1-m1-cB_4b7f-a1-m1-cC 4b7f-a1-m1-cD_4b7f-a1-m1-cA 4b7g-a1-m1-cA_4b7g-a1-m1-cD 4b7g-a1-m1-cC_4b7g-a1-m1-cB 4b7h-a1-m1-cB_4b7h-a1-m1-cC EKSAADQIVDRGMRPKLSGNTTRHNGAPVPSENISATAGPQGPNVLNDIHLIEKLAHFNRENVPERIPHAKGHGAFGELHITEDVSEYTKADLFQPGKVTPLAVRFSTVAGEQGSPDTWRDVHGFALRFYTEEGNYDIVGNNTPTFFLRDGMKFPDFIHSQKRLNKNGLRDADMQWDFWTRAPESAHQVTYLMGDRGTPKTSRHQDGFGSHTFQWINAEGKPVWVKYHFKTRQGWDCFTDAEAAKVAGENADYQREDLYNAIENGDFPIWDVKVQIMPFEDAENYRWNPFDLTKTWSQKDYPLIPVGYFILNRNPRNFFAQIEQIALDPGNIVPGVGLSPDRMLQARIFAYADQQRYRIGANYRDLPVNRPINEVNTYSREGSMQYIFDAEGEPSYSPNRYDKGAGYLDNGTDSSSNHTSYGQADDIYVNPDPHGTDLVRAAYVKHQDDDDFIQPGILYREVLDEGEKERLADNISNAMQGISEATEPRVYDYWNNVDENLGARVKELYLQKKA SEKSAADQIVDRGMRPKLSGNTTRHNGAPVPSENISATAGPQGPNVLNDIHLIEKLAHFNRENVPERIPHAKGHGAFGELHITEDVSEYTKADLFQPGKVTPLAVRFSTVAGEQGSPDTWRDVHGFALRFYTEEGNYDIVGNNTPTFFLRDGMKFPDFIHSQKRLNKNGLRDADMQWDFWTRAPESAHQVTYLMGDRGTPKTSRHQDGFGSHTFQWINAEGKPVWVKYHFKTRQGWDCFTDAEAAKVAGENADYQREDLYNAIENGDFPIWDVKVQIMPFEDAENYRWNPFDLTKTWSQKDYPLIPVGYFILNRNPRNFFAQIEQIALDPGNIVPGVGLSPDRMLQARIFAYADQQRYRIGANYRDLPVNRPINEVNTYSREGSMQYIFDAEGEPSYSPNRYDKGAGYLDNGTDSSSNHTSYGQADDIYVNPDPHGTDLVRAAYVKHQDDDDFIQPGILYREVLDEGEKERLADNISNAMQGISEATEPRVYDYWNNVDENLGARVKELYLQKKA 4b7x-a5-m1-cI_4b7x-a5-m1-cJ Crystal structure of hypothetical protein PA1648 from Pseudomonas aeruginosa. Q9I377 Q9I377 2.2 X-RAY DIFFRACTION 85 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 234 327 LDPAMRGWMNGALGVFYKVDPSRAPLPRYLSALGMTGMTAYFALLDVGQPKNGETVVISGAAGAVGSVAGQIARLKGCRVVGIAGGAEKCRFLVEELGFDGAIDYKNEDLAAGLKRECPKGIDVFFDNVGGEILDTVLTRIAFKARIVLCGAISQYNAVRGPANYLSLLVNRARMEGMVVMDYAQRFPEGLKEMATWLAEGKLQSREDIVEGLETFPETLLKLFSGENFGKLVL NRQYQLAQRPSGLPGRDTFSFVETPLGEPAEGQILVKNEYLSLDPAMRGWMNDARSYIPPVGIGEVMRALGVGKVLVSKHPGFQAGDYVNGALGVQDYFIGEPKGFYKVDPSRAPLPRYLSALGMTGMTAYFALLDVGQPKNGETVVISGAAGAVGSVAGQIARLKGCRVVGIAGGAEKCRFLVEELGFDGAIDYKNEDLAAGLKRECPKGIDVFFDNVGGEILDTVLTRIAFKARIVLCGAISQYNNAVRGPANYLSLLVNRARMEGMVVMDYAQRFPEGLKEMATWLAEGKLQSREDIVEGLETFPETLLKLFSGENFGKLVLKV 4b86-a3-m1-cJ_4b86-a3-m1-cI Crystal structure of the MSL1-MSL2 complex (3.5A) Q68DK7 Q68DK7 3.5 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 33 35 4b7y-a1-m1-cB_4b7y-a1-m1-cA 4b86-a1-m1-cA_4b86-a1-m1-cB 4b86-a2-m1-cE_4b86-a2-m1-cF SSQAACLKQILLLQLDLIEQQQQQLQAKEKEIE SSQAACLKQILLLQLDLIEQQQQQLQAKEKEIEEL 4b8b-a1-m1-cA_4b8b-a1-m1-cB N-Terminal domain of the yeast Not1 P25655 P25655 2.801 X-RAY DIFFRACTION 92 0.998 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 528 529 LEGESLNDLLALLLSEILSATNRGNVIARSISSLQANQINWNRVFNLMSTKYFLLMPTTASLSCLFAALHDGPVIDEFFSCDWKVIFKLDLAIQLHKWSVQNGCFDLLNAEGTRKVSETIPNTKQSLLYLLSIASLNLELFLQREELSDGPMLAYFQECFFEDFNYAPEYLILALVKEMKRFVLLIENRTVIDEILITLLIQVHNKSPSSFKDVISTITDDSKIVDAAKIIINSDDAPIANFLKSLLDTGRLDTVINKLPFNEAFKILPCARQIGWEGFDTFLKTKVSPSNVDVVLESLEVQTKMTDTPFRSLKTFDLFAFHSLIEVLNKCPLDVLQLQRFESLEFSLLIAFPRLINFGFGHDEAILANGDIAGINNDIEKEMQNYLQKMYSGELAIKDVIELLRRLRDSDLPRDQEVFTCITHAVIAESTFFQDYPLDALATTSVLFGSMILFQLLRGFVLDVAFRIIMRFAKEPPESKMFKFAVQAIYAFRIRLAEYPQYCKDLLRDVPALKSQAQVYQSIVEAAT LEGESLNDLLALLLSEILSATNRGNVIARSISSLQANQINWNRVFNLMSTKYFLMPTTASLSCLFAALHDGPVIDEFFSCDWKVIFKLDLAIQLHKWSVQNGCFDLLNAEGTRKVSETIPNTKQSLLYLLSIASLNLELFLQREELSDGPMLAYFQECFFEDFNYAPEYLILALVKEMKRFVLLIENRTVIDEILITLLIQVHNKSPSSFKDVISTITDDSKIVDAAKIIINSDDAPIANFLKSLLDTGRLDTVINKLPFNEAFKILPCARQIGWEGFDTFLKTKVSPSNVDVVLESLEVQTKMTDTNTPFRSLKTFDLFAFHSLIEVLNKCPLDVLQLQRFESLEFSLLIAFPRLINFGFGHDEAILANGDIAGINNDIEKEMQNYLQKMYSGELAIKDVIELLRRLRDSDLPRDQEVFTCITHAVIAESTFFQDYPLDALATTSVLFGSMILFQLLRGFVLDVAFRIIMRFAKEPPESKMFKFAVQAIYAFRIRLAEYPQYCKDLLRDVPALKSQAQVYQSIVEAAT 4b8c-a2-m1-cC_4b8c-a2-m1-cE nuclease module of the yeast Ccr4-Not complex P39008 P39008 3.41 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 267 267 4b8c-a1-m1-cA_4b8c-a1-m1-cF PIFLPPPNYLFVRDVWKSNLYSEFAVIRQLVSQYNHVSISTEFVGTLARPIGTFRSKVDYHYQTMRANVDFLNPIQLGLSLSDANGNKPDNGPSTWQFNFEFDPKKEIMSTESLELLRKSGINFEKHENLGIDVFEFSQLLMDSGLMMDDSVTWITYHAAYDLGFLINILMNDSMPNNKEDFEWWVHQYMPNFYDLNLVYKIIQEFKNQYSLTTLADELGLPRFSIFTTTGGQSLLMLLSFCQLSKLSMHKFPNGTDFAKYQGVIYG PIFLPPPNYLFVRDVWKSNLYSEFAVIRQLVSQYNHVSISTEFVGTLARPIGTFRSKVDYHYQTMRANVDFLNPIQLGLSLSDANGNKPDNGPSTWQFNFEFDPKKEIMSTESLELLRKSGINFEKHENLGIDVFEFSQLLMDSGLMMDDSVTWITYHAAYDLGFLINILMNDSMPNNKEDFEWWVHQYMPNFYDLNLVYKIIQEFKNQYSLTTLADELGLPRFSIFTTTGGQSLLMLLSFCQLSKLSMHKFPNGTDFAKYQGVIYG 4b8c-a2-m1-cH_4b8c-a2-m3-cI nuclease module of the yeast Ccr4-Not complex P25655 P25655 3.41 X-RAY DIFFRACTION 33 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 233 233 4b8c-a1-m1-cB_4b8c-a1-m2-cG QEMIPLKFFAVDEVSCQINQEGAPKDVVEKVLFVLNNVTLANLNNKVDELKKSLTPNYFSWFSTYLVTQRAKTEPNYHDLYSKVIVAMGSGLLHQFMVNVTLRQLFVLLSTKDEQAIDKKHLKNLASWLGCITLALNKPIKHKNIAFREMLIEAYKENRLEIVVPFVTKILQRASESKIFKPPNPWTVGILKLLIELNEKANWKLSLTFEVEVLLKSFNLTTKSLKPSNFINT QEMIPLKFFAVDEVSCQINQEGAPKDVVEKVLFVLNNVTLANLNNKVDELKKSLTPNYFSWFSTYLVTQRAKTEPNYHDLYSKVIVAMGSGLLHQFMVNVTLRQLFVLLSTKDEQAIDKKHLKNLASWLGCITLALNKPIKHKNIAFREMLIEAYKENRLEIVVPFVTKILQRASESKIFKPPNPWTVGILKLLIELNEKANWKLSLTFEVEVLLKSFNLTTKSLKPSNFINT 4b8v-a1-m1-cA_4b8v-a1-m2-cA Cladosporium fulvum LysM effector Ecp6 in complex with a beta-1,4- linked N-acetyl-D-glucosamine tetramer B3VBK9 B3VBK9 1.59 X-RAY DIFFRACTION 109 1.0 5499 (Fulvia fulva) 5499 (Fulvia fulva) 189 189 4b9h-a1-m1-cA_4b9h-a1-m2-cA CGSTSNIKYTVVKGDTLTSIAKKFKSGICNIVSVNKLANPNLIELGATLIIPENCSNPDNKSCVSTPAEPTETCVPGLPGSYTIVSGDTLTNISQDFNITLDSLIAANTQIENPDAIDVGQIITVPVCPSSQCEAVGTYNIVAGDLFVDLAATYHTTIGQIKALNNNVNPSKLKVGQQIILPQDCKNVT CGSTSNIKYTVVKGDTLTSIAKKFKSGICNIVSVNKLANPNLIELGATLIIPENCSNPDNKSCVSTPAEPTETCVPGLPGSYTIVSGDTLTNISQDFNITLDSLIAANTQIENPDAIDVGQIITVPVCPSSQCEAVGTYNIVAGDLFVDLAATYHTTIGQIKALNNNVNPSKLKVGQQIILPQDCKNVT 4b8x-a1-m1-cB_4b8x-a1-m1-cA Near atomic resolution crystal structure of Sco5413, a MarR family transcriptional regulator from Streptomyces coelicolor Q9L2A7 Q9L2A7 1.25 X-RAY DIFFRACTION 135 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 138 139 GVPSMAAITSIMRAQQILLGEVDAVVKPYGLTFARYEALVLLTFSKSGELPMSKIGERLMVHPTSVTNTVDRLVRSGLVAKRPNPTLATITDKGREVVEAATRDLMAMDFGLGAYDAEEGEIFAMLRPLRVAAGDFDE GVPSMAAITSIMRAQQILLGEVDAVVKPYGLTFARYEALVLLTFSKSGELPMSKIGERLMVHPTSVTNTVDRLVRSGLVAKRPNPGTLATITDKGREVVEAATRDLMAMDFGLGAYDAEEGEIFAMLRPLRVAAGDFDE 4b91-a1-m1-cB_4b91-a1-m2-cB Crystal structure of truncated human CRMP-5 Q9BPU6 Q9BPU6 1.7 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 4b90-a1-m1-cA_4b90-a1-m2-cA 4b90-a1-m1-cB_4b90-a1-m2-cB 4b91-a1-m1-cA_4b91-a1-m2-cA 4b92-a1-m1-cA_4b92-a1-m2-cA 4b92-a1-m3-cB_4b92-a1-m4-cB 4b92-a2-m1-cB_4b92-a2-m5-cB 4b92-a2-m6-cA_4b92-a2-m7-cA VRILIKGGKVVNDDCTHEADVYIENGIIQQVGRELMIPGGAKVIDATGKLVIPGGIDTSTHFHQTFMNATCVDDFYHGTKAALVGGTTMIIGHVLPDKETSLVDAYEKCRGLADPKVCCDYALHVGITWWAPKVKAEMETLVREKGVNSFQMFMTYKDLYMLRDSELYQVLHACKDIGAIARVHAENGELVAEGAKEALDLGITGPEGIEISRPEELEAEATHRVITIANRTHCPIYLVNVSSISAGDVIAAAKMQGKVVLAETTTAHATLTGLHYYHQDWSHAAAYVTVPPLRLDTNTSTYLMSLLANDTLNIVASDHRPFTTKQKAMGKEDFTKIPHGVSGVQDRMSVIWERGVVGGKMDENRFVAVTSSNAAKLLNLYPRKGRIIPGADADVVVWDPEATKTISASTQVQGGDFNLYENMRCHGVPLVTISRGRVVYENGVFMCAEGTGKFCPLRSFPDTVYKKLVQREKTL VRILIKGGKVVNDDCTHEADVYIENGIIQQVGRELMIPGGAKVIDATGKLVIPGGIDTSTHFHQTFMNATCVDDFYHGTKAALVGGTTMIIGHVLPDKETSLVDAYEKCRGLADPKVCCDYALHVGITWWAPKVKAEMETLVREKGVNSFQMFMTYKDLYMLRDSELYQVLHACKDIGAIARVHAENGELVAEGAKEALDLGITGPEGIEISRPEELEAEATHRVITIANRTHCPIYLVNVSSISAGDVIAAAKMQGKVVLAETTTAHATLTGLHYYHQDWSHAAAYVTVPPLRLDTNTSTYLMSLLANDTLNIVASDHRPFTTKQKAMGKEDFTKIPHGVSGVQDRMSVIWERGVVGGKMDENRFVAVTSSNAAKLLNLYPRKGRIIPGADADVVVWDPEATKTISASTQVQGGDFNLYENMRCHGVPLVTISRGRVVYENGVFMCAEGTGKFCPLRSFPDTVYKKLVQREKTL 4b91-a1-m2-cA_4b91-a1-m2-cB Crystal structure of truncated human CRMP-5 Q9BPU6 Q9BPU6 1.7 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 474 475 4b90-a1-m1-cA_4b90-a1-m1-cB 4b90-a1-m2-cA_4b90-a1-m2-cB 4b91-a1-m1-cA_4b91-a1-m1-cB 4b92-a1-m3-cB_4b92-a1-m1-cA 4b92-a1-m4-cB_4b92-a1-m2-cA 4b92-a2-m1-cB_4b92-a2-m7-cA 4b92-a2-m5-cB_4b92-a2-m6-cA VRILIKGGKVVNDDCTHEADVYIENGIIQQVGRELMIPGGAKVIDATGKLVIPGGIDTSTHFHQTFMNATCVDDFYHGTKAALVGGTTMIIGHVLPDKETSLVDAYEKCRGLADPKVCCDYALHVGITWWAPKVKAEMETLVREKGVNSFQMFMTYKDLYMLRDSELYQVLHACKDIGAIARVHAENGELVAEGAKEALDLGITGPEGIEISRPEELEAEATHRVITIANRTHCPIYLVNVSSISAGDVIAAAKMQGKVVLAETTTAHATLTGLHYYHQDWSHAAAYVTVPPLRLDTNTSTYLMSLLANDTLNIVASDHRPFTTKQKAMGKEDFTKIPHGVSGVQDRMSVIWERGVVGGKMDENRFVAVTSSNAAKLLNLYPRKGRIIPGADADVVVWDPEATKTISASTQVQGGDFNLYENMRCHGVPLVTISRGRVVYENGVFMCAEGTGKFCPLRSFPDTVYKKLVQREKT VRILIKGGKVVNDDCTHEADVYIENGIIQQVGRELMIPGGAKVIDATGKLVIPGGIDTSTHFHQTFMNATCVDDFYHGTKAALVGGTTMIIGHVLPDKETSLVDAYEKCRGLADPKVCCDYALHVGITWWAPKVKAEMETLVREKGVNSFQMFMTYKDLYMLRDSELYQVLHACKDIGAIARVHAENGELVAEGAKEALDLGITGPEGIEISRPEELEAEATHRVITIANRTHCPIYLVNVSSISAGDVIAAAKMQGKVVLAETTTAHATLTGLHYYHQDWSHAAAYVTVPPLRLDTNTSTYLMSLLANDTLNIVASDHRPFTTKQKAMGKEDFTKIPHGVSGVQDRMSVIWERGVVGGKMDENRFVAVTSSNAAKLLNLYPRKGRIIPGADADVVVWDPEATKTISASTQVQGGDFNLYENMRCHGVPLVTISRGRVVYENGVFMCAEGTGKFCPLRSFPDTVYKKLVQREKTL 4b96-a1-m1-cA_4b96-a1-m2-cA Family 3b carbohydrate-binding module from the biomass sensoring system of Clostridium clariflavum G8LST1 G8LST1 1.911 X-RAY DIFFRACTION 41 1.0 288965 (Acetivibrio clariflavus) 288965 (Acetivibrio clariflavus) 151 151 SHMILKLKHYNEQQSLYSKAIRWDFVIENTGNSYIDLRNVKVRYYFKDDYKNINFAVYFYSLGDEKNDVKGKVYNIRQSDSSHKYLEVTFEKGSIPPGDAAWVFGAITRDDWTEFNQEDDWSFLQGNSTFSYWDKMTVYISDKLVWGIEPY SHMILKLKHYNEQQSLYSKAIRWDFVIENTGNSYIDLRNVKVRYYFKDDYKNINFAVYFYSLGDEKNDVKGKVYNIRQSDSSHKYLEVTFEKGSIPPGDAAWVFGAITRDDWTEFNQEDDWSFLQGNSTFSYWDKMTVYISDKLVWGIEPY 4b9b-a2-m1-cB_4b9b-a2-m1-cH The structure of the omega aminotransferase from Pseudomonas aeruginosa Q9I700 Q9I700 1.64 X-RAY DIFFRACTION 50 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 435 436 4b98-a1-m1-cA_4b98-a1-m1-cD 4b98-a1-m1-cB_4b98-a1-m1-cC 4b9b-a1-m1-cD_4b9b-a1-m1-cF 4b9b-a1-m1-cE_4b9b-a1-m1-cC 4b9b-a2-m1-cA_4b9b-a2-m1-cG 4bq0-a1-m1-cC_4bq0-a1-m1-cB 4bq0-a1-m1-cD_4bq0-a1-m1-cA ELNLRAHWMPFSANRNFQKDPRIIVAAEGSWLTDDKGRKVYDSLSGLWTCGAGHSRKEIQEAVARQLGTLDYSPGFQYGHPLSFQLAEKIAGLLPGELNHVFFTGSGSECADTSIKMARAYWRLKGQPQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGQLMDVDHLPHTLQPGMAFTRGMAQTGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVLVPPVGYLQRLREICDQHNILLIFDEVITAFGRLGTYSGAEYFGVTPDLMNVAKQVTNGAVPMGAVIASSEIYDTFMNQALPEHAVEFSHGYTYSAHPVACAAGLAALDILARDNLVQQSAELAPHFEKGLHGLQGAKNVIDIRNCGLAGAIQIAPRDGDPTVRPFEAGMKLWQQGFYVRFGGDTLQFGPTFNARPEELDRLFDAVGEALNGIA SELNLRAHWMPFSANRNFQKDPRIIVAAEGSWLTDDKGRKVYDSLSGLWTCGAGHSRKEIQEAVARQLGTLDYSPGFQYGHPLSFQLAEKIAGLLPGELNHVFFTGSGSECADTSIKMARAYWRLKGQPQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGQLMDVDHLPHTLQPGMAFTRGMAQTGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVLVPPVGYLQRLREICDQHNILLIFDEVITAFGRLGTYSGAEYFGVTPDLMNVAKQVTNGAVPMGAVIASSEIYDTFMNQALPEHAVEFSHGYTYSAHPVACAAGLAALDILARDNLVQQSAELAPHFEKGLHGLQGAKNVIDIRNCGLAGAIQIAPRDGDPTVRPFEAGMKLWQQGFYVRFGGDTLQFGPTFNARPEELDRLFDAVGEALNGIA 4b9b-a2-m1-cG_4b9b-a2-m1-cH The structure of the omega aminotransferase from Pseudomonas aeruginosa Q9I700 Q9I700 1.64 X-RAY DIFFRACTION 439 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 436 436 4b98-a1-m1-cB_4b98-a1-m1-cA 4b98-a1-m1-cC_4b98-a1-m1-cD 4b9b-a1-m1-cC_4b9b-a1-m1-cD 4b9b-a1-m1-cE_4b9b-a1-m1-cF 4b9b-a2-m1-cB_4b9b-a2-m1-cA 4bq0-a1-m1-cB_4bq0-a1-m1-cA 4bq0-a1-m1-cC_4bq0-a1-m1-cD SELNLRAHWMPFSANRNFQKDPRIIVAAEGSWLTDDKGRKVYDSLSGLWTCGAGHSRKEIQEAVARQLGTLDYSPGFQYGHPLSFQLAEKIAGLLPGELNHVFFTGSGSECADTSIKMARAYWRLKGQPQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGQLMDVDHLPHTLQPGMAFTRGMAQTGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVLVPPVGYLQRLREICDQHNILLIFDEVITAFGRLGTYSGAEYFGVTPDLMNVAKQVTNGAVPMGAVIASSEIYDTFMNQALPEHAVEFSHGYTYSAHPVACAAGLAALDILARDNLVQQSAELAPHFEKGLHGLQGAKNVIDIRNCGLAGAIQIAPRDGDPTVRPFEAGMKLWQQGFYVRFGGDTLQFGPTFNARPEELDRLFDAVGEALNGIA SELNLRAHWMPFSANRNFQKDPRIIVAAEGSWLTDDKGRKVYDSLSGLWTCGAGHSRKEIQEAVARQLGTLDYSPGFQYGHPLSFQLAEKIAGLLPGELNHVFFTGSGSECADTSIKMARAYWRLKGQPQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGQLMDVDHLPHTLQPGMAFTRGMAQTGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVLVPPVGYLQRLREICDQHNILLIFDEVITAFGRLGTYSGAEYFGVTPDLMNVAKQVTNGAVPMGAVIASSEIYDTFMNQALPEHAVEFSHGYTYSAHPVACAAGLAALDILARDNLVQQSAELAPHFEKGLHGLQGAKNVIDIRNCGLAGAIQIAPRDGDPTVRPFEAGMKLWQQGFYVRFGGDTLQFGPTFNARPEELDRLFDAVGEALNGIA 4b9d-a1-m1-cA_4b9d-a1-m1-cB Crystal Structure of Human NIMA-related Kinase 1 (NEK1) with inhibitor. Q96PY6 Q96PY6 1.9 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 290 295 HHHHTENLYFQSMEKYVRLQKIKAILVKSTEDGRQYVIKEINISRMSSKEREESRREVAVLANMKHPNIVQYRESFEENGSLYIVMDYCEGGDLFKRINAQKGVLFQEDQILDWFVQICLALKHVHDRKILHRDIKSQNIFLTKDGTVQLGDFGIARVLNSTVELARACIGTPYYLSPEICENKPYNNKSDIWALGCVLYELCTLKHAFEAGSMKNLVLKIISGSFPPVSLHYSYDLRSLVSQLFKRNPRDRPSVNSILEKGFIAKRIEKFLSPQLIAEEFCLKTFSKFG HHHHVDLGTENLYFQSMEKYVRLQKIGKAILVKSTEDGRQYVIKEINISRMSSKEREESRREVAVLANMKHPNIVQYRESFEENGSLYIVMDYCEGGDLFKRINAQKGVLFQEDQILDWFVQICLALKHVHDRKILHRDIKSQNIFLTKDGTVQLGDFGIARVLNSTVELARACIGTPYYLSPEICENKPYNNKSDIWALGCVLYELCTLKHAFEAGSMKNLVLKIISGSFPPVSLHYSYDLRSLVSQLFKRNPRDRPSVNSILEKGFIAKRIEKFLSPQLIAEEFCLKTFSKFG 4b9e-a1-m1-cA_4b9e-a1-m2-cA Structure of a putative epoxide hydrolase from Pseudomonas aeruginosa, with bound MFA. Q9I229 Q9I229 1.4 X-RAY DIFFRACTION 60 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 297 297 4b9a-a1-m1-cA_4b9a-a1-m2-cA 4bat-a1-m1-cA_4bat-a1-m2-cA 4bau-a1-m1-cA_4bau-a1-m2-cA 4baz-a1-m1-cA_4baz-a1-m2-cA 4bb0-a1-m1-cA_4bb0-a1-m2-cA DPLLPGFDYLTLHTSAARLRVAVKGSGPPLLLLHGYPQTHLAWHRIAPRLAEDYSVVLADLRGYGESRALDEEGADYSKAALARDQLETMGQLGFERFAVIGHDRGARVGYRLALDHPQAVAAFVSLTVVPILDNWAAVNKVFALNAYHWFLLAQPYDLPERLIGADPEHFLDYTLRRMAQGRDIYHPQALESYRRAFRDPAVRHAMCEDYRAAVGVDADADQADRDAGRRLQCPVQVLWQERPYAAGQHPLEIWKTWAGQVEGAAIGASHMLPEDAPDAVLEHLLGFLASHREALR DPLLPGFDYLTLHTSAARLRVAVKGSGPPLLLLHGYPQTHLAWHRIAPRLAEDYSVVLADLRGYGESRALDEEGADYSKAALARDQLETMGQLGFERFAVIGHDRGARVGYRLALDHPQAVAAFVSLTVVPILDNWAAVNKVFALNAYHWFLLAQPYDLPERLIGADPEHFLDYTLRRMAQGRDIYHPQALESYRRAFRDPAVRHAMCEDYRAAVGVDADADQADRDAGRRLQCPVQVLWQERPYAAGQHPLEIWKTWAGQVEGAAIGASHMLPEDAPDAVLEHLLGFLASHREALR 4b9w-a1-m1-cB_4b9w-a1-m1-cA Structure of extended Tudor domain TD3 from mouse TDRD1 in complex with MILI peptide containing dimethylarginine 45. Q99MV1 Q99MV1 2.1 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 191 196 LEWTWVEFTVDETVDVVVCMMYSPGEFYCHFLKDDALEKLDDLNQSLADYCAQFKAEIGRPCCAFFSGDGNWYRALVKEILPSGNVKVHFVDYGNVEEVTTDQLQAILPQFLLLPFQGMQCWLVDIQPPNKHWTKEATARFQACVVGLKLQARVVEITANGVGVELTDLSTPYPKIISDVLIREQLVLRCG LEWTWVEFTVDETVDVVVCMMYSPGEFYCHFLKDDALEKLDDLNQSLADYCAQKPPNGFKAEIGRPCCAFFSGDGNWYRALVKEILPSGNVKVHFVDYGNVEEVTTDQLQAILPQFLLLPFQGMQCWLVDIQPPNKHWTKEATARFQACVVGLKLQARVVEITANGVGVELTDLSTPYPKIISDVLIREQLVLRCG 4ba0-a1-m1-cA_4ba0-a1-m2-cA Crystal Structure of Agd31B, alpha-transglucosylase, complexed with 5F-alpha-GlcF B3PEE6 B3PEE6 1.85 X-RAY DIFFRACTION 109 1.0 155077 (Cellvibrio japonicus) 155077 (Cellvibrio japonicus) 781 781 4b9y-a1-m1-cA_4b9y-a1-m2-cA AVFYKEHKLRNDGLVITTNQGNIRLQFKSEAAIEVLYRADSKQLPSFALAQPESAIKAQLTETENHLQFSGGTLTARIQKRPFAISYYRDSELLLAEESGFQVNKINFRFYLSPGEKILGGGQRILGMDRRGQRFPLYNRAHYGYSDHSGQMYFGLPAIMSSKQYILVFDNSASGAMDIGKTESDILQLEAKSGRSAYILVAGNSYPSLIENFTQVTGRQPLPPRWALGSFASRFGYRSEAETRATVQKYKTEDFPLDTIVLDLYWFGKDIKGHMGNLDWDKENFPTPLDMMADFKQQGVKTVLITEPFVLTSSKRWDDAVKAKALAKDPQGQPKAFELYFGNGGIIDVFSKEGSRWFSSIYKDLSKQGVAGWWGDLGEPEMHPEDTQHAIGDADTVHNAYGHRWAEMLYQQQLDQFPELRPFIMMRAGFVGSQRYGMIPWTGDVSRTWGGLASQVELALQMSLLGFGYIHSDLGGFADGETLDKEMYIRWLQYGVFQPVYRPHGQDHIPSEPVFQDEETKAILRPLVKLRYRMLPYIYTAAYQNTLTGMPLMRPLFFSDEKNPALIDNKTSYFWGDSLLVTPITQAGVESVSIPAPKGVWFDFWKDTRYQTDGAPLTLPTDLHTIPVLVKAGAFMPYVPAVSTTEDYRSDSLEIHYYADASVPLAQGEIFEDDGKDPNSIKRNQFDLLTLQATHTDNQLHFQLARTGKGYRGMPERRATTLVIHNASDQYQHLDINGKTIAIAQADCASTPALACYDQERRQLQLVFTWGREALNLRLHK AVFYKEHKLRNDGLVITTNQGNIRLQFKSEAAIEVLYRADSKQLPSFALAQPESAIKAQLTETENHLQFSGGTLTARIQKRPFAISYYRDSELLLAEESGFQVNKINFRFYLSPGEKILGGGQRILGMDRRGQRFPLYNRAHYGYSDHSGQMYFGLPAIMSSKQYILVFDNSASGAMDIGKTESDILQLEAKSGRSAYILVAGNSYPSLIENFTQVTGRQPLPPRWALGSFASRFGYRSEAETRATVQKYKTEDFPLDTIVLDLYWFGKDIKGHMGNLDWDKENFPTPLDMMADFKQQGVKTVLITEPFVLTSSKRWDDAVKAKALAKDPQGQPKAFELYFGNGGIIDVFSKEGSRWFSSIYKDLSKQGVAGWWGDLGEPEMHPEDTQHAIGDADTVHNAYGHRWAEMLYQQQLDQFPELRPFIMMRAGFVGSQRYGMIPWTGDVSRTWGGLASQVELALQMSLLGFGYIHSDLGGFADGETLDKEMYIRWLQYGVFQPVYRPHGQDHIPSEPVFQDEETKAILRPLVKLRYRMLPYIYTAAYQNTLTGMPLMRPLFFSDEKNPALIDNKTSYFWGDSLLVTPITQAGVESVSIPAPKGVWFDFWKDTRYQTDGAPLTLPTDLHTIPVLVKAGAFMPYVPAVSTTEDYRSDSLEIHYYADASVPLAQGEIFEDDGKDPNSIKRNQFDLLTLQATHTDNQLHFQLARTGKGYRGMPERRATTLVIHNASDQYQHLDINGKTIAIAQADCASTPALACYDQERRQLQLVFTWGREALNLRLHK 4ba9-a1-m1-cB_4ba9-a1-m1-cC The structural basis for the coordination of Y-family Translesion DNA Polymerases by Rev1 Q9UBZ9 Q9UBZ9 2.73 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 107 GPHMHKKSFFDKKRSERASNLAGAVEFNDVKTLLREWITTISDPMEEDILQVVKYCTDLIEEKDLEKLDLVIKYMKRLMQQSVESVWNMAFDFILDNVQVVLQQ GPHMHKKSFFDKKRSERGSDASNLAGAVEFNDVKTLLREWITTISDPMEEDILQVVKYCTDLIEEKDLEKLDLVIKYMKRLMQQSVESVWNMAFDFILDNVQVVLQQ 4ba9-a2-m1-cE_4ba9-a2-m2-cF The structural basis for the coordination of Y-family Translesion DNA Polymerases by Rev1 Q9UBZ9 Q9UBZ9 2.73 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 4ba9-a1-m1-cA_4ba9-a1-m1-cC 4ba9-a1-m1-cB_4ba9-a1-m1-cD 4ba9-a2-m1-cF_4ba9-a2-m2-cE GPHMHKKSFFDKKRSERASNLAGAVEFNDVKTLLREWITTISDPMEEDILQVVKYCTDLIEEKDLEKLDLVIKYMKRLMQQSVESVWNMAFDFILDNVQVVLQQ GPHMHKKSFFDKKRSERASNLAGAVEFNDVKTLLREWITTISDPMEEDILQVVKYCTDLIEEKDLEKLDLVIKYMKRLMQQSVESVWNMAFDFILDNVQVVLQQ 4bae-a2-m1-cC_4bae-a2-m1-cD Optimisation of pyrroleamides as mycobacterial GyrB ATPase inhibitors: Structure Activity Relationship and in vivo efficacy in the mouse model of tuberculosis P0C559 P0C559 2.35 X-RAY DIFFRACTION 47 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 184 185 4bae-a1-m1-cB_4bae-a1-m1-cA GLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGFATRVDVKIHADGSVEVRDDGRGIPVEMHATGMPTIDVVMTQLHGVGVSVVNALSTRLEATVLRDGYEWFQYYDRSVPGKLKQGGETKETGTTIRFWADPEIFETTDYNFETVARRLQEMAFLNKGLTIELTDERDGKHRVFHYP GLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGFATRVDVKIHADGSVEVRDDGRGIPVEMHATGMPTIDVVMTQLHGVGVSVVNALSTRLEATVLRDGYEWFQYYDRSVPGKLKQGGETKETGTTIRFWADPEIFETTDYNFETVARRLQEMAFLNKGLTIELTDERDGKHRVFHYPG 4bai-a1-m3-cA_4bai-a1-m4-cA Mycobacterium tuberculosis Chorismate synthase before exposure to 266 nm UV laser P9WPY1 P9WPY1 2.3 X-RAY DIFFRACTION 301 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 367 367 1ztb-a2-m1-cA_1ztb-a2-m2-cA 1ztb-a2-m3-cA_1ztb-a2-m4-cA 2g85-a1-m1-cA_2g85-a1-m2-cA 2g85-a1-m3-cA_2g85-a1-m4-cA 2o11-a1-m1-cA_2o11-a1-m2-cA 2o11-a2-m1-cA_2o11-a2-m2-cA 2o11-a2-m3-cA_2o11-a2-m4-cA 2o12-a1-m1-cA_2o12-a1-m2-cA 2o12-a2-m1-cA_2o12-a2-m2-cA 2o12-a2-m3-cA_2o12-a2-m4-cA 2qhf-a1-m1-cA_2qhf-a1-m2-cA 2qhf-a1-m3-cA_2qhf-a1-m4-cA 4bai-a1-m1-cA_4bai-a1-m2-cA 4baj-a1-m1-cA_4baj-a1-m2-cA 4baj-a1-m3-cA_4baj-a1-m4-cA LRWITAGESHGRALVAVVEGVAGVHVTSADIADQLARRRLGYAVTVLSGIRHGSTLGGPIAIEIGNTEWPKWETVAADPVDPAELADVARNAPLTRPRPGHADYAGLKYGFDDARPVLERASARETAARVAAGTVARAFLRQALGVEVLSHVISIGASAPYEGPPPRAEDLPAIDASPVRAYDKAAEADIAQIEAAKKDGDTLGGVVEAVALGLPVGLGSFTSGDHRLDSQLAAAVGIQAIKGVEIGDGFQTARRRGSRAHDEYPGPDGVVRSTNRAGGLEGGTNGQPLRVRAAKPISTVPRALATVDLATGDEAVAIHQCAVPAAGVVVETVALVLARAALEKFGGDSLAETQRNIAAYQRSVADR LRWITAGESHGRALVAVVEGVAGVHVTSADIADQLARRRLGYAVTVLSGIRHGSTLGGPIAIEIGNTEWPKWETVAADPVDPAELADVARNAPLTRPRPGHADYAGLKYGFDDARPVLERASARETAARVAAGTVARAFLRQALGVEVLSHVISIGASAPYEGPPPRAEDLPAIDASPVRAYDKAAEADIAQIEAAKKDGDTLGGVVEAVALGLPVGLGSFTSGDHRLDSQLAAAVGIQAIKGVEIGDGFQTARRRGSRAHDEYPGPDGVVRSTNRAGGLEGGTNGQPLRVRAAKPISTVPRALATVDLATGDEAVAIHQCAVPAAGVVVETVALVLARAALEKFGGDSLAETQRNIAAYQRSVADR 4bas-a2-m1-cA_4bas-a2-m2-cA Structure of the Arl6 BBS3 Small GTPase from Trypanosoma brucei with bound nucleotide analogue GppNp C9ZVV9 C9ZVV9 2 X-RAY DIFFRACTION 70 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 172 172 TKLQVVMCGLDNSGKTTIINQVKPAQHITATVGYNVETFEKGRVAFTVFDMGGAKKFRGLWETYYDNIDAVIFVVDSSDHLRLCVVKSEIQAMLKHEDIRRELPGGGRVPFLFFANKMDAAGAKTAAELVEILDLTTLMGDHPFVIFASNGLKGTGVHEGFSWLQETASRQS TKLQVVMCGLDNSGKTTIINQVKPAQHITATVGYNVETFEKGRVAFTVFDMGGAKKFRGLWETYYDNIDAVIFVVDSSDHLRLCVVKSEIQAMLKHEDIRRELPGGGRVPFLFFANKMDAAGAKTAAELVEILDLTTLMGDHPFVIFASNGLKGTGVHEGFSWLQETASRQS 4bax-a1-m1-cA_4bax-a1-m1-cJ Crystal structure of glutamine synthetase from Streptomyces coelicolor Q9X958 Q9X958 2.55 X-RAY DIFFRACTION 20 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 344 344 4bax-a1-m1-cB_4bax-a1-m1-cI 4bax-a1-m1-cC_4bax-a1-m1-cH 4bax-a1-m1-cD_4bax-a1-m1-cG 4bax-a1-m1-cE_4bax-a1-m1-cF HMTFKAEYIWIDGTEPTAKLRSKTKIITAAPAGLDALPVWGFDGSSTNQAEGSSSDCVLKPVFSCPDPIRGGEDILVLCEVLDTDMTPHPSNTRAALAELSERFAAQEPVFGIEQEYTFFKGTRPLGFPEGGFPAAQGGYYCGVGSDEIFGRDVVEAHLENCLKAGLGISGINAEVMPGQWEFQVGPLAPLEVSDQLWVARWLLYRTAEDFEVSATLDPKPVKGDWNGAGAHTNFSTKAMREGYDAIITAAESLGEGSKPMDHVKNYGAGIDDRLTGLHETAPWNEYSYGVSDRGASVRIPWQVEKDGKGYIEDRRPNANVDPYVVTRLLVDTCCTALEKAGQV HMTFKAEYIWIDGTEPTAKLRSKTKIITAAPAGLDALPVWGFDGSSTNQAEGSSSDCVLKPVFSCPDPIRGGEDILVLCEVLDTDMTPHPSNTRAALAELSERFAAQEPVFGIEQEYTFFKGTRPLGFPEGGFPAAQGGYYCGVGSDEIFGRDVVEAHLENCLKAGLGISGINAEVMPGQWEFQVGPLAPLEVSDQLWVARWLLYRTAEDFEVSATLDPKPVKGDWNGAGAHTNFSTKAMREGYDAIITAAESLGEGSKPMDHVKNYGAGIDDRLTGLHETAPWNEYSYGVSDRGASVRIPWQVEKDGKGYIEDRRPNANVDPYVVTRLLVDTCCTALEKAGQV 4bax-a1-m1-cI_4bax-a1-m1-cJ Crystal structure of glutamine synthetase from Streptomyces coelicolor Q9X958 Q9X958 2.55 X-RAY DIFFRACTION 68 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 344 344 4bax-a1-m1-cA_4bax-a1-m1-cB 4bax-a1-m1-cA_4bax-a1-m1-cE 4bax-a1-m1-cB_4bax-a1-m1-cC 4bax-a1-m1-cC_4bax-a1-m1-cD 4bax-a1-m1-cD_4bax-a1-m1-cE 4bax-a1-m1-cF_4bax-a1-m1-cG 4bax-a1-m1-cF_4bax-a1-m1-cJ 4bax-a1-m1-cG_4bax-a1-m1-cH 4bax-a1-m1-cH_4bax-a1-m1-cI HMTFKAEYIWIDGTEPTAKLRSKTKIITAAPAGLDALPVWGFDGSSTNQAEGSSSDCVLKPVFSCPDPIRGGEDILVLCEVLDTDMTPHPSNTRAALAELSERFAAQEPVFGIEQEYTFFKGTRPLGFPEGGFPAAQGGYYCGVGSDEIFGRDVVEAHLENCLKAGLGISGINAEVMPGQWEFQVGPLAPLEVSDQLWVARWLLYRTAEDFEVSATLDPKPVKGDWNGAGAHTNFSTKAMREGYDAIITAAESLGEGSKPMDHVKNYGAGIDDRLTGLHETAPWNEYSYGVSDRGASVRIPWQVEKDGKGYIEDRRPNANVDPYVVTRLLVDTCCTALEKAGQV HMTFKAEYIWIDGTEPTAKLRSKTKIITAAPAGLDALPVWGFDGSSTNQAEGSSSDCVLKPVFSCPDPIRGGEDILVLCEVLDTDMTPHPSNTRAALAELSERFAAQEPVFGIEQEYTFFKGTRPLGFPEGGFPAAQGGYYCGVGSDEIFGRDVVEAHLENCLKAGLGISGINAEVMPGQWEFQVGPLAPLEVSDQLWVARWLLYRTAEDFEVSATLDPKPVKGDWNGAGAHTNFSTKAMREGYDAIITAAESLGEGSKPMDHVKNYGAGIDDRLTGLHETAPWNEYSYGVSDRGASVRIPWQVEKDGKGYIEDRRPNANVDPYVVTRLLVDTCCTALEKAGQV 4bb7-a2-m1-cC_4bb7-a2-m1-cD Crystal structure of the yeast Rsc2 BAH domain Q06488 Q06488 2.4 X-RAY DIFFRACTION 16 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 234 235 4bb7-a1-m1-cB_4bb7-a1-m1-cA MDEVIVNNISYHVGDWALLRNQNDPQKPIVGQIFRLWKTPDGKQWLNACWYYRPEQTVHRVDRLFYKNEVMKTGQYRDHLVSNLVGKCYVIHFTRYQRGNPDMKLEGPLFVCEFRYNESDKIFNKIRTWKACLPEEIRDLDEATIPVNGRKFFKYPSPIRHLLPANATPHDRVPEPTMGSPDAPPLVGAVYMRPKMQRDDLGEYATSDDCPRYIIRPNDSPEEGQVDIETGTIT HMDEVIVNNISYHVGDWALLRNQNDPQKPIVGQIFRLWKTPDGKQWLNACWYYRPEQTVHRVDRLFYKNEVMKTGQYRDHLVSNLVGKCYVIHFTRYQRGNPDMKLEGPLFVCEFRYNESDKIFNKIRTWKACLPEEIRDLDEATIPVNGRKFFKYPSPIRHLLPANATPHDRVPEPTMGSPDAPPLVGAVYMRPKMQRDDLGEYATSDDCPRYIIRPNDSPEEGQVDIETGTIT 4bbb-a1-m1-cB_4bbb-a1-m1-cE THE STRUCTURE OF VACCINIA VIRUS N1 Q61Y MUTANT P21054 P21054 3.09 X-RAY DIFFRACTION 47 1.0 696871 (Vaccinia virus Western Reserve) 696871 (Vaccinia virus Western Reserve) 114 114 2i39-a1-m1-cA_2i39-a1-m1-cB 2i39-a2-m1-cC_2i39-a2-m1-cD 2i39-a3-m1-cE_2i39-a3-m1-cF 2uxe-a1-m1-cA_2uxe-a1-m1-cC 2uxe-a2-m1-cB_2uxe-a2-m1-cE 2uxe-a3-m1-cD_2uxe-a3-m1-cF 4bbb-a2-m1-cA_4bbb-a2-m1-cF 4bbb-a3-m1-cD_4bbb-a3-m1-cC 4bbc-a1-m1-cD_4bbc-a1-m1-cC 4bbc-a2-m1-cB_4bbc-a2-m1-cE 4bbc-a3-m1-cA_4bbc-a3-m1-cF 4bbd-a1-m1-cB_4bbd-a1-m1-cE 4bbd-a2-m1-cD_4bbd-a2-m1-cC 4bbd-a3-m1-cA_4bbd-a3-m1-cF MRTLLIRYILWRNDNDQTYYNDDFKKLMLLDELVDDGDVSTLIKNMRMTLSDGPLLDRLNYPVNNIEDAKRMIAISAKVARDIGERSEIRWEESFTILFRMIETYFDDLMIDLY MRTLLIRYILWRNDNDQTYYNDDFKKLMLLDELVDDGDVSTLIKNMRMTLSDGPLLDRLNYPVNNIEDAKRMIAISAKVARDIGERSEIRWEESFTILFRMIETYFDDLMIDLY 4bbo-a1-m1-cD_4bbo-a1-m1-cB Crystal structure of core-bradavidin Q89IH6 Q89IH6 1.6 X-RAY DIFFRACTION 14 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 110 113 2y32-a1-m1-cA_2y32-a1-m1-cC 2y32-a1-m1-cB_2y32-a1-m1-cD 4bbo-a1-m1-cC_4bbo-a1-m1-cA VNWTWTNQYGSTLAITSFNSNTGAITGTYTNNAANSCDEGKPQGVTGWLAYGNTGTAISFSVNFLGCGSTTVWTGQLNNATGFQGLWYLSLAEAVAWNGISAGADTFTFS QSVNWTWTNQYGSTLAITSFNSNTGAITGTYTNNAANSCDEGKPQGVTGWLAYGNTGTAISFSVNFLGCGSTTVWTGQLNNATGFQGLWYLSLAEAVAWNGISAGADTFTFSS 4bd8-a2-m1-cC_4bd8-a2-m1-cD Bax domain swapped dimer induced by BimBH3 with CHAPS Q07812 Q07812 2.22 X-RAY DIFFRACTION 210 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 133 136 4bd7-a2-m1-cC_4bd7-a2-m1-cD SEQIMKTGALLLQGFIQDRAGDASTKKLSESLKRIGDELDSNMELQRMIAPREVFFRVAADMFSDGNFNWGRVVALFYFASKLVLKALSTKVPELIRTIMGWTLDFLRERLLGWIQDQGGWDGLLSYFGTPTW TSSEQIMKTGALLLQGFIQDRAPQDASTKKLSESLKRIGDELDSNMELQRMIAPREVFFRVAADMFSDGNFNWGRVVALFYFASKLVLKALSTKVPELIRTIMGWTLDFLRERLLGWIQDQGGWDGLLSYFGTPTW 4bdt-a2-m4-cB_4bdt-a2-m6-cB Human acetylcholinesterase in complex with huprine W and fasciculin 2 P0C1Z0 P0C1Z0 3.104 X-RAY DIFFRACTION 34 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 61 61 4bdt-a2-m1-cB_4bdt-a2-m3-cB 4bdt-a2-m2-cB_4bdt-a2-m5-cB TMCYSHTTTSRAILTNCGENSCYRKSRRHPPKMVLGRGCGCPPGDDNLEVKCCTSPDKCNY TMCYSHTTTSRAILTNCGENSCYRKSRRHPPKMVLGRGCGCPPGDDNLEVKCCTSPDKCNY 4bdu-a2-m1-cD_4bdu-a2-m3-cD Bax BH3-in-Groove dimer (GFP) Q07812 Q07812 2.998 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 295 4bdu-a1-m1-cA_4bdu-a1-m2-cA 4bdu-a1-m1-cB_4bdu-a1-m2-cB 4bdu-a2-m1-cC_4bdu-a2-m3-cC SKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHNVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSNLSKDPNEKRDHMVLLEFVTAAGITASTKKLSESLKRIGDELDSNMELQRMIAAVDTDSPREVFFRVAADMFSDGNFNWGRVVALFYFASKLVL SKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHNVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSNLSKDPNEKRDHMVLLEFVTAAGITASTKKLSESLKRIGDELDSNMELQRMIAAVDTDSPREVFFRVAADMFSDGNFNWGRVVALFYFASKLVL 4bdu-a2-m3-cC_4bdu-a2-m3-cD Bax BH3-in-Groove dimer (GFP) Q07812 Q07812 2.998 X-RAY DIFFRACTION 148 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 295 4bdu-a1-m1-cA_4bdu-a1-m1-cB 4bdu-a1-m2-cA_4bdu-a1-m2-cB 4bdu-a2-m1-cC_4bdu-a2-m1-cD SKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHNVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSNLSKDPNEKRDHMVLLEFVTAAGITASTKKLSESLKRIGDELDSNMELQRMIAAVDTDSPREVFFRVAADMFSDGNFNWGRVVALFYFASKLVL SKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKQHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNYNSHNVYIMADKQKNGIKVNFKIRHNIEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSNLSKDPNEKRDHMVLLEFVTAAGITASTKKLSESLKRIGDELDSNMELQRMIAAVDTDSPREVFFRVAADMFSDGNFNWGRVVALFYFASKLVL 4bdy-a1-m2-cB_4bdy-a1-m2-cA PFV intasome with inhibitor XZ-89 P14350 P14350 2.52 X-RAY DIFFRACTION 85 1.0 11963 (Human spumaretrovirus) 11963 (Human spumaretrovirus) 184 368 3l2q-a1-m1-cB_3l2q-a1-m1-cA 3l2q-a1-m2-cB_3l2q-a1-m2-cA 3l2r-a1-m1-cB_3l2r-a1-m1-cA 3l2r-a1-m2-cB_3l2r-a1-m2-cA 3l2u-a1-m1-cB_3l2u-a1-m1-cA 3l2u-a1-m2-cB_3l2u-a1-m2-cA 3l2v-a1-m1-cB_3l2v-a1-m1-cA 3l2v-a1-m2-cB_3l2v-a1-m2-cA 3l2w-a1-m1-cB_3l2w-a1-m1-cA 3l2w-a1-m2-cB_3l2w-a1-m2-cA 3os0-a1-m1-cB_3os0-a1-m1-cA 3os0-a1-m2-cB_3os0-a1-m2-cA 3os1-a1-m1-cB_3os1-a1-m1-cA 3os1-a1-m2-cB_3os1-a1-m2-cA 3os2-a1-m1-cB_3os2-a1-m1-cA 3os2-a1-m2-cB_3os2-a1-m2-cA 3oy9-a1-m1-cB_3oy9-a1-m1-cA 3oy9-a1-m2-cB_3oy9-a1-m2-cA 3oya-a1-m1-cB_3oya-a1-m1-cA 3oya-a1-m2-cB_3oya-a1-m2-cA 3oyb-a1-m1-cB_3oyb-a1-m1-cA 3oyb-a1-m2-cB_3oyb-a1-m2-cA 3oyc-a1-m1-cB_3oyc-a1-m1-cA 3oyc-a1-m2-cB_3oyc-a1-m2-cA 3oyd-a1-m1-cB_3oyd-a1-m1-cA 3oyd-a1-m2-cB_3oyd-a1-m2-cA 3oye-a1-m1-cB_3oye-a1-m1-cA 3oye-a1-m2-cB_3oye-a1-m2-cA 3oyf-a1-m1-cB_3oyf-a1-m1-cA 3oyf-a1-m2-cB_3oyf-a1-m2-cA 3oyg-a1-m1-cB_3oyg-a1-m1-cA 3oyg-a1-m2-cB_3oyg-a1-m2-cA 3oyh-a1-m1-cB_3oyh-a1-m1-cA 3oyh-a1-m2-cB_3oyh-a1-m2-cA 3oyi-a1-m1-cB_3oyi-a1-m1-cA 3oyi-a1-m2-cB_3oyi-a1-m2-cA 3oyj-a1-m1-cB_3oyj-a1-m1-cA 3oyj-a1-m2-cB_3oyj-a1-m2-cA 3oyk-a1-m1-cB_3oyk-a1-m1-cA 3oyk-a1-m2-cB_3oyk-a1-m2-cA 3oyl-a1-m1-cB_3oyl-a1-m1-cA 3oyl-a1-m2-cB_3oyl-a1-m2-cA 3oym-a1-m1-cB_3oym-a1-m1-cA 3oym-a1-m2-cB_3oym-a1-m2-cA 3oyn-a1-m1-cB_3oyn-a1-m1-cA 3oyn-a1-m2-cB_3oyn-a1-m2-cA 3s3m-a1-m1-cB_3s3m-a1-m1-cA 3s3m-a1-m2-cB_3s3m-a1-m2-cA 3s3n-a1-m1-cB_3s3n-a1-m1-cA 3s3n-a1-m2-cB_3s3n-a1-m2-cA 3s3o-a1-m1-cB_3s3o-a1-m1-cA 3s3o-a1-m2-cB_3s3o-a1-m2-cA 4bac-a1-m1-cB_4bac-a1-m1-cA 4bac-a1-m2-cB_4bac-a1-m2-cA 4bdy-a1-m1-cB_4bdy-a1-m1-cA 4bdz-a1-m1-cB_4bdz-a1-m1-cA 4bdz-a1-m2-cB_4bdz-a1-m2-cA 4be0-a1-m1-cB_4be0-a1-m1-cA 4be0-a1-m2-cB_4be0-a1-m2-cA 4be1-a1-m1-cB_4be1-a1-m1-cA 4be1-a1-m2-cB_4be1-a1-m2-cA 4be2-a1-m1-cB_4be2-a1-m1-cA 4be2-a1-m2-cB_4be2-a1-m2-cA 4e7h-a1-m1-cB_4e7h-a1-m1-cA 4e7h-a1-m2-cB_4e7h-a1-m2-cA 4e7i-a1-m1-cB_4e7i-a1-m1-cA 4e7i-a1-m2-cB_4e7i-a1-m2-cA 4e7j-a1-m1-cB_4e7j-a1-m1-cA 4e7j-a1-m2-cB_4e7j-a1-m2-cA 4e7k-a1-m1-cB_4e7k-a1-m1-cA 4e7k-a1-m2-cB_4e7k-a1-m2-cA 4e7l-a1-m1-cB_4e7l-a1-m1-cA 4e7l-a1-m2-cB_4e7l-a1-m2-cA 4ikf-a1-m1-cB_4ikf-a1-m1-cA 4ikf-a1-m2-cB_4ikf-a1-m2-cA 4ztf-a1-m1-cB_4ztf-a1-m1-cA 4ztf-a1-m2-cB_4ztf-a1-m2-cA 4ztj-a1-m1-cB_4ztj-a1-m1-cA 4ztj-a1-m2-cB_4ztj-a1-m2-cA 5frm-a1-m1-cB_5frm-a1-m1-cA 5frm-a1-m2-cB_5frm-a1-m2-cA 5frn-a1-m1-cB_5frn-a1-m1-cA 5frn-a1-m2-cB_5frn-a1-m2-cA 5fro-a1-m1-cB_5fro-a1-m1-cA 5fro-a1-m2-cB_5fro-a1-m2-cA 5mma-a1-m1-cB_5mma-a1-m1-cA 5mma-a1-m2-cB_5mma-a1-m2-cA 5mmb-a1-m1-cB_5mmb-a1-m1-cA 5mmb-a1-m2-cB_5mmb-a1-m2-cA 5no1-a1-m1-cB_5no1-a1-m1-cA 5no1-a1-m2-cB_5no1-a1-m2-cA 5uop-a1-m1-cB_5uop-a1-m1-cA 5uop-a1-m2-cB_5uop-a1-m2-cA 5uoq-a1-m1-cB_5uoq-a1-m1-cA 5uoq-a1-m2-cB_5uoq-a1-m2-cA 6rny-a1-m1-cL_6rny-a1-m1-cK 6rny-a1-m1-cP_6rny-a1-m1-cO 7adu-a1-m1-cB_7adu-a1-m1-cA 7adu-a1-m2-cB_7adu-a1-m2-cA 7adv-a1-m1-cB_7adv-a1-m1-cA 7adv-a1-m2-cB_7adv-a1-m2-cA DRPQKPFDKFFIDYIGPLPPSQGYLYVLVVVDGMTGFTWLYPTKAPSTSATVKSLNVLTSIAIPKVIHSDQGAAFTSSTFAEWAKERGIHLEFSTPYHPQSSGKVERKNSDIKRLLTKLLVGRPTKWYDLLPVVQLALNNTYSPVLKYTPHQLLFGIDSNTPFANQDTLDLTREEELSLLQEIR LDAELDQLLQGHYIKGYPKQYTYFLEDGKVKVSRPEGVKIIPPQSDRQKIVLQAHNLAHTGREATLLKIANLYWWPNMRKDVVKQLGRCQQCLITNASNKASGPILRPDRPQKPFDKFFIDYIGPLPPSQGYLYVLVVVDGMTGFTWLYPTKAPSTSATVKSLNVLTSIAIPKVIHSDQGAAFTSSTFAEWAKERGIHLEFSTPYHPQSSGKVERKNSDIKRLLTKLLVGRPTKWYDLLPVVQLALNNTYSPVLKYTPHQLLFGIDSNTPFANQDTLDLTREEELSLLQEIRTSLYHPSTPPASSRSWSPVVGQLVQERVARPASLRPRWHKPSTVLKVLNPRTVVILDHLGNNRTVSIDNLKPTSHQ 4be2-a1-m1-cA_4be2-a1-m2-cA PFV intasome with inhibitor XZ-259 P14350 P14350 2.38 X-RAY DIFFRACTION 138 1.0 11963 (Human spumaretrovirus) 11963 (Human spumaretrovirus) 368 368 3l2q-a1-m1-cA_3l2q-a1-m2-cA 3l2r-a1-m1-cA_3l2r-a1-m2-cA 3l2u-a1-m1-cA_3l2u-a1-m2-cA 3l2v-a1-m1-cA_3l2v-a1-m2-cA 3l2w-a1-m1-cA_3l2w-a1-m2-cA 3os0-a1-m1-cA_3os0-a1-m2-cA 3os1-a1-m1-cA_3os1-a1-m2-cA 3os2-a1-m1-cA_3os2-a1-m2-cA 3oy9-a1-m1-cA_3oy9-a1-m2-cA 3oya-a1-m1-cA_3oya-a1-m2-cA 3oyb-a1-m1-cA_3oyb-a1-m2-cA 3oyc-a1-m1-cA_3oyc-a1-m2-cA 3oyd-a1-m1-cA_3oyd-a1-m2-cA 3oye-a1-m1-cA_3oye-a1-m2-cA 3oyf-a1-m1-cA_3oyf-a1-m2-cA 3oyg-a1-m1-cA_3oyg-a1-m2-cA 3oyh-a1-m1-cA_3oyh-a1-m2-cA 3oyi-a1-m1-cA_3oyi-a1-m2-cA 3oyj-a1-m1-cA_3oyj-a1-m2-cA 3oyk-a1-m1-cA_3oyk-a1-m2-cA 3oyl-a1-m1-cA_3oyl-a1-m2-cA 3oym-a1-m1-cA_3oym-a1-m2-cA 3oyn-a1-m1-cA_3oyn-a1-m2-cA 3s3m-a1-m1-cA_3s3m-a1-m2-cA 3s3n-a1-m1-cA_3s3n-a1-m2-cA 3s3o-a1-m1-cA_3s3o-a1-m2-cA 4bac-a1-m1-cA_4bac-a1-m2-cA 4bdy-a1-m1-cA_4bdy-a1-m2-cA 4bdz-a1-m1-cA_4bdz-a1-m2-cA 4be0-a1-m1-cA_4be0-a1-m2-cA 4be1-a1-m1-cA_4be1-a1-m2-cA 4e7h-a1-m1-cA_4e7h-a1-m2-cA 4e7i-a1-m1-cA_4e7i-a1-m2-cA 4e7j-a1-m1-cA_4e7j-a1-m2-cA 4e7k-a1-m1-cA_4e7k-a1-m2-cA 4e7l-a1-m1-cA_4e7l-a1-m2-cA 4ikf-a1-m1-cA_4ikf-a1-m2-cA 4ztf-a1-m1-cA_4ztf-a1-m2-cA 4ztj-a1-m1-cA_4ztj-a1-m2-cA 5frm-a1-m1-cA_5frm-a1-m2-cA 5frn-a1-m1-cA_5frn-a1-m2-cA 5fro-a1-m1-cA_5fro-a1-m2-cA 5mma-a1-m1-cA_5mma-a1-m2-cA 5mmb-a1-m1-cA_5mmb-a1-m2-cA 5no1-a1-m1-cA_5no1-a1-m2-cA 5uop-a1-m1-cA_5uop-a1-m2-cA 5uoq-a1-m1-cA_5uoq-a1-m2-cA 6rny-a1-m1-cK_6rny-a1-m1-cO 7adu-a1-m1-cA_7adu-a1-m2-cA 7adv-a1-m1-cA_7adv-a1-m2-cA LDAELDQLLQGHYIKGYPKQYTYFLEDGKVKVSRPEGVKIIPPQSDRQKIVLQAHNLAHTGREATLLKIANLYWWPNMRKDVVKQLGRCQQCLITNASNKASGPILRPDRPQKPFDKFFIDYIGPLPPSQGYLYVLVVVDGMTGFTWLYPTKAPSTSATVKSLNVLTSIAIPKVIHSDQGAAFTSSTFAEWAKERGIHLEFSTPYHPQSSGKVERKNSDIKRLLTKLLVGRPTKWYDLLPVVQLALNNTYSPVLKYTPHQLLFGIDSNTPFANQDTLDLTREEELSLLQEIRTSLYHPSTPPASSRSWSPVVGQLVQERVARPASLRPRWHKPSTVLKVLNPRTVVILDHLGNNRTVSIDNLKPTSHQ LDAELDQLLQGHYIKGYPKQYTYFLEDGKVKVSRPEGVKIIPPQSDRQKIVLQAHNLAHTGREATLLKIANLYWWPNMRKDVVKQLGRCQQCLITNASNKASGPILRPDRPQKPFDKFFIDYIGPLPPSQGYLYVLVVVDGMTGFTWLYPTKAPSTSATVKSLNVLTSIAIPKVIHSDQGAAFTSSTFAEWAKERGIHLEFSTPYHPQSSGKVERKNSDIKRLLTKLLVGRPTKWYDLLPVVQLALNNTYSPVLKYTPHQLLFGIDSNTPFANQDTLDLTREEELSLLQEIRTSLYHPSTPPASSRSWSPVVGQLVQERVARPASLRPRWHKPSTVLKVLNPRTVVILDHLGNNRTVSIDNLKPTSHQ 4be3-a1-m1-cA_4be3-a1-m1-cB crystal structure of the exolytic PL7 alginate lyase AlyA5 from Zobellia galactanivorans G0L2Y1 G0L2Y1 1.75 X-RAY DIFFRACTION 26 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 312 312 TKYPSELIPQMDEWKILLGDGTHKEDLVNYAKDDFFYVEHENETDWVVFKTPNSGITSRTSSNTRTELGQKKHWIPETGGKLNATLKVQHVSTSGDARVAASYSVVVGQIHSDEGHENEPIKIFYKKFPGHTKGSVFWNYEINTKGDNSKRWDYSTAVWGYDMSVVGPTATSYPEEPEDGIALGEEFSYEINVYEGIMYLTFSSEGHKTIKFTKNLLKSNFTKKSDIPQQIKTLYASIGRDGIERENAYAGEIQYFKLGAYNQTNGKSPEDNLVWSTGADVYDGDIAKQYANGSYAEVWFKEATLGSGSAPE TKYPSELIPQMDEWKILLGDGTHKEDLVNYAKDDFFYVEHENETDWVVFKTPNSGITSRTSSNTRTELGQKKHWIPETGGKLNATLKVQHVSTSGDARVAASYSVVVGQIHSDEGHENEPIKIFYKKFPGHTKGSVFWNYEINTKGDNSKRWDYSTAVWGYDMSVVGPTATSYPEEPEDGIALGEEFSYEINVYEGIMYLTFSSEGHKTIKFTKNLLKSNFTKKSDIPQQIKTLYASIGRDGIERENAYAGEIQYFKLGAYNQTNGKSPEDNLVWSTGADVYDGDIAKQYANGSYAEVWFKEATLGSGSAPE 4be9-a1-m1-cB_4be9-a1-m1-cA Open conformation of O. piceae sterol esterase Q2TFW1 Q2TFW1 2 X-RAY DIFFRACTION 30 1.0 61273 (Ophiostoma piceae) 61273 (Ophiostoma piceae) 537 538 4upd-a1-m1-cB_4upd-a1-m1-cA TTVNVNYPEGEVVGVSVLGIESFRGVPFAQPPVGNLRLKPPVRYTENIGTKDTTGIGPSCPQMYLSTGNGELLFQLVGNLINIPLFQTATLSSEDCLTLNIQRPAGTTSNSSLPVLFWIFGGGFELGTNQYYDGIDLLTEGISLGEPFIFVAINYRVGGFGFLGGKEIKADGSSNLGLLDQRIALEWVADNIASFGGDPSKVTIWGESAGSISVFDQMALYGGNNKYKGKALFRGGIMNSGSVVPAAPVDGVKAQAIYDHVVSEAGCAGTSDTLACLRTVDYTKFLTAVNSVPGIVSYSSIALSYLPRPDGVVLIDSPEEIVKNKQYAAVPMIIGDQEDEGTLFAVLPNNITSTAKIVQYFQDLYFYNATKEQLTAFVNTYPTDITAGSPFNTGIFNELYPGFKRLAAILGDMTFTLARRAFLQLCSEVNPDVPSWSYLASYDYGFPFLGTFHATDILQVFYGVLPNYASGSIQKYYINFVTTGDPNKGAAVDIQWPQWSAKKNILQIYATKAVIVADNFRAKSYEYLYNNIGIFRI FTTVNVNYPEGEVVGVSVLGIESFRGVPFAQPPVGNLRLKPPVRYTENIGTKDTTGIGPSCPQMYLSTGNGELLFQLVGNLINIPLFQTATLSSEDCLTLNIQRPAGTTSNSSLPVLFWIFGGGFELGTNQYYDGIDLLTEGISLGEPFIFVAINYRVGGFGFLGGKEIKADGSSNLGLLDQRIALEWVADNIASFGGDPSKVTIWGESAGSISVFDQMALYGGNNKYKGKALFRGGIMNSGSVVPAAPVDGVKAQAIYDHVVSEAGCAGTSDTLACLRTVDYTKFLTAVNSVPGIVSYSSIALSYLPRPDGVVLIDSPEEIVKNKQYAAVPMIIGDQEDEGTLFAVLPNNITSTAKIVQYFQDLYFYNATKEQLTAFVNTYPTDITAGSPFNTGIFNELYPGFKRLAAILGDMTFTLARRAFLQLCSEVNPDVPSWSYLASYDYGFPFLGTFHATDILQVFYGVLPNYASGSIQKYYINFVTTGDPNKGAAVDIQWPQWSAKKNILQIYATKAVIVADNFRAKSYEYLYNNIGIFRI 4bed-a1-m4-cC_4bed-a1-m9-cC Keyhole limpet hemocyanin (KLH): 9A cryoEM structure and molecular model of the KLH1 didecamer reveal the interfaces and intricate topology of the 160 functional units Q10583 Q10583 9.0 ELECTRON MICROSCOPY 27 1.0 55429 (Megathura crenulata) 55429 (Megathura crenulata) 1664 1664 4bed-a1-m10-cC_4bed-a1-m3-cC 4bed-a1-m1-cC_4bed-a1-m7-cC 4bed-a1-m2-cC_4bed-a1-m6-cC 4bed-a1-m5-cC_4bed-a1-m8-cC ENLVRKSVEHLTQEETLDLQAALRELQMDSSSIGFQKIAAAHGAPASCVHKDTSIACCIHGMPTFPHWHRAYVVHMERALQTKRRTSGLPYWDWTEPITQLPSLAADPVYIDSQGGKAHTNYWYRGNIDFLDKKTNRAVDDRLFEKVKPGQHTHLMESVLDALEQDEFCKFEIQFELAHNAIHYLVGGKHDYSMANLEYTAYDPIFFLHHSNVDRIFAIWQRLQELRNKDPKAMDCAQELLHQKMEPFSWEDNDIPLTNEHSTPADLFDYCELHYDYDTLNLNGMTPEELKTYLDERSSRARAFASFRLKGFGGSANVFVYVCIPDDNDRNDDHCEKAGDFFVLGGPSEMKWQFYRPYLFDLSDTVHKMGMKLDGHYTVKAELFSVNGTALPDDLLPHPVVVHHPEKGFTDPPVKHHQSANLLVRKNINDLTREEVLNLREAFHKFQEDRSVDGYQATAEYHGLPARCPRPDAKDRYACCVHGMPIFPHWHRLFVTQVEDALVGRGATIGIPYWDWTEPMTHIPGLAGNKTYVDSHGASHTNPFHSSVIAFEENAPHTKRQIDQRLFKPATFGHHTDLFNQILYAFEQEDYCDFEVQFEITHNTIHAWTGGSEHFSMSSLHYTAFDPLFYFHHSNVDRLWAVWQALQMRRHKPYRAHCAISLEHMHLKPFAFSSPLNNNEKTHANAMPNKIYDYENVLHYTYEDLTFGGISLENIEKMIHENQQEDRIYAGFLLAGIRTSANVDIFIKTTDSVQHKAGTFAVLGGSKEMKWGFDRVFKFDITHVLKDLDLTADGDFEVTVDITEVDGTKLASSLIPHASVIREHARVKFDKVPRSRLIRKNVDRLSPEEMNELRKALALLKEDKSAGGFQQLGAFHGEPKWCPSPEASKKFACCVHGMSVFPHWHRLLTVQSENALRRHGYDGALPYWDWTSPLNHLPELADHEKYVDPEDGVEKHNPWFDGHIDTVDKTTTRSVQNKLFEQPEFGHYTSIAKQVLLALEQDNFCDFEIQYEIAHNYIHALVGGAQPYGMASLRYTAFDPLFYLHHSNTDRIWAIWQALQKYRGKPYNVANCAVTSMREPLQPFGLSANINTDHVTKEHSVPFNVFDYKTNFNYEYDTLEFNGLSISQLNKKLEAIKSQDRFFAGFLLSGFKKSSLVKFNICTDSSNCHPAGEFYLLGDENEMPWAYDRVFKYDITEKLHDLKLHAEDHFYIDYEVFDLKPASLGKDLFKQPSVIHEPRIGHHEGEVYQAEVTSANRIRKNIENLSLGELESLRAAFLEIENDGTYESIAKFHGSPGLCQLNGNPISCCVHGMPTFPHWHRLYVVVVENALLKKGSSVAVPYWDWTKRIEHLPHLISDATYYNSRQHHYETNPFHHGKITHENEITTRDPKDSLFHSDYFYEQVLYALEQDNFCDFEIQLEILHNALHSLLGGKGKYSMSNLDYAAFDPVFFLHHATTDRIWAIWQDLQRFRKRPYREANCAIQLMHTPLQPFDKSDNNDEATKTHATPHDGFEYQNSFGYAYDNLELNHYSIPQLDHMLQERKRHDRVFAGFLLHNIGTSADGHVFVCLPTGEHTKDCSHEAGMFSILGGQTEMSFVFDRLYKLDITKALKKNGVHLQGDFDLEIEITAVNGSHLDSHVIHSPTILFEAGTDSAHTDDGHTEP ENLVRKSVEHLTQEETLDLQAALRELQMDSSSIGFQKIAAAHGAPASCVHKDTSIACCIHGMPTFPHWHRAYVVHMERALQTKRRTSGLPYWDWTEPITQLPSLAADPVYIDSQGGKAHTNYWYRGNIDFLDKKTNRAVDDRLFEKVKPGQHTHLMESVLDALEQDEFCKFEIQFELAHNAIHYLVGGKHDYSMANLEYTAYDPIFFLHHSNVDRIFAIWQRLQELRNKDPKAMDCAQELLHQKMEPFSWEDNDIPLTNEHSTPADLFDYCELHYDYDTLNLNGMTPEELKTYLDERSSRARAFASFRLKGFGGSANVFVYVCIPDDNDRNDDHCEKAGDFFVLGGPSEMKWQFYRPYLFDLSDTVHKMGMKLDGHYTVKAELFSVNGTALPDDLLPHPVVVHHPEKGFTDPPVKHHQSANLLVRKNINDLTREEVLNLREAFHKFQEDRSVDGYQATAEYHGLPARCPRPDAKDRYACCVHGMPIFPHWHRLFVTQVEDALVGRGATIGIPYWDWTEPMTHIPGLAGNKTYVDSHGASHTNPFHSSVIAFEENAPHTKRQIDQRLFKPATFGHHTDLFNQILYAFEQEDYCDFEVQFEITHNTIHAWTGGSEHFSMSSLHYTAFDPLFYFHHSNVDRLWAVWQALQMRRHKPYRAHCAISLEHMHLKPFAFSSPLNNNEKTHANAMPNKIYDYENVLHYTYEDLTFGGISLENIEKMIHENQQEDRIYAGFLLAGIRTSANVDIFIKTTDSVQHKAGTFAVLGGSKEMKWGFDRVFKFDITHVLKDLDLTADGDFEVTVDITEVDGTKLASSLIPHASVIREHARVKFDKVPRSRLIRKNVDRLSPEEMNELRKALALLKEDKSAGGFQQLGAFHGEPKWCPSPEASKKFACCVHGMSVFPHWHRLLTVQSENALRRHGYDGALPYWDWTSPLNHLPELADHEKYVDPEDGVEKHNPWFDGHIDTVDKTTTRSVQNKLFEQPEFGHYTSIAKQVLLALEQDNFCDFEIQYEIAHNYIHALVGGAQPYGMASLRYTAFDPLFYLHHSNTDRIWAIWQALQKYRGKPYNVANCAVTSMREPLQPFGLSANINTDHVTKEHSVPFNVFDYKTNFNYEYDTLEFNGLSISQLNKKLEAIKSQDRFFAGFLLSGFKKSSLVKFNICTDSSNCHPAGEFYLLGDENEMPWAYDRVFKYDITEKLHDLKLHAEDHFYIDYEVFDLKPASLGKDLFKQPSVIHEPRIGHHEGEVYQAEVTSANRIRKNIENLSLGELESLRAAFLEIENDGTYESIAKFHGSPGLCQLNGNPISCCVHGMPTFPHWHRLYVVVVENALLKKGSSVAVPYWDWTKRIEHLPHLISDATYYNSRQHHYETNPFHHGKITHENEITTRDPKDSLFHSDYFYEQVLYALEQDNFCDFEIQLEILHNALHSLLGGKGKYSMSNLDYAAFDPVFFLHHATTDRIWAIWQDLQRFRKRPYREANCAIQLMHTPLQPFDKSDNNDEATKTHATPHDGFEYQNSFGYAYDNLELNHYSIPQLDHMLQERKRHDRVFAGFLLHNIGTSADGHVFVCLPTGEHTKDCSHEAGMFSILGGQTEMSFVFDRLYKLDITKALKKNGVHLQGDFDLEIEITAVNGSHLDSHVIHSPTILFEAGTDSAHTDDGHTEP 4bed-a1-m8-cA_4bed-a1-m9-cC Keyhole limpet hemocyanin (KLH): 9A cryoEM structure and molecular model of the KLH1 didecamer reveal the interfaces and intricate topology of the 160 functional units Q10583 Q10583 9.0 ELECTRON MICROSCOPY 106 1.0 55429 (Megathura crenulata) 55429 (Megathura crenulata) 1664 1664 4bed-a1-m10-cA_4bed-a1-m6-cC 4bed-a1-m10-cC_4bed-a1-m9-cA 4bed-a1-m1-cA_4bed-a1-m2-cC 4bed-a1-m1-cC_4bed-a1-m5-cA 4bed-a1-m2-cA_4bed-a1-m3-cC 4bed-a1-m3-cA_4bed-a1-m4-cC 4bed-a1-m4-cA_4bed-a1-m5-cC 4bed-a1-m6-cA_4bed-a1-m7-cC 4bed-a1-m7-cA_4bed-a1-m8-cC ENLVRKSVEHLTQEETLDLQAALRELQMDSSSIGFQKIAAAHGAPASCVHKDTSIACCIHGMPTFPHWHRAYVVHMERALQTKRRTSGLPYWDWTEPITQLPSLAADPVYIDSQGGKAHTNYWYRGNIDFLDKKTNRAVDDRLFEKVKPGQHTHLMESVLDALEQDEFCKFEIQFELAHNAIHYLVGGKHDYSMANLEYTAYDPIFFLHHSNVDRIFAIWQRLQELRNKDPKAMDCAQELLHQKMEPFSWEDNDIPLTNEHSTPADLFDYCELHYDYDTLNLNGMTPEELKTYLDERSSRARAFASFRLKGFGGSANVFVYVCIPDDNDRNDDHCEKAGDFFVLGGPSEMKWQFYRPYLFDLSDTVHKMGMKLDGHYTVKAELFSVNGTALPDDLLPHPVVVHHPEKGFTDPPVKHHQSANLLVRKNINDLTREEVLNLREAFHKFQEDRSVDGYQATAEYHGLPARCPRPDAKDRYACCVHGMPIFPHWHRLFVTQVEDALVGRGATIGIPYWDWTEPMTHIPGLAGNKTYVDSHGASHTNPFHSSVIAFEENAPHTKRQIDQRLFKPATFGHHTDLFNQILYAFEQEDYCDFEVQFEITHNTIHAWTGGSEHFSMSSLHYTAFDPLFYFHHSNVDRLWAVWQALQMRRHKPYRAHCAISLEHMHLKPFAFSSPLNNNEKTHANAMPNKIYDYENVLHYTYEDLTFGGISLENIEKMIHENQQEDRIYAGFLLAGIRTSANVDIFIKTTDSVQHKAGTFAVLGGSKEMKWGFDRVFKFDITHVLKDLDLTADGDFEVTVDITEVDGTKLASSLIPHASVIREHARVKFDKVPRSRLIRKNVDRLSPEEMNELRKALALLKEDKSAGGFQQLGAFHGEPKWCPSPEASKKFACCVHGMSVFPHWHRLLTVQSENALRRHGYDGALPYWDWTSPLNHLPELADHEKYVDPEDGVEKHNPWFDGHIDTVDKTTTRSVQNKLFEQPEFGHYTSIAKQVLLALEQDNFCDFEIQYEIAHNYIHALVGGAQPYGMASLRYTAFDPLFYLHHSNTDRIWAIWQALQKYRGKPYNVANCAVTSMREPLQPFGLSANINTDHVTKEHSVPFNVFDYKTNFNYEYDTLEFNGLSISQLNKKLEAIKSQDRFFAGFLLSGFKKSSLVKFNICTDSSNCHPAGEFYLLGDENEMPWAYDRVFKYDITEKLHDLKLHAEDHFYIDYEVFDLKPASLGKDLFKQPSVIHEPRIGHHEGEVYQAEVTSANRIRKNIENLSLGELESLRAAFLEIENDGTYESIAKFHGSPGLCQLNGNPISCCVHGMPTFPHWHRLYVVVVENALLKKGSSVAVPYWDWTKRIEHLPHLISDATYYNSRQHHYETNPFHHGKITHENEITTRDPKDSLFHSDYFYEQVLYALEQDNFCDFEIQLEILHNALHSLLGGKGKYSMSNLDYAAFDPVFFLHHATTDRIWAIWQDLQRFRKRPYREANCAIQLMHTPLQPFDKSDNNDEATKTHATPHDGFEYQNSFGYAYDNLELNHYSIPQLDHMLQERKRHDRVFAGFLLHNIGTSADGHVFVCLPTGEHTKDCSHEAGMFSILGGQTEMSFVFDRLYKLDITKALKKNGVHLQGDFDLEIEITAVNGSHLDSHVIHSPTILFEAGTDSAHTDDGHTEP ENLVRKSVEHLTQEETLDLQAALRELQMDSSSIGFQKIAAAHGAPASCVHKDTSIACCIHGMPTFPHWHRAYVVHMERALQTKRRTSGLPYWDWTEPITQLPSLAADPVYIDSQGGKAHTNYWYRGNIDFLDKKTNRAVDDRLFEKVKPGQHTHLMESVLDALEQDEFCKFEIQFELAHNAIHYLVGGKHDYSMANLEYTAYDPIFFLHHSNVDRIFAIWQRLQELRNKDPKAMDCAQELLHQKMEPFSWEDNDIPLTNEHSTPADLFDYCELHYDYDTLNLNGMTPEELKTYLDERSSRARAFASFRLKGFGGSANVFVYVCIPDDNDRNDDHCEKAGDFFVLGGPSEMKWQFYRPYLFDLSDTVHKMGMKLDGHYTVKAELFSVNGTALPDDLLPHPVVVHHPEKGFTDPPVKHHQSANLLVRKNINDLTREEVLNLREAFHKFQEDRSVDGYQATAEYHGLPARCPRPDAKDRYACCVHGMPIFPHWHRLFVTQVEDALVGRGATIGIPYWDWTEPMTHIPGLAGNKTYVDSHGASHTNPFHSSVIAFEENAPHTKRQIDQRLFKPATFGHHTDLFNQILYAFEQEDYCDFEVQFEITHNTIHAWTGGSEHFSMSSLHYTAFDPLFYFHHSNVDRLWAVWQALQMRRHKPYRAHCAISLEHMHLKPFAFSSPLNNNEKTHANAMPNKIYDYENVLHYTYEDLTFGGISLENIEKMIHENQQEDRIYAGFLLAGIRTSANVDIFIKTTDSVQHKAGTFAVLGGSKEMKWGFDRVFKFDITHVLKDLDLTADGDFEVTVDITEVDGTKLASSLIPHASVIREHARVKFDKVPRSRLIRKNVDRLSPEEMNELRKALALLKEDKSAGGFQQLGAFHGEPKWCPSPEASKKFACCVHGMSVFPHWHRLLTVQSENALRRHGYDGALPYWDWTSPLNHLPELADHEKYVDPEDGVEKHNPWFDGHIDTVDKTTTRSVQNKLFEQPEFGHYTSIAKQVLLALEQDNFCDFEIQYEIAHNYIHALVGGAQPYGMASLRYTAFDPLFYLHHSNTDRIWAIWQALQKYRGKPYNVANCAVTSMREPLQPFGLSANINTDHVTKEHSVPFNVFDYKTNFNYEYDTLEFNGLSISQLNKKLEAIKSQDRFFAGFLLSGFKKSSLVKFNICTDSSNCHPAGEFYLLGDENEMPWAYDRVFKYDITEKLHDLKLHAEDHFYIDYEVFDLKPASLGKDLFKQPSVIHEPRIGHHEGEVYQAEVTSANRIRKNIENLSLGELESLRAAFLEIENDGTYESIAKFHGSPGLCQLNGNPISCCVHGMPTFPHWHRLYVVVVENALLKKGSSVAVPYWDWTKRIEHLPHLISDATYYNSRQHHYETNPFHHGKITHENEITTRDPKDSLFHSDYFYEQVLYALEQDNFCDFEIQLEILHNALHSLLGGKGKYSMSNLDYAAFDPVFFLHHATTDRIWAIWQDLQRFRKRPYREANCAIQLMHTPLQPFDKSDNNDEATKTHATPHDGFEYQNSFGYAYDNLELNHYSIPQLDHMLQERKRHDRVFAGFLLHNIGTSADGHVFVCLPTGEHTKDCSHEAGMFSILGGQTEMSFVFDRLYKLDITKALKKNGVHLQGDFDLEIEITAVNGSHLDSHVIHSPTILFEAGTDSAHTDDGHTEP 4bed-a1-m8-cB_4bed-a1-m9-cD Keyhole limpet hemocyanin (KLH): 9A cryoEM structure and molecular model of the KLH1 didecamer reveal the interfaces and intricate topology of the 160 functional units Q10583 Q10583 9.0 ELECTRON MICROSCOPY 73 1.0 55429 (Megathura crenulata) 55429 (Megathura crenulata) 1734 1734 4bed-a1-m10-cB_4bed-a1-m6-cD 4bed-a1-m10-cD_4bed-a1-m9-cB 4bed-a1-m1-cB_4bed-a1-m2-cD 4bed-a1-m1-cD_4bed-a1-m5-cB 4bed-a1-m2-cB_4bed-a1-m3-cD 4bed-a1-m3-cB_4bed-a1-m4-cD 4bed-a1-m4-cB_4bed-a1-m5-cD 4bed-a1-m6-cB_4bed-a1-m7-cD 4bed-a1-m7-cB_4bed-a1-m8-cD VMIRKDITQLDKRQQLSLVKALESMKADHSSDGFQAIASFHALPPLCPSPAASKRFACCVHGMATFPQWHRLYTVQFQDSLRKHGAVVGLPYWDWTLPRSELPELLTVSTIHDPETGRDIPNPFIGSKIEFEGENVHTKRDINRDRLFQGSTKTHHNWFIEQALLALEQTNYCDFEVQFEIMHNGVHTWVGGKEPYGIGHLHYASYDPLFYIHHSQTDRIWAIWQSLQRFRGLSGSEANCAVNLMKTPLKPFSFGAPYNLNDHTHDFSKPEDTFDYQKFGYIYDTLEFAGWSIRGIDHIVRNRQEHSRVFAGFLLEGFGTSATVDFQVCRTAGDCEDAGYFTVLGGEKEMPWAFDRLYKYDITETLDKMNLRHDEIFQIEVTITSYDGTVLDSGLIPTPSIIYDPAHHDISSHHLSLNKVRHDLSTLSERDIGSLKYALSSLQADTSADGFAAIASFHGLPAKCNDSHNNEVACCIHGMPTFPHWHRLYTLQFEQALRRHGSSVAVPYWDWTKPIHNIPHLFTDKEYYDVWRNKVMPNPFARGYVPSHDTYTVRDVQEGLFHLTSTGEHSALLNQALLALEQHDYCDFAVQFEVMHNTIHYLVGGPQVYSLSSLHYASYDPIFFIHHSFVDKVWAVWQALQEKRGLPSDRADCAVSLMTQNMRPFHYEINHNQFTKKHAVPNDVFKYELLGYRYDNLEIGGMNLHEIEKEIKDKQHHVRVFAGFLLHGIRTSADVQFQICKTSEDCHHGGQIFVLGGTKEMAWAYNRLFKYDITHALHDAHITPEDVFHPSEPFFIKVSVTAVNGTVLPASILHAPTIIYEPGLDHHEDHHSSSMAGHGVRKEINTLTTAEVDNLKDAMRAVMADHGPNGYQAIAAFHGNPPMCPMPDGKNYSCCTHGMATFPHWHRLYTKQMEDALTAHGARVGLPYWDGTTAFTALPTFVTDEEDNPFHHGHIDYLGVDTTRSPRDKLFNDPERGSESFFYRQVLLALEQTDFCQFEVQFEITHNAIHSWTGGLTPYGMSTLEYTTYDPLFWLHHANTDRIWAIWQALQEYRGLPYDHANCEIQAMKRPLRPFSDPINHNAFTHSNAKPTDVFEYSRFNFQYDNLRFHGMTIKKLEHELEKQKEEDRTFAAFLLHGIKKSADVSFDVCNHDGECHFAGTFAILGGEHEMPWSFDRLFRYDITQVLKQMHLEYDSDFTFHMRIIDTSGKQLPSDLIKMPTVEHSPGGKHHEKHHEDHHEDILVRKNIHSLSHHEAEELRDALYKLQNDESHGGYEHIAGFHGYPNLCPEKGDEKYPCCVHGMSIFPHWHRLHTIQFERALKKHGSHLGIPYWDWTQTISSLPTFFADSGNNNPFFKYHIRSINQDTVRDVNEAIFQQTKFGEFSSIFYLALQALEEDNYCDFEVQYEILHNEVHALIGGAEKYSMSTLEYSAFDPYFMIHHASLDKIWIIWQELQKRRVKPAHAGSCAGDIMHVPLHPFNYESVNNDDFTRENSLPNAVVDSHRFNYKYDNLNLHGHNIEELEEVLRSLRLKSRVFAGFVLSGIRTTAVVKVYIKSGTDSDDEYAGSFVILGGAKEMPWAYERLYRFDITETVHNLNLTDDHVKFRFDLKKYDHTELDASVLPAPIIVRRPNNAVFDIIEIPIGKDVNLPPKVVVKRGTKIMFMSVDEAVTTPMLNLGSYTAMFKCKVPPFSFHAFELGKMYSVESGDYFMTASTTELCNDNNLRIHVHVDDE VMIRKDITQLDKRQQLSLVKALESMKADHSSDGFQAIASFHALPPLCPSPAASKRFACCVHGMATFPQWHRLYTVQFQDSLRKHGAVVGLPYWDWTLPRSELPELLTVSTIHDPETGRDIPNPFIGSKIEFEGENVHTKRDINRDRLFQGSTKTHHNWFIEQALLALEQTNYCDFEVQFEIMHNGVHTWVGGKEPYGIGHLHYASYDPLFYIHHSQTDRIWAIWQSLQRFRGLSGSEANCAVNLMKTPLKPFSFGAPYNLNDHTHDFSKPEDTFDYQKFGYIYDTLEFAGWSIRGIDHIVRNRQEHSRVFAGFLLEGFGTSATVDFQVCRTAGDCEDAGYFTVLGGEKEMPWAFDRLYKYDITETLDKMNLRHDEIFQIEVTITSYDGTVLDSGLIPTPSIIYDPAHHDISSHHLSLNKVRHDLSTLSERDIGSLKYALSSLQADTSADGFAAIASFHGLPAKCNDSHNNEVACCIHGMPTFPHWHRLYTLQFEQALRRHGSSVAVPYWDWTKPIHNIPHLFTDKEYYDVWRNKVMPNPFARGYVPSHDTYTVRDVQEGLFHLTSTGEHSALLNQALLALEQHDYCDFAVQFEVMHNTIHYLVGGPQVYSLSSLHYASYDPIFFIHHSFVDKVWAVWQALQEKRGLPSDRADCAVSLMTQNMRPFHYEINHNQFTKKHAVPNDVFKYELLGYRYDNLEIGGMNLHEIEKEIKDKQHHVRVFAGFLLHGIRTSADVQFQICKTSEDCHHGGQIFVLGGTKEMAWAYNRLFKYDITHALHDAHITPEDVFHPSEPFFIKVSVTAVNGTVLPASILHAPTIIYEPGLDHHEDHHSSSMAGHGVRKEINTLTTAEVDNLKDAMRAVMADHGPNGYQAIAAFHGNPPMCPMPDGKNYSCCTHGMATFPHWHRLYTKQMEDALTAHGARVGLPYWDGTTAFTALPTFVTDEEDNPFHHGHIDYLGVDTTRSPRDKLFNDPERGSESFFYRQVLLALEQTDFCQFEVQFEITHNAIHSWTGGLTPYGMSTLEYTTYDPLFWLHHANTDRIWAIWQALQEYRGLPYDHANCEIQAMKRPLRPFSDPINHNAFTHSNAKPTDVFEYSRFNFQYDNLRFHGMTIKKLEHELEKQKEEDRTFAAFLLHGIKKSADVSFDVCNHDGECHFAGTFAILGGEHEMPWSFDRLFRYDITQVLKQMHLEYDSDFTFHMRIIDTSGKQLPSDLIKMPTVEHSPGGKHHEKHHEDHHEDILVRKNIHSLSHHEAEELRDALYKLQNDESHGGYEHIAGFHGYPNLCPEKGDEKYPCCVHGMSIFPHWHRLHTIQFERALKKHGSHLGIPYWDWTQTISSLPTFFADSGNNNPFFKYHIRSINQDTVRDVNEAIFQQTKFGEFSSIFYLALQALEEDNYCDFEVQYEILHNEVHALIGGAEKYSMSTLEYSAFDPYFMIHHASLDKIWIIWQELQKRRVKPAHAGSCAGDIMHVPLHPFNYESVNNDDFTRENSLPNAVVDSHRFNYKYDNLNLHGHNIEELEEVLRSLRLKSRVFAGFVLSGIRTTAVVKVYIKSGTDSDDEYAGSFVILGGAKEMPWAYERLYRFDITETVHNLNLTDDHVKFRFDLKKYDHTELDASVLPAPIIVRRPNNAVFDIIEIPIGKDVNLPPKVVVKRGTKIMFMSVDEAVTTPMLNLGSYTAMFKCKVPPFSFHAFELGKMYSVESGDYFMTASTTELCNDNNLRIHVHVDDE 4bed-a1-m9-cB_4bed-a1-m9-cD Keyhole limpet hemocyanin (KLH): 9A cryoEM structure and molecular model of the KLH1 didecamer reveal the interfaces and intricate topology of the 160 functional units Q10583 Q10583 9.0 ELECTRON MICROSCOPY 199 1.0 55429 (Megathura crenulata) 55429 (Megathura crenulata) 1734 1734 3l6w-a1-m1-cB_3l6w-a1-m1-cA 3qjo-a1-m1-cA_3qjo-a1-m1-cB 4bed-a1-m10-cB_4bed-a1-m10-cD 4bed-a1-m1-cB_4bed-a1-m1-cD 4bed-a1-m2-cB_4bed-a1-m2-cD 4bed-a1-m3-cB_4bed-a1-m3-cD 4bed-a1-m4-cB_4bed-a1-m4-cD 4bed-a1-m5-cB_4bed-a1-m5-cD 4bed-a1-m6-cB_4bed-a1-m6-cD 4bed-a1-m7-cB_4bed-a1-m7-cD 4bed-a1-m8-cB_4bed-a1-m8-cD VMIRKDITQLDKRQQLSLVKALESMKADHSSDGFQAIASFHALPPLCPSPAASKRFACCVHGMATFPQWHRLYTVQFQDSLRKHGAVVGLPYWDWTLPRSELPELLTVSTIHDPETGRDIPNPFIGSKIEFEGENVHTKRDINRDRLFQGSTKTHHNWFIEQALLALEQTNYCDFEVQFEIMHNGVHTWVGGKEPYGIGHLHYASYDPLFYIHHSQTDRIWAIWQSLQRFRGLSGSEANCAVNLMKTPLKPFSFGAPYNLNDHTHDFSKPEDTFDYQKFGYIYDTLEFAGWSIRGIDHIVRNRQEHSRVFAGFLLEGFGTSATVDFQVCRTAGDCEDAGYFTVLGGEKEMPWAFDRLYKYDITETLDKMNLRHDEIFQIEVTITSYDGTVLDSGLIPTPSIIYDPAHHDISSHHLSLNKVRHDLSTLSERDIGSLKYALSSLQADTSADGFAAIASFHGLPAKCNDSHNNEVACCIHGMPTFPHWHRLYTLQFEQALRRHGSSVAVPYWDWTKPIHNIPHLFTDKEYYDVWRNKVMPNPFARGYVPSHDTYTVRDVQEGLFHLTSTGEHSALLNQALLALEQHDYCDFAVQFEVMHNTIHYLVGGPQVYSLSSLHYASYDPIFFIHHSFVDKVWAVWQALQEKRGLPSDRADCAVSLMTQNMRPFHYEINHNQFTKKHAVPNDVFKYELLGYRYDNLEIGGMNLHEIEKEIKDKQHHVRVFAGFLLHGIRTSADVQFQICKTSEDCHHGGQIFVLGGTKEMAWAYNRLFKYDITHALHDAHITPEDVFHPSEPFFIKVSVTAVNGTVLPASILHAPTIIYEPGLDHHEDHHSSSMAGHGVRKEINTLTTAEVDNLKDAMRAVMADHGPNGYQAIAAFHGNPPMCPMPDGKNYSCCTHGMATFPHWHRLYTKQMEDALTAHGARVGLPYWDGTTAFTALPTFVTDEEDNPFHHGHIDYLGVDTTRSPRDKLFNDPERGSESFFYRQVLLALEQTDFCQFEVQFEITHNAIHSWTGGLTPYGMSTLEYTTYDPLFWLHHANTDRIWAIWQALQEYRGLPYDHANCEIQAMKRPLRPFSDPINHNAFTHSNAKPTDVFEYSRFNFQYDNLRFHGMTIKKLEHELEKQKEEDRTFAAFLLHGIKKSADVSFDVCNHDGECHFAGTFAILGGEHEMPWSFDRLFRYDITQVLKQMHLEYDSDFTFHMRIIDTSGKQLPSDLIKMPTVEHSPGGKHHEKHHEDHHEDILVRKNIHSLSHHEAEELRDALYKLQNDESHGGYEHIAGFHGYPNLCPEKGDEKYPCCVHGMSIFPHWHRLHTIQFERALKKHGSHLGIPYWDWTQTISSLPTFFADSGNNNPFFKYHIRSINQDTVRDVNEAIFQQTKFGEFSSIFYLALQALEEDNYCDFEVQYEILHNEVHALIGGAEKYSMSTLEYSAFDPYFMIHHASLDKIWIIWQELQKRRVKPAHAGSCAGDIMHVPLHPFNYESVNNDDFTRENSLPNAVVDSHRFNYKYDNLNLHGHNIEELEEVLRSLRLKSRVFAGFVLSGIRTTAVVKVYIKSGTDSDDEYAGSFVILGGAKEMPWAYERLYRFDITETVHNLNLTDDHVKFRFDLKKYDHTELDASVLPAPIIVRRPNNAVFDIIEIPIGKDVNLPPKVVVKRGTKIMFMSVDEAVTTPMLNLGSYTAMFKCKVPPFSFHAFELGKMYSVESGDYFMTASTTELCNDNNLRIHVHVDDE VMIRKDITQLDKRQQLSLVKALESMKADHSSDGFQAIASFHALPPLCPSPAASKRFACCVHGMATFPQWHRLYTVQFQDSLRKHGAVVGLPYWDWTLPRSELPELLTVSTIHDPETGRDIPNPFIGSKIEFEGENVHTKRDINRDRLFQGSTKTHHNWFIEQALLALEQTNYCDFEVQFEIMHNGVHTWVGGKEPYGIGHLHYASYDPLFYIHHSQTDRIWAIWQSLQRFRGLSGSEANCAVNLMKTPLKPFSFGAPYNLNDHTHDFSKPEDTFDYQKFGYIYDTLEFAGWSIRGIDHIVRNRQEHSRVFAGFLLEGFGTSATVDFQVCRTAGDCEDAGYFTVLGGEKEMPWAFDRLYKYDITETLDKMNLRHDEIFQIEVTITSYDGTVLDSGLIPTPSIIYDPAHHDISSHHLSLNKVRHDLSTLSERDIGSLKYALSSLQADTSADGFAAIASFHGLPAKCNDSHNNEVACCIHGMPTFPHWHRLYTLQFEQALRRHGSSVAVPYWDWTKPIHNIPHLFTDKEYYDVWRNKVMPNPFARGYVPSHDTYTVRDVQEGLFHLTSTGEHSALLNQALLALEQHDYCDFAVQFEVMHNTIHYLVGGPQVYSLSSLHYASYDPIFFIHHSFVDKVWAVWQALQEKRGLPSDRADCAVSLMTQNMRPFHYEINHNQFTKKHAVPNDVFKYELLGYRYDNLEIGGMNLHEIEKEIKDKQHHVRVFAGFLLHGIRTSADVQFQICKTSEDCHHGGQIFVLGGTKEMAWAYNRLFKYDITHALHDAHITPEDVFHPSEPFFIKVSVTAVNGTVLPASILHAPTIIYEPGLDHHEDHHSSSMAGHGVRKEINTLTTAEVDNLKDAMRAVMADHGPNGYQAIAAFHGNPPMCPMPDGKNYSCCTHGMATFPHWHRLYTKQMEDALTAHGARVGLPYWDGTTAFTALPTFVTDEEDNPFHHGHIDYLGVDTTRSPRDKLFNDPERGSESFFYRQVLLALEQTDFCQFEVQFEITHNAIHSWTGGLTPYGMSTLEYTTYDPLFWLHHANTDRIWAIWQALQEYRGLPYDHANCEIQAMKRPLRPFSDPINHNAFTHSNAKPTDVFEYSRFNFQYDNLRFHGMTIKKLEHELEKQKEEDRTFAAFLLHGIKKSADVSFDVCNHDGECHFAGTFAILGGEHEMPWSFDRLFRYDITQVLKQMHLEYDSDFTFHMRIIDTSGKQLPSDLIKMPTVEHSPGGKHHEKHHEDHHEDILVRKNIHSLSHHEAEELRDALYKLQNDESHGGYEHIAGFHGYPNLCPEKGDEKYPCCVHGMSIFPHWHRLHTIQFERALKKHGSHLGIPYWDWTQTISSLPTFFADSGNNNPFFKYHIRSINQDTVRDVNEAIFQQTKFGEFSSIFYLALQALEEDNYCDFEVQYEILHNEVHALIGGAEKYSMSTLEYSAFDPYFMIHHASLDKIWIIWQELQKRRVKPAHAGSCAGDIMHVPLHPFNYESVNNDDFTRENSLPNAVVDSHRFNYKYDNLNLHGHNIEELEEVLRSLRLKSRVFAGFVLSGIRTTAVVKVYIKSGTDSDDEYAGSFVILGGAKEMPWAYERLYRFDITETVHNLNLTDDHVKFRFDLKKYDHTELDASVLPAPIIVRRPNNAVFDIIEIPIGKDVNLPPKVVVKRGTKIMFMSVDEAVTTPMLNLGSYTAMFKCKVPPFSFHAFELGKMYSVESGDYFMTASTTELCNDNNLRIHVHVDDE 4beg-a1-m1-cA_4beg-a1-m2-cA Structure of Rv2140c, a phosphatidyl-ethanolamine binding protein from Mycobacterium tuberculosis in complex with sulphate P9WFN1 P9WFN1 1.42 X-RAY DIFFRACTION 14 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 178 178 GAMTTSPDPYAALPKLPSFSLTSTSITDGQPLATPQVSGIMGAGGADASPQLRWSGFPSETRSFAVTVYDPDAPTLSGFWHWAVANLPANVTELPEGVGDGRELPGGALTLVNDAGMRRYVGAAPPPGHGVHRYYVAVHAVKVEKLDLPEDASPAYLGFNLFQHAIARAVIFGTYEQR GAMTTSPDPYAALPKLPSFSLTSTSITDGQPLATPQVSGIMGAGGADASPQLRWSGFPSETRSFAVTVYDPDAPTLSGFWHWAVANLPANVTELPEGVGDGRELPGGALTLVNDAGMRRYVGAAPPPGHGVHRYYVAVHAVKVEKLDLPEDASPAYLGFNLFQHAIARAVIFGTYEQR 4beg-a1-m2-cB_4beg-a1-m1-cA Structure of Rv2140c, a phosphatidyl-ethanolamine binding protein from Mycobacterium tuberculosis in complex with sulphate P9WFN1 P9WFN1 1.42 X-RAY DIFFRACTION 30 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 175 178 4beg-a1-m1-cB_4beg-a1-m2-cA TTSPDPYAALPKLPSFSLTSTSITDGQPLATPQVSGIMGAGGADASPQLRWSGFPSETRSFAVTVYDPDAPTLSGFWHWAVANLPANVTELPEGVGDGRELPGGALTLVNDAGMRRYVGAAPPPGHGVHRYYVAVHAVKVEKLDLPEDASPAYLGFNLFQHAIARAVIFGTYEQR GAMTTSPDPYAALPKLPSFSLTSTSITDGQPLATPQVSGIMGAGGADASPQLRWSGFPSETRSFAVTVYDPDAPTLSGFWHWAVANLPANVTELPEGVGDGRELPGGALTLVNDAGMRRYVGAAPPPGHGVHRYYVAVHAVKVEKLDLPEDASPAYLGFNLFQHAIARAVIFGTYEQR 4beg-a1-m2-cB_4beg-a1-m2-cA Structure of Rv2140c, a phosphatidyl-ethanolamine binding protein from Mycobacterium tuberculosis in complex with sulphate P9WFN1 P9WFN1 1.42 X-RAY DIFFRACTION 95 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 175 178 4beg-a1-m1-cB_4beg-a1-m1-cA TTSPDPYAALPKLPSFSLTSTSITDGQPLATPQVSGIMGAGGADASPQLRWSGFPSETRSFAVTVYDPDAPTLSGFWHWAVANLPANVTELPEGVGDGRELPGGALTLVNDAGMRRYVGAAPPPGHGVHRYYVAVHAVKVEKLDLPEDASPAYLGFNLFQHAIARAVIFGTYEQR GAMTTSPDPYAALPKLPSFSLTSTSITDGQPLATPQVSGIMGAGGADASPQLRWSGFPSETRSFAVTVYDPDAPTLSGFWHWAVANLPANVTELPEGVGDGRELPGGALTLVNDAGMRRYVGAAPPPGHGVHRYYVAVHAVKVEKLDLPEDASPAYLGFNLFQHAIARAVIFGTYEQR 4bei-a1-m1-cG_4bei-a1-m1-cH V. cholera biofilm scaffolding protein RbmA in complex with 18-crown- 6 2.6 X-RAY DIFFRACTION 192 1.0 593588 (Vibrio cholerae MJ-1236) 593588 (Vibrio cholerae MJ-1236) 233 234 4be5-a1-m1-cA_4be5-a1-m1-cB 4be6-a1-m1-cA_4be6-a1-m1-cB 4bei-a2-m1-cC_4bei-a2-m1-cD 4bei-a3-m1-cA_4bei-a3-m1-cB 4bei-a4-m1-cE_4bei-a4-m1-cF 4kkp-a1-m1-cA_4kkp-a1-m1-cB 4kkq-a1-m1-cA_4kkq-a1-m1-cB 4kkr-a1-m1-cA_4kkr-a1-m1-cB 5g50-a1-m1-cB_5g50-a1-m1-cA VIEANLSLNQNQLASNGGYISSQLGIRNESCETVKFKYWLSIKGPEGIYFPAKAVVGVDTAQQESDALTDGRMLNVTRGFWVPEYMADGKYTVSLQVVAENGKVFKANQEFVKGVDLNSLPELNGLTIDIKNQFGINSVESTGGFVPFTVDLNNGREGEANVEFWMTAVGPDGLIIPVNAREKWVIASGDTYSKVRGINFDKSYPAGEYTINAQVVDIVSGERVEQSMTVVKK PVIEANLSLNQNQLASNGGYISSQLGIRNESCETVKFKYWLSIKGPEGIYFPAKAVVGVDTAQQESDALTDGRMLNVTRGFWVPEYMADGKYTVSLQVVAENGKVFKANQEFVKGVDLNSLPELNGLTIDIKNQFGINSVESTGGFVPFTVDLNNGREGEANVEFWMTAVGPDGLIIPVNAREKWVIASGDTYSKVRGINFDKSYPAGEYTINAQVVDIVSGERVEQSMTVVKK 4bem-a1-m1-cH_4bem-a1-m1-cI Crystal structure of the F-type ATP synthase c-ring from Acetobacterium woodii. H6LFT2 H6LFT2 2.1 X-RAY DIFFRACTION 197 1.0 931626 (Acetobacterium woodii DSM 1030) 931626 (Acetobacterium woodii DSM 1030) 81 81 4bem-a1-m1-cA_4bem-a1-m1-cB 4bem-a1-m1-cB_4bem-a1-m1-cC 4bem-a1-m1-cC_4bem-a1-m1-cD 4bem-a1-m1-cD_4bem-a1-m1-cE 4bem-a1-m1-cE_4bem-a1-m1-cF 4bem-a1-m1-cF_4bem-a1-m1-cG 4bem-a1-m1-cG_4bem-a1-m1-cH EGLDFIKACSAIGAGIAMIAGVGPGIGQGFAAGKGAEAVGRQPEAQSDIIRTMLLGAAVAETTGIYGLIVALILLFANPFF EGLDFIKACSAIGAGIAMIAGVGPGIGQGFAAGKGAEAVGRQPEAQSDIIRTMLLGAAVAETTGIYGLIVALILLFANPFF 4bes-a1-m1-cA_4bes-a1-m2-cA Crystal structure of the Legionella pneumophila FIC domain-containing effector AnkX protein in complex with cytidine monophosphate and phosphocholine Q5ZXN6 Q5ZXN6 2.54 X-RAY DIFFRACTION 93 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 469 469 4bep-a1-m1-cB_4bep-a1-m1-cA 4bet-a1-m2-cB_4bet-a1-m1-cA 4bet-a2-m1-cB_4bet-a2-m3-cA PNLPGLYFLQAYPSEEIWRLFVDGRFWSKENGWRGYESREPGCLNAALESLCSIALQVEKSGEEFELSVDLIKRIHKKCGPGELRTDEPVSFGIPAGRASIKGIEEFLSLVFLTEGGAEFGPGKAGPFGPRFDKNYFKNLNPEQIPDLAKQIYFDMCKYGHSNTNHFYLAVMKNVDVYLEKITQSYNKEIKTAETLDEKLKIIVKHIRMYEVLHPFRDANGRTFVNNLLNIPLMQQGLPPATFYEPNVFDLYSAEELVVVVKEAIFNTVEIIEQSKRKTPITLYGYHSSLEEQTKFRDMLDSPSYEKIKHMDFSDLNPEKLHLKTQKCLSSLNEQYPLHRGAIYLSDPGEIKLLLSNRNESQINQQIEQGAPPIYVGKTPAHLAVISGNMAMLDELIAKKADLSLQDYDGKTALHYAAECGNMQIMGKILKVVLSQEDAIKVLNIKDNHGKTAFHYAAEFGTPELISAL PNLPGLYFLQAYPSEEIWRLFVDGRFWSKENGWRGYESREPGCLNAALESLCSIALQVEKSGEEFELSVDLIKRIHKKCGPGELRTDEPVSFGIPAGRASIKGIEEFLSLVFLTEGGAEFGPGKAGPFGPRFDKNYFKNLNPEQIPDLAKQIYFDMCKYGHSNTNHFYLAVMKNVDVYLEKITQSYNKEIKTAETLDEKLKIIVKHIRMYEVLHPFRDANGRTFVNNLLNIPLMQQGLPPATFYEPNVFDLYSAEELVVVVKEAIFNTVEIIEQSKRKTPITLYGYHSSLEEQTKFRDMLDSPSYEKIKHMDFSDLNPEKLHLKTQKCLSSLNEQYPLHRGAIYLSDPGEIKLLLSNRNESQINQQIEQGAPPIYVGKTPAHLAVISGNMAMLDELIAKKADLSLQDYDGKTALHYAAECGNMQIMGKILKVVLSQEDAIKVLNIKDNHGKTAFHYAAEFGTPELISAL 4beu-a1-m1-cA_4beu-a1-m2-cA Structure of Vibrio cholerae broad spectrum racemase Q9KSE5 Q9KSE5 1.15 X-RAY DIFFRACTION 301 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 392 392 4beq-a1-m1-cA_4beq-a1-m2-cA 7agz-a1-m1-cA_7agz-a1-m1-cB APLHIDTALPDAAQIQQSNSWLEISLGQFQSNIEQFKSHMNANTKICAIMKADAYGNGIRGLMPTIIAQGIPCVGVASNAEARAVRESGFKGELIRVRSASLSEMSSALDLNIEELIGTHQQALDLAELAKQSGKTLKVHIALNDGGMGRNGIDMTTEAGKKEAVSIATQPSLSVVGIMTHFPNYNADEVRAKLAQFKESSTWLMQQANLKREEITLHVANSYTALNVPEAQLDMVRPGGVLFGDLPTNPEYPSIVSFKTRVSSLHHLPKDSTVGYDSTFTTSRDSVLANLPVGYSDGYPRKMGNKAEVLINGQRAKVVGVTSMNTTVVDVTEIKGVLPGQEVVLFGQQQKQSIAVSEMENNAELIFPELYTLWGTSNPRFYVKSSGHHHHH APLHIDTALPDAAQIQQSNSWLEISLGQFQSNIEQFKSHMNANTKICAIMKADAYGNGIRGLMPTIIAQGIPCVGVASNAEARAVRESGFKGELIRVRSASLSEMSSALDLNIEELIGTHQQALDLAELAKQSGKTLKVHIALNDGGMGRNGIDMTTEAGKKEAVSIATQPSLSVVGIMTHFPNYNADEVRAKLAQFKESSTWLMQQANLKREEITLHVANSYTALNVPEAQLDMVRPGGVLFGDLPTNPEYPSIVSFKTRVSSLHHLPKDSTVGYDSTFTTSRDSVLANLPVGYSDGYPRKMGNKAEVLINGQRAKVVGVTSMNTTVVDVTEIKGVLPGQEVVLFGQQQKQSIAVSEMENNAELIFPELYTLWGTSNPRFYVKSSGHHHHH 4bex-a1-m1-c1_4bex-a1-m2-c1 Structure of human Cofilin1 P23528 P23528 2.8 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 MASGVAVSDGVIKVFNDMKVRKSSTPEEVKKRKKAVLFCLSEDKKNIILEEGKEILVGDVGQTVDDPYATFVKMLPDKDCRYALYDATYETKESKKEDLVFIFWAPESAPLKSKMIYASSKDAIKKKLTGIKHELQANCYEEVKDRATLAEKLGGSAVISLEGKPL MASGVAVSDGVIKVFNDMKVRKSSTPEEVKKRKKAVLFCLSEDKKNIILEEGKEILVGDVGQTVDDPYATFVKMLPDKDCRYALYDATYETKESKKEDLVFIFWAPESAPLKSKMIYASSKDAIKKKLTGIKHELQANCYEEVKDRATLAEKLGGSAVISLEGKPL 4bf5-a1-m1-cA_4bf5-a1-m1-cB Structure of broad spectrum racemase from Aeromonas hydrophila A0KLG5 A0KLG5 1.45 X-RAY DIFFRACTION 309 1.0 196023 (Aeromonas hydrophila subsp. hydrophila) 196023 (Aeromonas hydrophila subsp. hydrophila) 396 396 APYLPLASDHRNGEVQTASNAWLEVDLGAFEHNIQTLKDRLGDKGPKICAIMKADAYGHGIDLLVPSVVKAGIPCIGIASNEEARVAREKGFTGRLMRVRAATPAEVEQALPYKMEELIGSLVSAQGIADIAQRHHTNIPVHIALNSAGMSRNGIDLRLADSKEDALAMLKLKGITPVGIMTHFPVEEKEDVKMGLAQFKLDSQWLLEAGKLDRSKITIHAANSFATLEVPDAYFDMVRPGGLLYGDSIPSYTEYKRVMAFKTQVASVNHYPAGNTVGYDRTFTLKRDSWLANLPLGYSDGYRRALSNKAYVLIQGQKVPVVGKTSMNTIMVDVTDLKGVKPGDEVVLFGRQGEAEVKQADLEEYNGALLADMYTIWGYTNPKKIKRSSGHHHHHH APYLPLASDHRNGEVQTASNAWLEVDLGAFEHNIQTLKDRLGDKGPKICAIMKADAYGHGIDLLVPSVVKAGIPCIGIASNEEARVAREKGFTGRLMRVRAATPAEVEQALPYKMEELIGSLVSAQGIADIAQRHHTNIPVHIALNSAGMSRNGIDLRLADSKEDALAMLKLKGITPVGIMTHFPVEEKEDVKMGLAQFKLDSQWLLEAGKLDRSKITIHAANSFATLEVPDAYFDMVRPGGLLYGDSIPSYTEYKRVMAFKTQVASVNHYPAGNTVGYDRTFTLKRDSWLANLPLGYSDGYRRALSNKAYVLIQGQKVPVVGKTSMNTIMVDVTDLKGVKPGDEVVLFGRQGEAEVKQADLEEYNGALLADMYTIWGYTNPKKIKRSSGHHHHHH 4bfc-a1-m2-cA_4bfc-a1-m3-cA Crystal structure of the C-terminal CMP-Kdo binding domain of WaaA from Acinetobacter baumannii 1.7 X-RAY DIFFRACTION 27 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 193 193 4bfc-a1-m1-cA_4bfc-a1-m2-cA 4bfc-a1-m1-cA_4bfc-a1-m3-cA HMAFIKQAAQLHQQWYLENRQVVTIASTHAPEEQQILEALAPYLNSDRKLVCIVVPRHPERFDEVFEICQNLNLITHRRSMGQSIHASTQVYLADSMGELWLWYALSQVCFVGGSLNEPGGGHNILEPMVLNVPTVVGPRYFNFQTIVDEFIDENAVLIAQDAQQVVDIWLACLAEPEATEQLVAQAHKVLQR HMAFIKQAAQLHQQWYLENRQVVTIASTHAPEEQQILEALAPYLNSDRKLVCIVVPRHPERFDEVFEICQNLNLITHRRSMGQSIHASTQVYLADSMGELWLWYALSQVCFVGGSLNEPGGGHNILEPMVLNVPTVVGPRYFNFQTIVDEFIDENAVLIAQDAQQVVDIWLACLAEPEATEQLVAQAHKVLQR 4bff-a4-m1-cA_4bff-a4-m1-cB Superoxide reductase (Neelaredoxin) from Archaeoglobus fulgidus in the reduced form O29903 O29903 2 X-RAY DIFFRACTION 112 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 123 123 4bff-a1-m1-cM_4bff-a1-m1-cN 4bff-a1-m1-cP_4bff-a1-m1-cO 4bff-a2-m1-cI_4bff-a2-m1-cJ 4bff-a2-m1-cK_4bff-a2-m1-cL 4bff-a3-m1-cE_4bff-a3-m1-cF 4bff-a3-m1-cG_4bff-a3-m1-cH 4bff-a4-m1-cD_4bff-a4-m1-cC 4bfj-a1-m1-cA_4bfj-a1-m1-cB 4bfj-a1-m2-cA_4bfj-a1-m2-cB 4bfk-a1-m1-cA_4bfk-a1-m1-cC 4bfk-a1-m1-cB_4bfk-a1-m1-cD 4bgl-a1-m1-cA_4bgl-a1-m1-cC 4bgl-a1-m1-cD_4bgl-a1-m1-cB 4c4u-a1-m1-cE_4c4u-a1-m1-cF 4c4u-a1-m1-cG_4c4u-a1-m1-cH 4c4u-a2-m1-cI_4c4u-a2-m1-cJ 4c4u-a2-m1-cK_4c4u-a2-m1-cL 4c4u-a3-m1-cM_4c4u-a3-m1-cN 4c4u-a3-m1-cO_4c4u-a3-m1-cP 4c4u-a4-m1-cA_4c4u-a4-m1-cB 4c4u-a4-m1-cC_4c4u-a4-m1-cD ELFQTADWKKEKHVPVIEVLRAEGGVVEVKVSVGKEIPHPNTTEHHIAWIELVFQPEGSKFPYVVGRAEFAAHGASVDGPNTSGVYTDPVAVFAFKAEKSGKLTAFSYCNIHGLWMGEATLSL ELFQTADWKKEKHVPVIEVLRAEGGVVEVKVSVGKEIPHPNTTEHHIAWIELVFQPEGSKFPYVVGRAEFAAHGASVDGPNTSGVYTDPVAVFAFKAEKSGKLTAFSYCNIHGLWMGEATLSL 4bff-a4-m1-cA_4bff-a4-m1-cC Superoxide reductase (Neelaredoxin) from Archaeoglobus fulgidus in the reduced form O29903 O29903 2 X-RAY DIFFRACTION 30 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 123 124 4bff-a1-m1-cM_4bff-a1-m1-cO 4bff-a1-m1-cN_4bff-a1-m1-cP 4bff-a2-m1-cI_4bff-a2-m1-cK 4bff-a2-m1-cJ_4bff-a2-m1-cL 4bff-a3-m1-cE_4bff-a3-m1-cG 4bff-a3-m1-cF_4bff-a3-m1-cH 4bff-a4-m1-cB_4bff-a4-m1-cD 4bfj-a1-m1-cA_4bfj-a1-m2-cB 4bfj-a1-m1-cB_4bfj-a1-m2-cA 4bfk-a1-m1-cA_4bfk-a1-m1-cB 4bfk-a1-m1-cC_4bfk-a1-m1-cD 4bgl-a1-m1-cA_4bgl-a1-m1-cB 4bgl-a1-m1-cD_4bgl-a1-m1-cC 4c4u-a1-m1-cE_4c4u-a1-m1-cG 4c4u-a1-m1-cF_4c4u-a1-m1-cH 4c4u-a2-m1-cI_4c4u-a2-m1-cK 4c4u-a2-m1-cJ_4c4u-a2-m1-cL 4c4u-a3-m1-cM_4c4u-a3-m1-cO 4c4u-a3-m1-cN_4c4u-a3-m1-cP 4c4u-a4-m1-cA_4c4u-a4-m1-cC 4c4u-a4-m1-cB_4c4u-a4-m1-cD ELFQTADWKKEKHVPVIEVLRAEGGVVEVKVSVGKEIPHPNTTEHHIAWIELVFQPEGSKFPYVVGRAEFAAHGASVDGPNTSGVYTDPVAVFAFKAEKSGKLTAFSYCNIHGLWMGEATLSL ELFQTADWKKEKHVPVIEVLRAEGGVVEVKVSVGKEIPHPNTTEHHIAWIELVFQPEGSKFPYVVGRAEFAAHGASVDGPNTSGVYTDPVAVFAFKAEKSGKLTAFSYCNIHGLWMGEATLSLE 4bff-a4-m1-cB_4bff-a4-m1-cC Superoxide reductase (Neelaredoxin) from Archaeoglobus fulgidus in the reduced form O29903 O29903 2 X-RAY DIFFRACTION 34 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 123 124 4bff-a1-m1-cM_4bff-a1-m1-cP 4bff-a1-m1-cN_4bff-a1-m1-cO 4bff-a2-m1-cI_4bff-a2-m1-cL 4bff-a2-m1-cJ_4bff-a2-m1-cK 4bff-a3-m1-cE_4bff-a3-m1-cH 4bff-a3-m1-cF_4bff-a3-m1-cG 4bff-a4-m1-cA_4bff-a4-m1-cD 4bfj-a1-m1-cA_4bfj-a1-m2-cA 4bfj-a1-m1-cB_4bfj-a1-m2-cB 4bfk-a1-m1-cA_4bfk-a1-m1-cD 4bfk-a1-m1-cB_4bfk-a1-m1-cC 4bgl-a1-m1-cB_4bgl-a1-m1-cC 4bgl-a1-m1-cD_4bgl-a1-m1-cA 4c4u-a1-m1-cE_4c4u-a1-m1-cH 4c4u-a1-m1-cF_4c4u-a1-m1-cG 4c4u-a2-m1-cI_4c4u-a2-m1-cL 4c4u-a2-m1-cJ_4c4u-a2-m1-cK 4c4u-a3-m1-cM_4c4u-a3-m1-cP 4c4u-a3-m1-cN_4c4u-a3-m1-cO 4c4u-a4-m1-cA_4c4u-a4-m1-cD 4c4u-a4-m1-cB_4c4u-a4-m1-cC ELFQTADWKKEKHVPVIEVLRAEGGVVEVKVSVGKEIPHPNTTEHHIAWIELVFQPEGSKFPYVVGRAEFAAHGASVDGPNTSGVYTDPVAVFAFKAEKSGKLTAFSYCNIHGLWMGEATLSL ELFQTADWKKEKHVPVIEVLRAEGGVVEVKVSVGKEIPHPNTTEHHIAWIELVFQPEGSKFPYVVGRAEFAAHGASVDGPNTSGVYTDPVAVFAFKAEKSGKLTAFSYCNIHGLWMGEATLSLE 4bg7-a1-m1-cB_4bg7-a1-m1-cA Bacteriophage T5 Homolog of the Eukaryotic Transcription Coactivator PC4 Implicated in Recombination-Dependent DNA Replication Q6QGH2 Q6QGH2 1.9 X-RAY DIFFRACTION 124 1.0 10726 (Tequintavirus T5) 10726 (Tequintavirus T5) 88 98 VDDQSIILWEKEGEQVRLTVSEFRGNLYMGIRYWLLDINDEWFPTKSGFSFPYTLETTSQLFYAFTQILSESEVLHEVQKRAEELKAK EQVNQNYEGHVDDQSIILWEKEGEQVRLTVSEFRGNLYMGIRYWLLDINDEWFPTKSGFSFPYTLETTSQLFYAFTQILSESEVLHEVQKRAEELKAK 4bg9-a1-m1-cA_4bg9-a1-m2-cA Apo form of a putative sugar kinase MK0840 from Methanopyrus kandleri (orthorhombic space group) Q8TX37 Q8TX37 1.902 X-RAY DIFFRACTION 84 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 310 310 4bg8-a1-m1-cA_4bg8-a1-m1-cB 4bga-a2-m1-cB_4bga-a2-m1-cD LTRVLGIQLGNTGTDYCVNEDGDWEIVAREEGVFGKISCVFTLEESRRALREEIAPRVIERVRRVNPDLAVVGTIVDELGLILGPIHEKTGVPTLAVYGDPWGAPDGDAVGAPYCVAEEYPNCVHVDVGAAVVTPIRDGRPDFGDAVVSVGTFPLDLAARELLGKEYDEGGKKAAEGEVDENFRRELRSVDVDGKPVFGRVRGSLAPVPPEQERVLRDHIRDAGAPAEDVLRTLVELVAETIVINAAQYDDLLVLSGGGVKNELLKRRVSELWEGDVSIFAGEELEARGLCLLGLRYLEGEPVPALPCEG LTRVLGIQLGNTGTDYCVNEDGDWEIVAREEGVFGKISCVFTLEESRRALREEIAPRVIERVRRVNPDLAVVGTIVDELGLILGPIHEKTGVPTLAVYGDPWGAPDGDAVGAPYCVAEEYPNCVHVDVGAAVVTPIRDGRPDFGDAVVSVGTFPLDLAARELLGKEYDEGGKKAAEGEVDENFRRELRSVDVDGKPVFGRVRGSLAPVPPEQERVLRDHIRDAGAPAEDVLRTLVELVAETIVINAAQYDDLLVLSGGGVKNELLKRRVSELWEGDVSIFAGEELEARGLCLLGLRYLEGEPVPALPCEG 4bga-a1-m1-cA_4bga-a1-m1-cC Nucleotide-bound open form of a putative sugar kinase MK0840 from Methanopyrus kandleri Q8TX37 Q8TX37 2.6 X-RAY DIFFRACTION 34 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 314 322 LTRVLGIQLGNTGTDYCVMNEDGDWEIVAREEGVFGKISCVFTLEESRRALREEIAPRVIERVRRVNPDLAVVGTIVDELGLILGPMIHEKTGVPTLAVYGDPWGAPDGDAVGAPYCVAEEYPNCVHVDVGAMAVVTPIRDGRPDFGDAVVSVGTFPLDLAARELLGKEYDEGGKKAAEGEVDENFRRELRSVDVDGKPVFGRVRGSLAPVPPEQERVLRDHIRDAGAPAEDVLRTLVELVAETIVINAAQYDMDLLVLSGGGVKNELLKRRVSELWEGDVSIFAGEELEARGLCLLGLRYLEGEPVPALPCEG LTRVLGIQLGNTGTDYCVMNEDGDWEIVAREEGVFGKISCVFTLEESRRALREEIAPRVIERVRRVNPDLAVVGTIVDELGLILGPMIHEKTGVPTLAVYGDPWGAPDGDAVGAPYCVAEEYPNCVHVDVGAMAVVTPIRDGRPDFGDAVVSVGTFPLDLAARELLGKEYDEGGKKAAEGEVDENFRRELRSVDVDGKPVFGRVRGSLAPVPPEQERVLRDHIRDAGAPAEDVLRTLVELVAETIVINAAQYDMDLLVLSGGGVKNELLKRRVSELWEGDVSIFAGEELEARGLCLLGLRYLEGEPVPALPCEGGTGRGGKT 4bgn-a2-m5-cB_4bgn-a2-m7-cB cryo-EM structure of the NavCt voltage-gated sodium channel F5L478 F5L478 9.0 ELECTRON CRYSTALLOGRAPHY 56 1.0 296745 (Caldalkalibacillus thermarum) 296745 (Caldalkalibacillus thermarum) 211 211 4bgn-a1-m1-cA_4bgn-a1-m2-cA 4bgn-a1-m1-cA_4bgn-a1-m4-cA 4bgn-a1-m2-cA_4bgn-a1-m3-cA 4bgn-a1-m3-cA_4bgn-a1-m4-cA 4bgn-a2-m1-cB_4bgn-a2-m6-cB 4bgn-a2-m1-cB_4bgn-a2-m7-cB 4bgn-a2-m5-cB_4bgn-a2-m6-cB RFTSAIIVLIVINAIVVGMETYPGIYQPYQDWFYLIDRMILWVFTAEIILKLVATRPRYHFFKDSWNVFDFLIVASGHLFVGAQFVTVLRVLRVLRLLRAVTVIPSLGNIMLLMGLIFYIFGVMGTFLFRDVAPEYFGSLHLSLITLFQVVTLESWASGIMRPIMAEVFWSWIYFVAFILVGTFVIFNLFVGVIVSNVERAETEDAEQEEG RFTSAIIVLIVINAIVVGMETYPGIYQPYQDWFYLIDRMILWVFTAEIILKLVATRPRYHFFKDSWNVFDFLIVASGHLFVGAQFVTVLRVLRVLRLLRAVTVIPSLGNIMLLMGLIFYIFGVMGTFLFRDVAPEYFGSLHLSLITLFQVVTLESWASGIMRPIMAEVFWSWIYFVAFILVGTFVIFNLFVGVIVSNVERAETEDAEQEEG 4bgu-a1-m1-cA_4bgu-a1-m1-cD 1.50 A resolution structure of the malate dehydrogenase from Haloferax volcanii Q9P9L2 Q9P9L2 1.487 X-RAY DIFFRACTION 50 1.0 2246 (Haloferax volcanii) 2246 (Haloferax volcanii) 303 303 4bgu-a1-m1-cB_4bgu-a1-m1-cC TKVSVIGAAGTVGAAAGYNLALRDVCDELVFVDIPKMEDKTVGQAADTNHGIAYDSNTVVTQGGYEDTAGSDVVVITAGIPRQPGQTRIDLAGDNAPIMDDIGSSLAEYNDDFVSITTSNPVDLLNRHLYETGDRDRHKVIGFGGRLDSARFRYVLSQRFDVPVKNVDATILGEHGDAQVPVFSKVRVDGNDPAFSADEKEEILGDLQESAMDVIERKGATQWGPATGVAHMVEAVLHDTGEVLPGSLVLDGEFGYEDTAFGVPVKLGSNGIEEVVEWDLDDYEADLMDDAAEKLRDQYDEIA TKVSVIGAAGTVGAAAGYNLALRDVCDELVFVDIPKMEDKTVGQAADTNHGIAYDSNTVVTQGGYEDTAGSDVVVITAGIPRQPGQTRIDLAGDNAPIMDDIGSSLAEYNDDFVSITTSNPVDLLNRHLYETGDRDRHKVIGFGGRLDSARFRYVLSQRFDVPVKNVDATILGEHGDAQVPVFSKVRVDGNDPAFSADEKEEILGDLQESAMDVIERKGATQWGPATGVAHMVEAVLHDTGEVLPGSLVLDGEFGYEDTAFGVPVKLGSNGIEEVVEWDLDDYEADLMDDAAEKLRDQYDEIA 4bgu-a1-m1-cC_4bgu-a1-m1-cD 1.50 A resolution structure of the malate dehydrogenase from Haloferax volcanii Q9P9L2 Q9P9L2 1.487 X-RAY DIFFRACTION 147 1.0 2246 (Haloferax volcanii) 2246 (Haloferax volcanii) 303 303 4bgu-a1-m1-cA_4bgu-a1-m1-cB TKVSVIGAAGTVGAAAGYNLALRDVCDELVFVDIPKMEDKTVGQAADTNHGIAYDSNTVVTQGGYEDTAGSDVVVITAGIPRQPGQTRIDLAGDNAPIMDDIGSSLAEYNDDFVSITTSNPVDLLNRHLYETGDRDRHKVIGFGGRLDSARFRYVLSQRFDVPVKNVDATILGEHGDAQVPVFSKVRVDGNDPAFSADEKEEILGDLQESAMDVIERKGATQWGPATGVAHMVEAVLHDTGEVLPGSLVLDGEFGYEDTAFGVPVKLGSNGIEEVVEWDLDDYEADLMDDAAEKLRDQYDEIA TKVSVIGAAGTVGAAAGYNLALRDVCDELVFVDIPKMEDKTVGQAADTNHGIAYDSNTVVTQGGYEDTAGSDVVVITAGIPRQPGQTRIDLAGDNAPIMDDIGSSLAEYNDDFVSITTSNPVDLLNRHLYETGDRDRHKVIGFGGRLDSARFRYVLSQRFDVPVKNVDATILGEHGDAQVPVFSKVRVDGNDPAFSADEKEEILGDLQESAMDVIERKGATQWGPATGVAHMVEAVLHDTGEVLPGSLVLDGEFGYEDTAFGVPVKLGSNGIEEVVEWDLDDYEADLMDDAAEKLRDQYDEIA 4bgv-a1-m1-cA_4bgv-a1-m1-cD 1.8 A resolution structure of the malate dehydrogenase from Picrophilus torridus in its apo form Q6L0C3 Q6L0C3 1.811 X-RAY DIFFRACTION 79 1.0 82076 () 82076 () 323 323 4bgv-a1-m1-cB_4bgv-a1-m1-cC ARSKISVIGAGAVGATVAQTLAIRQTGDIYIFDIVDGLAEGKALDILEGAPHWGYDLDIKGFCTADESKYAEMKGSDVIVVTAGLARKPGMSRDDLLLKNIGIMKSVGEAIKKYSPESKIVVVTNPADIMAYAIYKASGISPERIIGLGGSLDSTRFRTFLAQELNVSFEDVNAFVIGGHGDDMVPFIRYSNVSGIPIEDLLPREKIDEIVKRTRFGGGEIVNLYKTGSAFYAPGISIAVMVESIVNDRKRVIPCAAYITGEHSKTYLVNNLFIGVPIKIGKNGVEKIYDLKFNEDELEAWKKSVESVKKNSAIADDYFAKNQ ARSKISVIGAGAVGATVAQTLAIRQTGDIYIFDIVDGLAEGKALDILEGAPHWGYDLDIKGFCTADESKYAEMKGSDVIVVTAGLARKPGMSRDDLLLKNIGIMKSVGEAIKKYSPESKIVVVTNPADIMAYAIYKASGISPERIIGLGGSLDSTRFRTFLAQELNVSFEDVNAFVIGGHGDDMVPFIRYSNVSGIPIEDLLPREKIDEIVKRTRFGGGEIVNLYKTGSAFYAPGISIAVMVESIVNDRKRVIPCAAYITGEHSKTYLVNNLFIGVPIKIGKNGVEKIYDLKFNEDELEAWKKSVESVKKNSAIADDYFAKNQ 4bgv-a1-m1-cB_4bgv-a1-m1-cD 1.8 A resolution structure of the malate dehydrogenase from Picrophilus torridus in its apo form Q6L0C3 Q6L0C3 1.811 X-RAY DIFFRACTION 22 1.0 82076 () 82076 () 323 323 4bgv-a1-m1-cA_4bgv-a1-m1-cC ARSKISVIGAGAVGATVAQTLAIRQTGDIYIFDIVDGLAEGKALDILEGAPHWGYDLDIKGFCTADESKYAEMKGSDVIVVTAGLARKPGMSRDDLLLKNIGIMKSVGEAIKKYSPESKIVVVTNPADIMAYAIYKASGISPERIIGLGGSLDSTRFRTFLAQELNVSFEDVNAFVIGGHGDDMVPFIRYSNVSGIPIEDLLPREKIDEIVKRTRFGGGEIVNLYKTGSAFYAPGISIAVMVESIVNDRKRVIPCAAYITGEHSKTYLVNNLFIGVPIKIGKNGVEKIYDLKFNEDELEAWKKSVESVKKNSAIADDYFAKNQ ARSKISVIGAGAVGATVAQTLAIRQTGDIYIFDIVDGLAEGKALDILEGAPHWGYDLDIKGFCTADESKYAEMKGSDVIVVTAGLARKPGMSRDDLLLKNIGIMKSVGEAIKKYSPESKIVVVTNPADIMAYAIYKASGISPERIIGLGGSLDSTRFRTFLAQELNVSFEDVNAFVIGGHGDDMVPFIRYSNVSGIPIEDLLPREKIDEIVKRTRFGGGEIVNLYKTGSAFYAPGISIAVMVESIVNDRKRVIPCAAYITGEHSKTYLVNNLFIGVPIKIGKNGVEKIYDLKFNEDELEAWKKSVESVKKNSAIADDYFAKNQ 4bgv-a1-m1-cC_4bgv-a1-m1-cD 1.8 A resolution structure of the malate dehydrogenase from Picrophilus torridus in its apo form Q6L0C3 Q6L0C3 1.811 X-RAY DIFFRACTION 125 1.0 82076 () 82076 () 323 323 4bgv-a1-m1-cA_4bgv-a1-m1-cB ARSKISVIGAGAVGATVAQTLAIRQTGDIYIFDIVDGLAEGKALDILEGAPHWGYDLDIKGFCTADESKYAEMKGSDVIVVTAGLARKPGMSRDDLLLKNIGIMKSVGEAIKKYSPESKIVVVTNPADIMAYAIYKASGISPERIIGLGGSLDSTRFRTFLAQELNVSFEDVNAFVIGGHGDDMVPFIRYSNVSGIPIEDLLPREKIDEIVKRTRFGGGEIVNLYKTGSAFYAPGISIAVMVESIVNDRKRVIPCAAYITGEHSKTYLVNNLFIGVPIKIGKNGVEKIYDLKFNEDELEAWKKSVESVKKNSAIADDYFAKNQ ARSKISVIGAGAVGATVAQTLAIRQTGDIYIFDIVDGLAEGKALDILEGAPHWGYDLDIKGFCTADESKYAEMKGSDVIVVTAGLARKPGMSRDDLLLKNIGIMKSVGEAIKKYSPESKIVVVTNPADIMAYAIYKASGISPERIIGLGGSLDSTRFRTFLAQELNVSFEDVNAFVIGGHGDDMVPFIRYSNVSGIPIEDLLPREKIDEIVKRTRFGGGEIVNLYKTGSAFYAPGISIAVMVESIVNDRKRVIPCAAYITGEHSKTYLVNNLFIGVPIKIGKNGVEKIYDLKFNEDELEAWKKSVESVKKNSAIADDYFAKNQ 4bhh-a1-m1-cZ_4bhh-a1-m1-cB Crystal structure of tetramer of La Crosse virus nucleoprotein in complex with ssRNA P04873 P04873 3.4 X-RAY DIFFRACTION 56 1.0 11577 (La Crosse virus) 11577 (La Crosse virus) 223 231 4bhh-a1-m1-cD_4bhh-a1-m1-cF LVFYDGFDPDAGYMDFCVKNAESLNLAAVRIFFLNAAKAKAALSRKPERKANPKFGEWQVEVINNHFPGNRNNPIGNNDLTIHRLSGYLARWVLDQYNENDDESQHELIRTTIINPIAESNGVGWDSGPEIYLSFFPGTEMFLETFKFYPLTIGIHRVKQGMMDPQYLKKALRQRYGTLTADKWMSQKVAAIAKSLKDVEQLKWGKGGLSDTAKTFLQKFGIR DLVFYDVASTGANGFDPDAGYMDFCVKNAESLNLAAVRIFFLNAAKAKAALSRKPERKANPKFGEWQVEVINNHFPGNRNNPIGNNDLTIHRLSGYLARWVLDQYNENDDESQHELIRTTIINPIAESNGVGWDSGPEIYLSFFPGTEMFLETFKFYPLTIGIHRVKQGMMDPQYLKKALRQRYGTLTADKWMSQKVAAIAKSLKDVEQLKWGKGGLSDTAKTFLQKFGIR 4bhh-a1-m1-cZ_4bhh-a1-m1-cF Crystal structure of tetramer of La Crosse virus nucleoprotein in complex with ssRNA P04873 P04873 3.4 X-RAY DIFFRACTION 58 1.0 11577 (La Crosse virus) 11577 (La Crosse virus) 223 232 4bhh-a1-m1-cD_4bhh-a1-m1-cB LVFYDGFDPDAGYMDFCVKNAESLNLAAVRIFFLNAAKAKAALSRKPERKANPKFGEWQVEVINNHFPGNRNNPIGNNDLTIHRLSGYLARWVLDQYNENDDESQHELIRTTIINPIAESNGVGWDSGPEIYLSFFPGTEMFLETFKFYPLTIGIHRVKQGMMDPQYLKKALRQRYGTLTADKWMSQKVAAIAKSLKDVEQLKWGKGGLSDTAKTFLQKFGIR SDLVFYDVASTGANGFDPDAGYMDFCVKNAESLNLAAVRIFFLNAAKAKAALSRKPERKANPKFGEWQVEVINNHFPGNRNNPIGNNDLTIHRLSGYLARWVLDQYNENDDESQHELIRTTIINPIAESNGVGWDSGPEIYLSFFPGTEMFLETFKFYPLTIGIHRVKQGMMDPQYLKKALRQRYGTLTADKWMSQKVAAIAKSLKDVEQLKWGKGGLSDTAKTFLQKFGIR 4bhk-a1-m1-cA_4bhk-a1-m1-cB Crystal Structure of Moss Leafy bound to DNA Q94IF5 Q94IF5 2.32 X-RAY DIFFRACTION 20 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 158 158 PREHPFIVTEPGEPAKGKKNGLDYLFDLYEQCGKFLEEVQHIAKEKGEKCPSKVTNEVFRHAKLTGAGYINKPKMRDYVHCYALHCLDVETSNNLRKEYKERGENVGAWCQACYFPLVKLARQNEWDIDDLFNRNDKLRIWYVPTKLRQLCHIERMKH PREHPFIVTEPGEPAKGKKNGLDYLFDLYEQCGKFLEEVQHIAKEKGEKCPSKVTNEVFRHAKLTGAGYINKPKMRDYVHCYALHCLDVETSNNLRKEYKERGENVGAWCQACYFPLVKLARQNEWDIDDLFNRNDKLRIWYVPTKLRQLCHIERMKH 4bhu-a1-m1-cA_4bhu-a1-m1-cH Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 21 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 123 123 4bhu-a1-m1-cB_4bhu-a1-m1-cC 4bhu-a1-m1-cD_4bhu-a1-m1-cE 4bhu-a1-m1-cG_4bhu-a1-m1-cF GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR 4bhu-a1-m1-cH_4bhu-a1-m1-cC Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 20 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 123 125 4bhu-a1-m1-cG_4bhu-a1-m1-cD GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKRST 4bhu-a1-m1-cH_4bhu-a1-m1-cE Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 29 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 123 125 4bhu-a1-m1-cA_4bhu-a1-m1-cD 4bhu-a1-m1-cC_4bhu-a1-m1-cF 4bhu-a1-m1-cG_4bhu-a1-m1-cB GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKRST 4bhu-a1-m1-cH_4bhu-a1-m1-cF Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 34 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 123 125 4bhu-a1-m1-cA_4bhu-a1-m1-cG 4bhu-a1-m1-cB_4bhu-a1-m1-cD 4bhu-a1-m1-cC_4bhu-a1-m1-cE GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKRST 4bhu-a1-m1-cJ_4bhu-a1-m1-cA Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 25 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 114 123 4bhu-a1-m1-cI_4bhu-a1-m1-cB SASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR 4bhu-a1-m1-cJ_4bhu-a1-m1-cF Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 27 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 114 125 4bhu-a1-m1-cI_4bhu-a1-m1-cE SASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKRST 4bhu-a1-m1-cJ_4bhu-a1-m1-cG Crystal structure of BslA - A bacterial hydrophobin P71014 P71014 1.91 X-RAY DIFFRACTION 14 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 114 123 4bhu-a1-m1-cI_4bhu-a1-m1-cD SASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSFYAEASIDVAKR GPLGSASLFATITGASTEWSFSDIELTYRPNTLLSLGVEFTLPSGFTANTKDTNGNALRTTQILNNGKTVRVPLALDLLGAGEFLKLNNKTLPAAGTYTFRAENKSLSIGNFYAEASIDVAKR 4bhv-a1-m1-cA_4bhv-a1-m1-cD Measles virus phosphoprotein tetramerization domain P35974 P35974 2.1 X-RAY DIFFRACTION 70 1.0 11234 (Measles morbillivirus) 11234 (Measles morbillivirus) 57 58 4bhv-a1-m1-cA_4bhv-a1-m1-cC 4bhv-a1-m1-cB_4bhv-a1-m1-cC 4bhv-a1-m1-cB_4bhv-a1-m1-cD YDDELFSDVQDIKTALAKIHEDNQKIISKLESLLLLKGEVESIKKQINRQNISIHHH YDDELFSDVQDIKTALAKIHEDNQKIISKLESLLLLKGEVESIKKQINRQNISIHHHH 4bhy-a1-m1-cA_4bhy-a1-m1-cD Structure of alanine racemase from Aeromonas hydrophila A0KH11 A0KH11 3.25 X-RAY DIFFRACTION 98 0.985 196023 (Aeromonas hydrophila subsp. hydrophila) 196023 (Aeromonas hydrophila subsp. hydrophila) 324 335 ENLYFQSMKAAIAQINTAALRHNLAVVKRHAPQCKIIAVVKANAYGHGLLPVARTLVDADAYAVARIEEALMLRSCAVVKPIVLLEGFFSAADLPVLAANNLQTAVHTWEQLEALEQADLPAPVVAWLLDEMPAFIERLAKCKNVVQPFNIMTHFEQIDLFSQLTAPLLGECDWVRPGVILYGVSPFPNTVAADYDLQPVMTLKTQLIAVRDHKAGEPVGYGANWVSDRDTRLGVIAIGYGDGYPRMAPNGTPVLVNGRIVPLVGRVSMDMTTVDLGPGATDKAGDEAVLWGEGLPVERVADQIGTIPYELITKLTSRVFMEYV DYDIPTTENLYFQSMKAAIAQINTAALRHNLAVVKRHAPQCKIIAVVKANAYGHGLLPVARTLVDADAYAVARIEEALMLRSCAVVKPIVLLEGFFSAADLPVLAANNLQTAVHTWEQLEALEQADLPAPVVAWLLDEMPAFIERLAKCKNVVQPFNIMEQIDLFSQLTAPLLGERAMANSAGICDWVRPGVILYGVSPFPNTVAADYDLQPVMTLKTQLIRDHKAGEPVGYGANWVSDRDTRLGVIAIGYGDGYPRMAPNGTPVLVNGRIVPLVGRVSMDMTTVDLGPGATDKAGDEAVLWGEGLPVERVADQIGTIPYELITKLTSRVFMEYV 4bi3-a1-m1-cA_4bi3-a1-m1-cB Structure and function of amidase toxin - antitoxin combinations associated with the type VI secretion system of Serratia marcescens. S4S1W1 S4S1W1 1.85 X-RAY DIFFRACTION 39 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 163 163 MKPLYRQLKSSHYSSDYSSPGYLAAEAVYAEIGYELDTLLKQNPGYANTCAVRMSLALLKTGISFKGRLPIKKGAYKGKTIEPGAKLLADQLHRSSSFGKAKIFFNAPDAEKGIGNKKGVVFFNKITNYDGGHIDLIEPENSLLTCHSHCYFNCKEVWFWELS MKPLYRQLKSSHYSSDYSSPGYLAAEAVYAEIGYELDTLLKQNPGYANTCAVRMSLALLKTGISFKGRLPIKKGAYKGKTIEPGAKLLADQLHRSSSFGKAKIFFNAPDAEKGIGNKKGVVFFNKITNYDGGHIDLIEPENSLLTCHSHCYFNCKEVWFWELS 4bi5-a3-m1-cE_4bi5-a3-m1-cF CRYSTAL STRUCTURE OF A DOUBLE MUTANT (C202A AND C222D) OF TRIOSEPHOSPHATE ISOMERASE FROM GIARDIA LAMBLIA. P36186 P36186 2.7 X-RAY DIFFRACTION 125 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 254 254 2dp3-a1-m1-cA_2dp3-a1-m2-cA 3pf3-a1-m1-cA_3pf3-a1-m2-cA 4bi5-a10-m1-cQ_4bi5-a10-m1-cR 4bi5-a1-m1-cO_4bi5-a1-m1-cP 4bi5-a2-m1-cG_4bi5-a2-m1-cH 4bi5-a4-m1-cA_4bi5-a4-m1-cB 4bi5-a5-m1-cK_4bi5-a5-m1-cL 4bi5-a6-m1-cM_4bi5-a6-m1-cN 4bi5-a7-m1-cI_4bi5-a7-m1-cJ 4bi5-a8-m1-cC_4bi5-a8-m1-cD 4bi5-a9-m1-cS_4bi5-a9-m1-cT 4bi6-a1-m1-cA_4bi6-a1-m2-cA 4bi7-a1-m1-cA_4bi7-a1-m2-cA PARRPFIGGNFKCNGSLDFIKSHVAAIAAHKIPDSVDVVIAPSAVHLSTAIAANTSKQLRIAAQNVYLEGNGAWTGETSVEMLQDMGLKHVIVGHSERRRIMGETDEQSAKKAKRALEKGMTVIFCVGETLDERKANRTMEVNIAQLEALGKELGESKMLWKEVVIAYEPVWSIGTGVVATPEQAEEVHVGLRKWFAEKVAAEGAQHIRIIYGGSANGSNDEKLGQCPNIDGFLVGGASLKPEFMTMIDILTKT PARRPFIGGNFKCNGSLDFIKSHVAAIAAHKIPDSVDVVIAPSAVHLSTAIAANTSKQLRIAAQNVYLEGNGAWTGETSVEMLQDMGLKHVIVGHSERRRIMGETDEQSAKKAKRALEKGMTVIFCVGETLDERKANRTMEVNIAQLEALGKELGESKMLWKEVVIAYEPVWSIGTGVVATPEQAEEVHVGLRKWFAEKVAAEGAQHIRIIYGGSANGSNDEKLGQCPNIDGFLVGGASLKPEFMTMIDILTKT 4bia-a1-m1-cD_4bia-a1-m1-cC Crystal structure of SCP2 thiolase from Trypanosoma brucei: The C337A mutant. Q57XD5 Q57XD5 2.9 X-RAY DIFFRACTION 219 1.0 416 419 4bi9-a1-m1-cB_4bi9-a1-m1-cA 4bi9-a2-m1-cD_4bi9-a2-m1-cC 4bia-a2-m1-cB_4bia-a2-m1-cA KRVFVVGGHITTFVGKGSPLFIKENKTLEELLAESINGALQNTGLHDGRAALVDKLVVGNFLGELFSSQGHLGPAAVGSLSNSSAFLNKPAVRVEGACASGGLAVQSAWEALLAGTSQIALAVGVEVQTTVSARVGGDYLARAAHYKRQRQLDDFTFPCLFARRMKAIQEAGHFTMEDAAYVAAKAYASGNRNPLAHMHARKVTLDFCTQASDKNPNFLGNEIYKPFLRTTDCSQVSDGGAAVILASEEGLQKLGLSPNDNRLVEIKSLASAAGNLYEDSPDLTRMTTSMVAARTALSMAGVKPEQLQVAEVHDAFTIAELLMYEALGIAEYGGAGALIRSGATALDGRIPVNTGGGLLSFGHPVGATGVKQVLEVYRQMKGQCGEYQMKNIPGIGATLNMGGDDKTAVSMVLTNI KRVFVVGGHITTFVGKGSPLFIDKKKENKTLEELLAESINGALQNTGLHDGRAALVDKLVVGNFLGELFSSQGHLGPAAVGSLSNSSAFLNKPAVRVEGACASGGLAVQSAWEALLAGTSQIALAVGVEVQTTVSARVGGDYLARAAHYKRQRQLDDFTFPCLFARRMKAIQEAGHFTMEDAAYVAAKAYASGNRNPLAHMHARKVTLDFCTQASDKNPNFLGNEIYKPFLRTTDCSQVSDGGAAVILASEEGLQKLGLSPNDNRLVEIKSLASAAGNLYEDSPDLTRMTTSMVAARTALSMAGVKPEQLQVAEVHDAFTIAELLMYEALGIAEYGGAGALIRSGATALDGRIPVNTGGGLLSFGHPVGATGVKQVLEVYRQMKGQCGEYQMKNIPGIGATLNMGGDDKTAVSMVLTNI 4bif-a2-m1-cE_4bif-a2-m1-cH Biochemical and structural characterisation of a novel manganese- dependent hydroxynitrile lyase from bacteria E8WYN5 E8WYN5 2.46 X-RAY DIFFRACTION 12 1.0 1198114 (Granulicella tundricola MP5ACTX9) 1198114 (Granulicella tundricola MP5ACTX9) 131 131 4bif-a1-m1-cA_4bif-a1-m1-cD 4bif-a1-m1-cB_4bif-a1-m1-cC 4bif-a2-m1-cF_4bif-a2-m1-cG MEIKRVGSQASGKGPADWFTGTVRIDPLFQAPDPALVAGASVTFEPGARTAWHTHPLGQTLIVTAGCGWAQREGGAVEEIHPGDVVWFSPGEKHWHGAAPTTAMTHLAIQERLDGKAVDWMEHVTDEQYRR MEIKRVGSQASGKGPADWFTGTVRIDPLFQAPDPALVAGASVTFEPGARTAWHTHPLGQTLIVTAGCGWAQREGGAVEEIHPGDVVWFSPGEKHWHGAAPTTAMTHLAIQERLDGKAVDWMEHVTDEQYRR 4bif-a2-m1-cF_4bif-a2-m1-cH Biochemical and structural characterisation of a novel manganese- dependent hydroxynitrile lyase from bacteria E8WYN5 E8WYN5 2.46 X-RAY DIFFRACTION 58 1.0 1198114 (Granulicella tundricola MP5ACTX9) 1198114 (Granulicella tundricola MP5ACTX9) 131 131 4bif-a1-m1-cA_4bif-a1-m1-cC 4bif-a1-m1-cB_4bif-a1-m1-cD 4bif-a2-m1-cE_4bif-a2-m1-cG MEIKRVGSQASGKGPADWFTGTVRIDPLFQAPDPALVAGASVTFEPGARTAWHTHPLGQTLIVTAGCGWAQREGGAVEEIHPGDVVWFSPGEKHWHGAAPTTAMTHLAIQERLDGKAVDWMEHVTDEQYRR MEIKRVGSQASGKGPADWFTGTVRIDPLFQAPDPALVAGASVTFEPGARTAWHTHPLGQTLIVTAGCGWAQREGGAVEEIHPGDVVWFSPGEKHWHGAAPTTAMTHLAIQERLDGKAVDWMEHVTDEQYRR 4bij-a1-m1-cD_4bij-a1-m1-cE Threading model of T7 large terminase P03694 P03694 16.0 ELECTRON MICROSCOPY 49 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 474 474 4bij-a1-m1-cA_4bij-a1-m1-cB 4bij-a1-m1-cA_4bij-a1-m1-cE 4bij-a1-m1-cB_4bij-a1-m1-cC 4bij-a1-m1-cC_4bij-a1-m1-cD MSTQSNRNALVVAQLKGDFVAFLFVLWKALNLPVPTKCQIDMAKVLANGDNKKFILQAFRGIGKSFITCAFVVWSLWRDPQLKILIVSASKERADANSIFIKNIIDLLPFLSELKPRPGQRDSVISFDVGPANPDHSPSVKSVGITGQLTGSRADIIIADDVEIPSNSATMGAREKLWTLVQEFAALLKPLPSSRVIYLGTPQTEMTLYKELEDNRGYTTIIWPALYPRTREENLYYSQRLAMLRAEYDENPEALAGTPTDPVRFDRDDLRERELEYGKAGFTLQFMLNPNLSDAEKYPLRLRDAIVAALDLEKAMHYQWLPNRQNIIEDLPNVGLKGDDLHTYHDCSNNSGQYQQKILVIDPSGRGKDETGYAVLYTLNGYIYLMEAGGFRDGYSDKTLELLAKKAKQWGVQTVVYESNFGDGMFGKVFSPILLKHHNCAMEEIRARGMKEMRICDTLEPVMQTHRLVIRDEV MSTQSNRNALVVAQLKGDFVAFLFVLWKALNLPVPTKCQIDMAKVLANGDNKKFILQAFRGIGKSFITCAFVVWSLWRDPQLKILIVSASKERADANSIFIKNIIDLLPFLSELKPRPGQRDSVISFDVGPANPDHSPSVKSVGITGQLTGSRADIIIADDVEIPSNSATMGAREKLWTLVQEFAALLKPLPSSRVIYLGTPQTEMTLYKELEDNRGYTTIIWPALYPRTREENLYYSQRLAMLRAEYDENPEALAGTPTDPVRFDRDDLRERELEYGKAGFTLQFMLNPNLSDAEKYPLRLRDAIVAALDLEKAMHYQWLPNRQNIIEDLPNVGLKGDDLHTYHDCSNNSGQYQQKILVIDPSGRGKDETGYAVLYTLNGYIYLMEAGGFRDGYSDKTLELLAKKAKQWGVQTVVYESNFGDGMFGKVFSPILLKHHNCAMEEIRARGMKEMRICDTLEPVMQTHRLVIRDEV 4biq-a1-m8-cA_4biq-a1-m9-cA Homology model of coxsackievirus A7 (CAV7) empty capsid proteins. I1T312 I1T312 6.09 ELECTRON MICROSCOPY 47 1.0 42787 (Coxsackievirus A7) 42787 (Coxsackievirus A7) 204 204 4bip-a1-m10-cA_4bip-a1-m6-cA 4bip-a1-m10-cA_4bip-a1-m9-cA 4bip-a1-m11-cA_4bip-a1-m12-cA 4bip-a1-m11-cA_4bip-a1-m15-cA 4bip-a1-m12-cA_4bip-a1-m13-cA 4bip-a1-m13-cA_4bip-a1-m14-cA 4bip-a1-m14-cA_4bip-a1-m15-cA 4bip-a1-m16-cA_4bip-a1-m17-cA 4bip-a1-m16-cA_4bip-a1-m20-cA 4bip-a1-m17-cA_4bip-a1-m18-cA 4bip-a1-m18-cA_4bip-a1-m19-cA 4bip-a1-m19-cA_4bip-a1-m20-cA 4bip-a1-m1-cA_4bip-a1-m2-cA 4bip-a1-m1-cA_4bip-a1-m5-cA 4bip-a1-m21-cA_4bip-a1-m22-cA 4bip-a1-m21-cA_4bip-a1-m25-cA 4bip-a1-m22-cA_4bip-a1-m23-cA 4bip-a1-m23-cA_4bip-a1-m24-cA 4bip-a1-m24-cA_4bip-a1-m25-cA 4bip-a1-m26-cA_4bip-a1-m27-cA 4bip-a1-m26-cA_4bip-a1-m30-cA 4bip-a1-m27-cA_4bip-a1-m28-cA 4bip-a1-m28-cA_4bip-a1-m29-cA 4bip-a1-m29-cA_4bip-a1-m30-cA 4bip-a1-m2-cA_4bip-a1-m3-cA 4bip-a1-m31-cA_4bip-a1-m32-cA 4bip-a1-m31-cA_4bip-a1-m35-cA 4bip-a1-m32-cA_4bip-a1-m33-cA 4bip-a1-m33-cA_4bip-a1-m34-cA 4bip-a1-m34-cA_4bip-a1-m35-cA 4bip-a1-m36-cA_4bip-a1-m37-cA 4bip-a1-m36-cA_4bip-a1-m40-cA 4bip-a1-m37-cA_4bip-a1-m38-cA 4bip-a1-m38-cA_4bip-a1-m39-cA 4bip-a1-m39-cA_4bip-a1-m40-cA 4bip-a1-m3-cA_4bip-a1-m4-cA 4bip-a1-m41-cA_4bip-a1-m42-cA 4bip-a1-m41-cA_4bip-a1-m45-cA 4bip-a1-m42-cA_4bip-a1-m43-cA 4bip-a1-m43-cA_4bip-a1-m44-cA 4bip-a1-m44-cA_4bip-a1-m45-cA 4bip-a1-m46-cA_4bip-a1-m47-cA 4bip-a1-m46-cA_4bip-a1-m50-cA 4bip-a1-m47-cA_4bip-a1-m48-cA 4bip-a1-m48-cA_4bip-a1-m49-cA 4bip-a1-m49-cA_4bip-a1-m50-cA 4bip-a1-m4-cA_4bip-a1-m5-cA 4bip-a1-m51-cA_4bip-a1-m52-cA 4bip-a1-m51-cA_4bip-a1-m55-cA 4bip-a1-m52-cA_4bip-a1-m53-cA 4bip-a1-m53-cA_4bip-a1-m54-cA 4bip-a1-m54-cA_4bip-a1-m55-cA 4bip-a1-m56-cA_4bip-a1-m57-cA 4bip-a1-m56-cA_4bip-a1-m60-cA 4bip-a1-m57-cA_4bip-a1-m58-cA 4bip-a1-m58-cA_4bip-a1-m59-cA 4bip-a1-m59-cA_4bip-a1-m60-cA 4bip-a1-m6-cA_4bip-a1-m7-cA 4bip-a1-m7-cA_4bip-a1-m8-cA 4bip-a1-m8-cA_4bip-a1-m9-cA 4biq-a1-m10-cA_4biq-a1-m6-cA 4biq-a1-m10-cA_4biq-a1-m9-cA 4biq-a1-m11-cA_4biq-a1-m12-cA 4biq-a1-m11-cA_4biq-a1-m15-cA 4biq-a1-m12-cA_4biq-a1-m13-cA 4biq-a1-m13-cA_4biq-a1-m14-cA 4biq-a1-m14-cA_4biq-a1-m15-cA 4biq-a1-m16-cA_4biq-a1-m17-cA 4biq-a1-m16-cA_4biq-a1-m20-cA 4biq-a1-m17-cA_4biq-a1-m18-cA 4biq-a1-m18-cA_4biq-a1-m19-cA 4biq-a1-m19-cA_4biq-a1-m20-cA 4biq-a1-m1-cA_4biq-a1-m2-cA 4biq-a1-m1-cA_4biq-a1-m5-cA 4biq-a1-m21-cA_4biq-a1-m22-cA 4biq-a1-m21-cA_4biq-a1-m25-cA 4biq-a1-m22-cA_4biq-a1-m23-cA 4biq-a1-m23-cA_4biq-a1-m24-cA 4biq-a1-m24-cA_4biq-a1-m25-cA 4biq-a1-m26-cA_4biq-a1-m27-cA 4biq-a1-m26-cA_4biq-a1-m30-cA 4biq-a1-m27-cA_4biq-a1-m28-cA 4biq-a1-m28-cA_4biq-a1-m29-cA 4biq-a1-m29-cA_4biq-a1-m30-cA 4biq-a1-m2-cA_4biq-a1-m3-cA 4biq-a1-m31-cA_4biq-a1-m32-cA 4biq-a1-m31-cA_4biq-a1-m35-cA 4biq-a1-m32-cA_4biq-a1-m33-cA 4biq-a1-m33-cA_4biq-a1-m34-cA 4biq-a1-m34-cA_4biq-a1-m35-cA 4biq-a1-m36-cA_4biq-a1-m37-cA 4biq-a1-m36-cA_4biq-a1-m40-cA 4biq-a1-m37-cA_4biq-a1-m38-cA 4biq-a1-m38-cA_4biq-a1-m39-cA 4biq-a1-m39-cA_4biq-a1-m40-cA 4biq-a1-m3-cA_4biq-a1-m4-cA 4biq-a1-m41-cA_4biq-a1-m42-cA 4biq-a1-m41-cA_4biq-a1-m45-cA 4biq-a1-m42-cA_4biq-a1-m43-cA 4biq-a1-m43-cA_4biq-a1-m44-cA 4biq-a1-m44-cA_4biq-a1-m45-cA 4biq-a1-m46-cA_4biq-a1-m47-cA 4biq-a1-m46-cA_4biq-a1-m50-cA 4biq-a1-m47-cA_4biq-a1-m48-cA 4biq-a1-m48-cA_4biq-a1-m49-cA 4biq-a1-m49-cA_4biq-a1-m50-cA 4biq-a1-m4-cA_4biq-a1-m5-cA 4biq-a1-m51-cA_4biq-a1-m52-cA 4biq-a1-m51-cA_4biq-a1-m55-cA 4biq-a1-m52-cA_4biq-a1-m53-cA 4biq-a1-m53-cA_4biq-a1-m54-cA 4biq-a1-m54-cA_4biq-a1-m55-cA 4biq-a1-m56-cA_4biq-a1-m57-cA 4biq-a1-m56-cA_4biq-a1-m60-cA 4biq-a1-m57-cA_4biq-a1-m58-cA 4biq-a1-m58-cA_4biq-a1-m59-cA 4biq-a1-m59-cA_4biq-a1-m60-cA 4biq-a1-m6-cA_4biq-a1-m7-cA 4biq-a1-m7-cA_4biq-a1-m8-cA TEETSITNFYSRAGLVGVVNMPVQGTSNTKGFAKWGIDIMGFVQMRRKLELMTYMRFSAEFTFVASTPEGETTNLILQYMYAPPGAPLPTRRDSYEWQTSTNPSIISKMADPPAQVSVPFLSPASAYQWFYDGYPTFGKHPIDQDFQYGMCPNNMMGTFCVRMIGGGKPTQSVTIRIYMRLKHIRAWVPRPLRSQNYTMRNYPN TEETSITNFYSRAGLVGVVNMPVQGTSNTKGFAKWGIDIMGFVQMRRKLELMTYMRFSAEFTFVASTPEGETTNLILQYMYAPPGAPLPTRRDSYEWQTSTNPSIISKMADPPAQVSVPFLSPASAYQWFYDGYPTFGKHPIDQDFQYGMCPNNMMGTFCVRMIGGGKPTQSVTIRIYMRLKHIRAWVPRPLRSQNYTMRNYPN 4biu-a3-m1-cE_4biu-a3-m1-cF Crystal structure of CpxAHDC (orthorhombic form 1) P0AE82 P0AE82 3.65 X-RAY DIFFRACTION 155 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 237 250 4biu-a1-m1-cC_4biu-a1-m1-cD KPARKLKNAADEVFLAAGASFNQMVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLY KPARKLKNAADEVFLAAGASFNQMVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLY 4biy-a1-m1-cB_4biy-a1-m1-cA Crystal structure of CpxAHDC (monoclinic form 2) P0AE82 P0AE82 3.3 X-RAY DIFFRACTION 153 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 221 228 4bix-a1-m1-cB_4bix-a1-m1-cA 4biz-a1-m1-cF_4biz-a1-m1-cE 4biz-a3-m1-cB_4biz-a3-m1-cA SFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKR AAGASFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKR 4biy-a2-m1-cD_4biy-a2-m1-cC Crystal structure of CpxAHDC (monoclinic form 2) P0AE82 P0AE82 3.3 X-RAY DIFFRACTION 144 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 216 228 SFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKR AAGASFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKR 4biz-a2-m1-cD_4biz-a2-m1-cC Crystal structure of CpxAHDC (orthorhombic form 2) P0AE82 P0AE82 2.65 X-RAY DIFFRACTION 160 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 214 239 EFLAAGASFNQMVTALERMMTSQQRLLSDISEELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYKR EFLAAGASFNQMVTALERMMTSQQRLLSDISEELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK 4bj1-a1-m1-cA_4bj1-a1-m2-cA Crystal structure of Saccharomyces cerevisiae RIF2 Q06208 Q06208 2.94 X-RAY DIFFRACTION 94 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 261 261 HVFYQKFKSMALQELGTNYLSISYVPSLSKFLSKNLRSMKNCIVFFDKVEHIHQYAGIDRAVSETLSLVDINVVIIEMNDYLMKTSDLMMMVMRKINNDESIDHIVYFKFEQLDKIEPSKLTEFINVLSVLEKSNNIAFKVLIYSNSSLLSTSLKKKLNTKYTVFEMPILTCAQEQEYLKKMIKFTFDSGSKLLQSYNSLVTCQLNNKESNLAIFFEFLKVFPHPFTYLFNAYTEIIVQSRTFDELLDKIRNRLTIKNYPH HVFYQKFKSMALQELGTNYLSISYVPSLSKFLSKNLRSMKNCIVFFDKVEHIHQYAGIDRAVSETLSLVDINVVIIEMNDYLMKTSDLMMMVMRKINNDESIDHIVYFKFEQLDKIEPSKLTEFINVLSVLEKSNNIAFKVLIYSNSSLLSTSLKKKLNTKYTVFEMPILTCAQEQEYLKKMIKFTFDSGSKLLQSYNSLVTCQLNNKESNLAIFFEFLKVFPHPFTYLFNAYTEIIVQSRTFDELLDKIRNRLTIKNYPH 4bj3-a1-m1-cC_4bj3-a1-m1-cD Integrin alpha2 I domain E318W-collagen complex Q96A83 Q96A83 3.042 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 GPGPGFGERGPGP GPGPGFGERGPGP 4bj3-a1-m1-cC_4bj3-a1-m1-cE Integrin alpha2 I domain E318W-collagen complex Q96A83 Q96A83 3.042 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 GPGPGFGERGPGP GPGPGFGERGPGP 4bj3-a1-m1-cD_4bj3-a1-m1-cE Integrin alpha2 I domain E318W-collagen complex Q96A83 Q96A83 3.042 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 GPGPGFGERGPGP GPGPGFGERGPGP 4bj8-a1-m1-cF_4bj8-a1-m1-cG Zebavidin E7F650 E7F650 2.4 X-RAY DIFFRACTION 131 1.0 7955 (Danio rerio) 7955 (Danio rerio) 118 119 4bj8-a1-m1-cH_4bj8-a1-m1-cE 4bj8-a2-m1-cA_4bj8-a2-m1-cD 4bj8-a2-m1-cB_4bj8-a2-m1-cC 4bj8-a3-m1-cI_4bj8-a3-m1-cL 4bj8-a3-m1-cJ_4bj8-a3-m1-cK 4bj8-a4-m1-cM_4bj8-a4-m1-cP 4bj8-a4-m1-cN_4bj8-a4-m1-cO SCNVTGVWRNELGSTLRVKAEGSEVRGVYQTAVESTRGAAGHHRSARIIGMVSDGTQPTVSFSVLWEKGSCSAWVGQCFILDDGAQVLKTFWMLRSVADNLASAWGSTRMGEDIFFKT SSCNVTGVWRNELGSTLRVKAEGSEVRGVYQTAVESTRGAAGHHRSARIIGMVSDGTQPTVSFSVLWEKGSCSAWVGQCFILDDGAQVLKTFWMLRSVADNLASAWGSTRMGEDIFFKT 4bj8-a1-m1-cF_4bj8-a1-m1-cH Zebavidin E7F650 E7F650 2.4 X-RAY DIFFRACTION 10 1.0 7955 (Danio rerio) 7955 (Danio rerio) 118 118 4bj8-a2-m1-cA_4bj8-a2-m1-cC 4bj8-a2-m1-cB_4bj8-a2-m1-cD 4bj8-a3-m1-cI_4bj8-a3-m1-cK 4bj8-a4-m1-cN_4bj8-a4-m1-cP SCNVTGVWRNELGSTLRVKAEGSEVRGVYQTAVESTRGAAGHHRSARIIGMVSDGTQPTVSFSVLWEKGSCSAWVGQCFILDDGAQVLKTFWMLRSVADNLASAWGSTRMGEDIFFKT SCNVTGVWRNELGSTLRVKAEGSEVRGVYQTAVESTRGAAGHHRSARIIGMVSDGTQPTVSFSVLWEKGSCSAWVGQCFILDDGAQVLKTFWMLRSVADNLASAWGSTRMGEDIFFKT 4bj8-a3-m1-cI_4bj8-a3-m1-cJ Zebavidin E7F650 E7F650 2.4 X-RAY DIFFRACTION 26 1.0 7955 (Danio rerio) 7955 (Danio rerio) 119 119 4bj8-a1-m1-cF_4bj8-a1-m1-cE 4bj8-a1-m1-cH_4bj8-a1-m1-cG 4bj8-a2-m1-cB_4bj8-a2-m1-cA 4bj8-a2-m1-cC_4bj8-a2-m1-cD 4bj8-a3-m1-cK_4bj8-a3-m1-cL 4bj8-a4-m1-cN_4bj8-a4-m1-cM 4bj8-a4-m1-cP_4bj8-a4-m1-cO SSCNVTGVWRNELGSTLRVKAEGSEVRGVYQTAVESTRGAAGHHRSARIIGMVSDGTQPTVSFSVLWEKGSCSAWVGQCFILDDGAQVLKTFWMLRSVADNLASAWGSTRMGEDIFFKT SSCNVTGVWRNELGSTLRVKAEGSEVRGVYQTAVESTRGAAGHHRSARIIGMVSDGTQPTVSFSVLWEKGSCSAWVGQCFILDDGAQVLKTFWMLRSVADNLASAWGSTRMGEDIFFKT 4bja-a1-m1-cA_4bja-a1-m2-cA Globin-like protein Glb-12 from C.elegans Q09514 Q09514 1.65 X-RAY DIFFRACTION 55 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 182 182 WVGNESENPFDLALNKKDRTLLRETWQRLDDPKDIVGLIFLDIVNDIEPDLKKVFGVDRAPRAAMLKMPKFGGHILRFYEFMEQLTSMLGTSENLTGAWQLVRKTGRSHVRQGFLEQNQNQMEKNYFEIVINVFIERLIPFLTGEQELNYTTSQITDVWKKFLNTVISQMTDSFELERAKQK WVGNESENPFDLALNKKDRTLLRETWQRLDDPKDIVGLIFLDIVNDIEPDLKKVFGVDRAPRAAMLKMPKFGGHILRFYEFMEQLTSMLGTSENLTGAWQLVRKTGRSHVRQGFLEQNQNQMEKNYFEIVINVFIERLIPFLTGEQELNYTTSQITDVWKKFLNTVISQMTDSFELERAKQK 4bjh-a1-m2-cA_4bjh-a1-m6-cA Crystal Structure of the Aquifex Reactor Complex Formed by Dihydroorotase (H180A, H232A) with Dihydroorotate and Aspartate Transcarbamoylase with N-(phosphonacetyl)-L-aspartate (PALA) O66990 O66990 2.2 X-RAY DIFFRACTION 34 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 422 422 3d6n-a1-m1-cA_3d6n-a1-m5-cA 3d6n-a1-m2-cA_3d6n-a1-m4-cA 3d6n-a1-m3-cA_3d6n-a1-m6-cA 4bjh-a1-m1-cA_4bjh-a1-m5-cA 4bjh-a1-m3-cA_4bjh-a1-m4-cA MLKLIVKNGYVIDPSQNLEGEFDILVENGKIKKIDKNILVPEAEIIDAKGLIVCPGFIDIHVHLRDPGQTYKEDIESGSRCAVAGGFTTIVCMPNTNPPIDNTTVVNYILQKSKSVGLCRVLPTGTITKGRKGKEIADFYSLKEAGCVAFTDDGSPVMDSSVMRKALELASQLGVPIMDACEDDKLAYGVINEGEVSALLGLSSRAPEAEEIQIARDGILAQRTGGHVHIQAVSTKLSLEIIEFFKEKGVKITCEVNPNHLLFTEREVLNSGANARVNPPLRKKEDRLALIEGVKRGIIDCFATDHAPHQTFEKELVEFAMPGIIGLQTALPSALELYRKGIISLKKLIEMFTINPARIIGVDLGTLKLGSPADITIFDPNKEWILNEETNLSKSRNTPLWGKVLKGKVIYTIKDGKMVYKD MLKLIVKNGYVIDPSQNLEGEFDILVENGKIKKIDKNILVPEAEIIDAKGLIVCPGFIDIHVHLRDPGQTYKEDIESGSRCAVAGGFTTIVCMPNTNPPIDNTTVVNYILQKSKSVGLCRVLPTGTITKGRKGKEIADFYSLKEAGCVAFTDDGSPVMDSSVMRKALELASQLGVPIMDACEDDKLAYGVINEGEVSALLGLSSRAPEAEEIQIARDGILAQRTGGHVHIQAVSTKLSLEIIEFFKEKGVKITCEVNPNHLLFTEREVLNSGANARVNPPLRKKEDRLALIEGVKRGIIDCFATDHAPHQTFEKELVEFAMPGIIGLQTALPSALELYRKGIISLKKLIEMFTINPARIIGVDLGTLKLGSPADITIFDPNKEWILNEETNLSKSRNTPLWGKVLKGKVIYTIKDGKMVYKD 4bjh-a1-m3-cA_4bjh-a1-m6-cA Crystal Structure of the Aquifex Reactor Complex Formed by Dihydroorotase (H180A, H232A) with Dihydroorotate and Aspartate Transcarbamoylase with N-(phosphonacetyl)-L-aspartate (PALA) O66990 O66990 2.2 X-RAY DIFFRACTION 65 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 422 422 3d6n-a1-m1-cA_3d6n-a1-m4-cA 3d6n-a1-m2-cA_3d6n-a1-m6-cA 3d6n-a1-m3-cA_3d6n-a1-m5-cA 4bjh-a1-m1-cA_4bjh-a1-m4-cA 4bjh-a1-m2-cA_4bjh-a1-m5-cA MLKLIVKNGYVIDPSQNLEGEFDILVENGKIKKIDKNILVPEAEIIDAKGLIVCPGFIDIHVHLRDPGQTYKEDIESGSRCAVAGGFTTIVCMPNTNPPIDNTTVVNYILQKSKSVGLCRVLPTGTITKGRKGKEIADFYSLKEAGCVAFTDDGSPVMDSSVMRKALELASQLGVPIMDACEDDKLAYGVINEGEVSALLGLSSRAPEAEEIQIARDGILAQRTGGHVHIQAVSTKLSLEIIEFFKEKGVKITCEVNPNHLLFTEREVLNSGANARVNPPLRKKEDRLALIEGVKRGIIDCFATDHAPHQTFEKELVEFAMPGIIGLQTALPSALELYRKGIISLKKLIEMFTINPARIIGVDLGTLKLGSPADITIFDPNKEWILNEETNLSKSRNTPLWGKVLKGKVIYTIKDGKMVYKD MLKLIVKNGYVIDPSQNLEGEFDILVENGKIKKIDKNILVPEAEIIDAKGLIVCPGFIDIHVHLRDPGQTYKEDIESGSRCAVAGGFTTIVCMPNTNPPIDNTTVVNYILQKSKSVGLCRVLPTGTITKGRKGKEIADFYSLKEAGCVAFTDDGSPVMDSSVMRKALELASQLGVPIMDACEDDKLAYGVINEGEVSALLGLSSRAPEAEEIQIARDGILAQRTGGHVHIQAVSTKLSLEIIEFFKEKGVKITCEVNPNHLLFTEREVLNSGANARVNPPLRKKEDRLALIEGVKRGIIDCFATDHAPHQTFEKELVEFAMPGIIGLQTALPSALELYRKGIISLKKLIEMFTINPARIIGVDLGTLKLGSPADITIFDPNKEWILNEETNLSKSRNTPLWGKVLKGKVIYTIKDGKMVYKD 4bjh-a1-m5-cB_4bjh-a1-m6-cB Crystal Structure of the Aquifex Reactor Complex Formed by Dihydroorotase (H180A, H232A) with Dihydroorotate and Aspartate Transcarbamoylase with N-(phosphonacetyl)-L-aspartate (PALA) O66726 O66726 2.2 X-RAY DIFFRACTION 68 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 291 291 3d6n-a1-m1-cB_3d6n-a1-m2-cB 3d6n-a1-m1-cB_3d6n-a1-m3-cB 3d6n-a1-m2-cB_3d6n-a1-m3-cB 3d6n-a1-m4-cB_3d6n-a1-m5-cB 3d6n-a1-m4-cB_3d6n-a1-m6-cB 3d6n-a1-m5-cB_3d6n-a1-m6-cB 4bjh-a1-m1-cB_4bjh-a1-m2-cB 4bjh-a1-m1-cB_4bjh-a1-m3-cB 4bjh-a1-m2-cB_4bjh-a1-m3-cB 4bjh-a1-m4-cB_4bjh-a1-m5-cB 4bjh-a1-m4-cB_4bjh-a1-m6-cB MRSLISSLDLTREEVEEILKYAKEFKEGKEETIKASAVLFFSEPSTRTRLSFEKAARELGIETYLVSGSESSTVKGESFFDTLKTFEGLGFDYVVFRVPFVFFPYKEIVKSLNLRLVNAGDGTHQHPSQGLIDFFTIKEHFGEVKDLRVLYVGDIKHSRVFRSGAPLLNMFGAKIGVCGPKTLIPRDVEVFKVDVFDDVDKGIDWADVVIWLRLQKERQKENYIPSESSYFKQFGLTKERFEKVKLYMHPGPVNRNVDIDHELVYTEKSLIQEQVKNGIPVRKAIYKFLWT MRSLISSLDLTREEVEEILKYAKEFKEGKEETIKASAVLFFSEPSTRTRLSFEKAARELGIETYLVSGSESSTVKGESFFDTLKTFEGLGFDYVVFRVPFVFFPYKEIVKSLNLRLVNAGDGTHQHPSQGLIDFFTIKEHFGEVKDLRVLYVGDIKHSRVFRSGAPLLNMFGAKIGVCGPKTLIPRDVEVFKVDVFDDVDKGIDWADVVIWLRLQKERQKENYIPSESSYFKQFGLTKERFEKVKLYMHPGPVNRNVDIDHELVYTEKSLIQEQVKNGIPVRKAIYKFLWT 4bjn-a1-m1-cB_4bjn-a1-m1-cA Crystal structure of the flax-rust effector AvrM-A Q2MV52 Q2MV52 2.9 X-RAY DIFFRACTION 97 0.995 5261 (Melampsora lini) 5261 (Melampsora lini) 219 222 4bjn-a4-m1-cH_4bjn-a4-m1-cE 4bjn-a5-m1-cF_4bjn-a5-m3-cG FDRGFLRPFGAKMKFLKPDQVQKLSTDDLITYMAEKDKNVRDLAIKLRDAKQDPEIKQTYDKAYEKTKAAAEKLVSEESLTRDALLKLTEEQYVEKAALFDKDVYRNNLKRQTYEKLLRSETDVLYREVARIFIAREGEPALTAKIERLALTLENNADTRSKPIDYLAIAADFLKNQANLHADDPELNLYKAEIKAREIEANRAMKEALKGADKLFKRN EFDRGFLRPFGAKMKFLKPDQVQKLSTDDLITYMAEKDKNVRDLAIKLRDAKQDSTTPEIKQTYDKAYEKTKAAAEKLVSEESLTRDALLKLTEEQYVEKAALFDKDVYRNNLKRQTYEKLLRSETDVLYREVARIFIAREGEPALTAKIERLALTLENNADTRSKPIDYLAIAADFLKNQANLHADDPELNLYKAEIKAREIEANRAMKEALKGADKLFKR 4bjn-a3-m1-cD_4bjn-a3-m3-cC Crystal structure of the flax-rust effector AvrM-A Q2MV52 Q2MV52 2.9 X-RAY DIFFRACTION 92 1.0 5261 (Melampsora lini) 5261 (Melampsora lini) 203 211 4bjm-a1-m1-cB_4bjm-a1-m1-cA 4bjm-a2-m1-cD_4bjm-a2-m1-cC 4bjn-a2-m2-cD_4bjn-a2-m1-cC 4bjn-a6-m2-cF_4bjn-a6-m1-cG DRGFLRPFGAKMKFLKPDQVQKLSTDDLITYMAEKDKNVRDLAIKLRDAKQDSTQTYDKAYEKTKAAAEKLVSEESLTRDALLKLTEEQYVEKAALFDKDVYRNNLKRQTYEKLLRSETDVLYREVARIFIAREGEPALTAKIERLALTIDYLAIAADFLKNQANLHADDPELNLYKAEIKAREIEANRAMKEALKGADKLFK FDRGFLRPFGAKMKFLKPDQVQKLSTDDLITYMAEKDKNVRDLAIKLRDAKQDSTPEIKQTYDKAYEKTKAAAEKLVSEESLTRDALLKLTEEQYVEKAALFDKDVYRNNLKRQTYEKLLRSETDVLYREVARIFIAREGEPALTAKIERLALTLPIDYLAIAADFLKNQANLHADDPELNLYKAEIKAREIEANRAMKEALKGADKLFKR 4bjp-a1-m1-cA_4bjp-a1-m2-cA Crystal structure of E. coli penicillin binding protein 3 2.5 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 409 409 RGMITDRSGRPLAVSVPVKAIWLANALNQVNPDMADYIEESRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNLSGTPKEAMRNRTITDVFEPGSTVKPMVVMTALQRGVVRENSVLNTIPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESIVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVGPDGRYINKYIAYTAGVAPASQPRFALVVVINDPQAVSAPVFGAIMGGVLRTMNIEPDA RGMITDRSGRPLAVSVPVKAIWLANALNQVNPDMADYIEESRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNLSGTPKEAMRNRTITDVFEPGSTVKPMVVMTALQRGVVRENSVLNTIPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESIVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVGPDGRYINKYIAYTAGVAPASQPRFALVVVINDPQAVSAPVFGAIMGGVLRTMNIEPDA 4bjq-a4-m1-cG_4bjq-a4-m3-cF Crystal structure of E. coli penicillin binding protein 3, domain V88- S165 2.1 X-RAY DIFFRACTION 178 1.0 562 (Escherichia coli) 562 (Escherichia coli) 77 78 4bjq-a1-m1-cA_4bjq-a1-m1-cC 4bjq-a2-m1-cE_4bjq-a2-m1-cB 4bjq-a3-m2-cG_4bjq-a3-m1-cF 4bjq-a5-m1-cH_4bjq-a5-m1-cD VKAIWADPKEVHDAGGISVGDRWKALANALNIPLDQLSARINANPKGRFIYLARQVNPDMADYIKKLKLPGIHLREE VKAIWADPKEVHDAGGISVGDRWKALANALNIPLDQLSARINANPKGRFIYLARQVNPDMADYIKKLKLPGIHLREES 4bjr-a1-m1-cB_4bjr-a1-m1-cA Crystal structure of the complex between Prokaryotic Ubiquitin-like Protein Pup and its Ligase PafA Q8NQE0 Q8NQE0 2.8 X-RAY DIFFRACTION 206 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 494 500 TVESALTRRIMGIETEYGLTFVDGDSKKLRPDEIARRMFRPIVEKYSSSNIFIPNGSRLYLNVGSHPEYATAECDNLTQLINFEKAGDVIADRMAVDAEESLAKEDIAGQVYLFKNNVDSVGNSYGCHENYLVGRSMPLKALGKRLMPFLITRQLICGAGRIHHPNPSFPLGYCISQRSDHVWEGVSSASRPIINTRDEPHADSHSYRRLHVIVGDANMAEPSIALKVGSTLLVLEMIEADFGLPSLELANDIASIREISRDATGSTLLSLKDGTTMTALQIQQVVFEHASKWLEQRPEPEFSGTSNTEMARVLDLWGRMLKAIESGDFSEVDTEIDWVIKKKLIDRFIQRGNLGLDDPKLAQVDLTYHDIRPGRGLFSVLQSRGMIKRWTTDEAILAAVDTAPDTTRAHLRGRILKAADTLGVPVTVDWMRHKVNRPEPQSVELGDPFSAVNSEVDQLIEYMTVHASLLDEIDGLLENNAEEFVRSYVQKGGE TVESALTRRIMGIETEYGLTFVDGDSKKLRPDEIARRMFRPIVEKYSSSNIFIPNGSRLYLNVGSHPEYATAECDNLTQLINFEKAGDVIADRMAVDAEESLAKEDIAGQVYLFKNNVDSVGNSYGCHENYLVGRSMPLKALGKRLMPFLITRQLICGAGRIHHPNPSFPLGYCISQRSDHVWEGVSSASRPIINTRDEPHADSHSYRRLHVIVGDANMAEPSIALKVGSTLLVLEMIEADFGLPSLELANDIASIREISRDATGSTLLSLKDGTTMTALQIQQVVFEHASKWLEQRPEPEFSGTSNTEMARVLDLWGRMLKAIESGDFSEVDTEIDWVIKKKLIDRFIQRGNLGLDDPKLAQVDLTYHDIRPGRGLFSVLQSRGMIKRWTTDEAILAAVDTAPDTTRAHLRGRILKAADTLGVPVTVDWMRHKVNRPEPQSVELGDPFSAVNSEVDQLIEYMTVHAGSASGTSLLDEIDGLLENNAEEFVRSYVQKGGE 4bjs-a1-m1-cD_4bjs-a1-m1-cA Crystal structure of the Rif1 C-terminal domain (Rif1-CTD) from Saccharomyces cerevisiae P29539 P29539 1.94 X-RAY DIFFRACTION 24 0.98 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 49 53 4bjs-a1-m1-cC_4bjs-a1-m1-cB LHFFSKKSRRLVARLRGFTPGDLNGISVEERRNLRIELLDFMMRLEYYS PSLKVHFFSKKSRRLVARLRGFTPGDLNGISVEERRNLRIELLDFMMRLEYYS 4bjs-a1-m1-cD_4bjs-a1-m1-cB Crystal structure of the Rif1 C-terminal domain (Rif1-CTD) from Saccharomyces cerevisiae P29539 P29539 1.94 X-RAY DIFFRACTION 109 0.98 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 49 55 LHFFSKKSRRLVARLRGFTPGDLNGISVEERRNLRIELLDFMMRLEYYS PSLKVHFFSKKSRRLVARLRGFTPGDLNGISVEERRNLRIELLDFMMRLEYYSNR 4bjz-a1-m1-cA_4bjz-a1-m2-cA Crystal structure of 3-hydroxybenzoate 6-hydroxylase uncovers lipid- assisted flavoprotein strategy for regioselective aromatic hydroxylation: Native data Q0SFK6 Q0SFK6 1.51 X-RAY DIFFRACTION 42 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 395 395 4bjy-a1-m1-cA_4bjy-a1-m2-cA 4bk1-a1-m1-cA_4bk1-a1-m2-cA 4bk2-a1-m1-cA_4bk2-a1-m2-cA 4bk3-a1-m1-cA_4bk3-a1-m2-cA 5hym-a1-m1-cA_5hym-a1-m2-cA NLQDARIIIAGGGIGGAANALALAQKGANVTLFERASEFGEVGAGLQVGPHGARILDSWGVLDDVLSRAFLPKNIVFRDAITAEVLTKIDLGSEFRGRYGGPYFVTHRSDLHATLVDAARAAGAELHTGVTVTDVITEGDKAIVSTDDGRTHEADIALGMDGLKSRLREKISGDEPVSSGYAAYRGTTPYRDVELDEDIEDVVGYIGPRCHFIQYPLRGGEMLNQVAVFESPGFKNGIENWGGPEELEQAYAHCHENVRRGIDYLWKDRWWPMYDREPIENWVDGRMILLGDAAHPPLQYLASGAVMAIEDAKCLADYAAEDFSTGGNSAWPQILKEVNTERAPRCNRILTTGRMWGELWHLDGTARIARNELFRTRDTSSYKYTDWLWGYSSDR NLQDARIIIAGGGIGGAANALALAQKGANVTLFERASEFGEVGAGLQVGPHGARILDSWGVLDDVLSRAFLPKNIVFRDAITAEVLTKIDLGSEFRGRYGGPYFVTHRSDLHATLVDAARAAGAELHTGVTVTDVITEGDKAIVSTDDGRTHEADIALGMDGLKSRLREKISGDEPVSSGYAAYRGTTPYRDVELDEDIEDVVGYIGPRCHFIQYPLRGGEMLNQVAVFESPGFKNGIENWGGPEELEQAYAHCHENVRRGIDYLWKDRWWPMYDREPIENWVDGRMILLGDAAHPPLQYLASGAVMAIEDAKCLADYAAEDFSTGGNSAWPQILKEVNTERAPRCNRILTTGRMWGELWHLDGTARIARNELFRTRDTSSYKYTDWLWGYSSDR 4bk0-a1-m1-cA_4bk0-a1-m1-cB Crystal structure of the KIX domain of human RECQL5 (domain-swapped dimer) O94762 O94762 1.9 X-RAY DIFFRACTION 168 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 92 97 EEFVPPDENCPLKEASSRRIPRLTVKAREHCLRLLEEALSSNRQSTRTADEADLRAKAVELEHETFRNAKVANLYKASVLKKVADIHRASKD EFVPPDENCPLKEASSRRIPRLTVKAREHCLRLLEEALSSNRQSTRTADEADLRAKAVELEHETFRNAKVANLYKASVLKKVADIHRASKDGQPYDM 4bk6-a1-m1-cA_4bk6-a1-m1-cB Crystal Structure of a dimeric variant of Bet v 1 P15494 P15494 1.63 X-RAY DIFFRACTION 27 1.0 3505 (Betula pendula) 3505 (Betula pendula) 159 159 4bkc-a1-m1-cA_4bkc-a1-m1-cB GVFNCETETTSVIPAARLFKAFILDGDNLFPKVAPQAISSVENIEGNGGPGTIKKISFPEGFPFKYVKDRVDEVDHTNFKYNYSVIEGGPIGDTLEKISNEIKIVATPDGGSILKISNKYHTKGDHEVKAEQVKASKEMGETLLRAVESYLLAHSDAYN GVFNCETETTSVIPAARLFKAFILDGDNLFPKVAPQAISSVENIEGNGGPGTIKKISFPEGFPFKYVKDRVDEVDHTNFKYNYSVIEGGPIGDTLEKISNEIKIVATPDGGSILKISNKYHTKGDHEVKAEQVKASKEMGETLLRAVESYLLAHSDAYN 4bk8-a1-m2-cA_4bk8-a1-m4-cA Superoxide reductase (Neelaredoxin) from Ignicoccus hospitalis A8AC72 A8AC72 1.847 X-RAY DIFFRACTION 73 1.0 160233 (Ignicoccus hospitalis) 160233 (Ignicoccus hospitalis) 123 123 4bk8-a1-m1-cA_4bk8-a1-m3-cA 4brj-a1-m1-cA_4brj-a1-m2-cA 4brj-a1-m3-cA_4brj-a1-m4-cA 4brv-a1-m1-cA_4brv-a1-m1-cD 4brv-a1-m1-cB_4brv-a1-m1-cC KSFGELIYTPDRAEGEAISKAETHTPKIEAPEKVKADQPFQVRVSVGPHPNEAAHSIRWIELYFYEEGRPFNPVMLGRVAFEPGYAEPDVTFTLKLKKSGVLYAISYCNLHGLWEARKEIKVE KSFGELIYTPDRAEGEAISKAETHTPKIEAPEKVKADQPFQVRVSVGPHPNEAAHSIRWIELYFYEEGRPFNPVMLGRVAFEPGYAEPDVTFTLKLKKSGVLYAISYCNLHGLWEARKEIKVE 4bkd-a1-m1-cA_4bkd-a1-m2-cA Crystal Structure of an unusually linked dimeric variant of Bet v 1 (b) P15494 P15494 1.17 X-RAY DIFFRACTION 34 1.0 3505 (Betula pendula) 3505 (Betula pendula) 158 158 GVFNETETTSVIPAARLFKAFILDGDNLFPKVAPQAISSVENIEGNGGPGTIKKISFPEGFPFKYVKDRVDEVDHTNFKYNYSVIEGGPIGDTLEKISNEIKIVATPDGGSILKISNKYHTKGDHEVKAEQVKASKEMGETLLRAVESYLLAHSDAYN GVFNETETTSVIPAARLFKAFILDGDNLFPKVAPQAISSVENIEGNGGPGTIKKISFPEGFPFKYVKDRVDEVDHTNFKYNYSVIEGGPIGDTLEKISNEIKIVATPDGGSILKISNKYHTKGDHEVKAEQVKASKEMGETLLRAVESYLLAHSDAYN 4bkf-a1-m1-cA_4bkf-a1-m1-cB crystal structure of the human EphA4 ectodomain in complex with human ephrinB3 P54764 P54764 4.65 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 505 505 TNEVTLLDSRSVQGELGWIASPLEGGWEEVSIMDEKNTPIRTYQVCNVMEPSQNNWLRTDWITREGAQRVYIEIKFTLRDCNSLPGVMGTCKETFNLYYYESDNDKERFIRENQFVKIDTIAADESFTQVDIGDRIMKLNTEIRDVGPLSKKGFYLAFQDVGACIALVSVRVFYKKCPLTVRNLAQFPDTITGADTSSLVEVRGSCVNNSEEKDVPKMYCGADGEWLVPIGNCLCNAGHEERSGECQACKIGYYKALSTDATCAKCPPHSYSVWEGATSCTCDRGFFRADNDAASMPCTRPPSAPLNLISNVNETSVNLEWSSPQNTGGRQDISYNVVCKKCGAGDPSKCRPCGSGVHYTPQQNGLKTTKVSITDLLAHTNYTFEIWAVNGVSKYNPNPDQSVSVTVTTNQAAPSSIALVQAKEVTRYSVALAWLEPDRPNGVILEYEVKYYEKDQNERSYRIVRTAARNTDIKGLNPLTSYVFHVRARTAAGYGDFSEPLEVTT TNEVTLLDSRSVQGELGWIASPLEGGWEEVSIMDEKNTPIRTYQVCNVMEPSQNNWLRTDWITREGAQRVYIEIKFTLRDCNSLPGVMGTCKETFNLYYYESDNDKERFIRENQFVKIDTIAADESFTQVDIGDRIMKLNTEIRDVGPLSKKGFYLAFQDVGACIALVSVRVFYKKCPLTVRNLAQFPDTITGADTSSLVEVRGSCVNNSEEKDVPKMYCGADGEWLVPIGNCLCNAGHEERSGECQACKIGYYKALSTDATCAKCPPHSYSVWEGATSCTCDRGFFRADNDAASMPCTRPPSAPLNLISNVNETSVNLEWSSPQNTGGRQDISYNVVCKKCGAGDPSKCRPCGSGVHYTPQQNGLKTTKVSITDLLAHTNYTFEIWAVNGVSKYNPNPDQSVSVTVTTNQAAPSSIALVQAKEVTRYSVALAWLEPDRPNGVILEYEVKYYEKDQNERSYRIVRTAARNTDIKGLNPLTSYVFHVRARTAAGYGDFSEPLEVTT 4bkk-a1-m1-cN_4bkk-a1-m1-cX The Respiratory Syncytial Virus nucleoprotein-RNA complex forms a left-handed helical nucleocapsid. P03418 P03418 NOT ELECTRON MICROSCOPY 29 1.0 11260 (Human respiratory syncytial virus A strain Long) 11260 (Human respiratory syncytial virus A strain Long) 370 370 4bkk-a1-m1-cB_4bkk-a1-m1-cL 4bkk-a1-m1-cC_4bkk-a1-m1-cM 4bkk-a1-m1-cD_4bkk-a1-m1-cN 4bkk-a1-m1-cE_4bkk-a1-m1-cO 4bkk-a1-m1-cF_4bkk-a1-m1-cP 4bkk-a1-m1-cG_4bkk-a1-m1-cQ 4bkk-a1-m1-cH_4bkk-a1-m1-cR 4bkk-a1-m1-cI_4bkk-a1-m1-cS 4bkk-a1-m1-cJ_4bkk-a1-m1-cT 4bkk-a1-m1-cK_4bkk-a1-m1-cU 4bkk-a1-m1-cL_4bkk-a1-m1-cV 4bkk-a1-m1-cM_4bkk-a1-m1-cW ALSKVKLNDTLNKDQLLSSSKYTIQRSTGDSIDTPNYDVQKHINKLCGMLLITEDANHKFTGLIGMLYAMSRLGREDTIKILRDAGYHVKANGVDVTTHRQDINGKEMKFEVLTLASLTTEIQINIEIESRKSYKKMLKEMGEVAPEYRHDSPDCGMIILCIAALVITKLAAGDRSGLTAVIRRANNVLKNEMKRYKGLLPKDIANSFYEVFEKHPHFIDVFVHFGIAQSSTRGGSRVEGIFAGLFMNAYGAGQVMLRWGVLAKSVKNIMLGHASVQAEMEQVVEVYEYAQKLGGEAGFYHILNNPKASLLSLTQFPHFSSVVLGNAAGLGIMGEYRGTPRNQDLYDAAKAYAEQLKENGVINYSVLDLT ALSKVKLNDTLNKDQLLSSSKYTIQRSTGDSIDTPNYDVQKHINKLCGMLLITEDANHKFTGLIGMLYAMSRLGREDTIKILRDAGYHVKANGVDVTTHRQDINGKEMKFEVLTLASLTTEIQINIEIESRKSYKKMLKEMGEVAPEYRHDSPDCGMIILCIAALVITKLAAGDRSGLTAVIRRANNVLKNEMKRYKGLLPKDIANSFYEVFEKHPHFIDVFVHFGIAQSSTRGGSRVEGIFAGLFMNAYGAGQVMLRWGVLAKSVKNIMLGHASVQAEMEQVVEVYEYAQKLGGEAGFYHILNNPKASLLSLTQFPHFSSVVLGNAAGLGIMGEYRGTPRNQDLYDAAKAYAEQLKENGVINYSVLDLT 4bkl-a1-m1-cF_4bkl-a1-m1-cG Crystal structure of the arthritogenic antibody M2139 (Fab fragment) in complex with the triple-helical J1 peptide P28481 P28481 3.25 X-RAY DIFFRACTION 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 21 21 GPGPGMGERGAAGIAGPKGPG GPGPGMGERGAAGIAGPKGPG 4bkm-a2-m1-cA_4bkm-a2-m1-cB Crystal structure of the murine AUM (phosphoglycolate phosphatase) capping domain as a fusion protein with the catalytic core domain of murine chronophin (pyridoxal phosphate phosphatase) P60487 P60487 2.65 X-RAY DIFFRACTION 105 1.0 10090 (Mus musculus) 10090 (Mus musculus) 304 304 4bkm-a1-m1-cC_4bkm-a1-m1-cD GMARCERLRGAALRDVLGQAQGVLFDCDGVLWNGERIVPGAPELLQRLARAGKNTLFVSNNSRRARPELALRFARLGFAGLRAEQLFSSALCAARLLRQRLAGVPDPKAYVLGSPALAAELEAVGVTSVGVGPDVLHGDGPSDWLAVPLEPDVRAVVVGFDPHFSYMKLTKAVRYLQQPDCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSPYMFQCITEDFSVDPARTLMVGDRLETDILFGHRCGMTTVLTLTGVSSLEEAQAYLTAGQRDLVPHYYVESIADLMEGL GMARCERLRGAALRDVLGQAQGVLFDCDGVLWNGERIVPGAPELLQRLARAGKNTLFVSNNSRRARPELALRFARLGFAGLRAEQLFSSALCAARLLRQRLAGVPDPKAYVLGSPALAAELEAVGVTSVGVGPDVLHGDGPSDWLAVPLEPDVRAVVVGFDPHFSYMKLTKAVRYLQQPDCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSPYMFQCITEDFSVDPARTLMVGDRLETDILFGHRCGMTTVLTLTGVSSLEEAQAYLTAGQRDLVPHYYVESIADLMEGL 4bl4-a2-m1-cC_4bl4-a2-m1-cD Further structural insights into the binding of complement factor H by complement regulator acquiring surface protein 1, CspA (BbCRASP-1), of Borrelia burgdorferi. A0A0H3BZN5 A0A0H3BZN5 4.06 X-RAY DIFFRACTION 120 1.0 445985 (Borreliella burgdorferi ZS7) 445985 (Borreliella burgdorferi ZS7) 180 180 1w33-a1-m1-cB_1w33-a1-m1-cA 1w3z-a1-m1-cB_1w3z-a1-m1-cA 4bl4-a1-m1-cA_4bl4-a1-m1-cB 5a2u-a1-m1-cB_5a2u-a1-m2-cB 5a2u-a2-m1-cA_5a2u-a2-m3-cA ETIASELKAIGKELEDQKKEENIQIAKIAKEKFDFLSTFKVGPYDLIDEDIQMKIKRTLYSSLDYKKENIEKLKEILEILKKNSEHYNIIGRLIYHISWGIQFQIEQNLELIQNGVENLSQEESKSLLMQIKSNLEIKQRLKKTLNETLKVYNQNTQDNEKILAEHFNKYYKDFDTLKPA ETIASELKAIGKELEDQKKEENIQIAKIAKEKFDFLSTFKVGPYDLIDEDIQMKIKRTLYSSLDYKKENIEKLKEILEILKKNSEHYNIIGRLIYHISWGIQFQIEQNLELIQNGVENLSQEESKSLLMQIKSNLEIKQRLKKTLNETLKVYNQNTQDNEKILAEHFNKYYKDFDTLKPA 4bl5-a1-m1-cH_4bl5-a1-m1-cI Crystal structure of human GDP-L-fucose synthase with bound NADP and product GDP-L-fucose Q13630 Q13630 2.6 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 321 4b8w-a1-m1-cB_4b8w-a1-m1-cA 4bkp-a1-m1-cA_4bkp-a1-m1-cB 4bkp-a2-m1-cD_4bkp-a2-m1-cC 4bl5-a2-m1-cJ_4bl5-a2-m1-cG 4bl5-a3-m1-cA_4bl5-a3-m1-cE 4bl5-a4-m1-cD_4bl5-a4-m1-cB 4bl5-a5-m1-cK_4bl5-a5-m1-cL 4bl5-a6-m1-cF_4bl5-a6-m1-cC 4e5y-a1-m1-cA_4e5y-a1-m1-cB 4e5y-a2-m1-cC_4e5y-a2-m1-cD SMRILVTGGSGLVGKAIQKVVADGAGLPGEDWVFVSSKDADLTDTAQTRALFEKVQPTHVIHLAAMVGGLFRNIKYNLDFWRKNVHMNDNVLHSAFEVGARKVVSCLSTCIFPDKTTYPIDETMIHNGPPHNSNFGYSYAKRMIDVQNRAYFQQYGCTFTAVIPTNVFGPHDNFNIEDGHVLPGLIHKVHLAKSSGSALTVWGTGNPRRQFIYSLDLAQLFIWVLREYNEVEPIILSVGEEDEVSIKEAAEAVVEAMDFHGEVTFDTTKSDGQFKKTASNSKLRTYLPDFRFTPFKQAVKETCAWFTDNYEQARK ENLYFQSMRILVTGGSGLVGKAIQKVVADGAGLPGEDWVFVSSKDADLTDTAQTRALFEKVQPTHVIHLAAMVGGLFRNIKYNLDFWRKNVHMNDNVLHSAFEVGARKVVSCLSTCIFPDKTTYPIDETMIHNGPPHNSNFGYSYAKRMIDVQNRAYFQQYGCTFTAVIPTNVFGPHDNFNIEDGHVLPGLIHKVHLAKSSGSALTVWGTGNPRRQFIYSLDLAQLFIWVLREYNEVEPIILSVGEEDEVSIKEAAEAVVEAMDFHGEVTFDTTKSDGQFKKTASNSKLRTYLPDFRFTPFKQAVKETCAWFTDNYEQARK 4bl6-a1-m1-cA_4bl6-a1-m1-cD Bicaudal-D uses a parallel, homodimeric coiled coil with heterotypic registry to co-ordinate recruitment of cargos to dynein P16568 P16568 2.18 X-RAY DIFFRACTION 107 0.987 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 78 81 4bl6-a1-m1-cB_4bl6-a1-m1-cC 6tzw-a1-m1-cB_6tzw-a1-m1-cA IIVSDTSKLRNELRLLKEDAATFSSLRAFAARCEEYVTQVDDLNRQLEAAEEEKKTLNQLLRLAVQQKLALTQRLEEE ENEKIIVSDTSKLRNELRLLKEDAATFSSLRAFAARCEEYVTQVDDLNRQLEAAEEEKKTLNQLLRLAVQQKLALTQRLEE 4bl6-a1-m1-cB_4bl6-a1-m1-cA Bicaudal-D uses a parallel, homodimeric coiled coil with heterotypic registry to co-ordinate recruitment of cargos to dynein P16568 P16568 2.18 X-RAY DIFFRACTION 43 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 73 78 VSDTSKLRNELRLLKEDAATFSSLRAFAARCEEYVTQVDDLNRQLEAAEEEKKTLNQLLRLAVQQKLALTQRL IIVSDTSKLRNELRLLKEDAATFSSLRAFAARCEEYVTQVDDLNRQLEAAEEEKKTLNQLLRLAVQQKLALTQRLEEE 4bl6-a1-m1-cB_4bl6-a1-m1-cD Bicaudal-D uses a parallel, homodimeric coiled coil with heterotypic registry to co-ordinate recruitment of cargos to dynein P16568 P16568 2.18 X-RAY DIFFRACTION 13 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 73 81 4bl6-a1-m1-cA_4bl6-a1-m1-cC VSDTSKLRNELRLLKEDAATFSSLRAFAARCEEYVTQVDDLNRQLEAAEEEKKTLNQLLRLAVQQKLALTQRL ENEKIIVSDTSKLRNELRLLKEDAATFSSLRAFAARCEEYVTQVDDLNRQLEAAEEEKKTLNQLLRLAVQQKLALTQRLEE 4blp-a1-m1-cB_4blp-a1-m1-cC P4 PROTEIN FROM BACTERIOPHAGE PHI13 Q9FZT1 Q9FZT1 1.7 X-RAY DIFFRACTION 136 1.0 134554 (Pseudomonas phage phi13) 134554 (Pseudomonas phage phi13) 270 270 4blp-a1-m1-cA_4blp-a1-m1-cF 4blp-a1-m1-cB_4blp-a1-m1-cA 4blp-a1-m1-cC_4blp-a1-m1-cD 4blp-a1-m1-cE_4blp-a1-m1-cD 4blp-a1-m1-cE_4blp-a1-m1-cF VAAPAVVEGSSTNAAAVKKSLRDGGMTALPSEILFAVGSIPLVVDKDALSTLAAALVASDDPSTWFVANRELIRAVVFVPQQNNVLRATPLLSVRPVASLSSVHNWQVRNHLSGLHVVVGGTGAGKSKWLNAQTPDVTIRWGEPGETFDMEESSIAVADLTEMLAVALLLATADYRVVIDSFRNLVFGITGAAGPGGVSVALYAALTSLNNICAELGVLLVAAINPMSSDDKVSLVYNNIAASVAGMTVVNNAAVVSQTIRSGTGRIFSG VAAPAVVEGSSTNAAAVKKSLRDGGMTALPSEILFAVGSIPLVVDKDALSTLAAALVASDDPSTWFVANRELIRAVVFVPQQNNVLRATPLLSVRPVASLSSVHNWQVRNHLSGLHVVVGGTGAGKSKWLNAQTPDVTIRWGEPGETFDMEESSIAVADLTEMLAVALLLATADYRVVIDSFRNLVFGITGAAGPGGVSVALYAALTSLNNICAELGVLLVAAINPMSSDDKVSLVYNNIAASVAGMTVVNNAAVVSQTIRSGTGRIFSG 4bm9-a1-m2-cA_4bm9-a1-m6-cA Structure of the autoinhibited Parkin catalytic domain O60260 O60260 2.25 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 301 4bm9-a1-m1-cA_4bm9-a1-m3-cA 4bm9-a1-m4-cA_4bm9-a1-m5-cA IYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEFAFCRECKEAYHEGECSAVFEAYRVDERAAEQARWEKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV IYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEFAFCRECKEAYHEGECSAVFEAYRVDERAAEQARWEKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV 4bm9-a1-m4-cA_4bm9-a1-m6-cA Structure of the autoinhibited Parkin catalytic domain O60260 O60260 2.25 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 301 4bm9-a1-m1-cA_4bm9-a1-m2-cA 4bm9-a1-m1-cA_4bm9-a1-m5-cA 4bm9-a1-m2-cA_4bm9-a1-m5-cA 4bm9-a1-m3-cA_4bm9-a1-m4-cA 4bm9-a1-m3-cA_4bm9-a1-m6-cA IYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEFAFCRECKEAYHEGECSAVFEAYRVDERAAEQARWEKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV IYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEFAFCRECKEAYHEGECSAVFEAYRVDERAAEQARWEKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV 4bm9-a1-m5-cA_4bm9-a1-m6-cA Structure of the autoinhibited Parkin catalytic domain O60260 O60260 2.25 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 301 4bm9-a1-m1-cA_4bm9-a1-m4-cA 4bm9-a1-m2-cA_4bm9-a1-m3-cA IYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEFAFCRECKEAYHEGECSAVFEAYRVDERAAEQARWEKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV IYNSFYVYCKGPCQRVQPGKLRVQCSTCRQATLTLTQGPSCWDDVLIPNRMSGECQSPHCPGTSAEFFFKCGAHPTSDKETSVALHLIATNSRNITCITCTDVRSPVLVFQCNSRHVICLDCFHLYCVTRLNDRQFVHDPQLGYSLPCVAGCPNSLIKELHHFRILGEEQYNRYQQYGAEECVLQMGGVLCPRPGCGAGLLPEPDQRKVTCEFAFCRECKEAYHEGECSAVFEAYRVDERAAEQARWEKTTKPCPRCHVPVEKNGGCMHMKCPQPQCRLEWCWNCGCEWNRVCMGDHWFDV 4bml-a1-m10-cF_4bml-a1-m9-cG C-alpha backbone trace of major capsid protein gp39 found in marine virus Syn5. A4ZRC0 A4ZRC0 4.7 ELECTRON MICROSCOPY 15 1.0 438482 (Voetvirus syn5) 438482 (Voetvirus syn5) 309 309 4bml-a1-m10-cE_4bml-a1-m6-cE 4bml-a1-m10-cE_4bml-a1-m9-cE 4bml-a1-m10-cG_4bml-a1-m6-cF 4bml-a1-m11-cE_4bml-a1-m12-cE 4bml-a1-m11-cE_4bml-a1-m15-cE 4bml-a1-m11-cF_4bml-a1-m15-cG 4bml-a1-m11-cG_4bml-a1-m12-cF 4bml-a1-m12-cE_4bml-a1-m13-cE 4bml-a1-m12-cG_4bml-a1-m13-cF 4bml-a1-m13-cE_4bml-a1-m14-cE 4bml-a1-m13-cG_4bml-a1-m14-cF 4bml-a1-m14-cE_4bml-a1-m15-cE 4bml-a1-m14-cG_4bml-a1-m15-cF 4bml-a1-m16-cE_4bml-a1-m17-cE 4bml-a1-m16-cE_4bml-a1-m20-cE 4bml-a1-m16-cF_4bml-a1-m20-cG 4bml-a1-m16-cG_4bml-a1-m17-cF 4bml-a1-m17-cE_4bml-a1-m18-cE 4bml-a1-m17-cG_4bml-a1-m18-cF 4bml-a1-m18-cE_4bml-a1-m19-cE 4bml-a1-m18-cG_4bml-a1-m19-cF 4bml-a1-m19-cE_4bml-a1-m20-cE 4bml-a1-m19-cG_4bml-a1-m20-cF 4bml-a1-m1-cE_4bml-a1-m2-cE 4bml-a1-m1-cE_4bml-a1-m5-cE 4bml-a1-m1-cF_4bml-a1-m5-cG 4bml-a1-m1-cG_4bml-a1-m2-cF 4bml-a1-m21-cE_4bml-a1-m22-cE 4bml-a1-m21-cE_4bml-a1-m25-cE 4bml-a1-m21-cF_4bml-a1-m25-cG 4bml-a1-m21-cG_4bml-a1-m22-cF 4bml-a1-m22-cE_4bml-a1-m23-cE 4bml-a1-m22-cG_4bml-a1-m23-cF 4bml-a1-m23-cE_4bml-a1-m24-cE 4bml-a1-m23-cG_4bml-a1-m24-cF 4bml-a1-m24-cE_4bml-a1-m25-cE 4bml-a1-m24-cG_4bml-a1-m25-cF 4bml-a1-m26-cE_4bml-a1-m27-cE 4bml-a1-m26-cE_4bml-a1-m30-cE 4bml-a1-m26-cF_4bml-a1-m30-cG 4bml-a1-m26-cG_4bml-a1-m27-cF 4bml-a1-m27-cE_4bml-a1-m28-cE 4bml-a1-m27-cG_4bml-a1-m28-cF 4bml-a1-m28-cE_4bml-a1-m29-cE 4bml-a1-m28-cG_4bml-a1-m29-cF 4bml-a1-m29-cE_4bml-a1-m30-cE 4bml-a1-m29-cG_4bml-a1-m30-cF 4bml-a1-m2-cE_4bml-a1-m3-cE 4bml-a1-m2-cG_4bml-a1-m3-cF 4bml-a1-m31-cE_4bml-a1-m32-cE 4bml-a1-m31-cE_4bml-a1-m35-cE 4bml-a1-m31-cF_4bml-a1-m35-cG 4bml-a1-m31-cG_4bml-a1-m32-cF 4bml-a1-m32-cE_4bml-a1-m33-cE 4bml-a1-m32-cG_4bml-a1-m33-cF 4bml-a1-m33-cE_4bml-a1-m34-cE 4bml-a1-m33-cG_4bml-a1-m34-cF 4bml-a1-m34-cE_4bml-a1-m35-cE 4bml-a1-m34-cG_4bml-a1-m35-cF 4bml-a1-m36-cE_4bml-a1-m37-cE 4bml-a1-m36-cE_4bml-a1-m40-cE 4bml-a1-m36-cF_4bml-a1-m40-cG 4bml-a1-m36-cG_4bml-a1-m37-cF 4bml-a1-m37-cE_4bml-a1-m38-cE 4bml-a1-m37-cG_4bml-a1-m38-cF 4bml-a1-m38-cE_4bml-a1-m39-cE 4bml-a1-m38-cG_4bml-a1-m39-cF 4bml-a1-m39-cE_4bml-a1-m40-cE 4bml-a1-m39-cG_4bml-a1-m40-cF 4bml-a1-m3-cE_4bml-a1-m4-cE 4bml-a1-m3-cG_4bml-a1-m4-cF 4bml-a1-m41-cE_4bml-a1-m42-cE 4bml-a1-m41-cE_4bml-a1-m45-cE 4bml-a1-m41-cF_4bml-a1-m45-cG 4bml-a1-m41-cG_4bml-a1-m42-cF 4bml-a1-m42-cE_4bml-a1-m43-cE 4bml-a1-m42-cG_4bml-a1-m43-cF 4bml-a1-m43-cE_4bml-a1-m44-cE 4bml-a1-m43-cG_4bml-a1-m44-cF 4bml-a1-m44-cE_4bml-a1-m45-cE 4bml-a1-m44-cG_4bml-a1-m45-cF 4bml-a1-m46-cE_4bml-a1-m47-cE 4bml-a1-m46-cE_4bml-a1-m50-cE 4bml-a1-m46-cF_4bml-a1-m50-cG 4bml-a1-m46-cG_4bml-a1-m47-cF 4bml-a1-m47-cE_4bml-a1-m48-cE 4bml-a1-m47-cG_4bml-a1-m48-cF 4bml-a1-m48-cE_4bml-a1-m49-cE 4bml-a1-m48-cG_4bml-a1-m49-cF 4bml-a1-m49-cE_4bml-a1-m50-cE 4bml-a1-m49-cG_4bml-a1-m50-cF 4bml-a1-m4-cE_4bml-a1-m5-cE 4bml-a1-m4-cG_4bml-a1-m5-cF 4bml-a1-m51-cE_4bml-a1-m52-cE 4bml-a1-m51-cE_4bml-a1-m55-cE 4bml-a1-m51-cF_4bml-a1-m55-cG 4bml-a1-m51-cG_4bml-a1-m52-cF 4bml-a1-m52-cE_4bml-a1-m53-cE 4bml-a1-m52-cG_4bml-a1-m53-cF 4bml-a1-m53-cE_4bml-a1-m54-cE 4bml-a1-m53-cG_4bml-a1-m54-cF 4bml-a1-m54-cE_4bml-a1-m55-cE 4bml-a1-m54-cG_4bml-a1-m55-cF 4bml-a1-m56-cE_4bml-a1-m57-cE 4bml-a1-m56-cE_4bml-a1-m60-cE 4bml-a1-m56-cF_4bml-a1-m60-cG 4bml-a1-m56-cG_4bml-a1-m57-cF 4bml-a1-m57-cE_4bml-a1-m58-cE 4bml-a1-m57-cG_4bml-a1-m58-cF 4bml-a1-m58-cE_4bml-a1-m59-cE 4bml-a1-m58-cG_4bml-a1-m59-cF 4bml-a1-m59-cE_4bml-a1-m60-cE 4bml-a1-m59-cG_4bml-a1-m60-cF 4bml-a1-m6-cE_4bml-a1-m7-cE 4bml-a1-m6-cG_4bml-a1-m7-cF 4bml-a1-m7-cE_4bml-a1-m8-cE 4bml-a1-m7-cG_4bml-a1-m8-cF 4bml-a1-m8-cE_4bml-a1-m9-cE 4bml-a1-m8-cG_4bml-a1-m9-cF VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA 4bml-a1-m54-cA_4bml-a1-m9-cB C-alpha backbone trace of major capsid protein gp39 found in marine virus Syn5. A4ZRC0 A4ZRC0 4.7 ELECTRON MICROSCOPY 18 1.0 438482 (Voetvirus syn5) 438482 (Voetvirus syn5) 309 309 4bml-a1-m10-cA_4bml-a1-m9-cC 4bml-a1-m10-cB_4bml-a1-m23-cA 4bml-a1-m10-cB_4bml-a1-m5-cD 4bml-a1-m10-cC_4bml-a1-m6-cA 4bml-a1-m10-cD_4bml-a1-m5-cB 4bml-a1-m10-cD_4bml-a1-m6-cG 4bml-a1-m10-cF_4bml-a1-m23-cC 4bml-a1-m10-cG_4bml-a1-m9-cD 4bml-a1-m11-cA_4bml-a1-m15-cC 4bml-a1-m11-cA_4bml-a1-m38-cB 4bml-a1-m11-cB_4bml-a1-m20-cA 4bml-a1-m11-cB_4bml-a1-m37-cD 4bml-a1-m11-cC_4bml-a1-m12-cA 4bml-a1-m11-cC_4bml-a1-m38-cF 4bml-a1-m11-cD_4bml-a1-m12-cG 4bml-a1-m11-cD_4bml-a1-m37-cB 4bml-a1-m11-cF_4bml-a1-m20-cC 4bml-a1-m11-cG_4bml-a1-m15-cD 4bml-a1-m12-cA_4bml-a1-m47-cB 4bml-a1-m12-cB_4bml-a1-m37-cA 4bml-a1-m12-cB_4bml-a1-m46-cD 4bml-a1-m12-cC_4bml-a1-m13-cA 4bml-a1-m12-cC_4bml-a1-m47-cF 4bml-a1-m12-cD_4bml-a1-m13-cG 4bml-a1-m12-cD_4bml-a1-m46-cB 4bml-a1-m12-cF_4bml-a1-m37-cC 4bml-a1-m13-cA_4bml-a1-m45-cB 4bml-a1-m13-cB_4bml-a1-m44-cD 4bml-a1-m13-cB_4bml-a1-m46-cA 4bml-a1-m13-cC_4bml-a1-m14-cA 4bml-a1-m13-cC_4bml-a1-m45-cF 4bml-a1-m13-cD_4bml-a1-m14-cG 4bml-a1-m13-cD_4bml-a1-m44-cB 4bml-a1-m13-cF_4bml-a1-m46-cC 4bml-a1-m14-cA_4bml-a1-m29-cB 4bml-a1-m14-cB_4bml-a1-m28-cD 4bml-a1-m14-cB_4bml-a1-m44-cA 4bml-a1-m14-cC_4bml-a1-m15-cA 4bml-a1-m14-cC_4bml-a1-m29-cF 4bml-a1-m14-cD_4bml-a1-m15-cG 4bml-a1-m14-cD_4bml-a1-m28-cB 4bml-a1-m14-cF_4bml-a1-m44-cC 4bml-a1-m15-cA_4bml-a1-m16-cB 4bml-a1-m15-cB_4bml-a1-m20-cD 4bml-a1-m15-cB_4bml-a1-m28-cA 4bml-a1-m15-cC_4bml-a1-m16-cF 4bml-a1-m15-cD_4bml-a1-m20-cB 4bml-a1-m15-cF_4bml-a1-m28-cC 4bml-a1-m16-cA_4bml-a1-m20-cC 4bml-a1-m16-cA_4bml-a1-m28-cB 4bml-a1-m16-cB_4bml-a1-m27-cD 4bml-a1-m16-cC_4bml-a1-m17-cA 4bml-a1-m16-cC_4bml-a1-m28-cF 4bml-a1-m16-cD_4bml-a1-m17-cG 4bml-a1-m16-cD_4bml-a1-m27-cB 4bml-a1-m16-cG_4bml-a1-m20-cD 4bml-a1-m17-cA_4bml-a1-m52-cB 4bml-a1-m17-cB_4bml-a1-m27-cA 4bml-a1-m17-cB_4bml-a1-m51-cD 4bml-a1-m17-cC_4bml-a1-m18-cA 4bml-a1-m17-cC_4bml-a1-m52-cF 4bml-a1-m17-cD_4bml-a1-m18-cG 4bml-a1-m17-cD_4bml-a1-m51-cB 4bml-a1-m17-cF_4bml-a1-m27-cC 4bml-a1-m18-cA_4bml-a1-m60-cB 4bml-a1-m18-cB_4bml-a1-m51-cA 4bml-a1-m18-cB_4bml-a1-m59-cD 4bml-a1-m18-cC_4bml-a1-m19-cA 4bml-a1-m18-cC_4bml-a1-m60-cF 4bml-a1-m18-cD_4bml-a1-m19-cG 4bml-a1-m18-cD_4bml-a1-m59-cB 4bml-a1-m18-cF_4bml-a1-m51-cC 4bml-a1-m19-cA_4bml-a1-m39-cB 4bml-a1-m19-cB_4bml-a1-m38-cD 4bml-a1-m19-cB_4bml-a1-m59-cA 4bml-a1-m19-cC_4bml-a1-m20-cA 4bml-a1-m19-cC_4bml-a1-m39-cF 4bml-a1-m19-cD_4bml-a1-m20-cG 4bml-a1-m19-cD_4bml-a1-m38-cB 4bml-a1-m19-cF_4bml-a1-m59-cC 4bml-a1-m1-cA_4bml-a1-m23-cB 4bml-a1-m1-cA_4bml-a1-m5-cC 4bml-a1-m1-cB_4bml-a1-m10-cA 4bml-a1-m1-cB_4bml-a1-m22-cD 4bml-a1-m1-cC_4bml-a1-m23-cF 4bml-a1-m1-cC_4bml-a1-m2-cA 4bml-a1-m1-cD_4bml-a1-m22-cB 4bml-a1-m1-cD_4bml-a1-m2-cG 4bml-a1-m1-cF_4bml-a1-m10-cC 4bml-a1-m1-cG_4bml-a1-m5-cD 4bml-a1-m20-cB_4bml-a1-m38-cA 4bml-a1-m20-cF_4bml-a1-m38-cC 4bml-a1-m21-cA_4bml-a1-m25-cC 4bml-a1-m21-cA_4bml-a1-m43-cB 4bml-a1-m21-cB_4bml-a1-m30-cA 4bml-a1-m21-cB_4bml-a1-m42-cD 4bml-a1-m21-cC_4bml-a1-m22-cA 4bml-a1-m21-cC_4bml-a1-m43-cF 4bml-a1-m21-cD_4bml-a1-m22-cG 4bml-a1-m21-cD_4bml-a1-m42-cB 4bml-a1-m21-cF_4bml-a1-m30-cC 4bml-a1-m21-cG_4bml-a1-m25-cD 4bml-a1-m22-cB_4bml-a1-m42-cA 4bml-a1-m22-cC_4bml-a1-m23-cA 4bml-a1-m22-cD_4bml-a1-m23-cG 4bml-a1-m22-cF_4bml-a1-m42-cC 4bml-a1-m23-cB_4bml-a1-m9-cD 4bml-a1-m23-cC_4bml-a1-m24-cA 4bml-a1-m23-cD_4bml-a1-m24-cG 4bml-a1-m23-cD_4bml-a1-m9-cB 4bml-a1-m24-cA_4bml-a1-m54-cB 4bml-a1-m24-cB_4bml-a1-m53-cD 4bml-a1-m24-cB_4bml-a1-m9-cA 4bml-a1-m24-cC_4bml-a1-m25-cA 4bml-a1-m24-cC_4bml-a1-m54-cF 4bml-a1-m24-cD_4bml-a1-m25-cG 4bml-a1-m24-cD_4bml-a1-m53-cB 4bml-a1-m24-cF_4bml-a1-m9-cC 4bml-a1-m25-cA_4bml-a1-m26-cB 4bml-a1-m25-cB_4bml-a1-m30-cD 4bml-a1-m25-cB_4bml-a1-m53-cA 4bml-a1-m25-cC_4bml-a1-m26-cF 4bml-a1-m25-cD_4bml-a1-m30-cB 4bml-a1-m25-cF_4bml-a1-m53-cC 4bml-a1-m26-cA_4bml-a1-m30-cC 4bml-a1-m26-cA_4bml-a1-m53-cB 4bml-a1-m26-cB_4bml-a1-m52-cD 4bml-a1-m26-cC_4bml-a1-m27-cA 4bml-a1-m26-cC_4bml-a1-m53-cF 4bml-a1-m26-cD_4bml-a1-m27-cG 4bml-a1-m26-cD_4bml-a1-m52-cB 4bml-a1-m26-cG_4bml-a1-m30-cD 4bml-a1-m27-cB_4bml-a1-m52-cA 4bml-a1-m27-cC_4bml-a1-m28-cA 4bml-a1-m27-cD_4bml-a1-m28-cG 4bml-a1-m27-cF_4bml-a1-m52-cC 4bml-a1-m28-cC_4bml-a1-m29-cA 4bml-a1-m28-cD_4bml-a1-m29-cG 4bml-a1-m29-cA_4bml-a1-m44-cB 4bml-a1-m29-cB_4bml-a1-m43-cD 4bml-a1-m29-cC_4bml-a1-m30-cA 4bml-a1-m29-cC_4bml-a1-m44-cF 4bml-a1-m29-cD_4bml-a1-m30-cG 4bml-a1-m29-cD_4bml-a1-m43-cB 4bml-a1-m2-cA_4bml-a1-m42-cB 4bml-a1-m2-cB_4bml-a1-m22-cA 4bml-a1-m2-cB_4bml-a1-m41-cD 4bml-a1-m2-cC_4bml-a1-m3-cA 4bml-a1-m2-cC_4bml-a1-m42-cF 4bml-a1-m2-cD_4bml-a1-m3-cG 4bml-a1-m2-cD_4bml-a1-m41-cB 4bml-a1-m2-cF_4bml-a1-m22-cC 4bml-a1-m30-cB_4bml-a1-m43-cA 4bml-a1-m30-cF_4bml-a1-m43-cC 4bml-a1-m31-cA_4bml-a1-m35-cC 4bml-a1-m31-cA_4bml-a1-m58-cB 4bml-a1-m31-cB_4bml-a1-m40-cA 4bml-a1-m31-cB_4bml-a1-m57-cD 4bml-a1-m31-cC_4bml-a1-m32-cA 4bml-a1-m31-cC_4bml-a1-m58-cF 4bml-a1-m31-cD_4bml-a1-m32-cG 4bml-a1-m31-cD_4bml-a1-m57-cB 4bml-a1-m31-cF_4bml-a1-m40-cC 4bml-a1-m31-cG_4bml-a1-m35-cD 4bml-a1-m32-cA_4bml-a1-m7-cB 4bml-a1-m32-cB_4bml-a1-m57-cA 4bml-a1-m32-cB_4bml-a1-m6-cD 4bml-a1-m32-cC_4bml-a1-m33-cA 4bml-a1-m32-cC_4bml-a1-m7-cF 4bml-a1-m32-cD_4bml-a1-m33-cG 4bml-a1-m32-cD_4bml-a1-m6-cB 4bml-a1-m32-cF_4bml-a1-m57-cC 4bml-a1-m33-cA_4bml-a1-m5-cB 4bml-a1-m33-cB_4bml-a1-m4-cD 4bml-a1-m33-cB_4bml-a1-m6-cA 4bml-a1-m33-cC_4bml-a1-m34-cA 4bml-a1-m33-cC_4bml-a1-m5-cF 4bml-a1-m33-cD_4bml-a1-m34-cG 4bml-a1-m33-cD_4bml-a1-m4-cB 4bml-a1-m33-cF_4bml-a1-m6-cC 4bml-a1-m34-cA_4bml-a1-m49-cB 4bml-a1-m34-cB_4bml-a1-m48-cD 4bml-a1-m34-cB_4bml-a1-m4-cA 4bml-a1-m34-cC_4bml-a1-m35-cA 4bml-a1-m34-cC_4bml-a1-m49-cF 4bml-a1-m34-cD_4bml-a1-m35-cG 4bml-a1-m34-cD_4bml-a1-m48-cB 4bml-a1-m34-cF_4bml-a1-m4-cC 4bml-a1-m35-cA_4bml-a1-m36-cB 4bml-a1-m35-cB_4bml-a1-m40-cD 4bml-a1-m35-cB_4bml-a1-m48-cA 4bml-a1-m35-cC_4bml-a1-m36-cF 4bml-a1-m35-cD_4bml-a1-m40-cB 4bml-a1-m35-cF_4bml-a1-m48-cC 4bml-a1-m36-cA_4bml-a1-m40-cC 4bml-a1-m36-cA_4bml-a1-m48-cB 4bml-a1-m36-cB_4bml-a1-m47-cD 4bml-a1-m36-cC_4bml-a1-m37-cA 4bml-a1-m36-cC_4bml-a1-m48-cF 4bml-a1-m36-cD_4bml-a1-m37-cG 4bml-a1-m36-cD_4bml-a1-m47-cB 4bml-a1-m36-cG_4bml-a1-m40-cD 4bml-a1-m37-cB_4bml-a1-m47-cA 4bml-a1-m37-cC_4bml-a1-m38-cA 4bml-a1-m37-cD_4bml-a1-m38-cG 4bml-a1-m37-cF_4bml-a1-m47-cC 4bml-a1-m38-cC_4bml-a1-m39-cA 4bml-a1-m38-cD_4bml-a1-m39-cG 4bml-a1-m39-cA_4bml-a1-m59-cB 4bml-a1-m39-cB_4bml-a1-m58-cD 4bml-a1-m39-cC_4bml-a1-m40-cA 4bml-a1-m39-cC_4bml-a1-m59-cF 4bml-a1-m39-cD_4bml-a1-m40-cG 4bml-a1-m39-cD_4bml-a1-m58-cB 4bml-a1-m3-cA_4bml-a1-m50-cB 4bml-a1-m3-cB_4bml-a1-m41-cA 4bml-a1-m3-cB_4bml-a1-m49-cD 4bml-a1-m3-cC_4bml-a1-m4-cA 4bml-a1-m3-cC_4bml-a1-m50-cF 4bml-a1-m3-cD_4bml-a1-m49-cB 4bml-a1-m3-cD_4bml-a1-m4-cG 4bml-a1-m3-cF_4bml-a1-m41-cC 4bml-a1-m40-cB_4bml-a1-m58-cA 4bml-a1-m40-cF_4bml-a1-m58-cC 4bml-a1-m41-cA_4bml-a1-m45-cC 4bml-a1-m41-cB_4bml-a1-m50-cA 4bml-a1-m41-cC_4bml-a1-m42-cA 4bml-a1-m41-cD_4bml-a1-m42-cG 4bml-a1-m41-cF_4bml-a1-m50-cC 4bml-a1-m41-cG_4bml-a1-m45-cD 4bml-a1-m42-cC_4bml-a1-m43-cA 4bml-a1-m42-cD_4bml-a1-m43-cG 4bml-a1-m43-cC_4bml-a1-m44-cA 4bml-a1-m43-cD_4bml-a1-m44-cG 4bml-a1-m44-cC_4bml-a1-m45-cA 4bml-a1-m44-cD_4bml-a1-m45-cG 4bml-a1-m45-cA_4bml-a1-m46-cB 4bml-a1-m45-cB_4bml-a1-m50-cD 4bml-a1-m45-cC_4bml-a1-m46-cF 4bml-a1-m45-cD_4bml-a1-m50-cB 4bml-a1-m46-cA_4bml-a1-m50-cC 4bml-a1-m46-cC_4bml-a1-m47-cA 4bml-a1-m46-cD_4bml-a1-m47-cG 4bml-a1-m46-cG_4bml-a1-m50-cD 4bml-a1-m47-cC_4bml-a1-m48-cA 4bml-a1-m47-cD_4bml-a1-m48-cG 4bml-a1-m48-cC_4bml-a1-m49-cA 4bml-a1-m48-cD_4bml-a1-m49-cG 4bml-a1-m49-cC_4bml-a1-m50-cA 4bml-a1-m49-cD_4bml-a1-m50-cG 4bml-a1-m4-cB_4bml-a1-m49-cA 4bml-a1-m4-cC_4bml-a1-m5-cA 4bml-a1-m4-cD_4bml-a1-m5-cG 4bml-a1-m4-cF_4bml-a1-m49-cC 4bml-a1-m51-cA_4bml-a1-m55-cC 4bml-a1-m51-cB_4bml-a1-m60-cA 4bml-a1-m51-cC_4bml-a1-m52-cA 4bml-a1-m51-cD_4bml-a1-m52-cG 4bml-a1-m51-cF_4bml-a1-m60-cC 4bml-a1-m51-cG_4bml-a1-m55-cD 4bml-a1-m52-cC_4bml-a1-m53-cA 4bml-a1-m52-cD_4bml-a1-m53-cG 4bml-a1-m53-cC_4bml-a1-m54-cA 4bml-a1-m53-cD_4bml-a1-m54-cG 4bml-a1-m54-cB_4bml-a1-m8-cD 4bml-a1-m54-cC_4bml-a1-m55-cA 4bml-a1-m54-cC_4bml-a1-m9-cF 4bml-a1-m54-cD_4bml-a1-m55-cG 4bml-a1-m54-cD_4bml-a1-m8-cB 4bml-a1-m55-cA_4bml-a1-m56-cB 4bml-a1-m55-cB_4bml-a1-m60-cD 4bml-a1-m55-cB_4bml-a1-m8-cA 4bml-a1-m55-cC_4bml-a1-m56-cF 4bml-a1-m55-cD_4bml-a1-m60-cB 4bml-a1-m55-cF_4bml-a1-m8-cC 4bml-a1-m56-cA_4bml-a1-m60-cC 4bml-a1-m56-cA_4bml-a1-m8-cB 4bml-a1-m56-cB_4bml-a1-m7-cD 4bml-a1-m56-cC_4bml-a1-m57-cA 4bml-a1-m56-cC_4bml-a1-m8-cF 4bml-a1-m56-cD_4bml-a1-m57-cG 4bml-a1-m56-cD_4bml-a1-m7-cB 4bml-a1-m56-cG_4bml-a1-m60-cD 4bml-a1-m57-cB_4bml-a1-m7-cA 4bml-a1-m57-cC_4bml-a1-m58-cA 4bml-a1-m57-cD_4bml-a1-m58-cG 4bml-a1-m57-cF_4bml-a1-m7-cC 4bml-a1-m58-cC_4bml-a1-m59-cA 4bml-a1-m58-cD_4bml-a1-m59-cG 4bml-a1-m59-cC_4bml-a1-m60-cA 4bml-a1-m59-cD_4bml-a1-m60-cG 4bml-a1-m5-cA_4bml-a1-m6-cB 4bml-a1-m5-cC_4bml-a1-m6-cF 4bml-a1-m6-cC_4bml-a1-m7-cA 4bml-a1-m6-cD_4bml-a1-m7-cG 4bml-a1-m7-cC_4bml-a1-m8-cA 4bml-a1-m7-cD_4bml-a1-m8-cG 4bml-a1-m8-cC_4bml-a1-m9-cA 4bml-a1-m8-cD_4bml-a1-m9-cG VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA 4bml-a1-m7-cG_4bml-a1-m9-cG C-alpha backbone trace of major capsid protein gp39 found in marine virus Syn5. A4ZRC0 A4ZRC0 4.7 ELECTRON MICROSCOPY 32 1.0 438482 (Voetvirus syn5) 438482 (Voetvirus syn5) 309 309 4bml-a1-m10-cG_4bml-a1-m7-cG 4bml-a1-m10-cG_4bml-a1-m8-cG 4bml-a1-m11-cG_4bml-a1-m13-cG 4bml-a1-m11-cG_4bml-a1-m14-cG 4bml-a1-m12-cG_4bml-a1-m14-cG 4bml-a1-m12-cG_4bml-a1-m15-cG 4bml-a1-m13-cG_4bml-a1-m15-cG 4bml-a1-m16-cG_4bml-a1-m18-cG 4bml-a1-m16-cG_4bml-a1-m19-cG 4bml-a1-m17-cG_4bml-a1-m19-cG 4bml-a1-m17-cG_4bml-a1-m20-cG 4bml-a1-m18-cG_4bml-a1-m20-cG 4bml-a1-m1-cG_4bml-a1-m3-cG 4bml-a1-m1-cG_4bml-a1-m4-cG 4bml-a1-m21-cG_4bml-a1-m23-cG 4bml-a1-m21-cG_4bml-a1-m24-cG 4bml-a1-m22-cG_4bml-a1-m24-cG 4bml-a1-m22-cG_4bml-a1-m25-cG 4bml-a1-m23-cG_4bml-a1-m25-cG 4bml-a1-m26-cG_4bml-a1-m28-cG 4bml-a1-m26-cG_4bml-a1-m29-cG 4bml-a1-m27-cG_4bml-a1-m29-cG 4bml-a1-m27-cG_4bml-a1-m30-cG 4bml-a1-m28-cG_4bml-a1-m30-cG 4bml-a1-m2-cG_4bml-a1-m4-cG 4bml-a1-m2-cG_4bml-a1-m5-cG 4bml-a1-m31-cG_4bml-a1-m33-cG 4bml-a1-m31-cG_4bml-a1-m34-cG 4bml-a1-m32-cG_4bml-a1-m34-cG 4bml-a1-m32-cG_4bml-a1-m35-cG 4bml-a1-m33-cG_4bml-a1-m35-cG 4bml-a1-m36-cG_4bml-a1-m38-cG 4bml-a1-m36-cG_4bml-a1-m39-cG 4bml-a1-m37-cG_4bml-a1-m39-cG 4bml-a1-m37-cG_4bml-a1-m40-cG 4bml-a1-m38-cG_4bml-a1-m40-cG 4bml-a1-m3-cG_4bml-a1-m5-cG 4bml-a1-m41-cG_4bml-a1-m43-cG 4bml-a1-m41-cG_4bml-a1-m44-cG 4bml-a1-m42-cG_4bml-a1-m44-cG 4bml-a1-m42-cG_4bml-a1-m45-cG 4bml-a1-m43-cG_4bml-a1-m45-cG 4bml-a1-m46-cG_4bml-a1-m48-cG 4bml-a1-m46-cG_4bml-a1-m49-cG 4bml-a1-m47-cG_4bml-a1-m49-cG 4bml-a1-m47-cG_4bml-a1-m50-cG 4bml-a1-m48-cG_4bml-a1-m50-cG 4bml-a1-m51-cG_4bml-a1-m53-cG 4bml-a1-m51-cG_4bml-a1-m54-cG 4bml-a1-m52-cG_4bml-a1-m54-cG 4bml-a1-m52-cG_4bml-a1-m55-cG 4bml-a1-m53-cG_4bml-a1-m55-cG 4bml-a1-m56-cG_4bml-a1-m58-cG 4bml-a1-m56-cG_4bml-a1-m59-cG 4bml-a1-m57-cG_4bml-a1-m59-cG 4bml-a1-m57-cG_4bml-a1-m60-cG 4bml-a1-m58-cG_4bml-a1-m60-cG 4bml-a1-m6-cG_4bml-a1-m8-cG 4bml-a1-m6-cG_4bml-a1-m9-cG VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA 4bml-a1-m8-cF_4bml-a1-m9-cG C-alpha backbone trace of major capsid protein gp39 found in marine virus Syn5. A4ZRC0 A4ZRC0 4.7 ELECTRON MICROSCOPY 21 1.0 438482 (Voetvirus syn5) 438482 (Voetvirus syn5) 309 309 4bml-a1-m10-cD_4bml-a1-m5-cD 4bml-a1-m10-cF_4bml-a1-m6-cG 4bml-a1-m10-cG_4bml-a1-m9-cF 4bml-a1-m11-cD_4bml-a1-m37-cD 4bml-a1-m11-cF_4bml-a1-m12-cG 4bml-a1-m11-cG_4bml-a1-m15-cF 4bml-a1-m12-cD_4bml-a1-m46-cD 4bml-a1-m12-cF_4bml-a1-m13-cG 4bml-a1-m13-cD_4bml-a1-m44-cD 4bml-a1-m13-cF_4bml-a1-m14-cG 4bml-a1-m14-cD_4bml-a1-m28-cD 4bml-a1-m14-cF_4bml-a1-m15-cG 4bml-a1-m15-cD_4bml-a1-m20-cD 4bml-a1-m16-cD_4bml-a1-m27-cD 4bml-a1-m16-cF_4bml-a1-m17-cG 4bml-a1-m16-cG_4bml-a1-m20-cF 4bml-a1-m17-cD_4bml-a1-m51-cD 4bml-a1-m17-cF_4bml-a1-m18-cG 4bml-a1-m18-cD_4bml-a1-m59-cD 4bml-a1-m18-cF_4bml-a1-m19-cG 4bml-a1-m19-cD_4bml-a1-m38-cD 4bml-a1-m19-cF_4bml-a1-m20-cG 4bml-a1-m1-cD_4bml-a1-m22-cD 4bml-a1-m1-cF_4bml-a1-m2-cG 4bml-a1-m1-cG_4bml-a1-m5-cF 4bml-a1-m21-cD_4bml-a1-m42-cD 4bml-a1-m21-cF_4bml-a1-m22-cG 4bml-a1-m21-cG_4bml-a1-m25-cF 4bml-a1-m22-cF_4bml-a1-m23-cG 4bml-a1-m23-cD_4bml-a1-m9-cD 4bml-a1-m23-cF_4bml-a1-m24-cG 4bml-a1-m24-cD_4bml-a1-m53-cD 4bml-a1-m24-cF_4bml-a1-m25-cG 4bml-a1-m25-cD_4bml-a1-m30-cD 4bml-a1-m26-cD_4bml-a1-m52-cD 4bml-a1-m26-cF_4bml-a1-m27-cG 4bml-a1-m26-cG_4bml-a1-m30-cF 4bml-a1-m27-cF_4bml-a1-m28-cG 4bml-a1-m28-cF_4bml-a1-m29-cG 4bml-a1-m29-cD_4bml-a1-m43-cD 4bml-a1-m29-cF_4bml-a1-m30-cG 4bml-a1-m2-cD_4bml-a1-m41-cD 4bml-a1-m2-cF_4bml-a1-m3-cG 4bml-a1-m31-cD_4bml-a1-m57-cD 4bml-a1-m31-cF_4bml-a1-m32-cG 4bml-a1-m31-cG_4bml-a1-m35-cF 4bml-a1-m32-cD_4bml-a1-m6-cD 4bml-a1-m32-cF_4bml-a1-m33-cG 4bml-a1-m33-cD_4bml-a1-m4-cD 4bml-a1-m33-cF_4bml-a1-m34-cG 4bml-a1-m34-cD_4bml-a1-m48-cD 4bml-a1-m34-cF_4bml-a1-m35-cG 4bml-a1-m35-cD_4bml-a1-m40-cD 4bml-a1-m36-cD_4bml-a1-m47-cD 4bml-a1-m36-cF_4bml-a1-m37-cG 4bml-a1-m36-cG_4bml-a1-m40-cF 4bml-a1-m37-cF_4bml-a1-m38-cG 4bml-a1-m38-cF_4bml-a1-m39-cG 4bml-a1-m39-cD_4bml-a1-m58-cD 4bml-a1-m39-cF_4bml-a1-m40-cG 4bml-a1-m3-cD_4bml-a1-m49-cD 4bml-a1-m3-cF_4bml-a1-m4-cG 4bml-a1-m41-cF_4bml-a1-m42-cG 4bml-a1-m41-cG_4bml-a1-m45-cF 4bml-a1-m42-cF_4bml-a1-m43-cG 4bml-a1-m43-cF_4bml-a1-m44-cG 4bml-a1-m44-cF_4bml-a1-m45-cG 4bml-a1-m45-cD_4bml-a1-m50-cD 4bml-a1-m46-cF_4bml-a1-m47-cG 4bml-a1-m46-cG_4bml-a1-m50-cF 4bml-a1-m47-cF_4bml-a1-m48-cG 4bml-a1-m48-cF_4bml-a1-m49-cG 4bml-a1-m49-cF_4bml-a1-m50-cG 4bml-a1-m4-cF_4bml-a1-m5-cG 4bml-a1-m51-cF_4bml-a1-m52-cG 4bml-a1-m51-cG_4bml-a1-m55-cF 4bml-a1-m52-cF_4bml-a1-m53-cG 4bml-a1-m53-cF_4bml-a1-m54-cG 4bml-a1-m54-cD_4bml-a1-m8-cD 4bml-a1-m54-cF_4bml-a1-m55-cG 4bml-a1-m55-cD_4bml-a1-m60-cD 4bml-a1-m56-cD_4bml-a1-m7-cD 4bml-a1-m56-cF_4bml-a1-m57-cG 4bml-a1-m56-cG_4bml-a1-m60-cF 4bml-a1-m57-cF_4bml-a1-m58-cG 4bml-a1-m58-cF_4bml-a1-m59-cG 4bml-a1-m59-cF_4bml-a1-m60-cG 4bml-a1-m6-cF_4bml-a1-m7-cG 4bml-a1-m7-cF_4bml-a1-m8-cG VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA 4bml-a1-m9-cA_4bml-a1-m9-cB C-alpha backbone trace of major capsid protein gp39 found in marine virus Syn5. A4ZRC0 A4ZRC0 4.7 ELECTRON MICROSCOPY 209 1.0 438482 (Voetvirus syn5) 438482 (Voetvirus syn5) 309 309 4bml-a1-m10-cA_4bml-a1-m10-cB 4bml-a1-m10-cA_4bml-a1-m10-cF 4bml-a1-m10-cB_4bml-a1-m10-cC 4bml-a1-m10-cC_4bml-a1-m10-cD 4bml-a1-m10-cD_4bml-a1-m10-cE 4bml-a1-m10-cE_4bml-a1-m10-cF 4bml-a1-m10-cG_4bml-a1-m6-cG 4bml-a1-m10-cG_4bml-a1-m9-cG 4bml-a1-m11-cA_4bml-a1-m11-cB 4bml-a1-m11-cA_4bml-a1-m11-cF 4bml-a1-m11-cB_4bml-a1-m11-cC 4bml-a1-m11-cC_4bml-a1-m11-cD 4bml-a1-m11-cD_4bml-a1-m11-cE 4bml-a1-m11-cE_4bml-a1-m11-cF 4bml-a1-m11-cG_4bml-a1-m12-cG 4bml-a1-m11-cG_4bml-a1-m15-cG 4bml-a1-m12-cA_4bml-a1-m12-cB 4bml-a1-m12-cA_4bml-a1-m12-cF 4bml-a1-m12-cB_4bml-a1-m12-cC 4bml-a1-m12-cC_4bml-a1-m12-cD 4bml-a1-m12-cD_4bml-a1-m12-cE 4bml-a1-m12-cE_4bml-a1-m12-cF 4bml-a1-m12-cG_4bml-a1-m13-cG 4bml-a1-m13-cA_4bml-a1-m13-cB 4bml-a1-m13-cA_4bml-a1-m13-cF 4bml-a1-m13-cB_4bml-a1-m13-cC 4bml-a1-m13-cC_4bml-a1-m13-cD 4bml-a1-m13-cD_4bml-a1-m13-cE 4bml-a1-m13-cE_4bml-a1-m13-cF 4bml-a1-m13-cG_4bml-a1-m14-cG 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4bml-a1-m57-cA_4bml-a1-m57-cB 4bml-a1-m57-cA_4bml-a1-m57-cF 4bml-a1-m57-cB_4bml-a1-m57-cC 4bml-a1-m57-cC_4bml-a1-m57-cD 4bml-a1-m57-cD_4bml-a1-m57-cE 4bml-a1-m57-cE_4bml-a1-m57-cF 4bml-a1-m57-cG_4bml-a1-m58-cG 4bml-a1-m58-cA_4bml-a1-m58-cB 4bml-a1-m58-cA_4bml-a1-m58-cF 4bml-a1-m58-cB_4bml-a1-m58-cC 4bml-a1-m58-cC_4bml-a1-m58-cD 4bml-a1-m58-cD_4bml-a1-m58-cE 4bml-a1-m58-cE_4bml-a1-m58-cF 4bml-a1-m58-cG_4bml-a1-m59-cG 4bml-a1-m59-cA_4bml-a1-m59-cB 4bml-a1-m59-cA_4bml-a1-m59-cF 4bml-a1-m59-cB_4bml-a1-m59-cC 4bml-a1-m59-cC_4bml-a1-m59-cD 4bml-a1-m59-cD_4bml-a1-m59-cE 4bml-a1-m59-cE_4bml-a1-m59-cF 4bml-a1-m59-cG_4bml-a1-m60-cG 4bml-a1-m5-cA_4bml-a1-m5-cB 4bml-a1-m5-cA_4bml-a1-m5-cF 4bml-a1-m5-cB_4bml-a1-m5-cC 4bml-a1-m5-cC_4bml-a1-m5-cD 4bml-a1-m5-cD_4bml-a1-m5-cE 4bml-a1-m5-cE_4bml-a1-m5-cF 4bml-a1-m60-cA_4bml-a1-m60-cB 4bml-a1-m60-cA_4bml-a1-m60-cF 4bml-a1-m60-cB_4bml-a1-m60-cC 4bml-a1-m60-cC_4bml-a1-m60-cD 4bml-a1-m60-cD_4bml-a1-m60-cE 4bml-a1-m60-cE_4bml-a1-m60-cF 4bml-a1-m6-cA_4bml-a1-m6-cB 4bml-a1-m6-cA_4bml-a1-m6-cF 4bml-a1-m6-cB_4bml-a1-m6-cC 4bml-a1-m6-cC_4bml-a1-m6-cD 4bml-a1-m6-cD_4bml-a1-m6-cE 4bml-a1-m6-cE_4bml-a1-m6-cF 4bml-a1-m6-cG_4bml-a1-m7-cG 4bml-a1-m7-cA_4bml-a1-m7-cB 4bml-a1-m7-cA_4bml-a1-m7-cF 4bml-a1-m7-cB_4bml-a1-m7-cC 4bml-a1-m7-cC_4bml-a1-m7-cD 4bml-a1-m7-cD_4bml-a1-m7-cE 4bml-a1-m7-cE_4bml-a1-m7-cF 4bml-a1-m7-cG_4bml-a1-m8-cG 4bml-a1-m8-cA_4bml-a1-m8-cB 4bml-a1-m8-cA_4bml-a1-m8-cF 4bml-a1-m8-cB_4bml-a1-m8-cC 4bml-a1-m8-cC_4bml-a1-m8-cD 4bml-a1-m8-cD_4bml-a1-m8-cE 4bml-a1-m8-cE_4bml-a1-m8-cF 4bml-a1-m8-cG_4bml-a1-m9-cG 4bml-a1-m9-cA_4bml-a1-m9-cF 4bml-a1-m9-cB_4bml-a1-m9-cC 4bml-a1-m9-cC_4bml-a1-m9-cD 4bml-a1-m9-cD_4bml-a1-m9-cE 4bml-a1-m9-cE_4bml-a1-m9-cF VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA 4bml-a1-m9-cF_4bml-a1-m9-cG C-alpha backbone trace of major capsid protein gp39 found in marine virus Syn5. A4ZRC0 A4ZRC0 4.7 ELECTRON MICROSCOPY 21 1.0 438482 (Voetvirus syn5) 438482 (Voetvirus syn5) 309 309 4bml-a1-m10-cA_4bml-a1-m9-cD 4bml-a1-m10-cD_4bml-a1-m6-cA 4bml-a1-m10-cF_4bml-a1-m10-cG 4bml-a1-m11-cA_4bml-a1-m15-cD 4bml-a1-m11-cD_4bml-a1-m12-cA 4bml-a1-m11-cF_4bml-a1-m11-cG 4bml-a1-m12-cD_4bml-a1-m13-cA 4bml-a1-m12-cF_4bml-a1-m12-cG 4bml-a1-m13-cD_4bml-a1-m14-cA 4bml-a1-m13-cF_4bml-a1-m13-cG 4bml-a1-m14-cD_4bml-a1-m15-cA 4bml-a1-m14-cF_4bml-a1-m14-cG 4bml-a1-m15-cF_4bml-a1-m15-cG 4bml-a1-m16-cA_4bml-a1-m20-cD 4bml-a1-m16-cD_4bml-a1-m17-cA 4bml-a1-m16-cF_4bml-a1-m16-cG 4bml-a1-m17-cD_4bml-a1-m18-cA 4bml-a1-m17-cF_4bml-a1-m17-cG 4bml-a1-m18-cD_4bml-a1-m19-cA 4bml-a1-m18-cF_4bml-a1-m18-cG 4bml-a1-m19-cD_4bml-a1-m20-cA 4bml-a1-m19-cF_4bml-a1-m19-cG 4bml-a1-m1-cA_4bml-a1-m5-cD 4bml-a1-m1-cD_4bml-a1-m2-cA 4bml-a1-m1-cF_4bml-a1-m1-cG 4bml-a1-m20-cF_4bml-a1-m20-cG 4bml-a1-m21-cA_4bml-a1-m25-cD 4bml-a1-m21-cD_4bml-a1-m22-cA 4bml-a1-m21-cF_4bml-a1-m21-cG 4bml-a1-m22-cD_4bml-a1-m23-cA 4bml-a1-m22-cF_4bml-a1-m22-cG 4bml-a1-m23-cD_4bml-a1-m24-cA 4bml-a1-m23-cF_4bml-a1-m23-cG 4bml-a1-m24-cD_4bml-a1-m25-cA 4bml-a1-m24-cF_4bml-a1-m24-cG 4bml-a1-m25-cF_4bml-a1-m25-cG 4bml-a1-m26-cA_4bml-a1-m30-cD 4bml-a1-m26-cD_4bml-a1-m27-cA 4bml-a1-m26-cF_4bml-a1-m26-cG 4bml-a1-m27-cD_4bml-a1-m28-cA 4bml-a1-m27-cF_4bml-a1-m27-cG 4bml-a1-m28-cD_4bml-a1-m29-cA 4bml-a1-m28-cF_4bml-a1-m28-cG 4bml-a1-m29-cD_4bml-a1-m30-cA 4bml-a1-m29-cF_4bml-a1-m29-cG 4bml-a1-m2-cD_4bml-a1-m3-cA 4bml-a1-m2-cF_4bml-a1-m2-cG 4bml-a1-m30-cF_4bml-a1-m30-cG 4bml-a1-m31-cA_4bml-a1-m35-cD 4bml-a1-m31-cD_4bml-a1-m32-cA 4bml-a1-m31-cF_4bml-a1-m31-cG 4bml-a1-m32-cD_4bml-a1-m33-cA 4bml-a1-m32-cF_4bml-a1-m32-cG 4bml-a1-m33-cD_4bml-a1-m34-cA 4bml-a1-m33-cF_4bml-a1-m33-cG 4bml-a1-m34-cD_4bml-a1-m35-cA 4bml-a1-m34-cF_4bml-a1-m34-cG 4bml-a1-m35-cF_4bml-a1-m35-cG 4bml-a1-m36-cA_4bml-a1-m40-cD 4bml-a1-m36-cD_4bml-a1-m37-cA 4bml-a1-m36-cF_4bml-a1-m36-cG 4bml-a1-m37-cD_4bml-a1-m38-cA 4bml-a1-m37-cF_4bml-a1-m37-cG 4bml-a1-m38-cD_4bml-a1-m39-cA 4bml-a1-m38-cF_4bml-a1-m38-cG 4bml-a1-m39-cD_4bml-a1-m40-cA 4bml-a1-m39-cF_4bml-a1-m39-cG 4bml-a1-m3-cD_4bml-a1-m4-cA 4bml-a1-m3-cF_4bml-a1-m3-cG 4bml-a1-m40-cF_4bml-a1-m40-cG 4bml-a1-m41-cA_4bml-a1-m45-cD 4bml-a1-m41-cD_4bml-a1-m42-cA 4bml-a1-m41-cF_4bml-a1-m41-cG 4bml-a1-m42-cD_4bml-a1-m43-cA 4bml-a1-m42-cF_4bml-a1-m42-cG 4bml-a1-m43-cD_4bml-a1-m44-cA 4bml-a1-m43-cF_4bml-a1-m43-cG 4bml-a1-m44-cD_4bml-a1-m45-cA 4bml-a1-m44-cF_4bml-a1-m44-cG 4bml-a1-m45-cF_4bml-a1-m45-cG 4bml-a1-m46-cA_4bml-a1-m50-cD 4bml-a1-m46-cD_4bml-a1-m47-cA 4bml-a1-m46-cF_4bml-a1-m46-cG 4bml-a1-m47-cD_4bml-a1-m48-cA 4bml-a1-m47-cF_4bml-a1-m47-cG 4bml-a1-m48-cD_4bml-a1-m49-cA 4bml-a1-m48-cF_4bml-a1-m48-cG 4bml-a1-m49-cD_4bml-a1-m50-cA 4bml-a1-m49-cF_4bml-a1-m49-cG 4bml-a1-m4-cD_4bml-a1-m5-cA 4bml-a1-m4-cF_4bml-a1-m4-cG 4bml-a1-m50-cF_4bml-a1-m50-cG 4bml-a1-m51-cA_4bml-a1-m55-cD 4bml-a1-m51-cD_4bml-a1-m52-cA 4bml-a1-m51-cF_4bml-a1-m51-cG 4bml-a1-m52-cD_4bml-a1-m53-cA 4bml-a1-m52-cF_4bml-a1-m52-cG 4bml-a1-m53-cD_4bml-a1-m54-cA 4bml-a1-m53-cF_4bml-a1-m53-cG 4bml-a1-m54-cD_4bml-a1-m55-cA 4bml-a1-m54-cF_4bml-a1-m54-cG 4bml-a1-m55-cF_4bml-a1-m55-cG 4bml-a1-m56-cA_4bml-a1-m60-cD 4bml-a1-m56-cD_4bml-a1-m57-cA 4bml-a1-m56-cF_4bml-a1-m56-cG 4bml-a1-m57-cD_4bml-a1-m58-cA 4bml-a1-m57-cF_4bml-a1-m57-cG 4bml-a1-m58-cD_4bml-a1-m59-cA 4bml-a1-m58-cF_4bml-a1-m58-cG 4bml-a1-m59-cD_4bml-a1-m60-cA 4bml-a1-m59-cF_4bml-a1-m59-cG 4bml-a1-m5-cF_4bml-a1-m5-cG 4bml-a1-m60-cF_4bml-a1-m60-cG 4bml-a1-m6-cD_4bml-a1-m7-cA 4bml-a1-m6-cF_4bml-a1-m6-cG 4bml-a1-m7-cD_4bml-a1-m8-cA 4bml-a1-m7-cF_4bml-a1-m7-cG 4bml-a1-m8-cD_4bml-a1-m9-cA 4bml-a1-m8-cF_4bml-a1-m8-cG VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA VRYATALKLFSGEVFTAFNNASIFKGLVRSYDLRGGKSKQFMFTGKLSAGYHTPGTPIVGDAGIKANEKTLVMDDLLVSSQFVYSLDEIFSQYSTRAEVSKQIGEALATHYDERIARVLAKASAEASPVTGEPGGFHVNIGAGNTNDAQAIVDGFFEAAAVLDERSAPQEGRVAVLSPRQYYSLISSVDTNILNREIGNSQGDMNSGKGLYSIAGIRILKSNNLAGLYGQDLSSAAVTGENNDYQVDASALAGLIFHREAAGCIQSVAPTIQTTSGDFNVQYQGDLIVGKLAMGCGSLRTSVAGSFQAA 4bmm-a1-m1-cB_4bmm-a1-m1-cD Crystal structure of Trypanosoma cruzi CYP51 bound to the inhibitor (R)-N-(3-(1H-indol-3-yl)-1-oxo-1-(pyridin-4-ylamino)propan-2-yl)-2',3, 5'-trifluoro-(1,1'-biphenyl)-4-carboxamide Q7Z1V1 Q7Z1V1 2.84 X-RAY DIFFRACTION 72 0.998 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 442 442 2wuz-a1-m1-cA_2wuz-a1-m1-cB 4bmm-a2-m1-cC_4bmm-a2-m1-cA KLPPVYPVTVPFLGHIVQFGKNPLEFMQRCKRDLKSGVFTISIGGQRVTIVGDPHEHSRFFSPRNEILSPREVYTIMTPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAENWKEDEGVINLLEDCGAMIINTACQCLFGEDLRKRLNARHFAQLLSKMESSLIPAAVFMPWLLRLPLPQSARCREARAELQKILGEIIVAREKEETSDLLGGLLKAVYRDGTRMSLHEVCGMIVAAMFAGQHTSTITTSWSMLHLMHPKNKKWLDKLHKEIDEFPAQLNYDNVMDEMPFAERCVRESIRRDPPLLMVMRMVKAEVKVGSYVVPKGDIIACSPLLSHHDEEAFPNPRLWDPERDEKVDGAFIGFGAGVHKCIGQKFALLQVKTILATAFREYDFQLLRDEVPDPDYHTMVVGPTLNQCLVKYTRKK KLPPVYPVTVPFLGHIVQFGKNPLEFMQRCKRDLKSGVFTISIGGQRVTIVGDPHEHSRFFSPRNEILSPREVYTIMTPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAENWKEDEGVINLLEDCGAMIINTACQCLFGEDLRKRLNARHFAQLLSKMESSLIPAAVFMPWLLRLPLPQSARCREARAELQKILGEIIVAREKEEASDLLGGLLKAVYRDGTRMSLHEVCGMIVAAMFAGQHTSTITTSWSMLHLMHPKNKKWLDKLHKEIDEFPAQLNYDNVMDEMPFAERCVRESIRRDPPLLMVMRMVKAEVKVGSYVVPKGDIIACSPLLSHHDEEAFPNPRLWDPERDEKVDGAFIGFGAGVHKCIGQKFALLQVKTILATAFREYDFQLLRDEVPDPDYHTMVVGPTLNQCLVKYTRKK 4bmv-a5-m1-cJ_4bmv-a5-m1-cG Short-chain dehydrogenase from Sphingobium yanoikuyae in complex with NADPH B9U359 B9U359 2.5 X-RAY DIFFRACTION 262 1.0 13690 (Sphingobium yanoikuyae) 13690 (Sphingobium yanoikuyae) 255 256 4bmv-a1-m1-cA_4bmv-a1-m1-cB 4bmv-a2-m1-cD_4bmv-a2-m1-cC 4bmv-a3-m1-cF_4bmv-a3-m1-cE 4bmv-a4-m1-cI_4bmv-a4-m1-cH LPTVLITGASSGIGATYAERFARRGHDLVLVARDKVRLDALAARLRDESGVAVEALQADLTRPADLAAVEIRLREDARIGILINNAGMAQSGGFVQQTAEGIERLITLNTTALTRLAAAVAPRFVQSGTGAIVNIGSVVGFAPEFGMSIYGATKAFVLFLSQGLNLELSPSGIYVQAVLPAATRTEIWGRAGIDVTLPEVMEVDELVDAALVGFDRRELVTIPPLHVAARWDALDGARQGLMSDIRQAQAADRYR LPTVLITGASSGIGATYAERFARRGHDLVLVARDKVRLDALAARLRDESGVAVEALQADLTRPADLAAVEIRLREDARIGILINNAGMAQSGGFVQQTAEGIERLITLNTTALTRLAAAVAPRFVQSGTGAIVNIGSVVGFAPEFGMSIYGATKAFVLFLSQGLNLELSPSGIYVQAVLPAATRTEIWGRAGIDVNTLPEVMEVDELVDAALVGFDRRELVTIPPLHVAARWDALDGARQGLMSDIRQAQAADRYR 4bmw-a1-m2-cA_4bmw-a1-m8-cA Crystal structure of the Streptomyces reticuli HbpS E78D, E81D double mutant Q9RIM2 Q9RIM2 1.99 X-RAY DIFFRACTION 44 1.0 1926 (Streptomyces reticuli) 1926 (Streptomyces reticuli) 146 146 3fpv-a1-m1-cA_3fpv-a1-m1-cB 3fpv-a1-m1-cC_3fpv-a1-m1-cE 3fpv-a1-m1-cD_3fpv-a1-m1-cG 3fpv-a1-m1-cF_3fpv-a1-m1-cH 3fpw-a1-m1-cA_3fpw-a1-m6-cA 3fpw-a1-m2-cA_3fpw-a1-m5-cA 3fpw-a1-m3-cA_3fpw-a1-m7-cA 3fpw-a1-m4-cA_3fpw-a1-m8-cA 4bmw-a1-m1-cA_4bmw-a1-m3-cA 4bmw-a1-m4-cA_4bmw-a1-m5-cA 4bmw-a1-m6-cA_4bmw-a1-m7-cA PAAAPVAARGGELTQSTHLTLEAATKAARAAVEAAEKDGRHVSVAVVDRNGNTLVTLRGDGAGPQSYDSADRKAFTAVSWNAPTSELAKRLAQAPTLKDIPGTLFLAGGTPVTAKGAPVAGIGVAGAPSGDLDEQYARAGAAVLGH PAAAPVAARGGELTQSTHLTLEAATKAARAAVEAAEKDGRHVSVAVVDRNGNTLVTLRGDGAGPQSYDSADRKAFTAVSWNAPTSELAKRLAQAPTLKDIPGTLFLAGGTPVTAKGAPVAGIGVAGAPSGDLDEQYARAGAAVLGH 4bmw-a1-m4-cA_4bmw-a1-m8-cA Crystal structure of the Streptomyces reticuli HbpS E78D, E81D double mutant Q9RIM2 Q9RIM2 1.99 X-RAY DIFFRACTION 137 1.0 1926 (Streptomyces reticuli) 1926 (Streptomyces reticuli) 146 146 3fpv-a1-m1-cA_3fpv-a1-m1-cF 3fpv-a1-m1-cB_3fpv-a1-m1-cG 3fpv-a1-m1-cC_3fpv-a1-m1-cH 3fpv-a1-m1-cD_3fpv-a1-m1-cE 3fpw-a1-m1-cA_3fpw-a1-m8-cA 3fpw-a1-m2-cA_3fpw-a1-m7-cA 3fpw-a1-m3-cA_3fpw-a1-m6-cA 3fpw-a1-m4-cA_3fpw-a1-m5-cA 4bmw-a1-m1-cA_4bmw-a1-m6-cA 4bmw-a1-m2-cA_4bmw-a1-m3-cA 4bmw-a1-m5-cA_4bmw-a1-m7-cA PAAAPVAARGGELTQSTHLTLEAATKAARAAVEAAEKDGRHVSVAVVDRNGNTLVTLRGDGAGPQSYDSADRKAFTAVSWNAPTSELAKRLAQAPTLKDIPGTLFLAGGTPVTAKGAPVAGIGVAGAPSGDLDEQYARAGAAVLGH PAAAPVAARGGELTQSTHLTLEAATKAARAAVEAAEKDGRHVSVAVVDRNGNTLVTLRGDGAGPQSYDSADRKAFTAVSWNAPTSELAKRLAQAPTLKDIPGTLFLAGGTPVTAKGAPVAGIGVAGAPSGDLDEQYARAGAAVLGH 4bmw-a1-m5-cA_4bmw-a1-m8-cA Crystal structure of the Streptomyces reticuli HbpS E78D, E81D double mutant Q9RIM2 Q9RIM2 1.99 X-RAY DIFFRACTION 42 1.0 1926 (Streptomyces reticuli) 1926 (Streptomyces reticuli) 146 146 3fpv-a1-m1-cA_3fpv-a1-m1-cG 3fpv-a1-m1-cA_3fpv-a1-m1-cH 3fpv-a1-m1-cB_3fpv-a1-m1-cD 3fpv-a1-m1-cB_3fpv-a1-m1-cF 3fpv-a1-m1-cC_3fpv-a1-m1-cD 3fpv-a1-m1-cC_3fpv-a1-m1-cF 3fpv-a1-m1-cE_3fpv-a1-m1-cG 3fpv-a1-m1-cE_3fpv-a1-m1-cH 3fpw-a1-m1-cA_3fpw-a1-m3-cA 3fpw-a1-m1-cA_3fpw-a1-m4-cA 3fpw-a1-m2-cA_3fpw-a1-m3-cA 3fpw-a1-m2-cA_3fpw-a1-m4-cA 3fpw-a1-m5-cA_3fpw-a1-m7-cA 3fpw-a1-m5-cA_3fpw-a1-m8-cA 3fpw-a1-m6-cA_3fpw-a1-m7-cA 3fpw-a1-m6-cA_3fpw-a1-m8-cA 4bmw-a1-m1-cA_4bmw-a1-m2-cA 4bmw-a1-m1-cA_4bmw-a1-m7-cA 4bmw-a1-m2-cA_4bmw-a1-m4-cA 4bmw-a1-m3-cA_4bmw-a1-m6-cA 4bmw-a1-m3-cA_4bmw-a1-m8-cA 4bmw-a1-m4-cA_4bmw-a1-m7-cA 4bmw-a1-m5-cA_4bmw-a1-m6-cA PAAAPVAARGGELTQSTHLTLEAATKAARAAVEAAEKDGRHVSVAVVDRNGNTLVTLRGDGAGPQSYDSADRKAFTAVSWNAPTSELAKRLAQAPTLKDIPGTLFLAGGTPVTAKGAPVAGIGVAGAPSGDLDEQYARAGAAVLGH PAAAPVAARGGELTQSTHLTLEAATKAARAAVEAAEKDGRHVSVAVVDRNGNTLVTLRGDGAGPQSYDSADRKAFTAVSWNAPTSELAKRLAQAPTLKDIPGTLFLAGGTPVTAKGAPVAGIGVAGAPSGDLDEQYARAGAAVLGH 4bnd-a1-m2-cA_4bnd-a1-m1-cB Structure of an atypical alpha-phosphoglucomutase similar to eukaryotic phosphomannomutases A2RIP9 A2RIP9 1.5 X-RAY DIFFRACTION 55 0.996 416870 (Lactococcus cremoris subsp. cremoris MG1363) 416870 (Lactococcus cremoris subsp. cremoris MG1363) 252 253 KMKKILSFDIDNTLNEPKMPIFPEMAELLATLSQKYIIAPISGQKYDQFLIQIINNLPESANLDNFHLFVAQGTQYYAHKAGEWKQVFNYALTDEQANAIMGALEKAAKELGHWDESVLLPGDEINENRESMIAYSAIGQKAGVEAKQAWDPDMTKRNEIAKLASQYAPEFEFEVAGTTTINGFVPGQNKEFGMNHLMEELNVTKEEILYFGDMTQPGGNDYPVVQMGIETITVRDWKETAAILKAIIAMEE AMKKILSFDIDNTLNEPKMPIFPEMAELLATLSQKYIIAPISGQKYDQFLIQIINNLPESANLDNFHLFVAQGTQYYAHKAGEWKQVFNYALTDEQANAIMGALEKAAKELGHWDESVLLPGDEINENRESMIAYSAIGQKAGVEAKQAWDPDMTKRNEIAKLASQYAPEFEFEVAGTTTINGFVPGQNKEFGMNHLMEELNVTKEEILYFGDMTQPGGNDYPVVQMGIETITVRDWKETAAILKAIIAMEEA 4bnd-a2-m1-cA_4bnd-a2-m1-cB Structure of an atypical alpha-phosphoglucomutase similar to eukaryotic phosphomannomutases A2RIP9 A2RIP9 1.5 X-RAY DIFFRACTION 41 0.996 416870 (Lactococcus cremoris subsp. cremoris MG1363) 416870 (Lactococcus cremoris subsp. cremoris MG1363) 252 253 KMKKILSFDIDNTLNEPKMPIFPEMAELLATLSQKYIIAPISGQKYDQFLIQIINNLPESANLDNFHLFVAQGTQYYAHKAGEWKQVFNYALTDEQANAIMGALEKAAKELGHWDESVLLPGDEINENRESMIAYSAIGQKAGVEAKQAWDPDMTKRNEIAKLASQYAPEFEFEVAGTTTINGFVPGQNKEFGMNHLMEELNVTKEEILYFGDMTQPGGNDYPVVQMGIETITVRDWKETAAILKAIIAMEE AMKKILSFDIDNTLNEPKMPIFPEMAELLATLSQKYIIAPISGQKYDQFLIQIINNLPESANLDNFHLFVAQGTQYYAHKAGEWKQVFNYALTDEQANAIMGALEKAAKELGHWDESVLLPGDEINENRESMIAYSAIGQKAGVEAKQAWDPDMTKRNEIAKLASQYAPEFEFEVAGTTTINGFVPGQNKEFGMNHLMEELNVTKEEILYFGDMTQPGGNDYPVVQMGIETITVRDWKETAAILKAIIAMEEA 4bnq-a1-m1-cB_4bnq-a1-m1-cA The structure of the Staphylococcus aureus Ham1 protein P99094 P99094 2.279 X-RAY DIFFRACTION 52 1.0 192 194 KEIVIASNNQGKINDFKVIFPDYHVIGISELIPDFDVEETGSTFEENAILKSEAAAKALNKTVIADDSGLEVFALNGEPGIYSARYAGENKSDEANIEKLLNKLGNTTDRRAQFVCVISMSGPDMETKVFKGTVSGEIADGKYGENGFGYDPIFYVPKLDKTMAQLSKEQKGQISHRRNAINLLQAFLEGEK KEIVIASNNQGKINDFKVIFPDYHVIGISELIPDFDVEETGSTFEENAILKSEAAAKALNKTVIADDSGLEVFALNGEPGIYSARYAGENKSDEANIEKLLNKLGNTTDRRAQFVCVISMSGPDMETKVFKGTVSGEIADGKYGENGFGYDPIFYVPKLDKTMAQLSKEQKGQISHRRNAINLLQAFLEGEKNV 4bnu-a1-m1-cA_4bnu-a1-m1-cB Crystal structure of 3-oxoacyl-(acyl-carrier-protein) reductase (FabG) from Pseudomonas aeruginosa in complex with 2-phenyl-4-(1,2,4- triazol-4-yl)quinazoline at 2.0A resolution O54438 O54438 2 X-RAY DIFFRACTION 62 0.983 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 239 240 4afn-a1-m1-cB_4afn-a1-m1-cA 4afn-a1-m1-cD_4afn-a1-m1-cC 4ag3-a1-m1-cB_4ag3-a1-m1-cA 4ag3-a1-m1-cD_4ag3-a1-m1-cC 4bnt-a1-m1-cB_4bnt-a1-m1-cA 4bnt-a1-m1-cC_4bnt-a1-m1-cD 4bnv-a1-m1-cB_4bnv-a1-m1-cA 4bnw-a1-m1-cD_4bnw-a1-m1-cC 4bnx-a1-m1-cA_4bnx-a1-m1-cB 4bnx-a1-m1-cD_4bnx-a1-m1-cC 4bny-a1-m1-cB_4bny-a1-m1-cA 4bny-a1-m1-cD_4bny-a1-m1-cC 4bo0-a1-m1-cA_4bo0-a1-m1-cB 4bo1-a1-m1-cB_4bo1-a1-m1-cA 4bo2-a1-m1-cB_4bo2-a1-m1-cA 4bo2-a1-m1-cC_4bo2-a1-m1-cD 4bo3-a1-m1-cB_4bo3-a1-m1-cA 4bo3-a1-m1-cD_4bo3-a1-m1-cC 4bo4-a1-m1-cA_4bo4-a1-m1-cB 4bo4-a1-m1-cD_4bo4-a1-m1-cC 4bo5-a1-m1-cC_4bo5-a1-m1-cD 4bo6-a1-m1-cA_4bo6-a1-m1-cB 4bo7-a1-m1-cB_4bo7-a1-m1-cA 4bo7-a1-m1-cD_4bo7-a1-m1-cC 4bo8-a1-m1-cB_4bo8-a1-m1-cA 4bo8-a1-m1-cC_4bo8-a1-m1-cD 4bo9-a1-m1-cA_4bo9-a1-m1-cB 4bo9-a1-m1-cC_4bo9-a1-m1-cD QSMSLQGKVALVTGASRGIGQAIALELGRLGAVVIGTATSASGAEKIAETLKANGVEGAGLVLDVSSDESVAATLEHIQQHLGQPLIVVNNRMKDDEWFDVVNTNLNSLYRLSKAVLRGMTKARWGRIINIGSVVGAMGNAGQTNYAAAKAGLEGFTRALAREVGSRAITVNAVAPGFIDTDMTRELPEAQREALLGQIPLGRLGQAEEIAKVVGFLASDGAAYVTGATVPVNGGMYMS NLYFQSMSLQGKVALVTGASRGIGQAIALELGRLGAVVIGTATSASGAEKIAETLKANGVEGAGLVLDVSSDESVAATLEHIQQHLGQPLIVVNNADEWFDVVNTNLNSLYRLSKAVLRGMTKARWGRIINIGSVVGAMGNAGQTNYAAAKAGLEGFTRALAREVGSRAITVNAVAPGFIDTDMTRELPEAQREALLGQIPLGRLGQAEEIAKVVGFLASDGAAYVTGATVPVNGGMYMS 4bnu-a1-m1-cB_4bnu-a1-m1-cD Crystal structure of 3-oxoacyl-(acyl-carrier-protein) reductase (FabG) from Pseudomonas aeruginosa in complex with 2-phenyl-4-(1,2,4- triazol-4-yl)quinazoline at 2.0A resolution O54438 O54438 2 X-RAY DIFFRACTION 12 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 240 246 4bnt-a1-m1-cB_4bnt-a1-m1-cD 4bnt-a1-m1-cC_4bnt-a1-m1-cA 4bnu-a1-m1-cA_4bnu-a1-m1-cC 4bnw-a1-m1-cA_4bnw-a1-m1-cC 4bnx-a1-m1-cD_4bnx-a1-m1-cB 4bny-a1-m1-cA_4bny-a1-m1-cC 4bny-a1-m1-cB_4bny-a1-m1-cD 4bnz-a1-m1-cA_4bnz-a1-m1-cC 4bnz-a1-m1-cB_4bnz-a1-m1-cD 4bo0-a1-m1-cB_4bo0-a1-m1-cD 4bo1-a1-m1-cB_4bo1-a1-m1-cD 4bo2-a1-m1-cA_4bo2-a1-m1-cC 4bo2-a1-m1-cB_4bo2-a1-m1-cD 4bo4-a1-m1-cB_4bo4-a1-m1-cD 4bo5-a1-m1-cB_4bo5-a1-m1-cD 4bo7-a1-m1-cA_4bo7-a1-m1-cC 4bo7-a1-m1-cB_4bo7-a1-m1-cD 4bo8-a1-m1-cB_4bo8-a1-m1-cD 4bo9-a1-m1-cB_4bo9-a1-m1-cD NLYFQSMSLQGKVALVTGASRGIGQAIALELGRLGAVVIGTATSASGAEKIAETLKANGVEGAGLVLDVSSDESVAATLEHIQQHLGQPLIVVNNADEWFDVVNTNLNSLYRLSKAVLRGMTKARWGRIINIGSVVGAMGNAGQTNYAAAKAGLEGFTRALAREVGSRAITVNAVAPGFIDTDMTRELPEAQREALLGQIPLGRLGQAEEIAKVVGFLASDGAAYVTGATVPVNGGMYMS LYFQSMSLQGKVALVTGASRGIGQAIALELGRLGAVVIGTATSASGAEKIAETLKANGVEGAGLVLDVSSDESVAATLEHIQQHLGQPLIVVNNAGIVRMKDDEWFDVVNTNLNSLYRLSKAVLRGMTKARWGRIINIGSVVGAMGNAGQTNYAAAKAGLEGFTRALAREVGSRAITVNAVAPGFIDTDMTRELPEAQREALLGQIPLGRLGQAEEIAKVVGFLASDGAAYVTGATVPVNGGMYMS 4bnw-a1-m1-cA_4bnw-a1-m1-cD Crystal structure of 3-oxoacyl-(acyl-carrier-protein) reductase (FabG) from Pseudomonas aeruginosa in complex with an unknown ligand at 1. 6A resolution O54438 O54438 1.6 X-RAY DIFFRACTION 114 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 242 246 4afn-a1-m1-cB_4afn-a1-m1-cC 4afn-a1-m1-cD_4afn-a1-m1-cA 4ag3-a1-m1-cB_4ag3-a1-m1-cC 4ag3-a1-m1-cD_4ag3-a1-m1-cA 4bnt-a1-m1-cA_4bnt-a1-m1-cD 4bnt-a1-m1-cB_4bnt-a1-m1-cC 4bnu-a1-m1-cA_4bnu-a1-m1-cD 4bnu-a1-m1-cB_4bnu-a1-m1-cC 4bnv-a1-m1-cA_4bnv-a1-m1-cD 4bnv-a1-m1-cB_4bnv-a1-m1-cC 4bnw-a1-m1-cB_4bnw-a1-m1-cC 4bnx-a1-m1-cA_4bnx-a1-m1-cD 4bnx-a1-m1-cB_4bnx-a1-m1-cC 4bny-a1-m1-cA_4bny-a1-m1-cD 4bny-a1-m1-cB_4bny-a1-m1-cC 4bnz-a1-m1-cA_4bnz-a1-m1-cD 4bnz-a1-m1-cB_4bnz-a1-m1-cC 4bo0-a1-m1-cA_4bo0-a1-m1-cD 4bo1-a1-m1-cA_4bo1-a1-m1-cD 4bo1-a1-m1-cB_4bo1-a1-m1-cC 4bo2-a1-m1-cA_4bo2-a1-m1-cD 4bo2-a1-m1-cB_4bo2-a1-m1-cC 4bo3-a1-m1-cB_4bo3-a1-m1-cC 4bo4-a1-m1-cA_4bo4-a1-m1-cD 4bo5-a1-m1-cC_4bo5-a1-m1-cB 4bo6-a1-m1-cB_4bo6-a1-m1-cC 4bo7-a1-m1-cA_4bo7-a1-m1-cD 4bo7-a1-m1-cB_4bo7-a1-m1-cC 4bo8-a1-m1-cA_4bo8-a1-m1-cD 4bo8-a1-m1-cB_4bo8-a1-m1-cC 4bo9-a1-m1-cA_4bo9-a1-m1-cD 4bo9-a1-m1-cC_4bo9-a1-m1-cB QSMSLQGKVALVTGASRGIGQAIALELGRLGAVVIGTATSASGAEKIAETLKANGVEGAGLVLDVSSDESVAATLEHIQQHLGQPLIVVNNAGIRMKDDEWFDVVNTNLNSLYRLSKAVLRGMTKARWGRIINIGSVVGAMGNAGQTNYAAAKAGLEGFTRALAREVGSRAITVNAVAPGFIDTDMTRELPEAQREALLGQIPLGRLGQAEEIAKVVGFLASDGAAYVTGATVPVNGGMYMS LYFQSMSLQGKVALVTGASRGIGQAIALELGRLGAVVIGTATSASGAEKIAETLKANGVEGAGLVLDVSSDESVAATLEHIQQHLGQPLIVVNNAGIVRMKDDEWFDVVNTNLNSLYRLSKAVLRGMTKARWGRIINIGSVVGAMGNAGQTNYAAAKAGLEGFTRALAREVGSRAITVNAVAPGFIDTDMTRELPEAQREALLGQIPLGRLGQAEEIAKVVGFLASDGAAYVTGATVPVNGGMYMS 4boc-a1-m1-cA_4boc-a1-m2-cA Structure of mitochondrial RNA polymerase elongation complex O00411 O00411 2.65 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 989 989 QLSGQQQRLLAFFKCCLLTDQLPLAHHLLVVHHGQRQKRKLLTLDMYNAVMLGWARQGAFKELVYVLFMVKDAGLTPDLLSYAAALQCMGRQDQDAGTIERCLEQMSQEGLKLQALFTAVLLSEEDRATVLKAVHKVKPTFSLPPQLPPPVNTSKLLRDVYAKDGRVSYPKLHLPLKTLQCLFEKQLHMELASRVCVVSVEKPTLPSKEVKHARKTLKTLRDQWEKALCRALRETKNRLEREVYEGRFSLYPFLCLLDEREVVRMLLQVLQALPAQGESFTTLARELSARTFSRHVVQRQRVSGQVQALQNHYRKYLCLLASDAEVPEPCLPRQYWEELGAPEALREQPWPLPVQMELGKLLAEMLVQATQMPCSLDRSSRLVPVLYHVYSFRNVQQIGILKPHPAYVQLLEKAAEPTLTFEAVDVPMLCPPLPWTSPHSGAFLLSPTKLMRTVEGATQHQELLETCPPTALHGALDALTQLGNCAWRVNGRVLDLVLQLFQAKGCPQLGVPAPPSEAPQPPEAHLPHSAAPARKAELRRELAHCQKVAREMHSLRAEALYRLSLAQHLRDRVFWLPHNMDFRGRTYPCPPHFNHLGSDVARALLEFAQGRPLGPHGLDWLKIHLVNLTGLKKREPLRKRLAFAEEVMDDILDSADQPLTGRKWWMGAEEPWQTLACCMEVANAVRASDPAAYVSHLPVHQDGSCNGLQHYAALGRDSVGAASVNLEPSDVPQDVYSGVAAQVEVFRRQDAQRGMRVAQVLEGFITRKVVKQTVMTVVYGVTRYGGRLQIEKRLRELSDFPQEFVWEASHYLVRQVFKSLQEMFSGTRAIQHWLTESARLISHMGSVVEWVTPLGVPVIQPYRLDSRKPNTRKQKNGFPPNFIHSLDSSHMMLTALHCYRKGLTFVSVHDCYWTHAADVSVMNQVCREQFVRLHSEPILQDLSRFLVKRFCSEPQKILEASQLKETLQAVPKPGAFDLEQVKRSTYFFS QLSGQQQRLLAFFKCCLLTDQLPLAHHLLVVHHGQRQKRKLLTLDMYNAVMLGWARQGAFKELVYVLFMVKDAGLTPDLLSYAAALQCMGRQDQDAGTIERCLEQMSQEGLKLQALFTAVLLSEEDRATVLKAVHKVKPTFSLPPQLPPPVNTSKLLRDVYAKDGRVSYPKLHLPLKTLQCLFEKQLHMELASRVCVVSVEKPTLPSKEVKHARKTLKTLRDQWEKALCRALRETKNRLEREVYEGRFSLYPFLCLLDEREVVRMLLQVLQALPAQGESFTTLARELSARTFSRHVVQRQRVSGQVQALQNHYRKYLCLLASDAEVPEPCLPRQYWEELGAPEALREQPWPLPVQMELGKLLAEMLVQATQMPCSLDRSSRLVPVLYHVYSFRNVQQIGILKPHPAYVQLLEKAAEPTLTFEAVDVPMLCPPLPWTSPHSGAFLLSPTKLMRTVEGATQHQELLETCPPTALHGALDALTQLGNCAWRVNGRVLDLVLQLFQAKGCPQLGVPAPPSEAPQPPEAHLPHSAAPARKAELRRELAHCQKVAREMHSLRAEALYRLSLAQHLRDRVFWLPHNMDFRGRTYPCPPHFNHLGSDVARALLEFAQGRPLGPHGLDWLKIHLVNLTGLKKREPLRKRLAFAEEVMDDILDSADQPLTGRKWWMGAEEPWQTLACCMEVANAVRASDPAAYVSHLPVHQDGSCNGLQHYAALGRDSVGAASVNLEPSDVPQDVYSGVAAQVEVFRRQDAQRGMRVAQVLEGFITRKVVKQTVMTVVYGVTRYGGRLQIEKRLRELSDFPQEFVWEASHYLVRQVFKSLQEMFSGTRAIQHWLTESARLISHMGSVVEWVTPLGVPVIQPYRLDSRKPNTRKQKNGFPPNFIHSLDSSHMMLTALHCYRKGLTFVSVHDCYWTHAADVSVMNQVCREQFVRLHSEPILQDLSRFLVKRFCSEPQKILEASQLKETLQAVPKPGAFDLEQVKRSTYFFS 4bof-a5-m3-cE_4bof-a5-m1-cD Crystal structure of arginine deiminase from group A streptococcus P0C0B3 P0C0B3 2.48 X-RAY DIFFRACTION 65 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 406 409 4bof-a1-m1-cA_4bof-a1-m1-cH 4bof-a2-m1-cC_4bof-a2-m1-cB 4bof-a3-m1-cG_4bof-a3-m1-cF 4bof-a4-m1-cE_4bof-a4-m2-cD PIHVYSEIGKLKKVLLHRPGKEIENLMPDYLERLLFDDIPFLEDAQKEHDAFAQALRDEGIEVLYLETLAAESLVTPEIREAFIDEYLSEANIRGRATKKAIRELLMAIEDNQELIEKTMAGVQKSELPEIPASEKGLTDLVESNYPFAIDPMPNLYFTRDPFATIGTGVSLNHMFSETRNRETLYGKYIFTHHPIYGGGKVPMVYDRNETTRIEGGDELVLSKDVLAVGISQRTDAASIEKLLVNIFKQNLGFKKVLAFEFANNRKFMHLDTVFTMVDYDKFTIHPEIEGDLRVYSVTYDNEELHIVEEKGDLAELLAANLGVEKVDLIRCGGDNLVAAGREQWNDGSNTLTIAPGVVVVYNRNTITNAILESKGLKLIKIHGSELVRGRGGPRCMSMPFEREDI AQTPIHVYSEIGKLKKVLLHRPGKEIENLMPDYLERLLFDDIPFLEDAQKEHDAFAQALRDEGIEVLYLETLAAESLVTPEIREAFIDEYLSEANIRGRATKKAIRELLMAIEDNQELIEKTMAGVQKSELPEIPASEKGLTDLVESNYPFAIDPMPNLYFTRDPFATIGTGVSLNHMFSETRNRETLYGKYIFTHHPIYGGGKVPMVYDRNETTRIEGGDELVLSKDVLAVGISQRTDAASIEKLLVNIFKQNLGFKKVLAFEFANNRKFMHLDTVFTMVDYDKFTIHPEIEGDLRVYSVTYDNEELHIVEEKGDLAELLAANLGVEKVDLIRCGGDNLVAAGREQWNDGSNTLTIAPGVVVVYNRNTITNAILESKGLKLIKIHGSELVRGRGGPRCMSMPFEREDI 4bol-a1-m1-cA_4bol-a1-m1-cB Crystal structure of AmpDh2 from Pseudomonas aeruginosa in complex with pentapeptide Q9HT86 Q9HT86 1.7 X-RAY DIFFRACTION 145 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 243 243 4bj4-a1-m1-cA_4bj4-a1-m1-cB 4bpa-a1-m1-cA_4bpa-a1-m1-cB MSSGPRLNTDYTSANQDSRVQFIVLHYTSTDLPHSLGILTHGGVSAHYLIGDDEPATVYRLVDENRRAWHAGVSEWQGRTWLNATSIGIEIVNQGYRDTPQGRVWYPFSEAQIQALIPLLKDIAKRHGITPDRIIGHSDIAPGRKVDPGPLFPWKRLADAGLVPWPKPGELARRLAELNGQLPDVRWFQQQLARHGYLVPQTGELEKDTRDVIGAFQMKYRPARFDGEPDLETAALLLAVPTS MSSGPRLNTDYTSANQDSRVQFIVLHYTSTDLPHSLGILTHGGVSAHYLIGDDEPATVYRLVDENRRAWHAGVSEWQGRTWLNATSIGIEIVNQGYRDTPQGRVWYPFSEAQIQALIPLLKDIAKRHGITPDRIIGHSDIAPGRKVDPGPLFPWKRLADAGLVPWPKPGELARRLAELNGQLPDVRWFQQQLARHGYLVPQTGELEKDTRDVIGAFQMKYRPARFDGEPDLETAALLLAVPTS 4bop-a1-m2-cA_4bop-a1-m4-cB Structure of OTUD1 OTU domain Q5VV17 Q5VV17 2.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 150 4bop-a1-m1-cA_4bop-a1-m2-cB 4bop-a1-m3-cA_4bop-a1-m1-cB 4bop-a1-m4-cA_4bop-a1-m3-cB KLALYLAEVEKQDKYLRQRNKYRFHIIPDGNCLYRAVSKTVYGDQSLHRELREQTVHYIADHLDHFSPLIEGDVGEFIIAAAQDGAWAGYPELLAMGQMLNVNIHLTTGGRLESPTVSTMIHYLGPEDSLRPSIWLSWLSNGHYDAVFD EKLALYLAEVEKQDKYLRQRNKYRFHIIPDGNCLYRAVSKTVYGDQSLHRELREQTVHYIADHLDHFSPLIEGDVGEFIIAAAQDGAWAGYPELLAMGQMLNVNIHLTTGGRLESPTVSTMIHYLGPEDSLRPSIWLSWLSNGHYDAVFD 4bop-a1-m3-cB_4bop-a1-m4-cB Structure of OTUD1 OTU domain Q5VV17 Q5VV17 2.1 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 150 4bop-a1-m1-cA_4bop-a1-m2-cA 4bop-a1-m1-cA_4bop-a1-m3-cA 4bop-a1-m1-cB_4bop-a1-m2-cB 4bop-a1-m1-cB_4bop-a1-m3-cB 4bop-a1-m2-cA_4bop-a1-m4-cA 4bop-a1-m2-cB_4bop-a1-m4-cB 4bop-a1-m3-cA_4bop-a1-m4-cA EKLALYLAEVEKQDKYLRQRNKYRFHIIPDGNCLYRAVSKTVYGDQSLHRELREQTVHYIADHLDHFSPLIEGDVGEFIIAAAQDGAWAGYPELLAMGQMLNVNIHLTTGGRLESPTVSTMIHYLGPEDSLRPSIWLSWLSNGHYDAVFD EKLALYLAEVEKQDKYLRQRNKYRFHIIPDGNCLYRAVSKTVYGDQSLHRELREQTVHYIADHLDHFSPLIEGDVGEFIIAAAQDGAWAGYPELLAMGQMLNVNIHLTTGGRLESPTVSTMIHYLGPEDSLRPSIWLSWLSNGHYDAVFD 4bop-a1-m4-cA_4bop-a1-m4-cB Structure of OTUD1 OTU domain Q5VV17 Q5VV17 2.1 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 150 4bop-a1-m1-cA_4bop-a1-m1-cB 4bop-a1-m2-cA_4bop-a1-m2-cB 4bop-a1-m3-cA_4bop-a1-m3-cB KLALYLAEVEKQDKYLRQRNKYRFHIIPDGNCLYRAVSKTVYGDQSLHRELREQTVHYIADHLDHFSPLIEGDVGEFIIAAAQDGAWAGYPELLAMGQMLNVNIHLTTGGRLESPTVSTMIHYLGPEDSLRPSIWLSWLSNGHYDAVFD EKLALYLAEVEKQDKYLRQRNKYRFHIIPDGNCLYRAVSKTVYGDQSLHRELREQTVHYIADHLDHFSPLIEGDVGEFIIAAAQDGAWAGYPELLAMGQMLNVNIHLTTGGRLESPTVSTMIHYLGPEDSLRPSIWLSWLSNGHYDAVFD 4boq-a1-m1-cA_4boq-a1-m2-cA Structure of OTUD2 OTU domain Q5VVQ6 Q5VVQ6 1.47 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 175 KRGASSYVRETLPVLTRTVVPADNSCLFTSVYYVVEGGVLNPACAPEMRRLIAQIVASDPDFYSEAILGKTNQEYCDWIKRDDTWGGAIEISILSKFYQCEICVVDTQTVRIDRFGEDAGYTKRVLLIYDGIHYDPLQRNFPDPDTPPLTIFSSNDDIVLVQALELADEARRRRQ KRGASSYVRETLPVLTRTVVPADNSCLFTSVYYVVEGGVLNPACAPEMRRLIAQIVASDPDFYSEAILGKTNQEYCDWIKRDDTWGGAIEISILSKFYQCEICVVDTQTVRIDRFGEDAGYTKRVLLIYDGIHYDPLQRNFPDPDTPPLTIFSSNDDIVLVQALELADEARRRRQ 4bos-a1-m1-cA_4bos-a1-m1-cB Structure of OTUD2 OTU domain in complex with Ubiquitin K11-linked peptide Q5VVQ6 Q5VVQ6 2.35 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 GPVLTRTVVPADNSALFTSVYYVVEGGVLNPACAPEMRRLIAQIVASDPDFYSEAILGKTNQEYCDWIKRDDTWGGAIEISILSKFYQCEICVVDTQTVRIDRFGEDAGYTKRVLLIYDGIHYDPLQRNFPDPDTPPLTIFSSNDDIVLVQALELADEARRRRQ GPVLTRTVVPADNSALFTSVYYVVEGGVLNPACAPEMRRLIAQIVASDPDFYSEAILGKTNQEYCDWIKRDDTWGGAIEISILSKFYQCEICVVDTQTVRIDRFGEDAGYTKRVLLIYDGIHYDPLQRNFPDPDTPPLTIFSSNDDIVLVQALELADEARRRRQ 4bou-a1-m1-cA_4bou-a1-m2-cA Structure of OTUD3 OTU domain Q5T2D3 Q5T2D3 1.55 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 GPEFVSFANQLQALGLKLREVPGDGNCLFRALGDQLEGHSRNHLKHRQETVDYMIKQREDFEPFVEDDIPFEKHVASLAKPGTFAGNDAIVAFARNHQLNVVIHQLNAPLWQIRGTEKSSVRELHIAYRYGEHYDSVRRIN GPEFVSFANQLQALGLKLREVPGDGNCLFRALGDQLEGHSRNHLKHRQETVDYMIKQREDFEPFVEDDIPFEKHVASLAKPGTFAGNDAIVAFARNHQLNVVIHQLNAPLWQIRGTEKSSVRELHIAYRYGEHYDSVRRIN 4bp1-a2-m1-cB_4bp1-a2-m1-cC Crystal Structure of Plasmodium Falciparum Spermidine Synthase in Complex with 5'-Methylthioadenosine and Putrescine Q8II73 Q8II73 2.17 X-RAY DIFFRACTION 116 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 280 281 2hte-a1-m1-cA_2hte-a1-m2-cA 2hte-a2-m1-cB_2hte-a2-m1-cC 2i7c-a1-m1-cA_2i7c-a1-m2-cA 2i7c-a2-m1-cB_2i7c-a2-m1-cC 2pss-a1-m1-cA_2pss-a1-m2-cA 2pss-a2-m1-cB_2pss-a2-m1-cC 2pt6-a1-m1-cA_2pt6-a1-m2-cA 2pt6-a2-m1-cB_2pt6-a2-m1-cC 2pt9-a1-m1-cA_2pt9-a1-m2-cA 2pt9-a2-m1-cB_2pt9-a2-m1-cC 2pwp-a1-m1-cA_2pwp-a1-m2-cA 2pwp-a2-m1-cB_2pwp-a2-m1-cC 3b7p-a1-m1-cA_3b7p-a1-m2-cA 3b7p-a2-m1-cB_3b7p-a2-m1-cC 3rie-a1-m1-cA_3rie-a1-m2-cA 3rie-a2-m1-cB_3rie-a2-m1-cC 4bp1-a1-m1-cA_4bp1-a1-m2-cA 4bp3-a1-m1-cA_4bp3-a1-m2-cA 4bp3-a2-m1-cB_4bp3-a2-m1-cC 4cwa-a1-m1-cA_4cwa-a1-m2-cA 4cwa-a2-m1-cB_4cwa-a2-m1-cC 4cxm-a1-m1-cB_4cxm-a1-m1-cC 4cxm-a2-m1-cA_4cxm-a2-m2-cA 4uoe-a1-m1-cA_4uoe-a1-m2-cA 4uoe-a2-m1-cB_4uoe-a2-m1-cC 6hy1-a1-m1-cA_6hy1-a1-m2-cA 6hy1-a2-m1-cB_6hy1-a2-m1-cC 6i1n-a1-m1-cA_6i1n-a1-m2-cA 6i1n-a2-m1-cB_6i1n-a2-m1-cC KKWFSEFSIMWPGQAFSLKIKKILYETKSKYQNVLVFESTTYGKVLVLDGVIQLTEKDEFAYHEMMTHVPMTVSKEPKNVLVVGGGDGGIIRELCKYKSVENIDICEIDETVIEVSKIYFKNISCGYEDKRVNVFIEDASKFLENVTNTYDVIIVDSSDPIGPAETLFNQNFYEKIYNALKPNGYCVAQCESLWIHVGTIKNMIGYAKKLFKKVEYANISIPTYPCGCIGILCCSKTDTGLTKPNKKLESKEFADLKYYNYENHSAAFKLPAFLLKEIEN KKWFSEFSIMWPGQAFSLKIKKILYETKSKYQNVLVFESTTYGKVLVLDGVIQLTEKDEFAYHEMMTHVPMTVSKEPKNVLVVGGGDGGIIRELCKYKSVENIDICEIDETVIEVSKIYFKNISCGYEDKRVNVFIEDASKFLENVTNTYDVIIVDSSDPIGPAETLFNQNFYEKIYNALKPNGYCVAQCESLWIHVGTIKNMIGYAKKLFKKVEYANISIPTYPCGCIGILCCSKTDTGLTKPNKKLESKEFADLKYYNYENHSAAFKLPAFLLKEIENI 4bp9-a6-m1-cL_4bp9-a6-m1-cF Oligopeptidase B from Trypanosoma brucei with covalently bound antipain - closed form O76728 2.85 X-RAY DIFFRACTION 11 1.0 1760 (Actinomycetes) 5691 (Trypanosoma brucei) 2 710 4bp9-a1-m1-cG_4bp9-a1-m1-cA 4bp9-a2-m1-cH_4bp9-a2-m1-cB 4bp9-a3-m1-cI_4bp9-a3-m1-cC 4bp9-a4-m1-cJ_4bp9-a4-m1-cD RV RGPIAAHRPHEVVFGKVEGEDRGANPMDPPRRRVDPLFWLRDDNRADPEVLAHLHLEKDYYEKRAVDIKDLAETIYQEHISHIEETDMSAPYVYDRFLYYTRDVKGLSYKLHCRVPAGKTPGEGEDEEIVLDENKLAEGKSFCVVGCVAPAPPEHALVAYSVDYCGDEVYSIRFVRDVVADKVEGTNGSVVWGPNAECFFYITKDASKRDNKVWRHIIGQPQSEDVCLYTDDDPLFSVGVGRSGDGKTLIICSMSSETSESHLLDLRKGVKHNTLEMVRPREKGVRYTVEMHGTDTLIVLTNKDKCVNGKVVLTKRSAPTDWGTVLIPHDDKVTIDDVAVFAKFAVLSGRRDGLTRVWTVRLGPDNLFSSATLKELHFDEPVFTAHVVCSQMKTYDASLLRLRYSSMTTPTVWYDEDVLSGERKVVKARKVGGGFESKNYVCRRELATAPDGTKVPISLVYDTSIDLKKPNPTMLYGYGSYGICIEPEFNSRFLPYVDRGMIYAIAHVRGGGEMGRTWYEVGGKYLTKRNTFMDFIACAEHLISSGLTTPAQLSCEGRSAGGLLVGAVLNMRPDLFHVALAGVPFVDVMTTMCDPSIPLTTGEWEEWGNPNEYKFFDYMNSYSPIDNVRAQDYPHLMIQAGLHDPRVAYWEPAKWASKLRELKTDSNEVLLKMDLESGHFSASDRYKYLRENAIQQAFVLKHLNVRQLLR 4bpg-a1-m2-cB_4bpg-a1-m1-cA Crystal structure of Bacillus subtilis DltC P39579 P39579 2.2 X-RAY DIFFRACTION 16 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 78 79 4bpg-a1-m1-cB_4bpg-a1-m2-cA MDFKQEVLDVLAEVCQDDIVKENPDIEIFEEGLLDFGTVELLLAIENRFDILVPITEFDRDVWNTPNNIVNQLSELKR MDFKQEVLDVLAEVCQDDIVKENPDIEIFEEGLLDFGTVELLLAIENRFDILVPITEFDRDVWNTPNNIVNQLSELKRS 4bpg-a1-m2-cB_4bpg-a1-m2-cA Crystal structure of Bacillus subtilis DltC P39579 P39579 2.2 X-RAY DIFFRACTION 29 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 78 79 4bpg-a1-m1-cB_4bpg-a1-m1-cA MDFKQEVLDVLAEVCQDDIVKENPDIEIFEEGLLDFGTVELLLAIENRFDILVPITEFDRDVWNTPNNIVNQLSELKR MDFKQEVLDVLAEVCQDDIVKENPDIEIFEEGLLDFGTVELLLAIENRFDILVPITEFDRDVWNTPNNIVNQLSELKRS 4bqe-a1-m1-cA_4bqe-a1-m1-cB Arabidopsis thaliana Cytosolic Alpha-1,4-glucan Phosphorylase (PHS2) Q9SD76 Q9SD76 1.7 X-RAY DIFFRACTION 160 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 824 825 4bqf-a1-m1-cA_4bqf-a1-m1-cB 4bqi-a1-m1-cA_4bqi-a1-m1-cB KISAKANPEADDATEIAGNIVYHAKYSPHFSPLKFGPEQALYATAESLRDRLIQLWNETYVHFNKVDPKQTYYLSMEYLQGRALTNAIGNLNLQGPYADALRTLGYELEEIAEQEKDAALGNGGLGRLASCFLDSMATLNLPAWGYGLRYRHGLFKQIITKKGQEEIPEDWLEKFSPWEIVRHDVVFPVRFFGKVQVNPDGSRKWVDGDVVQALAYDVPIPGYGTKNTISLRLWEAKARAEDLDLFQFNEGEYELAAQLHSRAQQICTVLYPGDATENGKLLRLKQQFFLCSASLQDIISRFHERSTTRKWSEFPSKVAVQMNDTHPTLAIPELMRLLMDDNGLGWDEAWDVTSKTVAYTNHTVLPEALEKWSQSLMWKLLPRHMEIIEEIDKRFVQTIRDTRVDLEDKISSLSILDNNPQKPVVRMANLCVVSSHTVNGVAQLHSDILKAELFADYVSIWPNKFQNKTNGITPRRWLRFCSPELSDIITKWLKTDKWITDLDLLTGLRQFADNEELQSEWASAKTANKKRLAQYIERVTGVSIDPTSLFDIQVKRIHEYKRQLMNILGVVYRFKKLKEMKPEERKKTVPRTVMIGGKAFATYTNAKRIVKLVNDVGDVVNSDPEVNEYLKVVFVPNYNVTVAEMLIPGSELSQHISTAGMEASGTSNMKFALNGCLIIGTLDGANVEIREEVGEENFFLFGATADQVPRLRKEREDGLFKPDPRFEEAKQFVKSGVFGSYDYGPLLDSLEGNTGFGRGDYFLVGYDFPSYMDAQAKVDEAYKDRKGWLKMSILSTAGSGKFSSDRTIAQYAKEIWNIEACPVP KISAKANPEADDATEIAGNIVYHAKYSPHFSPLKFGPEQALYATAESLRDRLIQLWNETYVHFNKVDPKQTYYLSMEYLQGRALTNAIGNLNLQGPYADALRTLGYELEEIAEQEKDAALGNGGLGRLASCFLDSMATLNLPAWGYGLRYRHGLFKQIITKKGQEEIPEDWLEKFSPWEIVRHDVVFPVRFFGKVQVNPDGSRKWVDGDVVQALAYDVPIPGYGTKNTISLRLWEAKARAEDLDLFQFNEGEYELAAQLHSRAQQICTVLYPGDATENGKLLRLKQQFFLCSASLQDIISRFHERSTTSRKWSEFPSKVAVQMNDTHPTLAIPELMRLLMDDNGLGWDEAWDVTSKTVAYTNHTVLPEALEKWSQSLMWKLLPRHMEIIEEIDKRFVQTIRDTRVDLEDKISSLSILDNNPQKPVVRMANLCVVSSHTVNGVAQLHSDILKAELFADYVSIWPNKFQNKTNGITPRRWLRFCSPELSDIITKWLKTDKWITDLDLLTGLRQFADNEELQSEWASAKTANKKRLAQYIERVTGVSIDPTSLFDIQVKRIHEYKRQLMNILGVVYRFKKLKEMKPEERKKTVPRTVMIGGKAFATYTNAKRIVKLVNDVGDVVNSDPEVNEYLKVVFVPNYNVTVAEMLIPGSELSQHISTAGMEASGTSNMKFALNGCLIIGTLDGANVEIREEVGEENFFLFGATADQVPRLRKEREDGLFKPDPRFEEAKQFVKSGVFGSYDYGPLLDSLEGNTGFGRGDYFLVGYDFPSYMDAQAKVDEAYKDRKGWLKMSILSTAGSGKFSSDRTIAQYAKEIWNIEACPVP 4bql-a1-m1-cD_4bql-a1-m1-cA Crystal structure of archaeal actin A3MWN5 A3MWN5 3.34 X-RAY DIFFRACTION 70 1.0 181486 (Pyrobaculum calidifontis) 181486 (Pyrobaculum calidifontis) 427 436 4bql-a1-m1-cD_4bql-a1-m1-cB 4bql-a1-m2-cC_4bql-a1-m1-cA 4bql-a2-m1-cC_4bql-a2-m1-cB 4cj7-a1-m1-cA_4cj7-a1-m1-cB 5mw1-a1-m1-cA_5mw1-a1-m1-cD 5mw1-a1-m1-cB_5mw1-a1-m1-cC 5mw1-a1-m1-cB_5mw1-a1-m1-cF 5mw1-a1-m1-cD_5mw1-a1-m1-cE ISDAYRLKYTFGVDFGTSYVKYGPITLNEPKMVQTRGLFLRDLPESVKMRIPPDVLARGLVVGDEEVRKYLSSVRDVQRNLKYPLKDGVARRDDEEAWRVLKELARYTLAQFPVSDPEFAGWLVAVALSALAPDYMYKAIFDIYDELASEFKIYAVTILPQPLAVAIAENAVNCVIVEGGHGNIQVAPISFALIREGLVALNRGGAEANAITREILKDIGYSDIAREEYAVEVVKRAVGLVPRRLKEAIRAAKSDPDRFVTKVRLSPVVEVEIPREYAWTRFLIGEIVFDPNHEEIKSYIEQSRLRIENAVIGDVTLYGEMDVASAIITSLRNVSVEIQERVASQIILSGGAFSWRVPPGMEDVAADSVTRVKIALEEKSPALASKVEVRLVSEPQYSVWRGAVIYGYALPLSLEWSDTTREGWRFP DKSPDPMGVISDAYRLKYTFGVDFGTSYVKYGPITLNEPKMVQTRGLFLRDLPESVKMRIPPDVLARGLVVGDEEVRKYLSSVRDVQRNLKYPLKDGVARRDDEEAWRVLKELARYTLAQFPVSDPEFAGWLVAVALSALAPDYMYKAIFDIYDELASEFKIYAVTILPQPLAVAIAENAVNCVIVEGGHGNIQVAPISFALIREGLVALNRGGAEANAITREILKDIGYSDIAREEYAVEVVKRAVGLVPRRLKEAIRAAKSDPDRFVTKVRLSPVVEVEIPREYAWTRFLIGEIVFDPNHEEIKSYIEQSRLRIENAVIGDVTLYGEMDVASAIITSLRNVSVEIQERVASQIILSGGAFSWRVPPGMEDVAADSVTRVKIALEEKSPALASKVEVRLVSEPQYSVWRGAVIYGYALPLSLEWSDTTREGWRFP 4bqm-a1-m1-cA_4bqm-a1-m2-cB Crystal structure of human liver-type glutaminase, catalytic domain Q9UI32 Q9UI32 2.18 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 314 4bqm-a1-m2-cA_4bqm-a1-m1-cB LYFQSMIPDFEEFTGHVDRIFEDVKELPDLWGVSLCTVDGQRHSVGHTKIPFCLQSCVKPLTYAISISTLGTDYVHKFVGKEPSLSLNEEGIPHNPMVNAGAIVVSSLIKMDCNKAEKFDFVLQYLNKMAGNEYMGFSNATFQSEKETGDRNYAIGYYLKEKKCFPKGVDMMAALDLYFQLCSVEVTCESGSVMAATLANGGICPITGESVLSAEAVRNTLSLMHSCGMYDFSGQFAFHVGLPAKSAVSGAILLVVPNVMGMMCLSPPLDKLGNSHRGTSFCQKLVSLFNFHNYDN LYFQSMIPDFEEFTGHVDRIFEDVKELTGGKVAAYIPQLAKSNPDLWGVSLCTVDGQRHSVGHTKIPFCLQSCVKPLTYAISISTLGTDYVHKFVGKEPSGLLSLNEEGIPHNPMVNAGAIVVSSLIKMDCNKAEKFDFVLQYLNKMAGNEYMGFSNATFQSEKETGDRNYAIGYYLKEKKCFPKGVDMMAALDLYFQLCSVEVTCESGSVMAATLANGGICPITGESVLSAEAVRNTLSLMHSCGMYDFSGQFAFHVGLPAKSAVSGAILLVVPNVMGMMCLSPPLDKLGNSHRGTSFCQKLVSLFNFHNYDN 4bqm-a1-m2-cA_4bqm-a1-m2-cB Crystal structure of human liver-type glutaminase, catalytic domain Q9UI32 Q9UI32 2.18 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 314 4bqm-a1-m1-cA_4bqm-a1-m1-cB LYFQSMIPDFEEFTGHVDRIFEDVKELPDLWGVSLCTVDGQRHSVGHTKIPFCLQSCVKPLTYAISISTLGTDYVHKFVGKEPSLSLNEEGIPHNPMVNAGAIVVSSLIKMDCNKAEKFDFVLQYLNKMAGNEYMGFSNATFQSEKETGDRNYAIGYYLKEKKCFPKGVDMMAALDLYFQLCSVEVTCESGSVMAATLANGGICPITGESVLSAEAVRNTLSLMHSCGMYDFSGQFAFHVGLPAKSAVSGAILLVVPNVMGMMCLSPPLDKLGNSHRGTSFCQKLVSLFNFHNYDN LYFQSMIPDFEEFTGHVDRIFEDVKELTGGKVAAYIPQLAKSNPDLWGVSLCTVDGQRHSVGHTKIPFCLQSCVKPLTYAISISTLGTDYVHKFVGKEPSGLLSLNEEGIPHNPMVNAGAIVVSSLIKMDCNKAEKFDFVLQYLNKMAGNEYMGFSNATFQSEKETGDRNYAIGYYLKEKKCFPKGVDMMAALDLYFQLCSVEVTCESGSVMAATLANGGICPITGESVLSAEAVRNTLSLMHSCGMYDFSGQFAFHVGLPAKSAVSGAILLVVPNVMGMMCLSPPLDKLGNSHRGTSFCQKLVSLFNFHNYDN 4bqq-a1-m1-cB_4bqq-a1-m1-cA Protein crystal structure of the N-terminal and recombinase domains of the Streptomyces temperate phage serine recombinase, fC31 integrase. Q9T221 Q9T221 2.15 X-RAY DIFFRACTION 143 0.985 10719 (Lomovskayavirus C31) 10719 (Lomovskayavirus C31) 332 337 MDTYAGAYDRQSRERENSSAASPATQRSANEDKAADLQREVERDGGRFRFVGHFSEAPGERPEFERILNECRAGRLNMIIVYDVSRFSRLKVMDAIPIVSELLALGVTIVSTQEGVFRQGNVMDLIHLIMRLDASHKESSLKSLQRELGGYVGGKAPYGFELVSETKEITRNGRMVNVVINKLAHSTTPLTGPFEFEPDVIRWWWREIKTHKGSITGLCKRMDADAVPTRGSAWDPATVMRILRDPRIAGFAAEVIYKKKPDGTPTTKIEGYRIQRDPITLRPVELDCGPIIEPAEWYELQAWLDGRGRGKGLSRGQAILSAMDKLYCECGA MDTYAGAYDRQSRERSAASPATQRSANEDKAADLQREVERDGGRFRFVGHFSEAPGAERPEFERILNECRAGRLNMIIVYDVSRFSRLKVMDAIPIVSELLALGVTIVSTQEGVFRQGNVMDLIHLIMRLDASHKESSLKSAKILDTKNLQRELGGYVGGKAPYGFELVSETKEITRNGRMVNVVINKLAHSTTPLTGPFEFEPDVIRWWWREIKTHKPGSITGLCKRMDADAVPTRGWDPATVMRILRDPRIAGFAAEVIYKKKPDGTPTTKIEGYRIQRDPITLRPVELDCGPIIEPAEWYELQAWLDGRGRGKGLSRGQAILSAMDKLYCECGA 4br6-a1-m1-cA_4br6-a1-m1-cD Crystal structure of Chaetomium thermophilum MnSOD F8V325 F8V325 2 X-RAY DIFFRACTION 28 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 196 197 4br6-a1-m1-cB_4br6-a1-m1-cC KATLPDLKYDYGALEPYISARIMELHHSKHHQTYVNGLNSALEATAEAEAKGDFTKAASLAPLLNFHGGGHLNHTLFWENLAPASREGGGEPDGALKKAIEADFGSFETFRKQMNAALTGIQGSGWAWLAKDKDSGNLAIVTRANQDPVTGQLVPLMGIDAWEHAYYLQYENRKAEYFEAIWNVINWKTVAQRFEK KATLPDLKYDYGALEPYISARIMELHHSKHHQTYVNGLNSALEATAEAEAKGDFTKAASLAPLLNFHGGGHLNHTLFWENLAPASREGGGEPDGALKKAIEADFGSFETFRKQMNAALTGIQGSGWAWLAKDKDSGNLAIVTRANQDPVTGQLVPLMGIDAWEHAYYLQYENRKAEYFEAIWNVINWKTVAQRFEKA 4br6-a1-m1-cB_4br6-a1-m1-cD Crystal structure of Chaetomium thermophilum MnSOD F8V325 F8V325 2 X-RAY DIFFRACTION 70 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 197 197 4br6-a1-m1-cA_4br6-a1-m1-cC KATLPDLKYDYGALEPYISARIMELHHSKHHQTYVNGLNSALEATAEAEAKGDFTKAASLAPLLNFHGGGHLNHTLFWENLAPASREGGGEPDGALKKAIEADFGSFETFRKQMNAALTGIQGSGWAWLAKDKDSGNLAIVTRANQDPVTGQLVPLMGIDAWEHAYYLQYENRKAEYFEAIWNVINWKTVAQRFEKA KATLPDLKYDYGALEPYISARIMELHHSKHHQTYVNGLNSALEATAEAEAKGDFTKAASLAPLLNFHGGGHLNHTLFWENLAPASREGGGEPDGALKKAIEADFGSFETFRKQMNAALTGIQGSGWAWLAKDKDSGNLAIVTRANQDPVTGQLVPLMGIDAWEHAYYLQYENRKAEYFEAIWNVINWKTVAQRFEKA 4br6-a1-m1-cC_4br6-a1-m1-cD Crystal structure of Chaetomium thermophilum MnSOD F8V325 F8V325 2 X-RAY DIFFRACTION 49 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 197 197 4br6-a1-m1-cA_4br6-a1-m1-cB KATLPDLKYDYGALEPYISARIMELHHSKHHQTYVNGLNSALEATAEAEAKGDFTKAASLAPLLNFHGGGHLNHTLFWENLAPASREGGGEPDGALKKAIEADFGSFETFRKQMNAALTGIQGSGWAWLAKDKDSGNLAIVTRANQDPVTGQLVPLMGIDAWEHAYYLQYENRKAEYFEAIWNVINWKTVAQRFEKA KATLPDLKYDYGALEPYISARIMELHHSKHHQTYVNGLNSALEATAEAEAKGDFTKAASLAPLLNFHGGGHLNHTLFWENLAPASREGGGEPDGALKKAIEADFGSFETFRKQMNAALTGIQGSGWAWLAKDKDSGNLAIVTRANQDPVTGQLVPLMGIDAWEHAYYLQYENRKAEYFEAIWNVINWKTVAQRFEKA 4brh-a1-m1-cB_4brh-a1-m1-cA Legionella pneumophila NTPDase1 crystal form II (closed) in complex with MG AND THIAMINE PHOSPHOVANADATE Q5ZUA2 Q5ZUA2 1.69 X-RAY DIFFRACTION 95 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 359 361 4br4-a1-m1-cA_4br4-a1-m2-cA 4br7-a1-m1-cA_4br7-a1-m2-cA 4br9-a1-m1-cA_4br9-a1-m1-cB 4bra-a1-m1-cB_4bra-a1-m1-cA 4brc-a1-m1-cA_4brc-a1-m1-cB 4brd-a1-m1-cB_4brd-a1-m1-cA 4bre-a1-m1-cA_4bre-a1-m1-cB 4brf-a1-m1-cA_4brf-a1-m1-cB 4brg-a1-m1-cA_4brg-a1-m1-cB 4bri-a1-m1-cB_4bri-a1-m1-cA 4brk-a1-m1-cA_4brk-a1-m1-cB 4brl-a1-m1-cB_4brl-a1-m1-cA 4brm-a1-m1-cB_4brm-a1-m1-cA 4brn-a1-m1-cA_4brn-a1-m1-cB 4brn-a2-m1-cA_4brn-a2-m1-cB 4bro-a1-m1-cA_4bro-a1-m1-cB 4brp-a1-m1-cD_4brp-a1-m1-cC 4brp-a2-m1-cB_4brp-a2-m1-cA 4brq-a1-m1-cA_4brq-a1-m1-cB 4bvo-a1-m1-cA_4bvo-a1-m2-cA 4bvp-a1-m1-cA_4bvp-a1-m1-cB TNPCEKHSCIAVIDAGSTGSRLHIYSYDTDDTNTPIHIEEIWNKKIKPGFASIQPNSVTIDAYLTMLLADAPIHNIPVYFYATAGMRLLPQSQQKKYYDELDYWFRQQSQWQLVEAKTITGNDEALFDWLAVNYKLDTLKSVQNKSVGVMDMGGASVQIVFPMPKNAEISKHNQVELNIYGQNINLYVHSFLGLGQTEMSHQFLNSPSCFANDYPLPDGESGQGNAPSCKEEVTSLMNSVHKVNQQIQPLLALNPVNEWYSIGGISNLASSQLFHFENSELTNQSLLQQGDNQICHQQWDILNGQYPDDEYLYQYCLLSSYYYALMVDGYGINPNQTIHYIPPEQNLDWTIGVVLHRAL MDTNPCEKHSCIAVIDAGSTGSRLHIYSYDTDDTNTPIHIEEIWNKKIKPGFASIQPNSVTIDAYLTMLLADAPIHNIPVYFYATAGMRLLPQSQQKKYYDELDYWFRQQSQWQLVEAKTITGNDEALFDWLAVNYKLDTLKSVQNKSVGVMDMGGASVQIVFPMPKNAEISKHNQVELNIYGQNINLYVHSFLGLGQTEMSHQFLNSPSCFANDYPLPDGESGQGNAPSCKEEVTSLMNSVHKVNQQIQPLLALNPVNEWYSIGGISNLASSQLFHFENSELTNQSLLQQGDNQICHQQWDILNGQYPDDEYLYQYCLLSSYYYALMVDGYGINPNQTIHYIPPEQNLDWTIGVVLHRAL 4brj-a1-m1-cA_4brj-a1-m4-cA Superoxide reductase (Neelaredoxin) from Ignicoccus hospitalis T24K A8AC72 A8AC72 2.5 X-RAY DIFFRACTION 73 1.0 160233 (Ignicoccus hospitalis) 160233 (Ignicoccus hospitalis) 124 124 4bk8-a1-m1-cA_4bk8-a1-m2-cA 4bk8-a1-m3-cA_4bk8-a1-m4-cA 4brj-a1-m2-cA_4brj-a1-m3-cA 4brv-a1-m1-cA_4brv-a1-m1-cB 4brv-a1-m1-cC_4brv-a1-m1-cD MKSFGELIYTPDRAEGEAISKAEKHTPKIEAPEKVKADQPFQVRVSVGPHPNEAAHSIRWIELYFYEEGRPFNPVMLGRVAFEPGYAEPDVTFTLKLKKSGVLYAISYCNLHGLWEARKEIKVE MKSFGELIYTPDRAEGEAISKAEKHTPKIEAPEKVKADQPFQVRVSVGPHPNEAAHSIRWIELYFYEEGRPFNPVMLGRVAFEPGYAEPDVTFTLKLKKSGVLYAISYCNLHGLWEARKEIKVE 4brv-a1-m1-cB_4brv-a1-m1-cD Superoxide reductase (Neelaredoxin) from Ignicoccus hospitalis E23A A8AC72 A8AC72 2.05 X-RAY DIFFRACTION 11 1.0 160233 (Ignicoccus hospitalis) 160233 (Ignicoccus hospitalis) 124 124 4brv-a1-m1-cA_4brv-a1-m1-cC MKSFGELIYTPDRAEGEAISKAATHTPKIEAPEKVKADQPFQVRVSVGPHPNEAAHSIRWIELYFYEEGRPFNPVMLGRVAFEPGYAEPDVTFTLKLKKSGVLYAISYCNLHGLWEARKEIKVE MKSFGELIYTPDRAEGEAISKAATHTPKIEAPEKVKADQPFQVRVSVGPHPNEAAHSIRWIELYFYEEGRPFNPVMLGRVAFEPGYAEPDVTFTLKLKKSGVLYAISYCNLHGLWEARKEIKVE 4brz-a1-m1-cA_4brz-a1-m1-cB Haloalkane dehalogenase A0A067XG63 A0A067XG63 1.67 X-RAY DIFFRACTION 51 1.0 31989 (Paracoccaceae) 31989 (Paracoccaceae) 290 290 TSFRDKKKFATVHGKQMAYIEEGTGDPIVFLHGNPMSSYLWRNIMPHLAGKGRLIAPDLIGMGDSDKLDNSGPDSYTFAEHCTYLFALLEQLGVTENVTLVIHDWGSGLGFHWAHTHSDAVKGIAFMEAIVETRESWDAFPERAREMFQALRSPAGEEMVLEKNLFVEALVPGSILRDLTEEEMNEYRRPFANAGEDRRPTLTFPRQVPIEGQPKDVTELVDAYVDWLGQTSIPKLFINADPGVLITGEVRDRVRSWPNLTEVTVAGLHFIQEDSPDEIGAAVRDWHASL TSFRDKKKFATVHGKQMAYIEEGTGDPIVFLHGNPMSSYLWRNIMPHLAGKGRLIAPDLIGMGDSDKLDNSGPDSYTFAEHCTYLFALLEQLGVTENVTLVIHDWGSGLGFHWAHTHSDAVKGIAFMEAIVETRESWDAFPERAREMFQALRSPAGEEMVLEKNLFVEALVPGSILRDLTEEEMNEYRRPFANAGEDRRPTLTFPRQVPIEGQPKDVTELVDAYVDWLGQTSIPKLFINADPGVLITGEVRDRVRSWPNLTEVTVAGLHFIQEDSPDEIGAAVRDWHASL 4bs9-a1-m1-cA_4bs9-a1-m2-cA Structure of the heterocyclase TruD B2KYG8 B2KYG8 2.9 X-RAY DIFFRACTION 198 1.0 503010 (uncultured Prochloron sp. 06037A) 503010 (uncultured Prochloron sp. 06037A) 691 691 PTALQIKPHFHVEIIEPKQVYLLGEQGNHALTGQLYCQILPFLNGEYTREQIVEKLDGQVPEEYIDFVLSRLVEKGYLTEVAPELSLEVAAFWSELGIAPSVVAEGLKQPVTVTTAGKGIREGIVANLAAALEEAGIQVSDPTAQLQVVLTDDYLQPELAAINKEALERQQPWLLVKPVGSILWLGPLFVPGETGCWHCLAQRLQGNREVEASVLQQKRALQERPTARATLPSTLQTGLQWAATEIAKWMVKRHLNAIAPGTARFPTLAGKIFTFNQTTLELKAHPLSRRPQCPTCGDRETLQRRGFEPLKLESRPKHPEQTVQKYQHLIGPITGVVTELVRSRASGLCEAIERYSGIFQGDEPRKRATLAELGDLAIHPEQCLHFSDRQYDNRESSNERATVTHDWIPQRFDASKAHDWTPVWSLTEQTHKYLPTALCYYRYPFPPEHRFCRSDSNGNAAGNTLEEAILQGFMELVERDSVCLWWYNRVSRPAVDLSSFDEPYFLQLQQFYQTQNRDLWVLDLTADLGIPAFVGVSNRKAGSSERIILGFGAHLDPTVAILRALTEVNQIGLELDATDWLVNATLAASPYLVADASQPLKTAKDYPRRWSDDIYTDVMTCVEIAKQAGLETLVLDQTRPDIGLNVVKVIVPGMRFWSRFGSGRLYDVPVKLGWREQPLAEAQMNPTPMPF PTALQIKPHFHVEIIEPKQVYLLGEQGNHALTGQLYCQILPFLNGEYTREQIVEKLDGQVPEEYIDFVLSRLVEKGYLTEVAPELSLEVAAFWSELGIAPSVVAEGLKQPVTVTTAGKGIREGIVANLAAALEEAGIQVSDPTAQLQVVLTDDYLQPELAAINKEALERQQPWLLVKPVGSILWLGPLFVPGETGCWHCLAQRLQGNREVEASVLQQKRALQERPTARATLPSTLQTGLQWAATEIAKWMVKRHLNAIAPGTARFPTLAGKIFTFNQTTLELKAHPLSRRPQCPTCGDRETLQRRGFEPLKLESRPKHPEQTVQKYQHLIGPITGVVTELVRSRASGLCEAIERYSGIFQGDEPRKRATLAELGDLAIHPEQCLHFSDRQYDNRESSNERATVTHDWIPQRFDASKAHDWTPVWSLTEQTHKYLPTALCYYRYPFPPEHRFCRSDSNGNAAGNTLEEAILQGFMELVERDSVCLWWYNRVSRPAVDLSSFDEPYFLQLQQFYQTQNRDLWVLDLTADLGIPAFVGVSNRKAGSSERIILGFGAHLDPTVAILRALTEVNQIGLELDATDWLVNATLAASPYLVADASQPLKTAKDYPRRWSDDIYTDVMTCVEIAKQAGLETLVLDQTRPDIGLNVVKVIVPGMRFWSRFGSGRLYDVPVKLGWREQPLAEAQMNPTPMPF 4bsj-a1-m1-cA_4bsj-a1-m2-cA Crystal structure of VEGFR-3 extracellular domains D4-5 P35916 P35916 2.5 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 DHNPFISVEWLKGPILEATAGDELVKLPVKLAAYPPPEFQWYKDGKALSGRHSPHALVLKEVTEASTGTYTLALWNSAAGLRRNISLELVVNVPPQIHEKEASSPSIYSRHSRQALTCTAYGVPLPLSIQWHWRPWTPCKMFPQCRDWRAVTTQDAVNPIESLDTWTEFVEGKNKTVSKLVIQNANVSAMYKCVVSNKVGQDERLIYFYVTTH DHNPFISVEWLKGPILEATAGDELVKLPVKLAAYPPPEFQWYKDGKALSGRHSPHALVLKEVTEASTGTYTLALWNSAAGLRRNISLELVVNVPPQIHEKEASSPSIYSRHSRQALTCTAYGVPLPLSIQWHWRPWTPCKMFPQCRDWRAVTTQDAVNPIESLDTWTEFVEGKNKTVSKLVIQNANVSAMYKCVVSNKVGQDERLIYFYVTTH 4bst-a1-m1-cA_4bst-a1-m1-cB Structure of the ectodomain of LGR5 in complex with R-spondin-1 (Fu1Fu2) in P6122 crystal form O75473 O75473 4.3 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 457 458 4bsr-a1-m1-cB_4bsr-a1-m1-cA 4bss-a1-m1-cA_4bss-a1-m1-cB 4bss-a2-m1-cF_4bss-a2-m1-cE 4bsu-a1-m1-cE_4bsu-a1-m1-cF 4bsu-a2-m1-cB_4bsu-a2-m1-cA 4ufr-a1-m1-cC_4ufr-a1-m1-cA GCPTHCHCEPDGRMLLRVDCSDLGLSELPSNLSVFTSYLDLSMNNISQLLPNPLPSLRFLEELRLAGNALTYIPKGAFTGLYSLKVLMLQNNQLRHVPTEALQNLRSLQSLRLDANHISYVPPSCFSGLHSLRHLWLDDNALTEIPVQAFRSLSALQAMTLALNKIHHIPDYAFGNLSSLVVLHLHNNRIHSLGKKCFDGLHSLETLDLNYNNLDEFPTAIRTLSNLKELGFHSNNIRSIPEKAFVGNPSLITIHFYDNPIQFVGRSAFQHLPELRTLTLNGASQITEFPDLTGTANLESLTLTGAQISSLPQTVCNQLPNLQVLDLSYNLLEDLPSFSVCQKLQKIDLRHNEIYEIKVDTFQQLLSLRSLNLAWNKIAIIHPNAFSTLPSLIKLDLSSNLLSSFPITGLHGLTHLKLTGNHALQSLISSENFPELKVIEMPYAYQCCAFGVVQCSP GCPTHCHCEPDGRMLLRVDCSDLGLSELPSNLSVFTSYLDLSMNNISQLLPNPLPSLRFLEELRLAGNALTYIPKGAFTGLYSLKVLMLQNNQLRHVPTEALQNLRSLQSLRLDANHISYVPPSCFSGLHSLRHLWLDDNALTEIPVQAFRSLSALQAMTLALNKIHHIPDYAFGNLSSLVVLHLHNNRIHSLGKKCFDGLHSLETLDLNYNNLDEFPTAIRTLSNLKELGFHSNNIRSIPEKAFVGNPSLITIHFYDNPIQFVGRSAFQHLPELRTLTLNGASQITEFPDLTGTANLESLTLTGAQISSLPQTVCNQLPNLQVLDLSYNLLEDLPSFSVCQKLQKIDLRHNEIYEIKVDTFQQLLSLRSLNLAWNKIAIIHPNAFSTLPSLIKLDLSSNLLSSFPITGLHGLTHLKLTGNHALQSLISSENFPELKVIEMPYAYQCCAFGVCVQCSP 4bsz-a1-m1-cA_4bsz-a1-m4-cA Crystal Structure of the Yeast Ribosomal Protein Rps3 in Complex with its Chaperone Yar1 P05750 P05750 2.842 X-RAY DIFFRACTION 52 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 187 187 4bsz-a1-m2-cA_4bsz-a1-m3-cA VADGVFYAELNEFFTRELAEEGYSGVEVRVTPTKTEVIIRATRTQDVLGENGRRINELTLLVQKRFKYAPGTIVLYAERVQDRGLSAVAQAESMKFKLLNGLAIRRAAYGVVRYVMESGAKGCEVVVSGKLRAARAKAMKFADGFLIHSGQPVNDFIDTATRHVLMRQGVLGIKVKIMRDPAKSRTG VADGVFYAELNEFFTRELAEEGYSGVEVRVTPTKTEVIIRATRTQDVLGENGRRINELTLLVQKRFKYAPGTIVLYAERVQDRGLSAVAQAESMKFKLLNGLAIRRAAYGVVRYVMESGAKGCEVVVSGKLRAARAKAMKFADGFLIHSGQPVNDFIDTATRHVLMRQGVLGIKVKIMRDPAKSRTG 4bsz-a1-m2-cA_4bsz-a1-m4-cA Crystal Structure of the Yeast Ribosomal Protein Rps3 in Complex with its Chaperone Yar1 P05750 P05750 2.842 X-RAY DIFFRACTION 55 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 187 187 4bsz-a1-m1-cA_4bsz-a1-m3-cA VADGVFYAELNEFFTRELAEEGYSGVEVRVTPTKTEVIIRATRTQDVLGENGRRINELTLLVQKRFKYAPGTIVLYAERVQDRGLSAVAQAESMKFKLLNGLAIRRAAYGVVRYVMESGAKGCEVVVSGKLRAARAKAMKFADGFLIHSGQPVNDFIDTATRHVLMRQGVLGIKVKIMRDPAKSRTG VADGVFYAELNEFFTRELAEEGYSGVEVRVTPTKTEVIIRATRTQDVLGENGRRINELTLLVQKRFKYAPGTIVLYAERVQDRGLSAVAQAESMKFKLLNGLAIRRAAYGVVRYVMESGAKGCEVVVSGKLRAARAKAMKFADGFLIHSGQPVNDFIDTATRHVLMRQGVLGIKVKIMRDPAKSRTG 4bsz-a1-m3-cA_4bsz-a1-m4-cA Crystal Structure of the Yeast Ribosomal Protein Rps3 in Complex with its Chaperone Yar1 P05750 P05750 2.842 X-RAY DIFFRACTION 179 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 187 187 4bsz-a1-m1-cA_4bsz-a1-m2-cA VADGVFYAELNEFFTRELAEEGYSGVEVRVTPTKTEVIIRATRTQDVLGENGRRINELTLLVQKRFKYAPGTIVLYAERVQDRGLSAVAQAESMKFKLLNGLAIRRAAYGVVRYVMESGAKGCEVVVSGKLRAARAKAMKFADGFLIHSGQPVNDFIDTATRHVLMRQGVLGIKVKIMRDPAKSRTG VADGVFYAELNEFFTRELAEEGYSGVEVRVTPTKTEVIIRATRTQDVLGENGRRINELTLLVQKRFKYAPGTIVLYAERVQDRGLSAVAQAESMKFKLLNGLAIRRAAYGVVRYVMESGAKGCEVVVSGKLRAARAKAMKFADGFLIHSGQPVNDFIDTATRHVLMRQGVLGIKVKIMRDPAKSRTG 4bt7-a1-m1-cA_4bt7-a1-m2-cA acetolactate decarboxylase with a bound phosphate ion P23616 P23616 1.1 X-RAY DIFFRACTION 72 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 236 236 4bt2-a1-m1-cA_4bt2-a1-m2-cA 4bt3-a1-m1-cA_4bt3-a1-m2-cA 4bt4-a1-m1-cA_4bt4-a1-m2-cA 4bt5-a1-m1-cA_4bt5-a1-m2-cA 4bt6-a1-m1-cA_4bt6-a1-m2-cA APKNVLFQYSTINALMLGQFEGDLTLKDLKLRGDMGLGTINDLDGEMIQMGTKFYQIDSTGKLSELPESVKTPFAVTTHFEPKEKTTLTNVQDYNQLTKMLEEKFENKNVFYAVKLTGTFKMVKARTVPKQTRPYPQLTEVTKKQSEFEFKNVKGTLIGFYTPNYAAALNVPGFHLHFITEDKTSGGHVLNLQFDNANLEISPIHEFDVQLPHTDDFAHSDLTQVTTSQVHQAESE APKNVLFQYSTINALMLGQFEGDLTLKDLKLRGDMGLGTINDLDGEMIQMGTKFYQIDSTGKLSELPESVKTPFAVTTHFEPKEKTTLTNVQDYNQLTKMLEEKFENKNVFYAVKLTGTFKMVKARTVPKQTRPYPQLTEVTKKQSEFEFKNVKGTLIGFYTPNYAAALNVPGFHLHFITEDKTSGGHVLNLQFDNANLEISPIHEFDVQLPHTDDFAHSDLTQVTTSQVHQAESE 4btp-a2-m1-cD_4btp-a2-m1-cJ Structure of the capsid protein P1 of the bacteriophage phi8 Q9MC13 Q9MC13 3.7 X-RAY DIFFRACTION 112 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 749 749 4btp-a1-m1-cE_4btp-a1-m1-cF 4btp-a1-m1-cE_4btp-a1-m1-cI 4btp-a1-m1-cF_4btp-a1-m1-cG 4btp-a1-m1-cG_4btp-a1-m1-cH 4btp-a1-m1-cH_4btp-a1-m1-cI 4btp-a2-m1-cA_4btp-a2-m1-cB 4btp-a2-m1-cA_4btp-a2-m1-cJ 4btp-a2-m1-cB_4btp-a2-m1-cC 4btp-a2-m1-cC_4btp-a2-m1-cD VDTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRAPVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVAVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLALRRRDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK VDTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRAPVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVAVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLALRRRDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4buj-a1-m1-cD_4buj-a1-m1-cC Crystal structure of the S. cerevisiae Ski2-3-8 complex Q02793 Q02793 3.7 X-RAY DIFFRACTION 14 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 381 392 KVFIATANAGKAHDADIFSVSACNSFTVSCSGDGYLKVWDNKLLDNENPKDKSYSHFVHKSGLHHVDVLQAIERDAFELCLVATTSFSGDLLFYRITREDETKKVIFEKLDLLDSDMKKHSFWALKWGASNDRLLSHRLVATDVKGTTYIWKFHPFADLNWSPTLELQGTVESPMTPSQFATSVDISERGLIATGFNNGTVQISELSTLRPLYNFESQHSMNNSNSIRSVKFSPQGSLLAIAHDSNSFGCITLYETEFGERIGSLSVPTHSSQASEFAHSSWVMSLSFNDSGETLCSAGWDGKLRFWDVKTKERITTLNMHCDDIEDILAVDEHGDSLAEPGVFDVKFLKKGWRSGMDLNESLCCVCLDRSIRWFREAGGK SKVFIATANAGKAHDADIFSVSACNSFTVSCSGDGYLKVWDNKLLDNENPKDKSYSHFVHKSGLHHVDVLQAIERDAFELCLVATTSFSGDLLFYRITREDETKKVIFEKLDLLDSDMKKHSFWALKWGASNDRLLSHRLVATDVKGTTYIWKFHPFADETLNWSPTLELQGTVESPMTPSQFATSVDISERGLIATGFNNGTVQISELSTLRPLYNFESQHSMINNSNSIRSVKFSPQGSLLAIAHDSNSFGCITLYETEFGERIGSLSVPTHSSQASLGEFAHSSWVMSLSFNDSGETLCSAGWDGKLRFWDVKTKERITTLNMHCDDIEIEEDILAVDEHGDSLAEPGVFDVKFLKKGWRSGMGADLNESLCCVCLDRSIRWFREAGGK 4bum-a1-m1-cX_4bum-a1-m2-cX Crystal structure of the Voltage Dependant Anion Channel 2 from zebrafish. Q8AWD0 Q8AWD0 2.801 X-RAY DIFFRACTION 33 1.0 7955 (Danio rerio) 7955 (Danio rerio) 283 283 MAVPPAYADLGKSAKDIFNKGYGFGMVKLDVKTKSASGVEFKTSGSSNTDTSKVVGSLETKYKRSEYGLTFTEKWNTDNTLGTEINIEDQIAKGLKLTFDTTFSPNTGKKSGKVKTAYKREFVNLGCDVDFDFAGPTIHGAAVVGYEGWLAGYQMSFDTAKSKMTQNNFAVGYKTGDFQLHTNVNDGSEFGGSIYQKVSDKLETAVNLAWTAGSNSTRFGIAAKYQLDKDASISAKVNNTSLVGVGYTQSLRPGIKLTLSALVDGKSINSGGHKLGLGLELEA MAVPPAYADLGKSAKDIFNKGYGFGMVKLDVKTKSASGVEFKTSGSSNTDTSKVVGSLETKYKRSEYGLTFTEKWNTDNTLGTEINIEDQIAKGLKLTFDTTFSPNTGKKSGKVKTAYKREFVNLGCDVDFDFAGPTIHGAAVVGYEGWLAGYQMSFDTAKSKMTQNNFAVGYKTGDFQLHTNVNDGSEFGGSIYQKVSDKLETAVNLAWTAGSNSTRFGIAAKYQLDKDASISAKVNNTSLVGVGYTQSLRPGIKLTLSALVDGKSINSGGHKLGLGLELEA 4bv8-a2-m3-cB_4bv8-a2-m1-cA Crystal structure of the apo form of mouse Mu-crystallin. O54983 O54983 2.3 X-RAY DIFFRACTION 110 1.0 10090 (Mus musculus) 10090 (Mus musculus) 300 303 4bv8-a1-m1-cB_4bv8-a1-m2-cA 4bv9-a1-m1-cB_4bv9-a1-m1-cA 4bva-a1-m1-cA_4bva-a1-m1-cB RAPAFLSAEEVQDHLRSSSLLIPPLEAALANFSKGPDGGVMQPVRTVVPVAKHRGFLGVMPAYSAAEDALTTKLVTFYSHQASVLLFDPSNGSLLAVMDGNVITAKRTAAVSAIATKLLKPPGSDVLCILGAGVQAYSHYEIFTEQFSFKEVRMWNRTRENAEKFASTVQGDVRVCSSVQEAVTGADVIITVTMATEPILFGEWVKPGAHINAVGASRPDWRELDDELMRQAVLYVDSREAALKESGDVLLSGADIFAELGEVISGAKPAHCEKTTVFKSLGMAVEDLVAAKLVYDSWSS RAPAFLSAEEVQDHLRSSSLLIPPLEAALANFSKGPDGGVMQPVRTVVPVAKHRGFLGVMPAYSAAEDALTTKLVTFYEPSHQASVLLFDPSNGSLLAVMDGNVITAKRTAAVSAIATKLLKPPGSDVLCILGAGVQAYSHYEIFTEQFSFKEVRMWNRTRENAEKFASTVQGDVRVCSSVQEAVTGADVIITVTMATEPILFGEWVKPGAHINAVGASRPDWRELDDELMRQAVLYVDSREAALKESGDVLLSGADIFAELGEVISGAKPAHCEKTTVFKSLGMAVEDLVAAKLVYDSWSSG 4bvq-a1-m1-cA_4bvq-a1-m2-cB Cyanuric acid hydrolase: evolutionary innovation by structural concatenation. P58329 P58329 1.9 X-RAY DIFFRACTION 76 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 364 364 4bvq-a1-m1-cB_4bvq-a1-m2-cA 4bvr-a1-m1-cA_4bvr-a1-m2-cB 4bvr-a1-m1-cB_4bvr-a1-m2-cA 4bvs-a1-m1-cA_4bvs-a1-m2-cB 4bvs-a1-m1-cB_4bvs-a1-m2-cA 4bvt-a1-m1-cA_4bvt-a1-m2-cB 4bvt-a1-m1-cB_4bvt-a1-m2-cA HMYHIDVFRIPCHSPGDTSGLEDLIETGRVAPADIVAVMGKTEGNGCVNDYTREYATAMLAACLGRHLQLPPHEVEKRVAFVMSGGTEGVLSPHHTVFARRPAIDAHRPAGKRLTLGIAFTRDFLPEEIGRHAQITETAGAVKRAMRDAGIASIDDLHFVQVKCPLLTPAKIASARSRGCAPVTTDTYESMGYSRGASALGIALATEEVPSSMLVDESVLNDWSLSSSLASASAGIELEHNVVIAIGMSEQATSELVIAHGVMSDAIDAASVRRTIESLGIRSDDEMDRIVNVFAKAEASPDGVVRGMRHTMLSDSDINSTRHARAVTGAAIASVVGHGMVYVSGGAEHQGPAGGGPFAVIARA HMYHIDVFRIPCHSPGDTSGLEDLIETGRVAPADIVAVMGKTEGNGCVNDYTREYATAMLAACLGRHLQLPPHEVEKRVAFVMSGGTEGVLSPHHTVFARRPAIDAHRPAGKRLTLGIAFTRDFLPEEIGRHAQITETAGAVKRAMRDAGIASIDDLHFVQVKCPLLTPAKIASARSRGCAPVTTDTYESMGYSRGASALGIALATEEVPSSMLVDESVLNDWSLSSSLASASAGIELEHNVVIAIGMSEQATSELVIAHGVMSDAIDAASVRRTIESLGIRSDDEMDRIVNVFAKAEASPDGVVRGMRHTMLSDSDINSTRHARAVTGAAIASVVGHGMVYVSGGAEHQGPAGGGPFAVIARA 4bvq-a1-m1-cB_4bvq-a1-m2-cB Cyanuric acid hydrolase: evolutionary innovation by structural concatenation. P58329 P58329 1.9 X-RAY DIFFRACTION 45 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 364 364 4bvq-a1-m1-cA_4bvq-a1-m2-cA 4bvr-a1-m1-cA_4bvr-a1-m2-cA 4bvr-a1-m1-cB_4bvr-a1-m2-cB 4bvs-a1-m1-cA_4bvs-a1-m2-cA 4bvs-a1-m1-cB_4bvs-a1-m2-cB 4bvt-a1-m1-cA_4bvt-a1-m2-cA 4bvt-a1-m1-cB_4bvt-a1-m2-cB HMYHIDVFRIPCHSPGDTSGLEDLIETGRVAPADIVAVMGKTEGNGCVNDYTREYATAMLAACLGRHLQLPPHEVEKRVAFVMSGGTEGVLSPHHTVFARRPAIDAHRPAGKRLTLGIAFTRDFLPEEIGRHAQITETAGAVKRAMRDAGIASIDDLHFVQVKCPLLTPAKIASARSRGCAPVTTDTYESMGYSRGASALGIALATEEVPSSMLVDESVLNDWSLSSSLASASAGIELEHNVVIAIGMSEQATSELVIAHGVMSDAIDAASVRRTIESLGIRSDDEMDRIVNVFAKAEASPDGVVRGMRHTMLSDSDINSTRHARAVTGAAIASVVGHGMVYVSGGAEHQGPAGGGPFAVIARA HMYHIDVFRIPCHSPGDTSGLEDLIETGRVAPADIVAVMGKTEGNGCVNDYTREYATAMLAACLGRHLQLPPHEVEKRVAFVMSGGTEGVLSPHHTVFARRPAIDAHRPAGKRLTLGIAFTRDFLPEEIGRHAQITETAGAVKRAMRDAGIASIDDLHFVQVKCPLLTPAKIASARSRGCAPVTTDTYESMGYSRGASALGIALATEEVPSSMLVDESVLNDWSLSSSLASASAGIELEHNVVIAIGMSEQATSELVIAHGVMSDAIDAASVRRTIESLGIRSDDEMDRIVNVFAKAEASPDGVVRGMRHTMLSDSDINSTRHARAVTGAAIASVVGHGMVYVSGGAEHQGPAGGGPFAVIARA 4bvq-a1-m2-cA_4bvq-a1-m2-cB Cyanuric acid hydrolase: evolutionary innovation by structural concatenation. P58329 P58329 1.9 X-RAY DIFFRACTION 134 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 364 364 4bvq-a1-m1-cA_4bvq-a1-m1-cB 4bvr-a1-m1-cA_4bvr-a1-m1-cB 4bvr-a1-m2-cA_4bvr-a1-m2-cB 4bvs-a1-m1-cA_4bvs-a1-m1-cB 4bvs-a1-m2-cA_4bvs-a1-m2-cB 4bvt-a1-m1-cA_4bvt-a1-m1-cB 4bvt-a1-m2-cA_4bvt-a1-m2-cB HMYHIDVFRIPCHSPGDTSGLEDLIETGRVAPADIVAVMGKTEGNGCVNDYTREYATAMLAACLGRHLQLPPHEVEKRVAFVMSGGTEGVLSPHHTVFARRPAIDAHRPAGKRLTLGIAFTRDFLPEEIGRHAQITETAGAVKRAMRDAGIASIDDLHFVQVKCPLLTPAKIASARSRGCAPVTTDTYESMGYSRGASALGIALATEEVPSSMLVDESVLNDWSLSSSLASASAGIELEHNVVIAIGMSEQATSELVIAHGVMSDAIDAASVRRTIESLGIRSDDEMDRIVNVFAKAEASPDGVVRGMRHTMLSDSDINSTRHARAVTGAAIASVVGHGMVYVSGGAEHQGPAGGGPFAVIARA HMYHIDVFRIPCHSPGDTSGLEDLIETGRVAPADIVAVMGKTEGNGCVNDYTREYATAMLAACLGRHLQLPPHEVEKRVAFVMSGGTEGVLSPHHTVFARRPAIDAHRPAGKRLTLGIAFTRDFLPEEIGRHAQITETAGAVKRAMRDAGIASIDDLHFVQVKCPLLTPAKIASARSRGCAPVTTDTYESMGYSRGASALGIALATEEVPSSMLVDESVLNDWSLSSSLASASAGIELEHNVVIAIGMSEQATSELVIAHGVMSDAIDAASVRRTIESLGIRSDDEMDRIVNVFAKAEASPDGVVRGMRHTMLSDSDINSTRHARAVTGAAIASVVGHGMVYVSGGAEHQGPAGGGPFAVIARA 4bw7-a3-m1-cA_4bw7-a3-m1-cC Calmodulin in complex with strontium P0DP23 P0DP23 1.81 X-RAY DIFFRACTION 26 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 137 146 AEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT MADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMM 4bwc-a1-m1-cB_4bwc-a1-m2-cB X-ray structure of a phospholiapse B like protein 1 from bovine kidneys Q9GL30 Q9GL30 1.89 X-RAY DIFFRACTION 59 1.0 9913 (Bos taurus) 9913 (Bos taurus) 320 320 SALIKVLPGFENIFFAHSSWYTYAAMLRIYKHWDFNIVDKDTSSSRLSFSSYPGFLESLDDFYLLSSGLVLLQTTNSVYNKTLLQHVVPQSLLAWQRVRVASMMANNGKQWAEVFSKYNSGTYNNQYMVLDLKKVNLNHSLDEGTLYIVEQIPTYVEYSEQTAVLRRGYWPSYNIPFHEKVYNWSGYPILVKKLGLDYSYDLASRAKIFRRDQGKVTDMESMKYIMRYNNYKQDPYSKGDPCNTVCCREDLNSHSPSPGGCYDTKVADIYLASKYKAYAISGPTVQGGLPVFHWSRFNKTLHEGMPEAYNFDFITMKPIL SALIKVLPGFENIFFAHSSWYTYAAMLRIYKHWDFNIVDKDTSSSRLSFSSYPGFLESLDDFYLLSSGLVLLQTTNSVYNKTLLQHVVPQSLLAWQRVRVASMMANNGKQWAEVFSKYNSGTYNNQYMVLDLKKVNLNHSLDEGTLYIVEQIPTYVEYSEQTAVLRRGYWPSYNIPFHEKVYNWSGYPILVKKLGLDYSYDLASRAKIFRRDQGKVTDMESMKYIMRYNNYKQDPYSKGDPCNTVCCREDLNSHSPSPGGCYDTKVADIYLASKYKAYAISGPTVQGGLPVFHWSRFNKTLHEGMPEAYNFDFITMKPIL 4bwd-a2-m1-cC_4bwd-a2-m2-cC Human short coiled coil protein Q9UIL1 Q9UIL1 2.702 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 61 4bwd-a1-m1-cB_4bwd-a1-m1-cA VDAENQVELEEKTRLINQVMELQHTLEDLSARVDAVKEENLKLKSENQVLGQYIENLMSAS VDAENQVELEEKTRLINQVMELQHTLEDLSARVDAVKEENLKLKSENQVLGQYIENLMSAS 4bwi-a1-m1-cB_4bwi-a1-m1-cA Structure of the phytochrome Cph2 from Synechocystis sp. PCC6803 Q55434 Q55434 2.6 X-RAY DIFFRACTION 75 0.989 1143 (Synechocystis sp.) 1143 (Synechocystis sp.) 377 381 NRSLEDFLRNVINKFHRALTLRETLQVIVEEARIFLGVDRVKIYKFASDGSGEVLAEAVNRAALPSLLGLHFPVEDIPPQAREELGNQRKMIAVDVAHRRKKSHELSGRIGHYTTVDSCHIQYLLAMGVLSSLTVPVMQDQQLWGIMAVHHSKPRRFTEQEWETMALLSKEVSLAITQSQLSRQVHQQQVQEALVQRLETTVAQYGDRPETWQYALETVGQAVEADGAVLYIAPDLTGSVAQHYQWNLRFDWGNWLETSLWQELMRGQCVPHGYTLGELEQRSDWIAPPESLSAENFQSFLIVPLAADQQWVGSLILLRKEKSLVKHWAGKRGIDRRNILPRLSFEAWEETQKLVPTWNRSERKLAQVASTQLYMAI NRSLEDFLRNVINKFHRALTLRETLQVIVEEARIFLGVDRVKIYKFASDGSGEVLAEAVNRAALPSLLGLHFPVEDIPPQAREELGNQRKMIAVDVAHRRKKSHELSGRISGHYTTVDSCHIQYLLAMGVLSSLTVPVMQDQQLWGIMAVHHSKPRRFTEQEWETMALLSKEVSLAITQSQLSRQVHQQQVQEALVQRLETTVAQYGDRPETWQYALETVGQAVEADGAVLYIAPDLTGSVAQHYQWNLRFDWGNWLETSLWQELMRGQPSANCVPHGYTLGELEQRSDWIAPPESLSAENFQSFLIVPLAADQQWVGSLILLRKEKSLVKHWAGKRGNILPRLSFEAWEETQKLVPTWNRSERKLAQVASTQLYMAITQQ 4bwk-a1-m1-cB_4bwk-a1-m1-cA Structure of Neurospora crassa PAN3 pseudokinase Q7SDP4 Q7SDP4 3.3 X-RAY DIFFRACTION 177 0.997 5141 (Neurospora crassa) 5141 (Neurospora crassa) 387 392 4bwx-a1-m1-cA_4bwx-a1-m1-cB 4czx-a1-m1-cB_4czx-a1-m2-cB 4czy-a1-m1-cB_4czy-a1-m1-cD PKDRRENLQKKLFHMQQLLPNSGLPNLDRWHSLFPLDTKATRNSTCFGYPSWMYKAQNNKNGRHFALRRIEGYRLTNEKAILNVTKEWKKIINANIVTVHEAFTTEFFGDSSLIFVYDFHPLSETLYDHHFPPNNKIPENLLWSYVCQIANALLAIHNAKLAARCLELSKIIWENNRIRLAACSILDVLHHKTIEELQQEDFVKFGRIILALATNTPTLNFNNIDAALATIVPRYSTQLRGVLEWLIKPSAPGETKTVETLLGGITTHLANFANFVMQESDEKEFHLMRELENGRIARLMFKLSVVNERTGERLLLKLFRDYVFHQVDADGKARLDTNHYLNCLSKLDASSEEQILLTSRDNATVFVVSYRSIRQMLDRAYGELGKE PKDRRENLQKKLFHMQQLLPNSGLPNLDRWHSLFPLDTKATRNSTCFGYPSWMYKAQNNKNGRHFALRRIEGYRLTNEKAILNVTKEWKKIINANIVTVHEAFTTEFFGDSSLIFVYDFHPLSETLYDHHFPPNKIPENLLWSYVCQIANALLAIHNAKLAARCLELSKIIWENNRIRLAACSILDVLHHDSPNRKTIEELQQEDFVKFGRIILALATNTPTLNFNNIDAALATIVPRYSTQLRGVLEWLIKPSAPGETKTVETLLGGITTHLANFANFVMQESDEKEFHLMRELENGRIARLMFKLSVVNERETGERLLLKLFRDYVFHQVDADGKARLDTNHYLNCLSKLDASSEEQILLTSRDNATVFVVSYRSIRQMLDRAYGELGKE 4bwn-a1-m1-cA_4bwn-a1-m1-cB NEMO CC2-LZ DOMAIN Q9Y6K9 Q9Y6K9 2.27 X-RAY DIFFRACTION 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 3fx0-a1-m1-cA_3fx0-a1-m1-cB QLEDLKQQLQQAEEALVAKQEVIDKLKEEAEQHNIVMETVPVLKAQADIYKADFQAERQAREKLAEKKELLQEQLEQLQREYSKLK QLEDLKQQLQQAEEALVAKQEVIDKLKEEAEQHNIVMETVPVLKAQADIYKADFQAERQAREKLAEKKELLQEQLEQLQREYSKLK 4bwo-a1-m1-cA_4bwo-a1-m1-cB The FedF adhesin from entrrotoxigenic Escherichia coli is a sulfate- binding lectin Q47212 Q47212 1.8 X-RAY DIFFRACTION 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 142 142 4b4p-a1-m1-cA_4b4p-a1-m1-cB SAQVTGTLLGTGKTNTTQMPALYTWQHQIYNVNFIPSSSGTLTCQAGTILVWKNGRETQYALECRVSIHHSSGSINESQWGQQSQVGFGTACGNKKCRFTGFEISLRIPPNAQTYPLSSGDLKGSFSLTNKEVNWSASIYVP SAQVTGTLLGTGKTNTTQMPALYTWQHQIYNVNFIPSSSGTLTCQAGTILVWKNGRETQYALECRVSIHHSSGSINESQWGQQSQVGFGTACGNKKCRFTGFEISLRIPPNAQTYPLSSGDLKGSFSLTNKEVNWSASIYVP 4bwp-a1-m1-cB_4bwp-a1-m1-cA Structure of Drosophila Melanogaster PAN3 pseudokinase Q95RR8 Q95RR8 3.6 X-RAY DIFFRACTION 142 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 372 386 PLEVENYHALYPLEPPAQPLHAKLTFPATTYRATHNTTGYKYCLRRIHGFRLQSTKCMTLVEMWKKLQHTNVVQLREVFTTKAFGDNSLVLVYDYHPGSQTLLAKYFTPTSNGPLLPEATIWSIIMQLTAGLKAIHHAGLACKVLDPTKIIVTGKRVRFSSCCISDITQFDPNASNPLALVNMHQQDDLTALGRLVLALACRCLQSVQRDNVQSSIDMVTRNYSTDLRNFIVYLFTTNNRRSVTDLMPMIGARFYTQLDALQSKIDMQEDELAKEMENGRLYRILVKLNSINERPGDRYMLKLFRDYLFHSVTEDGRPWLDHAHIVQCLNKLDAGSIERVQLMSRDEQSVLIVSYAELKNCLENAFSELMSS PLEVENYHALYPLEPPAQPLHAKLTFPATTYRATHNTTGYKYCLRRIHGFRLQSTKCMTLVEMWKKLQHTNVVQLREVFTTKAFGDNSLVLVYDYHPGSQTLLAKYFTPAPRTSNGPLLPEATIWSIIMQLTAGLKAIHHAGLACKVLDPTKIIVTGKRVRFSSCCISDITQFDPNASNPLALVNMHQQDDLTALGRLVLALACRCLQSVQRDNVQSSIDMVTRNYSTDLRNFIVYLFTTNNRRSVTDLMPMIGARFYTQLDALQSKIDMQEDELAKEMENGRLYRILVKLNSINERPDFNLDCTWSETGDRYMLKLFRDYLFHSVTEDGRPWLDHAHIVQCLNKLDAGSIERVQLMSRDEQSVLIVSYAELKNCLENAFSELMSS 4bwv-a1-m1-cA_4bwv-a1-m1-cB Structure of Adenosine 5-prime-phosphosulfate Reductase apr-b from Physcomitrella Patens Q8L5D0 Q8L5D0 1.8 X-RAY DIFFRACTION 70 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 227 227 IDIKKCNEQARDARLQHLEAQALETLQKTVENFEKPAFPCALIAGDVVILDLLHRIGAFSDNKVKIIFIDTFHLFPETYKFLSEVEERYGFKAHVFHAADVNNKEAYDAKFGSDLFITDIEEYDRICKVEPFSRALKTLEVDAMINGRRRDHGAERAHLEVFEEGKMVKVQPLAYWEFRDCWDYLTKYSLPYHPLHDQGFPSIGDVQSTIPVPREKWFEYAGERSGR IDIKKCNEQARDARLQHLEAQALETLQKTVENFEKPAFPCALIAGDVVILDLLHRIGAFSDNKVKIIFIDTFHLFPETYKFLSEVEERYGFKAHVFHAADVNNKEAYDAKFGSDLFITDIEEYDRICKVEPFSRALKTLEVDAMINGRRRDHGAERAHLEVFEEGKMVKVQPLAYWEFRDCWDYLTKYSLPYHPLHDQGFPSIGDVQSTIPVPREKWFEYAGERSGR 4bwy-a2-m1-cA_4bwy-a2-m1-cF P4 PROTEIN FROM BACTERIOPHAGE PHI8 (R32) Q9MC14 Q9MC14 3.1 X-RAY DIFFRACTION 118 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 288 288 4blq-a1-m1-cA_4blq-a1-m1-cC 4blq-a1-m1-cA_4blq-a1-m1-cF 4blq-a1-m1-cB_4blq-a1-m1-cC 4blq-a1-m1-cB_4blq-a1-m1-cD 4blq-a1-m1-cD_4blq-a1-m1-cE 4blq-a1-m1-cE_4blq-a1-m1-cF 4bwy-a1-m1-cG_4bwy-a1-m1-cI 4bwy-a1-m1-cG_4bwy-a1-m1-cL 4bwy-a1-m1-cH_4bwy-a1-m1-cI 4bwy-a1-m1-cH_4bwy-a1-m1-cJ 4bwy-a1-m1-cJ_4bwy-a1-m1-cK 4bwy-a1-m1-cK_4bwy-a1-m1-cL 4bwy-a2-m1-cA_4bwy-a2-m1-cC 4bwy-a2-m1-cB_4bwy-a2-m1-cC 4bwy-a2-m1-cB_4bwy-a2-m1-cD 4bwy-a2-m1-cE_4bwy-a2-m1-cD 4bwy-a2-m1-cE_4bwy-a2-m1-cF NSIIDLGPRVQSLMEQLATTKLEEGVKNLDMGSVYEITTVMVLGNSILGFHKGDLVKMVRPSVSARDLIGVGYATASAAVVRQRLIEHKIEAGAELIISGTAGGKTVLTNHYAAQMCAKGLKVAVVSMAEAERPLYGSVLHVFAALHLAAVSDVDVLYVDSLRSVYNELGGNLSRQVDGMLTALDQYARAVNMRVVFTLNPSDDENVDAAVRSVFKTASASMHTARRIKSFAVNGTAFTAETEIHLRADRSNSANRVSGDLVSRGAVFNQFLLSGQSAFLGPNIPESN NSIIDLGPRVQSLMEQLATTKLEEGVKNLDMGSVYEITTVMVLGNSILGFHKGDLVKMVRPSVSARDLIGVGYATASAAVVRQRLIEHKIEAGAELIISGTAGGKTVLTNHYAAQMCAKGLKVAVVSMAEAERPLYGSVLHVFAALHLAAVSDVDVLYVDSLRSVYNELGGNLSRQVDGMLTALDQYARAVNMRVVFTLNPSDDENVDAAVRSVFKTASASMHTARRIKSFAVNGTAFTAETEIHLRADRSNSANRVSGDLVSRGAVFNQFLLSGQSAFLGPNIPESN 4bwz-a1-m1-cA_4bwz-a1-m2-cA Crystal structure of the sodium proton antiporter, NapA Q72IM4 Q72IM4 2.984 X-RAY DIFFRACTION 122 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 384 384 5bz2-a1-m1-cA_5bz2-a1-m2-cA 5bz3-a1-m1-cA_5bz3-a1-m2-cA GAEHLLEIFYLLLAAQVCAFIFKRLNQPVVIGEVLAGVLVGPALLGLVHEGEILEFLAELGAVFLLFMVGLETRLKDILAVGKEAFLVAVLGVALPFLGGYLYGLEIGFETLPALFLGTALVATSVGITARVLQELGVLSRPYSRIILGAAVIDDVLGLIVLACVNGVAETGQVEVGAITRLIVLSVVFVGLAVFLSTLIARLPLERLPVGSPLGFALALGVGMAALAASIGLAPIVGAFLGGMLLSEVREKYRLEEPIFAIESFLAPIFFAMVGVRLELSALASPVVLVAGTVVTVIAILGKVLGGFLGALTQGVRSALTVGCGMAPRGEVGLIVAALGLKAGAVNEEEYAIVLFMVVFTTLFAPFALKPLIAWTERERAAKE GAEHLLEIFYLLLAAQVCAFIFKRLNQPVVIGEVLAGVLVGPALLGLVHEGEILEFLAELGAVFLLFMVGLETRLKDILAVGKEAFLVAVLGVALPFLGGYLYGLEIGFETLPALFLGTALVATSVGITARVLQELGVLSRPYSRIILGAAVIDDVLGLIVLACVNGVAETGQVEVGAITRLIVLSVVFVGLAVFLSTLIARLPLERLPVGSPLGFALALGVGMAALAASIGLAPIVGAFLGGMLLSEVREKYRLEEPIFAIESFLAPIFFAMVGVRLELSALASPVVLVAGTVVTVIAILGKVLGGFLGALTQGVRSALTVGCGMAPRGEVGLIVAALGLKAGAVNEEEYAIVLFMVVFTTLFAPFALKPLIAWTERERAAKE 4bx4-a1-m10-cA_4bx4-a1-m9-cB Fitting of the bacteriophage Phi8 P1 capsid protein into cryo-EM density Q9MC13 Q9MC13 8.7 ELECTRON MICROSCOPY 53 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 738 738 4bx4-a1-m10-cB_4bx4-a1-m6-cA 4bx4-a1-m11-cA_4bx4-a1-m15-cB 4bx4-a1-m11-cB_4bx4-a1-m12-cA 4bx4-a1-m12-cB_4bx4-a1-m13-cA 4bx4-a1-m13-cB_4bx4-a1-m14-cA 4bx4-a1-m14-cB_4bx4-a1-m15-cA 4bx4-a1-m16-cA_4bx4-a1-m20-cB 4bx4-a1-m16-cB_4bx4-a1-m17-cA 4bx4-a1-m17-cB_4bx4-a1-m18-cA 4bx4-a1-m18-cB_4bx4-a1-m19-cA 4bx4-a1-m19-cB_4bx4-a1-m20-cA 4bx4-a1-m1-cA_4bx4-a1-m5-cB 4bx4-a1-m1-cB_4bx4-a1-m2-cA 4bx4-a1-m21-cA_4bx4-a1-m25-cB 4bx4-a1-m21-cB_4bx4-a1-m22-cA 4bx4-a1-m22-cB_4bx4-a1-m23-cA 4bx4-a1-m23-cB_4bx4-a1-m24-cA 4bx4-a1-m24-cB_4bx4-a1-m25-cA 4bx4-a1-m26-cA_4bx4-a1-m30-cB 4bx4-a1-m26-cB_4bx4-a1-m27-cA 4bx4-a1-m27-cB_4bx4-a1-m28-cA 4bx4-a1-m28-cB_4bx4-a1-m29-cA 4bx4-a1-m29-cB_4bx4-a1-m30-cA 4bx4-a1-m2-cB_4bx4-a1-m3-cA 4bx4-a1-m31-cA_4bx4-a1-m35-cB 4bx4-a1-m31-cB_4bx4-a1-m32-cA 4bx4-a1-m32-cB_4bx4-a1-m33-cA 4bx4-a1-m33-cB_4bx4-a1-m34-cA 4bx4-a1-m34-cB_4bx4-a1-m35-cA 4bx4-a1-m36-cA_4bx4-a1-m40-cB 4bx4-a1-m36-cB_4bx4-a1-m37-cA 4bx4-a1-m37-cB_4bx4-a1-m38-cA 4bx4-a1-m38-cB_4bx4-a1-m39-cA 4bx4-a1-m39-cB_4bx4-a1-m40-cA 4bx4-a1-m3-cB_4bx4-a1-m4-cA 4bx4-a1-m41-cA_4bx4-a1-m45-cB 4bx4-a1-m41-cB_4bx4-a1-m42-cA 4bx4-a1-m42-cB_4bx4-a1-m43-cA 4bx4-a1-m43-cB_4bx4-a1-m44-cA 4bx4-a1-m44-cB_4bx4-a1-m45-cA 4bx4-a1-m46-cA_4bx4-a1-m50-cB 4bx4-a1-m46-cB_4bx4-a1-m47-cA 4bx4-a1-m47-cB_4bx4-a1-m48-cA 4bx4-a1-m48-cB_4bx4-a1-m49-cA 4bx4-a1-m49-cB_4bx4-a1-m50-cA 4bx4-a1-m4-cB_4bx4-a1-m5-cA 4bx4-a1-m51-cA_4bx4-a1-m55-cB 4bx4-a1-m51-cB_4bx4-a1-m52-cA 4bx4-a1-m52-cB_4bx4-a1-m53-cA 4bx4-a1-m53-cB_4bx4-a1-m54-cA 4bx4-a1-m54-cB_4bx4-a1-m55-cA 4bx4-a1-m56-cA_4bx4-a1-m60-cB 4bx4-a1-m56-cB_4bx4-a1-m57-cA 4bx4-a1-m57-cB_4bx4-a1-m58-cA 4bx4-a1-m58-cB_4bx4-a1-m59-cA 4bx4-a1-m59-cB_4bx4-a1-m60-cA 4bx4-a1-m6-cB_4bx4-a1-m7-cA 4bx4-a1-m7-cB_4bx4-a1-m8-cA 4bx4-a1-m8-cB_4bx4-a1-m9-cA DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4bx4-a1-m23-cB_4bx4-a1-m9-cB Fitting of the bacteriophage Phi8 P1 capsid protein into cryo-EM density Q9MC13 Q9MC13 8.7 ELECTRON MICROSCOPY 26 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 738 738 4bx4-a1-m10-cB_4bx4-a1-m5-cB 4bx4-a1-m11-cB_4bx4-a1-m37-cB 4bx4-a1-m12-cB_4bx4-a1-m46-cB 4bx4-a1-m13-cB_4bx4-a1-m44-cB 4bx4-a1-m14-cB_4bx4-a1-m28-cB 4bx4-a1-m15-cB_4bx4-a1-m20-cB 4bx4-a1-m16-cB_4bx4-a1-m27-cB 4bx4-a1-m17-cB_4bx4-a1-m51-cB 4bx4-a1-m18-cB_4bx4-a1-m59-cB 4bx4-a1-m19-cB_4bx4-a1-m38-cB 4bx4-a1-m1-cB_4bx4-a1-m22-cB 4bx4-a1-m21-cB_4bx4-a1-m42-cB 4bx4-a1-m24-cB_4bx4-a1-m53-cB 4bx4-a1-m25-cB_4bx4-a1-m30-cB 4bx4-a1-m26-cB_4bx4-a1-m52-cB 4bx4-a1-m29-cB_4bx4-a1-m43-cB 4bx4-a1-m2-cB_4bx4-a1-m41-cB 4bx4-a1-m31-cB_4bx4-a1-m57-cB 4bx4-a1-m32-cB_4bx4-a1-m6-cB 4bx4-a1-m33-cB_4bx4-a1-m4-cB 4bx4-a1-m34-cB_4bx4-a1-m48-cB 4bx4-a1-m35-cB_4bx4-a1-m40-cB 4bx4-a1-m36-cB_4bx4-a1-m47-cB 4bx4-a1-m39-cB_4bx4-a1-m58-cB 4bx4-a1-m3-cB_4bx4-a1-m49-cB 4bx4-a1-m45-cB_4bx4-a1-m50-cB 4bx4-a1-m54-cB_4bx4-a1-m8-cB 4bx4-a1-m55-cB_4bx4-a1-m60-cB 4bx4-a1-m56-cB_4bx4-a1-m7-cB DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4bx4-a1-m24-cA_4bx4-a1-m9-cB Fitting of the bacteriophage Phi8 P1 capsid protein into cryo-EM density Q9MC13 Q9MC13 8.7 ELECTRON MICROSCOPY 23 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 738 738 4bx4-a1-m10-cA_4bx4-a1-m23-cB 4bx4-a1-m11-cA_4bx4-a1-m20-cB 4bx4-a1-m11-cB_4bx4-a1-m38-cA 4bx4-a1-m12-cA_4bx4-a1-m37-cB 4bx4-a1-m12-cB_4bx4-a1-m47-cA 4bx4-a1-m13-cA_4bx4-a1-m46-cB 4bx4-a1-m13-cB_4bx4-a1-m45-cA 4bx4-a1-m14-cA_4bx4-a1-m44-cB 4bx4-a1-m14-cB_4bx4-a1-m29-cA 4bx4-a1-m15-cA_4bx4-a1-m28-cB 4bx4-a1-m15-cB_4bx4-a1-m16-cA 4bx4-a1-m16-cB_4bx4-a1-m28-cA 4bx4-a1-m17-cA_4bx4-a1-m27-cB 4bx4-a1-m17-cB_4bx4-a1-m52-cA 4bx4-a1-m18-cA_4bx4-a1-m51-cB 4bx4-a1-m18-cB_4bx4-a1-m60-cA 4bx4-a1-m19-cA_4bx4-a1-m59-cB 4bx4-a1-m19-cB_4bx4-a1-m39-cA 4bx4-a1-m1-cA_4bx4-a1-m10-cB 4bx4-a1-m1-cB_4bx4-a1-m23-cA 4bx4-a1-m20-cA_4bx4-a1-m38-cB 4bx4-a1-m21-cA_4bx4-a1-m30-cB 4bx4-a1-m21-cB_4bx4-a1-m43-cA 4bx4-a1-m22-cA_4bx4-a1-m42-cB 4bx4-a1-m24-cB_4bx4-a1-m54-cA 4bx4-a1-m25-cA_4bx4-a1-m53-cB 4bx4-a1-m25-cB_4bx4-a1-m26-cA 4bx4-a1-m26-cB_4bx4-a1-m53-cA 4bx4-a1-m27-cA_4bx4-a1-m52-cB 4bx4-a1-m29-cB_4bx4-a1-m44-cA 4bx4-a1-m2-cA_4bx4-a1-m22-cB 4bx4-a1-m2-cB_4bx4-a1-m42-cA 4bx4-a1-m30-cA_4bx4-a1-m43-cB 4bx4-a1-m31-cA_4bx4-a1-m40-cB 4bx4-a1-m31-cB_4bx4-a1-m58-cA 4bx4-a1-m32-cA_4bx4-a1-m57-cB 4bx4-a1-m32-cB_4bx4-a1-m7-cA 4bx4-a1-m33-cA_4bx4-a1-m6-cB 4bx4-a1-m33-cB_4bx4-a1-m5-cA 4bx4-a1-m34-cA_4bx4-a1-m4-cB 4bx4-a1-m34-cB_4bx4-a1-m49-cA 4bx4-a1-m35-cA_4bx4-a1-m48-cB 4bx4-a1-m35-cB_4bx4-a1-m36-cA 4bx4-a1-m36-cB_4bx4-a1-m48-cA 4bx4-a1-m37-cA_4bx4-a1-m47-cB 4bx4-a1-m39-cB_4bx4-a1-m59-cA 4bx4-a1-m3-cA_4bx4-a1-m41-cB 4bx4-a1-m3-cB_4bx4-a1-m50-cA 4bx4-a1-m40-cA_4bx4-a1-m58-cB 4bx4-a1-m41-cA_4bx4-a1-m50-cB 4bx4-a1-m45-cB_4bx4-a1-m46-cA 4bx4-a1-m4-cA_4bx4-a1-m49-cB 4bx4-a1-m51-cA_4bx4-a1-m60-cB 4bx4-a1-m54-cB_4bx4-a1-m9-cA 4bx4-a1-m55-cA_4bx4-a1-m8-cB 4bx4-a1-m55-cB_4bx4-a1-m56-cA 4bx4-a1-m56-cB_4bx4-a1-m8-cA 4bx4-a1-m57-cA_4bx4-a1-m7-cB 4bx4-a1-m5-cB_4bx4-a1-m6-cA DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4bx4-a1-m54-cB_4bx4-a1-m9-cB Fitting of the bacteriophage Phi8 P1 capsid protein into cryo-EM density Q9MC13 Q9MC13 8.7 ELECTRON MICROSCOPY 57 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 738 738 4bx4-a1-m10-cB_4bx4-a1-m23-cB 4bx4-a1-m11-cB_4bx4-a1-m20-cB 4bx4-a1-m11-cB_4bx4-a1-m38-cB 4bx4-a1-m12-cB_4bx4-a1-m37-cB 4bx4-a1-m12-cB_4bx4-a1-m47-cB 4bx4-a1-m13-cB_4bx4-a1-m45-cB 4bx4-a1-m13-cB_4bx4-a1-m46-cB 4bx4-a1-m14-cB_4bx4-a1-m29-cB 4bx4-a1-m14-cB_4bx4-a1-m44-cB 4bx4-a1-m15-cB_4bx4-a1-m16-cB 4bx4-a1-m15-cB_4bx4-a1-m28-cB 4bx4-a1-m16-cB_4bx4-a1-m28-cB 4bx4-a1-m17-cB_4bx4-a1-m27-cB 4bx4-a1-m17-cB_4bx4-a1-m52-cB 4bx4-a1-m18-cB_4bx4-a1-m51-cB 4bx4-a1-m18-cB_4bx4-a1-m60-cB 4bx4-a1-m19-cB_4bx4-a1-m39-cB 4bx4-a1-m19-cB_4bx4-a1-m59-cB 4bx4-a1-m1-cB_4bx4-a1-m10-cB 4bx4-a1-m1-cB_4bx4-a1-m23-cB 4bx4-a1-m20-cB_4bx4-a1-m38-cB 4bx4-a1-m21-cB_4bx4-a1-m30-cB 4bx4-a1-m21-cB_4bx4-a1-m43-cB 4bx4-a1-m22-cB_4bx4-a1-m42-cB 4bx4-a1-m24-cB_4bx4-a1-m54-cB 4bx4-a1-m24-cB_4bx4-a1-m9-cB 4bx4-a1-m25-cB_4bx4-a1-m26-cB 4bx4-a1-m25-cB_4bx4-a1-m53-cB 4bx4-a1-m26-cB_4bx4-a1-m53-cB 4bx4-a1-m27-cB_4bx4-a1-m52-cB 4bx4-a1-m29-cB_4bx4-a1-m44-cB 4bx4-a1-m2-cB_4bx4-a1-m22-cB 4bx4-a1-m2-cB_4bx4-a1-m42-cB 4bx4-a1-m30-cB_4bx4-a1-m43-cB 4bx4-a1-m31-cB_4bx4-a1-m40-cB 4bx4-a1-m31-cB_4bx4-a1-m58-cB 4bx4-a1-m32-cB_4bx4-a1-m57-cB 4bx4-a1-m32-cB_4bx4-a1-m7-cB 4bx4-a1-m33-cB_4bx4-a1-m5-cB 4bx4-a1-m33-cB_4bx4-a1-m6-cB 4bx4-a1-m34-cB_4bx4-a1-m49-cB 4bx4-a1-m34-cB_4bx4-a1-m4-cB 4bx4-a1-m35-cB_4bx4-a1-m36-cB 4bx4-a1-m35-cB_4bx4-a1-m48-cB 4bx4-a1-m36-cB_4bx4-a1-m48-cB 4bx4-a1-m37-cB_4bx4-a1-m47-cB 4bx4-a1-m39-cB_4bx4-a1-m59-cB 4bx4-a1-m3-cB_4bx4-a1-m41-cB 4bx4-a1-m3-cB_4bx4-a1-m50-cB 4bx4-a1-m40-cB_4bx4-a1-m58-cB 4bx4-a1-m41-cB_4bx4-a1-m50-cB 4bx4-a1-m45-cB_4bx4-a1-m46-cB 4bx4-a1-m4-cB_4bx4-a1-m49-cB 4bx4-a1-m51-cB_4bx4-a1-m60-cB 4bx4-a1-m55-cB_4bx4-a1-m56-cB 4bx4-a1-m55-cB_4bx4-a1-m8-cB 4bx4-a1-m56-cB_4bx4-a1-m8-cB 4bx4-a1-m57-cB_4bx4-a1-m7-cB 4bx4-a1-m5-cB_4bx4-a1-m6-cB DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4bx4-a1-m8-cA_4bx4-a1-m9-cA Fitting of the bacteriophage Phi8 P1 capsid protein into cryo-EM density Q9MC13 Q9MC13 8.7 ELECTRON MICROSCOPY 125 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 738 738 4bx4-a1-m10-cA_4bx4-a1-m6-cA 4bx4-a1-m10-cA_4bx4-a1-m9-cA 4bx4-a1-m11-cA_4bx4-a1-m12-cA 4bx4-a1-m11-cA_4bx4-a1-m15-cA 4bx4-a1-m12-cA_4bx4-a1-m13-cA 4bx4-a1-m13-cA_4bx4-a1-m14-cA 4bx4-a1-m14-cA_4bx4-a1-m15-cA 4bx4-a1-m16-cA_4bx4-a1-m17-cA 4bx4-a1-m16-cA_4bx4-a1-m20-cA 4bx4-a1-m17-cA_4bx4-a1-m18-cA 4bx4-a1-m18-cA_4bx4-a1-m19-cA 4bx4-a1-m19-cA_4bx4-a1-m20-cA 4bx4-a1-m1-cA_4bx4-a1-m2-cA 4bx4-a1-m1-cA_4bx4-a1-m5-cA 4bx4-a1-m21-cA_4bx4-a1-m22-cA 4bx4-a1-m21-cA_4bx4-a1-m25-cA 4bx4-a1-m22-cA_4bx4-a1-m23-cA 4bx4-a1-m23-cA_4bx4-a1-m24-cA 4bx4-a1-m24-cA_4bx4-a1-m25-cA 4bx4-a1-m26-cA_4bx4-a1-m27-cA 4bx4-a1-m26-cA_4bx4-a1-m30-cA 4bx4-a1-m27-cA_4bx4-a1-m28-cA 4bx4-a1-m28-cA_4bx4-a1-m29-cA 4bx4-a1-m29-cA_4bx4-a1-m30-cA 4bx4-a1-m2-cA_4bx4-a1-m3-cA 4bx4-a1-m31-cA_4bx4-a1-m32-cA 4bx4-a1-m31-cA_4bx4-a1-m35-cA 4bx4-a1-m32-cA_4bx4-a1-m33-cA 4bx4-a1-m33-cA_4bx4-a1-m34-cA 4bx4-a1-m34-cA_4bx4-a1-m35-cA 4bx4-a1-m36-cA_4bx4-a1-m37-cA 4bx4-a1-m36-cA_4bx4-a1-m40-cA 4bx4-a1-m37-cA_4bx4-a1-m38-cA 4bx4-a1-m38-cA_4bx4-a1-m39-cA 4bx4-a1-m39-cA_4bx4-a1-m40-cA 4bx4-a1-m3-cA_4bx4-a1-m4-cA 4bx4-a1-m41-cA_4bx4-a1-m42-cA 4bx4-a1-m41-cA_4bx4-a1-m45-cA 4bx4-a1-m42-cA_4bx4-a1-m43-cA 4bx4-a1-m43-cA_4bx4-a1-m44-cA 4bx4-a1-m44-cA_4bx4-a1-m45-cA 4bx4-a1-m46-cA_4bx4-a1-m47-cA 4bx4-a1-m46-cA_4bx4-a1-m50-cA 4bx4-a1-m47-cA_4bx4-a1-m48-cA 4bx4-a1-m48-cA_4bx4-a1-m49-cA 4bx4-a1-m49-cA_4bx4-a1-m50-cA 4bx4-a1-m4-cA_4bx4-a1-m5-cA 4bx4-a1-m51-cA_4bx4-a1-m52-cA 4bx4-a1-m51-cA_4bx4-a1-m55-cA 4bx4-a1-m52-cA_4bx4-a1-m53-cA 4bx4-a1-m53-cA_4bx4-a1-m54-cA 4bx4-a1-m54-cA_4bx4-a1-m55-cA 4bx4-a1-m56-cA_4bx4-a1-m57-cA 4bx4-a1-m56-cA_4bx4-a1-m60-cA 4bx4-a1-m57-cA_4bx4-a1-m58-cA 4bx4-a1-m58-cA_4bx4-a1-m59-cA 4bx4-a1-m59-cA_4bx4-a1-m60-cA 4bx4-a1-m6-cA_4bx4-a1-m7-cA 4bx4-a1-m7-cA_4bx4-a1-m8-cA DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4bx4-a1-m9-cA_4bx4-a1-m9-cB Fitting of the bacteriophage Phi8 P1 capsid protein into cryo-EM density Q9MC13 Q9MC13 8.7 ELECTRON MICROSCOPY 69 1.0 120086 (Pseudomonas phage phi8) 120086 (Pseudomonas phage phi8) 738 738 4bx4-a1-m10-cA_4bx4-a1-m10-cB 4bx4-a1-m11-cA_4bx4-a1-m11-cB 4bx4-a1-m12-cA_4bx4-a1-m12-cB 4bx4-a1-m13-cA_4bx4-a1-m13-cB 4bx4-a1-m14-cA_4bx4-a1-m14-cB 4bx4-a1-m15-cA_4bx4-a1-m15-cB 4bx4-a1-m16-cA_4bx4-a1-m16-cB 4bx4-a1-m17-cA_4bx4-a1-m17-cB 4bx4-a1-m18-cA_4bx4-a1-m18-cB 4bx4-a1-m19-cA_4bx4-a1-m19-cB 4bx4-a1-m1-cA_4bx4-a1-m1-cB 4bx4-a1-m20-cA_4bx4-a1-m20-cB 4bx4-a1-m21-cA_4bx4-a1-m21-cB 4bx4-a1-m22-cA_4bx4-a1-m22-cB 4bx4-a1-m23-cA_4bx4-a1-m23-cB 4bx4-a1-m24-cA_4bx4-a1-m24-cB 4bx4-a1-m25-cA_4bx4-a1-m25-cB 4bx4-a1-m26-cA_4bx4-a1-m26-cB 4bx4-a1-m27-cA_4bx4-a1-m27-cB 4bx4-a1-m28-cA_4bx4-a1-m28-cB 4bx4-a1-m29-cA_4bx4-a1-m29-cB 4bx4-a1-m2-cA_4bx4-a1-m2-cB 4bx4-a1-m30-cA_4bx4-a1-m30-cB 4bx4-a1-m31-cA_4bx4-a1-m31-cB 4bx4-a1-m32-cA_4bx4-a1-m32-cB 4bx4-a1-m33-cA_4bx4-a1-m33-cB 4bx4-a1-m34-cA_4bx4-a1-m34-cB 4bx4-a1-m35-cA_4bx4-a1-m35-cB 4bx4-a1-m36-cA_4bx4-a1-m36-cB 4bx4-a1-m37-cA_4bx4-a1-m37-cB 4bx4-a1-m38-cA_4bx4-a1-m38-cB 4bx4-a1-m39-cA_4bx4-a1-m39-cB 4bx4-a1-m3-cA_4bx4-a1-m3-cB 4bx4-a1-m40-cA_4bx4-a1-m40-cB 4bx4-a1-m41-cA_4bx4-a1-m41-cB 4bx4-a1-m42-cA_4bx4-a1-m42-cB 4bx4-a1-m43-cA_4bx4-a1-m43-cB 4bx4-a1-m44-cA_4bx4-a1-m44-cB 4bx4-a1-m45-cA_4bx4-a1-m45-cB 4bx4-a1-m46-cA_4bx4-a1-m46-cB 4bx4-a1-m47-cA_4bx4-a1-m47-cB 4bx4-a1-m48-cA_4bx4-a1-m48-cB 4bx4-a1-m49-cA_4bx4-a1-m49-cB 4bx4-a1-m4-cA_4bx4-a1-m4-cB 4bx4-a1-m50-cA_4bx4-a1-m50-cB 4bx4-a1-m51-cA_4bx4-a1-m51-cB 4bx4-a1-m52-cA_4bx4-a1-m52-cB 4bx4-a1-m53-cA_4bx4-a1-m53-cB 4bx4-a1-m54-cA_4bx4-a1-m54-cB 4bx4-a1-m55-cA_4bx4-a1-m55-cB 4bx4-a1-m56-cA_4bx4-a1-m56-cB 4bx4-a1-m57-cA_4bx4-a1-m57-cB 4bx4-a1-m58-cA_4bx4-a1-m58-cB 4bx4-a1-m59-cA_4bx4-a1-m59-cB 4bx4-a1-m5-cA_4bx4-a1-m5-cB 4bx4-a1-m60-cA_4bx4-a1-m60-cB 4bx4-a1-m6-cA_4bx4-a1-m6-cB 4bx4-a1-m7-cA_4bx4-a1-m7-cB 4bx4-a1-m8-cA_4bx4-a1-m8-cB DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK DTAKGVIPFSTSGATWAVPRLSEDGITSHFLRRRGYVTMTQGGSRDQNAAVRKILSLIIAYDIQTQACFFISNEESMRITMAETMGVKDRPNARTNSWAEVSDSDINRGIAKALKEGNLTLDENQKDGFMKLVHAFVADILAQSGHYKPVTSVTYFSAPIDMESDYLDPFSIAIIRDVLDDSPFSELRYDARAMSELEDRDVPITRFSRVMAQMGNAMVRNIMVLNEAAQRKLRGLAVVGEIVHGRVRYLNDSFIQTLRSNINFHLLTRTTPERWAQSWIQAFGSLKGWVDAINGIADLSDLTPLIRDAATSVEKFVTFAPLSFYQGLGSVTQIRALDSSTNLAAVIVRYAAKEINLIPAYQSFQVPTVDVGVKKTAIMDQRLSLQLPEFSEDQFFGMLEQRMQNMSDSEVAELVDRIAKGETPFGDVVKQLPGTSTLLVTNGYYMGGLLTNEDKIIPGDASVPALLYMQAASFASSVRFPPGEYPVFHHESSNGDVRLTDQVSADAQLSHSAVETANPLNFLVACNVSVHTPSIAIDIIEPMPDLTRRGTTEYVHKGEIKVAAIPSLPPKSADRKAQVSRETAKFERVLYKARKGGAQVAAPIDLESLFGIAVNLAVPTVKHVYSPDSKTKLALDIIKGLESDGDKAAATRLLMTLARAYTGTYSSLDEITGIAAQPSDVAMQEFALQSGVQTLKAVAKHTGIMEVATIEMVEEKVRSLDDNRFYEIAAEVVLRALK 4bxf-a1-m1-cB_4bxf-a1-m1-cA 60S ribosomal protein L27A histidine hydroxylase (MINA53 Y209C) in complex with MN(II), 2-oxoglutarate (2OG) and 60S ribosomal protein L27A (RPL27A G37C) peptide fragment Q8IUF8 Q8IUF8 2.05 X-RAY DIFFRACTION 208 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 422 425 SALNFDSPSSLFESLISPIKTETFFKEFWEQKPLLIQRDDPALATYYGSLFKLTDLKSLCSRGMYYGRDVNVCRCVNGKKKVLNKDGKAHFLQLRKDFDQKRATIQFHQPQRFKDELWRIQEKLECYFGSLVGSNVYITPAGSQGLPPHYDDVEVFILQLEGEKHWRLYHPTVPLARECSVEAEERIGRPVHEFMLKPGDLLYFPRGTIHQADTPAGLAHSTHVTISTYQNNSWGDFLLDTISGLVFDTAKEDVELRTGIPRQLLLQVESTTVATRRLSGFLRTLADRLEGTKELLSSDMKKDFIMHRLPPYSAGDGAELSTPGGKLPRLDSVVRLQFKDHIVLTVLPQEKMVYIYHSLKNSRETHMMTEFHGLRFPLSHLDALKQIWNSPAISVKDLKLTTDEEKESLVLSLWTECLIQVV PSALNFDSPSSLFESLISPIKTETFFKEFWEQKPLLIQRDDPALATYYGSLFKLTDLKSLCSRGMYYGRDVNVCRCVNGKKKVLNKDGKAHFLQLRKDFDQKRATIQFHQPQRFKDELWRIQEKLECYFGSLVGSNVYITPAGSQGLPPHYDDVEVFILQLEGEKHWRLYHPTVPLARECSVEAEERIGRPVHEFMLKPGDLLYFPRGTIHQADTPAGLAHSTHVTISTYQNNSWGDFLLDTISGLVFDTAKEDVELRTGIPRQLLLQVESTTVATRRLSGFLRTLADRLEGTKELLSSDMKKDFIMHRLPPYSAGDGAELSTPGGKLPRLDSVVRLQFKDHIVLTVLPAQEKMVYIYHSLKNSRETHMMGNEFHGLRFPLSHLDALKQIWNSPAISVKDLKLTTDEEKESLVLSLWTECLIQVV 4bxh-a1-m2-cB_4bxh-a1-m2-cA Resolving the activation site of positive regulators in plant phosphoenolpyruvate carboxylase P30694 P30694 2.24 X-RAY DIFFRACTION 15 0.997 4227 (Flaveria trinervia) 4227 (Flaveria trinervia) 927 929 3zgb-a1-m1-cB_3zgb-a1-m1-cA 3zgb-a1-m2-cB_3zgb-a1-m2-cA 3zge-a1-m1-cB_3zge-a1-m1-cA 3zge-a1-m2-cB_3zge-a1-m2-cA 4bxc-a1-m1-cA_4bxc-a1-m1-cB 4bxc-a1-m2-cA_4bxc-a1-m2-cB 4bxh-a1-m1-cB_4bxh-a1-m1-cA KLASIDAQLRLLVPGKVSEDDKLVEYDALLLDKFLDILQDLHGEDLKEAVQQCYELSAEYEGKHDPKKLEELGSLLTSLDTGDSIVIAKAFSHMLNLANLAEELQIAYRRRIKLKSGDFADEANATTESDIEETFKRLVHKLNKSPEEVFDALKNQTVELVLTAHPTQSVRRSLLQKHGRIRNCLAQLYAKDITPDDKQELDEALHREIQAAFRTDEIRRTPPTPQDEMRAGMSYFHETIWKGVPKFLRRVDTALKNIGINERFPYNAPLIQFSSWMGGDRDGNPRVTPEVTRDVCLLARMMTSNMYFSQIEDLMIEMSMWRCNSELRVRAEELYRTARKDVKHYIEFWKRIPPNQPYRVILGDVRDKLYNTRERSRHLLVDGKSDIPDEAVYTNVEQLLEPLELCYRSLCDCGDHVIADGSLLDFLRQVSTFGLSLVKLDIRQESDRHTEVLDAITQHLGIGSYREWSEEKRQEWLLAELSGKRPLIGPDLPKTEEVKDCLDTFKVLAELPSDCFGAYIISMATSTSDVLAVELLQREYHIKHPLRVVPLFEKLADLEAAPAAMTRLFSMDWYRNRIDGKQEVMIGYSDSGKDAGRFSAAWQLYKTQEQIVKIAKEFGVKLVIFHGRGGTVGRGGGPTHLALLSQPPDTINGSLRVTVQGEVIEQSFGEEHLCFRTLQRFCAATLEHGMNPPISPRPEWRELMDQMAVVATEEYRSVVFKEPRFVEYFRLATPELEFGRKGGIESLRAIPWIFSWTQTRFHLPVWLGFGAAFKHAIQKDSKNLQMLQEMYKTWPFFRVTIDLVEMVFAKGNPGIAALNDKLLVSEDLRPFGESLRANYEETKNYLLKIAGHKDLLEGDPYLKQGIRLRDPYITTLNVCQAYTLKRIRDPNYHVTLRPHISKEYAPGLEDTLILTMKGIAAGMQNTG KLASIDAQLRLLVPGKVSEDDKLVEYDALLLDKFLDILQDLHGEDLKEAVQQCYELSAEYEGKHDPKKLEELGSLLTSLDTGDSIVIAKAFSHMLNLANLAEELQIAYRRRIKLKSGDFADEANATTESDIEETFKRLVHKLNKSPEEVFDALKNQTVELVLTAHPTQSVRRSLLQKHGRIRNCLAQLYAKDITPDDKQELDEALHREIQAAFRTDEIRTPPTPQDEMRAGMSYFHETIWKGVPKFLRRVDTALKNIGINERFPYNAPLIQFSSWMGGDRDGNPRVTPEVTRDVCLLARMMTSNMYFSQIEDLMIEMSMWRCNSELRVRAEELYRTARKDVKHYIEFWKRIPPNQPYRVILGDVRDKLYNTRERSRHLLVDGKSDIPDEAVYTNVEQLLEPLELCYRSLCDCGDHVIADGSLLDFLRQVSTFGLSLVKLDIRQESDRHTEVLDAITQHLGIGSYREWSEEKRQEWLLAELSGKRPLIGPDLPKTEEVKDCLDTFKVLAELPSDCFGAYIISMATSTSDVLAVELLQREYHIKHPLRVVPLFEKLADLEAAPAAMTRLFSMDWYRNRIDGKQEVMIGYSDSGKDAGRFSAAWQLYKTQEQIVKIAKEFGVKLVIFHGRGGTVGRGGGPTHLALLSQPPDTINGSLRVTVQGEVIEQSFGEEHLCFRTLQRFCAATLEHGMNPPISPRPEWRELMDQMAVVATEEYRSVVFKEPRFVEYFRLATPELEFGRMNRPSKGGIESLRAIPWIFSWTQTRFHLPVWLGFGAAFKHAIQKDSKNLQMLQEMYKTWPFFRVTIDLVEMVFAKGNPGIAALNDKLLVSEDLRPFGESLRANYEETKNYLLKIAGHKDLLEGDPYLKQGIRLRDPYITTLNVCQAYTLKRIRDPNYHVTLRPHISKEYGLEDTLILTMKGIAAGMQNTG 4bxh-a3-m1-cB_4bxh-a3-m2-cB Resolving the activation site of positive regulators in plant phosphoenolpyruvate carboxylase P30694 P30694 2.24 X-RAY DIFFRACTION 118 1.0 4227 (Flaveria trinervia) 4227 (Flaveria trinervia) 927 927 3zgb-a1-m1-cA_3zgb-a1-m2-cA 3zgb-a1-m1-cB_3zgb-a1-m2-cB 3zge-a1-m1-cA_3zge-a1-m2-cA 3zge-a1-m1-cB_3zge-a1-m2-cB 3zge-a2-m1-cB_3zge-a2-m2-cB 3zge-a3-m1-cA_3zge-a3-m2-cA 4bxc-a1-m1-cA_4bxc-a1-m2-cA 4bxc-a1-m1-cB_4bxc-a1-m2-cB 4bxc-a2-m1-cB_4bxc-a2-m2-cB 4bxc-a3-m1-cA_4bxc-a3-m2-cA 4bxh-a1-m1-cA_4bxh-a1-m2-cA 4bxh-a1-m1-cB_4bxh-a1-m2-cB 4bxh-a2-m1-cA_4bxh-a2-m2-cA KLASIDAQLRLLVPGKVSEDDKLVEYDALLLDKFLDILQDLHGEDLKEAVQQCYELSAEYEGKHDPKKLEELGSLLTSLDTGDSIVIAKAFSHMLNLANLAEELQIAYRRRIKLKSGDFADEANATTESDIEETFKRLVHKLNKSPEEVFDALKNQTVELVLTAHPTQSVRRSLLQKHGRIRNCLAQLYAKDITPDDKQELDEALHREIQAAFRTDEIRRTPPTPQDEMRAGMSYFHETIWKGVPKFLRRVDTALKNIGINERFPYNAPLIQFSSWMGGDRDGNPRVTPEVTRDVCLLARMMTSNMYFSQIEDLMIEMSMWRCNSELRVRAEELYRTARKDVKHYIEFWKRIPPNQPYRVILGDVRDKLYNTRERSRHLLVDGKSDIPDEAVYTNVEQLLEPLELCYRSLCDCGDHVIADGSLLDFLRQVSTFGLSLVKLDIRQESDRHTEVLDAITQHLGIGSYREWSEEKRQEWLLAELSGKRPLIGPDLPKTEEVKDCLDTFKVLAELPSDCFGAYIISMATSTSDVLAVELLQREYHIKHPLRVVPLFEKLADLEAAPAAMTRLFSMDWYRNRIDGKQEVMIGYSDSGKDAGRFSAAWQLYKTQEQIVKIAKEFGVKLVIFHGRGGTVGRGGGPTHLALLSQPPDTINGSLRVTVQGEVIEQSFGEEHLCFRTLQRFCAATLEHGMNPPISPRPEWRELMDQMAVVATEEYRSVVFKEPRFVEYFRLATPELEFGRKGGIESLRAIPWIFSWTQTRFHLPVWLGFGAAFKHAIQKDSKNLQMLQEMYKTWPFFRVTIDLVEMVFAKGNPGIAALNDKLLVSEDLRPFGESLRANYEETKNYLLKIAGHKDLLEGDPYLKQGIRLRDPYITTLNVCQAYTLKRIRDPNYHVTLRPHISKEYAPGLEDTLILTMKGIAAGMQNTG KLASIDAQLRLLVPGKVSEDDKLVEYDALLLDKFLDILQDLHGEDLKEAVQQCYELSAEYEGKHDPKKLEELGSLLTSLDTGDSIVIAKAFSHMLNLANLAEELQIAYRRRIKLKSGDFADEANATTESDIEETFKRLVHKLNKSPEEVFDALKNQTVELVLTAHPTQSVRRSLLQKHGRIRNCLAQLYAKDITPDDKQELDEALHREIQAAFRTDEIRRTPPTPQDEMRAGMSYFHETIWKGVPKFLRRVDTALKNIGINERFPYNAPLIQFSSWMGGDRDGNPRVTPEVTRDVCLLARMMTSNMYFSQIEDLMIEMSMWRCNSELRVRAEELYRTARKDVKHYIEFWKRIPPNQPYRVILGDVRDKLYNTRERSRHLLVDGKSDIPDEAVYTNVEQLLEPLELCYRSLCDCGDHVIADGSLLDFLRQVSTFGLSLVKLDIRQESDRHTEVLDAITQHLGIGSYREWSEEKRQEWLLAELSGKRPLIGPDLPKTEEVKDCLDTFKVLAELPSDCFGAYIISMATSTSDVLAVELLQREYHIKHPLRVVPLFEKLADLEAAPAAMTRLFSMDWYRNRIDGKQEVMIGYSDSGKDAGRFSAAWQLYKTQEQIVKIAKEFGVKLVIFHGRGGTVGRGGGPTHLALLSQPPDTINGSLRVTVQGEVIEQSFGEEHLCFRTLQRFCAATLEHGMNPPISPRPEWRELMDQMAVVATEEYRSVVFKEPRFVEYFRLATPELEFGRKGGIESLRAIPWIFSWTQTRFHLPVWLGFGAAFKHAIQKDSKNLQMLQEMYKTWPFFRVTIDLVEMVFAKGNPGIAALNDKLLVSEDLRPFGESLRANYEETKNYLLKIAGHKDLLEGDPYLKQGIRLRDPYITTLNVCQAYTLKRIRDPNYHVTLRPHISKEYAPGLEDTLILTMKGIAAGMQNTG 4bxj-a1-m1-cB_4bxj-a1-m2-cB CRYSTAL STRUCTURE OF AMPDH3 FROM PSEUDOMONAS AERUGINOSA Q9I5D1 Q9I5D1 2.35 X-RAY DIFFRACTION 50 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 255 255 4bxe-a1-m1-cA_4bxe-a1-m2-cA 4bxe-a1-m1-cB_4bxe-a1-m2-cB 4bxj-a1-m1-cA_4bxj-a1-m2-cA MLTIDYNSYRTTTPYGKRVRFLVLHYTALDFAASVKALTTGAASAHYLIPAPHDPSYKAAGFKGQRIFNLVAEEDRAWHAGVSGWARRDNLNDTSIGIEIVNLARDDDGVFTFPDYERSQINALKQLAKNILQRYPDMTPKNVVGHSDIAVGRKSDPGPKLPWKELYEAGIGAWYDDATRDRYREGFERDGLPPRADLLEAFRLYGYALPATVDDAYFASLLRAFQMHFRPENYDGALDVETAAILYALNEKYPA MLTIDYNSYRTTTPYGKRVRFLVLHYTALDFAASVKALTTGAASAHYLIPAPHDPSYKAAGFKGQRIFNLVAEEDRAWHAGVSGWARRDNLNDTSIGIEIVNLARDDDGVFTFPDYERSQINALKQLAKNILQRYPDMTPKNVVGHSDIAVGRKSDPGPKLPWKELYEAGIGAWYDDATRDRYREGFERDGLPPRADLLEAFRLYGYALPATVDDAYFASLLRAFQMHFRPENYDGALDVETAAILYALNEKYPA 4bxj-a1-m2-cA_4bxj-a1-m2-cB CRYSTAL STRUCTURE OF AMPDH3 FROM PSEUDOMONAS AERUGINOSA Q9I5D1 Q9I5D1 2.35 X-RAY DIFFRACTION 138 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 254 255 4bxd-a1-m1-cA_4bxd-a1-m1-cB 4bxd-a1-m1-cC_4bxd-a1-m1-cA 4bxd-a1-m1-cD_4bxd-a1-m1-cB 4bxe-a1-m1-cA_4bxe-a1-m1-cB 4bxe-a1-m2-cA_4bxe-a1-m2-cB 4bxj-a1-m1-cA_4bxj-a1-m1-cB MLTIDYNSYRTTTPYGKRVRFLVLHYTALDFAASVKALTTGAASAHYLIPAPHDPSYKAAGFKGQRIFNLVAEEDRAWHAGVSGWARRDNLNDTSIGIEIVNLARDDDVFTFPDYERSQINALKQLAKNILQRYPDMTPKNVVGHSDIAVGRKSDPGPKLPWKELYEAGIGAWYDDATRDRYREGFERDGLPPRADLLEAFRLYGYALPATVDDAYFASLLRAFQMHFRPENYDGALDVETAAILYALNEKYPA MLTIDYNSYRTTTPYGKRVRFLVLHYTALDFAASVKALTTGAASAHYLIPAPHDPSYKAAGFKGQRIFNLVAEEDRAWHAGVSGWARRDNLNDTSIGIEIVNLARDDDGVFTFPDYERSQINALKQLAKNILQRYPDMTPKNVVGHSDIAVGRKSDPGPKLPWKELYEAGIGAWYDDATRDRYREGFERDGLPPRADLLEAFRLYGYALPATVDDAYFASLLRAFQMHFRPENYDGALDVETAAILYALNEKYPA 4bxw-a1-m1-cA_4bxw-a1-m1-cB Crystal Structure of the Prothrombinase Complex from the Venom of Pseudonaja Textilis Q56VR3 Q56VR3 2.71 X-RAY DIFFRACTION 17 1.0 8673 (Pseudonaja textilis) 8673 (Pseudonaja textilis) 286 287 CRVDNGNCWHFCKHIQCSCAEGYLLGEDGHSCVAGGNFSCGRNIKIVNGMDCKLGECPWQAALVDEKEGVFCGGTILSPIYVLTAAHCINETETISVVVGEIDKSRIETGPLLSVDKIYVHKKFVPPQKAYKFDLAAYDYDIAIIQMKTPIQFSENVVPACLPTADFANQVLMKQDFGIVSGFGRIVEKGPKSKTLKVLKVPYVDRHTCMVSSETPITPNMFCAGYDTLPRDACQGDSGGPHTTVYRDTHFITGIVSSGEGCARNGKYGNYTKLSKFIPWIKRIMR CRVDNGNCWHFCKHIQCSCAEGYLLGEDGHSCVAGGNFSCGRNIKIVNGMDCKLGECPWQAALVDEKEGVFCGGTILSPIYVLTAAHCINETETISVVVGEIDKSRIETGPLLSVDKIYVHKKFVPPQKAYKFDLAAYDYDIAIIQMKTPIQFSENVVPACLPTADFANQVLMKQDFGIVSGFGRIVEKGPKSKTLKVLKVPYVDRHTCMVSSETPITPNMFCAGYDTLPRDACQGDSGGPHTTVYRDTHFITGIVSSGEGCARNGKYGNYTKLSKFIPWIKRIMRQ 4by4-a1-m1-cB_4by4-a1-m1-cA Crystal structure of Drosophila Frq2 Q9VWX8 Q9VWX8 2.3 X-RAY DIFFRACTION 63 0.994 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 168 171 NSKLKQDTIDRLTTDTYFTEKEIRQWHKGFLKDCPNGLLTEQGFIKIYKQFFPDGDPSKFASLVFRVFDENNDGAIEFEEFIRALSITSRGNLDEKLHWAFRLYDVDNDGYITREEMYNIVDAIYQMVGQKRVDKIFDQMDKNHDDRLTLEEFREGSKADPRMVQALS SKLKQDTIDRLTTDTYFTEKEIRQWHKGFLKDCPNGLLTEQGFIKIYKQFFPDGDPSKFASLVFRVFDENNDGAIEFEEFIRALSITSRGNLDEKLHWAFRLYDVDNDGYITREEMYNIVDAIYQMVGQNTPQKRVDKIFDQMDKNHDDRLTLEEFREGSKADPRMVQALS 4by5-a2-m1-cC_4by5-a2-m3-cA Crystal structure of Drosophila Frq2 Q9VWX8 Q9VWX8 2.22 X-RAY DIFFRACTION 47 0.988 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 169 171 4by5-a1-m2-cC_4by5-a1-m1-cA 4by5-a3-m1-cD_4by5-a3-m1-cB KLKQDTIDRLTTDTYFTEKEIRQWHKGFLKDCPNGLLTEQGFIKIYKQFFPDGDPSKFASLVFRVFDENNDGAIEFEEFIRALSITSRGNLDEKLHWAFRLYDVDNDGYITREEMYNIVDAIYQMVGTPQKRVDKIFDQMDKNHDDRLTLEEFREGSKADPRMVQALSL NSKLKQDTIDRLTTDTYFTEKEIRQWHKGFLKDCPNGLLTEQGFIKIYKQFFPDGDPSKFASLVFRVFDENNDGAIEFEEFIRALSITSRGNLDEKLHWAFRLYDVDNDGYITREEMYNIVDAIYQMVGQNTPQKRVDKIFDQMDKNHDDRLTLEEFREGSKADPRMVQAL 4by9-a1-m1-cC_4by9-a1-m1-cI The structure of the Box CD enzyme reveals regulation of rRNA methylation Q8U4M1 Q8U4M1 NOT SOLUTION NMR 68 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 366 366 FISENVRGIYAFDENGNLIEKRYFTDKPEKVLDQLLKGEITKDLEELLNSLKEKGYDEFVFEHPELSRRAKELGFSATTEFPNIAGERLRSNPEEFLGENWFEEYYKVGVALTRMRIQEQSGARDKMVIQAIEALDDVDKVINLLVARLREWYSLHFPELDELLPKHPQYVAFVKTVGHRDNINEEVLRELGLSEEKIKKILEAKEKTMGAWMDQTDIEVVRQLAEEIDRLYQLRKKLEDYIDRAMDDVAPNLKALVGAKLAARLISLAGGLRELAMMPSSTIQVLGAEKALFRHLRTGAKPPKHGVIYQYPAINRSPWWQRGKIARALAGKLAIAARVDYFSGEYIAEELKKELEARIREIKEKY FISENVRGIYAFDENGNLIEKRYFTDKPEKVLDQLLKGEITKDLEELLNSLKEKGYDEFVFEHPELSRRAKELGFSATTEFPNIAGERLRSNPEEFLGENWFEEYYKVGVALTRMRIQEQSGARDKMVIQAIEALDDVDKVINLLVARLREWYSLHFPELDELLPKHPQYVAFVKTVGHRDNINEEVLRELGLSEEKIKKILEAKEKTMGAWMDQTDIEVVRQLAEEIDRLYQLRKKLEDYIDRAMDDVAPNLKALVGAKLAARLISLAGGLRELAMMPSSTIQVLGAEKALFRHLRTGAKPPKHGVIYQYPAINRSPWWQRGKIARALAGKLAIAARVDYFSGEYIAEELKKELEARIREIKEKY 4by9-a1-m1-cI_4by9-a1-m1-cL The structure of the Box CD enzyme reveals regulation of rRNA methylation Q8U4M1 Q8U4M1 NOT SOLUTION NMR 119 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 366 366 4by9-a1-m1-cC_4by9-a1-m1-cF FISENVRGIYAFDENGNLIEKRYFTDKPEKVLDQLLKGEITKDLEELLNSLKEKGYDEFVFEHPELSRRAKELGFSATTEFPNIAGERLRSNPEEFLGENWFEEYYKVGVALTRMRIQEQSGARDKMVIQAIEALDDVDKVINLLVARLREWYSLHFPELDELLPKHPQYVAFVKTVGHRDNINEEVLRELGLSEEKIKKILEAKEKTMGAWMDQTDIEVVRQLAEEIDRLYQLRKKLEDYIDRAMDDVAPNLKALVGAKLAARLISLAGGLRELAMMPSSTIQVLGAEKALFRHLRTGAKPPKHGVIYQYPAINRSPWWQRGKIARALAGKLAIAARVDYFSGEYIAEELKKELEARIREIKEKY FISENVRGIYAFDENGNLIEKRYFTDKPEKVLDQLLKGEITKDLEELLNSLKEKGYDEFVFEHPELSRRAKELGFSATTEFPNIAGERLRSNPEEFLGENWFEEYYKVGVALTRMRIQEQSGARDKMVIQAIEALDDVDKVINLLVARLREWYSLHFPELDELLPKHPQYVAFVKTVGHRDNINEEVLRELGLSEEKIKKILEAKEKTMGAWMDQTDIEVVRQLAEEIDRLYQLRKKLEDYIDRAMDDVAPNLKALVGAKLAARLISLAGGLRELAMMPSSTIQVLGAEKALFRHLRTGAKPPKHGVIYQYPAINRSPWWQRGKIARALAGKLAIAARVDYFSGEYIAEELKKELEARIREIKEKY 4bzi-a1-m1-cE_4bzi-a1-m1-cL The structure of the COPII coat assembled on membranes P40482 P40482 23.0 ELECTRON MICROSCOPY 11 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 735 735 RPMNQLYPIDLLTELPPPITDLTLPPPPLVIPPERMLVPSELSNASPDYIRSTLNAVPKNSSLLKKSKLPFGLVIRPYQHLYDDIDPPPLNEDGLIVRCRRCRSYMNPFVTFIEQGRRWRCNFCRLANDVPMQMDQSDPNDPKSRYDRNEIKCAVMEYMAPKEYTLRQPPPATYCFLIDVSQSSIKSGLLATTINTLLQNLDSIPNHDERTRISILCVDNAIHYFKIPLDQINMMDIADLEEPFLPRPNSMVVSLKACRQNIETLLTKIPQIFQSNLITNFALGPALKSAYHLIGGVGGKIIVVSGTLPNLGIGKLQRRNENTSKETAQLLSCQDSFYKNFTIDCSKVQITVDLFLASEDYMDVASLSNLSRFTAGQTHFYPGFSGKNPNDIVKFSTEFAKHISMDFCMETVMRARGSTGLRMSRFYGHFFNRSSDLCAFSTMPRDQSYLFEVNVDESIMADYCYVQVAVLLSLNNSQRRIRIITLAMPTTESLAEVYASADQLAIASFYNSKAVEKALNSSLDDARVLINKSVQDILATYKKEIVVSNTAGGAPLRLCANLRMFPLLMHSLTKHMAFRSGIVPSDHRASALNNLESLPLKYLIKNIYPDVYSLHDMADEAGLPGTIVLPQPINATSSLFERYGLYLIDNGNELFLWMGGDAVPALVFFNQRVRNIINQLRNHDDVITYQSLYIVRAREVATLRLWASSTLVEDKILNNESYREFLQIMKARISK RPMNQLYPIDLLTELPPPITDLTLPPPPLVIPPERMLVPSELSNASPDYIRSTLNAVPKNSSLLKKSKLPFGLVIRPYQHLYDDIDPPPLNEDGLIVRCRRCRSYMNPFVTFIEQGRRWRCNFCRLANDVPMQMDQSDPNDPKSRYDRNEIKCAVMEYMAPKEYTLRQPPPATYCFLIDVSQSSIKSGLLATTINTLLQNLDSIPNHDERTRISILCVDNAIHYFKIPLDQINMMDIADLEEPFLPRPNSMVVSLKACRQNIETLLTKIPQIFQSNLITNFALGPALKSAYHLIGGVGGKIIVVSGTLPNLGIGKLQRRNENTSKETAQLLSCQDSFYKNFTIDCSKVQITVDLFLASEDYMDVASLSNLSRFTAGQTHFYPGFSGKNPNDIVKFSTEFAKHISMDFCMETVMRARGSTGLRMSRFYGHFFNRSSDLCAFSTMPRDQSYLFEVNVDESIMADYCYVQVAVLLSLNNSQRRIRIITLAMPTTESLAEVYASADQLAIASFYNSKAVEKALNSSLDDARVLINKSVQDILATYKKEIVVSNTAGGAPLRLCANLRMFPLLMHSLTKHMAFRSGIVPSDHRASALNNLESLPLKYLIKNIYPDVYSLHDMADEAGLPGTIVLPQPINATSSLFERYGLYLIDNGNELFLWMGGDAVPALVFFNQRVRNIINQLRNHDDVITYQSLYIVRAREVATLRLWASSTLVEDKILNNESYREFLQIMKARISK 4bzk-a1-m1-cA_4bzk-a1-m1-cC The structure of the COPII coat assembled on membranes P38968 P38968 40.0 ELECTRON MICROSCOPY 194 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 691 693 2pm6-a1-m1-cA_2pm6-a1-m1-cC 2pm7-a1-m1-cA_2pm7-a1-m1-cC 4bzj-a1-m1-cA_4bzj-a1-m1-cC 6zg5-a1-m1-cA_6zg5-a1-m1-cC 6zl0-a1-m1-cA_6zl0-a1-m1-cC AEFSRTATFAWSHDKIPLLVSGTVSGTVDANFSTDSSLELWSLLAADSEKPIASLQVDSKFNDLDWSHNNKIIAGALDNGSLELYSTNEANNAINSMARFSNHSSSVKTVKFNAKQDNVLASGGNNGEIFIWDMNKCTESPSNYTPLTPGQSMSSVDEVISLAWNQSLAHVFASAGSSNFASIWDLKAKKEVIHLSYTSPNSGIKQQLSVVEWHPKNSTRVATATGSDNDPSILIWDLRNANTPLQTLNQGHQKGILSLDWCHQDEHLLLSSGRDNTVLLWNPESAEQLSQFPARGNWCFKTKFAPEAPDLFACASFDNKIEVQTLQNLTNTLDESKEKPSVFHLQAPTWYGEPSPAAHWAFGGKLVQITPDGKGVSITNPKISGLESNTTLSEALKTKDFKPLINQRLVKVIDDVNEEDWNLLEKLSMDGTEEFLKEALAFDETNFQPEGDFSLSGNIEQTISKNLVSGNIKSAVKNSLENDLLMEAMVIALDSNNERLKESVKNAYFAKYGSKSSLSRILYSISKREVDDLVENLDVSQWKFISKAIQNLYPNDIAQRNEMLIKLGDRLKENGHRQDSLTLYLAAGSLDKVASIWLSEFPDLEDKLKKDNKTIYEAHSECLTEFIERFTVFSNFINGINNEQLIAKFLEFINLTTSTGNFELATEFLNSLPSDNEEVKTEKARVLIASG AEFSRTATFAWSHDKIPLLVSGTVSGTVDANFSTDSSLELWSLLAADSEKPIASLQVDSKFNDLDWSHNNKIIAGALDNGSLELYSTNEANNAINSMARFSNHSSSVKTVKFNAKQDNVLASGGNNGEIFIWDMNKCTESPSNYTPLTPGQSMSSVDEVISLAWNQSLAHVFASAGSSNFASIWDLKAKKEVIHLSYTSPNSGIKQQLSVVEWHPKNSTRVATATGSDNDPSILIWDLRNANTPLQTLNQGHQKGILSLDWCHQDEHLLLSSGRDNTVLLWNPESAEQLSQFPARGNWCFKTKFAPEAPDLFACASFDNKIEVQTLQNLTNTLDESKEKPSVFHLQAPTWYGEPSPAAHWAFGGKLVQITPDGKGVSITNPKISGLESNTTLSEALKTKDFKPLINQRLVKVIDDVNEEDWNLLEKLSMDGTEEFLKEALAFDQIETNFQPEGDFSLSGNIEQTISKNLVSGNIKSAVKNSLENDLLMEAMVIALDSNNERLKESVKNAYFAKYGSKSSLSRILYSISKREVDDLVENLDVSQWKFISKAIQNLYPNDIAQRNEMLIKLGDRLKENGHRQDSLTLYLAAGSLDKVASIWLSEFPDLEDKLKKDNKTIYEAHSECLTEFIERFTVFSNFINGINNEQLIAKFLEFINLTTSTGNFELATEFLNSLPSDNEEVKTEKARVLIASG 4bzp-a1-m1-cA_4bzp-a1-m1-cB Structure of the Mycobacterium tuberculosis APS kinase CysC in complex with ADP A5U1Y4 1.47 X-RAY DIFFRACTION 33 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 173 173 4bzq-a1-m1-cA_4bzq-a1-m1-cB PPRGKTVWFTGLSGSGKSSVAMLVERKLLEKGISAYVLDGDNLRHGLNADLGFSMADRAENLRRLSHVATLLADCGHLVLVPAISPLAEHRALARKVHADAGIDFFEVFCDTPLQDCERRDPKGLYAKARAGEITHFTGIDSPYQRPKNPDLRLTPDRSIDEQAQEVIDLLES PPRGKTVWFTGLSGSGKSSVAMLVERKLLEKGISAYVLDGDNLRHGLNADLGFSMADRAENLRRLSHVATLLADCGHLVLVPAISPLAEHRALARKVHADAGIDFFEVFCDTPLQDCERRDPKGLYAKARAGEITHFTGIDSPYQRPKNPDLRLTPDRSIDEQAQEVIDLLES 4bzw-a1-m1-cB_4bzw-a1-m2-cB Complete crystal structure of the carboxylesterase Cest-2923 (lp_2923) from Lactobacillus plantarum WCFS1 F9US10 F9US10 2.148 X-RAY DIFFRACTION 91 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 275 275 4bzw-a1-m1-cA_4bzw-a1-m2-cA 4bzz-a1-m1-cA_4bzz-a1-m6-cA 4bzz-a1-m2-cA_4bzz-a1-m5-cA 4bzz-a1-m3-cA_4bzz-a1-m4-cA 4c01-a1-m1-cA_4c01-a1-m1-cF 4c01-a1-m1-cB_4c01-a1-m1-cE 4c01-a1-m1-cC_4c01-a1-m1-cD MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN 4bzw-a1-m2-cA_4bzw-a1-m2-cB Complete crystal structure of the carboxylesterase Cest-2923 (lp_2923) from Lactobacillus plantarum WCFS1 F9US10 F9US10 2.148 X-RAY DIFFRACTION 66 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 275 275 3bxp-a1-m1-cA_3bxp-a1-m1-cB 3d3n-a1-m1-cA_3d3n-a1-m1-cB 4bzw-a1-m1-cA_4bzw-a1-m1-cB MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN 4c01-a1-m1-cC_4c01-a1-m1-cF Complete crystal structure of carboxylesterase Cest-2923 (lp_2923) from Lactobacillus plantarum WCFS1 F9US10 F9US10 2.3 X-RAY DIFFRACTION 34 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 275 275 4bzz-a1-m1-cA_4bzz-a1-m2-cA 4bzz-a1-m1-cA_4bzz-a1-m3-cA 4bzz-a1-m2-cA_4bzz-a1-m3-cA 4bzz-a1-m4-cA_4bzz-a1-m5-cA 4bzz-a1-m4-cA_4bzz-a1-m6-cA 4bzz-a1-m5-cA_4bzz-a1-m6-cA 4c01-a1-m1-cA_4c01-a1-m1-cD 4c01-a1-m1-cA_4c01-a1-m1-cE 4c01-a1-m1-cB_4c01-a1-m1-cC 4c01-a1-m1-cB_4c01-a1-m1-cF 4c01-a1-m1-cD_4c01-a1-m1-cE MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN 4c01-a1-m1-cD_4c01-a1-m1-cF Complete crystal structure of carboxylesterase Cest-2923 (lp_2923) from Lactobacillus plantarum WCFS1 F9US10 F9US10 2.3 X-RAY DIFFRACTION 21 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 275 275 4bzz-a1-m1-cA_4bzz-a1-m4-cA 4bzz-a1-m2-cA_4bzz-a1-m6-cA 4bzz-a1-m3-cA_4bzz-a1-m5-cA 4c01-a1-m1-cA_4c01-a1-m1-cB 4c01-a1-m1-cC_4c01-a1-m1-cE MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN MQVEQRTLNTAAHPFQITAYWLDQISDFETAVDYPIMIICPGGGFTYHSGREEAPIATRMMAAGMHTVVLNYQLIVGDQSVYPWALQQLGATIDWITTQASAHHVDCQRIILAGFSAGGHVVATYNGVATQPELRTRYHLDHYQGQHAAIILGYPVIDLTAGFPTTSAARNQITTDARLWAAQRLVTPASKPAFVWQTATDESVPPINSLKYVQAMLQHQVATAYHLFGSGIHGLALANHVTQKPGKDKYLNDQAAIWPQLALRWLQEQGLLAGN 4c0c-a1-m2-cA_4c0c-a1-m3-cA Crystal structure of Trypanosoma cruzi CYP51 bound to the inhibitor (R)-N-(3-(1H-indol-3-yl)-1-oxo-1-(pyridin-4-ylamino)propan-2-yl)-4-(4-(2,4-difluorophenyl)piperazin-1-yl)-2-fluorobenzamide. Q7Z1V1 Q7Z1V1 2.04 X-RAY DIFFRACTION 80 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 446 446 4c0c-a1-m1-cA_4c0c-a1-m2-cA 4c0c-a1-m1-cA_4c0c-a1-m3-cA 4uqh-a1-m1-cA_4uqh-a1-m2-cA 4uqh-a1-m1-cA_4uqh-a1-m3-cA 4uqh-a1-m2-cA_4uqh-a1-m3-cA GKLPPVYPVTVPFLGHIVQFGKNPLEFMQRCKRDLKSGVFTISIGGQRVTIVGDPHEHSRFFSPRNEILSPREVYTIMTPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAENWKEDEGVINLLEDCGAMIINTACQCLFGEDLRKRLNARHFAQLLSKMESSLIPAAVFMPWLLRLPLPQSARCREARAELQKILGEIIVAREKEEASTSDLLGGLLKAVYRDGTRMSLHEVCGMIVAAMFAGQHTSTITTSWSMLHLMHPKNKKWLDKLHKEIDEFPAQLNYDNVMDEMPFAERCVRESIRRDPPLLMVMRMVKAEVKVGSYVVPKGDIIACSPLLSHHDEEAFPNPRLWDPERDEKVDGAFIGFGAGVHKCIGQKFALLQVKTILATAFREYDFQLLRDEVPDPDYHTMVVGPTLNQCLVKYTRKKK GKLPPVYPVTVPFLGHIVQFGKNPLEFMQRCKRDLKSGVFTISIGGQRVTIVGDPHEHSRFFSPRNEILSPREVYTIMTPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAENWKEDEGVINLLEDCGAMIINTACQCLFGEDLRKRLNARHFAQLLSKMESSLIPAAVFMPWLLRLPLPQSARCREARAELQKILGEIIVAREKEEASTSDLLGGLLKAVYRDGTRMSLHEVCGMIVAAMFAGQHTSTITTSWSMLHLMHPKNKKWLDKLHKEIDEFPAQLNYDNVMDEMPFAERCVRESIRRDPPLLMVMRMVKAEVKVGSYVVPKGDIIACSPLLSHHDEEAFPNPRLWDPERDEKVDGAFIGFGAGVHKCIGQKFALLQVKTILATAFREYDFQLLRDEVPDPDYHTMVVGPTLNQCLVKYTRKKK 4c0g-a3-m1-cF_4c0g-a3-m1-cC Structure of the NOT-box domain of human CNOT3 O75175 O75175 2.4 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 94 4c0g-a1-m1-cA_4c0g-a1-m1-cD 4c0g-a2-m1-cE_4c0g-a2-m1-cB DTVEFYQRLSTETLFFIFYYLEGTKAQYLAAKALKKQSWRFHTKYWFQRHEEPKTITDEFEQGTYIYFDYEKWGQRKKEGFTFEYRYLEDR AHSDTVEFYQRLSTETLFFIFYYLEGTKAQYLAAKALKKQSWRFHTKYWFQRHEEPKTITDEFEQGTYIYFDYEKWGQRKKEGFTFEYRYLEDR 4c0n-a1-m1-cA_4c0n-a1-m2-cA Crystal structure of non symbiotic plant hemoglobin AHb3 (GLB3) from Arabidopsis thaliana Q67XG0 Q67XG0 1.77 X-RAY DIFFRACTION 79 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 150 150 4c44-a1-m1-cA_4c44-a1-m2-cA QSLQDKASVLSGVDQAEAFAIDESNLFDKLGLQTFINLSTNFYTRVYDDEEEWFQSIFSNSNKEDAIQNQYEFFVQRMGGPPLYSQRKGHPALIGRHRPFPVTHQAAERWLEHMQNALDDSVDIDQDSKIKMMKFFRHTAFFLVAGNELK QSLQDKASVLSGVDQAEAFAIDESNLFDKLGLQTFINLSTNFYTRVYDDEEEWFQSIFSNSNKEDAIQNQYEFFVQRMGGPPLYSQRKGHPALIGRHRPFPVTHQAAERWLEHMQNALDDSVDIDQDSKIKMMKFFRHTAFFLVAGNELK 4c0r-a3-m1-cB_4c0r-a3-m1-cA Molecular and structural basis of glutathione import in Gram-positive bacteria via GshT and the cystine ABC importer TcyBC of Streptococcus mutans. Q93DA5 Q93DA5 1.547 X-RAY DIFFRACTION 17 0.996 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 238 239 KTVTLATVGTTNPFSYEKKGKLTGYDIEVAKEVFKASDKYDVKYQKTEWTSIFSGLDSDKYQIGANNISYTKERANKYLYSNPTASNPLVLVVPKDSDIKSYNDIAGHSTQVVQGNTTVPMLQKFNKNHENNQVKLNFTSEDLAHQIRNVSDGKYDFKIFEKISAETIIKEQGLDNLKVIDLPSDQKPYVYFIFAQDQKDLQKFVNKRLKKLYENGTLEKLSKKYLGGSYLPDKKDMK MDKTVTLATVGTTNPFSYEKKGKLTGYDIEVAKEVFKASDKYDVKYQKTEWTSIFSGLDSDKYQIGANNISYTKERANKYLYSNPTASNPLVLVVPKDSDIKSYNDIAGHSTQVVQGNTTVPMLQKFNKNHENNQVKLNFTSEDLAHQIRNVSDGKYDFKIFEKISAETIIKEQGLDNLKVIDLPSDQKPYVYFIFAQDQKDLQKFVNKRLKKLYENGTLEKLSKKYLGGSYLPDKKDM 4c0x-a1-m1-cA_4c0x-a1-m2-cA The crystal strucuture of PpAzoR in complex with anthraquinone-2- sulfonate Q88IY3 Q88IY3 1.499 X-RAY DIFFRACTION 105 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 200 200 4c0w-a1-m1-cA_4c0w-a1-m2-cA 4c14-a1-m1-cA_4c14-a1-m2-cA MKLLHIDSSILGDNSASRQLSREVVEAWKAADPSVEVVYRDLAADAIAHFSAATLVAAGTPEDVRDAAQAFEAKLSAETLEEFLAADAVVIGAPMYNFTVPTQLKAWIDRVAVAGKTFRYTEAGPQGLCGNKKVVLVSTAGGLHAGQPTGAGHEDFLKVFLGFIGITDLEIVRAHGLAYGPEQRSQAIDAAQAQIASELF MKLLHIDSSILGDNSASRQLSREVVEAWKAADPSVEVVYRDLAADAIAHFSAATLVAAGTPEDVRDAAQAFEAKLSAETLEEFLAADAVVIGAPMYNFTVPTQLKAWIDRVAVAGKTFRYTEAGPQGLCGNKKVVLVSTAGGLHAGQPTGAGHEDFLKVFLGFIGITDLEIVRAHGLAYGPEQRSQAIDAAQAQIASELF 4c0z-a5-m1-cG_4c0z-a5-m1-cH The N-terminal domain of the Streptococcus pyogenes pilus tip adhesin Cpa S5FV19 S5FV19 2 X-RAY DIFFRACTION 53 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 207 208 4c0z-a1-m1-cI_4c0z-a1-m1-cJ 4c0z-a2-m1-cA_4c0z-a2-m1-cB 4c0z-a3-m1-cC_4c0z-a3-m1-cD 4c0z-a4-m1-cE_4c0z-a4-m1-cF 4c0z-a6-m1-cK_4c0z-a6-m1-cL SVPNKQSSVQDYPWYGYDSYSKGYPDYSPLKTYHNLKVNLDGSKEYQAYCFNLTKHFPSKSDSVRSQWYKKLEGTNENFIKLADKPRIEDGQLQQNILRILYNGYPNDRNGIMKGIDPLNAILVTQNAIWYYTDSSYISDTSKAFQQEETDLKLDSQQLQLMRNALKRLINPKEVESLPNQVPANYQLSIFQSSDKTFQNLLSAEYV SVPNKQSSVQDYPWYGYDSYSKGYPDYSPLKTYHNLKVNLDGSKEYQAYCFNLTKHFPSKSDSVRSQWYKKLEGTNENFIKLADKPRIEDGQLQQNILRILYNGYPNDRNGIMKGIDPLNAILVTQNAIWYYTDSSYISDTSKAFQQEETDLKLDSQQLQLMRNALKRLINPKEVESLPNQVPANYQLSIFQSSDKTFQNLLSAEYVP 4c11-a1-m1-cA_4c11-a1-m1-cB Dengue virus RNA dependent RNA polymerase with residues from the NS5 linker region Q6YMS4 Q6YMS4 2.6 X-RAY DIFFRACTION 127 0.998 12637 (Dengue virus) 12637 (Dengue virus) 593 603 PETPNMDVIGERIKRIKEEHNSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPLPGTRKVMEITAEWLWRTLGRNKRPRLCTREEFTKKVRTNASAKAAVEDEEFWKLVDRERELHKLGKCGSCVYNMKSRAIWYMWLGVRYLEFEALGFLNEDHWFSRENSYSGVEGEGLHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKIIQQMDPEHRQLANAIFKLTYQNKVVKVQRPTPTGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLVRQMEGEGVLTKADLENPHLLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKDIPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRETACLGKAYAQMWSLMYFHRRDLRLASNAICSAVPVHWVPTSRTTWSIHAHHQWMTTEDMLTVWNRVWIEENPWMEDKTPVTTWENVPYLGKREDQWCGSLIGLTSRATWAQNIPTAIQQVRSLIGNEEFLDYMPSMKR PETPNMDVIGERIKRIKEEHNSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPLPGTRKVMEITAEWLWRTLGRNKRPRLCTREEFTKKVRTNAAMAANQWDSAKAAVEDEEFWKLVDRERELHKLGKCGSCVYNMMASRAIWYMWLGVRYLEFEALGFLNEDHWFSRENSYSGVEGEGLHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKIIQQMDPEHRQLANAIFKLTYQNKVVKVQRPTPTGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLVRQMEGEGVLTKADLENPHLLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKDIPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRETACLGKAYAQMWSLMYFHRRDLRLASNAICSAVPVHWVPTSRTTWSIHAHHQWMTTEDMLTVWNRVWIEENPWMEDKTPVTTWENVPYLGKREDQWCGSLIGLTSRATWAQNIPTAIQQVRSLIGNEEFLDYMPSMKRF 4c12-a1-m1-cA_4c12-a1-m2-cA X-ray Crystal Structure of Staphylococcus aureus MurE with UDP-MurNAc- Ala-Glu-Lys and ADP Q2FZP6 Q2FZP6 1.8 X-RAY DIFFRACTION 127 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 492 492 4c13-a1-m1-cA_4c13-a1-m2-cA MDASTLFKKVKVKRVLGSLEQQIDDITTDSRTAREGSIFVASVGYTVDSHKFCQNVADQGCKLVVVNKEQSLPANVTQVVVPDTLRVASILAHTLYDYPSHQLVTFGVTGTNGKTSIATMIHLIQRKLQKNSAYLGTNGFQINETKTKGANTTPETVSLTKKIKEAVDAGAESMTLEVSSHGLVLGRLRGVEFDVAIFSNLTQDHLDFHGTMEAYGHASLLFSQLGEDLSKEKYVVLNNDDSFSEYLRTVTPYEVFSYGIDEEAQFMAKNIQESLQGVSFDFVTPFGTYPVKSPYVGKFNISNIMAAMIAVWSKGTSLETIIKAVENLEPVEGRLEVLDPSLPIDLIIDYAHTADGMNKLIDAVQPFVKQKLIFLVGMAGERDLTKTPEMGRVACRADYVIFTPDNPANDDPKMLTAELAKGATHQNYIEFDDRAEGIKHAIDIAEPGDTVVLASKGREPYQIMPGHIKVPHRDDLIGLEAAYKKFGGGPVD MDASTLFKKVKVKRVLGSLEQQIDDITTDSRTAREGSIFVASVGYTVDSHKFCQNVADQGCKLVVVNKEQSLPANVTQVVVPDTLRVASILAHTLYDYPSHQLVTFGVTGTNGKTSIATMIHLIQRKLQKNSAYLGTNGFQINETKTKGANTTPETVSLTKKIKEAVDAGAESMTLEVSSHGLVLGRLRGVEFDVAIFSNLTQDHLDFHGTMEAYGHASLLFSQLGEDLSKEKYVVLNNDDSFSEYLRTVTPYEVFSYGIDEEAQFMAKNIQESLQGVSFDFVTPFGTYPVKSPYVGKFNISNIMAAMIAVWSKGTSLETIIKAVENLEPVEGRLEVLDPSLPIDLIIDYAHTADGMNKLIDAVQPFVKQKLIFLVGMAGERDLTKTPEMGRVACRADYVIFTPDNPANDDPKMLTAELAKGATHQNYIEFDDRAEGIKHAIDIAEPGDTVVLASKGREPYQIMPGHIKVPHRDDLIGLEAAYKKFGGGPVD 4c1a-a2-m1-cD_4c1a-a2-m1-cC Coiled coil domain of the ZfL2-1 ORF1 protein from the zebrafish ZfL2- 1 retrotransposon Q3LG57 Q3LG57 1.55 X-RAY DIFFRACTION 43 1.0 7955 (Danio rerio) 7955 (Danio rerio) 32 35 4c1a-a1-m1-cB_4c1a-a1-m1-cA AMEALELELEEVESQIRALVVRRSRLRERLLA GPAMEALELELEEVESQIRALVVRRSRLRERLLAV 4c1b-a2-m1-cC_4c1b-a2-m2-cC Esterase domain of the ZfL2-1 ORF1 protein from the zebrafish ZfL2-1 retrotransposon Q3LG57 Q3LG57 2.501 X-RAY DIFFRACTION 215 1.0 7955 (Danio rerio) 7955 (Danio rerio) 158 158 4c1b-a1-m1-cB_4c1b-a1-m1-cA MDVAIIGDSIVRHVRANKVRTFCFPGARVKNISTQIPTILSPGAVVLHVGTNDTGLRQSEILKKDFRSLIETVRRTSPATQIIVSGPLPTYRRGNERFSRLLALNEWLITWCKEQKLLFANNWNLFWERPRLFRPDGLHPSRAGAELLSDNISRLLRT MDVAIIGDSIVRHVRANKVRTFCFPGARVKNISTQIPTILSPGAVVLHVGTNDTGLRQSEILKKDFRSLIETVRRTSPATQIIVSGPLPTYRRGNERFSRLLALNEWLITWCKEQKLLFANNWNLFWERPRLFRPDGLHPSRAGAELLSDNISRLLRT 4c1o-a1-m1-cA_4c1o-a1-m2-cA Geobacillus thermoglucosidasius GH family 52 xylosidase A0A067XG64 A0A067XG64 1.7 X-RAY DIFFRACTION 144 1.0 1426 (Parageobacillus thermoglucosidasius) 1426 (Parageobacillus thermoglucosidasius) 702 702 4c1p-a1-m1-cA_4c1p-a1-m2-cA PKNMFFNAHHSPVGAFASFTLGFPGKSGGLDLELGRPPRQNVYIGVASLSQPGMYEVLPFFEAGDDESKRYDIENPDPNPEKPQILVPFPNEMIQREFHVSTDTWKAGDLTFTIYSPVKSVPNPDTAKEEDLKFALVPAVIAELTIDNTKGTSPRRAFFGFEGNDPYTSMRRIDDTCPPLRGVGQGRITAIVSKHSDVRSALHFSLEDILTTPLEENWTFGLGKVGALIMDTPAGMKRTYQFAVCFYRSGYATAGLDTSYFYTRFFKNIEEVGKYALDHIEALKERAFQSNQLIERDWLSDDQKFMMAHAIRSYYGNTQLLEQEGKPIWVVNEGEYRMMNTFDLTVDQLFFELKMNPWTVKNVLDLYVERYSYYDRVRFPGEEKEYPGGISFTHDMGVANTFSRPHYSAYELYGIDGCFSHMTHEQLVNWVLCAAVYIEQTKDWAWRQEKLPILEQCLESMVNRDHPDPEKRNGVMGLDSTRTMGGAEITTYDSLDVSLGQARNNLYLAGKCWAAYVALEKIFRDTGKEALAALAGEQAEKCAATIVSYVTEQGYIPAVMGEGNDSKIIPAIEGLVFPYFTNCHEALDPHGRFGEYIRALRKHLQYVLTEGICLFPDGGWKISSTSNNSWLSKIYLCQFIARRILGWKWDEAGAKADAAHVAWLTHPTLSVWSWSDQIIAGEISGSKYYPRGVTSILWLEEG PKNMFFNAHHSPVGAFASFTLGFPGKSGGLDLELGRPPRQNVYIGVASLSQPGMYEVLPFFEAGDDESKRYDIENPDPNPEKPQILVPFPNEMIQREFHVSTDTWKAGDLTFTIYSPVKSVPNPDTAKEEDLKFALVPAVIAELTIDNTKGTSPRRAFFGFEGNDPYTSMRRIDDTCPPLRGVGQGRITAIVSKHSDVRSALHFSLEDILTTPLEENWTFGLGKVGALIMDTPAGMKRTYQFAVCFYRSGYATAGLDTSYFYTRFFKNIEEVGKYALDHIEALKERAFQSNQLIERDWLSDDQKFMMAHAIRSYYGNTQLLEQEGKPIWVVNEGEYRMMNTFDLTVDQLFFELKMNPWTVKNVLDLYVERYSYYDRVRFPGEEKEYPGGISFTHDMGVANTFSRPHYSAYELYGIDGCFSHMTHEQLVNWVLCAAVYIEQTKDWAWRQEKLPILEQCLESMVNRDHPDPEKRNGVMGLDSTRTMGGAEITTYDSLDVSLGQARNNLYLAGKCWAAYVALEKIFRDTGKEALAALAGEQAEKCAATIVSYVTEQGYIPAVMGEGNDSKIIPAIEGLVFPYFTNCHEALDPHGRFGEYIRALRKHLQYVLTEGICLFPDGGWKISSTSNNSWLSKIYLCQFIARRILGWKWDEAGAKADAAHVAWLTHPTLSVWSWSDQIIAGEISGSKYYPRGVTSILWLEEG 4c21-a1-m1-cA_4c21-a1-m3-cB L-Fucose Isomerase In Complex With Fucitol Q97N97 Q97N97 2.55 X-RAY DIFFRACTION 113 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 587 605 4c21-a1-m2-cA_4c21-a1-m1-cB 4c21-a1-m3-cA_4c21-a1-m2-cB 4c22-a1-m1-cA_4c22-a1-m3-cB 4c22-a1-m2-cA_4c22-a1-m1-cB 4c22-a1-m3-cA_4c22-a1-m2-cB IQHPRIGIRPTIDGRRQGVRESLEVQTMNMAKSVADLISSTLKYPDGEPVECVISPSTIGRVPEAAASHELFKKSNVCATITVTPCWCYGSETMDMSPDIPHAIWGFNGTERPGAVYLAAVLASHAQKGIPAFGIYGRDVQEASDTDIPEDVKEKLLRYARAALATGLMRDTAYLSMGSVSMGIGGSIVNPDFFQEYLGMRNESVDMTEFTRRMDRGIYDPEEFERALKWVKENVKEGFDHNREDLVLSREEKDRQWEFVIKMFMIGRDLMVGNPRLAELGFEEEAVGHHALVAGFQGQRQWTDHFPNGDFMETFLNTQFDWNGIRKPFVFATENDSLNGVSMLFNYLLTNTPQIFADVRTYWSPEAVKRVTGHTLEGRAAAGFLHLINSGSCTLDGTGQATRDGKPIMKPFWELEESEVQAMLENTDFPPANREYFRGGGFSTRFLTKGDMPVTMVRLNLLKGVGPVLQIAEGYTLELPEDVHHTLDNRTDPGWPTTWFAPRLTGKGAFKSVYDVMNNWGANHGAITYGHIGADLITLASMLRIPVNMHNVPEEDIFRPKNWSLFGTEDLESADYRACQLLGPLHK HHHHHSSGLVPRGAHMAMIQHPRIGIRPTIDGRRQGVRESLEVQTMNMAKSVADLISSTLKYPDGEPVECVISPSTIGRVPEAAASHELFKKSNVCATITVTPCWCYGSETMDMSPDIPHAIWGFNGTERPGAVYLAAVLASHAQKGIPAFGIYGRDVQEASDTDIPEDVKEKLLRYARAALATGLMRDTAYLSMGSVSMGIGGSIVNPDFFQEYLGMRNESVDMTEFTRRMDRGIYDPEEFERALKWVKENVKEGFDHNREDLVLSREEKDRQWEFVIKMFMIGRDLMVGNPRLAELGFEEEAVGHHALVAGFQGQRQWTDHFPNGDFMETFLNTQFDWNGIRKPFVFATENDSLNGVSMLFNYLLTNTPQIFADVRTYWSPEAVKRVTGHTLEGRAAAGFLHLINSGSCTLDGTGQATRDGKPIMKPFWELEESEVQAMLENTDFPPANREYFRGGGFSTRFLTKGDMPVTMVRLNLLKGVGPVLQIAEGYTLELPEDVHHTLDNRTDPGWPTTWFAPRLTGKGAFKSVYDVMNNWGANHGAITYGHIGADLITLASMLRIPVNMHNVPEEDIFRPKNWSLFGTEDLESADYRACQLLGPLHK 4c21-a1-m2-cB_4c21-a1-m3-cB L-Fucose Isomerase In Complex With Fucitol Q97N97 Q97N97 2.55 X-RAY DIFFRACTION 147 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 605 605 4c21-a1-m1-cA_4c21-a1-m2-cA 4c21-a1-m1-cA_4c21-a1-m3-cA 4c21-a1-m1-cB_4c21-a1-m2-cB 4c21-a1-m1-cB_4c21-a1-m3-cB 4c21-a1-m2-cA_4c21-a1-m3-cA 4c22-a1-m1-cA_4c22-a1-m2-cA 4c22-a1-m1-cA_4c22-a1-m3-cA 4c22-a1-m1-cB_4c22-a1-m2-cB 4c22-a1-m1-cB_4c22-a1-m3-cB 4c22-a1-m2-cA_4c22-a1-m3-cA 4c22-a1-m2-cB_4c22-a1-m3-cB HHHHHSSGLVPRGAHMAMIQHPRIGIRPTIDGRRQGVRESLEVQTMNMAKSVADLISSTLKYPDGEPVECVISPSTIGRVPEAAASHELFKKSNVCATITVTPCWCYGSETMDMSPDIPHAIWGFNGTERPGAVYLAAVLASHAQKGIPAFGIYGRDVQEASDTDIPEDVKEKLLRYARAALATGLMRDTAYLSMGSVSMGIGGSIVNPDFFQEYLGMRNESVDMTEFTRRMDRGIYDPEEFERALKWVKENVKEGFDHNREDLVLSREEKDRQWEFVIKMFMIGRDLMVGNPRLAELGFEEEAVGHHALVAGFQGQRQWTDHFPNGDFMETFLNTQFDWNGIRKPFVFATENDSLNGVSMLFNYLLTNTPQIFADVRTYWSPEAVKRVTGHTLEGRAAAGFLHLINSGSCTLDGTGQATRDGKPIMKPFWELEESEVQAMLENTDFPPANREYFRGGGFSTRFLTKGDMPVTMVRLNLLKGVGPVLQIAEGYTLELPEDVHHTLDNRTDPGWPTTWFAPRLTGKGAFKSVYDVMNNWGANHGAITYGHIGADLITLASMLRIPVNMHNVPEEDIFRPKNWSLFGTEDLESADYRACQLLGPLHK HHHHHSSGLVPRGAHMAMIQHPRIGIRPTIDGRRQGVRESLEVQTMNMAKSVADLISSTLKYPDGEPVECVISPSTIGRVPEAAASHELFKKSNVCATITVTPCWCYGSETMDMSPDIPHAIWGFNGTERPGAVYLAAVLASHAQKGIPAFGIYGRDVQEASDTDIPEDVKEKLLRYARAALATGLMRDTAYLSMGSVSMGIGGSIVNPDFFQEYLGMRNESVDMTEFTRRMDRGIYDPEEFERALKWVKENVKEGFDHNREDLVLSREEKDRQWEFVIKMFMIGRDLMVGNPRLAELGFEEEAVGHHALVAGFQGQRQWTDHFPNGDFMETFLNTQFDWNGIRKPFVFATENDSLNGVSMLFNYLLTNTPQIFADVRTYWSPEAVKRVTGHTLEGRAAAGFLHLINSGSCTLDGTGQATRDGKPIMKPFWELEESEVQAMLENTDFPPANREYFRGGGFSTRFLTKGDMPVTMVRLNLLKGVGPVLQIAEGYTLELPEDVHHTLDNRTDPGWPTTWFAPRLTGKGAFKSVYDVMNNWGANHGAITYGHIGADLITLASMLRIPVNMHNVPEEDIFRPKNWSLFGTEDLESADYRACQLLGPLHK 4c21-a1-m3-cA_4c21-a1-m3-cB L-Fucose Isomerase In Complex With Fucitol Q97N97 Q97N97 2.55 X-RAY DIFFRACTION 69 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 587 605 4c21-a1-m1-cA_4c21-a1-m1-cB 4c21-a1-m2-cA_4c21-a1-m2-cB 4c22-a1-m1-cA_4c22-a1-m1-cB 4c22-a1-m2-cA_4c22-a1-m2-cB 4c22-a1-m3-cA_4c22-a1-m3-cB IQHPRIGIRPTIDGRRQGVRESLEVQTMNMAKSVADLISSTLKYPDGEPVECVISPSTIGRVPEAAASHELFKKSNVCATITVTPCWCYGSETMDMSPDIPHAIWGFNGTERPGAVYLAAVLASHAQKGIPAFGIYGRDVQEASDTDIPEDVKEKLLRYARAALATGLMRDTAYLSMGSVSMGIGGSIVNPDFFQEYLGMRNESVDMTEFTRRMDRGIYDPEEFERALKWVKENVKEGFDHNREDLVLSREEKDRQWEFVIKMFMIGRDLMVGNPRLAELGFEEEAVGHHALVAGFQGQRQWTDHFPNGDFMETFLNTQFDWNGIRKPFVFATENDSLNGVSMLFNYLLTNTPQIFADVRTYWSPEAVKRVTGHTLEGRAAAGFLHLINSGSCTLDGTGQATRDGKPIMKPFWELEESEVQAMLENTDFPPANREYFRGGGFSTRFLTKGDMPVTMVRLNLLKGVGPVLQIAEGYTLELPEDVHHTLDNRTDPGWPTTWFAPRLTGKGAFKSVYDVMNNWGANHGAITYGHIGADLITLASMLRIPVNMHNVPEEDIFRPKNWSLFGTEDLESADYRACQLLGPLHK HHHHHSSGLVPRGAHMAMIQHPRIGIRPTIDGRRQGVRESLEVQTMNMAKSVADLISSTLKYPDGEPVECVISPSTIGRVPEAAASHELFKKSNVCATITVTPCWCYGSETMDMSPDIPHAIWGFNGTERPGAVYLAAVLASHAQKGIPAFGIYGRDVQEASDTDIPEDVKEKLLRYARAALATGLMRDTAYLSMGSVSMGIGGSIVNPDFFQEYLGMRNESVDMTEFTRRMDRGIYDPEEFERALKWVKENVKEGFDHNREDLVLSREEKDRQWEFVIKMFMIGRDLMVGNPRLAELGFEEEAVGHHALVAGFQGQRQWTDHFPNGDFMETFLNTQFDWNGIRKPFVFATENDSLNGVSMLFNYLLTNTPQIFADVRTYWSPEAVKRVTGHTLEGRAAAGFLHLINSGSCTLDGTGQATRDGKPIMKPFWELEESEVQAMLENTDFPPANREYFRGGGFSTRFLTKGDMPVTMVRLNLLKGVGPVLQIAEGYTLELPEDVHHTLDNRTDPGWPTTWFAPRLTGKGAFKSVYDVMNNWGANHGAITYGHIGADLITLASMLRIPVNMHNVPEEDIFRPKNWSLFGTEDLESADYRACQLLGPLHK 4c24-a1-m3-cA_4c24-a1-m4-cA L-fuculose 1-phosphate aldolase A0A0H2US48 A0A0H2US48 1.5 X-RAY DIFFRACTION 62 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 211 211 4c24-a1-m1-cA_4c24-a1-m2-cA 4c24-a1-m1-cA_4c24-a1-m3-cA 4c24-a1-m2-cA_4c24-a1-m4-cA 4c25-a1-m1-cA_4c25-a1-m2-cA 4c25-a1-m1-cA_4c25-a1-m3-cA 4c25-a1-m2-cA_4c25-a1-m4-cA 4c25-a1-m3-cA_4c25-a1-m4-cA GSHMASSDVKQELIKYGKKLVETDLTKGTGGNLSVFDREKQLMAITPSGIDFFEIKESDIVVMDINGNVVEGERLPSSEWYMHLIQYQTRDDIDAIIHAHTTYATVLACLREPLPASHYMIAVAGKDVRVAEYATYGTKELAVNAAKAMEGRRAVLLANHGILAGAQNLLNAFNIVEEVEYCAKIYCLAKNFGEPVVLPDEEMELMAEKFK GSHMASSDVKQELIKYGKKLVETDLTKGTGGNLSVFDREKQLMAITPSGIDFFEIKESDIVVMDINGNVVEGERLPSSEWYMHLIQYQTRDDIDAIIHAHTTYATVLACLREPLPASHYMIAVAGKDVRVAEYATYGTKELAVNAAKAMEGRRAVLLANHGILAGAQNLLNAFNIVEEVEYCAKIYCLAKNFGEPVVLPDEEMELMAEKFK 4c2d-a2-m1-cD_4c2d-a2-m1-cC Crystal structure of the protease CtpB in an active state O35002 O35002 2.7 X-RAY DIFFRACTION 155 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 343 433 4c2d-a1-m1-cA_4c2d-a1-m1-cB 4c2g-a1-m1-cA_4c2g-a1-m2-cA SERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDLETVFASEKKVQGHSVGYIAISTFSEHTAEDFAKALRELEKKEIEGLVIDVRGNPGGYLQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSASASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGVIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLF SERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDSSFEGIGAEVGMEDGKIIIVSPFKKSPAEKAGLKPNDEIISINGESMAGKDLNHAVLKIRGKKGSSVSMKIQRPGTKKQLSFRIKRAEIPLETVFASEKKVQGHSVGYIAISTFSEHTAEDFAKALRELEKKEIEGLVIDVRGNPGGYLQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSASASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGVIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLF 4c2d-a2-m1-cP_4c2d-a2-m1-cD Crystal structure of the protease CtpB in an active state O35002 2.7 X-RAY DIFFRACTION 29 1.0 511693 (Escherichia coli BL21) 224308 (Bacillus subtilis subsp. subtilis str. 168) 3 343 QTA SERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDLETVFASEKKVQGHSVGYIAISTFSEHTAEDFAKALRELEKKEIEGLVIDVRGNPGGYLQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSASASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGVIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLF 4c2e-a1-m1-cA_4c2e-a1-m1-cB Crystal structure of the protease CtpB(S309A) present in a resting state O35002 O35002 1.8 X-RAY DIFFRACTION 172 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 435 435 4c2h-a1-m1-cA_4c2h-a1-m1-cB ADSERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDSSFEGIGAEVGMEDGKIIIVSPFKKSPAEKAGLKPNDEIISINGESMAGKDLNHAVLKIRGKKGSSVSMKIQRPGTKKQLSFRIKRAEIPLETVFASEKKVQGHSVGYIAISTFSEHTTEDFAKALRELEKKEIEGLVIDVRGNPGGYIQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSAAASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGIIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLF ADSERDKAMDKIEKAYELISNEYVEKVDREKLLEGAIQGMLSTLNDPYSVYMDKQTAKQFSDSLDSSFEGIGAEVGMEDGKIIIVSPFKKSPAEKAGLKPNDEIISINGESMAGKDLNHAVLKIRGKKGSSVSMKIQRPGTKKQLSFRIKRAEIPLETVFASEKKVQGHSVGYIAISTFSEHTTEDFAKALRELEKKEIEGLVIDVRGNPGGYIQSVEEILKHFVTKDQPYIQIAERNGDKKRYFSTLTHKKAYPVNVITDKGSAAASEILAGALKEAGHYDVVGDTSFGKGTVQQAVPMGDGSNIKLTLYKWLTPNGNWIHKKGIEPTIAIKQPDYFSAGPLQLKEPLKVDMNNEDVKHAQVLLKGLSFDPGREDGYFSKDMKKAVMAFQDQNKLNKTGIIDTRTAETLNQQIEKKKSDEKNDLQLQTALKSLF 4c2i-a1-m9-cD_4c2i-a1-m9-cF Cryo-EM structure of Dengue virus serotype 1 complexed with Fab fragments of human antibody 1F4 G3F5K5 G3F5K5 6.0 ELECTRON MICROSCOPY 39 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 72 72 4c2i-a1-m10-cB_4c2i-a1-m24-cB 4c2i-a1-m10-cD_4c2i-a1-m10-cF 4c2i-a1-m11-cB_4c2i-a1-m16-cB 4c2i-a1-m11-cD_4c2i-a1-m11-cF 4c2i-a1-m12-cB_4c2i-a1-m38-cB 4c2i-a1-m12-cD_4c2i-a1-m12-cF 4c2i-a1-m13-cB_4c2i-a1-m47-cB 4c2i-a1-m13-cD_4c2i-a1-m13-cF 4c2i-a1-m14-cB_4c2i-a1-m45-cB 4c2i-a1-m14-cD_4c2i-a1-m14-cF 4c2i-a1-m15-cB_4c2i-a1-m29-cB 4c2i-a1-m15-cD_4c2i-a1-m15-cF 4c2i-a1-m16-cD_4c2i-a1-m16-cF 4c2i-a1-m17-cB_4c2i-a1-m28-cB 4c2i-a1-m17-cD_4c2i-a1-m17-cF 4c2i-a1-m18-cB_4c2i-a1-m52-cB 4c2i-a1-m18-cD_4c2i-a1-m18-cF 4c2i-a1-m19-cB_4c2i-a1-m60-cB 4c2i-a1-m19-cD_4c2i-a1-m19-cF 4c2i-a1-m1-cB_4c2i-a1-m6-cB 4c2i-a1-m1-cD_4c2i-a1-m1-cF 4c2i-a1-m20-cB_4c2i-a1-m39-cB 4c2i-a1-m20-cD_4c2i-a1-m20-cF 4c2i-a1-m21-cB_4c2i-a1-m26-cB 4c2i-a1-m21-cD_4c2i-a1-m21-cF 4c2i-a1-m22-cB_4c2i-a1-m43-cB 4c2i-a1-m22-cD_4c2i-a1-m22-cF 4c2i-a1-m23-cD_4c2i-a1-m23-cF 4c2i-a1-m24-cD_4c2i-a1-m24-cF 4c2i-a1-m25-cB_4c2i-a1-m54-cB 4c2i-a1-m25-cD_4c2i-a1-m25-cF 4c2i-a1-m26-cD_4c2i-a1-m26-cF 4c2i-a1-m27-cB_4c2i-a1-m53-cB 4c2i-a1-m27-cD_4c2i-a1-m27-cF 4c2i-a1-m28-cD_4c2i-a1-m28-cF 4c2i-a1-m29-cD_4c2i-a1-m29-cF 4c2i-a1-m2-cB_4c2i-a1-m23-cB 4c2i-a1-m2-cD_4c2i-a1-m2-cF 4c2i-a1-m30-cB_4c2i-a1-m44-cB 4c2i-a1-m30-cD_4c2i-a1-m30-cF 4c2i-a1-m31-cB_4c2i-a1-m36-cB 4c2i-a1-m31-cD_4c2i-a1-m31-cF 4c2i-a1-m32-cB_4c2i-a1-m58-cB 4c2i-a1-m32-cD_4c2i-a1-m32-cF 4c2i-a1-m33-cB_4c2i-a1-m7-cB 4c2i-a1-m33-cD_4c2i-a1-m33-cF 4c2i-a1-m34-cB_4c2i-a1-m5-cB 4c2i-a1-m34-cD_4c2i-a1-m34-cF 4c2i-a1-m35-cB_4c2i-a1-m49-cB 4c2i-a1-m35-cD_4c2i-a1-m35-cF 4c2i-a1-m36-cD_4c2i-a1-m36-cF 4c2i-a1-m37-cB_4c2i-a1-m48-cB 4c2i-a1-m37-cD_4c2i-a1-m37-cF 4c2i-a1-m38-cD_4c2i-a1-m38-cF 4c2i-a1-m39-cD_4c2i-a1-m39-cF 4c2i-a1-m3-cB_4c2i-a1-m42-cB 4c2i-a1-m3-cD_4c2i-a1-m3-cF 4c2i-a1-m40-cB_4c2i-a1-m59-cB 4c2i-a1-m40-cD_4c2i-a1-m40-cF 4c2i-a1-m41-cB_4c2i-a1-m46-cB 4c2i-a1-m41-cD_4c2i-a1-m41-cF 4c2i-a1-m42-cD_4c2i-a1-m42-cF 4c2i-a1-m43-cD_4c2i-a1-m43-cF 4c2i-a1-m44-cD_4c2i-a1-m44-cF 4c2i-a1-m45-cD_4c2i-a1-m45-cF 4c2i-a1-m46-cD_4c2i-a1-m46-cF 4c2i-a1-m47-cD_4c2i-a1-m47-cF 4c2i-a1-m48-cD_4c2i-a1-m48-cF 4c2i-a1-m49-cD_4c2i-a1-m49-cF 4c2i-a1-m4-cB_4c2i-a1-m50-cB 4c2i-a1-m4-cD_4c2i-a1-m4-cF 4c2i-a1-m50-cD_4c2i-a1-m50-cF 4c2i-a1-m51-cB_4c2i-a1-m56-cB 4c2i-a1-m51-cD_4c2i-a1-m51-cF 4c2i-a1-m52-cD_4c2i-a1-m52-cF 4c2i-a1-m53-cD_4c2i-a1-m53-cF 4c2i-a1-m54-cD_4c2i-a1-m54-cF 4c2i-a1-m55-cB_4c2i-a1-m9-cB 4c2i-a1-m55-cD_4c2i-a1-m55-cF 4c2i-a1-m56-cD_4c2i-a1-m56-cF 4c2i-a1-m57-cB_4c2i-a1-m8-cB 4c2i-a1-m57-cD_4c2i-a1-m57-cF 4c2i-a1-m58-cD_4c2i-a1-m58-cF 4c2i-a1-m59-cD_4c2i-a1-m59-cF 4c2i-a1-m5-cD_4c2i-a1-m5-cF 4c2i-a1-m60-cD_4c2i-a1-m60-cF 4c2i-a1-m6-cD_4c2i-a1-m6-cF 4c2i-a1-m7-cD_4c2i-a1-m7-cF 4c2i-a1-m8-cD_4c2i-a1-m8-cF 4cct-a1-m10-cD_4cct-a1-m24-cD 4cct-a1-m10-cE_4cct-a1-m10-cF 4cct-a1-m11-cD_4cct-a1-m16-cD 4cct-a1-m11-cE_4cct-a1-m11-cF 4cct-a1-m12-cD_4cct-a1-m38-cD 4cct-a1-m12-cE_4cct-a1-m12-cF 4cct-a1-m13-cD_4cct-a1-m47-cD 4cct-a1-m13-cE_4cct-a1-m13-cF 4cct-a1-m14-cD_4cct-a1-m45-cD 4cct-a1-m14-cE_4cct-a1-m14-cF 4cct-a1-m15-cD_4cct-a1-m29-cD 4cct-a1-m15-cE_4cct-a1-m15-cF 4cct-a1-m16-cE_4cct-a1-m16-cF 4cct-a1-m17-cD_4cct-a1-m28-cD 4cct-a1-m17-cE_4cct-a1-m17-cF 4cct-a1-m18-cD_4cct-a1-m52-cD 4cct-a1-m18-cE_4cct-a1-m18-cF 4cct-a1-m19-cD_4cct-a1-m60-cD 4cct-a1-m19-cE_4cct-a1-m19-cF 4cct-a1-m1-cD_4cct-a1-m6-cD 4cct-a1-m1-cE_4cct-a1-m1-cF 4cct-a1-m20-cD_4cct-a1-m39-cD 4cct-a1-m20-cE_4cct-a1-m20-cF 4cct-a1-m21-cD_4cct-a1-m26-cD 4cct-a1-m21-cE_4cct-a1-m21-cF 4cct-a1-m22-cD_4cct-a1-m43-cD 4cct-a1-m22-cE_4cct-a1-m22-cF 4cct-a1-m23-cE_4cct-a1-m23-cF 4cct-a1-m24-cE_4cct-a1-m24-cF 4cct-a1-m25-cD_4cct-a1-m54-cD 4cct-a1-m25-cE_4cct-a1-m25-cF 4cct-a1-m26-cE_4cct-a1-m26-cF 4cct-a1-m27-cD_4cct-a1-m53-cD 4cct-a1-m27-cE_4cct-a1-m27-cF 4cct-a1-m28-cE_4cct-a1-m28-cF 4cct-a1-m29-cE_4cct-a1-m29-cF 4cct-a1-m2-cD_4cct-a1-m23-cD 4cct-a1-m2-cE_4cct-a1-m2-cF 4cct-a1-m30-cD_4cct-a1-m44-cD 4cct-a1-m30-cE_4cct-a1-m30-cF 4cct-a1-m31-cD_4cct-a1-m36-cD 4cct-a1-m31-cE_4cct-a1-m31-cF 4cct-a1-m32-cD_4cct-a1-m58-cD 4cct-a1-m32-cE_4cct-a1-m32-cF 4cct-a1-m33-cD_4cct-a1-m7-cD 4cct-a1-m33-cE_4cct-a1-m33-cF 4cct-a1-m34-cD_4cct-a1-m5-cD 4cct-a1-m34-cE_4cct-a1-m34-cF 4cct-a1-m35-cD_4cct-a1-m49-cD 4cct-a1-m35-cE_4cct-a1-m35-cF 4cct-a1-m36-cE_4cct-a1-m36-cF 4cct-a1-m37-cD_4cct-a1-m48-cD 4cct-a1-m37-cE_4cct-a1-m37-cF 4cct-a1-m38-cE_4cct-a1-m38-cF 4cct-a1-m39-cE_4cct-a1-m39-cF 4cct-a1-m3-cD_4cct-a1-m42-cD 4cct-a1-m3-cE_4cct-a1-m3-cF 4cct-a1-m40-cD_4cct-a1-m59-cD 4cct-a1-m40-cE_4cct-a1-m40-cF 4cct-a1-m41-cD_4cct-a1-m46-cD 4cct-a1-m41-cE_4cct-a1-m41-cF 4cct-a1-m42-cE_4cct-a1-m42-cF 4cct-a1-m43-cE_4cct-a1-m43-cF 4cct-a1-m44-cE_4cct-a1-m44-cF 4cct-a1-m45-cE_4cct-a1-m45-cF 4cct-a1-m46-cE_4cct-a1-m46-cF 4cct-a1-m47-cE_4cct-a1-m47-cF 4cct-a1-m48-cE_4cct-a1-m48-cF 4cct-a1-m49-cE_4cct-a1-m49-cF 4cct-a1-m4-cD_4cct-a1-m50-cD 4cct-a1-m4-cE_4cct-a1-m4-cF 4cct-a1-m50-cE_4cct-a1-m50-cF 4cct-a1-m51-cD_4cct-a1-m56-cD 4cct-a1-m51-cE_4cct-a1-m51-cF 4cct-a1-m52-cE_4cct-a1-m52-cF 4cct-a1-m53-cE_4cct-a1-m53-cF 4cct-a1-m54-cE_4cct-a1-m54-cF 4cct-a1-m55-cD_4cct-a1-m9-cD 4cct-a1-m55-cE_4cct-a1-m55-cF 4cct-a1-m56-cE_4cct-a1-m56-cF 4cct-a1-m57-cD_4cct-a1-m8-cD 4cct-a1-m57-cE_4cct-a1-m57-cF 4cct-a1-m58-cE_4cct-a1-m58-cF 4cct-a1-m59-cE_4cct-a1-m59-cF 4cct-a1-m5-cE_4cct-a1-m5-cF 4cct-a1-m60-cE_4cct-a1-m60-cF 4cct-a1-m6-cE_4cct-a1-m6-cF 4cct-a1-m7-cE_4cct-a1-m7-cF 4cct-a1-m8-cE_4cct-a1-m8-cF 4cct-a1-m9-cE_4cct-a1-m9-cF SVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTP SVALAPHVGLGLETRTETWMSSEGAWKQIQKVETWALGHPGFTVIALFLAHAIGTSITQKGIIFILLMLVTP 4c2k-a2-m1-cC_4c2k-a2-m1-cD Crystal structure of human mitochondrial 3-ketoacyl-CoA thiolase P42765 P42765 2 X-RAY DIFFRACTION 179 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 394 399 4c2j-a1-m1-cC_4c2j-a1-m1-cD 4c2j-a2-m1-cA_4c2j-a2-m1-cB 4c2k-a1-m1-cA_4c2k-a1-m1-cB ALLRGVFVVAAKRTPFGAYGGLLKDFTATDLSEFAAKAALSAGKVSPETVDSVIMGNVLQSSSDAIYLARHVGLRVGIPKETPALTINRLCGSGFQSIVNGCQEICVKEAEVVLCGGTESMSQAPYCVRNVRFGTKLGSDIKLEDSLWVSLTDQHVQLPMAMTAENLAVKHKISREECDKYALQSQQRWKAANDAGYFNDEMAPIEVKTGKQTMQVDEHARPQTTLEQLQKLPPVFKKDGTVTAGNASGVADGAGAVIIASEDAVKKHNFTPLARIVGYFVSGCDPSIMGIGPVPAISGALKKAGLSLKDMDLVEVNEAFAPQYLAVERSLDLDISKTNVNGGAIALGHPLGGSGSRITAHLVHELRRRGGKYAVGSACIGGGQGIAVIIQSTA GSHMALLRGVFVVAAKRTPFGAYGGLLKDFTATDLSEFAAKAALSAGKVSPETVDSVIMGNVLQSSSDAIYLARHVGLRVGIPKETPALTINRLCGSGFQSIVNGCQEICVKEAEVVLCGGTESMSQAPYCVRNVRFGTKLGSDIKLEDSLWVSLTDQHVQLPMAMTAENLAVKHKISREECDKYALQSQQRWKAANDAGYFNDEMAPIEVKTKKGKQTMQVDEHARPQTTLEQLQKLPPVFKKDGTVTAGNASGVADGAGAVIIASEDAVKKHNFTPLARIVGYFVSGCDPSIMGIGPVPAISGALKKAGLSLKDMDLVEVNEAFAPQYLAVERSLDLDISKTNVNGGAIALGHPLGGSGSRITAHLVHELRRRGGKYAVGSACIGGGQGIAVIIQST 4c31-a1-m1-cB_4c31-a1-m1-cE Nup1:Sac3:Sus1 complex Q6WNK7 Q6WNK7 3 X-RAY DIFFRACTION 22 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 92 92 DTAQLKSQIQQYLVESGNYELISNELKARLLQEGWVDKVKDLTKSEMNINESTNFTQILSTVEPKALEMVSDSTRETVLKQIREFLEEIVDT DTAQLKSQIQQYLVESGNYELISNELKARLLQEGWVDKVKDLTKSEMNINESTNFTQILSTVEPKALEMVSDSTRETVLKQIREFLEEIVDT 4c31-a1-m1-cF_4c31-a1-m1-cC Nup1:Sac3:Sus1 complex P20676 P20676 3 X-RAY DIFFRACTION 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 14 15 ESIVLPTVGFDFIK KESIVLPTVGFDFIK 4c3b-a4-m1-cE_4c3b-a4-m1-cF HRSV M2-1, P21 crystal form P04545 P04545 2.95 X-RAY DIFFRACTION 76 1.0 11259 (Human respiratory syncytial virus A2) 11259 (Human respiratory syncytial virus A2) 174 178 4c3b-a1-m1-cI_4c3b-a1-m1-cJ 4c3b-a1-m1-cI_4c3b-a1-m1-cL 4c3b-a1-m1-cJ_4c3b-a1-m1-cK 4c3b-a1-m1-cL_4c3b-a1-m1-cK 4c3b-a2-m1-cN_4c3b-a2-m1-cM 4c3b-a2-m1-cN_4c3b-a2-m1-cO 4c3b-a2-m1-cP_4c3b-a2-m1-cM 4c3b-a2-m1-cP_4c3b-a2-m1-cO 4c3b-a3-m1-cA_4c3b-a3-m1-cD 4c3b-a3-m1-cB_4c3b-a3-m1-cA 4c3b-a3-m1-cB_4c3b-a3-m1-cC 4c3b-a3-m1-cD_4c3b-a3-m1-cC 4c3b-a4-m1-cG_4c3b-a4-m1-cF 4c3b-a4-m1-cG_4c3b-a4-m1-cH 4c3d-a1-m1-cA_4c3d-a1-m2-cA 4c3d-a1-m1-cA_4c3d-a1-m4-cA 4c3d-a1-m2-cA_4c3d-a1-m3-cA 4c3d-a1-m3-cA_4c3d-a1-m4-cA 4c3d-a2-m1-cB_4c3d-a2-m5-cB 4c3d-a2-m1-cB_4c3d-a2-m6-cB 4c3d-a2-m5-cB_4c3d-a2-m7-cB 4c3d-a2-m6-cB_4c3d-a2-m7-cB 4c3e-a1-m1-cH_4c3e-a1-m1-cB 4c3e-a1-m1-cH_4c3e-a1-m1-cL 4c3e-a1-m1-cI_4c3e-a1-m1-cB 4c3e-a1-m1-cL_4c3e-a1-m1-cI 4c3e-a2-m1-cJ_4c3e-a2-m1-cD 4c3e-a2-m1-cK_4c3e-a2-m1-cD 4c3e-a2-m1-cM_4c3e-a2-m1-cJ 4c3e-a2-m1-cM_4c3e-a2-m1-cK 4c3e-a3-m1-cC_4c3e-a3-m1-cA 4c3e-a3-m1-cE_4c3e-a3-m1-cC 4c3e-a3-m1-cE_4c3e-a3-m1-cF 4c3e-a3-m1-cF_4c3e-a3-m1-cA 4c3e-a4-m1-cG_4c3e-a4-m1-cN 4c3e-a4-m1-cO_4c3e-a4-m1-cN 4c3e-a4-m1-cP_4c3e-a4-m1-cG 4c3e-a4-m1-cP_4c3e-a4-m1-cO 6g0y-a1-m1-cA_6g0y-a1-m1-cC 6g0y-a1-m1-cC_6g0y-a1-m1-cF 6g0y-a1-m1-cE_6g0y-a1-m1-cA 6g0y-a1-m1-cE_6g0y-a1-m1-cF 6pzq-a1-m1-cB_6pzq-a1-m1-cA 6pzq-a1-m1-cC_6pzq-a1-m1-cB 6pzq-a1-m1-cC_6pzq-a1-m1-cD 6pzq-a1-m1-cD_6pzq-a1-m1-cA PLGSMSRRNPCKFEIRGHCLNGKRCHFSHNYFEWPPHALLVRQNFMLNRILKSMDKLSEISGAAELDRTEEYALGVVGVLESYIGSINNITKQSACVAMSKLLTELNSDDIKKLRDNEELNSPKIRVYNTVISYIESNRKNNKQTIHLLKRLPADVLKKTIKNTLDIHKSITIN PLGSMSRRNPCKFEIRGHCLNGKRCHFSHNYFEWPPHALLVRQNFMLNRILKSMDKSIDTLSEISGAAELDRTEEYALGVVGVLESYIGSINNITKQSACVAMSKLLTELNSDDIKKLRDNEELNSPKIRVYNTVISYIESNRKNNKQTIHLLKRLPADVLKKTIKNTLDIHKSITIN 4c3l-a1-m2-cA_4c3l-a1-m3-cA Structure of wildtype PII from S. elongatus at high resolution P0A3F4 P0A3F4 1.6 X-RAY DIFFRACTION 61 1.0 32046 (Synechococcus elongatus) 32046 (Synechococcus elongatus) 89 89 4c3k-a1-m1-cE_4c3k-a1-m1-cF 4c3k-a2-m1-cB_4c3k-a2-m1-cA 4c3k-a2-m1-cB_4c3k-a2-m1-cC 4c3l-a1-m1-cA_4c3l-a1-m2-cA 4c3l-a1-m1-cA_4c3l-a1-m3-cA 4c3m-a1-m1-cB_4c3m-a1-m1-cA 4c3m-a1-m1-cB_4c3m-a1-m1-cC 4c3m-a1-m1-cC_4c3m-a1-m1-cA MKKIEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFEFLQKLKLEIVVEDAQVDTVIDKIVAAARTGEIGDGKIFVSPVDQTIRIRTGE MKKIEAIIRPFKLDEVKIALVNAGIVGMTVSEVRGFEFLQKLKLEIVVEDAQVDTVIDKIVAAARTGEIGDGKIFVSPVDQTIRIRTGE 4c3x-a1-m1-cB_4c3x-a1-m1-cD Crystal structure of 3-ketosteroid delta1-dehydrogenase from Rhodococcus erythropolis SQ1 Q9RA02 Q9RA02 2 X-RAY DIFFRACTION 17 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 505 508 4c3x-a1-m1-cC_4c3x-a1-m1-cA 4c3x-a2-m1-cF_4c3x-a2-m1-cH 4c3x-a2-m1-cG_4c3x-a2-m1-cE 4c3y-a1-m1-cB_4c3y-a1-m1-cD 4c3y-a1-m1-cC_4c3y-a1-m1-cA 4c3y-a2-m1-cF_4c3y-a2-m1-cH 4c3y-a2-m1-cG_4c3y-a2-m1-cE DWTSECDVLVVGSGGGALTGAYTAAAQGLTTIVLEKTDRFGGTSAYSGASIWLPGTQVQERAGLPDSTENARTYLRALLGDAESERQDAYVETAPAVVALLEQNPNIEFEFRAFPDYYKAEGRMDTGRSINPLDLDPADIGDLAGKVRPELDQDRTGQDHAPGPMIGGRALIGRLLAAVQSTGKAELRTESVLTSLIVEDGRVVGAEVESGGETQRIKANRGVLMAAGGIEGNAEMREQAGTPGKAIWSMGPFGANTGDAISAGIAVGGATALLDQAWFCPGVEQPDGSAAFMVGVRGGLVVDSAGERYLNESLPYDQFGRAMDAHDDNGSAVPSFMIFDSREGGGLPAICIPNTAPAKHLEAGTWVGADTLEELAAKTGLPADALRSTVEKFNDAAKLGVDEEFHRGEDPYDAFFCPGANAALTAIENGPFYAARIVLSDLGTKGGLVTDVNGRVLRADGSAIDGLYAAGNTSASLSGRFYPGPGVPLGTAMVFSYRAAQDMAK DWTSECDVLVVGSGGGALTGAYTAAAQGLTTIVLEKTDRFGGTSAYSGASIWLPGTQVQERAGLPDSTENARTYLRALLGDAESERQDAYVETAPAVVALLEQNPNIEFEFRAFPDYYKAEGRMDTGRSINPLDLDPADIGDLAGKVRPELDQDRTGQDHAPGPMIGGRALIGRLLAAVQSTGKAELRTESVLTSLIVEDGRVVGAEVESGGETQRIKANRGVLMAAGGIEGNAEMREQAGTPGKAIWSMGPFGANTGDAISAGIAVGGATALLDQAWFCPGVEQPDGSAAFMVGVRGGLVVDSAGERYLNESLPYDQFGRAMDAHDDNGSAVPSFMIFDSREGGGLPAICIPNTAPAKHLEAGTWVGADTLEELAAKTGLPADALRSTVEKFNDAAKLGVDEEFHRGEDPYDAFFCPPNGGANAALTAIENGPFYAARIVLSDLGTKGGLVTDVNGRVLRADGSAIDGLYAAGNTSASLSGRFYPGPGVPLGTAMVFSYRAAQDMAK 4c3x-a2-m1-cE_4c3x-a2-m1-cH Crystal structure of 3-ketosteroid delta1-dehydrogenase from Rhodococcus erythropolis SQ1 Q9RA02 Q9RA02 2 X-RAY DIFFRACTION 64 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 508 508 4c3x-a1-m1-cA_4c3x-a1-m1-cD 4c3x-a1-m1-cB_4c3x-a1-m1-cC 4c3x-a2-m1-cF_4c3x-a2-m1-cG 4c3y-a1-m1-cA_4c3y-a1-m1-cD 4c3y-a1-m1-cB_4c3y-a1-m1-cC 4c3y-a2-m1-cE_4c3y-a2-m1-cH 4c3y-a2-m1-cF_4c3y-a2-m1-cG DWTSECDVLVVGSGGGALTGAYTAAAQGLTTIVLEKTDRFGGTSAYSGASIWLPGTQVQERAGLPDSTENARTYLRALLGDAESERQDAYVETAPAVVALLEQNPNIEFEFRAFPDYYKAEGRMDTGRSINPLDLDPADIGDLAGKVRPELDQDRTGQDHAPGPMIGGRALIGRLLAAVQSTGKAELRTESVLTSLIVEDGRVVGAEVESGGETQRIKANRGVLMAAGGIEGNAEMREQAGTPGKAIWSMGPFGANTGDAISAGIAVGGATALLDQAWFCPGVEQPDGSAAFMVGVRGGLVVDSAGERYLNESLPYDQFGRAMDAHDDNGSAVPSFMIFDSREGGGLPAICIPNTAPAKHLEAGTWVGADTLEELAAKTGLPADALRSTVEKFNDAAKLGVDEEFHRGEDPYDAFFCPPNGGANAALTAIENGPFYAARIVLSDLGTKGGLVTDVNGRVLRADGSAIDGLYAAGNTSASLSGRFYPGPGVPLGTAMVFSYRAAQDMAK DWTSECDVLVVGSGGGALTGAYTAAAQGLTTIVLEKTDRFGGTSAYSGASIWLPGTQVQERAGLPDSTENARTYLRALLGDAESERQDAYVETAPAVVALLEQNPNIEFEFRAFPDYYKAEGRMDTGRSINPLDLDPADIGDLAGKVRPELDQDRTGQDHAPGPMIGGRALIGRLLAAVQSTGKAELRTESVLTSLIVEDGRVVGAEVESGGETQRIKANRGVLMAAGGIEGNAEMREQAGTPGKAIWSMGPFGANTGDAISAGIAVGGATALLDQAWFCPGVEQPDGSAAFMVGVRGGLVVDSAGERYLNESLPYDQFGRAMDAHDDNGSAVPSFMIFDSREGGGLPAICIPNTAPAKHLEAGTWVGADTLEELAAKTGLPADALRSTVEKFNDAAKLGVDEEFHRGEDPYDAFFCPPNGGANAALTAIENGPFYAARIVLSDLGTKGGLVTDVNGRVLRADGSAIDGLYAAGNTSASLSGRFYPGPGVPLGTAMVFSYRAAQDMAK 4c3x-a2-m1-cG_4c3x-a2-m1-cH Crystal structure of 3-ketosteroid delta1-dehydrogenase from Rhodococcus erythropolis SQ1 Q9RA02 Q9RA02 2 X-RAY DIFFRACTION 77 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 505 508 4c3x-a1-m1-cB_4c3x-a1-m1-cA 4c3x-a1-m1-cC_4c3x-a1-m1-cD 4c3x-a2-m1-cF_4c3x-a2-m1-cE 4c3y-a1-m1-cB_4c3y-a1-m1-cA 4c3y-a1-m1-cC_4c3y-a1-m1-cD 4c3y-a2-m1-cF_4c3y-a2-m1-cE 4c3y-a2-m1-cG_4c3y-a2-m1-cH DWTSECDVLVVGSGGGALTGAYTAAAQGLTTIVLEKTDRFGGTSAYSGASIWLPGTQVQERAGLPDSTENARTYLRALLGDAESERQDAYVETAPAVVALLEQNPNIEFEFRAFPDYYKAEGRMDTGRSINPLDLDPADIGDLAGKVRPELDQDRTGQDHAPGPMIGGRALIGRLLAAVQSTGKAELRTESVLTSLIVEDGRVVGAEVESGGETQRIKANRGVLMAAGGIEGNAEMREQAGTPGKAIWSMGPFGANTGDAISAGIAVGGATALLDQAWFCPGVEQPDGSAAFMVGVRGGLVVDSAGERYLNESLPYDQFGRAMDAHDDNGSAVPSFMIFDSREGGGLPAICIPNTAPAKHLEAGTWVGADTLEELAAKTGLPADALRSTVEKFNDAAKLGVDEEFHRGEDPYDAFFCPGANAALTAIENGPFYAARIVLSDLGTKGGLVTDVNGRVLRADGSAIDGLYAAGNTSASLSGRFYPGPGVPLGTAMVFSYRAAQDMAK DWTSECDVLVVGSGGGALTGAYTAAAQGLTTIVLEKTDRFGGTSAYSGASIWLPGTQVQERAGLPDSTENARTYLRALLGDAESERQDAYVETAPAVVALLEQNPNIEFEFRAFPDYYKAEGRMDTGRSINPLDLDPADIGDLAGKVRPELDQDRTGQDHAPGPMIGGRALIGRLLAAVQSTGKAELRTESVLTSLIVEDGRVVGAEVESGGETQRIKANRGVLMAAGGIEGNAEMREQAGTPGKAIWSMGPFGANTGDAISAGIAVGGATALLDQAWFCPGVEQPDGSAAFMVGVRGGLVVDSAGERYLNESLPYDQFGRAMDAHDDNGSAVPSFMIFDSREGGGLPAICIPNTAPAKHLEAGTWVGADTLEELAAKTGLPADALRSTVEKFNDAAKLGVDEEFHRGEDPYDAFFCPPNGGANAALTAIENGPFYAARIVLSDLGTKGGLVTDVNGRVLRADGSAIDGLYAAGNTSASLSGRFYPGPGVPLGTAMVFSYRAAQDMAK 4c46-a1-m1-cB_4c46-a1-m1-cC ANDREI-N-LVPAS fused to GCN4 adaptors P03069 P03069 1.95 X-RAY DIFFRACTION 65 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 73 74 4c46-a1-m1-cA_4c46-a1-m1-cB 4c46-a1-m1-cA_4c46-a1-m1-cC SGMKQIEMKIEEILSKIYHIENEIARIKKLIEANDREINLVPASIKQIEWKIEEILSKIYHIENEIARIKKLI GSGMKQIEMKIEEILSKIYHIENEIARIKKLIEANDREINLVPASIKQIEWKIEEILSKIYHIENEIARIKKLI 4c47-a1-m1-cB_4c47-a1-m1-cA Salmonella enterica trimeric lipoprotein SadB Q8ZL65 Q8ZL65 2.448 X-RAY DIFFRACTION 99 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 190 191 4c47-a1-m1-cC_4c47-a1-m1-cA 4c47-a1-m1-cC_4c47-a1-m1-cB YFADKHLVEEMKEQQKEQETKINLLEKQQKEQEAKINLLEKQQATIINTTKKVTEVVGRVERKQRLFDYTELDPSQTHYFIINNGNIGLAGRILSIEPIDNGSVIHLDLVNLLSIPVSNLAFNMTWGTKKPSEAKDLPRWKQLLLNTKMDSTIELLPGAWTNVTLTLKGVSPNNLKYLKIGIDMENVIFD DYFADKHLVEEMKEQQKEQETKINLLEKQQKEQEAKINLLEKQQATIINTTKKVTEVVGRVERKQRLFDYTELDPSQTHYFIINNGNIGLAGRILSIEPIDNGSVIHLDLVNLLSIPVSNLAFNMTWGTKKPSEAKDLPRWKQLLLNTKMDSTIELLPGAWTNVTLTLKGVSPNNLKYLKIGIDMENVIFD 4c4n-a1-m1-cA_4c4n-a1-m1-cB Crystal structure of the Sonic Hedgehog-heparin complex Q62226 Q62226 2.36 X-RAY DIFFRACTION 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 151 152 LTPLAYKQFIPNVAEKTLGASGRYEGKITRNSERFKELTPNYNPDIIFKDEENTGADRLMTQRCKDKLNALAISVMNQWPGVKLRVTEGWDEDGHHSEESLHYEGRAVDITTSDRDRSKYGMLARLAVEAGFDWVYYESKAHIHCSVKAEN LTPLAYKQFIPNVAEKTLGASGRYEGKITRNSERFKELTPNYNPDIIFKDEENTGADRLMTQRCKDKLNALAISVMNQWPGVKLRVTEGWDEDGHHSEESLHYEGRAVDITTSDRDRSKYGMLARLAVEAGFDWVYYESKAHIHCSVKAENS 4c53-a1-m1-cC_4c53-a1-m1-cB Crystal Structure of Guanarito virus GP2 in the post-fusion conformation Q8AYW1 Q8AYW1 4.14 X-RAY DIFFRACTION 97 1.0 45219 () 45219 () 102 115 4c53-a1-m1-cA_4c53-a1-m1-cB FCDMLRLFDFNKNAIEKLNNQTKTAVNMLTHSINSLISDNLLMRNKLKEVLKVPYCNYTRFWYIPRCWLVSNGSYLNESDFRNEWILESDHLIAEMLSKEYQ SEFCDMLRLFDFNKNAIEKLNNQTKTAVNMLTHSINSLISDNLLMRNKLKEVLKVPYCNYTRFWYINHTKSGEHSLPRCWLVSNGSYLNESDFRNEWILESDHLIAEMLSKEYQD 4c5c-a1-m1-cA_4c5c-a1-m1-cB The X-ray crystal structure of D-alanyl-D-alanine ligase in complex with ADP and D-ala-D-ala P07862 P07862 1.4 X-RAY DIFFRACTION 87 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 306 306 4c5a-a1-m1-cB_4c5a-a1-m1-cA 4c5b-a1-m1-cA_4c5b-a1-m1-cB MTDKIAVLLGGTSAEREVSLNSGAAVLAGLREGGIDAYPVDPKEVDVTQLKSMGFQKVFIALHGRGGEDGTLQGMLELMGLPYTGSGVMASALSMDKLRSKLLWQGAGLPVAPWVALTRAEFEKGLSDKQLAEISALGLPVIVKPSREGSSVGMSKVVAENALQDALRLAFQHDEEVLIEKWLSGPEFTVAILGEEILPSIRIQPSGTFYDYEAKYLSDETQYFCPAGLEASQEANLQALVLKAWTTLGCKGWGRIDVMLDSDGQFYLLEANTSPGMTSHSLVPMAARQAGMSFSQLVVRILELAD MTDKIAVLLGGTSAEREVSLNSGAAVLAGLREGGIDAYPVDPKEVDVTQLKSMGFQKVFIALHGRGGEDGTLQGMLELMGLPYTGSGVMASALSMDKLRSKLLWQGAGLPVAPWVALTRAEFEKGLSDKQLAEISALGLPVIVKPSREGSSVGMSKVVAENALQDALRLAFQHDEEVLIEKWLSGPEFTVAILGEEILPSIRIQPSGTFYDYEAKYLSDETQYFCPAGLEASQEANLQALVLKAWTTLGCKGWGRIDVMLDSDGQFYLLEANTSPGMTSHSLVPMAARQAGMSFSQLVVRILELAD 4c5e-a1-m1-cD_4c5e-a1-m1-cB Crystal structure of the minimal Pho-Sfmbt complex (P21 spacegroup) Q9VK33 Q9VK33 1.951 X-RAY DIFFRACTION 22 0.995 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 437 439 4c5e-a1-m1-cC_4c5e-a1-m1-cA HSYDWLPRLSKENFNAAPVTCFPHAPGCEVWDNLGVGMKVEVENTDCDSIEVIQPGQTPTSFWVATILEIKGYKALMSYEGFDTDSHDFWVNLCNAEVHSVGWCATRGKPLIPPRTIEHKYKDWKDFLVGRLSGARTLPSNFYNKINDSLQSRFRLGLNLECVDKDRISQVRLATVTKIVGKRLFLRYFDSDDGFWCHEDSPIIHPVGWATTVGHNLAAPQDYLERMLEVHEDDATIELFKMNFTFDEYYSDGKTNSFVEGMKLEAVDPLNLSSICPATVMAVLKFGYMMIRIDSYQPDASGSDWFCYHEKSPCIFPAGFCSVNNISVTPPNGYDSRTFTWEGYLRDTGAVAAGQHLFHRIIPDHGFEVGMSLECADLMDPRLVCVATVARVVGRLLKVHFDGWTDEYDQWLDCESADIYPVGWCVLVNHKLEGPPR PTHSYDWLPRLSKENFNAAPVTCFPHAPGCEVWDNLGVGMKVEVENTDCDSIEVIQPGQTPTSFWVATILEIKGYKALMSYEGFDTDSHDFWVNLCNAEVHSVGWCATRGKPLIPPRTIEHKYKDWKDFLVGRLSGARTLPSNFYNKINDSLQSRFRLGLNLECVDKDRISQVRLATVTKIVGKRLFLRYFDSDDGFWCHEDSPIIHPVGWATTVGHNLAAPQDYLERMLAGHEDDATIELFKMNFTFDEYYSDGKTNSFVEGMKLEAVDPLNLSSICPATVMAVLKFGYMMIRIDSYQPDASGSDWFCYHEKSPCIFPAGFCSVNNISVTPPNGYDSRTFTWEGYLRDTGAVAAGQHLFHRIIPDHGFEVGMSLECADLMDPRLVCVATVARVVGRLLKVHFDGWTDEYDQWLDCESADIYPVGWCVLVNHKLEGPPR 4c5e-a1-m1-cD_4c5e-a1-m1-cC Crystal structure of the minimal Pho-Sfmbt complex (P21 spacegroup) Q9VK33 Q9VK33 1.951 X-RAY DIFFRACTION 62 0.995 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 437 438 4c5e-a1-m1-cB_4c5e-a1-m1-cA HSYDWLPRLSKENFNAAPVTCFPHAPGCEVWDNLGVGMKVEVENTDCDSIEVIQPGQTPTSFWVATILEIKGYKALMSYEGFDTDSHDFWVNLCNAEVHSVGWCATRGKPLIPPRTIEHKYKDWKDFLVGRLSGARTLPSNFYNKINDSLQSRFRLGLNLECVDKDRISQVRLATVTKIVGKRLFLRYFDSDDGFWCHEDSPIIHPVGWATTVGHNLAAPQDYLERMLEVHEDDATIELFKMNFTFDEYYSDGKTNSFVEGMKLEAVDPLNLSSICPATVMAVLKFGYMMIRIDSYQPDASGSDWFCYHEKSPCIFPAGFCSVNNISVTPPNGYDSRTFTWEGYLRDTGAVAAGQHLFHRIIPDHGFEVGMSLECADLMDPRLVCVATVARVVGRLLKVHFDGWTDEYDQWLDCESADIYPVGWCVLVNHKLEGPPR HSYDWLPRLSKENFNAAPVTCFPHAPGCEVWDNLGVGMKVEVENTDCDSIEVIQPGQTPTSFWVATILEIKGYKALMSYEGFDTDSHDFWVNLCNAEVHSVGWCATRGKPLIPPRTIEHKYKDWKDFLVGRLSGARTLPSNFYNKINDSLQSRFRLGLNLECVDKDRISQVRLATVTKIVGKRLFLRYFDSDDGFWCHEDSPIIHPVGWATTVGHNLAAPQDYLERMLHEDDATIELFKMNFTFDEYYSDGKTNSFVEGMKLEAVDPLNLSSICPATVMAVLKFGYMMIRIDSYQPDASGSDWFCYHEKSPCIFPAGFCSVNNISVTPPNGYDSRTFTWEGYLRDTGAVAAGQHLFHRIIPDHGFEVGMSLECADLMDPRLVCVATVARVVGRLLKVHFDGWTDEYDQWLDCESADIYPVGWCVLVNHKLEGPPRVAH 4c5e-a1-m1-cE_4c5e-a1-m1-cH Crystal structure of the minimal Pho-Sfmbt complex (P21 spacegroup) Q8ST83 Q8ST83 1.951 X-RAY DIFFRACTION 22 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 30 30 4c5e-a1-m1-cF_4c5e-a1-m1-cG GAMASRRWEQKLVHIKTMEGEFSVTMWASG GAMASRRWEQKLVHIKTMEGEFSVTMWASG 4c5m-a2-m1-cA_4c5m-a2-m1-cC Structure of the pyridoxal kinase from Staphylococcus aureus in complex with AMP-PCP A0A0H3JTP0 A0A0H3JTP0 1.45 X-RAY DIFFRACTION 118 0.996 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 273 273 4c5j-a1-m1-cD_4c5j-a1-m1-cA 4c5j-a2-m1-cB_4c5j-a2-m1-cC 4c5k-a1-m1-cB_4c5k-a1-m1-cD 4c5k-a2-m1-cC_4c5k-a2-m1-cA 4c5l-a1-m1-cA_4c5l-a1-m1-cD 4c5l-a2-m1-cC_4c5l-a2-m1-cB 4c5m-a1-m1-cD_4c5m-a1-m1-cB 4c5n-a1-m1-cA_4c5n-a1-m1-cD 4c5n-a2-m1-cC_4c5n-a2-m1-cB GALKKVLTIAGSDTSAGAGMQADLKTFQELDTYGMVALTAIVTMDKDTWSHDVTPLPMDVFEKQLETALSIGPDAIKTGMLGTEEIIKRAGEVYEASNAQYFVVDPVMVCKEVLNPGNTEAMIKYLLPKATVVTPNLFEAGQLSGLGKLNSIEDMKKAATIIFDKGAQHVIIKGGKALDQDKSYDLYYDGQTFYQLTTDMFQQSYNHGAGCTFAAATTAYLANGKSPKEAVISAKAFVASAIKNGWKMNDFVGPVDHGAYNRIEHIDVEVTEV GALKKVLTIAGSDTSAGAGMQADLKTFQELDTYGMVALTAIVTMDKDTWSHDVTPLPMDVFEKQLETALSIGPDAIKTGMLGTEEIIKRAGEVYEASNAQYFVVDPVMVCDEVLNPGNTEAMIKYLLPKATVVTPNLFEAGQLSGLGKLNSIEDMKKAATIIFDKGAQHVIIKGGKALDQDKSYDLYYDGQTFYQLTTDMFQQSYNHGAGCTFAAATTAYLANGKSPKEAVISAKAFVASAIKNGWKMNDFVGPVDHGAYNRIEHIDVEVTEV 4c5o-a4-m1-cG_4c5o-a4-m1-cH Flavin monooxygenase from Stenotrophomonas maltophilia. Q193R H194T mutant B2FRL2 B2FRL2 2.6 X-RAY DIFFRACTION 41 1.0 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 330 331 4a9w-a1-m1-cA_4a9w-a1-m1-cB 4c5o-a1-m1-cC_4c5o-a1-m1-cD 4c5o-a2-m1-cA_4c5o-a2-m1-cB 4c5o-a3-m1-cE_4c5o-a3-m1-cF MDSVDVVVIGGGQSGLSAGYFLRRSGLSYVILDAEASPGGAWQHAWHSLHLFSPAGWSSIPGWPMPASQGPYPARAEVLAYLAQYEQKYALPVLRPIRVQRVSHFGERLRVVARDGRQWLARAVISATGTWGEAYTPEYQGLESFAGIQLHSAHYSTPAPFAGMRVAIIGGGNSGAQILAEVSTVAETTWITRTEPAFLADDVDGRVLFERDIVMVPPVLDARARGVLAAVPPPARFSPTGMQWADGTERAFDAVIWCTGFRPALSHLKGLDLVTPQGQVEVDGSGLRALAVPSVWLLGYGDWNGMASATLIGVTRYAREAVRQVTAYCA MDSVDVVVIGGGQSGLSAGYFLRRSGLSYVILDAEASPGGAWQHAWHSLHLFSPAGWSSIPGWPMPASQGPYPARAEVLAYLAQYEQKYALPVLRPIRVQRVSHFGERLRVVARDGRQWLARAVISATGTWGEAYTPEYQGLESFAGIQLHSAHYSTPAPFAGMRVAIIGGGNSGAQILAEVSTVAETTWITRTEPAFLADDVDGRVLFERADIVMVPPVLDARARGVLAAVPPPARFSPTGMQWADGTERAFDAVIWCTGFRPALSHLKGLDLVTPQGQVEVDGSGLRALAVPSVWLLGYGDWNGMASATLIGVTRYAREAVRQVTAYCA 4c5q-a2-m1-cG_4c5q-a2-m1-cH measles virus phosphoprotein tetramerization domain P35974 P35974 2.2 X-RAY DIFFRACTION 68 1.0 70146 (Measles virus strain Edmonston-B) 70146 (Measles virus strain Edmonston-B) 47 51 3zdo-a1-m1-cE_3zdo-a1-m1-cF 3zdo-a1-m1-cE_3zdo-a1-m1-cH 3zdo-a1-m1-cG_3zdo-a1-m1-cF 3zdo-a1-m1-cH_3zdo-a1-m1-cG 3zdo-a2-m1-cA_3zdo-a2-m1-cD 3zdo-a2-m1-cB_3zdo-a2-m1-cA 4c5q-a1-m1-cB_4c5q-a1-m1-cA 4c5q-a1-m1-cC_4c5q-a1-m1-cB 4c5q-a1-m1-cC_4c5q-a1-m1-cD 4c5q-a1-m1-cD_4c5q-a1-m1-cA 4c5q-a2-m1-cF_4c5q-a2-m1-cE 4c5q-a2-m1-cG_4c5q-a2-m1-cF 4c5q-a2-m1-cH_4c5q-a2-m1-cE 6htl-a1-m1-cA_6htl-a1-m3-cA 6htl-a1-m1-cA_6htl-a1-m4-cA 6htl-a1-m2-cA_6htl-a1-m3-cA 6htl-a1-m2-cA_6htl-a1-m4-cA LFSDVQDIKTALAKIHEDNQKIISKLESLLLLKGEVESIKKQINRQN YDDELFSDVQDIKTALAKIHEDNQKIISKLESLLLLKGEVESIKKQINRQN 4c5s-a1-m1-cD_4c5s-a1-m1-cC Structural Investigations into the Stereochemistry and Activity of a Phenylalanine-2,3-Aminomutase from Taxus chinensis Q68G84 Q68G84 1.85 X-RAY DIFFRACTION 271 0.998 29808 (Taxus chinensis) 29808 (Taxus chinensis) 640 641 2yii-a1-m1-cA_2yii-a1-m1-cB 2yii-a1-m1-cD_2yii-a1-m1-cC 3nz4-a1-m1-cA_3nz4-a1-m1-cB 3nz4-a2-m1-cA_3nz4-a2-m1-cB 3nz4-a2-m2-cA_3nz4-a2-m2-cB 4baa-a1-m1-cA_4baa-a1-m1-cB 4baa-a1-m1-cC_4baa-a1-m1-cD 4bab-a1-m1-cA_4bab-a1-m1-cB 4bab-a1-m1-cC_4bab-a1-m1-cD 4c5r-a1-m1-cA_4c5r-a1-m1-cB 4c5r-a1-m1-cD_4c5r-a1-m1-cC 4c5s-a1-m1-cA_4c5s-a1-m1-cB 4c5u-a1-m1-cB_4c5u-a1-m1-cD 4c5u-a1-m1-cC_4c5u-a1-m1-cA 4c6g-a1-m1-cA_4c6g-a1-m1-cB 4c6g-a1-m1-cC_4c6g-a1-m1-cD 4cq5-a1-m1-cB_4cq5-a1-m1-cA 4cq5-a1-m1-cC_4cq5-a1-m1-cD 4v2q-a1-m1-cA_4v2q-a1-m1-cB 4v2q-a1-m2-cA_4v2q-a1-m2-cB 4v2r-a1-m1-cA_4v2r-a1-m1-cB 4v2r-a1-m2-cA_4v2r-a1-m2-cB SHVKDILGLINAFNEVKKITVDGTTPITVAHVAALARRHDVKVALEAEQCRARVETCSSWVQRKAEDGADIAGVTTGFGACSSRRTNRLSELQESLIRCLLAGVFTELPATATRSAMLLRLNSFTYGCSGIRWEVMEALEKLLNSNVSPKVPLRGSVSDLIPLAYIAGLLIGKPSVIARIGDDVEVPAPEALSRVGLRPFKLQAKEGLALVNGTSFATAVASTVMYDANVLLLLVETLCGMFCEVIFGREEFAHPLIHKVKPHPGQIESAELLEWLLRSSPFQELSREYYSIDKLKKPKQDRYALRSSPQWLAPLVQTIRDATTTVETEVNSANDNPIIDHANDRALHGANFQGSAVGFYMDYVRIAVAGLGKLLFAQFTELMIEYYSNGLPGNLSLGPDLSVDYGLKGLDIAMAAYSSELQYLANPVTTHVHSAEQHNQDINSLALISARKTEEALDILKLMIASHLTAMCQAVDLRQLEEALVKVVENVVSTLADECGLPNDTKARLLYVAKAVPVYTYLESPCDPTLPLLLGLKQSCFDTILALHTDTLVDRLAEFEKRLSDRLENEMTAVRVLYEKVRIQGSKFLPFYRFVREELDTGVMSARREQTPQEDVQKVFDAIADGRITVPLLHCLQGFL SHVKDILGLINAFNEVKKITVDGTTPITVAHVAALARRHDVKVALEAECRARVETCSSWVQRKAEDGADIAGVTTGFGACSSRRTNRLSELQESLIRCLLAGVFTDELPATATRSAMLLRLNSFTYGCSGIRWEVMEALEKLLNSNVSPKVPLRGSVSDLIPLAYIAGLLIGKPSVIARIGDDVEVPAPEALSRVGLRPFKLQAKEGLALVNGTSFATAVASTVMYDANVLLLLVETLCGMFCEVIFGREEFAHPLIHKVKPHPGQIESAELLEWLLRSSPFQELSREYYSIDKLKKPKQDRYALRSSPQWLAPLVQTIRDATTTVETEVNSANDNPIIDHANDRALHGANFQGSAVGFYMDYVRIAVAGLGKLLFAQFTELMIEYYSNGLPGNLSLGPDLSVDYGLKGLDIAMAAYSSELQYLANPVTTHVHSAEQHNQDINSLALISARKTEEALDILKLMIASHLTAMCQAVDLRQLEEALVKVVENVVSTLADECGLPNDTKARLLYVAKAVPVYTYLESPCDPTLPLLLGLKQSCFDTILALHETDTLVDRLAEFEKRLSDRLENEMTAVRVLYEKVRIQGSKFLPFYRFVREELDTGVMSARREQTPQEDVQKVFDAIADGRITVPLLHCLQGFL 4c65-a1-m2-cC_4c65-a1-m2-cA Crystal structure of A. niger ochratoxinase A2R2V4 A2R2V4 2.2 X-RAY DIFFRACTION 69 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 433 436 4c5y-a1-m1-cA_4c5y-a1-m2-cA 4c5y-a1-m1-cA_4c5y-a1-m4-cA 4c5y-a1-m1-cB_4c5y-a1-m2-cB 4c5y-a1-m1-cB_4c5y-a1-m4-cB 4c5y-a1-m2-cA_4c5y-a1-m3-cA 4c5y-a1-m2-cB_4c5y-a1-m3-cB 4c5y-a1-m3-cA_4c5y-a1-m4-cA 4c5y-a1-m3-cB_4c5y-a1-m4-cB 4c5z-a1-m1-cA_4c5z-a1-m2-cA 4c5z-a1-m1-cA_4c5z-a1-m4-cA 4c5z-a1-m1-cB_4c5z-a1-m2-cB 4c5z-a1-m1-cB_4c5z-a1-m4-cB 4c5z-a1-m2-cA_4c5z-a1-m3-cA 4c5z-a1-m2-cB_4c5z-a1-m3-cB 4c5z-a1-m3-cA_4c5z-a1-m4-cA 4c5z-a1-m3-cB_4c5z-a1-m4-cB 4c60-a1-m1-cG_4c60-a1-m1-cE 4c60-a1-m1-cG_4c60-a1-m2-cE 4c60-a1-m1-cH_4c60-a1-m1-cF 4c60-a1-m1-cH_4c60-a1-m2-cF 4c60-a1-m2-cG_4c60-a1-m1-cE 4c60-a1-m2-cG_4c60-a1-m2-cE 4c60-a1-m2-cH_4c60-a1-m1-cF 4c60-a1-m2-cH_4c60-a1-m2-cF 4c60-a2-m1-cB_4c60-a2-m1-cD 4c60-a2-m1-cB_4c60-a2-m3-cD 4c60-a2-m1-cC_4c60-a2-m1-cA 4c60-a2-m1-cC_4c60-a2-m3-cA 4c60-a2-m3-cB_4c60-a2-m1-cD 4c60-a2-m3-cB_4c60-a2-m3-cD 4c60-a2-m3-cC_4c60-a2-m1-cA 4c60-a2-m3-cC_4c60-a2-m3-cA 4c65-a1-m1-cB_4c65-a1-m1-cD 4c65-a1-m1-cB_4c65-a1-m2-cD 4c65-a1-m1-cC_4c65-a1-m1-cA 4c65-a1-m1-cC_4c65-a1-m2-cA 4c65-a1-m2-cB_4c65-a1-m1-cD 4c65-a1-m2-cB_4c65-a1-m2-cD 4c65-a1-m2-cC_4c65-a1-m1-cA 4c65-a2-m1-cG_4c65-a2-m1-cE 4c65-a2-m1-cG_4c65-a2-m3-cE 4c65-a2-m1-cH_4c65-a2-m1-cF 4c65-a2-m1-cH_4c65-a2-m3-cF 4c65-a2-m3-cG_4c65-a2-m1-cE 4c65-a2-m3-cG_4c65-a2-m3-cE 4c65-a2-m3-cH_4c65-a2-m1-cF 4c65-a2-m3-cH_4c65-a2-m3-cF EAKVTIIYAGLLIPGDGEPLRNAALVISDKIIAFVGSEADIPKKYLRSTQSTHRVPVLMPGLWDCHMHFGGDDDYYNDYTSGLATHPASSGARLARGCWEALQNGYTSYRDLAGYGCEVAKAINDGTIVGPNVYSSGAALSQTAGHGDIFALPAGEVLGSYGVMNPRPGYWGAGPLCIADGVEEVRRAVRLQIRRGAKVIKVMASGGVMSRDDNPNFAQFSPEELKVIVEEAARQNRIVSAHVHGKAGIMAAIKAGCKSLEHVSYADEEVWELMKEKGILYVATRSVIEIFLASNGLVKESWAKLQALADSHLKAYQGAIKAGVTIALGTDTAPGGPTALELQFAVERGGMTPLEAIKAATANAPLSVGPQAPLTGQLREGYEADVIALEENPLEDIKVFQEPKAVTHVWKGGKLFKGPGIGPWGEDARNPFL DEAKVTIIYAGLLIPGDGEPLRNAALVISDKIIAFVGSEADIPKKYLRSTQSTHRVPVLMPGLWDCHMHFGGDDDYYNDYTSGLATHPASSGARLARGCWEALQNGYTSYRDLAGYGCEVAKAINDGTIVGPNVYSSGAALSQTAGHGDIFALPAGEVLGSYGVMNPRPGYWGAGPLCIADGVEEVRRAVRLQIRRGAKVIKVMASGGVMSRDDNPNFAQFSPEELKVIVEEAARQNRIVSAHVHGKAGIMAAIKAGCKSLEHVSYADEEVWELMKEKGILYVATRSVIEIFLASNGEGLVKESWAKLQALADSHLKAYQGAIKAGVTIALGTDTAPGGPTALELQFAVERGGMTPLEAIKAATANAPLSVGPQAPLTGQLREGYEADVIALEENPLEDIKVFQEPKAVTHVWKGGKLFKGPGIGPWGEDARNPFL 4c65-a2-m3-cH_4c65-a2-m1-cE Crystal structure of A. niger ochratoxinase A2R2V4 A2R2V4 2.2 X-RAY DIFFRACTION 19 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 429 435 4c5y-a1-m1-cB_4c5y-a1-m4-cA 4c5y-a1-m2-cB_4c5y-a1-m1-cA 4c5y-a1-m3-cB_4c5y-a1-m2-cA 4c5y-a1-m4-cB_4c5y-a1-m3-cA 4c5z-a1-m1-cA_4c5z-a1-m2-cB 4c5z-a1-m1-cB_4c5z-a1-m4-cA 4c5z-a1-m2-cA_4c5z-a1-m3-cB 4c5z-a1-m3-cA_4c5z-a1-m4-cB 4c60-a1-m1-cG_4c60-a1-m1-cF 4c60-a1-m1-cH_4c60-a1-m2-cE 4c60-a1-m2-cG_4c60-a1-m2-cF 4c60-a1-m2-cH_4c60-a1-m1-cE 4c60-a2-m1-cA_4c60-a2-m3-cD 4c60-a2-m1-cB_4c60-a2-m1-cC 4c60-a2-m1-cD_4c60-a2-m3-cA 4c60-a2-m3-cB_4c60-a2-m3-cC 4c65-a1-m1-cB_4c65-a1-m1-cC 4c65-a1-m1-cD_4c65-a1-m2-cA 4c65-a1-m2-cB_4c65-a1-m2-cC 4c65-a1-m2-cD_4c65-a1-m1-cA 4c65-a2-m1-cG_4c65-a2-m1-cF 4c65-a2-m1-cH_4c65-a2-m3-cE 4c65-a2-m3-cG_4c65-a2-m3-cF AKVTIIYAGLLIPGDGEPLRNAALVISDKIIAFVGSEADIPKKYLRSTQSTHRVPVLMPGLWDCHMHFGGDDDYYNDYTSGLATHPASSGARLARGCWEALQNGYTSYRDLAGYGCEVAKAINDGTIVGPNVYSSGAALSQTAGHGDIFALPAGEVLGSYGVMNPRPGYWGAGPLCIADGVEEVRRAVRLQIRRGAKVIKVMASGGVMSRDDNPNFAQFSPEELKVIVEEAARQNRIVSAHVHGKAGIMAAIKAGCKSLEHVSYADEEVWELMKEKGILYVATRSVIEIFLASNKESWAKLQALADSHLKAYQGAIKAGVTIALGTDTAPGGPTALELQFAVERGGMTPLEAIKAATANAPLSVGPQAPLTGQLREGYEADVIALEENPLEDIKVFQEPKAVTHVWKGGKLFKGPGIGPWGEDARNPFL EAKVTIIYAGLLIPGDGEPLRNAALVISDKIIAFVGSEADIPKKYLRSTQSTHRVPVLMPGLWDCHMHFGGDDDYYNDYTSGLATHPASSGARLARGCWEALQNGYTSYRDLAGYGCEVAKAINDGTIVGPNVYSSGAALSQTAGHGDIFALPAGEVLGSYGVMNPRPGYWGAGPLCIADGVEEVRRAVRLQIRRGAKVIKVMASGGVMSRDDNPNFAQFSPEELKVIVEEAARQNRIVSAHVHGKAGIMAAIKAGCKSLEHVSYADEEVWELMKEKGILYVATRSVIEIFLASNGEGLVKESWAKLQALADSHLKAYQGAIKAGVTIALGTDTAPGGPTALELQFAVERGGMTPLEAIKAATANAPLSVGPQAPLTGQLREGYEADVIALEENPLEDIKVFQEPKAVTHVWKGGKLFKGPGIGPWGEDARNPFL 4c65-a2-m3-cH_4c65-a2-m3-cG Crystal structure of A. niger ochratoxinase A2R2V4 A2R2V4 2.2 X-RAY DIFFRACTION 161 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 429 431 4c5y-a1-m1-cB_4c5y-a1-m1-cA 4c5y-a1-m2-cB_4c5y-a1-m2-cA 4c5y-a1-m3-cB_4c5y-a1-m3-cA 4c5y-a1-m4-cB_4c5y-a1-m4-cA 4c5z-a1-m1-cA_4c5z-a1-m1-cB 4c5z-a1-m2-cA_4c5z-a1-m2-cB 4c5z-a1-m3-cA_4c5z-a1-m3-cB 4c5z-a1-m4-cA_4c5z-a1-m4-cB 4c60-a1-m1-cE_4c60-a1-m1-cF 4c60-a1-m1-cG_4c60-a1-m1-cH 4c60-a1-m2-cE_4c60-a1-m2-cF 4c60-a1-m2-cG_4c60-a1-m2-cH 4c60-a2-m1-cB_4c60-a2-m1-cA 4c60-a2-m1-cC_4c60-a2-m1-cD 4c60-a2-m3-cB_4c60-a2-m3-cA 4c60-a2-m3-cC_4c60-a2-m3-cD 4c65-a1-m1-cB_4c65-a1-m1-cA 4c65-a1-m1-cC_4c65-a1-m1-cD 4c65-a1-m2-cB_4c65-a1-m2-cA 4c65-a1-m2-cC_4c65-a1-m2-cD 4c65-a2-m1-cF_4c65-a2-m1-cE 4c65-a2-m1-cH_4c65-a2-m1-cG 4c65-a2-m3-cF_4c65-a2-m3-cE AKVTIIYAGLLIPGDGEPLRNAALVISDKIIAFVGSEADIPKKYLRSTQSTHRVPVLMPGLWDCHMHFGGDDDYYNDYTSGLATHPASSGARLARGCWEALQNGYTSYRDLAGYGCEVAKAINDGTIVGPNVYSSGAALSQTAGHGDIFALPAGEVLGSYGVMNPRPGYWGAGPLCIADGVEEVRRAVRLQIRRGAKVIKVMASGGVMSRDDNPNFAQFSPEELKVIVEEAARQNRIVSAHVHGKAGIMAAIKAGCKSLEHVSYADEEVWELMKEKGILYVATRSVIEIFLASNKESWAKLQALADSHLKAYQGAIKAGVTIALGTDTAPGGPTALELQFAVERGGMTPLEAIKAATANAPLSVGPQAPLTGQLREGYEADVIALEENPLEDIKVFQEPKAVTHVWKGGKLFKGPGIGPWGEDARNPFL EAKVTIIYAGLLIPGDGEPLRNAALVISDKIIAFVGSEADIPKKYLRSTQSTHRVPVLMPGLWDCHMHFGGDDDYYNDYTSGLATHPASSGARLARGCWEALQNGYTSYRDLAGYGCEVAKAINDGTIVGPNVYSSGAALSQTAGHGDIFALPAGEVLGSYGVMNPRPGYWGAGPLCIADGVEEVRRAVRLQIRRGAKVIKVMASGGVMSRDDNPNFAQFSPEELKVIVEEAARQNRIVSAHVHGKAGIMAAIKAGCKSLEHVSYADEEVWELMKEKGILYVATRSVIEIFLASNVKESWAKLQALADSHLKAYQGAIKAGVTIALGTDTAPGGPTALELQFAVERGGMTPLEAIKAATANAPLSVGPQAPLTGQLREGYEADVIALEENPLEDIKVFQEPKAVTHVWKGGKLFKGPGIGPWGEDARNPFL 4c6f-a1-m1-cA_4c6f-a1-m2-cA Crystal structure of the dihydroorotase domain of human CAD bound to substrate at pH 6.5 P27708 P27708 1.261 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 363 4by3-a1-m1-cA_4by3-a1-m2-cA 4c6b-a1-m1-cA_4c6b-a1-m2-cA 4c6c-a1-m1-cA_4c6c-a1-m2-cA 4c6d-a1-m1-cA_4c6d-a1-m2-cA 4c6e-a1-m1-cA_4c6e-a1-m2-cA 4c6i-a1-m1-cA_4c6i-a1-m2-cA 4c6j-a1-m1-cA_4c6j-a1-m2-cA 4c6k-a1-m1-cA_4c6k-a1-m2-cA 4c6l-a1-m1-cA_4c6l-a1-m2-cA 4c6m-a1-m1-cA_4c6m-a1-m2-cA 4c6n-a1-m1-cA_4c6n-a1-m2-cA 4c6o-a1-m1-cA_4c6o-a1-m2-cA 4c6p-a1-m1-cA_4c6p-a1-m2-cA 4c6q-a1-m1-cA_4c6q-a1-m2-cA 6hfu-a1-m1-cA_6hfu-a1-m2-cA 6hg3-a1-m1-cA_6hg3-a1-m2-cA KLVRLPGLIDVHVHLREPGGTHKEDFASGTAAALAGGITMVCAMPNTRPPIIDAPALALAQKLAEAGARCDFALFLGASSENAGTLGTVAGSAAGLLYLNETFSELRLDSVVQWMEHFETWPSHLPIVAHAEQQTVAAVLMVAQLTQRSVHICHVARKEEILLIKAAKARGLPVTCEVAPHHLFLSHDDLERLGPGKGEVRPELGSRQDVEALWENMAVIDCFASDHAPHTLEEKCGSRPPPGFPGLETMLPLLLTAVSEGRLSLDDLLQRLHHNPRRIFHLPPQEDTYVEVDLEHEWTIPSHMPFSKAHWTPFEGQKVKGTVRRVVLRGEVAYIDGQVLVPPGYGQDVRKWPQGAVPQLPPS KLVRLPGLIDVHVHLREPGGTHKEDFASGTAAALAGGITMVCAMPNTRPPIIDAPALALAQKLAEAGARCDFALFLGASSENAGTLGTVAGSAAGLLYLNETFSELRLDSVVQWMEHFETWPSHLPIVAHAEQQTVAAVLMVAQLTQRSVHICHVARKEEILLIKAAKARGLPVTCEVAPHHLFLSHDDLERLGPGKGEVRPELGSRQDVEALWENMAVIDCFASDHAPHTLEEKCGSRPPPGFPGLETMLPLLLTAVSEGRLSLDDLLQRLHHNPRRIFHLPPQEDTYVEVDLEHEWTIPSHMPFSKAHWTPFEGQKVKGTVRRVVLRGEVAYIDGQVLVPPGYGQDVRKWPQGAVPQLPPS 4c6s-a1-m1-cA_4c6s-a1-m2-cA Crystal structure of the TIR domain from the Arabidopsis Thaliana disease resistance protein RRS1 P0DKH5 P0DKH5 1.751 X-RAY DIFFRACTION 38 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 142 142 EEFVCISCVEEVRYSFVSHLSEALRRKGINNVVVDVDIDDLLFKESQAKIEKAGVSVMVLPGNCDPSEVWLDKFAKVLECQRNNKDQAVVSVLYGDSLLRDQWLSELDFRGLSRIHQSRKECSDSILVEEIVRDVYETHFYV EEFVCISCVEEVRYSFVSHLSEALRRKGINNVVVDVDIDDLLFKESQAKIEKAGVSVMVLPGNCDPSEVWLDKFAKVLECQRNNKDQAVVSVLYGDSLLRDQWLSELDFRGLSRIHQSRKECSDSILVEEIVRDVYETHFYV 4c7l-a1-m1-cA_4c7l-a1-m1-cB Crystal structure of Mouse Hepatitis virus strain S Hemagglutinin- esterase P31614 P31614 2.1 X-RAY DIFFRACTION 106 0.997 11145 (Murine hepatitis virus strain S) 11145 (Murine hepatitis virus strain S) 338 368 4c7w-a1-m1-cB_4c7w-a1-m1-cA FNEPLNIVSHLNDDWFLFGDARSDCTYLDWLDLDPKLCNSGRISAKSGNSLFRSFHFIDFYNYSGEGDQVIFYEGGFKCLAYGDNKRWMGNKARFYARVYEKMAQYRSLSFVNVSYAYGGNAKPTSICKDKTLTLNNPTFISKESNYVDYYYESEANFTLQGCDEFIVPLCVFNGHSKGSSSDPANKYYTDSQSYYNMDTGVLYGFNSTLDVGNTVQNPGLDLTCRYLALTPGNYKAVSLEYLLSLPSKAICLRKPKSFMPVQVVDSDNMTAVACQLPYCFFRNTSAFHFRQLLSGLLYNVSCIAQQGAFVYNNVSSSWPAYGYGHCPTAANIAPVCI FNEPLNIVSHLNDDWFLFGDARSDCTLDWLDLDPKLCNSGRISAKSGNSLFRSFHFIDFYNYSGEGDQVIFYEGVNFSPSHGFKCLAYGDNKRWMGNKARFYARVYEKMAQYRSLSFVNVSYAYGGNAKPTSICKDKTLTLNNPTFISKESNYVDYYYESEANFTLQGCDEFIVPLCVFNGHSKGSSSDPANKYYTDSQSYYNMDTGVLYGFNSTLDVGNTVQNPGLDLTCRYLALTPGNYKAVSLEYLLSLPSKAICLRKPKSFMPVQVVDSRWNSTRQSDNMTAVACQLPYCFFRNTSADYSDFHFRQLLSGLLYNVSCIAQQGAFVYNNVSSSWPAYGYGHCPTAANIGYMAPVCIYDSDPLVPR 4c7r-a1-m1-cC_4c7r-a1-m1-cA Inward facing conformation of the trimeric betaine transporter BetP in complex with lipids P54582 P54582 2.7 X-RAY DIFFRACTION 74 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 506 531 2wit-a1-m1-cB_2wit-a1-m1-cA 2wit-a1-m1-cB_2wit-a1-m1-cC 2wit-a1-m1-cC_2wit-a1-m1-cA 3p03-a1-m1-cB_3p03-a1-m1-cA 3p03-a1-m1-cB_3p03-a1-m1-cC 4ain-a1-m1-cB_4ain-a1-m1-cA 4ain-a1-m1-cB_4ain-a1-m1-cC 4ain-a1-m1-cC_4ain-a1-m1-cA 4c7r-a1-m1-cB_4c7r-a1-m1-cA 4c7r-a1-m1-cB_4c7r-a1-m1-cC 4doj-a1-m1-cB_4doj-a1-m1-cA 4doj-a1-m1-cB_4doj-a1-m1-cC 4doj-a1-m1-cC_4doj-a1-m1-cA 4llh-a1-m1-cB_4llh-a1-m1-cA 4llh-a1-m1-cC_4llh-a1-m1-cA 4llh-a1-m1-cC_4llh-a1-m1-cB ASLNWSVIVPALVIVLATVVWGIGFKDSFTNFASSALSAVVDNLGWAFILFGTVFVFFIVVIAASKFGTIRLGRIDEAPEFRTVSWISMMFAAGMGIGLMFYGTTEPLTFYRNGVPGHDEHNVGVAMSTTMFHWTLHPWAIYAIVGLAIAYSTFRVGRKQLLSSAFVPLIGEKGAEGWLGKLIDILAIIATVFGTACSLGLGALQIGAGLSAANIIEDPSDWTIVGIVSVLTLAFIFSAISGVGKGIQYLSNANMVLAALLAIFVFVVGPTVSILNLLPGSIGNYLSNFFQMAGRTAMSADGTAGEWLGSWTIFYWAWWISWSPFVGMFLARISRGRSIREFILGVLLVPAGVSTVWFSIFGGTAIVFEQNGESIWGDGAAEEQLFGLLHALPGGQIMGIIAMILLGTFFITSADSASTVMGTMSQHGQLEANKWVTAAWGVATAAIGLTLLLSGGDNALSNLQNVTIVAATPFLFVVIGLMFALVKDLSNDVIYLEYREQQRFNA ASLNWSVIVPALVIVLATVVWGIGFKDSFTNFASSALSAVVDNLGWAFILFGTVFVFFIVVIAASKFGTIRLGRIDEAPEFRTVSWISMMFAAGMGIGLMFYGTTEPLTFYRNGVPGHDEHNVGVAMSTTMFHWTLHPWAIYAIVGLAIAYSTFRVGRKQLLSSAFVPLIGEKGAEGWLGKLIDILAIIATVFGTACSLGLGALQIGAGLSAANIIEDPSDWTIVGIVSVLTLAFIFSAISGVGKGIQYLSNANMVLAALLAIFVFVVGPTVSILNLLPGSIGNYLSNFFQMAGRTAMSADGTAGEWLGSWTIFYWAWWISWSPFVGMFLARISRGRSIREFILGVLLVPAGVSTVWFSIFGGTAIVFEQNGESIWGDGAAEEQLFGLLHALPGGQIMGIIAMILLGTFFITSADSASTVMGTMSQHGQLEANKWVTAAWGVATAAIGLTLLLSGGDNALSNLQNVTIVAATPFLFVVIGLMFALVKDLSNDVIYLEYREQQRFNARLARERRVHNEHRKRELAAKRRRER 4c7u-a5-m1-cD_4c7u-a5-m9-cA Crystal structure of manganese superoxide dismutase from Arabidopsis thaliana O81235 O81235 1.951 X-RAY DIFFRACTION 77 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 203 203 4c7u-a1-m1-cB_4c7u-a1-m1-cH 4c7u-a1-m1-cF_4c7u-a1-m1-cC 4c7u-a2-m1-cA_4c7u-a2-m4-cD 4c7u-a2-m1-cE_4c7u-a2-m3-cG 4c7u-a3-m1-cF_4c7u-a3-m5-cC 4c7u-a3-m5-cB_4c7u-a3-m5-cH 4c7u-a4-m6-cD_4c7u-a4-m7-cA 4c7u-a4-m7-cE_4c7u-a4-m1-cG 4c7u-a5-m9-cE_4c7u-a5-m8-cG MTFTLPDLPYDYGALEPAISGEIMQIHHQKHHQAYVTNYNNALEQLDQAVNKGDASTVVKLQSAIKFNGGGHVNHSIFWKNLAPSSEGGGEPPKGSLGSAIDAHFGSLEGLVKKMSAEGAAVQGSGWVWLGLDKELKKLVVDTTANQDPLVTKGGSLVPLVGIDVWEHAYYLQYKNVRPEYLKNVWKVINWKYASEVYEKENN MTFTLPDLPYDYGALEPAISGEIMQIHHQKHHQAYVTNYNNALEQLDQAVNKGDASTVVKLQSAIKFNGGGHVNHSIFWKNLAPSSEGGGEPPKGSLGSAIDAHFGSLEGLVKKMSAEGAAVQGSGWVWLGLDKELKKLVVDTTANQDPLVTKGGSLVPLVGIDVWEHAYYLQYKNVRPEYLKNVWKVINWKYASEVYEKENN 4c7u-a5-m9-cE_4c7u-a5-m9-cA Crystal structure of manganese superoxide dismutase from Arabidopsis thaliana O81235 O81235 1.951 X-RAY DIFFRACTION 54 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 201 203 4c7u-a1-m1-cB_4c7u-a1-m1-cF 4c7u-a1-m1-cH_4c7u-a1-m1-cC 4c7u-a2-m1-cE_4c7u-a2-m1-cA 4c7u-a2-m3-cG_4c7u-a2-m4-cD 4c7u-a3-m1-cF_4c7u-a3-m5-cB 4c7u-a3-m5-cH_4c7u-a3-m5-cC 4c7u-a4-m1-cG_4c7u-a4-m6-cD 4c7u-a4-m7-cE_4c7u-a4-m7-cA 4c7u-a5-m8-cG_4c7u-a5-m1-cD MTFTLPDLPYDYGALEPAISGEIMQIHHQKHHQAYVTNYNNALEQLDQAVNKGDASTVVKLQSAIKFNGGGHVNHSIFWKNLAPSSEGGGEPPKGSLGSAIDAHFGSLEGLVKKMSAEGAAVQGSGWVWLGLDKELKKLVVDTTANQDPLVTKGGSLVPLVGIDVWEHAYYLQYKNVRPEYLKNVWKVINWKYASEVYEKE MTFTLPDLPYDYGALEPAISGEIMQIHHQKHHQAYVTNYNNALEQLDQAVNKGDASTVVKLQSAIKFNGGGHVNHSIFWKNLAPSSEGGGEPPKGSLGSAIDAHFGSLEGLVKKMSAEGAAVQGSGWVWLGLDKELKKLVVDTTANQDPLVTKGGSLVPLVGIDVWEHAYYLQYKNVRPEYLKNVWKVINWKYASEVYEKENN 4c7v-a1-m1-cA_4c7v-a1-m2-cA Apo Transketolase from Lactobacillus salivarius at 2.2A resolution Q1WQU8 Q1WQU8 2.2 X-RAY DIFFRACTION 299 1.0 362948 (Ligilactobacillus salivarius UCC118) 362948 (Ligilactobacillus salivarius UCC118) 662 662 4c7x-a1-m1-cA_4c7x-a1-m2-cA PYDQVDQLGVNTLRTLSIDAIQRANSGHPGLPMGAAPMAYVLWTRHLKINPKTHMNWVNRDRFVLSAGHGSALLYSLAHLAGYDVSMDDLKNFREWKSNTPGHPEYGCTDGVEATTGPLGQGISMAVGMAMAEAHLGKKFNREGYPVMDHYTYALIGDGDLMEGVASEAASLAGHLKLGKLIALYDSNGISLDGKTSASFTENVGARFEAYGWQYILVEDGFNLEEIDKAIVQAKAESDKPTIIEIKTTIGYGSENQGTHKVHGSPLGEEGVAHAKEVYNWNYPPFTVPEEVSQRFKECLQDKGVKAENKWNEMFEAYKKEYSDLAQKFSDGFSNKVPNTLGDILPQYGEDDSIATRAASQKAINALAKEVSSLWGGAADLASSNKTVIAGEGDFQPESYEGRNIWFGVREFGMACAMNGIMLHGGTRIFGSTFFVFSDYLKAAIRLSAIQKLPVIYVLTHDSVAVGKDGPTHEPIEQLASLRTIPNVQVFRPADGNETSAAWKVALETLDKPTILVLSRQNLDTLPISKEKVFDGVEKGGYVVQGAENEADGILIATGSEVGLALKAKEELQKKGKDVIVVSLPSWERFEAQSEEYKNTVIPPELKKRMTIEAGTTYGWAKYAGDHGVMIGIDEFGMSAPSDIVLRELGMSVENIVDKYLE PYDQVDQLGVNTLRTLSIDAIQRANSGHPGLPMGAAPMAYVLWTRHLKINPKTHMNWVNRDRFVLSAGHGSALLYSLAHLAGYDVSMDDLKNFREWKSNTPGHPEYGCTDGVEATTGPLGQGISMAVGMAMAEAHLGKKFNREGYPVMDHYTYALIGDGDLMEGVASEAASLAGHLKLGKLIALYDSNGISLDGKTSASFTENVGARFEAYGWQYILVEDGFNLEEIDKAIVQAKAESDKPTIIEIKTTIGYGSENQGTHKVHGSPLGEEGVAHAKEVYNWNYPPFTVPEEVSQRFKECLQDKGVKAENKWNEMFEAYKKEYSDLAQKFSDGFSNKVPNTLGDILPQYGEDDSIATRAASQKAINALAKEVSSLWGGAADLASSNKTVIAGEGDFQPESYEGRNIWFGVREFGMACAMNGIMLHGGTRIFGSTFFVFSDYLKAAIRLSAIQKLPVIYVLTHDSVAVGKDGPTHEPIEQLASLRTIPNVQVFRPADGNETSAAWKVALETLDKPTILVLSRQNLDTLPISKEKVFDGVEKGGYVVQGAENEADGILIATGSEVGLALKAKEELQKKGKDVIVVSLPSWERFEAQSEEYKNTVIPPELKKRMTIEAGTTYGWAKYAGDHGVMIGIDEFGMSAPSDIVLRELGMSVENIVDKYLE 4c81-a1-m2-cA_4c81-a1-m3-cA IspF (Plasmodium falciparum) CDP complex P62368 P62368 1.56 X-RAY DIFFRACTION 78 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 156 156 4c81-a1-m1-cA_4c81-a1-m2-cA 4c81-a1-m1-cA_4c81-a1-m3-cA 4c82-a1-m1-cA_4c82-a1-m2-cA 4c82-a1-m1-cA_4c82-a1-m3-cA 4c82-a1-m2-cA_4c82-a1-m3-cA SYNGIRIGQGYDIHKIKVLDEEKTLTLGGVKINNVLVLSHSDGDIIYHSIVDSILGALGSLDIGTLFPKNSAIFLRYARLLIYKKNYDIGNVDINVIAQVPKISNIRKNIIKNISTVLNIDESQISVKGKTHEKLGVIGEKKAIECFANILLIPKN SYNGIRIGQGYDIHKIKVLDEEKTLTLGGVKINNVLVLSHSDGDIIYHSIVDSILGALGSLDIGTLFPKNSAIFLRYARLLIYKKNYDIGNVDINVIAQVPKISNIRKNIIKNISTVLNIDESQISVKGKTHEKLGVIGEKKAIECFANILLIPKN 4c85-a1-m1-cB_4c85-a1-m1-cA zebrafish ZNRF3 ectodomain crystal form II A5WWA0 A5WWA0 2.5 X-RAY DIFFRACTION 51 0.986 7955 (Danio rerio) 7955 (Danio rerio) 138 143 DTAFVEVVLFETTYTTGLQGRFSRAGATISAEGEIVQMHPLGLCDLYEYGWVGVVKLEQPELDPSCLTVLGKAKRAVQRGATAVIFDVSENPDAIDQLNQVSEDPLKRPVVYVKGADAVKLMNIVNKQKVARARIQHR DTAFVEVVLFESSPNGDYTTYTTGLQGRFSRAGATISAEGEIVQMHPLGDLYEYGWVGVVKLEQPELDPSCLTVLGKAKRAVQRGATAVIFDVSENPDAIDQLNQVSEDPLKRPVVYVKGADAVKLMNIVNKQKVARARIQHR 4c88-a2-m1-cB_4c88-a2-m1-cD Esterase LpEst1 from Lactobacillus plantarum: native structure F9UMG7 F9UMG7 2.65 X-RAY DIFFRACTION 84 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 337 338 MPTINSIQTTVNGVVKIVKPFNNDIAGEQFDPHVLQTLTAFKQPAILENDLAALRSGSLTPAIADPVGDAVTVQSRNITALNRTVSVEWLTPQNVINHTVLVYFHGGAFYGGVPGNNTVLLKLVAAKSHCEILNVDYSLAPEAPAPAGILDGLAIFQYLEQRDAETMITVAGDSAGANVIMAATNLNQQLGSNRINQQLLLYPVTAPNADHAGPLWDLAAFPIIDSQRAILTNYHDLFRQLDSIMTDYYVPENFDSHSPLISPLHQENFTMTPPTTIMVGEFDPFRPQAWAYAQRLAAADTATTFIQYQGLNHAFAPLVDQYWQSQDVAQVMAAALI GMPTINSIQTTVNGVVKIVKPFNNDIAGEQFDPHVLQTLTAFKQPAILENDLAALRSGSLTPAIADPVGDAVTVQSRNITALNRTVSVEWLTPQNVINHTVLVYFHGGAFYGGVPGNNTVLLKLVAAKSHCEILNVDYSLAPEAPAPAGILDGLAIFQYLEQRDAETMITVAGDSAGANVIMAATNLNQQLGSNRINQQLLLYPVTAPNADHAGPLWDLAAFPIIDSQRAILTNYHDLFRQLDSIMTDYYVPENFDSHSPLISPLHQENFTMTPPTTIMVGEFDPFRPQAWAYAQRLAAADTATTFIQYQGLNHAFAPLVDQYWQSQDVAQVMAAALI 4c89-a1-m1-cC_4c89-a1-m1-cA Crystal structure of carboxylesterase LpEst1 from Lactobacillus plantarum: high resolution model F9UMG7 F9UMG7 2.05 X-RAY DIFFRACTION 73 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 332 334 4c87-a1-m1-cB_4c87-a1-m1-cA 4c87-a2-m1-cD_4c87-a2-m1-cC 4c88-a1-m1-cA_4c88-a1-m1-cC 4c89-a2-m1-cB_4c89-a2-m1-cD QGPTINSIQTTVNGVVKIVKPFNNDIAGEQFDPHVLQTLTAFKQPAILENDLAALRSGSLTPAIADPVGDAVTVQSRNITALNRTVSVEWLTPQNVINHTVLVYFHGGAFYGGVPGNNTVLLKLVAAKSHCEILNVDYSLAPEAPAPAGILDGLAIFQYLEQRDAETITVAGDSAGANVIAATNLNQQLGSNRINQQLLLYPVTAPNADHAGPLWDLAAFPIIDSQRAILTNYHDLFRQLDSITDYYVPENFDSHSPLISPLHQENFTTPPTTIVGEFDPFRPQAWAYAQRLAAADTATTFIQYQGLNHAFAPLVDQYWQSQDVAQVAAALI YFQGPTINSIQTTVNGVVKIVKPFNNDIAGEQFDPHVLQTLTAFKQPAILENDLAALRSGSLTPAIADPVGDAVTVQSRNITALNRTVSVEWLTPQNVINHTVLVYFHGGAFYGGVPGNNTVLLKLVAAKSHCEILNVDYSLAPEAPAPAGILDGLAIFQYLEQRDAETITVAGDSAGANVIAATNLNQQLGSNRINQQLLLYPVTAPNADHAGPLWDLAAFPIIDSQRAILTNYHDLFRQLDSITDYYVPENFDSHSPLISPLHQENFTTPPTTIVGEFDPFRPQAWAYAQRLAAADTATTFIQYQGLNHAFAPLVDQYWQSQDVAQVAAALI 4c8e-a1-m1-cB_4c8e-a1-m1-cC IspF (Burkholderia cenocepacia) 2CMP complex B4EC22 B4EC22 1.9 X-RAY DIFFRACTION 83 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 161 161 4c8e-a1-m1-cA_4c8e-a1-m1-cB 4c8e-a1-m1-cA_4c8e-a1-m1-cC 4c8g-a1-m1-cA_4c8g-a1-m1-cC 4c8g-a1-m1-cB_4c8g-a1-m1-cA 4c8g-a1-m1-cB_4c8g-a1-m1-cC 4c8i-a1-m1-cA_4c8i-a1-m1-cB 4c8i-a1-m1-cA_4c8i-a1-m1-cC 4c8i-a1-m1-cC_4c8i-a1-m1-cB MDVRIGQGYDVHQLVEGRPLIIGGVTIPYERGLLGHSDADVLLHAITDALFGAAALGDIGRHFSDTDAAFKGADSRVLLRACAERVKAAGFTIQNVDSTVIAQAPKLAPHIDGMRANIAADLGLPLERVNVKAKTNEKLGYLGRGEGIEAQAAALLVKQGG MDVRIGQGYDVHQLVEGRPLIIGGVTIPYERGLLGHSDADVLLHAITDALFGAAALGDIGRHFSDTDAAFKGADSRVLLRACAERVKAAGFTIQNVDSTVIAQAPKLAPHIDGMRANIAADLGLPLERVNVKAKTNEKLGYLGRGEGIEAQAAALLVKQGG 4c8f-a2-m1-cB_4c8f-a2-m1-cC mouse ZNRF3 ectodomain crystal form IV Q5SSZ7 Q5SSZ7 2.69 X-RAY DIFFRACTION 67 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 139 4c8f-a1-m1-cA_4c8f-a1-m1-cD ETAFVEVVLFESSPSGDYTTHTTGLTGRFSRAGAMLSAEGEIVQMEYGWVGVVKLEQPELDPKPCLTVLGKAKRAVQRGATAVIFDVSENPEAIDQLNQGSEDPLKRPVVYVKGADAIKLMNIVNKQKVARARIQH ETAFVEVVLFESSPSGDYTTHTTGLTGRFSRAGAMLSAEGEIVQMHPYEYGWVGVVKLEQPELDPKPCLTVLGKAKRAVQRGATAVIFDVSENPEAIDQLNQGSEDPLKRPVVYVKGADAIKLMNIVNKQKVARARIQH 4c8y-a1-m1-cB_4c8y-a1-m1-cA Cas6 (TTHA0078) substrate mimic complex Q5SM65 Q5SM65 1.8 X-RAY DIFFRACTION 61 0.996 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 230 238 4c8z-a1-m1-cB_4c8z-a1-m1-cA SMVLAALVLVLEGEGLPEPLGLRGFFYGLLREVENPFALGFGGREGAAWARVSLLVEGLYARLAPRLYALEGEEVRLGPPFRVRAVLQEGHPWAGVSTYPRLFQGPPSRDLALRFASPTFFRRKGVHYPVPEPRLVLESLLRRLEAFGPLKAPEGVREALLERTTVRSLEGRTLPARTEVDTAGFVGRVVYHLPRATEEEALWLSALGRFAFYSGVGAKTSLGYGRARAE MVLAALVLVLEGEGLPEPLGLRGFFYGLLREVAPEVHDQGENPFALGFGGREGAAWARVSLLVEGLYARLAPRLYALEGEEVRLGPPFRVRAVLQEGHPWAGVSTYPRLFQGPPSRDLALRFASPTFFRRKGVHYPVPEPRLVLESLLRRLEAFGPLKAPEGVREALLERTTVRSLEGRTLPARTEVDTAGFVGRVVYHLPRATEEEALWLSALGRFAFYSGVGAKTSLGYGRARAES 4c91-a1-m1-cB_4c91-a1-m1-cA Evidence that GH115 alpha-glucuronidase activity is dependent on conformational flexibility A7M022 A7M022 2.14 X-RAY DIFFRACTION 265 0.998 28116 (Bacteroides ovatus) 28116 (Bacteroides ovatus) 809 811 4c90-a1-m1-cB_4c90-a1-m1-cA EQFVIFTPAGNHFPLVANGVPCPIYIDSSEDKGVMIAAGNLQQDILQVCGKKPELLTSTSSKRCIIAGTYGTPFIKKLMSAGKIDKKELDGKNEKYILQVIANPCEGIDEAVVIIGSDRRGTIYGIYELSEQMGVSPWYWWADVPVMKQANVYIKPGQYSDGEPAVTYRGIFLNDEAPCLTRWVKHTYGTNYGDHRFYARVCELILRLKGNFLWPAMWSWAFYADDPQNSKTASEMGVIIGTSHHEPMARNHQEWSRKRKEYGAWDYTTNQKVIDQFFREGIERMQGTEDIVTIGMRGVKLLENVVKNQRKIIEEVTKRPAKETPQVWALYKEVLDYYDMRVPDDVIMLLCDDNWGNVCRLPNAKERKHPGGWGMYYHVDYVGAPRNSKWLNVTPIQNMWEQLQLTYDYGVEKLWILNVGDLKPMEYPITLFMDMAWNPKQFNVSNLLDHPRRFCAQQFGEDQADEAMRILNLYSKYNGRVTGEMLDRNTYNLETGEWKQVSDEYLKLEAEALRQYISLKPEYKDAYKQLILFPVQAMANLYEMYYAQAMNHKLYKENNPQANEWADKVEQAFARDKALSDDYNNIMSGGKWKNMMIQKHIGYTSWNDNFPADTLPKIYRIENPEKAVGGYVFTGQDGYIAIEAEHYYSAKAAPDTEWTVIPYMGRTLSGMALMPYTQPTDGASISYKIKLPKGIDKVTVHVIVKSTLAFHDRKGHEYSIGFEGGKDQTINFNHNLNELPENVYSIYYPTVARRIVEKKAKLNVPNTSDGMQTITFKPLDPGIVLEKLVVDYGGYKKSYLFMNESKSKR EQFVIFTPAGNHFPLVANGVPCPIYIDSSEDKGVMIAAGNLQQDILQVCGKKPELLTSTSSKRCIIAGTYGTPFIKKLMSAGKIDKKELDGKNEKYILQVIANPCEGIDEAVVIIGSDRRGTIYGIYELSEQMGVSPWYWWADVPVMKQANVYIKPGQYSDGEPAVTYRGIFLNDEAPCLTRWVKHTYGTNYGDHRFYARVCELILRLKGNFLWPAMWSWAFYADDPQNSKTASEMGVIIGTSHHEPMARNHQEWSRKRKEYGAWDYTTNQKVIDQFFREGIERMQGTEDIVTIGMNVKLLENVVKNQRKIIEEVTKRPAKETPQVWALYKEVLDYYDKGMRVPDDVIMLLCDDNWGNVCRLPNAKERKHPGGWGMYYHVDYVGAPRNSKWLNVTPIQNMWEQLQLTYDYGVEKLWILNVGDLKPMEYPITLFMDMAWNPKQFNVSNLLDHPRRFCAQQFGEDQADEAMRILNLYSKYNGRVTGEMLDRNTYNLETGEWKQVSDEYLKLEAEALRQYISLKPEYKDAYKQLILFPVQAMANLYEMYYAQAMNHKLYKENNPQANEWADKVEQAFARDKALSDDYNNIMSGGKWKNMMIQKHIGYTSWNDNFPADTLPKIYRIENPEKAVGGYVFTGQDGYIAIEAEHYYSAKAAPDTEWTVIPYMGRTLSGMALMPYTQPTDGASISYKIKLPKGIDKVTVHVIVKSTLAFHDRKGHEYSIGFEGGKDQTINFNHNLNELPENVYSIYYPTVARRIVEKKAKLNVPNTSDGMQTITFKPLDPGIVLEKLVVDYGGYKKSYLFMNESKSKRE 4c98-a1-m1-cA_4c98-a1-m2-cA Thermus thermophilus Cas6 (TTHB231) Q53VU8 Q53VU8 2.001 X-RAY DIFFRACTION 40 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 242 242 4c9d-a1-m1-cB_4c9d-a1-m1-cA GAASMPQAVVLELVGEKPPLYPARYAHGLFFALLSRVSPELAQKLHEAPRKPFTLAPLPGTLRLRLTTLDDGLFAPFLRALSSYRLARVLATREGHPLAGATSWEELKEAPKREKATFRFLTPTVFATSKTRYTPLPDPRLIAGSLLDKWQAHSPFPYNPKEEAALRELFELDLEVAGFRNLRFHRVQAGKGFFPGFTGEATLRLWSQSLEAQEALGRLHALAFFSGVGAKTPYGMGLAVPL GAASMPQAVVLELVGEKPPLYPARYAHGLFFALLSRVSPELAQKLHEAPRKPFTLAPLPGTLRLRLTTLDDGLFAPFLRALSSYRLARVLATREGHPLAGATSWEELKEAPKREKATFRFLTPTVFATSKTRYTPLPDPRLIAGSLLDKWQAHSPFPYNPKEEAALRELFELDLEVAGFRNLRFHRVQAGKGFFPGFTGEATLRLWSQSLEAQEALGRLHALAFFSGVGAKTPYGMGLAVPL 4c99-a1-m1-cA_4c99-a1-m1-cC Mouse ZNRF3 ectodomain in complex with mouse RSPO2 Fu1-Fu2 crystal form I Q5SSZ7 Q5SSZ7 2.8 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 153 153 4c86-a1-m1-cA_4c86-a1-m1-cB 4c8a-a1-m1-cC_4c8a-a1-m2-cC 4c8a-a2-m1-cA_4c8a-a2-m1-cB 4c8c-a1-m1-cB_4c8c-a1-m1-cA 4c8p-a1-m1-cA_4c8p-a1-m2-cA 4c8t-a1-m1-cB_4c8t-a1-m1-cA 4c8u-a1-m1-cB_4c8u-a1-m1-cA 4c9a-a1-m1-cC_4c9a-a1-m1-cA 4c9e-a1-m1-cC_4c9e-a1-m1-cA 4c9e-a2-m1-cG_4c9e-a2-m1-cE 4c9r-a1-m1-cA_4c9r-a1-m1-cC 4c9u-a1-m1-cA_4c9u-a1-m2-cA 4c9u-a2-m1-cC_4c9u-a2-m3-cC KETAFVEVVLFESSPSGDYTTHTTGLTGRFSRAGAMLSAEGEIVQMHPLGLCNNNDEEDLYEYGWVGVVKLEQPELDPKPCLTVLGKAKRAVQRGATAVIFDVSENPEAIDQLNQGSEDPLKRPVVYVKGADAIKLMNIVNKQKVARARIQHL KETAFVEVVLFESSPSGDYTTHTTGLTGRFSRAGAMLSAEGEIVQMHPLGLCNNNDEEDLYEYGWVGVVKLEQPELDPKPCLTVLGKAKRAVQRGATAVIFDVSENPEAIDQLNQGSEDPLKRPVVYVKGADAIKLMNIVNKQKVARARIQHL 4c9s-a1-m1-cA_4c9s-a1-m1-cD BACTERIAL CHALCONE ISOMERASE IN open CONFORMATION FROM EUBACTERIUM RAMULUS AT 1.8 A RESOLUTION V9P0A9 V9P0A9 1.8 X-RAY DIFFRACTION 48 1.0 39490 (Eubacterium ramulus) 39490 (Eubacterium ramulus) 259 260 3zph-a1-m1-cC_3zph-a1-m1-cB 3zph-a1-m1-cD_3zph-a1-m1-cE 3zph-a1-m1-cF_3zph-a1-m1-cA 4c9s-a1-m1-cE_4c9s-a1-m1-cB 4c9s-a1-m1-cF_4c9s-a1-m1-cC 4d06-a1-m1-cB_4d06-a1-m1-cE 4d06-a1-m1-cD_4d06-a1-m1-cA 4d06-a1-m1-cF_4d06-a1-m1-cC 4d4f-a1-m1-cB_4d4f-a1-m1-cE 4d4f-a1-m1-cC_4d4f-a1-m1-cF 4d4f-a1-m1-cD_4d4f-a1-m1-cA 8b7r-a1-m1-cA_8b7r-a1-m1-cD 8b7r-a1-m1-cB_8b7r-a1-m1-cE 8b7r-a1-m1-cF_8b7r-a1-m1-cC 8b7u-a1-m1-cA_8b7u-a1-m1-cK 8b7u-a1-m1-cB_8b7u-a1-m1-cM 8b7u-a1-m1-cL_8b7u-a1-m1-cN 8b7u-a2-m1-cC_8b7u-a2-m1-cH 8b7u-a2-m1-cD_8b7u-a2-m1-cE 8b7u-a2-m1-cG_8b7u-a2-m1-cF 8b7u-a3-m1-cO_8b7u-a3-m1-cR 8b7u-a3-m1-cP_8b7u-a3-m1-cI 8b7u-a3-m1-cQ_8b7u-a3-m1-cJ 8b7z-a1-m1-cA_8b7z-a1-m1-cK 8b7z-a1-m1-cB_8b7z-a1-m1-cM 8b7z-a1-m1-cL_8b7z-a1-m1-cN 8b7z-a2-m1-cC_8b7z-a2-m1-cH 8b7z-a2-m1-cD_8b7z-a2-m1-cE 8b7z-a2-m1-cG_8b7z-a2-m1-cF 8b7z-a3-m1-cO_8b7z-a3-m1-cR 8b7z-a3-m1-cP_8b7z-a3-m1-cI 8b7z-a3-m1-cQ_8b7z-a3-m1-cJ ADFKFEPMRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARMQLTEHHWLVSDLDPRLEIKAIAETFPMDVLVWQGQIPAAEGNPFIFAFLPMWWEKDLKGKGRTIEDGANYRFNMTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVMDWVLEIWFENQSGWYKVMVDDMKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITMR ADFKFEPMRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARMQLTEHHWLVSDLDPRLEIKAIAETFPMDVLVWQGQIPAAAEGNPFIFAFLPMWWEKDLKGKGRTIEDGANYRFNMTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVMDWVLEIWFENQSGWYKVMVDDMKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITMR 4c9s-a1-m1-cE_4c9s-a1-m1-cF BACTERIAL CHALCONE ISOMERASE IN open CONFORMATION FROM EUBACTERIUM RAMULUS AT 1.8 A RESOLUTION V9P0A9 V9P0A9 1.8 X-RAY DIFFRACTION 123 1.0 39490 (Eubacterium ramulus) 39490 (Eubacterium ramulus) 259 259 3zph-a1-m1-cC_3zph-a1-m1-cF 3zph-a1-m1-cD_3zph-a1-m1-cB 3zph-a1-m1-cE_3zph-a1-m1-cA 4c9s-a1-m1-cA_4c9s-a1-m1-cB 4c9s-a1-m1-cD_4c9s-a1-m1-cC 4d06-a1-m1-cB_4d06-a1-m1-cA 4d06-a1-m1-cD_4d06-a1-m1-cC 4d06-a1-m1-cF_4d06-a1-m1-cE 4d4f-a1-m1-cB_4d4f-a1-m1-cA 4d4f-a1-m1-cD_4d4f-a1-m1-cC 4d4f-a1-m1-cE_4d4f-a1-m1-cF 8b7r-a1-m1-cA_8b7r-a1-m1-cB 8b7r-a1-m1-cC_8b7r-a1-m1-cD 8b7r-a1-m1-cF_8b7r-a1-m1-cE 8b7u-a1-m1-cA_8b7u-a1-m1-cB 8b7u-a1-m1-cK_8b7u-a1-m1-cL 8b7u-a1-m1-cN_8b7u-a1-m1-cM 8b7u-a2-m1-cC_8b7u-a2-m1-cD 8b7u-a2-m1-cE_8b7u-a2-m1-cF 8b7u-a2-m1-cG_8b7u-a2-m1-cH 8b7u-a3-m1-cI_8b7u-a3-m1-cJ 8b7u-a3-m1-cO_8b7u-a3-m1-cP 8b7u-a3-m1-cQ_8b7u-a3-m1-cR 8b7z-a1-m1-cA_8b7z-a1-m1-cB 8b7z-a1-m1-cK_8b7z-a1-m1-cL 8b7z-a1-m1-cN_8b7z-a1-m1-cM 8b7z-a2-m1-cC_8b7z-a2-m1-cD 8b7z-a2-m1-cE_8b7z-a2-m1-cF 8b7z-a2-m1-cG_8b7z-a2-m1-cH 8b7z-a3-m1-cI_8b7z-a3-m1-cJ 8b7z-a3-m1-cO_8b7z-a3-m1-cP 8b7z-a3-m1-cQ_8b7z-a3-m1-cR ADFKFEPMRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARMQLTEHHWLVSDLDPRLEIKAIAETFPMDVLVWQGQIPAAEGNPFIFAFLPMWWEKDLKGKGRTIEDGANYRFNMTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVMDWVLEIWFENQSGWYKVMVDDMKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITMR ADFKFEPMRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARMQLTEHHWLVSDLDPRLEIKAIAETFPMDVLVWQGQIPAAEGNPFIFAFLPMWWEKDLKGKGRTIEDGANYRFNMTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVMDWVLEIWFENQSGWYKVMVDDMKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITMR 4c9s-a1-m1-cF_4c9s-a1-m1-cD BACTERIAL CHALCONE ISOMERASE IN open CONFORMATION FROM EUBACTERIUM RAMULUS AT 1.8 A RESOLUTION V9P0A9 V9P0A9 1.8 X-RAY DIFFRACTION 60 1.0 39490 (Eubacterium ramulus) 39490 (Eubacterium ramulus) 259 260 3zph-a1-m1-cC_3zph-a1-m1-cA 3zph-a1-m1-cC_3zph-a1-m1-cD 3zph-a1-m1-cD_3zph-a1-m1-cA 3zph-a1-m1-cE_3zph-a1-m1-cB 3zph-a1-m1-cE_3zph-a1-m1-cF 3zph-a1-m1-cF_3zph-a1-m1-cB 4c9s-a1-m1-cA_4c9s-a1-m1-cC 4c9s-a1-m1-cA_4c9s-a1-m1-cE 4c9s-a1-m1-cD_4c9s-a1-m1-cB 4c9s-a1-m1-cE_4c9s-a1-m1-cC 4c9s-a1-m1-cF_4c9s-a1-m1-cB 4d06-a1-m1-cA_4d06-a1-m1-cC 4d06-a1-m1-cA_4d06-a1-m1-cE 4d06-a1-m1-cB_4d06-a1-m1-cD 4d06-a1-m1-cB_4d06-a1-m1-cF 4d06-a1-m1-cC_4d06-a1-m1-cE 4d06-a1-m1-cD_4d06-a1-m1-cF 4d4f-a1-m1-cB_4d4f-a1-m1-cF 4d4f-a1-m1-cC_4d4f-a1-m1-cA 4d4f-a1-m1-cD_4d4f-a1-m1-cB 4d4f-a1-m1-cD_4d4f-a1-m1-cF 4d4f-a1-m1-cE_4d4f-a1-m1-cA 4d4f-a1-m1-cE_4d4f-a1-m1-cC 8b7r-a1-m1-cA_8b7r-a1-m1-cC 8b7r-a1-m1-cA_8b7r-a1-m1-cE 8b7r-a1-m1-cB_8b7r-a1-m1-cD 8b7r-a1-m1-cB_8b7r-a1-m1-cF 8b7r-a1-m1-cC_8b7r-a1-m1-cE 8b7r-a1-m1-cF_8b7r-a1-m1-cD 8b7u-a1-m1-cA_8b7u-a1-m1-cL 8b7u-a1-m1-cA_8b7u-a1-m1-cM 8b7u-a1-m1-cB_8b7u-a1-m1-cK 8b7u-a1-m1-cB_8b7u-a1-m1-cN 8b7u-a1-m1-cK_8b7u-a1-m1-cN 8b7u-a1-m1-cL_8b7u-a1-m1-cM 8b7u-a2-m1-cC_8b7u-a2-m1-cE 8b7u-a2-m1-cD_8b7u-a2-m1-cF 8b7u-a2-m1-cD_8b7u-a2-m1-cH 8b7u-a2-m1-cG_8b7u-a2-m1-cC 8b7u-a2-m1-cG_8b7u-a2-m1-cE 8b7u-a2-m1-cH_8b7u-a2-m1-cF 8b7u-a3-m1-cJ_8b7u-a3-m1-cR 8b7u-a3-m1-cO_8b7u-a3-m1-cI 8b7u-a3-m1-cO_8b7u-a3-m1-cQ 8b7u-a3-m1-cP_8b7u-a3-m1-cJ 8b7u-a3-m1-cP_8b7u-a3-m1-cR 8b7u-a3-m1-cQ_8b7u-a3-m1-cI 8b7z-a1-m1-cA_8b7z-a1-m1-cL 8b7z-a1-m1-cA_8b7z-a1-m1-cM 8b7z-a1-m1-cB_8b7z-a1-m1-cK 8b7z-a1-m1-cB_8b7z-a1-m1-cN 8b7z-a1-m1-cK_8b7z-a1-m1-cN 8b7z-a1-m1-cL_8b7z-a1-m1-cM 8b7z-a2-m1-cC_8b7z-a2-m1-cE 8b7z-a2-m1-cD_8b7z-a2-m1-cF 8b7z-a2-m1-cD_8b7z-a2-m1-cH 8b7z-a2-m1-cF_8b7z-a2-m1-cH 8b7z-a2-m1-cG_8b7z-a2-m1-cC 8b7z-a2-m1-cG_8b7z-a2-m1-cE 8b7z-a3-m1-cO_8b7z-a3-m1-cI 8b7z-a3-m1-cO_8b7z-a3-m1-cQ 8b7z-a3-m1-cP_8b7z-a3-m1-cJ 8b7z-a3-m1-cP_8b7z-a3-m1-cR 8b7z-a3-m1-cQ_8b7z-a3-m1-cI 8b7z-a3-m1-cR_8b7z-a3-m1-cJ ADFKFEPMRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARMQLTEHHWLVSDLDPRLEIKAIAETFPMDVLVWQGQIPAAEGNPFIFAFLPMWWEKDLKGKGRTIEDGANYRFNMTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVMDWVLEIWFENQSGWYKVMVDDMKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITMR ADFKFEPMRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARMQLTEHHWLVSDLDPRLEIKAIAETFPMDVLVWQGQIPAAAEGNPFIFAFLPMWWEKDLKGKGRTIEDGANYRFNMTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVMDWVLEIWFENQSGWYKVMVDDMKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITMR 4c9t-a1-m1-cD_4c9t-a1-m1-cF BACTERIAL CHALCONE ISOMERASE IN open CONFORMATION FROM EUBACTERIUM RAMULUS AT 2.0 A RESOLUTION, SelenoMet derivative V9P0A9 V9P0A9 1.98 X-RAY DIFFRACTION 54 1.0 39490 (Eubacterium ramulus) 39490 (Eubacterium ramulus) 251 251 4c9t-a1-m1-cA_4c9t-a1-m1-cC 4c9t-a1-m1-cA_4c9t-a1-m1-cE 4c9t-a1-m1-cB_4c9t-a1-m1-cD 4c9t-a1-m1-cB_4c9t-a1-m1-cF 4c9t-a1-m1-cE_4c9t-a1-m1-cC ADFKFEPRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARQLTEHHWLVSDLDPRLEIKAIAETFPDVLVWQGQIPAAAEGNPFIFAFLPWWEKDLKGKGRTIEDGANYRFNTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVDWVLEIWFENQSGWYKVVDDKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITR ADFKFEPRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARQLTEHHWLVSDLDPRLEIKAIAETFPDVLVWQGQIPAAAEGNPFIFAFLPWWEKDLKGKGRTIEDGANYRFNTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVDWVLEIWFENQSGWYKVVDDKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITR 4c9t-a1-m1-cE_4c9t-a1-m1-cF BACTERIAL CHALCONE ISOMERASE IN open CONFORMATION FROM EUBACTERIUM RAMULUS AT 2.0 A RESOLUTION, SelenoMet derivative V9P0A9 V9P0A9 1.98 X-RAY DIFFRACTION 104 1.0 39490 (Eubacterium ramulus) 39490 (Eubacterium ramulus) 251 251 4c9t-a1-m1-cA_4c9t-a1-m1-cB 4c9t-a1-m1-cD_4c9t-a1-m1-cC ADFKFEPRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARQLTEHHWLVSDLDPRLEIKAIAETFPDVLVWQGQIPAAAEGNPFIFAFLPWWEKDLKGKGRTIEDGANYRFNTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVDWVLEIWFENQSGWYKVVDDKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITR ADFKFEPRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARQLTEHHWLVSDLDPRLEIKAIAETFPDVLVWQGQIPAAAEGNPFIFAFLPWWEKDLKGKGRTIEDGANYRFNTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVDWVLEIWFENQSGWYKVVDDKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITR 4c9t-a1-m1-cF_4c9t-a1-m1-cC BACTERIAL CHALCONE ISOMERASE IN open CONFORMATION FROM EUBACTERIUM RAMULUS AT 2.0 A RESOLUTION, SelenoMet derivative V9P0A9 V9P0A9 1.98 X-RAY DIFFRACTION 43 1.0 39490 (Eubacterium ramulus) 39490 (Eubacterium ramulus) 251 252 4c9t-a1-m1-cA_4c9t-a1-m1-cD 4c9t-a1-m1-cB_4c9t-a1-m1-cE ADFKFEPRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARQLTEHHWLVSDLDPRLEIKAIAETFPDVLVWQGQIPAAAEGNPFIFAFLPWWEKDLKGKGRTIEDGANYRFNTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVDWVLEIWFENQSGWYKVVDDKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITR ADFKFEPRSLIYVDCVSEDYRPKLQRWIYKVHIPDSISQFEPYVTKYAFYPSFPIPPQGDRFGYARQLTEHHWLVSDLDPRLEIKAIAETFPDVLVWQGQIPAAAHEGNPFIFAFLPWWEKDLKGKGRTIEDGANYRFNTIGFPEGVDKAEGEKWLFEKVVPILQAAPECTRVLASAVKKDINGCVDWVLEIWFENQSGWYKVVDDKALEKPSWAQQDAFPFLKPYHNVCSAAVADYTPSNNLANYRGYITR 4ca9-a1-m1-cD_4ca9-a1-m1-cE Structure of the Nucleoplasmin-like N-terminal domain of Drosophila FKBP39 P54397 P54397 NOT SOLUTION NMR 76 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 98 98 4ca9-a1-m1-cA_4ca9-a1-m1-cB 4ca9-a1-m1-cA_4ca9-a1-m1-cE 4ca9-a1-m1-cB_4ca9-a1-m1-cC 4ca9-a1-m1-cC_4ca9-a1-m1-cD FQGAMAMFWGLNMKPERKYSQTIIKSFHISGVALDKGQEAKLYLAAEKQEYIVATVTKAIPQVALDLNFSKGDRIMFYTAGDASVSLLGYLHDIDSGS FQGAMAMFWGLNMKPERKYSQTIIKSFHISGVALDKGQEAKLYLAAEKQEYIVATVTKAIPQVALDLNFSKGDRIMFYTAGDASVSLLGYLHDIDSGS 4cab-a2-m1-cC_4cab-a2-m2-cD The refined structure of catalase DR1998 from Deinococcus radiodurans at 2.6 A resolution Q59337 Q59337 2.599 X-RAY DIFFRACTION 294 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 507 507 4cab-a1-m1-cA_4cab-a1-m2-cA 4cab-a1-m1-cB_4cab-a1-m2-cB 4cab-a2-m1-cD_4cab-a2-m2-cC GTTLTTRQGHPVHDNQNSRTVGSRGPMTLENYQFIEKLSHFDRERIPERVVHARGVGAHGVFRATGKVGDEPVSKYTRAKLFQEDGKETPVFVRFSTVGHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIFFIRDALKFPDLIHSQKPSPTTNIQSQERIFDFFAGSPEATHMITLLYSPWGIPASYRFMQGSGVNTYKWVNDQGEGVLVKYHWEPVQGVRNLTQMQADEVQATNFNHATQDLHDAIERGDFPQWDLFVQIMEDGEHPELDFDPLDDTKIWPREQFPWRHVGQMTLNRNPENVFAETEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGPNYLQLPINAPKKHVATNQRDGQMAYRVDTFEGQDQRVNYEPSLLSGPKEAPRRAPEHTPRVEGNLVRAAIERPNPFGQAGMQYRNFADWERDELVSNLSGALAGVDKRIQDKMLEYFTAADADYGQRVREGIQAKEAEMKGQKQEAPVYGTEASSLY GTTLTTRQGHPVHDNQNSRTVGSRGPMTLENYQFIEKLSHFDRERIPERVVHARGVGAHGVFRATGKVGDEPVSKYTRAKLFQEDGKETPVFVRFSTVGHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIFFIRDALKFPDLIHSQKPSPTTNIQSQERIFDFFAGSPEATHMITLLYSPWGIPASYRFMQGSGVNTYKWVNDQGEGVLVKYHWEPVQGVRNLTQMQADEVQATNFNHATQDLHDAIERGDFPQWDLFVQIMEDGEHPELDFDPLDDTKIWPREQFPWRHVGQMTLNRNPENVFAETEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGPNYLQLPINAPKKHVATNQRDGQMAYRVDTFEGQDQRVNYEPSLLSGPKEAPRRAPEHTPRVEGNLVRAAIERPNPFGQAGMQYRNFADWERDELVSNLSGALAGVDKRIQDKMLEYFTAADADYGQRVREGIQAKEAEMKGQKQEAPVYGTEASSLY 4cab-a2-m1-cD_4cab-a2-m2-cD The refined structure of catalase DR1998 from Deinococcus radiodurans at 2.6 A resolution Q59337 Q59337 2.599 X-RAY DIFFRACTION 391 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 507 507 4cab-a1-m1-cA_4cab-a1-m1-cB 4cab-a1-m2-cA_4cab-a1-m2-cB 4cab-a2-m1-cC_4cab-a2-m2-cC GTTLTTRQGHPVHDNQNSRTVGSRGPMTLENYQFIEKLSHFDRERIPERVVHARGVGAHGVFRATGKVGDEPVSKYTRAKLFQEDGKETPVFVRFSTVGHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIFFIRDALKFPDLIHSQKPSPTTNIQSQERIFDFFAGSPEATHMITLLYSPWGIPASYRFMQGSGVNTYKWVNDQGEGVLVKYHWEPVQGVRNLTQMQADEVQATNFNHATQDLHDAIERGDFPQWDLFVQIMEDGEHPELDFDPLDDTKIWPREQFPWRHVGQMTLNRNPENVFAETEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGPNYLQLPINAPKKHVATNQRDGQMAYRVDTFEGQDQRVNYEPSLLSGPKEAPRRAPEHTPRVEGNLVRAAIERPNPFGQAGMQYRNFADWERDELVSNLSGALAGVDKRIQDKMLEYFTAADADYGQRVREGIQAKEAEMKGQKQEAPVYGTEASSLY GTTLTTRQGHPVHDNQNSRTVGSRGPMTLENYQFIEKLSHFDRERIPERVVHARGVGAHGVFRATGKVGDEPVSKYTRAKLFQEDGKETPVFVRFSTVGHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIFFIRDALKFPDLIHSQKPSPTTNIQSQERIFDFFAGSPEATHMITLLYSPWGIPASYRFMQGSGVNTYKWVNDQGEGVLVKYHWEPVQGVRNLTQMQADEVQATNFNHATQDLHDAIERGDFPQWDLFVQIMEDGEHPELDFDPLDDTKIWPREQFPWRHVGQMTLNRNPENVFAETEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGPNYLQLPINAPKKHVATNQRDGQMAYRVDTFEGQDQRVNYEPSLLSGPKEAPRRAPEHTPRVEGNLVRAAIERPNPFGQAGMQYRNFADWERDELVSNLSGALAGVDKRIQDKMLEYFTAADADYGQRVREGIQAKEAEMKGQKQEAPVYGTEASSLY 4cab-a2-m2-cC_4cab-a2-m2-cD The refined structure of catalase DR1998 from Deinococcus radiodurans at 2.6 A resolution Q59337 Q59337 2.599 X-RAY DIFFRACTION 149 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 507 507 4cab-a1-m1-cA_4cab-a1-m2-cB 4cab-a1-m1-cB_4cab-a1-m2-cA 4cab-a2-m1-cC_4cab-a2-m1-cD GTTLTTRQGHPVHDNQNSRTVGSRGPMTLENYQFIEKLSHFDRERIPERVVHARGVGAHGVFRATGKVGDEPVSKYTRAKLFQEDGKETPVFVRFSTVGHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIFFIRDALKFPDLIHSQKPSPTTNIQSQERIFDFFAGSPEATHMITLLYSPWGIPASYRFMQGSGVNTYKWVNDQGEGVLVKYHWEPVQGVRNLTQMQADEVQATNFNHATQDLHDAIERGDFPQWDLFVQIMEDGEHPELDFDPLDDTKIWPREQFPWRHVGQMTLNRNPENVFAETEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGPNYLQLPINAPKKHVATNQRDGQMAYRVDTFEGQDQRVNYEPSLLSGPKEAPRRAPEHTPRVEGNLVRAAIERPNPFGQAGMQYRNFADWERDELVSNLSGALAGVDKRIQDKMLEYFTAADADYGQRVREGIQAKEAEMKGQKQEAPVYGTEASSLY GTTLTTRQGHPVHDNQNSRTVGSRGPMTLENYQFIEKLSHFDRERIPERVVHARGVGAHGVFRATGKVGDEPVSKYTRAKLFQEDGKETPVFVRFSTVGHGTHSPETLRDPRGFAVKFYTEDGNWDLVGNNLKIFFIRDALKFPDLIHSQKPSPTTNIQSQERIFDFFAGSPEATHMITLLYSPWGIPASYRFMQGSGVNTYKWVNDQGEGVLVKYHWEPVQGVRNLTQMQADEVQATNFNHATQDLHDAIERGDFPQWDLFVQIMEDGEHPELDFDPLDDTKIWPREQFPWRHVGQMTLNRNPENVFAETEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGPNYLQLPINAPKKHVATNQRDGQMAYRVDTFEGQDQRVNYEPSLLSGPKEAPRRAPEHTPRVEGNLVRAAIERPNPFGQAGMQYRNFADWERDELVSNLSGALAGVDKRIQDKMLEYFTAADADYGQRVREGIQAKEAEMKGQKQEAPVYGTEASSLY 4cai-a4-m1-cA_4cai-a4-m1-cB Structure of inner DysF domain of human dysferlin O75923 O75923 2.2 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 4cai-a4-m1-cA_4cai-a4-m1-cC 4cai-a4-m1-cB_4cai-a4-m1-cC DAGHLSFVEEVFENQTRLPGGQWIYMSDNYTDVNGEKVLPKDDIECPLGWKWEDEEWSTDLNRAVDEQGWEYSITIPPERKPKHWVPAEKMYYTHRRRRWVRLRRRDLS DAGHLSFVEEVFENQTRLPGGQWIYMSDNYTDVNGEKVLPKDDIECPLGWKWEDEEWSTDLNRAVDEQGWEYSITIPPERKPKHWVPAEKMYYTHRRRRWVRLRRRDLS 4caj-a2-m1-cC_4caj-a2-m1-cD Crystallographic structure of the mouse SIGN-R1 CRD domain in complex with sialic acid Q8CJ91 Q8CJ91 2.191 X-RAY DIFFRACTION 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 132 132 4c9f-a1-m1-cA_4c9f-a1-m1-cB 4c9f-a2-m1-cC_4c9f-a2-m1-cD 4caj-a1-m1-cA_4caj-a1-m1-cB LCRLCPWDWTFLLGNCYFFSKSQRNWNDAVTACKEVKAQLVIINSDEEQTFLQQTSKAKGPTWMGLSDLKKEATWLWVDGSTLSSRFQKYWNRGEPNNIGEEDCVEFAGDGWNDSKCELKKFWICKKSATPC LCRLCPWDWTFLLGNCYFFSKSQRNWNDAVTACKEVKAQLVIINSDEEQTFLQQTSKAKGPTWMGLSDLKKEATWLWVDGSTLSSRFQKYWNRGEPNNIGEEDCVEFAGDGWNDSKCELKKFWICKKSATPC 4cau-a1-m24-cA_4cau-a1-m9-cB THREE-DIMENSIONAL STRUCTURE OF DENGUE VIRUS SEROTYPE 1 COMPLEXED WITH 2 HMAB 14C10 FAB Q689G3 Q689G3 7.0 ELECTRON MICROSCOPY 55 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 376 376 3j05-a1-m10-cA_3j05-a1-m23-cB 3j05-a1-m11-cA_3j05-a1-m20-cB 3j05-a1-m11-cB_3j05-a1-m38-cA 3j05-a1-m12-cA_3j05-a1-m37-cB 3j05-a1-m12-cB_3j05-a1-m47-cA 3j05-a1-m13-cA_3j05-a1-m46-cB 3j05-a1-m13-cB_3j05-a1-m45-cA 3j05-a1-m14-cA_3j05-a1-m44-cB 3j05-a1-m14-cB_3j05-a1-m29-cA 3j05-a1-m15-cA_3j05-a1-m28-cB 3j05-a1-m15-cB_3j05-a1-m16-cA 3j05-a1-m16-cB_3j05-a1-m28-cA 3j05-a1-m17-cA_3j05-a1-m27-cB 3j05-a1-m17-cB_3j05-a1-m52-cA 3j05-a1-m18-cA_3j05-a1-m51-cB 3j05-a1-m18-cB_3j05-a1-m60-cA 3j05-a1-m19-cA_3j05-a1-m59-cB 3j05-a1-m19-cB_3j05-a1-m39-cA 3j05-a1-m1-cA_3j05-a1-m10-cB 3j05-a1-m1-cB_3j05-a1-m23-cA 3j05-a1-m20-cA_3j05-a1-m38-cB 3j05-a1-m21-cA_3j05-a1-m30-cB 3j05-a1-m21-cB_3j05-a1-m43-cA 3j05-a1-m22-cA_3j05-a1-m42-cB 3j05-a1-m24-cA_3j05-a1-m9-cB 3j05-a1-m24-cB_3j05-a1-m54-cA 3j05-a1-m25-cA_3j05-a1-m53-cB 3j05-a1-m25-cB_3j05-a1-m26-cA 3j05-a1-m26-cB_3j05-a1-m53-cA 3j05-a1-m27-cA_3j05-a1-m52-cB 3j05-a1-m29-cB_3j05-a1-m44-cA 3j05-a1-m2-cA_3j05-a1-m22-cB 3j05-a1-m2-cB_3j05-a1-m42-cA 3j05-a1-m30-cA_3j05-a1-m43-cB 3j05-a1-m31-cA_3j05-a1-m40-cB 3j05-a1-m31-cB_3j05-a1-m58-cA 3j05-a1-m32-cA_3j05-a1-m57-cB 3j05-a1-m32-cB_3j05-a1-m7-cA 3j05-a1-m33-cA_3j05-a1-m6-cB 3j05-a1-m33-cB_3j05-a1-m5-cA 3j05-a1-m34-cA_3j05-a1-m4-cB 3j05-a1-m34-cB_3j05-a1-m49-cA 3j05-a1-m35-cA_3j05-a1-m48-cB 3j05-a1-m35-cB_3j05-a1-m36-cA 3j05-a1-m36-cB_3j05-a1-m48-cA 3j05-a1-m37-cA_3j05-a1-m47-cB 3j05-a1-m39-cB_3j05-a1-m59-cA 3j05-a1-m3-cA_3j05-a1-m41-cB 3j05-a1-m3-cB_3j05-a1-m50-cA 3j05-a1-m40-cA_3j05-a1-m58-cB 3j05-a1-m41-cA_3j05-a1-m50-cB 3j05-a1-m45-cB_3j05-a1-m46-cA 3j05-a1-m4-cA_3j05-a1-m49-cB 3j05-a1-m51-cA_3j05-a1-m60-cB 3j05-a1-m54-cB_3j05-a1-m9-cA 3j05-a1-m55-cA_3j05-a1-m8-cB 3j05-a1-m55-cB_3j05-a1-m56-cA 3j05-a1-m56-cB_3j05-a1-m8-cA 3j05-a1-m57-cA_3j05-a1-m7-cB 3j05-a1-m5-cB_3j05-a1-m6-cA 4c2i-a1-m10-cA_4c2i-a1-m23-cE 4c2i-a1-m11-cA_4c2i-a1-m20-cE 4c2i-a1-m11-cE_4c2i-a1-m38-cA 4c2i-a1-m12-cA_4c2i-a1-m37-cE 4c2i-a1-m12-cE_4c2i-a1-m47-cA 4c2i-a1-m13-cA_4c2i-a1-m46-cE 4c2i-a1-m13-cE_4c2i-a1-m45-cA 4c2i-a1-m14-cA_4c2i-a1-m44-cE 4c2i-a1-m14-cE_4c2i-a1-m29-cA 4c2i-a1-m15-cA_4c2i-a1-m28-cE 4c2i-a1-m15-cE_4c2i-a1-m16-cA 4c2i-a1-m16-cE_4c2i-a1-m28-cA 4c2i-a1-m17-cA_4c2i-a1-m27-cE 4c2i-a1-m17-cE_4c2i-a1-m52-cA 4c2i-a1-m18-cA_4c2i-a1-m51-cE 4c2i-a1-m18-cE_4c2i-a1-m60-cA 4c2i-a1-m19-cA_4c2i-a1-m59-cE 4c2i-a1-m19-cE_4c2i-a1-m39-cA 4c2i-a1-m1-cA_4c2i-a1-m10-cE 4c2i-a1-m1-cE_4c2i-a1-m23-cA 4c2i-a1-m20-cA_4c2i-a1-m38-cE 4c2i-a1-m21-cA_4c2i-a1-m30-cE 4c2i-a1-m21-cE_4c2i-a1-m43-cA 4c2i-a1-m22-cA_4c2i-a1-m42-cE 4c2i-a1-m24-cA_4c2i-a1-m9-cE 4c2i-a1-m24-cE_4c2i-a1-m54-cA 4c2i-a1-m25-cA_4c2i-a1-m53-cE 4c2i-a1-m25-cE_4c2i-a1-m26-cA 4c2i-a1-m26-cE_4c2i-a1-m53-cA 4c2i-a1-m27-cA_4c2i-a1-m52-cE 4c2i-a1-m29-cE_4c2i-a1-m44-cA 4c2i-a1-m2-cA_4c2i-a1-m22-cE 4c2i-a1-m2-cE_4c2i-a1-m42-cA 4c2i-a1-m30-cA_4c2i-a1-m43-cE 4c2i-a1-m31-cA_4c2i-a1-m40-cE 4c2i-a1-m31-cE_4c2i-a1-m58-cA 4c2i-a1-m32-cA_4c2i-a1-m57-cE 4c2i-a1-m32-cE_4c2i-a1-m7-cA 4c2i-a1-m33-cA_4c2i-a1-m6-cE 4c2i-a1-m33-cE_4c2i-a1-m5-cA 4c2i-a1-m34-cA_4c2i-a1-m4-cE 4c2i-a1-m34-cE_4c2i-a1-m49-cA 4c2i-a1-m35-cA_4c2i-a1-m48-cE 4c2i-a1-m35-cE_4c2i-a1-m36-cA 4c2i-a1-m36-cE_4c2i-a1-m48-cA 4c2i-a1-m37-cA_4c2i-a1-m47-cE 4c2i-a1-m39-cE_4c2i-a1-m59-cA 4c2i-a1-m3-cA_4c2i-a1-m41-cE 4c2i-a1-m3-cE_4c2i-a1-m50-cA 4c2i-a1-m40-cA_4c2i-a1-m58-cE 4c2i-a1-m41-cA_4c2i-a1-m50-cE 4c2i-a1-m45-cE_4c2i-a1-m46-cA 4c2i-a1-m4-cA_4c2i-a1-m49-cE 4c2i-a1-m51-cA_4c2i-a1-m60-cE 4c2i-a1-m54-cE_4c2i-a1-m9-cA 4c2i-a1-m55-cA_4c2i-a1-m8-cE 4c2i-a1-m55-cE_4c2i-a1-m56-cA 4c2i-a1-m56-cE_4c2i-a1-m8-cA 4c2i-a1-m57-cA_4c2i-a1-m7-cE 4c2i-a1-m5-cE_4c2i-a1-m6-cA 4cau-a1-m10-cA_4cau-a1-m23-cB 4cau-a1-m11-cA_4cau-a1-m20-cB 4cau-a1-m11-cB_4cau-a1-m38-cA 4cau-a1-m12-cA_4cau-a1-m37-cB 4cau-a1-m12-cB_4cau-a1-m47-cA 4cau-a1-m13-cA_4cau-a1-m46-cB 4cau-a1-m13-cB_4cau-a1-m45-cA 4cau-a1-m14-cA_4cau-a1-m44-cB 4cau-a1-m14-cB_4cau-a1-m29-cA 4cau-a1-m15-cA_4cau-a1-m28-cB 4cau-a1-m15-cB_4cau-a1-m16-cA 4cau-a1-m16-cB_4cau-a1-m28-cA 4cau-a1-m17-cA_4cau-a1-m27-cB 4cau-a1-m17-cB_4cau-a1-m52-cA 4cau-a1-m18-cA_4cau-a1-m51-cB 4cau-a1-m18-cB_4cau-a1-m60-cA 4cau-a1-m19-cA_4cau-a1-m59-cB 4cau-a1-m19-cB_4cau-a1-m39-cA 4cau-a1-m1-cA_4cau-a1-m10-cB 4cau-a1-m1-cB_4cau-a1-m23-cA 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4cau-a1-m37-cB_4cau-a1-m47-cB 4cau-a1-m39-cB_4cau-a1-m59-cB 4cau-a1-m3-cB_4cau-a1-m41-cB 4cau-a1-m3-cB_4cau-a1-m50-cB 4cau-a1-m40-cB_4cau-a1-m58-cB 4cau-a1-m41-cB_4cau-a1-m50-cB 4cau-a1-m45-cB_4cau-a1-m46-cB 4cau-a1-m4-cB_4cau-a1-m49-cB 4cau-a1-m51-cB_4cau-a1-m60-cB 4cau-a1-m55-cB_4cau-a1-m56-cB 4cau-a1-m55-cB_4cau-a1-m8-cB 4cau-a1-m56-cB_4cau-a1-m8-cB 4cau-a1-m57-cB_4cau-a1-m7-cB 4cau-a1-m5-cB_4cau-a1-m6-cB MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTFVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVTTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGETWNRQDLLVTFKTAHAQEAVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGISYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLVTANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 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MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTFVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVTTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGETWNRQDLLVTFKTAHAQEAVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGISYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLVTANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTFVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVTTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGETWNRQDLLVTFKTAHAQEAVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGISYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLVTANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 4cau-a1-m9-cA_4cau-a1-m9-cC THREE-DIMENSIONAL STRUCTURE OF DENGUE VIRUS SEROTYPE 1 COMPLEXED WITH 2 HMAB 14C10 FAB Q689G3 Q689G3 7.0 ELECTRON MICROSCOPY 32 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 376 376 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4cau-a1-m51-cA_4cau-a1-m51-cC 4cau-a1-m52-cA_4cau-a1-m52-cC 4cau-a1-m53-cA_4cau-a1-m53-cC 4cau-a1-m54-cA_4cau-a1-m54-cC 4cau-a1-m55-cA_4cau-a1-m55-cC 4cau-a1-m56-cA_4cau-a1-m56-cC 4cau-a1-m57-cA_4cau-a1-m57-cC 4cau-a1-m58-cA_4cau-a1-m58-cC 4cau-a1-m59-cA_4cau-a1-m59-cC 4cau-a1-m5-cA_4cau-a1-m5-cC 4cau-a1-m60-cA_4cau-a1-m60-cC 4cau-a1-m6-cA_4cau-a1-m6-cC 4cau-a1-m7-cA_4cau-a1-m7-cC 4cau-a1-m8-cA_4cau-a1-m8-cC 4cct-a1-m10-cA_4cct-a1-m10-cC 4cct-a1-m11-cA_4cct-a1-m11-cC 4cct-a1-m12-cA_4cct-a1-m12-cC 4cct-a1-m13-cA_4cct-a1-m13-cC 4cct-a1-m14-cA_4cct-a1-m14-cC 4cct-a1-m15-cA_4cct-a1-m15-cC 4cct-a1-m16-cA_4cct-a1-m16-cC 4cct-a1-m17-cA_4cct-a1-m17-cC 4cct-a1-m18-cA_4cct-a1-m18-cC 4cct-a1-m19-cA_4cct-a1-m19-cC 4cct-a1-m1-cA_4cct-a1-m1-cC 4cct-a1-m20-cA_4cct-a1-m20-cC 4cct-a1-m21-cA_4cct-a1-m21-cC 4cct-a1-m22-cA_4cct-a1-m22-cC 4cct-a1-m23-cA_4cct-a1-m23-cC 4cct-a1-m24-cA_4cct-a1-m24-cC 4cct-a1-m25-cA_4cct-a1-m25-cC 4cct-a1-m26-cA_4cct-a1-m26-cC 4cct-a1-m27-cA_4cct-a1-m27-cC 4cct-a1-m28-cA_4cct-a1-m28-cC 4cct-a1-m29-cA_4cct-a1-m29-cC 4cct-a1-m2-cA_4cct-a1-m2-cC 4cct-a1-m30-cA_4cct-a1-m30-cC 4cct-a1-m31-cA_4cct-a1-m31-cC 4cct-a1-m32-cA_4cct-a1-m32-cC 4cct-a1-m33-cA_4cct-a1-m33-cC 4cct-a1-m34-cA_4cct-a1-m34-cC 4cct-a1-m35-cA_4cct-a1-m35-cC 4cct-a1-m36-cA_4cct-a1-m36-cC 4cct-a1-m37-cA_4cct-a1-m37-cC 4cct-a1-m38-cA_4cct-a1-m38-cC 4cct-a1-m39-cA_4cct-a1-m39-cC 4cct-a1-m3-cA_4cct-a1-m3-cC 4cct-a1-m40-cA_4cct-a1-m40-cC 4cct-a1-m41-cA_4cct-a1-m41-cC 4cct-a1-m42-cA_4cct-a1-m42-cC 4cct-a1-m43-cA_4cct-a1-m43-cC 4cct-a1-m44-cA_4cct-a1-m44-cC 4cct-a1-m45-cA_4cct-a1-m45-cC 4cct-a1-m46-cA_4cct-a1-m46-cC 4cct-a1-m47-cA_4cct-a1-m47-cC 4cct-a1-m48-cA_4cct-a1-m48-cC 4cct-a1-m49-cA_4cct-a1-m49-cC 4cct-a1-m4-cA_4cct-a1-m4-cC 4cct-a1-m50-cA_4cct-a1-m50-cC 4cct-a1-m51-cA_4cct-a1-m51-cC 4cct-a1-m52-cA_4cct-a1-m52-cC 4cct-a1-m53-cA_4cct-a1-m53-cC 4cct-a1-m54-cA_4cct-a1-m54-cC 4cct-a1-m55-cA_4cct-a1-m55-cC 4cct-a1-m56-cA_4cct-a1-m56-cC 4cct-a1-m57-cA_4cct-a1-m57-cC 4cct-a1-m58-cA_4cct-a1-m58-cC 4cct-a1-m59-cA_4cct-a1-m59-cC 4cct-a1-m5-cA_4cct-a1-m5-cC 4cct-a1-m60-cA_4cct-a1-m60-cC 4cct-a1-m6-cA_4cct-a1-m6-cC 4cct-a1-m7-cA_4cct-a1-m7-cC 4cct-a1-m8-cA_4cct-a1-m8-cC 4cct-a1-m9-cA_4cct-a1-m9-cC 7dwt-a1-m10-cA_7dwt-a1-m10-cB 7dwt-a1-m11-cA_7dwt-a1-m11-cB 7dwt-a1-m12-cA_7dwt-a1-m12-cB 7dwt-a1-m13-cA_7dwt-a1-m13-cB 7dwt-a1-m14-cA_7dwt-a1-m14-cB 7dwt-a1-m15-cA_7dwt-a1-m15-cB 7dwt-a1-m16-cA_7dwt-a1-m16-cB 7dwt-a1-m17-cA_7dwt-a1-m17-cB 7dwt-a1-m18-cA_7dwt-a1-m18-cB 7dwt-a1-m19-cA_7dwt-a1-m19-cB 7dwt-a1-m1-cA_7dwt-a1-m1-cB 7dwt-a1-m20-cA_7dwt-a1-m20-cB 7dwt-a1-m21-cA_7dwt-a1-m21-cB 7dwt-a1-m22-cA_7dwt-a1-m22-cB 7dwt-a1-m23-cA_7dwt-a1-m23-cB 7dwt-a1-m24-cA_7dwt-a1-m24-cB 7dwt-a1-m25-cA_7dwt-a1-m25-cB 7dwt-a1-m26-cA_7dwt-a1-m26-cB 7dwt-a1-m27-cA_7dwt-a1-m27-cB 7dwt-a1-m28-cA_7dwt-a1-m28-cB 7dwt-a1-m29-cA_7dwt-a1-m29-cB 7dwt-a1-m2-cA_7dwt-a1-m2-cB 7dwt-a1-m30-cA_7dwt-a1-m30-cB 7dwt-a1-m31-cA_7dwt-a1-m31-cB 7dwt-a1-m32-cA_7dwt-a1-m32-cB 7dwt-a1-m33-cA_7dwt-a1-m33-cB 7dwt-a1-m34-cA_7dwt-a1-m34-cB 7dwt-a1-m35-cA_7dwt-a1-m35-cB 7dwt-a1-m36-cA_7dwt-a1-m36-cB 7dwt-a1-m37-cA_7dwt-a1-m37-cB 7dwt-a1-m38-cA_7dwt-a1-m38-cB 7dwt-a1-m39-cA_7dwt-a1-m39-cB 7dwt-a1-m3-cA_7dwt-a1-m3-cB 7dwt-a1-m40-cA_7dwt-a1-m40-cB 7dwt-a1-m41-cA_7dwt-a1-m41-cB 7dwt-a1-m42-cA_7dwt-a1-m42-cB 7dwt-a1-m43-cA_7dwt-a1-m43-cB 7dwt-a1-m44-cA_7dwt-a1-m44-cB 7dwt-a1-m45-cA_7dwt-a1-m45-cB 7dwt-a1-m46-cA_7dwt-a1-m46-cB 7dwt-a1-m47-cA_7dwt-a1-m47-cB 7dwt-a1-m48-cA_7dwt-a1-m48-cB 7dwt-a1-m49-cA_7dwt-a1-m49-cB 7dwt-a1-m4-cA_7dwt-a1-m4-cB 7dwt-a1-m50-cA_7dwt-a1-m50-cB 7dwt-a1-m51-cA_7dwt-a1-m51-cB 7dwt-a1-m52-cA_7dwt-a1-m52-cB 7dwt-a1-m53-cA_7dwt-a1-m53-cB 7dwt-a1-m54-cA_7dwt-a1-m54-cB 7dwt-a1-m55-cA_7dwt-a1-m55-cB 7dwt-a1-m56-cA_7dwt-a1-m56-cB 7dwt-a1-m57-cA_7dwt-a1-m57-cB 7dwt-a1-m58-cA_7dwt-a1-m58-cB 7dwt-a1-m59-cA_7dwt-a1-m59-cB 7dwt-a1-m5-cA_7dwt-a1-m5-cB 7dwt-a1-m60-cA_7dwt-a1-m60-cB 7dwt-a1-m6-cA_7dwt-a1-m6-cB 7dwt-a1-m7-cA_7dwt-a1-m7-cB 7dwt-a1-m8-cA_7dwt-a1-m8-cB 7dwt-a1-m9-cA_7dwt-a1-m9-cB MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTFVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVTTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGETWNRQDLLVTFKTAHAQEAVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGISYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLVTANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTFVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVTTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMKEKSWLVHKQWFLDLPLPWTSGETWNRQDLLVTFKTAHAQEAVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGISYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLVTANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 4cba-a1-m2-cA_4cba-a1-m4-cA Structural of delta 1-76 CTNNBL1 in space group I222 Q8WYA6 Q8WYA6 3.1 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 481 481 4cba-a1-m1-cA_4cba-a1-m3-cA DESSVKKMILTFEKRSYKNQELRIKFPDNPEKFMESELDLNDIIQEMHVVATMPDLYHLLVELNAVQSLLGLLGHDNTDVSIAVVDLLQELTDIDTLHESEEGAEVLIDALVDGQVVALLVQNLERLDESVKEEADGVHNTLAIVENMAEFRPEMCTEGAQQGLLQWLLKRLKAKMPFDANKLYCSEVLAILLQDNDENRELLGELDGIDVLLQQLSVFKRHNPSTAEEQEMMENLFDSLCSCLMLSSNRERFLKGEGLQLMNLMLREKKISRSSALKVLDHAMIGPEGTDNCHKFVDILGLRTIFPLFMKSPRKTTEKEHEEHVCSILASLLRNLRGQQRTRLLNKFTENDSEKVDRLMELHFKYLGAMQVADKKIEGEKHDMVRRGEIIDNDTEEEFYLRRLDAGLFVLQHICYIMAEICNANVPQIRQRVHQILNMRGSSIKIVRHIIKEYAENIGDGRSPEFRENEQKRILGLLENF DESSVKKMILTFEKRSYKNQELRIKFPDNPEKFMESELDLNDIIQEMHVVATMPDLYHLLVELNAVQSLLGLLGHDNTDVSIAVVDLLQELTDIDTLHESEEGAEVLIDALVDGQVVALLVQNLERLDESVKEEADGVHNTLAIVENMAEFRPEMCTEGAQQGLLQWLLKRLKAKMPFDANKLYCSEVLAILLQDNDENRELLGELDGIDVLLQQLSVFKRHNPSTAEEQEMMENLFDSLCSCLMLSSNRERFLKGEGLQLMNLMLREKKISRSSALKVLDHAMIGPEGTDNCHKFVDILGLRTIFPLFMKSPRKTTEKEHEEHVCSILASLLRNLRGQQRTRLLNKFTENDSEKVDRLMELHFKYLGAMQVADKKIEGEKHDMVRRGEIIDNDTEEEFYLRRLDAGLFVLQHICYIMAEICNANVPQIRQRVHQILNMRGSSIKIVRHIIKEYAENIGDGRSPEFRENEQKRILGLLENF 4cbb-a2-m1-cA_4cbb-a2-m1-cD APO FORM OF BETAINE ALDEHYDE DEHYDROGENASE FROM Pseudomonas aeruginosa Q9HTJ1 Q9HTJ1 1.8 X-RAY DIFFRACTION 62 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 489 489 2wme-a1-m1-cE_2wme-a1-m1-cH 2wme-a1-m1-cF_2wme-a1-m1-cG 2wme-a2-m1-cA_2wme-a2-m1-cD 2wme-a2-m1-cC_2wme-a2-m1-cB 2wox-a1-m1-cA_2wox-a1-m1-cD 2wox-a1-m1-cB_2wox-a1-m1-cC 2xdr-a1-m1-cA_2xdr-a1-m1-cD 2xdr-a1-m1-cB_2xdr-a1-m1-cC 3zqa-a1-m1-cA_3zqa-a1-m1-cD 3zqa-a1-m1-cB_3zqa-a1-m1-cC 4caz-a1-m1-cA_4caz-a1-m1-cB 4caz-a1-m2-cA_4caz-a1-m2-cB 4cbb-a1-m1-cE_4cbb-a1-m1-cH 4cbb-a1-m1-cF_4cbb-a1-m1-cG 4cbb-a2-m1-cB_4cbb-a2-m1-cC 6bjp-a1-m2-cA_6bjp-a1-m1-cC 6bjp-a1-m2-cD_6bjp-a1-m1-cB 6bpg-a1-m1-cA_6bpg-a1-m1-cD 6bpg-a1-m1-cB_6bpg-a1-m1-cC 6bpg-a2-m1-cE_6bpg-a2-m1-cH 6bpg-a2-m1-cF_6bpg-a2-m1-cG ARFEEQKLYIGGRYVEASSGATFETINPANGEVLAKVQRASREDVERAVQSAVEGQKVWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKPLAETRSVDIVTGADVLEYYAGLVPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPVQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYTEAGVPDGVFNVLTGSGREVGQWLTEHPLIEKISFTGGTSTGKKVMASASSSSLKEVTMELGGKSPLIIFPDADLDRAADIAVMANFFSSGQVCTNGTRVFIHRSQQARFEAKVLERVQRIRLGDPQDENTNFGPLVSFPHMESVLGYIESGKAQKARLLCGGERVTDGAFGKGAYVAPTVFTDCRDDMTIVREEIFGPVMSILVYDDEDEAIRRANDTEYGLAAGVVTQDLARAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSVQVELGDYASVF ARFEEQKLYIGGRYVEASSGATFETINPANGEVLAKVQRASREDVERAVQSAVEGQKVWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKPLAETRSVDIVTGADVLEYYAGLVPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPVQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYTEAGVPDGVFNVLTGSGREVGQWLTEHPLIEKISFTGGTSTGKKVMASASSSSLKEVTMELGGKSPLIIFPDADLDRAADIAVMANFFSSGQVCTNGTRVFIHRSQQARFEAKVLERVQRIRLGDPQDENTNFGPLVSFPHMESVLGYIESGKAQKARLLCGGERVTDGAFGKGAYVAPTVFTDCRDDMTIVREEIFGPVMSILVYDDEDEAIRRANDTEYGLAAGVVTQDLARAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSVQVELGDYASVF 4cbb-a2-m1-cB_4cbb-a2-m1-cD APO FORM OF BETAINE ALDEHYDE DEHYDROGENASE FROM Pseudomonas aeruginosa Q9HTJ1 Q9HTJ1 1.8 X-RAY DIFFRACTION 51 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 489 489 2wme-a1-m1-cE_2wme-a1-m1-cG 2wme-a1-m1-cF_2wme-a1-m1-cH 2wme-a2-m1-cB_2wme-a2-m1-cD 2wme-a2-m1-cC_2wme-a2-m1-cA 2wox-a1-m1-cA_2wox-a1-m1-cC 2wox-a1-m1-cB_2wox-a1-m1-cD 2xdr-a1-m1-cA_2xdr-a1-m1-cC 2xdr-a1-m1-cB_2xdr-a1-m1-cD 3zqa-a1-m1-cA_3zqa-a1-m1-cC 3zqa-a1-m1-cB_3zqa-a1-m1-cD 4caz-a1-m1-cA_4caz-a1-m2-cB 4caz-a1-m1-cB_4caz-a1-m2-cA 4cbb-a1-m1-cE_4cbb-a1-m1-cG 4cbb-a1-m1-cF_4cbb-a1-m1-cH 4cbb-a2-m1-cA_4cbb-a2-m1-cC 6bjp-a1-m2-cA_6bjp-a1-m1-cB 6bjp-a1-m2-cD_6bjp-a1-m1-cC 6bpg-a1-m1-cA_6bpg-a1-m1-cC 6bpg-a1-m1-cB_6bpg-a1-m1-cD 6bpg-a2-m1-cE_6bpg-a2-m1-cG 6bpg-a2-m1-cF_6bpg-a2-m1-cH ARFEEQKLYIGGRYVEASSGATFETINPANGEVLAKVQRASREDVERAVQSAVEGQKVWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKPLAETRSVDIVTGADVLEYYAGLVPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPVQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYTEAGVPDGVFNVLTGSGREVGQWLTEHPLIEKISFTGGTSTGKKVMASASSSSLKEVTMELGGKSPLIIFPDADLDRAADIAVMANFFSSGQVCTNGTRVFIHRSQQARFEAKVLERVQRIRLGDPQDENTNFGPLVSFPHMESVLGYIESGKAQKARLLCGGERVTDGAFGKGAYVAPTVFTDCRDDMTIVREEIFGPVMSILVYDDEDEAIRRANDTEYGLAAGVVTQDLARAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSVQVELGDYASVF ARFEEQKLYIGGRYVEASSGATFETINPANGEVLAKVQRASREDVERAVQSAVEGQKVWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKPLAETRSVDIVTGADVLEYYAGLVPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPVQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYTEAGVPDGVFNVLTGSGREVGQWLTEHPLIEKISFTGGTSTGKKVMASASSSSLKEVTMELGGKSPLIIFPDADLDRAADIAVMANFFSSGQVCTNGTRVFIHRSQQARFEAKVLERVQRIRLGDPQDENTNFGPLVSFPHMESVLGYIESGKAQKARLLCGGERVTDGAFGKGAYVAPTVFTDCRDDMTIVREEIFGPVMSILVYDDEDEAIRRANDTEYGLAAGVVTQDLARAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSVQVELGDYASVF 4cbb-a2-m1-cC_4cbb-a2-m1-cD APO FORM OF BETAINE ALDEHYDE DEHYDROGENASE FROM Pseudomonas aeruginosa Q9HTJ1 Q9HTJ1 1.8 X-RAY DIFFRACTION 215 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 489 489 2wme-a1-m1-cE_2wme-a1-m1-cF 2wme-a1-m1-cG_2wme-a1-m1-cH 2wme-a2-m1-cA_2wme-a2-m1-cB 2wme-a2-m1-cC_2wme-a2-m1-cD 2wox-a1-m1-cA_2wox-a1-m1-cB 2wox-a1-m1-cC_2wox-a1-m1-cD 2xdr-a1-m1-cA_2xdr-a1-m1-cB 2xdr-a1-m1-cC_2xdr-a1-m1-cD 3zqa-a1-m1-cA_3zqa-a1-m1-cB 3zqa-a1-m1-cC_3zqa-a1-m1-cD 4caz-a1-m1-cA_4caz-a1-m2-cA 4caz-a1-m1-cB_4caz-a1-m2-cB 4cbb-a1-m1-cE_4cbb-a1-m1-cF 4cbb-a1-m1-cG_4cbb-a1-m1-cH 4cbb-a2-m1-cA_4cbb-a2-m1-cB 6bjp-a1-m1-cC_6bjp-a1-m1-cB 6bjp-a1-m2-cA_6bjp-a1-m2-cD 6bpg-a1-m1-cA_6bpg-a1-m1-cB 6bpg-a1-m1-cC_6bpg-a1-m1-cD 6bpg-a2-m1-cE_6bpg-a2-m1-cF 6bpg-a2-m1-cG_6bpg-a2-m1-cH ARFEEQKLYIGGRYVEASSGATFETINPANGEVLAKVQRASREDVERAVQSAVEGQKVWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKPLAETRSVDIVTGADVLEYYAGLVPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPVQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYTEAGVPDGVFNVLTGSGREVGQWLTEHPLIEKISFTGGTSTGKKVMASASSSSLKEVTMELGGKSPLIIFPDADLDRAADIAVMANFFSSGQVCTNGTRVFIHRSQQARFEAKVLERVQRIRLGDPQDENTNFGPLVSFPHMESVLGYIESGKAQKARLLCGGERVTDGAFGKGAYVAPTVFTDCRDDMTIVREEIFGPVMSILVYDDEDEAIRRANDTEYGLAAGVVTQDLARAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSVQVELGDYASVF ARFEEQKLYIGGRYVEASSGATFETINPANGEVLAKVQRASREDVERAVQSAVEGQKVWAAMTAMQRSRILRRAVDILRERNDELAALETLDTGKPLAETRSVDIVTGADVLEYYAGLVPAIEGEQIPLRETSFVYTRREPLGVVAGIGAWNYPVQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYTEAGVPDGVFNVLTGSGREVGQWLTEHPLIEKISFTGGTSTGKKVMASASSSSLKEVTMELGGKSPLIIFPDADLDRAADIAVMANFFSSGQVCTNGTRVFIHRSQQARFEAKVLERVQRIRLGDPQDENTNFGPLVSFPHMESVLGYIESGKAQKARLLCGGERVTDGAFGKGAYVAPTVFTDCRDDMTIVREEIFGPVMSILVYDDEDEAIRRANDTEYGLAAGVVTQDLARAHRAIHRLEAGICWINTWGESPAEMPVGGYKQSGVGRENGLTTLAHYTRIKSVQVELGDYASVF 4cbf-a1-m24-cA_4cbf-a1-m9-cE Near-atomic resolution cryo-EM structure of Dengue serotype 4 virus E0WXI2 E0WXI2 4.1 ELECTRON MICROSCOPY 28 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 495 495 4cbf-a1-m10-cA_4cbf-a1-m23-cE 4cbf-a1-m11-cA_4cbf-a1-m20-cE 4cbf-a1-m11-cE_4cbf-a1-m38-cA 4cbf-a1-m12-cA_4cbf-a1-m37-cE 4cbf-a1-m12-cE_4cbf-a1-m47-cA 4cbf-a1-m13-cA_4cbf-a1-m46-cE 4cbf-a1-m13-cE_4cbf-a1-m45-cA 4cbf-a1-m14-cA_4cbf-a1-m44-cE 4cbf-a1-m14-cE_4cbf-a1-m29-cA 4cbf-a1-m15-cA_4cbf-a1-m28-cE 4cbf-a1-m15-cE_4cbf-a1-m16-cA 4cbf-a1-m16-cE_4cbf-a1-m28-cA 4cbf-a1-m17-cA_4cbf-a1-m27-cE 4cbf-a1-m17-cE_4cbf-a1-m52-cA 4cbf-a1-m18-cA_4cbf-a1-m51-cE 4cbf-a1-m18-cE_4cbf-a1-m60-cA 4cbf-a1-m19-cA_4cbf-a1-m59-cE 4cbf-a1-m19-cE_4cbf-a1-m39-cA 4cbf-a1-m1-cA_4cbf-a1-m10-cE 4cbf-a1-m1-cE_4cbf-a1-m23-cA 4cbf-a1-m20-cA_4cbf-a1-m38-cE 4cbf-a1-m21-cA_4cbf-a1-m30-cE 4cbf-a1-m21-cE_4cbf-a1-m43-cA 4cbf-a1-m22-cA_4cbf-a1-m42-cE 4cbf-a1-m24-cE_4cbf-a1-m54-cA 4cbf-a1-m25-cA_4cbf-a1-m53-cE 4cbf-a1-m25-cE_4cbf-a1-m26-cA 4cbf-a1-m26-cE_4cbf-a1-m53-cA 4cbf-a1-m27-cA_4cbf-a1-m52-cE 4cbf-a1-m29-cE_4cbf-a1-m44-cA 4cbf-a1-m2-cA_4cbf-a1-m22-cE 4cbf-a1-m2-cE_4cbf-a1-m42-cA 4cbf-a1-m30-cA_4cbf-a1-m43-cE 4cbf-a1-m31-cA_4cbf-a1-m40-cE 4cbf-a1-m31-cE_4cbf-a1-m58-cA 4cbf-a1-m32-cA_4cbf-a1-m57-cE 4cbf-a1-m32-cE_4cbf-a1-m7-cA 4cbf-a1-m33-cA_4cbf-a1-m6-cE 4cbf-a1-m33-cE_4cbf-a1-m5-cA 4cbf-a1-m34-cA_4cbf-a1-m4-cE 4cbf-a1-m34-cE_4cbf-a1-m49-cA 4cbf-a1-m35-cA_4cbf-a1-m48-cE 4cbf-a1-m35-cE_4cbf-a1-m36-cA 4cbf-a1-m36-cE_4cbf-a1-m48-cA 4cbf-a1-m37-cA_4cbf-a1-m47-cE 4cbf-a1-m39-cE_4cbf-a1-m59-cA 4cbf-a1-m3-cA_4cbf-a1-m41-cE 4cbf-a1-m3-cE_4cbf-a1-m50-cA 4cbf-a1-m40-cA_4cbf-a1-m58-cE 4cbf-a1-m41-cA_4cbf-a1-m50-cE 4cbf-a1-m45-cE_4cbf-a1-m46-cA 4cbf-a1-m4-cA_4cbf-a1-m49-cE 4cbf-a1-m51-cA_4cbf-a1-m60-cE 4cbf-a1-m54-cE_4cbf-a1-m9-cA 4cbf-a1-m55-cA_4cbf-a1-m8-cE 4cbf-a1-m55-cE_4cbf-a1-m56-cA 4cbf-a1-m56-cE_4cbf-a1-m8-cA 4cbf-a1-m57-cA_4cbf-a1-m7-cE 4cbf-a1-m5-cE_4cbf-a1-m6-cA MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA 4cbf-a1-m8-cC_4cbf-a1-m9-cC Near-atomic resolution cryo-EM structure of Dengue serotype 4 virus E0WXI2 E0WXI2 4.1 ELECTRON MICROSCOPY 30 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 495 495 4cbf-a1-m10-cC_4cbf-a1-m6-cC 4cbf-a1-m10-cC_4cbf-a1-m9-cC 4cbf-a1-m11-cC_4cbf-a1-m12-cC 4cbf-a1-m11-cC_4cbf-a1-m15-cC 4cbf-a1-m12-cC_4cbf-a1-m13-cC 4cbf-a1-m13-cC_4cbf-a1-m14-cC 4cbf-a1-m14-cC_4cbf-a1-m15-cC 4cbf-a1-m16-cC_4cbf-a1-m17-cC 4cbf-a1-m16-cC_4cbf-a1-m20-cC 4cbf-a1-m17-cC_4cbf-a1-m18-cC 4cbf-a1-m18-cC_4cbf-a1-m19-cC 4cbf-a1-m19-cC_4cbf-a1-m20-cC 4cbf-a1-m1-cC_4cbf-a1-m2-cC 4cbf-a1-m1-cC_4cbf-a1-m5-cC 4cbf-a1-m21-cC_4cbf-a1-m22-cC 4cbf-a1-m21-cC_4cbf-a1-m25-cC 4cbf-a1-m22-cC_4cbf-a1-m23-cC 4cbf-a1-m23-cC_4cbf-a1-m24-cC 4cbf-a1-m24-cC_4cbf-a1-m25-cC 4cbf-a1-m26-cC_4cbf-a1-m27-cC 4cbf-a1-m26-cC_4cbf-a1-m30-cC 4cbf-a1-m27-cC_4cbf-a1-m28-cC 4cbf-a1-m28-cC_4cbf-a1-m29-cC 4cbf-a1-m29-cC_4cbf-a1-m30-cC 4cbf-a1-m2-cC_4cbf-a1-m3-cC 4cbf-a1-m31-cC_4cbf-a1-m32-cC 4cbf-a1-m31-cC_4cbf-a1-m35-cC 4cbf-a1-m32-cC_4cbf-a1-m33-cC 4cbf-a1-m33-cC_4cbf-a1-m34-cC 4cbf-a1-m34-cC_4cbf-a1-m35-cC 4cbf-a1-m36-cC_4cbf-a1-m37-cC 4cbf-a1-m36-cC_4cbf-a1-m40-cC 4cbf-a1-m37-cC_4cbf-a1-m38-cC 4cbf-a1-m38-cC_4cbf-a1-m39-cC 4cbf-a1-m39-cC_4cbf-a1-m40-cC 4cbf-a1-m3-cC_4cbf-a1-m4-cC 4cbf-a1-m41-cC_4cbf-a1-m42-cC 4cbf-a1-m41-cC_4cbf-a1-m45-cC 4cbf-a1-m42-cC_4cbf-a1-m43-cC 4cbf-a1-m43-cC_4cbf-a1-m44-cC 4cbf-a1-m44-cC_4cbf-a1-m45-cC 4cbf-a1-m46-cC_4cbf-a1-m47-cC 4cbf-a1-m46-cC_4cbf-a1-m50-cC 4cbf-a1-m47-cC_4cbf-a1-m48-cC 4cbf-a1-m48-cC_4cbf-a1-m49-cC 4cbf-a1-m49-cC_4cbf-a1-m50-cC 4cbf-a1-m4-cC_4cbf-a1-m5-cC 4cbf-a1-m51-cC_4cbf-a1-m52-cC 4cbf-a1-m51-cC_4cbf-a1-m55-cC 4cbf-a1-m52-cC_4cbf-a1-m53-cC 4cbf-a1-m53-cC_4cbf-a1-m54-cC 4cbf-a1-m54-cC_4cbf-a1-m55-cC 4cbf-a1-m56-cC_4cbf-a1-m57-cC 4cbf-a1-m56-cC_4cbf-a1-m60-cC 4cbf-a1-m57-cC_4cbf-a1-m58-cC 4cbf-a1-m58-cC_4cbf-a1-m59-cC 4cbf-a1-m59-cC_4cbf-a1-m60-cC 4cbf-a1-m6-cC_4cbf-a1-m7-cC 4cbf-a1-m7-cC_4cbf-a1-m8-cC MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA 4cbf-a1-m9-cA_4cbf-a1-m9-cC Near-atomic resolution cryo-EM structure of Dengue serotype 4 virus E0WXI2 E0WXI2 4.1 ELECTRON MICROSCOPY 49 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 495 495 4cbf-a1-m10-cA_4cbf-a1-m10-cC 4cbf-a1-m11-cA_4cbf-a1-m11-cC 4cbf-a1-m12-cA_4cbf-a1-m12-cC 4cbf-a1-m13-cA_4cbf-a1-m13-cC 4cbf-a1-m14-cA_4cbf-a1-m14-cC 4cbf-a1-m15-cA_4cbf-a1-m15-cC 4cbf-a1-m16-cA_4cbf-a1-m16-cC 4cbf-a1-m17-cA_4cbf-a1-m17-cC 4cbf-a1-m18-cA_4cbf-a1-m18-cC 4cbf-a1-m19-cA_4cbf-a1-m19-cC 4cbf-a1-m1-cA_4cbf-a1-m1-cC 4cbf-a1-m20-cA_4cbf-a1-m20-cC 4cbf-a1-m21-cA_4cbf-a1-m21-cC 4cbf-a1-m22-cA_4cbf-a1-m22-cC 4cbf-a1-m23-cA_4cbf-a1-m23-cC 4cbf-a1-m24-cA_4cbf-a1-m24-cC 4cbf-a1-m25-cA_4cbf-a1-m25-cC 4cbf-a1-m26-cA_4cbf-a1-m26-cC 4cbf-a1-m27-cA_4cbf-a1-m27-cC 4cbf-a1-m28-cA_4cbf-a1-m28-cC 4cbf-a1-m29-cA_4cbf-a1-m29-cC 4cbf-a1-m2-cA_4cbf-a1-m2-cC 4cbf-a1-m30-cA_4cbf-a1-m30-cC 4cbf-a1-m31-cA_4cbf-a1-m31-cC 4cbf-a1-m32-cA_4cbf-a1-m32-cC 4cbf-a1-m33-cA_4cbf-a1-m33-cC 4cbf-a1-m34-cA_4cbf-a1-m34-cC 4cbf-a1-m35-cA_4cbf-a1-m35-cC 4cbf-a1-m36-cA_4cbf-a1-m36-cC 4cbf-a1-m37-cA_4cbf-a1-m37-cC 4cbf-a1-m38-cA_4cbf-a1-m38-cC 4cbf-a1-m39-cA_4cbf-a1-m39-cC 4cbf-a1-m3-cA_4cbf-a1-m3-cC 4cbf-a1-m40-cA_4cbf-a1-m40-cC 4cbf-a1-m41-cA_4cbf-a1-m41-cC 4cbf-a1-m42-cA_4cbf-a1-m42-cC 4cbf-a1-m43-cA_4cbf-a1-m43-cC 4cbf-a1-m44-cA_4cbf-a1-m44-cC 4cbf-a1-m45-cA_4cbf-a1-m45-cC 4cbf-a1-m46-cA_4cbf-a1-m46-cC 4cbf-a1-m47-cA_4cbf-a1-m47-cC 4cbf-a1-m48-cA_4cbf-a1-m48-cC 4cbf-a1-m49-cA_4cbf-a1-m49-cC 4cbf-a1-m4-cA_4cbf-a1-m4-cC 4cbf-a1-m50-cA_4cbf-a1-m50-cC 4cbf-a1-m51-cA_4cbf-a1-m51-cC 4cbf-a1-m52-cA_4cbf-a1-m52-cC 4cbf-a1-m53-cA_4cbf-a1-m53-cC 4cbf-a1-m54-cA_4cbf-a1-m54-cC 4cbf-a1-m55-cA_4cbf-a1-m55-cC 4cbf-a1-m56-cA_4cbf-a1-m56-cC 4cbf-a1-m57-cA_4cbf-a1-m57-cC 4cbf-a1-m58-cA_4cbf-a1-m58-cC 4cbf-a1-m59-cA_4cbf-a1-m59-cC 4cbf-a1-m5-cA_4cbf-a1-m5-cC 4cbf-a1-m60-cA_4cbf-a1-m60-cC 4cbf-a1-m6-cA_4cbf-a1-m6-cC 4cbf-a1-m7-cA_4cbf-a1-m7-cC 4cbf-a1-m8-cA_4cbf-a1-m8-cC MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA 4cbf-a1-m9-cA_4cbf-a1-m9-cE Near-atomic resolution cryo-EM structure of Dengue serotype 4 virus E0WXI2 E0WXI2 4.1 ELECTRON MICROSCOPY 24 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 495 495 4cbf-a1-m10-cA_4cbf-a1-m10-cE 4cbf-a1-m10-cA_4cbf-a1-m24-cC 4cbf-a1-m10-cC_4cbf-a1-m24-cA 4cbf-a1-m11-cA_4cbf-a1-m11-cE 4cbf-a1-m11-cA_4cbf-a1-m16-cC 4cbf-a1-m11-cC_4cbf-a1-m16-cA 4cbf-a1-m12-cA_4cbf-a1-m12-cE 4cbf-a1-m12-cA_4cbf-a1-m38-cC 4cbf-a1-m12-cC_4cbf-a1-m38-cA 4cbf-a1-m13-cA_4cbf-a1-m13-cE 4cbf-a1-m13-cA_4cbf-a1-m47-cC 4cbf-a1-m13-cC_4cbf-a1-m47-cA 4cbf-a1-m14-cA_4cbf-a1-m14-cE 4cbf-a1-m14-cA_4cbf-a1-m45-cC 4cbf-a1-m14-cC_4cbf-a1-m45-cA 4cbf-a1-m15-cA_4cbf-a1-m15-cE 4cbf-a1-m15-cA_4cbf-a1-m29-cC 4cbf-a1-m15-cC_4cbf-a1-m29-cA 4cbf-a1-m16-cA_4cbf-a1-m16-cE 4cbf-a1-m17-cA_4cbf-a1-m17-cE 4cbf-a1-m17-cA_4cbf-a1-m28-cC 4cbf-a1-m17-cC_4cbf-a1-m28-cA 4cbf-a1-m18-cA_4cbf-a1-m18-cE 4cbf-a1-m18-cA_4cbf-a1-m52-cC 4cbf-a1-m18-cC_4cbf-a1-m52-cA 4cbf-a1-m19-cA_4cbf-a1-m19-cE 4cbf-a1-m19-cA_4cbf-a1-m60-cC 4cbf-a1-m19-cC_4cbf-a1-m60-cA 4cbf-a1-m1-cA_4cbf-a1-m1-cE 4cbf-a1-m1-cA_4cbf-a1-m6-cC 4cbf-a1-m1-cC_4cbf-a1-m6-cA 4cbf-a1-m20-cA_4cbf-a1-m20-cE 4cbf-a1-m20-cA_4cbf-a1-m39-cC 4cbf-a1-m20-cC_4cbf-a1-m39-cA 4cbf-a1-m21-cA_4cbf-a1-m21-cE 4cbf-a1-m21-cA_4cbf-a1-m26-cC 4cbf-a1-m21-cC_4cbf-a1-m26-cA 4cbf-a1-m22-cA_4cbf-a1-m22-cE 4cbf-a1-m22-cA_4cbf-a1-m43-cC 4cbf-a1-m22-cC_4cbf-a1-m43-cA 4cbf-a1-m23-cA_4cbf-a1-m23-cE 4cbf-a1-m24-cA_4cbf-a1-m24-cE 4cbf-a1-m25-cA_4cbf-a1-m25-cE 4cbf-a1-m25-cA_4cbf-a1-m54-cC 4cbf-a1-m25-cC_4cbf-a1-m54-cA 4cbf-a1-m26-cA_4cbf-a1-m26-cE 4cbf-a1-m27-cA_4cbf-a1-m27-cE 4cbf-a1-m27-cA_4cbf-a1-m53-cC 4cbf-a1-m27-cC_4cbf-a1-m53-cA 4cbf-a1-m28-cA_4cbf-a1-m28-cE 4cbf-a1-m29-cA_4cbf-a1-m29-cE 4cbf-a1-m2-cA_4cbf-a1-m23-cC 4cbf-a1-m2-cA_4cbf-a1-m2-cE 4cbf-a1-m2-cC_4cbf-a1-m23-cA 4cbf-a1-m30-cA_4cbf-a1-m30-cE 4cbf-a1-m30-cA_4cbf-a1-m44-cC 4cbf-a1-m30-cC_4cbf-a1-m44-cA 4cbf-a1-m31-cA_4cbf-a1-m31-cE 4cbf-a1-m31-cA_4cbf-a1-m36-cC 4cbf-a1-m31-cC_4cbf-a1-m36-cA 4cbf-a1-m32-cA_4cbf-a1-m32-cE 4cbf-a1-m32-cA_4cbf-a1-m58-cC 4cbf-a1-m32-cC_4cbf-a1-m58-cA 4cbf-a1-m33-cA_4cbf-a1-m33-cE 4cbf-a1-m33-cA_4cbf-a1-m7-cC 4cbf-a1-m33-cC_4cbf-a1-m7-cA 4cbf-a1-m34-cA_4cbf-a1-m34-cE 4cbf-a1-m34-cA_4cbf-a1-m5-cC 4cbf-a1-m34-cC_4cbf-a1-m5-cA 4cbf-a1-m35-cA_4cbf-a1-m35-cE 4cbf-a1-m35-cA_4cbf-a1-m49-cC 4cbf-a1-m35-cC_4cbf-a1-m49-cA 4cbf-a1-m36-cA_4cbf-a1-m36-cE 4cbf-a1-m37-cA_4cbf-a1-m37-cE 4cbf-a1-m37-cA_4cbf-a1-m48-cC 4cbf-a1-m37-cC_4cbf-a1-m48-cA 4cbf-a1-m38-cA_4cbf-a1-m38-cE 4cbf-a1-m39-cA_4cbf-a1-m39-cE 4cbf-a1-m3-cA_4cbf-a1-m3-cE 4cbf-a1-m3-cA_4cbf-a1-m42-cC 4cbf-a1-m3-cC_4cbf-a1-m42-cA 4cbf-a1-m40-cA_4cbf-a1-m40-cE 4cbf-a1-m40-cA_4cbf-a1-m59-cC 4cbf-a1-m40-cC_4cbf-a1-m59-cA 4cbf-a1-m41-cA_4cbf-a1-m41-cE 4cbf-a1-m41-cA_4cbf-a1-m46-cC 4cbf-a1-m41-cC_4cbf-a1-m46-cA 4cbf-a1-m42-cA_4cbf-a1-m42-cE 4cbf-a1-m43-cA_4cbf-a1-m43-cE 4cbf-a1-m44-cA_4cbf-a1-m44-cE 4cbf-a1-m45-cA_4cbf-a1-m45-cE 4cbf-a1-m46-cA_4cbf-a1-m46-cE 4cbf-a1-m47-cA_4cbf-a1-m47-cE 4cbf-a1-m48-cA_4cbf-a1-m48-cE 4cbf-a1-m49-cA_4cbf-a1-m49-cE 4cbf-a1-m4-cA_4cbf-a1-m4-cE 4cbf-a1-m4-cA_4cbf-a1-m50-cC 4cbf-a1-m4-cC_4cbf-a1-m50-cA 4cbf-a1-m50-cA_4cbf-a1-m50-cE 4cbf-a1-m51-cA_4cbf-a1-m51-cE 4cbf-a1-m51-cA_4cbf-a1-m56-cC 4cbf-a1-m51-cC_4cbf-a1-m56-cA 4cbf-a1-m52-cA_4cbf-a1-m52-cE 4cbf-a1-m53-cA_4cbf-a1-m53-cE 4cbf-a1-m54-cA_4cbf-a1-m54-cE 4cbf-a1-m55-cA_4cbf-a1-m55-cE 4cbf-a1-m55-cA_4cbf-a1-m9-cC 4cbf-a1-m55-cC_4cbf-a1-m9-cA 4cbf-a1-m56-cA_4cbf-a1-m56-cE 4cbf-a1-m57-cA_4cbf-a1-m57-cE 4cbf-a1-m57-cA_4cbf-a1-m8-cC 4cbf-a1-m57-cC_4cbf-a1-m8-cA 4cbf-a1-m58-cA_4cbf-a1-m58-cE 4cbf-a1-m59-cA_4cbf-a1-m59-cE 4cbf-a1-m5-cA_4cbf-a1-m5-cE 4cbf-a1-m60-cA_4cbf-a1-m60-cE 4cbf-a1-m6-cA_4cbf-a1-m6-cE 4cbf-a1-m7-cA_4cbf-a1-m7-cE 4cbf-a1-m8-cA_4cbf-a1-m8-cE MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA MRCVGVGNRDFVEGVSGGAWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFLCSGKITGNLVQIENLEYTVAVTVHNGDTHAVGNDTSSHGVTATITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGADTSEVHWNHKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPFAENTNSVTNIELEPPFGDSYIVIGVGESALTLHWFRKGSSIGKMFESTYRGAKRMAILGETAWDFGSVGGLFTSLGKAVHQVFGSVYTTMFGGVSWMVRILIGFLVLWIGTNSRNTSMAMTCIAVGGITLFLGFTVQA 4cbf-a1-m9-cD_4cbf-a1-m9-cF Near-atomic resolution cryo-EM structure of Dengue serotype 4 virus E0WXI2 E0WXI2 4.1 ELECTRON MICROSCOPY 43 1.0 11070 (Dengue virus type 4) 11070 (Dengue virus type 4) 74 74 4cbf-a1-m10-cB_4cbf-a1-m24-cB 4cbf-a1-m10-cD_4cbf-a1-m10-cF 4cbf-a1-m11-cB_4cbf-a1-m16-cB 4cbf-a1-m11-cD_4cbf-a1-m11-cF 4cbf-a1-m12-cB_4cbf-a1-m38-cB 4cbf-a1-m12-cD_4cbf-a1-m12-cF 4cbf-a1-m13-cB_4cbf-a1-m47-cB 4cbf-a1-m13-cD_4cbf-a1-m13-cF 4cbf-a1-m14-cB_4cbf-a1-m45-cB 4cbf-a1-m14-cD_4cbf-a1-m14-cF 4cbf-a1-m15-cB_4cbf-a1-m29-cB 4cbf-a1-m15-cD_4cbf-a1-m15-cF 4cbf-a1-m16-cD_4cbf-a1-m16-cF 4cbf-a1-m17-cB_4cbf-a1-m28-cB 4cbf-a1-m17-cD_4cbf-a1-m17-cF 4cbf-a1-m18-cB_4cbf-a1-m52-cB 4cbf-a1-m18-cD_4cbf-a1-m18-cF 4cbf-a1-m19-cB_4cbf-a1-m60-cB 4cbf-a1-m19-cD_4cbf-a1-m19-cF 4cbf-a1-m1-cB_4cbf-a1-m6-cB 4cbf-a1-m1-cD_4cbf-a1-m1-cF 4cbf-a1-m20-cB_4cbf-a1-m39-cB 4cbf-a1-m20-cD_4cbf-a1-m20-cF 4cbf-a1-m21-cB_4cbf-a1-m26-cB 4cbf-a1-m21-cD_4cbf-a1-m21-cF 4cbf-a1-m22-cB_4cbf-a1-m43-cB 4cbf-a1-m22-cD_4cbf-a1-m22-cF 4cbf-a1-m23-cD_4cbf-a1-m23-cF 4cbf-a1-m24-cD_4cbf-a1-m24-cF 4cbf-a1-m25-cB_4cbf-a1-m54-cB 4cbf-a1-m25-cD_4cbf-a1-m25-cF 4cbf-a1-m26-cD_4cbf-a1-m26-cF 4cbf-a1-m27-cB_4cbf-a1-m53-cB 4cbf-a1-m27-cD_4cbf-a1-m27-cF 4cbf-a1-m28-cD_4cbf-a1-m28-cF 4cbf-a1-m29-cD_4cbf-a1-m29-cF 4cbf-a1-m2-cB_4cbf-a1-m23-cB 4cbf-a1-m2-cD_4cbf-a1-m2-cF 4cbf-a1-m30-cB_4cbf-a1-m44-cB 4cbf-a1-m30-cD_4cbf-a1-m30-cF 4cbf-a1-m31-cB_4cbf-a1-m36-cB 4cbf-a1-m31-cD_4cbf-a1-m31-cF 4cbf-a1-m32-cB_4cbf-a1-m58-cB 4cbf-a1-m32-cD_4cbf-a1-m32-cF 4cbf-a1-m33-cB_4cbf-a1-m7-cB 4cbf-a1-m33-cD_4cbf-a1-m33-cF 4cbf-a1-m34-cB_4cbf-a1-m5-cB 4cbf-a1-m34-cD_4cbf-a1-m34-cF 4cbf-a1-m35-cB_4cbf-a1-m49-cB 4cbf-a1-m35-cD_4cbf-a1-m35-cF 4cbf-a1-m36-cD_4cbf-a1-m36-cF 4cbf-a1-m37-cB_4cbf-a1-m48-cB 4cbf-a1-m37-cD_4cbf-a1-m37-cF 4cbf-a1-m38-cD_4cbf-a1-m38-cF 4cbf-a1-m39-cD_4cbf-a1-m39-cF 4cbf-a1-m3-cB_4cbf-a1-m42-cB 4cbf-a1-m3-cD_4cbf-a1-m3-cF 4cbf-a1-m40-cB_4cbf-a1-m59-cB 4cbf-a1-m40-cD_4cbf-a1-m40-cF 4cbf-a1-m41-cB_4cbf-a1-m46-cB 4cbf-a1-m41-cD_4cbf-a1-m41-cF 4cbf-a1-m42-cD_4cbf-a1-m42-cF 4cbf-a1-m43-cD_4cbf-a1-m43-cF 4cbf-a1-m44-cD_4cbf-a1-m44-cF 4cbf-a1-m45-cD_4cbf-a1-m45-cF 4cbf-a1-m46-cD_4cbf-a1-m46-cF 4cbf-a1-m47-cD_4cbf-a1-m47-cF 4cbf-a1-m48-cD_4cbf-a1-m48-cF 4cbf-a1-m49-cD_4cbf-a1-m49-cF 4cbf-a1-m4-cB_4cbf-a1-m50-cB 4cbf-a1-m4-cD_4cbf-a1-m4-cF 4cbf-a1-m50-cD_4cbf-a1-m50-cF 4cbf-a1-m51-cB_4cbf-a1-m56-cB 4cbf-a1-m51-cD_4cbf-a1-m51-cF 4cbf-a1-m52-cD_4cbf-a1-m52-cF 4cbf-a1-m53-cD_4cbf-a1-m53-cF 4cbf-a1-m54-cD_4cbf-a1-m54-cF 4cbf-a1-m55-cB_4cbf-a1-m9-cB 4cbf-a1-m55-cD_4cbf-a1-m55-cF 4cbf-a1-m56-cD_4cbf-a1-m56-cF 4cbf-a1-m57-cB_4cbf-a1-m8-cB 4cbf-a1-m57-cD_4cbf-a1-m57-cF 4cbf-a1-m58-cD_4cbf-a1-m58-cF 4cbf-a1-m59-cD_4cbf-a1-m59-cF 4cbf-a1-m5-cD_4cbf-a1-m5-cF 4cbf-a1-m60-cD_4cbf-a1-m60-cF 4cbf-a1-m6-cD_4cbf-a1-m6-cF 4cbf-a1-m7-cD_4cbf-a1-m7-cF 4cbf-a1-m8-cD_4cbf-a1-m8-cF SVALTPHSGMGLETRAETWMSSEGAWKHAQRVESWILRNPGFALLAGFMAYMIGQTGIQRTVFFVLMMLVAPSY SVALTPHSGMGLETRAETWMSSEGAWKHAQRVESWILRNPGFALLAGFMAYMIGQTGIQRTVFFVLMMLVAPSY 4cbv-a3-m1-cA_4cbv-a3-m1-cB X-ray structure of full-length ComE from Streptococcus pneumoniae. Q79CK7 Q79CK7 3.39 X-RAY DIFFRACTION 73 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 247 247 KVLILEDVIEHQVRLERILDEISKESNIPISYKTTGKVREFEEYIENDEVNQLYFLAIDIHGIEKKGFEVAQLIRHYNPYAIIVFITSRSEFATLTYKYQVSALDFVDKDINDEFKKRIEQNIFYTKSLLENEDVVDYFDYNYKGNDLKIPYHDILYIETTGVSHKLRIIGKNFAKEFYGTTDIQEKDKHTQRFYSPHKSFLVNIGNIREIDRKNLEIVFYEDHRCPISRLKIRKLKDILEKKSQKH KVLILEDVIEHQVRLERILDEISKESNIPISYKTTGKVREFEEYIENDEVNQLYFLAIDIHGIEKKGFEVAQLIRHYNPYAIIVFITSRSEFATLTYKYQVSALDFVDKDINDEFKKRIEQNIFYTKSLLENEDVVDYFDYNYKGNDLKIPYHDILYIETTGVSHKLRIIGKNFAKEFYGTTDIQEKDKHTQRFYSPHKSFLVNIGNIREIDRKNLEIVFYEDHRCPISRLKIRKLKDILEKKSQKH 4ccf-a2-m1-cB_4ccf-a2-m1-cC Structure of Respiratory Syncytial Virus F protein head domain P03420 P03420 2.65 X-RAY DIFFRACTION 105 0.996 12814 (Respiratory syncytial virus) 12814 (Respiratory syncytial virus) 258 261 3rrr-a2-m1-cL_3rrr-a2-m1-cN 4ccf-a1-m1-cE_4ccf-a1-m1-cD 4ccf-a1-m1-cE_4ccf-a1-m1-cF 4ccf-a1-m1-cF_4ccf-a1-m1-cD 4ccf-a2-m1-cB_4ccf-a2-m1-cA 4ccf-a2-m1-cC_4ccf-a2-m1-cA NITEEFYQSTCSAVSKGYLSALRTGWYTSVITINRLLEITREFSVNAGVTTPVSTYMLTNSELLSLINDMPITNDQKKLMSNNVQIVRQQSYSIMSVLAYVVQLPLYGVIDTPCWKLHTSPLCTNICLTRTDRGWYCDNAGSVSFFPQAETCKVQSNRVFCDTMNSLTLPSEVNLCNVDIFNPKYDCKIMTSKTDVSSSVITSLGAIVSCYGKTKCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKQEG NITEEFYQSTCSAVSKGYLSALRTGWYTSVITIENRLLEITREFSVNAGVTTPVSTYMLTNSELLSLINDMPITNDQKKLMSNNVQIVRQQSYSIMSIIVLAYVVQLPLYGVIDTPCWKLHTSPLCTICLTRTDRGWYCDNAGSVSFFPQAETCKVQSNRVFCDTMNSLTLPSEVNLCNVDIFNPKYDCKIMTSKTDVSSSVITSLGAIVSCYGKTKCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKQEGK 4ccr-a2-m1-cD_4ccr-a2-m1-cB Crystal structure of the thioredoxin reductase apoenzyme from Entamoeba histolytica in the absence of the NADP cofactor C4LW95 C4LW95 2.28 X-RAY DIFFRACTION 102 0.995 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 191 312 4ccr-a1-m1-cA_4ccr-a1-m1-cC SNIHDVVIIGSGPAAHTAAIYLGRSSLKPVMYEGFMAGGVAAGGQLTTTTIIENFPGFPNGIDGNELMMNMRTQSEKYGTTIITETIDHVDFSTQPFKLFTEEGKEVLTKSVIIATGATAKAIGHSPNSKFLGGQVKTADDGYILTEGPKTSVDGVFACGDVCDRVYRQAIVAAGSGCMAALSCEKWLQTH NIHDVVIIGSGPAAHTAAIYLGRSSLKPVMYEGFMAGGVAAGGQLTTTTIIENFPGFPNGIDGNELMMNMRTQSEKYGTTIITETIDHVDFSTQPFKLFTEEGKEVLTKSVIIATGATAKRMHVPGEDKYWQNGVSACAICDGAVPIFRNKVLMVVGGGDAAMEEALHLTKYGSKVIILHRRDAFRASKTMQERVLNHPKIEVIWNSELVELEGDGDLLNGAKIHNLVSGEYKVVPVAGLFYAIGHSPNSKFLGGQVKTADDGYILTEGPKTSVDGVFACGDVCDRVYRQAIVAAGSGCMAALSCEKWLQTH 4ce0-a1-m1-cA_4ce0-a1-m2-cA Crystal Structure of SAH-bound Spinosyn Rhamnosyl 4'-O- Methyltransferase SpnH from Saccharopolyspora spinosa Q9ALM9 Q9ALM9 2.001 X-RAY DIFFRACTION 41 1.0 60894 (Saccharopolyspora spinosa) 60894 (Saccharopolyspora spinosa) 213 213 4cdz-a1-m1-cA_4cdz-a1-m2-cA PSQNALYLDLLKKVLTNTIYWPTVAHTMIGLERLDNLQHCVEAVLADGVPGDFAETGVWRGGACIFMRAVLQAFGDTGRTVWVVDSFQGMPEAMALHEYNDVLGVSLETVRQNFARYGLLDEQVRFLPGWFRDTLPTAPIQELAVLRLDGDLYESTMDSLRNLYPKLSPGGFVIIDDYFLPSCQDAVKGFRAELGITEPIHDIDGTGAYWRRS PSQNALYLDLLKKVLTNTIYWPTVAHTMIGLERLDNLQHCVEAVLADGVPGDFAETGVWRGGACIFMRAVLQAFGDTGRTVWVVDSFQGMPEAMALHEYNDVLGVSLETVRQNFARYGLLDEQVRFLPGWFRDTLPTAPIQELAVLRLDGDLYESTMDSLRNLYPKLSPGGFVIIDDYFLPSCQDAVKGFRAELGITEPIHDIDGTGAYWRRS 4ce7-a1-m1-cC_4ce7-a1-m1-cA Crystal structure of a novel unsaturated beta-glucuronyl hydrolase enzyme, belonging to family GH105, involved in ulvan degradation L7P9J4 L7P9J4 1.9 X-RAY DIFFRACTION 21 1.0 906888 (Nonlabens ulvanivorans) 906888 (Nonlabens ulvanivorans) 342 345 4ce7-a1-m1-cA_4ce7-a1-m1-cB 4ce7-a1-m1-cC_4ce7-a1-m1-cB DVFNEDYIKTSMIKALEWQEAHPIFAIHPTDWTNGAYYTGVARAHHTTKNMMYMAALKNQAVANNWQPYTRLYHADDVAISYSYLYVAENEKRRNFSDLEPTKKFLDTHLYEDNAWKAGTNRSKEDKTILWWWCDALFMAPPVINLYAKQSEQPEYLDEMHKYYMETYNRLYDKEEKLFARDSRFVWDGDDEDKKEPNGEKVFWSRGNGWVIGGLALLLEDMPEDYKHRDFYVNLYKEMASRILEIQPEDGLWRTSLLSPESYDHGEVSGSAFHTFALAWGINKGLIDKKYTPAVKKAWKAMANCQHDDGRVGWVQNIASKDSYQNFGTGAFLLAGSEILKM DVFNEDYIKTSMIKALEWQEAHPIFAIHPTDWTNGAYYTGVARAHHTTKNMMYMAALKNQAVANNWQPYTRLYHADDVAISYSYLYVAENEKRRNFSDLEPTKKFLDTHLYEDNAWKAGTNRSKEDKTILWWWCDALFMAPPVINLYAKQSEQPEYLDEMHKYYMETYNRLYDKEEKLFARDSRFVWDGDDEDKKEPNGEKVFWSRGNGWVIGGLALLLEDMPEDYKHRDFYVNLYKEMASRILEIQPEDGLWRTSLLSPESYDHGEVSGSAFHTFALAWGINKGLIDKKYTPAVKKAWKAMANCQHDDGRVGWVQNIPEPASKDSYQNFGTGAFLLAGSEILKM 4cg4-a2-m1-cC_4cg4-a2-m1-cD Crystal structure of the CHS-B30.2 domains of TRIM20 O15553 O15553 2.4 X-RAY DIFFRACTION 263 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 4cg4-a1-m1-cB_4cg4-a1-m1-cA 4cg4-a3-m1-cE_4cg4-a3-m1-cF SEVALEHKKKIQKQLEHLKKLRKSGEEQRSYGEEKAVSFLKQTEALKQRVQRKLEQVYYFLEQQEHFFVASLEDVGQMVGQIRKAYDTRVSQDIALLDALIGELEAKECQSEWELLQDIGDILHRAKTVPVPEKWTTPQEIKQKIQLLHQKSEFVEKSTKYFSETLRSEMEMFNVPELIGAQAHAVNVILDAETAYPNLIFSDDLKSVRLGNKWERLPDGPQRFDSCIIVLGSPSFLSGRRYWEVEVGDKTAWILGACKTSISRKGNMTLSPENGYWVVIMMKENEYQASSVPPTRLLIKEPPKRVGIFVDYRVGSISFYNVTARSHIYTFASCSFSGPLQPIFSPGTRDGGKNTAPLTICPVGGQGPDALEVLFQ SEVALEHKKKIQKQLEHLKKLRKSGEEQRSYGEEKAVSFLKQTEALKQRVQRKLEQVYYFLEQQEHFFVASLEDVGQMVGQIRKAYDTRVSQDIALLDALIGELEAKECQSEWELLQDIGDILHRAKTVPVPEKWTTPQEIKQKIQLLHQKSEFVEKSTKYFSETLRSEMEMFNVPELIGAQAHAVNVILDAETAYPNLIFSDDLKSVRLGNKWERLPDGPQRFDSCIIVLGSPSFLSGRRYWEVEVGDKTAWILGACKTSISRKGNMTLSPENGYWVVIMMKENEYQASSVPPTRLLIKEPPKRVGIFVDYRVGSISFYNVTARSHIYTFASCSFSGPLQPIFSPGTRDGGKNTAPLTICPVGGQGPDALEVLFQ 4cgb-a2-m1-cD_4cgb-a2-m1-cF Crystal structure of the trimerization domain of EML2 2.154 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 4cgb-a2-m1-cE_4cgb-a2-m1-cD MEVDDRVSALEQRLQLQEDELAVLKAALADALRRLRACEEQGAAL MEVDDRVSALEQRLQLQEDELAVLKAALADALRRLRACEEQGAAL 4cgb-a2-m1-cE_4cgb-a2-m1-cF Crystal structure of the trimerization domain of EML2 2.154 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 39 45 4cgb-a1-m1-cA_4cgb-a1-m1-cB EVDDRVSALEQRLQLQEDELAVLKAALADALRRLRACEE MEVDDRVSALEQRLQLQEDELAVLKAALADALRRLRACEEQGAAL 4cgc-a1-m1-cA_4cgc-a1-m1-cC Crystal structure of the trimerization domain of human EML4 Q9HC35 Q9HC35 2.901 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 28 4cgc-a1-m1-cB_4cgc-a1-m1-cA 4cgc-a1-m1-cB_4cgc-a1-m1-cC TSDVQDRLSALESRVQQQEDETVLKAA STSDVQDRLSALESRVQQQEDETVLKAA 4cgk-a1-m1-cB_4cgk-a1-m2-cB Crystal structure of the essential protein PcsB from Streptococcus pneumoniae A0A0H2ZQ76 A0A0H2ZQ76 2.55 X-RAY DIFFRACTION 11 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 348 348 TAQQQEAQKQVDQIQEQVSAIQAEQSNLQAENDRLQAESKKLEGEITELSKNIVSRNQSLEKQARSAQTNGAVTSYINTIVNSKSITEAISRVAAMSEIVSANNKMLEQQKADKKAISEKQVANNDAINTVIANQQKLADDAQALTTKQAELKAAELSLAAEKATAEGEKASLLEQKAAAEAEARAAAVAEAAYKEKRASQQQSVLASANTNLTAQVQAVSESAAAPVRAKVRPTYSTNASSYPIGECTWGVKTLAPWAGDYWGNGAQWATSAAAAGFRTGSTPQVGAIACWNDGGYGHVAVVTAVESTTRIQVSESNYAGNRTIGNHRGWFNPTTTSEGFVTYIYAD TAQQQEAQKQVDQIQEQVSAIQAEQSNLQAENDRLQAESKKLEGEITELSKNIVSRNQSLEKQARSAQTNGAVTSYINTIVNSKSITEAISRVAAMSEIVSANNKMLEQQKADKKAISEKQVANNDAINTVIANQQKLADDAQALTTKQAELKAAELSLAAEKATAEGEKASLLEQKAAAEAEARAAAVAEAAYKEKRASQQQSVLASANTNLTAQVQAVSESAAAPVRAKVRPTYSTNASSYPIGECTWGVKTLAPWAGDYWGNGAQWATSAAAAGFRTGSTPQVGAIACWNDGGYGHVAVVTAVESTTRIQVSESNYAGNRTIGNHRGWFNPTTTSEGFVTYIYAD 4cgk-a1-m2-cB_4cgk-a1-m1-cA Crystal structure of the essential protein PcsB from Streptococcus pneumoniae A0A0H2ZQ76 A0A0H2ZQ76 2.55 X-RAY DIFFRACTION 38 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 348 351 4cgk-a1-m1-cB_4cgk-a1-m2-cA TAQQQEAQKQVDQIQEQVSAIQAEQSNLQAENDRLQAESKKLEGEITELSKNIVSRNQSLEKQARSAQTNGAVTSYINTIVNSKSITEAISRVAAMSEIVSANNKMLEQQKADKKAISEKQVANNDAINTVIANQQKLADDAQALTTKQAELKAAELSLAAEKATAEGEKASLLEQKAAAEAEARAAAVAEAAYKEKRASQQQSVLASANTNLTAQVQAVSESAAAPVRAKVRPTYSTNASSYPIGECTWGVKTLAPWAGDYWGNGAQWATSAAAAGFRTGSTPQVGAIACWNDGGYGHVAVVTAVESTTRIQVSESNYAGNRTIGNHRGWFNPTTTSEGFVTYIYAD SNLTAQQQEAQKQVDQIQEQVSAIQAEQSNLQAENDRLQAESKKLEGEITELSKNIVSRNQSLEKQARSAQTNGAVTSYINTIVNSKSITEAISRVAAMSEIVSANNKMLEQQKADKKAISEKQVANNDAINTVIANQQKLADDAQALTTKQAELKAAELSLAAEKATAEGEKASLLEQKAAAEAEARAAAVAEAAYKEKRASQQQSVLASANTNLTAQVQAVSESAAAPVRAKVRPTYSTNASSYPIGECTWGVKTLAPWAGDYWGNGAQWATSAAAAGFRTGSTPQVGAIACWNDGGYGHVAVVTAVESTTRIQVSESNYAGNRTIGNHRGWFNPTTTSEGFVTYIYAD 4cgk-a1-m2-cB_4cgk-a1-m2-cA Crystal structure of the essential protein PcsB from Streptococcus pneumoniae A0A0H2ZQ76 A0A0H2ZQ76 2.55 X-RAY DIFFRACTION 216 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 348 351 4cgk-a1-m1-cB_4cgk-a1-m1-cA TAQQQEAQKQVDQIQEQVSAIQAEQSNLQAENDRLQAESKKLEGEITELSKNIVSRNQSLEKQARSAQTNGAVTSYINTIVNSKSITEAISRVAAMSEIVSANNKMLEQQKADKKAISEKQVANNDAINTVIANQQKLADDAQALTTKQAELKAAELSLAAEKATAEGEKASLLEQKAAAEAEARAAAVAEAAYKEKRASQQQSVLASANTNLTAQVQAVSESAAAPVRAKVRPTYSTNASSYPIGECTWGVKTLAPWAGDYWGNGAQWATSAAAAGFRTGSTPQVGAIACWNDGGYGHVAVVTAVESTTRIQVSESNYAGNRTIGNHRGWFNPTTTSEGFVTYIYAD SNLTAQQQEAQKQVDQIQEQVSAIQAEQSNLQAENDRLQAESKKLEGEITELSKNIVSRNQSLEKQARSAQTNGAVTSYINTIVNSKSITEAISRVAAMSEIVSANNKMLEQQKADKKAISEKQVANNDAINTVIANQQKLADDAQALTTKQAELKAAELSLAAEKATAEGEKASLLEQKAAAEAEARAAAVAEAAYKEKRASQQQSVLASANTNLTAQVQAVSESAAAPVRAKVRPTYSTNASSYPIGECTWGVKTLAPWAGDYWGNGAQWATSAAAAGFRTGSTPQVGAIACWNDGGYGHVAVVTAVESTTRIQVSESNYAGNRTIGNHRGWFNPTTTSEGFVTYIYAD 4cha-a1-m1-cB_4cha-a1-m1-cF STRUCTURE OF ALPHA-*CHYMOTRYPSIN REFINED AT 1.68 ANGSTROMS RESOLUTION P00766 P00766 1.68 X-RAY DIFFRACTION 21 1.0 9913 (Bos taurus) 9913 (Bos taurus) 131 131 1yph-a1-m1-cC_1yph-a1-m1-cD 2cha-a1-m1-cB_2cha-a1-m1-cF 5cha-a1-m1-cB_5cha-a1-m1-cF 6cha-a1-m1-cB_6cha-a1-m1-cF IVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRY IVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRY 4chc-a2-m1-cD_4chc-a2-m1-cC Crystal structure of the N-terminal domain of the PA subunit of Thogoto virus polymerase (form 2) P27194 P27194 2.77 X-RAY DIFFRACTION 52 0.986 11569 (Thogotovirus thogotoense) 11569 (Thogotovirus thogotoense) 141 160 4cgx-a1-m1-cB_4cgx-a1-m1-cA 4chc-a1-m1-cF_4chc-a1-m1-cE 4chc-a3-m1-cB_4chc-a3-m1-cA TDRPDHIDSRVWELSETQEDWITQVHGHVRRVVECWKYTICCLISNPQYDVFKWQDRDTPDLYDNERAVAYKVLLVSDLSDHSPTSGIYHDLAFNLEGEAEESCALVLRGSQLQDIKGFLCRALEWVVSNNLTQEVVETIS DRPDHIDSRVWELSETQEDWITQVHGHVRRVVECWKYTICCLISNHTGAPQYDVFKWQDRSTIEWICSKKKVQYPERDTPDLYDNERAVAYKVLLVSDLSDHSPTSGIYHDLAFNLEGEAEESCALVLRGSQLQDIKGFLCRALEWVVSNNLTQEVVETI 4chg-a3-m1-cE_4chg-a3-m1-cF Crystal structure of VapBC15 complex from Mycobacterium tuberculosis P9WF97 P9WF97 2.1 X-RAY DIFFRACTION 62 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 129 129 4chg-a1-m1-cA_4chg-a1-m1-cB 4chg-a2-m1-cC_4chg-a2-m1-cD AIVDTSVWIAYLSTSESLASRWLADRIAADSTVIVPEVVELLIGKTDEDTAALRRRLLQRFAIEPLAPVRDAEDAAAIHRRCRRGGDTVRSLIDCQVAAALRIGVAVAHRDRDYEAIRTHCGLRTEPLF AIVDTSVWIAYLSTSESLASRWLADRIAADSTVIVPEVVELLIGKTDEDTAALRRRLLQRFAIEPLAPVRDAEDAAAIHRRCRRGGDTVRSLIDCQVAAALRIGVAVAHRDRDYEAIRTHCGLRTEPLF 4chi-a1-m1-cB_4chi-a1-m1-cA (R)-selective amine transaminase from Aspergillus fumigatus at 1.27 A resolution Q4WH08 Q4WH08 1.27 X-RAY DIFFRACTION 134 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 319 320 4uug-a1-m1-cA_4uug-a1-m1-cB SMDKVFSGYYARQKLLERSDNPFSKGIAYVEGKLVLPSDARIPLLDEGFMHSDLTYDVISVWDGRFFRLDDHLQRILESCDKMRLKFPLALSSVKNILAEMVAKSGIRDAFVEVIVTRGLTGVRGSKPEDLYNNNIYLLVLPYIWVMAPENQLHGGEAIITRTVRRTPPGAFDPTIKNLQWGDLTKGLFEAMDRGATYPFLTDGDTNLTEGSGFNIVLVKNGIIYTPDRGVLRGITRKSVIDVARANSIDIRLEVVPVEQAYHSDEIFMCTTAGGIMPITLLDGQPVNDGQVGPITKKIWDGYWEMHYNPAYSFPVDYG ASMDKVFSGYYARQKLLERSDNPFSKGIAYVEGKLVLPSDARIPLLDEGFMHSDLTYDVISVWDGRFFRLDDHLQRILESCDKMRLKFPLALSSVKNILAEMVAKSGIRDAFVEVIVTRGLTGVRGSKPEDLYNNNIYLLVLPYIWVMAPENQLHGGEAIITRTVRRTPPGAFDPTIKNLQWGDLTKGLFEAMDRGATYPFLTDGDTNLTEGSGFNIVLVKNGIIYTPDRGVLRGITRKSVIDVARANSIDIRLEVVPVEQAYHSDEIFMCTTAGGIMPITLLDGQPVNDGQVGPITKKIWDGYWEMHYNPAYSFPVDYG 4chk-a6-m1-cG_4chk-a6-m4-cB Crystal Structure of the ARF5 oligomerization domain P93024 P93024 2.85 X-RAY DIFFRACTION 32 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 88 91 4chk-a2-m1-cB_4chk-a2-m1-cD 4chk-a3-m1-cF_4chk-a3-m1-cC 4chk-a5-m1-cG_4chk-a5-m3-cF RTYTKVQKTGSVGRSIDVTSFKDYEELKSAIECMFGLEGLLTHPGWKLVYVDYESDVLLVGDDPWEEFVGCVRCIRILSPTEVQQMSE TYTKVQKTGSVGRSIDVTSFKDYEELKSAIECMFGLEGLLTHPQSSGWKLVYVDYESDVLLVGDDPWEEFVGCVRCIRILSPTEVQQMSEE 4chl-a1-m1-cA_4chl-a1-m1-cB Human Ethylmalonic Encephalopathy Protein 1 (hETHE1) O95571 O95571 2.61 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 233 236 PVDAPILLRQMFEPVSCTFTYLLGDRESREAVLIDPVLETAPRDAQLIKELGLRLLYAVNTHCHADHITGSGLLRSLLPGCQSVISRLSGAQADLHIEDGDSIRFGRFALETRASPGHTPGCVTFVLNDHSMAFTGDALLIRGCGRTDFQQGCAKTLYHSVHEKIFTLPGDCLIYPAHDYHGFTVSTVEEERTLNPRLTLSCEEFVKIMGNLNLPKPQQIDFAVPANMRGVQT GPVDAPILLRQMFEPVSCTFTYLLGDRESREAVLIDPVLETAPRDAQLIKELGLRLLYAVNTHCHADHITGSGLLRSLLPGCQSVISRLSGAQADLHIEDGDSIRFGRFALETRASPGHTPGCVTFVLNDHSMAFTGDALLIRGCGRTDFQQGCAKTLYHSVHEKIFTLPGDCLIYPAHDYHGFTVSTVEEERTLNPRLTLSCEEFVKIMGNLNLPKPQQIDFAVPANMRGVQTPT 4ci0-a1-m5-cA_4ci0-a1-m9-cA Electron cryo-microscopy of F420-reducing NiFe hydrogenase Frh D9PYF9 D9PYF9 3.36 ELECTRON MICROSCOPY 29 1.0 145263 (Methanothermobacter marburgensis) 145263 (Methanothermobacter marburgensis) 385 385 4ci0-a1-m10-cA_4ci0-a1-m3-cA 4ci0-a1-m10-cA_4ci0-a1-m8-cA 4ci0-a1-m11-cA_4ci0-a1-m4-cA 4ci0-a1-m11-cA_4ci0-a1-m6-cA 4ci0-a1-m12-cA_4ci0-a1-m2-cA 4ci0-a1-m12-cA_4ci0-a1-m7-cA 4ci0-a1-m1-cA_4ci0-a1-m5-cA 4ci0-a1-m1-cA_4ci0-a1-m9-cA 4ci0-a1-m2-cA_4ci0-a1-m7-cA 4ci0-a1-m3-cA_4ci0-a1-m8-cA 4ci0-a1-m4-cA_4ci0-a1-m6-cA SERIVISPTSRQEGHAELVMEVDDEGIVTKGRYFSITPVRGLEKMVTGKAPETAPVMVQRICGVCPIPHTLASVEAIDDSLDIEVPKAGRLLRELTLAAHHVNSHAIHHFLIAPDFVPENLMADAINSVSEIRKNAQYVVDMVAGEGIHPSDVRIGGMADNITELARKRLYARLKQLKPKVNEHVELMIGLIEDKGLPEGLGVHNQPTLASHQIYGDRTKFDLDRFTEIMPESWYDDPEIAKRACSTIPLYDGRNVEVGPRARMVEFQGFKERGVVAQHVARALEMKTALSRAIEILDELDTSAPVRADFDERGTGKLGIGAIEAPRGLDVHMAKVENGKIQFYSALVPTTWNIPTMGPATEGFHHEYGPHVIRAYDPCLSCATH SERIVISPTSRQEGHAELVMEVDDEGIVTKGRYFSITPVRGLEKMVTGKAPETAPVMVQRICGVCPIPHTLASVEAIDDSLDIEVPKAGRLLRELTLAAHHVNSHAIHHFLIAPDFVPENLMADAINSVSEIRKNAQYVVDMVAGEGIHPSDVRIGGMADNITELARKRLYARLKQLKPKVNEHVELMIGLIEDKGLPEGLGVHNQPTLASHQIYGDRTKFDLDRFTEIMPESWYDDPEIAKRACSTIPLYDGRNVEVGPRARMVEFQGFKERGVVAQHVARALEMKTALSRAIEILDELDTSAPVRADFDERGTGKLGIGAIEAPRGLDVHMAKVENGKIQFYSALVPTTWNIPTMGPATEGFHHEYGPHVIRAYDPCLSCATH 4ci7-a1-m1-cB_4ci7-a1-m1-cA The crystal structure of the cysteine protease and lectin-like domains of Cwp84, a surface layer associated protein of Clostridium difficile 1.4 X-RAY DIFFRACTION 34 1.0 367459 (Clostridioides difficile QCD-32g58) 367459 (Clostridioides difficile QCD-32g58) 454 456 SHKTLDGVETAEYSESYLQYLEDVKNGDTAKYNGVIPFPHEMEGTTLRSSVAYNPMDLGLTTPAKNQGSLNTAWSFSGMSTLEAYLKLKGYGTYDLSEEHLRWWATGGKYGWNLDDMSGSSNVTAIGYLTAWAGPKLEKDIPYNLKSEAQGATKPSNMDTAPTQFNVTDVVRLNKDKETVKNAIMQYGSVTSGYAHYSTYFNKDETAYNCTNKRAPLNHAVAIVGWDDNYSKDNFASDVKPESNGAWLVKSSWGEFNSMKGFFWISYEDKTLLTDTDNYAMKSVSKPDSDKKMYQLEYAGLSKIMSNKVTAANVFDFSRDSEKLDSVMFETDSVGAKYEVYYAPVVNGVPQNNSMTKLASGTVSYSGYINVPTNSYSLPKGKGAIVVVIDNTANPNREKSTLAYETDIDGYYLYEAKANLGESYILQNNKFEDINTYSEFSPCNFVIKAITKTS GSHKTLDGVETAEYSESYLQYLEDVKNGDTAKYNGVIPFPHEMEGTTLRKSSVAYNPMDLGLTTPAKNQGSLNTAWSFSGMSTLEAYLKLKGYGTYDLSEEHLRWWATGGKYGWNLDDMSGSSNVTAIGYLTAWAGPKLEKDIPYNLKSEAQGATKPSNMDTAPTQFNVTDVVRLNKDKETVKNAIMQYGSVTSGYAHYSTYFNKDETAYNCTNKRAPLNHAVAIVGWDDNYSKDNFASDVKPESNGAWLVKSSWGEFNSMKGFFWISYEDKTLLTDTDNYAMKSVSKPDSDKKMYQLEYAGLSKIMSNKVTAANVFDFSRDSEKLDSVMFETDSVGAKYEVYYAPVVNGVPQNNSMTKLASGTVSYSGYINVPTNSYSLPKGKGAIVVVIDNTANPNREKSTLAYETDIDGYYLYEAKANLGESYILQNNKFEDINTYSEFSPCNFVIKAITKTS 4ci8-a3-m1-cA_4ci8-a3-m1-cB Crystal structure of the tandem atypical beta-propeller domain of EML1 O00423 O00423 2.6 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 640 640 KEPVFSAEEGYVKMFLRGRPVTMYMPKDQVDSYSLEAKVELPTKRLKLEWVYGYRGRDCRNNLYLLPTGETVYFIASVVVLYNVEEQLQRHYAGHNDDVKCLAVHPDRITIATGQVAGTSKDGKQLPPHVRIWDSVTLNTLHVIGIGFFDRAVTCIAFSKSNGGTNLCAVDDSNDHVLSVWDWQKEEKLADVKCSNEAVFAADFHPTDTNIIVTCGKSHLYFWTLEGSSLNKKQGLFEKQEKPKFVLCVTFSENGDTITGDSSGNILVWGKGTNRISYAVQGAHEGGIFALCMLRDGTLVSGGGKDRKLISWSGNYQKLRKTEIPEQFGPIRTVAEGKGDVILIGTTRNFVLQGTLSGDFTPITQGHTDELWGLAIHASKSQFLTCGHDKHATLWDAVGHRPVWDKIIEDPAQSSGFHPSGSVVAVGTLTGRWFVFDTETKDLVTVHTDGNEQLSVMRYSPDGNFLAIGSHDNCIYIYGVSDNGRKYTRVGKCSGHSSFITHLDWSVNSQFLVSNSGDYEILYWVPSACKQVVSVETTRDIEWATYTCTLGFHVFGVWPEGSDGTDINAVCRAHEKKLLSTGDDFGKVHLFSYPCSQFRAPSHIYGGHSSHVTNVDFLCEDSHLISTGGKDTSIMQWRVI KEPVFSAEEGYVKMFLRGRPVTMYMPKDQVDSYSLEAKVELPTKRLKLEWVYGYRGRDCRNNLYLLPTGETVYFIASVVVLYNVEEQLQRHYAGHNDDVKCLAVHPDRITIATGQVAGTSKDGKQLPPHVRIWDSVTLNTLHVIGIGFFDRAVTCIAFSKSNGGTNLCAVDDSNDHVLSVWDWQKEEKLADVKCSNEAVFAADFHPTDTNIIVTCGKSHLYFWTLEGSSLNKKQGLFEKQEKPKFVLCVTFSENGDTITGDSSGNILVWGKGTNRISYAVQGAHEGGIFALCMLRDGTLVSGGGKDRKLISWSGNYQKLRKTEIPEQFGPIRTVAEGKGDVILIGTTRNFVLQGTLSGDFTPITQGHTDELWGLAIHASKSQFLTCGHDKHATLWDAVGHRPVWDKIIEDPAQSSGFHPSGSVVAVGTLTGRWFVFDTETKDLVTVHTDGNEQLSVMRYSPDGNFLAIGSHDNCIYIYGVSDNGRKYTRVGKCSGHSSFITHLDWSVNSQFLVSNSGDYEILYWVPSACKQVVSVETTRDIEWATYTCTLGFHVFGVWPEGSDGTDINAVCRAHEKKLLSTGDDFGKVHLFSYPCSQFRAPSHIYGGHSSHVTNVDFLCEDSHLISTGGKDTSIMQWRVI 4ci9-a1-m1-cA_4ci9-a1-m2-cA Crystal structure of cathepsin A, apo-structure P10619 P10619 1.58 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 415 415 1ivy-a1-m1-cB_1ivy-a1-m1-cA 4az0-a1-m1-cA_4az0-a1-m2-cA 4cia-a1-m1-cA_4cia-a1-m2-cA 4cib-a1-m1-cA_4cib-a1-m2-cA 4mws-a1-m1-cA_4mws-a1-m1-cB 4mwt-a1-m1-cA_4mwt-a1-m1-cB 6wia-a1-m1-cA_6wia-a1-m2-cA SRAPDQDEIQRLPGLAKQPSFRQYSGYLKGSGSKHLHYWFVESQKDPENSPVVLWLNGGPGCSSLDGLLTEHGPFLVQPDGVTLEYNPYSWNLIANVLYLESPAGVGFSYSDDKFYATNDTEVAQSNFEALQDFFRLFPEYKNNKLFLTGESYAGIYIPTLAVLVMQDPSMNLQGLAVGNGLSSYEQNDNSLVYFAYYHGLLGNRLWSSLQTHCCSQNKCNFYDNKDLECVTNLQEVARIVGNSGLNIYNLYAPCAGGVPSDPPCTNTTAASTYLNNPYVRKALNIPEQLPQWDMCNFLVNLQYRRLYRSMNSQYLKLLSSQKYQILLYNGDVDMACNFMGDEWFVDSLNQKMEVQRRPWLVKYGDSGEQIAGFVKEFSHIAFLTIKGAGHMVPTDKPLAAFTMFSRFLNKQPYE SRAPDQDEIQRLPGLAKQPSFRQYSGYLKGSGSKHLHYWFVESQKDPENSPVVLWLNGGPGCSSLDGLLTEHGPFLVQPDGVTLEYNPYSWNLIANVLYLESPAGVGFSYSDDKFYATNDTEVAQSNFEALQDFFRLFPEYKNNKLFLTGESYAGIYIPTLAVLVMQDPSMNLQGLAVGNGLSSYEQNDNSLVYFAYYHGLLGNRLWSSLQTHCCSQNKCNFYDNKDLECVTNLQEVARIVGNSGLNIYNLYAPCAGGVPSDPPCTNTTAASTYLNNPYVRKALNIPEQLPQWDMCNFLVNLQYRRLYRSMNSQYLKLLSSQKYQILLYNGDVDMACNFMGDEWFVDSLNQKMEVQRRPWLVKYGDSGEQIAGFVKEFSHIAFLTIKGAGHMVPTDKPLAAFTMFSRFLNKQPYE 4cic-a1-m1-cB_4cic-a1-m1-cA T. potens IscR D5X843 D5X843 1.6 X-RAY DIFFRACTION 105 1.0 635013 (Thermincola potens JR) 635013 (Thermincola potens JR) 137 138 GAMGLKVSTKGHYGVQAMFDLAQHFGEGPVSLKSIAERQGLSEPYLEQLIAVLRKAGLVKSVRGAQGGYILAREPRDIKVGDIIRVLEGSLKFDFSVTKSVWEKVKKSIEEVLDSITLADMLKDAEEAQMAQGYMYY GAMGLKVSTKGHYGVQAMFDLAQHFGEGPVSLKSIAERQGLSEPYLEQLIAVLRKAGLVKSVRGAQGGYILAREPRDIKVGDIIRVLEGSLKFDFSVTKSVWEKVKKSIEEVLDSITLADMLKDAEEAQMAQGYMYYI 4cid-a1-m1-cA_4cid-a1-m2-cA Structural insights into the N-terminus of the EHD2 ATPase Q8BH64 Q8BH64 3 X-RAY DIFFRACTION 132 1.0 10090 (Mus musculus) 10090 (Mus musculus) 481 481 2qpt-a1-m1-cA_2qpt-a1-m2-cA FSWKKAIRTVTSSLKELYRTKLLPLEEHYRFGSFHSPALEDADFDGKPVLVAGQYSTGKTSFIQYLLEQEVPGSRVGPEPTTDCFVAVHGETEGTVPGNALNPFGNTFLNRFCAQLPNQVLESISIIDTPGILSGSRGYDFPAVLRWFAERVDLIILLFDAHKLEISDEFSEAIGALRGHEDKIRVVLNKADVETQQLRVYGALWALGKVVGTPEVLRVYIGSFWSQPLLVPDNRRLFELEEQDLFRDIQGLPRHAALRKLNDLVKRARLVRVHAYIISYLKKEPTVFGKENKKKQLILKLPVIFAKIQLEHHISPGDFPDCQKQELLAHDFTKFHSLKPKLLEALDDLAQDIAKLPLLRQEELESVEAGVAGGAFEGTRGPFVDAEWVVTKDKSKYDEIFYNLAPADGKLSGSKAKTWVGTKLPNSVLGRIWKLSDVDRDGLDDEEFALASHLIEAKLEGHGLPTNLPRRLVPPSKRRQK FSWKKAIRTVTSSLKELYRTKLLPLEEHYRFGSFHSPALEDADFDGKPVLVAGQYSTGKTSFIQYLLEQEVPGSRVGPEPTTDCFVAVHGETEGTVPGNALNPFGNTFLNRFCAQLPNQVLESISIIDTPGILSGSRGYDFPAVLRWFAERVDLIILLFDAHKLEISDEFSEAIGALRGHEDKIRVVLNKADVETQQLRVYGALWALGKVVGTPEVLRVYIGSFWSQPLLVPDNRRLFELEEQDLFRDIQGLPRHAALRKLNDLVKRARLVRVHAYIISYLKKEPTVFGKENKKKQLILKLPVIFAKIQLEHHISPGDFPDCQKQELLAHDFTKFHSLKPKLLEALDDLAQDIAKLPLLRQEELESVEAGVAGGAFEGTRGPFVDAEWVVTKDKSKYDEIFYNLAPADGKLSGSKAKTWVGTKLPNSVLGRIWKLSDVDRDGLDDEEFALASHLIEAKLEGHGLPTNLPRRLVPPSKRRQK 4cii-a1-m1-cA_4cii-a1-m2-cA Crystal structure of N-terminally truncated Helicobacter pylori T4SS Protein CagL as domain swapped dimer O25272 O25272 2.15 X-RAY DIFFRACTION 152 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 180 180 4x5u-a1-m1-cA_4x5u-a1-m2-cA GEEDALNIKKAAIALRGDLALLKANFEANELFFISEDVIFKTYMSSPELLLTYMKINPLDQNTAEQQCGISDKVLVLYCEGKLKIEQEKQNIRERLETSLKAYQSNIGGTASLITASQTLVESLKNKNFIKGIRKLMLAHNKVFLNYLEELDALERSLEQSKRQYLQERQSSKIIVKLEH GEEDALNIKKAAIALRGDLALLKANFEANELFFISEDVIFKTYMSSPELLLTYMKINPLDQNTAEQQCGISDKVLVLYCEGKLKIEQEKQNIRERLETSLKAYQSNIGGTASLITASQTLVESLKNKNFIKGIRKLMLAHNKVFLNYLEELDALERSLEQSKRQYLQERQSSKIIVKLEH 4cij-a2-m1-cC_4cij-a2-m1-cA Structure of Rolling Circle Replication Initiator Protein from Geobacillus stearothermophilus. 2.3 X-RAY DIFFRACTION 106 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 265 267 4cij-a1-m1-cB_4cij-a1-m1-cD GLKPCVDWLQVTFKTGQDSVKKCVEKLEKVFEILGLNEAEFLPLKNGKYGYKQGVAFQGNPVLAVYYDGADDMGIHVEMTGQGCRLFELHTSINWYELFYRLVYEYEVNITRLDVAVDDFKGYFKINTLVKKLKDDEVTSRFKKARHIENIVIEGGETIGHTLYFGAPSSDIQVRFYEKNVQMGMDIDVWNRTEIQLRDDRAHVVAQIIADDVLPLGEIVAGLLRNYIQFRTRKATDKNKKRWPLARFWLNFLGDVQPLRIAKQM MSGLKPCVDWLQVTFKTGQDSVKKCVEKLEKVFEILGLNEAEFLPLKNGKYGYKQGVAFQGNPVLAVYYDGADDMGIHVEMTGQGCRLFELHTSINWYELFYRLVYEYEVNITRLDVAVDDFKGYFKINTLVKKLKDDEVTSRFKKARHIENIVIEGGETIGHTLYFGAPSSDIQVRFYEKNVQMGMDIDVWNRTEIQLRDDRAHVVAQIIADDVLPLGEIVAGLLRNYIQFRTRKATDKNKKRWPLARFWLNFLGDVQPLRIAKQM 4cim-a2-m1-cP_4cim-a2-m1-cA Complex of a Bcl-w BH3 mutant with a BH3 domain Q92843 Q92843 1.5 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 146 4cim-a1-m1-cQ_4cim-a1-m1-cB AADPLGQALRAIGDEFETRFR APDTRALVADFVGYKLRQKGYVSGAGPGEGPAADPLGQALRAIGDEFETRFRRTFSDLAAQLHVTPGSAQQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVGQVQEWMVEYLETRLADWIHSSGGWAEFTALYG 4cjd-a1-m2-cA_4cjd-a1-m3-cA Crystal structure of Neisseria meningitidis trimeric autotransporter and vaccine antigen NadA A0ELI2 A0ELI2 2.056 X-RAY DIFFRACTION 86 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 123 123 4cjd-a1-m1-cA_4cjd-a1-m2-cA 4cjd-a1-m1-cA_4cjd-a1-m3-cA PPSTDEIAKAALVGVYNNTQDINGFKVGDTIYDIENGQPKGRPATEDDVKADDFGGLGLKEVLAQHDQSLADLTGTVEENSEALVKTAEVVNDISADVKANTAAIRENKAATANGLETRLADA PPSTDEIAKAALVGVYNNTQDINGFKVGDTIYDIENGQPKGRPATEDDVKADDFGGLGLKEVLAQHDQSLADLTGTVEENSEALVKTAEVVNDISADVKANTAAIRENKAATANGLETRLADA 4cjn-a1-m1-cA_4cjn-a1-m1-cB Crystal structure of PBP2a from MRSA in complex with quinazolinone ligand A0A0J9X1X5 A0A0J9X1X5 1.947 X-RAY DIFFRACTION 63 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 642 642 3zg5-a1-m1-cC_3zg5-a1-m1-cA 3zg5-a2-m1-cD_3zg5-a2-m1-cB 4dki-a3-m1-cB_4dki-a3-m1-cA DKEINNTIDAIEDKNFKQVYKDSSYISKSDNGEVEMTERPIKIYNSLGVKDINIQDRKIKKVSKNKKRVDAQYKIKTNYGNIDRNVQFNFVKEDGMWKLDWDHSVIIPGMQKDQSIHIENLKSERGKILDRNNVELANTGTAYEIGIVPKNVSKKDYKAIAKELSISEDYIKQQMDQNWVQDDTFVPLKTVKKMDEYLSDFAKKFHLTTNETESRNYPLGKATSHLLGYVGPINSEELKQKEYKGYKDDAVIGKKGLEKLYDKKLQHEDGYRVTIVDDNSNTIAHTLIEKKKKDGKDIQLTIDAKVQKSIYNNMKNDYGSGTAIHPQTGELLALVSTPSYDVYPFMYGMSNEEYNKLTEDKKEPLLNKFQITTSPGSTQKILTAMIGLNNKTLDDKTSYKIDGKGWQKDKSWGGYNVTRYEVVNGNIDLKQAIESSDNIFFARVALELGSKKFEKGMKKLGVGEDIPSDYPFYNAQISNKNLDNEILLADSGYGQGEILINPVQILSIYSALENNGNINAPHLLKDTKNKVWKKNIISKENINLLTDGMQQVVNKTHKEDIYRSYANLIGKSGTAELKMKQGETGRQIGWFISYDKDNPNMMMAINVKDVQDKGMASYNAKISGKVYDELYENGNKKYDIDE DKEINNTIDAIEDKNFKQVYKDSSYISKSDNGEVEMTERPIKIYNSLGVKDINIQDRKIKKVSKNKKRVDAQYKIKTNYGNIDRNVQFNFVKEDGMWKLDWDHSVIIPGMQKDQSIHIENLKSERGKILDRNNVELANTGTAYEIGIVPKNVSKKDYKAIAKELSISEDYIKQQMDQNWVQDDTFVPLKTVKKMDEYLSDFAKKFHLTTNETESRNYPLGKATSHLLGYVGPINSEELKQKEYKGYKDDAVIGKKGLEKLYDKKLQHEDGYRVTIVDDNSNTIAHTLIEKKKKDGKDIQLTIDAKVQKSIYNNMKNDYGSGTAIHPQTGELLALVSTPSYDVYPFMYGMSNEEYNKLTEDKKEPLLNKFQITTSPGSTQKILTAMIGLNNKTLDDKTSYKIDGKGWQKDKSWGGYNVTRYEVVNGNIDLKQAIESSDNIFFARVALELGSKKFEKGMKKLGVGEDIPSDYPFYNAQISNKNLDNEILLADSGYGQGEILINPVQILSIYSALENNGNINAPHLLKDTKNKVWKKNIISKENINLLTDGMQQVVNKTHKEDIYRSYANLIGKSGTAELKMKQGETGRQIGWFISYDKDNPNMMMAINVKDVQDKGMASYNAKISGKVYDELYENGNKKYDIDE 4cjx-a1-m1-cA_4cjx-a1-m1-cB The crystal structure of Trypanosoma brucei N5, N10- methylenetetrahydrofolate dehydrogenase-cyclohydrolase (FolD) complexed with NADP cofactor and inhibitor Q57WP0 Q57WP0 2.05 X-RAY DIFFRACTION 75 1.0 297 297 MPEAVVIDGRAVAKAIQKELTEEVALLERRYKGRRPGLSTIICGKRKDSQTYVRLKRKAAAACGFRNFSVELPANVTQEALEREVIRLNEEEACHSIVVQLPLPPHIDKVAALSKIKPEKDADCLLPVNVGQLHIRERNPAIVPCTASAVMELLRCSGVEICGKRVVVLGRGDIAGLPVATLLANEDATVTVVHSATPLCDIADIVRASDIVVSAAGQPGLVRGEWIKLGAAVIDVGTTPVADPSKVPGYRLVGDVCFDVARKRAAYITPVPGGVGPVTVSMLLKNTLTMFKRSVRA MPEAVVIDGRAVAKAIQKELTEEVALLERRYKGRRPGLSTIICGKRKDSQTYVRLKRKAAAACGFRNFSVELPANVTQEALEREVIRLNEEEACHSIVVQLPLPPHIDKVAALSKIKPEKDADCLLPVNVGQLHIRERNPAIVPCTASAVMELLRCSGVEICGKRVVVLGRGDIAGLPVATLLANEDATVTVVHSATPLCDIADIVRASDIVVSAAGQPGLVRGEWIKLGAAVIDVGTTPVADPSKVPGYRLVGDVCFDVARKRAAYITPVPGGVGPVTVSMLLKNTLTMFKRSVRA 4ckl-a2-m1-cB_4ckl-a2-m3-cB Structure of 55 kDa N-terminal domain of E. coli DNA gyrase A subunit with simocyclinone D8 bound A0A0H3JH39 A0A0H3JH39 2.05 X-RAY DIFFRACTION 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 434 434 ALPDVRDGLKPVHRRVLYAMNVLGNDWNKAYKKSARVVGDVIGKYHPHGDSAVYDTIVRMAQPFSLRYMLVDGQGNFGSIDGDSAAAMRYTEIRLAKIAHELMADLEKETVDFVDNYDGTEKIPDVMPTKIPNLLVNGSSATNIPPHNLTEVINGCLAYIDDEDISIEGLMEHIPGPDFPTAAIINGRRGIEEAYRTGRGKVYIRARAEVETIIVHEIPYQVNKARLIEKIAELVKEKRVEGISALRDESDKDGMRIVIEEVVLNNLYSQTQLQVSFGINMVALHHGQPKIMNLKDIIAAFVRHRREVVTRRTIFELRKARDRAHILEALAVALANIDPIIELINPWQLGDAARPEWLEPLYYLTEQQAQAILDLRLQKLLEHEKLLDEYKELLDQIAELLRILGSADRLMEVIREELELVREQFGDKRRTEIT ALPDVRDGLKPVHRRVLYAMNVLGNDWNKAYKKSARVVGDVIGKYHPHGDSAVYDTIVRMAQPFSLRYMLVDGQGNFGSIDGDSAAAMRYTEIRLAKIAHELMADLEKETVDFVDNYDGTEKIPDVMPTKIPNLLVNGSSATNIPPHNLTEVINGCLAYIDDEDISIEGLMEHIPGPDFPTAAIINGRRGIEEAYRTGRGKVYIRARAEVETIIVHEIPYQVNKARLIEKIAELVKEKRVEGISALRDESDKDGMRIVIEEVVLNNLYSQTQLQVSFGINMVALHHGQPKIMNLKDIIAAFVRHRREVVTRRTIFELRKARDRAHILEALAVALANIDPIIELINPWQLGDAARPEWLEPLYYLTEQQAQAILDLRLQKLLEHEKLLDEYKELLDQIAELLRILGSADRLMEVIREELELVREQFGDKRRTEIT 4ckp-a1-m3-cD_4ckp-a1-m3-cE Structure of an N-terminal fragment of Leishmania SAS-6 that contains part of its coiled coil domain E9AFQ5 E9AFQ5 3.45 X-RAY DIFFRACTION 49 1.0 5664 (Leishmania major) 5664 (Leishmania major) 188 190 4ckm-a1-m1-cA_4ckm-a1-m2-cA 4ckm-a2-m1-cC_4ckm-a2-m1-cB 4ckp-a1-m1-cA_4ckp-a1-m3-cF 4ckp-a1-m1-cB_4ckp-a1-m1-cC 4ckp-a1-m1-cD_4ckp-a1-m1-cE 4ckp-a1-m2-cA_4ckp-a1-m1-cF 4ckp-a1-m2-cB_4ckp-a1-m2-cC 4ckp-a1-m2-cD_4ckp-a1-m2-cE 4ckp-a1-m3-cA_4ckp-a1-m2-cF 4ckp-a1-m3-cB_4ckp-a1-m3-cC EPQTLLETTVMVSTKMPPHEPQVRPLGVYVRTGRGGPNGVTRVVLVRLTDPTDPFFLFELELLEDDYNAFKQHLELLVDFHGFPRYLVGMLRDIADGASAYELSFVLNSAAVGDSNRGTLRVLETTDFKTVEHISLVLLRQGDAGLKRYLAERFQHYEQSFRASEASRAVITAELQEKIGDLQAANDA EPQTLLETTVMVSTKMPPHEPQVRPLGVYVRTGRGGPNGVTRVVLVRLTDPTDPFFLFELELLEDDYNAFKQHLELLVDFHGFPRYLVGMLRDIADGASAYELSFVLNSAAVGDSNRGTLRVLETTDFKTVEHISLVLLRQGDAGLKRYLAERFQHYEQSFRASEASRAVITAELQEKIGDLQAANDALR 4ckp-a1-m3-cF_4ckp-a1-m3-cE Structure of an N-terminal fragment of Leishmania SAS-6 that contains part of its coiled coil domain E9AFQ5 E9AFQ5 3.45 X-RAY DIFFRACTION 88 1.0 5664 (Leishmania major) 5664 (Leishmania major) 189 190 4ckn-a1-m1-cA_4ckn-a1-m1-cB 4ckn-a2-m1-cD_4ckn-a2-m1-cC 4ckp-a1-m1-cA_4ckp-a1-m1-cB 4ckp-a1-m1-cD_4ckp-a1-m1-cC 4ckp-a1-m1-cF_4ckp-a1-m1-cE 4ckp-a1-m2-cA_4ckp-a1-m2-cB 4ckp-a1-m2-cD_4ckp-a1-m2-cC 4ckp-a1-m2-cF_4ckp-a1-m2-cE 4ckp-a1-m3-cA_4ckp-a1-m3-cB 4ckp-a1-m3-cD_4ckp-a1-m3-cC EPQTLLETTVMVSTKMPPHEPQVRPLGVYVRTGRGGPNGVTRVVLVRLTDPTDPFFLFELELLEDDYNAFKQHLELLVDFHGFPRYLVGMLRDIADGASAYELSFVLNSAAVGDSNRGTLRVLETTDFKTVEHISLVLLRQGDAGLKRYLAERFQHYEQSFRASEASRAVITAELQEKIGDLQAANDAL EPQTLLETTVMVSTKMPPHEPQVRPLGVYVRTGRGGPNGVTRVVLVRLTDPTDPFFLFELELLEDDYNAFKQHLELLVDFHGFPRYLVGMLRDIADGASAYELSFVLNSAAVGDSNRGTLRVLETTDFKTVEHISLVLLRQGDAGLKRYLAERFQHYEQSFRASEASRAVITAELQEKIGDLQAANDALR 4cku-a1-m1-cA_4cku-a1-m2-cF Three dimensional structure of plasmepsin II in complex with hydroxyethylamine-based inhibitor P46925 P46925 1.85 X-RAY DIFFRACTION 28 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 323 329 4cku-a1-m2-cA_4cku-a1-m1-cF 4cku-a2-m1-cC_4cku-a2-m1-cE 4cku-a2-m1-cD_4cku-a2-m1-cB NDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL SSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 4cku-a1-m2-cA_4cku-a1-m2-cF Three dimensional structure of plasmepsin II in complex with hydroxyethylamine-based inhibitor P46925 P46925 1.85 X-RAY DIFFRACTION 50 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 323 329 1lee-a3-m1-cA_1lee-a3-m3-cA 1lee-a3-m2-cA_1lee-a3-m4-cA 4cku-a1-m1-cA_4cku-a1-m1-cF 4cku-a2-m1-cC_4cku-a2-m1-cB 4cku-a2-m1-cE_4cku-a2-m1-cD NDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL SSNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 4cku-a2-m1-cE_4cku-a2-m1-cB Three dimensional structure of plasmepsin II in complex with hydroxyethylamine-based inhibitor P46925 P46925 1.85 X-RAY DIFFRACTION 15 0.997 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 322 327 4cku-a1-m1-cA_4cku-a1-m2-cA SNDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL NDNIELVDFQNIMFYGDAEVGDNQQPFTFILDTGSANLWVPSVKCTTAGCLTKHLYDSSKSRTYEKDGTKVEMNYVSGTVSGFFSKDLVTVGNLSLPYKFIEVIDTNGFEPTYTASTFDGILGLGWKDLSIGSVDPIVVELKNQNKIENALFTFYLPVHDKHTGFLTIGGIEERFYEGPLTYEKLNHDLYWQITLDAHVGNISLEKANCIVDSGTSAITVPTDFLNKMLQNLDVIKVPFLPFYVTLCNNSKLPTFEFTSENGKYTLEPEYYLQHIEDVGPGLCMLNIIGLDFPVPTFILGDPFMRKYFTVFDYDNHSVGIALAKKNL 4cky-a1-m7-cA_4cky-a1-m9-cA Structure of the Mycobacterium tuberculosis Type II Dehydroquinase inhibited by a 3-dehydroquinic acid derivative P9WPX7 P9WPX7 1.65 X-RAY DIFFRACTION 72 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 134 134 1h05-a1-m10-cA_1h05-a1-m8-cA 1h05-a1-m11-cA_1h05-a1-m12-cA 1h05-a1-m1-cA_1h05-a1-m2-cA 1h05-a1-m3-cA_1h05-a1-m5-cA 1h05-a1-m4-cA_1h05-a1-m6-cA 1h05-a1-m7-cA_1h05-a1-m9-cA 1h0r-a1-m10-cA_1h0r-a1-m8-cA 1h0r-a1-m11-cA_1h0r-a1-m12-cA 1h0r-a1-m1-cA_1h0r-a1-m2-cA 1h0r-a1-m3-cA_1h0r-a1-m5-cA 1h0r-a1-m4-cA_1h0r-a1-m6-cA 1h0r-a1-m7-cA_1h0r-a1-m9-cA 2dhq-a1-m10-cA_2dhq-a1-m9-cA 2dhq-a1-m1-cA_2dhq-a1-m7-cA 2dhq-a1-m3-cA_2dhq-a1-m6-cA 2dhq-a1-m5-cA_2dhq-a1-m8-cA 2dhq-a2-m10-cA_2dhq-a2-m9-cA 2dhq-a2-m11-cA_2dhq-a2-m4-cA 2dhq-a2-m12-cA_2dhq-a2-m2-cA 2dhq-a2-m1-cA_2dhq-a2-m7-cA 2dhq-a2-m3-cA_2dhq-a2-m6-cA 2dhq-a2-m5-cA_2dhq-a2-m8-cA 2xb8-a1-m10-cA_2xb8-a1-m4-cA 2xb8-a1-m11-cA_2xb8-a1-m12-cA 2xb8-a1-m1-cA_2xb8-a1-m7-cA 2xb8-a1-m2-cA_2xb8-a1-m6-cA 2xb8-a1-m3-cA_2xb8-a1-m5-cA 2xb8-a1-m8-cA_2xb8-a1-m9-cA 3n59-a1-m1-cA_3n59-a1-m1-cG 3n59-a1-m1-cE_3n59-a1-m1-cK 3n59-a1-m1-cF_3n59-a1-m1-cB 3n59-a1-m1-cH_3n59-a1-m1-cC 3n59-a1-m1-cI_3n59-a1-m1-cD 3n59-a1-m1-cJ_3n59-a1-m1-cL 3n59-a2-m1-cO_3n59-a2-m1-cT 3n59-a2-m1-cP_3n59-a2-m1-cU 3n59-a2-m1-cR_3n59-a2-m1-cN 3n59-a2-m1-cS_3n59-a2-m1-cM 3n59-a2-m1-cV_3n59-a2-m1-cX 3n59-a2-m1-cW_3n59-a2-m1-cQ 3n76-a1-m10-cA_3n76-a1-m11-cA 3n76-a1-m12-cA_3n76-a1-m9-cA 3n76-a1-m1-cA_3n76-a1-m4-cA 3n76-a1-m2-cA_3n76-a1-m3-cA 3n76-a1-m5-cA_3n76-a1-m8-cA 3n76-a1-m6-cA_3n76-a1-m7-cA 3n7a-a1-m1-cA_3n7a-a1-m1-cG 3n7a-a1-m1-cC_3n7a-a1-m1-cH 3n7a-a1-m1-cD_3n7a-a1-m1-cI 3n7a-a1-m1-cE_3n7a-a1-m1-cK 3n7a-a1-m1-cF_3n7a-a1-m1-cB 3n7a-a1-m1-cJ_3n7a-a1-m1-cL 3n7a-a2-m1-cM_3n7a-a2-m1-cS 3n7a-a2-m1-cN_3n7a-a2-m1-cR 3n7a-a2-m1-cO_3n7a-a2-m1-cT 3n7a-a2-m1-cP_3n7a-a2-m1-cU 3n7a-a2-m1-cQ_3n7a-a2-m1-cW 3n7a-a2-m1-cX_3n7a-a2-m1-cV 3n86-a1-m1-cA_3n86-a1-m1-cG 3n86-a1-m1-cB_3n86-a1-m1-cF 3n86-a1-m1-cC_3n86-a1-m1-cH 3n86-a1-m1-cD_3n86-a1-m1-cI 3n86-a1-m1-cE_3n86-a1-m1-cK 3n86-a1-m1-cL_3n86-a1-m1-cJ 3n86-a2-m1-cM_3n86-a2-m1-cS 3n86-a2-m1-cN_3n86-a2-m1-cR 3n86-a2-m1-cO_3n86-a2-m1-cT 3n86-a2-m1-cQ_3n86-a2-m1-cW 3n86-a2-m1-cU_3n86-a2-m1-cP 3n86-a2-m1-cX_3n86-a2-m1-cV 3n87-a1-m1-cA_3n87-a1-m1-cG 3n87-a1-m1-cB_3n87-a1-m1-cF 3n87-a1-m1-cC_3n87-a1-m1-cH 3n87-a1-m1-cD_3n87-a1-m1-cI 3n87-a1-m1-cE_3n87-a1-m1-cK 3n87-a1-m1-cJ_3n87-a1-m1-cL 3n87-a2-m1-cM_3n87-a2-m1-cS 3n87-a2-m1-cN_3n87-a2-m1-cR 3n87-a2-m1-cO_3n87-a2-m1-cT 3n87-a2-m1-cP_3n87-a2-m1-cU 3n87-a2-m1-cQ_3n87-a2-m1-cW 3n87-a2-m1-cV_3n87-a2-m1-cX 3n8k-a1-m1-cA_3n8k-a1-m1-cG 3n8k-a1-m1-cF_3n8k-a1-m1-cB 3n8k-a1-m1-cH_3n8k-a1-m1-cC 3n8k-a1-m1-cI_3n8k-a1-m1-cD 3n8k-a1-m1-cJ_3n8k-a1-m1-cL 3n8k-a1-m1-cK_3n8k-a1-m1-cE 3n8k-a2-m1-cN_3n8k-a2-m1-cR 3n8k-a2-m1-cO_3n8k-a2-m1-cT 3n8k-a2-m1-cP_3n8k-a2-m1-cU 3n8k-a2-m1-cQ_3n8k-a2-m1-cW 3n8k-a2-m1-cS_3n8k-a2-m1-cM 3n8k-a2-m1-cX_3n8k-a2-m1-cV 3n8n-a1-m1-cB_3n8n-a1-m1-cF 3n8n-a1-m1-cC_3n8n-a1-m1-cH 3n8n-a1-m1-cD_3n8n-a1-m1-cI 3n8n-a1-m1-cG_3n8n-a1-m1-cA 3n8n-a1-m1-cK_3n8n-a1-m1-cE 3n8n-a1-m1-cL_3n8n-a1-m1-cJ 3n8n-a2-m1-cM_3n8n-a2-m1-cS 3n8n-a2-m1-cN_3n8n-a2-m1-cR 3n8n-a2-m1-cO_3n8n-a2-m1-cT 3n8n-a2-m1-cP_3n8n-a2-m1-cU 3n8n-a2-m1-cQ_3n8n-a2-m1-cW 3n8n-a2-m1-cV_3n8n-a2-m1-cX 4b6o-a1-m10-cA_4b6o-a1-m6-cA 4b6o-a1-m11-cA_4b6o-a1-m8-cA 4b6o-a1-m12-cA_4b6o-a1-m3-cA 4b6o-a1-m1-cA_4b6o-a1-m7-cA 4b6o-a1-m2-cA_4b6o-a1-m4-cA 4b6o-a1-m5-cA_4b6o-a1-m9-cA 4b6p-a1-m10-cA_4b6p-a1-m9-cA 4b6p-a1-m11-cA_4b6p-a1-m6-cA 4b6p-a1-m12-cA_4b6p-a1-m8-cA 4b6p-a1-m1-cA_4b6p-a1-m4-cA 4b6p-a1-m2-cA_4b6p-a1-m7-cA 4b6p-a1-m3-cA_4b6p-a1-m5-cA 4b6q-a1-m10-cA_4b6q-a1-m6-cA 4b6q-a1-m11-cA_4b6q-a1-m12-cA 4b6q-a1-m1-cA_4b6q-a1-m7-cA 4b6q-a1-m2-cA_4b6q-a1-m4-cA 4b6q-a1-m3-cA_4b6q-a1-m5-cA 4b6q-a1-m8-cA_4b6q-a1-m9-cA 4civ-a1-m10-cA_4civ-a1-m4-cA 4civ-a1-m11-cA_4civ-a1-m12-cA 4civ-a1-m1-cA_4civ-a1-m7-cA 4civ-a1-m2-cA_4civ-a1-m6-cA 4civ-a1-m3-cA_4civ-a1-m5-cA 4civ-a1-m8-cA_4civ-a1-m9-cA 4ciw-a1-m10-cA_4ciw-a1-m12-cA 4ciw-a1-m11-cA_4ciw-a1-m7-cA 4ciw-a1-m1-cA_4ciw-a1-m4-cA 4ciw-a1-m2-cA_4ciw-a1-m9-cA 4ciw-a1-m3-cA_4ciw-a1-m5-cA 4ciw-a1-m6-cA_4ciw-a1-m8-cA 4cix-a1-m10-cA_4cix-a1-m9-cA 4cix-a1-m11-cA_4cix-a1-m7-cA 4cix-a1-m12-cA_4cix-a1-m3-cA 4cix-a1-m1-cA_4cix-a1-m2-cA 4cix-a1-m4-cA_4cix-a1-m8-cA 4cix-a1-m5-cA_4cix-a1-m6-cA 4ciy-a1-m10-cA_4ciy-a1-m9-cA 4ciy-a1-m11-cA_4ciy-a1-m5-cA 4ciy-a1-m12-cA_4ciy-a1-m8-cA 4ciy-a1-m1-cA_4ciy-a1-m7-cA 4ciy-a1-m2-cA_4ciy-a1-m4-cA 4ciy-a1-m3-cA_4ciy-a1-m6-cA 4ckx-a1-m10-cA_4ckx-a1-m9-cA 4ckx-a1-m11-cA_4ckx-a1-m6-cA 4ckx-a1-m12-cA_4ckx-a1-m8-cA 4ckx-a1-m1-cA_4ckx-a1-m4-cA 4ckx-a1-m2-cA_4ckx-a1-m7-cA 4ckx-a1-m3-cA_4ckx-a1-m5-cA 4cky-a1-m10-cA_4cky-a1-m3-cA 4cky-a1-m11-cA_4cky-a1-m2-cA 4cky-a1-m12-cA_4cky-a1-m5-cA 4cky-a1-m1-cA_4cky-a1-m8-cA 4cky-a1-m4-cA_4cky-a1-m6-cA 4ckz-a1-m1-cA_4ckz-a1-m1-cB 4cl0-a1-m10-cA_4cl0-a1-m12-cA 4cl0-a1-m11-cA_4cl0-a1-m7-cA 4cl0-a1-m1-cA_4cl0-a1-m4-cA 4cl0-a1-m2-cA_4cl0-a1-m9-cA 4cl0-a1-m3-cA_4cl0-a1-m5-cA 4cl0-a1-m6-cA_4cl0-a1-m8-cA 4ki7-a1-m1-cA_4ki7-a1-m1-cG 4ki7-a1-m1-cB_4ki7-a1-m1-cF 4ki7-a1-m1-cC_4ki7-a1-m1-cH 4ki7-a1-m1-cE_4ki7-a1-m1-cK 4ki7-a1-m1-cI_4ki7-a1-m1-cD 4ki7-a1-m1-cJ_4ki7-a1-m1-cL 4ki7-a2-m1-cM_4ki7-a2-m1-cS 4ki7-a2-m1-cN_4ki7-a2-m1-cR 4ki7-a2-m1-cO_4ki7-a2-m1-cT 4ki7-a2-m1-cP_4ki7-a2-m1-cU 4ki7-a2-m1-cQ_4ki7-a2-m1-cW 4ki7-a2-m1-cV_4ki7-a2-m1-cX 4ki7-a3-m1-cA_4ki7-a3-m1-cG 4ki7-a3-m1-cB_4ki7-a3-m1-cF 4ki7-a3-m1-cC_4ki7-a3-m1-cH 4ki7-a3-m1-cE_4ki7-a3-m1-cK 4ki7-a3-m1-cI_4ki7-a3-m1-cD 4ki7-a3-m1-cJ_4ki7-a3-m1-cL 4ki7-a3-m1-cM_4ki7-a3-m1-cS 4ki7-a3-m1-cN_4ki7-a3-m1-cR 4ki7-a3-m1-cO_4ki7-a3-m1-cT 4ki7-a3-m1-cP_4ki7-a3-m1-cU 4ki7-a3-m1-cQ_4ki7-a3-m1-cW 4ki7-a3-m1-cV_4ki7-a3-m1-cX 4kij-a1-m11-cA_4kij-a1-m8-cA 4kij-a1-m12-cA_4kij-a1-m6-cA 4kij-a1-m1-cA_4kij-a1-m10-cA 4kij-a1-m2-cA_4kij-a1-m5-cA 4kij-a1-m3-cA_4kij-a1-m9-cA 4kij-a1-m4-cA_4kij-a1-m7-cA 4kiu-a1-m1-cA_4kiu-a1-m1-cG 4kiu-a1-m1-cB_4kiu-a1-m1-cF 4kiu-a1-m1-cC_4kiu-a1-m1-cH 4kiu-a1-m1-cE_4kiu-a1-m1-cK 4kiu-a1-m1-cI_4kiu-a1-m1-cD 4kiu-a1-m1-cJ_4kiu-a1-m1-cL 4kiu-a2-m1-cM_4kiu-a2-m1-cS 4kiu-a2-m1-cN_4kiu-a2-m1-cR 4kiu-a2-m1-cO_4kiu-a2-m1-cT 4kiu-a2-m1-cP_4kiu-a2-m1-cU 4kiu-a2-m1-cQ_4kiu-a2-m1-cW 4kiw-a1-m1-cA_4kiw-a1-m1-cG 4kiw-a1-m1-cC_4kiw-a1-m1-cH 4kiw-a1-m1-cD_4kiw-a1-m1-cI 4kiw-a1-m1-cE_4kiw-a1-m1-cK 4kiw-a1-m1-cF_4kiw-a1-m1-cB 4kiw-a1-m1-cL_4kiw-a1-m1-cJ 4kiw-a2-m1-cM_4kiw-a2-m1-cS 4kiw-a2-m1-cP_4kiw-a2-m1-cU 4kiw-a2-m1-cQ_4kiw-a2-m1-cW 4kiw-a2-m1-cR_4kiw-a2-m1-cN 4kiw-a2-m1-cT_4kiw-a2-m1-cO 4kiw-a2-m1-cV_4kiw-a2-m1-cX LIVNVINGPNLGRLGRGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH LIVNVINGPNLGRLGRGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH 4cky-a1-m8-cA_4cky-a1-m9-cA Structure of the Mycobacterium tuberculosis Type II Dehydroquinase inhibited by a 3-dehydroquinic acid derivative P9WPX7 P9WPX7 1.65 X-RAY DIFFRACTION 44 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 134 134 1h05-a1-m10-cA_1h05-a1-m12-cA 1h05-a1-m10-cA_1h05-a1-m5-cA 1h05-a1-m11-cA_1h05-a1-m6-cA 1h05-a1-m11-cA_1h05-a1-m9-cA 1h05-a1-m12-cA_1h05-a1-m5-cA 1h05-a1-m1-cA_1h05-a1-m3-cA 1h05-a1-m1-cA_1h05-a1-m4-cA 1h05-a1-m2-cA_1h05-a1-m7-cA 1h05-a1-m2-cA_1h05-a1-m8-cA 1h05-a1-m3-cA_1h05-a1-m4-cA 1h05-a1-m6-cA_1h05-a1-m9-cA 1h05-a1-m7-cA_1h05-a1-m8-cA 1h0r-a1-m10-cA_1h0r-a1-m12-cA 1h0r-a1-m10-cA_1h0r-a1-m5-cA 1h0r-a1-m11-cA_1h0r-a1-m6-cA 1h0r-a1-m11-cA_1h0r-a1-m9-cA 1h0r-a1-m12-cA_1h0r-a1-m5-cA 1h0r-a1-m1-cA_1h0r-a1-m3-cA 1h0r-a1-m1-cA_1h0r-a1-m4-cA 1h0r-a1-m2-cA_1h0r-a1-m7-cA 1h0r-a1-m2-cA_1h0r-a1-m8-cA 1h0r-a1-m3-cA_1h0r-a1-m4-cA 1h0r-a1-m6-cA_1h0r-a1-m9-cA 1h0r-a1-m7-cA_1h0r-a1-m8-cA 1h0s-a1-m10-cA_1h0s-a1-m3-cA 1h0s-a1-m11-cA_1h0s-a1-m5-cA 1h0s-a1-m11-cA_1h0s-a1-m7-cA 1h0s-a1-m12-cA_1h0s-a1-m6-cA 1h0s-a1-m12-cA_1h0s-a1-m8-cA 1h0s-a1-m1-cA_1h0s-a1-m10-cA 1h0s-a1-m1-cA_1h0s-a1-m3-cA 1h0s-a1-m2-cA_1h0s-a1-m4-cA 1h0s-a1-m2-cA_1h0s-a1-m9-cA 1h0s-a1-m4-cA_1h0s-a1-m9-cA 1h0s-a1-m5-cA_1h0s-a1-m7-cA 1h0s-a1-m6-cA_1h0s-a1-m8-cA 2dhq-a1-m10-cA_2dhq-a1-m5-cA 2dhq-a1-m1-cA_2dhq-a1-m10-cA 2dhq-a1-m1-cA_2dhq-a1-m5-cA 2dhq-a1-m2-cA_2dhq-a1-m4-cA 2dhq-a1-m2-cA_2dhq-a1-m9-cA 2dhq-a1-m3-cA_2dhq-a1-m8-cA 2dhq-a1-m4-cA_2dhq-a1-m9-cA 2dhq-a1-m6-cA_2dhq-a1-m7-cA 2dhq-a2-m10-cA_2dhq-a2-m5-cA 2dhq-a2-m11-cA_2dhq-a2-m3-cA 2dhq-a2-m11-cA_2dhq-a2-m8-cA 2dhq-a2-m12-cA_2dhq-a2-m6-cA 2dhq-a2-m12-cA_2dhq-a2-m7-cA 2dhq-a2-m1-cA_2dhq-a2-m10-cA 2dhq-a2-m1-cA_2dhq-a2-m5-cA 2dhq-a2-m2-cA_2dhq-a2-m4-cA 2dhq-a2-m2-cA_2dhq-a2-m9-cA 2dhq-a2-m3-cA_2dhq-a2-m8-cA 2dhq-a2-m4-cA_2dhq-a2-m9-cA 2dhq-a2-m6-cA_2dhq-a2-m7-cA 2xb8-a1-m10-cA_2xb8-a1-m11-cA 2xb8-a1-m12-cA_2xb8-a1-m5-cA 2xb8-a1-m12-cA_2xb8-a1-m9-cA 2xb8-a1-m1-cA_2xb8-a1-m10-cA 2xb8-a1-m1-cA_2xb8-a1-m11-cA 2xb8-a1-m2-cA_2xb8-a1-m3-cA 2xb8-a1-m2-cA_2xb8-a1-m7-cA 2xb8-a1-m3-cA_2xb8-a1-m7-cA 2xb8-a1-m4-cA_2xb8-a1-m6-cA 2xb8-a1-m4-cA_2xb8-a1-m8-cA 2xb8-a1-m5-cA_2xb8-a1-m9-cA 2xb8-a1-m6-cA_2xb8-a1-m8-cA 2y71-a1-m1-cA_2y71-a1-m2-cA 2y71-a1-m1-cA_2y71-a1-m3-cA 2y71-a1-m2-cA_2y71-a1-m3-cA 2y76-a1-m1-cA_2y76-a1-m2-cA 2y76-a1-m1-cA_2y76-a1-m3-cA 2y76-a1-m2-cA_2y76-a1-m3-cA 2y77-a1-m1-cA_2y77-a1-m2-cA 2y77-a1-m1-cA_2y77-a1-m3-cA 2y77-a1-m2-cA_2y77-a1-m3-cA 3n59-a1-m1-cB_3n59-a1-m1-cC 3n59-a1-m1-cB_3n59-a1-m1-cE 3n59-a1-m1-cD_3n59-a1-m1-cG 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3n7a-a1-m1-cB_3n7a-a1-m1-cE 3n7a-a1-m1-cC_3n7a-a1-m1-cB 3n7a-a1-m1-cC_3n7a-a1-m1-cE 3n7a-a1-m1-cD_3n7a-a1-m1-cG 3n7a-a1-m1-cF_3n7a-a1-m1-cD 3n7a-a1-m1-cF_3n7a-a1-m1-cG 3n7a-a1-m1-cH_3n7a-a1-m1-cI 3n7a-a1-m1-cH_3n7a-a1-m1-cJ 3n7a-a1-m1-cI_3n7a-a1-m1-cJ 3n7a-a1-m1-cK_3n7a-a1-m1-cL 3n7a-a2-m1-cM_3n7a-a2-m1-cW 3n7a-a2-m1-cN_3n7a-a2-m1-cO 3n7a-a2-m1-cN_3n7a-a2-m1-cQ 3n7a-a2-m1-cO_3n7a-a2-m1-cQ 3n7a-a2-m1-cP_3n7a-a2-m1-cR 3n7a-a2-m1-cP_3n7a-a2-m1-cS 3n7a-a2-m1-cR_3n7a-a2-m1-cS 3n7a-a2-m1-cT_3n7a-a2-m1-cU 3n7a-a2-m1-cT_3n7a-a2-m1-cV 3n7a-a2-m1-cU_3n7a-a2-m1-cV 3n7a-a2-m1-cX_3n7a-a2-m1-cM 3n7a-a2-m1-cX_3n7a-a2-m1-cW 3n86-a1-m1-cA_3n86-a1-m1-cK 3n86-a1-m1-cA_3n86-a1-m1-cL 3n86-a1-m1-cB_3n86-a1-m1-cC 3n86-a1-m1-cB_3n86-a1-m1-cE 3n86-a1-m1-cC_3n86-a1-m1-cE 3n86-a1-m1-cD_3n86-a1-m1-cF 3n86-a1-m1-cD_3n86-a1-m1-cG 3n86-a1-m1-cF_3n86-a1-m1-cG 3n86-a1-m1-cH_3n86-a1-m1-cI 3n86-a1-m1-cH_3n86-a1-m1-cJ 3n86-a1-m1-cI_3n86-a1-m1-cJ 3n86-a1-m1-cL_3n86-a1-m1-cK 3n86-a2-m1-cM_3n86-a2-m1-cW 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4ki7-a1-m1-cH_4ki7-a1-m1-cI 4ki7-a1-m1-cH_4ki7-a1-m1-cJ 4ki7-a1-m1-cI_4ki7-a1-m1-cJ 4ki7-a1-m1-cK_4ki7-a1-m1-cL 4ki7-a2-m1-cM_4ki7-a2-m1-cW 4ki7-a2-m1-cM_4ki7-a2-m1-cX 4ki7-a2-m1-cN_4ki7-a2-m1-cO 4ki7-a2-m1-cP_4ki7-a2-m1-cR 4ki7-a2-m1-cQ_4ki7-a2-m1-cN 4ki7-a2-m1-cQ_4ki7-a2-m1-cO 4ki7-a2-m1-cS_4ki7-a2-m1-cP 4ki7-a2-m1-cS_4ki7-a2-m1-cR 4ki7-a2-m1-cT_4ki7-a2-m1-cU 4ki7-a2-m1-cT_4ki7-a2-m1-cV 4ki7-a2-m1-cU_4ki7-a2-m1-cV 4ki7-a2-m1-cW_4ki7-a2-m1-cX 4ki7-a3-m1-cA_4ki7-a3-m1-cK 4ki7-a3-m1-cA_4ki7-a3-m1-cL 4ki7-a3-m1-cB_4ki7-a3-m1-cC 4ki7-a3-m1-cB_4ki7-a3-m1-cE 4ki7-a3-m1-cC_4ki7-a3-m1-cE 4ki7-a3-m1-cF_4ki7-a3-m1-cD 4ki7-a3-m1-cF_4ki7-a3-m1-cG 4ki7-a3-m1-cG_4ki7-a3-m1-cD 4ki7-a3-m1-cH_4ki7-a3-m1-cI 4ki7-a3-m1-cH_4ki7-a3-m1-cJ 4ki7-a3-m1-cI_4ki7-a3-m1-cJ 4ki7-a3-m1-cK_4ki7-a3-m1-cL 4ki7-a3-m1-cM_4ki7-a3-m1-cW 4ki7-a3-m1-cM_4ki7-a3-m1-cX 4ki7-a3-m1-cN_4ki7-a3-m1-cO 4ki7-a3-m1-cP_4ki7-a3-m1-cR 4ki7-a3-m1-cQ_4ki7-a3-m1-cN 4ki7-a3-m1-cQ_4ki7-a3-m1-cO 4ki7-a3-m1-cS_4ki7-a3-m1-cP 4ki7-a3-m1-cS_4ki7-a3-m1-cR 4ki7-a3-m1-cT_4ki7-a3-m1-cU 4ki7-a3-m1-cT_4ki7-a3-m1-cV 4ki7-a3-m1-cU_4ki7-a3-m1-cV 4ki7-a3-m1-cW_4ki7-a3-m1-cX 4kij-a1-m10-cA_4kij-a1-m5-cA 4kij-a1-m10-cA_4kij-a1-m9-cA 4kij-a1-m11-cA_4kij-a1-m3-cA 4kij-a1-m11-cA_4kij-a1-m4-cA 4kij-a1-m12-cA_4kij-a1-m2-cA 4kij-a1-m12-cA_4kij-a1-m7-cA 4kij-a1-m1-cA_4kij-a1-m6-cA 4kij-a1-m1-cA_4kij-a1-m8-cA 4kij-a1-m2-cA_4kij-a1-m7-cA 4kij-a1-m3-cA_4kij-a1-m4-cA 4kij-a1-m5-cA_4kij-a1-m9-cA 4kij-a1-m6-cA_4kij-a1-m8-cA 4kiu-a1-m1-cA_4kiu-a1-m1-cK 4kiu-a1-m1-cA_4kiu-a1-m1-cL 4kiu-a1-m1-cB_4kiu-a1-m1-cC 4kiu-a1-m1-cB_4kiu-a1-m1-cE 4kiu-a1-m1-cC_4kiu-a1-m1-cE 4kiu-a1-m1-cF_4kiu-a1-m1-cD 4kiu-a1-m1-cF_4kiu-a1-m1-cG 4kiu-a1-m1-cG_4kiu-a1-m1-cD 4kiu-a1-m1-cH_4kiu-a1-m1-cI 4kiu-a1-m1-cH_4kiu-a1-m1-cJ 4kiu-a1-m1-cI_4kiu-a1-m1-cJ 4kiu-a1-m1-cK_4kiu-a1-m1-cL 4kiu-a2-m1-cM_4kiu-a2-m1-cW 4kiu-a2-m1-cM_4kiu-a2-m1-cX 4kiu-a2-m1-cN_4kiu-a2-m1-cO 4kiu-a2-m1-cN_4kiu-a2-m1-cQ 4kiu-a2-m1-cO_4kiu-a2-m1-cQ 4kiu-a2-m1-cP_4kiu-a2-m1-cR 4kiu-a2-m1-cP_4kiu-a2-m1-cS 4kiu-a2-m1-cR_4kiu-a2-m1-cS 4kiu-a2-m1-cT_4kiu-a2-m1-cU 4kiu-a2-m1-cT_4kiu-a2-m1-cV 4kiu-a2-m1-cU_4kiu-a2-m1-cV 4kiw-a1-m1-cA_4kiw-a1-m1-cK 4kiw-a1-m1-cC_4kiw-a1-m1-cB 4kiw-a1-m1-cD_4kiw-a1-m1-cG 4kiw-a1-m1-cE_4kiw-a1-m1-cB 4kiw-a1-m1-cE_4kiw-a1-m1-cC 4kiw-a1-m1-cF_4kiw-a1-m1-cD 4kiw-a1-m1-cF_4kiw-a1-m1-cG 4kiw-a1-m1-cH_4kiw-a1-m1-cI 4kiw-a1-m1-cH_4kiw-a1-m1-cJ 4kiw-a1-m1-cI_4kiw-a1-m1-cJ 4kiw-a1-m1-cL_4kiw-a1-m1-cA 4kiw-a1-m1-cL_4kiw-a1-m1-cK 4kiw-a2-m1-cM_4kiw-a2-m1-cW 4kiw-a2-m1-cN_4kiw-a2-m1-cO 4kiw-a2-m1-cP_4kiw-a2-m1-cS 4kiw-a2-m1-cQ_4kiw-a2-m1-cN 4kiw-a2-m1-cQ_4kiw-a2-m1-cO 4kiw-a2-m1-cR_4kiw-a2-m1-cP 4kiw-a2-m1-cR_4kiw-a2-m1-cS 4kiw-a2-m1-cT_4kiw-a2-m1-cU 4kiw-a2-m1-cV_4kiw-a2-m1-cT 4kiw-a2-m1-cV_4kiw-a2-m1-cU 4kiw-a2-m1-cX_4kiw-a2-m1-cM 4kiw-a2-m1-cX_4kiw-a2-m1-cW LIVNVINGPNLGRLGRGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH LIVNVINGPNLGRLGRGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH 4cl1-a1-m1-cA_4cl1-a1-m1-cB The crystal structure of NS5A domain 1 from genotype 1a reveals new clues to the mechanism of action for dimeric HCV inhibitors K4KA16 K4KA16 3.5 X-RAY DIFFRACTION 25 0.994 63746 (Hepatitis C virus (isolate H77)) 63746 (Hepatitis C virus (isolate H77)) 155 157 PFVSCQRGYRGVWRGDGIMHTRCHCGAEITGHVKNGTMRIVGPRTCRNMWSGTFPINAYTTGPCTPLPAPNYKFALWRVSAEEYVEIRRVGDFHYVSGMTTDNLKCPCQIPSPEFFTELDGVRLHRFAPPCKPLLREVSFRVHEYPVGSQLPCEP PFVSCQRGYRGVWRGDGIMHTRCHCGAEITGHVKNGTMRIVGPRTCRNMWSGTFPINAYTTGPCTPLPAPNYKFALWRVSAEEYVEIRRVGDFHYVSGMTTDNLKCPCQIPSPEFFTELDGVRLHRFAPPCKPLLREEVSFRVGLHEYPVGSQLPCE 4cl1-a1-m1-cA_4cl1-a1-m1-cD The crystal structure of NS5A domain 1 from genotype 1a reveals new clues to the mechanism of action for dimeric HCV inhibitors K4KA16 K4KA16 3.5 X-RAY DIFFRACTION 12 1.0 63746 (Hepatitis C virus (isolate H77)) 63746 (Hepatitis C virus (isolate H77)) 155 160 PFVSCQRGYRGVWRGDGIMHTRCHCGAEITGHVKNGTMRIVGPRTCRNMWSGTFPINAYTTGPCTPLPAPNYKFALWRVSAEEYVEIRRVGDFHYVSGMTTDNLKCPCQIPSPEFFTELDGVRLHRFAPPCKPLLREVSFRVHEYPVGSQLPCEP PFVSCQRGYRGVWRGDGIMHTRCHCGAEITGHVKNGTMRIVGPRTCRNMWSGTFPINAYTTGPCTPLPAPNYKFALWRVSAEEYVEIRRVGDFHYVSGMTTDNLKCPCQIPSPEFFTELDGVRLHRFAPPCKPLLREEVSFRVGLHEYPVGSQLPCEPEP 4cl1-a1-m1-cC_4cl1-a1-m1-cD The crystal structure of NS5A domain 1 from genotype 1a reveals new clues to the mechanism of action for dimeric HCV inhibitors K4KA16 K4KA16 3.5 X-RAY DIFFRACTION 24 1.0 63746 (Hepatitis C virus (isolate H77)) 63746 (Hepatitis C virus (isolate H77)) 157 160 FVSCQRGYRGVWRGDGIMHTRCHCGAEITGHVKNGTMRIVGPRTCRNMWSGTFPINAYTTGPCTPLPAPNYKFALWRVSAEEYVEIRRVGDFHYVSGMTTDNLKCPCQIPSPEFFTELDGVRLHRFAPPCKPLLREEVSFRVGLHEYPVGSQLPCEP PFVSCQRGYRGVWRGDGIMHTRCHCGAEITGHVKNGTMRIVGPRTCRNMWSGTFPINAYTTGPCTPLPAPNYKFALWRVSAEEYVEIRRVGDFHYVSGMTTDNLKCPCQIPSPEFFTELDGVRLHRFAPPCKPLLREEVSFRVGLHEYPVGSQLPCEPEP 4cl7-a2-m1-cB_4cl7-a2-m1-cD Crystal structure of VEGFR-1 domain 2 in presence of Cobalt P17948 P17948 2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 4ckv-a1-m1-cX_4ckv-a1-m2-cX 4cl7-a1-m1-cA_4cl7-a1-m1-cC RPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQ RPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQ 4clc-a1-m2-cD_4clc-a1-m2-cC Crystal structure of Ybr137w protein P38276 P38276 2.8 X-RAY DIFFRACTION 66 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 172 173 4clc-a1-m1-cD_4clc-a1-m1-cC 4clc-a1-m1-cE_4clc-a1-m2-cE MVVLDKKLLERLTSRKVPLEQLEDMEKRCFLSTFTYQDAFDLGTYIRNAVKENFPEKPVAIDISLPNGHCLFRTVTYGGSALDNDFWIQRKKKTALRFGHSSFYMGCKKGDKTPEEKFFVDSKEYAFHGGAVLIQSERSDYPYACLTISGLKQEEDHLMAVSSLIAFANESL MVVLDKKLLERLTSRKVPLEELEDMEKRCFLSTFTYQDAFDLGTYIRNAVKENFPEKPVAIDISLPNGHCLFRTVTYGGSALDNDFWIQRKKKTALRFGHSSFYMGCKKGDKTPEEKFFVDSKEYAFHGGAVLIQSERSDYPYACLTISGLKQEEDHLMAVSSLIAFANESLE 4clc-a1-m2-cD_4clc-a1-m2-cE Crystal structure of Ybr137w protein P38276 P38276 2.8 X-RAY DIFFRACTION 47 0.988 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 172 172 4clc-a1-m1-cA_4clc-a1-m2-cA 4clc-a1-m1-cD_4clc-a1-m1-cE MVVLDKKLLERLTSRKVPLEQLEDMEKRCFLSTFTYQDAFDLGTYIRNAVKENFPEKPVAIDISLPNGHCLFRTVTYGGSALDNDFWIQRKKKTALRFGHSSFYMGCKKGDKTPEEKFFVDSKEYAFHGGAVLIQSERSDYPYACLTISGLKQEEDHLMAVSSLIAFANESL MVVLDKKLLERLTSRKTPLEELEDMEKRCFLSTFTYQDAFDLGTYIRNAVKENFPEKPVAIDISLPNGHCLFRTVTYGGSALDNDFWIQRKKKTALRFGHSSFYMGCKKGDKTPEEKFFVDSKEYAFHGGAVLIQSERSDYPYACLTISGLKQEEDHLMAVSSLIAFANESL 4clc-a1-m2-cE_4clc-a1-m2-cC Crystal structure of Ybr137w protein P38276 P38276 2.8 X-RAY DIFFRACTION 23 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 172 173 4clc-a1-m1-cA_4clc-a1-m1-cC 4clc-a1-m1-cD_4clc-a1-m2-cE 4clc-a1-m1-cE_4clc-a1-m1-cC 4clc-a1-m1-cE_4clc-a1-m2-cD 4clc-a1-m2-cA_4clc-a1-m2-cC MVVLDKKLLERLTSRKTPLEELEDMEKRCFLSTFTYQDAFDLGTYIRNAVKENFPEKPVAIDISLPNGHCLFRTVTYGGSALDNDFWIQRKKKTALRFGHSSFYMGCKKGDKTPEEKFFVDSKEYAFHGGAVLIQSERSDYPYACLTISGLKQEEDHLMAVSSLIAFANESL MVVLDKKLLERLTSRKVPLEELEDMEKRCFLSTFTYQDAFDLGTYIRNAVKENFPEKPVAIDISLPNGHCLFRTVTYGGSALDNDFWIQRKKKTALRFGHSSFYMGCKKGDKTPEEKFFVDSKEYAFHGGAVLIQSERSDYPYACLTISGLKQEEDHLMAVSSLIAFANESLE 4clv-a1-m1-cA_4clv-a1-m1-cB Crystal Structure of dodecylphosphocholine-solubilized NccX from Cupriavidus metallidurans 31A Q44582 Q44582 3.12 X-RAY DIFFRACTION 37 1.0 119219 (Cupriavidus metallidurans) 119219 (Cupriavidus metallidurans) 142 142 SRTFRLSVSTLVGALVGVLMAIVGVYVTHSTEEPHTSLHEMLHDAVPLDSNEREILELKEEEFTARRREIESRLRAANGKLAESIAKNPQWSPEVEEATREVERAAADLQRATLVHVFEMRAGLKPEHRAAYDRVLVDALKR SRTFRLSVSTLVGALVGVLMAIVGVYVTHSTEEPHTSLHEMLHDAVPLDSNEREILELKEEEFTARRREIESRLRAANGKLAESIAKNPQWSPEVEEATREVERAAADLQRATLVHVFEMRAGLKPEHRAAYDRVLVDALKR 4cmf-a1-m1-cA_4cmf-a1-m4-cA The (R)-selective transaminase from Nectria haematococca with inhibitor bound C7YVL8 C7YVL8 1.5 X-RAY DIFFRACTION 29 1.0 322 322 4cmf-a1-m2-cA_4cmf-a1-m3-cA MATMDKVFAGYAERQAVLEASKNPLAKGVAWIQGELVPLHEARIPLLDQGFMHSDLTYDVPSVWDGRFFRLEDHLNRLEASCKKMRLRMPLPREEVIKTLVDMVAKSGIRDAFVELIVTRGLTGVRGAKPEELLNNNLYMFIQPYVWVMDPDVQYTGGRAIVARTVRRVPPGSIDPTIKNLQWGDLVRGLFEANDRGATYPFLTDGDANLTEGSGFNVVLIKDGVLYTPDRGVLQGITRKSVIDAARSCGYEIRVEHVPIEATYQADEILMCTTAGGIMPITTLDDKPVKDGKVGPITKAIWDRYWAMHWEDEFSFKINYLE MATMDKVFAGYAERQAVLEASKNPLAKGVAWIQGELVPLHEARIPLLDQGFMHSDLTYDVPSVWDGRFFRLEDHLNRLEASCKKMRLRMPLPREEVIKTLVDMVAKSGIRDAFVELIVTRGLTGVRGAKPEELLNNNLYMFIQPYVWVMDPDVQYTGGRAIVARTVRRVPPGSIDPTIKNLQWGDLVRGLFEANDRGATYPFLTDGDANLTEGSGFNVVLIKDGVLYTPDRGVLQGITRKSVIDAARSCGYEIRVEHVPIEATYQADEILMCTTAGGIMPITTLDDKPVKDGKVGPITKAIWDRYWAMHWEDEFSFKINYLE 4cmf-a1-m2-cA_4cmf-a1-m4-cA The (R)-selective transaminase from Nectria haematococca with inhibitor bound C7YVL8 C7YVL8 1.5 X-RAY DIFFRACTION 134 1.0 322 322 4cmd-a1-m1-cA_4cmd-a1-m1-cB 4cmf-a1-m1-cA_4cmf-a1-m3-cA MATMDKVFAGYAERQAVLEASKNPLAKGVAWIQGELVPLHEARIPLLDQGFMHSDLTYDVPSVWDGRFFRLEDHLNRLEASCKKMRLRMPLPREEVIKTLVDMVAKSGIRDAFVELIVTRGLTGVRGAKPEELLNNNLYMFIQPYVWVMDPDVQYTGGRAIVARTVRRVPPGSIDPTIKNLQWGDLVRGLFEANDRGATYPFLTDGDANLTEGSGFNVVLIKDGVLYTPDRGVLQGITRKSVIDAARSCGYEIRVEHVPIEATYQADEILMCTTAGGIMPITTLDDKPVKDGKVGPITKAIWDRYWAMHWEDEFSFKINYLE MATMDKVFAGYAERQAVLEASKNPLAKGVAWIQGELVPLHEARIPLLDQGFMHSDLTYDVPSVWDGRFFRLEDHLNRLEASCKKMRLRMPLPREEVIKTLVDMVAKSGIRDAFVELIVTRGLTGVRGAKPEELLNNNLYMFIQPYVWVMDPDVQYTGGRAIVARTVRRVPPGSIDPTIKNLQWGDLVRGLFEANDRGATYPFLTDGDANLTEGSGFNVVLIKDGVLYTPDRGVLQGITRKSVIDAARSCGYEIRVEHVPIEATYQADEILMCTTAGGIMPITTLDDKPVKDGKVGPITKAIWDRYWAMHWEDEFSFKINYLE 4cmf-a1-m3-cA_4cmf-a1-m4-cA The (R)-selective transaminase from Nectria haematococca with inhibitor bound C7YVL8 C7YVL8 1.5 X-RAY DIFFRACTION 13 1.0 322 322 4cmf-a1-m1-cA_4cmf-a1-m2-cA MATMDKVFAGYAERQAVLEASKNPLAKGVAWIQGELVPLHEARIPLLDQGFMHSDLTYDVPSVWDGRFFRLEDHLNRLEASCKKMRLRMPLPREEVIKTLVDMVAKSGIRDAFVELIVTRGLTGVRGAKPEELLNNNLYMFIQPYVWVMDPDVQYTGGRAIVARTVRRVPPGSIDPTIKNLQWGDLVRGLFEANDRGATYPFLTDGDANLTEGSGFNVVLIKDGVLYTPDRGVLQGITRKSVIDAARSCGYEIRVEHVPIEATYQADEILMCTTAGGIMPITTLDDKPVKDGKVGPITKAIWDRYWAMHWEDEFSFKINYLE MATMDKVFAGYAERQAVLEASKNPLAKGVAWIQGELVPLHEARIPLLDQGFMHSDLTYDVPSVWDGRFFRLEDHLNRLEASCKKMRLRMPLPREEVIKTLVDMVAKSGIRDAFVELIVTRGLTGVRGAKPEELLNNNLYMFIQPYVWVMDPDVQYTGGRAIVARTVRRVPPGSIDPTIKNLQWGDLVRGLFEANDRGATYPFLTDGDANLTEGSGFNVVLIKDGVLYTPDRGVLQGITRKSVIDAARSCGYEIRVEHVPIEATYQADEILMCTTAGGIMPITTLDDKPVKDGKVGPITKAIWDRYWAMHWEDEFSFKINYLE 4cmr-a1-m1-cB_4cmr-a1-m2-cB The crystal structure of novel exo-type maltose-forming amylase(Py04_0872) from Pyrococcus sp. ST04 I3RE04 I3RE04 1.8 X-RAY DIFFRACTION 79 1.0 1183377 (Pyrococcus sp. ST04) 1183377 (Pyrococcus sp. ST04) 578 578 4cmr-a1-m1-cA_4cmr-a1-m2-cA YKFTYHFHAYQPGDIIYVHDGSGWDPIKYSERLSPVALEIREEEVKGRNWTRAIKAYEYVDETLRLDEGAVSVDFEPFTLYVLKYKPKIYGEIVETLETHVEPTVTVPFHPIPHLSHFEQEILSKVSFDFYLPFIARKPIVSFWLPENVITKDTAKIVTSATDKDVVFLLDERQFIGVNIPQARFSCNKYLCDGKSAFVFGRIHYISDAFAFNTLDVEGLTRAVAEGCVDVFKEKEGIEYLVFLSSDLESLVANPKQLDRFLGWIDGLKKRGIEIINVAEFIRKKVSNEYKSLPGECSESFRINVKDYSSWSDYFDLSVDGRTSDRWTGIRREDNVVIHRWYKERKVSQLWKFAFKLFRELNRAVRFGVIDLRTQGVSDIEKIKEFLVRYSRVFFREHYEYFELDTSVDYVEPIHEADPSLALKLGRIYYLLLANHSCPRFWENIDTRVTFGNVATISKALIELELYEENEERANYIFLEYKLLAFPQLYYDYDLFRKGLEGWETTEKAWFESLRSEVPNSKYNVVTRAALYVGKRDLPPDRSVIDTLYDLEEAVPDTGHIPGEHGKWENKEWCEHKG YKFTYHFHAYQPGDIIYVHDGSGWDPIKYSERLSPVALEIREEEVKGRNWTRAIKAYEYVDETLRLDEGAVSVDFEPFTLYVLKYKPKIYGEIVETLETHVEPTVTVPFHPIPHLSHFEQEILSKVSFDFYLPFIARKPIVSFWLPENVITKDTAKIVTSATDKDVVFLLDERQFIGVNIPQARFSCNKYLCDGKSAFVFGRIHYISDAFAFNTLDVEGLTRAVAEGCVDVFKEKEGIEYLVFLSSDLESLVANPKQLDRFLGWIDGLKKRGIEIINVAEFIRKKVSNEYKSLPGECSESFRINVKDYSSWSDYFDLSVDGRTSDRWTGIRREDNVVIHRWYKERKVSQLWKFAFKLFRELNRAVRFGVIDLRTQGVSDIEKIKEFLVRYSRVFFREHYEYFELDTSVDYVEPIHEADPSLALKLGRIYYLLLANHSCPRFWENIDTRVTFGNVATISKALIELELYEENEERANYIFLEYKLLAFPQLYYDYDLFRKGLEGWETTEKAWFESLRSEVPNSKYNVVTRAALYVGKRDLPPDRSVIDTLYDLEEAVPDTGHIPGEHGKWENKEWCEHKG 4cmr-a1-m2-cB_4cmr-a1-m2-cA The crystal structure of novel exo-type maltose-forming amylase(Py04_0872) from Pyrococcus sp. ST04 I3RE04 I3RE04 1.8 X-RAY DIFFRACTION 68 1.0 1183377 (Pyrococcus sp. ST04) 1183377 (Pyrococcus sp. ST04) 578 580 4cmr-a1-m1-cB_4cmr-a1-m1-cA YKFTYHFHAYQPGDIIYVHDGSGWDPIKYSERLSPVALEIREEEVKGRNWTRAIKAYEYVDETLRLDEGAVSVDFEPFTLYVLKYKPKIYGEIVETLETHVEPTVTVPFHPIPHLSHFEQEILSKVSFDFYLPFIARKPIVSFWLPENVITKDTAKIVTSATDKDVVFLLDERQFIGVNIPQARFSCNKYLCDGKSAFVFGRIHYISDAFAFNTLDVEGLTRAVAEGCVDVFKEKEGIEYLVFLSSDLESLVANPKQLDRFLGWIDGLKKRGIEIINVAEFIRKKVSNEYKSLPGECSESFRINVKDYSSWSDYFDLSVDGRTSDRWTGIRREDNVVIHRWYKERKVSQLWKFAFKLFRELNRAVRFGVIDLRTQGVSDIEKIKEFLVRYSRVFFREHYEYFELDTSVDYVEPIHEADPSLALKLGRIYYLLLANHSCPRFWENIDTRVTFGNVATISKALIELELYEENEERANYIFLEYKLLAFPQLYYDYDLFRKGLEGWETTEKAWFESLRSEVPNSKYNVVTRAALYVGKRDLPPDRSVIDTLYDLEEAVPDTGHIPGEHGKWENKEWCEHKG YKFTYHFHAYQPGDIIYVHDGSGWDPIKYSERLSPVALEIREEEVKGRNWTRAIKAYEYVDETLRLDEGAVSVDFEPFTLYVLKYKPKIYGEIVETLETHVEPTVTVPFHPIPHLSHFEQEILSKVSFDFYLPFIARKPIVSFWLPENVITKDTAKIVTSATDKDVVFLLDERQFIGVNIPQARFSCNKYLCDGKSAFVFGRIHYISDAFAFNTLDVEGLTRAVAEGCVDVFKEKEGIEYLVFLSSDLESLVANPKQLDRFLGWIDGLKKRGIEIINVAEFIRKKVSNEYKSLPGECSESFRINVKDYSSWSDYFDLSVDGRTSDRWTGIRREDNVVIHRWYKERKVSQLWKFAFKLFRELNRAVRFGVIDLRTQGVSDIEKIKEFLVRYSRVFFREHYEYFELDTSVDYVEPIHEADPSLALKLGRIYYLLLANHSCPRFWENIDTRVTFGNVATISKALIELELYEENEERANYIFLEYKLLAFPQLYYDYDLFRKGLEGWETTEKAWFESLRSEVPNSKYNVVTRAALYVGKRDLPPDRSVIDTLYDLEEAVPDTGHIPGEHGKWENKEWCEHKGKD 4cmy-a1-m1-cX_4cmy-a1-m1-cJ Chlorobium tepidum Ferritin Q8KBP5 Q8KBP5 2.59 X-RAY DIFFRACTION 65 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 163 164 4cmy-a1-m1-cA_4cmy-a1-m1-cM 4cmy-a1-m1-cC_4cmy-a1-m1-cE 4cmy-a1-m1-cD_4cmy-a1-m1-cF 4cmy-a1-m1-cG_4cmy-a1-m1-cT 4cmy-a1-m1-cH_4cmy-a1-m1-cP 4cmy-a1-m1-cK_4cmy-a1-m1-cL 4cmy-a1-m1-cN_4cmy-a1-m1-cO 4cmy-a1-m1-cQ_4cmy-a1-m1-cI 4cmy-a1-m1-cR_4cmy-a1-m1-cB 4cmy-a1-m1-cS_4cmy-a1-m1-cU 4cmy-a1-m1-cV_4cmy-a1-m1-cW MLSKTILDKLNHQVNFEAASAHLYLQMSAWLLTQSLDSTAAFFRAHAEEEKAHMMKLFDYINETGSLALIGEVATPAPEWKSHIELLEAAYNHELAITQSINDLVDTALREKDYSTFQFLQWYVAEQHEEEYLFSSMLHKARIINTMDGRALFRFDEEVRKSV MLSKTILDKLNHQVNFEAASAHLYLQMSAWLLTQSLDSTAAFFRAHAEEEKAHMMKLFDYINETGSLALIGEVATPAPEWKSHIELLEAAYNHELAITQSINDLVDTALREKDYSTFQFLQWYVAEQHEEEYLFSSMLHKARIINTMDGRALFRFDEEVRKSVL 4cmy-a1-m1-cX_4cmy-a1-m1-cU Chlorobium tepidum Ferritin Q8KBP5 Q8KBP5 2.59 X-RAY DIFFRACTION 26 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 163 164 4cmy-a1-m1-cA_4cmy-a1-m1-cJ 4cmy-a1-m1-cA_4cmy-a1-m1-cW 4cmy-a1-m1-cB_4cmy-a1-m1-cI 4cmy-a1-m1-cC_4cmy-a1-m1-cD 4cmy-a1-m1-cC_4cmy-a1-m1-cR 4cmy-a1-m1-cD_4cmy-a1-m1-cR 4cmy-a1-m1-cE_4cmy-a1-m1-cH 4cmy-a1-m1-cE_4cmy-a1-m1-cL 4cmy-a1-m1-cF_4cmy-a1-m1-cG 4cmy-a1-m1-cF_4cmy-a1-m1-cN 4cmy-a1-m1-cG_4cmy-a1-m1-cN 4cmy-a1-m1-cH_4cmy-a1-m1-cL 4cmy-a1-m1-cJ_4cmy-a1-m1-cW 4cmy-a1-m1-cK_4cmy-a1-m1-cU 4cmy-a1-m1-cK_4cmy-a1-m1-cX 4cmy-a1-m1-cM_4cmy-a1-m1-cO 4cmy-a1-m1-cM_4cmy-a1-m1-cP 4cmy-a1-m1-cP_4cmy-a1-m1-cO 4cmy-a1-m1-cQ_4cmy-a1-m1-cT 4cmy-a1-m1-cQ_4cmy-a1-m1-cV 4cmy-a1-m1-cS_4cmy-a1-m1-cB 4cmy-a1-m1-cS_4cmy-a1-m1-cI 4cmy-a1-m1-cT_4cmy-a1-m1-cV MLSKTILDKLNHQVNFEAASAHLYLQMSAWLLTQSLDSTAAFFRAHAEEEKAHMMKLFDYINETGSLALIGEVATPAPEWKSHIELLEAAYNHELAITQSINDLVDTALREKDYSTFQFLQWYVAEQHEEEYLFSSMLHKARIINTMDGRALFRFDEEVRKSV MLSKTILDKLNHQVNFEAASAHLYLQMSAWLLTQSLDSTAAFFRAHAEEEKAHMMKLFDYINETGSLALIGEVATPAPEWKSHIELLEAAYNHELAITQSINDLVDTALREKDYSTFQFLQWYVAEQHEEEYLFSSMLHKARIINTMDGRALFRFDEEVRKSVL 4cmy-a1-m1-cX_4cmy-a1-m1-cW Chlorobium tepidum Ferritin Q8KBP5 Q8KBP5 2.59 X-RAY DIFFRACTION 46 1.0 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 163 164 4cmy-a1-m1-cA_4cmy-a1-m1-cO 4cmy-a1-m1-cA_4cmy-a1-m1-cV 4cmy-a1-m1-cB_4cmy-a1-m1-cU 4cmy-a1-m1-cC_4cmy-a1-m1-cB 4cmy-a1-m1-cC_4cmy-a1-m1-cL 4cmy-a1-m1-cD_4cmy-a1-m1-cE 4cmy-a1-m1-cD_4cmy-a1-m1-cN 4cmy-a1-m1-cE_4cmy-a1-m1-cP 4cmy-a1-m1-cF_4cmy-a1-m1-cR 4cmy-a1-m1-cF_4cmy-a1-m1-cT 4cmy-a1-m1-cG_4cmy-a1-m1-cO 4cmy-a1-m1-cG_4cmy-a1-m1-cV 4cmy-a1-m1-cH_4cmy-a1-m1-cK 4cmy-a1-m1-cH_4cmy-a1-m1-cM 4cmy-a1-m1-cK_4cmy-a1-m1-cJ 4cmy-a1-m1-cL_4cmy-a1-m1-cU 4cmy-a1-m1-cM_4cmy-a1-m1-cJ 4cmy-a1-m1-cP_4cmy-a1-m1-cN 4cmy-a1-m1-cQ_4cmy-a1-m1-cW 4cmy-a1-m1-cR_4cmy-a1-m1-cI 4cmy-a1-m1-cS_4cmy-a1-m1-cQ 4cmy-a1-m1-cS_4cmy-a1-m1-cX 4cmy-a1-m1-cT_4cmy-a1-m1-cI MLSKTILDKLNHQVNFEAASAHLYLQMSAWLLTQSLDSTAAFFRAHAEEEKAHMMKLFDYINETGSLALIGEVATPAPEWKSHIELLEAAYNHELAITQSINDLVDTALREKDYSTFQFLQWYVAEQHEEEYLFSSMLHKARIINTMDGRALFRFDEEVRKSV MLSKTILDKLNHQVNFEAASAHLYLQMSAWLLTQSLDSTAAFFRAHAEEEKAHMMKLFDYINETGSLALIGEVATPAPEWKSHIELLEAAYNHELAITQSINDLVDTALREKDYSTFQFLQWYVAEQHEEEYLFSSMLHKARIINTMDGRALFRFDEEVRKSVL 4cmz-a2-m1-cC_4cmz-a2-m2-cC An intertwined homodimer of the PDZ homology domain of periaxin Q9BXM0 Q9BXM0 2.7 X-RAY DIFFRACTION 276 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 4cmz-a1-m1-cA_4cmz-a1-m1-cB LVEIIVETEAQTGVSGINVAGGGKEGIFVRELREDSPAARSLSLQEGDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVP LVEIIVETEAQTGVSGINVAGGGKEGIFVRELREDSPAARSLSLQEGDQLLSARVFFENFKYEDALRLLQCAEPYKVSFCLKRTVP 4cn6-a1-m1-cA_4cn6-a1-m1-cB GlgE isoform 1 from Streptomyces coelicolor E423A mutant with maltose bound Q9L1K2 Q9L1K2 2.29 X-RAY DIFFRACTION 115 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 649 649 3zss-a1-m1-cA_3zss-a1-m1-cB 3zss-a2-m1-cC_3zss-a2-m1-cD 3zst-a1-m1-cB_3zst-a1-m2-cB 3zst-a2-m1-cA_3zst-a2-m3-cA 3zt5-a1-m1-cA_3zt5-a1-m1-cB 3zt5-a2-m1-cC_3zt5-a2-m1-cD 3zt6-a1-m1-cA_3zt6-a1-m1-cB 3zt6-a2-m1-cC_3zt6-a2-m1-cD 3zt7-a1-m1-cA_3zt7-a1-m1-cB 3zt7-a2-m1-cC_3zt7-a2-m1-cD 4cn1-a1-m1-cA_4cn1-a1-m1-cB 4cn4-a1-m1-cA_4cn4-a1-m1-cB 4u2y-a1-m1-cA_4u2y-a1-m1-cB 4u2z-a1-m1-cA_4u2z-a1-m1-cB 4u31-a1-m1-cA_4u31-a1-m1-cB 5cvs-a1-m1-cA_5cvs-a1-m1-cB 5lgv-a1-m1-cA_5lgv-a1-m1-cB 5lgw-a1-m1-cA_5lgw-a1-m1-cB 5vsj-a1-m1-cA_5vsj-a1-m1-cB 5vt4-a1-m1-cA_5vt4-a1-m1-cB 5vt4-a2-m1-cC_5vt4-a2-m1-cD 7mel-a1-m1-cA_7mel-a1-m1-cB 7mgy-a1-m1-cA_7mgy-a1-m1-cB 7uvd-a1-m1-cA_7uvd-a1-m1-cB 8d6k-a1-m1-cA_8d6k-a1-m1-cB PTVVGRIPVLDVRPVVQRGRRPAKAVTGESFEVSATVFREGHDAVGANVVLRDPRGRPGPWTPMRELAPGTDRWGATVTAGETGTWSYTVEAWGDPVTTWRHHARIKIPAGLDTDLVLEEGARLYERAAADVPGREDRRELLAAVDALRDESRPAASRLAAALTPQVDAVLARHPLRDLVTSSDPLPLLVERERALYGAWYEFFPRSEGTPHTPHGTFRTAARRLPAIAAMGFDVVYLPPIHPIGTTHRKGRNNTLSATGDDVGVPWAIGSPEGGHDSIHPALGTLDDFDHFVTEAGKLGLEIALDFALQCSPDHPWVHKHPEWFHHRPDGTIAHAENPPKKYQDIYPIAFDADPDGLATETVRILRHWMDHGVRIFRVDNPHTKPVAFWERVIADINGTDPDVIFLAAAFTRPAMMATLAQIGFQQSYTYFTWRNTKQELTEYLTELSGEAASYMRPNFFANTPDILHAYLQHGGRPAFEVRAVLAATLSPTWGIYSGYELCENTPLREGSEEYLDSEKYQLKPRDWTRAAREGTTIAPLVTRLNTIRRENPALRQLRDLHFHPTDKEEVIAYSKRQGSNTVLVVVNLDPRHTQEATVSLDMPQLGLDWHESVPVRDELTGETYHWGRANYVRLEPGRTPAHVCTVLR PTVVGRIPVLDVRPVVQRGRRPAKAVTGESFEVSATVFREGHDAVGANVVLRDPRGRPGPWTPMRELAPGTDRWGATVTAGETGTWSYTVEAWGDPVTTWRHHARIKIPAGLDTDLVLEEGARLYERAAADVPGREDRRELLAAVDALRDESRPAASRLAAALTPQVDAVLARHPLRDLVTSSDPLPLLVERERALYGAWYEFFPRSEGTPHTPHGTFRTAARRLPAIAAMGFDVVYLPPIHPIGTTHRKGRNNTLSATGDDVGVPWAIGSPEGGHDSIHPALGTLDDFDHFVTEAGKLGLEIALDFALQCSPDHPWVHKHPEWFHHRPDGTIAHAENPPKKYQDIYPIAFDADPDGLATETVRILRHWMDHGVRIFRVDNPHTKPVAFWERVIADINGTDPDVIFLAAAFTRPAMMATLAQIGFQQSYTYFTWRNTKQELTEYLTELSGEAASYMRPNFFANTPDILHAYLQHGGRPAFEVRAVLAATLSPTWGIYSGYELCENTPLREGSEEYLDSEKYQLKPRDWTRAAREGTTIAPLVTRLNTIRRENPALRQLRDLHFHPTDKEEVIAYSKRQGSNTVLVVVNLDPRHTQEATVSLDMPQLGLDWHESVPVRDELTGETYHWGRANYVRLEPGRTPAHVCTVLR 4cnd-a1-m1-cB_4cnd-a1-m1-cA Crystal structure of E.coli TrmJ P0AE01 P0AE01 1.5 X-RAY DIFFRACTION 90 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 162 169 4cne-a1-m1-cB_4cne-a1-m1-cA DPALRALQNIRIVLVETSHTGNMGSVARAMKTMGLTNLWLVNPLVKPDAGASDVIGNAHIVDTLDEALAGCSLVVGTSARSRTLPWPMLDPRECGLKSVAEAANTPVALVFGRERVGLTNEELQKCHYHVAIAANPEYSSLNLAMAVQVIAYEVRMAWLATQ DPALRALQNIRIVLVETSHTGNMGSVARAMKTMGLTNLWLVNPLVKPDSQAIALAAGASDVIGNAHIVDTLDEALAGCSLVVGTSARSRTLPWPMLDPRECGLKSVAEAANTPVALVFGRERVGLTNEELQKCHYHVAIAANPEYSSLNLAMAVQVIAYEVRMAWLATQ 4cng-a1-m1-cB_4cng-a1-m1-cA Crystal structure of Sulfolobus acidocaldarius TrmJ in complex with S-adenosyl-L-Homocysteine Q4JB16 Q4JB16 1.1 X-RAY DIFFRACTION 68 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 148 156 4cnf-a1-m1-cB_4cnf-a1-m1-cA MTIRLVIVEPEGAYNLGFIARLVKNFLIDEFYVVNPKADINEAIKFSAKGSEVIEKMMKITNNFDDAIRDVDLKIATSSIADSIRPIDLERLIKDKKVAFIFGRESVGLTREEIAKSDFLLFIPANPEYPVLNLSHAVGIVLYELWRN MTIRLVIVEPEGAYNLGFIARLVKNFLIDEFYVVNPKADINEAIKFSAKGSEVIEKMMKITNNFDDAIRDVDLKIATSSIADIKGDLLRKSIRPIDLERLIKDKKVAFIFGRESVGLTREEIAKSDFLLFIPANPEYPVLNLSHAVGIVLYELWRN 4cns-a1-m1-cB_4cns-a1-m1-cA Crystal structure of truncated human CRMP-4 Q14195 Q14195 2.4 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 477 478 4bkn-a1-m1-cA_4bkn-a1-m2-cA 4bkn-a1-m1-cB_4bkn-a1-m2-cB 4cns-a1-m1-cC_4cns-a1-m1-cD 4cnt-a1-m1-cA_4cnt-a1-m1-cB 4cnt-a1-m1-cC_4cnt-a1-m1-cD 4cnu-a1-m1-cA_4cnu-a1-m4-cB 4cnu-a1-m2-cA_4cnu-a1-m3-cB 4cnu-a2-m1-cB_4cnu-a2-m6-cA 4cnu-a2-m5-cB_4cnu-a2-m7-cA MTSDRLLIKGGRIVNDDQSFYADIYMEDGLIKQIGDNLIVPGGVKTIEANGKMVIPGGIDVHTHYQMPYKGMTTVDDFFQGTKAALAGGTTMIIDHVVPEPESSLTEAYEKWREWADGKSCCDYALHVDITHWNDSVKQEVQNLIKDKGVNSFMVYMAYKDLYQVSNTELYEIFTCLGELGAIAQVHAENGDIIAQEQTRMLEMGITGPEGHVLSRPEELEAEAVFRAITIASQTNCPLYVTKVMSKSAADLISQARKKGNVVFGEPITASLGIDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYINSLLASGDLQLSGSAHCTFSTAQKAIGKDNFTAIPEGTNGVEERMSVIWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRISVGSDSDLVIWDPDAVKIVSAKNHQSAAEYNIFEGMELRGAPLVVICQGKIMLEDGNLHVTQGAGRFIPCSPFSDYVYKRIKARRKM MTSDRLLIKGGRIVNDDQSFYADIYMEDGLIKQIGDNLIVPGGVKTIEANGKMVIPGGIDVHTHYQMPYKGMTTVDDFFQGTKAALAGGTTMIIDHVVPEPESSLTEAYEKWREWADGKSCCDYALHVDITHWNDSVKQEVQNLIKDKGVNSFMVYMAYKDLYQVSNTELYEIFTCLGELGAIAQVHAENGDIIAQEQTRMLEMGITGPEGHVLSRPEELEAEAVFRAITIASQTNCPLYVTKVMSKSAADLISQARKKGNVVFGEPITASLGIDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYINSLLASGDLQLSGSAHCTFSTAQKAIGKDNFTAIPEGTNGVEERMSVIWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRISVGSDSDLVIWDPDAVKIVSAKNHQSAAEYNIFEGMELRGAPLVVICQGKIMLEDGNLHVTQGAGRFIPCSPFSDYVYKRIKARRKMA 4cns-a1-m1-cB_4cns-a1-m1-cC Crystal structure of truncated human CRMP-4 Q14195 Q14195 2.4 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 477 478 4bkn-a1-m1-cA_4bkn-a1-m1-cB 4bkn-a1-m2-cA_4bkn-a1-m2-cB 4cns-a1-m1-cA_4cns-a1-m1-cD 4cnt-a1-m1-cA_4cnt-a1-m1-cD 4cnt-a1-m1-cC_4cnt-a1-m1-cB 4cnu-a1-m1-cA_4cnu-a1-m2-cA 4cnu-a1-m3-cB_4cnu-a1-m4-cB 4cnu-a2-m1-cB_4cnu-a2-m5-cB 4cnu-a2-m6-cA_4cnu-a2-m7-cA MTSDRLLIKGGRIVNDDQSFYADIYMEDGLIKQIGDNLIVPGGVKTIEANGKMVIPGGIDVHTHYQMPYKGMTTVDDFFQGTKAALAGGTTMIIDHVVPEPESSLTEAYEKWREWADGKSCCDYALHVDITHWNDSVKQEVQNLIKDKGVNSFMVYMAYKDLYQVSNTELYEIFTCLGELGAIAQVHAENGDIIAQEQTRMLEMGITGPEGHVLSRPEELEAEAVFRAITIASQTNCPLYVTKVMSKSAADLISQARKKGNVVFGEPITASLGIDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYINSLLASGDLQLSGSAHCTFSTAQKAIGKDNFTAIPEGTNGVEERMSVIWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRISVGSDSDLVIWDPDAVKIVSAKNHQSAAEYNIFEGMELRGAPLVVICQGKIMLEDGNLHVTQGAGRFIPCSPFSDYVYKRIKARRKM SMTSDRLLIKGGRIVNDDQSFYADIYMEDGLIKQIGDNLIVPGGVKTIEANGKMVIPGGIDVHTHYQMPYKGMTTVDDFFQGTKAALAGGTTMIIDHVVPEPESSLTEAYEKWREWADGKSCCDYALHVDITHWNDSVKQEVQNLIKDKGVNSFMVYMAYKDLYQVSNTELYEIFTCLGELGAIAQVHAENGDIIAQEQTRMLEMGITGPEGHVLSRPEELEAEAVFRAITIASQTNCPLYVTKVMSKSAADLISQARKKGNVVFGEPITASLGIDGTHYWSKNWAKAAAFVTSPPLSPDPTTPDYINSLLASGDLQLSGSAHCTFSTAQKAIGKDNFTAIPEGTNGVEERMSVIWDKAVATGKMDENQFVAVTSTNAAKIFNLYPRKGRISVGSDSDLVIWDPDAVKIVSAKNHQSAAEYNIFEGMELRGAPLVVICQGKIMLEDGNLHVTQGAGRFIPCSPFSDYVYKRIKARRKM 4cnz-a1-m1-cA_4cnz-a1-m1-cB Structure of PII signaling protein GlnZ from Azospirillum brasilense in complex with adenosine diphosphate P70731 P70731 1.7 X-RAY DIFFRACTION 75 1.0 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 100 100 3o5t-a1-m1-cB_3o5t-a1-m2-cB 3o5t-a1-m1-cB_3o5t-a1-m3-cB 3o5t-a1-m2-cB_3o5t-a1-m3-cB 4cny-a1-m1-cA_4cny-a1-m2-cA 4cny-a1-m1-cA_4cny-a1-m3-cA 4cny-a1-m2-cA_4cny-a1-m3-cA 4cnz-a1-m1-cA_4cnz-a1-m1-cC 4cnz-a1-m1-cB_4cnz-a1-m1-cC 4cnz-a2-m1-cD_4cnz-a2-m1-cE 4cnz-a2-m1-cD_4cnz-a2-m1-cF 4co4-a1-m1-cA_4co4-a1-m1-cB 4co4-a1-m1-cA_4co4-a1-m1-cC 4co4-a1-m1-cC_4co4-a1-m1-cB 5ovo-a1-m1-cB_5ovo-a1-m2-cB 5ovo-a1-m1-cB_5ovo-a1-m3-cB 5ovo-a1-m2-cB_5ovo-a1-m3-cB MKLVMAIIKPFKLDEVREALTSLGIQGLTVSEVKGFGRQKGSFLPKVKVEVAVSDDQYEQVVEAIQKAANTGRIGDGKIFVLDIAQAVRIRTGETNTEAL MKLVMAIIKPFKLDEVREALTSLGIQGLTVSEVKGFGRQKGSFLPKVKVEVAVSDDQYEQVVEAIQKAANTGRIGDGKIFVLDIAQAVRIRTGETNTEAL 4co2-a2-m2-cA_4co2-a2-m3-cA Structure of PII signaling protein GlnZ from Azospirillum brasilense in complex with adenosine diphosphate P70731 P70731 1.8 X-RAY DIFFRACTION 82 1.0 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 112 112 3mhy-a1-m1-cA_3mhy-a1-m1-cB 3mhy-a1-m1-cA_3mhy-a1-m1-cC 3mhy-a1-m1-cB_3mhy-a1-m1-cC 4cnz-a2-m1-cF_4cnz-a2-m1-cE 4co0-a1-m1-cA_4co0-a1-m2-cA 4co0-a1-m1-cA_4co0-a1-m3-cA 4co0-a1-m2-cA_4co0-a1-m3-cA 4co0-a2-m1-cB_4co0-a2-m2-cB 4co0-a2-m1-cB_4co0-a2-m3-cB 4co0-a2-m2-cB_4co0-a2-m3-cB 4co1-a1-m1-cA_4co1-a1-m2-cA 4co1-a1-m1-cA_4co1-a1-m3-cA 4co1-a1-m2-cA_4co1-a1-m3-cA 4co1-a2-m1-cB_4co1-a2-m2-cB 4co1-a2-m1-cB_4co1-a2-m3-cB 4co1-a2-m2-cB_4co1-a2-m3-cB 4co2-a1-m1-cB_4co2-a1-m2-cB 4co2-a1-m1-cB_4co2-a1-m3-cB 4co2-a1-m2-cB_4co2-a1-m3-cB 4co2-a2-m1-cA_4co2-a2-m2-cA 4co2-a2-m1-cA_4co2-a2-m3-cA 4co3-a1-m1-cA_4co3-a1-m2-cA 4co3-a1-m1-cA_4co3-a1-m3-cA 4co3-a1-m2-cA_4co3-a1-m3-cA 4co3-a2-m1-cB_4co3-a2-m2-cB 4co3-a2-m1-cB_4co3-a2-m3-cB 4co3-a2-m2-cB_4co3-a2-m3-cB 4co5-a1-m1-cA_4co5-a1-m2-cA 4co5-a1-m1-cA_4co5-a1-m3-cA 4co5-a1-m2-cA_4co5-a1-m3-cA MKLVMAIIKPFKLDEVREALTSLGIQGLTVSEVKGFGRQKGQTEIYRGAEYSVSFLPKVKVEVAVSDDQYEQVVEAIQKAANTGRIGDGKIFVLDIAQAVRIRTGETNTEAL MKLVMAIIKPFKLDEVREALTSLGIQGLTVSEVKGFGRQKGQTEIYRGAEYSVSFLPKVKVEVAVSDDQYEQVVEAIQKAANTGRIGDGKIFVLDIAQAVRIRTGETNTEAL 4co9-a2-m1-cA_4co9-a2-m1-cB Crystal structure of kynurenine formamidase from Bacillus anthracis Q81PP9 Q81PP9 1.95 X-RAY DIFFRACTION 169 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 207 207 4co9-a1-m1-cC_4co9-a1-m1-cD 4cz1-a1-m1-cB_4cz1-a1-m1-cA 4cz1-a2-m1-cC_4cz1-a2-m1-cD TSKWIDISQPLNNDIATWPGDTPFSYEVLWSKEESGSVNVGKLTMSIHTGTHIDAPFHFDNDGKKVLDLDIQVYVGPTRIIDVSNLESIGKKELEKFHLEGVERLLLRTSSHGKANEFPDIIPHLRADIAPFLSEKGIRLIGVDVPSVDPLDDKELAAHHQLFKHSIHILENVVLDHVADGDYELIALPLALSDADGSPVRAVIRPI TSKWIDISQPLNNDIATWPGDTPFSYEVLWSKEESGSVNVGKLTMSIHTGTHIDAPFHFDNDGKKVLDLDIQVYVGPTRIIDVSNLESIGKKELEKFHLEGVERLLLRTSSHGKANEFPDIIPHLRADIAPFLSEKGIRLIGVDVPSVDPLDDKELAAHHQLFKHSIHILENVVLDHVADGDYELIALPLALSDADGSPVRAVIRPI 4cob-a1-m1-cA_4cob-a1-m1-cB Crystal structure kynurenine formamidase from Pseudomonas aeruginosa Q9I234 Q9I234 2.37 X-RAY DIFFRACTION 157 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 206 206 RYWDISPALDPNTPTWPGDTPFQQEWAARLDEQCPVNVGRITLSPHTGAHVDGPLHYRADGLPIGQVPLDVYMGPCRVIHCIGANPLVTPEHLAGQLDDLPSRVLLRTFERVPANWPEGFCAIAPATIECLAERGVRLVGIDTPSLDPQHSKTLDAHHAVGRHGMAILEGVVLDDVPAGDYELLALPLKFTHLDASPVRAVLRALP RYWDISPALDPNTPTWPGDTPFQQEWAARLDEQCPVNVGRITLSPHTGAHVDGPLHYRADGLPIGQVPLDVYMGPCRVIHCIGANPLVTPEHLAGQLDDLPSRVLLRTFERVPANWPEGFCAIAPATIECLAERGVRLVGIDTPSLDPQHSKTLDAHHAVGRHGMAILEGVVLDDVPAGDYELLALPLKFTHLDASPVRAVLRALP 4cof-a1-m1-cE_4cof-a1-m1-cD Crystal structure of a human gamma-aminobutyric acid receptor, the GABA(A)R-beta3 homopentamer P28472 P28472 2.97 X-RAY DIFFRACTION 151 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 331 332 4cof-a1-m1-cB_4cof-a1-m1-cA 4cof-a1-m1-cB_4cof-a1-m1-cC 4cof-a1-m1-cC_4cof-a1-m1-cD 4cof-a1-m1-cE_4cof-a1-m1-cA 6a96-a1-m1-cB_6a96-a1-m1-cC 6a96-a1-m1-cC_6a96-a1-m1-cD 6a96-a1-m1-cD_6a96-a1-m1-cE 6qfa-a1-m1-cA_6qfa-a1-m1-cB 6qfa-a1-m1-cA_6qfa-a1-m1-cE 6qfa-a1-m1-cB_6qfa-a1-m1-cC 6qfa-a1-m1-cC_6qfa-a1-m1-cD 6qfa-a1-m1-cD_6qfa-a1-m1-cE 7a5v-a1-m1-cA_7a5v-a1-m2-cA 7a5v-a1-m1-cA_7a5v-a1-m5-cA 7a5v-a1-m2-cA_7a5v-a1-m3-cA 7a5v-a1-m3-cA_7a5v-a1-m4-cA 7a5v-a1-m4-cA_7a5v-a1-m5-cA 7pbd-a1-m1-cC_7pbd-a1-m1-cB 7pbz-a1-m1-cB_7pbz-a1-m1-cC 7pc0-a1-m1-cB_7pc0-a1-m1-cC 7qn5-a1-m1-cB_7qn5-a1-m1-cC 7qn5-a1-m1-cC_7qn5-a1-m1-cD 7qn6-a1-m1-cA_7qn6-a1-m1-cB 7qn6-a1-m1-cB_7qn6-a1-m1-cC 7qn6-a1-m1-cC_7qn6-a1-m1-cD 7qn7-a1-m1-cB_7qn7-a1-m1-cC 7qn7-a1-m1-cC_7qn7-a1-m1-cD 7qn8-a1-m1-cA_7qn8-a1-m1-cB 7qn8-a1-m1-cB_7qn8-a1-m1-cC 7qn8-a1-m1-cC_7qn8-a1-m1-cD 7qn9-a1-m1-cB_7qn9-a1-m1-cC 7qn9-a1-m1-cC_7qn9-a1-m1-cD 7qna-a1-m1-cD_7qna-a1-m1-cE 7qnb-a1-m1-cD_7qnb-a1-m1-cE 7qnc-a1-m1-cB_7qnc-a1-m1-cC 7qnc-a1-m1-cC_7qnc-a1-m1-cD 7qnd-a1-m1-cA_7qnd-a1-m1-cB 7qnd-a1-m1-cB_7qnd-a1-m1-cC 7qnd-a1-m1-cC_7qnd-a1-m1-cD SFVKETVDKLLKGYDIRLRPDFGGPPVCVGMNIDIASIDMVSEVNMDYTLTMYFQQYWRDKRLAYSGIPLNLTLDNRVADQLWVPDTYFLNDKKSFVHGVTVKNRMIRLHPDGTVLYGLRITTTAACMMDLRRYPLDEQNCTLEIESYGYTTDDIEFYWRGGDKAVTGVERIELPQFSIVEHRLVSRNVVFATGAYPRLSLSFRLKRNIGYFILQTYMPSILITILSWVSFWINYDASAARVALGITTVLTMTTINTHLRETLPKIPYVKAIDMYLMGCFVFVFLALLEYAFVNYIFFSQPARAAAIDRWSRIVFPFTFSLFNLVYWLYYV SFVKETVDKLLKGYDIRLRPDFGGPPVCVGMNIDIASIDMVSEVNMDYTLTMYFQQYWRDKRLAYSGIPLNLTLDNRVADQLWVPDTYFLNDKKSFVHGVTVKNRMIRLHPDGTVLYGLRITTTAACMMDLRRYPLDEQNCTLEIESYGYTTDDIEFYWRGGDKAVTGVERIELPQFSIVEHRLVSRNVVFATGAYPRLSLSFRLKRNIGYFILQTYMPSILITILSWVSFWINYDASAARVALGITTVLTMTTINTHLRETLPKIPYVKAIDMYLMGCFVFVFLALLEYAFVNYIFFSQPARAAAIDRWSRIVFPFTFSLFNLVYWLYYVN 4cog-a2-m1-cC_4cog-a2-m1-cD Crystal structure of kynurenine formamidase from Burkholderia cenocepacia B4E9I9 B4E9I9 1.6 X-RAY DIFFRACTION 163 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 207 207 4cog-a1-m1-cA_4cog-a1-m1-cB TLWDISPPVSPATPVWPGDTPVAVERVWRMEAGSPVNVARLTLSPHTGAHCDAPLHYDADGAPIGAVPLDTYLGPCRVIHCIGAAPVVRPADVEAALDGVPPRVLLRTYARAAVEQWDSNFCAVAPDTVDLLAAHGVKLIGIDTPSLDPQESKTMDAHRRVRAHRMAILEGIVLDDVPPGDYELIALPLKFATLDASPVRAVLRALP TLWDISPPVSPATPVWPGDTPVAVERVWRMEAGSPVNVARLTLSPHTGAHCDAPLHYDADGAPIGAVPLDTYLGPCRVIHCIGAAPVVRPADVEAALDGVPPRVLLRTYARAAVEQWDSNFCAVAPDTVDLLAAHGVKLIGIDTPSLDPQESKTMDAHRRVRAHRMAILEGIVLDDVPPGDYELIALPLKFATLDASPVRAVLRALP 4coi-a1-m1-cA_4coi-a1-m1-cB Crystal structure of the anaerobic ribonucleotide reductase from Thermotoga maritima with glycerol in the active site Q9WYL6 Q9WYL6 1.94 X-RAY DIFFRACTION 216 0.992 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 606 611 4coj-a1-m1-cA_4coj-a1-m1-cB 4col-a1-m1-cA_4col-a1-m1-cB 4com-a1-m1-cB_4com-a1-m1-cA 4con-a1-m1-cA_4con-a1-m1-cB 4u3e-a1-m1-cB_4u3e-a1-m1-cA MKVQYSFEREFEELMSDLLSKYGYEMFQMDGLGDQLDVVKFTEDFVRVTNISTYFIEISKPHTYLYSLYRIWQKMKEMFGKGVADEFVEAQINGAVYLHDRHHAALMPYCFAYTLKPIVEKGLPFIKTIKSEPAKHLSTFIQHVIQFVMFASNQSSGAVGLPDFFVWMWYFVKKDLKEGIIPRDKLDWYIEQHFQILTYSLNQPIRTTQSPYTNFTYLDRNYIKAIFEGERYPDGSLITDHVEDIIALQKHYWEWVSRERERQMFTFPVLTASLLYKDGKFLDEDSARFINKINMKWQDTNWYISDSIDAVASCCREKLKGRMNSIGGSDLNIGSFKVITVNLPRIALESGGDREKYLQILRHRVQLIKKALAAVREIIKERISEGLLPLYENGLMLLNRQYGTIGVTGVWESASIMGLTTEDIDGLKYTEEGEVFVDNVLDTIREEAEKGYHEYGFTFNIEQVPAEKAAVTLAQKDRFLFGEKQPFEIYSNQWVPLMANTDVLNRIRYSGKWDKKVSGGAILHINLGESFKTEEESFNMVKMIADMGVMYFAFNTKISVCEDGHAFYGERCPVCGKAKVDEYMRIVGYLVPVSAFNKERREIEYP MKVQYSFEREFEELMSDLLSKYGYEMFQMDGLGDQLDVVKFTEDFVRRGIIESTIDVTNISTYFIEISKPHTYLYSLYRIWQKMKEMFGKGVADEFVEAQINGAVYLHDRHHAALMPYCFAYTLKPIVEKGLPFIKTIKSEPAKHLSTFIQHVIQFVMFASNQSSGAVGLPDFFVWMWYFVKKDLKEGIIPRDKLDWYIEQHFQILTYSLNQPIRTTQSPYTNFTYLDRNYIKAIFEGERYPDGSLITDHVEDIIALQKHYWEWVSRERERQMFTFPVLTASLLYKDGKFLDEDSARFINKINMKWQDTNWYISDSIDAVASCCEKLKGRMNSIGGSDLNIGSFKVITVNLPRIALESGGDREKYLQILRHRVQLIKKALAAVREIIKERISEGLLPLYENGLMLLNRQYGTIGVTGVWESASIMGLTTEDIDGLKYTEEGEVFVDNVLDTIREEAEKGYHEYGFTFNIEQVPAEKAAVTLAQKDRFLFGEKQPFEIYSNQWVPLMANTDVLNRIRYSGKWDKKVSGGAILHINLKTEEESFNMVKMIADMGVMYFAFNTKISVCEDGHAFYGERCPVCGKAKVDEYMRIVGYLVPVSAFNKERREIEYPR 4cok-a1-m1-cA_4cok-a1-m2-cB Functional and Structural Characterization of Pyruvate decarboxylase from Gluconoacetobacter diazotrophicus A9H275 A9H275 1.69 X-RAY DIFFRACTION 35 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 547 549 4cok-a1-m2-cA_4cok-a1-m1-cB MTYTVGRYLADRLAQIGLKHHFAVAGDYNLVLLDQLLLNTDMQQIYCSNELNCGFSAEGYARANGAAAAIVTFSVGALSAFNALGGAYAENLPVILISGAPNANDHGTGHILHHTLGTTDYGYQLEMARHITCAAESIVAADAPAKIDHVIRTALREKKPAYLEIACNVAGAPCVRPGGIDADEASLKAAVDAALAFIEQRGSVTMLVGSRIRAAGAQAQAVALADALGCAVTTMAAAKSFFPEDHPGYRGHYWGEVSSPGAQQAVEGADGVICLAPVFNDYATVGWSAWPKGDNVMLVERHAVTVGGVAYAGIDMRDFLTRLAAHTVRRDATARGGAYVTPQTPAAAPTAPLNNAEMARQIGALLTPRTTLTAETGDSWFNAVRMKLPHGARVELEMQWGHIGWSVPAAFGNALAAPERQHVLMVGDGSFQLTAQEVAQMIRHDLPVIIFLINNHGYTIEVMIHDGPYNNVKNWDYAGLMEVFNAGEGNGLGLRARTGGELAAAIEQARANRNGPTLIECTLDRDDCTQELVTWGKRVAAANARPP MTYTVGRYLADRLAQIGLKHHFAVAGDYNLVLLDQLLLNTDMQQIYCSNELNCGFSAEGYARANGAAAAIVTFSVGALSAFNALGGAYAENLPVILISGAPNANDHGTGHILHHTLGTTDYGYQLEMARHITCAAESIVAAEDAPAKIDHVIRTALREKKPAYLEIACNVAGAPCVRPGGIDADEASLKAAVDAALAFIEQRGSVTMLVGSRIRAAGAQAQAVALADALGCAVTTMAAAKSFFPEDHPGYRGHYWGEVSSPGAQQAVEGADGVICLAPVFNDYATVGWSAWPKGDNVMLVERHAVTVGGVAYAGIDMRDFLTRLAAHTVRRDATARGGAYVTPQTPAAAPTAPLNNAEMARQIGALLTPRTTLTAETGDSWFNAVRMKLPHGARVELEMQWGHIGWSVPAAFGNALAAPERQHVLMVGDGSFQLTAQEVAQMIRHDLPVIIFLINNHGYTIEVMIHDGPYNNVKNWDYAGLMEVFNAGEGNGLGLRARTGGELAAAIEQARANRNGPTLIECTLDRDDCTQELVTWGKRVAAANARPPR 4cok-a1-m1-cB_4cok-a1-m2-cB Functional and Structural Characterization of Pyruvate decarboxylase from Gluconoacetobacter diazotrophicus A9H275 A9H275 1.69 X-RAY DIFFRACTION 99 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 549 549 4cok-a1-m1-cA_4cok-a1-m2-cA MTYTVGRYLADRLAQIGLKHHFAVAGDYNLVLLDQLLLNTDMQQIYCSNELNCGFSAEGYARANGAAAAIVTFSVGALSAFNALGGAYAENLPVILISGAPNANDHGTGHILHHTLGTTDYGYQLEMARHITCAAESIVAAEDAPAKIDHVIRTALREKKPAYLEIACNVAGAPCVRPGGIDADEASLKAAVDAALAFIEQRGSVTMLVGSRIRAAGAQAQAVALADALGCAVTTMAAAKSFFPEDHPGYRGHYWGEVSSPGAQQAVEGADGVICLAPVFNDYATVGWSAWPKGDNVMLVERHAVTVGGVAYAGIDMRDFLTRLAAHTVRRDATARGGAYVTPQTPAAAPTAPLNNAEMARQIGALLTPRTTLTAETGDSWFNAVRMKLPHGARVELEMQWGHIGWSVPAAFGNALAAPERQHVLMVGDGSFQLTAQEVAQMIRHDLPVIIFLINNHGYTIEVMIHDGPYNNVKNWDYAGLMEVFNAGEGNGLGLRARTGGELAAAIEQARANRNGPTLIECTLDRDDCTQELVTWGKRVAAANARPPR MTYTVGRYLADRLAQIGLKHHFAVAGDYNLVLLDQLLLNTDMQQIYCSNELNCGFSAEGYARANGAAAAIVTFSVGALSAFNALGGAYAENLPVILISGAPNANDHGTGHILHHTLGTTDYGYQLEMARHITCAAESIVAAEDAPAKIDHVIRTALREKKPAYLEIACNVAGAPCVRPGGIDADEASLKAAVDAALAFIEQRGSVTMLVGSRIRAAGAQAQAVALADALGCAVTTMAAAKSFFPEDHPGYRGHYWGEVSSPGAQQAVEGADGVICLAPVFNDYATVGWSAWPKGDNVMLVERHAVTVGGVAYAGIDMRDFLTRLAAHTVRRDATARGGAYVTPQTPAAAPTAPLNNAEMARQIGALLTPRTTLTAETGDSWFNAVRMKLPHGARVELEMQWGHIGWSVPAAFGNALAAPERQHVLMVGDGSFQLTAQEVAQMIRHDLPVIIFLINNHGYTIEVMIHDGPYNNVKNWDYAGLMEVFNAGEGNGLGLRARTGGELAAAIEQARANRNGPTLIECTLDRDDCTQELVTWGKRVAAANARPPR 4cok-a1-m2-cA_4cok-a1-m2-cB Functional and Structural Characterization of Pyruvate decarboxylase from Gluconoacetobacter diazotrophicus A9H275 A9H275 1.69 X-RAY DIFFRACTION 273 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 547 549 4cok-a1-m1-cA_4cok-a1-m1-cB MTYTVGRYLADRLAQIGLKHHFAVAGDYNLVLLDQLLLNTDMQQIYCSNELNCGFSAEGYARANGAAAAIVTFSVGALSAFNALGGAYAENLPVILISGAPNANDHGTGHILHHTLGTTDYGYQLEMARHITCAAESIVAADAPAKIDHVIRTALREKKPAYLEIACNVAGAPCVRPGGIDADEASLKAAVDAALAFIEQRGSVTMLVGSRIRAAGAQAQAVALADALGCAVTTMAAAKSFFPEDHPGYRGHYWGEVSSPGAQQAVEGADGVICLAPVFNDYATVGWSAWPKGDNVMLVERHAVTVGGVAYAGIDMRDFLTRLAAHTVRRDATARGGAYVTPQTPAAAPTAPLNNAEMARQIGALLTPRTTLTAETGDSWFNAVRMKLPHGARVELEMQWGHIGWSVPAAFGNALAAPERQHVLMVGDGSFQLTAQEVAQMIRHDLPVIIFLINNHGYTIEVMIHDGPYNNVKNWDYAGLMEVFNAGEGNGLGLRARTGGELAAAIEQARANRNGPTLIECTLDRDDCTQELVTWGKRVAAANARPP MTYTVGRYLADRLAQIGLKHHFAVAGDYNLVLLDQLLLNTDMQQIYCSNELNCGFSAEGYARANGAAAAIVTFSVGALSAFNALGGAYAENLPVILISGAPNANDHGTGHILHHTLGTTDYGYQLEMARHITCAAESIVAAEDAPAKIDHVIRTALREKKPAYLEIACNVAGAPCVRPGGIDADEASLKAAVDAALAFIEQRGSVTMLVGSRIRAAGAQAQAVALADALGCAVTTMAAAKSFFPEDHPGYRGHYWGEVSSPGAQQAVEGADGVICLAPVFNDYATVGWSAWPKGDNVMLVERHAVTVGGVAYAGIDMRDFLTRLAAHTVRRDATARGGAYVTPQTPAAAPTAPLNNAEMARQIGALLTPRTTLTAETGDSWFNAVRMKLPHGARVELEMQWGHIGWSVPAAFGNALAAPERQHVLMVGDGSFQLTAQEVAQMIRHDLPVIIFLINNHGYTIEVMIHDGPYNNVKNWDYAGLMEVFNAGEGNGLGLRARTGGELAAAIEQARANRNGPTLIECTLDRDDCTQELVTWGKRVAAANARPPR 4coq-a1-m1-cA_4coq-a1-m2-cB The complex of alpha-Carbonic anhydrase from Thermovibrio ammonificans with inhibitor sulfanilamide. E8T502 E8T502 1.55 X-RAY DIFFRACTION 74 1.0 648996 (Thermovibrio ammonificans HB-1) 648996 (Thermovibrio ammonificans HB-1) 225 226 4c3t-a1-m1-cA_4c3t-a1-m2-cA 4c3t-a1-m1-cB_4c3t-a1-m2-cB 4coq-a1-m2-cA_4coq-a1-m1-cB 4uov-a1-m1-cE_4uov-a1-m1-cF 4uov-a1-m2-cE_4uov-a1-m2-cF 4uov-a2-m1-cA_4uov-a2-m1-cC 4uov-a2-m1-cB_4uov-a2-m1-cD GAHWGYSGSIGPEHWGDLSPEYLMCKIGKNQSPIDINSADAVKACLAPVSVYYVSDAKYVVNNGHTIKVVMGGRGYVVVDGKRFYLKQFHFHAPSEHTVNGKHYPFEAHFVHLDKNGNITVLGVFFKVGKENPELEKVWRVMPEEPGQKRHLTARIDPEKLLPENRDYYRYSGSLTTPPCSEGVRWIVFKEPVEMSREQLEKFRKVMGFDNNRPVQPLNARKVMK GGAHWGYSGSIGPEHWGDLSPEYLMCKIGKNQSPIDINSADAVKACLAPVSVYYVSDAKYVVNNGHTIKVVMGGRGYVVVDGKRFYLKQFHFHAPSEHTVNGKHYPFEAHFVHLDKNGNITVLGVFFKVGKENPELEKVWRVMPEEPGQKRHLTARIDPEKLLPENRDYYRYSGSLTTPPCSEGVRWIVFKEPVEMSREQLEKFRKVMGFDNNRPVQPLNARKVMK 4cp8-a3-m1-cB_4cp8-a3-m1-cA Structure of the amidase domain of allophanate hydrolase from Pseudomonas sp strain ADP Q936X2 Q936X2 2.5 X-RAY DIFFRACTION 79 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 447 448 4cp8-a1-m1-cF_4cp8-a1-m1-cE 4cp8-a2-m1-cD_4cp8-a2-m1-cC HLTDLASYQAAYAAGTDAADVISDLYARIKEDGENPIWISLLPLESALAMLADAQQRKDKGEALPLFGIPFGVKDNIDVAGLPTTAGCTGFARTPRQHAFVVQRLVDAGAIPIGKTNLDQFATGLNGTRTPFGIPRCVFNENYVSGGSSSGSAVAVANGTVPFSLGTDTAGSGRIPAAFNNLVGLKPTKGLFSGSGLVPAARSLDCISVLAHTVDDALAVARVAAGYDADDAFSRKAGAAALTEKSWPRRFNFGVPAAEHRQFFGDAEAEALFNKAVRKLEEMGGTCISFDYTPFRQAAELLYAGPWVAERLAAIESLADEHPEVLHPVVRDIILSAKRMSAVDTFNGIYRLADLVRAAESTWEKIDVMLLPTAPTIYTVEDMLADPVRLNSNLGFYTNFVNLMDLSAIAVPAGFRTNGLPFGVTFIGRAFEDGAIASLGKAFVEHD HLTDLASYQAAYAAGTDAADVISDLYARIKEDGENPIWISLLPLESALAMLADAQQRKDKGEALPLFGIPFGVKDNIDVAGLPTTAGCTGFARTPRQHAFVVQRLVDAGAIPIGKTNLDQFATGLNGTRTPFGIPRCVFNENYVSGGSSSGSAVAVANGTVPFSLGTDTAGSGRIPAAFNNLVGLKPTKGLFSGSGLVPAARSLDCISVLAHTVDDALAVARVAAGYDADDAFSRKAGAAALTEKSWPRRFNFGVPAAEHRQFFGDAEAEALFNKAVRKLEEMGGTCISFDYTPFRQAAELLYAGPWVAERLAAIESLADEHPEVLHPVVRDIILSAKRMSAVDTFNGIYRLADLVRAAESTWEKIDVMLLPTAPTIYTVEDMLADPVRLNSNLGFYTNFVNLMDLSAIAVPAGFRTNGLPFGVTFIGRAFEDGAIASLGKAFVEHDL 4cpc-a2-m1-cD_4cpc-a2-m1-cA Crystal structure of human synaptonemal complex protein SYCP3 Q8IZU3 Q8IZU3 2.24 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 143 4cpc-a1-m1-cH_4cpc-a1-m1-cE INKALLAKRKRLEMYTKASLKTSNQKIEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILNMFRQQQKILQQSRIVQSQRLKTIKQLYEQFIKSMEELEKNHDNLLTGAQNEFKKEMAMLQKKIMMETQQ INKALLAKRKRLEMYTKASLKTSNQKIEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILNMFRQQQKILQQSRIVQSQRLKTIKQLYEQFIKSMEELEKNHDNLLTGAQNEFKKEMAMLQKKIMMETQQQE 4cpc-a2-m1-cD_4cpc-a2-m1-cB Crystal structure of human synaptonemal complex protein SYCP3 Q8IZU3 Q8IZU3 2.24 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 144 4cpc-a1-m1-cH_4cpc-a1-m1-cF 4cpc-a2-m1-cA_4cpc-a2-m1-cC INKALLAKRKRLEMYTKASLKTSNQKIEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILNMFRQQQKILQQSRIVQSQRLKTIKQLYEQFIKSMEELEKNHDNLLTGAQNEFKKEMAMLQKKIMMETQQ INKALLAKRKRLEMYTKASLKTSNQKIEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILNMFRQQQKILQQSRIVQSQRLKTIKQLYEQFIKSMEELEKNHDNLLTGAQNEFKKEMAMLQKKIMMETQQQEI 4cpc-a2-m1-cD_4cpc-a2-m1-cC Crystal structure of human synaptonemal complex protein SYCP3 Q8IZU3 Q8IZU3 2.24 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 144 4cpc-a1-m1-cE_4cpc-a1-m1-cF 4cpc-a1-m1-cH_4cpc-a1-m1-cG 4cpc-a2-m1-cA_4cpc-a2-m1-cB INKALLAKRKRLEMYTKASLKTSNQKIEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILNMFRQQQKILQQSRIVQSQRLKTIKQLYEQFIKSMEELEKNHDNLLTGAQNEFKKEMAMLQKKIMMETQQ GVDINKALLAKRKRLEMYTKASLKTSNQKIEHVWKTQQDQRQKLNQEYSQQFLTLFQQWDLDMQKAEEQEEKILNMFRQQQKILQQSRIVQSQRLKTIKQLYEQFIKSMEELEKNHDNLLTGAQNEFKKEMAMLQKKIMMETQQ 4cpd-a2-m1-cC_4cpd-a2-m1-cB Alcohol dehydrogenase TADH from Thermus sp. ATN1 B2ZRE3 B2ZRE3 2.74 X-RAY DIFFRACTION 113 1.0 528218 (Thermus sp. ATN1) 528218 (Thermus sp. ATN1) 345 346 4cpd-a1-m1-cD_4cpd-a1-m1-cA MRAVVFENKERVAVKEVNAPRLQHPLDALVRVHLAGICGSDLHLYHGKIPVLPGSVLGHEFVGQVEAVGEGIDLQPGDWVVGPFHIACGTCPYCRRHQYNLCERGGVYGYGPMFGNLQGAQAEILRVPFSNVNLRKLPPNLSPERAIFAGDILSTAYGGLIQGQLRPGDSVAVIGAGPVGLMAIEVAQVLGASKILAIDRIPERLERAASLGAIPINAEQENPVRRVRSETNDEGPDLVLEAVGGAATLSLALEMVRPGGRVSAVGVDNAPSFPFPLASGLVKDLTFRIGLANVHLYIDAVLALLASGRLQPERIVSHYLPLEEAPRGYELFDRKEALKVLLVVR MRAVVFENKERVAVKEVNAPRLQHPLDALVRVHLAGICGSDLHLYHGKIPVLPGSVLGHEFVGQVEAVGEGIQDLQPGDWVVGPFHIACGTCPYCRRHQYNLCERGGVYGYGPMFGNLQGAQAEILRVPFSNVNLRKLPPNLSPERAIFAGDILSTAYGGLIQGQLRPGDSVAVIGAGPVGLMAIEVAQVLGASKILAIDRIPERLERAASLGAIPINAEQENPVRRVRSETNDEGPDLVLEAVGGAATLSLALEMVRPGGRVSAVGVDNAPSFPFPLASGLVKDLTFRIGLANVHLYIDAVLALLASGRLQPERIVSHYLPLEEAPRGYELFDRKEALKVLLVVR 4cpg-a1-m1-cA_4cpg-a1-m1-cB Solution structure of the SGTA N-terminal domain O43765 O43765 NOT SOLUTION NMR 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 MDNKKRLAYAIIQFLHDQLRHGGLSSDAQESLEVAIQCLETAFGVTVEDSDLALPQTLPEIFEAAATGK MDNKKRLAYAIIQFLHDQLRHGGLSSDAQESLEVAIQCLETAFGVTVEDSDLALPQTLPEIFEAAATGK 4cpv-a1-m1-cA_4cpv-a1-m2-cA REFINED CRYSTAL STRUCTURE OF CALCIUM-LIGANDED CARP PARVALBUMIN 4.25 AT 1.5-ANGSTROMS RESOLUTION P02618 P02618 1.5 X-RAY DIFFRACTION 30 1.0 7962 (Cyprinus carpio) 7962 (Cyprinus carpio) 108 108 AFAGVLNDADIAAALEACKAADSFNHKAFFAKVGLTSKSADDVKKAFAIIDQDKSGFIEEDELKLFLQNFKADARALTDGETKTFLKAGDSDGDGKIGVDEFTALVKA AFAGVLNDADIAAALEACKAADSFNHKAFFAKVGLTSKSADDVKKAFAIIDQDKSGFIEEDELKLFLQNFKADARALTDGETKTFLKAGDSDGDGKIGVDEFTALVKA 4cq4-a1-m1-cB_4cq4-a1-m1-cD C-terminal fragment of Af1503-sol: transmembrane receptor Af1503 from Archaeoglobus fulgidus engineered for solubility O28769 O28769 1.7 X-RAY DIFFRACTION 76 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 102 102 4cq4-a1-m1-cC_4cq4-a1-m1-cA 4gn0-a3-m1-cC_4gn0-a3-m2-cD 4gn0-a3-m2-cB_4gn0-a3-m1-cA ENIASEISKSVEGAIQQVKNLLTLAADRAEQIVNDLASTTTSTITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAMESLEEALK ENIASEISKSVEGAIQQVKNLLTLAADRAEQIVNDLASTTTSTITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAMESLEEALK 4cq4-a1-m1-cC_4cq4-a1-m1-cD C-terminal fragment of Af1503-sol: transmembrane receptor Af1503 from Archaeoglobus fulgidus engineered for solubility O28769 O28769 1.7 X-RAY DIFFRACTION 97 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 102 102 4cq4-a1-m1-cB_4cq4-a1-m1-cA 4gn0-a1-m1-cC_4gn0-a1-m1-cA 4gn0-a2-m1-cD_4gn0-a2-m1-cB 4gn0-a3-m1-cC_4gn0-a3-m1-cA 4gn0-a3-m2-cD_4gn0-a3-m2-cB ENIASEISKSVEGAIQQVKNLLTLAADRAEQIVNDLASTTTSTITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAMESLEEALK ENIASEISKSVEGAIQQVKNLLTLAADRAEQIVNDLASTTTSTITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAMESLEEALK 4cq4-a1-m1-cD_4cq4-a1-m1-cA C-terminal fragment of Af1503-sol: transmembrane receptor Af1503 from Archaeoglobus fulgidus engineered for solubility O28769 O28769 1.7 X-RAY DIFFRACTION 93 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 102 106 4cq4-a1-m1-cB_4cq4-a1-m1-cC 4gn0-a3-m1-cC_4gn0-a3-m2-cB 4gn0-a3-m2-cD_4gn0-a3-m1-cA ENIASEISKSVEGAIQQVKNLLTLAADRAEQIVNDLASTTTSTITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAMESLEEALK ANPAENIASEISKSVEGAIQQVKNLLTLAADRAEQIVNDLASTTTSTITRPIIELSNTADKIAEGNLEAEVPHQNRADEIGILAKSIERLRRSLKVAMESLEEALK 4cq6-a1-m1-cB_4cq6-a1-m1-cC The crystal structure of the allene oxide cyclase 2 from Arabidopsis thaliana with bound inhibitor - vernolic acid Q9LS02 Q9LS02 1.8 X-RAY DIFFRACTION 89 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 174 174 1z8k-a1-m1-cA_1z8k-a1-m1-cB 1z8k-a1-m1-cA_1z8k-a1-m1-cC 1z8k-a1-m1-cB_1z8k-a1-m1-cC 1zvc-a1-m1-cA_1zvc-a1-m2-cA 1zvc-a1-m1-cA_1zvc-a1-m3-cA 1zvc-a1-m2-cA_1zvc-a1-m3-cA 2brj-a1-m1-cA_2brj-a1-m1-cB 2brj-a1-m1-cA_2brj-a1-m1-cC 2brj-a1-m1-cB_2brj-a1-m1-cC 2dio-a1-m1-cA_2dio-a1-m1-cB 2dio-a1-m1-cA_2dio-a1-m1-cC 2dio-a1-m1-cB_2dio-a1-m1-cC 2gin-a1-m1-cA_2gin-a1-m1-cB 2gin-a1-m1-cA_2gin-a1-m1-cC 2gin-a1-m1-cB_2gin-a1-m1-cC 2gin-a2-m1-cD_2gin-a2-m1-cE 2gin-a2-m1-cD_2gin-a2-m1-cF 2gin-a2-m1-cE_2gin-a2-m1-cF 2q4i-a1-m1-cA_2q4i-a1-m1-cB 2q4i-a1-m1-cA_2q4i-a1-m1-cC 2q4i-a1-m1-cB_2q4i-a1-m1-cC 4cq6-a1-m1-cA_4cq6-a1-m1-cB 4cq6-a1-m1-cA_4cq6-a1-m1-cC 4cq7-a1-m1-cA_4cq7-a1-m1-cB 4cq7-a1-m1-cA_4cq7-a1-m1-cC 4cq7-a1-m1-cB_4cq7-a1-m1-cC KVQELSVYEINELDRHSPKILKNAFSLMFGLGDLVPFTNKLYTGDLKKRVGITAGLCVVIEHVPEKKGERFEATYSFYFGDYGHLSVQGPYLTYEDSFLAITGGAGIFEGAYGQVKLQQLVYPTKLFYTFYLKGLANDLPLELTGTPVPPSKDIEPAPEAKALEPSGVISNYTN KVQELSVYEINELDRHSPKILKNAFSLMFGLGDLVPFTNKLYTGDLKKRVGITAGLCVVIEHVPEKKGERFEATYSFYFGDYGHLSVQGPYLTYEDSFLAITGGAGIFEGAYGQVKLQQLVYPTKLFYTFYLKGLANDLPLELTGTPVPPSKDIEPAPEAKALEPSGVISNYTN 4cqb-a1-m1-cB_4cqb-a1-m1-cA The reaction mechanism of the N-isopropylammelide isopropylaminohydrolase AtzC: insights from structural and mutagenesis studies O52063 O52063 1.84 X-RAY DIFFRACTION 100 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 400 402 2qt3-a3-m1-cA_2qt3-a3-m1-cB 2qt3-a3-m2-cA_2qt3-a3-m2-cB 2qt3-a4-m1-cA_2qt3-a4-m1-cB 4cqc-a1-m1-cB_4cqc-a1-m1-cA 4cqd-a1-m1-cA_4cqd-a1-m1-cB 5akq-a1-m1-cA_5akq-a1-m1-cB DFDLIIRNAYLSEKDSVYDIGIVGDRIIKIEAKIEGTVKDEIDAKGNLVSPGFVDAHTHMDKSFTSTGERLPKFWSRPYTRDAAIEDGLKYYKNATHEEIKRHVIEHAHMQVLHGTLYTRTHVDVDSVAKTKAVEAVLEAKEELKDLIDIQVVAFAQSGFFVDLESESLIRKSLDMGCDLVGGVDPATRENNVEGSLDLCFKLAKEYDVDIDYHIHDIGTVGVYSINRLAQKTIENGYKGRVTTSHAWCFADAPSEWLDEAIPLYKDSGMKFVTCFSSTPPTMPVIKLLEAGINLGCASDNIRDFWVPFGNGDMVQGALIETQRLELKTNRDLGLIWKMITSEGARVLGIEKNYGIEVGKKADLVVLNSLSPQWAIIDQAKRLCVIKNGRIIVKDEVIVA SKDFDLIIRNAYLSEKDSVYDIGIVGDRIIKIEAKIEGTVKDEIDAKGNLVSPGFVDAHTHMDKSFTSTGERLPKFWSRPYTRDAAIEDGLKYYKNATHEEIKRHVIEHAHMQVLHGTLYTRTHVDVDSVAKTKAVEAVLEAKEELKDLIDIQVVAFAQSGFFVDLESESLIRKSLDMGCDLVGGVDPATRENNVEGSLDLCFKLAKEYDVDIDYHIHDIGTVGVYSINRLAQKTIENGYKGRVTTSHAWCFADAPSEWLDEAIPLYKDSGMKFVTCFSSTPPTMPVIKLLEAGINLGCASDNIRDFWVPFGNGDMVQGALIETQRLELKTNRDLGLIWKMITSEGARVLGIEKNYGIEVGKKADLVVLNSLSPQWAIIDQAKRLCVIKNGRIIVKDEVIVA 4cqm-a1-m1-cK_4cqm-a1-m1-cJ Crystal structure of heterotetrameric human ketoacyl reductase complexed with NAD and NADP Q8N4T8 Q8N4T8 2.339 X-RAY DIFFRACTION 149 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 240 4cqm-a3-m1-cN_4cqm-a3-m1-cO 4cqm-a4-m1-cG_4cqm-a4-m1-cF MDKVCAVFGGSRGIGRAVAQLMARKGYRLAVIARNLEGAKAAAGDLGGDHLAFSCDVAKEHDVQNTFEELEKHLGRVNFLVNAAGINRDGLLVRTKTEDMVSQLHTNLLGSMLTCKAAMRTMIQQQGGSIVNVGSIVGLKGNSGQSVYSASKGGLVGFSRALAKEVARKKIRVNVVAPGFVHTKEEHLKKNIPLGRFGETIEVAHAVVFLLESPYITGHVLVVDGGLQLIL HHHMDKVCAVFGGSRGIGRAVAQLMARKGYRLAVIARNLEGAKAAAGDLGGDHLAFSCDVAKEHDVQNTFEELEKHLGRVNFLVNAAGINRDGLLVRTKTEDMVSQLHTNLLGSMLTCKAAMRTMIQQQGGSIVNVGSIVGLKGNSGQSVYSASKGGLVGFSRALAKEVARKKIRVNVVAPGFVHTDMTKDLKEEHLKKNIPLGRFGETIEVAHAVVFLLESPYITGHVLVVDGGLQLIL 4cqm-a4-m1-cE_4cqm-a4-m1-cH Crystal structure of heterotetrameric human ketoacyl reductase complexed with NAD and NADP Q92506 Q92506 2.339 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 249 2pd6-a1-m1-cA_2pd6-a1-m1-cD 2pd6-a1-m1-cC_2pd6-a1-m1-cB 4cql-a1-m1-cH_4cql-a1-m1-cE 4cql-a2-m1-cA_4cql-a2-m1-cD 4cql-a3-m1-cM_4cql-a3-m1-cP 4cql-a4-m1-cL_4cql-a4-m1-cI 4cqm-a1-m1-cL_4cqm-a1-m1-cI 4cqm-a2-m1-cD_4cqm-a2-m1-cA 4cqm-a3-m1-cP_4cqm-a3-m1-cM SQLQNRLRSALALVTGAGSGIGRAVSVRLAGEGATVAACDLDRAAAQETVRLLGNHAAFQADVSEARAARCLLEQVQACFSRPPSVVVSCAGITQDEFLLHMSEDDWDKVIAVNLKGTFLVTQAAAQALVSNGCRGSIINISSIVGKVGNVGQTNYAASKAGVIGLTQTAARELGRHGIRCNSVLPGFIATPMTQKVPQKVVDKITEMIPMGHLGDPEDVADVVAFLASEDSGYITGTSVEVTGGLFM ASQLQNRLRSALALVTGAGSGIGRAVSVRLAGEGATVAACDLDRAAAQETVRLLGNHAAFQADVSEARAARCLLEQVQACFSRPPSVVVSCAGITQDEFLLHMSEDDWDKVIAVNLKGTFLVTQAAAQALVSNGCRGSIINISSIVGKVGNVGQTNYAASKAGVIGLTQTAARELGRHGIRCNSVLPGFIATPMTQKVPQKVVDKITEMIPMGHLGDPEDVADVVAFLASEDSGYITGTSVEVTGGLFM 4cr6-a1-m1-cA_4cr6-a1-m1-cD Crystal structure of the N-acetyl-D-mannosamine dehydrogenase without substrates P22441 P22441 1.9 X-RAY DIFFRACTION 77 1.0 240 (Flavobacterium sp. 141-8) 240 (Flavobacterium sp. 141-8) 255 255 4cr6-a1-m1-cC_4cr6-a1-m1-cB 4cr7-a1-m1-cA_4cr7-a1-m1-cN 4cr7-a1-m2-cH_4cr7-a1-m1-cK 4cr7-a2-m1-cN_4cr7-a2-m5-cA 4cr7-a2-m4-cH_4cr7-a2-m5-cK 4cr7-a3-m1-cH_4cr7-a3-m7-cK 4cr7-a3-m6-cN_4cr7-a3-m7-cA 4cr7-a4-m1-cB_4cr7-a4-m1-cM 4cr7-a4-m4-cG_4cr7-a4-m1-cL 4cr7-a5-m1-cG_4cr7-a5-m6-cL 4cr7-a5-m6-cB_4cr7-a5-m6-cM 4cr7-a6-m1-cD_4cr7-a6-m8-cO 4cr7-a6-m1-cF_4cr7-a6-m8-cI 4cr7-a7-m9-cD_4cr7-a7-m1-cO 4cr7-a7-m9-cF_4cr7-a7-m1-cI 4cr7-a8-m10-cC_4cr7-a8-m1-cP 4cr7-a8-m10-cE_4cr7-a8-m1-cJ 4cr7-a9-m1-cC_4cr7-a9-m11-cP 4cr7-a9-m1-cE_4cr7-a9-m11-cJ 4cr8-a1-m1-cA_4cr8-a1-m2-cB 4cr8-a1-m1-cB_4cr8-a1-m2-cA 4cr8-a2-m1-cC_4cr8-a2-m1-cF 4cr8-a2-m1-cE_4cr8-a2-m1-cD GRLAGKAAIVTGAAGGIGRATVEAYLREGASVVAMDLAPRLAATRYEEPGAIPIACDLRAAIDAAMADAVARLGGLDILVAGGALKGGTGNFLDLSDADWDRYVDVNMTGTFLTCRAGARAMVAAGARSARIITIGSVNSFMAEPEAAAYVAAKGGVAMLTRAMAVDLARHGILVNMIAPGPVDVTGNNTGYSEPRLAEQVLDEVALGRPGLPEEVATAAVFLAEDGSSFITGSTITIDGGLSAMIFGGMREGRR GRLAGKAAIVTGAAGGIGRATVEAYLREGASVVAMDLAPRLAATRYEEPGAIPIACDLRAAIDAAMADAVARLGGLDILVAGGALKGGTGNFLDLSDADWDRYVDVNMTGTFLTCRAGARAMVAAGARSARIITIGSVNSFMAEPEAAAYVAAKGGVAMLTRAMAVDLARHGILVNMIAPGPVDVTGNNTGYSEPRLAEQVLDEVALGRPGLPEEVATAAVFLAEDGSSFITGSTITIDGGLSAMIFGGMREGRR 4cr6-a1-m1-cC_4cr6-a1-m1-cD Crystal structure of the N-acetyl-D-mannosamine dehydrogenase without substrates P22441 P22441 1.9 X-RAY DIFFRACTION 123 1.0 240 (Flavobacterium sp. 141-8) 240 (Flavobacterium sp. 141-8) 255 255 4cr6-a1-m1-cA_4cr6-a1-m1-cB 4cr7-a1-m1-cK_4cr7-a1-m1-cN 4cr7-a1-m2-cH_4cr7-a1-m1-cA 4cr7-a2-m1-cN_4cr7-a2-m5-cK 4cr7-a2-m4-cH_4cr7-a2-m5-cA 4cr7-a3-m1-cH_4cr7-a3-m7-cA 4cr7-a3-m6-cN_4cr7-a3-m7-cK 4cr7-a4-m1-cL_4cr7-a4-m1-cM 4cr7-a4-m4-cG_4cr7-a4-m1-cB 4cr7-a5-m1-cG_4cr7-a5-m6-cB 4cr7-a5-m6-cL_4cr7-a5-m6-cM 4cr7-a6-m1-cD_4cr7-a6-m1-cF 4cr7-a6-m8-cO_4cr7-a6-m8-cI 4cr7-a7-m1-cO_4cr7-a7-m1-cI 4cr7-a7-m9-cD_4cr7-a7-m9-cF 4cr7-a8-m10-cC_4cr7-a8-m10-cE 4cr7-a8-m1-cJ_4cr7-a8-m1-cP 4cr7-a9-m11-cJ_4cr7-a9-m11-cP 4cr7-a9-m1-cC_4cr7-a9-m1-cE 4cr8-a1-m1-cA_4cr8-a1-m1-cB 4cr8-a1-m2-cA_4cr8-a1-m2-cB 4cr8-a2-m1-cC_4cr8-a2-m1-cD 4cr8-a2-m1-cE_4cr8-a2-m1-cF GRLAGKAAIVTGAAGGIGRATVEAYLREGASVVAMDLAPRLAATRYEEPGAIPIACDLRAAIDAAMADAVARLGGLDILVAGGALKGGTGNFLDLSDADWDRYVDVNMTGTFLTCRAGARAMVAAGARSARIITIGSVNSFMAEPEAAAYVAAKGGVAMLTRAMAVDLARHGILVNMIAPGPVDVTGNNTGYSEPRLAEQVLDEVALGRPGLPEEVATAAVFLAEDGSSFITGSTITIDGGLSAMIFGGMREGRR GRLAGKAAIVTGAAGGIGRATVEAYLREGASVVAMDLAPRLAATRYEEPGAIPIACDLRAAIDAAMADAVARLGGLDILVAGGALKGGTGNFLDLSDADWDRYVDVNMTGTFLTCRAGARAMVAAGARSARIITIGSVNSFMAEPEAAAYVAAKGGVAMLTRAMAVDLARHGILVNMIAPGPVDVTGNNTGYSEPRLAEQVLDEVALGRPGLPEEVATAAVFLAEDGSSFITGSTITIDGGLSAMIFGGMREGRR 4cr6-a1-m1-cD_4cr6-a1-m1-cB Crystal structure of the N-acetyl-D-mannosamine dehydrogenase without substrates P22441 P22441 1.9 X-RAY DIFFRACTION 125 1.0 240 (Flavobacterium sp. 141-8) 240 (Flavobacterium sp. 141-8) 255 257 4cr6-a1-m1-cA_4cr6-a1-m1-cC 4cr7-a1-m1-cA_4cr7-a1-m1-cK 4cr7-a1-m2-cH_4cr7-a1-m1-cN 4cr7-a2-m4-cH_4cr7-a2-m1-cN 4cr7-a2-m5-cA_4cr7-a2-m5-cK 4cr7-a3-m1-cH_4cr7-a3-m6-cN 4cr7-a3-m7-cA_4cr7-a3-m7-cK 4cr7-a4-m1-cL_4cr7-a4-m1-cB 4cr7-a4-m4-cG_4cr7-a4-m1-cM 4cr7-a5-m1-cG_4cr7-a5-m6-cM 4cr7-a5-m6-cL_4cr7-a5-m6-cB 4cr7-a6-m1-cD_4cr7-a6-m8-cI 4cr7-a6-m1-cF_4cr7-a6-m8-cO 4cr7-a7-m9-cD_4cr7-a7-m1-cI 4cr7-a7-m9-cF_4cr7-a7-m1-cO 4cr7-a8-m10-cC_4cr7-a8-m1-cJ 4cr7-a8-m10-cE_4cr7-a8-m1-cP 4cr7-a9-m1-cC_4cr7-a9-m11-cJ 4cr7-a9-m1-cE_4cr7-a9-m11-cP 4cr8-a1-m1-cA_4cr8-a1-m2-cA 4cr8-a1-m1-cB_4cr8-a1-m2-cB 4cr8-a2-m1-cC_4cr8-a2-m1-cE 4cr8-a2-m1-cF_4cr8-a2-m1-cD 4cr8-a3-m1-cG_4cr8-a3-m2-cG 4cr8-a4-m1-cH_4cr8-a4-m3-cH GRLAGKAAIVTGAAGGIGRATVEAYLREGASVVAMDLAPRLAATRYEEPGAIPIACDLRAAIDAAMADAVARLGGLDILVAGGALKGGTGNFLDLSDADWDRYVDVNMTGTFLTCRAGARAMVAAGARSARIITIGSVNSFMAEPEAAAYVAAKGGVAMLTRAMAVDLARHGILVNMIAPGPVDVTGNNTGYSEPRLAEQVLDEVALGRPGLPEEVATAAVFLAEDGSSFITGSTITIDGGLSAMIFGGMREGRR PGRLAGKAAIVTGAAGGIGRATVEAYLREGASVVAMDLAPRLAATRYEEPGAIPIACDLRAAIDAAMADAVARLGGLDILVAGGALKGGTGNFLDLSDADWDRYVDVNMTGTFLTCRAGARAMVAAGAGRSARIITIGSVNSFMAEPEAAAYVAAKGGVAMLTRAMAVDLARHGILVNMIAPGPVDVTGNNTGYSEPRLAEQVLDEVALGRPGLPEEVATAAVFLAEDGSSFITGSTITIDGGLSAMIFGGMREGRR 4cs7-a1-m1-cB_4cs7-a1-m1-cE Crystal structure of the asymmetric human metapneumovirus M2-1 tetramer, form 1 Q8QN58 Q8QN58 2.47 X-RAY DIFFRACTION 91 1.0 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 166 168 KAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRADGLSIISGAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGA SRKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRADGLSIISGAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGA 4cs7-a1-m1-cE_4cs7-a1-m1-cC Crystal structure of the asymmetric human metapneumovirus M2-1 tetramer, form 1 Q8QN58 Q8QN58 2.47 X-RAY DIFFRACTION 25 0.994 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 168 172 SRKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRADGLSIISGAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGA RKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRADGLSIISGAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGAENDSS 4cs8-a1-m1-cA_4cs8-a1-m1-cB Crystal structure of the asymmetric human metapneumovirus M2-1 tetramer, form 2 Q8QN58 Q8QN58 2.1 X-RAY DIFFRACTION 16 0.987 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 159 164 4cs7-a1-m1-cA_4cs7-a1-m1-cB 4cs9-a1-m1-cA_4cs9-a1-m1-cB 4csa-a1-m1-cB_4csa-a1-m1-cA RKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGAE RKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRADSIISGAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAG 4cs8-a1-m1-cA_4cs8-a1-m1-cC Crystal structure of the asymmetric human metapneumovirus M2-1 tetramer, form 2 Q8QN58 Q8QN58 2.1 X-RAY DIFFRACTION 71 0.994 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 159 162 4cs7-a1-m1-cA_4cs7-a1-m1-cC 4cs7-a1-m1-cA_4cs7-a1-m1-cE 4cs9-a1-m1-cA_4cs9-a1-m1-cC 4cs9-a1-m1-cA_4cs9-a1-m1-cE 4csa-a1-m1-cA_4csa-a1-m1-cC RKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGAE RKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRDTDRAAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGAEND 4csa-a1-m1-cB_4csa-a1-m1-cC Crystal structure of the asymmetric human metapneumovirus M2-1 tetramer bound to a DNA 4-mer Q8QN58 Q8QN58 2.28 X-RAY DIFFRACTION 37 0.981 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 159 164 4cs7-a1-m1-cB_4cs7-a1-m1-cC RKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRNTDRADGAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSA SRKAPCKYEVRGKCNRGSECKFNHNYWSWPDRYLLIRSNYLLNQLLRDTDRAAGREDRTQDFVLGSTNVVQGYIDDNQSITKAAACYSLHNIIKQLQEVEVRQARDNKLSDSKHVALHNLVLSYMEMSKTPASLINNLKRLPREKLKKLAKLIIDLSAGAENDS 4csf-a2-m1-cM_4csf-a2-m1-cR Structural insights into Toscana virus RNA encapsidation P21701 P21701 2.598 X-RAY DIFFRACTION 114 1.0 11590 (Toscana virus) 11590 (Toscana virus) 248 248 4csf-a1-m1-cS_4csf-a1-m1-cX 4csf-a1-m1-cU_4csf-a1-m1-cT 4csf-a1-m1-cV_4csf-a1-m1-cW 4csf-a2-m1-cO_4csf-a2-m1-cN 4csf-a2-m1-cP_4csf-a2-m1-cQ 4csf-a3-m1-cG_4csf-a3-m1-cL 4csf-a3-m1-cH_4csf-a3-m1-cI 4csf-a3-m1-cJ_4csf-a3-m1-cK 4csf-a4-m1-cA_4csf-a4-m1-cF 4csf-a4-m1-cB_4csf-a4-m1-cC 4csf-a4-m1-cD_4csf-a4-m1-cE NYRDIALAFLDESADSGTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKVG NYRDIALAFLDESADSGTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKVG 4csf-a4-m1-cE_4csf-a4-m1-cF Structural insights into Toscana virus RNA encapsidation P21701 P21701 2.598 X-RAY DIFFRACTION 92 0.996 11590 (Toscana virus) 11590 (Toscana virus) 249 249 4csf-a1-m1-cS_4csf-a1-m1-cT 4csf-a1-m1-cU_4csf-a1-m1-cV 4csf-a1-m1-cX_4csf-a1-m1-cW 4csf-a2-m1-cM_4csf-a2-m1-cN 4csf-a2-m1-cO_4csf-a2-m1-cP 4csf-a2-m1-cR_4csf-a2-m1-cQ 4csf-a3-m1-cG_4csf-a3-m1-cH 4csf-a3-m1-cI_4csf-a3-m1-cJ 4csf-a3-m1-cL_4csf-a3-m1-cK 4csf-a4-m1-cA_4csf-a4-m1-cB 4csf-a4-m1-cD_4csf-a4-m1-cC 4h5l-a1-m1-cA_4h5l-a1-m1-cB 4h5l-a1-m1-cD_4h5l-a1-m1-cE ENYRDIALAFLDESADSGTINAWVNEFAYEGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKVG ENYRDIALAFLDESADSGTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKVG 4csm-a1-m1-cA_4csm-a1-m1-cB YEAST CHORISMATE MUTASE + TYR + ENDOOXABICYCLIC INHIBITOR P32178 P32178 2.8 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 252 252 3csm-a1-m1-cA_3csm-a1-m1-cB MDFTKPETVLNLQNIRDELVRMEDSIIFKFIERSHFATCPSVYEANHPGLEIPNFKGSFLDWALSNLEIAHSRIRRFESPDETPFFPDKIQKSFLPSINYPQILAPYAPEVNYNDKIKKVYIEKIIPLISKRDGDDKNNFGSVATRDIECLQSLSRRIHFGKFVAEAKFQSDIPLYTKLIKSKDVEGIMKNITNSAVEEKILERLTKKAEVYGVDPTERRITPEYLVKIYKEIVIPITKEVEVEYLLRRLEE MDFTKPETVLNLQNIRDELVRMEDSIIFKFIERSHFATCPSVYEANHPGLEIPNFKGSFLDWALSNLEIAHSRIRRFESPDETPFFPDKIQKSFLPSINYPQILAPYAPEVNYNDKIKKVYIEKIIPLISKRDGDDKNNFGSVATRDIECLQSLSRRIHFGKFVAEAKFQSDIPLYTKLIKSKDVEGIMKNITNSAVEEKILERLTKKAEVYGVDPTERRITPEYLVKIYKEIVIPITKEVEVEYLLRRLEE 4csw-a1-m1-cA_4csw-a1-m1-cB Rhodothermus marinus YCFD-like ribosomal protein L16 Arginyl hydroxylase D0MK34 D0MK34 2.821 X-RAY DIFFRACTION 248 1.0 518766 (Rhodothermus marinus DSM 4252) 518766 (Rhodothermus marinus DSM 4252) 388 388 4cug-a1-m1-cB_4cug-a1-m1-cA QLPETILGGLAPEEFLANYWQKRPLLIRQALPGFRSPITPEELAGLACEEGVTARLILEKGGAYPWEVRYGPFEPEDFVALPPTHWTLLVQEVDRLVPEVAALLETVRFVPNWRLDDIMVSYAPEGGTVGAHIDNYDVFLVQAWGRRRWQINHRPVEREELVPGLEVRLLAHFEPDAEWILEPGDVLYLPPRIPHYGVALEDCMTFSIGFRAPDQAELAEAMPRMAAWLDGGRRYADPDLTPADEPGEITPEALDQIQALLRALIDDRERLARWFGCIITEPRRGLPPEPPGRPLSAKQLHRRLQQGATLRRNAIPELAYVRHADGSATLFASGEAYELSPELADVAPLLTGRRPLTAETLRPWLERDDFLELLQTLIHSGILSLIPA QLPETILGGLAPEEFLANYWQKRPLLIRQALPGFRSPITPEELAGLACEEGVTARLILEKGGAYPWEVRYGPFEPEDFVALPPTHWTLLVQEVDRLVPEVAALLETVRFVPNWRLDDIMVSYAPEGGTVGAHIDNYDVFLVQAWGRRRWQINHRPVEREELVPGLEVRLLAHFEPDAEWILEPGDVLYLPPRIPHYGVALEDCMTFSIGFRAPDQAELAEAMPRMAAWLDGGRRYADPDLTPADEPGEITPEALDQIQALLRALIDDRERLARWFGCIITEPRRGLPPEPPGRPLSAKQLHRRLQQGATLRRNAIPELAYVRHADGSATLFASGEAYELSPELADVAPLLTGRRPLTAETLRPWLERDDFLELLQTLIHSGILSLIPA 4ctf-a1-m1-cCs_4ctf-a1-m1-cCx The limits of structural plasticity in a picornavirus capsid revealed by a massively expanded equine rhinitis A virus particle Q91B42 Q91B42 17.0 ELECTRON MICROSCOPY 59 1.0 47000 (Equine rhinitis A virus) 47000 (Equine rhinitis A virus) 198 198 4ctf-a1-m1-cC0_4ctf-a1-m1-cCP 4ctf-a1-m1-cC1_4ctf-a1-m1-cCN 4ctf-a1-m1-cC2_4ctf-a1-m1-cCg 4ctf-a1-m1-cC3_4ctf-a1-m1-cCY 4ctf-a1-m1-cC4_4ctf-a1-m1-cCu 4ctf-a1-m1-cC5_4ctf-a1-m1-cCF 4ctf-a1-m1-cC6_4ctf-a1-m1-cCD 4ctf-a1-m1-cC7_4ctf-a1-m1-cCl 4ctf-a1-m1-cC8_4ctf-a1-m1-cCd 4ctf-a1-m1-cC9_4ctf-a1-m1-cCk 4ctf-a1-m1-cCA_4ctf-a1-m1-cCV 4ctf-a1-m1-cCB_4ctf-a1-m1-cCe 4ctf-a1-m1-cCC_4ctf-a1-m1-cCm 4ctf-a1-m1-cCc_4ctf-a1-m1-cCv 4ctf-a1-m1-cCE_4ctf-a1-m1-cCJ 4ctf-a1-m1-cCG_4ctf-a1-m1-cCt 4ctf-a1-m1-cCH_4ctf-a1-m1-cCr 4ctf-a1-m1-cCi_4ctf-a1-m1-cCn 4ctf-a1-m1-cCI_4ctf-a1-m1-cCW 4ctf-a1-m1-cCK_4ctf-a1-m1-cCa 4ctf-a1-m1-cCL_4ctf-a1-m1-cCj 4ctf-a1-m1-cCM_4ctf-a1-m1-cCh 4ctf-a1-m1-cCO_4ctf-a1-m1-cCT 4ctf-a1-m1-cCQ_4ctf-a1-m1-cCo 4ctf-a1-m1-cCR_4ctf-a1-m1-cCw 4ctf-a1-m1-cCS_4ctf-a1-m1-cCb 4ctf-a1-m1-cCU_4ctf-a1-m1-cCf 4ctf-a1-m1-cCX_4ctf-a1-m1-cCq 4ctf-a1-m1-cCZ_4ctf-a1-m1-cCp DRIETTVVGTIINSQGSVTTYCYSKPDRPPSTVSDPTRLGPTLSRYTFKVGEWPSQSHGHAWIPLPSDKLKKGSFHEVVKAHLVKNGWDVVQVNASFAHGALCVAAVPYEHTHEKALWSELEEPAYYQQLSVFPHLLNLRTNSSHLVMPYIGPPTTNLTLHNWTIVILILSLTGPGQTVPTMSVAPIDAVNGPLPNPE DRIETTVVGTIINSQGSVTTYCYSKPDRPPSTVSDPTRLGPTLSRYTFKVGEWPSQSHGHAWIPLPSDKLKKGSFHEVVKAHLVKNGWDVVQVNASFAHGALCVAAVPYEHTHEKALWSELEEPAYYQQLSVFPHLLNLRTNSSHLVMPYIGPPTTNLTLHNWTIVILILSLTGPGQTVPTMSVAPIDAVNGPLPNPE 4ctm-a1-m1-cA_4ctm-a1-m2-cA Glucopyranosylidene-spiro-iminothiazolidinone, a New Bicyclic Ring System: Synthesis, Derivatization, and Evaluation as Glycogen Phosphorylase Inhibitors by Enzyme Kinetic and Crystallographic Methods P00489 P00489 1.95 X-RAY DIFFRACTION 95 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 807 807 1a8i-a1-m1-cA_1a8i-a1-m2-cA 1abb-a1-m1-cA_1abb-a1-m1-cB 1abb-a1-m1-cC_1abb-a1-m1-cD 1axr-a1-m1-cA_1axr-a1-m2-cA 1bx3-a1-m1-cA_1bx3-a1-m2-cA 1c50-a1-m1-cA_1c50-a1-m2-cA 1c8k-a1-m1-cA_1c8k-a1-m2-cA 1c8l-a1-m1-cA_1c8l-a1-m2-cA 1e1y-a1-m1-cA_1e1y-a1-m2-cA 1fs4-a1-m1-cA_1fs4-a1-m2-cA 1ftq-a1-m1-cA_1ftq-a1-m2-cA 1ftw-a1-m1-cA_1ftw-a1-m2-cA 1fty-a1-m1-cA_1fty-a1-m2-cA 1fu4-a1-m1-cA_1fu4-a1-m2-cA 1fu7-a1-m1-cA_1fu7-a1-m2-cA 1fu8-a1-m1-cA_1fu8-a1-m2-cA 1gfz-a1-m1-cA_1gfz-a1-m2-cA 1gg8-a1-m1-cA_1gg8-a1-m2-cA 1ggn-a1-m1-cA_1ggn-a1-m2-cA 1gpa-a1-m1-cB_1gpa-a1-m1-cA 1gpa-a1-m1-cC_1gpa-a1-m1-cD 1gpa-a2-m1-cB_1gpa-a2-m1-cA 1gpa-a3-m1-cC_1gpa-a3-m1-cD 1gpb-a1-m1-cA_1gpb-a1-m2-cA 1gpy-a1-m1-cA_1gpy-a1-m2-cA 1h5u-a1-m1-cA_1h5u-a1-m2-cA 1hlf-a1-m1-cA_1hlf-a1-m2-cA 1k06-a1-m1-cA_1k06-a1-m2-cA 1k08-a1-m1-cA_1k08-a1-m2-cA 1kti-a3-m1-cA_1kti-a3-m3-cA 1lwn-a1-m1-cA_1lwn-a1-m2-cA 1lwo-a1-m1-cA_1lwo-a1-m2-cA 1noi-a1-m1-cA_1noi-a1-m1-cB 1noi-a2-m1-cC_1noi-a2-m1-cD 1noi-a3-m1-cA_1noi-a3-m1-cB 1noi-a3-m1-cC_1noi-a3-m1-cD 1noj-a1-m1-cA_1noj-a1-m2-cA 1nok-a1-m1-cA_1nok-a1-m2-cA 1p29-a1-m1-cA_1p29-a1-m2-cA 1p2b-a1-m1-cA_1p2b-a1-m2-cA 1p2d-a1-m1-cA_1p2d-a1-m2-cA 1p2g-a1-m1-cA_1p2g-a1-m2-cA 1p4g-a1-m1-cA_1p4g-a1-m2-cA 1p4h-a1-m1-cA_1p4h-a1-m2-cA 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MYKHTIVYDGEVDKISATVVGWGYNDGKILICDIKDYVPGQTQNLYVVGGGACEKISSITKEKFIMIKGNDRFDTLYKALDFINR MYKHTIVYDGEVDKISATVVGWGYNDGKILICDIKDYVPGQTQNLYVVGGGACEKISSITKEKFIMIKGNDRFDTLYKALDFINR 4cu5-a4-m1-cE_4cu5-a4-m3-cB C-terminal domain of endolysin from phage CD27L is a trigger and release factor B6SBV8 B6SBV8 2.24 X-RAY DIFFRACTION 16 1.0 85 85 4cu5-a1-m1-cA_4cu5-a1-m1-cF 4cu5-a3-m1-cB_4cu5-a3-m2-cE MYKHTIVYDGEVDKISATVVGWGYNDGKILICDIKDYVPGQTQNLYVVGGGACEKISSITKEKFIMIKGNDRFDTLYKALDFINR MYKHTIVYDGEVDKISATVVGWGYNDGKILICDIKDYVPGQTQNLYVVGGGACEKISSITKEKFIMIKGNDRFDTLYKALDFINR 4cuc-a1-m1-cA_4cuc-a1-m2-cA Unravelling the multiple functions of the architecturally intricate Streptococcus pneumoniae beta-galactosidase, BgaA. A0A0H2UP19 A0A0H2UP19 2.2 X-RAY DIFFRACTION 114 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 847 847 AVTNEEVNQMIEDRKVDFNQNWYFKLNANSKEAIKPDADVSTWKKLDLPYDWSIFNDFDHESPAQNEGGQLNGGEAWYRKTFKLDEKDLKKNVRLTFDGVYMDSQVYVNGQLVGHYPNGYNQFSYDITKYLQKDGRENVIAVHAVNKQPSSRWYSGSGIYRDVTLQVTDKVHVEKNGTTILTPKLEEQQHGKVETHVTSKIVNTDDKDHELVAEYQIVERGGHAVTGLVRTASRTLKAHESTSLDAILEVERPKLWTVLNDKPALYELITRVYRDGQLVDAKKDLFGYRYYHWTPNEGFSLNGERIKFHGVSLHHDHGALGAEENYKAEYRRLKQMKEMGVNSIRTTHNPASEQTLQIAAELGLLVQEEAFDTWYGGKKPYDYGRFFEKDATHPEARKGEKWSDFDLRTMVERGKNNPAIFMWSIGNEIGEANGDAHSLATVKRLVKVIKDVDKTRYVTMGADKFRFGNGSGGHEKIADELDAVGFNYSEDNYKALRAKHPKWLIYGSQTSSATRTRGSYYRPERELKHSNGPERNYEQSDYGNDRVGWGKTATASWTFDRDNAGYAGQFIWTGTDYIGEPTPWHNQNQTPVKSSYFGIVDTAGIPKHDFYLYQSQWVSVKKKPMVHLLPHWNWENKELASKVADSEGKIPVRAYSNASSVELFLNGKSLGLKTFNKKQTSDGRTYQEGANANELYLEWKVAYQPGTLEAIARDESGKEIARDKITTAGKPAAVRLIKEDHAIAADGKDLTYIYYEIVDSQGNVVPTANNLVRFQLHGQGQLVGVDNGEQASRERYKAQADGSWIRKAFNGKGVAIVKSTEQAGKFTLTAHSDLLKSNQVTVFTGKK AVTNEEVNQMIEDRKVDFNQNWYFKLNANSKEAIKPDADVSTWKKLDLPYDWSIFNDFDHESPAQNEGGQLNGGEAWYRKTFKLDEKDLKKNVRLTFDGVYMDSQVYVNGQLVGHYPNGYNQFSYDITKYLQKDGRENVIAVHAVNKQPSSRWYSGSGIYRDVTLQVTDKVHVEKNGTTILTPKLEEQQHGKVETHVTSKIVNTDDKDHELVAEYQIVERGGHAVTGLVRTASRTLKAHESTSLDAILEVERPKLWTVLNDKPALYELITRVYRDGQLVDAKKDLFGYRYYHWTPNEGFSLNGERIKFHGVSLHHDHGALGAEENYKAEYRRLKQMKEMGVNSIRTTHNPASEQTLQIAAELGLLVQEEAFDTWYGGKKPYDYGRFFEKDATHPEARKGEKWSDFDLRTMVERGKNNPAIFMWSIGNEIGEANGDAHSLATVKRLVKVIKDVDKTRYVTMGADKFRFGNGSGGHEKIADELDAVGFNYSEDNYKALRAKHPKWLIYGSQTSSATRTRGSYYRPERELKHSNGPERNYEQSDYGNDRVGWGKTATASWTFDRDNAGYAGQFIWTGTDYIGEPTPWHNQNQTPVKSSYFGIVDTAGIPKHDFYLYQSQWVSVKKKPMVHLLPHWNWENKELASKVADSEGKIPVRAYSNASSVELFLNGKSLGLKTFNKKQTSDGRTYQEGANANELYLEWKVAYQPGTLEAIARDESGKEIARDKITTAGKPAAVRLIKEDHAIAADGKDLTYIYYEIVDSQGNVVPTANNLVRFQLHGQGQLVGVDNGEQASRERYKAQADGSWIRKAFNGKGVAIVKSTEQAGKFTLTAHSDLLKSNQVTVFTGKK 4cud-a1-m1-cA_4cud-a1-m2-cA Human Notch1 EGF domains 11-13 mutant fucosylated at T466 P46531 P46531 1.85 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 122 DVDECSLGANPCEHAGKCINTLGSFECQCLQGYTGPRCEIDVNECVSNPCQNDATCLDQIGEFQCICMPGYEGVHCEVNTDECASSPCLHNGRCLDKINEFQCECPTGFTGHLCQVDLHHIL DVDECSLGANPCEHAGKCINTLGSFECQCLQGYTGPRCEIDVNECVSNPCQNDATCLDQIGEFQCICMPGYEGVHCEVNTDECASSPCLHNGRCLDKINEFQCECPTGFTGHLCQVDLHHIL 4cuk-a1-m1-cA_4cuk-a1-m1-cC Structure of Salmonella D-Lactate Dehydrogenase in complex with NADH Q8Z780 Q8Z780 2.18 X-RAY DIFFRACTION 20 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 330 335 3wx0-a1-m1-cC_3wx0-a1-m1-cA 4cuj-a1-m1-cC_4cuj-a1-m1-cA 4cuj-a1-m1-cD_4cuj-a1-m1-cB 4cuk-a1-m1-cD_4cuk-a1-m1-cB 5z1z-a1-m1-cA_5z1z-a1-m1-cC 5z1z-a1-m1-cD_5z1z-a1-m1-cB MKLAVYSTKQYDKKYLQQVNEAFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLQVVRVPAYSPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMHGKTAGVIGTGKIGVAALRILKGFGMRLLAFDPYPSTAALDLGVEYVDLQTLFAESDVISLHCPLTPENYHLLNHAAFDQMKNGVMIINTSRGALIDSQAAIEALKNQKIGSLGMDVYENERDLFFEDKSVDVIQDDVFRRLSACHNVLFTGHQAFLTAEALISISETTLQNLSQLEKGEACPNALFK MKLAVYSTKQYDKKYLQQVNEAFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLQVVRVPAYSPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMHGKTAGVIGTGKIGVAALRILKGFGMRLLAFDPYPSTAALDLGVEYVDLQTLFAESDVISLHCPLTPENYHLLNHAAFDQMKNGVMIINTSRGALIDSQAAIEALKNQKIGSLGMDVYENERDLFFEDKSVDVIQDDVFRRLSACHNVLFTGHQAFLTAEALISISETTLQNLSQLEKGEACPNALFKHHHHH 4cuo-a1-m1-cA_4cuo-a1-m2-cA Banyan peroxidase with glycosylation A0A087WNH2 A0A087WNH2 1.67 X-RAY DIFFRACTION 37 1.0 309271 (Ficus benghalensis) 309271 (Ficus benghalensis) 305 305 QLTPTFYRSTCPNVTSIVRGVIQDALQTDLRIPASLIRLHFHDCFVNGCDGSLLLDNSDTIESEKQAAPNNNSARGFDVVDNIKTAVENACPGVVSCADILTIAAEQSVWLSGGPSWPVPLGRRDSLTANRTLANQTLPSPFLTLDQLKTDFSDQGLNTTDLVALSGAHTFGRAQCQFFSQRLYNFSATGSPDPTLNTTLLETLRNICPQGGNGSTITNLDQTTPDAFDNKYFSNLQTQYGILQTDQELFSTKGANTTAIVTKFSANQSAFFNSFVASMIKMGNIGVLTDEGEIRSNCRSVNGGA QLTPTFYRSTCPNVTSIVRGVIQDALQTDLRIPASLIRLHFHDCFVNGCDGSLLLDNSDTIESEKQAAPNNNSARGFDVVDNIKTAVENACPGVVSCADILTIAAEQSVWLSGGPSWPVPLGRRDSLTANRTLANQTLPSPFLTLDQLKTDFSDQGLNTTDLVALSGAHTFGRAQCQFFSQRLYNFSATGSPDPTLNTTLLETLRNICPQGGNGSTITNLDQTTPDAFDNKYFSNLQTQYGILQTDQELFSTKGANTTAIVTKFSANQSAFFNSFVASMIKMGNIGVLTDEGEIRSNCRSVNGGA 4cur-a1-m1-cA_4cur-a1-m2-cA Crystal structure of human BAZ2B in complex with fragment-3 N09555 Q9UIF8 Q9UIF8 1.842 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 4cup-a1-m1-cA_4cup-a1-m2-cA 4cuq-a1-m1-cA_4cuq-a1-m2-cA SMSVKKPKRDDSKDLALCSMILTEMETHEDAWPFLLPVNLKLVPGYKKVIKKPMDFSTIREKLSSGQYPNLETFALDVRLVFDNCETFNEDDSDIGRAGHNMRKYFEKKWTDTFK SMSVKKPKRDDSKDLALCSMILTEMETHEDAWPFLLPVNLKLVPGYKKVIKKPMDFSTIREKLSSGQYPNLETFALDVRLVFDNCETFNEDDSDIGRAGHNMRKYFEKKWTDTFK 4cv0-a1-m1-cC_4cv0-a1-m1-cD Crystal structure of S. aureus FabI in complex with NADPH and CG400549 (small unit cell) A0A0H3JLH9 A0A0H3JLH9 2.2 X-RAY DIFFRACTION 106 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 254 254 3gr6-a1-m1-cA_3gr6-a1-m1-cD 3gr6-a1-m1-cG_3gr6-a1-m1-cJ 4ali-a1-m1-cA_4ali-a1-m1-cB 4ali-a1-m1-cD_4ali-a1-m1-cC 4ali-a2-m1-cE_4ali-a2-m1-cF 4ali-a2-m1-cG_4ali-a2-m1-cH 4alj-a1-m1-cA_4alj-a1-m1-cB 4alj-a1-m1-cD_4alj-a1-m1-cC 4alj-a2-m1-cE_4alj-a2-m1-cF 4alj-a2-m1-cH_4alj-a2-m1-cG 4alk-a1-m1-cA_4alk-a1-m1-cB 4alk-a1-m1-cD_4alk-a1-m1-cC 4alk-a2-m1-cE_4alk-a2-m1-cF 4alk-a2-m1-cG_4alk-a2-m1-cH 4all-a1-m1-cB_4all-a1-m1-cA 4all-a1-m1-cC_4all-a1-m1-cD 4alm-a1-m1-cB_4alm-a1-m1-cA 4bnf-a1-m1-cE_4bnf-a1-m1-cF 4bnf-a1-m1-cH_4bnf-a1-m1-cG 4bnf-a2-m1-cA_4bnf-a2-m1-cB 4bnf-a2-m1-cD_4bnf-a2-m1-cC 4bng-a1-m1-cA_4bng-a1-m1-cB 4bng-a1-m1-cC_4bng-a1-m1-cD 4bng-a2-m1-cE_4bng-a2-m1-cF 4bng-a2-m1-cG_4bng-a2-m1-cH 4bnh-a1-m1-cA_4bnh-a1-m1-cB 4bnh-a1-m1-cD_4bnh-a1-m1-cC 4bnh-a2-m1-cE_4bnh-a2-m1-cF 4bnh-a2-m1-cH_4bnh-a2-m1-cG 4bni-a1-m1-cA_4bni-a1-m1-cB 4bni-a1-m1-cD_4bni-a1-m1-cC 4bni-a2-m1-cE_4bni-a2-m1-cF 4bni-a2-m1-cH_4bni-a2-m1-cG 4bnj-a1-m1-cE_4bnj-a1-m1-cF 4bnj-a1-m1-cG_4bnj-a1-m1-cH 4bnj-a2-m1-cA_4bnj-a2-m1-cB 4bnj-a2-m1-cC_4bnj-a2-m1-cD 4bnk-a1-m1-cA_4bnk-a1-m1-cB 4bnk-a1-m1-cD_4bnk-a1-m1-cC 4bnk-a2-m1-cE_4bnk-a2-m1-cF 4bnk-a2-m1-cH_4bnk-a2-m1-cG 4bnl-a1-m1-cA_4bnl-a1-m1-cB 4bnl-a1-m1-cD_4bnl-a1-m1-cC 4bnl-a2-m1-cE_4bnl-a2-m1-cF 4bnl-a2-m1-cH_4bnl-a2-m1-cG 4bnm-a1-m1-cA_4bnm-a1-m1-cB 4bnm-a1-m1-cD_4bnm-a1-m1-cC 4bnm-a2-m1-cE_4bnm-a2-m1-cF 4bnm-a2-m1-cH_4bnm-a2-m1-cG 4bnn-a1-m1-cE_4bnn-a1-m1-cF 4bnn-a1-m1-cH_4bnn-a1-m1-cG 4bnn-a2-m1-cA_4bnn-a2-m1-cB 4bnn-a2-m1-cD_4bnn-a2-m1-cC 4cuz-a1-m1-cA_4cuz-a1-m1-cB 4cuz-a1-m1-cC_4cuz-a1-m1-cD 4cuz-a2-m1-cE_4cuz-a2-m1-cF 4cuz-a2-m1-cH_4cuz-a2-m1-cG 4cv0-a1-m1-cA_4cv0-a1-m1-cB 4cv1-a1-m1-cE_4cv1-a1-m1-cF 4cv1-a1-m1-cG_4cv1-a1-m1-cH 4cv1-a2-m1-cB_4cv1-a2-m1-cA 4cv1-a2-m1-cD_4cv1-a2-m1-cC 4d41-a1-m1-cE_4d41-a1-m1-cF 4d41-a1-m1-cH_4d41-a1-m1-cG 4d41-a2-m1-cA_4d41-a2-m1-cB 4d41-a2-m1-cC_4d41-a2-m1-cD 4d42-a1-m1-cA_4d42-a1-m1-cB 4d42-a1-m1-cC_4d42-a1-m1-cD 4d42-a2-m1-cE_4d42-a2-m1-cF 4d42-a2-m1-cG_4d42-a2-m1-cH 4d43-a1-m1-cE_4d43-a1-m1-cF 4d43-a1-m1-cG_4d43-a1-m1-cH 4d43-a2-m1-cA_4d43-a2-m1-cB 4d43-a2-m1-cC_4d43-a2-m1-cD 4d44-a1-m1-cE_4d44-a1-m1-cF 4d44-a1-m1-cG_4d44-a1-m1-cH 4d44-a2-m1-cA_4d44-a2-m1-cB 4d44-a2-m1-cC_4d44-a2-m1-cD 4d45-a1-m1-cA_4d45-a1-m1-cB 4d45-a1-m1-cC_4d45-a1-m1-cD 4d45-a2-m1-cE_4d45-a2-m1-cF 4d45-a2-m1-cG_4d45-a2-m1-cH 4fs3-a1-m1-cA_4fs3-a1-m3-cA 4fs3-a1-m2-cA_4fs3-a1-m4-cA 4nz9-a2-m1-cA_4nz9-a2-m2-cA 4nz9-a3-m1-cB_4nz9-a3-m2-cB 6tbb-a1-m1-cA_6tbb-a1-m1-cB 6tbb-a1-m1-cD_6tbb-a1-m1-cC 6tbb-a2-m1-cE_6tbb-a2-m1-cF 6tbb-a2-m1-cH_6tbb-a2-m1-cG 6tbc-a1-m1-cA_6tbc-a1-m1-cB 6tbc-a1-m1-cD_6tbc-a1-m1-cC 6tbc-a2-m1-cE_6tbc-a2-m1-cF 6tbc-a2-m1-cH_6tbc-a2-m1-cG 6yur-a1-m1-cG_6yur-a1-m1-cE 6yur-a1-m2-cA_6yur-a1-m2-cF 6yur-a2-m1-cA_6yur-a2-m1-cF 6yur-a2-m3-cG_6yur-a2-m3-cE 6yur-a3-m1-cC_6yur-a3-m1-cB 6yur-a3-m1-cH_6yur-a3-m1-cD NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANMEDLRGRFSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLGGEFAVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLSAKGVGGFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANMEDLRGRFSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLGGEFAVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLSAKGVGGFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK 4cv4-a1-m1-cA_4cv4-a1-m2-cA PIH N-terminal domain Q9CQJ2 Q9CQJ2 1.902 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 133 133 QIQPKPGFCVKTNSSEGKVFINICHSPSIPPPADVTEDELLQMLEEDQAGFRIPMSLGEPHAELDAKGQGCTAYDVAVNSNFYLRMQNSDFLRELVVTIAREGLEDKYGLQLNPEWRMLKYRSFLGSISQQNI QIQPKPGFCVKTNSSEGKVFINICHSPSIPPPADVTEDELLQMLEEDQAGFRIPMSLGEPHAELDAKGQGCTAYDVAVNSNFYLRMQNSDFLRELVVTIAREGLEDKYGLQLNPEWRMLKYRSFLGSISQQNI 4cvb-a2-m1-cA_4cvb-a2-m2-cA Crystal structure of quinone-dependent alcohol dehydrogenase from Pseudogluconobacter saccharoketogenenes Q93RE9 Q93RE9 1.72 X-RAY DIFFRACTION 93 1.0 133921 (Pseudogluconobacter saccharoketogenes) 133921 (Pseudogluconobacter saccharoketogenes) 562 562 4cvc-a2-m1-cA_4cvc-a2-m2-cA SAIENFQPVTADDLAGKNPANWPILRGNYQGWGYSPLDQINKDNVGDLQLVWSRTMEPGSNEGAAIAYNGVIFLGNTNDVIQAIDGKTGSLIWEYRRKLPSASKFINSLGAAKRSIALFGDKVYFVSWDNFVVALDAKTGKLAWETNRGQGVEEGVANSSGPIVVDGVVIAGSTCQFSGFGCYVTGTDAESGEELWRNTFIPRPGEEGDDTWGGAPYENRWMTGAWGQITYDPELDLVYYGSTGAGPASEVQRGTEGGTLAGTNTRFAVKPKTGEVVWKHQTLPRDNWDSECTFEMMVVSTSVNPDAKADGMMSVGANVPRGETRKVLTGVPCKTGVAWQFDAKTGDYFWSKATVEQNSIASIDDTGLVTVNEDMILKEPGKTYNYCPTFLGGRDWPSAGYLPKSNLYVIPLSNACYDVMARTTEATPADVYNTDATLVLAPGKTNMGRVDAIDLATGETKWSYETRAALYDPVLTTGGDLVFVGGIDRDFRALDAESGKEVWSTRLPGAVSGYTTSYSIDGRQYVAVVSGGSLGGPTFGPTTPDVDSASGANGIYVFALPE SAIENFQPVTADDLAGKNPANWPILRGNYQGWGYSPLDQINKDNVGDLQLVWSRTMEPGSNEGAAIAYNGVIFLGNTNDVIQAIDGKTGSLIWEYRRKLPSASKFINSLGAAKRSIALFGDKVYFVSWDNFVVALDAKTGKLAWETNRGQGVEEGVANSSGPIVVDGVVIAGSTCQFSGFGCYVTGTDAESGEELWRNTFIPRPGEEGDDTWGGAPYENRWMTGAWGQITYDPELDLVYYGSTGAGPASEVQRGTEGGTLAGTNTRFAVKPKTGEVVWKHQTLPRDNWDSECTFEMMVVSTSVNPDAKADGMMSVGANVPRGETRKVLTGVPCKTGVAWQFDAKTGDYFWSKATVEQNSIASIDDTGLVTVNEDMILKEPGKTYNYCPTFLGGRDWPSAGYLPKSNLYVIPLSNACYDVMARTTEATPADVYNTDATLVLAPGKTNMGRVDAIDLATGETKWSYETRAALYDPVLTTGGDLVFVGGIDRDFRALDAESGKEVWSTRLPGAVSGYTTSYSIDGRQYVAVVSGGSLGGPTFGPTTPDVDSASGANGIYVFALPE 4cvh-a1-m1-cA_4cvh-a1-m2-cA Crystal structure of human isoprenoid synthase domain-containing protein A4D126 A4D126 2.39 X-RAY DIFFRACTION 208 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 391 391 SMHPQAVAAVLPAGPTPKQFCPILERPLISYTLQALERVCWIKDIVVAVTGENMEVMKSIIQKYQHKRISLVEAGVTRHRSIFNGLKALAEDQINSKLSKPEVVIIHDAVRPFVEEGVLLKVVTAAKEHGAAGAIRPLVSTVVSPSADGCLDYSLERARHRASEMPQAFLFDVIYEAYQQCSDYDLEFGTECLQLALKYCCTKAKLVEGSPDLWKVTYKRDLYAAESIIKERISQEICVVMDTEEDNKHVGHLLEEVLKSELNHVKVTSEALDQCYNFVCVNVTTSDFQETQKLLSMLEESSLCILYPVVVVSVHFLDFKLVPPSQKMENLMQIREFAKEVKERNILLYGLLISYPQDDQKLQESLRQGAIIIASLIKERNSGLIGQLLIA SMHPQAVAAVLPAGPTPKQFCPILERPLISYTLQALERVCWIKDIVVAVTGENMEVMKSIIQKYQHKRISLVEAGVTRHRSIFNGLKALAEDQINSKLSKPEVVIIHDAVRPFVEEGVLLKVVTAAKEHGAAGAIRPLVSTVVSPSADGCLDYSLERARHRASEMPQAFLFDVIYEAYQQCSDYDLEFGTECLQLALKYCCTKAKLVEGSPDLWKVTYKRDLYAAESIIKERISQEICVVMDTEEDNKHVGHLLEEVLKSELNHVKVTSEALDQCYNFVCVNVTTSDFQETQKLLSMLEESSLCILYPVVVVSVHFLDFKLVPPSQKMENLMQIREFAKEVKERNILLYGLLISYPQDDQKLQESLRQGAIIIASLIKERNSGLIGQLLIA 4cvo-a1-m1-cA_4cvo-a1-m2-cA Crystal structure of the N-terminal colied-coil domain of human DNA excision repair protein ERCC-6 Q03468 Q03468 1.85 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 LELQGLGVDVYDQDVLEQGVLQQVDNAIHEASRASQLVDVEKEYRSVLDDLTSCTTSLRQINKIIEQLS LELQGLGVDVYDQDVLEQGVLQQVDNAIHEASRASQLVDVEKEYRSVLDDLTSCTTSLRQINKIIEQLS 4cvq-a1-m1-cA_4cvq-a1-m1-cB CRYSTAL STRUCTURE OF AN AMINOTRANSFERASE FROM ESCHERICHIA COLI AT 2. 11 ANGSTROEM RESOLUTION P0A959 P0A959 2.11 X-RAY DIFFRACTION 233 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 404 404 MSPIEKSSKLENVCYDIRGPVLKEAKRLEEEGNKVLKLNIGNPAPFGFDAPDEILVDVIRNLPTAQGYCDSKGLYSARKAIMQHYQARGMRDVTVEDIYIGNGVSELIVQAMQALLNSGDEMLVPAPDYPLWTAAVSLSSGKAVHYLCDESSDWFPDLDDIRAKITPRTRGIVIINPNNPTGAVYSKELLMEIVEIARQHNLIIFADEIYDKILYDDAEHHSIAPLAPDLLTITFNGLSKTYRVAGFRQGWMVLNGPKKHAKGYIEGLEMLASMRLCANVPAQHAIQTALGGYQSISEFITPGGRLYEQRNRAWELINDIPGVSCVKPRGALYMFPKIDAKRFNIHDDQKMVLDFLLQEKVLLVQGTAFNWPWPDHFRIVTLPRVDDIELSLSKFARFLSGYHQ SPIEKSSKLENVCYDIRGPVLKEAKRLEEEGNKVLKLNIGNPAPFGFDAPDEILVDVIRNLPTAQGYCDSKGLYSARKAIMQHYQARGMRDVTVEDIYIGNGVSELIVQAMQALLNSGDEMLVPAPDYPLWTAAVSLSSGKAVHYLCDESSDWFPDLDDIRAKITPRTRGIVIINPNNPTGAVYSKELLMEIVEIARQHNLIIFADEIYDKILYDDAEHHSIAPLAPDLLTITFNGLSKTYRVAGFRQGWMVLNGPKKHAKGYIEGLEMLASMRLCANVPAQHAIQTALGGYQSISEFITPGGRLYEQRNRAWELINDIPGVSCVKPRGALYMFPKIDAKRFNIHDDQKMVLDFLLQEKVLLVQGTAFNWPWPDHFRIVTLPRVDDIELSLSKFARFLSGYHQL 4cvu-a1-m1-cA_4cvu-a1-m2-cA Structure of Fungal beta-mannosidase from Glycoside Hydrolase Family 2 of Trichoderma harzianum A0A075B5H6 A0A075B5H6 1.9 X-RAY DIFFRACTION 34 1.0 5544 (Trichoderma harzianum) 5544 (Trichoderma harzianum) 913 913 GKASIHDLALQKWTVTNEYGNITVPGKFPSQAHLDLHAAGVIGESNNGLNDFDLRWIAAQNWTYTSKPISGLSKHSDIATWLVFDGLDTYATVKFCDHIVGTPDNQFRQWFYDVSSALASCKSDPVLSINFGSVPRIINAINASDEVQHWPASVVYPFEYPNRQWVRKEQNDFGWDWGPAFSPVGPWQPGRIVQLSKGGELYSLNTDIDIFRKGQFNNFAPDQTAPWVVNASLDFLGTLPKHASMSVIITDASVLYSGKLEGVTQSDMTVTGSVTIDAHKPKLWWPRDMGNQQLYNITVSVSSAGSKTPILVSQRRVGFRTILFSSGNITDAQIASGITPGNNWHFEINGHEFYAKGANLIPPDAFWPRVTSDRMNRLFDSVESQNFNMLRVWSSGTYLPDWIYDIADERGVLLWSEFQFSDTLYPDSDDFKANVVGEITYNVRRLNHHASLACWMGGNEFENLMLPIAQGADPATYPYVLGQYENLFITTLFNVLAANSHSISYSPCSANNGWLEIDLDLPVPIVERYYNTTSGHIYGDTDFYNYDTSVSFDTSAYPVGRFANEFGFISMPSIQTWQQAVDPEELSFNSTTVILRNHHYPAGGLTRNIHNSTLGQVEMTLAVERYYPTPDKTDPVANFSSWCHATQLFQADMYKSEIQFYRRGSGLPERQLGSLYWQLNDIWQAPTWAGLEYDGRWKVLPYVSRRTYEHVIASAFWNYTANELEIWVTSDLWEPVAGEVSLTWVDLKGKPIANNAGMTKSTKFNVGAINTTQIITANIQSDLKIPDTSDAVLVIELTAHGKLPNAASSKTTTFTHHNHFLPVWPNQAKVSDPKLHLSYNKSTKKFTVEATAGVSLYTWLTHPAGVLGFFDDNAFVLRPGEKKEVGFTLQQDTTGGKWTEQVTVESLWDLTTP GKASIHDLALQKWTVTNEYGNITVPGKFPSQAHLDLHAAGVIGESNNGLNDFDLRWIAAQNWTYTSKPISGLSKHSDIATWLVFDGLDTYATVKFCDHIVGTPDNQFRQWFYDVSSALASCKSDPVLSINFGSVPRIINAINASDEVQHWPASVVYPFEYPNRQWVRKEQNDFGWDWGPAFSPVGPWQPGRIVQLSKGGELYSLNTDIDIFRKGQFNNFAPDQTAPWVVNASLDFLGTLPKHASMSVIITDASVLYSGKLEGVTQSDMTVTGSVTIDAHKPKLWWPRDMGNQQLYNITVSVSSAGSKTPILVSQRRVGFRTILFSSGNITDAQIASGITPGNNWHFEINGHEFYAKGANLIPPDAFWPRVTSDRMNRLFDSVESQNFNMLRVWSSGTYLPDWIYDIADERGVLLWSEFQFSDTLYPDSDDFKANVVGEITYNVRRLNHHASLACWMGGNEFENLMLPIAQGADPATYPYVLGQYENLFITTLFNVLAANSHSISYSPCSANNGWLEIDLDLPVPIVERYYNTTSGHIYGDTDFYNYDTSVSFDTSAYPVGRFANEFGFISMPSIQTWQQAVDPEELSFNSTTVILRNHHYPAGGLTRNIHNSTLGQVEMTLAVERYYPTPDKTDPVANFSSWCHATQLFQADMYKSEIQFYRRGSGLPERQLGSLYWQLNDIWQAPTWAGLEYDGRWKVLPYVSRRTYEHVIASAFWNYTANELEIWVTSDLWEPVAGEVSLTWVDLKGKPIANNAGMTKSTKFNVGAINTTQIITANIQSDLKIPDTSDAVLVIELTAHGKLPNAASSKTTTFTHHNHFLPVWPNQAKVSDPKLHLSYNKSTKKFTVEATAGVSLYTWLTHPAGVLGFFDDNAFVLRPGEKKEVGFTLQQDTTGGKWTEQVTVESLWDLTTP 4cvy-a2-m1-cD_4cvy-a2-m1-cB Crystal structure of the M. tuberculosis sulfate ester dioxygenase Rv3406 in complex with iron. P9WKZ1 P9WKZ1 2 X-RAY DIFFRACTION 48 0.996 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 235 240 4cvy-a1-m1-cC_4cvy-a1-m1-cA 4ffa-a1-m1-cC_4ffa-a1-m1-cA 4ffa-a1-m1-cD_4ffa-a1-m1-cB LITVKKLGSRIGAQIDGVRLGGDLDPAAVNEIRAALLAHKVVFFRGQHQLDDAEQLAFAGLLGTPINRWHTDVTFAANYPAASVLRAVSLPSYGGSTLWANTAAAYAELPEPLKCLTENLWALHTNDFRTEHPVVRVHPETGERTLLAGDFVRSFVGLDSHESRVLFEVLQRRITMPENTIRWNWAPGDVAIWDNRATQHRAIDDYDDQHRLMHRVTLMGDVPVDVYGQASRVIS ITVKKLGSRIGAQIDGVRLGGDLDPAAVNEIRAALLAHKVVFFRGQHQLDDAEQLAFAGLLGTPIANRWHTDVTFAANYPAASVLRAVSLPSYGGSTLWANTAAAYAELPEPLKCLTENLWALHTNRPDFRTEHPVVRVHPETGERTLLAGDFVRSFVGLDSHESRVLFEVLQRRITMPENTIRWNWAPGDVAIWDNRATQHRAIDDYDDQHRLMHRVTLMGDVPVDVYGQASRVISGAP 4cw4-a1-m1-cA_4cw4-a1-m2-cA Crystal structure of the noncanonical ketosynthase FabY from P. aeruginosa Q9HU15 Q9HU15 1.349 X-RAY DIFFRACTION 565 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 639 639 AYFQSMSRLPVIVGFGGYNAAGRSSFHHGFRRMVIESMDPQARQETLAGLAVMMKLVKAEGGRYLAEDGTPLSPEDIERRYAERIFASTLVRRIEPQYLDPDAVHWHKVLELSPAEGQALTFKASPKQLPEPLPANWSIAPAEDGEVLVSIHERCEFKVDSYRALTVKSAGQLPTGFEPGELYNSRFHPRGLQMSVVAATDAIRSTGIDWKTIVDNVQPDEIAVFSGSIMSQLDDNGFGGLMQSRLKGHRVSAKQLPLGFNSMPTDFINAYVLGSVGMTGSITGACATFLYNLQKGIDVITSGQARVVIVGNSEAPILPECIEGYSAMGALATEEGLRLIEGRDDVDFRRASRPFGENCGFTLAESSQYVVLMDDELALRLGADIHGAVTDVFINADGFKKSISAPGPGNYLTVAKAVASAVQIVGLDTVRHASFVHAHGSSTPANRVTESEILDRVASAFGIDGWPVTAVKAYVGHSLATASADQLISALGTFKYGILPGIKTIDKVADDVHQQRLSISNRDMRQDKPLEVCFINSKGFGGNNASGVVLSPRIAEKMLRKRHGQAAFAAYVEKREQTRAAARAYDQRALQGDLEIIYNFGQDLIDEHAIEVSAEQVTVPGFSQPLVYKKDARFSDMLD AYFQSMSRLPVIVGFGGYNAAGRSSFHHGFRRMVIESMDPQARQETLAGLAVMMKLVKAEGGRYLAEDGTPLSPEDIERRYAERIFASTLVRRIEPQYLDPDAVHWHKVLELSPAEGQALTFKASPKQLPEPLPANWSIAPAEDGEVLVSIHERCEFKVDSYRALTVKSAGQLPTGFEPGELYNSRFHPRGLQMSVVAATDAIRSTGIDWKTIVDNVQPDEIAVFSGSIMSQLDDNGFGGLMQSRLKGHRVSAKQLPLGFNSMPTDFINAYVLGSVGMTGSITGACATFLYNLQKGIDVITSGQARVVIVGNSEAPILPECIEGYSAMGALATEEGLRLIEGRDDVDFRRASRPFGENCGFTLAESSQYVVLMDDELALRLGADIHGAVTDVFINADGFKKSISAPGPGNYLTVAKAVASAVQIVGLDTVRHASFVHAHGSSTPANRVTESEILDRVASAFGIDGWPVTAVKAYVGHSLATASADQLISALGTFKYGILPGIKTIDKVADDVHQQRLSISNRDMRQDKPLEVCFINSKGFGGNNASGVVLSPRIAEKMLRKRHGQAAFAAYVEKREQTRAAARAYDQRALQGDLEIIYNFGQDLIDEHAIEVSAEQVTVPGFSQPLVYKKDARFSDMLD 4cw5-a1-m1-cA_4cw5-a1-m1-cB Crystal structure of the enoyl reductase domain of DfnA from Bacillus amyloliquefaciens A7Z6E3 A7Z6E3 2.3 X-RAY DIFFRACTION 71 1.0 326423 (Bacillus velezensis FZB42) 326423 (Bacillus velezensis FZB42) 418 419 PQKTAGRLGNEDFKKDYNIQYAYTGSYRGIASEQVIKAAKAGLGFFGTGGLSIERIGQAIGTIRSALRQGETFGNLLHHSPDKEVRIDLYLKNGIHLIEASAFGITPALVIYRAKGLSRNHDGSVSVQNKIIAKVSRPEVAEAFLNPAPAHVLERLVSDNRLTAGEAALAKEIPADDICVEATLPAIRLRDREKHGYAKKVRIGAAGGIGTPEAAAAAFLLGAEFIGTGSINQCTVEAGTSDSVKDLLQEANVQDTSYAPAGDFEAGARVQVLKKGLFFPARANKLFDLYRQYNSLDEIDEKTKTLIEEKYFQRSFEEVYEQLKRDKSPEQIAKAEQNPKHKAVFKWYFSHTTRLALEGKSESKIDYQIHCGPALGAFNQWVKGTPLENWRNRHVDLIGKQLEETAGLLAQRLVSITG PQKTAGRLGNEDFKKDYNIQYAYTGSYRGIASEQVIKAAKAGLGFFGTGGLSIERIGQAIGTIRSALRQGETFGNLLHHSPDKEVRIDLYLKNGIHLIEASAFGITPALVIYRAKGLSRNHDGSVSVQNKIIAKVSRPEVAEAFLNPAPAHVLERLVSDNRLTAGEAALAKEIPADDICVEADTLPAIRLRDREKHGYAKKVRIGAAGGIGTPEAAAAAFLLGAEFIGTGSINQCTVEAGTSDSVKDLLQEANVQDTSYAPAGDFEAGARVQVLKKGLFFPARANKLFDLYRQYNSLDEIDEKTKTLIEEKYFQRSFEEVYEQLKRDKSPEQIAKAEQNPKHKAVFKWYFSHTTRLALEGKSESKIDYQIHCGPALGAFNQWVKGTPLENWRNRHVDLIGKQLEETAGLLAQRLVSITG 4cw9-a1-m1-cA_4cw9-a1-m1-cB Entamoeba histolytica thiredoxin C34S mutant M7X179 M7X179 1.84 X-RAY DIFFRACTION 38 1.0 885315 (Entamoeba histolytica HM-3:IMSS) 885315 (Entamoeba histolytica HM-3:IMSS) 102 104 AVLHINALDQLTALLSTEKVIVIDFFATWCGPSRSISPYFEELAGQYNNIKFVKVDVDQAEEICVNYKVRSMPTFVLVKDGIEQKRFSGADRNALKQMVETA AVLHINALDQLTALLSTEKVIVIDFFATWCGPSRSISPYFEELAGQYNNIKFVKVDVDQAEEICVNYKVRSMPTFVLVKDGIEQKRFSGADRNALKQMVETAHH 4cwc-a1-m1-cA_4cwc-a1-m1-cC Structure of Rolling Circle Replication Initiator Protein (RepDE) from Staphylococcus aureus P12053 P12053 2.9 X-RAY DIFFRACTION 83 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 270 270 4cwe-a1-m1-cA_4cwe-a1-m1-cC PQPELSFDAMTIVGNLNKTNAKKLSDFMSTEPQIRLWDILQTKFKAKALQEKVYIEYDKVKADSWDRRNMRVEFNPNKLTHEEMLWLKQNIIDYMEDDGFTRLDLAFDFEDDLSDYYAMTDKAVKKTIFYGRNGKPETKYFGVRDSDRFIRIYNKKQERKDNADVEVMSEHLWRVEIELKRDMVDYWNDCFNDLHILKPDWSSLEKVKDQAMIYMLIHEESTWGKLERRTKNKYREMLKSISEIDLTDLMKLTLKENEKQLQKQIEFWQR PQPELSFDAMTIVGNLNKTNAKKLSDFMSTEPQIRLWDILQTKFKAKALQEKVYIEYDKVKADSWDRRNMRVEFNPNKLTHEEMLWLKQNIIDYMEDDGFTRLDLAFDFEDDLSDYYAMTDKAVKKTIFYGRNGKPETKYFGVRDSDRFIRIYNKKQERKDNADVEVMSEHLWRVEIELKRDMVDYWNDCFNDLHILKPDWSSLEKVKDQAMIYMLIHEESTWGKLERRTKNKYREMLKSISEIDLTDLMKLTLKENEKQLQKQIEFWQR 4cy7-a2-m1-cC_4cy7-a2-m3-cA Crystal structure of human insulin analogue (NMe-AlaB8)-insulin crystal form II P01308 P01308 1.4 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 4cy7-a1-m1-cA_4cy7-a1-m2-cC GIVEQCCTSICSLYQLENYCN GIVEQCCTSICSLYQLENYCN 4cy9-a1-m4-cA_4cy9-a1-m9-cA DpsA14 from Streptomyces coelicolor Q9R408 Q9R408 1.78 X-RAY DIFFRACTION 36 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 168 168 4cy9-a1-m10-cA_4cy9-a1-m11-cA 4cy9-a1-m10-cA_4cy9-a1-m6-cA 4cy9-a1-m11-cA_4cy9-a1-m6-cA 4cy9-a1-m12-cA_4cy9-a1-m4-cA 4cy9-a1-m12-cA_4cy9-a1-m9-cA 4cy9-a1-m1-cA_4cy9-a1-m3-cA 4cy9-a1-m1-cA_4cy9-a1-m7-cA 4cy9-a1-m2-cA_4cy9-a1-m5-cA 4cy9-a1-m2-cA_4cy9-a1-m8-cA 4cy9-a1-m3-cA_4cy9-a1-m7-cA 4cy9-a1-m5-cA_4cy9-a1-m8-cA 4cya-a1-m10-cA_4cya-a1-m11-cA 4cya-a1-m10-cA_4cya-a1-m6-cA 4cya-a1-m11-cA_4cya-a1-m6-cA 4cya-a1-m12-cA_4cya-a1-m4-cA 4cya-a1-m12-cA_4cya-a1-m9-cA 4cya-a1-m1-cA_4cya-a1-m3-cA 4cya-a1-m1-cA_4cya-a1-m7-cA 4cya-a1-m2-cA_4cya-a1-m5-cA 4cya-a1-m2-cA_4cya-a1-m8-cA 4cya-a1-m3-cA_4cya-a1-m7-cA 4cya-a1-m4-cA_4cya-a1-m9-cA 4cya-a1-m5-cA_4cya-a1-m8-cA ADLTPKYTVPGIEREAAGRLIGVLRLRLHALNDLHLTLKHVHWNVVGPHFIAVHEMIDPQVDQVRDMADDVAERIAALGGVAQGTPGALVAERKWDDYSIGRADAIAHLGALDVVYTGVVEGMRAAVEEAGKIDPATEDLLIGQLRDLEQFQWFVRAHLESAGGALAT ADLTPKYTVPGIEREAAGRLIGVLRLRLHALNDLHLTLKHVHWNVVGPHFIAVHEMIDPQVDQVRDMADDVAERIAALGGVAQGTPGALVAERKWDDYSIGRADAIAHLGALDVVYTGVVEGMRAAVEEAGKIDPATEDLLIGQLRDLEQFQWFVRAHLESAGGALAT 4cy9-a1-m5-cA_4cy9-a1-m9-cA DpsA14 from Streptomyces coelicolor Q9R408 Q9R408 1.78 X-RAY DIFFRACTION 50 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 168 168 4cy9-a1-m10-cA_4cy9-a1-m4-cA 4cy9-a1-m10-cA_4cy9-a1-m7-cA 4cy9-a1-m11-cA_4cy9-a1-m3-cA 4cy9-a1-m11-cA_4cy9-a1-m8-cA 4cy9-a1-m12-cA_4cy9-a1-m2-cA 4cy9-a1-m12-cA_4cy9-a1-m6-cA 4cy9-a1-m1-cA_4cy9-a1-m5-cA 4cy9-a1-m1-cA_4cy9-a1-m9-cA 4cy9-a1-m2-cA_4cy9-a1-m6-cA 4cy9-a1-m3-cA_4cy9-a1-m8-cA 4cy9-a1-m4-cA_4cy9-a1-m7-cA 4cya-a1-m10-cA_4cya-a1-m8-cA 4cya-a1-m10-cA_4cya-a1-m9-cA 4cya-a1-m11-cA_4cya-a1-m12-cA 4cya-a1-m1-cA_4cya-a1-m11-cA 4cya-a1-m1-cA_4cya-a1-m12-cA 4cya-a1-m2-cA_4cya-a1-m3-cA 4cya-a1-m2-cA_4cya-a1-m4-cA 4cya-a1-m3-cA_4cya-a1-m4-cA 4cya-a1-m5-cA_4cya-a1-m6-cA 4cya-a1-m5-cA_4cya-a1-m7-cA 4cya-a1-m6-cA_4cya-a1-m7-cA 4cya-a1-m8-cA_4cya-a1-m9-cA ADLTPKYTVPGIEREAAGRLIGVLRLRLHALNDLHLTLKHVHWNVVGPHFIAVHEMIDPQVDQVRDMADDVAERIAALGGVAQGTPGALVAERKWDDYSIGRADAIAHLGALDVVYTGVVEGMRAAVEEAGKIDPATEDLLIGQLRDLEQFQWFVRAHLESAGGALAT ADLTPKYTVPGIEREAAGRLIGVLRLRLHALNDLHLTLKHVHWNVVGPHFIAVHEMIDPQVDQVRDMADDVAERIAALGGVAQGTPGALVAERKWDDYSIGRADAIAHLGALDVVYTGVVEGMRAAVEEAGKIDPATEDLLIGQLRDLEQFQWFVRAHLESAGGALAT 4cy9-a1-m7-cA_4cy9-a1-m9-cA DpsA14 from Streptomyces coelicolor Q9R408 Q9R408 1.78 X-RAY DIFFRACTION 83 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 168 168 4cy9-a1-m10-cA_4cy9-a1-m3-cA 4cy9-a1-m11-cA_4cy9-a1-m2-cA 4cy9-a1-m12-cA_4cy9-a1-m5-cA 4cy9-a1-m1-cA_4cy9-a1-m8-cA 4cy9-a1-m4-cA_4cy9-a1-m6-cA 4cya-a1-m10-cA_4cya-a1-m12-cA 4cya-a1-m11-cA_4cya-a1-m7-cA 4cya-a1-m1-cA_4cya-a1-m4-cA 4cya-a1-m2-cA_4cya-a1-m9-cA 4cya-a1-m3-cA_4cya-a1-m5-cA 4cya-a1-m6-cA_4cya-a1-m8-cA ADLTPKYTVPGIEREAAGRLIGVLRLRLHALNDLHLTLKHVHWNVVGPHFIAVHEMIDPQVDQVRDMADDVAERIAALGGVAQGTPGALVAERKWDDYSIGRADAIAHLGALDVVYTGVVEGMRAAVEEAGKIDPATEDLLIGQLRDLEQFQWFVRAHLESAGGALAT ADLTPKYTVPGIEREAAGRLIGVLRLRLHALNDLHLTLKHVHWNVVGPHFIAVHEMIDPQVDQVRDMADDVAERIAALGGVAQGTPGALVAERKWDDYSIGRADAIAHLGALDVVYTGVVEGMRAAVEEAGKIDPATEDLLIGQLRDLEQFQWFVRAHLESAGGALAT 4cyb-a1-m1-cI_4cyb-a1-m1-cL DpsC from Streptomyces coelicolor Q9K3L0 Q9K3L0 1.78 X-RAY DIFFRACTION 51 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 172 172 4cyb-a1-m1-cA_4cyb-a1-m1-cF 4cyb-a1-m1-cB_4cyb-a1-m1-cI 4cyb-a1-m1-cB_4cyb-a1-m1-cL 4cyb-a1-m1-cC_4cyb-a1-m1-cG 4cyb-a1-m1-cD_4cyb-a1-m1-cA 4cyb-a1-m1-cD_4cyb-a1-m1-cF 4cyb-a1-m1-cE_4cyb-a1-m1-cH 4cyb-a1-m1-cE_4cyb-a1-m1-cJ 4cyb-a1-m1-cH_4cyb-a1-m1-cJ 4cyb-a1-m1-cK_4cyb-a1-m1-cC 4cyb-a1-m1-cK_4cyb-a1-m1-cG RTIQEFGTVKQFPVALTMDTRLYSCQRLNKVLADTRILHDLYKKYHWLMRGATFYQLHLLLDKHAGEQLELIDTVAERVQTLGGVAVGDPRHVAEITTVPRPPDGVEEVPSMLSRLLEAHELILTECHDAAARTQEYGDDGTNDLLVSEVLRTNELQAWFVAEHLVDTPLVH RTIQEFGTVKQFPVALTMDTRLYSCQRLNKVLADTRILHDLYKKYHWLMRGATFYQLHLLLDKHAGEQLELIDTVAERVQTLGGVAVGDPRHVAEITTVPRPPDGVEEVPSMLSRLLEAHELILTECHDAAARTQEYGDDGTNDLLVSEVLRTNELQAWFVAEHLVDTPLVH 4cyb-a1-m1-cK_4cyb-a1-m1-cL DpsC from Streptomyces coelicolor Q9K3L0 Q9K3L0 1.78 X-RAY DIFFRACTION 112 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 171 172 4cyb-a1-m1-cA_4cyb-a1-m1-cB 4cyb-a1-m1-cD_4cyb-a1-m1-cC 4cyb-a1-m1-cE_4cyb-a1-m1-cF 4cyb-a1-m1-cG_4cyb-a1-m1-cH 4cyb-a1-m1-cI_4cyb-a1-m1-cJ TIQEFGTVKQFPVALTMDTRLYSCQRLNKVLADTRILHDLYKKYHWLMRGATFYQLHLLLDKHAGEQLELIDTVAERVQTLGGVAVGDPRHVAEITTVPRPPDGVEEVPSMLSRLLEAHELILTECHDAAARTQEYGDDGTNDLLVSEVLRTNELQAWFVAEHLVDTPLVH RTIQEFGTVKQFPVALTMDTRLYSCQRLNKVLADTRILHDLYKKYHWLMRGATFYQLHLLLDKHAGEQLELIDTVAERVQTLGGVAVGDPRHVAEITTVPRPPDGVEEVPSMLSRLLEAHELILTECHDAAARTQEYGDDGTNDLLVSEVLRTNELQAWFVAEHLVDTPLVH 4cyb-a1-m1-cL_4cyb-a1-m1-cJ DpsC from Streptomyces coelicolor Q9K3L0 Q9K3L0 1.78 X-RAY DIFFRACTION 46 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 172 173 4cyb-a1-m1-cA_4cyb-a1-m1-cI 4cyb-a1-m1-cC_4cyb-a1-m1-cF 4cyb-a1-m1-cC_4cyb-a1-m1-cH 4cyb-a1-m1-cD_4cyb-a1-m1-cB 4cyb-a1-m1-cD_4cyb-a1-m1-cK 4cyb-a1-m1-cE_4cyb-a1-m1-cA 4cyb-a1-m1-cE_4cyb-a1-m1-cI 4cyb-a1-m1-cF_4cyb-a1-m1-cH 4cyb-a1-m1-cG_4cyb-a1-m1-cJ 4cyb-a1-m1-cG_4cyb-a1-m1-cL 4cyb-a1-m1-cK_4cyb-a1-m1-cB RTIQEFGTVKQFPVALTMDTRLYSCQRLNKVLADTRILHDLYKKYHWLMRGATFYQLHLLLDKHAGEQLELIDTVAERVQTLGGVAVGDPRHVAEITTVPRPPDGVEEVPSMLSRLLEAHELILTECHDAAARTQEYGDDGTNDLLVSEVLRTNELQAWFVAEHLVDTPLVH RTIQEFGTVKQFPVALTMDTRLYSCQRLNKVLADTRILHDLYKKYHWLMRGATFYQLHLLLDKHAGEQLELIDTVAERVQTLGGVAVGDPRHVAEITTVPRPPDGVEEVPSMLSRLLEAHELILTECHDAAARTQEYGDDGTNDLLVSEVLRTNELQAWFVAEHLVDTPLVHA 4cyd-a1-m1-cD_4cyd-a1-m1-cB GlxR bound to cAMP H7C677 H7C677 1.82 X-RAY DIFFRACTION 102 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 214 225 3r6s-a1-m1-cC_3r6s-a1-m1-cA 3r6s-a2-m1-cB_3r6s-a2-m2-cB 3r6s-a3-m1-cD_3r6s-a3-m1-cE 3r6s-a4-m1-cF_3r6s-a4-m3-cF 4byy-a1-m1-cB_4byy-a1-m1-cA 4cyd-a2-m1-cA_4cyd-a2-m1-cC VQEILSRAGIGVDPTAVNNLIQDMETVRFPRGATIFDEGEPGDRLYIITSGKVKLARHAPDGRENLLTIMGPSDMFGELSIFDPGPRTSSAVCVTEVHAATMNSDMLRNWVADHPAIAEQLLRVLARRLRRTNASLADLIFTDVPGRVAKTLLQLANRFGTQALRVNHDLTQEEIAQLVGASRETVNKALATFAHRGWIRLGKSVLITEHLARR GVQEILSRAGIFQGVDPTAVNNLIQDMETVRFPRGATIFDEGEPGDRLYIITSGKVKLARHAPDGRENLLTIMGPSDMFGELSIFDPGPRTSSAVCVTEVHAATMNSDMLRNWVADHPAIAEQLLRVLARRLRRTNASLADLIFTDVPGRVAKTLLQLANRFGTQEAGALRVNHDLTQEEIAQLVGASRETVNKALATFAHRGWIRLEGKSVLIVDTEHLARRAR 4cyi-a1-m1-cE_4cyi-a1-m1-cF Chaetomium thermophilum Pan3 G0S0Y3 G0S0Y3 2.42 X-RAY DIFFRACTION 193 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 385 399 4cyi-a2-m1-cC_4cyi-a2-m1-cD 4cyi-a3-m1-cA_4cyi-a3-m1-cB 4cyi-a4-m1-cG_4cyi-a4-m1-cH 4cyj-a1-m1-cA_4cyj-a1-m1-cB 4cyj-a2-m1-cC_4cyj-a2-m1-cD TYDFFPQNLREDLQKKQFATLQVIPNSGLPQLEHWHSLVPLDTSNRKNTSCFGYPSWVYKAQNSRNGRHYALRRLEGYRLTNEKAILNVKDWKKIKNASIVTIHEVFTTREFGDSSLIFAYDFHPLSKTLQEHHFQPAVPENTIWGYICQIANALKTIHSNRLAARCLEPSKIILTDINRIRLSACAILDVVQFGNSRSVVELQQEDFVKFGKLILSLATGTLPAHLNNIPAALETLGNKYSANLKSAVNWLLDTSSGETKTIEHFTGIASQTTFFDLALQDNDEKLFHLAREVENGRIARSLKLLTILERDRYQLKLFRDYVFHRVDADGKPNLSIGHLTCSKLEAGVDENILLTSRDNETVFVLSYRELRQYDRAFNELVKAS RATYDFFPQNLREDLQKKQFATLQVIPNSGLPQLEHWHSLVPLDTSNRKNTSCFGYPSWVYKAQNSRNGRHYALRRLEGYRLTNEKAILNVKDWKKIKNASIVTIHEVFTTREFGDSSLIFAYDFHPLSKTLQEHHFQPIPAVPENTIWGYICQIANALKTIHSNRLAARCLEPSKIILTDINRIRLSACAILDVVQFGNSRSVVELQQEDFVKFGKLILSLATGTLPAHLNNIPAALETLGNKYSANLKSAVNWLLDTSSGETKTIEHFTGIASQTTFFDLALQDNDEKLFHLAREVENGRIARSLKLLTILERGDVPSWSETGDRYQLKLFRDYVFHRVDADGKPNLSIGHLTCSKLEAGVDENILLTSRDNETVFVLSYRELRQYDRAFNELVKAS 4cym-a3-m4-cE_4cym-a3-m1-cF Complex of human VARP-ANKRD1 with Rab32-GppCp Q96NW4 Q96NW4 2.8 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 166 4cym-a1-m1-cD_4cym-a1-m2-cD 4cym-a2-m1-cE_4cym-a2-m3-cF 4cz2-a1-m1-cE_4cz2-a1-m1-cD 4cz2-a2-m1-cF_4cz2-a2-m2-cF VVTPFSRDDRGHTPLHVAAVCGQASLIDLLVSKGAMVNATDYHGATPLHLACQKGYQSVTLLLLHYKASAEVQDNNGNTPLHLACTYGHEDCVKALVYYDVESCRLDIGNEKGDTPLHIAARWGYQGVIETLLQNGASTEIQNRLKETPLKCALNSKILSVMEAY VVTPFSRDDRGHTPLHVAAVCGQASLIDLLVSKGAMVNATDYHGATPLHLACQKGYQSVTLLLLHYKASAEVQDNNGNTPLHLACTYGHEDCVKALVYYDVESCRLDIGNEKGDTPLHIAARWGYQGVIETLLQNGASTEIQNRLKETPLKCALNSKILSVMEAYH 4cz6-a1-m1-cC_4cz6-a1-m1-cB Truncated tetramerization domain of zebrafish p53 (crystal form II) P79734 P79734 1.53 X-RAY DIFFRACTION 26 1.0 7955 (Danio rerio) 7955 (Danio rerio) 27 29 4cz5-a1-m1-cA_4cz5-a1-m1-cD 4cz5-a1-m1-cB_4cz5-a1-m1-cC 4cz6-a1-m1-cA_4cz6-a1-m1-cD 4cz7-a1-m1-cA_4cz7-a1-m1-cD 4cz7-a1-m1-cC_4cz7-a1-m1-cB EIFTLQVRGRERYEILKKLNDSLELSD EIFTLQVRGRERYEILKKLNDSLELSDVV 4cz9-a1-m1-cA_4cz9-a1-m2-cB Structure of the sodium proton antiporter PaNhaP from Pyrococcus abyssii at pH 4. Q9UZ55 Q9UZ55 3.5 X-RAY DIFFRACTION 38 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 419 420 4cz9-a1-m2-cA_4cz9-a1-m1-cB IELSLAEALFLILFTGVISMLISRRTGISYVPIFILTGLVIGPLLKLIPRDLAHEIFDFVRVFGLVIILFTEGHNLSWRLLKKNMPTIVTLDTIGLILTALIAGFIFKVVFNSSFLLGFLFGAIIGATDPATLIPLFRQYRVKQDIETVIVTESIFNDPLGIVLTLIAISMLVPGYGGGIFSTLSEKLGIYAGGVIYFLYNVSVSISLGIFLGILGYKFIKRTGIFDFPEIEAFSLSLAFLGFFIGERLDASGYLVATVTGIVLGNYKLLKPRENIRILKRLQRAIEKEVHFNDTLAALATIFIFVLLGAEMNLEVIWSNLGKGLLVALGVMILARPLATLPLLKWWNFREYLFIALEGPRGVVPSALASLPLSLALKYKSPLLTVHWGEIIMATVVITVLTSVIVETLWIPILKDKLD MIELSLAEALFLILFTGVISMLISRRTGISYVPIFILTGLVIGPLLKLIPRDLAHEIFDFVRVFGLVIILFTEGHNLSWRLLKKNMPTIVTLDTIGLILTALIAGFIFKVVFNSSFLLGFLFGAIIGATDPATLIPLFRQYRVKQDIETVIVTESIFNDPLGIVLTLIAISMLVPGYGGGIFSTLSEKLGIYAGGVIYFLYNVSVSISLGIFLGILGYKFIKRTGIFDFPEIEAFSLSLAFLGFFIGERLDASGYLVATVTGIVLGNYKLLKPRENIRILKRLQRAIEKEVHFNDTLAALATIFIFVLLGAEMNLEVIWSNLGKGLLVALGVMILARPLATLPLLKWWNFREYLFIALEGPRGVVPSALASLPLSLALKYKSPLLTVHWGEIIMATVVITVLTSVIVETLWIPILKDKLD 4cz9-a1-m2-cA_4cz9-a1-m2-cB Structure of the sodium proton antiporter PaNhaP from Pyrococcus abyssii at pH 4. Q9UZ55 Q9UZ55 3.5 X-RAY DIFFRACTION 118 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 419 420 4cz8-a1-m1-cA_4cz8-a1-m1-cB 4cz9-a1-m1-cA_4cz9-a1-m1-cB 4cza-a1-m1-cB_4cza-a1-m1-cA IELSLAEALFLILFTGVISMLISRRTGISYVPIFILTGLVIGPLLKLIPRDLAHEIFDFVRVFGLVIILFTEGHNLSWRLLKKNMPTIVTLDTIGLILTALIAGFIFKVVFNSSFLLGFLFGAIIGATDPATLIPLFRQYRVKQDIETVIVTESIFNDPLGIVLTLIAISMLVPGYGGGIFSTLSEKLGIYAGGVIYFLYNVSVSISLGIFLGILGYKFIKRTGIFDFPEIEAFSLSLAFLGFFIGERLDASGYLVATVTGIVLGNYKLLKPRENIRILKRLQRAIEKEVHFNDTLAALATIFIFVLLGAEMNLEVIWSNLGKGLLVALGVMILARPLATLPLLKWWNFREYLFIALEGPRGVVPSALASLPLSLALKYKSPLLTVHWGEIIMATVVITVLTSVIVETLWIPILKDKLD MIELSLAEALFLILFTGVISMLISRRTGISYVPIFILTGLVIGPLLKLIPRDLAHEIFDFVRVFGLVIILFTEGHNLSWRLLKKNMPTIVTLDTIGLILTALIAGFIFKVVFNSSFLLGFLFGAIIGATDPATLIPLFRQYRVKQDIETVIVTESIFNDPLGIVLTLIAISMLVPGYGGGIFSTLSEKLGIYAGGVIYFLYNVSVSISLGIFLGILGYKFIKRTGIFDFPEIEAFSLSLAFLGFFIGERLDASGYLVATVTGIVLGNYKLLKPRENIRILKRLQRAIEKEVHFNDTLAALATIFIFVLLGAEMNLEVIWSNLGKGLLVALGVMILARPLATLPLLKWWNFREYLFIALEGPRGVVPSALASLPLSLALKYKSPLLTVHWGEIIMATVVITVLTSVIVETLWIPILKDKLD 4czb-a2-m1-cC_4czb-a2-m1-cD Structure of the sodium proton antiporter MjNhaP1 from Methanocaldococcus jannaschii at pH 8. Q60362 Q60362 3.5 X-RAY DIFFRACTION 144 0.998 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 404 417 4czb-a1-m1-cA_4czb-a1-m1-cB 4d0a-a1-m1-cB_4d0a-a1-m2-cB MELMMAIGYLGLALVLGSLVAKIAEKLKIPDIPLLLLLGLIIGPFLQIIPSDSAMEIFEYAGPIGLIFILLGGAFTMRISLLKRVIKTVVRLDTITFLITLLISGFIFNMVLNLPYTSPVGYLFGAITAATDPATLIPVFSRVRTNPEVAITLEAESIFNDPLGIVSTSVILGLFGLFSSSNPLIDLITLAGGAIVVGLLLAKIYEKIIIHCDFHEYVAPLVLGGAMLLLYVGDDLLPSICGYGFSGYMAVAIMGLYLGDALFRADDIDYKYIVSFCDDLSLLARVFIFVFLGACIKLSMLENYFIPGLLVALGSIFLARPLGVFLGLIGSKHSFKEKLYFALEGPRGVVPAALAVTVGIEILKNAEKIPASITKYITPTDIAGTIIIGTFMTILLSVILEASW MELMMAIGYLGLALVLGSLVAKIAEKLKIPDIPLLLLLGLIIGPFLQIIPSDSAMEIFEYAGPIGLIFILLGGAFTMRISLLKRVIKTVVRLDTITFLITLLISGFIFNMVLNLPYTSPVGYLFGAITAATDPATLIPVFSRVRTNPEVAITLEAESIFNDPLGIVSTSVILGLFGLFSSSNPLIDLITLAGGAIVVGLLLAKIYEKIIIHCDFHEYVAPLVLGGAMLLLYVGDDLLPSICGYGFSGYMAVAIMGLYLGDALFRADDIDYKYIVSFCDDLSLLARVFIFVFLGACIKLSMLENYFIPGLLVALGSIFLARPLGVFLGLIGSKHSFKEKLYFALEGPRGVVPAALAVTVGIEILKNADKIPASITKYITPTDIAGTIIIGTFMTILLSVILEASWAGMLALKLLGEYK 4czu-a2-m1-cB_4czu-a2-m1-cD Crystal structure of the kinase domain of CIPK23 T190D mutant Q93VD3 Q93VD3 1.9 X-RAY DIFFRACTION 115 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 287 302 4czt-a1-m1-cC_4czt-a1-m1-cA 4czt-a2-m1-cB_4czt-a2-m1-cD 4czu-a1-m1-cC_4czu-a1-m1-cA IHSGRTRVGKYELGRTLGEGTFAKVKFARNVENGDNVAIKVIDKEKVLKNKMIAQIKREISTMKLIKHPNVIRMFEVMASKTKIYFVLEFVTGGELFDKISSNGRLKEDEARKYFQQLINAVDYCHSRGVYHRDLKPENLLLDANGALKVSDFGLSALPQQVREDGLLHDTCGTPNYVAPEVINNKGYDGAKADLWSCGVILFVLMAGYLPFEDSNLTSLYKKIFKAEFTCPPWFSASAKKLIKRILDPNPATRITFAEVIENEWFKKGYKAPKFEDDVDAIFDDSG PGIHSGRTRVGKYELGRTLGEGTFAKVKFARNVENGDNVAIKVIDKEKVLKNKMIAQIKREISTMKLIKHPNVIRMFEVMASKTKIYFVLEFVTGGELFDKISSNGRLKEDEARKYFQQLINAVDYCHSRGVYHRDLKPENLLLDANGALKVSDFGLSALPQQVREDGLLHDTCGTPNYVAPEVINNKGYDGAKADLWSCGVILFVLMAGYLPFEDSNLTSLYKKIFKAEFTCPPWFSASAKKLIKRILDPNPATRITFAEVIENEWFKKGYKAPKFENADVSLDDVDAIFDDSNLVVERRE 4d0f-a1-m1-cA_4d0f-a1-m2-cA Human Notch1 EGF domains 11-13 mutant T466A P46531 P46531 2.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 4cue-a1-m1-cA_4cue-a1-m2-cA AQDVDECSLGANPCEHAGKCINTLGSFECQCLQGYTGPRCEIDVNECVSNPCQNDAACLDQIGEFQCICMPGYEGVHCEVNTDECASSPCLHNGRCLDKINEFQCECPTGFTGHLCQVDLHHILD AQDVDECSLGANPCEHAGKCINTLGSFECQCLQGYTGPRCEIDVNECVSNPCQNDAACLDQIGEFQCICMPGYEGVHCEVNTDECASSPCLHNGRCLDKINEFQCECPTGFTGHLCQVDLHHILD 4d0k-a1-m1-cB_4d0k-a1-m1-cC Complex of Chaetomium thermophilum PAN2 (WD40-CS1) with PAN3 (C-term) G0S0Y3 G0S0Y3 1.89 X-RAY DIFFRACTION 74 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 105 109 NGRIARSLMKLLTILERGDYDGVPSWSETGDRYQLKLFRDYVFHRVDADGKPNLSIGHMLTCMSKLEAGVDENILLTSRDNETVFVLSYRELRQMYDRAFNELVK LEVENGRIARSLMKLLTILERGDYDGVPSWSETGDRYQLKLFRDYVFHRVDADGKPNLSIGHMLTCMSKLEAGVDENILLTSRDNETVFVLSYRELRQMYDRAFNELVK 4d0m-a3-m1-cW_4d0m-a3-m1-cc Phosphatidylinositol 4-kinase III beta in a complex with Rab11a-GTP- gamma-S and the Rab-binding domain of FIP3 Q9UBF8 Q9UBF8 6 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 470 470 4d0m-a1-m1-cA_4d0m-a1-m1-cO 4d0m-a1-m1-cC_4d0m-a1-m1-cS 4d0m-a2-m1-cG_4d0m-a2-m1-cM 4d0m-a2-m1-cI_4d0m-a2-m1-cQ 4d0m-a3-m1-cY_4d0m-a3-m1-cg SWLLRLFESKLFDISMAISYLYNSKEPGVQAYIGNRLFCFRNEDVDFYLPQLLNMYIHMDEDVGDAIKPYIVHRCRQSINFSLQCALLLGAYSSRGTKLRKLILSRLAPEREFIKSLMAIGKRLATLPTKEQKTQRLISELSLLNHKLPARVWLPTAGFDHHVVRVPHTQAVVLNSKDKAPYLIYVEVLECENFDTTSVPARIPENPSAVALKEPWQEKVRRIREGSPYGHLPNWRLLSVIVKCGDDLRQELLAFQVLKQLQSIWEQERVPLWIKPYKILVISADSGMIEPVVNAVSIHQVKKQSQLSLLDYFLQEHGSYTTEAFLSAQRNFVQSCAGYCLVCYLLQVKDRHNGNILLDAEGHIIHIDFGFILSSSSAFKLTTEFVDVMGGLDGDMFNYYKMLMLQGLIAARKHMDKVVQIVEIMQQGSQLPCFHGSSTIRNLKERFHMSMTEEQLQLLVEQMVDGSMRS SWLLRLFESKLFDISMAISYLYNSKEPGVQAYIGNRLFCFRNEDVDFYLPQLLNMYIHMDEDVGDAIKPYIVHRCRQSINFSLQCALLLGAYSSRGTKLRKLILSRLAPEREFIKSLMAIGKRLATLPTKEQKTQRLISELSLLNHKLPARVWLPTAGFDHHVVRVPHTQAVVLNSKDKAPYLIYVEVLECENFDTTSVPARIPENPSAVALKEPWQEKVRRIREGSPYGHLPNWRLLSVIVKCGDDLRQELLAFQVLKQLQSIWEQERVPLWIKPYKILVISADSGMIEPVVNAVSIHQVKKQSQLSLLDYFLQEHGSYTTEAFLSAQRNFVQSCAGYCLVCYLLQVKDRHNGNILLDAEGHIIHIDFGFILSSSSAFKLTTEFVDVMGGLDGDMFNYYKMLMLQGLIAARKHMDKVVQIVEIMQQGSQLPCFHGSSTIRNLKERFHMSMTEEQLQLLVEQMVDGSMRS 4d11-a2-m1-cD_4d11-a2-m1-cE GalNAc-T2 crystal soaked with UDP-5SGalNAc, mEA2 peptide and manganese (Lower resolution dataset) Q10471 Q10471 2.85 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 487 487 2ffv-a3-m1-cB_2ffv-a3-m1-cA 2ffv-a3-m2-cB_2ffv-a3-m2-cA 4d0t-a1-m1-cF_4d0t-a1-m1-cC 4d0t-a2-m1-cB_4d0t-a2-m1-cE 4d0t-a3-m1-cD_4d0t-a3-m1-cA 4d11-a1-m1-cB_4d11-a1-m1-cA 5fv9-a1-m1-cD_5fv9-a1-m1-cC 5fv9-a2-m1-cA_5fv9-a2-m1-cB 5fv9-a3-m1-cF_5fv9-a3-m2-cE 5fv9-a4-m3-cF_5fv9-a4-m1-cE 5ndf-a1-m1-cE_5ndf-a1-m4-cC 5ndf-a2-m1-cF_5ndf-a2-m2-cD 5ndf-a3-m1-cA_5ndf-a3-m1-cB 5ndf-a4-m5-cE_5ndf-a4-m1-cC 5ndf-a5-m1-cD_5ndf-a5-m3-cF 6nqt-a1-m1-cC_6nqt-a1-m1-cA 6nqt-a2-m1-cB_6nqt-a2-m1-cD 6nqt-a3-m1-cF_6nqt-a3-m2-cE KVRWPDFNQEAYVGGTMVRSGQDPYARNKFNQVESDKLRMDRAIPDTRHDQCQRKQWRVDLPATSVVITFHNEARSALLRTVVSVLKKSPPHLIKEIILVDDYSNDPEDGALLGKIEKVRVLRNDRREGLMRSRVRGADAAQAKVLTFLDSHCECNEHWLEPLLERVAEDRTRVVSPIIDVINMDNFQYVGASADLKGGFDWNLVFKWDYMTPEQRRSRQGNPVAPIKTPMIAGGLFVMDKFYFEELGKYDMMMDVWGGENLEISFRVWQCGGSLEIIPCSRVGHVFRKQHPYTFARNTRRAAEVWMDEYKNFYYAAVPSARNVPYGNIQSRLELRKKLSCKPFKWYLENVYPELRVPDHQDIAFGALQQGTNCLDTLGHFADGVVGVYECHNAGGNQEWALTKEKSVKHMDLCLTVVDRAPGSLIKLQGCREDDSRQKWEQIEGNSKLRHVGSNLCLDSRTAKSGGLSVEVCGPALSQQWKFTLNL KVRWPDFNQEAYVGGTMVRSGQDPYARNKFNQVESDKLRMDRAIPDTRHDQCQRKQWRVDLPATSVVITFHNEARSALLRTVVSVLKKSPPHLIKEIILVDDYSNDPEDGALLGKIEKVRVLRNDRREGLMRSRVRGADAAQAKVLTFLDSHCECNEHWLEPLLERVAEDRTRVVSPIIDVINMDNFQYVGASADLKGGFDWNLVFKWDYMTPEQRRSRQGNPVAPIKTPMIAGGLFVMDKFYFEELGKYDMMMDVWGGENLEISFRVWQCGGSLEIIPCSRVGHVFRKQHPYTFARNTRRAAEVWMDEYKNFYYAAVPSARNVPYGNIQSRLELRKKLSCKPFKWYLENVYPELRVPDHQDIAFGALQQGTNCLDTLGHFADGVVGVYECHNAGGNQEWALTKEKSVKHMDLCLTVVDRAPGSLIKLQGCREDDSRQKWEQIEGNSKLRHVGSNLCLDSRTAKSGGLSVEVCGPALSQQWKFTLNL 4d1f-a4-m1-cH_4d1f-a4-m1-cI Crystal structure of the fiber head domain of the Atadenovirus snake adenovirus 1, native, first P212121 crystal form A9CB96 A9CB96 2.7 X-RAY DIFFRACTION 47 1.0 189830 (Snake adenovirus 1) 189830 (Snake adenovirus 1) 105 105 4d0u-a1-m1-cB_4d0u-a1-m1-cA 4d0u-a1-m1-cB_4d0u-a1-m1-cC 4d0u-a1-m1-cC_4d0u-a1-m1-cA 4d0u-a2-m1-cD_4d0u-a2-m2-cD 4d0u-a2-m1-cD_4d0u-a2-m3-cD 4d0u-a2-m2-cD_4d0u-a2-m3-cD 4d0v-a1-m1-cB_4d0v-a1-m1-cA 4d0v-a1-m1-cB_4d0v-a1-m1-cC 4d0v-a1-m1-cC_4d0v-a1-m1-cA 4d0v-a2-m1-cD_4d0v-a2-m2-cD 4d0v-a2-m1-cD_4d0v-a2-m3-cD 4d0v-a2-m2-cD_4d0v-a2-m3-cD 4d1f-a1-m1-cD_4d1f-a1-m1-cE 4d1f-a1-m1-cD_4d1f-a1-m1-cF 4d1f-a1-m1-cE_4d1f-a1-m1-cF 4d1f-a2-m1-cJ_4d1f-a2-m1-cK 4d1f-a2-m1-cJ_4d1f-a2-m1-cL 4d1f-a2-m1-cL_4d1f-a2-m1-cK 4d1f-a3-m1-cA_4d1f-a3-m1-cB 4d1f-a3-m1-cA_4d1f-a3-m1-cC 4d1f-a3-m1-cB_4d1f-a3-m1-cC 4d1f-a4-m1-cG_4d1f-a4-m1-cH 4d1f-a4-m1-cG_4d1f-a4-m1-cI 4d1g-a1-m1-cD_4d1g-a1-m1-cF 4d1g-a1-m1-cE_4d1g-a1-m1-cD 4d1g-a1-m1-cE_4d1g-a1-m1-cF 4d1g-a2-m1-cG_4d1g-a2-m1-cI 4d1g-a2-m1-cH_4d1g-a2-m1-cG 4d1g-a2-m1-cH_4d1g-a2-m1-cI 4d1g-a3-m1-cJ_4d1g-a3-m1-cK 4d1g-a3-m1-cJ_4d1g-a3-m1-cL 4d1g-a3-m1-cK_4d1g-a3-m1-cL 4d1g-a4-m1-cA_4d1g-a4-m1-cB 4d1g-a4-m1-cA_4d1g-a4-m1-cC 4d1g-a4-m1-cC_4d1g-a4-m1-cB 4umi-a1-m1-cA_4umi-a1-m2-cA 4umi-a1-m1-cA_4umi-a1-m3-cA 4umi-a1-m2-cA_4umi-a1-m3-cA TSLDIAEELQNDKGVSFAFQAREEELGAFTKRTLFAYSGDGLTGPFKAPASAELSSFLTAHPKGRWLIAFPLGTGIVSVDEGILTLEISRSLPEVGSGSSFYLTE TSLDIAEELQNDKGVSFAFQAREEELGAFTKRTLFAYSGDGLTGPFKAPASAELSSFLTAHPKGRWLIAFPLGTGIVSVDEGILTLEISRSLPEVGSGSSFYLTE 4d1l-a2-m2-cB_4d1l-a2-m1-cA Tetramerization domain of zebrafish p53 (crystal form I) G1K2L5 G1K2L5 1.97 X-RAY DIFFRACTION 37 1.0 7955 (Danio rerio) 7955 (Danio rerio) 37 38 4d1l-a1-m1-cF_4d1l-a1-m1-cD 4d1l-a2-m1-cB_4d1l-a2-m2-cA 4d1m-a1-m1-cH_4d1m-a1-m1-cE 4d1m-a2-m1-cA_4d1m-a2-m1-cD 4d1m-a3-m1-cI_4d1m-a3-m1-cL 4d1m-a3-m1-cJ_4d1m-a3-m1-cK EIFTLQVRGRERYEILKKLNDSLELSDVVPASDAEKY EIFTLQVRGRERYEILKKLNDSLELSDVVPASDAEKYR 4d1l-a2-m2-cB_4d1l-a2-m2-cA Tetramerization domain of zebrafish p53 (crystal form I) G1K2L5 G1K2L5 1.97 X-RAY DIFFRACTION 66 1.0 7955 (Danio rerio) 7955 (Danio rerio) 37 38 4cz5-a1-m1-cB_4cz5-a1-m1-cA 4cz5-a1-m1-cD_4cz5-a1-m1-cC 4cz6-a1-m1-cC_4cz6-a1-m1-cD 4cz7-a1-m1-cA_4cz7-a1-m1-cB 4cz7-a1-m1-cC_4cz7-a1-m1-cD 4d1l-a1-m1-cC_4d1l-a1-m1-cD 4d1l-a2-m1-cB_4d1l-a2-m1-cA 4d1m-a1-m1-cF_4d1m-a1-m1-cE 4d1m-a2-m1-cA_4d1m-a2-m1-cB 4d1m-a2-m1-cD_4d1m-a2-m1-cC 4d1m-a3-m1-cI_4d1m-a3-m1-cJ 4d1m-a3-m1-cL_4d1m-a3-m1-cK EIFTLQVRGRERYEILKKLNDSLELSDVVPASDAEKY EIFTLQVRGRERYEILKKLNDSLELSDVVPASDAEKYR 4d1q-a1-m1-cH_4d1q-a1-m2-cH Hermes transposase bound to its terminal inverted repeat Q25442 Q25442 3.4 X-RAY DIFFRACTION 99 1.0 7370 (Musca domestica) 7370 (Musca domestica) 509 509 4d1q-a1-m1-cA_4d1q-a1-m2-cA LKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDMIKFFIKVGAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALIGREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNMPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTMLRSILDNWESVIQILSEAGETQRIVHINKSIIQTMVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHMQQEKVAQIKEFCLSKMEDLELINRMSSSIDLTSHSKDISTTSFFFPQLTQNNSREPPVCPSDEFEFYRKEIVILSEDFKVMEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK LKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDMIKFFIKVGAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALIGREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNMPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTMLRSILDNWESVIQILSEAGETQRIVHINKSIIQTMVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHMQQEKVAQIKEFCLSKMEDLELINRMSSSIDLTSHSKDISTTSFFFPQLTQNNSREPPVCPSDEFEFYRKEIVILSEDFKVMEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK 4d1q-a1-m2-cG_4d1q-a1-m2-cB Hermes transposase bound to its terminal inverted repeat Q25442 Q25442 3.4 X-RAY DIFFRACTION 108 1.0 7370 (Musca domestica) 7370 (Musca domestica) 499 505 4d1q-a1-m1-cG_4d1q-a1-m1-cB LKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDMIKFFIKVGAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALIGREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNMPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTMLRSILDNWESVIQILSEAGETQRIVHINKSIIQTMVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHMQQEKVAQIKEFCLSKMEDLELISHSKDISTTSFFFPQLTQNNSREPPVCPSDEFEFYRKEIVILSEDFKVMEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK HMQSRELKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDMIKFFIKVGAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALIGREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNMPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTMLRSILDNWESVIQILSEAGETQRIVHINKSIIQTMVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHMQQEKVAQIKEFCLSKMEDLELISHSKDISTTSFFFPQLTQNNSREPPVCPSDEFEFYRKEIVILSEDFKVMEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK 4d28-a2-m1-cB_4d28-a2-m1-cC Crystal structure of the kinase domain of CIPK24/SOS2 Q9LDI3 Q9LDI3 3.3 X-RAY DIFFRACTION 98 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 277 279 4d28-a1-m1-cD_4d28-a1-m1-cA RVGKYEVGRTIGEGTFAKVKFARNTDTGDNVAIKIMAKSTILKNRMVDQIKREISIMKIVRHPNIVRLYEVLASKSKIYIVLEFVTGGELFDRIVHKGRLKEDESRKYFQQLVDAVAHCHSKGVYHRDLKPENLLLDTNGNLKVSDFGLSALPQNDTCGTPNYVAPEVLSGQGYDGSAADIWSCGVILFVILAGYLPFSETDLPGLYRKINAAEFDCPPWFSAEVKFLIHRILDPNPKTRIQIQGIKKDPWFRKNYVPIRAREEEEVNLDDIRAVFD RVGKYEVGRTIGEGTFAKVKFARNTDTGDNVAIKIMAKSTILKNRMVDQIKREISIMKIVRHPNIVRLYEVLASKSKIYIVLEFVTGGELFDRIVHKGRLKEDESRKYFQQLVDAVAHCHSKGVYHRDLKPENLLLDTNGNLKVSDFGLSALPQELNDTCGTPNYVAPEVLSGQGYDGSAADIWSCGVILFVILAGYLPFSETDLPGLYRKINAAEFDCPPWFSAEVKFLIHRILDPNPKTRIQIQGIKKDPWFRKNYVPIRAREEEEVNLDDIRAVFD 4d2h-a1-m1-cE_4d2h-a1-m1-cH Crystal structure of the tetramerisation domain of human CtIP Q99708 Q99708 1.9 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 33 4d2h-a1-m1-cG_4d2h-a1-m1-cF 4d2h-a2-m1-cD_4d2h-a2-m1-cA DFKDLWTKLKECHDREVQGLQVKVTKLKQE DFKDLWTKLKECHDREVQGLQVKVTKLKQERIL 4d2h-a2-m1-cD_4d2h-a2-m1-cB Crystal structure of the tetramerisation domain of human CtIP Q99708 Q99708 1.9 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 32 4d2h-a1-m1-cE_4d2h-a1-m1-cG 4d2h-a1-m1-cH_4d2h-a1-m1-cF DFKDLWTKLKECHDREVQGLQVKVTKLKQE SDFKDLWTKLKECHDREVQGLQVKVTKLKQER 4d2h-a2-m1-cD_4d2h-a2-m1-cC Crystal structure of the tetramerisation domain of human CtIP Q99708 Q99708 1.9 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 34 4d2h-a1-m1-cE_4d2h-a1-m1-cF 4d2h-a1-m1-cH_4d2h-a1-m1-cG 4d2h-a2-m1-cB_4d2h-a2-m1-cA DFKDLWTKLKECHDREVQGLQVKVTKLKQE DFKDLWTKLKECHDREVQGLQVKVTKLKQERILD 4d2i-a1-m3-cB_4d2i-a1-m3-cA Crystal structure of the HerA hexameric DNA translocase from Sulfolobus solfataricus bound to AMP-PNP Q97WG8 Q97WG8 2.841 X-RAY DIFFRACTION 186 0.993 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 458 464 4d2i-a1-m1-cB_4d2i-a1-m1-cA 4d2i-a1-m1-cB_4d2i-a1-m3-cA 4d2i-a1-m2-cB_4d2i-a1-m1-cA 4d2i-a1-m2-cB_4d2i-a1-m2-cA 4d2i-a1-m3-cB_4d2i-a1-m2-cA MIIGYVIGQATTQEALILAERPVRLGTYVVLEYDNVKALGLITNVTRGSPLLDDNMNDIEIVQRLKQFNNSIPVYTKAKVKLLCDMNNHFLMPDIPPFAGTPAREAEDEELKSIYSQDGQIRIGSLIGKNVEVKLNINSFARHLAILAATGSGKSNTVAVLSQRISELGGSVLIFDYHGEYYDSDIKNLNRIEPKLNPLYMTPREFSTLLEIRENAIIQYRILRRAFIKVTNGIRAALLNSQFYELMADALSAKDEVLNKFEEFMDRYSNVIDLTSSDIIEKVKRGKVNVVSLTQLDEDSMDAVVSHYLRRILDSRKDFKRSKNSGLKFPIIAVIEEAHVFLSKNENTLTKYWASRIAREGRKFGVGLTIVSQRPKGLDENILSQMTNKIILKIIEPTDKKYILESSDNLSEDLAEQLSSLDVGEAIIIGKIVKLPAVVKIDMFEGKLLGSDPDMIGE MIIGYVIGQATTQEALILAERPVRLGTYVVLEYDNVKALGLITNVTRGSPLLDDNMNDIEIVQRLKQFNNSIPVYTKAKVKLLCDMNNHFLMPDIPPFAGTPAREAEDEELKSIYSQDGQIRIGSLIGKNVEVKLNINSFARHLAILAATGSGKSNTVAVLSQRISELGGSVLIFDYHGEYYDSDIKNLNRIEPKLNPLYMTPREFSTLLEIRENAIIQYRILRRAFIKVTNGIRAALAAGQIPFSTLNSQFYELMADALKDEVLNKFEEFMDRYSNVIDLTSSDIIEKVKRGKVNVVSLTQLDEDSMDAVVSHYLRRILDSRKDFKRSKNSGLKFPIIAVIEEAHVFLSKNENTLTKYWASRIAREGRKFGVGLTIVSQRPKGLDENILSQMTNKIILKIIEPTDKKYILESSDNLSEDLAEQLSSLDVGEAIIIGKIVKLPAVVKIDMFEGKLLGSDPDMIG 4d2m-a1-m1-cA_4d2m-a1-m2-cC Vaccinia Virus F1L bound to Bim BH3 O57173 O57173 2.1 X-RAY DIFFRACTION 29 1.0 126794 (Vaccinia virus Ankara) 126794 (Vaccinia virus Ankara) 135 135 4d2m-a1-m1-cC_4d2m-a1-m2-cA ILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYNRDMNIMYDMASTKSFTVYDFNNEVNTIMLDNKGLGVRLATISFITELGRRMNPVKTIKMFTLLSHTICDDCFVDYITDIS ILDYLSTERDHVMMAVRYYMSKQRLDDLYRQLPTKTRSYIDIINIYCDKVSNDYNRDMNIMYDMASTKSFTVYDFNNEVNTIMLDNKGLGVRLATISFITELGRRMNPVKTIKMFTLLSHTICDDCFVDYITDIS 4d2q-a1-m1-cE_4d2q-a1-m1-cF Negative-stain electron microscopy of E. coli ClpB mutant E432A (BAP form bound to ClpP) P63284 P63284 18.0 ELECTRON MICROSCOPY 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 771 771 4d2q-a1-m1-cA_4d2q-a1-m1-cB 4d2q-a1-m1-cA_4d2q-a1-m1-cF 4d2q-a1-m1-cB_4d2q-a1-m1-cC 4d2q-a1-m1-cC_4d2q-a1-m1-cD 4d2q-a1-m1-cD_4d2q-a1-m1-cE 4d2u-a1-m1-cA_4d2u-a1-m1-cB 4d2u-a1-m1-cA_4d2u-a1-m1-cF 4d2u-a1-m1-cB_4d2u-a1-m1-cC 4d2u-a1-m1-cC_4d2u-a1-m1-cD 4d2u-a1-m1-cD_4d2u-a1-m1-cE 4d2u-a1-m1-cE_4d2u-a1-m1-cF 4d2x-a1-m1-cA_4d2x-a1-m1-cB 4d2x-a1-m1-cA_4d2x-a1-m1-cF 4d2x-a1-m1-cB_4d2x-a1-m1-cC 4d2x-a1-m1-cC_4d2x-a1-m1-cD 4d2x-a1-m1-cD_4d2x-a1-m1-cE 4d2x-a1-m1-cE_4d2x-a1-m1-cF LDRLTNKFQLALADAQSLALGHDNQFIEPLHLSALLNQEGGSVSPLLTSAGINAGQLRTDINQALNRLPQVQPSQDLVRVLNLCDKLAQKRGDNFISSELFVLAALESRGTLADILKAAGATTANITQAIEQQALKKYTIDLTERAEQGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIINGEVPEGLKGRRVLALDGALRLKGVLNDLAKQEGNVILFIDELHTVGADAGNLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVFVAEPSVEDTIAILRGLKERYELHHHVQITDPAIVAAATLSHRYIADRQLPDKAIDLIDEAASSIRQIDSKPEELDRLDRRIIQLKLEQQALKRLDLNEELSDKERQYSELEEEWKAEKASLSGTQTIKAELEQAKIAIEQARRSELQYGKIPELEKQLEAATQLEGKTRLLRNKVTDAEIAEVLARWTGIPVSRESEREKLLREQELHHRVIGQNEAVDAVSNAIRRSRAGLADPNRPIGSFLFLGPTGVGKTELCKALANFFDSDEAVRIDSEFEKHSVSRLVGAGGYLTEAVRRRPYSVILLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFRNTVVITSNLGSDLIQERFLDYAHKELVLGVVSHNFRPEFINRIDEVVVFHPLGEQHIASIAQIQLKRLYKRLEERGYEIHISDEALKLLSENGYDPVYGARPLKRAIQQQIENPLAQQILSGELVPGKVIRLEVNEDRIVAVQH LDRLTNKFQLALADAQSLALGHDNQFIEPLHLSALLNQEGGSVSPLLTSAGINAGQLRTDINQALNRLPQVQPSQDLVRVLNLCDKLAQKRGDNFISSELFVLAALESRGTLADILKAAGATTANITQAIEQQALKKYTIDLTERAEQGKLDPVIGRDEEIRRTIQVLQRRTKNNPVLIGEPGVGKTAIVEGLAQRIINGEVPEGLKGRRVLALDGALRLKGVLNDLAKQEGNVILFIDELHTVGADAGNLKPALARGELHCVGATTLDEYRQYIEKDAALERRFQKVFVAEPSVEDTIAILRGLKERYELHHHVQITDPAIVAAATLSHRYIADRQLPDKAIDLIDEAASSIRQIDSKPEELDRLDRRIIQLKLEQQALKRLDLNEELSDKERQYSELEEEWKAEKASLSGTQTIKAELEQAKIAIEQARRSELQYGKIPELEKQLEAATQLEGKTRLLRNKVTDAEIAEVLARWTGIPVSRESEREKLLREQELHHRVIGQNEAVDAVSNAIRRSRAGLADPNRPIGSFLFLGPTGVGKTELCKALANFFDSDEAVRIDSEFEKHSVSRLVGAGGYLTEAVRRRPYSVILLDEVEKAHPDVFNILLQVLDDGRLTDGQGRTVDFRNTVVITSNLGSDLIQERFLDYAHKELVLGVVSHNFRPEFINRIDEVVVFHPLGEQHIASIAQIQLKRLYKRLEERGYEIHISDEALKLLSENGYDPVYGARPLKRAIQQQIENPLAQQILSGELVPGKVIRLEVNEDRIVAVQH 4d2w-a2-m1-cC_4d2w-a2-m1-cB Structure of MELK in complex with inhibitors Q14680 Q14680 1.92 X-RAY DIFFRACTION 98 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 313 323 4d2p-a1-m1-cC_4d2p-a1-m1-cB 4d2v-a1-m1-cC_4d2v-a1-m1-cB 4d2w-a1-m1-cA_4d2w-a1-m1-cD 4ump-a1-m1-cA_4ump-a1-m1-cD 4ump-a2-m1-cC_4ump-a2-m1-cB 5twu-a1-m1-cB_5twu-a1-m1-cA MKDYDELLKYYELHETIGTGGFAKVKLACHILTGEMVAIKIMDKSDLPRIKTEIEALKNLRHQHICQLYHVLETANKIFMVLEYCPGGELFDYIISQDRLSEEETRVVFRQIVSAVAYVHSQGYAHRDLKPENLLFDEYHKLKLIDFGLCAKGALAYAAPELIQGKGSEADVWSMGILLYVLMCGFLPFDDDTAAALVAKIMRGKYDVPKWLSPSSILLLQQMLQVDPKKRISMKNLLNHPWIMQDYNYPVEWQSKNPFIHLDDDCVTELSVHHRNNRQTMEDLISLWQYDHLTATYLLLLAKKARGKPVRLR MKDYDELLKYYELHETIGTGGFAKVKLACHILTGEMVAIKIMDKNTLGSDLPRIKTEIEALKNLRHQHICQLYHVLETANKIFMVLEYCPGGELFDYIISQDRLSEEETRVVFRQIVSAVAYVHSQGYAHRDLKPENLLFDEYHKLKLIDFGLCAKPKGNKDCGALAYAAPELIQGGSEADVWSMGILLYVLMCGFLPFDDDTAAALVAKIMRGKYDVPKWLSPSSILLLQQMLQVDPKKRISMKNLLNHPWIMQDYNYPVEWQSKNPFIHLDDDCVTELSVHHRNNRQTMEDLISLWQYDHLTATYLLLLAKKARGKPVRLR 4d3d-a1-m1-cA_4d3d-a1-m1-cB Structure of Imine Reductase BcSIRED from Bacillus cereus BAG3X2 1.71 X-RAY DIFFRACTION 277 0.996 1396 (Bacillus cereus) 1396 (Bacillus cereus) 285 286 4d3f-a1-m1-cA_4d3f-a1-m1-cB NRKSVTVIGLGPMGQAMADVFLEYGYSVTVWNRTSSKADQLVAKGAIRVSTVNEALAANELVILSLTDYNVMYSILEPVSENLFGKVLVNLSSDTPEKARKAAKWLEDRGARHITGGVQVPPSGIGKSESYTYYSGDRVVFEAHRETLEVLTSSDYRGEDPGLAMLYYQIQMDIFWTAMLSYLHALAIANANGITAEQFLPYASAMMSSLPKFVEFYTPRLDEGEHPGDVDRLAMGLASVEHVVHTTQEAGIDIALPATVLEVFRRGMKTGHASDSFTSLIEIFK RKSVTVIGLGPMGQAMADVFLEYGYSVTVWNRTSSKADQLVAKGAIRVSTVNEALAANELVILSLTDYNVMYSILEPVSENLFGKVLVNLSSDTPEKARKAAKWLEDRGARHITGGVQVPPSGIGKSESYTYYSGDRVVFEAHRETLEVLTSSDYRGEDPGLAMLYYQIQMDIFWTAMLSYLHALAIANANGITAEQFLPYASAMMSSLPKFVEFYTPRLDEGEHPGDVDRLAMGLASVEHVVHTTQEAGIDIALPATVLEVFRRGMKTGHASDSFTSLIEIFKNS 4d3h-a1-m1-cC_4d3h-a1-m1-cA Structure of PstA Q2G229 Q2G229 2 X-RAY DIFFRACTION 69 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 101 103 4d3h-a1-m1-cA_4d3h-a1-m1-cB SGLVPRGSHMKMIIAIVQDQDSQELADQLVKNNFRATKLATTGGFLRAGNTTFLCGVNDDRVDEILSVINQTCGNREQLVSPVEVGGATVFVMPVDAFHQF SGLVPRGSHMKMIIAIVQDQDSQELADQLVKNNFRATKLATTGGFLRAGNTTFLCGVNDDRVDEILSVINQTCGNREQLVSPVEVEVGGATVFVMPVDAFHQF 4d3h-a1-m1-cC_4d3h-a1-m1-cB Structure of PstA Q2G229 Q2G229 2 X-RAY DIFFRACTION 72 0.99 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 101 104 SGLVPRGSHMKMIIAIVQDQDSQELADQLVKNNFRATKLATTGGFLRAGNTTFLCGVNDDRVDEILSVINQTCGNREQLVSPVEVGGATVFVMPVDAFHQF GLVPRGSHMKMIIAIVQDQDSQELADQLVKNNFRATKLATTGGFLRAGNTTFLCGVNDDRVDEILSVINQTCGNREQLVSPIPVEVEVGGATVFVMPVDAFHQF 4d3q-a1-m1-cB_4d3q-a1-m1-cA crystal structure of point mutated DUSP19 (R156A) Q8WTR2 Q8WTR2 1.64 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 141 VGVIKPWLLLGSQDAAHDLDTLKKNKVTHILNVAYGVENAFLSDFTYKSISILDLPETNILSYFPECFEFIEEAKRKDGVVLVHSNAGVSAAAAIVIGFLMNSEQTSFTSAFSLVKNARPSICPNSGFMEQLRTYQE QVGVIKPWLLLGSQDAAHDLDTLKKNKVTHILNVAYGVENAFLSDFTYKSISILDLPETNILSYFPECFEFIEEAKRKDGVVLVHSNAGVSAAAAIVIGFLMNSEQTSFTSAFSLVKNARPSICPNSGFMEQLRTYQEGKE 4d3s-a2-m1-cC_4d3s-a2-m1-cF Imine reductase from Nocardiopsis halophila A0A0J9X1X6 A0A0J9X1X6 2.24 X-RAY DIFFRACTION 299 1.0 141692 (Nocardiopsis halophila) 141692 (Nocardiopsis halophila) 283 283 4d3s-a1-m1-cE_4d3s-a1-m1-cD 4d3s-a3-m1-cH_4d3s-a3-m1-cA 4d3s-a4-m1-cG_4d3s-a4-m1-cB SPVTLIGLGPMGQAMAGALLEAGYELTVWNRTKAKAEALAERGAAVADSPAEALRAGGPVLLSLTEHAVMYRVLEGAESDLKGRTILNLGSDTPAASRAAAAWAEGHGARYVTGGVMSPAPGIGSSSVFSFYSGDRAAFEENKALLEVLTATDFRGEDPGLAQVYYQILLDLFWTTMTGYLHALAVARAEGVPVGTITPYLIEGNDMAMFFEGTSAAVAEGRFPGDEDRISMDAASMEHVVQTSRDAGVDTALPEAVLSLFRRGLDAGFAESSFARLVTLMDA SPVTLIGLGPMGQAMAGALLEAGYELTVWNRTKAKAEALAERGAAVADSPAEALRAGGPVLLSLTEHAVMYRVLEGAESDLKGRTILNLGSDTPAASRAAAAWAEGHGARYVTGGVMSPAPGIGSSSVFSFYSGDRAAFEENKALLEVLTATDFRGEDPGLAQVYYQILLDLFWTTMTGYLHALAVARAEGVPVGTITPYLIEGNDMAMFFEGTSAAVAEGRFPGDEDRISMDAASMEHVVQTSRDAGVDTALPEAVLSLFRRGLDAGFAESSFARLVTLMDA 4d45-a2-m1-cE_4d45-a2-m1-cH Crystal structure of S. aureus FabI in complex with NADP and 5-bromo- 2-(4-chloro-2-hydroxyphenoxy)benzonitrile A0A0J9X1Y0 A0A0J9X1Y0 2.15 X-RAY DIFFRACTION 109 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 254 254 3gr6-a1-m1-cA_3gr6-a1-m1-cJ 3gr6-a1-m1-cG_3gr6-a1-m1-cD 4ali-a1-m1-cA_4ali-a1-m1-cD 4ali-a1-m1-cB_4ali-a1-m1-cC 4ali-a2-m1-cE_4ali-a2-m1-cH 4ali-a2-m1-cF_4ali-a2-m1-cG 4alj-a1-m1-cA_4alj-a1-m1-cD 4alj-a1-m1-cB_4alj-a1-m1-cC 4alj-a2-m1-cF_4alj-a2-m1-cG 4alj-a2-m1-cH_4alj-a2-m1-cE 4alk-a1-m1-cA_4alk-a1-m1-cD 4alk-a1-m1-cB_4alk-a1-m1-cC 4alk-a2-m1-cE_4alk-a2-m1-cH 4alk-a2-m1-cG_4alk-a2-m1-cF 4all-a1-m1-cB_4all-a1-m1-cC 4all-a1-m1-cD_4all-a1-m1-cA 4alm-a1-m1-cC_4alm-a1-m1-cB 4bnf-a1-m1-cE_4bnf-a1-m1-cH 4bnf-a1-m1-cF_4bnf-a1-m1-cG 4bnf-a2-m1-cA_4bnf-a2-m1-cD 4bnf-a2-m1-cB_4bnf-a2-m1-cC 4bng-a1-m1-cA_4bng-a1-m1-cD 4bng-a1-m1-cC_4bng-a1-m1-cB 4bng-a2-m1-cE_4bng-a2-m1-cH 4bng-a2-m1-cG_4bng-a2-m1-cF 4bnh-a1-m1-cA_4bnh-a1-m1-cD 4bnh-a1-m1-cB_4bnh-a1-m1-cC 4bnh-a2-m1-cF_4bnh-a2-m1-cG 4bnh-a2-m1-cH_4bnh-a2-m1-cE 4bni-a1-m1-cA_4bni-a1-m1-cD 4bni-a1-m1-cB_4bni-a1-m1-cC 4bni-a2-m1-cE_4bni-a2-m1-cH 4bni-a2-m1-cF_4bni-a2-m1-cG 4bnj-a1-m1-cE_4bnj-a1-m1-cH 4bnj-a1-m1-cF_4bnj-a1-m1-cG 4bnj-a2-m1-cA_4bnj-a2-m1-cD 4bnj-a2-m1-cB_4bnj-a2-m1-cC 4bnk-a1-m1-cA_4bnk-a1-m1-cD 4bnk-a1-m1-cB_4bnk-a1-m1-cC 4bnk-a2-m1-cE_4bnk-a2-m1-cH 4bnk-a2-m1-cF_4bnk-a2-m1-cG 4bnl-a1-m1-cA_4bnl-a1-m1-cD 4bnl-a1-m1-cB_4bnl-a1-m1-cC 4bnl-a2-m1-cF_4bnl-a2-m1-cG 4bnl-a2-m1-cH_4bnl-a2-m1-cE 4bnm-a1-m1-cA_4bnm-a1-m1-cD 4bnm-a1-m1-cB_4bnm-a1-m1-cC 4bnm-a2-m1-cF_4bnm-a2-m1-cG 4bnm-a2-m1-cH_4bnm-a2-m1-cE 4bnn-a1-m1-cF_4bnn-a1-m1-cG 4bnn-a1-m1-cH_4bnn-a1-m1-cE 4bnn-a2-m1-cA_4bnn-a2-m1-cD 4bnn-a2-m1-cB_4bnn-a2-m1-cC 4cuz-a1-m1-cA_4cuz-a1-m1-cD 4cuz-a1-m1-cB_4cuz-a1-m1-cC 4cuz-a2-m1-cF_4cuz-a2-m1-cG 4cuz-a2-m1-cH_4cuz-a2-m1-cE 4cv0-a1-m1-cA_4cv0-a1-m1-cD 4cv0-a1-m1-cC_4cv0-a1-m1-cB 4cv1-a1-m1-cE_4cv1-a1-m1-cH 4cv1-a1-m1-cG_4cv1-a1-m1-cF 4cv1-a2-m1-cB_4cv1-a2-m1-cC 4cv1-a2-m1-cD_4cv1-a2-m1-cA 4d41-a1-m1-cE_4d41-a1-m1-cH 4d41-a1-m1-cF_4d41-a1-m1-cG 4d41-a2-m1-cA_4d41-a2-m1-cD 4d41-a2-m1-cB_4d41-a2-m1-cC 4d42-a1-m1-cA_4d42-a1-m1-cD 4d42-a1-m1-cB_4d42-a1-m1-cC 4d42-a2-m1-cE_4d42-a2-m1-cH 4d42-a2-m1-cG_4d42-a2-m1-cF 4d43-a1-m1-cE_4d43-a1-m1-cH 4d43-a1-m1-cF_4d43-a1-m1-cG 4d43-a2-m1-cA_4d43-a2-m1-cD 4d43-a2-m1-cB_4d43-a2-m1-cC 4d44-a1-m1-cE_4d44-a1-m1-cH 4d44-a1-m1-cF_4d44-a1-m1-cG 4d44-a2-m1-cA_4d44-a2-m1-cD 4d44-a2-m1-cB_4d44-a2-m1-cC 4d45-a1-m1-cA_4d45-a1-m1-cD 4d45-a1-m1-cB_4d45-a1-m1-cC 4d45-a2-m1-cF_4d45-a2-m1-cG 4fs3-a1-m1-cA_4fs3-a1-m2-cA 4fs3-a1-m3-cA_4fs3-a1-m4-cA 4nz9-a1-m1-cB_4nz9-a1-m1-cA 6tbb-a1-m1-cC_6tbb-a1-m1-cB 6tbb-a1-m1-cD_6tbb-a1-m1-cA 6tbb-a2-m1-cE_6tbb-a2-m1-cH 6tbb-a2-m1-cF_6tbb-a2-m1-cG 6tbc-a1-m1-cC_6tbc-a1-m1-cB 6tbc-a1-m1-cD_6tbc-a1-m1-cA 6tbc-a2-m1-cE_6tbc-a2-m1-cH 6tbc-a2-m1-cF_6tbc-a2-m1-cG 6yur-a1-m1-cE_6yur-a1-m2-cF 6yur-a1-m1-cG_6yur-a1-m2-cA 6yur-a2-m1-cF_6yur-a2-m3-cE 6yur-a2-m3-cG_6yur-a2-m1-cA 6yur-a3-m1-cB_6yur-a3-m1-cD 6yur-a3-m1-cC_6yur-a3-m1-cH NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANMEDLRGRFSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLGGEFAVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLSAKGVGGFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANMEDLRGRFSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLGGEFAVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLSAKGVGGFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK 4d45-a2-m1-cF_4d45-a2-m1-cH Crystal structure of S. aureus FabI in complex with NADP and 5-bromo- 2-(4-chloro-2-hydroxyphenoxy)benzonitrile A0A0J9X1Y0 A0A0J9X1Y0 2.15 X-RAY DIFFRACTION 28 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 254 254 3gr6-a1-m1-cD_3gr6-a1-m1-cJ 3gr6-a1-m1-cG_3gr6-a1-m1-cA 4ali-a1-m1-cA_4ali-a1-m1-cC 4ali-a1-m1-cD_4ali-a1-m1-cB 4ali-a2-m1-cE_4ali-a2-m1-cG 4ali-a2-m1-cF_4ali-a2-m1-cH 4alj-a1-m1-cA_4alj-a1-m1-cC 4alj-a1-m1-cD_4alj-a1-m1-cB 4alj-a2-m1-cE_4alj-a2-m1-cG 4alj-a2-m1-cH_4alj-a2-m1-cF 4alk-a1-m1-cA_4alk-a1-m1-cC 4alk-a1-m1-cD_4alk-a1-m1-cB 4alk-a2-m1-cG_4alk-a2-m1-cE 4alk-a2-m1-cH_4alk-a2-m1-cF 4all-a1-m1-cB_4all-a1-m1-cD 4all-a1-m1-cC_4all-a1-m1-cA 4bnf-a1-m1-cE_4bnf-a1-m1-cG 4bnf-a1-m1-cH_4bnf-a1-m1-cF 4bnf-a2-m1-cA_4bnf-a2-m1-cC 4bnf-a2-m1-cD_4bnf-a2-m1-cB 4bng-a1-m1-cA_4bng-a1-m1-cC 4bng-a1-m1-cD_4bng-a1-m1-cB 4bng-a2-m1-cE_4bng-a2-m1-cG 4bng-a2-m1-cH_4bng-a2-m1-cF 4bnh-a1-m1-cA_4bnh-a1-m1-cC 4bnh-a1-m1-cD_4bnh-a1-m1-cB 4bnh-a2-m1-cE_4bnh-a2-m1-cG 4bnh-a2-m1-cH_4bnh-a2-m1-cF 4bni-a1-m1-cA_4bni-a1-m1-cC 4bni-a1-m1-cD_4bni-a1-m1-cB 4bni-a2-m1-cE_4bni-a2-m1-cG 4bni-a2-m1-cH_4bni-a2-m1-cF 4bnj-a1-m1-cE_4bnj-a1-m1-cG 4bnj-a1-m1-cF_4bnj-a1-m1-cH 4bnj-a2-m1-cA_4bnj-a2-m1-cC 4bnj-a2-m1-cB_4bnj-a2-m1-cD 4bnk-a1-m1-cA_4bnk-a1-m1-cC 4bnk-a1-m1-cD_4bnk-a1-m1-cB 4bnk-a2-m1-cE_4bnk-a2-m1-cG 4bnk-a2-m1-cH_4bnk-a2-m1-cF 4bnl-a1-m1-cA_4bnl-a1-m1-cC 4bnl-a1-m1-cD_4bnl-a1-m1-cB 4bnl-a2-m1-cE_4bnl-a2-m1-cG 4bnl-a2-m1-cH_4bnl-a2-m1-cF 4bnm-a1-m1-cA_4bnm-a1-m1-cC 4bnm-a1-m1-cD_4bnm-a1-m1-cB 4bnm-a2-m1-cE_4bnm-a2-m1-cG 4bnm-a2-m1-cH_4bnm-a2-m1-cF 4bnn-a1-m1-cE_4bnn-a1-m1-cG 4bnn-a1-m1-cH_4bnn-a1-m1-cF 4bnn-a2-m1-cA_4bnn-a2-m1-cC 4bnn-a2-m1-cD_4bnn-a2-m1-cB 4cuz-a1-m1-cA_4cuz-a1-m1-cC 4cuz-a1-m1-cB_4cuz-a1-m1-cD 4cuz-a2-m1-cE_4cuz-a2-m1-cG 4cuz-a2-m1-cH_4cuz-a2-m1-cF 4cv0-a1-m1-cA_4cv0-a1-m1-cC 4cv0-a1-m1-cD_4cv0-a1-m1-cB 4cv1-a1-m1-cE_4cv1-a1-m1-cG 4cv1-a1-m1-cF_4cv1-a1-m1-cH 4cv1-a2-m1-cA_4cv1-a2-m1-cC 4cv1-a2-m1-cB_4cv1-a2-m1-cD 4d41-a1-m1-cE_4d41-a1-m1-cG 4d41-a1-m1-cF_4d41-a1-m1-cH 4d41-a2-m1-cA_4d41-a2-m1-cC 4d41-a2-m1-cB_4d41-a2-m1-cD 4d42-a1-m1-cA_4d42-a1-m1-cC 4d42-a1-m1-cB_4d42-a1-m1-cD 4d42-a2-m1-cE_4d42-a2-m1-cG 4d42-a2-m1-cH_4d42-a2-m1-cF 4d43-a1-m1-cE_4d43-a1-m1-cG 4d43-a1-m1-cF_4d43-a1-m1-cH 4d43-a2-m1-cA_4d43-a2-m1-cC 4d43-a2-m1-cB_4d43-a2-m1-cD 4d44-a1-m1-cE_4d44-a1-m1-cG 4d44-a1-m1-cF_4d44-a1-m1-cH 4d44-a2-m1-cA_4d44-a2-m1-cC 4d44-a2-m1-cB_4d44-a2-m1-cD 4d45-a1-m1-cA_4d45-a1-m1-cC 4d45-a1-m1-cB_4d45-a1-m1-cD 4d45-a2-m1-cE_4d45-a2-m1-cG 4fs3-a1-m1-cA_4fs3-a1-m4-cA 4fs3-a1-m2-cA_4fs3-a1-m3-cA 6tbb-a1-m1-cA_6tbb-a1-m1-cC 6tbb-a1-m1-cD_6tbb-a1-m1-cB 6tbb-a2-m1-cE_6tbb-a2-m1-cG 6tbb-a2-m1-cF_6tbb-a2-m1-cH 6tbc-a1-m1-cC_6tbc-a1-m1-cA 6tbc-a1-m1-cD_6tbc-a1-m1-cB 6tbc-a2-m1-cE_6tbc-a2-m1-cG 6tbc-a2-m1-cF_6tbc-a2-m1-cH 6yur-a1-m1-cG_6yur-a1-m2-cF 6yur-a1-m2-cA_6yur-a1-m1-cE 6yur-a2-m1-cA_6yur-a2-m3-cE 6yur-a2-m3-cG_6yur-a2-m1-cF 6yur-a3-m1-cC_6yur-a3-m1-cD 6yur-a3-m1-cH_6yur-a3-m1-cB NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANMEDLRGRFSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLGGEFAVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLSAKGVGGFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK NLENKTYVIMGIANKRSIAFGVAKVLDQLGAKLVFTYRKERSRKELEKLLEQLNQPEAHLYQIDVQSDEEVINGFEQIGKDVGNIDGVYHSIAFANMEDLRGRFSETSREGFLLAQDISSYSLTIVAHEAKKLMPEGGSIVATTYLGGEFAVQNYNVMGVAKASLEANVKYLALDLGPDNIRVNAISAGPIRTLSAKGVGGFNTILKEIEERAPLKRNVDQVEVGKTAAYLLSDLSSGVTGENIHVDSGFHAIK 4d4o-a1-m1-cA_4d4o-a1-m2-cA Crystal Structure of the Kti11 Kti13 heterodimer Spacegroup P64 Q3E840 Q3E840 2.897 X-RAY DIFFRACTION 39 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 414 414 4d4p-a1-m1-cG_4d4p-a1-m1-cA AMSCVYAFGSNGQRQLGLGHDEDMDTPQRSVPGDDGAIVRKIACGGNHSVMLTNDGNLVGCGDNRRGELDSAQALRQVHDWRPVEVPAPVVDVACGWDTTVIVDADGRVWQRGGGCYEFTQQHVPLNSNDERIAVYGCFQNFVVVQGTRVYGWGSNTKCQLQEPKSRSLKEPVLVYDTGSVAVDYVAMGKDFMVIVDEGGRIVHASGRLPTGFELKQQQKRHNLVVLCMWTSIHLWNARLNTVESFGRGTHSQLFPQERLDFPIVGVATGSEHGILTTANCYNVYCWGWGEHGNCGPQKGSQPGLQLVGQYSGKPRVFGGCATTWIVLGSGSGSGSGSMSTYDEIEIEDMTFEPENQMFTYPCPCGDRFQIYLDDMFEGEKVAVCPSCSLMIDVVFDKEDLAEYYEEAGIHPPE AMSCVYAFGSNGQRQLGLGHDEDMDTPQRSVPGDDGAIVRKIACGGNHSVMLTNDGNLVGCGDNRRGELDSAQALRQVHDWRPVEVPAPVVDVACGWDTTVIVDADGRVWQRGGGCYEFTQQHVPLNSNDERIAVYGCFQNFVVVQGTRVYGWGSNTKCQLQEPKSRSLKEPVLVYDTGSVAVDYVAMGKDFMVIVDEGGRIVHASGRLPTGFELKQQQKRHNLVVLCMWTSIHLWNARLNTVESFGRGTHSQLFPQERLDFPIVGVATGSEHGILTTANCYNVYCWGWGEHGNCGPQKGSQPGLQLVGQYSGKPRVFGGCATTWIVLGSGSGSGSGSMSTYDEIEIEDMTFEPENQMFTYPCPCGDRFQIYLDDMFEGEKVAVCPSCSLMIDVVFDKEDLAEYYEEAGIHPPE 4d4o-a1-m2-cB_4d4o-a1-m1-cA Crystal Structure of the Kti11 Kti13 heterodimer Spacegroup P64 Q3E840 Q3E840 2.897 X-RAY DIFFRACTION 39 0.982 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 331 414 4d4o-a1-m1-cB_4d4o-a1-m2-cA 4d4o-a1-m1-cC_4d4o-a1-m1-cA 4d4o-a1-m2-cC_4d4o-a1-m2-cA 4d4p-a1-m1-cC_4d4p-a1-m1-cA 4d4p-a1-m1-cE_4d4p-a1-m1-cA 4d4p-a1-m1-cH_4d4p-a1-m1-cG AMSCVYAFGSNGQRQLGLGHDEDMDTPQRSVPGDDGAIVRKIACGGNHSVMLTNDGNLVGCGDNRRGELDSAQALRQVHDWRPVEVPAPVVDVACGWDTTVIVDADGRVWQRGGGCYEFTQQHVPERIAVYGCFQNFVVVQGTRVYGWGSNTKCQLQEPKSRSLKEPVLVYDTGSVAVDYVAMGKDFMVIVDEGGRIVHASGRLPTGFELKQQQKRHNLVVLCMWTSIHLWNARLNTVESFGRGTHSQLFPQERLDFPIVGVATGSEHGILTTANQEGKSHCYNVYCWGWGEHGNCGPQKGSQPGLQLVGQYSGKPRVFGGCATTWIVLGS AMSCVYAFGSNGQRQLGLGHDEDMDTPQRSVPGDDGAIVRKIACGGNHSVMLTNDGNLVGCGDNRRGELDSAQALRQVHDWRPVEVPAPVVDVACGWDTTVIVDADGRVWQRGGGCYEFTQQHVPLNSNDERIAVYGCFQNFVVVQGTRVYGWGSNTKCQLQEPKSRSLKEPVLVYDTGSVAVDYVAMGKDFMVIVDEGGRIVHASGRLPTGFELKQQQKRHNLVVLCMWTSIHLWNARLNTVESFGRGTHSQLFPQERLDFPIVGVATGSEHGILTTANCYNVYCWGWGEHGNCGPQKGSQPGLQLVGQYSGKPRVFGGCATTWIVLGSGSGSGSGSMSTYDEIEIEDMTFEPENQMFTYPCPCGDRFQIYLDDMFEGEKVAVCPSCSLMIDVVFDKEDLAEYYEEAGIHPPE 4d4o-a1-m2-cB_4d4o-a1-m2-cA Crystal Structure of the Kti11 Kti13 heterodimer Spacegroup P64 Q3E840 Q3E840 2.897 X-RAY DIFFRACTION 69 0.982 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 331 414 4d4o-a1-m1-cB_4d4o-a1-m1-cA 4d4p-a1-m1-cB_4d4p-a1-m1-cA AMSCVYAFGSNGQRQLGLGHDEDMDTPQRSVPGDDGAIVRKIACGGNHSVMLTNDGNLVGCGDNRRGELDSAQALRQVHDWRPVEVPAPVVDVACGWDTTVIVDADGRVWQRGGGCYEFTQQHVPERIAVYGCFQNFVVVQGTRVYGWGSNTKCQLQEPKSRSLKEPVLVYDTGSVAVDYVAMGKDFMVIVDEGGRIVHASGRLPTGFELKQQQKRHNLVVLCMWTSIHLWNARLNTVESFGRGTHSQLFPQERLDFPIVGVATGSEHGILTTANQEGKSHCYNVYCWGWGEHGNCGPQKGSQPGLQLVGQYSGKPRVFGGCATTWIVLGS AMSCVYAFGSNGQRQLGLGHDEDMDTPQRSVPGDDGAIVRKIACGGNHSVMLTNDGNLVGCGDNRRGELDSAQALRQVHDWRPVEVPAPVVDVACGWDTTVIVDADGRVWQRGGGCYEFTQQHVPLNSNDERIAVYGCFQNFVVVQGTRVYGWGSNTKCQLQEPKSRSLKEPVLVYDTGSVAVDYVAMGKDFMVIVDEGGRIVHASGRLPTGFELKQQQKRHNLVVLCMWTSIHLWNARLNTVESFGRGTHSQLFPQERLDFPIVGVATGSEHGILTTANCYNVYCWGWGEHGNCGPQKGSQPGLQLVGQYSGKPRVFGGCATTWIVLGSGSGSGSGSMSTYDEIEIEDMTFEPENQMFTYPCPCGDRFQIYLDDMFEGEKVAVCPSCSLMIDVVFDKEDLAEYYEEAGIHPPE 4d5f-a1-m1-cA_4d5f-a1-m2-cA tetracycline repressor class H, apo form Q9Z358 Q9Z358 2.2 X-RAY DIFFRACTION 190 1.0 75985 (Mannheimia haemolytica) 75985 (Mannheimia haemolytica) 194 194 2vpr-a1-m1-cA_2vpr-a1-m2-cA 4d5c-a1-m1-cA_4d5c-a1-m2-cA LDKEQVIDNALILLNEVGIEGLTTRKLAQKIGVEQPTLYWHVKNKRALLDALAETILQKHHHHVLPLPNETWQDFLRNNAKSFRQALLMYRDGGKIHAGTRPSESQFETSEQQLQFLCDAGFSLSQAVYALSSIAHFTLGSVLETQEHQESQKEAYPPLLTQAVAIMDSDNGDAAFLFVLDVMISGLETVLKSA LDKEQVIDNALILLNEVGIEGLTTRKLAQKIGVEQPTLYWHVKNKRALLDALAETILQKHHHHVLPLPNETWQDFLRNNAKSFRQALLMYRDGGKIHAGTRPSESQFETSEQQLQFLCDAGFSLSQAVYALSSIAHFTLGSVLETQEHQESQKEAYPPLLTQAVAIMDSDNGDAAFLFVLDVMISGLETVLKSA 4d5i-a1-m1-cA_4d5i-a1-m2-cA Hypocrea jecorina cellobiohydrolase Cel7A E212Q soaked with xylotriose. P62694 P62694 1.42 X-RAY DIFFRACTION 74 1.0 334564 (Trichoderma reesei QM9414) 334564 (Trichoderma reesei QM9414) 433 433 4d5j-a1-m1-cA_4d5j-a1-m2-cA 4d5o-a1-m1-cA_4d5o-a1-m2-cA 4d5q-a1-m1-cA_4d5q-a1-m2-cA 4d5v-a1-m1-cA_4d5v-a1-m2-cA SACTLQSETHPPLTWQKCSSGGTCTQQTGSVVIDANWRWTHATNSSTNCYDGNTWSSTLCPDNETCAKNCCLDGAAYASTYGVTTSGNSLSIDFVTQSAQKNVGARLYLMASDTTYQEFTLLGNEFSFDVDVSQLPCGLNGALYFVSMDADGGVSKYPTNTAGAKYGTGYCDSQCPRDLKFINGQANVEGWEPSSNNANTGIGGHGSCCSQMDIWEANSISEALTPHPCTTVGQEICEGDGCGGTYSDNRYGGTCDPDGCDWNPYRLGNTSFYGPGSSFTLDTTKKLTVVTQFETSGAINRYYVQNGVTFQQPNAELGSYSGNELNDDYCTAEEAEFGGSSFSDKGGLTQFKKATSGGMVLVMSLWDDYYANMLWLDSTYPTNETSSTPGAVRGSCSTSSGVPAQVESQSPNAKVTFSNIKFGPIGSTGNPSG SACTLQSETHPPLTWQKCSSGGTCTQQTGSVVIDANWRWTHATNSSTNCYDGNTWSSTLCPDNETCAKNCCLDGAAYASTYGVTTSGNSLSIDFVTQSAQKNVGARLYLMASDTTYQEFTLLGNEFSFDVDVSQLPCGLNGALYFVSMDADGGVSKYPTNTAGAKYGTGYCDSQCPRDLKFINGQANVEGWEPSSNNANTGIGGHGSCCSQMDIWEANSISEALTPHPCTTVGQEICEGDGCGGTYSDNRYGGTCDPDGCDWNPYRLGNTSFYGPGSSFTLDTTKKLTVVTQFETSGAINRYYVQNGVTFQQPNAELGSYSGNELNDDYCTAEEAEFGGSSFSDKGGLTQFKKATSGGMVLVMSLWDDYYANMLWLDSTYPTNETSSTPGAVRGSCSTSSGVPAQVESQSPNAKVTFSNIKFGPIGSTGNPSG 4d5k-a1-m1-cA_4d5k-a1-m1-cB Focal Adhesion Kinase catalytic domain Q00944 Q00944 1.75 X-RAY DIFFRACTION 30 0.996 9031 (Gallus gallus) 9031 (Gallus gallus) 255 256 6gcw-a1-m1-cA_6gcw-a1-m1-cB YEIQRERIELGRCIGEGQFGDVHQGIYMSPENPAMAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKFSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSATDCVKLGDFKLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKLQ DYEIQRERIELGRCIGEGQFGDVHQGIYMSPENPAMAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKFSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSATDCVKLGDFGLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKLQ 4d5s-a2-m1-cA_4d5s-a2-m2-cA Structure of A49 from Vaccinia Virus Western Reserve P31037 P31037 3 X-RAY DIFFRACTION 46 1.0 696871 (Vaccinia virus Western Reserve) 696871 (Vaccinia virus Western Reserve) 142 142 4d5s-a1-m1-cB_4d5s-a1-m2-cB SDMHTELASISQLVIAKIETIDNDILNKDIVNFIMCRSNLDNPFISFLDTVYTIIDQENYQTELINSLDDNEIIDIVNKFMSFYKDNLENIVDAIITLKYIMNNPDFKTTYAEVLGSRIADIDIKQVIRENILQLSNDIRER SDMHTELASISQLVIAKIETIDNDILNKDIVNFIMCRSNLDNPFISFLDTVYTIIDQENYQTELINSLDDNEIIDIVNKFMSFYKDNLENIVDAIITLKYIMNNPDFKTTYAEVLGSRIADIDIKQVIRENILQLSNDIRER 4d60-a6-m1-cF_4d60-a6-m1-cH Structure of a dimeric Plasmodium falciparum profilin mutant Q8I2J4 Q8I2J4 3.3 X-RAY DIFFRACTION 216 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 161 161 4d60-a1-m1-cK_4d60-a1-m1-cE 4d60-a2-m1-cC_4d60-a2-m1-cD 4d60-a3-m1-cJ_4d60-a3-m1-cL 4d60-a4-m1-cO_4d60-a4-m1-cP 4d60-a5-m1-cB_4d60-a5-m1-cN 4d60-a7-m1-cG_4d60-a7-m1-cM 4d60-a8-m1-cA_4d60-a8-m1-cI EYSWDSYLNDRLLATNQVSGAGLASEEDGVVYACVAQGEESDPNFDKWSLFYKEDYDIEVKTTKTINEGQTILVVFNEGYAPDGVWLGGTKYQFINIERDLEFEGYNFDVATCAKLKGGLHLVKVPGGNILVVLYDEEKEQDRGNSKIAALTFAKELAESS EYSWDSYLNDRLLATNQVSGAGLASEEDGVVYACVAQGEESDPNFDKWSLFYKEDYDIEVKTTKTINEGQTILVVFNEGYAPDGVWLGGTKYQFINIERDLEFEGYNFDVATCAKLKGGLHLVKVPGGNILVVLYDEEKEQDRGNSKIAALTFAKELAESS 4d63-a1-m2-cA_4d63-a1-m3-cA Structure of the carboxy-terminal domain of the turkey type 3 siadenovirus fibre, avirulent form complexed with 6-sialyllactose. Q2TLC1 Q2TLC1 2.2 X-RAY DIFFRACTION 69 1.0 318490 (Avirulent turkey hemorrhagic enteritis virus) 318490 (Avirulent turkey hemorrhagic enteritis virus) 138 138 3zpe-a1-m1-cA_3zpe-a1-m2-cA 3zpe-a1-m1-cA_3zpe-a1-m3-cA 3zpe-a1-m2-cA_3zpe-a1-m3-cA 3zpf-a1-m1-cA_3zpf-a1-m2-cA 3zpf-a1-m1-cA_3zpf-a1-m3-cA 3zpf-a1-m2-cA_3zpf-a1-m3-cA 4cw8-a1-m1-cA_4cw8-a1-m2-cA 4cw8-a1-m1-cA_4cw8-a1-m3-cA 4cw8-a1-m2-cA_4cw8-a1-m3-cA 4d62-a1-m1-cA_4d62-a1-m2-cA 4d62-a1-m1-cA_4d62-a1-m3-cA 4d62-a1-m2-cA_4d62-a1-m3-cA 4d63-a1-m1-cA_4d63-a1-m2-cA 4d63-a1-m1-cA_4d63-a1-m3-cA GRATNGQFVTKTAKVLRYKFVRWDALLIIQFIDNIGVMENPTFYRNKSIELRSADFLSPMLNNTYIVPLNGGVRVESPTIPVQLEVILENNSSFIQVGFVRLTVKNGNPHMIIQCNPVPGNIKMIKIKSVMLFTCLIG GRATNGQFVTKTAKVLRYKFVRWDALLIIQFIDNIGVMENPTFYRNKSIELRSADFLSPMLNNTYIVPLNGGVRVESPTIPVQLEVILENNSSFIQVGFVRLTVKNGNPHMIIQCNPVPGNIKMIKIKSVMLFTCLIG 4d65-a2-m1-cE_4d65-a2-m1-cF Structure of porin Omp-Pst2 from P. stuartii; the asymmetric unit contains a dimer of trimers. E3U905 E3U905 2.2 X-RAY DIFFRACTION 115 1.0 588 (Providencia stuartii) 588 (Providencia stuartii) 343 343 4d65-a1-m1-cA_4d65-a1-m1-cB 4d65-a1-m1-cA_4d65-a1-m1-cC 4d65-a1-m1-cB_4d65-a1-m1-cC 4d65-a2-m1-cD_4d65-a2-m1-cE 4d65-a2-m1-cD_4d65-a2-m1-cF AEVYNKDGNKLDVYGQIDVRHYFADAKSGEDGDDSRVRLGFKGDTQITDQLIGFGRFEWETSTNKAETSNDNQNRLAYAGLKFADYGSLDYGRNYGVIYDTNAWTDVLPLWGADTMDQEDTFMMGRNRNLLTYRNNNGFGYIDGLSFALQYQGKNGDQNKSTGSSALDNNGDGYGFSTAYELGWGLSIGGGYSNSSRTPSQNNIKTGATGKRAEAWNVGSKLELDELYLAAMYGQTLNTTRFGDDDAEAIANKTENLELVALYSFDFGLTPSIGYNQSKGKNLGNYGNKDLVKYIAVGASYDFNKNMAAVIDYKINLLKDNQFTDDYGINTDNVLGLGLIYQF AEVYNKDGNKLDVYGQIDVRHYFADAKSGEDGDDSRVRLGFKGDTQITDQLIGFGRFEWETSTNKAETSNDNQNRLAYAGLKFADYGSLDYGRNYGVIYDTNAWTDVLPLWGADTMDQEDTFMMGRNRNLLTYRNNNGFGYIDGLSFALQYQGKNGDQNKSTGSSALDNNGDGYGFSTAYELGWGLSIGGGYSNSSRTPSQNNIKTGATGKRAEAWNVGSKLELDELYLAAMYGQTLNTTRFGDDDAEAIANKTENLELVALYSFDFGLTPSIGYNQSKGKNLGNYGNKDLVKYIAVGASYDFNKNMAAVIDYKINLLKDNQFTDDYGINTDNVLGLGLIYQF 4d6k-a3-m1-cC_4d6k-a3-m1-cD Structure of DNTTIP1 dimerisation domain. Q9H147 Q9H147 2.1 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 72 4d6k-a1-m1-cB_4d6k-a1-m1-cA 6z2j-a1-m1-cA_6z2j-a1-m1-cB 6z2k-a1-m1-cA_6z2k-a1-m1-cB 6z2k-a1-m1-cG_6z2k-a1-m1-cH AISMDLLRAVLQPSINEEIQTVFNKYMKFFQKAALNVRDNVGEEVDAEQLIQEACRSCLEQAKLLFS SFTDPAISMDLLRAVLQPSINEEIQTVFNKYMKFFQKAALNVRDNVGEEVDAEQLIQEACRSCLEQAKLLFS 4d6q-a1-m1-cA_4d6q-a1-m2-cA crystal structure of human JMJD2D in complex with 2,4-PDCA Q6B0I6 Q6B0I6 1.292 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 3dxt-a2-m1-cA_3dxt-a2-m2-cA 3dxu-a2-m1-cA_3dxu-a2-m2-cA 4d6r-a1-m1-cA_4d6r-a1-m2-cA 5fp9-a1-m1-cA_5fp9-a1-m2-cA AQNPNCNIMIFHPTKEEFNDFDKYIAYMESQGAHRAGLAKIIPPKEWKARETYDNISEILIATPLQQVASGRAGVFTQYHKKKKAMTVGEYRHLANSKKYQTPPHQNFEDLERKYWKNRIYNSPIYGADISGSLFDENTKQWNLGHLGTIQDLLEKECGVVIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHLGEPKTWYVVPPEHGQRLERLARELFPGSSRGCGAFLRHKVALISPTVLKENGIPFNRITQEAGEFMVTFPYGYHAGFNHGFNCAEAINFATPRWIDYGKMASQCSCGEARVTFSMDAFVRILQPERYDLWKRGQ AQNPNCNIMIFHPTKEEFNDFDKYIAYMESQGAHRAGLAKIIPPKEWKARETYDNISEILIATPLQQVASGRAGVFTQYHKKKKAMTVGEYRHLANSKKYQTPPHQNFEDLERKYWKNRIYNSPIYGADISGSLFDENTKQWNLGHLGTIQDLLEKECGVVIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHLGEPKTWYVVPPEHGQRLERLARELFPGSSRGCGAFLRHKVALISPTVLKENGIPFNRITQEAGEFMVTFPYGYHAGFNHGFNCAEAINFATPRWIDYGKMASQCSCGEARVTFSMDAFVRILQPERYDLWKRGQ 4d6w-a1-m1-cC_4d6w-a1-m1-cA Crystal Structure of the low pH conformation of Chandipura Virus glycoprotein G ectodomain P13180 P13180 3.6 X-RAY DIFFRACTION 91 0.998 11272 (Chandipura virus) 11272 (Chandipura virus) 406 407 4d6w-a1-m1-cA_4d6w-a1-m1-cB 4d6w-a1-m1-cC_4d6w-a1-m1-cB YLSIAFPENTKLDWKPVTKNTRYCPMPGLQEESFLSSTPIGATPSKSDGFLCHAAKWVTTCDFRWYGPKYITHSIHNIKPTRSDCDTALASYKSGTLVSLGFPPESCGYASVTDSEFLVIMITPHHVGVDDYRGHWVDPLFVGGECDQSYCDTIHNSSVWIPADQTKKNICGQSFTPLTVTVAYDKTKEIAAGGIVFKSKYHSHMEGARTCRLSYCGRNGIKFPNGEWVSLDVKTRIQEKHLLPLFKECPAGTEVRSTLQSDGAQVLTSEIQRILDYSLCQNTWDKVERKEPLSPLDLSYLASKSPGKGLAYTVINGTLSFAHTRYVRMWIDGPVLKEPKGKRESPSGISSDIWTQWFKYGDMEIGPNGLLKTAGGYKFPWHLIGMGIVDNELHELSEANPLDHPQ YLSIAFPENTKLDWKPVTKNTRYCPPGLQEESFLSSTPIGATPSKSDGFLCHAAKWVTTCDFRWYGPKYITHSIHNIKPTRSDCDTALASYKSGTLVSLGFPPESCGYASVTDSEFLVIMITPHHVGVDDYRGHWVDPLFVGGECDQSYCDTIHNSSVWIPADQTKKNICGQSFTPLTVTVAYDKTKEIAAGGIVFKSKYHSHMEGARTCRLSYCGRNGIKFPNGEWVSLDVKTRIQEKHLLPLFKECPAGTEVRSTLQSDGAQVLTSEIQRILDYSLCQNTWDKVERKEPLSPLDLSYLASKSPGKGLAYTVINGTLSFAHTRYVRMWIDGPVLKEPKGKRESPSGISSDIWTQWFKYGDMEIGPNGLLKTAGGYKFPWHLIGMGIVDNELHELSEANPLDHPQLP 4d6y-a1-m1-cA_4d6y-a1-m1-cB Crystal structure of the receiver domain of NtrX from Brucella abortus in complex with beryllofluoride and magnesium Q2YPW6 Q2YPW6 1.7 X-RAY DIFFRACTION 28 1.0 235 (Brucella abortus) 235 (Brucella abortus) 121 121 DILVVDDEVDIRDLVAGILSDEGHETRTAFDADSALAAINDRAPRLVFLDIWLQGSRLDGLALLDEIKKQHPELPVVMISGHGNIETAVSAIRRGAYDFIEKPFKADRLILVAERALETSK DILVVDDEVDIRDLVAGILSDEGHETRTAFDADSALAAINDRAPRLVFLDIWLQGSRLDGLALLDEIKKQHPELPVVMISGHGNIETAVSAIRRGAYDFIEKPFKADRLILVAERALETSK 4d74-a1-m1-cA_4d74-a1-m2-cA 1.57 A crystal structure of erwinia amylovora tyrosine phosphatase amsI Q46630 Q46630 1.57 X-RAY DIFFRACTION 28 1.0 716540 (Erwinia amylovora ATCC 49946) 716540 (Erwinia amylovora ATCC 49946) 151 151 NLYFQGAMVNSILVVCIGNICRSPTGERLLKAALPERKIASAGLKAMVGGSADETASIVANEHGVSLQDHVAQQLTADMCRDSDLILVMEKKHIDLVCRINPSVRGKTMLFGHWINQQEIADPYKKSRDAFEAVYGVLENAAQKWVNALSR NLYFQGAMVNSILVVCIGNICRSPTGERLLKAALPERKIASAGLKAMVGGSADETASIVANEHGVSLQDHVAQQLTADMCRDSDLILVMEKKHIDLVCRINPSVRGKTMLFGHWINQQEIADPYKKSRDAFEAVYGVLENAAQKWVNALSR 4d7e-a2-m1-cC_4d7e-a2-m1-cA An unprecedented NADPH domain conformation in Lysine Monooxygenase NbtG from Nocardia farcinica Q5Z1T5 Q5Z1T5 2.4 X-RAY DIFFRACTION 88 0.995 247156 (Nocardia farcinica IFM 10152) 247156 (Nocardia farcinica IFM 10152) 377 396 4d7e-a1-m1-cD_4d7e-a1-m1-cB ETLLVVGAGPKALAVAAKSHVLRQLGLSAPRVIAVEAHAVGGNWLASGGWTDGRHRLGTSPEKDIGFPYHSTWARGHNREINEAMMAFSWTSFLVEHGTYAEWIDRGRPSPQHHVWAKYLQWVARKIDLELVLGKVRTIRQGWSVEVAGAGATTELEADGLMITGPGQSTKALAAHPRVLSIAEFWDLAGKRKLPISSRAAVIGGGETAGSALDELVRHEMLTISVISPYFENSLFSDPTKWNALSIQERRDVQESLLGDNRVHHLQGRVTRIVGQGDGVAVTLRNDQVHNFDLVVDATGGQPLWFLDLFDSESADLLELAVGGPLTQQRIESSIGYDLAVTGLGAKLYLPNMAALAQGPGFPNLSCLGELSDRVLR METLLVVGAGPKALAVAAKSHVLRQLGLSAPRVIAVEAHAVGGNWLASGGWTDGRHRLGTSPEKDIGFPYHSTWARGHNREINEAMMAFSWTSFLVEHGTYAEWIDRGRPSPQHHVWAKYLQWVARKIDLELVLGKVRTIRQGWSVEVAGATTELEADGLMITGPGQSTKALAAHPRVLSIAEFWDLAGKRKLPISSRAAVIGGGETAGSALDELVRHEMLTISVISPMASYFENSLFSDPTKWNALSIQERRDVIRRTDRGVFSVRVQESLLGDNRVHHLQGRVTRIVGQGDGVAVTLRNEMRADQVHNFDLVVDATGGQPLWFLDLFDSESADLLELAVGGPLTQQRIESSIGYDLAVTGLGAKLYLPNMAALAQGPGFPNLSCLGELSDRVLR 4d7k-a2-m1-cC_4d7k-a2-m1-cD Crystal structure of N,N-8-amino-8-demethyl-D-riboflavin dimethyltransferase (RosA) from Streptomyces davawensis K4RFM2 K4RFM2 2.22 X-RAY DIFFRACTION 210 1.0 1214101 (Streptomyces davaonensis JCM 4913) 1214101 (Streptomyces davaonensis JCM 4913) 335 336 4d7k-a1-m1-cA_4d7k-a1-m1-cB 4d7k-a3-m1-cE_4d7k-a3-m1-cF RTAAQRLYQYNVDLKVAFVLYAVAKLHLPDLLADGPRTTADLAAATGSDPSRLRRLLRAAAGADALREVPEDSFELAPMGDLLRSGHPRSMRGMTTFFAEPDVLAAYGDLVESVRTGVPAFQLRHREPLYDFLARPQHKEVRDEFDAAMVEFGQYFADDFLTSFDFGRFTRFADIGGGRGQFLAGVLTAVPSSTGVLVDGPAVAASAHKFLASQNLTERVEVRIGDFFDVLPTGCDAYVLRGVLEDWADADAVRLLVRIRQAMGDAPEARLLILDSVIGETGELGKVLDLDMLVLVEGEHRTRAQWDDLLARAGFDIVGIHPAGDVWAVIECRGT ERTAAQRLYQYNVDLKVAFVLYAVAKLHLPDLLADGPRTTADLAAATGSDPSRLRRLLRAAAGADALREVPEDSFELAPMGDLLRSGHPRSMRGMTTFFAEPDVLAAYGDLVESVRTGVPAFQLRHREPLYDFLARPQHKEVRDEFDAAMVEFGQYFADDFLTSFDFGRFTRFADIGGGRGQFLAGVLTAVPSSTGVLVDGPAVAASAHKFLASQNLTERVEVRIGDFFDVLPTGCDAYVLRGVLEDWADADAVRLLVRIRQAMGDAPEARLLILDSVIGETGELGKVLDLDMLVLVEGEHRTRAQWDDLLARAGFDIVGIHPAGDVWAVIECRGT 4d7p-a1-m1-cA_4d7p-a1-m4-cA Superoxide reductase (1Fe-SOR) from Giardia intestinalis V6TJK7 V6TJK7 2.001 X-RAY DIFFRACTION 22 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 96 96 4d7p-a1-m2-cA_4d7p-a1-m3-cA KEKHVPEMKLSGNHVDIRCGATVMHPATEKHYIGTIRLFGITKEGNVTLELGCQQIWPGLGEPVASFRVCDLEKYKGLLAVAYCNLHGCWENYMEL KEKHVPEMKLSGNHVDIRCGATVMHPATEKHYIGTIRLFGITKEGNVTLELGCQQIWPGLGEPVASFRVCDLEKYKGLLAVAYCNLHGCWENYMEL 4d7p-a1-m2-cA_4d7p-a1-m4-cA Superoxide reductase (1Fe-SOR) from Giardia intestinalis V6TJK7 V6TJK7 2.001 X-RAY DIFFRACTION 78 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 96 96 4d7p-a1-m1-cA_4d7p-a1-m3-cA KEKHVPEMKLSGNHVDIRCGATVMHPATEKHYIGTIRLFGITKEGNVTLELGCQQIWPGLGEPVASFRVCDLEKYKGLLAVAYCNLHGCWENYMEL KEKHVPEMKLSGNHVDIRCGATVMHPATEKHYIGTIRLFGITKEGNVTLELGCQQIWPGLGEPVASFRVCDLEKYKGLLAVAYCNLHGCWENYMEL 4d7p-a1-m3-cA_4d7p-a1-m4-cA Superoxide reductase (1Fe-SOR) from Giardia intestinalis V6TJK7 V6TJK7 2.001 X-RAY DIFFRACTION 13 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 96 96 4d7p-a1-m1-cA_4d7p-a1-m2-cA KEKHVPEMKLSGNHVDIRCGATVMHPATEKHYIGTIRLFGITKEGNVTLELGCQQIWPGLGEPVASFRVCDLEKYKGLLAVAYCNLHGCWENYMEL KEKHVPEMKLSGNHVDIRCGATVMHPATEKHYIGTIRLFGITKEGNVTLELGCQQIWPGLGEPVASFRVCDLEKYKGLLAVAYCNLHGCWENYMEL 4d7t-a2-m6-cB_4d7t-a2-m7-cB Structure of the SthK Carboxy-Terminal Region in complex with cAMP E0RR11 E0RR11 2.582 X-RAY DIFFRACTION 29 1.0 665571 (Spirochaeta thermophila DSM 6192) 665571 (Spirochaeta thermophila DSM 6192) 173 173 4d7t-a2-m1-cB_4d7t-a2-m5-cB 4d7t-a2-m1-cB_4d7t-a2-m7-cB 4d7t-a2-m5-cB_4d7t-a2-m6-cB AAKLLHRERMERVTAFLSYKKISPELQRRILEYFDYLWETRYREVLPPLRLAVAMEDVIEKLFFIDIILHLEPVIYGPGEYIIRAGELGSDVYFINRGSVEVLSADEKTRYAILSEGQFFGEMALILRAPRTATVRARTFCDLYRLKETFDRLSYEIAAQIQELAVRRKEELE AAKLLHRERMERVTAFLSYKKISPELQRRILEYFDYLWETRYREVLPPLRLAVAMEDVIEKLFFIDIILHLEPVIYGPGEYIIRAGELGSDVYFINRGSVEVLSADEKTRYAILSEGQFFGEMALILRAPRTATVRARTFCDLYRLKETFDRLSYEIAAQIQELAVRRKEELE 4d7y-a1-m2-cA_4d7y-a1-m3-cA Crystal structure of mouse C1QL1 globular domain O88992 O88992 1.44 X-RAY DIFFRACTION 79 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 4d7y-a1-m1-cA_4d7y-a1-m2-cA 4d7y-a1-m1-cA_4d7y-a1-m3-cA 4qq2-a1-m1-cA_4qq2-a1-m1-cB 4qq2-a1-m1-cC_4qq2-a1-m1-cA 4qq2-a1-m1-cC_4qq2-a1-m1-cB PRVAFYAGLKNPHEGYEVLKFDDVVTNLGNNYDAASGKFTCNIPGTYFFTYHVLMRGGDGTSMWADLCKNGQVRASAIAQDADQNYDYASNSVILHLDAGDEVFIKLDGGKAHGGNSNKYSTFSGFIIYSD PRVAFYAGLKNPHEGYEVLKFDDVVTNLGNNYDAASGKFTCNIPGTYFFTYHVLMRGGDGTSMWADLCKNGQVRASAIAQDADQNYDYASNSVILHLDAGDEVFIKLDGGKAHGGNSNKYSTFSGFIIYSD 4d80-a1-m1-cC_4d80-a1-m1-cD Metallosphera sedula Vps4 crystal structure A4YHC5 A4YHC5 3.6 X-RAY DIFFRACTION 70 0.996 43687 (Metallosphaera sedula) 43687 (Metallosphaera sedula) 272 273 4d80-a1-m1-cA_4d80-a1-m1-cF 4d80-a1-m1-cB_4d80-a1-m1-cA 4d80-a1-m1-cB_4d80-a1-m1-cC 4d80-a1-m1-cE_4d80-a1-m1-cD 4d80-a1-m1-cE_4d80-a1-m1-cF KVTLNEIVGLEDVKEALKEAVVYPSKRPDLFPLGWPRGILLYGPPGCGKTMIAAAVANELDSEFIHVDAASIMSKWLGEAEKNVAKIFKTARELSKKENKPAIIFIDELDALLASYTSEVGGEARVRNQFLKEMDGLADKNEISKVYVIGATNKPWRLDEPFLRRFQKRIYITLPDKAHRLELLKHYSSKVKLDPNVNLEELAELTDGYTASDIRDIVQSAHMRVVKEMFEKNLQEPRAINMDDFREVLKVRKPSVNQDMLKAYAAWHEKFK VTLNEIVGLEDVKEALKEAVVYPSKRPDLFPLGWPRGILLYGPPGCGKTMIAAAVANELDSEFIHVDAASIMSKWLGEAEKNVAKIFKTARELSKKENKPAIIFIDELDALLASYTSEVGGEARVRNQFLKEMDGLADKNEISKVYVIGATNKPWRLDEPFLRRFQKRIYITLPDKAHRLELLKHYSSKVKLDPNVNLEELAELTDGYTASDIRDIVQSAHMRVVKEMFEKNLQEPRAINMDDFREVLKVRKPSVNQDMLKAYAAWHEKFKAL 4d8a-a3-m1-cB_4d8a-a3-m3-cB Crystal structure of B. anthracis DHPS with compound 21 Q81VW8 Q81VW8 2.183 X-RAY DIFFRACTION 89 1.0 191218 (Bacillus anthracis str. A2012) 191218 (Bacillus anthracis str. A2012) 252 252 1tws-a1-m1-cA_1tws-a1-m2-cA 1tws-a3-m1-cB_1tws-a3-m3-cB 1tww-a1-m1-cA_1tww-a1-m2-cA 1tww-a3-m1-cB_1tww-a3-m3-cB 1twz-a1-m1-cA_1twz-a1-m2-cA 1twz-a3-m1-cB_1twz-a3-m3-cB 1tx0-a1-m1-cA_1tx0-a1-m2-cA 1tx0-a2-m1-cB_1tx0-a2-m3-cB 1tx2-a1-m1-cA_1tx2-a1-m2-cA 1tx2-a3-m1-cA_1tx2-a3-m2-cA 1tx2-a3-m3-cB_1tx2-a3-m4-cB 1tx2-a4-m1-cB_1tx2-a4-m5-cB 3h21-a1-m1-cA_3h21-a1-m2-cA 3h21-a2-m1-cB_3h21-a2-m3-cB 3h22-a1-m1-cA_3h22-a1-m2-cA 3h22-a2-m1-cB_3h22-a2-m3-cB 3h23-a1-m1-cA_3h23-a1-m2-cA 3h23-a2-m1-cB_3h23-a2-m3-cB 3h24-a1-m1-cA_3h24-a1-m2-cA 3h24-a2-m1-cB_3h24-a2-m3-cB 3h26-a1-m1-cA_3h26-a1-m2-cA 3h26-a2-m1-cB_3h26-a2-m3-cB 3h2a-a1-m1-cA_3h2a-a1-m2-cA 3h2a-a2-m1-cB_3h2a-a2-m3-cB 3h2c-a1-m1-cA_3h2c-a1-m2-cA 3h2c-a2-m1-cB_3h2c-a2-m3-cB 3h2e-a1-m1-cA_3h2e-a1-m2-cA 3h2e-a2-m1-cB_3h2e-a2-m3-cB 3h2f-a1-m1-cA_3h2f-a1-m2-cA 3h2f-a2-m1-cB_3h2f-a2-m3-cB 3h2m-a1-m1-cA_3h2m-a1-m2-cA 3h2m-a2-m1-cB_3h2m-a2-m3-cB 3h2n-a1-m1-cA_3h2n-a1-m2-cA 3h2n-a2-m1-cB_3h2n-a2-m3-cB 3h2o-a1-m1-cA_3h2o-a1-m2-cA 3h2o-a2-m1-cB_3h2o-a2-m3-cB 3tya-a1-m1-cA_3tya-a1-m2-cA 3tya-a2-m1-cB_3tya-a2-m3-cB 3tyb-a1-m1-cA_3tyb-a1-m2-cA 3tyb-a2-m1-cB_3tyb-a2-m3-cB 3tyc-a1-m1-cA_3tyc-a1-m2-cA 3tyc-a2-m1-cB_3tyc-a2-m3-cB 3tyd-a1-m1-cA_3tyd-a1-m2-cA 3tyd-a2-m1-cB_3tyd-a2-m3-cB 3tye-a1-m1-cA_3tye-a1-m2-cA 3tye-a2-m1-cB_3tye-a2-m3-cB 3v5o-a1-m1-cA_3v5o-a1-m2-cA 3v5o-a2-m1-cB_3v5o-a2-m3-cB 3v5o-a3-m1-cB_3v5o-a3-m3-cB 3v5o-a3-m4-cA_3v5o-a3-m5-cA 4d8a-a1-m1-cA_4d8a-a1-m2-cA 4d8a-a2-m1-cB_4d8a-a2-m3-cB 4d8a-a3-m4-cA_4d8a-a3-m5-cA 4d8z-a1-m1-cA_4d8z-a1-m2-cA 4d8z-a2-m1-cB_4d8z-a2-m3-cB 4d8z-a3-m1-cB_4d8z-a3-m3-cB 4d8z-a3-m4-cA_4d8z-a3-m5-cA 4d9p-a1-m1-cA_4d9p-a1-m2-cA 4d9p-a2-m1-cB_4d9p-a2-m3-cB 4d9p-a3-m1-cA_4d9p-a3-m2-cA 4d9p-a3-m4-cB_4d9p-a3-m5-cB 4daf-a1-m1-cA_4daf-a1-m2-cA 4daf-a2-m1-cB_4daf-a2-m3-cB 4dai-a1-m1-cA_4dai-a1-m2-cA 4dai-a2-m1-cB_4dai-a2-m3-cB 4db7-a1-m1-cA_4db7-a1-m2-cA 4db7-a2-m1-cB_4db7-a2-m3-cB 4nhv-a1-m1-cA_4nhv-a1-m2-cA 4nhv-a2-m1-cB_4nhv-a2-m3-cB 4nhv-a3-m1-cA_4nhv-a3-m2-cA 4nhv-a3-m4-cB_4nhv-a3-m5-cB 4nil-a1-m1-cA_4nil-a1-m2-cA 4nil-a2-m1-cB_4nil-a2-m3-cB 4nil-a3-m1-cA_4nil-a3-m2-cA 4nil-a3-m4-cB_4nil-a3-m5-cB 4nir-a1-m1-cA_4nir-a1-m2-cA 4nir-a2-m1-cB_4nir-a2-m3-cB 4nir-a3-m1-cA_4nir-a3-m2-cA 4nir-a3-m4-cB_4nir-a3-m5-cB 4nl1-a1-m1-cA_4nl1-a1-m2-cA 4nl1-a2-m1-cB_4nl1-a2-m3-cB KWDYDLRCGEYTLNLNEKTLIMGILNSYNEVDAAVRHAKEMRDEGAHIIDIGSVEEEIKRVVPMIQAVSKEVKLPISIDTYKAEVAKQAIEAGAHIINDIWGAKAEPKIAEVAAHYDVPIILMHNRDNMNYRNLMADMIADLYDSIKIAKDAGVRDENIILDPGIGFAKTPEQNLEAMRNLEQLNVLGYPVLLGTSRKSFIGHVLDLPVEERLEGTGATVCLGIEKGCEFVRVHDVKEMSRMAKMMDAMIGK KWDYDLRCGEYTLNLNEKTLIMGILNSYNEVDAAVRHAKEMRDEGAHIIDIGSVEEEIKRVVPMIQAVSKEVKLPISIDTYKAEVAKQAIEAGAHIINDIWGAKAEPKIAEVAAHYDVPIILMHNRDNMNYRNLMADMIADLYDSIKIAKDAGVRDENIILDPGIGFAKTPEQNLEAMRNLEQLNVLGYPVLLGTSRKSFIGHVLDLPVEERLEGTGATVCLGIEKGCEFVRVHDVKEMSRMAKMMDAMIGK 4d8j-a3-m1-cH_4d8j-a3-m4-cD Structure of E. coli MatP-mats complex P0A8N0 P0A8N0 3.55 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 148 149 4d8j-a2-m3-cH_4d8j-a2-m1-cD MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLG MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLGK 4d8j-a3-m4-cC_4d8j-a3-m4-cD Structure of E. coli MatP-mats complex P0A8N0 P0A8N0 3.55 X-RAY DIFFRACTION 109 1.0 562 (Escherichia coli) 562 (Escherichia coli) 148 149 4d8j-a1-m1-cB_4d8j-a1-m1-cA 4d8j-a1-m2-cK_4d8j-a1-m2-cL 4d8j-a2-m1-cC_4d8j-a2-m1-cD 4d8j-a2-m3-cG_4d8j-a2-m3-cH 4d8j-a3-m1-cG_4d8j-a3-m1-cH 4d8j-a4-m1-cK_4d8j-a4-m1-cL 4d8j-a4-m5-cB_4d8j-a4-m5-cA MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLG MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLGK 4d8j-a4-m5-cB_4d8j-a4-m1-cL Structure of E. coli MatP-mats complex P0A8N0 P0A8N0 3.55 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 148 149 4d8j-a1-m1-cB_4d8j-a1-m2-cL 4d8j-a1-m2-cK_4d8j-a1-m1-cA 4d8j-a4-m1-cK_4d8j-a4-m5-cA MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLG MKYQQLENLESGWKWKYLVKKHREGELITRYIEASAAQEAVDVLLSLENEPVLVNGWIDKHMNPELVNRMKQTIRARRKRHFNAEHQHTRKKSIDLEFIVWQRLAGLAQRRGKTLSETIVQLIEDAENKEKYANKMSSLKQDLQALLGK 4d8t-a1-m1-cB_4d8t-a1-m1-cA Crystal structure of D-Cysteine desulfhydrase from Salmonella typhimurium at 2.2 A resolution Q8ZNT7 Q8ZNT7 2.28 X-RAY DIFFRACTION 101 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 317 327 4d8t-a2-m1-cC_4d8t-a2-m1-cD 4d8u-a1-m1-cB_4d8u-a1-m1-cA 4d8u-a2-m1-cC_4d8u-a2-m1-cD 4d8u-a3-m1-cF_4d8u-a3-m1-cE 4d8u-a4-m1-cG_4d8u-a4-m1-cH 4d8w-a1-m1-cB_4d8w-a1-m1-cA 4d8w-a2-m1-cC_4d8w-a2-m1-cD 4d92-a1-m1-cB_4d92-a1-m1-cA 4d92-a2-m1-cC_4d92-a2-m1-cD 4d96-a1-m1-cB_4d96-a1-m1-cA 4d96-a2-m1-cC_4d96-a2-m1-cD 4d97-a1-m1-cB_4d97-a1-m1-cA 4d97-a2-m1-cC_4d97-a2-m1-cD 4d99-a1-m1-cB_4d99-a1-m1-cA 4d99-a2-m1-cC_4d99-a2-m1-cD 4d9b-a1-m1-cA_4d9b-a1-m1-cB 4d9b-a2-m1-cC_4d9b-a2-m1-cD 4d9c-a1-m1-cB_4d9c-a1-m1-cA 4d9c-a2-m1-cC_4d9c-a2-m1-cD 4d9e-a1-m1-cB_4d9e-a1-m1-cA 4d9e-a2-m1-cC_4d9e-a2-m1-cD 4d9f-a1-m1-cB_4d9f-a1-m1-cA 4d9f-a2-m1-cC_4d9f-a2-m1-cD TRFPRLEFIGAPTPLEYLPRLSDYLGREIYIKRDDVTPIAMGGNLRKLEFLVADALREGADTLITAGAIQSNHVRQTAAVAAKLGLHCVALLENPIGTTAENYLTNGNRLLLDLFNTQIEMCDALTDPDAQLQTLATRIEAQGFRPYVIPVGGSSALGAMGYVESALEIAQQCGLSSVVVASGSAGTHAGLAVGLEHLMPDVELIGVTVSRSVAEQKPKVIALQQAIAGQLALTATADIHLWDDYFAPGYGVPNDAGMEAVKLLASLEGVLLDPVYTGKAMAGLIDGISQKRFNDDGPILFIHTGGAPALFAYHPHV MPLHHLTRFPRLEFIGAPTPLEYLPRLSDYLGREIYIKRDDVTPIAMGGNLRKLEFLVADALREGADTLITAGAIQSNHVRQTAAVAAKLGLHCVALLENPIGTTAENYLTNGNRLLLDLFNTQIEMCDALTDPDAQLQTLATRIEAQGFRPYVIPVGGSSALGAMGYVESALEIAQQCEEVVGLSSVVVASGSAGTHAGLAVGLEHLMPDVELIGVTVSRSVAEQKPKVIALQQAIAGQLALTATADIHLWDDYFAPGYGVPNDAGMEAVKLLASLEGVLLDPVYTGKAMAGLIDGISQKRFNDDGPILFIHTGGAPALFAYHPHV 4d8y-a1-m1-cD_4d8y-a1-m1-cF Crystal structure of the hexameric purine nucleoside phosphorylase from Bacillus subtilis in space group P212121 at pH 5.6 O34925 O34925 1.61 X-RAY DIFFRACTION 105 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 240 240 4d8v-a1-m1-cA_4d8v-a1-m3-cB 4d8v-a1-m1-cB_4d8v-a1-m2-cA 4d8v-a1-m2-cB_4d8v-a1-m3-cA 4d8x-a1-m1-cA_4d8x-a1-m4-cA 4d8x-a1-m2-cA_4d8x-a1-m6-cA 4d8x-a1-m3-cA_4d8x-a1-m5-cA 4d8y-a1-m1-cA_4d8y-a1-m1-cB 4d8y-a1-m1-cC_4d8y-a1-m1-cE 4d98-a1-m1-cA_4d98-a1-m2-cB 4d98-a1-m1-cB_4d98-a1-m3-cA 4d98-a1-m2-cA_4d98-a1-m3-cB 4d9h-a1-m1-cB_4d9h-a1-m2-cA 4d9h-a1-m2-cB_4d9h-a1-m3-cA 4d9h-a1-m3-cB_4d9h-a1-m1-cA 4da0-a1-m1-cA_4da0-a1-m4-cA 4da0-a1-m2-cA_4da0-a1-m6-cA 4da0-a1-m3-cA_4da0-a1-m5-cA 4da6-a1-m1-cA_4da6-a1-m5-cA 4da6-a1-m2-cA_4da6-a1-m4-cA 4da6-a1-m3-cA_4da6-a1-m6-cA 4da7-a1-m1-cA_4da7-a1-m5-cA 4da7-a1-m2-cA_4da7-a1-m4-cA 4da7-a1-m3-cA_4da7-a1-m6-cA 4da8-a1-m1-cA_4da8-a1-m5-cA 4da8-a1-m2-cA_4da8-a1-m4-cA 4da8-a1-m3-cA_4da8-a1-m6-cA 4dab-a1-m1-cA_4dab-a1-m5-cA 4dab-a1-m2-cA_4dab-a1-m4-cA 4dab-a1-m3-cA_4dab-a1-m6-cA 4dae-a1-m1-cA_4dae-a1-m5-cA 4dae-a1-m2-cA_4dae-a1-m4-cA 4dae-a1-m3-cA_4dae-a1-m6-cA 4dan-a1-m1-cA_4dan-a1-m3-cB 4dan-a1-m2-cA_4dan-a1-m1-cB 4dan-a1-m3-cA_4dan-a1-m2-cB 4dao-a1-m1-cA_4dao-a1-m2-cB 4dao-a1-m1-cB_4dao-a1-m3-cA 4dao-a1-m2-cA_4dao-a1-m3-cB 4dar-a1-m1-cA_4dar-a1-m4-cA 4dar-a1-m2-cA_4dar-a1-m6-cA 4dar-a1-m3-cA_4dar-a1-m5-cA GLVPRGSHMSVHIGAEKGQIADTVLLPGDPLRAKFIAETYLENVECYNEVRGMYGFTGTYKGKKISVQGTGMGVPSISIYVNELIQSYDVQNLIRVGSCGAIRKDVKVRDVILAMTSSTDSQMNRVAFGSVDFAPCADFELLKNAYDAAKDKGVPVTVGSVFTADQFYNDDSQIEKLAKYGVLGVEMETTALYTLAAKHGRKALSILTVSDHVLTGEETTAEERQTTFHDMIDVALHSVS GLVPRGSHMSVHIGAEKGQIADTVLLPGDPLRAKFIAETYLENVECYNEVRGMYGFTGTYKGKKISVQGTGMGVPSISIYVNELIQSYDVQNLIRVGSCGAIRKDVKVRDVILAMTSSTDSQMNRVAFGSVDFAPCADFELLKNAYDAAKDKGVPVTVGSVFTADQFYNDDSQIEKLAKYGVLGVEMETTALYTLAAKHGRKALSILTVSDHVLTGEETTAEERQTTFHDMIDVALHSVS 4d8y-a1-m1-cE_4d8y-a1-m1-cF Crystal structure of the hexameric purine nucleoside phosphorylase from Bacillus subtilis in space group P212121 at pH 5.6 O34925 O34925 1.61 X-RAY DIFFRACTION 127 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 240 240 4d8v-a1-m1-cA_4d8v-a1-m1-cB 4d8v-a1-m2-cA_4d8v-a1-m2-cB 4d8v-a1-m3-cA_4d8v-a1-m3-cB 4d8x-a1-m1-cA_4d8x-a1-m6-cA 4d8x-a1-m2-cA_4d8x-a1-m5-cA 4d8x-a1-m3-cA_4d8x-a1-m4-cA 4d8y-a1-m1-cA_4d8y-a1-m1-cD 4d8y-a1-m1-cB_4d8y-a1-m1-cC 4d98-a1-m1-cA_4d98-a1-m1-cB 4d98-a1-m2-cA_4d98-a1-m2-cB 4d98-a1-m3-cA_4d98-a1-m3-cB 4d9h-a1-m1-cB_4d9h-a1-m1-cA 4d9h-a1-m2-cB_4d9h-a1-m2-cA 4d9h-a1-m3-cB_4d9h-a1-m3-cA 4da0-a1-m1-cA_4da0-a1-m5-cA 4da0-a1-m2-cA_4da0-a1-m4-cA 4da0-a1-m3-cA_4da0-a1-m6-cA 4da6-a1-m1-cA_4da6-a1-m4-cA 4da6-a1-m2-cA_4da6-a1-m6-cA 4da6-a1-m3-cA_4da6-a1-m5-cA 4da7-a1-m1-cA_4da7-a1-m4-cA 4da7-a1-m2-cA_4da7-a1-m6-cA 4da7-a1-m3-cA_4da7-a1-m5-cA 4da8-a1-m1-cA_4da8-a1-m4-cA 4da8-a1-m2-cA_4da8-a1-m6-cA 4da8-a1-m3-cA_4da8-a1-m5-cA 4dab-a1-m1-cA_4dab-a1-m4-cA 4dab-a1-m2-cA_4dab-a1-m6-cA 4dab-a1-m3-cA_4dab-a1-m5-cA 4dae-a1-m1-cA_4dae-a1-m4-cA 4dae-a1-m2-cA_4dae-a1-m6-cA 4dae-a1-m3-cA_4dae-a1-m5-cA 4dan-a1-m1-cA_4dan-a1-m1-cB 4dan-a1-m2-cA_4dan-a1-m2-cB 4dan-a1-m3-cA_4dan-a1-m3-cB 4dao-a1-m1-cA_4dao-a1-m1-cB 4dao-a1-m2-cA_4dao-a1-m2-cB 4dao-a1-m3-cA_4dao-a1-m3-cB 4dar-a1-m1-cA_4dar-a1-m6-cA 4dar-a1-m2-cA_4dar-a1-m5-cA 4dar-a1-m3-cA_4dar-a1-m4-cA GLVPRGSHMSVHIGAEKGQIADTVLLPGDPLRAKFIAETYLENVECYNEVRGMYGFTGTYKGKKISVQGTGMGVPSISIYVNELIQSYDVQNLIRVGSCGAIRKDVKVRDVILAMTSSTDSQMNRVAFGSVDFAPCADFELLKNAYDAAKDKGVPVTVGSVFTADQFYNDDSQIEKLAKYGVLGVEMETTALYTLAAKHGRKALSILTVSDHVLTGEETTAEERQTTFHDMIDVALHSVS GLVPRGSHMSVHIGAEKGQIADTVLLPGDPLRAKFIAETYLENVECYNEVRGMYGFTGTYKGKKISVQGTGMGVPSISIYVNELIQSYDVQNLIRVGSCGAIRKDVKVRDVILAMTSSTDSQMNRVAFGSVDFAPCADFELLKNAYDAAKDKGVPVTVGSVFTADQFYNDDSQIEKLAKYGVLGVEMETTALYTLAAKHGRKALSILTVSDHVLTGEETTAEERQTTFHDMIDVALHSVS 4d90-a3-m1-cB_4d90-a3-m1-cA Crystal Structure of Del-1 EGF domains O43854 O43854 2.601 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 127 CDPNPCENGGICLPFSCECPDGFTDPNCSSVVEVASDEEEPTSAGPCTPNPCHNGGTCEISEAYRGDTFIGYVCKCPRGFNGIHCQHNINECEVEPCKNGGICTDLVANYSCECPGEFMGRNCQYK CDPNPCENGGICLPSFSCECPDGFTDPNCSSVVEVASDEEEPTSAGPCTPNPCHNGGTCEISEAYRGDTFIGYVCKCPRGFNGIHCQHNINECEVEPCKNGGICTDLVANYSCECPGEFMGRNCQYK 4d94-a2-m1-cA_4d94-a2-m2-cA Crystal Structure of TEP1r C9XI66 C9XI66 2.7 X-RAY DIFFRACTION 96 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 1274 1274 LLVVGPKFIRANQEYTLVISNFNSQLSKVDLLLKLELSVLNVTKMVDVRRNMNRMINFNMPEDLTAGNYKITIDGQRGFSFHKEAELVYLSKSISGLIQVDKPVFKPGDTVNFRVIVLDTELKPPARVKSVYVTIRDPQRNVIRKWSTAKLYAGVFESDLQIAPTPMLGVWNISVEVEGEELVSKTFEVKEYVLSTFDVQVMPSVIPLEEHQAVNLTIEANYHFGKPVQGVAKVELYLDDDKLKLKKELTVYGKGQVELRFDNFAMDADQQDVPVKVSFVEQYTNRTVVKQSQITVYRYAYRVELIKESPQFRPGLPFKCALQFTHHDGTPAKGISGKVEVSDVRFETTTTSDNDGLIKLELQPSEGTEQLSIHFNAVDGFFFYEDVNKVETVTDAYIKLELKSPIKRNKLMRFMVTCTERMTFFVYYVMSKGNIIDAGFMRPNKQPKYLLQLNATEKMIPRAKILIATVAGRTVVYDFADLDFQELRNNFDLSIDEQEIKPGRQIELSMSGRPGAYVGLAAYDKALLLFNKNHDLFWEDIGQVFDGFHNEFDIFHSLGLFARTLDDILFDSQESWLWKNVSIGRSGSRKLIEVVPDTTTSWYLTGFSIDPVYGLGIIKKPIQFTTVQPFYIVENLPYSIKRGEAVVLQFTLFNNLGAEYIADVTLYNVANQTEFVGRPNTDLSYTKSVSVPPKVGVPISFLIKARKLGEMAVRVKASIMLGHETDALEKVIRVMPESLVQPRMDTRFFCFDDHKNQTFPINLDSTKIEFRLNPNLLTTVIKNLDHLLGVPTGCGEQNMVKFVPNILVLDYLHAIGSKEQHLIDKATNLLRQGYQNQMRYRQTDGSFGLWETTNGSVFLTAFVGTSMQTAVKYISDIDAAMVEKALDWLASKQHFSGRFDKAGAEYHKEMQGGLRNGVALTSYVLMALLENDIAKAKHAEVIQKGMTYLSNQFGSINNAYDLSIATYAMMLNGHTMKEEALNKLIDMSFIDADKNERFWNTTNPIETTAYALLSFVMAEKYTDGIPVMNWLVNQRYVTGSFPSTQDTFVGLKALTKMAEKISPSRNDYTVQLKYKKSAKYFKINSEQIDVENFVDIPEDTKKLEINVGGIGFGLLEVVYQFNLNLVNFENRFQLDLEKQNTGSDYELRLKVCASYIPQLTDRRSNMALIEVTLPSGYVVDRNPISEQTKVNPIQKTEIRYGGTSVVLYYDNMGSERNCFTLTAYRRFKVALKRPAYVVVYDYYNTNLNAIKVYEVDKQNLCEICDEEDCPAECG LLVVGPKFIRANQEYTLVISNFNSQLSKVDLLLKLELSVLNVTKMVDVRRNMNRMINFNMPEDLTAGNYKITIDGQRGFSFHKEAELVYLSKSISGLIQVDKPVFKPGDTVNFRVIVLDTELKPPARVKSVYVTIRDPQRNVIRKWSTAKLYAGVFESDLQIAPTPMLGVWNISVEVEGEELVSKTFEVKEYVLSTFDVQVMPSVIPLEEHQAVNLTIEANYHFGKPVQGVAKVELYLDDDKLKLKKELTVYGKGQVELRFDNFAMDADQQDVPVKVSFVEQYTNRTVVKQSQITVYRYAYRVELIKESPQFRPGLPFKCALQFTHHDGTPAKGISGKVEVSDVRFETTTTSDNDGLIKLELQPSEGTEQLSIHFNAVDGFFFYEDVNKVETVTDAYIKLELKSPIKRNKLMRFMVTCTERMTFFVYYVMSKGNIIDAGFMRPNKQPKYLLQLNATEKMIPRAKILIATVAGRTVVYDFADLDFQELRNNFDLSIDEQEIKPGRQIELSMSGRPGAYVGLAAYDKALLLFNKNHDLFWEDIGQVFDGFHNEFDIFHSLGLFARTLDDILFDSQESWLWKNVSIGRSGSRKLIEVVPDTTTSWYLTGFSIDPVYGLGIIKKPIQFTTVQPFYIVENLPYSIKRGEAVVLQFTLFNNLGAEYIADVTLYNVANQTEFVGRPNTDLSYTKSVSVPPKVGVPISFLIKARKLGEMAVRVKASIMLGHETDALEKVIRVMPESLVQPRMDTRFFCFDDHKNQTFPINLDSTKIEFRLNPNLLTTVIKNLDHLLGVPTGCGEQNMVKFVPNILVLDYLHAIGSKEQHLIDKATNLLRQGYQNQMRYRQTDGSFGLWETTNGSVFLTAFVGTSMQTAVKYISDIDAAMVEKALDWLASKQHFSGRFDKAGAEYHKEMQGGLRNGVALTSYVLMALLENDIAKAKHAEVIQKGMTYLSNQFGSINNAYDLSIATYAMMLNGHTMKEEALNKLIDMSFIDADKNERFWNTTNPIETTAYALLSFVMAEKYTDGIPVMNWLVNQRYVTGSFPSTQDTFVGLKALTKMAEKISPSRNDYTVQLKYKKSAKYFKINSEQIDVENFVDIPEDTKKLEINVGGIGFGLLEVVYQFNLNLVNFENRFQLDLEKQNTGSDYELRLKVCASYIPQLTDRRSNMALIEVTLPSGYVVDRNPISEQTKVNPIQKTEIRYGGTSVVLYYDNMGSERNCFTLTAYRRFKVALKRPAYVVVYDYYNTNLNAIKVYEVDKQNLCEICDEEDCPAECG 4d9i-a1-m1-cA_4d9i-a1-m1-cB Crystal structure of holo Diaminopropionate ammonia lyase from Escherichia coli P66899 P66899 2 X-RAY DIFFRACTION 66 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 389 390 4d9g-a1-m1-cA_4d9g-a1-m1-cB 4d9k-a1-m1-cB_4d9k-a1-m1-cA 4d9k-a2-m1-cC_4d9k-a2-m1-cD 4d9m-a1-m1-cA_4d9m-a1-m1-cB 4d9n-a1-m1-cB_4d9n-a1-m1-cA SVFSLKIDIADNKFFNGETSPLFSQSQAKLARQFHQKIAGYRPTPLCALDDLANLFGVKKILVKDESKRFGLNAFMLGGAYAIAQLLCEKYHLDIETLSFEHLKNAIGEKMTFATTTDGNHGRGVAWAAQQLGQNAVIYMPKGSAQERVDAILNLGAECIVTDMNYDDTVRLTMQHAQQHGWEVVQDTAWEGYTKIPTWIMQGYATLADEAVEQMREMGVTPTHVLLQAGVGAMAGGVLGYLVDVYSPQNLHSIIVEPDKADCIYRSGVKGDIVNVIMAGLACGEPNPLGWEILRNCATQFISCQDSVAALGMRVLGNPYGNDPRIISGESGAVGLGVLAAVHYHPQRQSLMEKLALNKDAVVLVISTEGDTDVKHYREVVWEGKHAVA SVFSLKIDIADNKFFNGETSPLFSQSQAKLARQFHQKIAGYRPTPLCALDDLANLFGVKKILVKDESKRFGLNAFMLGGAYAIAQLLCEKYHLDIETLSFEHLKNAIGEKMTFATTTDGNHGRGVAWAAQQLGQNAVIYMPKGSAQERVDAILNLGAECIVTDMNYDDTVRLTMQHAQQHGWEVVQDTAWEGYTKIPTWIMQGYATLADEAVEQMREMGVTPTHVLLQAGVGAMAGGVLGYLVDVYSPQNLHSIIVEPDKADCIYRSGVKGDIVNVTIMAGLACGEPNPLGWEILRNCATQFISCQDSVAALGMRVLGNPYGNDPRIISGESGAVGLGVLAAVHYHPQRQSLMEKLALNKDAVVLVISTEGDTDVKHYREVVWEGKHAVA 4d9o-a1-m1-cB_4d9o-a1-m1-cA Structure of ebolavirus protein VP24 from Reston Q91DD5 Q91DD5 2 X-RAY DIFFRACTION 57 0.995 129003 (Reston ebolavirus - Reston) 129003 (Reston ebolavirus - Reston) 193 202 KDMEKGVIFSDLCNFLITQTLQGWKVYWAGIEFDVSQKGMALLTRLKAMTRNLFPHLFQNPNSVIQSPIWALRVILAAGLQDQLLDEPLTGALGLISDWLLTTTSTHFNLRTRSVKDQLSLRMLSLIRSNILQFINKLDALHVVNYNGLLSSIEIGTSTHTIIITRTNMGFLVEVQEPVKFSLLHESAFKPFT MVPPKKDMEKGVIFSDLCNFLITQTLQGWKVYWAGIEFDVSQKGMALLTRLKTAMTRNLFPHLFQNPNSVIQSPIWALRVILAAGLQDQLLDHSLVEPLTGALGLISDWLLTTTSTHFNLRTRSVKDQLSLRMLSLIRSNILQFINKLDALHVVNYNGLLSSIEIGTSTHTIIITRTNMGFLVEVQEVKFSLLHESAFKPFT 4d9u-a2-m1-cA_4d9u-a2-m2-cA Rsk2 C-terminal Kinase Domain, (E)-tert-butyl 3-(4-amino-7-(3-hydroxypropyl)-5-p-tolyl-7H-pyrrolo[2,3-d]pyrimidin-6-yl)-2-cyanoacrylate P51812 P51812 2.4 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 307 307 2qr8-a2-m1-cA_2qr8-a2-m2-cA 4d9t-a2-m1-cA_4d9t-a2-m2-cA VQQLHRNSIQFTDGYEVKEDIGVGSYSVCKRCIHKATNMEFAVKIIDKSKRDPTEEIEILLRYGQHPNIITLKDVYDDGKYVYVVTELMKGGELLDKILRQKFFSEREASAVLFTITKTVEYLHAQGVVHRDLKPSNILYVDESGNPESIRICDFGFAKQLRAENGLLMTPCYTANFVAPEVLERQGYDAACDIWSLGVLLYTMLTGYTPFANGPDDTPEEILARIGSGKFSLSGGYWNSVSDTAKDLVSKMLHVDPHQRLTAALVLRHPWIVHWDQLPQYQLNRQDAPHLVKGAMAATYSALNRNQ VQQLHRNSIQFTDGYEVKEDIGVGSYSVCKRCIHKATNMEFAVKIIDKSKRDPTEEIEILLRYGQHPNIITLKDVYDDGKYVYVVTELMKGGELLDKILRQKFFSEREASAVLFTITKTVEYLHAQGVVHRDLKPSNILYVDESGNPESIRICDFGFAKQLRAENGLLMTPCYTANFVAPEVLERQGYDAACDIWSLGVLLYTMLTGYTPFANGPDDTPEEILARIGSGKFSLSGGYWNSVSDTAKDLVSKMLHVDPHQRLTAALVLRHPWIVHWDQLPQYQLNRQDAPHLVKGAMAATYSALNRNQ 4da9-a4-m1-cB_4da9-a4-m1-cC Crystal structure of putative Short-chain dehydrogenase/reductase from Sinorhizobium meliloti 1021 Q92L02 Q92L02 2.5 X-RAY DIFFRACTION 86 0.981 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 214 216 4da9-a1-m1-cA_4da9-a1-m1-cD 4da9-a1-m1-cB_4da9-a1-m1-cC 4da9-a2-m1-cA_4da9-a2-m1-cD QKARPVAIVTGGRRGIGLGIARALAASGFDIAITGIGDAEGVAPVIAELSGLGARVIFLRADLADLSSHQATVDAVVAEFGRIDCLVNNAGIDDFLDLKPENFDTIVGVNLRGTVFFTQAVLKALASDARASRSIINITSVERLDYCSKAGLAAFSQGLALRLAETGIAVFEVRPGIWGEPEDIGNIVAGLAGGQFGFATGSVIQADGGLSIGR TQKARPVAIVTGGRRGIGLGIARALAASGFDIAITGIGDAEGVAPVIAELSGLGARVIFLRADLADLSSHQATVDAVVAEFGRIDCLVNNAGRDDFLDLKPENFDTIVGVNLRGTVFFTQAVLKALASDARASRSIINITSVERLDYCSKAGLAAFSQGLALRLAETGIAVFEVRPGIIRSRWGEPEDIGNIVAGLAGGQFGFATGSVIQADGGLS 4da9-a5-m1-cB_4da9-a5-m1-cD Crystal structure of putative Short-chain dehydrogenase/reductase from Sinorhizobium meliloti 1021 Q92L02 Q92L02 2.5 X-RAY DIFFRACTION 96 0.981 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 214 216 4da9-a1-m1-cA_4da9-a1-m1-cC 4da9-a1-m1-cB_4da9-a1-m1-cD 4da9-a3-m1-cA_4da9-a3-m1-cC QKARPVAIVTGGRRGIGLGIARALAASGFDIAITGIGDAEGVAPVIAELSGLGARVIFLRADLADLSSHQATVDAVVAEFGRIDCLVNNAGIDDFLDLKPENFDTIVGVNLRGTVFFTQAVLKALASDARASRSIINITSVERLDYCSKAGLAAFSQGLALRLAETGIAVFEVRPGIWGEPEDIGNIVAGLAGGQFGFATGSVIQADGGLSIGR TQKARPVAIVTGGRRGIGLGIARALAASGFDIAITGIGDAEGVAPVIAELSGLGARVIFLRADLADLSSHQATVDAVVAEFGRIDCLVNNADDFLDLKPENFDTIVGVNLRGTVFFTQAVLKALASDARASRSIINITSVPERLDYCSKAGLAAFSQGLALRLAETGIAVFEVRPGIIRSRWGEPEDIGNIVAGLAGGQFGFATGSVIQADGGLSI 4dac-a6-m2-cD_4dac-a6-m3-cD Crystal Structure of Computationally Designed Protein P6d 2.1 X-RAY DIFFRACTION 25 1.0 26 26 4dac-a5-m1-cA_4dac-a5-m1-cB 4dac-a5-m1-cA_4dac-a5-m1-cC 4dac-a5-m1-cB_4dac-a5-m1-cC 4dac-a6-m1-cD_4dac-a6-m2-cD 4dac-a6-m1-cD_4dac-a6-m3-cD EVYKLDANVKRLEKEVGKLEGEVARL EVYKLDANVKRLEKEVGKLEGEVARL 4dad-a1-m1-cA_4dad-a1-m2-cA Crystal structure of a Putative pilus assembly-related protein (BPSS2195) from Burkholderia pseudomallei K96243 at 2.50 A resolution (PSI Community Target, Shapiro L.) Q63I75 Q63I75 2.5 X-RAY DIFFRACTION 37 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 131 131 4dn6-a1-m1-cB_4dn6-a1-m1-cA ENLYFQGINILVASEDASRLAHLARLVGDAGRYRVTRTVGRAAQIVQRTDGLDAFDILIDGAALDTAELAAIEKLSRLHPGLTCLLVTTDASSQTLLDARAGVRDVLRWPLEPRALDDALKRAAAQCAQRD ENLYFQGINILVASEDASRLAHLARLVGDAGRYRVTRTVGRAAQIVQRTDGLDAFDILIDGAALDTAELAAIEKLSRLHPGLTCLLVTTDASSQTLLDARAGVRDVLRWPLEPRALDDALKRAAAQCAQRD 4dag-a2-m1-cL_4dag-a2-m2-cL Structure of the Human Metapneumovirus Fusion Protein with Neutralizing Antibody Identifies a Pneumovirus Antigenic Site Q8N5F4 Q8N5F4 3.3904 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 ELALIQPASVSVSPGQTASITCSGDKLGDKYASWYQQKPGQSPVLVIYQDSERPSGIPERFSGSNSGNTATLTISGTQAMDEADYYCQAWDSSTAVFGGGTTLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSM ELALIQPASVSVSPGQTASITCSGDKLGDKYASWYQQKPGQSPVLVIYQDSERPSGIPERFSGSNSGNTATLTISGTQAMDEADYYCQAWDSSTAVFGGGTTLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECSM 4daj-a6-m1-cC_4daj-a6-m1-cD Structure of the M3 Muscarinic Acetylcholine Receptor P08483 P08483 3.4 X-RAY DIFFRACTION 37 0.995 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 430 432 4daj-a5-m1-cA_4daj-a5-m1-cB 4u14-a2-m1-cA_4u14-a2-m2-cA TIWQVVFIAFLTGFLALVTIIGNILVIVAFKVNKQLKTVNNYFLLSLACADLIIGVISMNLFTTYIIMNRWALGNLACDLWLSIDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTTKRAGVMIGLAWVISFVLWAPAILFWQYFVGKRTVPPGECFIQFLSEPTITFGTAIAAFYMPVTIMTILYWRIYKETEKMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYLIKEAQTLSAILLAFIITWTPYNIMVLVNTFCDSCIPKTYWNLGYWLCYINSTVNPVCYALCNKTFRTTFKT WQVVFIAFLTGFLALVTIIGNILVIVAFKVNKQLKTVNNYFLLSLACADLIIGVISMNLFTTYIIMNRWALGNLACDLWLSIDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTTKRAGVMIGLAWVISFVLWAPAILFWQYFVGKRTVPPGECFIQFLSEPTITFGTAIAAFYMPVTIMTILYWRIYKETEKMNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYLIKEAAQTLSAILLAFIITWTPYNIMVLVNTFCDSCIPKTYWNLGYWLCYINSTVNPVCYALCNKTFRTTFKTLLL 4dam-a2-m1-cF_4dam-a2-m1-cE Crystal structure of small single-stranded DNA-binding protein from Streptomyces coelicolor Q9KYI9 Q9KYI9 1.7 X-RAY DIFFRACTION 71 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 110 112 4dam-a1-m1-cB_4dam-a1-m1-cA 4dam-a3-m1-cJ_4dam-a3-m1-cI 4dam-a3-m1-cL_4dam-a3-m1-cK MNEIMICAVGNVATTPVFRDLANGPSVRFRLAVTARYWDREKNAWTDGHTNFFTVWANRQLATNASGSLAVGDPVVVQGRLKVRTDVREGQSRTSADIDAVAIGHDLARG SMNEIMICAVGNVATTPVFRDLANGPSVRFRLAVTARYWDREKNAWTDGHTNFFTVWANRQLATNASGSLAVGDPVVVQGRLKVRTDVREGQSRTSADIDAVAIGHDLARGT 4dam-a2-m1-cG_4dam-a2-m1-cH Crystal structure of small single-stranded DNA-binding protein from Streptomyces coelicolor Q9KYI9 Q9KYI9 1.7 X-RAY DIFFRACTION 66 0.99 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 98 108 SMNEIMICAVGNVATTPVFRDLANGPSVRFRLAVTARYWWTDGHTNFFTVWANRQLATNASGSLAVGDPVVVQGRLKVRTRTSADIDAVAIGHDLARG MNEIMICAVGNVATTPVFRDLANGPSVRFRLAVTARYWDREAWTDGHTNFFTVWANRQLATNASGSLAVGDPVVVQGRLKVRTDVREGQSRTSADIDAVAIGHDLARG 4dam-a3-m1-cL_4dam-a3-m1-cI Crystal structure of small single-stranded DNA-binding protein from Streptomyces coelicolor Q9KYI9 Q9KYI9 1.7 X-RAY DIFFRACTION 64 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 100 110 4dam-a1-m1-cC_4dam-a1-m1-cB 4dam-a1-m1-cD_4dam-a1-m1-cA 4dam-a2-m1-cG_4dam-a2-m1-cF 4dam-a2-m1-cH_4dam-a2-m1-cE 4dam-a3-m1-cJ_4dam-a3-m1-cK MNEIMICAVGNVATTPVFRDLANGPSVRFRLAVTARYWDNAWTDGHTNFFTVWANRQLATNASGSLAVGDPVVVQGRLKVRTRTSADIDAVAIGHDLARG MNEIMICAVGNVATTPVFRDLANGPSVRFRLAVTARYWDREKNAWTDGHTNFFTVWANRQLATNASGSLAVGDPVVVQGRLKVRTDVREGQSRTSADIDAVAIGHDLARG 4db1-a3-m1-cA_4db1-a3-m1-cB Cardiac human myosin S1dC, beta isoform complexed with Mn-AMPPNP P12883 P12883 2.6 X-RAY DIFFRACTION 129 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 716 718 GGDSEMAVFGAAAPYLRKSEKERLEAQTRPFDLKKDVFVPDDKQEFVKAKIVSREGGKVTAETEYGKTVTVKEDQVMQQNPPKFDKIEDMAMLTFLHEPAVLYNLKDRYGSWMIYTYSGLFCVTVNPYKWLPVYTPEVVAAYRGKKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAIGDRGKGTLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVIFQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDNAFDVLGFTSEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSADLLKGLCHPRYVTKGQNVQQVIYATGALAKAVYERMFNWMVTRINATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSANFQKPRNPEAHFSLIHYAGIVDYNIIGWLQKNKDPLNETVVGLYQKSSLKLLSTLFANYAFQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVMDNPLVMHQLRCNGVLEGIRICRKGFPNRILYAEKLLSSLDIDHNQYKFGHTKVFFKAGLLGLLEEMR GGDSEMAVFGAAAPYLRKSEKERLEAQTRPFDLKKDVFVPDDKQEFVKAKIVSREGGKVTAETEYGKTVTVKEDQVMQQNPPKFDKIEDMAMLTFLHEPAVLYNLKDRYGSWMIYTYSGLFCVTVNPYKWLPVYTPEVVAAYRGKKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAIGDRGKGTLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVIFQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDNAFDVLGFTSEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSADLLKGLCHPRYVTKGQNVQQVIYATGALAKAVYERMFNWMVTRINATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSANFQKPRNIKGKPEAHFSLIHYAGIVDYNIIGWLQKNKDPLNETVVGLYQKSSLKLLSTLFANYAGQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVMDNPLVMHQLRCNGVLEGIRICRKGFPNRILYAEKLLSSLDIDHNQYKFGHTKVFFKAGLLGLLEE 4db3-a2-m1-cA_4db3-a2-m2-cA 1.95 Angstrom Resolution Crystal Structure of N-acetyl-D-glucosamine kinase from Vibrio vulnificus. Q8D9M7 Q8D9M7 1.95 X-RAY DIFFRACTION 142 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 311 311 NLYFQSNAMYYGFDVGGTKIEFGAFNEKLERVATERVPTPTDDYPLLLETIAGLVAKYDQEFACEGKIGLGLPGMEDADDATVLTVNVPAAKGKPLRADLEAKIGRSVKIENDANCFALSEAWDEELQDAPSVMGLILGTGFGGGLIYEGKVFSGRNNVAGELGHMRLPLDAWFHLGDNAPLLGCGCGKKGCLDSYLSGRGFELLYAHYYGEEKKAIDIIKANAAGDEKAAEHVERFMELLAICFGNIFTANDPHVVALGGGLSNFELIYEEMPKRVPKYLLSVAKCPKIIKAKHGDSGGVRGAAFLNIKG NLYFQSNAMYYGFDVGGTKIEFGAFNEKLERVATERVPTPTDDYPLLLETIAGLVAKYDQEFACEGKIGLGLPGMEDADDATVLTVNVPAAKGKPLRADLEAKIGRSVKIENDANCFALSEAWDEELQDAPSVMGLILGTGFGGGLIYEGKVFSGRNNVAGELGHMRLPLDAWFHLGDNAPLLGCGCGKKGCLDSYLSGRGFELLYAHYYGEEKKAIDIIKANAAGDEKAAEHVERFMELLAICFGNIFTANDPHVVALGGGLSNFELIYEEMPKRVPKYLLSVAKCPKIIKAKHGDSGGVRGAAFLNIKG 4db5-a2-m4-cA_4db5-a2-m9-cA Crystal structure of Rabbit GITRL G1TIM1 G1TIM1 1.522 X-RAY DIFFRACTION 23 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 120 120 4db5-a2-m10-cA_4db5-a2-m3-cA 4db5-a2-m10-cA_4db5-a2-m8-cA 4db5-a2-m11-cA_4db5-a2-m6-cA 4db5-a2-m11-cA_4db5-a2-m7-cA 4db5-a2-m12-cA_4db5-a2-m5-cA 4db5-a2-m1-cA_4db5-a2-m12-cA 4db5-a2-m1-cA_4db5-a2-m5-cA 4db5-a2-m2-cA_4db5-a2-m4-cA 4db5-a2-m2-cA_4db5-a2-m9-cA 4db5-a2-m3-cA_4db5-a2-m8-cA 4db5-a2-m6-cA_4db5-a2-m7-cA ACVAKFGPLPSKWQMEPPKPSCVNKISDWKLKILQNGLYIIYGQVAPDPTYKGFAPFEVQLCNKEAIQTLTNNSKIQNLGGIYEFDAGDIIELRFNSDDQVLKNNTYWGIVLLVTPQFSS ACVAKFGPLPSKWQMEPPKPSCVNKISDWKLKILQNGLYIIYGQVAPDPTYKGFAPFEVQLCNKEAIQTLTNNSKIQNLGGIYEFDAGDIIELRFNSDDQVLKNNTYWGIVLLVTPQFSS 4db5-a2-m6-cA_4db5-a2-m9-cA Crystal structure of Rabbit GITRL G1TIM1 G1TIM1 1.522 X-RAY DIFFRACTION 26 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 120 120 4db5-a2-m10-cA_4db5-a2-m7-cA 4db5-a2-m11-cA_4db5-a2-m5-cA 4db5-a2-m12-cA_4db5-a2-m3-cA 4db5-a2-m1-cA_4db5-a2-m4-cA 4db5-a2-m2-cA_4db5-a2-m8-cA ACVAKFGPLPSKWQMEPPKPSCVNKISDWKLKILQNGLYIIYGQVAPDPTYKGFAPFEVQLCNKEAIQTLTNNSKIQNLGGIYEFDAGDIIELRFNSDDQVLKNNTYWGIVLLVTPQFSS ACVAKFGPLPSKWQMEPPKPSCVNKISDWKLKILQNGLYIIYGQVAPDPTYKGFAPFEVQLCNKEAIQTLTNNSKIQNLGGIYEFDAGDIIELRFNSDDQVLKNNTYWGIVLLVTPQFSS 4db5-a2-m8-cA_4db5-a2-m9-cA Crystal structure of Rabbit GITRL G1TIM1 G1TIM1 1.522 X-RAY DIFFRACTION 32 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 120 120 4db5-a1-m1-cA_4db5-a1-m2-cA 4db5-a1-m1-cA_4db5-a1-m3-cA 4db5-a1-m2-cA_4db5-a1-m3-cA 4db5-a2-m10-cA_4db5-a2-m11-cA 4db5-a2-m10-cA_4db5-a2-m12-cA 4db5-a2-m11-cA_4db5-a2-m12-cA 4db5-a2-m1-cA_4db5-a2-m2-cA 4db5-a2-m1-cA_4db5-a2-m3-cA 4db5-a2-m2-cA_4db5-a2-m3-cA 4db5-a2-m4-cA_4db5-a2-m5-cA 4db5-a2-m4-cA_4db5-a2-m6-cA 4db5-a2-m5-cA_4db5-a2-m6-cA 4db5-a2-m7-cA_4db5-a2-m8-cA 4db5-a2-m7-cA_4db5-a2-m9-cA ACVAKFGPLPSKWQMEPPKPSCVNKISDWKLKILQNGLYIIYGQVAPDPTYKGFAPFEVQLCNKEAIQTLTNNSKIQNLGGIYEFDAGDIIELRFNSDDQVLKNNTYWGIVLLVTPQFSS ACVAKFGPLPSKWQMEPPKPSCVNKISDWKLKILQNGLYIIYGQVAPDPTYKGFAPFEVQLCNKEAIQTLTNNSKIQNLGGIYEFDAGDIIELRFNSDDQVLKNNTYWGIVLLVTPQFSS 4dbd-a1-m1-cA_4dbd-a1-m2-cA Crystal structure of orotidine 5'-monophosphate decarboxylase from Sulfolobus solfataricus D0KT28 D0KT28 1.699 X-RAY DIFFRACTION 116 1.0 555311 (Saccharolobus solfataricus 98/2) 555311 (Saccharolobus solfataricus 98/2) 210 210 4dbe-a1-m1-cA_4dbe-a1-m1-cB KSRVILAMDKPLSYQVLKEMENELYGIKVGLPLVLDLGVDKTRELLIGLDVEEIIVDFKLADIGYIMKSIVERLSFANSFIAHSFIGVKGSLDELKRYLDANSKNLYLVAVMSHEGWSTLFADYIKNVIREISPKGIVVGGTKLDHITQYRRDFEKMTIVSPGMGSQGGSYGDAVCAGADYEIIGRSIYNAGNPLTALRTINKIIEDKVM KSRVILAMDKPLSYQVLKEMENELYGIKVGLPLVLDLGVDKTRELLIGLDVEEIIVDFKLADIGYIMKSIVERLSFANSFIAHSFIGVKGSLDELKRYLDANSKNLYLVAVMSHEGWSTLFADYIKNVIREISPKGIVVGGTKLDHITQYRRDFEKMTIVSPGMGSQGGSYGDAVCAGADYEIIGRSIYNAGNPLTALRTINKIIEDKVM 4dbf-a1-m1-cB_4dbf-a1-m1-cA Crystal structures of Cg1458 Q8NQY2 Q8NQY2 1.9 X-RAY DIFFRACTION 89 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 257 258 4dbh-a1-m1-cA_4dbh-a1-m1-cB HMRFGRIATPDGMCFCSIEGEGDDVANLTAREIEGTPFTEPKFTGREWPLKDVRLLAPMLPSKVVAIGRNYASLPPTLFLKPPTAVTGPESPIRIPSFATKVEFEGELAVVIGKPCKNVKADDWKSVVLGFTIINDVSSRDLQFADGQWARAKGIDTFGPIGPWIETDINSIDLDNLPIKARLTHDGETQLKQDSNSNQMIMKMGEIIEFITASMTLLPGDVIATGSPAGTEAMVDGDYIEIEIPGIGKLGNPVVDA HMRFGRIATPDGMCFCSIEGEGDDVANLTAREIEGTPFTEPKFTGREWPLKDVRLLAPMLPSKVVAIGRNYADSLPPTLFLKPPTAVTGPESPIRIPSFATKVEFEGELAVVIGKPCKNVKADDWKSVVLGFTIINDVSSRDLQFADGQWARAKGIDTFGPIGPWIETDINSIDLDNLPIKARLTHDGETQLKQDSNSNQMIMKMGEIIEFITASMTLLPGDVIATGSPAGTEAMVDGDYIEIEIPGIGKLGNPVVDA 4dbk-a2-m1-cA_4dbk-a2-m2-cA Crystal structure of porcine pancreatic phospholipase A2 complexed with berberine P00592 P00592 2.3 X-RAY DIFFRACTION 41 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 124 124 1p2p-a1-m1-cA_1p2p-a1-m2-cA 1y6p-a3-m1-cA_1y6p-a3-m1-cB 2azy-a2-m1-cA_2azy-a2-m2-cA 2azz-a2-m1-cA_2azz-a2-m2-cA 2b00-a2-m1-cA_2b00-a2-m2-cA 2b01-a2-m1-cA_2b01-a2-m2-cA 2b03-a2-m1-cA_2b03-a2-m2-cA 2b04-a2-m1-cA_2b04-a2-m2-cA 3fvj-a1-m1-cA_3fvj-a1-m2-cA 3hsw-a1-m1-cA_3hsw-a1-m2-cA 3p2p-a1-m1-cA_3p2p-a1-m1-cB 3qlm-a1-m1-cA_3qlm-a1-m2-cA 4g5i-a2-m1-cA_4g5i-a2-m2-cA 4p2p-a1-m1-cA_4p2p-a1-m2-cA 5p2p-a1-m1-cA_5p2p-a1-m1-cB ALWQFRSMIKCAIPGSHPLMDFNNYGCYCGLGGSGTPVDELDRCCETHDNCYRDAKNLDSCKFLVDNPYTESYSYSCSNTEITCNSKNNACEAFICNCDRNAAICFSKAPYNKEHKNLDTKKYC ALWQFRSMIKCAIPGSHPLMDFNNYGCYCGLGGSGTPVDELDRCCETHDNCYRDAKNLDSCKFLVDNPYTESYSYSCSNTEITCNSKNNACEAFICNCDRNAAICFSKAPYNKEHKNLDTKKYC 4dci-a2-m1-cE_4dci-a2-m1-cF Crystal structure of unknown funciton protein from Synechococcus sp. WH 8102 Q7U8F0 Q7U8F0 2.82 X-RAY DIFFRACTION 64 1.0 84588 (Parasynechococcus marenigrum WH 8102) 84588 (Parasynechococcus marenigrum WH 8102) 144 144 4dci-a1-m1-cA_4dci-a1-m1-cB 4dci-a1-m1-cB_4dci-a1-m1-cC 4dci-a1-m1-cD_4dci-a1-m1-cA 4dci-a1-m1-cD_4dci-a1-m1-cC 4dci-a2-m1-cG_4dci-a2-m1-cF 4dci-a2-m1-cH_4dci-a2-m1-cE ASDGTILTIKRPITVRAVVTPTWKEEAEREISNGIANADQQLAQLEQEGQTVVDQVRRQSANPLDPRVQEQVANIQQQVAGKRSELEEQKRNLLQQQAQVRELEDQIVEQGQLESSCEIKVGDNLVEKQVAIVVRDGVIQSIEE ASDGTILTIKRPITVRAVVTPTWKEEAEREISNGIANADQQLAQLEQEGQTVVDQVRRQSANPLDPRVQEQVANIQQQVAGKRSELEEQKRNLLQQQAQVRELEDQIVEQGQLESSCEIKVGDNLVEKQVAIVVRDGVIQSIEE 4dck-a2-m2-cA_4dck-a2-m3-cA Crystal structure of the C-terminus of voltage-gated sodium channel in complex with FGF13 and CaM Q14524 Q14524 2.2 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 153 153 4dck-a2-m1-cA_4dck-a2-m2-cA 4dck-a2-m1-cA_4dck-a2-m3-cA SVATEESTEPLSEDDFDMFYEIWEKFDPEATQFIEYSVLSDFADALSEPLRIAKPNQISLINMDLPMVSGDRIHCMDILFAFTKRVLGESGEMDALKIQMEEKFMAANPSKISYEPITTTLRRKHEEVSAMVIQRAFRRHLLQRSLKHASFLF SVATEESTEPLSEDDFDMFYEIWEKFDPEATQFIEYSVLSDFADALSEPLRIAKPNQISLINMDLPMVSGDRIHCMDILFAFTKRVLGESGEMDALKIQMEEKFMAANPSKISYEPITTTLRRKHEEVSAMVIQRAFRRHLLQRSLKHASFLF 4dcz-a1-m1-cA_4dcz-a1-m1-cB Crystal structure of a domain from a mycoplasma genitalium terminal organelle protein P47442 P47442 2.9 X-RAY DIFFRACTION 29 1.0 243273 (Mycoplasmoides genitalium G37) 243273 (Mycoplasmoides genitalium G37) 55 55 QNKDPDELRSKVPGEVTASDWEALVGDTRYGYFDETGDWSWKGYFDEQGKWVWNE QNKDPDELRSKVPGEVTASDWEALVGDTRYGYFDETGDWSWKGYFDEQGKWVWNE 4dd5-a1-m1-cA_4dd5-a1-m4-cA Biosynthetic Thiolase (ThlA1) from Clostridium difficile Q18AR0 Q18AR0 1.25 X-RAY DIFFRACTION 41 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 387 387 4dd5-a1-m2-cA_4dd5-a1-m3-cA MREVVIASAARTAVGSFGGAFKSVSAVELGVTAAKEAIKRANITPDMIDESLLGGVLTAGLGQNIARQIALGAGIPVEKPAMTINIVCGSGLRSVSMASQLIALGDADIMLVGGAENMSMSPYLVPSARYGARMGDAAFVDSMIKDGLSDIFNNYHMGITAENIAEQWNITREEQDELALASQNKAEKAQAEGKFDEEIVPVVIKDTVVDKDEYIKPGTTMEKLAKLRPAFKKDGTVTAGNASGINDGAAMLVVMAKEKAEELGIEPLATIVSYGTAGVDPKIMGYGPVPATKKALEAANMTIEDIDLVEANEAFAAQSVAVIRDLNIDMNKVNVNGGAIAIGHPIGCSGARILTTLLYEMKRRDAKTGLATLCIGGGMGTTLIVKR MREVVIASAARTAVGSFGGAFKSVSAVELGVTAAKEAIKRANITPDMIDESLLGGVLTAGLGQNIARQIALGAGIPVEKPAMTINIVCGSGLRSVSMASQLIALGDADIMLVGGAENMSMSPYLVPSARYGARMGDAAFVDSMIKDGLSDIFNNYHMGITAENIAEQWNITREEQDELALASQNKAEKAQAEGKFDEEIVPVVIKDTVVDKDEYIKPGTTMEKLAKLRPAFKKDGTVTAGNASGINDGAAMLVVMAKEKAEELGIEPLATIVSYGTAGVDPKIMGYGPVPATKKALEAANMTIEDIDLVEANEAFAAQSVAVIRDLNIDMNKVNVNGGAIAIGHPIGCSGARILTTLLYEMKRRDAKTGLATLCIGGGMGTTLIVKR 4dd5-a1-m2-cA_4dd5-a1-m4-cA Biosynthetic Thiolase (ThlA1) from Clostridium difficile Q18AR0 Q18AR0 1.25 X-RAY DIFFRACTION 30 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 387 387 4dd5-a1-m1-cA_4dd5-a1-m3-cA MREVVIASAARTAVGSFGGAFKSVSAVELGVTAAKEAIKRANITPDMIDESLLGGVLTAGLGQNIARQIALGAGIPVEKPAMTINIVCGSGLRSVSMASQLIALGDADIMLVGGAENMSMSPYLVPSARYGARMGDAAFVDSMIKDGLSDIFNNYHMGITAENIAEQWNITREEQDELALASQNKAEKAQAEGKFDEEIVPVVIKDTVVDKDEYIKPGTTMEKLAKLRPAFKKDGTVTAGNASGINDGAAMLVVMAKEKAEELGIEPLATIVSYGTAGVDPKIMGYGPVPATKKALEAANMTIEDIDLVEANEAFAAQSVAVIRDLNIDMNKVNVNGGAIAIGHPIGCSGARILTTLLYEMKRRDAKTGLATLCIGGGMGTTLIVKR MREVVIASAARTAVGSFGGAFKSVSAVELGVTAAKEAIKRANITPDMIDESLLGGVLTAGLGQNIARQIALGAGIPVEKPAMTINIVCGSGLRSVSMASQLIALGDADIMLVGGAENMSMSPYLVPSARYGARMGDAAFVDSMIKDGLSDIFNNYHMGITAENIAEQWNITREEQDELALASQNKAEKAQAEGKFDEEIVPVVIKDTVVDKDEYIKPGTTMEKLAKLRPAFKKDGTVTAGNASGINDGAAMLVVMAKEKAEELGIEPLATIVSYGTAGVDPKIMGYGPVPATKKALEAANMTIEDIDLVEANEAFAAQSVAVIRDLNIDMNKVNVNGGAIAIGHPIGCSGARILTTLLYEMKRRDAKTGLATLCIGGGMGTTLIVKR 4dd5-a1-m3-cA_4dd5-a1-m4-cA Biosynthetic Thiolase (ThlA1) from Clostridium difficile Q18AR0 Q18AR0 1.25 X-RAY DIFFRACTION 199 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 387 387 4dd5-a1-m1-cA_4dd5-a1-m2-cA MREVVIASAARTAVGSFGGAFKSVSAVELGVTAAKEAIKRANITPDMIDESLLGGVLTAGLGQNIARQIALGAGIPVEKPAMTINIVCGSGLRSVSMASQLIALGDADIMLVGGAENMSMSPYLVPSARYGARMGDAAFVDSMIKDGLSDIFNNYHMGITAENIAEQWNITREEQDELALASQNKAEKAQAEGKFDEEIVPVVIKDTVVDKDEYIKPGTTMEKLAKLRPAFKKDGTVTAGNASGINDGAAMLVVMAKEKAEELGIEPLATIVSYGTAGVDPKIMGYGPVPATKKALEAANMTIEDIDLVEANEAFAAQSVAVIRDLNIDMNKVNVNGGAIAIGHPIGCSGARILTTLLYEMKRRDAKTGLATLCIGGGMGTTLIVKR MREVVIASAARTAVGSFGGAFKSVSAVELGVTAAKEAIKRANITPDMIDESLLGGVLTAGLGQNIARQIALGAGIPVEKPAMTINIVCGSGLRSVSMASQLIALGDADIMLVGGAENMSMSPYLVPSARYGARMGDAAFVDSMIKDGLSDIFNNYHMGITAENIAEQWNITREEQDELALASQNKAEKAQAEGKFDEEIVPVVIKDTVVDKDEYIKPGTTMEKLAKLRPAFKKDGTVTAGNASGINDGAAMLVVMAKEKAEELGIEPLATIVSYGTAGVDPKIMGYGPVPATKKALEAANMTIEDIDLVEANEAFAAQSVAVIRDLNIDMNKVNVNGGAIAIGHPIGCSGARILTTLLYEMKRRDAKTGLATLCIGGGMGTTLIVKR 4ddg-a1-m1-cA_4ddg-a1-m1-cB Crystal structure of human OTUB1/UbcH5b~Ub/Ub Q96FW1 Q96FW1 3.2987 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 399 399 4ddg-a1-m1-cA_4ddg-a1-m1-cC 4ddg-a1-m1-cB_4ddg-a1-m1-cC 4ddg-a2-m1-cJ_4ddg-a2-m1-cK 4ddg-a2-m1-cJ_4ddg-a2-m1-cL 4ddg-a2-m1-cK_4ddg-a2-m1-cL 4ddi-a1-m1-cA_4ddi-a1-m1-cB 4ddi-a1-m1-cA_4ddi-a1-m1-cC 4ddi-a1-m1-cB_4ddi-a1-m1-cC GAMALKRIHKELNDLARDPPAQCSAGPVGDDMFHWQATIMGPNDSPYQGGVFFLTIHFPTDYPFKPPKVAFTTRIYHPNINSNGSISLDILRSQWSPALTISKVLLSICSLLCDPNPDDPLVPEIARIYKTDREKYNRIAREWTQKYAMGGSAYDEAIMAQQDRIQQEIAVQNPLVSERLELSVLYKEYAEDDNIYQQKIKDLHKKYSYIRKTRPDGNSFYRAFGFSHLEALLDDSKELQRFKAVSAKSKEDLVSQGFTEFTIEDFHNTFMDLIEQVEKQTSVADLLASFNDQSTSDYLVVYLRLLTSGYLQRESKFFEHFIEGGRTVKEFCQQEVEPMCKESDHIHIIALAQALSVSIQVEYMDRGEGGTTNPHIFPEGSEPKVYLLYRPGHYDILYK GAMALKRIHKELNDLARDPPAQCSAGPVGDDMFHWQATIMGPNDSPYQGGVFFLTIHFPTDYPFKPPKVAFTTRIYHPNINSNGSISLDILRSQWSPALTISKVLLSICSLLCDPNPDDPLVPEIARIYKTDREKYNRIAREWTQKYAMGGSAYDEAIMAQQDRIQQEIAVQNPLVSERLELSVLYKEYAEDDNIYQQKIKDLHKKYSYIRKTRPDGNSFYRAFGFSHLEALLDDSKELQRFKAVSAKSKEDLVSQGFTEFTIEDFHNTFMDLIEQVEKQTSVADLLASFNDQSTSDYLVVYLRLLTSGYLQRESKFFEHFIEGGRTVKEFCQQEVEPMCKESDHIHIIALAQALSVSIQVEYMDRGEGGTTNPHIFPEGSEPKVYLLYRPGHYDILYK 4ddn-a1-m1-cA_4ddn-a1-m1-cB Structure analysis of a wound-inducible lectin ipomoelin from sweet potato P93193 P93193 1.9 X-RAY DIFFRACTION 140 1.0 4120 (Ipomoea batatas) 4120 (Ipomoea batatas) 154 154 3r50-a1-m1-cA_3r50-a1-m1-cB 3r50-a1-m1-cC_3r50-a1-m1-cD 3r50-a2-m1-cE_3r50-a2-m2-cE 3r50-a2-m3-cE_3r50-a2-m4-cE 3r51-a1-m1-cA_3r51-a1-m2-cA 3r51-a1-m1-cB_3r51-a1-m2-cB 3r52-a1-m1-cA_3r52-a1-m1-cB 3r52-a1-m1-cC_3r52-a1-m1-cD 4ddn-a1-m1-cC_4ddn-a1-m1-cD MALQLAAHSDARSGPVGSNGGQFWSFRPVRPLNKIVLSFSGSPDQTLNLISITFSSNPTDIITVGGVGPEPLTYTETVNIDGDIIEISGMIANYKGYNVIRSIKFTTNKKEYGPYGANAGTPFNIKIPDGNKIVGFFGNSGWYVDAIGAYYTAK MALQLAAHSDARSGPVGSNGGQFWSFRPVRPLNKIVLSFSGSPDQTLNLISITFSSNPTDIITVGGVGPEPLTYTETVNIDGDIIEISGMIANYKGYNVIRSIKFTTNKKEYGPYGANAGTPFNIKIPDGNKIVGFFGNSGWYVDAIGAYYTAK 4ddn-a1-m1-cA_4ddn-a1-m1-cD Structure analysis of a wound-inducible lectin ipomoelin from sweet potato P93193 P93193 1.9 X-RAY DIFFRACTION 10 1.0 4120 (Ipomoea batatas) 4120 (Ipomoea batatas) 154 154 4ddn-a1-m1-cB_4ddn-a1-m1-cC MALQLAAHSDARSGPVGSNGGQFWSFRPVRPLNKIVLSFSGSPDQTLNLISITFSSNPTDIITVGGVGPEPLTYTETVNIDGDIIEISGMIANYKGYNVIRSIKFTTNKKEYGPYGANAGTPFNIKIPDGNKIVGFFGNSGWYVDAIGAYYTAK MALQLAAHSDARSGPVGSNGGQFWSFRPVRPLNKIVLSFSGSPDQTLNLISITFSSNPTDIITVGGVGPEPLTYTETVNIDGDIIEISGMIANYKGYNVIRSIKFTTNKKEYGPYGANAGTPFNIKIPDGNKIVGFFGNSGWYVDAIGAYYTAK 4ddq-a2-m1-cC_4ddq-a2-m1-cD Structural plasticity of the Bacillus subtilis GyrA homodimer P05653 P05653 3.3 X-RAY DIFFRACTION 76 0.996 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 455 455 RALPDVRDGLKPVHRRILYAMNDLGMTSDKPYKKSARIVGEVIGKYHPHGDSAVYESMVRMAQDFNYRYMLVDGHGNFGSVDGDSAAAMRYTEARMSKISMEILRDITKDTIDYQDNYDGSEREPVVMPSRFPNLLVNGAAGIGMATNIPPHQLGEIIDGVLAVSENPDITIPELMEVIPGPDFPTAGQILGRSGIRKAYESGRGSITIRAKAEIEQTSSGKERIIVTELPYQVNKAKLIEKIADLVRDKKIEGITDLRDESDRTGMRIVIEIRRDANANVILNNLYKQTALQTSFGINLLALVDGQPKVLTLKQCLEHYLDHQKVVIRRRTAYELRKAEARAHILEGLRVALDHLDAVISLIRNSQTAEIARTGLIEQFSLTEKQAQAILDMRLQRLTGLEREKIEEEYQSLVKLIAELKDILANEYKVLEIIREELTEIKERFNDERRTEIVT VSRALPDVRDGLKPVHRRILYAMNDLGMTSDKPYKKSARIVGEVIGKYHPHGDSAVYESMVRMAQDFNYRYMLVDGHGNFGSVDGDSAAAMRYTEARMSKISMEILRDITKDTIDYQDNYDGSEREPVVMPSRFPNLLVNGAAGIATNIPPHQLGEIIDGVLAVSENPDITIPELMEVIPGPDFPTAGQILGRSGIRKAYESGRGSITIRAKAEIEQTSSGKERIIVTELPYQVNKAKLIEKIADLVRDKKIEGITDLRDESDRTGMRIVIEIRRDANANVILNNLYKQTALQTSFGINLLALVDGQPKVLTLKQCLEHYLDHQKVVIRRRTAYELRKAEARAHILEGLRVALDHLDAVISLIRNSQTAEIARTGLIEQFSLTEKQAQAILDMRLQRLTGLEREKIEEEYQSLVKLIAELKDILANEYKVLEIIREELTEIKERFNDERRTEIVT 4ddq-a3-m1-cF_4ddq-a3-m1-cE Structural plasticity of the Bacillus subtilis GyrA homodimer P05653 P05653 3.3 X-RAY DIFFRACTION 75 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 452 456 4ddq-a1-m1-cB_4ddq-a1-m1-cA ALPDVRDGLKPVHRRILYAMNDLGMTSDKPYKKSARIVGEVIGKYHPHGDSAVYESMVRMAQDFNYRYMLVDGHGNFGSVDGDSAAAMRYTEARMSKISMEILRDITKDTIDYQDNYDGSEREPVVMPSRFPNLLVNGAAGMATNIPPHQLGEIIDGVLAVSENPDITIPELMEVIPGPDFPTAGQILGRSGIRKAYESGRGSITIRAKAEIEQTSSGKERIIVTELPYQVNKAKLIEKIADLVRDKKIEGITDLRDESDRTGMRIVIEIRRDANANVILNNLYKQTALQTSFGINLLALVDGQPKVLTLKQCLEHYLDHQKVVIRRRTAYELRKAEARAHILEGLRVALDHLDAVISLIRNSQTAEIARTGLIEQFSLTEKQAQAILDMRLQRLTGLEREKIEEEYQSLVKLIAELKDILANEYKVLEIIREELTEIKERFNDERRTEIVT SRALPDVRDGLKPVHRRILYAMNDLGMTSDKPYKKSARIVGEVIGKYHPHGDSAVYESMVRMAQDFNYRYMLVDGHGNFGSVDGDSAAAMRYTEARMSKISMEILRDITKDTIDYQDNYDGSEREPVVMPSRFPNLLVNGAAGIGMATNIPPHQLGEIIDGVLAVSENPDITIPELMEVIPGPDFPTAGQILGRSGIRKAYESGRGSITIRAKAEIEQTSSGKERIIVTELPYQVNKAKLIEKIADLVRDKKIEGITDLRDESDRTGMRIVIEIRRDANANVILNNLYKQTALQTSFGINLLALVDGQPKVLTLKQCLEHYLDHQKVVIRRRTAYELRKAEARAHILEGLRVALDHLDAVISLIRNSQTAEIARTGLIEQFSLTEKQAQAILDMRLQRLTGLEREKIEEEYQSLVKLIAELKDILANEYKVLEIIREELTEIKERFNDERRTEIVT 4dej-a4-m1-cG_4dej-a4-m1-cH Crystal structure of glutathione transferase-like protein IL0419 (Target EFI-501089) from Idiomarina loihiensis L2TR Q5R0K1 Q5R0K1 2.9 X-RAY DIFFRACTION 52 1.0 283942 (Idiomarina loihiensis L2TR) 283942 (Idiomarina loihiensis L2TR) 201 201 4dej-a1-m1-cB_4dej-a1-m1-cA 4dej-a2-m1-cC_4dej-a2-m1-cD 4dej-a3-m1-cF_4dej-a3-m1-cE 4dej-a5-m1-cI_4dej-a5-m1-cJ 4dej-a6-m1-cL_4dej-a6-m1-cK RSVMTLYSGKDDLKSHQVRLVLAEKGVGVEITYVTDESTPEDLLQLNPYPEAKPTLVDRELVLYNAQIIMEYLDERFPHPPLMPVYPVARGTSRLMMYRIERDWYSLAEKIQKNDAQARQELKEGILSLAPIFADTPYFMSEEFSLVDCYLAPLLWRLPAYGIDLEGQGAKEIKQYMVRLFERKTFQDSLTEEEKELARNA RSVMTLYSGKDDLKSHQVRLVLAEKGVGVEITYVTDESTPEDLLQLNPYPEAKPTLVDRELVLYNAQIIMEYLDERFPHPPLMPVYPVARGTSRLMMYRIERDWYSLAEKIQKNDAQARQELKEGILSLAPIFADTPYFMSEEFSLVDCYLAPLLWRLPAYGIDLEGQGAKEIKQYMVRLFERKTFQDSLTEEEKELARNA 4deq-a1-m1-cB_4deq-a1-m1-cA Structure of the Neuropilin-1/VEGF-A complex P15692 P15692 2.649 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 217 MKCMEALGMESGEIHSDQITASSQYSTNWSAERSRLNYPENGWTPGEDSYREWIQVDLGLLRFVTAVGTQGAISKETKKKYYVKTYKIDVSSNGEDWITIKEGNKPVLFQGNTNPTDVVVAVFPKPLITRFVRIKPATWETGISMRFEVYGCKITDYVDGSGSGSPCGPCSERRKHLFVQDPQTCKCSCKNTDSRCKARQLELNERTCRCDKPRR SHMKCMEALGMESGEIHSDQITASSQYSTNWSAERSRLNYPENGWTPGEDSYREWIQVDLGLLRFVTAVGTQGAISKETKKKYYVKTYKIDVSSNGEDWITIKEGNKPVLFQGNTNPTDVVVAVFPKPLITRFVRIKPATWETGISMRFEVYGCKITDYVDGSGSGSPCGPCSERRKHLFVQDPQTCKCSCKNTDSRCKARQLELNERTCRCDKPRR 4dev-a2-m1-cD_4dev-a2-m1-cH An Acetyl Xylan Esterase (Est2A) from the Rumen Bacterium Butyrivibrio proteoclasticus. E0RVY7 E0RVY7 2 X-RAY DIFFRACTION 60 1.0 515622 (Butyrivibrio proteoclasticus B316) 515622 (Butyrivibrio proteoclasticus B316) 373 373 3u37-a1-m1-cA_3u37-a1-m1-cB 3u37-a1-m1-cC_3u37-a1-m1-cD 3u37-a2-m1-cE_3u37-a2-m1-cF 3u37-a2-m1-cG_3u37-a2-m1-cH 4dev-a1-m1-cA_4dev-a1-m1-cC 4dev-a1-m1-cF_4dev-a1-m1-cG 4dev-a2-m1-cB_4dev-a2-m1-cE VLQYTEISNISSDKINILGRTGKKRQPLPVFFNGGGVEVVVTGSELWIDLETDSDVNEMWVALEINGAFIARQMLLPGEHSLCLFRSMEKTTPKRVRLYRELQAMNDDPKVKLLFKGFKHDGEFQNVPVYSRKLEFIGDSITSGEGSYGAFDDVDWIPMYMSASANYATMTAKALNADYHLVSQGGWGVFCGWDNDVRHNLPSVYEKVCGLAKGEMNEELGAQEEYDFASWQPDAIIVNLGTNDVTSFNQPEFLNPDDGKTYKMRTNTDGTRNREDELKIVSAIIDFLTMLRKHNPNAQIIWSYGMLGSDLNLVITEGINKYKENAGDEKVSFFQLPNTTMENFGSHMAPGPKSHQNAAKELVDYLRNKLGWF VLQYTEISNISSDKINILGRTGKKRQPLPVFFNGGGVEVVVTGSELWIDLETDSDVNEMWVALEINGAFIARQMLLPGEHSLCLFRSMEKTTPKRVRLYRELQAMNDDPKVKLLFKGFKHDGEFQNVPVYSRKLEFIGDSITSGEGSYGAFDDVDWIPMYMSASANYATMTAKALNADYHLVSQGGWGVFCGWDNDVRHNLPSVYEKVCGLAKGEMNEELGAQEEYDFASWQPDAIIVNLGTNDVTSFNQPEFLNPDDGKTYKMRTNTDGTRNREDELKIVSAIIDFLTMLRKHNPNAQIIWSYGMLGSDLNLVITEGINKYKENAGDEKVSFFQLPNTTMENFGSHMAPGPKSHQNAAKELVDYLRNKLGWF 4dev-a2-m1-cE_4dev-a2-m1-cH An Acetyl Xylan Esterase (Est2A) from the Rumen Bacterium Butyrivibrio proteoclasticus. E0RVY7 E0RVY7 2 X-RAY DIFFRACTION 87 1.0 515622 (Butyrivibrio proteoclasticus B316) 515622 (Butyrivibrio proteoclasticus B316) 372 373 3u37-a1-m1-cA_3u37-a1-m1-cC 3u37-a1-m1-cB_3u37-a1-m1-cD 3u37-a2-m1-cE_3u37-a2-m1-cG 3u37-a2-m1-cF_3u37-a2-m1-cH 3u37-a3-m1-cA_3u37-a3-m1-cC 3u37-a4-m1-cB_3u37-a4-m1-cD 3u37-a5-m1-cE_3u37-a5-m1-cG 3u37-a6-m1-cF_3u37-a6-m1-cH 4dev-a1-m1-cA_4dev-a1-m1-cF 4dev-a1-m1-cC_4dev-a1-m1-cG 4dev-a2-m1-cB_4dev-a2-m1-cD LQYTEISNISSDKINILGRTGKKRQPLPVFFNGGGVEVVVTGSELWIDLETDSDVNEMWVALEINGAFIARQMLLPGEHSLCLFRSMEKTTPKRVRLYRELQAMNDDPKVKLLFKGFKHDGEFQNVPVYSRKLEFIGDSITSGEGSYGAFDDVDWIPMYMSASANYATMTAKALNADYHLVSQGGWGVFCGWDNDVRHNLPSVYEKVCGLAKGEMNEELGAQEEYDFASWQPDAIIVNLGTNDVTSFNQPEFLNPDDGKTYKMRTNTDGTRNREDELKIVSAIIDFLTMLRKHNPNAQIIWSYGMLGSDLNLVITEGINKYKENAGDEKVSFFQLPNTTMENFGSHMAPGPKSHQNAAKELVDYLRNKLGWF VLQYTEISNISSDKINILGRTGKKRQPLPVFFNGGGVEVVVTGSELWIDLETDSDVNEMWVALEINGAFIARQMLLPGEHSLCLFRSMEKTTPKRVRLYRELQAMNDDPKVKLLFKGFKHDGEFQNVPVYSRKLEFIGDSITSGEGSYGAFDDVDWIPMYMSASANYATMTAKALNADYHLVSQGGWGVFCGWDNDVRHNLPSVYEKVCGLAKGEMNEELGAQEEYDFASWQPDAIIVNLGTNDVTSFNQPEFLNPDDGKTYKMRTNTDGTRNREDELKIVSAIIDFLTMLRKHNPNAQIIWSYGMLGSDLNLVITEGINKYKENAGDEKVSFFQLPNTTMENFGSHMAPGPKSHQNAAKELVDYLRNKLGWF 4dez-a2-m1-cA_4dez-a2-m2-cA Structure of MsDpo4 A0QR77 A0QR77 2.6 X-RAY DIFFRACTION 50 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 232 232 TKWVLHVDLDQFLASVELRRRPDLRGQPVIVGGSRKVVTCASYEAREFGVHAGMPLRAAARRCPDATFLPSDPAAYDEASEQVMGLLRDLGHPLEVWGWDEAYLGADLPDESDPVEVAERIRTVVAAETGLSCSVGISDNKQRAKVATGFAKPAGIYVLTEANWMTVMGDRPPDALWGVGPKTTKKLAAMGITTVADLAVTDPSVLTTAFGPSTGLWLLLLAKGGGDTEVSS TKWVLHVDLDQFLASVELRRRPDLRGQPVIVGGSRKVVTCASYEAREFGVHAGMPLRAAARRCPDATFLPSDPAAYDEASEQVMGLLRDLGHPLEVWGWDEAYLGADLPDESDPVEVAERIRTVVAAETGLSCSVGISDNKQRAKVATGFAKPAGIYVLTEANWMTVMGDRPPDALWGVGPKTTKKLAAMGITTVADLAVTDPSVLTTAFGPSTGLWLLLLAKGGGDTEVSS 4df0-a1-m1-cA_4df0-a1-m1-cB Crystal structure of orotidine 5'-monophosphate decarboxylase from Thermoproteus neutrophilus B1Y9Q9 B1Y9Q9 1.5 X-RAY DIFFRACTION 89 1.0 444157 (Pyrobaculum neutrophilum V24Sta) 444157 (Pyrobaculum neutrophilum V24Sta) 199 199 4df1-a1-m1-cA_4df1-a1-m1-cB NLPLVVALDTEVLKAIDVAKRLKGAVAGFKVGWDLIFEGGISIVGEIARYGNVIVDLKIADVPHVASRVVEKLVNRGACCVIVHGFLHPSLPRGQHVYVLVKMTAPTIYDEMWEKLLNSVQDVRGFVLPGNQPEVVAQARKRIGCSYRIISPGIGPQGGRPGAAIEAGADFEIVGRYVLEDPARISQWAQYRPTCFETP NLPLVVALDTEVLKAIDVAKRLKGAVAGFKVGWDLIFEGGISIVGEIARYGNVIVDLKIADVPHVASRVVEKLVNRGACCVIVHGFLHPSLPRGQHVYVLVKMTAPTIYDEMWEKLLNSVQDVRGFVLPGNQPEVVAQARKRIGCSYRIISPGIGPQGGRPGAAIEAGADFEIVGRYVLEDPARISQWAQYRPTCFETP 4df9-a3-m1-cE_4df9-a3-m1-cF Crystal structure of a putative peptidase (BF3526) from Bacteroides fragilis NCTC 9343 at 2.17 A resolution Q5L9L3 Q5L9L3 2.17 X-RAY DIFFRACTION 85 0.997 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 398 398 4df9-a1-m1-cA_4df9-a1-m1-cB 4df9-a2-m1-cD_4df9-a2-m1-cC NFSDYFTNKTLRIDYLFTGNADKQSICLDELSELPVWAGRRHHLSELPLEGNGQIVRDVASGKVIYTTSFSSLFQEWLETDEAKEVTKGFENTYLLPYPIKPAEVEITLRNNKREVSANLKHVVKPDDILIHKKGLTHITPHKYLLKSGNEEQCIDVAILAEGYTTSEETFYKDAAIACEALFSHEPFQSKNRFNIVAVASPSADSGVSAPKQGAWKHTAFGSHFDTFYSDRYLTTSRVKAINDALAGIPYEHIIILANTEQYGGGGIYNAFTLTTAHHPNFRPVVVHEFGHSFGGLADEYFYDENGLYPLNIEPWEQNITTRINFASKWEDLTKTTPVPTPVADKAKYPIGVYEGGGYSAKGIYRPAFDCRRTNEYPTFCPVCQRAIQRIIEFYTGK QNFSDYFTNKTLRIDYLFTGNADKQSICLDELSELPVWAGRRHHLSELPLEGNGQIVRDVASGKVIYTTSFSSLFQEWLETDEAKEVTKGFENTYLLPYPIKPAEVEITLRNNKREVSANLKHVVKPDDILIHKKGLTHITPHKYLLKSGNEEQCIDVAILAEGYTTSEETFYKDAAIACEALFSHEPFQSKNRFNIVAVASPSADSGVSAPKQGAWKHTAFGSHFDTFYSDRYLTTSRVKAINDALAGIPYEHIIILANTEQYGGGGIYNAFTLTTAHHPNFRPVVVHEFGHSFGGLADEYFYDNGLYPLNIEPWEQNITTRINFASKWEDLTKTTPVPTPVADKAKYPIGVYEGGGYSAKGIYRPAFDCRRTNEYPTFCPVCQRAIQRIIEFYTGK 4dfe-a2-m1-cC_4dfe-a2-m1-cB Crystal structure of 3-oxoacyl-[acyl-carrier-protein] synthase III from Burkholderia xenovorans Q13VL5 Q13VL5 2.35 X-RAY DIFFRACTION 238 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 321 323 4dfe-a1-m1-cA_4dfe-a1-m1-cD TIYSRVLGTGSYLPPNRVTNQDLAKRLAIETSDEWIVARTGIHARYFAEPDVTTSDLAFIASQRAIEAADIDPQSIDLIIVATSTPDFVFPSTACLLQNKLGIRNHGAAFDVQAVSGFAYAVATADSFIRSGQHRTALVIGAETFSRILDFKDRTTCVLFGDGAGAVILQASDEPGVLASALHADGSHSNILCTPGNVNGGVVSGSAFLHMDGQAVFKLAVNVLEKVAVEALEKANLSAEQIDWLIPHQANIRIMQSTCRKLGLPQERMIVTVGEHGNTSAASIPLALDVAVRDGRIKRGQNVLIEGVGGGFTWGASVIRY TIYSRVLGTGSYLPPNRVTNQDLAKRLAEQIETSDEWIVARTGIHARYFAEPDVTTSDLAFIASQRAIEAADIDPQSIDLIIVATSTPDFVFPSTACLLQNKLGIRNHGAAFDVQAVSGFAYAVATADSFIRSGQHRTALVIGAETFSRILDFKDRTTCVLFGDGAGAVILQASDEPGVLASALHADGSHSNILCTPGNVNGGVVSGSAFLHMDGQAVFKLAVNVLEKVAVEALEKANLSAEQIDWLIPHQANIRIMQSTCRKLGLPQERMIVTVGEHGNTSAASIPLALDVAVRDGRIKRGQNVLIEGVGGGFTWGASVIRY 4dfy-a3-m1-cA_4dfy-a3-m2-cE Crystal structure of R194A mutant of cAMP-dependent protein kinase with unphosphorylated activation loop P05132 P05132 2.997 X-RAY DIFFRACTION 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 310 312 SVKEFLAKAKEDFLKKWETPSQNTAQLDQFDRIKTLGTGSFGRVMLVKHKESGNHYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVKLEFSFKDNSNLYMVMEYVAGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDQQGYIQVTDFGFATPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVNDIKNHKWFATTDWIAIYQRKVEAPFIPKFEEIRVINEKCGKEFTEF SVKEFLAKAKEDFLKKWETPSQNTAQLDQFDRIKTLGTGSFGRVMLVKHKESGNHYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVKLEFSFKDNSNLYMVMEYVAGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDQQGYIQVTDFGFACGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVNDIKNHKWFATTDWIAIYQRKVEAPFIPKFEEIRVINEKCGKEFTEF 4dfy-a4-m1-cA_4dfy-a4-m1-cE Crystal structure of R194A mutant of cAMP-dependent protein kinase with unphosphorylated activation loop P05132 P05132 2.997 X-RAY DIFFRACTION 72 1.0 10090 (Mus musculus) 10090 (Mus musculus) 310 312 4dfy-a3-m1-cA_4dfy-a3-m1-cE 4dfy-a3-m2-cA_4dfy-a3-m2-cE SVKEFLAKAKEDFLKKWETPSQNTAQLDQFDRIKTLGTGSFGRVMLVKHKESGNHYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVKLEFSFKDNSNLYMVMEYVAGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDQQGYIQVTDFGFATPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVNDIKNHKWFATTDWIAIYQRKVEAPFIPKFEEIRVINEKCGKEFTEF SVKEFLAKAKEDFLKKWETPSQNTAQLDQFDRIKTLGTGSFGRVMLVKHKESGNHYAMKILDKQKVVKLKQIEHTLNEKRILQAVNFPFLVKLEFSFKDNSNLYMVMEYVAGGEMFSHLRRIGRFSEPHARFYAAQIVLTFEYLHSLDLIYRDLKPENLLIDQQGYIQVTDFGFACGTPEYLAPEIILSKGYNKAVDWWALGVLIYEMAAGYPPFFADQPIQIYEKIVSGKVRFPSHFSSDLKDLLRNLLQVDLTKRFGNLKNGVNDIKNHKWFATTDWIAIYQRKVEAPFIPKFEEIRVINEKCGKEFTEF 4dg7-a1-m1-cF_4dg7-a1-m1-cH Low resolution structure of Drosophila Translin Q7JVK6 Q7JVK6 4.195 X-RAY DIFFRACTION 16 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 215 217 LDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAEMLGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTMGDYERPLNISHFIGDLNTGFRLLNLKNDGLRKRFDALKYDVKKIEEVVYDVSIRGLSSK VNLDIFSNYQKYIDNEQEVRENIRIVVREIEHLSKEAQIKLQIIHSDLSQISAACGLARKQVELCAQKYQKLAELVPAGQYYRYSDHWTFITQRLIFIIALVIYLEAGFLVTRETVAEMLGLKISQSEGFHLDVEDYLLGILQLASELSRFATNSVTMGDYERPLNISHFIGDLNTGFRLLNLKNDGLRKRFDALKYDVKKIEEVVYDVSIRGLSSK 4dgh-a3-m2-cB_4dgh-a3-m4-cB Structure of SulP Transporter STAS Domain from Vibrio Cholerae Refined to 1.9 Angstrom Resolution Q9KN88 Q9KN88 1.9 X-RAY DIFFRACTION 52 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 124 124 3mgl-a1-m1-cA_3mgl-a1-m3-cA 3mgl-a1-m1-cA_3mgl-a1-m4-cA 3mgl-a1-m1-cB_3mgl-a1-m3-cB 3mgl-a1-m1-cB_3mgl-a1-m4-cB 3mgl-a1-m2-cA_3mgl-a1-m3-cA 3mgl-a1-m2-cA_3mgl-a1-m4-cA 3mgl-a1-m2-cB_3mgl-a1-m3-cB 3mgl-a1-m2-cB_3mgl-a1-m4-cB 4dgh-a1-m1-cA_4dgh-a1-m3-cA 4dgh-a1-m1-cA_4dgh-a1-m4-cA 4dgh-a1-m2-cA_4dgh-a1-m3-cA 4dgh-a1-m2-cA_4dgh-a1-m4-cA 4dgh-a2-m1-cB_4dgh-a2-m3-cB 4dgh-a2-m1-cB_4dgh-a2-m4-cB 4dgh-a2-m2-cB_4dgh-a2-m3-cB 4dgh-a2-m2-cB_4dgh-a2-m4-cB 4dgh-a3-m1-cA_4dgh-a3-m3-cA 4dgh-a3-m1-cA_4dgh-a3-m4-cA 4dgh-a3-m1-cB_4dgh-a3-m3-cB 4dgh-a3-m1-cB_4dgh-a3-m4-cB 4dgh-a3-m2-cA_4dgh-a3-m3-cA 4dgh-a3-m2-cA_4dgh-a3-m4-cA 4dgh-a3-m2-cB_4dgh-a3-m3-cB NAESYELAQHGRSTLPRELAVYALEGPFFFAAAETFERVGSIQETPQILILRLKWVPFDITGIQTLEEIQSFHKRGIKVLISGANSRVSQKLVKAGIVKLVGEQNVYPVFEGALSAALTEIEAQ NAESYELAQHGRSTLPRELAVYALEGPFFFAAAETFERVGSIQETPQILILRLKWVPFDITGIQTLEEIQSFHKRGIKVLISGANSRVSQKLVKAGIVKLVGEQNVYPVFEGALSAALTEIEAQ 4dgh-a3-m4-cA_4dgh-a3-m4-cB Structure of SulP Transporter STAS Domain from Vibrio Cholerae Refined to 1.9 Angstrom Resolution Q9KN88 Q9KN88 1.9 X-RAY DIFFRACTION 32 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 124 124 3mgl-a1-m1-cB_3mgl-a1-m1-cA 3mgl-a1-m2-cB_3mgl-a1-m2-cA 3mgl-a1-m3-cB_3mgl-a1-m3-cA 3mgl-a1-m4-cB_3mgl-a1-m4-cA 4dgh-a3-m1-cA_4dgh-a3-m1-cB 4dgh-a3-m2-cA_4dgh-a3-m2-cB 4dgh-a3-m3-cA_4dgh-a3-m3-cB NAESYELAQHGRSTLPRELAVYALEGPFFFAAAETFERVGSIQETPQILILRLKWVPFDITGIQTLEEIQSFHKRGIKVLISGANSRVSQKLVKAGIVKLVGEQNVYPVFEGALSAALTEIEAQ NAESYELAQHGRSTLPRELAVYALEGPFFFAAAETFERVGSIQETPQILILRLKWVPFDITGIQTLEEIQSFHKRGIKVLISGANSRVSQKLVKAGIVKLVGEQNVYPVFEGALSAALTEIEAQ 4dgq-a1-m1-cB_4dgq-a1-m1-cC Crystal structure of Non-heme chloroperoxidase from Burkholderia cenocepacia B4EA96 B4EA96 1.85 X-RAY DIFFRACTION 56 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 277 277 4dgq-a1-m1-cA_4dgq-a1-m1-cB 4dgq-a1-m1-cA_4dgq-a1-m1-cC SMGTVTTKDGVEIFYKDWGPRDAKVIHFHHGWPLSSDDWDAQLLFFVNKGFRVVAHDRRGHGRSSQVWDGHDMDHYADDAAAVVEKLGTHGAMHVGHSTGGGEVVRYIARHGERNVSKAVLISSVPPLMVKTSSNPNGTPKSVFDDFQAHVAANRAQFYLDVPAGPFYGYNRPGAKPSEGVIYNWWRQGMMGSTKAQYDGIVAFSQTDFTNDLKGITIPVLVIHGDDDQVVPYADSGVLSAKLVKNGKLITYKGAPHGIPTTHADKVNADLLEFLQS SMGTVTTKDGVEIFYKDWGPRDAKVIHFHHGWPLSSDDWDAQLLFFVNKGFRVVAHDRRGHGRSSQVWDGHDMDHYADDAAAVVEKLGTHGAMHVGHSTGGGEVVRYIARHGERNVSKAVLISSVPPLMVKTSSNPNGTPKSVFDDFQAHVAANRAQFYLDVPAGPFYGYNRPGAKPSEGVIYNWWRQGMMGSTKAQYDGIVAFSQTDFTNDLKGITIPVLVIHGDDDQVVPYADSGVLSAKLVKNGKLITYKGAPHGIPTTHADKVNADLLEFLQS 4dgs-a1-m1-cA_4dgs-a1-m2-cA The crystals structure of dehydrogenase from Rhizobium meliloti Q931A1 Q931A1 2.5 X-RAY DIFFRACTION 143 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 268 268 LLLVEPPFVDELQRNYSVHRLYQAADRPALEAALPSIRAVATGGGAGLSNEWEKLPSLGIIAINGVGTDKVDLARARRRNIDVTTTPGVLADDVADLGIALLAVLRRVGDGDRLVREGRWPLGHSPKGKRIGVLGLGQIGRALASRAEAFGSVRYWNRSTLSGVDWIAHQSPVDLARDSDVLAVCVDASLLQALGPEGIVVNVARGGTIAGAGLDVFVNEPAIRSEFHTTPNTVLPHQGSATVETRAGKLVLANLAAHFAGEKAPNTV LLLVEPPFVDELQRNYSVHRLYQAADRPALEAALPSIRAVATGGGAGLSNEWEKLPSLGIIAINGVGTDKVDLARARRRNIDVTTTPGVLADDVADLGIALLAVLRRVGDGDRLVREGRWPLGHSPKGKRIGVLGLGQIGRALASRAEAFGSVRYWNRSTLSGVDWIAHQSPVDLARDSDVLAVCVDASLLQALGPEGIVVNVARGGTIAGAGLDVFVNEPAIRSEFHTTPNTVLPHQGSATVETRAGKLVLANLAAHFAGEKAPNTV 4dgt-a2-m1-cA_4dgt-a2-m2-cB Crystal structure of PLP-bound putative aminotransferase from Clostridium difficile 630 crystallized with magnesium formate Q183G9 Q183G9 1.55 X-RAY DIFFRACTION 36 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 387 387 NYNFNEIVDRSNNFSSKWSEMEKKYGTNDLLPMWVADMDFKAAPCIIDSLKNRLEQEIYGYTTRPDSYNESIVNWLYRRHNWKIKSEWLIYSPGVIPAISLLINELTKANDKIMIQEPVYSPFNSVVKNNNRELIISPLQKLENGNYIMDYEDIENKIKDVKLFILCNPHNPVGRVWTKDELKKLGDICLKHNVKIISDEIHSDIILKKHKHIPMASISKEFEKNTITCMAPTKTFNIAGLQSSYVVLPDEKDYKLLDDAFTRIDIKRNNCFSLVATEASYNNGESWLESFLEYLESNIDFAIKYINENMPKLKVRKPEGTYLLWVDFSALGLSDEELESILVQKGKVALNQGNSFGIGGSGYQRINLACPRSMLEEALIRIKNAIN NYNFNEIVDRSNNFSSKWSEMEKKYGTNDLLPMWVADMDFKAAPCIIDSLKNRLEQEIYGYTTRPDSYNESIVNWLYRRHNWKIKSEWLIYSPGVIPAISLLINELTKANDKIMIQEPVYSPFNSVVKNNNRELIISPLQKLENGNYIMDYEDIENKIKDVKLFILCNPHNPVGRVWTKDELKKLGDICLKHNVKIISDEIHSDIILKKHKHIPMASISKEFEKNTITCMAPTKTFNIAGLQSSYVVLPDEKDYKLLDDAFTRIDIKRNNCFSLVATEASYNNGESWLESFLEYLESNIDFAIKYINENMPKLKVRKPEGTYLLWVDFSALGLSDEELESILVQKGKVALNQGNSFGIGGSGYQRINLACPRSMLEEALIRIKNAIN 4dgu-a1-m1-cB_4dgu-a1-m2-cB Crystal structure of a putative cell adhesion protein (BT0320) from Bacteroides thetaiotaomicron VPI-5482 at 2.37 A resolution Q8AAZ2 Q8AAZ2 2.37 X-RAY DIFFRACTION 15 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 222 222 4dgu-a1-m1-cA_4dgu-a1-m2-cA EATNFSISIDDALSDPLTRTSNDLFPARNSITTGEVISAASGQDYTPFIVGKDSRAWNTGTVTFYAHYPALTNKRYLKGGQEHLFGTAEAAPGSQNVSLKFKRTVPVIILDENDRPYEGEAKVELSLKNEGTQDLLNGTIEINENALSENIEVKKVSEGVTTNVLPQKINAGEEIGTITVGGVTQKISAVEDLDLKAGSTLSVRLSKKFGGGIIDGNVPLYR EATNFSISIDDALSDPLTRTSNDLFPARNSITTGEVISAASGQDYTPFIVGKDSRAWNTGTVTFYAHYPALTNKRYLKGGQEHLFGTAEAAPGSQNVSLKFKRTVPVIILDENDRPYEGEAKVELSLKNEGTQDLLNGTIEINENALSENIEVKKVSEGVTTNVLPQKINAGEEIGTITVGGVTQKISAVEDLDLKAGSTLSVRLSKKFGGGIIDGNVPLYR 4dgu-a1-m2-cB_4dgu-a1-m1-cA Crystal structure of a putative cell adhesion protein (BT0320) from Bacteroides thetaiotaomicron VPI-5482 at 2.37 A resolution Q8AAZ2 Q8AAZ2 2.37 X-RAY DIFFRACTION 33 0.991 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 222 230 4dgu-a1-m1-cB_4dgu-a1-m2-cA EATNFSISIDDALSDPLTRTSNDLFPARNSITTGEVISAASGQDYTPFIVGKDSRAWNTGTVTFYAHYPALTNKRYLKGGQEHLFGTAEAAPGSQNVSLKFKRTVPVIILDENDRPYEGEAKVELSLKNEGTQDLLNGTIEINENALSENIEVKKVSEGVTTNVLPQKINAGEEIGTITVGGVTQKISAVEDLDLKAGSTLSVRLSKKFGGGIIDGNVPLYR TNFSISIDDALSDPLTRTSNDLFPARNSITTGEVISAASGQDYTPFIVGKDSRAWNEIGTATGTVTFYAHYPALTDEAATNKRYLKGGQEHLFGTAEAAPGSQNVSLKFKRTVPVIILDENDRPYEGEAKVELSLKNEGTQDLLNGTIEINENALSENIEVKKVSEGVTTNVLPQKINAGEEIGTITVGGVTQKISAVEDLDLKAGSTLSVRLSKKFGGGIIDGNVPLYR 4dgu-a2-m1-cB_4dgu-a2-m1-cA Crystal structure of a putative cell adhesion protein (BT0320) from Bacteroides thetaiotaomicron VPI-5482 at 2.37 A resolution Q8AAZ2 Q8AAZ2 2.37 X-RAY DIFFRACTION 202 0.991 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 222 230 4dgu-a1-m1-cB_4dgu-a1-m1-cA 4dgu-a1-m2-cB_4dgu-a1-m2-cA EATNFSISIDDALSDPLTRTSNDLFPARNSITTGEVISAASGQDYTPFIVGKDSRAWNTGTVTFYAHYPALTNKRYLKGGQEHLFGTAEAAPGSQNVSLKFKRTVPVIILDENDRPYEGEAKVELSLKNEGTQDLLNGTIEINENALSENIEVKKVSEGVTTNVLPQKINAGEEIGTITVGGVTQKISAVEDLDLKAGSTLSVRLSKKFGGGIIDGNVPLYR TNFSISIDDALSDPLTRTSNDLFPARNSITTGEVISAASGQDYTPFIVGKDSRAWNEIGTATGTVTFYAHYPALTDEAATNKRYLKGGQEHLFGTAEAAPGSQNVSLKFKRTVPVIILDENDRPYEGEAKVELSLKNEGTQDLLNGTIEINENALSENIEVKKVSEGVTTNVLPQKINAGEEIGTITVGGVTQKISAVEDLDLKAGSTLSVRLSKKFGGGIIDGNVPLYR 4dh4-a1-m2-cA_4dh4-a1-m3-cA Macrophage migration inhibitory factor Toxoplasma gondii A1XDS9 A1XDS9 1.82 X-RAY DIFFRACTION 98 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 114 114 4dh4-a1-m1-cA_4dh4-a1-m2-cA 4dh4-a1-m1-cA_4dh4-a1-m3-cA PKCMIFCPVAATPAQQDALLKDAEKAVADALGKPLSYVMVGYSQTGQMRFGGSSDPCAFIRVASIGGITSSTNCKIAAALSAACERHLGVPKNRIYTTFTNKSPSEWAMGDRTF PKCMIFCPVAATPAQQDALLKDAEKAVADALGKPLSYVMVGYSQTGQMRFGGSSDPCAFIRVASIGGITSSTNCKIAAALSAACERHLGVPKNRIYTTFTNKSPSEWAMGDRTF 4dhd-a1-m1-cA_4dhd-a1-m2-cA Crystal structure of isoprenoid synthase A3MSH1 (TARGET EFI-501992) from Pyrobaculum calidifontis A3MSH1 A3MSH1 1.65 X-RAY DIFFRACTION 125 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 328 328 4gp1-a1-m1-cA_4gp1-a1-m2-cA 4gp2-a1-m1-cB_4gp2-a1-m1-cA MDVVSRLHQKYGAEVEKALVRYLSIGLAEDFREAVLYQVKTGGKRLRPLLTLAAAEAVSGQWRPALPAAAIVELIHNYSLIYDDIIDRGDVRRGLPTVRKAFGDNAAILVGIWYREAIEEAVLDTPKPTLFAKEVAEVIKAIDEGERLDILFEAAGRSDPYFVQARWREVTLDDYIKMVSLKTGALIAAAAKWGVLSVSDDRGLAEAAWNFGMAAGVAFQIIDDVLDIYGEIGKDIKEHKRGNAVVAVALSHLGEGERRRLLEILAREVVEEADVREAVALLDSVGAREEALRLAARYREEAERHLAKIPNNGTLKELLDFIVAREYA MDVVSRLHQKYGAEVEKALVRYLSIGLAEDFREAVLYQVKTGGKRLRPLLTLAAAEAVSGQWRPALPAAAIVELIHNYSLIYDDIIDRGDVRRGLPTVRKAFGDNAAILVGIWYREAIEEAVLDTPKPTLFAKEVAEVIKAIDEGERLDILFEAAGRSDPYFVQARWREVTLDDYIKMVSLKTGALIAAAAKWGVLSVSDDRGLAEAAWNFGMAAGVAFQIIDDVLDIYGEIGKDIKEHKRGNAVVAVALSHLGEGERRRLLEILAREVVEEADVREAVALLDSVGAREEALRLAARYREEAERHLAKIPNNGTLKELLDFIVAREYA 4dhk-a3-m6-cB_4dhk-a3-m1-cA Crystal structure of a deoxycytidine triphosphate deaminase (dCTP deaminase) from Burkholderia thailandensis Q2T083 Q2T083 2.05 X-RAY DIFFRACTION 36 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 159 171 4dhk-a3-m4-cB_4dhk-a3-m2-cA 4dhk-a3-m5-cB_4dhk-a3-m3-cA IKSDKWIRRMAEEHKMIEPFVPDQVRAAEDGRRIVSYGTSSYGYDIRCADEFKIFTNINSTIVDPKNFDEGSFVDFKGDVCIIPPNSFALARTVEYFRIPRTVLTVCLGKSTYARCGIIVNVTPFEPEWEGYVTLEFSNTTPLPAKIYANEGVAQVLFF IKSDKWIRRMAEEHKMIEPFVPDQVRAAEDGRRIVSYGTSSYGYDIRCADEFKIFTNINSTIVDPKNFDEGSFVDFKGDVCIIPPNSFALARTVEYFRIPRTVLTVCLGKSTYARCGIIVNVTPFEPEWEGYVTLEFSNTTPLPAKIYANEGVAQVLFFESDEVCDVSYAD 4dhk-a3-m6-cB_4dhk-a3-m2-cA Crystal structure of a deoxycytidine triphosphate deaminase (dCTP deaminase) from Burkholderia thailandensis Q2T083 Q2T083 2.05 X-RAY DIFFRACTION 10 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 159 171 4dhk-a3-m4-cB_4dhk-a3-m3-cA 4dhk-a3-m5-cB_4dhk-a3-m1-cA IKSDKWIRRMAEEHKMIEPFVPDQVRAAEDGRRIVSYGTSSYGYDIRCADEFKIFTNINSTIVDPKNFDEGSFVDFKGDVCIIPPNSFALARTVEYFRIPRTVLTVCLGKSTYARCGIIVNVTPFEPEWEGYVTLEFSNTTPLPAKIYANEGVAQVLFF IKSDKWIRRMAEEHKMIEPFVPDQVRAAEDGRRIVSYGTSSYGYDIRCADEFKIFTNINSTIVDPKNFDEGSFVDFKGDVCIIPPNSFALARTVEYFRIPRTVLTVCLGKSTYARCGIIVNVTPFEPEWEGYVTLEFSNTTPLPAKIYANEGVAQVLFFESDEVCDVSYAD 4dhk-a5-m7-cB_4dhk-a5-m8-cB Crystal structure of a deoxycytidine triphosphate deaminase (dCTP deaminase) from Burkholderia thailandensis Q2T083 Q2T083 2.05 X-RAY DIFFRACTION 92 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 159 159 4dhk-a3-m1-cA_4dhk-a3-m2-cA 4dhk-a3-m1-cA_4dhk-a3-m3-cA 4dhk-a3-m2-cA_4dhk-a3-m3-cA 4dhk-a3-m4-cB_4dhk-a3-m5-cB 4dhk-a3-m4-cB_4dhk-a3-m6-cB 4dhk-a3-m5-cB_4dhk-a3-m6-cB 4dhk-a4-m1-cA_4dhk-a4-m2-cA 4dhk-a4-m1-cA_4dhk-a4-m3-cA 4dhk-a4-m2-cA_4dhk-a4-m3-cA 4dhk-a5-m1-cB_4dhk-a5-m7-cB 4dhk-a5-m1-cB_4dhk-a5-m8-cB IKSDKWIRRMAEEHKMIEPFVPDQVRAAEDGRRIVSYGTSSYGYDIRCADEFKIFTNINSTIVDPKNFDEGSFVDFKGDVCIIPPNSFALARTVEYFRIPRTVLTVCLGKSTYARCGIIVNVTPFEPEWEGYVTLEFSNTTPLPAKIYANEGVAQVLFF IKSDKWIRRMAEEHKMIEPFVPDQVRAAEDGRRIVSYGTSSYGYDIRCADEFKIFTNINSTIVDPKNFDEGSFVDFKGDVCIIPPNSFALARTVEYFRIPRTVLTVCLGKSTYARCGIIVNVTPFEPEWEGYVTLEFSNTTPLPAKIYANEGVAQVLFF 4dhv-a1-m1-cB_4dhv-a1-m1-cA Crystal structure of the Pyrococcus furiosus ferredoxin D14C variant containing the heterometallic [AgFe3S4] cluster P29603 P29603 1.95 X-RAY DIFFRACTION 34 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 65 66 AWKVSVDQDTCIGCAICALCPDVFEMNDEGKAQPKVEVIEDEELYNCAKEAMEACPVSAITIEEA AWKVSVDQDTCIGCAICASLCPDVFEMNDEGKAQPKVEVIEDEELYNCAKEAMEACPVSAITIEEA 4di0-a1-m1-cA_4di0-a1-m1-cB The structure of Rubrerythrin from Burkholderia pseudomallei Q3JK21 Q3JK21 1.9 X-RAY DIFFRACTION 182 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 139 140 AQLKGSKTEENLKYAFAGESQANRRYLYFASKADVEGQNDIAALFRSTAEGETGHAHGHLEYLEAVGDPATGLPFGTSRQNLQSAIAGETHEYTDMYPGMAKTARDEGFEEIANWFETLAKAERSHANRYTKALDGLVD MAQLKGSKTEENLKYAFAGESQANRRYLYFASKADVEGQNDIAALFRSTAEGETGHAHGHLEYLEAVGDPATGLPFGTSRQNLQSAIAGETHEYTDMYPGMAKTARDEGFEEIANWFETLAKAERSHANRYTKALDGLVD 4di1-a1-m1-cB_4di1-a1-m1-cA Crystal structure of enoyl-CoA hydratase EchA17 from Mycobacterium marinum B2HHI0 B2HHI0 2.25 X-RAY DIFFRACTION 96 0.996 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 236 238 4di1-a1-m1-cA_4di1-a1-m1-cC 4di1-a1-m1-cB_4di1-a1-m1-cC MNEFVSVVADQGLATLVVSRPPTNAMTRQVYREIVAAADELGRRDDIGAVVLFGGHEIFSAGDDMPELRTLNAPEADTAARVRLEAIDAVAAIPKPTVAAVTGYALGAGLTLALAADWRVSGDNVKFGATEILAGLIPGGGGMGRLTRVVGSSRAKELVFSGRFFDAEEALALGLIDDMVAPDDVYDSAVAWARRYLECPPRALAAAKAVINDVFELEATERAAAERRRYVELFAA NEFVSVVADQGLATLVVSRPPTNAMTRQVYREIVAAADELGRRDDIGAVVLFGGHEIFSAGDDMPELRTLNAPEADTAARVRLEAIDAVAAIPKPTVAAVTGYALGAGLTLALAADWRVSGDNVKFGATEILAGLIPGGGGMGRLTRVVGSSRAKELVFSGRFFDAEEALALGLIDDMVAPDDVYDSAVAWARRYLECPPRALAAAKAVINDVFELEATERAAAERRRYVELFAAGQR 4di6-a1-m1-cF_4di6-a1-m1-cD crystal structure of nucleoside-diphosphate kinase from Borrelia burgdorferi O51419 O51419 2.4 X-RAY DIFFRACTION 61 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 168 169 4di6-a1-m1-cA_4di6-a1-m1-cD 4di6-a1-m1-cC_4di6-a1-m1-cB 4di6-a1-m1-cC_4di6-a1-m1-cE 4di6-a1-m1-cE_4di6-a1-m1-cB 4di6-a1-m1-cF_4di6-a1-m1-cA 4dz6-a1-m1-cA_4dz6-a1-m1-cC 4dz6-a1-m1-cA_4dz6-a1-m1-cF 4dz6-a1-m1-cB_4dz6-a1-m1-cD 4dz6-a1-m1-cB_4dz6-a1-m1-cE 4dz6-a1-m1-cC_4dz6-a1-m1-cF 4dz6-a1-m1-cD_4dz6-a1-m1-cE SMLLQKTLCIVKPDGVRRGLIGDVVSRFERVGLKMVAAKMLIVDESLAKKHYLYDDIVFRHSEAVWNSLIKFISNSPVFTFVVEGVESIEVVRKLCGATEPKLAIPGTIRGDFSYHSFKYSNEKGFSIYNVIHASANEADAMREIPIWFKDNEILNYKRDDECEHYYC MSMLLQKTLCIVKPDGVRRGLIGDVVSRFERVGLKMVAAKMLIVDESLAKKHYLYDDIVFRHSEAVWNSLIKFISNSPVFTFVVEGVESIEVVRKLCGATEPKLAIPGTIRGDFSYHSFKYSNEKGFSIYNVIHASANEADAMREIPIWFKDNEILNYKRDDECEHYYC 4dib-a1-m1-cE_4dib-a1-m1-cA The crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Bacillus anthracis str. Sterne A0A348AAL1 A0A348AAL1 2.55 X-RAY DIFFRACTION 17 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 322 323 4dib-a1-m1-cD_4dib-a1-m1-cF 4dib-a2-m1-cG_4dib-a2-m1-cC 4dib-a2-m1-cH_4dib-a2-m1-cB MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRDPKELPWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHAYLRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINDAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVDELAK MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRDPKELPWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHAYLRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINDAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVDELAKQ 4dib-a2-m1-cB_4dib-a2-m1-cC The crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Bacillus anthracis str. Sterne A0A348AAL1 A0A348AAL1 2.55 X-RAY DIFFRACTION 123 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 321 321 4dib-a1-m1-cD_4dib-a1-m1-cA 4dib-a1-m1-cF_4dib-a1-m1-cE 4dib-a2-m1-cH_4dib-a2-m1-cG MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRDPKELPWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHALRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINDAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVDELAK MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRDPKELPWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHALRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINDAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVDELAK 4dib-a2-m1-cH_4dib-a2-m1-cC The crystal structure of glyceraldehyde-3-phosphate dehydrogenase from Bacillus anthracis str. Sterne A0A348AAL1 A0A348AAL1 2.55 X-RAY DIFFRACTION 27 1.0 260799 (Bacillus anthracis str. Sterne) 260799 (Bacillus anthracis str. Sterne) 312 321 4dib-a1-m1-cD_4dib-a1-m1-cE 4dib-a1-m1-cF_4dib-a1-m1-cA 4dib-a2-m1-cG_4dib-a2-m1-cB MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHALRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINDAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVDE MTRVAINGFGRIGRMVFRQAIKESAFEIVAINASYPSETLAHLIKYDTVHGKFDGTVEAFEDHLLVDGKMIRLLNNRDPKELPWTDLGVEVVIEATGKFNSKEKAILHVEAGAKKVILTAPGKNEDVTIVVGVNEDQLDITKHTVISNASCTTNCLAPVVKVLDEQFGIENGLMTTVHALRRARACGQSIIPTTTGAAKALAKVLPHLNGKLHGMALRVPTPNVSLVDLVVDVKRDVTVEAINDAFKTVANGALKGIVEFSEEPLVSIDFNTNTHSAIIDGLSTMVMGDRKVKVLAWYDNEWGYSRRVVDLVTLVVDELAK 4dik-a1-m1-cB_4dik-a1-m1-cA Flavo Di-iron protein H90A mutant from Thermotoga maritima Q9WZL4 Q9WZL4 1.75 X-RAY DIFFRACTION 112 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 400 402 1vme-a1-m1-cB_1vme-a1-m1-cA 4dil-a1-m1-cA_4dil-a1-m1-cB 5v8s-a1-m1-cB_5v8s-a1-m1-cA HHMPKIWTERIFDDPEIYVLRIDDDRIRYFEAVWEIPEGISYNAYLVKLNGANVLIDGWKGNYAKEFIDALSKIVDPKEITHIIVNHTEPDASGSLPATLKTIGHDVEIIASNFGKRLLEGFYGIKDVTVVKDGEEREIGGKKFKFVMTPWLHWPDTMVTYLDGILFSCDVGGGYLLPEILDDSNESVVERYLPHVTKYIVTVIGHYKNYILEGAEKLSSLKIKALLPGHGLIWKKDPQRLLNHYVSVAKGDPKKGKVTVIYDSMYGFVENVMKKAIDSLKEKGFTPVVYKFSDEERPAISEILKDIPDSEALIFGVSTYEAEIHPLMRFTLLEIIDKANYEKPVLVFGVHGWAPSAERTAGELLKETKFRILSFTEIKGSNMDERKIEEAISLLKKELE HHHHMPKIWTERIFDDPEIYVLRIDDDRIRYFEAVWEIPEGISYNAYLVKLNGANVLIDGWKGNYAKEFIDALSKIVDPKEITHIIVNHTEPDASGSLPATLKTIGHDVEIIASNFGKRLLEGFYGIKDVTVVKDGEEREIGGKKFKFVMTPWLHWPDTMVTYLDGILFSCDVGGGYLLPEILDDSNESVVERYLPHVTKYIVTVIGHYKNYILEGAEKLSSLKIKALLPGHGLIWKKDPQRLLNHYVSVAKGDPKKGKVTVIYDSMYGFVENVMKKAIDSLKEKGFTPVVYKFSDEERPAISEILKDIPDSEALIFGVSTYEAEIHPLMRFTLLEIIDKANYEKPVLVFGVHGWAPSAERTAGELLKETKFRILSFTEIKGSNMDERKIEEAISLLKKELE 4dio-a1-m1-cB_4dio-a1-m1-cA The crystal structure of transhydrogenase from Sinorhizobium meliloti F7X914 F7X914 2.6 X-RAY DIFFRACTION 119 0.988 707241 (Sinorhizobium meliloti SM11) 707241 (Sinorhizobium meliloti SM11) 320 333 EIVFIAKESDPNEGRVAGSVESVKKLKSLGFDVVVEAGAGLGSRIPDQEYEKAGARVGTAADAKTADVILKVRRPSAQEISGYRSGAVVIAIDPYGNEEAISAAGAGLTTFAELPRITRAQSDVLSSQANLAGYQAVIDAAYEYDRALPTAAGTVPAAKIFVGAGVAGLQAIATARRLGAVVSATDVRPAAKEQVASLGAKFIAAALVAEHIAKQDIVITTALIPGRPAPRLVTRELDSKPGSVVVDLAVERGGNIEGAEAGKVTEVGGVRIVGHLNVAGRIAASASLLYAKNLVTFLETVELVKATALTHGGAVVHPAF EIVFIAKESDPNEGRVAGSVESVKKLKSLGFDVVVEAGAGLGSRIPDQEYEKAGARVGTAADAKTADVILKVRRPSAQEISGYRSGAVVIAIDPYGNEEAISAAGAGLTTFAELPRITRAQSDVLSSQANLAGYQAVIDAAYEYDRALPTAAGTVPAAKIFVGAGVAGLQAIATARRLGAVVSATDVRPAAKEQVASLGAKFIAVEDGEYQVKQAALVAEHIAKQDIVITTALIPGRPAPRLVTRELDSKPGSVVVDLAVERGGNIEGAEAGKVTEVGGVRIVGHLNVAGRIAASASLLYAKNLVTFLETVALALNEDELVKATALTHGGAVV 4dj2-a2-m1-cD_4dj2-a2-m1-cB Unwinding the Differences of the Mammalian PERIOD Clock Proteins from Crystal Structure to Cellular Function O35973 O35973 2.75 X-RAY DIFFRACTION 58 0.996 10090 (Mus musculus) 10090 (Mus musculus) 246 279 4dj2-a1-m1-cC_4dj2-a1-m1-cA YTLRNQDTFSVAVLTGRIVYISEQAGVLLRCKRDVFRGARFSELLAPQDVGVFYGSTTPSRLPTWGEKSVFCRIRGRYQPFRLTPYVCCLLIAERIHSGYEAPRIPPDKRIFTTRHTPSCLFQDVDERAAPLLGYLPQDLLGAPVLLFLHPEDRPLMLAIHKKILQLAGQPFDHSPIRFCARNGEYVTMDTSWAGFVHPWSRKVAFVLGRHKVRTAPLNEDVFTPPDSDIQELSEQIHRLLLQPVH DMSTYTLEELEHITSEYTLRNQDTFSVAVSFLTGRIVYISEQAGVLLRCKRDVFRGARFSELLAPQDVGVFYGSTTPSRLPTWGEKSVFCRIRGGPGPRYQPFRLTPYVTKIRVSGAPAQPCCLLIAERIHSGYEAPRIPPDKRIFTTRHTPSCLFQDVDERAAPLLGYLPQDLLGAPVLLFLHPEDRPLMLAIHKKILQLAGQPFDHSPIRFCARNGEYVTMDTSWAGFVHPWSRKVAFVLGRHKVRTAPLNEDVFTPPSDIQELSEQIHRLLLQPVH 4dj3-a1-m1-cB_4dj3-a1-m1-cA Unwinding the Differences of the Mammalian PERIOD Clock Proteins from Crystal Structure to Cellular Function O70361 O70361 2.5 X-RAY DIFFRACTION 41 0.992 10090 (Mus musculus) 10090 (Mus musculus) 265 298 ALASEHTSKNTDTFAAVFSFLSGRLVHISEQAALILNSHFVDLLAPQDVRAFYAHTAPTQLPFWNNWPAKPFFCRICEKRHYSPFRILPYLVHVHSSAQPEPCCLTLVEKIHSGYEAPRIPVDKRIFTTTHTPGCVFLEVDERAVPLLGYLPQDLIGTSILTYLHPEDRPLMVAIHQKVLKYAGHPPFEHSPVRFCTQNGEYVILDSSWSSFVNPWSRKVSFIIGRHKVRTSPLNEDVFATRIKKNDKDIAELQEQIHKLLLQPV GRLEDVTVYSLEDLTALASEHTSKNTDTFAAVFSFLSGRLVHISEQAALILNSKRGFLKSVHFVDLLAPQDVRAFYAHTAPTQLPFWNCAPAKPFFCRICGGGDREKRHYSPFRILPYLVHVHSSAQPEPEPCCLTLVEKIHSGYEAPRIPVDKRIFTTTHTPGCVFLEVDERAVPLLGYLPQDLIGTSILTYLHPEDRPLMVAIHQKVLKYAGHPPFEHSPVRFCTQNGEYVILDSSWSSFVNPWSRKVSFIIGRHKVRTSPLNEDVFATRIKKAASNDKDIAELQEQIHKLLLQPV 4dj4-a1-m1-cB_4dj4-a1-m1-cA X-ray structure of mutant N211D of bifunctional nuclease TBN1 from Solanum lycopersicum (Tomato) Q0KFV0 Q0KFV0 2.35 X-RAY DIFFRACTION 46 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 251 266 WSKEGHVMTCRIAQGLLNDEAAHAVKMLLPEYVNGDLSALCVWPDQVRHWYKYKWTSPLHFIDTPDKACNFDYERDCHDQHGVKDMCVAGAIQNFTTQLSHYREGTYNMTEALLFLSHFMGDIHQPMHVGFTSDAGGNSIDLRWFRHKSNLHHVWDREIILTAAKDYYAKDINLLEEDIEGDFTDGECGNVFSCVNKFATESINIACKWGYKGVEAGETLSDDYFNSRLPIVMKRVAQGGIRLAMLLNNVF WSKEGHVMTCRIAQGLLNDEAAHAVKMLLPEYVNGDLSALCVWPDQVRHWYKYKWTSPLHFIDTPDKACNFDYERDCHDQHGVKDMCVAGAIQNFTTQLSHYREGTSDRRYNMTEALLFLSHFMGDIHQPMHVGFTSDAGGNSIDLRWFRHKSNLHHVWDREIILTAAKDYYAKDINLLEEDIEGDFTDGIWSDDLASWRECGNVFSCVNKFATESINIACKWGYKGVEAGETLSDDYFNSRLPIVMKRVAQGGIRLAMLLNNVFG 4djb-a1-m1-cB_4djb-a1-m1-cA A Structural Basis for the Assembly and Functions of a Viral Polymer that Inactivates Multiple Tumor Suppressors P04489 P04489 2.053 X-RAY DIFFRACTION 60 1.0 28285 (Human adenovirus 5) 28285 (Human adenovirus 5) 113 114 PIRCLRLKVEGALEQIFTAGLNIRDLLRDILRRWRDENYLGVEGAGFIEEIHPEGFSLYVHLDVRAVSLLEAIVQHLTEAIISSLAVEFDHATGGERVHLIDLHFEVLDNLLE DPIRCLRLKVEGALEQIFTAGLNIRDLLRDILRRWRDENYLGVEGAGFIEEIHPEGFSLYVHLDVRAVSLLEAIVQHLTEAIISSLAVEFDHATGGERVHLIDLHFEVLDNLLE 4djf-a1-m1-cC_4djf-a1-m1-cE Crystal structure of folate-bound corrinoid iron-sulfur protein (CFeSP) in complex with its methyltransferase (MeTr), co-crystallized with folate and Ti(III) citrate reductant Q07340 Q07340 3.03 X-RAY DIFFRACTION 17 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 441 441 4dje-a1-m1-cC_4dje-a1-m1-cE PLTGLEIYKQLPKKNCGECGTPTCLAFAMNLASGKASLDSCPYVSDAAREALDAAAAPPIAKVVLGAGPTAVEMGDETELFRHDKRFYHETAIAIQVSDNLSSEELKAKVEAINGLNFDRVGQHYTIQAIAIRHDADDPAAFKAAVASVAAATQLNLVLMADDPDVLKEALAGVADRKPLLYAATGANYEAMTALAKENNCPLAVYGNGLEELAELVDKIVALGHKQLVLDPGARETSRAIADFTQIRRLAIKKRFRSFGYPIIALTTAANPLDEVLQAVNYVTKYASLVVLRTDAKEHLLPLLSWRQNLYTDPQVPIRVEEKLNEIGAVNENSPVYVTTNFSLTYYSVEGEIESTKIPSYLLSVDTDGLSVLTAYADGKFEAEKIAAVMKKVDLDNKVKRHRIIIPGAVAVLKGKLEDLTGWEVIVGPREASGIVAFARA PLTGLEIYKQLPKKNCGECGTPTCLAFAMNLASGKASLDSCPYVSDAAREALDAAAAPPIAKVVLGAGPTAVEMGDETELFRHDKRFYHETAIAIQVSDNLSSEELKAKVEAINGLNFDRVGQHYTIQAIAIRHDADDPAAFKAAVASVAAATQLNLVLMADDPDVLKEALAGVADRKPLLYAATGANYEAMTALAKENNCPLAVYGNGLEELAELVDKIVALGHKQLVLDPGARETSRAIADFTQIRRLAIKKRFRSFGYPIIALTTAANPLDEVLQAVNYVTKYASLVVLRTDAKEHLLPLLSWRQNLYTDPQVPIRVEEKLNEIGAVNENSPVYVTTNFSLTYYSVEGEIESTKIPSYLLSVDTDGLSVLTAYADGKFEAEKIAAVMKKVDLDNKVKRHRIIIPGAVAVLKGKLEDLTGWEVIVGPREASGIVAFARA 4djh-a1-m1-cA_4djh-a1-m1-cB Structure of the human kappa opioid receptor in complex with JDTic P41145 P41145 2.9 X-RAY DIFFRACTION 69 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 447 448 SPAIPVIITAVYSVVFVVGLVGNSLVMFVIIRYTKMKTATNIYIFNLALADALVTTTMPFQSTVYLMNSWPFGDVLCKIVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPLKAKIINICIWLLSSSVGISAIVLGGTKVREDVDVIECSLQFPDDDYSWWDLFMKICVFIFAFVIPVLIIIVCYTLMILRLKSVRLLSGNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYREKDRNLRRITRLVLVVVAVFVVCWTPIHIFILVEALGSAALSSYYFCIALGYTNSSLNPILYAFLDENFKRCFRDFCFP SPAIPVIITAVYSVVFVVGLVGNSLVMFVIIRYTKMKTATNIYIFNLALADALVTTTMPFQSTVYLMNSWPFGDVLCKIVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPLKAKIINICIWLLSSSVGISAIVLGGTKVREDVDVIECSLQFPDDDYSWWDLFMKICVFIFAFVIPVLIIIVCYTLMILRLKSVRLLSGNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYREKDRNLRRITRLVLVVVAVFVVCWTPIHIFILVEALGSTAALSSYYFCIALGYTNSSLNPILYAFLDENFKRCFRDFCFP 4djh-a2-m2-cA_4djh-a2-m1-cB Structure of the human kappa opioid receptor in complex with JDTic P41145 P41145 2.9 X-RAY DIFFRACTION 31 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 447 448 SPAIPVIITAVYSVVFVVGLVGNSLVMFVIIRYTKMKTATNIYIFNLALADALVTTTMPFQSTVYLMNSWPFGDVLCKIVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPLKAKIINICIWLLSSSVGISAIVLGGTKVREDVDVIECSLQFPDDDYSWWDLFMKICVFIFAFVIPVLIIIVCYTLMILRLKSVRLLSGNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYREKDRNLRRITRLVLVVVAVFVVCWTPIHIFILVEALGSAALSSYYFCIALGYTNSSLNPILYAFLDENFKRCFRDFCFP SPAIPVIITAVYSVVFVVGLVGNSLVMFVIIRYTKMKTATNIYIFNLALADALVTTTMPFQSTVYLMNSWPFGDVLCKIVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPLKAKIINICIWLLSSSVGISAIVLGGTKVREDVDVIECSLQFPDDDYSWWDLFMKICVFIFAFVIPVLIIIVCYTLMILRLKSVRLLSGNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYREKDRNLRRITRLVLVVVAVFVVCWTPIHIFILVEALGSTAALSSYYFCIALGYTNSSLNPILYAFLDENFKRCFRDFCFP 4djk-a3-m1-cA_4djk-a3-m1-cB Structure of glutamate-GABA antiporter GadC P63235 P63235 3.097 X-RAY DIFFRACTION 39 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 451 453 4dji-a3-m1-cB_4dji-a3-m1-cA QLTLLGFFAITASMVMAVYEYPTFATSGFSLVFFLLLGGILWFIPVGLCAAEMATVDGWGVFAWVSNTLGPRWGFAAISFGYLQIAIGFIPMLYFVLGALSYILKWPALNEDPITKTIAALIILWALALTQFGGTKYTARIAKVGFFAGILLPAFILIALAAIYLHTFFPDFSKVGTLVVFVAFILSYMGVEASATHVNEMSNPGRDYPLAMLLLMVAAICLSSVGGLSIAMVIPGNEINLSAGVMQTFTVLMSHVAPEIEWTVRVISALLLLGVLAEIASWIVGPSRGMYVTAQKNLLPAAFAKMNKNGVPVTLVISQLVITSIALIILTNTGGGNNMSFLIALALTVVIYLCAYFMLFIGYIVLVLKHPDLKRTFNIPGGKGVKLVVAIVGLLTSIMAFIVSFLPPDNIQGDSTDMYVELLVVSFLVVLALPFILYAVHFFLHPRARSP QLTLLGFFAITASMVMAVYEYPTFATSGFSLVFFLLLGGILWFIPVGLCAAEMATVDGWGVFAWVSNTLGPRWGFAAISFGYLQIAIGFIPMLYFVLGALSYILKWPALNEDPITKTIAALIILWALALTQFGGTKYTARIAKVGFFAGILLPAFILIALAAIYLHSTFFPDFSKVGTLVVFVAFILSYMGVEASATHVNEMSNPGRDYPLAMLLLMVAAICLSSVGGLSIAMVIPGNEINLSAGVMQTFTVLMSHVAPEIEWTVRVISALLLLGVLAEIASWIVGPSRGMYVTAQKNLLPAFAKMNKNGVPVTLVISQLVITSIALIILTNTGGGNNMSFLIALALTVVIYLCAYFMLFIGYIVLVLKHPDLKRTFNIPGGKGVKLVVAIVGLLTSIMAFIVSFLPPDNIQGDSTDMYVELLVVSFLVVLALPFILYAVHDHFFLHPRARSP 4djn-a1-m1-cA_4djn-a1-m1-cB Crystal structure of a ribonucleotide reductase M2 B (RNRR2) from Homo sapiens at 2.20 A resolution Q7LG56 Q7LG56 2.2 X-RAY DIFFRACTION 93 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 279 279 3hf1-a1-m1-cA_3hf1-a1-m1-cB KSNEEPLLRKSSRRFVIFPIQYPDIWKYKQAQASFWTAEEVDLSKDLPHWNKLKADEKYFISHILAFFAASDGIVNENLVERFSQEVQVPEARCFYGFQILIENVHSEYSLLIDTYIRDPKKREFLFNAIETPYVKKKADWALRWIADRKSTFGERVVAFAAVEGVFFSGSFAAIFWLKKRGLPGLTFSNELISRDEGLHCDFACLFQYLVNKPSEERVREIIVDAVKIEQEFLTEALPVGLIGNCILKQYIEFVADRLLVELGFSKVFQAENPFDFEN IKSNEEPLLRKSSRRFVIFPIQYPDIWKYKQAQASFWTAEEVDLSKDLPHWNKLKADEKYFISHILAFFAASDGIVNENLVERFSQEVQVPEARCFYGFQILIENVHSEYSLLIDTYIRDPKKREFLFNAIETPYVKKKADWALRWIADRKSTFGERVVAFAAVEGVFFSGSFAAIFWLKKRGLPGLTFSNELISRDEGLHCDFACLFQYLVNKPSEERVREIIVDAVKIEQEFLTEALPVGLIGNCILKQYIEFVADRLLVELGFSKVFQAENPFDFE 4dk0-a1-m2-cA_4dk0-a1-m9-cA Crystal structure of MacA from Actinobacillus actinomycetemcomitans Q2EHL9 Q2EHL9 3.5 X-RAY DIFFRACTION 13 1.0 714 (Aggregatibacter actinomycetemcomitans) 714 (Aggregatibacter actinomycetemcomitans) 321 321 4dk0-a1-m10-cA_4dk0-a1-m4-cA 4dk0-a1-m11-cA_4dk0-a1-m6-cA 4dk0-a1-m12-cA_4dk0-a1-m5-cA 4dk0-a1-m1-cA_4dk0-a1-m7-cA 4dk0-a1-m3-cA_4dk0-a1-m8-cA YLTEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDSTTQINTLNTRKAALASYQAQLVARKTAYDVALSNYQRLSKLYGQKATSLDTLNTAKATLNNAKAEDVVQENIKQAEIEVNTAETNLGYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVNVLNTTQEREIEIGVQNDFQTEVKSGLTEGEKVVISQ YLTEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDSTTQINTLNTRKAALASYQAQLVARKTAYDVALSNYQRLSKLYGQKATSLDTLNTAKATLNNAKAEDVVQENIKQAEIEVNTAETNLGYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVNVLNTTQEREIEIGVQNDFQTEVKSGLTEGEKVVISQ 4dk0-a1-m4-cA_4dk0-a1-m9-cA Crystal structure of MacA from Actinobacillus actinomycetemcomitans Q2EHL9 Q2EHL9 3.5 X-RAY DIFFRACTION 11 1.0 714 (Aggregatibacter actinomycetemcomitans) 714 (Aggregatibacter actinomycetemcomitans) 321 321 4dk0-a1-m10-cA_4dk0-a1-m3-cA 4dk0-a1-m11-cA_4dk0-a1-m2-cA 4dk0-a1-m1-cA_4dk0-a1-m12-cA 4dk0-a1-m5-cA_4dk0-a1-m8-cA 4dk0-a1-m6-cA_4dk0-a1-m7-cA YLTEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDSTTQINTLNTRKAALASYQAQLVARKTAYDVALSNYQRLSKLYGQKATSLDTLNTAKATLNNAKAEDVVQENIKQAEIEVNTAETNLGYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVNVLNTTQEREIEIGVQNDFQTEVKSGLTEGEKVVISQ YLTEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDSTTQINTLNTRKAALASYQAQLVARKTAYDVALSNYQRLSKLYGQKATSLDTLNTAKATLNNAKAEDVVQENIKQAEIEVNTAETNLGYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVNVLNTTQEREIEIGVQNDFQTEVKSGLTEGEKVVISQ 4dk0-a2-m2-cA_4dk0-a2-m6-cA Crystal structure of MacA from Actinobacillus actinomycetemcomitans Q2EHL9 Q2EHL9 3.5 X-RAY DIFFRACTION 144 1.0 714 (Aggregatibacter actinomycetemcomitans) 714 (Aggregatibacter actinomycetemcomitans) 321 321 4dk0-a1-m10-cA_4dk0-a1-m8-cA 4dk0-a1-m10-cA_4dk0-a1-m9-cA 4dk0-a1-m11-cA_4dk0-a1-m7-cA 4dk0-a1-m11-cA_4dk0-a1-m9-cA 4dk0-a1-m12-cA_4dk0-a1-m7-cA 4dk0-a1-m12-cA_4dk0-a1-m8-cA 4dk0-a1-m1-cA_4dk0-a1-m5-cA 4dk0-a1-m1-cA_4dk0-a1-m6-cA 4dk0-a1-m2-cA_4dk0-a1-m4-cA 4dk0-a1-m2-cA_4dk0-a1-m6-cA 4dk0-a1-m3-cA_4dk0-a1-m4-cA 4dk0-a1-m3-cA_4dk0-a1-m5-cA 4dk0-a2-m1-cA_4dk0-a2-m5-cA 4dk0-a2-m1-cA_4dk0-a2-m6-cA 4dk0-a2-m2-cA_4dk0-a2-m4-cA 4dk0-a2-m3-cA_4dk0-a2-m4-cA 4dk0-a2-m3-cA_4dk0-a2-m5-cA YLTEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDSTTQINTLNTRKAALASYQAQLVARKTAYDVALSNYQRLSKLYGQKATSLDTLNTAKATLNNAKAEDVVQENIKQAEIEVNTAETNLGYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVNVLNTTQEREIEIGVQNDFQTEVKSGLTEGEKVVISQ YLTEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDSTTQINTLNTRKAALASYQAQLVARKTAYDVALSNYQRLSKLYGQKATSLDTLNTAKATLNNAKAEDVVQENIKQAEIEVNTAETNLGYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVNVLNTTQEREIEIGVQNDFQTEVKSGLTEGEKVVISQ 4dk1-a1-m3-cA_4dk1-a1-m3-cB Crystal Structure of MacA-MexA chimeric protein, containing the Pseudomonas aeruginosa MexA alpha-hairpin domain. Q2EHL9 Q2EHL9 3.499 X-RAY DIFFRACTION 128 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 274 283 4dk1-a1-m1-cA_4dk1-a1-m1-cB 4dk1-a1-m1-cA_4dk1-a1-m2-cB 4dk1-a1-m2-cA_4dk1-a1-m2-cB 4dk1-a1-m2-cA_4dk1-a1-m3-cB 4dk1-a1-m3-cA_4dk1-a1-m1-cB TEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDPATYEADYQSAQANLASTQEQAQRYKLLVADQAVSKQQYADANAAYLQSKAAVEQARINLRYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDSAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQEIGVQNDFQTEVKSGLTEGEKVVIS TEEVKRGNIEKNVVATGSIESINTVDVGAQVSGKITKLYVKLGQQVKKGDLLAEIDPATYEADYQSAQANLASTQEQAQRYKLLVADQAVSKQQYADANAAYLQSKAAVEQARINLRYTKITSPIDGTVISTPVSEGQTVNSNQTTPTIIKVADLSKRIKPEISEGDITKVKAGQDVTFTILSDNKTVYHAKIDSVDPATTTISDAVYYYANIIVENPEHVLRIGTTENNIKIADVQNVLFIPNLAVQQDKYVVEREIEIGVQNDFQTEVKSGLTEGEKVVIS 4dk2-a1-m1-cA_4dk2-a1-m2-cA Crystal Structure of Open Trypanosoma brucei dUTPase Q57ZH3 Q57ZH3 1.47 X-RAY DIFFRACTION 118 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 260 260 SLSPLILRSLAELQDGLNTVVDKNWRQLRRPGDWSLAITMEAAELLDSYPWKWWKNVKAQPDLQNVKIELTDILHFSLSGAMQVSKHWCYFDQPRALPAAGGAEYVACVETPGSSLSAPVSADECDLADFMFFPLSDTNNALASFQNIIRLASLQRFQLVTSAVIAAADDIGFNLVAYYVAKHTLNGIRQMKGYKDGTYVKVQKGVEDNELLHGCISPFSLDDVTNEGNYKTKWDDIMHRVYDAFGTPKEERLNIGHWLK SLSPLILRSLAELQDGLNTVVDKNWRQLRRPGDWSLAITMEAAELLDSYPWKWWKNVKAQPDLQNVKIELTDILHFSLSGAMQVSKHWCYFDQPRALPAAGGAEYVACVETPGSSLSAPVSADECDLADFMFFPLSDTNNALASFQNIIRLASLQRFQLVTSAVIAAADDIGFNLVAYYVAKHTLNGIRQMKGYKDGTYVKVQKGVEDNELLHGCISPFSLDDVTNEGNYKTKWDDIMHRVYDAFGTPKEERLNIGHWLK 4dke-a2-m2-cI_4dke-a2-m1-cH Crystal Structure of Human Interleukin-34 Bound to FAb1.1 3 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 220 EVQLVESGGGLVQPGGSLRLSCAASGFTFSSTWIHWVRQAPGKGLEWVARISPYYYYSDYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARGLGKGSKRGAMDYWGQGTLVTVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK EVQLVESGGGLVQPGGSLRLSCAASGFTFSSTWIHWVRQAPGKGLEWVARISPYYYYSDYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCARGLGKGSKRGAMDYWGQGTLVTVSSASTKGPSVFPLAPSSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 4dkf-a2-m2-cB_4dkf-a2-m2-cA Crystal Structure of Human Interleukin-34 Bound to FAb2 Q6ZMJ4 Q6ZMJ4 2.61 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 161 4dkc-a1-m1-cB_4dkc-a1-m1-cA 4dkd-a1-m1-cB_4dkd-a1-m1-cA 4dke-a1-m1-cB_4dke-a1-m1-cA 4dkf-a1-m1-cB_4dkf-a1-m1-cA 4dkf-a2-m1-cB_4dkf-a2-m1-cA CTVTGFLRDKLQYRSRLQYMKHYFPINYKISVPYEGVFRIANVTRLQRAQVSERELRYLWVLVSLSATESVQDVLLEGHPSWKYLQEVETLLLNVSPKVESVLSLLNAPGPNLKLVRPKALLDNCFRVMELLYCSCC NEECTVTGFLRDKLQYRSRLQYMKHYFPINYKISVPYEGVFRIANVTRLQRAQVSERELRYLWVLVSLSATESVQDVLLEGHPSWKYLQEVETLLLNVQQGLTDVEVSPKVESVLSLLNAPGPNLKLVRPKALLDNCFRVMELLYCSCCKQSSVLNWQDCE 4dkk-a1-m1-cA_4dkk-a1-m2-cA The X-ray Crystal Structure of the Human STAU1 SSM-'RBD'5 Domain-Swapped Dimer O95793 O95793 1.701 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 GSKATVTAIARELLYGGTSPTAETILKNNISGPLTRPSEQLDYLSRVQGFQVEYKDFPKNNKNEFVSLINCSSQPPLISHGIGKDVESCHDAALNILKLLSELD GSKATVTAIARELLYGGTSPTAETILKNNISGPLTRPSEQLDYLSRVQGFQVEYKDFPKNNKNEFVSLINCSSQPPLISHGIGKDVESCHDAALNILKLLSELD 4dkl-a1-m1-cA_4dkl-a1-m2-cA Crystal structure of the mu-opioid receptor bound to a morphinan antagonist P42866 P42866 2.8 X-RAY DIFFRACTION 102 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 442 442 MVTAITIMALYSIVCVVGLFGNFLVMYVIVRYTKMKTATNIYIFNLALADALATSTLPFQSVNYLMGTWPFGNILCKIVISIDYYNMFTSIFTLCTMSVDRYIAVCHPVKALDFRTPRNAKIVNVCNWILSSAIGLPVMFMATTKYRQGSIDCTLTFSHPTWYWENLLKICVFIFAFIMPVLIITVCYGLMILRLKSVRNIFEMLRIDEGLRLKIYKNTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYEKDRNLRRITRMVLVVVAVFIVCWTPIHIYVIIKALITIPETTFQTVSWHFCIALGYTNSCLNPVLYAFLDENFKRCFREFCI MVTAITIMALYSIVCVVGLFGNFLVMYVIVRYTKMKTATNIYIFNLALADALATSTLPFQSVNYLMGTWPFGNILCKIVISIDYYNMFTSIFTLCTMSVDRYIAVCHPVKALDFRTPRNAKIVNVCNWILSSAIGLPVMFMATTKYRQGSIDCTLTFSHPTWYWENLLKICVFIFAFIMPVLIITVCYGLMILRLKSVRNIFEMLRIDEGLRLKIYKNTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYEKDRNLRRITRMVLVVVAVFIVCWTPIHIYVIIKALITIPETTFQTVSWHFCIALGYTNSCLNPVLYAFLDENFKRCFREFCI 4dkm-a2-m1-cC_4dkm-a2-m2-cH Crystal Structure of Amphioxus GFPc1a C3YRA3 C3YRA3 1.95 X-RAY DIFFRACTION 10 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 213 213 4dkm-a2-m1-cE_4dkm-a2-m2-cD LPTTHEVHVYGSINGVEFDLVGSGKGNPKDGSEEIQVKSTKGPLGFSPYIVVPNIFHQYLPFPDGMSPFQAAADDGSGYVVHRTIQFEDGASLTGNYRYSYDGGHIKGEFHVVGSGFPADGPVMTKSLTAVDWSVATMLFPNDTTVVSTIDWTCPTTSGKRYHATLRTNYTFAKPIAATILQKQPMFVFRKTEVKASDAEINLKEWQKAFHDL LPTTHEVHVYGSINGVEFDLVGSGKGNPKDGSEEIQVKSTKGPLGFSPYIVVPNIFHQYLPFPDGMSPFQAAADDGSGYVVHRTIQFEDGASLTGNYRYSYDGGHIKGEFHVVGSGFPADGPVMTKSLTAVDWSVATMLFPNDTTVVSTIDWTCPTTSGKRYHATLRTNYTFAKPIAATILQKQPMFVFRKTEVKASDAEINLKEWQKAFHDL 4dkm-a2-m1-cE_4dkm-a2-m2-cH Crystal Structure of Amphioxus GFPc1a C3YRA3 C3YRA3 1.95 X-RAY DIFFRACTION 68 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 213 213 4dkm-a1-m1-cA_4dkm-a1-m1-cF 4dkm-a1-m1-cB_4dkm-a1-m1-cG 4dkm-a2-m1-cC_4dkm-a2-m2-cD LPTTHEVHVYGSINGVEFDLVGSGKGNPKDGSEEIQVKSTKGPLGFSPYIVVPNIFHQYLPFPDGMSPFQAAADDGSGYVVHRTIQFEDGASLTGNYRYSYDGGHIKGEFHVVGSGFPADGPVMTKSLTAVDWSVATMLFPNDTTVVSTIDWTCPTTSGKRYHATLRTNYTFAKPIAATILQKQPMFVFRKTEVKASDAEINLKEWQKAFHDL LPTTHEVHVYGSINGVEFDLVGSGKGNPKDGSEEIQVKSTKGPLGFSPYIVVPNIFHQYLPFPDGMSPFQAAADDGSGYVVHRTIQFEDGASLTGNYRYSYDGGHIKGEFHVVGSGFPADGPVMTKSLTAVDWSVATMLFPNDTTVVSTIDWTCPTTSGKRYHATLRTNYTFAKPIAATILQKQPMFVFRKTEVKASDAEINLKEWQKAFHDL 4dkm-a2-m2-cD_4dkm-a2-m2-cH Crystal Structure of Amphioxus GFPc1a C3YRA3 C3YRA3 1.95 X-RAY DIFFRACTION 44 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 213 213 4dkm-a1-m1-cA_4dkm-a1-m1-cB 4dkm-a1-m1-cF_4dkm-a1-m1-cG 4dkm-a2-m1-cC_4dkm-a2-m1-cE LPTTHEVHVYGSINGVEFDLVGSGKGNPKDGSEEIQVKSTKGPLGFSPYIVVPNIFHQYLPFPDGMSPFQAAADDGSGYVVHRTIQFEDGASLTGNYRYSYDGGHIKGEFHVVGSGFPADGPVMTKSLTAVDWSVATMLFPNDTTVVSTIDWTCPTTSGKRYHATLRTNYTFAKPIAATILQKQPMFVFRKTEVKASDAEINLKEWQKAFHDL LPTTHEVHVYGSINGVEFDLVGSGKGNPKDGSEEIQVKSTKGPLGFSPYIVVPNIFHQYLPFPDGMSPFQAAADDGSGYVVHRTIQFEDGASLTGNYRYSYDGGHIKGEFHVVGSGFPADGPVMTKSLTAVDWSVATMLFPNDTTVVSTIDWTCPTTSGKRYHATLRTNYTFAKPIAATILQKQPMFVFRKTEVKASDAEINLKEWQKAFHDL 4dkn-a1-m1-cB_4dkn-a1-m2-cB Crystal structure of amphioxus green fluorescent protein, GFPA1 C3YKQ3 C3YKQ3 1.35 X-RAY DIFFRACTION 65 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 214 214 4dkn-a1-m1-cA_4dkn-a1-m2-cA PLPATHDIHLHGSINGHEFDMVGGGKGDPNAGSLVTTAKSTKGALKFSPYLMIPHLYYQYLPYPDGPSPFQVSMLEGSGYAVYRVFDFEDGGKLSTEFKYSYEGSHIKADMKLMGSGFPDDGPVMTSQIVDQDGCVSKKTYLNNNTIVDSFDWSYNLQNGKRYRARVSSHYIFDKPFSADLMKKQPVFVYRKCHVKATKTEVTLDEREKAFYEL PLPATHDIHLHGSINGHEFDMVGGGKGDPNAGSLVTTAKSTKGALKFSPYLMIPHLYYQYLPYPDGPSPFQVSMLEGSGYAVYRVFDFEDGGKLSTEFKYSYEGSHIKADMKLMGSGFPDDGPVMTSQIVDQDGCVSKKTYLNNNTIVDSFDWSYNLQNGKRYRARVSSHYIFDKPFSADLMKKQPVFVYRKCHVKATKTEVTLDEREKAFYEL 4dkn-a2-m1-cA_4dkn-a2-m1-cB Crystal structure of amphioxus green fluorescent protein, GFPA1 C3YKQ3 C3YKQ3 1.35 X-RAY DIFFRACTION 47 0.995 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 209 214 4dkn-a1-m1-cA_4dkn-a1-m1-cB 4dkn-a1-m2-cA_4dkn-a1-m2-cB PLPATHDIHLHGSINGHEFDMVGGGKGDPNAGSLVTTAKSTKGALKFSPYLMIPHLYYQYLPYPDGPSPFQVSMLEGSGYAVYRVFDFEDGGKLSTEFKYSYEGSHIKADMKLMGSGFPDDGPVMTSQIVDQDGCVSKKTYLNNNTIVDSFDWSYNLQNGKRYRARVSSHYIFDKPFKQPVFVYRKCHVKATKTEVTLDEREKAFYELA PLPATHDIHLHGSINGHEFDMVGGGKGDPNAGSLVTTAKSTKGALKFSPYLMIPHLYYQYLPYPDGPSPFQVSMLEGSGYAVYRVFDFEDGGKLSTEFKYSYEGSHIKADMKLMGSGFPDDGPVMTSQIVDQDGCVSKKTYLNNNTIVDSFDWSYNLQNGKRYRARVSSHYIFDKPFSADLMKKQPVFVYRKCHVKATKTEVTLDEREKAFYEL 4dky-a1-m1-cA_4dky-a1-m2-cA Crystal structure Analysis of N terminal region containing the dimerization domain and DNA binding domain of HU protein(Histone like protein-DNA binding) from Mycobacterium tuberculosis [H37Rv] A5U6Z7 A5U6Z7 2.478 X-RAY DIFFRACTION 131 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 97 97 4dky-a2-m1-cB_4dky-a2-m3-cB 4pt4-a1-m1-cB_4pt4-a1-m1-cA MNKAELIDVLTQKLGSDRRQATAAVENVVDTIVRAVHKGDSVTITGFGVFEQRRRAARVARNPRTGETVKVKPTSVPAFRPGAQFKAVVSGAQRLPA MNKAELIDVLTQKLGSDRRQATAAVENVVDTIVRAVHKGDSVTITGFGVFEQRRRAARVARNPRTGETVKVKPTSVPAFRPGAQFKAVVSGAQRLPA 4dl8-a1-m1-cA_4dl8-a1-m2-cA Crystal structure of Trypanosoma brucei dUTPase with dUMP, planar [AlF3-OPO3] transition state analogue, Mg2+, and Na+ Q57ZH3 Q57ZH3 1.698 X-RAY DIFFRACTION 79 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 224 224 4dk4-a1-m1-cB_4dk4-a1-m1-cA 4dkb-a1-m1-cA_4dkb-a1-m2-cA 4dlc-a1-m1-cA_4dlc-a1-m2-cA VSLSPLILRSLAELQDGLNTVVDKNWRQLRRPGDWSLAITMEAAELLDSYPWKWWKNVKAQPDLQNVKIELTDILHFSLSGAMQVSDENLADFMFFPLSDTNNALASFQNIIRLASLQRFQLVTSAVIAAADDIGFNLVAYYVAKHTLNGIRQMKGYKDGTYVKVQKGVEDNELLHGCISPFSLDDVTNEGNYKTKWDDIMHRVYDAFGTPKEERLNIGHWLKS VSLSPLILRSLAELQDGLNTVVDKNWRQLRRPGDWSLAITMEAAELLDSYPWKWWKNVKAQPDLQNVKIELTDILHFSLSGAMQVSDENLADFMFFPLSDTNNALASFQNIIRLASLQRFQLVTSAVIAAADDIGFNLVAYYVAKHTLNGIRQMKGYKDGTYVKVQKGVEDNELLHGCISPFSLDDVTNEGNYKTKWDDIMHRVYDAFGTPKEERLNIGHWLKS 4dll-a1-m1-cB_4dll-a1-m1-cA Crystal structure of a 2-hydroxy-3-oxopropionate reductase from Polaromonas sp. JS666 Q12CU4 Q12CU4 2.11 X-RAY DIFFRACTION 237 0.993 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 275 278 RKITFLGTGLPARRLCEAGYALQVWNRTPARAASLAALGATIHEQARAAARDADIVVSLENGAVVQDVLFAQGVAAAKPGSLFLDASITPREARDHAARLGALGIAHLDTPVSGGTVGAEQGTLVIAGGKPADFERSLPLLKVFGRATHVGPHGSGQLTKLANQIVGITIGAVAEALLFATKGGADAKVKEAITGGFADSRVLQLHGQRVERDFAPRARLSIQLKDRNALATAQEIGFDAPITGLFEQLYAEGVEHGLTDLDQSGLFVELASRNG PYARKITFLGTGSGLPARRLCEAGYALQVWNRTPARAASLAALGATIHEQARAAARDADIVVSLENGAVVQDVLFAQGVAAAKPGSLFLDASITPREARDHAARLGALGIAHLDTPVSGGTVGAEQGTLVIAGGKPADFERSLPLLKVFGRATHVGPHGSGQLTKLANQIVGITIGAVAEALLFATKGGADAKVKEAITGGFADSRVLQLHGQRVERDFAPRARLSIQLKDRNALATAQEIGFDAPITGLFEQLYAEGVEHGLTDLDQSGLFVELASR 4dmg-a1-m1-cA_4dmg-a1-m1-cB Thermus thermophilus m5C1942 methyltransferase RlmO Q5SI81 Q5SI81 1.7 X-RAY DIFFRACTION 89 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 385 385 MLGPVLRLVVKAGKERKLRNFYPNLYRDEIAAPPEGVGVAEAVDAEGHFLAVGYYDPRSRVPFRAFRFDPGPLNRAFFQGRFARALRRRQGLGESHRLVHGEADGLPGLVVDRFGEVLVLQVRSRGMEALREVWLPALLEVVAPKGVYERSDVEARRQEGLPERVGVVYGEVPEVLEVEEDGLRFPIPLALAQKTGYYLDQRENRRLFEAMVRPGERVLDVYSYVGGFALRAARKGAYALAVDKDLEALGVLDQAALRLGLRVDIRHGEALPTLRGLEGPFHHVLLDPPTLVKRPEELPAMKRHLVDLVREALRLLAEEGFLWLSSCSYHLRLEDLLEVARRAAADLGRRLRVHRVTYQPEDHPWSLHIPESLYLKTLVLQDDPL MLGPVLRLVVKAGKERKLRNFYPNLYRDEIAAPPEGVGVAEAVDAEGHFLAVGYYDPRSRVPFRAFRFDPGPLNRAFFQGRFARALRRRQGLGESHRLVHGEADGLPGLVVDRFGEVLVLQVRSRGMEALREVWLPALLEVVAPKGVYERSDVEARRQEGLPERVGVVYGEVPEVLEVEEDGLRFPIPLALAQKTGYYLDQRENRRLFEAMVRPGERVLDVYSYVGGFALRAARKGAYALAVDKDLEALGVLDQAALRLGLRVDIRHGEALPTLRGLEGPFHHVLLDPPTLVKRPEELPAMKRHLVDLVREALRLLAEEGFLWLSSCSYHLRLEDLLEVARRAAADLGRRLRVHRVTYQPEDHPWSLHIPESLYLKTLVLQDDPL 4dmm-a2-m1-cD_4dmm-a2-m1-cC 3-oxoacyl-[acyl-carrier-protein] reductase from Synechococcus elongatus PCC 7942 in complex with NADP Q31QF3 Q31QF3 2.38 X-RAY DIFFRACTION 129 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 237 240 4dml-a1-m1-cC_4dml-a1-m1-cA 4dml-a2-m1-cD_4dml-a2-m1-cB 4dmm-a1-m1-cB_4dmm-a1-m1-cA LPLTDRIALVTGASRGIGRAIALELAAAGAKVAVNYASSAGAADEVVAAIAAAGGEAFAVKADVSQESEVEALFAAVIERWGRLDVLVNNAGITRDTLLLRMKRDDWQSVLDLNLGGVFLCSRAAAKIMLKQRSGRIINIASVVGEMGNPGQANYSAAKAGVIGLTKTVAKELASRGITVNAVAPGFIATKLLEVIPLGRYGEAAEVAGVVRFLAADPAAAYITGQVINIDGGLVMA LPLTDRIALVTGASRGIGRAIALELAAAGAKVAVNYASSAGAADEVVAAIAAAGGEAFAVKADVSQESEVEALFAAVIERWGRLDVLVNNAGITRDTLLLRMKRDDWQSVLDLNLGGVFLCSRAAAKIMLKQRSGRIINIASVVGEMGNPGQANYSAAKAGVIGLTKTVAKELASRGITVNAVAPGFIATDMEKLLEVIPLGRYGEAAEVAGVVRFLAADPAAAYITGQVINIDGGLVMA 4dmt-a1-m1-cA_4dmt-a1-m1-cB Crystal structure of a VWF binding collagen III derived triple helical peptide 1.39 X-RAY DIFFRACTION 52 1.0 22 22 GPGPGPGPRGQGVMGFGPGPGP GPGPGPGPRGQGVMGFGPGPGP 4dmt-a1-m1-cA_4dmt-a1-m1-cC Crystal structure of a VWF binding collagen III derived triple helical peptide 1.39 X-RAY DIFFRACTION 53 1.0 22 22 GPGPGPGPRGQGVMGFGPGPGP GPGPGPGPRGQGVMGFGPGPGP 4dmt-a1-m1-cB_4dmt-a1-m1-cC Crystal structure of a VWF binding collagen III derived triple helical peptide 1.39 X-RAY DIFFRACTION 56 1.0 22 22 GPGPGPGPRGQGVMGFGPGPGP GPGPGPGPRGQGVMGFGPGPGP 4dmz-a1-m1-cA_4dmz-a1-m2-cA PelD 156-455 from Pseudomonas aeruginosa PA14, apo form A0A0H2ZD98 A0A0H2ZD98 2.102 X-RAY DIFFRACTION 20 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 278 278 NDQSLRSSLLGLRQLLRELPGDEAPLDALAETVLALLAQYGSLRIAGLYRVRHDRTPEPQPLATLGEMPVLDADDLLVRTCLERGELVSVRALQVCVPLVDTDGRILALLAVEQMPFFVFNERTFSLLAILAGHIADLLQDIDAQRFSQYLKRSLLDARDHGLPACLYAFELTDARYGEEVQRLLEGSQRGLDVQLRLRNDEGRRVLLVLLPLTSAEGSQGYLQRLRILFAERFGQARELESLGVRIRQYELDAGNDRQALGHFLFNECGLNDQQVAV NDQSLRSSLLGLRQLLRELPGDEAPLDALAETVLALLAQYGSLRIAGLYRVRHDRTPEPQPLATLGEMPVLDADDLLVRTCLERGELVSVRALQVCVPLVDTDGRILALLAVEQMPFFVFNERTFSLLAILAGHIADLLQDIDAQRFSQYLKRSLLDARDHGLPACLYAFELTDARYGEEVQRLLEGSQRGLDVQLRLRNDEGRRVLLVLLPLTSAEGSQGYLQRLRILFAERFGQARELESLGVRIRQYELDAGNDRQALGHFLFNECGLNDQQVAV 4dmz-a1-m2-cA_4dmz-a1-m2-cB PelD 156-455 from Pseudomonas aeruginosa PA14, apo form A0A0H2ZD98 A0A0H2ZD98 2.102 X-RAY DIFFRACTION 83 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 278 280 4dmz-a1-m1-cA_4dmz-a1-m1-cB NDQSLRSSLLGLRQLLRELPGDEAPLDALAETVLALLAQYGSLRIAGLYRVRHDRTPEPQPLATLGEMPVLDADDLLVRTCLERGELVSVRALQVCVPLVDTDGRILALLAVEQMPFFVFNERTFSLLAILAGHIADLLQDIDAQRFSQYLKRSLLDARDHGLPACLYAFELTDARYGEEVQRLLEGSQRGLDVQLRLRNDEGRRVLLVLLPLTSAEGSQGYLQRLRILFAERFGQARELESLGVRIRQYELDAGNDRQALGHFLFNECGLNDQQVAV NDQSLRSSLLGLRQLLRELPGDEAPLDALAETVLALLAQYGSLRIAGLYRVRHDRTPEPQPLATLGEMPVLDADDLLVRTCLERGELVSVRSALQVCVPLVDTDGRILALLAVEQMPFFVFNERTFSLLAILAGHIADLLQSDIDAQRFSQYLKRSLLDARDHGLPACLYAFELTDARYGEEVQRLLEGSQRGLDVQLRLRNDEGRRVLLVLLPLTSAEGSQGYLQRLRILFAERFGQARELESLGVRIRQYELDAGNDRQALGHFLFNECGLNDQQVAV 4dn2-a1-m1-cB_4dn2-a1-m1-cA CRYSTAL STRUCTURE OF putative Nitroreductase from Geobacter metallireducens GS-15 Q39RS1 Q39RS1 1.5 X-RAY DIFFRACTION 227 0.995 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 187 188 YFQSETLEAIRTRRSVRKFSDRPVEPEKLRAVLDAARLAPSWANQCWRFVVVEDQATKVQISELSYVEAYFGPKGYKSNPAQKALAEAPVVIIACGEPPQSGELRGQQYYLTDVGIAAQNLLAAHDLGLGSVFVGVFDEQQLGELLGIPAELRIVGLFPLGYPLEGPKAGPSRKPLDEIVHYGKYQA NLYFQSETLEAIRTRRSVRKFSDRPVEPEKLRAVLDAARLAPSWANQCWRFVVVEDQATKVQISELSYVEAYFGPKGYKSNPAQKALAEAPVVIIACGEPPQSGELRGQQYYLTDVGIAAQNLLAAHDLGLGSVFVGVFDEQQLGELLGIPAELRIVGLFPLGYPLEGPKAGPSRKPLDEIVHYGKYQ 4dn7-a1-m1-cA_4dn7-a1-m1-cB CRYSTAL STRUCTURE OF putative ABC transporter, ATP-binding protein from Methanosarcina mazei Go1 Q8PXX8 Q8PXX8 1.6 X-RAY DIFFRACTION 111 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 396 396 QTEQVSLKKRAESAAEKKAAFGEDFELEKYEEGSKVSKPIEDLQSLDEESKKTLLQVGVIPSEEGRSGSFLVLDNAVSHSTLKDKNVELSTHKAEKYEWLKDYSWKLVQVDADKYTAKTYLEDADGYFIRVPAGKKTSPVQTCLLGSKKAAQTVHNIIIVEEGATLDIITGCTTKKGVEEGLHLGISEYIKKGGTLNFTIHNWAEQIGVRPRTVVSVEEGGTYVSNYICLKPVRSVQTYPTVRLEGEGAVTRLNTIAIAHPGSELDLGSKAIFNAPGTRAELISRTITIGGRLIARGEIGNAKGAKGHLECKGLVLTDKGSQLAIPILEANVDDIELTHEAAVGKIAKDQVEYLARGLTEDEAVGIIRGFLDVGIRGIPEELKEEIENTIAQTALG QTEQVSLKKRAESAAEKKAAFGEDFELEKYEEGSKVSKPIEDLQSLDEESKKTLLQVGVIPSEEGRSGSFLVLDNAVSHSTLKDKNVELSTHKAEKYEWLKDYSWKLVQVDADKYTAKTYLEDADGYFIRVPAGKKTSPVQTCLLGSKKAAQTVHNIIIVEEGATLDIITGCTTKKGVEEGLHLGISEYIKKGGTLNFTIHNWAEQIGVRPRTVVSVEEGGTYVSNYICLKPVRSVQTYPTVRLEGEGAVTRLNTIAIAHPGSELDLGSKAIFNAPGTRAELISRTITIGGRLIARGEIGNAKGAKGHLECKGLVLTDKGSQLAIPILEANVDDIELTHEAAVGKIAKDQVEYLARGLTEDEAVGIIRGFLDVGIRGIPEELKEEIENTIAQTALG 4dn9-a2-m1-cA_4dn9-a2-m2-cA CRYSTAL STRUCTURE OF putative Antibiotic biosynthesis monooxygenase from Chloroflexus aurantiacus J-10-fl A9WHE0 A9WHE0 2.05 X-RAY DIFFRACTION 36 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 95 95 SYGLIGKRATPGQRDALIAILVEGASSPGCLSYVVAQDPKDPDAIWITEVWDSPESHKASLSLPSVQDAIACGRPLIAALDEHHETVPVGGHGIG SYGLIGKRATPGQRDALIAILVEGASSPGCLSYVVAQDPKDPDAIWITEVWDSPESHKASLSLPSVQDAIACGRPLIAALDEHHETVPVGGHGIG 4dn9-a2-m2-cB_4dn9-a2-m2-cA CRYSTAL STRUCTURE OF putative Antibiotic biosynthesis monooxygenase from Chloroflexus aurantiacus J-10-fl A9WHE0 A9WHE0 2.05 X-RAY DIFFRACTION 106 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 94 95 4dn9-a1-m1-cB_4dn9-a1-m1-cA 4dn9-a2-m1-cB_4dn9-a2-m1-cA SYGLIGKRATPGQRDALIAILVEGASSPGCLSYVVAQDPKDPDAIWITEVWDSPESHKASLSLPSVQDAIACGRPLIAALDEHHETVPVGGHGI SYGLIGKRATPGQRDALIAILVEGASSPGCLSYVVAQDPKDPDAIWITEVWDSPESHKASLSLPSVQDAIACGRPLIAALDEHHETVPVGGHGIG 4dna-a1-m1-cA_4dna-a1-m1-cB CRYSTAL STRUCTURE OF putative glutathione reductase from Sinorhizobium meliloti 1021 Q92PC0 Q92PC0 2.8 X-RAY DIFFRACTION 206 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 450 450 AFDYDLFVIGGGSGGVRSGRLAAALGKKVAIAEEFRYGGTCVIRGCVPKKLYVYASQFAEHFEDAAGFGWTVGESRFDWAKLVAAKEQEIARLEGLYRKGLANAGAEILDTRAELAGPNTVKLLASGKTVTAERIVIAVGGHPSPHDALPGHELCITSNEAFDLPALPESILIAGGGYIAVEFANIFHGLGVKTTLIYRGKEILSRFDQDRRGLHAAEEKGIRILCEDIIQSVSADADGRRVATTKHGEIVADQVLALGRPNTNGLGLEAAGVRTNELGAIIVDAFSRTSTPGIYALGDVTDRVQLTPVAIHEACFIETEYKNNPTSPDHDLIATAVFSQPEIGTVGITEEEAARKFQEIEVYRAEFRPKATLSGRKEKTIKLVVNAADRKVVGAHILGHDAGEAQLLGISLRAGCTKDDFDRTAVHPTAAEELVTYQPSYRVRNGERVG AFDYDLFVIGGGSGGVRSGRLAAALGKKVAIAEEFRYGGTCVIRGCVPKKLYVYASQFAEHFEDAAGFGWTVGESRFDWAKLVAAKEQEIARLEGLYRKGLANAGAEILDTRAELAGPNTVKLLASGKTVTAERIVIAVGGHPSPHDALPGHELCITSNEAFDLPALPESILIAGGGYIAVEFANIFHGLGVKTTLIYRGKEILSRFDQDRRGLHAAEEKGIRILCEDIIQSVSADADGRRVATTKHGEIVADQVLALGRPNTNGLGLEAAGVRTNELGAIIVDAFSRTSTPGIYALGDVTDRVQLTPVAIHEACFIETEYKNNPTSPDHDLIATAVFSQPEIGTVGITEEEAARKFQEIEVYRAEFRPKATLSGRKEKTIKLVVNAADRKVVGAHILGHDAGEAQLLGISLRAGCTKDDFDRTAVHPTAAEELVTYQPSYRVRNGERVG 4dnc-a3-m1-cB_4dnc-a3-m1-cA Crystal structure of human MOF in complex with MSL1 Q9H7Z6 Q9H7Z6 2.05 X-RAY DIFFRACTION 35 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 267 271 KYVDKIHIGNYEIDAWYFSPFPEDYGKQPKLWLCEYCLKYMKYEKSYRFHLGQCQWRQPPGKEIYRKSNISVYEVDGKDHKIYCQNLCLLAKLFLDHTLYFDVEPFVFYILTEVDRQGAHIVGYFSKEKESPDGNNVACILTLPPYQRRGYGKFLIAFSYELSKLESTVGSPEKPLSDLGKLSYRSYWSWVLLEILRDFRGTLSIKDLSQMTSITQNDIISTLQSLNMVKYQHVICVTPKLVEEHLKSAQYKKPPITVDSVCLKWAP YVDKIHIGNYEIDAWYFSPFPEDYGKQPKLWLCEYCLKYMKYEKSYRFHLGQCQWRQPPGKEIYRKSNISVYEVDGKDHKIYCQNLCLLAKLFLDHTLYFDVEPFVFYILTEVDRQGAHIVGYFSKEKESPDGNNVACILTLPPYQRRGYGKFLIAFSYELSKLESTVGSPEKPLSDLGKLSYRSYWSWVLLEILRDFRGTLSIKDLSQMTSITQNDIISTLQSLNMVKYWKGQHVICVTPKLVEEHLKSAQYKKPPITVDSVCLKWAPPK 4dng-a1-m1-cB_4dng-a1-m1-cA Crystal structure of putative aldehyde dehydrogenase from Bacillus subtilis subsp. subtilis str. 168 P94358 P94358 2.5 X-RAY DIFFRACTION 108 0.998 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 447 452 MSFETLNKSFINGKWTGGESGRTEDILNPYDQSVITTASLATGKQLEDAFDIAQKAQKEWAKSTTEDRKAVLQKARGYLHENRDDIIMMIARETGGTIIKSTIELEQTIAILDEAMTYTGELGGVKEEGKTNKIYRLPLGVISSISPFNFPMNLSMRSIAPAIALGNSVVHKPDIQTAISGGTIIAKAFEHAGLPAGVLNVMLTDVKEIGDGMLTNPIPRLISFTGSTAVGRHIGEIAGRAFKRMALELGGNNPFAVLSDADVDRAVDAAIFGKFIHQCMIINRIIVHQDVYDEFVEKFTARVKQLPYGDQTDPKTVVGPLINERQIEKALEIIEQAKTDGIELAVEGKRVGNVLTPYVFVGADNNSKIAQTELFAPIATIIKAGSDQEAIDMANDTEYGLSSAVFTSDLEKGEKFALQIDSGMTHVNDNPWVVEEFTVTKWISIQK MSFETLNKSFINGKWTGGESGRTEDILNPYDQSVITTASLATGKQLEDAFDIAQKAQKEWAKSTTEDRKAVLQKARGYLHENRDDIIMMIARETGGTIIKSTIELEQTIAILDEAMTYTGELGGVKEVPSDIEGKTNKIYRLPLGVISSISPFNFPMNLSMRSIAPAIALGNSVVHKPDIQTAISGGTIIAKAFEHAGLPAGVLNVMLTDVKEIGDGMLTNPIPRLISFTGSTAVGRHIGEIAGRAFKRMALELGGNNPFAVLSDADVDRAVDAAIFGKFIHQMIINRIIVHQDVYDEFVEKFTARVKQLPYGDQTDPKTVVGPLINERQIEKALEIIEQAKTDGIELAVEGKRVGNVLTPYVFVGADNNSKIAQTELFAPIATIIKAGSDQEAIDMANDTEYGLSSAVFTSDLEKGEKFALQIDSGMTHVNDQNPWVVEEFTVTKWISIQK 4dnn-a1-m1-cA_4dnn-a1-m1-cB Crystal structure of the Quaking Qua1 homodimerization domain Q9QYS9 Q9QYS9 2.1 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 46 47 GSTPDYLQLNDKKLSSLPNFSGIFNHLERLLDEEISRVRKDYNDTL GSTPDYLQLNDKKLSSLPNFSGIFNHLERLLDEEISRVRKDYNDTLN 4dnx-a1-m1-cA_4dnx-a1-m1-cB The structure of the ATP sulfurylase from Allochromatium vinosum in the open state O66036 O66036 1.6 X-RAY DIFFRACTION 86 1.0 572477 (Allochromatium vinosum DSM 180) 572477 (Allochromatium vinosum DSM 180) 396 396 MIKPVGSDELRPRFVYDPEQHHRLSSEAESLPSVIVSSQAAGNAVMLGAGYFSPLDGFMNLADALSSAQSMTLTDGRFFPVPLLCLLESADAIAGATRIALRDPNVEGNPVLAVMDVTAVEQVSDAQMALMTEQVYGTSDPKHPGVETFNSQGRTAISGPIQVLNFSYFQTDFPDTFRTAVEIRHEIQERGWQKIVAFQTRNPMHRAHEELCKMAMEAVEADGVVIHMLLGQLKPGDIPAPVRDAAIRTMAELYFPPNTVMVTGYGFDMLYAGPREAVLHAYFRQNMGATHFIIGRDHAGVGDYYGPFDAQTIFDDAVPTDVLAIEIFRADNTAYSKKLGRVVMMRDAPDHTPDDFIQLSGTRVREMLGQGEAPPPEFSRPEVAQILMDYYRSLPQ MIKPVGSDELRPRFVYDPEQHHRLSSEAESLPSVIVSSQAAGNAVMLGAGYFSPLDGFMNLADALSSAQSMTLTDGRFFPVPLLCLLESADAIAGATRIALRDPNVEGNPVLAVMDVTAVEQVSDAQMALMTEQVYGTSDPKHPGVETFNSQGRTAISGPIQVLNFSYFQTDFPDTFRTAVEIRHEIQERGWQKIVAFQTRNPMHRAHEELCKMAMEAVEADGVVIHMLLGQLKPGDIPAPVRDAAIRTMAELYFPPNTVMVTGYGFDMLYAGPREAVLHAYFRQNMGATHFIIGRDHAGVGDYYGPFDAQTIFDDAVPTDVLAIEIFRADNTAYSKKLGRVVMMRDAPDHTPDDFIQLSGTRVREMLGQGEAPPPEFSRPEVAQILMDYYRSLPQ 4do4-a1-m1-cA_4do4-a1-m1-cB Pharmacological chaperones for human alpha-N-acetylgalactosaminidase P17050 P17050 1.4 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 387 400 3h53-a1-m1-cA_3h53-a1-m1-cB 3h54-a1-m1-cA_3h54-a1-m1-cB 3h55-a1-m1-cA_3h55-a1-m1-cB 3igu-a1-m1-cA_3igu-a1-m1-cB 4do5-a1-m1-cA_4do5-a1-m1-cB 4do6-a1-m1-cA_4do6-a1-m1-cB LDNGLLQTPPMGWLAWERFRCNINCDEDPKNCISEQLFMEMADRMAQDGWRDMGYTYLNIDDCWIGGRDASGRLMPDPKRFPHGIPFLADYVHSLGLKLGIYADMGNFTCMGYPGTTLDKVVQDAQTFAEWKVDMLKLDGCFSTPEERAQGYPKMAAALNATGRPIAFSCSWPAYEGGLPPRVQYSLLADICNLWRNYDDIQDSWWSVLSILNWFVEHQDILQPVAGPGHWNDPDMLLIGNFGLSLEQSRAQMALWTVLAAPLLMSTDLRTISAQNMDILQNPLMIKINQDPLGIQGRRIHKEKSLIEVYMRPLSNKASALVFFSCRTDMPYRYHSSLGQLNFTGSVIYEAQDVYSGDIISGLRDETNFTVIINPSGVVMWYLYPIK LDNGLLQTPPMGWLAWERFRCNINCDEDPKNCISEQLFMEMADRMAQDGWRDMGYTYLNIDDCWIGGRDASGRLMPDPKRFPHGIPFLADYVHSLGLKLGIYADMGNFTCMGYPGTTLDKVVQDAQTFAEWKVDMLKLDGCFSTPEERAQGYPKMAAALNATGRPIAFSCSWPAYEGGLPPRVQYSLLADICNLWRNYDDIQDSWWSVLSILNWFVEHQDILQPVAGPGHWNDPDMLLIGNFGLSLEQSRAQMALWTVLAAPLLMSTDLRTISAQNMDILQNPLMIKINQDPLGIQGRRIHKEKSLIEVYMRPLSNKASALVFFSCRTDMPYRYHSSLGQLNFTGSVIYEAQDVYSGDIISGLRDETNFTVIINPSGVVMWYLYPIKNLEMSQQHHHHHH 4do8-a3-m1-cA_4do8-a3-m2-cB Crystal structure of the muscarinic toxin MT1 P81030 P81030 1.802 X-RAY DIFFRACTION 12 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 66 66 4do8-a3-m1-cB_4do8-a3-m2-cA LTCVTSKSIFGITTENCPDGQNLCFKKWYYIVPRYSDITWGCAATCPKPTNVRETIRCCETDKCNE LTCVTSKSIFGITTENCPDGQNLCFKKWYYIVPRYSDITWGCAATCPKPTNVRETIRCCETDKCNE 4do8-a3-m1-cB_4do8-a3-m2-cB Crystal structure of the muscarinic toxin MT1 P81030 P81030 1.802 X-RAY DIFFRACTION 31 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 66 66 4do8-a3-m1-cA_4do8-a3-m2-cA LTCVTSKSIFGITTENCPDGQNLCFKKWYYIVPRYSDITWGCAATCPKPTNVRETIRCCETDKCNE LTCVTSKSIFGITTENCPDGQNLCFKKWYYIVPRYSDITWGCAATCPKPTNVRETIRCCETDKCNE 4do8-a3-m2-cA_4do8-a3-m2-cB Crystal structure of the muscarinic toxin MT1 P81030 P81030 1.802 X-RAY DIFFRACTION 15 1.0 8618 (Dendroaspis angusticeps) 8618 (Dendroaspis angusticeps) 66 66 4do8-a3-m1-cA_4do8-a3-m1-cB LTCVTSKSIFGITTENCPDGQNLCFKKWYYIVPRYSDITWGCAATCPKPTNVRETIRCCETDKCNE LTCVTSKSIFGITTENCPDGQNLCFKKWYYIVPRYSDITWGCAATCPKPTNVRETIRCCETDKCNE 4dor-a1-m1-cA_4dor-a1-m1-cB Human Nuclear Receptor Liver Receptor Homologue-1, LRH-1, in its apo State Bound to a Fragment of Human SHP Box1 O00482 O00482 1.9 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 240 1yuc-a4-m1-cA_1yuc-a4-m1-cB SIPHLILELLKCEPDEPQVQAKIMAYLQQEQANRSKHEKLSTFGLMCKMADQTLFSIVEWARSSIFFRELKVDDQMKLLQNCWSELLILDHIYRQVVHGATLNNLMSHAQELVAKLRSLQFDQREFVCLKFLVLFSLDVKNLENFQLVEGVQEQVNAALLDYTMCNYPQQTEKFGQLLLRLPEIRAISMQAEEYLYYKHLNGDVPYNNLLIEMLHA SIPHLILELLKCEPDEPQVQAKIMAYLQQEQANRSKHEKLSTFGLMCKMADQTLFSIVEWARSSIFFRELKVDDQMKLLQNCWSELLILDHIYRQVVHGKEGSIFLVTGQQVDYSIIASQAGATLNNLMSHAQELVAKLRSLQFDQREFVCLKFLVLFSLDVKNLENFQLVEGVQEQVNAALLDYTMCNYPQQTEKFGQLLLRLPEIRAISMQAEEYLYYKHLNGDVPYNNLLIEMLHAK 4dos-a1-m1-cB_4dos-a1-m1-cC Human Nuclear Receptor Liver Receptor Homologue-1, LRH-1, Bound to DLPC and a Fragment of TIF-2 Q15596 Q15596 2 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 11 NALLRYLLDK ENALLRYLLDK 4dos-a3-m1-cA_4dos-a3-m4-cA Human Nuclear Receptor Liver Receptor Homologue-1, LRH-1, Bound to DLPC and a Fragment of TIF-2 O00482 O00482 2 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 AAASIPHLILELLKCEPDEPQVQAKIMAYLQQEQANRSKHEKLSTFGLMCKMADQTLFSIVEWARSSIFFRELKVDDQMKLLQNCWSELLILDHIYRQVVHGKEGSIFLVTGQQVDYSIIASQAGATLNNLMSHAQELVAKLRSLQFDQREFVCLKFLVLFSLDVKNLENFQLVEGVQEQVNAALLDYTMCNYPQQTEKFGQLLLRLPEIRAISMQAEEYLYYKHLNGDVPYNNLLIEMLHA AAASIPHLILELLKCEPDEPQVQAKIMAYLQQEQANRSKHEKLSTFGLMCKMADQTLFSIVEWARSSIFFRELKVDDQMKLLQNCWSELLILDHIYRQVVHGKEGSIFLVTGQQVDYSIIASQAGATLNNLMSHAQELVAKLRSLQFDQREFVCLKFLVLFSLDVKNLENFQLVEGVQEQVNAALLDYTMCNYPQQTEKFGQLLLRLPEIRAISMQAEEYLYYKHLNGDVPYNNLLIEMLHA 4dpl-a1-m1-cA_4dpl-a1-m1-cD Structure of malonyl-coenzyme A reductase from crenarchaeota in complex with NadP Q96YK1 Q96YK1 1.9 X-RAY DIFFRACTION 58 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 354 354 4dpk-a1-m1-cA_4dpk-a1-m1-cD 4dpk-a1-m1-cB_4dpk-a1-m1-cC 4dpl-a1-m1-cC_4dpl-a1-m1-cB 4dpm-a1-m1-cA_4dpm-a1-m1-cB 4dpm-a1-m2-cA_4dpm-a1-m2-cB 4dpm-a2-m1-cE_4dpm-a2-m1-cC 4dpm-a2-m1-cF_4dpm-a2-m1-cD RTLKAAILGATGLVGIEYVRMLSNHPYIKPAYLAGKGSVGKPYGEVVRWQTVGQVPKEIADMEIKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKEGFPVISNSPDHRFDPDVPLLVPELNPHTISLIDEQRKRREWKGFIVTTPLCTAQGAAIPLGAIFKDYKMDGAFITTIQSLSGAGYPGIPSLDVVDNILPLGDGYDAKTIKEIFRILSEVKRNVDEPKLEDVSLAATTHRIATIHGHYEVLYVSFKEETAAEKVKETLENFRGEPQDLKLPTAPSKPIIVMNEDTRPQVYFDRWAGDIPGMSVVVGRLKQVNKRMIRLVSLIHNTVRGAAGGGILAAELLVEKGYIEK RTLKAAILGATGLVGIEYVRMLSNHPYIKPAYLAGKGSVGKPYGEVVRWQTVGQVPKEIADMEIKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKEGFPVISNSPDHRFDPDVPLLVPELNPHTISLIDEQRKRREWKGFIVTTPLCTAQGAAIPLGAIFKDYKMDGAFITTIQSLSGAGYPGIPSLDVVDNILPLGDGYDAKTIKEIFRILSEVKRNVDEPKLEDVSLAATTHRIATIHGHYEVLYVSFKEETAAEKVKETLENFRGEPQDLKLPTAPSKPIIVMNEDTRPQVYFDRWAGDIPGMSVVVGRLKQVNKRMIRLVSLIHNTVRGAAGGGILAAELLVEKGYIEK 4dpl-a1-m1-cB_4dpl-a1-m1-cD Structure of malonyl-coenzyme A reductase from crenarchaeota in complex with NadP Q96YK1 Q96YK1 1.9 X-RAY DIFFRACTION 26 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 354 354 4dpk-a1-m1-cA_4dpk-a1-m1-cC 4dpk-a1-m1-cB_4dpk-a1-m1-cD 4dpl-a1-m1-cC_4dpl-a1-m1-cA 4dpm-a1-m1-cA_4dpm-a1-m2-cB 4dpm-a1-m1-cB_4dpm-a1-m2-cA 4dpm-a2-m1-cE_4dpm-a2-m1-cD 4dpm-a2-m1-cF_4dpm-a2-m1-cC RTLKAAILGATGLVGIEYVRMLSNHPYIKPAYLAGKGSVGKPYGEVVRWQTVGQVPKEIADMEIKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKEGFPVISNSPDHRFDPDVPLLVPELNPHTISLIDEQRKRREWKGFIVTTPLCTAQGAAIPLGAIFKDYKMDGAFITTIQSLSGAGYPGIPSLDVVDNILPLGDGYDAKTIKEIFRILSEVKRNVDEPKLEDVSLAATTHRIATIHGHYEVLYVSFKEETAAEKVKETLENFRGEPQDLKLPTAPSKPIIVMNEDTRPQVYFDRWAGDIPGMSVVVGRLKQVNKRMIRLVSLIHNTVRGAAGGGILAAELLVEKGYIEK RTLKAAILGATGLVGIEYVRMLSNHPYIKPAYLAGKGSVGKPYGEVVRWQTVGQVPKEIADMEIKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKEGFPVISNSPDHRFDPDVPLLVPELNPHTISLIDEQRKRREWKGFIVTTPLCTAQGAAIPLGAIFKDYKMDGAFITTIQSLSGAGYPGIPSLDVVDNILPLGDGYDAKTIKEIFRILSEVKRNVDEPKLEDVSLAATTHRIATIHGHYEVLYVSFKEETAAEKVKETLENFRGEPQDLKLPTAPSKPIIVMNEDTRPQVYFDRWAGDIPGMSVVVGRLKQVNKRMIRLVSLIHNTVRGAAGGGILAAELLVEKGYIEK 4dpl-a1-m1-cC_4dpl-a1-m1-cD Structure of malonyl-coenzyme A reductase from crenarchaeota in complex with NadP Q96YK1 Q96YK1 1.9 X-RAY DIFFRACTION 107 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 353 354 4dpk-a1-m1-cA_4dpk-a1-m1-cB 4dpk-a1-m1-cC_4dpk-a1-m1-cD 4dpl-a1-m1-cA_4dpl-a1-m1-cB 4dpm-a1-m1-cA_4dpm-a1-m2-cA 4dpm-a1-m1-cB_4dpm-a1-m2-cB 4dpm-a2-m1-cC_4dpm-a2-m1-cD 4dpm-a2-m1-cE_4dpm-a2-m1-cF TLKAAILGATGLVGIEYVRMLSNHPYIKPAYLAGKGSVGKPYGEVVRWQTVGQVPKEIADMEIKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKEGFPVISNSPDHRFDPDVPLLVPELNPHTISLIDEQRKRREWKGFIVTTPLCTAQGAAIPLGAIFKDYKMDGAFITTIQSLSGAGYPGIPSLDVVDNILPLGDGYDAKTIKEIFRILSEVKRNVDEPKLEDVSLAATTHRIATIHGHYEVLYVSFKEETAAEKVKETLENFRGEPQDLKLPTAPSKPIIVMNEDTRPQVYFDRWAGDIPGMSVVVGRLKQVNKRMIRLVSLIHNTVRGAAGGGILAAELLVEKGYIEK RTLKAAILGATGLVGIEYVRMLSNHPYIKPAYLAGKGSVGKPYGEVVRWQTVGQVPKEIADMEIKPTDPKLMDDVDIIFSPLPQGAAGPVEEQFAKEGFPVISNSPDHRFDPDVPLLVPELNPHTISLIDEQRKRREWKGFIVTTPLCTAQGAAIPLGAIFKDYKMDGAFITTIQSLSGAGYPGIPSLDVVDNILPLGDGYDAKTIKEIFRILSEVKRNVDEPKLEDVSLAATTHRIATIHGHYEVLYVSFKEETAAEKVKETLENFRGEPQDLKLPTAPSKPIIVMNEDTRPQVYFDRWAGDIPGMSVVVGRLKQVNKRMIRLVSLIHNTVRGAAGGGILAAELLVEKGYIEK 4dpo-a1-m1-cB_4dpo-a1-m1-cA Crystal structure of a conserved protein MM_1583 from Methanosarcina mazei Go1 Q8PWK2 Q8PWK2 2.73 X-RAY DIFFRACTION 56 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 98 99 LYFQSLAIRVVAKNQVKPEKVQEFNLCKSLIEETLKEEGCIDYGVYQELENPEILTLEEWKDEGSLDQHIRSDHFKEIFPLLSECLDKETEINIYRKK NLYFQSLAIRVVAKNQVKPEKVQEFNLCKSLIEETLKEEGCIDYGVYQELENPEILTLEEWKDEGSLDQHIRSDHFKEIFPLLSECLDKETEINIYRKK 4dpv-a1-m7-cZ_4dpv-a1-m9-cZ PARVOVIRUS/DNA COMPLEX P17455 P17455 2.9 X-RAY DIFFRACTION 80 1.0 10788 (Canine parvovirus) 10788 (Canine parvovirus) 559 559 4dpv-a1-m10-cZ_4dpv-a1-m7-cZ 4dpv-a1-m10-cZ_4dpv-a1-m8-cZ 4dpv-a1-m11-cZ_4dpv-a1-m13-cZ 4dpv-a1-m11-cZ_4dpv-a1-m14-cZ 4dpv-a1-m12-cZ_4dpv-a1-m14-cZ 4dpv-a1-m12-cZ_4dpv-a1-m15-cZ 4dpv-a1-m13-cZ_4dpv-a1-m15-cZ 4dpv-a1-m16-cZ_4dpv-a1-m18-cZ 4dpv-a1-m16-cZ_4dpv-a1-m19-cZ 4dpv-a1-m17-cZ_4dpv-a1-m19-cZ 4dpv-a1-m17-cZ_4dpv-a1-m20-cZ 4dpv-a1-m18-cZ_4dpv-a1-m20-cZ 4dpv-a1-m1-cZ_4dpv-a1-m3-cZ 4dpv-a1-m1-cZ_4dpv-a1-m4-cZ 4dpv-a1-m21-cZ_4dpv-a1-m23-cZ 4dpv-a1-m21-cZ_4dpv-a1-m24-cZ 4dpv-a1-m22-cZ_4dpv-a1-m24-cZ 4dpv-a1-m22-cZ_4dpv-a1-m25-cZ 4dpv-a1-m23-cZ_4dpv-a1-m25-cZ 4dpv-a1-m26-cZ_4dpv-a1-m28-cZ 4dpv-a1-m26-cZ_4dpv-a1-m29-cZ 4dpv-a1-m27-cZ_4dpv-a1-m29-cZ 4dpv-a1-m27-cZ_4dpv-a1-m30-cZ 4dpv-a1-m28-cZ_4dpv-a1-m30-cZ 4dpv-a1-m2-cZ_4dpv-a1-m4-cZ 4dpv-a1-m2-cZ_4dpv-a1-m5-cZ 4dpv-a1-m31-cZ_4dpv-a1-m33-cZ 4dpv-a1-m31-cZ_4dpv-a1-m34-cZ 4dpv-a1-m32-cZ_4dpv-a1-m34-cZ 4dpv-a1-m32-cZ_4dpv-a1-m35-cZ 4dpv-a1-m33-cZ_4dpv-a1-m35-cZ 4dpv-a1-m36-cZ_4dpv-a1-m38-cZ 4dpv-a1-m36-cZ_4dpv-a1-m39-cZ 4dpv-a1-m37-cZ_4dpv-a1-m39-cZ 4dpv-a1-m37-cZ_4dpv-a1-m40-cZ 4dpv-a1-m38-cZ_4dpv-a1-m40-cZ 4dpv-a1-m3-cZ_4dpv-a1-m5-cZ 4dpv-a1-m41-cZ_4dpv-a1-m43-cZ 4dpv-a1-m41-cZ_4dpv-a1-m44-cZ 4dpv-a1-m42-cZ_4dpv-a1-m44-cZ 4dpv-a1-m42-cZ_4dpv-a1-m45-cZ 4dpv-a1-m43-cZ_4dpv-a1-m45-cZ 4dpv-a1-m46-cZ_4dpv-a1-m48-cZ 4dpv-a1-m46-cZ_4dpv-a1-m49-cZ 4dpv-a1-m47-cZ_4dpv-a1-m49-cZ 4dpv-a1-m47-cZ_4dpv-a1-m50-cZ 4dpv-a1-m48-cZ_4dpv-a1-m50-cZ 4dpv-a1-m51-cZ_4dpv-a1-m53-cZ 4dpv-a1-m51-cZ_4dpv-a1-m54-cZ 4dpv-a1-m52-cZ_4dpv-a1-m54-cZ 4dpv-a1-m52-cZ_4dpv-a1-m55-cZ 4dpv-a1-m53-cZ_4dpv-a1-m55-cZ 4dpv-a1-m56-cZ_4dpv-a1-m58-cZ 4dpv-a1-m56-cZ_4dpv-a1-m59-cZ 4dpv-a1-m57-cZ_4dpv-a1-m59-cZ 4dpv-a1-m57-cZ_4dpv-a1-m60-cZ 4dpv-a1-m58-cZ_4dpv-a1-m60-cZ 4dpv-a1-m6-cZ_4dpv-a1-m8-cZ 4dpv-a1-m6-cZ_4dpv-a1-m9-cZ GSGNGSGGGGGGGSGGVGISTGTFNNQTEFKFLENGWVEITANSSRLVHLNMPESENYRRVVVNNMDKTAVNGNMALDDIHAQIVTPWSLVDANAWGVWFNPGDWQLIVNTMSELHLVSFEQEIFNVVLKTVSEPPTKVYNNDLTASLMVALDSNNTMPFTPAAMRSETLGFYPWKPTIPTPWRYYFQWDRTLIPSHTGTSGTPTNIYHGTDPDDVQFYTIENSVPVHLLRTGDEFATGTFFFDCKPCRLTHTWQTNRALGLPPFLNSLPQSEGATNFGDIGVQQDKRRGVTQMGNTNYITEATIMRPAEVGYSAPYYSFEASTQGPFKTPIAAGRGGAQTDENQAADGNPRYAFGRQHGQKTTTTGETPERFTYIAHQDTGRYPEGDWIQNINFNLPVTNDNVLLPTDPIGGKTGINYTNIFNTYGPLTALNNVPPVYPNGQIWDKEFDTDLKPRLHVNAPFVCQNNCPGQLFVKVAPNLTNEYDPDASANMSRIVTYSDFWWKGKLVFKAKLRASHTWNPIQQMSINVDNQFNYVPSNIGGMKIVYEKSQLAPRKLY GSGNGSGGGGGGGSGGVGISTGTFNNQTEFKFLENGWVEITANSSRLVHLNMPESENYRRVVVNNMDKTAVNGNMALDDIHAQIVTPWSLVDANAWGVWFNPGDWQLIVNTMSELHLVSFEQEIFNVVLKTVSEPPTKVYNNDLTASLMVALDSNNTMPFTPAAMRSETLGFYPWKPTIPTPWRYYFQWDRTLIPSHTGTSGTPTNIYHGTDPDDVQFYTIENSVPVHLLRTGDEFATGTFFFDCKPCRLTHTWQTNRALGLPPFLNSLPQSEGATNFGDIGVQQDKRRGVTQMGNTNYITEATIMRPAEVGYSAPYYSFEASTQGPFKTPIAAGRGGAQTDENQAADGNPRYAFGRQHGQKTTTTGETPERFTYIAHQDTGRYPEGDWIQNINFNLPVTNDNVLLPTDPIGGKTGINYTNIFNTYGPLTALNNVPPVYPNGQIWDKEFDTDLKPRLHVNAPFVCQNNCPGQLFVKVAPNLTNEYDPDASANMSRIVTYSDFWWKGKLVFKAKLRASHTWNPIQQMSINVDNQFNYVPSNIGGMKIVYEKSQLAPRKLY 4dq1-a1-m1-cB_4dq1-a1-m1-cA Thymidylate synthase from Staphylococcus aureus. P67046 P67046 2.71 X-RAY DIFFRACTION 137 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 300 312 NSFDAAYHSLCEEVLEIGNTRNDRTNTGTISKFGHQLRFDLSKGFPLLTTKKVSFKLVATELLWFIKGDTNIQYLLKYNNNIWNEWAFENYIKSDEYNGPDMFNEQYKEQMKQFKQRILEDDTFAKQFGDLGNVYGKQWRDWVDKDGNHFDQLKTVIEQIKHNPDSRRHIVSAWNPTEIDTMALPPCHTMFQFYVQDGKLSCQLYQRSADIFLGVPFNIASYALLTHLIAKECGLEVGEFVHTFGDAHIYSNHIDAIQTQLARESFNPPTLKINSDKSIFDINYEDLEIVDYESHPAIKA NSFDAAYHSLCEEVLEIGNTRNDRTNTGTISKFGHQLRFDLSKGFPLLTTKKVSFKLVATELLWFIKGDTNIQYLLKYNNNIWNEWAFENYIKSDEYNGPDMTDFGHRALSDPEFNEQYKEQMKQFKQRILEDDTFAKQFGDLGNVYGKQWRDWVDKDGNHFDQLKTVIEQIKHNPDSRRHIVSAWNPTEIDTMALPPCHTMFQFYVQDGKLSCQLYQRSADIFLGVPFNIASYALLTHLIAKECGLEVGEFVHTFGDAHIYSNHIDAIQTQLARESFNPPTLKINSDKSIFDINYEDLEIVDYESHPAIKA 4dq6-a1-m1-cA_4dq6-a1-m1-cB Crystal structure of PLP-bound putative aminotransferase from Clostridium difficile 630 Q183G9 Q183G9 1.5 X-RAY DIFFRACTION 179 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 388 388 4dgt-a1-m1-cA_4dgt-a1-m1-cB MNYNFNEIVDRSNNFSSKWSEMEKKYGTNDLLPMWVADMDFKAAPCIIDSLKNRLEQEIYGYTTRPDSYNESIVNWLYRRHNWKIKSEWLIYSPGVIPAISLLINELTKANDKIMIQEPVYSPFNSVVKNNNRELIISPLQKLENGNYIMDYEDIENKIKDVKLFILCNPHNPVGRVWTKDELKKLGDICLKHNVKIISDEIHSDIILKKHKHIPMASISKEFEKNTITCMAPTKTFNIAGLQSSYVVLPDEKDYKLLDDAFTRIDIKRNNCFSLVATEASYNNGESWLESFLEYLESNIDFAIKYINENMPKLKVRKPEGTYLLWVDFSALGLSDEELESILVQKGKVALNQGNSFGIGGSGYQRINLACPRSMLEEALIRIKNAIN MNYNFNEIVDRSNNFSSKWSEMEKKYGTNDLLPMWVADMDFKAAPCIIDSLKNRLEQEIYGYTTRPDSYNESIVNWLYRRHNWKIKSEWLIYSPGVIPAISLLINELTKANDKIMIQEPVYSPFNSVVKNNNRELIISPLQKLENGNYIMDYEDIENKIKDVKLFILCNPHNPVGRVWTKDELKKLGDICLKHNVKIISDEIHSDIILKKHKHIPMASISKEFEKNTITCMAPTKTFNIAGLQSSYVVLPDEKDYKLLDDAFTRIDIKRNNCFSLVATEASYNNGESWLESFLEYLESNIDFAIKYINENMPKLKVRKPEGTYLLWVDFSALGLSDEELESILVQKGKVALNQGNSFGIGGSGYQRINLACPRSMLEEALIRIKNAIN 4dq8-a1-m1-cB_4dq8-a1-m1-cA Crystal structure of acetate kinase AckA from Mycobacterium marinum B2HPZ3 B2HPZ3 2.25 X-RAY DIFFRACTION 244 0.989 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 371 373 NRVVLVLNSGSSSLKFQLVEPDSGMSRATGNIERIGSSVPDHDAALRRVFEILAEDDIGLVAVGHRVVHGGKDFYEPTLLNDAVIGKLDELSPLAPLHNPPAVLCIRVARALLPDVPHIAVFDTAFFHQLPPAAATYAIDRELADVWKIRRYGFHGTSHEYVSQQAAEFLGKPIGDLNQIVLHLGNGASASAVAGGRPVETSMGLTPLEGLVMGTRSGDLDPGVIGYLWRTAKLGVDEIESMLNHRSGMLGLAGERDFRRLRAMIDDGDPAAELAYDVFIHRLRKYVGAYLAVLGHTDVVSFTAGIGEHDAAVRRDTLAGMAELGISLDERRNACPSGGARRISADDSPVTVLVIPTNEELAIARHCCSVL NRVVLVLNSGSSSLKFQLVEPDSGMSRATGNIERIPDHDAALRRVFEILAEDDIDLQSCGLVAVGHRVVHGGKDFYEPTLLNDAVIGKLDELSPLAPLHNPPAVLCIRVARALLPDVPHIAVFDTAFFHQLPPAAATYAIDRELADVWKIRRYGFHGTSHEYVSQQAAEFLGKPIGDLNQIVLHLGNGASASAVAGGRPVETSMGLTPLEGLVMGTRSGDLDPGVIGYLWRTAKLGVDEIESMLNHRSGMLGLAGERDFRRLRAMIDDGDPAAELAYDVFIHRLRKYVGAYLAVLGHTDVVSFTAGIGEHDAAVRRDTLAGMAELGISLDERRNACPSGGARRISADDSPVTVLVIPTNEELAIARHCCSVLV 4dql-a3-m1-cA_4dql-a3-m2-cB Crystal structure of the FAD binding domain of cytochrome P450 BM3 in complex with NADP+ P14779 P14779 2.15 X-RAY DIFFRACTION 58 0.995 1404 (Priestia megaterium) 1404 (Priestia megaterium) 378 379 GAFSTNVVASKELQQPGSARSTRHLEIELPKEASYQEGDHLGVIPRNYEGIVNRVTARFGLDASQQIRLEAKTVSVEELLQYVELQDPVTRTQLRAMAAKTVCPPHKVELEALLEKQAYKEQVLAKRLTMLELLEKYPACEMKFSEFIALLPSIRPRYYSISSSPRVDEKQASITVSVVSGEAWSGYGEYKGIASNYLAELQEGDTITCFISTPQSEFTLPKDPETPLIMVGPGTGVAPFRGFVQARKQLKEQGQSLGEAHLYFGCRSPHEDYLYQEELENAQSEGIITLHTAFSRMPNQPKTYVQHVMEQDGKKLIELLDQGAHFYICGDGSQMAPAVEATLMKSYADVHQVSEADARLWLQQLEEKGRYAKDVWAG KMHGAFSTNVVASKELQQPGSARSTRHLEIELPKEASYQEGDHLGVIPRNYEGIVNRVTARFGLDASQQIRLKTVSVEELLQYVELQDPVTRTQLRAMAAKTVCPPHKVELEALLEKQAYKEQVLAKRLTMLELLEKYPACEMKFSEFIALLPSIRPRYYSISSSPRVDEKQASITVSVVSGEAWSGYGEYKGIASNYLAELQEGDTITCFISTPQSEFTLPKDPETPLIMVGPGTGVAPFRGFVQARKQLKEQGQSLGEAHLYFGCRSPHEDYLYQEELENAQSEGIITLHTAFSRMPNQPKTYVQHVMEQDGKKLIELLDQGAHFYICGDGSQMAPAVEATLMKSYADVHQVSEADARLWLQQLEEKGRYAKDVWAG 4dqn-a1-m1-cA_4dqn-a1-m2-cA Crystal structure of the branched-chain aminotransferase from Streptococcus mutans Q8DTW7 Q8DTW7 1.97 X-RAY DIFFRACTION 205 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 340 340 TVDLDWKNLGFEYHKLPFRYISYYKDGKWDDGKLTEDATLHISESSPALHYGQEAFEGLKAYRTKDGSVQLFRPNMNAERLQRTADRLLMPQVPTDKFIDAAKQVVRANEEYVPPYGTGATLYLRPLLIGVGDVIGVHPADEYIFTIFAMPVGNYFKGGLAPTNFLIQDDYDRAAPHGTGAAKVGGNYAASLLPGKVAHERQFSDVIYLDPATHTKIEEVGSANFFGITKDNEFITPLSPSILPSVTKYSLLYLAEHRFGMKAIEGDVCVDELDKFVEAGACGTAAVISPIGGVQHGDDFHVFYSETEVGPVTHKLYDELTGIQFGDVKAPEGWIYKVDD TVDLDWKNLGFEYHKLPFRYISYYKDGKWDDGKLTEDATLHISESSPALHYGQEAFEGLKAYRTKDGSVQLFRPNMNAERLQRTADRLLMPQVPTDKFIDAAKQVVRANEEYVPPYGTGATLYLRPLLIGVGDVIGVHPADEYIFTIFAMPVGNYFKGGLAPTNFLIQDDYDRAAPHGTGAAKVGGNYAASLLPGKVAHERQFSDVIYLDPATHTKIEEVGSANFFGITKDNEFITPLSPSILPSVTKYSLLYLAEHRFGMKAIEGDVCVDELDKFVEAGACGTAAVISPIGGVQHGDDFHVFYSETEVGPVTHKLYDELTGIQFGDVKAPEGWIYKVDD 4dqx-a1-m1-cB_4dqx-a1-m1-cD Crystal structure of a short chain dehydrogenase from Rhizobium etli CFN 42 Q8KL31 Q8KL31 2 X-RAY DIFFRACTION 32 0.988 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 241 241 4dqx-a1-m1-cC_4dqx-a1-m1-cA DLNQRVCIVTGGGSGIGRATAELFAKNGAYVVVADVNEDAAVRVANEIGSKAFGVRVDVSSAKDAESVEKTTAKWGRVDVLVNNAGFGTTGNVVTIPEETWDRISVNVKGIFLCSKYVIPVRRNGGGSIINTTSYTATSAIADRTAYVASKGAISSLTRAADHAKEGIRVNAVAPGTIDSPYFTKIFADPAKLRSDFNARAVDRGTAEEIAEALFLASDRSRFATGSILTVDGGSSIGNHL QSDLNQRVCIVTGGGSGIGRATAELFAKNGAYVVVADVNEDAAVRVANEIGSKAFGVRVDVSSAKDAESVEKTTAKWGRVDVLVNNAGFGTTGNVVTIPEETWDRISVNVKGIFLCSKYVIPVRRNGGGSIINTTSYTATSAIADRTAYVASKGAISSLTRAADHAKEGIRVNAVAPGTIDSPYFTKIFAEKLRSDFNARAVDRGTAEEIAEALFLASDRSRFATGSILTVDGGSSIGNHL 4dqx-a1-m1-cD_4dqx-a1-m1-cA Crystal structure of a short chain dehydrogenase from Rhizobium etli CFN 42 Q8KL31 Q8KL31 2 X-RAY DIFFRACTION 90 0.996 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 241 246 4dqx-a1-m1-cB_4dqx-a1-m1-cC QSDLNQRVCIVTGGGSGIGRATAELFAKNGAYVVVADVNEDAAVRVANEIGSKAFGVRVDVSSAKDAESVEKTTAKWGRVDVLVNNAGFGTTGNVVTIPEETWDRISVNVKGIFLCSKYVIPVRRNGGGSIINTTSYTATSAIADRTAYVASKGAISSLTRAADHAKEGIRVNAVAPGTIDSPYFTKIFAEKLRSDFNARAVDRGTAEEIAEALFLASDRSRFATGSILTVDGGSSIGNHL SDLNQRVCIVTGGGSGIGRATAELFAKNGAYVVVADVNEDAAVRVANEIGSKAFGVRVDVSSAKDAESVEKTTAKWGRVDVLVNNAGFGTTGNVVTIPEETWDRISVNVKGIFLCSKYVIPVRRNGGGSIINTTSYTATSAIADRTAYVASKGAISSLTRAADHAKEGIRVNAVAPGTIDSPYFTKIFAEAKDPAKLRSDFNARAVDRGTAEEIAEALFLASDRSRFATGSILTVDGGSSIGNHLV 4dqx-a1-m1-cD_4dqx-a1-m1-cC Crystal structure of a short chain dehydrogenase from Rhizobium etli CFN 42 Q8KL31 Q8KL31 2 X-RAY DIFFRACTION 125 0.992 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 241 242 4dqx-a1-m1-cB_4dqx-a1-m1-cA QSDLNQRVCIVTGGGSGIGRATAELFAKNGAYVVVADVNEDAAVRVANEIGSKAFGVRVDVSSAKDAESVEKTTAKWGRVDVLVNNAGFGTTGNVVTIPEETWDRISVNVKGIFLCSKYVIPVRRNGGGSIINTTSYTATSAIADRTAYVASKGAISSLTRAADHAKEGIRVNAVAPGTIDSPYFTKIFAEKLRSDFNARAVDRGTAEEIAEALFLASDRSRFATGSILTVDGGSSIGNHL QSDLNQRVCIVTGGGSGIGRATAELFAKNGAYVVVADVNEDAAVRVANEIGSKAFGVRVDVSSAKDAESVEKTTAKWGRVDVLVNNAGFGTTGNVVTIPEETWDRISVNVKGIFLCSKYVIPVRRNGGGSIINTTSYTATSAIADRTAYVASKGAISSLTRAADHAKEGIRVNAVAPGTIDSPYFTKIFPAKLRSDFNARAVDRGTAEEIAEALFLASDRSRFATGSILTVDGGSSIGNHLV 4dqz-a1-m1-cA_4dqz-a1-m1-cB Crystal Structure of C-terminal Half of Bacterial Hen1 A3DJ37 A3DJ37 2.301 X-RAY DIFFRACTION 50 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 171 171 MILTITYTQPPATDLGYLLHKNPSRPQTFELNHGKAHIFYPEATSERCTVALLLDIDSFMSVAISRVFGTAMSGKCKEKPELAAIKLPLKAKIMMLPCKGGEEIIYRLFEPLGYKVDVEGYRYYTVSLEGEVRVRDLLNHIYVLIPVLDIDKLFQHGEGWLVDHPEKELIT MILTITYTQPPATDLGYLLHKNPSRPQTFELNHGKAHIFYPEATSERCTVALLLDIDSFMSVAISRVFGTAMSGKCKEKPELAAIKLPLKAKIMMLPCKGGEEIIYRLFEPLGYKVDVEGYRYYTVSLEGEVRVRDLLNHIYVLIPVLDIDKLFQHGEGWLVDHPEKELIT 4dr0-a1-m1-cA_4dr0-a1-m1-cB Crystal structure of Bacillus subtilis dimanganese(II) NrdF P50621 P50621 1.9 X-RAY DIFFRACTION 133 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 290 291 MTKIYDAANWSKHEDDFTQMFYNQNVKQFWLPEEIALNGDLLTWKYLGKNEQDTYMKVLAGLTLLDTEQGNTGMPIVAEHVDGHQRKAVLNFMAMMENAVHAKSYSNIFMTLAPTETINEVFEWVKQNKYLQKKAQMIVGLYKAIQKDDEISLFKAMVASVYLESFLFYSGFYYPLYFYGQGKLMQSGEIINLILRDEAIHGVYVGLLAQEIYNKQTEEKKAELREFAIDLLNQLYENELEYTEDLYDQVGLSHDVKKFIRYNANKALMNLGFDPYFEEEDINPIVLNGL KIYDAANWSKHEDDFTQMFYNQNVKQFWLPEEIALNGDLLTWKYLGKNEQDTYMKVLAGLTLLDTEQGNTGMPIVAEHVDGHQRKAVLNFMAMMENAVHAKSYSNIFMTLAPTETINEVFEWVKQNKYLQKKAQMIVGLYKAIQKDDEISLFKAMVASVYLESFLFYSGFYYPLYFYGQGKLMQSGEIINLILRDEAIHGVYVGLLAQEIYNKQTEEKKAELREFAIDLLNQLYENELEYTEDLYDQVGLSHDVKKFIRYNANKALMNLGFDPYFEEEDINPIVLNGLNTK 4dry-a1-m1-cA_4dry-a1-m1-cD The crystal structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Rhizobium meliloti Q92TX5 Q92TX5 2.5 X-RAY DIFFRACTION 122 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 234 239 4dry-a1-m1-cB_4dry-a1-m1-cC RIALVTGGGTGVGRGIAQALSAEGYSVVITGRRPDVLDAAAGEIGGRTGNIVRAVVCDVGDPDQVAALFAAVRAEFARLDLLVNNAGSNVPPVPLEEVTFEQWNGIVAANLTGAFLCTQHAFRKAQTPRGGRIINNGSISAQTPRPNSAPYTATKHAITGLTKSTALDGRHDIACGQIDIGNAATTGVLQANGEVAAEPTIPIEHIAEAVVYASLPLSANVLTTVATRPLVGRG RIALVTGGGTGVGRGIAQALSAEGYSVVITGRRPDVLDAAAGEIGGRTGNIVRAVVCDVGDPDQVAALFAAVRAEFARLDLLVNNAGSNVPPVPLEEVTFEQWNGIVAANLTGAFLCTQHAFRKAQTPRGGRIINNGSISAQTPRPNSAPYTATKHAITGLTKSTALDGRHDIACGQIDIGNAATDTARSTGVLQANGEVAAEPTIPIEHIAEAVVYASLPLSANVLTTVATRPLVGRG 4dry-a1-m1-cB_4dry-a1-m1-cD The crystal structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Rhizobium meliloti Q92TX5 Q92TX5 2.5 X-RAY DIFFRACTION 45 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 239 239 4dry-a1-m1-cA_4dry-a1-m1-cC RIALVTGGGTGVGRGIAQALSAEGYSVVITGRRPDVLDAAAGEIGGRTGNIVRAVVCDVGDPDQVAALFAAVRAEFARLDLLVNNAGSNVPPVPLEEVTFEQWNGIVAANLTGAFLCTQHAFRKAQTPRGGRIINNGSISAQTPRPNSAPYTATKHAITGLTKSTALDGRHDIACGQIDIGNAATDTARSTGVLQANGEVAAEPTIPIEHIAEAVVYASLPLSANVLTTVATRPLVGRG RIALVTGGGTGVGRGIAQALSAEGYSVVITGRRPDVLDAAAGEIGGRTGNIVRAVVCDVGDPDQVAALFAAVRAEFARLDLLVNNAGSNVPPVPLEEVTFEQWNGIVAANLTGAFLCTQHAFRKAQTPRGGRIINNGSISAQTPRPNSAPYTATKHAITGLTKSTALDGRHDIACGQIDIGNAATDTARSTGVLQANGEVAAEPTIPIEHIAEAVVYASLPLSANVLTTVATRPLVGRG 4dry-a1-m1-cC_4dry-a1-m1-cD The crystal structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Rhizobium meliloti Q92TX5 Q92TX5 2.5 X-RAY DIFFRACTION 74 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 239 239 4dry-a1-m1-cA_4dry-a1-m1-cB RIALVTGGGTGVGRGIAQALSAEGYSVVITGRRPDVLDAAAGEIGGRTGNIVRAVVCDVGDPDQVAALFAAVRAEFARLDLLVNNAGSNVPPVPLEEVTFEQWNGIVAANLTGAFLCTQHAFRKAQTPRGGRIINNGSISAQTPRPNSAPYTATKHAITGLTKSTALDGRHDIACGQIDIGNAATDTARSTGVLQANGEVAAEPTIPIEHIAEAVVYASLPLSANVLTTVATRPLVGRG RIALVTGGGTGVGRGIAQALSAEGYSVVITGRRPDVLDAAAGEIGGRTGNIVRAVVCDVGDPDQVAALFAAVRAEFARLDLLVNNAGSNVPPVPLEEVTFEQWNGIVAANLTGAFLCTQHAFRKAQTPRGGRIINNGSISAQTPRPNSAPYTATKHAITGLTKSTALDGRHDIACGQIDIGNAATDTARSTGVLQANGEVAAEPTIPIEHIAEAVVYASLPLSANVLTTVATRPLVGRG 4ds3-a1-m1-cA_4ds3-a1-m2-cA Crystal Structure of Phosphoribosylglycinamide formyltransferase from Brucella melitensis Q8YGB8 Q8YGB8 1.85 X-RAY DIFFRACTION 100 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 192 192 KRNRVVIFISGGGSNMEALIRAAQAPGFPAEIVAVFSDKAEAGGLAKAEAAGIATQVFKRKDFASKEAHEDAILAALDVLKPDIICLAGYMRLLSGRFIAPYEGRILNIHPSLLPLFPGLHTHQRALDAGMKLAGCTVHLVTEDEGPILAQAAVPVLDGDTAETLAARVLKAEHRLYPLALQKFAAGMVLSA KRNRVVIFISGGGSNMEALIRAAQAPGFPAEIVAVFSDKAEAGGLAKAEAAGIATQVFKRKDFASKEAHEDAILAALDVLKPDIICLAGYMRLLSGRFIAPYEGRILNIHPSLLPLFPGLHTHQRALDAGMKLAGCTVHLVTEDEGPILAQAAVPVLDGDTAETLAARVLKAEHRLYPLALQKFAAGMVLSA 4ds7-a6-m2-cB_4ds7-a6-m1-cA Crystal structure of yeast calmodulin bound to the C-terminal fragment of spindle pole body protein Spc110 O60041 O60041 2.15 X-RAY DIFFRACTION 29 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 142 144 4ds7-a6-m1-cB_4ds7-a6-m2-cA LTEEQIAEFKEAFALFDKDNSGSISASELATVMRSLGLSPSEAEVADLMNEIDVDGNHAIEFSEFLALMSRQLKCNDSEQELLEAFKVFDKNGDGLISAAELKHVLTSIGEKLTDAEVDEMLREVSDGSGEINIKQFAALLS NLTEEQIAEFKEAFALFDKDNSGSISASELATVMRSLGLSPSEAEVADLMNEIDVDGNHAIEFSEFLALMSRQLKCNDSEQELLEAFKVFDKNGDGLISAAELKHVLTSIGEKLTDAEVDEMLREVSDGSGEINIKQFAALLSK 4ds7-a6-m2-cB_4ds7-a6-m2-cA Crystal structure of yeast calmodulin bound to the C-terminal fragment of spindle pole body protein Spc110 O60041 O60041 2.15 X-RAY DIFFRACTION 87 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 142 144 4ds7-a3-m1-cC_4ds7-a3-m1-cD 4ds7-a6-m1-cB_4ds7-a6-m1-cA LTEEQIAEFKEAFALFDKDNSGSISASELATVMRSLGLSPSEAEVADLMNEIDVDGNHAIEFSEFLALMSRQLKCNDSEQELLEAFKVFDKNGDGLISAAELKHVLTSIGEKLTDAEVDEMLREVSDGSGEINIKQFAALLS NLTEEQIAEFKEAFALFDKDNSGSISASELATVMRSLGLSPSEAEVADLMNEIDVDGNHAIEFSEFLALMSRQLKCNDSEQELLEAFKVFDKNGDGLISAAELKHVLTSIGEKLTDAEVDEMLREVSDGSGEINIKQFAALLSK 4dt5-a1-m1-cB_4dt5-a1-m1-cA Crystal Structure of Rhagium inquisitor Antifreeze Protein E5LR38 E5LR38 1.15 X-RAY DIFFRACTION 95 1.0 933255 (Rhagium inquisitor) 933255 (Rhagium inquisitor) 138 143 GYSCRAVGVDGRAVTDIQGTCHAKATGAGAMASGTSEPGSTSTATATGRGATARSTSTGRGTATTTATGTASATSNAIGQGTATTTATGSAGGRATGSATTSSSASQPTQTQTITGPGFQTAKSFARNTATTTVTASH GYSCRAVGVDGRAVTDIQGTCHAKATGAGAMASGTSEPGSTSTATATGRGATARSTSTGRGTATTTATGTASATSNAIGQGTATTTATGSAGGRATGSATTSSSASQPTQTQTITGPGFQTAKSFARNTATTTVTASHHHHHH 4dth-a2-m1-cA_4dth-a2-m2-cA Structure of a VgrG Vibrio cholerae toxin ACD domain in complex with ATP and Mg++ A0A0H3AIG7 A0A0H3AIG7 1.78 X-RAY DIFFRACTION 80 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 356 356 4dtd-a2-m1-cA_4dtd-a2-m2-cA 4e1f-a2-m1-cA_4e1f-a2-m2-cA 4gqk-a2-m1-cA_4gqk-a2-m2-cA ATPDFPTHFPKSSIGIENELAGLVVAMPANSAQKFGYVKSAQGDALFMLTKDMNQGSYQRPPSLQDGKNYQNWQTHTVELVSYPCEMDDKAAVETRKQAMLWLATHFTTHIDQSNHQPLAPIQSEDGRFVIEITNAKHVIAAGNGISAESQGQTITMTPSGQQATVGVAAKGFGTSATPELRLLESAPWYQKSLKSQFASLTSAENLDDKELAANVFAYLTSIYLKTAELAKKFGIYINEWDPMSEQITPNANGLTDPKVKNAWEILPRTKPSKIVEILSKSDAKAVMKHIKPQLQSRYSESLSKNVFQYFQDGGEVAGHGINNATVGDKHSPELAILFEFRTVPNELQSYLPKTE ATPDFPTHFPKSSIGIENELAGLVVAMPANSAQKFGYVKSAQGDALFMLTKDMNQGSYQRPPSLQDGKNYQNWQTHTVELVSYPCEMDDKAAVETRKQAMLWLATHFTTHIDQSNHQPLAPIQSEDGRFVIEITNAKHVIAAGNGISAESQGQTITMTPSGQQATVGVAAKGFGTSATPELRLLESAPWYQKSLKSQFASLTSAENLDDKELAANVFAYLTSIYLKTAELAKKFGIYINEWDPMSEQITPNANGLTDPKVKNAWEILPRTKPSKIVEILSKSDAKAVMKHIKPQLQSRYSESLSKNVFQYFQDGGEVAGHGINNATVGDKHSPELAILFEFRTVPNELQSYLPKTE 4du5-a2-m1-cC_4du5-a2-m1-cB Crystal structure of PfkB protein from Polaromonas sp. JS666 Q12CR9 Q12CR9 2.7 X-RAY DIFFRACTION 51 0.996 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 285 286 4du5-a1-m1-cA_4du5-a1-m1-cD ALDVITFGEALLVADRPGPLEHAEAFHKRTAGAETNVAIGLARLGLKVGWASRLGTDSGRYLLAAAAEGIDCSHVVCDATQKTGFQFKGKVTDDPPVEYHRKGSAASHGVADIDEAWLLSARHLHATGVFPAISATTLPAARKTDLRAAGRSVSFDPNLRPTLWATPELRDAINDLATRADWVLPGEEGRFLTGETTPEGVARFYRQLGAKLVVVKLGAEGAYFDGEAGSGRVAGFPVGAGDGFAVGVISALLDGLGVPEAVKRGAWIGARAVQGLPTRAELNAA ALDVITFGEALLVADRPGPLEHAEAFHKRTAGAETNVAIGLARLGLKVGWASRLGTDSGRYLLAAAAEGIDCSHVVCDATQKTGFQFKGKVTDGPPVEYHRKGSAASHGVADIDEAWLLSARHLHATGVFPAISATTLPAARKTDLRAAGRSVSFDPNLRPTLWATPELRDAINDLATRADWVLPGEEGRFLTGETTPEGVARFYRQLGAKLVVVKLGAEGAYFDGEAGSGRVAGFPVGAGDGFAVGVISALLDGLGVPEAVKRGAWIGARAVQGLPTRAELNAAK 4du6-a1-m1-cE_4du6-a1-m2-cE Crystal structure of GTP cyclohydrolase I from Yersinia pestis complexed with GTP Q8ZG15 Q8ZG15 2.106 X-RAY DIFFRACTION 130 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 214 214 4du6-a1-m1-cB_4du6-a1-m2-cC 4du6-a1-m1-cD_4du6-a1-m2-cA 4du6-a1-m2-cB_4du6-a1-m1-cC 4du6-a1-m2-cD_4du6-a1-m1-cA SSLSKEAELVHQALLARGLETPPELDAETRKTRIQAHMTEVMHLLNLDLTDDSLADTPRRIAKMYVDEIFSGLDYENFPKITLIQNKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILLALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVRH SSLSKEAELVHQALLARGLETPPELDAETRKTRIQAHMTEVMHLLNLDLTDDSLADTPRRIAKMYVDEIFSGLDYENFPKITLIQNKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILLALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVRH 4du6-a1-m2-cE_4du6-a1-m1-cD Crystal structure of GTP cyclohydrolase I from Yersinia pestis complexed with GTP Q8ZG15 Q8ZG15 2.106 X-RAY DIFFRACTION 11 0.995 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 214 216 4du6-a1-m1-cE_4du6-a1-m2-cD SSLSKEAELVHQALLARGLETPPELDAETRKTRIQAHMTEVMHLLNLDLTDDSLADTPRRIAKMYVDEIFSGLDYENFPKITLIQNKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILLALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVRH SSLSKEAELVHQALLARGLETPLRKPELDAETRKTRIQAHMTEVMHLLNLDLTDDSLADTPRRIAKMYVDEIFSGLDYENFPKITLIQNKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILLALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVR 4du6-a1-m2-cE_4du6-a1-m2-cD Crystal structure of GTP cyclohydrolase I from Yersinia pestis complexed with GTP Q8ZG15 Q8ZG15 2.106 X-RAY DIFFRACTION 77 0.995 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 214 216 4du6-a1-m1-cB_4du6-a1-m1-cA 4du6-a1-m1-cB_4du6-a1-m1-cC 4du6-a1-m1-cD_4du6-a1-m1-cC 4du6-a1-m1-cE_4du6-a1-m1-cA 4du6-a1-m1-cE_4du6-a1-m1-cD 4du6-a1-m2-cB_4du6-a1-m2-cA 4du6-a1-m2-cB_4du6-a1-m2-cC 4du6-a1-m2-cD_4du6-a1-m2-cC 4du6-a1-m2-cE_4du6-a1-m2-cA SSLSKEAELVHQALLARGLETPPELDAETRKTRIQAHMTEVMHLLNLDLTDDSLADTPRRIAKMYVDEIFSGLDYENFPKITLIQNKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILLALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVRH SSLSKEAELVHQALLARGLETPLRKPELDAETRKTRIQAHMTEVMHLLNLDLTDDSLADTPRRIAKMYVDEIFSGLDYENFPKITLIQNKMKVDEMVTVRDITLTSTCEHHFVTIDGKATVAYIPKDSVIGLSKINRIVQFFAQRPQVQERLTQQILLALQTLLGTNNVAVSIDAVHYCVKARGIRDATSATTTTSLGGLFKSSQNTRQEFLRAVR 4dun-a1-m1-cA_4dun-a1-m2-cA 1.76A X-ray Crystal Structure of a Putative Phenazine Biosynthesis PhzC/PhzF Protein from Clostridium difficile (strain 630) Q186X0 Q186X0 1.76 X-RAY DIFFRACTION 48 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 259 259 AMEYYIVDSFATKLFKGNPAGVCVLDRRIPLELMQKIAEENNLPETAFVVKGKGNYELRWFTPKAEIDLCGHATLAAAYVISNFIDVNVKKIDFFTQSGKLEVTRNGNLYEMIFPEIMPIEIELSPQQANLIGCVPSDVYSSRDLILLLNSEQEVINYKPNYAQLRKLTDWLGIIITAQGSNTDFVSRYFCPELDSEDPVTGSSHCNLIPYWSEKLGKHKMVAAQLSNRGGIIQCEVLKDNTVKISGEAVLFMQGTIKI AMEYYIVDSFATKLFKGNPAGVCVLDRRIPLELMQKIAEENNLPETAFVVKGKGNYELRWFTPKAEIDLCGHATLAAAYVISNFIDVNVKKIDFFTQSGKLEVTRNGNLYEMIFPEIMPIEIELSPQQANLIGCVPSDVYSSRDLILLLNSEQEVINYKPNYAQLRKLTDWLGIIITAQGSNTDFVSRYFCPELDSEDPVTGSSHCNLIPYWSEKLGKHKMVAAQLSNRGGIIQCEVLKDNTVKISGEAVLFMQGTIKI 4dup-a1-m1-cB_4dup-a1-m1-cA Crystal Structure of a quinone oxidoreductase from Rhizobium etli CFN 42 Q2KB38 Q2KB38 2.45 X-RAY DIFFRACTION 69 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 305 323 LPQERFVDLKSFGGPDVVIGKRPLPVAGEGEVLVRAEAIGVNRPDIAQRQGSYPPPKDASPILGLELSGEIVGVGPYAVGDKVCGLANGGAYAEYCLLPAGQILPFPKGYDAVKAAALPETFFTVWANLFQAGLTEGESVLIHGGTSGIGTTAIQLARAFGAEVYATAACERLGAKRGINYRSEDFAAVIKAETGQGVDIILDIGAAYFERNIASLAKDGCLSIIAFLGGAVAEKVNLSPIVKRLTVTGSTRPRTAEEKRAIRDDLLSEVWPLLEAGTVAPVIHKVFAFEDVADAHRLLEKVLTV SLPQERFVDLKSFGGPDVVIGKRPLPVAGEGEVLVRAEAIGVNRPDIAQRQGSYPPPKDASPILGLELSGEIVGVGPGVSGYAVGDKVCGLANGGAYAEYCLLPAGQILPFPKGYDAVKAAALPETFFTVWANLFQAGLTEGESVLIHGGTSGIGTTAIQLARAFGAEVYATAGSTGKCEACERLGAKRGINYRSEDFAAVIKAETGQGVDIILDIGAAYFERNIASLAKDGCLSIIAFLGGAVAEKVNLSPIVKRLTVTGSTRPRTAEEKRAIRDDLLSEVWPLLEAGTVAPVIHKVFAFEDVADAHRLLEEGSHVGKVLTV 4duq-a1-m1-cA_4duq-a1-m1-cB The Structure of Ca2+-loaded S100A2 at 1.3A resolution P29034 P29034 1.3 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 90 SSSLEQALAVLVTTFHKYSSQEGDKFKLSKGEMKELLHKELPSFVGEKVDEEGLKKLMGSLDENSDQQVDFQEYAVFLALITVMSNDF SSSLEQALAVLVTTFHKYSSQEGDKFKLSKGEMKELLHKELPSFVGEKVDEEGLKKLMGSLDENSDQQVDFQEYAVFLALITVMSNDFFQ 4dve-a4-m2-cC_4dve-a4-m2-cA Crystal structure at 2.1 A of the S-component for biotin from an ECF-type ABC transporter A2RMJ9 A2RMJ9 2.09 X-RAY DIFFRACTION 43 1.0 416870 (Lactococcus cremoris subsp. cremoris MG1363) 416870 (Lactococcus cremoris subsp. cremoris MG1363) 183 184 4dve-a4-m1-cB_4dve-a4-m2-cB 4dve-a4-m1-cC_4dve-a4-m1-cA TNNQKVKTLTYSAFTAFIIILGFLPGIPIGFIPVPIILQNGIAGGLLGPKYGTISVGAFLALALIGLPVLTGGNGGAASFLGPSGGYRIAWLFTPFLIGFFLKKLKITTSQNWFGELIIVLLFGVIFVDFVGAIWLSFQSNIPLLTSLISNLVFIPGDCIKAILTVVIVRRLRKQGGFELYFR ATNNQKVKTLTYSAFTAFIIILGFLPGIPIGFIPVPIILQNGIAGGLLGPKYGTISVGAFLALALIGLPVLTGGNGGAASFLGPSGGYRIAWLFTPFLIGFFLKKLKITTSQNWFGELIIVLLFGVIFVDFVGAIWLSFQSNIPLLTSLISNLVFIPGDCIKAILTVVIVRRLRKQGGFELYFR 4dve-a4-m2-cC_4dve-a4-m2-cB Crystal structure at 2.1 A of the S-component for biotin from an ECF-type ABC transporter A2RMJ9 A2RMJ9 2.09 X-RAY DIFFRACTION 55 1.0 416870 (Lactococcus cremoris subsp. cremoris MG1363) 416870 (Lactococcus cremoris subsp. cremoris MG1363) 183 184 4dve-a4-m1-cC_4dve-a4-m1-cB TNNQKVKTLTYSAFTAFIIILGFLPGIPIGFIPVPIILQNGIAGGLLGPKYGTISVGAFLALALIGLPVLTGGNGGAASFLGPSGGYRIAWLFTPFLIGFFLKKLKITTSQNWFGELIIVLLFGVIFVDFVGAIWLSFQSNIPLLTSLISNLVFIPGDCIKAILTVVIVRRLRKQGGFELYFR ATNNQKVKTLTYSAFTAFIIILGFLPGIPIGFIPVPIILQNGIAGGLLGPKYGTISVGAFLALALIGLPVLTGGNGGAASFLGPSGGYRIAWLFTPFLIGFFLKKLKITTSQNWFGELIIVLLFGVIFVDFVGAIWLSFQSNIPLLTSLISNLVFIPGDCIKAILTVVIVRRLRKQGGFELYFR 4dvh-a1-m1-cA_4dvh-a1-m1-cB Crystal structure of Trypanosoma cruzi mitochondrial iron superoxide dismutase Q4DCQ3 Q4DCQ3 2.23 X-RAY DIFFRACTION 50 0.995 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 203 203 HAPAELPKLGFNWKDGCAPVFSPRQMELHYTKHHKAYVDKLNALAGTTYDGKSIEEIILAVANDAEKKGLFNQAAQHFNHTFYFRCITPNGKAMPKSLESAVTAQFGSVEQFKDAFVQAGVNNFGSGWTWLCVDPSNKNQLVIDNTSNAGCPLTKGLRPVLAVDVWEHAYYKDFENRRPDYLKEIWSVIDWEFVAKMHAQAIK HHAPAELPKLGFNWKDGCAPVFSPRQMELHYTKHHKAYVDKLNALAGTTYDGKSIEEIILAVANDAEKKGLFNQAAQHFNHTFYFRCITPNGKAMPKSLESAVTAQFGSVEQFKDAFVQAGVNNFGSGWTWLCVDPSNKNQLVIDNTSNAGCPLTKGLRPVLAVDVWEHAYYKDFENRRPDYLKEIWSVIDWEFVAKMHAQAI 4dvj-a1-m1-cA_4dvj-a1-m1-cB Crystal structure of a putative zinc-dependent alcohol dehydrogenase protein from Rhizobium etli CFN 42 Q2JZD9 Q2JZD9 1.99 X-RAY DIFFRACTION 80 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 336 337 YFQSKAVGYNKPAPITDDASLLDIELPKPAPAGHDILVEVKAVSVNPVDYKVRRSTPPTDWKVIGYDAAGIVSAVGPDVTLFRPGDEVFYAGSIIRPGTNAEFHLVDERIVGRKPKTLDWAEAAALPLTSITAWEAFFDRLDVNKPVPGAAPAILIVGGAGGVGSIAVQIARQRTDLTVIATASRPETQEWVKSLGAHHVIDHSKPLAAEVAALGLGAPAFVFSTTHTDKHAAEIADLIAPQGRFCLIDDPSAFDILFKRKAVSIHHELFTRPFGTPDSEQGRLLNDVSRLVDEGRLRTTLTNRLSPINAANLKQAHALVESGTARGKVVIEGFGL YFQSKAVGYNKPAPITDDASLLDIELPKPAPAGHDILVEVKAVSVNPVDYKVRRSTPPDTDWKVIGYDAAGIVSAVGPDVTLFRPGDEVFYAGSIIRPGTNAEFHLVDERIVGRKPKTLDWAEAAALPLTSITAWEAFFDRLDVNKPVPGAAPAILIVGGAGGVGSIAVQIARQRTDLTVIATASRPETQEWVKSLGAHHVIDHSKPLAAEVAALGLGAPAFVFSTTHTDKHAAEIADLIAPQGRFCLIDDPSAFDILFKRKAVSIHHELFTRPFGTPDSEQGRLLNDVSRLVDEGRLRTTLTNRLSPINAANLKQAHALVESGTARGKVVIEGFGL 4dwd-a1-m1-cA_4dwd-a1-m4-cB Crystal structure of mandelate racemase/muconate lactonizing protein from Paracoccus denitrificans PD1222 complexed with magnesium A1AYL4 A1AYL4 1.5 X-RAY DIFFRACTION 81 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 357 361 3n4e-a1-m1-cB_3n4e-a1-m3-cA 3n4e-a1-m2-cB_3n4e-a1-m4-cA 3n4e-a1-m3-cB_3n4e-a1-m2-cA 3n4e-a1-m4-cB_3n4e-a1-m1-cA 4dwd-a1-m2-cA_4dwd-a1-m3-cB 4dwd-a1-m3-cA_4dwd-a1-m1-cB 4dwd-a1-m4-cA_4dwd-a1-m2-cB SLKIAKVEALSVAGDPTSAFVRITAEDGTVGWGEASPLGGIASLGVVARDIAPFLEGQEVLDHAVLLDRHRLVKLGPEGIATAALAACDIALWDLKGKLLGQPIYKLLGGAWRTRLPCYSSIGGNAARSVDEVVREVARRVEAEQPAAVKIRWDGDRTRCDVDIPGDIAKARAVRELLGPDAVIGFDANNGYSVGGAIRVGRALEDLGYSWFEEPVQHYHVGAGEVAQRLDITVSAGEQTYTLQALKDLILSGVRVQPDIVKGGITGQCAALAHAHGVEFVPHQTQPGVGHFANIHVLSTLHTKPVELADRWDRGRPVFRNPAEPVDGHFALGDAPGLGIVVDEDELASRATEITVG SLKIAKVEALSVAGDPTSAFVRITAEDGTVGWGEASPLGGIASLGVVARDIAPFLEGQEVLDHAVLLDRHRLVKLGPEGIATAALAACDIALWDLKGKLLGQPIYKLLGGAWRTRLPCYSSIGGNAARSVDEVVREVARRVEAEQPAAVKIRWDGDRTRCDVDIPGDIAKARAVRELLGPDAVIGFDANNGYSVGGAIRVGRALEDLGYSWFEEPVQHYHVGAGEVAQRLDITVSAGEQTYTLQALKDLILSGVRVQPDIVKGGITGQCAALAHAHGVEFVPHQTQPGVGHFANIHVLSTLHTKPVELADRWDRGRPVFRNPAEPVDGHFALGDAPGLGIVVDEDELASRATEITVGRDQR 4dwd-a1-m2-cB_4dwd-a1-m4-cB Crystal structure of mandelate racemase/muconate lactonizing protein from Paracoccus denitrificans PD1222 complexed with magnesium A1AYL4 A1AYL4 1.5 X-RAY DIFFRACTION 39 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 361 361 3n4e-a1-m1-cA_3n4e-a1-m3-cA 3n4e-a1-m1-cA_3n4e-a1-m4-cA 3n4e-a1-m1-cB_3n4e-a1-m3-cB 3n4e-a1-m1-cB_3n4e-a1-m4-cB 3n4e-a1-m2-cA_3n4e-a1-m3-cA 3n4e-a1-m2-cA_3n4e-a1-m4-cA 3n4e-a1-m2-cB_3n4e-a1-m3-cB 3n4e-a1-m2-cB_3n4e-a1-m4-cB 4dwd-a1-m1-cA_4dwd-a1-m3-cA 4dwd-a1-m1-cA_4dwd-a1-m4-cA 4dwd-a1-m1-cB_4dwd-a1-m3-cB 4dwd-a1-m1-cB_4dwd-a1-m4-cB 4dwd-a1-m2-cA_4dwd-a1-m3-cA 4dwd-a1-m2-cA_4dwd-a1-m4-cA 4dwd-a1-m2-cB_4dwd-a1-m3-cB SLKIAKVEALSVAGDPTSAFVRITAEDGTVGWGEASPLGGIASLGVVARDIAPFLEGQEVLDHAVLLDRHRLVKLGPEGIATAALAACDIALWDLKGKLLGQPIYKLLGGAWRTRLPCYSSIGGNAARSVDEVVREVARRVEAEQPAAVKIRWDGDRTRCDVDIPGDIAKARAVRELLGPDAVIGFDANNGYSVGGAIRVGRALEDLGYSWFEEPVQHYHVGAGEVAQRLDITVSAGEQTYTLQALKDLILSGVRVQPDIVKGGITGQCAALAHAHGVEFVPHQTQPGVGHFANIHVLSTLHTKPVELADRWDRGRPVFRNPAEPVDGHFALGDAPGLGIVVDEDELASRATEITVGRDQR SLKIAKVEALSVAGDPTSAFVRITAEDGTVGWGEASPLGGIASLGVVARDIAPFLEGQEVLDHAVLLDRHRLVKLGPEGIATAALAACDIALWDLKGKLLGQPIYKLLGGAWRTRLPCYSSIGGNAARSVDEVVREVARRVEAEQPAAVKIRWDGDRTRCDVDIPGDIAKARAVRELLGPDAVIGFDANNGYSVGGAIRVGRALEDLGYSWFEEPVQHYHVGAGEVAQRLDITVSAGEQTYTLQALKDLILSGVRVQPDIVKGGITGQCAALAHAHGVEFVPHQTQPGVGHFANIHVLSTLHTKPVELADRWDRGRPVFRNPAEPVDGHFALGDAPGLGIVVDEDELASRATEITVGRDQR 4dwd-a1-m4-cA_4dwd-a1-m4-cB Crystal structure of mandelate racemase/muconate lactonizing protein from Paracoccus denitrificans PD1222 complexed with magnesium A1AYL4 A1AYL4 1.5 X-RAY DIFFRACTION 89 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 357 361 3n4e-a1-m1-cB_3n4e-a1-m1-cA 3n4e-a1-m2-cB_3n4e-a1-m2-cA 3n4e-a1-m3-cB_3n4e-a1-m3-cA 3n4e-a1-m4-cB_3n4e-a1-m4-cA 4dwd-a1-m1-cA_4dwd-a1-m1-cB 4dwd-a1-m2-cA_4dwd-a1-m2-cB 4dwd-a1-m3-cA_4dwd-a1-m3-cB SLKIAKVEALSVAGDPTSAFVRITAEDGTVGWGEASPLGGIASLGVVARDIAPFLEGQEVLDHAVLLDRHRLVKLGPEGIATAALAACDIALWDLKGKLLGQPIYKLLGGAWRTRLPCYSSIGGNAARSVDEVVREVARRVEAEQPAAVKIRWDGDRTRCDVDIPGDIAKARAVRELLGPDAVIGFDANNGYSVGGAIRVGRALEDLGYSWFEEPVQHYHVGAGEVAQRLDITVSAGEQTYTLQALKDLILSGVRVQPDIVKGGITGQCAALAHAHGVEFVPHQTQPGVGHFANIHVLSTLHTKPVELADRWDRGRPVFRNPAEPVDGHFALGDAPGLGIVVDEDELASRATEITVG SLKIAKVEALSVAGDPTSAFVRITAEDGTVGWGEASPLGGIASLGVVARDIAPFLEGQEVLDHAVLLDRHRLVKLGPEGIATAALAACDIALWDLKGKLLGQPIYKLLGGAWRTRLPCYSSIGGNAARSVDEVVREVARRVEAEQPAAVKIRWDGDRTRCDVDIPGDIAKARAVRELLGPDAVIGFDANNGYSVGGAIRVGRALEDLGYSWFEEPVQHYHVGAGEVAQRLDITVSAGEQTYTLQALKDLILSGVRVQPDIVKGGITGQCAALAHAHGVEFVPHQTQPGVGHFANIHVLSTLHTKPVELADRWDRGRPVFRNPAEPVDGHFALGDAPGLGIVVDEDELASRATEITVGRDQR 4dwl-a1-m1-cD_4dwl-a1-m1-cE Avd molecule from Bordetella bacteriophage DGR Q775D7 Q775D7 2.69 X-RAY DIFFRACTION 29 0.99 194699 (Rauchvirus BPP1) 194699 (Rauchvirus BPP1) 103 105 4dwl-a1-m1-cA_4dwl-a1-m1-cB 4dwl-a1-m1-cA_4dwl-a1-m1-cE 4dwl-a1-m1-cC_4dwl-a1-m1-cB 4dwl-a1-m1-cD_4dwl-a1-m1-cC LIVERYERVISYLYPIAQSIPRKHGVAREFLKCLLGQVELFIVAGKSNQVSKLYAADAGLALRFWLRFLAGIHATPHQVETAQVLIAEVGRILGSWIARVNRK LIVERYERVISYLYPIAQSIPRKHGVAREFLKCLLGQVELFIVAGKSNQVSKLYAADAGLALRFWLRFLAGKPHATPHQVETAQVLIAEVGRILGSWIARVNRKG 4dwt-a1-m1-cA_4dwt-a1-m1-cB Carbonmonoxy dehaloperoxidase-hemoglobin A structure at 2.05 Angstrom resolution Q9NAV8 Q9NAV8 2.05 X-RAY DIFFRACTION 17 1.0 129555 (Amphitrite ornata) 129555 (Amphitrite ornata) 137 137 1ew6-a1-m1-cA_1ew6-a1-m1-cB 1ewa-a1-m1-cA_1ewa-a1-m1-cB 2qfk-a1-m1-cA_2qfk-a1-m1-cB 3ixf-a1-m1-cB_3ixf-a1-m1-cA 3ixf-a2-m1-cB_3ixf-a2-m1-cA 3k3u-a1-m1-cA_3k3u-a1-m1-cB 4dwu-a1-m1-cA_4dwu-a1-m1-cB 4fh6-a1-m1-cA_4fh6-a1-m1-cB 4fh7-a1-m1-cA_4fh7-a1-m1-cB 4gzg-a1-m1-cB_4gzg-a1-m1-cA 4ilz-a1-m1-cA_4ilz-a1-m1-cB 4jyq-a1-m1-cA_4jyq-a1-m1-cB GFKQDIATIRGDLRTYAQDIFLAFLNKYPDERRYFKNYVGKSDQELKSMAKFGDHTEKVFNLMMEVADRATDCVPLASDANTLVQMKQHSSLTTGNFEKLFVALVEYMRASGQSFDSQSWDRFGKNLVSALSSAGMK GFKQDIATIRGDLRTYAQDIFLAFLNKYPDERRYFKNYVGKSDQELKSMAKFGDHTEKVFNLMMEVADRATDCVPLASDANTLVQMKQHSSLTTGNFEKLFVALVEYMRASGQSFDSQSWDRFGKNLVSALSSAGMK 4dxe-a2-m1-cD_4dxe-a2-m1-cE 2.52 Angstrom resolution crystal structure of the acyl-carrier-protein synthase (AcpS)-acyl carrier protein (ACP) protein-protein complex from Staphylococcus aureus subsp. aureus COL Q5HED0 Q5HED0 2.51 X-RAY DIFFRACTION 52 0.991 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 113 113 4dxe-a1-m1-cB_4dxe-a1-m1-cA 4dxe-a1-m1-cC_4dxe-a1-m1-cA 4jm7-a1-m1-cB_4jm7-a1-m1-cC 5cxd-a1-m1-cA_5cxd-a1-m1-cB 5cxd-a1-m1-cA_5cxd-a1-m1-cC 5cxd-a1-m1-cC_5cxd-a1-m1-cB NAMIHGIGVDLIEIDRIQALYSKQPKLVERILTKNEQHKFNNFTHEQRKIEFLAGRFATKEAFSKALGVAFNDIDCYNDELGKPKIDYEGFIVHVSISHTEHYAMSQVVLEKS AMIHGIGVDLIEIDRIQALYSKQPKLVERILTKNEQHKFNNFTHEQRKIEFLAGRFATKEAFSKALGTVAFNDIDCYNDELGKPKIDYEGFIVHVSISHTEHYAMSQVVLEKS 4dxk-a1-m2-cA_4dxk-a1-m8-cA Crystal structure of an enolase (mandelate racemase subgroup, target EFI-502086) from Agrobacterium tumefaciens, with a succinimide residue, na and phosphate Q7D1T6 Q7D1T6 1.25 X-RAY DIFFRACTION 115 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 364 364 4dx3-a1-m1-cA_4dx3-a1-m7-cA 4dx3-a1-m2-cA_4dx3-a1-m8-cA 4dx3-a1-m3-cA_4dx3-a1-m5-cA 4dx3-a1-m4-cA_4dx3-a1-m6-cA 4dxk-a1-m1-cA_4dxk-a1-m7-cA 4dxk-a1-m3-cA_4dxk-a1-m5-cA 4dxk-a1-m4-cA_4dxk-a1-m6-cA MKITKLETVRVAERTNLLWVLVHTDEGITGLGETFFGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRREIRTYNTRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHCTGPVVLCASTHLSLNAPNALVQESVRAFKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI MKITKLETVRVAERTNLLWVLVHTDEGITGLGETFFGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRREIRTYNTRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHCTGPVVLCASTHLSLNAPNALVQESVRAFKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI 4dxk-a1-m3-cA_4dxk-a1-m8-cA Crystal structure of an enolase (mandelate racemase subgroup, target EFI-502086) from Agrobacterium tumefaciens, with a succinimide residue, na and phosphate Q7D1T6 Q7D1T6 1.25 X-RAY DIFFRACTION 83 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 364 364 4dx3-a1-m1-cA_4dx3-a1-m5-cA 4dx3-a1-m2-cA_4dx3-a1-m6-cA 4dx3-a1-m3-cA_4dx3-a1-m8-cA 4dx3-a1-m4-cA_4dx3-a1-m7-cA 4dxk-a1-m1-cA_4dxk-a1-m5-cA 4dxk-a1-m2-cA_4dxk-a1-m6-cA 4dxk-a1-m4-cA_4dxk-a1-m7-cA MKITKLETVRVAERTNLLWVLVHTDEGITGLGETFFGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRREIRTYNTRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHCTGPVVLCASTHLSLNAPNALVQESVRAFKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI MKITKLETVRVAERTNLLWVLVHTDEGITGLGETFFGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRREIRTYNTRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHCTGPVVLCASTHLSLNAPNALVQESVRAFKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI 4dxk-a1-m6-cA_4dxk-a1-m8-cA Crystal structure of an enolase (mandelate racemase subgroup, target EFI-502086) from Agrobacterium tumefaciens, with a succinimide residue, na and phosphate Q7D1T6 Q7D1T6 1.25 X-RAY DIFFRACTION 38 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 364 364 4dx3-a1-m1-cA_4dx3-a1-m3-cA 4dx3-a1-m1-cA_4dx3-a1-m4-cA 4dx3-a1-m2-cA_4dx3-a1-m3-cA 4dx3-a1-m2-cA_4dx3-a1-m4-cA 4dx3-a1-m5-cA_4dx3-a1-m7-cA 4dx3-a1-m5-cA_4dx3-a1-m8-cA 4dx3-a1-m6-cA_4dx3-a1-m7-cA 4dx3-a1-m6-cA_4dx3-a1-m8-cA 4dxk-a1-m1-cA_4dxk-a1-m3-cA 4dxk-a1-m1-cA_4dxk-a1-m4-cA 4dxk-a1-m2-cA_4dxk-a1-m3-cA 4dxk-a1-m2-cA_4dxk-a1-m4-cA 4dxk-a1-m5-cA_4dxk-a1-m7-cA 4dxk-a1-m5-cA_4dxk-a1-m8-cA 4dxk-a1-m6-cA_4dxk-a1-m7-cA MKITKLETVRVAERTNLLWVLVHTDEGITGLGETFFGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRREIRTYNTRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHCTGPVVLCASTHLSLNAPNALVQESVRAFKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI MKITKLETVRVAERTNLLWVLVHTDEGITGLGETFFGAETVETYVHEYIAPRVIGRDPLQIDLLAQDLVGYLGFRSSGAEVRGNSAFDIALWDIFGKATNQPIAQLLGGFSRREIRTYNTRADELAHSLLEDGITAMKIWPFDAAAEKTRGQYISMPDLKSALEPFEKIRKAVGDKMDIMVEFHSMWQLLPAMQIAKALTPYQTFWHEDPIKMDSLSSLTRYAAVSPAPISASETLGSRWAFRDLLETGAAGVVMLDISWCGGLSEARKIASMAEAWHLPVAPHCTGPVVLCASTHLSLNAPNALVQESVRAFKTWYRDLVTALPEVKNGMITVPPGAGLGMELHPDIEKTFTVSRRFSDAASI 4dxq-a1-m2-cA_4dxq-a1-m4-cA Crystal Structure of a reconstructed Kaede-type Red Fluorescent Protein, LEA Q38A 1.95 X-RAY DIFFRACTION 72 1.0 32630 (synthetic construct) 32630 (synthetic construct) 214 214 4dxi-a1-m1-cA_4dxi-a1-m1-cD 4dxi-a1-m1-cC_4dxi-a1-m1-cB 4dxm-a1-m1-cA_4dxm-a1-m1-cD 4dxm-a1-m1-cC_4dxm-a1-m1-cB 4dxn-a1-m1-cA_4dxn-a1-m3-cA 4dxn-a1-m2-cA_4dxn-a1-m4-cA 4dxo-a1-m1-cA_4dxo-a1-m2-cA 4dxp-a1-m1-cA_4dxp-a1-m3-cA 4dxp-a1-m2-cA_4dxp-a1-m4-cA 4dxq-a1-m1-cA_4dxq-a1-m3-cA 4gob-a1-m1-cA_4gob-a1-m1-cC 4gob-a1-m1-cD_4gob-a1-m1-cB VIKSDMKIKLRMEGTVNGHKFVIEGEGEGKPYEGTQTMNLKVKEGAPLPFAYDILTTVFNRVFAKYPKHIPDYFKQSFPEGYSWERSMTFEDGGICTARNDITLEGDCFFNEIRFDGVNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLTGDINMALLLEGGGHYRCDFKTTYKAKKGVQLPDYHFVDHCIEILSHDKDYNNVKLYEHAVAHSGL VIKSDMKIKLRMEGTVNGHKFVIEGEGEGKPYEGTQTMNLKVKEGAPLPFAYDILTTVFNRVFAKYPKHIPDYFKQSFPEGYSWERSMTFEDGGICTARNDITLEGDCFFNEIRFDGVNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLTGDINMALLLEGGGHYRCDFKTTYKAKKGVQLPDYHFVDHCIEILSHDKDYNNVKLYEHAVAHSGL 4dxq-a1-m3-cA_4dxq-a1-m4-cA Crystal Structure of a reconstructed Kaede-type Red Fluorescent Protein, LEA Q38A 1.95 X-RAY DIFFRACTION 63 1.0 32630 (synthetic construct) 32630 (synthetic construct) 214 214 4dxi-a1-m1-cA_4dxi-a1-m1-cB 4dxi-a1-m1-cD_4dxi-a1-m1-cC 4dxm-a1-m1-cA_4dxm-a1-m1-cB 4dxm-a1-m1-cC_4dxm-a1-m1-cD 4dxn-a1-m1-cA_4dxn-a1-m2-cA 4dxn-a1-m3-cA_4dxn-a1-m4-cA 4dxp-a1-m1-cA_4dxp-a1-m2-cA 4dxp-a1-m3-cA_4dxp-a1-m4-cA 4dxq-a1-m1-cA_4dxq-a1-m2-cA 4gob-a1-m1-cA_4gob-a1-m1-cB 4gob-a1-m1-cC_4gob-a1-m1-cD VIKSDMKIKLRMEGTVNGHKFVIEGEGEGKPYEGTQTMNLKVKEGAPLPFAYDILTTVFNRVFAKYPKHIPDYFKQSFPEGYSWERSMTFEDGGICTARNDITLEGDCFFNEIRFDGVNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLTGDINMALLLEGGGHYRCDFKTTYKAKKGVQLPDYHFVDHCIEILSHDKDYNNVKLYEHAVAHSGL VIKSDMKIKLRMEGTVNGHKFVIEGEGEGKPYEGTQTMNLKVKEGAPLPFAYDILTTVFNRVFAKYPKHIPDYFKQSFPEGYSWERSMTFEDGGICTARNDITLEGDCFFNEIRFDGVNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLTGDINMALLLEGGGHYRCDFKTTYKAKKGVQLPDYHFVDHCIEILSHDKDYNNVKLYEHAVAHSGL 4dxr-a1-m2-cA_4dxr-a1-m3-cA Human SUN2-KASH1 complex Q9UH99 Q9UH99 2.32 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 3unp-a1-m1-cA_3unp-a1-m2-cA 3unp-a1-m1-cA_3unp-a1-m3-cA 3unp-a1-m2-cA_3unp-a1-m3-cA 4dxr-a1-m1-cA_4dxr-a1-m2-cA 4dxr-a1-m1-cA_4dxr-a1-m3-cA 4dxs-a1-m1-cA_4dxs-a1-m2-cA 4dxs-a1-m1-cA_4dxs-a1-m3-cA 4dxs-a1-m2-cA_4dxs-a1-m3-cA 4dxt-a1-m1-cA_4dxt-a1-m2-cA 4dxt-a1-m1-cA_4dxt-a1-m3-cA 4dxt-a1-m2-cA_4dxt-a1-m3-cA 4fi9-a1-m1-cA_4fi9-a1-m2-cA 4fi9-a1-m1-cA_4fi9-a1-m3-cA 4fi9-a1-m2-cA_4fi9-a1-m3-cA 6wmd-a1-m1-cA_6wmd-a1-m2-cA 6wmd-a1-m1-cA_6wmd-a1-m3-cA 6wmd-a1-m2-cA_6wmd-a1-m3-cA 6wme-a1-m1-cA_6wme-a1-m2-cA 6wme-a1-m1-cA_6wme-a1-m3-cA 6wme-a1-m2-cA_6wme-a1-m3-cA 6wmf-a1-m1-cA_6wmf-a1-m2-cA 6wmf-a1-m1-cA_6wmf-a1-m3-cA 6wmf-a1-m2-cA_6wmf-a1-m3-cA 6wmg-a1-m1-cA_6wmg-a1-m2-cA 6wmg-a1-m1-cA_6wmg-a1-m3-cA 6wmg-a1-m2-cA_6wmg-a1-m3-cA GVTEEQVHHIVKQALQRYSEDRIGLADYALESGGASVISTRCSETYETKTALLSLFGIPLWYHSQSPRVILQPDVHPGNCWAFQGPQGFAVVRLSARIRPTAVTLEHVPKALSPNSTISSAPKDFAIFGFDEDLQQEGTLLGKFTYDQDGEPIQTFHFQAPTMATYQVVELRILTNWGHPEYTCIYRFRVHGEPAH GVTEEQVHHIVKQALQRYSEDRIGLADYALESGGASVISTRCSETYETKTALLSLFGIPLWYHSQSPRVILQPDVHPGNCWAFQGPQGFAVVRLSARIRPTAVTLEHVPKALSPNSTISSAPKDFAIFGFDEDLQQEGTLLGKFTYDQDGEPIQTFHFQAPTMATYQVVELRILTNWGHPEYTCIYRFRVHGEPAH 4dxw-a1-m1-cC_4dxw-a1-m1-cB Crystal structure of NavRh, a voltage-gated sodium channel D0RMU8 D0RMU8 3.052 X-RAY DIFFRACTION 91 1.0 684719 (alpha proteobacterium HIMB114) 684719 (alpha proteobacterium HIMB114) 199 222 4dxw-a1-m1-cA_4dxw-a1-m1-cB KDNRIFQFTVVSIIILNAVLIGATTYELDPLFLETIHLLDYGITIFFVIEILIGWNIFDTVIVAISLIPSFLVLRLLRIFRVLRLISVIPELKQIIEAILESVRRVFFVSLLLFIILYIYATMGAILFGNDDPSRWGDLGISLITLFQVLTLSSWETVMLPMQEIYWWSWVYFFSFIIICSITILNLVIAILVDVVIQK FFSSLKDNRIFQFTVVSIIILNAVLIGATTYELDPLFLETIHLLDYGITIFFVIEILIRFIGEKQKASGWNIFDTVIVAISLIPIPNNSSFLVLRLLRIFRVLRLISVIPELKQIIEAILESVRRVFFVSLLLFIILYIYATMGAILFGNDDPSRWGDLGISLITLFQVLTLSSWETVMLPMQEIYWWSWVYFFSFIIICSITILNLVIAILVDVVIQKKLE 4dy0-a3-m1-cA_4dy0-a3-m1-cB Crystal structure of native protease nexin-1 with heparin P07093 P07093 2.35 X-RAY DIFFRACTION 70 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 362 370 FNPLSLEELGSNTGIQVFNQIVKSRPHDNIVISPHGIASVLGMLQLGADGRTKKQLAMVMRYGVNGVGKILKKINKAIVSKKNKDIVTVANAVFVKNASEIEVPFVTRNKDVFQCEVRNVNFEDPASACDSINAWVKNETRDMIDNLLSPDLIDGVLTRLVLVNAVYFKGLWKSRFQPENTKKRTFVAADGKSYQVPMLAQLSVFRCGSTSAPNDLWYNFIELPYHGESISMLIALPTESSTPLSAIIPHISTKTIDSWMSIMVPKRVQVILPKFTAVAQTDLKEPLKVLGITDMFDSSKANFAKITTNLHVSHILQKAKIEVSEDGTRSSPPWFIVDRPFLFFIRHNPTGAVLFMGQINKP NPLSLEELGSNTGIQVFNQIVKSRPHDNIVISPHGIASVLGMLQLGADGRTKKQLAMVMRYGVNGVGKILKKINKAIVSKKNKDIVTVANAVFVKNASEIEVPFVTRNKDVFQCEVRNVNFEDPASACDSINAWVKNETRDMIDNLLSPDLIDGVLTRLVLVNAVYFKGLWKSRFQPENTKKRTFVAADGKSYQVPMLAQLSVFRCGSTSAPNDLWYNFIELPYHGESISMLIALPTESSTPLSAIIPHISTKTIDSWMSIMVPKRVQVILPKFTAVAQTDLKEPLKVLGITDMFDSSKANFAKITTGSENLHVSHILQKAKIEVSEDGTKAILIARSSPPWFIVDRPFLFFIRHNPTGAVLFMGQINKP 4dy0-a4-m1-cA_4dy0-a4-m2-cB Crystal structure of native protease nexin-1 with heparin P07093 P07093 2.35 X-RAY DIFFRACTION 39 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 362 370 FNPLSLEELGSNTGIQVFNQIVKSRPHDNIVISPHGIASVLGMLQLGADGRTKKQLAMVMRYGVNGVGKILKKINKAIVSKKNKDIVTVANAVFVKNASEIEVPFVTRNKDVFQCEVRNVNFEDPASACDSINAWVKNETRDMIDNLLSPDLIDGVLTRLVLVNAVYFKGLWKSRFQPENTKKRTFVAADGKSYQVPMLAQLSVFRCGSTSAPNDLWYNFIELPYHGESISMLIALPTESSTPLSAIIPHISTKTIDSWMSIMVPKRVQVILPKFTAVAQTDLKEPLKVLGITDMFDSSKANFAKITTNLHVSHILQKAKIEVSEDGTRSSPPWFIVDRPFLFFIRHNPTGAVLFMGQINKP NPLSLEELGSNTGIQVFNQIVKSRPHDNIVISPHGIASVLGMLQLGADGRTKKQLAMVMRYGVNGVGKILKKINKAIVSKKNKDIVTVANAVFVKNASEIEVPFVTRNKDVFQCEVRNVNFEDPASACDSINAWVKNETRDMIDNLLSPDLIDGVLTRLVLVNAVYFKGLWKSRFQPENTKKRTFVAADGKSYQVPMLAQLSVFRCGSTSAPNDLWYNFIELPYHGESISMLIALPTESSTPLSAIIPHISTKTIDSWMSIMVPKRVQVILPKFTAVAQTDLKEPLKVLGITDMFDSSKANFAKITTGSENLHVSHILQKAKIEVSEDGTKAILIARSSPPWFIVDRPFLFFIRHNPTGAVLFMGQINKP 4dyj-a1-m1-cA_4dyj-a1-m1-cB Crystal structure of a broad specificity amino acid racemase (Bar) within internal aldimine linkage I6LNY0 I6LNY0 2.45 X-RAY DIFFRACTION 302 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 383 383 4fs9-a1-m1-cA_4fs9-a1-m1-cB PPLSMDNGTNALTVQNSNAWVEVSASALQHNIRTLQAELAGKSRLCAVLADAYGHGIGLVMPSIIAQGVPCVAVASNEEARVVRASGFTGQLVRVRLASLSELEDALQYDMEELVGSAEFARQVDAIAARHGKTLRIHMALNSSGMSRNGVEMATWSGRGEALQITDQKHLKLVALMTHFAVEDKDDVRKGLAAFNEQTDWLIKHAKLDRSKLTLHAANSFATLEVPEARLDMVRTGGALFGDTVPARTEYQRAMQFKSHVAAVHSYPAGNTVGYDRTFTLARDSRLANITVGYSDGYRRVFTNKGHVLINGHRIPVVGKVSMNTLMVDVTDFPDVKGGNEVVLFGKQAGGEITQAEMEEINGALLADLYTVWGSSNPKILVD PPLSMDNGTNALTVQNSNAWVEVSASALQHNIRTLQAELAGKSRLCAVLADAYGHGIGLVMPSIIAQGVPCVAVASNEEARVVRASGFTGQLVRVRLASLSELEDALQYDMEELVGSAEFARQVDAIAARHGKTLRIHMALNSSGMSRNGVEMATWSGRGEALQITDQKHLKLVALMTHFAVEDKDDVRKGLAAFNEQTDWLIKHAKLDRSKLTLHAANSFATLEVPEARLDMVRTGGALFGDTVPARTEYQRAMQFKSHVAAVHSYPAGNTVGYDRTFTLARDSRLANITVGYSDGYRRVFTNKGHVLINGHRIPVVGKVSMNTLMVDVTDFPDVKGGNEVVLFGKQAGGEITQAEMEEINGALLADLYTVWGSSNPKILVD 4dyl-a1-m1-cA_4dyl-a1-m2-cA F-BAR domain of human FES tyrosine kinase P07332 P07332 2.18 X-RAY DIFFRACTION 450 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 SMGFSSELCSPQGHGVLQQMQEAELRLLEGMRKWMAQRVKSDREYAGLLHHMSPDSPISQSWAEITSQTEGLSRLLRQHAEDLNSGPLSKLSLLIRERQQLRKTYSEQWQQLQQELTKTHSQDIEKLKSQYRALARDSAQAKRKYDKAKDKYVRSLWKLFAHHNRYVLGVRAAQLHHQHHHQLLLPGLLRSLQDLHEEMACILKEILQEYLEISSLVQDEVVAIHREMAAAAARIQPEAEYQGFLRQYGSAPDVPPCVTFDESLLEPGELQLNELTVESVQHTLTSVTDELAVATEMVFRRQEMVTQLQQELRNEEENTHPRERVQLLGKRQVLQEALQGLQVALCSQAKLQAQQELLQTKLEHLGPGEPPPVLLL SMGFSSELCSPQGHGVLQQMQEAELRLLEGMRKWMAQRVKSDREYAGLLHHMSPDSPISQSWAEITSQTEGLSRLLRQHAEDLNSGPLSKLSLLIRERQQLRKTYSEQWQQLQQELTKTHSQDIEKLKSQYRALARDSAQAKRKYDKAKDKYVRSLWKLFAHHNRYVLGVRAAQLHHQHHHQLLLPGLLRSLQDLHEEMACILKEILQEYLEISSLVQDEVVAIHREMAAAAARIQPEAEYQGFLRQYGSAPDVPPCVTFDESLLEPGELQLNELTVESVQHTLTSVTDELAVATEMVFRRQEMVTQLQQELRNEEENTHPRERVQLLGKRQVLQEALQGLQVALCSQAKLQAQQELLQTKLEHLGPGEPPPVLLL 4dyq-a1-m2-cA_4dyq-a1-m4-cB High resolution crystal structure of terminase small subunit gp1 of the bacterial virus sf6 Q716H4 Q716H4 1.502 X-RAY DIFFRACTION 127 1.0 10761 (Lederbergvirus Sf6) 10761 (Lederbergvirus Sf6) 123 130 3hef-a1-m1-cA_3hef-a1-m1-cB 3hef-a1-m1-cA_3hef-a1-m3-cB 3hef-a1-m2-cA_3hef-a1-m2-cB 3hef-a1-m2-cA_3hef-a1-m4-cB 3hef-a1-m3-cA_3hef-a1-m2-cB 3hef-a1-m3-cA_3hef-a1-m3-cB 3hef-a1-m4-cA_3hef-a1-m1-cB 3hef-a1-m4-cA_3hef-a1-m4-cB 4dyc-a1-m1-cA_4dyc-a1-m1-cB 4dyc-a1-m1-cA_4dyc-a1-m3-cB 4dyc-a1-m2-cA_4dyc-a1-m2-cB 4dyc-a1-m2-cA_4dyc-a1-m4-cB 4dyc-a1-m3-cA_4dyc-a1-m2-cB 4dyc-a1-m3-cA_4dyc-a1-m3-cB 4dyc-a1-m4-cA_4dyc-a1-m1-cB 4dyc-a1-m4-cA_4dyc-a1-m4-cB 4dyq-a1-m1-cA_4dyq-a1-m1-cB 4dyq-a1-m1-cA_4dyq-a1-m3-cB 4dyq-a1-m2-cA_4dyq-a1-m2-cB 4dyq-a1-m3-cA_4dyq-a1-m2-cB 4dyq-a1-m3-cA_4dyq-a1-m3-cB 4dyq-a1-m4-cA_4dyq-a1-m1-cB 4dyq-a1-m4-cA_4dyq-a1-m4-cB 4dyr-a1-m1-cA_4dyr-a1-m1-cB 4dyr-a1-m1-cA_4dyr-a1-m3-cB 4dyr-a1-m2-cA_4dyr-a1-m2-cB 4dyr-a1-m2-cA_4dyr-a1-m4-cB 4dyr-a1-m3-cA_4dyr-a1-m2-cB 4dyr-a1-m3-cA_4dyr-a1-m3-cB 4dyr-a1-m4-cA_4dyr-a1-m1-cB 4dyr-a1-m4-cA_4dyr-a1-m4-cB 4dzj-a1-m1-cA_4dzj-a1-m1-cB 4dzj-a1-m1-cA_4dzj-a1-m3-cB 4dzj-a1-m2-cA_4dzj-a1-m2-cB 4dzj-a1-m2-cA_4dzj-a1-m4-cB 4dzj-a1-m3-cA_4dzj-a1-m2-cB 4dzj-a1-m3-cA_4dzj-a1-m3-cB 4dzj-a1-m4-cA_4dzj-a1-m1-cB 4dzj-a1-m4-cA_4dzj-a1-m4-cB 4dzp-a1-m1-cA_4dzp-a1-m1-cB 4dzp-a1-m1-cA_4dzp-a1-m3-cB 4dzp-a1-m2-cA_4dzp-a1-m2-cB 4dzp-a1-m2-cA_4dzp-a1-m4-cB 4dzp-a1-m3-cA_4dzp-a1-m2-cB 4dzp-a1-m3-cA_4dzp-a1-m3-cB 4dzp-a1-m4-cA_4dzp-a1-m1-cB 4dzp-a1-m4-cA_4dzp-a1-m4-cB PSDYMPEVADDICSLLSSGESLLKVCKRPGMPDKSTVFRWLAKHEDFRDKYAKATEARADSIFEEIFEIADNAIPDAAEVAKARLRVDTRKWALARMNPRKYGDKVTNELVGKDGGAIQIETS PSDYMPEVADDICSLLSSGESLLKVCKRPGMPDKSTVFRWLAKHEDFRDKYAKATEARADSIFEEIFEIADNAIPDAAEVAKARLRVDTRKWALARMNPRKYGDKVTNELVGKDGGAIQIETSPMSTLFG 4dyq-a1-m2-cB_4dyq-a1-m4-cB High resolution crystal structure of terminase small subunit gp1 of the bacterial virus sf6 Q716H4 Q716H4 1.502 X-RAY DIFFRACTION 11 1.0 10761 (Lederbergvirus Sf6) 10761 (Lederbergvirus Sf6) 130 130 3hef-a1-m1-cB_3hef-a1-m3-cB 3hef-a1-m1-cB_3hef-a1-m4-cB 3hef-a1-m2-cB_3hef-a1-m3-cB 3hef-a1-m2-cB_3hef-a1-m4-cB 4dyc-a1-m1-cB_4dyc-a1-m3-cB 4dyc-a1-m1-cB_4dyc-a1-m4-cB 4dyc-a1-m2-cB_4dyc-a1-m3-cB 4dyc-a1-m2-cB_4dyc-a1-m4-cB 4dyq-a1-m1-cB_4dyq-a1-m3-cB 4dyq-a1-m1-cB_4dyq-a1-m4-cB 4dyq-a1-m2-cB_4dyq-a1-m3-cB 4dyr-a1-m1-cB_4dyr-a1-m3-cB 4dyr-a1-m1-cB_4dyr-a1-m4-cB 4dyr-a1-m2-cB_4dyr-a1-m3-cB 4dyr-a1-m2-cB_4dyr-a1-m4-cB 4dzj-a1-m1-cB_4dzj-a1-m3-cB 4dzj-a1-m1-cB_4dzj-a1-m4-cB 4dzj-a1-m2-cB_4dzj-a1-m3-cB 4dzj-a1-m2-cB_4dzj-a1-m4-cB 4dzp-a1-m1-cB_4dzp-a1-m3-cB 4dzp-a1-m1-cB_4dzp-a1-m4-cB 4dzp-a1-m2-cB_4dzp-a1-m3-cB 4dzp-a1-m2-cB_4dzp-a1-m4-cB PSDYMPEVADDICSLLSSGESLLKVCKRPGMPDKSTVFRWLAKHEDFRDKYAKATEARADSIFEEIFEIADNAIPDAAEVAKARLRVDTRKWALARMNPRKYGDKVTNELVGKDGGAIQIETSPMSTLFG PSDYMPEVADDICSLLSSGESLLKVCKRPGMPDKSTVFRWLAKHEDFRDKYAKATEARADSIFEEIFEIADNAIPDAAEVAKARLRVDTRKWALARMNPRKYGDKVTNELVGKDGGAIQIETSPMSTLFG 4dyu-a1-m1-cE_4dyu-a1-m1-cG The crystal structure of DNA starvation/stationary phase protection protein Dps from Yersinia pestis KIM 10 Q7CJ65 Q7CJ65 2.75 X-RAY DIFFRACTION 82 1.0 187410 (Yersinia pestis KIM10+) 187410 (Yersinia pestis KIM10+) 155 155 4dyu-a1-m1-cB_4dyu-a1-m1-cD 4dyu-a1-m1-cC_4dyu-a1-m1-cA 4dyu-a1-m1-cF_4dyu-a1-m1-cH 4dyu-a1-m1-cI_4dyu-a1-m1-cK 4dyu-a1-m1-cJ_4dyu-a1-m1-cL ELLYTRNDVEEHVKVATIKRLNQMVIQFIDLSLITKQAHWNMRGANFVAVHEMLDGFRTALTDHLDTFAERAVQLGGVALGTAQVINDKTPLKSYPTNIHSVQEHLKALAERYAIVANDIRKAITEVEDENSADMFTAASRDLDKFLWFIESNIE ELLYTRNDVEEHVKVATIKRLNQMVIQFIDLSLITKQAHWNMRGANFVAVHEMLDGFRTALTDHLDTFAERAVQLGGVALGTAQVINDKTPLKSYPTNIHSVQEHLKALAERYAIVANDIRKAITEVEDENSADMFTAASRDLDKFLWFIESNIE 4dyu-a1-m1-cE_4dyu-a1-m1-cL The crystal structure of DNA starvation/stationary phase protection protein Dps from Yersinia pestis KIM 10 Q7CJ65 Q7CJ65 2.75 X-RAY DIFFRACTION 26 1.0 187410 (Yersinia pestis KIM10+) 187410 (Yersinia pestis KIM10+) 155 155 4dyu-a1-m1-cA_4dyu-a1-m1-cH 4dyu-a1-m1-cA_4dyu-a1-m1-cK 4dyu-a1-m1-cB_4dyu-a1-m1-cF 4dyu-a1-m1-cB_4dyu-a1-m1-cJ 4dyu-a1-m1-cC_4dyu-a1-m1-cE 4dyu-a1-m1-cC_4dyu-a1-m1-cL 4dyu-a1-m1-cF_4dyu-a1-m1-cJ 4dyu-a1-m1-cG_4dyu-a1-m1-cD 4dyu-a1-m1-cG_4dyu-a1-m1-cI 4dyu-a1-m1-cI_4dyu-a1-m1-cD 4dyu-a1-m1-cK_4dyu-a1-m1-cH ELLYTRNDVEEHVKVATIKRLNQMVIQFIDLSLITKQAHWNMRGANFVAVHEMLDGFRTALTDHLDTFAERAVQLGGVALGTAQVINDKTPLKSYPTNIHSVQEHLKALAERYAIVANDIRKAITEVEDENSADMFTAASRDLDKFLWFIESNIE ELLYTRNDVEEHVKVATIKRLNQMVIQFIDLSLITKQAHWNMRGANFVAVHEMLDGFRTALTDHLDTFAERAVQLGGVALGTAQVINDKTPLKSYPTNIHSVQEHLKALAERYAIVANDIRKAITEVEDENSADMFTAASRDLDKFLWFIESNIE 4dyu-a1-m1-cG_4dyu-a1-m1-cL The crystal structure of DNA starvation/stationary phase protection protein Dps from Yersinia pestis KIM 10 Q7CJ65 Q7CJ65 2.75 X-RAY DIFFRACTION 42 1.0 187410 (Yersinia pestis KIM10+) 187410 (Yersinia pestis KIM10+) 155 155 4dyu-a1-m1-cA_4dyu-a1-m1-cE 4dyu-a1-m1-cA_4dyu-a1-m1-cI 4dyu-a1-m1-cB_4dyu-a1-m1-cG 4dyu-a1-m1-cB_4dyu-a1-m1-cL 4dyu-a1-m1-cC_4dyu-a1-m1-cH 4dyu-a1-m1-cC_4dyu-a1-m1-cJ 4dyu-a1-m1-cE_4dyu-a1-m1-cI 4dyu-a1-m1-cF_4dyu-a1-m1-cD 4dyu-a1-m1-cF_4dyu-a1-m1-cK 4dyu-a1-m1-cJ_4dyu-a1-m1-cH 4dyu-a1-m1-cK_4dyu-a1-m1-cD ELLYTRNDVEEHVKVATIKRLNQMVIQFIDLSLITKQAHWNMRGANFVAVHEMLDGFRTALTDHLDTFAERAVQLGGVALGTAQVINDKTPLKSYPTNIHSVQEHLKALAERYAIVANDIRKAITEVEDENSADMFTAASRDLDKFLWFIESNIE ELLYTRNDVEEHVKVATIKRLNQMVIQFIDLSLITKQAHWNMRGANFVAVHEMLDGFRTALTDHLDTFAERAVQLGGVALGTAQVINDKTPLKSYPTNIHSVQEHLKALAERYAIVANDIRKAITEVEDENSADMFTAASRDLDKFLWFIESNIE 4dyv-a2-m1-cA_4dyv-a2-m3-cA Crystal structure of a short-chain dehydrogenase/reductase SDR from Xanthobacter autotrophicus Py2 A7IGZ0 A7IGZ0 1.8 X-RAY DIFFRACTION 105 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 207 207 4dyv-a1-m1-cA_4dyv-a1-m3-cA 4dyv-a1-m2-cA_4dyv-a1-m4-cA KKIAIVTGAGSGVGRAVAVALAGAGYGVALAGRRLDALQETAAEIGDDALCVPTDVTDPDSVRALFTATVEKFGRVDVLFNNAGTGAPAIPEDLTFAQWKQVVDTNLTGPFLCTQEAFRVKAQEPRGGRIINNGSISATSPRPYSAPYTATKHAITGLTKSTSLDGRVHDIACGQIDIGNADVAHVASAVVYASLPLDANVQFTIAT KKIAIVTGAGSGVGRAVAVALAGAGYGVALAGRRLDALQETAAEIGDDALCVPTDVTDPDSVRALFTATVEKFGRVDVLFNNAGTGAPAIPEDLTFAQWKQVVDTNLTGPFLCTQEAFRVKAQEPRGGRIINNGSISATSPRPYSAPYTATKHAITGLTKSTSLDGRVHDIACGQIDIGNADVAHVASAVVYASLPLDANVQFTIAT 4dyv-a3-m1-cA_4dyv-a3-m2-cA Crystal structure of a short-chain dehydrogenase/reductase SDR from Xanthobacter autotrophicus Py2 A7IGZ0 A7IGZ0 1.8 X-RAY DIFFRACTION 48 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 207 207 4dyv-a1-m1-cA_4dyv-a1-m2-cA 4dyv-a1-m3-cA_4dyv-a1-m4-cA KKIAIVTGAGSGVGRAVAVALAGAGYGVALAGRRLDALQETAAEIGDDALCVPTDVTDPDSVRALFTATVEKFGRVDVLFNNAGTGAPAIPEDLTFAQWKQVVDTNLTGPFLCTQEAFRVKAQEPRGGRIINNGSISATSPRPYSAPYTATKHAITGLTKSTSLDGRVHDIACGQIDIGNADVAHVASAVVYASLPLDANVQFTIAT KKIAIVTGAGSGVGRAVAVALAGAGYGVALAGRRLDALQETAAEIGDDALCVPTDVTDPDSVRALFTATVEKFGRVDVLFNNAGTGAPAIPEDLTFAQWKQVVDTNLTGPFLCTQEAFRVKAQEPRGGRIINNGSISATSPRPYSAPYTATKHAITGLTKSTSLDGRVHDIACGQIDIGNADVAHVASAVVYASLPLDANVQFTIAT 4dyw-a3-m1-cA_4dyw-a3-m1-cB Crystal structure of MutT NUDIX hydrolase from Burkholderia pseudomallei Q3JWU2 Q3JWU2 2.5 X-RAY DIFFRACTION 58 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 129 129 EQPRVGCGAAIVRDGRILLIKRKRAPEAGCWGLPGGKVDWLEPVERAVCREIEEELGIALERATLLCVVDHIDAANGEHWVAPVYLAHAFSGEPRVVEPDRHEALGWFALDDLPQPLTHATRIALEQVT EQPRVGCGAAIVRDGRILLIKRKRAPEAGCWGLPGGKVDWLEPVERAVCREIEEELGIALERATLLCVVDHIDAANGEHWVAPVYLAHAFSGEPRVVEPDRHEALGWFALDDLPQPLTHATRIALEQVT 4dz2-a3-m1-cA_4dz2-a3-m2-cB Crystal structure of a Peptidyl-prolyl cis-trans isomerase with surface mutation R92G from Burkholderia pseudomallei complexed with FK506 Q3JK38 Q3JK38 2 X-RAY DIFFRACTION 32 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 113 113 4dz2-a3-m1-cB_4dz2-a3-m2-cA STVVTTESGLKYEDLTEGSGAEARAGQTVSVHYTGWLTDGQKFDSSKDRNDPFAFVLGGGMVIKGWDEGVQGMKVGGVRRLTIPPQLGYGAGGAGGVIPPNATLVFEVELLDV STVVTTESGLKYEDLTEGSGAEARAGQTVSVHYTGWLTDGQKFDSSKDRNDPFAFVLGGGMVIKGWDEGVQGMKVGGVRRLTIPPQLGYGAGGAGGVIPPNATLVFEVELLDV 4dz2-a3-m1-cB_4dz2-a3-m2-cB Crystal structure of a Peptidyl-prolyl cis-trans isomerase with surface mutation R92G from Burkholderia pseudomallei complexed with FK506 Q3JK38 Q3JK38 2 X-RAY DIFFRACTION 19 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 113 113 4dz2-a1-m1-cA_4dz2-a1-m2-cA 4dz2-a2-m1-cB_4dz2-a2-m2-cB 4dz2-a3-m1-cA_4dz2-a3-m2-cA 4dz3-a1-m1-cA_4dz3-a1-m1-cB STVVTTESGLKYEDLTEGSGAEARAGQTVSVHYTGWLTDGQKFDSSKDRNDPFAFVLGGGMVIKGWDEGVQGMKVGGVRRLTIPPQLGYGAGGAGGVIPPNATLVFEVELLDV STVVTTESGLKYEDLTEGSGAEARAGQTVSVHYTGWLTDGQKFDSSKDRNDPFAFVLGGGMVIKGWDEGVQGMKVGGVRRLTIPPQLGYGAGGAGGVIPPNATLVFEVELLDV 4dz4-a1-m1-cA_4dz4-a1-m1-cF X-ray crystal structure of a hypothetical Agmatinase from Burkholderia thailandensis Q2T3W4 Q2T3W4 1.7 X-RAY DIFFRACTION 77 0.997 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 313 315 4dz4-a1-m1-cA_4dz4-a1-m1-cD 4dz4-a1-m1-cC_4dz4-a1-m1-cB 4dz4-a1-m1-cC_4dz4-a1-m1-cE 4dz4-a1-m1-cE_4dz4-a1-m1-cB 4dz4-a1-m1-cF_4dz4-a1-m1-cD TLYGDGAIRRPSVYGSSIENTYAGVLSFMRRNYTRDLDGVDVVVSGVPLDLATTFRSGARLGPSAVRAASVQLAELNPYPWGFDPFDDLAVIDYGDCWFDAHHPLSIKPAIVEHARTILQSDARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDSLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDDYLGINVLDAAWVHEHGARATLERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVVEVAPAYDQSEITAIAAAHVACDLLCLWRQRKAGA TLYGDGAIRRPSVYGSSIENTYAGVLSFMRRNYTRDLDGVDVVVSGVPLDLATTFRSGARLGPSAVRAASVQLAELNPYPWGFDPFDDLAVIDYGDCWFDAHHPLSIKPAIVEHARTILQSDARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDAPDSLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDDYLGINVLDAAWVHEHGARATLERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVVEVAPAYDQSEITAIAAAHVACDLLCLWRQRKAG 4dz4-a1-m1-cC_4dz4-a1-m1-cF X-ray crystal structure of a hypothetical Agmatinase from Burkholderia thailandensis Q2T3W4 Q2T3W4 1.7 X-RAY DIFFRACTION 80 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 315 315 4dz4-a1-m1-cA_4dz4-a1-m1-cB 4dz4-a1-m1-cD_4dz4-a1-m1-cE TLYGDGAIRRPSVYGSSIENTYAGVLSFMRRNYTRDLDGVDVVVSGVPLDLATTFRSGARLGPSAVRAASVQLAELNPYPWGFDPFDDLAVIDYGDCWFDAHHPLSIKPAIVEHARTILQSDARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDAPDSLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDDYLGINVLDAAWVHEHGARATLERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVVEVAPAYDQSEITAIAAAHVACDLLCLWRQRKAG TLYGDGAIRRPSVYGSSIENTYAGVLSFMRRNYTRDLDGVDVVVSGVPLDLATTFRSGARLGPSAVRAASVQLAELNPYPWGFDPFDDLAVIDYGDCWFDAHHPLSIKPAIVEHARTILQSDARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDAPDSLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDDYLGINVLDAAWVHEHGARATLERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVVEVAPAYDQSEITAIAAAHVACDLLCLWRQRKAG 4dz4-a1-m1-cF_4dz4-a1-m1-cE X-ray crystal structure of a hypothetical Agmatinase from Burkholderia thailandensis Q2T3W4 Q2T3W4 1.7 X-RAY DIFFRACTION 53 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 315 317 4dz4-a1-m1-cA_4dz4-a1-m1-cC 4dz4-a1-m1-cD_4dz4-a1-m1-cB TLYGDGAIRRPSVYGSSIENTYAGVLSFMRRNYTRDLDGVDVVVSGVPLDLATTFRSGARLGPSAVRAASVQLAELNPYPWGFDPFDDLAVIDYGDCWFDAHHPLSIKPAIVEHARTILQSDARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDAPDSLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDDYLGINVLDAAWVHEHGARATLERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVVEVAPAYDQSEITAIAAAHVACDLLCLWRQRKAG TLYGDGAIRRPSVYGSSIENTYAGVLSFMRRNYTRDLDGVDVVVSGVPLDLATTFRSGARLGPSAVRAASVQLAELNPYPWGFDPFDDLAVIDYGDCWFDAHHPLSIKPAIVEHARTILQSDARMLTLGGDHYITYPLLIAHAQKYGKPLSLIHFDAHCDTWADDAPDSLNHGTMFYKAVKDGLIDPKASVQVGIRTWNDDYLGINVLDAAWVHEHGARATLERIESIVGGRPAYLTFDIDCLDPAFAPGTGTPVAGGLSSAQALAIVRGLGGVNLIGADVVEVAPAYDQSEITAIAAAHVACDLLCLWRQRKAGAR 4dz6-a1-m1-cD_4dz6-a1-m1-cF Transition state mimic of nucleoside-diphosphate kinase from borrelia burgdorferi with bound vanadate and adp O51419 O51419 2.2 X-RAY DIFFRACTION 92 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 168 168 4di6-a1-m1-cA_4di6-a1-m1-cB 4di6-a1-m1-cC_4di6-a1-m1-cF 4di6-a1-m1-cE_4di6-a1-m1-cD 4dz6-a1-m1-cA_4dz6-a1-m1-cB 4dz6-a1-m1-cC_4dz6-a1-m1-cE SMLLQKTLCIVKPDGVRRGLIGDVVSRFERVGLKMVAAKMLIVDESLAKKHYLYDDIVFRHSEAVWNSLIKFISNSPVFTFVVEGVESIEVVRKLCGATEPKLAIPGTIRGDFSYHSFKYSNEKGFSIYNVIHASANEADAMREIPIWFKDNEILNYKRDDECEHYYC SMLLQKTLCIVKPDGVRRGLIGDVVSRFERVGLKMVAAKMLIVDESLAKKHYLYDDIVFRHSEAVWNSLIKFISNSPVFTFVVEGVESIEVVRKLCGATEPKLAIPGTIRGDFSYHSFKYSNEKGFSIYNVIHASANEADAMREIPIWFKDNEILNYKRDDECEHYYC 4dza-a1-m1-cA_4dza-a1-m2-cA Crystal structure of a lysine racemase within internal aldimine linkage M4GGR9 M4GGR9 1.74 X-RAY DIFFRACTION 252 1.0 584 (Proteus mirabilis) 584 (Proteus mirabilis) 370 370 PAIVNNSWIEISRSALDFNVKKVQSLLGKQSSLCAVLGDAYGHDLSLVAPIMIENNVKCIGVTNNQELKEVRDLGFKGRLMRVRNATEQEMAQATNYNVEELIGDLDMAKRLDAIAKQQNKVIPIHLALNSGGMSRNGLEVDNKSGLEKAKQISQLANLKVVGIMSHYPEEDANKVREDLARFKQQSQQVLEVMGLERNNVTLHMANTFATITVPESWLDMVRVGGIFYGDTIASTDYKRVMTFKSNIASINYYPKGNTVGYDRTYTLKRDSVLANIPVGYADGYRRVFSNAGHALIAGQRVPVLGKTSMNTVIVDITSLNNIKPGDEVVFFGKQGNSEITAEEIEDISGALFTEMSILWGATNQRVLVD PAIVNNSWIEISRSALDFNVKKVQSLLGKQSSLCAVLGDAYGHDLSLVAPIMIENNVKCIGVTNNQELKEVRDLGFKGRLMRVRNATEQEMAQATNYNVEELIGDLDMAKRLDAIAKQQNKVIPIHLALNSGGMSRNGLEVDNKSGLEKAKQISQLANLKVVGIMSHYPEEDANKVREDLARFKQQSQQVLEVMGLERNNVTLHMANTFATITVPESWLDMVRVGGIFYGDTIASTDYKRVMTFKSNIASINYYPKGNTVGYDRTYTLKRDSVLANIPVGYADGYRRVFSNAGHALIAGQRVPVLGKTSMNTVIVDITSLNNIKPGDEVVFFGKQGNSEITAEEIEDISGALFTEMSILWGATNQRVLVD 4dzh-a1-m1-cA_4dzh-a1-m2-cA Crystal structure of an adenosine deaminase from xanthomonas campestris (target nysgrc-200456) with bound zn Q8P8H1 Q8P8H1 1.552 X-RAY DIFFRACTION 201 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 439 439 PPEPCDLLIEAGYVVPIEPHAVVLEDHAVAVSNGVIVAVLPTADARVRFAPARTVSRPDAALMPGLVNAHTHNPMTLLRGVADDLPLMVWLQQHIWPVEAAVIGPEFVADGTTLAIAEMLRGGTTCVNENYFFADVQAAVYKQHGFRALVGAVIIDFPTAWASSDDEYFARAGELHDQWRDDPLISTAFAPHAPYTVNDANFERVRMLADQLDMPVHLHTHETAQEVADSVAQYGQRPLARLDRLGLVNDRLIAVHMTQLTEAEIHLCAERGVSVVHCPESNLKLASGFCPACALQRASVNLAIGTDGCASNNDLDMFSENRTAAILAKAVANDATALDAATTLRAATLGGARALGFGDRIGSIEVGKQADLVCVDLSALETQPLHHVLSQLIYAAGRHQVTDVWIAGKPKLVQRELIDMDTAALVANARQWRDRIRTV PPEPCDLLIEAGYVVPIEPHAVVLEDHAVAVSNGVIVAVLPTADARVRFAPARTVSRPDAALMPGLVNAHTHNPMTLLRGVADDLPLMVWLQQHIWPVEAAVIGPEFVADGTTLAIAEMLRGGTTCVNENYFFADVQAAVYKQHGFRALVGAVIIDFPTAWASSDDEYFARAGELHDQWRDDPLISTAFAPHAPYTVNDANFERVRMLADQLDMPVHLHTHETAQEVADSVAQYGQRPLARLDRLGLVNDRLIAVHMTQLTEAEIHLCAERGVSVVHCPESNLKLASGFCPACALQRASVNLAIGTDGCASNNDLDMFSENRTAAILAKAVANDATALDAATTLRAATLGGARALGFGDRIGSIEVGKQADLVCVDLSALETQPLHHVLSQLIYAAGRHQVTDVWIAGKPKLVQRELIDMDTAALVANARQWRDRIRTV 4dzi-a2-m1-cB_4dzi-a2-m1-cD Crystal structure of amidohydrolase map2389c (target EFI-500390) from Mycobacterium avium subsp. paratuberculosis K-10 1.6 X-RAY DIFFRACTION 110 1.0 1010838 (Mycobacterium avium subsp. paratuberculosis S397) 1010838 (Mycobacterium avium subsp. paratuberculosis S397) 382 382 4dzi-a1-m1-cA_4dzi-a1-m1-cC ALNYRVIDVDNHYYEPLDSFTRHLDKKFKRRGVQMLSDGKRTWAVIGDRVNHFIPNPTFDPIIVPGCLDLLFRGEIPDGVDPASLMKVERLADHPEYQNRDARIAVMDEQDIETAFMLPTFGCGVEEALKHDIEATMASVHAFNLWLDEDWGFDRPDHRIIAAPIVSLADPTRAVEEVDFVLARGAKLVLVRPAPVPGLVKPRSLGDRSHDPVWARLAEAGVPVGFHLSDSGYLHIAAAWGGKDPLDQVLLDDRAIHDTMASMIVHGVFTRHPKLKAVSIENGSYFVHRLIKRLKKAANTQPQYFPEDPVEQLRNNVWIAPYYEDDLPELARVIGVDKILFGSDWPHGEGLASPVSFTAELKGFSESDIRKIMRDNALDLLG ALNYRVIDVDNHYYEPLDSFTRHLDKKFKRRGVQMLSDGKRTWAVIGDRVNHFIPNPTFDPIIVPGCLDLLFRGEIPDGVDPASLMKVERLADHPEYQNRDARIAVMDEQDIETAFMLPTFGCGVEEALKHDIEATMASVHAFNLWLDEDWGFDRPDHRIIAAPIVSLADPTRAVEEVDFVLARGAKLVLVRPAPVPGLVKPRSLGDRSHDPVWARLAEAGVPVGFHLSDSGYLHIAAAWGGKDPLDQVLLDDRAIHDTMASMIVHGVFTRHPKLKAVSIENGSYFVHRLIKRLKKAANTQPQYFPEDPVEQLRNNVWIAPYYEDDLPELARVIGVDKILFGSDWPHGEGLASPVSFTAELKGFSESDIRKIMRDNALDLLG 4dzk-a1-m2-cA_4dzk-a1-m3-cA A de novo designed Coiled Coil CC-Tri-N13 1.79 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 4dzk-a1-m1-cA_4dzk-a1-m2-cA 4dzk-a1-m1-cA_4dzk-a1-m3-cA GEIAAIKQEIAANKKEIAAIKWEIAAIKQ GEIAAIKQEIAANKKEIAAIKWEIAAIKQ 4dzl-a2-m1-cG_4dzl-a2-m1-cH A de novo designed Coiled Coil CC-Tri 2.3 X-RAY DIFFRACTION 24 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 29 4dzl-a1-m1-cA_4dzl-a1-m1-cB 4dzl-a1-m1-cA_4dzl-a1-m1-cC 4dzl-a1-m1-cB_4dzl-a1-m1-cC 4dzl-a2-m1-cG_4dzl-a2-m1-cI 4dzl-a2-m1-cH_4dzl-a2-m1-cI 4dzl-a3-m1-cD_4dzl-a3-m1-cE 4dzl-a3-m1-cD_4dzl-a3-m1-cF 4dzl-a3-m1-cE_4dzl-a3-m1-cF 4dzl-a4-m1-cJ_4dzl-a4-m1-cK EIAAIKQEIAAIKKEIAAIKEIAAIKQ GEIAAIKQEIAAIKKEIAAIKEIAAIKQG 4dzm-a2-m1-cB_4dzm-a2-m3-cB A de novo designed Coiled Coil CC-Di 1.94 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 4dzm-a1-m1-cA_4dzm-a1-m2-cA GEIAALKQEIAALKKENAALKEIAALKQGY GEIAALKQEIAALKKENAALKEIAALKQGY 4dzn-a1-m1-cA_4dzn-a1-m1-cB A de novo designed Coiled Coil CC-pIL 1.59 X-RAY DIFFRACTION 27 1.0 32630 (synthetic construct) 32630 (synthetic construct) 31 31 4dzn-a1-m1-cA_4dzn-a1-m1-cC 4dzn-a1-m1-cB_4dzn-a1-m1-cC GEIAALKQEIAALKKEIAALKEIAALKQGYY GEIAALKQEIAALKKEIAALKEIAALKQGYY 4dzr-a2-m1-cA_4dzr-a2-m2-cA The crystal structure of protein-(glutamine-N5) methyltransferase (release factor-specific) from Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446 C8WUG7 C8WUG7 2.551 X-RAY DIFFRACTION 51 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 161 161 FEVGPDCLIPRPDTEVLVEEAIRFLKRPSGTRVIDVGTGSGCIAVSIALACPGVSVTAVDLSWAAADGIEWLIERAERGRPWHAIVSNPPYIPDGLQFYRRAALPPYVLARGRAGVFLEVGHNQADEVARLFAPWRERGFRVRKVKDLRGIDRVIAVTREP FEVGPDCLIPRPDTEVLVEEAIRFLKRPSGTRVIDVGTGSGCIAVSIALACPGVSVTAVDLSWAAADGIEWLIERAERGRPWHAIVSNPPYIPDGLQFYRRAALPPYVLARGRAGVFLEVGHNQADEVARLFAPWRERGFRVRKVKDLRGIDRVIAVTREP 4dzz-a3-m1-cA_4dzz-a3-m1-cB Structure of ParF-ADP, crystal form 1 B0ZE06 B0ZE06 1.8 X-RAY DIFFRACTION 43 1.0 562 (Escherichia coli) 562 (Escherichia coli) 206 206 MKVISFLNPKGGSGKTTAVINIATALSRSGYNIAVVDTDPQMSLTNWSKAGKAAFDVFTAASEKDVYGIRKDLADYDFAIVDGAGSLSVITSAAVMVSDLVIIPVTPSPLDFSAAGSVVTVLEAQAYSRKVEARFLITRKIEMATMLNVLKESIKDTGVKAFRTAITQRQVYVKSILDGDSVFESSDGAAKGEIEILTKEIVRIFE MKVISFLNPKGGSGKTTAVINIATALSRSGYNIAVVDTDPQMSLTNWSKAGKAAFDVFTAASEKDVYGIRKDLADYDFAIVDGAGSLSVITSAAVMVSDLVIIPVTPSPLDFSAAGSVVTVLEAQAYSRKVEARFLITRKIEMATMLNVLKESIKDTGVKAFRTAITQRQVYVKSILDGDSVFESSDGAAKGEIEILTKEIVRIFE 4e03-a3-m1-cA_4e03-a3-m1-cB Structure of ParF-ADP form 2 B0ZE06 B0ZE06 2.45 X-RAY DIFFRACTION 62 1.0 562 (Escherichia coli) 562 (Escherichia coli) 204 206 MKVISFLNPKGGSGKTTAVINIATALSRSGYNIAVVDTDPQMSLTNWSKAGKAAFDVFTAASEKDVYGIRKDLADYDFAIVDGAGSLSVITSAAVMVSDLVIIPVTPSPLDFSAAGSVVTVLEAQAYSRKVEARFLITRKIATMLNVLKESIKDTGVKAFRTAITQRQVYVKSILDGDSVFESSDGAAKGEIEILTKEIVRIFE MKVISFLNPKGGSGKTTAVINIATALSRSGYNIAVVDTDPQMSLTNWSKAGKAAFDVFTAASEKDVYGIRKDLADYDFAIVDGAGSLSVITSAAVMVSDLVIIPVTPSPLDFSAAGSVVTVLEAQAYSRKVEARFLITRKIEMATMLNVLKESIKDTGVKAFRTAITQRQVYVKSILDGDSVFESSDGAAKGEIEILTKEIVRIFE 4e04-a1-m1-cA_4e04-a1-m1-cB RpBphP2 chromophore-binding domain crystallized by homologue-directed mutagenesis. Q6N5G3 Q6N5G3 1.79 X-RAY DIFFRACTION 70 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 308 310 STCDDEPIHIPGAIQPHGLLLALAADMTIVAGSDNLPELTGLAIGALIGRSAADVFDSETHNRLTIALAEPGAAVGAPIAVGFTMPDGERAFNGSWHRHDQLVFLELEPPQRDVRYPQAFFRSVRSAIRRLQAAETLESACAAAAQEVREITGFDRVMIYRFASDFSGEVIAEDRCAEVESYLGLHFPASDIPAQARRLYTINPVRIIPDINYRPVPVTPDLNPRTGRPIDLSFAILRSVSPVHLEYMRNIGMHGTMSISILRGERLWGLIACHHRKPNYVDLEVRQACELVAQVLAWQIGVMEEQAL DLSTCDDEPIHIPGAIQPHGLLLALAADMTIVAGSDNLPELTGLAIGALIGRSAADVFDSETHNRLTIALAEPGAAVGAPIAVGFTMPDGERAFNGSWHRHDQLVFLELEPPQRDVRYPQAFFRSVRSAIRRLQAAETLESACAAAAQEVREITGFDRVMIYRFASDFSGEVIAEDRCAEVESYLGLHFPASDIPAQARRLYTINPVRIIPDINYRPVPVTPDLNPRTGRPIDLSFAILRSVSPVHLEYMRNIGMHGTMSISILRGERLWGLIACHHRKPNYVDLEVRQACELVAQVLAWQIGVMEEQAL 4e08-a1-m1-cA_4e08-a1-m1-cB Crystal structure of Drosophila melanogaster DJ-1beta Q9VA37 Q9VA37 2 X-RAY DIFFRACTION 79 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 186 186 MSKSALVILAPGAEEMEFIIAADVLRRAGIKVTVAGLNGGEAVKCSRDVQILPDTSLAQVASDKFDVVVLPGGLGGSNAMGESSLVGDLLRSQESGGGLIAAICAAPTVLAKHGVASGKSLTSYPSMKPQLVNNYSYVDDKTVVKDGNLITSRGPGTAYEFALKIAEELAGKEKVQEVAKGLLVAY MSKSALVILAPGAEEMEFIIAADVLRRAGIKVTVAGLNGGEAVKCSRDVQILPDTSLAQVASDKFDVVVLPGGLGGSNAMGESSLVGDLLRSQESGGGLIAAICAAPTVLAKHGVASGKSLTSYPSMKPQLVNNYSYVDDKTVVKDGNLITSRGPGTAYEFALKIAEELAGKEKVQEVAKGLLVAY 4e0a-a1-m1-cA_4e0a-a1-m1-cB Crystal Structure of the mutant F44R BH1408 protein from Bacillus halodurans, Northeast Structural Genomics Consortium (NESG) Target BhR182 Q9KD11 Q9KD11 1.801 X-RAY DIFFRACTION 128 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 153 153 4f6a-a1-m1-cA_4f6a-a1-m1-cB IIREATVQDYEEVARLHTQVHEAHVKERGDIFRSNEPTLNPSRFQAAVQGEKSTVLVFVDEREKIGAYSVIHLVQTPLLPTQQRKTVYISDLCVDETRRGGGIGRLIFEAIISYGKAHQVDAIELDVYDFNDRAKAFYHSLGRCQKQTELPLL IIREATVQDYEEVARLHTQVHEAHVKERGDIFRSNEPTLNPSRFQAAVQGEKSTVLVFVDEREKIGAYSVIHLVQTPLLPTQQRKTVYISDLCVDETRRGGGIGRLIFEAIISYGKAHQVDAIELDVYDFNDRAKAFYHSLGRCQKQTELPLL 4e0b-a2-m1-cC_4e0b-a2-m1-cD 2.17 Angstrom resolution crystal structure of malate dehydrogenase from Vibrio vulnificus CMCP6 Q8DEC2 Q8DEC2 2.17 X-RAY DIFFRACTION 136 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 300 303 4e0b-a1-m1-cA_4e0b-a1-m1-cB AKVAVIGAAGGIGQALALLLKNRLPAGSDLALYDIAPVTPGVAADLSHIPTHVSIKGYAGEDPTPALEGADVVLISAGVAADLFNVNAGIVKSLAERIAVVCPNACIGIITNPVNTTVPIAAEVLKKAGVYDKRKLFGVTTLDVIRSETFVAELKGQDPGEVRVPVIGGHSGVTILPLLSQVEGVEFSDEEIAALTKRIQNAGTEVVEAKAGGGSATLSGQAACRFGLALVKALQGEEVIEYAYVEGNGEHASFFAQPVKLGKEGVEEILPYGELSDFEKAALDGLETLNSDIQIGVDFV AKVAVIGAAGGIGQALALLLKNRLPAGSDLALYDIAPVTPGVAADLSHIPTHVSIKGYAGEDPTPALEGADVVLISAGVARDRADLFNVNAGIVKSLAERIAVVCPNACIGIITNPVNTTVPIAAEVLKKAGVYDKRKLFGVTTLDVIRSETFVAELKGQDPGEVRVPVIGGHSGVTILPLLSQVEGVEFSDEEIAALTKRIQNAGTEVVEAKAGGGSATLSGQAACRFGLALVKALQGEEVIEYAYVEGNGEHASFFAQPVKLGKEGVEEILPYGELSDFEKAALDGLETLNSDIQIGVDFV 4e0e-a2-m1-cC_4e0e-a2-m1-cD Crystal structure of a DUF4450 family protein (BT_4147) from Bacteroides thetaiotaomicron VPI-5482 at 2.90 A resolution Q8A074 Q8A074 2.9 X-RAY DIFFRACTION 105 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 166 166 4e0e-a1-m1-cA_4e0e-a1-m1-cB AQQLTPPAGTFRLGISKGTDSHWLAPQEKVKGIAFRWKALPDTRGFILEVAVTSLQQADTLFWSFGNCQPDDINVFSVEGQAFTCYYGESKLRTLQAVTPTDDIRLSNGRQDKTPLLLYESGKRTDRPVLAGRCPLAANSKLYFCFYEQNARADYNYFLPDLFAKI AQQLTPPAGTFRLGISKGTDSHWLAPQEKVKGIAFRWKALPDTRGFILEVAVTSLQQADTLFWSFGNCQPDDINVFSVEGQAFTCYYGESKLRTLQAVTPTDDIRLSNGRQDKTPLLLYESGKRTDRPVLAGRCPLAANSKLYFCFYEQNARADYNYFLPDLFAKI 4e0k-a2-m1-cC_4e0k-a2-m1-cD Crystal Structure of the amyloid-fibril forming peptide KDWSFY derived from human Beta 2 Microglobulin (58-63) P61769 P61769 0.97 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 4e0k-a1-m1-cA_4e0k-a1-m1-cB KDWSFY KDWSFY 4e0l-a2-m1-cC_4e0l-a2-m1-cD FYLLYYT segment from human Beta 2 Microglobulin (62-68) displayed on 54-membered macrocycle scaffold P61769 P61769 1.7 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 4e0l-a1-m1-cA_4e0l-a1-m1-cB FYLLYYTKNSA FYLLYYTKNSA 4e0m-a2-m1-cC_4e0m-a2-m1-cD SVQIVYK segment from human Tau (305-311) displayed on 54-membered macrocycle scaffold (form I) P10636 P10636 1.75 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 4e0m-a1-m1-cA_4e0m-a1-m1-cB SVQIVYKEFK SVQIVYKEFK 4e0n-a2-m1-cC_4e0n-a2-m1-cD SVQIVYK segment from human Tau (305-311) displayed on 54-membered macrocycle scaffold (form II) P10636 P10636 1.65 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 4e0n-a1-m1-cA_4e0n-a1-m1-cB 4e0o-a2-m1-cC_4e0o-a2-m1-cD SVQIVYKEFK SVQIVYKEFK 4e0t-a3-m1-cB_4e0t-a3-m1-cD Crystal structure of CdpNPT in its unbound state D1D8L6 D1D8L6 2.25 X-RAY DIFFRACTION 67 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 406 406 4e0t-a3-m1-cC_4e0t-a3-m1-cA 4e0u-a3-m1-cA_4e0u-a3-m1-cB 4e0u-a3-m2-cA_4e0u-a3-m2-cB PIPKDIAYHTLTKALLFPDIDQYQHWHHVAPMLAKMLVDGKYSIHQQYEYLCLFAQLVAPVLGPYPSPGRDVYRCTLGGNMTVELSQNFQGSTTRIAFEPVRYQASVGHDRFNRTSVNAFFSQLQLLVKSVNIELHHLLSEHLTLTAKDERNLNEEQLTKYLTNFQVKTQYVVALDLRKTGIVAKEYFFPGIKCAATGQTGSNACFGAIRAVDKDGHLDSLCQLIEAHFQQSKIDDAFLCCDLVDPAHTRFKVYIADPLVTLARAEEHWTLGGRLTDEDAAVGLEIIRGLWSELGIIQGPLEPSAMMEKGLLPIMLNYEMKAGQRLPKPKLYMPLTGIPETKIARIMTAFFQRHDMPEQAEVFMENLQAYYEGKNLEEATRYQAWLSFAYTKEKGPYLSIYYFWPE PIPKDIAYHTLTKALLFPDIDQYQHWHHVAPMLAKMLVDGKYSIHQQYEYLCLFAQLVAPVLGPYPSPGRDVYRCTLGGNMTVELSQNFQGSTTRIAFEPVRYQASVGHDRFNRTSVNAFFSQLQLLVKSVNIELHHLLSEHLTLTAKDERNLNEEQLTKYLTNFQVKTQYVVALDLRKTGIVAKEYFFPGIKCAATGQTGSNACFGAIRAVDKDGHLDSLCQLIEAHFQQSKIDDAFLCCDLVDPAHTRFKVYIADPLVTLARAEEHWTLGGRLTDEDAAVGLEIIRGLWSELGIIQGPLEPSAMMEKGLLPIMLNYEMKAGQRLPKPKLYMPLTGIPETKIARIMTAFFQRHDMPEQAEVFMENLQAYYEGKNLEEATRYQAWLSFAYTKEKGPYLSIYYFWPE 4e0t-a3-m1-cC_4e0t-a3-m1-cD Crystal structure of CdpNPT in its unbound state D1D8L6 D1D8L6 2.25 X-RAY DIFFRACTION 59 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 406 406 4e0t-a1-m1-cB_4e0t-a1-m1-cA 4e0t-a2-m1-cC_4e0t-a2-m1-cD 4e0t-a3-m1-cB_4e0t-a3-m1-cA 4e0u-a1-m1-cA_4e0u-a1-m2-cA 4e0u-a2-m1-cB_4e0u-a2-m2-cB 4e0u-a3-m1-cA_4e0u-a3-m2-cA 4e0u-a3-m1-cB_4e0u-a3-m2-cB PIPKDIAYHTLTKALLFPDIDQYQHWHHVAPMLAKMLVDGKYSIHQQYEYLCLFAQLVAPVLGPYPSPGRDVYRCTLGGNMTVELSQNFQGSTTRIAFEPVRYQASVGHDRFNRTSVNAFFSQLQLLVKSVNIELHHLLSEHLTLTAKDERNLNEEQLTKYLTNFQVKTQYVVALDLRKTGIVAKEYFFPGIKCAATGQTGSNACFGAIRAVDKDGHLDSLCQLIEAHFQQSKIDDAFLCCDLVDPAHTRFKVYIADPLVTLARAEEHWTLGGRLTDEDAAVGLEIIRGLWSELGIIQGPLEPSAMMEKGLLPIMLNYEMKAGQRLPKPKLYMPLTGIPETKIARIMTAFFQRHDMPEQAEVFMENLQAYYEGKNLEEATRYQAWLSFAYTKEKGPYLSIYYFWPE PIPKDIAYHTLTKALLFPDIDQYQHWHHVAPMLAKMLVDGKYSIHQQYEYLCLFAQLVAPVLGPYPSPGRDVYRCTLGGNMTVELSQNFQGSTTRIAFEPVRYQASVGHDRFNRTSVNAFFSQLQLLVKSVNIELHHLLSEHLTLTAKDERNLNEEQLTKYLTNFQVKTQYVVALDLRKTGIVAKEYFFPGIKCAATGQTGSNACFGAIRAVDKDGHLDSLCQLIEAHFQQSKIDDAFLCCDLVDPAHTRFKVYIADPLVTLARAEEHWTLGGRLTDEDAAVGLEIIRGLWSELGIIQGPLEPSAMMEKGLLPIMLNYEMKAGQRLPKPKLYMPLTGIPETKIARIMTAFFQRHDMPEQAEVFMENLQAYYEGKNLEEATRYQAWLSFAYTKEKGPYLSIYYFWPE 4e0t-a3-m1-cD_4e0t-a3-m1-cA Crystal structure of CdpNPT in its unbound state D1D8L6 D1D8L6 2.25 X-RAY DIFFRACTION 26 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 406 408 4e0t-a3-m1-cB_4e0t-a3-m1-cC 4e0u-a3-m1-cA_4e0u-a3-m2-cB 4e0u-a3-m1-cB_4e0u-a3-m2-cA PIPKDIAYHTLTKALLFPDIDQYQHWHHVAPMLAKMLVDGKYSIHQQYEYLCLFAQLVAPVLGPYPSPGRDVYRCTLGGNMTVELSQNFQGSTTRIAFEPVRYQASVGHDRFNRTSVNAFFSQLQLLVKSVNIELHHLLSEHLTLTAKDERNLNEEQLTKYLTNFQVKTQYVVALDLRKTGIVAKEYFFPGIKCAATGQTGSNACFGAIRAVDKDGHLDSLCQLIEAHFQQSKIDDAFLCCDLVDPAHTRFKVYIADPLVTLARAEEHWTLGGRLTDEDAAVGLEIIRGLWSELGIIQGPLEPSAMMEKGLLPIMLNYEMKAGQRLPKPKLYMPLTGIPETKIARIMTAFFQRHDMPEQAEVFMENLQAYYEGKNLEEATRYQAWLSFAYTKEKGPYLSIYYFWPE PIPKDIAYHTLTKALLFPDIDQYQHWHHVAPMLAKMLVDGKYSIHQQYEYLCLFAQLVAPVLGPYPSPGRDVYRCTLGGNMTVELSQNFQRSGSTTRIAFEPVRYQASVGHDRFNRTSVNAFFSQLQLLVKSVNIELHHLLSEHLTLTAKDERNLNEEQLTKYLTNFQVKTQYVVALDLRKTGIVAKEYFFPGIKCAATGQTGSNACFGAIRAVDKDGHLDSLCQLIEAHFQQSKIDDAFLCCDLVDPAHTRFKVYIADPLVTLARAEEHWTLGGRLTDEDAAVGLEIIRGLWSELGIIQGPLEPSAMMEKGLLPIMLNYEMKAGQRLPKPKLYMPLTGIPETKIARIMTAFFQRHDMPEQAEVFMENLQAYYEGKNLEEATRYQAWLSFAYTKEKGPYLSIYYFWPE 4e0y-a1-m1-cA_4e0y-a1-m2-cA Protelomerase tela covalently complexed with mutated substrate DNA Q7CWV1 Q7CWV1 2.4 X-RAY DIFFRACTION 91 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 317 317 4dwp-a1-m1-cA_4dwp-a1-m2-cA 4e0g-a1-m1-cA_4e0g-a1-m2-cA 4e0j-a1-m1-cA_4e0j-a1-m2-cA 4e0p-a1-m1-cA_4e0p-a1-m2-cA 4e0z-a1-m1-cA_4e0z-a1-m2-cA 4e10-a1-m1-cA_4e10-a1-m2-cA YPKTGVATSIVEKIERAEFNTAGRKPTVLLRIADFIAAMNGMDAKQDMQALWDAEIAIMNGRAQTTIISYITKYRNAIREAFGDDHPMLKIATGDAAMYDEARRVKMEKIANKHGALITFENYRQVLKICEDCLKSSDPLMIGIGLIGMTGRRPYEVFTQAEFSPAPYGKGVSKWSILFNGQAKTKQGEGTKFGITYEIPVLTRSETVLAAYKRLRESGQGKLWHGMSIDDFSSETRLLLRDTVFNLFEDVWPKEELPKPYGLRHLYAEVAYHNFAPPHVTKNSYFAAILGHNNNDLETSLSMTYTLPEDRDNALAR YPKTGVATSIVEKIERAEFNTAGRKPTVLLRIADFIAAMNGMDAKQDMQALWDAEIAIMNGRAQTTIISYITKYRNAIREAFGDDHPMLKIATGDAAMYDEARRVKMEKIANKHGALITFENYRQVLKICEDCLKSSDPLMIGIGLIGMTGRRPYEVFTQAEFSPAPYGKGVSKWSILFNGQAKTKQGEGTKFGITYEIPVLTRSETVLAAYKRLRESGQGKLWHGMSIDDFSSETRLLLRDTVFNLFEDVWPKEELPKPYGLRHLYAEVAYHNFAPPHVTKNSYFAAILGHNNNDLETSLSMTYTLPEDRDNALAR 4e12-a1-m1-cA_4e12-a1-m2-cA Substrate-directed dual catalysis of dicarbonyl compounds by diketoreductase B1P3E1 B1P3E1 1.93 X-RAY DIFFRACTION 132 1.0 202950 (Acinetobacter baylyi) 202950 (Acinetobacter baylyi) 283 283 4dyd-a1-m1-cA_4dyd-a1-m2-cA 4e13-a1-m1-cA_4e13-a1-m2-cA MTGITNVTVLGTGVLGSQIAFQTAFHGFAVTAYDINTDALDAAKKRFEGLAAVYEKEVAGAADGAAQKALGGIRYSDDLAQAVKDADLVIEAVPESLDLKRDIYTKLGELAPAKTIFATNSSTLLPSDLVGYTGRGDKFLALHFANHVWVNNTAEVMGTTKTDPEVYQQVVEFASAIGMVPIELKKEKAGYVLNSLLVPLLDAAAELLVDGIADPETIDKTWRIGTGAPKGPFEIFDIVGLTTAYNISSVSGPKQREFAAYLKENYIDKGKLGLATGEGFYRY MTGITNVTVLGTGVLGSQIAFQTAFHGFAVTAYDINTDALDAAKKRFEGLAAVYEKEVAGAADGAAQKALGGIRYSDDLAQAVKDADLVIEAVPESLDLKRDIYTKLGELAPAKTIFATNSSTLLPSDLVGYTGRGDKFLALHFANHVWVNNTAEVMGTTKTDPEVYQQVVEFASAIGMVPIELKKEKAGYVLNSLLVPLLDAAAELLVDGIADPETIDKTWRIGTGAPKGPFEIFDIVGLTTAYNISSVSGPKQREFAAYLKENYIDKGKLGLATGEGFYRY 4e16-a1-m1-cA_4e16-a1-m2-cA Precorrin-4 C(11)-methyltransferase from Clostridium difficile Q180S3 Q180S3 2.49 X-RAY DIFFRACTION 165 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 229 229 MNKVHFVGAGPGDKELITLKGYKLLSNADVVIYAGSLVNPELLEYCKEDCQIHNSAHMDLQEIIDVMREGIENNKSVVRLQTGDFSIYGSIREQVEDLNKLNIDYDCTPGVSSFLGAASSLGVEYTVPEISQSVIITRMTPVPEKESIQSYAKHQTSMVIFLSVQEIEKVVSKLLEGGYPKDTPIAVIYKATWADEKIVKGTLSDIAVKVKENNINKTALIMVGRFLGE MNKVHFVGAGPGDKELITLKGYKLLSNADVVIYAGSLVNPELLEYCKEDCQIHNSAHMDLQEIIDVMREGIENNKSVVRLQTGDFSIYGSIREQVEDLNKLNIDYDCTPGVSSFLGAASSLGVEYTVPEISQSVIITRMTPVPEKESIQSYAKHQTSMVIFLSVQEIEKVVSKLLEGGYPKDTPIAVIYKATWADEKIVKGTLSDIAVKVKENNINKTALIMVGRFLGE 4e1h-a1-m1-cB_4e1h-a1-m1-cD Fragment of human prion protein P04156 P04156 1.4 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 4e1i-a1-m1-cB_4e1i-a1-m1-cD EQMCIT EQMCIT 4e1h-a1-m1-cF_4e1h-a1-m1-cH Fragment of human prion protein P04156 P04156 1.4 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 4e1h-a1-m1-cJ_4e1h-a1-m1-cL 4e1i-a1-m1-cJ_4e1i-a1-m1-cL EQMCIT EQMCIT 4e1i-a1-m1-cF_4e1i-a1-m1-cH Fragment of human prion protein P04156 P04156 2.03 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 EQMCIT EQMCIT 4e1j-a2-m1-cB_4e1j-a2-m1-cC Crystal structure of glycerol kinase in complex with glycerol from Sinorhizobium meliloti 1021 O86033 O86033 2.33 X-RAY DIFFRACTION 85 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 476 493 4e1j-a1-m1-cD_4e1j-a1-m1-cA GYILAIDQGTTSTRAIVFDGNQKIAGVGQKEFKQHFPKSGWVEHDPEEIWQTVVSTVKEAIEKSGITANDIAAIGITNQRETVVVWDRETGKPIHNAIVWQDRRTAAFCDKLKKKGLEKTFVKKTGLLLDPYFSGTKLNWLLSNVKGAQVRAAKGELCFGTIDTFLIWRLTGGECFCTDATNASRTLLYNIAENAWDDELTEVLRVPKELPEVKDCAADFGVTDPSLFGAAIPILGVAGDQQAATIGQACFKPGLKSTYGTGCFALLNTGKDVRSKNRLLTTIAYRLDGETTYALEGSIFVAGAAVQWLRDGLKVITGSLAESADPSQEVYLVPAFTGLGAPHWDPDARGAIFGTRNTGPAEFARAALEAVCYQTRDLLEAHKDWRTVLRVDGGVASDWTQRLSDLLDAPVDRPVILETTALGVAWLAGSRAGVWPNQEAFAKSWARDRRFEPHDEATRKVKLKGWRSAVKRTLIA HSSGVDLGTENLYFQSGGYILAIDQGTTSTRAIVFDGNQKIAGVGQKEFKQHFPKSGWVEHDPEEIWQTVVSTVKEAIEKSGITANDIAAIGITNQRETVVVWDRETGKPIHNAIVWQDRRTAAFCDKLKKKGLEKTFVKKTGLLLDPYFSGTKLNWLLSNVKGAQVRAAKGELCFGTIDTFLIWRLTGGECFCTDATNASRTLLYNIAENAWDDELTEVLRVPKELPEVKDCAADFGVTDPSLFGAAIPILGVAGDQQAATIGQACFKPGLKSTYGTGCFALLNTGKDVRSKNRLLTTIAYRLDGETTYALEGSIFVAGAAVQWLRDGLKVITGSLAESADPSQEVYLVPAFTGLGAPHWDPDARGAIFGTRNTGPAEFARAALEAVCYQTRDLLEAHKDWRTVLRVDGGVASDWTQRLSDLLDAPVDRPVILETTALGVAWLAGSRAGVWPNQEAFAKSWARDRRFEPHDEATRKVKLKGWRSAVKRTLIA 4e1l-a1-m1-cB_4e1l-a1-m1-cA Crystal structure of Acetoacetyl-CoA thiolase (thlA2) from Clostridium difficile Q183B0 Q183B0 2 X-RAY DIFFRACTION 62 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 384 388 AMKDVVIVSAVRTPIGSFGGVFKNTSAVQLGTIAVKEAISRVGLNLSEIDEVIIGNVLQTGLGQNVARQIAINAGIPNSVPSYTVNKLCGSGLKSVQLAAQSITSGENDVVIAGGTENMSQAPYIVPTARFGSKMGTDGLIDAFNQYHMGITAENIATKFEFTREMQDKLALESQNKAENAIKNNRFKEEIVPVDVLIRRGKIETIDKDEYPKLGMTFEGLSKLKPAFKKDGTVTAGNASGINDGAAMLILMSQQKADELGIRPLAKIKSYASAGVEPEVMGTGPIPATRKALKKAGLSINDIDLIEANEAFAAQALAVKNELQIDSSKLNVNGGAIALGHPIGASGARILVTLIYEMQKRKVETGLATLCIGGGQGISMVVSR NAMKDVVIVSAVRTPIGSFGGVFKNTSAVQLGTIAVKEAISRVGLNLSEIDEVIIGNVLQTGLGQNVARQIAINAGIPNSVPSYTVNKLCGSGLKSVQLAAQSITSGENDVVIAGGTENMSQAPYIVPTARFGSKMGNILTDGLIDAFNQYHMGITAENIATKFEFTREMQDKLALESQNKAENAIKNNRFKEEIVPVDVLIRRGKIETIDKDEYPKLGMTFEGLSKLKPAFKKDGTVTAGNASGINDGAAMLILMSQQKADELGIRPLAKIKSYASAGVEPEVMGTGPIPATRKALKKAGLSINDIDLIEANEAFAAQALAVKNELQIDSSKLNVNGGAIALGHPIGASGARILVTLIYEMQKRKVETGLATLCIGGGQGISMVVSR 4e1l-a1-m1-cD_4e1l-a1-m1-cA Crystal structure of Acetoacetyl-CoA thiolase (thlA2) from Clostridium difficile Q183B0 Q183B0 2 X-RAY DIFFRACTION 25 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 364 388 4e1l-a1-m1-cC_4e1l-a1-m1-cB AMKDVVIVSAVRTPIGSFGGVFKNTSAVQLGTIAVKEAISRVGLNLSEIDEVIIGNVLQTGLGQNVARQIAINAGIPNSVPSYTVNKLCGSGLKSVQLAAQSITSGENDVVIAGGTENMSQAPYIQYHMGITAENIATKFEFTREMQDKLALESQNKAENAIKNNRFKEEIVPVDVLIRRGKIETIDKDEYPKLGMTFEGLSKLKPAFKKDGTVTAGNASGINDGAAMLILMSQQKADELGIRPLAKIKSYASAGVEPEVMGTGPIPATRKALKKAGLSINDIDLIEANEAFAAQALAVKNELQIDSSKLNVNGGAIALGHPIGASGARILVTLIYEMQKRKVETGLATLCIGGGQGISMVVSR NAMKDVVIVSAVRTPIGSFGGVFKNTSAVQLGTIAVKEAISRVGLNLSEIDEVIIGNVLQTGLGQNVARQIAINAGIPNSVPSYTVNKLCGSGLKSVQLAAQSITSGENDVVIAGGTENMSQAPYIVPTARFGSKMGNILTDGLIDAFNQYHMGITAENIATKFEFTREMQDKLALESQNKAENAIKNNRFKEEIVPVDVLIRRGKIETIDKDEYPKLGMTFEGLSKLKPAFKKDGTVTAGNASGINDGAAMLILMSQQKADELGIRPLAKIKSYASAGVEPEVMGTGPIPATRKALKKAGLSINDIDLIEANEAFAAQALAVKNELQIDSSKLNVNGGAIALGHPIGASGARILVTLIYEMQKRKVETGLATLCIGGGQGISMVVSR 4e1l-a1-m1-cD_4e1l-a1-m1-cB Crystal structure of Acetoacetyl-CoA thiolase (thlA2) from Clostridium difficile Q183B0 Q183B0 2 X-RAY DIFFRACTION 109 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 364 384 4e1l-a1-m1-cC_4e1l-a1-m1-cA AMKDVVIVSAVRTPIGSFGGVFKNTSAVQLGTIAVKEAISRVGLNLSEIDEVIIGNVLQTGLGQNVARQIAINAGIPNSVPSYTVNKLCGSGLKSVQLAAQSITSGENDVVIAGGTENMSQAPYIQYHMGITAENIATKFEFTREMQDKLALESQNKAENAIKNNRFKEEIVPVDVLIRRGKIETIDKDEYPKLGMTFEGLSKLKPAFKKDGTVTAGNASGINDGAAMLILMSQQKADELGIRPLAKIKSYASAGVEPEVMGTGPIPATRKALKKAGLSINDIDLIEANEAFAAQALAVKNELQIDSSKLNVNGGAIALGHPIGASGARILVTLIYEMQKRKVETGLATLCIGGGQGISMVVSR AMKDVVIVSAVRTPIGSFGGVFKNTSAVQLGTIAVKEAISRVGLNLSEIDEVIIGNVLQTGLGQNVARQIAINAGIPNSVPSYTVNKLCGSGLKSVQLAAQSITSGENDVVIAGGTENMSQAPYIVPTARFGSKMGTDGLIDAFNQYHMGITAENIATKFEFTREMQDKLALESQNKAENAIKNNRFKEEIVPVDVLIRRGKIETIDKDEYPKLGMTFEGLSKLKPAFKKDGTVTAGNASGINDGAAMLILMSQQKADELGIRPLAKIKSYASAGVEPEVMGTGPIPATRKALKKAGLSINDIDLIEANEAFAAQALAVKNELQIDSSKLNVNGGAIALGHPIGASGARILVTLIYEMQKRKVETGLATLCIGGGQGISMVVSR 4e1o-a2-m1-cD_4e1o-a2-m1-cC Human histidine decarboxylase complex with Histidine methyl ester (HME) P19113 P19113 1.8 X-RAY DIFFRACTION 437 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 477 480 4e1o-a1-m1-cA_4e1o-a1-m1-cB 4e1o-a3-m1-cE_4e1o-a3-m1-cF 7eiw-a1-m1-cB_7eiw-a1-m1-cA 7eix-a1-m1-cB_7eix-a1-m1-cA 7eiy-a1-m1-cB_7eiy-a1-m1-cA GSMEPEEYRERGREMVDYICQYLSTVRERRVTPDVQPGYLRAQLPESAPEDPDSWDSIFGDIERIIMPGVVHWQSPHMHAYYPALTSWPSLLGDMLADAINCLGFTWASSPACTELEMNVMDWLAKMLGLPEHFLHHHPSSQGGGVLQSTVSESTLIALLAARKNKILEMKTSEPDADESSLNARLVAYASDQAHSSVEKAGLISLVKMKFLPVDDNFSLRGEALQKAIEEDKQRGLVPVFVCATLGTTGVCAFDLSELGPICAREGLWLHIDAAYAGTAFLCPEFRGFLKGIEYADSFTFNPSKWMMVHFDCTGFWVKDKYKLQQTFSVNPIYLRHANSGVATDFMHWQIPLSRRFRSVKLWFVIRSFGVKNLQAHVRHGTEMAKYFESLVRNDPSFEIPAKRHLGLVVFRLKGPNSLTENVLKEIAKAGRLFLIPATIQDKLIIRFTVTSQFTTRDDILRDWNLIRDAATLILSQ GPLGSMEPEEYRERGREMVDYICQYLSTVRERRVTPDVQPGYLRAQLPESAPEDPDSWDSIFGDIERIIMPGVVHWQSPHMHAYYPALTSWPSLLGDMLADAINCLGFTWASSPACTELEMNVMDWLAKMLGLPEHFLHHHPSSQGGGVLQSTVSESTLIALLAARKNKILEMKTSEPDADESSLNARLVAYASDQAHSSVEKAGLISLVKMKFLPVDDNFSLRGEALQKAIEEDKQRGLVPVFVCATLGTTGVCAFDLSELGPICAREGLWLHIDAAYAGTAFLCPEFRGFLKGIEYADSFTFNPSKWMMVHFDCTGFWVKDKYKLQQTFSVNPIYLRHANSGVATDFMHWQIPLSRRFRSVKLWFVIRSFGVKNLQAHVRHGTEMAKYFESLVRNDPSFEIPAKRHLGLVVFRLKGPNSLTENVLKEIAKAGRLFLIPATIQDKLIIRFTVTSQFTTRDDILRDWNLIRDAATLILSQ 4e1p-a1-m1-cA_4e1p-a1-m1-cB Crystal structure of the dimerization domain of Lsr2 from Mycobacterium tuberculosis in the P 1 21 1 space group P9WIP7 P9WIP7 1.728 X-RAY DIFFRACTION 97 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 55 56 4e1r-a1-m1-cA_4e1r-a1-m1-cB KVTVTLVDDFDGSGAADETVEFGLDGVTYEIDLSTKNATKLRGDLKQWVAAGRRV KVTVTLVDDFDGSGAADETVEFGLDGVTYEIDLSTKNATKLRGDLKQWVAAGRRVG 4e21-a1-m1-cA_4e21-a1-m2-cB The crystal structure of 6-phosphogluconate dehydrogenase from Geobacter metallireducens Q39SD5 Q39SD5 2.301 X-RAY DIFFRACTION 122 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 299 305 4e21-a1-m2-cA_4e21-a1-m1-cB SQIGIGLGRGADVRRLRKGGHECVVYDLNVNAVQALEREGIAGARSIEEFCAKLVKPRVVWLVPAAVVDSLQRTPLLAANDIVIDGGNSHYQDDIRRADQRAQGITYVDVGTSGGIFGLERGYCLIGGEKQAVERLDPVFRTLAPGIGAAPRTPGREKREGTAELGYLHCGPSGAGHFVKVHNGIEYGLAAYAEGLNILHHANAGNPDFYRYDLDLADITEVWRRGSVISSWLLDLSATALLDSPDLQEFRVSDSGEGRWTVAAAIDEGVPAHVLSSALYERFSSRGEDDFANRLLSAR SQIGIGLGRGADVRRLRKGGHECVVYDLNVNAVQALEREGIAGARSIEEFCAKLVKPRVVWLVPAAVVDSLQRTPLLAANDIVIDGGNSHYQDDIRRADQRAQGITYVDVGTSGGIFGLERGYCLIGGEKQAVERLDPVFRTLAPGIGAAPRTPGREKREGTAELGYLHCGPSGAGHFVKVHNGIEYGLAAYAEGLNILHHANAGPLRNPDFYRYDLDLADITEVWRRGSVISSWLLDLSATALLDSPDLQEFRVSDSGEGRWTVAAAIDEGVPAHVLSSALYERFSSRGEDDFANRLLSARYEF 4e21-a1-m1-cB_4e21-a1-m2-cB The crystal structure of 6-phosphogluconate dehydrogenase from Geobacter metallireducens Q39SD5 Q39SD5 2.301 X-RAY DIFFRACTION 60 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 305 305 4e21-a1-m1-cA_4e21-a1-m2-cA SQIGIGLGRGADVRRLRKGGHECVVYDLNVNAVQALEREGIAGARSIEEFCAKLVKPRVVWLVPAAVVDSLQRTPLLAANDIVIDGGNSHYQDDIRRADQRAQGITYVDVGTSGGIFGLERGYCLIGGEKQAVERLDPVFRTLAPGIGAAPRTPGREKREGTAELGYLHCGPSGAGHFVKVHNGIEYGLAAYAEGLNILHHANAGPLRNPDFYRYDLDLADITEVWRRGSVISSWLLDLSATALLDSPDLQEFRVSDSGEGRWTVAAAIDEGVPAHVLSSALYERFSSRGEDDFANRLLSARYEF SQIGIGLGRGADVRRLRKGGHECVVYDLNVNAVQALEREGIAGARSIEEFCAKLVKPRVVWLVPAAVVDSLQRTPLLAANDIVIDGGNSHYQDDIRRADQRAQGITYVDVGTSGGIFGLERGYCLIGGEKQAVERLDPVFRTLAPGIGAAPRTPGREKREGTAELGYLHCGPSGAGHFVKVHNGIEYGLAAYAEGLNILHHANAGPLRNPDFYRYDLDLADITEVWRRGSVISSWLLDLSATALLDSPDLQEFRVSDSGEGRWTVAAAIDEGVPAHVLSSALYERFSSRGEDDFANRLLSARYEF 4e21-a1-m2-cA_4e21-a1-m2-cB The crystal structure of 6-phosphogluconate dehydrogenase from Geobacter metallireducens Q39SD5 Q39SD5 2.301 X-RAY DIFFRACTION 348 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 299 305 4e21-a1-m1-cA_4e21-a1-m1-cB SQIGIGLGRGADVRRLRKGGHECVVYDLNVNAVQALEREGIAGARSIEEFCAKLVKPRVVWLVPAAVVDSLQRTPLLAANDIVIDGGNSHYQDDIRRADQRAQGITYVDVGTSGGIFGLERGYCLIGGEKQAVERLDPVFRTLAPGIGAAPRTPGREKREGTAELGYLHCGPSGAGHFVKVHNGIEYGLAAYAEGLNILHHANAGNPDFYRYDLDLADITEVWRRGSVISSWLLDLSATALLDSPDLQEFRVSDSGEGRWTVAAAIDEGVPAHVLSSALYERFSSRGEDDFANRLLSAR SQIGIGLGRGADVRRLRKGGHECVVYDLNVNAVQALEREGIAGARSIEEFCAKLVKPRVVWLVPAAVVDSLQRTPLLAANDIVIDGGNSHYQDDIRRADQRAQGITYVDVGTSGGIFGLERGYCLIGGEKQAVERLDPVFRTLAPGIGAAPRTPGREKREGTAELGYLHCGPSGAGHFVKVHNGIEYGLAAYAEGLNILHHANAGPLRNPDFYRYDLDLADITEVWRRGSVISSWLLDLSATALLDSPDLQEFRVSDSGEGRWTVAAAIDEGVPAHVLSSALYERFSSRGEDDFANRLLSARYEF 4e27-a1-m1-cB_4e27-a1-m1-cC Crystal Structure of a Pentameric Capsid Protein Isolated from Metagenomic Phage Sequences Solved by Iodide SAD Phasing 2.4 X-RAY DIFFRACTION 12 1.0 32644 (unidentified) 32644 (unidentified) 149 162 4dmi-a1-m1-cA_4dmi-a1-m1-cB 4dmi-a1-m1-cA_4dmi-a1-m1-cD 4dmi-a1-m1-cC_4dmi-a1-m1-cB 4dmi-a1-m1-cE_4dmi-a1-m1-cC 4dmi-a1-m1-cE_4dmi-a1-m1-cD 4e27-a1-m1-cB_4e27-a1-m1-cA 4e27-a1-m1-cC_4e27-a1-m1-cE 4e27-a1-m1-cD_4e27-a1-m1-cA 4e27-a1-m1-cD_4e27-a1-m1-cE RDKLNTLLPSGSTTIIPVVDLTETAQREDLQKAFTLINTIDFDVENTTTTIANTPGFYKVVGNLSSRDEASGAIAVIEVTDGITTKILANNRIVSPDGTTAVQSVPVPFDLMVKLVAGDTLQARSNNAEVRVQGIARQIADVSGNLINP QQFRIDSIRDKLNTLLPLSGSTTIIPVVDLTETAEGGAQREDLQKAFTLINTIDFDVENTTTTIANTPGFYKVVGNLSSRDEASGAIAVIEVTDGITTKILANNRIVSPDGTTAVQSVPVPFDLMVKLVAGDTLQARSNNAEVRVQGIARQIADVSGNLINP 4e27-a1-m1-cB_4e27-a1-m1-cD Crystal Structure of a Pentameric Capsid Protein Isolated from Metagenomic Phage Sequences Solved by Iodide SAD Phasing 2.4 X-RAY DIFFRACTION 146 0.98 32644 (unidentified) 32644 (unidentified) 149 155 4dmi-a1-m1-cB_4dmi-a1-m1-cD 4dmi-a1-m1-cC_4dmi-a1-m1-cA 4dmi-a1-m1-cC_4dmi-a1-m1-cD 4dmi-a1-m1-cE_4dmi-a1-m1-cA 4dmi-a1-m1-cE_4dmi-a1-m1-cB 4e27-a1-m1-cB_4e27-a1-m1-cE 4e27-a1-m1-cC_4e27-a1-m1-cA 4e27-a1-m1-cD_4e27-a1-m1-cC 4e27-a1-m1-cE_4e27-a1-m1-cA RDKLNTLLPSGSTTIIPVVDLTETAQREDLQKAFTLINTIDFDVENTTTTIANTPGFYKVVGNLSSRDEASGAIAVIEVTDGITTKILANNRIVSPDGTTAVQSVPVPFDLMVKLVAGDTLQARSNNAEVRVQGIARQIADVSGNLINP IDSSIRDKLNTLLSTTIIPVVDLTETAEGGAQREDLQKAFTLINTIDFDVENTTTTIANTPGFYKVVGNLSSRDEASGAIAVIEVTDGITTKILANNRIVSPDGTTAVQSVPVPFDLMVKLVAGDTLQARSNNAEVRVQGIARQIADVSGNLINP 4e28-a1-m1-cA_4e28-a1-m2-cA Structure of human thymidylate synthase in inactive conformation with a novel non-peptidic inhibitor P04818 P04818 2.302 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 249 249 3egy-a1-m1-cX_3egy-a1-m2-cX 4jef-a1-m1-cA_4jef-a1-m2-cA PPHGELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKDLGPVYGFQWRHFYSGQGVDQLQRVIDTIKTNPDDRRIIMAWNPRDLPLMALPPHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEM PPHGELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKDLGPVYGFQWRHFYSGQGVDQLQRVIDTIKTNPDDRRIIMAWNPRDLPLMALPPHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEM 4e2a-a1-m1-cA_4e2a-a1-m1-cB Crystal Structure of the Putative acetyltransferase from Streptococcus mutans Q8DT67 Q8DT67 2 X-RAY DIFFRACTION 63 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 170 171 QVEIRKVNQDELSLLQKIAIQTFRETFAFDNTAEQLQNFFDEAYTLSVLKLELDDKESETYFILMSGKAAGFLKVNWGSSQTEQVLEDAFEIQRLYILKAYQGLGLGKQLFEFALERAQISGLSWVWLGVWEKNVKAQLLYAKYGFEQFSKHSFFVGNKVDTDWLLKKSL SQVEIRKVNQDELSLLQKIAIQTFRETFAFDNTAEQLQNFFDEAYTLSVLKLELDDKESETYFILMSGKAAGFLKVNWGSSQTEQVLEDAFEIQRLYILKAYQGLGLGKQLFEFALERAQISGLSWVWLGVWEKNVKAQLLYAKYGFEQFSKHSFFVGNKVDTDWLLKKSL 4e2g-a4-m1-cG_4e2g-a4-m1-cH Crystal structure of Cupin fold protein Sthe2323 from Sphaerobacter thermophilus D1C798 D1C798 1.86 X-RAY DIFFRACTION 108 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 109 109 4e2g-a1-m1-cB_4e2g-a1-m1-cA 4e2g-a2-m1-cD_4e2g-a2-m1-cC 4e2g-a3-m1-cE_4e2g-a3-m1-cF FAPAFYDLTEVRSFSPLPGFAQAIQGKNLLNWVRIEPNTEPAHEHPHEQAGVLEGTLELTIGEETRVLRPGAYTIPGGVRHRARTFEDGCLVLDIFSPPREDYARAEDA FAPAFYDLTEVRSFSPLPGFAQAIQGKNLLNWVRIEPNTEPAHEHPHEQAGVLEGTLELTIGEETRVLRPGAYTIPGGVRHRARTFEDGCLVLDIFSPPREDYARAEDA 4e2l-a1-m1-cA_4e2l-a1-m1-cB Crystal Structure of the periplasmic domain of mutant FepE LPS O-antigen chain length regulator protein Q8XBV8 Q8XBV8 2.8 X-RAY DIFFRACTION 101 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 240 240 3b8m-a1-m1-cA_3b8m-a1-m1-cB 3b8m-a1-m1-cA_3b8m-a1-m3-cC 3b8m-a1-m1-cB_3b8m-a1-m1-cC 3b8m-a1-m1-cC_3b8m-a1-m2-cA 3b8m-a1-m2-cA_3b8m-a1-m2-cB 3b8m-a1-m2-cB_3b8m-a1-m2-cC 3b8m-a1-m2-cC_3b8m-a1-m3-cA 3b8m-a1-m3-cA_3b8m-a1-m3-cB 3b8m-a1-m3-cB_3b8m-a1-m3-cC 3b8n-a1-m1-cA_3b8n-a1-m1-cB 3b8n-a1-m1-cA_3b8n-a1-m1-cI 3b8n-a1-m1-cB_3b8n-a1-m1-cC 3b8n-a1-m1-cC_3b8n-a1-m1-cD 3b8n-a1-m1-cD_3b8n-a1-m1-cE 3b8n-a1-m1-cE_3b8n-a1-m1-cF 3b8n-a1-m1-cF_3b8n-a1-m1-cG 3b8n-a1-m1-cG_3b8n-a1-m1-cH 3b8n-a1-m1-cH_3b8n-a1-m1-cI 4e2l-a1-m1-cA_4e2l-a1-m1-cI 4e2l-a1-m1-cB_4e2l-a1-m1-cC 4e2l-a1-m1-cD_4e2l-a1-m1-cC 4e2l-a1-m1-cD_4e2l-a1-m1-cE 4e2l-a1-m1-cE_4e2l-a1-m1-cF 4e2l-a1-m1-cG_4e2l-a1-m1-cF 4e2l-a1-m1-cG_4e2l-a1-m1-cH 4e2l-a1-m1-cH_4e2l-a1-m1-cI WTSAAVVTPPEPVQWQELEKTFTKLRVLDLDIKIDRTEAFNLFIKKFQSVSLLEEYLRSSPYVMDQLDLHRAIVALSEKMKAVDDSLYTSWTLSFTAPTSEEAQTVLSGYIDYISALVVKESIENVRNKLEIKTQFEKEKLAQDRIKMKNQLDANIQRLNYSLDIANAAGIKKPVDPDFSISLGADGIERKLEIEKAVTDVAELNGELRNRQYLVEQLTKANINDVNFTPFKYQLSPSLP WTSAAVVTPPEPVQWQELEKTFTKLRVLDLDIKIDRTEAFNLFIKKFQSVSLLEEYLRSSPYVMDQLDLHRAIVALSEKMKAVDDSLYTSWTLSFTAPTSEEAQTVLSGYIDYISALVVKESIENVRNKLEIKTQFEKEKLAQDRIKMKNQLDANIQRLNYSLDIANAAGIKKPVDPDFSISLGADGIERKLEIEKAVTDVAELNGELRNRQYLVEQLTKANINDVNFTPFKYQLSPSLP 4e2q-a2-m1-cL_4e2q-a2-m1-cP Crystal Structure of (S)-Ureidoglycine Aminohydrolase from Arabidopsis thaliana Q8GXV5 Q8GXV5 2.5 X-RAY DIFFRACTION 75 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 258 258 4e2q-a1-m1-cA_4e2q-a1-m1-cD 4e2q-a1-m1-cA_4e2q-a1-m1-cJ 4e2q-a1-m1-cB_4e2q-a1-m1-cC 4e2q-a1-m1-cB_4e2q-a1-m1-cI 4e2q-a1-m1-cC_4e2q-a1-m1-cG 4e2q-a1-m1-cD_4e2q-a1-m1-cK 4e2q-a1-m1-cG_4e2q-a1-m1-cI 4e2q-a1-m1-cJ_4e2q-a1-m1-cK 4e2q-a2-m1-cE_4e2q-a2-m1-cF 4e2q-a2-m1-cE_4e2q-a2-m1-cP 4e2q-a2-m1-cF_4e2q-a2-m1-cL 4e2q-a2-m1-cH_4e2q-a2-m1-cM 4e2q-a2-m1-cH_4e2q-a2-m1-cN 4e2q-a2-m1-cM_4e2q-a2-m1-cO 4e2q-a2-m1-cN_4e2q-a2-m1-cO 4e2s-a1-m1-cA_4e2s-a1-m1-cD 4e2s-a1-m1-cA_4e2s-a1-m1-cJ 4e2s-a1-m1-cB_4e2s-a1-m1-cC 4e2s-a1-m1-cB_4e2s-a1-m1-cI 4e2s-a1-m1-cC_4e2s-a1-m1-cG 4e2s-a1-m1-cD_4e2s-a1-m1-cK 4e2s-a1-m1-cG_4e2s-a1-m1-cI 4e2s-a1-m1-cJ_4e2s-a1-m1-cK 4e2s-a2-m1-cE_4e2s-a2-m1-cF 4e2s-a2-m1-cE_4e2s-a2-m1-cP 4e2s-a2-m1-cF_4e2s-a2-m1-cL 4e2s-a2-m1-cH_4e2s-a2-m1-cM 4e2s-a2-m1-cH_4e2s-a2-m1-cN 4e2s-a2-m1-cL_4e2s-a2-m1-cP 4e2s-a2-m1-cM_4e2s-a2-m1-cO 4e2s-a2-m1-cN_4e2s-a2-m1-cO PIYWKATNPTLSPSHLQDLPGFTRSVYKRDHALITPESHVYSPLPDWTNTLGAYLITPATGSHFVMYLAKMKEMSSSGLPPQDIERLIFVVEGAVTLTNSSSKKLTVDSYAYLPPNFHHSLDCVESATLVVFERRYEYLGSHTTELIVGSTDKQPLLETPGEVFELRKLLPMSVAYDFNIHTMDFQPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDNWYPVQAGDVIWMAPFVPQWYAALGKTRSRYLLYKDVNRNPL PIYWKATNPTLSPSHLQDLPGFTRSVYKRDHALITPESHVYSPLPDWTNTLGAYLITPATGSHFVMYLAKMKEMSSSGLPPQDIERLIFVVEGAVTLTNSSSKKLTVDSYAYLPPNFHHSLDCVESATLVVFERRYEYLGSHTTELIVGSTDKQPLLETPGEVFELRKLLPMSVAYDFNIHTMDFQPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDNWYPVQAGDVIWMAPFVPQWYAALGKTRSRYLLYKDVNRNPL 4e2q-a2-m1-cM_4e2q-a2-m1-cP Crystal Structure of (S)-Ureidoglycine Aminohydrolase from Arabidopsis thaliana Q8GXV5 Q8GXV5 2.5 X-RAY DIFFRACTION 32 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 258 258 4e2q-a1-m1-cA_4e2q-a1-m1-cB 4e2q-a1-m1-cC_4e2q-a1-m1-cD 4e2q-a1-m1-cG_4e2q-a1-m1-cK 4e2q-a1-m1-cI_4e2q-a1-m1-cJ 4e2q-a2-m1-cE_4e2q-a2-m1-cH 4e2q-a2-m1-cF_4e2q-a2-m1-cN 4e2q-a2-m1-cL_4e2q-a2-m1-cO 4e2s-a1-m1-cA_4e2s-a1-m1-cB 4e2s-a1-m1-cC_4e2s-a1-m1-cD 4e2s-a1-m1-cG_4e2s-a1-m1-cK 4e2s-a1-m1-cI_4e2s-a1-m1-cJ 4e2s-a2-m1-cE_4e2s-a2-m1-cH 4e2s-a2-m1-cF_4e2s-a2-m1-cN 4e2s-a2-m1-cL_4e2s-a2-m1-cO 4e2s-a2-m1-cM_4e2s-a2-m1-cP PIYWKATNPTLSPSHLQDLPGFTRSVYKRDHALITPESHVYSPLPDWTNTLGAYLITPATGSHFVMYLAKMKEMSSSGLPPQDIERLIFVVEGAVTLTNSSSKKLTVDSYAYLPPNFHHSLDCVESATLVVFERRYEYLGSHTTELIVGSTDKQPLLETPGEVFELRKLLPMSVAYDFNIHTMDFQPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDNWYPVQAGDVIWMAPFVPQWYAALGKTRSRYLLYKDVNRNPL PIYWKATNPTLSPSHLQDLPGFTRSVYKRDHALITPESHVYSPLPDWTNTLGAYLITPATGSHFVMYLAKMKEMSSSGLPPQDIERLIFVVEGAVTLTNSSSKKLTVDSYAYLPPNFHHSLDCVESATLVVFERRYEYLGSHTTELIVGSTDKQPLLETPGEVFELRKLLPMSVAYDFNIHTMDFQPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDNWYPVQAGDVIWMAPFVPQWYAALGKTRSRYLLYKDVNRNPL 4e2q-a2-m1-cO_4e2q-a2-m1-cP Crystal Structure of (S)-Ureidoglycine Aminohydrolase from Arabidopsis thaliana Q8GXV5 Q8GXV5 2.5 X-RAY DIFFRACTION 59 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 258 258 4e2q-a1-m1-cA_4e2q-a1-m1-cC 4e2q-a1-m1-cB_4e2q-a1-m1-cJ 4e2q-a1-m1-cD_4e2q-a1-m1-cG 4e2q-a1-m1-cI_4e2q-a1-m1-cK 4e2q-a2-m1-cE_4e2q-a2-m1-cM 4e2q-a2-m1-cF_4e2q-a2-m1-cH 4e2q-a2-m1-cL_4e2q-a2-m1-cN 4e2s-a1-m1-cA_4e2s-a1-m1-cC 4e2s-a1-m1-cB_4e2s-a1-m1-cJ 4e2s-a1-m1-cD_4e2s-a1-m1-cG 4e2s-a1-m1-cI_4e2s-a1-m1-cK 4e2s-a2-m1-cE_4e2s-a2-m1-cM 4e2s-a2-m1-cF_4e2s-a2-m1-cH 4e2s-a2-m1-cL_4e2s-a2-m1-cN 4e2s-a2-m1-cO_4e2s-a2-m1-cP PIYWKATNPTLSPSHLQDLPGFTRSVYKRDHALITPESHVYSPLPDWTNTLGAYLITPATGSHFVMYLAKMKEMSSSGLPPQDIERLIFVVEGAVTLTNSSSKKLTVDSYAYLPPNFHHSLDCVESATLVVFERRYEYLGSHTTELIVGSTDKQPLLETPGEVFELRKLLPMSVAYDFNIHTMDFQPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDNWYPVQAGDVIWMAPFVPQWYAALGKTRSRYLLYKDVNRNPL PIYWKATNPTLSPSHLQDLPGFTRSVYKRDHALITPESHVYSPLPDWTNTLGAYLITPATGSHFVMYLAKMKEMSSSGLPPQDIERLIFVVEGAVTLTNSSSKKLTVDSYAYLPPNFHHSLDCVESATLVVFERRYEYLGSHTTELIVGSTDKQPLLETPGEVFELRKLLPMSVAYDFNIHTMDFQPGEFLNVKEVHYNQHGLLLLEGQGIYRLGDNWYPVQAGDVIWMAPFVPQWYAALGKTRSRYLLYKDVNRNPL 4e37-a1-m1-cA_4e37-a1-m1-cD Crystal Structure of P. aeruginosa catalase, KatA tetramer O52762 O52762 2.53 X-RAY DIFFRACTION 315 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 478 479 4e37-a1-m1-cC_4e37-a1-m1-cB EKTRLTTAAGAPVVDNQNVQTAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSAAYGTFTVTHDITPYTRAKIFSQVGKKTDMFLRFSTVAGERGAADAERDIRGFSMRFYTEQGNWDLVGNNTPVFYLRDPLKFPDLNHVVKRDPRTNLRNATFKWDFFSHLPESLHQLTIDFSDRGLPKSYRHIHGFGSHTFSFINANNERFWVKFHFKTQQGIENLTNAEAAEVIAQDRESSQRDLYESIEKGDFPRWKMYVQIMPEKEAATYRYNPFDLTKVWPHGDYPLIEVGFFELNRNPDNYFAEVEQAAFTPANVVPGIGFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAARCPHQVYHRDGGMRVDGNNAHQRVTYEPNSFNQWQEQPDFSEPPLSLEGAADHWNHRVDDDYYSQPAALFHLFTDEQKQRLFANIAEDIRDVPEQIQRRQIGLFLKVDPAYGKGVADALGLKL EKTRLTTAAGAPVVDNQNVQTAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSAAYGTFTVTHDITPYTRAKIFSQVGKKTDMFLRFSTVAGERGAADAERDIRGFSMRFYTEQGNWDLVGNNTPVFYLRDPLKFPDLNHVVKRDPRTNLRNATFKWDFFSHLPESLHQLTIDFSDRGLPKSYRHIHGFGSHTFSFINANNERFWVKFHFKTQQGIENLTNAEAAEVIAQDRESSQRDLYESIEKGDFPRWKMYVQIMPEKEAATYRYNPFDLTKVWPHGDYPLIEVGFFELNRNPDNYFAEVEQAAFTPANVVPGIGFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAARCPHQVYHRDGGMRVDGNNAHQRVTYEPNSFNQWQEQPDFSEPPLSLEGAADHWNHRVDDDYYSQPAALFHLFTDEQKQRLFANIAEDIRDVPEQIQRRQIGLFLKVDPAYGKGVADALGLKLD 4e37-a1-m1-cB_4e37-a1-m1-cD Crystal Structure of P. aeruginosa catalase, KatA tetramer O52762 O52762 2.53 X-RAY DIFFRACTION 132 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 479 479 4e37-a1-m1-cA_4e37-a1-m1-cC EKTRLTTAAGAPVVDNQNVQTAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSAAYGTFTVTHDITPYTRAKIFSQVGKKTDMFLRFSTVAGERGAADAERDIRGFSMRFYTEQGNWDLVGNNTPVFYLRDPLKFPDLNHVVKRDPRTNLRNATFKWDFFSHLPESLHQLTIDFSDRGLPKSYRHIHGFGSHTFSFINANNERFWVKFHFKTQQGIENLTNAEAAEVIAQDRESSQRDLYESIEKGDFPRWKMYVQIMPEKEAATYRYNPFDLTKVWPHGDYPLIEVGFFELNRNPDNYFAEVEQAAFTPANVVPGIGFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAARCPHQVYHRDGGMRVDGNNAHQRVTYEPNSFNQWQEQPDFSEPPLSLEGAADHWNHRVDDDYYSQPAALFHLFTDEQKQRLFANIAEDIRDVPEQIQRRQIGLFLKVDPAYGKGVADALGLKLD EKTRLTTAAGAPVVDNQNVQTAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSAAYGTFTVTHDITPYTRAKIFSQVGKKTDMFLRFSTVAGERGAADAERDIRGFSMRFYTEQGNWDLVGNNTPVFYLRDPLKFPDLNHVVKRDPRTNLRNATFKWDFFSHLPESLHQLTIDFSDRGLPKSYRHIHGFGSHTFSFINANNERFWVKFHFKTQQGIENLTNAEAAEVIAQDRESSQRDLYESIEKGDFPRWKMYVQIMPEKEAATYRYNPFDLTKVWPHGDYPLIEVGFFELNRNPDNYFAEVEQAAFTPANVVPGIGFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAARCPHQVYHRDGGMRVDGNNAHQRVTYEPNSFNQWQEQPDFSEPPLSLEGAADHWNHRVDDDYYSQPAALFHLFTDEQKQRLFANIAEDIRDVPEQIQRRQIGLFLKVDPAYGKGVADALGLKLD 4e37-a1-m1-cC_4e37-a1-m1-cD Crystal Structure of P. aeruginosa catalase, KatA tetramer O52762 O52762 2.53 X-RAY DIFFRACTION 279 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 478 479 4e37-a1-m1-cA_4e37-a1-m1-cB KTRLTTAAGAPVVDNQNVQTAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSAAYGTFTVTHDITPYTRAKIFSQVGKKTDMFLRFSTVAGERGAADAERDIRGFSMRFYTEQGNWDLVGNNTPVFYLRDPLKFPDLNHVVKRDPRTNLRNATFKWDFFSHLPESLHQLTIDFSDRGLPKSYRHIHGFGSHTFSFINANNERFWVKFHFKTQQGIENLTNAEAAEVIAQDRESSQRDLYESIEKGDFPRWKMYVQIMPEKEAATYRYNPFDLTKVWPHGDYPLIEVGFFELNRNPDNYFAEVEQAAFTPANVVPGIGFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAARCPHQVYHRDGGMRVDGNNAHQRVTYEPNSFNQWQEQPDFSEPPLSLEGAADHWNHRVDDDYYSQPAALFHLFTDEQKQRLFANIAEDIRDVPEQIQRRQIGLFLKVDPAYGKGVADALGLKLD EKTRLTTAAGAPVVDNQNVQTAGPRGPMLLQDVWFLEKLAHFDREVIPERRHAKGSAAYGTFTVTHDITPYTRAKIFSQVGKKTDMFLRFSTVAGERGAADAERDIRGFSMRFYTEQGNWDLVGNNTPVFYLRDPLKFPDLNHVVKRDPRTNLRNATFKWDFFSHLPESLHQLTIDFSDRGLPKSYRHIHGFGSHTFSFINANNERFWVKFHFKTQQGIENLTNAEAAEVIAQDRESSQRDLYESIEKGDFPRWKMYVQIMPEKEAATYRYNPFDLTKVWPHGDYPLIEVGFFELNRNPDNYFAEVEQAAFTPANVVPGIGFSPDKMLQGRLFSYGDAHRYRLGVNHHQIPVNAARCPHQVYHRDGGMRVDGNNAHQRVTYEPNSFNQWQEQPDFSEPPLSLEGAADHWNHRVDDDYYSQPAALFHLFTDEQKQRLFANIAEDIRDVPEQIQRRQIGLFLKVDPAYGKGVADALGLKLD 4e38-a1-m1-cB_4e38-a1-m1-cC Crystal structure of probable keto-hydroxyglutarate-aldolase from Vibrionales bacterium SWAT-3 (Target EFI-502156) A5KUH7 A5KUH7 1.64 X-RAY DIFFRACTION 55 1.0 391574 (Vibrionales bacterium SWAT-3) 391574 (Vibrionales bacterium SWAT-3) 213 227 4e38-a1-m1-cA_4e38-a1-m1-cB 4e38-a1-m1-cA_4e38-a1-m1-cC 5im5-a1-m1-c1_5im5-a1-m1-c2 5im5-a1-m1-c1_5im5-a1-m1-c4 5im5-a1-m1-c2_5im5-a1-m1-c4 5im5-a1-m1-c3_5im5-a1-m1-cL 5im5-a1-m1-c3_5im5-a1-m1-cR 5im5-a1-m1-cL_5im5-a1-m1-cR 5im5-a1-m1-cN_5im5-a1-m1-cP 5im5-a1-m1-cN_5im5-a1-m1-cT 5im5-a1-m1-cP_5im5-a1-m1-cT 5im5-a1-m1-cU_5im5-a1-m1-cV 5im5-a1-m1-cU_5im5-a1-m1-cW 5im5-a1-m1-cV_5im5-a1-m1-cW 5im5-a1-m1-cX_5im5-a1-m1-cY 5im5-a1-m1-cX_5im5-a1-m1-cZ 5im5-a1-m1-cY_5im5-a1-m1-cZ 5im5-a1-m2-c1_5im5-a1-m2-c2 5im5-a1-m2-c1_5im5-a1-m2-c4 5im5-a1-m2-c2_5im5-a1-m2-c4 5im5-a1-m2-c3_5im5-a1-m2-cL 5im5-a1-m2-c3_5im5-a1-m2-cR 5im5-a1-m2-cL_5im5-a1-m2-cR 5im5-a1-m2-cN_5im5-a1-m2-cP 5im5-a1-m2-cN_5im5-a1-m2-cT 5im5-a1-m2-cP_5im5-a1-m2-cT 5im5-a1-m2-cU_5im5-a1-m2-cV 5im5-a1-m2-cU_5im5-a1-m2-cW 5im5-a1-m2-cV_5im5-a1-m2-cW 5im5-a1-m2-cX_5im5-a1-m2-cY 5im5-a1-m2-cX_5im5-a1-m2-cZ 5im5-a1-m2-cY_5im5-a1-m2-cZ 5im5-a1-m3-c1_5im5-a1-m3-c2 5im5-a1-m3-c1_5im5-a1-m3-c4 5im5-a1-m3-c2_5im5-a1-m3-c4 5im5-a1-m3-c3_5im5-a1-m3-cL 5im5-a1-m3-c3_5im5-a1-m3-cR 5im5-a1-m3-cL_5im5-a1-m3-cR 5im5-a1-m3-cN_5im5-a1-m3-cP 5im5-a1-m3-cN_5im5-a1-m3-cT 5im5-a1-m3-cP_5im5-a1-m3-cT 5im5-a1-m3-cU_5im5-a1-m3-cV 5im5-a1-m3-cU_5im5-a1-m3-cW 5im5-a1-m3-cV_5im5-a1-m3-cW 5im5-a1-m3-cX_5im5-a1-m3-cY 5im5-a1-m3-cX_5im5-a1-m3-cZ 5im5-a1-m3-cY_5im5-a1-m3-cZ 5im5-a1-m4-c1_5im5-a1-m4-c2 5im5-a1-m4-c1_5im5-a1-m4-c4 5im5-a1-m4-c2_5im5-a1-m4-c4 5im5-a1-m4-c3_5im5-a1-m4-cL 5im5-a1-m4-c3_5im5-a1-m4-cR 5im5-a1-m4-cL_5im5-a1-m4-cR 5im5-a1-m4-cN_5im5-a1-m4-cP 5im5-a1-m4-cN_5im5-a1-m4-cT 5im5-a1-m4-cP_5im5-a1-m4-cT 5im5-a1-m4-cU_5im5-a1-m4-cV 5im5-a1-m4-cU_5im5-a1-m4-cW 5im5-a1-m4-cV_5im5-a1-m4-cW 5im5-a1-m4-cX_5im5-a1-m4-cY 5im5-a1-m4-cX_5im5-a1-m4-cZ 5im5-a1-m4-cY_5im5-a1-m4-cZ FQSMMSTINNQLKALKVIPVIAIDNAEDIIPLGKVLAENGLPAAEITFRSDAAVEAIRLLRQAQPEMLIGAGTILNGEQALAAKEAGATFVVSPGFNPNTVRACQEIGIDIVPGVNNPSTVEAALEMGLTTLKFFPAEASGGISMVKSLVGPYGDIRLMPTGGITPSNIDNYLAIPQVLACGGTWMVDKKLVTNGEWDEIARLTREIVEQVNP HHSSGVDLGTENLYFQSMMSTINNQLKALKVIPVIAIDNAEDIIPLGKVLAENGLPAAEITFRSDAAVEAIRLLRQAQPEMLIGAGTILNGEQALAAKEAGATFVVSPGFNPNTVRACQEIGIDIVPGVNNPSTVEAALEMGLTTLKFFPAEASGGISMVKSLVGPYGDIRLMPTGGITPSNIDNYLAIPQVLACGGTWMVDKKLVTNGEWDEIARLTREIVEQVNP 4e3c-a3-m1-cD_4e3c-a3-m1-cE X-ray crystal structure of human IKK2 in an active conformation O14920 O14920 3.98 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 624 624 4e3c-a1-m1-cA_4e3c-a1-m1-cF EMKERLGTGGFGNVIRWHNQETGEQIAIKQCRQELSPRNRERWCLEIQIMRRLTHPNVVAARDVPEGMQNLAPNDLPLLAMEYCQGGDLRKYLNQFENCCGLREGAILTLLSDIASALRYLHENRIIHRDLKPENIVLQQGEQRLIHKIIDLGYAKELDQGELCTEFVGTLQYLAPELLEQQKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHSKVRQKSEVDIVVSEDLNGTVKFSSSLPYPNNLNSVLAERLEKWLQLMLMWHPRTDPTYGPNGCFKALDDILNLKLVHILNMVTGTIHTYPVTEDESLQSLKARIQQDTGIPEEDQELLQEAGLALIPDKPATQCISDDMDLVFLFDNSKISPRPQPESVSCILQEPKRNLAFFQLRKVWGQVWHSIQTLKEDCNRLQQGQRAAMMNLLRNNSCLSKMKNSMASMSQQLKAKLDFFKTSIQIDLEKYSEQTEFGITSDKLLLAWREMEQAVELCGRENEVKLLVERMMALQTDIVDLQRSTLDDLEEQARELYRRLREKPRDQRTEGDSQEMVRLLLQAIQSFEKKVRVIYTQLSKTVVCKQKALELLPKVEEVVSLMNEDEKTVVRLQEKRQKELWNLLKIACSKV EMKERLGTGGFGNVIRWHNQETGEQIAIKQCRQELSPRNRERWCLEIQIMRRLTHPNVVAARDVPEGMQNLAPNDLPLLAMEYCQGGDLRKYLNQFENCCGLREGAILTLLSDIASALRYLHENRIIHRDLKPENIVLQQGEQRLIHKIIDLGYAKELDQGELCTEFVGTLQYLAPELLEQQKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHSKVRQKSEVDIVVSEDLNGTVKFSSSLPYPNNLNSVLAERLEKWLQLMLMWHPRTDPTYGPNGCFKALDDILNLKLVHILNMVTGTIHTYPVTEDESLQSLKARIQQDTGIPEEDQELLQEAGLALIPDKPATQCISDDMDLVFLFDNSKISPRPQPESVSCILQEPKRNLAFFQLRKVWGQVWHSIQTLKEDCNRLQQGQRAAMMNLLRNNSCLSKMKNSMASMSQQLKAKLDFFKTSIQIDLEKYSEQTEFGITSDKLLLAWREMEQAVELCGRENEVKLLVERMMALQTDIVDLQRSTLDDLEEQARELYRRLREKPRDQRTEGDSQEMVRLLLQAIQSFEKKVRVIYTQLSKTVVCKQKALELLPKVEEVVSLMNEDEKTVVRLQEKRQKELWNLLKIACSKV 4e3e-a2-m2-cB_4e3e-a2-m3-cB CRYSTAL STRUCTURE OF putative MaoC domain protein dehydratase from Chloroflexus aurantiacus J-10-fl A9WC34 A9WC34 1.9 X-RAY DIFFRACTION 123 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 347 347 4e3e-a1-m1-cA_4e3e-a1-m2-cA 4e3e-a1-m1-cA_4e3e-a1-m3-cA 4e3e-a1-m2-cA_4e3e-a1-m3-cA 4e3e-a2-m1-cB_4e3e-a2-m2-cB 4e3e-a2-m1-cB_4e3e-a2-m3-cB SAKTNPGNFFEDFRLGQTIVHATPRTITEGDVALYTSLYGSRFALTSSTPFAQSLGLERAPIDSLLVFHIVFGKTVPDISLNAIANLGYAGGRFGAVVYPGDTLSTTSKVIGLRQNKDGKTGVVYVHSVGVNQWDEVVLEYIRWVVRKRDPNAPAPETVVPDLPDSVPVTDLTVPYTVSAANYNLAHAGSNYLWDDYEVGEKIDHVDGVTIEEAEHQATRLYQNTARVHFNLHVEREGRFGRRIVYGGHIISLARSLSFNGLANALSIAAINSGRHTNPSFAGDTIYAWSEILAKAIPGRTDIGALRVRTVATKDRPCHDFPYRDAEGNYDPAVVLDFDYTVLPRRG SAKTNPGNFFEDFRLGQTIVHATPRTITEGDVALYTSLYGSRFALTSSTPFAQSLGLERAPIDSLLVFHIVFGKTVPDISLNAIANLGYAGGRFGAVVYPGDTLSTTSKVIGLRQNKDGKTGVVYVHSVGVNQWDEVVLEYIRWVVRKRDPNAPAPETVVPDLPDSVPVTDLTVPYTVSAANYNLAHAGSNYLWDDYEVGEKIDHVDGVTIEEAEHQATRLYQNTARVHFNLHVEREGRFGRRIVYGGHIISLARSLSFNGLANALSIAAINSGRHTNPSFAGDTIYAWSEILAKAIPGRTDIGALRVRTVATKDRPCHDFPYRDAEGNYDPAVVLDFDYTVLPRRG 4e3q-a3-m1-cA_4e3q-a3-m1-cD PMP-bound form of Aminotransferase crystal structure from Vibrio fluvialis F2XBU9 F2XBU9 1.9 X-RAY DIFFRACTION 18 1.0 676 (Vibrio fluvialis) 676 (Vibrio fluvialis) 439 439 4e3q-a3-m1-cB_4e3q-a3-m1-cC 4e3r-a3-m1-cC_4e3r-a3-m1-cB 4e3r-a3-m1-cD_4e3r-a3-m1-cA NKPQSWEARAETYSLYGFTDPSLHQRGTVVVTHGEGPYIVDVNGRRYLDANSGLWNVAGFDHKGLIDAAKAQYERFPGYHAFFGRSDQTVLSEKLVEVSPFDSGRVFYTNSGSEANDTVKLWFLHAAEGKPQKRKILTRWNAYHGVTAVSASTGKPYNSVFGLPLPGFVHLTCPHYWRYGEEGETEEQFVARLARELEETIQREGADTIAGFFAEPVGAGGVIPPAKGYFQAILPILRKYDIPVISDEVICGFGRTGNTWGCVTYDFTPDAIISSKNLTAGFFPGAVILGPELSKRLETAIEAIEEFPHGFTASGHPVGCAIALKAIDVVNEGLAENVRRLAPRFEERLKHIAERPNIGEYRGIGFWALEAVKDKASKTPFDGNLSVSERIANTCTDLGLICRPLGQSVVLCPPFILTEAQDEFDKLEKALDKVFAEVA NKPQSWEARAETYSLYGFTDPSLHQRGTVVVTHGEGPYIVDVNGRRYLDANSGLWNVAGFDHKGLIDAAKAQYERFPGYHAFFGRSDQTVLSEKLVEVSPFDSGRVFYTNSGSEANDTVKLWFLHAAEGKPQKRKILTRWNAYHGVTAVSASTGKPYNSVFGLPLPGFVHLTCPHYWRYGEEGETEEQFVARLARELEETIQREGADTIAGFFAEPVGAGGVIPPAKGYFQAILPILRKYDIPVISDEVICGFGRTGNTWGCVTYDFTPDAIISSKNLTAGFFPGAVILGPELSKRLETAIEAIEEFPHGFTASGHPVGCAIALKAIDVVNEGLAENVRRLAPRFEERLKHIAERPNIGEYRGIGFWALEAVKDKASKTPFDGNLSVSERIANTCTDLGLICRPLGQSVVLCPPFILTEAQDEFDKLEKALDKVFAEVA 4e3r-a3-m1-cA_4e3r-a3-m1-cB PLP-bound aminotransferase mutant crystal structure from Vibrio fluvialis F2XBU9 F2XBU9 1.9 X-RAY DIFFRACTION 391 1.0 676 (Vibrio fluvialis) 676 (Vibrio fluvialis) 451 451 3nui-a1-m1-cB_3nui-a1-m1-cA 4e3q-a1-m1-cB_4e3q-a1-m1-cA 4e3q-a2-m1-cC_4e3q-a2-m1-cD 4e3q-a3-m1-cB_4e3q-a3-m1-cA 4e3q-a3-m1-cC_4e3q-a3-m1-cD 4e3r-a1-m1-cA_4e3r-a1-m1-cB 4e3r-a2-m1-cC_4e3r-a2-m1-cD 4e3r-a3-m1-cC_4e3r-a3-m1-cD 4grx-a1-m1-cA_4grx-a1-m1-cB 4grx-a2-m1-cC_4grx-a2-m1-cD NKPQSWEARAETYSLYGWTDMPSLHQRGTVVVTHGEGPYIVDVNGRRYLDANSGLFNMVAGFDHKGLIDAAKAQYERFPGYHAAFGKMSDQTVMLSEKLVEVSPFDSGRVFYTNSGSEANDTMVKMLWFLHAAEGKPQKRKILTRWNAYHGATAVSASMTGFPYNSVFGLPLPGFVHLTCPHYWRYGEEGETEEQFVARLARELEETIQREGADTIAGFFAEPVMGAGGVIPPAKGYFQAILPILRKYDIPVISDEVVCGFGRTGNTWGCVTYDFTPDAIISSNLTAGFFPMGAVILGPELSKRLETAIEAIEEFPHGFTASGHPVGCAIALKAIDVVMNEGLAENVRRLAPRFEERLKHIAERPNIGEYRGIGFMWALEAVKDKASKTPFDGNLSVSERIANTCTDLGLICFPLGQSVVLCPPFILTEAQMDEMFDKLEKALDKVFAEVA NKPQSWEARAETYSLYGWTDMPSLHQRGTVVVTHGEGPYIVDVNGRRYLDANSGLFNMVAGFDHKGLIDAAKAQYERFPGYHAAFGKMSDQTVMLSEKLVEVSPFDSGRVFYTNSGSEANDTMVKMLWFLHAAEGKPQKRKILTRWNAYHGATAVSASMTGFPYNSVFGLPLPGFVHLTCPHYWRYGEEGETEEQFVARLARELEETIQREGADTIAGFFAEPVMGAGGVIPPAKGYFQAILPILRKYDIPVISDEVVCGFGRTGNTWGCVTYDFTPDAIISSNLTAGFFPMGAVILGPELSKRLETAIEAIEEFPHGFTASGHPVGCAIALKAIDVVMNEGLAENVRRLAPRFEERLKHIAERPNIGEYRGIGFMWALEAVKDKASKTPFDGNLSVSERIANTCTDLGLICFPLGQSVVLCPPFILTEAQMDEMFDKLEKALDKVFAEVA 4e3x-a1-m1-cA_4e3x-a1-m1-cB Crystal Structure of Mus musculus 1-pyrroline-5-carboxylate dehydrogenase cryoprotected in proline Q8CHT0 Q8CHT0 1.24 X-RAY DIFFRACTION 289 1.0 10090 (Mus musculus) 10090 (Mus musculus) 543 546 3v9g-a2-m1-cC_3v9g-a2-m1-cD 3v9h-a1-m1-cA_3v9h-a1-m1-cB 3v9h-a2-m1-cD_3v9h-a2-m1-cC 3v9j-a1-m1-cA_3v9j-a1-m1-cB 3v9k-a1-m1-cA_3v9k-a1-m1-cB 3v9l-a1-m1-cA_3v9l-a1-m1-cB 4lgz-a1-m1-cA_4lgz-a1-m1-cB 4lh0-a1-m1-cA_4lh0-a1-m1-cB 4lh1-a1-m1-cA_4lh1-a1-m1-cB 4lh2-a1-m1-cA_4lh2-a1-m1-cB 4lh3-a1-m1-cA_4lh3-a1-m1-cB 7mer-a1-m1-cA_7mer-a1-m1-cB 7mes-a1-m1-cA_7mes-a1-m1-cB HMLRWKHTSSLKVANEPILAFSQGSPERDALQKALKDLKGQTEAIPCVVGDEEVWTSDIQYQLSPFNHAHKVAKFCYADKALLNRAIDAALAARKEWDLKPMADRAQVFLKAADMLSGPRRAEVLAKTMVGQGKTVIQAEIDAAAELIDFFRFNAKFAVELEGEQPISVPPSTNHTVYRGLEGFVAAISPFNFTAIGGNLAGAPALMGNVVLWKPSDTAMLASYAVYRILREAGLPPNIIQFVPADGPTFGDTVTSSEHLCGINFTGSVPTFKHLWRQVAQNLDRFRTFPRLAGECGGKNFHFVHSSADVDSVVSGTLRSAFEYGGQKCSACSRLYVPKSLWPQIKGRLLEEHSRIKVGDPAEDFGTFFSAVIDAKAFARIKKWLEHARSSPSLSILAGGQCNESVGYYVEPCIIESKDPQEPIMKEEIFGPVLTVYVYPDDKYRETLKLVDSTTSYGLTGAVFAQDKAIVQEATRMLRNAAGNFYINDKSTGSVVGQQPFGGARASGTNDKPGGPHYILRWTSPQVIKETHKPLGDWRYSYM GSHMLRWKHTSSLKVANEPILAFSQGSPERDALQKALKDLKGQTEAIPCVVGDEEVWTSDIQYQLSPFNHAHKVAKFCYADKALLNRAIDAALAARKEWDLKPMADRAQVFLKAADMLSGPRRAEVLAKTMVGQGKTVIQAEIDAAAELIDFFRFNAKFAVELEGEQPISVPPSTNHTVYRGLEGFVAAISPFNFTAIGGNLAGAPALMGNVVLWKPSDTAMLASYAVYRILREAGLPPNIIQFVPADGPTFGDTVTSSEHLCGINFTGSVPTFKHLWRQVAQNLDRFRTFPRLAGECGGKNFHFVHSSADVDSVVSGTLRSAFEYGGQKCSACSRLYVPKSLWPQIKGRLLEEHSRIKVGDPAEDFGTFFSAVIDAKAFARIKKWLEHARSSPSLSILAGGQCNESVGYYVEPCIIESKDPQEPIMKEEIFGPVLTVYVYPDDKYRETLKLVDSTTSYGLTGAVFAQDKAIVQEATRMLRNAAGNFYINDKSTGSVVGQQPFGGARASGTNDKPGGPHYILRWTSPQVIKETHKPLGDWRYSYMQ 4e3z-a2-m1-cB_4e3z-a2-m2-cB Crystal Structure of a oxidoreductase from Rhizobium etli CFN 42 Q2K3F6 Q2K3F6 2 X-RAY DIFFRACTION 96 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 221 221 4e3z-a2-m1-cA_4e3z-a2-m2-cA TPVVLVTGGSRGIGAAVCRLAARQGWRVGVNYAANREAADAVVAAITESGGEAVAIPGDVGNAADIAAFSAVDRQFGRLDGLVNNAGIVDYPQRVDESVERIERLRVNVTGSILCAAEAVRRSRLYSGQGGAIVNVSSAAILGSATQYVDYAASKAAIDTFTIGLAREVAAEGIRVNAVRPGIIEVPQRAGPEEVADAILYLLSPSASYVTGSILNVSGGR TPVVLVTGGSRGIGAAVCRLAARQGWRVGVNYAANREAADAVVAAITESGGEAVAIPGDVGNAADIAAFSAVDRQFGRLDGLVNNAGIVDYPQRVDESVERIERLRVNVTGSILCAAEAVRRSRLYSGQGGAIVNVSSAAILGSATQYVDYAASKAAIDTFTIGLAREVAAEGIRVNAVRPGIIEVPQRAGPEEVADAILYLLSPSASYVTGSILNVSGGR 4e3z-a2-m2-cB_4e3z-a2-m2-cA Crystal Structure of a oxidoreductase from Rhizobium etli CFN 42 Q2K3F6 Q2K3F6 2 X-RAY DIFFRACTION 138 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 221 224 4e3z-a1-m1-cB_4e3z-a1-m1-cA 4e3z-a2-m1-cB_4e3z-a2-m1-cA TPVVLVTGGSRGIGAAVCRLAARQGWRVGVNYAANREAADAVVAAITESGGEAVAIPGDVGNAADIAAFSAVDRQFGRLDGLVNNAGIVDYPQRVDESVERIERLRVNVTGSILCAAEAVRRSRLYSGQGGAIVNVSSAAILGSATQYVDYAASKAAIDTFTIGLAREVAAEGIRVNAVRPGIIEVPQRAGPEEVADAILYLLSPSASYVTGSILNVSGGR SDTPVVLVTGGSRGIGAAVCRLAARQGWRVGVNYAANREAADAVVAAITESGGEAVAIPGDVGNAADIAAFSAVDRQFGRLDGLVNNAGIVDYPQRVDESVERIERLRVNVTGSILCAAEAVRRSRLYSGQGGAIVNVSSAAILGSATQYVDYAASKAAIDTFTIGLAREVAAEGIRVNAVRPGIIESVPQRAGPEEVADAILYLLSPSASYVTGSILNVSGGR 4e40-a2-m1-cA_4e40-a2-m2-cA The haptoglobin-hemoglobin receptor of Trypanosoma congolense G0UVW6 G0UVW6 1.6 X-RAY DIFFRACTION 77 1.0 1068625 (Trypanosoma congolense IL3000) 1068625 (Trypanosoma congolense IL3000) 245 245 GEIKVELEDSDDVAAACELRAQLAGVSIASGILLRPAVIRNATTEFSRKKSEDILAKGGAAVERASAAVDRVSGLDKTNETAQKVRKAAAVAHHALEHVKEEVEIVAKKVNEIIELTAGATEHAKGAKANGDASAVKVSNLLARAKESENQYVKEAAEECSESTNYDVTAKSLAAALDKLPGVKEDNAVKTTFQSILTSLDNLDKDVKSVEQRAEELETALEKAERQLEKAEKAAEEAETESSKV GEIKVELEDSDDVAAACELRAQLAGVSIASGILLRPAVIRNATTEFSRKKSEDILAKGGAAVERASAAVDRVSGLDKTNETAQKVRKAAAVAHHALEHVKEEVEIVAKKVNEIIELTAGATEHAKGAKANGDASAVKVSNLLARAKESENQYVKEAAEECSESTNYDVTAKSLAAALDKLPGVKEDNAVKTTFQSILTSLDNLDKDVKSVEQRAEELETALEKAERQLEKAEKAAEEAETESSKV 4e4c-a1-m1-cA_4e4c-a1-m2-cA Crystal structure of Notexin at 1.8 A resolution P00608 P00608 1.8 X-RAY DIFFRACTION 12 1.0 70142 (Notechis scutatus scutatus) 70142 (Notechis scutatus scutatus) 118 118 NLVQFSYLIQCANHGKRPTWHYMDYGCYCGAGGSGTPVDELDRCCKIHDDCYDEAGKKGCFPKMSAYDYYCGENGPYCRNIKKKCLRFVCDCDVEAAFCFAKAPYNNANWNIDTKKRC NLVQFSYLIQCANHGKRPTWHYMDYGCYCGAGGSGTPVDELDRCCKIHDDCYDEAGKKGCFPKMSAYDYYCGENGPYCRNIKKKCLRFVCDCDVEAAFCFAKAPYNNANWNIDTKKRC 4e4e-a1-m1-cA_4e4e-a1-m1-cC Crystal Structure of the Y34F mutant of Saccharomyces cerevisiae Manganese Superoxide Dismutase P00447 P00447 1.88 X-RAY DIFFRACTION 24 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 190 190 3bfr-a1-m1-cA_3bfr-a1-m4-cA 3bfr-a1-m2-cA_3bfr-a1-m3-cA 3lsu-a1-m1-cA_3lsu-a1-m1-cC 3lsu-a1-m1-cB_3lsu-a1-m1-cD 3rn4-a1-m1-cA_3rn4-a1-m4-cA 3rn4-a1-m2-cA_3rn4-a1-m3-cA 4e4e-a1-m1-cD_4e4e-a1-m1-cB 4f6e-a1-m1-cA_4f6e-a1-m1-cC 4f6e-a1-m1-cB_4f6e-a1-m1-cD VTLPDLWDFGALEPYISGQINELHYTHHQTFVNGFNTAVDQFQELSDLLAEPSPANARMIAIQQNIFHGGGFTNHCLFWENLAPESQGGGEPPTGALAAIDEQFGSLDELILTNTLAGVQGSGWAFIVNLSNGGLDVVQTYNQDTVTGPLVPLVAIDAWEHAYYLQYQNADYFAIWNVVNWEASRRFDAG VTLPDLWDFGALEPYISGQINELHYTHHQTFVNGFNTAVDQFQELSDLLAEPSPANARMIAIQQNIFHGGGFTNHCLFWENLAPESQGGGEPPTGALAAIDEQFGSLDELILTNTLAGVQGSGWAFIVNLSNGGLDVVQTYNQDTVTGPLVPLVAIDAWEHAYYLQYQNADYFAIWNVVNWEASRRFDAG 4e4e-a1-m1-cD_4e4e-a1-m1-cA Crystal Structure of the Y34F mutant of Saccharomyces cerevisiae Manganese Superoxide Dismutase P00447 P00447 1.88 X-RAY DIFFRACTION 70 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 188 190 3bfr-a1-m1-cA_3bfr-a1-m2-cA 3bfr-a1-m3-cA_3bfr-a1-m4-cA 3lsu-a1-m1-cA_3lsu-a1-m1-cD 3lsu-a1-m1-cC_3lsu-a1-m1-cB 3rn4-a1-m1-cA_3rn4-a1-m3-cA 3rn4-a1-m2-cA_3rn4-a1-m4-cA 4e4e-a1-m1-cC_4e4e-a1-m1-cB 4f6e-a1-m1-cB_4f6e-a1-m1-cC 4f6e-a1-m1-cD_4f6e-a1-m1-cA VTLPDLWDFGALEPYISGQINELHYTHHQTFVNGFNTAVDQFQELSDLLAEPSPANARMIAIQQNIFHGGGFTNHCLFWENLAPESQGGGEPPTGALAAIDEQFGSLDELILTNTLAGVQGSGWAFIVNLSNGGLDVVQTYNQDTVTGPLVPLVAIDAWEHAYYLQYQNADYFAIWNVVNWEASRRFD VTLPDLWDFGALEPYISGQINELHYTHHQTFVNGFNTAVDQFQELSDLLAEPSPANARMIAIQQNIFHGGGFTNHCLFWENLAPESQGGGEPPTGALAAIDEQFGSLDELILTNTLAGVQGSGWAFIVNLSNGGLDVVQTYNQDTVTGPLVPLVAIDAWEHAYYLQYQNADYFAIWNVVNWEASRRFDAG 4e4f-a1-m2-cA_4e4f-a1-m2-cD Crystal structure of enolase PC1_0802 (TARGET EFI-502240) from Pectobacterium carotovorum subsp. carotovorum PC1 C6D9S0 C6D9S0 2 X-RAY DIFFRACTION 139 1.0 561230 (Pectobacterium carotovorum subsp. carotovorum PC1) 561230 (Pectobacterium carotovorum subsp. carotovorum PC1) 386 388 4e4f-a1-m1-cA_4e4f-a1-m1-cD 4e4f-a1-m1-cB_4e4f-a1-m1-cC 4e4f-a1-m2-cB_4e4f-a1-m2-cC SMKIVSAEVFVTCPGRNFVTLKITTDSGLTGLGDATLNGRELPVASYLNDHVCPQLIGRDAHQIEDIWQYFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASRTGVMVYCHTTGHSIDEVLDDYAKHRDQGFKAIRVQCEPATKGSLPEEQLWSTEKYLDFTPKLFEAVRDKFGFNEHLLHDMHHRLTPIEAARFGKSVEDYRLFWMEDPTPAENQACFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTITHAGGITGMRRIADFASLYQVRTGSHGPSDLSPICMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHSWTFDNGYMHPGEKPGLGIEFDEKLAAKYPYDPAYLPVARLEDGTLWNW FQSMKIVSAEVFVTCPGRNFVTLKITTDSGLTGLGDATLNGRELPVASYLNDHVCPQLIGRDAHQIEDIWQYFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASRTGVMVYCHTTGHSIDEVLDDYAKHRDQGFKAIRVQCEPATKGSLPEEQLWSTEKYLDFTPKLFEAVRDKFGFNEHLLHDMHHRLTPIEAARFGKSVEDYRLFWMEDPTPAENQACFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTITHAGGITGMRRIADFASLYQVRTGSHGPSDLSPICMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHSWTFDNGYMHPGEKPGLGIEFDEKLAAKYPYDPAYLPVARLEDGTLWNW 4e4f-a1-m2-cB_4e4f-a1-m2-cD Crystal structure of enolase PC1_0802 (TARGET EFI-502240) from Pectobacterium carotovorum subsp. carotovorum PC1 C6D9S0 C6D9S0 2 X-RAY DIFFRACTION 79 1.0 561230 (Pectobacterium carotovorum subsp. carotovorum PC1) 561230 (Pectobacterium carotovorum subsp. carotovorum PC1) 381 388 4e4f-a1-m1-cB_4e4f-a1-m1-cD 4e4f-a1-m1-cC_4e4f-a1-m2-cA 4e4f-a1-m2-cC_4e4f-a1-m1-cA SMKIVSAEVFVTCPGRNFVTLKITTDSGLTGLGDATLNGRELPVASYLNDHVCPQLIGRDAHQIEDIWQYFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASRTGVMVYCHTTGHSIDEVLDDYAKHRDQGFKAIRVQCGSLPEEQLWSTEKYLDFTPKLFEAVRDKFGFNEHLLHDMHHRLTPIEAARFGKSVEDYRLFWMEDPTPAENQACFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTITHAGGITGMRRIADFASLYQVRTGSHGPSDLSPICMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHSWTFDNGYMHPGEKPGLGIEFDEKLAAKYPYDPAYLPVARLEDGTLWNW FQSMKIVSAEVFVTCPGRNFVTLKITTDSGLTGLGDATLNGRELPVASYLNDHVCPQLIGRDAHQIEDIWQYFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASRTGVMVYCHTTGHSIDEVLDDYAKHRDQGFKAIRVQCEPATKGSLPEEQLWSTEKYLDFTPKLFEAVRDKFGFNEHLLHDMHHRLTPIEAARFGKSVEDYRLFWMEDPTPAENQACFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTITHAGGITGMRRIADFASLYQVRTGSHGPSDLSPICMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHSWTFDNGYMHPGEKPGLGIEFDEKLAAKYPYDPAYLPVARLEDGTLWNW 4e4f-a1-m2-cC_4e4f-a1-m2-cD Crystal structure of enolase PC1_0802 (TARGET EFI-502240) from Pectobacterium carotovorum subsp. carotovorum PC1 C6D9S0 C6D9S0 2 X-RAY DIFFRACTION 52 1.0 561230 (Pectobacterium carotovorum subsp. carotovorum PC1) 561230 (Pectobacterium carotovorum subsp. carotovorum PC1) 381 388 4e4f-a1-m1-cB_4e4f-a1-m1-cA 4e4f-a1-m1-cB_4e4f-a1-m2-cA 4e4f-a1-m1-cC_4e4f-a1-m1-cD 4e4f-a1-m1-cC_4e4f-a1-m2-cD 4e4f-a1-m2-cB_4e4f-a1-m1-cA 4e4f-a1-m2-cB_4e4f-a1-m2-cA 4e4f-a1-m2-cC_4e4f-a1-m1-cD QSMKIVSAEVFVTCPGRNFVTLKITTDSGLTGLGDATLNGRELPVASYLNDHVCPQLIGRDAHQIEDIWQYFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASRTGVMVYCHTTGHSIDEVLDDYAKHRDQGFKAIRVQCSLPEEQLWSTEKYLDFTPKLFEAVRDKFGFNEHLLHDMHHRLTPIEAARFGKSVEDYRLFWMEDPTPAENQACFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTITHAGGITGMRRIADFASLYQVRTGSHGPSDLSPICMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHSWTFDNGYMHPGEKPGLGIEFDEKLAAKYPYDPAYLPVARLEDGTLWNW FQSMKIVSAEVFVTCPGRNFVTLKITTDSGLTGLGDATLNGRELPVASYLNDHVCPQLIGRDAHQIEDIWQYFYKGAYWRRGPVTMSAISAVDMALWDIKAKAANMPLYQLLGGASRTGVMVYCHTTGHSIDEVLDDYAKHRDQGFKAIRVQCEPATKGSLPEEQLWSTEKYLDFTPKLFEAVRDKFGFNEHLLHDMHHRLTPIEAARFGKSVEDYRLFWMEDPTPAENQACFRLIRQHTVTPIAVGEVFNSIWDCKQLIEEQLIDYIRTTITHAGGITGMRRIADFASLYQVRTGSHGPSDLSPICMAAALHFDLWVPNFGVQEYMGYSEQMLEVFPHSWTFDNGYMHPGEKPGLGIEFDEKLAAKYPYDPAYLPVARLEDGTLWNW 4e4j-a6-m1-cK_4e4j-a6-m1-cL Crystal structure of arginine deiminase from Mycoplasma penetrans Q8EVF6 Q8EVF6 2.3 X-RAY DIFFRACTION 59 1.0 272633 (Malacoplasma penetrans HF-2) 272633 (Malacoplasma penetrans HF-2) 399 399 4e4j-a1-m1-cA_4e4j-a1-m1-cB 4e4j-a2-m1-cC_4e4j-a2-m1-cD 4e4j-a3-m1-cE_4e4j-a3-m1-cF 4e4j-a4-m1-cG_4e4j-a4-m1-cH 4e4j-a5-m1-cI_4e4j-a5-m1-cJ GINVYSEIGELKEVLVHTPGDEIRYTAPSRLEELLFSAVLKADTAIEEHKGFVKILQNNGIKVIQLCDLVAETYELCSKEVRNSFIEQYLDEALPVLKKEIRPVVKDYLLSFPTVQMVRKMMSGILANELNIKQDNPLIIDGMPNLYFTRDPFASMGNGVSINCMKYPTRKREVIFSRFVFTNNPKYKNTPRYFDIVGNNGTIEGGDIFIYNSKTLVIGNSERTNFAAIESVAKNIQANKDCTFERIVVINVPPMPNLMHLDTWLTMLDYDKFLYSPNMMNVLKIWEIDLNVKPVKFVEKKGTLEEVLYSIIDKKPILIPIAGKGANQLDIDIETHFDGTNYLTIAPGVVVGYERNEKTQKALVEAGIKVLSFNGSQLSLGMGSARCMSMPLIRENLKK GINVYSEIGELKEVLVHTPGDEIRYTAPSRLEELLFSAVLKADTAIEEHKGFVKILQNNGIKVIQLCDLVAETYELCSKEVRNSFIEQYLDEALPVLKKEIRPVVKDYLLSFPTVQMVRKMMSGILANELNIKQDNPLIIDGMPNLYFTRDPFASMGNGVSINCMKYPTRKREVIFSRFVFTNNPKYKNTPRYFDIVGNNGTIEGGDIFIYNSKTLVIGNSERTNFAAIESVAKNIQANKDCTFERIVVINVPPMPNLMHLDTWLTMLDYDKFLYSPNMMNVLKIWEIDLNVKPVKFVEKKGTLEEVLYSIIDKKPILIPIAGKGANQLDIDIETHFDGTNYLTIAPGVVVGYERNEKTQKALVEAGIKVLSFNGSQLSLGMGSARCMSMPLIRENLKK 4e4r-a1-m1-cA_4e4r-a1-m2-cA EutD phosphotransacetylase from Staphylococcus aureus Q6GJ80 Q6GJ80 1.44 X-RAY DIFFRACTION 119 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 325 325 SNAADLLNVLKDKLSGKNVKIVLPEGEDERVLTAATQLQATDYVTPIVLGDETKVQSLAQKLNLDISNIELINPATSELKAELVQSFVERRKGKTTEEQAQELLNNVNYFGTLVYAGKADGLVSGAAHSTGDTVRPALQIIKTKPGVSRTSGIFFIKGDEQYIFGDCAINPELDSQGLAEIAVESAKSALSFGDPKVALSFSTKGSAKSDDVTKVQEAVKLAQQKAEEEKLEAIIDGEFQFDAAIVPGVAEKKAPGAKLQGDANVFVFPSLEAGNIGYKIAQRLGGYDAVGPVLQGLNSPVNDLSRGCSIEDVYNLSFITAAQAL SNAADLLNVLKDKLSGKNVKIVLPEGEDERVLTAATQLQATDYVTPIVLGDETKVQSLAQKLNLDISNIELINPATSELKAELVQSFVERRKGKTTEEQAQELLNNVNYFGTLVYAGKADGLVSGAAHSTGDTVRPALQIIKTKPGVSRTSGIFFIKGDEQYIFGDCAINPELDSQGLAEIAVESAKSALSFGDPKVALSFSTKGSAKSDDVTKVQEAVKLAQQKAEEEKLEAIIDGEFQFDAAIVPGVAEKKAPGAKLQGDANVFVFPSLEAGNIGYKIAQRLGGYDAVGPVLQGLNSPVNDLSRGCSIEDVYNLSFITAAQAL 4e4s-a2-m1-cD_4e4s-a2-m1-cE Crystal structure of Pika GITRL 1.95 X-RAY DIFFRACTION 30 1.0 9978 (Ochotona princeps) 9978 (Ochotona princeps) 112 119 4e4s-a1-m1-cA_4e4s-a1-m1-cB 4e4s-a1-m1-cA_4e4s-a1-m1-cF 4e4s-a2-m1-cC_4e4s-a2-m1-cE 4e4s-a2-m1-cD_4e4s-a2-m1-cC PCVAKFGPSPSEWQMSCLNKMSDWKLRILQNGLYAIYGRVTPNPTYKGFAPFEVQLCKNKDAIQTLTDSSKIQNLGNIYEFNAGDTIELRFNSDDQVLKTNTYFGIILLANP KDPCVAKFGPSPSEWQMASSESCLNKMSDWKLRILQNGLYAIYGRVTPNPTYKGFAPFEVQLCKNKDAIQTLTDSSKIQNLGNIYEFNAGDTIELRFNSDDQVLKTNTYFGIILLANPQ 4e4t-a1-m1-cB_4e4t-a1-m1-cA Crystal structure of Phosphoribosylaminoimidazole carboxylase, ATPase subunit from Burkholderia ambifaria B1YVV9 B1YVV9 1.55 X-RAY DIFFRACTION 102 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 385 391 SPILPGAWLGMVGGGQLGRMFCFAAQSMGYRVAVLDPDPASPAGAVADRHLRAAYDDEAALAELAGLCEAVSTEFENVPAASLDFLARTTFVAPAGRCVAVAQDRIAEKRFIEASGVPVAPHVVIESAAALAALDDAALDAVLPGILKTARKGQVRVSTAREARDAHAALGGVPCVLEKRLPLKYEVSALIARGADGRSAAFPLAQNVHHNGILALTIVPAPAADTARVEEAQQAAVRIADTLGYVGVLCVEFFVLEDGSFVANEMAPRPHNSGHYTVDACATSQFEQQVRAMTRMPLGNPRQHSPAAMLNILGDVWFPNGAAAGAVTPPWDTVAAMPAAHLHLYGKEEARVGRKMGHVNFTAEMRDDAVAAATACAQLLRVPLD VSPILPGAWLGMVGGGQLGRMFCFAAQSMGYRVAVLDPDPASPAGAVADRHLRAAYDDEAALAELAGLCEAVSTEFENVPAASLDFLARTTFVAPAGRCVAVAQDRIAEKRFIEASGVPVAPHVVIESAAALAALDDAALDAVLPGILKTARLGYDGKGQVRVSTAREARDAHAALGGVPCVLEKRLPLKYEVSALIARGADGRSAAFPLAQNVHHNGILALTIVPAPAADTARVEEAQQAAVRIADTLGYVGVLCVEFFVLEDGSFVANEMAPRPHNSGHYTVDACATSQFEQQVRAMTRMPLGNPRQHSPAAMLNILGDVWFPNGAAAGAVTPPWDTVAAMPAAHLHLYGKEEARVGRKMGHVNFTAEMRDDAVAAATACAQLLRVPLD 4e4u-a1-m2-cA_4e4u-a1-m8-cA Crystal structure of a putative Mandelate racemase/Muconate lactonizing enzyme (Target PSI-200780) from Burkholderia SAR-1 1.35 X-RAY DIFFRACTION 86 1.0 32644 (unidentified) 32644 (unidentified) 403 403 4e4u-a1-m1-cA_4e4u-a1-m7-cA 4e4u-a1-m3-cA_4e4u-a1-m5-cA 4e4u-a1-m4-cA_4e4u-a1-m6-cA MKIVSLETHIVAVPPPHVGGMYWIFVKLKTDDGIEGVGEIYSATFGPKAMAPIIDDVFERHLLNRDPHHVERLFRQAYSSGFTQRPDLTMMGVVSGLEMACWDIIGKAAAKPVYELLGGRIHERLRSYTYLYPKNAKGEYDYDDPDLAAECAAENVKLGFTAVKFDPAGPYTAYSGHQLSLEVLDRCELFCRRVREAVGSKADLLFGTHGQMVPSSAIRLAKRLEKYDPLWFEEPVPPGQEEAIAQVAKHTSIPIATGERLTTKYEFHKLLQAGGASILQLNVARVGGLLEAKKIATLAEVHYAQIAPHLYNGPVGAAASIQLATCTPNFLIQESIMTWGGFHAEVVKTPIRWEDGYIIPSNEPGLGIELDMDVVKRHTPYTGERLHLQMGEHPVDVKDLAPA MKIVSLETHIVAVPPPHVGGMYWIFVKLKTDDGIEGVGEIYSATFGPKAMAPIIDDVFERHLLNRDPHHVERLFRQAYSSGFTQRPDLTMMGVVSGLEMACWDIIGKAAAKPVYELLGGRIHERLRSYTYLYPKNAKGEYDYDDPDLAAECAAENVKLGFTAVKFDPAGPYTAYSGHQLSLEVLDRCELFCRRVREAVGSKADLLFGTHGQMVPSSAIRLAKRLEKYDPLWFEEPVPPGQEEAIAQVAKHTSIPIATGERLTTKYEFHKLLQAGGASILQLNVARVGGLLEAKKIATLAEVHYAQIAPHLYNGPVGAAASIQLATCTPNFLIQESIMTWGGFHAEVVKTPIRWEDGYIIPSNEPGLGIELDMDVVKRHTPYTGERLHLQMGEHPVDVKDLAPA 4e4u-a1-m4-cA_4e4u-a1-m8-cA Crystal structure of a putative Mandelate racemase/Muconate lactonizing enzyme (Target PSI-200780) from Burkholderia SAR-1 1.35 X-RAY DIFFRACTION 163 1.0 32644 (unidentified) 32644 (unidentified) 403 403 4e4u-a1-m1-cA_4e4u-a1-m6-cA 4e4u-a1-m2-cA_4e4u-a1-m5-cA 4e4u-a1-m3-cA_4e4u-a1-m7-cA MKIVSLETHIVAVPPPHVGGMYWIFVKLKTDDGIEGVGEIYSATFGPKAMAPIIDDVFERHLLNRDPHHVERLFRQAYSSGFTQRPDLTMMGVVSGLEMACWDIIGKAAAKPVYELLGGRIHERLRSYTYLYPKNAKGEYDYDDPDLAAECAAENVKLGFTAVKFDPAGPYTAYSGHQLSLEVLDRCELFCRRVREAVGSKADLLFGTHGQMVPSSAIRLAKRLEKYDPLWFEEPVPPGQEEAIAQVAKHTSIPIATGERLTTKYEFHKLLQAGGASILQLNVARVGGLLEAKKIATLAEVHYAQIAPHLYNGPVGAAASIQLATCTPNFLIQESIMTWGGFHAEVVKTPIRWEDGYIIPSNEPGLGIELDMDVVKRHTPYTGERLHLQMGEHPVDVKDLAPA MKIVSLETHIVAVPPPHVGGMYWIFVKLKTDDGIEGVGEIYSATFGPKAMAPIIDDVFERHLLNRDPHHVERLFRQAYSSGFTQRPDLTMMGVVSGLEMACWDIIGKAAAKPVYELLGGRIHERLRSYTYLYPKNAKGEYDYDDPDLAAECAAENVKLGFTAVKFDPAGPYTAYSGHQLSLEVLDRCELFCRRVREAVGSKADLLFGTHGQMVPSSAIRLAKRLEKYDPLWFEEPVPPGQEEAIAQVAKHTSIPIATGERLTTKYEFHKLLQAGGASILQLNVARVGGLLEAKKIATLAEVHYAQIAPHLYNGPVGAAASIQLATCTPNFLIQESIMTWGGFHAEVVKTPIRWEDGYIIPSNEPGLGIELDMDVVKRHTPYTGERLHLQMGEHPVDVKDLAPA 4e4u-a1-m6-cA_4e4u-a1-m8-cA Crystal structure of a putative Mandelate racemase/Muconate lactonizing enzyme (Target PSI-200780) from Burkholderia SAR-1 1.35 X-RAY DIFFRACTION 60 1.0 32644 (unidentified) 32644 (unidentified) 403 403 4e4u-a1-m1-cA_4e4u-a1-m3-cA 4e4u-a1-m1-cA_4e4u-a1-m4-cA 4e4u-a1-m2-cA_4e4u-a1-m3-cA 4e4u-a1-m2-cA_4e4u-a1-m4-cA 4e4u-a1-m5-cA_4e4u-a1-m7-cA 4e4u-a1-m5-cA_4e4u-a1-m8-cA 4e4u-a1-m6-cA_4e4u-a1-m7-cA MKIVSLETHIVAVPPPHVGGMYWIFVKLKTDDGIEGVGEIYSATFGPKAMAPIIDDVFERHLLNRDPHHVERLFRQAYSSGFTQRPDLTMMGVVSGLEMACWDIIGKAAAKPVYELLGGRIHERLRSYTYLYPKNAKGEYDYDDPDLAAECAAENVKLGFTAVKFDPAGPYTAYSGHQLSLEVLDRCELFCRRVREAVGSKADLLFGTHGQMVPSSAIRLAKRLEKYDPLWFEEPVPPGQEEAIAQVAKHTSIPIATGERLTTKYEFHKLLQAGGASILQLNVARVGGLLEAKKIATLAEVHYAQIAPHLYNGPVGAAASIQLATCTPNFLIQESIMTWGGFHAEVVKTPIRWEDGYIIPSNEPGLGIELDMDVVKRHTPYTGERLHLQMGEHPVDVKDLAPA MKIVSLETHIVAVPPPHVGGMYWIFVKLKTDDGIEGVGEIYSATFGPKAMAPIIDDVFERHLLNRDPHHVERLFRQAYSSGFTQRPDLTMMGVVSGLEMACWDIIGKAAAKPVYELLGGRIHERLRSYTYLYPKNAKGEYDYDDPDLAAECAAENVKLGFTAVKFDPAGPYTAYSGHQLSLEVLDRCELFCRRVREAVGSKADLLFGTHGQMVPSSAIRLAKRLEKYDPLWFEEPVPPGQEEAIAQVAKHTSIPIATGERLTTKYEFHKLLQAGGASILQLNVARVGGLLEAKKIATLAEVHYAQIAPHLYNGPVGAAASIQLATCTPNFLIQESIMTWGGFHAEVVKTPIRWEDGYIIPSNEPGLGIELDMDVVKRHTPYTGERLHLQMGEHPVDVKDLAPA 4e4y-a2-m1-cA_4e4y-a2-m4-cA The crystal structure of a short chain dehydrogenase family protein from Francisella tularensis subsp. tularensis SCHU S4 Q5NG43 Q5NG43 1.803 X-RAY DIFFRACTION 14 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 239 239 4e4y-a2-m2-cA_4e4y-a2-m3-cA AANYLVTGGSKGIGKAVVELLLQNKNHTVINIDIQQSFSAENLKFIKADLTKQQDITNVLDIIKNVSFDGIFLNAGILIKGSIFDIDIESIKKVLDLNVWSSIYFIKGLENNLKVGASIVFNGSDQCFIAKPNSFAYTLSKGAIAQTKSLALDLAKYQIRVNTVCPGTVDTDLYRNLIQKYANNVGISFDEAQKQEEKEFPLNRIAQPQEIAELVIFLLSDKSKFTGGLIPIDGGYTAQ AANYLVTGGSKGIGKAVVELLLQNKNHTVINIDIQQSFSAENLKFIKADLTKQQDITNVLDIIKNVSFDGIFLNAGILIKGSIFDIDIESIKKVLDLNVWSSIYFIKGLENNLKVGASIVFNGSDQCFIAKPNSFAYTLSKGAIAQTKSLALDLAKYQIRVNTVCPGTVDTDLYRNLIQKYANNVGISFDEAQKQEEKEFPLNRIAQPQEIAELVIFLLSDKSKFTGGLIPIDGGYTAQ 4e4y-a3-m1-cA_4e4y-a3-m3-cA The crystal structure of a short chain dehydrogenase family protein from Francisella tularensis subsp. tularensis SCHU S4 Q5NG43 Q5NG43 1.803 X-RAY DIFFRACTION 96 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 239 239 4e4y-a2-m1-cA_4e4y-a2-m3-cA 4e4y-a2-m2-cA_4e4y-a2-m4-cA AANYLVTGGSKGIGKAVVELLLQNKNHTVINIDIQQSFSAENLKFIKADLTKQQDITNVLDIIKNVSFDGIFLNAGILIKGSIFDIDIESIKKVLDLNVWSSIYFIKGLENNLKVGASIVFNGSDQCFIAKPNSFAYTLSKGAIAQTKSLALDLAKYQIRVNTVCPGTVDTDLYRNLIQKYANNVGISFDEAQKQEEKEFPLNRIAQPQEIAELVIFLLSDKSKFTGGLIPIDGGYTAQ AANYLVTGGSKGIGKAVVELLLQNKNHTVINIDIQQSFSAENLKFIKADLTKQQDITNVLDIIKNVSFDGIFLNAGILIKGSIFDIDIESIKKVLDLNVWSSIYFIKGLENNLKVGASIVFNGSDQCFIAKPNSFAYTLSKGAIAQTKSLALDLAKYQIRVNTVCPGTVDTDLYRNLIQKYANNVGISFDEAQKQEEKEFPLNRIAQPQEIAELVIFLLSDKSKFTGGLIPIDGGYTAQ 4e4y-a4-m1-cA_4e4y-a4-m2-cA The crystal structure of a short chain dehydrogenase family protein from Francisella tularensis subsp. tularensis SCHU S4 Q5NG43 Q5NG43 1.803 X-RAY DIFFRACTION 108 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 239 239 4e4y-a2-m1-cA_4e4y-a2-m2-cA 4e4y-a2-m3-cA_4e4y-a2-m4-cA AANYLVTGGSKGIGKAVVELLLQNKNHTVINIDIQQSFSAENLKFIKADLTKQQDITNVLDIIKNVSFDGIFLNAGILIKGSIFDIDIESIKKVLDLNVWSSIYFIKGLENNLKVGASIVFNGSDQCFIAKPNSFAYTLSKGAIAQTKSLALDLAKYQIRVNTVCPGTVDTDLYRNLIQKYANNVGISFDEAQKQEEKEFPLNRIAQPQEIAELVIFLLSDKSKFTGGLIPIDGGYTAQ AANYLVTGGSKGIGKAVVELLLQNKNHTVINIDIQQSFSAENLKFIKADLTKQQDITNVLDIIKNVSFDGIFLNAGILIKGSIFDIDIESIKKVLDLNVWSSIYFIKGLENNLKVGASIVFNGSDQCFIAKPNSFAYTLSKGAIAQTKSLALDLAKYQIRVNTVCPGTVDTDLYRNLIQKYANNVGISFDEAQKQEEKEFPLNRIAQPQEIAELVIFLLSDKSKFTGGLIPIDGGYTAQ 4e51-a1-m1-cB_4e51-a1-m1-cA Crystal structure of a histidyl-tRNA synthetase HisRS from Burkholderia thailandensis bound to histidine Q2SWE3 Q2SWE3 2.65 X-RAY DIFFRACTION 274 0.997 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 397 415 LEKLTGVKGMNDILPQDAGLWEFFEATVKSLLRAYGYQNIRTPIVEHTPLFTRDIVEKEMYSFVDALNGENLTLRPENTAAVVRAAIEHNMLYDGPKRLWYIGPMFRHERYRQFHQVGVEALGFAGPDADAEIVMMCQRLWEDLGLTGIKLEINSLGLAEERAAHRVELIKYLEQHADQRRLYTNPLRVLPALQEIVRNAPKLIDFLGDVSRAHFEGLQRLLKANNVPFTINPRLVRGLDYYNLTVFEWVTDGTVAAGGRYDPLIEQLGGKPTAACGWAMGIERILELLKEEHLVPEQEGVDVYVVHQGDAAREQAFIVAERLRDTGLDVILHCSADGAGASFKSQMKRADASGAAFAVIFGEDEVTNGTASVKPLSVQQSVPVESLTEFLINAMVA EKLTGVKGMNDILPQDAGLWEFFEATVKSLLRAYGYQNIRTPIVEHTPLFTRGIGEVTDIVEKEMYSFVDALNGENLTLRPENTAAVVRAAIEHNMLYDGPKRLWYIGPMFRHERPRYRQFHQVGVEALGFAGPDADAEIVMMCQRLWEDLGLTGIKLEINSLGLAEERAAHRVELIKYLEQHADKLDDDAQRRLYTNPLRVLDTKNPALQEIVRNAPKLIDFLGDVSRAHFEGLQRLLKANNVPFTINPRLVRGLDYYNLTVFEWVTDKGTVAAGGRYDPLIEQLGGKPTAACGWAMGIERILELLKEEHLVPEQEGVDVYVVHQGDAAREQAFIVAERLRDTGLDVILHCSADGAGASFKSQMKRADASGAAFAVIFGEDEVTNGTASVKPLSVQQSVPVESLTEFLINAMVA 4e5n-a2-m1-cB_4e5n-a2-m1-cH Thermostable phosphite dehydrogenase in complex with NAD O69054 O69054 1.7 X-RAY DIFFRACTION 203 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 329 329 4e5k-a1-m1-cA_4e5k-a1-m1-cD 4e5k-a2-m2-cC_4e5k-a2-m1-cB 4e5m-a1-m1-cB_4e5m-a1-m1-cA 4e5n-a1-m1-cA_4e5n-a1-m2-cC 4e5n-a3-m1-cG_4e5n-a3-m1-cD 4e5n-a4-m3-cF_4e5n-a4-m1-cE 4e5p-a1-m1-cC_4e5p-a1-m1-cA 4e5p-a2-m1-cD_4e5p-a2-m1-cB 4e5p-a3-m1-cE_4e5p-a3-m1-cF 4ebf-a1-m1-cF_4ebf-a1-m1-cA 4ebf-a2-m1-cE_4ebf-a2-m1-cB 4ebf-a3-m1-cC_4ebf-a3-m1-cD 4nu5-a1-m1-cB_4nu5-a1-m1-cA 4nu6-a1-m1-cA_4nu6-a1-m1-cB MLPKLVITHRVHEEILQLLAPHCELITNQTDSTLTREEILRRCRDAQAMMAFMPDRVDADFLQACPELRVIGCALKGFDNFDVDACTARGVWLTFVPDLLTVPTAELAIGLAVGLGRHLRAADAFVRSGKFRGWQPRFYGTGLDNATVGFLGMGAIGLAMADRLQGWGATLQYHEAKALDTQTEQRLGLRQVACSELFASSDFILLALPLNADTLHLVNAELLALVRPGALLVNPCRGSVVDEAAVLAALERGQLGGYAADVFEMEDWARADRPQQIDPALLAHPNTLFTPHIGSAVRAVRLEIERCAAQNILQALAGERPINAVNRLP MLPKLVITHRVHEEILQLLAPHCELITNQTDSTLTREEILRRCRDAQAMMAFMPDRVDADFLQACPELRVIGCALKGFDNFDVDACTARGVWLTFVPDLLTVPTAELAIGLAVGLGRHLRAADAFVRSGKFRGWQPRFYGTGLDNATVGFLGMGAIGLAMADRLQGWGATLQYHEAKALDTQTEQRLGLRQVACSELFASSDFILLALPLNADTLHLVNAELLALVRPGALLVNPCRGSVVDEAAVLAALERGQLGGYAADVFEMEDWARADRPQQIDPALLAHPNTLFTPHIGSAVRAVRLEIERCAAQNILQALAGERPINAVNRLP 4e5s-a2-m1-cD_4e5s-a2-m1-cC Crystal structure of MccFlike protein (BA_5613) from Bacillus anthracis str. Ames A0A6L8PVW7 A0A6L8PVW7 1.952 X-RAY DIFFRACTION 98 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 322 323 4e5s-a1-m1-cA_4e5s-a1-m1-cB 5fd8-a1-m1-cA_5fd8-a1-m1-cB 5usd-a1-m1-cA_5usd-a1-m1-cD 5usd-a2-m1-cC_5usd-a2-m1-cB ALPTKLKKGDEIRVISPSCSLSIVSTENRRLAVKRLTELGFHVTFSTHAEEIDRFASSSISSRVQDLHEAFRDPNVKAILTTLGGYNSNGLLKYLDYDLIRENPKFFCGYSDITALNNAIYTKTGLVTYSGPHFSSFGEKGLEYTTDYFLQCLTSNKPIEVLPSETWSDDSWYIDQENRKFIKNEGYVSIHEGEATGDIIGGNSTLNLLQGTSYPNLKDKILFLEEDSLTGTSTLKTFDRYLHSLQQQNFKHVKGIVIGKQKGAECTIEDIQEIASKPELAHIPIIANASFGHTTPIFTFPIGGRATIISSKEKTSITILTH NALPTKLKKGDEIRVISPSCSLSIVSTENRRLAVKRLTELGFHVTFSTHAEEIDRFASSSISSRVQDLHEAFRDPNVKAILTTLGGYNSNGLLKYLDYDLIRENPKFFCGYSDITALNNAIYTKTGLVTYSGPHFSSFGEKGLEYTTDYFLQCLTSNKPIEVLPSETWSDDSWYIDQENRKFIKNEGYVSIHEGEATGDIIGGNSTLNLLQGTSYPNLKDKILFLEEDSLTGTSTLKTFDRYLHSLQQQNFKHVKGIVIGKQKGAECTIEDIQEIASKPELAHIPIIANASFGHTTPIFTFPIGGRATIISSKEKTSITILTH 4e5t-a1-m1-cG_4e5t-a1-m1-cH Crystal structure of a putative Mandelate racemase/Muconate lactonizing enzyme (Target PSI-200750) from Labrenzia alexandrii DFL-11 2.9 X-RAY DIFFRACTION 55 1.0 244592 (Roseibium alexandrii DFL-11) 244592 (Roseibium alexandrii DFL-11) 370 371 4e5t-a1-m1-cC_4e5t-a1-m1-cA 4e5t-a1-m1-cE_4e5t-a1-m1-cB 4e5t-a1-m1-cE_4e5t-a1-m1-cD 4e5t-a1-m1-cF_4e5t-a1-m1-cB 4e5t-a1-m1-cF_4e5t-a1-m1-cD 4e5t-a1-m1-cG_4e5t-a1-m1-cA 4e5t-a1-m1-cH_4e5t-a1-m1-cC MRLSDIETFVVGNPPPRHGGRYFIFVKLVTACGITGYGEIYNATFGPDLVAKMAEDVFARQFAGEDPHHIEKLWHKTYGAGYTQRPDVTVMGVLSGLEMACWDIIGKAAGKPAYELLGGKVHERLRSYTYLYPNVYNDADMAAEAAAKAVDQGFTAVKFDPAGAYTIYDGHQPSLEDLERSEAFCKQIRAAVGTKADLLFGTHGQFTVSGAKRLARRLEAYDPLWFEEPIPPEKPEDMAEVARYTSIPVATGERLCTKYEFSRVLETGAASILQMNLGRVGGLLEAKKIAAMAECHSAQIAPHLYCGPLVALANIQLATCSPNFLVLESIGFFAELLTTPIRWENGYIIPSQEPGLGHDLNEDVARANPY MRLSDIETFVVGNPPPRHGGRYFIFVKLVTACGITGYGEIYNATFGPDLVAKMAEDVFARQFAGEDPHHIEKLWHKTYGAGYTQRPDVTVMGVLSGLEMACWDIIGKAAGKPAYELLGGKVHERLRSYTYLYPNVYNDADMAAEAAAKAVDQGFTAVKFDPAGAYTIYDGHQPSLEDLERSEAFCKQIRAAVGTKADLLFGTHGQFTVSGAKRLARRLEAYDPLWFEEPIPPEKPEDMAEVARYTSIPVATGERLCTKYEFSRVLETGAASILQMNLGRVGGLLEAKKIAAMAECHSAQIAPHLYCGPLVALANIQLATCSPNFLVLESIGFFAELLTTPIRWENGYIIPSQEPGLGHDLNEDVARANPYT 4e5t-a1-m1-cH_4e5t-a1-m1-cD Crystal structure of a putative Mandelate racemase/Muconate lactonizing enzyme (Target PSI-200750) from Labrenzia alexandrii DFL-11 2.9 X-RAY DIFFRACTION 92 1.0 244592 (Roseibium alexandrii DFL-11) 244592 (Roseibium alexandrii DFL-11) 371 388 4e5t-a1-m1-cB_4e5t-a1-m1-cA 4e5t-a1-m1-cE_4e5t-a1-m1-cC 4e5t-a1-m1-cG_4e5t-a1-m1-cF MRLSDIETFVVGNPPPRHGGRYFIFVKLVTACGITGYGEIYNATFGPDLVAKMAEDVFARQFAGEDPHHIEKLWHKTYGAGYTQRPDVTVMGVLSGLEMACWDIIGKAAGKPAYELLGGKVHERLRSYTYLYPNVYNDADMAAEAAAKAVDQGFTAVKFDPAGAYTIYDGHQPSLEDLERSEAFCKQIRAAVGTKADLLFGTHGQFTVSGAKRLARRLEAYDPLWFEEPIPPEKPEDMAEVARYTSIPVATGERLCTKYEFSRVLETGAASILQMNLGRVGGLLEAKKIAAMAECHSAQIAPHLYCGPLVALANIQLATCSPNFLVLESIGFFAELLTTPIRWENGYIIPSQEPGLGHDLNEDVARANPYT MRLSDIETFVVGNPPPRHGGRYFIFVKLVTACGITGYGEIYNATFGPDLVAKMAEDVFARQFAGEDPHHIEKLWHKTYGAGYTQRPDVTVMGVLSGLEMACWDIIGKAAGKPAYELLGGKVHERLRSYTYLYPTKPNVYNDADMAAEAAAKAVDQGFTAVKFDPAGAYTIYDGHQPSLEDLERSEAFCKQIRAAVGTKADLLFGTHGQFTVSGAKRLARRLEAYDPLWFEEPIPPEKPEDMAEVARYTSIPVATGERLCTKYEFSRVLETGAASILQMNLGRVGGLLEAKKIAAMAECHSAQIAPHLYCGPLVALANIQLATCSPNFLVLESIRTFDGFFAELLTTPIRWENGYIIPSQEPGLGHDLNEDVARANPYTGSDLHLGFQE 4e5t-a1-m1-cH_4e5t-a1-m1-cF Crystal structure of a putative Mandelate racemase/Muconate lactonizing enzyme (Target PSI-200750) from Labrenzia alexandrii DFL-11 2.9 X-RAY DIFFRACTION 119 0.995 244592 (Roseibium alexandrii DFL-11) 244592 (Roseibium alexandrii DFL-11) 371 386 4e5t-a1-m1-cC_4e5t-a1-m1-cD 4e5t-a1-m1-cE_4e5t-a1-m1-cA 4e5t-a1-m1-cG_4e5t-a1-m1-cB MRLSDIETFVVGNPPPRHGGRYFIFVKLVTACGITGYGEIYNATFGPDLVAKMAEDVFARQFAGEDPHHIEKLWHKTYGAGYTQRPDVTVMGVLSGLEMACWDIIGKAAGKPAYELLGGKVHERLRSYTYLYPNVYNDADMAAEAAAKAVDQGFTAVKFDPAGAYTIYDGHQPSLEDLERSEAFCKQIRAAVGTKADLLFGTHGQFTVSGAKRLARRLEAYDPLWFEEPIPPEKPEDMAEVARYTSIPVATGERLCTKYEFSRVLETGAASILQMNLGRVGGLLEAKKIAAMAECHSAQIAPHLYCGPLVALANIQLATCSPNFLVLESIGFFAELLTTPIRWENGYIIPSQEPGLGHDLNEDVARANPYT MRLSDIETFVVGNPPPRHGGRYFIFVKLVTACGITGYGEIYNATFGPDLVAKMAEDVFARQFAGEDPHHIEKLWHKTYGAGYTQRPDVTVMGVLSGLEMACWDIIGKAAGKPAYELLGGKVHERLRSYTYLYPDKPNVYNDADMAAEAAAKAVDQGFTAVKFDPAGAYTIYDGHQPSLEDLERSEAFCKQIRAAVGTKADLLFGTHGQFTVSGAKRLARRLEAYDPLWFEEPIPPEKPEDMAEVARYTSIPVATGERLCTKYEFSRVLETGAASILQMNLGRVGGLLEAKKIAAMAECHSAQIAPHLYCGPLVALANIQLATCSPNFLVLESIRTFDGFFAELLTIRWENGYIIPSQEPGLGHDLNEDVARANPYTGSDLHLGFQE 4e61-a1-m1-cB_4e61-a1-m1-cA Crystal structure of the EB1-like motif of Bim1p P40013 P40013 2.45 X-RAY DIFFRACTION 110 0.988 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 84 91 GPLGSLVAIQAELTKSQETIGSLNEEIEQYKGTVSTLEIEREFYFNKLRDIEILVHTTQDLINEGGGALLRFVKKVESILYATA GPLGSLVAIQAELTKSQETIGSLNEEIEQYKGTVSTLEIEREFYFNKLRDIEILVHTTQDLINEGVYKGALLRFVKKVESILYATAEGFEM 4e69-a1-m1-cA_4e69-a1-m1-cB Crystal structure of a sugar kinase (target EFI-502132) from Oceanicola granulosus, unliganded structure Q2CIP5 Q2CIP5 1.6 X-RAY DIFFRACTION 72 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 310 311 4ebu-a1-m1-cA_4ebu-a1-m2-cA 4eum-a1-m1-cA_4eum-a1-m1-cB GVDLGTENLYFQSMMHILSIGECMAELAPADLPGTYRLGFAGDTFNTAWYLARLRPESRISYFSAIGDDALSQQMRAAMSAAGIDGGGLRVIPGRTVGLYLITLEQGERSFAYWRGQSAARELAGDADALAAAMARADVVYFSGITLAILDQCGRATLLRALAQARATGRTIAFDPNLRPRLWAGTGEMTETIMQGAAVSDIALPSFEDEAAWFGDAGPDATADRYARAGVRSVVVKNGPHAVHFLQDGRRGRVPVPPVAQVVDTTAAGDSFNAGLLDSVLAGQPLETAIAAAAALAGQVVQGKGALVEV GVDLGTENLYFQSMMHILSIGECMAELAPADLPGTYRLGFAGDTFNTAWYLARLRPESRISYFSAIGDDALSQQMRAAMSAAGIDGGGLRVIPGRTVGLYLITLEQGERSFAYWRGQSAARELAGDADALAAAMARADVVYFSGITLAILDQCGRATLLRALAQARATGRTIAFDPNLRPRLWAGTGEMTETIMQGAAVSDIALPSFEDEAAWFGDAGPDATADRYARAGVRSVVVKNGPHAVHFLQDGRRGRVPVPPVAQVVDTTAAGDSFNAGLLDSVLAGQPLETAIAAAAALAGQVVQGKGALVEVP 4e69-a2-m1-cA_4e69-a2-m2-cB Crystal structure of a sugar kinase (target EFI-502132) from Oceanicola granulosus, unliganded structure Q2CIP5 Q2CIP5 1.6 X-RAY DIFFRACTION 71 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 310 311 GVDLGTENLYFQSMMHILSIGECMAELAPADLPGTYRLGFAGDTFNTAWYLARLRPESRISYFSAIGDDALSQQMRAAMSAAGIDGGGLRVIPGRTVGLYLITLEQGERSFAYWRGQSAARELAGDADALAAAMARADVVYFSGITLAILDQCGRATLLRALAQARATGRTIAFDPNLRPRLWAGTGEMTETIMQGAAVSDIALPSFEDEAAWFGDAGPDATADRYARAGVRSVVVKNGPHAVHFLQDGRRGRVPVPPVAQVVDTTAAGDSFNAGLLDSVLAGQPLETAIAAAAALAGQVVQGKGALVEV GVDLGTENLYFQSMMHILSIGECMAELAPADLPGTYRLGFAGDTFNTAWYLARLRPESRISYFSAIGDDALSQQMRAAMSAAGIDGGGLRVIPGRTVGLYLITLEQGERSFAYWRGQSAARELAGDADALAAAMARADVVYFSGITLAILDQCGRATLLRALAQARATGRTIAFDPNLRPRLWAGTGEMTETIMQGAAVSDIALPSFEDEAAWFGDAGPDATADRYARAGVRSVVVKNGPHAVHFLQDGRRGRVPVPPVAQVVDTTAAGDSFNAGLLDSVLAGQPLETAIAAAAALAGQVVQGKGALVEVP 4e6e-a2-m1-cA_4e6e-a2-m2-cA Crystal structure of a putative cell division protein FtsZ (Tfu_1113) from Thermobifida fusca YX-ER1 at 2.22 A resolution (PSI Community Target, van Wezel G.P.) Q47QW6 Q47QW6 2.12 X-RAY DIFFRACTION 63 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 299 299 GVAAPQNYLAVIKVVGIGGGGVNAVNRIEEGLKGVEFIAINTDAQALLSDADVKLDVGRELTRGANPDVGRKAAEDHREEIEEVLKGADVFVTAGEGGGTGTGGAPVVANIARSLGALTIGVVTRPFSFEGKRRATQAEAGIALREEVDTLIVIPNDRLLDRQVSVLDAFKAADQVLLSGVQGITDLITTPGLINLDFADVKSVSGAGSALGIGSARGDDRAVAAAEAISSPLLEASIDGAHGVLLSIQGGSDLGLFEINEAAQLVANSAAAEANIIFGAVIDDALGDEVRVTVIAAGF GVAAPQNYLAVIKVVGIGGGGVNAVNRIEEGLKGVEFIAINTDAQALLSDADVKLDVGRELTRGANPDVGRKAAEDHREEIEEVLKGADVFVTAGEGGGTGTGGAPVVANIARSLGALTIGVVTRPFSFEGKRRATQAEAGIALREEVDTLIVIPNDRLLDRQVSVLDAFKAADQVLLSGVQGITDLITTPGLINLDFADVKSVSGAGSALGIGSARGDDRAVAAAEAISSPLLEASIDGAHGVLLSIQGGSDLGLFEINEAAQLVANSAAAEANIIFGAVIDDALGDEVRVTVIAAGF 4e6s-a1-m1-cA_4e6s-a1-m2-cA Crystal structure of the SCAN domain from mouse Zfp206 Q3URR7 Q3URR7 1.85 X-RAY DIFFRACTION 85 1.0 10090 (Mus musculus) 10090 (Mus musculus) 85 85 GRPRPEVAHQLFRCFQYQEDMGPRASLGRLRELCNHWLRPALHTKKQILELLVLEQFLSVLPPHVLSRLHGAPLRDGEEVAQLEG GRPRPEVAHQLFRCFQYQEDMGPRASLGRLRELCNHWLRPALHTKKQILELLVLEQFLSVLPPHVLSRLHGAPLRDGEEVAQLEG 4e6u-a1-m2-cA_4e6u-a1-m3-cA Structure of LpxA from Acinetobacter baumannii at 1.4A resolution (P63 form) 1.41 X-RAY DIFFRACTION 65 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 258 258 4e6t-a1-m1-cA_4e6t-a1-m1-cB 4e6t-a1-m1-cC_4e6t-a1-m1-cA 4e6t-a1-m1-cC_4e6t-a1-m1-cB 4e6u-a1-m1-cA_4e6u-a1-m2-cA 4e6u-a1-m1-cA_4e6u-a1-m3-cA DLIHSTAIIDPSAVIASDVQIGPYCIIGPQVTIGAGTKLHSHVVVGGFTRIGQNNEIFQFASVGEVCQDLKYKGEETWLEIGNNNLIREHCSLHRGTVQDNALTKIGSHNLLMVNTHIAHDCIVGDHNIFANNVGVAGHVHIGDHVIVGGNSGIHQFCKIDSYSMIGGASLILKDVPAYVMASGNPAHAFGINIEGMRRKGWSKNTIQGLREAYKLIFKSGLTSVQAIDQIKSEILPSVPEAQLLIDSLEQSERGIVR DLIHSTAIIDPSAVIASDVQIGPYCIIGPQVTIGAGTKLHSHVVVGGFTRIGQNNEIFQFASVGEVCQDLKYKGEETWLEIGNNNLIREHCSLHRGTVQDNALTKIGSHNLLMVNTHIAHDCIVGDHNIFANNVGVAGHVHIGDHVIVGGNSGIHQFCKIDSYSMIGGASLILKDVPAYVMASGNPAHAFGINIEGMRRKGWSKNTIQGLREAYKLIFKSGLTSVQAIDQIKSEILPSVPEAQLLIDSLEQSERGIVR 4e6y-a1-m5-cA_4e6y-a1-m6-cA Type II citrate synthase from Vibrio vulnificus. 2.5 X-RAY DIFFRACTION 18 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 410 410 4e6y-a1-m1-cA_4e6y-a1-m2-cA 4e6y-a1-m1-cA_4e6y-a1-m3-cA 4e6y-a1-m2-cA_4e6y-a1-m3-cA 4e6y-a1-m4-cA_4e6y-a1-m5-cA 4e6y-a1-m4-cA_4e6y-a1-m6-cA DKKATLHVEGKAPIELPIEGSLGTPVIDVRKLGANGYFTFDPGFLATASCESQITYIDGGKGILLHRGYPIDQLANNADYLEVCYILLYGEAPTREQYEKFKTTVTRHTVHEQIASFFHGFRRDAHPAVCGVVGALAAFYHDSLDINNDLHREITAYRLLSKPTLAACYKYSTGQPFIYPRNDLSYAENFLHFATPCEEYEVNPVVARADKIFTLHADHEQNASTSTVRLAGSSGANPFACIAAGIASLWGPAHGGANEACLKLEEIGSVDNIPEYVDRAKDKDDPFRLGFGHRVYKNYDPRATVRETCHEVLKELNIQDPLLDVAELERIALSDEYFVSKKLYPNVDFYSGIILKAIGIPVSFTVIFAISRTIGWIAHWNEHSDPLNRIGRPRQLYTGEVQRDFQPHER DKKATLHVEGKAPIELPIEGSLGTPVIDVRKLGANGYFTFDPGFLATASCESQITYIDGGKGILLHRGYPIDQLANNADYLEVCYILLYGEAPTREQYEKFKTTVTRHTVHEQIASFFHGFRRDAHPAVCGVVGALAAFYHDSLDINNDLHREITAYRLLSKPTLAACYKYSTGQPFIYPRNDLSYAENFLHFATPCEEYEVNPVVARADKIFTLHADHEQNASTSTVRLAGSSGANPFACIAAGIASLWGPAHGGANEACLKLEEIGSVDNIPEYVDRAKDKDDPFRLGFGHRVYKNYDPRATVRETCHEVLKELNIQDPLLDVAELERIALSDEYFVSKKLYPNVDFYSGIILKAIGIPVSFTVIFAISRTIGWIAHWNEHSDPLNRIGRPRQLYTGEVQRDFQPHER 4e6y-a2-m1-cA_4e6y-a2-m4-cA Type II citrate synthase from Vibrio vulnificus. 2.5 X-RAY DIFFRACTION 495 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 410 410 4e6y-a1-m1-cA_4e6y-a1-m4-cA 4e6y-a1-m2-cA_4e6y-a1-m6-cA 4e6y-a1-m3-cA_4e6y-a1-m5-cA DKKATLHVEGKAPIELPIEGSLGTPVIDVRKLGANGYFTFDPGFLATASCESQITYIDGGKGILLHRGYPIDQLANNADYLEVCYILLYGEAPTREQYEKFKTTVTRHTVHEQIASFFHGFRRDAHPAVCGVVGALAAFYHDSLDINNDLHREITAYRLLSKPTLAACYKYSTGQPFIYPRNDLSYAENFLHFATPCEEYEVNPVVARADKIFTLHADHEQNASTSTVRLAGSSGANPFACIAAGIASLWGPAHGGANEACLKLEEIGSVDNIPEYVDRAKDKDDPFRLGFGHRVYKNYDPRATVRETCHEVLKELNIQDPLLDVAELERIALSDEYFVSKKLYPNVDFYSGIILKAIGIPVSFTVIFAISRTIGWIAHWNEHSDPLNRIGRPRQLYTGEVQRDFQPHER DKKATLHVEGKAPIELPIEGSLGTPVIDVRKLGANGYFTFDPGFLATASCESQITYIDGGKGILLHRGYPIDQLANNADYLEVCYILLYGEAPTREQYEKFKTTVTRHTVHEQIASFFHGFRRDAHPAVCGVVGALAAFYHDSLDINNDLHREITAYRLLSKPTLAACYKYSTGQPFIYPRNDLSYAENFLHFATPCEEYEVNPVVARADKIFTLHADHEQNASTSTVRLAGSSGANPFACIAAGIASLWGPAHGGANEACLKLEEIGSVDNIPEYVDRAKDKDDPFRLGFGHRVYKNYDPRATVRETCHEVLKELNIQDPLLDVAELERIALSDEYFVSKKLYPNVDFYSGIILKAIGIPVSFTVIFAISRTIGWIAHWNEHSDPLNRIGRPRQLYTGEVQRDFQPHER 4e70-a1-m1-cB_4e70-a1-m1-cA Crystal Structure Analysis of Coniferyl Alcohol 9-O-Methyltransferase from Linum Nodiflorum in Complex with Coniferyl Alcohol A6XNE6 A6XNE6 1.6093 X-RAY DIFFRACTION 291 0.986 407264 (Linum nodiflorum) 407264 (Linum nodiflorum) 356 359 4ems-a1-m1-cB_4ems-a1-m1-cA 4evi-a1-m1-cB_4evi-a1-m1-cA GLVPHMDAATAVELLDAQPQVWHHFLGYINSMTLQCALELDIADVIHRHGHPIPLNQLAAALEIPQTKAPFLSRLMRMLVHLGYFTQVITKPVLPSYWLAPLSRLLLKQNPYNARSLTFCSVHEHLVDPWRQMSAWLRTGKKDTPNAFAFAHEGKKVYEVCSEDANFSQLFSEGMAGDSWLFSRALVSKCRDAFEGLSSLVDVGGGTGNTSKVIAETFPNIHCTVFDLPGPKQTHPNLDYESGNMFTDEIPHADAVLFKWVLCDWPDEPVLKMLKQCKKALTKGKLMIADHVLDHESCNDSNSMGTSLILDMLFMSFLEGSLRTEKQWAKLFAEAGFKDYKITPVGGLRVLIEVYP MDAATAVELLDAQPQVWHHFLGYINSMTLQCALELDIADVIHRHGHPIPLNQLAAALEIPQTKAPFLSRLMRMLVHLGYFTQVITKPVLPSYWLAPLSRLLLKQNPYNARSLTFCSVHEHLVDPWRQMSAWLRTGKEDGKDTPNAFAFAHEGKKVYEVCSEDANFSQLFSEGMAGDSWLFSRALVSKCRDAFEGLSSLVDVGGGTGNTSKVIAETFPNIHCTVFDLPHVVSGPKQTHPNLDYESGNMFTDEIPHADAVLFKWVLCDWPDEPVLKMLKQCKKALTKKGKLMIADHVLDHESCNDSNSMGTSLILDMLFMSFLEGSLRTEKQWAKLFAEAGFKDYKITPVGGLRVLIEVYP 4e71-a1-m1-cA_4e71-a1-m2-cA Crystal structure of the RHO GTPASE binding domain of Plexin B2 O15031 O15031 2.26 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 EYAPLTVSVIVQDEGVDAIPVKVLNCDTISQVKEKIIDQVYRPDSVVLEWRPSTAQILSDLDLTSQRWKRVNTLMHYNVRDGATLILSKV EYAPLTVSVIVQDEGVDAIPVKVLNCDTISQVKEKIIDQVYRPDSVVLEWRPSTAQILSDLDLTSQRWKRVNTLMHYNVRDGATLILSKV 4e74-a1-m1-cA_4e74-a1-m2-cA Crystal structure of the RHO GTPASE BINDING DOMAIN of Plexin A4A Q9HCM2 Q9HCM2 1.58 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 DYKTLVLSCVSPSPEVPVKILNCDTITQVKEKILDAIFKNVPCSHRPKAADMDLEWRQGSGARMILQDEDITTKIWKRLNTLAHYQVPDGSVVALVSKQVT DYKTLVLSCVSPSPEVPVKILNCDTITQVKEKILDAIFKNVPCSHRPKAADMDLEWRQGSGARMILQDEDITTKIWKRLNTLAHYQVPDGSVVALVSKQVT 4e75-a2-m1-cD_4e75-a2-m1-cF Structure of LpxD from Acinetobacter baumannii at 2.85A resolution (P21 form) B0VMV2 B0VMV2 2.85 X-RAY DIFFRACTION 183 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 337 337 4e75-a1-m1-cA_4e75-a1-m1-cB 4e75-a1-m1-cA_4e75-a1-m1-cC 4e75-a1-m1-cB_4e75-a1-m1-cC 4e75-a2-m1-cD_4e75-a2-m1-cE 4e75-a2-m1-cE_4e75-a2-m1-cF 4e79-a1-m1-cA_4e79-a1-m1-cB 4e79-a1-m1-cA_4e79-a1-m1-cC 4e79-a1-m1-cC_4e79-a1-m1-cB VQQYRLDELAHLVKGELIGEGSLQFSNLASLENAEVNHLTFVNGEKHLDQAKVSRAGAYIVTAALKEHLPEKDNFIIVDNPYLAFAILTHVFDKKISSTGIESTARIHPSAVISETAYIGHYVVIGENCVVGDNTVIQSHTKLDDNVEVGKDCFIDSYVTITGSSKLRDRVRIHSSTVIGGEGFGFAPYQGKWHRIAQLGSVLIGNDVRIGSNCSIDRGALDNTILEDGVIIDNLVQIAHNVHIGSNTAIAAKCGIAGSTKIGKNCILAGACGVAGHLSIADNVTLTGMSMVTKNISEAGTYSSGTGLFENNHWKKTIVRLRQLADVPLTQITKRLD VQQYRLDELAHLVKGELIGEGSLQFSNLASLENAEVNHLTFVNGEKHLDQAKVSRAGAYIVTAALKEHLPEKDNFIIVDNPYLAFAILTHVFDKKISSTGIESTARIHPSAVISETAYIGHYVVIGENCVVGDNTVIQSHTKLDDNVEVGKDCFIDSYVTITGSSKLRDRVRIHSSTVIGGEGFGFAPYQGKWHRIAQLGSVLIGNDVRIGSNCSIDRGALDNTILEDGVIIDNLVQIAHNVHIGSNTAIAAKCGIAGSTKIGKNCILAGACGVAGHLSIADNVTLTGMSMVTKNISEAGTYSSGTGLFENNHWKKTIVRLRQLADVPLTQITKRLD 4e77-a1-m1-cA_4e77-a1-m2-cA 2.0A Crystal Structure of a Glutamate-1-Semialdehyde Aminotransferase from Yersinia pestis CO92 Q8ZBL9 Q8ZBL9 2 X-RAY DIFFRACTION 282 1.0 386656 (Yersinia pestis Pestoides F) 386656 (Yersinia pestis Pestoides F) 389 389 SKSENLYAQAQQLIPGGVNSPVRAFTGVGGIPLFIERADGAYLFDVDGKAYIDYVGSWGPILGHNHPAIRQAVIEAVERGLSFGAPTEEVKAQLVTDLVPTDVRVNSGTEATSAIRLARGYTGRDKIIKFEGCYHGPNSPGVPTDFAKHTLTCTYNDLASVRQAFEQYPQEVACIIVEPVAGNNCIPPLPEFLPGLRALCDEFGALLIIDEVTGFRVALAGAQDYYHVIPDLTCLGKIIGGGPVGAFGGRREVNALAPTGPVYQTLSGNPIAAAGFACLTEISQVGVYETLTELTDSLATGLRHAAKEENIPLVVNHVGGFGLFFTNADTVTCYQDVNCDVERFKRFFHLLEEGVYLAPSAFEAGFSLAHSNEDIQKTVNAARRCFAKL SKSENLYAQAQQLIPGGVNSPVRAFTGVGGIPLFIERADGAYLFDVDGKAYIDYVGSWGPILGHNHPAIRQAVIEAVERGLSFGAPTEEVKAQLVTDLVPTDVRVNSGTEATSAIRLARGYTGRDKIIKFEGCYHGPNSPGVPTDFAKHTLTCTYNDLASVRQAFEQYPQEVACIIVEPVAGNNCIPPLPEFLPGLRALCDEFGALLIIDEVTGFRVALAGAQDYYHVIPDLTCLGKIIGGGPVGAFGGRREVNALAPTGPVYQTLSGNPIAAAGFACLTEISQVGVYETLTELTDSLATGLRHAAKEENIPLVVNHVGGFGLFFTNADTVTCYQDVNCDVERFKRFFHLLEEGVYLAPSAFEAGFSLAHSNEDIQKTVNAARRCFAKL 4e7p-a1-m1-cA_4e7p-a1-m1-cB Crystal structure of receiver domain of putative NarL family response regulator spr1814 from Streptococcus pneumoniae in the presence of the phosphoryl analog beryllofluoride Q8DNC2 Q8DNC2 1.892 X-RAY DIFFRACTION 15 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 131 131 4e7o-a1-m1-cA_4e7o-a1-m1-cB 4hye-a1-m1-cA_4hye-a1-m1-cB HMKVLVAEDQSMLRDAMCQLLTLQPDVESVLQAKNGQEAIQLLEKESVDIAILDVEMPVKTGLEVLEWIRSEKLETKVVVVTTFKRAGYFERAVKAGVDAYVLKERSIADLMQTLHTVLEGRKEYSPELME HMKVLVAEDQSMLRDAMCQLLTLQPDVESVLQAKNGQEAIQLLEKESVDIAILDVEMPVKTGLEVLEWIRSEKLETKVVVVTTFKRAGYFERAVKAGVDAYVLKERSIADLMQTLHTVLEGRKEYSPELME 4e85-a1-m1-cB_4e85-a1-m1-cA crystal STRUCTURE OF HAT DOMAIN OF RNA14 Q6CII8 Q6CII8 3 X-RAY DIFFRACTION 109 0.989 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 552 555 4e6h-a1-m1-cA_4e6h-a1-m2-cA 4eba-a1-m1-cB_4eba-a1-m1-cA 4eba-a2-m1-cD_4eba-a2-m1-cC 4eba-a3-m1-cF_4eba-a3-m1-cE ESDVIGKLNDMIEEQPTDIFLYVKLLKHHVSLKQWKQVYETFDKLHDRFPLMANIWCMRLSLEFDKMEELDAAVIEPVLARCLSKELGNNDLSLWLSYITYVRKKNDIITGGEEARNIVIQAFQVVVDKCAIFEPKSIQFWNEYLHFLEHWKPVNKFEEQQRVQYIRKLYKTLLCQPMDCLESMWQRYTQWEQDVNQLTARRHIGELSAQYMNARSLYQDWLNITKGLKRNLPITLNQATESNLPKPNEYDVQQLLIWLEWIRWESDNKLELSDDLHKARMTYVYMQAAQHVCFAPEIWFNMANYQGEKNTDSTVITKYLKLGQQCIPNSAVLAFSLSEQYELNTKIPEIETTILSCIDRIHLDLAALMEDDPTNESAINQLKSKLTYVYCVYMNTMKRIQGLAASRKIFGKCRRLKKLVTPDIYLENAYIEYHISKDTKTACKVLELGLKYFATDGEYINKYLDFLIYVNEESQVKSLFESSIDKISDSHLLKMIFQKVIFFESKVGSLNSVRTLEKRFFEKFPEVNKLEEFTNKYKVLDVNYLQRLELDY RPTSRVRDESDVIGKLNDMIEEQPTDIFLYVKLLKHHVSLKQWKQVYETFDKLHDRFPLMANIWCMRLSLEFDKMEELDAAVIEPVLARCLSKELGNNDLSLWLSYITYVRKKNDIITGGEEARNIVIQAFQVVVDKCAIFEPKSIQFWNEYLHFLEHWKPVNKFEEQQRVQYIRKLYKTLLCQPMDCLESMWQRYTQWEQDVNHIGELSAQYMNARSLYQDWLNITKGLKRNLPITLNQATESNLPKPNEYDVQQLLIWLEWIRWESDNKLELSDDLHKARMTYVYMQAAQHVCFAPEIWFNMANYQGEKNTDSTVITKYLKLGQQCIPNSAVLAFSLSEQYELNTKIPEIETTILSCIDRIHLDLAALMEDDPTNESAINQLKSKLTYVYCVYMNTMKRIQGLAASRKIFGKCRRLKKLVTPDIYLENAYIEYHISKDTKTACKVLELGLKYFATDGEYINKYLDFLIYVNEESQVKSLFESSIDKISDSHLLKMIFQKVIFFESKVGSLNSVRTLEKRFFEKFPEVNKLEEFTNKYKVLDVNYLQRLELDYM 4e86-a14-m1-cL_4e86-a14-m2-cL Crystal structure of human alpha-defensin 5, HD5 (Leu29Aba mutant) Q01523 Q01523 2.75 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 4e86-a10-m1-cA_4e86-a10-m1-cB 4e86-a11-m1-cD_4e86-a11-m1-cC 4e86-a12-m1-cE_4e86-a12-m1-cF 4e86-a13-m1-cH_4e86-a13-m1-cG TCYCRTGRCATRESLSGVCEISGRLYRCCR TCYCRTGRCATRESLSGVCEISGRLYRCCR 4e89-a2-m1-cA_4e89-a2-m2-cA Crystal Structure of RnaseH from gammaretrovirus A1Z651 A1Z651 2.6 X-RAY DIFFRACTION 43 1.0 373193 (Xenotropic MuLV-related virus VP62) 373193 (Xenotropic MuLV-related virus VP62) 157 157 PDLTDQPIPDADYTWYTDGSSFLQEGQRRAGAAVTTETEVIWARALPAGTSAQRAELIALTQALKMAEGKKLNVYTDSRYAFATAHVHGEIYRRRGLLTSEGREIKNKNEILALLKALFLPKRLSIIHCPGHQKGNSAEARGNRMADQAAREAAMKA PDLTDQPIPDADYTWYTDGSSFLQEGQRRAGAAVTTETEVIWARALPAGTSAQRAELIALTQALKMAEGKKLNVYTDSRYAFATAHVHGEIYRRRGLLTSEGREIKNKNEILALLKALFLPKRLSIIHCPGHQKGNSAEARGNRMADQAAREAAMKA 4e8b-a1-m1-cA_4e8b-a1-m2-cA Crystal structure of 16S rRNA Methyltransferase RsmE from E.coli P0AGL7 P0AGL7 2.249 X-RAY DIFFRACTION 19 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 242 242 IPRIYHPEPLTSHSHIALCEDAANHIGRVLRMGPGQALQLFDGSNQVFDAEITSASKKSVEVKVLEGQIDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDSERLNKKLQQWQKIAIAACEQCGRNRVPEIRPAMDLEAWCAEQDEGLKLNLHPRASNSINTLPLPVERVRLLIGPEGGLSADEIAMTARYQFTDILLGPRVLRTETTALTAITALQVRFGDLGL IPRIYHPEPLTSHSHIALCEDAANHIGRVLRMGPGQALQLFDGSNQVFDAEITSASKKSVEVKVLEGQIDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDSERLNKKLQQWQKIAIAACEQCGRNRVPEIRPAMDLEAWCAEQDEGLKLNLHPRASNSINTLPLPVERVRLLIGPEGGLSADEIAMTARYQFTDILLGPRVLRTETTALTAITALQVRFGDLGL 4e8b-a2-m1-cA_4e8b-a2-m3-cA Crystal structure of 16S rRNA Methyltransferase RsmE from E.coli P0AGL7 P0AGL7 2.249 X-RAY DIFFRACTION 100 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 242 242 IPRIYHPEPLTSHSHIALCEDAANHIGRVLRMGPGQALQLFDGSNQVFDAEITSASKKSVEVKVLEGQIDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDSERLNKKLQQWQKIAIAACEQCGRNRVPEIRPAMDLEAWCAEQDEGLKLNLHPRASNSINTLPLPVERVRLLIGPEGGLSADEIAMTARYQFTDILLGPRVLRTETTALTAITALQVRFGDLGL IPRIYHPEPLTSHSHIALCEDAANHIGRVLRMGPGQALQLFDGSNQVFDAEITSASKKSVEVKVLEGQIDDRESPLHIHLGQVMSRGEKMEFTIQKSIELGVSLITPLFSERCGVKLDSERLNKKLQQWQKIAIAACEQCGRNRVPEIRPAMDLEAWCAEQDEGLKLNLHPRASNSINTLPLPVERVRLLIGPEGGLSADEIAMTARYQFTDILLGPRVLRTETTALTAITALQVRFGDLGL 4e8d-a1-m1-cA_4e8d-a1-m1-cB Crystal structure of streptococcal beta-galactosidase A0A0H2UN19 A0A0H2UN19 1.8 X-RAY DIFFRACTION 101 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 590 594 4e8c-a1-m1-cB_4e8c-a1-m1-cA TRFEIRDDFYLDGKSFKILSGAIHYFRVPPEDWYHSLYNLKALGFNTVETYVAWNLHEPCEGEFHFEGDLDLEKFLQIAQDLGLYAIVRPSPFICAEWEFGGLPAWLLTKNMRIRSSDPAYIEAVGRYYDQLLPRLVPRLLDNGGNILMMQVENEYGSYGEDKAYLRAIRQLMEECGVTCPLFTSDGPWRATLKAGTLIEEDLFVTGNFGSKAPYNFSQMQEFFDEHGKKWPLMCMEFWDGWFNRWKEPIITRDPKELADAVREVLEQGSINLYMFHGGTNFGFMNGCSARGTLDLPQVTSYDYDALLDEEGNPTAKYLAVKKMMATHFSEYPQLEPLYKESMELDAIPLVEKVSLFETLDSLSSPVESLYPQKMEELGQSYGYLLYRTETNWDAEEERLRIIDGRDRAQLYVDGQWVKTQYQTEIGEDIFYQGKKKGLSRLDILIENMGRVNYGHKFLADTQRKGIRTGVCKDLHFLLNWKHYPLPLDNPEKIDFSKGWTQGQPAFYAYDFTVEEPKDTYLDLSEFGKGVAFVNGQNLGRFWNVGPTLSLYIPHSYLKEGANRIIIFETEGQYKEEIHLTRKPTLKHIK TRFEIRDDFYLDGKSFKILSGAIHYFRVPPEDWYHSLYNLKALGFNTVETYVAWNLHEPCEGEFHFEGDLDLEKFLQIAQDLGLYAIVRPSPFICAEWEFGGLPAWLLTKNMRIRSSDPAYIEAVGRYYDQLLPRLVPRLLDNGGNILMMQVENEYGSYGEDKAYLRAIRQLMEECGVTCPLFTSDGPWRATLKAGTLIEEDLFVTGNFGSKAPYNFSQMQEFFDEHGKKWPLMCMEFWDGWFNRWKEPIITRDPKELADAVREVLEQGSINLYMFHGGTNFGFMNGCSARGTLDLPQVTSYDYDALLDEEGNPTAKYLAVKKMMATHFSEYPQLEPLYKESMELDAIPLVEKVSLFETLDSLSSPVESLYPQKMEELGQSYGYLLYRTETNWDAEEERLRIIDGRDRAQLYVDGQWVKTQYQTEIGEDIFYQGKKKGLSRLDILIENMGRVNYGHKFLADTQRKGIRTGVCKDLHFLLNWKHYPLPLDNPEKIDFSKGWTQGQPAFYAYDFTVEEPKDTYLDLSEFGKGVAFVNGQNLGRFWNVGPTLSLYIPHSYLKEGANRIIIFETEGQYKEEIHLTRKPTLKHIKGENL 4e8h-a1-m1-cA_4e8h-a1-m1-cB Structural of Bombyx mori glutathione transferase BmGSTD1 complex with GTT O61996 O61996 2.12 X-RAY DIFFRACTION 84 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 214 216 4e8e-a1-m1-cA_4e8e-a1-m1-cC 4e8e-a2-m1-cB_4e8e-a2-m1-cD 4e8h-a2-m1-cC_4e8h-a2-m1-cD HMPVQPIKLYYLPPSPPCRAVMMTARVLELDLHLITTNIMNGEHMTPEYLKMNPQHTIPTMDDNGFILWESRAIQTYLVNAYGKDDSLYPKNPRQRAIIDQRLNFDLGTLYLRYLNLYTPILFRAYDQEKADKFDEALGWLNTFLDGRPFVAGENMTVADITIVVTITNIDAFGYDFSSHENIAKWFERTKKMLEPYGYDEIDVTGAKMLASFL HMPVQPIKLYYLPPSPPCRAVMMTARVLELDLHLITTNIMNGEHMTPEYLKMNPQHTIPTMDDNGFILWESRAIQTYLVNAYGKDDSLYPKNPRQRAIIDQRLNFDLGTLYLRYLNLYTPILFRGEAYDQEKADKFDEALGWLNTFLDGRPFVAGENMTVADITIVVTITNIDAFGYDFSSHENIAKWFERTKKMLEPYGYDEIDVTGAKMLASFL 4e8o-a1-m1-cA_4e8o-a1-m1-cB Crystal structure of aminoglycoside antibiotic 6'-N-acetyltransferase AAC(6')-Ih from Acinetobacter baumannii Q43899 Q43899 2.138 X-RAY DIFFRACTION 146 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 147 148 GMNIMPISESQLSDWLALRCLLWPDHEDVHLQEMRQLITQAHRLQLLAYTDTQQAIAMLEASIRYEYVNGTQTSPVAFLEGIFVLPEYRRSGIATGLVQQVEIWAKQFACTEFASDAALDNQISHAMHQALGFHETERVVYFKKNIG QGMNIMPISESQLSDWLALRCLLWPDHEDVHLQEMRQLITQAHRLQLLAYTDTQQAIAMLEASIRYEYVNGTQTSPVAFLEGIFVLPEYRRSGIATGLVQQVEIWAKQFACTEFASDAALDNQISHAMHQALGFHETERVVYFKKNIG 4e8u-a2-m1-cC_4e8u-a2-m2-cC Crystal structure of Arabidopsis IDN2 XS domain along with a small segment of adjacent coiled-coil region Q8VZ79 Q8VZ79 2.701 X-RAY DIFFRACTION 30 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 165 165 4e8u-a2-m1-cA_4e8u-a2-m2-cA EKLVYPWKGIVVNIPTTKAQDGRSAGESGSKLRDEYILRGFNPTRVRPLWNYLGHSGTAIVEFNKDWNGLHNGLLFDKAYTVDGHGKKDWLKKDGPKLGLYGWIARADDYNGNNIIGENLRKTGDLKTIAELTEEEARKQELLVQNLRQLVEEKKKDMKEIEELC EKLVYPWKGIVVNIPTTKAQDGRSAGESGSKLRDEYILRGFNPTRVRPLWNYLGHSGTAIVEFNKDWNGLHNGLLFDKAYTVDGHGKKDWLKKDGPKLGLYGWIARADDYNGNNIIGENLRKTGDLKTIAELTEEEARKQELLVQNLRQLVEEKKKDMKEIEELC 4e8u-a2-m2-cC_4e8u-a2-m1-cA Crystal structure of Arabidopsis IDN2 XS domain along with a small segment of adjacent coiled-coil region Q8VZ79 Q8VZ79 2.701 X-RAY DIFFRACTION 26 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 165 166 4e8u-a2-m1-cC_4e8u-a2-m2-cA EKLVYPWKGIVVNIPTTKAQDGRSAGESGSKLRDEYILRGFNPTRVRPLWNYLGHSGTAIVEFNKDWNGLHNGLLFDKAYTVDGHGKKDWLKKDGPKLGLYGWIARADDYNGNNIIGENLRKTGDLKTIAELTEEEARKQELLVQNLRQLVEEKKKDMKEIEELC DEKLVYPWKGIVVNIPTTKAQDGRSAGESGSKLRDEYILRGFNPTRVRPLWNYLGHSGTAIVEFNKDWNGLHNGLLFDKAYTVDGHGKKDWLKKDGPKLGLYGWIARADDYNGNNIIGENLRKTGDLKTIAELTEEEARKQELLVQNLRQLVEEKKKDMKEIEELC 4e8u-a2-m2-cC_4e8u-a2-m2-cA Crystal structure of Arabidopsis IDN2 XS domain along with a small segment of adjacent coiled-coil region Q8VZ79 Q8VZ79 2.701 X-RAY DIFFRACTION 65 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 165 166 4e8u-a1-m1-cC_4e8u-a1-m1-cA 4e8u-a2-m1-cC_4e8u-a2-m1-cA EKLVYPWKGIVVNIPTTKAQDGRSAGESGSKLRDEYILRGFNPTRVRPLWNYLGHSGTAIVEFNKDWNGLHNGLLFDKAYTVDGHGKKDWLKKDGPKLGLYGWIARADDYNGNNIIGENLRKTGDLKTIAELTEEEARKQELLVQNLRQLVEEKKKDMKEIEELC DEKLVYPWKGIVVNIPTTKAQDGRSAGESGSKLRDEYILRGFNPTRVRPLWNYLGHSGTAIVEFNKDWNGLHNGLLFDKAYTVDGHGKKDWLKKDGPKLGLYGWIARADDYNGNNIIGENLRKTGDLKTIAELTEEEARKQELLVQNLRQLVEEKKKDMKEIEELC 4e8w-a3-m1-cB_4e8w-a3-m2-cB Crystal Structure of Burkholderia cenocepacia HldA in Complex with an ATP-competitive Inhibitor B4EB35 B4EB35 2.8654 X-RAY DIFFRACTION 64 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 302 302 4e84-a1-m1-cB_4e84-a1-m1-cA 4e8w-a1-m1-cA_4e8w-a1-m2-cA 4e8w-a2-m1-cB_4e8w-a2-m2-cB 4e8w-a3-m1-cA_4e8w-a3-m2-cA 4e8y-a1-m1-cA_4e8y-a1-m2-cA 4e8y-a2-m1-cB_4e8y-a2-m2-cB 4e8z-a1-m1-cA_4e8z-a1-m2-cA 4e8z-a2-m1-cB_4e8z-a2-m2-cB 4e8z-a3-m1-cA_4e8z-a3-m2-cA 4e8z-a3-m1-cB_4e8z-a3-m2-cB VVPVPREQLARSRVLVVGDVMLDRYWFGNVDRISPEAPVPVVHVQRQEERLGGAANVARNAVTLGGQAGLLCVVGCDEPGERIVELLGSSGVTPHLERDPALPTTIKLRVLARQQQLLRVDFEAMPTHEVLLAGLARFDVLLPQHDVVLMSDYAKGGLTHVTTMIEKARAAGKAVLVDPKGDDWARYRGASLITPNRAELREVVGQWKSEDDLRARVANLRAELDIDALLLTRSEEGMTLFSAGGELHAPALVSGAGDTVIATVATMLGAGVPLVDAVVLANRAAGIVVGKGTATVDYDELF VVPVPREQLARSRVLVVGDVMLDRYWFGNVDRISPEAPVPVVHVQRQEERLGGAANVARNAVTLGGQAGLLCVVGCDEPGERIVELLGSSGVTPHLERDPALPTTIKLRVLARQQQLLRVDFEAMPTHEVLLAGLARFDVLLPQHDVVLMSDYAKGGLTHVTTMIEKARAAGKAVLVDPKGDDWARYRGASLITPNRAELREVVGQWKSEDDLRARVANLRAELDIDALLLTRSEEGMTLFSAGGELHAPALVSGAGDTVIATVATMLGAGVPLVDAVVLANRAAGIVVGKGTATVDYDELF 4e8w-a3-m2-cA_4e8w-a3-m2-cB Crystal Structure of Burkholderia cenocepacia HldA in Complex with an ATP-competitive Inhibitor B4EB35 B4EB35 2.8654 X-RAY DIFFRACTION 39 0.997 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 299 302 4e8w-a3-m1-cA_4e8w-a3-m1-cB 4e8z-a3-m1-cA_4e8z-a3-m1-cB 4e8z-a3-m2-cA_4e8z-a3-m2-cB VPREQLARSRVLVVGDVMLDRYWFGNVDRISPEAPVPVVHVQRQEERLGGAANVARNAVTLGGQAGLLCVVGCDEPGERIVELLGSSGVTPHLERDPALPTTIKLRVLARQQQLLRVDFEAMPTHEVLLAGLARFDVLLPQHDVVLMSDYAKGGLTHVTTMIEKARAAGKAVLVDPKGDDWARYRGASLITPNRAELREVVGQWKSEDDLRARVANLRAELDIDALLLTRSEEGMTLFSAGGELHAPALAVSGAGDTVIATVATMLGAGVPLVDAVVLANRAAGIVVGKTATVDYDELF VVPVPREQLARSRVLVVGDVMLDRYWFGNVDRISPEAPVPVVHVQRQEERLGGAANVARNAVTLGGQAGLLCVVGCDEPGERIVELLGSSGVTPHLERDPALPTTIKLRVLARQQQLLRVDFEAMPTHEVLLAGLARFDVLLPQHDVVLMSDYAKGGLTHVTTMIEKARAAGKAVLVDPKGDDWARYRGASLITPNRAELREVVGQWKSEDDLRARVANLRAELDIDALLLTRSEEGMTLFSAGGELHAPALVSGAGDTVIATVATMLGAGVPLVDAVVLANRAAGIVVGKGTATVDYDELF 4e98-a1-m1-cC_4e98-a1-m1-cB Crystal structure of possible CutA1 divalent ion tolerance protein from Cryptosporidium parvum Iowa II Q5CX58 Q5CX58 2 X-RAY DIFFRACTION 85 0.99 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 105 106 4e98-a1-m1-cB_4e98-a1-m1-cA 4e98-a1-m1-cC_4e98-a1-m1-cA SNIILIYISAPNQDEATSIAKTLVDEELCACVSIIPSVRSIYKFKGQVHDENEVMLLVKTTSQLFTTLKEKVTEIHSYELPEIIATKVVYGNENYINWVNQTVRS IESNIILIYISAPNQDEATSIAKTLVDEELCACVSIIPSVRSIYKFKGQVHDENEVMLLVKTTSQLFTTLKEKVTEIHSYELPEIIATKVVYGNENYINWVNQTVR 4e9j-a1-m1-cB_4e9j-a1-m1-cA Crystal structure of the N-terminal domain of the secretin XcpQ from Pseudomonas aeruginosa P35818 P35818 2.03 X-RAY DIFFRACTION 62 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 208 217 4ec5-a1-m1-cB_4ec5-a1-m1-cA 5mp2-a1-m1-cB_5mp2-a1-m1-cA 5ngi-a1-m1-cA_5ngi-a1-m1-cB AHWTINLKDADIREFIDQISEITGETFVVDPRVKGQVSVVSKAQLSLSEVYQLFLSVMSTHGFTVVAQGDQARIVPNRLETRVIQVQQSPVSELIPLIRPLVPQYGHLAAVPSANALIISDRSANIARIEDVIRQLDQKGSHDYSVINLRYGWVMDAAEVLNNAMSRGQAKGAAGAQVIADARTNRLIILGPPQARAKLVQLAQSLDT AFVPAAHWTINLKDADIREFIDQISEITGETFVVDPRVKGQVSVVSKAQLSLSEVYQLFLSVMSTHGFTVVAQGDQARIVPNAAPDRLETRVIQVQQSPVSELIPLIRPLVPQYGHLAAVPSANALIISDRSANIARIEDVIRQLDQKGSHDYSVINLRYGWVMDAAEVLNNAMSRGQAKGAAGAQVIADARTNRLIILGPPQARAKLVQLAQSLDT 4e9k-a1-m1-cA_4e9k-a1-m2-cA Crystal structure of a DUF4465 family protein (BACOVA_04221) from Bacteroides ovatus ATCC 8483 at 2.31 A resolution A7M287 A7M287 2.31 X-RAY DIFFRACTION 62 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 237 237 DDTKTYILSLPNYETHTLDGDQENPDDSWSVSSEWGTTNYKYNLLTDASGIFEFDCVSSTYGFYSDSFAFTNCTVEDCPDFASYDYRAITKKGVINNTYVIVGAAGYKIGKNSDKEAAIRFRDHDNPNELEDYRVKGLYVTNSVYAYSSKEGTGYYGEEEIFGSNDSFKLTIYNYDKTHVDCYLAEGTNLLDQWKWVDLTSLGETKGLKFSLTSTKKNEYGPLTPTYFCLDGITIED DDTKTYILSLPNYETHTLDGDQENPDDSWSVSSEWGTTNYKYNLLTDASGIFEFDCVSSTYGFYSDSFAFTNCTVEDCPDFASYDYRAITKKGVINNTYVIVGAAGYKIGKNSDKEAAIRFRDHDNPNELEDYRVKGLYVTNSVYAYSSKEGTGYYGEEEIFGSNDSFKLTIYNYDKTHVDCYLAEGTNLLDQWKWVDLTSLGETKGLKFSLTSTKKNEYGPLTPTYFCLDGITIED 4e9l-a2-m1-cA_4e9l-a2-m2-cA FdeC, a Novel Broadly Conserved Escherichia coli Adhesin Eliciting Protection against Urinary Tract Infections A0A0H2YWG9 A0A0H2YWG9 1.9 X-RAY DIFFRACTION 79 1.0 364106 (Escherichia coli UTI89) 364106 (Escherichia coli UTI89) 314 314 FVAGPLDAAHSSITLNPDKPVVGGTVTAIWTAKDANDNPVTGLNPDAPSLSGAAAAGSTASGWTDNGDGTWTAQISLGTTAGELDVMPKLNGQDAAANAAKVTVVADALSSNQSKVSVAEDHVKAGESTTVTLVAKDAHGNAISGLSLSASLTGTASEGATVSSWTEKGDGSYVATLTTGGKTGELRVMPLFNGQPAATEAAQLTVIAGEMSSANSTLVADNKTPTVKTTTELTFTMKDAYGNPVTGLKPDAPVFSGAASTGSERPSAGNWTEKGNGVYVSTLTLGSAAGQLSVMPRVNGQNAVAQPLVLNVAG FVAGPLDAAHSSITLNPDKPVVGGTVTAIWTAKDANDNPVTGLNPDAPSLSGAAAAGSTASGWTDNGDGTWTAQISLGTTAGELDVMPKLNGQDAAANAAKVTVVADALSSNQSKVSVAEDHVKAGESTTVTLVAKDAHGNAISGLSLSASLTGTASEGATVSSWTEKGDGSYVATLTTGGKTGELRVMPLFNGQPAATEAAQLTVIAGEMSSANSTLVADNKTPTVKTTTELTFTMKDAYGNPVTGLKPDAPVFSGAASTGSERPSAGNWTEKGNGVYVSTLTLGSAAGQLSVMPRVNGQNAVAQPLVLNVAG 4e9m-a7-m1-cB_4e9m-a7-m1-cA NOD1 card domain with three disulfide-clinched, domain-swapped dimers in the asymmetric unit Q9Y239 Q9Y239 2.15 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 97 2nsn-a1-m1-cA_2nsn-a1-m2-cA 2nz7-a1-m1-cA_2nz7-a1-m1-cB 4e9m-a8-m1-cC_4e9m-a8-m1-cD SHPHIQLLKSNRELLVTHIRNTQCLVDNLLKNDYFSAEDAEIVCACPTQPDKVRKILDLVQSKGEEVSEFFLYLLQQLADAYVDLRPWLLEIGFS SESHPHIQLLKSNRELLVTHIRNTQCLVDNLLKNDYFSAEDAEIVCACPTQPDKVRKILDLVQSKGEEVSEFFLYLLQQLADAYVDLRPWLLEIGFS 4e9x-a1-m1-cB_4e9x-a1-m1-cC Multicopper Oxidase mgLAC (data3) C0STU6 C0STU6 1.14 X-RAY DIFFRACTION 121 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 316 316 2zwn-a1-m1-cB_2zwn-a1-m1-cA 2zwn-a1-m1-cB_2zwn-a1-m1-cC 2zwn-a1-m1-cC_2zwn-a1-m1-cA 4e9v-a1-m1-cB_4e9v-a1-m1-cA 4e9v-a1-m1-cB_4e9v-a1-m1-cC 4e9v-a1-m1-cC_4e9v-a1-m1-cA 4e9w-a1-m1-cB_4e9w-a1-m1-cA 4e9w-a1-m1-cB_4e9w-a1-m1-cC 4e9w-a1-m1-cC_4e9w-a1-m1-cA 4e9x-a1-m1-cB_4e9x-a1-m1-cA 4e9x-a1-m1-cC_4e9x-a1-m1-cA 4e9y-a1-m1-cB_4e9y-a1-m1-cA 4e9y-a1-m1-cB_4e9y-a1-m1-cC 4e9y-a1-m1-cC_4e9y-a1-m1-cA AEREFDMTIEEVTIKVAPGLDYKVFGFNGQVPGPLIHVQEGDDVIVNVTNNTSLPHTIHWHGVHQKGTWRSDGVPGVTQQPIEAGDSYTYKFKADRIGTLWYHCHVNVNEHVGVRGMWGPLIVDPKQPLPIEKRVTKDVIMMMSTWESAVADKYGEGGTPMNVADYFSVNAKSFPLTQPLRVKKGDVVKIRFFGAGGGIHAMHSHGHDMLVTHKDGLPLDSPYYADTVLVSPGERYDVIIEADNPGRFIFHDHVDTHVTAGGKHPGGPITVIEYDGVPVDDWYVWKDKDYDPNFFYSESLKQGYGMFDHDGFKGEF AEREFDMTIEEVTIKVAPGLDYKVFGFNGQVPGPLIHVQEGDDVIVNVTNNTSLPHTIHWHGVHQKGTWRSDGVPGVTQQPIEAGDSYTYKFKADRIGTLWYHCHVNVNEHVGVRGMWGPLIVDPKQPLPIEKRVTKDVIMMMSTWESAVADKYGEGGTPMNVADYFSVNAKSFPLTQPLRVKKGDVVKIRFFGAGGGIHAMHSHGHDMLVTHKDGLPLDSPYYADTVLVSPGERYDVIIEADNPGRFIFHDHVDTHVTAGGKHPGGPITVIEYDGVPVDDWYVWKDKDYDPNFFYSESLKQGYGMFDHDGFKGEF 4ea9-a1-m2-cA_4ea9-a1-m3-cA X-ray structure of GDP-perosamine N-acetyltransferase in complex with transition state analog at 0.9 Angstrom resolution O85353 O85353 0.9 X-RAY DIFFRACTION 84 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 207 207 4ea7-a1-m1-cA_4ea7-a1-m2-cA 4ea7-a1-m1-cA_4ea7-a1-m3-cA 4ea7-a1-m2-cA_4ea7-a1-m3-cA 4ea8-a1-m1-cA_4ea8-a1-m2-cA 4ea8-a1-m1-cA_4ea8-a1-m3-cA 4ea8-a1-m2-cA_4ea8-a1-m3-cA 4ea9-a1-m1-cA_4ea9-a1-m2-cA 4ea9-a1-m1-cA_4ea9-a1-m3-cA 4eaa-a1-m1-cA_4eaa-a1-m2-cA 4eaa-a1-m1-cA_4eaa-a1-m3-cA 4eaa-a1-m2-cA_4eaa-a1-m3-cA 4eab-a1-m1-cA_4eab-a1-m2-cA 4eab-a1-m1-cA_4eab-a1-m3-cA 4eab-a1-m2-cA_4eab-a1-m3-cA ASLAIGGVVIIGGGGHAKVVIESLRACGETVAAIVDADPAVLGVPVVGDDLALPMLREQGLSRLFVAIGDNRLRQKLGRKARDHGFSLVNAIHPSAVVSPSVRLGEGVAVMAGVAINADSWIGDLAIINTGAVVDHDCRLGAACHLGPASALAGGVSVGERAFLGVGARVIPGVTIGADTIVGAGGVVVRDLPDSVLAIGVPAKIKG ASLAIGGVVIIGGGGHAKVVIESLRACGETVAAIVDADPAVLGVPVVGDDLALPMLREQGLSRLFVAIGDNRLRQKLGRKARDHGFSLVNAIHPSAVVSPSVRLGEGVAVMAGVAINADSWIGDLAIINTGAVVDHDCRLGAACHLGPASALAGGVSVGERAFLGVGARVIPGVTIGADTIVGAGGVVVRDLPDSVLAIGVPAKIKG 4eae-a1-m1-cA_4eae-a1-m1-cB The crystal structure of a functionally unknown protein from Listeria monocytogenes EGD-e Q8Y850 Q8Y850 1.32 X-RAY DIFFRACTION 69 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 182 186 EAFSFSPSGFKVSTVESILGGDVTTTYLSSSKSFQKDFEALTLFINQYKVEHVINPTKEVSASNPESYLANKNGYVITLDISIKNNSKKDKYKADQISLLGASKSVGGSLDNFIPSGFHLIGSSSDPYNFTAGKTARGLLTFTDEATYNDLAKDSQIGVPDPSRFDSSGSSQDNVVAPFPIK AEAFSFSPSGFKVSTVESILGGDVTTTYLSSSKSFQKDFEALTLFINQYKVEHVINPTKEVSASNPESYLANKNGYVITLDISIKNNSKKDKYKADQISLLGASKSVGGSLDNFIPSGFHLIGSSSDPYNFTAGKTARGLLTFTDEATYNDLAKDSQIGVPDPSRFDSSSTKGSSQDNVVAPFPIK 4eah-a2-m1-cB_4eah-a2-m1-cC Crystal structure of the formin homology 2 domain of FMNL3 bound to actin Q6ZPF4 Q6ZPF4 3.4 X-RAY DIFFRACTION 246 1.0 10090 (Mus musculus) 10090 (Mus musculus) 357 357 4eah-a1-m1-cA_4eah-a1-m1-cE KKPIKTKFRLPVFNWTALKPNQINGTVFSELDDEKILEDLDLDRFEELFKTKAKVTLLEANRAKNLAITLRKAGRSAEEICRAIHTFDLQTLPVDFVECLMRFLPTEAEVKLLRQYERERQPLEELAAEDRFMLLFSKVERLTQRMAGMAFLGNFQDNLQMLTPQLNAIIAASASVKSSQKLKQMLEIILALGNYMNSSKRGAVYGFKLQSLDLLLDTKSTDRKMTLLHFIALTVKEKYPELANFWQELHFVEKAAAVSLENVLLDVKELGRGMELIRRECSIHDNSVLRNFLSTNEGKLDKLQRDAKTAEEAYNAVVRYFGESPKTTPPSVFFPVFVRFIRSYKEAEQENEARKKQ KKPIKTKFRLPVFNWTALKPNQINGTVFSELDDEKILEDLDLDRFEELFKTKAKVTLLEANRAKNLAITLRKAGRSAEEICRAIHTFDLQTLPVDFVECLMRFLPTEAEVKLLRQYERERQPLEELAAEDRFMLLFSKVERLTQRMAGMAFLGNFQDNLQMLTPQLNAIIAASASVKSSQKLKQMLEIILALGNYMNSSKRGAVYGFKLQSLDLLLDTKSTDRKMTLLHFIALTVKEKYPELANFWQELHFVEKAAAVSLENVLLDVKELGRGMELIRRECSIHDNSVLRNFLSTNEGKLDKLQRDAKTAEEAYNAVVRYFGESPKTTPPSVFFPVFVRFIRSYKEAEQENEARKKQ 4eb2-a1-m1-cB_4eb2-a1-m2-cB Crystal structure Mistletoe Lectin I from Viscum album in complex with n-acetyl-d-glucosamine at 1.94 A resolution. P81446 P81446 1.94 X-RAY DIFFRACTION 70 1.0 3972 (Viscum album) 3972 (Viscum album) 263 263 1onk-a1-m1-cB_1onk-a1-m2-cB 1oql-a1-m1-cB_1oql-a1-m2-cB 1sz6-a1-m1-cB_1sz6-a1-m2-cB 2r9k-a3-m1-cB_2r9k-a3-m5-cB 4jkx-a1-m1-cB_4jkx-a1-m2-cB DDVTCSASEPIVRIVGRNGMTVDVRDDDFQDGNQIQLWPSKSNNDPNQLWTIKKDGTIRSNGSCLTTYGYTAGVYVMIFDCNTAVREATIWQIWGNGTIINPRSNLVLAASSGIKGTTLTVQTLDYTLGQGWLAGNDTAPREVTIYGFRDLCMESAGGSVQVETCTAGQENQRWALYGDGSIRPKQNQSQCLTNGRDSVSTVINIVSCSAGSSGQRWVFTNAGAILNLKNGLAMDVAQANPALARIIIYPATGNPNQMWLPVP DDVTCSASEPIVRIVGRNGMTVDVRDDDFQDGNQIQLWPSKSNNDPNQLWTIKKDGTIRSNGSCLTTYGYTAGVYVMIFDCNTAVREATIWQIWGNGTIINPRSNLVLAASSGIKGTTLTVQTLDYTLGQGWLAGNDTAPREVTIYGFRDLCMESAGGSVQVETCTAGQENQRWALYGDGSIRPKQNQSQCLTNGRDSVSTVINIVSCSAGSSGQRWVFTNAGAILNLKNGLAMDVAQANPALARIIIYPATGNPNQMWLPVP 4eb4-a3-m2-cD_4eb4-a3-m1-cB Crystal structure of mouse thymidylate synthase in ternary complex with dUMP and Tomudex P07607 P07607 1.74 X-RAY DIFFRACTION 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 297 301 4eb4-a3-m2-cC_4eb4-a3-m1-cA MLVVGSELQSDAQRHGELQYLRQVEHILRCGFKKEDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVRIWDANGSRDFLDSLGFSARQEGDLGPVYGFQWRHFGAEYKDMDSDYSGQGVDQLQKVIDTIKTNPDDRRIIMCAWNPKDLPLMALPPCHALCQFYVVNGELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLQPGDFVHTLGDAHIYLNHIEPLKIQLQREPRPFPKLKILRKVETIDDFKVEDFQIEGYNPHPTIKME MLVVGSELQSDAQPRHGELQYLRQVEHILRCGFKKEDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVRIWDANGSRDFLDSLGFSARQEGDLGPVYGFQWRHFGAEYKDMDSDYSGQGVDQLQKVIDTIKTNPDDRRIIMCAWNPKDLPLMALPPCHALCQFYVVNGELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLQPGDFVHTLGDAHIYLNHIEPLKIQLQREPRPFPKLKILRKVETIDDFKVEDFQIEGYNPHPTIKMEMAV 4ebb-a3-m2-cB_4ebb-a3-m1-cA Structure of DPP2 Q9UHL4 Q9UHL4 2 X-RAY DIFFRACTION 26 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 443 444 PDPGFQERFFQQRLDHFNFERFGNKTFPQRFLVSDRFWVRGPIFFYTGNEGDVWAFANNSAFVAELAAERGALLVFAEHRYYGKSLPFGAQSTQRGHTELLTVEQALADFAELLRALRRDLGAQDAPAIAFGGSYGGLSAYLRKYPHLVAGALAASAPVLAVAGLGDSNQFFRDVTADFEGQSPKCTQGVREAFRQIKDLFLQGAYDTVRWEFGTCQPLSDEKDLTQLFFARNAFTVLADYPYPTDFLGPLPANPVKVGCDRLLSEAQRITGLRALAGLVYNASGSEHCYDIYRLYHSCADPTGCGTGPDARAWDYQACTEINLTFASNNVTDFPDLPFTDELRQRYCLDTWGVWPRPDWLLTSFWGGDLRAASNIIFSNGNLDPWAGGGIRRNLSASVIAVTIQGGAHHLDLRASHPEDPASVVEARKLEATIIGEWVKAAR DPGFQERFFQQRLDHFNFERFGNKTFPQRFLVSDRFWVRGEGPIFFYTGNEGDVWAFANNSAFVAELAAERGALLVFAEHRYYGKSLPFGAQSTQRGHTELLTVEQALADFAELLRALRRDLGAQDAPAIAFGGSYGGLSAYLRKYPHLVAGALAASAPVLAVAGLGDSNQFFRDVTADFEGQSPKCTQGVREAFRQIKDLFLQGAYDTVRWEFGTCQPLSDEKDLTQLFFARNAFTVLADYPYPTDFLGPLPANPVKVGCDRLLSEAQRITGLRALAGLVYNASGSEHCYDIYRLYHSCADPTGCGTGPDARAWDYQACTEINLTFASNNVTDFPDLPFTDELRQRYCLDTWGVWPRPDWLLTSFWGGDLRAASNIIFSNGNLDPWAGGGIRRNLSASVIAVTIQGGAHHLDLRASHPEDPASVVEARKLEATIIGEWVKAAR 4ebb-a4-m3-cB_4ebb-a4-m1-cA Structure of DPP2 Q9UHL4 Q9UHL4 2 X-RAY DIFFRACTION 93 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 443 444 3jyh-a1-m1-cA_3jyh-a1-m1-cB 3jyh-a2-m1-cD_3jyh-a2-m1-cC 3n0t-a1-m1-cA_3n0t-a1-m1-cB 3n0t-a2-m1-cD_3n0t-a2-m1-cC PDPGFQERFFQQRLDHFNFERFGNKTFPQRFLVSDRFWVRGPIFFYTGNEGDVWAFANNSAFVAELAAERGALLVFAEHRYYGKSLPFGAQSTQRGHTELLTVEQALADFAELLRALRRDLGAQDAPAIAFGGSYGGLSAYLRKYPHLVAGALAASAPVLAVAGLGDSNQFFRDVTADFEGQSPKCTQGVREAFRQIKDLFLQGAYDTVRWEFGTCQPLSDEKDLTQLFFARNAFTVLADYPYPTDFLGPLPANPVKVGCDRLLSEAQRITGLRALAGLVYNASGSEHCYDIYRLYHSCADPTGCGTGPDARAWDYQACTEINLTFASNNVTDFPDLPFTDELRQRYCLDTWGVWPRPDWLLTSFWGGDLRAASNIIFSNGNLDPWAGGGIRRNLSASVIAVTIQGGAHHLDLRASHPEDPASVVEARKLEATIIGEWVKAAR DPGFQERFFQQRLDHFNFERFGNKTFPQRFLVSDRFWVRGEGPIFFYTGNEGDVWAFANNSAFVAELAAERGALLVFAEHRYYGKSLPFGAQSTQRGHTELLTVEQALADFAELLRALRRDLGAQDAPAIAFGGSYGGLSAYLRKYPHLVAGALAASAPVLAVAGLGDSNQFFRDVTADFEGQSPKCTQGVREAFRQIKDLFLQGAYDTVRWEFGTCQPLSDEKDLTQLFFARNAFTVLADYPYPTDFLGPLPANPVKVGCDRLLSEAQRITGLRALAGLVYNASGSEHCYDIYRLYHSCADPTGCGTGPDARAWDYQACTEINLTFASNNVTDFPDLPFTDELRQRYCLDTWGVWPRPDWLLTSFWGGDLRAASNIIFSNGNLDPWAGGGIRRNLSASVIAVTIQGGAHHLDLRASHPEDPASVVEARKLEATIIGEWVKAAR 4ebg-a1-m1-cA_4ebg-a1-m1-cB Crystal structure of a DUF4467 family protein (SAV0303) from Staphylococcus aureus subsp. aureus Mu50 at 1.35 A resolution A0A0H3JX79 A0A0H3JX79 1.2 X-RAY DIFFRACTION 35 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 94 96 GYQKDIDKVYKEQNQNKIASKVQNTIKTDIKQEDSNTHVYKDGKVIVIGIQLYKDREKYYFAYEIKDGKAEINREIDPIKYKDHKADYEDENVE GYQKDIDKVYKEQNQNKIASKVQNTIKTDIKQEDSNTHVYKDGKVIVIGIQLYKDREKYYFAYEIKDGKAEINREIDPIKYKDHKADYEDENVEVE 4ebj-a1-m1-cA_4ebj-a1-m1-cB Crystal structure of aminoglycoside 4'-O-adenylyltransferase ANT(4')-IIb, apo D0E7M2 D0E7M2 1.6 X-RAY DIFFRACTION 123 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 254 254 4ebk-a1-m1-cB_4ebk-a1-m1-cA ENLYFQGVQHTIARWVDRLREEYADAVAILLKGSYARGDAATWSDIDFDVLVSTQDVEDYRTWIEPVGDRLVHISAAVEWVTGWERDTVDPSSWSYGLPTQETTRLWAINDETRRRLDRPYKTHPAAEPEVEDTVEALGKIRNAIARGDDLGVYQSAQTVAKLVPTLLIPINPPVTVSHARQAIEAILAFPRVPVGFAADWLTCLGLVEERSARSTAAAAERVRGVLELPTDPDLLGEDIARLNAGLLEKYVQQ ENLYFQGVQHTIARWVDRLREEYADAVAILLKGSYARGDAATWSDIDFDVLVSTQDVEDYRTWIEPVGDRLVHISAAVEWVTGWERDTVDPSSWSYGLPTQETTRLWAINDETRRRLDRPYKTHPAAEPEVEDTVEALGKIRNAIARGDDLGVYQSAQTVAKLVPTLLIPINPPVTVSHARQAIEAILAFPRVPVGFAADWLTCLGLVEERSARSTAAAAERVRGVLELPTDPDLLGEDIARLNAGLLEKYVQQ 4ebr-a1-m1-cA_4ebr-a1-m1-cB Crystal structure of Autophagic E2, Atg10 Q07879 Q07879 2.701 X-RAY DIFFRACTION 64 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 153 153 GSIPYQEWHSQLQSLYDSQIFHNWALCQDVHLNDEKDGLLLRLIPTRQLLLNHIELYLTYSKVYNEPLLLLRIWEEKSIDGIPTKLLPTDIESLLDVQGKFQLGLDTIINLEGSVWYSFHPCDTSCIVGDQAEFSTYLRRWVSIFIFSWLGYE GSIPYQEWHSQLQSLYDSQIFHNWALCQDVHLNDEKDGLLLRLIPTRQLLLNHIELYLTYSKVYNEPLLLLRIWEEKSIDGIPTKLLPTDIESLLDVQGKFQLGLDTIINLEGSVWYSFHPCDTSCIVGDQAEFSTYLRRWVSIFIFSWLGYE 4ec4-a5-m1-cL_4ec4-a5-m1-cE XIAP-BIR3 in complex with a potent divalent Smac mimetic P98170 P98170 3.3 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 4ec4-a1-m1-cF_4ec4-a1-m1-cA 4ec4-a2-m1-cB_4ec4-a2-m1-cG 4ec4-a3-m1-cC_4ec4-a3-m1-cJ 4ec4-a4-m1-cD_4ec4-a4-m1-cK DRNFPNSTNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLV SDRNFPNSTNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLV 4ec6-a8-m1-cE_4ec6-a8-m1-cF Ntf2-like, potential transfer protein TraM from Gram-positive conjugative plasmid pIP501 Q8L1C7 Q8L1C7 2.5 X-RAY DIFFRACTION 32 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 108 108 4ec6-a1-m1-cA_4ec6-a1-m1-cB 4ec6-a1-m1-cA_4ec6-a1-m1-cC 4ec6-a1-m1-cB_4ec6-a1-m1-cC 4ec6-a2-m1-cD_4ec6-a2-m1-cE 4ec6-a2-m1-cD_4ec6-a2-m1-cF 4ec6-a2-m1-cE_4ec6-a2-m1-cF 4ec6-a7-m1-cE_4ec6-a7-m1-cF SQSKIDTFGRYFLTYYFSQEKNQENYQSSLRTYVSEKVDISDWKALGKTLKSVNYYGSEQTKKGYSVEYLLNVSVDNRSKQKITFEVEPTKNGFLVTTQPKLTDFSFN SQSKIDTFGRYFLTYYFSQEKNQENYQSSLRTYVSEKVDISDWKALGKTLKSVNYYGSEQTKKGYSVEYLLNVSVDNRSKQKITFEVEPTKNGFLVTTQPKLTDFSFN 4ec7-a1-m1-cA_4ec7-a1-m1-cB Cobra NGF in complex with lipid P61898 P61898 2.6 X-RAY DIFFRACTION 103 1.0 8656 (Naja atra) 8656 (Naja atra) 108 108 GEHSVCDSVSAWVTKTTATDIKGNTVTVMENVNLDNKVYKEYFFETKCKNPNPEPSGCRGIDSSHWNSYCTETDTFIKALTMEGNQASWRFIRIETACVCVITKKKGN GEHSVCDSVSAWVTKTTATDIKGNTVTVMENVNLDNKVYKEYFFETKCKNPNPEPSGCRGIDSSHWNSYCTETDTFIKALTMEGNQASWRFIRIETACVCVITKKKGN 4ecd-a1-m1-cB_4ecd-a1-m2-cB 2.5 Angstrom Resolution Crystal Structure of Bifidobacterium longum Chorismate Synthase B7GS97 B7GS97 2.5 X-RAY DIFFRACTION 80 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 268 268 4ecd-a1-m1-cA_4ecd-a1-m2-cA MLRWQTAGESHGEALVAMIEGLPAGVRISTDDIVSALARRRLGYQDKVRLLTGVRHGLTLGSPVAIEIANRETASRVALGEVAKQFLDQAFGIRTVAHVVALGGVQTNPDLPLPTPDDLEALDASPVRTLDKEAEVRIIERINEAAADTLGGVIEVLAYGVPAGIGTYVESDRRLDAALASAIMGIQAFKGVEIGDGFLARAGGIEGGMSNGQVIRVRGAMKPSTAVPAASVVAEAMVRLTLAKYALDKFGGDSVAETRRNLESYLAS MLRWQTAGESHGEALVAMIEGLPAGVRISTDDIVSALARRRLGYQDKVRLLTGVRHGLTLGSPVAIEIANRETASRVALGEVAKQFLDQAFGIRTVAHVVALGGVQTNPDLPLPTPDDLEALDASPVRTLDKEAEVRIIERINEAAADTLGGVIEVLAYGVPAGIGTYVESDRRLDAALASAIMGIQAFKGVEIGDGFLARAGGIEGGMSNGQVIRVRGAMKPSTAVPAASVVAEAMVRLTLAKYALDKFGGDSVAETRRNLESYLAS 4ecd-a1-m2-cB_4ecd-a1-m2-cA 2.5 Angstrom Resolution Crystal Structure of Bifidobacterium longum Chorismate Synthase B7GS97 B7GS97 2.5 X-RAY DIFFRACTION 106 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 268 274 4ecd-a1-m1-cB_4ecd-a1-m1-cA MLRWQTAGESHGEALVAMIEGLPAGVRISTDDIVSALARRRLGYQDKVRLLTGVRHGLTLGSPVAIEIANRETASRVALGEVAKQFLDQAFGIRTVAHVVALGGVQTNPDLPLPTPDDLEALDASPVRTLDKEAEVRIIERINEAAADTLGGVIEVLAYGVPAGIGTYVESDRRLDAALASAIMGIQAFKGVEIGDGFLARAGGIEGGMSNGQVIRVRGAMKPSTAVPAASVVAEAMVRLTLAKYALDKFGGDSVAETRRNLESYLAS AMLRWQTAGESHGEALVAMIEGLPAGVRISTDDIVSALARRRLGYGRGQDKVRLLTGVRHGLTLGSPVAIEIANRETASRVALGEVAKQFLDQAFGIRTVAHVVALGGVQTNPDLPLPTPDDLEALDASPVRTLDKEAEVRIIERINEAAADTLGGVIEVLAYGVPAGIGTYVESDRRLDAALASAIMGIQAFKGVEIGDGFLARAGGIEGGMSNGQVIRVRGAMKPSDSTAVPAASVVAEAMVRLTLAKYALDKFGGDSVAETRRNLESYLAS 4ecl-a2-m1-cD_4ecl-a2-m1-cC Crystal structure of the cytoplasmic domain of vancomycin resistance serine racemase VanTg Q6WRY3 Q6WRY3 2.017 X-RAY DIFFRACTION 154 0.994 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 362 363 4ecl-a1-m1-cB_4ecl-a1-m1-cA ADTDRAYLEINLNNLEHNVNTLQKASPKCELAVVKAEAYGHGYEVTTYLEQIGVSSFAVATIDEGIRLRKYGISSEILILGYTSPSRAKELCKYELTQTLIDYRYSLLLNKQGYDIKAHIKIDTGHRLGFSTEDKDKILAAFSLKHIKVAGIFTHLCAADSLEENDVAFTNKQIGSFYKVLDWLKSSGLNIPKVHIQSSYGLLNYPELECDYIRVGVALYGVLSSTNDKTKLELDLRPVLSLKAKVVLIRKIKQGESVGYFTATRDSLIAILPIGYADGFPRNLSCGNSYVLIGGRQAPIVGKICDQLAVDVTDIPNVKTGSIATLIGKDGKEEITAPVAESAESITNELLSRGHRLNIIRR ADTDRAYLEINLNNLEHNVNTLQKASPKCELAVVKAEAYGHGYEVTTYLEQIGVSSFAVATIDEGIRLRKYGISSEILILGYTSPSRAKELCKYELTQTLIDYRYSLLLNKQGYDIKAHIKIDTGHRLGFSTEDKDKILAAFSLKHIKVAGIFTHLCAADSLEENDVAFTNKQIGSFYKVLDWLKSSGLNIPKVHIQSSYGLLNYPELECDYIRVGVALYGVLSSTNDKTKLELDLRPVLSLKAKVVLIRKIKQGESVGYSRAFTATRDSLIAILPIGYADGFPRNLSNSYVLIGGRQAPIVGKICDQLAVDVTDIPNVKTGSIATLIGKDGKEEITAPVAESAESITNELLSRGHRLNIIRR 4ecm-a1-m1-cA_4ecm-a1-m4-cA 2.3 Angstrom Crystal Structure of a Glucose-1-phosphate Thymidylyltransferase from Bacillus anthracis in Complex with Thymidine-5-diphospho-alpha-D-glucose and Pyrophosphate A0A6L8PCC3 A0A6L8PCC3 2.3 X-RAY DIFFRACTION 70 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 245 245 3hl3-a1-m1-cA_3hl3-a1-m2-cA 4ecm-a1-m2-cA_4ecm-a1-m3-cA FAMKGIILAGGTGSRLYPITKVTNKHLLPVGRYPMIYHAVYKLKQCDITDIMIITGKEHMGDVVSFLGSGQEFGVSFTYRVQDKAGGIAQALGLCEDFVGNDRMVVILGDNIFSDDIRPYVEEFTNQKEGAKVLLQSVDDPERFGVANIQNRKIIEIEEKPKEPKSSYAVTGIYLYDSKVFSYIKELKPSARGELEITDINNWYLKRGVLTYNEMSGWWTDAGTHVSLQRANALARDINFGKQFN FAMKGIILAGGTGSRLYPITKVTNKHLLPVGRYPMIYHAVYKLKQCDITDIMIITGKEHMGDVVSFLGSGQEFGVSFTYRVQDKAGGIAQALGLCEDFVGNDRMVVILGDNIFSDDIRPYVEEFTNQKEGAKVLLQSVDDPERFGVANIQNRKIIEIEEKPKEPKSSYAVTGIYLYDSKVFSYIKELKPSARGELEITDINNWYLKRGVLTYNEMSGWWTDAGTHVSLQRANALARDINFGKQFN 4ecm-a1-m3-cA_4ecm-a1-m4-cA 2.3 Angstrom Crystal Structure of a Glucose-1-phosphate Thymidylyltransferase from Bacillus anthracis in Complex with Thymidine-5-diphospho-alpha-D-glucose and Pyrophosphate A0A6L8PCC3 A0A6L8PCC3 2.3 X-RAY DIFFRACTION 70 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 245 245 4ecm-a1-m1-cA_4ecm-a1-m2-cA FAMKGIILAGGTGSRLYPITKVTNKHLLPVGRYPMIYHAVYKLKQCDITDIMIITGKEHMGDVVSFLGSGQEFGVSFTYRVQDKAGGIAQALGLCEDFVGNDRMVVILGDNIFSDDIRPYVEEFTNQKEGAKVLLQSVDDPERFGVANIQNRKIIEIEEKPKEPKSSYAVTGIYLYDSKVFSYIKELKPSARGELEITDINNWYLKRGVLTYNEMSGWWTDAGTHVSLQRANALARDINFGKQFN FAMKGIILAGGTGSRLYPITKVTNKHLLPVGRYPMIYHAVYKLKQCDITDIMIITGKEHMGDVVSFLGSGQEFGVSFTYRVQDKAGGIAQALGLCEDFVGNDRMVVILGDNIFSDDIRPYVEEFTNQKEGAKVLLQSVDDPERFGVANIQNRKIIEIEEKPKEPKSSYAVTGIYLYDSKVFSYIKELKPSARGELEITDINNWYLKRGVLTYNEMSGWWTDAGTHVSLQRANALARDINFGKQFN 4ecp-a1-m2-cB_4ecp-a1-m3-cB X-ray crystal structure of Inorganic Pyrophosphate PPA from Mycobacterium leprae O69540 O69540 1.8 X-RAY DIFFRACTION 31 1.0 1769 (Mycobacterium leprae) 1769 (Mycobacterium leprae) 162 162 4ecp-a1-m1-cA_4ecp-a1-m2-cA 4ecp-a1-m1-cA_4ecp-a1-m3-cA 4ecp-a1-m1-cB_4ecp-a1-m2-cB 4ecp-a1-m1-cB_4ecp-a1-m3-cB 4ecp-a1-m2-cA_4ecp-a1-m3-cA MVQFDVTIEIPKGQRNKYEVDHKTGRVRLDRYLYTPMAYPTDYGFIEDTLGEDGDPLDALVLLPEPLFPGVLVEARPVGMFRMVDEHGGDDKVLCVPVNDHRWDHIHGIIDVPTFELDAIKHFFVHYKDLEPGKFVKAADWVGRDEAEAEVQRSVERFKAGG MVQFDVTIEIPKGQRNKYEVDHKTGRVRLDRYLYTPMAYPTDYGFIEDTLGEDGDPLDALVLLPEPLFPGVLVEARPVGMFRMVDEHGGDDKVLCVPVNDHRWDHIHGIIDVPTFELDAIKHFFVHYKDLEPGKFVKAADWVGRDEAEAEVQRSVERFKAGG 4ecp-a1-m3-cA_4ecp-a1-m3-cB X-ray crystal structure of Inorganic Pyrophosphate PPA from Mycobacterium leprae O69540 O69540 1.8 X-RAY DIFFRACTION 49 1.0 1769 (Mycobacterium leprae) 1769 (Mycobacterium leprae) 160 162 4ecp-a1-m1-cA_4ecp-a1-m1-cB 4ecp-a1-m2-cA_4ecp-a1-m2-cB MVQFDVTIEIPKGQRNKYEVDHKTGRVRLDRYLYTPMAYPTDYGFIEDTLGEDGDPLDALVLLPEPLFPGVLVEARPVGMFRMVDEHGGDDKVLCVPVNDHRWDHIHGIIDVPTFELDAIKHFFVHYKDLEPGKFVKAADWVGRDEAEAEVQRSVERFKA MVQFDVTIEIPKGQRNKYEVDHKTGRVRLDRYLYTPMAYPTDYGFIEDTLGEDGDPLDALVLLPEPLFPGVLVEARPVGMFRMVDEHGGDDKVLCVPVNDHRWDHIHGIIDVPTFELDAIKHFFVHYKDLEPGKFVKAADWVGRDEAEAEVQRSVERFKAGG 4ed9-a1-m1-cA_4ed9-a1-m2-cA Crystal structure of a CAIB/BAIF family protein from Brucella suis A0A0H3G7M3 A0A0H3G7M3 1.95 X-RAY DIFFRACTION 454 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 378 378 QNTPLDGLKVVELARILAGPWVGQTLCDLGADVIKVESPEGDDTRTWGPPFIDVEGERSAAYFHACNRGKRSITADFRTEEGRELVRRLVAEADVVIENFKLGGLDKYGLDYESLKAINPQLIYCSITGFGHTGPYAERAGYDFMIQGMGGIMDLTGEPDREPQKIGVAFADIFTGLYSVIAIQSALIMRARTGKGQHIDMALFDCMSGVLANQAMNYLASGKSPKRMGNAHPNIAPYQTLSVSDGYFIIACGNDGQFGKLSTLLGIGELAKDERFATNSARVANRAALTALLEERTKQWKRDDLLAELAKIGVPAGPINTVADVFADPQFKARGMKIDPQGVPGLRTPIRFSDADLKLDSRSPKLNEHGAAIRAELD QNTPLDGLKVVELARILAGPWVGQTLCDLGADVIKVESPEGDDTRTWGPPFIDVEGERSAAYFHACNRGKRSITADFRTEEGRELVRRLVAEADVVIENFKLGGLDKYGLDYESLKAINPQLIYCSITGFGHTGPYAERAGYDFMIQGMGGIMDLTGEPDREPQKIGVAFADIFTGLYSVIAIQSALIMRARTGKGQHIDMALFDCMSGVLANQAMNYLASGKSPKRMGNAHPNIAPYQTLSVSDGYFIIACGNDGQFGKLSTLLGIGELAKDERFATNSARVANRAALTALLEERTKQWKRDDLLAELAKIGVPAGPINTVADVFADPQFKARGMKIDPQGVPGLRTPIRFSDADLKLDSRSPKLNEHGAAIRAELD 4eds-a3-m1-cA_4eds-a3-m2-cB Crystal structure of far-red fluorescent protein eqFP670 J9PBR8 J9PBR8 1.6 X-RAY DIFFRACTION 87 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 218 218 3pib-a1-m1-cA_3pib-a1-m1-cB 3pib-a1-m1-cC_3pib-a1-m1-cD 3pj5-a1-m1-cA_3pj5-a1-m1-cB 3pj5-a2-m1-cA_3pj5-a2-m1-cB 3pj5-a2-m2-cA_3pj5-a2-m2-cB 3pj7-a1-m1-cA_3pj7-a1-m1-cC 3pj7-a1-m1-cD_3pj7-a1-m1-cB 4edo-a3-m1-cA_4edo-a3-m2-cB 4edo-a3-m1-cB_4edo-a3-m2-cA 4eds-a3-m1-cB_4eds-a3-m2-cA 4kge-a2-m2-cB_4kge-a2-m1-cA 5jva-a1-m1-cB_5jva-a1-m1-cC 5jva-a1-m1-cD_5jva-a1-m1-cA ELISENMHTKLYMEGTVNGHHFKCTSEGEGKPYEGTQTCKIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERITTYEDGGVLTATQDTSLQNGCLIYNVKINGVNFPSNGPVMQKKTLGWEANTEMLYPADSGLRGHNQMALKLVGGGYLHCSLKTTYRSKKPAKNLKMPGFYFVDRKLERIKEADKETYVEQHEMAVARYCD ELISENMHTKLYMEGTVNGHHFKCTSEGEGKPYEGTQTCKIKVVEGGPLPFAFDILATSFSKTFINHTQGIPDFFKQSFPEGFTWERITTYEDGGVLTATQDTSLQNGCLIYNVKINGVNFPSNGPVMQKKTLGWEANTEMLYPADSGLRGHNQMALKLVGGGYLHCSLKTTYRSKKPAKNLKMPGFYFVDRKLERIKEADKETYVEQHEMAVARYCD 4edu-a1-m1-cA_4edu-a1-m2-cA The MBT repeats of human SCML2 in a complex with histone H2A peptide Q9UQR0 Q9UQR0 2.58 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 DFHWEEYLKETGSISAPSECFRQSQIPPVNDFKVGMKLEARDPRNATSVCIATVIGITGARLRLRLDGSDNRNDFWRLVDSPDIQPVGTCEKEGDLLQPPLGYQMNTSSWPMFLLETLNGSEMASATLFKKEPPKPPLNNFKVGMKLEAIDKKNPYLICPATIGDVKGDEVHITFDGWSGAFDYWCKYDSRDIFPAGWCRLTGDVLQPPGT DFHWEEYLKETGSISAPSECFRQSQIPPVNDFKVGMKLEARDPRNATSVCIATVIGITGARLRLRLDGSDNRNDFWRLVDSPDIQPVGTCEKEGDLLQPPLGYQMNTSSWPMFLLETLNGSEMASATLFKKEPPKPPLNNFKVGMKLEAIDKKNPYLICPATIGDVKGDEVHITFDGWSGAFDYWCKYDSRDIFPAGWCRLTGDVLQPPGT 4ee4-a4-m1-cC_4ee4-a4-m2-cC Crystal structure of human M340H-beta-1,4-galactosyltransferase-1 (M340H-B4GAL-T1) in complex with tetrasaccharide from Lacto-N-neohexose P15291 P15291 1.95 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 4ee3-a4-m1-cA_4ee3-a4-m2-cB 4ee3-a4-m1-cB_4ee3-a4-m2-cA 4ee3-a4-m1-cC_4ee3-a4-m2-cC 4ee4-a4-m1-cA_4ee4-a4-m2-cB 4ee4-a4-m1-cB_4ee4-a4-m2-cA 4ee5-a4-m1-cA_4ee5-a4-m2-cB 4ee5-a4-m1-cB_4ee5-a4-m2-cA 4ee5-a4-m1-cC_4ee5-a4-m2-cC 4eea-a4-m1-cA_4eea-a4-m2-cB 4eea-a4-m1-cB_4eea-a4-m2-cA 4eea-a4-m1-cC_4eea-a4-m2-c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ee4-a5-m1-cB_4ee4-a5-m1-cC Crystal structure of human M340H-beta-1,4-galactosyltransferase-1 (M340H-B4GAL-T1) in complex with tetrasaccharide from Lacto-N-neohexose P15291 P15291 1.95 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 2ae7-a4-m1-cB_2ae7-a4-m1-cC 2ae7-a4-m1-cB_2ae7-a4-m2-cA 2ae7-a4-m1-cC_2ae7-a4-m2-cA 2ah9-a4-m1-cB_2ah9-a4-m1-cC 2ah9-a4-m1-cB_2ah9-a4-m2-cA 2ah9-a4-m1-cC_2ah9-a4-m2-cA 4ee3-a4-m1-cA_4ee3-a4-m1-cB 4ee3-a4-m1-cA_4ee3-a4-m1-cC 4ee3-a4-m1-cB_4ee3-a4-m1-cC 4ee3-a4-m2-cA_4ee3-a4-m2-cB 4ee3-a4-m2-cA_4ee3-a4-m2-cC 4ee3-a4-m2-cB_4ee3-a4-m2-cC 4ee3-a5-m1-cA_4ee3-a5-m1-cB 4ee3-a5-m1-cA_4ee3-a5-m1-cC 4ee3-a5-m1-cB_4ee3-a5-m1-cC 4ee4-a4-m1-cA_4ee4-a4-m1-cB 4ee4-a4-m1-cA_4ee4-a4-m1-cC 4ee4-a4-m1-cB_4ee4-a4-m1-cC 4ee4-a4-m2-cA_4ee4-a4-m2-cB 4ee4-a4-m2-cA_4ee4-a4-m2-cC 4ee4-a4-m2-cB_4ee4-a4-m2-cC 4ee4-a5-m1-cA_4ee4-a5-m1-cB 4ee4-a5-m1-cA_4ee4-a5-m1-cC 4ee5-a4-m1-cA_4ee5-a4-m1-cB 4ee5-a4-m1-cA_4ee5-a4-m1-cC 4ee5-a4-m1-cB_4ee5-a4-m1-cC 4ee5-a4-m2-cA_4ee5-a4-m2-cB 4ee5-a4-m2-cA_4ee5-a4-m2-cC 4ee5-a4-m2-cB_4ee5-a4-m2-cC 4ee5-a5-m1-cA_4ee5-a5-m1-cB 4ee5-a5-m1-cA_4ee5-a5-m1-cC 4ee5-a5-m1-cB_4ee5-a5-m1-cC 4eea-a4-m1-cA_4eea-a4-m1-cB 4eea-a4-m1-cA_4eea-a4-m1-cC 4eea-a4-m1-cB_4eea-a4-m1-cC 4eea-a4-m2-cA_4eea-a4-m2-cB 4eea-a4-m2-cA_4eea-a4-m2-cC 4eea-a4-m2-cB_4eea-a4-m2-cC 4eea-a5-m1-cA_4eea-a5-m1-cB 4eea-a5-m1-cA_4eea-a5-m1-cC 4eea-a5-m1-cB_4eea-a5-m1-cC 4eeg-a4-m1-cA_4eeg-a4-m1-cB 4eeg-a4-m1-cA_4eeg-a4-m1-cC 4eeg-a4-m1-cB_4eeg-a4-m1-cC 4eem-a4-m1-cA_4eem-a4-m1-cB 4eem-a4-m1-cA_4eem-a4-m1-cC 4eem-a4-m1-cB_4eem-a4-m1-cC 4eeo-a4-m1-cA_4eeo-a4-m1-cB 4eeo-a4-m1-cA_4eeo-a4-m1-cC 4eeo-a4-m1-cB_4eeo-a4-m1-c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eed-a1-m1-cA_4eed-a1-m1-cB CorA coiled-coil mutant under Mg2+ presence Q9WZ31 Q9WZ31 3.92 X-RAY DIFFRACTION 108 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 314 314 2bbj-a1-m1-cA_2bbj-a1-m1-cB 2bbj-a1-m1-cA_2bbj-a1-m1-cE 2bbj-a1-m1-cB_2bbj-a1-m1-cD 2bbj-a1-m1-cD_2bbj-a1-m1-cF 2bbj-a1-m1-cE_2bbj-a1-m1-cF 2hn2-a1-m1-cA_2hn2-a1-m1-cB 2hn2-a1-m1-cA_2hn2-a1-m1-cE 2hn2-a1-m1-cB_2hn2-a1-m1-cC 2hn2-a1-m1-cC_2hn2-a1-m1-cD 2hn2-a1-m1-cD_2hn2-a1-m1-cE 2iub-a1-m1-cA_2iub-a1-m1-cB 2iub-a1-m1-cA_2iub-a1-m1-cD 2iub-a1-m1-cB_2iub-a1-m1-cC 2iub-a1-m1-cC_2iub-a1-m1-cE 2iub-a1-m1-cD_2iub-a1-m1-cE 2iub-a2-m1-cF_2iub-a2-m1-cG 2iub-a2-m1-cH_2iub-a2-m1-cG 2iub-a2-m1-cI_2iub-a2-m1-cF 2iub-a2-m1-cJ_2iub-a2-m1-cH 2iub-a2-m1-cJ_2iub-a2-m1-cI 3jcf-a1-m1-cA_3jcf-a1-m1-cB 3jcf-a1-m1-cA_3jcf-a1-m1-cE 3jcf-a1-m1-cB_3jcf-a1-m1-cC 3jcf-a1-m1-cC_3jcf-a1-m1-cD 3jcf-a1-m1-cD_3jcf-a1-m1-cE 3jcg-a1-m1-cC_3jcg-a1-m1-cD 3jcg-a1-m1-cD_3jcg-a1-m1-cE 3jch-a1-m1-cC_3jch-a1-m1-cD 4eeb-a1-m1-cA_4eeb-a1-m1-cB 4eeb-a1-m1-cA_4eeb-a1-m1-cE 4eeb-a1-m1-cC_4eeb-a1-m1-cB 4eeb-a1-m1-cC_4eeb-a1-m1-cD 4eeb-a1-m1-cD_4eeb-a1-m1-cE 4eed-a1-m1-cA_4eed-a1-m1-cE 4eed-a1-m1-cB_4eed-a1-m1-cC 4eed-a1-m1-cC_4eed-a1-m1-cD 4eed-a1-m1-cD_4eed-a1-m1-cE 4i0u-a1-m1-cA_4i0u-a1-m1-cB 4i0u-a1-m1-cC_4i0u-a1-m1-cB 4i0u-a1-m1-cD_4i0u-a1-m1-cA 4i0u-a1-m1-cD_4i0u-a1-m1-cE 4i0u-a1-m1-cE_4i0u-a1-m1-cC 4i0u-a2-m1-cF_4i0u-a2-m1-cG 4i0u-a2-m1-cH_4i0u-a2-m1-cG 4i0u-a2-m1-cH_4i0u-a2-m1-cJ 4i0u-a2-m1-cI_4i0u-a2-m1-cF 4i0u-a2-m1-cI_4i0u-a2-m1-cJ 5jrw-a1-m1-cA_5jrw-a1-m1-cB 5jrw-a1-m1-cA_5jrw-a1-m1-cD 5jrw-a1-m1-cB_5jrw-a1-m1-cC 5jrw-a1-m1-cC_5jrw-a1-m1-cE 5jrw-a1-m1-cD_5jrw-a1-m1-cE 5jtg-a1-m1-cA_5jtg-a1-m1-cD 5jtg-a1-m1-cB_5jtg-a1-m1-cA 5jtg-a1-m1-cC_5jtg-a1-m1-cB 5jtg-a1-m1-cC_5jtg-a1-m1-cE 5jtg-a1-m1-cE_5jtg-a1-m1-cD DFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELAATIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFGYPVVLAVMGVIAVIMVVYFKKKK DFEIEVMNYSIEEFREFKTTDVESVLPFRDSSTPTWINITGIHRTDVVQRVGEFFGIHPLVLEDILNVHQRPKVEFFENYVFIVLKMFTYDKNLHELESEQVSLILTKNCVLMFQEKIGDVFDPVRERIRYNRGIIRKKRADYLLYSLIDALVDDYFVLLEKIDDEIDVLEEEVLERPEKETVQRTHQLKRNLVELAATIWPLREVLSSLYRDVPPLIEKETVPYFRDVYDHTIQIADTVETFRDIVSGLLDVYLSSVSNKTNEVMKVLTIIATIFMPLTFIAGIYGMNFGYPVVLAVMGVIAVIMVVYFKKKK 4eei-a1-m1-cA_4eei-a1-m2-cB Crystal Structure of Adenylosuccinate Lyase from Francisella tularensis Complexed with AMP and Succinate Q5NIQ1 Q5NIQ1 1.921 X-RAY DIFFRACTION 95 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 414 423 4eei-a1-m2-cA_4eei-a1-m1-cB 5hw2-a1-m1-cB_5hw2-a1-m1-cC 5hw2-a1-m1-cD_5hw2-a1-m1-cA MIKRYDVAEISKIWADENKYAKMLEVELAILEALEDRMVPKGTAAEIRARAQIRPERVDEIEKVTKHDIIAFCTSIAEQFTAETGKFFHFGVTSSDIIDSALSLQIRDSMSYVIKDLEALCDSLLTKAEETKEIITMGRSHGMFAEPMSFGQKFLGAYVEFKRRLKDLKDFQKDGLTVQFSGAVGNYCILTTEDEKKAADILGLPVEEVSTQVIPRDRIAKLISIHGLIASAIERLAVEIRHLHRSDVFEVYEGFKKNPISTENLTGMARMLRSHVSIALENCVLWHERDISHSSAERFYLPDNFGIMVYALRRMKNTIDNLVVQRDIIEDRVRSTSAYLSSFYLHFLVANTPFMREDCYKIVQQVESFSKKLQKVMHDEHNIILDIPEMDFEGIKKTYLKEIDHVFDRSVKAR MIKRYDVAEISKIWADENKYAKMLEVELAILEALEDRMVPKGTAAEIRARAQIRPERVDEIEKVTKHDIIAFCTSIAEQFTAETGKFFHFGVTSSDIIDSALSLQIRDSMSYVIKDLEALCDSLLTKAEETKEIITMGRSHGMFAEPMSFGQKFLGAYVEFKRRLKDLKDFQKDGLTVQFSGAVGNYCILTTEDEKKAADILGLPVEEVSTQVIPRDRIAKLISIHGLIASAIERLAVEIRHLHRSDVFEVYEGFKKNPISTENLTGMARMLRSHVSIALENCVLWHERDISHSSAERFYLPDNFGIMVYALRRMKNTIDNLVVQRDIIEDRVRSTSAYLSSFYLHFLVANTPFMREDCYKIVQQVAFDLESFSKKLQKVMHDEHNIILDIPEMDFEGIKKTYLKEIDHVFDRSVKARGENLY 4eei-a1-m2-cA_4eei-a1-m2-cB Crystal Structure of Adenylosuccinate Lyase from Francisella tularensis Complexed with AMP and Succinate Q5NIQ1 Q5NIQ1 1.921 X-RAY DIFFRACTION 52 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 414 423 4eei-a1-m1-cA_4eei-a1-m1-cB 5hw2-a1-m1-cA_5hw2-a1-m1-cC 5hw2-a1-m1-cB_5hw2-a1-m1-cD MIKRYDVAEISKIWADENKYAKMLEVELAILEALEDRMVPKGTAAEIRARAQIRPERVDEIEKVTKHDIIAFCTSIAEQFTAETGKFFHFGVTSSDIIDSALSLQIRDSMSYVIKDLEALCDSLLTKAEETKEIITMGRSHGMFAEPMSFGQKFLGAYVEFKRRLKDLKDFQKDGLTVQFSGAVGNYCILTTEDEKKAADILGLPVEEVSTQVIPRDRIAKLISIHGLIASAIERLAVEIRHLHRSDVFEVYEGFKKNPISTENLTGMARMLRSHVSIALENCVLWHERDISHSSAERFYLPDNFGIMVYALRRMKNTIDNLVVQRDIIEDRVRSTSAYLSSFYLHFLVANTPFMREDCYKIVQQVESFSKKLQKVMHDEHNIILDIPEMDFEGIKKTYLKEIDHVFDRSVKAR MIKRYDVAEISKIWADENKYAKMLEVELAILEALEDRMVPKGTAAEIRARAQIRPERVDEIEKVTKHDIIAFCTSIAEQFTAETGKFFHFGVTSSDIIDSALSLQIRDSMSYVIKDLEALCDSLLTKAEETKEIITMGRSHGMFAEPMSFGQKFLGAYVEFKRRLKDLKDFQKDGLTVQFSGAVGNYCILTTEDEKKAADILGLPVEEVSTQVIPRDRIAKLISIHGLIASAIERLAVEIRHLHRSDVFEVYEGFKKNPISTENLTGMARMLRSHVSIALENCVLWHERDISHSSAERFYLPDNFGIMVYALRRMKNTIDNLVVQRDIIEDRVRSTSAYLSSFYLHFLVANTPFMREDCYKIVQQVAFDLESFSKKLQKVMHDEHNIILDIPEMDFEGIKKTYLKEIDHVFDRSVKARGENLY 4eei-a2-m1-cA_4eei-a2-m2-cA Crystal Structure of Adenylosuccinate Lyase from Francisella tularensis Complexed with AMP and Succinate Q5NIQ1 Q5NIQ1 1.921 X-RAY DIFFRACTION 255 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 414 414 4eei-a1-m1-cA_4eei-a1-m2-cA 4eei-a1-m1-cB_4eei-a1-m2-cB 4eei-a3-m1-cB_4eei-a3-m2-cB 5hw2-a1-m1-cB_5hw2-a1-m1-cA 5hw2-a1-m1-cD_5hw2-a1-m1-cC MIKRYDVAEISKIWADENKYAKMLEVELAILEALEDRMVPKGTAAEIRARAQIRPERVDEIEKVTKHDIIAFCTSIAEQFTAETGKFFHFGVTSSDIIDSALSLQIRDSMSYVIKDLEALCDSLLTKAEETKEIITMGRSHGMFAEPMSFGQKFLGAYVEFKRRLKDLKDFQKDGLTVQFSGAVGNYCILTTEDEKKAADILGLPVEEVSTQVIPRDRIAKLISIHGLIASAIERLAVEIRHLHRSDVFEVYEGFKKNPISTENLTGMARMLRSHVSIALENCVLWHERDISHSSAERFYLPDNFGIMVYALRRMKNTIDNLVVQRDIIEDRVRSTSAYLSSFYLHFLVANTPFMREDCYKIVQQVESFSKKLQKVMHDEHNIILDIPEMDFEGIKKTYLKEIDHVFDRSVKAR MIKRYDVAEISKIWADENKYAKMLEVELAILEALEDRMVPKGTAAEIRARAQIRPERVDEIEKVTKHDIIAFCTSIAEQFTAETGKFFHFGVTSSDIIDSALSLQIRDSMSYVIKDLEALCDSLLTKAEETKEIITMGRSHGMFAEPMSFGQKFLGAYVEFKRRLKDLKDFQKDGLTVQFSGAVGNYCILTTEDEKKAADILGLPVEEVSTQVIPRDRIAKLISIHGLIASAIERLAVEIRHLHRSDVFEVYEGFKKNPISTENLTGMARMLRSHVSIALENCVLWHERDISHSSAERFYLPDNFGIMVYALRRMKNTIDNLVVQRDIIEDRVRSTSAYLSSFYLHFLVANTPFMREDCYKIVQQVESFSKKLQKVMHDEHNIILDIPEMDFEGIKKTYLKEIDHVFDRSVKAR 4eek-a2-m1-cA_4eek-a2-m2-cA Crystal structure of HAD FAMILY HYDROLASE DR_1622 from Deinococcus radiodurans R1 (TARGET EFI-501256) With bound phosphate and sodium Q9RTX8 Q9RTX8 1.6 X-RAY DIFFRACTION 87 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 229 229 4eel-a2-m1-cA_4eel-a2-m2-cA 4een-a2-m1-cA_4een-a2-m2-cA DAPFDAVLFDLDGVLVESEGIIAQVWQSVLAERGLHLDLTEIAMYFTGQRFDGVLAYLAQQHDFVPPPDFLDVLETRFNAAMTGVTAIEGAAETLRALRAAGVPFAIGSNSERGRLHLKLRVAGLTELAGEHIYDPSWVGGRGKPHPDLYTFAAQQLGILPERCVVIEDSVTGGAAGLAAGATLWGLLVPGHPHPDGAAALSRLGAARVLTSHAELRAALAEAGLLTPA DAPFDAVLFDLDGVLVESEGIIAQVWQSVLAERGLHLDLTEIAMYFTGQRFDGVLAYLAQQHDFVPPPDFLDVLETRFNAAMTGVTAIEGAAETLRALRAAGVPFAIGSNSERGRLHLKLRVAGLTELAGEHIYDPSWVGGRGKPHPDLYTFAAQQLGILPERCVVIEDSVTGGAAGLAAGATLWGLLVPGHPHPDGAAALSRLGAARVLTSHAELRAALAEAGLLTPA 4eez-a2-m1-cA_4eez-a2-m2-cB Crystal Structure of Lactococcus lactis Alcohol Dehydrogenase variant RE1 D2BLA0 D2BLA0 1.9 X-RAY DIFFRACTION 36 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 339 342 4eex-a2-m1-cA_4eex-a2-m2-cB 4eex-a2-m2-cA_4eex-a2-m1-cB 4eez-a2-m2-cA_4eez-a2-m1-cB MKAAVVRHNPDGYADLVEKELRAIKPNEALLDMEYCGVCHTDLHVAAGDFGNKAGTVLGHEGIGIVKEIGADVSSLQVGDRVSVAWFFEGCGHCEYCVSGNETFCREVKNAGYSVDGGMAEEAIVVADYAVKVPDGLDPIEASSITCAGVTTYKAIKVSGVKPGDWQVIFGAGGLGNLAIQYAKNVFGAKVIAVDINQDKLNLAKKIGADVTINSGDVNPVDEIKKITGGLGVQSAIVCAVARIAFEQAVASLKPMGKMVAVAVPNTEMTLSVPTVVFDGVEVAGSLVGTRLDLAEAFQFGAEGKVKPIVATRKLEEINDIIDEMKAGKIEGRMVIDFT MKAAVVRHNPDGYADLVEKELRAIKPNEALLDMEYCGVCHTDLHVAAGDFGNKAGTVLGHEGIGIVKEIGADVSSLQVGDRVSVAWFFEGCGHCEYCVSGNETFCREVKNAGYSVDGGMAEEAIVVADYAVKVPDGLDPIEASSITCAGVTTYKAIKVSGVKPGDWQVIFGAGGLGNLAIQYAKNVFGAKVIAVDINQDKLNLAKKIGADVTINSGDVNPVDEIKKITGGLGVQSAIVCAVARIAFEQAVASLKPMGKMVAVAVPNTEMTLSVPTVVFDGVEVAGSLVGTRLDLAEAFQFGAEGKVKPIVATRKLEEINDIIDEMKAGKIEGRMVIDFTKLE 4eez-a2-m1-cB_4eez-a2-m2-cB Crystal Structure of Lactococcus lactis Alcohol Dehydrogenase variant RE1 D2BLA0 D2BLA0 1.9 X-RAY DIFFRACTION 19 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 342 342 4eex-a2-m1-cA_4eex-a2-m2-cA 4eex-a2-m1-cB_4eex-a2-m2-cB 4eez-a2-m1-cA_4eez-a2-m2-cA MKAAVVRHNPDGYADLVEKELRAIKPNEALLDMEYCGVCHTDLHVAAGDFGNKAGTVLGHEGIGIVKEIGADVSSLQVGDRVSVAWFFEGCGHCEYCVSGNETFCREVKNAGYSVDGGMAEEAIVVADYAVKVPDGLDPIEASSITCAGVTTYKAIKVSGVKPGDWQVIFGAGGLGNLAIQYAKNVFGAKVIAVDINQDKLNLAKKIGADVTINSGDVNPVDEIKKITGGLGVQSAIVCAVARIAFEQAVASLKPMGKMVAVAVPNTEMTLSVPTVVFDGVEVAGSLVGTRLDLAEAFQFGAEGKVKPIVATRKLEEINDIIDEMKAGKIEGRMVIDFTKLE MKAAVVRHNPDGYADLVEKELRAIKPNEALLDMEYCGVCHTDLHVAAGDFGNKAGTVLGHEGIGIVKEIGADVSSLQVGDRVSVAWFFEGCGHCEYCVSGNETFCREVKNAGYSVDGGMAEEAIVVADYAVKVPDGLDPIEASSITCAGVTTYKAIKVSGVKPGDWQVIFGAGGLGNLAIQYAKNVFGAKVIAVDINQDKLNLAKKIGADVTINSGDVNPVDEIKKITGGLGVQSAIVCAVARIAFEQAVASLKPMGKMVAVAVPNTEMTLSVPTVVFDGVEVAGSLVGTRLDLAEAFQFGAEGKVKPIVATRKLEEINDIIDEMKAGKIEGRMVIDFTKLE 4eez-a2-m2-cA_4eez-a2-m2-cB Crystal Structure of Lactococcus lactis Alcohol Dehydrogenase variant RE1 D2BLA0 D2BLA0 1.9 X-RAY DIFFRACTION 102 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 339 342 4eex-a1-m1-cA_4eex-a1-m1-cB 4eex-a2-m1-cA_4eex-a2-m1-cB 4eex-a2-m2-cA_4eex-a2-m2-cB 4eez-a1-m1-cA_4eez-a1-m1-cB 4eez-a2-m1-cA_4eez-a2-m1-cB MKAAVVRHNPDGYADLVEKELRAIKPNEALLDMEYCGVCHTDLHVAAGDFGNKAGTVLGHEGIGIVKEIGADVSSLQVGDRVSVAWFFEGCGHCEYCVSGNETFCREVKNAGYSVDGGMAEEAIVVADYAVKVPDGLDPIEASSITCAGVTTYKAIKVSGVKPGDWQVIFGAGGLGNLAIQYAKNVFGAKVIAVDINQDKLNLAKKIGADVTINSGDVNPVDEIKKITGGLGVQSAIVCAVARIAFEQAVASLKPMGKMVAVAVPNTEMTLSVPTVVFDGVEVAGSLVGTRLDLAEAFQFGAEGKVKPIVATRKLEEINDIIDEMKAGKIEGRMVIDFT MKAAVVRHNPDGYADLVEKELRAIKPNEALLDMEYCGVCHTDLHVAAGDFGNKAGTVLGHEGIGIVKEIGADVSSLQVGDRVSVAWFFEGCGHCEYCVSGNETFCREVKNAGYSVDGGMAEEAIVVADYAVKVPDGLDPIEASSITCAGVTTYKAIKVSGVKPGDWQVIFGAGGLGNLAIQYAKNVFGAKVIAVDINQDKLNLAKKIGADVTINSGDVNPVDEIKKITGGLGVQSAIVCAVARIAFEQAVASLKPMGKMVAVAVPNTEMTLSVPTVVFDGVEVAGSLVGTRLDLAEAFQFGAEGKVKPIVATRKLEEINDIIDEMKAGKIEGRMVIDFTKLE 4ef0-a3-m1-cA_4ef0-a3-m1-cB Crystal Structure of the first catalytic domain of protein disulfide isomerase P5 Q15084 Q15084 1.5 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 3vww-a3-m1-cA_3vww-a3-m1-cB MVIELTPSNFNREVIQSDSLWLVEFYAPWCGHCQRLTPEWKKAATALKDVVKVGAVDADKHHSLGGQYGVQGFPTIKIFGSNKNRPEDYQGGRTGEAIVDAALSALRQLVKDRLG MVIELTPSNFNREVIQSDSLWLVEFYAPWCGHCQRLTPEWKKAATALKDVVKVGAVDADKHHSLGGQYGVQGFPTIKIFGSNKNRPEDYQGGRTGEAIVDAALSALRQLVKDRLG 4efc-a2-m1-cB_4efc-a2-m1-cA Crystal Structure of Adenylosuccinate Lyase from Trypanosoma Brucei, Tb427tmp.160.5560 Q38EJ2 Q38EJ2 2 X-RAY DIFFRACTION 259 1.0 450 452 4efc-a1-m1-cB_4efc-a1-m1-cA 4efc-a1-m2-cB_4efc-a1-m2-cA VDYSVDNPLFALSPLDGRYKRQTKALRAFFSEYGFFRYRVLVEVEYFTALCKDVPTIVPLRSVTDEQLQKLRKITLDCFSVSSAEEIKRLERVTNHDIKAVEYFIKERMDTCGLSHVTEFVHFGLTSQDINNTAIPMMIRDAIVTLYLPALDGIIGSLTSKLVDWDVPMLARTHGQPASPTNLAKEFVVWIERLREQRRQLCEVPTTGKFGGATGNFNAHLVAYPSVNWRAFADMFLAKYLGLKRQQATTQIENYDHLAALCDACARLHVILIDMCRDVWQYISMGFFKQKVKEGEVGSSTMPHKVNPIDFENAEGNLALSNALLNFFASKLPISRLQRDLTDSTVLRNLGVPIGHACVAFASISQGLEKLMISRETISRELSSNWAVVAEGIQTVLRRECYPKPYETLKKVTEEQVRNFINGLTDISDDVRAELLAITPFTYVGYVPRF VDYSVDNPLFALSPLDGRYKRQTKALRAFFSEYGFFRYRVLVEVEYFTALCKDVPTIVPLRSVTDEQLQKLRKITLDCFSVSSAEEIKRLERVTNHDIKAVEYFIKERMDTCGLSHVTEFVHFGLTSQDINNTAIPMMIRDAIVTLYLPALDGIIGSLTSKLVDWDVPMLARTHGQPASPTNLAKEFVVWIERLREQRRQLCEVPTTGKFGGATGNFNAHLVAYPSVNWRAFADMFLAKYLGLKRQQATTQIENYDHLAALCDACARLHVILIDMCRDVWQYISMGFFKQKVKEGEVGSSTMPHKVNPIDFENAEGNLALSNALLNFFASKLPISRLQRDLTDSTVLRNLGVPIGHACVAFASISQGLEKLMISRETISRELSSNWAVVAEGIQTVLRRECYPKPYETLKKLTVTEEQVRNFINGLTDISDDVRAELLAITPFTYVGYVPRF 4efc-a3-m1-cB_4efc-a3-m2-cA Crystal Structure of Adenylosuccinate Lyase from Trypanosoma Brucei, Tb427tmp.160.5560 Q38EJ2 Q38EJ2 2 X-RAY DIFFRACTION 96 1.0 450 452 4efc-a1-m1-cB_4efc-a1-m2-cA 4efc-a1-m2-cB_4efc-a1-m1-cA VDYSVDNPLFALSPLDGRYKRQTKALRAFFSEYGFFRYRVLVEVEYFTALCKDVPTIVPLRSVTDEQLQKLRKITLDCFSVSSAEEIKRLERVTNHDIKAVEYFIKERMDTCGLSHVTEFVHFGLTSQDINNTAIPMMIRDAIVTLYLPALDGIIGSLTSKLVDWDVPMLARTHGQPASPTNLAKEFVVWIERLREQRRQLCEVPTTGKFGGATGNFNAHLVAYPSVNWRAFADMFLAKYLGLKRQQATTQIENYDHLAALCDACARLHVILIDMCRDVWQYISMGFFKQKVKEGEVGSSTMPHKVNPIDFENAEGNLALSNALLNFFASKLPISRLQRDLTDSTVLRNLGVPIGHACVAFASISQGLEKLMISRETISRELSSNWAVVAEGIQTVLRRECYPKPYETLKKVTEEQVRNFINGLTDISDDVRAELLAITPFTYVGYVPRF VDYSVDNPLFALSPLDGRYKRQTKALRAFFSEYGFFRYRVLVEVEYFTALCKDVPTIVPLRSVTDEQLQKLRKITLDCFSVSSAEEIKRLERVTNHDIKAVEYFIKERMDTCGLSHVTEFVHFGLTSQDINNTAIPMMIRDAIVTLYLPALDGIIGSLTSKLVDWDVPMLARTHGQPASPTNLAKEFVVWIERLREQRRQLCEVPTTGKFGGATGNFNAHLVAYPSVNWRAFADMFLAKYLGLKRQQATTQIENYDHLAALCDACARLHVILIDMCRDVWQYISMGFFKQKVKEGEVGSSTMPHKVNPIDFENAEGNLALSNALLNFFASKLPISRLQRDLTDSTVLRNLGVPIGHACVAFASISQGLEKLMISRETISRELSSNWAVVAEGIQTVLRRECYPKPYETLKKLTVTEEQVRNFINGLTDISDDVRAELLAITPFTYVGYVPRF 4efc-a5-m1-cB_4efc-a5-m2-cB Crystal Structure of Adenylosuccinate Lyase from Trypanosoma Brucei, Tb427tmp.160.5560 Q38EJ2 Q38EJ2 2 X-RAY DIFFRACTION 295 1.0 450 450 4efc-a1-m1-cA_4efc-a1-m2-cA 4efc-a1-m1-cB_4efc-a1-m2-cB 4efc-a4-m1-cA_4efc-a4-m2-cA VDYSVDNPLFALSPLDGRYKRQTKALRAFFSEYGFFRYRVLVEVEYFTALCKDVPTIVPLRSVTDEQLQKLRKITLDCFSVSSAEEIKRLERVTNHDIKAVEYFIKERMDTCGLSHVTEFVHFGLTSQDINNTAIPMMIRDAIVTLYLPALDGIIGSLTSKLVDWDVPMLARTHGQPASPTNLAKEFVVWIERLREQRRQLCEVPTTGKFGGATGNFNAHLVAYPSVNWRAFADMFLAKYLGLKRQQATTQIENYDHLAALCDACARLHVILIDMCRDVWQYISMGFFKQKVKEGEVGSSTMPHKVNPIDFENAEGNLALSNALLNFFASKLPISRLQRDLTDSTVLRNLGVPIGHACVAFASISQGLEKLMISRETISRELSSNWAVVAEGIQTVLRRECYPKPYETLKKVTEEQVRNFINGLTDISDDVRAELLAITPFTYVGYVPRF VDYSVDNPLFALSPLDGRYKRQTKALRAFFSEYGFFRYRVLVEVEYFTALCKDVPTIVPLRSVTDEQLQKLRKITLDCFSVSSAEEIKRLERVTNHDIKAVEYFIKERMDTCGLSHVTEFVHFGLTSQDINNTAIPMMIRDAIVTLYLPALDGIIGSLTSKLVDWDVPMLARTHGQPASPTNLAKEFVVWIERLREQRRQLCEVPTTGKFGGATGNFNAHLVAYPSVNWRAFADMFLAKYLGLKRQQATTQIENYDHLAALCDACARLHVILIDMCRDVWQYISMGFFKQKVKEGEVGSSTMPHKVNPIDFENAEGNLALSNALLNFFASKLPISRLQRDLTDSTVLRNLGVPIGHACVAFASISQGLEKLMISRETISRELSSNWAVVAEGIQTVLRRECYPKPYETLKKVTEEQVRNFINGLTDISDDVRAELLAITPFTYVGYVPRF 4efi-a2-m1-cA_4efi-a2-m2-cA Crystal Structure of 3-oxoacyl-(Acyl-carrier protein) Synthase from Burkholderia Xenovorans LB400 Q13SV4 Q13SV4 1.35 X-RAY DIFFRACTION 213 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 349 349 FSAGRELRTQGARIAGVVSCVPSKQVDNDYFVERFDASAVRDVVKMIGVNRRRWADAQTSAGDLCRKAGEKLLAGLGWQADSIDALIFVSQTPNYRLPATAFVLQAELDLPASCLALDINLGCSGYPQALWLGMNLIQTGAAKRVLLAVGDTISKMIDPTDRSTSLLFGDAGTMTALETSNGDAAAHFIIGADGKGARNLIVPSGGFKPYDAAADERMAGKSPECLFMDGGEIFNFTLNAVPKLVSRTLDIAGRDKDSYDAFLFHQANLFMLKHLAKKAGLPAERVPVNIGEYGNTSCASIPLLITTELKDRLKEETLQLGMFGFGVGYSWASAALAVGPLNIVDTIET FSAGRELRTQGARIAGVVSCVPSKQVDNDYFVERFDASAVRDVVKMIGVNRRRWADAQTSAGDLCRKAGEKLLAGLGWQADSIDALIFVSQTPNYRLPATAFVLQAELDLPASCLALDINLGCSGYPQALWLGMNLIQTGAAKRVLLAVGDTISKMIDPTDRSTSLLFGDAGTMTALETSNGDAAAHFIIGADGKGARNLIVPSGGFKPYDAAADERMAGKSPECLFMDGGEIFNFTLNAVPKLVSRTLDIAGRDKDSYDAFLFHQANLFMLKHLAKKAGLPAERVPVNIGEYGNTSCASIPLLITTELKDRLKEETLQLGMFGFGVGYSWASAALAVGPLNIVDTIET 4efz-a1-m1-cB_4efz-a1-m2-cA Crystal Structure of a hypothetical metallo-beta-lactamase from Burkholderia pseudomallei Q3JRV4 Q3JRV4 1.6 X-RAY DIFFRACTION 103 0.99 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 289 295 SMTVEGFFDPATCTISYLLFDSGSGECALIDSVLDYDPKSGRTRTASADQLIARVAALGARVRWLLETHVHADHLSAAPYLKTRVGGEIAIGRHVTRVQDVFGKLFNAGPAFAHDGSQFDRLLDDGDTLALGALSIRAMHTPGHTPACMTYVVTEARDAAAFVGDTLFMPDYGTARCDFPGGDARSLYRSIRKVLSLPPATRLYMCHDYQPNGRAIQYASTVADELRENVHIREGVTEDDFVAMRTARDATLDMPVLMLPSVQVNMRAGRLPEPEDNGVRYLKIPLDAI GPGSMTVEGFFDPATCTISYLLFDSGSGECALIDSVLDYDPKSGRTRTASADQLIARVAALGARVRWLLETHVHADHLSAAPYLKTRVGGEIAIGRHVTRVQDVFGKLFNAGPAFAHDGSQFDRLLDDGDTLALGALSIRAMHTPGHTPACMTYVVTEAHAAHDARDAAAFVGDTLFMPDYGTARCDFPGGDARSLYRSIRKVLSLPPATRLYMCHDYQPAIQYASTVADELRENVHIREGVTEDDFVAMRTARDATLDMPVLMLPSVQVNMRAGRLPEPEDNGVRYLKIPLDAI 4eg0-a1-m1-cA_4eg0-a1-m1-cB Crystal Structure of D-alanine--D-alanine ligase from Burkholderia ambifaria B1YSS6 B1YSS6 1.65 X-RAY DIFFRACTION 84 0.99 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 288 291 IDPKRFGKVAVLFGGESAEREVSLTSGRLVLQGLRDAGIDAHPFDPAERPLSALKDEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQTGVPTPPFETVMRGDDYAARATDIVAKLGLPLFVKPASAVLKVKTADALPAALSEAATHDKIVIVEKSIEGGGEYTACIAGDLDLPLIKIVPTQYLIPCGLPAEQETELKRIARRAFDVLGCTDWGRADFMLDAAGNAYFLEVNTAPGMTDHSLPPKAARSIGIGYSELVVKVLSLTL IDPKRFGKVAVLFGGESAEREVSLTSGRLVLQGLRDAGIDAHPFDPAERPLSALKDEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQTGVPTPPFETVMRGDDYAARATDIVAKLGLPLFVKPASVLKVKTADALPAALSEAHDKIVIVEKSIEGGGEYTACIAGDLDLPLIKIVPAGEFYDTQYLIPCGLPAEQETELKRIARRAFDVLGCTDWGRADFMLDAAGNAYFLEVNTAPGMTDHSLPPKAARSIGIGYSELVVKVLSLTL 4eg2-a4-m1-cG_4eg2-a4-m1-cH 2.2 Angstrom Crystal Structure of Cytidine deaminase from Vibrio cholerae in Complex with Zinc and Uridine Q9KSM5 Q9KSM5 2.2 X-RAY DIFFRACTION 151 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 286 286 4eg2-a1-m1-cA_4eg2-a1-m1-cB 4eg2-a2-m1-cC_4eg2-a2-m1-cD 4eg2-a3-m1-cF_4eg2-a3-m1-cE NARNRIEQALQQPASFAPYLRELVLAKDFDATFSAEQYQQLLTLSGLEDADLRVALLPIAAAYSYAPISEFYVGAIVRGISGRLYLGANEFTGAQLGQTVHAEQCAISHAWKGEKGVADITINFSPCGHCRQFNELTTASSLKIQLPKRAAKTLQEYLPESFGPADLGIDSGLSPVNHGKTSDDDEELIQQALRANISHSPYTQNFSGVALKRSGAIYLGAYAENAAFNPSLPPLQVALAQAGESFEDIEAAALVESATGKISHLADTQATLEVINPDIPLSYLSL NARNRIEQALQQPASFAPYLRELVLAKDFDATFSAEQYQQLLTLSGLEDADLRVALLPIAAAYSYAPISEFYVGAIVRGISGRLYLGANEFTGAQLGQTVHAEQCAISHAWKGEKGVADITINFSPCGHCRQFNELTTASSLKIQLPKRAAKTLQEYLPESFGPADLGIDSGLSPVNHGKTSDDDEELIQQALRANISHSPYTQNFSGVALKRSGAIYLGAYAENAAFNPSLPPLQVALAQAGESFEDIEAAALVESATGKISHLADTQATLEVINPDIPLSYLSL 4ege-a1-m1-cA_4ege-a1-m2-cA Crystal Structure of Dipeptidase PepE from Mycobacterium ulcerans A0PQS3 A0PQS3 2.2 X-RAY DIFFRACTION 102 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 371 371 GRFDTAVYARRLAAAAAATEQAGLAGLVITPGYDLRYLIGSRADTFERLTALVLPASGVPTIVLPRLELASLKESAASDLGVCVRDWVDGDDPYQLVAVALGGAPAATAVTDSMPALHLLPLADALGVLPVLATDVLRQLRMVKEAAEVDALAKAGAAIDRVHARVPAFLVPGRTEAQVAADIAEAIVAEGHSAVAFVIVGSGPHGADPHHGYSDRKLQVGDIVVVDIGGTYEPGYYSDSTRTYSIGDPSPDVAQQYSALQRAQRAAVDAVRPGVTAAQVDAAARDVLADAGLAEYFVHRTGHGIGLCVHEEPYIVAGNELPLVAGMAFSIEPGIYFPGRWGARIEDIVVVTENGALSVNNRPHELMVVPV GRFDTAVYARRLAAAAAATEQAGLAGLVITPGYDLRYLIGSRADTFERLTALVLPASGVPTIVLPRLELASLKESAASDLGVCVRDWVDGDDPYQLVAVALGGAPAATAVTDSMPALHLLPLADALGVLPVLATDVLRQLRMVKEAAEVDALAKAGAAIDRVHARVPAFLVPGRTEAQVAADIAEAIVAEGHSAVAFVIVGSGPHGADPHHGYSDRKLQVGDIVVVDIGGTYEPGYYSDSTRTYSIGDPSPDVAQQYSALQRAQRAAVDAVRPGVTAAQVDAAARDVLADAGLAEYFVHRTGHGIGLCVHEEPYIVAGNELPLVAGMAFSIEPGIYFPGRWGARIEDIVVVTENGALSVNNRPHELMVVPV 4egf-a2-m1-cE_4egf-a2-m1-cF Crystal structure of a L-xylulose reductase from Mycobacterium smegmatis A0QXD6 A0QXD6 2.3 X-RAY DIFFRACTION 13 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 257 257 4egf-a1-m1-cA_4egf-a1-m1-cB 4egf-a1-m1-cD_4egf-a1-m1-cC 4egf-a2-m1-cG_4egf-a2-m1-cH DRYAGVLRLDGKRALITGATKGIGADIARAFAAAGARLVLSGRDVSELDAARRALGEQFGTDVHTVAIDLAEPDAPAELARRAAEAFGGLDVLVNNAGISHPQPVVDTDPQLFDATIAVNLRAPALLASAVGKAMVAAGEGGAIITVASAAALAPLPDHYAYCTSKAGLVMATKVLARELGPHGIRANSVCPTVVLTEMGQRVWGDEAKSAPMIARIPLGRFAVPHEVSDAVVWLASDAASMINGVDIPVDGGYTMG DRYAGVLRLDGKRALITGATKGIGADIARAFAAAGARLVLSGRDVSELDAARRALGEQFGTDVHTVAIDLAEPDAPAELARRAAEAFGGLDVLVNNAGISHPQPVVDTDPQLFDATIAVNLRAPALLASAVGKAMVAAGEGGAIITVASAAALAPLPDHYAYCTSKAGLVMATKVLARELGPHGIRANSVCPTVVLTEMGQRVWGDEAKSAPMIARIPLGRFAVPHEVSDAVVWLASDAASMINGVDIPVDGGYTMG 4egf-a2-m1-cE_4egf-a2-m1-cH Crystal structure of a L-xylulose reductase from Mycobacterium smegmatis A0QXD6 A0QXD6 2.3 X-RAY DIFFRACTION 142 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 257 257 4egf-a1-m1-cB_4egf-a1-m1-cC 4egf-a1-m1-cD_4egf-a1-m1-cA 4egf-a2-m1-cG_4egf-a2-m1-cF DRYAGVLRLDGKRALITGATKGIGADIARAFAAAGARLVLSGRDVSELDAARRALGEQFGTDVHTVAIDLAEPDAPAELARRAAEAFGGLDVLVNNAGISHPQPVVDTDPQLFDATIAVNLRAPALLASAVGKAMVAAGEGGAIITVASAAALAPLPDHYAYCTSKAGLVMATKVLARELGPHGIRANSVCPTVVLTEMGQRVWGDEAKSAPMIARIPLGRFAVPHEVSDAVVWLASDAASMINGVDIPVDGGYTMG DRYAGVLRLDGKRALITGATKGIGADIARAFAAAGARLVLSGRDVSELDAARRALGEQFGTDVHTVAIDLAEPDAPAELARRAAEAFGGLDVLVNNAGISHPQPVVDTDPQLFDATIAVNLRAPALLASAVGKAMVAAGEGGAIITVASAAALAPLPDHYAYCTSKAGLVMATKVLARELGPHGIRANSVCPTVVLTEMGQRVWGDEAKSAPMIARIPLGRFAVPHEVSDAVVWLASDAASMINGVDIPVDGGYTMG 4egf-a2-m1-cF_4egf-a2-m1-cH Crystal structure of a L-xylulose reductase from Mycobacterium smegmatis A0QXD6 A0QXD6 2.3 X-RAY DIFFRACTION 136 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 257 257 4egf-a1-m1-cA_4egf-a1-m1-cC 4egf-a1-m1-cD_4egf-a1-m1-cB 4egf-a2-m1-cG_4egf-a2-m1-cE DRYAGVLRLDGKRALITGATKGIGADIARAFAAAGARLVLSGRDVSELDAARRALGEQFGTDVHTVAIDLAEPDAPAELARRAAEAFGGLDVLVNNAGISHPQPVVDTDPQLFDATIAVNLRAPALLASAVGKAMVAAGEGGAIITVASAAALAPLPDHYAYCTSKAGLVMATKVLARELGPHGIRANSVCPTVVLTEMGQRVWGDEAKSAPMIARIPLGRFAVPHEVSDAVVWLASDAASMINGVDIPVDGGYTMG DRYAGVLRLDGKRALITGATKGIGADIARAFAAAGARLVLSGRDVSELDAARRALGEQFGTDVHTVAIDLAEPDAPAELARRAAEAFGGLDVLVNNAGISHPQPVVDTDPQLFDATIAVNLRAPALLASAVGKAMVAAGEGGAIITVASAAALAPLPDHYAYCTSKAGLVMATKVLARELGPHGIRANSVCPTVVLTEMGQRVWGDEAKSAPMIARIPLGRFAVPHEVSDAVVWLASDAASMINGVDIPVDGGYTMG 4egj-a6-m2-cD_4egj-a6-m1-cB Crystal structure of D-alanine-D-alanine ligase from Burkholderia xenovorans Q13TZ4 Q13TZ4 2.3 X-RAY DIFFRACTION 80 0.98 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 246 285 SIDPKQFGKVAVLLGGNSAEREVSLNSGRLVLQGLRDAGIDAHPFDPAERPLAALKEEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQLGIPTPPFEAGLPLFVKVVVEKSIEGGGEYTACIAGNLDLPVIRIVPATQYLIPCGLTADEEARLKVLARRAFDVLGCTDWGRADFMLDADGNPYFLEVNTAPGMTDHSLPPKAARAVGISYQELVVAVLALTLK IDPKQFGKVAVLLGGNSAEREVSLNSGRLVLQGLRDAGIDAHPFDPAERPLAALKEEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQLGIPTPPFEAVLRGDDYEARAKEIVAKLGLPLFVKPASEIKVKSADALPAALIEAVKFDRIVVVEKSIEGGGEYTACIAGNLDLPVIRIVQYLIPCGLTADEEARLKVLARRAFDVLGCTDWGRADFMLDADGNPYFLEVNTAPGMTDHSLPPKAARAVGISYQELVVAVLALTL 4egq-a5-m1-cC_4egq-a5-m3-cB Crystal structure of D-alanine-D-alanine ligase B from Burkholderia pseudomallei Q3JNE1 Q3JNE1 2.2 X-RAY DIFFRACTION 82 0.993 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 302 302 IDPKRFGKVAVLLGGDSAEREVSLNSGRLVLQGLRDAGIDAHPFDPAQRPLAALKDEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQTGIPTPPFETVMRGDDYAARAQDIVAKLGVPLFVKPAAVEKVKSADALPAALEEAAKHDKIVIVEKSIEGGGEYTACIAADLDLPLIRIVPAGEFYDYHAKYIANDTQYLIPCGLDAAKEAEFKRIARRAFDVLGCTDWGRADFMLDAAGNPYFLEVNTAPGMTDHSLPPKAARAVGIGYSELVVKVLSLTL DPKRFGKVAVLLGGDSAEREVSLNSGRLVLQGLRDAGIDAHPFDPAQRPLAALKDEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQTGIPTPPFETVMRGDDYAARAQDIVAKLGVPLFVKPASVEKVKSADALPAALEEAAKHDKIVIVEKSIEGGGEYTACIAADLDLPLIRIVPAGEFYDYHAKYIANDTQYLIPCGLDAAKEAEFKRIARRAFDVLGCTDWGRADFMLDAAGNPYFLEVNTAPGMTDHSLPPKAARAVGIGYSELVVKVLSLTLD 4egq-a5-m1-cD_4egq-a5-m3-cB Crystal structure of D-alanine-D-alanine ligase B from Burkholderia pseudomallei Q3JNE1 Q3JNE1 2.2 X-RAY DIFFRACTION 102 0.997 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 288 302 4egq-a5-m2-cA_4egq-a5-m1-cC IDPKRFGKVAVLLGGDSAEREVSLNSGRLVLQGLRDAGIDAHPFDPAQRPLAALKDEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQTGIPTPPFETVMRDYAARAQDIVAKLGVPLFVKPALPAALEEAAKHDKIVIVEKSIEGGGEYTACIAADLDLPLIRIVPAGEFYDYHAKYIANQYLIPCGLDAAKEAEFKRIARRAFDVLGCTDWGRADFMLDAAGNPYFLEVNTAPGMTDHSLPPKAARAVGIGYSELVVKVLSLTL DPKRFGKVAVLLGGDSAEREVSLNSGRLVLQGLRDAGIDAHPFDPAQRPLAALKDEGFVRAFNALHGGYGENGQIQGALDFYGIRYTGSGVLGSALGLDKFRTKLVWQQTGIPTPPFETVMRGDDYAARAQDIVAKLGVPLFVKPASVEKVKSADALPAALEEAAKHDKIVIVEKSIEGGGEYTACIAADLDLPLIRIVPAGEFYDYHAKYIANDTQYLIPCGLDAAKEAEFKRIARRAFDVLGCTDWGRADFMLDAAGNPYFLEVNTAPGMTDHSLPPKAARAVGIGYSELVVKVLSLTLD 4egs-a1-m1-cA_4egs-a1-m1-cB Crystal Structure Analysis of Low Molecular Weight Protein Tyrosine Phosphatase from T. tengcongensis Q8RD95 Q8RD95 2.3 X-RAY DIFFRACTION 22 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 147 147 SMRVLFVCTGNTCRSPMAEGIFNAKSKALGKDWEAKSAGVFAPEGFPASSEAVEVLKKEYGIDISDHRAKSLREEDLKGADLVLAMAFSHKRSLVSQYPEYADKIFTIKEFVGLEGDVEDPYGMPLEVYKKTAEELSGLIDKLIEKL SMRVLFVCTGNTCRSPMAEGIFNAKSKALGKDWEAKSAGVFAPEGFPASSEAVEVLKKEYGIDISDHRAKSLREEDLKGADLVLAMAFSHKRSLVSQYPEYADKIFTIKEFVGLEGDVEDPYGMPLEVYKKTAEELSGLIDKLIEKL 4egu-a1-m1-cB_4egu-a1-m1-cA 0.95A Resolution Structure of a Histidine Triad Protein from Clostridium difficile Q182D4 Q182D4 0.95 X-RAY DIFFRACTION 138 0.991 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 115 118 MERMDCIFCKIANGEIPSTKVYEDDRVLAFNDLNPVAPYHILVVPKKHYDSLIDIPDKEMDIVSHIHVVINKIAKEKGFDQTGFRVINNCGSDGGQEVKHLHYHILAGKKLPNYE ERMDCIFCKIANGEIPSTKVYEDDRVLAFNDLNPVAPYHILVVPKKHYDSLIDIPDKEMDIVSHIHVVINKIAKEKGFDQTGFRVINNCGSDGGQEVKHLHYHILAGKKLPNYEAGQN 4egw-a1-m1-cA_4egw-a1-m1-cB The structure of the soluble domain of CorA from Methanocaldococcus jannaschii Q58439 Q58439 2.5 X-RAY DIFFRACTION 14 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 250 250 MITVIAIAKDGSIVEPKLDEISFEDYRLIWIDCYDPKDEELYKLSKKIGISVSDLQIGLDEQEIPRVEEDEDFYLIIYKAPLFEEDITTTSLGIYIKNNLLLTIHSDKIKAIGRLHKLISTKKPRIVFERGIGFLLYHILNEITRSYSRILMNLEDELEELEDKLLAGYDREVMEKILGLRKTLVYFHKSLIANRDVLVLLKRKYLPITTKEDRENFEDLYYDTLQLIDMSATYREVLTSMMDITLSLEN MITVIAIAKDGSIVEPKLDEISFEDYRLIWIDCYDPKDEELYKLSKKIGISVSDLQIGLDEQEIPRVEEDEDFYLIIYKAPLFEEDITTTSLGIYIKNNLLLTIHSDKIKAIGRLHKLISTKKPRIVFERGIGFLLYHILNEITRSYSRILMNLEDELEELEDKLLAGYDREVMEKILGLRKTLVYFHKSLIANRDVLVLLKRKYLPITTKEDRENFEDLYYDTLQLIDMSATYREVLTSMMDITLSLEN 4egx-a2-m1-cD_4egx-a2-m1-cC Crystal structure of KIF1A CC1-FHA tandem Q12756 Q12756 2.51 X-RAY DIFFRACTION 130 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 173 174 PGSEFSEEAIERLKETEKIIAELNETWEEKLRRTEAIRMEREALLAEMGVAMREDGGTLGVFSPKKTPHLVNLNEDPLMSECLLYYIKDGITRVGRRQDIVLSGHFIKEEHCVFRSDSRSEAVVTLEPCEGADTYVNGKKVTEPSILRSGNRIIMGKSHVFRFNHPEQARQER GPGSEFSEEAIERLKETEKIIAELNETWEEKLRRTEAIRMEREALLAEMGVAMREDGGTLGVFSPKKTPHLVNLNEDPLMSECLLYYIKDGITRVGREDRQDIVLSGHFIKEEHCVFRSDSRSEAVVTLEPCEGADTYVNGKKVTEPSILRSGNRIIMGKSHVFRFNHPEQARQ 4eh1-a1-m1-cA_4eh1-a1-m1-cB Crystal Structure of the Flavohem-like-FAD/NAD Binding Domain of Nitric Oxide Dioxygenase from Vibrio cholerae O1 biovar El Tor Q9KMY3 Q9KMY3 2.2 X-RAY DIFFRACTION 56 0.996 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 237 237 RDGRTFVVREKQVESAYVTSFVLVPADGGAVLDYQPGQYIGIEVTPEGSDYREIRQYSLSHASNGREYRISVKREGVGSDNPGLVSHYLHNNVKVGDSVKLYAPAGDFFYVERERPVVLISAGVGATPMQAILHTLAKQNKSGVTYLYACNSAKEHTFAQETAQLIAQQGWMQQVWYRDESADDVLQGEMQLAELILPIEDGDFYLCGPIGFMQYVVKQLLALGVDKARIHYEVFGP DGRTFVVREKQVESAYVTSFVLVPADGGAVLDYQPGQYIGIEVTPEGSDYREIRQYSLSHASNGREYRISVKREGVGSDNPGLVSHYLHNNVKVGDSVKLYAPAGDFFYVERERPVVLISAGVGATPMQAILHTLAKQNKSGVTYLYACNSAKEHTFAQETAQLIAQQGWMQQVWYRDESADDVLQGEMQLAELILPIEDGDFYLCGPIGFMQYVVKQLLALGVDKARIHYEVFGPH 4eh1-a2-m1-cA_4eh1-a2-m2-cB Crystal Structure of the Flavohem-like-FAD/NAD Binding Domain of Nitric Oxide Dioxygenase from Vibrio cholerae O1 biovar El Tor Q9KMY3 Q9KMY3 2.2 X-RAY DIFFRACTION 38 0.996 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 237 237 RDGRTFVVREKQVESAYVTSFVLVPADGGAVLDYQPGQYIGIEVTPEGSDYREIRQYSLSHASNGREYRISVKREGVGSDNPGLVSHYLHNNVKVGDSVKLYAPAGDFFYVERERPVVLISAGVGATPMQAILHTLAKQNKSGVTYLYACNSAKEHTFAQETAQLIAQQGWMQQVWYRDESADDVLQGEMQLAELILPIEDGDFYLCGPIGFMQYVVKQLLALGVDKARIHYEVFGP DGRTFVVREKQVESAYVTSFVLVPADGGAVLDYQPGQYIGIEVTPEGSDYREIRQYSLSHASNGREYRISVKREGVGSDNPGLVSHYLHNNVKVGDSVKLYAPAGDFFYVERERPVVLISAGVGATPMQAILHTLAKQNKSGVTYLYACNSAKEHTFAQETAQLIAQQGWMQQVWYRDESADDVLQGEMQLAELILPIEDGDFYLCGPIGFMQYVVKQLLALGVDKARIHYEVFGPH 4ehi-a1-m1-cA_4ehi-a1-m1-cB An X-ray Crystal Structure of a putative Bifunctional Phosphoribosylaminoimidazolecarboxamide Formyltransferase/IMP Cyclohydrolase Q9PNY2 Q9PNY2 2.28 X-RAY DIFFRACTION 347 0.981 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 472 493 DLGTENLYFQSNARALLSVSDKEGIVEFGKELENLGFEILSTGGTFKLLKENGIKVIEVSDFTILGIDLVCVNLYPFKKTTISDDFDEIIENIDIGGPAIRSAAKNYKDVVLCDPLDYEKVIETLKKGQNDENFRLNLIKAYEHTANYDAYIANYNERFNGGFGASKFIVGQKVFDTKYGENPHQKGALYEFDAFFSANFKALKGEASFNNLTDINAALNLASSFDKAPAIAIVKHGNPCGFAIKENLVQSYIHALKCDSVSAYGGVVAINGTLDEALANKINEIYVEVIIAANVDEKALAVFEGKKRIKIFTQESPFLIRSFDKYDFKHIDGGFVYQNSDEVGEDELKNAKLSQREASKEELKDLEIAKIAAFTKSNNVVYVKNGAVAIGGTSRIDAAKAAIAKAKEGLDLQGCVLASEAFFPFRDSIDEASKVGVKAIVEPGGSIRDDEVVKAADEYGALYFTGVRHFLH VDLGTENLYFQSNARALLSVSDKEGIVEFGKELENLGFEILSTGGTFKLLKENGIKVIEVSDFTKSVKTLHPKIHGGILHKRSDENHIKQENEILGIDLVCVNLYDFDEIIENIDIGGPAIRSAAKNYKDVVLCDPLDYEKVIETLKKGQNDENFRLNLIKAYEHTANYDAYIANYNERFNGGFGASKFIVGQKVFDTKYGENPHQKGALYEFDAFFSANFKALKGEASFNNLTDINAALNLASSFDKAPAIAIVKHGNPCGFAIKENLVQSYIHALKCDSVSAYGGVVAINGTLDEALANKINEIYVEVIIAANVDEKALAVFEGKKRIKIFTQESPFLIRSFDKYDFKHIDGGFVYQNSDEVGEDELKNAKLSQREASKEELKDLEIAKIAAFTKSNNVVYVKNGAVAIGGTSRIDAAKAAIAKAKEGLDLQGCVLASEAFFPFRDSIDEASKVGVKAIVEPGGSIRDDEVVKAADEYGALYFTGVRHFLH 4ehi-a2-m1-cA_4ehi-a2-m2-cB An X-ray Crystal Structure of a putative Bifunctional Phosphoribosylaminoimidazolecarboxamide Formyltransferase/IMP Cyclohydrolase Q9PNY2 Q9PNY2 2.28 X-RAY DIFFRACTION 59 0.981 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 472 493 DLGTENLYFQSNARALLSVSDKEGIVEFGKELENLGFEILSTGGTFKLLKENGIKVIEVSDFTILGIDLVCVNLYPFKKTTISDDFDEIIENIDIGGPAIRSAAKNYKDVVLCDPLDYEKVIETLKKGQNDENFRLNLIKAYEHTANYDAYIANYNERFNGGFGASKFIVGQKVFDTKYGENPHQKGALYEFDAFFSANFKALKGEASFNNLTDINAALNLASSFDKAPAIAIVKHGNPCGFAIKENLVQSYIHALKCDSVSAYGGVVAINGTLDEALANKINEIYVEVIIAANVDEKALAVFEGKKRIKIFTQESPFLIRSFDKYDFKHIDGGFVYQNSDEVGEDELKNAKLSQREASKEELKDLEIAKIAAFTKSNNVVYVKNGAVAIGGTSRIDAAKAAIAKAKEGLDLQGCVLASEAFFPFRDSIDEASKVGVKAIVEPGGSIRDDEVVKAADEYGALYFTGVRHFLH VDLGTENLYFQSNARALLSVSDKEGIVEFGKELENLGFEILSTGGTFKLLKENGIKVIEVSDFTKSVKTLHPKIHGGILHKRSDENHIKQENEILGIDLVCVNLYDFDEIIENIDIGGPAIRSAAKNYKDVVLCDPLDYEKVIETLKKGQNDENFRLNLIKAYEHTANYDAYIANYNERFNGGFGASKFIVGQKVFDTKYGENPHQKGALYEFDAFFSANFKALKGEASFNNLTDINAALNLASSFDKAPAIAIVKHGNPCGFAIKENLVQSYIHALKCDSVSAYGGVVAINGTLDEALANKINEIYVEVIIAANVDEKALAVFEGKKRIKIFTQESPFLIRSFDKYDFKHIDGGFVYQNSDEVGEDELKNAKLSQREASKEELKDLEIAKIAAFTKSNNVVYVKNGAVAIGGTSRIDAAKAAIAKAKEGLDLQGCVLASEAFFPFRDSIDEASKVGVKAIVEPGGSIRDDEVVKAADEYGALYFTGVRHFLH 4ehj-a3-m1-cA_4ehj-a3-m2-cB An X-ray Structure of a Putative Phosphogylcerate Kinase from Francisella tularensis subsp. tularensis SCHU S4 Q5NF76 Q5NF76 2.71 X-RAY DIFFRACTION 69 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 385 385 SFLTLKDVDLKDKKVLVRVDFNVPVKDGKVTSKVRIEAAIPTIQYILDQGGAVILSHLGRPTEGEYDSQFSLEPVAKALSEIINKPVKFAKDWLDGVDVKAGEIVCENVRFNSGEKKSTDDLSKKIASLGDVFVDAFATAHRAQASTYGVAKYIPVACAGILLTNEIQALEKALKSPKKPAAIVGGSKVSTKLSVLNNLLDKVEILIVGGGIANTFIKAEGFDVGNSLYEQDLVAEATEILAKAKALGVNIPVPVDVRVAKEFSENAQAIIKKVSDVVADEILDIGPESQKIIAELLKSANTILWNGPVGVFEFDNFAEGTKALSLAIAQSHAFSVAGGGDTIAAIEKFGIKDQVSYISTAGGAFLEFLEGKKLPAIEILKEKAI SFLTLKDVDLKDKKVLVRVDFNVPVKDGKVTSKVRIEAAIPTIQYILDQGGAVILSHLGRPTEGEYDSQFSLEPVAKALSEIINKPVKFAKDWLDGVDVKAGEIVCENVRFNSGEKKSTDDLSKKIASLGDVFVDAFATAHRAQASTYGVAKYIPVACAGILLTNEIQALEKALKSPKKPAAIVGGSKVSTKLSVLNNLLDKVEILIVGGGIANTFIKAEGFDVGNSLYEQDLVAEATEILAKAKALGVNIPVPVDVRVAKEFSENAQAIIKKVSDVVADEILDIGPESQKIIAELLKSANTILWNGPVGVFEFDNFAEGTKALSLAIAQSHAFSVAGGGDTIAAIEKFGIKDQVSYISTAGGAFLEFLEGKKLPAIEILKEKAI 4ehs-a1-m1-cB_4ehs-a1-m1-cA Crystal structure of Helicobacter pylori DnaG Primase C terminal domain P56064 P56064 1.78 X-RAY DIFFRACTION 57 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 120 122 APSLEFLEKLVIRYLLEDRSLLDLAVGYIHSGVFLHKKQEFDALCQEKLDDPKLVALLLDANLPLKKGGFEKELRLLILRYFERQLKEIPKSSLPFSEKICLKKARQAIKLKQGELVAIL SAPSLEFLEKLVIRYLLEDRSLLDLAVGYIHSGVFLHKKQEFDALCQEKLDDPKLVALLLDANLPLKKGGFEKELRLLILRYFERQLKEIPKSSLPFSEKICLKKARQAIKLKQGELVAILE 4ehu-a1-m1-cB_4ehu-a1-m1-cA Activator of the 2-Hydroxyisocaproyl-CoA Dehydratase from Clostridium difficile with bound ADPNP Q5U925 Q5U925 1.6 X-RAY DIFFRACTION 31 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 259 268 4eht-a1-m1-cB_4eht-a1-m1-cA MYTMGLDIGSTASKGVILKNGEDIVASETISSGTGTTGPSRVLEKLYGKTGLAREDIKKVVVTGYGRMNYSDADKQISELSCHARGVNFIIPETRTIIDIGGQDAKVLKLDNNGRLLNFLMNDKCAAGTGRFLDVMAKIIEVDVSELGSISMNSQNEVSISSTCTVFAESEVISHLSENAKIEDIVAGIHTSVAKRVSSLVKRIGVQRNVVMVGGVARNSGIVRAMAREINTEIIVPDIPQLTGALGAALYAFDEAKES MYTMGLDIGSTASKGVILKNGEDIVASETISSGTGTTGPSRVLEKLYGKTGLAREDIKKVVVTGYGRMNYSDADKQISELSCHARGVNFIIPETRTIIDIGGQDAKVLKLDNNGRLLNFLMNDKCAAGTGRFLDVMAKIIEVDVSELGSISMNSQNEVSISSTCTVFAESEVISHLSENAKIEDIVAGIHTSVAKRVSSLVKRIGVQRNVVMVGGVARNSGIVRAMAREINTEIIVPDIPQLTGALGAALYAFDEAKESQKEVKNISA 4ei0-a1-m1-cA_4ei0-a1-m1-cB Crystal structure of a DUF4466 family protein (PARMER_03218) from Parabacteroides merdae ATCC 43184 at 2.00 A resolution A7AIG2 A7AIG2 2 X-RAY DIFFRACTION 50 1.0 411477 (Parabacteroides merdae ATCC 43184) 411477 (Parabacteroides merdae ATCC 43184) 293 294 PVSALSNDCIKRSLPVAPNIVGNEIEFAYAAIPNELGKLSSAQVVSSIAGATGTYFDPNSYYTNSSGQDIPVKVCSDSQTNGTTTVIDFTVDTCAATLRYYYIIPEEARGKDVQFSFSVKASNGQVAEYKLGPYKISKDAKNLSVTNDKCYLSFLNEGEAVHIYSKADLQANPSLAAKIDIYAYSEKSDLSHAFYTSSSPKEYGGTELPSGFVNNTKIKVYGLQDRQLSDLQYSKFIDDLDFETIDSKCTNYILGLKEEAGAWVETADGKYRAYVYINKASASEVTVSVKRYK DPVSALSNDCIKRSLPVAPNIVGNEIEFAYAAIPNELGKLSSAQVVSSIAGATGTYFDPNSYYTNSSGQDIPVKVCSDSQTNGTTTVIDFTVDTCAATLRYYYIIPEEARGKDVQFSFSVKASNGQVAEYKLGPYKISKDAKNLSVTNDKCYLSFLNEGEAVHIYSKADLQANPSLAAKIDIYAYSEKSDLSHAFYTSSSPKEYGGTELPSGFVNNTKIKVYGLQDRQLSDLQYSKFIDDLDFETIDSKCTNYILGLKEEAGAWVETADGKYRAYVYINKASASEVTVSVKRYK 4eia-a1-m1-cA_4eia-a1-m2-cA Activator of the 2-Hydroxyisocaproyl-CoA Dehydratase from Clostridium difficile without nucleotide Q5U925 Q5U925 3 X-RAY DIFFRACTION 30 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 260 260 MYTMGLDIGSTASKGVILKNGEDIVASETISSGTGTTGPSRVLEKLYGKTGLAREDIKKVVVTGYGRMNYSDADKQISELSCHARGVNFIIPETRTIIDIGGQDAKVLKLDNNGRLLNFLMNDKCAAGTGRFLDVMAKIIEVDVSELGSISMNSQNEVSISSTCTVFAESEVISHLSENAKIEDIVAGIHTSVAKRVSSLVKRIGVQRNVVMVGGVARNSGIVRAMAREINTEIIVPDIPQLTGALGAALYAFDEAKESQ MYTMGLDIGSTASKGVILKNGEDIVASETISSGTGTTGPSRVLEKLYGKTGLAREDIKKVVVTGYGRMNYSDADKQISELSCHARGVNFIIPETRTIIDIGGQDAKVLKLDNNGRLLNFLMNDKCAAGTGRFLDVMAKIIEVDVSELGSISMNSQNEVSISSTCTVFAESEVISHLSENAKIEDIVAGIHTSVAKRVSSLVKRIGVQRNVVMVGGVARNSGIVRAMAREINTEIIVPDIPQLTGALGAALYAFDEAKESQ 4eib-a1-m1-cA_4eib-a1-m1-cB Crystal Structure of Circular Permuted CBM21 (CP90) Gives Insight into the Altered Selectivity on Carbohydrate Binding. B7XC04 B7XC04 1.86 X-RAY DIFFRACTION 46 1.0 64495 (Rhizopus arrhizus) 64495 (Rhizopus arrhizus) 108 108 GKTYYDNNNSANYQVSTHMASIPSSASVQLDSYNYDGSTFSGKIYVKNIAYSKKVTVVYADGSDNWNNNGNIIAASFSGPISGSNYEYWTFSASVKGIKEFYIKYEVS GKTYYDNNNSANYQVSTHMASIPSSASVQLDSYNYDGSTFSGKIYVKNIAYSKKVTVVYADGSDNWNNNGNIIAASFSGPISGSNYEYWTFSASVKGIKEFYIKYEVS 4eij-a1-m1-cA_4eij-a1-m2-cA Structure of the Mumps virus phosphoprotein oligomerization domain Q8QY72 Q8QY72 2.2001 X-RAY DIFFRACTION 61 1.0 63 63 VISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATVKIMD VISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATVKIMD 4eij-a1-m1-cB_4eij-a1-m2-cB Structure of the Mumps virus phosphoprotein oligomerization domain Q8QY72 Q8QY72 2.2001 X-RAY DIFFRACTION 67 1.0 61 61 QSVISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATV QSVISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATV 4eij-a2-m3-cA_4eij-a2-m4-cA Structure of the Mumps virus phosphoprotein oligomerization domain Q8QY72 Q8QY72 2.2001 X-RAY DIFFRACTION 11 1.0 63 63 4eij-a2-m1-cA_4eij-a2-m3-cA 4eij-a2-m1-cA_4eij-a2-m4-cA VISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATVKIMD VISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATVKIMD 4eij-a2-m3-cB_4eij-a2-m4-cB Structure of the Mumps virus phosphoprotein oligomerization domain Q8QY72 Q8QY72 2.2001 X-RAY DIFFRACTION 10 1.0 61 61 4eij-a2-m1-cB_4eij-a2-m3-cB 4eij-a2-m1-cB_4eij-a2-m4-cB QSVISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATV QSVISANEIMDLLRGMDARLQHLEQKVDKVLAQGSMVTQIKNELSTVKTTLATIEGMMATV 4eir-a3-m1-cA_4eir-a3-m1-cB Structural basis for substrate targeting and catalysis by fungal polysaccharide monooxygenases (PMO-2) Q1K8B6 Q1K8B6 1.1 X-RAY DIFFRACTION 49 1.0 367110 (Neurospora crassa OR74A) 367110 (Neurospora crassa OR74A) 222 222 5tkf-a5-m1-cA_5tkf-a5-m1-cB 5tkf-a6-m1-cC_5tkf-a6-m2-cD 5tkg-a3-m1-cA_5tkg-a3-m1-cB 5tki-a3-m1-cA_5tki-a3-m1-cB TIFSSLEVNGVNQGLGEGVRVPTYNGPIEDVTSASIACNGSPNTVASTSKVITVQAGTNVTAIWRYMLSTTGDSPADVMDSSHKGPTIAYLKKVDNAATASGVGNGWFKIQQDGMDSSGVWGTERVINGKGRHSIKIPECIAPGQYLLRAEMIALHAASNYPGAQFYMECAQLNVVGGTGAKTPSTVSFPGAYSGSDPGVKISIYWPPVTAYTVPGPSVFTC TIFSSLEVNGVNQGLGEGVRVPTYNGPIEDVTSASIACNGSPNTVASTSKVITVQAGTNVTAIWRYMLSTTGDSPADVMDSSHKGPTIAYLKKVDNAATASGVGNGWFKIQQDGMDSSGVWGTERVINGKGRHSIKIPECIAPGQYLLRAEMIALHAASNYPGAQFYMECAQLNVVGGTGAKTPSTVSFPGAYSGSDPGVKISIYWPPVTAYTVPGPSVFTC 4eiv-a1-m1-cA_4eiv-a1-m1-cB 1.37 Angstrom resolution crystal structure of apo-form of a putative deoxyribose-phosphate aldolase from Toxoplasma gondii ME49 B9PVB4 B9PVB4 1.37 X-RAY DIFFRACTION 55 0.992 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 256 256 3qyq-a1-m1-cA_3qyq-a1-m1-cC 3qyq-a2-m1-cB_3qyq-a2-m1-cD TIYKQFTSRTLLNFFEVAALTDGETNESVAAVCKIAAKDPAIVGVSVRPAFVRFIRQELVKSAPEVAGIKVCAAVNFPEGTGTPDTVSLEAVGALKDGADEIECLIDWRRMNENVADGESRIRLLVSEVKKVVGPKTLKVVLSGGELQGGDIISRAAVAALEGGADFLQTSSGLGATHATMFTVHLISIALREYMVRCIGIKIEVGDVHMAETADFLMQMIFENGPRSIVRDKFRVGGGFNLLKELRDCYESWDSV TIYKQFTSRTLLNFFEVAALTDGETNESVAAVCKIAAKDPAIVGVSVRPAFVRFIRQELVKSAPEVAGIKVCAAVNFPEGTGTPDTVSLEAVGALKDGADEIECLIDWRRMNENVADGESRIRLLVSEVKKVVGPKTLKVVLSGGELQGGDIISRAAVAALEGGADFLQTSSGLGATHATMFTVHLISIALREYMVRERCIGIKIEVGDVHMAETADFLMQMIFENGPRSIVRDKFRVGGGFNLLKELRDCYESWD 4eiw-a1-m1-cF_4eiw-a1-m1-cA Whole cytosolic region of atp-dependent metalloprotease FtsH (G399L) Q5SI82 Q5SI82 3.9 X-RAY DIFFRACTION 139 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 446 458 2dhr-a1-m1-cB_2dhr-a1-m1-cC 2dhr-a1-m1-cD_2dhr-a1-m1-cE 2dhr-a1-m1-cF_2dhr-a1-m1-cA 4eiw-a1-m1-cB_4eiw-a1-m1-cC 4eiw-a1-m1-cD_4eiw-a1-m1-cE LTEAPKVTFKDVAGAEEAKEELKEIVEFLKNPSRFHEMGARIPKGVLLVGPPGVGKTHLARAVAGEARVPFITASGSDFVEMFVGVGAARVRDLFETAKRHAPCIVFIDEIDAVGRKNDEREQTLNQLLVEMDGFEKDTAIVVMAATNRPDILDPALLRPGRFDRQIAIDAPDVKGREQILRIHARGKPLAEDVDLALLAKRTPGFVGADLENLLNEAALLAAREGRRKITMKDLEEAADRVMMLPAKKSLVLSPRDRRITAYHEAGHALAAHFLEHADGVHKVTIVPRGRALGFMMPRREDMLHWSRKRLLDQIAVALAGRAAEEIVFDDVTTGAENDFRQATELARRMITEWGMHPEFGPVAYAVREDTYLGGYDVRQYSEETAKRIDEAVRRLIEEQYQRVKALLLEKREVLERVAETLLERETLTAEEFQRVVEGLPLEAPE RARVLTEAPKVTFKDVAGAEEAKEELKEIVEFLKNPSRFHEMGARIPKGVLLVGPPGVGKTHLARAVAGEARVPFITASGSDFVEMFVGVGAARVRDLFETAKRHAPCIVFIDEIDAVGRKRGSGVGGGNDEREQTLNQLLVEMDGFEKDTAIVVMAATNRPDILDPALLRPGRFDRQIAIDAPDVKGREQILRIHARGKPLAEDVDLALLAKRTPGFVGADLENLLNEAALLAAREGRRKITMKDLEEAADRVMMLPAKKSLVLSPRDRRITAYHEAGHALAAHFLEHADGVHKVTIVPRGRALGFMMPRREDMLHWSRKRLLDQIAVALAGRAAEEIVFDDVTTGAENDFRQATELARRMITEWGMHPEFGPVAYAVREDTYLGGYDVRQYSEETAKRIDEAVRRLIEEQYQRVKALLLEKREVLERVAETLLERETLTAEEFQRVVEGLPLEAPE 4eiw-a1-m1-cF_4eiw-a1-m1-cE Whole cytosolic region of atp-dependent metalloprotease FtsH (G399L) Q5SI82 Q5SI82 3.9 X-RAY DIFFRACTION 83 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 446 458 2dhr-a1-m1-cB_2dhr-a1-m1-cA 2dhr-a1-m1-cD_2dhr-a1-m1-cC 2dhr-a1-m1-cF_2dhr-a1-m1-cE 4eiw-a1-m1-cB_4eiw-a1-m1-cA 4eiw-a1-m1-cD_4eiw-a1-m1-cC LTEAPKVTFKDVAGAEEAKEELKEIVEFLKNPSRFHEMGARIPKGVLLVGPPGVGKTHLARAVAGEARVPFITASGSDFVEMFVGVGAARVRDLFETAKRHAPCIVFIDEIDAVGRKNDEREQTLNQLLVEMDGFEKDTAIVVMAATNRPDILDPALLRPGRFDRQIAIDAPDVKGREQILRIHARGKPLAEDVDLALLAKRTPGFVGADLENLLNEAALLAAREGRRKITMKDLEEAADRVMMLPAKKSLVLSPRDRRITAYHEAGHALAAHFLEHADGVHKVTIVPRGRALGFMMPRREDMLHWSRKRLLDQIAVALAGRAAEEIVFDDVTTGAENDFRQATELARRMITEWGMHPEFGPVAYAVREDTYLGGYDVRQYSEETAKRIDEAVRRLIEEQYQRVKALLLEKREVLERVAETLLERETLTAEEFQRVVEGLPLEAPE RARVLTEAPKVTFKDVAGAEEAKEELKEIVEFLKNPSRFHEMGARIPKGVLLVGPPGVGKTHLARAVAGEARVPFITASGSDFVEMFVGVGAARVRDLFETAKRHAPCIVFIDEIDAVGRKRGSGVGGGNDEREQTLNQLLVEMDGFEKDTAIVVMAATNRPDILDPALLRPGRFDRQIAIDAPDVKGREQILRIHARGKPLAEDVDLALLAKRTPGFVGADLENLLNEAALLAAREGRRKITMKDLEEAADRVMMLPAKKSLVLSPRDRRITAYHEAGHALAAHFLEHADGVHKVTIVPRGRALGFMMPRREDMLHWSRKRLLDQIAVALAGRAAEEIVFDDVTTGAENDFRQATELARRMITEWGMHPEFGPVAYAVREDTYLGGYDVRQYSEETAKRIDEAVRRLIEEQYQRVKALLLEKREVLERVAETLLERETLTAEEFQRVVEGLPLEAPE 4ej0-a1-m1-cB_4ej0-a1-m1-cJ Crystal structure of ADP-L-glycero-D-manno-heptose-6-epimerase from Burkholderia thailandensis Q2SY18 Q2SY18 2.609 X-RAY DIFFRACTION 34 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 330 330 4ej0-a1-m1-cA_4ej0-a1-m1-cF 4ej0-a1-m1-cC_4ej0-a1-m1-cI 4ej0-a1-m1-cD_4ej0-a1-m1-cH 4ej0-a1-m1-cE_4ej0-a1-m1-cG MTLIVTGAAGFIGANLVKALNERGETRIIAVDNLTRADKFKNLVDCEIDDYLDKTEFVERFARGDFGKVRAVFHEGACSDTMETDGRYMMDNNFRYSRAVLDACLAQGAQFLYASSAAIYGGSSRFVEEREVEAPLNVYGYSKFLFDQVIRRVMPGAKSQIAGFRYFNVYGPRESHKGRMASVAFHNFNQFRAEGKVKLFGEYSGYGPGEQTRDFVSVEDVAKVNLYFFDHPEKSGIFNLGTGRAQPFNDIAATVVNTLRALEGQPALTLAEQVEQGLVEYVPFPDALRGKYQCFTQADQTKLRAAGYDAPFLTVQEGVDRYVRWLFGQL MTLIVTGAAGFIGANLVKALNERGETRIIAVDNLTRADKFKNLVDCEIDDYLDKTEFVERFARGDFGKVRAVFHEGACSDTMETDGRYMMDNNFRYSRAVLDACLAQGAQFLYASSAAIYGGSSRFVEEREVEAPLNVYGYSKFLFDQVIRRVMPGAKSQIAGFRYFNVYGPRESHKGRMASVAFHNFNQFRAEGKVKLFGEYSGYGPGEQTRDFVSVEDVAKVNLYFFDHPEKSGIFNLGTGRAQPFNDIAATVVNTLRALEGQPALTLAEQVEQGLVEYVPFPDALRGKYQCFTQADQTKLRAAGYDAPFLTVQEGVDRYVRWLFGQL 4ej0-a1-m1-cI_4ej0-a1-m1-cJ Crystal structure of ADP-L-glycero-D-manno-heptose-6-epimerase from Burkholderia thailandensis Q2SY18 Q2SY18 2.609 X-RAY DIFFRACTION 45 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 330 330 4ej0-a1-m1-cA_4ej0-a1-m1-cB 4ej0-a1-m1-cA_4ej0-a1-m1-cE 4ej0-a1-m1-cB_4ej0-a1-m1-cC 4ej0-a1-m1-cC_4ej0-a1-m1-cD 4ej0-a1-m1-cD_4ej0-a1-m1-cE 4ej0-a1-m1-cF_4ej0-a1-m1-cG 4ej0-a1-m1-cF_4ej0-a1-m1-cJ 4ej0-a1-m1-cG_4ej0-a1-m1-cH 4ej0-a1-m1-cH_4ej0-a1-m1-cI MTLIVTGAAGFIGANLVKALNERGETRIIAVDNLTRADKFKNLVDCEIDDYLDKTEFVERFARGDFGKVRAVFHEGACSDTMETDGRYMMDNNFRYSRAVLDACLAQGAQFLYASSAAIYGGSSRFVEEREVEAPLNVYGYSKFLFDQVIRRVMPGAKSQIAGFRYFNVYGPRESHKGRMASVAFHNFNQFRAEGKVKLFGEYSGYGPGEQTRDFVSVEDVAKVNLYFFDHPEKSGIFNLGTGRAQPFNDIAATVVNTLRALEGQPALTLAEQVEQGLVEYVPFPDALRGKYQCFTQADQTKLRAAGYDAPFLTVQEGVDRYVRWLFGQL MTLIVTGAAGFIGANLVKALNERGETRIIAVDNLTRADKFKNLVDCEIDDYLDKTEFVERFARGDFGKVRAVFHEGACSDTMETDGRYMMDNNFRYSRAVLDACLAQGAQFLYASSAAIYGGSSRFVEEREVEAPLNVYGYSKFLFDQVIRRVMPGAKSQIAGFRYFNVYGPRESHKGRMASVAFHNFNQFRAEGKVKLFGEYSGYGPGEQTRDFVSVEDVAKVNLYFFDHPEKSGIFNLGTGRAQPFNDIAATVVNTLRALEGQPALTLAEQVEQGLVEYVPFPDALRGKYQCFTQADQTKLRAAGYDAPFLTVQEGVDRYVRWLFGQL 4ejf-a1-m1-cG_4ejf-a1-m1-cH Allosteric peptides that bind to a caspase zymogen and mediate caspase tetramerization 2.6465 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 4ejf-a1-m1-cF_4ejf-a1-m1-cE RLHCVEWTILER RLHCVEWTILER 4ejm-a1-m1-cA_4ejm-a1-m4-cA Crystal structure of a putative zinc-binding dehydrogenase (Target PSI-012003) from Sinorhizobium meliloti 1021 bound to NADP Q92PZ3 Q92PZ3 2.09 X-RAY DIFFRACTION 27 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 339 339 4ejm-a1-m2-cA_4ejm-a1-m3-cA QSKAVRLESVGNISVRNVGIPEPGPDDLLVKVEACGICGTDRHLLHGEFPSTPPVTLGHEFCGIVVEAGSAVRDIAPGARITGDPNISCGRCPQCQAGRVNLCRNLRAIGIHRDGGFAEYVLVPRKQAFEIPLTLDPVHGAFCEPLACCLHGVDLSGIKAGSTVAILGGGVIGLLTVQLARLAGATTVILSTRQATKRRLAEEVGATATVDPSAGDVVEAIAGPVGLVPGGVDVVIECAGVAETVKQSTRLAKAGGTVVILGVLPQGEKVEIEPFDILFRELRVLGSFINPFVHRRAADLVATGAIEIDRISRRISLDEAPDVISNPAAAGEVKVLVIP QSKAVRLESVGNISVRNVGIPEPGPDDLLVKVEACGICGTDRHLLHGEFPSTPPVTLGHEFCGIVVEAGSAVRDIAPGARITGDPNISCGRCPQCQAGRVNLCRNLRAIGIHRDGGFAEYVLVPRKQAFEIPLTLDPVHGAFCEPLACCLHGVDLSGIKAGSTVAILGGGVIGLLTVQLARLAGATTVILSTRQATKRRLAEEVGATATVDPSAGDVVEAIAGPVGLVPGGVDVVIECAGVAETVKQSTRLAKAGGTVVILGVLPQGEKVEIEPFDILFRELRVLGSFINPFVHRRAADLVATGAIEIDRISRRISLDEAPDVISNPAAAGEVKVLVIP 4ejm-a1-m2-cA_4ejm-a1-m4-cA Crystal structure of a putative zinc-binding dehydrogenase (Target PSI-012003) from Sinorhizobium meliloti 1021 bound to NADP Q92PZ3 Q92PZ3 2.09 X-RAY DIFFRACTION 126 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 339 339 4ejm-a1-m1-cA_4ejm-a1-m3-cA QSKAVRLESVGNISVRNVGIPEPGPDDLLVKVEACGICGTDRHLLHGEFPSTPPVTLGHEFCGIVVEAGSAVRDIAPGARITGDPNISCGRCPQCQAGRVNLCRNLRAIGIHRDGGFAEYVLVPRKQAFEIPLTLDPVHGAFCEPLACCLHGVDLSGIKAGSTVAILGGGVIGLLTVQLARLAGATTVILSTRQATKRRLAEEVGATATVDPSAGDVVEAIAGPVGLVPGGVDVVIECAGVAETVKQSTRLAKAGGTVVILGVLPQGEKVEIEPFDILFRELRVLGSFINPFVHRRAADLVATGAIEIDRISRRISLDEAPDVISNPAAAGEVKVLVIP QSKAVRLESVGNISVRNVGIPEPGPDDLLVKVEACGICGTDRHLLHGEFPSTPPVTLGHEFCGIVVEAGSAVRDIAPGARITGDPNISCGRCPQCQAGRVNLCRNLRAIGIHRDGGFAEYVLVPRKQAFEIPLTLDPVHGAFCEPLACCLHGVDLSGIKAGSTVAILGGGVIGLLTVQLARLAGATTVILSTRQATKRRLAEEVGATATVDPSAGDVVEAIAGPVGLVPGGVDVVIECAGVAETVKQSTRLAKAGGTVVILGVLPQGEKVEIEPFDILFRELRVLGSFINPFVHRRAADLVATGAIEIDRISRRISLDEAPDVISNPAAAGEVKVLVIP 4ejm-a1-m3-cA_4ejm-a1-m4-cA Crystal structure of a putative zinc-binding dehydrogenase (Target PSI-012003) from Sinorhizobium meliloti 1021 bound to NADP Q92PZ3 Q92PZ3 2.09 X-RAY DIFFRACTION 50 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 339 339 4ejm-a1-m1-cA_4ejm-a1-m2-cA QSKAVRLESVGNISVRNVGIPEPGPDDLLVKVEACGICGTDRHLLHGEFPSTPPVTLGHEFCGIVVEAGSAVRDIAPGARITGDPNISCGRCPQCQAGRVNLCRNLRAIGIHRDGGFAEYVLVPRKQAFEIPLTLDPVHGAFCEPLACCLHGVDLSGIKAGSTVAILGGGVIGLLTVQLARLAGATTVILSTRQATKRRLAEEVGATATVDPSAGDVVEAIAGPVGLVPGGVDVVIECAGVAETVKQSTRLAKAGGTVVILGVLPQGEKVEIEPFDILFRELRVLGSFINPFVHRRAADLVATGAIEIDRISRRISLDEAPDVISNPAAAGEVKVLVIP QSKAVRLESVGNISVRNVGIPEPGPDDLLVKVEACGICGTDRHLLHGEFPSTPPVTLGHEFCGIVVEAGSAVRDIAPGARITGDPNISCGRCPQCQAGRVNLCRNLRAIGIHRDGGFAEYVLVPRKQAFEIPLTLDPVHGAFCEPLACCLHGVDLSGIKAGSTVAILGGGVIGLLTVQLARLAGATTVILSTRQATKRRLAEEVGATATVDPSAGDVVEAIAGPVGLVPGGVDVVIECAGVAETVKQSTRLAKAGGTVVILGVLPQGEKVEIEPFDILFRELRVLGSFINPFVHRRAADLVATGAIEIDRISRRISLDEAPDVISNPAAAGEVKVLVIP 4ejo-a2-m1-cB_4ejo-a2-m3-cB Crystal structure of padr family transcriptional regulator from Eggerthella lenta DSM 2243 C8WHB0 C8WHB0 2.1 X-RAY DIFFRACTION 88 1.0 479437 (Eggerthella lenta DSM 2243) 479437 (Eggerthella lenta DSM 2243) 108 108 4ejo-a1-m1-cA_4ejo-a1-m2-cA AAYDDIVSSVLELRRGTLVLVLSQLREPAYGYALVKSLADHGIPITLYPLRRLESQGLLASEWDNGGKPRKYYRTTDEGLRVLREVEAQWHVLCDGVGKLLETNGEDR AAYDDIVSSVLELRRGTLVLVLSQLREPAYGYALVKSLADHGIPITLYPLRRLESQGLLASEWDNGGKPRKYYRTTDEGLRVLREVEAQWHVLCDGVGKLLETNGEDR 4ejq-a2-m1-cD_4ejq-a2-m1-cC Crystal structure of KIF1A C-CC1-FHA Q12756 Q12756 1.893 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 151 4egx-a1-m1-cA_4egx-a1-m1-cB 4ejq-a1-m1-cB_4ejq-a1-m1-cA 4ejq-a3-m1-cE_4ejq-a3-m1-cF 4ejq-a4-m1-cG_4ejq-a4-m1-cH EFTEAIRMEREALLAEMGVAMREDGGTLGVFSPKKTPHLVNLNEDPLMSECLLYYIKDGITRVGREDGERRQDIVLSGHFIKEEHCVFRSDSRGGSEAVVTLEPCEGADTYVNGKKVTEPSILRSGNRIIMGKSHVFRFNHPEQARQE GSEFTEAIRMEREALLAEMGVAMREDGGTLGVFSPKKTPHLVNLNEDPLMSECLLYYIKDGITRVGREDGERRQDIVLSGHFIKEEHCVFRSDSRGGSEAVVTLEPCEGADTYVNGKKVTEPSILRSGNRIIMGKSHVFRFNHPEQARQER 4eku-a2-m1-cA_4eku-a2-m2-cA Crystal Structure of FERM Domain of Proline-rich Tyrosine Kinase 2 Q14289 Q14289 3.25 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 348 348 ELGPAEPMVVVPVDVEKEDVRILKVCFYSNSFNPGKNFKLVKCTVQTEIREIITSILLSGRIGPNIRLAECYGLRLKHMKSDEIHWLHPQMTVGEVQDKYECLHVEAEWRYDLQIRYLPEDFMESLKEDRTTLLYFYQQLRNDYMQRYASKVSEGMALQLGCLELRRFFKDMPHNALDKKSNFELLEKEVGLDLFFPKQMQENLKPKQFRKMIQQTFQQYASLREEECVMKFFNTLAGFANIDQETYRCELIQGWNITVDLVIGPKGIRQLTSQDAKPTCLAEFKQIRSIRCLPLEEGQAVLQLGIEGAPQALSIKTSSLAEAENMADLIDGYCRLQGEHQGSLIIHP ELGPAEPMVVVPVDVEKEDVRILKVCFYSNSFNPGKNFKLVKCTVQTEIREIITSILLSGRIGPNIRLAECYGLRLKHMKSDEIHWLHPQMTVGEVQDKYECLHVEAEWRYDLQIRYLPEDFMESLKEDRTTLLYFYQQLRNDYMQRYASKVSEGMALQLGCLELRRFFKDMPHNALDKKSNFELLEKEVGLDLFFPKQMQENLKPKQFRKMIQQTFQQYASLREEECVMKFFNTLAGFANIDQETYRCELIQGWNITVDLVIGPKGIRQLTSQDAKPTCLAEFKQIRSIRCLPLEEGQAVLQLGIEGAPQALSIKTSSLAEAENMADLIDGYCRLQGEHQGSLIIHP 4ekx-a1-m1-cC_4ekx-a1-m1-cA Crystal Structure of YLDV 14L IL-18 Binding Protein in Complex with Human IL-18 Q9DHU8 Q9DHU8 1.75 X-RAY DIFFRACTION 44 1.0 132475 (Yaba-like disease virus) 132475 (Yaba-like disease virus) 100 101 4eee-a1-m1-cA_4eee-a1-m1-cC TRSVNIHVPVKETSKVVLECRGDSYFRHFSYVYWIIGKNKTVDQLPPNSGYRERIYLRPRADLILTNITDEMRNEKLTCVLIDPKDPLKESVILSKIWNS TRSVNIHVPVKETSKVVLECRGDSYFRHFSYVYWIIGKNKTVDQLPPNSGYRERIYLNRPRADLILTNITDEMRNEKLTCVLIDPKDPLKESVILSKIWNS 4eld-a1-m9-cB_4eld-a1-m18-cA Crystal Structure of an Activated Variant of Small Heat Shock Protein Hsp16.5 Q57733 Q57733 2.701 X-RAY DIFFRACTION 41 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 114 117 4eld-a1-m10-cB_4eld-a1-m17-cA 4eld-a1-m11-cB_4eld-a1-m19-cA 4eld-a1-m12-cB_4eld-a1-m20-cA 4eld-a1-m13-cB_4eld-a1-m3-cA 4eld-a1-m14-cB_4eld-a1-m4-cA 4eld-a1-m15-cB_4eld-a1-m2-cA 4eld-a1-m16-cB_4eld-a1-m1-cA 4eld-a1-m17-cB_4eld-a1-m9-cA 4eld-a1-m18-cB_4eld-a1-m10-cA 4eld-a1-m19-cB_4eld-a1-m12-cA 4eld-a1-m1-cB_4eld-a1-m15-cA 4eld-a1-m20-cB_4eld-a1-m11-cA 4eld-a1-m21-cB_4eld-a1-m6-cA 4eld-a1-m22-cB_4eld-a1-m5-cA 4eld-a1-m23-cB_4eld-a1-m7-cA 4eld-a1-m24-cB_4eld-a1-m8-cA 4eld-a1-m2-cB_4eld-a1-m16-cA 4eld-a1-m3-cB_4eld-a1-m14-cA 4eld-a1-m4-cB_4eld-a1-m13-cA 4eld-a1-m5-cB_4eld-a1-m21-cA 4eld-a1-m6-cB_4eld-a1-m22-cA 4eld-a1-m7-cB_4eld-a1-m24-cA 4eld-a1-m8-cB_4eld-a1-m23-cA GIQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE VAAGIQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE 4elz-a1-m1-cB_4elz-a1-m1-cA CCDBVFI:GYRA14VFI Q5E5J7 Q5E5J7 2.2 X-RAY DIFFRACTION 79 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 131 143 MTRRTIFELRKARDRAHILEGLALALANIDEIIELIKNAPTPAEAKEGLISRGWDLGNVASMLERAGTDAARPDWLEPEFGIREGKYFLTEQQAQAILELRLHRLTGLEHEKILDEYKALLDEIAELMHIL SSGLVPRGSHMTRRTIFELRKARDRAHILEGLALALANIDEIIELIKNAPTPAEAKEGLISRGWDLGNVASMLERAGTDAARPDWLEPEFGIREGKYFLTEQQAQAILELRLHRLTGLEHEKILDEYKALLDEIAELMHILAS 4em2-a2-m1-cA_4em2-a2-m2-cA seleno-methionine staphylococcus aureus MarR in complex with salicylate Q6GEG9 Q6GEG9 2.08 X-RAY DIFFRACTION 153 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 150 150 4em0-a2-m1-cB_4em0-a2-m2-cB 4em1-a2-m1-cA_4em1-a2-m2-cA TAAAKFEMLSQEFFNSFITIYRPYLKLTEPILEKHNIYYGQWLILRDIAKHQPTTLIEISHRRAIEKPTARKTLKALIENDLITVENSLEDKRQKFLTLTPKGHELYEIVCLDVQKLQQAVVAKTNISQDQMQETINVMNQIHEILLKEA TAAAKFEMLSQEFFNSFITIYRPYLKLTEPILEKHNIYYGQWLILRDIAKHQPTTLIEISHRRAIEKPTARKTLKALIENDLITVENSLEDKRQKFLTLTPKGHELYEIVCLDVQKLQQAVVAKTNISQDQMQETINVMNQIHEILLKEA 4em6-a2-m1-cC_4em6-a2-m1-cA The structure of Glucose-6-phosphate isomerase (GPI) from Brucella melitensis Q8YF86 Q8YF86 1.9 X-RAY DIFFRACTION 475 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 544 546 4em6-a1-m1-cB_4em6-a1-m1-cD ATKLEATVAKLKKHWAESAPRDMRAAFSADPGRFGRYSLCLDDLLFDWSKCRVNDETMALLKELAVAADVEGRRAAMFAGEHINNTEDRAVLHVALRDTSSKEVLVDGHNVLPDVKHVLDRMAAFADGIRSGALKGATGRKITDIVNIGIGGSDLGPVMATLALAPYHDEPRAHFVSNIDGAHIADTLSPLDPASTLIIVASKTFTTIETMTNAQTARKWVADTLGEAAVGAHFAAVSTALDKVAAFGIPEDRVFGFWDWVGGRYSVWSAIGLPVMIAVGPDNFRKFLAGAHAMDVHFRDAPLEKNLPVMLGLIGYWHRAICGYGSRAIIPYDQRLSRLPAYLQQLDMESNGKSVTLDGKPVSGPTGPVVWGEPGTNGQHAFFQLLHQGTDTIPLEFIVAAKGHEPTLDHQHEMLMANCLAQSEALMKGRTLDEARAQLQAKNLPASQVERIAPHRVFSGNRPSLTLIHDMLDPYTLGRLIALYEHRVFVEAQIFGINAFDQWGVELGKELATELLPVVSGKEGASGRDASTQGLVAHLHARRK RDATKLEATVAKLKKHWAESAPRDMRAAFSADPGRFGRYSLCLDDLLFDWSKCRVNDETMALLKELAVAADVEGRRAAMFAGEHINNTEDRAVLHVALRDTSSKEVLVDGHNVLPDVKHVLDRMAAFADGIRSGALKGATGRKITDIVNIGIGGSDLGPVMATLALAPYHDEPRAHFVSNIDGAHIADTLSPLDPASTLIIVASKTFTTIETMTNAQTARKWVADTLGEAAVGAHFAAVSTALDKVAAFGIPEDRVFGFWDWVGGRYSVWSAIGLPVMIAVGPDNFRKFLAGAHAMDVHFRDAPLEKNLPVMLGLIGYWHRAICGYGSRAIIPYDQRLSRLPAYLQQLDMESNGKSVTLDGKPVSGPTGPVVWGEPGTNGQHAFFQLLHQGTDTIPLEFIVAAKGHEPTLDHQHEMLMANCLAQSEALMKGRTLDEARAQLQAKNLPASQVERIAPHRVFSGNRPSLTLIHDMLDPYTLGRLIALYEHRVFVEAQIFGINAFDQWGVELGKELATELLPVVSGKEGASGRDASTQGLVAHLHARRK 4em8-a1-m1-cB_4em8-a1-m1-cA The Structure of Ribose 5-phosphate Isomerase B from Anaplasma phagocytophilum Q2GK74 Q2GK74 1.95 X-RAY DIFFRACTION 82 1.0 212042 (Anaplasma phagocytophilum str. HZ) 212042 (Anaplasma phagocytophilum str. HZ) 145 146 GSMVVKRVFLSSDHAGVELRLFLSAYLRDLGCEVFDCGCDPKEHSVDYPDYVHDVVREVSDTSFGVLICGTGIGMSIAANRHKNIRAALCSSTMLAKLSREHNDANVLCFGSRYIDPDTAQSVLYTFMTTAFLGGRHAVRVQKLG GSMVVKRVFLSSDHAGVELRLFLSAYLRDLGCEVFDCGCDPKEHSVDYPDYVHDVVREVSDTSFGVLICGTGIGMSIAANRHKNIRAALCSSTMLAKLSREHNDANVLCFGSRYIDPDTAQSVLYTFMTTAFLGGRHAVRVQKLGE 4em9-a3-m1-cB_4em9-a3-m4-cA Human PPAR gamma in complex with nonanoic acids P37231 P37231 2.1 X-RAY DIFFRACTION 23 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 243 259 4em9-a3-m2-cB_4em9-a3-m3-cA ESADLRALAKHLYDSYIKSFPLTKAKARAILTGSPFVIYDMNSLMMGEDFKHIEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVLHPLLQEIYK ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY 4em9-a3-m3-cA_4em9-a3-m4-cA Human PPAR gamma in complex with nonanoic acids P37231 P37231 2.1 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY 4emb-a2-m1-cB_4emb-a2-m1-cD Crystal structure of a phosphoglycerate mutase gpmA from Borrelia burgdorferi B31 O51602 O51602 2.3 X-RAY DIFFRACTION 42 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 238 238 4emb-a1-m1-cC_4emb-a1-m1-cA FYKLVLVRHGESEWNKENLFTGWTDVKLSDKGIDEAVEAGLLLKQEGYSFDIAFSSLLSRANDTLNIILRELGQSYISVKKTWRLNERHYGALQGLNKSETAAKYGEDKVLIWRRSYDVPPSLDESDDRHPIKDPRYKHIPKRELPSTECLKDTVARVIPYWTDEIAKEVLEGKKVIVAAHGNSLRALVKYFDNLSEEDVLKLNIPTGIPLVYELDKDLNPIKHYYLGDESKIKKAES FYKLVLVRHGESEWNKENLFTGWTDVKLSDKGIDEAVEAGLLLKQEGYSFDIAFSSLLSRANDTLNIILRELGQSYISVKKTWRLNERHYGALQGLNKSETAAKYGEDKVLIWRRSYDVPPSLDESDDRHPIKDPRYKHIPKRELPSTECLKDTVARVIPYWTDEIAKEVLEGKKVIVAAHGNSLRALVKYFDNLSEEDVLKLNIPTGIPLVYELDKDLNPIKHYYLGDESKIKKAES 4emg-a2-m1-cK_4emg-a2-m1-cN Crystal structure of SpLsm3 Q9Y7M4 Q9Y7M4 2.7 X-RAY DIFFRACTION 42 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 69 69 4emg-a1-m1-cA_4emg-a1-m1-cF 4emg-a1-m1-cA_4emg-a1-m1-cG 4emg-a1-m1-cB_4emg-a1-m1-cC 4emg-a1-m1-cB_4emg-a1-m1-cE 4emg-a1-m1-cC_4emg-a1-m1-cD 4emg-a1-m1-cD_4emg-a1-m1-cG 4emg-a1-m1-cE_4emg-a1-m1-cF 4emg-a2-m1-cH_4emg-a2-m1-cM 4emg-a2-m1-cH_4emg-a2-m1-cN 4emg-a2-m1-cI_4emg-a2-m1-cJ 4emg-a2-m1-cI_4emg-a2-m1-cL 4emg-a2-m1-cJ_4emg-a2-m1-cK 4emg-a2-m1-cL_4emg-a2-m1-cM EPLDLVRLSLDEIVYVKLRGDRELNGRLHAYDEHLNVLGDAEEIVTTIRKHYELFVRGDSVILIAPPRN EPLDLVRLSLDEIVYVKLRGDRELNGRLHAYDEHLNVLGDAEEIVTTIRKHYELFVRGDSVILIAPPRN 4emh-a4-m1-cJ_4emh-a4-m1-cK Crystal structure of SpLsm4 O14352 O14352 2.2 X-RAY DIFFRACTION 23 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 58 58 4emh-a1-m1-cA_4emh-a1-m1-cB 4emh-a1-m1-cA_4emh-a1-m1-cC 4emh-a1-m1-cB_4emh-a1-m1-cC 4emh-a2-m1-cD_4emh-a2-m1-cE 4emh-a2-m1-cD_4emh-a2-m1-cF 4emh-a2-m1-cE_4emh-a2-m1-cF 4emh-a3-m1-cG_4emh-a3-m1-cH 4emh-a3-m1-cG_4emh-a3-m1-cI 4emh-a3-m1-cH_4emh-a3-m1-cI 4emh-a4-m1-cJ_4emh-a4-m1-cL 4emh-a4-m1-cK_4emh-a4-m1-cL 4emh-a5-m1-cM_4emh-a5-m1-cN 4emh-a5-m1-cM_4emh-a5-m1-cO 4emh-a5-m1-cN_4emh-a5-m1-cO 4emh-a6-m1-cP_4emh-a6-m1-cQ 4emh-a6-m1-cP_4emh-a6-m1-cR 4emh-a6-m1-cQ_4emh-a6-m1-cR 4emh-a7-m1-cT_4emh-a7-m1-cU 4emh-a7-m1-cT_4emh-a7-m1-cV 4emh-a7-m1-cU_4emh-a7-m1-cV 4emh-a8-m1-cW_4emh-a8-m1-cX 4emh-a8-m1-cW_4emh-a8-m1-cY 4emh-a8-m1-cX_4emh-a8-m1-cY GRPILVELKNGETFNGHLENCDNYNLTLREVIRTPDGDKFFRLPECYIRGNNIKYLRI GRPILVELKNGETFNGHLENCDNYNLTLREVIRTPDGDKFFRLPECYIRGNNIKYLRI 4emo-a1-m1-cA_4emo-a1-m1-cD Crystal structure of the PH domain of SHARPIN Q9H0F6 Q9H0F6 2 X-RAY DIFFRACTION 30 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 102 103 AAVLAVHAAVRPLGAGPDAEAQLRRLQLSADPERPGRFRLELLGAGPGAVNLEWPLESVSYTIRGPTQHELQPPPGGPGTLSHFLNPQEAQRWAVLVRGATV LGSAAVLAVHAAVRPLGAGAEAQLRRLQLSADPERPGRFRLELLGAGPGAVNLEWPLESVSYTIRGPTQHELQPPPGGPGTLSHFLNPQEAQRWAVLVRGATV 4emy-a2-m1-cC_4emy-a2-m1-cD Crystal structure of aminotransferase from anaerococcus prevotii dsm 20548. C7REB0 C7REB0 2.86 X-RAY DIFFRACTION 191 0.995 525919 (Anaerococcus prevotii DSM 20548) 525919 (Anaerococcus prevotii DSM 20548) 401 401 4emy-a1-m1-cA_4emy-a1-m1-cB PTIKRATWNNGPDLAFDINNKANAAIEKYGREAVINAALGTLLDDKGKIIALPSVYDRLDEDRSHIASYAPIEGEKDYRKIVIDTLFGPYKPEGYISAIATPGGTGAIRSAIFSYDEGDPLICHDYYWAPYRKICEEFGRNFKTFEFFTDDFAFNIDVYKEAIDEGIRDSDRIASLINSPGNNPTGYSLSDEEWDEVITFLKEKAEDKDKKITLIVDVAYLEAGDGDQQRKFFEKFSNLPRNLFVVVAFSSKSHTAYGLRSGAAVGISSSKEIIEEFEASLAHSARCNWSNGTHAAQNILIELERAENKKIYEQELVDLRNLKSRADVFVTAAKENKLTIPYFGGFFTFIPTDKAFDIVKDLEKENIFTIPSAKGIRVAICGVGEEKIPKLVQRLAFYTNK PTIKRATWNNGPDLAFDINNKANAAIEKYGREAVINAALGTLLDDKGKIIALPSVYDRLDEDRSHIASYAPIEGEKDYRKIVIDTLFGPYKPEGYISAIATPGGTGAIRSAIFSYLEGDPLICHDYYWAPYRKICEEFGRNFKTFEFFTDDFAFNIDVYKEAIDEGIRDSDRIASLINSPGNNPTGYSLSDEEWDEVITFLKEKAEDKDKKITLIVDVAYLEFAGDGDQQRKFFEKFSNLPRNLFVVVAFSSKSHTAYGLRSGAAVGISSSKEIIEEFEASLAHSARCNWNGTHAAQNILIELERAENKKIYEQELVDLRNLKSRADVFVTAAKENKLTIPYFGGFFTFIPTDKAFDIVKDLEKENIFTIPSAKGIRVAICGVGEEKIPKLVQRLAFYTNK 4en4-a1-m1-cA_4en4-a1-m1-cB Crystal Structure of the Ternary Human PL Kinase-Ginkgotoxin-MgATP Complex O00764 O00764 2.15 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 310 310 2ajp-a3-m1-cB_2ajp-a3-m1-cA 2f7k-a1-m1-cA_2f7k-a1-m1-cB 2yxt-a1-m1-cA_2yxt-a1-m1-cB 2yxt-a2-m1-cA_2yxt-a2-m1-cB 2yxt-a2-m2-cA_2yxt-a2-m2-cB 2yxu-a1-m1-cA_2yxu-a1-m1-cB 2yxu-a2-m1-cA_2yxu-a2-m1-cB 2yxu-a2-m2-cA_2yxu-a2-m2-cB 3fhx-a1-m1-cA_3fhx-a1-m1-cB 3fhy-a1-m1-cA_3fhy-a1-m1-cB 3keu-a1-m1-cA_3keu-a1-m1-cB 4eoh-a1-m1-cA_4eoh-a1-m1-cB EECRVLSIQSHVIRGYVGNRAATFPLQVLGFEIDAVNSVQFSNHTGYAHWKGQVLNSDELQELYEGLRLNNMNKYDYVLTGYTRDKSFLAMVVDIVQELKQQNPRLVYVCDPVLGDKWDGEGSMYVPEDLLPVYKEKVVPLADIITPNQFEAELLSGRKIHSQEEALRVMDMLHSMGPDTVVITSSDLPSPQGSNYLIVLGSQRRRNPAGSVVMERIRMDIRKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSTLHHVLQRTIQCAKAQAGEGVRPSPMQLELRMVQSKRDIEDPEIVVQATVL EECRVLSIQSHVIRGYVGNRAATFPLQVLGFEIDAVNSVQFSNHTGYAHWKGQVLNSDELQELYEGLRLNNMNKYDYVLTGYTRDKSFLAMVVDIVQELKQQNPRLVYVCDPVLGDKWDGEGSMYVPEDLLPVYKEKVVPLADIITPNQFEAELLSGRKIHSQEEALRVMDMLHSMGPDTVVITSSDLPSPQGSNYLIVLGSQRRRNPAGSVVMERIRMDIRKVDAVFVGTGDLFAAMLLAWTHKHPNNLKVACEKTVSTLHHVLQRTIQCAKAQAGEGVRPSPMQLELRMVQSKRDIEDPEIVVQATVL 4eo2-a1-m1-cE_4eo2-a1-m1-cF Structure of the bacteriophage C1 tail knob protein, gp12 Q7Y3F0 Q7Y3F0 3.007 X-RAY DIFFRACTION 143 1.0 230871 (Fischettivirus C1) 230871 (Fischettivirus C1) 488 488 4eo2-a1-m1-cA_4eo2-a1-m1-cB 4eo2-a1-m1-cA_4eo2-a1-m1-cF 4eo2-a1-m1-cB_4eo2-a1-m1-cC 4eo2-a1-m1-cC_4eo2-a1-m1-cD 4eo2-a1-m1-cD_4eo2-a1-m1-cE 4ep0-a1-m1-cA_4ep0-a1-m1-cB 4ep0-a1-m1-cA_4ep0-a1-m1-cF 4ep0-a1-m1-cB_4ep0-a1-m1-cC 4ep0-a1-m1-cC_4ep0-a1-m1-cD 4ep0-a1-m1-cD_4ep0-a1-m1-cE 4ep0-a1-m1-cE_4ep0-a1-m1-cF 4ep0-a2-m1-cG_4ep0-a2-m1-cH 4ep0-a2-m1-cG_4ep0-a2-m1-cL 4ep0-a2-m1-cH_4ep0-a2-m1-cI 4ep0-a2-m1-cI_4ep0-a2-m1-cJ 4ep0-a2-m1-cJ_4ep0-a2-m1-cK 4ep0-a2-m1-cK_4ep0-a2-m1-cL LSKIKLFYNTPFNNMQNTLHFNSNEERDAYFNSKFDVHEFTSTFNYRGVLRVTIDLVSDRSCFEQLMGVNYCQVQYIQSNRVEYLFVTDIQQLNDKVCELSLVPDVVMTYTQGNVLNTLNNVNVIRQHYTQTEYEQNLEQIRSNNDVLATSTMRVHAIKSELFTQLEYILTIGANLRKSFGTAEKPKFPSSSGSTHDGIYNPYDMYWFNDYESLKEVMDYLTGYPWIQQSIKNVTIIPSGFIKQESLNDHEPVNGGDLSVRKLGKQGVSNQKDFNAISLDYQSLMFTLGLNPINDKHLLRPNIVTAELTDYAGNRLPIDLSLIETNLEFDSFVTMGAKNEIKVYVKNYNARGNNVGQYIDNALTINNFDTIGFSVDAITEGHVGYAPLFKQDKFGVHLRLGRISQDELNNVKKYYNMFGYECNDYSTKLSDITSMSICNWVQFKGIWTLPNVDTGHMNMLRALFEAGVRLWHKESDMINNTVVNNVII LSKIKLFYNTPFNNMQNTLHFNSNEERDAYFNSKFDVHEFTSTFNYRGVLRVTIDLVSDRSCFEQLMGVNYCQVQYIQSNRVEYLFVTDIQQLNDKVCELSLVPDVVMTYTQGNVLNTLNNVNVIRQHYTQTEYEQNLEQIRSNNDVLATSTMRVHAIKSELFTQLEYILTIGANLRKSFGTAEKPKFPSSSGSTHDGIYNPYDMYWFNDYESLKEVMDYLTGYPWIQQSIKNVTIIPSGFIKQESLNDHEPVNGGDLSVRKLGKQGVSNQKDFNAISLDYQSLMFTLGLNPINDKHLLRPNIVTAELTDYAGNRLPIDLSLIETNLEFDSFVTMGAKNEIKVYVKNYNARGNNVGQYIDNALTINNFDTIGFSVDAITEGHVGYAPLFKQDKFGVHLRLGRISQDELNNVKKYYNMFGYECNDYSTKLSDITSMSICNWVQFKGIWTLPNVDTGHMNMLRALFEAGVRLWHKESDMINNTVVNNVII 4eo3-a1-m1-cA_4eo3-a1-m1-cB Peroxiredoxin Nitroreductase Fusion Enzyme Q9WYL7 Q9WYL7 1.649 X-RAY DIFFRACTION 266 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 321 321 ARVKHFELLTDEGKTFTHVDLYGKYTILFFFPKAGTSGSTREAVEFSRENFEKAQVVGISRDSVEALKRFKEKNDLKVTLLSDPEGILHEFFNVLENGKTVRSTFLIDRWGFVRKEWRRVKVEGHVQEVKEALDRLIEEDLSLNKHIEWRRARRALKKDRVPREELELLIKAAHLAPSCMNNQPWRFVVVDEEELLKKIHEALPGGNYWMKNAPALIAVHSKKDFDCALPDNRDYFLFDTGLAVGNLLVQATQMGLVAHPVAGYDPVKVKEILKIPEDHVLITLIAVGYLGDESELSEKHRELERSERVRKELSEIVRWNL ARVKHFELLTDEGKTFTHVDLYGKYTILFFFPKAGTSGSTREAVEFSRENFEKAQVVGISRDSVEALKRFKEKNDLKVTLLSDPEGILHEFFNVLENGKTVRSTFLIDRWGFVRKEWRRVKVEGHVQEVKEALDRLIEEDLSLNKHIEWRRARRALKKDRVPREELELLIKAAHLAPSCMNNQPWRFVVVDEEELLKKIHEALPGGNYWMKNAPALIAVHSKKDFDCALPDNRDYFLFDTGLAVGNLLVQATQMGLVAHPVAGYDPVKVKEILKIPEDHVLITLIAVGYLGDESELSEKHRELERSERVRKELSEIVRWNL 4eo4-a2-m1-cB_4eo4-a2-m1-cD Crystal structure of the yeast mitochondrial threonyl-tRNA synthetase (MST1) in complex with seryl sulfamoyl adenylate P07236 P07236 2.87 X-RAY DIFFRACTION 216 0.998 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 413 414 3ugq-a1-m1-cA_3ugq-a1-m2-cA 3ugt-a1-m1-cA_3ugt-a1-m1-cB 3ugt-a2-m1-cD_3ugt-a2-m1-cC 3uh0-a1-m1-cA_3uh0-a1-m2-cA 4eo4-a1-m1-cC_4eo4-a1-m1-cA 4yye-a1-m1-cB_4yye-a1-m1-cA MTSMVSQRQDLFMTDPLSPGSMFFLPNGAKIFNKLIEFMKLQQKFKFGFNEVVTPLIYKKTLWEKSGHWENYADDMFKVETKEEYGLKPMNCPGHCLIFGKKDRSYNELPLRFSDFSPLHRNEASGALSGLTRLRKFHQDDGHIFCTPSQVKSEIFNSLKLIDIVYNKIFPFSNYFINFSTRPDHFIGDLKVWNHAEQVLKEILEESGKPWKLNPGDGAFYGPKLDIMVTDHLRKTHQVATIQLDFQLPERFDLKFKDQDNSYKRPIMIHRATFGSIERFMALLIDSNEGRWPFWLNPYQAVIIPVNTKNVQQLDMCTALQKKLRNELEADDMEPVPLNDWHFNVDLDIRNEPVGYRIKSAILKNYSYLIIVGDEEVQLQKYNIRERDNRKSFEKLTMSQIWEKFIELEKNYK ATMTSMVSQRQDLFMTDPLSPGSMFFLPNGAKIFNKLIEFMKLQQKFKFGFNEVVTPLIYKKTLWEKSGHWENYADDMFKVETKEEYGLKPMNCPGHCLIFGKKDRSYNELPLRFSDFSPLHRNEASGALSGLTRLRKFHQDDGHIFCTPSQVKSEIFNSLKLIDIVYNKIFPSNYFINFSTRPDHFIGDLKVWNHAEQVLKEILEESGKPWKLNPGDGAFYGPKLDIMVTDHLRKTHQVATIQLDFQLPERFDLKFKDQDNSYKRPIMIHRATFGSIERFMALLIDSNEGRWPFWLNPYQAVIIPVNTKNVQQLDMCTALQKKLRNELEADDMEPVPLNDWHFNVDLDIRNEPVGYRIKSAILKNYSYLIIVGDEEVQLQKYNIRERDNRKSFEKLTMSQIWEKFIELEKNYK 4eo9-a1-m1-cA_4eo9-a1-m2-cA Crystal structure of a phosphoglycerate mutase gpm1 from Mycobacterium leprae B8ZT86 B8ZT86 2.45 X-RAY DIFFRACTION 32 1.0 561304 (Mycobacterium leprae Br4923) 561304 (Mycobacterium leprae Br4923) 240 240 NTATLILLRHGESDWNARNLFTGWVDVGLTDKGRAEAVRSGELLAEHNLLPDVLYTSLLRRAITTAHLALDTADWLWIPVRRSWRLNERHYGALQGLDKAVTKARYGEERFMAWRRSYDTPPPPIEKGSEFSQDADPRYTDIGGGPLTECLADVVTRFLPYFTDVIVPDLRTGRTVLIVAHGNSLRALVKHLDEMSDDEVVGLNVPTGIPLRYDLDADLRPVVPGGTYLDPEAAAAVISQ NTATLILLRHGESDWNARNLFTGWVDVGLTDKGRAEAVRSGELLAEHNLLPDVLYTSLLRRAITTAHLALDTADWLWIPVRRSWRLNERHYGALQGLDKAVTKARYGEERFMAWRRSYDTPPPPIEKGSEFSQDADPRYTDIGGGPLTECLADVVTRFLPYFTDVIVPDLRTGRTVLIVAHGNSLRALVKHLDEMSDDEVVGLNVPTGIPLRYDLDADLRPVVPGGTYLDPEAAAAVISQ 4eob-a6-m1-cD_4eob-a6-m1-cC Structure of the type VI peptidoglycan amidase effector Tse1 from Pseudomonas aeruginosa Q9I2Q1 Q9I2Q1 2.611 X-RAY DIFFRACTION 44 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 147 148 4eob-a5-m1-cB_4eob-a5-m1-cA 4fgd-a5-m1-cC_4fgd-a5-m1-cA 4fgd-a6-m1-cB_4fgd-a6-m1-cD 4fge-a5-m1-cC_4fge-a5-m1-cA 7tvh-a1-m1-cA_7tvh-a1-m1-cB 7tvh-a2-m1-cD_7tvh-a2-m1-cC SLDQCIVNACKNSWDKSYLAGTPNKDNCSGFVQSVAAELGVPMPRGNANAMVDGLEQSWTKLASGAEAAQKAAQGFLVIAGLKGRTYGHVAVVISGPLYRQKYPMCWCGSIAGAVGQSQGLKSVGQVWNRTDRDRLNYYVYSLASCS SLDQCIVNACKNSWDKSYLAGTPNKDNCSGFVQSVAAELGVPMPRGNANAMVDGLEQSWTKLASGAEAAQKAAQGFLVIAGLKGRTYGHVAVVISGPLYRQKYPMCWCGSIAGAVGQSQGLKSVGQVWNRTDRDRLNYYVYSLASCSL 4eog-a1-m1-cA_4eog-a1-m2-cA Crystal structure of Csx1 of Pyrococcus furiosus 2.3 X-RAY DIFFRACTION 152 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 460 460 RVLVTTWGNPFQWEPITYEYRGIKVKSRNTLPILVKTLEPERILILVADTANYYDSGKNKPEIEEKSFSSYSEVVEDTKERILWHIKEEVIEELREEDPELAKKIENLKDERITIEVLPGVGVFGNITVEGELDFYYYATYKLAEWLPVQNNLEVYLDLTHGINFPTFTYRALRNLLGLLAYLYNVKFEIVNSEPYPLGVSQEIREDTILHIREIGEGVVRPRPQYSPVEGKLYWNAFISSVANGFPLVFASFYPNIRDVEDYLNKKLEEFLVGIEVGEREDGKPYVKREKALDRSFKNASKLYYALRVFNTKFQNYPKKEVPIEEIEISKIFESLPRIGIILERQVEWLRNLVYGRLWYENGEQKIKKGLLEIIKDKKDKRKEAEALKKGKTISLAEAAKLTRISPNVVRNFIAHSGFEYNIVYVKYDRLSDRLYFFYKDKEKAANLAYEALLYRGEKE RVLVTTWGNPFQWEPITYEYRGIKVKSRNTLPILVKTLEPERILILVADTANYYDSGKNKPEIEEKSFSSYSEVVEDTKERILWHIKEEVIEELREEDPELAKKIENLKDERITIEVLPGVGVFGNITVEGELDFYYYATYKLAEWLPVQNNLEVYLDLTHGINFPTFTYRALRNLLGLLAYLYNVKFEIVNSEPYPLGVSQEIREDTILHIREIGEGVVRPRPQYSPVEGKLYWNAFISSVANGFPLVFASFYPNIRDVEDYLNKKLEEFLVGIEVGEREDGKPYVKREKALDRSFKNASKLYYALRVFNTKFQNYPKKEVPIEEIEISKIFESLPRIGIILERQVEWLRNLVYGRLWYENGEQKIKKGLLEIIKDKKDKRKEAEALKKGKTISLAEAAKLTRISPNVVRNFIAHSGFEYNIVYVKYDRLSDRLYFFYKDKEKAANLAYEALLYRGEKE 4eot-a1-m1-cA_4eot-a1-m1-cB Crystal structure of the MafA homodimer bound to the consensus MARE Q8NHW3 Q8NHW3 2.855 X-RAY DIFFRACTION 59 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 RFSDDQLVSMSVRELNRQLRGFSKEEVIRLKQKRRTLKNRGYAQSCRFKRVQQRHILESEKCQLQSQVEQLKLEVGRLAKERDLYKEKYEKL FSDDQLVSMSVRELNRQLRGFSKEEVIRLKQKRRTLKNRGYAQSCRFKRVQQRHILESEKCQLQSQVEQLKLEVGRLAKERDLYKEKYEKLA 4ep1-a2-m4-cB_4ep1-a2-m5-cB Crystal structure of anabolic ornithine carbamoyltransferase from Bacillus anthracis Q81M99 Q81M99 3.25 X-RAY DIFFRACTION 48 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 297 297 4ep1-a1-m1-cA_4ep1-a1-m2-cA 4ep1-a1-m1-cA_4ep1-a1-m3-cA 4ep1-a1-m2-cA_4ep1-a1-m3-cA 4ep1-a2-m1-cB_4ep1-a2-m4-cB 4ep1-a2-m1-cB_4ep1-a2-m5-cB 4nf2-a1-m1-cA_4nf2-a1-m1-cB 4nf2-a1-m1-cA_4nf2-a1-m1-cC 4nf2-a1-m1-cB_4nf2-a1-m1-cC VQVPKLNTKDLLTLEELTQEEIISLIEFAIYLKKNKQEPLLQGKILGLIFDKHSTRTRVSFEAGMVQLGGHGMFLNGKEETVSDTAKVLSHYIDGIMIRTFSHADVEELAKESSIPVINGLTDDHHPCQALADLMTIYEETNTFKGIKLAYVGDGNNVCHSLLLASAKVGMHMTVATPVGYRPNEEIVKKALAIAKETGAEIEILHNPELAVNEADFIYTDVWGEEEKYTLFQPYQINKELVKHAKQTYHFLHCLPAHREEEVTGEIIDGPQSIVFEQAGNRLHAQKALLVSLFKNV VQVPKLNTKDLLTLEELTQEEIISLIEFAIYLKKNKQEPLLQGKILGLIFDKHSTRTRVSFEAGMVQLGGHGMFLNGKEETVSDTAKVLSHYIDGIMIRTFSHADVEELAKESSIPVINGLTDDHHPCQALADLMTIYEETNTFKGIKLAYVGDGNNVCHSLLLASAKVGMHMTVATPVGYRPNEEIVKKALAIAKETGAEIEILHNPELAVNEADFIYTDVWGEEEKYTLFQPYQINKELVKHAKQTYHFLHCLPAHREEEVTGEIIDGPQSIVFEQAGNRLHAQKALLVSLFKNV 4ep5-a1-m1-cA_4ep5-a1-m2-cA Thermus thermophilus RuvC structure Q5SJC4 Q5SJC4 2.08 X-RAY DIFFRACTION 25 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 157 157 MVVAGIDPGITHLGLGVVAVEGKGALKARLLHGEVVKTSPQEPAKERVGRIHARVLEVLHRFRPEAVAVEEAYKVGWALGAVLVAAFEAGVPVYAYGPMQVKQALAGHGHAAKEEVALMVRGILGLKEAPRPSHLANALAIALTHAFYARMGTAKPL MVVAGIDPGITHLGLGVVAVEGKGALKARLLHGEVVKTSPQEPAKERVGRIHARVLEVLHRFRPEAVAVEEAYKVGWALGAVLVAAFEAGVPVYAYGPMQVKQALAGHGHAAKEEVALMVRGILGLKEAPRPSHLANALAIALTHAFYARMGTAKPL 4epf-a1-m1-cA_4epf-a1-m1-cB The crystal structure of pesticin from Yersinia pestis Q57159 Q57159 2.09 X-RAY DIFFRACTION 39 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 327 329 PAFLFSGSTLSITIALPHYVDLPGRSNFKLYIGFPIDTEEKDSEYSNKIRQESKISKTEGTVSYEQKITVETGQEKDGVKVYRVVLEGTIAESIEHLDKKENEDILNNNRNRIVLADNTVINFDNISQLKEFLRRSVNIVDHDIFSSNGFEGFNPTSHFPSNPSSDYFNSTGVTFGSGVDLGQRSKQDLLNDGVPQYIADRLDGYYLRGKEAYDKVRTAPLTLSDNEAHLLSNIYIDKFSHKIEGLFNDANIGLRFSDLPLRTRTALVSIGYQKGFKLSRTAPTVWNKVIAKDWNGLVNAFNNIVDGSDRRKREGALVQKDIDSGLL PAFLFSGSTLSNSITIALPHYVDLPGRSNFKLYIGFPIDTEEKDSEYSNKIRQESKISKTEGTVSYEQKITVETGQEKDGVKVYRVVLEGTIAESIEHLDKKENEDILNNNRNRIVLADNTVINFDNISQLKEFLRRSVNIVDHDIFSSNGFEGFNPTSHFPSNPSSDYFNSTGVTFGSGVDLGQRSKQDLLNDGVPQYIADRLDGYYLRGKEAYDKVRTAPLTLSDNEAHLLSNIYIDKFSHKIEGLFNDANIGLRFSDLPLRTRTALVSIGYQKGFKLSRTAPTVWNKVIAKDWNGLVNAFNNIVDGSDRRKREGALVQKDIDSGLL 4epl-a2-m1-cA_4epl-a2-m2-cA Crystal Structure of Arabidopsis thaliana GH3.11 (JAR1) in Complex with JA-Ile Q9SKE2 Q9SKE2 2.007 X-RAY DIFFRACTION 72 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 552 552 TFDMNRVIDEFDEMTRNAHQVQKQTLKEILLKNQSAIYLQNCGLNDPEEAFKSMVPLVTDVELEPYIKRMVDGDTSPILTGHPVPAISLSSGTSQGRPKFIPFTDELMENTLQLFRTAFAFRNRDFPIDDNGKALQFIFSSKQYISTGGVPVGTATTNVYRNPNFKAGMKSITSPSCSPDEVIFSPDVHQALYCHLLSGILFRDQVQYVFAVFAHGLVHAFRTFEQVWEEIVTDIKDGVLSNRITVPSVRTAMSKLLTPNPELAETIRTKCMSLSNWYGLIPALFPNAKYVYGIMTGSMEPYVPKLRHYAGDLPLVSHDYGSSEGWIAANVTPRLSPEEATFAVIPNLGYFEFLPVEKPVGLTQVKIGEEYEVVITNYAGLYRYRLGDVVKVIGFYNNTPQLKFICRRNLILSINIDKNTERDLQLSVESAAKRLSEEKIEVIDFSSYIDVSTDPGHYAIFWEISGETNEDVLQDCCNCLDRAFIDAGYVSSRKCKTIGALELRVVAKGTFRKIQEHFLGLGKMPRCVKPSNAKVLQILCENVVSSYFSTAF TFDMNRVIDEFDEMTRNAHQVQKQTLKEILLKNQSAIYLQNCGLNDPEEAFKSMVPLVTDVELEPYIKRMVDGDTSPILTGHPVPAISLSSGTSQGRPKFIPFTDELMENTLQLFRTAFAFRNRDFPIDDNGKALQFIFSSKQYISTGGVPVGTATTNVYRNPNFKAGMKSITSPSCSPDEVIFSPDVHQALYCHLLSGILFRDQVQYVFAVFAHGLVHAFRTFEQVWEEIVTDIKDGVLSNRITVPSVRTAMSKLLTPNPELAETIRTKCMSLSNWYGLIPALFPNAKYVYGIMTGSMEPYVPKLRHYAGDLPLVSHDYGSSEGWIAANVTPRLSPEEATFAVIPNLGYFEFLPVEKPVGLTQVKIGEEYEVVITNYAGLYRYRLGDVVKVIGFYNNTPQLKFICRRNLILSINIDKNTERDLQLSVESAAKRLSEEKIEVIDFSSYIDVSTDPGHYAIFWEISGETNEDVLQDCCNCLDRAFIDAGYVSSRKCKTIGALELRVVAKGTFRKIQEHFLGLGKMPRCVKPSNAKVLQILCENVVSSYFSTAF 4epm-a2-m1-cA_4epm-a2-m2-cA Crystal Structure of Arabidopsis GH3.12 (PBS3) in Complex with AMP Q9LYU4 Q9LYU4 2.099 X-RAY DIFFRACTION 110 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 554 554 4eq4-a3-m1-cB_4eq4-a3-m1-cA 4eql-a3-m1-cB_4eql-a3-m1-cA ETFEKQLKDLTSNVKSIQDNLLEEIITPNTKTEYLQRFLIDRFDKELFKKNVPIVSYEDIKPYLDRVVNGESSDVISARTITGFLLSSGTSGGAQKMMPWNNKYLDNLTFIYDLRMQVITKHVKGVEEGKGMMFLFTKQESMTPSGLPARVATSSYFKSDYFKNRPSNWYYSYTSPDEVILCPNNTESLYCHLLCGLVQRDEVVRTGSIFASVMVRAIEVLKNSWEELCSNIRSGHLSNWVTDLGCQNSVSLVLGGPRPELADTIEEICNQNSWKGIVKRLWPNTKYIETVVTGSMGQYVPMLNYYCNDLPLVSTTYGSSETTFGINLDPLCKPEDVSYTFMPNMSYFEFIPMDGGDKNDVVDLEDVKLGCTYEPVVTNFAGLYRMRVGDIVLVTGFYNNAPQFKFVRRENVVLSIDSDKTNEEDLFKAVSQAKLVLESSGLDLKDFTSYADTSTFPGHYVVYLEVDTQFELDEEALSTCCLVMEESLDNVYKRCRFKDGSIGPLEIRVVRQGTFDSLMDFFISQGAYKTPRCIKSGKALQVLETCVVAKFFSI ETFEKQLKDLTSNVKSIQDNLLEEIITPNTKTEYLQRFLIDRFDKELFKKNVPIVSYEDIKPYLDRVVNGESSDVISARTITGFLLSSGTSGGAQKMMPWNNKYLDNLTFIYDLRMQVITKHVKGVEEGKGMMFLFTKQESMTPSGLPARVATSSYFKSDYFKNRPSNWYYSYTSPDEVILCPNNTESLYCHLLCGLVQRDEVVRTGSIFASVMVRAIEVLKNSWEELCSNIRSGHLSNWVTDLGCQNSVSLVLGGPRPELADTIEEICNQNSWKGIVKRLWPNTKYIETVVTGSMGQYVPMLNYYCNDLPLVSTTYGSSETTFGINLDPLCKPEDVSYTFMPNMSYFEFIPMDGGDKNDVVDLEDVKLGCTYEPVVTNFAGLYRMRVGDIVLVTGFYNNAPQFKFVRRENVVLSIDSDKTNEEDLFKAVSQAKLVLESSGLDLKDFTSYADTSTFPGHYVVYLEVDTQFELDEEALSTCCLVMEESLDNVYKRCRFKDGSIGPLEIRVVRQGTFDSLMDFFISQGAYKTPRCIKSGKALQVLETCVVAKFFSI 4eps-a1-m1-cA_4eps-a1-m2-cA Crystal structure of a fimbrial protein (BACOVA_04982) from Bacteroides ovatus ATCC 8483 at 1.85 A resolution A7M4E1 A7M4E1 1.85 X-RAY DIFFRACTION 45 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 485 485 NVRNGIVLNVTDTGIISNEDTGFVTTFTQGDQIGLFAVKDGAILDEINNPFTFNGSSWSGKPILYDDRLVGVNFYAYYPYQSETGKTDLIGDDFFAPLAAGWELTTEQSDQKAYAKQDLTSNATALIGENGNYSLSFQLTHRSLVVVKLPSTRYIFTDAEGVAPEETPYVASVDVAFYLDNVEEGTKISPYYDAKKDEYRLLRKPSSENQIIGHYNDKQCTLDTAEKKEGKYKRFVVDGGYKEVTHHLQVGDYYYADGSVVSGNEAEPAKDNCIGIVCWVGNPPSVLYKDVAGTPYTATNDALLRSHPNCVHGLVSLYTETGKFSPALTQSIHDWFTTSFTSSYVSVTGYYDANENNKNKPLRFLGYNNSEVLDLYYDTFKTDFECFQYQDDCESSFPSPSITTGWYVPSSGELVALQDKDNSLESKLNTKLIKVSDKTDISATYWSSTERNNKNYIVTYSKTAGSAGTGGVKTNTYTYRFFLGF NVRNGIVLNVTDTGIISNEDTGFVTTFTQGDQIGLFAVKDGAILDEINNPFTFNGSSWSGKPILYDDRLVGVNFYAYYPYQSETGKTDLIGDDFFAPLAAGWELTTEQSDQKAYAKQDLTSNATALIGENGNYSLSFQLTHRSLVVVKLPSTRYIFTDAEGVAPEETPYVASVDVAFYLDNVEEGTKISPYYDAKKDEYRLLRKPSSENQIIGHYNDKQCTLDTAEKKEGKYKRFVVDGGYKEVTHHLQVGDYYYADGSVVSGNEAEPAKDNCIGIVCWVGNPPSVLYKDVAGTPYTATNDALLRSHPNCVHGLVSLYTETGKFSPALTQSIHDWFTTSFTSSYVSVTGYYDANENNKNKPLRFLGYNNSEVLDLYYDTFKTDFECFQYQDDCESSFPSPSITTGWYVPSSGELVALQDKDNSLESKLNTKLIKVSDKTDISATYWSSTERNNKNYIVTYSKTAGSAGTGGVKTNTYTYRFFLGF 4epu-a1-m1-cA_4epu-a1-m1-cB Ang1 fibrinogen-related domain (FReD) Q15389 Q15389 2.098 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 FRDCADVYQAGFNKSGIYTIYINNMPEPKKVFCNMDVNGGGWTVIQHREDGSLDFQRGWKEYKMGFGNPSGEYWLGNEFIFAITSQRQYMLRIELMDWEGNRAYSQYDRFHIGNEKQNYRLYLKGHTGTAGKQSSLILHGADFSTKDADNDNCMCKCALMLTGGWWFDACGPSNLNGMFYTAGQNHGKLNGIKWHYFKGPSYSLRSTTMMIRPLD FRDCADVYQAGFNKSGIYTIYINNMPEPKKVFCNMDVNGGGWTVIQHREDGSLDFQRGWKEYKMGFGNPSGEYWLGNEFIFAITSQRQYMLRIELMDWEGNRAYSQYDRFHIGNEKQNYRLYLKGHTGTAGKQSSLILHGADFSTKDADNDNCMCKCALMLTGGWWFDACGPSNLNGMFYTAGQNHGKLNGIKWHYFKGPSYSLRSTTMMIRPLD 4eq1-a1-m1-cA_4eq1-a1-m1-cB Crystal Structure of the ARNT PAS-B homodimer P27540 P27540 1.6 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 GVCQPTEFISRHNIEGIFTFVDHRCVATVGYQPQELLGKNIVEFCHPEDQQLLRDSFQQVVKLKGQVLSVMFRFRSKNQEWLWMRTSSFTFQNPYSDEIEYIICTNTNV GVCQPTEFISRHNIEGIFTFVDHRCVATVGYQPQELLGKNIVEFCHPEDQQLLRDSFQQVVKLKGQVLSVMFRFRSKNQEWLWMRTSSFTFQNPYSDEIEYIICTNTNV 4eq7-a3-m1-cA_4eq7-a3-m1-cB Structure of Atu4243-GABA receptor A9CGA5 A9CGA5 1.91 X-RAY DIFFRACTION 81 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 313 313 NDLVFSSWGGTTQDAQKAAWAEKFVETGINVLQDGPTDYGKLKAVEANGVTWDVVDVEGDYAAQAGPKGLLEKLDFSVIDKTKLDPRFVTDYSVGSFYYSFVIGCNVDSVSACPKSWADLFDTAKFPGKRTFYKWSAPGVIEAALLADGVTADKLYPLDLDRAFKKLDTIKSDIIWWSGGAQSQQLIASAEAPFGSVWNGRTALEQSGVKVETSWAQNITAADSLVVPKGTKNKDAAKFIALATSAQAQADATATGYAPVNIESAKLDPKIAKSLPDQQTESQVNADNYWAQHRDEIGERWYAWQAKHHHHHH NDLVFSSWGGTTQDAQKAAWAEKFVETGINVLQDGPTDYGKLKAVEANGVTWDVVDVEGDYAAQAGPKGLLEKLDFSVIDKTKLDPRFVTDYSVGSFYYSFVIGCNVDSVSACPKSWADLFDTAKFPGKRTFYKWSAPGVIEAALLADGVTADKLYPLDLDRAFKKLDTIKSDIIWWSGGAQSQQLIASAEAPFGSVWNGRTALEQSGVKVETSWAQNITAADSLVVPKGTKNKDAAKFIALATSAQAQADATATGYAPVNIESAKLDPKIAKSLPDQQTESQVNADNYWAQHRDEIGERWYAWQAKHHHHHH 4eqi-a3-m1-cA_4eqi-a3-m1-cB Crystal structure of serratia fonticola carbapenemase SFC-1 Q6JP75 Q6JP75 1.38 X-RAY DIFFRACTION 52 1.0 47917 (Serratia fonticola) 47917 (Serratia fonticola) 271 274 SQPPQVTVDKLKRLENDFGGRIGVYAIDTGSNKTFGYRANERFPLCSSFKGFLAAAVLSKSQQQEGLLNQRIRYDNRVMEPHSPVTEKQITTGMTVAELSAATLQYSDNGAANLLLEKLIGGPEGMTSFMRSIGDNVFRLDRWELELNSAIPGDDRDTSTPKAVAESMQKLAFGNVLGLTERHQLMDWFKGNTTGGARIRASVPANWVVGDKTGTCGVYGTANDYAVIWPVAHAPIVLAVYTSKPDRNSKHSDAVIADASRIVLESFNIDA ASQPPQVTVDKLKRLENDFGGRIGVYAIDTGSNKTFGYRANERFPLCSSFKGFLAAAVLSKSQQQEGLLNQRIRYDNRVMEPHSPVTEKQITTGMTVAELSAATLQYSDNGAANLLLEKLIGGPEGMTSFMRSIGDNVFRLDRWELELNSAIPGDDRDTSTPKAVAESMQKLAFGNVLGLTERHQLMDWFKGNTTGGARIRASVPANWVVGDKTGTCGVYGTANDYAVIWPVAHAPIVLAVYTSKPDRNSKHSDAVIADASRIVLESFNIDALR 4eqq-a1-m1-cB_4eqq-a1-m1-cA Structure of Ltp, a superinfection exclusion protein from the Streptococcus thermophilus temperate phage TP-J34 O48388 O48388 2.05 X-RAY DIFFRACTION 45 1.0 73422 (Streptococcus phage TP-J34) 73422 (Streptococcus phage TP-J34) 98 102 KVPKEYRTAVSKAKQYASTVHMSKEELRSQLVSFDKYSQDASDYAVENSGIDYNKQALEKAKQYQDTLSMSPDAIRDQLVSFDKFTQEEADYAVANLK PEFSKVPKEYRTAVSKAKQYASTVHMSKEELRSQLVSFDKYSQDASDYAVENSGIDYNKQALEKAKQYQDTLSMSPDAIRDQLVSFDKFTQEEADYAVANLK 4eqv-a1-m1-cD_4eqv-a1-m1-cH Structure of Saccharomyces cerevisiae invertase P00724 P00724 3.4 X-RAY DIFFRACTION 61 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 509 509 4eqv-a1-m1-cA_4eqv-a1-m1-cF 4eqv-a1-m1-cB_4eqv-a1-m1-cG 4eqv-a1-m1-cC_4eqv-a1-m1-cE ETSDRPLVHFTPNKGWMNDPNGLWYDEKDAKWHLYFQYNPNDTVWGTPLFWGHATSDDLTNWEDQPIAIAPKRNDSGAFSGSMVVDYNNTSGFFNDTIDPRQRCVAIWTYNTPESEEQYISYSLDGGYTFTEYQKNPVLAANSTQFRDPKVFWYEPSQKWIMTAAKSQDYKIEIYSSDDLKSWKLESAFANEGFLGYQYECPGLIEVPTEQDPSKSYWVMFISINPGAPAGGSFNQYFVGSFNGTHFEAFDNQSRVVDFGKDYYALQTFFNTDPTYGSALGIAWASNWEYSAFVPTNPWRSSMSLVRKFSLNTEYQANPETELINLKAEPILNISNAGPWSRFATNTTLTKANSYNVDLSNSTGTLEFELVYAVNTTQTISKSVFADLSLWFKGLEDPEEYLRMGFEVSASSFFLDRGNSKVKFVKENPYFTNRMSVNNQPFKSENDLSYYKVYGLLDQNILELYFNDGDVVSTNTYFMTTGNALGSVNMTTGVDNLFYIDKFQVREVK ETSDRPLVHFTPNKGWMNDPNGLWYDEKDAKWHLYFQYNPNDTVWGTPLFWGHATSDDLTNWEDQPIAIAPKRNDSGAFSGSMVVDYNNTSGFFNDTIDPRQRCVAIWTYNTPESEEQYISYSLDGGYTFTEYQKNPVLAANSTQFRDPKVFWYEPSQKWIMTAAKSQDYKIEIYSSDDLKSWKLESAFANEGFLGYQYECPGLIEVPTEQDPSKSYWVMFISINPGAPAGGSFNQYFVGSFNGTHFEAFDNQSRVVDFGKDYYALQTFFNTDPTYGSALGIAWASNWEYSAFVPTNPWRSSMSLVRKFSLNTEYQANPETELINLKAEPILNISNAGPWSRFATNTTLTKANSYNVDLSNSTGTLEFELVYAVNTTQTISKSVFADLSLWFKGLEDPEEYLRMGFEVSASSFFLDRGNSKVKFVKENPYFTNRMSVNNQPFKSENDLSYYKVYGLLDQNILELYFNDGDVVSTNTYFMTTGNALGSVNMTTGVDNLFYIDKFQVREVK 4eqv-a1-m1-cE_4eqv-a1-m1-cF Structure of Saccharomyces cerevisiae invertase P00724 P00724 3.4 X-RAY DIFFRACTION 81 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 509 509 4eqv-a1-m1-cA_4eqv-a1-m1-cB 4eqv-a1-m1-cC_4eqv-a1-m1-cD 4eqv-a1-m1-cG_4eqv-a1-m1-cH ETSDRPLVHFTPNKGWMNDPNGLWYDEKDAKWHLYFQYNPNDTVWGTPLFWGHATSDDLTNWEDQPIAIAPKRNDSGAFSGSMVVDYNNTSGFFNDTIDPRQRCVAIWTYNTPESEEQYISYSLDGGYTFTEYQKNPVLAANSTQFRDPKVFWYEPSQKWIMTAAKSQDYKIEIYSSDDLKSWKLESAFANEGFLGYQYECPGLIEVPTEQDPSKSYWVMFISINPGAPAGGSFNQYFVGSFNGTHFEAFDNQSRVVDFGKDYYALQTFFNTDPTYGSALGIAWASNWEYSAFVPTNPWRSSMSLVRKFSLNTEYQANPETELINLKAEPILNISNAGPWSRFATNTTLTKANSYNVDLSNSTGTLEFELVYAVNTTQTISKSVFADLSLWFKGLEDPEEYLRMGFEVSASSFFLDRGNSKVKFVKENPYFTNRMSVNNQPFKSENDLSYYKVYGLLDQNILELYFNDGDVVSTNTYFMTTGNALGSVNMTTGVDNLFYIDKFQVREVK ETSDRPLVHFTPNKGWMNDPNGLWYDEKDAKWHLYFQYNPNDTVWGTPLFWGHATSDDLTNWEDQPIAIAPKRNDSGAFSGSMVVDYNNTSGFFNDTIDPRQRCVAIWTYNTPESEEQYISYSLDGGYTFTEYQKNPVLAANSTQFRDPKVFWYEPSQKWIMTAAKSQDYKIEIYSSDDLKSWKLESAFANEGFLGYQYECPGLIEVPTEQDPSKSYWVMFISINPGAPAGGSFNQYFVGSFNGTHFEAFDNQSRVVDFGKDYYALQTFFNTDPTYGSALGIAWASNWEYSAFVPTNPWRSSMSLVRKFSLNTEYQANPETELINLKAEPILNISNAGPWSRFATNTTLTKANSYNVDLSNSTGTLEFELVYAVNTTQTISKSVFADLSLWFKGLEDPEEYLRMGFEVSASSFFLDRGNSKVKFVKENPYFTNRMSVNNQPFKSENDLSYYKVYGLLDQNILELYFNDGDVVSTNTYFMTTGNALGSVNMTTGVDNLFYIDKFQVREVK 4eqw-a1-m1-cA_4eqw-a1-m1-cB Crystal Structure of the Y361F, Y419F Mutant of Staphylococcus aureus CoADR Q2FIA5 Q2FIA5 1.5 X-RAY DIFFRACTION 180 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 437 437 1yqz-a1-m1-cA_1yqz-a1-m1-cB 4em3-a1-m1-cA_4em3-a1-m1-cB 4em4-a1-m1-cA_4em4-a1-m1-cB 4emw-a1-m1-cA_4emw-a1-m1-cB 4eqr-a1-m1-cA_4eqr-a1-m1-cB 4eqs-a1-m1-cA_4eqs-a1-m1-cB 4eqx-a1-m1-cA_4eqx-a1-m1-cB PKIVVVGAVAGGATCASQIRRLDKESDIIIFEKDRDMSFANCALPYVIGEVVEDRRYALAYTPEKFYDRKQITVKTYHEVIAINDERQTVSVLNRKTNEQFEESYDKLILSPGASANSLGFESDITFTLRNLEDTDAIDQFIKANQVDKVLVVGAGYVSLEVLENLYERGLHPTLIHRSDKINKLMDADMNQPILDELDKREIPYRLNEEINAINGNEITFKSGKVEHYDMIIEGVGTHPNSKFIESSNIKLDRKGFIPVNDKFETNVPNIYAIGDIATSHYRHVDLPASVPLAWGAHRAASIVAEQIAGNDTIEFKGFLGNNIVKFFDYTFASVGVKPNELKQFDYKMVEVTQGAHANFYPGNSPLHLRVYYDTSNRQILRAAAVGKEGADKRIDVLSMAMMNQLTVDELTEFEVAFAPPYSHPKDLINMIGYKAK PKIVVVGAVAGGATCASQIRRLDKESDIIIFEKDRDMSFANCALPYVIGEVVEDRRYALAYTPEKFYDRKQITVKTYHEVIAINDERQTVSVLNRKTNEQFEESYDKLILSPGASANSLGFESDITFTLRNLEDTDAIDQFIKANQVDKVLVVGAGYVSLEVLENLYERGLHPTLIHRSDKINKLMDADMNQPILDELDKREIPYRLNEEINAINGNEITFKSGKVEHYDMIIEGVGTHPNSKFIESSNIKLDRKGFIPVNDKFETNVPNIYAIGDIATSHYRHVDLPASVPLAWGAHRAASIVAEQIAGNDTIEFKGFLGNNIVKFFDYTFASVGVKPNELKQFDYKMVEVTQGAHANFYPGNSPLHLRVYYDTSNRQILRAAAVGKEGADKRIDVLSMAMMNQLTVDELTEFEVAFAPPYSHPKDLINMIGYKAK 4eqy-a1-m1-cA_4eqy-a1-m1-cB Crystal structure of Acyl-[acyl-carrier-protein]--UDP-N-acetylglucosamine O-acyltransferase from Burkholderia thailandensis Q2SWY6 Q2SWY6 1.8 X-RAY DIFFRACTION 64 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 261 261 4eqy-a1-m1-cC_4eqy-a1-m1-cA 4eqy-a1-m1-cC_4eqy-a1-m1-cB 4eqy-a2-m1-cF_4eqy-a2-m1-cE 4eqy-a2-m1-cF_4eqy-a2-m1-cG 4eqy-a2-m1-cG_4eqy-a2-m1-cE SRIHPTAIIEPGAQLHETVEVGPYAIVGSNVTIGARTTIGSHSVIEGHTTIGEDNRIGHYASVGGRPQDMKYKDEPTRLVIGDRNTIREFTTIHTGTVQDAGVTTLGDDNWIMAYVHIGHDCRVGSHVVLSSNAQMAGHVEIGDWAIVGGMSGVHQYVRIGAHSMLGGASALVQDIPPFVIAAGNKAEPHGINVEGLRRRGFSPDAISALRSAYRILYKNSLSLEEAKVQLSELAQAGGDGDAAVKALVDFVESSQRGIIR SRIHPTAIIEPGAQLHETVEVGPYAIVGSNVTIGARTTIGSHSVIEGHTTIGEDNRIGHYASVGGRPQDMKYKDEPTRLVIGDRNTIREFTTIHTGTVQDAGVTTLGDDNWIMAYVHIGHDCRVGSHVVLSSNAQMAGHVEIGDWAIVGGMSGVHQYVRIGAHSMLGGASALVQDIPPFVIAAGNKAEPHGINVEGLRRRGFSPDAISALRSAYRILYKNSLSLEEAKVQLSELAQAGGDGDAAVKALVDFVESSQRGIIR 4err-a1-m1-cA_4err-a1-m1-cB 1.55 Angstrom Crystal Structure of the Four Helical Bundle Membrane Localization Domain (4HBM) of the Vibrio vulnificus MARTX Effector Domain DUF5 1.55 X-RAY DIFFRACTION 83 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 82 83 GQIFTVQELKERAKVFAKPIGASYQGILDQLDLVHQAKGRDQIAASFELNKKINDYIAEHPTSGRNQALTQLKEQVTSALGL GQIFTVQELKERAKVFAKPIGASYQGILDQLDLVHQAKGRDQIAASFELNKKINDYIAEHPTSGRNQALTQLKEQVTSALGLE 4eru-a1-m1-cB_4eru-a1-m1-cA Crystal Structure of Putative Cytoplasmic Protein, YciF Bacterial Stress Response Protein from Salmonella enterica A0A0F6B221 A0A0F6B221 2.1 X-RAY DIFFRACTION 100 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 155 156 NIKTVEDLFIHLLSDTYSAEKQLTKALPKLARATSNEKLSQAFQSHLEETQGQIERIDQIVESESGIKLKRKCVAEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYSKALKLLKETLDEEKQTDLKLTDLAVSNV ANIKTVEDLFIHLLSDTYSAEKQLTKALPKLARATSNEKLSQAFQSHLEETQGQIERIDQIVESESGIKLKRKCVAEGLIEEANEVIESTEKNEVRDAALIAAAQKVEHYEIASYGTLATLAEQLGYSKALKLLKETLDEEKQTDLKLTDLAVSNV 4erv-a2-m1-cA_4erv-a2-m2-cA Crystal structure of human ryanodine receptor 3 (2597-2800) Q15413 Q15413 1.75 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 194 194 FDPKPINTMNFSLPEKLEYIVTKYAEHSHDKWACDKSQSGWKYGISLDENVKTHPLIRPFKTLTEKEKEIYRWPARESLKTMLAVGWTVERTKGEALVQQRENEKLRSVYSPAPLDLSNVVLSRELQGMVEVVAENYHNIWAKKKKLELESKGGGSHPLLVPYDTLTAAEKFKDREKAQDLFKFLQVNGIIVSR FDPKPINTMNFSLPEKLEYIVTKYAEHSHDKWACDKSQSGWKYGISLDENVKTHPLIRPFKTLTEKEKEIYRWPARESLKTMLAVGWTVERTKGEALVQQRENEKLRSVYSPAPLDLSNVVLSRELQGMVEVVAENYHNIWAKKKKLELESKGGGSHPLLVPYDTLTAAEKFKDREKAQDLFKFLQVNGIIVSR 4es1-a1-m1-cA_4es1-a1-m2-cA Double-stranded Endonuclease Activity in B. halodurans Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)-associated Cas2 Protein Q9KFX8 Q9KFX8 1.1 X-RAY DIFFRACTION 115 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 95 95 4es2-a1-m1-cA_4es2-a1-m2-cA 4es3-a1-m1-cA_4es3-a1-m2-cA GSHMMLVLITYDVQTSSMGGTKRLRKVAKACQNYGQRVQNSVFECIVDSTQLTSLKLELTSLIDEEKDSLRIYRLGNNYKTKVEHIGAKPSPLIF GSHMMLVLITYDVQTSSMGGTKRLRKVAKACQNYGQRVQNSVFECIVDSTQLTSLKLELTSLIDEEKDSLRIYRLGNNYKTKVEHIGAKPSPLIF 4es4-a1-m1-cB_4es4-a1-m1-cH Crystal structure of YdiV and FlhD complex P0A8S9 P0A8S9 2.9 X-RAY DIFFRACTION 113 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 80 81 1g8e-a1-m1-cB_1g8e-a1-m1-cA 2avu-a1-m1-cA_2avu-a1-m1-cB 2avu-a1-m1-cC_2avu-a1-m1-cD 4es4-a2-m1-cF_4es4-a2-m1-cD HTSELLKHIYDINLSYLLLAQRLIVQDKASAMFRLGINEEMATTLAALTLPQMVKLAETNQLVCHFRFDSHQTITQLTQD MHTSELLKHIYDINLSYLLLAQRLIVQDKASAMFRLGINEEMATTLAALTLPQMVKLAETNQLVCHFRFDSHQTITQLTQD 4esb-a1-m1-cA_4esb-a1-m2-cA Crystal structure of PadR-like transcriptional regulator (BC4206) from Bacillus cereus strain ATCC 14579 Q818P3 Q818P3 2.5 X-RAY DIFFRACTION 63 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 103 103 SQMLKGVLEGCILYIISQEEVYGYELSTKLNKHGFTFVSEGSIYPLLLRMQKEKLIEGTLKASSLGPKRKYYHITDKGLEQLEEFKQSWGMVSTTVNNLLQGE SQMLKGVLEGCILYIISQEEVYGYELSTKLNKHGFTFVSEGSIYPLLLRMQKEKLIEGTLKASSLGPKRKYYHITDKGLEQLEEFKQSWGMVSTTVNNLLQGE 4ese-a1-m1-cA_4ese-a1-m2-cA The crystal structure of azoreductase from Yersinia pestis CO92 in complex with FMN. Q8ZE60 Q8ZE60 1.45 X-RAY DIFFRACTION 80 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 193 193 5jro-a1-m1-cB_5jro-a1-m1-cA AMSKVLVLKSSILATSSQSNQLADFFVEQWQAAHAGDQITVRDLAAQPIPVLDGELVGALRPSGTALTPRQQEALALSDELIAELQANDVIVIAAPMYNFNIPTQLKNYFDMIARAGVTFRYTEKGPEGLVTGKRAIILTSRGDLVVPYLRLFLGFIGITDVEFVFAEGIAYGPEVATKAQADAKTLLAQVVA AMSKVLVLKSSILATSSQSNQLADFFVEQWQAAHAGDQITVRDLAAQPIPVLDGELVGALRPSGTALTPRQQEALALSDELIAELQANDVIVIAAPMYNFNIPTQLKNYFDMIARAGVTFRYTEKGPEGLVTGKRAIILTSRGDLVVPYLRLFLGFIGITDVEFVFAEGIAYGPEVATKAQADAKTLLAQVVA 4esf-a1-m1-cA_4esf-a1-m2-cA Crystal structure of PadR-like transcriptional regulator (BCE3449) from Bacillus cereus strain ATCC 10987 Q734F6 Q734F6 2.2 X-RAY DIFFRACTION 66 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 100 100 NLTEMLKGSLEGCVLEIISRRETYGYEITRHLNDLGFTEVVEGTVYTILVRLEKKKLVNIEKKPPRKFYSLNEAGRQELELFWKKWDFVSSKINVLKSSN NLTEMLKGSLEGCVLEIISRRETYGYEITRHLNDLGFTEVVEGTVYTILVRLEKKKLVNIEKKPPRKFYSLNEAGRQELELFWKKWDFVSSKINVLKSSN 4esn-a1-m1-cB_4esn-a1-m1-cA Crystal structure of a DUF1312 family protein (RUMGNA_02503) from Ruminococcus gnavus ATCC 29149 at 2.20 A resolution A7B4L9 A7B4L9 2.2 X-RAY DIFFRACTION 44 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 76 77 FQGAVVTVDGEVYGTYSLAKDQTIEIQDGNRLRIQNGQAKEWADCPDQLCVHQKAISRTGESIICLPNQVVVSVQG YFQGAVVTVDGEVYGTYSLAKDQTIEIQDGNRLRIQNGQAKEWADCPDQLCVHQKAISRTGESIICLPNQVVVSVQG 4eso-a1-m1-cD_4eso-a1-m1-cA Crystal structure of a putative oxidoreductase protein from Sinorhizobium meliloti 1021 in complex with NADP Q92N93 Q92N93 1.906 X-RAY DIFFRACTION 26 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 239 247 3vc7-a4-m1-cA_3vc7-a4-m2-cB 3vc7-a4-m2-cA_3vc7-a4-m1-cB 4eso-a1-m1-cC_4eso-a1-m1-cB GNYQGKKAIVIGGTHGGLATVRRLVEGGAEVLLTGRNESNIARIREEFGPRVHALRSDIADLNEIAVLGAAAGQTLGAIDLLHINAGVSELEPFDQVSEASYDRQFAVNTKGAFFTVQRLTPLIREGGSIVFTSSVADEGGHPGSVYSASKAALVSFASVLAAELLPRGIRVNSVSPGFIDTPTEAERAEFKTLGDNITPKRNGTADEVARAVLFLAFEATFTTGAKLAVDGGLGQKLS GNYQGKKAIVIGGTHGGLATVRRLVEGGAEVLLTGRNESNIARIREEFGPRVHALRSDIADLNEIAVLGAAAGQTLGAIDLLHINAGVSELEPFDQVSEASYDRQFAVNTKGAFFTVQRLTPLIREGGSIVFTSSVADEGGHPGSVYSASKAALVSFASVLAAELLPRGIRVNSVSPGFIDTPTKGVAGITEAERAEFKTLGDNITPKRNGTADEVARAVLFLAFEATFTTGAKLAVDGGLGQKLST 4esv-a2-m1-cG_4esv-a2-m1-cH A New Twist on the Translocation Mechanism of Helicases from the Structure of DnaB with its Substrates Q9X4C9 Q9X4C9 3.2 X-RAY DIFFRACTION 133 0.993 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 421 425 4esv-a1-m1-cA_4esv-a1-m1-cB RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL IPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEFKNIKDILVQTYDNIEMLHNRITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNLERRF 4esv-a2-m1-cJ_4esv-a2-m1-cK A New Twist on the Translocation Mechanism of Helicases from the Structure of DnaB with its Substrates Q9X4C9 Q9X4C9 3.2 X-RAY DIFFRACTION 125 0.993 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 416 421 4esv-a1-m1-cB_4esv-a1-m1-cC 4esv-a1-m1-cE_4esv-a1-m1-cD 4esv-a2-m1-cI_4esv-a2-m1-cH IEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSQFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEGAFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 4esv-a2-m1-cL_4esv-a2-m1-cG A New Twist on the Translocation Mechanism of Helicases from the Structure of DnaB with its Substrates Q9X4C9 Q9X4C9 3.2 X-RAY DIFFRACTION 92 0.998 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 419 421 4esv-a1-m1-cA_4esv-a1-m1-cF PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVAFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVSFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 4esv-a2-m1-cL_4esv-a2-m1-cK A New Twist on the Translocation Mechanism of Helicases from the Structure of DnaB with its Substrates Q9X4C9 Q9X4C9 3.2 X-RAY DIFFRACTION 151 0.998 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 419 421 4esv-a1-m1-cD_4esv-a1-m1-cC 4esv-a1-m1-cE_4esv-a1-m1-cF 4esv-a2-m1-cJ_4esv-a2-m1-cI PPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEVAFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL RIPPQSIEAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEGAFKNIKDILVQTYDNIEMLITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQGSGRSKENRQQEVSEISRSLKALARELEVPVIALSQLSRSVEQRQDKRPMMSDIRESGSIEQDADIVAFLYRDDYYNKDSENKNIIEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 4esw-a1-m1-cA_4esw-a1-m1-cB Crystal structure of C. albicans Thi5 H66G mutant C4YMW2 C4YMW2 1.6 X-RAY DIFFRACTION 101 1.0 294748 (Candida albicans WO-1) 294748 (Candida albicans WO-1) 342 342 4esx-a1-m1-cB_4esx-a1-m1-cA GSHMSTNKITFLLNWEAAPYHIPVYLANIKGYFKDENLDIAILEPSNPSDVTELVGSGKVDMGLKAMVGTLAAKARGFPVTSIGSLLDEPFTGICYLEGSGITSDFQSLKGKRIGYVGEFGKIQVDELTKHYGMTPDDYVAVRCGMNVAKYILEGTIDCGIGIECIQQVELEEALKEQGKDSNDAKMLRIDKLAELGCCCFCTILYIANDKFIAENPQAVKKFLKAIKRATDYMLAHPREAWAEYGNFKPTMQTDLNTKKFQRCYAYFSESLYNVHRDWRKVNNYGKRLDILPENYVPNYTNEYLSWPEPKEVDDPEKAQDLMLKHQEECKTCGGYKRLVLA GSHMSTNKITFLLNWEAAPYHIPVYLANIKGYFKDENLDIAILEPSNPSDVTELVGSGKVDMGLKAMVGTLAAKARGFPVTSIGSLLDEPFTGICYLEGSGITSDFQSLKGKRIGYVGEFGKIQVDELTKHYGMTPDDYVAVRCGMNVAKYILEGTIDCGIGIECIQQVELEEALKEQGKDSNDAKMLRIDKLAELGCCCFCTILYIANDKFIAENPQAVKKFLKAIKRATDYMLAHPREAWAEYGNFKPTMQTDLNTKKFQRCYAYFSESLYNVHRDWRKVNNYGKRLDILPENYVPNYTNEYLSWPEPKEVDDPEKAQDLMLKHQEECKTCGGYKRLVLA 4esy-a1-m1-cB_4esy-a1-m1-cA Crystal Structure of the CBS Domain of CBS Domain Containing Membrane Protein from Sphaerobacter thermophilus D1CAK9 D1CAK9 2.011 X-RAY DIFFRACTION 93 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 159 160 RVAEQARRRAIARAIRQVPIRDILTSPVVTVREDDTLDAVAKTLEHQIGAPVVDQNGHLVGIITESDFLRGSIPFWIYEASEILSRAIPAPEVEHLFETGRKLTASAVTQPVVTAAPEDSVGSIADQRRHGIHRIPVVQDGVPVGIVTRRDLLKLLLLE RVAEQARRRAIARAIRQVPIRDILTSPVVTVREDDTLDAVAKTLEHQIGCAPVVDQNGHLVGIITESDFLRGSIPFWIYEASEILSRAIPAPEVEHLFETGRKLTASAVTQPVVTAAPEDSVGSIADQRRHGIHRIPVVQDGVPVGIVTRRDLLKLLLLE 4etj-a1-m1-cA_4etj-a1-m2-cA Crystal Structure of E6H variant of de novo designed serine hydrolase OSH55, Northeast Structural Genomics Consortium (NESG) Target OR185 2.203 X-RAY DIFFRACTION 32 1.0 32630 (synthetic construct) 32630 (synthetic construct) 164 164 ARIRHVQGDITEFQGDAIVNAANNYLKLGAGVAGAILRKGGPSIQEECDRIGKIRVGEAAVTGAGNLPVRYVIHAAVLGDEPASLETVRKATKSALEKAVELGLKTVAFTALGAWVGGLPAEAVLRVMLEEIKKAPDTLEVTGVHGTEKSAEAARRALLEHHHH ARIRHVQGDITEFQGDAIVNAANNYLKLGAGVAGAILRKGGPSIQEECDRIGKIRVGEAAVTGAGNLPVRYVIHAAVLGDEPASLETVRKATKSALEKAVELGLKTVAFTALGAWVGGLPAEAVLRVMLEEIKKAPDTLEVTGVHGTEKSAEAARRALLEHHHH 4etk-a3-m1-cB_4etk-a3-m1-cA Crystal Structure of E6A/L130D/A155H variant of de novo designed serine hydrolase, Northeast Structural Genomics Consortium (NESG) Target OR186 2.7 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 164 165 ARIRAVQGDITEFQGDAIVNAANNYLKLGAGVAGAILRKGGPSIQEECDRIGKIRVGEAAVTGAGNLPVRYVIHAAVLGDEPASLETVRKATKSALEKAVELGLKTVAFTALGAWVGGLPAEAVLRVDEEIKKAPDTLEVTGVHGTEKSAEAHRRALLEHHHHH ARIRAVQGDITEFQGDAIVNAANNYLKLGAGVAGAILRKGGPSIQEECDRIGKIRVGEAAVTGAGNLPVRYVIHAAVLGDEPASLETVRKATKSALEKAVELGLKTVAFTALGAWVGGLPAEAVLRVDEEIKKAPDTLEVTGVHGTEKSAEAHRRALLEHHHHHH 4etm-a1-m1-cB_4etm-a1-m1-cA Crystal structure of YfkJ from Bacillus subtilis O35016 O35016 1.6 X-RAY DIFFRACTION 45 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 159 162 GRGSMISVLFVCLGNICRSPMAEAIFRDLAAKKGLEGKIKADSAGIGGWHIGNPPHEGTQEILRREGISFDGMLARQVSEQDLDDFDYIIAMDAENIGSLRSMAGFKNTSHIKRLLDYVEDSDLADVPDPYYTGNFEEVCQLIKTGCEQLLASIQKEKQ GQGRGSMISVLFVCLGNICRSPMAEAIFRDLAAKKGLEGKIKADSAGIGGWHIGNPPHEGTQEILRREGISFDGMLARQVSEQDLDDFDYIIAMDAENIGSLRSMAGFKNTSHIKRLLDYVEDSDLADVPDPYYTGNFEEVCQLIKTGCEQLLASIQKEKQL 4etv-a3-m1-cB_4etv-a3-m1-cA Crystal structure of mouse ryanodine receptor 2 (2699-2904) E9Q401 E9Q401 1.65 X-RAY DIFFRACTION 30 0.992 10090 (Mus musculus) 10090 (Mus musculus) 130 183 NFNPQPVDTSNITIPEKLEYFINKYAEHSHDSEKEKEIYRWPIKESLKTLAWGWRIERTRDSNVTLSRDLHAAEAENYHNIWAKKKKLELENHPLLVPYDTLTAAEKAKDREKAQDIFKFLQISGYVVSR FNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSDKLANGWIYGEIYSDSSKIQPLKPYKLLSEKEKEIYRWPIKESLKTLAWGWRIERTREGDSALYNAAHGYSPRAIDSNVTLSRDLHAAEAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAAEKAKDREKAQDIFKFLQISGYVVSR 4ety-a5-m1-cB_4ety-a5-m1-cC Crystal structure of a strand-swapped dimer of Mouse Leukocyte-associated immunoglobulin-like receptor 1 (NYSGRC-006047) Extra Cellular Domain Q8BG84 Q8BG84 1.9 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 90 93 4esk-a5-m1-cA_4esk-a5-m1-cB 4esk-a5-m1-cD_4esk-a5-m1-cC SLPDITIFPNSSLISQGTFVTVVCSYSDKHDLYNVRLEKDGSTFEKSTEPYKTEDEFEIGPVNETITGHYSCIYSKWSERSKTLELKVIK SLPDITIFPNSSLISQGTFVTVVCSYSDKHDLYNVRLEKDGSTFEKSTEPYKTEDEFEIGPVNETITGHYSCIYSKGITWSERSKTLELKVIK 4ety-a5-m1-cC_4ety-a5-m1-cD Crystal structure of a strand-swapped dimer of Mouse Leukocyte-associated immunoglobulin-like receptor 1 (NYSGRC-006047) Extra Cellular Domain Q8BG84 Q8BG84 1.9 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 93 93 4esk-a5-m1-cA_4esk-a5-m1-cD 4esk-a5-m1-cB_4esk-a5-m1-cC 4ety-a5-m1-cB_4ety-a5-m1-cA SLPDITIFPNSSLISQGTFVTVVCSYSDKHDLYNVRLEKDGSTFEKSTEPYKTEDEFEIGPVNETITGHYSCIYSKGITWSERSKTLELKVIK SLPDITIFPNSSLISQGTFVTVVCSYSDKHDLYNVRLEKDGSTFEKSTEPYKTEDEFEIGPVNETITGHYSCIYSKGITWSERSKTLELKVIK 4ety-a7-m1-cB_4ety-a7-m1-cD Crystal structure of a strand-swapped dimer of Mouse Leukocyte-associated immunoglobulin-like receptor 1 (NYSGRC-006047) Extra Cellular Domain Q8BG84 Q8BG84 1.9 X-RAY DIFFRACTION 117 1.0 10090 (Mus musculus) 10090 (Mus musculus) 90 93 4esk-a5-m1-cA_4esk-a5-m1-cC 4esk-a5-m1-cB_4esk-a5-m1-cD 4esk-a6-m1-cA_4esk-a6-m1-cC 4esk-a7-m1-cB_4esk-a7-m1-cD 4ety-a5-m1-cB_4ety-a5-m1-cD SLPDITIFPNSSLISQGTFVTVVCSYSDKHDLYNVRLEKDGSTFEKSTEPYKTEDEFEIGPVNETITGHYSCIYSKWSERSKTLELKVIK SLPDITIFPNSSLISQGTFVTVVCSYSDKHDLYNVRLEKDGSTFEKSTEPYKTEDEFEIGPVNETITGHYSCIYSKGITWSERSKTLELKVIK 4eu9-a1-m1-cB_4eu9-a1-m1-cA Succinyl-CoA:acetate CoA-transferase (AarCH6-R228E) in complex with CoA and a covalent glutamyl-CoA thioester adduct B3EY95 B3EY95 1.479 X-RAY DIFFRACTION 213 1.0 435 (Acetobacter aceti) 435 (Acetobacter aceti) 504 513 4eu3-a1-m1-cB_4eu3-a1-m1-cA 4eu4-a1-m1-cA_4eu4-a1-m1-cB 4eu5-a1-m1-cB_4eu5-a1-m1-cA 4eu6-a1-m1-cB_4eu6-a1-m1-cA 4eu7-a1-m1-cB_4eu7-a1-m1-cA 4eu8-a1-m1-cA_4eu8-a1-m1-cB 4eua-a1-m1-cB_4eua-a1-m1-cA 4eub-a1-m1-cA_4eub-a1-m1-cB 4euc-a1-m1-cA_4euc-a1-m1-cB 4eud-a1-m1-cA_4eud-a1-m1-cB 5ddk-a1-m1-cB_5ddk-a1-m1-cA 5dw4-a1-m1-cB_5dw4-a1-m1-cA 5dw5-a1-m1-cB_5dw5-a1-m1-cA 5dw6-a1-m1-cB_5dw6-a1-m1-cA 5e5h-a1-m1-cB_5e5h-a1-m1-cA TERIRNVALRSKVCPAETASELIKHGDVVGTSGFTGAGYPKEVPKALAQRMEAAHDRGEKYQISLITGASTGPQLDGELAKANGVYFRSPFNTDATMRNRINAGETEYFDNHLGQVAGRAVQGNYGKFNIALVEATAITEDGGIVPTSSVGNSQTFLNLAEKVIIEVNEWQNPMLEGIHDIWDGNVSGVPTRDIVPIVRADQRVGGPVLRVNPDKIAAIVRTNDRDENAPFAAPDETAKAIAGYLLDFFGHEVKQNRLPPSLLPLQSGVGNVANAVLEGLKEGPFENLVGYSEVIQDGMLAMLDSGRMRIASASSFSLSPEAAEEINNRMDFFRSKIILRQQDVSNSPGIIRRLGCIAMNGMIEADIYGNVNSTRVMGSKMMNGIGGSGDFARSSYLSIFLSPSTAKGGKISAIVPMAAHVDHIMQDAQIFVTEQGLADLRGLSPVQRAREIISKCAHPDYRPMLQDYFDRALKNSFGKHTPHLLTEALSWHQRFIDTGTMLPS TERIRNVALRSKVCPAETASELIKHGDVVGTSGFTGAGYPKEVPKALAQRMEAAHDRGEKYQISLITGASTGPQLDGELAKANGVYFRSPFNTDATMRNRINAGETEYFDNHLGQVAGRAVQGNYGKFNIALVEATAITEDGGIVPTSSVGNSQTFLNLAEKVIIEVNEWQNPMLEGIHDIWDGNVSGVPTRDIVPIVRADQRVGGPVLRVNPDKIAAIVRTNDRDENAPFAAPDETAKAIAGYLLDFFGHEVKQNRLPPSLLPLQSGVGNVANAVLEGLKEGPFENLVGYSEVIQDGMLAMLDSGRMRIASASSFSLSPEAAEEINNRMDFFRSKIILRQQDVSNSPGIIRRLGCIAMNGMIEADIYGNVNSTRVMGSKMMNGIGGSGDFARSSYLSIFLSPSTAKGGKISAIVPMAAHVDHIMQDAQIFVTEQGLADLRGLSPVQRAREIISKCAHPDYRPMLQDYFDRALKNSFGKHTPHLLTEALSWHQRFIDTGTMLPSSLEHHHHHH 4eun-a1-m1-cA_4eun-a1-m2-cA Crystal structure of a sugar kinase (Target EFI-502144 from Janibacter sp. HTCC2649), unliganded structure A3TPB6 A3TPB6 1.6 X-RAY DIFFRACTION 117 1.0 313589 (Janibacter sp. HTCC2649) 313589 (Janibacter sp. HTCC2649) 173 173 PTRHVVVMGVSGSGKTTIAHGVADETGLEFAEADAFHSPENIATMQRGIPLTDEDRWPWLRSLAEWMDARADAGVSTIITCSALKRTYRDVLREGPPSVDFLHLDGPAEVIKGRMSKREGHFMPASLLQSQLATLEALEPDESGIVLDLRQPPEQLIERALTWLDIAPAVATH PTRHVVVMGVSGSGKTTIAHGVADETGLEFAEADAFHSPENIATMQRGIPLTDEDRWPWLRSLAEWMDARADAGVSTIITCSALKRTYRDVLREGPPSVDFLHLDGPAEVIKGRMSKREGHFMPASLLQSQLATLEALEPDESGIVLDLRQPPEQLIERALTWLDIAPAVATH 4ev0-a1-m1-cA_4ev0-a1-m1-cD Crystal Structure of Thermus thermophilus Catabolite Activator Protein Q5SID7 Q5SID7 2.402 X-RAY DIFFRACTION 134 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 213 214 SPLFHGLAPEEVDLALSYFQRRLYPQGKPIFYQGDLGQALYLVASGKVRLFRTHLGGQERTLALLGPGELFGEMSLLDEGERSASAVAVEDTELLALFREDYLALIRRLPLVAHNLAALLARRLREADLELDLLSFEEARNRVAYALLKLLRQGLGPLFQIRHHELAALAGTSRETVSRVLHALAEEGVVRLGPGTVEVREAALLEEIAFGLA GSPLFHGLAPEEVDLALSYFQRRLYPQGKPIFYQGDLGQALYLVASGKVRLFRTHLGGQERTLALLGPGELFGEMSLLDEGERSASAVAVEDTELLALFREDYLALIRRLPLVAHNLAALLARRLREADLELDLLSFEEARNRVAYALLKLLRQGLGPLFQIRHHELAALAGTSRETVSRVLHALAEEGVVRLGPGTVEVREAALLEEIAFGLA 4ev1-a2-m1-cA_4ev1-a2-m2-cA Anabaena Tic22 (protein transport) Q8Z0I2 Q8Z0I2 1.95 X-RAY DIFFRACTION 12 1.0 1167 (Anabaena sp.) 1167 (Anabaena sp.) 226 226 MLSEQQIKEKLDSVPIYLVTNEKGLPLSRPLPNAPNGQKAGGSITGAYMSRQEAQAFINELRNAKNKDPKMQEIVKSLQVTAVPLGVIYQQLQQTKKDPNRLLFAFKPVDQEIKGAMDLLRQSGQQVNQFKSVPMFAVRFAPDQGYVPIKVGTGNEQVVPLFLSKQDAQGLLGQVKPKHPKADIQVLDIDGVLQTLQDKNDTWLNQVVLVPSPESREYIRTLPKPP MLSEQQIKEKLDSVPIYLVTNEKGLPLSRPLPNAPNGQKAGGSITGAYMSRQEAQAFINELRNAKNKDPKMQEIVKSLQVTAVPLGVIYQQLQQTKKDPNRLLFAFKPVDQEIKGAMDLLRQSGQQVNQFKSVPMFAVRFAPDQGYVPIKVGTGNEQVVPLFLSKQDAQGLLGQVKPKHPKADIQVLDIDGVLQTLQDKNDTWLNQVVLVPSPESREYIRTLPKPP 4ev6-a1-m1-cB_4ev6-a1-m1-cC The complete structure of CorA magnesium transporter from Methanocaldococcus jannaschii Q58439 Q58439 3.2 X-RAY DIFFRACTION 111 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 314 314 4cy4-a1-m1-cA_4cy4-a1-m1-cE 4cy4-a1-m1-cB_4cy4-a1-m1-cA 4cy4-a1-m1-cB_4cy4-a1-m1-cC 4cy4-a1-m1-cC_4cy4-a1-m1-cD 4cy4-a1-m1-cD_4cy4-a1-m1-cE 4ev6-a1-m1-cA_4ev6-a1-m1-cE 4ev6-a1-m1-cB_4ev6-a1-m1-cA 4ev6-a1-m1-cC_4ev6-a1-m1-cD 4ev6-a1-m1-cD_4ev6-a1-m1-cE VIAIAKDGSIVEPKLDEISFEDYRLIWIDCYDPKDEELYKLSKKIGISVSDLQIGLDEQEIPRVEEDEDFYLIIYKAPLFEEDITTTSLGIYIKNNLLLTIHSDKIKAIGRLHKLISTKKPRIVFERGIGFLLYHILNEITRSYSRILMNLEDELEELEDKLLAGYDREVMEKILGLRKTLVYFHKSLIANRDVLVLLKRKYLPITTKEDRENFEDLYYDTLQLIDMSATYREVLTSMMDITLSLENIKMNQIMKILTMVTTIFAVPMWITGIYGMNFSYLPLANNPQGFWLVMALMVVIIMIFVYIFRRSGWI VIAIAKDGSIVEPKLDEISFEDYRLIWIDCYDPKDEELYKLSKKIGISVSDLQIGLDEQEIPRVEEDEDFYLIIYKAPLFEEDITTTSLGIYIKNNLLLTIHSDKIKAIGRLHKLISTKKPRIVFERGIGFLLYHILNEITRSYSRILMNLEDELEELEDKLLAGYDREVMEKILGLRKTLVYFHKSLIANRDVLVLLKRKYLPITTKEDRENFEDLYYDTLQLIDMSATYREVLTSMMDITLSLENIKMNQIMKILTMVTTIFAVPMWITGIYGMNFSYLPLANNPQGFWLVMALMVVIIMIFVYIFRRSGWI 4evb-a1-m4-cA_4evb-a1-m9-cA Crystal Structure HP-NAP from strain YS39 zinc soaked (20mM) G1UIZ3 G1UIZ3 2.5 X-RAY DIFFRACTION 21 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 143 143 1ji4-a1-m1-cA_1ji4-a1-m1-cG 1ji4-a1-m1-cA_1ji4-a1-m1-cJ 1ji4-a1-m1-cB_1ji4-a1-m1-cE 1ji4-a1-m1-cB_1ji4-a1-m1-cK 1ji4-a1-m1-cC_1ji4-a1-m1-cF 1ji4-a1-m1-cC_1ji4-a1-m1-cI 1ji4-a1-m1-cD_1ji4-a1-m1-cH 1ji4-a1-m1-cD_1ji4-a1-m1-cL 1ji4-a1-m1-cE_1ji4-a1-m1-cK 1ji4-a1-m1-cF_1ji4-a1-m1-cI 1ji4-a1-m1-cG_1ji4-a1-m1-cJ 1ji4-a1-m1-cH_1ji4-a1-m1-cL 3t9j-a1-m10-cA_3t9j-a1-m3-cA 3t9j-a1-m10-cA_3t9j-a1-m8-cA 3t9j-a1-m11-cA_3t9j-a1-m6-cA 3t9j-a1-m11-cA_3t9j-a1-m7-cA 3t9j-a1-m12-cA_3t9j-a1-m5-cA 3t9j-a1-m1-cA_3t9j-a1-m12-cA 3t9j-a1-m1-cA_3t9j-a1-m5-cA 3t9j-a1-m2-cA_3t9j-a1-m4-cA 3t9j-a1-m2-cA_3t9j-a1-m9-cA 3t9j-a1-m3-cA_3t9j-a1-m8-cA 3t9j-a1-m4-cA_3t9j-a1-m9-cA 3t9j-a1-m6-cA_3t9j-a1-m7-cA 3ta8-a1-m10-cA_3ta8-a1-m3-cA 3ta8-a1-m10-cA_3ta8-a1-m8-cA 3ta8-a1-m11-cA_3ta8-a1-m6-cA 3ta8-a1-m11-cA_3ta8-a1-m7-cA 3ta8-a1-m12-cA_3ta8-a1-m5-cA 3ta8-a1-m1-cA_3ta8-a1-m12-cA 3ta8-a1-m1-cA_3ta8-a1-m5-cA 3ta8-a1-m2-cA_3ta8-a1-m4-cA 3ta8-a1-m2-cA_3ta8-a1-m9-cA 3ta8-a1-m3-cA_3ta8-a1-m8-cA 3ta8-a1-m4-cA_3ta8-a1-m9-cA 3ta8-a1-m6-cA_3ta8-a1-m7-cA 4evb-a1-m10-cA_4evb-a1-m3-cA 4evb-a1-m10-cA_4evb-a1-m8-cA 4evb-a1-m11-cA_4evb-a1-m6-cA 4evb-a1-m11-cA_4evb-a1-m7-cA 4evb-a1-m12-cA_4evb-a1-m5-cA 4evb-a1-m1-cA_4evb-a1-m12-cA 4evb-a1-m1-cA_4evb-a1-m5-cA 4evb-a1-m2-cA_4evb-a1-m4-cA 4evb-a1-m2-cA_4evb-a1-m9-cA 4evb-a1-m3-cA_4evb-a1-m8-cA 4evb-a1-m6-cA_4evb-a1-m7-cA 4evc-a1-m10-cA_4evc-a1-m3-cA 4evc-a1-m10-cA_4evc-a1-m8-cA 4evc-a1-m11-cA_4evc-a1-m6-cA 4evc-a1-m11-cA_4evc-a1-m7-cA 4evc-a1-m12-cA_4evc-a1-m5-cA 4evc-a1-m1-cA_4evc-a1-m12-cA 4evc-a1-m1-cA_4evc-a1-m5-cA 4evc-a1-m2-cA_4evc-a1-m4-cA 4evc-a1-m2-cA_4evc-a1-m9-cA 4evc-a1-m3-cA_4evc-a1-m8-cA 4evc-a1-m4-cA_4evc-a1-m9-cA 4evc-a1-m6-cA_4evc-a1-m7-cA 4evd-a1-m10-cA_4evd-a1-m3-cA 4evd-a1-m10-cA_4evd-a1-m8-cA 4evd-a1-m11-cA_4evd-a1-m6-cA 4evd-a1-m11-cA_4evd-a1-m7-cA 4evd-a1-m12-cA_4evd-a1-m5-cA 4evd-a1-m1-cA_4evd-a1-m12-cA 4evd-a1-m1-cA_4evd-a1-m5-cA 4evd-a1-m2-cA_4evd-a1-m4-cA 4evd-a1-m2-cA_4evd-a1-m9-cA 4evd-a1-m3-cA_4evd-a1-m8-cA 4evd-a1-m4-cA_4evd-a1-m9-cA 4evd-a1-m6-cA_4evd-a1-m7-cA 4eve-a1-m10-cA_4eve-a1-m3-cA 4eve-a1-m10-cA_4eve-a1-m8-cA 4eve-a1-m11-cA_4eve-a1-m6-cA 4eve-a1-m11-cA_4eve-a1-m7-cA 4eve-a1-m12-cA_4eve-a1-m5-cA 4eve-a1-m1-cA_4eve-a1-m12-cA 4eve-a1-m1-cA_4eve-a1-m5-cA 4eve-a1-m2-cA_4eve-a1-m4-cA 4eve-a1-m2-cA_4eve-a1-m9-cA 4eve-a1-m3-cA_4eve-a1-m8-cA 4eve-a1-m4-cA_4eve-a1-m9-cA 4eve-a1-m6-cA_4eve-a1-m7-cA KTFEILKHLQADAIVLFMKVHNFHWNVKGTDFFNVHKATEEIYEGFADMFDDLAERIAQLGHHPLVTLSEALKLTRVKEETKTSFHSKDIFKEILEDYKHLEKEFKELSNTAEKEGDKVTVTYADDQLAKLQKSIWMLQAHLA KTFEILKHLQADAIVLFMKVHNFHWNVKGTDFFNVHKATEEIYEGFADMFDDLAERIAQLGHHPLVTLSEALKLTRVKEETKTSFHSKDIFKEILEDYKHLEKEFKELSNTAEKEGDKVTVTYADDQLAKLQKSIWMLQAHLA 4evu-a1-m1-cA_4evu-a1-m1-cB Crystal structure of C-terminal domain of putative periplasmic protein ydgH from S. enterica Q8ZPL1 Q8ZPL1 1.45 X-RAY DIFFRACTION 46 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 62 65 KVEELNKATAAVPFDSVKFTGNYGNTEISYQVAKRAAKKGAKYYHITRQWQENITISADLYK KVEELNKATAAVPFDSVKFTGNYGNTEISYQVAKRAAKKGAKYYHITRQWQERGNNITISADLYK 4evu-a2-m2-cA_4evu-a2-m1-cB Crystal structure of C-terminal domain of putative periplasmic protein ydgH from S. enterica Q8ZPL1 Q8ZPL1 1.45 X-RAY DIFFRACTION 25 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 62 65 KVEELNKATAAVPFDSVKFTGNYGNTEISYQVAKRAAKKGAKYYHITRQWQENITISADLYK KVEELNKATAAVPFDSVKFTGNYGNTEISYQVAKRAAKKGAKYYHITRQWQERGNNITISADLYK 4evx-a2-m1-cA_4evx-a2-m3-cA Crystal structure of putative phage endolysin from S. enterica Q8ZLC6 Q8ZLC6 1.7 X-RAY DIFFRACTION 30 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 92 92 RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFLSLI RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFLSLI 4evx-a2-m3-cB_4evx-a2-m1-cA Crystal structure of putative phage endolysin from S. enterica Q8ZLC6 Q8ZLC6 1.7 X-RAY DIFFRACTION 29 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 89 92 4evx-a2-m1-cB_4evx-a2-m3-cA RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFL RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFLSLI 4evx-a3-m1-cB_4evx-a3-m1-cA Crystal structure of putative phage endolysin from S. enterica Q8ZLC6 Q8ZLC6 1.7 X-RAY DIFFRACTION 54 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 89 92 4evx-a1-m1-cB_4evx-a1-m1-cA 4evx-a1-m2-cB_4evx-a1-m2-cA 4evx-a2-m1-cB_4evx-a2-m1-cA 4evx-a2-m3-cB_4evx-a2-m3-cA RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFL RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFLSLI 4evx-a4-m2-cB_4evx-a4-m1-cA Crystal structure of putative phage endolysin from S. enterica Q8ZLC6 Q8ZLC6 1.7 X-RAY DIFFRACTION 65 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 89 92 4evx-a1-m1-cB_4evx-a1-m2-cA 4evx-a1-m2-cB_4evx-a1-m1-cA RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFL RFSSAIAFIQWQGLSLEYRDRQGNWVIGYGHLTPDETLTFITPDQAEAFLLDDLNSCDILLQNCLPELNDRFQRETLIALFSIGHQRFLSLI 4evy-a1-m1-cB_4evy-a1-m1-cA Crystal structure of aminoglycoside antibiotic 6'-N-acetyltransferase AAC(6')-Ig from Acinetobacter haemolyticus in complex with tobramycin Q44057 Q44057 1.768 X-RAY DIFFRACTION 152 1.0 29430 (Acinetobacter haemolyticus) 29430 (Acinetobacter haemolyticus) 145 147 4f0y-a1-m1-cA_4f0y-a1-m1-cB MNIKPASEASLKDWLELRNKLWSDSEASHLQEMHQLLAEKYALQLLAYSDHQAIAMLEASIRFEYVNGTETSPVGFLEGIYVLPAHRRSGVATMLIRQAEVWAKQFSCTEFASDAALDNVISHAMHRSLGFQETEKVVYFSKKID QGMNIKPASEASLKDWLELRNKLWSDSEASHLQEMHQLLAEKYALQLLAYSDHQAIAMLEASIRFEYVNGTETSPVGFLEGIYVLPAHRRSGVATMLIRQAEVWAKQFSCTEFASDAALDNVISHAMHRSLGFQETEKVVYFSKKID 4ew1-a2-m1-cA_4ew1-a2-m2-cA High resolution structure of human glycinamide ribonucleotide transformylase in apo form. P22102 P22102 1.522 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 205 205 4ew2-a2-m1-cA_4ew2-a2-m2-cA 4ew3-a2-m1-cA_4ew3-a2-m2-cA 7jg0-a1-m1-cA_7jg0-a1-m2-cA ARVAVLISGTGSNLQALIDSTREPNSSAQIDIVISNKAAVAGLDKAERAGIPTRVINHKLYKNRVEFDSAIDLVLEEFSIDIVCLAGFMRILSGPFVQKWNGKMLNIHPSLLPSFKGSNAHEQALETGVTVTGCTVHFVAEDVDAGQIILQEAVPVKRGDTVATLSERVKLAEHKIFPAALQLVASGTVQLGENGKICWVKEEHH ARVAVLISGTGSNLQALIDSTREPNSSAQIDIVISNKAAVAGLDKAERAGIPTRVINHKLYKNRVEFDSAIDLVLEEFSIDIVCLAGFMRILSGPFVQKWNGKMLNIHPSLLPSFKGSNAHEQALETGVTVTGCTVHFVAEDVDAGQIILQEAVPVKRGDTVATLSERVKLAEHKIFPAALQLVASGTVQLGENGKICWVKEEHH 4ew5-a1-m1-cB_4ew5-a1-m1-cA C-terminal domain of inner membrane protein CigR from Salmonella enterica. Q9Z621 Q9Z621 1.87 X-RAY DIFFRACTION 73 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 96 101 GGKPDHVESDISYAVARQLAVNLGLTGYQSLPPGIAKNLARGKPLPPGIAKKTVPASLGQLPYYPGYEWKIVGDNLVLIALSTAVVTAIINGVFDL HRKNGGKPDHVESDISYAVARQLAVNLGLTGYQSLPPGIAKNLARGKPLPPGIAKKTVPASLGQLPYYPGYEWKIVGDNLVLIALSTAVVTAIINGVFDLE 4ew6-a1-m1-cA_4ew6-a1-m2-cA Crystal structure of D-galactose-1-dehydrogenase protein from Rhizobium etli Q2KA75 Q2KA75 2.3 X-RAY DIFFRACTION 86 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 304 304 YFQSSPINLAIVGVGKIVRDQHLPSIAKNANFKLVATASRHGTVEGVNSYTTIEALDAEPSIDAVSLCPPQYRYEAAYKALVAGKHVFLEKPPGATLSEVADLEALANKQGASLFASWHSRYAPAVEAAKAFLASTTIKSVHVIWKEDVRHWHPNQDWIWQAGGLGVFDPGINALSIVTHILPRPVFITGAVLEFPENRDAPIAADIHFRDADGLPVHAEFDWRQTGKQSWDIVAETAAGQVLSEGGAKLSIDGRLTEPEQEYPSLYRRFAEIIKAGKSDVDVAPLRHVADAFLGKRKFVEAFH YFQSSPINLAIVGVGKIVRDQHLPSIAKNANFKLVATASRHGTVEGVNSYTTIEALDAEPSIDAVSLCPPQYRYEAAYKALVAGKHVFLEKPPGATLSEVADLEALANKQGASLFASWHSRYAPAVEAAKAFLASTTIKSVHVIWKEDVRHWHPNQDWIWQAGGLGVFDPGINALSIVTHILPRPVFITGAVLEFPENRDAPIAADIHFRDADGLPVHAEFDWRQTGKQSWDIVAETAAGQVLSEGGAKLSIDGRLTEPEQEYPSLYRRFAEIIKAGKSDVDVAPLRHVADAFLGKRKFVEAFH 4ew7-a1-m1-cA_4ew7-a1-m2-cA The crystal structure of conjugative transfer PAS_like domain from Salmonella enterica subsp. enterica serovar Typhimurium A0A0F6AW83 A0A0F6AW83 1.67 X-RAY DIFFRACTION 56 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 112 112 QSVNKYILSIQDIYKNSPVPVCVRNQSRKIIYANGAFIELFSKEDQPLSGDSYNRYGVEVFLSSLELECQSLGHGAAFCRRFNFHGEIYQIRENISFDNNEIIVLWQINLFP QSVNKYILSIQDIYKNSPVPVCVRNQSRKIIYANGAFIELFSKEDQPLSGDSYNRYGVEVFLSSLELECQSLGHGAAFCRRFNFHGEIYQIRENISFDNNEIIVLWQINLFP 4ewc-a1-m1-cA_4ewc-a1-m2-cA Crystal Structure of the Infectious Salmon Anemia Virus Nucleoprotein Q8V3T7 Q8V3T7 2.7 X-RAY DIFFRACTION 266 1.0 55987 (Isavirus salaris) 55987 (Isavirus salaris) 473 473 GTYSFDVRDNTLVVRRSTATSGIKISYREDRGLLQKAVYVDKKIRKFLEEEKAVAAAIERSVEFDNFSKEAAANIEAGVSNAYNLSLFIGVFPALTTFFSAILSEGESIWQNGQAIRILALADETKLNVVTANGKVKQVEVNLNDLKAAFRQSRPKRSDYRKGQGSKATESSISNQCALIKSVLSADQLFAPGVKRTNGFNASYTTLAEGANIPSKYLRHRNCGGVALDLGKRIKNSKSKIFSIIQKKVRGRCRTEEQRLLTSALKISDGENKFQRIDTLCTSFLIDPPRTTKCFIPPISSLYIQEGNSVLADFKNGEDACKICREAKLKVGVNSTFTSVARTCVAVSVATAFCSADIIENAVPGSERYRSNIKANTTKPKKDSTYTIQGLRLSNVRYEARPEDRSWQVNVTDSFGGLAVFNQGAIRELVRALVKRILKSASERSARAVKTFVGEQGKSAIVISGVGLFSIDF GTYSFDVRDNTLVVRRSTATSGIKISYREDRGLLQKAVYVDKKIRKFLEEEKAVAAAIERSVEFDNFSKEAAANIEAGVSNAYNLSLFIGVFPALTTFFSAILSEGESIWQNGQAIRILALADETKLNVVTANGKVKQVEVNLNDLKAAFRQSRPKRSDYRKGQGSKATESSISNQCALIKSVLSADQLFAPGVKRTNGFNASYTTLAEGANIPSKYLRHRNCGGVALDLGKRIKNSKSKIFSIIQKKVRGRCRTEEQRLLTSALKISDGENKFQRIDTLCTSFLIDPPRTTKCFIPPISSLYIQEGNSVLADFKNGEDACKICREAKLKVGVNSTFTSVARTCVAVSVATAFCSADIIENAVPGSERYRSNIKANTTKPKKDSTYTIQGLRLSNVRYEARPEDRSWQVNVTDSFGGLAVFNQGAIRELVRALVKRILKSASERSARAVKTFVGEQGKSAIVISGVGLFSIDF 4ewg-a1-m1-cB_4ewg-a1-m1-cA Crystal structure of a Beta-ketoacyl synthase from Burkholderia phymatum STM815 B2JEW3 B2JEW3 2.25 X-RAY DIFFRACTION 222 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 408 409 MKRVVITGMGGVTALGSRWDEIEAALKAGRNAVRRMPDWDYFESLHTRLAAPLPGFAQPADWPRKKTRSMGRVSMYAVRASELALADAGFAGDESISDGRMGVAYGSSSGSVEPIRAFGTMLESGSMTDVTSNSYVQMMPHTTAVNVSLFWDLKGRIVPTSSACASGSQAIGYAYENIAMGKQTLMLAGGAEELSGPAVAVFDTLYATSTRNDEPHLTPRPFDAKRDGLVVGEGAATLVLEEYEHAKARGATIHAEIVGFGCNSDGAHMTQPTASTMARAMQLALEDAKLDANAIAYVNAHGTSTDRGDVAESQATARTFGERMPISSLKSYVGHTLGACGALEAWWTIEMMKRNWYAPTLNLTEVDPACAPLDYIRGEARAIDAEYVMSNNFAFGGINTSLIFRRVR SMKRVVITGMGGVTALGSRWDEIEAALKAGRNAVRRMPDWDYFESLHTRLAAPLPGFAQPADWPRKKTRSMGRVSMYAVRASELALADAGFAGDESISDGRMGVAYGSSSGSVEPIRAFGTMLESGSMTDVTSNSYVQMMPHTTAVNVSLFWDLKGRIVPTSSACASGSQAIGYAYENIAMGKQTLMLAGGAEELSGPAVAVFDTLYATSTRNDEPHLTPRPFDAKRDGLVVGEGAATLVLEEYEHAKARGATIHAEIVGFGCNSDGAHMTQPTASTMARAMQLALEDAKLDANAIAYVNAHGTSTDRGDVAESQATARTFGERMPISSLKSYVGHTLGACGALEAWWTIEMMKRNWYAPTLNLTEVDPACAPLDYIRGEARAIDAEYVMSNNFAFGGINTSLIFRRVR 4ewh-a1-m2-cB_4ewh-a1-m1-cA Co-crystal structure of ACK1 with inhibitor Q07912 Q07912 2.5 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 274 LTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPDVLSQPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQP LTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPDVLSQPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQPT 4ewi-a3-m1-cA_4ewi-a3-m2-cA Crystal structure of the NLRP4 Pyrin domain Q96MN2 Q96MN2 2.28 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 FFSDFGLMWYLEELKKEEFRKFKEHLKQMTLQLELKQIPWTEVKKASREELANLLIKHYEEQQAWNITLRIFQKMDRKDLCMKVMRERTGY FFSDFGLMWYLEELKKEEFRKFKEHLKQMTLQLELKQIPWTEVKKASREELANLLIKHYEEQQAWNITLRIFQKMDRKDLCMKVMRERTGY 4ewi-a3-m2-cB_4ewi-a3-m1-cA Crystal structure of the NLRP4 Pyrin domain Q96MN2 Q96MN2 2.28 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 91 4ewi-a3-m1-cB_4ewi-a3-m2-cA FFSDFGLMWYLEELKKEEFRKFKEHLKQMTLQLELKQIPWTEVKKASREELANLLIKHYEEQQAWNITLRIFQKMDRKDLCMKVMRERTG FFSDFGLMWYLEELKKEEFRKFKEHLKQMTLQLELKQIPWTEVKKASREELANLLIKHYEEQQAWNITLRIFQKMDRKDLCMKVMRERTGY 4ewi-a3-m2-cB_4ewi-a3-m2-cA Crystal structure of the NLRP4 Pyrin domain Q96MN2 Q96MN2 2.28 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 91 4ewi-a3-m1-cB_4ewi-a3-m1-cA FFSDFGLMWYLEELKKEEFRKFKEHLKQMTLQLELKQIPWTEVKKASREELANLLIKHYEEQQAWNITLRIFQKMDRKDLCMKVMRERTG FFSDFGLMWYLEELKKEEFRKFKEHLKQMTLQLELKQIPWTEVKKASREELANLLIKHYEEQQAWNITLRIFQKMDRKDLCMKVMRERTGY 4ewl-a2-m1-cB_4ewl-a2-m1-cA Crystal Structure of MshB with glycerol and Acetate bound in the active site P9WJN3 P9WJN3 1.85 X-RAY DIFFRACTION 61 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 290 299 4ewl-a1-m1-cB_4ewl-a1-m1-cA MSETPRLLFVHAHPDDESLSNGATIAHYTSRGAQVHVVTCTLGEEGEVIGDRWAQLTADHADQLGGYRIGELTAALRALGVSAPIYLGGAGRWRDSGMAGTDQRSQRRFVDADPRQTVGALVAIIRELRPHVVVTYDPNGGYGHPDHVHTHTVTTAAVAAAGVGDPWTVPKFYWTVLGLSALISGARALVPDDLRPEWVLPRADEIAFGYSDDGIDAVVEADEQARAAKVAALAAHATQVVVGPTGRAAALSNNLALPILADEHYVLAGGSAGARDERGWETDLLAGLGF MSETPRLLFVHAHPDDESLSNGATIAHYTSRGAQVHVVTCTLGEEGEVIGDRWAQLTADHADQLGGYRIGELTAALRALGVSAPIYLGGAGRWRDSGMAGTDQRSQRRFVDADPRQTVGALVAIIRELRPHVVVTYDPNGGYGHPDHVHTHTVTTAAVAAAGVGSGTADHPGDPWTVPKFYWTVLGLSALISGARALVPDDLRPEWVLPRADEIAFGYSDDGIDAVVEADEQARAAKVAALAAHATQVVVGPTGRAAALSNNLALPILADEHYVLAGGSAGARDERGWETDLLAGLGFT 4ewp-a3-m1-cE_4ewp-a3-m1-cF Crystal structure of FabH from Micrococcus luteus C5CAR9 C5CAR9 2.198 X-RAY DIFFRACTION 340 1.0 465515 (Micrococcus luteus NCTC 2665) 465515 (Micrococcus luteus NCTC 2665) 349 349 4ewp-a1-m1-cA_4ewp-a1-m1-cB 4ewp-a2-m1-cC_4ewp-a2-m1-cD TVTLKQHERPAASRIVAVGAYRPANLVPNEDLIGPIDSSDEWIRQRTGIVTRQRATAEETVPVMAVGAAREALERAGLQGSDLDAVIVSTVTFPHATPSAAALVAHEIGATPAPAYDVSAACAGYCYGVAQADALVRSGTARHVLVVGVERLSDVVDPTDRSISFLLGDGAGAVIVAASDEPGISPSVWGSDGERWSTISMTHSQLELRDAVEHARTTGDASAITGAEGMLWPTLRQDGPSVFRWAVWSMAKVAREALDAAGVEPEDLAAFIPHQANMRIIDEFAKQLKLPESVVVARDIADAGNTSAASIPLAMHRLLEENPELSGGLALQIGFGAGLVYGAQVVRLP TVTLKQHERPAASRIVAVGAYRPANLVPNEDLIGPIDSSDEWIRQRTGIVTRQRATAEETVPVMAVGAAREALERAGLQGSDLDAVIVSTVTFPHATPSAAALVAHEIGATPAPAYDVSAACAGYCYGVAQADALVRSGTARHVLVVGVERLSDVVDPTDRSISFLLGDGAGAVIVAASDEPGISPSVWGSDGERWSTISMTHSQLELRDAVEHARTTGDASAITGAEGMLWPTLRQDGPSVFRWAVWSMAKVAREALDAAGVEPEDLAAFIPHQANMRIIDEFAKQLKLPESVVVARDIADAGNTSAASIPLAMHRLLEENPELSGGLALQIGFGAGLVYGAQVVRLP 4ewt-a1-m1-cA_4ewt-a1-m1-cD The crystal structure of a putative aminohydrolase from methicillin resistant Staphylococcus aureus A0A0H2WZV8 A0A0H2WZV8 2.1 X-RAY DIFFRACTION 73 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 389 389 4ewt-a1-m1-cB_4ewt-a1-m1-cC MNQQLIETLKSKEGKMIEIRRYLHQHPELSFHEDETAKYIAEFYKGKDVEVETNVGPRGIKVTIDSGKPGKTLAIRADFDALPITEDTGLSFASQNKGVMHACGHDAHTAYMLVLAETLAEMKDSFTGKVVVIHQPAEEVPPGGAKTMIENGVLDGVDHVLGVHVMSTMKTGKVYYRPGYVQTGRAFFKLKVQGKGGHGSSPHMANDAIVAGSYFVTALQTVVSRRLSPFETGVVTIGSFDGKGQFNVIKDVVEIEGDVRGLTDATKATIEKEIKRLSKGLEDMYGVTCTLEYNDDYPALYNDPEFTEYVAKTLKEANLDFGVEMCEPQPPSEDFAYYAKERPSAFIYTGAAVENGEIYPHHHPKFNISEKSLLISAEAVGTVVLDYLK MNQQLIETLKSKEGKMIEIRRYLHQHPELSFHEDETAKYIAEFYKGKDVEVETNVGPRGIKVTIDSGKPGKTLAIRADFDALPITEDTGLSFASQNKGVMHACGHDAHTAYMLVLAETLAEMKDSFTGKVVVIHQPAEEVPPGGAKTMIENGVLDGVDHVLGVHVMSTMKTGKVYYRPGYVQTGRAFFKLKVQGKGGHGSSPHMANDAIVAGSYFVTALQTVVSRRLSPFETGVVTIGSFDGKGQFNVIKDVVEIEGDVRGLTDATKATIEKEIKRLSKGLEDMYGVTCTLEYNDDYPALYNDPEFTEYVAKTLKEANLDFGVEMCEPQPPSEDFAYYAKERPSAFIYTGAAVENGEIYPHHHPKFNISEKSLLISAEAVGTVVLDYLK 4ewt-a1-m1-cB_4ewt-a1-m1-cD The crystal structure of a putative aminohydrolase from methicillin resistant Staphylococcus aureus A0A0H2WZV8 A0A0H2WZV8 2.1 X-RAY DIFFRACTION 44 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 375 389 4ewt-a1-m1-cA_4ewt-a1-m1-cC MNQQLIETLKSKEGKMIEIRRYLHQHPELSFHEDETAKYIAEFYKGKDVEVETNVGPRGIKVTIDSGKPGKTLAIRADFDALPITEDTGLSFASQNKGVMHACGHDAHTAYMLVLAETLAEMKDSFTGKVVVIHQPAEEVPPGGAKTMIENGVLDGVDHVLGVHVMSTMKTGKVYYRPGYVQTGRAFFKLKVQGKGGHGSSPHMANDAIVAGSYFVTALQTVVSRRLSPFETGVVTIGSFDGKGQFNVIKDVVEIEGDVRGLTDATKATIEKEIKRLSKGLEDMYGVTCTLEYNDDYPALYNDPEFTEYVAKTLKEANLMCEPQPPSEDFAYYAKERPSAFIYTGAAVPHHHPKFNISEKSLLISAEAVGTVVLD MNQQLIETLKSKEGKMIEIRRYLHQHPELSFHEDETAKYIAEFYKGKDVEVETNVGPRGIKVTIDSGKPGKTLAIRADFDALPITEDTGLSFASQNKGVMHACGHDAHTAYMLVLAETLAEMKDSFTGKVVVIHQPAEEVPPGGAKTMIENGVLDGVDHVLGVHVMSTMKTGKVYYRPGYVQTGRAFFKLKVQGKGGHGSSPHMANDAIVAGSYFVTALQTVVSRRLSPFETGVVTIGSFDGKGQFNVIKDVVEIEGDVRGLTDATKATIEKEIKRLSKGLEDMYGVTCTLEYNDDYPALYNDPEFTEYVAKTLKEANLDFGVEMCEPQPPSEDFAYYAKERPSAFIYTGAAVENGEIYPHHHPKFNISEKSLLISAEAVGTVVLDYLK 4ewt-a1-m1-cC_4ewt-a1-m1-cD The crystal structure of a putative aminohydrolase from methicillin resistant Staphylococcus aureus A0A0H2WZV8 A0A0H2WZV8 2.1 X-RAY DIFFRACTION 132 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 389 389 4ewt-a1-m1-cB_4ewt-a1-m1-cA MNQQLIETLKSKEGKMIEIRRYLHQHPELSFHEDETAKYIAEFYKGKDVEVETNVGPRGIKVTIDSGKPGKTLAIRADFDALPITEDTGLSFASQNKGVMHACGHDAHTAYMLVLAETLAEMKDSFTGKVVVIHQPAEEVPPGGAKTMIENGVLDGVDHVLGVHVMSTMKTGKVYYRPGYVQTGRAFFKLKVQGKGGHGSSPHMANDAIVAGSYFVTALQTVVSRRLSPFETGVVTIGSFDGKGQFNVIKDVVEIEGDVRGLTDATKATIEKEIKRLSKGLEDMYGVTCTLEYNDDYPALYNDPEFTEYVAKTLKEANLDFGVEMCEPQPPSEDFAYYAKERPSAFIYTGAAVENGEIYPHHHPKFNISEKSLLISAEAVGTVVLDYLK MNQQLIETLKSKEGKMIEIRRYLHQHPELSFHEDETAKYIAEFYKGKDVEVETNVGPRGIKVTIDSGKPGKTLAIRADFDALPITEDTGLSFASQNKGVMHACGHDAHTAYMLVLAETLAEMKDSFTGKVVVIHQPAEEVPPGGAKTMIENGVLDGVDHVLGVHVMSTMKTGKVYYRPGYVQTGRAFFKLKVQGKGGHGSSPHMANDAIVAGSYFVTALQTVVSRRLSPFETGVVTIGSFDGKGQFNVIKDVVEIEGDVRGLTDATKATIEKEIKRLSKGLEDMYGVTCTLEYNDDYPALYNDPEFTEYVAKTLKEANLDFGVEMCEPQPPSEDFAYYAKERPSAFIYTGAAVENGEIYPHHHPKFNISEKSLLISAEAVGTVVLDYLK 4ex5-a1-m1-cA_4ex5-a1-m1-cB Crystal structure of lysyl-tRNA synthetase LysRS from Burkholderia thailandensis bound to lysine Q2SXD6 Q2SXD6 2.4 X-RAY DIFFRACTION 270 0.998 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 486 486 ENQIVAERRDKLRALRDQGIAYPNDFQPTHHAADLQTAYADADKEALEAKSLEVAIAGRMMLKRVMGKASFATVQDGSGQIQFFVTPADVGAETYDAFKKWDLGDIVAARGVLFRTNKGELSVKCTQLRLLAKALRPLPDDQETRYRQRYVDLIVTPETRTTFRARTKAIASIRKFMGDADFMEVETPMLHPIPGGAAAKPFVTHHNALDMEMFLRIAPELYLKRLIVGGFERVFEINRNFRNEGVSPRHNPEFTMMEFYAAYTDYRWLMDFTERLIRQAAVDALGTATIQYQGRELDLAQPFHRLTITQAIQKYAPSYTDGQLSDDAFLRSELKRLGVDVTQPAFLNAGIGALQLALFEETAEAQLWEPTFIIDYPIEVSPLARESDTVAGITERFELFITGREIANGFSELNDPEDQAARFKKQVEQKDAGDEEAMFFDADYIRALEYGMPPTGGCGIGIDRLVMLLTDSPTIRDVLLFPHLRR DENQIVAERRDKLRALRDQGIAYPNDFQPTHHAADLQTAYADADKEALEAKSLEVAIAGRMMLKRVMGKASFATVQDGSGQIQFFVTPADVGAETYDAFKKWDLGDIVAARGVLFRTNKGELSVKCTQLRLLAKALRPLPDQETRYRQRYVDLIVTPETRTTFRARTKAIASIRKFMGDADFMEVETPMLHPIPGGAAAKPFVTHHNALDMEMFLRIAPELYLKRLIVGGFERVFEINRNFRNEGVSPRHNPEFTMMEFYAAYTDYRWLMDFTERLIRQAAVDALGTATIQYQGRELDLAQPFHRLTITQAIQKYAPSYTDGQLSDDAFLRSELKRLGVDVTQPAFLNAGIGALQLALFEETAEAQLWEPTFIIDYPIEVSPLARESDTVAGITERFELFITGREIANGFSELNDPEDQAARFKKQVEQKDAGDEEAMFFDADYIRALEYGMPPTGGCGIGIDRLVMLLTDSPTIRDVLLFPHLRR 4ex8-a1-m2-cA_4ex8-a1-m3-cA Crystal structure of the prealnumycin C-glycosynthase AlnA B6SEG5 B6SEG5 2.1 X-RAY DIFFRACTION 75 1.0 569580 (Streptomyces sp. CM020) 569580 (Streptomyces sp. CM020) 301 301 4ex8-a1-m1-cA_4ex8-a1-m2-cA 4ex8-a1-m1-cA_4ex8-a1-m3-cA 4ex9-a1-m1-cA_4ex9-a1-m2-cA 4ex9-a1-m1-cA_4ex9-a1-m3-cA 4ex9-a1-m2-cA_4ex9-a1-m3-cA PDQLLEVSDEIATALAERRPVVALESSLITTDPSSETASLIEKAVRGAGAVPATIGIAGGKLVVGLTDSLIERFASTKGIPKISARDIGGALAGGGLGATTVAGTIVIAERAGIQVFTTAGIGGVHRRGEDTLDISPDLLQFRKTKMTVVSGGAKSILDHRLTAEYLETAGVPVYGYRTDKLAAFVVREADVPVTRMDDLHTAARAAEAHWQVNGPGTVLLTSPIDEQDAVDEAIVEAAIAEALAQCDQEGIVGNAVSPYLMKALARASGGMLPKAGRSLLLSTARVAGEFSAALSAVQAE PDQLLEVSDEIATALAERRPVVALESSLITTDPSSETASLIEKAVRGAGAVPATIGIAGGKLVVGLTDSLIERFASTKGIPKISARDIGGALAGGGLGATTVAGTIVIAERAGIQVFTTAGIGGVHRRGEDTLDISPDLLQFRKTKMTVVSGGAKSILDHRLTAEYLETAGVPVYGYRTDKLAAFVVREADVPVTRMDDLHTAARAAEAHWQVNGPGTVLLTSPIDEQDAVDEAIVEAAIAEALAQCDQEGIVGNAVSPYLMKALARASGGMLPKAGRSLLLSTARVAGEFSAALSAVQAE 4exb-a3-m1-cD_4exb-a3-m1-cE Putative aldo-keto reductase from Pseudomona aeruginosa Q9HUH3 Q9HUH3 2.75 X-RAY DIFFRACTION 53 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 255 255 4exa-a1-m1-cB_4exa-a1-m1-cA 4exa-a2-m1-cC_4exa-a2-m1-cF 4exa-a3-m1-cD_4exa-a3-m1-cE 4exb-a1-m1-cA_4exb-a1-m1-cB 4exb-a2-m1-cC_4exb-a2-m1-cF YFQSMIRDTLHDLHRPLGDTGLAVSPLGLGTVKFGRTIPDDREAADLLALARDLGINLIDTAPAYGRSEERLGPLLRGQREHWVIVSKVGEEFVDGQSVFDFSAAHTRRSVERSLKRLETDRIELVLVHSDGNDLDILENSEVYPTLAALKREGLIGAYGLSGKTVEGGLRALREGDCAMVTYNLNERAERPVIEYAAAHAKGILVKKALASGQDPVRASFELVFDQPGVAAAIVGTINPLHLAHNVAMAAQALK FQSMIRDTLHDLHRPLGDTGLAVSPLGLGTVKFGRDTIPDDREAADLLALARDLGINLIDTAPAYGRSEERLGPLLRGQREHWVIVSKVGEEFVDGQSVFDFSAAHTRRSVERSLKRLETDRIELVLVHSDGNDLDILENSEVYPTLAALKREGLIGAYGLSGKTVEGGLRALREGDCAMVTYNLNERAERPVIEYAAAHAKGILVKKALASGQDPVRASFELVFDQPGVAAAIVGTINPLHLAHNVAMAAQALK 4exj-a1-m1-cA_4exj-a1-m1-cB Crystal structure of glutathione s-transferase like protein lelg_03239 (target efi-501752) from lodderomyces elongisporus A5E0V2 A5E0V2 1.64 X-RAY DIFFRACTION 90 1.0 379508 (Lodderomyces elongisporus NRRL YB-4239) 379508 (Lodderomyces elongisporus NRRL YB-4239) 221 222 VMAILYTGPTGNGRKPLVLGKLLNAPIKVHMFHPTKDIQEDWYLKLNPAGIVPTLVDDKGTPITESNNILLYIADTYDKEHKFFYSLKQDPKLYWEQNELLFYQATQFQSQTLTIANANYQNGHIDENIAQYVLSSFEKVFAFMETKLSGRDWFVGDKFTIVDIAFLVGEHRRRERLHNSPIWIDLKENFPNVEKWFQRAIAFENVEEILKEHAAENLYFQ VMAILYTGPTGNGRKPLVLGKLLNAPIKVHMFHWPTKDIQEDWYLKLNPAGIVPTLVDDKGTPITESNNILLYIADTYDKEHKFFYSLKQDPKLYWEQNELLFYQATQFQSQTLTIANANYQNGHIDENIAQYVLSSFEKVFAFMETKLSGRDWFVGDKFTIVDIAFLVGEHRRRERLHNSPIWIDLKENFPNVEKWFQRAIAFENVEEILKEHAAENLYFQ 4exk-a1-m1-cA_4exk-a1-m2-cA A chimera protein containing MBP fused to the C-terminal domain of the uncharacterized protein STM14_2015 from Salmonella enterica A0A0F6B1U8 A0A0F6B1U8 1.28 X-RAY DIFFRACTION 116 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 475 475 AKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAANTPSPDLTVMSIDKSVLSPGESATITTIVKDIDGNPVNEVHINKTVARENLKGLWDYGPLKKENVPGKYTQVITYRGHSNERIDISFKYAMSFTKEISIRGRLS AKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAANTPSPDLTVMSIDKSVLSPGESATITTIVKDIDGNPVNEVHINKTVARENLKGLWDYGPLKKENVPGKYTQVITYRGHSNERIDISFKYAMSFTKEISIRGRLS 4exm-a2-m1-cB_4exm-a2-m1-cC The crystal structure of an engineered phage lysin containing the binding domain of pesticin and the killing domain of T4-lysozyme P00720 P00720 2.6 X-RAY DIFFRACTION 90 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 291 331 4epi-a1-m1-cA_4epi-a1-m2-cA 4exm-a1-m1-cA_4exm-a1-m1-cD PAFLFSGSTLSSYRPNFEANSITIALPHYVDLPGRSNFKLMYIMGFPIDTEMEKDSEYSNKIRQESKISKTEGTVSYEQKITVETGQEKDGVKVYRVMVLEGTIAESIEHLDKKENEDILNNNRNRIVLADNTVINFDNISQLKEFLRRSVNIVIFEMLRIDERLRLKIYKDTEGYYTIGIGHLGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYK FQSMSDTMVVNGSGGVPAFLFSGSTLSSYRPNFEANSITIALPHYVDLPGRSNFKLMYIMGFPIDTEMEKDSEYSNKIRQESKISKTEGTVSYEQKITVETGQEKDGVKVYRVMVLEGTIAESIEHLDKKENEDILNNNRNRIVLADNTVINFDNISQLKEFLRRSVNIVIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYKN 4exn-a1-m1-cB_4exn-a1-m1-cA Crystal structure of mouse Interleukin-34 Q8R1R4 Q8R1R4 2.7 X-RAY DIFFRACTION 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 162 172 4exn-a2-m1-cE_4exn-a2-m1-cF 4exp-a1-m1-cA_4exp-a1-m2-cA KECDLTGYLRGKLQYKNRLQYMKHYFPINYRIAVPYEGVLRVANITRLQKAHVSERELRYLWVLVSLNATESVMDVLLEGHPSWKYLQEVQTLLENVQRSLMDVEIGPHVEAVLSLLSTPGLSLKLVRPKALLDNCFRVMELLYCSCCKQSPILKWQDCELP NLEIWTLTQDKECDLTGYLRGKLQYKNRLQYMKHYFPINYRIAVPYEGVLRVANITRLQKAHVSERELRYLWVLVSLNATESVMDVLLEGHPSWKYLQEVQTLLENVQRSLMDVEIGPHVEAVLSLLSTPGLSLKLVRPKALLDNCFRVMELLYCSCCKQSPILKWQDCELP 4exo-a1-m1-cA_4exo-a1-m2-cA Revised, rerefined crystal structure of PDB entry 2QHK, methyl accepting chemotaxis protein Q87T87 Q87T87 1.9 X-RAY DIFFRACTION 32 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 142 142 2qhk-a1-m1-cA_2qhk-a1-m2-cA AELVRDRQELIDARKKELKAYGVTAIKPLYDSDVNGSNKQAAKEILKARFESDGYFFAYDSQGINTLHAIKPSLEGKNLYDLKDENGVAVIAGLIDASQKGDGFLYFSWHKPTINAQAPKLGYAEYLQKWDWVLGTGIYIDD AELVRDRQELIDARKKELKAYGVTAIKPLYDSDVNGSNKQAAKEILKARFESDGYFFAYDSQGINTLHAIKPSLEGKNLYDLKDENGVAVIAGLIDASQKGDGFLYFSWHKPTINAQAPKLGYAEYLQKWDWVLGTGIYIDD 4exq-a2-m1-cA_4exq-a2-m2-cA CRYSTAL STRUCTURE of UROPORPHYRINOGEN DECARBOXYLASE (UPD) FROM BURKHOLDERIA THAILANDENSIS E264 Q2STF3 Q2STF3 1.65 X-RAY DIFFRACTION 86 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 357 357 GSMAQTLINDTFLRALLREPTDYTPIWLMRQAGRYLPEYNATRARAGSFLGLAKHPDYATEVTLQPLERFPLDAAILFSDILTIPDAMGLGLDFGPKFAHPVRTEADVAKLAVPDIGATLGYVTDAVREIRRALTDGEGRQRVPLIGFSGSPWTLACYMVEGGGSDDFRTVKSMAYARPDLMHRILDVNAQAVAAYLNAQIEAGAQAVMIFDTWGGALADGAYQRFSLDYIRRVVAQLKREHDGARVPAIAFTKGGGLWLEDLAATGVDAVGLDWTVNLGRARERVAGRVALQGNLDPTILFAPPEAIRAEARAVLDSYGNHPGHVFNLGHGISQFTPPEHVAELVDEVHRHSRAIR GSMAQTLINDTFLRALLREPTDYTPIWLMRQAGRYLPEYNATRARAGSFLGLAKHPDYATEVTLQPLERFPLDAAILFSDILTIPDAMGLGLDFGPKFAHPVRTEADVAKLAVPDIGATLGYVTDAVREIRRALTDGEGRQRVPLIGFSGSPWTLACYMVEGGGSDDFRTVKSMAYARPDLMHRILDVNAQAVAAYLNAQIEAGAQAVMIFDTWGGALADGAYQRFSLDYIRRVVAQLKREHDGARVPAIAFTKGGGLWLEDLAATGVDAVGLDWTVNLGRARERVAGRVALQGNLDPTILFAPPEAIRAEARAVLDSYGNHPGHVFNLGHGISQFTPPEHVAELVDEVHRHSRAIR 4exr-a1-m1-cA_4exr-a1-m2-cA Crystal structure of a putative lipoprotein (CD1622) from Clostridium difficile 630 at 1.85 A resolution Q186H8 Q186H8 1.85 X-RAY DIFFRACTION 29 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 148 148 NENLEQDFKVPYTDAINIFKDKYKDADIVDLSLERDLNKFVYTVEGVDDNNEYKKIDANTKDVLEDKTEKLDSEDLNGVARKEKLDLNDITPQQAEIALKEQNGIVKEWSLDKDLDVTFYKIRIDKDKNEYDIKVDSKKGTVLKVEKE NENLEQDFKVPYTDAINIFKDKYKDADIVDLSLERDLNKFVYTVEGVDDNNEYKKIDANTKDVLEDKTEKLDSEDLNGVARKEKLDLNDITPQQAEIALKEQNGIVKEWSLDKDLDVTFYKIRIDKDKNEYDIKVDSKKGTVLKVEKE 4exw-a1-m1-cD_4exw-a1-m1-cC The structure of DdrB from Deinococcus: a new fold for single-stranded DNA binding proteins. Q1J1N6 Q1J1N6 2.8 X-RAY DIFFRACTION 37 0.991 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 113 122 4exw-a1-m1-cB_4exw-a1-m1-cA 4exw-a1-m1-cB_4exw-a1-m1-cC 4exw-a1-m1-cE_4exw-a1-m1-cA FTLHIEFITDLGAKVTVDVESADKLLDVQRQYGRLGWTSGEVPVGGYQFPLENEPDFDWSLIGARKWTNEILHRGHAYRRREPAAVKYSRGAKNYVTLAIFRGGKRQERYAVP PFTLHIEFITDLGAKVTVDVESADKLLDVQRQYGRLGWTSGEVPVGGYQFPLENEPDFDWSLIGARKWTNPEEILHRGHAYRRRELEPAAVKYSRGAKTDPEEYVTLAIFRGGKRQERYAVP 4eys-a2-m2-cA_4eys-a2-m3-cA Crystal structure of MccF-like protein from Streptococcus pneumoniae in complex with AMP A0A0H2UN46 A0A0H2UN46 1.58 X-RAY DIFFRACTION 43 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 336 336 4eys-a2-m1-cA_4eys-a2-m2-cA 4eys-a2-m1-cA_4eys-a2-m3-cA VSTIGIVSLSSGIIGEDFVKHEVDLGIQRLKDLGLNPIFLPHSLKGLDFIKDHPEARAEDLIHAFSDDSIDILCAIGGDDTYRLLPYLFENDQLQKVIKQKIFLGFSDTTNHLLHKLGIKTFYGQSFLADICELDKELAYSLHYFKELIETGRISEIRPSDVWYEERTDFSPTALGTPRVSHTNTGFDLLQGSAQFEGKILGGCLESLYDIFDNSRYADSTELCQKYKLFPDLSDWEGKILLLETSEEKPKPEDFKKLLTLKDTGIFAVINGLLVGKPDETFHDDYKEALLDIIDSNIPIVYNLNVGHATPRAIVPFGVHAHVDAQEQVILFDYNK VSTIGIVSLSSGIIGEDFVKHEVDLGIQRLKDLGLNPIFLPHSLKGLDFIKDHPEARAEDLIHAFSDDSIDILCAIGGDDTYRLLPYLFENDQLQKVIKQKIFLGFSDTTNHLLHKLGIKTFYGQSFLADICELDKELAYSLHYFKELIETGRISEIRPSDVWYEERTDFSPTALGTPRVSHTNTGFDLLQGSAQFEGKILGGCLESLYDIFDNSRYADSTELCQKYKLFPDLSDWEGKILLLETSEEKPKPEDFKKLLTLKDTGIFAVINGLLVGKPDETFHDDYKEALLDIIDSNIPIVYNLNVGHATPRAIVPFGVHAHVDAQEQVILFDYNK 4ezb-a1-m1-cA_4ezb-a1-m2-cA CRYSTAL STRUCTURE OF the Conserved hypothetical protein from Sinorhizobium meliloti 1021 Q92PI7 Q92PI7 2.1 X-RAY DIFFRACTION 131 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 290 290 TENLYFQSTTIAFIGFGEAAQSIAGGLGGRNAARLAAYDLRFNDPAASGALRARAAELGVEPLDDVAGIACADVVLSLVVGAATKAVAASAAPHLSDEAVFIDLNSVGPDTKALAAGAIATGKGSFVEGAVARVPPYAEKVPILVAGRRAVEVAERLNALGNLEAVGETPGQASSLKIRSVIKGVEALLIEALSSAERAGVTERILDSVQETFPGLDWRDVADYYLSRTFEHGARRVTETEAAETIESFGLNAPSRAACETIAAAHAAKDQGLSVNDGYRGFVPVLARRL TENLYFQSTTIAFIGFGEAAQSIAGGLGGRNAARLAAYDLRFNDPAASGALRARAAELGVEPLDDVAGIACADVVLSLVVGAATKAVAASAAPHLSDEAVFIDLNSVGPDTKALAAGAIATGKGSFVEGAVARVPPYAEKVPILVAGRRAVEVAERLNALGNLEAVGETPGQASSLKIRSVIKGVEALLIEALSSAERAGVTERILDSVQETFPGLDWRDVADYYLSRTFEHGARRVTETEAAETIESFGLNAPSRAACETIAAAHAAKDQGLSVNDGYRGFVPVLARRL 4ezc-a1-m1-cB_4ezc-a1-m1-cC Crystal Structure of the UT-B Urea Transporter from Bos Taurus Q5QF96 Q5QF96 2.36 X-RAY DIFFRACTION 78 1.0 9913 (Bos taurus) 9913 (Bos taurus) 346 346 4ezc-a1-m1-cA_4ezc-a1-m1-cB 4ezc-a1-m1-cA_4ezc-a1-m1-cC 4ezd-a1-m1-cA_4ezd-a1-m1-cB 4ezd-a1-m1-cA_4ezd-a1-m1-cC 4ezd-a1-m1-cB_4ezd-a1-m1-cC GYITGDMKEFANWLKDKPQALQFVDWVLRGISQVVFVSNPISGILILVGLLVQNPWCALNGCVGTVVSTLTALLLSQDRSAITAGLQGYNATLVGILMAIYSDKGNYFWWLLFPVSAMSMTCPVFSSALNSVLSKWDLPVFTLPFNMALSMYLSATGHYNPFFPSTLITPVTSVPNVTWPDLSALQLLKSLPVGVGQIYGCDNPWTGGIFLGAILLSSPLMCLHAAIGSLLGIIAGLSLSAPFEDIYAGLWGFNSSLACIAIGGTFMALTWQTHLLALACALFTAYLGASMSHVMAVVGLPSGTWPFCLATLLFLLLTTKNPNIYKMPISKVTYPEENRIFYLQSR GYITGDMKEFANWLKDKPQALQFVDWVLRGISQVVFVSNPISGILILVGLLVQNPWCALNGCVGTVVSTLTALLLSQDRSAITAGLQGYNATLVGILMAIYSDKGNYFWWLLFPVSAMSMTCPVFSSALNSVLSKWDLPVFTLPFNMALSMYLSATGHYNPFFPSTLITPVTSVPNVTWPDLSALQLLKSLPVGVGQIYGCDNPWTGGIFLGAILLSSPLMCLHAAIGSLLGIIAGLSLSAPFEDIYAGLWGFNSSLACIAIGGTFMALTWQTHLLALACALFTAYLGASMSHVMAVVGLPSGTWPFCLATLLFLLLTTKNPNIYKMPISKVTYPEENRIFYLQSR 4ezg-a1-m1-cB_4ezg-a1-m1-cA Crystal structure of a putative cell adhesion protein (LMOf2365_1307) from Listeria monocytogenes str. 4b F2365 at 1.50 A resolution 1.5 X-RAY DIFFRACTION 47 1.0 176281 (Listeria monocytogenes ATCC 19115) 176281 (Listeria monocytogenes ATCC 19115) 179 182 ASQDNVNIPDSTFKAYLNGLLGQSSTANITEAQNSLTYITLANINVTDLTGIEYAHNIKDLTINNIHATNYNPISGLSNLERLRIGKDVTSDKIPNLSGLTSLTLLDISHSAHDDSILTKINTLPKVNSIDLSYNGAITDIPLKTLPELKSLNIQFDGVHDYRGIEDFPKLNQLYAFSQ GLKASQDNVNIPDSTFKAYLNGLLGQSSTANITEAQNSLTYITLANINVTDLTGIEYAHNIKDLTINNIHATNYNPISGLSNLERLRIGKDVTSDKIPNLSGLTSLTLLDISHSAHDDSILTKINTLPKVNSIDLSYNGAITDIPLKTLPELKSLNIQFDGVHDYRGIEDFPKLNQLYAFSQ 4f07-a5-m1-cI_4f07-a5-m1-cJ Structure of the Styrene Monooxygenase Flavin Reductase (SMOB) from Pseudomonas putida S12 O33495 O33495 2.3 X-RAY DIFFRACTION 182 0.994 198931 (Pseudomonas sp. Y2) 198931 (Pseudomonas sp. Y2) 155 155 4f07-a1-m1-cA_4f07-a1-m1-cD 4f07-a2-m1-cC_4f07-a2-m1-cB 4f07-a3-m1-cE_4f07-a3-m1-cF 4f07-a4-m1-cG_4f07-a4-m1-cH 4f07-a6-m1-cL_4f07-a6-m1-cK NFRQAVALFATGIAVLSAETEEGDVHGMTVNSFTSISLDPPTVMVSLKSGRMHELLTQGGRFGVSLLGESQKVFSAFFSKRAMDDTPPPAFTIQAGLPTLQGAMAWFECEVESTVQVHDHTLFIARVSACGTPEANTPQPLLFFASRYHGNPLPL TNFRQAVALFATGIAVLSAETEEGDVHGMTVNSFTSISLDPPTVMVSLKSGRMHELLTQGGRFGVSLLGESQKVFSAFFSKRAMDDTPPPAFTIQAGLPTLQGAMAWFECEVESTVQVHDHTLFIARVSACGTPEANPQPLLFFASRYHGNPLPL 4f0b-a1-m1-cA_4f0b-a1-m1-cB Crystal structure of the glutathione transferase URE2P1 from Phanerochaete chrysosporium. I7A570 I7A570 1.45 X-RAY DIFFRACTION 103 1.0 220 220 TDKPVVHYTAPTPNGWVPAILLEELKAVYGGPDYETVKMSIRDADIGKVHNQVKSDWFLKICPNGRIPAITHEGFPVFETSAILLYLAQHFDKENAFSRDPVKDPKGYSEELQWLFFAHGGIGPMQGQANHFNLYAPEKIPYAINRYLNESKRLYRVLDDRLKGREYILGTYGIADIKIFGWARIAPRTGLDLDEFPNVKAWVERIEKRPAVQAGINSCN TDKPVVHYTAPTPNGWVPAILLEELKAVYGGPDYETVKMSIRDADIGKVHNQVKSDWFLKICPNGRIPAITHEGFPVFETSAILLYLAQHFDKENAFSRDPVKDPKGYSEELQWLFFAHGGIGPMQGQANHFNLYAPEKIPYAINRYLNESKRLYRVLDDRLKGREYILGTYGIADIKIFGWARIAPRTGLDLDEFPNVKAWVERIEKRPAVQAGINSCN 4f0c-a1-m1-cA_4f0c-a1-m2-cA Crystal structure of the glutathione transferase URE2P5 from Phanerochaete chrysosporium I7B368 I7B368 1.901 X-RAY DIFFRACTION 79 1.0 228 228 5o00-a1-m1-cA_5o00-a1-m2-cA SHGKQFTLFNHQVGPNGWKVDMLLRELGLSFETVYVNLGQREHKSPSFTKYNPNGRIPALIDHYYNDFVVWESDAILLYIVEKYDPEHKFSVSTFDDKIIMTQWLFFQASGQGPYFGQAGWFLAVAPPEERNPTIAERYQKEILRVFGVLESVLSQRQWLVADKLTIADISFVIWNATAVNLLVKGYKGFDFEKDFPSVHRWHTALITRPAIAESLKTKAEAIAQMNR SHGKQFTLFNHQVGPNGWKVDMLLRELGLSFETVYVNLGQREHKSPSFTKYNPNGRIPALIDHYYNDFVVWESDAILLYIVEKYDPEHKFSVSTFDDKIIMTQWLFFQASGQGPYFGQAGWFLAVAPPEERNPTIAERYQKEILRVFGVLESVLSQRQWLVADKLTIADISFVIWNATAVNLLVKGYKGFDFEKDFPSVHRWHTALITRPAIAESLKTKAEAIAQMNR 4f0h-a1-m6-cB_4f0h-a1-m8-cB UNACTIVATED RUBISCO with OXYGEN BOUND P23756 P23756 1.96 X-RAY DIFFRACTION 33 1.0 130081 (Galdieria sulphuraria) 130081 (Galdieria sulphuraria) 138 138 4f0h-a1-m1-cB_4f0h-a1-m3-cB 4f0h-a1-m1-cB_4f0h-a1-m4-cB 4f0h-a1-m2-cB_4f0h-a1-m3-cB 4f0h-a1-m2-cB_4f0h-a1-m4-cB 4f0h-a1-m5-cB_4f0h-a1-m7-cB 4f0h-a1-m5-cB_4f0h-a1-m8-cB 4f0h-a1-m6-cB_4f0h-a1-m7-cB 4f0k-a1-m1-cB_4f0k-a1-m3-cB 4f0k-a1-m1-cB_4f0k-a1-m4-cB 4f0k-a1-m2-cB_4f0k-a1-m3-cB 4f0k-a1-m2-cB_4f0k-a1-m4-cB 4f0k-a1-m5-cB_4f0k-a1-m7-cB 4f0k-a1-m5-cB_4f0k-a1-m8-cB 4f0k-a1-m6-cB_4f0k-a1-m7-cB 4f0k-a1-m6-cB_4f0k-a1-m8-cB 4f0m-a1-m1-cB_4f0m-a1-m3-cB 4f0m-a1-m1-cB_4f0m-a1-m4-cB 4f0m-a1-m2-cB_4f0m-a1-m3-cB 4f0m-a1-m2-cB_4f0m-a1-m4-cB 4f0m-a1-m5-cB_4f0m-a1-m7-cB 4f0m-a1-m5-cB_4f0m-a1-m8-cB 4f0m-a1-m6-cB_4f0m-a1-m7-cB 4f0m-a1-m6-cB_4f0m-a1-m8-cB MRITQGTFSFLPDLTDEQIKKQIDYMISKKLAIGIEYTNDIHPRNSFWEMWGLPLFEVTDPAPVLFEINACRKAKSNFYIKVVGFSSERGIESTIISFIVNRPKHEPGFNLIRQEDKSRSIKYSIQAYETYKPEDQRY MRITQGTFSFLPDLTDEQIKKQIDYMISKKLAIGIEYTNDIHPRNSFWEMWGLPLFEVTDPAPVLFEINACRKAKSNFYIKVVGFSSERGIESTIISFIVNRPKHEPGFNLIRQEDKSRSIKYSIQAYETYKPEDQRY 4f0j-a2-m1-cA_4f0j-a2-m2-cA Crystal structure of a probable hydrolytic enzyme (PA3053) from Pseudomonas aeruginosa PAO1 at 1.50 A resolution Q9HZF5 Q9HZF5 1.5 X-RAY DIFFRACTION 61 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 304 304 SQAPVYGERLEGFDYAYPVHYLDFTSQGQPLSAYLDVAPKKANGRTILLHGKNFCAGTWERTIDVLADAGYRVIAVDQVGFCKSSKPAHYQYSFQQLAANTHALLERLGVARASVIGHSGGLATRYALLYPRQVERLVLVNPIGLEDWKALGVPWRSVDDWYRRDLQTSAEGIRQYQQATYYAGEWRPEFDRWVQQAGYRGKGRESVAWNSALTYDIFTQPVVYELDRLQPTLLLIGEKDNTAIGKDAAPAELKARLGNYAQLGKDAARRIPQATLVEFPDLGHTPQIQAPERFHQALLEGLQT SQAPVYGERLEGFDYAYPVHYLDFTSQGQPLSAYLDVAPKKANGRTILLHGKNFCAGTWERTIDVLADAGYRVIAVDQVGFCKSSKPAHYQYSFQQLAANTHALLERLGVARASVIGHSGGLATRYALLYPRQVERLVLVNPIGLEDWKALGVPWRSVDDWYRRDLQTSAEGIRQYQQATYYAGEWRPEFDRWVQQAGYRGKGRESVAWNSALTYDIFTQPVVYELDRLQPTLLLIGEKDNTAIGKDAAPAELKARLGNYAQLGKDAARRIPQATLVEFPDLGHTPQIQAPERFHQALLEGLQT 4f0l-a1-m1-cA_4f0l-a1-m1-cB Crystal structure of Amidohydrolase from Brucella melitensis Q2YIL4 Q2YIL4 2.05 X-RAY DIFFRACTION 174 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 448 449 QHFIHARQALLPDGWAENVRIGIAGGVICSIETGVLAGPDDERQSVVVAGMANLHSHAFQYGMAGLAERRGPSADSFWSWREIMYKFALTMTPEQAEAVALRLYVDMLEAGFTRVGEFHYLHHDCDGTPYANLSEMADRIAAAATTAGMGLTLLPVFYAHSGFGGAAANEGQRRFINDPERFARLIEGCRKTLEGFEGAVLGVAPHSLRAVTPDELDSVTQLLPDAPVHIHVAEQVKEVEDCIAWSGKRPVEWLLDHQDVTARWCLIHATHMSDEETKHMAKAGAIAGLCPVTEANLGDGTFNATEFAAAGGKFGIGSDSNVLIGIGDELRQLEYSQRLYHRARNVLAANEGSTGRALFDGAVLGGNIAMGRPEDGLKKGASADFVSLDVERLPHAKGDVVLDGWIFAGRAHVCDVWVRGVKQVEGGRHRLRDEAERAFQKALGELLA SQHFIHARQALLPDGWAENVRIGIAGGVICSIETGVLAGPDDERQSVVVAGMANLHSHAFQYGMAGLAERRGPSADSFWSWREIMYKFALTMTPEQAEAVALRLYVDMLEAGFTRVGEFHYLHHDCDGTPYANLSEMADRIAAAATTAGMGLTLLPVFYAHSGFGGAAANEGQRRFINDPERFARLIEGCRKTLEGFEGAVLGVAPHSLRAVTPDELDSVTQLLPDAPVHIHVAEQVKEVEDCIAWSGKRPVEWLLDHQDVTARWCLIHATHMSDEETKHMAKAGAIAGLCPVTEANLGDGTFNATEFAAAGGKFGIGSDSNVLIGIGDELRQLEYSQRLYHRARNVLAANEGSTGRALFDGAVLGGNIAMGRPEDGLKKGASADFVSLDVERLPHAKGDVVLDGWIFAGRAHVCDVWVRGVKQVEGGRHRLRDEAERAFQKALGELLA 4f0q-a1-m1-cA_4f0q-a1-m1-cB MspJI Restriction Endonuclease - P21 Form A0A0J9X157 A0A0J9X157 2.046 X-RAY DIFFRACTION 253 1.0 164757 (Mycobacterium sp. JLS) 164757 (Mycobacterium sp. JLS) 452 452 4f0p-a1-m1-cA_4f0p-a1-m1-cB 4r28-a1-m1-cB_4r28-a1-m1-cA KADIAWAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL KADIAWAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL 4f0q-a1-m1-cC_4f0q-a1-m1-cB MspJI Restriction Endonuclease - P21 Form A0A0J9X157 A0A0J9X157 2.046 X-RAY DIFFRACTION 61 1.0 164757 (Mycobacterium sp. JLS) 164757 (Mycobacterium sp. JLS) 449 452 4f0p-a1-m1-cB_4f0p-a1-m1-cD 4f0p-a1-m1-cC_4f0p-a1-m1-cA 4f0q-a1-m1-cD_4f0q-a1-m1-cA 4r28-a1-m1-cA_4r28-a1-m1-cD 4r28-a1-m1-cB_4r28-a1-m1-cC IAWAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL KADIAWAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL 4f0q-a1-m1-cD_4f0q-a1-m1-cB MspJI Restriction Endonuclease - P21 Form A0A0J9X157 A0A0J9X157 2.046 X-RAY DIFFRACTION 43 1.0 164757 (Mycobacterium sp. JLS) 164757 (Mycobacterium sp. JLS) 447 452 4f0p-a1-m1-cA_4f0p-a1-m1-cD 4f0p-a1-m1-cC_4f0p-a1-m1-cB 4f0q-a1-m1-cC_4f0q-a1-m1-cA 4r28-a1-m1-cA_4r28-a1-m1-cC 4r28-a1-m1-cB_4r28-a1-m1-cD WAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL KADIAWAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL 4f0q-a1-m1-cD_4f0q-a1-m1-cC MspJI Restriction Endonuclease - P21 Form A0A0J9X157 A0A0J9X157 2.046 X-RAY DIFFRACTION 162 1.0 164757 (Mycobacterium sp. JLS) 164757 (Mycobacterium sp. JLS) 447 449 4f0p-a1-m1-cC_4f0p-a1-m1-cD 4r28-a1-m1-cC_4r28-a1-m1-cD WAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL IAWAASAEVANKPRLVFVGDELRYAQGANQRDVELDGFVNYHWLTSPGGLGLPKVMLEAGINAPAEVVGPDRSRRALIAIRSSPWKAGHETNPWHDEFDLDHGHVRYFGDHKPSTVGLPGETKGNRLLLEAARLHAGTTREERLLAPPLFLFRAVTVHRAGRAVVKGHVEFCGAAIIERLEHVVQRDPETGRSFPNLSLDLAVVSGGEIDGVDFRWIDDRRNAALAAGETLRHAPESWIRWVRQGRLAIPGIRRRVLASAVQSSKEQQPASGSAEAATLQTLYKFYDGRKHAFELLASRVAAEVFRESGARYKEGWLSRSSGDGGVDFIGRIDMGSLKASTPVVVLGQAKCIQPTSSVSPEQVARVVARLRRGWIGVYVTTGSFSRQAQVEIIDDQYPVVLIAGGTLAATVRRMVQANYGGDLDALLASTVDEYGAAVTHRRPEEVISL 4f0r-a1-m1-cA_4f0r-a1-m2-cA Crystal structure of an adenosine deaminase homolog from Chromobacterium violaceum (target NYSGRC-019589) bound Zn and 5'-Methylthioadenosine (unproductive complex) Q7NZ90 Q7NZ90 1.8 X-RAY DIFFRACTION 193 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 421 421 4f0s-a1-m1-cA_4f0s-a1-m2-cA RYEKIISARWIITVETDGEVLENHAIAIRDGKIAAIIPAADAAGLEADERLELPDHVLPGLINLHGHSASLLRGLADDKALDWLTNYIWPTEGKHVHDDFVFDGSLLAGEIRGGTTTINDYFYNAAVARAGLASGRTFVGCSILEFPTNYASNADDYIAKGAERSQFLGEDLLTFTLAPHAPYTVSDDTFRKVVTLAEQEDLIHCHIHETADEVNNSVKEHGQRPLARLQRLGLLSPRLVAAHVHLNDAEVELAARHGLSTAHNPASNKLASGISPVSKLDAGVAVGIGTDGAASNNKLDLAETRLAALLAKVGTLDPTSVPAAAAIRATLNGARALGIADKVGSVKVGKQADLIALDLAQLETAPAFDPISHVVYAAGREQVSHVWVKGRALRERKLTTLDESDLKARAGDWRNRILAKE RYEKIISARWIITVETDGEVLENHAIAIRDGKIAAIIPAADAAGLEADERLELPDHVLPGLINLHGHSASLLRGLADDKALDWLTNYIWPTEGKHVHDDFVFDGSLLAGEIRGGTTTINDYFYNAAVARAGLASGRTFVGCSILEFPTNYASNADDYIAKGAERSQFLGEDLLTFTLAPHAPYTVSDDTFRKVVTLAEQEDLIHCHIHETADEVNNSVKEHGQRPLARLQRLGLLSPRLVAAHVHLNDAEVELAARHGLSTAHNPASNKLASGISPVSKLDAGVAVGIGTDGAASNNKLDLAETRLAALLAKVGTLDPTSVPAAAAIRATLNGARALGIADKVGSVKVGKQADLIALDLAQLETAPAFDPISHVVYAAGREQVSHVWVKGRALRERKLTTLDESDLKARAGDWRNRILAKE 4f0x-a1-m1-cD_4f0x-a1-m1-cA Crystal structure of human Malonyl-CoA Decarboxylase (Peroxisomal Isoform) O95822 O95822 3.29 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 445 456 4f0x-a1-m1-cB_4f0x-a1-m1-cC 4f0x-a2-m1-cE_4f0x-a2-m1-cH 4f0x-a2-m1-cG_4f0x-a2-m1-cF GAMDELLRRAVPPTPAYELREAEGQCADFVSFYGGLAETAQRAELLGRLARGFGVDHGQVAEQSAGVLHLRQQQREAAVLLQAEDRLRYALVPRYRGLFHHISKLDGGVRFLVQLRADLLEAQALKLVEGPDVREMNGVLKGMLSEWFSSGFLNLERVTWHSPCEVLQKISEAEAVHPVKNWMDMKRRVGPYRRCYFFSHCSTPGEPLVVLHVALTGDISSNIQAIVKEHPPSETEEKNKITAAIFYSISLTQQGLQGVELGTFLIKRVVKELQREFPHLGVFSSLSPIPGFTKWLLGLLNSQTKNELFTDSECKEISEITGGPINETLKLLLSSSEWVQSEKLVRALQTPLMRLCAWYLYGEKHRGYALNPVANFHLQNGAVLWRINWMADVSLRGITGSCGLMANYRYFLEETGPNSTSYLGSKIIKASEQVLSLVAQFQKNS GAMDELLRRAVPPTPAYELREKTPAPAEGQCADFVSFYGGLAETAQRAELLGRLARGFGVDHGQVAEQSAGVLHLRQQQREAAVLLQAEDRLRYALVPRYRGLFHHISKLDGGVRFLVQLRADLLEAQALKLVEGPDVREMNGVLKGMLSEWFSSGFLNLERVTWHSPCEVLQKISEAEAVHPVKNWMDMKRRVGPYRRCYFFSHCSTPGEPLVVLHVALTGDISSNIQAIVKEHPPSETEEKNKITAAIFYSISLTQQGLQGVELGTFLIKRVVKELQREFPHLGVFSSLSPIPGFTKWLLGLLNSQTKEHGRNELFTDSECKEISEITGGPINETLKLLLSSSEWVQSEKLVRALQTPLMRLCAWYLYGEKHRGYALNPVANFHLQNGAVLWRINWMADVSLRGITGSCGLMANYRYFLEETGPNSTSYLGSKIIKASEQVLSLVAQFQKNSKL 4f0x-a2-m1-cG_4f0x-a2-m1-cH Crystal structure of human Malonyl-CoA Decarboxylase (Peroxisomal Isoform) O95822 O95822 3.29 X-RAY DIFFRACTION 112 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 442 446 2ygw-a1-m1-cB_2ygw-a1-m1-cA 4f0x-a1-m1-cB_4f0x-a1-m1-cA 4f0x-a1-m1-cD_4f0x-a1-m1-cC 4f0x-a2-m1-cE_4f0x-a2-m1-cF GAMDELLRRAVPPTPAYELREAEGQCADFVSFYGGLAETAQRAELLGRLARGFGVDHGQVAEQSAGVLHLRQQQREAAVLLQAEDRLRYALVPRYRGLFHHISKLDGGVRFLVQLRADLLEAQALKLVEGPDVREMNGVLKGMLSEWFSSGFLNLERVTWHSPCEVLQKISEAEAVHPVKNWMDMKRRVGPYRRCYFFSHCSTPGEPLVVLHVALTGDISSNIQAIVKEHPPSETEEKNKITAAIFYSISLTQQGLQGVELGTFLIKRVVKELQREFPHLGVFSSLSPIPGFTKWLLGLLNSQELFTDSECKEISEITGGPINETLKLLLSSSEWVQSEKLVRALQTPLMRLCAWYLYGEKHRGYALNPVANFHLQNGAVLWRINWMADVSLRGITGSCGLMANYRYFLEETGPNSTSYLGSKIIKASEQVLSLVAQFQKNS GAMDELLRRAVPPTPAYELREKTPAPAEGQCADFVSFYGGLAETAQRAELLGRLARGFGVDHGQVAEQSAGVLHLRQQQREAAVLLQAEDRLRYALVPRYRGLFHHISKLDGGVRFLVQLRADLLEAQALKLVEGPDVREMNGVLKGMLSEWFSSGFLNLERVTWHSPCEVLQKISEAEAVHPVKNWMDMKRRVGPYRRCYFFSHCSTPGEPLVVLHVALTGDISSNIQAIVKEHPPSETEEKNKITAAIFYSISLTQQGLQGVELGTFLIKRVVKELQREFPHLGVFSSLSPIPGFTKWLLGLLNSQELFTDSECKEISEITGGPINETLKLLLSSSEWVQSEKLVRALQTPLMRLCAWYLYGEKHRGYALNPVANFHLQNGAVLWRINWMADVSLRGITGSCGLMANYRYFLEETGPNSTSYLGSKIIKASEQVLSLVAQFQKN 4f1e-a8-m1-cO_4f1e-a8-m1-cP The Crystal Structure of a Human MitoNEET mutant with Asp 67 replaced by a Gly Q9NZ45 Q9NZ45 2.4 X-RAY DIFFRACTION 105 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 62 63 2qd0-a1-m1-cA_2qd0-a1-m1-cB 2qh7-a1-m1-cA_2qh7-a1-m1-cB 2r13-a1-m1-cA_2r13-a1-m2-cA 3lpq-a1-m1-cB_3lpq-a1-m1-cA 3ree-a1-m1-cA_3ree-a1-m2-cA 4ezf-a1-m1-cB_4ezf-a1-m1-cA 4f1e-a1-m1-cA_4f1e-a1-m1-cB 4f1e-a2-m1-cD_4f1e-a2-m1-cC 4f1e-a3-m1-cE_4f1e-a3-m1-cF 4f1e-a4-m1-cG_4f1e-a4-m1-cH 4f1e-a5-m1-cI_4f1e-a5-m1-cJ 4f1e-a6-m1-cL_4f1e-a6-m1-cK 4f1e-a7-m1-cM_4f1e-a7-m1-cN 4f1e-a9-m1-cQ_4f1e-a9-m1-cR 4f28-a1-m1-cA_4f28-a1-m1-cB 4f2c-a1-m1-cB_4f2c-a1-m1-cA 6de9-a1-m1-cA_6de9-a1-m2-cA 7p0o-a1-m1-cA_7p0o-a1-m1-cB NLHIQKDNPKIVHAFDMEDLGGKAVYCRCWRSKKFPFCDGAHTKHNEETGDNVGPLIIKKKE MINLHIQKDNPKIVHAFDMEDLGGKAVYCRCWRSKKFPFCDGAHTKHNEETGDNVGPLIIKKK 4f1h-a1-m1-cA_4f1h-a1-m1-cB Crystal structure of TDP2 from Danio rerio complexed with a single strand DNA Q5XJA0 Q5XJA0 1.662 X-RAY DIFFRACTION 39 1.0 7955 (Danio rerio) 7955 (Danio rerio) 250 251 4fpv-a1-m1-cA_4fpv-a1-m1-cB DSKLSIISWNVDGLDTLNLADRARGLCSYLALYTPDVVFLQELIPAYVQYLKKRAVSYLFFEGSDDGYFTGIMLRKSRVKFLESEIICFPTTQMMRNLLIAQVTFSGQKLYLMTSHLESCKNQSQERTKQLRVVLQKIKEAPEDAIVIFAGDTNLRDAEVANVGGLPAGVCDVWEQLGKQEHCRYTWDTKANSNKTVPYVSRCRFDRIFLRSAKTAPPVTPDHMALIGMEKLDCGRYTSDHWGIYCTFNT EDSKLSIISWNVDGLDTLNLADRARGLCSYLALYTPDVVFLQELIPAYVQYLKKRAVSYLFFEGSDDGYFTGIMLRKSRVKFLESEIICFPTTQMMRNLLIAQVTFSGQKLYLMTSHLESCKNQSQERTKQLRVVLQKIKEAPEDAIVIFAGDTNLRDAEVANVGGLPAGVCDVWEQLGKQEHCRYTWDTKANSNKTVPYVSRCRFDRIFLRSAKTAPPVTPDHMALIGMEKLDCGRYTSDHWGIYCTFNT 4f1l-a6-m1-cB_4f1l-a6-m1-cC Human Artd8 (Parp14, Bal2) - catalytic domain in complex with inhibitor A16(Z) Q460N5 Q460N5 1.9 X-RAY DIFFRACTION 58 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 181 187 3se2-a5-m1-cA_3se2-a5-m1-cC 3se2-a6-m1-cB_3se2-a6-m1-cD 3smj-a3-m1-cB_3smj-a3-m1-cA 4f1l-a5-m1-cD_4f1l-a5-m1-cA 4f1q-a3-m1-cB_4f1q-a3-m1-cA 5lxp-a1-m1-cB_5lxp-a1-m1-cA 6g0w-a1-m1-cB_6g0w-a1-m1-cA KQQNFCVVELLPSDPEYNTVASKFNQTCSHFRIEKIERIQNPDLWNSYQAKKKTMDAKNGQTMNEKQLFHGTDAGSVPHVNRNGFNRSYGKGTYFAVNANYSANDTYSRPDANGRKHVYYVRVLTGIYTHGNHSLIVPPSKNPQNPTDLYDTVTDNVHHPSLFVAFYDYQAYPEYLITFRK QNFCVVELLPSDPEYNTVASKFNQTCSHFRIEKIERIQNPDLWNSYQAKKKTMDAKNGQTMNEKQLFHGTDAGSVPHVNRNGFNRSYAGKNAVAYGKGTYFAVNANYSANDTYSRPDANGRKHVYYVRVLTGIYTHGNHSLIVPPSKNPQNPTDLYDTVTDNVHHPSLFVAFYDYQAYPEYLITFRK 4f23-a1-m1-cB_4f23-a1-m1-cC Influenza A virus hemagglutinin H16 HA0 structure with an alpha-helix conformation in the cleavage site: a potential drug target Q5DL24 Q5DL24 1.7 X-RAY DIFFRACTION 108 1.0 304362 (Influenza A virus (A/black-headed gull/Sweden/2/99(H16N3))) 304362 (Influenza A virus (A/black-headed gull/Sweden/2/99(H16N3))) 509 509 4f23-a1-m1-cA_4f23-a1-m1-cB 4f23-a1-m1-cA_4f23-a1-m1-cC 4fiu-a1-m1-cA_4fiu-a1-m1-cB 4fiu-a1-m1-cA_4fiu-a1-m1-cC 4fiu-a1-m1-cB_4fiu-a1-m1-cC ADGIQDKICIGYLSNNSTDTVDTLTENGVPVTSSIDLVETNHTGTYCSLNGVSPIHLGDCSFEGWIVGNPSCASNINIREWSYLIEDPNAPHKLCFPGEVDNNGELRHLFSGVNSFSRTELIPPSKWGDILEGTTASCQNRGANSFYRNLIWLVNKLNKYPVVKGEYNNTTGRDVLVLWGIHHPDTEATANKLYVNKNPYTLVSTKEWSRRYELEIGTRIGDGQRSWMKIYWHLMHPGERITFESSGGLLAPRYGYIIEKYGTGRIFQSGVRLAKCNTKCQTSMGGINTNKTFQNIERNALGDCPKYIKSGQLKLATGLRNVPSIVERGLFGAIAGFIEGGWPGLINGWYGFQHQNEQGTGIAADKTSTQKAINEITTKINNIIEKMNGNYDSIRGEFNQVEKRINMIADRVDDAVTDIWSYNAKLLVLIENDRTLDLHDANVRNLHEQIKRALKDNAIDEGDGCFSILHKCNDSCMETIRNGTYNHEDYKEESQLKRQEIEGIRLVPR ADGIQDKICIGYLSNNSTDTVDTLTENGVPVTSSIDLVETNHTGTYCSLNGVSPIHLGDCSFEGWIVGNPSCASNINIREWSYLIEDPNAPHKLCFPGEVDNNGELRHLFSGVNSFSRTELIPPSKWGDILEGTTASCQNRGANSFYRNLIWLVNKLNKYPVVKGEYNNTTGRDVLVLWGIHHPDTEATANKLYVNKNPYTLVSTKEWSRRYELEIGTRIGDGQRSWMKIYWHLMHPGERITFESSGGLLAPRYGYIIEKYGTGRIFQSGVRLAKCNTKCQTSMGGINTNKTFQNIERNALGDCPKYIKSGQLKLATGLRNVPSIVERGLFGAIAGFIEGGWPGLINGWYGFQHQNEQGTGIAADKTSTQKAINEITTKINNIIEKMNGNYDSIRGEFNQVEKRINMIADRVDDAVTDIWSYNAKLLVLIENDRTLDLHDANVRNLHEQIKRALKDNAIDEGDGCFSILHKCNDSCMETIRNGTYNHEDYKEESQLKRQEIEGIRLVPR 4f2d-a1-m1-cA_4f2d-a1-m2-cB Crystal Structure of Escherichia coli L-arabinose Isomerase (ECAI) complexed with Ribitol P08202 P08202 2.3 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 481 481 2ajt-a1-m1-cA_2ajt-a1-m2-cB 2ajt-a1-m1-cB_2ajt-a1-m2-cA 2ajt-a1-m1-cC_2ajt-a1-m2-cC 2hxg-a1-m1-cA_2hxg-a1-m2-cB 2hxg-a1-m1-cB_2hxg-a1-m2-cA 2hxg-a1-m1-cC_2hxg-a1-m2-cC 4f2d-a1-m1-cB_4f2d-a1-m2-cA 4f2d-a1-m1-cC_4f2d-a1-m2-cC TIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKWINGLTLNKPLLQFHTQFNAALPWDSIDDFNLNQTAHGGREFGFIGARRQQHAVVTGHWQDKQAHERIGSWRQAVSKQDTRHLKVCRFGDNREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTTPATQIHGEKRQNVLEAARIELGKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLQQGYGFAGEGDWKTAALLRIKVSTGLQGGTSFEDYTYHFEKGNDLVLGSHLEVCPSIAVEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDRQFAEHDIEITVIDNDTRLPAFKDALRWNEVYYGF TIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKWINGLTLNKPLLQFHTQFNAALPWDSIDDFNLNQTAHGGREFGFIGARRQQHAVVTGHWQDKQAHERIGSWRQAVSKQDTRHLKVCRFGDNREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTTPATQIHGEKRQNVLEAARIELGKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLQQGYGFAGEGDWKTAALLRIKVSTGLQGGTSFEDYTYHFEKGNDLVLGSHLEVCPSIAVEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDRQFAEHDIEITVIDNDTRLPAFKDALRWNEVYYGF 4f2d-a1-m1-cA_4f2d-a1-m2-cC Crystal Structure of Escherichia coli L-arabinose Isomerase (ECAI) complexed with Ribitol P08202 P08202 2.3 X-RAY DIFFRACTION 44 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 481 481 2ajt-a1-m1-cA_2ajt-a1-m2-cC 2ajt-a1-m1-cB_2ajt-a1-m2-cB 2ajt-a1-m1-cC_2ajt-a1-m2-cA 2hxg-a1-m1-cA_2hxg-a1-m2-cC 2hxg-a1-m1-cB_2hxg-a1-m2-cB 2hxg-a1-m1-cC_2hxg-a1-m2-cA 4f2d-a1-m1-cB_4f2d-a1-m2-cB 4f2d-a1-m1-cC_4f2d-a1-m2-cA TIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKWINGLTLNKPLLQFHTQFNAALPWDSIDDFNLNQTAHGGREFGFIGARRQQHAVVTGHWQDKQAHERIGSWRQAVSKQDTRHLKVCRFGDNREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTTPATQIHGEKRQNVLEAARIELGKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLQQGYGFAGEGDWKTAALLRIKVSTGLQGGTSFEDYTYHFEKGNDLVLGSHLEVCPSIAVEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDRQFAEHDIEITVIDNDTRLPAFKDALRWNEVYYGF TIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKWINGLTLNKPLLQFHTQFNAALPWDSIDDFNLNQTAHGGREFGFIGARRQQHAVVTGHWQDKQAHERIGSWRQAVSKQDTRHLKVCRFGDNREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTTPATQIHGEKRQNVLEAARIELGKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLQQGYGFAGEGDWKTAALLRIKVSTGLQGGTSFEDYTYHFEKGNDLVLGSHLEVCPSIAVEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDRQFAEHDIEITVIDNDTRLPAFKDALRWNEVYYGF 4f2d-a2-m1-cA_4f2d-a2-m1-cC Crystal Structure of Escherichia coli L-arabinose Isomerase (ECAI) complexed with Ribitol P08202 P08202 2.3 X-RAY DIFFRACTION 125 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 481 481 2ajt-a1-m1-cA_2ajt-a1-m1-cB 2ajt-a1-m1-cA_2ajt-a1-m1-cC 2ajt-a1-m1-cB_2ajt-a1-m1-cC 2ajt-a1-m2-cA_2ajt-a1-m2-cB 2ajt-a1-m2-cA_2ajt-a1-m2-cC 2ajt-a1-m2-cB_2ajt-a1-m2-cC 2hxg-a1-m1-cA_2hxg-a1-m1-cB 2hxg-a1-m1-cA_2hxg-a1-m1-cC 2hxg-a1-m1-cB_2hxg-a1-m1-cC 2hxg-a1-m2-cA_2hxg-a1-m2-cB 2hxg-a1-m2-cA_2hxg-a1-m2-cC 2hxg-a1-m2-cB_2hxg-a1-m2-cC 4f2d-a1-m1-cA_4f2d-a1-m1-cB 4f2d-a1-m1-cA_4f2d-a1-m1-cC 4f2d-a1-m1-cB_4f2d-a1-m1-cC 4f2d-a1-m2-cA_4f2d-a1-m2-cB 4f2d-a1-m2-cA_4f2d-a1-m2-cC 4f2d-a1-m2-cB_4f2d-a1-m2-cC 4f2d-a2-m1-cA_4f2d-a2-m1-cB 4f2d-a2-m1-cB_4f2d-a2-m1-cC TIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKWINGLTLNKPLLQFHTQFNAALPWDSIDDFNLNQTAHGGREFGFIGARRQQHAVVTGHWQDKQAHERIGSWRQAVSKQDTRHLKVCRFGDNREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTTPATQIHGEKRQNVLEAARIELGKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLQQGYGFAGEGDWKTAALLRIKVSTGLQGGTSFEDYTYHFEKGNDLVLGSHLEVCPSIAVEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDRQFAEHDIEITVIDNDTRLPAFKDALRWNEVYYGF TIFDNYEVWFVIGSQHLYGPETLRQVTQHAEHVVNALNTEAKLPCKLVLKPLGTTPDEITAICRDANYDDRCAGLVVWLHTFSPAKWINGLTLNKPLLQFHTQFNAALPWDSIDDFNLNQTAHGGREFGFIGARRQQHAVVTGHWQDKQAHERIGSWRQAVSKQDTRHLKVCRFGDNREVAVTDGDKVAAQIKFGFSVNTWAVGDLVQVVNSISDGDVNALVDEYESCYTTPATQIHGEKRQNVLEAARIELGKRFLEQGGFHAFTTTFEDLHGLKQLPGLAVQRLQQGYGFAGEGDWKTAALLRIKVSTGLQGGTSFEDYTYHFEKGNDLVLGSHLEVCPSIAVEEKPILDVQHLGIGGKDDPARLIFNTQTGPAIVASLIDLGDRYRLLVNCIDTVKTPHSLPKLPVANALWKAQPDLPTASEAWILAGGAHHTVFSHALNLNDRQFAEHDIEITVIDNDTRLPAFKDALRWNEVYYGF 4f2g-a2-m3-cA_4f2g-a2-m6-cA The Crystal Structure of Ornithine carbamoyltransferase from Burkholderia thailandensis E264 Q2T0L1 Q2T0L1 2.1 X-RAY DIFFRACTION 13 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 290 290 4f2g-a1-m1-cA_4f2g-a1-m2-cA 4f2g-a2-m1-cA_4f2g-a2-m2-cA 4f2g-a2-m4-cA_4f2g-a2-m5-cA IRHYLQFKDFSLEDYEYVLERTGILKRKFKNYETYHPLHDRTLAMIFEKSSTRTRLSFEAGIFQLGGHAVFMSTRDTQLGRGEPVEDSAQVISRMVDIIMIRTFEQDIIQRFAENSRVPVINGLTNEYHPCQVLADIFTYYEHRGPIRGKTVAWVGDANNMLYTWIQAARILDFKLQLSTPPGYALDAKLVDAESAPFYQVFDDPNEACKGADLVTTDVWKRAFADWCVDEEMMSHANSDALFMHCLPAHRGEEVTAGVIDGPQSVVWDEAENRLHVQKALMEFLLLGRL IRHYLQFKDFSLEDYEYVLERTGILKRKFKNYETYHPLHDRTLAMIFEKSSTRTRLSFEAGIFQLGGHAVFMSTRDTQLGRGEPVEDSAQVISRMVDIIMIRTFEQDIIQRFAENSRVPVINGLTNEYHPCQVLADIFTYYEHRGPIRGKTVAWVGDANNMLYTWIQAARILDFKLQLSTPPGYALDAKLVDAESAPFYQVFDDPNEACKGADLVTTDVWKRAFADWCVDEEMMSHANSDALFMHCLPAHRGEEVTAGVIDGPQSVVWDEAENRLHVQKALMEFLLLGRL 4f2g-a3-m3-cA_4f2g-a3-m4-cA The Crystal Structure of Ornithine carbamoyltransferase from Burkholderia thailandensis E264 Q2T0L1 Q2T0L1 2.1 X-RAY DIFFRACTION 51 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 290 290 4f2g-a2-m1-cA_4f2g-a2-m3-cA 4f2g-a2-m1-cA_4f2g-a2-m4-cA 4f2g-a2-m2-cA_4f2g-a2-m5-cA 4f2g-a2-m2-cA_4f2g-a2-m6-cA 4f2g-a2-m3-cA_4f2g-a2-m4-cA 4f2g-a2-m5-cA_4f2g-a2-m6-cA 4f2g-a3-m1-cA_4f2g-a3-m3-cA 4f2g-a3-m1-cA_4f2g-a3-m4-cA IRHYLQFKDFSLEDYEYVLERTGILKRKFKNYETYHPLHDRTLAMIFEKSSTRTRLSFEAGIFQLGGHAVFMSTRDTQLGRGEPVEDSAQVISRMVDIIMIRTFEQDIIQRFAENSRVPVINGLTNEYHPCQVLADIFTYYEHRGPIRGKTVAWVGDANNMLYTWIQAARILDFKLQLSTPPGYALDAKLVDAESAPFYQVFDDPNEACKGADLVTTDVWKRAFADWCVDEEMMSHANSDALFMHCLPAHRGEEVTAGVIDGPQSVVWDEAENRLHVQKALMEFLLLGRL IRHYLQFKDFSLEDYEYVLERTGILKRKFKNYETYHPLHDRTLAMIFEKSSTRTRLSFEAGIFQLGGHAVFMSTRDTQLGRGEPVEDSAQVISRMVDIIMIRTFEQDIIQRFAENSRVPVINGLTNEYHPCQVLADIFTYYEHRGPIRGKTVAWVGDANNMLYTWIQAARILDFKLQLSTPPGYALDAKLVDAESAPFYQVFDDPNEACKGADLVTTDVWKRAFADWCVDEEMMSHANSDALFMHCLPAHRGEEVTAGVIDGPQSVVWDEAENRLHVQKALMEFLLLGRL 4f2h-a2-m1-cA_4f2h-a2-m4-cA Structure of the minimal Ste5 VWA domain subject to autoinhibition by the Ste5 PH domain P32917 P32917 3.192 X-RAY DIFFRACTION 30 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 191 191 4f2h-a2-m2-cA_4f2h-a2-m3-cA STVDSIQSVLTTISSILSLKREKPDNLAIILQIDFTKLKEEDSLIVVYNSLKALTIKFARLQFCFVDRNNYVLDYGSVLHKIDSLDSISNLKSKSSSTQFSPIWLKNTLYPENIHEHLGIVAVSNSNMEAKKSILFQDYRCFTSFGRRRPNELKIKVGYLNVDYSDKIDELVEASSWTFVLETLCYSFGLS STVDSIQSVLTTISSILSLKREKPDNLAIILQIDFTKLKEEDSLIVVYNSLKALTIKFARLQFCFVDRNNYVLDYGSVLHKIDSLDSISNLKSKSSSTQFSPIWLKNTLYPENIHEHLGIVAVSNSNMEAKKSILFQDYRCFTSFGRRRPNELKIKVGYLNVDYSDKIDELVEASSWTFVLETLCYSFGLS 4f2h-a2-m2-cA_4f2h-a2-m4-cA Structure of the minimal Ste5 VWA domain subject to autoinhibition by the Ste5 PH domain P32917 P32917 3.192 X-RAY DIFFRACTION 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 191 191 4f2h-a2-m1-cA_4f2h-a2-m3-cA STVDSIQSVLTTISSILSLKREKPDNLAIILQIDFTKLKEEDSLIVVYNSLKALTIKFARLQFCFVDRNNYVLDYGSVLHKIDSLDSISNLKSKSSSTQFSPIWLKNTLYPENIHEHLGIVAVSNSNMEAKKSILFQDYRCFTSFGRRRPNELKIKVGYLNVDYSDKIDELVEASSWTFVLETLCYSFGLS STVDSIQSVLTTISSILSLKREKPDNLAIILQIDFTKLKEEDSLIVVYNSLKALTIKFARLQFCFVDRNNYVLDYGSVLHKIDSLDSISNLKSKSSSTQFSPIWLKNTLYPENIHEHLGIVAVSNSNMEAKKSILFQDYRCFTSFGRRRPNELKIKVGYLNVDYSDKIDELVEASSWTFVLETLCYSFGLS 4f2h-a2-m3-cA_4f2h-a2-m4-cA Structure of the minimal Ste5 VWA domain subject to autoinhibition by the Ste5 PH domain P32917 P32917 3.192 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 191 191 4f2h-a1-m1-cA_4f2h-a1-m2-cA 4f2h-a2-m1-cA_4f2h-a2-m2-cA STVDSIQSVLTTISSILSLKREKPDNLAIILQIDFTKLKEEDSLIVVYNSLKALTIKFARLQFCFVDRNNYVLDYGSVLHKIDSLDSISNLKSKSSSTQFSPIWLKNTLYPENIHEHLGIVAVSNSNMEAKKSILFQDYRCFTSFGRRRPNELKIKVGYLNVDYSDKIDELVEASSWTFVLETLCYSFGLS STVDSIQSVLTTISSILSLKREKPDNLAIILQIDFTKLKEEDSLIVVYNSLKALTIKFARLQFCFVDRNNYVLDYGSVLHKIDSLDSISNLKSKSSSTQFSPIWLKNTLYPENIHEHLGIVAVSNSNMEAKKSILFQDYRCFTSFGRRRPNELKIKVGYLNVDYSDKIDELVEASSWTFVLETLCYSFGLS 4f2l-a2-m1-cA_4f2l-a2-m2-cA Structure of a regulatory domain of AMPK P54645 P54645 1.5 X-RAY DIFFRACTION 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 59 59 SSTIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRINELEHHHHHH SSTIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRINELEHHHHHH 4f2n-a6-m1-cK_4f2n-a6-m1-cL Crystal structure of iron superoxide dismutase from Leishmania major Q4QIE0 Q4QIE0 1.85 X-RAY DIFFRACTION 44 1.0 5664 (Leishmania major) 5664 (Leishmania major) 209 209 4f2n-a1-m1-cA_4f2n-a1-m1-cB 4f2n-a2-m1-cC_4f2n-a2-m1-cD 4f2n-a3-m1-cE_4f2n-a3-m1-cF 4f2n-a4-m1-cG_4f2n-a4-m1-cH 4f2n-a5-m1-cI_4f2n-a5-m1-cJ CYHTLPHLRYPAELPTLGFNYKDGIQPVMSPRQLELHYSKHHSAYVDKLNTLGKGYEGKTIEEIILATTGINESKVMFNQAAQHFNHSFFWKCLSPGGKPMPKTLENAIAKQFGSVDDFMVSFQQAGVNNFGSGWTWLCVDPQTKELLIDSTSNAGCPLTSGLRPIFTADVWEHAYYKDFENRRADYLKELWQIVDWEFVCHMYERATK CYHTLPHLRYPAELPTLGFNYKDGIQPVMSPRQLELHYSKHHSAYVDKLNTLGKGYEGKTIEEIILATTGINESKVMFNQAAQHFNHSFFWKCLSPGGKPMPKTLENAIAKQFGSVDDFMVSFQQAGVNNFGSGWTWLCVDPQTKELLIDSTSNAGCPLTSGLRPIFTADVWEHAYYKDFENRRADYLKELWQIVDWEFVCHMYERATK 4f32-a1-m1-cA_4f32-a1-m1-cB Crystal structure of 3-oxoacyl-[acyl-carrier-protein] synthase II from Burkholderia vietnamiensis in complex with platencin A4JL30 A4JL30 1.9 X-RAY DIFFRACTION 263 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 419 422 4ddo-a1-m1-cA_4ddo-a1-m2-cA LRVVVTGIGIVSPLGCGKELVWQRLIGGGSGLRRLGDDIAGELSAKVGGTVQDVAEDPEGGFDPERSVPHKELRKMDRFIQMAMVAADEALAEAGWAPEAEQQRERTATVVASGIGGFPGLAEAVRIGETRGVRRLSPFTIPFFLSNLAAGQISIKHRFRGPLGCPVTAAASVQAIGDAMRMIRTGEADVVLAGGAEAAFDKVSLGGFAAARALSTGFSEEPVRASRPFDRDRDGFVMGEGAAMVVVESLDHALARGARPIAEIIGYGTTADAYHMTAGPDDGSGAMRAMKLALRMGDVAPEQVDYVNAHATSTPVGDAGEIEALKTVFGVGAGPAISSTKSATGHLLGAAGAIEAAFSILALRDGVLPGTLNLEHPDPAADGLDLIGPAARHVPVEIALSNGFGFGGVNASVLFRRYP SMTLRVVVTGIGIVSPLGCGKELVWQRLIGGGSGLRRLGDDIAGELSAKVGGTVQDVAEDPEGGFDPERSVPHKELRKMDRFIQMAMVAADEALAEAGWAPEAEQQRERTATVVASGIGGFPGLAEAVRIGETRGVRRLSPFTIPFFLSNLAAGQISIKHRFRGPLGCPVTAAASVQAIGDAMRMIRTGEADVVLAGGAEAAFDKVSLGGFAAARALSTGFSEEPVRASRPFDRDRDGFVMGEGAAMVVVESLDHALARGARPIAEIIGYGTTADAYHMTAGPDDGSGAMRAMKLALRMGDVAPEQVDYVNAHATSTPVGDAGEIEALKTVFGVGAGPAISSTKSATGHLLGAAGAIEAAFSILALRDGVLPGTLNLEHPDPAADGLDLIGPAARHVPVEIALSNGFGFGGVNASVLFRRYP 4f3r-a5-m11-cB_4f3r-a5-m5-cB Structure of phosphopantetheine adenylyltransferase (CBU_0288) from Coxiella burnetii Q83EM7 Q83EM7 2.25 X-RAY DIFFRACTION 12 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 146 146 4f3r-a5-m12-cB_4f3r-a5-m4-cB 4f3r-a5-m1-cB_4f3r-a5-m13-cB KPIAIYPGTFDPLTNGHVDIIERALPLFNKIIVACAPTLKLEERVNLIADVLTDERVEVLPLTGLLVDFAKTHQANFILRGLRAVSDFDYEFQLAHNYQLSPEIETIFLPAREGYSYVSGTVREIVTLGGDVSPFVPPLVARHLQK KPIAIYPGTFDPLTNGHVDIIERALPLFNKIIVACAPTLKLEERVNLIADVLTDERVEVLPLTGLLVDFAKTHQANFILRGLRAVSDFDYEFQLAHNYQLSPEIETIFLPAREGYSYVSGTVREIVTLGGDVSPFVPPLVARHLQK 4f3r-a5-m12-cB_4f3r-a5-m5-cB Structure of phosphopantetheine adenylyltransferase (CBU_0288) from Coxiella burnetii Q83EM7 Q83EM7 2.25 X-RAY DIFFRACTION 66 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 146 146 4f3r-a4-m10-cC_4f3r-a4-m2-cA 4f3r-a4-m1-cA_4f3r-a4-m8-cC 4f3r-a4-m3-cA_4f3r-a4-m9-cC 4f3r-a5-m13-cB_4f3r-a5-m4-cB 4f3r-a5-m1-cB_4f3r-a5-m11-cB KPIAIYPGTFDPLTNGHVDIIERALPLFNKIIVACAPTLKLEERVNLIADVLTDERVEVLPLTGLLVDFAKTHQANFILRGLRAVSDFDYEFQLAHNYQLSPEIETIFLPAREGYSYVSGTVREIVTLGGDVSPFVPPLVARHLQK KPIAIYPGTFDPLTNGHVDIIERALPLFNKIIVACAPTLKLEERVNLIADVLTDERVEVLPLTGLLVDFAKTHQANFILRGLRAVSDFDYEFQLAHNYQLSPEIETIFLPAREGYSYVSGTVREIVTLGGDVSPFVPPLVARHLQK 4f3r-a5-m4-cB_4f3r-a5-m5-cB Structure of phosphopantetheine adenylyltransferase (CBU_0288) from Coxiella burnetii Q83EM7 Q83EM7 2.25 X-RAY DIFFRACTION 25 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 146 146 4f3r-a1-m1-cA_4f3r-a1-m2-cA 4f3r-a1-m1-cA_4f3r-a1-m3-cA 4f3r-a1-m2-cA_4f3r-a1-m3-cA 4f3r-a2-m1-cB_4f3r-a2-m4-cB 4f3r-a2-m1-cB_4f3r-a2-m5-cB 4f3r-a2-m4-cB_4f3r-a2-m5-cB 4f3r-a3-m1-cC_4f3r-a3-m6-cC 4f3r-a3-m1-cC_4f3r-a3-m7-cC 4f3r-a3-m6-cC_4f3r-a3-m7-cC 4f3r-a4-m10-cC_4f3r-a4-m8-cC 4f3r-a4-m10-cC_4f3r-a4-m9-cC 4f3r-a4-m1-cA_4f3r-a4-m2-cA 4f3r-a4-m1-cA_4f3r-a4-m3-cA 4f3r-a4-m2-cA_4f3r-a4-m3-cA 4f3r-a4-m8-cC_4f3r-a4-m9-cC 4f3r-a5-m11-cB_4f3r-a5-m12-cB 4f3r-a5-m11-cB_4f3r-a5-m13-cB 4f3r-a5-m12-cB_4f3r-a5-m13-cB 4f3r-a5-m1-cB_4f3r-a5-m4-cB 4f3r-a5-m1-cB_4f3r-a5-m5-cB KPIAIYPGTFDPLTNGHVDIIERALPLFNKIIVACAPTLKLEERVNLIADVLTDERVEVLPLTGLLVDFAKTHQANFILRGLRAVSDFDYEFQLAHNYQLSPEIETIFLPAREGYSYVSGTVREIVTLGGDVSPFVPPLVARHLQK KPIAIYPGTFDPLTNGHVDIIERALPLFNKIIVACAPTLKLEERVNLIADVLTDERVEVLPLTGLLVDFAKTHQANFILRGLRAVSDFDYEFQLAHNYQLSPEIETIFLPAREGYSYVSGTVREIVTLGGDVSPFVPPLVARHLQK 4f3v-a3-m1-cB_4f3v-a3-m1-cA Crystal structure of N-terminal domain of EccA1 ATPase from ESX-1 secretion system of Mycobacterium tuberculosis P9WPH9 P9WPH9 2 X-RAY DIFFRACTION 104 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 273 275 HMTDRLASLFESAVSMLPMSEARSLDLFTEITNYDESACDAWIGRIRCGDTDRVTLFRAWYSRRNFGQLSGSVQISMSTLNARIAIGGLYGDITYPVTSPLAITMGFAACEAAQGNYADAMEALEAAPVAGSEHLVAWMKAVVYGAAERWTDVIDQVKSAGKWPDKFLAGAAGVAHGVAAANLALFTEAERRLTEANDSPAGEACARAIAWYLAMARRSQGNESAAVALLEWLQTTHPEPKVAAALKDPSYRLKTTTAEQIASRADPWDPGSV GHMTDRLASLFESAVSMLPMSEARSLDLFTEITNYDESACDAWIGRIRCGDTDRVTLFRAWYSRRNFGQLSGSVQISMSTLNARIAIGGLYGDITYPVTSPLAITMGFAACEAAQGNYADAMEALEAAPVAGSEHLVAWMKAVVYGAAERWTDVIDQVKSAGKWPDKFLAGAAGVAHGVAAANLALFTEAERRLTEANDSPAGEACARAIAWYLAMARRSQGNESAAVALLEWLQTTHPEPKVAAALKDPSYRLKTTTAEQIASRADPWDPGSVV 4f3w-a1-m1-cA_4f3w-a1-m1-cD Crystal structure of cytidine deaminase Cdd from Mycobacterium marinum B2HDU6 B2HDU6 1.8 X-RAY DIFFRACTION 29 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 119 120 4f3w-a1-m1-cC_4f3w-a1-m1-cB IDWKQLRDKATQVAAGAYAPYSRFPVGAAALVDDGRVVTGCNVENVSYGLALCAECGVVCALHATGGGRLVALACVDGRGAPLMPCGRCRQLLFEHGGPELLVDHLAGPRRLGDLLPEP DIDWKQLRDKATQVAAGAYAPYSRFPVGAAALVDDGRVVTGCNVENVSYGLALCAECGVVCALHATGGGRLVALACVDGRGAPLMPCGRCRQLLFEHGGPELLVDHLAGPRRLGDLLPEP 4f3w-a1-m1-cC_4f3w-a1-m1-cD Crystal structure of cytidine deaminase Cdd from Mycobacterium marinum B2HDU6 B2HDU6 1.8 X-RAY DIFFRACTION 79 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 119 120 4f3w-a1-m1-cA_4f3w-a1-m1-cB IDWKQLRDKATQVAAGAYAPYSRFPVGAAALVDDGRVVTGCNVENVSYGLALCAECGVVCALHATGGGRLVALACVDGRGAPLMPCGRCRQLLFEHGGPELLVDHLAGPRRLGDLLPEP DIDWKQLRDKATQVAAGAYAPYSRFPVGAAALVDDGRVVTGCNVENVSYGLALCAECGVVCALHATGGGRLVALACVDGRGAPLMPCGRCRQLLFEHGGPELLVDHLAGPRRLGDLLPEP 4f3w-a1-m1-cD_4f3w-a1-m1-cB Crystal structure of cytidine deaminase Cdd from Mycobacterium marinum B2HDU6 B2HDU6 1.8 X-RAY DIFFRACTION 40 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 120 121 4f3w-a1-m1-cA_4f3w-a1-m1-cC DIDWKQLRDKATQVAAGAYAPYSRFPVGAAALVDDGRVVTGCNVENVSYGLALCAECGVVCALHATGGGRLVALACVDGRGAPLMPCGRCRQLLFEHGGPELLVDHLAGPRRLGDLLPEP PDIDWKQLRDKATQVAAGAYAPYSRFPVGAAALVDDGRVVTGCNVENVSYGLALCAECGVVCALHATGGGRLVALACVDGRGAPLMPCGRCRQLLFEHGGPELLVDHLAGPRRLGDLLPEP 4f3x-a1-m1-cA_4f3x-a1-m1-cD Crystal structure of putative aldehyde dehydrogenase from Sinorhizobium meliloti 1021 complexed with NAD Q92ND9 Q92ND9 2.01 X-RAY DIFFRACTION 73 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 464 464 4dal-a1-m1-cA_4dal-a1-m1-cD 4dal-a1-m1-cB_4dal-a1-m1-cC 4dal-a4-m1-cE_4dal-a4-m1-cH 4dal-a4-m1-cG_4dal-a4-m1-cF 4f3x-a1-m1-cB_4f3x-a1-m1-cC DTQLLIGSRFEAGTEAEEHILNPRTGAGIIDLAEASHAQIDAAVDAAERAFVGWSQTTPAERSNALLKIADAIEKEADEFAALEALNCGKPINAVKNDELPAIIDCWRFFAGAVRNLHAPAAGEYLPGHTSIRRDPIGIVGSIAPWNYPLAWKLAPAIGGGNTVVFKPSEQTPLTALKLARLIADILPEGVVNVITGRGETVGNALINHPKVGVSITGDIATGKKVLAAAAKTVKRTHLELGGKAPVIVYGDADLEAVVNGIRTFGYYNAGQDCTAACRIYAEAGIYEKLVADLTSAVSTIRYNLDDDTENEIGPLISRRQRDRVASFVERAADQKHIEITTGGRTGSDEGFFFQPTVVAGATQEDEIVRREVFGPVVSVTRFTGKDDAVAWANDSDYGLASSVWTKDISKARAASRLQYGCTWINTHFLTNEPHGGIKQSGYGKDSVYALEDYTAVRHIINHG DTQLLIGSRFEAGTEAEEHILNPRTGAGIIDLAEASHAQIDAAVDAAERAFVGWSQTTPAERSNALLKIADAIEKEADEFAALEALNCGKPINAVKNDELPAIIDCWRFFAGAVRNLHAPAAGEYLPGHTSIRRDPIGIVGSIAPWNYPLAWKLAPAIGGGNTVVFKPSEQTPLTALKLARLIADILPEGVVNVITGRGETVGNALINHPKVGVSITGDIATGKKVLAAAAKTVKRTHLELGGKAPVIVYGDADLEAVVNGIRTFGYYNAGQDCTAACRIYAEAGIYEKLVADLTSAVSTIRYNLDDDTENEIGPLISRRQRDRVASFVERAADQKHIEITTGGRTGSDEGFFFQPTVVAGATQEDEIVRREVFGPVVSVTRFTGKDDAVAWANDSDYGLASSVWTKDISKARAASRLQYGCTWINTHFLTNEPHGGIKQSGYGKDSVYALEDYTAVRHIINHG 4f3x-a1-m1-cB_4f3x-a1-m1-cD Crystal structure of putative aldehyde dehydrogenase from Sinorhizobium meliloti 1021 complexed with NAD Q92ND9 Q92ND9 2.01 X-RAY DIFFRACTION 72 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 464 464 4dal-a1-m1-cA_4dal-a1-m1-cC 4dal-a1-m1-cB_4dal-a1-m1-cD 4dal-a4-m1-cF_4dal-a4-m1-cH 4dal-a4-m1-cG_4dal-a4-m1-cE 4f3x-a1-m1-cA_4f3x-a1-m1-cC DTQLLIGSRFEAGTEAEEHILNPRTGAGIIDLAEASHAQIDAAVDAAERAFVGWSQTTPAERSNALLKIADAIEKEADEFAALEALNCGKPINAVKNDELPAIIDCWRFFAGAVRNLHAPAAGEYLPGHTSIRRDPIGIVGSIAPWNYPLAWKLAPAIGGGNTVVFKPSEQTPLTALKLARLIADILPEGVVNVITGRGETVGNALINHPKVGVSITGDIATGKKVLAAAAKTVKRTHLELGGKAPVIVYGDADLEAVVNGIRTFGYYNAGQDCTAACRIYAEAGIYEKLVADLTSAVSTIRYNLDDDTENEIGPLISRRQRDRVASFVERAADQKHIEITTGGRTGSDEGFFFQPTVVAGATQEDEIVRREVFGPVVSVTRFTGKDDAVAWANDSDYGLASSVWTKDISKARAASRLQYGCTWINTHFLTNEPHGGIKQSGYGKDSVYALEDYTAVRHIINHG DTQLLIGSRFEAGTEAEEHILNPRTGAGIIDLAEASHAQIDAAVDAAERAFVGWSQTTPAERSNALLKIADAIEKEADEFAALEALNCGKPINAVKNDELPAIIDCWRFFAGAVRNLHAPAAGEYLPGHTSIRRDPIGIVGSIAPWNYPLAWKLAPAIGGGNTVVFKPSEQTPLTALKLARLIADILPEGVVNVITGRGETVGNALINHPKVGVSITGDIATGKKVLAAAAKTVKRTHLELGGKAPVIVYGDADLEAVVNGIRTFGYYNAGQDCTAACRIYAEAGIYEKLVADLTSAVSTIRYNLDDDTENEIGPLISRRQRDRVASFVERAADQKHIEITTGGRTGSDEGFFFQPTVVAGATQEDEIVRREVFGPVVSVTRFTGKDDAVAWANDSDYGLASSVWTKDISKARAASRLQYGCTWINTHFLTNEPHGGIKQSGYGKDSVYALEDYTAVRHIINHG 4f3x-a3-m1-cC_4f3x-a3-m1-cD Crystal structure of putative aldehyde dehydrogenase from Sinorhizobium meliloti 1021 complexed with NAD Q92ND9 Q92ND9 2.01 X-RAY DIFFRACTION 135 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 464 464 4dal-a1-m1-cA_4dal-a1-m1-cB 4dal-a1-m1-cC_4dal-a1-m1-cD 4dal-a2-m1-cA_4dal-a2-m1-cB 4dal-a3-m1-cC_4dal-a3-m1-cD 4dal-a4-m1-cE_4dal-a4-m1-cF 4dal-a4-m1-cG_4dal-a4-m1-cH 4dal-a5-m1-cE_4dal-a5-m1-cF 4dal-a6-m1-cG_4dal-a6-m1-cH 4f3x-a1-m1-cA_4f3x-a1-m1-cB 4f3x-a1-m1-cC_4f3x-a1-m1-cD 4f3x-a2-m1-cA_4f3x-a2-m1-cB DTQLLIGSRFEAGTEAEEHILNPRTGAGIIDLAEASHAQIDAAVDAAERAFVGWSQTTPAERSNALLKIADAIEKEADEFAALEALNCGKPINAVKNDELPAIIDCWRFFAGAVRNLHAPAAGEYLPGHTSIRRDPIGIVGSIAPWNYPLAWKLAPAIGGGNTVVFKPSEQTPLTALKLARLIADILPEGVVNVITGRGETVGNALINHPKVGVSITGDIATGKKVLAAAAKTVKRTHLELGGKAPVIVYGDADLEAVVNGIRTFGYYNAGQDCTAACRIYAEAGIYEKLVADLTSAVSTIRYNLDDDTENEIGPLISRRQRDRVASFVERAADQKHIEITTGGRTGSDEGFFFQPTVVAGATQEDEIVRREVFGPVVSVTRFTGKDDAVAWANDSDYGLASSVWTKDISKARAASRLQYGCTWINTHFLTNEPHGGIKQSGYGKDSVYALEDYTAVRHIINHG DTQLLIGSRFEAGTEAEEHILNPRTGAGIIDLAEASHAQIDAAVDAAERAFVGWSQTTPAERSNALLKIADAIEKEADEFAALEALNCGKPINAVKNDELPAIIDCWRFFAGAVRNLHAPAAGEYLPGHTSIRRDPIGIVGSIAPWNYPLAWKLAPAIGGGNTVVFKPSEQTPLTALKLARLIADILPEGVVNVITGRGETVGNALINHPKVGVSITGDIATGKKVLAAAAKTVKRTHLELGGKAPVIVYGDADLEAVVNGIRTFGYYNAGQDCTAACRIYAEAGIYEKLVADLTSAVSTIRYNLDDDTENEIGPLISRRQRDRVASFVERAADQKHIEITTGGRTGSDEGFFFQPTVVAGATQEDEIVRREVFGPVVSVTRFTGKDDAVAWANDSDYGLASSVWTKDISKARAASRLQYGCTWINTHFLTNEPHGGIKQSGYGKDSVYALEDYTAVRHIINHG 4f3y-a1-m1-cB_4f3y-a1-m2-cB X-Ray Crystal Structure of Dihydrodipicolinate reductase from Burkholderia thailandensis Q2SZ94 Q2SZ94 2.1 X-RAY DIFFRACTION 16 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 265 265 4f3y-a1-m1-cA_4f3y-a1-m2-cA SSMKIAIAGASGRMGRMLIEAVLAAPDATLVGALDRTGSPQLGQDAGAFLGKQTGVALTDDIERVCAEADYLIDFTLPEGTLVHLDAALRHDVKLVIGTTGFSQKAQLRAAGEKIALVFSANMSVGVNVTMKLLEFAAKQFAQGYDIEIIEAHHRHKVDAPSGTALMMGETIAAATGRSLDDCAVYGRHGVTGERDPSTIGFSAIRGGDIVGDHTVLFAGIGERIEITHKSASRVSYAQGALRAARFLAGRDAGFFDMQDVLGLR SSMKIAIAGASGRMGRMLIEAVLAAPDATLVGALDRTGSPQLGQDAGAFLGKQTGVALTDDIERVCAEADYLIDFTLPEGTLVHLDAALRHDVKLVIGTTGFSQKAQLRAAGEKIALVFSANMSVGVNVTMKLLEFAAKQFAQGYDIEIIEAHHRHKVDAPSGTALMMGETIAAATGRSLDDCAVYGRHGVTGERDPSTIGFSAIRGGDIVGDHTVLFAGIGERIEITHKSASRVSYAQGALRAARFLAGRDAGFFDMQDVLGLR 4f3y-a1-m2-cB_4f3y-a1-m1-cA X-Ray Crystal Structure of Dihydrodipicolinate reductase from Burkholderia thailandensis Q2SZ94 Q2SZ94 2.1 X-RAY DIFFRACTION 132 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 265 267 4f3y-a1-m1-cB_4f3y-a1-m2-cA SSMKIAIAGASGRMGRMLIEAVLAAPDATLVGALDRTGSPQLGQDAGAFLGKQTGVALTDDIERVCAEADYLIDFTLPEGTLVHLDAALRHDVKLVIGTTGFSQKAQLRAAGEKIALVFSANMSVGVNVTMKLLEFAAKQFAQGYDIEIIEAHHRHKVDAPSGTALMMGETIAAATGRSLDDCAVYGRHGVTGERDPSTIGFSAIRGGDIVGDHTVLFAGIGERIEITHKSASRVSYAQGALRAARFLAGRDAGFFDMQDVLGLR SSMKIAIAGASGRMGRMLIEAVLAAPDATLVGALDRTGSPQLGQDAGAFLGKQTGVALTDDIERVCAEADYLIDFTLPEGTLVHLDAALRHDVKLVIGTTGFSEPQKAQLRAAGEKIALVFSANMSVGVNVTMKLLEFAAKQFAQGYDIEIIEAHHRHKVDAPSGTALMMGETIAAATGRSLDDCAVYGRHGVTGERDPSTIGFSAIRGGDIVGDHTVLFAGIGERIEITHKSASRVSYAQGALRAARFLAGRDAGFFDMQDVLGLR 4f3y-a1-m2-cB_4f3y-a1-m2-cA X-Ray Crystal Structure of Dihydrodipicolinate reductase from Burkholderia thailandensis Q2SZ94 Q2SZ94 2.1 X-RAY DIFFRACTION 105 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 265 267 4f3y-a1-m1-cB_4f3y-a1-m1-cA SSMKIAIAGASGRMGRMLIEAVLAAPDATLVGALDRTGSPQLGQDAGAFLGKQTGVALTDDIERVCAEADYLIDFTLPEGTLVHLDAALRHDVKLVIGTTGFSQKAQLRAAGEKIALVFSANMSVGVNVTMKLLEFAAKQFAQGYDIEIIEAHHRHKVDAPSGTALMMGETIAAATGRSLDDCAVYGRHGVTGERDPSTIGFSAIRGGDIVGDHTVLFAGIGERIEITHKSASRVSYAQGALRAARFLAGRDAGFFDMQDVLGLR SSMKIAIAGASGRMGRMLIEAVLAAPDATLVGALDRTGSPQLGQDAGAFLGKQTGVALTDDIERVCAEADYLIDFTLPEGTLVHLDAALRHDVKLVIGTTGFSEPQKAQLRAAGEKIALVFSANMSVGVNVTMKLLEFAAKQFAQGYDIEIIEAHHRHKVDAPSGTALMMGETIAAATGRSLDDCAVYGRHGVTGERDPSTIGFSAIRGGDIVGDHTVLFAGIGERIEITHKSASRVSYAQGALRAARFLAGRDAGFFDMQDVLGLR 4f3z-a1-m1-cC_4f3z-a1-m1-cE Crystal structure of a swine H1N2 influenza virus hemagglutinin Q8QT89 Q8QT89 3.2 X-RAY DIFFRACTION 14 0.993 187166 (Influenza A virus (A/Swine/Indiana/P12439/00 (H1N2))) 187166 (Influenza A virus (A/Swine/Indiana/P12439/00 (H1N2))) 301 320 PGDTLCIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDRHNGKLCKLRGVAPLHLGKCNIAGWLLGNPECEASSWSYIVETSSSDNGTCYPGDFINYEELREQLSSVSSFERFEIFPKTSSWPNHDTNFYRNLIWLVKKENSYPKLSKSYINNKGKEVLVLWGIHHPSTSADQQSLYQNADAYVFVCSSRYSKKFKPEIAACAGRINYYWTLVEPGDKITFEATGNLVVPRYAFAMERNSGSGIIISDTSVHDCNTTCQTPKGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLRNVPS DTLCIGYHANNSTDTVDTVLEKNVTVTHSVNLLEDRHNGKLCKLRGVAPLHLGKCNIAGWLLGNPECESASSWSYIVETSSSDNGTCYPGDFINYEELREQLSSVSSFERFEIFPKTSSWPNHDTNRGVTAACPYAGAKSFYRNLIWLVKKENSYPKLSKSYINNKGKEVLVLWGIHHPSTSADQQSLYQNADAYVFVCSSRYSKKFKPEIAACPKVRDQAGRINYYWTLVEPGDKITFEATGNLVVPRYAFAMERNSGSGIIISDTSVHDCNTTCQTPKGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLRNVPS 4f44-a1-m1-cA_4f44-a1-m1-cB Neurotrophin p75NTR intracellular domain P07174 P07174 2.4 X-RAY DIFFRACTION 41 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 83 83 NLYSSLPLTKREEVEKLLNGDTWRHLAGELGYQPEHIDSFTHEACPVRALLASWGAQDSATLDALLAALRRIQRADIVESLCS NLYSSLPLTKREEVEKLLNGDTWRHLAGELGYQPEHIDSFTHEACPVRALLASWGAQDSATLDALLAALRRIQRADIVESLCS 4f47-a1-m2-cA_4f47-a1-m3-cA The Structure of Enoyl-CoA hydratase EchA19 from Mycobacterium marinum B2HI06 B2HI06 1.75 X-RAY DIFFRACTION 132 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 238 238 4f47-a1-m1-cA_4f47-a1-m2-cA 4f47-a1-m1-cA_4f47-a1-m3-cA GPDALVEQRGHTLIVTMNRPSRRNALSGEMMQIMVEAWDRVDNDPDIRCCILTGAGGYFCDPSRIDALLKGRRLKKPLIAAVEGPAIAGGTEILQGTDIRVAAESAKFGISEAKWSLYPMGGSAVRLVRQIPYTVACDLLLTGRHITAAEAKEMGLVGHVVPDGQALTKALEIAEIIAANGPLAVQAILRTIRETEGMHENEAFKIDTRIGIEVFLSDDAKEGPQAFAQKRKPNFQNR GPDALVEQRGHTLIVTMNRPSRRNALSGEMMQIMVEAWDRVDNDPDIRCCILTGAGGYFCDPSRIDALLKGRRLKKPLIAAVEGPAIAGGTEILQGTDIRVAAESAKFGISEAKWSLYPMGGSAVRLVRQIPYTVACDLLLTGRHITAAEAKEMGLVGHVVPDGQALTKALEIAEIIAANGPLAVQAILRTIRETEGMHENEAFKIDTRIGIEVFLSDDAKEGPQAFAQKRKPNFQNR 4f48-a2-m1-cA_4f48-a2-m2-cA The X-ray structural of FimXEAL-c-di-GMP-PilZ complexes from Xanthomonas campestris Q8P8F1 Q8P8F1 3 X-RAY DIFFRACTION 77 1.0 340 (Xanthomonas campestris pv. campestris) 340 (Xanthomonas campestris pv. campestris) 241 241 RWVEQLREALIGDGFLLHYQPVLNLQGEPLELYQAFLRLERNGEMMSPNAFMAIAEEHDLITEIDRWVVARAIRQLGERQRAGHKTHLLVRIGPNSFSDPQMIDTIREQLAVYGVPGERLWLQTPESKVFTHLRNAQQFLASVSAMGCKVGLEQFGSGLDSFQLLAHFQPAFLKLDRSITGDIASARESQEKIREITSRAQPTGILTVAEFVADAQSMSSFFTAGVDYVQGDFVAPTGPLM RWVEQLREALIGDGFLLHYQPVLNLQGEPLELYQAFLRLERNGEMMSPNAFMAIAEEHDLITEIDRWVVARAIRQLGERQRAGHKTHLLVRIGPNSFSDPQMIDTIREQLAVYGVPGERLWLQTPESKVFTHLRNAQQFLASVSAMGCKVGLEQFGSGLDSFQLLAHFQPAFLKLDRSITGDIASARESQEKIREITSRAQPTGILTVAEFVADAQSMSSFFTAGVDYVQGDFVAPTGPLM 4f4e-a1-m1-cA_4f4e-a1-m1-cB Crystal structure of Aromatic-amino-acid aminotransferase from Burkholderia pseudomallei covalently bound to pyridoxal phosphate Q63NE4 Q63NE4 1.8 X-RAY DIFFRACTION 214 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 398 398 MSLFSAVELAPRDPILGLNEAFNADTRPTKVNLGVGVYTNEDGKIPLLRAVRDAEKARVEAGLPRGYLPIDGIAAYDASVQKLLLGDDSPLIAAGRVVTAQALGGTGALKIGADFLRTLNPKAKVAISDPSWENHRALFDMAGFEVVAYPYYDAKTNGVNFDGMLAALNGYEPGTIVVLHACCHNPTGVDLNDAQWAQVVEVVKARRLVPFLDIAYQGFGESIEADAAAVRLFAAANLNVFVSSSFSSFSLYGERVGALSIITDSKDEAARVLSQLKRVIRTNYSNPPTHGGAIVAAVLASPELRASWVQELGEMRDRIRAMRNGLVERLKAAGIERDFSFINAQRGMFSYSGLTSAQVDRLREEFGIYAVSTGRICVAALNTRNLDVVANAIAAVLK MSLFSAVELAPRDPILGLNEAFNADTRPTKVNLGVGVYTNEDGKIPLLRAVRDAEKARVEAGLPRGYLPIDGIAAYDASVQKLLLGDDSPLIAAGRVVTAQALGGTGALKIGADFLRTLNPKAKVAISDPSWENHRALFDMAGFEVVAYPYYDAKTNGVNFDGMLAALNGYEPGTIVVLHACCHNPTGVDLNDAQWAQVVEVVKARRLVPFLDIAYQGFGESIEADAAAVRLFAAANLNVFVSSSFSSFSLYGERVGALSIITDSKDEAARVLSQLKRVIRTNYSNPPTHGGAIVAAVLASPELRASWVQELGEMRDRIRAMRNGLVERLKAAGIERDFSFINAQRGMFSYSGLTSAQVDRLREEFGIYAVSTGRICVAALNTRNLDVVANAIAAVLK 4f4h-a1-m1-cA_4f4h-a1-m1-cB Crystal structure of a Glutamine dependent NAD+ synthetase from Burkholderia thailandensis Q2T061 Q2T061 1.75 X-RAY DIFFRACTION 377 0.998 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 540 542 KTRIALAQLNVTVGDFAGNVAKIVAAAQAAHDAGAHFLIAPELALSGYPPEDLLLRPAFYAASDAALAELAAQLKPFAGLAVLVGHPLRAPANRAIERGVPPVDTYNAASLIVGGEVAGTYRKQDLPNTEVFDEKRYFATDAAPYVFELNGVKFGVVICEDVWHASAAQLAKAAGAQVLIVPNGSPYHMNKDAVRIDILRARIRETGLPMVYVNLVGGQDELVFDGGSFVLDGAGELVAKMPQFEEGNAIVEFDGARALPAAIAPALSVEAQVYRALVLGVRDYIGKNGFPGAIIGLSGGVDSALVLAVAVDALGAERVRAVMMPSRYTAGISTTDAADMARRVGVRYDEIAIAPMFDAFRASLAAEFAGLAEDATEENIQARIRGTLLMALSNKFGSIVLTTGNKSEMAVGYCTLYGDMAGGFAVIKDIAKTLVYRLCRYRNAAAEYGQPDIVPERILTRLPPYDVLDAIMRMYMEEDRPLAEIVAAGYSEADVKRVTRLIKINEYKRRQAPVGIRVTHRAFGRDWRYPITSRFVESID GSMKTRIALAQLNVTVGDFAGNVAKIVAAAQAAHDAGAHFLIAPELALSGYPPEDLLLRPAFYAASDAALAELAAQLKPFAGLAVLVGHPLRAPANRAIEGVPPVDTYNAASLIVGGEVAGTYRKQDLPNTEVFDEKRYFATDAAPYVFELNGVKFGVVICEDVWHASAAQLAKAAGAQVLIVPNGSPYHMNKDAVRIDILRARIRETGLPMVYVNLVGGQDELVFDGGSFVLDGAGELVAKMPQFEEGNAIVEFDGARALPAAIAPALSVEAQVYRALVLGVRDYIGKNGFPGAIIGLSGGVDSALVLAVAVDALGAERVRAVMMPSRYTAGISTTDAADMARRVGVRYDEIAIAPMFDAFRASLAAEFAGLAEDATEENIQARIRGTLLMALSNKFGSIVLTTGNKSEMAVGYCTLYGDMAGGFAVIKDIAKTLVYRLCRYRNAAAEYGQPDIVPERILTRLPPYDVLDAIMRMYMEEDRPLAEIVAAGYSEADVKRVTRLIKINEYKRRQAPVGIRVTHRAFGRDWRYPITSRFVESID 4f4o-a2-m1-cI_4f4o-a2-m1-cL Structure of the Haptoglobin-Haemoglobin Complex Q8SPS7 Q8SPS7 2.9 X-RAY DIFFRACTION 94 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 309 309 4f4o-a1-m1-cC_4f4o-a1-m1-cF CPKPPEIPKGYVEHMVRYHCQTYYKLRTAGDGVYTLDSNKQWTNKVTGEKLPECEAVCGKPKNPVIMGGSLDAKGSFPWQAKMISHHNLTSGATLINEQWLLTTAKNLRLGHKNDTKAKDIAPTLRLYVGKKQEVEIEKVIFHPDNSTVDIGLIKLKQKVPVNERVMPICLPSKDYVNVGLVGYVSGWGRNANLNFTEHLKYVMLPVADQEKCVQYYEGSTVPEKKTPKSPVGVQPILNEHTFCAGLSKYQEDTCYGDAGSAFAVHDKDDDTWYAAGILSFDKSCRTAEYGVYVRVTSILDWIQTTIAD CPKPPEIPKGYVEHMVRYHCQTYYKLRTAGDGVYTLDSNKQWTNKVTGEKLPECEAVCGKPKNPVIMGGSLDAKGSFPWQAKMISHHNLTSGATLINEQWLLTTAKNLRLGHKNDTKAKDIAPTLRLYVGKKQEVEIEKVIFHPDNSTVDIGLIKLKQKVPVNERVMPICLPSKDYVNVGLVGYVSGWGRNANLNFTEHLKYVMLPVADQEKCVQYYEGSTVPEKKTPKSPVGVQPILNEHTFCAGLSKYQEDTCYGDAGSAFAVHDKDDDTWYAAGILSFDKSCRTAEYGVYVRVTSILDWIQTTIAD 4f4s-a2-m3-cN_4f4s-a2-m3-cO Structure of the yeast F1Fo ATPase c10 ring with bound oligomycin P61829 P61829 1.9 X-RAY DIFFRACTION 150 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 74 74 2wpd-a1-m1-cJ_2wpd-a1-m1-cK 2wpd-a1-m1-cJ_2wpd-a1-m1-cS 2wpd-a1-m1-cK_2wpd-a1-m1-cL 2wpd-a1-m1-cL_2wpd-a1-m1-cM 2wpd-a1-m1-cM_2wpd-a1-m1-cN 2wpd-a1-m1-cN_2wpd-a1-m1-cO 2wpd-a1-m1-cO_2wpd-a1-m1-cP 2wpd-a1-m1-cP_2wpd-a1-m1-cQ 2wpd-a1-m1-cQ_2wpd-a1-m1-cR 2wpd-a1-m1-cR_2wpd-a1-m1-cS 2xok-a1-m1-cK_2xok-a1-m1-cT 2xok-a1-m1-cL_2xok-a1-m1-cK 2xok-a1-m1-cL_2xok-a1-m1-cM 2xok-a1-m1-cM_2xok-a1-m1-cN 2xok-a1-m1-cN_2xok-a1-m1-cO 2xok-a1-m1-cO_2xok-a1-m1-cP 2xok-a1-m1-cP_2xok-a1-m1-cQ 2xok-a1-m1-cR_2xok-a1-m1-cQ 2xok-a1-m1-cR_2xok-a1-m1-cS 2xok-a1-m1-cT_2xok-a1-m1-cS 3u2f-a1-m1-cK_3u2f-a1-m1-cL 3u2f-a1-m1-cK_3u2f-a1-m2-cO 3u2f-a1-m1-cL_3u2f-a1-m1-cM 3u2f-a1-m1-cN_3u2f-a1-m1-cM 3u2f-a1-m1-cN_3u2f-a1-m1-cO 3u2f-a1-m1-cO_3u2f-a1-m2-cK 3u2f-a1-m2-cK_3u2f-a1-m2-cL 3u2f-a1-m2-cL_3u2f-a1-m2-cM 3u2f-a1-m2-cN_3u2f-a1-m2-cM 3u2f-a1-m2-cN_3u2f-a1-m2-cO 3u2y-a1-m1-cK_3u2y-a1-m1-cL 3u2y-a1-m1-cK_3u2y-a1-m2-cO 3u2y-a1-m1-cL_3u2y-a1-m1-cM 3u2y-a1-m1-cM_3u2y-a1-m1-cN 3u2y-a1-m1-cO_3u2y-a1-m1-cN 3u2y-a1-m1-cO_3u2y-a1-m2-cK 3u2y-a1-m2-cK_3u2y-a1-m2-cL 3u2y-a1-m2-cL_3u2y-a1-m2-cM 3u2y-a1-m2-cM_3u2y-a1-m2-cN 3u2y-a1-m2-cO_3u2y-a1-m2-cN 3u32-a1-m1-cK_3u32-a1-m1-cL 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4eyd-a1-m3-cD_4eyd-a1-m3-cB 4eyn-a1-m1-cD_4eyn-a1-m1-cB 4eyn-a1-m2-cD_4eyn-a1-m2-cB 4eyn-a1-m3-cD_4eyn-a1-m3-cB 4eyp-a1-m1-cD_4eyp-a1-m1-cB 4eyp-a1-m2-cD_4eyp-a1-m2-cB 4eyp-a1-m3-cD_4eyp-a1-m3-cB 4f0n-a1-m1-cD_4f0n-a1-m1-cB 4f0n-a1-m2-cD_4f0n-a1-m2-cB 4f0n-a1-m3-cD_4f0n-a1-m3-cB 4f0o-a1-m1-cB_4f0o-a1-m1-cD 4f0o-a1-m2-cB_4f0o-a1-m2-cD 4f0o-a1-m3-cB_4f0o-a1-m3-cD 4f1a-a1-m1-cB_4f1a-a1-m1-cD 4f1a-a1-m2-cB_4f1a-a1-m2-cD 4f1a-a1-m3-cB_4f1a-a1-m3-cD 4f1b-a1-m1-cB_4f1b-a1-m1-cD 4f1b-a1-m2-cB_4f1b-a1-m2-cD 4f1b-a1-m3-cB_4f1b-a1-m3-cD 4f1c-a1-m1-cB_4f1c-a1-m1-cD 4f1c-a1-m2-cB_4f1c-a1-m2-cD 4f1c-a1-m3-cB_4f1c-a1-m3-cD 4f1d-a1-m1-cB_4f1d-a1-m1-cD 4f1d-a1-m2-cB_4f1d-a1-m2-cD 4f1d-a1-m3-cB_4f1d-a1-m3-cD 4f1f-a1-m1-cB_4f1f-a1-m1-cD 4f1f-a1-m2-cB_4f1f-a1-m2-cD 4f1f-a1-m3-cB_4f1f-a1-m3-cD 4f1g-a1-m1-cB_4f1g-a1-m1-cD 4f1g-a1-m2-cB_4f1g-a1-m2-cD 4f1g-a1-m3-cB_4f1g-a1-m3-cD 4f4t-a1-m1-cB_4f4t-a1-m1-cD 4f4t-a1-m2-cB_4f4t-a1-m2-cD 4f4t-a1-m3-cB_4f4t-a1-m3-cD 4f4v-a1-m1-cB_4f4v-a1-m1-cD 4f4v-a1-m2-cB_4f4v-a1-m2-cD 4f4v-a1-m3-cB_4f4v-a1-m3-cD 4f51-a1-m1-cB_4f51-a1-m1-cD 4f51-a1-m3-cB_4f51-a1-m3-cD 4f8f-a1-m1-cB_4f8f-a1-m1-cD 4f8f-a1-m2-cB_4f8f-a1-m2-cD 4f8f-a1-m3-cB_4f8f-a1-m3-cD 4fg3-a1-m1-cB_4fg3-a1-m1-cD 4fg3-a1-m2-cB_4fg3-a1-m2-cD 4fg3-a1-m3-cB_4fg3-a1-m3-cD 4fka-a3-m1-cB_4fka-a3-m1-cD 4fka-a3-m2-cB_4fka-a3-m2-cD 4fka-a3-m3-cB_4fka-a3-m3-cD 4ins-a3-m1-cB_4ins-a3-m1-cD 4ins-a3-m2-cB_4ins-a3-m2-cD 4ins-a3-m3-cB_4ins-a3-m3-cD 4ins-a7-m1-cB_4ins-a7-m1-cD 4rxw-a3-m1-cB_4rxw-a3-m1-cD 4rxw-a3-m2-cB_4rxw-a3-m2-cD 4rxw-a3-m3-cB_4rxw-a3-m3-cD 4xc4-a1-m1-cD_4xc4-a1-m1-cB 4xc4-a1-m2-cD_4xc4-a1-m2-cB 4xc4-a1-m3-cD_4xc4-a1-m3-cB 5bts-a1-m1-cB_5bts-a1-m2-cB 5cny-a1-m1-cB_5cny-a1-m1-cD 5cny-a1-m2-cB_5cny-a1-m2-cD 5cny-a1-m3-cB_5cny-a1-m3-cD 5co2-a1-m1-cB_5co2-a1-m1-cD 5co2-a1-m2-cB_5co2-a1-m2-cD 5co2-a1-m3-cB_5co2-a1-m3-cD 5co6-a1-m1-cB_5co6-a1-m1-cD 5co6-a1-m2-cB_5co6-a1-m2-cD 5co6-a1-m3-cB_5co6-a1-m3-cD 5co9-a1-m1-cB_5co9-a1-m1-cD 5co9-a1-m2-cB_5co9-a1-m2-cD 5co9-a1-m3-cB_5co9-a1-m3-cD 5e7w-a1-m1-cB_5e7w-a1-m1-cD 5e7w-a1-m2-cB_5e7w-a1-m2-cD 5e7w-a1-m3-cB_5e7w-a1-m3-cD 5en9-a2-m1-cB_5en9-a2-m2-cB 5ena-a2-m1-cB_5ena-a2-m2-cB 5fb6-a1-m1-cB_5fb6-a1-m2-cB 5hpr-a1-m1-cB_5hpr-a1-m4-cB 5hqi-a1-m1-cB_5hqi-a1-m2-cB 5uoz-a1-m1-cB_5uoz-a1-m2-cB 5urt-a1-m1-cB_5urt-a1-m4-cB 5usp-a1-m1-cB_5usp-a1-m2-cB 5usv-a1-m1-cB_5usv-a1-m2-cB 5uu2-a1-m1-cB_5uu2-a1-m2-cB 6gv0-a1-m1-cB_6gv0-a1-m1-cD 6gv0-a1-m2-cB_6gv0-a1-m2-cD 6gv0-a1-m3-cB_6gv0-a1-m3-cD 6or0-a1-m1-cB_6or0-a1-m2-cB 6p4z-a1-m1-cD_6p4z-a1-m1-cB 6p4z-a1-m2-cD_6p4z-a1-m2-cB 6p4z-a1-m3-cD_6p4z-a1-m3-cB 6qq7-a1-m1-cB_6qq7-a1-m2-cB 6qqg-a1-m1-cB_6qqg-a1-m2-cB 6qrh-a1-m1-cB_6qrh-a1-m2-cB 6qrk-a1-m1-cB_6qrk-a1-m2-cB 6s4i-a1-m1-cB_6s4i-a1-m2-cB 7rkd-a1-m1-cB_7rkd-a1-m1-cD 7rkd-a1-m2-cB_7rkd-a1-m2-cD 7rkd-a1-m3-cB_7rkd-a1-m3-cD 7sl2-a1-m1-cE_7sl2-a1-m1-cF 9ins-a2-m1-cB_9ins-a2-m2-cB FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 4f51-a1-m2-cB_4f51-a1-m3-cD Human Insulin P01308 P01308 1.637 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 1izb-a3-m1-cB_1izb-a3-m2-cD 1izb-a3-m1-cD_1izb-a3-m3-cB 1izb-a3-m2-cB_1izb-a3-m3-cD 1izb-a7-m1-cB_1izb-a7-m2-cD 1m5a-a1-m1-cB_1m5a-a1-m2-cD 1m5a-a1-m1-cD_1m5a-a1-m3-cB 1m5a-a1-m2-cB_1m5a-a1-m3-cD 1mso-a1-m1-cB_1mso-a1-m2-cD 1mso-a1-m1-cD_1mso-a1-m3-cB 1mso-a1-m2-cB_1mso-a1-m3-cD 2a3g-a1-m1-cB_2a3g-a1-m2-cD 2a3g-a1-m1-cD_2a3g-a1-m3-cB 2a3g-a1-m2-cB_2a3g-a1-m3-cD 2ins-a1-m1-cB_2ins-a1-m2-cD 2ins-a1-m1-cD_2ins-a1-m3-cB 2ins-a1-m2-cB_2ins-a1-m3-cD 2r36-a1-m1-cB_2r36-a1-m3-cD 2r36-a1-m1-cD_2r36-a1-m2-cB 2r36-a1-m2-cD_2r36-a1-m3-cB 2zp6-a3-m1-cB_2zp6-a3-m3-cD 2zp6-a3-m1-cD_2zp6-a3-m2-cB 2zp6-a3-m2-cD_2zp6-a3-m3-cB 3bxq-a1-m1-cB_3bxq-a1-m2-cD 3bxq-a1-m1-cD_3bxq-a1-m3-cB 3bxq-a1-m2-cB_3bxq-a1-m3-cD 3e7y-a3-m1-cB_3e7y-a3-m3-cD 3e7y-a3-m1-cD_3e7y-a3-m2-cB 3e7y-a3-m2-cD_3e7y-a3-m3-cB 3e7y-a7-m1-cB_3e7y-a7-m3-cD 3e7z-a3-m1-cB_3e7z-a3-m2-cD 3e7z-a3-m1-cD_3e7z-a3-m3-cB 3e7z-a3-m2-cB_3e7z-a3-m3-cD 3e7z-a7-m1-cB_3e7z-a7-m2-cD 3fhp-a1-m1-cB_3fhp-a1-m2-cD 3fhp-a1-m1-cD_3fhp-a1-m3-cB 3fhp-a1-m2-cB_3fhp-a1-m3-cD 3ilg-a1-m1-cB_3ilg-a1-m2-cD 3ilg-a1-m1-cD_3ilg-a1-m3-cB 3ilg-a1-m2-cB_3ilg-a1-m3-cD 3inc-a1-m1-cB_3inc-a1-m2-cD 3inc-a1-m1-cD_3inc-a1-m3-cB 3inc-a1-m2-cB_3inc-a1-m3-cD 3ins-a3-m1-cB_3ins-a3-m2-cD 3ins-a3-m1-cD_3ins-a3-m3-cB 3ins-a3-m2-cB_3ins-a3-m3-cD 3ir0-a1-m1-cB_3ir0-a1-m2-cD 3ir0-a1-m1-cD_3ir0-a1-m3-cB 3ir0-a1-m2-cB_3ir0-a1-m3-cD 3ir0-a2-m1-cF_3ir0-a2-m4-cH 3ir0-a2-m1-cH_3ir0-a2-m5-cF 3ir0-a2-m4-cF_3ir0-a2-m5-cH 3ir0-a3-m1-cJ_3ir0-a3-m6-cL 3ir0-a3-m1-cL_3ir0-a3-m7-cJ 3ir0-a3-m6-cJ_3ir0-a3-m7-cL 3ir0-a4-m1-cN_3ir0-a4-m8-cP 3ir0-a4-m1-cP_3ir0-a4-m9-cN 3ir0-a4-m8-cN_3ir0-a4-m9-cP 3ir0-a5-m1-cS_3ir0-a5-m8-cU 3ir0-a5-m1-cU_3ir0-a5-m9-cS 3ir0-a5-m8-cS_3ir0-a5-m9-cU 3ir0-a6-m10-cW_3ir0-a6-m11-cY 3ir0-a6-m1-cW_3ir0-a6-m10-cY 3ir0-a6-m1-cY_3ir0-a6-m11-cW 3rto-a1-m1-cB_3rto-a1-m2-cD 3rto-a1-m1-cD_3rto-a1-m3-cB 3rto-a1-m2-cB_3rto-a1-m3-cD 3tt8-a3-m1-cB_3tt8-a3-m2-cD 3tt8-a3-m1-cD_3tt8-a3-m3-cB 3tt8-a3-m2-cB_3tt8-a3-m3-cD 3w80-a1-m1-cB_3w80-a1-m3-cD 3w80-a1-m1-cD_3w80-a1-m2-cB 3w80-a1-m2-cD_3w80-a1-m3-cB 3w80-a2-m1-cF_3w80-a2-m3-cH 3w80-a2-m1-cH_3w80-a2-m2-cF 3w80-a2-m2-cH_3w80-a2-m3-cF 4eww-a1-m1-cB_4eww-a1-m3-cD 4eww-a1-m1-cD_4eww-a1-m2-cB 4eww-a1-m2-cD_4eww-a1-m3-cB 4ewx-a1-m1-cB_4ewx-a1-m2-cD 4ewx-a1-m1-cD_4ewx-a1-m3-cB 4ewx-a1-m2-cB_4ewx-a1-m3-cD 4ewz-a1-m1-cB_4ewz-a1-m2-cD 4ewz-a1-m1-cD_4ewz-a1-m3-cB 4ewz-a1-m2-cB_4ewz-a1-m3-cD 4ex0-a1-m1-cB_4ex0-a1-m2-cD 4ex0-a1-m1-cD_4ex0-a1-m3-cB 4ex0-a1-m2-cB_4ex0-a1-m3-cD 4ex1-a1-m1-cB_4ex1-a1-m2-cD 4ex1-a1-m1-cD_4ex1-a1-m3-cB 4ex1-a1-m2-cB_4ex1-a1-m3-cD 4exx-a1-m1-cD_4exx-a1-m2-cB 4exx-a1-m2-cD_4exx-a1-m3-cB 4exx-a1-m3-cD_4exx-a1-m1-cB 4ey1-a1-m1-cD_4ey1-a1-m3-cB 4ey1-a1-m2-cD_4ey1-a1-m1-cB 4ey1-a1-m3-cD_4ey1-a1-m2-cB 4ey9-a1-m1-cD_4ey9-a1-m2-cB 4ey9-a1-m2-cD_4ey9-a1-m3-cB 4ey9-a1-m3-cD_4ey9-a1-m1-cB 4eyd-a1-m1-cD_4eyd-a1-m3-cB 4eyd-a1-m2-cD_4eyd-a1-m1-cB 4eyd-a1-m3-cD_4eyd-a1-m2-cB 4eyn-a1-m1-cD_4eyn-a1-m2-cB 4eyn-a1-m2-cD_4eyn-a1-m3-cB 4eyn-a1-m3-cD_4eyn-a1-m1-cB 4eyp-a1-m1-cD_4eyp-a1-m2-cB 4eyp-a1-m2-cD_4eyp-a1-m3-cB 4eyp-a1-m3-cD_4eyp-a1-m1-cB 4f0n-a1-m1-cD_4f0n-a1-m2-cB 4f0n-a1-m2-cD_4f0n-a1-m3-cB 4f0n-a1-m3-cD_4f0n-a1-m1-cB 4f0o-a1-m1-cB_4f0o-a1-m2-cD 4f0o-a1-m1-cD_4f0o-a1-m3-cB 4f0o-a1-m2-cB_4f0o-a1-m3-cD 4f1a-a1-m1-cB_4f1a-a1-m2-cD 4f1a-a1-m1-cD_4f1a-a1-m3-cB 4f1a-a1-m2-cB_4f1a-a1-m3-cD 4f1b-a1-m1-cB_4f1b-a1-m2-cD 4f1b-a1-m1-cD_4f1b-a1-m3-cB 4f1b-a1-m2-cB_4f1b-a1-m3-cD 4f1c-a1-m1-cB_4f1c-a1-m3-cD 4f1c-a1-m1-cD_4f1c-a1-m2-cB 4f1c-a1-m2-cD_4f1c-a1-m3-cB 4f1d-a1-m1-cB_4f1d-a1-m2-cD 4f1d-a1-m1-cD_4f1d-a1-m3-cB 4f1d-a1-m2-cB_4f1d-a1-m3-cD 4f1f-a1-m1-cB_4f1f-a1-m2-cD 4f1f-a1-m1-cD_4f1f-a1-m3-cB 4f1f-a1-m2-cB_4f1f-a1-m3-cD 4f1g-a1-m1-cB_4f1g-a1-m3-cD 4f1g-a1-m1-cD_4f1g-a1-m2-cB 4f1g-a1-m2-cD_4f1g-a1-m3-cB 4f4t-a1-m1-cB_4f4t-a1-m3-cD 4f4t-a1-m1-cD_4f4t-a1-m2-cB 4f4t-a1-m2-cD_4f4t-a1-m3-cB 4f4v-a1-m1-cB_4f4v-a1-m3-cD 4f4v-a1-m1-cD_4f4v-a1-m2-cB 4f4v-a1-m2-cD_4f4v-a1-m3-cB 4f51-a1-m1-cB_4f51-a1-m2-cD 4f51-a1-m1-cD_4f51-a1-m3-cB 4f8f-a1-m1-cB_4f8f-a1-m3-cD 4f8f-a1-m1-cD_4f8f-a1-m2-cB 4f8f-a1-m2-cD_4f8f-a1-m3-cB 4fka-a3-m1-cB_4fka-a3-m2-cD 4fka-a3-m1-cD_4fka-a3-m3-cB 4fka-a3-m2-cB_4fka-a3-m3-cD 4ins-a3-m1-cB_4ins-a3-m2-cD 4ins-a3-m1-cD_4ins-a3-m3-cB 4ins-a3-m2-cB_4ins-a3-m3-cD 4ins-a6-m1-cB_4ins-a6-m2-cD 4rxw-a3-m1-cB_4rxw-a3-m2-cD 4rxw-a3-m1-cD_4rxw-a3-m3-cB 4rxw-a3-m2-cB_4rxw-a3-m3-cD 4xc4-a1-m1-cD_4xc4-a1-m2-cB 4xc4-a1-m2-cD_4xc4-a1-m3-cB 4xc4-a1-m3-cD_4xc4-a1-m1-cB 5cny-a1-m1-cB_5cny-a1-m2-cD 5cny-a1-m1-cD_5cny-a1-m3-cB 5cny-a1-m2-cB_5cny-a1-m3-cD 5co2-a1-m1-cB_5co2-a1-m2-cD 5co2-a1-m1-cD_5co2-a1-m3-cB 5co2-a1-m2-cB_5co2-a1-m3-cD 5co6-a1-m1-cB_5co6-a1-m3-cD 5co6-a1-m1-cD_5co6-a1-m2-cB 5co6-a1-m2-cD_5co6-a1-m3-cB 5co9-a1-m1-cB_5co9-a1-m3-cD 5co9-a1-m1-cD_5co9-a1-m2-cB 5co9-a1-m2-cD_5co9-a1-m3-cB 5e7w-a1-m1-cB_5e7w-a1-m2-cD 5e7w-a1-m1-cD_5e7w-a1-m3-cB 5e7w-a1-m2-cB_5e7w-a1-m3-cD 6p4z-a1-m1-cD_6p4z-a1-m2-cB 6p4z-a1-m2-cD_6p4z-a1-m3-cB 6p4z-a1-m3-cD_6p4z-a1-m1-cB FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 4f5x-a1-m7-cW_4f5x-a1-m9-cW Location of the dsRNA-dependent polymerase, VP1, in rotavirus particles O37061 O37061 5 X-RAY DIFFRACTION 809 1.0 36434 (Simian 11 rotavirus (serotype 3 / strain SA11-Patton)) 36434 (Simian 11 rotavirus (serotype 3 / strain SA11-Patton)) 975 975 4au6-a1-m1-cA_4au6-a1-m1-cC 4au6-a1-m1-cA_4au6-a1-m1-cD 4au6-a1-m1-cB_4au6-a1-m1-cD 4au6-a1-m1-cB_4au6-a1-m1-cE 4au6-a1-m1-cC_4au6-a1-m1-cE 4f5x-a1-m10-cW_4f5x-a1-m7-cW 4f5x-a1-m10-cW_4f5x-a1-m8-cW 4f5x-a1-m11-cW_4f5x-a1-m13-cW 4f5x-a1-m11-cW_4f5x-a1-m14-cW 4f5x-a1-m12-cW_4f5x-a1-m14-cW 4f5x-a1-m12-cW_4f5x-a1-m15-cW 4f5x-a1-m13-cW_4f5x-a1-m15-cW 4f5x-a1-m16-cW_4f5x-a1-m18-cW 4f5x-a1-m16-cW_4f5x-a1-m19-cW 4f5x-a1-m17-cW_4f5x-a1-m19-cW 4f5x-a1-m17-cW_4f5x-a1-m20-cW 4f5x-a1-m18-cW_4f5x-a1-m20-cW 4f5x-a1-m1-cW_4f5x-a1-m3-cW 4f5x-a1-m1-cW_4f5x-a1-m4-cW 4f5x-a1-m21-cW_4f5x-a1-m23-cW 4f5x-a1-m21-cW_4f5x-a1-m24-cW 4f5x-a1-m22-cW_4f5x-a1-m24-cW 4f5x-a1-m22-cW_4f5x-a1-m25-cW 4f5x-a1-m23-cW_4f5x-a1-m25-cW 4f5x-a1-m26-cW_4f5x-a1-m28-cW 4f5x-a1-m26-cW_4f5x-a1-m29-cW 4f5x-a1-m27-cW_4f5x-a1-m29-cW 4f5x-a1-m27-cW_4f5x-a1-m30-cW 4f5x-a1-m28-cW_4f5x-a1-m30-cW 4f5x-a1-m2-cW_4f5x-a1-m4-cW 4f5x-a1-m2-cW_4f5x-a1-m5-cW 4f5x-a1-m31-cW_4f5x-a1-m33-cW 4f5x-a1-m31-cW_4f5x-a1-m34-cW 4f5x-a1-m32-cW_4f5x-a1-m34-cW 4f5x-a1-m32-cW_4f5x-a1-m35-cW 4f5x-a1-m33-cW_4f5x-a1-m35-cW 4f5x-a1-m36-cW_4f5x-a1-m38-cW 4f5x-a1-m36-cW_4f5x-a1-m39-cW 4f5x-a1-m37-cW_4f5x-a1-m39-cW 4f5x-a1-m37-cW_4f5x-a1-m40-cW 4f5x-a1-m38-cW_4f5x-a1-m40-cW 4f5x-a1-m3-cW_4f5x-a1-m5-cW 4f5x-a1-m41-cW_4f5x-a1-m43-cW 4f5x-a1-m41-cW_4f5x-a1-m44-cW 4f5x-a1-m42-cW_4f5x-a1-m44-cW 4f5x-a1-m42-cW_4f5x-a1-m45-cW 4f5x-a1-m43-cW_4f5x-a1-m45-cW 4f5x-a1-m46-cW_4f5x-a1-m48-cW 4f5x-a1-m46-cW_4f5x-a1-m49-cW 4f5x-a1-m47-cW_4f5x-a1-m49-cW 4f5x-a1-m47-cW_4f5x-a1-m50-cW 4f5x-a1-m48-cW_4f5x-a1-m50-cW 4f5x-a1-m51-cW_4f5x-a1-m53-cW 4f5x-a1-m51-cW_4f5x-a1-m54-cW 4f5x-a1-m52-cW_4f5x-a1-m54-cW 4f5x-a1-m52-cW_4f5x-a1-m55-cW 4f5x-a1-m53-cW_4f5x-a1-m55-cW 4f5x-a1-m56-cW_4f5x-a1-m58-cW 4f5x-a1-m56-cW_4f5x-a1-m59-cW 4f5x-a1-m57-cW_4f5x-a1-m59-cW 4f5x-a1-m57-cW_4f5x-a1-m60-cW 4f5x-a1-m58-cW_4f5x-a1-m60-cW 4f5x-a1-m6-cW_4f5x-a1-m8-cW 4f5x-a1-m6-cW_4f5x-a1-m9-cW GKYNLILSEYLSFIYNSVQIPIYYSSNSELENRCIEFHSKCLENSKNGLSLRKLFVEYNDVIENATLLSILSYSYDKYNAVERKLVKYAKGKPLEADLTVNELDYENNKMTSELFPTAEEYTDSLMDPAILTSLSSNLNAVMFWLEKHENDVAEKLKVYKRRLDLFTIVASTINKYGVPRHNAKYRYEYDVMKDKPYYLVTWANSSIEMLMSVFSHDDYLIAKELIVLSYSNRSTLAKLVSSPMSILVALVDIVPDQTFDELNQMLDNMRKAGLVDIPKMIQDWLVDRSIEKFPLMAKIYSWSFHVGFRKQKMLDAALDQEMYEYTLIDEVVKMLEEPDDHLLRDSELAGLLSMSSASNGESRQLKFGRKTIFSTKKNMHVMDDMANERYTPGIIPPVNVDKPIPLGRRDVPGRRTRIIFILPYEYFIAQHAVVEKMLIYAKHTREYAEFYSQSNQLLSYGDVFVLYTDVSQWDSSQHNTQPFRKGIIMGLKVLQTLNLYKQTQINLMDSYVQIPDGNVIKKIQYGAVASGEKQTKAANSIANLALIKTVLHATKIIRVDGDDNYAVLIQDVSNDVRETYARMNAKVKALVSVGIEIAKRYIAGGKIFFRAGINLLNNEKRGQSTQWDQAAILYSNYIVNRLRGFETDREFILTKIMQMTSVAITGSLRLFPSERVLTTNSTFKVFDSEDFIIEYGTTVDEVYIQRAFMSLSSQKSGIADEIAASSTFKNYVTRLSEQLLFSKNNIVSRGIALTEKAKLNSYAPISLEKRRAQISALLTMLQKPVTFKSSKITINDILRDIKPFFTVSDAHLPIQYQKFMPTLPDNVQYIIQCIGSRTYQIEDDGSKSAISRLISSVYKPSIEELYKVISLHENEIYLSLGIYSDKYRILESYVYNLLSINYGCYQLFDFNSPDLKLIRFILHLYAKLEVINYAIKNGSWISLFCNYPKSEMIKLWKKMWNITSLRSPYTNANFF 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4f5x-a1-m8-cW_4f5x-a1-m9-cW Location of the dsRNA-dependent polymerase, VP1, in rotavirus particles O37061 O37061 5 X-RAY DIFFRACTION 3287 1.0 36434 (Simian 11 rotavirus (serotype 3 / strain SA11-Patton)) 36434 (Simian 11 rotavirus (serotype 3 / strain SA11-Patton)) 975 975 4au6-a1-m1-cA_4au6-a1-m1-cB 4au6-a1-m1-cA_4au6-a1-m1-cE 4au6-a1-m1-cB_4au6-a1-m1-cC 4au6-a1-m1-cC_4au6-a1-m1-cD 4au6-a1-m1-cD_4au6-a1-m1-cE 4f5x-a1-m10-cW_4f5x-a1-m6-cW 4f5x-a1-m10-cW_4f5x-a1-m9-cW 4f5x-a1-m11-cW_4f5x-a1-m12-cW 4f5x-a1-m11-cW_4f5x-a1-m15-cW 4f5x-a1-m12-cW_4f5x-a1-m13-cW 4f5x-a1-m13-cW_4f5x-a1-m14-cW 4f5x-a1-m14-cW_4f5x-a1-m15-cW 4f5x-a1-m16-cW_4f5x-a1-m17-cW 4f5x-a1-m16-cW_4f5x-a1-m20-cW 4f5x-a1-m17-cW_4f5x-a1-m18-cW 4f5x-a1-m18-cW_4f5x-a1-m19-cW 4f5x-a1-m19-cW_4f5x-a1-m20-cW 4f5x-a1-m1-cW_4f5x-a1-m2-cW 4f5x-a1-m1-cW_4f5x-a1-m5-cW 4f5x-a1-m21-cW_4f5x-a1-m22-cW 4f5x-a1-m21-cW_4f5x-a1-m25-cW 4f5x-a1-m22-cW_4f5x-a1-m23-cW 4f5x-a1-m23-cW_4f5x-a1-m24-cW 4f5x-a1-m24-cW_4f5x-a1-m25-cW 4f5x-a1-m26-cW_4f5x-a1-m27-cW 4f5x-a1-m26-cW_4f5x-a1-m30-cW 4f5x-a1-m27-cW_4f5x-a1-m28-cW 4f5x-a1-m28-cW_4f5x-a1-m29-cW 4f5x-a1-m29-cW_4f5x-a1-m30-cW 4f5x-a1-m2-cW_4f5x-a1-m3-cW 4f5x-a1-m31-cW_4f5x-a1-m32-cW 4f5x-a1-m31-cW_4f5x-a1-m35-cW 4f5x-a1-m32-cW_4f5x-a1-m33-cW 4f5x-a1-m33-cW_4f5x-a1-m34-cW 4f5x-a1-m34-cW_4f5x-a1-m35-cW 4f5x-a1-m36-cW_4f5x-a1-m37-cW 4f5x-a1-m36-cW_4f5x-a1-m40-cW 4f5x-a1-m37-cW_4f5x-a1-m38-cW 4f5x-a1-m38-cW_4f5x-a1-m39-cW 4f5x-a1-m39-cW_4f5x-a1-m40-cW 4f5x-a1-m3-cW_4f5x-a1-m4-cW 4f5x-a1-m41-cW_4f5x-a1-m42-cW 4f5x-a1-m41-cW_4f5x-a1-m45-cW 4f5x-a1-m42-cW_4f5x-a1-m43-cW 4f5x-a1-m43-cW_4f5x-a1-m44-cW 4f5x-a1-m44-cW_4f5x-a1-m45-cW 4f5x-a1-m46-cW_4f5x-a1-m47-cW 4f5x-a1-m46-cW_4f5x-a1-m50-cW 4f5x-a1-m47-cW_4f5x-a1-m48-cW 4f5x-a1-m48-cW_4f5x-a1-m49-cW 4f5x-a1-m49-cW_4f5x-a1-m50-cW 4f5x-a1-m4-cW_4f5x-a1-m5-cW 4f5x-a1-m51-cW_4f5x-a1-m52-cW 4f5x-a1-m51-cW_4f5x-a1-m55-cW 4f5x-a1-m52-cW_4f5x-a1-m53-cW 4f5x-a1-m53-cW_4f5x-a1-m54-cW 4f5x-a1-m54-cW_4f5x-a1-m55-cW 4f5x-a1-m56-cW_4f5x-a1-m57-cW 4f5x-a1-m56-cW_4f5x-a1-m60-cW 4f5x-a1-m57-cW_4f5x-a1-m58-cW 4f5x-a1-m58-cW_4f5x-a1-m59-cW 4f5x-a1-m59-cW_4f5x-a1-m60-cW 4f5x-a1-m6-cW_4f5x-a1-m7-cW 4f5x-a1-m7-cW_4f5x-a1-m8-cW GKYNLILSEYLSFIYNSVQIPIYYSSNSELENRCIEFHSKCLENSKNGLSLRKLFVEYNDVIENATLLSILSYSYDKYNAVERKLVKYAKGKPLEADLTVNELDYENNKMTSELFPTAEEYTDSLMDPAILTSLSSNLNAVMFWLEKHENDVAEKLKVYKRRLDLFTIVASTINKYGVPRHNAKYRYEYDVMKDKPYYLVTWANSSIEMLMSVFSHDDYLIAKELIVLSYSNRSTLAKLVSSPMSILVALVDIVPDQTFDELNQMLDNMRKAGLVDIPKMIQDWLVDRSIEKFPLMAKIYSWSFHVGFRKQKMLDAALDQEMYEYTLIDEVVKMLEEPDDHLLRDSELAGLLSMSSASNGESRQLKFGRKTIFSTKKNMHVMDDMANERYTPGIIPPVNVDKPIPLGRRDVPGRRTRIIFILPYEYFIAQHAVVEKMLIYAKHTREYAEFYSQSNQLLSYGDVFVLYTDVSQWDSSQHNTQPFRKGIIMGLKVLQTLNLYKQTQINLMDSYVQIPDGNVIKKIQYGAVASGEKQTKAANSIANLALIKTVLHATKIIRVDGDDNYAVLIQDVSNDVRETYARMNAKVKALVSVGIEIAKRYIAGGKIFFRAGINLLNNEKRGQSTQWDQAAILYSNYIVNRLRGFETDREFILTKIMQMTSVAITGSLRLFPSERVLTTNSTFKVFDSEDFIIEYGTTVDEVYIQRAFMSLSSQKSGIADEIAASSTFKNYVTRLSEQLLFSKNNIVSRGIALTEKAKLNSYAPISLEKRRAQISALLTMLQKPVTFKSSKITINDILRDIKPFFTVSDAHLPIQYQKFMPTLPDNVQYIIQCIGSRTYQIEDDGSKSAISRLISSVYKPSIEELYKVISLHENEIYLSLGIYSDKYRILESYVYNLLSINYGCYQLFDFNSPDLKLIRFILHLYAKLEVINYAIKNGSWISLFCNYPKSEMIKLWKKMWNITSLRSPYTNANFF GKYNLILSEYLSFIYNSVQIPIYYSSNSELENRCIEFHSKCLENSKNGLSLRKLFVEYNDVIENATLLSILSYSYDKYNAVERKLVKYAKGKPLEADLTVNELDYENNKMTSELFPTAEEYTDSLMDPAILTSLSSNLNAVMFWLEKHENDVAEKLKVYKRRLDLFTIVASTINKYGVPRHNAKYRYEYDVMKDKPYYLVTWANSSIEMLMSVFSHDDYLIAKELIVLSYSNRSTLAKLVSSPMSILVALVDIVPDQTFDELNQMLDNMRKAGLVDIPKMIQDWLVDRSIEKFPLMAKIYSWSFHVGFRKQKMLDAALDQEMYEYTLIDEVVKMLEEPDDHLLRDSELAGLLSMSSASNGESRQLKFGRKTIFSTKKNMHVMDDMANERYTPGIIPPVNVDKPIPLGRRDVPGRRTRIIFILPYEYFIAQHAVVEKMLIYAKHTREYAEFYSQSNQLLSYGDVFVLYTDVSQWDSSQHNTQPFRKGIIMGLKVLQTLNLYKQTQINLMDSYVQIPDGNVIKKIQYGAVASGEKQTKAANSIANLALIKTVLHATKIIRVDGDDNYAVLIQDVSNDVRETYARMNAKVKALVSVGIEIAKRYIAGGKIFFRAGINLLNNEKRGQSTQWDQAAILYSNYIVNRLRGFETDREFILTKIMQMTSVAITGSLRLFPSERVLTTNSTFKVFDSEDFIIEYGTTVDEVYIQRAFMSLSSQKSGIADEIAASSTFKNYVTRLSEQLLFSKNNIVSRGIALTEKAKLNSYAPISLEKRRAQISALLTMLQKPVTFKSSKITINDILRDIKPFFTVSDAHLPIQYQKFMPTLPDNVQYIIQCIGSRTYQIEDDGSKSAISRLISSVYKPSIEELYKVISLHENEIYLSLGIYSDKYRILESYVYNLLSINYGCYQLFDFNSPDLKLIRFILHLYAKLEVINYAIKNGSWISLFCNYPKSEMIKLWKKMWNITSLRSPYTNANFF 4f62-a1-m1-cB_4f62-a1-m1-cA Crystal structure of a putative farnesyl-diphosphate synthase from Marinomonas sp. MED121 (Target EFI-501980) A3YCB7 A3YCB7 2.101 X-RAY DIFFRACTION 147 1.0 314277 (Marinomonas sp. MED121) 314277 (Marinomonas sp. MED121) 255 267 VMNLKQFSTYTQSRVDQYLEQQLSDYAPANQLHNAMRYSLFGGKRIRPMLTYASAQLVGDISSLTDASAAALESIHAYSLIHDDLPAMFDEATAILAGDALQTFAFELLSNPTSAQPELAIKLIQELVVASGRNGMITGQMIDLSSENISLAELEQMHVHKTGALIKASVRMGALSTGQVKPEQLAKLDAYAHAIGLAFQVQDDIIDLKATYPKLLGLDGAKALVVRLHEQAIAQISEFGDKSQPLTDLANYIID VMNLKQFSTYTQSRVDQYLEQQLSDYAPANQLHNAMRYSLFGGKRIRPMLTYASAQLVGDISSLTDASAAALESIHAYSLIHDDLPAMDNPTCHIQFDEATAILAGDALQTFAFELLSNPTSAQPELAIKLIQELVVASGRNGMITGQMIDLSSENKNISLAELEQMHVHKTGALIKASVRMGALSTGQVKPEQLAKLDAYAHAIGLAFQVQDDIIDLTNKATYPKLLGLDGAKALVVRLHEQAIAQISEFGDKSQPLTDLANYIID 4f66-a1-m1-cA_4f66-a1-m1-cB The crystal structure of 6-phospho-beta-glucosidase from Streptococcus mutans UA159 in complex with beta-D-glucose-6-phosphate. Q8DT00 Q8DT00 1.479 X-RAY DIFFRACTION 120 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 478 478 3pn8-a3-m1-cB_3pn8-a3-m1-cA 4f79-a1-m1-cA_4f79-a1-m2-cA 4gpn-a1-m1-cB_4gpn-a1-m1-cA AMSKLPENFLWGGAVAAHQLEGGWQEGGKGISVADVMTAGRHGVAREITAGVLEGKYYPNHEAIDFYHHYKEDVKLFAEMGFKCFRTSIAWTRIFPKGDEAEPNEAGLQFYDDLFDECLKYGIEPVVTLSHFELPYHLVTEYGGFTNRKVIDFFVHFAEVCFRRYKDKVKYWMTFNEINNQANYQEDFAPFTNSGIVYKEGDDREAIMYQAAHYELVASARAVKIGHAINPNLNIGCMVAMCPIYPATCNPKDILMAQKAMQKRYYFADVHVHGFYPEHIFKYWERKAIKVDFTERDKKDLFEGTVDYIGFSYYMSFVIDAHRENNPYYDYLETEDLVKNPYVKASDWDWQIDPQGLRYALNWFTDMYHLPLFIVENGFGAIDQVEADGMVHDDYRIDYLGAHIKEMIKAVDEDGVELMGYTPWGCIDLVSAGTGEMRKRYGFIYVDKDDEGKGTLKRSPKLSFNWYKEVIASNGDDI AMSKLPENFLWGGAVAAHQLEGGWQEGGKGISVADVMTAGRHGVAREITAGVLEGKYYPNHEAIDFYHHYKEDVKLFAEMGFKCFRTSIAWTRIFPKGDEAEPNEAGLQFYDDLFDECLKYGIEPVVTLSHFELPYHLVTEYGGFTNRKVIDFFVHFAEVCFRRYKDKVKYWMTFNEINNQANYQEDFAPFTNSGIVYKEGDDREAIMYQAAHYELVASARAVKIGHAINPNLNIGCMVAMCPIYPATCNPKDILMAQKAMQKRYYFADVHVHGFYPEHIFKYWERKAIKVDFTERDKKDLFEGTVDYIGFSYYMSFVIDAHRENNPYYDYLETEDLVKNPYVKASDWDWQIDPQGLRYALNWFTDMYHLPLFIVENGFGAIDQVEADGMVHDDYRIDYLGAHIKEMIKAVDEDGVELMGYTPWGCIDLVSAGTGEMRKRYGFIYVDKDDEGKGTLKRSPKLSFNWYKEVIASNGDDI 4f6e-a1-m1-cB_4f6e-a1-m1-cA Crystal Structure of the K182R, A183P mutant manganese superoxide dismutase from Sacchromyces cerevisiae P00447 P00447 1.6 X-RAY DIFFRACTION 54 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 191 192 3bfr-a1-m1-cA_3bfr-a1-m3-cA 3bfr-a1-m2-cA_3bfr-a1-m4-cA 3lsu-a1-m1-cA_3lsu-a1-m1-cB 3lsu-a1-m1-cC_3lsu-a1-m1-cD 3rn4-a1-m1-cA_3rn4-a1-m2-cA 3rn4-a1-m3-cA_3rn4-a1-m4-cA 4e4e-a1-m1-cA_4e4e-a1-m1-cB 4e4e-a1-m1-cD_4e4e-a1-m1-cC 4f6e-a1-m1-cD_4f6e-a1-m1-cC VTLPDLWDFGALEPYISGQINELHYTHHQTYVNGFNTAVDQFQELSDLLAEPSPANARMIAIQQNIFHGGGFTNHCLFWENLAPESQGGGEPPTGALAAIDEQFGSLDELILTNTLAGVQGSGWAFIVNLSNGGLDVVQTYNQDTVTGPLVPLVAIDAWEHAYYLQYQNRPDYFAIWNVVNWEASRRFDAG VTLPDLWDFGALEPYISGQINELHYTHHQTYVNGFNTAVDQFQELSDLLAEPSPANARMIAIQQNIFHGGGFTNHCLFWENLAPESQGGGEPPTGALAAIDEQFGSLDELILTNTLAGVQGSGWAFIVNLSNGGLDVVQTYNQDTVTGPLVPLVAIDAWEHAYYLQYQNRPDYFAIWNVVNWEASRRFDAGI 4f7f-a1-m1-cA_4f7f-a1-m1-cB Structure of Anopheles gambiae odorant binding protein 20 Q7Q9J3 Q7Q9J3 1.8 X-RAY DIFFRACTION 29 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 119 119 TVEQMMKSGEMIRSVCLGKTKVAEELVNGLRESKFADVKELKCYVNCVMEMMQTMKKGKLNYDASVKQIDTIMPDELAGPMRAALDICRTVADGIKNNCDAAYVLLQCLSKNNPKFIFP TVEQMMKSGEMIRSVCLGKTKVAEELVNGLRESKFADVKELKCYVNCVMEMMQTMKKGKLNYDASVKQIDTIMPDELAGPMRAALDICRTVADGIKNNCDAAYVLLQCLSKNNPKFIFP 4f7f-a2-m1-cC_4f7f-a2-m1-cD Structure of Anopheles gambiae odorant binding protein 20 Q7Q9J3 Q7Q9J3 1.8 X-RAY DIFFRACTION 29 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 119 119 TVEQMMKSGEMIRSVCLGKTKVAEELVNGLRESKFADVKELKCYVNCVMEMMQTMKKGKLNYDASVKQIDTIMPDELAGPMRAALDICRTVADGIKNNCDAAYVLLQCLSKNNPKFIFP TVEQMMKSGEMIRSVCLGKTKVAEELVNGLRESKFADVKELKCYVNCVMEMMQTMKKGKLNYDASVKQIDTIMPDELAGPMRAALDICRTVADGIKNNCDAAYVLLQCLSKNNPKFIFP 4f7f-a4-m1-cB_4f7f-a4-m3-cC Structure of Anopheles gambiae odorant binding protein 20 Q7Q9J3 Q7Q9J3 1.8 X-RAY DIFFRACTION 34 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 119 119 4f7f-a3-m1-cA_4f7f-a3-m2-cD TVEQMMKSGEMIRSVCLGKTKVAEELVNGLRESKFADVKELKCYVNCVMEMMQTMKKGKLNYDASVKQIDTIMPDELAGPMRAALDICRTVADGIKNNCDAAYVLLQCLSKNNPKFIFP TVEQMMKSGEMIRSVCLGKTKVAEELVNGLRESKFADVKELKCYVNCVMEMMQTMKKGKLNYDASVKQIDTIMPDELAGPMRAALDICRTVADGIKNNCDAAYVLLQCLSKNNPKFIFP 4f7o-a2-m1-cA_4f7o-a2-m2-cB Crystal structure of CSN5 Q92905 Q92905 2.6 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 225 4f7o-a2-m1-cB_4f7o-a2-m2-cA AASGSGAQKTWELANNQEAQSIDEIYKYDKKQQQEILAAKPWTKDHHYFKYCKISALALLKVHARSGGNLEVGLLGKVDGETIIDSFALPVEGTETRVNAQAAAYEYAAYIENAKQVGRLENAIGWYHSHPGYGCWLSGIDVSTQLNQQFQEPFVAVVIDPTRTISAGKVNLGAFRTYPKGYKPPDKQYYALEVSYFKSSLDRKLLELLWNKYWVNTLSSSSLLT AASGSGAQKTWELANNQEAQSIDEIYKYDKKQQQEILAAKPWTKDHHYFKYCKISALALLKVHARSGGNLEVGLLGKVDGETIIDSFALPVEGTETRVNAQAAAYEYAAYIENAKQVGRLENAIGWYHSHPGYGCWLSGIDVSTQLNQQFQEPFVAVVIDPTRTISAGKVNLGAFRTYPKGYKPPDKQYYALEVSYFKSSLDRKLLELLWNKYWVNTLSSSSLLT 4f7o-a2-m2-cA_4f7o-a2-m2-cB Crystal structure of CSN5 Q92905 Q92905 2.6 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 225 4f7o-a1-m1-cA_4f7o-a1-m1-cB 4f7o-a2-m1-cA_4f7o-a2-m1-cB AASGSGAQKTWELANNQEAQSIDEIYKYDKKQQQEILAAKPWTKDHHYFKYCKISALALLKVHARSGGNLEVGLLGKVDGETIIDSFALPVEGTETRVNAQAAAYEYAAYIENAKQVGRLENAIGWYHSHPGYGCWLSGIDVSTQLNQQFQEPFVAVVIDPTRTISAGKVNLGAFRTYPKGYKPPDKQYYALEVSYFKSSLDRKLLELLWNKYWVNTLSSSSLLT AASGSGAQKTWELANNQEAQSIDEIYKYDKKQQQEILAAKPWTKDHHYFKYCKISALALLKVHARSGGNLEVGLLGKVDGETIIDSFALPVEGTETRVNAQAAAYEYAAYIENAKQVGRLENAIGWYHSHPGYGCWLSGIDVSTQLNQQFQEPFVAVVIDPTRTISAGKVNLGAFRTYPKGYKPPDKQYYALEVSYFKSSLDRKLLELLWNKYWVNTLSSSSLLT 4f7r-a1-m1-cA_4f7r-a1-m1-cB Crystal structure of 14-3-3 protein from Giardia intestinalis E2RU97 E2RU97 3.2 X-RAY DIFFRACTION 56 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 236 237 4f7r-a2-m1-cC_4f7r-a2-m1-cD 4zq0-a1-m1-cB_4zq0-a1-m1-cA 4zq0-a2-m1-cD_4zq0-a2-m1-cC 5by9-a1-m1-cB_5by9-a1-m1-cA 5by9-a2-m1-cC_5by9-a2-m1-cD AEAFTREDYVFMAQLNENAERYDEMVETMRKISGMEGELSDKERNLLSVAYKNVIGPRRAAWRIVSSIEAKEKGRQKPNAKRIEQIRVYRQKIEKELSDICNDILKLLQEQFVPRSTNADAKVFYYKMQGDYYRYLAEYSSGEDKEKIAGSALNAYNSAFEISQQLPPTHPIRLGLALNFSVFYYEILASPDRACELARKAFDAAITDLDKLTEESYKDSTLIMQLLRDNLNLWVT AEAFTREDYVFMAQLNENAERYDEMVETMRKISGMEGELSDKERNLLSVAYKNVIGPRRAAWRIVSSIEAKEKGRQKPNAKRIEQIRVYRQKIEKELSDICNDILKLLQEQFVPRSTNADAKVFYYKMQGDYYRYLAEYSSGEDKEKIAGSALNAYNSAFEISQQLPPTHPIRLGLALNFSVFYYEILASPDRACELARKAFDAAITDLDKLTEESYKDSTLIMQLLRDNLNLWVTD 4f80-a1-m1-cA_4f80-a1-m2-cA Crystal Structure of the human BTN3A1 ectodomain O00481 O00481 1.944 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 4f8t-a1-m1-cA_4f8t-a1-m2-cA 4f9l-a1-m1-cB_4f9l-a1-m1-cA 4f9p-a1-m1-cA_4f9p-a1-m1-cB QFSVLGPSGPILAMVGEDADLPCHLFPTMSAETMELKWVSSSLRQVVNVYADGKEVEDRQSAPYRGRTSILRDGITAGKAALRIHNVTASDSGKYLCYFQDGDFYEKALVELKVAALGSDLHVDVKGYKDGGIHLECRSTGWYPQPQIQWSNNKGENIPTVEAPVVADGVGLYAVAASVIMRGGVSCTIRSSLLGLEKTASISIADPFF QFSVLGPSGPILAMVGEDADLPCHLFPTMSAETMELKWVSSSLRQVVNVYADGKEVEDRQSAPYRGRTSILRDGITAGKAALRIHNVTASDSGKYLCYFQDGDFYEKALVELKVAALGSDLHVDVKGYKDGGIHLECRSTGWYPQPQIQWSNNKGENIPTVEAPVVADGVGLYAVAASVIMRGGVSCTIRSSLLGLEKTASISIADPFF 4f82-a1-m1-cB_4f82-a1-m1-cA X-ray crystal structure of a putative thioredoxin reductase from Burkholderia cenocepacia B4E5Y6 B4E5Y6 1.85 X-RAY DIFFRACTION 70 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 169 171 HMIQVGDALPDAQLFEFIDDAREGCTLGPNACSVRDQVAGKRVVIFGLPGAFTPTCSAQHVPGYVEHAEQLRAAGIDEIWCVSVNDAFVMGAWGRDLHTAGKVRMMADGSAAFTHALGLTQDLSARGMGIRSLRYAMVIDGGVVKTLAVEAPGKFEVSDAASVLATLTS HHHMIQVGDALPDAQLFEFIDDAREGCTLGPNACSVRDQVAGKRVVIFGLPGAFTPTCSAQHVPGYVEHAEQLRAAGIDEIWCVSVNDAFVMGAWGRDLHTAGKVRMMADGSAAFTHALGLTQDLSARGMGIRSLRYAMVIDGGVVKTLAVEAPGKFEVSDAASVLATLTS 4f84-a1-m2-cA_4f84-a1-m6-cA Structure analysis of Geranyl diphosphate methyltransferase in complex with SAM D3KYU3 D3KYU3 2.2 X-RAY DIFFRACTION 37 1.0 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 248 248 4f84-a1-m1-cA_4f84-a1-m4-cA 4f84-a1-m3-cA_4f84-a1-m5-cA 4f85-a1-m1-cA_4f85-a1-m4-cA 4f85-a1-m2-cA_4f85-a1-m6-cA 4f85-a1-m3-cA_4f85-a1-m5-cA 4f86-a1-m1-cB_4f86-a1-m1-cA 4f86-a1-m1-cD_4f86-a1-m1-cC 4f86-a1-m1-cF_4f86-a1-m1-cE 4f86-a2-m1-cH_4f86-a2-m1-cG 4f86-a2-m1-cJ_4f86-a2-m1-cI 4f86-a2-m1-cK_4f86-a2-m1-cL GLYHHHYGIGAVDHAALGDPGDGGYEARLIAELHRLESAQAEFLLDHLGPVGPGDTLVDAGCGRGGSMVMAHQRFGCKVEGVTLSAAQAEFGNRRARELGIDDHVRSRVCNMLDTPFEKGTVAASWNNESSMYVDLHDVFAEHSRFLRVGGRYVTVTGCWNPRYGQPSKWVSQINAHFECNIHSRREYLRAMADNRLVPQTVVDLTPETLPYWELRATSSLVTGIEEAFIESYRDGSFQYVLIAADRV GLYHHHYGIGAVDHAALGDPGDGGYEARLIAELHRLESAQAEFLLDHLGPVGPGDTLVDAGCGRGGSMVMAHQRFGCKVEGVTLSAAQAEFGNRRARELGIDDHVRSRVCNMLDTPFEKGTVAASWNNESSMYVDLHDVFAEHSRFLRVGGRYVTVTGCWNPRYGQPSKWVSQINAHFECNIHSRREYLRAMADNRLVPQTVVDLTPETLPYWELRATSSLVTGIEEAFIESYRDGSFQYVLIAADRV 4f85-a1-m1-cA_4f85-a1-m6-cA Structure analysis of Geranyl diphosphate methyltransferase D3KYU3 D3KYU3 2.2 X-RAY DIFFRACTION 59 1.0 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 246 246 4f84-a1-m1-cA_4f84-a1-m6-cA 4f84-a1-m2-cA_4f84-a1-m5-cA 4f84-a1-m3-cA_4f84-a1-m4-cA 4f85-a1-m2-cA_4f85-a1-m5-cA 4f85-a1-m3-cA_4f85-a1-m4-cA 4f86-a1-m1-cB_4f86-a1-m1-cC 4f86-a1-m1-cE_4f86-a1-m1-cD 4f86-a1-m1-cF_4f86-a1-m1-cA 4f86-a2-m1-cG_4f86-a2-m1-cL 4f86-a2-m1-cH_4f86-a2-m1-cI 4f86-a2-m1-cK_4f86-a2-m1-cJ YHHHYGIGAVDHAALGDPGDGGYEARLIAELHRLESAQAEFLLDHLGPVGPGDTLVDAGCGRGGSMVMAHQRFGCKVEGVTLSAAQAEFGNRRARELGIDDHVRSRVCNMLDTPFEKGTVAASWNNESSMYVDLHDVFAEHSRFLRVGGRYVTVTGCWNPRYGQPSKWVSQINAHFECNIHSRREYLRAMADNRLVPQTVVDLTPETLPYWELRATSSLVTGIEEAFIESYRDGSFQYVLIAADRV YHHHYGIGAVDHAALGDPGDGGYEARLIAELHRLESAQAEFLLDHLGPVGPGDTLVDAGCGRGGSMVMAHQRFGCKVEGVTLSAAQAEFGNRRARELGIDDHVRSRVCNMLDTPFEKGTVAASWNNESSMYVDLHDVFAEHSRFLRVGGRYVTVTGCWNPRYGQPSKWVSQINAHFECNIHSRREYLRAMADNRLVPQTVVDLTPETLPYWELRATSSLVTGIEEAFIESYRDGSFQYVLIAADRV 4f88-a1-m1-cA_4f88-a1-m1-cG X-ray Crystal Structure of PlyC Q7Y3F3 Q7Y3F3 3.3 X-RAY DIFFRACTION 15 1.0 230871 (Fischettivirus C1) 230871 (Fischettivirus C1) 68 69 INVNVENVSGVQGFLFHTDGKESYGYRAFINGVEIGIKDIETVQGFQQIIPSINISKSDVEAIRKAMK KINVNVENVSGVQGFLFHTDGKESYGYRAFINGVEIGIKDIETVQGFQQIIPSINISKSDVEAIRKAMK 4f88-a2-m1-cL_4f88-a2-m1-cM X-ray Crystal Structure of PlyC Q7Y3F3 Q7Y3F3 3.3 X-RAY DIFFRACTION 66 1.0 230871 (Fischettivirus C1) 230871 (Fischettivirus C1) 55 65 NVSGVQGFLFHTESYGYRFINGVEIGIKDIETVQGFQQIIPSSKSDVEAIRKAMK NVENVSGVQGFLFHTDGKESYGYRAFINGVEIGIKDIETVQGFQQIIPSINISKSDVEAIRKAMK 4f8b-a1-m1-cB_4f8b-a1-m2-cD Crystal Structure of the Covalent Thioimide Intermediate of Unimodular Nitrile Reductase QueF O31678 O31678 2.502 X-RAY DIFFRACTION 31 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 145 145 4f8b-a1-m1-cA_4f8b-a1-m2-cE 4f8b-a1-m1-cC_4f8b-a1-m2-cC 4f8b-a1-m1-cD_4f8b-a1-m2-cB 4f8b-a1-m2-cA_4f8b-a1-m1-cE 4fgc-a1-m1-cA_4fgc-a1-m2-cE 4fgc-a1-m1-cB_4fgc-a1-m2-cD 4fgc-a1-m1-cC_4fgc-a1-m2-cC 4fgc-a1-m1-cD_4fgc-a1-m2-cB 4fgc-a1-m2-cA_4fgc-a1-m1-cE 5udg-a1-m1-cA_5udg-a1-m2-cC 5udg-a1-m1-cB_5udg-a1-m2-cB 5udg-a1-m1-cC_5udg-a1-m2-cA 5udg-a1-m1-cD_5udg-a1-m2-cE 5udg-a1-m1-cE_5udg-a1-m2-cD NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR 4f8b-a1-m1-cB_4f8b-a1-m2-cE Crystal Structure of the Covalent Thioimide Intermediate of Unimodular Nitrile Reductase QueF O31678 O31678 2.502 X-RAY DIFFRACTION 33 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 145 145 4f8b-a1-m1-cC_4f8b-a1-m2-cD 4f8b-a1-m1-cD_4f8b-a1-m2-cC 4f8b-a1-m1-cE_4f8b-a1-m2-cB 4fgc-a1-m1-cB_4fgc-a1-m2-cE 4fgc-a1-m1-cC_4fgc-a1-m2-cD 4fgc-a1-m1-cD_4fgc-a1-m2-cC 4fgc-a1-m1-cE_4fgc-a1-m2-cB 5udg-a1-m1-cA_5udg-a1-m2-cD 5udg-a1-m1-cB_5udg-a1-m2-cC 5udg-a1-m1-cC_5udg-a1-m2-cB 5udg-a1-m1-cD_5udg-a1-m2-cA 5udg-a1-m1-cE_5udg-a1-m2-cE NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLCPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR 4f8q-a1-m1-cA_4f8q-a1-m2-cA Crystal Structure of the Human BTN3A2 Ectodomain P78410 P78410 2.3789 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 LQFSVLGPSGPILAMVGEDADLPCHLFPTMSAETMELKWVSSSLRQVVNVYADGKEVEDRQSAPYRGRTSILRDGITAGKAALRIHNVTASDSGKYLCYFQDGDFYEKALVELKVAALGSNLHVEVKGYEDGGIHLECRSTGWYPQPQIQWSNNIPAVEAPVVADGVGLYEVAASVIMRGEGVSCIIRNSLLGLEKTASISIADHHHH LQFSVLGPSGPILAMVGEDADLPCHLFPTMSAETMELKWVSSSLRQVVNVYADGKEVEDRQSAPYRGRTSILRDGITAGKAALRIHNVTASDSGKYLCYFQDGDFYEKALVELKVAALGSNLHVEVKGYEDGGIHLECRSTGWYPQPQIQWSNNIPAVEAPVVADGVGLYEVAASVIMRGEGVSCIIRNSLLGLEKTASISIADHHHH 4f8y-a2-m1-cD_4f8y-a2-m1-cC Complex structure of NADPH:quinone oxidoreductase with menadione in Streptococcus mutans Q8DTD1 Q8DTD1 1.796 X-RAY DIFFRACTION 105 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 188 196 3lcm-a1-m1-cB_3lcm-a1-m1-cA 3lcm-a2-m1-cD_3lcm-a2-m1-cC 4f8y-a1-m1-cB_4f8y-a1-m1-cA MKILIVYTHPNPTSFNAEILKQVQTNLSKEHTVSTLDLYAEHFDPVLQFNETHKRRDLAKVAEMEKYRDLVTWADHLIFIFPIWWSGMPAILKGFIDRVFVADFAYSYKKVGLEGHLQGKSAWIITTHNTPSFAMPFVQDYGKVLKKQILKPCAISPVKLTELTSIEKISDDERQKLLHKVAQITRNI MKILIVYTHPNPTSFNAEILKQVQTNLSKEHTVSTLDLYAEHFDPVLQFNETHKRRDLAKVAEMEKYRDLVTWADHLIFIFPIWWSGMPAILKGFIDRVFVADFAYSYKKVGLEGHLQGKSAWIITTHNTPSFAMPFVQDYGKVLKKQILKPCAISPVKLTELTSIEKISDDERQKLLHKVAQITRNILEHHHHHH 4f98-a1-m1-cA_4f98-a1-m2-cA Crystal structure of a DUF2790 family protein (PA3229) from Pseudomonas aeruginosa PAO1 at 1.26 A resolution Q9HZ11 Q9HZ11 1.26 X-RAY DIFFRACTION 67 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 61 61 KDPGRGLPVEEYHYGQLDVKNVLHRTDNSTRTGVVPVTVVYEDHSGELHKIRFLEWGGSTS KDPGRGLPVEEYHYGQLDVKNVLHRTDNSTRTGVVPVTVVYEDHSGELHKIRFLEWGGSTS 4f9g-a1-m1-cC_4f9g-a1-m1-cA Crystal structure of STING complex with Cyclic di-GMP. Q86WV6 Q86WV6 2.95 X-RAY DIFFRACTION 52 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 169 170 6nt5-a1-m1-cA_6nt5-a1-m1-cB 8gsz-a1-m1-cA_8gsz-a1-m1-cB NVAHGLAWSYYIGYLRLILPELQARIRTYNQHYNNLRGAVSQRLYILLPLDCGVPDNLSMADPNIRFLDKLPVYSNSIYELLENGQRAGTCVLEYATPLQTLFAMSQYSQAGFSREDRLEQAKLFCRTLEDILADAPNNCRLIAYQEPFSLSQEVLRHLRQEEKEEVTV NVAHGLAWSYYIGYLRLILPELQARIRTYNQHYNNLRGAVSQRLYILLPLDCGVPDNLSMADPNIRFLDKLPQYSNSIYELLENGQRAGTCVLEYATPLQTLFAMSQYSQAGFSREDRLEQAKLFCRTLEDILADAPNNCRLIAYQEPSFSLSQEVLRHLRQEEKEEVTV 4f9k-a2-m1-cD_4f9k-a2-m1-cC Crystal Structure of human cAMP-dependent protein kinase type I-beta regulatory subunit (fragment 11-73), Northeast Structural Genomics Consortium (NESG) Target HR8613A P31321 P31321 2.8 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 54 57 4f9k-a1-m1-cA_4f9k-a1-m1-cB KGCELYVQLHGIQQVLKDCIVHLCISKPERPKFLREHFEKLEKEENRQILARQK KGCELYVQLHGIQQVLKDCIVHLCISKPERPKFLREHFEKLEKEENRQILARQKSNS 4fag-a1-m3-cA_4fag-a1-m4-cA Crystal Structure of the Salicylate 1,2-dioxygenase from Pseudoaminobacter salicylatoxidans W104Y mutant in complex with gentisate Q67FT0 Q67FT0 2.5 X-RAY DIFFRACTION 312 1.0 93369 (Pseudaminobacter salicylatoxidans) 93369 (Pseudaminobacter salicylatoxidans) 362 362 2phd-a1-m1-cB_2phd-a1-m1-cD 2phd-a1-m1-cC_2phd-a1-m1-cA 3njz-a1-m1-cA_3njz-a1-m2-cA 3njz-a1-m3-cA_3njz-a1-m4-cA 3nkt-a1-m1-cA_3nkt-a1-m2-cA 3nkt-a1-m3-cA_3nkt-a1-m4-cA 3nl1-a1-m1-cA_3nl1-a1-m2-cA 3nl1-a1-m3-cA_3nl1-a1-m4-cA 3nst-a1-m1-cA_3nst-a1-m2-cA 3nst-a1-m3-cA_3nst-a1-m4-cA 3nvc-a1-m1-cA_3nvc-a1-m2-cA 3nvc-a1-m3-cA_3nvc-a1-m4-cA 3nw4-a1-m1-cA_3nw4-a1-m2-cA 3nw4-a1-m3-cA_3nw4-a1-m4-cA 4fag-a1-m1-cA_4fag-a1-m2-cA 4fah-a1-m1-cA_4fah-a1-m2-cA 4fah-a1-m3-cA_4fah-a1-m4-cA 4fbf-a1-m1-cA_4fbf-a1-m2-cA 4fbf-a1-m3-cA_4fbf-a1-m4-cA LDHESVTQAMQPKDTPELRALYKSFEEESIIPLWTQLGDLMPIHPKSKAVPHVWKWSTLLRLARKSGELVPVGRGGERRALGLANPGLGGNAYISPTMYAGIQYLGPRETAPEHRHSQNAFRFVVEGEGVWTVVNGDPVRMSRGDLLLTPGWCFHGHMNDTDQPMAWIDGLDIPFSQQMDVGFFEFGSDRVTDYATPNFSRGERLWCHPGLRPLSGLQNTVASPIGAYRWEFTDRALTEQLLLEDEGQPATVAPGHAAIRYVNPTTGGDVMPTLRCEFHRLRAGTETATRNEVGSTVFQVFEGAGAVVMNGETTKLEKGDMFVVPSWVPWSLQAETQFDLFRFSDAPIMEALSFMRTKIEGQ LDHESVTQAMQPKDTPELRALYKSFEEESIIPLWTQLGDLMPIHPKSKAVPHVWKWSTLLRLARKSGELVPVGRGGERRALGLANPGLGGNAYISPTMYAGIQYLGPRETAPEHRHSQNAFRFVVEGEGVWTVVNGDPVRMSRGDLLLTPGWCFHGHMNDTDQPMAWIDGLDIPFSQQMDVGFFEFGSDRVTDYATPNFSRGERLWCHPGLRPLSGLQNTVASPIGAYRWEFTDRALTEQLLLEDEGQPATVAPGHAAIRYVNPTTGGDVMPTLRCEFHRLRAGTETATRNEVGSTVFQVFEGAGAVVMNGETTKLEKGDMFVVPSWVPWSLQAETQFDLFRFSDAPIMEALSFMRTKIEGQ 4fak-a1-m1-cA_4fak-a1-m2-cA Crystal Structure of OrfX in Complex with S-Adenosylmethionine P0C1V0 P0C1V0 1.7 X-RAY DIFFRACTION 85 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 163 163 1vh0-a7-m1-cF_1vh0-a7-m1-cE 1vh0-a8-m1-cA_1vh0-a8-m1-cB 1vh0-a9-m1-cD_1vh0-a9-m1-cC AAEFMKITILAVGKLKEKYWKQAIAEYEKRLGPYTKIDIIEVPDEKAPENMSDKEIEQVKEKEGQRILAKIKPQSTVITLEIQGKMLSSEGLAQELNQRMTQGQSDFVFVIGGSNGLHKDVLQRSNYALSFSKMTFPHQMMRVVLIEQVYRAFKIMRGEAYHK AAEFMKITILAVGKLKEKYWKQAIAEYEKRLGPYTKIDIIEVPDEKAPENMSDKEIEQVKEKEGQRILAKIKPQSTVITLEIQGKMLSSEGLAQELNQRMTQGQSDFVFVIGGSNGLHKDVLQRSNYALSFSKMTFPHQMMRVVLIEQVYRAFKIMRGEAYHK 4fay-a1-m1-cB_4fay-a1-m1-cC Crystal structure of a trimeric bacterial microcompartment shell protein PduB with glycerol metabolites A5VMB3 A5VMB3 1.56 X-RAY DIFFRACTION 112 1.0 557436 (Limosilactobacillus reuteri subsp. reuteri) 557436 (Limosilactobacillus reuteri subsp. reuteri) 227 227 4fay-a1-m1-cA_4fay-a1-m1-cB 4fay-a1-m1-cA_4fay-a1-m1-cC 4i61-a1-m1-cB_4i61-a1-m1-cA 4i61-a1-m1-cB_4i61-a1-m1-cC 4i61-a1-m1-cC_4i61-a1-m1-cA VPEFVGASEIGDTIGMVIPRVDQQLLDKLHVTKQYKTLGILSDRTGAGPQIMAMDEGIKATNMECIDVEWPRDTKGGGGHGCLIIIGGDDPADARQAIRVALDNLHRTFGDVYNAKAGHLELQFTARAAGAAHLGLGAVEGKAFGLICGCPSGIGVVMGDKALKTAGVEPLNFTSPSHGTSFSNEGCLTITGDSGAVRQAVMAGREVGLKLLSQFGEEPVNDFPSYI VPEFVGASEIGDTIGMVIPRVDQQLLDKLHVTKQYKTLGILSDRTGAGPQIMAMDEGIKATNMECIDVEWPRDTKGGGGHGCLIIIGGDDPADARQAIRVALDNLHRTFGDVYNAKAGHLELQFTARAAGAAHLGLGAVEGKAFGLICGCPSGIGVVMGDKALKTAGVEPLNFTSPSHGTSFSNEGCLTITGDSGAVRQAVMAGREVGLKLLSQFGEEPVNDFPSYI 4faz-a1-m1-cB_4faz-a1-m2-cC Kinetic and structural characterization of the 4-oxalocrotonate tautomerase isozymes from Methylibium petroleiphilum A2SI32 A2SI32 1.57 X-RAY DIFFRACTION 47 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 62 62 4faz-a1-m1-cA_4faz-a1-m1-cB 4faz-a1-m1-cA_4faz-a1-m2-cC 4faz-a1-m1-cC_4faz-a1-m2-cA 4faz-a1-m1-cC_4faz-a1-m2-cB 4faz-a1-m2-cA_4faz-a1-m2-cB PFAQIYLIEGRTEEQKRAVIEKVTQAMMEAVGAPKENVRVWIHDVPKENWGIGGVSAKALGR PFAQIYLIEGRTEEQKRAVIEKVTQAMMEAVGAPKENVRVWIHDVPKENWGIGGVSAKALGR 4faz-a1-m2-cB_4faz-a1-m2-cC Kinetic and structural characterization of the 4-oxalocrotonate tautomerase isozymes from Methylibium petroleiphilum A2SI32 A2SI32 1.57 X-RAY DIFFRACTION 70 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 62 62 4faz-a1-m1-cA_4faz-a1-m2-cA 4faz-a1-m1-cB_4faz-a1-m1-cC PFAQIYLIEGRTEEQKRAVIEKVTQAMMEAVGAPKENVRVWIHDVPKENWGIGGVSAKALGR PFAQIYLIEGRTEEQKRAVIEKVTQAMMEAVGAPKENVRVWIHDVPKENWGIGGVSAKALGR 4fb5-a1-m1-cA_4fb5-a1-m2-cB Crystal structure of a probable oxidoreduxtase protein Q2KAI6 Q2KAI6 2.61 X-RAY DIFFRACTION 45 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 355 355 4fb5-a1-m1-cB_4fb5-a1-m2-cA KPLGIGLIGTGYGKCHALAWNAVKTVFGDVERPRLVHLAEAGLAEARAGEFGFEKATADWRALIADPEVDVVSVTTPNQFHAEAIAALEAGKHVWCEKPAPAYADAERLATAERSGKVAALGYNYIQNPVRHIRKLVGDGVIGRVNHVRVEDEDFADPDIFFYWKSELSAGYGALDDFAVHPLSLLWYLFGHVEAVITDVKPYPDRPLSEGGRRAVENHDAANVLRLDGGISAVLANRAAWGRKGRIALQIYGSKGSILYDQERNEFELYQAEGPGSEQGFRKILAAPAHRPYDRFIPAPGHGLGFNDLKIIECRELIRAITGEPSSIVTFKDGLRIEKSVHAAQSFHERRWIEI KPLGIGLIGTGYGKCHALAWNAVKTVFGDVERPRLVHLAEAGLAEARAGEFGFEKATADWRALIADPEVDVVSVTTPNQFHAEAIAALEAGKHVWCEKPAPAYADAERLATAERSGKVAALGYNYIQNPVRHIRKLVGDGVIGRVNHVRVEDEDFADPDIFFYWKSELSAGYGALDDFAVHPLSLLWYLFGHVEAVITDVKPYPDRPLSEGGRRAVENHDAANVLRLDGGISAVLANRAAWGRKGRIALQIYGSKGSILYDQERNEFELYQAEGPGSEQGFRKILAAPAHRPYDRFIPAPGHGLGFNDLKIIECRELIRAITGEPSSIVTFKDGLRIEKSVHAAQSFHERRWIEI 4fb5-a2-m1-cA_4fb5-a2-m1-cB Crystal structure of a probable oxidoreduxtase protein Q2KAI6 Q2KAI6 2.61 X-RAY DIFFRACTION 91 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 355 355 4fb5-a1-m1-cA_4fb5-a1-m1-cB 4fb5-a1-m2-cA_4fb5-a1-m2-cB KPLGIGLIGTGYGKCHALAWNAVKTVFGDVERPRLVHLAEAGLAEARAGEFGFEKATADWRALIADPEVDVVSVTTPNQFHAEAIAALEAGKHVWCEKPAPAYADAERLATAERSGKVAALGYNYIQNPVRHIRKLVGDGVIGRVNHVRVEDEDFADPDIFFYWKSELSAGYGALDDFAVHPLSLLWYLFGHVEAVITDVKPYPDRPLSEGGRRAVENHDAANVLRLDGGISAVLANRAAWGRKGRIALQIYGSKGSILYDQERNEFELYQAEGPGSEQGFRKILAAPAHRPYDRFIPAPGHGLGFNDLKIIECRELIRAITGEPSSIVTFKDGLRIEKSVHAAQSFHERRWIEI KPLGIGLIGTGYGKCHALAWNAVKTVFGDVERPRLVHLAEAGLAEARAGEFGFEKATADWRALIADPEVDVVSVTTPNQFHAEAIAALEAGKHVWCEKPAPAYADAERLATAERSGKVAALGYNYIQNPVRHIRKLVGDGVIGRVNHVRVEDEDFADPDIFFYWKSELSAGYGALDDFAVHPLSLLWYLFGHVEAVITDVKPYPDRPLSEGGRRAVENHDAANVLRLDGGISAVLANRAAWGRKGRIALQIYGSKGSILYDQERNEFELYQAEGPGSEQGFRKILAAPAHRPYDRFIPAPGHGLGFNDLKIIECRELIRAITGEPSSIVTFKDGLRIEKSVHAAQSFHERRWIEI 4fb5-a4-m1-cB_4fb5-a4-m2-cB Crystal structure of a probable oxidoreduxtase protein Q2KAI6 Q2KAI6 2.61 X-RAY DIFFRACTION 106 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 355 355 4fb5-a1-m1-cA_4fb5-a1-m2-cA 4fb5-a1-m1-cB_4fb5-a1-m2-cB 4fb5-a3-m1-cA_4fb5-a3-m2-cA KPLGIGLIGTGYGKCHALAWNAVKTVFGDVERPRLVHLAEAGLAEARAGEFGFEKATADWRALIADPEVDVVSVTTPNQFHAEAIAALEAGKHVWCEKPAPAYADAERLATAERSGKVAALGYNYIQNPVRHIRKLVGDGVIGRVNHVRVEDEDFADPDIFFYWKSELSAGYGALDDFAVHPLSLLWYLFGHVEAVITDVKPYPDRPLSEGGRRAVENHDAANVLRLDGGISAVLANRAAWGRKGRIALQIYGSKGSILYDQERNEFELYQAEGPGSEQGFRKILAAPAHRPYDRFIPAPGHGLGFNDLKIIECRELIRAITGEPSSIVTFKDGLRIEKSVHAAQSFHERRWIEI KPLGIGLIGTGYGKCHALAWNAVKTVFGDVERPRLVHLAEAGLAEARAGEFGFEKATADWRALIADPEVDVVSVTTPNQFHAEAIAALEAGKHVWCEKPAPAYADAERLATAERSGKVAALGYNYIQNPVRHIRKLVGDGVIGRVNHVRVEDEDFADPDIFFYWKSELSAGYGALDDFAVHPLSLLWYLFGHVEAVITDVKPYPDRPLSEGGRRAVENHDAANVLRLDGGISAVLANRAAWGRKGRIALQIYGSKGSILYDQERNEFELYQAEGPGSEQGFRKILAAPAHRPYDRFIPAPGHGLGFNDLKIIECRELIRAITGEPSSIVTFKDGLRIEKSVHAAQSFHERRWIEI 4fbf-a1-m2-cA_4fbf-a1-m4-cA Crystal Structure of the Salicylate 1,2-dioxygenase from Pseudoaminobacter salicylatoxidans W104Y mutant Q67FT0 Q67FT0 2.7 X-RAY DIFFRACTION 144 1.0 93369 (Pseudaminobacter salicylatoxidans) 93369 (Pseudaminobacter salicylatoxidans) 340 340 2phd-a1-m1-cA_2phd-a1-m1-cD 2phd-a1-m1-cB_2phd-a1-m1-cC 3njz-a1-m1-cA_3njz-a1-m3-cA 3njz-a1-m2-cA_3njz-a1-m4-cA 3nkt-a1-m1-cA_3nkt-a1-m3-cA 3nkt-a1-m2-cA_3nkt-a1-m4-cA 3nl1-a1-m1-cA_3nl1-a1-m3-cA 3nl1-a1-m2-cA_3nl1-a1-m4-cA 3nst-a1-m1-cA_3nst-a1-m3-cA 3nst-a1-m2-cA_3nst-a1-m4-cA 3nvc-a1-m1-cA_3nvc-a1-m3-cA 3nvc-a1-m2-cA_3nvc-a1-m4-cA 3nw4-a1-m1-cA_3nw4-a1-m3-cA 3nw4-a1-m2-cA_3nw4-a1-m4-cA 4fag-a1-m1-cA_4fag-a1-m3-cA 4fag-a1-m2-cA_4fag-a1-m4-cA 4fah-a1-m1-cA_4fah-a1-m3-cA 4fah-a1-m2-cA_4fah-a1-m4-cA 4fbf-a1-m1-cA_4fbf-a1-m3-cA QPKDTPELRALYKSFEEESIIPLWTQGDLMPIHPKSKAVPHVWKWSTLLRLARKSGELVPVGRRALGLANPGLGGNAYISPTMYAGIQYLGPRETAPEHRHSQNAFRFVVEGEGVWTVVNGDPVRMSRGDLLLTPGWCFHGHMNDTDQPMAWIDGLDIPFSQQMDVGFFEFYATPNFSRGERLWCHPGLRPLSGLQNTVASPIGAYRWEFTDRALTEQLLLEDEGQPATVAPGHAAIRYVNPTTGGDVMPTLRCEFHRLRAGTETATRNEVGSTVFQVFEGAGAVVMNGETTKLEKGDMFVVPSWVPWSLQAETQFDLFRFSDAPIMEALSFMRTKIEGQ QPKDTPELRALYKSFEEESIIPLWTQGDLMPIHPKSKAVPHVWKWSTLLRLARKSGELVPVGRRALGLANPGLGGNAYISPTMYAGIQYLGPRETAPEHRHSQNAFRFVVEGEGVWTVVNGDPVRMSRGDLLLTPGWCFHGHMNDTDQPMAWIDGLDIPFSQQMDVGFFEFYATPNFSRGERLWCHPGLRPLSGLQNTVASPIGAYRWEFTDRALTEQLLLEDEGQPATVAPGHAAIRYVNPTTGGDVMPTLRCEFHRLRAGTETATRNEVGSTVFQVFEGAGAVVMNGETTKLEKGDMFVVPSWVPWSLQAETQFDLFRFSDAPIMEALSFMRTKIEGQ 4fbk-a1-m1-cB_4fbk-a1-m1-cA Crystal structure of a covalently fused Nbs1-Mre11 complex with one manganese ion per active site Q09683 Q09683 2.379 X-RAY DIFFRACTION 84 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 406 424 4fbq-a1-m1-cB_4fbq-a1-m1-cA 4fbw-a3-m1-cA_4fbw-a3-m1-cB 4fcx-a1-m1-cA_4fcx-a1-m1-cB AFEENRRLRNLGSVEYIRSENTIRILISSDPHVGYGEKDPVRGNDSFVSFNEILEIARERDVDMILLGGDIFHDNKPSRKALYQALRSLRLNCLGDKPCELELLSVCNINYLDPNINVAIPVFSIHGNHDDPSGRYSALDILQVTGLVNYFGRVPENDNIVVSPILLQKGFTKLALYGISNVRDERLYHSFRENKVKFLRPDLYRDEWFNLLTVHQNHSAHTPTSYLPESFIQDFYDFVLWGHEHECLIDGSYNPTQKFTVVQPGSTIATSLSPGETAPKHCGILNITGKDFHLEKIRLRTVRPFIMKDIILSEVSSIPPMVENKKEVLTYLISKVEEAITEANAQWYEAQGTVPVVENEKPPLPLIRLRVDYTGGYQTENPQRFSNRFVGRVANATDVVQFYLKK DDKAFEENRRLRNLGSVEYIRIRKNFKKFQKSENTIRILISSDPHVGYGEKDPVRGNDSFVSFNEILEIARERDVDMILLGGDIFHDNKPSRKALYQALRSLRLNCLGDKPCELELLSDTDTAVCNINYLDPNINVAIPVFSIHGNHDDPSGRYSALDILQVTGLVNYFGRVPENDNIVVSPILLQKGFTKLALYGISNVRDERLYHSFRENKVKFLRPDLYRDEWFNLLTVHQNHSAHTPTSYLPESFIQDFYDFVLWGHEHECLIDGSYNPTQKFTVVQPGSTIATSLSPGETAPKHCGILNITGKDFHLEKIRLRTVRPFIMKDIILSEVSSIPPMVENKKEVLTYLISKVEEAITEANAQWYEAQGTVPVVENEKPPLPLIRLRVDYTGGYQTENPQRFSNRFVGRVANATDVVQFYLKK 4fbl-a1-m1-cA_4fbl-a1-m1-cC LipS and LipT, two metagenome-derived lipolytic enzymes increase the diversity of known lipase and esterase families 1.99 X-RAY DIFFRACTION 78 1.0 32644 (unidentified) 32644 (unidentified) 245 246 4fbl-a2-m1-cB_4fbl-a2-m1-cD 4fbm-a1-m1-cB_4fbm-a1-m1-cA QVLPGAEPLYSVGSRIGVLVSHGFTGSPQSMRFLAEGFARAGYTVATPRLTGHGTTPAEMAASTASDWTADIVAAMRWLEERCDVLFMTGLSMGGALTVWAAGQFPERFAGIMPINAALRMESPDLAALAFNPDAPAELPGIGSDIKAEGVKELAYPVTPVPAIKHLITIGAVAEMLLPRVKCPALIIQSREDHVVPPHNGELIYNGIGSTEKELLWLENSYHVATLDNDKELILERSLAFIRKH LQVLPGAEPLYSVGSRIGVLVSHGFTGSPQSMRFLAEGFARAGYTVATPRLTGHGTTPAEMAASTASDWTADIVAAMRWLEERCDVLFMTGLSMGGALTVWAAGQFPERFAGIMPINAALRMESPDLAALAFNPDAPAELPGIGSDIKAEGVKELAYPVTPVPAIKHLITIGAVAEMLLPRVKCPALIIQSREDHVVPPHNGELIYNGIGSTEKELLWLENSYHVATLDNDKELILERSLAFIRKH 4fbz-a1-m2-cA_4fbz-a1-m3-cA Crystal structure of deltarhodopsin from Haloterrigena thermotolerans I4DST7 I4DST7 2.7 X-RAY DIFFRACTION 27 1.0 121872 (Natrinema thermotolerans) 121872 (Natrinema thermotolerans) 238 238 4fbz-a1-m1-cA_4fbz-a1-m2-cA 4fbz-a1-m1-cA_4fbz-a1-m3-cA MAATVGPESIWLWIGTIGMTLGTLYFVGRGRGVRDRKMQEFYIITTFITTIAAAMYFAMATGFGVTEVVVGDEALTIYWARYADWLFTTPLLLLDLGLLAGANRNTIATLIGLDVFMIGTGMIAAFAATPGTRIAWWGISTGALLALLYVLVGTLSKDARGQSPEVASLFGRLRNLVIVLWLLYPVVWILGTEGTFGILPLYWETAAFMVLDLSAKVGFGVVLLRSRSVLRRVVTPTA MAATVGPESIWLWIGTIGMTLGTLYFVGRGRGVRDRKMQEFYIITTFITTIAAAMYFAMATGFGVTEVVVGDEALTIYWARYADWLFTTPLLLLDLGLLAGANRNTIATLIGLDVFMIGTGMIAAFAATPGTRIAWWGISTGALLALLYVLVGTLSKDARGQSPEVASLFGRLRNLVIVLWLLYPVVWILGTEGTFGILPLYWETAAFMVLDLSAKVGFGVVLLRSRSVLRRVVTPTA 4fc4-a2-m1-cF_4fc4-a2-m1-cJ FNT family ion channel E8XEH9 E8XEH9 2.4 X-RAY DIFFRACTION 105 1.0 909946 (Salmonella enterica subsp. enterica serovar Typhimurium str. ST4/74) 909946 (Salmonella enterica subsp. enterica serovar Typhimurium str. ST4/74) 250 250 4fc4-a1-m1-cA_4fc4-a1-m1-cB 4fc4-a1-m1-cA_4fc4-a1-m1-cE 4fc4-a1-m1-cB_4fc4-a1-m1-cC 4fc4-a1-m1-cD_4fc4-a1-m1-cC 4fc4-a1-m1-cD_4fc4-a1-m1-cE 4fc4-a2-m1-cG_4fc4-a2-m1-cF 4fc4-a2-m1-cG_4fc4-a2-m1-cH 4fc4-a2-m1-cH_4fc4-a2-m1-cI 4fc4-a2-m1-cI_4fc4-a2-m1-cJ MFTDTINKCAANAARIARLSANNPLGFWVSSAMAGAYVGLGIILIFTLGNLLDPSVRPLVMGATFGIALTLVIIAGSELFTGHTMFLTLGVKAGTISHGQMWAILPQTWLGNLVGSVFVALLYSWGGGSLLPVDTSIVHSVALAKTTAPATVLFFKGALCNWLVCLAIWMAIRTEGTAKFLAIWWCLLAFIASGYEHSVANMTLFALSWFGHHSDAYTLAGIGHNLLWVTLGNTLSGVVFMGLGYWYATP MFTDTINKCAANAARIARLSANNPLGFWVSSAMAGAYVGLGIILIFTLGNLLDPSVRPLVMGATFGIALTLVIIAGSELFTGHTMFLTLGVKAGTISHGQMWAILPQTWLGNLVGSVFVALLYSWGGGSLLPVDTSIVHSVALAKTTAPATVLFFKGALCNWLVCLAIWMAIRTEGTAKFLAIWWCLLAFIASGYEHSVANMTLFALSWFGHHSDAYTLAGIGHNLLWVTLGNTLSGVVFMGLGYWYATP 4fc6-a1-m1-cD_4fc6-a1-m1-cB Studies on DCR shed new light on peroxisomal beta-oxidation: Crystal structure of the ternary complex of pDCR Q9NUI1 Q9NUI1 2.1 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 276 4fc6-a1-m1-cA_4fc6-a1-m1-cC 4fc7-a1-m1-cA_4fc7-a1-m1-cC 4fc7-a1-m1-cD_4fc7-a1-m1-cB DVEGDDCLPAYRHLFCPDLLRDKVAFITGGGSGIGFRIAEIFMRHGCHTVIASRSLPRVLTAARKLAGATGRRCLPLSMDVRAPPAVMAAVDQALKEFGRIDILINCAAGNFLCPAGALSFNAFKTVMDIDTSGTFNVSRVLYEKFFRDHGGVIVNITATLGNRGQALQVHAGSAKAAVDAMTRHLAVEWGPQNIRVNSLAPGPISGTEGLRRLGGPQASLSTKVTASPLQRLGNKTEIAHSVLYLASPLASYVTGAVLVADGGAWLTFPNG QPPPDVEGDDCLPAYRHLFCPDLLRDKVAFITGGGSGIGFRIAEIFMRHGCHTVIASRSLPRVLTAARKLAGATGRRCLPLSMDVRAPPAVMAAVDQALKEFGRIDILINCAAGNFLCPAGALSFNAFKTVMDIDTSGTFNVSRVLYEKFFRDHGGVIVNITATLGNRGQALQVHAGSAKAAVDAMTRHLAVEWGPQNIRVNSLAPGPISGTEGLRRLGGPQASLSTKVTASPLQRLGNKTEIAHSVLYLASPLASYVTGAVLVADGGAWLTFPNG 4fc7-a1-m1-cD_4fc7-a1-m1-cA Studies on DCR shed new light on peroxisomal beta-oxidation: Crystal structure of the ternary complex of pDCR Q9NUI1 Q9NUI1 1.84 X-RAY DIFFRACTION 21 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 272 274 4fc6-a1-m1-cB_4fc6-a1-m1-cC 4fc6-a1-m1-cD_4fc6-a1-m1-cA 4fc7-a1-m1-cB_4fc7-a1-m1-cC DVEGDDCLPAYRHLFCPDLLRDKVAFITGGGSGIGFRIAEIFMRHGCHTVIASRSLPRVLTAARKLAGATGRRCLPLSMDVRAPPAVMAAVDQALKEFGRIDILINCAAGNFLCPAGALSFNAFKTVMDIDTSGTFNVSRVLYEKFFRDHGGVIVNITATLGNRGQALQVHAGSAKAAVDAMTRHLAVEWGPQNIRVNSLAPGPISGTEGLRRLGGPQASLSTKVTASPLQRLGNKTEIAHSVLYLASPLASYVTGAVLVADGGAWLTFPNG PPPDVEGDDCLPAYRHLFCPDLLRDKVAFITGGGSGIGFRIAEIFMRHGCHTVIASRSLPRVLTAARKLAGATGRRCLPLSMDVRAPPAVMAAVDQALKEFGRIDILINCAAGNFLCPAGALSFNAFKTVMDIDTSGTFNVSRVLYEKFFRDHGGVIVNITATLGNRGQALQVHAGSAKAAVDAMTRHLAVEWGPQNIRVNSLAPGPISGTEGLRRLGGPQASLSTKVTASPLQRLGNKTEIAHSVLYLASPLASYVTGAVLVADGGAWLTFPN 4fc7-a1-m1-cD_4fc7-a1-m1-cC Studies on DCR shed new light on peroxisomal beta-oxidation: Crystal structure of the ternary complex of pDCR Q9NUI1 Q9NUI1 1.84 X-RAY DIFFRACTION 144 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 272 276 4fc6-a1-m1-cA_4fc6-a1-m1-cB 4fc6-a1-m1-cD_4fc6-a1-m1-cC 4fc7-a1-m1-cA_4fc7-a1-m1-cB DVEGDDCLPAYRHLFCPDLLRDKVAFITGGGSGIGFRIAEIFMRHGCHTVIASRSLPRVLTAARKLAGATGRRCLPLSMDVRAPPAVMAAVDQALKEFGRIDILINCAAGNFLCPAGALSFNAFKTVMDIDTSGTFNVSRVLYEKFFRDHGGVIVNITATLGNRGQALQVHAGSAKAAVDAMTRHLAVEWGPQNIRVNSLAPGPISGTEGLRRLGGPQASLSTKVTASPLQRLGNKTEIAHSVLYLASPLASYVTGAVLVADGGAWLTFPNG AQPPPDVEGDDCLPAYRHLFCPDLLRDKVAFITGGGSGIGFRIAEIFMRHGCHTVIASRSLPRVLTAARKLAGATGRRCLPLSMDVRAPPAVMAAVDQALKEFGRIDILINCAAGNFLCPAGALSFNAFKTVMDIDTSGTFNVSRVLYEKFFRDHGGVIVNITATLGNRGQALQVHAGSAKAAVDAMTRHLAVEWGPQNIRVNSLAPGPISGTEGLRRLGGPQASLSTKVTASPLQRLGNKTEIAHSVLYLASPLASYVTGAVLVADGGAWLTFPN 4fcc-a1-m1-cD_4fcc-a1-m1-cE Glutamate dehydrogenase from E. coli Q8XDW9 Q8XDW9 2 X-RAY DIFFRACTION 60 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 442 442 3sbo-a1-m1-cA_3sbo-a1-m1-cD 3sbo-a1-m1-cA_3sbo-a1-m1-cE 3sbo-a1-m1-cB_3sbo-a1-m1-cC 3sbo-a1-m1-cE_3sbo-a1-m1-cD 3sbo-a1-m1-cF_3sbo-a1-m1-cB 3sbo-a1-m1-cF_3sbo-a1-m1-cC 4bht-a1-m1-cA_4bht-a1-m1-cE 4bht-a1-m1-cB_4bht-a1-m1-cC 4bht-a1-m1-cB_4bht-a1-m1-cF 4bht-a1-m1-cC_4bht-a1-m1-cF 4bht-a1-m1-cD_4bht-a1-m1-cA 4bht-a1-m1-cD_4bht-a1-m1-cE 4fcc-a1-m1-cA_4fcc-a1-m1-cD 4fcc-a1-m1-cA_4fcc-a1-m1-cE 4fcc-a1-m1-cB_4fcc-a1-m1-cF 4fcc-a1-m1-cC_4fcc-a1-m1-cB 4fcc-a1-m1-cC_4fcc-a1-m1-cF 4fcc-a2-m1-cG_4fcc-a2-m1-cJ 4fcc-a2-m1-cG_4fcc-a2-m1-cK 4fcc-a2-m1-cH_4fcc-a2-m1-cI 4fcc-a2-m1-cH_4fcc-a2-m1-cL 4fcc-a2-m1-cI_4fcc-a2-m1-cL 4fcc-a2-m1-cJ_4fcc-a2-m1-cK 4fhn-a3-m1-cX_4fhn-a3-m2-cX 4fhn-a3-m1-cX_4fhn-a3-m3-cX 4fhn-a3-m2-cX_4fhn-a3-m3-cX 4fhn-a3-m4-cX_4fhn-a3-m5-cX 4fhn-a3-m4-cX_4fhn-a3-m6-cX 4fhn-a3-m5-cX_4fhn-a3-m6-cX SLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKSSRDGRVADYAKEFGLVYLEGQQPWSVPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI SLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKSSRDGRVADYAKEFGLVYLEGQQPWSVPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI 4fcc-a2-m1-cH_4fcc-a2-m1-cK Glutamate dehydrogenase from E. coli Q8XDW9 Q8XDW9 2 X-RAY DIFFRACTION 83 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 438 442 3sbo-a1-m1-cA_3sbo-a1-m1-cC 3sbo-a1-m1-cB_3sbo-a1-m1-cD 3sbo-a1-m1-cF_3sbo-a1-m1-cE 4bht-a1-m1-cA_4bht-a1-m1-cC 4bht-a1-m1-cD_4bht-a1-m1-cB 4bht-a1-m1-cE_4bht-a1-m1-cF 4fcc-a1-m1-cB_4fcc-a1-m1-cE 4fcc-a1-m1-cC_4fcc-a1-m1-cA 4fcc-a1-m1-cD_4fcc-a1-m1-cF 4fcc-a2-m1-cG_4fcc-a2-m1-cI 4fcc-a2-m1-cJ_4fcc-a2-m1-cL 4fhn-a3-m1-cX_4fhn-a3-m4-cX 4fhn-a3-m2-cX_4fhn-a3-m6-cX 4fhn-a3-m3-cX_4fhn-a3-m5-cX SLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKSRVADYAKEFGLVYLEGQQPWSVPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI SLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKSSRDGRVADYAKEFGLVYLEGQQPWSVPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI 4fcc-a2-m1-cI_4fcc-a2-m1-cK Glutamate dehydrogenase from E. coli Q8XDW9 Q8XDW9 2 X-RAY DIFFRACTION 15 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 442 442 3sbo-a1-m1-cA_3sbo-a1-m1-cB 3sbo-a1-m1-cE_3sbo-a1-m1-cC 3sbo-a1-m1-cF_3sbo-a1-m1-cD 4bht-a1-m1-cA_4bht-a1-m1-cB 4bht-a1-m1-cC_4bht-a1-m1-cE 4bht-a1-m1-cD_4bht-a1-m1-cF 4fcc-a1-m1-cA_4fcc-a1-m1-cF 4fcc-a1-m1-cB_4fcc-a1-m1-cD 4fcc-a1-m1-cC_4fcc-a1-m1-cE 4fcc-a2-m1-cG_4fcc-a2-m1-cL 4fcc-a2-m1-cH_4fcc-a2-m1-cJ 4fhn-a3-m1-cX_4fhn-a3-m6-cX 4fhn-a3-m2-cX_4fhn-a3-m5-cX 4fhn-a3-m3-cX_4fhn-a3-m4-cX SLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKSSRDGRVADYAKEFGLVYLEGQQPWSVPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI SLESFLNHVQKRDPNQTEFAQAVREVMTTLWPFLEQNPKYRQMSLLERLVEPERVIQFRVVWVDDRNQVQVNRAWRVQFSSAIGPYKGGMRFHPSVNLSILKFLGFEQTFKNALTTLPMGGGKGGSDFDPKGKSEGEVMRFCQALMTELYRHLGADTDVPAGDIGVGGREVGFMAGMMKKLSNNTACVFTGKGLSFGGSLIRPEATGYGLVYFTEAMLKRHGMGFEGMRVSVSGSGNVAQYAIEKAMEFGARVITASDSSGTVVDESGFTKEKLARLIEIKSSRDGRVADYAKEFGLVYLEGQQPWSVPVDIALPCATQNELDVDAAHQLIANGVKAVAEGANMPTTIEATELFQQAGVLFAPGKAANAGGVATSGLEMAQNAARLGWKAEKVDARLHHIMLDIHHACVEHGGEGEQTNYVQGANIAGFVKVADAMLAQGVI 4fcu-a1-m1-cA_4fcu-a1-m2-cA 1.9 Angstrom Crystal Structure of 3-deoxy-manno-octulosonate Cytidylyltransferase (kdsB) from Acinetobacter baumannii without His-Tag Bound to the Active Site A3M4Z0 A3M4Z0 1.9 X-RAY DIFFRACTION 92 1.0 400667 (Acinetobacter baumannii ATCC 17978) 400667 (Acinetobacter baumannii ATCC 17978) 253 253 3pol-a1-m1-cA_3pol-a1-m2-cA MKHIVIPARFSSSRLPGKPLLLIHDRPMILRVVDQAKKVEGFDDLCVATDDERIAEICRAEGVDVVLTSADHPSGTDRLSEVARIKGWDADDIIVNVQGDEPLLPAQLVQQVAKLLVDKPNCSMSTLCEPIHALDEFQRDSIVKVVMSKQNEALYFSRATIPYDRDGAKRDEPTLHTQAFRHLGLYAYRVSLLQEYVTWEMGKLEKLESLEQLRVLENGHRIAIAVAEANLPPGVDTQADLDRLNNMPVESFE MKHIVIPARFSSSRLPGKPLLLIHDRPMILRVVDQAKKVEGFDDLCVATDDERIAEICRAEGVDVVLTSADHPSGTDRLSEVARIKGWDADDIIVNVQGDEPLLPAQLVQQVAKLLVDKPNCSMSTLCEPIHALDEFQRDSIVKVVMSKQNEALYFSRATIPYDRDGAKRDEPTLHTQAFRHLGLYAYRVSLLQEYVTWEMGKLEKLESLEQLRVLENGHRIAIAVAEANLPPGVDTQADLDRLNNMPVESFE 4fcx-a2-m1-cA_4fcx-a2-m2-cB S.pombe Mre11 apoenzym Q09683 Q09683 3 X-RAY DIFFRACTION 73 0.981 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 366 369 GSENTIRILISSDPHVGYGEKDPVRGNDSFVSFNEILEIARERDVDMILLGGDIFHDNKPSRKALYQALRSLRLNCLGDKPCELELLSLDPNINVAIPVFSIHGNYSALDILQVTGLVNYFGRVPENDNIVVSPILLQKGFTKLALYGISNVRDERLYHSFRENKVKFLRPDLYRDEWFNLLTVHQNHSAHTPTSYLPESFIQDFYDFVLWGHEHECLIDGSYNPTQKFTVVQPGSTIATSLSPGETAPKHCGILNITGKDFHLEKIRLRTVRPFIMKDIILSEVSSIPPMVENKKEVLTYLISKVEEAITEANAQWYEAQGKPPLPLIRLRVDYTGGYQTENPQRFSNRFVGRVANATDVVQFYL SENTIRILISSDPHVGYGEKDPVRGNDSFVSFNEILEIARERDVDMILLGGDIFHDNKPSRKALYQALRSLRLNCLGDKPCELELLSVCNINYLDPNINVAIPVFSIHGNHDRYSALDILQVTGLVNYFGRVPENDNIVVSPILLQKGFTKLALYGISNVRDERLYHSFRENKVKFLRPDLYRDEWFNLLTVHQNHSAHTPTSYLPESFIQDFYDFVLWGHEHECLIDGSYNPTQKFTVVQPGSTIATSLSPGETAPKHCGILNITGKDFHLEKIRLRTVRPFIMKDIILSEVSVENKKEVLTYLISKVEEAITEANAQWYEAQEKPPLPLIRLRVDYTGGYQTENPQRFSNRFVGRVANATDVVQFYL 4fcy-a2-m1-cB_4fcy-a2-m4-cB Crystal structure of the bacteriophage Mu transpososome P07636 P07636 3.706 X-RAY DIFFRACTION 72 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 476 476 4fcy-a2-m2-cB_4fcy-a2-m3-cB DREALWSKWDNASDSQRRLAEKWLPAVQAADEMLNQGISTKTAFATVAGHYQVSASTLRDKYYQVQKFAKPDWAAALVSEFDEDAWQFLIADYLRPEKPAFRKCYERLELAAREHGWSIPSRATAFRRIQQLDEAMVVACREGEHLDAMQWINGDGYLHNVFVRWFNGDVIRPKTWFWQDVKTRKILGWRCDVSENIDSIRLSFMDVVTRYGIPEDFHITIDNTRGAANKWLTGGAPNRYRFKVKEDDPKGLFLLMGAKMHWTSVVAGKGWGQAKPVERAFGVGGLEEYVDKHPALAGAYTGPYGDRAVDAELFLKTLAEGVAMFNARTGRETEMCGGKLSFDDVFEREYARTIVRKPTEEQKRMLLLPAEAVNVSRKGEFTLKVGGSLKGAKNVYYNLALMLAGVKKVVVRFDPQQLHSTVYCYTLDGRFICEAECLAAAGREYRRRQKQLKSATKAAIKAQKQMDALEVAELLP DREALWSKWDNASDSQRRLAEKWLPAVQAADEMLNQGISTKTAFATVAGHYQVSASTLRDKYYQVQKFAKPDWAAALVSEFDEDAWQFLIADYLRPEKPAFRKCYERLELAAREHGWSIPSRATAFRRIQQLDEAMVVACREGEHLDAMQWINGDGYLHNVFVRWFNGDVIRPKTWFWQDVKTRKILGWRCDVSENIDSIRLSFMDVVTRYGIPEDFHITIDNTRGAANKWLTGGAPNRYRFKVKEDDPKGLFLLMGAKMHWTSVVAGKGWGQAKPVERAFGVGGLEEYVDKHPALAGAYTGPYGDRAVDAELFLKTLAEGVAMFNARTGRETEMCGGKLSFDDVFEREYARTIVRKPTEEQKRMLLLPAEAVNVSRKGEFTLKVGGSLKGAKNVYYNLALMLAGVKKVVVRFDPQQLHSTVYCYTLDGRFICEAECLAAAGREYRRRQKQLKSATKAAIKAQKQMDALEVAELLP 4fcy-a2-m3-cA_4fcy-a2-m4-cA Crystal structure of the bacteriophage Mu transpososome P07636 P07636 3.706 X-RAY DIFFRACTION 88 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 443 443 4fcy-a1-m1-cA_4fcy-a1-m2-cA 4fcy-a2-m1-cA_4fcy-a2-m2-cA DREALWSKWDNASDSQRRLAEKWLPAVQAADEMLNQGISTKTAFATVAGHYQVSASTLRDKYYQVQKFAKPDWAAALVSEFDEDAWQFLIADYLRPEKPAFRKCYERLELAAREHGWSIPSRATAFRRIQQLDEAMVVACREGEHALMEHLDAMQWINGDGYLHNVFVRWFNGDVIRPKTWFWQDVKTRKILGWRCDVSENIDSIRLSFMDVVTRYGIPEDFHITIDNTTGGAPNRYRFKVKEDDPKGLFLLMGAKMHWLEEYVDKHPALAGAYTGPNPQAKPDNYGDRAVDAELFLKTLAEGVAMFNARTGRETEMCGGKLSFDDVFEREYARTIVRKPTEEQKRMLLLPAEAVNVSRKGEFTLKVGGSLKGAKNVYYNLALMLAGVKKVVVRFDPQQLHSTVYCYTLDGRFICEAECLREYRRRQKQLKSATKAAIKAQKQ DREALWSKWDNASDSQRRLAEKWLPAVQAADEMLNQGISTKTAFATVAGHYQVSASTLRDKYYQVQKFAKPDWAAALVSEFDEDAWQFLIADYLRPEKPAFRKCYERLELAAREHGWSIPSRATAFRRIQQLDEAMVVACREGEHALMEHLDAMQWINGDGYLHNVFVRWFNGDVIRPKTWFWQDVKTRKILGWRCDVSENIDSIRLSFMDVVTRYGIPEDFHITIDNTTGGAPNRYRFKVKEDDPKGLFLLMGAKMHWLEEYVDKHPALAGAYTGPNPQAKPDNYGDRAVDAELFLKTLAEGVAMFNARTGRETEMCGGKLSFDDVFEREYARTIVRKPTEEQKRMLLLPAEAVNVSRKGEFTLKVGGSLKGAKNVYYNLALMLAGVKKVVVRFDPQQLHSTVYCYTLDGRFICEAECLREYRRRQKQLKSATKAAIKAQKQ 4fd3-a2-m1-cE_4fd3-a2-m1-cB Crystal structure of apo-formed ymtOAR1 P35731 P35731 2.6 X-RAY DIFFRACTION 136 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 250 253 4fd3-a1-m1-cA_4fd3-a1-m1-cD 4fd3-a3-m1-cC_4fd3-a3-m2-cC 4fd3-a4-m1-cF_4fd3-a4-m2-cF 4fda-a1-m1-cA_4fda-a1-m2-cA 4hbg-a1-m1-cA_4hbg-a1-m2-cA MHYLPVAIVTGATRGIGKAICQKLFQKGLSCIILGSTKESIERTAIDRGQLQSGLSYQRQCAIAIDFKKWPHWLDYESYDGIEYFKDRPPLKQKYSTLFDPCNKWSNNERRYYVNLLINCAGLTQESLSVRTTASQIQDIMNVNFMSPVTMTNICIKYMMKSQRRWPELSSARPTIVNISSILHSGKMKVPGTSVYSASKAALSRFTEVLAAEMEPRNIRCFTISPGLVKSGTSAPAEIAEEVWSLYSRT MHYLPVAIVTGATRGIGKAICQKLFQKGLSCIILGSTKESIERTAIDRGQLQSGLSYQRQCAIAIDFKKWPHWLDYESYDGIEYFKDRPPLKQKYSTLFDPCNKWSNNERRYYVNLLINCAGLTQESLSVRTTASQIQDIMNVNFMSPVTMTNICIKYMMKSQRRWPELSGQSARPTIVNISSILHSGKMKVPGTSVYSASKAALSRFTEVLAAEMEPRNIRCFTISPGLVKGSGTSAPAEIAEEVWSLYSRT 4fdb-a1-m1-cA_4fdb-a1-m2-cA Three-dimensional structure of the protein prib from ralstonia solanacearum at the resolution 1.8a. northeast structural genomics consortium target rsr213c Q8XZT7 Q8XZT7 1.8 X-RAY DIFFRACTION 114 1.0 267608 (Ralstonia pseudosolanacearum GMI1000) 267608 (Ralstonia pseudosolanacearum GMI1000) 92 92 3en2-a1-m1-cA_3en2-a1-m2-cA AINRLQLVATLVEREVRYTPAGVPIVNCLLSYSGQAEAQTARQVEFSIEALGAGKASVLDRIAPGTVLDCVGFLARKHKALVFHISGLEHHH AINRLQLVATLVEREVRYTPAGVPIVNCLLSYSGQAEAQTARQVEFSIEALGAGKASVLDRIAPGTVLDCVGFLARKHKALVFHISGLEHHH 4fdf-a1-m2-cB_4fdf-a1-m3-cB Structural insights into putative molybdenum cofactor biosynthesis protein C (MoaC2) from Mycobacterium tuberculosis H37Rv P9WJR7 P9WJR7 2.202 X-RAY DIFFRACTION 43 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 139 139 4fdf-a1-m1-cA_4fdf-a1-m2-cA 4fdf-a1-m1-cA_4fdf-a1-m3-cA 4fdf-a1-m1-cB_4fdf-a1-m2-cB 4fdf-a1-m1-cB_4fdf-a1-m3-cB 4fdf-a1-m2-cA_4fdf-a1-m3-cA AAHMVDITEKATTKRTAVAAGILRTSAQVVALISTGGLPKGDALATARVAGIMAAKRTSDLIPLCHQLALTGVDVDFTVGQLDIEITATVRSTDRTGVEMEALTAVSVAALTLYDMIKAVDPGALIDDIRVLHKETWTR AAHMVDITEKATTKRTAVAAGILRTSAQVVALISTGGLPKGDALATARVAGIMAAKRTSDLIPLCHQLALTGVDVDFTVGQLDIEITATVRSTDRTGVEMEALTAVSVAALTLYDMIKAVDPGALIDDIRVLHKETWTR 4fdi-a1-m1-cB_4fdi-a1-m1-cA The molecular basis of mucopolysaccharidosis IV A P34059 P34059 2.2 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 491 493 4fdj-a1-m1-cB_4fdj-a1-m1-cA QPPNILLLLMDDMGWGDLGVYGEPSRETPNLDRMAAEGLLFPNFYSANPLSPSRAALLTGRLPIRNGFYTTNAHARNAYTPQEIVGGIPDSEQLLPELLKKAGYVSKIVGKWHLGHRPQFHPLKHGFDEWFGSPNCHFGPYDNKARPNIPVYRDWEMVGRYYEEFPINLKTGEANLTQIYLQEALDFIKRQARHHPFFLYWAVDATHAPVYASKPFLGTSQRGRYGDAVREIDDSIGKILELLQDLHVADNTFVFFTSDNGAALISAPEQGGSNGPFLCGKQTTFEGGMREPALAWWPGHVTAGQVSHQLGSIMDLFTTSLALAGLTPPSDRAIDGLNLLPTLLQGRLMDRPIFYYRGDTLMAATLGQHKAHFWTWTNSWENFRQGIDFCPGQNVSGVTTHNLEDHTKLPLIFHLGRDPGERFPLSFASAEYQEALSRITSVVQQHQEALVPAQPQLNVCNWAVMNWAPPGCEKLGKCLTPPESIPKKCLW QPPNILLLLMDDMGWGDLGVYGEPSRETPNLDRMAAEGLLFPNFYSANPLSPSRAALLTGRLPIRNGFYTTNAHARNAYTPQEIVGGIPDSEQLLPELLKKAGYVSKIVGKWHLGHRPQFHPLKHGFDEWFGSPNCHFGPYDNKARPNIPVYRDWEMVGRYYEEFPINLKTGEANLTQIYLQEALDFIKRQARHHPFFLYWAVDATHAPVYASKPFLGTSQRGRYGDAVREIDDSIGKILELLQDLHVADNTFVFFTSDNGAALISAPEQGGSNGPFLCGKQTTFEGGMREPALAWWPGHVTAGQVSHQLGSIMDLFTTSLALAGLTPPSDRAIDGLNLLPTLLQGRLMDRPIFYYRGDTLMAATLGQHKAHFWTWTNSWENFRQGIDFCPGQNVSGVTTHNLEDHTKLPLIFHLGRDPGERFPLSFASAEYQEALSRITSVVQQHQEALVPAQPQLNVCNWAVMNWAPPGCEKLGKCLTPPESIPKKCLWSH 4fdx-a1-m2-cB_4fdx-a1-m3-cB Kinetic and structural characterization of the 4-oxalocrotonate tautomerase isozymes from Methylibium petroleiphilum A2SL37 A2SL37 1.64 X-RAY DIFFRACTION 44 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 64 64 4fdx-a1-m1-cA_4fdx-a1-m2-cA 4fdx-a1-m1-cA_4fdx-a1-m3-cA 4fdx-a1-m1-cB_4fdx-a1-m2-cB 4fdx-a1-m1-cB_4fdx-a1-m3-cB 4fdx-a1-m2-cA_4fdx-a1-m3-cA PIIQMNLLEGRTVEQKRNAVAAITEAVVRTLDVRPDQVRILINELGVEHFSVAGQTAAMRQAAA PIIQMNLLEGRTVEQKRNAVAAITEAVVRTLDVRPDQVRILINELGVEHFSVAGQTAAMRQAAA 4fdx-a1-m3-cA_4fdx-a1-m3-cB Kinetic and structural characterization of the 4-oxalocrotonate tautomerase isozymes from Methylibium petroleiphilum A2SL37 A2SL37 1.64 X-RAY DIFFRACTION 64 1.0 420662 (Methylibium petroleiphilum PM1) 420662 (Methylibium petroleiphilum PM1) 61 64 4fdx-a1-m1-cA_4fdx-a1-m1-cB 4fdx-a1-m2-cA_4fdx-a1-m2-cB PIIQMNLLEGRTVEQKRNAVAAITEAVVRTLDVRPDQVRILINELGVEHFSVAGQTAAMRQ PIIQMNLLEGRTVEQKRNAVAAITEAVVRTLDVRPDQVRILINELGVEHFSVAGQTAAMRQAAA 4fe4-a1-m1-cA_4fe4-a1-m1-cC Crystal structure of apo E. coli XylR P0ACI3 P0ACI3 3.45 X-RAY DIFFRACTION 113 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 380 380 4fe4-a2-m1-cB_4fe4-a2-m2-cB 4fe7-a1-m1-cA_4fe7-a1-m2-cA MFTKRHRITLLFNANKAYDRQVVEGVGEYLQASQSEWDIFIEEFRWLGDGVIADFDDKQIEQALADVDVPIVGVGGSYHLAESYPPVHYIATDNYALVESAFLHLKEKGVNRFAFYGLPESSGKRWATEREYAFRQLVAEEKYRGVVYQGLETAPENWQHAQNRLADWLQTLPPQTGIIAVTDARARHILQVCEHLHIPVPEKLCVIGIDNEELTRYLSRVALSSVAQGARQMGYQAAKLLHRLLDKEEMPLQRILVPPVRVIERRSTDYRSLTDPAVIQAMHYIRNHACKGIKVDQVLDAVGISRSNLEKRFKEEVGETIHAMIHAEKLEKARSLLISTTLSINEISQMCGYPSLQYFYSVFKKAYDTTPKEYRDVNSE MFTKRHRITLLFNANKAYDRQVVEGVGEYLQASQSEWDIFIEEFRWLGDGVIADFDDKQIEQALADVDVPIVGVGGSYHLAESYPPVHYIATDNYALVESAFLHLKEKGVNRFAFYGLPESSGKRWATEREYAFRQLVAEEKYRGVVYQGLETAPENWQHAQNRLADWLQTLPPQTGIIAVTDARARHILQVCEHLHIPVPEKLCVIGIDNEELTRYLSRVALSSVAQGARQMGYQAAKLLHRLLDKEEMPLQRILVPPVRVIERRSTDYRSLTDPAVIQAMHYIRNHACKGIKVDQVLDAVGISRSNLEKRFKEEVGETIHAMIHAEKLEKARSLLISTTLSINEISQMCGYPSLQYFYSVFKKAYDTTPKEYRDVNSE 4fea-a1-m1-cA_4fea-a1-m1-cB Crystal structure of CASPASE-7 in Complex with allosteric inhibitor P55210 P55210 3.79 X-RAY DIFFRACTION 72 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 170 196 TYQYNMNFEKLGKCIIINNKDKDAEALFKCFRSLGFDVIVYNDCSCAKMQDLLKKASEEDHTNAACFACILLSHVTPIKDLTAHFRGDRCKTLLEKPKLFFIQACPVEADFLFAYSTVRGSWFVQALCSILEEHGKDLEIMQILTRVNDRVARHIPCVVSMLTKELYFSQ TYQYNMNFEKLGKCIIINNKNFDKVTGMGVRNGTDKDAEALFKCFRSLGFDVIVYNDCSCAKMQDLLKKASEEDHTNAACFACILLSHGEENVIYGKDGVTPIKDLTAHFRGDRCKTLLEKPKLFFIQACPVEADFLFAYSPGRGSWFVQALCSILEEHGKDLEIMQILTRVNDRVARHFIPCVVSMLTKELYFSQ 4fei-a1-m1-cA_4fei-a1-m2-cA Hsp17.7 from Deinococcus radiodurans Q9RTR5 Q9RTR5 2.4 X-RAY DIFFRACTION 94 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 102 102 QGGPWTPAADWRDAGTHLDLLLDVPGVDAGTLALAEDGGQLTVSGERPGTEHLLRSERPSGRFVRELAFPEPVRPASGVASLAGGVLTVRFEKLRPTIDVTA QGGPWTPAADWRDAGTHLDLLLDVPGVDAGTLALAEDGGQLTVSGERPGTEHLLRSERPSGRFVRELAFPEPVRPASGVASLAGGVLTVRFEKLRPTIDVTA 4fer-a1-m1-cA_4fer-a1-m1-cB Crystal structure of Bacillus Subtilis expansin (EXLX1) in complex with cellohexaose O34918 O34918 2.099 X-RAY DIFFRACTION 11 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 207 207 4fg2-a1-m1-cA_4fg2-a1-m1-cB 4fg4-a1-m1-cA_4fg4-a1-m1-cB AYDDLHEGYATYTGSGYSGGAFLLDPIPSDMEITAINPADLNYGGVKAALAGSYLEVEGPKGKTTVYVTDLYPEGARGALDLSPNAFRKIGNMKDGKINIKWRVVKAPITGNFTYRIKEGSSRWWAAIQVRNHKYPVMKMEYEKDGKWINMEKMDYNHFVSTNLGTGSLKVRMTDIRGKVVKDTIPKLPESGTSKAYTVPGHVQFPE AYDDLHEGYATYTGSGYSGGAFLLDPIPSDMEITAINPADLNYGGVKAALAGSYLEVEGPKGKTTVYVTDLYPEGARGALDLSPNAFRKIGNMKDGKINIKWRVVKAPITGNFTYRIKEGSSRWWAAIQVRNHKYPVMKMEYEKDGKWINMEKMDYNHFVSTNLGTGSLKVRMTDIRGKVVKDTIPKLPESGTSKAYTVPGHVQFPE 4ffa-a1-m1-cD_4ffa-a1-m1-cC Sulfatase from Mycobacterium tuberculosis P9WKZ1 P9WKZ1 2.5 X-RAY DIFFRACTION 52 0.996 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 230 234 4ffa-a1-m1-cB_4ffa-a1-m1-cA LITVKKLGSRIGAQIDGVRLGGDLDPAAVNEIRAALLAHKVVFFRGQHQLDDAEQLAFAGLLGTPINRWHTDVTFAANYPAASVLRAVSLPSYGGSTLWANTAAAYAELPEPLKCLTENLWALHTNRRTEHPVVRVHPETGERTLLAGDFVRSFVGLDSHESRVLFEVLQRRITMPENTIRWNWAPGDVAIWDNRATQHRAIDDYDDQHRLMHRVTLMGDVPVDVYGQAS LITVKKLGSRIGAQIDGVRLGGDLDPAAVNEIRAALLAHKVVFFRGQHQLDDAEQLAFAGLLGTPIANRWHTDVTFAANYPAASVLRAVSLPSYGGSTLWANTAAAYAELPEPLKCLTENLWALHTNFRTEHPVVRVHPETGERTLLAGDFVRSFVGLDSHESRVLFEVLQRRITMPENTIRWNWAPGDVAIWDNRATQHRAIDDYDDQHRLMHRVTLMGDVPVDVYGQASRVI 4ffc-a1-m1-cB_4ffc-a1-m1-cD Crystal structure of a 4-aminobutyrate aminotransferase (GabT) from Mycobacterium abscessus B1MIQ9 B1MIQ9 1.8 X-RAY DIFFRACTION 59 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 442 442 4ffc-a1-m1-cA_4ffc-a1-m1-cC ITYRLAQKRTIVTPLPGPRSGALAERRRAAVSAGVGSTAPVYAVDADGGVIVDADGNSFIDLGAGIAVTTVGASHPAVAAAIADQATHFTHTCFMVTPYEQYVQVAELLNALTPGDHDKRTALFNSGAEAVENAIKVARLATGRPAVVAFDNAYHGRTNLTMALTAKSMPYKSQFGPFAPEVYRMPASYPLRDEPGLTGEEAARRAISRIETQIGAQSLAAIIIEPIQGEGGFIVPAPGFLATLTAWASENGVVFIADEVQTGFARTGAWFASEHEGIVPDIVTMAGIAGGMPLSAVTGRAELMDAVYAGGLGGTYGGNPVTCAAAVAALGVMRELDLPARARAIEASVTSRLSALAEEVDIIGEVRGRGAMLAIEIVKPGTLEPDAALTKSIAAEALSQGVLILTCGTFGNVIRLLPPLVIGDDLLDEGITALSDIIRAKA ITYRLAQKRTIVTPLPGPRSGALAERRRAAVSAGVGSTAPVYAVDADGGVIVDADGNSFIDLGAGIAVTTVGASHPAVAAAIADQATHFTHTCFMVTPYEQYVQVAELLNALTPGDHDKRTALFNSGAEAVENAIKVARLATGRPAVVAFDNAYHGRTNLTMALTAKSMPYKSQFGPFAPEVYRMPASYPLRDEPGLTGEEAARRAISRIETQIGAQSLAAIIIEPIQGEGGFIVPAPGFLATLTAWASENGVVFIADEVQTGFARTGAWFASEHEGIVPDIVTMAGIAGGMPLSAVTGRAELMDAVYAGGLGGTYGGNPVTCAAAVAALGVMRELDLPARARAIEASVTSRLSALAEEVDIIGEVRGRGAMLAIEIVKPGTLEPDAALTKSIAAEALSQGVLILTCGTFGNVIRLLPPLVIGDDLLDEGITALSDIIRAKA 4ffc-a1-m1-cD_4ffc-a1-m1-cC Crystal structure of a 4-aminobutyrate aminotransferase (GabT) from Mycobacterium abscessus B1MIQ9 B1MIQ9 1.8 X-RAY DIFFRACTION 422 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 442 443 4ffc-a1-m1-cB_4ffc-a1-m1-cA ITYRLAQKRTIVTPLPGPRSGALAERRRAAVSAGVGSTAPVYAVDADGGVIVDADGNSFIDLGAGIAVTTVGASHPAVAAAIADQATHFTHTCFMVTPYEQYVQVAELLNALTPGDHDKRTALFNSGAEAVENAIKVARLATGRPAVVAFDNAYHGRTNLTMALTAKSMPYKSQFGPFAPEVYRMPASYPLRDEPGLTGEEAARRAISRIETQIGAQSLAAIIIEPIQGEGGFIVPAPGFLATLTAWASENGVVFIADEVQTGFARTGAWFASEHEGIVPDIVTMAGIAGGMPLSAVTGRAELMDAVYAGGLGGTYGGNPVTCAAAVAALGVMRELDLPARARAIEASVTSRLSALAEEVDIIGEVRGRGAMLAIEIVKPGTLEPDAALTKSIAAEALSQGVLILTCGTFGNVIRLLPPLVIGDDLLDEGITALSDIIRAKA ITYRLAQKRTIVTPLPGPRSGALAERRRAAVSAGVGSTAPVYAVDADGGVIVDADGNSFIDLGAGIAVTTVGASHPAVAAAIADQATHFTHTCFMVTPYEQYVQVAELLNALTPGDHDKRTALFNSGAEAVENAIKVARLATGRPAVVAFDNAYHGRTNLTMALTAKSMPYKSQFGPFAPEVYRMPASYPLRDEPGLTGEEAARRAISRIETQIGAQSLAAIIIEPIQGEGGFIVPAPGFLATLTAWASENGVVFIADEVQTGFARTGAWFASEHEGIVPDIVTMAGIAGGMPLSAVTGRAELMDAVYAGGLGGTYGGNPVTCAAAVAALGVMRELDLPARARAIEASVTSRLSALAEEVDIIGEVRGRGAMLAIEIVKPGTLEPDAALTKSIAAEALSQGVLILTCGTFGNVIRLLPPLVIGDDLLDEGITALSDIIRAKAS 4ffj-a1-m1-cA_4ffj-a1-m2-cA The crystal structure of spDHBPs from S.pneumoniae A0A0H2UN41 A0A0H2UN41 1.95 X-RAY DIFFRACTION 86 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 195 195 MEYRKIQEALEALQKGRLVLVIDDKDNEGDLICSAQAATTENVNFMATYAKGLICMPMSESLANQLMLSPMVETAFTVSIDYKETTTGISAEERGLTARMCVAEDITPSDFRRPGHMFPLIAKKGGVLERNGHTEATVDLLKLAGLKECGLCCEIMNHDGKMMRTDDLIQFSKKHNIPLITIKELQEYRKVYDQL MEYRKIQEALEALQKGRLVLVIDDKDNEGDLICSAQAATTENVNFMATYAKGLICMPMSESLANQLMLSPMVETAFTVSIDYKETTTGISAEERGLTARMCVAEDITPSDFRRPGHMFPLIAKKGGVLERNGHTEATVDLLKLAGLKECGLCCEIMNHDGKMMRTDDLIQFSKKHNIPLITIKELQEYRKVYDQL 4ffj-a2-m1-cA_4ffj-a2-m3-cA The crystal structure of spDHBPs from S.pneumoniae A0A0H2UN41 A0A0H2UN41 1.95 X-RAY DIFFRACTION 36 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 195 195 MEYRKIQEALEALQKGRLVLVIDDKDNEGDLICSAQAATTENVNFMATYAKGLICMPMSESLANQLMLSPMVETAFTVSIDYKETTTGISAEERGLTARMCVAEDITPSDFRRPGHMFPLIAKKGGVLERNGHTEATVDLLKLAGLKECGLCCEIMNHDGKMMRTDDLIQFSKKHNIPLITIKELQEYRKVYDQL MEYRKIQEALEALQKGRLVLVIDDKDNEGDLICSAQAATTENVNFMATYAKGLICMPMSESLANQLMLSPMVETAFTVSIDYKETTTGISAEERGLTARMCVAEDITPSDFRRPGHMFPLIAKKGGVLERNGHTEATVDLLKLAGLKECGLCCEIMNHDGKMMRTDDLIQFSKKHNIPLITIKELQEYRKVYDQL 4ffk-a1-m1-cA_4ffk-a1-m4-cA X-ray structure of iron superoxide dismutase from Acidilobus saccharovorans D9Q0R7 D9Q0R7 1.76 X-RAY DIFFRACTION 47 1.0 666510 (Acidilobus saccharovorans 345-15) 666510 (Acidilobus saccharovorans 345-15) 212 212 4ffk-a1-m2-cA_4ffk-a1-m3-cA SVVSLKRYELPPLPYNYDALEPIISAETLRYHHDKHHLGYVNGANAALDKLEKYLNGQLTDIDVRAVSRDFEFNYGGHILHTLYWLNMAPKGKGGGTPGGAIGDAINKFFGSFDKFKKLFGDAAKNVEGVGWAILAYDPVTGDLRILQVEKHNNVVTTNLIPLLAVDVFEHAYYIDYRNDRAKYVDSWWDLINWDDVEARYQKALNTPKLIL SVVSLKRYELPPLPYNYDALEPIISAETLRYHHDKHHLGYVNGANAALDKLEKYLNGQLTDIDVRAVSRDFEFNYGGHILHTLYWLNMAPKGKGGGTPGGAIGDAINKFFGSFDKFKKLFGDAAKNVEGVGWAILAYDPVTGDLRILQVEKHNNVVTTNLIPLLAVDVFEHAYYIDYRNDRAKYVDSWWDLINWDDVEARYQKALNTPKLIL 4ffk-a1-m2-cA_4ffk-a1-m4-cA X-ray structure of iron superoxide dismutase from Acidilobus saccharovorans D9Q0R7 D9Q0R7 1.76 X-RAY DIFFRACTION 206 1.0 666510 (Acidilobus saccharovorans 345-15) 666510 (Acidilobus saccharovorans 345-15) 212 212 4ffk-a1-m1-cA_4ffk-a1-m3-cA SVVSLKRYELPPLPYNYDALEPIISAETLRYHHDKHHLGYVNGANAALDKLEKYLNGQLTDIDVRAVSRDFEFNYGGHILHTLYWLNMAPKGKGGGTPGGAIGDAINKFFGSFDKFKKLFGDAAKNVEGVGWAILAYDPVTGDLRILQVEKHNNVVTTNLIPLLAVDVFEHAYYIDYRNDRAKYVDSWWDLINWDDVEARYQKALNTPKLIL SVVSLKRYELPPLPYNYDALEPIISAETLRYHHDKHHLGYVNGANAALDKLEKYLNGQLTDIDVRAVSRDFEFNYGGHILHTLYWLNMAPKGKGGGTPGGAIGDAINKFFGSFDKFKKLFGDAAKNVEGVGWAILAYDPVTGDLRILQVEKHNNVVTTNLIPLLAVDVFEHAYYIDYRNDRAKYVDSWWDLINWDDVEARYQKALNTPKLIL 4ffu-a2-m1-cB_4ffu-a2-m1-cH CRYSTAL STRUCTURE OF putative MaoC-like (monoamine oxidase-like) protein, similar to NodN from Sinorhizo Bium meliloti 1021 Q92VL2 Q92VL2 1.8 X-RAY DIFFRACTION 12 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 146 152 4ffu-a1-m1-cA_4ffu-a1-m1-cI 4ffu-a1-m1-cF_4ffu-a1-m1-cE 4ffu-a1-m1-cJ_4ffu-a1-m1-cD 4ffu-a2-m1-cG_4ffu-a2-m1-cL 4ffu-a2-m1-cK_4ffu-a2-m1-cC SSEQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERKP ENLYFQSSEQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERKP 4ffu-a2-m1-cG_4ffu-a2-m1-cB CRYSTAL STRUCTURE OF putative MaoC-like (monoamine oxidase-like) protein, similar to NodN from Sinorhizo Bium meliloti 1021 Q92VL2 Q92VL2 1.8 X-RAY DIFFRACTION 30 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 143 146 4ffu-a1-m1-cD_4ffu-a1-m1-cA 4ffu-a1-m1-cF_4ffu-a1-m1-cA 4ffu-a1-m1-cF_4ffu-a1-m1-cD 4ffu-a1-m1-cJ_4ffu-a1-m1-cE 4ffu-a1-m1-cJ_4ffu-a1-m1-cI 4ffu-a2-m1-cG_4ffu-a2-m1-cC 4ffu-a2-m1-cK_4ffu-a2-m1-cH 4ffu-a2-m1-cK_4ffu-a2-m1-cL EQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERK SSEQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERKP 4ffu-a2-m1-cG_4ffu-a2-m1-cH CRYSTAL STRUCTURE OF putative MaoC-like (monoamine oxidase-like) protein, similar to NodN from Sinorhizo Bium meliloti 1021 Q92VL2 Q92VL2 1.8 X-RAY DIFFRACTION 13 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 143 152 4ffu-a1-m1-cF_4ffu-a1-m1-cI 4ffu-a1-m1-cJ_4ffu-a1-m1-cA EQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERK ENLYFQSSEQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERKP 4ffu-a2-m1-cK_4ffu-a2-m1-cG CRYSTAL STRUCTURE OF putative MaoC-like (monoamine oxidase-like) protein, similar to NodN from Sinorhizo Bium meliloti 1021 Q92VL2 Q92VL2 1.8 X-RAY DIFFRACTION 87 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 133 143 4ffu-a1-m1-cD_4ffu-a1-m1-cI 4ffu-a1-m1-cJ_4ffu-a1-m1-cF 4ffu-a2-m1-cB_4ffu-a2-m1-cL QTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEGRVVERCEVINQRGEVVLAADHILIVER EQTIYYEDYEQGHVRLTSGRTITETDFVVHAGHTGDFFPHHDAEFAKTLPGGQRIAHGTIFSIGVGLTASLINPVAFSYGYDRLRFVRPVHIGDTIRTRVTIAAKEDDPKRPGAGRVVERCEVINQRGEVVLAADHILIVERK 4ffv-a1-m1-cA_4ffv-a1-m1-cB Crystal Structure of Dipeptidyl Peptidase IV (DPP4, DPP-IV, CD26) in Complex with 11A19 Fab P14740 P14740 2.4 X-RAY DIFFRACTION 122 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 727 729 2gbc-a1-m1-cA_2gbc-a1-m1-cB 2gbc-a2-m1-cA_2gbc-a2-m1-cB 2gbc-a2-m2-cA_2gbc-a2-m2-cB 2gbc-a2-m3-cA_2gbc-a2-m3-cB 2gbf-a1-m1-cA_2gbf-a1-m1-cB 2gbf-a2-m1-cA_2gbf-a2-m1-cB 2gbf-a2-m2-cA_2gbf-a2-m2-cB 2gbf-a2-m3-cA_2gbf-a2-m3-cB 2gbg-a1-m1-cA_2gbg-a1-m1-cB 2gbg-a2-m1-cA_2gbg-a2-m1-cB 2gbg-a2-m2-cA_2gbg-a2-m2-cB 2gbg-a2-m3-cA_2gbg-a2-m3-cB 2gbi-a1-m1-cA_2gbi-a1-m1-cB 2gbi-a2-m1-cA_2gbi-a2-m1-cB 2gbi-a2-m2-cA_2gbi-a2-m2-cB 2gbi-a2-m3-cA_2gbi-a2-m3-cB 2i3z-a1-m1-cA_2i3z-a1-m1-cB 2i3z-a2-m1-cA_2i3z-a2-m1-cB 2i3z-a2-m2-cA_2i3z-a2-m2-cB 2i3z-a2-m3-cA_2i3z-a2-m3-cB 2oae-a1-m1-cA_2oae-a1-m1-cB 2oae-a2-m1-cA_2oae-a2-m1-cB 2oae-a2-m2-cA_2oae-a2-m2-cB 2oae-a2-m3-cA_2oae-a2-m3-cB 4ffw-a1-m1-cA_4ffw-a1-m1-cB RTYTLADYLKNTFRVKSYSLRWVSDSEYLYKQENNILLFNAEHGNSSIFLENSTFEIFGDSISDYSVSPDRLFVLLEYNYVKQWRHSYTASYSIYDLNKRQLITEEKIPNNTQWITWSQEGHKLAYVWKNDIYVKIEPHLPSHRITSTGKENVIFNGINDWVYEEEIFGAYSALWWSPNGTFLAYAQFNDTGVPLIEYSFYSDESLQYPKTVWIPYPKAGAVNPTVKFFIVNTDSLSSTTTTIPMQITAPASVTTGDHYLCDVAWVSEDRISLQWLRRIQNYSVMAICDYDKTTLVWNCPTTQEHIETSATGWCGRFRPAEPHFTSDGSSFYKIVSDKDGYKHICQFQKDRKPEQVCTFITKGAWEVISIEALTSDYLYYISNEYKEMPGGRNLYKIQLTDHTNKKCLSCDLNPERCQYYSVSLSKEAKYYQLGCRGPGLPLYTLHRSTDQKELRVLEDNSALDKMLQDVQMPSKKLDFIVLNETRFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADAAFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINKRLGTLEVEDQIEAARQFLKMGFVDSKRVAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDAGVDFQAMWYTDEDHGIASSTAHQHIYSHMSHFLQQCFS RTYTLADYLKNTFRVKSYSLRWVSDSEYLYKQENNILLFNAEHGNSSIFLENSTFEIFGDSISDYSVSPDRLFVLLEYNYVKQWRHSYTASYSIYDLNKRQLITEEKIPNNTQWITWSQEGHKLAYVWKNDIYVKIEPHLPSHRITSTGKENVIFNGINDWVYEEEIFGAYSALWWSPNGTFLAYAQFNDTGVPLIEYSFYSDESLQYPKTVWIPYPKAGAVNPTVKFFIVNTDSLSSTTTTIPMQITAPASVTTGDHYLCDVAWVSEDRISLQWLRRIQNYSVMAICDYDKTTLVWNCPTTQEHIETSATGWCGRFRPAEPHFTSDGSSFYKIVSDKDGYKHICQFQKDRKPEQVCTFITKGAWEVISIEALTSDYLYYISNEYKEMPGGRNLYKIQLTDHTNKKCLSCDLNPERCQYYSVSLSKEAKYYQLGCRGPGLPLYTLHRSTDQKELRVLEDNSALDKMLQDVQMPSKKLDFIVLNETRFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADAAFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINKRLGTLEVEDQIEAARQFLKMGFVDSKRVAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDAGVDFQAMWYTDEDHGIASSTAHQHIYSHMSHFLQQCFSLR 4fg0-a1-m2-cA_4fg0-a1-m3-cA Structure of the St. Louis Encephalitis Virus envelope protein in the fusogenic trimer conformation. P09732 P09732 3.899 X-RAY DIFFRACTION 135 1.0 11080 (Saint Louis encephalitis virus) 11080 (Saint Louis encephalitis virus) 379 379 4fg0-a1-m1-cA_4fg0-a1-m2-cA 4fg0-a1-m1-cA_4fg0-a1-m3-cA NCLGTSNRDFVEGASGATWIDLVLEGGSCVTVAPEKPTLDFKVKEAAELATVREYCYEATLDTLSTVARCPTTGEAHNTKRSDPTFVCKRDVVDRGWGNGCGLFGKGSIDTCAKFTCKNKATGKTILRENIKYEVAIFVHGQAARFTISPQAPSFTANGEYGTVTIDCEARSGINTEDYYVFTVKEKSWLVNRDWFHDLNLPWTSPATTDWRNRETLVEFEEPHATKQTVVALGSQEGALHTALAGAIPATVSSSTLTLQSGHLKCRAKLDKVKIKGTTYGCDSAFTFSKNPTDTGHGTVIVELQYTGSNGPCRVPISVTANLDLTPVGRLVTVNPFISTGGANNKVIEVEPPFGDSYIVVGRGTTQINYHWHKEGSSI NCLGTSNRDFVEGASGATWIDLVLEGGSCVTVAPEKPTLDFKVKEAAELATVREYCYEATLDTLSTVARCPTTGEAHNTKRSDPTFVCKRDVVDRGWGNGCGLFGKGSIDTCAKFTCKNKATGKTILRENIKYEVAIFVHGQAARFTISPQAPSFTANGEYGTVTIDCEARSGINTEDYYVFTVKEKSWLVNRDWFHDLNLPWTSPATTDWRNRETLVEFEEPHATKQTVVALGSQEGALHTALAGAIPATVSSSTLTLQSGHLKCRAKLDKVKIKGTTYGCDSAFTFSKNPTDTGHGTVIVELQYTGSNGPCRVPISVTANLDLTPVGRLVTVNPFISTGGANNKVIEVEPPFGDSYIVVGRGTTQINYHWHKEGSSI 4fg9-a3-m2-cB_4fg9-a3-m3-cB Crystal structure of human calcium/calmodulin-dependent protein kinase I 1-320 in complex with ATP Q14012 Q14012 2.4 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 279 4fg9-a3-m1-cA_4fg9-a3-m2-cA 4fg9-a3-m1-cA_4fg9-a3-m3-cA 4fg9-a3-m1-cB_4fg9-a3-m2-cB 4fg9-a3-m1-cB_4fg9-a3-m3-cB 4fg9-a3-m2-cA_4fg9-a3-m3-cA EDIRDIYDFRDVLGTGAFSEVILAEDKRTQKLVAIKCIAKEIAVLHKIKHPNIVALDDIYESGGHLYLIMQLVSGGELFDRIVEKGFYTERDASRLIFQVLDAVKYLHDLGIVHRDLKPENLLYYSLDEDSKIMISDFVLSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDAKLFEQILKAEYEFDSPYWDDISDSAKDFIRHLMEKDPEKRFTCEQALQHPWIAGDTALDKNIHQSVSEQIKKNFAKSKWKQAFNATAVVR EDIRDIYDFRDVLGTGAFSEVILAEDKRTQKLVAIKCIAKEIAVLHKIKHPNIVALDDIYESGGHLYLIMQLVSGGELFDRIVEKGFYTERDASRLIFQVLDAVKYLHDLGIVHRDLKPENLLYYSLDEDSKIMISDFVLSTACGTPGYVAPEVLAQKPYSKAVDCWSIGVIAYILLCGYPPFYDENDAKLFEQILKAEYEFDSPYWDDISDSAKDFIRHLMEKDPEKRFTCEQALQHPWIAGDTALDKNIHQSVSEQIKKNFAKSKWKQAFNATAVVR 4fgc-a1-m2-cA_4fgc-a1-m2-cE Crystal Structure of Active Site Mutant C55A of Nitrile Reductase QueF, Bound to Substrate PreQ0 O31678 O31678 2.498 X-RAY DIFFRACTION 24 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 139 145 4f8b-a1-m1-cA_4f8b-a1-m1-cE 4f8b-a1-m2-cA_4f8b-a1-m2-cE 4fgc-a1-m1-cA_4fgc-a1-m1-cE NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLAPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYP NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLAPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR 4fgc-a1-m2-cD_4fgc-a1-m2-cE Crystal Structure of Active Site Mutant C55A of Nitrile Reductase QueF, Bound to Substrate PreQ0 O31678 O31678 2.498 X-RAY DIFFRACTION 95 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 145 145 4f8b-a1-m1-cA_4f8b-a1-m1-cB 4f8b-a1-m1-cB_4f8b-a1-m1-cC 4f8b-a1-m1-cC_4f8b-a1-m1-cD 4f8b-a1-m1-cD_4f8b-a1-m1-cE 4f8b-a1-m2-cA_4f8b-a1-m2-cB 4f8b-a1-m2-cB_4f8b-a1-m2-cC 4f8b-a1-m2-cC_4f8b-a1-m2-cD 4f8b-a1-m2-cD_4f8b-a1-m2-cE 4fgc-a1-m1-cA_4fgc-a1-m1-cB 4fgc-a1-m1-cB_4fgc-a1-m1-cC 4fgc-a1-m1-cC_4fgc-a1-m1-cD 4fgc-a1-m1-cD_4fgc-a1-m1-cE 4fgc-a1-m2-cA_4fgc-a1-m2-cB 4fgc-a1-m2-cB_4fgc-a1-m2-cC 4fgc-a1-m2-cC_4fgc-a1-m2-cD 5udg-a1-m1-cA_5udg-a1-m1-cB 5udg-a1-m1-cA_5udg-a1-m1-cE 5udg-a1-m1-cB_5udg-a1-m1-cC 5udg-a1-m1-cC_5udg-a1-m1-cD 5udg-a1-m1-cD_5udg-a1-m1-cE 5udg-a1-m2-cA_5udg-a1-m2-cB 5udg-a1-m2-cA_5udg-a1-m2-cE 5udg-a1-m2-cB_5udg-a1-m2-cC 5udg-a1-m2-cC_5udg-a1-m2-cD 5udg-a1-m2-cD_5udg-a1-m2-cE NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLAPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR NYLFEYAPDVLESFPNKHVNRDYFVKFNCPEFTSLAPKTGQPDFATIYISYIPDEKMVESKSLKLYLFSFRNHGDFHEDCMNIIMNDLIELMDPRYIEVWGKFTPRGGISIDPYTNYGKPGTKYEKMAEYRMMNHDLYPETIDNR 4fge-a6-m1-cB_4fge-a6-m1-cD Structure of the effector protein Tse1 from Pseudomonas aeruginosa Q9I2Q1 Q9I2Q1 1.7 X-RAY DIFFRACTION 13 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 147 148 SLDQCIVNACKNSWDKSYLAGTPNKDNCSGFVQSVAAELGVPMPRGNANAMVDGLEQSWTKLASGAEAAQKAAQGFLVIAGLKGRTYGHVAVVISGPLYRQKYPMCWCGSIAGAVGQSQGLKSVGQVWNRTDRDRLNYYVYSLASCS SLDQCIVNACKNSWDKSYLAGTPNKDNCSGFVQSVAAELGVPMPRGNANAMVDGLEQSWTKLASGAEAAQKAAQGFLVIAGLKGRTYGHVAVVISGPLYRQKYPMCWCGSIAGAVGQSQGLKSVGQVWNRTDRDRLNYYVYSLASCSL 4fgm-a2-m1-cA_4fgm-a2-m4-cA Crystal structure of the aminopeptidase N family protein Q5QTY1 from Idiomarina loihiensis. Northeast Structural Genomics Consortium Target IlR60. Q5QTY1 Q5QTY1 2.394 X-RAY DIFFRACTION 109 1.0 283942 (Idiomarina loihiensis L2TR) 283942 (Idiomarina loihiensis L2TR) 578 578 4fgm-a2-m2-cA_4fgm-a2-m3-cA IAYDITPIDLHGHLFNVSLTIEQTNDEQELWLPNWIPGSYLIRDFSKHIIGLHAESNGLSLPVKQISKNRWQLARSKHPVTVHYQVYAWDLSVRSAYLDQFQGFFNNTSLCLAVEGQTDLPCELHLHAPPEAPLWKVATGPRKSGQPHSWGCFRADNYDALIDYPFLIGDLTIEEFIAHGIKHSLVLSGRHYADTSRITADLAKICETQISLFEEAPFQSYTFLTVVGNGFGGLEHRNSTALLCSRKDLISAHQYENDNYQTFLSLCCHEYFHSWNIKTLKPKAFLPYQLEKESYTEQLWFYEGTSYFDDYLLHTSGIIDEKRYLKLLGDTLSRVERGAGQYQQSVTESSFLAWTKFYQQNENAPNSIVSYYAKGALIALSLDLLRLQSDHKLTLARVKELWHEFGKTSIGTADDTVINWLNQYPGIDISDFLKDALYNKESLSLVELLQNFGVVQKQVPVDDNSVGGKASEQPARVNFGAKYKASPQGLDVLNVYHDESAYHAGLSAGDKIIAIDHLQATEQSVKRILERYIPGDTVTIHAFRRDELTLELTWQEPAKSSYVLSVEQPDKLKGWLTP IAYDITPIDLHGHLFNVSLTIEQTNDEQELWLPNWIPGSYLIRDFSKHIIGLHAESNGLSLPVKQISKNRWQLARSKHPVTVHYQVYAWDLSVRSAYLDQFQGFFNNTSLCLAVEGQTDLPCELHLHAPPEAPLWKVATGPRKSGQPHSWGCFRADNYDALIDYPFLIGDLTIEEFIAHGIKHSLVLSGRHYADTSRITADLAKICETQISLFEEAPFQSYTFLTVVGNGFGGLEHRNSTALLCSRKDLISAHQYENDNYQTFLSLCCHEYFHSWNIKTLKPKAFLPYQLEKESYTEQLWFYEGTSYFDDYLLHTSGIIDEKRYLKLLGDTLSRVERGAGQYQQSVTESSFLAWTKFYQQNENAPNSIVSYYAKGALIALSLDLLRLQSDHKLTLARVKELWHEFGKTSIGTADDTVINWLNQYPGIDISDFLKDALYNKESLSLVELLQNFGVVQKQVPVDDNSVGGKASEQPARVNFGAKYKASPQGLDVLNVYHDESAYHAGLSAGDKIIAIDHLQATEQSVKRILERYIPGDTVTIHAFRRDELTLELTWQEPAKSSYVLSVEQPDKLKGWLTP 4fgm-a2-m2-cA_4fgm-a2-m4-cA Crystal structure of the aminopeptidase N family protein Q5QTY1 from Idiomarina loihiensis. Northeast Structural Genomics Consortium Target IlR60. Q5QTY1 Q5QTY1 2.394 X-RAY DIFFRACTION 32 1.0 283942 (Idiomarina loihiensis L2TR) 283942 (Idiomarina loihiensis L2TR) 578 578 4fgm-a2-m1-cA_4fgm-a2-m3-cA IAYDITPIDLHGHLFNVSLTIEQTNDEQELWLPNWIPGSYLIRDFSKHIIGLHAESNGLSLPVKQISKNRWQLARSKHPVTVHYQVYAWDLSVRSAYLDQFQGFFNNTSLCLAVEGQTDLPCELHLHAPPEAPLWKVATGPRKSGQPHSWGCFRADNYDALIDYPFLIGDLTIEEFIAHGIKHSLVLSGRHYADTSRITADLAKICETQISLFEEAPFQSYTFLTVVGNGFGGLEHRNSTALLCSRKDLISAHQYENDNYQTFLSLCCHEYFHSWNIKTLKPKAFLPYQLEKESYTEQLWFYEGTSYFDDYLLHTSGIIDEKRYLKLLGDTLSRVERGAGQYQQSVTESSFLAWTKFYQQNENAPNSIVSYYAKGALIALSLDLLRLQSDHKLTLARVKELWHEFGKTSIGTADDTVINWLNQYPGIDISDFLKDALYNKESLSLVELLQNFGVVQKQVPVDDNSVGGKASEQPARVNFGAKYKASPQGLDVLNVYHDESAYHAGLSAGDKIIAIDHLQATEQSVKRILERYIPGDTVTIHAFRRDELTLELTWQEPAKSSYVLSVEQPDKLKGWLTP IAYDITPIDLHGHLFNVSLTIEQTNDEQELWLPNWIPGSYLIRDFSKHIIGLHAESNGLSLPVKQISKNRWQLARSKHPVTVHYQVYAWDLSVRSAYLDQFQGFFNNTSLCLAVEGQTDLPCELHLHAPPEAPLWKVATGPRKSGQPHSWGCFRADNYDALIDYPFLIGDLTIEEFIAHGIKHSLVLSGRHYADTSRITADLAKICETQISLFEEAPFQSYTFLTVVGNGFGGLEHRNSTALLCSRKDLISAHQYENDNYQTFLSLCCHEYFHSWNIKTLKPKAFLPYQLEKESYTEQLWFYEGTSYFDDYLLHTSGIIDEKRYLKLLGDTLSRVERGAGQYQQSVTESSFLAWTKFYQQNENAPNSIVSYYAKGALIALSLDLLRLQSDHKLTLARVKELWHEFGKTSIGTADDTVINWLNQYPGIDISDFLKDALYNKESLSLVELLQNFGVVQKQVPVDDNSVGGKASEQPARVNFGAKYKASPQGLDVLNVYHDESAYHAGLSAGDKIIAIDHLQATEQSVKRILERYIPGDTVTIHAFRRDELTLELTWQEPAKSSYVLSVEQPDKLKGWLTP 4fgm-a2-m3-cA_4fgm-a2-m4-cA Crystal structure of the aminopeptidase N family protein Q5QTY1 from Idiomarina loihiensis. Northeast Structural Genomics Consortium Target IlR60. Q5QTY1 Q5QTY1 2.394 X-RAY DIFFRACTION 29 1.0 283942 (Idiomarina loihiensis L2TR) 283942 (Idiomarina loihiensis L2TR) 578 578 4fgm-a2-m1-cA_4fgm-a2-m2-cA IAYDITPIDLHGHLFNVSLTIEQTNDEQELWLPNWIPGSYLIRDFSKHIIGLHAESNGLSLPVKQISKNRWQLARSKHPVTVHYQVYAWDLSVRSAYLDQFQGFFNNTSLCLAVEGQTDLPCELHLHAPPEAPLWKVATGPRKSGQPHSWGCFRADNYDALIDYPFLIGDLTIEEFIAHGIKHSLVLSGRHYADTSRITADLAKICETQISLFEEAPFQSYTFLTVVGNGFGGLEHRNSTALLCSRKDLISAHQYENDNYQTFLSLCCHEYFHSWNIKTLKPKAFLPYQLEKESYTEQLWFYEGTSYFDDYLLHTSGIIDEKRYLKLLGDTLSRVERGAGQYQQSVTESSFLAWTKFYQQNENAPNSIVSYYAKGALIALSLDLLRLQSDHKLTLARVKELWHEFGKTSIGTADDTVINWLNQYPGIDISDFLKDALYNKESLSLVELLQNFGVVQKQVPVDDNSVGGKASEQPARVNFGAKYKASPQGLDVLNVYHDESAYHAGLSAGDKIIAIDHLQATEQSVKRILERYIPGDTVTIHAFRRDELTLELTWQEPAKSSYVLSVEQPDKLKGWLTP IAYDITPIDLHGHLFNVSLTIEQTNDEQELWLPNWIPGSYLIRDFSKHIIGLHAESNGLSLPVKQISKNRWQLARSKHPVTVHYQVYAWDLSVRSAYLDQFQGFFNNTSLCLAVEGQTDLPCELHLHAPPEAPLWKVATGPRKSGQPHSWGCFRADNYDALIDYPFLIGDLTIEEFIAHGIKHSLVLSGRHYADTSRITADLAKICETQISLFEEAPFQSYTFLTVVGNGFGGLEHRNSTALLCSRKDLISAHQYENDNYQTFLSLCCHEYFHSWNIKTLKPKAFLPYQLEKESYTEQLWFYEGTSYFDDYLLHTSGIIDEKRYLKLLGDTLSRVERGAGQYQQSVTESSFLAWTKFYQQNENAPNSIVSYYAKGALIALSLDLLRLQSDHKLTLARVKELWHEFGKTSIGTADDTVINWLNQYPGIDISDFLKDALYNKESLSLVELLQNFGVVQKQVPVDDNSVGGKASEQPARVNFGAKYKASPQGLDVLNVYHDESAYHAGLSAGDKIIAIDHLQATEQSVKRILERYIPGDTVTIHAFRRDELTLELTWQEPAKSSYVLSVEQPDKLKGWLTP 4fgr-a1-m1-cB_4fgr-a1-m1-cA X-Ray Structure of SAICAR Synthetase (PurC) from Streptococcus pneumoniae complexed with ADP and Mg2+ Q07296 Q07296 2.597 X-RAY DIFFRACTION 41 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 233 235 4fe2-a1-m1-cA_4fe2-a1-m1-cB 4nye-a1-m1-cB_4nye-a1-m1-cA SKQLIYSGKAKDIYTTEDENLIISTYKDQATAFNGVKKEQIAGKGVLNNQISSFIFEKLNVAGVATHFVEKLSDTEQLNKKVKIIPLEVVLRNYTAGSFSKRFGVDEGIALETPIVEFYYKNDDLDDPFINDEHVKFLQIAGDQQIAYLKEETRRINELLKVWFAEIGLKLIDFKLEFGFDKDGKIILADEFSPDNCRLWDADGNHMDKDVFRRGLGELTDVYEIVWEKLQEL MSKQLIYSGKAKDIYTTEDENLIISTYKDQATAFNGVKKEQIAGKGVLNNQISSFIFEKLNVAGVATHFVEKLSDTEQLNKKVKIIPLEVVLRNYTAGSFSKRFGVDEGIALETPIVEFYYKNDDLDDPFINDEHVKFLQIAGDQQIAYLKEETRRINELLKVWFAEIGLKLIDFKLEFGFDKDGKIILADEFSPDNCRLWDADGNHMDKDVFRRGLGELTDVYEIVWEKLQELK 4fgs-a4-m1-cB_4fgs-a4-m1-cC Crystal structure of a probable dehydrogenase protein Q2KC28 Q2KC28 1.76 X-RAY DIFFRACTION 107 0.996 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 226 232 4fgs-a1-m1-cB_4fgs-a1-m1-cC 4fgs-a1-m1-cD_4fgs-a1-m1-cA 4fgs-a2-m1-cD_4fgs-a2-m1-cA TQRLNAKIAVITGATSGIGLAAAKRFVAEGARVFITGRRKDVLDAAIAEIGGGAVGIQADSANLAELDRLYEKVKAEAGRIDVLFVNAGGGSLPLGEVTEEQYDDTFDRNVKGVLFTVQKALPLLARGSSVVLTGSTAGSTGTPAFSVYAASKAALRSFARNWILDLKDRGIRINTLSPGPTEAAQVPGRVGRAEEVAAAALFLASDDSSFVTGAELFVDGGSAQV TQRLNAKIAVITGATSGIGLAAAKRFVAEGARVFITGRRDVLDAAIAEIGGGAVGIQADSANLAELDRLYEKVKAEAGRIDVLFVNAGGGSLPLGEVTEEQYDDTFDRNVKGVLFTVQKALPLLARGSSVVLTGSTAGSTGTPAFSVYAASKAALRSFARNWILDLKDRGIRINTLSPGPTETGLLNALAAQVPGRVGRAEEVAAAALFLASDDSSFVTGAELFVDGGSAQV 4fgs-a5-m1-cC_4fgs-a5-m1-cD Crystal structure of a probable dehydrogenase protein Q2KC28 Q2KC28 1.76 X-RAY DIFFRACTION 124 0.996 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 232 232 4fgs-a1-m1-cB_4fgs-a1-m1-cA 4fgs-a1-m1-cC_4fgs-a1-m1-cD 4fgs-a3-m1-cB_4fgs-a3-m1-cA TQRLNAKIAVITGATSGIGLAAAKRFVAEGARVFITGRRDVLDAAIAEIGGGAVGIQADSANLAELDRLYEKVKAEAGRIDVLFVNAGGGSLPLGEVTEEQYDDTFDRNVKGVLFTVQKALPLLARGSSVVLTGSTAGSTGTPAFSVYAASKAALRSFARNWILDLKDRGIRINTLSPGPTETGLLNALAAQVPGRVGRAEEVAAAALFLASDDSSFVTGAELFVDGGSAQV TQRLNAKIAVITGATSGIGLAAAKRFVAEGARVFITGRRKDVLDAAIAEIGGGAVGIQADSANLAELDRLYEKVKAEAGRIDVLFVNAGGGSLPLGEVTEEQYDDTFDRNVKGVLFTVQKALPLLARGSSVVLTGSTAGSTGTPAFSVYAASKAALRSFARNWILDLKDRGIRINTLSPGPTEGLLNALAAQVPGRVGRAEEVAAAALFLASDDSSFVTGAELFVDGGSAQV 4fgt-a1-m1-cA_4fgt-a1-m2-cA Allosteric peptidic inhibitor of human thymidylate synthase that stabilizes inactive conformation of the enzyme. P04818 P04818 2 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 265 4fgt-a1-m2-cD_4fgt-a1-m1-cA GELQYLGQIQHILRCGVRADDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPHALQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEM GELQYLGQIQHILRCGVRADDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPHALQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEM 4fgt-a1-m1-cD_4fgt-a1-m2-cA Allosteric peptidic inhibitor of human thymidylate synthase that stabilizes inactive conformation of the enzyme. P04818 2 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 9606 (Homo sapiens) 4 265 CQLY GELQYLGQIQHILRCGVRADDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPHALQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEM 4fgu-a3-m2-cB_4fgu-a3-m1-cA Crystal structure of prolegumain Q99538 Q99538 3.9 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 404 407 KHWVVIVAGSNGWYNYRHQADACHAYQIIHRNGIPDEQIVVMMYDDIAYSEDNPTPGIVINRPNGTDVYQGVPKDYTGEDVTPQNFLAVLRGDAEAVKGIGSGKVLKSGPQDHVFIYFTDHGSTGILVFPNEDLHVKDLNETIHYMYKHKMYRKMVFYIEACESGSMMNHLPDNINVYATTAANPRESSYACYYDEKRSTYLGDWYSVNWMEDSDVEDLTKETLHKQYHLVKSHTNTSHVMQYGQKTISTMKVMQFQGMKRKASSPVPLPPVTHLDLTPSPDVPLTIMKRKLMNTNDLEESRQLTEEIQRHLDARHLIEKSVRKIVSLLAASEAEVEQLLSERAPLTGHSCYPEALLHFRTHCFNWHSPTYEYALRHLYVLVNLCEKPYPLHRIKLSMDHVCLG KHWVVIVAGSNGWYNYRHQADACHAYQIIHRNGIPDEQIVVMMYDDIAYSEDNPTPGIVINRPNGTDVYQGVPKDYTGEDVTPQNFLAVLRGDAEAVKGIGSGKVLKSGPQDHVFIYFTDHGSTGILVFPNEDLHVKDLNETIHYMYKHKMYRKMVFYIEACESGSMMNHLPDNINVYATTAANPRESSYACYYDEKRSTYLGDWYSVNWMEDSDVEDLTKETLHKQYHLVKSHTNTSHVMQYGQKTISTMKVMQFQGMKRKASSPVPLPPVTHLDLTPSPDVPLTIMKRKLMNTNDLEESRQLTEEIQRHLDARHLIEKSVRKIVSLLAASEAEVEQLLSERAPLTGHSCYPEALLHFRTHCFNWHSPTYEYALRHLYVLVNLCEKPYPLHRIKLSMDHVCLGHYG 4fgw-a1-m1-cA_4fgw-a1-m1-cB Structure of Glycerol-3-Phosphate Dehydrogenase, GPD1, from Sacharomyces Cerevisiae Q00055 Q00055 2.45 X-RAY DIFFRACTION 134 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 353 353 KPFKVTVIGSGNWGTTIAKVVAENCKGYPEVFAPIVQMWVFEEEINGEKLTEIINTRHQNVKYLPGITLPDNLVANPDLIDSVKDVDIIVFNIPHQFLPRICSQLKGHVDSHVRAISCLKGFEVGAKGVQLLSSYITEELGIQCGALSGANIATEVAQEHWSETTVAYHIPKDFRGEGKDVDHKVLKALFHRPYFHVSVIEDVAGISICGALKNVVALGCGFVEGLGWGNNASAAIQRVGLGEIIRFGQMFFPESREETYYQESAGVADLITTCAGGRNVKVARLMATSGKDAWECEKELLNGQSAQGLITCKEVHEWLETCGSVEDFPLFEAVYQIVYNNYPMKNLPDMIEE KPFKVTVIGSGNWGTTIAKVVAENCKGYPEVFAPIVQMWVFEEEINGEKLTEIINTRHQNVKYLPGITLPDNLVANPDLIDSVKDVDIIVFNIPHQFLPRICSQLKGHVDSHVRAISCLKGFEVGAKGVQLLSSYITEELGIQCGALSGANIATEVAQEHWSETTVAYHIPKDFRGEGKDVDHKVLKALFHRPYFHVSVIEDVAGISICGALKNVVALGCGFVEGLGWGNNASAAIQRVGLGEIIRFGQMFFPESREETYYQESAGVADLITTCAGGRNVKVARLMATSGKDAWECEKELLNGQSAQGLITCKEVHEWLETCGSVEDFPLFEAVYQIVYNNYPMKNLPDMIEE 4fha-a1-m1-cA_4fha-a1-m2-cB Structure of Dihydrodipicolinate Synthase from Streptococcus pneumoniae,bound to pyruvate and lysine 1.88 X-RAY DIFFRACTION 58 1.0 406556 (Streptococcus pneumoniae SP3-BS71) 406556 (Streptococcus pneumoniae SP3-BS71) 306 306 3vfl-a1-m1-cB_3vfl-a1-m2-cA 3vfl-a1-m2-cB_3vfl-a1-m1-cA 4fha-a1-m1-cB_4fha-a1-m2-cA SYQDLKECKIITAFITPFHEDGSINFDAIPALIEHLLAHHTDGILLAGTTAESPTLTHDEELELFAAVQKVVNGRVPLIAGVGTNDTRDSIEFVKEVAEFGGFAAGLAIVPYYNKPSQEGMYQHFKAIADASDLPIIIYNIPGRVVVELTPETMLRLADHPNIIGVECTSLANMAYLIEHKPEEFLIYTGEDGDAFHAMNLGADGVISVASHTNGDEMHEMFTAIAESDMKKAAAIQRKFIPKVNALFSYPSPAPVKAILNYMGFEAGPTRLPLVPAPEEDVKRIIKVVVDGDYEATVTGVLRPDY SYQDLKECKIITAFITPFHEDGSINFDAIPALIEHLLAHHTDGILLAGTTAESPTLTHDEELELFAAVQKVVNGRVPLIAGVGTNDTRDSIEFVKEVAEFGGFAAGLAIVPYYNKPSQEGMYQHFKAIADASDLPIIIYNIPGRVVVELTPETMLRLADHPNIIGVECTSLANMAYLIEHKPEEFLIYTGEDGDAFHAMNLGADGVISVASHTNGDEMHEMFTAIAESDMKKAAAIQRKFIPKVNALFSYPSPAPVKAILNYMGFEAGPTRLPLVPAPEEDVKRIIKVVVDGDYEATVTGVLRPDY 4fha-a1-m2-cA_4fha-a1-m2-cB Structure of Dihydrodipicolinate Synthase from Streptococcus pneumoniae,bound to pyruvate and lysine 1.88 X-RAY DIFFRACTION 142 1.0 406556 (Streptococcus pneumoniae SP3-BS71) 406556 (Streptococcus pneumoniae SP3-BS71) 306 306 3vfl-a1-m1-cB_3vfl-a1-m1-cA 3vfl-a1-m2-cB_3vfl-a1-m2-cA 4fha-a1-m1-cA_4fha-a1-m1-cB SYQDLKECKIITAFITPFHEDGSINFDAIPALIEHLLAHHTDGILLAGTTAESPTLTHDEELELFAAVQKVVNGRVPLIAGVGTNDTRDSIEFVKEVAEFGGFAAGLAIVPYYNKPSQEGMYQHFKAIADASDLPIIIYNIPGRVVVELTPETMLRLADHPNIIGVECTSLANMAYLIEHKPEEFLIYTGEDGDAFHAMNLGADGVISVASHTNGDEMHEMFTAIAESDMKKAAAIQRKFIPKVNALFSYPSPAPVKAILNYMGFEAGPTRLPLVPAPEEDVKRIIKVVVDGDYEATVTGVLRPDY SYQDLKECKIITAFITPFHEDGSINFDAIPALIEHLLAHHTDGILLAGTTAESPTLTHDEELELFAAVQKVVNGRVPLIAGVGTNDTRDSIEFVKEVAEFGGFAAGLAIVPYYNKPSQEGMYQHFKAIADASDLPIIIYNIPGRVVVELTPETMLRLADHPNIIGVECTSLANMAYLIEHKPEEFLIYTGEDGDAFHAMNLGADGVISVASHTNGDEMHEMFTAIAESDMKKAAAIQRKFIPKVNALFSYPSPAPVKAILNYMGFEAGPTRLPLVPAPEEDVKRIIKVVVDGDYEATVTGVLRPDY 4fhl-a2-m1-cA_4fhl-a2-m2-cA Nucleoporin Nup37 from Schizosaccharomyces pombe O36030 O36030 2.6 X-RAY DIFFRACTION 74 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 345 345 GSMTLSSNQYQLPLNVRPYTTTWCSQSPSCSNLLAIGHDTGITIYCASEESTGLTLQELFTIQTGLPTLHLSFSSSCSYSENSPVYSLFLACVCQDNTVRLIITKNETIITQHVLGGKSGHHNFVNDIDIADVYSADNRLAEQVIASVGDDCTLIIWRLTDEGPILAGYPLSSPGISVQFRPSNPNQLIVGERNGNIRIFDWTLNLTELVKNPWLLTLNTLPLVNSSLANVRWIGSDGSGILAMCKSGAWLRWNLFKNLLPNVQGISLFPSLLGACPHPRYMDYFATAHSQHGLIQLINTYEKDSNSIPIQLGMPIVDFCWHQDGSHLAIATEGSVLLTRLMGFT GSMTLSSNQYQLPLNVRPYTTTWCSQSPSCSNLLAIGHDTGITIYCASEESTGLTLQELFTIQTGLPTLHLSFSSSCSYSENSPVYSLFLACVCQDNTVRLIITKNETIITQHVLGGKSGHHNFVNDIDIADVYSADNRLAEQVIASVGDDCTLIIWRLTDEGPILAGYPLSSPGISVQFRPSNPNQLIVGERNGNIRIFDWTLNLTELVKNPWLLTLNTLPLVNSSLANVRWIGSDGSGILAMCKSGAWLRWNLFKNLLPNVQGISLFPSLLGACPHPRYMDYFATAHSQHGLIQLINTYEKDSNSIPIQLGMPIVDFCWHQDGSHLAIATEGSVLLTRLMGFT 4fht-a1-m1-cA_4fht-a1-m1-cB Crystal Structure of the PcaV transcriptional regulator from Streptomyces coelicolor in complex with its natural ligand Q9XAM6 Q9XAM6 2.15 X-RAY DIFFRACTION 176 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 141 142 MAAVDLATHPGHLARRLQQAHYLLWNTMVSEETTSPQYAVLNALVAEPGLDQRTVGERVGLDRSTIAEVVSRLGRRGLLDKVRDPQDGRRSLLRLTDEGLRVHRRLGVRIARMNQVFLAPLAADEQAVFFDLIRRVADAAE HMAAVDLATHPGHLARRLQQAHYLLWNTMVSEETTSPQYAVLNALVAEPGLDQRTVGERVGLDRSTIAEVVSRLGRRGLLDKVRDPQDGRRSLLRLTDEGLRVHRRLGVRIARMNQVFLAPLAADEQAVFFDLIRRVADAAE 4fhz-a1-m1-cA_4fhz-a1-m2-cA Crystal structure of a carboxyl esterase at 2.0 angstrom resolution Q3J2V1 Q3J2V1 2.01 X-RAY DIFFRACTION 72 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 220 220 IMTRKLTFGRRGAAPGEATSLVVFLHGYGADGADLLGLAEPLAPHLPGTAFVAPDAPEPCRANGFGFQWFPIPWLDGSSETAAAEGMAAAARDLDAFLDERLAEEGLPPEALALVGFSQGTMMALHVAPRRAEEIAGIVGFSGRLLAPERLAEEARSKPPVLLVHGDADPVVPFADMSLAGEALAEAGFTTYGHVMKGTGHGIAPDGLSVALAFLKERLP IMTRKLTFGRRGAAPGEATSLVVFLHGYGADGADLLGLAEPLAPHLPGTAFVAPDAPEPCRANGFGFQWFPIPWLDGSSETAAAEGMAAAARDLDAFLDERLAEEGLPPEALALVGFSQGTMMALHVAPRRAEEIAGIVGFSGRLLAPERLAEEARSKPPVLLVHGDADPVVPFADMSLAGEALAEAGFTTYGHVMKGTGHGIAPDGLSVALAFLKERLP 4fi4-a2-m1-cB_4fi4-a2-m9-cC Crystal structure of mannonate dehydratase PRK15072 (TARGET EFI-502214) from Caulobacter sp. K31 B0T0B1 B0T0B1 2 X-RAY DIFFRACTION 74 1.0 366602 (Caulobacter sp. K31) 366602 (Caulobacter sp. K31) 403 403 4fi4-a1-m1-cA_4fi4-a1-m8-cA 4fi4-a1-m2-cA_4fi4-a1-m7-cA 4fi4-a1-m3-cA_4fi4-a1-m6-cA 4fi4-a1-m4-cA_4fi4-a1-m5-cA 4fi4-a2-m10-cC_4fi4-a2-m2-cB 4fi4-a2-m11-cC_4fi4-a2-m4-cB 4fi4-a2-m12-cC_4fi4-a2-m3-cB MLKIIDAKVIVTCPGRNFVTLKITTSDGVTGVGDATLNGRELAVVSYLRDHMIPCLIGRDAHRIEDVWQFFYRGSYWRGGPVAMTALAAVDMALWDIKAKLAGMPLYQLLGGACREGVMVYGHANGETIEDTIAEARKYQALGYKAIRLQSGVPGLPSTYGVSGDKMFYEPADGNLPTENVWSTSKYLKHAPKLFEAAREALGDDVHLLHDVHHRLTPIEAGRLGKDLEPYRLFWLEDAVPAENQAGFRLIRQHTTTPLAVGEIFSHVWDCKQLIEEQLIDYLRATVLHAGGITNLRKIAAFADLHHVRTGCHGATDLSPITMAAALHFDLSVSNFGLQEYMRHTPETDAVFPHAYSYKDGMLHPGEAPGLGVDIDEALAGQYPYKRAYLPVNRLEDGTMYNW MLKIIDAKVIVTCPGRNFVTLKITTSDGVTGVGDATLNGRELAVVSYLRDHMIPCLIGRDAHRIEDVWQFFYRGSYWRGGPVAMTALAAVDMALWDIKAKLAGMPLYQLLGGACREGVMVYGHANGETIEDTIAEARKYQALGYKAIRLQSGVPGLPSTYGVSGDKMFYEPADGNLPTENVWSTSKYLKHAPKLFEAAREALGDDVHLLHDVHHRLTPIEAGRLGKDLEPYRLFWLEDAVPAENQAGFRLIRQHTTTPLAVGEIFSHVWDCKQLIEEQLIDYLRATVLHAGGITNLRKIAAFADLHHVRTGCHGATDLSPITMAAALHFDLSVSNFGLQEYMRHTPETDAVFPHAYSYKDGMLHPGEAPGLGVDIDEALAGQYPYKRAYLPVNRLEDGTMYNW 4fi4-a2-m12-cC_4fi4-a2-m9-cC Crystal structure of mannonate dehydratase PRK15072 (TARGET EFI-502214) from Caulobacter sp. K31 B0T0B1 B0T0B1 2 X-RAY DIFFRACTION 53 1.0 366602 (Caulobacter sp. K31) 366602 (Caulobacter sp. K31) 403 403 4fi4-a1-m1-cA_4fi4-a1-m3-cA 4fi4-a1-m1-cA_4fi4-a1-m4-cA 4fi4-a1-m2-cA_4fi4-a1-m3-cA 4fi4-a1-m2-cA_4fi4-a1-m4-cA 4fi4-a1-m5-cA_4fi4-a1-m7-cA 4fi4-a1-m5-cA_4fi4-a1-m8-cA 4fi4-a1-m6-cA_4fi4-a1-m7-cA 4fi4-a1-m6-cA_4fi4-a1-m8-cA 4fi4-a2-m10-cC_4fi4-a2-m11-cC 4fi4-a2-m10-cC_4fi4-a2-m12-cC 4fi4-a2-m11-cC_4fi4-a2-m9-cC 4fi4-a2-m1-cB_4fi4-a2-m3-cB 4fi4-a2-m1-cB_4fi4-a2-m4-cB 4fi4-a2-m2-cB_4fi4-a2-m3-cB 4fi4-a2-m2-cB_4fi4-a2-m4-cB MLKIIDAKVIVTCPGRNFVTLKITTSDGVTGVGDATLNGRELAVVSYLRDHMIPCLIGRDAHRIEDVWQFFYRGSYWRGGPVAMTALAAVDMALWDIKAKLAGMPLYQLLGGACREGVMVYGHANGETIEDTIAEARKYQALGYKAIRLQSGVPGLPSTYGVSGDKMFYEPADGNLPTENVWSTSKYLKHAPKLFEAAREALGDDVHLLHDVHHRLTPIEAGRLGKDLEPYRLFWLEDAVPAENQAGFRLIRQHTTTPLAVGEIFSHVWDCKQLIEEQLIDYLRATVLHAGGITNLRKIAAFADLHHVRTGCHGATDLSPITMAAALHFDLSVSNFGLQEYMRHTPETDAVFPHAYSYKDGMLHPGEAPGLGVDIDEALAGQYPYKRAYLPVNRLEDGTMYNW MLKIIDAKVIVTCPGRNFVTLKITTSDGVTGVGDATLNGRELAVVSYLRDHMIPCLIGRDAHRIEDVWQFFYRGSYWRGGPVAMTALAAVDMALWDIKAKLAGMPLYQLLGGACREGVMVYGHANGETIEDTIAEARKYQALGYKAIRLQSGVPGLPSTYGVSGDKMFYEPADGNLPTENVWSTSKYLKHAPKLFEAAREALGDDVHLLHDVHHRLTPIEAGRLGKDLEPYRLFWLEDAVPAENQAGFRLIRQHTTTPLAVGEIFSHVWDCKQLIEEQLIDYLRATVLHAGGITNLRKIAAFADLHHVRTGCHGATDLSPITMAAALHFDLSVSNFGLQEYMRHTPETDAVFPHAYSYKDGMLHPGEAPGLGVDIDEALAGQYPYKRAYLPVNRLEDGTMYNW 4fi4-a2-m3-cB_4fi4-a2-m9-cC Crystal structure of mannonate dehydratase PRK15072 (TARGET EFI-502214) from Caulobacter sp. K31 B0T0B1 B0T0B1 2 X-RAY DIFFRACTION 139 1.0 366602 (Caulobacter sp. K31) 366602 (Caulobacter sp. K31) 403 403 4fi4-a1-m1-cA_4fi4-a1-m6-cA 4fi4-a1-m2-cA_4fi4-a1-m5-cA 4fi4-a1-m3-cA_4fi4-a1-m7-cA 4fi4-a1-m4-cA_4fi4-a1-m8-cA 4fi4-a2-m10-cC_4fi4-a2-m4-cB 4fi4-a2-m12-cC_4fi4-a2-m2-cB 4fi4-a2-m1-cB_4fi4-a2-m11-cC MLKIIDAKVIVTCPGRNFVTLKITTSDGVTGVGDATLNGRELAVVSYLRDHMIPCLIGRDAHRIEDVWQFFYRGSYWRGGPVAMTALAAVDMALWDIKAKLAGMPLYQLLGGACREGVMVYGHANGETIEDTIAEARKYQALGYKAIRLQSGVPGLPSTYGVSGDKMFYEPADGNLPTENVWSTSKYLKHAPKLFEAAREALGDDVHLLHDVHHRLTPIEAGRLGKDLEPYRLFWLEDAVPAENQAGFRLIRQHTTTPLAVGEIFSHVWDCKQLIEEQLIDYLRATVLHAGGITNLRKIAAFADLHHVRTGCHGATDLSPITMAAALHFDLSVSNFGLQEYMRHTPETDAVFPHAYSYKDGMLHPGEAPGLGVDIDEALAGQYPYKRAYLPVNRLEDGTMYNW MLKIIDAKVIVTCPGRNFVTLKITTSDGVTGVGDATLNGRELAVVSYLRDHMIPCLIGRDAHRIEDVWQFFYRGSYWRGGPVAMTALAAVDMALWDIKAKLAGMPLYQLLGGACREGVMVYGHANGETIEDTIAEARKYQALGYKAIRLQSGVPGLPSTYGVSGDKMFYEPADGNLPTENVWSTSKYLKHAPKLFEAAREALGDDVHLLHDVHHRLTPIEAGRLGKDLEPYRLFWLEDAVPAENQAGFRLIRQHTTTPLAVGEIFSHVWDCKQLIEEQLIDYLRATVLHAGGITNLRKIAAFADLHHVRTGCHGATDLSPITMAAALHFDLSVSNFGLQEYMRHTPETDAVFPHAYSYKDGMLHPGEAPGLGVDIDEALAGQYPYKRAYLPVNRLEDGTMYNW 4fin-a1-m1-cB_4fin-a1-m1-cA Crystal Structure of EttA (formerly YjjK) - an E. coli ABC-type ATPase P0A9W3 P0A9W3 2.4 X-RAY DIFFRACTION 193 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 518 528 QFVYTHRVGKVVPPKRHILKNISLSFFPGAKIGVLGLNGAGKSTLLRIAGIDKDIEGEARPQPDIKIGYLPQEPQLNPEHTVRESIEEAVSEVVNALKRLDEVYALYADPDADFDKLAAEQGRLEEILNVQLERAADALRLPDWDAKIANLSGGERRRVALCRLLLEKPDLLLDEPTNHLDAESVAWLERFLHDFEGTVVAITHDRYFLDNVAGWILELDRGEGIPWEGNYSSWLEQKDQRLAQEASQEAARRKSIEKELEWVRQGRQSKGKARLARFEELNSTEYQKRNETNELFIPPGPRLGDKVLEVSNLRKSYGDRLLIDDLSFSIPKGAIVGIIGPNGAGKSTLFRISGQEQPDSGTITLGETVKLASVDQFRDSDNSKTVWEEVSGGLDIKIGNTEPSRAYVGRFNFKGVDQGKRVGELSGGERGRLHLAKLLQVGGNLLLDEPTNDLDIETLRALENALLEFPGCAVISHDRWFLDRIATHILDYQDEGKVEFFEGNFTEYEEYKKRTLGA AQFVYTHRVGKVVPPKRHILKNISLSFFPGAKIGVLGLNGAGKSTLLRIAGIDKDIEGEARPQPDIKIGYLPQEPQLNPEHTVRESIEEAVSEVVNALKRLDEVYALYADPDADFDKLAAEQGRLEEIIQLNVQLERAADALRLPDWDAKIANLSGGERRRVALCRLLLEKPDLLLDEPTNHLDAESVAWLERFLHDFEGTVVAITHDRYFLDNVAGWILELDRGEGIPWEGNYSSWLEQKDQRLAQEASQEAARRKSIEKELEWVRQGTKKGKARLARFEELNSTEYQKRNETNELFIPPGPRLGDKVLEVSNLRKSYGDRLLIDDLSFSIPKGAIVGIIGPNGAGKSTLFRISGQEQPDSGTITLGETVKLASVDQFRDSDNSKTVWEEVSGGLDIKIGNTEPSRAYVGRFNFKGVDQGKRVGELSGGERGRLHLAKLLQVGGNLLLDEPTNDLDIETLRALENALLEFPGCAVISHDRWFLDRIATHILDYQDEGKVEFFEGNFTEYEEYKKRTLGADALEPKRI 4fio-a1-m1-cC_4fio-a1-m1-cB Crystal Structure of Methenyltetrahydromethanopterin Cyclohydrolase from Methanobrevibacter ruminantium D3E4S5 D3E4S5 1.37 X-RAY DIFFRACTION 92 1.0 634498 (Methanobrevibacter ruminantium M1) 634498 (Methanobrevibacter ruminantium M1) 319 320 4fio-a1-m1-cB_4fio-a1-m1-cA 4fio-a1-m1-cC_4fio-a1-m1-cA VSVNLEAKKTVDVMIEKADDLNIAVSKLENGATVIDCGVNVAGSFKAGELYTKVCLGGLADVGISIPGDLSEKFALPSVKIKTDFPAISTLGAQKAGWSVSVGDFFALGSGPARALSLKPAETYEEIDYKDEADLAILTLEADVLPGEDVAQYIADECGVDVANVFLLVAPTASLVGSIQIAGRVVENGTYKMLEFLKFDVKKVVHAAGIAPIAPIDPDGLKAMGKTNDAVLFGGRTYYYVKSEEGDDIAAVAAQLPSSAADGYGKPFFDVFKDAGFDFYQIDKGMFAPAEVVINDLTTGKLYKEGFVNAELLKKSFGI VSVNLEAKKTVDVMIEKADDLNIAVSKLENGATVIDCGVNVAGSFKAGELYTKVCLGGLADVGISIPGDLSEKFALPSVKIKTDFPAISTLGAQKAGWSVSVGDFFALGSGPARALSLKPAETYEEIDYKDEADLAILTLEADVLPGEDVAQYIADECGVDVANVFLLVAPTASLVGSIQIAGRVVENGTYKMLEFLKFDVKKVVHAAGIAPIAPIDPDGLKAMGKTNDAVLFGGRTYYYVKSEEGDDIAAVAAQLPSSAADGYGKPFFDVFKDAGFDFYQIDKGMFAPAEVVINDLTTGKLYKEGFVNAELLKKSFGIE 4fip-a1-m1-cE_4fip-a1-m1-cA Structure of the SAGA Ubp8(S144N)/Sgf11(1-72, Delta-ZnF)/Sus1/Sgf73 DUB module P50102 P50102 2.686 X-RAY DIFFRACTION 144 0.986 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 441 450 4fjc-a1-m1-cE_4fjc-a1-m1-cA MSICPHIQQVFQNEKSKDGVLKTCNAARYILNHSVPKEKFLNTMKCGTCHEINSGATFMCLQCGFCGCWNHSHFLSHSKQIGHIFGINSNNGLLFCFKCEDYIGNIDLINDAILAKYWDDVCTKTMVPSMERRDGLSGLINMGNTCFMSSILQCLIHNPYFIRHSMSQIHSNNCKVRSPDKCFSCALDKIVHELYGALNRQTGFIYLLTCAWKINQNLAGYSQQDAHEFWQFIINQIHQSYVLDLPNNKQCECIVHTVFEGSLESSIVCPGCQNNSKTTIDPFLDLSLDIKDKKKLYECLDSFHKKEQLKDFNYHCGECNSTQDAIKQLGIHKLPSVLVLQLKRFEHLLNGSNRKLDDFIEFPTYLNMKNYCSTKVPDIIYELIGIVSHKGTVNEGHYIAFCKISGGQWFKFNDSMVSSISQEEVLKEQAYLLFYTIRQVN AMSICPHIQQVFQNEKSKDGVLKTCNAARYILNHSVPKEKFLNTMKCGTCHEINSGATFMCLQCGFCGCWNHSHFLSHSKQIGHIFGINSNNGLLFCFKCEDYIGNIDLINDAILAKYWDDVCTKTMVPSMERRDGLSGLINMGNTCFMSSILQCLIHNPYFIRHSMSQIHSNNCKVRSPDKCFSCALDKIVHELYGALNTNRQTGFIYLLTCAWKINQNQDAHEFWQFIINQIHQSYVLDLPNAKEVSRANNKQCECIVHTVFEGSLESSIVCPGCQNNSKTTIDPFLDLSLDIKDKKKLYECLDSFHKKEQLKDFNYHCGECNSTQDAIKQLGIHKLPSVLVLQLKRFEHLLNGSNRKLDDFIEFPTYLNMKNYCSTSENGKVPDIIYELIGIVSHKGTVNEGHYIAFCKISGGQWFKFNDSMVSSISQEEVLKEQAYLLFYTIRQVN 4fir-a1-m1-cD_4fir-a1-m1-cE Crystal structure of pyridoxal biosynthesis lyase PdxS from Pyrococcus O59080 O59080 3.1 X-RAY DIFFRACTION 112 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 333 333 4fiq-a1-m1-cA_4fiq-a1-m1-cB 4fiq-a1-m1-cA_4fiq-a1-m1-cF 4fiq-a1-m1-cB_4fiq-a1-m1-cC 4fiq-a1-m1-cC_4fiq-a1-m1-cD 4fiq-a1-m1-cD_4fiq-a1-m1-cE 4fiq-a1-m1-cE_4fiq-a1-m1-cF 4fir-a1-m1-cA_4fir-a1-m1-cB 4fir-a1-m1-cA_4fir-a1-m1-cF 4fir-a1-m1-cB_4fir-a1-m1-cC 4fir-a1-m1-cC_4fir-a1-m1-cD 4fir-a1-m1-cE_4fir-a1-m1-cF MDKLKIIMEKGTERLKRGFAKMVKGGVIMDVTNAEQARIAEEAGAVAVMALHKVPADIRKAGGVARMAPVEKIQEIMDAVTIPVMAKCRIGHEAEARILEALGVDMIDESEVLTPADPFFHIYKKKFTAPFVCGARNLGEAVRRIWEGAAMIRTKGEAGTGNIIEAVRHVRLVNENIRLIQRMTDEEIYGVAEKFAEPYLRLAFSVKEISGLPKRVLENEPIYEGFTYREIVEDIYKILLEIKKLGRLPVVNFAAGGVATPADAALMMAMGMDGVFVGSGIFKSSNPPKMARAIVEAVNHWDEPDVLAEISREIGEPMRGQAIEELQVRMEER MDKLKIIMEKGTERLKRGFAKMVKGGVIMDVTNAEQARIAEEAGAVAVMALHKVPADIRKAGGVARMAPVEKIQEIMDAVTIPVMAKCRIGHEAEARILEALGVDMIDESEVLTPADPFFHIYKKKFTAPFVCGARNLGEAVRRIWEGAAMIRTKGEAGTGNIIEAVRHVRLVNENIRLIQRMTDEEIYGVAEKFAEPYLRLAFSVKEISGLPKRVLENEPIYEGFTYREIVEDIYKILLEIKKLGRLPVVNFAAGGVATPADAALMMAMGMDGVFVGSGIFKSSNPPKMARAIVEAVNHWDEPDVLAEISREIGEPMRGQAIEELQVRMEER 4fix-a2-m5-cB_4fix-a2-m7-cB Crystal Structure of GlfT2 O53585 O53585 2.45 X-RAY DIFFRACTION 85 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 629 629 4fix-a1-m1-cA_4fix-a1-m3-cA 4fix-a1-m1-cA_4fix-a1-m4-cA 4fix-a1-m2-cA_4fix-a1-m3-cA 4fix-a1-m2-cA_4fix-a1-m4-cA 4fix-a2-m1-cB_4fix-a2-m6-cB 4fix-a2-m1-cB_4fix-a2-m7-cB 4fix-a2-m5-cB_4fix-a2-m6-cB 4fiy-a1-m1-cA_4fiy-a1-m3-cA 4fiy-a1-m1-cA_4fiy-a1-m4-cA 4fiy-a1-m2-cA_4fiy-a1-m3-cA 4fiy-a1-m2-cA_4fiy-a1-m4-cA 4fiy-a2-m1-cB_4fiy-a2-m6-cB 4fiy-a2-m1-cB_4fiy-a2-m7-cB 4fiy-a2-m5-cB_4fiy-a2-m6-cB 4fiy-a2-m5-cB_4fiy-a2-m7-cB MSELAASLLSRVILPRPGEPLDVRKLYLEESTTNARRAHAPTRTSLQIGAESEVSFATYFNAFPASYWRRWTTCKSVVLRVQVTGAGRVDVYRTKATGARIFVEGHDFTGTEDQPAAVETEVVLQPFEDGGWVWFDITTDTAVTLHSGGWYATSPAPGTANIAVGIPTFNRPADCVNALRELTADPLVDQVIGAVIVPDQGERKVRDHPDFPAAAARLGSRLSIHDQPNLGGSGGYSRVMYEALKNTDCQQILFMDDDIRLEPDSILRVLAMHRFAKAPMLVGGQMLNLQEPSHLHIMGEVVDRSIFMWTAAPHAEYDHDFAEYPLNDNNSRSKLLHRRIDVDYNGWWTCMIPRQVAEELGQPLPLFIKWDDADYGLRAAEHGYPTVTLPGAAIWHMAWSDKDDAIDWQAYFHLRNRLVVAAMHWDGPKAQVIGLVRSHLKATLKHLACLEYSTVAIQNKAIDDFLAGPEHIFSILESALPQVHRIRKSYPDAVVLPAASELPPPLHKNKAMKPPVNPLVIGYRLARGIMHNLTAANPQHHRRPEFNVPTQDARWFLLCTVDGATVTTADGCGVVYRQRDRAKMFALLWQSLRRQRQLLKRFEEMRRIYRDALPTLSSKQKWETALLPA MSELAASLLSRVILPRPGEPLDVRKLYLEESTTNARRAHAPTRTSLQIGAESEVSFATYFNAFPASYWRRWTTCKSVVLRVQVTGAGRVDVYRTKATGARIFVEGHDFTGTEDQPAAVETEVVLQPFEDGGWVWFDITTDTAVTLHSGGWYATSPAPGTANIAVGIPTFNRPADCVNALRELTADPLVDQVIGAVIVPDQGERKVRDHPDFPAAAARLGSRLSIHDQPNLGGSGGYSRVMYEALKNTDCQQILFMDDDIRLEPDSILRVLAMHRFAKAPMLVGGQMLNLQEPSHLHIMGEVVDRSIFMWTAAPHAEYDHDFAEYPLNDNNSRSKLLHRRIDVDYNGWWTCMIPRQVAEELGQPLPLFIKWDDADYGLRAAEHGYPTVTLPGAAIWHMAWSDKDDAIDWQAYFHLRNRLVVAAMHWDGPKAQVIGLVRSHLKATLKHLACLEYSTVAIQNKAIDDFLAGPEHIFSILESALPQVHRIRKSYPDAVVLPAASELPPPLHKNKAMKPPVNPLVIGYRLARGIMHNLTAANPQHHRRPEFNVPTQDARWFLLCTVDGATVTTADGCGVVYRQRDRAKMFALLWQSLRRQRQLLKRFEEMRRIYRDALPTLSSKQKWETALLPA 4fj4-a1-m1-cA_4fj4-a1-m1-cB Crystal structure of the protein Q9HRE7 complexed with mercury from Halobacterium salinarium at the resolution 2.1A, Northeast Structural Genomics Consortium target HsR50 Q9HRE7 Q9HRE7 2.1 X-RAY DIFFRACTION 11 0.989 64091 (Halobacterium salinarum NRC-1) 64091 (Halobacterium salinarum NRC-1) 176 180 TDTDDAWRARIAAHRADKDEFLATHDQSPIPPADRGAFDGLRYFDIDASFRVAARYQPARDPEAVELETTRGPPAEYTRAAVLGFDLGDSHHTLTAFRVEGESSLFVPFTDETTDDGRTYEHGRYLDVDPAGGDEVALDFNLAYNPFCAYGGSFSCALPPADNHVPAAITAGERVD TDDAWRARIAAHRADKDEFLATHDQSPIPPADRGAFDGLRYFDIDASFRVAARYQPARDPEAVELETTRGPPAEYTRAAVLGFDLGDSHHTLTAFRVEGESSLFVPFTDETTDDGRTYEHGRYLDVDPAGADGGDEVALDFNLAYNPFCAYGGSFSCALPPADNHVPAAITAGERVDADL 4fj6-a2-m1-cC_4fj6-a2-m1-cD Crystal structure of a glycoside hydrolase family 33, candidate sialidase (BDI_2946) from Parabacteroides distasonis ATCC 8503 at 1.90 A resolution A6LG40 A6LG40 1.9 X-RAY DIFFRACTION 117 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 502 504 4fj6-a1-m1-cA_4fj6-a1-m1-cB DSIYVREQQIPILIDRIDNVLYERIPAQKGDVLNEITIQIGDNVDLSDIQAIRLFYSGVEAPSRKGEHFSPVTYISSHIPGNTRKALESYSVRQDEVTAPLSRTVKLTSKQPLKGINYFWVSIQKPETSLLAKVATTPNAQINNKPINITWKGKVDERHVGIGVRQAGDDGSAAFRIPGLVTTNNGTLLGVYDIRYNSSVDLQEKIDIGVSRSTDKGQTWEPRVATFKQTDGLPHGQNGVGDPSILVDEKTNTIWVVAAWTHGGNERAWWNSPGTPDETAQLLVKSEDDGKTWSEPINITSQVKDPSWYFLLQGPGRGITQDGTLVFPIQFIDATRVPNAGIYSKDRGKTWHLHNLARTNTTEAQVAEVEPGVLLNRDNRGGSRAVATTKDLGKTWTEHPSSRSALQESVCASLIKVNAKDNITGKDLLLFSNPNTTKGRNHITIKASLDGGLTWPTEHQVLLDEAEGWGYSCLSIDKETVGIFYESSVAHTFQAVKLQDLI ADSIYVREQQIPILIDRIDNVLYERIPAQKGDVLNEITIQIGDNVDLSDIQAIRLFYSGVEAPSRKGEHFSPVTYISSHIPGNTRKALESYSVRQDEVTAPLSRTVKLTSKQPLKGINYFWVSIQKPETSLLAKVATTPNAQINNKPINITWKGKVDERHVGIGVRQAGDDGSAAFRIPGLVTTNNGTLLGVYDIRYNSSVDLQEKIDIGVSRSTDKGQTWEPRVATFKQTDGLPHGQNGVGDPSILVDEKTNTIWVVAAWTHGGNERAWWNSPGTPDETAQLLVKSEDDGKTWSEPINITSQVKDPSWYFLLQGPGRGITQDGTLVFPIQFIDATRVPNAGIYSKDRGKTWHLHNLARTNTTEAQVAEVEPGVLLNRDNRGGSRAVATTKDLGKTWTEHPSSRSALQESVCASLIKVNAKDNITGKDLLLFSNPNTTKGRNHITIKASLDGGLTWPTEHQVLLDEAEGWGYSCLSIDKETVGIFYESSVAHTFQAVKLQDLIH 4fjv-a3-m2-cC_4fjv-a3-m1-cA Crystal Structure of Human Otubain2 and Ubiquitin Complex Q96DC9 Q96DC9 2.047 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 231 ETSFNLISEKCDILSILRDHPENRIYRRKIEELSKRFTAIRKTKGDGNCFYRALGYSYLESLLGKSREIFKFKERVLQTPNDLLAAGFEEHKFRNFFNAFYSVVELVEKDGSVSSLLKVFNDQSASDHIVQFLRLLTSAFIRNRADFFRHFIDEEMDIKDFCTHEVEPMATECDHIQITALSQALSIALQVEYVDEMDTALNHHVFPEAATPSVYLLYKTSHYNILYAAD SETSFNLISEKCDILSILRDHPENRIYRRKIEELSKRFTAIRKTKGDGNCFYRALGYSYLESLLGKSREIFKFKERVLQTPNDLLAAGFEEHKFRNFFNAFYSVVELVEKDGSVSSLLKVFNDQSASDHIVQFLRLLTSAFIRNRADFFRHFIDEEMDIKDFCTHEVEPMATECDHIQITALSQALSIALQVEYVDEMDTALNHHVFPEAATPSVYLLYKTSHYNILYAAD 4fjw-a2-m2-cE_4fjw-a2-m1-cD Crystal Structure of the apo form of the E131Q Mtb crotonase P9WNN9 P9WNN9 2.2 X-RAY DIFFRACTION 24 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 253 256 3h81-a1-m1-cB_3h81-a1-m2-cA 3h81-a1-m1-cC_3h81-a1-m2-cC 3h81-a1-m2-cB_3h81-a1-m1-cA 3pzk-a2-m1-cA_3pzk-a2-m2-cB 3pzk-a2-m1-cC_3pzk-a2-m2-cC 3pzk-a2-m2-cA_3pzk-a2-m1-cB 3q0g-a3-m1-cA_3q0g-a3-m2-cB 3q0g-a3-m1-cC_3q0g-a3-m2-cC 3q0g-a3-m2-cA_3q0g-a3-m1-cB 3q0g-a4-m1-cD_3q0g-a4-m3-cE 3q0g-a4-m1-cF_3q0g-a4-m3-cF 3q0g-a4-m3-cD_3q0g-a4-m1-cE 3q0j-a3-m1-cA_3q0j-a3-m2-cB 3q0j-a3-m1-cB_3q0j-a3-m2-cA 3q0j-a3-m1-cC_3q0j-a3-m2-cC 3q0j-a4-m1-cE_3q0j-a4-m3-cD 3q0j-a4-m1-cF_3q0j-a4-m3-cF 3q0j-a4-m3-cE_3q0j-a4-m1-cD 4fjw-a2-m1-cE_4fjw-a2-m2-cD 4fjw-a2-m1-cF_4fjw-a2-m2-cF TYETILVERDQRVGIITLNRPQALNALNSQVMNEVTSAATELDDDPDIGAIIITGSAKAFAAGADIKEMADLTFADAFTADFFATWGKLAAVRTPTIAAVAGYALGGGCELAMMCDVLIAADTAKFGQPQIKLGVLPGMGGSQRLTRAIGKAKAMDLILTGRTMDAAEAERSGLVSRVVPADDLLTEARATATTISQMSASAARMAKEAVNRAFESSLSEGLLYERRLFHSAFATEDQSEGMAAFIEKRAPQF MTYETILVERDQRVGIITLNRPQALNALNSQVMNEVTSAATELDDDPDIGAIIITGSAKAFAAGADIKEMADLTFADAFTADFFATWGKLAAVRTPTIAAVAGYALGGGCELAMMCDVLIAADTAKFGQPQIKLGVLPGMGGSQRLTRAIGKAKAMDLILTGRTMDAAEAERSGLVSRVVPADDLLTEARATATTISQMSASAARMAKEAVNRAFESSLSEGLLYERRLFHSAFATEDQSEGMAAFIEKRAPQFTH 4fk1-a2-m1-cC_4fk1-a2-m1-cD Crystal Structure of Putative Thioredoxin Reductase TrxB from Bacillus anthracis A0A6L8PLA6 A0A6L8PLA6 2.404 X-RAY DIFFRACTION 121 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 294 294 4fk1-a1-m1-cB_4fk1-a1-m1-cA YIDCAVIGAGPAGLNASLVLGRARKQIALFDNNTNRNRVTQNSHGFITRDGIKPEEFKEIGLNEVKYPSVHYYEKTVVITKQSTGLFEIVTKDHTKYLAERVLLATGQEEFPSIPNVREYYGKSLFSCPYCDGWELKDQPLIIISENEDHTLHTKLVYNWSTDLVIATNGNELSQTIDELSNKNIPVITESIRTLQGEGGYLKKVEFHSGLRIERAGGFIVPTFFRPNQFIEQLGCELQSNGTFVIDDFGRTSEKNIYLAGETTTQGPSSLIIAASQGNKAAIAINSDITDERF YIDCAVIGAGPAGLNASLVLGRARKQIALFDNNTNRNRVTQNSHGFITRDGIKPEEFKEIGLNEVKYPSVHYYEKTVVITKQSTGLFEIVTKDHTKYLAERVLLATGQEEFPSIPNVREYYGKSLFSCPYCDGWELKDQPLIIISENEDHTLHTKLVYNWSTDLVIATNGNELSQTIDELSNKNIPVITESIRTLQGEGGYLKKVEFHSGLRIERAGGFIVPTFFRPNQFIEQLGCELQSNGTFVIDDFGRTSEKNIYLAGETTTQGPSSLIIAASQGNKAAIAINSDITDERF 4fk9-a2-m1-cA_4fk9-a2-m2-cA High Resolution Structure of the Catalytic Domain of Mannanase SActE_2347 from Streptomyces sp. SirexAA-E G2NHM6 G2NHM6 1.06 X-RAY DIFFRACTION 43 1.0 862751 (Streptomyces sp. SirexAA-E) 862751 (Streptomyces sp. SirexAA-E) 314 314 HHHHHHAIAENLYFQSAAGLHISDGRLVEGNGNDFVMRGINHAHTWYPGETQSLADIKATGANTVRVVLSDGYRWSENSPEDVASIIARCKAERLICVLEVHDTTGYGEDAAAGTLDHAADYWIGLKDVLDGEEDYVVINIGNEPWGNADPAGWTAPTTAAIQKLRAAGFAHTIMVDAPNWGQDWEGVMRADARSVYDADPTGNLIFSIHMYSVYDTAAKVTDYLNAFVDAGLPLLIGEFGGPADQYGDPDEDTMMATAEELGLGYLAWSWSGNTDPVLDLVLDFDPTRLSSWGERVLHGPDGITETSREATVF HHHHHHAIAENLYFQSAAGLHISDGRLVEGNGNDFVMRGINHAHTWYPGETQSLADIKATGANTVRVVLSDGYRWSENSPEDVASIIARCKAERLICVLEVHDTTGYGEDAAAGTLDHAADYWIGLKDVLDGEEDYVVINIGNEPWGNADPAGWTAPTTAAIQKLRAAGFAHTIMVDAPNWGQDWEGVMRADARSVYDADPTGNLIFSIHMYSVYDTAAKVTDYLNAFVDAGLPLLIGEFGGPADQYGDPDEDTMMATAEELGLGYLAWSWSGNTDPVLDLVLDFDPTRLSSWGERVLHGPDGITETSREATVF 4fkb-a1-m1-cA_4fkb-a1-m1-cB An Organic solvent tolerant lipase 42 Q5U780 Q5U780 1.22 X-RAY DIFFRACTION 40 1.0 294830 (Bacillus sp. 42) 294830 (Bacillus sp. 42) 387 387 1ji3-a1-m1-cA_1ji3-a1-m1-cB SLRANDAPIVLLHGFTGWGREEMFGFKYWGGVRGDIEQWLNDNGYRTYTLAVGPLSSNWDRACEAYAQLVGGTVDYGAAHAAKHGHARFGRTYPGLLPELKRGGRIHIIAHSQGGQTARMLVSLLENGSQEEREYAKAHNVSLSPLFEGGHHFVLSVTTIATPHDGTTLVNMVDFTDRFFDLQKAVLEAAAVASNVPYTSEVYDFKLDQWGLRRQPGESFDHYFERLKRSPVWTSTDTARYDLSVSGAEKLNQWVQASPNTYYLSFSTERTYRGALTGNHYPELGMNAFSAVVCAPFLGSYRNPTLGIDDRWLENDGIVNTVSMNGPKRGSSDRIVPYDGTLKKGVWNDMGTYNVDHLEIIGVDPNPSFDIRAFYLRLAEQLASLRP SLRANDAPIVLLHGFTGWGREEMFGFKYWGGVRGDIEQWLNDNGYRTYTLAVGPLSSNWDRACEAYAQLVGGTVDYGAAHAAKHGHARFGRTYPGLLPELKRGGRIHIIAHSQGGQTARMLVSLLENGSQEEREYAKAHNVSLSPLFEGGHHFVLSVTTIATPHDGTTLVNMVDFTDRFFDLQKAVLEAAAVASNVPYTSEVYDFKLDQWGLRRQPGESFDHYFERLKRSPVWTSTDTARYDLSVSGAEKLNQWVQASPNTYYLSFSTERTYRGALTGNHYPELGMNAFSAVVCAPFLGSYRNPTLGIDDRWLENDGIVNTVSMNGPKRGSSDRIVPYDGTLKKGVWNDMGTYNVDHLEIIGVDPNPSFDIRAFYLRLAEQLASLRP 4fkx-a1-m1-cC_4fkx-a1-m2-cC Crystal structure of nucleoside diphosphate kinase B from Trypanosoma brucei bound to CDP Q381H3 Q381H3 1.7 X-RAY DIFFRACTION 75 1.0 153 153 4f36-a1-m1-cC_4f36-a1-m1-cA 4f36-a1-m1-cD_4f36-a1-m1-cB 4f4a-a1-m1-cA_4f4a-a1-m1-cB 4f4a-a1-m1-cC_4f4a-a1-m2-cC 4f4a-a1-m2-cA_4f4a-a1-m2-cB 4fkx-a1-m1-cB_4fkx-a1-m1-cA 4fkx-a1-m2-cB_4fkx-a1-m2-cA 4fky-a1-m1-cA_4fky-a1-m1-cB 4fky-a1-m1-cC_4fky-a1-m2-cC 4fky-a1-m2-cA_4fky-a1-m2-cB MPSERTFIAVKPDGVQRNLVGEIIKRFENKGYKLVGLKLLQPTEEQAKQHYIDLASKPFYSGLVSYFSSGPIVGMVWEGLGVVKGGRVLLGATNPADSLPGTIRGDFAVDVGRNVCHGSDSVESAKREIAFWFKAEELVSWTSHSVKQIYERA MPSERTFIAVKPDGVQRNLVGEIIKRFENKGYKLVGLKLLQPTEEQAKQHYIDLASKPFYSGLVSYFSSGPIVGMVWEGLGVVKGGRVLLGATNPADSLPGTIRGDFAVDVGRNVCHGSDSVESAKREIAFWFKAEELVSWTSHSVKQIYERA 4fkx-a1-m2-cA_4fkx-a1-m2-cC Crystal structure of nucleoside diphosphate kinase B from Trypanosoma brucei bound to CDP Q381H3 Q381H3 1.7 X-RAY DIFFRACTION 55 1.0 153 153 4f36-a1-m1-cA_4f36-a1-m1-cE 4f36-a1-m1-cB_4f36-a1-m1-cC 4f36-a1-m1-cD_4f36-a1-m1-cA 4f36-a1-m1-cD_4f36-a1-m1-cE 4f4a-a1-m1-cA_4f4a-a1-m1-cC 4f4a-a1-m1-cA_4f4a-a1-m2-cB 4f4a-a1-m1-cB_4f4a-a1-m2-cA 4f4a-a1-m1-cB_4f4a-a1-m2-cC 4f4a-a1-m2-cA_4f4a-a1-m2-cC 4f4a-a1-m2-cB_4f4a-a1-m1-cC 4fkx-a1-m1-cA_4fkx-a1-m1-cC 4fkx-a1-m1-cB_4fkx-a1-m2-cA 4fkx-a1-m1-cB_4fkx-a1-m2-cC 4fkx-a1-m2-cB_4fkx-a1-m1-cA 4fkx-a1-m2-cB_4fkx-a1-m1-cC 4fky-a1-m1-cA_4fky-a1-m1-cC 4fky-a1-m1-cA_4fky-a1-m2-cB 4fky-a1-m1-cB_4fky-a1-m2-cA 4fky-a1-m1-cB_4fky-a1-m2-cC 4fky-a1-m2-cA_4fky-a1-m2-cC 4fky-a1-m2-cB_4fky-a1-m1-cC MPSERTFIAVKPDGVQRNLVGEIIKRFENKGYKLVGLKLLQPTEEQAKQHYIDLASKPFYSGLVSYFSSGPIVGMVWEGLGVVKGGRVLLGATNPADSLPGTIRGDFAVDVGRNVCHGSDSVESAKREIAFWFKAEELVSWTSHSVKQIYERA MPSERTFIAVKPDGVQRNLVGEIIKRFENKGYKLVGLKLLQPTEEQAKQHYIDLASKPFYSGLVSYFSSGPIVGMVWEGLGVVKGGRVLLGATNPADSLPGTIRGDFAVDVGRNVCHGSDSVESAKREIAFWFKAEELVSWTSHSVKQIYERA 4fkz-a1-m1-cB_4fkz-a1-m1-cA Crystal structure of Bacillus subtilis UDP-GlcNAc 2-epimerase in complex with UDP-GlcNAc and UDP P39131 P39131 1.69 X-RAY DIFFRACTION 59 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 376 384 1o6c-a1-m1-cA_1o6c-a1-m1-cB KKLKVMTVFGTRPEAIKMAPLVLELKKYPEIDSYVTVTAQHRQMLDQVLDAFHIKPDFDLNIMKERQTLAEITSNALVRLDELFKDIKPDIVLVHGDTTTTFAGSLAAFYHQIAVGHVEAGLRTGNKYSPFPEELNRQMTGAIADLHFAPTGQAKDNLLKENKKADSIFVTGNTAIDALNTTVRDGYSHPVLDQVGEDKMILLTAHRRENLGEPMENMFKAIRRIVGEFEDVQVVYPVHLNPVVREAAHKHFGDSDRVHLIEPLEVIDFHNFAAKSHFILTDSGGVQEEAPSLGKPVLVLRDTTERPEGVEAGTLKLAGTDEENIYQLAKQLLTDPDEYKKMSQASNPYGDGEASRRIVEELLFHYGYRKEQPDSF KKLKVMTVFGTRPEAIKMAPLVLELKKYPEIDSYVTVTAQHRQMLDQVLDAFHIKPDFDLNIMKERQTLAEITSNALVRLDELFKDIKPDIVLVHGDTTTTFAGSLAAFYHQIAVGHVEAGLRTGNKYSPFPEELNRQMTGAIADLHFAPTGQAKDNLLKENKKADSIFVTGNTAIDALNTTVRDGYSHPVLDQVGEDKMILLTAHRRENLGEPMENMFKAIRRIVGEFEDVQVVYPVHLNPVVREAAHKHFGDSDRVHLIEPLEVIDFHNFAAKSHFILTDSGGVQEEAPSLGKPVLVLRDTTERPEGVEAGTLKLAGTDEENIYQLAKQLLTDPDEYKKMSQASNPYGDGEASRRIVEELLFHYGYRKEQPDSFTGKLEHHH 4fl0-a1-m1-cA_4fl0-a1-m1-cB Crystal structure of ALD1 from Arabidopsis thaliana Q9ZQI7 Q9ZQI7 2.3 X-RAY DIFFRACTION 285 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 406 409 STKLVRNVNLEKLKNNYLFPEINRRELEHIEKHPNVQLISLGTGDTTEPIPEQITSHMSNFAHGLSTVEGYRGYGLEQGNKTLRKAIAETFYRDLHVKSNEVFVSDGAQSDISRLQLLLGSNVTIAVQDPTFPAYIDSSVIIGQTGHFHEKTKKYQNVVYMPCGPNNSFFPDLAMTPRTDVIFFCSPNNPTGYVASRKQLHQLVDFAKTNGSIIIFDSAYAAFIEDGSPRSIYEIPGAREVAIEVSSFSKFAGFTGVRLGWSIIPDELLYSNGFPIINDFHRIVTTSFNGASNIAQAGGLACLSSGGLKEIRSVNNYYKENRKILMDTLVSLGLKVYGGVNAPYLWVHFKGSKSWDVFNEILENTHIITVPGSGFGPGGEEYLRISGFGRRDHIVEASKRLQNFFN GSTKLVRNVNLEKLKNNYLFPEINRRELEHIEKHPNVQLISLGTGDTTEPIPEQITSHMSNFAHGLSTVEGYRGYGLEQGNKTLRKAIAETFYRDLHVKSNEVFVSDGAQSDISRLQLLLGSNVTIAVQDPTFPAYIDSSVIIGQTGHFHEKTKKYQNVVYMPCGPNNSFFPDLAMTPRTDVIFFCSPNNPTGYVASRKQLHQLVDFAKTNGSIIIFDSAYAAFIEDGSPRSIYEIPGAREVAIEVSSFSKFAGFTGVRLGWSIIPDELLYSNGFPIINDFHRIVTTSFNGASNIAQAGGLACLSSGGLKEIRSVNNYYKENRKILMDTLVSLGLKVYGGVNAPYLWVHFKGSKSWDVFNEILENTHIITVPGSGFGPGGEEYLRISGFGRRDHIVEASKRLQNFFNTR 4fla-a1-m1-cB_4fla-a1-m1-cA Crystal structure of human RPRD1B, carboxy-terminal domain Q9NQG5 Q9NQG5 2.2 X-RAY DIFFRACTION 182 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 126 4fla-a2-m1-cC_4fla-a2-m1-cD 4nad-a1-m1-cA_4nad-a1-m1-cB LTEELIKALQDLENAGDATVRQKIASLPQEVQDVSLLEKITDKEAAERLSKTVDEACLLLAEYNGRLAAELEDRRQLARMLVEYTQNQKDVLSEKEKKLEEYKQKLARVTQVRKELKSHIQSLP LTEELIKALQDLENAASGDATVRQKIASLPQEVQDVSLLEKITDKEAAERLSKTVDEACLLLAEYNGRLAAELEDRRQLARMLVEYTQNQKDVLSEKEKKLEEYKQKLARVTQVRKELKSHIQSLP 4flb-a1-m1-cA_4flb-a1-m2-cA CID of human RPRD2 Q5VT52 Q5VT52 1.802 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 SAGALESSLDRKFQSVTNTMESIQGLSSWCIENKKHHSTIVYHWMKWLRRSAYPHRLNLFYLANDVIQNCKRKNAIIFRESFADVLPEAAALVKDPSVSKSVERIFKIWEDRNVYPEEMIVALREALSTTF SAGALESSLDRKFQSVTNTMESIQGLSSWCIENKKHHSTIVYHWMKWLRRSAYPHRLNLFYLANDVIQNCKRKNAIIFRESFADVLPEAAALVKDPSVSKSVERIFKIWEDRNVYPEEMIVALREALSTTF 4fln-a1-m1-cA_4fln-a1-m2-cB Crystal structure of plant protease Deg2 O82261 O82261 2.8 X-RAY DIFFRACTION 88 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 463 464 4fln-a1-m1-cC_4fln-a1-m2-cC 4fln-a1-m2-cA_4fln-a1-m1-cB HDASFLNAVVKVYCTHTAPDYSLPWQKQRQFTSTGSAFMIGDGKLLTNAHCVEHDTQVKVKRRGDDRKYVAKVLVRGVDCDIALLSVESEDFWKGAEPLRLGHLPRLQDSVTVVGYPLGGDTISVTKGVVSRIEVTSYAHGSSDLLGIQIDAAINPGNSGGPAFNDQGECIGVAFQVYENIGYVIPTTVVSHFLTDYERNGKYTGYPCLGVLLQKLENPALRECLKVPTNEGVLVRRVEPTSDASKVLKEGDVIVSFDDLHVGCEGTVPFRSSERIAFRYLISQKFAGDIAEIGIIRAGEHKKVQVVLRPRVHLVPYHIDGGQPSYIIVAGLVFTPLSEPLIEEECEDTIGLKLLTKARYSVARFRGEQIVILSQVLANEVNIGYEDMNNQQVLKFNGIPIRNIHHLAHLIDMCKDKYLVFEFEDNYVAVLEREASNSASLCILKDYGIPSERSADLLEPYVD HDASFLNAVVKVYCTHTAPDYSLPWQKQRQFTSTGSAFMIGDGKLLTNAHCVEHDTQVKVKRRGDDRKYVAKVLVRGVDCDIALLSVESEDFWKGAEPLRLGHLPRLQDSVTVVGYPLGGDTISVTKGVVSRIEVTSYAHGSSDLLGIQIDAAINPGNSGGPAFNDQGECIGVAFQVYTENIGYVIPTTVVSHFLTDYERNGKYTGYPCLGVLLQKLENPALRECLKVPTNEGVLVRRVEPTSDASKVLKEGDVIVSFDDLHVGCEGTVPFRSSERIAFRYLISQKFAGDIAEIGIIRAGEHKKVQVVLRPRVHLVPYHIDGGQPSYIIVAGLVFTPLSEPLIEEECEDTIGLKLLTKARYSVARFRGEQIVILSQVLANEVNIGYEDMNNQQVLKFNGIPIRNIHHLAHLIDMCKDKYLVFEFEDNYVAVLEREASNSASLCILKDYGIPSERSADLLEPYVD 4fln-a1-m2-cC_4fln-a1-m1-cB Crystal structure of plant protease Deg2 O82261 O82261 2.8 X-RAY DIFFRACTION 43 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 463 464 4fln-a1-m1-cA_4fln-a1-m2-cA 4fln-a1-m1-cC_4fln-a1-m2-cB HDASFLNAVVKVYCTHTAPDYSLPWQKQRQFTSTGSAFMIGDGKLLTNAHCVEHDTQVKVKRRGDDRKYVAKVLVRGVDCDIALLSVESEDFWKGAEPLRLGHLPRLQDSVTVVGYPLGGDTISVTKGVVSRIEVTSYAHGSSDLLGIQIDAAINPGNSGGPAFNDQGECIGVAFQVYENIGYVIPTTVVSHFLTDYERNGKYTGYPCLGVLLQKLENPALRECLKVPTNEGVLVRRVEPTSDASKVLKEGDVIVSFDDLHVGCEGTVPFRSSERIAFRYLISQKFAGDIAEIGIIRAGEHKKVQVVLRPRVHLVPYHIDGGQPSYIIVAGLVFTPLSEPLIEEECEDTIGLKLLTKARYSVARFRGEQIVILSQVLANEVNIGYEDMNNQQVLKFNGIPIRNIHHLAHLIDMCKDKYLVFEFEDNYVAVLEREASNSASLCILKDYGIPSERSADLLEPYVD HDASFLNAVVKVYCTHTAPDYSLPWQKQRQFTSTGSAFMIGDGKLLTNAHCVEHDTQVKVKRRGDDRKYVAKVLVRGVDCDIALLSVESEDFWKGAEPLRLGHLPRLQDSVTVVGYPLGGDTISVTKGVVSRIEVTSYAHGSSDLLGIQIDAAINPGNSGGPAFNDQGECIGVAFQVYTENIGYVIPTTVVSHFLTDYERNGKYTGYPCLGVLLQKLENPALRECLKVPTNEGVLVRRVEPTSDASKVLKEGDVIVSFDDLHVGCEGTVPFRSSERIAFRYLISQKFAGDIAEIGIIRAGEHKKVQVVLRPRVHLVPYHIDGGQPSYIIVAGLVFTPLSEPLIEEECEDTIGLKLLTKARYSVARFRGEQIVILSQVLANEVNIGYEDMNNQQVLKFNGIPIRNIHHLAHLIDMCKDKYLVFEFEDNYVAVLEREASNSASLCILKDYGIPSERSADLLEPYVD 4fln-a1-m2-cC_4fln-a1-m2-cB Crystal structure of plant protease Deg2 O82261 O82261 2.8 X-RAY DIFFRACTION 65 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 463 464 4fln-a1-m1-cA_4fln-a1-m1-cB 4fln-a1-m1-cA_4fln-a1-m1-cC 4fln-a1-m1-cC_4fln-a1-m1-cB 4fln-a1-m2-cA_4fln-a1-m2-cB 4fln-a1-m2-cA_4fln-a1-m2-cC HDASFLNAVVKVYCTHTAPDYSLPWQKQRQFTSTGSAFMIGDGKLLTNAHCVEHDTQVKVKRRGDDRKYVAKVLVRGVDCDIALLSVESEDFWKGAEPLRLGHLPRLQDSVTVVGYPLGGDTISVTKGVVSRIEVTSYAHGSSDLLGIQIDAAINPGNSGGPAFNDQGECIGVAFQVYENIGYVIPTTVVSHFLTDYERNGKYTGYPCLGVLLQKLENPALRECLKVPTNEGVLVRRVEPTSDASKVLKEGDVIVSFDDLHVGCEGTVPFRSSERIAFRYLISQKFAGDIAEIGIIRAGEHKKVQVVLRPRVHLVPYHIDGGQPSYIIVAGLVFTPLSEPLIEEECEDTIGLKLLTKARYSVARFRGEQIVILSQVLANEVNIGYEDMNNQQVLKFNGIPIRNIHHLAHLIDMCKDKYLVFEFEDNYVAVLEREASNSASLCILKDYGIPSERSADLLEPYVD HDASFLNAVVKVYCTHTAPDYSLPWQKQRQFTSTGSAFMIGDGKLLTNAHCVEHDTQVKVKRRGDDRKYVAKVLVRGVDCDIALLSVESEDFWKGAEPLRLGHLPRLQDSVTVVGYPLGGDTISVTKGVVSRIEVTSYAHGSSDLLGIQIDAAINPGNSGGPAFNDQGECIGVAFQVYTENIGYVIPTTVVSHFLTDYERNGKYTGYPCLGVLLQKLENPALRECLKVPTNEGVLVRRVEPTSDASKVLKEGDVIVSFDDLHVGCEGTVPFRSSERIAFRYLISQKFAGDIAEIGIIRAGEHKKVQVVLRPRVHLVPYHIDGGQPSYIIVAGLVFTPLSEPLIEEECEDTIGLKLLTKARYSVARFRGEQIVILSQVLANEVNIGYEDMNNQQVLKFNGIPIRNIHHLAHLIDMCKDKYLVFEFEDNYVAVLEREASNSASLCILKDYGIPSERSADLLEPYVD 4fm3-a1-m1-cC_4fm3-a1-m1-cD Crystal structure of a DUF4398 family protein (PA2901) from Pseudomonas aeruginosa PAO1 at 2.47 A resolution Q9HZU6 Q9HZU6 2.47 X-RAY DIFFRACTION 39 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 94 94 4fm3-a1-m1-cA_4fm3-a1-m1-cB PAPLEQRLTEQALEQAKAVGATDDVAELKLAQDKYAAAQIATAESYKKARLLAEQAELDARLAESKVLTQKSKDQLGELDKSLKRLRKQLGETD PAPLEQRLTEQALEQAKAVGATDDVAELKLAQDKYAAAQIATAESYKKARLLAEQAELDARLAESKVLTQKSKDQLGELDKSLKRLRKQLGETD 4fma-a16-m1-cI_4fma-a16-m1-cE EspG structure Q5WMC0 Q5WMC0 2.15 X-RAY DIFFRACTION 92 0.994 562 (Escherichia coli) 562 (Escherichia coli) 348 349 4fma-a13-m2-cC_4fma-a13-m1-cA 4fma-a14-m1-cF_4fma-a14-m3-cB 4fma-a15-m1-cD_4fma-a15-m1-cK 4fma-a17-m4-cG_4fma-a17-m1-cL 4fma-a18-m1-cJ_4fma-a18-m1-cH EMSCAEKLLKVLSFGLWNPTYSRSERQSFQELLTVLEPVYPLPNELGRVSARFSDGSSLRISVTNSESIEAEIRTPDNEKITVLLESNEQNRLLQSLPIDRHMPYIQVHRALSEMDLTDTTSMRNLLGFTSKLSTTLIPHNAQTDPLSGPTPFSSIFMDTCRGLGNAKLSLNGVDIPANAQMLLRDALGLKDTHSSPSRNVIDHGISRHDAEQIARESSGSDNQKAEVVEFLCHPEAATAICSAFYQSFNVPALTLTHERISKASEYNAERLDTPCINISISQSSDGNIYVTSHTGVLIMAPEDRPNEMGMLTNRTSYEVPQGVKCTIDEMVRALQPRYAASETYLQN EMSCAEKLLKVLSFGLWNPTYSRSERQSFQELLTVLEPVYPLPNELGRVSARFSDGSSLRISVTNSESIEAEIRTPDNEKITVLLESNEQNRLLQSLPIDRHMPYIQVHRALSEMDLTDTTSMRNLLGFTSKLSTTLIPHNAQTDPLSGPTPFSSIFMDTCRGLGNAKLSLNGVDIPANAQMLLRDALGLKDTHSSPSRNVIDHGISRHDAEQIARESSGSDNQKAEVVEFLCHPEAATAICSAFYQSFNVPALTLTHERISKASEYNAERSTPNACINISISQSSDGNIYVTSHTGVLIMAPEDRPNEMGMLTNRTSYEVPQGVKCTIDEMVRALQPRYAASETYLQN 4fmb-a4-m1-cC_4fmb-a4-m2-cE VirA-Rab1 complex structure Q7BU69 Q7BU69 3.2 X-RAY DIFFRACTION 14 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 350 350 4fmb-a4-m1-cA_4fmb-a4-m2-cA 4fmb-a4-m1-cE_4fmb-a4-m2-cC GPLGSIYSPHETLAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVVPRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPDV GPLGSIYSPHETLAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVVPRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPDV 4fmb-a4-m2-cE_4fmb-a4-m1-cA VirA-Rab1 complex structure Q7BU69 Q7BU69 3.2 X-RAY DIFFRACTION 82 0.997 623 (Shigella flexneri) 623 (Shigella flexneri) 350 351 4fmb-a4-m1-cC_4fmb-a4-m2-cC 4fmb-a4-m1-cE_4fmb-a4-m2-cA GPLGSIYSPHETLAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVVPRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPDV GPLGSIYSPHETLAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVVGGRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPDV 4fmb-a4-m2-cE_4fmb-a4-m2-cA VirA-Rab1 complex structure Q7BU69 Q7BU69 3.2 X-RAY DIFFRACTION 11 0.997 623 (Shigella flexneri) 623 (Shigella flexneri) 350 351 4fmb-a4-m1-cC_4fmb-a4-m1-cA 4fmb-a4-m1-cE_4fmb-a4-m1-cA 4fmb-a4-m2-cC_4fmb-a4-m2-cA GPLGSIYSPHETLAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVVPRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPDV GPLGSIYSPHETLAEKHSEKKLMDSFSPSLSQDKMDGEFAHANIDGISIRLCLNKGICSVFYLDGDKIQSTQLSSKEYNNLLSSLPPKQFNLGKVHTITAPVSGNFKTHKPAPEVIETAINCCTSIIPNDDYFHVKDTDFNSVWHDIYRDIRASDSNSTKIYFNNIEIPLKLIADLINELGINEFIDSKKELQMLSYNQVNKIINSNFPQQDLCFQTEKLLFTSLFQDPAFISALTSAFWQSLHITSSSVEHIYAQIMSENIENRLNFMPEQRVINNCGHIIKINAVVGGRAYEVSSSILPSHITCNGVGINKIETSYLVHAGTLPSSEGLRNAIPPESRQVSFAIISPDV 4fmf-a1-m1-cB_4fmf-a1-m1-cA Crystal structure of human nectin-1 full ectodomain (D1-D3) Q15223 Q15223 3.2 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 299 302 3alp-a1-m1-cA_3alp-a1-m1-cB 3u83-a1-m1-cA_3u83-a1-m2-cA 4fmf-a2-m1-cC_4fmf-a2-m1-cD 5b21-a1-m1-cA_5b21-a1-m1-cB NDSMYGFIGTDVVLHCSFANPLPSVKITQVTWQKSTNGSKQNVAIYNPSMGVSVLAPYRERVEFLRPSFTDGTIRLSRLELEDEGVYICEFATFPTGNRESQLNLTVMAKPTNWIEGTQAVLRAKKGQDDKVLVATCTSANGKPPSVVSWETRLKGEAEYQEIRNPNGTVTVISRYRLVPSREAHQQSLACIVNYHMDRFKESLTLNVQYEPEVTIEGFDGNWYLQRMDVKLTCKADANPPATEYHWTTLNGSLPKGVEAQNRTLFFKGPINYSLAGTYICEATNPIGTRSGQVEVNIT NDSMYGFIGTDVVLHCSFANPLPSVKITQVTWQKSTNGSKQNVAIYNPSMGVSVLAPYRERVEFLRPSFTDGTIRLSRLELEDEGVYICEFATFPTGNRESQLNLTVMAKPTNWIEGTQAVLRAKKGQDDKVLVATCTSANGKPPSVVSWETRLKGEAEYQEIRNPNGTVTVISRYRLVPSREAHQQSLACIVNYHMDRFKESLTLNVQYEPEVTIEGFDGNWYLQRMDVKLTCKADANPPATEYHWTTLNGSLPKGVEAQNRTLFFKGPINYSLAGTYICEATNPIGTRSGQVEVNITEFP 4fmr-a2-m1-cC_4fmr-a2-m1-cD Crystal structure of a Putative bacterial DNA binding protein (BVU_2165) from Bacteroides vulgatus ATCC 8482 at 2.25 A resolution A6L2B2 A6L2B2 2.25 X-RAY DIFFRACTION 299 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 228 230 4fmr-a1-m1-cA_4fmr-a1-m1-cB AKNVLKAWLVDTDKIFQLETTRSIDKEIILDRVAKNPGVRRETALGIELEEVVAEALNGESVNTGLFRGVAQFRGVAKQNAWDAATNSIYVSLTQGKALREAIKDTRVDVLGERPTKFYIGSGQDATTRATDFSATAGRNFTLFGKNLTVAGTDPSVGVTLASAATGTVTKIDNDIVLNEPSRLIILLPASLEDGEYLTVTTQYRGGGGALLKTPRSTSHTIYIGGAP GAKNVLKAWLVDNTDKIFQLETTRSIDKEIILDRVAKNPGVRRETALGIELEEVVAEALNGESVNTGLFRGVAQFRGVAKQNAWDAATNSIYVSLTQGKALREAIKDTRVDVLGERPTKFYIGSGQDATTRATDFSATAGRNFTLFGKNLTVAGTDPSVGVTLASAATGTVTKIDNDIVLNEPSRLIILLPASLEDGEYLTVTTQYRGGGGALLKTPRSTSHTIYIGGAP 4fn0-a1-m1-cA_4fn0-a1-m2-cA Crystal structure of mouse nectin-2 extracellular fragment D1-D2, 2nd crystal form P32507 P32507 3.35 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 220 220 4fmk-a1-m1-cA_4fmk-a1-m2-cA 4fn0-a2-m1-cC_4fn0-a2-m1-cB QDVRVRVLPEVRGRLGGTVELPCHLLPPTTERVSQVTWQRLDGTVVAAFHPSFGVDFPNSQFSKDRLSFVRARPETNADLRDATLAFRGLRVEDEGNYTCEFATFPNGTRRGVTWLRVIAQPENHAEAQEVTIGPQSVAVARCVSTGGRPPARITWISSLGGEAKDTQEPGIQAGTVTIISRYSLVPVGRADGVKVTCRVEHESFEEPILLPVTLSVRYH QDVRVRVLPEVRGRLGGTVELPCHLLPPTTERVSQVTWQRLDGTVVAAFHPSFGVDFPNSQFSKDRLSFVRARPETNADLRDATLAFRGLRVEDEGNYTCEFATFPNGTRRGVTWLRVIAQPENHAEAQEVTIGPQSVAVARCVSTGGRPPARITWISSLGGEAKDTQEPGIQAGTVTIISRYSLVPVGRADGVKVTCRVEHESFEEPILLPVTLSVRYH 4fn4-a1-m1-cA_4fn4-a1-m1-cD short-chain NAD(H)-dependent dehydrogenase/reductase from Sulfolobus acidocaldarius Q4J9F2 Q4J9F2 1.75 X-RAY DIFFRACTION 27 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 254 254 4fn4-a1-m1-cB_4fn4-a1-m1-cC SYQSLKNKVVIVTGAGSGIGRAIAKKFALNDSIVVAVELLEDRLNQIVQELRGMGKEVLGVKADVSKKKDVEEFVRRTFETYSRIDVLCNNAGIMDGVTPVAEVSDELWERVLAVNLYSAFYSSRAVIPIMLKQGKGVIVNTASIAGIRGGFAGAPYTVAKHGLIGLTRSIAAHYGDQGIRAVAVLPGTVKTNIGLGSSKPSELGMRTLTKLMSLSSRLAEPEDIANVIVFLASDEASFVNGDAVVVDGGLTVL SYQSLKNKVVIVTGAGSGIGRAIAKKFALNDSIVVAVELLEDRLNQIVQELRGMGKEVLGVKADVSKKKDVEEFVRRTFETYSRIDVLCNNAGIMDGVTPVAEVSDELWERVLAVNLYSAFYSSRAVIPIMLKQGKGVIVNTASIAGIRGGFAGAPYTVAKHGLIGLTRSIAAHYGDQGIRAVAVLPGTVKTNIGLGSSKPSELGMRTLTKLMSLSSRLAEPEDIANVIVFLASDEASFVNGDAVVVDGGLTVL 4fn4-a1-m1-cB_4fn4-a1-m1-cD short-chain NAD(H)-dependent dehydrogenase/reductase from Sulfolobus acidocaldarius Q4J9F2 Q4J9F2 1.75 X-RAY DIFFRACTION 93 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 254 254 4fn4-a1-m1-cA_4fn4-a1-m1-cC SYQSLKNKVVIVTGAGSGIGRAIAKKFALNDSIVVAVELLEDRLNQIVQELRGMGKEVLGVKADVSKKKDVEEFVRRTFETYSRIDVLCNNAGIMDGVTPVAEVSDELWERVLAVNLYSAFYSSRAVIPIMLKQGKGVIVNTASIAGIRGGFAGAPYTVAKHGLIGLTRSIAAHYGDQGIRAVAVLPGTVKTNIGLGSSKPSELGMRTLTKLMSLSSRLAEPEDIANVIVFLASDEASFVNGDAVVVDGGLTVL SYQSLKNKVVIVTGAGSGIGRAIAKKFALNDSIVVAVELLEDRLNQIVQELRGMGKEVLGVKADVSKKKDVEEFVRRTFETYSRIDVLCNNAGIMDGVTPVAEVSDELWERVLAVNLYSAFYSSRAVIPIMLKQGKGVIVNTASIAGIRGGFAGAPYTVAKHGLIGLTRSIAAHYGDQGIRAVAVLPGTVKTNIGLGSSKPSELGMRTLTKLMSLSSRLAEPEDIANVIVFLASDEASFVNGDAVVVDGGLTVL 4fn4-a1-m1-cC_4fn4-a1-m1-cD short-chain NAD(H)-dependent dehydrogenase/reductase from Sulfolobus acidocaldarius Q4J9F2 Q4J9F2 1.75 X-RAY DIFFRACTION 125 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 254 254 4fn4-a1-m1-cA_4fn4-a1-m1-cB SYQSLKNKVVIVTGAGSGIGRAIAKKFALNDSIVVAVELLEDRLNQIVQELRGMGKEVLGVKADVSKKKDVEEFVRRTFETYSRIDVLCNNAGIMDGVTPVAEVSDELWERVLAVNLYSAFYSSRAVIPIMLKQGKGVIVNTASIAGIRGGFAGAPYTVAKHGLIGLTRSIAAHYGDQGIRAVAVLPGTVKTNIGLGSSKPSELGMRTLTKLMSLSSRLAEPEDIANVIVFLASDEASFVNGDAVVVDGGLTVL SYQSLKNKVVIVTGAGSGIGRAIAKKFALNDSIVVAVELLEDRLNQIVQELRGMGKEVLGVKADVSKKKDVEEFVRRTFETYSRIDVLCNNAGIMDGVTPVAEVSDELWERVLAVNLYSAFYSSRAVIPIMLKQGKGVIVNTASIAGIRGGFAGAPYTVAKHGLIGLTRSIAAHYGDQGIRAVAVLPGTVKTNIGLGSSKPSELGMRTLTKLMSLSSRLAEPEDIANVIVFLASDEASFVNGDAVVVDGGLTVL 4fn6-a1-m1-cB_4fn6-a1-m1-cD Structural Characterization of Thiaminase type II TenA from Staphylococcus aureus Q6GEY1 Q6GEY1 2.69 X-RAY DIFFRACTION 38 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 224 224 4fn6-a1-m1-cC_4fn6-a1-m1-cA MEFSQKLYQAAKPIINDIYEDDFIQKMLLGNIQADALRHYLQADAAYLKEFTNLYALLIPKMNSMNDVKFLVEQIEFMVEGEVLAHDILAQIVGESYEEIIKTKVWPPSGDHYIKHMYFQAHSRENAIYTIAAMAPPYIYAELAKRSQSDHKLNREKDTAKWFDFYSTEMDDIINVFESLMNKLAESMSDKELEQVKQVFLESCIHERRFFNMAMTLEQWEFGG MEFSQKLYQAAKPIINDIYEDDFIQKMLLGNIQADALRHYLQADAAYLKEFTNLYALLIPKMNSMNDVKFLVEQIEFMVEGEVLAHDILAQIVGESYEEIIKTKVWPPSGDHYIKHMYFQAHSRENAIYTIAAMAPPYIYAELAKRSQSDHKLNREKDTAKWFDFYSTEMDDIINVFESLMNKLAESMSDKELEQVKQVFLESCIHERRFFNMAMTLEQWEFGG 4fn6-a1-m1-cC_4fn6-a1-m1-cD Structural Characterization of Thiaminase type II TenA from Staphylococcus aureus Q6GEY1 Q6GEY1 2.69 X-RAY DIFFRACTION 65 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 223 224 4fn6-a1-m1-cA_4fn6-a1-m1-cB MEFSQKLYQAAKPIINDIYEDDFIQKMLLGNIQADALRHYLQADAAYLKEFTNLYALLIPKMNSMNDVKFLVEQIEFMVEGEVLAHDILAQIVGESYEEIIKTKVWPPSGDHYIKHMYFQAHSRENAIYTIAAMAPPYIYAELAKRSQSDHKLNREKDTAKWFDFYSTEMDDIINVFESLMNKLAESMSDKELEQVKQVFLESCIHERRFFNMAMTLEQWEFG MEFSQKLYQAAKPIINDIYEDDFIQKMLLGNIQADALRHYLQADAAYLKEFTNLYALLIPKMNSMNDVKFLVEQIEFMVEGEVLAHDILAQIVGESYEEIIKTKVWPPSGDHYIKHMYFQAHSRENAIYTIAAMAPPYIYAELAKRSQSDHKLNREKDTAKWFDFYSTEMDDIINVFESLMNKLAESMSDKELEQVKQVFLESCIHERRFFNMAMTLEQWEFGG 4fn8-a2-m3-cA_4fn8-a2-m6-cA Crystal structure of the Mtb enoyl CoA isomerase (Rv0632c)in complex with acetoacetyl CoA P96907 P96907 1.831 X-RAY DIFFRACTION 11 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 230 230 4fn8-a2-m1-cA_4fn8-a2-m5-cA 4fn8-a2-m2-cA_4fn8-a2-m4-cA SMSDPVSYTRKDSIAVISMDDGKVNALGPAMQQALNAAIDNADRDDVGALVITGNGRVFSGGFDLKILTSGEVQPAIDMLRGGFELAYRLLSYPKPVVMACTGHAIAMGAFLLSCGDHRVAAHAYNIQANEVAIGMTIPYAALEIMKLRLTRSAYQQATGLAKTFFGETALAAGFIDEIALPEVVVSRAEEAAREFAGLNQHAHAATKLRSRADALTAIRAGIDGIAAEF SMSDPVSYTRKDSIAVISMDDGKVNALGPAMQQALNAAIDNADRDDVGALVITGNGRVFSGGFDLKILTSGEVQPAIDMLRGGFELAYRLLSYPKPVVMACTGHAIAMGAFLLSCGDHRVAAHAYNIQANEVAIGMTIPYAALEIMKLRLTRSAYQQATGLAKTFFGETALAAGFIDEIALPEVVVSRAEEAAREFAGLNQHAHAATKLRSRADALTAIRAGIDGIAAEF 4fn9-a1-m2-cB_4fn9-a1-m1-cA X-ray Crystal structure of the Ancestral 3-keto steroid receptor - Progesterone complex 3 X-RAY DIFFRACTION 14 1.0 249 250 NAPSLISILQAIEPEVVYAGYDNTQPDTTNYLLSSLNRLAEKQLVSVVKWAKALPGFRNLHLDDQMTLIQYSWMGLMAFAMGWRSYKHTNGQMLYFAPDLIFNEQRMQQSAMYDLCQGMQQISQEFVRLQVTQEEFLCMKALLLLSTVPKEGLKSQASFDEMRMNYIKELNRAIAKKENNSAQNWQRFYQLTKLLDSMHDLVGGLLQFCFYTFVQSQALSVEFPEMLVEIISAQLPKVLAGMAKPLLFH NAPSLISILQAIEPEVVYAGYDNTQPDTTNYLLSSLNRLAEKQLVSVVKWAKALPGFRNLHLDDQMTLIQYSWMGLMAFAMGWRSYKHTNGQMLYFAPDLIFNEQRMQQSAMYDLCQGMQQISQEFVRLQVTQEEFLCMKALLLLSTVPKEGLKSQASFDEMRMNYIKELNRAIAKKENNSAQNWQRFYQLTKLLDSMHDLVGGLLQFCFYTFVQSQALSVEFPEMLVEIISAQLPKVLAGMAKPLLFHK 4fnd-a1-m2-cA_4fnd-a1-m3-cA Crystal structure of the Mtb enoyl CoA isomerase in complex with hydroxyhexanoyl CoA P96907 P96907 1.85 X-RAY DIFFRACTION 68 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 232 232 4fn7-a1-m1-cB_4fn7-a1-m1-cA 4fn7-a1-m1-cB_4fn7-a1-m1-cC 4fn7-a1-m1-cC_4fn7-a1-m1-cA 4fn8-a1-m1-cA_4fn8-a1-m2-cA 4fn8-a1-m1-cA_4fn8-a1-m3-cA 4fn8-a1-m2-cA_4fn8-a1-m3-cA 4fn8-a2-m1-cA_4fn8-a2-m2-cA 4fn8-a2-m1-cA_4fn8-a2-m3-cA 4fn8-a2-m2-cA_4fn8-a2-m3-cA 4fn8-a2-m4-cA_4fn8-a2-m5-cA 4fn8-a2-m4-cA_4fn8-a2-m6-cA 4fn8-a2-m5-cA_4fn8-a2-m6-cA 4fnb-a1-m1-cA_4fnb-a1-m2-cA 4fnb-a1-m1-cA_4fnb-a1-m3-cA 4fnb-a1-m2-cA_4fnb-a1-m3-cA 4fnd-a1-m1-cA_4fnd-a1-m2-cA 4fnd-a1-m1-cA_4fnd-a1-m3-cA 4hc8-a1-m1-cA_4hc8-a1-m2-cA 4hc8-a1-m1-cA_4hc8-a1-m3-cA 4hc8-a1-m2-cA_4hc8-a1-m3-cA 4hc8-a2-m1-cB_4hc8-a2-m2-cB 4hc8-a2-m1-cB_4hc8-a2-m3-cB 4hc8-a2-m2-cB_4hc8-a2-m3-cB SMSDPVSYTRKDSIAVISMDDGKVNALGPAMQQALNAAIDNADRDDVGALVITGNGRVFSGGFDLKILTSGEVQPAIDMLRGGFELAYRLLSYPKPVVMACTGHAIAMGAFLLSCGDHRVAAHAYNIQANEVAIGMTIPYAALEIMKLRLTRSAYQQATGLAKTFFGETALAAGFIDEIALPEVVVSRAEEAAREFAGLNQHAHAATKLRSRADALTAIRAGIDGIAAEFGL SMSDPVSYTRKDSIAVISMDDGKVNALGPAMQQALNAAIDNADRDDVGALVITGNGRVFSGGFDLKILTSGEVQPAIDMLRGGFELAYRLLSYPKPVVMACTGHAIAMGAFLLSCGDHRVAAHAYNIQANEVAIGMTIPYAALEIMKLRLTRSAYQQATGLAKTFFGETALAAGFIDEIALPEVVVSRAEEAAREFAGLNQHAHAATKLRSRADALTAIRAGIDGIAAEFGL 4fnt-a1-m1-cA_4fnt-a1-m1-cD Crystal structure of GH36 alpha-galactosidase AgaA A355E D548N from Geobacillus stearothermophilus in complex with raffinose Q9ALJ4 Q9ALJ4 2.6 X-RAY DIFFRACTION 216 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 718 718 4fnp-a1-m1-cA_4fnp-a1-m1-cD 4fnp-a1-m1-cB_4fnp-a1-m1-cC 4fnq-a1-m1-cA_4fnq-a1-m2-cA 4fnq-a1-m3-cA_4fnq-a1-m4-cA 4fnr-a1-m1-cA_4fnr-a1-m1-cD 4fnr-a1-m1-cB_4fnr-a1-m1-cC 4fns-a1-m1-cA_4fns-a1-m1-cD 4fns-a1-m1-cB_4fns-a1-m1-cC 4fnt-a1-m1-cB_4fnt-a1-m1-cC 4fnu-a1-m1-cA_4fnu-a1-m1-cD 4fnu-a1-m1-cB_4fnu-a1-m1-cC KQFHLRAGKASYVMQLFRSGYLAHVYWGKAVRDVRGARAFPRLDRAFSPNPDPSDRTFSLDTLLQEYPAYGNTDFRAPAYQVQLENGSTVTDLRYKTHRIYKGKPRLNGLPATYVEHEQEAETLEIVLGDALIGLEVTLQYTAYEKWNVITRSARFENKGGERLKLLRALSMSVDFPTADYDWIHLPGAWGRERWIERRPLVTGVQAAESRRGASSHQQNPFIALVAKNADEHQGEVYGFSFVYSGNFLAQIEVDQFGTARVSMGINPFDFTWLLQPGESFQTPEVVMVYSDQGLNGMSQTYHELYRTRLARGAFRDRERPILINNWEATYFDFNEEKIVNIARTEAELGIELVVLDDGWFGERDDDRRSLGDWIVNRRKLPNGLDGLAKQVNELGLQFGLWVEPEMVSPNSELYRKHPDWCLHVPNRPRSEGRNQLVLDYSREDVCDYIIETISNVLASAPITYVKWDMNRHMTEIGSSALPPERQRETAHRYMLGLYRVMDEITSRFPHILFESCSGGGGRFDPGMLYYMPQTWTSNNTDAVSRLKIQYGTSLVYPISAMGAHVSAVPNHQVGRVASLKTRGHVAMSGNFGYELDITKLTETEKQMMKQQVAFYKDVRRLVQFGTFYRLLSPFEGNEAAWMFVSADRSEALVAYFRVLAEANAPLSYLRLKGLDSNQDYEIEGLGVYGGDELVYAGVALPYRSSDFISMMWRLKAV KQFHLRAGKASYVMQLFRSGYLAHVYWGKAVRDVRGARAFPRLDRAFSPNPDPSDRTFSLDTLLQEYPAYGNTDFRAPAYQVQLENGSTVTDLRYKTHRIYKGKPRLNGLPATYVEHEQEAETLEIVLGDALIGLEVTLQYTAYEKWNVITRSARFENKGGERLKLLRALSMSVDFPTADYDWIHLPGAWGRERWIERRPLVTGVQAAESRRGASSHQQNPFIALVAKNADEHQGEVYGFSFVYSGNFLAQIEVDQFGTARVSMGINPFDFTWLLQPGESFQTPEVVMVYSDQGLNGMSQTYHELYRTRLARGAFRDRERPILINNWEATYFDFNEEKIVNIARTEAELGIELVVLDDGWFGERDDDRRSLGDWIVNRRKLPNGLDGLAKQVNELGLQFGLWVEPEMVSPNSELYRKHPDWCLHVPNRPRSEGRNQLVLDYSREDVCDYIIETISNVLASAPITYVKWDMNRHMTEIGSSALPPERQRETAHRYMLGLYRVMDEITSRFPHILFESCSGGGGRFDPGMLYYMPQTWTSNNTDAVSRLKIQYGTSLVYPISAMGAHVSAVPNHQVGRVASLKTRGHVAMSGNFGYELDITKLTETEKQMMKQQVAFYKDVRRLVQFGTFYRLLSPFEGNEAAWMFVSADRSEALVAYFRVLAEANAPLSYLRLKGLDSNQDYEIEGLGVYGGDELVYAGVALPYRSSDFISMMWRLKAV 4fnt-a1-m1-cB_4fnt-a1-m1-cD Crystal structure of GH36 alpha-galactosidase AgaA A355E D548N from Geobacillus stearothermophilus in complex with raffinose Q9ALJ4 Q9ALJ4 2.6 X-RAY DIFFRACTION 65 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 718 718 4fnp-a1-m1-cA_4fnp-a1-m1-cC 4fnp-a1-m1-cB_4fnp-a1-m1-cD 4fnq-a1-m1-cA_4fnq-a1-m4-cA 4fnq-a1-m2-cA_4fnq-a1-m3-cA 4fnr-a1-m1-cA_4fnr-a1-m1-cC 4fnr-a1-m1-cB_4fnr-a1-m1-cD 4fns-a1-m1-cA_4fns-a1-m1-cC 4fns-a1-m1-cB_4fns-a1-m1-cD 4fnt-a1-m1-cA_4fnt-a1-m1-cC 4fnu-a1-m1-cA_4fnu-a1-m1-cC 4fnu-a1-m1-cB_4fnu-a1-m1-cD KQFHLRAGKASYVMQLFRSGYLAHVYWGKAVRDVRGARAFPRLDRAFSPNPDPSDRTFSLDTLLQEYPAYGNTDFRAPAYQVQLENGSTVTDLRYKTHRIYKGKPRLNGLPATYVEHEQEAETLEIVLGDALIGLEVTLQYTAYEKWNVITRSARFENKGGERLKLLRALSMSVDFPTADYDWIHLPGAWGRERWIERRPLVTGVQAAESRRGASSHQQNPFIALVAKNADEHQGEVYGFSFVYSGNFLAQIEVDQFGTARVSMGINPFDFTWLLQPGESFQTPEVVMVYSDQGLNGMSQTYHELYRTRLARGAFRDRERPILINNWEATYFDFNEEKIVNIARTEAELGIELVVLDDGWFGERDDDRRSLGDWIVNRRKLPNGLDGLAKQVNELGLQFGLWVEPEMVSPNSELYRKHPDWCLHVPNRPRSEGRNQLVLDYSREDVCDYIIETISNVLASAPITYVKWDMNRHMTEIGSSALPPERQRETAHRYMLGLYRVMDEITSRFPHILFESCSGGGGRFDPGMLYYMPQTWTSNNTDAVSRLKIQYGTSLVYPISAMGAHVSAVPNHQVGRVASLKTRGHVAMSGNFGYELDITKLTETEKQMMKQQVAFYKDVRRLVQFGTFYRLLSPFEGNEAAWMFVSADRSEALVAYFRVLAEANAPLSYLRLKGLDSNQDYEIEGLGVYGGDELVYAGVALPYRSSDFISMMWRLKAV KQFHLRAGKASYVMQLFRSGYLAHVYWGKAVRDVRGARAFPRLDRAFSPNPDPSDRTFSLDTLLQEYPAYGNTDFRAPAYQVQLENGSTVTDLRYKTHRIYKGKPRLNGLPATYVEHEQEAETLEIVLGDALIGLEVTLQYTAYEKWNVITRSARFENKGGERLKLLRALSMSVDFPTADYDWIHLPGAWGRERWIERRPLVTGVQAAESRRGASSHQQNPFIALVAKNADEHQGEVYGFSFVYSGNFLAQIEVDQFGTARVSMGINPFDFTWLLQPGESFQTPEVVMVYSDQGLNGMSQTYHELYRTRLARGAFRDRERPILINNWEATYFDFNEEKIVNIARTEAELGIELVVLDDGWFGERDDDRRSLGDWIVNRRKLPNGLDGLAKQVNELGLQFGLWVEPEMVSPNSELYRKHPDWCLHVPNRPRSEGRNQLVLDYSREDVCDYIIETISNVLASAPITYVKWDMNRHMTEIGSSALPPERQRETAHRYMLGLYRVMDEITSRFPHILFESCSGGGGRFDPGMLYYMPQTWTSNNTDAVSRLKIQYGTSLVYPISAMGAHVSAVPNHQVGRVASLKTRGHVAMSGNFGYELDITKLTETEKQMMKQQVAFYKDVRRLVQFGTFYRLLSPFEGNEAAWMFVSADRSEALVAYFRVLAEANAPLSYLRLKGLDSNQDYEIEGLGVYGGDELVYAGVALPYRSSDFISMMWRLKAV 4fnt-a1-m1-cC_4fnt-a1-m1-cD Crystal structure of GH36 alpha-galactosidase AgaA A355E D548N from Geobacillus stearothermophilus in complex with raffinose Q9ALJ4 Q9ALJ4 2.6 X-RAY DIFFRACTION 106 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 718 718 4fnp-a1-m1-cA_4fnp-a1-m1-cB 4fnp-a1-m1-cC_4fnp-a1-m1-cD 4fnq-a1-m1-cA_4fnq-a1-m3-cA 4fnq-a1-m2-cA_4fnq-a1-m4-cA 4fnr-a1-m1-cA_4fnr-a1-m1-cB 4fnr-a1-m1-cC_4fnr-a1-m1-cD 4fns-a1-m1-cA_4fns-a1-m1-cB 4fns-a1-m1-cC_4fns-a1-m1-cD 4fnt-a1-m1-cA_4fnt-a1-m1-cB 4fnu-a1-m1-cA_4fnu-a1-m1-cB 4fnu-a1-m1-cC_4fnu-a1-m1-cD KQFHLRAGKASYVMQLFRSGYLAHVYWGKAVRDVRGARAFPRLDRAFSPNPDPSDRTFSLDTLLQEYPAYGNTDFRAPAYQVQLENGSTVTDLRYKTHRIYKGKPRLNGLPATYVEHEQEAETLEIVLGDALIGLEVTLQYTAYEKWNVITRSARFENKGGERLKLLRALSMSVDFPTADYDWIHLPGAWGRERWIERRPLVTGVQAAESRRGASSHQQNPFIALVAKNADEHQGEVYGFSFVYSGNFLAQIEVDQFGTARVSMGINPFDFTWLLQPGESFQTPEVVMVYSDQGLNGMSQTYHELYRTRLARGAFRDRERPILINNWEATYFDFNEEKIVNIARTEAELGIELVVLDDGWFGERDDDRRSLGDWIVNRRKLPNGLDGLAKQVNELGLQFGLWVEPEMVSPNSELYRKHPDWCLHVPNRPRSEGRNQLVLDYSREDVCDYIIETISNVLASAPITYVKWDMNRHMTEIGSSALPPERQRETAHRYMLGLYRVMDEITSRFPHILFESCSGGGGRFDPGMLYYMPQTWTSNNTDAVSRLKIQYGTSLVYPISAMGAHVSAVPNHQVGRVASLKTRGHVAMSGNFGYELDITKLTETEKQMMKQQVAFYKDVRRLVQFGTFYRLLSPFEGNEAAWMFVSADRSEALVAYFRVLAEANAPLSYLRLKGLDSNQDYEIEGLGVYGGDELVYAGVALPYRSSDFISMMWRLKAV KQFHLRAGKASYVMQLFRSGYLAHVYWGKAVRDVRGARAFPRLDRAFSPNPDPSDRTFSLDTLLQEYPAYGNTDFRAPAYQVQLENGSTVTDLRYKTHRIYKGKPRLNGLPATYVEHEQEAETLEIVLGDALIGLEVTLQYTAYEKWNVITRSARFENKGGERLKLLRALSMSVDFPTADYDWIHLPGAWGRERWIERRPLVTGVQAAESRRGASSHQQNPFIALVAKNADEHQGEVYGFSFVYSGNFLAQIEVDQFGTARVSMGINPFDFTWLLQPGESFQTPEVVMVYSDQGLNGMSQTYHELYRTRLARGAFRDRERPILINNWEATYFDFNEEKIVNIARTEAELGIELVVLDDGWFGERDDDRRSLGDWIVNRRKLPNGLDGLAKQVNELGLQFGLWVEPEMVSPNSELYRKHPDWCLHVPNRPRSEGRNQLVLDYSREDVCDYIIETISNVLASAPITYVKWDMNRHMTEIGSSALPPERQRETAHRYMLGLYRVMDEITSRFPHILFESCSGGGGRFDPGMLYYMPQTWTSNNTDAVSRLKIQYGTSLVYPISAMGAHVSAVPNHQVGRVASLKTRGHVAMSGNFGYELDITKLTETEKQMMKQQVAFYKDVRRLVQFGTFYRLLSPFEGNEAAWMFVSADRSEALVAYFRVLAEANAPLSYLRLKGLDSNQDYEIEGLGVYGGDELVYAGVALPYRSSDFISMMWRLKAV 4fo0-a2-m1-cA_4fo0-a2-m2-cA Human actin-related protein Arp8 in its ATP-bound state Q9H981 Q9H981 2.6 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 502 502 GPLVPESLQEQIQSNFIIVIHPGSTTLRIGRATDTLPASIPHVIARRHKQQGQPLYKDSWLLREGLNKPESNEQRQNGLKMVDQAIWSKKMSNGTRRIPVSPEQARSYNKQMRPAILDHCSGNKWTNTSHHPEYLVGEEALYVNPLDCYNIHWPIRRGQLNIHPGPGGSLTAVLADIEVIWSHAIQKYLEIPLKDLKYYRCILLIPDIYNKQHVKELVNMILMKMGFSGIVVHQESVCATYGSGLSSTCIVDVGDQKTSVCCVEDGVSHRNTRLCLAYGGSDVSRCFYWLMQRAGFPYRECQLTNKMDCLLLQHLKETFCHLDQDISGLQDHEFQIRHPDSPALLYQFRLGDEKLQAPMALFYPATFGIVGQKMTTLQHSLFEGKALGLDKAILHSIDCCSSDDTKKKMYSSILVVGGGLMFHKAQEFLQHRILNKMPPSFRRIIENVDVITRPKDMDPRLIAWKGGAVLACLDTTQELWIYQREWQRFGVRMLRERAAFVW GPLVPESLQEQIQSNFIIVIHPGSTTLRIGRATDTLPASIPHVIARRHKQQGQPLYKDSWLLREGLNKPESNEQRQNGLKMVDQAIWSKKMSNGTRRIPVSPEQARSYNKQMRPAILDHCSGNKWTNTSHHPEYLVGEEALYVNPLDCYNIHWPIRRGQLNIHPGPGGSLTAVLADIEVIWSHAIQKYLEIPLKDLKYYRCILLIPDIYNKQHVKELVNMILMKMGFSGIVVHQESVCATYGSGLSSTCIVDVGDQKTSVCCVEDGVSHRNTRLCLAYGGSDVSRCFYWLMQRAGFPYRECQLTNKMDCLLLQHLKETFCHLDQDISGLQDHEFQIRHPDSPALLYQFRLGDEKLQAPMALFYPATFGIVGQKMTTLQHSLFEGKALGLDKAILHSIDCCSSDDTKKKMYSSILVVGGGLMFHKAQEFLQHRILNKMPPSFRRIIENVDVITRPKDMDPRLIAWKGGAVLACLDTTQELWIYQREWQRFGVRMLRERAAFVW 4fo8-a1-m1-cA_4fo8-a1-m1-cD Pseudomonas aeruginosa MetAP with Met, in Mn form Q9HXY1 Q9HXY1 1.9 X-RAY DIFFRACTION 12 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 259 259 4juq-a1-m1-cA_4juq-a1-m1-cD TVTIKTPDDIEKMRIAGRLAAEVLEMIGEHIKPGVTTEELDRICHDYIVNEQKAIPAPLNYKGFPKSICTSINHVVCHGIPNEKPLKEGDILNVDITVIKDGYHGDTSKMFLVGKTPEWADRLCQITQECMYKGISVVRPGAHLGDIGEIIQKHAEKNGFSVVREYCGHGIGKVFHEEPQVLHYGRAGTGIELKEGMIFTIEPMINQGRPETRLLGDGWTAITKDRKLSAQWEHTVLVTADGYEILTLRNDETFPRTSA TVTIKTPDDIEKMRIAGRLAAEVLEMIGEHIKPGVTTEELDRICHDYIVNEQKAIPAPLNYKGFPKSICTSINHVVCHGIPNEKPLKEGDILNVDITVIKDGYHGDTSKMFLVGKTPEWADRLCQITQECMYKGISVVRPGAHLGDIGEIIQKHAEKNGFSVVREYCGHGIGKVFHEEPQVLHYGRAGTGIELKEGMIFTIEPMINQGRPETRLLGDGWTAITKDRKLSAQWEHTVLVTADGYEILTLRNDETFPRTSA 4fo8-a1-m1-cD_4fo8-a1-m1-cB Pseudomonas aeruginosa MetAP with Met, in Mn form Q9HXY1 Q9HXY1 1.9 X-RAY DIFFRACTION 54 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 259 261 4fo7-a1-m1-cD_4fo7-a1-m1-cB 4juq-a1-m1-cB_4juq-a1-m1-cD TVTIKTPDDIEKMRIAGRLAAEVLEMIGEHIKPGVTTEELDRICHDYIVNEQKAIPAPLNYKGFPKSICTSINHVVCHGIPNEKPLKEGDILNVDITVIKDGYHGDTSKMFLVGKTPEWADRLCQITQECMYKGISVVRPGAHLGDIGEIIQKHAEKNGFSVVREYCGHGIGKVFHEEPQVLHYGRAGTGIELKEGMIFTIEPMINQGRPETRLLGDGWTAITKDRKLSAQWEHTVLVTADGYEILTLRNDETFPRTSA TVTIKTPDDIEKMRIAGRLAAEVLEMIGEHIKPGVTTEELDRICHDYIVNEQKAIPAPLNYKGFPKSICTSINHVVCHGIPNEKPLKEGDILNVDITVIKDGYHGDTSKMFLVGKTPEWADRLCQITQECMYKGISVVRPGAHLGDIGEIIQKHAEKNGFSVVREYCGHGIGKVFHEEPQVLHYGRAGTGIELKEGMIFTIEPMINQGRPETRLLGDGWTAITKDRKLSAQWEHTVLVTADGYEILTLRNDETFPRTSAAE 4foi-a1-m1-cA_4foi-a1-m1-cB Crystal Structure of recombinant human Hexokinase type I mutant D413N with Glucose 1,6-bisphosphate P19367 P19367 2.4 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 899 899 1hkc-a1-m1-cA_1hkc-a1-m2-cA 1qha-a1-m1-cB_1qha-a1-m1-cA 4foe-a1-m1-cA_4foe-a1-m1-cB 4fpa-a1-m1-cA_4fpa-a1-m1-cB 4fpb-a1-m1-cA_4fpb-a1-m1-cB DDQVKKIDKYLYAMRLSDETLIDIMTRFRKEMKNGLSRDFNPTATVKMLPTFVRSIPDGSEKGDFIALDLGGSSFRILRVQVNHEKNQNVHMESEVYDTPENIVHGSGSQLFDHVAECLGDFMEKRKIKDKKLPVGFTFSFPCQQSKIDEAILITWTKRFKASGVEGADVVKLLNKAIKKRGDYDANIVAVVNDTVGTMMTCGYDDQHCEVGLIIGTGTNACYMEELRHIDLVEGDEGRMCINTEWGAFGDDGSLEDIRTEFDREIDRGSLNPGKQLFEKMVSGMYLGELVRLILVKMAKEGLLFEGRITPELLTRGKFNTSDVSAIEKNKEGLHNAKEILTRLGVEPSDDDCVSVQHVCTIVSFRSANLVAATLGAILNRLRDNKGTPRLRTTVGVNGSLYKTHPQYSRRFHKTLRRLVPDSDVRFLLSESGSGKGAAMVTAVAYRLAEQHRQIEETLAHFHLTKDMLLEVKKRMRAEMELGLRKQTHNNAVVKMLPSFVRRTPDGTENGDFLALDLGGTNFRVLLVKIRSGKKRTVEMHNKIYAIPIEIMQGTGEELFDHIVSCISDFLDYMGIKGPRMPLGFTFSFPCQQTSLDAGILITWTKGFKATDCVGHDVVTLLRDAIKRREEFDLDVVAVVNDTVGTMMTCAYEEPTCEVGLIVGTGSNACYMEEMKNVEMVEGDQGQMCINMEWGAFGDNGCLDDIRTHYDRLVDEYSLNAGKQRYEKMISGMYLGEIVRNILIDFTKKGFLFRGQISETLKTRGIFETKFLSQIESDRLALLQVRAILQQLGLNSTCDDSILVKTVCGVVSRRAAQLCGAGMAAVVDKIRENRGLDRLNVTVGVDGTLYKLHPHFSRIMHQTVKELSPKCNVSFLLSEDGSGKGAALITAVGVRLRTE DDQVKKIDKYLYAMRLSDETLIDIMTRFRKEMKNGLSRDFNPTATVKMLPTFVRSIPDGSEKGDFIALDLGGSSFRILRVQVNHEKNQNVHMESEVYDTPENIVHGSGSQLFDHVAECLGDFMEKRKIKDKKLPVGFTFSFPCQQSKIDEAILITWTKRFKASGVEGADVVKLLNKAIKKRGDYDANIVAVVNDTVGTMMTCGYDDQHCEVGLIIGTGTNACYMEELRHIDLVEGDEGRMCINTEWGAFGDDGSLEDIRTEFDREIDRGSLNPGKQLFEKMVSGMYLGELVRLILVKMAKEGLLFEGRITPELLTRGKFNTSDVSAIEKNKEGLHNAKEILTRLGVEPSDDDCVSVQHVCTIVSFRSANLVAATLGAILNRLRDNKGTPRLRTTVGVNGSLYKTHPQYSRRFHKTLRRLVPDSDVRFLLSESGSGKGAAMVTAVAYRLAEQHRQIEETLAHFHLTKDMLLEVKKRMRAEMELGLRKQTHNNAVVKMLPSFVRRTPDGTENGDFLALDLGGTNFRVLLVKIRSGKKRTVEMHNKIYAIPIEIMQGTGEELFDHIVSCISDFLDYMGIKGPRMPLGFTFSFPCQQTSLDAGILITWTKGFKATDCVGHDVVTLLRDAIKRREEFDLDVVAVVNDTVGTMMTCAYEEPTCEVGLIVGTGSNACYMEEMKNVEMVEGDQGQMCINMEWGAFGDNGCLDDIRTHYDRLVDEYSLNAGKQRYEKMISGMYLGEIVRNILIDFTKKGFLFRGQISETLKTRGIFETKFLSQIESDRLALLQVRAILQQLGLNSTCDDSILVKTVCGVVSRRAAQLCGAGMAAVVDKIRENRGLDRLNVTVGVDGTLYKLHPHFSRIMHQTVKELSPKCNVSFLLSEDGSGKGAALITAVGVRLRTE 4fox-a2-m1-cC_4fox-a2-m1-cD Crystal Structure of Mtb ThyA in complex with dUMP and Raltitrexed P9WFR9 P9WFR9 2.3 X-RAY DIFFRACTION 131 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 261 263 3qj7-a1-m1-cC_3qj7-a1-m1-cA 3qj7-a2-m1-cB_3qj7-a2-m1-cD 4foa-a1-m1-cB_4foa-a1-m1-cA 4foa-a2-m1-cC_4foa-a2-m1-cD 4fog-a1-m1-cA_4fog-a1-m1-cD 4fog-a2-m1-cB_4fog-a2-m1-cC 4fox-a1-m1-cA_4fox-a1-m1-cB 4fox-a3-m1-cE_4fox-a3-m1-cF 4fox-a4-m1-cH_4fox-a4-m1-cG 4fqs-a1-m1-cA_4fqs-a1-m1-cB MTPYEDLLRFVLETGTPKSDRTGTGTRSLFGQQMRYDLSAGFPLLTTKKVHFKSVAYELLWFLRGDSNIGWLHEHGVTIWDEWASDTGELGPIYGVQWRSWPAPSGEHIDQISAALDLLRTDPDSRRIIVSAWNVGEIERMALPPCHAFFQFYVADGRLSCQLYQRSADLFLGVPFNIASYALLTHMMAAQAGLSVGEFIWTGGDCHIYDNHVEQVRLQLSREPRPYPKLLLADRDSIFEYTYEDIVVKNYDPHPAIKAPV MTPYEDLLRFVLETGTPKSDRTGTGTRSLFGQQMRYDLSAGFPLLTTKKVHFKSVAYELLWFLRGDSNIGWLHEHGVTIWDEWASDTGELGPIYGVQWRSWPAPSGEHIDQISAALDLLRTDPDSRRIIVSAWNVGEIERMALPPCHAFFQFYVADGRLSCQLYQRSADLFLGVPFNIASYALLTHMMAAQAGLSVGEFIWTGGDCHIYDNHVEQVRLQLSREPRPYPKLLLADRDSIFEYTYEDIVVKNYDPHPAIKAPVAV 4fp4-a1-m1-cB_4fp4-a1-m1-cA Crystal structure of isoprenoid synthase a3mx09 (target efi-501993) from pyrobaculum calidifontis A3MX09 A3MX09 2 X-RAY DIFFRACTION 133 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 234 243 LPPEVLAALERVKARLNKVGEELEPISLRKAVRHYIETPGKLLRPLLLLTFTYSIDRRSIMDPRILEAAAIVELLHVVSLLQDDVMDQHDQRRGIKTPRAMYGDGRAIVASDWLIAESIKMAVNLGADVVTYLADVAQRLSVGQALDLEGERDKAAEFKTAPLIEAALVMPLVILGRRELIETAKKLGTKLGILYQYTKSIANEIGRYLLKIKEHVGDAIAPFERLIKYLIGKA MYSLPPEVLAALERVKARLNKVGEELEPISLRKAVRHYIETPGKLLRPLLLLTFTYSIDRRSIMDPRILEAAAIVELLHVVSLLQDDVMDQHDQRRGIKTPRAMYGDGRAIVASDWLIAESIKMAVNLGADVVTYLADVAQRLSVGQALDLEGERDKAAEFKTAPLIEAALVMPLVILGRRELIETAKKLGTKLGILYQYSRPETKSIANEIGRYLLKIKEHVGDAIAPFERLIKYLIGKALE 4fp9-a1-m1-cA_4fp9-a1-m1-cF Human MTERF4-NSUN4 protein complex Q96CB9 Q96CB9 2.9 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 338 338 4fp9-a1-m1-cA_4fp9-a1-m1-cC PAVRLALQNFDMTYSVQFGDLWPSIRVSLLSEQKYGALVNNFAAWDHVSAKLEQLSAKDFVNEAISHWELQPSPASWACSPNLRCFTFDRGDISRFPPARPGSLGVMEYYLMDAASLLPVLALGLQPGDIVLDLCAAPGGKTLALLQTGCCRNLAANDLSPSRIARLQKILHSYVPEEIRDGNQVRVTSWDGRKWGELEGDTYDRVLVDVPCTTDRHSLHEEENNIFKRSRKKERQILPVLQVQLLAAGLLATKPGGHVVYSTCSLSHLQNEYVVQGAIELLANQYSIQVQVEDLTHFRRVFMDTFCFFSSCQVGELVIPNLMANFGPMYFCKMRRLT PAVRLALQNFDMTYSVQFGDLWPSIRVSLLSEQKYGALVNNFAAWDHVSAKLEQLSAKDFVNEAISHWELQPSPASWACSPNLRCFTFDRGDISRFPPARPGSLGVMEYYLMDAASLLPVLALGLQPGDIVLDLCAAPGGKTLALLQTGCCRNLAANDLSPSRIARLQKILHSYVPEEIRDGNQVRVTSWDGRKWGELEGDTYDRVLVDVPCTTDRHSLHEEENNIFKRSRKKERQILPVLQVQLLAAGLLATKPGGHVVYSTCSLSHLQNEYVVQGAIELLANQYSIQVQVEDLTHFRRVFMDTFCFFSSCQVGELVIPNLMANFGPMYFCKMRRLT 4fp9-a1-m1-cD_4fp9-a1-m1-cA Human MTERF4-NSUN4 protein complex Q96CB9 Q96CB9 2.9 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 333 338 PAVRLALQNFDMTYSVQFGDLWPSIRVSLLSEQKYGALVNNFAAWDHVSAKLEQLSAKDFVNEAISHSPASWACSPNLRCFTFDRGDISRFPPARPGSLGVMEYYLMDAASLLPVLALGLQPGDIVLDLCAAPGGKTLALLQTGCCRNLAANDLSPSRIARLQKILHSYVPEEIRDGNQVRVTSWDGRKWGELEGDTYDRVLVDVPCTTDRHSLHEEENNIFKRSRKKERQILPVLQVQLLAAGLLATKPGGHVVYSTCSLSHLQNEYVVQGAIELLANQYSIQVQVEDLTHFRRVFMDTFCFFSSCQVGELVIPNLMANFGPMYFCKMRRLT PAVRLALQNFDMTYSVQFGDLWPSIRVSLLSEQKYGALVNNFAAWDHVSAKLEQLSAKDFVNEAISHWELQPSPASWACSPNLRCFTFDRGDISRFPPARPGSLGVMEYYLMDAASLLPVLALGLQPGDIVLDLCAAPGGKTLALLQTGCCRNLAANDLSPSRIARLQKILHSYVPEEIRDGNQVRVTSWDGRKWGELEGDTYDRVLVDVPCTTDRHSLHEEENNIFKRSRKKERQILPVLQVQLLAAGLLATKPGGHVVYSTCSLSHLQNEYVVQGAIELLANQYSIQVQVEDLTHFRRVFMDTFCFFSSCQVGELVIPNLMANFGPMYFCKMRRLT 4fpp-a1-m1-cA_4fpp-a1-m2-cA Bacterial phosphotransferase Q9A2T6 Q9A2T6 2.2 X-RAY DIFFRACTION 121 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 205 205 4fmt-a1-m1-cB_4fmt-a1-m1-cA 4fmt-a2-m1-cC_4fmt-a2-m1-cD 4fpp-a2-m1-cB_4fpp-a2-m1-cC PDFAAMLAARLCHDFISPASAIVSGLDLLEDPSAQDMRDDAMNLIASSARKLADLLQFTRVAFGASASAENFDSRELEKLAQGVFAHVRPTLDWQIEPQAMNKPSSRAVLNIAQIAASALPAGGVATVKGVAADGRFSIIADAKGPRARLRPEVLAGLKGEPLAEGLGGPWVQAAYLNALVRAAGGQIAVEIGEDRASIAAWVPA PDFAAMLAARLCHDFISPASAIVSGLDLLEDPSAQDMRDDAMNLIASSARKLADLLQFTRVAFGASASAENFDSRELEKLAQGVFAHVRPTLDWQIEPQAMNKPSSRAVLNIAQIAASALPAGGVATVKGVAADGRFSIIADAKGPRARLRPEVLAGLKGEPLAEGLGGPWVQAAYLNALVRAAGGQIAVEIGEDRASIAAWVPA 4fpq-a6-m1-cD_4fpq-a6-m1-cC Structure of a fungal protein E5A6Z5 E5A6Z5 2.3 X-RAY DIFFRACTION 52 1.0 985895 (Plenodomus lingam JN3) 985895 (Plenodomus lingam JN3) 127 130 4fpq-a5-m1-cB_4fpq-a5-m1-cA 4fpr-a5-m1-cB_4fpr-a5-m1-cA 4fpr-a6-m1-cB_4fpr-a6-m1-cA 4fpr-a6-m1-cD_4fpr-a6-m1-cC 4fpr-a7-m1-cD_4fpr-a7-m1-cC VCREASISGEIRYPQGTCPTKTEALNDCNKVTKGLIDFSQSHQRAWGIDMTAKVQCAPCKTTDPWDVVLCTCKITAHRYREFVPKIPYSSFSSAPGVIFRQETGLDHDPEWVVNMKARTRGCDHHHH AYVCREASISGEIRYPQGTCPTKTEALNDCNKVTKGLIDFSQSHQRAWGIDMTAKVQCAPCKTTDPWDVVLCTCKITAHRYREFVPKIPYSSFSSAPGVIFRQETGLDHDPEWVVNMKARTRGCDHHHHH 4fpr-a6-m1-cD_4fpr-a6-m1-cA Structure of a fungal protein E5A6Z5 E5A6Z5 2.402 X-RAY DIFFRACTION 35 1.0 985895 (Plenodomus lingam JN3) 985895 (Plenodomus lingam JN3) 127 130 4fpr-a6-m1-cB_4fpr-a6-m1-cC VCREASISGEIRYPQGTCPTKTEALNDCNKVTKGLIDFSQSHQRAWGIDMTAKVQCAPCKTTDPWDVVLCTCKITAHRYREFVPKIPYSSFSSAPGVIFRQETGLDHDPEWVVNMKARTRGCDHHHH AYVCREASISGEIRYPQGTCPTKTEALNDCNKVTKGLIDFSQSHQRAWGIDMTAKVQCAPCKTTDPWDVVLCTCKITAHRYREFVPKIPYSSFSSAPGVIFRQETGLDHDPEWVVNMKARTRGCDHHHHH 4fpw-a3-m1-cA_4fpw-a3-m1-cB Crystal Structure of CalU16 from Micromonospora echinospora. Northeast Structural Genomics Consortium Target MiR12. Q8KNE9 Q8KNE9 2.5 X-RAY DIFFRACTION 18 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 152 156 QATERALGRRTIPAGEARSIIIRQRYDAPVDEVWSACTDPNRINRWFIEPKGDLREGGNFALQGNASGDILRCEPPRRLTISWVYEGKPDSEVELRLSEEGDGTLLELEHATTSEQLVEVGVGWEALDFLGFISPERISQERGEAWAALVHS QATERALGRRTIPAGEARSIIIRQRYDAPVDEVWSACTDPNRINRWFIEPKGDLREGGNFALQGNASGDILRCEPPRRLTISWVYEGKPDSEVELRLSEEGDGTLLELEHATTSEQLVEVGVGWEALDFLGFIRGDPSPERISQERGEAWAALVHS 4fq5-a1-m1-cB_4fq5-a1-m2-cB Crystal structure of the maleate isomerase Iso(C200A) from Pseudomonas putida S16 with maleate F8G0M3 F8G0M3 2.1 X-RAY DIFFRACTION 64 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 250 250 4fq5-a1-m1-cA_4fq5-a1-m2-cA 4fq7-a1-m1-cA_4fq7-a1-m2-cA 4fq7-a1-m1-cB_4fq7-a1-m2-cB KVVRVGQIVPSSNITMETEIPALLKARELVAPERFTFHSSRMRMKHVTKEELARMDGDSDRCALELSDARVDVMGYACLVAIMSMGHGYHRVSAERLRNVTENNDAATPIITSAGALIDGIRALGAKRVAVVTPYMKPLTELVVDYIRHEGIEVGDYRALEISDNLAVAAHDPMNLPGIIASMRTDDVDAIVISAAVQMPSLNAITMVEAQTRKPVISAAVATTWAMLTALDLPTRVPGGGTLLSGAYLE KVVRVGQIVPSSNITMETEIPALLKARELVAPERFTFHSSRMRMKHVTKEELARMDGDSDRCALELSDARVDVMGYACLVAIMSMGHGYHRVSAERLRNVTENNDAATPIITSAGALIDGIRALGAKRVAVVTPYMKPLTELVVDYIRHEGIEVGDYRALEISDNLAVAAHDPMNLPGIIASMRTDDVDAIVISAAVQMPSLNAITMVEAQTRKPVISAAVATTWAMLTALDLPTRVPGGGTLLSGAYLE 4fq5-a1-m2-cA_4fq5-a1-m2-cB Crystal structure of the maleate isomerase Iso(C200A) from Pseudomonas putida S16 with maleate F8G0M3 F8G0M3 2.1 X-RAY DIFFRACTION 77 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 247 250 4fq5-a1-m1-cA_4fq5-a1-m1-cB 4fq7-a1-m1-cA_4fq7-a1-m1-cB 4fq7-a1-m2-cA_4fq7-a1-m2-cB VVRVGQIVPSSNITMETEIPALLKARELVAPERFTFHSSRMRMKHVTKEELARMDGDSDRCALELSDARVDVMGYACLVAIMSMGHGYHRVSAERLRNVTENNDAATPIITSAGALIDGIRALGAKRVAVVTPYMKPLTELVVDYIRHEGIEVGDYRALEISDNLAVAAHDPMNLPGIIASMRTDDVDAIVISAAVQMPSLNAITMVEAQTRKPVISAAVATTWAMLTALDLPTRVPGGGTLLSGAY KVVRVGQIVPSSNITMETEIPALLKARELVAPERFTFHSSRMRMKHVTKEELARMDGDSDRCALELSDARVDVMGYACLVAIMSMGHGYHRVSAERLRNVTENNDAATPIITSAGALIDGIRALGAKRVAVVTPYMKPLTELVVDYIRHEGIEVGDYRALEISDNLAVAAHDPMNLPGIIASMRTDDVDAIVISAAVQMPSLNAITMVEAQTRKPVISAAVATTWAMLTALDLPTRVPGGGTLLSGAYLE 4fqd-a1-m1-cB_4fqd-a1-m1-cA Crystal structure of the enolpyruvyl transferase NikO from Streptomyces tendae Q712I1 Q712I1 2.5 X-RAY DIFFRACTION 60 1.0 1932 (Streptomyces tendae) 1932 (Streptomyces tendae) 435 436 PGEPLLEIHGGNRLSGAVRTSGFKHSLVTTVAAAATASAPVRIENCPDIVETAVLGEIFRAAGAHAHYDGADETFTVDASAWDRAELPADLVGRIHGSLYLLPALVSRNGVARLSAPDEHLLDVMGRFGVTTRLTADGSVDLTAQRLTPCTIDMLDYTRNKALMSGPCYSGAVKTALLMGAVTHGTTTLQHPYLKPDVTDMVTVLRDLGADIEFAGPETWVIHGRGPESLHRPVDVTLIPDLIEVVTWICAGVLLADEPLRITGPGIDRAVHALAPEFDLLDRMGVRVDVGADEVTAHPLTKPLRPVEFTAMSRGVFSDSQPFLALLGAYAEGPTYIREAVWEHRFGFAPELEALGIRTAVDDTVLRVDGPCPPHRPGTDLRATDLRAAAVLLLAALAVPGRTTLRNHHHLARGYRDLVEDLVKLGADIRHTTAP PGEPLLEIHGGNRLSGAVRTSGFKHSLVTTVAAAATASAPVRIENCPDIVETAVLGEIFRAAGAHAHYDGADETFTVDASAWDRAELPADLVGRIHGSLYLLPALVSRNGVARLSARPDEHLLDVMGRFGVTTRLTADGSVDLTAQRLTPCTIDMLDYTRNKALMSGPCYSGAVKTALLMGAVTHGTTTLQHPYLKPDVTDMVTVLRDLGADIEFAGPETWVIHGRGPESLHRPVDVTLIPDLIEVVTWICAGVLLADEPLRITGPGIDRAVHALAPEFDLLDRMGVRVDVGADEVTAHPLTKPLRPVEFTAMSRGVFSDSQPFLALLGAYAEGPTYIREAVWEHRFGFAPELEALGIRTAVDDTVLRVDGPCPPHRPGTDLRATDLRAAAVLLLAALAVPGRTTLRNHHHLARGYRDLVEDLVKLGADIRHTTAP 4fql-a2-m2-cH_4fql-a2-m1-cH Influenza B HA Antibody (Fab) CR8033 1.898 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 225 EVQLVESGGGLVQPGRSLRLSCAASGFSFDEYTMHWVRQAPGKGLEWVAGINWKGNFMGYADSVQGRFTISRDNGKNSLYLQMNSLRAEDTALYYCAKDRLESSAMDILEGGTFDIWGQGTMVTVSSASTKGPSVFPLAPSSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKSC EVQLVESGGGLVQPGRSLRLSCAASGFSFDEYTMHWVRQAPGKGLEWVAGINWKGNFMGYADSVQGRFTISRDNGKNSLYLQMNSLRAEDTALYYCAKDRLESSAMDILEGGTFDIWGQGTMVTVSSASTKGPSVFPLAPSSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKSC 4fqn-a1-m1-cB_4fqn-a1-m1-cA Crystal structure of the CCM2 C-terminal Harmonin Homology Domain (HHD) Q9BSQ5 Q9BSQ5 1.9 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 95 SKTISESELSASATELLQDYMLTLRTKLSSQEIQQFAALLHEYRNGASIHEFCINLRQLYGDSRKFLLLGLRPFIPEKDSQHFENFLETIGVK GSKTISESELSASATELLQDYMLTLRTKLSSQEIQQFAALLHEYRNGASIHEFCINLRQLYGDSRKFLLLGLRPFIPEKDSQHFENFLETIGVKD 4fqu-a4-m1-cG_4fqu-a4-m2-cH Glutathionyl-Hydroquinone Reductase PcpF of Sphingobium chlorophenolicum Q8KN33 Q8KN33 3 X-RAY DIFFRACTION 69 1.0 46429 (Sphingobium chlorophenolicum) 46429 (Sphingobium chlorophenolicum) 305 309 4fqu-a1-m1-cB_4fqu-a1-m1-cA 4fqu-a2-m1-cC_4fqu-a2-m1-cD 4fqu-a3-m1-cF_4fqu-a3-m1-cE GLLIDGVWRDAWGRFVRKESQYRGGLDAGFRGEPGRYHLYAGFACPWAHRVLIMRALKGLEEMISVSMVNAYMGENGWTFLPGDDVVPDSINGADYLYQVYTAADPTYTGRVTIPILWDKVEKRILNNESSEIIRILNSAFDDVGALPGDYYPAEFRPEIDRINARVYETLNNGVYRSGFATTQEAYEEAFYPLFDTLDWLEEHLTGREWLVGDRLTEADIRLFPTLVRFDAIYHGHFKCNLRRIADYPNLSRLVGKLASHERVAPTINLRHAKAHYYGSHPSVNPTGIVPVGPAQPLPGLTLQS GLLIDGVWRDAWYDSGGRFVRKESQYRGGLDAGFRGEPGRYHLYAGFACPWAHRVLIMRALKGLEEMISVSMVNAYMGENGWTFLPGDDVVPDSINGADYLYQVYTAADPTYTGRVTIPILWDKVEKRILNNESSEIIRILNSAFDDVGALPGDYYPAEFRPEIDRINARVYETLNNGVYRSGFATTQEAYEEAFYPLFDTLDWLEEHLTGREWLVGDRLTEADIRLFPTLVRFDAIYHGHFKCNLRRIADYPNLSRLVGKLASHERVAPTINLRHAKAHYYGSHPSVNPTGIVPVGPAQPLPGLTLQS 4fr2-a1-m1-cA_4fr2-a1-m2-cA Alcohol dehydrogenase from Oenococcus oeni A0NIJ1 A0NIJ1 3.2 X-RAY DIFFRACTION 100 1.0 379360 (Oenococcus oeni ATCC BAA-1163) 379360 (Oenococcus oeni ATCC BAA-1163) 383 383 AYDFLMPSVNFFGPGVISKIGERAKMLGMKKPVIVTDKFLENLKNGAVAQTLASLKKSGVDYVVYNGVEPNPKIHNIKEVKTLYEKEDADSIITVGGGSAHDTGKGAGIIMTNGDDITKLAGIETLKNPLPPLIAVNTTAGTGSELTRHAVITNEETHLKFVVVSWRNIPLVSFNDPTLMLDIPKGLTAATGMDAFVQAVEPYVSVDHNPITDSQCIQAIKLIESSLREAVANGHNLQARTKMVEAEMLAGMAFNNANLGYVHAMAHQLGGQYDAPHGVCCALLLPYAEEYNLIADPERFAELARIMGENTDGLSTRDAAELSIKAMKQLSEDVGIPHSIKDIGAKPEDFDLMAENALKDGNAFSNPRKGTKEDIVKIFQEAY AYDFLMPSVNFFGPGVISKIGERAKMLGMKKPVIVTDKFLENLKNGAVAQTLASLKKSGVDYVVYNGVEPNPKIHNIKEVKTLYEKEDADSIITVGGGSAHDTGKGAGIIMTNGDDITKLAGIETLKNPLPPLIAVNTTAGTGSELTRHAVITNEETHLKFVVVSWRNIPLVSFNDPTLMLDIPKGLTAATGMDAFVQAVEPYVSVDHNPITDSQCIQAIKLIESSLREAVANGHNLQARTKMVEAEMLAGMAFNNANLGYVHAMAHQLGGQYDAPHGVCCALLLPYAEEYNLIADPERFAELARIMGENTDGLSTRDAAELSIKAMKQLSEDVGIPHSIKDIGAKPEDFDLMAENALKDGNAFSNPRKGTKEDIVKIFQEAY 4fr5-a3-m1-cA_4fr5-a3-m2-cB Crystal Structure of Shikimate Dehydrogenase (aroE) Y210S Mutant from Helicobacter pylori in Complex with Shikimate P56119 P56119 2.2 X-RAY DIFFRACTION 25 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 263 263 MKLKSFGVFGNPIKHSKSPLIHNACFLTFQKELRFLGHYHPILLPLESHIKSEFLHLGLSGANVTLPFKERAFQVCDKIKGIALECGAVNTLVLENDELVGYNTDALGFYLSLKQKNYQNALILGAGGSAKALACELKKQGLQVSVLNRSSRGLDFFQRLGCDCFMEPPKSAFDLIINATSASLHNELPLNKEVLKGYFKEGKLAYDLASGFLTPFLSLAKELKTPFQDGKDMLIYQAALSFEKFSASQIPYSKAFEVMRSVF MKLKSFGVFGNPIKHSKSPLIHNACFLTFQKELRFLGHYHPILLPLESHIKSEFLHLGLSGANVTLPFKERAFQVCDKIKGIALECGAVNTLVLENDELVGYNTDALGFYLSLKQKNYQNALILGAGGSAKALACELKKQGLQVSVLNRSSRGLDFFQRLGCDCFMEPPKSAFDLIINATSASLHNELPLNKEVLKGYFKEGKLAYDLASGFLTPFLSLAKELKTPFQDGKDMLIYQAALSFEKFSASQIPYSKAFEVMRSVF 4frf-a1-m1-cB_4frf-a1-m1-cA Structural Studies and Protein Engineering of Inositol Phosphate Multikinase Q9LY23 Q9LY23 2.9 X-RAY DIFFRACTION 66 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 213 214 EIEVKFYESFSSNTEVPEHIHRYFPVYHGTMMVLENLLAEYTKPSVMDVKMGSRTWYPDASEEYIQKCLKKDTGTTTVSSGFRISGFEVYDHKESSFWKPERKLLRGLDVDGARLTLRKFVSSNSPDSAFASSVYGGSHGILTQLLELKTWFENQTLYHFNSCSILMVYENESDARPQVKLVDFAHVLDGNGVIDHNFLGGLCSFINFIREIL EIEVKFYESFSSNTEVPEHIHRYFPVYHGTMMVLENLLAEYTKPSVMDVKMGSRTWYPDASEEYIQKCLKKDTGTTTVSSGFRISGFEVYDHKESSFWKPERKLLRGLDVDGARLTLRKFVSSNSLPDSAFASSVYGGSHGILTQLLELKTWFENQTLYHFNSCSILMVYENESDARPQVKLVDFAHVLDGNGVIDHNFLGGLCSFINFIREIL 4frw-a2-m1-cC_4frw-a2-m1-cB Crystal structure of human nectin-4 extracellular fragment D1-D2 Q96NY8 Q96NY8 3.5 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 213 4frw-a1-m1-cA_4frw-a1-m2-cA 4frw-a3-m1-cD_4frw-a3-m3-cD GELETSDVVTVVLGQDAKLPCFYRGDSGEQVGQVAWARVDAGEGAQELALLHSKYGLHVSPAYEGRVEQPPPPRNPLDGSVLLRNAVQADEGEYECRVSTFPAGSFQARLRLRVLVPPLPSLNPGPALEEGQGLTLAASCTAEGSPAPSVTWDTEVKGTTSSRSFKHSRSAAVTSEFHLVPSRSMNGQPLTCVVSHPGLLQDQRITHILHV GELETSDVVTVVLGQDAKLPCFYRGDSGEQVGQVAWARVDAGEGAQELALLHSKYGLHVSPAYEGRVEQPPPPRNPLDGSVLLRNAVQADEGEYECRVSTFPAGSFQARLRLRVLVPPLPSLNPGPALEEGQGLTLAASCTAEGSPAPSVTWDTEVKGTTSSRSFKHSRSAAVTSEFHLVPSRSMNGQPLTCVVSHPGLLQDQRITHILHVSH 4fry-a1-m1-cA_4fry-a1-m1-cB The structure of a putative signal-transduction protein with CBS domains from Burkholderia ambifaria MC40-6 B1YXI0 B1YXI0 2.1 X-RAY DIFFRACTION 83 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 136 138 TTVAQILKAKPDSGRTIYTVTKNDFVYDAIKLMAEKGIGALLVVDGDDIAGIVTERDYARKVVLQERSSKATRVEEIMTAKVRYVEPSQSTDECMALMTEHRMRHLPVLDGGKLIGLISIGDLVKSVIADQQFTIS STTVAQILKAKPDSGRTIYTVTKNDFVYDAIKLMAEKGIGALLVVDGDDIAGIVTERDYARKVVLQERSSKATRVEEIMTAKVRYVEPSQSTDECMALMTEHRMRHLPVLDGGKLIGLISIGDLVKSVIADQQFTISQ 4fsc-a2-m1-cB_4fsc-a2-m1-cC Crystal Structure of Bacillus thuringiensis PlcR in its apo form Q45782 Q45782 3.65 X-RAY DIFFRACTION 50 1.0 527021 (Bacillus thuringiensis Bt407) 527021 (Bacillus thuringiensis Bt407) 264 266 2qfc-a1-m1-cA_2qfc-a1-m1-cB 4fsc-a1-m1-cA_4fsc-a1-m1-cD AEKLGSEIKKIRVTQKQLSSEVSRIESGAVYPSMDILQGIAAPIIHFYEVLIYSDIERKKQFKDQVIMLCKQKRYKEIYNKVWNELKKEEYHPEFQQFLQWQYYVAAYVLKKVDYEYCILELKKLLNQQLTGIDVYQNLYIENAIANIYAENGYLKKGIDLFEQILKQLEALHDNEEFDVKVRYNHAKALYLDSRYEESLYQVNKAIEISCRINSMALIGQLYYQRGECLRKEAEIEDAYKKASFFFDILEMHAYKEALVNKIS AEKLGSEIKKIRVTQKQLSSEVSRIESGAVYPSMDILQGIAAPIIHFYEVLIYSDIERKKQFKDQVIMLCKQKRYKEIYNKVWNELKKEEYHPEFQQFLQWQYYVAAYVLKKVDYEYCILELKKLLNQQLTGIDVYQNLYIENAIANIYAENGYLKKGIDLFEQILKQLEALHDNEEFDVKVRYNHAKALYLDSRYEESLYQVNKAIEISCRINSMALIGQLYYQRGECLRKEAEIEDAYKKASFFFDILEMHAYKEALVNKISRL 4fsj-a1-m55-cC_4fsj-a1-m9-cC Crystal structure of the virus like particle of Flock House virus P12870 P12870 3.5 X-RAY DIFFRACTION 44 1.0 12287 (Flock House virus) 12287 (Flock House virus) 309 309 3lob-a1-m10-cC_3lob-a1-m24-cC 3lob-a1-m11-cC_3lob-a1-m16-cC 3lob-a1-m12-cC_3lob-a1-m38-cC 3lob-a1-m13-cC_3lob-a1-m47-cC 3lob-a1-m14-cC_3lob-a1-m45-cC 3lob-a1-m15-cC_3lob-a1-m29-cC 3lob-a1-m17-cC_3lob-a1-m28-cC 3lob-a1-m18-cC_3lob-a1-m52-cC 3lob-a1-m19-cC_3lob-a1-m60-cC 3lob-a1-m1-cC_3lob-a1-m6-cC 3lob-a1-m20-cC_3lob-a1-m39-cC 3lob-a1-m21-cC_3lob-a1-m26-cC 3lob-a1-m22-cC_3lob-a1-m43-cC 3lob-a1-m25-cC_3lob-a1-m54-cC 3lob-a1-m27-cC_3lob-a1-m53-cC 3lob-a1-m2-cC_3lob-a1-m23-cC 3lob-a1-m30-cC_3lob-a1-m44-cC 3lob-a1-m31-cC_3lob-a1-m36-cC 3lob-a1-m32-cC_3lob-a1-m58-cC 3lob-a1-m33-cC_3lob-a1-m7-cC 3lob-a1-m34-cC_3lob-a1-m5-cC 3lob-a1-m35-cC_3lob-a1-m49-cC 3lob-a1-m37-cC_3lob-a1-m48-cC 3lob-a1-m3-cC_3lob-a1-m42-cC 3lob-a1-m40-cC_3lob-a1-m59-cC 3lob-a1-m41-cC_3lob-a1-m46-cC 3lob-a1-m4-cC_3lob-a1-m50-cC 3lob-a1-m51-cC_3lob-a1-m56-cC 3lob-a1-m55-cC_3lob-a1-m9-cC 3lob-a1-m57-cC_3lob-a1-m8-cC 4fsj-a1-m10-cC_4fsj-a1-m24-cC 4fsj-a1-m11-cC_4fsj-a1-m16-cC 4fsj-a1-m12-cC_4fsj-a1-m38-cC 4fsj-a1-m13-cC_4fsj-a1-m47-cC 4fsj-a1-m14-cC_4fsj-a1-m45-cC 4fsj-a1-m15-cC_4fsj-a1-m29-cC 4fsj-a1-m17-cC_4fsj-a1-m28-cC 4fsj-a1-m18-cC_4fsj-a1-m52-cC 4fsj-a1-m19-cC_4fsj-a1-m60-cC 4fsj-a1-m1-cC_4fsj-a1-m6-cC 4fsj-a1-m20-cC_4fsj-a1-m39-cC 4fsj-a1-m21-cC_4fsj-a1-m26-cC 4fsj-a1-m22-cC_4fsj-a1-m43-cC 4fsj-a1-m25-cC_4fsj-a1-m54-cC 4fsj-a1-m27-cC_4fsj-a1-m53-cC 4fsj-a1-m2-cC_4fsj-a1-m23-cC 4fsj-a1-m30-cC_4fsj-a1-m44-cC 4fsj-a1-m31-cC_4fsj-a1-m36-cC 4fsj-a1-m32-cC_4fsj-a1-m58-cC 4fsj-a1-m33-cC_4fsj-a1-m7-cC 4fsj-a1-m34-cC_4fsj-a1-m5-cC 4fsj-a1-m35-cC_4fsj-a1-m49-cC 4fsj-a1-m37-cC_4fsj-a1-m48-cC 4fsj-a1-m3-cC_4fsj-a1-m42-cC 4fsj-a1-m40-cC_4fsj-a1-m59-cC 4fsj-a1-m41-cC_4fsj-a1-m46-cC 4fsj-a1-m4-cC_4fsj-a1-m50-cC 4fsj-a1-m51-cC_4fsj-a1-m56-cC 4fsj-a1-m57-cC_4fsj-a1-m8-cC 4ftb-a1-m10-cC_4ftb-a1-m24-cC 4ftb-a1-m11-cC_4ftb-a1-m16-cC 4ftb-a1-m12-cC_4ftb-a1-m38-cC 4ftb-a1-m13-cC_4ftb-a1-m47-cC 4ftb-a1-m14-cC_4ftb-a1-m45-cC 4ftb-a1-m15-cC_4ftb-a1-m29-cC 4ftb-a1-m17-cC_4ftb-a1-m28-cC 4ftb-a1-m18-cC_4ftb-a1-m52-cC 4ftb-a1-m19-cC_4ftb-a1-m60-cC 4ftb-a1-m1-cC_4ftb-a1-m6-cC 4ftb-a1-m20-cC_4ftb-a1-m39-cC 4ftb-a1-m21-cC_4ftb-a1-m26-cC 4ftb-a1-m22-cC_4ftb-a1-m43-cC 4ftb-a1-m25-cC_4ftb-a1-m54-cC 4ftb-a1-m27-cC_4ftb-a1-m53-cC 4ftb-a1-m2-cC_4ftb-a1-m23-cC 4ftb-a1-m30-cC_4ftb-a1-m44-cC 4ftb-a1-m31-cC_4ftb-a1-m36-cC 4ftb-a1-m32-cC_4ftb-a1-m58-cC 4ftb-a1-m33-cC_4ftb-a1-m7-cC 4ftb-a1-m34-cC_4ftb-a1-m5-cC 4ftb-a1-m35-cC_4ftb-a1-m49-cC 4ftb-a1-m37-cC_4ftb-a1-m48-cC 4ftb-a1-m3-cC_4ftb-a1-m42-cC 4ftb-a1-m40-cC_4ftb-a1-m59-cC 4ftb-a1-m41-cC_4ftb-a1-m46-cC 4ftb-a1-m4-cC_4ftb-a1-m50-cC 4ftb-a1-m51-cC_4ftb-a1-m56-cC 4ftb-a1-m55-cC_4ftb-a1-m9-cC 4ftb-a1-m57-cC_4ftb-a1-m8-cC 4fte-a1-m10-cC_4fte-a1-m24-cC 4fte-a1-m11-cC_4fte-a1-m16-cC 4fte-a1-m12-cC_4fte-a1-m38-cC 4fte-a1-m13-cC_4fte-a1-m47-cC 4fte-a1-m14-cC_4fte-a1-m45-cC 4fte-a1-m15-cC_4fte-a1-m29-cC 4fte-a1-m17-cC_4fte-a1-m28-cC 4fte-a1-m18-cC_4fte-a1-m52-cC 4fte-a1-m19-cC_4fte-a1-m60-cC 4fte-a1-m1-cC_4fte-a1-m6-cC 4fte-a1-m20-cC_4fte-a1-m39-cC 4fte-a1-m21-cC_4fte-a1-m26-cC 4fte-a1-m22-cC_4fte-a1-m43-cC 4fte-a1-m25-cC_4fte-a1-m54-cC 4fte-a1-m27-cC_4fte-a1-m53-cC 4fte-a1-m2-cC_4fte-a1-m23-cC 4fte-a1-m30-cC_4fte-a1-m44-cC 4fte-a1-m31-cC_4fte-a1-m36-cC 4fte-a1-m32-cC_4fte-a1-m58-cC 4fte-a1-m33-cC_4fte-a1-m7-cC 4fte-a1-m34-cC_4fte-a1-m5-cC 4fte-a1-m35-cC_4fte-a1-m49-cC 4fte-a1-m37-cC_4fte-a1-m48-cC 4fte-a1-m3-cC_4fte-a1-m42-cC 4fte-a1-m40-cC_4fte-a1-m59-cC 4fte-a1-m41-cC_4fte-a1-m46-cC 4fte-a1-m4-cC_4fte-a1-m50-cC 4fte-a1-m51-cC_4fte-a1-m56-cC 4fte-a1-m55-cC_4fte-a1-m9-cC 4fte-a1-m57-cC_4fte-a1-m8-cC 4fts-a1-m10-cC_4fts-a1-m24-cC 4fts-a1-m11-cC_4fts-a1-m16-cC 4fts-a1-m12-cC_4fts-a1-m38-cC 4fts-a1-m13-cC_4fts-a1-m47-cC 4fts-a1-m14-cC_4fts-a1-m45-cC 4fts-a1-m15-cC_4fts-a1-m29-cC 4fts-a1-m17-cC_4fts-a1-m28-cC 4fts-a1-m18-cC_4fts-a1-m52-cC 4fts-a1-m19-cC_4fts-a1-m60-cC 4fts-a1-m1-cC_4fts-a1-m6-cC 4fts-a1-m20-cC_4fts-a1-m39-cC 4fts-a1-m21-cC_4fts-a1-m26-cC 4fts-a1-m22-cC_4fts-a1-m43-cC 4fts-a1-m25-cC_4fts-a1-m54-cC 4fts-a1-m27-cC_4fts-a1-m53-cC 4fts-a1-m2-cC_4fts-a1-m23-cC 4fts-a1-m30-cC_4fts-a1-m44-cC 4fts-a1-m31-cC_4fts-a1-m36-cC 4fts-a1-m32-cC_4fts-a1-m58-cC 4fts-a1-m33-cC_4fts-a1-m7-cC 4fts-a1-m34-cC_4fts-a1-m5-cC 4fts-a1-m35-cC_4fts-a1-m49-cC 4fts-a1-m37-cC_4fts-a1-m48-cC 4fts-a1-m3-cC_4fts-a1-m42-cC 4fts-a1-m40-cC_4fts-a1-m59-cC 4fts-a1-m41-cC_4fts-a1-m46-cC 4fts-a1-m4-cC_4fts-a1-m50-cC 4fts-a1-m51-cC_4fts-a1-m56-cC 4fts-a1-m55-cC_4fts-a1-m9-cC 4fts-a1-m57-cC_4fts-a1-m8-cC 6itb-a1-m10-cC_6itb-a1-m24-cC 6itb-a1-m11-cC_6itb-a1-m16-cC 6itb-a1-m12-cC_6itb-a1-m38-cC 6itb-a1-m13-cC_6itb-a1-m47-cC 6itb-a1-m14-cC_6itb-a1-m45-cC 6itb-a1-m15-cC_6itb-a1-m29-cC 6itb-a1-m17-cC_6itb-a1-m28-cC 6itb-a1-m18-cC_6itb-a1-m52-cC 6itb-a1-m19-cC_6itb-a1-m60-cC 6itb-a1-m1-cC_6itb-a1-m6-cC 6itb-a1-m20-cC_6itb-a1-m39-cC 6itb-a1-m21-cC_6itb-a1-m26-cC 6itb-a1-m22-cC_6itb-a1-m43-cC 6itb-a1-m25-cC_6itb-a1-m54-cC 6itb-a1-m27-cC_6itb-a1-m53-cC 6itb-a1-m2-cC_6itb-a1-m23-cC 6itb-a1-m30-cC_6itb-a1-m44-cC 6itb-a1-m31-cC_6itb-a1-m36-cC 6itb-a1-m32-cC_6itb-a1-m58-cC 6itb-a1-m33-cC_6itb-a1-m7-cC 6itb-a1-m34-cC_6itb-a1-m5-cC 6itb-a1-m35-cC_6itb-a1-m49-cC 6itb-a1-m37-cC_6itb-a1-m48-cC 6itb-a1-m3-cC_6itb-a1-m42-cC 6itb-a1-m40-cC_6itb-a1-m59-cC 6itb-a1-m41-cC_6itb-a1-m46-cC 6itb-a1-m4-cC_6itb-a1-m50-cC 6itb-a1-m51-cC_6itb-a1-m56-cC 6itb-a1-m55-cC_6itb-a1-m9-cC 6itb-a1-m57-cC_6itb-a1-m8-cC ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN 4fsj-a1-m8-cB_4fsj-a1-m9-cC Crystal structure of the virus like particle of Flock House virus P12870 P12870 3.5 X-RAY DIFFRACTION 66 1.0 12287 (Flock House virus) 12287 (Flock House virus) 309 309 3lob-a1-m10-cA_3lob-a1-m6-cA 3lob-a1-m10-cA_3lob-a1-m9-cA 3lob-a1-m10-cB_3lob-a1-m6-cC 3lob-a1-m11-cA_3lob-a1-m12-cA 3lob-a1-m11-cA_3lob-a1-m15-cA 3lob-a1-m11-cB_3lob-a1-m12-cC 3lob-a1-m12-cA_3lob-a1-m13-cA 3lob-a1-m12-cB_3lob-a1-m13-cC 3lob-a1-m13-cA_3lob-a1-m14-cA 3lob-a1-m13-cB_3lob-a1-m14-cC 3lob-a1-m14-cA_3lob-a1-m15-cA 3lob-a1-m14-cB_3lob-a1-m15-cC 3lob-a1-m15-cB_3lob-a1-m11-cC 3lob-a1-m16-cA_3lob-a1-m17-cA 3lob-a1-m16-cA_3lob-a1-m20-cA 3lob-a1-m16-cB_3lob-a1-m17-cC 3lob-a1-m17-cA_3lob-a1-m18-cA 3lob-a1-m17-cB_3lob-a1-m18-cC 3lob-a1-m18-cA_3lob-a1-m19-cA 3lob-a1-m18-cB_3lob-a1-m19-cC 3lob-a1-m19-cA_3lob-a1-m20-cA 3lob-a1-m19-cB_3lob-a1-m20-cC 3lob-a1-m1-cA_3lob-a1-m2-cA 3lob-a1-m1-cA_3lob-a1-m5-cA 3lob-a1-m1-cB_3lob-a1-m2-cC 3lob-a1-m20-cB_3lob-a1-m16-cC 3lob-a1-m21-cA_3lob-a1-m22-cA 3lob-a1-m21-cA_3lob-a1-m25-cA 3lob-a1-m21-cB_3lob-a1-m22-cC 3lob-a1-m22-cA_3lob-a1-m23-cA 3lob-a1-m22-cB_3lob-a1-m23-cC 3lob-a1-m23-cA_3lob-a1-m24-cA 3lob-a1-m23-cB_3lob-a1-m24-cC 3lob-a1-m24-cA_3lob-a1-m25-cA 3lob-a1-m24-cB_3lob-a1-m25-cC 3lob-a1-m25-cB_3lob-a1-m21-cC 3lob-a1-m26-cA_3lob-a1-m27-cA 3lob-a1-m26-cA_3lob-a1-m30-cA 3lob-a1-m26-cB_3lob-a1-m27-cC 3lob-a1-m27-cA_3lob-a1-m28-cA 3lob-a1-m27-cB_3lob-a1-m28-cC 3lob-a1-m28-cA_3lob-a1-m29-cA 3lob-a1-m28-cB_3lob-a1-m29-cC 3lob-a1-m29-cA_3lob-a1-m30-cA 3lob-a1-m29-cB_3lob-a1-m30-cC 3lob-a1-m2-cA_3lob-a1-m3-cA 3lob-a1-m2-cB_3lob-a1-m3-cC 3lob-a1-m30-cB_3lob-a1-m26-cC 3lob-a1-m31-cA_3lob-a1-m32-cA 3lob-a1-m31-cA_3lob-a1-m35-cA 3lob-a1-m31-cB_3lob-a1-m32-cC 3lob-a1-m32-cA_3lob-a1-m33-cA 3lob-a1-m32-cB_3lob-a1-m33-cC 3lob-a1-m33-cA_3lob-a1-m34-cA 3lob-a1-m33-cB_3lob-a1-m34-cC 3lob-a1-m34-cA_3lob-a1-m35-cA 3lob-a1-m34-cB_3lob-a1-m35-cC 3lob-a1-m35-cB_3lob-a1-m31-cC 3lob-a1-m36-cA_3lob-a1-m37-cA 3lob-a1-m36-cA_3lob-a1-m40-cA 3lob-a1-m36-cB_3lob-a1-m37-cC 3lob-a1-m37-cA_3lob-a1-m38-cA 3lob-a1-m37-cB_3lob-a1-m38-cC 3lob-a1-m38-cA_3lob-a1-m39-cA 3lob-a1-m38-cB_3lob-a1-m39-cC 3lob-a1-m39-cA_3lob-a1-m40-cA 3lob-a1-m39-cB_3lob-a1-m40-cC 3lob-a1-m3-cA_3lob-a1-m4-cA 3lob-a1-m3-cB_3lob-a1-m4-cC 3lob-a1-m40-cB_3lob-a1-m36-cC 3lob-a1-m41-cA_3lob-a1-m42-cA 3lob-a1-m41-cA_3lob-a1-m45-cA 3lob-a1-m41-cB_3lob-a1-m42-cC 3lob-a1-m42-cA_3lob-a1-m43-cA 3lob-a1-m42-cB_3lob-a1-m43-cC 3lob-a1-m43-cA_3lob-a1-m44-cA 3lob-a1-m43-cB_3lob-a1-m44-cC 3lob-a1-m44-cA_3lob-a1-m45-cA 3lob-a1-m44-cB_3lob-a1-m45-cC 3lob-a1-m45-cB_3lob-a1-m41-cC 3lob-a1-m46-cA_3lob-a1-m47-cA 3lob-a1-m46-cA_3lob-a1-m50-cA 3lob-a1-m46-cB_3lob-a1-m47-cC 3lob-a1-m47-cA_3lob-a1-m48-cA 3lob-a1-m47-cB_3lob-a1-m48-cC 3lob-a1-m48-cA_3lob-a1-m49-cA 3lob-a1-m48-cB_3lob-a1-m49-cC 3lob-a1-m49-cA_3lob-a1-m50-cA 3lob-a1-m49-cB_3lob-a1-m50-cC 3lob-a1-m4-cA_3lob-a1-m5-cA 3lob-a1-m4-cB_3lob-a1-m5-cC 3lob-a1-m50-cB_3lob-a1-m46-cC 3lob-a1-m51-cA_3lob-a1-m52-cA 3lob-a1-m51-cA_3lob-a1-m55-cA 3lob-a1-m51-cB_3lob-a1-m52-cC 3lob-a1-m52-cA_3lob-a1-m53-cA 3lob-a1-m52-cB_3lob-a1-m53-cC 3lob-a1-m53-cA_3lob-a1-m54-cA 3lob-a1-m53-cB_3lob-a1-m54-cC 3lob-a1-m54-cA_3lob-a1-m55-cA 3lob-a1-m54-cB_3lob-a1-m55-cC 3lob-a1-m55-cB_3lob-a1-m51-cC 3lob-a1-m56-cA_3lob-a1-m57-cA 3lob-a1-m56-cA_3lob-a1-m60-cA 3lob-a1-m56-cB_3lob-a1-m57-cC 3lob-a1-m57-cA_3lob-a1-m58-cA 3lob-a1-m57-cB_3lob-a1-m58-cC 3lob-a1-m58-cA_3lob-a1-m59-cA 3lob-a1-m58-cB_3lob-a1-m59-cC 3lob-a1-m59-cA_3lob-a1-m60-cA 3lob-a1-m59-cB_3lob-a1-m60-cC 3lob-a1-m5-cB_3lob-a1-m1-cC 3lob-a1-m60-cB_3lob-a1-m56-cC 3lob-a1-m6-cA_3lob-a1-m7-cA 3lob-a1-m6-cB_3lob-a1-m7-cC 3lob-a1-m7-cA_3lob-a1-m8-cA 3lob-a1-m7-cB_3lob-a1-m8-cC 3lob-a1-m8-cA_3lob-a1-m9-cA 3lob-a1-m8-cB_3lob-a1-m9-cC 3lob-a1-m9-cB_3lob-a1-m10-cC 4fsj-a1-m10-cA_4fsj-a1-m6-cA 4fsj-a1-m10-cA_4fsj-a1-m9-cA 4fsj-a1-m10-cB_4fsj-a1-m6-cC 4fsj-a1-m10-cC_4fsj-a1-m9-cB 4fsj-a1-m11-cA_4fsj-a1-m12-cA 4fsj-a1-m11-cA_4fsj-a1-m15-cA 4fsj-a1-m11-cB_4fsj-a1-m12-cC 4fsj-a1-m11-cC_4fsj-a1-m15-cB 4fsj-a1-m12-cA_4fsj-a1-m13-cA 4fsj-a1-m12-cB_4fsj-a1-m13-cC 4fsj-a1-m13-cA_4fsj-a1-m14-cA 4fsj-a1-m13-cB_4fsj-a1-m14-cC 4fsj-a1-m14-cA_4fsj-a1-m15-cA 4fsj-a1-m14-cB_4fsj-a1-m15-cC 4fsj-a1-m16-cA_4fsj-a1-m17-cA 4fsj-a1-m16-cA_4fsj-a1-m20-cA 4fsj-a1-m16-cB_4fsj-a1-m17-cC 4fsj-a1-m16-cC_4fsj-a1-m20-cB 4fsj-a1-m17-cA_4fsj-a1-m18-cA 4fsj-a1-m17-cB_4fsj-a1-m18-cC 4fsj-a1-m18-cA_4fsj-a1-m19-cA 4fsj-a1-m18-cB_4fsj-a1-m19-cC 4fsj-a1-m19-cA_4fsj-a1-m20-cA 4fsj-a1-m19-cB_4fsj-a1-m20-cC 4fsj-a1-m1-cA_4fsj-a1-m2-cA 4fsj-a1-m1-cA_4fsj-a1-m5-cA 4fsj-a1-m1-cB_4fsj-a1-m2-cC 4fsj-a1-m1-cC_4fsj-a1-m5-cB 4fsj-a1-m21-cA_4fsj-a1-m22-cA 4fsj-a1-m21-cA_4fsj-a1-m25-cA 4fsj-a1-m21-cB_4fsj-a1-m22-cC 4fsj-a1-m21-cC_4fsj-a1-m25-cB 4fsj-a1-m22-cA_4fsj-a1-m23-cA 4fsj-a1-m22-cB_4fsj-a1-m23-cC 4fsj-a1-m23-cA_4fsj-a1-m24-cA 4fsj-a1-m23-cB_4fsj-a1-m24-cC 4fsj-a1-m24-cA_4fsj-a1-m25-cA 4fsj-a1-m24-cB_4fsj-a1-m25-cC 4fsj-a1-m26-cA_4fsj-a1-m27-cA 4fsj-a1-m26-cA_4fsj-a1-m30-cA 4fsj-a1-m26-cB_4fsj-a1-m27-cC 4fsj-a1-m26-cC_4fsj-a1-m30-cB 4fsj-a1-m27-cA_4fsj-a1-m28-cA 4fsj-a1-m27-cB_4fsj-a1-m28-cC 4fsj-a1-m28-cA_4fsj-a1-m29-cA 4fsj-a1-m28-cB_4fsj-a1-m29-cC 4fsj-a1-m29-cA_4fsj-a1-m30-cA 4fsj-a1-m29-cB_4fsj-a1-m30-cC 4fsj-a1-m2-cA_4fsj-a1-m3-cA 4fsj-a1-m2-cB_4fsj-a1-m3-cC 4fsj-a1-m31-cA_4fsj-a1-m32-cA 4fsj-a1-m31-cA_4fsj-a1-m35-cA 4fsj-a1-m31-cB_4fsj-a1-m32-cC 4fsj-a1-m31-cC_4fsj-a1-m35-cB 4fsj-a1-m32-cA_4fsj-a1-m33-cA 4fsj-a1-m32-cB_4fsj-a1-m33-cC 4fsj-a1-m33-cA_4fsj-a1-m34-cA 4fsj-a1-m33-cB_4fsj-a1-m34-cC 4fsj-a1-m34-cA_4fsj-a1-m35-cA 4fsj-a1-m34-cB_4fsj-a1-m35-cC 4fsj-a1-m36-cA_4fsj-a1-m37-cA 4fsj-a1-m36-cA_4fsj-a1-m40-cA 4fsj-a1-m36-cB_4fsj-a1-m37-cC 4fsj-a1-m36-cC_4fsj-a1-m40-cB 4fsj-a1-m37-cA_4fsj-a1-m38-cA 4fsj-a1-m37-cB_4fsj-a1-m38-cC 4fsj-a1-m38-cA_4fsj-a1-m39-cA 4fsj-a1-m38-cB_4fsj-a1-m39-cC 4fsj-a1-m39-cA_4fsj-a1-m40-cA 4fsj-a1-m39-cB_4fsj-a1-m40-cC 4fsj-a1-m3-cA_4fsj-a1-m4-cA 4fsj-a1-m3-cB_4fsj-a1-m4-cC 4fsj-a1-m41-cA_4fsj-a1-m42-cA 4fsj-a1-m41-cA_4fsj-a1-m45-cA 4fsj-a1-m41-cB_4fsj-a1-m42-cC 4fsj-a1-m41-cC_4fsj-a1-m45-cB 4fsj-a1-m42-cA_4fsj-a1-m43-cA 4fsj-a1-m42-cB_4fsj-a1-m43-cC 4fsj-a1-m43-cA_4fsj-a1-m44-cA 4fsj-a1-m43-cB_4fsj-a1-m44-cC 4fsj-a1-m44-cA_4fsj-a1-m45-cA 4fsj-a1-m44-cB_4fsj-a1-m45-cC 4fsj-a1-m46-cA_4fsj-a1-m47-cA 4fsj-a1-m46-cA_4fsj-a1-m50-cA 4fsj-a1-m46-cB_4fsj-a1-m47-cC 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4fts-a1-m49-cA_4fts-a1-m50-cA 4fts-a1-m49-cB_4fts-a1-m50-cC 4fts-a1-m4-cA_4fts-a1-m5-cA 4fts-a1-m4-cB_4fts-a1-m5-cC 4fts-a1-m51-cA_4fts-a1-m52-cA 4fts-a1-m51-cA_4fts-a1-m55-cA 4fts-a1-m51-cB_4fts-a1-m52-cC 4fts-a1-m51-cC_4fts-a1-m55-cB 4fts-a1-m52-cA_4fts-a1-m53-cA 4fts-a1-m52-cB_4fts-a1-m53-cC 4fts-a1-m53-cA_4fts-a1-m54-cA 4fts-a1-m53-cB_4fts-a1-m54-cC 4fts-a1-m54-cA_4fts-a1-m55-cA 4fts-a1-m54-cB_4fts-a1-m55-cC 4fts-a1-m56-cA_4fts-a1-m57-cA 4fts-a1-m56-cA_4fts-a1-m60-cA 4fts-a1-m56-cB_4fts-a1-m57-cC 4fts-a1-m56-cC_4fts-a1-m60-cB 4fts-a1-m57-cA_4fts-a1-m58-cA 4fts-a1-m57-cB_4fts-a1-m58-cC 4fts-a1-m58-cA_4fts-a1-m59-cA 4fts-a1-m58-cB_4fts-a1-m59-cC 4fts-a1-m59-cA_4fts-a1-m60-cA 4fts-a1-m59-cB_4fts-a1-m60-cC 4fts-a1-m6-cA_4fts-a1-m7-cA 4fts-a1-m6-cB_4fts-a1-m7-cC 4fts-a1-m7-cA_4fts-a1-m8-cA 4fts-a1-m7-cB_4fts-a1-m8-cC 4fts-a1-m8-cA_4fts-a1-m9-cA 4fts-a1-m8-cB_4fts-a1-m9-cC 6itb-a1-m10-cA_6itb-a1-m6-cA 6itb-a1-m10-cA_6itb-a1-m9-cA 6itb-a1-m10-cB_6itb-a1-m6-cC 6itb-a1-m11-cA_6itb-a1-m12-cA 6itb-a1-m11-cA_6itb-a1-m15-cA 6itb-a1-m11-cB_6itb-a1-m12-cC 6itb-a1-m12-cA_6itb-a1-m13-cA 6itb-a1-m12-cB_6itb-a1-m13-cC 6itb-a1-m13-cA_6itb-a1-m14-cA 6itb-a1-m13-cB_6itb-a1-m14-cC 6itb-a1-m14-cA_6itb-a1-m15-cA 6itb-a1-m14-cB_6itb-a1-m15-cC 6itb-a1-m15-cB_6itb-a1-m11-cC 6itb-a1-m16-cA_6itb-a1-m17-cA 6itb-a1-m16-cA_6itb-a1-m20-cA 6itb-a1-m16-cB_6itb-a1-m17-cC 6itb-a1-m17-cA_6itb-a1-m18-cA 6itb-a1-m17-cB_6itb-a1-m18-cC 6itb-a1-m18-cA_6itb-a1-m19-cA 6itb-a1-m18-cB_6itb-a1-m19-cC 6itb-a1-m19-cA_6itb-a1-m20-cA 6itb-a1-m19-cB_6itb-a1-m20-cC 6itb-a1-m1-cA_6itb-a1-m2-cA 6itb-a1-m1-cA_6itb-a1-m5-cA 6itb-a1-m1-cB_6itb-a1-m2-cC 6itb-a1-m20-cB_6itb-a1-m16-cC 6itb-a1-m21-cA_6itb-a1-m22-cA 6itb-a1-m21-cA_6itb-a1-m25-cA 6itb-a1-m21-cB_6itb-a1-m22-cC 6itb-a1-m22-cA_6itb-a1-m23-cA 6itb-a1-m22-cB_6itb-a1-m23-cC 6itb-a1-m23-cA_6itb-a1-m24-cA 6itb-a1-m23-cB_6itb-a1-m24-cC 6itb-a1-m24-cA_6itb-a1-m25-cA 6itb-a1-m24-cB_6itb-a1-m25-cC 6itb-a1-m25-cB_6itb-a1-m21-cC 6itb-a1-m26-cA_6itb-a1-m27-cA 6itb-a1-m26-cA_6itb-a1-m30-cA 6itb-a1-m26-cB_6itb-a1-m27-cC 6itb-a1-m27-cA_6itb-a1-m28-cA 6itb-a1-m27-cB_6itb-a1-m28-cC 6itb-a1-m28-cA_6itb-a1-m29-cA 6itb-a1-m28-cB_6itb-a1-m29-cC 6itb-a1-m29-cA_6itb-a1-m30-cA 6itb-a1-m29-cB_6itb-a1-m30-cC 6itb-a1-m2-cA_6itb-a1-m3-cA 6itb-a1-m2-cB_6itb-a1-m3-cC 6itb-a1-m30-cB_6itb-a1-m26-cC 6itb-a1-m31-cA_6itb-a1-m32-cA 6itb-a1-m31-cA_6itb-a1-m35-cA 6itb-a1-m31-cB_6itb-a1-m32-cC 6itb-a1-m32-cA_6itb-a1-m33-cA 6itb-a1-m32-cB_6itb-a1-m33-cC 6itb-a1-m33-cA_6itb-a1-m34-cA 6itb-a1-m33-cB_6itb-a1-m34-cC 6itb-a1-m34-cA_6itb-a1-m35-cA 6itb-a1-m34-cB_6itb-a1-m35-cC 6itb-a1-m35-cB_6itb-a1-m31-cC 6itb-a1-m36-cA_6itb-a1-m37-cA 6itb-a1-m36-cA_6itb-a1-m40-cA 6itb-a1-m36-cB_6itb-a1-m37-cC 6itb-a1-m37-cA_6itb-a1-m38-cA 6itb-a1-m37-cB_6itb-a1-m38-cC 6itb-a1-m38-cA_6itb-a1-m39-cA 6itb-a1-m38-cB_6itb-a1-m39-cC 6itb-a1-m39-cA_6itb-a1-m40-cA 6itb-a1-m39-cB_6itb-a1-m40-cC 6itb-a1-m3-cA_6itb-a1-m4-cA 6itb-a1-m3-cB_6itb-a1-m4-cC 6itb-a1-m40-cB_6itb-a1-m36-cC 6itb-a1-m41-cA_6itb-a1-m42-cA 6itb-a1-m41-cA_6itb-a1-m45-cA 6itb-a1-m41-cB_6itb-a1-m42-cC 6itb-a1-m42-cA_6itb-a1-m43-cA 6itb-a1-m42-cB_6itb-a1-m43-cC 6itb-a1-m43-cA_6itb-a1-m44-cA 6itb-a1-m43-cB_6itb-a1-m44-cC 6itb-a1-m44-cA_6itb-a1-m45-cA 6itb-a1-m44-cB_6itb-a1-m45-cC 6itb-a1-m45-cB_6itb-a1-m41-cC 6itb-a1-m46-cA_6itb-a1-m47-cA 6itb-a1-m46-cA_6itb-a1-m50-cA 6itb-a1-m46-cB_6itb-a1-m47-cC 6itb-a1-m47-cA_6itb-a1-m48-cA 6itb-a1-m47-cB_6itb-a1-m48-cC 6itb-a1-m48-cA_6itb-a1-m49-cA 6itb-a1-m48-cB_6itb-a1-m49-cC 6itb-a1-m49-cA_6itb-a1-m50-cA 6itb-a1-m49-cB_6itb-a1-m50-cC 6itb-a1-m4-cA_6itb-a1-m5-cA 6itb-a1-m4-cB_6itb-a1-m5-cC 6itb-a1-m50-cB_6itb-a1-m46-cC 6itb-a1-m51-cA_6itb-a1-m52-cA 6itb-a1-m51-cA_6itb-a1-m55-cA 6itb-a1-m51-cB_6itb-a1-m52-cC 6itb-a1-m52-cA_6itb-a1-m53-cA 6itb-a1-m52-cB_6itb-a1-m53-cC 6itb-a1-m53-cA_6itb-a1-m54-cA 6itb-a1-m53-cB_6itb-a1-m54-cC 6itb-a1-m54-cA_6itb-a1-m55-cA 6itb-a1-m54-cB_6itb-a1-m55-cC 6itb-a1-m55-cB_6itb-a1-m51-cC 6itb-a1-m56-cA_6itb-a1-m57-cA 6itb-a1-m56-cA_6itb-a1-m60-cA 6itb-a1-m56-cB_6itb-a1-m57-cC 6itb-a1-m57-cA_6itb-a1-m58-cA 6itb-a1-m57-cB_6itb-a1-m58-cC 6itb-a1-m58-cA_6itb-a1-m59-cA 6itb-a1-m58-cB_6itb-a1-m59-cC 6itb-a1-m59-cA_6itb-a1-m60-cA 6itb-a1-m59-cB_6itb-a1-m60-cC 6itb-a1-m5-cB_6itb-a1-m1-cC 6itb-a1-m60-cB_6itb-a1-m56-cC 6itb-a1-m6-cA_6itb-a1-m7-cA 6itb-a1-m6-cB_6itb-a1-m7-cC 6itb-a1-m7-cA_6itb-a1-m8-cA 6itb-a1-m7-cB_6itb-a1-m8-cC 6itb-a1-m8-cA_6itb-a1-m9-cA 6itb-a1-m8-cB_6itb-a1-m9-cC 6itb-a1-m9-cB_6itb-a1-m10-cC ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN 4fsj-a1-m9-cB_4fsj-a1-m10-cA Crystal structure of the virus like particle of Flock House virus P12870 P12870 3.5 X-RAY DIFFRACTION 56 0.994 12287 (Flock House virus) 12287 (Flock House virus) 309 315 3lob-a1-m10-cB_3lob-a1-m6-cA 3lob-a1-m11-cB_3lob-a1-m12-cA 3lob-a1-m12-cB_3lob-a1-m13-cA 3lob-a1-m13-cB_3lob-a1-m14-cA 3lob-a1-m14-cB_3lob-a1-m15-cA 3lob-a1-m15-cB_3lob-a1-m11-cA 3lob-a1-m16-cB_3lob-a1-m17-cA 3lob-a1-m17-cB_3lob-a1-m18-cA 3lob-a1-m18-cB_3lob-a1-m19-cA 3lob-a1-m19-cB_3lob-a1-m20-cA 3lob-a1-m1-cB_3lob-a1-m2-cA 3lob-a1-m20-cB_3lob-a1-m16-cA 3lob-a1-m21-cB_3lob-a1-m22-cA 3lob-a1-m22-cB_3lob-a1-m23-cA 3lob-a1-m23-cB_3lob-a1-m24-cA 3lob-a1-m24-cB_3lob-a1-m25-cA 3lob-a1-m25-cB_3lob-a1-m21-cA 3lob-a1-m26-cB_3lob-a1-m27-cA 3lob-a1-m27-cB_3lob-a1-m28-cA 3lob-a1-m28-cB_3lob-a1-m29-cA 3lob-a1-m29-cB_3lob-a1-m30-cA 3lob-a1-m2-cB_3lob-a1-m3-cA 3lob-a1-m30-cB_3lob-a1-m26-cA 3lob-a1-m31-cB_3lob-a1-m32-cA 3lob-a1-m32-cB_3lob-a1-m33-cA 3lob-a1-m33-cB_3lob-a1-m34-cA 3lob-a1-m34-cB_3lob-a1-m35-cA 3lob-a1-m35-cB_3lob-a1-m31-cA 3lob-a1-m36-cB_3lob-a1-m37-cA 3lob-a1-m37-cB_3lob-a1-m38-cA 3lob-a1-m38-cB_3lob-a1-m39-cA 3lob-a1-m39-cB_3lob-a1-m40-cA 3lob-a1-m3-cB_3lob-a1-m4-cA 3lob-a1-m40-cB_3lob-a1-m36-cA 3lob-a1-m41-cB_3lob-a1-m42-cA 3lob-a1-m42-cB_3lob-a1-m43-cA 3lob-a1-m43-cB_3lob-a1-m44-cA 3lob-a1-m44-cB_3lob-a1-m45-cA 3lob-a1-m45-cB_3lob-a1-m41-cA 3lob-a1-m46-cB_3lob-a1-m47-cA 3lob-a1-m47-cB_3lob-a1-m48-cA 3lob-a1-m48-cB_3lob-a1-m49-cA 3lob-a1-m49-cB_3lob-a1-m50-cA 3lob-a1-m4-cB_3lob-a1-m5-cA 3lob-a1-m50-cB_3lob-a1-m46-cA 3lob-a1-m51-cB_3lob-a1-m52-cA 3lob-a1-m52-cB_3lob-a1-m53-cA 3lob-a1-m53-cB_3lob-a1-m54-cA 3lob-a1-m54-cB_3lob-a1-m55-cA 3lob-a1-m55-cB_3lob-a1-m51-cA 3lob-a1-m56-cB_3lob-a1-m57-cA 3lob-a1-m57-cB_3lob-a1-m58-cA 3lob-a1-m58-cB_3lob-a1-m59-cA 3lob-a1-m59-cB_3lob-a1-m60-cA 3lob-a1-m5-cB_3lob-a1-m1-cA 3lob-a1-m60-cB_3lob-a1-m56-cA 3lob-a1-m6-cB_3lob-a1-m7-cA 3lob-a1-m7-cB_3lob-a1-m8-cA 3lob-a1-m8-cB_3lob-a1-m9-cA 3lob-a1-m9-cB_3lob-a1-m10-cA 4fsj-a1-m10-cB_4fsj-a1-m6-cA 4fsj-a1-m11-cB_4fsj-a1-m12-cA 4fsj-a1-m12-cB_4fsj-a1-m13-cA 4fsj-a1-m13-cB_4fsj-a1-m14-cA 4fsj-a1-m14-cB_4fsj-a1-m15-cA 4fsj-a1-m15-cB_4fsj-a1-m11-cA 4fsj-a1-m16-cB_4fsj-a1-m17-cA 4fsj-a1-m17-cB_4fsj-a1-m18-cA 4fsj-a1-m18-cB_4fsj-a1-m19-cA 4fsj-a1-m19-cB_4fsj-a1-m20-cA 4fsj-a1-m1-cB_4fsj-a1-m2-cA 4fsj-a1-m20-cB_4fsj-a1-m16-cA 4fsj-a1-m21-cB_4fsj-a1-m22-cA 4fsj-a1-m22-cB_4fsj-a1-m23-cA 4fsj-a1-m23-cB_4fsj-a1-m24-cA 4fsj-a1-m24-cB_4fsj-a1-m25-cA 4fsj-a1-m25-cB_4fsj-a1-m21-cA 4fsj-a1-m26-cB_4fsj-a1-m27-cA 4fsj-a1-m27-cB_4fsj-a1-m28-cA 4fsj-a1-m28-cB_4fsj-a1-m29-cA 4fsj-a1-m29-cB_4fsj-a1-m30-cA 4fsj-a1-m2-cB_4fsj-a1-m3-cA 4fsj-a1-m30-cB_4fsj-a1-m26-cA 4fsj-a1-m31-cB_4fsj-a1-m32-cA 4fsj-a1-m32-cB_4fsj-a1-m33-cA 4fsj-a1-m33-cB_4fsj-a1-m34-cA 4fsj-a1-m34-cB_4fsj-a1-m35-cA 4fsj-a1-m35-cB_4fsj-a1-m31-cA 4fsj-a1-m36-cB_4fsj-a1-m37-cA 4fsj-a1-m37-cB_4fsj-a1-m38-cA 4fsj-a1-m38-cB_4fsj-a1-m39-cA 4fsj-a1-m39-cB_4fsj-a1-m40-cA 4fsj-a1-m3-cB_4fsj-a1-m4-cA 4fsj-a1-m40-cB_4fsj-a1-m36-cA 4fsj-a1-m41-cB_4fsj-a1-m42-cA 4fsj-a1-m42-cB_4fsj-a1-m43-cA 4fsj-a1-m43-cB_4fsj-a1-m44-cA 4fsj-a1-m44-cB_4fsj-a1-m45-cA 4fsj-a1-m45-cB_4fsj-a1-m41-cA 4fsj-a1-m46-cB_4fsj-a1-m47-cA 4fsj-a1-m47-cB_4fsj-a1-m48-cA 4fsj-a1-m48-cB_4fsj-a1-m49-cA 4fsj-a1-m49-cB_4fsj-a1-m50-cA 4fsj-a1-m4-cB_4fsj-a1-m5-cA 4fsj-a1-m50-cB_4fsj-a1-m46-cA 4fsj-a1-m51-cB_4fsj-a1-m52-cA 4fsj-a1-m52-cB_4fsj-a1-m53-cA 4fsj-a1-m53-cB_4fsj-a1-m54-cA 4fsj-a1-m54-cB_4fsj-a1-m55-cA 4fsj-a1-m55-cB_4fsj-a1-m51-cA 4fsj-a1-m56-cB_4fsj-a1-m57-cA 4fsj-a1-m57-cB_4fsj-a1-m58-cA 4fsj-a1-m58-cB_4fsj-a1-m59-cA 4fsj-a1-m59-cB_4fsj-a1-m60-cA 4fsj-a1-m5-cB_4fsj-a1-m1-cA 4fsj-a1-m60-cB_4fsj-a1-m56-cA 4fsj-a1-m6-cB_4fsj-a1-m7-cA 4fsj-a1-m7-cB_4fsj-a1-m8-cA 4fsj-a1-m8-cB_4fsj-a1-m9-cA 4ftb-a1-m10-cB_4ftb-a1-m6-cA 4ftb-a1-m11-cB_4ftb-a1-m12-cA 4ftb-a1-m12-cB_4ftb-a1-m13-cA 4ftb-a1-m13-cB_4ftb-a1-m14-cA 4ftb-a1-m14-cB_4ftb-a1-m15-cA 4ftb-a1-m15-cB_4ftb-a1-m11-cA 4ftb-a1-m16-cB_4ftb-a1-m17-cA 4ftb-a1-m17-cB_4ftb-a1-m18-cA 4ftb-a1-m18-cB_4ftb-a1-m19-cA 4ftb-a1-m19-cB_4ftb-a1-m20-cA 4ftb-a1-m1-cB_4ftb-a1-m2-cA 4ftb-a1-m20-cB_4ftb-a1-m16-cA 4ftb-a1-m21-cB_4ftb-a1-m22-cA 4ftb-a1-m22-cB_4ftb-a1-m23-cA 4ftb-a1-m23-cB_4ftb-a1-m24-cA 4ftb-a1-m24-cB_4ftb-a1-m25-cA 4ftb-a1-m25-cB_4ftb-a1-m21-cA 4ftb-a1-m26-cB_4ftb-a1-m27-cA 4ftb-a1-m27-cB_4ftb-a1-m28-cA 4ftb-a1-m28-cB_4ftb-a1-m29-cA 4ftb-a1-m29-cB_4ftb-a1-m30-cA 4ftb-a1-m2-cB_4ftb-a1-m3-cA 4ftb-a1-m30-cB_4ftb-a1-m26-cA 4ftb-a1-m31-cB_4ftb-a1-m32-cA 4ftb-a1-m32-cB_4ftb-a1-m33-cA 4ftb-a1-m33-cB_4ftb-a1-m34-cA 4ftb-a1-m34-cB_4ftb-a1-m35-cA 4ftb-a1-m35-cB_4ftb-a1-m31-cA 4ftb-a1-m36-cB_4ftb-a1-m37-cA 4ftb-a1-m37-cB_4ftb-a1-m38-cA 4ftb-a1-m38-cB_4ftb-a1-m39-cA 4ftb-a1-m39-cB_4ftb-a1-m40-cA 4ftb-a1-m3-cB_4ftb-a1-m4-cA 4ftb-a1-m40-cB_4ftb-a1-m36-cA 4ftb-a1-m41-cB_4ftb-a1-m42-cA 4ftb-a1-m42-cB_4ftb-a1-m43-cA 4ftb-a1-m43-cB_4ftb-a1-m44-cA 4ftb-a1-m44-cB_4ftb-a1-m45-cA 4ftb-a1-m45-cB_4ftb-a1-m41-cA 4ftb-a1-m46-cB_4ftb-a1-m47-cA 4ftb-a1-m47-cB_4ftb-a1-m48-cA 4ftb-a1-m48-cB_4ftb-a1-m49-cA 4ftb-a1-m49-cB_4ftb-a1-m50-cA 4ftb-a1-m4-cB_4ftb-a1-m5-cA 4ftb-a1-m50-cB_4ftb-a1-m46-cA 4ftb-a1-m51-cB_4ftb-a1-m52-cA 4ftb-a1-m52-cB_4ftb-a1-m53-cA 4ftb-a1-m53-cB_4ftb-a1-m54-cA 4ftb-a1-m54-cB_4ftb-a1-m55-cA 4ftb-a1-m55-cB_4ftb-a1-m51-cA 4ftb-a1-m56-cB_4ftb-a1-m57-cA 4ftb-a1-m57-cB_4ftb-a1-m58-cA 4ftb-a1-m58-cB_4ftb-a1-m59-cA 4ftb-a1-m59-cB_4ftb-a1-m60-cA 4ftb-a1-m5-cB_4ftb-a1-m1-cA 4ftb-a1-m60-cB_4ftb-a1-m56-cA 4ftb-a1-m6-cB_4ftb-a1-m7-cA 4ftb-a1-m7-cB_4ftb-a1-m8-cA 4ftb-a1-m8-cB_4ftb-a1-m9-cA 4ftb-a1-m9-cB_4ftb-a1-m10-cA 4fte-a1-m10-cA_4fte-a1-m9-cB 4fte-a1-m11-cA_4fte-a1-m15-cB 4fte-a1-m12-cA_4fte-a1-m11-cB 4fte-a1-m13-cA_4fte-a1-m12-cB 4fte-a1-m14-cA_4fte-a1-m13-cB 4fte-a1-m15-cA_4fte-a1-m14-cB 4fte-a1-m16-cA_4fte-a1-m20-cB 4fte-a1-m17-cA_4fte-a1-m16-cB 4fte-a1-m18-cA_4fte-a1-m17-cB 4fte-a1-m19-cA_4fte-a1-m18-cB 4fte-a1-m1-cA_4fte-a1-m5-cB 4fte-a1-m20-cA_4fte-a1-m19-cB 4fte-a1-m21-cA_4fte-a1-m25-cB 4fte-a1-m22-cA_4fte-a1-m21-cB 4fte-a1-m23-cA_4fte-a1-m22-cB 4fte-a1-m24-cA_4fte-a1-m23-cB 4fte-a1-m25-cA_4fte-a1-m24-cB 4fte-a1-m26-cA_4fte-a1-m30-cB 4fte-a1-m27-cA_4fte-a1-m26-cB 4fte-a1-m28-cA_4fte-a1-m27-cB 4fte-a1-m29-cA_4fte-a1-m28-cB 4fte-a1-m2-cA_4fte-a1-m1-cB 4fte-a1-m30-cA_4fte-a1-m29-cB 4fte-a1-m31-cA_4fte-a1-m35-cB 4fte-a1-m32-cA_4fte-a1-m31-cB 4fte-a1-m33-cA_4fte-a1-m32-cB 4fte-a1-m34-cA_4fte-a1-m33-cB 4fte-a1-m35-cA_4fte-a1-m34-cB 4fte-a1-m36-cA_4fte-a1-m40-cB 4fte-a1-m37-cA_4fte-a1-m36-cB 4fte-a1-m38-cA_4fte-a1-m37-cB 4fte-a1-m39-cA_4fte-a1-m38-cB 4fte-a1-m3-cA_4fte-a1-m2-cB 4fte-a1-m40-cA_4fte-a1-m39-cB 4fte-a1-m41-cA_4fte-a1-m45-cB 4fte-a1-m42-cA_4fte-a1-m41-cB 4fte-a1-m43-cA_4fte-a1-m42-cB 4fte-a1-m44-cA_4fte-a1-m43-cB 4fte-a1-m45-cA_4fte-a1-m44-cB 4fte-a1-m46-cA_4fte-a1-m50-cB 4fte-a1-m47-cA_4fte-a1-m46-cB 4fte-a1-m48-cA_4fte-a1-m47-cB 4fte-a1-m49-cA_4fte-a1-m48-cB 4fte-a1-m4-cA_4fte-a1-m3-cB 4fte-a1-m50-cA_4fte-a1-m49-cB 4fte-a1-m51-cA_4fte-a1-m55-cB 4fte-a1-m52-cA_4fte-a1-m51-cB 4fte-a1-m53-cA_4fte-a1-m52-cB 4fte-a1-m54-cA_4fte-a1-m53-cB 4fte-a1-m55-cA_4fte-a1-m54-cB 4fte-a1-m56-cA_4fte-a1-m60-cB 4fte-a1-m57-cA_4fte-a1-m56-cB 4fte-a1-m58-cA_4fte-a1-m57-cB 4fte-a1-m59-cA_4fte-a1-m58-cB 4fte-a1-m5-cA_4fte-a1-m4-cB 4fte-a1-m60-cA_4fte-a1-m59-cB 4fte-a1-m6-cA_4fte-a1-m10-cB 4fte-a1-m7-cA_4fte-a1-m6-cB 4fte-a1-m8-cA_4fte-a1-m7-cB 4fte-a1-m9-cA_4fte-a1-m8-cB 4fts-a1-m10-cA_4fts-a1-m9-cB 4fts-a1-m11-cA_4fts-a1-m15-cB 4fts-a1-m12-cA_4fts-a1-m11-cB 4fts-a1-m13-cA_4fts-a1-m12-cB 4fts-a1-m14-cA_4fts-a1-m13-cB 4fts-a1-m15-cA_4fts-a1-m14-cB 4fts-a1-m16-cA_4fts-a1-m20-cB 4fts-a1-m17-cA_4fts-a1-m16-cB 4fts-a1-m18-cA_4fts-a1-m17-cB 4fts-a1-m19-cA_4fts-a1-m18-cB 4fts-a1-m1-cA_4fts-a1-m5-cB 4fts-a1-m20-cA_4fts-a1-m19-cB 4fts-a1-m21-cA_4fts-a1-m25-cB 4fts-a1-m22-cA_4fts-a1-m21-cB 4fts-a1-m23-cA_4fts-a1-m22-cB 4fts-a1-m24-cA_4fts-a1-m23-cB 4fts-a1-m25-cA_4fts-a1-m24-cB 4fts-a1-m26-cA_4fts-a1-m30-cB 4fts-a1-m27-cA_4fts-a1-m26-cB 4fts-a1-m28-cA_4fts-a1-m27-cB 4fts-a1-m29-cA_4fts-a1-m28-cB 4fts-a1-m2-cA_4fts-a1-m1-cB 4fts-a1-m30-cA_4fts-a1-m29-cB 4fts-a1-m31-cA_4fts-a1-m35-cB 4fts-a1-m32-cA_4fts-a1-m31-cB 4fts-a1-m33-cA_4fts-a1-m32-cB 4fts-a1-m34-cA_4fts-a1-m33-cB 4fts-a1-m35-cA_4fts-a1-m34-cB 4fts-a1-m36-cA_4fts-a1-m40-cB 4fts-a1-m37-cA_4fts-a1-m36-cB 4fts-a1-m38-cA_4fts-a1-m37-cB 4fts-a1-m39-cA_4fts-a1-m38-cB 4fts-a1-m3-cA_4fts-a1-m2-cB 4fts-a1-m40-cA_4fts-a1-m39-cB 4fts-a1-m41-cA_4fts-a1-m45-cB 4fts-a1-m42-cA_4fts-a1-m41-cB 4fts-a1-m43-cA_4fts-a1-m42-cB 4fts-a1-m44-cA_4fts-a1-m43-cB 4fts-a1-m45-cA_4fts-a1-m44-cB 4fts-a1-m46-cA_4fts-a1-m50-cB 4fts-a1-m47-cA_4fts-a1-m46-cB 4fts-a1-m48-cA_4fts-a1-m47-cB 4fts-a1-m49-cA_4fts-a1-m48-cB 4fts-a1-m4-cA_4fts-a1-m3-cB 4fts-a1-m50-cA_4fts-a1-m49-cB 4fts-a1-m51-cA_4fts-a1-m55-cB 4fts-a1-m52-cA_4fts-a1-m51-cB 4fts-a1-m53-cA_4fts-a1-m52-cB 4fts-a1-m54-cA_4fts-a1-m53-cB 4fts-a1-m55-cA_4fts-a1-m54-cB 4fts-a1-m56-cA_4fts-a1-m60-cB 4fts-a1-m57-cA_4fts-a1-m56-cB 4fts-a1-m58-cA_4fts-a1-m57-cB 4fts-a1-m59-cA_4fts-a1-m58-cB 4fts-a1-m5-cA_4fts-a1-m4-cB 4fts-a1-m60-cA_4fts-a1-m59-cB 4fts-a1-m6-cA_4fts-a1-m10-cB 4fts-a1-m7-cA_4fts-a1-m6-cB 4fts-a1-m8-cA_4fts-a1-m7-cB 4fts-a1-m9-cA_4fts-a1-m8-cB ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN QTAPVPQQTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN 4fsj-a1-m9-cB_4fsj-a1-m9-cC Crystal structure of the virus like particle of Flock House virus P12870 P12870 3.5 X-RAY DIFFRACTION 150 1.0 12287 (Flock House virus) 12287 (Flock House virus) 309 309 3lob-a1-m10-cB_3lob-a1-m10-cA 3lob-a1-m10-cB_3lob-a1-m10-cC 3lob-a1-m10-cC_3lob-a1-m10-cA 3lob-a1-m11-cB_3lob-a1-m11-cA 3lob-a1-m11-cB_3lob-a1-m11-cC 3lob-a1-m11-cC_3lob-a1-m11-cA 3lob-a1-m12-cB_3lob-a1-m12-cA 3lob-a1-m12-cB_3lob-a1-m12-cC 3lob-a1-m12-cC_3lob-a1-m12-cA 3lob-a1-m13-cB_3lob-a1-m13-cA 3lob-a1-m13-cB_3lob-a1-m13-cC 3lob-a1-m13-cC_3lob-a1-m13-cA 3lob-a1-m14-cB_3lob-a1-m14-cA 3lob-a1-m14-cB_3lob-a1-m14-cC 3lob-a1-m14-cC_3lob-a1-m14-cA 3lob-a1-m15-cB_3lob-a1-m15-cA 3lob-a1-m15-cB_3lob-a1-m15-cC 3lob-a1-m15-cC_3lob-a1-m15-cA 3lob-a1-m16-cB_3lob-a1-m16-cA 3lob-a1-m16-cB_3lob-a1-m16-cC 3lob-a1-m16-cC_3lob-a1-m16-cA 3lob-a1-m17-cB_3lob-a1-m17-cA 3lob-a1-m17-cB_3lob-a1-m17-cC 3lob-a1-m17-cC_3lob-a1-m17-cA 3lob-a1-m18-cB_3lob-a1-m18-cA 3lob-a1-m18-cB_3lob-a1-m18-cC 3lob-a1-m18-cC_3lob-a1-m18-cA 3lob-a1-m19-cB_3lob-a1-m19-cA 3lob-a1-m19-cB_3lob-a1-m19-cC 3lob-a1-m19-cC_3lob-a1-m19-cA 3lob-a1-m1-cB_3lob-a1-m1-cA 3lob-a1-m1-cB_3lob-a1-m1-cC 3lob-a1-m1-cC_3lob-a1-m1-cA 3lob-a1-m20-cB_3lob-a1-m20-cA 3lob-a1-m20-cB_3lob-a1-m20-cC 3lob-a1-m20-cC_3lob-a1-m20-cA 3lob-a1-m21-cB_3lob-a1-m21-cA 3lob-a1-m21-cB_3lob-a1-m21-cC 3lob-a1-m21-cC_3lob-a1-m21-cA 3lob-a1-m22-cB_3lob-a1-m22-cA 3lob-a1-m22-cB_3lob-a1-m22-cC 3lob-a1-m22-cC_3lob-a1-m22-cA 3lob-a1-m23-cB_3lob-a1-m23-cA 3lob-a1-m23-cB_3lob-a1-m23-cC 3lob-a1-m23-cC_3lob-a1-m23-cA 3lob-a1-m24-cB_3lob-a1-m24-cA 3lob-a1-m24-cB_3lob-a1-m24-cC 3lob-a1-m24-cC_3lob-a1-m24-cA 3lob-a1-m25-cB_3lob-a1-m25-cA 3lob-a1-m25-cB_3lob-a1-m25-cC 3lob-a1-m25-cC_3lob-a1-m25-cA 3lob-a1-m26-cB_3lob-a1-m26-cA 3lob-a1-m26-cB_3lob-a1-m26-cC 3lob-a1-m26-cC_3lob-a1-m26-cA 3lob-a1-m27-cB_3lob-a1-m27-cA 3lob-a1-m27-cB_3lob-a1-m27-cC 3lob-a1-m27-cC_3lob-a1-m27-cA 3lob-a1-m28-cB_3lob-a1-m28-cA 3lob-a1-m28-cB_3lob-a1-m28-cC 3lob-a1-m28-cC_3lob-a1-m28-cA 3lob-a1-m29-cB_3lob-a1-m29-cA 3lob-a1-m29-cB_3lob-a1-m29-cC 3lob-a1-m29-cC_3lob-a1-m29-cA 3lob-a1-m2-cB_3lob-a1-m2-cA 3lob-a1-m2-cB_3lob-a1-m2-cC 3lob-a1-m2-cC_3lob-a1-m2-cA 3lob-a1-m30-cB_3lob-a1-m30-cA 3lob-a1-m30-cB_3lob-a1-m30-cC 3lob-a1-m30-cC_3lob-a1-m30-cA 3lob-a1-m31-cB_3lob-a1-m31-cA 3lob-a1-m31-cB_3lob-a1-m31-cC 3lob-a1-m31-cC_3lob-a1-m31-cA 3lob-a1-m32-cB_3lob-a1-m32-cA 3lob-a1-m32-cB_3lob-a1-m32-cC 3lob-a1-m32-cC_3lob-a1-m32-cA 3lob-a1-m33-cB_3lob-a1-m33-cA 3lob-a1-m33-cB_3lob-a1-m33-cC 3lob-a1-m33-cC_3lob-a1-m33-cA 3lob-a1-m34-cB_3lob-a1-m34-cA 3lob-a1-m34-cB_3lob-a1-m34-cC 3lob-a1-m34-cC_3lob-a1-m34-cA 3lob-a1-m35-cB_3lob-a1-m35-cA 3lob-a1-m35-cB_3lob-a1-m35-cC 3lob-a1-m35-cC_3lob-a1-m35-cA 3lob-a1-m36-cB_3lob-a1-m36-cA 3lob-a1-m36-cB_3lob-a1-m36-cC 3lob-a1-m36-cC_3lob-a1-m36-cA 3lob-a1-m37-cB_3lob-a1-m37-cA 3lob-a1-m37-cB_3lob-a1-m37-cC 3lob-a1-m37-cC_3lob-a1-m37-cA 3lob-a1-m38-cB_3lob-a1-m38-cA 3lob-a1-m38-cB_3lob-a1-m38-cC 3lob-a1-m38-cC_3lob-a1-m38-cA 3lob-a1-m39-cB_3lob-a1-m39-cA 3lob-a1-m39-cB_3lob-a1-m39-cC 3lob-a1-m39-cC_3lob-a1-m39-cA 3lob-a1-m3-cB_3lob-a1-m3-cA 3lob-a1-m3-cB_3lob-a1-m3-cC 3lob-a1-m3-cC_3lob-a1-m3-cA 3lob-a1-m40-cB_3lob-a1-m40-cA 3lob-a1-m40-cB_3lob-a1-m40-cC 3lob-a1-m40-cC_3lob-a1-m40-cA 3lob-a1-m41-cB_3lob-a1-m41-cA 3lob-a1-m41-cB_3lob-a1-m41-cC 3lob-a1-m41-cC_3lob-a1-m41-cA 3lob-a1-m42-cB_3lob-a1-m42-cA 3lob-a1-m42-cB_3lob-a1-m42-cC 3lob-a1-m42-cC_3lob-a1-m42-cA 3lob-a1-m43-cB_3lob-a1-m43-cA 3lob-a1-m43-cB_3lob-a1-m43-cC 3lob-a1-m43-cC_3lob-a1-m43-cA 3lob-a1-m44-cB_3lob-a1-m44-cA 3lob-a1-m44-cB_3lob-a1-m44-cC 3lob-a1-m44-cC_3lob-a1-m44-cA 3lob-a1-m45-cB_3lob-a1-m45-cA 3lob-a1-m45-cB_3lob-a1-m45-cC 3lob-a1-m45-cC_3lob-a1-m45-cA 3lob-a1-m46-cB_3lob-a1-m46-cA 3lob-a1-m46-cB_3lob-a1-m46-cC 3lob-a1-m46-cC_3lob-a1-m46-cA 3lob-a1-m47-cB_3lob-a1-m47-cA 3lob-a1-m47-cB_3lob-a1-m47-cC 3lob-a1-m47-cC_3lob-a1-m47-cA 3lob-a1-m48-cB_3lob-a1-m48-cA 3lob-a1-m48-cB_3lob-a1-m48-cC 3lob-a1-m48-cC_3lob-a1-m48-cA 3lob-a1-m49-cB_3lob-a1-m49-cA 3lob-a1-m49-cB_3lob-a1-m49-cC 3lob-a1-m49-cC_3lob-a1-m49-cA 3lob-a1-m4-cB_3lob-a1-m4-cA 3lob-a1-m4-cB_3lob-a1-m4-cC 3lob-a1-m4-cC_3lob-a1-m4-cA 3lob-a1-m50-cB_3lob-a1-m50-cA 3lob-a1-m50-cB_3lob-a1-m50-cC 3lob-a1-m50-cC_3lob-a1-m50-cA 3lob-a1-m51-cB_3lob-a1-m51-cA 3lob-a1-m51-cB_3lob-a1-m51-cC 3lob-a1-m51-cC_3lob-a1-m51-cA 3lob-a1-m52-cB_3lob-a1-m52-cA 3lob-a1-m52-cB_3lob-a1-m52-cC 3lob-a1-m52-cC_3lob-a1-m52-cA 3lob-a1-m53-cB_3lob-a1-m53-cA 3lob-a1-m53-cB_3lob-a1-m53-cC 3lob-a1-m53-cC_3lob-a1-m53-cA 3lob-a1-m54-cB_3lob-a1-m54-cA 3lob-a1-m54-cB_3lob-a1-m54-cC 3lob-a1-m54-cC_3lob-a1-m54-cA 3lob-a1-m55-cB_3lob-a1-m55-cA 3lob-a1-m55-cB_3lob-a1-m55-cC 3lob-a1-m55-cC_3lob-a1-m55-cA 3lob-a1-m56-cB_3lob-a1-m56-cA 3lob-a1-m56-cB_3lob-a1-m56-cC 3lob-a1-m56-cC_3lob-a1-m56-cA 3lob-a1-m57-cB_3lob-a1-m57-cA 3lob-a1-m57-cB_3lob-a1-m57-cC 3lob-a1-m57-cC_3lob-a1-m57-cA 3lob-a1-m58-cB_3lob-a1-m58-cA 3lob-a1-m58-cB_3lob-a1-m58-cC 3lob-a1-m58-cC_3lob-a1-m58-cA 3lob-a1-m59-cB_3lob-a1-m59-cA 3lob-a1-m59-cB_3lob-a1-m59-cC 3lob-a1-m59-cC_3lob-a1-m59-cA 3lob-a1-m5-cB_3lob-a1-m5-cA 3lob-a1-m5-cB_3lob-a1-m5-cC 3lob-a1-m5-cC_3lob-a1-m5-cA 3lob-a1-m60-cB_3lob-a1-m60-cA 3lob-a1-m60-cB_3lob-a1-m60-cC 3lob-a1-m60-cC_3lob-a1-m60-cA 3lob-a1-m6-cB_3lob-a1-m6-cA 3lob-a1-m6-cB_3lob-a1-m6-cC 3lob-a1-m6-cC_3lob-a1-m6-cA 3lob-a1-m7-cB_3lob-a1-m7-cA 3lob-a1-m7-cB_3lob-a1-m7-cC 3lob-a1-m7-cC_3lob-a1-m7-cA 3lob-a1-m8-cB_3lob-a1-m8-cA 3lob-a1-m8-cB_3lob-a1-m8-cC 3lob-a1-m8-cC_3lob-a1-m8-cA 3lob-a1-m9-cB_3lob-a1-m9-cA 3lob-a1-m9-cB_3lob-a1-m9-cC 3lob-a1-m9-cC_3lob-a1-m9-cA 4fsj-a1-m10-cB_4fsj-a1-m10-cA 4fsj-a1-m10-cB_4fsj-a1-m10-cC 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4fts-a1-m38-cB_4fts-a1-m38-cC 4fts-a1-m39-cA_4fts-a1-m39-cB 4fts-a1-m39-cA_4fts-a1-m39-cC 4fts-a1-m39-cB_4fts-a1-m39-cC 4fts-a1-m3-cA_4fts-a1-m3-cB 4fts-a1-m3-cA_4fts-a1-m3-cC 4fts-a1-m3-cB_4fts-a1-m3-cC 4fts-a1-m40-cA_4fts-a1-m40-cB 4fts-a1-m40-cA_4fts-a1-m40-cC 4fts-a1-m40-cB_4fts-a1-m40-cC 4fts-a1-m41-cA_4fts-a1-m41-cB 4fts-a1-m41-cA_4fts-a1-m41-cC 4fts-a1-m41-cB_4fts-a1-m41-cC 4fts-a1-m42-cA_4fts-a1-m42-cB 4fts-a1-m42-cA_4fts-a1-m42-cC 4fts-a1-m42-cB_4fts-a1-m42-cC 4fts-a1-m43-cA_4fts-a1-m43-cB 4fts-a1-m43-cA_4fts-a1-m43-cC 4fts-a1-m43-cB_4fts-a1-m43-cC 4fts-a1-m44-cA_4fts-a1-m44-cB 4fts-a1-m44-cA_4fts-a1-m44-cC 4fts-a1-m44-cB_4fts-a1-m44-cC 4fts-a1-m45-cA_4fts-a1-m45-cB 4fts-a1-m45-cA_4fts-a1-m45-cC 4fts-a1-m45-cB_4fts-a1-m45-cC 4fts-a1-m46-cA_4fts-a1-m46-cB 4fts-a1-m46-cA_4fts-a1-m46-cC 4fts-a1-m46-cB_4fts-a1-m46-cC 4fts-a1-m47-cA_4fts-a1-m47-cB 4fts-a1-m47-cA_4fts-a1-m47-cC 4fts-a1-m47-cB_4fts-a1-m47-cC 4fts-a1-m48-cA_4fts-a1-m48-cB 4fts-a1-m48-cA_4fts-a1-m48-cC 4fts-a1-m48-cB_4fts-a1-m48-cC 4fts-a1-m49-cA_4fts-a1-m49-cB 4fts-a1-m49-cA_4fts-a1-m49-cC 4fts-a1-m49-cB_4fts-a1-m49-cC 4fts-a1-m4-cA_4fts-a1-m4-cB 4fts-a1-m4-cA_4fts-a1-m4-cC 4fts-a1-m4-cB_4fts-a1-m4-cC 4fts-a1-m50-cA_4fts-a1-m50-cB 4fts-a1-m50-cA_4fts-a1-m50-cC 4fts-a1-m50-cB_4fts-a1-m50-cC 4fts-a1-m51-cA_4fts-a1-m51-cB 4fts-a1-m51-cA_4fts-a1-m51-cC 4fts-a1-m51-cB_4fts-a1-m51-cC 4fts-a1-m52-cA_4fts-a1-m52-cB 4fts-a1-m52-cA_4fts-a1-m52-cC 4fts-a1-m52-cB_4fts-a1-m52-cC 4fts-a1-m53-cA_4fts-a1-m53-cB 4fts-a1-m53-cA_4fts-a1-m53-cC 4fts-a1-m53-cB_4fts-a1-m53-cC 4fts-a1-m54-cA_4fts-a1-m54-cB 4fts-a1-m54-cA_4fts-a1-m54-cC 4fts-a1-m54-cB_4fts-a1-m54-cC 4fts-a1-m55-cA_4fts-a1-m55-cB 4fts-a1-m55-cA_4fts-a1-m55-cC 4fts-a1-m55-cB_4fts-a1-m55-cC 4fts-a1-m56-cA_4fts-a1-m56-cB 4fts-a1-m56-cA_4fts-a1-m56-cC 4fts-a1-m56-cB_4fts-a1-m56-cC 4fts-a1-m57-cA_4fts-a1-m57-cB 4fts-a1-m57-cA_4fts-a1-m57-cC 4fts-a1-m57-cB_4fts-a1-m57-cC 4fts-a1-m58-cA_4fts-a1-m58-cB 4fts-a1-m58-cA_4fts-a1-m58-cC 4fts-a1-m58-cB_4fts-a1-m58-cC 4fts-a1-m59-cA_4fts-a1-m59-cB 4fts-a1-m59-cA_4fts-a1-m59-cC 4fts-a1-m59-cB_4fts-a1-m59-cC 4fts-a1-m5-cA_4fts-a1-m5-cB 4fts-a1-m5-cA_4fts-a1-m5-cC 4fts-a1-m5-cB_4fts-a1-m5-cC 4fts-a1-m60-cA_4fts-a1-m60-cB 4fts-a1-m60-cA_4fts-a1-m60-cC 4fts-a1-m60-cB_4fts-a1-m60-cC 4fts-a1-m6-cA_4fts-a1-m6-cB 4fts-a1-m6-cA_4fts-a1-m6-cC 4fts-a1-m6-cB_4fts-a1-m6-cC 4fts-a1-m7-cA_4fts-a1-m7-cB 4fts-a1-m7-cA_4fts-a1-m7-cC 4fts-a1-m7-cB_4fts-a1-m7-cC 4fts-a1-m8-cA_4fts-a1-m8-cB 4fts-a1-m8-cA_4fts-a1-m8-cC 4fts-a1-m8-cB_4fts-a1-m8-cC 4fts-a1-m9-cA_4fts-a1-m9-cB 4fts-a1-m9-cA_4fts-a1-m9-cC 4fts-a1-m9-cB_4fts-a1-m9-cC 6itb-a1-m10-cA_6itb-a1-m10-cC 6itb-a1-m10-cB_6itb-a1-m10-cC 6itb-a1-m11-cA_6itb-a1-m11-cC 6itb-a1-m11-cB_6itb-a1-m11-cC 6itb-a1-m12-cA_6itb-a1-m12-cC 6itb-a1-m12-cB_6itb-a1-m12-cC 6itb-a1-m13-cA_6itb-a1-m13-cC 6itb-a1-m13-cB_6itb-a1-m13-cC 6itb-a1-m14-cA_6itb-a1-m14-cC 6itb-a1-m14-cB_6itb-a1-m14-cC 6itb-a1-m15-cA_6itb-a1-m15-cC 6itb-a1-m15-cB_6itb-a1-m15-cC 6itb-a1-m16-cA_6itb-a1-m16-cC 6itb-a1-m16-cB_6itb-a1-m16-cC 6itb-a1-m17-cA_6itb-a1-m17-cC 6itb-a1-m17-cB_6itb-a1-m17-cC 6itb-a1-m18-cA_6itb-a1-m18-cC 6itb-a1-m18-cB_6itb-a1-m18-cC 6itb-a1-m19-cA_6itb-a1-m19-cC 6itb-a1-m19-cB_6itb-a1-m19-cC 6itb-a1-m1-cA_6itb-a1-m1-cC 6itb-a1-m1-cB_6itb-a1-m1-cC 6itb-a1-m20-cA_6itb-a1-m20-cC 6itb-a1-m20-cB_6itb-a1-m20-cC 6itb-a1-m21-cA_6itb-a1-m21-cC 6itb-a1-m21-cB_6itb-a1-m21-cC 6itb-a1-m22-cA_6itb-a1-m22-cC 6itb-a1-m22-cB_6itb-a1-m22-cC 6itb-a1-m23-cA_6itb-a1-m23-cC 6itb-a1-m23-cB_6itb-a1-m23-cC 6itb-a1-m24-cA_6itb-a1-m24-cC 6itb-a1-m24-cB_6itb-a1-m24-cC 6itb-a1-m25-cA_6itb-a1-m25-cC 6itb-a1-m25-cB_6itb-a1-m25-cC 6itb-a1-m26-cA_6itb-a1-m26-cC 6itb-a1-m26-cB_6itb-a1-m26-cC 6itb-a1-m27-cA_6itb-a1-m27-cC 6itb-a1-m27-cB_6itb-a1-m27-cC 6itb-a1-m28-cA_6itb-a1-m28-cC 6itb-a1-m28-cB_6itb-a1-m28-cC 6itb-a1-m29-cA_6itb-a1-m29-cC 6itb-a1-m29-cB_6itb-a1-m29-cC 6itb-a1-m2-cA_6itb-a1-m2-cC 6itb-a1-m2-cB_6itb-a1-m2-cC 6itb-a1-m30-cA_6itb-a1-m30-cC 6itb-a1-m30-cB_6itb-a1-m30-cC 6itb-a1-m31-cA_6itb-a1-m31-cC 6itb-a1-m31-cB_6itb-a1-m31-cC 6itb-a1-m32-cA_6itb-a1-m32-cC 6itb-a1-m32-cB_6itb-a1-m32-cC 6itb-a1-m33-cA_6itb-a1-m33-cC 6itb-a1-m33-cB_6itb-a1-m33-cC 6itb-a1-m34-cA_6itb-a1-m34-cC 6itb-a1-m34-cB_6itb-a1-m34-cC 6itb-a1-m35-cA_6itb-a1-m35-cC 6itb-a1-m35-cB_6itb-a1-m35-cC 6itb-a1-m36-cA_6itb-a1-m36-cC 6itb-a1-m36-cB_6itb-a1-m36-cC 6itb-a1-m37-cA_6itb-a1-m37-cC 6itb-a1-m37-cB_6itb-a1-m37-cC 6itb-a1-m38-cA_6itb-a1-m38-cC 6itb-a1-m38-cB_6itb-a1-m38-cC 6itb-a1-m39-cA_6itb-a1-m39-cC 6itb-a1-m39-cB_6itb-a1-m39-cC 6itb-a1-m3-cA_6itb-a1-m3-cC 6itb-a1-m3-cB_6itb-a1-m3-cC 6itb-a1-m40-cA_6itb-a1-m40-cC 6itb-a1-m40-cB_6itb-a1-m40-cC 6itb-a1-m41-cA_6itb-a1-m41-cC 6itb-a1-m41-cB_6itb-a1-m41-cC 6itb-a1-m42-cA_6itb-a1-m42-cC 6itb-a1-m42-cB_6itb-a1-m42-cC 6itb-a1-m43-cA_6itb-a1-m43-cC 6itb-a1-m43-cB_6itb-a1-m43-cC 6itb-a1-m44-cA_6itb-a1-m44-cC 6itb-a1-m44-cB_6itb-a1-m44-cC 6itb-a1-m45-cA_6itb-a1-m45-cC 6itb-a1-m45-cB_6itb-a1-m45-cC 6itb-a1-m46-cA_6itb-a1-m46-cC 6itb-a1-m46-cB_6itb-a1-m46-cC 6itb-a1-m47-cA_6itb-a1-m47-cC 6itb-a1-m47-cB_6itb-a1-m47-cC 6itb-a1-m48-cA_6itb-a1-m48-cC 6itb-a1-m48-cB_6itb-a1-m48-cC 6itb-a1-m49-cA_6itb-a1-m49-cC 6itb-a1-m49-cB_6itb-a1-m49-cC 6itb-a1-m4-cA_6itb-a1-m4-cC 6itb-a1-m4-cB_6itb-a1-m4-cC 6itb-a1-m50-cA_6itb-a1-m50-cC 6itb-a1-m50-cB_6itb-a1-m50-cC 6itb-a1-m51-cA_6itb-a1-m51-cC 6itb-a1-m51-cB_6itb-a1-m51-cC 6itb-a1-m52-cA_6itb-a1-m52-cC 6itb-a1-m52-cB_6itb-a1-m52-cC 6itb-a1-m53-cA_6itb-a1-m53-cC 6itb-a1-m53-cB_6itb-a1-m53-cC 6itb-a1-m54-cA_6itb-a1-m54-cC 6itb-a1-m54-cB_6itb-a1-m54-cC 6itb-a1-m55-cA_6itb-a1-m55-cC 6itb-a1-m55-cB_6itb-a1-m55-cC 6itb-a1-m56-cA_6itb-a1-m56-cC 6itb-a1-m56-cB_6itb-a1-m56-cC 6itb-a1-m57-cA_6itb-a1-m57-cC 6itb-a1-m57-cB_6itb-a1-m57-cC 6itb-a1-m58-cA_6itb-a1-m58-cC 6itb-a1-m58-cB_6itb-a1-m58-cC 6itb-a1-m59-cA_6itb-a1-m59-cC 6itb-a1-m59-cB_6itb-a1-m59-cC 6itb-a1-m5-cA_6itb-a1-m5-cC 6itb-a1-m5-cB_6itb-a1-m5-cC 6itb-a1-m60-cA_6itb-a1-m60-cC 6itb-a1-m60-cB_6itb-a1-m60-cC 6itb-a1-m6-cA_6itb-a1-m6-cC 6itb-a1-m6-cB_6itb-a1-m6-cC 6itb-a1-m7-cA_6itb-a1-m7-cC 6itb-a1-m7-cB_6itb-a1-m7-cC 6itb-a1-m8-cA_6itb-a1-m8-cC 6itb-a1-m8-cB_6itb-a1-m8-cC 6itb-a1-m9-cA_6itb-a1-m9-cC 6itb-a1-m9-cB_6itb-a1-m9-cC ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN 4ft2-a1-m1-cB_4ft2-a1-m1-cA crystal structure of Zea mays ZMET2 in complex H3(1-15)K9me2 peptide and SAH Q9AXT8 Q9AXT8 3.2 X-RAY DIFFRACTION 24 0.997 4577 (Zea mays) 4577 (Zea mays) 670 674 EPEFIGSPVAADEARSNWPKRYLKARCHYRSAKVDNVVYCLGDDVYVKAGENEADYIGRITEFFEGTDQCHYFTCRWFFRAEDTVINSLVSISVDGHKHDPRRVFLSEEKNDNVLDCIISKVKIVHVDPNMDPKAKAQLIESCDLYYDMSYSVAYSTFANTRTATLLDLYSGCGGMSTGLCLGAALSGLKLETRWAVDFNSFACQSLKYNHPQTEVRNEKADEFLALLKEWAVLCKKYVEFVVEKLVGICYGGSDRENGIYFKVQWEGYGPEEDTWEPIDNLSDCPQKIREFVQEGHKRKILPLPGDVDVICGGPPCQKDEKNKQMVTFMDIVAYLKPKYVLMENVVDILKFADGYLGKYALSCLVAMKYQARLGMMVAGCYGLPQFRMRVFLWGALSSMVLPKYPLPTYDVVVRGGAPNAFSQCMVAYDETQKPSLKKALLLGDAISDLPKVQNHQPNDVMEYGGSPKTEFQRYIRLSRKDMLDWSFGEGAGPDEGKLLDHQPLRLNNDDYERVQQIPVKKGANFRDLKGVRVGANNIVEWDPEIERVKLSSGKPLVPDYAMSFIKGKSLKPFGRLWWDETVPTVVTRAEPHNQVIIHPTQARVLTIRENARLQGFPDYYRLFGPIKEKYIQVGNAVAVPVARALGYCLGQAYLGESEGSDPLYQLPPS DHEPEFIGSPVAADEARSNWPKRYGLKARCHYRSAKVDNVVYCLGDDVYVKAGENEADYIGRITEFFEGTDQCHYFTCRWFFRAEDTVINSLVSISVDGHKHDPRRVFLSEEKNDNVLDCIISKVKIVHVDPNMDPKAKAQLIESCDLYYDMSYSVAYSTFANISTRTATLLDLYSGCGGMSTGLCLGAALSGLKLETRWAVDFNSFACQSLKYNHPQTEVRNEKADEFLALLKEWAVLCKKYVVVEKLVGICYGGSDRENGIYFKVQWEGYGPEEDTWEPIDNLSDCPQKIREFVQEGHKRKILPLPGDVDVICGGPPCQKDEKNKQMVTFMDIVAYLKPKYVLMENVVDILKFADGYLGKYALSCLVAMKYQARLGMMVAGCYGLPQFRMRVFLWGALSSMVLPKYPLPTYDVVVRGGAPNAFSQCMVAYDETQKPSLKKALLLGDAISDLPKVQNHQPNDVMEYGGSPKTEFQRYIRLSRKDMLDWSFGEGAGPDEGKLLDHQPLRLNNDDYERVQQIPVKKGANFRDLKGVRVGANNIVEWDPEIERVKLSSGKPLVPDYAMSFIKGKSLKPFGRLWWDETVPTVVTRAEPHNQVIIHPTQARVLTIRENARLQGFPDYYRLFGPIKEKYIQVGNAVAVPVARALGYCLGQAYLGESEGSDPLYQLPPSF 4ft8-a2-m1-cB_4ft8-a2-m2-cA E. coli Catabolite Activator Protein with Cobalt and Sulfate Ligands P0ACJ8 P0ACJ8 1.966 X-RAY DIFFRACTION 20 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 200 200 TDPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVY DPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVYG 4ftb-a1-m9-cC_4ftb-a1-m55-cA Crystal structure of the authentic Flock House virus particle P12870 P12870 2.7 X-RAY DIFFRACTION 36 0.997 12287 (Flock House virus) 12287 (Flock House virus) 309 321 3lob-a1-m10-cC_3lob-a1-m24-cA 3lob-a1-m11-cC_3lob-a1-m16-cA 3lob-a1-m12-cC_3lob-a1-m38-cA 3lob-a1-m13-cC_3lob-a1-m47-cA 3lob-a1-m14-cC_3lob-a1-m45-cA 3lob-a1-m15-cC_3lob-a1-m29-cA 3lob-a1-m16-cC_3lob-a1-m11-cA 3lob-a1-m17-cC_3lob-a1-m28-cA 3lob-a1-m18-cC_3lob-a1-m52-cA 3lob-a1-m19-cC_3lob-a1-m60-cA 3lob-a1-m1-cC_3lob-a1-m6-cA 3lob-a1-m20-cC_3lob-a1-m39-cA 3lob-a1-m21-cC_3lob-a1-m26-cA 3lob-a1-m22-cC_3lob-a1-m43-cA 3lob-a1-m23-cC_3lob-a1-m2-cA 3lob-a1-m24-cC_3lob-a1-m10-cA 3lob-a1-m25-cC_3lob-a1-m54-cA 3lob-a1-m26-cC_3lob-a1-m21-cA 3lob-a1-m27-cC_3lob-a1-m53-cA 3lob-a1-m28-cC_3lob-a1-m17-cA 3lob-a1-m29-cC_3lob-a1-m15-cA 3lob-a1-m2-cC_3lob-a1-m23-cA 3lob-a1-m30-cC_3lob-a1-m44-cA 3lob-a1-m31-cC_3lob-a1-m36-cA 3lob-a1-m32-cC_3lob-a1-m58-cA 3lob-a1-m33-cC_3lob-a1-m7-cA 3lob-a1-m34-cC_3lob-a1-m5-cA 3lob-a1-m35-cC_3lob-a1-m49-cA 3lob-a1-m36-cC_3lob-a1-m31-cA 3lob-a1-m37-cC_3lob-a1-m48-cA 3lob-a1-m38-cC_3lob-a1-m12-cA 3lob-a1-m39-cC_3lob-a1-m20-cA 3lob-a1-m3-cC_3lob-a1-m42-cA 3lob-a1-m40-cC_3lob-a1-m59-cA 3lob-a1-m41-cC_3lob-a1-m46-cA 3lob-a1-m42-cC_3lob-a1-m3-cA 3lob-a1-m43-cC_3lob-a1-m22-cA 3lob-a1-m44-cC_3lob-a1-m30-cA 3lob-a1-m45-cC_3lob-a1-m14-cA 3lob-a1-m46-cC_3lob-a1-m41-cA 3lob-a1-m47-cC_3lob-a1-m13-cA 3lob-a1-m48-cC_3lob-a1-m37-cA 3lob-a1-m49-cC_3lob-a1-m35-cA 3lob-a1-m4-cC_3lob-a1-m50-cA 3lob-a1-m50-cC_3lob-a1-m4-cA 3lob-a1-m51-cC_3lob-a1-m56-cA 3lob-a1-m52-cC_3lob-a1-m18-cA 3lob-a1-m53-cC_3lob-a1-m27-cA 3lob-a1-m54-cC_3lob-a1-m25-cA 3lob-a1-m55-cC_3lob-a1-m9-cA 3lob-a1-m56-cC_3lob-a1-m51-cA 3lob-a1-m57-cC_3lob-a1-m8-cA 3lob-a1-m58-cC_3lob-a1-m32-cA 3lob-a1-m59-cC_3lob-a1-m40-cA 3lob-a1-m5-cC_3lob-a1-m34-cA 3lob-a1-m60-cC_3lob-a1-m19-cA 3lob-a1-m6-cC_3lob-a1-m1-cA 3lob-a1-m7-cC_3lob-a1-m33-cA 3lob-a1-m8-cC_3lob-a1-m57-cA 3lob-a1-m9-cC_3lob-a1-m55-cA 4fsj-a1-m10-cC_4fsj-a1-m24-cA 4fsj-a1-m11-cC_4fsj-a1-m16-cA 4fsj-a1-m12-cC_4fsj-a1-m38-cA 4fsj-a1-m13-cC_4fsj-a1-m47-cA 4fsj-a1-m14-cC_4fsj-a1-m45-cA 4fsj-a1-m15-cC_4fsj-a1-m29-cA 4fsj-a1-m16-cC_4fsj-a1-m11-cA 4fsj-a1-m17-cC_4fsj-a1-m28-cA 4fsj-a1-m18-cC_4fsj-a1-m52-cA 4fsj-a1-m19-cC_4fsj-a1-m60-cA 4fsj-a1-m1-cC_4fsj-a1-m6-cA 4fsj-a1-m20-cC_4fsj-a1-m39-cA 4fsj-a1-m21-cC_4fsj-a1-m26-cA 4fsj-a1-m22-cC_4fsj-a1-m43-cA 4fsj-a1-m23-cC_4fsj-a1-m2-cA 4fsj-a1-m24-cC_4fsj-a1-m10-cA 4fsj-a1-m25-cC_4fsj-a1-m54-cA 4fsj-a1-m26-cC_4fsj-a1-m21-cA 4fsj-a1-m27-cC_4fsj-a1-m53-cA 4fsj-a1-m28-cC_4fsj-a1-m17-cA 4fsj-a1-m29-cC_4fsj-a1-m15-cA 4fsj-a1-m2-cC_4fsj-a1-m23-cA 4fsj-a1-m30-cC_4fsj-a1-m44-cA 4fsj-a1-m31-cC_4fsj-a1-m36-cA 4fsj-a1-m32-cC_4fsj-a1-m58-cA 4fsj-a1-m33-cC_4fsj-a1-m7-cA 4fsj-a1-m34-cC_4fsj-a1-m5-cA 4fsj-a1-m35-cC_4fsj-a1-m49-cA 4fsj-a1-m36-cC_4fsj-a1-m31-cA 4fsj-a1-m37-cC_4fsj-a1-m48-cA 4fsj-a1-m38-cC_4fsj-a1-m12-cA 4fsj-a1-m39-cC_4fsj-a1-m20-cA 4fsj-a1-m3-cC_4fsj-a1-m42-cA 4fsj-a1-m40-cC_4fsj-a1-m59-cA 4fsj-a1-m41-cC_4fsj-a1-m46-cA 4fsj-a1-m42-cC_4fsj-a1-m3-cA 4fsj-a1-m43-cC_4fsj-a1-m22-cA 4fsj-a1-m44-cC_4fsj-a1-m30-cA 4fsj-a1-m45-cC_4fsj-a1-m14-cA 4fsj-a1-m46-cC_4fsj-a1-m41-cA 4fsj-a1-m47-cC_4fsj-a1-m13-cA 4fsj-a1-m48-cC_4fsj-a1-m37-cA 4fsj-a1-m49-cC_4fsj-a1-m35-cA 4fsj-a1-m4-cC_4fsj-a1-m50-cA 4fsj-a1-m50-cC_4fsj-a1-m4-cA 4fsj-a1-m51-cC_4fsj-a1-m56-cA 4fsj-a1-m52-cC_4fsj-a1-m18-cA 4fsj-a1-m53-cC_4fsj-a1-m27-cA 4fsj-a1-m54-cC_4fsj-a1-m25-cA 4fsj-a1-m55-cC_4fsj-a1-m9-cA 4fsj-a1-m56-cC_4fsj-a1-m51-cA 4fsj-a1-m57-cC_4fsj-a1-m8-cA 4fsj-a1-m58-cC_4fsj-a1-m32-cA 4fsj-a1-m59-cC_4fsj-a1-m40-cA 4fsj-a1-m5-cC_4fsj-a1-m34-cA 4fsj-a1-m60-cC_4fsj-a1-m19-cA 4fsj-a1-m6-cC_4fsj-a1-m1-cA 4fsj-a1-m7-cC_4fsj-a1-m33-cA 4fsj-a1-m8-cC_4fsj-a1-m57-cA 4fsj-a1-m9-cC_4fsj-a1-m55-cA 4ftb-a1-m10-cC_4ftb-a1-m24-cA 4ftb-a1-m11-cC_4ftb-a1-m16-cA 4ftb-a1-m12-cC_4ftb-a1-m38-cA 4ftb-a1-m13-cC_4ftb-a1-m47-cA 4ftb-a1-m14-cC_4ftb-a1-m45-cA 4ftb-a1-m15-cC_4ftb-a1-m29-cA 4ftb-a1-m16-cC_4ftb-a1-m11-cA 4ftb-a1-m17-cC_4ftb-a1-m28-cA 4ftb-a1-m18-cC_4ftb-a1-m52-cA 4ftb-a1-m19-cC_4ftb-a1-m60-cA 4ftb-a1-m1-cC_4ftb-a1-m6-cA 4ftb-a1-m20-cC_4ftb-a1-m39-cA 4ftb-a1-m21-cC_4ftb-a1-m26-cA 4ftb-a1-m22-cC_4ftb-a1-m43-cA 4ftb-a1-m23-cC_4ftb-a1-m2-cA 4ftb-a1-m24-cC_4ftb-a1-m10-cA 4ftb-a1-m25-cC_4ftb-a1-m54-cA 4ftb-a1-m26-cC_4ftb-a1-m21-cA 4ftb-a1-m27-cC_4ftb-a1-m53-cA 4ftb-a1-m28-cC_4ftb-a1-m17-cA 4ftb-a1-m29-cC_4ftb-a1-m15-cA 4ftb-a1-m2-cC_4ftb-a1-m23-cA 4ftb-a1-m30-cC_4ftb-a1-m44-cA 4ftb-a1-m31-cC_4ftb-a1-m36-cA 4ftb-a1-m32-cC_4ftb-a1-m58-cA 4ftb-a1-m33-cC_4ftb-a1-m7-cA 4ftb-a1-m34-cC_4ftb-a1-m5-cA 4ftb-a1-m35-cC_4ftb-a1-m49-cA 4ftb-a1-m36-cC_4ftb-a1-m31-cA 4ftb-a1-m37-cC_4ftb-a1-m48-cA 4ftb-a1-m38-cC_4ftb-a1-m12-cA 4ftb-a1-m39-cC_4ftb-a1-m20-cA 4ftb-a1-m3-cC_4ftb-a1-m42-cA 4ftb-a1-m40-cC_4ftb-a1-m59-cA 4ftb-a1-m41-cC_4ftb-a1-m46-cA 4ftb-a1-m42-cC_4ftb-a1-m3-cA 4ftb-a1-m43-cC_4ftb-a1-m22-cA 4ftb-a1-m44-cC_4ftb-a1-m30-cA 4ftb-a1-m45-cC_4ftb-a1-m14-cA 4ftb-a1-m46-cC_4ftb-a1-m41-cA 4ftb-a1-m47-cC_4ftb-a1-m13-cA 4ftb-a1-m48-cC_4ftb-a1-m37-cA 4ftb-a1-m49-cC_4ftb-a1-m35-cA 4ftb-a1-m4-cC_4ftb-a1-m50-cA 4ftb-a1-m50-cC_4ftb-a1-m4-cA 4ftb-a1-m51-cC_4ftb-a1-m56-cA 4ftb-a1-m52-cC_4ftb-a1-m18-cA 4ftb-a1-m53-cC_4ftb-a1-m27-cA 4ftb-a1-m54-cC_4ftb-a1-m25-cA 4ftb-a1-m55-cC_4ftb-a1-m9-cA 4ftb-a1-m56-cC_4ftb-a1-m51-cA 4ftb-a1-m57-cC_4ftb-a1-m8-cA 4ftb-a1-m58-cC_4ftb-a1-m32-cA 4ftb-a1-m59-cC_4ftb-a1-m40-cA 4ftb-a1-m5-cC_4ftb-a1-m34-cA 4ftb-a1-m60-cC_4ftb-a1-m19-cA 4ftb-a1-m6-cC_4ftb-a1-m1-cA 4ftb-a1-m7-cC_4ftb-a1-m33-cA 4ftb-a1-m8-cC_4ftb-a1-m57-cA ALTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN TQTAPVPQQNVPRLTRLSQPGLAFLKCAFAPPDFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQN 4fte-a1-m9-cC_4fte-a1-m55-cB Crystal structure of the D75N mutant capsid of Flock House virus P12870 P12870 3.5 X-RAY DIFFRACTION 81 0.997 12287 (Flock House virus) 12287 (Flock House virus) 329 330 3lob-a1-m10-cB_3lob-a1-m24-cC 3lob-a1-m11-cB_3lob-a1-m16-cC 3lob-a1-m12-cB_3lob-a1-m38-cC 3lob-a1-m13-cB_3lob-a1-m47-cC 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4fts-a1-m27-cC_4fts-a1-m53-cB 4fts-a1-m2-cB_4fts-a1-m23-cC 4fts-a1-m2-cC_4fts-a1-m23-cB 4fts-a1-m30-cB_4fts-a1-m44-cC 4fts-a1-m30-cC_4fts-a1-m44-cB 4fts-a1-m31-cB_4fts-a1-m36-cC 4fts-a1-m31-cC_4fts-a1-m36-cB 4fts-a1-m32-cB_4fts-a1-m58-cC 4fts-a1-m32-cC_4fts-a1-m58-cB 4fts-a1-m33-cB_4fts-a1-m7-cC 4fts-a1-m33-cC_4fts-a1-m7-cB 4fts-a1-m34-cB_4fts-a1-m5-cC 4fts-a1-m34-cC_4fts-a1-m5-cB 4fts-a1-m35-cB_4fts-a1-m49-cC 4fts-a1-m35-cC_4fts-a1-m49-cB 4fts-a1-m37-cB_4fts-a1-m48-cC 4fts-a1-m37-cC_4fts-a1-m48-cB 4fts-a1-m3-cB_4fts-a1-m42-cC 4fts-a1-m3-cC_4fts-a1-m42-cB 4fts-a1-m40-cB_4fts-a1-m59-cC 4fts-a1-m40-cC_4fts-a1-m59-cB 4fts-a1-m41-cB_4fts-a1-m46-cC 4fts-a1-m41-cC_4fts-a1-m46-cB 4fts-a1-m4-cB_4fts-a1-m50-cC 4fts-a1-m4-cC_4fts-a1-m50-cB 4fts-a1-m51-cB_4fts-a1-m56-cC 4fts-a1-m51-cC_4fts-a1-m56-cB 4fts-a1-m55-cB_4fts-a1-m9-cC 4fts-a1-m55-cC_4fts-a1-m9-cB 4fts-a1-m57-cB_4fts-a1-m8-cC 4fts-a1-m57-cC_4fts-a1-m8-cB 6itb-a1-m10-cB_6itb-a1-m24-cC 6itb-a1-m11-cB_6itb-a1-m16-cC 6itb-a1-m12-cB_6itb-a1-m38-cC 6itb-a1-m13-cB_6itb-a1-m47-cC 6itb-a1-m14-cB_6itb-a1-m45-cC 6itb-a1-m15-cB_6itb-a1-m29-cC 6itb-a1-m16-cB_6itb-a1-m11-cC 6itb-a1-m17-cB_6itb-a1-m28-cC 6itb-a1-m18-cB_6itb-a1-m52-cC 6itb-a1-m19-cB_6itb-a1-m60-cC 6itb-a1-m1-cB_6itb-a1-m6-cC 6itb-a1-m20-cB_6itb-a1-m39-cC 6itb-a1-m21-cB_6itb-a1-m26-cC 6itb-a1-m22-cB_6itb-a1-m43-cC 6itb-a1-m23-cB_6itb-a1-m2-cC 6itb-a1-m24-cB_6itb-a1-m10-cC 6itb-a1-m25-cB_6itb-a1-m54-cC 6itb-a1-m26-cB_6itb-a1-m21-cC 6itb-a1-m27-cB_6itb-a1-m53-cC 6itb-a1-m28-cB_6itb-a1-m17-cC 6itb-a1-m29-cB_6itb-a1-m15-cC 6itb-a1-m2-cB_6itb-a1-m23-cC 6itb-a1-m30-cB_6itb-a1-m44-cC 6itb-a1-m31-cB_6itb-a1-m36-cC 6itb-a1-m32-cB_6itb-a1-m58-cC 6itb-a1-m33-cB_6itb-a1-m7-cC 6itb-a1-m34-cB_6itb-a1-m5-cC 6itb-a1-m35-cB_6itb-a1-m49-cC 6itb-a1-m36-cB_6itb-a1-m31-cC 6itb-a1-m37-cB_6itb-a1-m48-cC 6itb-a1-m38-cB_6itb-a1-m12-cC 6itb-a1-m39-cB_6itb-a1-m20-cC 6itb-a1-m3-cB_6itb-a1-m42-cC 6itb-a1-m40-cB_6itb-a1-m59-cC 6itb-a1-m41-cB_6itb-a1-m46-cC 6itb-a1-m42-cB_6itb-a1-m3-cC 6itb-a1-m43-cB_6itb-a1-m22-cC 6itb-a1-m44-cB_6itb-a1-m30-cC 6itb-a1-m45-cB_6itb-a1-m14-cC 6itb-a1-m46-cB_6itb-a1-m41-cC 6itb-a1-m47-cB_6itb-a1-m13-cC 6itb-a1-m48-cB_6itb-a1-m37-cC 6itb-a1-m49-cB_6itb-a1-m35-cC 6itb-a1-m4-cB_6itb-a1-m50-cC 6itb-a1-m50-cB_6itb-a1-m4-cC 6itb-a1-m51-cB_6itb-a1-m56-cC 6itb-a1-m52-cB_6itb-a1-m18-cC 6itb-a1-m53-cB_6itb-a1-m27-cC 6itb-a1-m54-cB_6itb-a1-m25-cC 6itb-a1-m55-cB_6itb-a1-m9-cC 6itb-a1-m56-cB_6itb-a1-m51-cC 6itb-a1-m57-cB_6itb-a1-m8-cC 6itb-a1-m58-cB_6itb-a1-m32-cC 6itb-a1-m59-cB_6itb-a1-m40-cC 6itb-a1-m5-cB_6itb-a1-m34-cC 6itb-a1-m60-cB_6itb-a1-m19-cC 6itb-a1-m6-cB_6itb-a1-m1-cC 6itb-a1-m7-cB_6itb-a1-m33-cC 6itb-a1-m8-cB_6itb-a1-m57-cC 6itb-a1-m9-cB_6itb-a1-m55-cC ALTRLSQPGLAFLKCAFAPPNFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQNASMWERVKSIIKSSLAAASN MAALTRLSQPGLAFLKCAFAPPNFNTDPGKGIPDRFEGKVVSRKDVLNQSISFTAGQDTFILIAPTPGVAYWSASVPAGTFPTSATTFNPVNYPGFTSMFGTTSTSRSDQVSSFRYASMNVGIYPTSNLMQFAGSITVWKCPVKLSTVQFPVATDPATSSLVHTLVGLDGVLAVGPDNFSESFIKGVFSQSACNEPDFEFNDILEGIQTLPPANVSLGSTGQPFTMDSGAEATSGVVGWGNMDTIVIRVSAPEGAVNSAILKAWSCIEYRPNPNAMLYQFGHDSPPLDEVALQEYRTVARSLPVAVIAAQNASMWERVKSIIKSSLAAAS 4ftw-a1-m1-cA_4ftw-a1-m2-cA Crystal structure of a carboxyl esterase N110C/L145H at 2.3 angstrom resolution Q3J2V1 Q3J2V1 2.3 X-RAY DIFFRACTION 67 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 220 220 IMTRKLTFGRRGAAPGEATSLVVFLHGYGADGADLLGLAEPLAPHLPGTAFVAPDAPEPCRACGFGFQWFPIPWLDGSSETAAAEGMAAAARDLDAFHDERLAEEGLPPEALALVGFSQGTMMALHVAPRRAEEIAGIVGFSGRLLAPERLAEEARSKPPVLLVHGDADPVVPFADMSLAGEALAEAGFTTYGHVMKGTGHGIAPDGLSVALAFLKERLP IMTRKLTFGRRGAAPGEATSLVVFLHGYGADGADLLGLAEPLAPHLPGTAFVAPDAPEPCRACGFGFQWFPIPWLDGSSETAAAEGMAAAARDLDAFHDERLAEEGLPPEALALVGFSQGTMMALHVAPRRAEEIAGIVGFSGRLLAPERLAEEARSKPPVLLVHGDADPVVPFADMSLAGEALAEAGFTTYGHVMKGTGHGIAPDGLSVALAFLKERLP 4ftx-a1-m1-cB_4ftx-a1-m1-cA Crystal structure of Ego3 homodimer P38247 P38247 2.1 X-RAY DIFFRACTION 137 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 154 158 HSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNKNSINEINSVNNLKMMSLLIKDKWSEDENDTEEQHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFGYKLG HSKNVKGFLENTLKPYDLHSVDFKTSSLQSSMIITATNGGILSYATSNNDVPKNSINEINSVNNLKMMSLLIKDKWSEDENDTEEQHSNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFGYKLG 4fu0-a1-m1-cA_4fu0-a1-m1-cB Crystal Structure of VanG D-Ala:D-Ser Ligase from Enterococcus faecalis Q6WRY5 Q6WRY5 2.35 X-RAY DIFFRACTION 114 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 343 343 QNKKIAVIFGGNSTEYEVSLQSASAVFENINTNKFDIIPIGITRSGEWYHYTGEKEKILNNTWFEDSKNLCPVVVSQNRSVKGFLEIYRIIKVDLVFPVLHGKNGEDGTLQGIFELAGIPVVGCDTLSSALCMDKDRAHKLVSLAGISVPKSVTFKRFNEEAAMKEIEANLTYPLFIKPVRAGSSFGITKVIEKQELDAAIELAFEHDTEVIVEETINGFEVGCAVLGIDELIVGRVDEIELSSGFFDYTEKYTLKSSKIYMPARIDAEAEKRIQEAAVTIYKALGCSGFSRVDMFYTPSGEIVFNEVNTIPGFTSHSRYPNMMKGIGLSFSQMLDKLIGLYV QNKKIAVIFGGNSTEYEVSLQSASAVFENINTNKFDIIPIGITRSGEWYHYTGEKEKILNNTWFEDSKNLCPVVVSQNRSVKGFLEIYRIIKVDLVFPVLHGKNGEDGTLQGIFELAGIPVVGCDTLSSALCMDKDRAHKLVSLAGISVPKSVTFKRFNEEAAMKEIEANLTYPLFIKPVRAGSSFGITKVIEKQELDAAIELAFEHDTEVIVEETINGFEVGCAVLGIDELIVGRVDEIELSSGFFDYTEKYTLKSSKIYMPARIDAEAEKRIQEAAVTIYKALGCSGFSRVDMFYTPSGEIVFNEVNTIPGFTSHSRYPNMMKGIGLSFSQMLDKLIGLYV 4fua-a2-m18-cA_4fua-a2-m9-cA L-FUCULOSE-1-PHOSPHATE ALDOLASE COMPLEX WITH PGH P0AB87 P0AB87 2.43 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 206 206 3fua-a2-m10-cA_3fua-a2-m16-cA 3fua-a2-m11-cA_3fua-a2-m3-cA 3fua-a2-m12-cA_3fua-a2-m4-cA 3fua-a2-m13-cA_3fua-a2-m23-cA 3fua-a2-m14-cA_3fua-a2-m24-cA 3fua-a2-m15-cA_3fua-a2-m8-cA 3fua-a2-m17-cA_3fua-a2-m7-cA 3fua-a2-m18-cA_3fua-a2-m9-cA 3fua-a2-m19-cA_3fua-a2-m2-cA 3fua-a2-m1-cA_3fua-a2-m20-cA 3fua-a2-m21-cA_3fua-a2-m6-cA 3fua-a2-m22-cA_3fua-a2-m5-cA 4fua-a2-m10-cA_4fua-a2-m16-cA 4fua-a2-m11-cA_4fua-a2-m3-cA 4fua-a2-m12-cA_4fua-a2-m4-cA 4fua-a2-m13-cA_4fua-a2-m23-cA 4fua-a2-m14-cA_4fua-a2-m24-cA 4fua-a2-m15-cA_4fua-a2-m8-cA 4fua-a2-m17-cA_4fua-a2-m7-cA 4fua-a2-m19-cA_4fua-a2-m2-cA 4fua-a2-m1-cA_4fua-a2-m20-cA 4fua-a2-m21-cA_4fua-a2-m6-cA 4fua-a2-m22-cA_4fua-a2-m5-cA MERNKLARQIIDTCLEMTRLGLNQGTAGNVSVRYQDGMLITPTGIPYEKLTESHIVFIDGNGKHEEGKLPSSEWRFHMAAYQSRPDANAVVHNHAVHCTAVSILNRSIPAIHYMIAAAGGNSIPCAPYATFGTRELSEHVALALKNRKATLLQHHGLIACEVNLEKALWLAHEVEVLAQLYLTTLAITDPVPVLSDEEIAVVLEKF MERNKLARQIIDTCLEMTRLGLNQGTAGNVSVRYQDGMLITPTGIPYEKLTESHIVFIDGNGKHEEGKLPSSEWRFHMAAYQSRPDANAVVHNHAVHCTAVSILNRSIPAIHYMIAAAGGNSIPCAPYATFGTRELSEHVALALKNRKATLLQHHGLIACEVNLEKALWLAHEVEVLAQLYLTTLAITDPVPVLSDEEIAVVLEKF 4fuk-a1-m1-cB_4fuk-a1-m1-cA Aminopeptidase from Trypanosoma brucei Q4FKC0 Q4FKC0 1.75 X-RAY DIFFRACTION 68 0.985 328 329 AMKTFDFTGPLRPGKITPRRAVPSHILRPDYADRAGGVSASEEKDRGSKVKVYNIQFLHDDSKKTAEIQRIKTVCQLSREVLDIATAAAKPGITTDELDRIVHEATVERNMYPSPLNYYGFPKSVCTSVNEVICHGIPDSRELEEGDILNIDVSSYLNGFHGDLNETVFIGRPDDDSVRLVHAAYECLCAGIGVVKPEALYKQVGDAIEACASQYQCSVVRTYTGHGVGHLFHTSPTVCHYANNKSLGMMRPGHVFTIEPMINLGTWQDVTWPDKWTSTTKDGRRSAQFEHTMVVTNGGVEIFTDWVDGVPTYQKQLKEWGIMLPQRK AMKTFDFTGPLRPGKITPRRAVPSHILRPDYADRAGGVSASEEKDRGSKVKVYNIQFLHDDSKAEIQRIKTVCQLSREVLDIATAAAKPGITTDELDRIVHEATVERNMYPSPLNYYGFPKSVCTSVNEVICHGIPDSRELEEGDILNIDVSSYLNGFHGDLNETVFIGRPDDDSVRLVHAAYECLCAGIGVVKPEALYKQVGDAIEACASQYQCSVVRTYTGHGVGHLFHTSPTVCHYANLGMMRPGHVFTIEPMINLGTWQDVTWPDKWTSTTKDGRRSAQFEHTMVVTNGGVEIFTDWVDGVPTYQKQLKEWGIMLPQRKESATAV 4fun-a1-m1-cA_4fun-a1-m2-cA Structural basis for Zn2+-dependent intercellular adhesion in staphylococcal biofilms Q5HKE8 Q5HKE8 2.31 X-RAY DIFFRACTION 70 1.0 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 206 206 4fum-a1-m1-cA_4fum-a1-m2-cA 4fuo-a1-m1-cA_4fuo-a1-m2-cA 4fup-a2-m1-cB_4fup-a2-m3-cB VDGDSITSTEEIPFDKKREFDPNLAPGTEKVVQKGEPGTKTITTPTTKNPLTGEKVGEGEPTEKITKQPVDEIVHYGGEQIPQGHKDEFDPNAPVDSKTEVPGKPGVKNPDTGEVVTPPVDDVTKYGPVDGDSITSTEEIPFDKKREFDPNLAPGTEKVVQKGEPGTKTITTPTTKNPLTGEKVGEGKSTEKVTKQPVDEIVEYGP VDGDSITSTEEIPFDKKREFDPNLAPGTEKVVQKGEPGTKTITTPTTKNPLTGEKVGEGEPTEKITKQPVDEIVHYGGEQIPQGHKDEFDPNAPVDSKTEVPGKPGVKNPDTGEVVTPPVDDVTKYGPVDGDSITSTEEIPFDKKREFDPNLAPGTEKVVQKGEPGTKTITTPTTKNPLTGEKVGEGKSTEKVTKQPVDEIVEYGP 4fup-a1-m1-cA_4fup-a1-m2-cA Structural basis for Zn2+-dependent intercellular adhesion in staphylococcal biofilms Q5HKE8 Q5HKE8 2.51 X-RAY DIFFRACTION 111 1.0 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 199 199 DPITSTEEIPFDKKREFDPNMAPGTEKVVQKGEPGTKTITTPTTKNKVGEGEPTEKITKQPVDEIVHYGGEQIPQGHKDEFDPNAPVDSKTEVPGKPGVKNPDTGEVVTPPVDDVTKYGPVDGDSITSTEEIPFDKKREFDPNMAPGTEKVVQKGEPGTKTITTPTTKNPMTGEKVGEGKSTEKVTKQPVDEIVEYGPT DPITSTEEIPFDKKREFDPNMAPGTEKVVQKGEPGTKTITTPTTKNKVGEGEPTEKITKQPVDEIVHYGGEQIPQGHKDEFDPNAPVDSKTEVPGKPGVKNPDTGEVVTPPVDDVTKYGPVDGDSITSTEEIPFDKKREFDPNMAPGTEKVVQKGEPGTKTITTPTTKNPMTGEKVGEGKSTEKVTKQPVDEIVEYGPT 4fur-a2-m1-cD_4fur-a2-m1-cF Crystal Structure of Urease subunit gamma 2 from Brucella melitensis biovar Abortus 2308 Q2YQE0 Q2YQE0 2.1 X-RAY DIFFRACTION 22 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 100 100 4fur-a1-m1-cA_4fur-a1-m1-cC 4fur-a1-m1-cB_4fur-a1-m1-cA 4fur-a1-m1-cB_4fur-a1-m1-cC 4fur-a2-m1-cD_4fur-a2-m1-cE 4fur-a2-m1-cE_4fur-a2-m1-cF MHLTPREFDKLVIHMLSDVALKRKNKGLKLNHPEAVAVLSAYVLDGAREGKTVEEVMDGARSVLKADDVMDGVPDLLPLIQVEAVFSDGSRLVSLHNPIT MHLTPREFDKLVIHMLSDVALKRKNKGLKLNHPEAVAVLSAYVLDGAREGKTVEEVMDGARSVLKADDVMDGVPDLLPLIQVEAVFSDGSRLVSLHNPIT 4fuv-a1-m1-cA_4fuv-a1-m2-cA Crystal Structure of Acinetobacter baumannii CarO 2.151 X-RAY DIFFRACTION 45 1.0 980514 (Acinetobacter baumannii TCDC-AB0715) 980514 (Acinetobacter baumannii TCDC-AB0715) 213 213 KNQLIPVGARAEVGTTGYGGALLWQANPYVGLALGYNGGDISWSDDVKVNGSTYDLDMDNNNVYLNAEIRPWGASTNRWAQGLYVAAGAAYLDNDYDLTRNVDATRSFRVNNQDFIAGADGVKINGQMSYKNDIAPYLGFGFAPKINKNWGVFGEVGAYYTGNPTVKLVSSGSAVTTGDQSLEEAVNAEARKIANDDKYKWLPVGKVGVNFFW KNQLIPVGARAEVGTTGYGGALLWQANPYVGLALGYNGGDISWSDDVKVNGSTYDLDMDNNNVYLNAEIRPWGASTNRWAQGLYVAAGAAYLDNDYDLTRNVDATRSFRVNNQDFIAGADGVKINGQMSYKNDIAPYLGFGFAPKINKNWGVFGEVGAYYTGNPTVKLVSSGSAVTTGDQSLEEAVNAEARKIANDDKYKWLPVGKVGVNFFW 4fuw-a1-m1-cA_4fuw-a1-m1-cB Crystal structure of Ego3 mutant P38247 P38247 2.6 X-RAY DIFFRACTION 82 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 140 143 SKNVKGFLENTLKPYGSLQSSMIITATNGGILSYATSNNSINEINSVNNLKMMSLLIKDKWSEDENDNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFGYKLGLEH SKNVKGFLENTLKPYGSLQSSMIITATNGGILSYATSNNSINEINSVNNLKMMSLLIKDKWSEDENDTESNSCYPVEIDSFKTKIYTYEMEDLHTCVAQIPNSDLLLLFIAEGSFPYGLLVIKIERAMRELTDLFGYKLGLEH 4fvg-a1-m1-cA_4fvg-a1-m2-cA SPFH domain of mouse stomatin (Crystal form 3) P54116 P54116 1.8 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 109 109 4fvf-a1-m1-cA_4fvf-a1-m1-cB VDMRTISFDIPPQEVLTKDSVTISVDGVVYYRVQNATLAVANITNADSATRLLAQTTLRNALGTKNLSQILSDREEIAHHMQSTLDDATDDWGIKVERVEIKDVKLPVQ VDMRTISFDIPPQEVLTKDSVTISVDGVVYYRVQNATLAVANITNADSATRLLAQTTLRNALGTKNLSQILSDREEIAHHMQSTLDDATDDWGIKVERVEIKDVKLPVQ 4fvj-a1-m1-cA_4fvj-a1-m1-cE SPFH domain of the mouse stomatin (Crystal form 2) P54116 P54116 2.69 X-RAY DIFFRACTION 51 0.991 10090 (Mus musculus) 10090 (Mus musculus) 113 113 4fvj-a2-m1-cF_4fvj-a2-m1-cB 4fvj-a3-m1-cC_4fvj-a3-m1-cH 4fvj-a4-m1-cD_4fvj-a4-m1-cG DSLIKVDMRTISFDIPPQEVLTKDSVTISVDGVVYYRVQNATLAVANITNADSATRLLAQTTLRNALGTKNLSQILSDREEIAHHMQSTLDDATDDWGIKVERVEIKDVKLPV SLIKVDMRTISFDIPPQEVLTKDSVTISVDGVVYYRVQNATLAVANITNADSATRLLAQTTLRNALGTKNLSQILSDREEIAHHMQSTLDDATDDWGIKVERVEIKDVKLPVQ 4fw9-a1-m2-cA_4fw9-a1-m6-cA Crystal structure of the Lon-like protease MtaLonC C9DRU9 C9DRU9 2 X-RAY DIFFRACTION 156 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 596 596 4fw9-a1-m1-cA_4fw9-a1-m5-cA 4fw9-a1-m1-cA_4fw9-a1-m6-cA 4fw9-a1-m2-cA_4fw9-a1-m4-cA 4fw9-a1-m3-cA_4fw9-a1-m4-cA 4fw9-a1-m3-cA_4fw9-a1-m5-cA 4fwd-a1-m1-cA_4fwd-a1-m5-cA 4fwd-a1-m1-cA_4fwd-a1-m6-cA 4fwd-a1-m2-cA_4fwd-a1-m4-cA 4fwd-a1-m2-cA_4fwd-a1-m6-cA 4fwd-a1-m3-cA_4fwd-a1-m4-cA 4fwd-a1-m3-cA_4fwd-a1-m5-cA 4fwg-a1-m1-cA_4fwg-a1-m5-cA 4fwg-a1-m1-cA_4fwg-a1-m6-cA 4fwg-a1-m2-cA_4fwg-a1-m4-cA 4fwg-a1-m2-cA_4fwg-a1-m6-cA 4fwg-a1-m3-cA_4fwg-a1-m4-cA 4fwg-a1-m3-cA_4fwg-a1-m5-cA 4fwh-a1-m1-cA_4fwh-a1-m5-cA 4fwh-a1-m1-cA_4fwh-a1-m6-cA 4fwh-a1-m2-cA_4fwh-a1-m4-cA 4fwh-a1-m2-cA_4fwh-a1-m6-cA 4fwh-a1-m3-cA_4fwh-a1-m4-cA 4fwh-a1-m3-cA_4fwh-a1-m5-cA RLSYEALEWRTPIENSTEPVSLPPPPPFFGQERAREALELAIRGGFHAYLVGPPSLGKHEALLAYLSTQSVETPPDLLYVPLSERKVAVTLPSGQEIHLAEAVEGLFQRFPQARAYLEALRARLARYAETGEPLDPAQWRPNLLTSSSSGTPPPIVYEPYATAPRLFGRLDYLVDRGVWSTNVSLIRPGAVHRAQGGYLILDALSLKREGTWEAFKRALRNGQVEPVTEPQAPAGLEVEPFPIQQVLVGTPEAFEGLEEDPAFSELFRIRAEFSPTLPASPENCTALGGWLLAQGFQLTQGGLTRLYDEARRAEQRDRDARLVEIRALAEEAAVLGGGLLTAESVEQAIAAREHRSFLSEEEFLRAVQEGVIRLRTTGRAVGEVNSLVVVEAAPYWGRPARLTARAAPGRDHLISIDREAGLGGQIFHKAVLTLAGYLRSRYIEHGSLPVTISLAFEQNYVSIEGDSAGLAELVAALSAIGNLPLRQDLAVTGAVDQTGKVLAVGAINAKVEGFFRVCKALGLSGTQGVILPEANLANLTLRAEVLEAVRAGQFHIYAVETAEQALEILAGAREGFRGLQEKIRAGLEAFARLEEG RLSYEALEWRTPIENSTEPVSLPPPPPFFGQERAREALELAIRGGFHAYLVGPPSLGKHEALLAYLSTQSVETPPDLLYVPLSERKVAVTLPSGQEIHLAEAVEGLFQRFPQARAYLEALRARLARYAETGEPLDPAQWRPNLLTSSSSGTPPPIVYEPYATAPRLFGRLDYLVDRGVWSTNVSLIRPGAVHRAQGGYLILDALSLKREGTWEAFKRALRNGQVEPVTEPQAPAGLEVEPFPIQQVLVGTPEAFEGLEEDPAFSELFRIRAEFSPTLPASPENCTALGGWLLAQGFQLTQGGLTRLYDEARRAEQRDRDARLVEIRALAEEAAVLGGGLLTAESVEQAIAAREHRSFLSEEEFLRAVQEGVIRLRTTGRAVGEVNSLVVVEAAPYWGRPARLTARAAPGRDHLISIDREAGLGGQIFHKAVLTLAGYLRSRYIEHGSLPVTISLAFEQNYVSIEGDSAGLAELVAALSAIGNLPLRQDLAVTGAVDQTGKVLAVGAINAKVEGFFRVCKALGLSGTQGVILPEANLANLTLRAEVLEAVRAGQFHIYAVETAEQALEILAGAREGFRGLQEKIRAGLEAFARLEEG 4fwj-a3-m1-cB_4fwj-a3-m1-cA Native structure of LSD2/AOF1/KDM1b in spacegroup of I222 at 2.9A Q8NB78 Q8NB78 2.9 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 742 750 RKCEKAGCTATCPVCFASASERCAKNGYTSRWYHLSCGEHFCNECFDHYYRSHKGYDKYTTWKKIWTSNGKTEPSPKAFMADQQLPYWVQCTKPECRKWRQLTKEIQLTPQIAKTYRCGMKPNETSDHCSLPEDLRVLEVSNHWWYSMLILPPLLKDSVAAPLLSAYYPDCVGMSPSCTSTVPGMNRYFQPFYQPNECGKALCVRPDVMELDELYEFPEYSRDPTMYLALRNLILALWYTNCKEALTPQKCIPHIIVRGLVRIRCVQEVERILYFMTRKGLINTGVLSVGADQYLLPKDYHNKSVIIIGAGPAGLAAARQLHNFGIKVTVLEAKDRIGGRVWDDKSFKGVTVGRGAQIVNGCINNPVALMCEQLGISMHKFGERCDLIQEGGRITDPTIDKRMDFHFNALLDVVSEWRKDKTQLQDVPLGEKIEEIYKAFIKESGIQFSELEGQVLQFHLSNLEYACGSNLHQVSARSWDHNEFFAQFAGDHTLLTPGYSVIIEKLAEGLDIQLKSPVQCIDYSGDEVQVTTTDGTGYSAQKVLVTVPLALLQKGAIQFNPPLSEKKMKAINSLGAGIIEKIALQFPYRFWDSKVQGADFFGHVPPSASKRGLFAVFYDMDPQKKHSVLMSVIAGEAVASVRTLDDKQVLQQCMATLRELFKEQEVPDPTKYFVTRWSTDPWIQMAYSFVKTGGSGEAYDIIAEDIQGTVFFAGEATNRHFPQTVTGAYLSGVREASKIAAF KKYRKCEKAGCTATCPVCFASASERCAKNGYTSRWYHLSCGEHFCNECFDHYYRSHKDGYDKYTTWKKIWTSNGKTEPSPKAFMADQQLPYWVQCTKPECRKWRQLTKEIQLTPQIAKTYRCGMKPNTAKPETSDHCSLPEDLRVLEVSNHWWYSMLILPPLLKDSVAAPLLSAYYPDCVGMSPSCTSTVPGMNRYFQPFYQPNECGKALCVRPDVMELDELYEFPEYSRDPTMYLALRNLILALWYTNCKEALTPQKCIPHIIVRGLVRIRCVQEVERILYFMTRKGLINTGVLSVGADQYLLPKDYHNKSVIIIGAGPAGLAAARQLHNFGIKVTVLEAKDRIGGRVWDDKSFKGVTVGRGAQIVNGCINNPVALMCEQLGISMHKFGERCDLIQEGGRITDPTIDKRMDFHFNALLDVVSEWRKDKTQLQDVPLGEKIEEIYKAFIKESGIQFSELEGQVLQFHLSNLEYACGSNLHQVSARSWDHNEFFAQFAGDHTLLTPGYSVIIEKLAEGLDIQLKSPVQCIDYSGDEVQVTTTDGTGYSAQKVLVTVPLALLQKGAIQFNPPLSEKKMKAINSLGAGIIEKIALQFPYRFWDSKVQGADFFGHVPPSASKRGLFAVFYDMDPQKKHSVLMSVIAGEAVASVRTLDDKQVLQQCMATLRELFKEQEVPDPTKYFVTRWSTDPWIQMAYSFVKTGGSGEAYDIIAEDIQGTVFFAGEATNRHFPQTVTGAYLSGVREASKIAAF 4fwu-a2-m2-cA_4fwu-a2-m4-cA Crystal structure of glutaminyl cyclase from drosophila melanogaster in space group I4 Q9VRQ9 Q9VRQ9 2 X-RAY DIFFRACTION 57 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 299 299 4fwu-a2-m1-cA_4fwu-a2-m3-cA 4fwu-a2-m1-cA_4fwu-a2-m4-cA 4fwu-a2-m2-cA_4fwu-a2-m3-cA QWRDDEVHFNRTLDSILVPRVVGSRGHQQVREYLVQSLNGLGFQTEVDEFKQRVPVFGELTFANVVGTINPQAQNFLALACHYDSKYFPNDPGFVGATDSAVPCAILLNTAKTLGAYLQKEFRNRSDVGLMLIFFDGEEAFKEWTDADSVYGSKHLAAKLASAQLAPRNIDRIEVLVLLDLIGARNPKFSSFYENTDGLHSSLVQIEKSLRTAGQLEGNNNMFLSRVSGGLVDDDHRPFLDENVPVLHLVATPFPDVWHTPRDNAANLHWPSIRNFNRVFRNFVYQYLKRHTSPVNLRF QWRDDEVHFNRTLDSILVPRVVGSRGHQQVREYLVQSLNGLGFQTEVDEFKQRVPVFGELTFANVVGTINPQAQNFLALACHYDSKYFPNDPGFVGATDSAVPCAILLNTAKTLGAYLQKEFRNRSDVGLMLIFFDGEEAFKEWTDADSVYGSKHLAAKLASAQLAPRNIDRIEVLVLLDLIGARNPKFSSFYENTDGLHSSLVQIEKSLRTAGQLEGNNNMFLSRVSGGLVDDDHRPFLDENVPVLHLVATPFPDVWHTPRDNAANLHWPSIRNFNRVFRNFVYQYLKRHTSPVNLRF 4fwv-a1-m1-cA_4fwv-a1-m6-cA Crystal structure of the N-terminal domain of the Lon-like protease MtaLonC C9DRU9 C9DRU9 2.4 X-RAY DIFFRACTION 66 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 336 336 4fwv-a1-m2-cA_4fwv-a1-m5-cA 4fwv-a1-m3-cA_4fwv-a1-m4-cA AREALELAIRGGFHAYLVGPPSLGKHEALLAYLSTQSVETPPDLLYVPLSERKVAVTLPSGQEIHLAEAVEGLLLEVNRLDELFRQGSFLREKTQLEARFKEAREQQLEALRREAQEAGFALGPVPAELSARLEEVTLGSAASAELEVALRRLRRDWALHYLNNRFEPLFQRFPQARAYLEALRARLARYAETGEPLDPAQWRPNLLTSSSSGTPPPIVYEPYATAPRLFGRLDYLVDRGVWSTNVSLIRPGAVHRAQGGYLILDALSLKREGTWEAFKRALRNGQVEPVTEPQAPAGLEVEPFPIQQVLVGTPEAFEGLEEDPAFSELFRIRAEF AREALELAIRGGFHAYLVGPPSLGKHEALLAYLSTQSVETPPDLLYVPLSERKVAVTLPSGQEIHLAEAVEGLLLEVNRLDELFRQGSFLREKTQLEARFKEAREQQLEALRREAQEAGFALGPVPAELSARLEEVTLGSAASAELEVALRRLRRDWALHYLNNRFEPLFQRFPQARAYLEALRARLARYAETGEPLDPAQWRPNLLTSSSSGTPPPIVYEPYATAPRLFGRLDYLVDRGVWSTNVSLIRPGAVHRAQGGYLILDALSLKREGTWEAFKRALRNGQVEPVTEPQAPAGLEVEPFPIQQVLVGTPEAFEGLEEDPAFSELFRIRAEF 4fwv-a1-m5-cA_4fwv-a1-m6-cA Crystal structure of the N-terminal domain of the Lon-like protease MtaLonC C9DRU9 C9DRU9 2.4 X-RAY DIFFRACTION 33 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 336 336 4fwv-a1-m1-cA_4fwv-a1-m2-cA 4fwv-a1-m1-cA_4fwv-a1-m3-cA 4fwv-a1-m2-cA_4fwv-a1-m3-cA 4fwv-a1-m4-cA_4fwv-a1-m5-cA 4fwv-a1-m4-cA_4fwv-a1-m6-cA AREALELAIRGGFHAYLVGPPSLGKHEALLAYLSTQSVETPPDLLYVPLSERKVAVTLPSGQEIHLAEAVEGLLLEVNRLDELFRQGSFLREKTQLEARFKEAREQQLEALRREAQEAGFALGPVPAELSARLEEVTLGSAASAELEVALRRLRRDWALHYLNNRFEPLFQRFPQARAYLEALRARLARYAETGEPLDPAQWRPNLLTSSSSGTPPPIVYEPYATAPRLFGRLDYLVDRGVWSTNVSLIRPGAVHRAQGGYLILDALSLKREGTWEAFKRALRNGQVEPVTEPQAPAGLEVEPFPIQQVLVGTPEAFEGLEEDPAFSELFRIRAEF AREALELAIRGGFHAYLVGPPSLGKHEALLAYLSTQSVETPPDLLYVPLSERKVAVTLPSGQEIHLAEAVEGLLLEVNRLDELFRQGSFLREKTQLEARFKEAREQQLEALRREAQEAGFALGPVPAELSARLEEVTLGSAASAELEVALRRLRRDWALHYLNNRFEPLFQRFPQARAYLEALRARLARYAETGEPLDPAQWRPNLLTSSSSGTPPPIVYEPYATAPRLFGRLDYLVDRGVWSTNVSLIRPGAVHRAQGGYLILDALSLKREGTWEAFKRALRNGQVEPVTEPQAPAGLEVEPFPIQQVLVGTPEAFEGLEEDPAFSELFRIRAEF 4fx0-a1-m1-cA_4fx0-a1-m1-cB Crystal structure of M. tuberculosis transcriptional regulator MosR O53397 O53397 2.6981 X-RAY DIFFRACTION 189 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 122 135 AFDECACYTTRRAARQLGQAYDRALRPSGLTNTQFSTLAVISLTMSELAARIGVERTTLTRNLEVMRRDGLVRIELTAKGRAALQKAVPLWRGVQAEVTASVGDWPRVRRDIANLGQAAEAC AFDECACYTTRRAARQLGQAYDRALRPSGLTNTQFSTLAVISLSEGIDLTMSELAARIGVERTTLTRNLEVMRRDGLVRVMAGCKRIELTAKGRAALQKAVPLWRGVQAEVTASVGDWPRVRRDIANLGQAAEAC 4fx9-a1-m1-cA_4fx9-a1-m1-cB Structure of the Pyrococcus horikoshii CoA persulfide/polysulfide reductase O58308 O58308 2.7 X-RAY DIFFRACTION 210 0.998 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 442 443 3kd9-a1-m1-cA_3kd9-a1-m1-cB 3kd9-a2-m1-cC_3kd9-a2-m2-cC 5l1n-a1-m1-cA_5l1n-a1-m1-cB MKKKVVIIGGGAAGMSAASRVKRLKPEWDVKVFEATEWVSHAPCGIPYVVEGLSTPDKLMYYPPEVFIKKRGIDLHLNAEVIEVDTGYVRVRGGEKSYEWDYLVFANGASPQVPAIEGVNLKGVFTADLPPDALAIREYMEKYKVENVVIIGGGYIGIEMAEAFAAQGKNVTMIVRGERVLRRSFDKEVTDILEEKLKKHVNLRLQEITMKIEGEERVEKVVTDAGEYKAELVILATGIKPNIELAKQLGVRIGETGAIWTNEKMQTSVENVYAAGDVAETRHVITGRRVWVPLAPAGNKMGYVAGSNIAGKELHFPGVLGTAVTKFMDVEIGKTGLTEMEALKEGYDVRTAFIKASTRPHYYPGGREIWLKGVVDNETNRLLGVQVVGSDILPRIDTAAAMLMAGFTTKDAFFTDLAYAPPFAPVWDPLIVLARVLKFLEH MKKKVVIIGGGAAGMSAASRVKRLKPEWDVKVFEATEWVSHAPCGIPYVVEGLSTPDKLMYYPPEVFIKKRGIDLHLNAEVIEVDTGYVRVRENGGEKSYEWDYLVFANGASPQVPAIEGVNLKGVFTADLPPDALAIREYMEKYKVENVVIIGGGYIGIEMAEAFAAQGKNVTMIVRGERVLRRSFDKEVTDILEEKLKKHVNLRLQEITMKIEGEERVEKVVTDAGEYKAELVILATGIKPNIELAKQLGVRIGETGAIWTNEKMQTSVENVYAAGDVAETRHVITGRRVWVPLAPAGNKMGYVAGSNIAGKELHFPGVLGTAVTKFMDVEIGKTGLTEMEALKEGYDVRTAFIKASTRPHYYPGGREIWLKGVVDNETNRLLGVQVVGSDILPRIDTAAAMLMAGFTTKDAFFTDLAYAPPFAPVWDPLIVLARVLKFLE 4fxe-a1-m1-cC_4fxe-a1-m2-cC Crystal structure of the intact E. coli RelBE toxin-antitoxin complex P0C079 P0C079 2.7503 X-RAY DIFFRACTION 10 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 47 47 LMLEYIADNERLPFKQTLLSDEDAELVEIVKERLRNPKPVRVTLDEL LMLEYIADNERLPFKQTLLSDEDAELVEIVKERLRNPKPVRVTLDEL 4fxe-a1-m2-cA_4fxe-a1-m2-cB Crystal structure of the intact E. coli RelBE toxin-antitoxin complex P0C079 P0C079 2.7503 X-RAY DIFFRACTION 119 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 68 78 2k29-a1-m1-cA_2k29-a1-m1-cB 4fxe-a1-m1-cA_4fxe-a1-m1-cB GSINLRIDDELKARSYAALEKMGVTPSEALRLMLEYIADNERLPFKQTLLSDEDAELVEIVKERLRNP GSINLRIDDELKARSYAALEKMGVTPSEALRLMLEYIADNERLPFKQTLLSDEDAELVEIVKERLRNPKPVRVTLDEL 4fxh-a3-m1-cA_4fxh-a3-m1-cB Crystal structure of the isolated E. coli RelE toxin, P212121 form P0C077 P0C077 2.4 X-RAY DIFFRACTION 54 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 87 93 AYFLDFDERALKEWRKLGSTVREQLKKKLVEVLESPRIEANKLRGMPDYKIKRLVYQVIDEKVVVFVISVGKAERSEVYSEAVKRIL AYFLDFDERALKEWRKLGSTVREQLKKKLVEVLESPRIEANKLRGMPDYKIKLRSSGYRLVYQVIDEKVVVFVISVGKAERSEVYSEAVKRIL 4fxi-a4-m1-cB_4fxi-a4-m1-cC Crystal structure of the isolated E. coli RelE toxin, P21 form P0C077 P0C077 1.8003 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 93 93 AYFLDFDERALKEWRKLGSTVREQLKKKLVEVLESPRIEANKLRGMPDYKIKLRSSGYRLVYQVIDEKVVVFVISVGKAERSEVYSEAVKRIL AYFLDFDERALKEWRKLGSTVREQLKKKLVEVLESPRIEANKLRGMPDYKIKLRSSGYRLVYQVIDEKVVVFVISVGKAERSEVYSEAVKRIL 4fxo-a1-m1-cD_4fxo-a1-m1-cB Zinc-mediated allosteric inhibiton of caspase-6 P55212 P55212 2.85 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 227 3k7e-a1-m1-cC_3k7e-a1-m1-cA MFDPAEKYKMDHRRRGIALIFNHERFFWHLTLPERRGTCADRDNLTRRFSDLGFEVKCFNDLKLKIHEVSTVSHADADCFVCVFLSHGEGNHIYAYDAKIEIQTLTGLFKGDKCHSLVGKPKIFIIQACAASVYTLPAGADFLMCYSVAEGYYSHRETVNGSWYIQDLCEMLGKYGSSLEFTELLTLVNRKVSQRRVDGKKQVPCFASMLTKKLHFFPKS MFDPAEKYKMDHRRRGIALIFNHERFFWHLTLPERRGTCADRDNLTRRFSDLGFEVKCFNDLKELLLKIHEVSTVSHADADCFVCVFLSHGEGNHIYAYDAKIEIQTLTGLFKGDKCHSLVGKPKIFIIQACAASVYTLPAGADFLMCYSVAEGYYSHRETVNGSWYIQDLCEMLGKYGSSLEFTELLTLVNRKVSQRRVDPSAIGKKQVPCFASMLTKKLHFFPKS 4fxp-a2-m1-cC_4fxp-a2-m1-cB Crystal structure of adenosine 5'-phosphosulfate kinase from Arabidopsis thaliana in Complex with Sulfate and APS Q43295 Q43295 1.954 X-RAY DIFFRACTION 104 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 190 200 3uie-a1-m1-cA_3uie-a1-m2-cA 3uie-a2-m1-cC_3uie-a2-m1-cB 4fxp-a1-m1-cA_4fxp-a1-m2-cA CSVEKVDRQRLLDQKGCVIWVTGLSGSGKTLACALNQMLYQKGKLCYILDGDNVRHGLNRDLSFKAEDRAENIRRVGEVAKLFADAGIICIASLISPYRTDRDACRSLLPEGDFVEVFMDVPLSVCEARDPKGLYKLARAGKIKGFTGIDDPYEPPLNCEISLGREGGTSPIEMAEKVVGYLDNKGYLQA NSTNIKWHECSVEKVDRQRLLDQKGCVIWVTGLSGSGKSTLACALNQMLYQKGKLCYILDGDNVRHGLNRDLSFKAEDRAENIRRVGEVAKLFADAGIICIASLISPYRTDRDACRSLLPEGDFVEVFMDVPLSVCEARDPKGLYKLARAGKIKGFTGIDDPYEPPLNCEISLGREGGTSPIEMAEKVVGYLDNKGYLQA 4fxs-a1-m2-cA_4fxs-a1-m4-cA Inosine 5'-monophosphate dehydrogenase from Vibrio cholerae complexed with IMP and mycophenolic acid Q9KTW3 Q9KTW3 2.24 X-RAY DIFFRACTION 213 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 452 452 4fxs-a1-m1-cA_4fxs-a1-m3-cA 4fxs-a1-m1-cA_4fxs-a1-m4-cA 4fxs-a1-m2-cA_4fxs-a1-m3-cA LRIAKEALTFDDVLLVPAHSTVLPNTADLRTRLTKNIALNIPVSASDTVTEARLAIALAQEGGIGFIHKNSIEQQAAQVHQVKIFEAVTHPVTVRPEQTIADVELTHYHGFAGFPVVTENNELVGIITGRDVRFVTDLTKSVAAVTPKERLATVKEGEVQEKHVEKILVVNDEFQLKGITAKESKPNACKDEQGRLRVGAAVGAAPGNEERVKALVEAGVDVLLIDSSHGHSEGVLQRIRETRAAYPHLEIIGGNVATAEGARALIEAGVSAVKVGIGPGSICTTRIVTGVGVPQITAIADAAGVANEYGIPVIADGGIRFSGDISKAIAAGASCVVGSFAGTEEAPGEVILYQGRSYKAYRGGSLGASKGSSDRYFQTADKLVPEGIEGRIAYKGHLKEIIHQQGGLRSCGLTGSATVEDLRTKAQFVRISGAGKESHVHDVQITKEAPNY LRIAKEALTFDDVLLVPAHSTVLPNTADLRTRLTKNIALNIPVSASDTVTEARLAIALAQEGGIGFIHKNSIEQQAAQVHQVKIFEAVTHPVTVRPEQTIADVELTHYHGFAGFPVVTENNELVGIITGRDVRFVTDLTKSVAAVTPKERLATVKEGEVQEKHVEKILVVNDEFQLKGITAKESKPNACKDEQGRLRVGAAVGAAPGNEERVKALVEAGVDVLLIDSSHGHSEGVLQRIRETRAAYPHLEIIGGNVATAEGARALIEAGVSAVKVGIGPGSICTTRIVTGVGVPQITAIADAAGVANEYGIPVIADGGIRFSGDISKAIAAGASCVVGSFAGTEEAPGEVILYQGRSYKAYRGGSLGASKGSSDRYFQTADKLVPEGIEGRIAYKGHLKEIIHQQGGLRSCGLTGSATVEDLRTKAQFVRISGAGKESHVHDVQITKEAPNY 4fxx-a5-m1-cB_4fxx-a5-m1-cA Structure of SF1 coiled-coil domain Q15637 Q15637 2.4801 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 93 MPTVIPPGLTREQERAYIVQLQIEDLTRKLRTGDLGIPEPIYNSEGKRLNTREFRTRKKLEEERHNLITEMVALNPDFKPPADYKP IPGMPTVIPPGLTREQERAYIVQLQIEDLTRKLRTGDLGIPPPSPEPIYNSEGKRLNTREFRTRKKLEEERHNLITEMVALNPDFKPPADYKP 4fyh-a2-m1-cC_4fyh-a2-m1-cD Crystal structure of rcl with phospho-triciribine O35820 O35820 2.44 X-RAY DIFFRACTION 129 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 125 132 4fyh-a1-m1-cB_4fyh-a1-m1-cA 4fyi-a1-m1-cA_4fyi-a1-m1-cB 4fyi-a2-m1-cC_4fyi-a2-m1-cD 4fyk-a1-m1-cB_4fyk-a1-m1-cA 4fyk-a2-m1-cD_4fyk-a2-m1-cC 4kxl-a1-m1-cB_4kxl-a1-m1-cA 4kxn-a2-m1-cC_4kxn-a2-m1-cD RRSVYFCGSIRGGREDQALYARIVSRLRRYGKVLTGDQFIHEQNLNWLQQADVVVAEVTQPSLGVGYELGRAVALGKPILCLFRPQSGRVLSAMIRGAADGSRFQVWDYAEGEVETMLDRYFEAY RRSVYFCGSIRGGREDQALYARIVSRLRRYGKVLTEHVADAGGDQFIHEQNLNWLQQADVVVAEVTQPSLGVGYELGRAVALGKPILCLFRPQSGRVLSAMIRGAADGSRFQVWDYAEGEVETMLDRYFEAY 4fym-a4-m1-cF_4fym-a4-m1-cG Crystal structure of Plasmodium falciparum orotate phosphoribosyltransferase Q8N0R1 Q8N0R1 2.6 X-RAY DIFFRACTION 110 0.981 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 209 216 4fym-a1-m1-cB_4fym-a1-m1-cA 4fym-a2-m1-cC_4fym-a2-m1-cD 4fym-a3-m1-cH_4fym-a3-m1-cE NEFLCDEEIYKSFVHLKDKICEERKKKELVSYSSYIKEMKKLLKVVLLKYKALKFGESNYFFSSGVLNNIVSSNIICFLLSELILKNKLSFDYLLGASYKGIPMVSLTSHFLFESKKYSNIFYLYDRNVIVGNLKKNIIIIDDVFTCGTALTEILAKLKTYEHLKVVAFIVLLNRNEYQKIYFKDIFEKRVGIPLYSILSYKDDIQSMI EFLCDEEIYKSFVHLKDKICEERKKKELVSYSSYIKEMKKLLKVVLLKYKALKFRKSNYFFSSGVLNNIVSSNIICFLLSELILKNKLSFDYLLGASYKGIPMVSLTSHFLFESKKYSNIFYLYDRVIVGNLDDEKKNIIIIDDVFTCGTALTEILAKLKTYEHLKVVAFIVLLNRNEYEINENNQKIYFKDIFEKRVGIPLYSILSYKDDIQSMI 4fyp-a1-m1-cB_4fyp-a1-m1-cA Crystal Structure of Plant Vegetative Storage Protein O49195 O49195 1.8 X-RAY DIFFRACTION 82 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 221 228 SINYPNCRSWHLGVETSNIINFDTVPANCKAYVEDYLITSKQYQYDSKTVNKEAYFYAKGLALKNDTVNVWIFDLDDTLLSSIPYYAKYGYGTENTAPGAYWSWLESGESTPGLPETLHLYENLLELGIEPIIISDRWKKLSEVTVENLKAVGVTKWKHLILKPNGSKLTQVVYKSKVRNSLVKKGYNIVGNIGDQWADLVEDTPGRVFKLPNPLYYVPSL GLSINYPNCRSWHLGVETSNIINFDTVPANCKAYVEDYLITSKQYQYDSKTVNKEAYFYAKGLALKNDTVNVWIFDLDDTLLSSIPYYAKYGYGTENTAPGAYWSWLESGESTPGLPETLHLYENLLELGIEPIIISDRWKKLSEVTVENLKAVGVTKWKHLILKPNGSKLTQVVYKSKVRNSLVKKGYNIVGNIGDQWADLVEDTPGRVFKLPNPLYYVPSLEHHHH 4fyt-a1-m1-cA_4fyt-a1-m2-cA Human aminopeptidase N (CD13) in complex with amastatin P15144 P15144 1.85 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 903 903 4fyq-a1-m1-cA_4fyq-a1-m2-cA 4fyr-a1-m1-cA_4fyr-a1-m2-cA PDQSKAWNRYRLPNTLKPDSYRVTLRPYLTPNDRGLYVFKGSSTVRFTCKEATDVIIIHSKKLNYTLSQGHRVVLRGVGGSQPPDIDKTELVEPTEYLVVHLKGSLVKDSQYEMDSEFEGELADDLAGFYRSEYMEGNVRKVVATTQMQAADARKSFPCFDEPAMKAEFNITLIHPKDLTALSNMLPKGPSTPLPEDPNWNVTEFHTTPKMSTYLLAFIVSEFDYVEKQASNGVLIRIWARPSAIAAGHGDYALNVTGPILNFFAGHYDTPYPLPKSDQIGLPDFNAGAMENWGLVTYRENSLLFDPLSSSSSNKERVVTVIAHELAHQWFGNLVTIEWWNDLWLNEGFASYVEYLGADYAEPTWNLKDLMVLNDVYRVMAVDALASSHPLSTPASEINTPAQISELFDAISYSKGASVLRMLSSFLSEDVFKQGLASYLHTFAYQNTIYLNLWDHLQEAVNNRSIQLPTTVRDIMNRWTLQMGFPVITVDTSTGTLSQEHFLLDPDSNVTRPSEFNYVWIVPITSIRDGRQQQDYWLIDVRAQNDLFSTSGNEWVLLNLNVTGYYRVNYDEENWRKIQTQLQRDHSAIPVINRAQIINDAFNLASAHKVPVTLALNNTLFLIEERQYMPWEAALSSLSYFKLMFDRSEVYGPMKNYLKKQVTPLFIHFRNNTNNWREIPENLMDQYSEVNAISTACSNGVPECEEMVSGLFKQWMENPNNNPIHPNLRSTVYCNAIAQGGEEEWDFAWEQFRNATLVNEADKLRAALACSKELWILNRYLSYTLNPDLIRKQDATSTIISITNNVIGQGLVWDFVQSNWKKLFNDYGGGSFSFSNLIQAVTRRFSTEYELQQLEQFKKDNEETGFGSGTRALEQALEKTKANIKWVKENKEVVLQWFTENSK PDQSKAWNRYRLPNTLKPDSYRVTLRPYLTPNDRGLYVFKGSSTVRFTCKEATDVIIIHSKKLNYTLSQGHRVVLRGVGGSQPPDIDKTELVEPTEYLVVHLKGSLVKDSQYEMDSEFEGELADDLAGFYRSEYMEGNVRKVVATTQMQAADARKSFPCFDEPAMKAEFNITLIHPKDLTALSNMLPKGPSTPLPEDPNWNVTEFHTTPKMSTYLLAFIVSEFDYVEKQASNGVLIRIWARPSAIAAGHGDYALNVTGPILNFFAGHYDTPYPLPKSDQIGLPDFNAGAMENWGLVTYRENSLLFDPLSSSSSNKERVVTVIAHELAHQWFGNLVTIEWWNDLWLNEGFASYVEYLGADYAEPTWNLKDLMVLNDVYRVMAVDALASSHPLSTPASEINTPAQISELFDAISYSKGASVLRMLSSFLSEDVFKQGLASYLHTFAYQNTIYLNLWDHLQEAVNNRSIQLPTTVRDIMNRWTLQMGFPVITVDTSTGTLSQEHFLLDPDSNVTRPSEFNYVWIVPITSIRDGRQQQDYWLIDVRAQNDLFSTSGNEWVLLNLNVTGYYRVNYDEENWRKIQTQLQRDHSAIPVINRAQIINDAFNLASAHKVPVTLALNNTLFLIEERQYMPWEAALSSLSYFKLMFDRSEVYGPMKNYLKKQVTPLFIHFRNNTNNWREIPENLMDQYSEVNAISTACSNGVPECEEMVSGLFKQWMENPNNNPIHPNLRSTVYCNAIAQGGEEEWDFAWEQFRNATLVNEADKLRAALACSKELWILNRYLSYTLNPDLIRKQDATSTIISITNNVIGQGLVWDFVQSNWKKLFNDYGGGSFSFSNLIQAVTRRFSTEYELQQLEQFKKDNEETGFGSGTRALEQALEKTKANIKWVKENKEVVLQWFTENSK 4fyu-a4-m1-cA_4fyu-a4-m3-cC Crystal structure of Thioredoxin from Wuchereria bancrofti at 2.0 Angstrom Q8ISA0 Q8ISA0 2 X-RAY DIFFRACTION 41 1.0 6293 (Wuchereria bancrofti) 6293 (Wuchereria bancrofti) 144 144 4fyu-a4-m1-cA_4fyu-a4-m2-cB 4fyu-a4-m2-cB_4fyu-a4-m3-cC ADLLANIDLKKADGTVKKGSDALANKKVVALYFSAHWCPPCRQFTPILKEFYEEVDDDQFEIVFVSLDHSEEDLNNYVKESHGDWYHVPFGSSEIEKLKNKYEVAGIPMLIVIKSDGNVITKNGRADVSGKAPPQTLSSWLAAA ADLLANIDLKKADGTVKKGSDALANKKVVALYFSAHWCPPCRQFTPILKEFYEEVDDDQFEIVFVSLDHSEEDLNNYVKESHGDWYHVPFGSSEIEKLKNKYEVAGIPMLIVIKSDGNVITKNGRADVSGKAPPQTLSSWLAAA 4fz2-a1-m1-cA_4fz2-a1-m1-cB Crystal structure of the fourth type of archaeal tRNA splicing endonuclease from Candidatus Micrarchaeum acidiphilum ARMAN-2 C7DIA5 C7DIA5 2.252 X-RAY DIFFRACTION 200 1.0 425595 (Candidatus Micrarchaeum acidiphilum ARMAN-2) 425595 (Candidatus Micrarchaeum acidiphilum ARMAN-2) 386 386 TLLLNINTKAKRISVSDQSTIDILRNGYFGEYRAGKLMLEVEEGLYLVDVRKAACTDENSKPVSFNDIAGVFIKRKKLMARYFTFKDWRDRGLIIKSPGLRFGEEEHVQAKRYPSSAINLKKYSVTGIFFPDDMVTVIDDDESGKDLYENFWLGQYGTYKVSEHGNLNKLDIYETLFLIDMGVISIKNFTRAQIVNIASARRTDIMKLYDVYKDWRTKGYVVKTGFKFGTNFRIYFPGAKPIKENNEWIHSKHVLHVFPRDSKLIISEWARAIRVAHSVRKTFILAIPGKTRKKKLAIDFELYHRRGGDIEIPGKNSPRFGMLSLSENERIGGSELSAIINEAKSRKLELVIAIADSETSVTYYKVRRVDLPKSEYEYYEIDWMQP TLLLNINTKAKRISVSDQSTIDILRNGYFGEYRAGKLMLEVEEGLYLVDVRKAACTDENSKPVSFNDIAGVFIKRKKLMARYFTFKDWRDRGLIIKSPGLRFGEEEHVQAKRYPSSAINLKKYSVTGIFFPDDMVTVIDDDESGKDLYENFWLGQYGTYKVSEHGNLNKLDIYETLFLIDMGVISIKNFTRAQIVNIASARRTDIMKLYDVYKDWRTKGYVVKTGFKFGTNFRIYFPGAKPIKENNEWIHSKHVLHVFPRDSKLIISEWARAIRVAHSVRKTFILAIPGKTRKKKLAIDFELYHRRGGDIEIPGKNSPRFGMLSLSENERIGGSELSAIINEAKSRKLELVIAIADSETSVTYYKVRRVDLPKSEYEYYEIDWMQP 4fzb-a1-m1-cD_4fzb-a1-m1-cC Structure of thymidylate synthase ThyX complexed to a new inhibitor O41156 O41156 2.59 X-RAY DIFFRACTION 128 0.995 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 203 207 4fzb-a1-m1-cB_4fzb-a1-m1-cA 4fzb-a2-m1-cE_4fzb-a2-m1-cF 4fzb-a2-m1-cH_4fzb-a2-m1-cG 4fzb-a3-m1-cJ_4fzb-a3-m1-cI 4fzb-a3-m1-cK_4fzb-a3-m1-cL 4fzb-a4-m1-cN_4fzb-a4-m1-cM 4fzb-a4-m1-cP_4fzb-a4-m1-cO TGSAKLISVTKPVVEGVNTAEELIAYAARVSNPENQINNKTASGLLKYCIRHKHWSIFETAFMTLELKTSRGIAAQVLRHRSFHFQEFSQRYASVMETPPPHQARFEDDQTWWATEQEKLYAQSMELYNKALEKGIAKECARFILPLSTPTTIYMSGTIRDWIHYIELRTSNGTQREHIDLANACKEIFIKEFPSIAKALDWV ASMTGSAKLISVTKPVVEGVNTAEELIAYAARVSNPENQINNKTASGLLKYCIRHKHWSIFETAFMTLELKTSRGIAAQVLRHRSFHFQEFSQRYASVMETPPPHQARPEDDQTWWATEQEKLYAQSMELYNKALEKGIAKECARFILPLSTPTTIYMSGTIRDWIHYIELRTSNGTQREHIDLANACKEIFIKEFPSIAKALDWVH 4fzb-a4-m1-cN_4fzb-a4-m1-cP Structure of thymidylate synthase ThyX complexed to a new inhibitor O41156 O41156 2.59 X-RAY DIFFRACTION 94 0.994 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 177 197 4fzb-a1-m1-cA_4fzb-a1-m1-cC 4fzb-a1-m1-cB_4fzb-a1-m1-cD 4fzb-a2-m1-cG_4fzb-a2-m1-cE 4fzb-a2-m1-cH_4fzb-a2-m1-cF 4fzb-a3-m1-cI_4fzb-a3-m1-cK 4fzb-a3-m1-cJ_4fzb-a3-m1-cL 4fzb-a4-m1-cM_4fzb-a4-m1-cO GSAKLISVTKPVVEGVNTAEELIAYAARVSTASGLLKYCIRHKHWSIFETAFMTLELKTSRGIAAQVLRHRSFHFQEFSQRYAQTWWATEQEKLYAQSMELYNKALEKGIAKECARFILPLSTPTTIYMSGTIRDWIHYIELRTSNGTQREHIDLANACKEIFIKEFPSIAKALDWV GSAKLISVTKPVVEGVNTAEELIAYAARVSNPENQINNKTASGLLKYCIRHKHWSIFETAFMTLELKTSRGIAAQVLRHRSFHFQEFSQRYASVMETPPPHQDDQTWWATEQEKLYAQSMELYNKALEKGIAKECARFILPLSTPTTIYMSGTIRDWIHYIELRTSNGTQREHIDLANACKEIFIKEFPSIAKALDW 4fzh-a1-m1-cA_4fzh-a1-m1-cC Structure of the Ulster Strain Newcastle Disease Virus Hemagglutinin-Neuraminidase Reveals Auto-Inhibitory Interactions Associated with Low Virulence P12558 P12558 3.5008 X-RAY DIFFRACTION 16 1.0 11190 (Newcastle disease virus Ulster/67) 11190 (Newcastle disease virus Ulster/67) 486 486 GAPIHDPDYIGGIGKELIVDDASDVTSFYPSAFQEHLNFIPAPTTGSGCTRIPSFDMSATHYCYTHNVILSGCRDHSHSHQYLALGVLRTSATGRVFFSTLHSINLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYNSAVPTSMVHGRLGFDGQYHEKDLDVTTLFEDWVANYPGVGGGSFIDNRVWFPVYGGLKPNSPSDTAQEGKYVIYKRYNDTCPDEQDYQIRMAKSSYKPGRFGGKRVQQAILSIKVSTSLGEDPVLTVPPNTVTLMGAEGRVLTVGTSHFLYQRGSSYFSPALLYPMTVSNKTATLHSPYTFDAFTRPGSVPCQASARCPNSCVTGVYTDPYPLVFYRNHTLRGVFGTMLDDKQARLNPVSAVFDSISRSRITRVSSSSTKAAYTTSTCFKVVKTNKTYCLSIAEISNTLFGEFRIVPLLVEILKDDGVRLSQLREGWKDDIVSPIFCDAKNQTEYRRELESYAASW GAPIHDPDYIGGIGKELIVDDASDVTSFYPSAFQEHLNFIPAPTTGSGCTRIPSFDMSATHYCYTHNVILSGCRDHSHSHQYLALGVLRTSATGRVFFSTLHSINLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYNSAVPTSMVHGRLGFDGQYHEKDLDVTTLFEDWVANYPGVGGGSFIDNRVWFPVYGGLKPNSPSDTAQEGKYVIYKRYNDTCPDEQDYQIRMAKSSYKPGRFGGKRVQQAILSIKVSTSLGEDPVLTVPPNTVTLMGAEGRVLTVGTSHFLYQRGSSYFSPALLYPMTVSNKTATLHSPYTFDAFTRPGSVPCQASARCPNSCVTGVYTDPYPLVFYRNHTLRGVFGTMLDDKQARLNPVSAVFDSISRSRITRVSSSSTKAAYTTSTCFKVVKTNKTYCLSIAEISNTLFGEFRIVPLLVEILKDDGVRLSQLREGWKDDIVSPIFCDAKNQTEYRRELESYAASW 4fzl-a3-m2-cA_4fzl-a3-m1-cB High resolution structure of truncated bacteriocin syringacin M from Pseudomonas syringae pv. tomato DC3000 Q88A25 Q88A25 1.46 X-RAY DIFFRACTION 30 0.996 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 239 242 GMQNPVATVLLLQGDLYCSPNCLATFQDQARRDSFGIQSKVALKTFAAADQREAEGRDLRTAYNEIATDIGRSQQINENIIKYPPGNHVLSGGLMTPFHALAHGMFGLGAPLTFPIQNVGLNVDIRGIPDVMNVIQSARPVGTSSLDVNFAYDVGKDSNASWLTLGNITLRLVGTIDKNASGAWTFSGEIRAFNDVYDANPSNHRGWLGENLTSLLSAVPFTSYSIEIPGSLPVTVSGN MQNPVATVLLLQGDLYCSPNCLATFQDQARRDSFGIQSKVALKTFAAADQREAEGRDLRTAYNEIATDIGRSQQINENIIKYPPGNHVLSGGLMTPFHALAHGMFGLGAPLTFPIQNVGLNVDIRGIPDVMNVIQSARPVGTSSLDVNFAYDVGKDSNASWLTLGNITLRLVGTIDKNASGAWTFSGEIRAFNDVYDANPSNHRGWLGENLTSLLSAVPFTSYSIEIPGSLPVTVSGNLEHH 4fzm-a2-m1-cA_4fzm-a2-m2-cA Crystal structure of the bacteriocin syringacin M from Pseudomonas syringae pv. tomato DC3000 Q88A25 Q88A25 2.83 X-RAY DIFFRACTION 52 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 276 276 4fzn-a2-m1-cA_4fzn-a2-m2-cA PIELPPTYITPYPEISAGGNGTYRGQDLSSGQSFPRGMQNPVATVLLLQGDLYCSPNCLATFQDQARRDSFGIQSKVALKTFAAADQREAEGRDLRTAYNEIATDIGRSQQINENIIKYPPGNHVLSGGLMTPFHALAHGMFGLGAPLTFPIQNVGLNVDIRGIPDVMNVIQSARPVGTSSLDVNFAYDVGKDSNASWLTLGNITLRLVGTIDKNASGAWTFSGEIRAFNDVYDANPSNHRGWLGENLTSLLSAVPFTSYSIEIPGSLPVTVSGNL PIELPPTYITPYPEISAGGNGTYRGQDLSSGQSFPRGMQNPVATVLLLQGDLYCSPNCLATFQDQARRDSFGIQSKVALKTFAAADQREAEGRDLRTAYNEIATDIGRSQQINENIIKYPPGNHVLSGGLMTPFHALAHGMFGLGAPLTFPIQNVGLNVDIRGIPDVMNVIQSARPVGTSSLDVNFAYDVGKDSNASWLTLGNITLRLVGTIDKNASGAWTFSGEIRAFNDVYDANPSNHRGWLGENLTSLLSAVPFTSYSIEIPGSLPVTVSGNL 4fzp-a1-m1-cB_4fzp-a1-m1-cA Crystal Structure of the uranyl binding protein complexed with uranyl O27725 O27725 1.29 X-RAY DIFFRACTION 74 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 80 81 2pmr-a1-m1-cA_2pmr-a1-m2-cA 4fzo-a1-m1-cB_4fzo-a1-m1-cA ALDCRERIEKDLEDLEKELMEMKSIKLSDDEEAVVERALNYRDDSVYYLEKGDHITSFGCITYAEGLTDSLRMLHRIIEG NALDCRERIEKDLEDLEKELMEMKSIKLSDDEEAVVERALNYRDDSVYYLEKGDHITSFGCITYAEGLTDSLRMLHRIIEG 4fzq-a1-m1-cB_4fzq-a1-m1-cA Crystal structure of HP0197-G5 2.5 X-RAY DIFFRACTION 17 1.0 391296 (Streptococcus suis 98HAH33) 391296 (Streptococcus suis 98HAH33) 78 79 SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKGSL SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKGSLE 4fzq-a1-m1-cD_4fzq-a1-m1-cA Crystal structure of HP0197-G5 2.5 X-RAY DIFFRACTION 19 1.0 391296 (Streptococcus suis 98HAH33) 391296 (Streptococcus suis 98HAH33) 76 79 SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKG SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKGSLE 4fzq-a1-m1-cD_4fzq-a1-m1-cE Crystal structure of HP0197-G5 2.5 X-RAY DIFFRACTION 33 1.0 391296 (Streptococcus suis 98HAH33) 391296 (Streptococcus suis 98HAH33) 76 76 SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKG SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKG 4fzq-a1-m1-cF_4fzq-a1-m1-cA Crystal structure of HP0197-G5 2.5 X-RAY DIFFRACTION 24 1.0 391296 (Streptococcus suis 98HAH33) 391296 (Streptococcus suis 98HAH33) 76 79 4fzq-a1-m1-cD_4fzq-a1-m1-cC 4fzq-a1-m1-cE_4fzq-a1-m1-cB SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKG SEFTTKERKVEEALPIKEEIRYDASLPLGKSYLLQEGKAGKKVSVYQDVIVDGKVMATNLLSETVVEGQNRILVKGSLE 4fzr-a1-m1-cA_4fzr-a1-m2-cA Crystal Structure of SsfS6, Streptomyces sp. SF2575 glycosyltransferase D6MSX4 D6MSX4 2.397 X-RAY DIFFRACTION 124 1.0 746675 (Streptomyces sp. SF2575) 746675 (Streptomyces sp. SF2575) 338 338 4g2t-a1-m1-cA_4g2t-a1-m2-cA HRILVIAGCSEGFVPLVPLSWALRAAGHEVLVAASENGPTVTGAGLPFAPTCPSLDPEVLSWDREGNRTTPREEKPLLEHIGRGYGRLVLRRDEALALAERWKPDLVLTETYSLTGPLVAATLGIPWIEQSIRLASPELIKSAGVGELAPELAELGLTDFPDPLLSIDVCPPSEPGTTKRYVPYNGRNDQVPSWVFEERKQPRLCLTLSLLQALSQELPKLGFEVVVAVSDLPEGVLAAGQFPLSAIPACDVVVHHGGHGTTLTCLSEGVPQVSVPVIAEVWDSARLLHAAGAGVEVPSVLAACARIRDDSSYVGNARRLAAEATLPTPADIVRLIEQ HRILVIAGCSEGFVPLVPLSWALRAAGHEVLVAASENGPTVTGAGLPFAPTCPSLDPEVLSWDREGNRTTPREEKPLLEHIGRGYGRLVLRRDEALALAERWKPDLVLTETYSLTGPLVAATLGIPWIEQSIRLASPELIKSAGVGELAPELAELGLTDFPDPLLSIDVCPPSEPGTTKRYVPYNGRNDQVPSWVFEERKQPRLCLTLSLLQALSQELPKLGFEVVVAVSDLPEGVLAAGQFPLSAIPACDVVVHHGGHGTTLTCLSEGVPQVSVPVIAEVWDSARLLHAAGAGVEVPSVLAACARIRDDSSYVGNARRLAAEATLPTPADIVRLIEQ 4fzw-a1-m2-cA_4fzw-a1-m3-cB Crystal Structure of the PaaF-PaaG Hydratase-Isomerase Complex from E.coli P76082 P76082 2.55 X-RAY DIFFRACTION 44 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 254 256 4fzw-a1-m1-cA_4fzw-a1-m2-cB 4fzw-a1-m3-cA_4fzw-a1-m1-cB SELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR SMSELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR 4fzw-a1-m2-cB_4fzw-a1-m3-cB Crystal Structure of the PaaF-PaaG Hydratase-Isomerase Complex from E.coli P76082 P76082 2.55 X-RAY DIFFRACTION 138 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 256 256 4fzw-a1-m1-cA_4fzw-a1-m2-cA 4fzw-a1-m1-cA_4fzw-a1-m3-cA 4fzw-a1-m1-cB_4fzw-a1-m2-cB 4fzw-a1-m1-cB_4fzw-a1-m3-cB 4fzw-a1-m2-cA_4fzw-a1-m3-cA SMSELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR SMSELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR 4fzw-a1-m2-cD_4fzw-a1-m3-cD Crystal Structure of the PaaF-PaaG Hydratase-Isomerase Complex from E.coli P77467 P77467 2.55 X-RAY DIFFRACTION 149 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 250 250 4fzw-a1-m1-cC_4fzw-a1-m2-cC 4fzw-a1-m1-cC_4fzw-a1-m3-cC 4fzw-a1-m1-cD_4fzw-a1-m2-cD 4fzw-a1-m1-cD_4fzw-a1-m3-cD 4fzw-a1-m2-cC_4fzw-a1-m3-cC FILSHVEKGVMTLTLNRPERLNSFNDEMHAQLAECLKQVERDDTIRCLLLTGAGRGFCAGQDLNAPDLGMSVERFYNPLVRRLAKLPKPVICAVNGVAAGAGATLALGGDIVIAARSAKFVMAFSKLGLIPDCGGTWLLPRVAGRARAMGLALLGNQLSAEQAHEWGMIWQVVDDETLADTAQQLARHLATQPTFGLGLIKQAINSAETNTLDTQLDLERDYQRLAGRSADYREGVSAFLAKRSPQFTGK FILSHVEKGVMTLTLNRPERLNSFNDEMHAQLAECLKQVERDDTIRCLLLTGAGRGFCAGQDLNAPDLGMSVERFYNPLVRRLAKLPKPVICAVNGVAAGAGATLALGGDIVIAARSAKFVMAFSKLGLIPDCGGTWLLPRVAGRARAMGLALLGNQLSAEQAHEWGMIWQVVDDETLADTAQQLARHLATQPTFGLGLIKQAINSAETNTLDTQLDLERDYQRLAGRSADYREGVSAFLAKRSPQFTGK 4fzw-a1-m3-cA_4fzw-a1-m3-cB Crystal Structure of the PaaF-PaaG Hydratase-Isomerase Complex from E.coli P76082 P76082 2.55 X-RAY DIFFRACTION 24 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 254 256 4fzw-a1-m1-cA_4fzw-a1-m1-cB 4fzw-a1-m2-cA_4fzw-a1-m2-cB SELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR SMSELIVSRQQRVLLLTLNRPAARNALNNALLMQLVNELEAAATDTSISVCVITGNARFFAAGADLNEMAEKDLAATLNDTRPQLWARLQAFNKPLIAAVNGYALGAGCELALLCDVVVAGENARFGLPEITLGIMPGAGGTQRLIRSVGKSLASKMVLSGESITAQQAQQAGLVSDVFPSDLTLEYALQLASKMARHSPLALQAAKQALRQSQEVALQAGLAQERQLFTLLAATEDRHEGISAFLQKRTPDFKGR 4g03-a3-m1-cA_4g03-a3-m1-cB High-resolution Crystal Structural Variance Analysis between Recombinant and Wild-type Human Serum Albumin P02768 P02768 2.216 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 578 578 4g04-a3-m1-cA_4g04-a3-m1-cB SEVAHRFKDLGEENFKALVLIAFAQYLQQCPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAETFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAVMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAA SEVAHRFKDLGEENFKALVLIAFAQYLQQCPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAETFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAVMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAA 4g09-a1-m1-cA_4g09-a1-m2-cA The crystal structure of the C366S mutant of HDH from Brucella suis in complex with a substituted benzyl ketone Q8G2R2 Q8G2R2 1.9 X-RAY DIFFRACTION 353 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 432 432 4g07-a1-m1-cA_4g07-a1-m2-cA VTTLRQTDPDFEQKFAAFLSGEDVDRAVREIVDRVRREGDSALLDYSRRFDRIDLEKTGIAVTEAEIDAAFDAAPASTVEALKLARDRIEKHHARQLPKDDRYTDALGVELGSRWTAIEAVGLYVPGGTASYPSSVLMNAMPAKVAGVDRIVMVVPAPDGNLNPLVLVAARLAGVSEIYRVGGAQAIAALAYGTETIRPVAKIVGPGNAYVAAAKRIVFGTVGIDMIAGPSEVLIVADKDNNPDWIAADLLAQAEHDTAAQSILMTNDEAFAHAVEEAVERQLHTLARTETASASWRDFGAVILVKDFEDAIPLANRIAAEHLEIAVADAEAFVPRIRNAGSIFIGGYTPEVIGDYVGGSNHVLPTARSARFSSGLSVLDYMKRTSLLKLGSEQLRALGPAAIEIARAEGLDAHAQSVAIRLNLLEHHHHHH VTTLRQTDPDFEQKFAAFLSGEDVDRAVREIVDRVRREGDSALLDYSRRFDRIDLEKTGIAVTEAEIDAAFDAAPASTVEALKLARDRIEKHHARQLPKDDRYTDALGVELGSRWTAIEAVGLYVPGGTASYPSSVLMNAMPAKVAGVDRIVMVVPAPDGNLNPLVLVAARLAGVSEIYRVGGAQAIAALAYGTETIRPVAKIVGPGNAYVAAAKRIVFGTVGIDMIAGPSEVLIVADKDNNPDWIAADLLAQAEHDTAAQSILMTNDEAFAHAVEEAVERQLHTLARTETASASWRDFGAVILVKDFEDAIPLANRIAAEHLEIAVADAEAFVPRIRNAGSIFIGGYTPEVIGDYVGGSNHVLPTARSARFSSGLSVLDYMKRTSLLKLGSEQLRALGPAAIEIARAEGLDAHAQSVAIRLNLLEHHHHHH 4g0b-a4-m1-cB_4g0b-a4-m3-cB Structure of native HCT from Coffea canephora A4ZKE4 A4ZKE4 3 X-RAY DIFFRACTION 74 1.0 49390 (Coffea canephora) 49390 (Coffea canephora) 423 423 MKIEVKESTMVRPAQETPGRNLWNSNVDLVVPNFHTPSVYFYRPTGSSNFFDAKVLKDALSRALVPFYPMAGRLKRDEDGRIEIECNGEGVLFVEAESDGVVDDFGDFAPTLELRRLIPAVDYSQGISSYALLVLQVTYFKCGGVSLGVGMRHHAADGFSGLHFINSWSDMARGLDVTLPPFIDRTLLRARDPPQPQFQHIEYQPPPALKPETAVSIFKLTREQISALKAKSKEDGNTISYSSYEMLAGHVWRCACKARGLEVDQGTKLYIATDGRARLRPSLPPGYFGNVIFTATPIAIAGDLEFKPVWYAASKIHDALARMDNDYLRSALDYLELQPDLKALVRGAHTFKCPNLGITSWVRLPIHDADFGWGRPIFMGPGGIAYEGLSFILPSPTNDGSMSVAISLQGEHMKLFQSFLYDI MKIEVKESTMVRPAQETPGRNLWNSNVDLVVPNFHTPSVYFYRPTGSSNFFDAKVLKDALSRALVPFYPMAGRLKRDEDGRIEIECNGEGVLFVEAESDGVVDDFGDFAPTLELRRLIPAVDYSQGISSYALLVLQVTYFKCGGVSLGVGMRHHAADGFSGLHFINSWSDMARGLDVTLPPFIDRTLLRARDPPQPQFQHIEYQPPPALKPETAVSIFKLTREQISALKAKSKEDGNTISYSSYEMLAGHVWRCACKARGLEVDQGTKLYIATDGRARLRPSLPPGYFGNVIFTATPIAIAGDLEFKPVWYAASKIHDALARMDNDYLRSALDYLELQPDLKALVRGAHTFKCPNLGITSWVRLPIHDADFGWGRPIFMGPGGIAYEGLSFILPSPTNDGSMSVAISLQGEHMKLFQSFLYDI 4g0r-a1-m54-cA_4g0r-a1-m9-cA Structural characterization of H-1 Parvovirus: comparison of infectious virions to replication defective particles P03136 P03136 2.7 X-RAY DIFFRACTION 413 1.0 10799 (H-1 parvovirus) 10799 (H-1 parvovirus) 554 554 4g0r-a1-m10-cA_4g0r-a1-m23-cA 4g0r-a1-m11-cA_4g0r-a1-m20-cA 4g0r-a1-m11-cA_4g0r-a1-m38-cA 4g0r-a1-m12-cA_4g0r-a1-m37-cA 4g0r-a1-m12-cA_4g0r-a1-m47-cA 4g0r-a1-m13-cA_4g0r-a1-m45-cA 4g0r-a1-m13-cA_4g0r-a1-m46-cA 4g0r-a1-m14-cA_4g0r-a1-m29-cA 4g0r-a1-m14-cA_4g0r-a1-m44-cA 4g0r-a1-m15-cA_4g0r-a1-m16-cA 4g0r-a1-m15-cA_4g0r-a1-m28-cA 4g0r-a1-m16-cA_4g0r-a1-m28-cA 4g0r-a1-m17-cA_4g0r-a1-m27-cA 4g0r-a1-m17-cA_4g0r-a1-m52-cA 4g0r-a1-m18-cA_4g0r-a1-m51-cA 4g0r-a1-m18-cA_4g0r-a1-m60-cA 4g0r-a1-m19-cA_4g0r-a1-m39-cA 4g0r-a1-m19-cA_4g0r-a1-m59-cA 4g0r-a1-m1-cA_4g0r-a1-m10-cA 4g0r-a1-m1-cA_4g0r-a1-m23-cA 4g0r-a1-m20-cA_4g0r-a1-m38-cA 4g0r-a1-m21-cA_4g0r-a1-m30-cA 4g0r-a1-m21-cA_4g0r-a1-m43-cA 4g0r-a1-m22-cA_4g0r-a1-m42-cA 4g0r-a1-m24-cA_4g0r-a1-m54-cA 4g0r-a1-m24-cA_4g0r-a1-m9-cA 4g0r-a1-m25-cA_4g0r-a1-m26-cA 4g0r-a1-m25-cA_4g0r-a1-m53-cA 4g0r-a1-m26-cA_4g0r-a1-m53-cA 4g0r-a1-m27-cA_4g0r-a1-m52-cA 4g0r-a1-m29-cA_4g0r-a1-m44-cA 4g0r-a1-m2-cA_4g0r-a1-m22-cA 4g0r-a1-m2-cA_4g0r-a1-m42-cA 4g0r-a1-m30-cA_4g0r-a1-m43-cA 4g0r-a1-m31-cA_4g0r-a1-m40-cA 4g0r-a1-m31-cA_4g0r-a1-m58-cA 4g0r-a1-m32-cA_4g0r-a1-m57-cA 4g0r-a1-m32-cA_4g0r-a1-m7-cA 4g0r-a1-m33-cA_4g0r-a1-m5-cA 4g0r-a1-m33-cA_4g0r-a1-m6-cA 4g0r-a1-m34-cA_4g0r-a1-m49-cA 4g0r-a1-m34-cA_4g0r-a1-m4-cA 4g0r-a1-m35-cA_4g0r-a1-m36-cA 4g0r-a1-m35-cA_4g0r-a1-m48-cA 4g0r-a1-m36-cA_4g0r-a1-m48-cA 4g0r-a1-m37-cA_4g0r-a1-m47-cA 4g0r-a1-m39-cA_4g0r-a1-m59-cA 4g0r-a1-m3-cA_4g0r-a1-m41-cA 4g0r-a1-m3-cA_4g0r-a1-m50-cA 4g0r-a1-m40-cA_4g0r-a1-m58-cA 4g0r-a1-m41-cA_4g0r-a1-m50-cA 4g0r-a1-m45-cA_4g0r-a1-m46-cA 4g0r-a1-m4-cA_4g0r-a1-m49-cA 4g0r-a1-m51-cA_4g0r-a1-m60-cA 4g0r-a1-m55-cA_4g0r-a1-m56-cA 4g0r-a1-m55-cA_4g0r-a1-m8-cA 4g0r-a1-m56-cA_4g0r-a1-m8-cA 4g0r-a1-m57-cA_4g0r-a1-m7-cA 4g0r-a1-m5-cA_4g0r-a1-m6-cA 4gbt-a1-m10-cA_4gbt-a1-m23-cA 4gbt-a1-m11-cA_4gbt-a1-m20-cA 4gbt-a1-m11-cA_4gbt-a1-m38-cA 4gbt-a1-m12-cA_4gbt-a1-m37-cA 4gbt-a1-m12-cA_4gbt-a1-m47-cA 4gbt-a1-m13-cA_4gbt-a1-m45-cA 4gbt-a1-m13-cA_4gbt-a1-m46-cA 4gbt-a1-m14-cA_4gbt-a1-m29-cA 4gbt-a1-m14-cA_4gbt-a1-m44-cA 4gbt-a1-m15-cA_4gbt-a1-m16-cA 4gbt-a1-m15-cA_4gbt-a1-m28-cA 4gbt-a1-m16-cA_4gbt-a1-m28-cA 4gbt-a1-m17-cA_4gbt-a1-m27-cA 4gbt-a1-m17-cA_4gbt-a1-m52-cA 4gbt-a1-m18-cA_4gbt-a1-m51-cA 4gbt-a1-m18-cA_4gbt-a1-m60-cA 4gbt-a1-m19-cA_4gbt-a1-m39-cA 4gbt-a1-m19-cA_4gbt-a1-m59-cA 4gbt-a1-m1-cA_4gbt-a1-m10-cA 4gbt-a1-m1-cA_4gbt-a1-m23-cA 4gbt-a1-m20-cA_4gbt-a1-m38-cA 4gbt-a1-m21-cA_4gbt-a1-m30-cA 4gbt-a1-m21-cA_4gbt-a1-m43-cA 4gbt-a1-m22-cA_4gbt-a1-m42-cA 4gbt-a1-m24-cA_4gbt-a1-m54-cA 4gbt-a1-m24-cA_4gbt-a1-m9-cA 4gbt-a1-m25-cA_4gbt-a1-m26-cA 4gbt-a1-m25-cA_4gbt-a1-m53-cA 4gbt-a1-m26-cA_4gbt-a1-m53-cA 4gbt-a1-m27-cA_4gbt-a1-m52-cA 4gbt-a1-m29-cA_4gbt-a1-m44-cA 4gbt-a1-m2-cA_4gbt-a1-m22-cA 4gbt-a1-m2-cA_4gbt-a1-m42-cA 4gbt-a1-m30-cA_4gbt-a1-m43-cA 4gbt-a1-m31-cA_4gbt-a1-m40-cA 4gbt-a1-m31-cA_4gbt-a1-m58-cA 4gbt-a1-m32-cA_4gbt-a1-m57-cA 4gbt-a1-m32-cA_4gbt-a1-m7-cA 4gbt-a1-m33-cA_4gbt-a1-m5-cA 4gbt-a1-m33-cA_4gbt-a1-m6-cA 4gbt-a1-m34-cA_4gbt-a1-m49-cA 4gbt-a1-m34-cA_4gbt-a1-m4-cA 4gbt-a1-m35-cA_4gbt-a1-m36-cA 4gbt-a1-m35-cA_4gbt-a1-m48-cA 4gbt-a1-m36-cA_4gbt-a1-m48-cA 4gbt-a1-m37-cA_4gbt-a1-m47-cA 4gbt-a1-m39-cA_4gbt-a1-m59-cA 4gbt-a1-m3-cA_4gbt-a1-m41-cA 4gbt-a1-m3-cA_4gbt-a1-m50-cA 4gbt-a1-m40-cA_4gbt-a1-m58-cA 4gbt-a1-m41-cA_4gbt-a1-m50-cA 4gbt-a1-m45-cA_4gbt-a1-m46-cA 4gbt-a1-m4-cA_4gbt-a1-m49-cA 4gbt-a1-m51-cA_4gbt-a1-m60-cA 4gbt-a1-m54-cA_4gbt-a1-m9-cA 4gbt-a1-m55-cA_4gbt-a1-m56-cA 4gbt-a1-m55-cA_4gbt-a1-m8-cA 4gbt-a1-m56-cA_4gbt-a1-m8-cA 4gbt-a1-m57-cA_4gbt-a1-m7-cA 4gbt-a1-m5-cA_4gbt-a1-m6-cA GIGVSTGTYDNQTTYKFLGDGWVEITAHASRLLHLGMPPSENYCRVTVHNNQTTGHGTKVKGNMAYDDTHQQIWTPWSLVDANAWGVWFQPSDWQFIQNSMESLNLDSLSQELFNVVVKTVTEQQGAGAIKVYNNDLTACMMVALDSNNILPYTPAAQTSETLGFYPWKPTAPAPYRYYFFMPRQLSVTSSNSAEGTQITDTIGEPQALNSQFFTIENTLPITLLRTGDEFTTGTYIFNTDPLKLTHTWQTNRHLGMPPRITDLPTSDTATASLTANGDRFGSTQTQNVNYVTEALRTRPAQIGFMQPHDNFEANRGGPFKVPVVPLDITAGEDHDANGAIRFNYGKQHGEDWAKQGAAPERYTWDAIDSAAGRDTARCFVQSAPISIPPNQNQILQREDAIAGRTNMHYTNVFNSYGPLSAFPHPDPIYPNGQIWDKELDLEHKPRLHVTAPFVCKNNPPGQLFVRLGPNLTDQFDPNSTTVSRIVTYSTFYWKGILKFKAKLRPNLTWNPVYQATTDSVANSYMNVKKWLPSATGNMHSDPLICRPVPHMTY GIGVSTGTYDNQTTYKFLGDGWVEITAHASRLLHLGMPPSENYCRVTVHNNQTTGHGTKVKGNMAYDDTHQQIWTPWSLVDANAWGVWFQPSDWQFIQNSMESLNLDSLSQELFNVVVKTVTEQQGAGAIKVYNNDLTACMMVALDSNNILPYTPAAQTSETLGFYPWKPTAPAPYRYYFFMPRQLSVTSSNSAEGTQITDTIGEPQALNSQFFTIENTLPITLLRTGDEFTTGTYIFNTDPLKLTHTWQTNRHLGMPPRITDLPTSDTATASLTANGDRFGSTQTQNVNYVTEALRTRPAQIGFMQPHDNFEANRGGPFKVPVVPLDITAGEDHDANGAIRFNYGKQHGEDWAKQGAAPERYTWDAIDSAAGRDTARCFVQSAPISIPPNQNQILQREDAIAGRTNMHYTNVFNSYGPLSAFPHPDPIYPNGQIWDKELDLEHKPRLHVTAPFVCKNNPPGQLFVRLGPNLTDQFDPNSTTVSRIVTYSTFYWKGILKFKAKLRPNLTWNPVYQATTDSVANSYMNVKKWLPSATGNMHSDPLICRPVPHMTY 4g0r-a1-m55-cA_4g0r-a1-m9-cA Structural characterization of H-1 Parvovirus: comparison of infectious virions to replication defective particles P03136 P03136 2.7 X-RAY DIFFRACTION 150 1.0 10799 (H-1 parvovirus) 10799 (H-1 parvovirus) 554 554 4g0r-a1-m10-cA_4g0r-a1-m24-cA 4g0r-a1-m11-cA_4g0r-a1-m16-cA 4g0r-a1-m12-cA_4g0r-a1-m38-cA 4g0r-a1-m13-cA_4g0r-a1-m47-cA 4g0r-a1-m14-cA_4g0r-a1-m45-cA 4g0r-a1-m15-cA_4g0r-a1-m29-cA 4g0r-a1-m17-cA_4g0r-a1-m28-cA 4g0r-a1-m18-cA_4g0r-a1-m52-cA 4g0r-a1-m19-cA_4g0r-a1-m60-cA 4g0r-a1-m1-cA_4g0r-a1-m6-cA 4g0r-a1-m20-cA_4g0r-a1-m39-cA 4g0r-a1-m21-cA_4g0r-a1-m26-cA 4g0r-a1-m22-cA_4g0r-a1-m43-cA 4g0r-a1-m25-cA_4g0r-a1-m54-cA 4g0r-a1-m27-cA_4g0r-a1-m53-cA 4g0r-a1-m2-cA_4g0r-a1-m23-cA 4g0r-a1-m30-cA_4g0r-a1-m44-cA 4g0r-a1-m31-cA_4g0r-a1-m36-cA 4g0r-a1-m32-cA_4g0r-a1-m58-cA 4g0r-a1-m33-cA_4g0r-a1-m7-cA 4g0r-a1-m34-cA_4g0r-a1-m5-cA 4g0r-a1-m35-cA_4g0r-a1-m49-cA 4g0r-a1-m37-cA_4g0r-a1-m48-cA 4g0r-a1-m3-cA_4g0r-a1-m42-cA 4g0r-a1-m40-cA_4g0r-a1-m59-cA 4g0r-a1-m41-cA_4g0r-a1-m46-cA 4g0r-a1-m4-cA_4g0r-a1-m50-cA 4g0r-a1-m51-cA_4g0r-a1-m56-cA 4g0r-a1-m57-cA_4g0r-a1-m8-cA 4gbt-a1-m10-cA_4gbt-a1-m24-cA 4gbt-a1-m11-cA_4gbt-a1-m16-cA 4gbt-a1-m12-cA_4gbt-a1-m38-cA 4gbt-a1-m13-cA_4gbt-a1-m47-cA 4gbt-a1-m14-cA_4gbt-a1-m45-cA 4gbt-a1-m15-cA_4gbt-a1-m29-cA 4gbt-a1-m17-cA_4gbt-a1-m28-cA 4gbt-a1-m18-cA_4gbt-a1-m52-cA 4gbt-a1-m19-cA_4gbt-a1-m60-cA 4gbt-a1-m1-cA_4gbt-a1-m6-cA 4gbt-a1-m20-cA_4gbt-a1-m39-cA 4gbt-a1-m21-cA_4gbt-a1-m26-cA 4gbt-a1-m22-cA_4gbt-a1-m43-cA 4gbt-a1-m25-cA_4gbt-a1-m54-cA 4gbt-a1-m27-cA_4gbt-a1-m53-cA 4gbt-a1-m2-cA_4gbt-a1-m23-cA 4gbt-a1-m30-cA_4gbt-a1-m44-cA 4gbt-a1-m31-cA_4gbt-a1-m36-cA 4gbt-a1-m32-cA_4gbt-a1-m58-cA 4gbt-a1-m33-cA_4gbt-a1-m7-cA 4gbt-a1-m34-cA_4gbt-a1-m5-cA 4gbt-a1-m35-cA_4gbt-a1-m49-cA 4gbt-a1-m37-cA_4gbt-a1-m48-cA 4gbt-a1-m3-cA_4gbt-a1-m42-cA 4gbt-a1-m40-cA_4gbt-a1-m59-cA 4gbt-a1-m41-cA_4gbt-a1-m46-cA 4gbt-a1-m4-cA_4gbt-a1-m50-cA 4gbt-a1-m51-cA_4gbt-a1-m56-cA 4gbt-a1-m55-cA_4gbt-a1-m9-cA 4gbt-a1-m57-cA_4gbt-a1-m8-cA GIGVSTGTYDNQTTYKFLGDGWVEITAHASRLLHLGMPPSENYCRVTVHNNQTTGHGTKVKGNMAYDDTHQQIWTPWSLVDANAWGVWFQPSDWQFIQNSMESLNLDSLSQELFNVVVKTVTEQQGAGAIKVYNNDLTACMMVALDSNNILPYTPAAQTSETLGFYPWKPTAPAPYRYYFFMPRQLSVTSSNSAEGTQITDTIGEPQALNSQFFTIENTLPITLLRTGDEFTTGTYIFNTDPLKLTHTWQTNRHLGMPPRITDLPTSDTATASLTANGDRFGSTQTQNVNYVTEALRTRPAQIGFMQPHDNFEANRGGPFKVPVVPLDITAGEDHDANGAIRFNYGKQHGEDWAKQGAAPERYTWDAIDSAAGRDTARCFVQSAPISIPPNQNQILQREDAIAGRTNMHYTNVFNSYGPLSAFPHPDPIYPNGQIWDKELDLEHKPRLHVTAPFVCKNNPPGQLFVRLGPNLTDQFDPNSTTVSRIVTYSTFYWKGILKFKAKLRPNLTWNPVYQATTDSVANSYMNVKKWLPSATGNMHSDPLICRPVPHMTY GIGVSTGTYDNQTTYKFLGDGWVEITAHASRLLHLGMPPSENYCRVTVHNNQTTGHGTKVKGNMAYDDTHQQIWTPWSLVDANAWGVWFQPSDWQFIQNSMESLNLDSLSQELFNVVVKTVTEQQGAGAIKVYNNDLTACMMVALDSNNILPYTPAAQTSETLGFYPWKPTAPAPYRYYFFMPRQLSVTSSNSAEGTQITDTIGEPQALNSQFFTIENTLPITLLRTGDEFTTGTYIFNTDPLKLTHTWQTNRHLGMPPRITDLPTSDTATASLTANGDRFGSTQTQNVNYVTEALRTRPAQIGFMQPHDNFEANRGGPFKVPVVPLDITAGEDHDANGAIRFNYGKQHGEDWAKQGAAPERYTWDAIDSAAGRDTARCFVQSAPISIPPNQNQILQREDAIAGRTNMHYTNVFNSYGPLSAFPHPDPIYPNGQIWDKELDLEHKPRLHVTAPFVCKNNPPGQLFVRLGPNLTDQFDPNSTTVSRIVTYSTFYWKGILKFKAKLRPNLTWNPVYQATTDSVANSYMNVKKWLPSATGNMHSDPLICRPVPHMTY 4g0r-a1-m8-cA_4g0r-a1-m9-cA Structural characterization of H-1 Parvovirus: comparison of infectious virions to replication defective particles P03136 P03136 2.7 X-RAY DIFFRACTION 160 1.0 10799 (H-1 parvovirus) 10799 (H-1 parvovirus) 554 554 4g0r-a1-m10-cA_4g0r-a1-m6-cA 4g0r-a1-m10-cA_4g0r-a1-m9-cA 4g0r-a1-m11-cA_4g0r-a1-m12-cA 4g0r-a1-m11-cA_4g0r-a1-m15-cA 4g0r-a1-m12-cA_4g0r-a1-m13-cA 4g0r-a1-m13-cA_4g0r-a1-m14-cA 4g0r-a1-m14-cA_4g0r-a1-m15-cA 4g0r-a1-m16-cA_4g0r-a1-m17-cA 4g0r-a1-m16-cA_4g0r-a1-m20-cA 4g0r-a1-m17-cA_4g0r-a1-m18-cA 4g0r-a1-m18-cA_4g0r-a1-m19-cA 4g0r-a1-m19-cA_4g0r-a1-m20-cA 4g0r-a1-m1-cA_4g0r-a1-m2-cA 4g0r-a1-m1-cA_4g0r-a1-m5-cA 4g0r-a1-m21-cA_4g0r-a1-m22-cA 4g0r-a1-m21-cA_4g0r-a1-m25-cA 4g0r-a1-m22-cA_4g0r-a1-m23-cA 4g0r-a1-m23-cA_4g0r-a1-m24-cA 4g0r-a1-m24-cA_4g0r-a1-m25-cA 4g0r-a1-m26-cA_4g0r-a1-m27-cA 4g0r-a1-m26-cA_4g0r-a1-m30-cA 4g0r-a1-m27-cA_4g0r-a1-m28-cA 4g0r-a1-m28-cA_4g0r-a1-m29-cA 4g0r-a1-m29-cA_4g0r-a1-m30-cA 4g0r-a1-m2-cA_4g0r-a1-m3-cA 4g0r-a1-m31-cA_4g0r-a1-m32-cA 4g0r-a1-m31-cA_4g0r-a1-m35-cA 4g0r-a1-m32-cA_4g0r-a1-m33-cA 4g0r-a1-m33-cA_4g0r-a1-m34-cA 4g0r-a1-m34-cA_4g0r-a1-m35-cA 4g0r-a1-m36-cA_4g0r-a1-m37-cA 4g0r-a1-m36-cA_4g0r-a1-m40-cA 4g0r-a1-m37-cA_4g0r-a1-m38-cA 4g0r-a1-m38-cA_4g0r-a1-m39-cA 4g0r-a1-m39-cA_4g0r-a1-m40-cA 4g0r-a1-m3-cA_4g0r-a1-m4-cA 4g0r-a1-m41-cA_4g0r-a1-m42-cA 4g0r-a1-m41-cA_4g0r-a1-m45-cA 4g0r-a1-m42-cA_4g0r-a1-m43-cA 4g0r-a1-m43-cA_4g0r-a1-m44-cA 4g0r-a1-m44-cA_4g0r-a1-m45-cA 4g0r-a1-m46-cA_4g0r-a1-m47-cA 4g0r-a1-m46-cA_4g0r-a1-m50-cA 4g0r-a1-m47-cA_4g0r-a1-m48-cA 4g0r-a1-m48-cA_4g0r-a1-m49-cA 4g0r-a1-m49-cA_4g0r-a1-m50-cA 4g0r-a1-m4-cA_4g0r-a1-m5-cA 4g0r-a1-m51-cA_4g0r-a1-m52-cA 4g0r-a1-m51-cA_4g0r-a1-m55-cA 4g0r-a1-m52-cA_4g0r-a1-m53-cA 4g0r-a1-m53-cA_4g0r-a1-m54-cA 4g0r-a1-m54-cA_4g0r-a1-m55-cA 4g0r-a1-m56-cA_4g0r-a1-m57-cA 4g0r-a1-m56-cA_4g0r-a1-m60-cA 4g0r-a1-m57-cA_4g0r-a1-m58-cA 4g0r-a1-m58-cA_4g0r-a1-m59-cA 4g0r-a1-m59-cA_4g0r-a1-m60-cA 4g0r-a1-m6-cA_4g0r-a1-m7-cA 4g0r-a1-m7-cA_4g0r-a1-m8-cA 4gbt-a1-m10-cA_4gbt-a1-m6-cA 4gbt-a1-m10-cA_4gbt-a1-m9-cA 4gbt-a1-m11-cA_4gbt-a1-m12-cA 4gbt-a1-m11-cA_4gbt-a1-m15-cA 4gbt-a1-m12-cA_4gbt-a1-m13-cA 4gbt-a1-m13-cA_4gbt-a1-m14-cA 4gbt-a1-m14-cA_4gbt-a1-m15-cA 4gbt-a1-m16-cA_4gbt-a1-m17-cA 4gbt-a1-m16-cA_4gbt-a1-m20-cA 4gbt-a1-m17-cA_4gbt-a1-m18-cA 4gbt-a1-m18-cA_4gbt-a1-m19-cA 4gbt-a1-m19-cA_4gbt-a1-m20-cA 4gbt-a1-m1-cA_4gbt-a1-m2-cA 4gbt-a1-m1-cA_4gbt-a1-m5-cA 4gbt-a1-m21-cA_4gbt-a1-m22-cA 4gbt-a1-m21-cA_4gbt-a1-m25-cA 4gbt-a1-m22-cA_4gbt-a1-m23-cA 4gbt-a1-m23-cA_4gbt-a1-m24-cA 4gbt-a1-m24-cA_4gbt-a1-m25-cA 4gbt-a1-m26-cA_4gbt-a1-m27-cA 4gbt-a1-m26-cA_4gbt-a1-m30-cA 4gbt-a1-m27-cA_4gbt-a1-m28-cA 4gbt-a1-m28-cA_4gbt-a1-m29-cA 4gbt-a1-m29-cA_4gbt-a1-m30-cA 4gbt-a1-m2-cA_4gbt-a1-m3-cA 4gbt-a1-m31-cA_4gbt-a1-m32-cA 4gbt-a1-m31-cA_4gbt-a1-m35-cA 4gbt-a1-m32-cA_4gbt-a1-m33-cA 4gbt-a1-m33-cA_4gbt-a1-m34-cA 4gbt-a1-m34-cA_4gbt-a1-m35-cA 4gbt-a1-m36-cA_4gbt-a1-m37-cA 4gbt-a1-m36-cA_4gbt-a1-m40-cA 4gbt-a1-m37-cA_4gbt-a1-m38-cA 4gbt-a1-m38-cA_4gbt-a1-m39-cA 4gbt-a1-m39-cA_4gbt-a1-m40-cA 4gbt-a1-m3-cA_4gbt-a1-m4-cA 4gbt-a1-m41-cA_4gbt-a1-m42-cA 4gbt-a1-m41-cA_4gbt-a1-m45-cA 4gbt-a1-m42-cA_4gbt-a1-m43-cA 4gbt-a1-m43-cA_4gbt-a1-m44-cA 4gbt-a1-m44-cA_4gbt-a1-m45-cA 4gbt-a1-m46-cA_4gbt-a1-m47-cA 4gbt-a1-m46-cA_4gbt-a1-m50-cA 4gbt-a1-m47-cA_4gbt-a1-m48-cA 4gbt-a1-m48-cA_4gbt-a1-m49-cA 4gbt-a1-m49-cA_4gbt-a1-m50-cA 4gbt-a1-m4-cA_4gbt-a1-m5-cA 4gbt-a1-m51-cA_4gbt-a1-m52-cA 4gbt-a1-m51-cA_4gbt-a1-m55-cA 4gbt-a1-m52-cA_4gbt-a1-m53-cA 4gbt-a1-m53-cA_4gbt-a1-m54-cA 4gbt-a1-m54-cA_4gbt-a1-m55-cA 4gbt-a1-m56-cA_4gbt-a1-m57-cA 4gbt-a1-m56-cA_4gbt-a1-m60-cA 4gbt-a1-m57-cA_4gbt-a1-m58-cA 4gbt-a1-m58-cA_4gbt-a1-m59-cA 4gbt-a1-m59-cA_4gbt-a1-m60-cA 4gbt-a1-m6-cA_4gbt-a1-m7-cA 4gbt-a1-m7-cA_4gbt-a1-m8-cA 4gbt-a1-m8-cA_4gbt-a1-m9-cA GIGVSTGTYDNQTTYKFLGDGWVEITAHASRLLHLGMPPSENYCRVTVHNNQTTGHGTKVKGNMAYDDTHQQIWTPWSLVDANAWGVWFQPSDWQFIQNSMESLNLDSLSQELFNVVVKTVTEQQGAGAIKVYNNDLTACMMVALDSNNILPYTPAAQTSETLGFYPWKPTAPAPYRYYFFMPRQLSVTSSNSAEGTQITDTIGEPQALNSQFFTIENTLPITLLRTGDEFTTGTYIFNTDPLKLTHTWQTNRHLGMPPRITDLPTSDTATASLTANGDRFGSTQTQNVNYVTEALRTRPAQIGFMQPHDNFEANRGGPFKVPVVPLDITAGEDHDANGAIRFNYGKQHGEDWAKQGAAPERYTWDAIDSAAGRDTARCFVQSAPISIPPNQNQILQREDAIAGRTNMHYTNVFNSYGPLSAFPHPDPIYPNGQIWDKELDLEHKPRLHVTAPFVCKNNPPGQLFVRLGPNLTDQFDPNSTTVSRIVTYSTFYWKGILKFKAKLRPNLTWNPVYQATTDSVANSYMNVKKWLPSATGNMHSDPLICRPVPHMTY GIGVSTGTYDNQTTYKFLGDGWVEITAHASRLLHLGMPPSENYCRVTVHNNQTTGHGTKVKGNMAYDDTHQQIWTPWSLVDANAWGVWFQPSDWQFIQNSMESLNLDSLSQELFNVVVKTVTEQQGAGAIKVYNNDLTACMMVALDSNNILPYTPAAQTSETLGFYPWKPTAPAPYRYYFFMPRQLSVTSSNSAEGTQITDTIGEPQALNSQFFTIENTLPITLLRTGDEFTTGTYIFNTDPLKLTHTWQTNRHLGMPPRITDLPTSDTATASLTANGDRFGSTQTQNVNYVTEALRTRPAQIGFMQPHDNFEANRGGPFKVPVVPLDITAGEDHDANGAIRFNYGKQHGEDWAKQGAAPERYTWDAIDSAAGRDTARCFVQSAPISIPPNQNQILQREDAIAGRTNMHYTNVFNSYGPLSAFPHPDPIYPNGQIWDKELDLEHKPRLHVTAPFVCKNNPPGQLFVRLGPNLTDQFDPNSTTVSRIVTYSTFYWKGILKFKAKLRPNLTWNPVYQATTDSVANSYMNVKKWLPSATGNMHSDPLICRPVPHMTY 4g19-a2-m1-cC_4g19-a2-m1-cD Crystal structure of the glutathione transferase GTE1 from Phanerochaete chrysosporium in complex with glutathione I6ZUH3 I6ZUH3 2 X-RAY DIFFRACTION 79 1.0 250 251 4f03-a1-m1-cB_4f03-a1-m1-cA 4f03-a2-m1-cC_4f03-a2-m1-cD 4g19-a1-m1-cB_4g19-a1-m1-cA AQPIVFYDIPSNERIKHSPWSPNTWKIRYALNYKGLKYKTEWVEYPDIAGVVQKLGGKPTEKTPDGRDHYTLPVIYDPNTKKVVEDSAAIAKYLDETYPDTPKLFPAGTDAFQAAFLDFAWPVLGFPVFMLVILDTANSLLPRSHDYFRSTREQKFGKKLEELATEEEWAKVEAGLAKLKGYLDANGKGNDLLLMGAQGGITYSDIQIASFFVWAKIIWGEGSEKWKRLISLHDGKWAQFYAQFTKFEQV AQPIVFYDIPSNERIKHSPWSPNTWKIRYALNYKGLKYKTEWVEYPDIAGVVQKLGGKPTEKTPDGRDHYTLPVIYDPNTKKVVEDSAAIAKYLDETYPDTPKLFPAGTDAFQAAFLDFAWPVLGFPVFMLVILDTANSLLPRSHDYFRSTREQKFGKKLEELATEEEWAKVEAGLAKLKGYLDANGKGNDLLLMGAQGGITYSDIQIASFFVWAKIIWGEGSEKWKRLISLHDGKWAQFYAQFTKFEQVD 4g1a-a1-m1-cB_4g1a-a1-m1-cC Metal-binding properties of a self-assembled coiled coil: formation of a polynuclear Cd-thiolated cluster 1.85 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 27 4g1a-a1-m1-cB_4g1a-a1-m1-cA ALEQKIAALEQKCAACEQKIAALE AALEQKIAALEQKCAACEQKIAALEQK 4g1c-a3-m1-cA_4g1c-a3-m1-cB Human SIRT5 bound to Succ-IDH2 and Carba-NAD Q9NXA8 Q9NXA8 1.944 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 267 267 PSSSMADFRKFFAKAKHIVIISGAGVSAESGVPTFRGAGGYWRKWQAQDLATPLAFAHNPSRVWEFYHYRREVMGSKEPNAGHRAIAECETRLGKQGRRVVVITQNIDELHRKAGTKNLLEIHGSLFKTRCTSCGVVAENYKSPICPALSGKGAPEPGTQDASIPVEKLPRCEEAGCGGLLRPHVVWFGENLDPAILEEVDRELAHCDLCLVVGTSSVVYPAAMFAPQVAARGVPVAEFNTETTPATNRFRFHFQGPCGTTLPEALA PSSSMADFRKFFAKAKHIVIISGAGVSAESGVPTFRGAGGYWRKWQAQDLATPLAFAHNPSRVWEFYHYRREVMGSKEPNAGHRAIAECETRLGKQGRRVVVITQNIDELHRKAGTKNLLEIHGSLFKTRCTSCGVVAENYKSPICPALSGKGAPEPGTQDASIPVEKLPRCEEAGCGGLLRPHVVWFGENLDPAILEEVDRELAHCDLCLVVGTSSVVYPAAMFAPQVAARGVPVAEFNTETTPATNRFRFHFQGPCGTTLPEALA 4g1e-a3-m1-cB_4g1e-a3-m2-cB Crystal structure of integrin alpha V beta 3 with coil-coiled tag. P05106 P05106 3 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 709 709 4g1e-a2-m1-cB_4g1e-a2-m2-cB GPNICTTRGVSSCQQCLAVSPMCAWCSDEALPLPRCDLKENLLKDNCAPESIEFPVSEARVLEDRPLSDKGSGDSSQVTQVSPQRIALRLRPDDSKNFSIQVRQVEDYPVDIYYLMDLSYSMKDDLWSIQNLGTKLATQMRKLTSNLRIGFGAFVDKPVSPYMYISPPEALENPCYDMKTTCLPMFGYKHVLTLTDQVTRFNEEVKKQSVSRNRDAPEGGFDAIMQATVCDEKIGWRNDASHLLVFTTDAKTHIALDGRLAGIVQPNDGQCHVGSDNHYSASTTMDYPSLGLMTEKLSQKNINLIFAVTENVVNLYQNYSELIPGTTVGVLSMDSSNVLQLIVDAYGKIRSKVELEVRDLPEELSLSFNATCLNNEVIPGLKSCMGLKIGDTVSFSIEAKVRGCPQEKEKSFTIKPVGFKDSLIVQVTFDCDCACQAQAEPNSHRCNNGNGTFECGVCRCGPGWLGSQCECSEEDYQDECSPREGQPVCSQRGECLCGQCVCHSSDFGKITGKYCECDDFSCVRYKGEMCSGHGQCSCGDCLCDSDWTGYYCNCTTRTDTCMSSNGLLCSGRGKCECGSCVCIQPGSYGDTCEKCPTCPDACTFKKECVECKKFDRGALHDENTCNRYCRDEIESVKELKDTGKDAVNCTYKNEDDCVVRFQYYEDSSGKSILYVVEEPECPKGPAQCKKKLQALKKKNAQLKWKLQAL GPNICTTRGVSSCQQCLAVSPMCAWCSDEALPLPRCDLKENLLKDNCAPESIEFPVSEARVLEDRPLSDKGSGDSSQVTQVSPQRIALRLRPDDSKNFSIQVRQVEDYPVDIYYLMDLSYSMKDDLWSIQNLGTKLATQMRKLTSNLRIGFGAFVDKPVSPYMYISPPEALENPCYDMKTTCLPMFGYKHVLTLTDQVTRFNEEVKKQSVSRNRDAPEGGFDAIMQATVCDEKIGWRNDASHLLVFTTDAKTHIALDGRLAGIVQPNDGQCHVGSDNHYSASTTMDYPSLGLMTEKLSQKNINLIFAVTENVVNLYQNYSELIPGTTVGVLSMDSSNVLQLIVDAYGKIRSKVELEVRDLPEELSLSFNATCLNNEVIPGLKSCMGLKIGDTVSFSIEAKVRGCPQEKEKSFTIKPVGFKDSLIVQVTFDCDCACQAQAEPNSHRCNNGNGTFECGVCRCGPGWLGSQCECSEEDYQDECSPREGQPVCSQRGECLCGQCVCHSSDFGKITGKYCECDDFSCVRYKGEMCSGHGQCSCGDCLCDSDWTGYYCNCTTRTDTCMSSNGLLCSGRGKCECGSCVCIQPGSYGDTCEKCPTCPDACTFKKECVECKKFDRGALHDENTCNRYCRDEIESVKELKDTGKDAVNCTYKNEDDCVVRFQYYEDSSGKSILYVVEEPECPKGPAQCKKKLQALKKKNAQLKWKLQAL 4g1k-a2-m1-cD_4g1k-a2-m1-cC Crystal structure of triosephosphate isomerase from Burkholderia thailandensis Q2SZN7 Q2SZN7 2.35 X-RAY DIFFRACTION 125 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 242 248 4g1k-a1-m1-cA_4g1k-a1-m1-cB QRIKRVIGNWKMHGRLSGNQALLTEVAQGAQAVHDNVAIGVCVPFPYLAQAQAQLQGGRVSWGSQDVSAHEQGAYTGEVAAGMVAEFGAAYAIVGHSERRAYHGESNETVAAKARRALAAGLTPIVCVGETLAEREAGTTEQVVGAQLDAVLAVLSPDEAARIVVAYEPVWAATAEQAQQVHAFLRGRLAAKGAGHVSLLYGGSVKADNAAELFGQPDIDGGLIGGASLKSGDFLAICRAAK QRIKRVIGNWKMHGRLSGNQALLTEVAQGAQAVHDNVAIGVCVPFPYLAQAQAQLQGGRVSWGSQDVSAHEQGAYTGEVAAGMVAEFGAAYAIVGHSERRAYHGESNETVAAKARRALAAGLTPIVCVGETLAEREAGTTEQVVGAQLDAVLAVLSPDEAARIVVAYEPVWAIGTGKSATAEQAQQVHAFLRGRLAAKGAGHVSLLYGGSVKADNAAELFGQPDIDGGLIGGASLKSGDFLAICRAAK 4g1o-a1-m1-cB_4g1o-a1-m1-cA Crystal structure of Newcastle disease virus matrix protein P11206 P11206 2.2 X-RAY DIFFRACTION 196 0.991 11177 (Newcastle disease virus (STRAIN AUSTRALIA-VICTORIA/32)) 11177 (Newcastle disease virus (STRAIN AUSTRALIA-VICTORIA/32)) 326 329 4g1g-a1-m1-cA_4g1g-a1-m1-cB 4g1l-a1-m1-cA_4g1l-a1-m1-cB SSNLLAFPIVQIAPQYRIQRLDSWTDSKEDSVFITTYGFIFQVGKHELLSAAMLCLGSVPNVGDLVELARACLTMVVTCKKSATDTERMVFSVVQAPQVLQSCRVVANKYSSVNAVKHVKAPEKIPGSGTLEYKVNFVSLTVVPRKDVYKIPTAALKVSGSSLYNLALNVTIDVEVDPKSPLVKSLSKSDSGYYANLFLHIGLMSTVDKKGKKVTFDKLERKIRRLDLSVGLSDVLGPSVLVKARGARTRLLAPFFSSSGTACYPISNASPQVAKILWSQTARLRSVKVIIQAGTQRAVAVTADHEVTSTKIEKRHTIAKYNPFKK SALPSSNLLAFPIVLQQIAPQYRIQRLDSWTDSKEDSVFITTYGFIFQVGHELLSAAMLCLGSVPNVGDLVELARACLTMVVTCKKSATDTERMVFSVVQAPQVLQSCRVVANKYSSVNAVKHVKAPEKIPGSGTLEYKVNFVSLTVVPRKDVYKIPTAALKVSGSSLYNLALNVTIDVEVDPKSPLVKSLSKSDSGYYANLFLHIGLMSTVDKKGKKVTFDKLERKIRRLDLSVGLSDVLGPSVLVKARGARTRLLAPFFSSSGTACYPISNASPQVAKILWSQTARLRSVKVIIQAGTQRAVAVTADHEVTSTKIEKRHTIAKYNPF 4g1p-a1-m1-cA_4g1p-a1-m2-cA Structural and Mechanistic Basis of Substrate Recognition by Novel Di-peptidase Dug1p From Saccharomyces cerevisiae P43616 P43616 2.547 X-RAY DIFFRACTION 342 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 479 479 MSHSLTSVFQKIDSLKPQFFSRLTKAIQIPAVSSDESLRSKVFDKAKFISEQLSQSGFHDIKMVDLGIQPPPSTPNLSLPPVILSRFGSDPSKKTVLVYGHYDVQPAQLEDGWDTEPFKLVIDEAKGIMKGRGVTDDTGPLLSWINVVDAFKASGQEFPVNLVTCFEGMEESGSLKLDELIKKEANGYFKGVDAVCISDNYWLGTKKPVLTYGLRGCNYYQTIIEGPSADLHSGIFGGVVAEPMIDLMQVLGSLVDSKGKILIDGIDEMVAPLTEKEKALYKDIEFSVEELNAATGSKTSLYDKKEDILMHRWRYPSLSIHGVEGAFSAQGAKTVIPAKVFGKFSIRTVPDMDSEKLTSLVQKHCDAKFKSLNSPNKCRTELIHDGAYWVSDPFNAQFTAAKKATKLVYGVDPDFTREGGSIPITLTFQDALNTSVLLLPMGRGDDGAHSINEKLDISNFVGGMKTMAAYLQYYSESPE MSHSLTSVFQKIDSLKPQFFSRLTKAIQIPAVSSDESLRSKVFDKAKFISEQLSQSGFHDIKMVDLGIQPPPSTPNLSLPPVILSRFGSDPSKKTVLVYGHYDVQPAQLEDGWDTEPFKLVIDEAKGIMKGRGVTDDTGPLLSWINVVDAFKASGQEFPVNLVTCFEGMEESGSLKLDELIKKEANGYFKGVDAVCISDNYWLGTKKPVLTYGLRGCNYYQTIIEGPSADLHSGIFGGVVAEPMIDLMQVLGSLVDSKGKILIDGIDEMVAPLTEKEKALYKDIEFSVEELNAATGSKTSLYDKKEDILMHRWRYPSLSIHGVEGAFSAQGAKTVIPAKVFGKFSIRTVPDMDSEKLTSLVQKHCDAKFKSLNSPNKCRTELIHDGAYWVSDPFNAQFTAAKKATKLVYGVDPDFTREGGSIPITLTFQDALNTSVLLLPMGRGDDGAHSINEKLDISNFVGGMKTMAAYLQYYSESPE 4g1t-a1-m1-cA_4g1t-a1-m1-cB Crystal structure of interferon-stimulated gene 54 P09913 P09913 2.8 X-RAY DIFFRACTION 233 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 426 429 KNSLESSLRQLKCHFTWNLMEGENSLDDFEDKVFYRTEFQNKATMCNLLAYLKHLKGQNEAALECLRKAEELIQQEHADQAEIRSLVTWGNYAWVYYHMGRLSDVQIYVDKVKHVCEKFSSPYRIESPELDCEEGWTRLKCGGNQNERAKVCFEKALEKKPKNPEFTSGLAIASYRLDNWPPSQNAIDPLRQAIRLNPDNQYLKVLLALKLHKMRGEGEKLVEEALEKAPGVTDVLRSAAKFYRRKDEPDKAIELLKKALEYIPNNAYLHCQIGCCYRAKVFQVMNLGKRKLLELIGHAVAHLKKADEANDNLFRVCSILASLHALADQYEEAEYYFQKEFSKELTPVAKQLLHLRYGNFQLYQMKCEDKAIHHFIEGVKINQKSREKEKMKDKLQKIAKMRLSKNGDSEALHVLAFLQELNEKMQ SLESSLRQLKCHFTWNLMEGENSLDDFEDKVFYRTEFKATMCNLLAYLKHLKGQNEAALECLRKAEELIQQEHADQAEIRSLVTWGNYAWVYYHMGRLSDVQIYVDKVKHVCEKFSSPYRIESPELDCEEGWTRLKCGGNQNERAKVCFEKALEKKPKNPEFTSGLAIASYRLDNWPPSQNAIDPLRQAIRLNPDNQYLKVLLALKLHKMRGEGEKLVEEALEKAPGVTDVLRSAAKFYRRKDEPDKAIELLKKALEYIPNNAYLHCQIGCCYRAKVFQVMNLRENYGKRKLLELIGHAVAHLKKADEANDNLFRVCSILASLHALADQYEEAEYYFQKEFSKELTPVAKQLLHLRYGNFQLYQMKCEDKAIHHFIEGVKINQKSREKEKMKDKLQKIAKMRLSKDSEALHVLAFLQELNEKMQQADED 4g1u-a1-m1-cA_4g1u-a1-m1-cB X-ray structure of the bacterial heme transporter HmuUV from Yersinia pestis Q56992 Q56992 3.008 X-RAY DIFFRACTION 107 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 297 297 RVQPRLMLGFLLILLVILALGSANMWHIWLNIRLPRVLLAVVVGCALAVSGTIMQGLFRNPLADPGLLGISSGAALCVGLIIVMLALYSHMVGAFIGSLAISTIIFTLSRWGHGNLARLLLAGIAINALCGAAVGVLTYISDDQQLRQFSLWSMGSLGQAQWSTLLVASSLILPTCILGLLQARQLNLLQLGDEEAHYLGVNVRQAKLRLLLLSAILIGAAVAVSGVIGFIGLVVPHLIRMRIGADHRWLLPGAALGGACLLLTADTLARTLVAPAEMPVGLLTSLLGGPYFLWLIL RVQPRLMLGFLLILLVILALGSANMWHIWLNIRLPRVLLAVVVGCALAVSGTIMQGLFRNPLADPGLLGISSGAALCVGLIIVMLALYSHMVGAFIGSLAISTIIFTLSRWGHGNLARLLLAGIAINALCGAAVGVLTYISDDQQLRQFSLWSMGSLGQAQWSTLLVASSLILPTCILGLLQARQLNLLQLGDEEAHYLGVNVRQAKLRLLLLSAILIGAAVAVSGVIGFIGLVVPHLIRMRIGADHRWLLPGAALGGACLLLTADTLARTLVAPAEMPVGLLTSLLGGPYFLWLIL 4g1u-a1-m1-cD_4g1u-a1-m1-cC X-ray structure of the bacterial heme transporter HmuUV from Yersinia pestis Q56993 Q56993 3.008 X-RAY DIFFRACTION 61 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 257 262 ALLEASHLHYHVQQQALINDVSLHIASGEMVAIIGPNGAGKSTLLRLLTGYLSPSHGECHLLGQNLNSWQPKALARTRAVMRQYSELAFPFSVSEVIQMGRAPYGGSQDRQALQQVMAQTDCLALAQRDYRVLSGGEQQRVQLARVLAQLWQPQPTPRWLFLDEPTSALDLYHQQHTLRLLRQLTRQEPLAVCCVLHDLNLAALYADRIMLLAQGKLVACGTPEEVLNAETLTQWYQADLGVSRHPESALPQIYLRQ AVTPVALLEASHLHYHVQQQALINDVSLHIASGEMVAIIGPNGAGKSTLLRLLTGYLSPSHGECHLLGQNLNSWQPKALARTRAVMRQYSELAFPFSVSEVIQMGRAPYGGSQDRQALQQVMAQTDCLALAQRDYRVLSGGEQQRVQLARVLAQLWQPQPTPRWLFLDEPTSALDLYHQQHTLRLLRQLTRQEPLAVCCVLHDLNLAALYADRIMLLAQGKLVACGTPEEVLNAETLTQWYQADLGVSRHPESALPQIYLRQ 4g1v-a3-m1-cA_4g1v-a3-m6-cA X-ray structure of yeast flavohemoglobin A6ZUP2 A6ZUP2 2.098 X-RAY DIFFRACTION 62 1.0 307796 (Saccharomyces cerevisiae YJM789) 307796 (Saccharomyces cerevisiae YJM789) 398 398 4g1v-a2-m1-cA_4g1v-a2-m6-cA 4g1v-a2-m2-cA_4g1v-a2-m5-cA 4g1v-a2-m3-cA_4g1v-a2-m4-cA LAEKTRSIIKATVPVLEQQGTVITRTFYKNMLTEHTELLNIFNRTNQKVGAQPNALATTVLAAAKNIDDLSVLMDHVKQIGHKHRALQIKPEHYPIVGEYLLKAIKEVLGDAATPEIINAWGEAYQAIADIFITVEKKMYEEALWPGWKPFEITAKEYVASDIVEFTVKPKFGSGIELESLPITPGQYITVNTHPIRQENQYDALRHYSLCSASTKNGLRFAVKMEAARENFPAGLVSEYLHKDAKVGDEIKLSAPAGDFAINKELIHQNEVPLVLLSSGVGVTPLLAMLEEQVKCNPNRPIYWIQSSYDEKTQAFKKHVDELLAECANVDKIIVHTDTEPLINAAFLKEKSPAHADVYTCGSLAFMQAMIGHLKELEHRDDMIHYEPFGPKMSTVQV LAEKTRSIIKATVPVLEQQGTVITRTFYKNMLTEHTELLNIFNRTNQKVGAQPNALATTVLAAAKNIDDLSVLMDHVKQIGHKHRALQIKPEHYPIVGEYLLKAIKEVLGDAATPEIINAWGEAYQAIADIFITVEKKMYEEALWPGWKPFEITAKEYVASDIVEFTVKPKFGSGIELESLPITPGQYITVNTHPIRQENQYDALRHYSLCSASTKNGLRFAVKMEAARENFPAGLVSEYLHKDAKVGDEIKLSAPAGDFAINKELIHQNEVPLVLLSSGVGVTPLLAMLEEQVKCNPNRPIYWIQSSYDEKTQAFKKHVDELLAECANVDKIIVHTDTEPLINAAFLKEKSPAHADVYTCGSLAFMQAMIGHLKELEHRDDMIHYEPFGPKMSTVQV 4g1v-a4-m1-cA_4g1v-a4-m4-cA X-ray structure of yeast flavohemoglobin A6ZUP2 A6ZUP2 2.098 X-RAY DIFFRACTION 138 1.0 307796 (Saccharomyces cerevisiae YJM789) 307796 (Saccharomyces cerevisiae YJM789) 398 398 4g1v-a2-m1-cA_4g1v-a2-m4-cA 4g1v-a2-m2-cA_4g1v-a2-m6-cA 4g1v-a2-m3-cA_4g1v-a2-m5-cA LAEKTRSIIKATVPVLEQQGTVITRTFYKNMLTEHTELLNIFNRTNQKVGAQPNALATTVLAAAKNIDDLSVLMDHVKQIGHKHRALQIKPEHYPIVGEYLLKAIKEVLGDAATPEIINAWGEAYQAIADIFITVEKKMYEEALWPGWKPFEITAKEYVASDIVEFTVKPKFGSGIELESLPITPGQYITVNTHPIRQENQYDALRHYSLCSASTKNGLRFAVKMEAARENFPAGLVSEYLHKDAKVGDEIKLSAPAGDFAINKELIHQNEVPLVLLSSGVGVTPLLAMLEEQVKCNPNRPIYWIQSSYDEKTQAFKKHVDELLAECANVDKIIVHTDTEPLINAAFLKEKSPAHADVYTCGSLAFMQAMIGHLKELEHRDDMIHYEPFGPKMSTVQV LAEKTRSIIKATVPVLEQQGTVITRTFYKNMLTEHTELLNIFNRTNQKVGAQPNALATTVLAAAKNIDDLSVLMDHVKQIGHKHRALQIKPEHYPIVGEYLLKAIKEVLGDAATPEIINAWGEAYQAIADIFITVEKKMYEEALWPGWKPFEITAKEYVASDIVEFTVKPKFGSGIELESLPITPGQYITVNTHPIRQENQYDALRHYSLCSASTKNGLRFAVKMEAARENFPAGLVSEYLHKDAKVGDEIKLSAPAGDFAINKELIHQNEVPLVLLSSGVGVTPLLAMLEEQVKCNPNRPIYWIQSSYDEKTQAFKKHVDELLAECANVDKIIVHTDTEPLINAAFLKEKSPAHADVYTCGSLAFMQAMIGHLKELEHRDDMIHYEPFGPKMSTVQV 4g22-a3-m2-cB_4g22-a3-m1-cA Structure of a Lys-HCT mutant from Coffea canephora (Crystal form 1) A4ZKE4 A4ZKE4 1.7 X-RAY DIFFRACTION 58 0.998 49390 (Coffea canephora) 49390 (Coffea canephora) 416 417 4g2m-a1-m1-cA_4g2m-a1-m2-cA SMKIEVKESTMVRPAQETPGRNLWNSNVDLVVPNFHTPSVYFYRPTGSSNFFDAKVLKDALSRALVPFYPMAGRLKRDEDGRIEIECNGEGVLFVEAESDGVVDDFGDFAPTLELRRLIPAVDYSQGISSYALLVLQVTYFKGGVSLGVGMRHHAADGFSGLHFINSWSDMARGLDVTLPPFIDRTLLRARDPPQPQFQHIEYQPPTAVSIFKLTREQISALKAKSKEDGNTISYSSYEMLAGHVWRCACKARGLEVDQGTKLYIATDGRARLRPSLPPGYFGNVIFTATPIAIAGDLEFKPVWYAASKIHDALARMDNDYLRSALDYLELQPDLKALVRGAHTFKPNLGITSWVRLPIHDADFGWGRPIFMGPGGIAYEGLSFILPSPTNDGSMSVAISLQGEHMKLFQSFLYDI MKIEVKESTMVRPAQETPGRNLWNSNVDLVVPNFHTPSVYFYRPTGSSNFFDAKVLKDALSRALVPFYPMAGRLKRDEDGRIEIECNGEGVLFVEAESDGVVDDFGDFAPTLELRRLIPAVDYSQGISSYALLVLQVTYFKGGVSLGVGMRHHAADGFSGLHFINSWSDMARGLDVTLPPFIDRTLLRARDPPQPQFQHIEYQPPPETAVSIFKLTREQISALKAKSKEDGNTISYSSYEMLAGHVWRCACKARGLEVDQGTKLYIATDGRARLRPSLPPGYFGNVIFTATPIAIAGDLEFKPVWYAASKIHDALARMDNDYLRSALDYLELQPDLKALVRGAHTFKPNLGITSWVRLPIHDADFGWGRPIFMGPGGIAYEGLSFILPSPTNDGSMSVAISLQGEHMKLFQSFLYDI 4g28-a1-m1-cB_4g28-a1-m2-cB Calcium-calmodulin complexed with the calmodulin binding domain from a small conductance potassium channel splice variant and EBIO-1 P70604 P70604 1.63 X-RAY DIFFRACTION 71 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 87 87 1g4y-a1-m1-cB_1g4y-a1-m2-cB 4g27-a1-m1-cB_4g27-a1-m2-cB 4j9y-a1-m1-cB_4j9y-a1-m2-cB 4j9z-a1-m1-cB_4j9z-a1-m2-cB 4qnh-a1-m1-cB_4qnh-a1-m2-cB 5wbx-a2-m1-cB_5wbx-a2-m2-cB 5wc5-a2-m1-cB_5wc5-a2-m2-cB GRKLELTKAEDTQLTKRVKNAAANVLRETWLIYKNTKLVKKIDHAKVRKHQRKFLQAIHQLRSVKMEQRKLNDQANTLVDLAKTQLE GRKLELTKAEDTQLTKRVKNAAANVLRETWLIYKNTKLVKKIDHAKVRKHQRKFLQAIHQLRSVKMEQRKLNDQANTLVDLAKTQLE 4g2b-a1-m1-cB_4g2b-a1-m1-cA Structure of the Catalytic Domain of the Salmonella Virulence Factor SseI Q8ZQ79 Q8ZQ79 2.05 X-RAY DIFFRACTION 38 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 168 169 TYNLTSDIDAAAYLEELKQNPIINNKIMNPVGCESLMTPVSNFMNEKGFDNIRYRGIFIWDKPTEEIPTNHFAVVGNKEGKDYVFDVSAHQFENRGMSNLNGPLILSADEWVCKYRMATRRKLIYYTDFSNSSIAANAYDALPRELESESMAGKVFVTSPRWFNTFKK TYNLTSDIDAAAYLEELKQNPIINNKIMNPVGQCESLMTPVSNFMNEKGFDNIRYRGIFIWDKPTEEIPTNHFAVVGNKEGKDYVFDVSAHQFENRGMSNLNGPLILSADEWVCKYRMATRRKLIYYTDFSNSSIAANAYDALPRELESESMAGKVFVTSPRWFNTFKK 4g2e-a1-m1-cA_4g2e-a1-m2-cA Crystal structure of a dimeric PrxQ from Sulfolobus tokodaii F9VNL8 F9VNL8 1.4 X-RAY DIFFRACTION 68 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 151 151 GHMVEIGELAPDFELPDTELKKVKLSALKGKVVVLAFYPAAFTQVTFRDSMAKFNQVNAVVLGISVDPPFSNKAFKEHNKLNFTILSDYNREVVKKYNVAWEFPALPGYVLAKRAVFVIDKEGKVRYKWVSDDPTKEPPYDEIEKVVKSLS GHMVEIGELAPDFELPDTELKKVKLSALKGKVVVLAFYPAAFTQVTFRDSMAKFNQVNAVVLGISVDPPFSNKAFKEHNKLNFTILSDYNREVVKKYNVAWEFPALPGYVLAKRAVFVIDKEGKVRYKWVSDDPTKEPPYDEIEKVVKSLS 4g2k-a1-m1-cC_4g2k-a1-m1-cB Crystal structure of the Marburg Virus GP2 ectodomain in its post-fusion conformation P35254 P35254 1.9 X-RAY DIFFRACTION 107 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 107 108 4g2k-a1-m1-cB_4g2k-a1-m1-cA 4g2k-a1-m1-cC_4g2k-a1-m1-cA KQIEDKIEEILSKIYHIENEIARIKKLIGNLVSRLRRLANQTAKSLELLLRVTTEERTFSLINRHAIDFLLTRWGGTCKVLGPDCSIGIEDLSRNISEQIDQIKKDE MKQIEDKIEEILSKIYHIENEIARIKKLIGNLVSRLRRLANQTAKSLELLLRVTTEERTFSLINRHAIDFLLTRWGGTCKVLGPDCSIGIEDLSRNISEQIDQIKKDE 4g2n-a1-m1-cB_4g2n-a1-m1-cA Crystal structure of putative D-isomer specific 2-hydroxyacid dehydrogenase, NAD-binding from Polaromonas sp. JS6 66 Q120R1 Q120R1 1.7 X-RAY DIFFRACTION 14 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 312 313 PIQKAFLCRRFTPAIEAELRQRFDLEVNLEDTVLTPSGIASRAHGAEVLFVTATEAITAEVIRKLQPGLKTIATLSVGYDHIDAAARSLGIKVLHTPDVLSDACAEIALLVLNACRRGYEADRVRSGSWPGWGPTQLLGGLTGRRLGIFGGRIGRAIATRARGFGLAIHYHNRTRLSHALEEGAIYHDTLDSLLGASDIFLIAAPGRPELKGFLDHDRIAKIPEGAVVINISRGDLINDDALIEALRSKHLFAAGLDVFANEPAIDPRYRSLDNIFLTPHIGSATHETRDAGWLLIQGIEALNQSDVPDNLI PIQKAFLCRRFTPAIEAELRQRFDLEVNLEDTVLTPSGIASRAHGAEVLFVTATEAITAEVIRKLQPGLKTIATLSVGYDHIDAAARSLGIKVLHTPDVLSDACAEIALLVLNACRRGYEADRVRSGSWPGWGPTQLLGGLTGRRLGIFGGRIGRAIATRARGFGLAIHYHNRTRLSHALEEGAIYHDTLDSLLGASDIFLIAAPGRPELKGFLDHDRIAKIPEGAVVINISRGDLINDDALIEALRSKHLFAAGLDVFANEPAIDPRYRSLDNIFLTPHIGSATHETRDAGWLLIQGIEALNQSDVPDNLIS 4g2n-a1-m1-cD_4g2n-a1-m1-cA Crystal structure of putative D-isomer specific 2-hydroxyacid dehydrogenase, NAD-binding from Polaromonas sp. JS6 66 Q120R1 Q120R1 1.7 X-RAY DIFFRACTION 29 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 311 313 IQKAFLCRRFTPAIEAELRQRFDLEVNLEDTVLTPSGIASRAHGAEVLFVTATEAITAEVIRKLQPGLKTIATLSVGYDHIDAAARSLGIKVLHTPDVLSDACAEIALLVLNACRRGYEADRVRSGSWPGWGPTQLLGGLTGRRLGIFGGRIGRAIATRARGFGLAIHYHNRTRLSHALEEGAIYHDTLDSLLGASDIFLIAAPGRPELKGFLDHDRIAKIPEGAVVINISRGDLINDDALIEALRSKHLFAAGLDVFANEPAIDPRYRSLDNIFLTPHIGSATHETRDAGWLLIQGIEALNQSDVPDNLI PIQKAFLCRRFTPAIEAELRQRFDLEVNLEDTVLTPSGIASRAHGAEVLFVTATEAITAEVIRKLQPGLKTIATLSVGYDHIDAAARSLGIKVLHTPDVLSDACAEIALLVLNACRRGYEADRVRSGSWPGWGPTQLLGGLTGRRLGIFGGRIGRAIATRARGFGLAIHYHNRTRLSHALEEGAIYHDTLDSLLGASDIFLIAAPGRPELKGFLDHDRIAKIPEGAVVINISRGDLINDDALIEALRSKHLFAAGLDVFANEPAIDPRYRSLDNIFLTPHIGSATHETRDAGWLLIQGIEALNQSDVPDNLIS 4g2n-a3-m1-cD_4g2n-a3-m1-cB Crystal structure of putative D-isomer specific 2-hydroxyacid dehydrogenase, NAD-binding from Polaromonas sp. JS6 66 Q120R1 Q120R1 1.7 X-RAY DIFFRACTION 201 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 311 312 4g2n-a1-m1-cA_4g2n-a1-m1-cC 4g2n-a1-m1-cD_4g2n-a1-m1-cB 4g2n-a2-m1-cA_4g2n-a2-m1-cC IQKAFLCRRFTPAIEAELRQRFDLEVNLEDTVLTPSGIASRAHGAEVLFVTATEAITAEVIRKLQPGLKTIATLSVGYDHIDAAARSLGIKVLHTPDVLSDACAEIALLVLNACRRGYEADRVRSGSWPGWGPTQLLGGLTGRRLGIFGGRIGRAIATRARGFGLAIHYHNRTRLSHALEEGAIYHDTLDSLLGASDIFLIAAPGRPELKGFLDHDRIAKIPEGAVVINISRGDLINDDALIEALRSKHLFAAGLDVFANEPAIDPRYRSLDNIFLTPHIGSATHETRDAGWLLIQGIEALNQSDVPDNLI PIQKAFLCRRFTPAIEAELRQRFDLEVNLEDTVLTPSGIASRAHGAEVLFVTATEAITAEVIRKLQPGLKTIATLSVGYDHIDAAARSLGIKVLHTPDVLSDACAEIALLVLNACRRGYEADRVRSGSWPGWGPTQLLGGLTGRRLGIFGGRIGRAIATRARGFGLAIHYHNRTRLSHALEEGAIYHDTLDSLLGASDIFLIAAPGRPELKGFLDHDRIAKIPEGAVVINISRGDLINDDALIEALRSKHLFAAGLDVFANEPAIDPRYRSLDNIFLTPHIGSATHETRDAGWLLIQGIEALNQSDVPDNLI 4g2s-a1-m1-cD_4g2s-a1-m1-cE Crystal structure of a Salmonella type III secretion system protein P41783 P41783 1.858 X-RAY DIFFRACTION 49 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 106 106 4g2s-a1-m1-cA_4g2s-a1-m1-cB 4g2s-a1-m1-cA_4g2s-a1-m1-cF 4g2s-a1-m1-cB_4g2s-a1-m1-cC 4g2s-a1-m1-cC_4g2s-a1-m1-cD 4g2s-a1-m1-cE_4g2s-a1-m1-cF PYIVRLLNSSLNGCEFPLLTGRTLFVVGQSDALTASGQLPDIPADSFFIPLDHGGVNFEIQVDTDATEIILHELKEGNSESRSVQLNTPIQVGELLILIRPESEPW PYIVRLLNSSLNGCEFPLLTGRTLFVVGQSDALTASGQLPDIPADSFFIPLDHGGVNFEIQVDTDATEIILHELKEGNSESRSVQLNTPIQVGELLILIRPESEPW 4g2u-a1-m1-cA_4g2u-a1-m1-cB Crystal Structure Analysis of Ostertagia ostertagi ASP-1 Q8T8F4 Q8T8F4 1.85 X-RAY DIFFRACTION 26 0.981 6317 (Ostertagia ostertagi) 6317 (Ostertagia ostertagi) 210 210 GFCCPADLNQTDEARKIFLDFHNQVRRDIAGASPLLNLAVQMRNVLGPAKNMYRMDWDCNLEAKAKAMIWPCTTPLPIDTSIPQNLAQWLLFQNSQENEVLTQTPWSWVTASLRNLQPDTEANIYNWQIRPLSNIANWQNLKVGCAHKVCKFPTGTNMVVSCAYGGEVLQDNEVVWDKGPTCMCNAYPNSFCCNNLCDTIAAATLRNQPC AEAGFCCPADLNQTDEARKIFLDFHNQVRRDIAGASPLLNMRNVLGPAKNMYRMDWDCNLEAKAKAMIWPCTTPLPIDTSIPQNLAQWLLFQNSQENEVLTQTPWSWVTASLRNLQPDTEANIYNWQIRPLSNIANWQNLKVGCAHKVCKFPTGTNMVVSCAYGGEVLQDNEVVWDKGPTCMCNAYPNSFCCNNLCDTIAAATLRNQPCK 4g3b-a2-m1-cA_4g3b-a2-m1-cB Crystal structure of the de novo designed fluorinated peptide alpha4F3d 1.19 X-RAY DIFFRACTION 27 1.0 23 23 4g3b-a1-m1-cA_4g3b-a1-m1-cB 4g3b-a1-m2-cA_4g3b-a1-m2-cB GNADEYKELEDQERLRKRKKLRS GNADEYKELEDQERLRKRKKLRS 4g3k-a1-m1-cB_4g3k-a1-m1-cA Crystal structure of a. aeolicus nlh1 gaf domain in an inactive state O66591 O66591 3.05 X-RAY DIFFRACTION 61 0.993 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 140 155 DLKVEIETLYEVSKILSSSLNLETTVPYIFRLLKKLMGFERLTLTIYDPSTIVVRATSSGGITGKVWKHGVPIVIPDISKKIAFIAVPIKSGGKVIGVLSADKEINDSLDEYTRFLSMIATLIANSFSLERKVQAERKSL DLKVEIETLYEVSKILSSSLNLETTVPYIFRLLKKLMGFERLTLTIYDPSTDQIVVRATSSGKFPKEGFKKGEGITGKVWKHGVPIVIPDISQKKIAFIAVPIKSGGKVIGVLSADKEINEKDSLDEYTRFLSMIATLIANSFSLERKVQAERKS 4g3p-a1-m2-cA_4g3p-a1-m3-cA Crystal structure of GlmU from Mycobacterium tuberculosis Snapshot 3 2.47 X-RAY DIFFRACTION 172 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 462 462 2qkx-a1-m1-cA_2qkx-a1-m2-cA 2qkx-a1-m1-cA_2qkx-a1-m3-cA 2qkx-a1-m2-cA_2qkx-a1-m3-cA 3d8v-a1-m1-cA_3d8v-a1-m2-cA 3d8v-a1-m1-cA_3d8v-a1-m3-cA 3d8v-a1-m2-cA_3d8v-a1-m3-cA 3d98-a1-m1-cA_3d98-a1-m2-cA 3d98-a1-m1-cA_3d98-a1-m3-cA 3d98-a1-m2-cA_3d98-a1-m3-cA 3dj4-a1-m1-cA_3dj4-a1-m2-cA 3dj4-a1-m1-cA_3dj4-a1-m3-cA 3dj4-a1-m2-cA_3dj4-a1-m3-cA 3dk5-a1-m1-cA_3dk5-a1-m2-cA 3dk5-a1-m1-cA_3dk5-a1-m3-cA 3dk5-a1-m2-cA_3dk5-a1-m3-cA 3foq-a1-m1-cA_3foq-a1-m2-cA 3foq-a1-m1-cA_3foq-a1-m3-cA 3foq-a1-m2-cA_3foq-a1-m3-cA 3spt-a1-m1-cA_3spt-a1-m2-cA 3spt-a1-m1-cA_3spt-a1-m3-cA 3spt-a1-m2-cA_3spt-a1-m3-cA 3st8-a1-m1-cA_3st8-a1-m2-cA 3st8-a1-m1-cA_3st8-a1-m3-cA 3st8-a1-m2-cA_3st8-a1-m3-cA 4g3p-a1-m1-cA_4g3p-a1-m2-cA 4g3p-a1-m1-cA_4g3p-a1-m3-cA 4g3q-a1-m1-cA_4g3q-a1-m2-cA 4g3q-a1-m1-cA_4g3q-a1-m3-cA 4g3q-a1-m2-cA_4g3q-a1-m3-cA 4g3s-a1-m1-cA_4g3s-a1-m2-cA 4g3s-a1-m1-cA_4g3s-a1-m3-cA 4g3s-a1-m2-cA_4g3s-a1-m3-cA 4g87-a1-m1-cA_4g87-a1-m2-cA 4g87-a1-m1-cA_4g87-a1-m3-cA 4g87-a1-m2-cA_4g87-a1-m3-cA 4hcq-a1-m1-cA_4hcq-a1-m2-cA 4hcq-a1-m1-cA_4hcq-a1-m3-cA 4hcq-a1-m2-cA_4hcq-a1-m3-cA 4k6r-a1-m1-cA_4k6r-a1-m2-cA 4k6r-a1-m1-cA_4k6r-a1-m3-cA 4k6r-a1-m2-cA_4k6r-a1-m3-cA 6ge9-a1-m1-cA_6ge9-a1-m2-cA 6ge9-a1-m1-cA_6ge9-a1-m3-cA 6ge9-a1-m2-cA_6ge9-a1-m3-cA DTAVLVLAAGPGTRMRSDTPKVLHTLAGRSMLSHVLHAIAKLAPQRLIVVLGHDHQRIAPLVGELADTLGRTIDVALQDRPLGTGHAVLCGLSALPDDYAGNVVVTSGDTPLLDADTLADLIATHRAVSAAVTVLTTTLDDPFGYGRILRTQDHEVMAIVEQTDATPSQREIREVNAGVYAFDIAALRSALSRLSSNNAQQELYLTDVIAILRSDGQTVHASHVDDSALVAGVNNRVQLAELASELNRRVVAAHQLAGVTVVDPATTWIDVDVTIGRDTVIHPGTQLLGRTQIGGRCVVGPDTTLTDVAVGDGASVVRTHGSSSSIGDGAAVGPFTYLRPGTALGADGKLGAFVEVKNSTIGTGTKVPHLTYVGDADIGEYSNIGASSVFVNRTTVGSHVRTGSDTMFVAPVTIGDGAYTGAGTVVREDVPPGALAVSAGPQRNIENWVQRKRPGSPAAQAS DTAVLVLAAGPGTRMRSDTPKVLHTLAGRSMLSHVLHAIAKLAPQRLIVVLGHDHQRIAPLVGELADTLGRTIDVALQDRPLGTGHAVLCGLSALPDDYAGNVVVTSGDTPLLDADTLADLIATHRAVSAAVTVLTTTLDDPFGYGRILRTQDHEVMAIVEQTDATPSQREIREVNAGVYAFDIAALRSALSRLSSNNAQQELYLTDVIAILRSDGQTVHASHVDDSALVAGVNNRVQLAELASELNRRVVAAHQLAGVTVVDPATTWIDVDVTIGRDTVIHPGTQLLGRTQIGGRCVVGPDTTLTDVAVGDGASVVRTHGSSSSIGDGAAVGPFTYLRPGTALGADGKLGAFVEVKNSTIGTGTKVPHLTYVGDADIGEYSNIGASSVFVNRTTVGSHVRTGSDTMFVAPVTIGDGAYTGAGTVVREDVPPGALAVSAGPQRNIENWVQRKRPGSPAAQAS 4g3v-a1-m1-cA_4g3v-a1-m1-cB Crystal structure of A. Aeolicus nlh2 gaf domain in an inactive state O67661 O67661 1.7 X-RAY DIFFRACTION 77 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 162 162 RLKLKEINVVNEITKILTGDYTFEESLKEVLKVLYSYLGVEHSFIAIREGNTLRIASSYGYFLNKDVAFKKGEGITGKVFQRGIPLVIPNVKHNSAFANKTGIGRLLTEKHALIAAPIKVGGEVKGVITIFKEFSDKESLENFYQTINVIGNLLGMFFKLRE RLKLKEINVVNEITKILTGDYTFEESLKEVLKVLYSYLGVEHSFIAIREGNTLRIASSYGYFLNKDVAFKKGEGITGKVFQRGIPLVIPNVKHNSAFANKTGIGRLLTEKHALIAAPIKVGGEVKGVITIFKEFSDKESLENFYQTINVIGNLLGMFFKLRE 4g3w-a1-m1-cA_4g3w-a1-m2-cA Crystal structure of a. aeolicus nlh1 gaf domain in an inactive state O66591 O66591 2.7 X-RAY DIFFRACTION 33 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 137 137 NLETTVPYIFRLLKKLMGFERLTLTIYDPSTDQIVVRATSSGKFPKEGFKKGEGITGKVWKHGVPIVIPDISQEPEFLNKVWKRKKKKIAFIAVPIKSGGKVIGVLSADKEINEKDSLDEYTRFLSMIATLIANSFS NLETTVPYIFRLLKKLMGFERLTLTIYDPSTDQIVVRATSSGKFPKEGFKKGEGITGKVWKHGVPIVIPDISQEPEFLNKVWKRKKKKIAFIAVPIKSGGKVIGVLSADKEINEKDSLDEYTRFLSMIATLIANSFS 4g41-a1-m1-cA_4g41-a1-m1-cB Crystal structure of s-adenosylhomocysteine nucleosidase from streptococcus pyogenes in complex with 5-methylthiotubericidin 1.45 X-RAY DIFFRACTION 125 1.0 864568 (Streptococcus pyogenes ATCC 10782) 864568 (Streptococcus pyogenes ATCC 10782) 236 236 GAMGSMKIGIIAAMEEELSLLLANLLDAQEHQVLSKTYYTGRFGKHELILVQSGVGKVMSAMTVAILVEHFKAQAIINTGSAGAVASHLAIGDVVVADRLVYHDVDATAFGYAYGQMAGQPLYYDCDPQFVAIFKQVLKHEKTNGQVGLIATGDSFVAGQDKIDQIKTAFSNVLAVEMEGAAIAQAAHTAGKPFIVVRAMSDTAAHDANITFDQFIIEAGKRSAQILMTFLENLPV GAMGSMKIGIIAAMEEELSLLLANLLDAQEHQVLSKTYYTGRFGKHELILVQSGVGKVMSAMTVAILVEHFKAQAIINTGSAGAVASHLAIGDVVVADRLVYHDVDATAFGYAYGQMAGQPLYYDCDPQFVAIFKQVLKHEKTNGQVGLIATGDSFVAGQDKIDQIKTAFSNVLAVEMEGAAIAQAAHTAGKPFIVVRAMSDTAAHDANITFDQFIIEAGKRSAQILMTFLENLPV 4g4f-a2-m1-cA_4g4f-a2-m6-cA Crystal structure of GITRL from Bushbaby J3QW36 J3QW36 1.847 X-RAY DIFFRACTION 15 1.0 30611 (Otolemur garnettii) 30611 (Otolemur garnettii) 114 114 4g4f-a2-m2-cA_4g4f-a2-m5-cA 4g4f-a2-m3-cA_4g4f-a2-m4-cA KPCLAKFELLTSKWQMTSRKPPCVNSLPEGKLKILQDGLYLIYGQVAPSPFAVQLRKNEAMLQTLTSNSTIYDVGGTYEFHAGDIIDLIFDDEHQVLKNNTYWGIVLLANLFIS KPCLAKFELLTSKWQMTSRKPPCVNSLPEGKLKILQDGLYLIYGQVAPSPFAVQLRKNEAMLQTLTSNSTIYDVGGTYEFHAGDIIDLIFDDEHQVLKNNTYWGIVLLANLFIS 4g4f-a2-m5-cA_4g4f-a2-m6-cA Crystal structure of GITRL from Bushbaby J3QW36 J3QW36 1.847 X-RAY DIFFRACTION 49 1.0 30611 (Otolemur garnettii) 30611 (Otolemur garnettii) 114 114 4g4f-a1-m1-cA_4g4f-a1-m2-cA 4g4f-a1-m1-cA_4g4f-a1-m3-cA 4g4f-a1-m2-cA_4g4f-a1-m3-cA 4g4f-a2-m1-cA_4g4f-a2-m2-cA 4g4f-a2-m1-cA_4g4f-a2-m3-cA 4g4f-a2-m2-cA_4g4f-a2-m3-cA 4g4f-a2-m4-cA_4g4f-a2-m5-cA 4g4f-a2-m4-cA_4g4f-a2-m6-cA KPCLAKFELLTSKWQMTSRKPPCVNSLPEGKLKILQDGLYLIYGQVAPSPFAVQLRKNEAMLQTLTSNSTIYDVGGTYEFHAGDIIDLIFDDEHQVLKNNTYWGIVLLANLFIS KPCLAKFELLTSKWQMTSRKPPCVNSLPEGKLKILQDGLYLIYGQVAPSPFAVQLRKNEAMLQTLTSNSTIYDVGGTYEFHAGDIIDLIFDDEHQVLKNNTYWGIVLLANLFIS 4g4m-a1-m2-cA_4g4m-a1-m2-cB Crystal structure of the de novo designed fluorinated peptide alpha4F3(6-13) 1.48 X-RAY DIFFRACTION 21 1.0 22 22 4g4m-a1-m1-cA_4g4m-a1-m1-cB GNADEYKEEDQERLRKLRKKLR GNADEYKEEDQERLRKLRKKLR 4g56-a1-m2-cC_4g56-a1-m1-cA Crystal Structure of full length PRMT5/MEP50 complexes from Xenopus laevis Q6NUA1 Q6NUA1 2.95 X-RAY DIFFRACTION 102 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 590 604 4g56-a1-m1-cC_4g56-a1-m2-cA RVSSGRDVACVTEVADTLGAANQGFDFLCPIFHPRFKREFYKEPAKSRPGPQTRSDLLLSGRDWNTLIVGKLSDWIKTDSEVSRIRKTSEAAQQELNFSAYLGLPAFLIPLKQEDNSNLSRLLINHIHVGHHSTFWRVPLAPNDLRDDLIENEPEERTWIWWHNFRSLCDYNKKIALAIEIGADLPSGHVIDRWLGEPIKAAFLPTSIFLTNKKGFPVLTKVHQRLIFKLFKLEVQFVISGSHHCSYLQYLEYLSQNSPPPGYEDYLQSPLQPLDNLESQTYEVFEKDPVKYSQYQQAVYKCLLDRVPEEEKETNIQILVLGAGRGPLVNASLRAAKQAERKIKVYAVEKNPNAVITLEGWRYEEWGSQVTVVSGDREWKAPEKADIIVSELLGSFGDNELSPECLDGAQHFLKDDGVSIPGEYTSYLAPISSSKLYNEVRACREKDRDPEAQFEPYVVRLHNFHQLSDPLPCFTFHHPNKDDVIDNNRYCCLQYRVDLNTVLHGFAGYFNTVLYKDVTLSICPESHSPGFSWFPILFPIKQPIPREGDTVCVRFWRCNNGKKVWYEWAVTSPVCSAIHNPTGRSYTIGL RVSSGRDVACVTEVADTLGAANQGFDFLCPIFHPRFKREFYKEPAKSRPGPQTRSDLLLSGRDWNTLIVGKLSDWIKTDSEVSRIRKTSEAAQQELNFSAYLGLPAFLIPLKQEDNSNLSRLLINHIHVGHHSTFWRVPLAPNDLRDDLIENEPGEERTWIWWHNFRSLCDYNKKIALAIEIGADLPSGHVIDRWLGEPIKAAFLPTSIFLTNKKGFPVLTKVHQRLIFKLFKLEVQFVISGSHHHSEKDLCSYLQYLEYLSQNSPPPNAYEFAKGYEDYLQSPLQPLDNLESQTYEVFEKDPVKYSQYQQAVYKCLLDRVPEEEKETNIQILVLGAGRGPLVNASLRAAKQAERKIKVYAVEKNPNAVITLEGWRYEEWGSQVTVVSGDREWKAPEKADIIVSELLGSFGDNELSPECLDGAQHFLKDDGVSIPGEYTSYLAPISSSKLYNEVRACREKDRDPEAQFEPYVVRLHNFHQLSDPLPCFTFHHPNKDDVIDNNRYCCLQYRVDLNTVLHGFAGYFNTVLYKDVTLSICPESHSPGFSWFPILFPIKQPIPREGDTVCVRFWRCNNGKKVWYEWAVTSPVCSAIHNPTGRSYTIGL 4g56-a1-m2-cC_4g56-a1-m2-cA Crystal Structure of full length PRMT5/MEP50 complexes from Xenopus laevis Q6NUA1 Q6NUA1 2.95 X-RAY DIFFRACTION 107 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 590 604 4g56-a1-m1-cC_4g56-a1-m1-cA RVSSGRDVACVTEVADTLGAANQGFDFLCPIFHPRFKREFYKEPAKSRPGPQTRSDLLLSGRDWNTLIVGKLSDWIKTDSEVSRIRKTSEAAQQELNFSAYLGLPAFLIPLKQEDNSNLSRLLINHIHVGHHSTFWRVPLAPNDLRDDLIENEPEERTWIWWHNFRSLCDYNKKIALAIEIGADLPSGHVIDRWLGEPIKAAFLPTSIFLTNKKGFPVLTKVHQRLIFKLFKLEVQFVISGSHHCSYLQYLEYLSQNSPPPGYEDYLQSPLQPLDNLESQTYEVFEKDPVKYSQYQQAVYKCLLDRVPEEEKETNIQILVLGAGRGPLVNASLRAAKQAERKIKVYAVEKNPNAVITLEGWRYEEWGSQVTVVSGDREWKAPEKADIIVSELLGSFGDNELSPECLDGAQHFLKDDGVSIPGEYTSYLAPISSSKLYNEVRACREKDRDPEAQFEPYVVRLHNFHQLSDPLPCFTFHHPNKDDVIDNNRYCCLQYRVDLNTVLHGFAGYFNTVLYKDVTLSICPESHSPGFSWFPILFPIKQPIPREGDTVCVRFWRCNNGKKVWYEWAVTSPVCSAIHNPTGRSYTIGL RVSSGRDVACVTEVADTLGAANQGFDFLCPIFHPRFKREFYKEPAKSRPGPQTRSDLLLSGRDWNTLIVGKLSDWIKTDSEVSRIRKTSEAAQQELNFSAYLGLPAFLIPLKQEDNSNLSRLLINHIHVGHHSTFWRVPLAPNDLRDDLIENEPGEERTWIWWHNFRSLCDYNKKIALAIEIGADLPSGHVIDRWLGEPIKAAFLPTSIFLTNKKGFPVLTKVHQRLIFKLFKLEVQFVISGSHHHSEKDLCSYLQYLEYLSQNSPPPNAYEFAKGYEDYLQSPLQPLDNLESQTYEVFEKDPVKYSQYQQAVYKCLLDRVPEEEKETNIQILVLGAGRGPLVNASLRAAKQAERKIKVYAVEKNPNAVITLEGWRYEEWGSQVTVVSGDREWKAPEKADIIVSELLGSFGDNELSPECLDGAQHFLKDDGVSIPGEYTSYLAPISSSKLYNEVRACREKDRDPEAQFEPYVVRLHNFHQLSDPLPCFTFHHPNKDDVIDNNRYCCLQYRVDLNTVLHGFAGYFNTVLYKDVTLSICPESHSPGFSWFPILFPIKQPIPREGDTVCVRFWRCNNGKKVWYEWAVTSPVCSAIHNPTGRSYTIGL 4g5a-a1-m1-cA_4g5a-a1-m1-cB Crystal structure of a putative member of duf 3244 protein family (BT_1867) from Bacteroides thetaiotaomicron VPI-5482 at 1.69 A resolution Q8A6L2 Q8A6L2 1.69 X-RAY DIFFRACTION 135 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 98 98 GKQHVKTKSDWVIQRTPVDPEWLKVYVDDESKRLCLNFKDSFAPITVEVKDIEKQIVFQSIIFPVAAGEYTLYLGDLSLGQYELYYNASVKVVGNFTL GKQHVKTKSDWVIQRTPVDPEWLKVYVDDESKRLCLNFKDSFAPITVEVKDIEKQIVFQSIIFPVAAGEYTLYLGDLSLGQYELYYNASVKVVGNFTL 4g5e-a2-m1-cC_4g5e-a2-m3-cD 2,4,6-Trichlorophenol 4-monooxygenase Q471I2 Q471I2 2.5 X-RAY DIFFRACTION 205 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 471 471 4g5e-a1-m1-cA_4g5e-a1-m2-cB 4g5e-a1-m1-cB_4g5e-a1-m2-cA 4g5e-a2-m1-cD_4g5e-a2-m3-cC IRTGKQYLESLNDGRNVWVGNEKIDNVATHPKTRDYAQRHADFYDLHHRPDLQDVMTFVDKDGERRTMQWFGHYDKEQLRRKRKYHETIMREMAGASFPRTPDVNNYVLQTYIDDPSPWETQTIGAEGKVKAKNIVDFVNFAKKHDLNCAPQFVDPQMPGLRVIEKNDKGIVVSGVKAIGTGVAFADWIHIGVFFRPGIPGDQIIFAATPVNTPGVTIVCRESVVKEDPIEHPLASQGDELDGMTVFDNVFIPWSHVFHLGNPEHAKLYPQRVFDWLHYHALIRQSVRAELMAGLAILITEHIGTNKIPAVQTRVAKLIGFHQAMLAHIVASEELGFHTPGGAYKPNILIYDFGRALYLENFSQMIYELVDLSGRSALIFASEDQWNDEALNGWFERMNNGPVGQPHDRVKIGRVIRDLFLTDWGNRLFVFENFNGTPLQAIRMLTMQRAEFSAAGPYGTLARKVCGIELT IRTGKQYLESLNDGRNVWVGNEKIDNVATHPKTRDYAQRHADFYDLHHRPDLQDVMTFVDKDGERRTMQWFGHYDKEQLRRKRKYHETIMREMAGASFPRTPDVNNYVLQTYIDDPSPWETQTIGAEGKVKAKNIVDFVNFAKKHDLNCAPQFVDPQMPGLRVIEKNDKGIVVSGVKAIGTGVAFADWIHIGVFFRPGIPGDQIIFAATPVNTPGVTIVCRESVVKEDPIEHPLASQGDELDGMTVFDNVFIPWSHVFHLGNPEHAKLYPQRVFDWLHYHALIRQSVRAELMAGLAILITEHIGTNKIPAVQTRVAKLIGFHQAMLAHIVASEELGFHTPGGAYKPNILIYDFGRALYLENFSQMIYELVDLSGRSALIFASEDQWNDEALNGWFERMNNGPVGQPHDRVKIGRVIRDLFLTDWGNRLFVFENFNGTPLQAIRMLTMQRAEFSAAGPYGTLARKVCGIELT 4g5e-a2-m1-cD_4g5e-a2-m3-cD 2,4,6-Trichlorophenol 4-monooxygenase Q471I2 Q471I2 2.5 X-RAY DIFFRACTION 135 1.0 264198 (Cupriavidus pinatubonensis JMP134) 264198 (Cupriavidus pinatubonensis JMP134) 471 471 4g5e-a1-m1-cA_4g5e-a1-m2-cA 4g5e-a1-m1-cB_4g5e-a1-m2-cB 4g5e-a2-m1-cC_4g5e-a2-m3-cC IRTGKQYLESLNDGRNVWVGNEKIDNVATHPKTRDYAQRHADFYDLHHRPDLQDVMTFVDKDGERRTMQWFGHYDKEQLRRKRKYHETIMREMAGASFPRTPDVNNYVLQTYIDDPSPWETQTIGAEGKVKAKNIVDFVNFAKKHDLNCAPQFVDPQMPGLRVIEKNDKGIVVSGVKAIGTGVAFADWIHIGVFFRPGIPGDQIIFAATPVNTPGVTIVCRESVVKEDPIEHPLASQGDELDGMTVFDNVFIPWSHVFHLGNPEHAKLYPQRVFDWLHYHALIRQSVRAELMAGLAILITEHIGTNKIPAVQTRVAKLIGFHQAMLAHIVASEELGFHTPGGAYKPNILIYDFGRALYLENFSQMIYELVDLSGRSALIFASEDQWNDEALNGWFERMNNGPVGQPHDRVKIGRVIRDLFLTDWGNRLFVFENFNGTPLQAIRMLTMQRAEFSAAGPYGTLARKVCGIELT IRTGKQYLESLNDGRNVWVGNEKIDNVATHPKTRDYAQRHADFYDLHHRPDLQDVMTFVDKDGERRTMQWFGHYDKEQLRRKRKYHETIMREMAGASFPRTPDVNNYVLQTYIDDPSPWETQTIGAEGKVKAKNIVDFVNFAKKHDLNCAPQFVDPQMPGLRVIEKNDKGIVVSGVKAIGTGVAFADWIHIGVFFRPGIPGDQIIFAATPVNTPGVTIVCRESVVKEDPIEHPLASQGDELDGMTVFDNVFIPWSHVFHLGNPEHAKLYPQRVFDWLHYHALIRQSVRAELMAGLAILITEHIGTNKIPAVQTRVAKLIGFHQAMLAHIVASEELGFHTPGGAYKPNILIYDFGRALYLENFSQMIYELVDLSGRSALIFASEDQWNDEALNGWFERMNNGPVGQPHDRVKIGRVIRDLFLTDWGNRLFVFENFNGTPLQAIRMLTMQRAEFSAAGPYGTLARKVCGIELT 4g5f-a1-m1-cB_4g5f-a1-m1-cA Pantothenate synthetase in complex with racemate (2S)-2,3-DIHYDRO-1,4-BENZODIOXINE-2-CARBOXYLIC ACID and (2R)-2,3-DIHYDRO-1,4-BENZODIOXINE-2-CARBOXYLIC ACID P9WIL5 P9WIL5 2.33 X-RAY DIFFRACTION 74 0.993 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 272 282 1mop-a1-m1-cB_1mop-a1-m1-cA 1n2b-a1-m1-cB_1n2b-a1-m1-cA 1n2e-a1-m1-cB_1n2e-a1-m1-cA 1n2g-a1-m1-cB_1n2g-a1-m1-cA 1n2h-a1-m1-cB_1n2h-a1-m1-cA 1n2i-a1-m1-cA_1n2i-a1-m1-cB 1n2j-a1-m1-cA_1n2j-a1-m1-cB 1n2o-a1-m1-cA_1n2o-a1-m1-cB 2a7x-a1-m1-cA_2a7x-a1-m2-cA 2a84-a1-m1-cA_2a84-a1-m2-cA 2a86-a1-m1-cB_2a86-a1-m1-cA 2a88-a1-m1-cA_2a88-a1-m2-cA 3cov-a1-m1-cB_3cov-a1-m1-cA 3cow-a1-m1-cB_3cow-a1-m1-cA 3coy-a1-m1-cB_3coy-a1-m1-cA 3coz-a1-m1-cB_3coz-a1-m1-cA 3imc-a1-m1-cB_3imc-a1-m1-cA 3img-a1-m1-cB_3img-a1-m1-cA 3iob-a1-m1-cB_3iob-a1-m1-cA 3ioc-a1-m1-cA_3ioc-a1-m1-cB 3ioe-a1-m1-cB_3ioe-a1-m1-cA 3iub-a1-m1-cB_3iub-a1-m1-cA 3iue-a1-m1-cB_3iue-a1-m1-cA 3ivc-a1-m1-cB_3ivc-a1-m1-cA 3ivg-a1-m1-cB_3ivg-a1-m1-cA 3ivx-a1-m1-cB_3ivx-a1-m1-cA 3le8-a1-m1-cB_3le8-a1-m1-cA 4ddh-a1-m1-cB_4ddh-a1-m1-cA 4ddk-a1-m1-cB_4ddk-a1-m1-cA 4ddm-a1-m1-cB_4ddm-a1-m1-cA 4de5-a1-m1-cB_4de5-a1-m1-cA 4ef6-a1-m1-cB_4ef6-a1-m1-cA 4efk-a1-m1-cB_4efk-a1-m1-cA 4fzj-a1-m1-cB_4fzj-a1-m1-cA 4g5y-a1-m1-cB_4g5y-a1-m1-cA 4mq6-a1-m1-cB_4mq6-a1-m1-cA 4mue-a1-m1-cA_4mue-a1-m1-cB 4muf-a1-m1-cB_4muf-a1-m1-cA 4mug-a1-m1-cB_4mug-a1-m1-cA 4muh-a1-m1-cB_4muh-a1-m1-cA 4mui-a1-m1-cB_4mui-a1-m1-cA 4muj-a1-m1-cB_4muj-a1-m1-cA 4muk-a1-m1-cB_4muk-a1-m1-cA 4mul-a1-m1-cB_4mul-a1-m1-cA 4mun-a1-m1-cB_4mun-a1-m1-cA AIPAFHPGELNVYSAPGDVADVSRALRLTGRRVMLVPTMGALHEGHLALVRAAKRVPGSVVVVSIFVNPPDDDLAQLRAEGVEIAFTPTTAAMYPDGLRTTVQPGPLAAELEGGPRPTHFAGVLTVVLKLLQIVRPDRVFFGEKDYQQLVLIRQLVADFNLDVAVVGVPTVREADGLAMSSRNRYLDPAQRAAAVALSAALTAAAHAATAGAQAALDAARAVLDAAPGVAVDYLELRDIGLGPMPLNGSGRLLVAARLGTTRLLDNIAIEIG PAFHPGELNVYSAPGDVADVSRALRLTGRRVMLVPTMGALHEGHLALVRAAKRVPGSVVVVSIFVNPMQFDLDAYPRTPDDDLAQLRAEGVEIAFTPTTAAMYPDGLRTTVQPGPLAAELEGGPRPTHFAGVLTVVLKLLQIVRPDRVFFGEKDYQQLVLIRQLVADFNLDVAVVGVPTVREADGLAMSSRNRYLDPAQRAAAVALSAALTAAAHAATAGAQAALDAARAVLDAAPGVAVDYLELRDIGLGPMPLNGSGRLLVAARLGTTRLLDNIAIEIGT 4g5h-a1-m3-cA_4g5h-a1-m6-cA Crystal structure of capsular polysaccharide synthesizing enzyme CapE from Staphylococcus aureus in complex with by-product A0A0H3JPH0 A0A0H3JPH0 1.88 X-RAY DIFFRACTION 166 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 346 346 3vvc-a1-m1-cA_3vvc-a1-m4-cA 3vvc-a1-m2-cA_3vvc-a1-m6-cA 3vvc-a1-m3-cA_3vvc-a1-m5-cA 3w1v-a1-m1-cB_3w1v-a1-m1-cA 3w1v-a1-m2-cB_3w1v-a1-m2-cA 3w1v-a1-m3-cB_3w1v-a1-m3-cA 4g5h-a1-m1-cA_4g5h-a1-m5-cA 4g5h-a1-m2-cA_4g5h-a1-m4-cA GLVPRGSAMGFDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMASRGSVIPLFIDKIKAGEPLTITDPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLELFEADNAIEIIGTRHGEKKAETLLTREEYAQCEDMGDYFRVPADSRDLNYSNYVETGNEKITQSYEYNSDNTHILTVEEIKEKLLTLEYVRNELNDY GLVPRGSAMGFDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMASRGSVIPLFIDKIKAGEPLTITDPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLELFEADNAIEIIGTRHGEKKAETLLTREEYAQCEDMGDYFRVPADSRDLNYSNYVETGNEKITQSYEYNSDNTHILTVEEIKEKLLTLEYVRNELNDY 4g5h-a1-m5-cA_4g5h-a1-m6-cA Crystal structure of capsular polysaccharide synthesizing enzyme CapE from Staphylococcus aureus in complex with by-product A0A0H3JPH0 A0A0H3JPH0 1.88 X-RAY DIFFRACTION 12 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 346 346 3w1v-a1-m1-cA_3w1v-a1-m2-cA 3w1v-a1-m1-cA_3w1v-a1-m3-cA 3w1v-a1-m1-cB_3w1v-a1-m2-cB 3w1v-a1-m1-cB_3w1v-a1-m3-cB 3w1v-a1-m2-cA_3w1v-a1-m3-cA 3w1v-a1-m2-cB_3w1v-a1-m3-cB 4g5h-a1-m1-cA_4g5h-a1-m2-cA 4g5h-a1-m1-cA_4g5h-a1-m3-cA 4g5h-a1-m2-cA_4g5h-a1-m3-cA 4g5h-a1-m4-cA_4g5h-a1-m5-cA 4g5h-a1-m4-cA_4g5h-a1-m6-cA GLVPRGSAMGFDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMASRGSVIPLFIDKIKAGEPLTITDPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLELFEADNAIEIIGTRHGEKKAETLLTREEYAQCEDMGDYFRVPADSRDLNYSNYVETGNEKITQSYEYNSDNTHILTVEEIKEKLLTLEYVRNELNDY GLVPRGSAMGFDDKILLITGGTGSFGNAVMKRFLDSNIKEIRIFSRDEKKQDDIRKKYNNSKLKFYIGDVRDSQSVETAMRDVDYVFHAAALKQVPSCEFFPVEAVKTNIIGTENVLQSAIHQNVKKVICLSTDKAAYPINAMGISKAMMEKVFVAKSRNIRSEQTLICGTRYGNVMASRGSVIPLFIDKIKAGEPLTITDPDMTRFLMSLEDAVELVVHAFKHAETGDIMVQKAPSSTVGDLATALLELFEADNAIEIIGTRHGEKKAETLLTREEYAQCEDMGDYFRVPADSRDLNYSNYVETGNEKITQSYEYNSDNTHILTVEEIKEKLLTLEYVRNELNDY 4g6c-a1-m1-cB_4g6c-a1-m1-cA Crystal structure of beta-hexosaminidase 1 from Burkholderia cenocepacia J2315 B4EA43 B4EA43 1.38 X-RAY DIFFRACTION 98 0.991 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 325 333 4gnv-a1-m1-cA_4gnv-a1-m1-cB 5utr-a3-m1-cA_5utr-a3-m1-cB TPGPVMLDVVGTTLSRDDARRLAHPNTGGVILFARHFQNRAQLTALTDSIRAVREDILIAVDHEGGRVQRFRTDGFTVLPAMRRLGELWDRDVLLATKVATAVGYILAAELRACGIDMSFTPVLDLDYGHSKVIGDRAFHRDPRVVTLLAKSLNHGLSLAGMANCGKHFPGHGFALPTDDRTLDAILEQDVAPYDWLGLSLAAVIPAHVIYTQVDKRPAGFSRVWLQDILRGKLGFTGAIFSDDLSMTLTQAADAALAAGCDMVLVCNQPDAAEVVLNGLKARASAESVRRIKRMRARGKALKWDKLIAQPEYLQAQALLSSALA TTPGPVMLDVVGTTLSRDDARRLAHPNTGGVILFARHFQNRAQLTALTDSIRAVREDILIAVDHEGGRVQRFRTDGFTVLPAMRRLGELWDRDVLLATKVATAVGYILAAELRACGIDMSFTPVLDLDYGHSKVIGDRAFHRDPRVVTLLAKSLNHGLSLAGMANCGKHFPGHGFAEAALPTDDRTLDAILEQDVAPYDWLGLSLAAVIPAHVIYTQVDKRPAGFSRVWLQDILRGKLGFTGAIFSDDLSMEAAREGGTLTQAADAALAAGCDMVLVCNQPDAAEVVLNGLKASAESVRRIKRMRARGKALKWDKLIAQPEYLQAQALLSSAL 4g6f-a1-m1-cH_4g6f-a1-m1-cB Crystal Structure of 10E8 Fab in Complex with an HIV-1 gp41 Peptide 2.1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 235 EVQLVESGGGLVKPGGSLRLSCSASGFDFDNAWMTWVRQPPGKGLEWVGRITGPGEGWSVDYAAPVEGRFTISRLNSINFLYLEMNNLRMEDSGLYFCARTGKYYDFWSGYPPGEEYFQDWGRGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPK EVQLVESGGGLVKPGGSLRLSCSASGFDFDNAWMTWVRQPPGKGLEWVGRITGPGEGWSVDYAAPVEGRFTISRLNSINFLYLEMNNLRMEDSGLYFCARTGKYYDFWSGYPPGEEYFQDWGRGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKSCD 4g6f-a1-m1-cL_4g6f-a1-m1-cD Crystal Structure of 10E8 Fab in Complex with an HIV-1 gp41 Peptide 2.1 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 211 YELTQETGVSVALGRTVTITCRGDSLRSHYASWYQKKPGQAPILLFYGKNNRPSGVPDRFSGSASGNRASLTISGAQAEDDAEYYCSSRDKSGSRLSVFGGGTKLTVLSQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTE YELTQETGVSVALGRTVTITCRGDSLRSHYASWYQKKPGQAPILLFYGKNNRPSGVPDRFSGSASGNRASLTISGAQAEDDAEYYCSSRDKSGSRLSVFGGGTKLTVLSQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 4g6h-a1-m1-cA_4g6h-a1-m1-cB Crystal structure of NDH with NADH P32340 P32340 2.262 X-RAY DIFFRACTION 94 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 472 472 4g6g-a1-m1-cB_4g6g-a1-m1-cA 4g73-a1-m1-cA_4g73-a1-m1-cB 4g74-a1-m1-cB_4g74-a1-m1-cA 4g9k-a1-m1-cA_4g9k-a1-m1-cB 4gap-a1-m1-cA_4gap-a1-m1-cB 4gav-a1-m1-cA_4gav-a1-m1-cB 5yjw-a1-m1-cA_5yjw-a1-m2-cA 5yjx-a1-m1-cA_5yjx-a1-m1-cB 5yjy-a1-m1-cA_5yjy-a1-m1-cB TMKVIDPQHSDKPNVLILGSGWGAISFLKHIDTKKYNVSIISPRSYFLFTPLLPSAPVGTVDEKSIIEPIVNFALKKKGNVTYYEAEATSINPDRNTVTIKSLSAVSQLYQPENHLGLHQAEPAEIKYDYLISAVGAEPNTFGIPGVTDYGHFLKEIPNSLEIRRTFAANLEKANLLPKGDPERRRLLSIVVVGGGPTGVEAAGELQDYVHQDLRKFLPALAEEVQIHLVEALPIVLNMFEKKLSSYAQSHLENTSIKVHLRTAVAKVEEKQLLAKTKHEDGKITEETIPYGTLIWATGNKARPVITDLFKKIPEQNSSKRGLAVNDFLQVKGSNNIFAIGDNAFAGLPPTAQVAHQEAEYLAKNFDKMAQIPNFQKNLSSRKDKIDLLFEENNFKPFKYNDLGALAYLGSERAIATIRSGKRTFYTGGGLMTFYLWRILYLSMILSARSRLKVFFDWIKLAFFKRDFFKGL TMKVIDPQHSDKPNVLILGSGWGAISFLKHIDTKKYNVSIISPRSYFLFTPLLPSAPVGTVDEKSIIEPIVNFALKKKGNVTYYEAEATSINPDRNTVTIKSLSAVSQLYQPENHLGLHQAEPAEIKYDYLISAVGAEPNTFGIPGVTDYGHFLKEIPNSLEIRRTFAANLEKANLLPKGDPERRRLLSIVVVGGGPTGVEAAGELQDYVHQDLRKFLPALAEEVQIHLVEALPIVLNMFEKKLSSYAQSHLENTSIKVHLRTAVAKVEEKQLLAKTKHEDGKITEETIPYGTLIWATGNKARPVITDLFKKIPEQNSSKRGLAVNDFLQVKGSNNIFAIGDNAFAGLPPTAQVAHQEAEYLAKNFDKMAQIPNFQKNLSSRKDKIDLLFEENNFKPFKYNDLGALAYLGSERAIATIRSGKRTFYTGGGLMTFYLWRILYLSMILSARSRLKVFFDWIKLAFFKRDFFKGL 4g6q-a4-m1-cB_4g6q-a4-m2-cB The crystal structure of a functionally unknown protein Kfla_6221 from Kribbella flavida DSM 17836 D2PVI4 D2PVI4 2.08 X-RAY DIFFRACTION 254 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 165 165 4g6q-a1-m1-cA_4g6q-a1-m2-cA 4g6q-a2-m1-cB_4g6q-a2-m2-cB 4g6q-a4-m1-cA_4g6q-a4-m2-cA GQPATSSLVDLLHHPLRWRITQLLIGRSLTTRELAELLPDVATTTLYRQVGILVKAGVLVTAEHQVRGAVERTYTLNTQAVDADRLRTFTVFVAGVGGHLDQYLEREQIDPLADGIAFRQTALNLSDEELAEFLTAFGEFLAPYVAHSPAPDRTRRVLSTILIPD GQPATSSLVDLLHHPLRWRITQLLIGRSLTTRELAELLPDVATTTLYRQVGILVKAGVLVTAEHQVRGAVERTYTLNTQAVDADRLRTFTVFVAGVGGHLDQYLEREQIDPLADGIAFRQTALNLSDEELAEFLTAFGEFLAPYVAHSPAPDRTRRVLSTILIPD 4g6q-a4-m2-cB_4g6q-a4-m1-cA The crystal structure of a functionally unknown protein Kfla_6221 from Kribbella flavida DSM 17836 D2PVI4 D2PVI4 2.08 X-RAY DIFFRACTION 13 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 165 174 4g6q-a4-m1-cB_4g6q-a4-m2-cA GQPATSSLVDLLHHPLRWRITQLLIGRSLTTRELAELLPDVATTTLYRQVGILVKAGVLVTAEHQVRGAVERTYTLNTQAVDADRLRTFTVFVAGVGGHLDQYLEREQIDPLADGIAFRQTALNLSDEELAEFLTAFGEFLAPYVAHSPAPDRTRRVLSTILIPD TTGQPATSSLVDLLHHPLRWRITQLLIGRSLTTRELAELLPDVATTTLYRQVGILVKAGVLVTAEHQVRGAVERTYTLNTQAGDADHDGVDADRLRTFTVFVAGVGGHLDQYLEREQIDPLADGIAFRQTALNLSDEELAEFLTAFGEFLAPYVAHSPAPDRTRRVLSTILIPD 4g6q-a4-m2-cB_4g6q-a4-m2-cA The crystal structure of a functionally unknown protein Kfla_6221 from Kribbella flavida DSM 17836 D2PVI4 D2PVI4 2.08 X-RAY DIFFRACTION 30 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 165 174 4g6q-a3-m1-cB_4g6q-a3-m1-cA 4g6q-a4-m1-cB_4g6q-a4-m1-cA GQPATSSLVDLLHHPLRWRITQLLIGRSLTTRELAELLPDVATTTLYRQVGILVKAGVLVTAEHQVRGAVERTYTLNTQAVDADRLRTFTVFVAGVGGHLDQYLEREQIDPLADGIAFRQTALNLSDEELAEFLTAFGEFLAPYVAHSPAPDRTRRVLSTILIPD TTGQPATSSLVDLLHHPLRWRITQLLIGRSLTTRELAELLPDVATTTLYRQVGILVKAGVLVTAEHQVRGAVERTYTLNTQAGDADHDGVDADRLRTFTVFVAGVGGHLDQYLEREQIDPLADGIAFRQTALNLSDEELAEFLTAFGEFLAPYVAHSPAPDRTRRVLSTILIPD 4g6x-a1-m1-cA_4g6x-a1-m2-cA Crystal structure of glyoxalase/bleomycin resistance protein from Catenulispora acidiphila. C7PY34 C7PY34 1.73 X-RAY DIFFRACTION 99 1.0 479433 (Catenulispora acidiphila DSM 44928) 479433 (Catenulispora acidiphila DSM 44928) 126 126 NARIHLTNVFVDDQAKAESFYTGKLGFLVKADVPVGADRWLTVVSPEAPDGTQLLLEPSSHAAVTPFKEALVADGIPAASFAVDDIAAEYERLSALGVRFTQEPTDGPVVTAILDDTCGNLIQLQI NARIHLTNVFVDDQAKAESFYTGKLGFLVKADVPVGADRWLTVVSPEAPDGTQLLLEPSSHAAVTPFKEALVADGIPAASFAVDDIAAEYERLSALGVRFTQEPTDGPVVTAILDDTCGNLIQLQI 4g7a-a1-m1-cA_4g7a-a1-m1-cB The crystal structure of an alpha Carbonic Anhydrase from the extremophilic bacterium Sulfurihydrogenibium yellowstonense YO3AOP1 B2V8E3 B2V8E3 1.8 X-RAY DIFFRACTION 75 1.0 436114 (Sulfurihydrogenibium sp. YO3AOP1) 436114 (Sulfurihydrogenibium sp. YO3AOP1) 224 225 EWSYEGEKGPEHWAQLKPEFFWCKLKNQSPINIDKKYKVKANLPKLNLYYKTAKESEVVNNGHTIQINIKEDNTLNYLGEKYQLKQFHFHTPSEHTIEKKSYPLEIHFVHKTEDGKILVVGVMAKLGKTNKELDKILNVAPAEEGEKILDKNLNLNNLIPKDKRYMTYSGSLTTPPCTEGVRWIVLKKPISISKQQLEKLKSVMVNPNNRPVQEINSRWIIEGF HEWSYEGEKGPEHWAQLKPEFFWCKLKNQSPINIDKKYKVKANLPKLNLYYKTAKESEVVNNGHTIQINIKEDNTLNYLGEKYQLKQFHFHTPSEHTIEKKSYPLEIHFVHKTEDGKILVVGVMAKLGKTNKELDKILNVAPAEEGEKILDKNLNLNNLIPKDKRYMTYSGSLTTPPCTEGVRWIVLKKPISISKQQLEKLKSVMVNPNNRPVQEINSRWIIEGF 4g7e-a1-m2-cB_4g7e-a1-m3-cB Crystal structure of pigeon pea urease I3PA93 I3PA93 2.2 X-RAY DIFFRACTION 379 1.0 3821 (Cajanus cajan) 3821 (Cajanus cajan) 830 830 4g7e-a1-m1-cA_4g7e-a1-m2-cA 4g7e-a1-m1-cA_4g7e-a1-m3-cA 4g7e-a1-m1-cB_4g7e-a1-m2-cB 4g7e-a1-m1-cB_4g7e-a1-m3-cB 4g7e-a1-m2-cA_4g7e-a1-m3-cA MKLSPREIEKLGLHNAGYLAQKRLARGLRLNYTEAVALIATQIMEFVRDGDKTVAQLMSIGRELLGRRQVLPAVPKLVESVQVEATFPDGTELVTIHDPIACENGNLELALLGSFLPVPSLDKFTANDEIPGEIIVVGGNLVLNDGRKAVILKVVNNGDRPVQVGSHYHFIELNPYLTFDRRKAYGMRLNIAAGNASRFEPGEKEVLLVSIGGNKVIRGGNAIADGPVNASNCIAAMQAVITRGFGHVEEANAAEGQTGEDASCPFTTVISREEYANKYGPTTGDKIRLGDTALFAEIEKDFAIYGDECTFGGGKVIRDGMGQSCGHPPALSLDTVITNAVIIDYSGIIKADIGIKDGLIHSIGKSGNPDVMDGVFQNMTTGVNTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAVTSGITTLVGGGTGPTAGTRATTCTPAPIQMKLMLQSTDDLPLNFGFTGKGNCAKPDELHEIIKAGAMGLLHEDWGTTPAAIDSCLTIAEQYDIQVNIHTDTLNESGFVEHTIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGEKNVLPSSTNPTRPLTSNTIDEHVDMLMVHHLDANIAEDVAFSASRIREATIAAEDILHDMGAISIISSDSQAMGRIGEVISRTWQTADKMKSARGPLQANDNFRIKRYVAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGAKPEMVIKGGEVAYANMGDPNASIPTPEPVKMRPMYGALGKAGGALSIAFVSKAALDQRVKVLYGLNKRVEAVSNVRKLTKLDMKLNDALPAITVDPDSYTVTADGVVLTCFVATTVPLSRNYFIF MKLSPREIEKLGLHNAGYLAQKRLARGLRLNYTEAVALIATQIMEFVRDGDKTVAQLMSIGRELLGRRQVLPAVPKLVESVQVEATFPDGTELVTIHDPIACENGNLELALLGSFLPVPSLDKFTANDEIPGEIIVVGGNLVLNDGRKAVILKVVNNGDRPVQVGSHYHFIELNPYLTFDRRKAYGMRLNIAAGNASRFEPGEKEVLLVSIGGNKVIRGGNAIADGPVNASNCIAAMQAVITRGFGHVEEANAAEGQTGEDASCPFTTVISREEYANKYGPTTGDKIRLGDTALFAEIEKDFAIYGDECTFGGGKVIRDGMGQSCGHPPALSLDTVITNAVIIDYSGIIKADIGIKDGLIHSIGKSGNPDVMDGVFQNMTTGVNTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAVTSGITTLVGGGTGPTAGTRATTCTPAPIQMKLMLQSTDDLPLNFGFTGKGNCAKPDELHEIIKAGAMGLLHEDWGTTPAAIDSCLTIAEQYDIQVNIHTDTLNESGFVEHTIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGEKNVLPSSTNPTRPLTSNTIDEHVDMLMVHHLDANIAEDVAFSASRIREATIAAEDILHDMGAISIISSDSQAMGRIGEVISRTWQTADKMKSARGPLQANDNFRIKRYVAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGAKPEMVIKGGEVAYANMGDPNASIPTPEPVKMRPMYGALGKAGGALSIAFVSKAALDQRVKVLYGLNKRVEAVSNVRKLTKLDMKLNDALPAITVDPDSYTVTADGVVLTCFVATTVPLSRNYFIF 4g7e-a1-m3-cB_4g7e-a1-m3-cA Crystal structure of pigeon pea urease I3PA93 I3PA93 2.2 X-RAY DIFFRACTION 39 1.0 3821 (Cajanus cajan) 3821 (Cajanus cajan) 830 831 4g7e-a1-m1-cB_4g7e-a1-m1-cA 4g7e-a1-m2-cB_4g7e-a1-m2-cA MKLSPREIEKLGLHNAGYLAQKRLARGLRLNYTEAVALIATQIMEFVRDGDKTVAQLMSIGRELLGRRQVLPAVPKLVESVQVEATFPDGTELVTIHDPIACENGNLELALLGSFLPVPSLDKFTANDEIPGEIIVVGGNLVLNDGRKAVILKVVNNGDRPVQVGSHYHFIELNPYLTFDRRKAYGMRLNIAAGNASRFEPGEKEVLLVSIGGNKVIRGGNAIADGPVNASNCIAAMQAVITRGFGHVEEANAAEGQTGEDASCPFTTVISREEYANKYGPTTGDKIRLGDTALFAEIEKDFAIYGDECTFGGGKVIRDGMGQSCGHPPALSLDTVITNAVIIDYSGIIKADIGIKDGLIHSIGKSGNPDVMDGVFQNMTTGVNTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAVTSGITTLVGGGTGPTAGTRATTCTPAPIQMKLMLQSTDDLPLNFGFTGKGNCAKPDELHEIIKAGAMGLLHEDWGTTPAAIDSCLTIAEQYDIQVNIHTDTLNESGFVEHTIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGEKNVLPSSTNPTRPLTSNTIDEHVDMLMVHHLDANIAEDVAFSASRIREATIAAEDILHDMGAISIISSDSQAMGRIGEVISRTWQTADKMKSARGPLQANDNFRIKRYVAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGAKPEMVIKGGEVAYANMGDPNASIPTPEPVKMRPMYGALGKAGGALSIAFVSKAALDQRVKVLYGLNKRVEAVSNVRKLTKLDMKLNDALPAITVDPDSYTVTADGVVLTCFVATTVPLSRNYFIF MKLSPREIEKLGLHNAGYLAQKRLARGLRLNYTEAVALIATQIMEFVRDGDKTVAQLMSIGRELLGRRQVLPAVPKLVESVQVEATFPDGTELVTIHDPIACENGNLELALLGSFLPVPSLDKFTANDEIPGEIIVVGGNLVLNDGRKAVILKVVNNGDRPVQVGSHYHFIELNPYLTFDRRKAYGMRLNIAAGNASRFEPGEMKEVLLVSIGGNKVIRGGNAIADGPVNASNCIAAMQAVITRGFGHVEEANAAEGQTGEDASCPFTTVISREEYANKYGPTTGDKIRLGDTALFAEIEKDFAIYGDECTFGGGKVIRDGMGQSCGHPPALSLDTVITNAVIIDYSGIIKADIGIKDGLIHSIGKSGNPDVMDGVFQNMTTGVNTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAVTSGITTLVGGGTGPTAGTRATTCTPAPIQMKLMLQSTDDLPLNFGFTGKGNCAKPDELHEIIKAGAMGLLHEDWGTTPAAIDSCLTIAEQYDIQVNIHTDTLNESGFVEHTIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGEKNVLPSSTNPTRPLTSNTIDEHVDMLMVHHLDANIAEDVAFSASRIREATIAAEDILHDMGAISIISSDSQAMGRIGEVISRTWQTADKMKSARGPLQANDNFRIKRYVAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGAKPEMVIKGGEVAYANMGDPNASIPTPEPVKMRPMYGALGKAGGALSIAFVSKAALDQRVKVLYGLNKRVEAVSNVRKLTKLDMKLNDALPAITVDPDSYTVTADGVVLTCFVATTVPLSRNYFIF 4g7n-a1-m1-cB_4g7n-a1-m1-cA The Structure of the Plk4 Cryptic Polo Box Reveals Two Tandem Polo Boxes Required for Centriole Duplication O97143 O97143 2.3 X-RAY DIFFRACTION 87 0.995 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 215 218 SHMDRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRPI SHMDRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLSDYSCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRP 4g7n-a2-m3-cB_4g7n-a2-m4-cB The Structure of the Plk4 Cryptic Polo Box Reveals Two Tandem Polo Boxes Required for Centriole Duplication O97143 O97143 2.3 X-RAY DIFFRACTION 47 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 215 215 SHMDRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRPI SHMDRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRPI 4g7n-a2-m4-cB_4g7n-a2-m2-cA The Structure of the Plk4 Cryptic Polo Box Reveals Two Tandem Polo Boxes Required for Centriole Duplication O97143 O97143 2.3 X-RAY DIFFRACTION 13 0.995 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 215 218 4g7n-a2-m3-cB_4g7n-a2-m1-cA SHMDRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRPI SHMDRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLSDYSCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRP 4g81-a1-m1-cC_4g81-a1-m1-cD Crystal structure of a hexonate dehydrogenase ortholog (target efi-506402 from salmonella enterica, unliganded structure 1.9 X-RAY DIFFRACTION 29 1.0 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 253 253 4g81-a1-m1-cA_4g81-a1-m1-cB ALFDLTGKTALVTGSARGLGFAYAEGLAAAGARVILNDIRATLLAESVDTLTRKGYDAHGVAFDVTDELAIEAAFSKLDAEGIHVDILINNAGIQYRKPMVELELENWQKVIDTNLTSAFLVSRSAAKRMIARNSGGKIINIGSLTSQAARPTVAPYTAAKGGIKMLTCSMAAEWAQFNIQTNAIGPGYILTDMNTALIEDKQFDSWVKSSTPSQRWGRPEELIGTAIFLSSKASDYINGQIIYVDGGWLAVL ALFDLTGKTALVTGSARGLGFAYAEGLAAAGARVILNDIRATLLAESVDTLTRKGYDAHGVAFDVTDELAIEAAFSKLDAEGIHVDILINNAGIQYRKPMVELELENWQKVIDTNLTSAFLVSRSAAKRMIARNSGGKIINIGSLTSQAARPTVAPYTAAKGGIKMLTCSMAAEWAQFNIQTNAIGPGYILTDMNTALIEDKQFDSWVKSSTPSQRWGRPEELIGTAIFLSSKASDYINGQIIYVDGGWLAVL 4g81-a4-m1-cA_4g81-a4-m1-cC Crystal structure of a hexonate dehydrogenase ortholog (target efi-506402 from salmonella enterica, unliganded structure 1.9 X-RAY DIFFRACTION 130 1.0 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 253 253 4g81-a1-m1-cA_4g81-a1-m1-cC 4g81-a1-m1-cB_4g81-a1-m1-cD 4g81-a2-m1-cB_4g81-a2-m1-cD ALFDLTGKTALVTGSARGLGFAYAEGLAAAGARVILNDIRATLLAESVDTLTRKGYDAHGVAFDVTDELAIEAAFSKLDAEGIHVDILINNAGIQYRKPMVELELENWQKVIDTNLTSAFLVSRSAAKRMIARNSGGKIINIGSLTSQAARPTVAPYTAAKGGIKMLTCSMAAEWAQFNIQTNAIGPGYILTDMNTALIEDKQFDSWVKSSTPSQRWGRPEELIGTAIFLSSKASDYINGQIIYVDGGWLAVL ALFDLTGKTALVTGSARGLGFAYAEGLAAAGARVILNDIRATLLAESVDTLTRKGYDAHGVAFDVTDELAIEAAFSKLDAEGIHVDILINNAGIQYRKPMVELELENWQKVIDTNLTSAFLVSRSAAKRMIARNSGGKIINIGSLTSQAARPTVAPYTAAKGGIKMLTCSMAAEWAQFNIQTNAIGPGYILTDMNTALIEDKQFDSWVKSSTPSQRWGRPEELIGTAIFLSSKASDYINGQIIYVDGGWLAVL 4g81-a5-m1-cB_4g81-a5-m1-cC Crystal structure of a hexonate dehydrogenase ortholog (target efi-506402 from salmonella enterica, unliganded structure 1.9 X-RAY DIFFRACTION 138 1.0 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 550537 (Salmonella enterica subsp. enterica serovar Enteritidis str. P125109) 253 253 4g81-a1-m1-cA_4g81-a1-m1-cD 4g81-a1-m1-cB_4g81-a1-m1-cC 4g81-a3-m1-cA_4g81-a3-m1-cD ALFDLTGKTALVTGSARGLGFAYAEGLAAAGARVILNDIRATLLAESVDTLTRKGYDAHGVAFDVTDELAIEAAFSKLDAEGIHVDILINNAGIQYRKPMVELELENWQKVIDTNLTSAFLVSRSAAKRMIARNSGGKIINIGSLTSQAARPTVAPYTAAKGGIKMLTCSMAAEWAQFNIQTNAIGPGYILTDMNTALIEDKQFDSWVKSSTPSQRWGRPEELIGTAIFLSSKASDYINGQIIYVDGGWLAVL ALFDLTGKTALVTGSARGLGFAYAEGLAAAGARVILNDIRATLLAESVDTLTRKGYDAHGVAFDVTDELAIEAAFSKLDAEGIHVDILINNAGIQYRKPMVELELENWQKVIDTNLTSAFLVSRSAAKRMIARNSGGKIINIGSLTSQAARPTVAPYTAAKGGIKMLTCSMAAEWAQFNIQTNAIGPGYILTDMNTALIEDKQFDSWVKSSTPSQRWGRPEELIGTAIFLSSKASDYINGQIIYVDGGWLAVL 4g8a-a1-m1-cA_4g8a-a1-m1-cB Crystal structure of human TLR4 polymorphic variant D299G and T399I in complex with MD-2 and LPS O00206 O00206 2.4 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 601 605 3fxi-a1-m1-cA_3fxi-a1-m1-cB EPCVEVVPNITYQCMELNFYKIPDNLPFSTKNLDLSFNPLRHLGSYSFFSFPELQVLDLSRCEIQTIEDGAYQSLSHLSTLILTGNPIQSLALGAFSGLSSLQKLVAVETNLASLENFPIGHLKTLKELNVAHNLIQSFKLPEYFSNLTNLEHLDLSSNKIQSIYCTDLRVLHQMPLLNLSLDLSLNPMNFIQPGAFKEIRLHKLTLRNNFDSLNVMKTCIQGLAGLEVHRLVLGEFRNEGNLEKFDKSALEGLCNLTIEEFRLAYLDYYLDGIIDLFNCLTNVSSFSLVSVTIERVKDFSYNFGWQHLELVNCKFGQFPTLKLKSLKRLTFTSNKGGNAFSEVDLPSLEFLDLSRNGLSFKGCCSQSDFGTISLKYLDLSFNGVITMSSNFLGLEQLEHLDFQHSNLKQMSEFSVFLSLRNLIYLDISHTHTRVAFNGIFNGLSSLEVLKMAGNSFQENFLPDIFTELRNLTFLDLSQCQLEQLSPTAFNSLSSLQVLNMSHNNFFSLDTFPYKCLNSLQVLDYSLNHIMTSKKQELQHFPSSLAFLNLTQNDFACTCEHQSFLQWIKDQRQLLVEVERMECATPSDKQGMPVLSLNITC PESWEPCVEVVPNITYQCMELNFYKIPDNLPFSTKNLDLSFNPLRHLGSYSFFSFPELQVLDLSRCEIQTIEDGAYQSLSHLSTLILTGNPIQSLALGAFSGLSSLQKLVAVETNLASLENFPIGHLKTLKELNVAHNLIQSFKLPEYFSNLTNLEHLDLSSNKIQSIYCTDLRVLHQMPLLNLSLDLSLNPMNFIQPGAFKEIRLHKLTLRNNFDSLNVMKTCIQGLAGLEVHRLVLGEFRNEGNLEKFDKSALEGLCNLTIEEFRLAYLDYYLDGIIDLFNCLTNVSSFSLVSVTIERVKDFSYNFGWQHLELVNCKFGQFPTLKLKSLKRLTFTSNKGGNAFSEVDLPSLEFLDLSRNGLSFKGCCSQSDFGTISLKYLDLSFNGVITMSSNFLGLEQLEHLDFQHSNLKQMSEFSVFLSLRNLIYLDISHTHTRVAFNGIFNGLSSLEVLKMAGNSFQENFLPDIFTELRNLTFLDLSQCQLEQLSPTAFNSLSSLQVLNMSHNNFFSLDTFPYKCLNSLQVLDYSLNHIMTSKKQELQHFPSSLAFLNLTQNDFACTCEHQSFLQWIKDQRQLLVEVERMECATPSDKQGMPVLSLNITC 4g8s-a1-m1-cB_4g8s-a1-m1-cA Crystal Structure Of a Putative Nitroreductase from Geobacter sulfurreducens PCA (Target PSI-013445) Q74GM9 Q74GM9 2.2 X-RAY DIFFRACTION 134 0.989 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 176 177 SDTLEAIRTRRSVRAFSDRPVEPEKLQVLEAARQAPSWANQCSRFVVVQDAEVKAKISELSFVEAFFAPLGYRTNPAQKALAEAPVVIVACGVPGESGDLRGQQYYTDVGIATENLLAAHAVGLGSVFVGVFGEEQLGDLLDIPPEIRIVGLFPLGYPRSGPARKPLDEIVFQGKW FQSDTLEAIRTRRSVRAFSDRPVEPEKLQVLEAARQAPSWANQCSRFVVVQDAEVKAKISELSFVEAFFAPLGYRTNPAQKALAEAPVVIVACGVPGESGDLRGQQYYTDVGIATENLLAAHAVGLGSVFVGVFGEEQLGDLLDIPPEIRIVGLFPLGYPRPARKPLDEIVFQGKWK 4g8t-a2-m1-cC_4g8t-a2-m1-cD Crystal structure of a glucarate dehydratase related protein, from actinobacillus succinogenes, target EFI-502312, with sodium and sulfate bound, ordered loop A6VQF1 A6VQF1 1.7 X-RAY DIFFRACTION 84 1.0 339671 (Actinobacillus succinogenes 130Z) 339671 (Actinobacillus succinogenes 130Z) 441 441 4g8t-a1-m1-cA_4g8t-a1-m1-cB STPIITEMQVIPVAGHDSMLLNLSGAHSPYFTRNIVILKDNSGNTGVGEVPGGEKIRQTLEDAKPLVIGKTLGEYKNVMNTVRQTFNDHDAGGRGLQTFDLRTTIHVVTAIEAAMLDLLGQFLGVTVASLLGDGQQRDAVEMLGYLFFIGDRKKTTLAYQNQENDPCDWYRVRHEEAMTPESVVRLAEAAYEKYGFNDFKLKGGVLDGFEEAEAVTALAKRFPDARITLDPNGAWSLDEAVKIGKQLKGVLAYAEDPCGAEQGYSGREIMAEFRRATGLPTATNMIATDWRQMGHTISLQSVDIPLADPHFWTMQGSIRVAQMCHEWGLTWGSHSNNHFDISLAMFTHVAAAAPGDITAIDTHWIWQEGNQRLTKEPFQIKGGLVEVPKKPGLGVELDMDQVMKANELYKSMGLGARDDAMAMQFLIPGWKFDNKKPCLVR STPIITEMQVIPVAGHDSMLLNLSGAHSPYFTRNIVILKDNSGNTGVGEVPGGEKIRQTLEDAKPLVIGKTLGEYKNVMNTVRQTFNDHDAGGRGLQTFDLRTTIHVVTAIEAAMLDLLGQFLGVTVASLLGDGQQRDAVEMLGYLFFIGDRKKTTLAYQNQENDPCDWYRVRHEEAMTPESVVRLAEAAYEKYGFNDFKLKGGVLDGFEEAEAVTALAKRFPDARITLDPNGAWSLDEAVKIGKQLKGVLAYAEDPCGAEQGYSGREIMAEFRRATGLPTATNMIATDWRQMGHTISLQSVDIPLADPHFWTMQGSIRVAQMCHEWGLTWGSHSNNHFDISLAMFTHVAAAAPGDITAIDTHWIWQEGNQRLTKEPFQIKGGLVEVPKKPGLGVELDMDQVMKANELYKSMGLGARDDAMAMQFLIPGWKFDNKKPCLVR 4g9b-a1-m1-cA_4g9b-a1-m2-cA Crystal structure of beta-phosphoglucomutase homolog from escherichia coli, target efi-501172, with bound mg, open lid P77366 P77366 1.7 X-RAY DIFFRACTION 74 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 227 227 VMKLQGVIFDLDGVITDTAHLHFQAWQQIAAEIGISIDAQFNESLKGISRDESLRRILQHGGKEGDFNSQERAQLAYRKNLLYVHSLRELTVNAVLPGIRSLLADLRAQQISVGLASVSLNAPTILAALELREFFTFCADASQLKNSKPDPEIFLAACAGLGVPPQACIGIEDAQAGIDAINASGMRSVGIGAGLTGAQLLLPSTESLTWPRLSAFWQNVAENLYFQ VMKLQGVIFDLDGVITDTAHLHFQAWQQIAAEIGISIDAQFNESLKGISRDESLRRILQHGGKEGDFNSQERAQLAYRKNLLYVHSLRELTVNAVLPGIRSLLADLRAQQISVGLASVSLNAPTILAALELREFFTFCADASQLKNSKPDPEIFLAACAGLGVPPQACIGIEDAQAGIDAINASGMRSVGIGAGLTGAQLLLPSTESLTWPRLSAFWQNVAENLYFQ 4g9m-a1-m1-cA_4g9m-a1-m1-cB Crystal structure of the Rhizoctonia solani agglutinin L8WGI4 L8WGI4 1.601 X-RAY DIFFRACTION 85 1.0 456999 (Rhizoctonia solani) 456999 (Rhizoctonia solani) 142 143 4g9n-a1-m1-cA_4g9n-a1-m1-cB APISLPAGTYTLKNVSTGTVLDLWRGEAAEGTAIQGYKSHGGDNQKWRLKWTGKGNQVTLQNVKSGTYVGTASNIQNSVNVVGSTTAVPLDIVAADKGFAIEAADHRLFVLDLKESNPANETPVIYYNNNATDNQKWKFIDE APISLPAGTYTLKNVSTGTVLDLWRGEAAEGTAIQGYKSHGGDNQKWRLKWTGKGNQVTLQNVKSGTYVGTASNIQNSVNVVGSTTAVPLDIVAADKGFAIEAADHRLFVLDLKESNPANETPVIYYNNNATDNQKWKFIDEK 4g9q-a1-m2-cA_4g9q-a1-m3-cA Crystal structure of a 4-carboxymuconolactone decarboxylase Q930A6 Q930A6 1.77 X-RAY DIFFRACTION 121 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 236 236 4g9q-a1-m1-cA_4g9q-a1-m2-cA 4g9q-a1-m1-cA_4g9q-a1-m3-cA QQPNVEGRRFSPDQVRSVAPALEQYTQQRLYGDVWQRPGLNRRDRSLVTIAALIARGEAPALTYYADQALENGVKPSEISETITHLAYYSGWGKAATVGPVSEAFAKRGIGQDQLAAVESTPLPLDEEAEAQRATTVGNQFGSVAPGLVQYTTDYLFRDLWLRPDLAPRDRSLVTIAALISVGQVEQITFHLNKALDNGLSEEQAAEVITHLAFYAGWPNASALPVAKAVFEKRRG QQPNVEGRRFSPDQVRSVAPALEQYTQQRLYGDVWQRPGLNRRDRSLVTIAALIARGEAPALTYYADQALENGVKPSEISETITHLAYYSGWGKAATVGPVSEAFAKRGIGQDQLAAVESTPLPLDEEAEAQRATTVGNQFGSVAPGLVQYTTDYLFRDLWLRPDLAPRDRSLVTIAALISVGQVEQITFHLNKALDNGLSEEQAAEVITHLAFYAGWPNASALPVAKAVFEKRRG 4g9y-a1-m1-cA_4g9y-a1-m2-cA Crystal Structure of the PcaV transcriptional regulator from Streptomyces coelicolor Q9XAM6 Q9XAM6 2.051 X-RAY DIFFRACTION 122 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 136 136 THPGHLARRLQQAHYLLWNTMVSEETTSPQYAVLNALVAEPGLDQRTVGERVGLDRSTIAEVVSRLGRRGLLDKVRDPQDGRRSLLRLTDEGLRVHRRLGVRIARMNQVFLAPLAADEQAVFFDLIRRVADAAEGL THPGHLARRLQQAHYLLWNTMVSEETTSPQYAVLNALVAEPGLDQRTVGERVGLDRSTIAEVVSRLGRRGLLDKVRDPQDGRRSLLRLTDEGLRVHRRLGVRIARMNQVFLAPLAADEQAVFFDLIRRVADAAEGL 4ga4-a1-m1-cA_4ga4-a1-m1-cB Crystal structure of AMP phosphorylase N-terminal deletion mutant Q5JCX3 Q5JCX3 3.51 X-RAY DIFFRACTION 97 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 418 418 PESVRYIKKKMHGEKLRKVEIEAIVRDIVDRKLRDIEISSFVTALEINGLDMDEIAALTIAMAETGDMLDIDRKPIMDVHSIGGVPGNKTNILVVPIVAAAGLTIPKTSSRAITSAAGTADVVEVFADVSFSLDEIKRIVEKVGACLVWGGALNLAPADDITIKAERALSIDPTGLMLASIMSKKYAMGSQYVLIDIPTGKGVKVETVEEARSLARDFIELGKRLGQYVEVAITYGGQPIGHTVGPALEAREALSALMTGKGPGSLIEKATGLAGILLEMGGVAPAGTGKKMAKEILESGKAWEKMKEIIEAQGGDPNIKPEEIPIGDKTYTFTAATSGYVTAIDNRAITAIARAAGAPEDKGAGIELYVKVGEKVKEGDPLFTIHAEHEARLDQAIVLARRTEPIRIEGMVLQRIGN PESVRYIKKKMHGEKLRKVEIEAIVRDIVDRKLRDIEISSFVTALEINGLDMDEIAALTIAMAETGDMLDIDRKPIMDVHSIGGVPGNKTNILVVPIVAAAGLTIPKTSSRAITSAAGTADVVEVFADVSFSLDEIKRIVEKVGACLVWGGALNLAPADDITIKAERALSIDPTGLMLASIMSKKYAMGSQYVLIDIPTGKGVKVETVEEARSLARDFIELGKRLGQYVEVAITYGGQPIGHTVGPALEAREALSALMTGKGPGSLIEKATGLAGILLEMGGVAPAGTGKKMAKEILESGKAWEKMKEIIEAQGGDPNIKPEEIPIGDKTYTFTAATSGYVTAIDNRAITAIARAAGAPEDKGAGIELYVKVGEKVKEGDPLFTIHAEHEARLDQAIVLARRTEPIRIEGMVLQRIGN 4ga5-a4-m1-cD_4ga5-a4-m1-cH Crystal structure of AMP phosphorylase C-terminal deletion mutant in the apo-form Q5JCX3 Q5JCX3 3.25 X-RAY DIFFRACTION 133 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 493 493 4ga5-a1-m1-cB_4ga5-a1-m1-cF 4ga5-a2-m1-cA_4ga5-a2-m2-cE 4ga5-a3-m1-cC_4ga5-a3-m1-cG 4ga6-a1-m1-cA_4ga6-a1-m1-cB MKAKIRILDMFSGRYTVLINEEDAKEAKLHPDDLVKIEAGKKAVYGSVALSNLVGKGEVGISRDVLDLHNFSEGETVSVIPAGTPESVRYIKKKMHGEKLRKVEIEAIVRDIVDRKLRDIEISSFVTALEINGLDMDEIAALTIAMAETGDMLDIDRKPIMDVHSIGGVPGNKTNILVVPIVAAAGLTIPKTSSRAITSAAGTADVVEVFADVSFSLDEIKRIVEKVGACLVWGGALNLAPADDITIKAERALSIDPTGLMLASIMSKKYAMGSQYVLIDIPTGKGVKVETVEEARSLARDFIELGKRLGQYVEVAITYGGQPIGHTVGPALEAREALSALMTGKGPGSLIEKATGLAGILLEMGGVAPAGTGKKMAKEILESGKAWEKMKEIIEAQGGDPNIKPEEIPIGDKTYTFTAATSGYVTAIDNRAITAIARAAGAPEDKGAGIELYVKVGEKVKEGDPLFTIHAEHEARLDQAIVLARRTEPIRIE MKAKIRILDMFSGRYTVLINEEDAKEAKLHPDDLVKIEAGKKAVYGSVALSNLVGKGEVGISRDVLDLHNFSEGETVSVIPAGTPESVRYIKKKMHGEKLRKVEIEAIVRDIVDRKLRDIEISSFVTALEINGLDMDEIAALTIAMAETGDMLDIDRKPIMDVHSIGGVPGNKTNILVVPIVAAAGLTIPKTSSRAITSAAGTADVVEVFADVSFSLDEIKRIVEKVGACLVWGGALNLAPADDITIKAERALSIDPTGLMLASIMSKKYAMGSQYVLIDIPTGKGVKVETVEEARSLARDFIELGKRLGQYVEVAITYGGQPIGHTVGPALEAREALSALMTGKGPGSLIEKATGLAGILLEMGGVAPAGTGKKMAKEILESGKAWEKMKEIIEAQGGDPNIKPEEIPIGDKTYTFTAATSGYVTAIDNRAITAIARAAGAPEDKGAGIELYVKVGEKVKEGDPLFTIHAEHEARLDQAIVLARRTEPIRIE 4gaa-a1-m1-cB_4gaa-a1-m1-cA Structure of Leukotriene A4 hydrolase from Xenopus laevis complexed with inhibitor bestatin Q6IP81 Q6IP81 2.26 X-RAY DIFFRACTION 61 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 605 606 ADPSSFASPEKFNIKHMHLKLHVDFTSRAIAASTSLTVRSLQDSLASLILDTKDLTIKKVAVNGKDATFALGTTHSFKGTPLEITLPFSLTRGQEVIVEIDSVTSPKSSALQWLNKEQTAGKIHPYLFSQCQATHCRSIIPCQDTPSVKFTYYSQVSVPKELMALMSALRDGELSEQSDSNRKIYRFKQNVPIPSYLIALVVGALEGRKVGPRTTIWTEKELLEPSVYEFAETEKMLKYAEDLAGPYVWGQYDLLILPPSFPYGGMENPCLTFVTPTVLAGDRSLASVIAHEISHSWTGNLVTNETWENFWLNEGHTVYLERRIDGRLYGEEFRQFKALGGWKELQNSVNTFGATNPLTNLVPNLHEVDVDAAFSSVPYEKGFALLFYLEQLLGGPEIFLGFLKSYIQMFAFKSVTTEEWKKFLYSYFKDKVDILDKVDWKGWMHTPGMPPVQPKYDMTLANACITLGQKWVKATESDLGSFSADDVKDLSSHQLIEVLAILLLEKPLPVSHVKRMQEVYNLNDVKNSEIRFRWLRLCIRAGWEDVIPLALAMATEQGRMKFTRPLYRDLYNFEKAREQTVNTFLKNRSFMHPVTEMLVAKDLHI ADPSSFASPEKFNIKHMHLKLHVDFTSRAIAASTSLTVRSLQDSLASLILDTKDLTIKKVAVNGKDATFALGTTHSFKGTPLEITLPFSLTRGQEVIVEIDSVTSPKSSALQWLNKEQTAGKIHPYLFSQCQATHCRSIIPCQDTPSVKFTYYSQVSVPKELMALMSALRDGELSEQSDSNRKIYRFKQNVPIPSYLIALVVGALEGRKVGPRTTIWTEKELLEPSVYEFAETEKMLKYAEDLAGPYVWGQYDLLILPPSFPYGGMENPCLTFVTPTVLAGDRSLASVIAHEISHSWTGNLVTNETWENFWLNEGHTVYLERRIDGRLYGEEFRQFKALGGWKELQNSVNTFGATNPLTNLVPNLHEVDVDAAFSSVPYEKGFALLFYLEQLLGGPEIFLGFLKSYIQMFAFKSVTTEEWKKFLYSYFKDKVDILDKVDWKGWMHTPGMPPVQPKYDMTLANACITLGQKWVKATESDLGSFSADDVKDLSSHQLIEVLAILLLEKPLPVSHVKRMQEVYNLNDVKNSEIRFRWLRLCIRAGWEDVIPLALAMATEQGRMKFTRPLYRDLYNFEKAREQTVNTFLKNRSFMHPVTEMLVAKDLHIS 4gak-a1-m1-cA_4gak-a1-m2-cA Crystal structure of acyl-ACP thioesterase from Spirosoma linguale D2QU30 D2QU30 1.9 X-RAY DIFFRACTION 76 1.0 504472 (Spirosoma linguale DSM 74) 504472 (Spirosoma linguale DSM 74) 241 241 SNAAFIQTDTFTLRGYECDAFGRSIPALNLQESANRNAIDYGIGIADLAQKGVGWLRFCLRIHQYPRYGDTIQLTYPTTVDKYFIHRDFRVLATDGTLLADARSTWLVFSEKRSVPLPDFIRQLSPPANVDPLPALPLKPDFQTASFATAASKSVQVGWLNIDQNQHVNNVAYVQWLLEGVDSEIVQTREIAEIDLVYRTESHWHDWLSVQSVTETDNSVLHRISQTESGKDVLLARSRWR SNAAFIQTDTFTLRGYECDAFGRSIPALNLQESANRNAIDYGIGIADLAQKGVGWLRFCLRIHQYPRYGDTIQLTYPTTVDKYFIHRDFRVLATDGTLLADARSTWLVFSEKRSVPLPDFIRQLSPPANVDPLPALPLKPDFQTASFATAASKSVQVGWLNIDQNQHVNNVAYVQWLLEGVDSEIVQTREIAEIDLVYRTESHWHDWLSVQSVTETDNSVLHRISQTESGKDVLLARSRWR 4gb5-a1-m2-cA_4gb5-a1-m3-cA Crystal structure of Kfla4162 protein from Kribbella flavida D2PTS5 D2PTS5 1.55 X-RAY DIFFRACTION 52 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 146 146 4gb5-a1-m1-cA_4gb5-a1-m2-cA 4gb5-a1-m1-cA_4gb5-a1-m3-cA DAETDRAEIIELFGRYADIADLKEFTDLPRRVHTDPLTIDFESVTGPPTVPLSDYGAALRASFGAFSATHHAITGHVVTIDSDRATIHAHVRAEHWLPAEVAGDGPDRWLVVGFYDNEAVRTADGWRLSSVKLTASYQENAHLARA DAETDRAEIIELFGRYADIADLKEFTDLPRRVHTDPLTIDFESVTGPPTVPLSDYGAALRASFGAFSATHHAITGHVVTIDSDRATIHAHVRAEHWLPAEVAGDGPDRWLVVGFYDNEAVRTADGWRLSSVKLTASYQENAHLARA 4gbd-a1-m1-cB_4gbd-a1-m1-cA Crystal Structure Of Adenosine Deaminase From Pseudomonas Aeruginosa Pao1 with bound Zn and methylthio-coformycin Q9HZ64 Q9HZ64 1.975 X-RAY DIFFRACTION 186 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 434 435 4dyk-a1-m1-cA_4dyk-a1-m1-cB PFDLLLLPTWIVPVEPAGVVLRDHALGIRDGQIALVAPREQAMRHGATEIRELPGMLLAPGLVNAHGHSAMSLFRGLADDLPLMTWLQDHIWPAEGQWVSEDFIRDGTELAIAEQVKGGITCFSDMYFYPQAICGVVHDSGVRAQVAIPVLDFPIPGARDSAEAIRQGMALFDDLKHHPRIRIAFGPHAPYTVSDDKLEQILVLTEELDASIQMHVHETAFEVEQAMERNGERPLARLHRLGLLGPRFQAVHMTQVDNDDLAMLVETNSSVIHCPESNLKLASGFCPVEKLWQAGVNVAIGTDGAASNNDLDLLGETRTAALLAKAVYGQATALDAHRALRMATLNGARALGLERLIGSLEAGKAADLVAFDLSGLAQQPVYDPVSQLIYASGRDCVRHVWVGGRQLLDDGRLLRHDEQRLIARAREWGAKIAA NPFDLLLLPTWIVPVEPAGVVLRDHALGIRDGQIALVAPREQAMRHGATEIRELPGMLLAPGLVNAHGHSAMSLFRGLADDLPLMTWLQDHIWPAEGQWVSEDFIRDGTELAIAEQVKGGITCFSDMYFYPQAICGVVHDSGVRAQVAIPVLDFPIPGARDSAEAIRQGMALFDDLKHHPRIRIAFGPHAPYTVSDDKLEQILVLTEELDASIQMHVHETAFEVEQAMERNGERPLARLHRLGLLGPRFQAVHMTQVDNDDLAMLVETNSSVIHCPESNLKLASGFCPVEKLWQAGVNVAIGTDGAASNNDLDLLGETRTAALLAKAVYGQATALDAHRALRMATLNGARALGLERLIGSLEAGKAADLVAFDLSGLAQQPVYDPVSQLIYASGRDCVRHVWVGGRQLLDDGRLLRHDEQRLIARAREWGAKIAA 4gbj-a2-m3-cD_4gbj-a2-m1-cC Crystal structure of NAD-binding 6-phosphogluconate dehydrogenase from Dyadobacter fermentans C6VV20 C6VV20 2.05 X-RAY DIFFRACTION 140 1.0 471854 (Dyadobacter fermentans DSM 18053) 471854 (Dyadobacter fermentans DSM 18053) 282 284 4gbj-a1-m2-cA_4gbj-a1-m1-cB KIAFLGLGNLGTPIAEILLEAGYELVVWNRTASKAEPLTKLGATVVENAIDAITPGGIVFSVLADDAAVEELFSELVEKLGKDGVHVSSTISPETSRQLAQVHEWYGAHYVGAPIFARPEAVRAKVGNICLSGNAGAKERIKPIVENFVKGVFDFGDDPGAANVIKLAGNFIACSLEGEAFTAEKNGISRQSIYELTSTLFAAPIFQNYGKLVASNTYEPVAFRFPLGLKDINLTLQTASDVNAPPFADIIRNRFISGLAKGRENLDWGALALGASDDAGLT EKIAFLGLGNLGTPIAEILLEAGYELVVWNRTASKAEPLTKLGATVVENAIDAITPGGIVFSVLADDAAVEELFSELVEKLGKDGVHVSSTISPETSRQLAQVHEWYGAHYVGAPIFARPEAVRAKVGNICLSGNAGAKERIKPIVENFVKGVFDFGDDPGAANVIKLAGNFIACSLEGEAFTAEKNGISRQSIYELTSTLFAAPIFQNYGKLVASNTYEPVAFRFPLGLKDINLTLQTASDVNAPPFADIIRNRFISGLAKGRENLDWGALALGASDDAGLTK 4gc5-a2-m1-cA_4gc5-a2-m2-cA Crystal structure of murine TFB1M Q8JZM0 Q8JZM0 1.801 X-RAY DIFFRACTION 92 1.0 10090 (Mus musculus) 10090 (Mus musculus) 313 313 4gc9-a2-m1-cA_4gc9-a2-m2-cA FRLPPLPTIREIIKLFGLRAVKQLSQNFLLDLRLTDKIVRKAGSLADVYVYEVGPGPGGITRSILNANVAELLVVEKDTRFIPGLQLSDAAPGKLRIVHGDVLTYKIEKAFPGNIRRQWEDDPPNVHIIGNLPFSVSTPLIIKWLENISLKDGPFVYGRTKTLTFQKEVAERLVATTGSKQHSRLSIAQYLCNVEHLFTIPGKAFVPKPKVDVGVVHLTPLIEPKIKQPFKLVEKVVQNAFQFRRKYCHRGLGLFPEAQRLESTGRLLQLADIDPTLRPTHLSLHFKSLCDVYRKCDEDPQLFTYNFREELKQ FRLPPLPTIREIIKLFGLRAVKQLSQNFLLDLRLTDKIVRKAGSLADVYVYEVGPGPGGITRSILNANVAELLVVEKDTRFIPGLQLSDAAPGKLRIVHGDVLTYKIEKAFPGNIRRQWEDDPPNVHIIGNLPFSVSTPLIIKWLENISLKDGPFVYGRTKTLTFQKEVAERLVATTGSKQHSRLSIAQYLCNVEHLFTIPGKAFVPKPKVDVGVVHLTPLIEPKIKQPFKLVEKVVQNAFQFRRKYCHRGLGLFPEAQRLESTGRLLQLADIDPTLRPTHLSLHFKSLCDVYRKCDEDPQLFTYNFREELKQ 4gci-a1-m1-cA_4gci-a1-m1-cB Crystal structure of glutahtione s-transferase homolog from yersinia pestis, target EFI-501894, with bound glutathione, monoclinic form Q8D0L3 Q8D0L3 1.5 X-RAY DIFFRACTION 85 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 202 202 4g9h-a1-m1-cA_4g9h-a1-m1-cB VMMKLFYKPGACSLSPHIVLREAGLDFSIERVDLVTKKTETGADYLSINPKGQVPALVLDDGSLLTEGVAIVQYLADKVPDRHLIAPSGTLSRYHAIEWLNFIATELHKGFSPLFNPNTPDEYKTIVRERLDKQFSYVDSVLAEHDYLLGKKFSVADAYLFTVSRWANALNLQIKERSHLDQYMARVAERPAVKAALAAEDI VMMKLFYKPGACSLSPHIVLREAGLDFSIERVDLVTKKTETGADYLSINPKGQVPALVLDDGSLLTEGVAIVQYLADKVPDRHLIAPSGTLSRYHAIEWLNFIATELHKGFSPLFNPNTPDEYKTIVRERLDKQFSYVDSVLAEHDYLLGKKFSVADAYLFTVSRWANALNLQIKERSHLDQYMARVAERPAVKAALAAEDI 4gcm-a1-m1-cA_4gcm-a1-m1-cB Crystal structure of a thioredoxine reductase (trxB) from Staphylococcus aureus subsp. aureus Mu50 at 1.80 A resolution P66011 P66011 1.8 X-RAY DIFFRACTION 104 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 301 302 EIDFDIAIIGAGPAGTAAVYASRANLKTVIERGIPGGQANTEEVENFPGFEITGPDLSTKFEHAKKFGAVYQYGDIKSVEDKGEYKVINFGNKELTAKAVIIATGAEYKKIGVPGEQELGGRGVSYCAVCDGAFFKNKRLFVIGGGDSAVEEGTFLTKFADKVTIVHRRDELRAQRILQDRAFKNDKIDFIWSHTLKSINEKDGKVGSVTLTSTKDGSEETHEADGVFIYIGKPLTAPFKDLGITNDVGYIVTKDDTTSVPGIFAAGDVRDKGLRQIVTATGDGSIAAQSAAEYIEHLNDQ TEIDFDIAIIGAGPAGTAAVYASRANLKTVIERGIPGGQANTEEVENFPGFEITGPDLSTKFEHAKKFGAVYQYGDIKSVEDKGEYKVINFGNKELTAKAVIIATGAEYKKIGVPGEQELGGRGVSYCAVCDGAFFKNKRLFVIGGGDSAVEEGTFLTKFADKVTIVHRRDELRAQRILQDRAFKNDKIDFIWSHTLKSINEKDGKVGSVTLTSTKDGSEETHEADGVFIYIGKPLTAPFKDLGITNDVGYIVTKDDTTSVPGIFAAGDVRDKGLRQIVTATGDGSIAAQSAAEYIEHLNDQ 4gcv-a2-m1-cC_4gcv-a2-m1-cD Structure of a Putative transcription factor (PA1374)from Pseudomonas aeruginosa Q9I3X0 Q9I3X0 2.3 X-RAY DIFFRACTION 207 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 136 136 4gcv-a1-m1-cA_4gcv-a1-m1-cB 4gcv-a3-m1-cE_4gcv-a3-m1-cF 4gcv-a4-m1-cG_4gcv-a4-m1-cH 4gcv-a5-m1-cI_4gcv-a5-m1-cJ 4gcv-a6-m1-cL_4gcv-a6-m1-cK CPIARSLERVGEWWSILIRDALQGLRRFDEFSRSLDIAPNLTRRLNALVEAGLLERQPYSYQYVPTAKGEDFRVVLAFVAWGNRHYAQQGQSVQLVERTSGRPVRSFAALADGRTVPLEQCTVQAGPAASEERQRL CPIARSLERVGEWWSILIRDALQGLRRFDEFSRSLDIAPNLTRRLNALVEAGLLERQPYSYQYVPTAKGEDFRVVLAFVAWGNRHYAQQGQSVQLVERTSGRPVRSFAALADGRTVPLEQCTVQAGPAASEERQRL 4gcz-a1-m1-cA_4gcz-a1-m1-cB Structure of a blue-light photoreceptor P23222 P23222 2.3 X-RAY DIFFRACTION 272 0.997 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 356 368 GIPGQLEVIKKALDHVRVGVVITDPALEDNPIVYVNQGFVQTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTFWNELNIDPEIEDKTYFVGIQNDITEHQQTQARLQELQSELVHVSRLSAGEASALAHELNQPLAAISNYKGSRRLLAGSSDPNTPKVESALDRAAEQALRAGQIIRRLRDFVARGESEKRVESLSKLIEEAGALGLAGAREQNVQLRFSLDPGADLVLADRVQIQQVLVNLFRNALEAAQSQRRELVVTNTPAADDIEVEVSDTGSGFQDDVIPNLFQTFFTTKDTGGVGLSISRSIIEAHGGRWAESNASGGATFRFTLPAAD ASFQSFGIPGQLEVIKKALDHVRVGVVITDPALEDNPIVYVNQGFVQTGYETEEILGKNCRFLQGKHTDPAEVDNIRTALQNKEPVTVQIQNYKKDGTFWNELNIDPEIEDKTYFVGIQNDITEHQQTQARLQELQSELVHVSRLSAGEASALAHELNQPLAAISNYKGSRRLLAGSSDPNTPKVESALDRAAEQALRAGQIIRRLRDFVAGESEKRVESLSKLIEEAGALGLAGAREQNVQLRFSLDPGADLVLADRVQIQQVLVNLFRNALEAAQSQRRELVVTNTPAADDIEVEVSDTGSGFQDDVIPNLFQTFFTTKDTGGVGLSISRSIIEAHGGRWAESNASGGATFRFTLPAADENLEHHH 4gd9-a1-m1-cC_4gd9-a1-m1-cB Circular Permuted Streptavidin N49/G48 P22629 P22629 1.5 X-RAY DIFFRACTION 27 1.0 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 123 131 1swf-a1-m1-cB_1swf-a1-m1-cC NAESRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKSAEAGITGTWYNQLGSTFIVTAGADGALTGTYESAVG NAESRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKPSAASGGGSAEAGITGTWYNQLGSTFIVTAGADGALTGTYESAVG 4gd9-a1-m1-cD_4gd9-a1-m1-cB Circular Permuted Streptavidin N49/G48 P22629 P22629 1.5 X-RAY DIFFRACTION 10 1.0 1895 (Streptomyces avidinii) 1895 (Streptomyces avidinii) 122 131 1swf-a1-m1-cD_1swf-a1-m1-cB NAESRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKAEAGITGTWYNQLGSTFIVTAGADGALTGTYESAVG NAESRYVLTGRYDSAPATDGSGTALGWTVAWKNNYRNAHSATTWSGQYVGGAEARINTQWLLTSGTTEANAWKSTLVGHDTFTKVKPSAASGGGSAEAGITGTWYNQLGSTFIVTAGADGALTGTYESAVG 4gdi-a1-m1-cA_4gdi-a1-m1-cB A subtype N10 neuraminidase-like protein of A/little yellow-shouldered bat/Guatemala/164/2009 H6QM85 H6QM85 1.95 X-RAY DIFFRACTION 86 1.0 1129346 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/164/2009(H17N10))) 1129346 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/164/2009(H17N10))) 367 367 4fvk-a1-m3-cA_4fvk-a1-m1-cA 4fvk-a1-m3-cA_4fvk-a1-m2-cA 4fvk-a1-m4-cA_4fvk-a1-m1-cA 4fvk-a1-m4-cA_4fvk-a1-m2-cA 4fvk-a2-m6-cB_4fvk-a2-m1-cB 4fvk-a2-m6-cB_4fvk-a2-m5-cB 4fvk-a2-m7-cB_4fvk-a2-m1-cB 4fvk-a2-m7-cB_4fvk-a2-m5-cB 4gdi-a1-m1-cB_4gdi-a1-m1-cC 4gdi-a1-m1-cD_4gdi-a1-m1-cA 4gdi-a1-m1-cD_4gdi-a1-m1-cC 4gdi-a2-m3-cE_4gdi-a2-m1-cE 4gdi-a2-m3-cE_4gdi-a2-m2-cE 4gdi-a2-m4-cE_4gdi-a2-m1-cE 4gdi-a2-m4-cE_4gdi-a2-m2-cE 4gdi-a3-m6-cF_4gdi-a3-m1-cF 4gdi-a3-m6-cF_4gdi-a3-m5-cF 4gdi-a3-m7-cF_4gdi-a3-m1-cF 4gdi-a3-m7-cF_4gdi-a3-m5-cF 4gez-a1-m1-cA_4gez-a1-m1-cB 4gez-a1-m1-cA_4gez-a1-m1-cD 4gez-a1-m1-cB_4gez-a1-m1-cC 4gez-a1-m1-cC_4gez-a1-m1-cD 4gez-a2-m1-cE_4gez-a2-m1-cF 4gez-a2-m1-cE_4gez-a2-m1-cH 4gez-a2-m1-cF_4gez-a2-m1-cG 4gez-a2-m1-cG_4gez-a2-m1-cH 4gez-a3-m1-cI_4gez-a3-m1-cL 4gez-a3-m1-cJ_4gez-a3-m1-cI 4gez-a3-m1-cJ_4gez-a3-m1-cK 4gez-a3-m1-cK_4gez-a3-m1-cL FYWRAKSQMCEVKGWVPTHRGFPWGPELPGDLILSRRAYVSCDLTSCFKFFIAYGLSANQHLLNTSMEWEESLYKTPIGSASTLSTSEMILPGRSSSACFDGLKWTVLVANGRDRNSFIMIKYGEEVTDTFSASRGGPLRLPNSECICIEGSCFVIVSDGPNVNQSVHRIYELQNGTVQRWKQLNTTGINFEYSTCYTINNLIKCTGTNLWNDAKRPLLRFTKELNYQIVEPCNGAPTDFPRGGLTTPSCKMAQEKGEGGIQGFILDEKPAWTSKTKAESSQNGFVLEQIPNGIESEGTVSLSYELFSNKRTGRSGFFQPKGDLISGCQRICFWLEIEDQTVGLGMIQELSTFCGINSPVQNINWDS FYWRAKSQMCEVKGWVPTHRGFPWGPELPGDLILSRRAYVSCDLTSCFKFFIAYGLSANQHLLNTSMEWEESLYKTPIGSASTLSTSEMILPGRSSSACFDGLKWTVLVANGRDRNSFIMIKYGEEVTDTFSASRGGPLRLPNSECICIEGSCFVIVSDGPNVNQSVHRIYELQNGTVQRWKQLNTTGINFEYSTCYTINNLIKCTGTNLWNDAKRPLLRFTKELNYQIVEPCNGAPTDFPRGGLTTPSCKMAQEKGEGGIQGFILDEKPAWTSKTKAESSQNGFVLEQIPNGIESEGTVSLSYELFSNKRTGRSGFFQPKGDLISGCQRICFWLEIEDQTVGLGMIQELSTFCGINSPVQNINWDS 4gdk-a1-m1-cC_4gdk-a1-m1-cF Crystal Structure of Human Atg12~Atg5 Conjugate in Complex with an N-terminal Fragment of Atg16L1 Q676U5 Q676U5 2.7 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 35 5d7g-a1-m1-cB_5d7g-a1-m1-cD MPRWKRHISEQLRRRDRLQRQAFEEIILQYNKLL HMPRWKRHISEQLRRRDRLQRQAFEEIILQYNKLL 4gdo-a2-m1-cC_4gdo-a2-m1-cD Structure of a fragment of the rod domain of plectin Q15149 Q15149 1.7 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 38 41 4gdo-a1-m1-cB_4gdo-a1-m1-cA AEERERLAEVEAALEKQRQLAEAHAQAKAQAEREAKEL HMRAEERERLAEVEAALEKQRQLAEAHAQAKAQAEREAKEL 4gdz-a1-m2-cA_4gdz-a1-m3-cA Crystal structure of a DUF4251 family protein (BACEGG_02002) from Bacteroides eggerthii DSM 20697 at 1.95 A resolution 1.95 X-RAY DIFFRACTION 40 1.0 483216 (Bacteroides eggerthii DSM 20697) 483216 (Bacteroides eggerthii DSM 20697) 147 147 4gdz-a1-m1-cA_4gdz-a1-m2-cA 4gdz-a1-m1-cA_4gdz-a1-m3-cA QQAADAVSYDDAVAALKAQQFVLEANQVFRNGQTAFVTSNTNFVLVNQGRGTVQVAFNTVYPGPNGIGGVTVDGTVSDIKTSTDKRGNINCSFSIQGIGISAQIFLTLTNGDNNATVTINPNFNSNTTLSGSLLPLNQSNIFKGRSW QQAADAVSYDDAVAALKAQQFVLEANQVFRNGQTAFVTSNTNFVLVNQGRGTVQVAFNTVYPGPNGIGGVTVDGTVSDIKTSTDKRGNINCSFSIQGIGISAQIFLTLTNGDNNATVTINPNFNSNTTLSGSLLPLNQSNIFKGRSW 4gek-a1-m1-cA_4gek-a1-m1-cG Crystal Structure of wild-type CmoA from E.coli C3T5M2 C3T5M2 1.5 X-RAY DIFFRACTION 81 0.991 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 230 231 4iwn-a1-m1-cB_4iwn-a1-m1-cA WTFDERVAEVFPDMIQRSVPGYSNIISMIGMLAERFVQPGTQVYDLGCSLGAATLSVRRNIHHDNCKIIAIDNSPAMIERCRRHIDAYKAPTPVDVIEGDIRDIAIENASMVVLNFTLQFLEPSERQALLDKIYQGLNPGGALVLSEKFSFEDAKVGELLFNMHHDFKRANGYSELEISQKRSMLENVMLTDSVETHKARLHKAGFEHSELWFQCFNFGSLVALKAEDAA LGDWTFDERVAEVFPDMIQRSVPGYSNIISMIGMLAERFVQPGTQVYDLGCSLGAATLSVRRNIHHDNCKIIAIDNSPAMIERCRRHIDAYKAPTPVDVIEGDIRDIAIENASMVVLNFTLQFLEPSERQALLDKIYQGLNPGGALVLSEKFSFEDAKVGELLFNMHHDFKRANGYSELEISQKRSMLENVMLTDSVETHKARLHKAGFEHSELWFQCFNFGSLVALKAED 4gew-a1-m1-cA_4gew-a1-m2-cA Crystal structure of TDP2 from C. elegans Q9XWG3 Q9XWG3 2.35 X-RAY DIFFRACTION 148 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 324 324 4f1i-a1-m1-cA_4f1i-a1-m2-cA EDSEVEIEILDEPEQGKLSMSDEQKLHEFAIITATDEAFAQSILQDVDWDLKKALDVFYGSEAFAEARSAAVMGEDLKGFEVSVMSWNIDGLDGRSLLTRMKAVAHIVKNVNPDILFLQEVVDRDLAPIDKLQSLYKIYYSNKGCQYYTAILVSKMFDVEKHDVIHFQNSGMYRTLQILEGSIGGLKVFLLNTHLESTREHRPQRCAQFGFCMDKVREIIAQNPGALVFFGGDLNLRDEEVSRVPDGVKDAWEAAGSDNKTKFTWDTFKNDNKQGFHGAKMRFDRLYWSGPLDKVKFTLEGRQRIRSCLCFPSDHWAINATFFA EDSEVEIEILDEPEQGKLSMSDEQKLHEFAIITATDEAFAQSILQDVDWDLKKALDVFYGSEAFAEARSAAVMGEDLKGFEVSVMSWNIDGLDGRSLLTRMKAVAHIVKNVNPDILFLQEVVDRDLAPIDKLQSLYKIYYSNKGCQYYTAILVSKMFDVEKHDVIHFQNSGMYRTLQILEGSIGGLKVFLLNTHLESTREHRPQRCAQFGFCMDKVREIIAQNPGALVFFGGDLNLRDEEVSRVPDGVKDAWEAAGSDNKTKFTWDTFKNDNKQGFHGAKMRFDRLYWSGPLDKVKFTLEGRQRIRSCLCFPSDHWAINATFFA 4gf0-a1-m1-cB_4gf0-a1-m1-cA Crystal structure of glutahtione transferase homolog from sulfitobacter, TARGET EFI-501084, with bound glutathione A3STM0 A3STM0 1.75 X-RAY DIFFRACTION 134 1.0 314267 (Sulfitobacter sp. NAS-14.1) 314267 (Sulfitobacter sp. NAS-14.1) 186 208 LTLYFTPGTISVAVAIAIEEAALPYQPVRVRVPALRLEDDTILTETGALLDYVAAIAPKAGLVPTDPTAAAQMRSAMYYLASTMHVAHAHKMRGSRWAKQQSSFEDMTAQVPETMAACADFVESDILRGPYVLGEDFSLADPYLFVVCNWLDGDGVDTAAYPKITTFMQQMTARASVAAVKDKGML MVMLTLYFTPGTISVAVAIAIEEAALPYQPVRVDFATAEQTKPDYLAINPKGRVPALRLEDDTILTETGALLDYVAAIAPKAGLVPTDPTAAAQMRSAMYYLASTMHVAHAHKMRGSRWAKQQSSFEDMTAQVPETMAACADFVESDILRGPYVLGEDFSLADPYLFVVCNWLDGDGVDTAAYPKITTFMQQMTARASVAAVKDKGML 4gfa-a2-m1-cD_4gfa-a2-m1-cB N-terminal coiled-coil dimer of C.elegans SAS-6, crystal form A O62479 O62479 3.55 X-RAY DIFFRACTION 43 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 146 155 4gfa-a1-m1-cC_4gfa-a1-m1-cA IALFDQTLIASLLQPLSLNQPDFKAYKTKVKLKISEQEKELKFEISRSDDFEFLFSETLNNEKYQILARDHDLTVDFDAFPKVIIQHLLCKNTEINIILDAEKNFCSFELFSGKIFSIKLHAVRGDHLISHLLKICSSQAVKLSTF SKIALFDQTLIASLLQPLSLNQPDFKAYKTKVKLKISEQRNETSGEKELKFEISRSDDFEFLFSETLNNEKYQILARDHDLTVDFDAFPKVIIQHLLCKNTEINIILDAEKNFCSFELFSGKIFSIKLHAVRGDHLISHLLKICSSQAVKLSTFY 4gfh-a1-m1-cF_4gfh-a1-m1-cA Topoisomerase II-DNA-AMPPNP complex P06786 P06786 4.408 X-RAY DIFFRACTION 363 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 1097 1101 1pvg-a1-m1-cA_1pvg-a1-m1-cB 1qzr-a1-m1-cB_1qzr-a1-m1-cA SASDKYQKISQLEHILKRPDTYIGSVETQEQLQWIYDEETDCMIEKNVTIVPGLFKIFDEILVNAADNKVRDPSMKRIDVNIHAEEHTIEVKNDGKGIPIEIHNKENIYIPEMIFGHLLTSSNYDDDEKKVTGGRNGYGAKLCNIFSTEFILETADLNVGQKYVQKWENNMSICHPPKITSYKKGPSYTKVTFKPDLTRFGMKELDNDILGVMRRRVYDINGSVRDINVYLNGKSLKIRNFKNYVELYLKSLIPTILYERINNRWEVAFAVSDISFQQISFVNSIATTMGGTHVNYITDQIVKKISEILKKKKKKSVKSFQIKNNMFIFINCLIENPAFTSQTKEQLTTRVKDFGSRCEIPLEYINKIMKTDLATRMFEIASRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREASADQILKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDQDHDGSHIKGLIINFLESSFPGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYTSLAQEVREYFSNLDRHLKIFHSLQGNDKDYIDLAFSKKKADDRKEWLRQYEPGTVLDPTLKEIPISDFINKELILFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSEELYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEAR SASDKYQKISQLEHILKRPDTYIGSVETQEQLQWIYDEETDCMIEKNVTIVPGLFKIFDEILVNAADNKVRDPSMKRIDVNIHAEEHTIEVKNDGKGIPIEIHNKENIYIPEMIFGHLLTSSNYDDDEKKVTGGRNGYGAKLCNIFSTEFILETADLNVGQKYVQKWENNMSICHPPKITSYKKGPSYTKVTFKPDLTRFGMKELDNDILGVMRRRVYDINGSVRDINVYLNGKSLKIRNFKNYVELYLKSLIPTILYERINNRWEVAFAVSDISFQQISFVNSIATTMGGTHVNYITDQIVKKISEILKKKKKKSVKSFQIKNNMFIFINCLIENPAFTSQTKEQLTTRVKDFGSRCEIPLEYINKIMKTDLATRMFEIADANESRITNYPKLEDANKAGTKEGYKCTLVLTEGDSALSLAVAGLAVVGRDYYGCYPLRGKMLNVREASADQILKNAEIQAIKKIMGLQHRKKYEDTKSLRYGHLMIMTDQDHDGSHIKGLIINFLESSFPGLLDIQGFLLEFITPIIKVSITKPTKNTIAFYNMPDYEKWREEESHKFTWKQKYYTSLAQEVREYFSNLDRHLKIFHSLQGNDKDYIDLAFSKKKADDRKEWLRQYEPGTVLDPTLKEIPISDFINKELILFSLADNIRSIPNVLDGFKPGQRKVLYGCFKKNLKSELKVAQLAPYVSECTAYHHGEQSLAQTIIGLAQNFVGSNNIYLLLPNGAFGTRATGGKDAAAARIYTELNKLTRKIFHPADDPLYKYIQEDEKTVEPEWYLPILPMILVNGAEGIGTGWSTYIPPFNPLEIIKNIRHLMNDEELEQMHPWFRGWTGTIEEIEPLRYRMYGRIEQIGDNVLEITELPARTWTSTIKEYLLLGLSGNDKIKPWIKDMEEQHDDNIKFIITLSPEEMAKTRKIGFYERFKLISPISLMNMVAFDPHGKIKKYNSVNEILSEFYYVRLEYYQKRKDHMSERLQWEVEKYSFQVKFIKMIIEKELTVTNKPRNAIIQELENLGFPRFNKEGKPYYGSEELYGTYEYLLGMRIWSLTKERYQKLLKQKQEKETELENLLKLSAKDIWNTDLKAFEVGYQEFLQRDAEAR 4ggj-a1-m1-cA_4ggj-a1-m2-cA Crystal structure of Zucchini from mouse (mZuc / PLD6 / MitoPLD) Q5SWZ9 Q5SWZ9 1.75 X-RAY DIFFRACTION 81 1.0 10090 (Mus musculus) 10090 (Mus musculus) 165 165 4ggk-a1-m1-cA_4ggk-a1-m2-cA RPRREVLFFPSQVTCTEALLQAPGCPCSLPHSESSLSRLLRALLAARSSLELCLFAFSSPQLGRAVQLLHQRGVRVRVITDCDYMGSQIGLLRKAGIQVRHDQDLGYMHHKFAIVDKKVLITGSLNWTTQAIQNNRENVLIMEDTEYVRLFLEEFERIWEEFDPT RPRREVLFFPSQVTCTEALLQAPGCPCSLPHSESSLSRLLRALLAARSSLELCLFAFSSPQLGRAVQLLHQRGVRVRVITDCDYMGSQIGLLRKAGIQVRHDQDLGYMHHKFAIVDKKVLITGSLNWTTQAIQNNRENVLIMEDTEYVRLFLEEFERIWEEFDPT 4ggm-a1-m1-cX_4ggm-a1-m2-cX Structure of LpxI A0A0H3C8Q1 A0A0H3C8Q1 2.897 X-RAY DIFFRACTION 52 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 270 270 RKLGLIAGGGALPVELASHCEAAGRAFAVRLRSFADPSLDRYPGADVGIGEFGKIFKALRAEGCDVVCFAGNVSRPDFSALPDARGLKVLPSLIVAARKGDDALLRRVLDEFEKEGFEIEGAHEVGETLPRGRLGKVSPAPEHADIDKALDVAREIGRLDIGQGAVVCEGLVLAVEAQEGTDALRRVADLPEAIRGRAERRLGVLAKAPKPIQETRVDLPTIGVATIHRAARAGLAGIVGEAGRLLVVDREAVIAAADDLGLFVLGVDPQ RKLGLIAGGGALPVELASHCEAAGRAFAVRLRSFADPSLDRYPGADVGIGEFGKIFKALRAEGCDVVCFAGNVSRPDFSALPDARGLKVLPSLIVAARKGDDALLRRVLDEFEKEGFEIEGAHEVGETLPRGRLGKVSPAPEHADIDKALDVAREIGRLDIGQGAVVCEGLVLAVEAQEGTDALRRVADLPEAIRGRAERRLGVLAKAPKPIQETRVDLPTIGVATIHRAARAGLAGIVGEAGRLLVVDREAVIAAADDLGLFVLGVDPQ 4ghj-a1-m1-cA_4ghj-a1-m1-cB 1.75 Angstrom Crystal Structure of Transcriptional Regulator ftom Vibrio vulnificus. 1.75 X-RAY DIFFRACTION 98 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 71 74 KHVTAAALAEEIGDRLKQARLNRDLTQSEVAEIAGIARKTVLNAEKGKVQLDIIAILALDLTEQIDLFIPK KHVTAAALAEEIGDRLKQARLNRDLTQSEVAEIAGIARKTVLNAEKGKVQLDIIAILALDLTEQIDLFIPKQEI 4ghk-a1-m1-cD_4ghk-a1-m1-cA X-ray Crystal Structure of Gamma-glutamyl phosphate reductase from Burkholderia thailandensis Q2SZ88 Q2SZ88 2.25 X-RAY DIFFRACTION 71 0.99 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 400 404 4ghk-a1-m1-cC_4ghk-a1-m1-cB IDQYMTDVGRRARRASRSIARASTAAKNAALEAVARAIERDAGALKAANARDVARAKDKFVDRLTLSDKALKTMVEGLRQVATLPDPIGEMSNLKYRPSGIQVGQMRVPLGVIGIIYESRPNVTIDAAALCLKSGNATILRGGSEALESNTALAKLIGEGLAEAGLPQDTVQVVETADRAAVGRLITMTEYVDVIVPRGGKSLIERLINEARVPMIKHLDGICHVYVDDRASVTKALTVCDCNTMETLLVARGIAPAVLSPLGRLYREKGVELRVDADARAVLEAAGVGPLVDATDEDWPVLAIKIVDGIDAAIEHINEYGSHHTDAIVTEDHDRAMRFLREVDSASVMVNASTRFADGFEFGLGAEIGISNDKLHARGPVGLEGLTSLKYVVLGHGEGR DIDQYMTDVGRRARRASRSIARASTAAKNAALEAVARAIERDAGALKAANARDVARDAAFVDRLTLSDKALKTMVEGLRQVATLPDPIGEMSNLKYRPSGIQVGQMRVPLGVIGIIYESRPNVTIDAAALCLKSGNATILRGGSEALESNTALAKLIGEGLAEAGLPQDTVQVVETADRAAVGRLITMTEYVDVIVPRGGKSLIERLINEARVPMIKHLDGICHVYVDDRASVTKALTVCDCNTMETLLVARGIAPAVLSPLGRLYREKGVELRVDADARAVLEAAGVGPLVDATDEDWRTEPVLAIKIVDGIDAAIEHINEYGSHHTDAIVTEDHDRAMRFLREVDSASVMVNASTRFADGFEFGLGAEIGISNDKLHARGPVGLEGLTSLKYVVLGHGEGRQ 4ghk-a3-m1-cC_4ghk-a3-m1-cD X-ray Crystal Structure of Gamma-glutamyl phosphate reductase from Burkholderia thailandensis Q2SZ88 Q2SZ88 2.25 X-RAY DIFFRACTION 209 0.992 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 398 400 4ghk-a1-m1-cA_4ghk-a1-m1-cB 4ghk-a1-m1-cC_4ghk-a1-m1-cD 4ghk-a2-m1-cA_4ghk-a2-m1-cB DIDQYMTDVGRRARRASRSIARASTAAKNAALEAVARAIERDAGALKAANARDVARAKDKGLFVDRLTLSDKALKTMVEGLRQVATLPDPIGEMSNLKYRPSGIQVGQMRVPLGVIGIIYESRPNVTIDAAALCLKSGNATILRGGSEALESNTALAKLIGEGLAEAGLPQDTVQVVETADRAAVGRLITMTEYVDVIVPRGGKSLIERLINEARVPMIKHLDGICHVYVDDRASVTKALTVCDCNTMETLLVARGIAPAVLSPLGRLYREKGVELRVDADARAVLEAAGVGPLVDAPVLAIKIVDGIDAAIEHINEYGSHHTDAIVTEDHDRAMRFLREVDSASVMVNASTRFADGFEFGLGAEIGISNDKLHARGPVGLEGLTSLKYVVLGHGEGR IDQYMTDVGRRARRASRSIARASTAAKNAALEAVARAIERDAGALKAANARDVARAKDKFVDRLTLSDKALKTMVEGLRQVATLPDPIGEMSNLKYRPSGIQVGQMRVPLGVIGIIYESRPNVTIDAAALCLKSGNATILRGGSEALESNTALAKLIGEGLAEAGLPQDTVQVVETADRAAVGRLITMTEYVDVIVPRGGKSLIERLINEARVPMIKHLDGICHVYVDDRASVTKALTVCDCNTMETLLVARGIAPAVLSPLGRLYREKGVELRVDADARAVLEAAGVGPLVDATDEDWPVLAIKIVDGIDAAIEHINEYGSHHTDAIVTEDHDRAMRFLREVDSASVMVNASTRFADGFEFGLGAEIGISNDKLHARGPVGLEGLTSLKYVVLGHGEGR 4ghl-a1-m1-cC_4ghl-a1-m2-cB Structural Basis for Marburg virus VP35 mediate immune evasion mechanisms Q03039 Q03039 2.02 X-RAY DIFFRACTION 10 1.0 33728 (Lake Victoria marburgvirus - Popp) 33728 (Lake Victoria marburgvirus - Popp) 122 122 LSAKDLALLLFTHLPGNNTPFHILAQVLSKIAYKSGKSGAFLDAFHQILSEGENAQAALTRLSRTFDAFMGVVPPVIRVKNFQTVPRPCQKSLRAVPPNPTIDKGWVCVYSSEQGETRALKI LSAKDLALLLFTHLPGNNTPFHILAQVLSKIAYKSGKSGAFLDAFHQILSEGENAQAALTRLSRTFDAFMGVVPPVIRVKNFQTVPRPCQKSLRAVPPNPTIDKGWVCVYSSEQGETRALKI 4ghl-a1-m1-cD_4ghl-a1-m2-cB Structural Basis for Marburg virus VP35 mediate immune evasion mechanisms Q03039 Q03039 2.02 X-RAY DIFFRACTION 23 1.0 33728 (Lake Victoria marburgvirus - Popp) 33728 (Lake Victoria marburgvirus - Popp) 122 122 4gha-a1-m1-cA_4gha-a1-m1-cG 4gha-a1-m1-cC_4gha-a1-m1-cE 4gha-a1-m1-cE_4gha-a1-m1-cG 4ghl-a1-m1-cC_4ghl-a1-m3-cA 4ghl-a1-m1-cD_4ghl-a1-m3-cA LSAKDLALLLFTHLPGNNTPFHILAQVLSKIAYKSGKSGAFLDAFHQILSEGENAQAALTRLSRTFDAFMGVVPPVIRVKNFQTVPRPCQKSLRAVPPNPTIDKGWVCVYSSEQGETRALKI LSAKDLALLLFTHLPGNNTPFHILAQVLSKIAYKSGKSGAFLDAFHQILSEGENAQAALTRLSRTFDAFMGVVPPVIRVKNFQTVPRPCQKSLRAVPPNPTIDKGWVCVYSSEQGETRALKI 4gho-a1-m1-cA_4gho-a1-m2-cB Crystal Structure Analysis of Streptomyces aureofaciens Ribonuclease S24A mutant P05798 P05798 1.1 X-RAY DIFFRACTION 25 1.0 1894 (Kitasatospora aureofaciens) 1894 (Kitasatospora aureofaciens) 96 96 4j5g-a3-m1-cA_4j5g-a3-m2-cB 4j5k-a3-m1-cA_4j5k-a3-m2-cB DVSGTVCLSALPPEATDTLNLIAADGPFPYSQDGVVFQNRESVLPTQSYGYYHEYTVITPGARTRGTRRIITGEATQEDYYTGDHYATFSLIDQTC DVSGTVCLSALPPEATDTLNLIAADGPFPYSQDGVVFQNRESVLPTQSYGYYHEYTVITPGARTRGTRRIITGEATQEDYYTGDHYATFSLIDQTC 4ght-a3-m1-cA_4ght-a3-m1-cB Crystal structure of EV71 3C proteinase in complex with AG7088 A9XG43 A9XG43 1.96 X-RAY DIFFRACTION 56 1.0 39054 (Enterovirus A71) 39054 (Enterovirus A71) 181 181 MGPSLDFALSLLRRNVRQVQTDQGHFTMLGVRDRLAVLPRHSQPGKTIWIEHKLVNILDAVELVDEQGVNLELTLITLDTNEKFRDITKFIPENISTASDATLVINTEHMPSMFVPVGDVVQYGFLNLSGKPTHRTMMYNFPTKAGQCGGVVTSVGKVIGIHIGGNGRQGFCAGLKRSYFA MGPSLDFALSLLRRNVRQVQTDQGHFTMLGVRDRLAVLPRHSQPGKTIWIEHKLVNILDAVELVDEQGVNLELTLITLDTNEKFRDITKFIPENISTASDATLVINTEHMPSMFVPVGDVVQYGFLNLSGKPTHRTMMYNFPTKAGQCGGVVTSVGKVIGIHIGGNGRQGFCAGLKRSYFA 4gi0-a1-m1-cB_4gi0-a1-m1-cA Crystal structure of CD23 lectin domain mutant E249A P06734 P06734 2.27 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 136 CNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKHASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGAPTSRSQGEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATC GFVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKHASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGAPTSRSQGEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCTPPA 4gi0-a1-m1-cC_4gi0-a1-m1-cA Crystal structure of CD23 lectin domain mutant E249A P06734 P06734 2.27 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 136 FVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKHASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGAPTSRSQGEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCTPPA GFVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKHASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGAPTSRSQGEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCTPPA 4gi2-a2-m1-cB_4gi2-a2-m2-cB Crotonyl-CoA Carboxylase/Reductase C5AP81 C5AP81 3 X-RAY DIFFRACTION 101 1.0 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 426 426 4gi2-a1-m1-cA_4gi2-a1-m2-cA WTGQTAEAKDLYELGEIPPLGHVPAKMYAWAIRRERHGPPEQSHQLEVLPVWEIGDDEVLVYVMAAGVNYNGVWAGLGEPISPFDVHKGEYHIAGSDASGIVWKVGAKVKRWKVGDEVIVHCNQDDGDDEECNGGDPMFSPTQRIWGYETGDGSFAQFCRVQSRQLMARPKHLTWEEAACYTLTLATAYRMLFGHAPHTVRPGQNVLIWGASGGLGVFGVQLCAASGANAIAVISDESKRDYVMSLGAKGVINRKDFDCWGQLPTVNSPEYNTWLKEARKFGKAIWDITGKGNDVDIVFEHPGEATFPVSTLVAKRGGMIVFCAGTTGFNITFDARYVWMRQKRIQGSHFAHLKQASAANQFVMDRRVDPCMSEVFPWDKIPAAHTKMWKNQHPPGNMAVLVNSTRAGLRTVEDVIEAGPLKAMAA WTGQTAEAKDLYELGEIPPLGHVPAKMYAWAIRRERHGPPEQSHQLEVLPVWEIGDDEVLVYVMAAGVNYNGVWAGLGEPISPFDVHKGEYHIAGSDASGIVWKVGAKVKRWKVGDEVIVHCNQDDGDDEECNGGDPMFSPTQRIWGYETGDGSFAQFCRVQSRQLMARPKHLTWEEAACYTLTLATAYRMLFGHAPHTVRPGQNVLIWGASGGLGVFGVQLCAASGANAIAVISDESKRDYVMSLGAKGVINRKDFDCWGQLPTVNSPEYNTWLKEARKFGKAIWDITGKGNDVDIVFEHPGEATFPVSTLVAKRGGMIVFCAGTTGFNITFDARYVWMRQKRIQGSHFAHLKQASAANQFVMDRRVDPCMSEVFPWDKIPAAHTKMWKNQHPPGNMAVLVNSTRAGLRTVEDVIEAGPLKAMAA 4gi5-a1-m1-cA_4gi5-a1-m1-cB Crystal Structure Of a Putative quinone reductase from Klebsiella pneumoniae (Target PSI-013613) A6THR9 A6THR9 1.75 X-RAY DIFFRACTION 203 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 253 255 SKVLLIYAHPEPRSLNGALKNFAIRHLQQAGHEVQVSDLYARWKAGYDADDSGAPPVGEFWRPTLDSKQAFAQGTQSADIVAEQEKLLWADTVIFQFPLWWFSPAIKGWIDRVYAWGFAYGVGEHSDRHWGDRYGEGTFVGKRALIVTAGGWAEHYSPRGINGPIDDILFPIQHGLFYPGFEVLPPLVFYRTDKTDAGQFADQCAALAERLDTLWQTEPIPFRRQNHGDYLIPSLTLRPELAPGQSGLAVHLA FQSKVLLIYAHPEPRSLNGALKNFAIRHLQQAGHEVQVSDLYARWKAGYDADDSGAPPVGEFWRPTLDSKQAFAQGTQSADIVAEQEKLLWADTVIFQFPLWWFSPAIKGWIDRVYAWGFAYGVGEHSDRHWGDRYGEGTFVGKRALIVTAGGWAEHYSPRGINGPIDDILFPIQHGLFYPGFEVLPPLVFYRTDKTDAGQFADQCAALAERLDTLWQTEPIPFRRQNHGDYLIPSLTLRPELAPGQSGLAVHLA 4gi7-a1-m1-cA_4gi7-a1-m1-cC Crystal structure of Klebsiella pneumoniae pantothenate kinase in complex with a pantothenate analogue B5XYG3 B5XYG3 1.95 X-RAY DIFFRACTION 109 1.0 507522 (Klebsiella pneumoniae 342) 507522 (Klebsiella pneumoniae 342) 309 309 4f7w-a1-m1-cA_4f7w-a1-m1-cC 4f7w-a2-m1-cD_4f7w-a2-m1-cB 4f7w-a3-m1-cE_4f7w-a3-m1-cF 4f7w-a4-m1-cH_4f7w-a4-m1-cG 4gi7-a2-m1-cD_4gi7-a2-m1-cB 4gi7-a3-m1-cE_4gi7-a3-m1-cF 4gi7-a4-m1-cH_4gi7-a4-m1-cG 4ne2-a1-m1-cA_4ne2-a1-m2-cA 4ne2-a2-m1-cB_4ne2-a2-m3-cB LMTPYLQFNRHQWAALRDSVPMTLTEDEITRLKGINEDLSLEEVAEIYLPLSRLLNFYISSNLRRQAVLEQFLGTNGQRIPYIISIAGSVAVGKSTTARVLQALLSRWPEHRHVELITTDGFLHPNSVLKERGLMKKKGFPQSYDMHRLVKFVSDLKSGVPQATAPVYSHLIYDVIPDGDKTVAQPDILILEGLNVLQSGMDYPHDPHHVFVSDFVDFSIYVDAPEELLKSWYINRFLKFREGAFTDPDSYFHNYAKLSKEEAVDIATSLWNEINLMNLKENILPTRERASLIMTKSANHSVNQVRLRK LMTPYLQFNRHQWAALRDSVPMTLTEDEITRLKGINEDLSLEEVAEIYLPLSRLLNFYISSNLRRQAVLEQFLGTNGQRIPYIISIAGSVAVGKSTTARVLQALLSRWPEHRHVELITTDGFLHPNSVLKERGLMKKKGFPQSYDMHRLVKFVSDLKSGVPQATAPVYSHLIYDVIPDGDKTVAQPDILILEGLNVLQSGMDYPHDPHHVFVSDFVDFSIYVDAPEELLKSWYINRFLKFREGAFTDPDSYFHNYAKLSKEEAVDIATSLWNEINLMNLKENILPTRERASLIMTKSANHSVNQVRLRK 4gic-a1-m1-cA_4gic-a1-m1-cB Crystal Structure Of a Putative Histidinol dehydrogenase (Target PSI-014034) from Methylococcus capsulatus Q606Q2 Q606Q2 2.052 X-RAY DIFFRACTION 117 0.997 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 374 375 STEVKIKRLYTGDADFASQLDRLLAWSDTDIHQRVTEIIGCIRRDGDAALVELTARFDHFVVDTAAALELPRDVLEAAWQALPAEQAKALREAAERIRAYAERQKLDSWDYREADGTLLGQKITPLDRVGLYVPGGKAAYPSSVLNAVPAKVAGVPELIAVPAPRGELNALVLAAAYISGVDRVFRIGGAQAVAALAYGTETVPRVDKIVGPGNIYVATAKKLVFGQVGIDVAGPSEILVISDGRTDPDWIADLFSQAEHDEDAQAILISPDAAHLEAVQASIERLLPGERAEVIRTSLERRGGILVDDLEQAAAVANRIAPEHLELSVESPEVLVESIRNAGAIFGVLPTSGTARFSSPLGVYDFQKRSSLIY TEVKIKRLYTGDADFASQLDRLLAWSDTDIHQRVTEIIGCIRRDGDAALVELTARFDHFVVDTAAALELPRDVLEAAWQALPAEQAKALREAAERIRAYAERQKLDSWDYREADGTLLGQKITPLDRVGLYVPGGKAAYPSSVLNAVPAKVAGVPELIAVPAPRGELNALVLAAAYISGVDRVFRIGGAQAVAALAYGTETVPRVDKIVGPGNIYVATAKKLVFGQVGIDVAGPSEILVISDGRTDPDWIADLFSQAEHDEDAQAILISPDAAHLEAVQASIERLLPGERAEVIRTSLERRGGILVDDLEQAAAVANRIAPEHLELSVESPEVLVESIRNAGAIFGVLPTSGTARFSSPLGVYDFQKRSSLIYCS 4gif-a1-m2-cA_4gif-a1-m3-cA C-terminal coiled-coil domain of transient receptor potential channel TRPP3 (PKD2L1, Polycystin-L) Q9P0L9 Q9P0L9 2.8 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 3te3-a1-m1-cB_3te3-a1-m1-cC 3te3-a2-m1-cD_3te3-a2-m1-cF 3te3-a2-m1-cE_3te3-a2-m1-cF 4gif-a1-m1-cA_4gif-a1-m2-cA 4gif-a1-m1-cA_4gif-a1-m3-cA GGWVSGEEFYMLTRRVLQLETVLEGVVSQIDAVGSKLKMLERKGW GGWVSGEEFYMLTRRVLQLETVLEGVVSQIDAVGSKLKMLERKGW 4gip-a1-m1-cE_4gip-a1-m1-cF Structure of the cleavage-activated prefusion form of the parainfluenza virus 5 (PIV5) fusion protein P04849 P04849 2 X-RAY DIFFRACTION 174 1.0 11208 (Simian virus 5 (strain W3)) 11208 (Simian virus 5 (strain W3)) 375 375 2b9b-a1-m1-cA_2b9b-a1-m1-cB 2b9b-a1-m1-cA_2b9b-a1-m1-cC 2b9b-a1-m1-cC_2b9b-a1-m1-cB 4gip-a1-m1-cD_4gip-a1-m1-cE 4gip-a1-m1-cD_4gip-a1-m1-cF 4wsg-a1-m1-cA_4wsg-a1-m1-cC 4wsg-a1-m1-cB_4wsg-a1-m1-cA 4wsg-a1-m1-cB_4wsg-a1-m1-cC FAGVVIGLAALGVATAAQVTAAVALVKANENAAAILNLKNAIQKTNAAVADVVQATQSLGTAVQAVQDHINSVVSPAITAANCKAQDAIIGSILNLYLTELTTIFHNQITNPALSPITIQALRILLGSTLPTVVEKSFNTQISAAELLSSGLLTGQIVGLDLTYMQMVIKIELPTLTVQPATQIIDLATISAFINNQEVMAQLPTRVMVTGSLIQAYPASQCTITPNTVYCRYNDAQVLSDDTMACLQGNLTRCTFSPVVGSFLTRFVLFDGIVYANCRSMLCKCMQPAAVILQPSSSPVTVIDMYKCVSLQLDNLRFTITQLANVTYNSTIKLESSQILSIDPLDISQNLAAVNKSLSDALQHLAQSDTYLSAI FAGVVIGLAALGVATAAQVTAAVALVKANENAAAILNLKNAIQKTNAAVADVVQATQSLGTAVQAVQDHINSVVSPAITAANCKAQDAIIGSILNLYLTELTTIFHNQITNPALSPITIQALRILLGSTLPTVVEKSFNTQISAAELLSSGLLTGQIVGLDLTYMQMVIKIELPTLTVQPATQIIDLATISAFINNQEVMAQLPTRVMVTGSLIQAYPASQCTITPNTVYCRYNDAQVLSDDTMACLQGNLTRCTFSPVVGSFLTRFVLFDGIVYANCRSMLCKCMQPAAVILQPSSSPVTVIDMYKCVSLQLDNLRFTITQLANVTYNSTIKLESSQILSIDPLDISQNLAAVNKSLSDALQHLAQSDTYLSAI 4git-a1-m1-cA_4git-a1-m1-cB Crystal structure of alpha sub-domain of Lon protease from Brevibacillus thermoruber Q84FG5 Q84FG5 2.882 X-RAY DIFFRACTION 30 1.0 33942 (Brevibacillus thermoruber) 33942 (Brevibacillus thermoruber) 92 92 GYTELEKLHIMRDYLLPKQMEEHGLGRDKLQMNEEAMLKVIRQYTREAGVRNLNREAANICRKAARLIVSGEKKRVVVTPKTVESLLGKPRY GYTELEKLHIMRDYLLPKQMEEHGLGRDKLQMNEEAMLKVIRQYTREAGVRNLNREAANICRKAARLIVSGEKKRVVVTPKTVESLLGKPRY 4gjf-a2-m1-cA_4gjf-a2-m2-cA Crystal structure of the amino-terminal domain of human cardiac troponin C mutant L29Q in complex with cadmium P63316 P63316 1.9 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 4gje-a2-m1-cA_4gje-a2-m2-cA 4gjg-a2-m1-cA_4gjg-a2-m2-cA MDDIYKAAVEQLTEEQKNEFKAAFDIFVQGAEDGCISTKELGKVMRMLGQNPTPEELQEMIDEVDEGTVDFDEFLVMMVRCMKDDS MDDIYKAAVEQLTEEQKNEFKAAFDIFVQGAEDGCISTKELGKVMRMLGQNPTPEELQEMIDEVDEGTVDFDEFLVMMVRCMKDDS 4gjh-a1-m1-cB_4gjh-a1-m1-cC Crystal Structure of the TRAF domain of TRAF5 P70191 P70191 2.805 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 176 177 4gjh-a1-m1-cA_4gjh-a1-m1-cB 4gjh-a1-m1-cA_4gjh-a1-m1-cC IHKAQLNKNEERFKQLEGACYSGKLIWKVTDYRVKKREAVEGHTVSVFSQPFYTSRCGYRLCARAYLNGDGSGKGTHLSLYFVVMRGEFDSLLQWPFRQRVTLMLLDQSGKKNHIVETFKADPNSSSFKRPDGEMNIASGCPRFVSHSTLENSKNTYIKDDTLFLKVAVDLTDLED NIHKAQLNKNEERFKQLEGACYSGKLIWKVTDYRVKKREAVEGHTVSVFSQPFYTSRCGYRLCARAYLNGDGSGKGTHLSLYFVVMRGEFDSLLQWPFRQRVTLMLLDQSGKKNHIVETFKADPNSSSFKRPDGEMNIASGCPRFVSHSTLENSKNTYIKDDTLFLKVAVDLTDLED 4gjr-a1-m1-cB_4gjr-a1-m1-cA Crystal structure of the TAL effector dHax3 bound to methylated dsDNA Q3ZD72 Q3ZD72 1.85 X-RAY DIFFRACTION 48 0.996 329463 (Xanthomonas campestris pv. armoraciae) 329463 (Xanthomonas campestris pv. armoraciae) 487 489 4gjp-a1-m1-cB_4gjp-a1-m1-cA QWSGARALEALLTVAGELRGPPLQLDTGQLLKIAKRGGVTAVEAVHAWRNALTGAPLNLTPEQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPQQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPEQVVAIASHDGGKQALETVQALLPVLCQAHGLTPEQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNSGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPEQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPEQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGRPALESIVAQLSRPDALTNDHLVALACLGGRPALDAVKKL QWSGARALEALLTVAGELRGPPLQLDTGQLLKIAKRGGVTAVEAVHAWRNALTGAPLNLTPEQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPQQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPEQVVAIASHDGGKQALETVQALLPVLCQAHGLTPEQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNSGGKQALETVQRLLPVLCQGLTPQQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPQQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPEQVVAIASNGGGKQALETVQRLLPVLCQAHGLTPEQVVAIASHDGGKQALETVQRLLPVLCQAHGLTPQQVVAIASNGGGRPALESIVAQLSRPDPALAALTNDHLVALACLGGRPALDAVKKL 4gk6-a1-m2-cA_4gk6-a1-m3-cA X-ray crystal structure of a hypothetical deoxyuridine 5-triphosphate nucleotidohydrolase from Mycobacterium abscessus B1MCW0 B1MCW0 1.65 X-RAY DIFFRACTION 121 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 136 136 4gk6-a1-m1-cA_4gk6-a1-m2-cA 4gk6-a1-m1-cA_4gk6-a1-m3-cA GSMLAIVRLDRELPLPSRAHADDAGVDLYSAEDVVIEPGRRTLVGTGIAVAIPSGMVGLVHPRSGLAARVGLSIVNSPGTIDAGYRGEVKVNLINLDSEVPIVIARGDRIAQLLVQQVELPELVEVDSFDEAGLAV GSMLAIVRLDRELPLPSRAHADDAGVDLYSAEDVVIEPGRRTLVGTGIAVAIPSGMVGLVHPRSGLAARVGLSIVNSPGTIDAGYRGEVKVNLINLDSEVPIVIARGDRIAQLLVQQVELPELVEVDSFDEAGLAV 4gkg-a1-m1-cF_4gkg-a1-m1-cA Crystal structure of the S-Helix Linker P13633 P13633 1.695 X-RAY DIFFRACTION 36 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 47 52 MEERLARNALEASVEERTRDLRMARDRLETEIADHRQTTEKLQAVQQ PRGSHMEERLARNALEASVEERTRDLRMARDRLETEIADHRQTTEKLQAVQQ 4gkh-a13-m1-cA_4gkh-a13-m1-cB Crystal structure of the aminoglycoside phosphotransferase APH(3')-Ia, with substrate kanamycin and small molecule inhibitor 1-NA-PP1 B0VD92 B0VD92 1.863 X-RAY DIFFRACTION 120 0.988 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 248 261 4ej7-a4-m1-cA_4ej7-a4-m2-cA 4ej7-a5-m1-cB_4ej7-a5-m3-cB 4ej7-a6-m1-cC_4ej7-a6-m4-cC 4fev-a7-m1-cB_4fev-a7-m1-cA 4fev-a8-m1-cC_4fev-a8-m1-cD 4fev-a9-m1-cF_4fev-a9-m1-cE 4few-a7-m1-cB_4few-a7-m1-cA 4few-a8-m1-cC_4few-a8-m1-cD 4few-a9-m1-cE_4few-a9-m1-cF 4gkh-a14-m1-cD_4gkh-a14-m1-cC 4gkh-a15-m1-cE_4gkh-a15-m1-cF 4gkh-a16-m1-cH_4gkh-a16-m1-cG 4gkh-a17-m1-cI_4gkh-a17-m1-cJ 4gkh-a18-m1-cL_4gkh-a18-m1-cK 4gki-a13-m1-cB_4gki-a13-m1-cA 4gki-a14-m1-cD_4gki-a14-m1-cC 4gki-a15-m1-cF_4gki-a15-m1-cE 4gki-a16-m1-cH_4gki-a16-m1-cG 4gki-a17-m1-cI_4gki-a17-m1-cJ 4gki-a18-m1-cL_4gki-a18-m1-cK NLDADLYGYRWARDNVGQSGATIYRLYGKPNAPELFLKHGKGSVANDVTDEVRLNWLTAFPLPTIKHFIRTPDDAWLLTTAIPGKTAFQVLEEYPDSGENIVDALAVFLRRLHSIPVCNCPFNSDRVFRLAQAQSRNNGLVDASDFDDERNGWPVEQVWKEHKLLPFSPDSVVTHGDFSLDNLIFDEGKLIGCIDVGRVGIADRYQDLAILWNCLGEFSPSLQKRLFQKYGIDNPDNKLQFHLLDEFF SHIQRETSCSRPRLNSNLDADLYGYRWARDQSGATIYRLYGKPNAPELFLKHGKGSVANDVTDEVRLNWLTAFPLPTIKHFIRTPDDAWLLTTAIPGKTAFQVLEEYPDSGENIVDALAVFLRRLHSIPVCNCPFNSDRVFRLAQAQSRNNGLVDASDFDDERNGWPVEQVWKEHKLLPFSPDSVVTHGDFSLDNLIFDEGKLIGCIDVGRVGIADRYQDLAILWNCLGEFSPSLQKRLFQKYGIDNPDNKLQFHLLDEFF 4gkv-a1-m1-cA_4gkv-a1-m1-cD Structure of Escherichia coli AdhP (ethanol-inducible dehydrogenase) with bound NAD P39451 P39451 2.008 X-RAY DIFFRACTION 112 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 336 336 4gkv-a1-m1-cB_4gkv-a1-m1-cC MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH 4gkv-a1-m1-cB_4gkv-a1-m1-cD Structure of Escherichia coli AdhP (ethanol-inducible dehydrogenase) with bound NAD P39451 P39451 2.008 X-RAY DIFFRACTION 36 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 336 336 4gkv-a1-m1-cA_4gkv-a1-m1-cC MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH 4gkv-a1-m1-cC_4gkv-a1-m1-cD Structure of Escherichia coli AdhP (ethanol-inducible dehydrogenase) with bound NAD P39451 P39451 2.008 X-RAY DIFFRACTION 23 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 336 336 4gkv-a1-m1-cA_4gkv-a1-m1-cB MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH MKAAVVTKDHHVDVTYKTLRSLKHGEALLKMECCGVCHTDLHVKNGDFGDKTGVILGHEGIGVVAEVGPGVTSLKPGDRASVAWFYEGCGHCEYCNSGNETLCRSVKNAGYSVDGGMAEECIVVADYAVKVPDGLDSAAASSITCAGVTTYKAVKLSKIRPGQWIAIYGLGGLGNLALQYAKNVFNAKVIAIDVNDEQLKLATEMGADLAINSHTEDAAKIVQEKTGGAHAAVVTAVAKAAFNSAVDAVRAGGRVVAVGLPPESMSLDIPRLVLDGIEVVGSLVGTRQDLTEAFQFAAEGKVVPKVALRPLADINTIFTEMEEGKIRGRMVIDFRH 4gkw-a1-m1-cA_4gkw-a1-m1-cB Crystal Structure of the Coiled-coil Domain of C. elegans SAS-6 O62479 O62479 3.3 X-RAY DIFFRACTION 213 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 158 158 EDKEDEVADLKQDTESLQKQLEENQEELEIVGNMLREEQGKVDQLQKRNVAHQKEIGKLRAELGTAQRNLEKADQLLKRNSQQQNQQSLDMRKLGELEADLKEKDSMVESLTETIGILRKELENEKLKAAENMDSFEKLSMENENLKEKIAHYRAQRF EDKEDEVADLKQDTESLQKQLEENQEELEIVGNMLREEQGKVDQLQKRNVAHQKEIGKLRAELGTAQRNLEKADQLLKRNSQQQNQQSLDMRKLGELEADLKEKDSMVESLTETIGILRKELENEKLKAAENMDSFEKLSMENENLKEKIAHYRAQRF 4glj-a1-m2-cA_4glj-a1-m3-cA Crystal structure of methylthioadenosine phosphorylase in complex with rhodamine B C6KFA4 C6KFA4 1.9 X-RAY DIFFRACTION 78 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 287 287 4glf-a1-m1-cA_4glf-a1-m2-cA 4glf-a1-m1-cA_4glf-a1-m3-cA 4glf-a1-m2-cA_4glf-a1-m3-cA 4glj-a1-m1-cA_4glj-a1-m2-cA 4glj-a1-m1-cA_4glj-a1-m3-cA KNAADIAIIGGSGLYQMQALTNKRSVKIETPYGEPSDDIVLGELNGVTVAFLTRHGQGHRLTPSEVPYRANIYALKTLGVRYIVSVSAVGSLQETLKPLDMVIPDQMIDMTKQRVSTFFGDGAVAHVSMADPLCPEVADILIRAYDNADIADGQCHAKATYVCIEGPQFSTRAESHWYRQMQADIIGMTNMPEAKLAREASIAYATLALVTDFDCWHPNEQAVSADYAIQNLMKNADNAQQVIKQAVALIASEQPKSIAHTALTQALVTPVEAMSAETKTRLAALLP KNAADIAIIGGSGLYQMQALTNKRSVKIETPYGEPSDDIVLGELNGVTVAFLTRHGQGHRLTPSEVPYRANIYALKTLGVRYIVSVSAVGSLQETLKPLDMVIPDQMIDMTKQRVSTFFGDGAVAHVSMADPLCPEVADILIRAYDNADIADGQCHAKATYVCIEGPQFSTRAESHWYRQMQADIIGMTNMPEAKLAREASIAYATLALVTDFDCWHPNEQAVSADYAIQNLMKNADNAQQVIKQAVALIASEQPKSIAHTALTQALVTPVEAMSAETKTRLAALLP 4glt-a2-m1-cC_4glt-a2-m1-cD Crystal structure of glutathione s-transferase MFLA_2116 (target EFI-507160) from methylobacillus flagellatus kt with gsh bound Q1GZF4 Q1GZF4 2.2 X-RAY DIFFRACTION 86 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 202 208 4glt-a1-m1-cB_4glt-a1-m1-cA SMKLLYSNTSPYARKVRVVAAEKRIDVDMVLVVLADPECPVADHNPLGKIPVLILPDGESLYDSRVIVEYLDHRTPVAHLIPQDHTAKIAVRRWEALADGVTDAAVAAVMEGRRPEGMQDSAVIEKQLNKVERGLRRMDQDLEKRKWCVNESFSLADIAVGCMLGYLELRYQHLDWKQQYPNLARHYAAMMKRASFKDTAPV NLYFQSMKLLYSNTSPYARKVRVVAAEKRIDVDMVLVVLADPECPVADHNPLGKIPVLILPDGESLYDSRVIVEYLDHRTPVAHLIPQDHTAKIAVRRWEALADGVTDAAVAAVMEGRRPEGMQDSAVIEKQLNKVERGLRRMDQDLEKRKWCVNESFSLADIAVGCMLGYLELRYQHLDWKQQYPNLARHYAAMMKRASFKDTAPVI 4glw-a1-m1-cA_4glw-a1-m1-cB DNA ligase A in complex with inhibitor C1CKI0 C1CKI0 2 X-RAY DIFFRACTION 24 0.996 488223 (Streptococcus pneumoniae P1031) 488223 (Streptococcus pneumoniae P1031) 275 281 NKRMNERELVELETAYPEQVLADSPTHRVGGKVLDGFEKYSHQYPLYSLQDAFSREELDAFDARVRKEVAHPTYICELKIDGLSISLTYEKGILVAGVTRGDGSIGENITENLKRVKDIPLTLPEELDITVRGECYMPRASFDQVNQARQENGEPEFANPRNAAAGTLRQLDTAVVAKRNLATFLYQEASPSTRDSQEKGLKYLEQLGFVVNPKRILAENIDEIWNFIQEVGQERENLPYDIDGVVIKVNDLASQEELGFTVKAPKWAVAYKFPA NKRMNELVALLNYRELVELETAYPEQVLADSPTHRVGGKVLDGFEKYSHQYPLYSLQDAFSREELDAFDARVRKEVAHPTYICELKIDGLSISLTYEKGILVAGVTRGDGSIGENITENLKRVKDIPLTLPEELDITVRGECYMPRASFDQVNQARQENGEPEFANPRNAAAGTLRQLDTAVVAKRNLATFLYQEASPSTRDSQEKGLKYLEQLGFVVNPKRILAENIDEIWNFIQEVGQERENLPYDIDGVVIKVNDLASQEELGFTVKAPKWAVAYKFP 4gmf-a2-m1-cC_4gmf-a2-m1-cD Apo Structure of a Thiazolinyl Imine Reductase from Yersinia enterocolitica (Irp3) A1JTG0 A1JTG0 1.85 X-RAY DIFFRACTION 239 0.997 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 330 332 4gmf-a1-m1-cB_4gmf-a1-m1-cA 4gmg-a1-m1-cB_4gmg-a1-m1-cA 4gmg-a2-m1-cC_4gmg-a2-m1-cD 5kvq-a1-m1-cA_5kvq-a1-m1-cB 5kvs-a1-m1-cA_5kvs-a1-m1-cB KQRVLIVGAKFGEMYLNAFMQGLELVGLLAQGSARSRELAHAFGIPLYTSPEQITGMPDIACIVVVAGGAGTQLARHFLARGVHVIQEHPLHPDDISSLQTLAQEQGCCYWINTFYPHTRAGRTWLRDAQQLRRCLAKTPPVVHATTSRQLLYSTLDLLLLALGVDTAAVECDVVGSFSDFHCLRLFWPEGEACLLLQRYLDPDDPDMHSLIMHRLLLGWPEGHLSLEASYGPVIWSSSLFVILRDPPGLTRSAAPLSWRDCCETVGPEGVSWLLHQLRSHLAGEHPPVACQNVHQIALSRLWQQILRKTGNAEIRRLTPPHHDRLAGFY KQRVLIVGAKFGEMYLNAFMQPPEGLELVGLLAQGSARSRELAHAFGIPLYTSPEQITGMPDIACIVVVAGGAGTQLARHFLARGVHVIQEHPLHPDDISSLQTLAQEQGCCYWINTFYPHTRAGRTWLRDAQQLRRCLAKTPPVVHATTSRQLLYSTLDLLLLALGVDTAAVECDVVGSFSDFHCLRLFWPEGEACLLLQRYLDPDDPDMHSLIMHRLLLGWPEGHLSLEASYGPVIWSSSLFVLRDPPGLTRSAAPLSWRDCCETVGPEGVSWLLHQLRSHLAGEHPPVACQNVHQIALSRLWQQILRKTGNAEIRRLTPPHHDRLAGFY 4gmk-a1-m1-cB_4gmk-a1-m1-cA Crystal Structure of Ribose 5-Phosphate Isomerase from the Probiotic Bacterium Lactobacillus salivarius UCC118 Q1WR87 Q1WR87 1.72 X-RAY DIFFRACTION 64 1.0 362948 (Ligilactobacillus salivarius UCC118) 362948 (Ligilactobacillus salivarius UCC118) 224 227 DELKQLVGTKAVEWIKDGMIVGLGTGSTVKYMVDALGKRVNEEGLDIVGVTTSIRTAEQAKSLGIVIKDIDEVDHIDLTIDGADEISSDFQGIKGGGAALLYEKIVATKSNKNMWIVDESKMVDDLGQFPLPVEVIPYGSGTVFKRFEEKGLNPEFRKNEDGSLLHTDSDNYIIDLHLGKIENPKELGDYLINQVGVVEHGLFLDIVNTVIVGRQDGPEVLEAR PNQDELKQLVGTKAVEWIKDGMIVGLGTGSTVKYMVDALGKRVNEEGLDIVGVTTSIRTAEQAKSLGIVIKDIDEVDHIDLTIDGADEISSDFQGIKGGGAALLYEKIVATKSNKNMWIVDESKMVDDLGQFPLPVEVIPYGSGTVFKRFEEKGLNPEFRKNEDGSLLHTDSDNYIIDLHLGKIENPKELGDYLINQVGVVEHGLFLDIVNTVIVGRQDGPEVLEAR 4gni-a3-m1-cB_4gni-a3-m1-cA Structure of the Ssz1 ATPase bound to ATP and Magnesium G0RZX9 G0RZX9 1.796 X-RAY DIFFRACTION 59 0.997 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 384 385 ERVVIGITFGNSNSSIAHTVDDKAEVIANEDGDRQIPTILSYVDGDEYYGQQAKNFLVRNPKNTVAYFRDILGQDFKSVDPTHNHASAHPQEAGDNVVFTIKDKAEEDAEPSTLTVSEIATRYLRRLVGAASEYLGKKVTSAVITIPTNFTEKQKAALIAAAAAADLEVLQLISEPAAAVLAYDSDKIIVVADLGGSRSDVTVLASRSGMYTILATVHDYEYHGIALDKVLIDHFSKEFLKKNPGAKDPRENPRSLAKLRLEAESTKRALSRSTNASFSVESLIDGLDFASTINRLRYETIARTVFEGFNRLVESAVKKAGLDPLDVDEVIMSGGTSNTPRIAANFRYIFPESTRILAPSTDPSALNPSELQARGAALQASLIQ RVVIGITFGNSNSSIAHTVDDKAEVIANEDGDRQIPTILSYVDGDEYYGQQAKNFLVRNPKNTVAYFRDILGQDFKSVDPTHNHASAHPQEAGDNVVFTIKDKAEEDAEPSTLTVSEIATRYLRRLVGAASEYLGKKVTSAVITIPTNFTEKQKAALIAAAAAADLEVLQLISEPAAAVLAYDASDKIIVVADLGGSRSDVTVLASRSGMYTILATVHDYEYHGIALDKVLIDHFSKEFLKKNPGAKDPRENPRSLAKLRLEAESTKRALSRSTNASFSVESLIDGLDFASTINRLRYETIARTVFEGFNRLVESAVKKAGLDPLDVDEVIMSGGTSNTPRIAANFRYIFPESTRILAPSTDPSALNPSELQARGAALQASLIQE 4go3-a3-m1-cD_4go3-a3-m1-cG Crystal structure of PnpE from Pseudomonas sp. WBC-3 C1I208 C1I208 2.704 X-RAY DIFFRACTION 212 1.0 165468 (Pseudomonas sp. WBC-3) 165468 (Pseudomonas sp. WBC-3) 487 487 4go3-a1-m1-cA_4go3-a1-m1-cC 4go3-a2-m1-cB_4go3-a2-m1-cF 4go3-a4-m1-cE_4go3-a4-m1-cH 4go4-a1-m1-cA_4go4-a1-m1-cB 4go4-a2-m1-cC_4go4-a2-m1-cD 4go4-a3-m1-cE_4go4-a3-m1-cF 4go4-a4-m1-cG_4go4-a4-m1-cH MQNQLYIDGRFVDAVAGGTIDVVSPHDGSLITRIAAAEAADVDLAVAAAKRAFPAWSALGAAERGRLLLKLADRIEECSEELAQLESLNTGHPIRDSRGLDVPRTAACFRYFGGMADKIEGSVIPVDAGFLNYVQRKPIGVVAQIVPWNFPLMFTSWKMGPALAAGNTIVIKPSEITPLSTLRIVELMTEVGFPKGVVNVVPGYGHTAGQALAEHLDVGKIAFTGSTATGRRIVEASKSNLKRIQLELGGKGANIVFEDANIEAAVNGAAWAIFHNQGQACIAGSRLILHKDIADQFLERFIALAKSIRLGDPMDPETEMGPLTSALRRDRVLSYIDIAIEQGGKVLAGGKAPDDKALANGFYVEPTVVEAKPQDRVCQEEVFGPFVTVVRFSSDEEALAIANNTEYGLGSGLWTQNLARAHKMANAIHAGMCWINCYKRVSPGSPFGGVGQSGYGREMGFEAIHDYTEARSVWVNVDAKIAPHFKR MQNQLYIDGRFVDAVAGGTIDVVSPHDGSLITRIAAAEAADVDLAVAAAKRAFPAWSALGAAERGRLLLKLADRIEECSEELAQLESLNTGHPIRDSRGLDVPRTAACFRYFGGMADKIEGSVIPVDAGFLNYVQRKPIGVVAQIVPWNFPLMFTSWKMGPALAAGNTIVIKPSEITPLSTLRIVELMTEVGFPKGVVNVVPGYGHTAGQALAEHLDVGKIAFTGSTATGRRIVEASKSNLKRIQLELGGKGANIVFEDANIEAAVNGAAWAIFHNQGQACIAGSRLILHKDIADQFLERFIALAKSIRLGDPMDPETEMGPLTSALRRDRVLSYIDIAIEQGGKVLAGGKAPDDKALANGFYVEPTVVEAKPQDRVCQEEVFGPFVTVVRFSSDEEALAIANNTEYGLGSGLWTQNLARAHKMANAIHAGMCWINCYKRVSPGSPFGGVGQSGYGREMGFEAIHDYTEARSVWVNVDAKIAPHFKR 4go7-a1-m1-cX_4go7-a1-m2-cX The regulatory subunit of aspartate kinase in complex with threonine from Mycobacterium tuberculosis P9WPX3 P9WPX3 2 X-RAY DIFFRACTION 167 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 165 165 3s1t-a1-m1-cB_3s1t-a1-m1-cA 4go5-a1-m1-cX_4go5-a1-m2-cX SIHMEDPILTGVAHDRSEAKVTIVGLPDIPGYAAKVFRAVADADVNIDMVLQNVSKDGKTDITFTCSRDVGPAAVEKLDSLRNEIGFSQLLYDDHIGKVSLIGAGMRSHPGVTATFCEALAAVGVNIELISTSEIRISVLCRDTELDKAVVALHEAFGLEATVYA SIHMEDPILTGVAHDRSEAKVTIVGLPDIPGYAAKVFRAVADADVNIDMVLQNVSKDGKTDITFTCSRDVGPAAVEKLDSLRNEIGFSQLLYDDHIGKVSLIGAGMRSHPGVTATFCEALAAVGVNIELISTSEIRISVLCRDTELDKAVVALHEAFGLEATVYA 4gof-a1-m1-cA_4gof-a1-m1-cB Crystal structure of the SGTA homodimerization domain with covalent modifications to both C38 O43765 O43765 1.35 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 4god-a1-m1-cB_4god-a1-m1-cA 4goe-a1-m1-cB_4goe-a1-m1-cA MKKRLAYAIIQFLHDQLRHGGLSSDAQESLEVAIQCLETAFGVTVEDSDLAL MKKRLAYAIIQFLHDQLRHGGLSSDAQESLEVAIQCLETAFGVTVEDSDLAL 4gpa-a1-m1-cA_4gpa-a1-m2-cA High resolution structure of the GluA4 N-terminal domain (NTD) P19493 P19493 2.25 X-RAY DIFFRACTION 103 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 379 379 FPSSVQIGGLFIRNTDQEYTAFRLAIFLHNTSPNASEAPFNLVPHVDNIETANSFAVTNAFCSQYSRGVFAIFGLYDKRSVHTLTSFCSALHISLITPSFPTEGESQFVLQLRPSLRGALLSLLDHYEWNCFVFLYDTDRGYSILQAIMEKAGQNGWHVSAICVENFNDVSYRQLLEELDRRQEKKFVIDCEIERLQNILEQIVSVGKHVKGYHYIIANLGFKDISLERFIHGGANVTGFQLVDFNTPMVTKLMDRWKKLDQREYPGSETPPKYTSALTYDGVLVMAETFRSLRRQKIDISRRGNAGDCLANPAAPWGQGIDMERTLKQVRIQGLTGNVQFDHYGRRVNYTMDVFELKSTGPRKVGYWNDMDKLVLIQD FPSSVQIGGLFIRNTDQEYTAFRLAIFLHNTSPNASEAPFNLVPHVDNIETANSFAVTNAFCSQYSRGVFAIFGLYDKRSVHTLTSFCSALHISLITPSFPTEGESQFVLQLRPSLRGALLSLLDHYEWNCFVFLYDTDRGYSILQAIMEKAGQNGWHVSAICVENFNDVSYRQLLEELDRRQEKKFVIDCEIERLQNILEQIVSVGKHVKGYHYIIANLGFKDISLERFIHGGANVTGFQLVDFNTPMVTKLMDRWKKLDQREYPGSETPPKYTSALTYDGVLVMAETFRSLRRQKIDISRRGNAGDCLANPAAPWGQGIDMERTLKQVRIQGLTGNVQFDHYGRRVNYTMDVFELKSTGPRKVGYWNDMDKLVLIQD 4gpo-a1-m1-cA_4gpo-a1-m1-cB Oligomeic Turkey Beta1-Adrenergic G Protein-Coupled Receptor P07700 P07700 3.5 X-RAY DIFFRACTION 56 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 279 280 LSQQWEAGMSLLMALVVLLIVAGNVLVIAAIGSTQRLQTLTNLFITSLACADLVVGLLVVPFGATLVVRGTWLWGSFLCELWTSLDVLCVTASIETLCVIAIDRYLAITSPFRYQSLMTRARAKVIICTVWAISALVSFLPIMMHWWRDEDPQALKCYQDPGCCDFVTNRAYAIASSIISFYIPLLIMIFVALRVYREAKEQVMLMREHKALKTLGIIMGVFTLCWLPFFLVNIVNVFNRDLVPDWLFVAFNWLGYANSAMNPIIYCRSPDFRKAFKRL LSQQWEAGMSLLMALVVLLIVAGNVLVIAAIGSTQRLQTLTNLFITSLACADLVVGLLVVPFGATLVVRGTWLWGSFLCELWTSLDVLCVTASIETLCVIAIDRYLAITSPFRYQSLMTRARAKVIICTVWAISALVSFLPIMMHWWRDEDPQALKCYQDPGCCDFVTNRAYAIASSIISFYIPLLIMIFVALRVYREAKEQIVMLMREHKALKTLGIIMGVFTLCWLPFFLVNIVNVFNRDLVPDWLFVAFNWLGYANSAMNPIIYCRSPDFRKAFKRL 4gqm-a1-m1-cA_4gqm-a1-m2-cA Crystal structure of a helix-turn-helix containing hypothetical protein (CT009) from Chlamydia trachomatis in a sub-domain swap conformation 1.25 X-RAY DIFFRACTION 113 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 105 105 GHMSEHVHKELLHLGEVFRSQREERALSLKDVEAATSIRLSALEAIEAGHLGKLISPVYAQGFMKKYAAFLDMDGDRLLKEHPYVLKIFQEFSDQNMDMLLDLES GHMSEHVHKELLHLGEVFRSQREERALSLKDVEAATSIRLSALEAIEAGHLGKLISPVYAQGFMKKYAAFLDMDGDRLLKEHPYVLKIFQEFSDQNMDMLLDLES 4gqt-a1-m1-cA_4gqt-a1-m1-cB N-terminal domain of C. elegans Hsp90 Q18688 Q18688 2.15 X-RAY DIFFRACTION 18 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 209 209 ENAETFAFQAEIAQLMSLIINTFYSNKEIYLRELISNASDALDKIRYQALTEPSELDTGKELFIKITPNKEEKTLTIMDTGIGMTKADLVNNLGTIAKSGTKAFMEALQAGADISMIGQFGVGFYSAFLVADKVVVTSKNNDDDSYQWESSAGGSFVVRPFNDPEVTRGTKIVMHIKEDQIDFLEERKIKEIVKKHSQFIGYPIKLVVE ENAETFAFQAEIAQLMSLIINTFYSNKEIYLRELISNASDALDKIRYQALTEPSELDTGKELFIKITPNKEEKTLTIMDTGIGMTKADLVNNLGTIAKSGTKAFMEALQAGADISMIGQFGVGFYSAFLVADKVVVTSKNNDDDSYQWESSAGGSFVVRPFNDPEVTRGTKIVMHIKEDQIDFLEERKIKEIVKKHSQFIGYPIKLVVE 4gqw-a1-m1-cA_4gqw-a1-m2-cA Crystal structure of CBS-pair protein, CBSX1 (loop deletion) from Arabidopsis thaliana O23193 O23193 2.201 X-RAY DIFFRACTION 89 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 132 132 4gqv-a1-m1-cA_4gqv-a1-m2-cA GVYTVGEFMTKKEDLHVVKPTTTVDEALELLVENRITGFPVIDEDWKLVGLVSDYDLLALDTWKTFNAVQKLGKLVGDLMTPAPLVVEEKTNLEDAAKILLETKYRRLPVVDSDGKLVGIITRGNVVRAALQ GVYTVGEFMTKKEDLHVVKPTTTVDEALELLVENRITGFPVIDEDWKLVGLVSDYDLLALDTWKTFNAVQKLGKLVGDLMTPAPLVVEEKTNLEDAAKILLETKYRRLPVVDSDGKLVGIITRGNVVRAALQ 4gqy-a1-m1-cC_4gqy-a1-m1-cA Crystal structure of CBSX2 in complex with AMP Q9C5D0 Q9C5D0 2.193 X-RAY DIFFRACTION 17 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 146 147 GYTVGDFMTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALDSISGVDSTWKTFNELQKLISKTYGKVVGDLMTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKR GYTVGDFMTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALDSISGDVDSTWKTFNELQKLISKTYGKVVGDLMTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKR 4gqy-a1-m1-cD_4gqy-a1-m1-cA Crystal structure of CBSX2 in complex with AMP Q9C5D0 Q9C5D0 2.193 X-RAY DIFFRACTION 32 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 134 147 4gqy-a1-m1-cB_4gqy-a1-m1-cC GYTVGDFMTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALDNELQKLISKTYGKVVGDLMTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKR GYTVGDFMTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALDSISGDVDSTWKTFNELQKLISKTYGKVVGDLMTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKR 4gqy-a3-m1-cD_4gqy-a3-m1-cC Crystal structure of CBSX2 in complex with AMP Q9C5D0 Q9C5D0 2.193 X-RAY DIFFRACTION 78 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 134 146 4gqy-a1-m1-cB_4gqy-a1-m1-cA 4gqy-a1-m1-cD_4gqy-a1-m1-cC 4gqy-a2-m1-cB_4gqy-a2-m1-cA GYTVGDFMTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALDNELQKLISKTYGKVVGDLMTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKR GYTVGDFMTPRQNLHVVKPSTSVDDALELLVEKKVTGLPVIDDNWTLVGVVSDYDLLALDSISGVDSTWKTFNELQKLISKTYGKVVGDLMTPSPLVVRDSTNLEDAARLLLETKFRRLPVVDADGKLIGILTRGNVVRAALQIKR 4gqz-a2-m1-cD_4gqz-a2-m1-cC Crystal Structure of S.CueP Q8ZL99 Q8ZL99 1.799 X-RAY DIFFRACTION 95 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 153 156 4gqz-a1-m1-cA_4gqz-a1-m1-cB AASSESAFLAQHGLAGKTVEQIVDTIDQTPPLPYSASITSTELKLSDGEQIYTLPLGDKFYLSFAPYEWRTHPCFNHSLSGQGEPNKPFTVKVTDSKGAVIVQKEQSYRNGFIGVWLPRNEGTLEVSYNGKTASHAIATSDDSQTCLTELPLR AASSESAFLAQHGLAGKTVEQIVDTIDQTPQSRPLPYSASITSTELKLSDGEQIYTLPLGDKFYLSFAPYEWRTHPCFNHSLSGQGEPNKPFTVKVTDSKGAVIVQKEQSYRNGFIGVWLPRNEGTLEVSYNGKTASHAIATSDDSQTCLTELPLR 4gr2-a1-m1-cA_4gr2-a1-m1-cB Structure of AtRbcX1 from Arabidopsis thaliana. Q94AU9 Q94AU9 2 X-RAY DIFFRACTION 127 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 110 118 EASPEAKAAKHLHDFFTYVAVRIVSAQLESYNPEAYMELREFLDTNSVSDGDKFLATLMRRSSRHMNLALRILEVRSAYAKNDFEWDNMKRLAFKNVDDSNTRLMREYVL VPGFGEASPEAKAAKHLHDFFTYVAVRIVSAQLESYNPEAYMELREFLDTNSVSDGDKFLATLMRRSSRHMNLALRILEVRSAYAKNDFEWDNMKRLAFKNVDDSNTRLMREYVLETS 4gr6-a1-m1-cA_4gr6-a1-m1-cB Crystal structure of AtRbcX2 from Arabidopsis thaliana Q8L9X2 Q8L9X2 2 X-RAY DIFFRACTION 102 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 104 105 TFGDVQKQIVNYFTYKAVRTVLHQLYEMNPPQYTWFYNHIITNRPTDGKRFLRALGKESQELAERVMITRLHLYGKWIKKADHGKIYQEISDENLALMRERLME TFGDVQKQIVNYFTYKAVRTVLHQLYEMNPPQYTWFYNHIITNRPTDGKRFLRALGKESQELAERVMITRLHLYGKWIKKADHGKIYQEISDENLALMRERLMET 4gr7-a3-m1-cA_4gr7-a3-m1-cX The human W42R Gamma D-Crystallin Mutant Structure at 1.7A Resolution P07320 P07320 1.7 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 GKITLYEDRGFQGRHYECSSDHPNLQPYLSRCNSARVDSGCRMLYEQPNYSGLQYFLRRGDYADHQQWMGLSDSVRSCRLIPHSGSHRIRLYEREDYRGQMIEFTEDCSCLQDRFRFNEIHSLNVLEGSWVLYELSNYRGRQYLLMPGDYRRYQDWGATNARVGSLRRVIDFS GKITLYEDRGFQGRHYECSSDHPNLQPYLSRCNSARVDSGCRMLYEQPNYSGLQYFLRRGDYADHQQWMGLSDSVRSCRLIPHSGSHRIRLYEREDYRGQMIEFTEDCSCLQDRFRFNEIHSLNVLEGSWVLYELSNYRGRQYLLMPGDYRRYQDWGATNARVGSLRRVIDFS 4gs1-a1-m1-cA_4gs1-a1-m1-cB Crystal structure of DyP-type peroxidase from Thermobifida cellulosilytica U3KRF5 U3KRF5 1.7 X-RAY DIFFRACTION 171 1.0 144786 (Thermobifida cellulosilytica) 144786 (Thermobifida cellulosilytica) 375 376 PVDAQRLDMARRRADANAAPQPGISGRAPAFVHVIAFDLAEPARAEPAAAREGAATALRTWAEHAARLHADGPEGAASAGLLPASLMVTIGIGGSLLEAMDAADRRPDALADLPEFATDDLRPRWCGGDLMLQVGAEDPMVLAAAVDELVAATAPTTTVRWSLRGFRRTAAAAQDPDATPRNLMGQIDGTANPAQDHPLFTRTVTAPPADDPAHAWMDGGSYLVVRRIRMLLDEWRRLDVPDRERVIGRHLDTGAPLGGEKETDPVVLTARDADGRLVIPEDAHVRLANPENNLGARMVRRGYNYDEGWRDDGVRDAGLLFMAWQGNPATGFVPVQRSLVEQGDALNRYTRHEGSALFAVPAATADRYPGQDLVE PVDAQRLDMARRRADANAAPQPGISGRAPAFVHVIAFDLAEPARAEPAAAREGAATALRTWAEHAARLHADGPEGAASAGLLPASLMVTIGIGGSLLEAMDAADRRPDALADLPEFATDDLRPRWCGGDLMLQVGAEDPMVLAAAVDELVAATAPTTTVRWSLRGFRRTAAAAQDPDATPRNLMGQIDGTANPAQDHPLFTRTVTAPPADDPAHAWMDGGSYLVVRRIRMLLDEWRRLDVPDRERVIGRHLDTGAPLGGEKETDPVVLTARDADGRLVIPEDAHVRLANPENNLGARMVRRGYNYDEGWRDDGVRDAGLLFMAWQGNPATGFVPVQRSLVEQGDALNRYTRHEGSALFAVPAATADRYPGQDLVEG 4gs3-a2-m1-cA_4gs3-a2-m2-cA Dimeric structure of the N-terminal domain of PriB protein from Thermoanaerobacter tencongensis solved ab initio Q8RBI8 Q8RBI8 1.09 X-RAY DIFFRACTION 61 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 90 90 ENNTVTLVGKVFTPLEFSHELYGEKFFNFILEVPRLSETKDYLPITISNRLFEGMNLEVGTRVKIEGQLRSYNRKLILTVFARDISVVPE ENNTVTLVGKVFTPLEFSHELYGEKFFNFILEVPRLSETKDYLPITISNRLFEGMNLEVGTRVKIEGQLRSYNRKLILTVFARDISVVPE 4gsx-a1-m2-cA_4gsx-a1-m3-cA High resolution structure of dengue virus serotype 1 sE containing stem P17763 P17763 1.903 X-RAY DIFFRACTION 165 1.0 11059 (Dengue virus 1 Nauru/West Pac/1974) 11059 (Dengue virus 1 Nauru/West Pac/1974) 390 390 3g7t-a1-m1-cA_3g7t-a1-m2-cA 3g7t-a1-m1-cA_3g7t-a1-m3-cA 3g7t-a1-m2-cA_3g7t-a1-m3-cA 4gsx-a1-m1-cA_4gsx-a1-m2-cA 4gsx-a1-m1-cA_4gsx-a1-m3-cA 4gsx-a2-m1-cB_4gsx-a2-m4-cB 4gsx-a2-m1-cB_4gsx-a2-m5-cB 4gsx-a2-m4-cB_4gsx-a2-m5-cB 4gt0-a1-m1-cA_4gt0-a1-m2-cA 4gt0-a1-m1-cA_4gt0-a1-m3-cA 4gt0-a1-m2-cA_4gt0-a1-m3-cA 4gt0-a2-m1-cB_4gt0-a2-m4-cB 4gt0-a2-m1-cB_4gt0-a2-m5-cB 4gt0-a2-m4-cB_4gt0-a2-m5-cB RCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGHGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKKGSSIGKMFE RCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGHGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKKGSSIGKMFE 4gtu-a4-m1-cG_4gtu-a4-m1-cH LIGAND-FREE HOMODIMERIC HUMAN GLUTATHIONE S-TRANSFERASE M4-4 Q03013 Q03013 3.3 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 217 4gtu-a1-m1-cA_4gtu-a1-m1-cB 4gtu-a2-m1-cC_4gtu-a2-m1-cD 4gtu-a3-m1-cE_4gtu-a3-m1-cF SMTLGYWDIRGLAHAIRLLLEYTDSSYEEKKYTMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGAHKITQSNAILCYIARKHNLCGETEEEKIRVDILENQAMDVSNQLARVCYSPDFEKLKPEYLEELPTMMQHFSQFLGKRPWFVGDKITFVDFLAYDVLDLHRIFEPNCLDAFPNLKDFISRFEGLEKISAYMKSSRFLPKPLYTRVAVWGNK SMTLGYWDIRGLAHAIRLLLEYTDSSYEEKKYTMGDAPDYDRSQWLNEKFKLGLDFPNLPYLIDGAHKITQSNAILCYIARKHNLCGETEEEKIRVDILENQAMDVSNQLARVCYSPDFEKLKPEYLEELPTMMQHFSQFLGKRPWFVGDKITFVDFLAYDVLDLHRIFEPNCLDAFPNLKDFISRFEGLEKISAYMKSSRFLPKPLYTRVAVWGNK 4gu0-a2-m1-cD_4gu0-a2-m1-cB Crystal structure of LSD2 with H3 Q8NB78 Q8NB78 3.103 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 735 748 4fwe-a2-m1-cA_4fwe-a2-m2-cA 4gu0-a1-m1-cC_4gu0-a1-m1-cA GSRKCEKAGCTATCPVCFASASERCAKNGYTSRWYHLSCGEHFCNECFDHYYRSHKDGYDKYTTWKKIWTSNGKTEPSPKAFMADQQLPYWVQCTKPECRKWRQLTKEIQLTPQIAKTYRCGMDHCSLPEDLRVLEVSNHWWYSMLILPPLLKDSVAAPLLSAYYPDCVGMSPSCTGMNRYFQPFYQPNECGKALCVRPDVMELDELYEFPEYSRDPTMYLALRNLILALWYTNCKEALTPQKCIPHIIVRGLVRIRCVQEVERILYFMTRKGLINTGVLSVGADQYLLPKDYHNKSVIIIGAGPAGLAAARQLHNFGIKVTVLEAKDRIGGRVWDDKSFKGVTVGRGAQIVNGCINNPVALMCEQLGISMHKFGERCDLIQEGGRITDPTIDKRMDFHFNALLDVVSEWRKDKTQLQDVPLGEKIEEIYKAFIKESGIQFSELEGQVLQFHLSNLEYACGSNLHQVSARSWDHNEFFAQFAGDHTLLTPGYSVIIEKLAEGLDIQLKSPVQCIDYSGDEVQVTTTDGTGYSAQKVLVTVPLALLQKGAIQFNPPLSEKKMKAINSLGAGIIEKIALQFPYRFWDSKVQGADFFGHVPPSASKRGLFAVFYDMDPQKKHSVLMSVIAGEAVASVRTLDDKQVLQQCMATLRELFKEQEVPDPTKYFVTRWSTDPWIQMAYSFVKTGGSGEAYDIIAEDIQGTVFFAGEATNRHFPQTVTGAYLSGVREASKIAAF PLGSRKCEKAGCTATCPVCFASASERCAKNGYTSRWYHLSCGEHFCNECFDHYYRSHKDGYDKYTTWKKIWTSNGKTEPSPKAFMADQQLPYWVQCTKPECRKWRQLTKEIQLTPQIAKTYRCGMKPNTAIKPETSDHCSLPEDLRVLEVSNHWWYSMLILPPLLKDSVAAPLLSAYYPDCVGMSPSCTGMNRYFQPFYQPNECGKALCVRPDVMELDELYEFPEYSRDPTMYLALRNLILALWYTNCKEALTPQKCIPHIIVRGLVRIRCVQEVERILYFMTRKGLINTGVLSVGADQYLLPKDYHNKSVIIIGAGPAGLAAARQLHNFGIKVTVLEAKDRIGGRVWDDKSFKGVTVGRGAQIVNGCINNPVALMCEQLGISMHKFGERCDLIQEGGRITDPTIDKRMDFHFNALLDVVSEWRKDKTQLQDVPLGEKIEEIYKAFIKESGIQFSELEGQVLQFHLSNLEYACGSNLHQVSARSWDHNEFFAQFAGDHTLLTPGYSVIIEKLAEGLDIQLKSPVQCIDYSGDEVQVTTTDGTGYSAQKVLVTVPLALLQKGAIQFNPPLSEKKMKAINSLGAGIIEKIALQFPYRFWDSKVQGADFFGHVPPSASKRGLFAVFYDMDPQKKHSVLMSVIAGEAVASVRTLDDKQVLQQCMATLRELFKEQEVPDPTKYFVTRWSTDPWIQMAYSFVKTGGSGEAYDIIAEDIQGTVFFAGEATNRHFPQTVTGAYLSGVREASKIAAF 4gu1-a3-m1-cA_4gu1-a3-m1-cB Crystal structure of LSD2 Q8NB78 Q8NB78 2.939 X-RAY DIFFRACTION 163 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 746 746 PLGSEFKGLRRRRKCEKAGCTATCPVCFASASERCAKNGYTSRWYHLSCGEHFCNECFDHYYRSHKDGYDKYTTWKKIWTSNGKTEPSPKAFMADQQLPYWVQCTKPECRKWRQLTKEIQLTPQIAKTYRCGMKTSDHCSLPEDLRVLEVSNHWWYSMLILPPLLKDSVAAPLLSAYYPDCVGMSPSCGMNRYFQPFYQPNECGKALCVRPDVMELDELYEFPEYSRDPTMYLALRNLILALWYTNCKEALTPQKCIPHIIVRGLVRIRCVQEVERILYFMTRKGLINTGVLSVGADQYLLPKDYHNKSVIIIGAGPAGLAAARQLHNFGIKVTVLEAKDRIGGRVWDDKSFKGVTVGRGAQIVNGCINNPVALMCEQLGISMHKFGERCDLIQEGGRITDPTIDKRMDFHFNALLDVVSEWRKDKTQLQDVPLGEKIEEIYKAFIKESGIQFSELEGQVLQFHLSNLEYACGSNLHQVSARSWDHNEFFAQFAGDHTLLTPGYSVIIEKLAEGLDIQLKSPVQCIDYSGDEVQVTTTDGTGYSAQKVLVTVPLALLQKGAIQFNPPLSEKKMKAINSLGAGIIEKIALQFPYRFWDSKVQGADFFGHVPPSASKRGLFAVFYDMDPQKKHSVLMSVIAGEAVASVRTLDDKQVLQQCMATLRELFKEQEVPDPTKYFVTRWSTDPWIQMAYSFVKTGGSGEAYDIIAEDIQGTVFFAGEATNRHFPQTVTGAYLSGVREASKIAA PLGSEFKGLRRRRKCEKAGCTATCPVCFASASERCAKNGYTSRWYHLSCGEHFCNECFDHYYRSHKDGYDKYTTWKKIWTSNGKTEPSPKAFMADQQLPYWVQCTKPECRKWRQLTKEIQLTPQIAKTYRCGMKTSDHCSLPEDLRVLEVSNHWWYSMLILPPLLKDSVAAPLLSAYYPDCVGMSPSCGMNRYFQPFYQPNECGKALCVRPDVMELDELYEFPEYSRDPTMYLALRNLILALWYTNCKEALTPQKCIPHIIVRGLVRIRCVQEVERILYFMTRKGLINTGVLSVGADQYLLPKDYHNKSVIIIGAGPAGLAAARQLHNFGIKVTVLEAKDRIGGRVWDDKSFKGVTVGRGAQIVNGCINNPVALMCEQLGISMHKFGERCDLIQEGGRITDPTIDKRMDFHFNALLDVVSEWRKDKTQLQDVPLGEKIEEIYKAFIKESGIQFSELEGQVLQFHLSNLEYACGSNLHQVSARSWDHNEFFAQFAGDHTLLTPGYSVIIEKLAEGLDIQLKSPVQCIDYSGDEVQVTTTDGTGYSAQKVLVTVPLALLQKGAIQFNPPLSEKKMKAINSLGAGIIEKIALQFPYRFWDSKVQGADFFGHVPPSASKRGLFAVFYDMDPQKKHSVLMSVIAGEAVASVRTLDDKQVLQQCMATLRELFKEQEVPDPTKYFVTRWSTDPWIQMAYSFVKTGGSGEAYDIIAEDIQGTVFFAGEATNRHFPQTVTGAYLSGVREASKIAA 4gu6-a1-m1-cB_4gu6-a1-m1-cA FOCAL ADHESION KINASE CATALYTIC DOMAIN IN COMPLEX WITH N-{3-[(5-Cyano-2-phenyl-1H-pyrrolo[2,3-b]pyridin-4-ylamino)- methyl]-pyridin-2-yl}-N-methyl-methanesulfonamide Q05397 Q05397 1.95 X-RAY DIFFRACTION 26 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 258 271 4k8a-a1-m1-cA_4k8a-a1-m1-cB YEIQRERIELGRCIGEGQFGDVHQGIYMSPENPALAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKYSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKAQ DYEIQRERIELGRCIGEGQFGDVHQGIYMSNPALAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKYSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSSNDCVKLGDFGLSRYMEDSTYYKASKGKLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKAQ 4guz-a7-m1-cC_4guz-a7-m3-cC Structure of the arylamine N-acetyltransferase from Mycobacterium abscessus B1ME52 B1ME52 1.8 X-RAY DIFFRACTION 61 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 284 284 4guz-a5-m1-cA_4guz-a5-m1-cD 4guz-a6-m1-cB_4guz-a6-m2-cB VPRGSHMWNGDELQLDEYLAFIGFDGDRSPTLETLRRLQRGHVLNIKWENLDAVLHKHVALDIPAVQAKLLRSPRGGYCYEHVALFGAVLQRLGFDFYGIQGRVQMGATTIRPATHGMLVVRLAAEQWLCDVGFGTSPLAPIRLVDEAVVADESWTYRLRRGEVTPGADGWTLSEAAGDGSEPGWLSRHTFVLEPQYPIDYRAASYFVASSPHSPFSTRAFVQQISPDHAYILDHRELHEIQPGVGRKTRQLTPAEVLATLREIFGIELGADDSTLLLERLAEQ VPRGSHMWNGDELQLDEYLAFIGFDGDRSPTLETLRRLQRGHVLNIKWENLDAVLHKHVALDIPAVQAKLLRSPRGGYCYEHVALFGAVLQRLGFDFYGIQGRVQMGATTIRPATHGMLVVRLAAEQWLCDVGFGTSPLAPIRLVDEAVVADESWTYRLRRGEVTPGADGWTLSEAAGDGSEPGWLSRHTFVLEPQYPIDYRAASYFVASSPHSPFSTRAFVQQISPDHAYILDHRELHEIQPGVGRKTRQLTPAEVLATLREIFGIELGADDSTLLLERLAEQ 4gv5-a2-m2-cA_4gv5-a2-m2-cB X-ray structure of crotamine, a cell-penetrating peptide from the Brazilian snake Crotalus durissus terrificus Q9PWF3 Q9PWF3 1.7 X-RAY DIFFRACTION 20 1.0 8732 (Crotalus durissus terrificus) 8732 (Crotalus durissus terrificus) 42 42 4gv5-a1-m1-cA_4gv5-a1-m1-cB 4gv5-a2-m1-cA_4gv5-a2-m1-cB 4gv5-a2-m1-cC_4gv5-a2-m2-cC YKQCHKKGGHCFPKEKICLPPSSDFGKMDCRWRWKCCKKGSG YKQCHKKGGHCFPKEKICLPPSSDFGKMDCRWRWKCCKKGSG 4gvr-a1-m1-cB_4gvr-a1-m1-cC X-ray structure of the Archaeoglobus fulgidus methenyl-tetrahydromethanopterin cyclohydrolase O28344 O28344 1.52 X-RAY DIFFRACTION 96 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 315 315 4gvq-a1-m1-cA_4gvq-a1-m1-cB 4gvq-a1-m1-cA_4gvq-a1-m1-cC 4gvq-a1-m1-cB_4gvq-a1-m1-cC 4gvr-a1-m1-cA_4gvr-a1-m1-cB 4gvr-a1-m1-cA_4gvr-a1-m1-cC 4gvs-a1-m1-cA_4gvs-a1-m1-cB 4gvs-a1-m1-cA_4gvs-a1-m1-cC 4gvs-a1-m1-cB_4gvs-a1-m1-cC MLSVNEIAAEIVEDMLDYEEELRIESKKLENGAIVVDCGVNVPGSYDAGIMYTQVCMGGLADVDIVVDTINDVPFAFVTEYTDHPAIACLGSQKAGWQIKVDKYFAMGSGPARALALKPKKTYERIEYEDDADVAVIALEANQLPDEKVMEFIAKECDVDPENVYALVAPTASIVGSVQISGRIVQTAIFKMNEIGYDPKLIVSGAGRCPISPILENDLKAMGSTNDSMMYYGSVFLTVKKYDEILKNVPSCTSRDYGKPFYEIFKAANYDFYKIDPNLFAPAQIAVNDLETGKTYVHGKLNAEVLFQSYQIVLE MLSVNEIAAEIVEDMLDYEEELRIESKKLENGAIVVDCGVNVPGSYDAGIMYTQVCMGGLADVDIVVDTINDVPFAFVTEYTDHPAIACLGSQKAGWQIKVDKYFAMGSGPARALALKPKKTYERIEYEDDADVAVIALEANQLPDEKVMEFIAKECDVDPENVYALVAPTASIVGSVQISGRIVQTAIFKMNEIGYDPKLIVSGAGRCPISPILENDLKAMGSTNDSMMYYGSVFLTVKKYDEILKNVPSCTSRDYGKPFYEIFKAANYDFYKIDPNLFAPAQIAVNDLETGKTYVHGKLNAEVLFQSYQIVLE 4gw9-a2-m1-cB_4gw9-a2-m1-cC Structure of a bacteriophytochrome and light-stimulated protomer swapping with a gene repressor B3Q7C0 B3Q7C0 2.9 X-RAY DIFFRACTION 113 0.998 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 608 609 4gw9-a1-m1-cD_4gw9-a1-m1-cA GSPAFGTADLSNCEREEIHLAGSIQPHGALLVVSEPDHRIIQASANAAEFLNLGSVLGVPLAEIDGDLLIKILPHLDPTAEGPVAVRCRIGNPSTEYDGLHRPPEGGLIIELERAGPPIDLSGTLAPALERIRTAGSLRALCDDTALLFQQCTGYDRVVYRFDEQGHGEVFSERHVPGLESYFGNRYPSSDIPQARRLYERQRVRVLVDVSYQPVPLEPRLSPLTGRDLDSGCFLRSSPIHLQYLKNGVRATLVVSLVVGGKLWGLVACHHYLPRFIHFELRAICELLAEAIATRITALESFAQSQSELFVQRLEQRIEAITREGDWRAAIFDTSQSILQPLHADGCALVYEDQIRTIGDVPSTQDVREIAGWLDRQPRAAVTSTASLGLDVPELAHLTRASGVVAAPISDHRGEFLWFRPERVHTVTWGGDPKDTPADLSPRRSFAKWHQVVEGTSDPWTAADLAAARTIGQTVADIVLQFRAVRTLIAREQYEQFSSQVHASQPVLITDAEGRILLNDSFRDLPAGSPSAVHLDDLAGFFVESNDFLRNVAELIDHGRGWRGEVLLRGAGNRPLPLAVRADPVTRTEDQSLGFVLIFSDATDRRTA GSPAFGTADLSNCEREEIHLAGSIQPHGALLVVSEPDHRIIQASANAAEFLNLGSVLGVPLAEIDGDLLIKILPHLDPTAEGPVAVRCRIGNPSTEYDGLHRPPEGGLIIELERAGPPIDLSGTLAPALERIRTAGSLRALCDDTALLFQQCTGYDRVVYRFDEQGHGEVFSERHVPGLESYFGNRYPSSDIPQARRLYERQRVRVLVDVSYQPVPLEPRLSPLTGRDLDSGCFLRSSPIHLQYLKNGVRATLVVSLVVGGKLWGLVACHHYLPRFIHFELRAICELLAEAIATRITALESFAQSQSELFVQRLEQRIEAITREGDWRAAIFDTSQSILQPLHADGCALVYEDQIRTIGDVPSTQDVREIAGWLDRQPRAAVTSTASLGLDVPELAHLTRASGVVAAPISDHRGEFLWFRPERVHTVTWGGDPKKGDTPADLSPRRSFAKWHQVVEGTSDPWTAADLAAARTIGQTVADIVLQFRAVRTLIAREQYEQFSSQVHASQPVLITDAEGRILLNDSFRDLPAGSPSAVHLDDLAGFFVESNDFLRNVAELIDHGRGWRGEVLLRGAGNRPLPLAVRADPVTRTEDQSLGFVLIFSDATDRRT 4gwb-a1-m1-cA_4gwb-a1-m2-cA Crystal structure of putative Peptide methionine sulfoxide reductase from Sinorhizobium meliloti 1021 Q92Y45 Q92Y45 1.2 X-RAY DIFFRACTION 28 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 163 163 TKRAVLAGGCFWGQDLIRKLPGVIETRVGYTGGDVPNATYRNHGTHAEGIEIIFDPERISYRRILELFFQIHDPTTKDRQGNDIGTSYRSAIYYVDDEQKRIAQETIADVEASGLWPGKVVTEVEPVRDFWEAEPEHQNYLERYPNGYTCHFPRPNWVLPRRS TKRAVLAGGCFWGQDLIRKLPGVIETRVGYTGGDVPNATYRNHGTHAEGIEIIFDPERISYRRILELFFQIHDPTTKDRQGNDIGTSYRSAIYYVDDEQKRIAQETIADVEASGLWPGKVVTEVEPVRDFWEAEPEHQNYLERYPNGYTCHFPRPNWVLPRRS 4gy7-a1-m2-cA_4gy7-a1-m3-cA Crystallographic structure analysis of urease from Jack bean (Canavalia ensiformis) at 1.49 A Resolution P07374 P07374 1.492 X-RAY DIFFRACTION 378 1.0 3823 (Canavalia ensiformis) 3823 (Canavalia ensiformis) 827 827 3la4-a1-m1-cA_3la4-a1-m2-cA 3la4-a1-m1-cA_3la4-a1-m3-cA 3la4-a1-m2-cA_3la4-a1-m3-cA 3la4-a1-m4-cA_3la4-a1-m5-cA 3la4-a1-m4-cA_3la4-a1-m6-cA 3la4-a1-m5-cA_3la4-a1-m6-cA 4goa-a1-m1-cA_4goa-a1-m2-cA 4goa-a1-m1-cA_4goa-a1-m3-cA 4goa-a1-m2-cA_4goa-a1-m3-cA 4goa-a1-m4-cA_4goa-a1-m5-cA 4goa-a1-m4-cA_4goa-a1-m6-cA 4goa-a1-m5-cA_4goa-a1-m6-cA 4gy7-a1-m1-cA_4gy7-a1-m2-cA 4gy7-a1-m1-cA_4gy7-a1-m3-cA 4h9m-a1-m1-cA_4h9m-a1-m2-cA 4h9m-a1-m1-cA_4h9m-a1-m3-cA 4h9m-a1-m2-cA_4h9m-a1-m3-cA 7kns-a1-m1-cA_7kns-a1-m1-cB 7kns-a1-m1-cA_7kns-a1-m1-cC 7kns-a1-m1-cB_7kns-a1-m1-cC 7kns-a1-m1-cD_7kns-a1-m1-cE 7kns-a1-m1-cD_7kns-a1-m1-cF 7kns-a1-m1-cE_7kns-a1-m1-cF MKLSPREVEKLGLHNAGYLAQKRLARGVRLNYTEAVALIASQIMEYARDGEKTVAQLMLGQHLLGRRQVLPAVPHLLNAVQVEATFPDGTKLVTVHDPISRENGELQEALFGSLLPVPSLDKFAENRIPGEILEDELTLNIGRKAVILKVTSKGDRPIQVGSHYHFIEVNPYLTFDRRKAYGMRLNIAAGTAVRFEPGDKSVTLVSIEGNKVIRGGNAIADGPVNETNLEAAMHAVRSGFGHEEEKDASEGFTKEDPNPFNTFIHRKEYANKYGPTTGDKIRLGDTNLLAEIEKDYALYGDECVFGGGKVIRDGMGQSGHPPAISLDTVITNAVIIDYTGIIKADIGIKDGLIASIGKAGNPDIMNGVFSNMIIGANTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAISSGITTLVGGGTGPAAGTRATTCTPSPTQMRLMLQSTDDLPLNFGFTGKGSSSKPDELHEIIKAGAMGLLHEDWGSTPAAIDNCLTIAEHHDIQINIHTDTLNEAGFVEHSIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGIKNVLPSSTNPTRPLTSNTIDEHLDMLMVHHLDREIPEDLAFAHSRIRKKTIAAEDVLNDIGAISIISSDSQAMGRVGEVISRTWQTADKMKAQTGPLKCDSSDNDNFRIRRYIAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGTKPEMVIKGGMVAWADIGDPNASIPTPEPVKMRPMYGTLGKAGGALSIAFVSKAALDQRVNVLYGLNKRVEAVSNVRKLTKLDMKLNDALPEITVDPESYTVKADGKLLCVSEATTVPLSRNYFLF MKLSPREVEKLGLHNAGYLAQKRLARGVRLNYTEAVALIASQIMEYARDGEKTVAQLMLGQHLLGRRQVLPAVPHLLNAVQVEATFPDGTKLVTVHDPISRENGELQEALFGSLLPVPSLDKFAENRIPGEILEDELTLNIGRKAVILKVTSKGDRPIQVGSHYHFIEVNPYLTFDRRKAYGMRLNIAAGTAVRFEPGDKSVTLVSIEGNKVIRGGNAIADGPVNETNLEAAMHAVRSGFGHEEEKDASEGFTKEDPNPFNTFIHRKEYANKYGPTTGDKIRLGDTNLLAEIEKDYALYGDECVFGGGKVIRDGMGQSGHPPAISLDTVITNAVIIDYTGIIKADIGIKDGLIASIGKAGNPDIMNGVFSNMIIGANTEVIAGEGLIVTAGAIDCHVHYICPQLVYEAISSGITTLVGGGTGPAAGTRATTCTPSPTQMRLMLQSTDDLPLNFGFTGKGSSSKPDELHEIIKAGAMGLLHEDWGSTPAAIDNCLTIAEHHDIQINIHTDTLNEAGFVEHSIAAFKGRTIHTYHSEGAGGGHAPDIIKVCGIKNVLPSSTNPTRPLTSNTIDEHLDMLMVHHLDREIPEDLAFAHSRIRKKTIAAEDVLNDIGAISIISSDSQAMGRVGEVISRTWQTADKMKAQTGPLKCDSSDNDNFRIRRYIAKYTINPAIANGFSQYVGSVEVGKLADLVMWKPSFFGTKPEMVIKGGMVAWADIGDPNASIPTPEPVKMRPMYGTLGKAGGALSIAFVSKAALDQRVNVLYGLNKRVEAVSNVRKLTKLDMKLNDALPEITVDPESYTVKADGKLLCVSEATTVPLSRNYFLF 4gyo-a1-m1-cA_4gyo-a1-m2-cB Crystal Structure of Rap Protein Complexed with Competence and Sporulation Factor O34327 O34327 2.16 X-RAY DIFFRACTION 55 0.997 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 357 359 PSEEVAVKLNEWYKLIRAFEADQAEALKQEIEYDLEDMEENQDLLLYFSLMEFRHRIMLDKLMPVKPFSDMLNEIESNLTGLLEYYFYYFRGMYEFKQKNFILAIDHYKHAEEKLEYVEDEIEKAEFLFKVAEVYYHIKQTYFSMNYASQALDIYTKYELYGRRRVQCEFIIAGNLTDVYHHEKALTHLCSALEHARQLEEAYMIAAAYYNVGHCKYSLGDYKEAEGYFKTAAAIFEEHNFQQAVQAVFSLTHIYCKEGKYDKAVEAYDRGIKSAAEWEDDMYLTKFRLIHELYLGSGDLNVLTECFDLLESRQLLADAEDLLHDTAERFNQLEHYESAAFFYRRLMNIKKKLAEQR SEEVAVKLNEWYKLIRAFEADQAEALKQEIEYDLEDMEENQDLLLYFSLMEFRHRIMLDKLMPVKPFSDMLNEIESNQQKLTGLLEYYFYYFRGMYEFKQKNFILAIDHYKHAEEKLEYVEDEIEKAEFLFKVAEVYYHIKQTYFSMNYASQALDIYTKYELYGRRRVQCEFIIAGNLTDVYHHEKALTHLCSALEHARQLEEAYMIAAAYYNVGHCKYSLGDYKEAEGYFKTAAAIFEEHNFQQAVQAVFSLTHIYCKEGKYDKAVEAYDRGIKSAAEWEDDMYLTKFRLIHELYLGSGDLNVLTECFDLLESRQLLADAEDLLHDTAERFNQLEHYESAAFFYRRLMNIKKKLAEQR 4gys-a1-m1-cA_4gys-a1-m1-cB Granulibacter bethesdensis allophanate hydrolase co-crystallized with malonate Q0BRB0 Q0BRB0 2.201 X-RAY DIFFRACTION 81 1.0 391165 (Granulibacter bethesdensis CGDNIH1) 391165 (Granulibacter bethesdensis CGDNIH1) 460 461 4gyr-a1-m1-cB_4gyr-a1-m2-cA LSMTLEGIQAFLAQGGTIEQVVTEAYDRITRYGDKAVWIALRPREEVLAEARALDASPATGKPLYGVPFAVKDNIDVAGLPCSAACPAFTYEPDRDATVVARLRAAGAIVLGKTNLDQFATGLVGTRSPFGAPRCVFDQDYISGGSSSGSAVAVAAGLVAFSLGTDTAGSGRVPAAFNNLVGVKPTKGLLSTSGVVPACRSLDCVTVFAASVAEGTLIRRIAEGYDAADPYSRPSQKRRLPHVGLRVGVPRQDQREFYGNTAYAALYQRALDEMISLDAELVEIDFAPFRDAAKLLYGGPWVAERLEAVGDHLSRAPDSFDPVVRSIVETAKTLSAVDAFRGQYELAALTQQANAQWARMDILLLPTAPTIHKVEAVMADPVRLNSQLGHYTNFVNLLDCAAIAVPAGFIETGLPFGVTLVGPAFSDDSMALIADRLHRRLEPGYGQDRASLPDPVLEET LSMTLEGIQAFLAQGGTIEQVVTEAYDRITRYGDKAVWIALRPREEVLAEARALDASPATGKPLYGVPFAVKDNIDVAGLPCSAACPAFTYEPDRDATVVARLRAAGAIVLGKTNLDQFATGLVGTRSPFGAPRCVFDQDYISGGSSSGSAVAVAAGLVAFSLGTDTAGSGRVPAAFNNLVGVKPTKGLLSTSGVVPACRSLDCVTVFAASVAEGTLIRRIAEGYDAADPYSRPSQKRRLPHVGLRVGVPRQDQREFYGNTAYAALYQRALDEMISLDAELVEIDFAPFRDAAKLLYGGPWVAERLEAVGDHLSRAPDSFDPVVRSIVETAKTLSAVDAFRGQYELAALTQQANAQWARMDILLLPTAPTIHKVEAVMADPVRLNSQLGHYTNFVNLLDCAAIAVPAGFIETGLPFGVTLVGPAFSDDSMALIADRLHRRLEPGYGQDRASLPDPVLEETN 4gyt-a1-m1-cA_4gyt-a1-m2-cB Crystal structure of lpg0076 protein from Legionella pneumophila Q5ZZD5 Q5ZZD5 2.047 X-RAY DIFFRACTION 29 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 177 177 SLHLPKYDDFVQSISVLALTMSGSELHGIMCGYLCAGADSQGEAYIRALLNNKKDEQSRNALLSMFSVFSISQQQMNNFDFEFEMLLPDDDESLVTRAQAFSEWCEGFTQGLTIAGVGMEQFYEEESQDALQHLMEFAELDCESLEVGEEDERALMEVSEYTRMAVLRLHSDLVLHE SLHLPKYDDFVQSISVLALTMSGSELHGIMCGYLCAGADSQGEAYIRALLNNKKDEQSRNALLSMFSVFSISQQQMNNFDFEFEMLLPDDDESLVTRAQAFSEWCEGFTQGLTIAGVGMEQFYEEESQDALQHLMEFAELDCESLEVGEEDERALMEVSEYTRMAVLRLHSDLVLHE 4gyx-a1-m1-cA_4gyx-a1-m1-cB The von Willebrand Factor A3 domain binding region of type III collagen stabilized by the cysteine knot P02461 P02461 1.49 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 22 4gyx-a1-m1-cC_4gyx-a1-m1-cA 4gyx-a1-m1-cC_4gyx-a1-m1-cB GPGPGPRGQGVMGFGPGPGPCC GPGPGPRGQGVMGFGPGPGPCC 4gz9-a2-m1-cA_4gz9-a2-m2-cA Mouse Neuropilin-1, extracellular domains 1-4 (a1a2b1b2) P97333 P97333 2.7 X-RAY DIFFRACTION 105 1.0 10090 (Mus musculus) 10090 (Mus musculus) 562 562 DKCGGTIKIENPGYLTSPGYPHSYHPSEKCEWLIQAPEPYQRIMINFNPHFDLEDRDCKYDYVEVIDGENEGGRLWGKFCGKIAPSPVVSSGPFLFIKFVSDYETHGAGFSIRYEIFKRGPECSQNYTAPTGVIKSPGFPEKYPNSLECTYIIFAPKMSEIILEFESFDLEQDSNPPGGMFCRYDRLEIWDGFPEVGPHIGRYCGQKTPGRIRSSSGVLSMVFYTDSAIAKEGFSANYSVLQSSISEDFKCMEALGMESGEIHSDQITASSQYGTNWSVERSRLNYPENGWTPGEDSYKEWIQVDLGLLRFVTAVGTQGAISKETKKKYYVKTYRVDISSNGEDWISLKEGNKAIIFQGNTNPTDVVLGVFSKPLITRFVRIKPVSWETGISMRFEVYGCKITDYPCSGMLGMVSGLISDSQITASNQADRNWMPENIRLVTSRTGWALPPSPHPYTNEWLQVDLGDEKIVRGVIIQGGKHRENKVFMRKFKIAYSNNGSDWKTIMDDSKRKAKSFEGNNNYDTPELRTFSPLSTRFIRIYPERATHSGLGLRMELLGCEVE DKCGGTIKIENPGYLTSPGYPHSYHPSEKCEWLIQAPEPYQRIMINFNPHFDLEDRDCKYDYVEVIDGENEGGRLWGKFCGKIAPSPVVSSGPFLFIKFVSDYETHGAGFSIRYEIFKRGPECSQNYTAPTGVIKSPGFPEKYPNSLECTYIIFAPKMSEIILEFESFDLEQDSNPPGGMFCRYDRLEIWDGFPEVGPHIGRYCGQKTPGRIRSSSGVLSMVFYTDSAIAKEGFSANYSVLQSSISEDFKCMEALGMESGEIHSDQITASSQYGTNWSVERSRLNYPENGWTPGEDSYKEWIQVDLGLLRFVTAVGTQGAISKETKKKYYVKTYRVDISSNGEDWISLKEGNKAIIFQGNTNPTDVVLGVFSKPLITRFVRIKPVSWETGISMRFEVYGCKITDYPCSGMLGMVSGLISDSQITASNQADRNWMPENIRLVTSRTGWALPPSPHPYTNEWLQVDLGDEKIVRGVIIQGGKHRENKVFMRKFKIAYSNNGSDWKTIMDDSKRKAKSFEGNNNYDTPELRTFSPLSTRFIRIYPERATHSGLGLRMELLGCEVE 4gze-a3-m1-cE_4gze-a3-m1-cF Crystal structure of 6-phospho-beta-glucosidase from Lactobacillus plantarum (apo form) F9UU25 F9UU25 2.31 X-RAY DIFFRACTION 118 0.998 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 454 456 3qom-a1-m1-cA_3qom-a1-m2-cA 4gze-a1-m1-cB_4gze-a1-m1-cA 4gze-a2-m1-cC_4gze-a2-m1-cD TIKGRAFPEGFLWGGAVAAHQLEGGYKEGGKGLSTADITLREITDGVVAGKYYPNHQAIDFYHRYPEDIELFAEGFKCFRTSIAWTRIFPNGDESEPNEAGLQFYDDLFDECLKNGIQPVVTLAHFEPYHLVKQYGGWRNRKLIQFYLNFAKVCFERYRDKVTYWTFNEINNQTNFESDGALTDSGIIHQPGENRERWYQAAHYELVASAAAVQLGHQINPDFQIGCIACPIYPLTAAPADVLFAQRAQTRFYFADVHCNGTYPQWLRNRFESEHFNLDITAEDLKILQAGTVDYIGFSYYSFTVKDTGKLAYNEEHDLVKNPYVKAQVDPVGLRYANWFTDRYHLPLFIVENGLGAIDKKTADNQIHDDYRIDYLTDHLRQIKLAVLEDGVDLIGYTPWGCIDLVAASTGQSKRYGFIYVDENDDGSGSLKRYKKDSFTWFQHVIATNGAEIE TIKGRAFPEGFLWGGAVAAHQLEGGYKEGGKGLSTADITLGTPREITDGVVAGKYYPNHQAIDFYHRYPEDIELFAEGFKCFRTSIAWTRIFPNGDESEPNEAGLQFYDDLFDECLKNGIQPVVTLAHFEPYHLVKQYGGWRNRKLIQFYLNFAKVCFERYRDKVTYWTFNEINNQTNFESDGALTDSGIIHQPGENRERWYQAAHYELVASAAAVQLGHQINPDFQIGCIACPIYPLTAAPADVLFAQRAQTRFYFADVHCNGTYPQWLRNRFESEHFNLDITAEDLKILQAGTVDYIGFSYYSFTVKDTGKLAYNEEHDLVKNPYVKQVDPVGLRYANWFTDRYHLPLFIVENGLGAIDKKTADNQIHDDYRIDYLTDHLRQIKLAVLEDGVDLIGYTPWGCIDLVAASTGQSKRYGFIYVDENDDGSGSLKRYKKDSFTWFQHVIATNGAEIE 4gzv-a1-m1-cD_4gzv-a1-m1-cC Crystal structure of a lipocalin family protein (BACOVA_00364) from Bacteroides ovatus ATCC 8483 at 1.95 A resolution A7LRD6 A7LRD6 1.95 X-RAY DIFFRACTION 47 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 131 134 4gzv-a1-m1-cB_4gzv-a1-m1-cA 4gzv-a2-m1-cF_4gzv-a2-m1-cG 4gzv-a2-m1-cH_4gzv-a2-m1-cE ADLKGIWQLCHYVSESPDVPGALKPSNTFKVLSDDGRIVNFTIIPGADAIITGYGTYKQLTDDSYKESIEKNIHLPLDNQDNILEFEIKDNDYLHLKYFIKSDLNGNELNTWYYETWKRVEPAKFPEDIVR FKAADLKGIWQLCHYVSESPDVPGALKPSNTFKVLSDDGRIVNFTIIPGADAIITGYGTYKQLTDDSYKESIEKNIHLPLDNQDNILEFEIKDNDYLHLKYFIKSDLNGNELNTWYYETWKRVEPAKFPEDIVR 4gzv-a2-m1-cG_4gzv-a2-m1-cE Crystal structure of a lipocalin family protein (BACOVA_00364) from Bacteroides ovatus ATCC 8483 at 1.95 A resolution A7LRD6 A7LRD6 1.95 X-RAY DIFFRACTION 105 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 134 139 4gzv-a1-m1-cB_4gzv-a1-m1-cD 4gzv-a1-m1-cC_4gzv-a1-m1-cA 4gzv-a2-m1-cH_4gzv-a2-m1-cF FKAADLKGIWQLCHYVSESPDVPGALKPSNTFKVLSDDGRIVNFTIIPGADAIITGYGTYKQLTDDSYKESIEKNIHLPLDNQDNILEFEIKDNDYLHLKYFIKSDLNGNELNTWYYETWKRVEPAKFPEDIVR QKKTKFKAADLKGIWQLCHYVSESPDVPGALKPSNTFKVLSDDGRIVNFTIIPGADAIITGYGTYKQLTDDSYKESIEKNIHLPLDNQDNILEFEIKDNDYLHLKYFIKSDLNGNELNTWYYETWKRVEPAKFPEDIVR 4h08-a1-m1-cA_4h08-a1-m2-cA Crystal structure of a putative hydrolase (BT3161) from Bacteroides thetaiotaomicron VPI-5482 at 1.80 A resolution Q8A2Z4 Q8A2Z4 1.8 X-RAY DIFFRACTION 78 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 199 199 GREYIEWSDIWIPGANKTDLPHVLLIGNSITRGYYGKVEAALKEKAYVGRLSNSKSVGDPALIEELAVVLKNTKFDVIHFNNGLHGFDYTEEEYDKSFPKLIKIIRKYAPKAKLIWANTTPVRTGEGKEFAPITERLNVRNQIALKHINRASIEVNDLWKVVIDHPEYYAGGDGTHPIDAGYSALANQVIKVIKNVLVH GREYIEWSDIWIPGANKTDLPHVLLIGNSITRGYYGKVEAALKEKAYVGRLSNSKSVGDPALIEELAVVLKNTKFDVIHFNNGLHGFDYTEEEYDKSFPKLIKIIRKYAPKAKLIWANTTPVRTGEGKEFAPITERLNVRNQIALKHINRASIEVNDLWKVVIDHPEYYAGGDGTHPIDAGYSALANQVIKVIKNVLVH 4h0p-a1-m1-cB_4h0p-a1-m1-cA Crystal Structure of Acetate Kinase from Cryptococcus neoformans J9W3A6 J9W3A6 1.894 X-RAY DIFFRACTION 224 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 430 431 AEYLLAINCGSSSIKGKLFAIPSFELLANLAVTNISSSDERVKIKTTWEEGKGKDSEEEADYGDKIRYASLVPILLDHLTNSTHVKKEEIKYVCHRVVHGGMHDKGIRVVKGHEEGLMEMDKLSEFAPLHNHRAVLAVKSCIDALPHHTSLLLFDTIFHRTIAPEVYTYALPPPDTELTMPLRKYGFHGLSYASIVQSLAEHLKKPSDQINVVVAHLGSGSSSCCIKNGKSIDTSMGLTPLEGLLGGTRSGTIDPTAIFHHTEDAASDANVGDFTVSKAEIILNKNSGFKALAGTTNFGHIIQNLDPSKCSEEDHEKAKLTYAVFLDRLLNFVAQYLFKLLSEVPIESIDGLVFSGGIGEKGAELRRDVLKKLAWLGAEVDEEANNSNSGGAVKCITKEGSKLKGWVVETDEEGWMARMAKEEFGFLEHH AEYLLAINCGSSSIKGKLFAIPSFELLANLAVTNISSSDERVKIKTTWEEGKGKDSEEEADYGDKIRYASLVPILLDHLTNSTHVKKEEIKYVCHRVVHGGMHDKGIRVVKGHEEGLMEMDKLSEFAPLHNHRAVLAVKSCIDALPHHTSLLLFDTIFHRTIAPEVYTYALPPPDTELTMPLRKYGFHGLSYASIVQSLAEHLKKPSDQINVVVAHLGSGSSSCCIKNGKSIDTSMGLTPLEGLLGGTRSGTIDPTAIFHHTEDAASDANVGDFTVSKAEIILNKNSGFKALAGTTNFGHIIQNLDPSKCSEEDHEKAKLTYAVFLDRLLNFVAQYLFKLLSEVPIESIDGLVFSGGIGEKGAELRRDVLKKLAWLGAEVDEEANNSNSGGAVKCITKEGSKLKGWVVETDEEGWMARMAKEEFGFLEHHH 4h0u-a2-m1-cC_4h0u-a2-m1-cD Crystal structure of thymidylate synthase from Corynebacterium glutamicum in complex with dUMP Q8NS38 Q8NS38 2.75 X-RAY DIFFRACTION 111 0.996 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 254 254 4h0r-a1-m1-cA_4h0r-a1-m1-cB 4h0u-a1-m1-cB_4h0u-a1-m1-cA MTVPTPYEDLLRKIAEEGSHKGTTSLFGQQIRFDLNEGFPLLTTKKVHFHSVVGELLWFLQGDSNVKWLQDNNIRIWNEWADEDGELGPVYGVQWRSWPTPDGRHIDQISGALETLRNNPDSRRNIVSAWNVSELENMALPPCHLLFQLYVADGKLSCQLYQRSADMFLGVPFNIASYALLTHMFAQQAGLEVGEFIWTGGDCHIYDNHKEQVAEQLSREARPYPTLELNKAASMFEYSFDDITVSGYDPHPLI TVPTPYEDLLRKIAEEGSHKDGTTSLFGQQIRFDLNEGFPLLTTKKVHFHSVVGELLWFLQGDSNVKWLQDNNIRIWNEWADEDGELGPVYGVQWRSWPTPDGRHIDQISGALETLRNNPDSRRNIVSAWNVSELENMALPPCHLLFQLYVADGKLSCQLYQRSADMFLGVPFNIASYALLTHMFAQQAGLEVGEFIWTGGDCHIYDNHKEQVAEQLSREARPYPTLELNKAASMFEYSFDDITVSGYDPHPLI 4h11-a3-m1-cB_4h11-a3-m2-cA Interaction partners of PSD-93 studied by X-ray crystallography and fluorescent polarization spectroscopy Q63622 Q63622 1.67 X-RAY DIFFRACTION 37 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 102 102 SPEFEFEEITLERGNSGLGFSIAGGTDNPHIGDDPGIFITKIIPGGAAAEDGRLRVNDCILRVNEVDVSEVSHSKAVEALKEAGSIVRLYVRRRRPILGTSI SPEFEFEEITLERGNSGLGFSIAGGTDNPHIGDDPGIFITKIIPGGAAAEDGRLRVNDCILRVNEVDVSEVSHSKAVEALKEAGSIVRLYVRRRRPILGTSI 4h17-a1-m1-cB_4h17-a1-m1-cA Crystal structure of an isochorismatase (PP1826) from Pseudomonas putida KT2440 at 1.60 A resolution Q88LV1 Q88LV1 1.6 X-RAY DIFFRACTION 119 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 188 190 VPTTFRLTGRDYPPAKLSHASLIIIDAQKEYLSGPLKLSGDEAVANIARLLDAARKSGRPIIHVRHLGTVGGRFDPQGPAGQFIPGLEPLEGEIVIEKRPNAFKNTKLHETLQELGHLDLIVCGFSHSSVSTTVRRAKDYGYRCTLVEDASATRDLAFKDGVIPAAQIHQCEAVADNFACVAPTASLI GSVPTTFRLTGRDYPPAKLSHASLIIIDAQKEYLSGPLKLSGDEAVANIARLLDAARKSGRPIIHVRHLGTVGGRFDPQGPAGQFIPGLEPLEGEIVIEKRPNAFKNTKLHETLQELGHLDLIVCGFSHSSVSTTVRRAKDYGYRCTLVEDASATRDLAFKDGVIPAAQIHQCEAVADNFACVAPTASLI 4h18-a7-m1-cD_4h18-a7-m3-cB Three dimensional structure of corynomycoloyl tranferase C Q8NTG4 Q8NTG4 1.755 X-RAY DIFFRACTION 54 0.987 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 306 310 4h18-a5-m2-cC_4h18-a5-m1-cA 4h18-a6-m1-cD_4h18-a6-m3-cB 4h18-a7-m2-cC_4h18-a7-m1-cA AEVTPADVAGDTALSTISDSAPADEASAPRWRAHVNAADERVKEMWAYSPSMDRNVPLVVITADESAGPRPVIYLLNGGDGGEGAANWVMQTDVLDFYLEKNVNVVIPMEGKFSYYTDWVEENASLGGKQMWETFLVKELPGPLEEKLNTDGQRAIAGMSMSATTSLLFPQHFPGFYDAAASFSGCAATSSLLPWEYLKLTLDRGNATPEQMWGPRGGEYNIYNDALINSDKLRGTELYVSNASGETVVTGGIIEAATNKCTHDLKAKLDSAGIPADWNLRPTHSWGWWQDDLRGSWTTFARAFEL AEVTPADVAGDTALSTISDSAPADEASAPRWRAHVNAADERVKEMWAYSPSMDRNVPLVVITADESAGPRPVIYLLNGGDGGEGAANWVMQTDVLDFYLEKNVNVVIPMEGKFSYYTDWVEENASLGGKQMWETFLVKELPGPLEEKLNTDGQRAIAGMSMSATTSLLFPQHFPGFYDAAASFSGCAATSSLLPWEYLKLTLDRGNATPEQMWGPRGGEYNIYNDALINSDKLRGTELYVSNASGLAGEWETGGIIEAATNKCTHDLKAKLDSAGIPADWNLRPTGTHSWGWWQDDLRGSWTTFARAFEL 4h18-a7-m2-cC_4h18-a7-m3-cB Three dimensional structure of corynomycoloyl tranferase C Q8NTG4 Q8NTG4 1.755 X-RAY DIFFRACTION 40 0.984 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 306 310 4h18-a7-m1-cD_4h18-a7-m1-cA AEVTPADVAGDTALSTISDSAPADEASAPRWRAHVNAADERVKEMWAYSPSMDRNVPLVVITADESAGPRPVIYLLNGGDGGEGAANWVMQTDVLDFYLEKNVNVVIPMEGKFSYYTDWVEENASLGGKQMWETFLVKELPGPLEEKLNTDGQRAIAGMSMSATTSLLFPQHFPGFYDAAASFSGCAATSSLLPWEYLKLTLDRGNATPEQMWGPRGGEYNIYNDALINSDKLRGTELYVSNASGETVVTGGIIEAATNKCTHDLKAKLDSAGIPADWNLRPHSWGWWQDDLRGSWTTFARAFELE AEVTPADVAGDTALSTISDSAPADEASAPRWRAHVNAADERVKEMWAYSPSMDRNVPLVVITADESAGPRPVIYLLNGGDGGEGAANWVMQTDVLDFYLEKNVNVVIPMEGKFSYYTDWVEENASLGGKQMWETFLVKELPGPLEEKLNTDGQRAIAGMSMSATTSLLFPQHFPGFYDAAASFSGCAATSSLLPWEYLKLTLDRGNATPEQMWGPRGGEYNIYNDALINSDKLRGTELYVSNASGLAGEWETGGIIEAATNKCTHDLKAKLDSAGIPADWNLRPTGTHSWGWWQDDLRGSWTTFARAFEL 4h22-a2-m1-cC_4h22-a2-m1-cD Crystal structure of the dimeric coiled-coil domain of the cytosolic nucleic acid sensor LRRFIP1 Q32MZ4 Q32MZ4 2.89 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 4h22-a1-m1-cA_4h22-a1-m1-cB KYKKAMVSNAQLDNEKTNFMYQVDTLKDMLLELEEQLAESRRQYEEKNKEFEREKHAHSILQFQFAEVKEALKQ KYKKAMVSNAQLDNEKTNFMYQVDTLKDMLLELEEQLAESRRQYEEKNKEFEREKHAHSILQFQFAEVKEALKQ 4h2l-a1-m1-cA_4h2l-a1-m2-cA Deer mouse hemoglobin in hydrated format A4ZQ95 A4ZQ95 1.779 X-RAY DIFFRACTION 14 1.0 10042 (Peromyscus maniculatus) 10042 (Peromyscus maniculatus) 141 141 3hrw-a1-m1-cA_3hrw-a1-m1-cC 5ker-a1-m1-cA_5ker-a1-m1-cC VLSADDKANIKAAWGKIGGHGAEYGAEALERMFCSFPTTKTYFPHFDVSHGSAQVKAHGGKVADALATAAGHLDDLPAALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPSDFTPAVHASLDKFLASVSTVLTSKYR VLSADDKANIKAAWGKIGGHGAEYGAEALERMFCSFPTTKTYFPHFDVSHGSAQVKAHGGKVADALATAAGHLDDLPAALSALSDLHAHKLRVDPVNFKLLSHCLLVTLAAHLPSDFTPAVHASLDKFLASVSTVLTSKYR 4h2v-a1-m1-cA_4h2v-a1-m1-cB Crystal structure of Bradyrhizobium japonicum glycine:[carrier protein] ligase complexed with glycylated carrier protein Q89VT8 Q89VT8 2 X-RAY DIFFRACTION 188 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 295 297 3mey-a1-m1-cB_3mey-a1-m1-cA 3mf1-a1-m1-cB_3mf1-a1-m1-cA 3mf2-a1-m1-cB_3mf2-a1-m1-cA 3pzc-a1-m1-cB_3pzc-a1-m1-cA 4h2s-a1-m1-cA_4h2s-a1-m1-cB 4h2t-a1-m1-cA_4h2t-a1-m1-cB 4h2u-a1-m1-cA_4h2u-a1-m1-cB 4h2w-a1-m1-cA_4h2w-a1-m1-cB 4h2x-a1-m1-cA_4h2x-a1-m1-cB 4h2y-a1-m1-cA_4h2y-a1-m1-cB DPLDHLADKLFHSMGSDGVYARTALYESIVERLAALITSHREAGTEALRFPPVMSRAQLEKSGYLKSFPNLLGCVCGLHGTEREINAAVSRFDAGGDWTTSLSPADLVLSPAACYPVYPIAASRGPLPKGGLRFDVAADCFRREPSKHLDRLQSFRMREYVCIGTPDDVSDFRERWMVRAQAIARDLGLTFRVDYASDPFFGRVGQMKAVSQKQQQLKFELLIPLRSEEQPTACMSFNYHREHFGTTWGIQDANGEPAHTGCVAFGMDRLAVAMFHTHGTDLSAWPAKVRDILGL ADPLDHLADKLFHSMGSDGVYARTALYESIVERLAALITSHREAGTEALRFPPVMSRAQLEKSGYLKSFPNLLGCVCGLHGTEREINAAVSRFDAGGDWTTSLSPADLVLSPAACYPVYPIAASRGPLPKGGLRFDVAADCFRREPSKHLDRLQSFRMREYVCIGTPDDVSDFRERWMVRAQAIARDLGLTFRVDYASDPFFGRVGQMKAVSQKQQQLKFELLIPLRSEEQPTACMSFNYHREHFGTTWGIQDANGEPAHTGCVAFGMDRLAVAMFHTHGTDLSAWPAKVRDILGLQ 4h33-a1-m2-cA_4h33-a1-m4-cA Crystal structure of a voltage-gated K+ channel pore module in a closed state in lipid membranes, tetragonal crystal form Q8Y5K1 Q8Y5K1 3.1 X-RAY DIFFRACTION 62 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 91 91 4h33-a1-m1-cA_4h33-a1-m3-cA 4h33-a1-m1-cA_4h33-a1-m4-cA 4h33-a1-m2-cA_4h33-a1-m3-cA 4h37-a1-m1-cA_4h37-a1-m1-cB 4h37-a1-m1-cA_4h37-a1-m2-cB 4h37-a1-m1-cB_4h37-a1-m2-cA 4h37-a1-m2-cA_4h37-a1-m2-cB RSNGLNRFLMIFVLLVIIIPVPMVFIEPEINNYPDALWWAIVTATTVGYGDIVPVTPIGRILASIMMLFGIAFIGMITSTITNFFRCKKPT RSNGLNRFLMIFVLLVIIIPVPMVFIEPEINNYPDALWWAIVTATTVGYGDIVPVTPIGRILASIMMLFGIAFIGMITSTITNFFRCKKPT 4h3c-a1-m1-cB_4h3c-a1-m1-cA Structure of E. coli undecaprenyl diphosphate synthase in complex with BPH-987 P60472 P60472 1.93 X-RAY DIFFRACTION 109 1.0 562 (Escherichia coli) 562 (Escherichia coli) 206 210 1jp3-a1-m1-cB_1jp3-a1-m1-cA 1ueh-a1-m1-cA_1ueh-a1-m1-cB 1v7u-a1-m1-cB_1v7u-a1-m1-cA 1x06-a1-m1-cA_1x06-a1-m2-cA 1x07-a1-m1-cA_1x07-a1-m2-cA 1x08-a1-m1-cA_1x08-a1-m2-cA 1x09-a1-m1-cA_1x09-a1-m2-cA 2e98-a1-m1-cB_2e98-a1-m1-cA 2e99-a1-m1-cB_2e99-a1-m1-cA 2e9a-a1-m1-cB_2e9a-a1-m1-cA 2e9d-a1-m1-cB_2e9d-a1-m1-cA 3sgt-a1-m1-cA_3sgt-a1-m1-cB 3sgx-a1-m1-cB_3sgx-a1-m1-cA 3sh0-a1-m1-cA_3sh0-a1-m1-cB 3th8-a1-m1-cA_3th8-a1-m1-cB 3wyj-a1-m1-cB_3wyj-a1-m1-cA 4h2j-a1-m1-cB_4h2j-a1-m1-cA 4h2m-a1-m1-cB_4h2m-a1-m1-cA 4h38-a1-m1-cB_4h38-a1-m1-cA 4h3a-a1-m1-cB_4h3a-a1-m1-cA 5cqb-a1-m1-cB_5cqb-a1-m1-cA 5cqj-a1-m1-cB_5cqj-a1-m1-cA 5zhe-a1-m1-cB_5zhe-a1-m1-cA GCRHVAIIMDGNGRWAKKQGKIRAFGHKAGAKSVRRAVSFAANNGIEALTLYAFLFVWALDSEVKSLHRHNVRLRIIGDTSRFNSRLQERIRKSEALTAGNTGLTLNIAANYGGRWDIVQGVRQLAEKVQQGNLQPDQIDEEMLNQHVCMHELAPVDLVIRTGGEHRISNFLLWQIAYAELYFTDVLWPDFDEQDFEGALNAFANR AHGCRHVAIIMDGNGRWAKKQGKIRAFGHKAGAKSVRRAVSFAANNGIEALTLYAFMELFVWALDSEVKSLHRHNVRLRIIGDTSRFNSRLQERIRKSEALTAGNTGLTLNIAANYGGRWDIVQGVRQLAEKVQQGNLQPDQIDEEMLNQHVCMHELAPVDLVIRTGGEHRISNFLLWQIAYAELYFTDVLWPDFDEQDFEGALNAFANR 4h3d-a2-m1-cC_4h3d-a2-m1-cD 1.95 Angstrom Crystal Structure of of Type I 3-Dehydroquinate Dehydratase (aroD) from Clostridium difficile with Covalent Modified Comenic Acid. Q186A6 Q186A6 1.95 X-RAY DIFFRACTION 73 0.996 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 252 253 3js3-a1-m1-cA_3js3-a1-m1-cB 3js3-a2-m1-cC_3js3-a2-m1-cD 4h3d-a1-m1-cA_4h3d-a1-m1-cB MKRKVQVKNITIGEGRPKICVPIIGKNKKDIIKEAKELKDACLDIIEWRVDFFENVENIKEVKEVLYELRSYIHDIPLLFTFRSVVEGGEKLISRDYYTTLNKEISNTGLVDLIDVELFMGDEVIDEVVNFAHKKEVKVIISNHDFNKTPKKEEIVSRLCRMQELGADLPKIAVMPQNEKDVLVLLEATNEMFKIYADRPIITMSMSGMGVISRLCGEIFGSALTFGAAKAPGQISFKELNSVLNLLHKSIN AMKRKVQVKNITIGEGRPKICVPIIGKNKKDIIKEAKELKDACLDIIEWRVDFFENVENIKEVKEVLYELRSYIHDIPLLFTFRSVVEGGEKLISRDYYTTLNKEISNTGLVDLIDVELFMGDEVIDEVVNFAHKKEVKVIISNHDFNKTPKKEEIVSRLCRMQELGADLPKIAVMPQNEKDVLVLLEATNEMFKIYADRPIITMSMSGMGVISRLCGEIFGSALTFGAAKSAPGQISFKELNSVLNLLHKSI 4h3o-a1-m1-cA_4h3o-a1-m1-cB Crystal structure of a new form of lectin from Allium sativum at 2.17 A resolution K4DIE9 K4DIE9 2.17 X-RAY DIFFRACTION 81 1.0 4682 (Allium sativum) 4682 (Allium sativum) 105 105 RNILDNNEGLYAGQSLDVEPYHFIMQDDCNLVLYDHSTSTWASNTEIGGKSGCSAVLQSDGNFVVYDSSGRSLWASHSTRGSGNYILILQDDGNVIIYGSDIWST RNILDNNEGLYAGQSLDVEPYHFIMQDDCNLVLYDHSTSTWASNTEIGGKSGCSAVLQSDGNFVVYDSSGRSLWASHSTRGSGNYILILQDDGNVIIYGSDIWST 4h3u-a1-m1-cA_4h3u-a1-m1-cB Crystal structure of hypothetical protein with ketosteroid isomerase-like protein fold from Catenulispora acidiphila DSM 44928 C7PVH9 C7PVH9 1.15 X-RAY DIFFRACTION 65 1.0 479433 (Catenulispora acidiphila DSM 44928) 479433 (Catenulispora acidiphila DSM 44928) 127 127 4hvn-a1-m1-cA_4hvn-a1-m1-cB TTPEIVTAWAAAWTGTNPNALGTLFAADGTYVDHAIGATTGREQISGWKARTDAIENVHVTITKAYRAGDHVTIEAVYGGHIKGAPTPFAVPATLLRTRGEEITSDQDYYSLSSVLAQSGLPADWTP TTPEIVTAWAAAWTGTNPNALGTLFAADGTYVDHAIGATTGREQISGWKARTDAIENVHVTITKAYRAGDHVTIEAVYGGHIKGAPTPFAVPATLLRTRGEEITSDQDYYSLSSVLAQSGLPADWTP 4h3v-a1-m1-cB_4h3v-a1-m2-cB Crystal structure of oxidoreductase domain protein from Kribbella flavida D2PU28 D2PU28 1.68 X-RAY DIFFRACTION 82 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 370 370 4h3v-a1-m1-cA_4h3v-a1-m2-cA TNLGIGLIGYAFGAAHSQAWRSAPRFFDLPLHPDLNVLCGRDAEAVRAAAGKLGWSTTETDWRTLLERDDVQLVDVCTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAAAAAAKAAAGGIRSVGFTYRRVPAIALARKLVADGKIGTVRHVRAQYLQDWIADPEAPLSWRLDKDKAGSGALGDIGAHIVDLTQFITGDRIAEVSGRLETFVKERPKPERGPVTVDDAAVFLATFRGGALGVFEATRFATGRKNAIRIEINGSKGSLAFDFEDNLLHFYDATEDPETAGFRRILATEPVHPYVAGWWPPGHLLGYEHGFTHQVVDLVTAIAEGKDPEPSFADGLQVQRVLAAVETSSTSRQWQEIPE TNLGIGLIGYAFGAAHSQAWRSAPRFFDLPLHPDLNVLCGRDAEAVRAAAGKLGWSTTETDWRTLLERDDVQLVDVCTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAAAAAAKAAAGGIRSVGFTYRRVPAIALARKLVADGKIGTVRHVRAQYLQDWIADPEAPLSWRLDKDKAGSGALGDIGAHIVDLTQFITGDRIAEVSGRLETFVKERPKPERGPVTVDDAAVFLATFRGGALGVFEATRFATGRKNAIRIEINGSKGSLAFDFEDNLLHFYDATEDPETAGFRRILATEPVHPYVAGWWPPGHLLGYEHGFTHQVVDLVTAIAEGKDPEPSFADGLQVQRVLAAVETSSTSRQWQEIPE 4h3v-a1-m2-cB_4h3v-a1-m1-cA Crystal structure of oxidoreductase domain protein from Kribbella flavida D2PU28 D2PU28 1.68 X-RAY DIFFRACTION 45 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 370 380 4h3v-a1-m1-cB_4h3v-a1-m2-cA TNLGIGLIGYAFGAAHSQAWRSAPRFFDLPLHPDLNVLCGRDAEAVRAAAGKLGWSTTETDWRTLLERDDVQLVDVCTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAAAAAAKAAAGGIRSVGFTYRRVPAIALARKLVADGKIGTVRHVRAQYLQDWIADPEAPLSWRLDKDKAGSGALGDIGAHIVDLTQFITGDRIAEVSGRLETFVKERPKPERGPVTVDDAAVFLATFRGGALGVFEATRFATGRKNAIRIEINGSKGSLAFDFEDNLLHFYDATEDPETAGFRRILATEPVHPYVAGWWPPGHLLGYEHGFTHQVVDLVTAIAEGKDPEPSFADGLQVQRVLAAVETSSTSRQWQEIPE TNLGIGLIGYAFGAAHSQAWRSAPRFFDLPLHPDLNVLCGRDAEAVRAAAGKLGWSTTETDWRTLLERDDVQLVDVCTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAAAAAAKAAAGGIRSVGFTYRRVPAIALARKLVADGKIGTVRHVRAQYLQDWIADPEAPLSWRLDKDKAGSGALGDIGAHIVDLTQFITGDRIAEVSGRLETFVKERPKPEAHSGLTASAERGPVTVDDAAVFLATFRGGALGVFEATRFATGRKNAIRIEINGSKGSLAFDFEDNLLHFYDATEDPETAGFRRILATEPVHPYVAGWWPPGHLLGYEHGFTHQVVDLVTAIAEGKDPEPSFADGLQVQRVLAAVETSSTSRQWQEIPE 4h3v-a2-m1-cB_4h3v-a2-m1-cA Crystal structure of oxidoreductase domain protein from Kribbella flavida D2PU28 D2PU28 1.68 X-RAY DIFFRACTION 127 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 370 380 4h3v-a1-m1-cB_4h3v-a1-m1-cA 4h3v-a1-m2-cB_4h3v-a1-m2-cA TNLGIGLIGYAFGAAHSQAWRSAPRFFDLPLHPDLNVLCGRDAEAVRAAAGKLGWSTTETDWRTLLERDDVQLVDVCTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAAAAAAKAAAGGIRSVGFTYRRVPAIALARKLVADGKIGTVRHVRAQYLQDWIADPEAPLSWRLDKDKAGSGALGDIGAHIVDLTQFITGDRIAEVSGRLETFVKERPKPERGPVTVDDAAVFLATFRGGALGVFEATRFATGRKNAIRIEINGSKGSLAFDFEDNLLHFYDATEDPETAGFRRILATEPVHPYVAGWWPPGHLLGYEHGFTHQVVDLVTAIAEGKDPEPSFADGLQVQRVLAAVETSSTSRQWQEIPE TNLGIGLIGYAFGAAHSQAWRSAPRFFDLPLHPDLNVLCGRDAEAVRAAAGKLGWSTTETDWRTLLERDDVQLVDVCTPGDSHAEIAIAALEAGKHVLCEKPLANTVAEAEAAAAAAKAAAGGIRSVGFTYRRVPAIALARKLVADGKIGTVRHVRAQYLQDWIADPEAPLSWRLDKDKAGSGALGDIGAHIVDLTQFITGDRIAEVSGRLETFVKERPKPEAHSGLTASAERGPVTVDDAAVFLATFRGGALGVFEATRFATGRKNAIRIEINGSKGSLAFDFEDNLLHFYDATEDPETAGFRRILATEPVHPYVAGWWPPGHLLGYEHGFTHQVVDLVTAIAEGKDPEPSFADGLQVQRVLAAVETSSTSRQWQEIPE 4h3z-a1-m1-cA_4h3z-a1-m1-cB Crystal structure of a symmetric dimer of a tRNA (guanine-(N(1)-)-methyltransferase from Burkholderia phymatum bound to S-adenosyl homocystein in both half-sites B2JF31 B2JF31 2.15 X-RAY DIFFRACTION 252 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 249 256 4h3y-a1-m1-cB_4h3y-a1-m1-cA SMQFDIVTLFPDMFRALTDWGITSRAAKQERYGLRTWNPRDFTTDNYRTIDDRPYGGGPGMVMLARPLEDAINAAKAAQAEQGIGGARVVMMSPQGATLNHDKVMRFAAEPGLILLCGRYEAIDQRLIDRVVDEEVSLGDFVLSGGELPAMALIDAVVRHLPGVLNQDSFVDGLLDCPHYTRPEEYDGVRVPDVLLGGHHAEIEQWRRREALRNTWLKRPDLIVQARKNKLLSRADEAWLASLAKDASK GSMQFDIVTLFPDMFRALTDWGITSRAAKQERYGLRTWNPRDFTTDNYRTIDDRPYGGGPGMVMLARPLEDAINAAKAAQAEQGIGGARVVMMSPQGATLNHDKVMRFAAEPGLILLCGRYEAIDQRLIDRVVDEEVSLGDFVLSGGELPAMALIDAVVRHLPGVLNDAQSAVQDSFVDGLLDCPHYTRPEEYDGVRVPDVLLGGHHAEIEQWRRREALRNTWLKRPDLIVQARKNKLLSRADEAWLASLAKDASK 4h40-a1-m1-cA_4h40-a1-m1-cB Crystal structure of a putative cell adhesion protein (BF2867) from Bacteroides fragilis NCTC 9343 at 2.57 A resolution Q5LBF9 Q5LBF9 2.57 X-RAY DIFFRACTION 96 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 295 299 RVRIDPVAGGYYPSISPSRGATPDGETLKDRPIFLLEDGSTIRLVVYDDAKNLLEEYSKAYLVRNAGTSGSSLLYPCEVDDNGAVISSSSTPLYKAGTYYFRILSPAKALNSKGFVNIGNGEYLLATDDRYTQTATAVTITNVQTLYLPPIINQTARQFTVRAGEGVHTLELAEGIEISGIQQPLDNTTSFDWVNGDVLPVKVGDQSASVRITQATRNADNSLVAHTGVLPTDARSHSISVLLNLKVNGNPTQYQLLTGLYLTAGHSYNYTATVKISNGVTVLTWQNRSWTENVV DRVRIDPVAGGYYPSISPSAQTRGATPDGETLKDRPIFLLEDGSTIRLVVYDDAKNLLEEYSKAYLVRNAGTSGSSLLYPCEVDDNGAVISSSSTPLYKAGTYYFRILSPAKALNSKGFVNIGNGEYLLATDDRYTQTATAVTITNVQTLYLPPIINQTARQFTVRAGEGVHTLELAEGIEISGIQQPLDNTTSFDWVNGDVLPVKVGDQSASVRITQATRNADNSLVAHTGVLPTDARSHSISVLLNLKVNGNPTQYQLLTGLYLTAGHSYNYTATVKISNGVTVLTWQNRSWTENVV 4h41-a1-m1-cA_4h41-a1-m1-cC Crystal structure of a putative alpha-L-fucosidase (BT_0435) from Bacteroides thetaiotaomicron VPI-5482 at 1.80 A resolution Q8AAM9 Q8AAM9 1.8 X-RAY DIFFRACTION 74 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 306 308 4h41-a1-m1-cA_4h41-a1-m1-cB 4h41-a1-m1-cC_4h41-a1-m1-cB LESKLIVPKNNGLKITGTFLDEISHDIPHQNWGEKEWDLDFQHKRIGIDTVIIRSGYRKFTYPSPYLLKKGCYPSVDLVDYLRLAEKYNKFYFGLYDSGRYWDTGDLSWEIEDNKYVIDEVWKYGEKYKSFGGWYISGEISRATKGAIDAFRAGKQCKDISNGLPTFISPWIDGKKAIGKLTREDAVSVQQHEKEWNEIFDGIHEVVDACAFQDGHIDYDELDAFFTVNKKLADKYGQCWTNAESFDRDPIRFLPIKFDKLRKLEAAKRAGYDKAITFEFSHFSPQSAYLQAGHLYDRYREYFEIK LESKLIVPKNNGLKITGTFLDEISHDIPHQNWGEKEWDLDFQHKRIGIDTVIIRSGYRKFTYPSPYLLKKGCYPSVDLVDYLRLAEKYNKFYFGLYDSGRYWDTGDLSWEIEDNKYVIDEVWKYGEKYKSFGGWYISGEISRATKGAIDAFRAGKQCKDISNGLPTFISPWIDGKKAIGTGKLTREDAVSVQQHEKEWNEIFDGIHEVVDACAFQDGHIDYDELDAFFTVNKKLADKYGQCWTNAESFDRDPIRFLPIKFDKLRKLEAAKRAGYDKAITFEFSHFSPQSAYLQAGHLYDRYREYFEIK 4h49-a1-m1-cA_4h49-a1-m1-cB Crystal structure of the catalytic domain of MMP-12 in complex with a twin inhibitor. P39900 P39900 2.16 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 4h30-a1-m1-cA_4h30-a1-m1-cB 4h49-a2-m1-cC_4h49-a2-m1-cD MGPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDDHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYG MGPVWRKHYITYRINNYTPDMNREDVDYAIRKAFQVWSNVTPLKFSKINTGMADILVVFARGAHGDDHAFDGKGGILAHAFGPGSGIGGDAHFDEDEFWTTHSGGTNLFLTAVHEIGHSLGLGHSSDPKAVMFPTYKYVDINTFRLSADDIRGIQSLYG 4h4g-a1-m1-cF_4h4g-a1-m1-cD Crystal Structure of (3R)-hydroxymyristoyl-[acyl-carrier-protein] dehydratase from Burkholderia thailandensis E264 Q2SWY7 Q2SWY7 2.65 X-RAY DIFFRACTION 89 0.986 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 138 139 4h4g-a1-m1-cA_4h4g-a1-m1-cG 4h4g-a1-m1-cB_4h4g-a1-m1-cI 4h4g-a2-m1-cC_4h4g-a2-m2-cC 4h4g-a2-m1-cH_4h4g-a2-m1-cE 4h4g-a2-m2-cH_4h4g-a2-m2-cE INFDIHKILTLLPHRYPILLVDRVLELEPHKSIKALKNVTVNEPFFTGHFPKRPVMPGVLIIEALAQAAALLTFAEATLYYFVGIDNARFKRVVEPGDQLILNVTFERYIRGIWKFKAVAEVDGKVAAEAELMCTVKT FDIHKILTLLPHRYPILLVDRVLELEPHKSIKALKNVTVNEPFFTGHFPKRPVMPGVLIIEALAQAAALLTFAEAPENTLYYFVGIDNARFKRVVEPGDQLILNVTFERYIRGIWKFKAVAEVDGKVAAEAELMCTVKT 4h4g-a1-m1-cI_4h4g-a1-m1-cF Crystal Structure of (3R)-hydroxymyristoyl-[acyl-carrier-protein] dehydratase from Burkholderia thailandensis E264 Q2SWY7 Q2SWY7 2.65 X-RAY DIFFRACTION 104 0.993 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 136 138 4h4g-a1-m1-cB_4h4g-a1-m1-cA 4h4g-a1-m1-cG_4h4g-a1-m1-cD 4h4g-a2-m1-cH_4h4g-a2-m2-cH KINFDIHKILTLLPHRYPILLVDRVLELEPHKSIKALKNVTVNEPFFTGHFPKRPVMPGVLIIEALAQAAALLTFAELYYFVGIDNARFKRVVEPGDQLILNVTFERYIRGIWKFKAVAEVDGKVAAEAELMCTVK INFDIHKILTLLPHRYPILLVDRVLELEPHKSIKALKNVTVNEPFFTGHFPKRPVMPGVLIIEALAQAAALLTFAEATLYYFVGIDNARFKRVVEPGDQLILNVTFERYIRGIWKFKAVAEVDGKVAAEAELMCTVKT 4h4v-a1-m1-cA_4h4v-a1-m2-cA Crystal Structure of Ferredoxin reductase, BphA4 E175C/T176R/Q177G mutant (oxidized form) E7FJB9 E7FJB9 1.4 X-RAY DIFFRACTION 58 1.0 358220 (Acidovorax sp. KKS102) 358220 (Acidovorax sp. KKS102) 400 400 2gqw-a1-m1-cA_2gqw-a1-m2-cA 2gr0-a1-m1-cA_2gr0-a1-m2-cA 2gr1-a1-m1-cA_2gr1-a1-m2-cA 2gr2-a1-m1-cA_2gr2-a1-m2-cA 2gr3-a1-m1-cA_2gr3-a1-m2-cA 2yvf-a1-m1-cA_2yvf-a1-m2-cA 2yvg-a1-m1-cA_2yvg-a1-m2-cA 2yvj-a1-m1-cP_2yvj-a1-m1-cA 4h4p-a1-m1-cA_4h4p-a1-m2-cA 4h4q-a1-m1-cA_4h4q-a1-m2-cA 4h4r-a1-m1-cA_4h4r-a1-m2-cA 4h4s-a1-m1-cA_4h4s-a1-m2-cA 4h4t-a1-m1-cA_4h4t-a1-m2-cA 4h4u-a1-m1-cA_4h4u-a1-m2-cA 4h4w-a1-m1-cA_4h4w-a1-m2-cA 4h4x-a1-m1-cA_4h4x-a1-m2-cA 4h4y-a1-m1-cA_4h4y-a1-m2-cA 4h4z-a1-m1-cA_4h4z-a1-m2-cA 4h50-a1-m1-cA_4h50-a1-m2-cA LKAPVVVLGAGLASVSFVAELRQAGYQGLITVVGDEAERPYDRPPLSKDFMAHGDAEKIRLDCKRAPEVEWLLGVTAQSFDPQAHTVALSDGRTLPYGTLVLATGAAPRALPTLQGATMPVHTLRTLEDARRIQAGLRPQSRLLIVGGGVIGLELAATARTAGVHVSLVCRGPRLMSRAAPATLADFVARYHAAQGVDLRFERSVTGSVDGVVLLDDGTRIAADMVVVGIGVLANDALARAAGLACDDGIFVDAYGRTTCPDVYALGDVTRQRNPLSGRFERIETWSNAQNQGIAVARHLVDPTAPGYAELPWYWSDQGALRIQVAGLASGDEEIVRGEVSLDAPKFTLIELQKGRIVGATCVNNARDFAPLRRLLAVGAKPDRAALADPATDLRKLAAA LKAPVVVLGAGLASVSFVAELRQAGYQGLITVVGDEAERPYDRPPLSKDFMAHGDAEKIRLDCKRAPEVEWLLGVTAQSFDPQAHTVALSDGRTLPYGTLVLATGAAPRALPTLQGATMPVHTLRTLEDARRIQAGLRPQSRLLIVGGGVIGLELAATARTAGVHVSLVCRGPRLMSRAAPATLADFVARYHAAQGVDLRFERSVTGSVDGVVLLDDGTRIAADMVVVGIGVLANDALARAAGLACDDGIFVDAYGRTTCPDVYALGDVTRQRNPLSGRFERIETWSNAQNQGIAVARHLVDPTAPGYAELPWYWSDQGALRIQVAGLASGDEEIVRGEVSLDAPKFTLIELQKGRIVGATCVNNARDFAPLRRLLAVGAKPDRAALADPATDLRKLAAA 4h51-a1-m1-cA_4h51-a1-m1-cB Crystal structure of a putative Aspartate Aminotransferase from Leishmania major Friedlin Q4FX34 Q4FX34 1.85 X-RAY DIFFRACTION 250 1.0 347515 (Leishmania major strain Friedlin) 347515 (Leishmania major strain Friedlin) 397 402 4wb0-a1-m1-cA_4wb0-a1-m1-cB MTTAERWQKIQAQAPDVIFDLAKRAAAAKGPKANLVIGAYRDEQGRPYPLRVVRKAEQLLLDMNLDYEYLPISGYQPFIDEAVKIIYGELENLVAVQTLSGTGAVSLGAKLLTRVFDAETTPIYLSDPTWPNHYGVVKAAGWKNICTYAYYDPKTVSLNFEGMKKDILAAPDGSVFILHQCAHNPTGVDPSQEQWNEIASLMLAKHHQVFFDSAYQGYASGSLDTDAYAARLFARRGIEVLLAQSFSNMGLYSERAGTLSLLLKDKTKRADVKSVMDSLIREEYTCPPAHGARLAHLILSNNELRKEWEAELSAMAERIRTMRRTVYDELLRLQTPGSWEHVINQIGMFSFLGLSKAQCEYCQNHNIFITVSGRANMAGLTHETALMLAQTINDAVR MTTAERWQKIQAQAPDVIFDLAKRAAAAKGPKANLVIGAYRDEQGRPYPLRVVRKAEQLLLDMNLDYEYLPISGYQPFIDEAVKIIYGNTVELENLVAVQTLSGTGAVSLGAKLLTRVFDAETTPIYLSDPTWPNHYGVVKAAGWKNICTYAYYDPKTVSLNFEGMKKDILAAPDGSVFILHQCAHNPTGVDPSQEQWNEIASLMLAKHHQVFFDSAYQGYASGSLDTDAYAARLFARRGIEVLLAQSFSNMGLYSERAGTLSLLLKDKTKRADVKSVMDSLIREEYTCPPAHGARLAHLILSNNELRKEWEAELSAMAERIRTMRRTVYDELLRLQTPGSWEHVINQIGMFSFLGLSKAQCEYCQNHNIFITVSGRANMAGLTHETALMLAQTINDAVRNV 4h5b-a1-m1-cB_4h5b-a1-m1-cA Crystal Structure of DR_1245 from Deinococcus radiodurans Q9RUY5 Q9RUY5 2 X-RAY DIFFRACTION 107 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 149 152 ALLTLDTLAKYLQEKEVQLDIEENGGQRFIRMGWRFEMGDAAVLVSVNDGPNNTSRLEITCVTQKTYADRRAEVAMMLNDRNRERAFARSIDQEGNVWLEYVGFYPTLAEMPQETFDTLFGGVLMHFQDDYAALEGYVPQEGMQIQQPQ ETALLTLDTLAKYLQEKEVQLDIEENGGQRFIRMGWRFEMGDAAVLVSVNDGPNNTSRLEITCVTQKTYADRRAEVAMMLNDRNRERAFARSIDQEGNVWLEYVGFYPTLAEMPQETFDTLFGGVLMHFQDDYAALEGYVPQEGMQIQQPQA 4h5b-a2-m2-cB_4h5b-a2-m1-cA Crystal Structure of DR_1245 from Deinococcus radiodurans Q9RUY5 Q9RUY5 2 X-RAY DIFFRACTION 74 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 149 152 ALLTLDTLAKYLQEKEVQLDIEENGGQRFIRMGWRFEMGDAAVLVSVNDGPNNTSRLEITCVTQKTYADRRAEVAMMLNDRNRERAFARSIDQEGNVWLEYVGFYPTLAEMPQETFDTLFGGVLMHFQDDYAALEGYVPQEGMQIQQPQ ETALLTLDTLAKYLQEKEVQLDIEENGGQRFIRMGWRFEMGDAAVLVSVNDGPNNTSRLEITCVTQKTYADRRAEVAMMLNDRNRERAFARSIDQEGNVWLEYVGFYPTLAEMPQETFDTLFGGVLMHFQDDYAALEGYVPQEGMQIQQPQA 4h5b-a3-m1-cB_4h5b-a3-m3-cA Crystal Structure of DR_1245 from Deinococcus radiodurans Q9RUY5 Q9RUY5 2 X-RAY DIFFRACTION 35 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 149 152 ALLTLDTLAKYLQEKEVQLDIEENGGQRFIRMGWRFEMGDAAVLVSVNDGPNNTSRLEITCVTQKTYADRRAEVAMMLNDRNRERAFARSIDQEGNVWLEYVGFYPTLAEMPQETFDTLFGGVLMHFQDDYAALEGYVPQEGMQIQQPQ ETALLTLDTLAKYLQEKEVQLDIEENGGQRFIRMGWRFEMGDAAVLVSVNDGPNNTSRLEITCVTQKTYADRRAEVAMMLNDRNRERAFARSIDQEGNVWLEYVGFYPTLAEMPQETFDTLFGGVLMHFQDDYAALEGYVPQEGMQIQQPQA 4h5p-a2-m3-cC_4h5p-a2-m3-cD Crystal Structure of Rift Valley Fever Virus Nucleocapsid Protein Tetramer Bound to Single-stranded RNA D3K5I7 D3K5I7 2.15 X-RAY DIFFRACTION 87 1.0 11588 (Rift Valley fever virus) 11588 (Rift Valley fever virus) 244 244 4h5o-a1-m1-cA_4h5o-a1-m1-cD 4h5o-a1-m1-cA_4h5o-a1-m1-cG 4h5o-a1-m1-cB_4h5o-a1-m1-cF 4h5o-a1-m1-cB_4h5o-a1-m1-cG 4h5o-a1-m1-cD_4h5o-a1-m1-cF 4h5o-a2-m1-cC_4h5o-a2-m1-cE 4h5o-a2-m1-cC_4h5o-a2-m1-cI 4h5o-a2-m1-cE_4h5o-a2-m1-cH 4h5o-a2-m1-cH_4h5o-a2-m1-cJ 4h5o-a2-m1-cI_4h5o-a2-m1-cJ 4h5p-a1-m1-cA_4h5p-a1-m1-cB 4h5p-a1-m1-cA_4h5p-a1-m2-cB 4h5p-a1-m1-cB_4h5p-a1-m2-cA 4h5p-a1-m2-cA_4h5p-a1-m2-cB 4h5p-a2-m1-cC_4h5p-a2-m1-cD 4h5p-a2-m1-cC_4h5p-a2-m3-cD 4h5p-a2-m1-cD_4h5p-a2-m3-cC DNYQELAIQFAAQAVDRNEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGRTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA DNYQELAIQFAAQAVDRNEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGRTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA 4h5r-a3-m1-cA_4h5r-a3-m1-cB HSC70 NBD with Na, Cl and glycerol P11142 P11142 1.64 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 382 382 4h5n-a3-m1-cA_4h5n-a3-m1-cB KGPAVGIDLGTTYSCVGVFQHGKVEIIANDQGNRTTPSYVAFTDTERLIGDAAKNQVAMNPTNTVFDAKRLIGRRFDDAVVQSDMKHWPFMVVNDAGRPKVQVEYKGETKSFYPEEVSSMVLTKMKEIAEAYLGKTVTNAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIAYGLDKKVGAERNVLIFDLGGGTFDVSILTIEDGIFEVKSTAGDTHLGGEDFDNRMVNHFIAEFKRKHKKDISENKRAVRRLRTACERAKRTLSSSTQASIEIDSLYEGIDFYTSITRARFEELNADLFRGTLDPVEKALRDAKLDKSQIHDIVLVGGSTRIPKIQKLLQDFFNGKELNKSINPDEAVAYGAAVQAAILSGDK KGPAVGIDLGTTYSCVGVFQHGKVEIIANDQGNRTTPSYVAFTDTERLIGDAAKNQVAMNPTNTVFDAKRLIGRRFDDAVVQSDMKHWPFMVVNDAGRPKVQVEYKGETKSFYPEEVSSMVLTKMKEIAEAYLGKTVTNAVVTVPAYFNDSQRQATKDAGTIAGLNVLRIINEPTAAAIAYGLDKKVGAERNVLIFDLGGGTFDVSILTIEDGIFEVKSTAGDTHLGGEDFDNRMVNHFIAEFKRKHKKDISENKRAVRRLRTACERAKRTLSSSTQASIEIDSLYEGIDFYTSITRARFEELNADLFRGTLDPVEKALRDAKLDKSQIHDIVLVGGSTRIPKIQKLLQDFFNGKELNKSINPDEAVAYGAAVQAAILSGDK 4h6d-a3-m1-cG_4h6d-a3-m1-cC Crystal structure of PLP-soaked HMP synthase Thi5 from S. cerevisiae P43534 P43534 2.9 X-RAY DIFFRACTION 58 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 331 335 4h65-a1-m1-cB_4h65-a1-m1-cA 4h67-a1-m1-cB_4h67-a1-m1-cA 4h67-a3-m1-cH_4h67-a3-m1-cD 4h67-a4-m1-cG_4h67-a4-m1-cF 4h6d-a1-m1-cA_4h6d-a1-m1-cF 4h6d-a2-m1-cH_4h6d-a2-m1-cB 4h6d-a4-m1-cE_4h6d-a4-m1-cD DKITFLLNWQPTPYHIPIFLAQTKGYFKEQGLDMAILEPTNPSDVTELIGSGKVDMGLKAMIHTLAAKARGFPVTSVASLLDEPFTGVLYLKGSGITKSFQSLKGKKIGYVGEFGKIQIDELTKHYGMKPEDYTAVRCGMNVAKYIIEGKIDAGIGIECMQQVELEEYLAKQGRPASDAKMLRIDKLCCCFCTVLYICNDEFLKKNPEKVRKFLKAIKKATDYVLADPVKAWKEYIDFKPQLNNDLSYKQYQRCYAYFSSSLYNVHRDWKKVTGYGKRLAILPPDYVSNYTNEYLSWPEPEEVSDPLEATRLMAIHQEKCRQEGTFKRLAL DKITFLLNWQPTPYHIPIFLAQTKGYFKEQGLDMAILEPTNPSDVTELIGSGKVDMGLKAMIHTLAAKARGFPVTSVASLLDEPFTGVLYLKGSGITKSFQSLKGKKIGYVGEFGKIQIDELTKHYGMKPEDYTAVRCGMNVAKYIIEGKIDAGIGIECMQQVELEEYLAKQGRPASDAKMLRIDKLACLGCCCFCTVLYICNDEFLKKNPEKVRKFLKAIKKATDYVLADPVKAWKEYIDFKPQLNNDLSYKQYQRCYAYFSSSLYNVHRDWKKVTGYGKRLAILPPDYVSNYTNEYLSWPEPEEVSDPLEATRLMAIHQEKCRQEGTFKRLAL 4h6p-a1-m1-cB_4h6p-a1-m2-cB Crystal structure of a putative chromate reductase from Gluconacetobacter hansenii, Gh-ChrR, containing a R101A substitution. D5QFC5 D5QFC5 2.556 X-RAY DIFFRACTION 109 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 184 184 3s2y-a1-m1-cA_3s2y-a1-m2-cA 3s2y-a1-m3-cD_3s2y-a1-m4-cD 3s2y-a2-m1-cA_3s2y-a2-m2-cA 3s2y-a3-m1-cC_3s2y-a3-m1-cB 3s2y-a3-m5-cC_3s2y-a3-m5-cB 3s2y-a4-m1-cC_3s2y-a4-m1-cB 3s2y-a5-m1-cD_3s2y-a5-m2-cD 4h6p-a1-m1-cA_4h6p-a1-m2-cA 4h6p-a2-m1-cC_4h6p-a2-m1-cD 4h6p-a2-m3-cC_4h6p-a2-m3-cD 4h6p-a3-m1-cE_4h6p-a3-m1-cF 4h6p-a3-m1-cG_4h6p-a3-m1-cL 4h6p-a4-m1-cH_4h6p-a4-m1-cI 4h6p-a4-m1-cJ_4h6p-a4-m1-cK 4hs4-a1-m1-cC_4hs4-a1-m1-cD 4hs4-a1-m1-cE_4hs4-a1-m2-cA 4hs4-a1-m1-cF_4hs4-a1-m2-cB 4hs4-a1-m1-cG_4hs4-a1-m1-cH 4hs4-a2-m1-cA_4hs4-a2-m4-cE 4hs4-a3-m1-cB_4hs4-a3-m4-cF 4hs4-a4-m1-cC_4hs4-a4-m1-cD 4hs4-a5-m1-cG_4hs4-a5-m1-cH SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSAVSPQPLAGKPVALVTASPGMIGGARAQYHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSAVSPQPLAGKPVALVTASPGMIGGARAQYHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS 4h6p-a3-m1-cE_4h6p-a3-m1-cG Crystal structure of a putative chromate reductase from Gluconacetobacter hansenii, Gh-ChrR, containing a R101A substitution. D5QFC5 D5QFC5 2.556 X-RAY DIFFRACTION 26 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 184 184 3s2y-a1-m3-cD_3s2y-a1-m1-cA 3s2y-a1-m4-cD_3s2y-a1-m2-cA 3s2y-a3-m1-cB_3s2y-a3-m5-cB 3s2y-a3-m1-cC_3s2y-a3-m5-cC 4h6p-a1-m1-cA_4h6p-a1-m1-cB 4h6p-a1-m2-cA_4h6p-a1-m2-cB 4h6p-a2-m1-cC_4h6p-a2-m3-cC 4h6p-a2-m1-cD_4h6p-a2-m3-cD 4h6p-a3-m1-cF_4h6p-a3-m1-cL 4h6p-a4-m1-cH_4h6p-a4-m1-cJ 4h6p-a4-m1-cI_4h6p-a4-m1-cK 4hs4-a1-m1-cC_4hs4-a1-m1-cE 4hs4-a1-m1-cD_4hs4-a1-m2-cA 4hs4-a1-m1-cF_4hs4-a1-m1-cG 4hs4-a1-m1-cH_4hs4-a1-m2-cB SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSAVSPQPLAGKPVALVTASPGMIGGARAQYHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSAVSPQPLAGKPVALVTASPGMIGGARAQYHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS 4h6z-a3-m1-cB_4h6z-a3-m1-cA Tubulin acetyltransferase Q6PH17 Q6PH17 2.701 X-RAY DIFFRACTION 94 0.986 7955 (Danio rerio) 7955 (Danio rerio) 142 144 SFTDFPYDLNALFPERISVLDSNTTVIDELGKASRHHLYLLKDGVIVGFLKVGYKKLFLLDQRGAHLETEPLCVLDFYVTETLQRHGYGSELFDFLKHKQVEPAQAYDRPSPKFLSFLEKRYDLRNSVPQVNNFVVFAGFFQ SFTDFPYDLNALFPERISVLDSTTVIDELGKARHHLYLLKDGEGRGVIVGFLKVGYKKLFLLDQRGAHLETEPLCVLDFYVTETLQRHGYGSELFDFLKHKQVEPAQAYDRPSPKFLSFLEKRYDLRNSVPQVNNFVVFAGFFQ 4h7a-a1-m1-cB_4h7a-a1-m1-cA Crystal structure of CasB from Thermus thermophilus Q53VY0 Q53VY0 2.6 X-RAY DIFFRACTION 37 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 154 156 MSPGERFLDWLKRLQGQKAWTAARAAFRRSLAFPPGAYPRAMPYVEPFLAKGDWRQEEREAHYLVAALYALKDGDHQVGRTLARALWEKASASVEKRFLALLEADRDQIAFRLRQAVALVEGGIDFARLLDDLLRWFSPERHVQARWAREYYGA MSPGERFLDWLKRLQGQKAWTAARAAFRRSLAFPPGAYPRAMPYVEPFLAKGDWRQEEREAHYLVAALYALKDGDHQVGRTLARALWEKAQGSASVEKRFLALLEADRDQIAFRLRQAVALVEGGIDFARLLDDLLRWFSPERHVQARWAREYYGA 4h7l-a1-m1-cA_4h7l-a1-m1-cB Crystal structure of Plim_4148 protein from Planctomyces limnophilus D5SZ58 D5SZ58 2.452 X-RAY DIFFRACTION 101 0.991 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 113 115 SAAPQISLSEIEAVACPCGWAQRAFGHDAGTSVSVHYTQITKAARTHYHREHQEIYVVLDHAAHATIELNGQSYPLTKLLAISIPPLVRHRIVGEATIINIVSPPFDPADEWF AAPQISLSEIEAVACPCGWAQRAFGHDAGTSVSVHYTQITKAARTHYHREHQEIYVVLDHAAHATIELNGQSYPLTKLLAISIPPLVRHRIVGEATIINIVSPPFDPADEWFDSS 4h7n-a2-m1-cC_4h7n-a2-m1-cB The Structure of Putative Aldehyde Dehydrogenase PutA from Anabaena variabilis. Q3MAW0 Q3MAW0 2 X-RAY DIFFRACTION 200 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 460 461 4h7n-a1-m1-cD_4h7n-a1-m1-cA TKTIEVRNPRTGKFDYVIIPPPPRLLAQQCNRARRAQSRWQELGVEGRITTLQQWKQAILSRREQLTEALVNDTGRLSITVLEIDSFLASIDRWCGLAPELLQTSAKNTSIPFIALQQSLVPYPLVGVISPWNFPLTLSIDTIPALLAGCAVVVKPSEIAPRFVAPLLALNTVPELRDVLIFVEGGGETGANLINYVDFVCFTGSVATGREVAETAARRFIPAYLELGGKDPAIVLESANLELATSAILWGAVVNTGQSCLSIERIYVAESKFEEFYHQLIAKAHRLQLAYPLVEDGAIGPIIAEKQAGIINDHILDAVEKGAVIHCGGKVEELGGGWWCRPTVTNVNHSKVTEETFGPIPVPFPDVEEAVYLANDTIYGLSAAVFAGSEDEALKVARQLNAGAISINDAALTAHEGEKNAFNFSGLGGSRVGAAGLKRFLRKQAFLIKTNSTSDPWWFD TKTIEVRNPRTGKFDYVIIPPPPRLLAQQCNRARRAQSRWQELGVEGRITTLQQWKQAILSRREQLTEALVNDTGRLSITVLEIDSFLASIDRWCGLAPELLQTSAKNTSIPFIALQQSLVPYPLVGVISPWNFPLTLSIDTIPALLAGCAVVVKPSEIAPRFVAPLLALNTVPELRDVLIFVEGGGETGANLINYVDFVCFTGSVATGREVAETAARRFIPAYLELGGKDPAIVLESANLELATSAILWGAVVNTGQSCLSIERIYVAESKFEEFYHQLIAKAHRLQLAYPLVEDGAIGPIIAEKQAGIINDHILDAVEKGAVIHCGGKVEELGGGWWCRPTVTNVNHSKVTEETFGPIPVPFPDVEEAVYLANDTIYGLSAAVFAGSEDEALKVARQLNAGAISINDAALTAHEGEKNAFNFSGLGGSRVGAAGLKRFLRKQAFLIKTNSTSDPWWFDK 4h7p-a1-m1-cB_4h7p-a1-m1-cA Crystal structure of a putative Cytosolic malate dehydrogenase from Leishmania major Friedlin Q4Q7X6 Q4Q7X6 1.3 X-RAY DIFFRACTION 124 1.0 347515 (Leishmania major strain Friedlin) 347515 (Leishmania major strain Friedlin) 306 313 4i1i-a1-m1-cB_4i1i-a1-m1-cA SAVKVAVTGAAGQIGYALVPLIARGALLGPTTPVELRLLDIEPALKALAGVEAELEDCAFPLLDKVVVTADPRVAFDGVAIAIMCGAFPRKAGMERKDLLEMNARIFKEQGEAIAAVAASDCRVVVVGNPANTNALILLKSAQGKLNPRHVTAMTRLDHNRALSLLARKAGVPVSQVRNVIIWGNHSSTQVPDTDSAVIGTTPDFVQVVRGRGAEIIQLRGLSSAMSAAKAAVDHVHDWIHGTPEGVYVSMGVYSDENPYGVPSGLIFSFPCTCHAGEWTVVSGKLKQRLASTIAELQEERAQAGL MSAVKVAVTGAAGQIGYALVPLIARGALLGPTTPVELRLLDIEPALKALAGVEAELEDCAFPLLDKVVVTADPRVAFDGVAIAIMCGAFPRKAGMERKDLLEMNARIFKEQGEAIAAVAASDCRVVVVGNPANTNALILLKSAQGKLNPRHVTAMTRLDHNRALSLLARKAGVPVSQVRNVIIWGNHSSTQVPDTDSAVIGTTPAREAIKDFVQVVRGRGAEIIQLRGLSSAMSAAKAAVDHVHDWIHGTPEGVYVSMGVYSDENPYGVPSGLIFSFPCTCHAGEWTVVSGKLKQRLASTIAELQEERAQAGL 4h87-a1-m1-cB_4h87-a1-m1-cA Crystal structure of a FHA domain of kanadaptin (SLC4A1AP) from Homo sapiens at 1.55 A resolution Q9BWU0 Q9BWU0 1.55 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 124 SMARAPPYQEPPWGGPATAPYSLETLKGGTILGTRSLKGTSYCLFGRLSGCDVCLEHPSVSRYHAVLQHRASGPGPGFYLYDLGSTHGTFLNKTRIPPRTYCRVHVGHVVRFGGSTRLFILQG SMARAPPYQEPPWGGPATAPYSLETLKGGTILGTRSLKGTSYCLFGRLSGCDVCLEHPSVSRYHAVLQHRASGPDGPGFYLYDLGSTHGTFLNKTRIPPRTYCRVHVGHVVRFGGSTRLFILQG 4h89-a1-m1-cA_4h89-a1-m2-cA The Structure of a GCN5-Related N-Acetyltransferase from Kribbella flavida D2Q3N2 D2Q3N2 1.37 X-RAY DIFFRACTION 91 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 163 163 SPEALQVRDAEDADWPAILPFFREIVSAGETYAYDPELTDEQARSLWTPSGPQSRTTVAVDADGTVLGSANYPNRPGPGAHVASASFVAAAARGRGVGRALCQDIDWAGREGFRAIQFNAVVETNTVAVKLWQSLGFRVIGTVPEAFHHPTHGYVGLHVHRPL SPEALQVRDAEDADWPAILPFFREIVSAGETYAYDPELTDEQARSLWTPSGPQSRTTVAVDADGTVLGSANYPNRPGPGAHVASASFVAAAARGRGVGRALCQDIDWAGREGFRAIQFNAVVETNTVAVKLWQSLGFRVIGTVPEAFHHPTHGYVGLHVHRPL 4h8a-a1-m1-cB_4h8a-a1-m1-cA Crystal structure of ureidoglycolate dehydrogenase in binary complex with NADH P77555 P77555 1.64 X-RAY DIFFRACTION 216 1.0 562 (Escherichia coli) 562 (Escherichia coli) 313 337 1xrh-a1-m1-cA_1xrh-a1-m1-cB 1xrh-a2-m1-cD_1xrh-a2-m1-cC 1xrh-a3-m1-cF_1xrh-a3-m1-cE 1xrh-a4-m1-cH_1xrh-a4-m1-cG 4fjs-a1-m1-cB_4fjs-a1-m1-cA 4fju-a1-m1-cB_4fju-a1-m1-cA ISRETLHQLIENKLCQAGLKREHAATVAEVLVYADARGIHSHGAVRVEYYAERISKGGTNREPEFRLEETGPCSAILHADNAAGQVAAKMGMEHAIKTAQQNGVAVVGISRMGHSGAISYFVQQAARAGFIGISMCQSDPMVVPFGGAEIYYGTNPLAFAAPGEGDEILTFDMATTVQAWGKVLDARSRNMSIPDTWAVDKNGVPTTDPFAVHALLPAAGPKGYGLMMMIDVLSGVLLGLPFGRQVSSMYDDLHAGRNLGQLHIVINPNFFSSSELFRQHLSQTMRELNAITPAPGFNQVYYPGQDQDIKQRK MKISRETLHQLIENKLCQAGLKREHAATVAEVLVYADARGIHSHGAVRVEYYAERISKGGTNREPEFRLEETGPCSAILHADNAAGQVAAKMGMEHAIKTAQQNGVAVVGISRMGHSGAISYFVQQAARAGFIGISMCQSDPMVVPFGGAEIYYGTNPLAFAAPGEGDEILTFDMATTVQAWGKVLDARSRNMSIPDTWAVDKNGVPTTDPFAVHALLPAAGPKGYGLMMMIDVLSGVLLGLPFGRQVSSMYDDLHAGRNLGQLHIVINPNFFSSSELFRQHLSQTMRELNAITPAPGFNQVYYPGQDQDIKQRKAAVEGIEIVDDIYQYLISDALY 4h8e-a1-m1-cA_4h8e-a1-m2-cA Structure of S. aureus undecaprenyl diphosphate synthase in complex with FPP and sulfate P60477 P60477 1.3 X-RAY DIFFRACTION 118 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 235 235 3wyi-a1-m1-cA_3wyi-a1-m2-cA 4u82-a2-m1-cA_4u82-a2-m2-cA LDSSNIPEHIAIIMDGNGRWAKKRKMPRIKGHYEGMQTIKKITRIASDIGVKYLTLYAFSTENWSRPESEVNYIMNLPVNFLKTFLPELIEKNVKVETIGFTDKLPKSTIEAINNAKEKTANNTGLKLIFAINYGGRAELVHSIKNMFDELHQQGLNSDIIDETYINNHLMTKDYPDPELLIRTSGEQRISNFLIWQVSYSEFIFNQKLWPDFDEDELIKCIKIYQSRQRRFGGL LDSSNIPEHIAIIMDGNGRWAKKRKMPRIKGHYEGMQTIKKITRIASDIGVKYLTLYAFSTENWSRPESEVNYIMNLPVNFLKTFLPELIEKNVKVETIGFTDKLPKSTIEAINNAKEKTANNTGLKLIFAINYGGRAELVHSIKNMFDELHQQGLNSDIIDETYINNHLMTKDYPDPELLIRTSGEQRISNFLIWQVSYSEFIFNQKLWPDFDEDELIKCIKIYQSRQRRFGGL 4h8n-a3-m1-cB_4h8n-a3-m1-cA Crystal structure of conjugated polyketone reductase C2 from candida parapsilosis complexed with NADPH Q76L36 Q76L36 1.8 X-RAY DIFFRACTION 84 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 298 303 LLPKTFRTKSGKEISIALGTGTKWKQAQVSTELVDNILLGLKLGFRHIDTAEAYNTQKEVGEALKRTDVPREDIWVTTKYSPGWGSIKAYSKSPSDSIDKALAQLGVDYVDLFLIHSPFFTTEQTHGYTLEQAWEALVEAKKAGKVREIGISNAAIPHLEKLFAASPSPEYYPVVNQIEFHPFLQNQSKNIVRFCQEHGILVEAFSPLAPLARVETNALAETLKRLAEKYKKTEAQVLLRYTLQRGILPVTTSSKESRLKESLNLFDFELTDEEVNEINKIGDANPYRAFFHEQFKDL NLLPKTFRTKSGKEISIALGTGTKWKQAQTINDVSTELVDNILLGLKLGFRHIDTAEAYNTQKEVGEALKRTDVPREDIWVTTKYSPGWGSIKAYSKSPSDSIDKALAQLGVDYVDLFLIHSPFFTTEQTHGYTLEQAWEALVEAKKAGKVREIGISNAAIPHLEKLFAASPSPEYYPVVNQIEFHPFLQNQSKNIVRFCQEHGILVEAFSPLAPLARVETNALAETLKRLAEKYKKTEAQVLLRYTLQRGILPVTTSSKESRLKESLNLFDFELTDEEVNEINKIGDANPYRAFFHEQFKDL 4h8s-a2-m1-cD_4h8s-a2-m1-cC Crystal structure of human APPL2BARPH domain Q8NEU8 Q8NEU8 3.5 X-RAY DIFFRACTION 353 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 373 382 4h8s-a1-m1-cB_4h8s-a1-m1-cA DKLLLEEALQDSPQTRSLLSVFEEDAGTLTDYTNQLLQAMQRVYGAQNEMCLATQQLSKQLLAYEKQNFALGKGDEEVISTLHYFSKVVDELNLLHTELAKQLADTMVLPIIQFREKDLTEVSTLKDLFGLASNEHDLSMAKYSRLPKKKENEKVKTEVGKEVAAARRKQHLSSLQYYCALNALQYRKQMAMMEPMIGFAHGQINFFKKGAEMFSKRMDSFLSSVADMVQSIQVELEAEAEKMRVSQQELLSVDESVYTPDSDVAAPQINRNLIQKAGYLNLRNKTGLVTTTWERLYFFTQGGNLMCQPRGAVAGGLIQDLDNCSVMAVDCEDRRYCFQITTPNGKSGIILQAESRKENEEWICAINNISRQI NLYFQSNAPAVDKLLLEEALQDSPQTRSLLSVFEEDAGTLTDYTNQLLQAMQRVYGAQNEMCLATQQLSKQLLAYEKQNFALDEEVISTLHYFSKVVDELNLLHTELAKQLADTMVLPIIQFREKDLTEVSTLKDLFGLASNEHDLSMAKYSRLPKKKENEKVKTEVGKEVAAARRKQHLSSLQYYCALNALQYRKQMAMMEPMIGFAHGQINFFKKGAEMFSKRMDSFLSSVADMVQSIQVELEAEAEKMRVSQQELLSVDESVYTPDSDVAAPQINRNLIQKAGYLNLRNKTGLVTTTWERLYFFTQGGNLMCQPRGAVAGGLIQDLDNCSVMAVDCEDRRYCFQITTPNGKSGIILQAESRKENEEWICAINNISRQIY 4h9d-a1-m1-cB_4h9d-a1-m1-cA Crystal Structure of Mn-dependent Gme HNH nicking endonuclease from Geobacter metallireducens GS-15, Northeast Structural Genomics Consortium (NESG) Target GmR87 Q39X46 Q39X46 2.599 X-RAY DIFFRACTION 15 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 89 95 VEVSEQEVKREKEKARELRRSQWWKNRIARGICHYCGEIFPPEELTDHLVPVVRGGKSTRGNVVPACKECNNRKKYLLPVEWEEYLDSL NYFIVEVSEQEVKREKEKARELRRSQWWKNRIARGICHYCGEIFPPEELTDHLVPVVRGGKSTRGNVVPACKECNNRKKYLLPVEWEEYLDSLES 4h9d-a1-m1-cC_4h9d-a1-m1-cB Crystal Structure of Mn-dependent Gme HNH nicking endonuclease from Geobacter metallireducens GS-15, Northeast Structural Genomics Consortium (NESG) Target GmR87 Q39X46 Q39X46 2.599 X-RAY DIFFRACTION 41 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 80 89 REKEKARELRRSQWWKNRIARGICHYCGEIFPPEELTDHLVPVVRGGKSTRGNVVPACKECNNRKKYLLPVEWEEYLDSL VEVSEQEVKREKEKARELRRSQWWKNRIARGICHYCGEIFPPEELTDHLVPVVRGGKSTRGNVVPACKECNNRKKYLLPVEWEEYLDSL 4h9s-a3-m1-cE_4h9s-a3-m1-cF Complex structure 6 of DAXX/H3.3(sub7)/H4 Q9UER7 Q9UER7 2.6 X-RAY DIFFRACTION 27 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 199 203 SRRQIQRLEQLLALYVAEIRRLQEKELDLSELDDPDSAYLQEARLKRKLIRLFGRLCELKDCSSLTGRVIEQRIPYRGTRYPEVNRRIERLINKPGPDTFPDYGDVLRAVEKAAARHSLGLPRQQLQLMAQDAFRDVGIRLQERRHLDLIYNFGCHLPGVDPALSDPVLARRLRENRSLAMSRLDEVISKYAMLQDKSE SRRQIQRLEQLLALYVAEIRRLQEKELDLSELDDPDSAYLQEARLKRKLIRLFGRLCELKDCSSLTGRVIEQRIPYRGTRYPEVNRRIERLINKPGPDTFPDYGDVLRAVEKAAARHSLGLPRQQLQLMAQDAFRDVGIRLQERRHLDLIYNFGCHLTDDYGVDPALSDPVLARRLRENRSLAMSRLDEVISKYAMLQDKSEE 4ha6-a2-m1-cA_4ha6-a2-m2-cA Crystal structure of pyridoxine 4-oxidase - pyridoxamine complex Q5NT46 Q5NT46 2.095 X-RAY DIFFRACTION 26 1.0 381 (Mesorhizobium loti) 381 (Mesorhizobium loti) 506 506 3t37-a1-m1-cA_3t37-a1-m2-cA NCDIVIVGGGSAGSLLAARLSEDPDSRVLLIEAGEEPTDPDIWNPAAWPALQGRSYDWDYRTEAQAGTAGRAHHWARGRLIGGSSLHAMGYMRGHPSDFQAWVDASGDRRWGWDELLPVFQAIEDHPLGGDGIHGKGGPLPIHLPADEVSPLARAFIEAGASLGLPRLEGHNSGEMIGVTPNSLNIRDGRRVTAADAWLTKAVRGRKNLTILTGSRVRRLKLEGNQVRSLEVVGRQGSAEVFADQIVLCAGALESPALLMRSGIGPHDVLDAAGVGLIDMPDIGRNLQDHLLGAGNLYAARKPVPPSRLQHSESMAYMRADSFTAAGQPEIVVGCGVAPIVSESFPAPAAGSAYSLLFGITHPTSRGSVRISGPELGDRLIIDPAYLQTGRDRERFRRALEASRTIGHRDELAGWRERELLPGTPNSAAEMDDFIARSVITHHHPCGTCRMGKDPDAVVDANLRLKALDNLFVVDASIMPNLTAGPIHAAVLAIAETFARQYHHHH NCDIVIVGGGSAGSLLAARLSEDPDSRVLLIEAGEEPTDPDIWNPAAWPALQGRSYDWDYRTEAQAGTAGRAHHWARGRLIGGSSLHAMGYMRGHPSDFQAWVDASGDRRWGWDELLPVFQAIEDHPLGGDGIHGKGGPLPIHLPADEVSPLARAFIEAGASLGLPRLEGHNSGEMIGVTPNSLNIRDGRRVTAADAWLTKAVRGRKNLTILTGSRVRRLKLEGNQVRSLEVVGRQGSAEVFADQIVLCAGALESPALLMRSGIGPHDVLDAAGVGLIDMPDIGRNLQDHLLGAGNLYAARKPVPPSRLQHSESMAYMRADSFTAAGQPEIVVGCGVAPIVSESFPAPAAGSAYSLLFGITHPTSRGSVRISGPELGDRLIIDPAYLQTGRDRERFRRALEASRTIGHRDELAGWRERELLPGTPNSAAEMDDFIARSVITHHHPCGTCRMGKDPDAVVDANLRLKALDNLFVVDASIMPNLTAGPIHAAVLAIAETFARQYHHHH 4ha7-a1-m1-cB_4ha7-a1-m1-cA Structural insights into the reduction mechanism of Saccharomyces cerevisia Riboflavin Biosynthesis Reductase Rib7 P33312 P33312 2.1 X-RAY DIFFRACTION 111 0.995 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 205 221 4ha9-a1-m1-cB_4ha9-a1-m1-cA EDLPQFLQNYLPNAGQTENTIVPFVTLTYAQSLDARVSRGPETKTMTHYLRHHHDGILVNSPRPIIIDTKQKWRFDGSKMQELFIKRQGKPPIVVVTSEPIIKEQHVDYAICPINDTTKLVDWKKLFEILKEEFNIRSVMVEGGANVINQLLLRSDIVNSLIITIGSTFLGSSGTEVSPPQTVNLKDMSWWKGITDVVLCARLAD EDLPQFLQNYLPNAGQTENTIVPFVTLTYAQSLDARVSRGPETKTMTHYLRHHHDGILVGSGTVLADNPGLNCKWGNSPRPIIIDTKQKWRFDGSKMQELFIKRQGKPPIVVVTSEPIIKEQHVDYAICPINDTTKLVDWKKLFEILKEEFNIRSVMVEGGANVINQLLLRSDIVNSLIITIGSTFLGSSGTEVSPPQTVNLKDMSWWKGITDVVLCARLA 4had-a1-m1-cB_4had-a1-m1-cD Crystal structure of probable oxidoreductase protein from Rhizobium etli CFN 42 Q2KDJ1 Q2KDJ1 2 X-RAY DIFFRACTION 111 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 309 309 4had-a1-m1-cA_4had-a1-m1-cC SLRFGIISTAKIGRDNVVPAIQDAENCVVTAIASRDLTRAREADRFSVPHAFGSYEELASDVIDAVYIPLPTSQHIEWSIKAADAGKHVVCEKPLALKAGDIDAVIAARDRNKVVVTEAYITYSPVWQKVRSLIDEGAIGSLRHVQGAFTYFNRDGLPDIGVYPVSTRFSTGKEPLRIQANTERDPDFGTDIYSSVKADFDDFELSFYVSTQANRQIVFHGTNGYIEVKSPFNANRWGPEEIELADRSHNESRIFRFQDSRQYRREVEAFARAVENGKEEVVTLENSKLNQKVIDAIYRASEKDGWEAV SLRFGIISTAKIGRDNVVPAIQDAENCVVTAIASRDLTRAREADRFSVPHAFGSYEELASDVIDAVYIPLPTSQHIEWSIKAADAGKHVVCEKPLALKAGDIDAVIAARDRNKVVVTEAYITYSPVWQKVRSLIDEGAIGSLRHVQGAFTYFNRDGLPDIGVYPVSTRFSTGKEPLRIQANTERDPDFGTDIYSSVKADFDDFELSFYVSTQANRQIVFHGTNGYIEVKSPFNANRWGPEEIELADRSHNESRIFRFQDSRQYRREVEAFARAVENGKEEVVTLENSKLNQKVIDAIYRASEKDGWEAV 4had-a1-m1-cD_4had-a1-m1-cA Crystal structure of probable oxidoreductase protein from Rhizobium etli CFN 42 Q2KDJ1 Q2KDJ1 2 X-RAY DIFFRACTION 28 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 309 310 4had-a1-m1-cB_4had-a1-m1-cC SLRFGIISTAKIGRDNVVPAIQDAENCVVTAIASRDLTRAREADRFSVPHAFGSYEELASDVIDAVYIPLPTSQHIEWSIKAADAGKHVVCEKPLALKAGDIDAVIAARDRNKVVVTEAYITYSPVWQKVRSLIDEGAIGSLRHVQGAFTYFNRDGLPDIGVYPVSTRFSTGKEPLRIQANTERDPDFGTDIYSSVKADFDDFELSFYVSTQANRQIVFHGTNGYIEVKSPFNANRWGPEEIELADRSHNESRIFRFQDSRQYRREVEAFARAVENGKEEVVTLENSKLNQKVIDAIYRASEKDGWEAV SLRFGIISTAKIGRDNVVPAIQDAENCVVTAIASRDLTRAREADRFSVPHAFGSYEELASDVIDAVYIPLPTSQHIEWSIKAADAGKHVVCEKPLALKAGDIDAVIAARDRNKVVVTEAYITYSPVWQKVRSLIDEGAIGSLRHVQGAFTYFNRDAGLPDIGVYPVSTRFSTGKEPLRIQANTERDPDFGTDIYSSVKADFDDFELSFYVSTQANRQIVFHGTNGYIEVKSPFNANRWGPEEIELADRSHNESRIFRFQDSRQYRREVEAFARAVENGKEEVVTLENSKLNQKVIDAIYRASEKDGWEAV 4had-a1-m1-cD_4had-a1-m1-cC Crystal structure of probable oxidoreductase protein from Rhizobium etli CFN 42 Q2KDJ1 Q2KDJ1 2 X-RAY DIFFRACTION 58 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 309 310 4had-a1-m1-cB_4had-a1-m1-cA SLRFGIISTAKIGRDNVVPAIQDAENCVVTAIASRDLTRAREADRFSVPHAFGSYEELASDVIDAVYIPLPTSQHIEWSIKAADAGKHVVCEKPLALKAGDIDAVIAARDRNKVVVTEAYITYSPVWQKVRSLIDEGAIGSLRHVQGAFTYFNRDGLPDIGVYPVSTRFSTGKEPLRIQANTERDPDFGTDIYSSVKADFDDFELSFYVSTQANRQIVFHGTNGYIEVKSPFNANRWGPEEIELADRSHNESRIFRFQDSRQYRREVEAFARAVENGKEEVVTLENSKLNQKVIDAIYRASEKDGWEAV SLRFGIISTAKIGRDNVVPAIQDAENCVVTAIASRDLTRAREADRFSVPHAFGSYEELASDVIDAVYIPLPTSQHIEWSIKAADAGKHVVCEKPLALKAGDIDAVIAARDRNKVVVTEAYITYSPVWQKVRSLIDEGAIGSLRHVQGAFTYFNRDAGLPDIGVYPVSTRFSTGKEPLRIQANTERDPDFGTDIYSSVKADFDDFELSFYVSTQANRQIVFHGTNGYIEVKSPFNANRWGPEEIELADRSHNESRIFRFQDSRQYRREVEAFARAVENGKEEVVTLENSKLNQKVIDAIYRASEKDGWEAV 4hah-a3-m1-cA_4hah-a3-m1-cB Structure of the Salmonella plasmid virulence C protein (SpvC) P0A2M9 P0A2M9 1.8 X-RAY DIFFRACTION 84 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 215 215 2z8m-a3-m1-cA_2z8m-a3-m1-cB 4h43-a3-m1-cA_4h43-a3-m1-cB PSTNKHLKNNFNSLHNQMRKMPVSHFKEALDVPDYSGMRQSGFFAMSQGFQLNNHGYDVFIHARRESPQSQGKFAGDKFHISVLRDMVPQAFQALSGLLFSEDSPVDKWKVTDMEKVVQQARVSLGAQFTLYIKPDQENSQYSASFLHKTRQFIECLESRLSENGVISGQCPESDVHPENWKYLSYRNELRSGRDGGEMQRQALREEPFYRLMTE PSTNKHLKNNFNSLHNQMRKMPVSHFKEALDVPDYSGMRQSGFFAMSQGFQLNNHGYDVFIHARRESPQSQGKFAGDKFHISVLRDMVPQAFQALSGLLFSEDSPVDKWKVTDMEKVVQQARVSLGAQFTLYIKPDQENSQYSASFLHKTRQFIECLESRLSENGVISGQCPESDVHPENWKYLSYRNELRSGRDGGEMQRQALREEPFYRLMTE 4ham-a1-m1-cA_4ham-a1-m2-cA Crystal Structure of Transcriptional Antiterminator from Listeria monocytogenes EGD-e Q8Y535 Q8Y535 1.905 X-RAY DIFFRACTION 116 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 133 133 SNAFTINTKSQLPIYEQIVQKIKEQVVKGVLQEGEKILSIREFASRIGVNPNTVSKAYQELERQEVIITVKGKGTFIANQTDKLSSPKKLAETRTKLKETILDLVYLGVNIEEIHKLADEYSQDIIGGDVVEG SNAFTINTKSQLPIYEQIVQKIKEQVVKGVLQEGEKILSIREFASRIGVNPNTVSKAYQELERQEVIITVKGKGTFIANQTDKLSSPKKLAETRTKLKETILDLVYLGVNIEEIHKLADEYSQDIIGGDVVEG 4han-a1-m1-cA_4han-a1-m1-cB Crystal structure of Galectin 8 with NDP52 peptide O00214 O00214 2.551 X-RAY DIFFRACTION 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 GSMMLSLNNLQNIIYNPVIPFVGTIPDQLDPGTLIVIRGHVPSDADRFQVDLQNGSSVKPRADVAFHFNPRFKRAGCIVCNTLINEKWGREEITYDTPFKREKSFEIVIMVLKDKFQVAVNGKHTLLYGHRIGPEKIDTLGIYGKVNIHSIGFSFSSHMRLPFAARLNTPMGPGRTVVVKGEVNANAKSFNVDLLAGKSKDIALHLNPRLNIKAFVRNSFLQESWGEEERNITSFPFSPGMYFEMIIYCDVREFKVAVNGVHSLEYKHRFKELSSIDTLEINGDIHLLEVRSW GSMMLSLNNLQNIIYNPVIPFVGTIPDQLDPGTLIVIRGHVPSDADRFQVDLQNGSSVKPRADVAFHFNPRFKRAGCIVCNTLINEKWGREEITYDTPFKREKSFEIVIMVLKDKFQVAVNGKHTLLYGHRIGPEKIDTLGIYGKVNIHSIGFSFSSHMRLPFAARLNTPMGPGRTVVVKGEVNANAKSFNVDLLAGKSKDIALHLNPRLNIKAFVRNSFLQESWGEEERNITSFPFSPGMYFEMIIYCDVREFKVAVNGVHSLEYKHRFKELSSIDTLEINGDIHLLEVRSW 4hao-a3-m2-cA_4hao-a3-m4-cB Crystal Structure of Inorganic Polyphosphate/ATP-NAD Kinase from Yersinia pestis CO92 Q8ZH09 Q8ZH09 2.551 X-RAY DIFFRACTION 41 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 283 284 4hao-a3-m1-cA_4hao-a3-m3-cB RFDCIGIVGHPHPAALATHEILYHWLKARGYAVMVEQQIAHDLNLTDAITGSLADIGQKADLAVVVGGDGNMLGAARVLARYDIKVIGVNRGNLGFLTDLDPDNALQQLSDVLEGEYLSEQRFLLETHVRSRISTAINEVVLHPGKVAHMIEFEVYIDDRFAFSQRSDGLIIATPTGSTAYSLSAGGPILTPTLDAIVLVPMFPHTLTARPLVISSSSTIRLKFSHITSDLEISCDSQIALPIQEGEEVLIRRSDFHLNLIHPKDYSYFNTLSTKLGWSKKLF RFDCIGIVGHPRHPAALATHEILYHWLKARGYAVMVEQQIAHDLNLTDAITGSLADIGQKADLAVVVGGDGNMLGAARVLARYDIKVIGVNRGNLGFLTDLDPDNALQQLSDVLEGEYLSEQRFLLETHVRSRISTAINEVVLHPGKVAHMIEFEVYIDDRFAFSQRSDGLIIATPTGSTAYSLSAGGPILTPTLDAIVLVPMFPHTLTARPLVISSSSTIRLKFSHITSDLEISCDSQIALPIQEGEEVLIRRSDFHLNLIHPKDYSYFNTLSTKLGWSKKLF 4hao-a3-m3-cB_4hao-a3-m4-cB Crystal Structure of Inorganic Polyphosphate/ATP-NAD Kinase from Yersinia pestis CO92 Q8ZH09 Q8ZH09 2.551 X-RAY DIFFRACTION 133 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 284 284 4hao-a1-m1-cA_4hao-a1-m2-cA 4hao-a2-m1-cB_4hao-a2-m2-cB 4hao-a3-m1-cA_4hao-a3-m2-cA RFDCIGIVGHPRHPAALATHEILYHWLKARGYAVMVEQQIAHDLNLTDAITGSLADIGQKADLAVVVGGDGNMLGAARVLARYDIKVIGVNRGNLGFLTDLDPDNALQQLSDVLEGEYLSEQRFLLETHVRSRISTAINEVVLHPGKVAHMIEFEVYIDDRFAFSQRSDGLIIATPTGSTAYSLSAGGPILTPTLDAIVLVPMFPHTLTARPLVISSSSTIRLKFSHITSDLEISCDSQIALPIQEGEEVLIRRSDFHLNLIHPKDYSYFNTLSTKLGWSKKLF RFDCIGIVGHPRHPAALATHEILYHWLKARGYAVMVEQQIAHDLNLTDAITGSLADIGQKADLAVVVGGDGNMLGAARVLARYDIKVIGVNRGNLGFLTDLDPDNALQQLSDVLEGEYLSEQRFLLETHVRSRISTAINEVVLHPGKVAHMIEFEVYIDDRFAFSQRSDGLIIATPTGSTAYSLSAGGPILTPTLDAIVLVPMFPHTLTARPLVISSSSTIRLKFSHITSDLEISCDSQIALPIQEGEEVLIRRSDFHLNLIHPKDYSYFNTLSTKLGWSKKLF 4har-a2-m1-cD_4har-a2-m1-cC Crystal Structure of Rubella virus capsid protein (residues 127-277) P08563 P08563 2.663 X-RAY DIFFRACTION 156 0.99 11043 (Rubella virus strain M33) 11043 (Rubella virus strain M33) 99 100 4har-a1-m1-cB_4har-a1-m1-cA 4har-a3-m1-cE_4har-a3-m1-cF 4hbe-a1-m1-cA_4hbe-a1-m1-cB 5khe-a1-m1-cA_5khe-a1-m1-cB 5khf-a1-m1-cA_5khf-a1-m1-cB TEACVTSWLWSEGEGAVFYRVDLHFTNLGTPPLDEDGRWDPALMYNPCGPEPPAHVVRAYNQPAGDVRGVWGKGERTYAEQDFRVGGTRWHRLLRMPVR EACVTSWLWSEGEGAVFYRVDLHFTNLGTPPLDEDGRWDPALMYNPCGPEPPAHVVRAYNQPAGDVRGVWGKGERTYAEQDFRVGGTRWHRLLRMPVRGL 4hb1-a1-m1-cA_4hb1-a1-m2-cA A DESIGNED FOUR HELIX BUNDLE PROTEIN. 2.9 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 44 44 EELLKQALQQAQQLLQQAQELAKEELLKQALQQAQQLLQQAQEL EELLKQALQQAQQLLQQAQELAKEELLKQALQQAQQLLQQAQEL 4hbo-a2-m1-cB_4hbo-a2-m3-cB Crystal Structure of Rubella virus capsid protein (residues 127-277) P08563 P08563 3.241 X-RAY DIFFRACTION 98 1.0 11043 (Rubella virus strain M33) 11043 (Rubella virus strain M33) 75 75 4hbo-a1-m1-cA_4hbo-a1-m2-cA 4hbo-a3-m1-cC_4hbo-a3-m4-cC 4hbo-a4-m1-cD_4hbo-a4-m5-cD 4hbo-a5-m1-cE_4hbo-a5-m4-cE ACVTSWLWSEGEGAVFYRVDLHFYNPCGPEPPAHVVRAYNQPAGDVRGVWGKGERTYAEQDFRVGGTRWHRLLRP ACVTSWLWSEGEGAVFYRVDLHFYNPCGPEPPAHVVRAYNQPAGDVRGVWGKGERTYAEQDFRVGGTRWHRLLRP 4hbq-a3-m1-cA_4hbq-a3-m1-cB Crystal structure of a loop deleted mutant of Human MAdCAM-1 D1D2 Q13477 Q13477 1.4 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 206 VKPLQVEPPEPVVAVALGASRQLTCRLACADRGASVQWRGLDTSLGAVQSDTGRSVLTVRNASLSAAGTRVCVGSCGGRTFQHTVQLLVYAFPNQLTVSPAALVPGDPEVACTAHKVTPVDPNALSFSLLVGGQELEGAQALGPEVQQEPIGGDVLFRVTERWRLPPLGTPVPPALYCQATMRLPGLELSHRQAIPVLGGENLYFQ VKPLQVEPPEPVVAVALGASRQLTCRLACADRGASVQWRGLDTSLGAVQSDTGRSVLTVRNASLSAAGTRVCVGSCGGRTFQHTVQLLVYAFPNQLTVSPAALVPGDPEVACTAHKVTPVDPNALSFSLLVGGQELEGAQALGPEVQQEPIGGDVLFRVTERWRLPPLGTPVPPALYCQATMRLPGLELSHRQAIPVLGGENLYFQ 4hc5-a2-m1-cC_4hc5-a2-m1-cD Crystal structure of member of Glyoxalase/bleomycin resistance protein/dioxygenase superfamily from Sphaerobacter thermophilus DSM 20745 D1C967 D1C967 1.45 X-RAY DIFFRACTION 128 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 121 126 4hc5-a1-m1-cA_4hc5-a1-m1-cB LIAYVHSATIIVSDQEKALDFYVNTLGFEKVFDNQLDPNRFVTVVPPGAQTQVALGLPSWYEDGRKPGGYTGISLITRDIDEAYKTLTERGVTFTKPPEPWGQRATWFSDPDGNQFFLVEE ARKGSLIAYVHSATIIVSDQEKALDFYVNTLGFEKVFDNQLDPNRFVTVVPPGAQTQVALGLPSWYEDGRKPGGYTGISLITRDIDEAYKTLTERGVTFTKPPEPWGQRATWFSDPDGNQFFLVEE 4hc6-a1-m2-cA_4hc6-a1-m3-cA Mycobacterium tuberculosis Rv2523cE77A x-ray structure solved with 1.8 angstrom resolution P9WQD3 P9WQD3 1.8 X-RAY DIFFRACTION 40 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 129 129 4hc6-a1-m1-cA_4hc6-a1-m2-cA 4hc6-a1-m1-cA_4hc6-a1-m3-cA GIVGVGIDLVSIPDFAEQVDQPGTVFAETFTPGERRDASDKSSSAARHLAARWAAKEAVIKAWSGSRFAQRPVLPADIHRDIEVVTDMWGRPRVRLTGAIAEYLADVTIHVSLTHEGDTAAAVAILEAP GIVGVGIDLVSIPDFAEQVDQPGTVFAETFTPGERRDASDKSSSAARHLAARWAAKEAVIKAWSGSRFAQRPVLPADIHRDIEVVTDMWGRPRVRLTGAIAEYLADVTIHVSLTHEGDTAAAVAILEAP 4hce-a1-m1-cA_4hce-a1-m1-cB Crystal structure of the telomeric Saccharomyces cerevisiae Cdc13 OB2 domain P32797 P32797 2.3 X-RAY DIFFRACTION 91 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 129 130 ISYEQLSLASVGSVERLEGKIVGMNPPQFASINEFKYCTLKLYFTQLLPNVPDKVLVPGVNCIEIVIPTRERICELFGVLNCQSDKISDILLLEKPDRISVEVERILWDNDKTASPGMAVWSLKNISTD ISYEQLSLASVGSVERLEGKIVGMNPPQFASINEFKYCTLKLYFTQLLPNVPDKVLVPGVNCIEIVIPTRERICELFGVLNCQSDKISDILLLEKPDRISVEVERILWDNDKTASPGMAVWSLKNISTDT 4hcf-a3-m1-cA_4hcf-a3-m2-cB Crystal Structure of Uncharacterized Cupredoxin-like Domain Protein Cupredoxin_1 with Copper Bound from Bacillus anthracis A0A6L7H6L8 A0A6L7H6L8 1.703 X-RAY DIFFRACTION 28 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 87 95 AKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK DLAQPIASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK 4hcg-a1-m1-cB_4hcg-a1-m1-cA Uncharacterized Cupredoxin-like Domain Protein Cupredoxin_1 with Zinc bound from Bacillus anthracis A0A6L7H6L8 A0A6L7H6L8 1.847 X-RAY DIFFRACTION 27 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 89 94 ASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK LAQPIASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK 4hcg-a2-m2-cB_4hcg-a2-m1-cA Uncharacterized Cupredoxin-like Domain Protein Cupredoxin_1 with Zinc bound from Bacillus anthracis A0A6L7H6L8 A0A6L7H6L8 1.847 X-RAY DIFFRACTION 20 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 89 94 ASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK LAQPIASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK 4hcg-a3-m3-cB_4hcg-a3-m1-cA Uncharacterized Cupredoxin-like Domain Protein Cupredoxin_1 with Zinc bound from Bacillus anthracis A0A6L7H6L8 A0A6L7H6L8 1.847 X-RAY DIFFRACTION 53 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 89 94 ASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK LAQPIASAKVIEVELNDDYFNPNVITIPINESTTLLLKNKGKSEHTFTIKKLGIDVVVESGKEKNITVKPKSAGTYELICRYHLLKGEGKVIVK 4hcx-a1-m1-cA_4hcx-a1-m1-cB Structure of ICDH-1 from M.tuberculosis complexed with NADPH & Mn2+ P9WKL1 P9WKL1 2.18 X-RAY DIFFRACTION 243 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 402 402 PKIKVSGPVVELDGDEMTRVIWKLIKDMLILPYLDIRLDYYDLGIEHRDATDDQVTIDAAYAIKKHGVGVKCATITPDEARVEEFNLKKMWLSPNGTIRNILGGTIFREPIVISNVPRLVPGWTKPIVIGRHAFGDQYRATNFKVDQPGTVTLTFTPADGSAPIVHEMVSIPEDGGVVLGMYNFKESIRDFARASFSYGLNAKWPVYLSTKNTILKAYDGMFKDEFERVYEEEFKAQFEAAGLTYEHRLIDDMVAACLKWEGGYVWACKNYDGDVQSDTVAQGYGSLGLMTSVLMTADGKTVEAEAAHGTVTRHYRQYQAGKPTSTNPIASIFAWTRGLQHRGKLDGTPEVIDFAHKLESVVIATVESGKMTKDLAILIGPEQDWLNSEEFLDAIADNLEKE PKIKVSGPVVELDGDEMTRVIWKLIKDMLILPYLDIRLDYYDLGIEHRDATDDQVTIDAAYAIKKHGVGVKCATITPDEARVEEFNLKKMWLSPNGTIRNILGGTIFREPIVISNVPRLVPGWTKPIVIGRHAFGDQYRATNFKVDQPGTVTLTFTPADGSAPIVHEMVSIPEDGGVVLGMYNFKESIRDFARASFSYGLNAKWPVYLSTKNTILKAYDGMFKDEFERVYEEEFKAQFEAAGLTYEHRLIDDMVAACLKWEGGYVWACKNYDGDVQSDTVAQGYGSLGLMTSVLMTADGKTVEAEAAHGTVTRHYRQYQAGKPTSTNPIASIFAWTRGLQHRGKLDGTPEVIDFAHKLESVVIATVESGKMTKDLAILIGPEQDWLNSEEFLDAIADNLEKE 4hdh-a3-m1-cA_4hdh-a3-m1-cB Crystal Structure of viral RdRp in complex with ATP P27395 P27395 2.28 X-RAY DIFFRACTION 64 1.0 11072 (Japanese encephalitis virus) 11072 (Japanese encephalitis virus) 613 613 4hdg-a3-m1-cA_4hdg-a3-m1-cB SNQEKIKKRIQKLKEEFATTWHKDPEHPYRTWTYHGSYEVKATGLVNGVVKLMSKPWDAIANVTTMAMTDTTPFGQQRVFKEKVDTKAPEPPAGVREVLNETTNWLWAHLSREKRPRLCTKEEFIKKVNSNAALGAVFAEQNQWSTAREAVNDPRFWEMVDEERENHLRGECHTCIYNMMGKREKKPGEFGKAKGSRAIWFMWLGARYLEFEALGFLNEDHWLSRENSGGGVEGSGVQKLGYILRDIAGKQGGKMYADDTAGWDTRITRTDLENEAKVLELLDGEHRMLARAIIELTYRHKVVKVMRPAAEGKTVMDVISREDQRGSGQVVTYALNTFTNIAVQLVRLMEAEGVIGPQHLEQLPRKNKIAVRTWLFENGEERVTRMAISGDDCVVKPLDDRFATALHFLNAMSKVRKDIQEWKPSHGWHDWQQVPFCSNHFQEIVMKDGRSIVVPCRGQDELIGRARISPGAGWNVKDTACLAKAYAQMWLLLYFHRRDLRLMANAICSAVPVDWVPTGRTSWSIHSKGEWMTTEDMLQVWNRVWIEENEWMMDKTPIASWTDVPYVGKREDIWCGSLIGTRSRATWAENIYAAINQVRAVIGKENYVDYMTS SNQEKIKKRIQKLKEEFATTWHKDPEHPYRTWTYHGSYEVKATGLVNGVVKLMSKPWDAIANVTTMAMTDTTPFGQQRVFKEKVDTKAPEPPAGVREVLNETTNWLWAHLSREKRPRLCTKEEFIKKVNSNAALGAVFAEQNQWSTAREAVNDPRFWEMVDEERENHLRGECHTCIYNMMGKREKKPGEFGKAKGSRAIWFMWLGARYLEFEALGFLNEDHWLSRENSGGGVEGSGVQKLGYILRDIAGKQGGKMYADDTAGWDTRITRTDLENEAKVLELLDGEHRMLARAIIELTYRHKVVKVMRPAAEGKTVMDVISREDQRGSGQVVTYALNTFTNIAVQLVRLMEAEGVIGPQHLEQLPRKNKIAVRTWLFENGEERVTRMAISGDDCVVKPLDDRFATALHFLNAMSKVRKDIQEWKPSHGWHDWQQVPFCSNHFQEIVMKDGRSIVVPCRGQDELIGRARISPGAGWNVKDTACLAKAYAQMWLLLYFHRRDLRLMANAICSAVPVDWVPTGRTSWSIHSKGEWMTTEDMLQVWNRVWIEENEWMMDKTPIASWTDVPYVGKREDIWCGSLIGTRSRATWAENIYAAINQVRAVIGKENYVDYMTS 4he4-a1-m1-cA_4he4-a1-m1-cB Crystal structure of the yellow fluorescent protein phiYFP (Phialidium sp.) Q6RYS7 Q6RYS7 2.05 X-RAY DIFFRACTION 72 1.0 258839 (Phialidium sp. SL-2003) 258839 (Phialidium sp. SL-2003) 231 231 GSSGALLFHGKIPYVVEMEGNVDGHTFSIRGKGYGDASVGKVDAQFICTTGDVPVPWSTLVTTLAQCFAKYGPELKDFYKSCMPDGYVQERTITFEGDGNFKTRAEVTFENGSVYNRVKLNGQGFKKDGHVLGKNLEFNFTPHCLYIWGDQANHGLKSAFKICHEITGSKGDFIVADHTQMNTPIGGGPVHVPEYHHMSYHVKLSKDVTDHRDNMSLKETVRAVDCRKTYD GSSGALLFHGKIPYVVEMEGNVDGHTFSIRGKGYGDASVGKVDAQFICTTGDVPVPWSTLVTTLAQCFAKYGPELKDFYKSCMPDGYVQERTITFEGDGNFKTRAEVTFENGSVYNRVKLNGQGFKKDGHVLGKNLEFNFTPHCLYIWGDQANHGLKSAFKICHEITGSKGDFIVADHTQMNTPIGGGPVHVPEYHHMSYHVKLSKDVTDHRDNMSLKETVRAVDCRKTYD 4heb-a1-m1-cA_4heb-a1-m1-cB The Crystal structure of Maf protein of Bacillus subtilis Q02169 Q02169 2.26 X-RAY DIFFRACTION 61 0.984 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 182 183 1exc-a2-m1-cA_1exc-a2-m2-cB KPLILASQSPRRKELLDLLQLPYSIIVSEVEKLNRNFSPEENVQWLAKQKAKAVADLHPHAIVIGADTMVCLDGECLGKPQDQEEAASMLRRLSGRSHSVITAVSIQAENHSETFYDKTEVAFWSLSEEEIWTYIETKEPMDKAGAYGIQGRGALFVKKIDGDYYSVMGLPISKTMRALRHF TKPLILASQSPRRKELLDLLQLPYSIIVSEVNRNFSPEENVQWLAKQKAKAVADLHPHAIVIGADTMVCLDGECLGKPQDQEEAASMLRRLSGRSHSVITAVSIQAENHSETFYDKTEVAFWSLSEEEIWTYIETKEPMDKAGAYGIQGRGALFVKKIDGDYYSVMGLPISKTMRALRHFDIR 4hei-a3-m1-cB_4hei-a3-m1-cA 2A X-RAY STRUCTURE OF HPF from VIBRIO CHOLERAE H9L4N9 H9L4N9 1.6 X-RAY DIFFRACTION 25 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 91 92 MQINIQGHHIDLTDSMQDYVHSKFDKLERFFDHINHVQVILRVEKLRQIAEATLHVNQAEIHAHADDENMYAAIDSLVDKLVRQLNKHKEK MQINIQGHHIDLTDSMQDYVHSKFDKLERFFDHINHVQVILRVEKLRQIAEATLHVNQAEIHAHADDENMYAAIDSLVDKLVRQLNKHKEKL 4heq-a1-m1-cA_4heq-a1-m1-cB The crystal structure of flavodoxin from Desulfovibrio gigas Q01095 Q01095 1.3 X-RAY DIFFRACTION 42 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 145 145 PKALIVYGSTTGNTEGVAEAIAKTLNSEGMETTVVNVADVTAPGLAEGYDVVLLGCSTWGDDEIELQEDFVPLYEDLDRAGLKDKKVGVFGCGDSSYTYFCGAVDVIEKKAEELGATLVASSLKIDGEPDSAEVLDWAREVLARV PKALIVYGSTTGNTEGVAEAIAKTLNSEGMETTVVNVADVTAPGLAEGYDVVLLGCSTWGDDEIELQEDFVPLYEDLDRAGLKDKKVGVFGCGDSSYTYFCGAVDVIEKKAEELGATLVASSLKIDGEPDSAEVLDWAREVLARV 4hes-a3-m1-cE_4hes-a3-m2-cE Structure of a Beta-Lactamase Class A-like Protein from Veillonella parvula. D1BLB4 D1BLB4 1.9 X-RAY DIFFRACTION 60 1.0 479436 (Veillonella parvula DSM 2008) 479436 (Veillonella parvula DSM 2008) 256 256 4hes-a1-m1-cA_4hes-a1-m1-cB 4hes-a2-m1-cC_4hes-a2-m1-cD IVGKSLEHQLDTVIKELAPAGNISYAVLQFDDEEEPTLIAARGENTVHSSASLIKVLIEYVFHLARTEQLDINDTVPLSRTPRVEGGGALQELVGKHSFTYLELCRLVLSDNIATNLLITVLGENINARAEKLGVDEELNRDFNALAEGRDNHITASLARLYKHIFECRDRDVYGREWNILGRQQFRDILPFYWGEGIRFHHKTGSLDRVEHDGGVIETFRGHFCFILLSDIDNDRGKELGAQVGRIKEFVEEALP IVGKSLEHQLDTVIKELAPAGNISYAVLQFDDEEEPTLIAARGENTVHSSASLIKVLIEYVFHLARTEQLDINDTVPLSRTPRVEGGGALQELVGKHSFTYLELCRLVLSDNIATNLLITVLGENINARAEKLGVDEELNRDFNALAEGRDNHITASLARLYKHIFECRDRDVYGREWNILGRQQFRDILPFYWGEGIRFHHKTGSLDRVEHDGGVIETFRGHFCFILLSDIDNDRGKELGAQVGRIKEFVEEALP 4hf0-a2-m2-cB_4hf0-a2-m1-cA Crystal Structure of Apo IscR P0AGK8 P0AGK8 1.9 X-RAY DIFFRACTION 46 0.983 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 118 120 4hf0-a2-m1-cB_4hf0-a2-m2-cA MRLTSKGRYAVTAMLDVALNSEAGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDASSIAVGEVISAVDDKALTHALWRDLSDRLTGFLNNITLGELVNNQGG MRLTSKGRYAVTAMLDVALNSEAGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDASSIAVGEVISAVDAQGGDKALTHALWRDLSDRLTGFLNNITLGELVNNQ 4hf0-a2-m2-cB_4hf0-a2-m2-cA Crystal Structure of Apo IscR P0AGK8 P0AGK8 1.9 X-RAY DIFFRACTION 88 0.983 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 118 120 4hf0-a1-m1-cB_4hf0-a1-m1-cA 4hf0-a2-m1-cB_4hf0-a2-m1-cA 4hf2-a1-m1-cA_4hf2-a1-m1-cB MRLTSKGRYAVTAMLDVALNSEAGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDASSIAVGEVISAVDDKALTHALWRDLSDRLTGFLNNITLGELVNNQGG MRLTSKGRYAVTAMLDVALNSEAGPVPLADISERQGISLSYLEQLFSRLRKNGLVSSVRGPGGGYLLGKDASSIAVGEVISAVDAQGGDKALTHALWRDLSDRLTGFLNNITLGELVNNQ 4hf7-a1-m1-cA_4hf7-a1-m2-cA Crystal structure of a GDSL-like lipase (BT0569) from Bacteroides thetaiotaomicron VPI-5482 at 1.77 A resolution Q8AA96 Q8AA96 1.77 X-RAY DIFFRACTION 48 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 200 200 EFANYKRYATENAALAQPVKKEKRVVFGNITEGWVRTHPDFFKTNGYIGRGISGQTSYQFLLRFREDVINLSPALVVINAGTNDVAENTGAYNEDYTFGNIASAELAKANKIKVILTSVLPAAEFPWRREIKDAPQKIQSLNARIEAYAKANKIPFVNYYQPVVGENKALNPQYTKDGVHPTGEGYDIEALIKQAIEKAL EFANYKRYATENAALAQPVKKEKRVVFGNITEGWVRTHPDFFKTNGYIGRGISGQTSYQFLLRFREDVINLSPALVVINAGTNDVAENTGAYNEDYTFGNIASAELAKANKIKVILTSVLPAAEFPWRREIKDAPQKIQSLNARIEAYAKANKIPFVNYYQPVVGENKALNPQYTKDGVHPTGEGYDIEALIKQAIEKAL 4hfl-a2-m1-cA_4hfl-a2-m2-cA Crystal structure of the type VI effector Tae4 from Enterobacter cloacae A0A0H3CIJ2 A0A0H3CIJ2 2.002 X-RAY DIFFRACTION 38 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 159 159 MSHMRPAFGAAWNRFKEVNVNVEQVGKLLGGKVQHNIDAGIFKNACPIRMSYVLNYCGIPVPSNSKYATVTGSDKKRYMFRVKDMIAFLPTVLGKADISVSSPTPAQFAGKQGIIIFTGHGWLDATGHVTLWNGNICSDDCHFLNGSFIPTNATFWSLK MSHMRPAFGAAWNRFKEVNVNVEQVGKLLGGKVQHNIDAGIFKNACPIRMSYVLNYCGIPVPSNSKYATVTGSDKKRYMFRVKDMIAFLPTVLGKADISVSSPTPAQFAGKQGIIIFTGHGWLDATGHVTLWNGNICSDDCHFLNGSFIPTNATFWSLK 4hfm-a1-m1-cB_4hfm-a1-m1-cA X-ray Crystal Structure of a NADP(H)-bound Double Bond Reductase from Nicotiana tabacum Q9SLN8 Q9SLN8 1.9 X-RAY DIFFRACTION 77 0.997 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 324 333 4hfj-a1-m1-cB_4hfj-a1-m1-cA 4hfn-a1-m1-cB_4hfn-a1-m1-cA AEEVSNKQVILKNYVPKESDMEIKNVTIKLKVPEGSNDVVVKNLYLSCDPYMRSRMRESFAPGSPITGYGVAKVLESGDPKFQKGDLVWGMTGWEEYSIITPTLFKIHDKDVPLSYYTGILGMPGMTAYAGFHEVCSPKKGETVFVSAASGAVGQLVGQFAKMLGCYVVGSAGSKEKVDLLKSKFGFDEAFNYKEEQDLSAALKRYFPDGIDIYFENVGGKMLDAVLVNMKLYGRIAVCGMISQEGVHNLFCLITKRIRMEGFLVFDYYHLYPKYLEMVIPQIKAGKVVYVEDVAHGLESAPTALVGLFSGRNIGKQVVMVSRE AEEVSNKQVILKNYVTGYPKESDMEIKNVTIKLKVPEGSNDVVVKNLYLSCDPYMRSRMRKESFAPGSPITGYGVAKVLESGDPKFQKGDLVWGMTGWEEYSIITPTLFKIHDKDVPLSYYTGILGMPGMTAYAGFHEVCSPKKGETVFVSAASGAVGQLVGQFAKMLGCYVVGSAGSKEKVDLLKSKFGFDEAFNYKEEQDLSAALKRYFPDGIDIYFENVGGKMLDAVLVNMKLYGRIAVCGMISQYNLEQTEGVHNLFCLITKRIRMEGFLVFDYYHLYPKYLEMVIPQIKAGKVVYVEDVAHGLESAPTALVGLFSGRNIGKQVVMVSR 4hfq-a1-m1-cA_4hfq-a1-m1-cB Crystal structure of UDP-X diphosphatase A0A0H2URA0 A0A0H2URA0 1.39 X-RAY DIFFRACTION 205 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 203 203 MKTSDFVKYLQRMIAITDTGLTFTKDPFDRERYEDLRSLLSEMLNQASDLDSEEVAEVLKPTSAYATPLMDVRAWIVEDEKICLVRGQGEDSWALPGGFGEVGYSPTENILKEIEEETGFKAKVERLLAVFDTNRFQLQSKQYTKFVFGCKLLDGQFQENQEIADLQFFAIDQLPNLSEKRITKEQIELLWQVYQGHRGQYLD MKTSDFVKYLQRMIAITDTGLTFTKDPFDRERYEDLRSLLSEMLNQASDLDSEEVAEVLKPTSAYATPLMDVRAWIVEDEKICLVRGQGEDSWALPGGFGEVGYSPTENILKEIEEETGFKAKVERLLAVFDTNRFQLQSKQYTKFVFGCKLLDGQFQENQEIADLQFFAIDQLPNLSEKRITKEQIELLWQVYQGHRGQYLD 4hfs-a1-m1-cA_4hfs-a1-m1-cB Crystal structure of an uncharacterized protein (yncM) from Bacillus subtilis subsp. subtilis str. 168 at 1.55 A resolution O31803 O31803 1.55 X-RAY DIFFRACTION 54 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 200 200 ASELPNGIGGRVYLNSTGAVFTAKIVLPETVKNNDSVSTPYIYSGFRATSGTEADIGLQYSKQYNVWKPLKVGSKNEETYIEGKDKFTYNKGFRPGSTVQTIYKNLSGNTRTLWGTNNDGYTGRIITEIQGTNIGTISKWKTLATAAVSYESQRDAIKATFSTSFNNITIDNKAVTPVVDTQDFAKVSVAGNNVTISVNK ASELPNGIGGRVYLNSTGAVFTAKIVLPETVKNNDSVSTPYIYSGFRATSGTEADIGLQYSKQYNVWKPLKVGSKNEETYIEGKDKFTYNKGFRPGSTVQTIYKNLSGNTRTLWGTNNDGYTGRIITEIQGTNIGTISKWKTLATAAVSYESQRDAIKATFSTSFNNITIDNKAVTPVVDTQDFAKVSVAGNNVTISVNK 4hfu-a2-m6-cH_4hfu-a2-m2-cH Crystal structure of Fab 8M2 in complex with a H2N2 influenza virus hemagglutinin 3.106 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 4hfu-a2-m4-cH_4hfu-a2-m1-cH 4hfu-a2-m5-cH_4hfu-a2-m3-cH VQLVESGADMKPPGSSVKVPCKASGDTFSSYTITWVRQAPGQGLEWMGGITPIFGSPNYAQRFQDRVIITADESTSTAYMEVSNLRSEDTAVYFCARVGGEWGSGRYYLDHWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKS VQLVESGADMKPPGSSVKVPCKASGDTFSSYTITWVRQAPGQGLEWMGGITPIFGSPNYAQRFQDRVIITADESTSTAYMEVSNLRSEDTAVYFCARVGGEWGSGRYYLDHWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKS 4hfu-a2-m6-cL_4hfu-a2-m1-cL Crystal structure of Fab 8M2 in complex with a H2N2 influenza virus hemagglutinin 3.106 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 4hfu-a2-m4-cL_4hfu-a2-m3-cL 4hfu-a2-m5-cL_4hfu-a2-m2-cL DIQLTQSPASLSVSPGERATLSCRASQSVAGNLAWYQQKPGQAPRLLIYGASTRATGIPARFSGSGSGTEFTLTITSLQSEDFAVYYCQQYNNWPPWTFGQGTKVDIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG DIQLTQSPASLSVSPGERATLSCRASQSVAGNLAWYQQKPGQAPRLLIYGASTRATGIPARFSGSGSGTEFTLTITSLQSEDFAVYYCQQYNNWPPWTFGQGTKVDIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG 4hfv-a1-m1-cA_4hfv-a1-m2-cA Crystal structure of lpg1851 protein from Legionella pneumophila (putative T4SS effector) Q5ZUE7 Q5ZUE7 1.901 X-RAY DIFFRACTION 45 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 187 187 SFELVAYEKLKGSIRESIITLIKSHNEKAKIIEDKLEYSVKEVSRERQPQVLVLLKTIELLDNSSKEPEDKARVLNALAYYIRDQIAATYKYTSPDNSDFYKSLTISLDLNKDNNPNREDLADYSALEKFLRSHVYKNSDPRKGYLDKQPFAIKHYSVVDDILELSDRVHKLRHEIIIAARDLHLLQ SFELVAYEKLKGSIRESIITLIKSHNEKAKIIEDKLEYSVKEVSRERQPQVLVLLKTIELLDNSSKEPEDKARVLNALAYYIRDQIAATYKYTSPDNSDFYKSLTISLDLNKDNNPNREDLADYSALEKFLRSHVYKNSDPRKGYLDKQPFAIKHYSVVDDILELSDRVHKLRHEIIIAARDLHLLQ 4hg5-a1-m1-cC_4hg5-a1-m1-cA Structural insights into yeast Nit2: wild-type yeast Nit2 in complex with oxaloacetate P47016 P47016 1.91 X-RAY DIFFRACTION 104 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 301 304 4h5u-a1-m2-cC_4h5u-a1-m1-cA 4h5u-a2-m3-cD_4h5u-a2-m1-cB 4hg3-a1-m1-cC_4hg3-a1-m1-cA 4hg3-a2-m1-cD_4hg3-a2-m1-cB 4hg5-a2-m1-cD_4hg5-a2-m1-cB 4hgd-a1-m1-cD_4hgd-a1-m1-cA 4hgd-a2-m1-cB_4hgd-a2-m1-cC LKRVAVAQLCSSADLTKNLKVVKELISEAIQKKADVVFLPEASDYLSQNPLHSRYLAQKSPKFIRQLQSSITDLVRDNSRNIDVSIGVHLPPSEQDLLEGNDRVRNVLLYIDHEGKILQEYQKLHLFDVDVPNPILKESKSVQPGKAIPDIIESPLGKLGSAICYDIRFPEFSLKLRSMGAEILCFPSAFTIKTGEAHWELLGRARAVDTQCYVLMPGQVGMHDLSDPEWEKQSHMSALEKSSRRESWGHSMVIDPWGKIIAHADPSTVGPQLILADLDRELLQEIRNKMPLWNQRRDDLF KLKRVAVAQLCSSADLTKNLKVVKELISEAIQKKADVVFLPEASDYLSQNPLHSRYLAQKSPKFIRQLQSSITDLVRDNSRNIDVSIGVHLPPSEQDLLEGNDRVRNVLLYIDHEGKILQEYQKLHLFDVDVPNGPILKESKSVQPGKAIPDIIESPLGKLGSAICYDIRFPEFSLKLRSMGAEILCFPSAFTIKTGEAHWELLGRARAVDTQCYVLMPGQVGMHDLSDPEWEKQSHMSALEKSSRRESWGHSMVIDPWGKIIAHADPSTVGPQLILADLDRELLQEIRNKMPLWNQRRDDLFH 4hgn-a1-m1-cA_4hgn-a1-m1-cC Crystal Structure of 2-keto-3-deoxyoctulosonate 8-phosphate PHOSPHOHYDROLASE from Bacteroides thetaiotaomicron Q8A748 Q8A748 1.8 X-RAY DIFFRACTION 61 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 165 165 4hgn-a1-m1-cB_4hgn-a1-m1-cA 4hgn-a1-m1-cB_4hgn-a1-m1-cD 4hgn-a1-m1-cC_4hgn-a1-m1-cD STINYDLSRIKALAFDVDGVLSSTTVPLHPSGEPMRTVNIKDGYAIQLAVKKGLHIAIITGGRTEAVRIRFAALGVKDLYMGSAVKIHDYRNFRDKYGLSDDEILYMGDDVPDIEVMRECGLPCCPKDAVPEVKSVAKYISYADGGRGCGRDVVEQVLKAHGKWM STINYDLSRIKALAFDVDGVLSSTTVPLHPSGEPMRTVNIKDGYAIQLAVKKGLHIAIITGGRTEAVRIRFAALGVKDLYMGSAVKIHDYRNFRDKYGLSDDEILYMGDDVPDIEVMRECGLPCCPKDAVPEVKSVAKYISYADGGRGCGRDVVEQVLKAHGKWM 4hgv-a1-m1-cB_4hgv-a1-m1-cD Crystal structure of a fumarate hydratase Q92PB6 Q92PB6 2.09 X-RAY DIFFRACTION 115 0.986 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 443 443 4hgv-a1-m1-cC_4hgv-a1-m1-cA STRTETDTFGPIEVASDRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARANALGRLDPAIGDAIVKAAQEVIDGKLDEHFPLVVWQTGSGTQSNNANEVVSNRAIELLGGVGSKKPVHPNDHVNSQSSNDTYPTAHIACAERVIHDLLPALKHLHKALEEKVKAFDHIIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIETLPGLCELAQGGTAVGTGLNAPVGFAEKVAEEIAAITGIGFTSAPNKFEALAAHDSVFSHGAINATAAALFKIANDIRFLGSGPRSGLGELSLPENEPKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNVYNPLAYNFLQSVQLLADAAISFTDNCVVGIEAREDNIKAALDRSLLVTALAPKIGYDNAAKIAKTAHKNGTTLREEAVGGGYVTDEEFDAVVRPETIGP STRTETDTFGPIEVASDRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARANALGRLDPAIGDAIVKAAQEVIDGKLDEHFPLVVWQTGSGTQSNNANEVVSNRAIELLGGVGSKKPVHPNDHVNSQSSNDTYPTAHIACAERVIHDLLPALKHLHKALEEKVKAFDHIIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIETLPGLCELAQGGTAVGTGLNAPVGFAEKVAEEIAAITGIGFTSAPNKFEALAAHDSVFSHGAINATAAALFKIANDIRFLGSGPRSGLGELSLPENEPGSSIPGKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNVYNPLAYNFLQSVQLLADAAISFTDNCVVGIEAREDNIKAALDRSLLVTGYDNAAKIAKTAHKNGTTLREEAVGGGYVTDEEFDAVVRPETIGP 4hgv-a1-m1-cC_4hgv-a1-m1-cD Crystal structure of a fumarate hydratase Q92PB6 Q92PB6 2.09 X-RAY DIFFRACTION 242 0.985 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 400 443 4hgv-a1-m1-cB_4hgv-a1-m1-cA STRTETDTFGPIEVASDRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARANALGRLDPAIGDAIVKAAQEVIDGKLDEHFPLVVWQTGSGTQSNNANEVVSNRAIELLGGVGSKKPVHPNDHVNSQSSNDTYPTAHIACAERVIHDLLPALKHLHKALEEKVKAFDHIIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIETLPGLCELAQGGTAVGTGLNAPVGFAEKVAEEIAAITGIGFTSAPNKFEALAAHDSVFSHGAINATAAALFKIANDIRFLGSGPRSGLGELSLPENEPGSPGKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNVYNPLAYNFLQSVQLLADAAISFTDNCVVGIEAREDNIKAALDRSLLPETIGP STRTETDTFGPIEVASDRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARANALGRLDPAIGDAIVKAAQEVIDGKLDEHFPLVVWQTGSGTQSNNANEVVSNRAIELLGGVGSKKPVHPNDHVNSQSSNDTYPTAHIACAERVIHDLLPALKHLHKALEEKVKAFDHIIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIETLPGLCELAQGGTAVGTGLNAPVGFAEKVAEEIAAITGIGFTSAPNKFEALAAHDSVFSHGAINATAAALFKIANDIRFLGSGPRSGLGELSLPENEPGSSIPGKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNVYNPLAYNFLQSVQLLADAAISFTDNCVVGIEAREDNIKAALDRSLLVTGYDNAAKIAKTAHKNGTTLREEAVGGGYVTDEEFDAVVRPETIGP 4hgv-a1-m1-cD_4hgv-a1-m1-cA Crystal structure of a fumarate hydratase Q92PB6 Q92PB6 2.09 X-RAY DIFFRACTION 173 0.991 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 443 446 STRTETDTFGPIEVASDRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARANALGRLDPAIGDAIVKAAQEVIDGKLDEHFPLVVWQTGSGTQSNNANEVVSNRAIELLGGVGSKKPVHPNDHVNSQSSNDTYPTAHIACAERVIHDLLPALKHLHKALEEKVKAFDHIIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIETLPGLCELAQGGTAVGTGLNAPVGFAEKVAEEIAAITGIGFTSAPNKFEALAAHDSVFSHGAINATAAALFKIANDIRFLGSGPRSGLGELSLPENEPGSSIPGKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNVYNPLAYNFLQSVQLLADAAISFTDNCVVGIEAREDNIKAALDRSLLVTGYDNAAKIAKTAHKNGTTLREEAVGGGYVTDEEFDAVVRPETIGP STRTETDTFGPIEVASDRYWGAQAQRSLGNFKIGWEKQPLAIVRALGIVKQAAARANALGRLDPAIGDAIVKAAQEVIDGKLDEHFPLVVWQTGSGTQSNNANEVVSNRAIELLGGVGSKKPVHPNDHVNSQSSNDTYPTAHIACAERVIHDLLPALKHLHKALEEKVKAFDHIIKIGRTHTQDATPLTLGQEFSGYAAQVASSIKRIETLPGLCELAQGGTAVGTGLNAPVGFAEKVAEEIAAITGIGFTSAPNKFEALAAHDSVFSHGAINATAAALFKIANDIRFLGSGPRSGLGELSLPENEPGSKVNPTQCEALTQVCVQVFGNHAALTFAGSQGHFELNVYNPLAYNFLQSVQLLADAAISFTDNCVVGIEAREDNIKAALDRSLLVTALAPKIGYDNAAKIAKTAHKNGTTLREEAVGGGYVTDEEFDAVVRPETIGPA 4hh2-a1-m1-cA_4hh2-a1-m1-cD Structure of PpsR without the HTH motif from Rb. sphaeroides Q3J179 Q3J179 2.8 X-RAY DIFFRACTION 57 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 370 373 SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADAVGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADATQPVGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS 4hh2-a1-m1-cB_4hh2-a1-m1-cA Structure of PpsR without the HTH motif from Rb. sphaeroides Q3J179 Q3J179 2.8 X-RAY DIFFRACTION 304 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 369 370 4hh2-a1-m1-cC_4hh2-a1-m1-cD 4l9e-a1-m1-cA_4l9e-a1-m2-cA 4l9f-a1-m1-cA_4l9f-a1-m2-cA 4l9g-a1-m1-cB_4l9g-a1-m1-cA SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADAGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADAVGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS 4hh2-a1-m1-cB_4hh2-a1-m1-cC Structure of PpsR without the HTH motif from Rb. sphaeroides Q3J179 Q3J179 2.8 X-RAY DIFFRACTION 75 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 369 370 SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADAGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADAVGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS 4hh2-a1-m1-cB_4hh2-a1-m1-cD Structure of PpsR without the HTH motif from Rb. sphaeroides Q3J179 Q3J179 2.8 X-RAY DIFFRACTION 26 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 369 373 4hh2-a1-m1-cA_4hh2-a1-m1-cC SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADAGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS SLPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPADATQPVGDELSENLARLYHEGVDGIVFSDADGTIRGANEAFLNMTDSSSLAAIRGRSIADFLARGSVDLRVLIDSVRRTGQLRLYATRLTTDFAGQIAAEISATWLDDRERPLLVLVVRDTS 4hh3-a1-m1-cB_4hh3-a1-m1-cA Structure of the AppA-PpsR2 core complex from Rb. sphaeroides Q3J179 Q3J179 1.75 X-RAY DIFFRACTION 213 0.992 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 243 251 GSLPSLAPDLVRDLIATAADISLLVSQEGVVREVMASFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPAD LPSLAPDLVRDLIATAADISLLVSQEGVVREVMANPHHPSFGQLSEWEGRPLEEVLTAESVAKFRLRSEGLEPGRGSVAVELNHIDPRSFEFPIRYILHRLPADRSILMLGRDLRPIAEVQQQLVAAQLAMERDYETQREMETRYRVVLDVSRDPMVLVSMSTGRIVDLNSAAGLLLGGVRQDLLGAAIAQEFEGRRRGEFMETMTNLAATESAAPVEVLARRSQKRLLVVPRVFRAAGERLLLCQIDPAD 4hhe-a1-m1-cA_4hhe-a1-m2-cA Quinolinate synthase from Pyrococcus furiosus Q8TZL3 Q8TZL3 2.797 X-RAY DIFFRACTION 137 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 297 297 MEKVEELKKEIERLKKERNAIILAHNYQLPEVQDVADFVGDSLELARKATKVDADVIVFAGVDFMAETAKILNPDKIVLIPNKRMANMLKVKHILEAKKKYPNAPVVLYVNSTAETKAYADVTVTSANAVDIIRKLDSDVIIFGPDKNLAHYVAKVTGKTIIPIPPEGHCYVHKKFTIEDVERAKKLHPNAKLMVHPECNPEVQEHADIIVSTGGMIRRACEWDEWVVFTEREMVYRLSKLYPNFYPAKEDAVCVGMKAITLQHVYESLRDMKYEVTVPEEIAEKARKAIERMLEMS MEKVEELKKEIERLKKERNAIILAHNYQLPEVQDVADFVGDSLELARKATKVDADVIVFAGVDFMAETAKILNPDKIVLIPNKRMANMLKVKHILEAKKKYPNAPVVLYVNSTAETKAYADVTVTSANAVDIIRKLDSDVIIFGPDKNLAHYVAKVTGKTIIPIPPEGHCYVHKKFTIEDVERAKKLHPNAKLMVHPECNPEVQEHADIIVSTGGMIRRACEWDEWVVFTEREMVYRLSKLYPNFYPAKEDAVCVGMKAITLQHVYESLRDMKYEVTVPEEIAEKARKAIERMLEMS 4hhv-a1-m1-cB_4hhv-a1-m1-cA Crystal structure of ceramide transfer protein pleckstrin homology domain Q9Y5P4 Q9Y5P4 1.75 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 103 SGPPVERCGVLSKWTNYIHGWQDRWVVLKNNALSYYKSEDETEYGCRGSICLSKAVITPHDFDECRFDISVNDSVWYLRAQDPDHRQQWIDAIEQHKTESG FSGPPVERCGVLSKWTNYIHGWQDRWVVLKNNALSYYKSEDETEYGCRGSICLSKAVITPHDFDECRFDISVNDSVWYLRAQDPDHRQQWIDAIEQHKTESGY 4hi0-a1-m1-cE_4hi0-a1-m1-cF Crystal Structure of Helicobacter pylori Urease Accessory Protein UreF/H/G complex Q09066 Q09066 2.35 X-RAY DIFFRACTION 84 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 196 196 MVKIGVCGPVGSGKTALIEALTRHMSKDYDMAVITNDIYTKEDAEFMCKNSVMPRERIIGVETGGCPHTAIREDASMNLEAVEEMHGRFPNLELLLIESGGDNLSATFNPELADFTIFVIDVAEGDKIPRKGGPGITRSDLLVINKIDLAPYVGADLKVMERDSKKMRGEKPFIFTNIRAKEGLDDVIAWIKRNAL MVKIGVCGPVGSGKTALIEALTRHMSKDYDMAVITNDIYTKEDAEFMCKNSVMPRERIIGVETGGCPHTAIREDASMNLEAVEEMHGRFPNLELLLIESGGDNLSATFNPELADFTIFVIDVAEGDKIPRKGGPGITRSDLLVINKIDLAPYVGADLKVMERDSKKMRGEKPFIFTNIRAKEGLDDVIAWIKRNAL 4hi4-a2-m1-cG_4hi4-a2-m2-cA Crystal structure of the 5-coordinate ferric heme-binding PAS domain of Aer2 from P. aeruginosa Q9I6V6 Q9I6V6 2.304 X-RAY DIFFRACTION 49 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 119 119 4hi4-a1-m1-cB_4hi4-a1-m1-cD GSHMARIASALDNVSANVMIADNDLNIIYMNRTVSEMLGRAEADIRKQLPNFDAGRLMGANIDVFHKNPAHQRHLLANLTGVHKAELNLGGRRFSLDVVPVFNDANARLGSAVQWTDRT GSHMARIASALDNVSANVMIADNDLNIIYMNRTVSEMLGRAEADIRKQLPNFDAGRLMGANIDVFHKNPAHQRHLLANLTGVHKAELNLGGRRFSLDVVPVFNDANARLGSAVQWTDRT 4hi6-a1-m2-cC_4hi6-a1-m3-cC Crystal structure of H112W mutant of borna disease virus matrix protein P0C794 P0C794 2.2 X-RAY DIFFRACTION 31 1.0 12455 (Borna disease virus) 12455 (Borna disease virus) 136 136 4hi6-a1-m1-cC_4hi6-a1-m2-cC 4hi6-a1-m1-cC_4hi6-a1-m3-cC 4hit-a1-m1-cA_4hit-a1-m2-cA 4hit-a1-m1-cA_4hit-a1-m3-cA 4hit-a1-m2-cA_4hit-a1-m3-cA HSYVELKDKVIVPGWPTLMLEIDFVGGTSRNQFLNIPFLSVKEPLQLPREKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKWAINAAFNVFSYRLRNIGVGPLGPDIRSS HSYVELKDKVIVPGWPTLMLEIDFVGGTSRNQFLNIPFLSVKEPLQLPREKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKWAINAAFNVFSYRLRNIGVGPLGPDIRSS 4hi6-a1-m3-cC_4hi6-a1-m1-cB Crystal structure of H112W mutant of borna disease virus matrix protein P0C794 P0C794 2.2 X-RAY DIFFRACTION 37 1.0 12455 (Borna disease virus) 12455 (Borna disease virus) 136 137 4hi6-a1-m1-cC_4hi6-a1-m2-cB 4hi6-a1-m2-cC_4hi6-a1-m3-cB 4hit-a1-m1-cA_4hit-a1-m2-cD 4hit-a1-m1-cD_4hit-a1-m3-cA 4hit-a1-m2-cA_4hit-a1-m3-cD HSYVELKDKVIVPGWPTLMLEIDFVGGTSRNQFLNIPFLSVKEPLQLPREKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKWAINAAFNVFSYRLRNIGVGPLGPDIRSS KHSYVELKDKVIVPGWPTLMLEIDFVGGTSRNQFLNIPFLSVKEPLQLPREKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKWAINAAFNVFSYRLRNIGVGPLGPDIRSS 4hi6-a1-m3-cD_4hi6-a1-m1-cA Crystal structure of H112W mutant of borna disease virus matrix protein P0C794 P0C794 2.2 X-RAY DIFFRACTION 12 1.0 12455 (Borna disease virus) 12455 (Borna disease virus) 129 138 4hi6-a1-m1-cD_4hi6-a1-m2-cA 4hi6-a1-m2-cD_4hi6-a1-m3-cA HSYVELKDKVIVPGWPTLMLEIDFVFLNIPFLSVKEPLQLPREKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKWAINAAFNVFSYRLRNIGVGPLGPDIRSS HSYVELKDKVIVPGWPTLMLEIDFVGGTSRNQFLNIPFLSVKEPLQLPREKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKWAINAAFNVFSYRLRNIGVGPLGPDIRSSGP 4hi7-a1-m1-cB_4hi7-a1-m1-cA Crystal structure of glutathione transferase homolog from drosophilia mojavensis, TARGET EFI-501819, with bound glutathione B4KM86 B4KM86 1.25 X-RAY DIFFRACTION 94 0.991 7230 (Drosophila mojavensis) 7230 (Drosophila mojavensis) 219 220 MVKPILYGIDASPPVRAVKLTLAALQLPYDYKIVNLMNKEQHSEEYLKKNPQHTVPLLEDGDANIADSHAIMAYLVSKYGKDDSLYPKDLVKRALVDNRMYFESGVVFANALRSLAKMILFLGKTEVPQERIDAITEAYDFVEAFFKDQTYVAGNQLTIADFSLISSISSLVAFVPVDAAKYPKLSAWIKRLEQLPYYAENSTGAQQFVAAVKSKPFTV KPILYGIDASPPVRAVKLTLAALQLPYDYKIVNLMNKEQHSEEYLKKNPQHTVPLLEDGDANIADSHAIMAYLVSKYGKDDSLYPKDLVKRALVDNRMYFESGVVFANALRSLAKMILFLGKTEVPQERIDAITEAYDFVEAFFKDQTYVAGNQLTIADFSLISSISSLVAFVPVDAAKYPKLSAWIKRLEQLPYYAENSTGAQQFVAAVKSKPFTVVGA 4hiu-a1-m2-cA_4hiu-a1-m4-cA Crystal structure of R34/53A mutant of borna disease virus matrix protein P0C794 P0C794 3.3 X-RAY DIFFRACTION 79 1.0 12455 (Borna disease virus) 12455 (Borna disease virus) 132 132 3f1j-a1-m1-cA_3f1j-a1-m3-cA 3f1j-a1-m1-cA_3f1j-a1-m4-cA 3f1j-a1-m2-cA_3f1j-a1-m3-cA 3f1j-a1-m2-cA_3f1j-a1-m4-cA 4hi5-a1-m1-cA_4hi5-a1-m3-cA 4hi5-a1-m1-cA_4hi5-a1-m4-cA 4hi5-a1-m2-cA_4hi5-a1-m3-cA 4hi5-a1-m2-cA_4hi5-a1-m4-cA 4hi6-a1-m1-cB_4hi6-a1-m1-cA 4hi6-a1-m1-cC_4hi6-a1-m1-cB 4hi6-a1-m1-cD_4hi6-a1-m1-cA 4hi6-a1-m1-cD_4hi6-a1-m1-cC 4hi6-a1-m2-cB_4hi6-a1-m2-cA 4hi6-a1-m2-cC_4hi6-a1-m2-cB 4hi6-a1-m2-cD_4hi6-a1-m2-cA 4hi6-a1-m2-cD_4hi6-a1-m2-cC 4hi6-a1-m3-cB_4hi6-a1-m3-cA 4hi6-a1-m3-cC_4hi6-a1-m3-cB 4hi6-a1-m3-cD_4hi6-a1-m3-cA 4hi6-a1-m3-cD_4hi6-a1-m3-cC 4hit-a1-m1-cA_4hit-a1-m1-cD 4hit-a1-m1-cB_4hit-a1-m1-cA 4hit-a1-m1-cC_4hit-a1-m1-cB 4hit-a1-m1-cC_4hit-a1-m1-cD 4hit-a1-m2-cA_4hit-a1-m2-cD 4hit-a1-m2-cB_4hit-a1-m2-cA 4hit-a1-m2-cC_4hit-a1-m2-cB 4hit-a1-m2-cC_4hit-a1-m2-cD 4hit-a1-m3-cA_4hit-a1-m3-cD 4hit-a1-m3-cB_4hit-a1-m3-cA 4hit-a1-m3-cC_4hit-a1-m3-cB 4hit-a1-m3-cC_4hit-a1-m3-cD 4hiu-a1-m1-cA_4hiu-a1-m3-cA 4hiu-a1-m1-cA_4hiu-a1-m4-cA 4hiu-a1-m2-cA_4hiu-a1-m3-cA 4hiw-a2-m1-cA_4hiw-a2-m3-cA 4hiw-a2-m1-cA_4hiw-a2-m4-cA 4hiw-a2-m2-cA_4hiw-a2-m3-cA 4hiw-a2-m2-cA_4hiw-a2-m4-cA 4hiy-a2-m1-cA_4hiy-a2-m3-cA 4hiy-a2-m1-cA_4hiy-a2-m4-cA 4hiy-a2-m2-cA_4hiy-a2-m3-cA 4hiy-a2-m2-cA_4hiy-a2-m4-cA KHSYVELKDKVIVPGWPTLMLEIDFVNQFLNIPFLSVKEPLQLPAEKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKHAINAAFNVFSYRLRNIGVGPLGPDIRSS KHSYVELKDKVIVPGWPTLMLEIDFVNQFLNIPFLSVKEPLQLPAEKKLTDYFTIDVEPAGHSLVNIYFQIDDFLLLTLNSLSVYKDPIRKYMFLRLNKEQSKHAINAAFNVFSYRLRNIGVGPLGPDIRSS 4hiz-a1-m1-cB_4hiz-a1-m1-cC Phage phi92 endosialidase I7HXG2 I7HXG2 1.601 X-RAY DIFFRACTION 567 1.0 948870 (Escherichia phage phi92) 948870 (Escherichia phage phi92) 652 655 4hiz-a1-m1-cB_4hiz-a1-m1-cA 4hiz-a1-m1-cC_4hiz-a1-m1-cA NLTFKVTTLPDISKFKNAAFVYERIVGQPLTYVSEGFFDGNLTKITDTPFYNAWTQDKTFVYDNVIYAPFMAGERHGVQNLHVAWVKSGDDGQTWSMPEWLTPIHPDYTADKVNYHCMSMGVCGNRLYAVIETRYLSNMRLKKAELWSRPMPYYRRPTGGITISSGSTTATIVLKKHGLKVGDAVNFSNSGATGVSGNMTVASVINKDTFTVTLARAATSNIDNTGTTWHFGTRFWDSPWEITELPDVAYSTNADLCVTETHSFTVIDDDNYTFAVGYHNGDISPRRLGILYFNNAYSDPSSFTRRTISQEYADNAAEPCIKYYDGILYLTTRGTSTSAAGSTLAMSADLGENWNYLRFPNNVHHTNLPFAKVGDYLYIFGTERSFGEWEGQELDNRYKGTYPRTFMCKINVSSWPVSLSNVQWFNITDQIYQGHIVNSACGVGSVCVKDGWLYYIFGGEDFLSPWSIGDNSKKLWYKHDGHPADLYSYRLKITEHDFVSRDFKYGATPNRTLPVSMGTDGVRHVSAPVTFDNDVQMYSLTVTGLEHDGTQQSAVRVKLDGDYGVIAKNIPIKNPSEQRLILCGGETPYTTDGSLLQLYGSNHTYPNRAILYAPGGAYTQNNFMPYLDGQVSLGGASNRWSEVYASTGTINT DGRNLTFKVTTLPDISKFKNAAFVYERIVGQPLTYVSEGFFDGNLTKITDTPFYNAWTQDKTFVYDNVIYAPFMAGERHGVQNLHVAWVKSGDDGQTWSMPEWLTPIHPDYTADKVNYHCMSMGVCGNRLYAVIETRYLSNMRLKKAELWSRPMPYYRRPTGGITISSGSTTATIVLKKHGLKVGDAVNFSNSGATGVSGNMTVASVINKDTFTVTLARAATSNIDNTGTTWHFGTRFWDSPWEITELPDVAYSTNADLCVTETHSFTVIDDDNYTFAVGYHNGDISPRRLGILYFNNAYSDPSSFTRRTISQEYADNAAEPCIKYYDGILYLTTRGTSTSAAGSTLAMSADLGENWNYLRFPNNVHHTNLPFAKVGDYLYIFGTERSFGEWEGQELDNRYKGTYPRTFMCKINVSSWPVSLSNVQWFNITDQIYQGHIVNSACGVGSVCVKDGWLYYIFGGEDFLSPWSIGDNSKKLWYKHDGHPADLYSYRLKITEHDFVSRDFKYGATPNRTLPVSMGTDGVRHVSAPVTFDNDVQMYSLTVTGLEHDGTQQSAVRVKLDGDYGVIAKNIPIKNPSEQRLILCGGETPYTTDGSLLQLYGSNHTYPNRAILYAPGGAYTQNNFMPYLDGQVSLGGASNRWSEVYASTGTINT 4hjb-a2-m3-cB_4hjb-a2-m3-cD GCN4pLI derivative with alpha/beta/cyclic-gamma amino acid substitution pattern 1.25 X-RAY DIFFRACTION 35 1.0 26 27 4hjb-a1-m1-cA_4hjb-a1-m1-cC 4hjb-a1-m1-cA_4hjb-a1-m2-cC 4hjb-a1-m2-cA_4hjb-a1-m1-cC 4hjb-a1-m2-cA_4hjb-a1-m2-cC 4hjb-a2-m1-cB_4hjb-a2-m1-cD 4hjb-a2-m1-cB_4hjb-a2-m3-cD 4hjb-a2-m3-cB_4hjb-a2-m1-cD RMKQIEDKLEEILSKLYHIEELIKLL RMKQIEDKLEEILSKLYHIEELIKLLG 4hjd-a1-m2-cA_4hjd-a1-m2-cB GCN4pLI derivative with alpha/beta/acyclic-gamma amino acid substitution pattern 1.7 X-RAY DIFFRACTION 43 1.0 29 29 4hjd-a1-m1-cA_4hjd-a1-m1-cB 4hjd-a1-m1-cA_4hjd-a1-m2-cB 4hjd-a1-m1-cB_4hjd-a1-m2-cA RMKQIEDKLEEILKLIEELARIKKLLYER RMKQIEDKLEEILKLIEELARIKKLLYER 4hjw-a2-m1-cC_4hjw-a2-m2-cC Crystal structure of Metarhizium anisopliae IDCase in apo form E9F0X0 E9F0X0 2.6 X-RAY DIFFRACTION 231 1.0 5530 (Metarhizium anisopliae) 5530 (Metarhizium anisopliae) 378 378 4hjw-a1-m1-cA_4hjw-a1-m1-cB SMATSNPTVVDIHTHMYPPQYIKILESRTTIPLVRKFPQAPEPRLILLEAELGDLEKAINDPSAKPPGRPLTSHFASLDQKIHFMDTHRIDISVISLANPWLDFVHASHAGDIAESVNDEFSDMCGKHHGRLFFFGTLPLTAPLETLLASISHLAALKYCRGVILGTSGLGKGLDDPHLIPIFEALAAANLTIFLHPHYGLPNDVWGPRAGEYGHVLPLALGFPMETTIAVARMYLAGVFDQVRDLRMVLAHSGGTLPFLAGRIESCIFHDGQLVRQGKVGENRRTVWDVLKEQVYLDAVIYSEVGLKAAIDASGSDRLMFGTDHPFFPPITTDEQGQWESVSLNAQAVAEAVGEGSAEARAIMGSNAIRVLRLEEKA SMATSNPTVVDIHTHMYPPQYIKILESRTTIPLVRKFPQAPEPRLILLEAELGDLEKAINDPSAKPPGRPLTSHFASLDQKIHFMDTHRIDISVISLANPWLDFVHASHAGDIAESVNDEFSDMCGKHHGRLFFFGTLPLTAPLETLLASISHLAALKYCRGVILGTSGLGKGLDDPHLIPIFEALAAANLTIFLHPHYGLPNDVWGPRAGEYGHVLPLALGFPMETTIAVARMYLAGVFDQVRDLRMVLAHSGGTLPFLAGRIESCIFHDGQLVRQGKVGENRRTVWDVLKEQVYLDAVIYSEVGLKAAIDASGSDRLMFGTDHPFFPPITTDEQGQWESVSLNAQAVAEAVGEGSAEARAIMGSNAIRVLRLEEKA 4hk1-a1-m2-cA_4hk1-a1-m3-cA Crystal Structure of PCNA from Drosophila melanogaster P17917 P17917 2.001 X-RAY DIFFRACTION 45 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 243 243 4hk1-a1-m1-cA_4hk1-a1-m2-cA 4hk1-a1-m1-cA_4hk1-a1-m3-cA GDPMFEARLGQATILKKILDAIKDLLNEATFDCSDSGIQLQAMDNSHVSLVSLTLRSDGFDKFRCDRNLSMGMNLGSMAKILKCANNEDNVTMKAQNADTVTIMFESQEKVSDYEMKLMNLDQEHLGIPSVVRMPAMEFARICRDLAQFSESVVICCTKGVKFSASGDVGTANIKLAQTEEEAVIIEMQEPVTLTFACRYLNAFTKATPLSTQVQLSMCADVPLVVEYAIKDLGHIRYYLAPK GDPMFEARLGQATILKKILDAIKDLLNEATFDCSDSGIQLQAMDNSHVSLVSLTLRSDGFDKFRCDRNLSMGMNLGSMAKILKCANNEDNVTMKAQNADTVTIMFESQEKVSDYEMKLMNLDQEHLGIPSVVRMPAMEFARICRDLAQFSESVVICCTKGVKFSASGDVGTANIKLAQTEEEAVIIEMQEPVTLTFACRYLNAFTKATPLSTQVQLSMCADVPLVVEYAIKDLGHIRYYLAPK 4hka-a1-m1-cA_4hka-a1-m4-cA Crystal structure of Drosophila melanogaster tryptophan 2,3-dioxygenase in complex with HEME P20351 P20351 2.7 X-RAY DIFFRACTION 153 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 345 345 4hka-a1-m2-cA_4hka-a1-m3-cA GKIYGEYLMLDKLLDAQCMLSEEDKRPVHDEHLFIITHQAYELWFKQIIFEFDSIRDMLDAEVIDETKTLEIVKRLNRVVLILKLLVDQVPILETMTPLDFMDFRKYLAPASGFQSLQFRLIENKLGVLTEQRVRYNQKYSDVFSDEEARNSIRNSEKDPSLLELVQRWLERTPGLEESGFNFWAKFQESVDRFLEAQVQSAMEEPVEKAKNYRLMDIEKRREVYRSIFDPAVHDALVRRGDRRFSHRALQGAIMITFYRDEPRFSQPHQLLTLLMDIDSLITKWRYNHVIMVQRMIGSQQLGTGGSSGYQYLRSTLSDRYKVFLDLFNLSTFLIPREAIPPLDE GKIYGEYLMLDKLLDAQCMLSEEDKRPVHDEHLFIITHQAYELWFKQIIFEFDSIRDMLDAEVIDETKTLEIVKRLNRVVLILKLLVDQVPILETMTPLDFMDFRKYLAPASGFQSLQFRLIENKLGVLTEQRVRYNQKYSDVFSDEEARNSIRNSEKDPSLLELVQRWLERTPGLEESGFNFWAKFQESVDRFLEAQVQSAMEEPVEKAKNYRLMDIEKRREVYRSIFDPAVHDALVRRGDRRFSHRALQGAIMITFYRDEPRFSQPHQLLTLLMDIDSLITKWRYNHVIMVQRMIGSQQLGTGGSSGYQYLRSTLSDRYKVFLDLFNLSTFLIPREAIPPLDE 4hka-a1-m2-cA_4hka-a1-m4-cA Crystal structure of Drosophila melanogaster tryptophan 2,3-dioxygenase in complex with HEME P20351 P20351 2.7 X-RAY DIFFRACTION 16 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 345 345 4hka-a1-m1-cA_4hka-a1-m3-cA GKIYGEYLMLDKLLDAQCMLSEEDKRPVHDEHLFIITHQAYELWFKQIIFEFDSIRDMLDAEVIDETKTLEIVKRLNRVVLILKLLVDQVPILETMTPLDFMDFRKYLAPASGFQSLQFRLIENKLGVLTEQRVRYNQKYSDVFSDEEARNSIRNSEKDPSLLELVQRWLERTPGLEESGFNFWAKFQESVDRFLEAQVQSAMEEPVEKAKNYRLMDIEKRREVYRSIFDPAVHDALVRRGDRRFSHRALQGAIMITFYRDEPRFSQPHQLLTLLMDIDSLITKWRYNHVIMVQRMIGSQQLGTGGSSGYQYLRSTLSDRYKVFLDLFNLSTFLIPREAIPPLDE GKIYGEYLMLDKLLDAQCMLSEEDKRPVHDEHLFIITHQAYELWFKQIIFEFDSIRDMLDAEVIDETKTLEIVKRLNRVVLILKLLVDQVPILETMTPLDFMDFRKYLAPASGFQSLQFRLIENKLGVLTEQRVRYNQKYSDVFSDEEARNSIRNSEKDPSLLELVQRWLERTPGLEESGFNFWAKFQESVDRFLEAQVQSAMEEPVEKAKNYRLMDIEKRREVYRSIFDPAVHDALVRRGDRRFSHRALQGAIMITFYRDEPRFSQPHQLLTLLMDIDSLITKWRYNHVIMVQRMIGSQQLGTGGSSGYQYLRSTLSDRYKVFLDLFNLSTFLIPREAIPPLDE 4hka-a1-m3-cA_4hka-a1-m4-cA Crystal structure of Drosophila melanogaster tryptophan 2,3-dioxygenase in complex with HEME P20351 P20351 2.7 X-RAY DIFFRACTION 108 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 345 345 4hka-a1-m1-cA_4hka-a1-m2-cA GKIYGEYLMLDKLLDAQCMLSEEDKRPVHDEHLFIITHQAYELWFKQIIFEFDSIRDMLDAEVIDETKTLEIVKRLNRVVLILKLLVDQVPILETMTPLDFMDFRKYLAPASGFQSLQFRLIENKLGVLTEQRVRYNQKYSDVFSDEEARNSIRNSEKDPSLLELVQRWLERTPGLEESGFNFWAKFQESVDRFLEAQVQSAMEEPVEKAKNYRLMDIEKRREVYRSIFDPAVHDALVRRGDRRFSHRALQGAIMITFYRDEPRFSQPHQLLTLLMDIDSLITKWRYNHVIMVQRMIGSQQLGTGGSSGYQYLRSTLSDRYKVFLDLFNLSTFLIPREAIPPLDE GKIYGEYLMLDKLLDAQCMLSEEDKRPVHDEHLFIITHQAYELWFKQIIFEFDSIRDMLDAEVIDETKTLEIVKRLNRVVLILKLLVDQVPILETMTPLDFMDFRKYLAPASGFQSLQFRLIENKLGVLTEQRVRYNQKYSDVFSDEEARNSIRNSEKDPSLLELVQRWLERTPGLEESGFNFWAKFQESVDRFLEAQVQSAMEEPVEKAKNYRLMDIEKRREVYRSIFDPAVHDALVRRGDRRFSHRALQGAIMITFYRDEPRFSQPHQLLTLLMDIDSLITKWRYNHVIMVQRMIGSQQLGTGGSSGYQYLRSTLSDRYKVFLDLFNLSTFLIPREAIPPLDE 4hkd-a1-m1-cA_4hkd-a1-m1-cB Crystal structure of human MST2 SARAH domain Q13188 Q13188 1.503 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 48 3wws-a1-m1-cB_3wws-a1-m1-cA 3wws-a2-m1-cC_3wws-a2-m1-cD 4hkd-a2-m1-cC_4hkd-a2-m1-cD DDFDFLKNLSLEELQRLKALDPEREIEELRQRYTAKRQPILDADAK GADDFDFLKNLSLEELQRLKALDPEREIEELRQRYTAKRQPILDADAK 4hkm-a2-m3-cA_4hkm-a2-m1-cB Crystal Structure of an Anthranilate Phosphoribosyltransferase (target ID NYSGRC-016600) from Xanthomonas campestris Q8PD71 Q8PD71 1.953 X-RAY DIFFRACTION 33 0.997 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 304 317 PITPQQALQRTIEHREIFHDEVDLRQIRGEVSDAVSAILTGLRVKKETIGEIAGAATVREFSRRVEVTDRRHVDIVGTTFNISTCAFVAAAGGAKVAKHGSADALEALGAVIELQPEQVAASLAQTGIGFYAPVHHPAKVVAPVRREGVRTIFNILGPLTNPAGSPNILGVFHPDLVGIQARVLQELGAERALVVWGRDGDELSLGAGTLVGELRDGQVHEYEVHPEDFGIASAAESRALLQVLDNVPGPALDIVALNAGAALYVAGVADSIADGIVRARQVLADGSARACLDAYVAFTQQATA PITPQQALQRTIEHREIFHDEVDLRQIRGEVSDAVSAILTGLRVKKETIGEIAGAATVREFSRRVEVTDRRHVDIVGTHTFNISTCAFVAAAGGAKVAKHGNRSGSADALEALGAVIELQPEQVAASLAQTGIGFYAPVHHPAKVVAPVRREGVRTIFNILGPLTNPAGSPNILGVFHPDLVGIQARVLQELGAERALVVWGRDGDELSLGAGTLVGELRDGQVHEYEVHPEDFGIASASRNLKVADAAESRALLQVLDNVPGPALDIVALNAGAALYVAGVADSIADGIVRARQVLADGSARACLDAYVAFTQQAT 4hkm-a3-m1-cB_4hkm-a3-m2-cB Crystal Structure of an Anthranilate Phosphoribosyltransferase (target ID NYSGRC-016600) from Xanthomonas campestris Q8PD71 Q8PD71 1.953 X-RAY DIFFRACTION 65 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 317 317 4hkm-a1-m1-cA_4hkm-a1-m2-cA PITPQQALQRTIEHREIFHDEVDLRQIRGEVSDAVSAILTGLRVKKETIGEIAGAATVREFSRRVEVTDRRHVDIVGTHTFNISTCAFVAAAGGAKVAKHGNRSGSADALEALGAVIELQPEQVAASLAQTGIGFYAPVHHPAKVVAPVRREGVRTIFNILGPLTNPAGSPNILGVFHPDLVGIQARVLQELGAERALVVWGRDGDELSLGAGTLVGELRDGQVHEYEVHPEDFGIASASRNLKVADAAESRALLQVLDNVPGPALDIVALNAGAALYVAGVADSIADGIVRARQVLADGSARACLDAYVAFTQQAT PITPQQALQRTIEHREIFHDEVDLRQIRGEVSDAVSAILTGLRVKKETIGEIAGAATVREFSRRVEVTDRRHVDIVGTHTFNISTCAFVAAAGGAKVAKHGNRSGSADALEALGAVIELQPEQVAASLAQTGIGFYAPVHHPAKVVAPVRREGVRTIFNILGPLTNPAGSPNILGVFHPDLVGIQARVLQELGAERALVVWGRDGDELSLGAGTLVGELRDGQVHEYEVHPEDFGIASASRNLKVADAAESRALLQVLDNVPGPALDIVALNAGAALYVAGVADSIADGIVRARQVLADGSARACLDAYVAFTQQAT 4hkt-a1-m1-cA_4hkt-a1-m1-cD Crystal structure of a putative myo-inositol dehydrogenase from Sinorhizobium meliloti 1021 (Target PSI-012312) O68965 O68965 2 X-RAY DIFFRACTION 49 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 323 323 4hkt-a1-m1-cB_4hkt-a1-m1-cC TVRFGLLGAGRIGKVHAKAVSGNADARLVAVADAFPAAAEAIAGAYGCEVRTIDAIEAAADIDAVVICTPTDTHADLIERFARAGKAIFCEKPIDLDAERVRACLKVVSDTKAKLVGFNRRFDPHFAVRKAIDDGRIGEVEVTITSRDPSAPPVDYIKRSGGIFRDTIHDFDARFLLGEEPVSVTATAAVLIDKAIGDAGDYDSVSVILQTASGKQAIISNSRRATYGYDQRIEVHGSKGAVAAENQRPVSIEIATGDGYTRPPLHDFFTRYTEAYANEIESFIAAIEKGAEIAPSGNDGLAALALADAAVRSVAEKRQISIA TVRFGLLGAGRIGKVHAKAVSGNADARLVAVADAFPAAAEAIAGAYGCEVRTIDAIEAAADIDAVVICTPTDTHADLIERFARAGKAIFCEKPIDLDAERVRACLKVVSDTKAKLVGFNRRFDPHFAVRKAIDDGRIGEVEVTITSRDPSAPPVDYIKRSGGIFRDTIHDFDARFLLGEEPVSVTATAAVLIDKAIGDAGDYDSVSVILQTASGKQAIISNSRRATYGYDQRIEVHGSKGAVAAENQRPVSIEIATGDGYTRPPLHDFFTRYTEAYANEIESFIAAIEKGAEIAPSGNDGLAALALADAAVRSVAEKRQISIA 4hkt-a1-m1-cB_4hkt-a1-m1-cD Crystal structure of a putative myo-inositol dehydrogenase from Sinorhizobium meliloti 1021 (Target PSI-012312) O68965 O68965 2 X-RAY DIFFRACTION 75 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 323 323 4hkt-a1-m1-cA_4hkt-a1-m1-cC TVRFGLLGAGRIGKVHAKAVSGNADARLVAVADAFPAAAEAIAGAYGCEVRTIDAIEAAADIDAVVICTPTDTHADLIERFARAGKAIFCEKPIDLDAERVRACLKVVSDTKAKLVGFNRRFDPHFAVRKAIDDGRIGEVEVTITSRDPSAPPVDYIKRSGGIFRDTIHDFDARFLLGEEPVSVTATAAVLIDKAIGDAGDYDSVSVILQTASGKQAIISNSRRATYGYDQRIEVHGSKGAVAAENQRPVSIEIATGDGYTRPPLHDFFTRYTEAYANEIESFIAAIEKGAEIAPSGNDGLAALALADAAVRSVAEKRQISIA TVRFGLLGAGRIGKVHAKAVSGNADARLVAVADAFPAAAEAIAGAYGCEVRTIDAIEAAADIDAVVICTPTDTHADLIERFARAGKAIFCEKPIDLDAERVRACLKVVSDTKAKLVGFNRRFDPHFAVRKAIDDGRIGEVEVTITSRDPSAPPVDYIKRSGGIFRDTIHDFDARFLLGEEPVSVTATAAVLIDKAIGDAGDYDSVSVILQTASGKQAIISNSRRATYGYDQRIEVHGSKGAVAAENQRPVSIEIATGDGYTRPPLHDFFTRYTEAYANEIESFIAAIEKGAEIAPSGNDGLAALALADAAVRSVAEKRQISIA 4hkt-a1-m1-cC_4hkt-a1-m1-cD Crystal structure of a putative myo-inositol dehydrogenase from Sinorhizobium meliloti 1021 (Target PSI-012312) O68965 O68965 2 X-RAY DIFFRACTION 105 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 323 323 4hkt-a1-m1-cA_4hkt-a1-m1-cB TVRFGLLGAGRIGKVHAKAVSGNADARLVAVADAFPAAAEAIAGAYGCEVRTIDAIEAAADIDAVVICTPTDTHADLIERFARAGKAIFCEKPIDLDAERVRACLKVVSDTKAKLVGFNRRFDPHFAVRKAIDDGRIGEVEVTITSRDPSAPPVDYIKRSGGIFRDTIHDFDARFLLGEEPVSVTATAAVLIDKAIGDAGDYDSVSVILQTASGKQAIISNSRRATYGYDQRIEVHGSKGAVAAENQRPVSIEIATGDGYTRPPLHDFFTRYTEAYANEIESFIAAIEKGAEIAPSGNDGLAALALADAAVRSVAEKRQISIA TVRFGLLGAGRIGKVHAKAVSGNADARLVAVADAFPAAAEAIAGAYGCEVRTIDAIEAAADIDAVVICTPTDTHADLIERFARAGKAIFCEKPIDLDAERVRACLKVVSDTKAKLVGFNRRFDPHFAVRKAIDDGRIGEVEVTITSRDPSAPPVDYIKRSGGIFRDTIHDFDARFLLGEEPVSVTATAAVLIDKAIGDAGDYDSVSVILQTASGKQAIISNSRRATYGYDQRIEVHGSKGAVAAENQRPVSIEIATGDGYTRPPLHDFFTRYTEAYANEIESFIAAIEKGAEIAPSGNDGLAALALADAAVRSVAEKRQISIA 4hku-a1-m1-cB_4hku-a1-m1-cA The crystal structure of TetR transcriptional regulator (lmo2814) from Listeria monocytogenes EGD-e Q8Y3M1 Q8Y3M1 2.302 X-RAY DIFFRACTION 48 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 170 171 RLSQEIILNAEKIIYEKGEKTTLYDIASNLNVTHAALYKHYRNKEDLFQKLALRWLEETSREIFAWTQDAGQTPDDALHDWLWLLADTKKKRYKTDRKFLLYTDYIEQNEELVKNHVAHLAQKAEEVSGRTNQGNAIITAFTYFHNPYFASRWEQAGYVDLFEDVWQIVK ARLSQEIILNAEKIIYEKGEKTTLYDIASNLNVTHAALYKHYRNKEDLFQKLALRWLEETSREIFAWTQDAGQTPDDALHDWLWLLADTKKKRYKTDRKFLLYTDYIEQNEELVKNHVAHLAQKAEEVSGRTNQGNAIITAFTYFHNPYFASRWEQAGYVDLFEDVWQIVK 4hl6-a3-m1-cE_4hl6-a3-m1-cF YfdE from Escherichia coli P76518 P76518 2.12 X-RAY DIFFRACTION 421 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 374 375 4hl6-a1-m1-cA_4hl6-a1-m1-cB 4hl6-a2-m1-cD_4hl6-a2-m1-cC KGPFEGLLVIDMTHVLNGPFGTQLLCNMGARVIKVEPPGHGDDTRTFGPYVDGQSLYYSFINHGKESVVLDLKNDHDKSIFINMLKQADVLAENFRPGTMEKLGFSWETLQEINPRLIYASSSGFGHTGPLKDAPAYDTIIQAMSGIMMETGYPDAPPVRVGTSLADLCGGVYLFSGIVSALYGREKSQRGAHVDIAMFDATLSFLEHGLMAYIATGKSPQRLGNRHPYMAPFDVFNTQDKPITICCGNDKLFSALCQALELTELVNDPRFSSNILRVQNQAILKQYIERTLKTQAAEVWLARIHEVGVPVAPLLSVAEAIKLPQTQARNMLIEAGGIMMPGNPIKISGCADPHVMPGAATLDQHGEQIRQEFS KGPFEGLLVIDMTHVLNGPFGTQLLCNMGARVIKVEPPGHGDDTRTFGPYVDGQSLYYSFINHGKESVVLDLKNDHDKSIFINMLKQADVLAENFRPGTMEKLGFSWETLQEINPRLIYASSSGFGHTGPLKDAPAYDTIIQAMSGIMMETGYPDAPPVRVGTSLADLCGGVYLFSGIVSALYGREKSQRGAHVDIAMFDATLSFLEHGLMAYIATGKSPQRLGNRHPYMAPFDVFNTQDKPITICCGNDKLFSALCQALELTELVNDPRFSSNILRVQNQAILKQYIERTLKTQAAEVWLARIHEVGVPVAPLLSVAEAIKLPQTQARNMLIEAGGIMMPGNPIKISGCADPHVMPGAATLDQHGEQIRQEFSS 4hl7-a3-m1-cA_4hl7-a3-m2-cB Crystal structure of nicotinate phosphoribosyltransferase (target NYSGR-026035) from Vibrio cholerae Q9KN67 Q9KN67 1.8 X-RAY DIFFRACTION 52 0.995 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 413 414 4hl7-a3-m2-cA_4hl7-a3-m1-cB LNPRLFSPHIIRSLLDLDAYKINQAIHHFYPDVSVRYELIVRSEEDASGLLDAIRQEIAHLGTLRFSDADIHYLTQHAPHLKATFLQSLRYFHFVPQEQVEGIVKQQLRISIRGSWRDTILYETLVAIVSEVRSRQRWAEVPADLPLKVLKTKLDQLKAEIERRGINNFSLTEGTRRRFSSQVQRDVLACLKQEIPQWVLGTSNYHFAREFDLKPIGTIAHEWFGHQALVNERDSQQVALERWLTAFDGLAIAPTDTLTIDAFLNDFNRHLANAYDGVRHDSGCPFRWGDKIAHYQQLGIDPTTKLFIFSDGLDFDQALELCEYFAGRVKISFGIGTFLTNDLANWRNAAGVEYRPLSIVIKLAECQGRPVAKISDQPEKACEDPIFLANLKRRFNIELDVDALIQELRHQKR SLNPRLFSPHIIRSLLDLDAYKINQAIHHFYPDVSVRYELIVRSEEDASGLLDAIRQEIAHLGTLRFSDADIHYLTQHAPHLKATFLQSLRYFHFVPQEQVEGIVKGKQQLRISIRGSWRDTILYETLVAIVSEVRSRQRWAEVPADLPLKVLKTKLDQLKAEIERRGINNFSLTEGTRRRFSSQVQRDVLACLKQEIPQWVLGTSNYHFAREFDLKPIGTIAHEWFGHQALVNERDSQQVALERWLTAFDGLAIAPTDTLTIDAFLNDFNRHLANAYDGVRHDSGCPFRWGDKIAHYQQLGIDPTTKLFIFSDGLDFDQALELCEYFAGRVKISFGIGTFLTNDLANWRNAAGVEYRPLSIVIKLAECQGRPVAKISDQPEKACEDPIFLANLKRRFNIELDVDALIQELRHQ 4hl7-a3-m1-cB_4hl7-a3-m2-cB Crystal structure of nicotinate phosphoribosyltransferase (target NYSGR-026035) from Vibrio cholerae Q9KN67 Q9KN67 1.8 X-RAY DIFFRACTION 52 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 414 414 4hl7-a3-m1-cA_4hl7-a3-m2-cA SLNPRLFSPHIIRSLLDLDAYKINQAIHHFYPDVSVRYELIVRSEEDASGLLDAIRQEIAHLGTLRFSDADIHYLTQHAPHLKATFLQSLRYFHFVPQEQVEGIVKGKQQLRISIRGSWRDTILYETLVAIVSEVRSRQRWAEVPADLPLKVLKTKLDQLKAEIERRGINNFSLTEGTRRRFSSQVQRDVLACLKQEIPQWVLGTSNYHFAREFDLKPIGTIAHEWFGHQALVNERDSQQVALERWLTAFDGLAIAPTDTLTIDAFLNDFNRHLANAYDGVRHDSGCPFRWGDKIAHYQQLGIDPTTKLFIFSDGLDFDQALELCEYFAGRVKISFGIGTFLTNDLANWRNAAGVEYRPLSIVIKLAECQGRPVAKISDQPEKACEDPIFLANLKRRFNIELDVDALIQELRHQ SLNPRLFSPHIIRSLLDLDAYKINQAIHHFYPDVSVRYELIVRSEEDASGLLDAIRQEIAHLGTLRFSDADIHYLTQHAPHLKATFLQSLRYFHFVPQEQVEGIVKGKQQLRISIRGSWRDTILYETLVAIVSEVRSRQRWAEVPADLPLKVLKTKLDQLKAEIERRGINNFSLTEGTRRRFSSQVQRDVLACLKQEIPQWVLGTSNYHFAREFDLKPIGTIAHEWFGHQALVNERDSQQVALERWLTAFDGLAIAPTDTLTIDAFLNDFNRHLANAYDGVRHDSGCPFRWGDKIAHYQQLGIDPTTKLFIFSDGLDFDQALELCEYFAGRVKISFGIGTFLTNDLANWRNAAGVEYRPLSIVIKLAECQGRPVAKISDQPEKACEDPIFLANLKRRFNIELDVDALIQELRHQ 4hl7-a3-m2-cA_4hl7-a3-m2-cB Crystal structure of nicotinate phosphoribosyltransferase (target NYSGR-026035) from Vibrio cholerae Q9KN67 Q9KN67 1.8 X-RAY DIFFRACTION 37 0.995 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 413 414 4hl7-a3-m1-cA_4hl7-a3-m1-cB LNPRLFSPHIIRSLLDLDAYKINQAIHHFYPDVSVRYELIVRSEEDASGLLDAIRQEIAHLGTLRFSDADIHYLTQHAPHLKATFLQSLRYFHFVPQEQVEGIVKQQLRISIRGSWRDTILYETLVAIVSEVRSRQRWAEVPADLPLKVLKTKLDQLKAEIERRGINNFSLTEGTRRRFSSQVQRDVLACLKQEIPQWVLGTSNYHFAREFDLKPIGTIAHEWFGHQALVNERDSQQVALERWLTAFDGLAIAPTDTLTIDAFLNDFNRHLANAYDGVRHDSGCPFRWGDKIAHYQQLGIDPTTKLFIFSDGLDFDQALELCEYFAGRVKISFGIGTFLTNDLANWRNAAGVEYRPLSIVIKLAECQGRPVAKISDQPEKACEDPIFLANLKRRFNIELDVDALIQELRHQKR SLNPRLFSPHIIRSLLDLDAYKINQAIHHFYPDVSVRYELIVRSEEDASGLLDAIRQEIAHLGTLRFSDADIHYLTQHAPHLKATFLQSLRYFHFVPQEQVEGIVKGKQQLRISIRGSWRDTILYETLVAIVSEVRSRQRWAEVPADLPLKVLKTKLDQLKAEIERRGINNFSLTEGTRRRFSSQVQRDVLACLKQEIPQWVLGTSNYHFAREFDLKPIGTIAHEWFGHQALVNERDSQQVALERWLTAFDGLAIAPTDTLTIDAFLNDFNRHLANAYDGVRHDSGCPFRWGDKIAHYQQLGIDPTTKLFIFSDGLDFDQALELCEYFAGRVKISFGIGTFLTNDLANWRNAAGVEYRPLSIVIKLAECQGRPVAKISDQPEKACEDPIFLANLKRRFNIELDVDALIQELRHQ 4hl9-a4-m1-cG_4hl9-a4-m1-cH Crystal structure of antibiotic biosynthesis monooxygenase Q2RXF1 Q2RXF1 1.93 X-RAY DIFFRACTION 50 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 91 91 4hl9-a1-m1-cA_4hl9-a1-m1-cB 4hl9-a2-m1-cC_4hl9-a2-m1-cD 4hl9-a3-m1-cE_4hl9-a3-m1-cF 4hl9-a5-m1-cI_4hl9-a5-m2-cI LKVIAQDFIKPEAIDIVLPLYRELVEKTRQEPLLAYDLFVDQKDPGHFVFIEEWPDRAALDIHATEHFTRLVPLINAHQRQDGTVVLDAVP LKVIAQDFIKPEAIDIVLPLYRELVEKTRQEPLLAYDLFVDQKDPGHFVFIEEWPDRAALDIHATEHFTRLVPLINAHQRQDGTVVLDAVP 4hmd-a1-m1-cA_4hmd-a1-m2-cA Crystal structure of cold-adapted chitinase from Moritella marina with a reaction intermediate - oxazolinium ion (NGO) B1VBB0 B1VBB0 2.26 X-RAY DIFFRACTION 94 1.0 90736 (Moritella marina) 90736 (Moritella marina) 528 528 4hmc-a1-m1-cA_4hmc-a1-m2-cA 4hme-a1-m1-cA_4hme-a1-m2-cA GTITSQDDNVVVGYWHNWCDGRGYQGGNAPCVELKTVNPQYNVVNISFMKVYDIAEGRIPTFKLDPTIALSEAEFIAQIDTLNSQGRSVLIALGGADAHIELTRGDEDALAAEIIRLTDLYGFDGLDIDLEQAAITAKDNQFVIPAALKMVKEHYRKTGDNFMITMAPEFPYLTANGAYTPYLTELDGYYDFINPQFYNQGGDGLWIEGVGWIAQNNDALKEEFIYYIADSLINGTRNYHKIPHDKLVFGLPSNIDAAATGYIQDPQDLYKAFDRLKAQGQPLRGVMTWSVNWDMGTDAANNSYNQQFIKDYGNFIHNQLPPVTDMTPTLSGIVDTRVELDSHFDPLIGITAKDYQGNDITADVTVSGSVNTNQVGDYLLTYSVSSDDETTNQPRKITVYEILPAFTGITDTTVVIDSEFDPMQGVSASHPTQGDLTANITVTGEVDTNVVGVYELTYQLFYGQDNQQNMTDKRIVTVVTDAVSDDDWQVGSTYVKDDKVTHNGATWTAQWWTKGEEPGTTGEWGVWR GTITSQDDNVVVGYWHNWCDGRGYQGGNAPCVELKTVNPQYNVVNISFMKVYDIAEGRIPTFKLDPTIALSEAEFIAQIDTLNSQGRSVLIALGGADAHIELTRGDEDALAAEIIRLTDLYGFDGLDIDLEQAAITAKDNQFVIPAALKMVKEHYRKTGDNFMITMAPEFPYLTANGAYTPYLTELDGYYDFINPQFYNQGGDGLWIEGVGWIAQNNDALKEEFIYYIADSLINGTRNYHKIPHDKLVFGLPSNIDAAATGYIQDPQDLYKAFDRLKAQGQPLRGVMTWSVNWDMGTDAANNSYNQQFIKDYGNFIHNQLPPVTDMTPTLSGIVDTRVELDSHFDPLIGITAKDYQGNDITADVTVSGSVNTNQVGDYLLTYSVSSDDETTNQPRKITVYEILPAFTGITDTTVVIDSEFDPMQGVSASHPTQGDLTANITVTGEVDTNVVGVYELTYQLFYGQDNQQNMTDKRIVTVVTDAVSDDDWQVGSTYVKDDKVTHNGATWTAQWWTKGEEPGTTGEWGVWR 4hms-a1-m1-cA_4hms-a1-m1-cB Crystal structure of PhzG from Pseudomonas fluorescens 2-79 in complex with a second FMN in the substrate binding site Q51793 Q51793 1.33 X-RAY DIFFRACTION 178 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 202 206 1ty9-a1-m1-cA_1ty9-a1-m1-cB 4hmt-a1-m1-cA_4hmt-a1-m1-cB 4hmu-a1-m1-cA_4hmu-a1-m1-cB 4hmv-a1-m1-cA_4hmv-a1-m1-cB GTLDAPFPEYQTLPADPMSVLHNWLERARRVGIREPRALALATADSQGRPSTRIVVISEISDAGVVFSTHAGSQKGRELLHNPWASGVLYWRETSQQIILNGQAVRLPNAKADDAWLKRPYATHPMSSVSRQSEELQDVQAMRNAARQLAELQGPLPRPEGYCVFELRLESLEFWGNGQERLHERLRYDRSDTGWNVRRLQP ESLTGTLDAPFPEYQTLPADPMSVLHNWLERARRVGIREPRALALATADSQGRPSTRIVVISEISDAGVVFSTHAGSQKGRELLHNPWASGVLYWRETSQQIILNGQAVRLPNAKADDAWLKRPYATHPMSSVSRQSEELQDVQAMRNAARQLAELQGPLPRPEGYCVFELRLESLEFWGNGQERLHERLRYDRSDTGWNVRRLQP 4hmw-a1-m1-cA_4hmw-a1-m1-cB Crystal structure of PhzG from Burkholderia lata 383 Q396C5 Q396C5 1.53 X-RAY DIFFRACTION 163 1.0 202 205 4hmx-a1-m1-cA_4hmx-a1-m1-cB GSVDVLFPEYDDPPSEPITLLKRWLATADVARVREPKALALATATSDGRISSRVIAFSSIDDRGVIFCTHSTSRKGRELTETGWASGLLYWRETGQQIMISGQAVPLEESENDKLWFGRSVPMHAMSSASHQSDELVDREALRAHAAELLALGVALPRPPRFVGYRLEPHEMEFWAASSDRLHRRLRYERDGNDWKTTQLQP SLTGSVDVLFPEYDDPPSEPITLLKRWLATADVARVREPKALALATATSDGRISSRVIAFSSIDDRGVIFCTHSTSRKGRELTETGWASGLLYWRETGQQIMISGQAVPLEESENDKLWFGRSVPMHAMSSASHQSDELVDREALRAHAAELLALGVALPRPPRFVGYRLEPHEMEFWAASSDRLHRRLRYERDGNDWKTTQLQP 4hn1-a2-m1-cD_4hn1-a2-m1-cC Crystal Structure of H60N/Y130F double mutant of ChmJ, a 3'-monoepimerase from Streptomyces bikiniensis in complex with dTDP Q5SFD1 Q5SFD1 1.6 X-RAY DIFFRACTION 122 1.0 1896 (Streptomyces bikiniensis) 1896 (Streptomyces bikiniensis) 200 201 4hmz-a1-m1-cA_4hmz-a1-m1-cB 4hmz-a2-m1-cC_4hmz-a2-m1-cD 4hn0-a1-m1-cA_4hn0-a1-m1-cB 4hn0-a2-m1-cD_4hn0-a2-m1-cC 4hn1-a1-m1-cA_4hn1-a1-m1-cB MHPLSIEGAWSQEPVIHSDHRGRSHEWFRGESFRQAFGHDFPVAQVNVAVSHRGALRGINYTEIPPGQAKYSVCVRGAGLDVVVDVRIGSPTFGRWEIVPMDAERNTAVYLTAGLGRAFLSLTDDATLVFLCSSGYAPAREHSVNPLDPDLGIAWPDDIEPLLSDRDENAPTLATAERLGLLPTYQAWQEQQQAQRLEHH MHPLSIEGAWSQEPVIHSDHRGRSHEWFRGESFRQAFGHDFPVAQVNVAVSHRGALRGINYTEIPPGQAKYSVCVRGAGLDVVVDVRIGSPTFGRWEIVPMDAERNTAVYLTAGLGRAFLSLTDDATLVFLCSSGYAPAREHSVNPLDPDLGIAWPDDIEPLLSDRDENAPTLATAERLGLLPTYQAWQEQQQAQRLEHHH 4hn3-a2-m1-cC_4hn3-a2-m1-cD The crystal structure of a sex pheromone precursor (lmo1757) from Listeria monocytogenes EGD-e Q8Y6D1 Q8Y6D1 2.047 X-RAY DIFFRACTION 165 0.997 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 324 326 4hn3-a1-m1-cA_4hn3-a1-m1-cB TKNQISSNYYKTVLPYKASKSRGLVVSNIYSRYDINELESGLRVSQNKYSPDNYLFQEGQYLDKETLEKWLDRKSDKNPNGLNPASNGNRKPIYLAHILEQDYLKQTDKDTVALGGISIALANSVDYYQKEKYGDTYEQPISDSELLAQGKESATVLNRIRQTKGLENVPVTIAIYKQGARDAVAPGNYIAYATANGDSLSNWKDIDEKNYVLPSTESAKDHKTDNDNFLNFKKAIEDYYPNFTGVVGRGRYEDGQLAELNIDIPLQFYGEAEIIGFTQYVTDLVGQHIPKTADLQVNISTSDGPAALITRKANEDAATAHIYD GITKNQISSNYYKTVLPYKASKSRGLVVSNIYSRYDINELESGLRVSQNKYSPDNYLFQEGQYLDKETLEKWLDRKSDKNPNGLNPASNGERKPIYLAHILEQDYLKQTDKDTVALGGISIALANSVDYYQKEKYGDTYEQPISDSELLAQGKESATVLNRIRQTKGLENVPVTIAIYKQGARDAVAPGNYIAYATANGDSLSNWKDIDEKNYVLPSTESAKDHKTDNDNFLNFKKAIEDYYPNFTGVVGRGRYEDGQLAELNIDIPLQFYGEAEIIGFTQYVTDLVGQHIPKTADLQVNISTSDGPAALITRKANEDAATAHIYD 4hn7-a1-m1-cA_4hn7-a1-m2-cA Crystal structure of E. coli PmrD P37590 P37590 2.352 X-RAY DIFFRACTION 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 85 85 MEWLVKKSCCNKQDNRHVLMLCDAGGAIKMIAEVKSDFAVKVGDLLSPLQNALYCINREKLHTVKVLSASSYSPDEWERQCKVAG MEWLVKKSCCNKQDNRHVLMLCDAGGAIKMIAEVKSDFAVKVGDLLSPLQNALYCINREKLHTVKVLSASSYSPDEWERQCKVAG 4hnk-a1-m1-cB_4hnk-a1-m1-cF Crystal structure of an Enzyme Q8IL98 Q8IL98 2.9 X-RAY DIFFRACTION 48 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 162 166 4gm2-a1-m1-cD_4gm2-a1-m1-cE 4gm2-a1-m1-cD_4gm2-a1-m1-cG 4hnk-a1-m1-cB_4hnk-a1-m1-cE 4hnk-a1-m1-cD_4hnk-a1-m1-cE 4hnk-a1-m1-cD_4hnk-a1-m1-cG 4hnk-a2-m1-cK_4hnk-a2-m1-cL 4hnk-a2-m1-cK_4hnk-a2-m1-cN PSLLLSKRIIFLSSPIYPHISEQIISQLLYLEYESKRKPIHLYINSTGDIDNNKIINLNGITDVISIVDVINYISSDVYTYCLGKAYGIACILASSGKKGYRFSLKNSSFCLNIMNTKKKVIEIISKNTEKDTNVISNVLERDKYFNADEAVDFKLIDHILE PSLLLSKRIIFLSSPIYPHISEQIISQLLYLEYESKRKPIHLYINSTGDIDNNKIINLNGITDVISIVDVINYISSDVYTYCLGKAYGIACILASSGKKGYRFSLKNSSFCLNNKEIMNTKKKVIEIISKNTEKDTNVISNVLERDKYFNADEAVDFKLIDHILEK 4hnt-a1-m1-cD_4hnt-a1-m1-cA crystal structure of F403A mutant of S. aureus Pyruvate carboxylase A0A0H3JRU9 A0A0H3JRU9 2.8 X-RAY DIFFRACTION 107 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 989 1052 3bg5-a1-m1-cD_3bg5-a1-m1-cA 3hb9-a1-m1-cD_3hb9-a1-m1-cA 3hbl-a1-m1-cD_3hbl-a1-m1-cA 3ho8-a1-m1-cB_3ho8-a1-m1-cC 3ho8-a1-m1-cD_3ho8-a1-m1-cA 4hnt-a1-m1-cB_4hnt-a1-m1-cC 4hnu-a1-m1-cB_4hnu-a1-m1-cC 4hnu-a1-m1-cD_4hnu-a1-m1-cA 4hnv-a1-m1-cD_4hnv-a1-m1-cA QIKKLLVANRGEIAIRIFRAAAELDISTVAIYSNEDKSSLHRYKADESYLVGSDLGPAESYLNIERIIDVAKQANVDAIHPGYGFLSENEQFARRCAEEGIKFIGPHLEHLDMFGDKVKARTTAIKADLPVIPIDNPKHIEVQVIGDEHGNIVHLFERDCSVQRRHQKVVEVAPSVGLSPTLRQRICDAAIQLMENIKYVNAGTVEFLVSGDEFFFIEVNPRVQVEHTITEMVTGIDIVKTQILVAAGADLFGEEINMPQQKDITTLGYAIQCRITTEDPLNDFMPDTGTIIAYRSSGGAGVRLDAGDGFQGAEISPYYDSLLVKLSTHAISFKQAEEKMVRSLREMRIRGVKTNIPFLINVMKNKKFTSGDYTTKFIEETPELFDIQPSLDRGTKTLEYIGNVTINGFPNVEKRPKPDYELASIPTVSSSKIASFSGTKQLLDEVGPKGVAEWVKKQDDVLLTDTTFRDAHQSLLATRVRTKDMINIASKTADVFKDGFSLEMWGGATFDVAYNFLKENPWERLERLRKAIPNVLFQMLLRASNAVGYKNYPDNVIHKFVQESAKAGIDVFRIFDSLNWVDQMKVANEAVQEAGKISEGTICYTGDILNPERSNIYTLEYYVKLAKELEREGFHILAIKDMAGLLKPKAAYELIGELKSAVDLPIHLHTHDTSGNGLLTYKQAIDAGVDIIDTAVASMSGLTSQPSANSLYYALNGFPRHLRTDIEGMESLSHYWSTVRTYYSDFESDIKSPNTEIYQHEMPGGQYSNLSQQAKSLGLGERFDEVKDMYRRVNFLFGDIVKVTPSSKVVGDMALYMVQNDLDEQSVITDGYKLDFPESVVSFFKGEIGQPVNGFNKDLQAVILKGQEALTARPGEYLEPVDFEKVRELLEEEQQGPVTEQDIISYVLYPKVYEQYIQTRNQYGNLSLLDTPTFFFGMRNGETVEIEIDKGKRLIIKLETISEPDENGNRTIYYAMNGQARRIYIKDEN QIKKLLVANRGEIAIRIFRAAAELDISTVAIYSNEDKSSLHRYKADESYLVGSDLGPAESYLNIERIIDVAKQANVDAIHPGYGFLSENEQFARRCAEEGIKFIGPHLEHLDMFGDKVKARTTAIKADLPVIPGTDGPIKSYELAKEFAEEAGFPLMIKATSRIVREESELEDAFHRAKSEAEKSFGNSEVYIERYIDNPKHIEVQVIGDEHGNIVHLFERDCSVQRRHQKVVEVAPSVGLSPTLRQRICDAAIQLMENIKYVNAGTVEFLVSGDEFFFIEVNPRVQVEHTITEMVTGIDIVKTQILVAAGADLFGEEINMPQQKDITTLGYAIQCRITTEDPLNDFMPDTGTIIAYRSSGGAGVRLDAGDGFQGAEISPYYDSLLVKLSTHAISFKQAEEKMVRSLREMRIRGVKTNIPFLINVMKNKKFTSGDYTTKFIEETPELFDIQPSLDRGTKTLEYIGNVTINGFPNVEKRPKPDYELASIPTVSSSKIASFSGTKQLLDEVGPKGVAEWVKKQDDVLLTDTTFRDAHQSLLATRVRTKDMINIASKTADVFKDGFSLEMWGGATFDVAYNFLKENPWERLERLRKAIPNVLFQMLLRASNAVGYKNYPDNVIHKFVQESAKAGIDVFRIFDSLNWVDQMKVANEAVQEAGKISEGTICYTGDILNPERSNIYTLEYYVKLAKELEREGFHILAIKDMAGLLKPKAAYELIGELKSAVDLPIHLHTHDTSGNGLLTYKQAIDAGVDIIDTAVASMSGLTSQPSANSLYYALNGFPRHLRTDIEGMESLSHYWSTVRTYYSDFESDIKSPNTEIYQHEMPGGQYSNLSQQAKSLGLGERFDEVKDMYRRVNFLFGDIVKVTPSSKVVGDMALYMVQNDLDEQSVITDGYKLDFPESVVSFFKGEIGQPVNGFNKDLQAVILKGQEALTARPGEYLEPVDFEKVRELLEEEQQGPVTEQDIISYVLYPKVYEQYIQTRNQYGNLSLLDTPTFFFGMRNGETVEIEIDKGKRLIIKLETISEPDENGNRTIYYAMNGQARRIYIKDEN 4hnt-a1-m1-cD_4hnt-a1-m1-cB crystal structure of F403A mutant of S. aureus Pyruvate carboxylase A0A0H3JRU9 A0A0H3JRU9 2.8 X-RAY DIFFRACTION 175 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 989 989 3bg5-a1-m1-cC_3bg5-a1-m1-cA 3bg5-a1-m1-cD_3bg5-a1-m1-cB 3bg5-a2-m1-cC_3bg5-a2-m1-cA 3bg5-a3-m1-cD_3bg5-a3-m1-cB 3hb9-a1-m1-cC_3hb9-a1-m1-cA 3hb9-a1-m1-cD_3hb9-a1-m1-cB 3hbl-a1-m1-cC_3hbl-a1-m1-cA 3hbl-a1-m1-cD_3hbl-a1-m1-cB 3ho8-a1-m1-cC_3ho8-a1-m1-cA 3ho8-a1-m1-cD_3ho8-a1-m1-cB 4hnt-a1-m1-cA_4hnt-a1-m1-cC 4hnu-a1-m1-cA_4hnu-a1-m1-cC 4hnu-a1-m1-cD_4hnu-a1-m1-cB 4hnv-a1-m1-cB_4hnv-a1-m1-cD 4hnv-a1-m1-cC_4hnv-a1-m1-cA QIKKLLVANRGEIAIRIFRAAAELDISTVAIYSNEDKSSLHRYKADESYLVGSDLGPAESYLNIERIIDVAKQANVDAIHPGYGFLSENEQFARRCAEEGIKFIGPHLEHLDMFGDKVKARTTAIKADLPVIPIDNPKHIEVQVIGDEHGNIVHLFERDCSVQRRHQKVVEVAPSVGLSPTLRQRICDAAIQLMENIKYVNAGTVEFLVSGDEFFFIEVNPRVQVEHTITEMVTGIDIVKTQILVAAGADLFGEEINMPQQKDITTLGYAIQCRITTEDPLNDFMPDTGTIIAYRSSGGAGVRLDAGDGFQGAEISPYYDSLLVKLSTHAISFKQAEEKMVRSLREMRIRGVKTNIPFLINVMKNKKFTSGDYTTKFIEETPELFDIQPSLDRGTKTLEYIGNVTINGFPNVEKRPKPDYELASIPTVSSSKIASFSGTKQLLDEVGPKGVAEWVKKQDDVLLTDTTFRDAHQSLLATRVRTKDMINIASKTADVFKDGFSLEMWGGATFDVAYNFLKENPWERLERLRKAIPNVLFQMLLRASNAVGYKNYPDNVIHKFVQESAKAGIDVFRIFDSLNWVDQMKVANEAVQEAGKISEGTICYTGDILNPERSNIYTLEYYVKLAKELEREGFHILAIKDMAGLLKPKAAYELIGELKSAVDLPIHLHTHDTSGNGLLTYKQAIDAGVDIIDTAVASMSGLTSQPSANSLYYALNGFPRHLRTDIEGMESLSHYWSTVRTYYSDFESDIKSPNTEIYQHEMPGGQYSNLSQQAKSLGLGERFDEVKDMYRRVNFLFGDIVKVTPSSKVVGDMALYMVQNDLDEQSVITDGYKLDFPESVVSFFKGEIGQPVNGFNKDLQAVILKGQEALTARPGEYLEPVDFEKVRELLEEEQQGPVTEQDIISYVLYPKVYEQYIQTRNQYGNLSLLDTPTFFFGMRNGETVEIEIDKGKRLIIKLETISEPDENGNRTIYYAMNGQARRIYIKDEN QIKKLLVANRGEIAIRIFRAAAELDISTVAIYSNEDKSSLHRYKADESYLVGSDLGPAESYLNIERIIDVAKQANVDAIHPGYGFLSENEQFARRCAEEGIKFIGPHLEHLDMFGDKVKARTTAIKADLPVIPIDNPKHIEVQVIGDEHGNIVHLFERDCSVQRRHQKVVEVAPSVGLSPTLRQRICDAAIQLMENIKYVNAGTVEFLVSGDEFFFIEVNPRVQVEHTITEMVTGIDIVKTQILVAAGADLFGEEINMPQQKDITTLGYAIQCRITTEDPLNDFMPDTGTIIAYRSSGGAGVRLDAGDGFQGAEISPYYDSLLVKLSTHAISFKQAEEKMVRSLREMRIRGVKTNIPFLINVMKNKKFTSGDYTTKFIEETPELFDIQPSLDRGTKTLEYIGNVTINGFPNVEKRPKPDYELASIPTVSSSKIASFSGTKQLLDEVGPKGVAEWVKKQDDVLLTDTTFRDAHQSLLATRVRTKDMINIASKTADVFKDGFSLEMWGGATFDVAYNFLKENPWERLERLRKAIPNVLFQMLLRASNAVGYKNYPDNVIHKFVQESAKAGIDVFRIFDSLNWVDQMKVANEAVQEAGKISEGTICYTGDILNPERSNIYTLEYYVKLAKELEREGFHILAIKDMAGLLKPKAAYELIGELKSAVDLPIHLHTHDTSGNGLLTYKQAIDAGVDIIDTAVASMSGLTSQPSANSLYYALNGFPRHLRTDIEGMESLSHYWSTVRTYYSDFESDIKSPNTEIYQHEMPGGQYSNLSQQAKSLGLGERFDEVKDMYRRVNFLFGDIVKVTPSSKVVGDMALYMVQNDLDEQSVITDGYKLDFPESVVSFFKGEIGQPVNGFNKDLQAVILKGQEALTARPGEYLEPVDFEKVRELLEEEQQGPVTEQDIISYVLYPKVYEQYIQTRNQYGNLSLLDTPTFFFGMRNGETVEIEIDKGKRLIIKLETISEPDENGNRTIYYAMNGQARRIYIKDEN 4hob-a2-m1-cD_4hob-a2-m1-cC The crystal structure of the Zalpha domain from Cyprinid Herpes virus 3 A4FTK7 A4FTK7 1.76 X-RAY DIFFRACTION 80 1.0 180230 (Cyprinid herpesvirus 3) 180230 (Cyprinid herpesvirus 3) 60 67 4hob-a1-m1-cA_4hob-a1-m1-cB SEEMNLKILAYLGTKQGAKAVHIAQSLGAQRSEVNRHLYRMSEDGRVRKHPQHPVWYLPA HMASNPISEEMNLKILAYLGTKQGAKAVHIAQSLGAQRSEVNRHLYRMSEDGRVRKHPQHPVWYLPA 4hoj-a1-m1-cA_4hoj-a1-m2-cA Crystal structure of glutathione transferase homolog from Neisseria Gonorrhoeae, target EFI-501841, with bound glutathione O33374 O33374 1.4 X-RAY DIFFRACTION 56 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 197 197 MTLYSGITCPFSHRCRFVLYEKGMDFEIKDIDIYNKPEDLAVMNPYNQVPVLVERDLVLHESNIINEYIDERFPHPQLMPGDPVMRGRGRLVLYRMEKELFNHVQVLENPAAANKEQAKAREAIGNGLTMLSPSSKYILGEDFSMIDVALAPLLWRLDHYDVKLGKSAAPLLKYAERIFQREAFIEALTPAEKAMRK MTLYSGITCPFSHRCRFVLYEKGMDFEIKDIDIYNKPEDLAVMNPYNQVPVLVERDLVLHESNIINEYIDERFPHPQLMPGDPVMRGRGRLVLYRMEKELFNHVQVLENPAAANKEQAKAREAIGNGLTMLSPSSKYILGEDFSMIDVALAPLLWRLDHYDVKLGKSAAPLLKYAERIFQREAFIEALTPAEKAMRK 4hp8-a1-m1-cA_4hp8-a1-m2-cB Crystal structure of a putative 2-deoxy-d-gluconate 3-dehydrogenase from Agrobacterium Tumefaciens (target EFI-506435) with bound NADP A9CEQ9 A9CEQ9 1.35 X-RAY DIFFRACTION 15 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 245 246 4hp8-a1-m2-cA_4hp8-a1-m1-cB NPFSLEGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLDIIAKDGGNASALLIDFADPLAAKDSFTDAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSEDIAGAAVFLSSAAADYVHGAILNVDGGWLAR KNPFSLEGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLDIIAKDGGNASALLIDFADPLAAKDSFTDAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSEDIAGAAVFLSSAAADYVHGAILNVDGGWLAR 4hp8-a1-m1-cB_4hp8-a1-m2-cB Crystal structure of a putative 2-deoxy-d-gluconate 3-dehydrogenase from Agrobacterium Tumefaciens (target EFI-506435) with bound NADP A9CEQ9 A9CEQ9 1.35 X-RAY DIFFRACTION 117 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 246 246 4hp8-a1-m1-cA_4hp8-a1-m2-cA KNPFSLEGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLDIIAKDGGNASALLIDFADPLAAKDSFTDAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSEDIAGAAVFLSSAAADYVHGAILNVDGGWLAR KNPFSLEGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLDIIAKDGGNASALLIDFADPLAAKDSFTDAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSEDIAGAAVFLSSAAADYVHGAILNVDGGWLAR 4hp8-a1-m2-cA_4hp8-a1-m2-cB Crystal structure of a putative 2-deoxy-d-gluconate 3-dehydrogenase from Agrobacterium Tumefaciens (target EFI-506435) with bound NADP A9CEQ9 A9CEQ9 1.35 X-RAY DIFFRACTION 141 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 245 246 4hp8-a1-m1-cA_4hp8-a1-m1-cB NPFSLEGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLDIIAKDGGNASALLIDFADPLAAKDSFTDAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSEDIAGAAVFLSSAAADYVHGAILNVDGGWLAR KNPFSLEGRKALVTGANTGLGQAIAVGLAAAGAEVVCAARRAPDETLDIIAKDGGNASALLIDFADPLAAKDSFTDAGFDILVNNAGIIRRADSVEFSELDWDEVMDVNLKALFFTTQAFAKELLAKGRSGKVVNIASLLSFQGGIRVPSYTAAKHGVAGLTKLLANEWAAKGINVNAIAPGYIETNNTEALRADAARNKAILERIPAGRWGHSEDIAGAAVFLSSAAADYVHGAILNVDGGWLAR 4hpf-a1-m2-cB_4hpf-a1-m2-cA Structure of the human SLO3 gating ring A8MYU2 A8MYU2 3.4 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 543 548 4hpf-a1-m1-cB_4hpf-a1-m1-cA 4hpf-a1-m1-cB_4hpf-a1-m2-cA 4hpf-a1-m2-cB_4hpf-a1-m1-cA KKFIVVCGNITVDSVTAFLRNFNTEIVFLGETPTIFKCYLAYTTFISGSAMKWEDLRRVAVESAEACLIIANPLCSDSHAEDISNIMRVLSIKNYDSTTRIIIQILQSHNKVYLPKIPSWNWDTGDNIICFAELKLGFIAQGCLVPGLCTFLTSLFVEQNKKVMPKQTWKKHFLNSMKNKILTQRLSDDFAGMSFPEVARLCFLKMHLLLIAIEYFCGLILNPPPQVRIRKNTLGFFIAETPKDVRRALFDQLDSSGMFHWCKPTSLDKVTLKRTGYKFRNHIVACVFGDAHSAPMGLRNFVMPLRASNYTRKELKDIVFIGSLDYLQREWRFLWNFPQIYILPGCALYSGDLHAANIEQCSMCAVLSPPPQPLVDTEAIMATLTIGSLQIKVPILTELKNPSNIHFIEQLGGLEGSLQETNLHLSTAFSTGTVFSGSFLDSLLATAFYNYHVLELLQMLVTGGVSGRNRCKLGLLSLHETILSNTFGQLFCGSLDLFGILCVGLYRIIDEENKRFVITRPANEFKLLPSDLVFCAIPFSTAC KKFIVVCGNITVDSVTAFLRNFNTEIVFLGETPTIFKCYLAYTTFISGSAMKWEDLRRVAVESAEACLIIANPLCSDSHAEDISNIMRVLSIKNYDSTTRIIIQILQSHNKVYLPKIPSWNWDTGDNIICFAELKLGFIAQGCLVPGLCTFLTSLFVEQNKKVMPKQTWKKHFLNSMKNKILTQRLSDDFAGMSFPEVARLCFLKMHLLLIAIEYFCGLILNPPPQVRIRKNTLGFFIAETPKDVRRALFDQLDSSGMFHWCKPTSLDKVTLKRTGYKFRNHIVACVFGDAHSAPMGLRNFVMPLRASNYTRKELKDIVFIGSLDYLQREWRFLWNFPQIYILPGCALYSGDLHAANIEQCSMCAVLSPPPQPLVDTEAIMATLTIGSLQIKVPILTELKNPSNIHFIEQLGGLEGSLQETNLHLSTAFSTGTVFSGSFLDSLLATAFYNYHVLELLQMLVTGGVSGRNRCKLGLLSLHETILSDVNPRNTFGQLFCGSLDLFGILCVGLYRIIDEENKRFVITRPANEFKLLPSDLVFCAIPFSTAC 4hpk-a1-m1-cA_4hpk-a1-m1-cB Crystal structure of Clostridium histolyticum colg collagenase collagen-binding domain 3B at 1.35 Angstrom resolution in presence of calcium nitrate Q9X721 Q9X721 1.35 X-RAY DIFFRACTION 44 0.982 1498 (Hathewaya histolytica) 1498 (Hathewaya histolytica) 110 113 1nqd-a1-m1-cA_1nqd-a1-m1-cB KLKEKENNDSSDKATVIPNFNTTMQGSLLGDDSRDYYSFEVKEEGEVNIELDKKDEFGVTWTLHPESDRITYGQVDGNKVSNKVKLRPGKYYLLVYKYSGSGNYELRVNK IPGNEKLKEKENNDSSDKATVIPNFNTTMQGSLLGDDSRDYYSFEVKEEGEVNIELDKKDEFGVTWTLHPESITYGQVDGNKVSNKVKLRPGKYYLLVYKYSGSGNYELRVNK 4hpp-a1-m2-cA_4hpp-a1-m6-cA Crystal structure of novel glutamine synthase homolog Q9HT65 Q9HT65 2.5 X-RAY DIFFRACTION 120 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 426 426 4hpp-a1-m1-cA_4hpp-a1-m5-cA 4hpp-a1-m1-cA_4hpp-a1-m6-cA 4hpp-a1-m2-cA_4hpp-a1-m4-cA 4hpp-a1-m3-cA_4hpp-a1-m4-cA 4hpp-a1-m3-cA_4hpp-a1-m5-cA MNRLQPVRLVSFVTTDLAGITRGRSLPLATLEEQLASGCGWVPANSSLTPQDLIDESSPWGSHGDLRLLPDPNSRVRVEQGPDAAAPALDYLHGNLVETDGTPWPACPRSLLRAEVERYRDSGLQVIAAFEHEFSLLGLPGERPAAAFSLQAQRAAGQFPGWLVSALAQAGTEPEMFLPEYGQRQYEVTCRPAQGVAAADRAVNVREVTREVARQMGLRTCFAPLPAPGAVTNGVHLHLSLQHADGSPLLYEPGRPNDLSELGEHWAAGVLAHLPALCALTAPTAASYLRLKPHHWSAAYACLGLRNREAALRICPVVSVGGKPLGKQYNLEFRPMDATTCPHLAMAAVLIAGRLGIERRLPLRRGIQALPATLGDALDCLQRDEALCAELPKPLLDTYLAMKRHELALTAGLSDDDLCRHYAELY MNRLQPVRLVSFVTTDLAGITRGRSLPLATLEEQLASGCGWVPANSSLTPQDLIDESSPWGSHGDLRLLPDPNSRVRVEQGPDAAAPALDYLHGNLVETDGTPWPACPRSLLRAEVERYRDSGLQVIAAFEHEFSLLGLPGERPAAAFSLQAQRAAGQFPGWLVSALAQAGTEPEMFLPEYGQRQYEVTCRPAQGVAAADRAVNVREVTREVARQMGLRTCFAPLPAPGAVTNGVHLHLSLQHADGSPLLYEPGRPNDLSELGEHWAAGVLAHLPALCALTAPTAASYLRLKPHHWSAAYACLGLRNREAALRICPVVSVGGKPLGKQYNLEFRPMDATTCPHLAMAAVLIAGRLGIERRLPLRRGIQALPATLGDALDCLQRDEALCAELPKPLLDTYLAMKRHELALTAGLSDDDLCRHYAELY 4hps-a1-m1-cD_4hps-a1-m1-cA Crystal Structure of a Pyrrolidone-carboxylate peptidase 1 (target ID NYSGRC-012831) from Xenorhabdus bovienii SS-2004 in space group P21 D3V0W1 D3V0W1 1.55 X-RAY DIFFRACTION 45 1.0 406818 (Xenorhabdus bovienii SS-2004) 406818 (Xenorhabdus bovienii SS-2004) 205 211 4gxh-a1-m1-cA_4gxh-a1-m1-cD 4gxh-a1-m1-cC_4gxh-a1-m1-cB 4hps-a1-m1-cC_4hps-a1-m1-cB KTILVTAFDPFGGEAINPSWEAIKPLQGSQVFGANIEICQIPCIFDTSLEHLYAAVDKYQPELVISVGQAGGRTNITVERVAININDARIPDNAGNQPIDTPVIVDGPAAYFSRLPIKTMVNALNTAGIPASVSQTAGTFVCNHVMYGLLHYLAQNTPSVRGGFIHVPYLPEQAVKDGNQSSMTLMLMTLALKIAIETAWKNTSD LYFQSMKTILVTAFDPFGGEAINPSWEAIKPLQGSQVFGANIEICQIPCIFDTSLEHLYAAVDKYQPELVISVGQAGGRTNITVERVAININDARIPDNAGNQPIDTPVIVDGPAAYFSRLPIKTMVNALNTAGIPASVSQTAGTFVCNHVMYGLLHYLAQNTPSVRGGFIHVPYLPEQAVKDGNQSSMTLMLMTLALKIAIETAWKNTSD 4hps-a1-m1-cD_4hps-a1-m1-cB Crystal Structure of a Pyrrolidone-carboxylate peptidase 1 (target ID NYSGRC-012831) from Xenorhabdus bovienii SS-2004 in space group P21 D3V0W1 D3V0W1 1.55 X-RAY DIFFRACTION 60 1.0 406818 (Xenorhabdus bovienii SS-2004) 406818 (Xenorhabdus bovienii SS-2004) 205 209 4gxh-a1-m1-cA_4gxh-a1-m1-cB 4gxh-a1-m1-cC_4gxh-a1-m1-cD 4hps-a1-m1-cC_4hps-a1-m1-cA KTILVTAFDPFGGEAINPSWEAIKPLQGSQVFGANIEICQIPCIFDTSLEHLYAAVDKYQPELVISVGQAGGRTNITVERVAININDARIPDNAGNQPIDTPVIVDGPAAYFSRLPIKTMVNALNTAGIPASVSQTAGTFVCNHVMYGLLHYLAQNTPSVRGGFIHVPYLPEQAVKDGNQSSMTLMLMTLALKIAIETAWKNTSD FQSMKTILVTAFDPFGGEAINPSWEAIKPLQGSQVFGANIEICQIPCIFDTSLEHLYAAVDKYQPELVISVGQAGGRTNITVERVAININDARIPDNAGNQPIDTPVIVDGPAAYFSRLPIKTMVNALNTAGIPASVSQTAGTFVCNHVMYGLLHYLAQNTPSVRGGFIHVPYLPEQAVKDGNQSSMTLMLMTLALKIAIETAWKNTSD 4hqb-a2-m1-cE_4hqb-a2-m2-cA Crystal structure of DdrB from Deinococcus radiodurans bound to ssDNA Q9RY80 Q9RY80 2.301 X-RAY DIFFRACTION 13 0.984 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 128 143 TMLQIEFITDLGARVTVNVEHESRLLDVQRHYGRLGWTSGEIPSGGYQFPIENEADFDWSLIGARKWKSPEGEELVIHRGHAYRRRELEAVDSRKLKLPAAIKYSRGEYVSLAIFRGGKRQERYAVPG MLQIEFITDLGARVTVNVEHESRLLDVQRHYGRLGWTSGEIPSGGYQFPIENEADFDWSLIGARKWKSPEGEELVIHRGHAYRRRELEAVDSRKLKLPAAIKYSRGAKVSDPQHVREKADGDIEYVSLAIFRGGKRQERYAVP 4hqb-a2-m2-cD_4hqb-a2-m2-cE Crystal structure of DdrB from Deinococcus radiodurans bound to ssDNA Q9RY80 Q9RY80 2.301 X-RAY DIFFRACTION 37 0.991 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 109 128 4hqb-a1-m1-cD_4hqb-a1-m1-cE 4hqb-a2-m1-cD_4hqb-a2-m1-cE MLQIEFITDLGARVTVNVEHESRLLDVQRHYGRLGWTSGEIPSGGYQFPIENEADFDWSLIGARKWKSPEGEELVIHRGHAYRRIKYSRGAVSLAIFRGGKRQERYAVP TMLQIEFITDLGARVTVNVEHESRLLDVQRHYGRLGWTSGEIPSGGYQFPIENEADFDWSLIGARKWKSPEGEELVIHRGHAYRRRELEAVDSRKLKLPAAIKYSRGEYVSLAIFRGGKRQERYAVPG 4hqe-a1-m1-cA_4hqe-a1-m1-cB The crystal structure of QsrR-DNA complex A0A0H3JWI0 A0A0H3JWI0 2.299 X-RAY DIFFRACTION 127 0.981 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 105 108 4hqm-a1-m1-cA_4hqm-a1-m1-cB MMEVCPYLEETFKILGRSWNGLIINYLSRCNDCSAHFSDMKRDLKTITPRALSLKLSELAQWELVEKQIISTSPVQIIYVLTEKGKALAEALHPIEAWAQSYVDL EVCPYLEETFKILGRSWNGLIINYLSRCNDCSAHFSDMKRDLKTITPRALSLKLSELAQWELVEKQIISTSPVQIIYVLTEKGKALAEALHPIEAWAQSYVDLTDQRT 4hr1-a1-m1-cA_4hr1-a1-m1-cB Structure of PAV1-137, a protein from the virus PAV1 that infects Pyrococcus abyssi. A5Y2E1 A5Y2E1 2.5 X-RAY DIFFRACTION 86 1.0 425386 (Pyrococcus abyssi virus 1) 425386 (Pyrococcus abyssi virus 1) 117 119 FNGAQTVIQKISWLRTAIAFLKGYETTGATKKELEQVEKLKERVDEIATAVNWDVYAQYARGDFNLLSDDEYKEIQKALLVLEDIKEQIIVEMLRVGLAQGQMGTLKISDYLDSLDS AFNGAQTVIQKISWLRTAIAFLKGYMETTGATKKELEQVEKLKERVDEIATAVNWDVYAQYARGDFNLLSDDEYKEIQKALLVLEDIKEQIIVEMLRVGLAQGQMGTLKISDYLDSLDS 4hr2-a3-m1-cB_4hr2-a3-m1-cA Structure of nucleoside diphosphate kinase (NDK) from Burkholderia thailandensis bound to ADP Q2SWE7 Q2SWE7 1.95 X-RAY DIFFRACTION 78 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 140 142 4ek2-a1-m1-cB_4ek2-a1-m1-cA ALERTLSIIKPDAVAKNVIGQIYSRFENAGLKIVAARMAHLSRADAEKFYAVHAERPFFKDLVEFMISGPVMIQVLEGEDAILKNRDLMGATDPKKAEKGTIRADFADSIDANAVHGSDAPETARVEIAFFFPEMNVYSR SMALERTLSIIKPDAVAKNVIGQIYSRFENAGLKIVAARMAHLSRADAEKFYAVHAERPFFKDLVEFMISGPVMIQVLEGEDAILKNRDLMGATDPKKAEKGTIRADFADSIDANAVHGSDAPETARVEIAFFFPEMNVYSR 4hr3-a1-m1-cA_4hr3-a1-m4-cA Structure of a putative acyl-CoA dehydrogenase from Mycobacterium abscessus B1MFF5 B1MFF5 1.8 X-RAY DIFFRACTION 121 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 407 407 4hr3-a1-m2-cA_4hr3-a1-m3-cA FAPSARAAELIAAVREFIDAEVMPVERAVLAHHDELLGARAGTTAELWHVPPELDSLKAKARAAGLWNLFLPDPELGGGLSNSEYAPLAEQMGRSLFAPTVFNCNAPDSGNMEVLHRYGSQEQKEVWLEPLLEGDIRSAFCMTEPDVASSDATNMAATAVVEGDEVVINGRKWWSTGVGHPDCKVIIFMGLTDPNAHRYARHSMVLVPMDTPGITVERMLPTMGFYDEPGGHGVVSFDNVRLPADAFIAGPGKGFEIAQGRLGPGRVHHAMRLIGLAEVALEHACRRGLDRTAFGKPLVNLGGNRERIADARIAINQTRLLVLHAAWLLDTVGIMGALSAVSEIKVAAPNMAQQVIDMAIQIHGGGGLSNDFPLAAAWVNARALRLADGPDEVHRGVVARIELAKYA FAPSARAAELIAAVREFIDAEVMPVERAVLAHHDELLGARAGTTAELWHVPPELDSLKAKARAAGLWNLFLPDPELGGGLSNSEYAPLAEQMGRSLFAPTVFNCNAPDSGNMEVLHRYGSQEQKEVWLEPLLEGDIRSAFCMTEPDVASSDATNMAATAVVEGDEVVINGRKWWSTGVGHPDCKVIIFMGLTDPNAHRYARHSMVLVPMDTPGITVERMLPTMGFYDEPGGHGVVSFDNVRLPADAFIAGPGKGFEIAQGRLGPGRVHHAMRLIGLAEVALEHACRRGLDRTAFGKPLVNLGGNRERIADARIAINQTRLLVLHAAWLLDTVGIMGALSAVSEIKVAAPNMAQQVIDMAIQIHGGGGLSNDFPLAAAWVNARALRLADGPDEVHRGVVARIELAKYA 4hr3-a1-m2-cA_4hr3-a1-m4-cA Structure of a putative acyl-CoA dehydrogenase from Mycobacterium abscessus B1MFF5 B1MFF5 1.8 X-RAY DIFFRACTION 10 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 407 407 4hr3-a1-m1-cA_4hr3-a1-m3-cA FAPSARAAELIAAVREFIDAEVMPVERAVLAHHDELLGARAGTTAELWHVPPELDSLKAKARAAGLWNLFLPDPELGGGLSNSEYAPLAEQMGRSLFAPTVFNCNAPDSGNMEVLHRYGSQEQKEVWLEPLLEGDIRSAFCMTEPDVASSDATNMAATAVVEGDEVVINGRKWWSTGVGHPDCKVIIFMGLTDPNAHRYARHSMVLVPMDTPGITVERMLPTMGFYDEPGGHGVVSFDNVRLPADAFIAGPGKGFEIAQGRLGPGRVHHAMRLIGLAEVALEHACRRGLDRTAFGKPLVNLGGNRERIADARIAINQTRLLVLHAAWLLDTVGIMGALSAVSEIKVAAPNMAQQVIDMAIQIHGGGGLSNDFPLAAAWVNARALRLADGPDEVHRGVVARIELAKYA FAPSARAAELIAAVREFIDAEVMPVERAVLAHHDELLGARAGTTAELWHVPPELDSLKAKARAAGLWNLFLPDPELGGGLSNSEYAPLAEQMGRSLFAPTVFNCNAPDSGNMEVLHRYGSQEQKEVWLEPLLEGDIRSAFCMTEPDVASSDATNMAATAVVEGDEVVINGRKWWSTGVGHPDCKVIIFMGLTDPNAHRYARHSMVLVPMDTPGITVERMLPTMGFYDEPGGHGVVSFDNVRLPADAFIAGPGKGFEIAQGRLGPGRVHHAMRLIGLAEVALEHACRRGLDRTAFGKPLVNLGGNRERIADARIAINQTRLLVLHAAWLLDTVGIMGALSAVSEIKVAAPNMAQQVIDMAIQIHGGGGLSNDFPLAAAWVNARALRLADGPDEVHRGVVARIELAKYA 4hr3-a1-m3-cA_4hr3-a1-m4-cA Structure of a putative acyl-CoA dehydrogenase from Mycobacterium abscessus B1MFF5 B1MFF5 1.8 X-RAY DIFFRACTION 160 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 407 407 4hr3-a1-m1-cA_4hr3-a1-m2-cA FAPSARAAELIAAVREFIDAEVMPVERAVLAHHDELLGARAGTTAELWHVPPELDSLKAKARAAGLWNLFLPDPELGGGLSNSEYAPLAEQMGRSLFAPTVFNCNAPDSGNMEVLHRYGSQEQKEVWLEPLLEGDIRSAFCMTEPDVASSDATNMAATAVVEGDEVVINGRKWWSTGVGHPDCKVIIFMGLTDPNAHRYARHSMVLVPMDTPGITVERMLPTMGFYDEPGGHGVVSFDNVRLPADAFIAGPGKGFEIAQGRLGPGRVHHAMRLIGLAEVALEHACRRGLDRTAFGKPLVNLGGNRERIADARIAINQTRLLVLHAAWLLDTVGIMGALSAVSEIKVAAPNMAQQVIDMAIQIHGGGGLSNDFPLAAAWVNARALRLADGPDEVHRGVVARIELAKYA FAPSARAAELIAAVREFIDAEVMPVERAVLAHHDELLGARAGTTAELWHVPPELDSLKAKARAAGLWNLFLPDPELGGGLSNSEYAPLAEQMGRSLFAPTVFNCNAPDSGNMEVLHRYGSQEQKEVWLEPLLEGDIRSAFCMTEPDVASSDATNMAATAVVEGDEVVINGRKWWSTGVGHPDCKVIIFMGLTDPNAHRYARHSMVLVPMDTPGITVERMLPTMGFYDEPGGHGVVSFDNVRLPADAFIAGPGKGFEIAQGRLGPGRVHHAMRLIGLAEVALEHACRRGLDRTAFGKPLVNLGGNRERIADARIAINQTRLLVLHAAWLLDTVGIMGALSAVSEIKVAAPNMAQQVIDMAIQIHGGGGLSNDFPLAAAWVNARALRLADGPDEVHRGVVARIELAKYA 4hr7-a1-m1-cC_4hr7-a1-m1-cF Crystal Structure of Biotin Carboxyl Carrier Protein-Biotin Carboxylase Complex from E.coli P24182 P24182 2.495 X-RAY DIFFRACTION 25 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 425 427 4hr7-a1-m1-cE_4hr7-a1-m1-cA MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKASRVVRGDAELAQSIDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGL MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKAMRVVRGDAELAQSISMDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGL 4hre-a1-m1-cG_4hre-a1-m1-cH Crystal Structure of p11/Annexin A2 Heterotetramer in Complex with SMARCA3 Peptide Q14527 Q14527 2.7852 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 9 9 PTFFPRFEF PTFFPRFEF 4hrf-a1-m1-cA_4hrf-a1-m1-cB Atomic structure of DUSP26 Q9BV47 Q9BV47 1.68 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 MHADEVWPGLYLGDQDMANNRRELRRLGITHVLNASHSRWRGTPEAYEGLGIRYLGVEAHDSPAFDMSIHFQTAADFIHRALSQPGGKILVHSAVGVSRSATLVLAYLMLYHHLTLVEAIKKVKDHRGIIPNRGFLRQLLALDRRLRQGLEALE MHADEVWPGLYLGDQDMANNRRELRRLGITHVLNASHSRWRGTPEAYEGLGIRYLGVEAHDSPAFDMSIHFQTAADFIHRALSQPGGKILVHSAVGVSRSATLVLAYLMLYHHLTLVEAIKKVKDHRGIIPNRGFLRQLLALDRRLRQGLEALE 4hrn-a1-m1-cA_4hrn-a1-m1-cB Structural Basis for Eliciting a Cytotoxic Effect in HER2-Overexpressing Cancer Cells via Binding to the Extracellular Domain of HER2 2.65 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 121 123 DLGKKLLEAARAGQDDEVRILMANGADVNAKDEYGLTPLYLATAHGHLEIVEVLLKNGADVNAVDAIGFTPLHLAAFIGHLEIAEVLLKHGADVNAQDKFGKTAFDISIGNGNEDLAEILQ DLGKKLLEAARAGQDDEVRILMANGADVNAKDEYGLTPLYLATAHGHLEIVEVLLKNGADVNAVDAIGFTPLHLAAFIGHLEIAEVLLKHGADVNAQDKFGKTAFDISIGNGNEDLAEILQKL 4hrn-a1-m1-cD_4hrn-a1-m1-cC Structural Basis for Eliciting a Cytotoxic Effect in HER2-Overexpressing Cancer Cells via Binding to the Extracellular Domain of HER2 P04626 P04626 2.65 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 71 CSQFLRGQECVEECRVLQGLPREYVNARHCLPCHPECQPQDGSVTCFGPEADQCVACAHYKDPPFCVARC CSQFLRGQECVEECRVLQGLPREYVNARHCLPCHPECQPQDGSVTCFGPEADQCVACAHYKDPPFCVARCP 4hrs-a2-m1-cA_4hrs-a2-m2-cA Crystal structure of H. volcanii small archaeal modifier protein 2 D4GZE7 D4GZE7 2.3 X-RAY DIFFRACTION 125 1.0 309800 (Haloferax volcanii DS2) 309800 (Haloferax volcanii DS2) 66 66 GRNVTVEVVGEETSEVAVDDDGTYADLVRAVDLSPHEVTVLVDGRPVPEDQSVEVDRVKVLRLIKG GRNVTVEVVGEETSEVAVDDDGTYADLVRAVDLSPHEVTVLVDGRPVPEDQSVEVDRVKVLRLIKG 4hrv-a1-m1-cA_4hrv-a1-m1-cB Crystal Structure of Lipoprotein GNA1162 from Neisseria meningitidis Q7BMM3 Q7BMM3 1.89 X-RAY DIFFRACTION 190 0.985 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 136 141 PASILVVPPLNESPDVNGTWGLASTAAPLSEAGYYVFPAAVVEETFKQNGTNAADIHAVRPEKLHQIFGNDAVLYITVTEYGTVTTVSAKARLVDSRNGKELWSGSASIREGSNNSNSGLLGLVSAVVNQIANSLT PASILVVPPLNESPDVNGTWGLASTAAPLSEAGYYVFPAAVVEETFKQNGTNAADIHAVRPEKLHQIFGNDAVLYITVTEYGTSYQILDSVTTVSAKARLVDSRNGKELWSGSASIREGSNNSNSGLLGLVSAVVNQIANS 4hs4-a1-m1-cC_4hs4-a1-m1-cF Crystal structure of a putative chromate reductase from Gluconacetobacter hansenii, Gh-ChrR, containing a Y129N substitution. D5QFC5 D5QFC5 2.1 X-RAY DIFFRACTION 17 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 184 184 SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQNHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQNHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS 4hs4-a1-m1-cF_4hs4-a1-m2-cA Crystal structure of a putative chromate reductase from Gluconacetobacter hansenii, Gh-ChrR, containing a Y129N substitution. D5QFC5 D5QFC5 2.1 X-RAY DIFFRACTION 26 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 184 184 SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQNHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQNHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS 4hs4-a1-m2-cA_4hs4-a1-m2-cB Crystal structure of a putative chromate reductase from Gluconacetobacter hansenii, Gh-ChrR, containing a Y129N substitution. D5QFC5 D5QFC5 2.1 X-RAY DIFFRACTION 16 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 184 184 SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQNHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS SPLHFVTLLGSLRKASFNAAVARALPEIAPEGIAITPLGSIGTFPHYSQDVQEEGFPAPVLTMAQQIATADAVVIVTPEYNYSVPGVLKNAIDWLSRVSPQPLAGKPVALVTASPGMIGGARAQNHLRQSLVFLDAYVLNRPEAMIGQVTGKVDAQTLELSDVATREFLARQLDALAALARTLS 4hsg-a1-m1-cA_4hsg-a1-m2-cA Crystal structure of human PRMT3 in complex with an allosteric inhibitor (PRMT3- KTD) O60678 O60678 2.3 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 298 1f3l-a2-m1-cA_1f3l-a2-m2-cA 2fyt-a2-m1-cA_2fyt-a2-m2-cA 3smq-a1-m1-cA_3smq-a1-m2-cA 4qqn-a1-m1-cA_4qqn-a1-m2-cA 4ryl-a1-m1-cA_4ryl-a1-m2-cA 8g2f-a1-m1-cA_8g2f-a1-m2-cA 8g2g-a1-m1-cA_8g2g-a1-m2-cA 8g2g-a2-m1-cB_8g2g-a2-m3-cB YGIHEEMLKDKIRTESYRDFIYQNPHIFKDKVVLDVGCGTGILSMFAAKAGAKKVLGVDQSEILYQAMDIIRLNKLEDTITLIKGKIEEVHLPVEKVDVIISEWMGYFLLFESMLDSVLYAKNKYLAKGGSVYPDICTISLVAVSDVNKHADRIAFWDDVYGFKMSCMKKAVIPEAVVEVLDPKTLISEPCGIKHIDCHTTSISDLEFSSDFTLKITRTSMCTAIAGYFDIYFEKNCHNRVVFSTGPQSTKTHWKQTVFLLEKPFSVKAGEALKGKVTVHKSLTVTLTLNNSTQTYGL YGIHEEMLKDKIRTESYRDFIYQNPHIFKDKVVLDVGCGTGILSMFAAKAGAKKVLGVDQSEILYQAMDIIRLNKLEDTITLIKGKIEEVHLPVEKVDVIISEWMGYFLLFESMLDSVLYAKNKYLAKGGSVYPDICTISLVAVSDVNKHADRIAFWDDVYGFKMSCMKKAVIPEAVVEVLDPKTLISEPCGIKHIDCHTTSISDLEFSSDFTLKITRTSMCTAIAGYFDIYFEKNCHNRVVFSTGPQSTKTHWKQTVFLLEKPFSVKAGEALKGKVTVHKSLTVTLTLNNSTQTYGL 4hsp-a1-m1-cA_4hsp-a1-m4-cA Crystal structure of a DUF3299 family protein (PA4066) from Pseudomonas aeruginosa PAO1 at 2.45 A resolution Q9HWW2 Q9HWW2 2.45 X-RAY DIFFRACTION 90 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 147 147 4hsp-a1-m2-cA_4hsp-a1-m3-cA GAPRELTWSQLIPAGAPPAPAPLPIHDLANALSEAGPAASQQSPNAPVVKALDGIEAKLPGYIVPLEISEAGLVTEFLLVPYYGACIHVPPPPSNQIVYVKTAKGVQDELYQPFWVEGTFKVENASSELAAAGYRQASKVTPYEYEG GAPRELTWSQLIPAGAPPAPAPLPIHDLANALSEAGPAASQQSPNAPVVKALDGIEAKLPGYIVPLEISEAGLVTEFLLVPYYGACIHVPPPPSNQIVYVKTAKGVQDELYQPFWVEGTFKVENASSELAAAGYRQASKVTPYEYEG 4hsp-a1-m2-cA_4hsp-a1-m4-cA Crystal structure of a DUF3299 family protein (PA4066) from Pseudomonas aeruginosa PAO1 at 2.45 A resolution Q9HWW2 Q9HWW2 2.45 X-RAY DIFFRACTION 33 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 147 147 4hsp-a1-m1-cA_4hsp-a1-m3-cA GAPRELTWSQLIPAGAPPAPAPLPIHDLANALSEAGPAASQQSPNAPVVKALDGIEAKLPGYIVPLEISEAGLVTEFLLVPYYGACIHVPPPPSNQIVYVKTAKGVQDELYQPFWVEGTFKVENASSELAAAGYRQASKVTPYEYEG GAPRELTWSQLIPAGAPPAPAPLPIHDLANALSEAGPAASQQSPNAPVVKALDGIEAKLPGYIVPLEISEAGLVTEFLLVPYYGACIHVPPPPSNQIVYVKTAKGVQDELYQPFWVEGTFKVENASSELAAAGYRQASKVTPYEYEG 4hsv-a1-m1-cA_4hsv-a1-m1-cD Crystal Structure of CXCL4L1 P10720 P10720 2.083 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 GDLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQALLYKKIIKEHLES GDLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQALLYKKIIKEHLES 4hsv-a1-m1-cC_4hsv-a1-m1-cD Crystal Structure of CXCL4L1 P10720 P10720 2.083 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 65 4hsv-a1-m1-cB_4hsv-a1-m1-cA QCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQALLYKKIIKEH GDLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQALLYKKIIKEHLES 4ht1-a1-m2-cT_4ht1-a1-m3-cT Human TWEAK in complex with the Fab fragment of a neutralizing antibody O43508 O43508 2.498 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 4ht1-a1-m1-cT_4ht1-a1-m2-cT 4ht1-a1-m1-cT_4ht1-a1-m3-cT RAIAAHYEVHGAQAGVDGTVSGWEEARINSSSPLRYNRQIGEFIVTRAGLYYLYCQVHFDEGKAVYLKLDLLVDGVLALRCLEELGPQLRLCQVSGLLALRPGSSLRIRTLPWAHLKAAPFLTYFGLFQVH RAIAAHYEVHGAQAGVDGTVSGWEEARINSSSPLRYNRQIGEFIVTRAGLYYLYCQVHFDEGKAVYLKLDLLVDGVLALRCLEELGPQLRLCQVSGLLALRPGSSLRIRTLPWAHLKAAPFLTYFGLFQVH 4htg-a2-m1-cA_4htg-a2-m2-cA Porphobilinogen Deaminase from Arabidopsis Thaliana Q43316 Q43316 1.45 X-RAY DIFFRACTION 70 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 302 302 TAIIRIGTRGSPLALAQAYETREKLKKKHPELVEDGAIHIEIIKTTGDKILSQPLADIGGKGLFTKEIDEALINGHIDIAVHSMKDVPTYLPEKTILPCNLPREDVRDAFICLTAATLAELPAGSVVGTASLRRKSQILHKYPALHVEENFRGNVQTRLSKLQGGKVQATLLALAGLKRLSMTENVASILSLDEMLPAVAQGAIGIACRTDDDKMATYLASLNHEETRLAISCERAFLETLDGSCRTPIAGYASKDEEGNCIFRGLVASPDGTKVLETSRKGPYVYEDMVKMGKDAGQELLS TAIIRIGTRGSPLALAQAYETREKLKKKHPELVEDGAIHIEIIKTTGDKILSQPLADIGGKGLFTKEIDEALINGHIDIAVHSMKDVPTYLPEKTILPCNLPREDVRDAFICLTAATLAELPAGSVVGTASLRRKSQILHKYPALHVEENFRGNVQTRLSKLQGGKVQATLLALAGLKRLSMTENVASILSLDEMLPAVAQGAIGIACRTDDDKMATYLASLNHEETRLAISCERAFLETLDGSCRTPIAGYASKDEEGNCIFRGLVASPDGTKVLETSRKGPYVYEDMVKMGKDAGQELLS 4htl-a2-m1-cA_4htl-a2-m4-cA Lmo2764 protein, a putative N-acetylmannosamine kinase, from Listeria monocytogenes Q8Y3R9 Q8Y3R9 1.64 X-RAY DIFFRACTION 20 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 284 284 4htl-a2-m2-cA_4htl-a2-m3-cA KIAAFDIGGTALKGVVLPHGEIILTKSAEISGSDGDQILAEKVFLAENTDVTGIAVSAPGYVNPKTGLITGGAIRRFDNFNLKEWLEAETGLPVAIENDANCALLAEKWLGKGQDLDDFLCLTIGTGIGGGIFSNGELVRGGRFRAGEFGYFSERPGAFRPGKYTLNETTTLVLRRQYAELTGRPLEEITGEEIFANYDAHDAVSERLITEFYTGICTGLYNLIYLFDPTHIFIGGGITSRPTFIAELKHHESFGLRDTIIETATHKNQAGLLGAVYHFLQEEN KIAAFDIGGTALKGVVLPHGEIILTKSAEISGSDGDQILAEKVFLAENTDVTGIAVSAPGYVNPKTGLITGGAIRRFDNFNLKEWLEAETGLPVAIENDANCALLAEKWLGKGQDLDDFLCLTIGTGIGGGIFSNGELVRGGRFRAGEFGYFSERPGAFRPGKYTLNETTTLVLRRQYAELTGRPLEEITGEEIFANYDAHDAVSERLITEFYTGICTGLYNLIYLFDPTHIFIGGGITSRPTFIAELKHHESFGLRDTIIETATHKNQAGLLGAVYHFLQEEN 4htl-a2-m2-cA_4htl-a2-m4-cA Lmo2764 protein, a putative N-acetylmannosamine kinase, from Listeria monocytogenes Q8Y3R9 Q8Y3R9 1.64 X-RAY DIFFRACTION 24 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 284 284 4htl-a2-m1-cA_4htl-a2-m3-cA KIAAFDIGGTALKGVVLPHGEIILTKSAEISGSDGDQILAEKVFLAENTDVTGIAVSAPGYVNPKTGLITGGAIRRFDNFNLKEWLEAETGLPVAIENDANCALLAEKWLGKGQDLDDFLCLTIGTGIGGGIFSNGELVRGGRFRAGEFGYFSERPGAFRPGKYTLNETTTLVLRRQYAELTGRPLEEITGEEIFANYDAHDAVSERLITEFYTGICTGLYNLIYLFDPTHIFIGGGITSRPTFIAELKHHESFGLRDTIIETATHKNQAGLLGAVYHFLQEEN KIAAFDIGGTALKGVVLPHGEIILTKSAEISGSDGDQILAEKVFLAENTDVTGIAVSAPGYVNPKTGLITGGAIRRFDNFNLKEWLEAETGLPVAIENDANCALLAEKWLGKGQDLDDFLCLTIGTGIGGGIFSNGELVRGGRFRAGEFGYFSERPGAFRPGKYTLNETTTLVLRRQYAELTGRPLEEITGEEIFANYDAHDAVSERLITEFYTGICTGLYNLIYLFDPTHIFIGGGITSRPTFIAELKHHESFGLRDTIIETATHKNQAGLLGAVYHFLQEEN 4htl-a2-m3-cA_4htl-a2-m4-cA Lmo2764 protein, a putative N-acetylmannosamine kinase, from Listeria monocytogenes Q8Y3R9 Q8Y3R9 1.64 X-RAY DIFFRACTION 141 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 284 284 4htl-a1-m1-cA_4htl-a1-m2-cA 4htl-a2-m1-cA_4htl-a2-m2-cA KIAAFDIGGTALKGVVLPHGEIILTKSAEISGSDGDQILAEKVFLAENTDVTGIAVSAPGYVNPKTGLITGGAIRRFDNFNLKEWLEAETGLPVAIENDANCALLAEKWLGKGQDLDDFLCLTIGTGIGGGIFSNGELVRGGRFRAGEFGYFSERPGAFRPGKYTLNETTTLVLRRQYAELTGRPLEEITGEEIFANYDAHDAVSERLITEFYTGICTGLYNLIYLFDPTHIFIGGGITSRPTFIAELKHHESFGLRDTIIETATHKNQAGLLGAVYHFLQEEN KIAAFDIGGTALKGVVLPHGEIILTKSAEISGSDGDQILAEKVFLAENTDVTGIAVSAPGYVNPKTGLITGGAIRRFDNFNLKEWLEAETGLPVAIENDANCALLAEKWLGKGQDLDDFLCLTIGTGIGGGIFSNGELVRGGRFRAGEFGYFSERPGAFRPGKYTLNETTTLVLRRQYAELTGRPLEEITGEEIFANYDAHDAVSERLITEFYTGICTGLYNLIYLFDPTHIFIGGGITSRPTFIAELKHHESFGLRDTIIETATHKNQAGLLGAVYHFLQEEN 4hud-a1-m1-cE_4hud-a1-m1-cF Structure of the bacteriophage T4 tail terminator protein, gp15. P11112 P11112 2.7001 X-RAY DIFFRACTION 68 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 211 211 3j2m-a1-m1-cA_3j2m-a1-m1-cB 3j2m-a1-m1-cA_3j2m-a1-m1-cF 3j2m-a1-m1-cB_3j2m-a1-m1-cC 3j2m-a1-m1-cC_3j2m-a1-m1-cD 3j2m-a1-m1-cD_3j2m-a1-m1-cE 3j2m-a1-m1-cE_3j2m-a1-m1-cF 3j2n-a1-m1-cA_3j2n-a1-m1-cB 3j2n-a1-m1-cA_3j2n-a1-m1-cF 3j2n-a1-m1-cB_3j2n-a1-m1-cC 3j2n-a1-m1-cC_3j2n-a1-m1-cD 3j2n-a1-m1-cD_3j2n-a1-m1-cE 3j2n-a1-m1-cE_3j2n-a1-m1-cF 4hud-a1-m1-cA_4hud-a1-m1-cB 4hud-a1-m1-cA_4hud-a1-m1-cF 4hud-a1-m1-cB_4hud-a1-m1-cC 4hud-a1-m1-cC_4hud-a1-m1-cD 4hud-a1-m1-cD_4hud-a1-m1-cE 4huh-a1-m1-cB_4huh-a1-m1-cA 4huh-a1-m1-cB_4huh-a1-m1-cC 4huh-a1-m1-cC_4huh-a1-m1-cD 4huh-a1-m1-cD_4huh-a1-m1-cE 4huh-a1-m1-cF_4huh-a1-m1-cA 4huh-a1-m1-cF_4huh-a1-m1-cE GYFYNSSFRRYATLMGDLFSNIQIKRQLESGDKFIRVPITYASKEHFMMKLNKWTSINSQEDVAKVETILPRINLHLVDFSYNAPVVSQYNPSPIKMIYELSIFTRYEDDMFQIVEQILPYFQPHFNTTMYEQFGNDIPFKRDIKIVLMSAAIDEAIDGRRRIEWSLTFEVNGWMYPPVDDAEGLIRTTYTDFHANTRDLPDGEGVFESVD GYFYNSSFRRYATLMGDLFSNIQIKRQLESGDKFIRVPITYASKEHFMMKLNKWTSINSQEDVAKVETILPRINLHLVDFSYNAPVVSQYNPSPIKMIYELSIFTRYEDDMFQIVEQILPYFQPHFNTTMYEQFGNDIPFKRDIKIVLMSAAIDEAIDGRRRIEWSLTFEVNGWMYPPVDDAEGLIRTTYTDFHANTRDLPDGEGVFESVD 4huj-a3-m1-cA_4huj-a3-m2-cB Crystal structure of a hypothetical protein SMa0349 from Sinorhizobium meliloti Q930K7 Q930K7 1.77 X-RAY DIFFRACTION 61 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 203 204 NLYFQSTTYAIIGAGAIGSALAERFTAAQIPAIIANSRGPASLSSVTDRFGASVKAVELKDALQADVVILAVPYDSIADIVTQVSDWGGQIVVDASNAIDFPAFKPRDLGGRLSTEIVSELVPGAKVVKAFNTLPAAVLAADPDKGTGSRVLFLSGNHSDANRQVAELISSLGFAPVDLGTLAASGPIQQFGRPLVALNLLKD ENLYFQSTTYAIIGAGAIGSALAERFTAAQIPAIIANSRGPASLSSVTDRFGASVKAVELKDALQADVVILAVPYDSIADIVTQVSDWGGQIVVDASNAIDFPAFKPRDLGGRLSTEIVSELVPGAKVVKAFNTLPAAVLAADPDKGTGSRVLFLSGNHSDANRQVAELISSLGFAPVDLGTLAASGPIQQFGRPLVALNLLKD 4huz-a1-m1-cA_4huz-a1-m2-cA 2,6-Dichloro-p-hydroquinone 1,2-Dioxygenase Q9ZBB0 Q9ZBB0 2.6 X-RAY DIFFRACTION 78 1.0 46429 (Sphingobium chlorophenolicum) 46429 (Sphingobium chlorophenolicum) 317 317 TNHITSLHHITICTGTAQGDIDFFVKVMGQRFVKRTLFYDGSIPIYHLYFADELGTPGTVMTTFPTRRTGQKGRKGSNQFTVCTYAIPKGSLEWWIGHLNAHGIATGEPGTRFGQRYVGFQHPDCGIDFEVLEDENDTRQPYDSPYVPIEHAQRGFHSWTASVRELEDMDFFMENCWNFEKIGEEGNRHRYRVKGTTESGTIIDLLHEPDRRQGSWTIAEGIIHHGAFAVPDMDIQARIKFETEGVGFTDFSDRKNRGYFESTYVRTPGGVMFEATHSLGFTHDEDERSLGMDLKVSPQFDDKKHLIEQAMEDDPIV TNHITSLHHITICTGTAQGDIDFFVKVMGQRFVKRTLFYDGSIPIYHLYFADELGTPGTVMTTFPTRRTGQKGRKGSNQFTVCTYAIPKGSLEWWIGHLNAHGIATGEPGTRFGQRYVGFQHPDCGIDFEVLEDENDTRQPYDSPYVPIEHAQRGFHSWTASVRELEDMDFFMENCWNFEKIGEEGNRHRYRVKGTTESGTIIDLLHEPDRRQGSWTIAEGIIHHGAFAVPDMDIQARIKFETEGVGFTDFSDRKNRGYFESTYVRTPGGVMFEATHSLGFTHDEDERSLGMDLKVSPQFDDKKHLIEQAMEDDPIV 4hvf-a1-m1-cB_4hvf-a1-m1-cD Crystal structure of green fluorescent protein lanGFP(Branchiostoma Lanceolatum) B1PNC3 B1PNC3 1.7 X-RAY DIFFRACTION 46 0.995 7740 (Branchiostoma lanceolatum) 7740 (Branchiostoma lanceolatum) 217 223 4hvf-a1-m1-cA_4hvf-a1-m1-cC SLLPATHELHIFGSINSLEFDLVGRGTGNPKEGYEELHLKSTKSALQFSPWILVPQIFYQYLPFPDGAMSPFQAAMNDGSGYQVHRTMQFEDGATLTGIYRYTYEGTHIKGEFQVIGTGFPADGPVMTNSLTAADWCVTKIVYPNENTIIDKFDWTYTTTSGKRYQSNVRSNFTFAKPIAANILQKQPMFVFRKTELKHSKTELNFKEWQTAFSDVM HHHHHHGSLLPATHELHIFGSINSLEFDLVGRGTGNPKEGYEELHLKSTKSALQFSPWILVPQIFYQYLPFPDGAMSPFQAAMNDGSGYQVHRTMQFEDGATLTGIYRYTYEGTHIKGEFQVGTGFPADGPVMTNSLTAADWCVTKIVYPNENTIIDKFDWTYTTTSGKRYQSNVRSNFTFAKPIAANILQKQPMFVFRKTELKHSKTELNFKEWQTAFSDVM 4hvf-a1-m1-cC_4hvf-a1-m1-cD Crystal structure of green fluorescent protein lanGFP(Branchiostoma Lanceolatum) B1PNC3 B1PNC3 1.7 X-RAY DIFFRACTION 65 0.995 7740 (Branchiostoma lanceolatum) 7740 (Branchiostoma lanceolatum) 217 223 4hvf-a1-m1-cA_4hvf-a1-m1-cB SLLPATHELHIFGSINSLEFDLVGRGTGNPKEGYEELHLKSTKSALQFSPWILVPQIFYQYLPFPDGAMSPFQAAMNDGSGYQVHRTMQFEDGATLTGIYRYTYEGTHIKGEFQVIGTGFPADGPVMTNSLTAADWCVTKIVYPNENTIIDKFDWTYTTTSGKRYQSNVRSNFTFAKPIAANILQKQPMFVFRKTELKHSKTELNFKEWQTAFSDVM HHHHHHGSLLPATHELHIFGSINSLEFDLVGRGTGNPKEGYEELHLKSTKSALQFSPWILVPQIFYQYLPFPDGAMSPFQAAMNDGSGYQVHRTMQFEDGATLTGIYRYTYEGTHIKGEFQVGTGFPADGPVMTNSLTAADWCVTKIVYPNENTIIDKFDWTYTTTSGKRYQSNVRSNFTFAKPIAANILQKQPMFVFRKTELKHSKTELNFKEWQTAFSDVM 4hvk-a1-m1-cA_4hvk-a1-m2-cA Crystal structure and functional studies of an unusual L-cysteine desulfurase from Archaeoglobus fulgidus. O29689 O29689 1.43 X-RAY DIFFRACTION 202 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 369 369 4eb5-a1-m1-cB_4eb5-a1-m1-cA 4eb7-a1-m1-cB_4eb7-a1-m1-cA 4r5f-a1-m1-cA_4r5f-a1-m2-cA AYFDYTSAKPVDERILEAMLPYMTESFGNPSSVHSYGFKAREAVQEAREKVAKLVNGGGGTVVFTSGATEANNLAIIGYAMRNARKGKHILVSAVEHMSVINPAKFLQKQGFEVEYIPVGKYGEVDVSFIDQKLRDDTILVSVQHANNEIGTIQPVEEISEVLAGKAALHIDATASVGQIEVDVEKIGADMLTISSNDIYGPKGVGALWIRKEAKLQPVILGGGQENGLRSGSENVPSIVGFGKAAEITAMEWREEAERLRRLRDRIIDNVLKIEESYLNGHPEKRLPNNVNVRFSYIEGESIVLSLDMAGIQASTGQPSHVLMACGLKHEEAHGTLLLTLGRYNTDEDVDRLLEVLPGVIERLRSMSP AYFDYTSAKPVDERILEAMLPYMTESFGNPSSVHSYGFKAREAVQEAREKVAKLVNGGGGTVVFTSGATEANNLAIIGYAMRNARKGKHILVSAVEHMSVINPAKFLQKQGFEVEYIPVGKYGEVDVSFIDQKLRDDTILVSVQHANNEIGTIQPVEEISEVLAGKAALHIDATASVGQIEVDVEKIGADMLTISSNDIYGPKGVGALWIRKEAKLQPVILGGGQENGLRSGSENVPSIVGFGKAAEITAMEWREEAERLRRLRDRIIDNVLKIEESYLNGHPEKRLPNNVNVRFSYIEGESIVLSLDMAGIQASTGQPSHVLMACGLKHEEAHGTLLLTLGRYNTDEDVDRLLEVLPGVIERLRSMSP 4hvs-a2-m1-cA_4hvs-a2-m2-cA Crystal structure of KIT kinase domain with a small molecule inhibitor, PLX647 P10721 P10721 1.9 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 HHMPMYEVQWKVVEESNGNNYSYIDPTQLPYDHKWEFPRNRLSFGKTLGAGAFGKVVEATAQGLIKSDAAMTVAVKMLKPSAHSTEREALMSELKVLSYLGNHENIVNLLGACTHGGPTLVITEYCCYGDLLNFLRRKRDSFHSSDTSPASMEDDENALDLEDLLSFSYQVAKGMAFLASKNCIHRDLAARNILLTHGRITKICDFGLARDIKNDSNYVDKGNARLPVKWMAPESIFNSVYTFESDVWSYGIFLWELFSLGSSPYPGMPVDSKFYKMIKEGFRMSSPEHAPAEMYDIMKTCWDADPDKRPTFKQIVQDIEKQISES HHMPMYEVQWKVVEESNGNNYSYIDPTQLPYDHKWEFPRNRLSFGKTLGAGAFGKVVEATAQGLIKSDAAMTVAVKMLKPSAHSTEREALMSELKVLSYLGNHENIVNLLGACTHGGPTLVITEYCCYGDLLNFLRRKRDSFHSSDTSPASMEDDENALDLEDLLSFSYQVAKGMAFLASKNCIHRDLAARNILLTHGRITKICDFGLARDIKNDSNYVDKGNARLPVKWMAPESIFNSVYTFESDVWSYGIFLWELFSLGSSPYPGMPVDSKFYKMIKEGFRMSSPEHAPAEMYDIMKTCWDADPDKRPTFKQIVQDIEKQISES 4hvy-a2-m1-cA_4hvy-a2-m4-cA A thermostable variant of human NUDT18 NUDIX domain obtained by Hot Colony Filtration Q6ZVK8 Q6ZVK8 1.46 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 4hvy-a2-m2-cA_4hvy-a2-m3-cA RKNVCYMVLAVFLSEQDEVLLIQEAKRECRGSWYLPAGRMEPGETIVEALQRVVKEEAGLHCEPETLLSVEERGPSWVRFVFLARPTGGILKTSKEADAESLQAAWYPRTSLPTPLRAHDILHLVLAAQYRQQA RKNVCYMVLAVFLSEQDEVLLIQEAKRECRGSWYLPAGRMEPGETIVEALQRVVKEEAGLHCEPETLLSVEERGPSWVRFVFLARPTGGILKTSKEADAESLQAAWYPRTSLPTPLRAHDILHLVLAAQYRQQA 4hvy-a2-m2-cA_4hvy-a2-m4-cA A thermostable variant of human NUDT18 NUDIX domain obtained by Hot Colony Filtration Q6ZVK8 Q6ZVK8 1.46 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 134 4hvy-a2-m1-cA_4hvy-a2-m3-cA RKNVCYMVLAVFLSEQDEVLLIQEAKRECRGSWYLPAGRMEPGETIVEALQRVVKEEAGLHCEPETLLSVEERGPSWVRFVFLARPTGGILKTSKEADAESLQAAWYPRTSLPTPLRAHDILHLVLAAQYRQQA RKNVCYMVLAVFLSEQDEVLLIQEAKRECRGSWYLPAGRMEPGETIVEALQRVVKEEAGLHCEPETLLSVEERGPSWVRFVFLARPTGGILKTSKEADAESLQAAWYPRTSLPTPLRAHDILHLVLAAQYRQQA 4hw0-a2-m1-cC_4hw0-a2-m1-cB Crystal structure of Sso10a-2, a DNA-binding protein from Sulfolobus solfataricus Q97V10 Q97V10 2 X-RAY DIFFRACTION 61 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 91 93 4hw0-a1-m1-cA_4hw0-a1-m2-cA RGTEIFDILRNCEPKCGITRVIYGAGINYVVAQKYLDQLVKVGALNIKTENDRKIYEITEKGKLLRTHIEEFIKIRENLYSAKEKVSELLR RGTEIFDILRNCEPKCGITRVIYGAGINYVVAQKYLDQLVKVGALNIKTENDRKIYEITEKGKLLRTHIEEFIKIRENLYSAKEKVSELLRTD 4hw5-a3-m1-cA_4hw5-a3-m1-cB Crystal Structure of the Human C3a anaphylatoxin P01024 P01024 2.25 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 SVQLTEKRMDKVGKYPKELRKCCEDGMRENPMRFSCQRRTRFISLGEACKKVFLDCCNYITELRRQHARASHLGLAR SVQLTEKRMDKVGKYPKELRKCCEDGMRENPMRFSCQRRTRFISLGEACKKVFLDCCNYITELRRQHARASHLGLAR 4hw7-a2-m1-cA_4hw7-a2-m2-cA Crystal structure of FMS kinase domain with a small molecular inhibitor, PLX647-OME P07333 P07333 2.9001 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 289 4r7h-a2-m1-cA_4r7h-a2-m2-cA 4r7i-a2-m1-cA_4r7i-a2-m2-cA PTQLPYNEKWEFPRNNLQFGKTLGAGAFGKVVEATAFGLGKEDAVLKVAVKMLKSTAHADEKEALMSELKIMSHLGQHENIVNLLGACTHGGPVLVITEYCTYGDLLNFLRRKAEAMLGPSGRPLELRDLLHFSSQVAQGMAFLASKNCIHRDVAARNVLLTNGHVAKIGDFGLARDIMNDSNYIVKGNARLPVKWMAPESIFDSVYTVQSDVWSYGILLWEIFSLGLNPYPGILVNSKFYKLVKDGYQMAQPAFAPKNIYSIMQACWALEPTHRPTFQQITSFLQEQA PTQLPYNEKWEFPRNNLQFGKTLGAGAFGKVVEATAFGLGKEDAVLKVAVKMLKSTAHADEKEALMSELKIMSHLGQHENIVNLLGACTHGGPVLVITEYCTYGDLLNFLRRKAEAMLGPSGRPLELRDLLHFSSQVAQGMAFLASKNCIHRDVAARNVLLTNGHVAKIGDFGLARDIMNDSNYIVKGNARLPVKWMAPESIFDSVYTVQSDVWSYGILLWEIFSLGLNPYPGILVNSKFYKLVKDGYQMAQPAFAPKNIYSIMQACWALEPTHRPTFQQITSFLQEQA 4hw8-a1-m1-cA_4hw8-a1-m1-cB 2.25 Angstrom Structure of the Extracellular Solute-binding Protein from Staphylococcus aureus in complex with Maltose. Q2G1E9 Q2G1E9 2.251 X-RAY DIFFRACTION 78 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 376 376 KDKPNQLTMWVDGDKQMAFYKKITDQYTKKTGIKVKLVNIGQNDQLENISLDAPAGKGPDIFFLAHDNTGSAYLQGLAAEIKLSKDELKGFNKQALKAMNYDNKQLALPAIVETTALFYNKKLVKNAPQTLEEVEANAAKLTDSKKKQYGMLFDAKNFYFNYPFLFGNDDYIFKKNGSEYDIHQLGLNSKHVVKNAERLQKWYDKGYLPKAATHDVMIGLFKEGKVGQFVTGPWNINEYQETFGKDLGVTTLPTDGGKPMKPFLGVRGWYLSEYSKHKYWAKDLMLYITSKDTLQKYTDEMSEITGRVDVKSSNPNLKVFEKQARHAEPMPNIPEMRQVWEPMGNASIFISNGKNPKQALDEATNDITQNIKILHP KDKPNQLTMWVDGDKQMAFYKKITDQYTKKTGIKVKLVNIGQNDQLENISLDAPAGKGPDIFFLAHDNTGSAYLQGLAAEIKLSKDELKGFNKQALKAMNYDNKQLALPAIVETTALFYNKKLVKNAPQTLEEVEANAAKLTDSKKKQYGMLFDAKNFYFNYPFLFGNDDYIFKKNGSEYDIHQLGLNSKHVVKNAERLQKWYDKGYLPKAATHDVMIGLFKEGKVGQFVTGPWNINEYQETFGKDLGVTTLPTDGGKPMKPFLGVRGWYLSEYSKHKYWAKDLMLYITSKDTLQKYTDEMSEITGRVDVKSSNPNLKVFEKQARHAEPMPNIPEMRQVWEPMGNASIFISNGKNPKQALDEATNDITQNIKILHP 4hw9-a1-m1-cF_4hw9-a1-m1-cG Crystal Structure of Helicobacter pylori MscS (Closed State) E8QGV2 E8QGV2 4.14 X-RAY DIFFRACTION 178 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 253 253 4hw9-a1-m1-cA_4hw9-a1-m1-cB 4hw9-a1-m1-cA_4hw9-a1-m1-cG 4hw9-a1-m1-cB_4hw9-a1-m1-cC 4hw9-a1-m1-cC_4hw9-a1-m1-cD 4hw9-a1-m1-cD_4hw9-a1-m1-cE 4hw9-a1-m1-cE_4hw9-a1-m1-cF FGIILIKAVIVFCIGFYFSFFLRNKTMKLLSKKDEILANFVAQVTFILILIITTIIALSTLGVQTTSIITVLGTVGIAVALALKDYLSSIAGGIILIILHPFKKGDIIEISGLEGKVEALNFFNTSLRLHDGRLAVLPNRSVANSNIINSNNTACRRIEWVCGVGYGSDIELVHKTIKDVIDTMEKIDKNMPTFIGITDFGSSSLNFTIRVWAKIEDGIFNVRSELIERIKNALDANHIEIPFNKLDIAIKNQ FGIILIKAVIVFCIGFYFSFFLRNKTMKLLSKKDEILANFVAQVTFILILIITTIIALSTLGVQTTSIITVLGTVGIAVALALKDYLSSIAGGIILIILHPFKKGDIIEISGLEGKVEALNFFNTSLRLHDGRLAVLPNRSVANSNIINSNNTACRRIEWVCGVGYGSDIELVHKTIKDVIDTMEKIDKNMPTFIGITDFGSSSLNFTIRVWAKIEDGIFNVRSELIERIKNALDANHIEIPFNKLDIAIKNQ 4hwf-a3-m1-cB_4hwf-a3-m1-cA Crystal structure of ATBAG3 Q9LYP4 Q9LYP4 2 X-RAY DIFFRACTION 112 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 75 87 SASKSISDISFEVDRLAGQVSAFEKSLVNLIEMLMNQLLRLDAIIADGDVKLMRKMQVQRVQKYVEALDLLKVKN SASKSISDISFEVDRLAGQVSAFETVINKGGKVEEKSLVNLIEMLMNQLLRLDAIIADGDVKLMRKMQVQRVQKYVEALDLLKVKNS 4hwg-a1-m2-cA_4hwg-a1-m6-cA Structure of UDP-N-acetylglucosamine 2-epimerase from Rickettsia bellii Q1RIM5 Q1RIM5 2 X-RAY DIFFRACTION 76 1.0 336407 (Rickettsia bellii RML369-C) 336407 (Rickettsia bellii RML369-C) 371 371 4hwg-a1-m1-cA_4hwg-a1-m4-cA 4hwg-a1-m3-cA_4hwg-a1-m5-cA HMLKVMTIVGTRPELIKLCCVISEFDKHTKHILVHTGQNYAYELNQVFFDMGIRKPDYFLEVAADNTAKSIGLVIEKVDEVLEKEKPDAVLFYGDTNSCLSAIAAKRRKIPIFHMEAGNRCFDQRVPEEINRKIIDHISDVNITLTEHARRYLIAEGLPAELTFKSGSHMPEVLDRFMPKILKSDILDKLSLTPKQYFLISSHREKNNLKELLNSLQMLIKEYNFLIIFSTHPRTKKRLEDLEGFKELGDKIRFLPAFSFTDYVKLQMNAFCILSDSGTITEEASILNLPALNIREAHERPEGMDAGTLIMSGFKAERVLQAVKTITEEHDNNKRTQGLVPDYNEAGLVSKKILRIVLSYVDYINRTVWFK HMLKVMTIVGTRPELIKLCCVISEFDKHTKHILVHTGQNYAYELNQVFFDMGIRKPDYFLEVAADNTAKSIGLVIEKVDEVLEKEKPDAVLFYGDTNSCLSAIAAKRRKIPIFHMEAGNRCFDQRVPEEINRKIIDHISDVNITLTEHARRYLIAEGLPAELTFKSGSHMPEVLDRFMPKILKSDILDKLSLTPKQYFLISSHREKNNLKELLNSLQMLIKEYNFLIIFSTHPRTKKRLEDLEGFKELGDKIRFLPAFSFTDYVKLQMNAFCILSDSGTITEEASILNLPALNIREAHERPEGMDAGTLIMSGFKAERVLQAVKTITEEHDNNKRTQGLVPDYNEAGLVSKKILRIVLSYVDYINRTVWFK 4hwg-a1-m5-cA_4hwg-a1-m6-cA Structure of UDP-N-acetylglucosamine 2-epimerase from Rickettsia bellii Q1RIM5 Q1RIM5 2 X-RAY DIFFRACTION 67 1.0 336407 (Rickettsia bellii RML369-C) 336407 (Rickettsia bellii RML369-C) 371 371 4hwg-a1-m1-cA_4hwg-a1-m2-cA 4hwg-a1-m1-cA_4hwg-a1-m3-cA 4hwg-a1-m2-cA_4hwg-a1-m3-cA 4hwg-a1-m4-cA_4hwg-a1-m5-cA 4hwg-a1-m4-cA_4hwg-a1-m6-cA HMLKVMTIVGTRPELIKLCCVISEFDKHTKHILVHTGQNYAYELNQVFFDMGIRKPDYFLEVAADNTAKSIGLVIEKVDEVLEKEKPDAVLFYGDTNSCLSAIAAKRRKIPIFHMEAGNRCFDQRVPEEINRKIIDHISDVNITLTEHARRYLIAEGLPAELTFKSGSHMPEVLDRFMPKILKSDILDKLSLTPKQYFLISSHREKNNLKELLNSLQMLIKEYNFLIIFSTHPRTKKRLEDLEGFKELGDKIRFLPAFSFTDYVKLQMNAFCILSDSGTITEEASILNLPALNIREAHERPEGMDAGTLIMSGFKAERVLQAVKTITEEHDNNKRTQGLVPDYNEAGLVSKKILRIVLSYVDYINRTVWFK HMLKVMTIVGTRPELIKLCCVISEFDKHTKHILVHTGQNYAYELNQVFFDMGIRKPDYFLEVAADNTAKSIGLVIEKVDEVLEKEKPDAVLFYGDTNSCLSAIAAKRRKIPIFHMEAGNRCFDQRVPEEINRKIIDHISDVNITLTEHARRYLIAEGLPAELTFKSGSHMPEVLDRFMPKILKSDILDKLSLTPKQYFLISSHREKNNLKELLNSLQMLIKEYNFLIIFSTHPRTKKRLEDLEGFKELGDKIRFLPAFSFTDYVKLQMNAFCILSDSGTITEEASILNLPALNIREAHERPEGMDAGTLIMSGFKAERVLQAVKTITEEHDNNKRTQGLVPDYNEAGLVSKKILRIVLSYVDYINRTVWFK 4hwu-a1-m1-cB_4hwu-a1-m1-cA Crystal structure of the Ig-C2 type 1 domain from mouse Fibroblast growth factor receptor 2 (FGFR2) [NYSGRC-005912] P21803 P21803 2.903 X-RAY DIFFRACTION 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 73 81 PEAYVVAPGESLELQCMLAVISWTKDGVHLGPNNRTVLIGEYLQIKGATPRDSGLYACTASETWIFMVNVTDA PEAYVVAPGESLELQCMLKDAAVISWTKDGVHLGPNNRTVLIGEYLQIKGATPRDSGLYACTAARTVDSETWIFMVNVTDA 4hwv-a1-m1-cB_4hwv-a1-m1-cA Structure of Pectate Lyase from Acidovorax avenae subsp citrulli A1TSQ3 A1TSQ3 1.37 X-RAY DIFFRACTION 90 1.0 397945 (Acidovorax citrulli AAC00-1) 397945 (Acidovorax citrulli AAC00-1) 487 498 MDIGINSDPNSAAPAGSIDSLGATGWASHGTPTTGGQGAAAERTYTVANRNELIQALYGNTAVIAPDGSVQGTPDKAPKVIRIRGTIDLNVDGQLRPYTPDRYVAGSCASSVHGYASQASLWSDYLAAYRPGAWGNARTVSGKPEDARACAAELQRRVVTISVPDNTSLLGIGTDAKILHGNLMLGTPDAPVANIVIRNITFEDAFDDFPQWDPTDSSDGRWNSEYDLISVAHASHVWIDHNTFSDGDRHDHAFPSVWHETVHGTDYSGGDFKVQHHDGLVDVTRHGNYVTLSNNHFHDHDKAFLIGGTDVPGADSGNPRMLKVTFHGNHFQNLRQRQARVRYGMVHLYNNYYENTRDASADYPWLAGMTLGQSGKVHAENNVVSLAGPDRPARPADVANARISAARTQDCAALFSASECASTFYDSGTVLNGGPADLTAAVRWSSALAAAPAWKPSDFYDYTLEDTADLAARITARAGAGKLEGPA MDIGINSDPNSAAPAGSIDSLGATGWASHGTPTTGGQGAAAERTYTVANRNELIQALYGNTAVIAPDGSVQGTPDKAPKVIRIRGTIDLNVDGQLRPYTPDRYVAGSCASSVHGYASQASLWSDYLAAYRPGAWGNARTVSGKPEDARACAAELQRRVVTISVPDNTSLLGIGTDAKILHGNLMLGTPDAPVANIVIRNITFEDAFDDFPQWDPTDSSDGRWNSEYDLISVAHASHVWIDHNTFSDGDRHDHAFPSVWHETVHGTDYSGGDFKVQHHDGLVDVTRHGNYVTLSNNHFHDHDKAFLIGGTDVPGADSGNPRMLKVTFHGNHFQNLRQRQARVRYGMVHLYNNYYENTRDASADYPWLAGMTLGQSGKVHAENNVVSLAGPDRPARPADVANARISAARTQDCAALFSASECASTFYDSGTVLNGGPADLTAAVRWSSALAAAPAWKPSDFYDYTLEDTADLAARITARAGAGKLEGPAEPRKLAAALEH 4hwx-a2-m1-cA_4hwx-a2-m3-cA Crystal structure of Streptomyces caespitosus sermetstatin Q9FDS0 Q9FDS0 1.9 X-RAY DIFFRACTION 42 1.0 53502 (Streptomyces caespitosus) 53502 (Streptomyces caespitosus) 114 114 GSAHGPSAMVFTVIQGSGEPTDTVLRATTLSCAYTAEGTHPAPRAACDALNATDGELNRLLAAPDPSLVCPMYFDPVTVTADGVLNGRRVAWKHTFSNTCVMSANLNSNPVYAF GSAHGPSAMVFTVIQGSGEPTDTVLRATTLSCAYTAEGTHPAPRAACDALNATDGELNRLLAAPDPSLVCPMYFDPVTVTADGVLNGRRVAWKHTFSNTCVMSANLNSNPVYAF 4hx0-a2-m1-cA_4hx0-a2-m2-cA Crystal structure of a putative nucleotidyltransferase (TM1012) from Thermotoga maritima at 1.87 A resolution Q9X0A5 Q9X0A5 1.87 X-RAY DIFFRACTION 74 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 161 161 HHHHHMIRPEYLRVLRKIYDRLKNEKVNWVVTGSLSFALQGVPVEVHDIDIQTDEEGAYEIERIFSEFVSKKVRFSSTEKICSHFGELIIDGIKVEIMGDIRKRLEDGTWEDPVDLNKYKRFVETHGMKIPVLSLEYEYQAYLKLGRVEKAETLRKWLNER HHHHHMIRPEYLRVLRKIYDRLKNEKVNWVVTGSLSFALQGVPVEVHDIDIQTDEEGAYEIERIFSEFVSKKVRFSSTEKICSHFGELIIDGIKVEIMGDIRKRLEDGTWEDPVDLNKYKRFVETHGMKIPVLSLEYEYQAYLKLGRVEKAETLRKWLNER 4hx3-a1-m1-cD_4hx3-a1-m1-cB Crystal structure of Streptomyces caespitosus sermetstatin in complex with S. caespitosus snapalysin Q9FDS0 Q9FDS0 2.7 X-RAY DIFFRACTION 90 1.0 53502 (Streptomyces caespitosus) 53502 (Streptomyces caespitosus) 109 113 4hwx-a1-m1-cA_4hwx-a1-m2-cA 4hx2-a1-m1-cD_4hx2-a1-m1-cB 4hx3-a2-m1-cH_4hx3-a2-m1-cF 4hx3-a3-m1-cJ_4hx3-a3-m1-cL SAHGPSAMVFTVIQGSGEPTDTVLRATTLSCAYTAEGTHPAPRAACDALNATDGELNRLLAALVCPMYFDPVTVTADGVLNGRRVAWKHTFSNTCVMSANLNSNPVYAF SAHGPSAMVFTVIQGSGEPTDTVLRATTLSCAYTAEGTHPAPRAACDALNATDGELNRLLAAPDPSLVCPMYFDPVTVTADGVLNGRRVAWKHTFSNTCVMSANLNSNPVYAF 4hx4-a1-m1-cA_4hx4-a1-m1-cB Structure of MNTR mutant E11K complexed with Mn2+ P54512 P54512 1.65 X-RAY DIFFRACTION 74 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 128 128 1on1-a1-m1-cA_1on1-a1-m1-cB 1on2-a1-m1-cA_1on2-a1-m1-cB 2ev0-a1-m1-cA_2ev0-a1-m1-cB 2ev5-a1-m1-cB_2ev5-a1-m1-cA 2ev6-a1-m1-cA_2ev6-a1-m1-cB 2f5c-a1-m1-cA_2f5c-a1-m2-cA 2f5d-a1-m1-cA_2f5d-a1-m1-cB 2f5e-a1-m1-cA_2f5e-a1-m1-cB 2f5f-a1-m1-cA_2f5f-a1-m1-cB 2hyf-a1-m1-cB_2hyf-a1-m1-cA 2hyf-a2-m1-cC_2hyf-a2-m1-cD 2hyf-a3-m1-cB_2hyf-a3-m1-cA 2hyg-a1-m1-cD_2hyg-a1-m2-cD 3r60-a1-m1-cB_3r60-a1-m1-cA 3r61-a1-m1-cA_3r61-a1-m1-cB 4hv5-a1-m1-cA_4hv5-a1-m1-cB 4hv6-a1-m1-cA_4hv6-a1-m2-cA 4hv6-a2-m1-cB_4hv6-a2-m3-cB 4hx7-a1-m1-cA_4hx7-a1-m1-cB 4hx8-a1-m1-cB_4hx8-a1-m1-cA TPSMEDYIKQIYMLIEEKGYARVSDIAEALAVHPSSVTKMVQKLDKDEYLIGLVLTSKGKKIGKRLVYRHELLEQFLRIIGVDEEKIYNDVEGIEHHLSWNSIDRIGDLVQYFEEDDARKKDLKSIQK TPSMEDYIKQIYMLIEEKGYARVSDIAEALAVHPSSVTKMVQKLDKDEYLIGLVLTSKGKKIGKRLVYRHELLEQFLRIIGVDEEKIYNDVEGIEHHLSWNSIDRIGDLVQYFEEDDARKKDLKSIQK 4hx6-a1-m1-cB_4hx6-a1-m1-cA Streptomyces globisporus C-1027 NADH:FAD oxidoreductase SgcE6 Q8GME2 Q8GME2 1.89 X-RAY DIFFRACTION 220 0.994 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 164 173 4hx6-a2-m1-cC_4hx6-a2-m1-cD 4hx6-a4-m1-cH_4hx6-a4-m1-cG 4r82-a1-m1-cB_4r82-a1-m1-cA PAELVDPKDRVQLRRVFGDFPTGVTVVTVGGSEPRGTANSFTSVSLSPPLVLICVGKDAVHQRLTALPTFAVSVLEAGQEKAARHFASHPPGVDQFDTVDWVLGEESGAPLIAGAVAHLECAIHRLYEGGDHTIFLGEVITATRWPAREGLFSGGRFRRFAPDA NASPIIAPPAELVDPKDRVQLRRVFGDFPTGVTVVTVGGSEPRGTANSFTSVSLSPPLVLICVGKDAVHQRLTALPTFAVSVLEAGQEKAARHFADHSHPPGVDQFDTVDWVLGEESGAPLIAGAVAHLECAIHRLYEGGDHTIFLGEVITATRWPAREGLFSGGRFRRFAPD 4hxt-a1-m1-cA_4hxt-a1-m2-cA Crystal Structure of Engineered Protein. Northeast Structural Genomics Consortium Target OR329 1.95 X-RAY DIFFRACTION 83 1.0 32630 (synthetic construct) 32630 (synthetic construct) 246 246 NDVEKLVKLLTSTDSETQKEAARDLAEIASGPASAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPDEAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPDEAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPDEAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPTSAIKAIVDAGGVEVLQKLLTSTDSEVQKEAQRALENIKSGGWLEH NDVEKLVKLLTSTDSETQKEAARDLAEIASGPASAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPDEAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPDEAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPDEAIKAIVDAGGVEVLVKLLTSTDSEVQKEAARALANIASGPTSAIKAIVDAGGVEVLQKLLTSTDSEVQKEAQRALENIKSGGWLEH 4hy0-a3-m1-cE_4hy0-a3-m1-cD Crystal structure of XIAP BIR3 with T3256336 P98170 P98170 2.84 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 98 4hy0-a1-m1-cA_4hy0-a1-m1-cB 4hy0-a2-m1-cH_4hy0-a2-m1-cC 4hy0-a4-m1-cF_4hy0-a4-m1-cG TNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLE TNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEEC 4hy3-a1-m1-cC_4hy3-a1-m1-cD Crystal structure of a phosphoglycerate oxidoreductase from rhizobium etli Q2K273 Q2K273 2.8 X-RAY DIFFRACTION 167 0.993 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 292 311 4hy3-a1-m1-cB_4hy3-a1-m1-cA PLAISAPEPRSLDLIFSDEARAALHSKYEIVEADPEDILGRARYIIGQPPLSAETLARPALRSILNVESNLLNNPYEVLFQRGIHVVTTGQVFAEPVAEIGLGFALALARGIVDADIAFQEGTELWGGEGNASARLIAGSEIGIVGFGDLGKALRRVLSGFRARIRVFDPWLPRSLEENGVEPASLEDVLTKSDFIFVVARFLGAEAFSSRRGAAFILLSRADVVDFDALAAVSSGHIVAASDVYPEEPLPLDHPVRSLKGFIRSAHRAGALDSAFKKGDVLEDDLDRGLPP ERPLAISAPEPRSLDLIFSDEARAALHSKYEIVEADPENIAGLGDDILGRARYIIGQPPLSAETLARPALRSILNVESNLLNNPYEVLFQRGIHVVTTGQVFAEPVAEIGLGFALALARGIVDADIAFQEGTELWGGEGNASARLIAGSEIGIVGFGDLGKALRRVLSGFRARIRVFDPWLPRSLEENGVEPASLEDVLTKSDFIFVVFLGAEAFSSRRGAAFILLSRADVVDFDALAAVSSGHIVAASDVYPEEPLPLDHPVRSLKGFIRSAHRAGALDSAFKKGDVLEDDLDRGLPPRCKRAERETVSR 4hy3-a1-m1-cD_4hy3-a1-m1-cA Crystal structure of a phosphoglycerate oxidoreductase from rhizobium etli Q2K273 Q2K273 2.8 X-RAY DIFFRACTION 38 0.99 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 311 314 4hy3-a1-m1-cC_4hy3-a1-m1-cB ERPLAISAPEPRSLDLIFSDEARAALHSKYEIVEADPENIAGLGDDILGRARYIIGQPPLSAETLARPALRSILNVESNLLNNPYEVLFQRGIHVVTTGQVFAEPVAEIGLGFALALARGIVDADIAFQEGTELWGGEGNASARLIAGSEIGIVGFGDLGKALRRVLSGFRARIRVFDPWLPRSLEENGVEPASLEDVLTKSDFIFVVFLGAEAFSSRRGAAFILLSRADVVDFDALAAVSSGHIVAASDVYPEEPLPLDHPVRSLKGFIRSAHRAGALDSAFKKGDVLEDDLDRGLPPRCKRAERETVSR RPLAISAPEPRSLDLIFSDEARAALHSKYEIVEADPENIAGLGDDILGRARYIIGQPPLSAETLARPALRSILNVESNLLNNPYEVLFQRGIHVVTTGQVFAEPVAEIGLGFALALARGIVDADIAFQEGTELWGGEGNASARLIAGSEIGIVGFGDLGKALRRVLSGFRARIRVFDPWLPRSLEENGVEPASLEDVLTKSDFIFVVAAVTSEFLGAEAFSSRRGAAFILLSRADVVDFDALAAVSSGHIVAASDVYPEEPLPLDHPVRSLKGFIRSAHRAGALDSAFKKGDVLEDDLDRGLPPRCKRAERETV 4hyl-a1-m1-cA_4hyl-a1-m1-cB The crystal structure of an anti-sigma-factor antagonist from Haliangium ochraceum DSM 14365 D0LNN2 D0LNN2 1.751 X-RAY DIFFRACTION 32 1.0 502025 (Haliangium ochraceum DSM 14365) 502025 (Haliangium ochraceum DSM 14365) 109 111 NATDTQIRTEQGIDIITLHGHLDTRSSPAVQAAVLPRVTAKGKILDLREVSYSSAGLRVLLSLYRHTSNQQGALVLVGVSEEIRDTEITGFWNFFTACASDEALRILGS SNATDTQIRTEQGIDIITLHGHLDTRSSPAVQAAVLPRVTAKGKILDLREVSYSSAGLRVLLSLYRHTSNQQGALVLVGVSEEIRDTEITGFWNFFTACASDEALRILGSE 4hyr-a1-m1-cB_4hyr-a1-m2-cB Structure of putative Glucarate dehydratase from Acidaminococcus sp. D21 with unusual static disorder C0WBB5 C0WBB5 1.84 X-RAY DIFFRACTION 19 1.0 416 416 4hyr-a1-m1-cA_4hyr-a1-m2-cA LVPVITKEVYPVAGHDSLLNLSGGHAPYFTRNIVILTDSEGNTGVGEVPGGPKITTALENVSDIVVGTKVSDYRNTLLKVQAELDKSDLRTGVHVLTAIEAPCLDLLGKALDPVCRLLGAGQQRDFVRFLGYLFFVGDRKKTDLPYQSEEDSDCEWYRLRNEEAIDAEHVVALCKAAKNKYGFKDFKLKGGVLGDEEKVIKAKKAFPDARDLDPNGAWHLDDAVRYVADHGILTYCEDPCGAEDGYSGREISEFRRRTGFPTATNIATDWRQVGHSLESQAVDIILADPHFWTNGSVRVAQCHEFGYTWGSHSNNHFDISLACVHVGAAVPGEYNALDTHWIWQEGRERLTKEPLKIANGGIKVPDKPGLGVEIDRDQVKAHELYKKHCLGARNDAITQYLIPGWKFDAKSPCLVR LVPVITKEVYPVAGHDSLLNLSGGHAPYFTRNIVILTDSEGNTGVGEVPGGPKITTALENVSDIVVGTKVSDYRNTLLKVQAELDKSDLRTGVHVLTAIEAPCLDLLGKALDPVCRLLGAGQQRDFVRFLGYLFFVGDRKKTDLPYQSEEDSDCEWYRLRNEEAIDAEHVVALCKAAKNKYGFKDFKLKGGVLGDEEKVIKAKKAFPDARDLDPNGAWHLDDAVRYVADHGILTYCEDPCGAEDGYSGREISEFRRRTGFPTATNIATDWRQVGHSLESQAVDIILADPHFWTNGSVRVAQCHEFGYTWGSHSNNHFDISLACVHVGAAVPGEYNALDTHWIWQEGRERLTKEPLKIANGGIKVPDKPGLGVEIDRDQVKAHELYKKHCLGARNDAITQYLIPGWKFDAKSPCLVR 4hyr-a1-m2-cB_4hyr-a1-m1-cA Structure of putative Glucarate dehydratase from Acidaminococcus sp. D21 with unusual static disorder C0WBB5 C0WBB5 1.84 X-RAY DIFFRACTION 31 1.0 416 428 4hyr-a1-m1-cB_4hyr-a1-m2-cA LVPVITKEVYPVAGHDSLLNLSGGHAPYFTRNIVILTDSEGNTGVGEVPGGPKITTALENVSDIVVGTKVSDYRNTLLKVQAELDKSDLRTGVHVLTAIEAPCLDLLGKALDPVCRLLGAGQQRDFVRFLGYLFFVGDRKKTDLPYQSEEDSDCEWYRLRNEEAIDAEHVVALCKAAKNKYGFKDFKLKGGVLGDEEKVIKAKKAFPDARDLDPNGAWHLDDAVRYVADHGILTYCEDPCGAEDGYSGREISEFRRRTGFPTATNIATDWRQVGHSLESQAVDIILADPHFWTNGSVRVAQCHEFGYTWGSHSNNHFDISLACVHVGAAVPGEYNALDTHWIWQEGRERLTKEPLKIANGGIKVPDKPGLGVEIDRDQVKAHELYKKHCLGARNDAITQYLIPGWKFDAKSPCLVR LVPVITKEVYPVAGHDSLLNLSGGHAPYFTRNIVILTDSEGNTGVGEVPGGPKITTALENVSDIVVGTKVSDYRNTLLKVQAELDKSGEKDERGAQTFDLRTGVHVLTAIEAPCLDLLGKALDPVCRLLGAGQQRDFVRFLGYLFFVGDRKKTDLPYQSEEDSDCEWYRLRNEEAIDAEHVVALCKAAKNKYGFKDFKLKGGVLRGDEEKVIKAKKAFPDARDLDPNGAWHLDDAVRYVADHGILTYCEDPCGAEDGYSGREISEFRRRTGFPTATNIATDWRQVGHSLESQAVDIILADPHFWTNGSVRVAQCHEFGYTWGSHSNNHFDISLACVHVGAAVPGEYNALDTHWIWQEGRERLTKEPLKIANGGIKVPDKPGLGVEIDRDQVKAHELYKKHCLGARNDAITQYLIPGWKFDAKSPCLVR 4hyr-a2-m1-cB_4hyr-a2-m1-cA Structure of putative Glucarate dehydratase from Acidaminococcus sp. D21 with unusual static disorder C0WBB5 C0WBB5 1.84 X-RAY DIFFRACTION 71 1.0 416 428 4hyr-a1-m1-cB_4hyr-a1-m1-cA 4hyr-a1-m2-cB_4hyr-a1-m2-cA LVPVITKEVYPVAGHDSLLNLSGGHAPYFTRNIVILTDSEGNTGVGEVPGGPKITTALENVSDIVVGTKVSDYRNTLLKVQAELDKSDLRTGVHVLTAIEAPCLDLLGKALDPVCRLLGAGQQRDFVRFLGYLFFVGDRKKTDLPYQSEEDSDCEWYRLRNEEAIDAEHVVALCKAAKNKYGFKDFKLKGGVLGDEEKVIKAKKAFPDARDLDPNGAWHLDDAVRYVADHGILTYCEDPCGAEDGYSGREISEFRRRTGFPTATNIATDWRQVGHSLESQAVDIILADPHFWTNGSVRVAQCHEFGYTWGSHSNNHFDISLACVHVGAAVPGEYNALDTHWIWQEGRERLTKEPLKIANGGIKVPDKPGLGVEIDRDQVKAHELYKKHCLGARNDAITQYLIPGWKFDAKSPCLVR LVPVITKEVYPVAGHDSLLNLSGGHAPYFTRNIVILTDSEGNTGVGEVPGGPKITTALENVSDIVVGTKVSDYRNTLLKVQAELDKSGEKDERGAQTFDLRTGVHVLTAIEAPCLDLLGKALDPVCRLLGAGQQRDFVRFLGYLFFVGDRKKTDLPYQSEEDSDCEWYRLRNEEAIDAEHVVALCKAAKNKYGFKDFKLKGGVLRGDEEKVIKAKKAFPDARDLDPNGAWHLDDAVRYVADHGILTYCEDPCGAEDGYSGREISEFRRRTGFPTATNIATDWRQVGHSLESQAVDIILADPHFWTNGSVRVAQCHEFGYTWGSHSNNHFDISLACVHVGAAVPGEYNALDTHWIWQEGRERLTKEPLKIANGGIKVPDKPGLGVEIDRDQVKAHELYKKHCLGARNDAITQYLIPGWKFDAKSPCLVR 4hyz-a1-m1-cA_4hyz-a1-m2-cB Crystal structure of a DUF3887 family protein (RUMGNA_01855) from Ruminococcus gnavus ATCC 29149 at 2.25 A resolution A7B2S7 A7B2S7 2.25 X-RAY DIFFRACTION 11 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 111 111 4hyz-a1-m1-cB_4hyz-a1-m2-cA GEILKELPEGFDKETVRKQAEDIEIAQSKDYESWKSRFTKDLQSSLTEESYDSYLKILEKQGEFKEFGKCTYLGQIKDNKKYGGVIIVVKYEEGNVNYSLAYDEDNLVSFT GEILKELPEGFDKETVRKQAEDIEIAQSKDYESWKSRFTKDLQSSLTEESYDSYLKILEKQGEFKEFGKCTYLGQIKDNKKYGGVIIVVKYEEGNVNYSLAYDEDNLVSFT 4hyz-a1-m1-cB_4hyz-a1-m2-cB Crystal structure of a DUF3887 family protein (RUMGNA_01855) from Ruminococcus gnavus ATCC 29149 at 2.25 A resolution A7B2S7 A7B2S7 2.25 X-RAY DIFFRACTION 20 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 111 111 4hyz-a1-m1-cA_4hyz-a1-m2-cA GEILKELPEGFDKETVRKQAEDIEIAQSKDYESWKSRFTKDLQSSLTEESYDSYLKILEKQGEFKEFGKCTYLGQIKDNKKYGGVIIVVKYEEGNVNYSLAYDEDNLVSFT GEILKELPEGFDKETVRKQAEDIEIAQSKDYESWKSRFTKDLQSSLTEESYDSYLKILEKQGEFKEFGKCTYLGQIKDNKKYGGVIIVVKYEEGNVNYSLAYDEDNLVSFT 4hz2-a1-m1-cA_4hz2-a1-m1-cB Crystal structure of glutathione s-transferase xaut_3756 (target efi-507152) from xanthobacter autotrophicus py2 A7ILT8 A7ILT8 1.5 X-RAY DIFFRACTION 79 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 205 206 SMRIYGMNGSGNCWKAAQILSLTGHDFEWVETSSGAAGTRSADFLALNAIGKVPVVVLDDGTALRESNAILLHFAEGTPWLPPPGLARTRVHEWLFFEQYSHEPYIAVARYLKSWLRQAHLHEARLADCATRGAAALDVMEQHLAGEPWLVGEGPTIADLALFAYTHRAEEADFDLAQWPAVLAWVDRVAALPGINLIPPLDEIL SMRIYGMNGSGNCWKAAQILSLTGHDFEWVETSSGAAGTRSADFLALNAIGKVPVVVLDDGTALRESNAILLHFAEGTPWLPPPGLARTRVHEWLFFEQYSHEPYIAVARYLKSWLRQAHLHEARLADCATRGAAALDVMEQHLAGEPWLVGEGPTIADLALFAYTHRAEEADFDLAQWPAVLAWVDRVAALPGINLIPPLDEILP 4hz4-a1-m1-cA_4hz4-a1-m2-cA Crystal structure of glutathione s-transferase b4xh91 (target efi-501787) from actinobacillus pleuropneumoniae B4XH91 B4XH91 1.62 X-RAY DIFFRACTION 128 1.0 715 (Actinobacillus pleuropneumoniae) 715 (Actinobacillus pleuropneumoniae) 215 215 MITLHYLKQSCSHRIVWLLEALGLDYELKIYDRLEGTGFAPEELKAQHPLGKAPVLQDGDLVLAEGNAIIQHLLDRYDTENRFTPAHKTDAYSNYVYWLAISASMFSANLLALVSKKGDLGDFAQYTNAQVGLYFSHVEKSLEGKTWIVGEQLTGADFALSFPLQWGLNYVNKADYPNITRYLEQIETHPAYLKANEKTDGGLDLSRFAENLYFQ MITLHYLKQSCSHRIVWLLEALGLDYELKIYDRLEGTGFAPEELKAQHPLGKAPVLQDGDLVLAEGNAIIQHLLDRYDTENRFTPAHKTDAYSNYVYWLAISASMFSANLLALVSKKGDLGDFAQYTNAQVGLYFSHVEKSLEGKTWIVGEQLTGADFALSFPLQWGLNYVNKADYPNITRYLEQIETHPAYLKANEKTDGGLDLSRFAENLYFQ 4hz5-a12-m1-cE_4hz5-a12-m4-cH Pyrrolopyrimidine inhibitors of dna gyrase b and topoisomerase iv, part i: structure guided discovery and optimization of dual targeting agents with potent, broad-spectrum enzymatic activity H7C794 H7C794 2.7 X-RAY DIFFRACTION 43 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 191 191 4hz5-a10-m1-cA_4hz5-a10-m1-cC 4hz5-a10-m1-cD_4hz5-a10-m1-cA 4hz5-a10-m1-cD_4hz5-a10-m1-cC 4hz5-a11-m1-cG_4hz5-a11-m2-cB 4hz5-a11-m1-cJ_4hz5-a11-m1-cG 4hz5-a11-m1-cJ_4hz5-a11-m2-cB 4hz5-a12-m1-cE_4hz5-a12-m3-cF 4hz5-a12-m3-cF_4hz5-a12-m4-cH GLEAVRKRPGMYIGSTDSRGLHHLVYEIVDNAVDEALSGYGNEINVTIQKDNSICVADSGRGMPTGMHASGIPTVEVIFTVLHHGVGASVVNALSKWLEVHIVRDGVEYMERFEDGGKPVGTLKKIGKTKKRNGTSVTFLPDDTIFSTTNFSYEILAERLRESAFLLKGVKITLTDERGEEPKEEVFHYEE GLEAVRKRPGMYIGSTDSRGLHHLVYEIVDNAVDEALSGYGNEINVTIQKDNSICVADSGRGMPTGMHASGIPTVEVIFTVLHHGVGASVVNALSKWLEVHIVRDGVEYMERFEDGGKPVGTLKKIGKTKKRNGTSVTFLPDDTIFSTTNFSYEILAERLRESAFLLKGVKITLTDERGEEPKEEVFHYEE 4hz9-a1-m1-cB_4hz9-a1-m2-cB Crystal structure of the type VI native effector-immunity complex Tae3-Tai3 from Ralstonia pickettii C6BHF3 C6BHF3 2.4 X-RAY DIFFRACTION 10 1.0 428406 (Ralstonia pickettii 12D) 428406 (Ralstonia pickettii 12D) 123 123 4hzb-a1-m1-cE_4hzb-a1-m1-cB QNSPEAAAISFYTWFIQHDSDQTYPLSEPDIERYVATDTVGRLRNDYAHAGPPNGVDYFLKVQDYDSRDWLAHIQVQRALMLGDVAVVPVSFGSQDPVHVLVFLKRVDATWKIIKIDDTWEYR QNSPEAAAISFYTWFIQHDSDQTYPLSEPDIERYVATDTVGRLRNDYAHAGPPNGVDYFLKVQDYDSRDWLAHIQVQRALMLGDVAVVPVSFGSQDPVHVLVFLKRVDATWKIIKIDDTWEYR 4hz9-a1-m2-cC_4hz9-a1-m1-cB Crystal structure of the type VI native effector-immunity complex Tae3-Tai3 from Ralstonia pickettii C6BHF3 C6BHF3 2.4 X-RAY DIFFRACTION 72 1.0 428406 (Ralstonia pickettii 12D) 428406 (Ralstonia pickettii 12D) 122 123 4hz9-a1-m1-cC_4hz9-a1-m2-cB 4hzb-a1-m1-cC_4hzb-a1-m1-cE 4hzb-a1-m1-cF_4hzb-a1-m1-cB NSPEAAAISFYTWFIQHDSDQTYPLSEPDIERYVATDTVGRLRNDYAHAGPPNGVDYFLKVQDYDSRDWLAHIQVQRALMLGDVAVVPVSFGSQDPVHVLVFLKRVDATWKIIKIDDTWEYR QNSPEAAAISFYTWFIQHDSDQTYPLSEPDIERYVATDTVGRLRNDYAHAGPPNGVDYFLKVQDYDSRDWLAHIQVQRALMLGDVAVVPVSFGSQDPVHVLVFLKRVDATWKIIKIDDTWEYR 4hz9-a1-m2-cC_4hz9-a1-m2-cB Crystal structure of the type VI native effector-immunity complex Tae3-Tai3 from Ralstonia pickettii C6BHF3 C6BHF3 2.4 X-RAY DIFFRACTION 11 1.0 428406 (Ralstonia pickettii 12D) 428406 (Ralstonia pickettii 12D) 122 123 4hz9-a1-m1-cC_4hz9-a1-m1-cB 4hzb-a1-m1-cC_4hzb-a1-m1-cB 4hzb-a1-m1-cF_4hzb-a1-m1-cE NSPEAAAISFYTWFIQHDSDQTYPLSEPDIERYVATDTVGRLRNDYAHAGPPNGVDYFLKVQDYDSRDWLAHIQVQRALMLGDVAVVPVSFGSQDPVHVLVFLKRVDATWKIIKIDDTWEYR QNSPEAAAISFYTWFIQHDSDQTYPLSEPDIERYVATDTVGRLRNDYAHAGPPNGVDYFLKVQDYDSRDWLAHIQVQRALMLGDVAVVPVSFGSQDPVHVLVFLKRVDATWKIIKIDDTWEYR 4hzi-a1-m1-cB_4hzi-a1-m1-cA Crystal structure of the Leptospira interrogans ATPase subunit of an orphan ABC transporter Q72QN4 Q72QN4 1.85 X-RAY DIFFRACTION 73 1.0 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 245 253 NSLLSLEKISYKPTGKTILDSVSFEIKTNEHCVLLGRNGAGKSTLVNLIYGMIWATSGTIRLFQETYGEIAIQDLRKRIGILDSSQRKLTVKDTILTGLDPSPEEETKTLQILKDSDLLSKKDQLYNTLSSGEKKKILFLRSIVNEPDFLIMDEPCSSLDLTAREDFLGFLKEYHSKKKFTSLYITHRPEEIPDFYSKAVLLKEGKVIHFGPIEECFTEKNLEDLYDIPLQVQRIENTWSVIPKQ NSLLSLEKISYKPTGKTILDSVSFEIKTNEHCVLLGRNGAGKSTLVNLIYGMIWATSGTIRLFQETYGEIAIQDLRKRIGILDSSQRKLTVKDTILTGLFHTIGYYRDPSPEEETKTLQILKDSDLLSKKDQLYNTLSSGEKKKILFLRSIVNEPDFLIMDEPCSSLDLTAREDFLGFLKEYHSKKKFTSLYITHRPEEIPDFYSKAVLLKEGKVIHFGPIEECFTEKNLEDLYDIPLQVQRIENTWSVIPKQ 4i0k-a1-m1-cA_4i0k-a1-m2-cA Crystal structure of murine B7-H3 extracellular domain Q8VE98 Q8VE98 2.97 X-RAY DIFFRACTION 181 1.0 10090 (Mus musculus) 10090 (Mus musculus) 200 200 EDPVVALVDTDATLRCSFSPEPGFSLAQLNLIWQLTDTKQLVHSFTEGRDQGSAYSNRTALFPDLLVQGNASLRLQRVRVTDEGSYTCFVSIQDFDSAAVSLQVAAPYSKPSMTLEPPGNMVTITCSSYQGYPEAEVFWKDGQGVPLTGNVTTSQMANERGLFDVHSVLRVVLGANGTYSCLVRNPVLQQDAHGSVTITG EDPVVALVDTDATLRCSFSPEPGFSLAQLNLIWQLTDTKQLVHSFTEGRDQGSAYSNRTALFPDLLVQGNASLRLQRVRVTDEGSYTCFVSIQDFDSAAVSLQVAAPYSKPSMTLEPPGNMVTITCSSYQGYPEAEVFWKDGQGVPLTGNVTTSQMANERGLFDVHSVLRVVLGANGTYSCLVRNPVLQQDAHGSVTITG 4i14-a1-m1-cB_4i14-a1-m1-cA Crystal Structure of Mtb-ribA2 (Rv1415) A5U2B7 A5U2B7 3 X-RAY DIFFRACTION 60 0.997 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 320 325 MTRLDSVERAVADIAAGKAVIVIDDEDRENEGDLIFAAEKATPEMVAFMVRYTSGYLCVPLDGAICDRLGLLPMYTVTVDARNGIGTGISASDRATTMRLLADPTSVADDFTRPGHVVPLRAKDGGVLRRPGHTEAAVDLARMAGLQPAGAICEIVSQKDEGSMAHTDELRVFADEHGLALITIADLIEWRRKHEKHIERVAEARIPTRHGEFRAIGYTSIYEDVEHVALVRGEIGDDVLVRVHSECLTGDVFGSRRCDCGPQLDAALAMVAREGRGVVLYMRYGIGAQILVDLGVRSMRLLTNNPADGYGLHIIERVPL MTRLDSVERAVADIAAGKAVIVIDDEDRENEGDLIFAAEKATPEMVAFMVRYTSGYLCVPLDGAICDRLGLLPMYAYTVTVDARNGIGTGISASDRATTMRLLADPTSVADDFTRPGHVVPLRAKDGGVLRRPGHTEAAVDLARMAGLQPAGAICEIVSQKDEGSMAHTDELRVFADEHGLALITIADLIEWRRKHEKHIERVAEARIPTRHGEFRAIGYTSIYEDVEHVALVRGEIAGDGDDVLVRVHSECLTGDVFGSRRCDCGPQLDAALAMVAREGRGVVLYMRYGIGAQILVDLGVRSMRLLTNNPDGYGLHIIERVPLP 4i15-a1-m1-cA_4i15-a1-m1-cB Crystal structure of TbrPDEB1 Q8WQX9 Q8WQX9 1.65 X-RAY DIFFRACTION 35 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 333 333 VTAITKVEREAVLVCELPSFDVTDVEFDLFRARESTDKPLDVAAAIAYRLLLGSGLPQKFGCSDEVLLNFILQCRKKYRNVPYHNFYHVVDVCQTIHTFLYRGNVYEKLTELECFVLLITALVHDLDHMGLNNSFYLKTESPLGILSSASGNTSVLEVHHCNLAVEILSDPESDVFDGLEGAERTLAFRSMIDCVLATDMAKHGSALEAFLASAADQSSDEAAFHRMTMEIILKAGDISNVTKPFDISRQWAMAVTEEFYRQGDMEKERGVEVLPMFDRSKNMELAKGQIGFIDFVAAPFFQKIVDACLQGMQWTVDRIKSNRAQWERVLETR VTAITKVEREAVLVCELPSFDVTDVEFDLFRARESTDKPLDVAAAIAYRLLLGSGLPQKFGCSDEVLLNFILQCRKKYRNVPYHNFYHVVDVCQTIHTFLYRGNVYEKLTELECFVLLITALVHDLDHMGLNNSFYLKTESPLGILSSASGNTSVLEVHHCNLAVEILSDPESDVFDGLEGAERTLAFRSMIDCVLATDMAKHGSALEAFLASAADQSSDEAAFHRMTMEIILKAGDISNVTKPFDISRQWAMAVTEEFYRQGDMEKERGVEVLPMFDRSKNMELAKGQIGFIDFVAAPFFQKIVDACLQGMQWTVDRIKSNRAQWERVLETR 4i1a-a3-m1-cA_4i1a-a3-m1-cB Crystal Structure of the Apo Form of RapI P96649 P96649 2.443 X-RAY DIFFRACTION 56 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 274 359 LEYYFYFFKGMYEFRRKELISAISAYRIAESKLSEVEDEIEKAEFFFKVSYVYYYMKQTYFSMNYANRALKIFREYEEYAVQTVRCQFIVAGNLIDSLEYERALEQFLKSLEISKESNIEHLIAMSHMNIGICYDELKEYKKASQHLILALEIFEKSKHSFLTKTLFTLTYVEAKQQNYNVALIYFRKGRFIADKSDDKEYSAKFKILEGLFFSDGETQLIKNAFSYLASRKMFADVENFSIEVADYFHEQGNLMLSNEYYRMSIEARRKIKKG DLVTKKLNEWYTSIKNDQVEQAEIIKTEVEKELLNMEENQDALLYYQLLEFRHEIMLSYIEDLNNAYETIKEIEKQGQLTGMLEYYFYFFKGMYEFRRKELISAISAYRIAESKLSEVEDEIEKAEFFFKVSYVYYYMKQTYFSMNYANRALKIFREYEEYAVQTVRCQFIVAGNLIDSLEYERALEQFLKSLEISKESNIEHLIAMSHMNIGICYDELKEYKKASQHLILALEIFEKSKHSFLTKTLFTLTYVEAKQQNYNVALIYFRKGRFIADKSDDKEYSAKFKILEGLFFSDGETQLIKNAFSYLASRKMFADVENFSIEVADYFHEQGNLMLSNEYYRMSIEARRKIKKGEII 4i1l-a1-m1-cA_4i1l-a1-m2-cA Structural and Biological Features of FOXP3 Dimerization Relevant to Regulatory T Cell Function Q99JB6 Q99JB6 2.1 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 62 62 PGCEKVFEEPEEFLKHCQADHLLDEKGKAQCLLQREVVQSLEQQLELEKEKLGAMQAHLAGK PGCEKVFEEPEEFLKHCQADHLLDEKGKAQCLLQREVVQSLEQQLELEKEKLGAMQAHLAGK 4i1t-a1-m1-cA_4i1t-a1-m2-cA Crystal structure of the cap-snatching endonuclease from Pichinde virus Q915A5 Q915A5 2.8 X-RAY DIFFRACTION 39 1.0 169 169 MEEYVSEFKDMVRKWVPEWEELSEQKNNVLAQVKDRAITIEGLKLLSMLVEVDSCKKHSCRHNTRMTVNAILRELKVTCPTLPDVTPDGYCMVGDVLILLEVFVRTSQEAFEKKYNQDFLKLMQLSSDLKRQNITLVPVIDGRSSYYVEYIPDWVVERLRWLLLKLMDG MEEYVSEFKDMVRKWVPEWEELSEQKNNVLAQVKDRAITIEGLKLLSMLVEVDSCKKHSCRHNTRMTVNAILRELKVTCPTLPDVTPDGYCMVGDVLILLEVFVRTSQEAFEKKYNQDFLKLMQLSSDLKRQNITLVPVIDGRSSYYVEYIPDWVVERLRWLLLKLMDG 4i1u-a1-m1-cB_4i1u-a1-m1-cA Apo crystal structure of a dephospho-CoA kinase from Burkholderia vietnamiensis A4JBA9 A4JBA9 2.05 X-RAY DIFFRACTION 60 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 202 205 4i1v-a1-m1-cB_4i1v-a1-m1-cA HMYAIGLTGGIGSGKTTVADLFAARGASLVDTDLIAHRITAPAGLAMPAIEQTFGPAFVAADGSLDRARMRALIFSDEDARRRLEAITHPLIRAETEREARDAQGPYVIFVVPLLVESRNWKARCDRVLVVDCPVDTQIARVMQRNGFTREQVEAIIARQATREARLAAADDVIVNDAATPDALAVQVDALHQRYLAFAAAK HHHMYAIGLTGGIGSGKTTVADLFAARGASLVDTDLIAHRITAPAGLAMPAIEQTFGPAFVAADGSLDRARMRALIFSDEDARRRLEAITHPLIRAETEREARDAQGPYVIFVVPLLVESRNWKARCDRVLVVDCPVDTQIARVMQRNGFTREQVEAIIARQATREARLAAADDVIVNDAATPDALAVQVDALHQRYLAFAAAKH 4i1y-a2-m1-cB_4i1y-a2-m1-cC The structure of Cysteine synthase from Mycobacterium ulcerans Agy99 A0PNS1 A0PNS1 2.6 X-RAY DIFFRACTION 123 0.992 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 264 268 4i1y-a1-m1-cA_4i1y-a1-m1-cD SMTIAENIAQLIGGTPLVRLRRVTDGAAADVVAKLESFNPAGSIKDRIGVAMIDAAEKAGLIKPDTIILEPTNTGIALAMVSAARGYKCVLTMPDTMSIERRMLLRAYGAELVLTPGAEGMAGAIAKAEELAKTDDRYFIPQNPAVHAVTTAEEVWRDTDGKVDIFVSGVGTGGTITGVAQVIKQRRPSAQFVAVEPALDLALVDEVITVGNDDALELARRMATEEGLLFGISSGAAVWAARELAHRPENAGKLIVVVLPDFGE PGSMTIAENIAQLIGGTPLVRLRRVTDGAAADVVAKLESFNPAGSIKDRIGVAMIDAAEKAGLIKPDTIILEPTSGNTGIALAMVSAARGYKCVLTMPDTMSIERRMLLRAYGAELVLTPGAEGMAGAIAKAEELAKTDDRYFIPNPAVHAVTTAEEVWRDTDGKVDIFVSGVGTGGTITGVAQVIKQRRPSAQFVAVEPPVLDLALVDEVITVGNDDALELARRMATEEGLLFGISSGAAVWAARELAHRPENAGKLIVVVLPDFGE 4i2o-a1-m1-cA_4i2o-a1-m1-cB The Structure of FixK2 from Bradyrhizobium japonicum O69245 O69245 1.77 X-RAY DIFFRACTION 136 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 198 198 LVATEFSYRKDEEIYGEDEPAEYVYQVVTGAVRSYKLLSDGRRQIGAFHLPGDVFGLESGPSHRLAAEAIIDTSVRLVKRSSLEKAAGIDVQVARKLWAMTAGELRHAEDHMLLLGRKTAMERVATFLLEMDRRLAVAGMMALPMSRRDIGDYLGLTLETVSRALSQLHTQGILGFSGARQIVLRNRQRLHNLDAAAA LVATEFSYRKDEEIYGEDEPAEYVYQVVTGAVRSYKLLSDGRRQIGAFHLPGDVFGLESGPSHRLAAEAIIDTSVRLVKRSSLEKAAGIDVQVARKLWAMTAGELRHAEDHMLLLGRKTAMERVATFLLEMDRRLAVAGMMALPMSRRDIGDYLGLTLETVSRALSQLHTQGILGFSGARQIVLRNRQRLHNLDAAAA 4i3l-a1-m1-cB_4i3l-a1-m1-cA Crystal structure of a metabolic reductase with 6-benzyl-1-hydroxy-4-methylpyridin-2(1H)-one O75874 O75874 3.292 X-RAY DIFFRACTION 175 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 358 367 4i3k-a1-m1-cB_4i3k-a1-m1-cA 5l58-a1-m1-cA_5l58-a1-m2-cA 5lge-a2-m1-cD_5lge-a2-m1-cC KISGGSVVEMQGDEMTRIIWELIKEKLIFPYVELDLHSYDLGIENRDATNDQVTKDAAEAIKKHNVGVKCATITPDEKRVEEFKLKQMWKSPNGTIRNILGGTVFREAIICKNIPPIIIGHHATDFVVPGPGKVEITYTPSDGTQKVTYLVHNFEEGGGVAMGMYNQDKSIEDFAHSSFQMALSKGWPLYLSLKKYDGRFKDIFQEIYDKQYQKIWYEHRLIDDMEGGFIWACSLGMMTSVLVCPDGKTVEAEAAHGTVTRHYRMYQKGQETSTNPIASIFAWTRGLAHRAKLDNNKELAFFANALEEVSIETIEAGFMTKDLAACIKGLPNVQRSDYLNTFEFMDKLGENLKIKLAQ KISGGSVVEMQGDEMTRIIWELIKEKLIFPYVELDLHSYDLGIENRDATNDQVTKDAAEAIKKHNVGVKCATITPDEKRVEEFKLKQMWKSPNGTIRNILGGTVFREAIICKNPIIIGHHATDFVVPGPGKVEITYTPSDGTQKVTYLVHNFEEGGGVAMGMYNQDKSIEDFAHSSFQMALSKGWPLYLSTKNTILKKYDGRFKDIFQEIYDKQYKSQFEAQKIWYEHRLIDDMVGFIWACKNLGMMTSVLVCPDGKTVEAEAAHGTVTRHYRMYQKGQETSTNPIASIFAWTRGLAHRAKLDNNKELAFFANALEEVSIETIEAGFMTKDLAACIKGLPNVQRSDYLNTFEFMDKLGENLKIKLAQ 4i3y-a1-m1-cB_4i3y-a1-m1-cA Crystal structure of Staphylococcal inositol monophosphatase-1: 100 mM LiCl soaked inhibitory complex 2.04 X-RAY DIFFRACTION 66 1.0 282459 (Staphylococcus aureus subsp. aureus MSSA476) 282459 (Staphylococcus aureus subsp. aureus MSSA476) 262 264 3ryd-a1-m1-cC_3ryd-a1-m1-cA 4g61-a1-m1-cB_4g61-a1-m1-cA 4i3e-a1-m1-cA_4i3e-a1-m1-cB 4i40-a1-m1-cA_4i40-a1-m1-cB 4ptk-a1-m1-cB_4ptk-a1-m1-cA 5eyg-a1-m1-cA_5eyg-a1-m1-cB 5eyh-a1-m1-cB_5eyh-a1-m1-cA 5f24-a1-m1-cB_5f24-a1-m1-cA KTLQQIDKLICSWLKQIDNVIPQLIMEMTTETKRHRFDLVTNVDKQIQQQFQQFLATYFPEHQLLAEEKSNAMITNEINHLWIMDPIDGTANLVKQQEDYCIILAYFYEGKPMLSYVYDYPHKKLYKAIRGEGAFCNGIKMEEPPSLKLEDAIISFNAQVMNLDTVQDLFDASFSYRLVGACGLDSMRVAKGQFGAHINTNPKPWDIAAQFLFAELLNLKMTTLDGKAIDHLKGAPFIISNKACHETVLKILNANGGYQKYR TDKTLQQIDKLICSWLKQIDNVIPQLIMEMTTETKRHRFDLVTNVDKQIQQQFQQFLATYFPEHQLLAEEKSNAMITNEINHLWIMDPIDGTANLVKQQEDYCIILAYFYEGKPMLSYVYDYPHKKLYKAIRGEGAFCNGIKMEEPPSLKLEDAIISFNAQVMNLDTVQDLFDASFSYRLVGACGLDSMRVAKGQFGAHINTNPKPWDIAAQFLFAELLNLKMTTLDGKAIDHLKGAPFIISNKACHETVLKILNANGGYQKYR 4i4k-a1-m1-cB_4i4k-a1-m1-cA Streptomyces globisporus C-1027 9-membered enediyne conserved protein SgcE6 Q8GMG4 Q8GMG4 1.7 X-RAY DIFFRACTION 77 1.0 1172567 (Streptomyces globisporus C-1027) 1172567 (Streptomyces globisporus C-1027) 129 136 APDAALAAVAALPARIVAAWADHDADRFADVFAEDGTILPGLFRKGRENIRTHAAAFAGPYKGTRVIGSPIDARLLGDGIALLITEGGILAPGETEASGDGAVRASWLAVEQDGQWRLAAYQNSPRGND STDSITSAPDAALAAVAALPARIVAAWADHDADRFADVFAEDGTILPGLFRKGRENIRTHAAAFAGPYKGTRVIGSPIDARLLGDGIALLITEGGILAPGETEASGDGAVRASWLAVEQDGQWRLAAYQNSPRGND 4i4q-a1-m1-cA_4i4q-a1-m2-cA BEL beta-trefoil apo crystal form 3 R4GRU4 R4GRU4 1.51 X-RAY DIFFRACTION 37 1.0 36056 (Boletus edulis) 36056 (Boletus edulis) 146 146 VNFPNIPAEGVRFRLRARDSGYVIYSRTENDPLVWHYNGPPYDDQLFTLIHGTGSRLNLYAIKSVPNGRVLFSRNSASPTVGNIVGDGTYNDNWFQFIQDDNDANSFRIYSLASDSVLYSRTTGAPQFGNYTGPKFDDQLWHFEIV VNFPNIPAEGVRFRLRARDSGYVIYSRTENDPLVWHYNGPPYDDQLFTLIHGTGSRLNLYAIKSVPNGRVLFSRNSASPTVGNIVGDGTYNDNWFQFIQDDNDANSFRIYSLASDSVLYSRTTGAPQFGNYTGPKFDDQLWHFEIV 4i5i-a3-m1-cA_4i5i-a3-m1-cB Crystal structure of the SIRT1 catalytic domain bound to NAD and an EX527 analog Q96EB6 Q96EB6 2.5 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 272 NTIEDAVKLLQECKKIIVLTGAGVSVSCGIPDFRSRDGIYARLAVDFPDLPDPQAMFDIEYFRKDPRPFFKFAKEIYPGQFQPSLCHKFIALSDKEGKLLRNYTQNIDTLEQVAGIQRIIQCHGSFATASCLICKYKVDCEAVRGDIFNQVVPRCPRCPADEPLAIMKPEIVFFGENLPEQFHRAMKYDKDEVDLLIVIGSSLKVRPVALIPSSIPHEVPQILINREPLPHLHFDVELLGDCDVIINELCHRLGGEYAKLCCNPVKLSEITE NTIEDAVKLLQECKKIIVLTGAGVSVSCGIPDFRSRDGIYARLAVDFPDLPDPQAMFDIEYFRKDPRPFFKFAKEIYPGQFQPSLCHKFIALSDKEGKLLRNYTQNIDTLEQVAGIQRIIQCHGSFATASCLICKYKVDCEAVRGDIFNQVVPRCPRCPADEPLAIMKPEIVFFGENLPEQFHRAMKYDKDEVDLLIVIGSSLKVRPVALIPSSIPHEVPQILINREPLPHLHFDVELLGDCDVIINELCHRLGGEYAKLCCNPVKLSEITE 4i5q-a1-m1-cB_4i5q-a1-m1-cA Crystal structure and catalytic mechanism for peroplasmic disulfide-bond isomerase DsbC from Salmonella enterica serovar Typhimurium P55890 P55890 1.962 X-RAY DIFFRACTION 71 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 214 220 4ilf-a1-m1-cB_4ilf-a1-m1-cA MDAAIRQSLAKLGVQSTEIQASPVAGMKTVLTHSGVLYVTDDGKHIIQGPMYDVSGAHPVNVTNKLLMSQLNALEKEMIVYKAPDEKHVITVFTDITCGYCHKLHEEMKDYNALGITVRYLAFPRQGLESQAEQDMKSIWCAKDKNKAFDDAMAGKGVKPASCDVNIADHYALGVQLGVSGTPAIVLSNGYVVPGYQGPKEMKAFLDEHQKQTS AMDPEFMDAAIRQSLAKLGVQSTEIQASPVAGMKTVLTHSGVLYVTDDGKHIIQGPMYDVSGAHPVNVTNKLLMSQLNALEKEMIVYKAPDEKHVITVFTDITCGYCHKLHEEMKDYNALGITVRYLAFPRQGLESQAEQDMKSIWCAKDKNKAFDDAMAGKGVKPASCDVNIADHYALGVQLGVSGTPAIVLSNGYVVPGYQGPKEMKAFLDEHQKQTS 4i5s-a1-m1-cA_4i5s-a1-m1-cB Structure and function of sensor histidine kinase Q8DT64 Q8DT64 3.3 X-RAY DIFFRACTION 228 0.995 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 380 395 NNNQVKQLNAKVRSLITGHYTDKLKVEDNSDLSELVNNVNDLSEVFRLTHENLAQEKNRLTSILSYMTDGVLATDRSGKITVINDMAQKQLNVTREQALECNILDILDDDSYTYNDLITKTPEIVLTRRDEYDEFITLRIRFALNRRESGFISGLIAVLHDATEQEKEERERRLFVSNVSHELRTPLTSVKSYLEALDDGALTESVAPSFIKVSLDETNRMMRMITDLLSLSRSHLDVELTNFTAFMNYILDRFDQIQSQQSTEIIRDYPDKSVWIEIDTDKMTQVIDNILNNAIKYSPDGGKVTITMQTTDTQLILSISDQGLGIPKKDLPLIFDRFYRVDKARGLGLAIAKEIVKQHKGFIWANSEEGEGSTFTIVLP IFLNYREYKNNNQVKQLNAKVRSLITGHYTDKLKVEDNSDLSELVNNVNDLSEVFRLTHENLAQEKNRLTSILSYMTDGVLATDRSGKITVINDMAQKQLNVTREQALECNILDILDDDSYTYNDLITKTPEIVLTRRDEYDEFITLRIRFALNRRESGFISGLIAVLHDATEQEKEERERRLFVSNVSHELRTPLTSVKSYLEALDDGALTESVAPSFIKVSLDETNRMMRMITDLLSLSRIDNQTSHLDVELTNFTAFMNYILDRFDQIQSQQEIIRDYPDKSVWIEIDTDKMTQVIDNILNNAIKYSPDGGKVTITMQTTDTQLILSISDQGLGIPKKDLPLIFDRFYRVDKARTGLGLAIAKEIVKQHKGFIWANSEEGEGSTFTIVLPYE 4i5v-a3-m1-cB_4i5v-a3-m1-cA Crystal structure of yeast Ap4A phosphorylase Apa2 in complex with Ap4A P22108 P22108 2.696 X-RAY DIFFRACTION 29 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 295 296 MIEENLKQKIHDKFVAAKKNGHLKVTHAESKKLKDPQTTTQYWVTFAPSLALKPDPFANPDEELVVTEDLNGDGEYKLLLNKFPVVPEHSLLVTSEFKDQRSALTPSDLMTAYNVLCSLQGDKDDDVTCERYLVFYNCGPHSGSSQDHKALQIMQMPEKFIPFQDVLCNGKDHFLPTFNAEPLQDDKVSFAHFVLPLPESSDQVDEDLLAMCYVSLMQRALTFFTKSYNVLLTKKWICVVPRSHAKSGPPLMLNINSTGYCGMILVKDREKLENLTEDPHLVDKSLLQCGFPNTA MIEENLKQKIHDKFVAAKKNGHLKVTHAESKKLKDPQTTTQYWVTFAPSLALKPDPFANPDEELVVTEDLNGDGEYKLLLNKFPVVPEHSLLVTSEFKDQRSALTPSDLMTAYNVLCSLQGDKDDDVTCERYLVFYNCGPHSGSSQDHKALQIMQMPEKFIPFQDVLCNGKDHFLPTFNAEPLQDDKVSFAHFVLPLPESSDQVDEDLLAMCYVSLMQRALTFFQTKSYNVLLTKKWICVVPRSHAKSGPPLMLNINSTGYCGMILVKDREKLENLTEDPHLVDKSLLQCGFPNTA 4i63-a1-m1-cB_4i63-a1-m1-cA Crystal Structure of E-R ClpX Hexamer P0A6H1 P0A6H1 5.709 X-RAY DIFFRACTION 84 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 307 311 6po1-a1-m1-cA_6po1-a1-m1-cB 6pp5-a1-m1-cA_6pp5-a1-m1-cB ALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSLGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDEIDKISRKRDVSGEGVQQALLKLIEGTFLQVDTSKILFICGGAFAGLDKVISHRVETGSSEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIY ALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSLGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTGYVGEDVENIIQKLLQKCDYDVQKAQRGIVYIDEIDKISRKSDNPRDVSGEGVQQALLKLIEGTFLQVDTSKILFICGGAFAGLDKVISHRVETGSSEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIY 4i66-a1-m1-cA_4i66-a1-m2-cA Crystal structure of Hoch_4089 protein from Haliangium ochraceum D0LJL3 D0LJL3 1.3 X-RAY DIFFRACTION 32 1.0 502025 (Haliangium ochraceum DSM 14365) 502025 (Haliangium ochraceum DSM 14365) 195 195 AFRFGQLALGDIYPQALSRSREIDKRTSIEAAREPAAVTLSSPTLHETPFLYLAGDREFAIPPEPEVEALRRHLTFGGFLLIDSAEGALGGAFDRSVRRLLQAVFPAPAPGLEIVSGEHVVFKSFYLLERPLGRLALSPVEGILRDGRLVAYVQNDLGGAFARDDFGNFQLACVPDGERQRELAFRLVNLVYALC AFRFGQLALGDIYPQALSRSREIDKRTSIEAAREPAAVTLSSPTLHETPFLYLAGDREFAIPPEPEVEALRRHLTFGGFLLIDSAEGALGGAFDRSVRRLLQAVFPAPAPGLEIVSGEHVVFKSFYLLERPLGRLALSPVEGILRDGRLVAYVQNDLGGAFARDDFGNFQLACVPDGERQRELAFRLVNLVYALC 4i6v-a1-m1-cA_4i6v-a1-m1-cC The crystal structure of an amidohydrolase 2 from Planctomyces limnophilus DSM 3776 D5SMT1 D5SMT1 2.137 X-RAY DIFFRACTION 94 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 419 419 4i6v-a1-m1-cA_4i6v-a1-m1-cB 4i6v-a1-m1-cC_4i6v-a1-m1-cB SSPIDQLCAQLDEIVLIDPHSHINPHAAASKNLGDILGYHYFTELAHSAGPREVIEAPGITAKEKVGRIVEGLAHLDNTIQVKWLIELCERFFGFQDDRLTPDNWEALYDHSEKLSAPDWEQTVLQKSQLEAVFLTNDFDDPLTGFDTKKYIPCLRTDDLVFHLQKPEVRQRLAKATGFDCATPAKLIHAIGQLFTHFVSHGAKACAISLPPDFEPTPVSHVDAEGPLRAAYAGHVLTTEQSQILSRFVFWTIAEFCSEHHLPFDLIGVNRRVYESGVYQGQDLFDQRVSLYQYRRLFNAFPRVKFPISVLAHASNELVSYAWIFPNVIANGHWWYSNIPAFIEPDCRSRLEAIPRNKNIGYYSDYKLEFGWPKFQYRRVLAKVLFEDFVVGRHWSEERAVELGRQILRGNVETIFSGA SSPIDQLCAQLDEIVLIDPHSHINPHAAASKNLGDILGYHYFTELAHSAGPREVIEAPGITAKEKVGRIVEGLAHLDNTIQVKWLIELCERFFGFQDDRLTPDNWEALYDHSEKLSAPDWEQTVLQKSQLEAVFLTNDFDDPLTGFDTKKYIPCLRTDDLVFHLQKPEVRQRLAKATGFDCATPAKLIHAIGQLFTHFVSHGAKACAISLPPDFEPTPVSHVDAEGPLRAAYAGHVLTTEQSQILSRFVFWTIAEFCSEHHLPFDLIGVNRRVYESGVYQGQDLFDQRVSLYQYRRLFNAFPRVKFPISVLAHASNELVSYAWIFPNVIANGHWWYSNIPAFIEPDCRSRLEAIPRNKNIGYYSDYKLEFGWPKFQYRRVLAKVLFEDFVVGRHWSEERAVELGRQILRGNVETIFSGA 4i72-a1-m1-cA_4i72-a1-m1-cB Crystal structure of the Trypanosoma brucei Inosine-Adenosine-Guanosine nucleoside hydrolase in complex with Immucillin A Q57ZL6 Q57ZL6 2.05 X-RAY DIFFRACTION 105 1.0 328 328 4i70-a1-m1-cA_4i70-a1-m2-cA 4i71-a1-m1-cA_4i71-a1-m2-cA 4i73-a1-m1-cC_4i73-a1-m1-cA 4i73-a2-m1-cB_4i73-a2-m1-cD 4i74-a1-m1-cA_4i74-a1-m2-cA 4i75-a1-m1-cB_4i75-a1-m1-cA GSHMAKTVILDHDGNKDDFVAMILLLSNPKKVNLIGCICTDADCFVENGFDVTGKIMCAMHRLIKTPLFPIGKSTATAVNAFPTEWRFSAKNLDDMPFLNIVEDVALWEKLKPENEAHNGQQLLADLVMKSKEKVTVCVTGPLSNMAWCIEKYGEAFTSKVEECVIMGGAVDVGGNVFLPTTDGSAEWNIYWDPPAAKKVLCCPNIRCVLFSLDATNTVPVRSVDVKGFGAQNQYLLSQMVGTMWAMSTHEEILRDGDAYYAWDALTAAYILEPTIATLEPVALDVDVSKGKSEGRTPRASGKPCVHVARNPSKQMFHDLVFASTRVC GSHMAKTVILDHDGNKDDFVAMILLLSNPKKVNLIGCICTDADCFVENGFDVTGKIMCAMHRLIKTPLFPIGKSTATAVNAFPTEWRFSAKNLDDMPFLNIVEDVALWEKLKPENEAHNGQQLLADLVMKSKEKVTVCVTGPLSNMAWCIEKYGEAFTSKVEECVIMGGAVDVGGNVFLPTTDGSAEWNIYWDPPAAKKVLCCPNIRCVLFSLDATNTVPVRSVDVKGFGAQNQYLLSQMVGTMWAMSTHEEILRDGDAYYAWDALTAAYILEPTIATLEPVALDVDVSKGKSEGRTPRASGKPCVHVARNPSKQMFHDLVFASTRVC 4i7a-a1-m1-cD_4i7a-a1-m1-cE GrpN pentameric microcompartment shell protein from Rhodospirillum rubrum 3.2 X-RAY DIFFRACTION 98 1.0 1036743 (Rhodospirillum rubrum F11) 1036743 (Rhodospirillum rubrum F11) 87 87 4i7a-a1-m1-cB_4i7a-a1-m1-cA 4i7a-a1-m1-cB_4i7a-a1-m1-cE 4i7a-a1-m1-cC_4i7a-a1-m1-cA 4i7a-a1-m1-cC_4i7a-a1-m1-cD MYLGKVIGTVVSTSKNESLSGTKLLVVARLTEKLIPDGSTQVVVDTVGAGNGEIVIVSCGSSARQSHSVIDAAVVGIVDTVETVNHH MYLGKVIGTVVSTSKNESLSGTKLLVVARLTEKLIPDGSTQVVVDTVGAGNGEIVIVSCGSSARQSHSVIDAAVVGIVDTVETVNHH 4i83-a1-m1-cB_4i83-a1-m1-cF Crystal Structure of (3R)-Hydroxymyristoyl-ACP Dehydratase from Neisseria meningitidis FAM18 A1KRL1 A1KRL1 2.6 X-RAY DIFFRACTION 95 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 144 144 4i83-a1-m1-cA_4i83-a1-m1-cD 4i83-a1-m1-cC_4i83-a1-m1-cE VQLPIEAKDIQKLIPHRYPFLQLDRITAFEPMKTLTAIKNVSINEPQFQGHFPDLPVMPGVLIIEAMAQACGTLAILSEGGRKENEFFFFAGIDEARFKRQVIPGDQLVFEVELLTSRRGIGKFNAVAKVDGQVAVEAIIMCAK VQLPIEAKDIQKLIPHRYPFLQLDRITAFEPMKTLTAIKNVSINEPQFQGHFPDLPVMPGVLIIEAMAQACGTLAILSEGGRKENEFFFFAGIDEARFKRQVIPGDQLVFEVELLTSRRGIGKFNAVAKVDGQVAVEAIIMCAK 4i83-a1-m1-cE_4i83-a1-m1-cF Crystal Structure of (3R)-Hydroxymyristoyl-ACP Dehydratase from Neisseria meningitidis FAM18 A1KRL1 A1KRL1 2.6 X-RAY DIFFRACTION 89 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 144 144 4i83-a1-m1-cA_4i83-a1-m1-cB 4i83-a1-m1-cC_4i83-a1-m1-cD VQLPIEAKDIQKLIPHRYPFLQLDRITAFEPMKTLTAIKNVSINEPQFQGHFPDLPVMPGVLIIEAMAQACGTLAILSEGGRKENEFFFFAGIDEARFKRQVIPGDQLVFEVELLTSRRGIGKFNAVAKVDGQVAVEAIIMCAK VQLPIEAKDIQKLIPHRYPFLQLDRITAFEPMKTLTAIKNVSINEPQFQGHFPDLPVMPGVLIIEAMAQACGTLAILSEGGRKENEFFFFAGIDEARFKRQVIPGDQLVFEVELLTSRRGIGKFNAVAKVDGQVAVEAIIMCAK 4i88-a1-m3-cA_4i88-a1-m3-cE R107G HSP16.5 Q57733 Q57733 2.85 X-RAY DIFFRACTION 43 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 113 114 1shs-a1-m1-cA_1shs-a1-m1-cB 1shs-a1-m1-cA_1shs-a1-m1-cE 1shs-a1-m1-cB_1shs-a1-m1-cF 1shs-a1-m1-cC_1shs-a1-m1-cG 1shs-a1-m1-cC_1shs-a1-m2-cD 1shs-a1-m1-cD_1shs-a1-m1-cH 1shs-a1-m1-cD_1shs-a1-m3-cC 1shs-a1-m1-cE_1shs-a1-m1-cF 1shs-a1-m1-cG_1shs-a1-m2-cH 1shs-a1-m1-cH_1shs-a1-m3-cG 1shs-a1-m2-cA_1shs-a1-m2-cB 1shs-a1-m2-cA_1shs-a1-m2-cE 1shs-a1-m2-cB_1shs-a1-m2-cF 1shs-a1-m2-cC_1shs-a1-m2-cG 1shs-a1-m2-cC_1shs-a1-m3-cD 1shs-a1-m2-cD_1shs-a1-m2-cH 1shs-a1-m2-cE_1shs-a1-m2-cF 1shs-a1-m2-cG_1shs-a1-m3-cH 1shs-a1-m3-cA_1shs-a1-m3-cB 1shs-a1-m3-cA_1shs-a1-m3-cE 1shs-a1-m3-cB_1shs-a1-m3-cF 1shs-a1-m3-cC_1shs-a1-m3-cG 1shs-a1-m3-cD_1shs-a1-m3-cH 1shs-a1-m3-cE_1shs-a1-m3-cF 4eld-a1-m10-cB_4eld-a1-m7-cA 4eld-a1-m11-cB_4eld-a1-m5-cA 4eld-a1-m12-cB_4eld-a1-m8-cA 4eld-a1-m13-cB_4eld-a1-m22-cA 4eld-a1-m14-cB_4eld-a1-m23-cA 4eld-a1-m15-cB_4eld-a1-m21-cA 4eld-a1-m16-cB_4eld-a1-m24-cA 4eld-a1-m17-cB_4eld-a1-m14-cA 4eld-a1-m18-cB_4eld-a1-m15-cA 4eld-a1-m19-cB_4eld-a1-m13-cA 4eld-a1-m1-cB_4eld-a1-m10-cA 4eld-a1-m20-cB_4eld-a1-m16-cA 4eld-a1-m21-cB_4eld-a1-m18-cA 4eld-a1-m22-cB_4eld-a1-m19-cA 4eld-a1-m23-cB_4eld-a1-m17-cA 4eld-a1-m24-cB_4eld-a1-m20-cA 4eld-a1-m2-cB_4eld-a1-m11-cA 4eld-a1-m3-cB_4eld-a1-m9-cA 4eld-a1-m4-cB_4eld-a1-m12-cA 4eld-a1-m5-cB_4eld-a1-m2-cA 4eld-a1-m6-cB_4eld-a1-m3-cA 4eld-a1-m7-cB_4eld-a1-m1-cA 4eld-a1-m8-cB_4eld-a1-m4-cA 4eld-a1-m9-cB_4eld-a1-m6-cA 4i88-a1-m1-cA_4i88-a1-m1-cB 4i88-a1-m1-cA_4i88-a1-m1-cE 4i88-a1-m1-cB_4i88-a1-m1-cF 4i88-a1-m1-cC_4i88-a1-m1-cG 4i88-a1-m1-cC_4i88-a1-m2-cD 4i88-a1-m1-cD_4i88-a1-m1-cH 4i88-a1-m1-cD_4i88-a1-m3-cC 4i88-a1-m1-cE_4i88-a1-m1-cF 4i88-a1-m1-cG_4i88-a1-m2-cH 4i88-a1-m1-cH_4i88-a1-m3-cG 4i88-a1-m2-cA_4i88-a1-m2-cB 4i88-a1-m2-cA_4i88-a1-m2-cE 4i88-a1-m2-cB_4i88-a1-m2-cF 4i88-a1-m2-cC_4i88-a1-m2-cG 4i88-a1-m2-cC_4i88-a1-m3-cD 4i88-a1-m2-cD_4i88-a1-m2-cH 4i88-a1-m2-cE_4i88-a1-m2-cF 4i88-a1-m2-cG_4i88-a1-m3-cH 4i88-a1-m3-cA_4i88-a1-m3-cB 4i88-a1-m3-cB_4i88-a1-m3-cF 4i88-a1-m3-cC_4i88-a1-m3-cG 4i88-a1-m3-cD_4i88-a1-m3-cH 4i88-a1-m3-cE_4i88-a1-m3-cF IQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE GIQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE 4i88-a1-m3-cB_4i88-a1-m3-cD R107G HSP16.5 Q57733 Q57733 2.85 X-RAY DIFFRACTION 105 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 114 114 1shs-a1-m1-cA_1shs-a1-m1-cC 1shs-a1-m1-cB_1shs-a1-m1-cD 1shs-a1-m1-cE_1shs-a1-m2-cF 1shs-a1-m1-cF_1shs-a1-m3-cE 1shs-a1-m1-cG_1shs-a1-m1-cH 1shs-a1-m2-cA_1shs-a1-m2-cC 1shs-a1-m2-cB_1shs-a1-m2-cD 1shs-a1-m2-cE_1shs-a1-m3-cF 1shs-a1-m2-cG_1shs-a1-m2-cH 1shs-a1-m3-cA_1shs-a1-m3-cC 1shs-a1-m3-cB_1shs-a1-m3-cD 1shs-a1-m3-cG_1shs-a1-m3-cH 4eld-a1-m10-cB_4eld-a1-m10-cA 4eld-a1-m11-cB_4eld-a1-m11-cA 4eld-a1-m12-cB_4eld-a1-m12-cA 4eld-a1-m13-cB_4eld-a1-m13-cA 4eld-a1-m14-cB_4eld-a1-m14-cA 4eld-a1-m15-cB_4eld-a1-m15-cA 4eld-a1-m16-cB_4eld-a1-m16-cA 4eld-a1-m17-cB_4eld-a1-m17-cA 4eld-a1-m18-cB_4eld-a1-m18-cA 4eld-a1-m19-cB_4eld-a1-m19-cA 4eld-a1-m1-cB_4eld-a1-m1-cA 4eld-a1-m20-cB_4eld-a1-m20-cA 4eld-a1-m21-cB_4eld-a1-m21-cA 4eld-a1-m22-cB_4eld-a1-m22-cA 4eld-a1-m23-cB_4eld-a1-m23-cA 4eld-a1-m24-cB_4eld-a1-m24-cA 4eld-a1-m2-cB_4eld-a1-m2-cA 4eld-a1-m3-cB_4eld-a1-m3-cA 4eld-a1-m4-cB_4eld-a1-m4-cA 4eld-a1-m5-cB_4eld-a1-m5-cA 4eld-a1-m6-cB_4eld-a1-m6-cA 4eld-a1-m7-cB_4eld-a1-m7-cA 4eld-a1-m8-cB_4eld-a1-m8-cA 4eld-a1-m9-cB_4eld-a1-m9-cA 4i88-a1-m1-cA_4i88-a1-m1-cC 4i88-a1-m1-cB_4i88-a1-m1-cD 4i88-a1-m1-cE_4i88-a1-m2-cF 4i88-a1-m1-cF_4i88-a1-m3-cE 4i88-a1-m1-cG_4i88-a1-m1-cH 4i88-a1-m2-cA_4i88-a1-m2-cC 4i88-a1-m2-cB_4i88-a1-m2-cD 4i88-a1-m2-cE_4i88-a1-m3-cF 4i88-a1-m2-cG_4i88-a1-m2-cH 4i88-a1-m3-cA_4i88-a1-m3-cC 4i88-a1-m3-cG_4i88-a1-m3-cH GIQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE GIQISGKGFMPISIIEGDQHIKVIAWLPGVNKEDIILNAVGDTLEIRAKRSPLMITESERIIYSEIPEEEEIYRTIKLPATVKEENASAKFENGVLSVILPKAESSIKKGINIE 4i8b-a1-m1-cA_4i8b-a1-m1-cB Crystal Structure of Thioredoxin from Schistosoma Japonicum Q9U8F3 Q9U8F3 2 X-RAY DIFFRACTION 27 1.0 6182 (Schistosoma japonicum) 6182 (Schistosoma japonicum) 105 105 SNVLHIETDDDFDSFLKENKDKLIVVDFFATWCGPCKKIAPAFEALSADRSALYVKVDVDKLEETARKYDVSAMPTFIVIKNGEKVDTVVGASIENVEAAIRKHK SNVLHIETDDDFDSFLKENKDKLIVVDFFATWCGPCKKIAPAFEALSADRSALYVKVDVDKLEETARKYDVSAMPTFIVIKNGEKVDTVVGASIENVEAAIRKHK 4i8p-a1-m1-cB_4i8p-a1-m1-cA Crystal structure of aminoaldehyde dehydrogenase 1a from Zea mays (ZmAMADH1a) C0P9J6 C0P9J6 1.95 X-RAY DIFFRACTION 234 1.0 4577 (Zea mays) 4577 (Zea mays) 498 500 MVPLRQLFVDGEWRPPAQGRRLPVVNPTTEAHIGEIPAGTAEDVDAAVAAARAALKRNRGRDWARAPGAVRAKYLRAIAAKVIERKPELAKLEALDCGKPYDEAAWDMDDVAGCFEYFADQAEALDKRQNSPVSLPMETFKCHLRREPIGVVGLITPWNYPLLMATWKIAPALAAGCTAVLKPSELASVTCLELADICKEVGLPSGVLNIVTGLGPDAGAPLSAHPDVDKVAFTGSFETGKKIMASAAPMVKPVTLELGGKSPIVVFDDVDIDKAVEWTLFGCFWTNGQICSATSRLLIHTKIAKKFNERMVAWAKNIKVSDPLEEGCRLGPVVSEGQYEKIKKFISNAKSQGATILTGGVRPAHLEKGFFIEPTIITDITTSMEIWREEVFGPVLCVKEFSTEDEAIELANDTQYGLAGAVISGDRERCQRLSEEIDAGCIWVNCSQPCFCQAPWGGNKRSGFGRELGEGGIDNYLSVKQVTEYISDEPWGWYQSPS MVPLRQLFVDGEWRPPAQGRRLPVVNPTTEAHIGEIPAGTAEDVDAAVAAARAALKRNRGRDWARAPGAVRAKYLRAIAAKVIERKPELAKLEALDCGKPYDEAAWDMDDVAGCFEYFADQAEALDKRQNSPVSLPMETFKCHLRREPIGVVGLITPWNYPLLMATWKIAPALAAGCTAVLKPSELASVTCLELADICKEVGLPSGVLNIVTGLGPDAGAPLSAHPDVDKVAFTGSFETGKKIMASAAPMVKPVTLELGGKSPIVVFDDVDIDKAVEWTLFGCFWTNGQICSATSRLLIHTKIAKKFNERMVAWAKNIKVSDPLEEGCRLGPVVSEGQYEKIKKFISNAKSQGATILTGGVRPAHLEKGFFIEPTIITDITTSMEIWREEVFGPVLCVKEFSTEDEAIELANDTQYGLAGAVISGDRERCQRLSEEIDAGCIWVNCSQPCFCQAPWGGNKRSGFGRELGEGGIDNYLSVKQVTEYISDEPWGWYQSPSKL 4i95-a1-m1-cA_4i95-a1-m2-cB Crystal structure of a Lipocalin-like protein (BACEGG_00036) from Bacteroides eggerthii DSM 20697 at 1.81 A resolution 1.81 X-RAY DIFFRACTION 52 1.0 483216 (Bacteroides eggerthii DSM 20697) 483216 (Bacteroides eggerthii DSM 20697) 133 133 4i95-a1-m1-cB_4i95-a1-m2-cA AFEPAHLQGIWQLCHYVSENPDIPGVLKPSNTFKVLSDDGRIVNFTIRPGTDAIITGYGTYRQISAAAYKESIEKNIHLPLDNKDNILEFEGAGGVYLKYFIEKDLNGNELNTWFHETWKRVTPPVFPEDIVR AFEPAHLQGIWQLCHYVSENPDIPGVLKPSNTFKVLSDDGRIVNFTIRPGTDAIITGYGTYRQISAAAYKESIEKNIHLPLDNKDNILEFEGAGGVYLKYFIEKDLNGNELNTWFHETWKRVTPPVFPEDIVR 4i95-a1-m2-cA_4i95-a1-m2-cB Crystal structure of a Lipocalin-like protein (BACEGG_00036) from Bacteroides eggerthii DSM 20697 at 1.81 A resolution 1.81 X-RAY DIFFRACTION 101 1.0 483216 (Bacteroides eggerthii DSM 20697) 483216 (Bacteroides eggerthii DSM 20697) 133 133 4i95-a1-m1-cA_4i95-a1-m1-cB AFEPAHLQGIWQLCHYVSENPDIPGVLKPSNTFKVLSDDGRIVNFTIRPGTDAIITGYGTYRQISAAAYKESIEKNIHLPLDNKDNILEFEGAGGVYLKYFIEKDLNGNELNTWFHETWKRVTPPVFPEDIVR AFEPAHLQGIWQLCHYVSENPDIPGVLKPSNTFKVLSDDGRIVNFTIRPGTDAIITGYGTYRQISAAAYKESIEKNIHLPLDNKDNILEFEGAGGVYLKYFIEKDLNGNELNTWFHETWKRVTPPVFPEDIVR 4i97-a1-m1-cA_4i97-a1-m1-cB The crystal structure of glutathione S-transferase SnigGSTD1A from Scaptomyza nigrita in complex with glutathione R4S8C5 R4S8C5 2.15 X-RAY DIFFRACTION 82 1.0 928823 (Scaptomyza nigrita) 928823 (Scaptomyza nigrita) 207 207 ADLYYLPGSSPCRSVIMVAKAIGLELNKKLLDLSTGEHLKPEFVKINPQHTIPTLVDNGFALWESRAILVYLVEKYGKTDSLYPKCPKKRAVINQRLYFDMGTLYQSFANYYYPQVFAKAPADPELYKKMEAAVEFLNTFLEGQTYAAGDSLTIADIALLATMSSFEVAGYDFSKYENVNKWYANAKKVTPGWDENWAGCQEFKKYF ADLYYLPGSSPCRSVIMVAKAIGLELNKKLLDLSTGEHLKPEFVKINPQHTIPTLVDNGFALWESRAILVYLVEKYGKTDSLYPKCPKKRAVINQRLYFDMGTLYQSFANYYYPQVFAKAPADPELYKKMEAAVEFLNTFLEGQTYAAGDSLTIADIALLATMSSFEVAGYDFSKYENVNKWYANAKKVTPGWDENWAGCQEFKKYF 4i98-a1-m1-cC_4i98-a1-m1-cB Crystal structure of the complex between ScpA(residues 1-160)-ScpB(residues 1-183) C1CMI5 C1CMI5 2.8 X-RAY DIFFRACTION 84 1.0 488223 (Streptococcus pneumoniae P1031) 488223 (Streptococcus pneumoniae P1031) 165 166 STLAKIEALLFVAGEDGIRVRQLAELLSLPPTGIQQSLGKLAQKYEKDPDSSLALIETSGAYRLVTKPQFAEILKEYSKAPINQSLSRAALETLSIIAYKQPITRIEIDAIRGVNSSGALAKLQAFDLIKEDGKKEVLGRPNLYVTTDYFLDYGINHLEELPVID STLAKIEALLFVAGEDGIRVRQLAELLSLPPTGIQQSLGKLAQKYEKDPDSSLALIETSGAYRLVTKPQFAEILKEYSKAPINQSLSRAALETLSIIAYKQPITRIEIDAIRGVNSSGALAKLQAFDLIKEDGKKEVLGRPNLYVTTDYFLDYGINHLEELPVIDE 4i99-a1-m1-cA_4i99-a1-m1-cB Crystal structure of the SmcHead bound to the C-winged helix domain of ScpA Q8TZY2 Q8TZY2 2.3 X-RAY DIFFRACTION 98 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 314 317 PYIEKLELKGFKSYGNKKVVIPFSKGFTAIVGANGSGKSNIGDAILFVLGGLSAKARASRISDLIFAGSKNEPPAKYAEVAIYFNNEDRGFPIDEDEVVIRRRVYPDGRSSYWLNGRRATRSEILDILTAAISPDGYNIVLQGDITKFIKSPLERRLLIDDISGIKEKKNVFRTFEAISRNFSEIFAKLSPGGSARLILENPEDPFSGGLEIEAKPAGKDVKRIEASGGEKALTALAFVFAIQKFKPAPFYLFDEIDAHLDDANVKRVADLIKESSKESQFIVITLRDVANADKIIGVSRDGVSKVVSLSLEKA PYIEKLELKGFKSYGNKKVVIPFSKGFTAIVGANGSGKSNIGDAILFVLGGLSAKARASRISDLIFAGSKNEPPAKYAEVAIYFNNEDRGFPIDEDEVVIRRRVYPDGRSSYWLNGRRATRSEILDILTAAISPDGYNIVLQGDITKFIKSPLERRLLIDDISGIAKEKKNVFRTFEAISRNFSEIFAKLSPGGSARLILENPEDPFSGGLEIEAKPAGKDVKRIEASGGEKALTALAFVFAIQKFKPAPFYLFDEIDAHLDDANVKRVADLIKESSKESQFIVITLRDVANADKIIGVSRDGVSKVVSLSLEKAKI 4i9b-a1-m1-cA_4i9b-a1-m1-cB Structure of aminoaldehyde dehydrogenase 1 from Solanum lycopersium (SlAMADH1) with a thiohemiacetal intermediate Q56R04 Q56R04 1.9 X-RAY DIFFRACTION 251 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 496 496 4i8q-a1-m1-cA_4i8q-a1-m2-cA VPIPRRQLYIGGEWREPVKKNRIPIINPATEEIIGDIPAATAEDVDIAVEAARKAIARDDWGSTTGAQRAKYLRAIAAKVLEKKSVLATLESLDSGKTLYESAADMDDVAGCFEYYAGLAEALDSRRMTPVNLNSDSYKSYVLREPLGVVGLITPWNYPLLMAIWKVAPALAAGCAAILKPSELASITCLELGEICREIGLPSGALNILTGLGPEAGGPLASHPHVDKISFTGSGPTGSKIMTAAAQLVKPVSLELGGKSPIVVFDDIDNLDIAAEWTLFGIFANTGQVCSATSRLIVQENIASAFMDRLLKWTKNIKISDPLEEDCKLGPVVSAGQYEKVLKFISNAKSEGATILCGGERPQHLKKGYYVQPTIITDVNTSMEIWKEEVFGPVLCVKTFKTEEQAIELANDTKYGLGAAVMSKDVKRCERFTKAFQTGIIWINCSQPTFNELPWGGKKRSGFGRDLGKWGLENFLNIKQVTEYTSAEPLAFYKSP VPIPRRQLYIGGEWREPVKKNRIPIINPATEEIIGDIPAATAEDVDIAVEAARKAIARDDWGSTTGAQRAKYLRAIAAKVLEKKSVLATLESLDSGKTLYESAADMDDVAGCFEYYAGLAEALDSRRMTPVNLNSDSYKSYVLREPLGVVGLITPWNYPLLMAIWKVAPALAAGCAAILKPSELASITCLELGEICREIGLPSGALNILTGLGPEAGGPLASHPHVDKISFTGSGPTGSKIMTAAAQLVKPVSLELGGKSPIVVFDDIDNLDIAAEWTLFGIFANTGQVCSATSRLIVQENIASAFMDRLLKWTKNIKISDPLEEDCKLGPVVSAGQYEKVLKFISNAKSEGATILCGGERPQHLKKGYYVQPTIITDVNTSMEIWKEEVFGPVLCVKTFKTEEQAIELANDTKYGLGAAVMSKDVKRCERFTKAFQTGIIWINCSQPTFNELPWGGKKRSGFGRDLGKWGLENFLNIKQVTEYTSAEPLAFYKSP 4i9e-a1-m1-cA_4i9e-a1-m1-cB Crystal structure of Aspartyl phosphate phosphatase F from Bacillus subtilis P71002 P71002 2.4 X-RAY DIFFRACTION 121 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 383 383 GAMTGVISSSSIGEKINEWYMYIRRFSIPDAEYLRREIKQELDQMEEDQDLHLYYSLMEFRHNLMLEYLEPLEKMRIEEQPRLSDLLLEIDKKQARLTGLLEYYFNFFRGMYELDQREYLSAIKFFKKAESKLIFVKDRIEKAEFFFKMSESYYYMKQTYFSMDYARQAYEIYKEHEAYNIRLLQCHSLFATNFLDLKQYEDAISHFQKAYSMAEAEKQPQLMGRTLYNIGLCKNSQSQYEDAIPYFKRAIAVFEESNILPSLPQAYFLITQIHYKLGKIDKAHEYHSKGMAYSQKAGDVIYLSEFEFLKSLYLSGPDEEAIQGFFDFLESKMLYADLEDFAIDVAKYYHERKNFQKASAYFLKVEQVRQLIQGGVSLYEIEV GAMTGVISSSSIGEKINEWYMYIRRFSIPDAEYLRREIKQELDQMEEDQDLHLYYSLMEFRHNLMLEYLEPLEKMRIEEQPRLSDLLLEIDKKQARLTGLLEYYFNFFRGMYELDQREYLSAIKFFKKAESKLIFVKDRIEKAEFFFKMSESYYYMKQTYFSMDYARQAYEIYKEHEAYNIRLLQCHSLFATNFLDLKQYEDAISHFQKAYSMAEAEKQPQLMGRTLYNIGLCKNSQSQYEDAIPYFKRAIAVFEESNILPSLPQAYFLITQIHYKLGKIDKAHEYHSKGMAYSQKAGDVIYLSEFEFLKSLYLSGPDEEAIQGFFDFLESKMLYADLEDFAIDVAKYYHERKNFQKASAYFLKVEQVRQLIQGGVSLYEIEV 4i9g-a1-m1-cB_4i9g-a1-m1-cA Crystal structure of glycerol phosphate phosphatase Rv1692 from Mycobacterium tuberculosis in complex with magnesium O33194 O33194 3.25 X-RAY DIFFRACTION 98 0.997 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 326 329 MKSIAQEHDCLLIDLDGTVFCGRQPTGGAVQSLSQVRSRKLFVTNNASRSADEVAAHLCELGFTATGEDVVTSAQSAAHLLAGQLAPGARVLIVGTEALANEVAAVGLRPVRRFEDRPDAVVQGLSMTTGWSDLAEAALAIRAGALWVAANVDPTLPTERGLLPGNGSMVAALRTATGMDPRVAGKPAPALMTEAVARGDFRAALVVGDRLDTDIEGANAAGLPSLMVLTGVNSAWDAVYAEPVRRPTYIGHDLRSLHQDSKLLAVAPQPGWQIDVGGGAVTVCANDDGLSIVRAVASAVWEAQRPLRIEAGDERARAALQRWSLM HMKSIAQEHDCLLIDLDGTVFCGRQPTGGAVQSLSQVRSRKLFVTNNASRSADEVAAHLCELGFTATGEDVVTSAQSAAHLLAGQLAPGARVLIVGTEALANEVAAVGLRPVRRFEDRPDAVVQGLSMTTGWSDLAEAALAIRAGALWVAANVDPTLPTERGLLPGNGSMVAALRTATGMDPRVAGKPAPALMTEAVARGDFRAALVVGDRLDTDIEGANAAGLPSLMVLTGVNSAWDAVYAEPVRRPTYIGHDLRSLHQDSKLLAVAPQPGWQIDVGGGAVTVCANGDIDDGLSIVRAVASAVWEARPLRIEAGDERARAALQRWSLM 4ia6-a1-m1-cB_4ia6-a1-m1-cA Hydratase from lactobacillus acidophilus in a ligand bound form (LA LAH) Q5FL96 Q5FL96 1.8 X-RAY DIFFRACTION 116 1.0 272621 (Lactobacillus acidophilus NCFM) 272621 (Lactobacillus acidophilus NCFM) 558 579 4ia5-a1-m1-cA_4ia5-a1-m1-cB MYYSNGNYEAFADPKKPAGVDKKSAYIIGSGLAGLSTAVFLVRDAQMKGENIHILEELPVVRGGREMENHFECLWDMYRSIPSLEVPGASYLDEYYWLDKEDPNSSNCRLIYNRGDRLPSDGQYGLGKCANEIVKLIMTPEKEIEGQTIEEFFSDEFFKTNFWTYWSTMFAFEKWHSLAEMRRYAMRFIHHIDGLPDFTALKFNKYNQYESMVKPLLAYLKDHGVQFEYDCHVKNVEVDHEGDSKIAKKIVMTQNGKDKEIDLTHNDIVFVTNGSITESSTYGDQNTPAPITNAKGDSWKLWENLAKQDPAFGHPDVFCENLPERSWFVSATATLENKKLAPYFERLTKRSLYDGKVNTGGIITIVDSNWELSFTIHRQPHFKSQNPDQIVVWIYALYSDTEGNYIKKRIVDCTGKEIAEELLYHLGVPESQISELASEENMNTVPVYMPYITSYFMPRRDGDRPDVVPEGSINLAFIGNFAESPTRDTVFTTEYSVRTAMEAVYTLLNVDRGVPEVFDSIYDIRQLLRAMYYMSDKKKDQKIKKTWVEELLKEANLV MYYSNGNYEAFADPKKPAGVDKKSAYIIGSGLAGLSTAVFLVRDAQMKGENIHILEELPVAGFVVRGGREMENHFECLWDMYRSIPSLEVPGASYLDEYYWLDKEDPNSSNCRLIYNRGDRLPSDGQYGLGKCANEIVKLIMTPEKEIEGQTIEEFFSDEFFKTNFWTYWSTMFAFEKWHSLAEMRRYAMRFIHHIDGLPDFTALKFNKYNQYESMVKPLLAYLKDHGVQFEYDCHVKNVEVDHEGDSKIAKKIVMTQNGKDKEIDLTHNDIVFVTNGSITESSTYGDQNTPAPITNAKGDSWKLWENLAKQDPAFGHPDVFCENLPERSWFVSATATLENKKLAPYFERLTKRSLYDGKVNTGGIITIVDSNWELSFTIHRQPHFKSQNPDQIVVWIYALYSDTEGNYIKKRIVDCTGKEIAEELLYHLGVPESQISELASEENMNTVPVYMPYITSYFMPRRDGDRPDVVPEGSINLAFIGNFAESPTRDTVFTTEYSVRTAMEAVYTLLNVDRGVPEVFDSIYDIRQLLRAMYYMSDKKKLADQDMPLPEKLAVKTGMRKIKKTWVEELLKEANLV 4iag-a1-m1-cA_4iag-a1-m2-cA Crystal structure of ZbmA, the zorbamycin binding protein from Streptomyces flavoviridis B9UIZ4 B9UIZ4 1.9 X-RAY DIFFRACTION 128 1.0 119 119 AVLLSGVPVLAALDVSTTQFWIEVLGFTEEFLTEDFGGVSRDGVELFICSVEDQVVPDNTQAWLRVRDIDALHAEWSARVSSDYADASHPATAIREVPWGREFGLRDPAGNLVHFSELS AVLLSGVPVLAALDVSTTQFWIEVLGFTEEFLTEDFGGVSRDGVELFICSVEDQVVPDNTQAWLRVRDIDALHAEWSARVSSDYADASHPATAIREVPWGREFGLRDPAGNLVHFSELS 4ian-a1-m1-cB_4ian-a1-m1-cA Crystal Structure of apo Human PRPF4B kinase domain Q13523 Q13523 2.44 X-RAY DIFFRACTION 21 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 319 321 RVNIGEVLDKRYNVYGYTGQGVFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLFRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLVSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVREKVTVMSTINPTKDLLADLIGCDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE RVNIGEVLDKRYNVYGYTGQGVFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLFRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLVSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVDREKVTVMSTINPTKDLLADLILPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE 4iap-a3-m1-cA_4iap-a3-m1-cB Crystal structure of PH domain of Osh3 from Saccharomyces cerevisiae P38713 P38713 2.3 X-RAY DIFFRACTION 65 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 256 256 GRYLQGYLLKKRRVDNIFEMLRIDEGLRLKIYKNTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYVDQGFKKRFFTLDFRYGTLSYYLNDHNQTCRGEIVISLSSVSANKKDKIIIIDSGMEVWVLKATTKENWQSWVDALQTCFD GRYLQGYLLKKRRVDNIFEMLRIDEGLRLKIYKNTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYVDQGFKKRFFTLDFRYGTLSYYLNDHNQTCRGEIVISLSSVSANKKDKIIIIDSGMEVWVLKATTKENWQSWVDALQTCFD 4iaq-a1-m1-cA_4iaq-a1-m2-cA Crystal structure of the chimeric protein of 5-HT1B-BRIL in complex with dihydroergotamine (PSI Community Target) P28222 P28222 2.8 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 367 367 YIYQDSISLPWKVLLVMLLALITLATTLSNAFVIATVYRTRKLHTPANYLIASLAVTDLLVSILVMPISTMYTVTGRWTLGQVVCDFWLSSDITCCTASIWHLCVIALDRYWAITDAVEYSAKRTPKRAAVMIALVWVFSISISLPPFFWRQASECVVNTDHILYTVYSTVGAFYFPTLLLIALYGRIYVEARSRIADLEDNWETLNDNLKVINAAQVKDALTKMRAAALDAQKATPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLLMAARERKATKTLGIILGAFIVCWLPFFIISLVMPIHLAIFDFFTWLGYLNSLINPIIYTMSNEDFKQAFHKLIRFK YIYQDSISLPWKVLLVMLLALITLATTLSNAFVIATVYRTRKLHTPANYLIASLAVTDLLVSILVMPISTMYTVTGRWTLGQVVCDFWLSSDITCCTASIWHLCVIALDRYWAITDAVEYSAKRTPKRAAVMIALVWVFSISISLPPFFWRQASECVVNTDHILYTVYSTVGAFYFPTLLLIALYGRIYVEARSRIADLEDNWETLNDNLKVINAAQVKDALTKMRAAALDAQKATPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLLMAARERKATKTLGIILGAFIVCWLPFFIISLVMPIHLAIFDFFTWLGYLNSLINPIIYTMSNEDFKQAFHKLIRFK 4iba-a1-m1-cA_4iba-a1-m2-cA Bovine beta-lactoglobulin (isoform B) in complex with dodecyl sulphate (SDS) P02754 P02754 2.3 X-RAY DIFFRACTION 26 1.0 9913 (Bos taurus) 9913 (Bos taurus) 157 157 7bgz-a1-m1-cAAA_7bgz-a1-m2-cAAA LIVTQTMKGLDIQKVAGTWYSLAMAASDISLLDAQSAPLRVYVEELKPTPEGDLEILLQKWENGECAQKKIIAEKTKIPAVFKIDALNENKVLVLDTDYKKYLLFCMENQSLACQCLVRTPEVDDEALEKFDKALKALPMHIRLSFNPTQLEEQCHI LIVTQTMKGLDIQKVAGTWYSLAMAASDISLLDAQSAPLRVYVEELKPTPEGDLEILLQKWENGECAQKKIIAEKTKIPAVFKIDALNENKVLVLDTDYKKYLLFCMENQSLACQCLVRTPEVDDEALEKFDKALKALPMHIRLSFNPTQLEEQCHI 4ibo-a1-m1-cA_4ibo-a1-m1-cD Crystal structure of a putative gluconate dehydrogenase from agrobacterium tumefaciens (target EFI-506446) A9CJ43 A9CJ43 2.1 X-RAY DIFFRACTION 118 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 254 256 4ibo-a1-m1-cB_4ibo-a1-m1-cC NQIIFDLGGRTALVTGSSRGLGRAMAEGLAVAGARILINGTDPSRVAQTVQEFRNVGHDAEAVAFDVTSESEIIEAFARLDEQGIDVDILVNNAGIQFRKPMIELETADWQRVIDTNLTSAFMIGREAAKRMIPRGYGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQYGIQANAIGPGYMLTDMNQALIDNPEFDAWVKARTPAKRWGKPQELVGTAVFLSASASDYVNGQIIYVDGGMLSVL MSNQIIFDLGGRTALVTGSSRGLGRAMAEGLAVAGARILINGTDPSRVAQTVQEFRNVGHDAEAVAFDVTSESEIIEAFARLDEQGIDVDILVNNAGIQFRKPMIELETADWQRVIDTNLTSAFMIGREAAKRMIPRGYGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQYGIQANAIGPGYMLTDMNQALIDNPEFDAWVKARTPAKRWGKPQELVGTAVFLSASASDYVNGQIIYVDGGMLSVL 4ibo-a1-m1-cB_4ibo-a1-m1-cD Crystal structure of a putative gluconate dehydrogenase from agrobacterium tumefaciens (target EFI-506446) A9CJ43 A9CJ43 2.1 X-RAY DIFFRACTION 146 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 253 256 4ibo-a1-m1-cC_4ibo-a1-m1-cA QIIFDLGGRTALVTGSSRGLGRAMAEGLAVAGARILINGTDPSRVAQTVQEFRNVGHDAEAVAFDVTSESEIIEAFARLDEQGIDVDILVNNAGIQFRKPMIELETADWQRVIDTNLTSAFMIGREAAKRMIPRGYGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQYGIQANAIGPGYMLTDMNQALIDNPEFDAWVKARTPAKRWGKPQELVGTAVFLSASASDYVNGQIIYVDGGMLSVL MSNQIIFDLGGRTALVTGSSRGLGRAMAEGLAVAGARILINGTDPSRVAQTVQEFRNVGHDAEAVAFDVTSESEIIEAFARLDEQGIDVDILVNNAGIQFRKPMIELETADWQRVIDTNLTSAFMIGREAAKRMIPRGYGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQYGIQANAIGPGYMLTDMNQALIDNPEFDAWVKARTPAKRWGKPQELVGTAVFLSASASDYVNGQIIYVDGGMLSVL 4ibo-a1-m1-cC_4ibo-a1-m1-cD Crystal structure of a putative gluconate dehydrogenase from agrobacterium tumefaciens (target EFI-506446) A9CJ43 A9CJ43 2.1 X-RAY DIFFRACTION 26 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 253 256 4ibo-a1-m1-cB_4ibo-a1-m1-cA QIIFDLGGRTALVTGSSRGLGRAMAEGLAVAGARILINGTDPSRVAQTVQEFRNVGHDAEAVAFDVTSESEIIEAFARLDEQGIDVDILVNNAGIQFRKPMIELETADWQRVIDTNLTSAFMIGREAAKRMIPRGYGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQYGIQANAIGPGYMLTDMNQALIDNPEFDAWVKARTPAKRWGKPQELVGTAVFLSASASDYVNGQIIYVDGGMLSVL MSNQIIFDLGGRTALVTGSSRGLGRAMAEGLAVAGARILINGTDPSRVAQTVQEFRNVGHDAEAVAFDVTSESEIIEAFARLDEQGIDVDILVNNAGIQFRKPMIELETADWQRVIDTNLTSAFMIGREAAKRMIPRGYGKIVNIGSLTSELARATVAPYTVAKGGIKMLTRAMAAEWAQYGIQANAIGPGYMLTDMNQALIDNPEFDAWVKARTPAKRWGKPQELVGTAVFLSASASDYVNGQIIYVDGGMLSVL 4ic3-a1-m1-cA_4ic3-a1-m1-cB Crystal structure of the F495L mutant XIAP RING domain P98170 P98170 1.783 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 64 4ic2-a1-m1-cA_4ic2-a1-m1-cB 5o6t-a1-m1-cB_5o6t-a1-m1-cA EISTEEQLRRLQEEKLCKICMDRNIAIVFVPCGHLVTCKQCAEAVDKCPMCYTVITFKQKILM EISTEEQLRRLQEEKLCKICMDRNIAIVFVPCGHLVTCKQCAEAVDKCPMCYTVITFKQKILMS 4ic5-a1-m1-cC_4ic5-a1-m1-cB Crystal structure of Deg5 Q9SEL7 Q9SEL7 2.607 X-RAY DIFFRACTION 54 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 209 210 4ic5-a1-m1-cA_4ic5-a1-m1-cB 4ic5-a1-m1-cC_4ic5-a1-m1-cA EELEEEEERNVNLFQKTSPSVVYIEAIELGTGSGFVWDKLGHIVTNYHVIAKLATDQFGLQRCKVSLVDAKGTRFSKEGKIVGLDPDNDLAVLKIETEGRELNPVVLGTSNDLRVGQSCFAIGNPYGYENTLTIGVVSGLGREIPSPNGKSISEAIQTDADINSGNAGGPLLDSYGHTIGVNTATFVNFAIPIDTVVRTVPYLIVYGTA EELEEEEERNVNLFQKTSPSVVYIEAIELEGTGSGFVWDKLGHIVTNYHVIAKLATDQFGLQRCKVSLVDAKGTRFSKEGKIVGLDPDNDLAVLKIETEGRELNPVVLGTSNDLRVGQSCFAIGNPYGYENTLTIGVVSGLGREIPSPNGKSISEAIQTDADINSGNAGGPLLDSYGHTIGVNTATFVNFAIPIDTVVRTVPYLIVYGTA 4ic6-a1-m2-cB_4ic6-a1-m1-cA Crystal structure of Deg8 Q9LU10 Q9LU10 2 X-RAY DIFFRACTION 28 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 339 340 4ic6-a1-m1-cB_4ic6-a1-m2-cA 4ic6-a1-m1-cC_4ic6-a1-m2-cC PTVFPAGPLFPTEGRIVQLFEKNTYSVVNIFDVTLRPQLKGNGSGVVWDGQGYIVTNYHVIGNALSRNPSPGDVVGRVNILASDGVQKNFEGKLVGADRAKDLAVLKVDAPETLLKPIKVGQSNSLKVGQQCLAIGNPFGFDHTLTVGVISGLNRDIFSQTGVTIGGGIQTDAAINPGNAGGPLLDSKGNLIGINTAIFTQTGTSAGVGFAIPSSTVLKIVPQLIQFSKVLRAGINIELAPDPVANQLNVRNGALVLQVPGKSLAEKAGLHPTSRGFAGNIVLGDIIVAVDDKPVKNKAELMKILDEYSVGDKVTLKIKRGNEDLELKISLEEKEHHHH PTVFPAGPLFPTEGRIVQLFEKNTYSVVNIFDVTLRPGNGSGVVWDGQGYIVTNYHVIGNALSRNPSPGDVVGRVNILASDGVQKNFEGKLVGADRAKDLAVLKVDAPETLLKPIKVGQSNSLKVGQQCLAIGNPFGFDHTLTVGVISGLNRDIFSQTGVTIGGGIQTDAAINPGNAGGPLLDSKGNLIGINTAIFTQTGTSAGVGFAIPSSTVLKIVPQLIQFSKVLRAGINIELAPDPVANQLNVRNGALVLQVPGKSLAEKAGLHPTSRGFAGNIVLGDIIVAVDDKPVKNKAELMKILDEYSVGDKVTLKIKRGNEDLELKISLEEKSSLEHHHHH 4ic6-a1-m2-cC_4ic6-a1-m2-cA Crystal structure of Deg8 Q9LU10 Q9LU10 2 X-RAY DIFFRACTION 100 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 335 340 4ic6-a1-m1-cB_4ic6-a1-m1-cA 4ic6-a1-m1-cC_4ic6-a1-m1-cA 4ic6-a1-m1-cC_4ic6-a1-m1-cB 4ic6-a1-m2-cB_4ic6-a1-m2-cA 4ic6-a1-m2-cC_4ic6-a1-m2-cB GPLFPTEGRIVQLFEKNTYSVVNIFDVTLRPQGNGSGVVWDGQGYIVTNYHVIGNALSRNPSPGDVVGRVNILASDGVQKNFEGKLVGADRAKDLAVLKVDAPETLLKPIKVGQSNSLKVGQQCLAIGNPFGFDHTLTVGVISGLNRDIFSQTGVTIGGGIQTDAAINPGNAGGPLLDSKGNLIGINTAIFTQTGTSAGVGFAIPSSTVLKIVPQLIQFSKVLRAGINIELAPDPVANQLNVRNGALVLQVPGKSLAEKAGLHPTSRGFAGNIVLGDIIVAVDDKPVKNKAELMKILDEYSVGDKVTLKIKRGNEDLELKISLEEKSSLEHHHHH PTVFPAGPLFPTEGRIVQLFEKNTYSVVNIFDVTLRPGNGSGVVWDGQGYIVTNYHVIGNALSRNPSPGDVVGRVNILASDGVQKNFEGKLVGADRAKDLAVLKVDAPETLLKPIKVGQSNSLKVGQQCLAIGNPFGFDHTLTVGVISGLNRDIFSQTGVTIGGGIQTDAAINPGNAGGPLLDSKGNLIGINTAIFTQTGTSAGVGFAIPSSTVLKIVPQLIQFSKVLRAGINIELAPDPVANQLNVRNGALVLQVPGKSLAEKAGLHPTSRGFAGNIVLGDIIVAVDDKPVKNKAELMKILDEYSVGDKVTLKIKRGNEDLELKISLEEKSSLEHHHHH 4icg-a1-m1-cA_4icg-a1-m1-cB N-terminal dimerization domain of H-NS in complex with Hha (Salmonella Typhimurium) P0A1S2 P0A1S2 2.9217 X-RAY DIFFRACTION 86 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 43 43 1ni8-a1-m1-cA_1ni8-a1-m1-cB 2mw2-a1-m1-cB_2mw2-a1-m1-cC 3nr7-a2-m1-cA_3nr7-a2-m1-cB EALKILNNIRTLRAQARECTLETLEELEKLEVVVNERREEESA EALKILNNIRTLRAQARECTLETLEELEKLEVVVNERREEESA 4ics-a1-m1-cA_4ics-a1-m1-cB Crystal structure of PepS from Streptococcus pneumoniae in complex with a substrate A0A0H2UN95 A0A0H2UN95 1.97 X-RAY DIFFRACTION 90 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 413 413 4icq-a1-m1-cA_4icq-a1-m1-cB 4icr-a1-m1-cA_4icr-a1-m1-cB MVLPNFKENLEKYAKLLVANGINVQPGHTLALSIDVEQRELAHLIVKEAYALGAHEVIVQWTDDVINREKFLHAPMERLDNVPEYKIAEMNYLLENKASRLGVRSSDPGALNGVDADKLSASAKAMGLAMKPMRIATQSNKVSWTVAAAAGLEWAKKVFPNAASDEEAVDFLWDQIFKTCRVYEADPVKAWEEHAAILKSKADMLNKEQFSALHYTAPGTDLTLGLPKNHVWESAGAVNAQGEEFLPNMPTEEVFTAPDFRRADGYVTSTKPLSYNGNIIEGIKVTFKDGQIVDITAEKGDQVMKDLVFENAGARALGECALVPDPSPISQSGITFFNTLFDDNASNHLAIGAAYATSVVDGAEMSEEELEAAGLNRSDVHVDFMIGSNQMDIDGIREDGTRVPLFRNGNWAN MVLPNFKENLEKYAKLLVANGINVQPGHTLALSIDVEQRELAHLIVKEAYALGAHEVIVQWTDDVINREKFLHAPMERLDNVPEYKIAEMNYLLENKASRLGVRSSDPGALNGVDADKLSASAKAMGLAMKPMRIATQSNKVSWTVAAAAGLEWAKKVFPNAASDEEAVDFLWDQIFKTCRVYEADPVKAWEEHAAILKSKADMLNKEQFSALHYTAPGTDLTLGLPKNHVWESAGAVNAQGEEFLPNMPTEEVFTAPDFRRADGYVTSTKPLSYNGNIIEGIKVTFKDGQIVDITAEKGDQVMKDLVFENAGARALGECALVPDPSPISQSGITFFNTLFDDNASNHLAIGAAYATSVVDGAEMSEEELEAAGLNRSDVHVDFMIGSNQMDIDGIREDGTRVPLFRNGNWAN 4id2-a1-m1-cA_4id2-a1-m2-cB Crystal structure of a DUF4738 family protein (BACOVA_05496) from Bacteroides ovatus ATCC 8483 at 2.15 A resolution A7M5V0 A7M5V0 2.15 X-RAY DIFFRACTION 44 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 133 133 4id2-a1-m1-cB_4id2-a1-m2-cA GLQRQTSKSETDFKFKGKDYHSLVSRTPDDNLPHVTNELGDTYVDNKIVLHLTRGNETVLNKTFTKNDFSSVVDANFLSKSILEGIVYDKTTPQGIVYAASVCYPQTDLYPLSITITADGKSIQKVDILEEDY GLQRQTSKSETDFKFKGKDYHSLVSRTPDDNLPHVTNELGDTYVDNKIVLHLTRGNETVLNKTFTKNDFSSVVDANFLSKSILEGIVYDKTTPQGIVYAASVCYPQTDLYPLSITITADGKSIQKVDILEEDY 4id2-a1-m1-cB_4id2-a1-m2-cB Crystal structure of a DUF4738 family protein (BACOVA_05496) from Bacteroides ovatus ATCC 8483 at 2.15 A resolution A7M5V0 A7M5V0 2.15 X-RAY DIFFRACTION 37 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 133 133 4id2-a1-m1-cA_4id2-a1-m2-cA GLQRQTSKSETDFKFKGKDYHSLVSRTPDDNLPHVTNELGDTYVDNKIVLHLTRGNETVLNKTFTKNDFSSVVDANFLSKSILEGIVYDKTTPQGIVYAASVCYPQTDLYPLSITITADGKSIQKVDILEEDY GLQRQTSKSETDFKFKGKDYHSLVSRTPDDNLPHVTNELGDTYVDNKIVLHLTRGNETVLNKTFTKNDFSSVVDANFLSKSILEGIVYDKTTPQGIVYAASVCYPQTDLYPLSITITADGKSIQKVDILEEDY 4id2-a1-m2-cA_4id2-a1-m2-cB Crystal structure of a DUF4738 family protein (BACOVA_05496) from Bacteroides ovatus ATCC 8483 at 2.15 A resolution A7M5V0 A7M5V0 2.15 X-RAY DIFFRACTION 51 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 133 133 4id2-a1-m1-cA_4id2-a1-m1-cB GLQRQTSKSETDFKFKGKDYHSLVSRTPDDNLPHVTNELGDTYVDNKIVLHLTRGNETVLNKTFTKNDFSSVVDANFLSKSILEGIVYDKTTPQGIVYAASVCYPQTDLYPLSITITADGKSIQKVDILEEDY GLQRQTSKSETDFKFKGKDYHSLVSRTPDDNLPHVTNELGDTYVDNKIVLHLTRGNETVLNKTFTKNDFSSVVDANFLSKSILEGIVYDKTTPQGIVYAASVCYPQTDLYPLSITITADGKSIQKVDILEEDY 4id7-a1-m1-cA_4id7-a1-m2-cA ACK1 kinase in complex with the inhibitor cis-3-[8-amino-1-(4-phenoxyphenyl)imidazo[1,5-a]pyrazin-3-yl]cyclobutanol Q07912 Q07912 3 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 268 268 LTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHYVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQ LTCLIGEKDLRLLEKLGDGSFGVVRRGEWDAPSGKTVSVAVKCLKPPEAMDDFIREVNAMHSLDHRNLIRLYGVVLTPPMKMVTELAPLGSLLDRLRKHQGHFLLGTLSRYAVQVAEGMGYLESKRFIHRDLAARNLLLATRDLVKIGDFGLMRALPQNDDHYVMQEHRKVPFAWCAPESLKTRTFSHASDTWMFGVTLWEMFTYGQEPWIGLNGSQILHKIDKEGERLPRPEDCPQDIYNVMVQCWAHKPEDRPTFVALRDFLLEAQ 4id9-a1-m1-cA_4id9-a1-m1-cB Crystal structure of a short-chain dehydrogenase/reductase superfamily protein from agrobacterium tumefaciens (TARGET EFI-506441) with bound nad, monoclinic form 1 A9CL58 A9CL58 1.6 X-RAY DIFFRACTION 35 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 321 328 4idg-a1-m1-cA_4idg-a1-m1-cB MILVTGSAGRVGRAVVAALRTQGRTVRGFDLRPSGTGGEEVVGSLEDGQALSDAIMGVSAVLHLGAFMSWAPADRDRMFAVNVEGTRRLLDAASAAGVRRFVFASSGEVYPENRPEFLPVTEDHPLCPNSPYGLTKLLGEELVRFHQRSGAMETVILRFSHTQDATELLDEDSFFSGPRFFLRPRIHQQQNFGNAAIAELLQSRDIGEPSHILARNENGRPFRMHITDTRDMVAGILLALDHPEAAGGTFNLGADEPADFAALLPKIAALTGLPIVTVDFPGDGVYYHTSNERIRNTLGFEAEWTMDRMLEEAATARRQRL HMILVTGSAGRVGRAVVAALRTQGRTVRGFDLRPSGTGGEEVVGSLEDGQALSDAIMGVSAVLHLGAFMSWAPADRDRMFAVNVEGTRRLLDAASAAGVRRFVFASSGEVYPENRPEFLPVTEDHPLCPNSPYGLTKLLGEELVRFHQRSGAMETVILRFSHTQDATELLDEDSFFSGPRFFLRPRIHQQQNFGNAAIAELLQSRDIGEPSHILARNENGRPFRMHITDTRDMVAGILLALDHPEAAGGTFNLGADEPADFAALLPKIAALTGLPIVTVDFPGDGVYYHTSNERIRNTLGFEAEWTMDRMLEEAATARRQRLAKEQRR 4idj-a2-m2-cA_4idj-a2-m6-cA S.Aureus a-hemolysin monomer in complex with Fab P09616 P09616 3.36 X-RAY DIFFRACTION 36 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 276 276 4idj-a2-m1-cA_4idj-a2-m4-cA 4idj-a2-m3-cA_4idj-a2-m5-cA IKTGTTDIGSNTTVKTGDLVTYDKENGMLKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTYGFNGNVTGDDTSIGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN IKTGTTDIGSNTTVKTGDLVTYDKENGMLKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTYGFNGNVTGDDTSIGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN 4idj-a2-m3-cA_4idj-a2-m6-cA S.Aureus a-hemolysin monomer in complex with Fab P09616 P09616 3.36 X-RAY DIFFRACTION 40 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 276 276 4idj-a2-m1-cA_4idj-a2-m5-cA 4idj-a2-m2-cA_4idj-a2-m4-cA IKTGTTDIGSNTTVKTGDLVTYDKENGMLKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTYGFNGNVTGDDTSIGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN IKTGTTDIGSNTTVKTGDLVTYDKENGMLKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTYGFNGNVTGDDTSIGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN 4idj-a2-m6-cL_4idj-a2-m5-cL S.Aureus a-hemolysin monomer in complex with Fab 3.36 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 4idj-a2-m1-cL_4idj-a2-m2-cL 4idj-a2-m3-cL_4idj-a2-m1-cL 4idj-a2-m3-cL_4idj-a2-m2-cL 4idj-a2-m4-cL_4idj-a2-m5-cL 4idj-a2-m6-cL_4idj-a2-m4-cL ETTLTQSPGTLSLSPGERATLSCRASQTISNNFVAWYQQKPGQAPRLLIYGASTRATGIPDRFSGSGSGTDFTLTISSLEPEDFAVYYCQQYGSSPYTFGQGTKVDIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNE ETTLTQSPGTLSLSPGERATLSCRASQTISNNFVAWYQQKPGQAPRLLIYGASTRATGIPDRFSGSGSGTDFTLTISSLEPEDFAVYYCQQYGSSPYTFGQGTKVDIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNE 4idp-a1-m1-cA_4idp-a1-m1-cB human atlastin-1 1-446, N440T, GppNHp Q8WXF7 Q8WXF7 2.587 X-RAY DIFFRACTION 209 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 407 407 3q5d-a2-m1-cA_3q5d-a2-m2-cA 3qnu-a1-m1-cA_3qnu-a1-m2-cA 4idn-a1-m1-cA_4idn-a1-m1-cB 4ido-a1-m1-cA_4ido-a1-m1-cB 4idp-a2-m1-cC_4idp-a2-m1-cD 4idq-a1-m1-cA_4idq-a1-m1-cB 4idq-a2-m1-cC_4idq-a2-m1-cD 6b9f-a1-m1-cA_6b9f-a1-m1-cB 7ol3-a1-m1-cA_7ol3-a1-m1-cB KAGPVQVLIVKDDHSFELDETALNRILLSEAVRDKEVVAVSVAGAFRKGKSFLDFLRYYNQESVDWVGDYNEPLTGFSWRGGSERETTGIQIWSEIFLINKPDGKKVAVLLDTQGTFDSQSTLRDSATVFALSTISSIQVYNLSQNVQEDDLQHLQLFTEYGRLAEETFLKPFQSLIFLVRDWSFPYEFSYGADGGAKFLEKRLKVSGNQHEELQNVRKHIHSCFTNISCFLLPHPGLKVATNPNFDGKLKEIDDEFIKNLKILIPWLLSPESLDIKEINGNKITCRGLVEYFKAYIKIYQGEELPHPKSLQATAEANNLAAVATAKDTYNKKEEICGGDKPFLAPNDLQTKHLQLKEESVKLFRGVKKGGEEFSRRYLQQLESEIDELYIQYIKHNDSKTIFHAAR KAGPVQVLIVKDDHSFELDETALNRILLSEAVRDKEVVAVSVAGAFRKGKSFLDFLRYYNQESVDWVGDYNEPLTGFSWRGGSERETTGIQIWSEIFLINKPDGKKVAVLLDTQGTFDSQSTLRDSATVFALSTISSIQVYNLSQNVQEDDLQHLQLFTEYGRLAEETFLKPFQSLIFLVRDWSFPYEFSYGADGGAKFLEKRLKVSGNQHEELQNVRKHIHSCFTNISCFLLPHPGLKVATNPNFDGKLKEIDDEFIKNLKILIPWLLSPESLDIKEINGNKITCRGLVEYFKAYIKIYQGEELPHPKSLQATAEANNLAAVATAKDTYNKKEEICGGDKPFLAPNDLQTKHLQLKEESVKLFRGVKKGGEEFSRRYLQQLESEIDELYIQYIKHNDSKTIFHAAR 4idt-a1-m1-cA_4idt-a1-m1-cB Crystal Structure of NIK with 11-bromo-5,6,7,8-tetrahydropyrimido[4',5':3,4]cyclohepta[1,2-b]indol-2-amine (T28) Q99558 Q99558 2.4 X-RAY DIFFRACTION 80 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 334 335 4dn5-a3-m1-cB_4dn5-a3-m1-cA VEEYLVHALQGSVSSGQAHSLTSLAKTWAARGSRSREPSPKTEDNEGVLLTEKLKPVDYEYREEVHWATHQLRLGRGSFGEVHRMEDKQTGFQCAVKKVRLEVFRAEELMACAGLTSPRIVPLYGAVREGPWVNIFMELLEGGSLGQLVKEQGCLPEDRALYYLGQALEGLEYLHSRRILHGDVKADNVLLSSDGSHAALCDFGHAVCLQTGDYIPGTETHMAPEVVLGRSCDAKVDVWSSCCMMLHMLNGCHPWTQFFRGPLCLKIASEPPPVREIPPSCAPLTAQAIQEGLRKEPIHRVSAAELGGKVNRALQQVGGLKSPWRGEYKEPRHP EEYLVHALQGSVSSGQAHSLTSLAKTWAARGSRSREPSPKTEDNEGVLLTEKLKPVDYEYREEVHWATHQLRLGRGSFGEVHRMEDKQTGFQCAVKKVRLEVFRAEELMACAGLTSPRIVPLYGAVREGPWVNIFMELLEGGSLGQLVKEQGCLPEDRALYYLGQALEGLEYLHSRRILHGDVKADNVLLSSDGSHAALCDFGHAVCLQTGDYIPGTETHMAPEVVLGRSCDAKVDVWSSCCMMLHMLNGCHPWTQFFRGPLCLKIASEPPPVREIPPSCAPLTAQAIQEGLRKEPIHRVSAAELGGKVNRALQQVGGLKSPWRGEYKEPRHPPP 4idx-a1-m1-cB_4idx-a1-m1-cA hexameric crystal structure of Schmallenberg virus nucleoprotein H2AM13 H2AM13 3.21 X-RAY DIFFRACTION 30 1.0 1133363 (Schmallenberg virus) 1133363 (Schmallenberg virus) 209 218 TFNPEVGYVAFIGKYGQQLNFGVARVFFLNQKKAKMVLHKTAQPSVDLTFGGVKFTVVNNHFPQYVSNPVPDNAITLHRMSGYLARWIADTCKASVLKLAEASAQIVMPLAEVKGCTWADGYTMYLGFAPGAEMFLDAFDFYPLVIEMHRVLKDNMDVNFMKKVLRQRYGTMTAEEWMTQKITEIKAAFNSVGQLAWAKSGFSPAARTF PQRNAATFNPEVGYVAFIGKYGQQLNFGVARVFFLNQKKAKMVLHKTAQPSVDLTFGGVKFTVVNNHFPQYVSNPVPDNAITLHRMSGYLARWIADTCKASVLKLAEASAQIVMPLAEVKGCTWADGYTMYLGFAPGAEMFLDAFDFYPLVIEMHRVLKDNMDVNFMKKVLRQRYGTMTAEEWMTQKITEIKAAFNSVGQLAWAKSGFSPAARTFLQQ 4idx-a1-m1-cB_4idx-a1-m1-cC hexameric crystal structure of Schmallenberg virus nucleoprotein H2AM13 H2AM13 3.21 X-RAY DIFFRACTION 36 1.0 1133363 (Schmallenberg virus) 1133363 (Schmallenberg virus) 209 213 TFNPEVGYVAFIGKYGQQLNFGVARVFFLNQKKAKMVLHKTAQPSVDLTFGGVKFTVVNNHFPQYVSNPVPDNAITLHRMSGYLARWIADTCKASVLKLAEASAQIVMPLAEVKGCTWADGYTMYLGFAPGAEMFLDAFDFYPLVIEMHRVLKDNMDVNFMKKVLRQRYGTMTAEEWMTQKITEIKAAFNSVGQLAWAKSGFSPAARTF ATFNPEVGYVAFIGKYGQQLNFGVARVFFLNQKKAKMVLHKTAQPSVDLTFGGVKFTVVNNHFPQYVSNPVPDNAITLHRMSGYLARWIADTCKASVLKLAEASAQIVMPLAEVKGCTWADGYTMYLGFAPGAEMFLDAFDFYPLVIEMHRVLKDNMDVNFMKKVLRQRYGTMTAEEWMTQKITEIKAAFNSVGQLAWAKSGFSPAARTFLQQ 4iel-a2-m1-cB_4iel-a2-m3-cB Crystal structure of a glutathione s-transferase family protein from burkholderia ambifaria, target efi-507141, with bound glutathione Q0B681 Q0B681 1.6 X-RAY DIFFRACTION 90 1.0 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 206 206 4iel-a1-m1-cA_4iel-a1-m2-cA LHILGKIPSINVRKVLWLCTELNLPFEQEDWGAGFRTTNDPAYLALNPNGLVPVIKDDGFVLWESNTIIRYLANRYGGDALYPAEPQARARVDQWIDWQGSDLNRSWVGAFLGLVRKSPEHQDPAAIAQSIAGWTKHMQVLNAQLEATGAFVAGDHFTLADIPIGLSVNRWFGTPFEHPDFPAAKRYIERLATREGFKQYAGSANP LHILGKIPSINVRKVLWLCTELNLPFEQEDWGAGFRTTNDPAYLALNPNGLVPVIKDDGFVLWESNTIIRYLANRYGGDALYPAEPQARARVDQWIDWQGSDLNRSWVGAFLGLVRKSPEHQDPAAIAQSIAGWTKHMQVLNAQLEATGAFVAGDHFTLADIPIGLSVNRWFGTPFEHPDFPAAKRYIERLATREGFKQYAGSANP 4if2-a2-m1-cA_4if2-a2-m2-cA Structure of the phosphotriesterase from Mycobacterium tuberculosis P9WHN9 P9WHN9 2.27 X-RAY DIFFRACTION 86 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 323 323 PELNTARGPIDTADLGVTLMHEHVFIMTTEIAQNYPEAWGDEDKRVAGAIARLGELKARGVDTIVDLTVIGLGRYIPRIARVAAATELNIVVATGLYTYNDVPFYFHYLGPGAQLDGPEIMTDMFVRDIEHGIADTGIKAGILCATDEPGLTPGVERVLRAVAQAHKRTGAPISTHTHAGLRRGLDQQRIFAEEGVDLSRVVIGHCGDSTDVGYLEELIAAGSYLGMDRFGVDVISPFQDRVNIVARMCERGHADKMVLSHDACCYFDALPEELVPVAMPNWHYLHIHNDVIPALKQHGVTDEQLHTMLVDNPRRIFERQGGY PELNTARGPIDTADLGVTLMHEHVFIMTTEIAQNYPEAWGDEDKRVAGAIARLGELKARGVDTIVDLTVIGLGRYIPRIARVAAATELNIVVATGLYTYNDVPFYFHYLGPGAQLDGPEIMTDMFVRDIEHGIADTGIKAGILCATDEPGLTPGVERVLRAVAQAHKRTGAPISTHTHAGLRRGLDQQRIFAEEGVDLSRVVIGHCGDSTDVGYLEELIAAGSYLGMDRFGVDVISPFQDRVNIVARMCERGHADKMVLSHDACCYFDALPEELVPVAMPNWHYLHIHNDVIPALKQHGVTDEQLHTMLVDNPRRIFERQGGY 4if4-a1-m1-cA_4if4-a1-m1-cB Crystal Structure of the Magnesium and beryllofluoride-activated VraR from Staphylococcus aureus Q7A2Q1 Q7A2Q1 2.35 X-RAY DIFFRACTION 54 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 208 208 TIKVLFVDDHEMVRIGISSYLSTQSDIEVVGEGASGKEAIAKAHELKPDLILMDLLMEDMDGVEATTQIKKDLPQIKVLMLTSFIEDKEVYRALDAGVDSYILKTTSAKDIADAVRKTSRGESVFEPEVLVKMRNRMKKRAELYEMLTEREMEILLLIAKGYSNQEIASASHITIKTVKTHVSNILSKLEVQDRTQAVIYAFQHNLIQ TIKVLFVDDHEMVRIGISSYLSTQSDIEVVGEGASGKEAIAKAHELKPDLILMDLLMEDMDGVEATTQIKKDLPQIKVLMLTSFIEDKEVYRALDAGVDSYILKTTSAKDIADAVRKTSRGESVFEPEVLVKMRNRMKKRAELYEMLTEREMEILLLIAKGYSNQEIASASHITIKTVKTHVSNILSKLEVQDRTQAVIYAFQHNLIQ 4if4-a1-m1-cB_4if4-a1-m1-cD Crystal Structure of the Magnesium and beryllofluoride-activated VraR from Staphylococcus aureus Q7A2Q1 Q7A2Q1 2.35 X-RAY DIFFRACTION 30 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 208 208 4if4-a1-m1-cA_4if4-a1-m1-cC 7ve5-a1-m1-cA_7ve5-a1-m1-cB TIKVLFVDDHEMVRIGISSYLSTQSDIEVVGEGASGKEAIAKAHELKPDLILMDLLMEDMDGVEATTQIKKDLPQIKVLMLTSFIEDKEVYRALDAGVDSYILKTTSAKDIADAVRKTSRGESVFEPEVLVKMRNRMKKRAELYEMLTEREMEILLLIAKGYSNQEIASASHITIKTVKTHVSNILSKLEVQDRTQAVIYAFQHNLIQ TIKVLFVDDHEMVRIGISSYLSTQSDIEVVGEGASGKEAIAKAHELKPDLILMDLLMEDMDGVEATTQIKKDLPQIKVLMLTSFIEDKEVYRALDAGVDSYILKTTSAKDIADAVRKTSRGESVFEPEVLVKMRNRMKKRAELYEMLTEREMEILLLIAKGYSNQEIASASHITIKTVKTHVSNILSKLEVQDRTQAVIYAFQHNLIQ 4if4-a3-m1-cB_4if4-a3-m1-cC Crystal Structure of the Magnesium and beryllofluoride-activated VraR from Staphylococcus aureus Q7A2Q1 Q7A2Q1 2.35 X-RAY DIFFRACTION 53 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 208 208 4if4-a1-m1-cA_4if4-a1-m1-cD 4if4-a1-m1-cB_4if4-a1-m1-cC 4if4-a2-m1-cA_4if4-a2-m1-cD 7ve6-a1-m1-cA_7ve6-a1-m1-cB TIKVLFVDDHEMVRIGISSYLSTQSDIEVVGEGASGKEAIAKAHELKPDLILMDLLMEDMDGVEATTQIKKDLPQIKVLMLTSFIEDKEVYRALDAGVDSYILKTTSAKDIADAVRKTSRGESVFEPEVLVKMRNRMKKRAELYEMLTEREMEILLLIAKGYSNQEIASASHITIKTVKTHVSNILSKLEVQDRTQAVIYAFQHNLIQ TIKVLFVDDHEMVRIGISSYLSTQSDIEVVGEGASGKEAIAKAHELKPDLILMDLLMEDMDGVEATTQIKKDLPQIKVLMLTSFIEDKEVYRALDAGVDSYILKTTSAKDIADAVRKTSRGESVFEPEVLVKMRNRMKKRAELYEMLTEREMEILLLIAKGYSNQEIASASHITIKTVKTHVSNILSKLEVQDRTQAVIYAFQHNLIQ 4ifb-a1-m1-cB_4ifb-a1-m1-cA Crystal structure of SULT 2A1 LLGG mutant with PAPS Q06520 Q06520 2.3 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 274 1ov4-a1-m1-cA_1ov4-a1-m2-cA DDFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRELFPWE SDDFLWFEGIAFPTMGFRSETLRKVRDEFVIRDEDVIILTYPKSGTNWLAEILCLMHSKGDAKWIQSVPIWERSPWVESEIGYTALSETESPRLFSSHLPIQLFPKSFFSSKAKVIYLMRNPRDVLVSGYFFWKNMKFIKKPKSWEEYFEWFCQGTVLYGSWFDHIHGWMPMREEKNFLLLSYEELKQDTGRTIEKICQFLGKTLEPEELNLILKNSSFQSMKENKMSNYKAQLLRKGVSGDWKNHFTVAQAEDFDKLFQEKMADLPRELFPWE 4iff-a2-m1-cD_4iff-a2-m1-cC Structural organization of FtsB, a transmembrane protein of the bacterial divisome P0A6S5 P0A6S5 2.3 X-RAY DIFFRACTION 92 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 81 82 4iff-a1-m1-cA_4iff-a1-m1-cB GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKDYTRVNDDVAAQQATNAKLKARNDQLFAEIDDL GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKDYTRVNDDVAAQQATNAKLKARNDQLFAEIDDLN 4ifl-a2-m1-cX_4ifl-a2-m2-cX Crystal Structures of apo Keap1, Keap1-peptide, and Keap1-compound complexes Q14145 Q14145 1.8 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 285 GRLIYTAGGYFRQSLSYLEAYNPSDGTWLRLADLQVPRSGLAGCVVGGLLYAVGGRNNSPDGNTDSSALDCYNPMTNQWSPCAPMSVPRNRIGVGVIDGHIYAVGGSHGCIHHNSVERYEPERDEWHLVAPMLTRRIGVGVAVLNRLLYAVGGFDGTNRLNSAECYYPERNEWRMITAMNTIRSGAGVCVLHNCIYAAGGYDGQDQLNSVERYDVETETWTFVAPMKHRRSALGITVHQGRIYVLGGYDGHTFLDSVECYDPDTDTWSEVTRMTSGRSGVGVAVT GRLIYTAGGYFRQSLSYLEAYNPSDGTWLRLADLQVPRSGLAGCVVGGLLYAVGGRNNSPDGNTDSSALDCYNPMTNQWSPCAPMSVPRNRIGVGVIDGHIYAVGGSHGCIHHNSVERYEPERDEWHLVAPMLTRRIGVGVAVLNRLLYAVGGFDGTNRLNSAECYYPERNEWRMITAMNTIRSGAGVCVLHNCIYAAGGYDGQDQLNSVERYDVETETWTFVAPMKHRRSALGITVHQGRIYVLGGYDGHTFLDSVECYDPDTDTWSEVTRMTSGRSGVGVAVT 4igq-a1-m1-cB_4igq-a1-m1-cA Histone H3 Lysine 4 Demethylating Rice JMJ703 in complex with methylated H3K4 substrate Q53WJ1 2.35 X-RAY DIFFRACTION 12 1.0 39947 (Oryza sativa Japonica Group) 2 273 TQ AKWNPAGARRPVLDEAPVFYPTEEEFEDTLKYIESIRPMAEPYGICRIVPPSSWKPDKSIWEGSKFSTRVQKVDKLQNRKFGFEPGPEFTLQTFQKYADDFSKQYFVPSVEDIEGEYWRIVEVPTEEIEVIYGADLETGAQSGWNLNNLPRLLVPWVYVGMCFSSFCWHVEDHHLYSLNYMHWGAPKLWYGVPGKDAVNLESAMRKHLPELFEEQPDLLHNLVTQFSPSLLKSEGVHVYRCVQHEGEFVLTFPRAYHAGFNCGFNCAEAVNVA 4igu-a3-m1-cA_4igu-a3-m1-cB Crystal structure of the RGS domain of CG5036 Q8T017 Q8T017 1.9 X-RAY DIFFRACTION 39 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 137 137 SQPTLEEIRSWGKSFDKLMKSTAGRKVFQNFLRSEFSEENILFWLACEDLKKENSPELVEEKARLIYEDYISILSPREVSLDSRVREIVNRNMIEPTTHTFDEAQIQIYTLMHRDSYPRFLNSQKFKTLSRPAAKLN SQPTLEEIRSWGKSFDKLMKSTAGRKVFQNFLRSEFSEENILFWLACEDLKKENSPELVEEKARLIYEDYISILSPREVSLDSRVREIVNRNMIEPTTHTFDEAQIQIYTLMHRDSYPRFLNSQKFKTLSRPAAKLN 4ihe-a3-m1-cA_4ihe-a3-m2-cA Crystal Structure of Uncleaved ThnT T282A Q83XN4 Q83XN4 1.5 X-RAY DIFFRACTION 141 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 358 358 3s3u-a2-m1-cA_3s3u-a2-m2-cA 3s3u-a2-m1-cB_3s3u-a2-m2-cB 3s3u-a3-m1-cA_3s3u-a3-m2-cA 3s3u-a4-m1-cB_3s3u-a4-m2-cB 3tm1-a2-m1-cA_3tm1-a2-m2-cA 3tm1-a2-m1-cB_3tm1-a2-m2-cB 3tm1-a3-m1-cA_3tm1-a3-m2-cA 3tm1-a4-m1-cB_3tm1-a4-m2-cB 3tm2-a2-m1-cA_3tm2-a2-m2-cA 3tm2-a4-m1-cB_3tm2-a4-m2-cB 3tm2-a5-m1-cA_3tm2-a5-m2-cA 3tm2-a5-m1-cB_3tm2-a5-m2-cB 4ihd-a1-m1-cA_4ihd-a1-m2-cA 4ihd-a2-m1-cB_4ihd-a2-m2-cB 4ihd-a3-m1-cA_4ihd-a3-m2-cA 4ihd-a3-m1-cB_4ihd-a3-m2-cB 4ihe-a1-m1-cA_4ihe-a1-m2-cA 4ihe-a2-m1-cB_4ihe-a2-m2-cB 4ihe-a3-m1-cB_4ihe-a3-m2-cB GGVPGPHNGLTDVPGVRVGHAGRTGDGWLTGVTVVLAPPGGAVAAVDVRGGGPGTRETDALDPRNLVQTIDAVVLTGGSAFGLDAAGGVAAWLEEQGRGFPVGADPSQVVPVVPAAALFDLGRGGTWRARPDAALGRAAVEAAAARPEGDPVEQGGVGAGTGAVVGGLKGGIGTASVVLDSGATVAALAAVNAAGSAVDPATGVLYGARTGLPGEFAGYGVPDAIGADTHARARARLAEAAEETARRRAGGAATLNATLAVVATDATLTRAQAQKLAGTAHDGLARAVRPVHLLSDGDTVFALSTGRRPLLHLEAGALNEVLAAGADVLTRAVVHAVLAATGVDTPGGVHPSYRELYA GGVPGPHNGLTDVPGVRVGHAGRTGDGWLTGVTVVLAPPGGAVAAVDVRGGGPGTRETDALDPRNLVQTIDAVVLTGGSAFGLDAAGGVAAWLEEQGRGFPVGADPSQVVPVVPAAALFDLGRGGTWRARPDAALGRAAVEAAAARPEGDPVEQGGVGAGTGAVVGGLKGGIGTASVVLDSGATVAALAAVNAAGSAVDPATGVLYGARTGLPGEFAGYGVPDAIGADTHARARARLAEAAEETARRRAGGAATLNATLAVVATDATLTRAQAQKLAGTAHDGLARAVRPVHLLSDGDTVFALSTGRRPLLHLEAGALNEVLAAGADVLTRAVVHAVLAATGVDTPGGVHPSYRELYA 4ihf-a3-m1-cB_4ihf-a3-m1-cE Chasing Acyl Carrier Protein Through a Catalytic Cycle of Lipid A Production P21645 P21645 2.1 X-RAY DIFFRACTION 11 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 336 336 4ihf-a3-m1-cC_4ihf-a3-m1-cD ASIRLADLAQQLDAELHGDGDIVITGVASMQSAQTGHITFMVNPKYREHLGLCQASAVVMTQDDLPFAKSAALVVKNPYLTYARMAQILDTTPQPAQNIAPSAVIDATAKLGNNVSIGANAVIESGVELGDNVIIGAGCFVGKNSKIGAGSRLWANVTIYHEIQIGQNCLIQSGTVVGADGFGYANDRGNWVKIPQIGRVIIGDRVEIGACTTIDRGALDDTIIGNGVIIDNQCQIAANVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPITEPGVYSSGIPLQPNKVWRKTAALVMNIDDMSKRLKSLERKV SIRLADLAQQLDAELHGDGDIVITGVASMQSAQTGHITFMVNPKYREHLGLCQASAVVMTQDDLPFAKSAALVVKNPYLTYARMAQILDTTPQPAQNIAPSAVIDATAKLGNNVSIGANAVIESGVELGDNVIIGAGCFVGKNSKIGAGSRLWANVTIYHEIQIGQNCLIQSGTVVGADGFGYANDRGNWVKIPQIGRVIIGDRVEIGACTTIDRGALDDTIIGNGVIIDNQCQIAANVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPITEPGVYSSGIPLQPNKVWRKTAALVMNIDDMSKRLKSLERKVN 4ihh-a2-m1-cF_4ihh-a2-m1-cE Chasing Acyl Carrier Protein Through a Catalytic Cycle of Lipid A Production P21645 P21645 2.132 X-RAY DIFFRACTION 218 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 338 340 3eh0-a1-m1-cA_3eh0-a1-m1-cB 3eh0-a1-m1-cA_3eh0-a1-m1-cC 3eh0-a1-m1-cB_3eh0-a1-m1-cC 4ihf-a1-m1-cE_4ihf-a1-m1-cD 4ihf-a1-m1-cE_4ihf-a1-m1-cF 4ihf-a1-m1-cF_4ihf-a1-m1-cD 4ihf-a2-m1-cA_4ihf-a2-m1-cB 4ihf-a2-m1-cA_4ihf-a2-m1-cC 4ihf-a2-m1-cB_4ihf-a2-m1-cC 4ihf-a3-m1-cA_4ihf-a3-m1-cB 4ihf-a3-m1-cA_4ihf-a3-m1-cC 4ihf-a3-m1-cB_4ihf-a3-m1-cC 4ihf-a3-m1-cE_4ihf-a3-m1-cD 4ihf-a3-m1-cE_4ihf-a3-m1-cF 4ihf-a3-m1-cF_4ihf-a3-m1-cD 4ihg-a1-m1-cB_4ihg-a1-m1-cA 4ihg-a1-m1-cC_4ihg-a1-m1-cA 4ihg-a1-m1-cC_4ihg-a1-m1-cB 4ihg-a2-m1-cD_4ihg-a2-m1-cE 4ihg-a2-m1-cD_4ihg-a2-m1-cF 4ihg-a2-m1-cF_4ihg-a2-m1-cE 4ihh-a1-m1-cA_4ihh-a1-m1-cC 4ihh-a1-m1-cB_4ihh-a1-m1-cA 4ihh-a1-m1-cB_4ihh-a1-m1-cC 4ihh-a2-m1-cD_4ihh-a2-m1-cE 4ihh-a2-m1-cD_4ihh-a2-m1-cF 6p83-a1-m1-cA_6p83-a1-m1-cB 6p83-a1-m1-cA_6p83-a1-m1-cC 6p83-a1-m1-cC_6p83-a1-m1-cB 6p84-a1-m1-cA_6p84-a1-m1-cB 6p84-a1-m1-cA_6p84-a1-m1-cC 6p84-a1-m1-cC_6p84-a1-m1-cB 6p85-a1-m1-cA_6p85-a1-m1-cB 6p85-a1-m1-cA_6p85-a1-m1-cC 6p85-a1-m1-cC_6p85-a1-m1-cB 6p86-a1-m1-cA_6p86-a1-m1-cB 6p86-a1-m1-cA_6p86-a1-m1-cC 6p86-a1-m1-cC_6p86-a1-m1-cB 6p87-a1-m1-cA_6p87-a1-m1-cB 6p87-a1-m1-cA_6p87-a1-m1-cC 6p87-a1-m1-cC_6p87-a1-m1-cB 6p88-a1-m1-cA_6p88-a1-m1-cB 6p88-a1-m1-cA_6p88-a1-m1-cC 6p88-a1-m1-cC_6p88-a1-m1-cB 6p89-a1-m1-cA_6p89-a1-m1-cB 6p89-a1-m1-cA_6p89-a1-m1-cC 6p89-a1-m1-cC_6p89-a1-m1-cB 6p8a-a1-m1-cA_6p8a-a1-m1-cB 6p8a-a1-m1-cA_6p8a-a1-m1-cC 6p8a-a1-m1-cC_6p8a-a1-m1-cB 6p8b-a1-m1-cA_6p8b-a1-m1-cB 6p8b-a1-m1-cA_6p8b-a1-m1-cC 6p8b-a1-m1-cC_6p8b-a1-m1-cB HASIRLADLAQQLDAELHGDGDIVITGVASMQSAQTGHITFMVNPKYREHLGLCQASAVVMTQDDLPFAKSAALVVKNPYLTYARMAQILDTTPQPAQNIAPSAVIDATAKLGNNVSIGANAVIESGVELGDNVIIGAGCFVGKNSKIGAGSRLWANVTIYHEIQIGQNCLIQSGTVVGADGFGYANDRGNWVKIPQIGRVIIGDRVEIGACTTIDRGALDDTIIGNGVIIDNQCQIAHNVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPITEPGVYSSGIPLQPNKVWRKTAALVMNIDDMSKRLKSLERKVN HHASIRLADLAQQLDAELHGDGDIVITGVASMQSAQTGHITFMVNPKYREHLGLCQASAVVMTQDDLPFAKSAALVVKNPYLTYARMAQILDTTPQPAQNIAPSAVIDATAKLGNNVSIGANAVIESGVELGDNVIIGAGCFVGKNSKIGAGSRLWANVTIYHEIQIGQNCLIQSGTVVGADGFGYANDRGNWVKIPQIGRVIIGDRVEIGACTTIDRGALDDTIIGNGVIIDNQCQIAHNVVIGDNTAVAGGVIMAGSLKIGRYCMIGGASVINGHMEICDKVTVTGMGMVMRPITEPGVYSSGIPLQPNKVWRKTAALVMNIDDMSKRLKSLERKVNQ 4ihs-a3-m1-cA_4ihs-a3-m1-cC Crystal Structure of BenM_DBD/catB site 1 DNA Complex O68014 O68014 3.1 X-RAY DIFFRACTION 51 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 89 90 MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASGH MELRHLRYFVAVVEEQSFTKAADKLCIAQPPLSRQIQNLEEELGIQLLERGSRPVKTTPEGHFFYQYAIKLLSNVDQMVSMTKRIASGHH 4ihu-a3-m1-cA_4ihu-a3-m5-cB Reduced form of disulfide bond oxdioreductase (DsbG) from Mycobacterium tuberculosis O33272 O33272 1.896 X-RAY DIFFRACTION 41 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 200 207 4ihu-a3-m2-cA_4ihu-a3-m4-cB GPGDAVRVTSSKLVTQPGTSNPKAVVSFYEDFLCPACGIFERGFGPTVSKLVDIGAVAADYTVAILDSASNQHYSSRAAAAAYCVADESIEAFRRFHAALFSKDIQPAELGKDFPDNARLIELAREAGVVGKVPDCINSGKYIEKVDGLAAAVNVHATPTVRVNGTEYEWSTPAALVAKIKEIVGDVPGIDSAAATATSA DKKDGVAGPGDAVRVTSSKLVTQPGTSNPKAVVSFYEDFLCPACGIFERGFGPTVSKLVDIGAVAADYTVAILDSASNQHYSSRAAAAAYCVADESIEAFRRFHAALFSKDIQPAELGKDFPDNARLIELAREAGVVGKVPDCINSGKYIEKVDGLAAAVNVHATPTVRVNGTEYEWSTPAALVAKIKEIVGDVPGIDSAAATATSA 4ihu-a3-m4-cB_4ihu-a3-m5-cB Reduced form of disulfide bond oxdioreductase (DsbG) from Mycobacterium tuberculosis O33272 O33272 1.896 X-RAY DIFFRACTION 36 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 207 207 4ihu-a1-m1-cA_4ihu-a1-m2-cA 4ihu-a2-m1-cB_4ihu-a2-m3-cB 4ihu-a3-m1-cA_4ihu-a3-m2-cA DKKDGVAGPGDAVRVTSSKLVTQPGTSNPKAVVSFYEDFLCPACGIFERGFGPTVSKLVDIGAVAADYTVAILDSASNQHYSSRAAAAAYCVADESIEAFRRFHAALFSKDIQPAELGKDFPDNARLIELAREAGVVGKVPDCINSGKYIEKVDGLAAAVNVHATPTVRVNGTEYEWSTPAALVAKIKEIVGDVPGIDSAAATATSA DKKDGVAGPGDAVRVTSSKLVTQPGTSNPKAVVSFYEDFLCPACGIFERGFGPTVSKLVDIGAVAADYTVAILDSASNQHYSSRAAAAAYCVADESIEAFRRFHAALFSKDIQPAELGKDFPDNARLIELAREAGVVGKVPDCINSGKYIEKVDGLAAAVNVHATPTVRVNGTEYEWSTPAALVAKIKEIVGDVPGIDSAAATATSA 4ihw-a1-m1-cA_4ihw-a1-m1-cB Crystal structure of Fis bound to 27 bp Inosine substituted DNA F28-dI (AAATTTGTTTGAICITTGAGCAAATTT) 2.7 X-RAY DIFFRACTION 132 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 91 98 1eto-a1-m1-cA_1eto-a1-m1-cB 1etq-a1-m1-cB_1etq-a1-m1-cA 1f36-a1-m1-cA_1f36-a1-m1-cB 1fia-a1-m1-cB_1fia-a1-m1-cA 1fip-a1-m1-cA_1fip-a1-m1-cB 3fis-a1-m1-cA_3fis-a1-m1-cB 3iv5-a1-m1-cA_3iv5-a1-m1-cB 3jr9-a1-m1-cA_3jr9-a1-m1-cB 3jra-a1-m1-cA_3jra-a1-m1-cB 3jrb-a1-m1-cA_3jrb-a1-m1-cB 3jrc-a1-m1-cA_3jrc-a1-m1-cB 3jrd-a1-m1-cA_3jrd-a1-m1-cB 3jre-a1-m1-cA_3jre-a1-m1-cB 3jrf-a1-m1-cA_3jrf-a1-m1-cB 3jrg-a1-m1-cA_3jrg-a1-m1-cB 3jrh-a1-m1-cA_3jrh-a1-m1-cB 3jri-a1-m1-cA_3jri-a1-m1-cB 4fis-a1-m1-cA_4fis-a1-m1-cB 4ihv-a1-m1-cA_4ihv-a1-m1-cB 4ihx-a1-m1-cA_4ihx-a1-m1-cB 4ihy-a1-m1-cA_4ihy-a1-m1-cB 5ds9-a1-m1-cA_5ds9-a1-m1-cB 5dtd-a1-m1-cA_5dtd-a1-m1-cB 5e3l-a1-m1-cA_5e3l-a1-m1-cB 5e3m-a1-m1-cA_5e3m-a1-m1-cB 5e3n-a1-m1-cA_5e3n-a1-m1-cB 5e3o-a1-m1-cA_5e3o-a1-m1-cB 6p0s-a1-m1-cB_6p0s-a1-m1-cA 6p0t-a1-m1-cB_6p0t-a1-m1-cA 6p0u-a1-m1-cB_6p0u-a1-m1-cA SDVLTVSTVNSQDQVTQKPLRDSVKQALKNYFAQLNGQDVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN MFEQRVNSDVLTVSTVNSQDQVTQKPLRDSVKQALKNYFAQLNGQDVNDLYELVLAEVEQPLLDMVMQYTRGNQTRAALMMGINRGTLRKKLKKYGMN 4iib-a1-m1-cB_4iib-a1-m1-cA Crystal structure of beta-glucosidase 1 from Aspergillus aculeatus P48825 P48825 1.8 X-RAY DIFFRACTION 103 1.0 5053 (Aspergillus aculeatus) 5053 (Aspergillus aculeatus) 832 834 4iic-a1-m1-cB_4iic-a1-m1-cA 4iid-a1-m1-cB_4iid-a1-m1-cA 4iie-a1-m1-cB_4iie-a1-m1-cA 4iif-a1-m1-cB_4iif-a1-m1-cA 4iig-a1-m1-cB_4iig-a1-m1-cA 4iih-a1-m1-cB_4iih-a1-m1-cA LAFSPPFYPSPWANGQGEWAEAYQRAVAIVSQMTLDEKVNLTTGTGWELEKCVGQTGGVPRLNIGGMCLQDSPLGIRDSDYNSAFPAGVNVAATWDKNLAYLRGQAMGQEFSDKGIDVQLGPAAGPLGRSPDGGRNWEGFSPDPALTGVLFAETIKGIQDAGVVATAKHYILNEQEHFRQVAEAAGYGFNISDTISSNVDDKTIHEMYLWPFADAVRAGVGAIMCSYNQINNSYGCQNSYTLNKLLKAELGFQGFVMSDWGAHHSGVGSALAGLDMSMPGDITFDSATSFWGTNLTIAVLNGTVPQWRVDDMAVRIMAAYYKVGRDRLYQPPNFSSWTRDEYGFKYFYPQEGPYEKVNHFVNVQRNHSEVIRKLGADSTVLLKNNNALPLTGKERKVAILGEDAGSNSYGANGCSDRGCDNGTLAMAWGSGTAEFPYLVTPEQAIQAEVLKHKGSVYAITDNWALSQVETLAKQASVSLVFVNSDAGEGYISVDGNEGDRNNLTLWKNGDNLIKAAANNCNNTIVVIHSVGPVLVDEWYDHPNVTAILWAGLPGQESGNSLADVLYGRVNPGAKSPFTWGKTREAYGDYLVRELNNGNGAPQDDFSEGVFIDYRGFDKRNETPIYEFGHGLSYTTFNYSGLHIQVLNATETGAAPTFGQVGNASDYVYPEGLTRISKFIYPWLNSTDLKASSGDPYYGVDTAEHVPEGATDGSPQPVLPAGGGSGGNPRLYDELIRVSVTVKNTGRVAGDAVPQLYVSLGGPNEPKVVLRKFDRLTLKPSEETVWTTTLTRRDLSNWDVAAQDWVITSYPKKVHVGSSSRQLPLHAALPKVQ LAFSPPFYPSPWANGQGEWAEAYQRAVAIVSQMTLDEKVNLTTGTGWELEKCVGQTGGVPRLNIGGMCLQDSPLGIRDSDYNSAFPAGVNVAATWDKNLAYLRGQAMGQEFSDKGIDVQLGPAAGPLGRSPDGGRNWEGFSPDPALTGVLFAETIKGIQDAGVVATAKHYILNEQEHFRQVAEAAGYGFNISDTISSNVDDKTIHEMYLWPFADAVRAGVGAIMCSYNQINNSYGCQNSYTLNKLLKAELGFQGFVMSDWGAHHSGVGSALAGLDMSMPGDITFDSATSFWGTNLTIAVLNGTVPQWRVDDMAVRIMAAYYKVGRDRLYQPPNFSSWTRDEYGFKYFYPQEGPYEKVNHFVNVQRNHSEVIRKLGADSTVLLKNNNALPLTGKERKVAILGEDAGSNSYGANGCSDRGCDNGTLAMAWGSGTAEFPYLVTPEQAIQAEVLKHKGSVYAITDNWALSQVETLAKQASVSLVFVNSDAGEGYISVDGNEGDRNNLTLWKNGDNLIKAAANNCNNTIVVIHSVGPVLVDEWYDHPNVTAILWAGLPGQESGNSLADVLYGRVNPGAKSPFTWGKTREAYGDYLVRELNNGNGAPQDDFSEGVFIDYRGFDKRNETPIYEFGHGLSYTTFNYSGLHIQVLNAVATETGAAPTFGQVGNASDYVYPEGLTRISKFIYPWLNSTDLKASSGDPYYGVDTAEHVPEGATDGSPQPVLPAGGGSGGNPRLYDELIRVSVTVKNTGRVAGDAVPQLYVSLGGPNEPKVVLRKFDRLTLKPSEETVWTTTLTRRDLSNWDVAAQDWVITSYPKKVHVGSSSRQLPLHAALPKVQ 4iim-a1-m1-cB_4iim-a1-m1-cA Crystal structure of the Second SH3 Domain of ITSN1 bound with a synthetic peptide Q15811 Q15811 1.8 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 57 LLQAQALYPWRAKKDNHLNFNKNDVITVLEQQDMWWFGEVQGQKGWFPKSYVKLI LLQAQALYPWRAKKDNHLNFNKNDVITVLEQQDMWWFGEVQGQKGWFPKSYVKLISA 4iin-a1-m1-cA_4iin-a1-m1-cD Crystal structure of a putative 3-oxoacyl-[acyl-carrier protein]reductase from Helicobacter pylori 26695 complexed with NAD+ O25286 O25286 2.4 X-RAY DIFFRACTION 104 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 236 236 4iin-a1-m1-cB_4iin-a1-m1-cC 4ijk-a1-m1-cB_4ijk-a1-m1-cC 4ijk-a1-m1-cD_4ijk-a1-m1-cA AMQFTGKNVLITGASKGIGAEIAKTLASMGLKVWINYRSNAEVADALKNELEEKGYKAAVIKFDAASESDFIEAIQTIVQSDGGLSYLVNNAGVVRDKLAIKMKTEDFHHVIDNNLTSAFIGCREALKVMSKSRFGSVVNVASIIGERGNMGQTNYSASKGGMIAMSKSFAYEGALRNIRFNSVTPGFIETDYVKNIPLNRLGSAKEVAEAVAFLLSDHSSYITGETLKVNGGLYM AMQFTGKNVLITGASKGIGAEIAKTLASMGLKVWINYRSNAEVADALKNELEEKGYKAAVIKFDAASESDFIEAIQTIVQSDGGLSYLVNNAGVVRDKLAIKMKTEDFHHVIDNNLTSAFIGCREALKVMSKSRFGSVVNVASIIGERGNMGQTNYSASKGGMIAMSKSFAYEGALRNIRFNSVTPGFIETDYVKNIPLNRLGSAKEVAEAVAFLLSDHSSYITGETLKVNGGLYM 4iin-a1-m1-cD_4iin-a1-m1-cC Crystal structure of a putative 3-oxoacyl-[acyl-carrier protein]reductase from Helicobacter pylori 26695 complexed with NAD+ O25286 O25286 2.4 X-RAY DIFFRACTION 143 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 236 238 4iin-a1-m1-cB_4iin-a1-m1-cA 4ijk-a1-m1-cB_4ijk-a1-m1-cA 4ijk-a1-m1-cD_4ijk-a1-m1-cC AMQFTGKNVLITGASKGIGAEIAKTLASMGLKVWINYRSNAEVADALKNELEEKGYKAAVIKFDAASESDFIEAIQTIVQSDGGLSYLVNNAGVVRDKLAIKMKTEDFHHVIDNNLTSAFIGCREALKVMSKSRFGSVVNVASIIGERGNMGQTNYSASKGGMIAMSKSFAYEGALRNIRFNSVTPGFIETDYVKNIPLNRLGSAKEVAEAVAFLLSDHSSYITGETLKVNGGLYM AMQFTGKNVLITGASKGIGAEIAKTLASMGLKVWINYRSNAEVADALKNELEEKGYKAAVIKFDAASESDFIEAIQTIVQSDGGLSYLVNNAGVVRDKLAIKMKTEDFHHVIDNNLTSAFIGCREALKVMSKSRFGSVVNVASIIGERGNMGQTNYSASKGGMIAMSKSFAYEGALRNIRFNSVTPGFIETKADYVKNIPLNRLGSAKEVAEAVAFLLSDHSSYITGETLKVNGGLYM 4iio-a1-m1-cB_4iio-a1-m1-cA Crystal Structure of the Second SH3 Domain of ITSN2 Bound with a Synthetic Peptide Q9NZM3 Q9NZM3 1.7 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 63 ALLKAQALCSWTAKKDNHLNFSKHDIITVLEQQENWWFGEVHGGRGWFPKSYVKIIP GMAQGALLKAQALCSWTAKKDNHLNFSKHDIITVLEQQENWWFGEVHGGRGWFPKSYVKIIPA 4iit-a1-m1-cB_4iit-a1-m2-cB The Phenylacetyl-CoA monooxygenase PaaABC subcomplex with phenylacetyl-CoA A6T8I1 A6T8I1 4.3 X-RAY DIFFRACTION 62 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 63 63 KVYWPLYEVFVRSKQGLSHRHVGSLHAADDQMALENARDAYTRRSEGCSIWVVKASEIVASQP KVYWPLYEVFVRSKQGLSHRHVGSLHAADDQMALENARDAYTRRSEGCSIWVVKASEIVASQP 4iiu-a1-m1-cB_4iiu-a1-m1-cD Crystal structure of a putative 3-oxoacyl-[acyl-carrier protein]reductase from Escherichia coli strain CFT073 complexed with NADP+ at 2.1 A resolution A0A0H2V833 A0A0H2V833 2.1 X-RAY DIFFRACTION 142 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 242 242 4iiu-a1-m1-cC_4iiu-a1-m1-cA 4iiv-a1-m1-cA_4iiv-a1-m1-cC 4iiv-a1-m1-cB_4iiv-a1-m1-cD SRSVLVTGASKGIGRAIARQLAADGFNIGVHYHRDAAGAQETLNAIVANGGNGRLLSFDVANREQCREVLEHEIAQHGAWYGVVSNAGIARDAAFPALSNDDWDAVIHTNLDSFYNVIQPCIMPMIGARQGGRIITLSSVSGVMGNRGQVNYSAAKAGIIGATKALAIELAKRKITVNCIAPGLIDTGMIEMEESALKEAMSMIPMKRMGQAEEVAGLASYLMSDIAGYVTRQVISINGGML SRSVLVTGASKGIGRAIARQLAADGFNIGVHYHRDAAGAQETLNAIVANGGNGRLLSFDVANREQCREVLEHEIAQHGAWYGVVSNAGIARDAAFPALSNDDWDAVIHTNLDSFYNVIQPCIMPMIGARQGGRIITLSSVSGVMGNRGQVNYSAAKAGIIGATKALAIELAKRKITVNCIAPGLIDTGMIEMEESALKEAMSMIPMKRMGQAEEVAGLASYLMSDIAGYVTRQVISINGGML 4iiu-a1-m1-cD_4iiu-a1-m1-cA Crystal structure of a putative 3-oxoacyl-[acyl-carrier protein]reductase from Escherichia coli strain CFT073 complexed with NADP+ at 2.1 A resolution A0A0H2V833 A0A0H2V833 2.1 X-RAY DIFFRACTION 94 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 242 243 4iiu-a1-m1-cC_4iiu-a1-m1-cB 4iiv-a1-m1-cA_4iiv-a1-m1-cD 4iiv-a1-m1-cB_4iiv-a1-m1-cC SRSVLVTGASKGIGRAIARQLAADGFNIGVHYHRDAAGAQETLNAIVANGGNGRLLSFDVANREQCREVLEHEIAQHGAWYGVVSNAGIARDAAFPALSNDDWDAVIHTNLDSFYNVIQPCIMPMIGARQGGRIITLSSVSGVMGNRGQVNYSAAKAGIIGATKALAIELAKRKITVNCIAPGLIDTGMIEMEESALKEAMSMIPMKRMGQAEEVAGLASYLMSDIAGYVTRQVISINGGML MSRSVLVTGASKGIGRAIARQLAADGFNIGVHYHRDAAGAQETLNAIVANGGNGRLLSFDVANREQCREVLEHEIAQHGAWYGVVSNAGIARDAAFPALSNDDWDAVIHTNLDSFYNVIQPCIMPMIGARQGGRIITLSSVSGVMGNRGQVNYSAAKAGIIGATKALAIELAKRKITVNCIAPGLIDTGMIEMEESALKEAMSMIPMKRMGQAEEVAGLASYLMSDIAGYVTRQVISINGGML 4iiy-a1-m1-cA_4iiy-a1-m1-cB Structure of MccF in complex with glutamyl sulfamoyl inosine Q47511 Q47511 1.2 X-RAY DIFFRACTION 129 1.0 562 (Escherichia coli) 562 (Escherichia coli) 335 337 3tla-a1-m1-cA_3tla-a1-m1-cB 3tlb-a1-m1-cA_3tlb-a1-m1-cB 3tlc-a1-m1-cA_3tlc-a1-m1-cB 3tle-a1-m1-cA_3tle-a1-m1-cB 3tlg-a1-m1-cA_3tlg-a1-m1-cB 3tly-a1-m1-cA_3tly-a1-m1-cB 3tlz-a1-m1-cA_3tlz-a1-m1-cB 4iix-a1-m1-cB_4iix-a1-m1-cA PLLAAPLAVGDTIGFFSSSAPATVTAKNRFFRGVEFLQRKGFKLVSGKLTGKTDFYRSGTIKERAQEFNELVYNPDITCIMSTIGGDNSNSLLPFLDYDAIIANPKIIIGYADTTALLAGIYAKTGLITFYGPALIPSFGEHPPLVDITYESFIKILTRKQSGIYTYTLPEKWSDESINWNENKILRPKKLYKNNCAFYGSGKVEGRVIGGNLNTLTGIWGSEWMPEIRNGDILFIEDSRKSIATVERLFSMLKLNRVFDKVSAIILGKHELFDCAGSKRRPYEVLTEVLDGKQIPVLDGFDCSHTHPMLTLPLGVKLAIDFDNKNISITEQYLS PLLAAPLAVGDTIGFFSSSAPATVTAKNRFFRGVEFLQRKGFKLVSGKLTGKTDFYRSGTIKERAQEFNELVYNPDITCIMSTIGGDNSNSLLPFLDYDAIIANPKIIIGYADTTALLAGIYAKTGLITFYGPALIPSFGEHPPLVDITYESFIKILTRKQSGIYTYTLPEKWSDESINWNENKILRPKKLYKNNCAFYGSGKVEGRVIGGNLNTLTGIWGSEWMPEIRNGDILFIEDSRKSIATVERLFSMLKLNRVFDKVSAIILGKHELFDCAGSKRRPYEVLTEVLDGKQIPVLDGFDCSHTHPMLTLPLGVKLAIDFDNKNISITEQYLSTE 4ij5-a1-m1-cA_4ij5-a1-m1-cB Crystal Structure of a Novel-type Phosphoserine Phosphatase from Hydrogenobacter thermophilus TK-6 D3DFG8 D3DFG8 1.5 X-RAY DIFFRACTION 63 1.0 608538 (Hydrogenobacter thermophilus TK-6) 608538 (Hydrogenobacter thermophilus TK-6) 211 211 4ij6-a1-m1-cB_4ij6-a1-m1-cA MVKLILVRHAESEWNPVGRYQGLLDPDLSERGKKQAKLLAQELSREHLDVIYSSPLKRTYLTALEIAEAKNLEVIKEDRIIEIDHGMWSGMLVEEVMEKYPEDFRRWVEEPHKVEFQGGESLASVYNRVKGFLEEVRKRHWNQTVVVVSHTVPMRAMYCALLGVDLSKFWSFGCDNASYSVIHMEERRNVILKLNITCHLGEFYVEAHKAI MVKLILVRHAESEWNPVGRYQGLLDPDLSERGKKQAKLLAQELSREHLDVIYSSPLKRTYLTALEIAEAKNLEVIKEDRIIEIDHGMWSGMLVEEVMEKYPEDFRRWVEEPHKVEFQGGESLASVYNRVKGFLEEVRKRHWNQTVVVVSHTVPMRAMYCALLGVDLSKFWSFGCDNASYSVIHMEERRNVILKLNITCHLGEFYVEAHKAI 4ij8-a1-m1-cB_4ij8-a1-m1-cA Crystal structure of the complex of SETD8 with SAM Q9NQR1 Q9NQR1 2 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 161 RKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKSGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDRSKASIEAHPWLKH RKSKAELQSEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKSGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDRSKASIEAHPWLKH 4ija-a1-m1-cB_4ija-a1-m1-cA Structure of S. aureus methicillin resistance factor MecR2 A0A0H3JS71 A0A0H3JS71 2.1 X-RAY DIFFRACTION 102 0.981 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 361 363 DNEKRVLREIYNHHNISRTQISKNLEINKATISSILNKLKYKSLVNEVILLKVNHLYGYFISLDLTYSSVEVMYNYFDGNVIKHESYDLPDEKVSSILSIIKKHIDIQEKLDTYNGLLGVSVSIHGVVDNEQHVTYLPFHETEGISIAKKIKEITNVPVVVENEANLSALYERNFNHNLSYNNLIALSIHKGIGAGLIINNQLYRGANGEAGEIGKTLVSKVSDNVEIFHKIEDIFSQEALLHNLSNQLNEKMTLSKLIQFYNEKNPVVVEEMEQFINKIAVLIHNLNTQFNPNAIYINCPLFNEMPEILEAIKNQFKQYSRNEIQIKLTSNVKFATLLGGTLAIIQKVLQINDIYLDIKA PMNDNEKRVLREIYNHHNISRTQISKNLEINKATISSILNKLKYKSLVNEVGGGRKPILLKVNHLYGYFISLDLTYSSVEVMYNYFDGNVIKHESYDLPDEKVSSILSIIKKHIDIQEKLDTYNGLLGVSVSIHGVVDNEQHVTYGISIAKKIKEITNVPVVVENEANLSALYERNFNHNLSYNNLIALSIHKGIGAGLIINNQLYRGANGEAGEIGKTLVSKVSDNVEIFHKIEDIFSQEALLHNLSNQLNEKMTLSKLIQFYNEKNPVVVEEMEQFINKIAVLIHNLNTQFNPNAIYINCPLFNEMPEILEAIKNQFKQYSRNEIQIKLTSNVKFATLLGGTLAIIQKVLQINDIYLDIKA 4iji-a2-m1-cC_4iji-a2-m1-cB Crystal structure of a glutathione transferase family member from Psuedomonas fluorescens Pf-5, target EFI-900011, with bound S-(propanoic acid)-glutathione Q4K4R5 Q4K4R5 1.5 X-RAY DIFFRACTION 95 0.995 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 192 201 4ibp-a1-m1-cA_4ibp-a1-m2-cA 4id0-a1-m1-cA_4id0-a1-m1-cB 4iji-a1-m1-cF_4iji-a1-m1-cA 4iji-a4-m1-cE_4iji-a4-m1-cG LTLFHNPASPYVRKVVLLHETGQLNRVALQASQLSPVNPLGKIPALRLDNGQVLYDSRVILDYLDQQHVGNPLIPRDGSARWRRLTLAALADGIDASVLVRYELALRAPEKHWEQWLDGQRDKIRRALAVLEAEAIAELASHFDIAAISVACALGYLDFRHPDLEWRQDHPQLAAWYFEISQRPSLATRPPV SLTLFHNPASPYVRKVVLLHETGQLNRVALQASQLSPVAPDAALNQDNPLGKIPALRLDNGQVLYDSRVILDYLDQQHVGNPLIPRDGSARWRRLTLAALADGIDASVLVRYELALRAPEKHWEQWLDGQRDKIRRALAVLEAEAIAELASHFDIAAISVACALGYLDFRHPDLEWRQDHPQLAAWYFEISQRPSLATRPP 4ijn-a1-m1-cB_4ijn-a1-m1-cA Crystal structure of an acetate kinase from Mycobacterium smegmatis bound to AMP and sulfate A0QQK1 A0QQK1 1.7 X-RAY DIFFRACTION 267 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 375 376 VTVLVVNSGSSSLKYAVVRPASGEFLADGIIEEIGSGAVPDHDAALRAAFDELAAAGLHLEDLDLKAVGHRMVHGGKTFYKPSVVDDELIAKARELSPLAPLHNPPAIKGIEVARKLLPDLPHIAVFDTAFFHDLPAPASTYAIDRELAETWHIKRYGFHGTSHEYVSQQAAIFLDRPLESLNQIVLHLGNGASASAVAGGKAVDTSMGLTPMEGLVMGTRSGDIDPGVIMYLWRTAGMSVDDIESMLNRRSGVLGLGGASDFRKLRELIESGDEHAKLAYDVYIHRLRKYIGAYMAVLGRTDVISFTAGVGENVPPVRRDALAGLGGLGIEIDDALNSAKSDEPRLISTPDSRVTVLVVPTNEELAIARACVGV MVTVLVVNSGSSSLKYAVVRPASGEFLADGIIEEIGSGAVPDHDAALRAAFDELAAAGLHLEDLDLKAVGHRMVHGGKTFYKPSVVDDELIAKARELSPLAPLHNPPAIKGIEVARKLLPDLPHIAVFDTAFFHDLPAPASTYAIDRELAETWHIKRYGFHGTSHEYVSQQAAIFLDRPLESLNQIVLHLGNGASASAVAGGKAVDTSMGLTPMEGLVMGTRSGDIDPGVIMYLWRTAGMSVDDIESMLNRRSGVLGLGGASDFRKLRELIESGDEHAKLAYDVYIHRLRKYIGAYMAVLGRTDVISFTAGVGENVPPVRRDALAGLGGLGIEIDDALNSAKSDEPRLISTPDSRVTVLVVPTNEELAIARACVGV 4ijr-a1-m1-cA_4ijr-a1-m1-cC Crystal structure of Saccharomyces cerevisiae arabinose dehydrogenase Ara1 complexed with NADPH P38115 P38115 2 X-RAY DIFFRACTION 56 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 328 328 4ijc-a1-m1-cA_4ijc-a1-m1-cB MLHPKTTEIYFSLNNGVRIPALGLGTANPHEKLAETKQAVKAAIKAGYRHIDTAWAYETEPFVGEAIKELLEDGSIKREDLFITTKVWPVLWDEVDRSLNESLKALGLEYVDLLLQHWPLCFEKIKDPKGISGLVKTPVDDSGKTMYAADGDYLETYKQLEKIYLDPNDHRVRAIGVSNFSIEYLERLIKECRVKPTVNQVETHPHLPQMELRKFCFMHDILLTAYSPLGSHGAPNLKIPLVKKLAEKYNVTGNDLLISYHIRQGTIVIPRSLNPVRISSSIEFASLTKDELQELNDFGEKYPVRFIDEPFAAILPEFTGNGPNLDNL MLHPKTTEIYFSLNNGVRIPALGLGTANPHEKLAETKQAVKAAIKAGYRHIDTAWAYETEPFVGEAIKELLEDGSIKREDLFITTKVWPVLWDEVDRSLNESLKALGLEYVDLLLQHWPLCFEKIKDPKGISGLVKTPVDDSGKTMYAADGDYLETYKQLEKIYLDPNDHRVRAIGVSNFSIEYLERLIKECRVKPTVNQVETHPHLPQMELRKFCFMHDILLTAYSPLGSHGAPNLKIPLVKKLAEKYNVTGNDLLISYHIRQGTIVIPRSLNPVRISSSIEFASLTKDELQELNDFGEKYPVRFIDEPFAAILPEFTGNGPNLDNL 4ijx-a3-m2-cB_4ijx-a3-m1-cA Crystal structure of human Ap4A hydrolase E58A mutant complexed with DPO P50583 P50583 2.1 X-RAY DIFFRACTION 27 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 143 147 LRACGLIIFRRCLIPKNAIEFLLLQASDGIHHWTPPKGHVEPGEDDLETALRATQEEAGIEAGQLTIIEGFKRELNYVARNKPKTVIYWLAEVKDYDVEIRLSHEHQAYRWLGLEEACQLAQFKEMKAALQEGHQFLCSIEAL RACGLIIFRRCLIPKVDNNAIEFLLLQASDGIHHWTPPKGHVEPGEDDLETALRATQEEAGIEAGQLTIIEGFKRELNYVARNKPKTVIYWLAEVKDYDVEIRLSHEHQAYRWLGLEEACQLAQFKEMKAALQEGHQFLCSIEALEH 4ijy-a1-m1-cA_4ijy-a1-m2-cA Crystal Structure of the ETEC Secreted Protein CofJ Q93I65 Q93I65 2.6 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 302 302 DIRGCPTLETPLKLTFTEDIQPRKENYFYYDGWRGVGQTVNPWSPVLDNHKYAATEHEIHIYVEFFQTPSNRFADKNGAYSYIDANGVMYTNGEYSWEHVPALGKNIYKVVISDWNKGQTKSIYLPGRDFKTVEVFHFQNNRPQWDDRNSYENVKSRINNNISKSYSKAKLNEQLSTYVHDDGTDSLFLYQKLSRASLKESQINYYQLRGKFNGVNLGYWAQEYILFGGEGAEQLKNKIPDMSNYSMEDNGSFKNALKIESLDLRLMDNNRMAYGSTGTYIASFNRTDFSMTPENLKACGLD DIRGCPTLETPLKLTFTEDIQPRKENYFYYDGWRGVGQTVNPWSPVLDNHKYAATEHEIHIYVEFFQTPSNRFADKNGAYSYIDANGVMYTNGEYSWEHVPALGKNIYKVVISDWNKGQTKSIYLPGRDFKTVEVFHFQNNRPQWDDRNSYENVKSRINNNISKSYSKAKLNEQLSTYVHDDGTDSLFLYQKLSRASLKESQINYYQLRGKFNGVNLGYWAQEYILFGGEGAEQLKNKIPDMSNYSMEDNGSFKNALKIESLDLRLMDNNRMAYGSTGTYIASFNRTDFSMTPENLKACGLD 4ijz-a1-m1-cA_4ijz-a1-m1-cB Crystal structure of diaminopimelate epimerase from Escherichia coli P0A6K1 P0A6K1 2 X-RAY DIFFRACTION 60 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 274 275 4ik0-a1-m1-cA_4ik0-a1-m1-cB 6d13-a1-m1-cA_6d13-a1-m2-cA MQFSKMHGLGNDFMVVDAVTQNVFFSPELIRRLADRHLGVGFDQLLVVEPPYDPELDFHYRIFNADGSEVAQCGNGARCFARFVRLKGLTNKRDIRVSTANGRMVLTVTDDDLVRVNMGEPNFEPSAVPFRANKAEKTYIMRAAEQTILCGVVSMGNPHCVIQVDDVDTAAVETLGPVLESHERFPERANIGFMQVVKREHIRLRVYERGAGETQACGSGACAAVAVGIQQGLLAEEVRVELPGGRLDIAWKGPGHPLYMTGPAVHVYDGFIHL MQFSKMHGLGNDFMVVDAVTQNVFFSPELIRRLADRHLGVGFDQLLVVEPPYDPELDFHYRIFNADGSEVAQCGNGARCFARFVRLKGLTNKRDIRVSTANGRMVLTVTDDDLVRVNMGEPNFEPSAVPFRANKAEKTYIMRAAEQTILCGVVSMGNPHCVIQVDDVDTAAVETLGPVLESHERFPERANIGFMQVVKREHIRLRVYERGAGETQACGSGACAAVAVGIQQGLLAEEVRVELPGGRLDIAWKGPGHPLYMTGPAVHVYDGFIHLH 4ik3-a1-m1-cA_4ik3-a1-m2-cA High resolution structure of GCaMP3 at pH 8.5 K4DIE3 K4DIE3 2.007 X-RAY DIFFRACTION 209 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 393 393 3ek7-a1-m1-cA_3ek7-a1-m2-cA 3evu-a1-m1-cA_3evu-a1-m2-cA 3o78-a3-m1-cB_3o78-a3-m1-cA 3sg5-a1-m1-cA_3sg5-a1-m2-cA 3wlc-a1-m1-cA_3wlc-a1-m2-cA 4ik4-a1-m1-cA_4ik4-a1-m2-cA 4ik8-a1-m1-cA_4ik8-a1-m2-cA 4ik9-a1-m1-cA_4ik9-a1-m2-cA SSRRKWNKTGHAVRAIGRLSSLENVYIKADKQKNGIKANFKIRHNIEDGGVQLAYHYQQNTPIGDGPVLLPDNHYLSVQSKLSKDPNEKRDHMVLLEFVTAAGITLSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKQHDFFKSAMPEGYIQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNTRDQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGDGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT SSRRKWNKTGHAVRAIGRLSSLENVYIKADKQKNGIKANFKIRHNIEDGGVQLAYHYQQNTPIGDGPVLLPDNHYLSVQSKLSKDPNEKRDHMVLLEFVTAAGITLSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKQHDFFKSAMPEGYIQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNTRDQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGDGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMT 4ikb-a1-m1-cB_4ikb-a1-m1-cA Crystal structure of SNX11 PX domain Q9Y5W9 Q9Y5W9 1.78 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 127 EVITVRVQDPRVQNEGSWNSYVDYKIFLHTNSKAFTAKTSVRRRYREFVWLRKQLQRNAGLVPVPELPGKSTFFGTSDEFIEKRRQGLQHFLEKVLQSVVLLSDSQLHLFLQSQLSVPEIEAVQG EVITVRVQDPRVQNEGSWNSYVDYKIFLHTNSKAFTAKTSVRRRYREFVWLRKQLQRNAGLVPVPELPGKSTFFGTSDEFIEKRRQGLQHFLEKVLQSVVLLSDSQLHLFLQSQLSVPEIEAVQGRL 4ikc-a2-m1-cA_4ikc-a2-m2-cA Crystal Structure of catalytic domain of PTPRQ Q9UMZ3 Q9UMZ3 1.56 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 HMPISKKSFLQHVEELCTNNNLKFQEEFSELPKFLQDLSSTDADLPWNRAKNRFPNIKPYNNNRVKLIADASVPGSDYINASYISGYLCPNEFIATQGPLPGTVGDFWRMVWETRAKTLVMLTQCCHQYWPEDNKPVTVFGDIVITKLMEDVQIDWTIRDLKIERHGDCMTVRQCNFTAWPEHGVPENSAPLIHFVKLVRASRAHDTTPMIVHSSAGVGRTGVFIALDHLTQHINDHDFVDIYGLVAELRSERMCMVQNLAQYIFLHQCILDLL HMPISKKSFLQHVEELCTNNNLKFQEEFSELPKFLQDLSSTDADLPWNRAKNRFPNIKPYNNNRVKLIADASVPGSDYINASYISGYLCPNEFIATQGPLPGTVGDFWRMVWETRAKTLVMLTQCCHQYWPEDNKPVTVFGDIVITKLMEDVQIDWTIRDLKIERHGDCMTVRQCNFTAWPEHGVPENSAPLIHFVKLVRASRAHDTTPMIVHSSAGVGRTGVFIALDHLTQHINDHDFVDIYGLVAELRSERMCMVQNLAQYIFLHQCILDLL 4ikh-a1-m1-cA_4ikh-a1-m2-cA Crystal structure of a glutathione transferase family member from Pseudomonas fluorescens pf-5, target efi-900003, with two glutathione bound Q4KED9 Q4KED9 2.1 X-RAY DIFFRACTION 95 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 221 221 SAFAVTQKWPAQFPEWIQLYSLPTPNGVKVSILEEIGLPYEAHRVSFETQDQTPEFLSVSPNNKIPAILDPHGPGDQPLALFESGAILIYLADKSGQLLAQESAARYETIQWLFQGGIGPFGQVGFFNKFAGREYEDKRPLERYVNEAKRLLGVLDKHLGGREWIGERYTIADIATFPWIRNLIGFYEAGELVGIDNFPEVKRVLAKFVARPAVIRGLEIP SAFAVTQKWPAQFPEWIQLYSLPTPNGVKVSILEEIGLPYEAHRVSFETQDQTPEFLSVSPNNKIPAILDPHGPGDQPLALFESGAILIYLADKSGQLLAQESAARYETIQWLFQGGIGPFGQVGFFNKFAGREYEDKRPLERYVNEAKRLLGVLDKHLGGREWIGERYTIADIATFPWIRNLIGFYEAGELVGIDNFPEVKRVLAKFVARPAVIRGLEIP 4ild-a1-m1-cA_4ild-a1-m1-cB Crystal structure of truncated Bovine viral diarrhea virus 1 E2 envelope protein P19711 P19711 3.27 X-RAY DIFFRACTION 25 1.0 11100 (Bovine viral diarrhea virus 1-NADL) 11100 (Bovine viral diarrhea virus 1-NADL) 235 237 4jnt-a1-m1-cA_4jnt-a1-m1-cB DVVEMDDNFEFGLCPCDAKPIVRGKFNTTLLNGPAFQMVCPIGWTGTVSCTSFNMDTLATTVVRTYRRSKPFPHRQGCITQKNLGEDLHNCILGGNWTCVPGDQLLYKGGSIESCKWCGYQFKESEGLPHYPIGKCKLENETGYRLVDSTSCNREGVAIVPQGTLKCKIGKTTVQVIAMDTKLGPMPCRPYEIISSTACTFNYTKTLKNKYFEPRDSYFQQYMLKGEYQYWFDLE DVVEMDDNFEFGLCPCDAKPIVRGKFNTTLLNGPAFQMVCPIGWTGTVSCTSFNMDTLATTVVRTYRRSKPFPHRQGCITQKNLGEDLHNCILGGNWTCVPGDQLLYKGGSIESCKWCGYQFKESEGLPHYPIGKCKLENETGYRLVDSTSCNREGVAIVPQGTLKCKIGKTTVQVIAMDTKLGPMPCRPYEIISSEKTACTFNYTKTLKNKYFEPRDSYFQQYMLKGEYQYWFDLE 4ilk-a1-m1-cA_4ilk-a1-m1-cB Crystal structure of short chain alcohol dehydrogenase (rspB) from E. coli CFT073 (EFI TARGET EFI-506413) complexed with cofactor NADH A0A0H2V9Q5 A0A0H2V9Q5 2.003 X-RAY DIFFRACTION 136 0.997 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 337 337 GSHMKSILIEKPNQLSIIEREIPTPSAGEVRVKVKLAGICGSDSHIYRGHNPYPRVIGHEFFGVIDAVGEGVESARVGERVAVDPVVSCGHCYPCSIGKPNVCTTLAVLGVHADGGFSEYAVVPAKNAWKIPEAVADQYAVMIEPFTIAANVTGHGQPTENDTVLVYGAGPIGLTIVQVLKGVYNVKNVIVADRIDERLEKAKESGADWAINNSQTPLGESFAEKGIKPTLIIDAACHPSILKEAVTLASPAARIVLMGFSSEPSEVIQQGITGKELSIFSSRLNANKFPVVIDWLSKGLIKPEKLITHTFDFQHVADAISLFELDQKHCCKVLLTF GSHMKSILIEKPNQLSIIEREIPTPSAGEVRVKVKLAGICGSDSHIYRGHNKYPRVIGHEFFGVIDAVGEGVESARVGERVAVDPVVSCGHCYPCSIGKPNVCTTLAVLGVHADGGFSEYAVVPAKNAWKIPEAVADQYAVMIEPFTIAANVTGHGQPTENDTVLVYGAGPIGLTIVQVLKGVYNVKNVIVADRIDERLEKAKESGADWAINNSQTPLGESFAEKGIKPTLIIDAACHPSILKEAVTLASPAARIVLMGFSSEPSEVIQQGITGKELSIFSSRLNANKFPVVIDWLSKGLIKPEKLITHTFDFQHVADAISLFELDQKHCCKVLLTF 4ilm-a4-m3-cN_4ilm-a4-m1-cL CRISPR RNA Processing endoribonuclease Q97WV8 Q97WV8 3.068 X-RAY DIFFRACTION 98 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 274 278 4ill-a1-m1-cA_4ill-a1-m1-cB 4ilm-a1-m1-cA_4ilm-a1-m1-cB 4ilm-a2-m1-cD_4ilm-a2-m2-cH 4ilm-a3-m1-cF_4ilm-a3-m1-cJ 4ilr-a1-m1-cA_4ilr-a1-m2-cA MPLIFKIGYNVIPLQDVILPTPSSKVLKYLIQSGKLIPSLKDLITSRDKYKPIFISHLGFNQRRIFQKTITKGSRLSSIIAFSTQANVLSEVADEGIFETVYGKFHIMIESIEIVEVEKLKEEVEKHMNDNIRVRFVSPTLLSSKVLLPPSLSERYKKIHAGYSTLPSVGLIVAYAYNVYCNLIGKKEVEVRAFKFGILSNALSRIIGYDLHPVTVAIGELRKARGVMGWIEFDIPDERLKRRALNYLLTSSYLGIGRSRGIGFGEIRLEFRKI MPLIFKIGYNVIPLQDVILPTPSSKVLKYLIQSGKLIPSLKDLITSRDKYKPIFISHLGFNQRRIFQTNKTITKGSRLSSIIAFSTQANVLSEVADEGIFETVYGKFHIMIESIEIVEVEKLKEEVEKHMNDNIRVRFVSPTLLSSKVLLPPSLSERYKKIHAGYSTLPSVGLIVAYAYNVYCNLIGKKEVEVRAFKFGILSNALSRIIGYDLHPVTVAIGELRKARGVMGWIEFDIPDERLKRRALNYLLTSSYLGIGRSRGIGFGEIRLEFRKIEE 4ilo-a3-m1-cA_4ilo-a3-m2-cB 2.12A resolution structure of CT398 from Chlamydia trachomatis A0A0H3MH91 A0A0H3MH91 2.12 X-RAY DIFFRACTION 63 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 236 236 4ilo-a3-m1-cB_4ilo-a3-m2-cA SNAMHDALQSILAIQELDIKMIRLMRVKKEHQNELAKIQALKTDIRRKVEEKEQEMEKLKDQIKGGEKRIQEISDQINKLENQQAAVKKMDEFNALTQEMTAANKERRTLEHQLSDLMDKQAGSEDLLISLKESLSSTENSSSAIEEEIRENIRKINEEGRSLLSQRTQLKETTDPELFSVYERLLNNKKDRVVVPIENRVCSGCHIALTPQHENLVRKQDHLVFCEHCSRILYWQ SNAMHDALQSILAIQELDIKMIRLMRVKKEHQNELAKIQALKTDIRRKVEEKEQEMEKLKDQIKGGEKRIQEISDQINKLENQQAAVKKMDEFNALTQEMTAANKERRTLEHQLSDLMDKQAGSEDLLISLKESLSSTENSSSAIEEEIRENIRKINEEGRSLLSQRTQLKETTDPELFSVYERLLNNKKDRVVVPIENRVCSGCHIALTPQHENLVRKQDHLVFCEHCSRILYWQ 4ilo-a3-m2-cA_4ilo-a3-m2-cB 2.12A resolution structure of CT398 from Chlamydia trachomatis A0A0H3MH91 A0A0H3MH91 2.12 X-RAY DIFFRACTION 37 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 236 236 4ilo-a3-m1-cA_4ilo-a3-m1-cB SNAMHDALQSILAIQELDIKMIRLMRVKKEHQNELAKIQALKTDIRRKVEEKEQEMEKLKDQIKGGEKRIQEISDQINKLENQQAAVKKMDEFNALTQEMTAANKERRTLEHQLSDLMDKQAGSEDLLISLKESLSSTENSSSAIEEEIRENIRKINEEGRSLLSQRTQLKETTDPELFSVYERLLNNKKDRVVVPIENRVCSGCHIALTPQHENLVRKQDHLVFCEHCSRILYWQ SNAMHDALQSILAIQELDIKMIRLMRVKKEHQNELAKIQALKTDIRRKVEEKEQEMEKLKDQIKGGEKRIQEISDQINKLENQQAAVKKMDEFNALTQEMTAANKERRTLEHQLSDLMDKQAGSEDLLISLKESLSSTENSSSAIEEEIRENIRKINEEGRSLLSQRTQLKETTDPELFSVYERLLNNKKDRVVVPIENRVCSGCHIALTPQHENLVRKQDHLVFCEHCSRILYWQ 4ilu-a1-m1-cA_4ilu-a1-m2-cA Crystal structure of Mycobacterium tuberculosis CarD P9WJG3 P9WJG3 2.3 X-RAY DIFFRACTION 214 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 165 165 4mfr-a1-m1-cA_4mfr-a1-m2-cA IFKVGDTVVYPHHGAALVEAIETRTIKGEQKEYLVLKVAQGDLTVRVPAENAEYVGVRDVVGQEGLDKVFQVLRAPHTEEPTNWSRRYKANLEKLASGDVNKVAEVVRDLWRRDQERGLSAGEKRMLAKARQILVGELALADAKAETILDEVLAAAALEHHHHHH IFKVGDTVVYPHHGAALVEAIETRTIKGEQKEYLVLKVAQGDLTVRVPAENAEYVGVRDVVGQEGLDKVFQVLRAPHTEEPTNWSRRYKANLEKLASGDVNKVAEVVRDLWRRDQERGLSAGEKRMLAKARQILVGELALADAKAETILDEVLAAAALEHHHHHH 4im6-a2-m1-cA_4im6-a2-m2-cA LRR domain from human NLRP1 Q9C000 Q9C000 1.65 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 VTDAYWQILFSVLKVTRNLKELDLSGNSLSHSAVKSLCKTLRRPRCLLETLRLAGCGLTAEDCKDLAFGLRANQTLTELDLSFNVLTDAGAKHLCQRLRQPSKLQRLQLVSCGLTSDCCQDLASVLSASPSLKELDLQQNNLDDVGVRLLCEGLRHPACKLIRLGLDQTTLSDEMRQELRALEQEKPQLLIFSRRKP VTDAYWQILFSVLKVTRNLKELDLSGNSLSHSAVKSLCKTLRRPRCLLETLRLAGCGLTAEDCKDLAFGLRANQTLTELDLSFNVLTDAGAKHLCQRLRQPSKLQRLQLVSCGLTSDCCQDLASVLSASPSLKELDLQQNNLDDVGVRLLCEGLRHPACKLIRLGLDQTTLSDEMRQELRALEQEKPQLLIFSRRKP 4imp-a2-m1-cD_4imp-a2-m1-cC The missing linker: a dimerization motif located within polyketide synthase modules Q9ALM4 Q9ALM4 2.57 X-RAY DIFFRACTION 61 1.0 60894 (Saccharopolyspora spinosa) 60894 (Saccharopolyspora spinosa) 515 519 4imp-a1-m1-cB_4imp-a1-m1-cA AAGWFWQAVARQDLKSVSDALDLDADAPLSATLPALSVWHRQERERVLADGWRYRVDWVRVAPQRRTRETWLLVVPPGGIEEALVERLTDALNTRGISTLRLDVPPAATSGELATELRAAADGDPVKAILSLTALDERPHPECKDVPSGIALLLNLVKALGEADLRIPLWTITRGAVKAGPADRLLRPMQAQAWGLGRVAALEHPERWGGLIDLPDSLDGDVLTRLGEALTNGLAEDQLAIRQSGVLARRLVPAPANQPAGRKWRPRGSALITGGLGAVGAQVARWLAEIGAERIVLTSRRGNQAAGAAELEAELRALGAQVSIVACDVTDRAEMSALLAEFDVTAVFHAAGVGRLLPLAETDQNGLAEICAAKVRGAQVLDELCDSTDLDAFVLFSSGAGVWGGGGQGAYGAANAFLDTLAEQRRARGLPATSISWGSWAGGGMADGAAGEHLRRRGIRPMPAASAILALQEVLDQDETCVSIADVDWDRFVPTFAATRATRLFDEVPAARKAM DPAAGWFWQAVARQDLKSVSDALDLDADAPLSATLPALSVWHRQERERVLADGWRYRVDWVRVAPQPVRRTRETWLLVVPPGGIEEALVERLTDALNTRGISTLRLDVPPAATSGELATELRAAADGDPVKAILSLTALDERPHPECKDVPSGIALLLNLVKALGEADLRIPLWTITRGAVKAGPADRLLRPMQAQAWGLGRVAALEHPERWGGLIDLPDSLDGDVLTRLGEALTNGLAEDQLAIRQSGVLARRLVPAPANQPAGRKWRPRGSALITGGLGAVGAQVARWLAEIGAERIVLTSRRGNQAAGAAELEAELRALGAQVSIVACDVTDRAEMSALLAEFDVTAVFHAAGVGRLLPLAETDQNGLAEICAAKVRGAQVLDELCDSTDLDAFVLFSSGAGVWGGGGQGAYGAANAFLDTLAEQRRARGLPATSISWGSWAGGGMADGAAGEHLRRRGIRPMPAASAILALQEVLDQDETCVSIADVDWDRFVPTFAATRATRLFDEVPAARKAM 4imq-a1-m1-cA_4imq-a1-m2-cA Structural Basis of Substrate Specificity and Protease Inhibition in Norwalk Virus Q83883 Q83883 1.5 X-RAY DIFFRACTION 104 1.0 524364 (Norovirus Hu/1968/US) 524364 (Norovirus Hu/1968/US) 173 173 2fyr-a1-m1-cA_2fyr-a1-m2-cA 4in1-a1-m1-cA_4in1-a1-m2-cA 4in2-a2-m2-cB_4in2-a2-m1-cA 4xbb-a2-m1-cA_4xbb-a2-m2-cA GSAPPTLWSRVTKFGSGWGFWVSPTVFITTTHVVPTGVKEFFGEPLSSIAIHQAGEFTQFRFSKKMRPDLTGMVLEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLGTIPGDCGAPYVHKRGNDWVVCGVHAAATKSGNTVVCAVQAGEGETALE GSAPPTLWSRVTKFGSGWGFWVSPTVFITTTHVVPTGVKEFFGEPLSSIAIHQAGEFTQFRFSKKMRPDLTGMVLEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLGTIPGDCGAPYVHKRGNDWVVCGVHAAATKSGNTVVCAVQAGEGETALE 4imr-a1-m2-cB_4imr-a1-m1-cA Crystal structure of 3-oxoacyl (acyl-carrier-protein) reductase (target EFI-506442) from agrobacterium tumefaciens C58 with NADP bound A9CL57 A9CL57 1.96 X-RAY DIFFRACTION 103 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 253 258 4imr-a1-m1-cB_4imr-a1-m2-cA MRLETIFGLRGRTALVTGSSRGIGAAIAEGLAGAGAHVILHGVKPGSTAAVQQRIIASGGTAQELAGDLSEAGAGTDLIERAEAIAPVDILVINASAQINATLSALTPNDLAFQLAVNLGSTVDMLQSALPKMVARKWGRVVSIGSINQLRPKSVVTAYAATKAAQHNLIQSQARDFAGDNVLLNTLAPGLVDTDRNADRRAQDPEGWDEYVRTLNWMGRAGRPEEMVGAALFLASEACSFMTGETIFLTGGY LYFQSMRLETIFGLRGRTALVTGSSRGIGAAIAEGLAGAGAHVILHGVKPGSTAAVQQRIIASGGTAQELAGDLSEAGAGTDLIERAEAIAPVDILVINASAQINATLSALTPNDLAFQLAVNLGSTVDMLQSALPKMVARKWGRVVSIGSINQLRPKSVVTAYAATKAAQHNLIQSQARDFAGDNVLLNTLAPGLVDTDRNADRRAQDPEGWDEYVRTLNWMGRAGRPEEMVGAALFLASEACSFMTGETIFLTGGY 4imr-a1-m2-cB_4imr-a1-m2-cA Crystal structure of 3-oxoacyl (acyl-carrier-protein) reductase (target EFI-506442) from agrobacterium tumefaciens C58 with NADP bound A9CL57 A9CL57 1.96 X-RAY DIFFRACTION 147 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 253 258 4imr-a1-m1-cB_4imr-a1-m1-cA MRLETIFGLRGRTALVTGSSRGIGAAIAEGLAGAGAHVILHGVKPGSTAAVQQRIIASGGTAQELAGDLSEAGAGTDLIERAEAIAPVDILVINASAQINATLSALTPNDLAFQLAVNLGSTVDMLQSALPKMVARKWGRVVSIGSINQLRPKSVVTAYAATKAAQHNLIQSQARDFAGDNVLLNTLAPGLVDTDRNADRRAQDPEGWDEYVRTLNWMGRAGRPEEMVGAALFLASEACSFMTGETIFLTGGY LYFQSMRLETIFGLRGRTALVTGSSRGIGAAIAEGLAGAGAHVILHGVKPGSTAAVQQRIIASGGTAQELAGDLSEAGAGTDLIERAEAIAPVDILVINASAQINATLSALTPNDLAFQLAVNLGSTVDMLQSALPKMVARKWGRVVSIGSINQLRPKSVVTAYAATKAAQHNLIQSQARDFAGDNVLLNTLAPGLVDTDRNADRRAQDPEGWDEYVRTLNWMGRAGRPEEMVGAALFLASEACSFMTGETIFLTGGY 4imz-a1-m1-cA_4imz-a1-m2-cA Structural Basis of Substrate Specificity and Protease Inhibition in Norwalk Virus Q83883 Q83883 1.7 X-RAY DIFFRACTION 38 1.0 524364 (Norovirus Hu/1968/US) 524364 (Norovirus Hu/1968/US) 173 173 3ur9-a3-m1-cA_3ur9-a3-m1-cB 4in2-a1-m1-cB_4in2-a1-m1-cA 4xbd-a3-m1-cA_4xbd-a3-m1-cB DKAPPTLWSRVTKFGSGWGFWVSPTVFITTTHVVPTGVKEFFGEPLSSIAIHQAGEFTQFRFSKKMRPDLTGMVLEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTGTIPGDCGAPYVHKRGNDWVVCGVHAAATKSGNTVVCAVQAGEGETAE DKAPPTLWSRVTKFGSGWGFWVSPTVFITTTHVVPTGVKEFFGEPLSSIAIHQAGEFTQFRFSKKMRPDLTGMVLEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTGTIPGDCGAPYVHKRGNDWVVCGVHAAATKSGNTVVCAVQAGEGETAE 4in3-a1-m1-cC_4in3-a1-m1-cA Crystal Structure of the Chs5-Bch1 Exomer Cargo Adaptor Complex Q12114 Q12114 2.936 X-RAY DIFFRACTION 94 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 75 80 SSVDVLLTVGKLDASLALLTTQDHHVIEFPTVLLPENVKAGSIIKMQVSQNLEEEKKQRNHFKSIQAKILEKYGT DPEFMSSVDVLLTVGKLDASLALLTTQDHHVIEFPTVLLPENVKAGSIIKMQVSQNLEEEKKQRNHFKSIQAKILEKYGT 4ina-a1-m1-cA_4ina-a1-m1-cB Crystal Structure of the Q7MSS8_WOLSU protein from Wolinella succinogenes. Northeast Structural Genomics Consortium Target WsR35 Q7MSS8 Q7MSS8 2.488 X-RAY DIFFRACTION 68 0.987 844 (Wolinella succinogenes) 844 (Wolinella succinogenes) 380 383 AKVLQIGAGGVGGVVAHKANREVFSHITLASRTLSKCQEIAQSIKAKGYGEIDITTVDADSIEELVALINEVKPQIVLNIALPYQDLTIEACLRTGVPYLDTANYEHPDLAKFEYKEQWAFHDRYKEKGVALLGSGFDPGVTNVFCAYAQKHYFDEIHEIDILDCNAGDHGYPFATNFNPEINLREVSSKGRYWENGEWIETEPEIQVWDYPEVGPKDSYLLYHEELESLVRNIKGLKRIRFFTFGQSYLTHRCLENVGLRIDEIEVNGCKVVPIQVLKALLPDPASLASRTKGKTNIGCYIKGIKEGKARTIYIYNVCDHESCYREVNAQAISYTTGVPAIGAKLLEGKWSGKGVFNEELDPDPFDELNKQGLPWEVKE AKVLQIGAGGVGGVVAHKANREVFSHITLASRTLSKCQEIAQSIKAKGYGEIDITTVDADSIEELVALINEVKPQIVLNIALPYQDLTIEACLRTGVPYLDTANYEHFEYKEQWAFHDRYKEKGVALLGSGFDPGVTNVFCAYAQKHYFDEIHEIDILDCNAGDHGYPFATNFNPEINLREVSSKGRYWENGEWIETEPEIQVWDYPEVGPKDSYLLYHEELESLVRNIKGLKRIRFFTFGQSYLTHRCLENVGLRIDEIEVNGCKVVPIQVLKALLPDPASLASRTKGKTNIGCYIKGIKEGKARTIYIYNVCDHESCYREVNAQAISYTTGVPAIGAKLLEGKWSGKGVFNEELDPDPFDELNKQGLPWEVKEEALEHHHH 4ine-a1-m1-cB_4ine-a1-m1-cA Crystal structure of N-methyl transferase (PMT-2) from Caenorhabditis elegant complexed with S-adenosyl homocysteine and phosphoethanolamine Q22993 Q22993 1.45 X-RAY DIFFRACTION 79 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 428 431 SSLSIPRQSLYYVNKVTSVSNVQVVSPCQKQGQTYVTAFTPLTSNVQVHTSLEQLSTIRNADVLIFNNALSQIITNADLLTDFLKNATAIGGTVIIREDLKDCSDKRQVARLTDYFDVFRTTDSDGNNTGLDLYTVDQVEHSNYVEQNFLDFIFVFRKKVFAPTTDATITFRDFLDKTQYTNTGIDAYEWMFGVNFISPGGYDENLKIIKRFGDFKPGQTMLDIGVGIGGGARQVADEFGVHVHGIDLSSNMLAIALERLHEEKDSRVKYSITDALVYQFEDNSFDYVFSRDCIQHIPDTEKLFSRIYKALKPGGKVLITMYGKGYGEQSDKFKTYVAQRAYFLKNLKEIADIANKTGFVNVQTENMTPRFKEILLEERGHLEQNEAEFMSKFTQRERDSLISGWTDKLGYIEKDNHNWNFFLAQKPF SSLSIPRQSLYYVNKVTEGRSVSNVQVVSPCQKQGQTYVTAFTPLTSNVQVHTSLEQLSTIRNADVLIFNNALSQIITNADLLTDFLKNATAIGGTVIIREDLKDCSDKRQVARLTDYFDVFRTTDSDGNNTGLDLYTVDQVEHSNYVEQNFLDFIFVFRKKVFAPTTDATITFRDFLDKTQYTNTGIDAYEWMFGVNFISPGGYDENLKIIKRFGDFKPGQTMLDIGVGIGGGARQVADEFGVHVHGIDLSSNMLAIALERLHEEKDSRVKYSITDALVYQFEDNSFDYVFSRDCIQHIPDTEKLFSRIYKALKPGGKVLITMYGKGYGEQSDKFKTYVAQRAYFLKNLKEIADIANKTGFVNVQTENMTPRFKEILLEERGHLEQNEAEFMSKFTQRERDSLISGWTDKLGYIEKDNHNWNFFLAQKPF 4io2-a1-m1-cA_4io2-a1-m1-cB Crystal Structure of the AvGluR1 ligand binding domain complex with glutamate at 1.37 Angstrom resolution E9P5T5 E9P5T5 1.37 X-RAY DIFFRACTION 77 0.996 104782 (Adineta vaga) 104782 (Adineta vaga) 242 242 4io3-a1-m1-cA_4io3-a1-m1-cB 4io4-a1-m1-cB_4io4-a1-m1-cA 4io5-a1-m1-cA_4io5-a1-m1-cB 4io6-a1-m1-cA_4io6-a1-m1-cB 4io7-a1-m1-cA_4io7-a1-m1-cB GSARLKGITLRIGVIESVPFTIVANVNTTKLTGYVLDLIEYLRDKMGFVADVQLAPPNTSYTGLVLALANGDYDIAIGDITVTSARREIVAFSNSISDNSMRILMRKGTLIDGMDDLKNGKIPYNRIGIRIGTAGEDYYLREISGGSRNFYPLKSRQEMYDSLLAGIIDVSFMDIGTAEYVTNNIYCNLTLVGEDFDKSTFGIVTPKEWLYAKDLDVNILSLRETGILDNLKKKWFQTKACP GSARLKGITLRIGVIESVPFTIVANVITTKLTGYVLDLIEYLRDKMGFVADVQLAPPNTSYTGLVLALANGDYDIAIGDITVTSARREIVAFSNSISDNSMRILMRKGTLIDGMDDLKNGKIPYNRIGIRIGTAGEDYYLREISGGSRNFYPLKSRQEMYDSLLAGIIDVSFMDIGTAEYVTNNIYCNLTLVGEDFDKSTFGIVTPKEWLYAKDLDVNILSLRETGILDNLKKKWFQTKACP 4iod-a4-m1-cA_4iod-a4-m2-cB Preliminary structural investigations of a malarial protein secretion system. Q8IIJ8 Q8IIJ8 1.8 X-RAY DIFFRACTION 45 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 147 147 4iod-a4-m1-cB_4iod-a4-m2-cA 4iod-a5-m1-cC_4iod-a5-m3-cC GKYLNRTINILNAGKNIAKSYGHNKLKPIHILSALAKSDYGSTLFKENNVNAANLKEYIDIALEQTRAGAPLDNKSKIVNSAEVKETLALAEAAANKYKSPKVDVEHLLSGLSNDELVNEIFNEVYLTDEAIKAILKRKFEKTLVPR GKYLNRTINILNAGKNIAKSYGHNKLKPIHILSALAKSDYGSTLFKENNVNAANLKEYIDIALEQTRAGAPLDNKSKIVNSAEVKETLALAEAAANKYKSPKVDVEHLLSGLSNDELVNEIFNEVYLTDEAIKAILKRKFEKTLVPR 4iod-a4-m2-cA_4iod-a4-m2-cB Preliminary structural investigations of a malarial protein secretion system. Q8IIJ8 Q8IIJ8 1.8 X-RAY DIFFRACTION 21 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 147 147 4iod-a4-m1-cA_4iod-a4-m1-cB GKYLNRTINILNAGKNIAKSYGHNKLKPIHILSALAKSDYGSTLFKENNVNAANLKEYIDIALEQTRAGAPLDNKSKIVNSAEVKETLALAEAAANKYKSPKVDVEHLLSGLSNDELVNEIFNEVYLTDEAIKAILKRKFEKTLVPR GKYLNRTINILNAGKNIAKSYGHNKLKPIHILSALAKSDYGSTLFKENNVNAANLKEYIDIALEQTRAGAPLDNKSKIVNSAEVKETLALAEAAANKYKSPKVDVEHLLSGLSNDELVNEIFNEVYLTDEAIKAILKRKFEKTLVPR 4ioh-a1-m1-cA_4ioh-a1-m2-cA Crystal Structure of the Tll1086 protein from Thermosynechococcus elongatus, Northeast Structural Genomics Consortium Target TeR258 Q8DJY4 Q8DJY4 2.53 X-RAY DIFFRACTION 121 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 117 117 TTNVLGTPLECCCQNPLTGFYRDGFCRTGAGDVGAHVVCAQTAEFLTFTRSRGNDLSTPVPAYQFPGLKPGDRWCLCASRWREALEAGVAPPVILEATHASALEYVSLEDLKAHALG TTNVLGTPLECCCQNPLTGFYRDGFCRTGAGDVGAHVVCAQTAEFLTFTRSRGNDLSTPVPAYQFPGLKPGDRWCLCASRWREALEAGVAPPVILEATHASALEYVSLEDLKAHALG 4ip4-a1-m1-cA_4ip4-a1-m1-cB Crystal structure of l-fuconate dehydratase from Silicibacter sp. tm1040 liganded with Mg Q1GLV3 Q1GLV3 2.128 X-RAY DIFFRACTION 176 1.0 292414 (Ruegeria sp. TM1040) 292414 (Ruegeria sp. TM1040) 421 421 4ip5-a1-m1-cA_4ip5-a1-m1-cB TKITGLRTYDLRFPTSEGLDGSDAMNPDPDYSAAYVILETEGTHEGHGLTFTIGRGNEICIAAIKALGALVVGLDLDWIREDMGRFWRHVTGDSQLRWIGPDKGAIHLAAGAVVNAVWDLWAKDTGKPVWRLVADMSPAEILRLIDFRYLTDVLAPEEALDLLKAAEPGKEERIARLIEEGYPCYTTSAGWLGYSDEKLRRLCREARAAGFTHTKFKVGRDLSDDIRRLTIAREELGEDMNIMIDANQVWEVDEAIDWVNRLAFARPLFIEEPTSPDDVLGHKAIREGVAPIKVATGEMCQNRIMFKQFIASGALDIVQIDSCRMGGLNEVLAVMLVAAKYDLPVWPHAGGVGLCEYVQHMSMIDYVAICGEKDSKRIEYVDHLHEHFKHPCIVTGGAYQAPHAPGFSIEMKEDTLDAFLF TKITGLRTYDLRFPTSEGLDGSDAMNPDPDYSAAYVILETEGTHEGHGLTFTIGRGNEICIAAIKALGALVVGLDLDWIREDMGRFWRHVTGDSQLRWIGPDKGAIHLAAGAVVNAVWDLWAKDTGKPVWRLVADMSPAEILRLIDFRYLTDVLAPEEALDLLKAAEPGKEERIARLIEEGYPCYTTSAGWLGYSDEKLRRLCREARAAGFTHTKFKVGRDLSDDIRRLTIAREELGEDMNIMIDANQVWEVDEAIDWVNRLAFARPLFIEEPTSPDDVLGHKAIREGVAPIKVATGEMCQNRIMFKQFIASGALDIVQIDSCRMGGLNEVLAVMLVAAKYDLPVWPHAGGVGLCEYVQHMSMIDYVAICGEKDSKRIEYVDHLHEHFKHPCIVTGGAYQAPHAPGFSIEMKEDTLDAFLF 4ipi-a1-m1-cA_4ipi-a1-m2-cA Crystal Structure of R314A N-acetyl Neuraminic Acid Synthase from Neiserria meningitidis with Malate bound Q57265 Q57265 1.75 X-RAY DIFFRACTION 298 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 351 351 1xuu-a1-m1-cA_1xuu-a1-m2-cA 1xuz-a1-m1-cA_1xuz-a1-m2-cA 2wqp-a1-m1-cA_2wqp-a1-m2-cA 4ipj-a1-m1-cA_4ipj-a1-m2-cA 6ppw-a1-m1-cA_6ppw-a1-m2-cA 6ppx-a1-m1-cA_6ppx-a1-m2-cA 6ppy-a1-m1-cA_6ppy-a1-m2-cA 6ppz-a1-m1-cA_6ppz-a1-m2-cA GAMQNNNEFKIGNRSVGYNHEPLIICEIGINHEGSLKTAFEMVDAAYNAGAEVVKHQTHIVEDEMSDEAKQVIPGNADVSIYEIMERCALNEEDEIKLKEYVESKGMIFISTPFSRAAALRLQRMDIPAYKIGSGECNNYPLIKLVASFGKPIILSTGMNSIESIKKSVEIIREAGVPYALLHCTNIYPTPYEDVRLGGMNDLSEAFPDAIIGLSDHTLDNYACLGAVALGGSILERHFTDRMDRPGPDIVCSMNPDTFKELKQGAHALKLARGGKKDTIIAGEKPTKDFAFASVVADKDIKKGELLSGDNLWVKAPGNGDFSVNEYETLFGKVAACNIRKGAQIKKTDIE GAMQNNNEFKIGNRSVGYNHEPLIICEIGINHEGSLKTAFEMVDAAYNAGAEVVKHQTHIVEDEMSDEAKQVIPGNADVSIYEIMERCALNEEDEIKLKEYVESKGMIFISTPFSRAAALRLQRMDIPAYKIGSGECNNYPLIKLVASFGKPIILSTGMNSIESIKKSVEIIREAGVPYALLHCTNIYPTPYEDVRLGGMNDLSEAFPDAIIGLSDHTLDNYACLGAVALGGSILERHFTDRMDRPGPDIVCSMNPDTFKELKQGAHALKLARGGKKDTIIAGEKPTKDFAFASVVADKDIKKGELLSGDNLWVKAPGNGDFSVNEYETLFGKVAACNIRKGAQIKKTDIE 4ipl-a1-m1-cB_4ipl-a1-m1-cA The crystal structure of 6-phospho-beta-glucosidase BglA-2 from Streptococcus pneumoniae A0A0H2UP35 A0A0H2UP35 2.004 X-RAY DIFFRACTION 103 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 457 460 4ipn-a1-m1-cB_4ipn-a1-m1-cE TIFPDDFLWGGAVAANQVEGAYNEDGKGLSVQDVLPKGGLGEATENPTEDNLKLIGIDFYHKYKEDISLFSEMGFNVFRTSIAWSRIFPKGDEEEPNEAGLKYYDELFDELHAHGIEPLVTLSHYETPLYLARKYHGWVDRRMIHFYEKFARTVLERYKDKVKYWLTFNEVNSVLELPFTSGGIDIPKENLSKQELYQAIHHELVASSLVTKIAREINSEFKVGCMVLAMPAYPMTPNPKDVWATHEYENLNYLFSDVHVRGYYPNYAKRYFKENDINIEFAAEDAELLKNYTVDFLSFSYYMSVTQSALPGLVNPYLESSEWGWQIDPIGLRIILNRYYDRYQIPLFIVENGLGAKDQLIKDELNNLTVQDDYRIQYMKEHLLQVAEALQDGVEIMGYTSWGCIDCVSMSTAQLSKRYGLIYVDRNDDGSGTLNRYKKMSFTWYKEVIESNGESLF TIFPDDFLWGGAVAANQVEGAYNEDGKGLSVQDVLPKGGLGEATENPTEDNLKLIGIDFYHKYKEDISLFSEMGFNVFRTSIAWSRIFPKGDEEEPNEAGLKYYDELFDELHAHGIEPLVTLSHYETPLYLARKYHGWVDRRMIHFYEKFARTVLERYKDKVKYWLTFNEVNSVLELPFTSGGIDIPKENLSKQELYQAIHHELVASSLVTKIAREINSEFKVGCMVLAMPAYPMTPNPKDVWATHEYENLNYLFSDVHVRGYYPNYAKRYFKENDINIEFAAEDAELLKNYTVDFLSFSYYMSVTQSALPTQYGLVNPYLESSEWGWQIDPIGLRIILNRYYDRYQIPLFIVENGLGAKDQLIKDELNNLTVQDDYRIQYMKEHLLQVAEALQDGVEIMGYTSWGCIDCVSMSTAQLSKRYGLIYVDRNDDGSGTLNRYKKMSFTWYKEVIESNGESLF 4iq9-a3-m1-cA_4iq9-a3-m3-cA Substrate and reaction specificity of Mycobacterium tuberculosis cytochrome P450 CYP121 P9WPP7 P9WPP7 1.4 X-RAY DIFFRACTION 64 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 394 394 3g5f-a3-m1-cA_3g5f-a3-m3-cA 4ict-a2-m1-cA_4ict-a2-m3-cA 4ipw-a3-m1-cA_4ipw-a3-m3-cA 4iq7-a2-m1-cA_4iq7-a2-m2-cA ATVLLEVPFSARGDRIPDAVAELRTREPIRKVRTITGAEAWLVSSYALCTQVLEDRRFSMKETAAAGAPRLNALTVPPEVVNNMGNIADAGLRKAVMKAITPKAPGLEQFLRDTANSLLDNLITEGAPADLRNDFADPLATALHCKVLGIPQEDGPKLFRSLSIAFMSSADPIPAAKINWDRDIEYMAGILENPNITTGLMGELSRLRKDPAYSHVSDELFATIGVTFFGAGVISTGSFLTTALISLIQRPQLRNLLHEKPELIPAGVEELLRINLSFADGLPRLATADIQVGDVLVRKGELVLVLLEGANFDPEHFPNPGSIELDRPNPTSHLAFGRGQHFCPGSALGRRHAQIGIEALLKKMPGVDLAVPIDQLVWRTRFQRRIPERLPVLW ATVLLEVPFSARGDRIPDAVAELRTREPIRKVRTITGAEAWLVSSYALCTQVLEDRRFSMKETAAAGAPRLNALTVPPEVVNNMGNIADAGLRKAVMKAITPKAPGLEQFLRDTANSLLDNLITEGAPADLRNDFADPLATALHCKVLGIPQEDGPKLFRSLSIAFMSSADPIPAAKINWDRDIEYMAGILENPNITTGLMGELSRLRKDPAYSHVSDELFATIGVTFFGAGVISTGSFLTTALISLIQRPQLRNLLHEKPELIPAGVEELLRINLSFADGLPRLATADIQVGDVLVRKGELVLVLLEGANFDPEHFPNPGSIELDRPNPTSHLAFGRGQHFCPGSALGRRHAQIGIEALLKKMPGVDLAVPIDQLVWRTRFQRRIPERLPVLW 4iqg-a1-m1-cB_4iqg-a1-m1-cD Crystal structure of BPRO0239 oxidoreductase from Polaromonas sp. JS666 in NADP bound form Q12GY8 Q12GY8 1.85 X-RAY DIFFRACTION 147 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 243 244 4iqg-a1-m1-cA_4iqg-a1-m1-cC SKVVLITGGSRGIGAASALLAARQGYAVAVNYASNSAAADEVVRQIREAGGQALAVQADVAKEREVLAFETVDAQLGRLSALVNNAGVVDQTTRVDGITLERLQRFEINVFGSFLCAREAVKRSTRYGGSGGSIVNVSSAAARLGSPGQYVDYAAAKGAIDTFTLGLAKEVATEGIRVNAVRPGIIETDIHASGGLPNRARDVAPQVPQRAGTAREVAEAIVWLLGDQASYTTGALLDVTGGR LSKVVLITGGSRGIGAASALLAARQGYAVAVNYASNSAAADEVVRQIREAGGQALAVQADVAKEREVLAFETVDAQLGRLSALVNNAGVVDQTTRVDGITLERLQRFEINVFGSFLCAREAVKRSTRYGGSGGSIVNVSSAAARLGSPGQYVDYAAAKGAIDTFTLGLAKEVATEGIRVNAVRPGIIETDIHASGGLPNRARDVAPQVPQRAGTAREVAEAIVWLLGDQASYTTGALLDVTGGR 4iqg-a1-m1-cC_4iqg-a1-m1-cD Crystal structure of BPRO0239 oxidoreductase from Polaromonas sp. JS666 in NADP bound form Q12GY8 Q12GY8 1.85 X-RAY DIFFRACTION 90 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 243 244 4iqg-a1-m1-cA_4iqg-a1-m1-cB SKVVLITGGSRGIGAASALLAARQGYAVAVNYASNSAAADEVVRQIREAGGQALAVQADVAKEREVLAFETVDAQLGRLSALVNNAGVVDQTTRVDGITLERLQRFEINVFGSFLCAREAVKRSTRYGGSGGSIVNVSSAAARLGSPGQYVDYAAAKGAIDTFTLGLAKEVATEGIRVNAVRPGIIETDIHASGGLPNRARDVAPQVPQRAGTAREVAEAIVWLLGDQASYTTGALLDVTGGR LSKVVLITGGSRGIGAASALLAARQGYAVAVNYASNSAAADEVVRQIREAGGQALAVQADVAKEREVLAFETVDAQLGRLSALVNNAGVVDQTTRVDGITLERLQRFEINVFGSFLCAREAVKRSTRYGGSGGSIVNVSSAAARLGSPGQYVDYAAAKGAIDTFTLGLAKEVATEGIRVNAVRPGIIETDIHASGGLPNRARDVAPQVPQRAGTAREVAEAIVWLLGDQASYTTGALLDVTGGR 4iqj-a1-m1-cA_4iqj-a1-m1-cB Structure of PolIIIalpha-Tauc-DNA complex suggests an atomic model of the replisome Q9XDH5 Q9XDH5 3.2 X-RAY DIFFRACTION 22 0.993 271 (Thermus aquaticus) 271 (Thermus aquaticus) 1164 1167 LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLPEGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELRKREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTFGSLASKAALKDVARVYGIPHKKAEELAKLIPKPLQEAELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVRFTLSDETGALEVVVFGRAYEGVSPKLKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGVARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRGEEALGLLEAEGYRAYLVPDREVFLQGNGGGPKEEVVPF LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLPEGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTASKAALKDVARVIPHKKAEELAKLIPPKPLQEAELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVVRKPTGMMARFTLSDETGALEVVVFGRAYEGVSPKLKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGVARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRVGEEALGLLEAEGYRAYLVPDREVFLQGNGGGPKEEVVPF 4iqj-a1-m1-cA_4iqj-a1-m1-cD Structure of PolIIIalpha-Tauc-DNA complex suggests an atomic model of the replisome Q9XDH5 Q9XDH5 3.2 X-RAY DIFFRACTION 13 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 1164 1185 LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLPEGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELRKREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTFGSLASKAALKDVARVYGIPHKKAEELAKLIPKPLQEAELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVRFTLSDETGALEVVVFGRAYEGVSPKLKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGVARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRGEEALGLLEAEGYRAYLVPDREVFLQGNGGGPKEEVVPF LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLPEGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELRKREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTFGSLASKAALKDVARVYGIPHKKAEELAKLIPVQFGKPKPLQEAIQVVPELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVVRKPTRMMARFTLSDETGALEVVVFGRAYEGVSPKLKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGVARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRVGEEALGLLEAEGYRAYLVPDREVFLQGNGGGPKEEVVPF 4iqj-a1-m1-cC_4iqj-a1-m1-cB Structure of PolIIIalpha-Tauc-DNA complex suggests an atomic model of the replisome Q9XDH5 Q9XDH5 3.2 X-RAY DIFFRACTION 17 0.99 271 (Thermus aquaticus) 271 (Thermus aquaticus) 1166 1167 LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLPEGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELRKEWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTFASKAALKDVARVYGIPHKKAEELAKLIPVQFGKPKPLQEAVVPELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVRFTLSDETGALEVVVFGRAYEGVSPKLKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGVARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRVGEEALGLLEAEGYRAYLVPDREVFLQGNGGGPKEEVVPF LKFAHLHQHTQFSLLDGAAKLQDLLKWVKETTPEDPALAMTDHGNLFGAVEFYKKATAMGVKPIIGYEAYVAAESRFDRGYFHLTLLAKDFTGYQNLVRLASRAYLEGFYEKPRIDREILREHAQGLIALSGCLGAEIPQFILQDRLDLAEARLNEDLSIFGDRFFIEIQNHGLPEQKKVNQVLKEFARKYGLGMVATNDGHYVRKEDARAHEVLLAIQSKTTLDDPERWRFPCDEFYVKTPEEMRAMLPEAEWGDEPFDNTVEIARMCDVDLPIGDKMVYRIPRFPLPEGRTEAQYLRELTFLGLLRRYPDRITEAFYREVLRLLDERALAEALARVEEKAWEELREWTAEAILHRALYELSVIERMGFPGYFLIVQDYINWARGHGVSVGPGRGSAAGSLVAYAVGITNIDPLRFGLLFERFLNPERVSMPDIDTDFSDRERDRVIQYVRERYGEDKVAQIGTASKAALKDVARVIPHKKAEELAKLIPPKPLQEAELRAEMEKDERIRQVIEVAMRLEGLNRHASVHAAGVVIAAEPLTDLVPLMRDQEGRPVTQYDMGAVEALGLLKMDFLGLRTLTFLDEARRIVKESKGVELDYDRLPLDDPKTFELLSRGETKGVFQLESGGMTATVRGLKPRRLEDIIALVSLYRPGPMEHIPTYIRRHHGQEPVSYAEFPHAEKYLRPILDETYGIPVYQEQIMQIASQVAGYSLGEADLLRRAMGKKRVEEMQKHRERFVRGAKERGVPEEEANRLFDMLEAFANYGFNKSHAAAYSLLSYQTAYVKAHYPVEFMAALLSVERHDSDKVAEYIRDARALGIPVLPPDVNRSGFDFKVVGEEILFGLSAVKNVGEMAARAILEERERGGPFKSLGDFLKRLPEQVVNKRALESLVKAGALDAFGDRARLLASLEPLLRWAAETRERGRSGLVGLFAEVEEPPLVEASPLDEITMLRYEKEALGIYVSGHPVLRYPGLREVASCTIEELSEFVRELPGKPKVLLSGMVEEVVRKPTGMMARFTLSDETGALEVVVFGRAYEGVSPKLKEDIPLLVLAEVERVLAQAVWTLEEVLEAPKALEVEVDHALLDEKGVARLKSLLDEHPGSLPVYLRVLGPFGEALFALREVRVGEEALGLLEAEGYRAYLVPDREVFLQGNGGGPKEEVVPF 4iql-a1-m1-cA_4iql-a1-m1-cB Crystal Structure of Porphyromonas gingivalis Enoyl-ACP Reductase II (FabK) with cofactors NADPH and FMN Q7MAW0 Q7MAW0 1.938 X-RAY DIFFRACTION 165 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 312 312 MNRICELLGIEHPIISGGMVWCSGWKLASAVSNGGLGLIGAGSMHPDNLEHHIRSCKAATDKPFGVNVPLLYPEMDKIMEIIMREHVPVVVTSAGSPKVWTAKLKAAGSKVIHVVSSATFARKSEAAGVDAIVAEGFEAGGHNGREETTTLCLIPEVVDAVNIPVVAAGGIASGRAVAAALALGADAVQVGTRFALSEESSAHEDFKAHCRRSVEGDTMLSLKAVSPTRLLKNKFYQDVFAAEQRGASVEELRELLGRGRAKQGIFEGDLHEGELEIGQAVSQISHAETVAEIMVDLVDGYKRSLAGMPTEI MNRICELLGIEHPIISGGMVWCSGWKLASAVSNGGLGLIGAGSMHPDNLEHHIRSCKAATDKPFGVNVPLLYPEMDKIMEIIMREHVPVVVTSAGSPKVWTAKLKAAGSKVIHVVSSATFARKSEAAGVDAIVAEGFEAGGHNGREETTTLCLIPEVVDAVNIPVVAAGGIASGRAVAAALALGADAVQVGTRFALSEESSAHEDFKAHCRRSVEGDTMLSLKAVSPTRLLKNKFYQDVFAAEQRGASVEELRELLGRGRAKQGIFEGDLHEGELEIGQAVSQISHAETVAEIMVDLVDGYKRSLAGMPTEI 4ir0-a1-m1-cB_4ir0-a1-m1-cA Crystal Structure of Metallothiol Transferase FosB 2 from Bacillus anthracis str. Ames Q81W73 Q81W73 1.6 X-RAY DIFFRACTION 137 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 132 143 4jd1-a1-m1-cA_4jd1-a1-m1-cB 5f6q-a1-m1-cA_5f6q-a1-m3-cA 5f6q-a2-m1-cB_5f6q-a2-m2-cB LQGINHICFSVSNLEKSIEFYQKILQAKLLVKGRKLAYFDLNGLWIALNVEEDIPRNEIKQSYTHAFTVTNEALDHLKEVLIQNDVNILPGRERDERDQRSLYFTDPDGHKFEFHTGTLQNRLEYYKEDKKH LQGINHICFSVSNLEKSIEFYQKILQAKLLVKGRKLAYFDLNGLWIALNVEEDIPRNEIKQSYTHAFTVTNEALDHLKEVLIQNDVNILPGRERDERDQRSLYFTDPDGHKFEFHTGTLQNRLEYYKEDKKHTFYIAGENLYF 4ir8-a1-m1-cA_4ir8-a1-m1-cB 1.85 Angstrom Crystal Structure of Putative Sedoheptulose-1,7 bisphosphatase from Toxoplasma gondii B9PW60 B9PW60 1.85 X-RAY DIFFRACTION 123 0.997 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 310 324 LPSLDQLLKEQGADQTLTDLILAILDRCGKIASALQGTSLTVDVIAENLLRSWAQSSEGSAVRAVCSEEDIHLQECHKNGEFILCWDPLDGSSIIDCNWAVGSIVSIWRIGHHGVQWQGADTLIQKTGRQQVASLIVVYGPRTTGVVAVNVDAGGIVKEGTALDLEMKDNGKFICRGKPIIKPQAKIFSPANLRAAQDLPAYKQLIEFWMEKRYTLRYTGGLVPDVYQIFVKQQGVFCNPASKAAPAKLRMCFEVLAIALVVEAAGGRTSNGQKSLLDVAIEHMDHRSALCCGSADEIKRMEETFAALSG ALPSLDQLLKEQGADQTLTDLILAILDRCGKIASALQGTSVDKVGSVNEFGDEQLTVDVIAENLLRSWAQSSEGSAVRAVCSEEDIHLQECHKNGEFILCWDPLDGSSIIDCNWAVGSIVSIWRIGHHGVQWQGADTLIQKTGRQQVASLIVVYGPRTTGVVAVNVDAGGIVKEGTALDLEMKDNGKFICRGKPIIKPQAKIFSPANLRAAQDLPAYKQLIEFWMEKRYTLRYTGGLVPDVYQIFVKQQGVFCNPASKAAPAKLRMCFEVLAIALVVEAAGGRTSNGQKSLLDVAIEHMDHRSALCCGSADEIKRMEETFAALS 4irn-a2-m1-cE_4irn-a2-m1-cH Crystal Structure of the Prolyl Acyl Carrier Protein Oxidase AnaB C4NCB7 C4NCB7 2.8 X-RAY DIFFRACTION 86 1.0 272129 (Kamptonema sp. PCC 6506) 272129 (Kamptonema sp. PCC 6506) 378 378 4irn-a1-m1-cA_4irn-a1-m1-cD 4irn-a1-m1-cB_4irn-a1-m1-cC 4irn-a2-m1-cF_4irn-a2-m1-cG AWNSQQIQFRKKVIQFAQQSLISDLIKNDKEEIFNRDAWQKCSEFGVHGWPIPARYGGQELDILTTAYALQGLGYGCKDNGLIFAMNAHIWACEMPLLTFGTEEQKEKYLPLLCRGGWIASHAATEPQAGSDIYSLKTTAQKDGDKYILNGYKHYVTNGTIADLFIIFATIDPSLGKEGLTTFMIEKDTPGLILSKPISKMGMRTAEVPELRLENCEVSAANRLGEEGTGLAIFNHSMEWERGFILAAAVGTMERLLEQSIRYARSHKQFGQAIGKFQLVANKLVEMKLRLENAKAYLYKVAWMKENKQMALLEASMANLYISEAWVQSCLEAIEIHGAYGYLTNTELERELRDAIASKFYSGTSEIQRVVIAKFLGL AWNSQQIQFRKKVIQFAQQSLISDLIKNDKEEIFNRDAWQKCSEFGVHGWPIPARYGGQELDILTTAYALQGLGYGCKDNGLIFAMNAHIWACEMPLLTFGTEEQKEKYLPLLCRGGWIASHAATEPQAGSDIYSLKTTAQKDGDKYILNGYKHYVTNGTIADLFIIFATIDPSLGKEGLTTFMIEKDTPGLILSKPISKMGMRTAEVPELRLENCEVSAANRLGEEGTGLAIFNHSMEWERGFILAAAVGTMERLLEQSIRYARSHKQFGQAIGKFQLVANKLVEMKLRLENAKAYLYKVAWMKENKQMALLEASMANLYISEAWVQSCLEAIEIHGAYGYLTNTELERELRDAIASKFYSGTSEIQRVVIAKFLGL 4irn-a2-m1-cF_4irn-a2-m1-cH Crystal Structure of the Prolyl Acyl Carrier Protein Oxidase AnaB C4NCB7 C4NCB7 2.8 X-RAY DIFFRACTION 10 1.0 272129 (Kamptonema sp. PCC 6506) 272129 (Kamptonema sp. PCC 6506) 378 378 AWNSQQIQFRKKVIQFAQQSLISDLIKNDKEEIFNRDAWQKCSEFGVHGWPIPARYGGQELDILTTAYALQGLGYGCKDNGLIFAMNAHIWACEMPLLTFGTEEQKEKYLPLLCRGGWIASHAATEPQAGSDIYSLKTTAQKDGDKYILNGYKHYVTNGTIADLFIIFATIDPSLGKEGLTTFMIEKDTPGLILSKPISKMGMRTAEVPELRLENCEVSAANRLGEEGTGLAIFNHSMEWERGFILAAAVGTMERLLEQSIRYARSHKQFGQAIGKFQLVANKLVEMKLRLENAKAYLYKVAWMKENKQMALLEASMANLYISEAWVQSCLEAIEIHGAYGYLTNTELERELRDAIASKFYSGTSEIQRVVIAKFLGL AWNSQQIQFRKKVIQFAQQSLISDLIKNDKEEIFNRDAWQKCSEFGVHGWPIPARYGGQELDILTTAYALQGLGYGCKDNGLIFAMNAHIWACEMPLLTFGTEEQKEKYLPLLCRGGWIASHAATEPQAGSDIYSLKTTAQKDGDKYILNGYKHYVTNGTIADLFIIFATIDPSLGKEGLTTFMIEKDTPGLILSKPISKMGMRTAEVPELRLENCEVSAANRLGEEGTGLAIFNHSMEWERGFILAAAVGTMERLLEQSIRYARSHKQFGQAIGKFQLVANKLVEMKLRLENAKAYLYKVAWMKENKQMALLEASMANLYISEAWVQSCLEAIEIHGAYGYLTNTELERELRDAIASKFYSGTSEIQRVVIAKFLGL 4irn-a2-m1-cG_4irn-a2-m1-cH Crystal Structure of the Prolyl Acyl Carrier Protein Oxidase AnaB C4NCB7 C4NCB7 2.8 X-RAY DIFFRACTION 91 1.0 272129 (Kamptonema sp. PCC 6506) 272129 (Kamptonema sp. PCC 6506) 378 378 4irn-a1-m1-cA_4irn-a1-m1-cB 4irn-a1-m1-cC_4irn-a1-m1-cD 4irn-a2-m1-cE_4irn-a2-m1-cF AWNSQQIQFRKKVIQFAQQSLISDLIKNDKEEIFNRDAWQKCSEFGVHGWPIPARYGGQELDILTTAYALQGLGYGCKDNGLIFAMNAHIWACEMPLLTFGTEEQKEKYLPLLCRGGWIASHAATEPQAGSDIYSLKTTAQKDGDKYILNGYKHYVTNGTIADLFIIFATIDPSLGKEGLTTFMIEKDTPGLILSKPISKMGMRTAEVPELRLENCEVSAANRLGEEGTGLAIFNHSMEWERGFILAAAVGTMERLLEQSIRYARSHKQFGQAIGKFQLVANKLVEMKLRLENAKAYLYKVAWMKENKQMALLEASMANLYISEAWVQSCLEAIEIHGAYGYLTNTELERELRDAIASKFYSGTSEIQRVVIAKFLGL AWNSQQIQFRKKVIQFAQQSLISDLIKNDKEEIFNRDAWQKCSEFGVHGWPIPARYGGQELDILTTAYALQGLGYGCKDNGLIFAMNAHIWACEMPLLTFGTEEQKEKYLPLLCRGGWIASHAATEPQAGSDIYSLKTTAQKDGDKYILNGYKHYVTNGTIADLFIIFATIDPSLGKEGLTTFMIEKDTPGLILSKPISKMGMRTAEVPELRLENCEVSAANRLGEEGTGLAIFNHSMEWERGFILAAAVGTMERLLEQSIRYARSHKQFGQAIGKFQLVANKLVEMKLRLENAKAYLYKVAWMKENKQMALLEASMANLYISEAWVQSCLEAIEIHGAYGYLTNTELERELRDAIASKFYSGTSEIQRVVIAKFLGL 4irq-a5-m1-cD_4irq-a5-m1-cA Crystal structure of catalytic domain of human beta1,4galactosyltransferase 7 in closed conformation in complex with manganese and UDP Q9UBV7 Q9UBV7 2.3 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 246 4irp-a3-m1-cB_4irp-a3-m1-cA 4irq-a6-m1-cB_4irq-a6-m2-cC EEDASWGPHRLAVLVPFRERFEELLVFVPHMRRFLSRKKIRHHIYVLNQVDHFRFNRAALINVGFLESSNSTDYIAMHDVDLLPLNEELDYGFPEAGPFHVASPELHPLYHYKTYVGGILLLSKQHYRLCNGMSNRFWGWGREDDEFYRRIKGAGLQLFRPSGITTGYKTFRHLHDPAWRKRDQKRIAAQKQEQFKVDREGGLNTVKYHVASRTALSVGGAPCTVLNIMLDCDKTATPWCTFS EHWEEDASWGPHRLAVLVPFRERFEELLVFVPHMRRFLSRKKIRHHIYVLNQVDHFRFNRAALINVGFLESSNSTDYIAMHDVDLLPLNEELDYGFPEAGPFHVASPELHPLYHYKTYVGGILLLSKQHYRLCNGMSNRFWGWGREDDEFYRRIKGAGLQLFRPSGITTGYKTFRHLHDPAWRKRDQKRIAAQKQEQFKVDREGGLNTVKYHVASRTALSVGGAPCTVLNIMLDCDKTATPWCTFS 4irr-a1-m1-cA_4irr-a1-m1-cB Crystal Structure of C.elegans Thymidylate Synthase in Complex with dUMP Q9Y052 Q9Y052 2.48 X-RAY DIFFRACTION 124 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 290 290 4iqb-a1-m1-cA_4iqb-a1-m1-cB 4isw-a1-m1-cA_4isw-a1-m1-cB 4psg-a1-m1-cA_4psg-a1-m1-cB 5noo-a1-m1-cA_5noo-a1-m1-cB 5noo-a2-m1-cC_5noo-a2-m1-cD QQVHLNQDEYKYLKQVEQILREGTRRDDRTGTGTISIFGMQSKYCLRNGTIPLLTTKRVYWKGVLEELLWFISGSTDGKLLMEKNVKIWEKNGDRAFLDNLGFTSREEGDLGPVYGFQWRHFGAKYVDCHTDYSGQGVDQLAEVIRQIKEQPDSRRIIMSAWNPSDLGQMVLPPCHTMCQFYVDNGELSCQLYQRSGDMGLGVPFNLASYGLLTHMIAKVCGLKPGTLVHTLGDAHVYSNHVDALKIQLDREPYAFPKIRFTRDVASIDDFTSDMIALDDYKCHPKIPMD QQVHLNQDEYKYLKQVEQILREGTRRDDRTGTGTISIFGMQSKYCLRNGTIPLLTTKRVYWKGVLEELLWFISGSTDGKLLMEKNVKIWEKNGDRAFLDNLGFTSREEGDLGPVYGFQWRHFGAKYVDCHTDYSGQGVDQLAEVIRQIKEQPDSRRIIMSAWNPSDLGQMVLPPCHTMCQFYVDNGELSCQLYQRSGDMGLGVPFNLASYGLLTHMIAKVCGLKPGTLVHTLGDAHVYSNHVDALKIQLDREPYAFPKIRFTRDVASIDDFTSDMIALDDYKCHPKIPMD 4iry-a1-m1-cA_4iry-a1-m1-cB Influenza A virus tail-loop free nucleoprotein at 2.8 A resolution Q1K9H2 Q1K9H2 2.8 X-RAY DIFFRACTION 64 0.993 381518 (Influenza A virus (A/Wilson-Smith/1933(H1N1))) 381518 (Influenza A virus (A/Wilson-Smith/1933(H1N1))) 404 424 NATEIRASVGKMIDGIGRFYIQMCTELKLSDYEGRLIQNSLTIERMVLSAFDERRNKYLEKKTGGPIYRRVDGKWRRELILYDKEEIRRIWRQANNGDDATAGLTHMMIWHSNLNDATYQRTRALVRTGMDPRMCSLMQGSTLPRRSGAAGAAVKGVGTMVMELIRMIKRGIRRTRIAYERMCNILKGKFQTAAQRTMVDQVRESRNPGNAEFEDLIFLARSALILRGSVAHKSCLPACVYGSAVASGYDFEREGYSLVGIDPFRLLQNSQVYSLIRPNENPAHKSQLVWMACHSAAFEDLRVSSFIRGTKVVPRGKLSTRGVQIASNENMETMESSTLELRSRYWAIRTRSSDMRTEIIRLMESGRGVFELSDEKATSPIVPSFDMSNEGSYFFGDNAEEYDN NATEIRASVGKMIDGIGRFYIQMCTELKLSDYEGRLIQNSLTIERMVLSAFDERRNKYLEEHPSAGKDPKKTGGPIYRRVDGKWRRELILYDKEEIRRIWRQANNGDDATAGLTHMMIWHSNLNDATYQRTRALVRTGMDPRMCSLMQGSTLPRRSGAAGAAVKGVGTMVMELIRMIKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQRTMVDQVRESRNPGNAEFEDLIFLARSALILRGSVAHKSCLPACVYGSAVASGYDFEREGYSLVGIDPFRLLQNSQVYSLIRPNENPAHKSQLVWMACHSAAFEDLRVSSFIRGTKVVPRGKLSTRGVQIASNENMETMESSTLELRSRYWAIRSDMRTEIIRLMESARPGRGVFELSDEKATSPIVPSFDMSNEGSYFFGDNAEEYDN 4is2-a1-m2-cA_4is2-a1-m4-cA Crystal structure of the apo form of a 3alpha-hydroxysteroid dehydrogenase (BaiA2) associated with secondary bile acid synthesis from Clostridium scindens VPI12708 at 1.90 A resolution P19337 P19337 1.9 X-RAY DIFFRACTION 66 1.0 29347 ([Clostridium] scindens) 29347 ([Clostridium] scindens) 209 209 4is2-a1-m1-cA_4is2-a1-m3-cA NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTLEPEEIANVYLFLASDLASGITATTVSVDG NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTLEPEEIANVYLFLASDLASGITATTVSVDG 4is2-a1-m3-cA_4is2-a1-m4-cA Crystal structure of the apo form of a 3alpha-hydroxysteroid dehydrogenase (BaiA2) associated with secondary bile acid synthesis from Clostridium scindens VPI12708 at 1.90 A resolution P19337 P19337 1.9 X-RAY DIFFRACTION 93 1.0 29347 ([Clostridium] scindens) 29347 ([Clostridium] scindens) 209 209 4is2-a1-m1-cA_4is2-a1-m2-cA NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTLEPEEIANVYLFLASDLASGITATTVSVDG NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTLEPEEIANVYLFLASDLASGITATTVSVDG 4is3-a1-m1-cA_4is3-a1-m1-cD Crystal structure of a 3alpha-hydroxysteroid dehydrogenase (BaiA2) associated with secondary bile acid synthesis from Clostridium scindens VPI12708 in complex with a putative NAD(+)-OH- adduct at 2.0 A resolution P19337 P19337 2 X-RAY DIFFRACTION 74 1.0 29347 ([Clostridium] scindens) 29347 ([Clostridium] scindens) 240 240 4is3-a1-m1-cB_4is3-a1-m1-cC NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFGSLSGVGYPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTDTNGNPPEIEGYLKALPKRLEPEEIANVYLFLASDLASGITATTVSVDGAYRP NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFGSLSGVGYPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTDTNGNPPEIEGYLKALPKRLEPEEIANVYLFLASDLASGITATTVSVDGAYRP 4is3-a1-m1-cD_4is3-a1-m1-cC Crystal structure of a 3alpha-hydroxysteroid dehydrogenase (BaiA2) associated with secondary bile acid synthesis from Clostridium scindens VPI12708 in complex with a putative NAD(+)-OH- adduct at 2.0 A resolution P19337 P19337 2 X-RAY DIFFRACTION 118 1.0 29347 ([Clostridium] scindens) 29347 ([Clostridium] scindens) 240 241 4is3-a1-m1-cA_4is3-a1-m1-cB NLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFGSLSGVGYPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTDTNGNPPEIEGYLKALPKRLEPEEIANVYLFLASDLASGITATTVSVDGAYRP GNLVQDKVTIITGGTRGIGFAAAKIFIDNGAKVSIFGETQEEVDTALAQLKELYPEEEVLGFAPDLTSRDAVAAVGQVAQKYGRLDVINNAGITSNNVFSRVSEEEFKHIDINVTGVFNGAWCAYQCKDAKKGVIINTASVTGIFGSLSGVGYPASKASVIGLTHGLGREIIRKNIRVVGVAPGVVNTDTNGNPPEIEGYLKALPKRLEPEEIANVYLFLASDLASGITATTVSVDGAYRP 4is4-a1-m1-cE_4is4-a1-m1-cJ The glutamine synthetase from the dicotyledonous plant M. truncatula is a decamer O04998 O04998 2.35 X-RAY DIFFRACTION 23 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 293 302 MSLLSDLINLNLSESSEKIIAEYIWVGGSGMDLRSKARTLPGPVSDPSKLPKWNYDGSSTNQAPGQDSEVILYPQAIFKDPFRQGNNILVICDVYTPAGEPLPTNKRYNAAKIFSHPDVAAEVPWYGIEQEYTLLQKDTNWPLGWPIGGYPGPQGPYYCGIGADKAYGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISAGDEIWAARYILERITEIAGVVVSFDPKPIPGDWNGAGAHTNYSTKSMREIIKKAIEKLGLRFEDMDPYVVTSMIAETTLLWKP MSLLSDLINLNLSESSEKIIAEYIWVGGSGMDLRSKARTLPGPVSDPSKLPKWNYDGSSTNQAPGQDSEVILYPQAIFKDPFRQGNNILVICDVYTPAGEPLPTNKRYNAAKIFSHPDVAAEVPWYGIEQEYTLLQKDTNWPLGWPIGGYPGPQGPYYCGIGADKAYGRDIVDAHYKACLYAGINISGINGEVMPGQWEFQVGPSVGISAGDEIWAARYILERITEIAGVVVSFDPKPIPGDWNGAGAHTNYSTKSMRENGGYEIIKKAIEKLGLRGYFEDRNMDPYVVTSMIAETTLLWKP 4is5-a2-m2-cA_4is5-a2-m1-cA Crystal Structure of the ligand-free inactive Matriptase Q9Y5Y6 Q9Y5Y6 1.48 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 241 241 VVGGTDADEGEWPWQVSLHALGQGHICGASLISPNWLVSAAHCYIDDRGFRYSDPTQWTAFLGLHDQSQRSAPGVQERRLKRIISHPFFNDFTFDYDIALLELEKPAEYSSMVRPICLPDASHVFPAGKAIWVTGWGHTQYGGTGALILQKGEIRVIQQTTCENLLPQQITPRMMCVGFLSGGVDSCQGDAGGPLSSVEADGRIFQAGVVSWGDGCAQRNKPGVYTRLPLFRDWIKENTGV VVGGTDADEGEWPWQVSLHALGQGHICGASLISPNWLVSAAHCYIDDRGFRYSDPTQWTAFLGLHDQSQRSAPGVQERRLKRIISHPFFNDFTFDYDIALLELEKPAEYSSMVRPICLPDASHVFPAGKAIWVTGWGHTQYGGTGALILQKGEIRVIQQTTCENLLPQQITPRMMCVGFLSGGVDSCQGDAGGPLSSVEADGRIFQAGVVSWGDGCAQRNKPGVYTRLPLFRDWIKENTGV 4isb-a1-m1-cB_4isb-a1-m1-cA Crystal Structure of Apo Mtb FadD10 2.2 X-RAY DIFFRACTION 122 0.98 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 494 499 4ir7-a1-m1-cA_4ir7-a1-m2-cA KKFQAPQLPSTVLDRVFEQARQQPEAIALRRCDGTSALRYRELVAEVGGLAADLRAQSVSRGSRVLVISDNGPETYLSVLACAKLGAIAVADGNLPIAAIERFCQITDPAAALVAPGSKEALHSIPVIAVDILDAASLDQGSEDPLAIFTSPKAVLLANRTFFAVPDILQKEGLNWVTWVVGETTYSPLPATHIGGLWWILTCLHGGLCVTGGENTTSLLEILTTNAVATTCLVPTLLSKLVSELKSANATVPSLRLVGYGGSRAIAADVRFIEATGVRTAQVYGLSETGCTALCLPTDDGSIVKIEAGAVGRPYPGVDVYLAATDGIGPTAPGAGPSASFGTLWIKSPANLGYWNNPERTAEVLIDGWVNTGDLLERREDGFFYIKGRSSEIICGGVNIAPDEVDRIAEGVSGVREAACYEIPDEEFGALVGLAVVASAELDESAARALKHTIAARFRRESEPARPSTIVIVTDIPRTQSGKVRASLAAAATA PQLPSTVLDRVFEQARQQPEAIALRRCDGTSALRYRELVAEVGGLAADLRAQSVSRGSRVLVISDNGPETYLSVLACAKLGAIAVADGNLPIAAIERFCQITDPAAALVAPGSKASSAVPEALHSIPVIAVDILDAASLAGNADQGSEDPLAIFTSGTTGEPKAVLLANRTFFAVPDILQKEGLNWVTWVVGETTYSPLPATHIGGLWWILTCLHGGLCVTGGENTTSLLEILTTNAVATTCLVPTLLSKLVSELKSANATVPSLRLVGYGGSRAIAADVRFIEATGVRTAQVYGLSETGCTALCLPTDDGSIVKIEAGAVGRPYPGVDVYLAATDGIGPTAPGAGPSASFGTLWIKSPANLGYWNNPERTAEVLIDGWVNTGDLLERREDGFFYIKGRSEIICGGVNIAPDEVDRIAEGVSGVREAACYEIPDEEFGALVGLAVVASAEAARALKHTIAARFRRESEPARPSTIVIVTDIPRTQSGKVRASLAAAATA 4isd-a3-m1-cE_4isd-a3-m2-cE Crystal structure of GLUTATHIONE TRANSFERASE homolog from BURKHOLDERIA GL BGR1, TARGET EFI-501803, with bound glutathione C5A7Z5 C5A7Z5 2.65 X-RAY DIFFRACTION 98 1.0 626418 (Burkholderia glumae BGR1) 626418 (Burkholderia glumae BGR1) 185 185 4isd-a1-m1-cD_4isd-a1-m1-cA 4isd-a2-m1-cC_4isd-a2-m1-cB KPITLYVGADYVSAFAMSAFVVLKEKGLDFEIRTVDLKSKQQEVSLTRRVPTLQHDRFTLSESSAIAEYLDEVYPAPHYAAVLPADRETRALARQLQAWIRSDFMPLGEAAQLACEKLLSAADRLIDDERYGVFGDWCIADTDFALMLNRLVACGDPVPPKVLRYVERQWARPSVQQWVKQKRDA KPITLYVGADYVSAFAMSAFVVLKEKGLDFEIRTVDLKSKQQEVSLTRRVPTLQHDRFTLSESSAIAEYLDEVYPAPHYAAVLPADRETRALARQLQAWIRSDFMPLGEAAQLACEKLLSAADRLIDDERYGVFGDWCIADTDFALMLNRLVACGDPVPPKVLRYVERQWARPSVQQWVKQKRDA 4isy-a2-m1-cB_4isy-a2-m1-cD Crystal structure of IscS from Mycobacterium tuberculosis P9WQ71 P9WQ71 2.59 X-RAY DIFFRACTION 202 0.997 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 378 380 4isy-a1-m2-cA_4isy-a1-m1-cC GSAYLDHAATTPMHPAAIEAMAAVQRTIGNASSLHTSGRSARRRIEEARELIADKLGARPSEVIFTAGGTESDNLAVKGIYWARRDAEPHRRRIVTTEVEHHAVLDSVNWLVEHEGAHVTWLPTAADGSVSATALREALQSHDDVALVSVMWANNEVGTILPIAEMSVVAMEFGVPMHSDAIQAVGQLPLDFGASGLSAMSVAGHFGGPPGVGALLLRRDVTCVPLMHGGGQERDIRSGTPDVASAVGMATAAQIAVDGLEENSARLRLLRDRLVEGVLAEIDDVCLNGADDPMRLAGNAHFTFRGCEGDALLMLLDANGIECSTGSPSHVLIAMGVDAASARGSLRLSLGHTSVEADVDAALEVLPGAVARARRAAL SAYLDHAATTPMHPAAIEAMAAVQRTIGNASSLHTSGRSARRRIEEARELIADKLGARPSEVIFTAGGTESDNLAVKGIYWARRDAEPHRRRIVTTEVEHHAVLDSVNWLVEHEGAHVTWLPTAADGSVSATALREALQSHDDVALVSVMWANNEVGTILPIAEMSVVAMEFGVPMHSDAIQAVGQLPLDFGASGLSAMSVAGHFGGPPGVGALLLRRDVTCVPLMHGGGQERDIRSGTPDVASAVGMATAAQIAVDGLEENSARLRLLRDRLVEGVLAEIDDVCLNGADDPMRLAGNAHFTFRGCEGDALLMLLDANGIECSTGSPSHVLIAMGVDAASARGSLRLSLGHTSVEADVDAALEVLPGAVARARRAALAAA 4it1-a3-m2-cA_4it1-a3-m1-cD Crystal structure of enolase pfl01_3283 (target efi-502286) from pseudomonas fluorescens pf0-1 with bound magnesium, potassium and tartrate Q3KB33 Q3KB33 2.2 X-RAY DIFFRACTION 78 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 426 427 QSMKITRVTVTPIAFRDPPLLNASGIHEPFALRSIIEIESDNGYIGLGESYGDAPALAIQQQVQSQLIGLDPFNLNQLRRIVQTTVAAHKPASLAGAELAPGSHASKAVSNAYSAFEVAFLDLQARYLNVPLVDLLGGAVRDEVPFSAYLFFKYAQHVDSPYKPDNWGEALNEQQIVAQAARMIEAYGFKSIKLKAGTLPPEHEVACIKALKKAFPGYPLRIDPNGNWSLETSIRMAELLGDDLQYYEDPTPGLEGMAELHKRTGLPLATNMVVTDFDEFRRSVAQNSVQIVLADHHYWGGLRDTQTLAKMCDTFGLGVSMHSNSHLGISLMAMAHVAAAVPNLDYACDTHYPWQEPDEEVIKGGKLPIVDGCVKITRAPGLGLELDHDQLGKLHDQYLTCGIRQRDDVRQMQRYKPDWKALKPRF FQSMKITRVTVTPIAFRDPPLLNASGIHEPFALRSIIEIESDNGYIGLGESYGDAPALAIQQQVQSQLIGLDPFNLNQLRRIVQTTVAAHKPASLAGAELAPGSHASKAVSNAYSAFEVAFLDLQARYLNVPLVDLLGGAVRDEVPFSAYLFFKYAQHVDSPYKPDNWGEALNEQQIVAQAARMIEAYGFKSIKLKAGTLPPEHEVACIKALKKAFPGYPLRIDPNGNWSLETSIRMAELLGDDLQYYEDPTPGLEGMAELHKRTGLPLATNMVVTDFDEFRRSVAQNSVQIVLADHHYWGGLRDTQTLAKMCDTFGLGVSMHSNSHLGISLMAMAHVAAAVPNLDYACDTHYPWQEPDEEVIKGGKLPIVDGCVKITRAPGLGLELDHDQLGKLHDQYLTCGIRQRDDVRQMQRYKPDWKALKPRF 4it1-a3-m2-cB_4it1-a3-m2-cA Crystal structure of enolase pfl01_3283 (target efi-502286) from pseudomonas fluorescens pf0-1 with bound magnesium, potassium and tartrate Q3KB33 Q3KB33 2.2 X-RAY DIFFRACTION 71 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 425 426 4it1-a1-m1-cB_4it1-a1-m1-cA 4it1-a2-m1-cC_4it1-a2-m1-cD 4it1-a3-m1-cC_4it1-a3-m1-cD SMKITRVTVTPIAFRDPPLLNASGIHEPFALRSIIEIESDNGYIGLGESYGDAPALAIQQQVQSQLIGLDPFNLNQLRRIVQTTVAAHKPASLAGAELAPGSHASKAVSNAYSAFEVAFLDLQARYLNVPLVDLLGGAVRDEVPFSAYLFFKYAQHVDSPYKPDNWGEALNEQQIVAQAARMIEAYGFKSIKLKAGTLPPEHEVACIKALKKAFPGYPLRIDPNGNWSLETSIRMAELLGDDLQYYEDPTPGLEGMAELHKRTGLPLATNMVVTDFDEFRRSVAQNSVQIVLADHHYWGGLRDTQTLAKMCDTFGLGVSMHSNSHLGISLMAMAHVAAAVPNLDYACDTHYPWQEPDEEVIKGGKLPIVDGCVKITRAPGLGLELDHDQLGKLHDQYLTCGIRQRDDVRQMQRYKPDWKALKPRF QSMKITRVTVTPIAFRDPPLLNASGIHEPFALRSIIEIESDNGYIGLGESYGDAPALAIQQQVQSQLIGLDPFNLNQLRRIVQTTVAAHKPASLAGAELAPGSHASKAVSNAYSAFEVAFLDLQARYLNVPLVDLLGGAVRDEVPFSAYLFFKYAQHVDSPYKPDNWGEALNEQQIVAQAARMIEAYGFKSIKLKAGTLPPEHEVACIKALKKAFPGYPLRIDPNGNWSLETSIRMAELLGDDLQYYEDPTPGLEGMAELHKRTGLPLATNMVVTDFDEFRRSVAQNSVQIVLADHHYWGGLRDTQTLAKMCDTFGLGVSMHSNSHLGISLMAMAHVAAAVPNLDYACDTHYPWQEPDEEVIKGGKLPIVDGCVKITRAPGLGLELDHDQLGKLHDQYLTCGIRQRDDVRQMQRYKPDWKALKPRF 4it5-a1-m1-cB_4it5-a1-m1-cD Chaperone HscB from Vibrio cholerae Q9KTX9 Q9KTX9 2.152 X-RAY DIFFRACTION 28 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 163 163 4it5-a1-m1-cC_4it5-a1-m1-cA NYFELFGLPIQFELDGSLLSSQFRALQKRFHPDNFATASERDRLAVQQAAQINDAYQTLKDPLRRAEYLLSLQGIENAEQQTLQDPFLEQELREELESVTACADPEAALVAFDTKVTAQRHYLAQLQGQLAQSEWLAAADQIRKLKFIAKLKNEVERVEDQLL NYFELFGLPIQFELDGSLLSSQFRALQKRFHPDNFATASERDRLAVQQAAQINDAYQTLKDPLRRAEYLLSLQGIENAEQQTLQDPFLEQELREELESVTACADPEAALVAFDTKVTAQRHYLAQLQGQLAQSEWLAAADQIRKLKFIAKLKNEVERVEDQLL 4it5-a1-m1-cC_4it5-a1-m1-cD Chaperone HscB from Vibrio cholerae Q9KTX9 Q9KTX9 2.152 X-RAY DIFFRACTION 11 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 156 163 4it5-a1-m1-cA_4it5-a1-m1-cB NYFELFGLPIQFELDGSLLSSQFRALQKRFHPDNFATASERDRLAVQQAAQINDAYQTLKDPLRRAEYLLSLQGIENDPFLEQELREELESVTACADPEAALVAFDTKVTAQRHYLAQLQGQLAQSEWLAAADQIRKLKFIAKLKNEVERVEDQLL NYFELFGLPIQFELDGSLLSSQFRALQKRFHPDNFATASERDRLAVQQAAQINDAYQTLKDPLRRAEYLLSLQGIENAEQQTLQDPFLEQELREELESVTACADPEAALVAFDTKVTAQRHYLAQLQGQLAQSEWLAAADQIRKLKFIAKLKNEVERVEDQLL 4itb-a1-m1-cA_4itb-a1-m1-cB Structure of bacterial enzyme in complex with cofactor and substrate B1XMM6 B1XMM6 1.4 X-RAY DIFFRACTION 155 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 453 453 3vz1-a1-m1-cA_3vz1-a1-m1-cB 3vz2-a1-m1-cA_3vz2-a1-m1-cB 3vz3-a1-m1-cA_3vz3-a1-m1-cB 4it9-a1-m1-cA_4it9-a1-m1-cB 4ita-a1-m1-cA_4ita-a1-m1-cB AIATINPTTGEICQRFKALTPAEIDAKLAKAQEAFQAYRRTSFSQRRQWLENAAAILERDTSKFAEIMTTEMGKTHQSAIAEAEKSALVCRYYAEHGEQFLANEYTETQATESYVCYQPLGILLAVMPWNFPFWQVFRFAAPALMAGNVAVLKHASNVPQCALAVEAILEAAGFPEGVFQTLLIGASQVEQVIKDPRVKAATLTGSEPAGASLASLAGQEIKPTLLELGGSDPFVVFPSADLDEAVEVGTVARTMNNGQSCIAAKRFILHEAIAAEFLEKLHLKFASLKIGDPMAPETDIGPLATEGILQDISRQVDQAVAAGAKILLGGRPLDRAGYFYPPTILTEIPPGAKILQEELFAPVAMVFTVKDLDQAIALANDIPFGLGASAWTNDPAEQQRFIQELDAGAVFINGMVKSDPRLPFGGTKRSGYGRELGLAGIRTFVNAKTVWLK AIATINPTTGEICQRFKALTPAEIDAKLAKAQEAFQAYRRTSFSQRRQWLENAAAILERDTSKFAEIMTTEMGKTHQSAIAEAEKSALVCRYYAEHGEQFLANEYTETQATESYVCYQPLGILLAVMPWNFPFWQVFRFAAPALMAGNVAVLKHASNVPQCALAVEAILEAAGFPEGVFQTLLIGASQVEQVIKDPRVKAATLTGSEPAGASLASLAGQEIKPTLLELGGSDPFVVFPSADLDEAVEVGTVARTMNNGQSCIAAKRFILHEAIAAEFLEKLHLKFASLKIGDPMAPETDIGPLATEGILQDISRQVDQAVAAGAKILLGGRPLDRAGYFYPPTILTEIPPGAKILQEELFAPVAMVFTVKDLDQAIALANDIPFGLGASAWTNDPAEQQRFIQELDAGAVFINGMVKSDPRLPFGGTKRSGYGRELGLAGIRTFVNAKTVWLK 4itr-a1-m1-cB_4itr-a1-m1-cA Crystal Structure of IbpAFic2-H3717A in complex with adenylylated Cdc42 Q06277 Q06277 2.3 X-RAY DIFFRACTION 62 1.0 228400 (Histophilus somni 2336) 228400 (Histophilus somni 2336) 296 299 6siu-a1-m1-cA_6siu-a1-m1-cB VNYQDLEDNLNLKGLISLEDDRNANFESNVLKNEKFLDEAREISKKSIPEATVKQMSHLPEFDDILTEGAKKVESRINKAITFRPSVEEFSEIQDLVKTLPKTKVIEDLSTKTNEITEALAATSKTIQRTPELKEQLKTAIEDFLQNSQGKPLTVQMIENLNHGLRPDEGEGRLLYKKENLTKENAVFSSPEAAKIQLAETVDFINRAKNEGIEPSVVGALVYQRLIAYAPFAEGNGRMARVIVNKILLDAGYPAFTKFSDEFEPQIIPQTKASTKSATSSEVVVEFLKELAKKGS VNYQDLEDNLNLKGLISLEDDRNANFESNVLKNEKFLDEAREISKKSIPEATVKQMSHLPEFDDILTEGAKKVESRINKAITFRPSVEEFSEIQDLVKTLPKTKVIEDLSTKTNEITEALAATSKTIQRTPELKEQLKTAIEDFLQNSQGKPLTVQMIENLNHGLRPDEGEGRLLYKKENLTKENAVFSSPEAAKIQLAETVDFINRAKNEGIEPSVVGALVYQRLIAYAPFAEGNGRMARVIVNKILLDAGYPAFTKFSDEFEPQIIPQTKASTKSATSSEVVVEFLKELAKKGSKED 4its-a2-m1-cA_4its-a2-m2-cA Crystal structure of the catalytic domain of human Pus1 with MES in the active site Q9Y606 Q9Y606 1.85 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 296 PPKRKIVLLMAYSGKGYHGMQRQFKTIEDDLVSALVRSGCIPENHGEDMRKMSFQRCARTDKGVSAAGQVVSLKVWLIDDILEKINSHLPSHIRILGLKRVTGGFNCDARTYCYLLPTFAFAHKDRDVQDETYRLSAETLQQVNRLLACYKGTHNFHNFTSQKGPQDPSACRYILEMYCEEPFVREGLEFAVIRVKGQSFMMHQIRKMVGLVVAIVKGYAPESVLERSWGTEKVDVPKAPGLGLVLERVHFPLDWAQEEGKVAAFKEEHIYPTIIGTERDERSMAQWLSTLPIHNF PPKRKIVLLMAYSGKGYHGMQRQFKTIEDDLVSALVRSGCIPENHGEDMRKMSFQRCARTDKGVSAAGQVVSLKVWLIDDILEKINSHLPSHIRILGLKRVTGGFNCDARTYCYLLPTFAFAHKDRDVQDETYRLSAETLQQVNRLLACYKGTHNFHNFTSQKGPQDPSACRYILEMYCEEPFVREGLEFAVIRVKGQSFMMHQIRKMVGLVVAIVKGYAPESVLERSWGTEKVDVPKAPGLGLVLERVHFPLDWAQEEGKVAAFKEEHIYPTIIGTERDERSMAQWLSTLPIHNF 4itz-a1-m1-cA_4itz-a1-m1-cB Crystal structure of the FK506 binding domain of Plasmodium vivax FKBP35 in complex with a tetrapeptide substrate A5K8X6 A5K8X6 1.65 X-RAY DIFFRACTION 46 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 121 121 3ihz-a1-m1-cB_3ihz-a1-m1-cA 3ni6-a1-m1-cB_3ni6-a1-m1-cA 4j4o-a1-m1-cA_4j4o-a1-m2-cA 4mgv-a1-m1-cA_4mgv-a1-m2-cA LEQVHLTEDGGVVKTILRKGEGGEENAPKKGNEVTVHYVGKLESSGKVFDSSRERNVPFKFHLGQGEVIKGWDICVASMTKNEKCSVRLDSKYGYGEEGCGESIPGNSVLIFEIELISFRE LEQVHLTEDGGVVKTILRKGEGGEENAPKKGNEVTVHYVGKLESSGKVFDSSRERNVPFKFHLGQGEVIKGWDICVASMTKNEKCSVRLDSKYGYGEEGCGESIPGNSVLIFEIELISFRE 4iua-a9-m1-cA_4iua-a9-m1-cF Crystal Structure of the NK2 Fragment (31-290) of the mouse Hepatocyte Growth Factor/Scatter Factor Q08048 Q08048 3.05 X-RAY DIFFRACTION 101 1.0 10090 (Mus musculus) 10090 (Mus musculus) 254 254 4iua-a10-m1-cB_4iua-a10-m1-cC 4iua-a11-m1-cH_4iua-a11-m1-cD 4iua-a12-m1-cG_4iua-a12-m1-cE RNTLHEFKKSAKTTLTKEDPLLKIKTKKVNSADECANRCIRNRGFTFTCKAFVFDKSRKRCYWYPFNSMSSGVKKGFGHEFDLYENKDYIRNCIIGKGGSYKGTVSITKSGIKCQPWNSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVECMTANGESYRGPMDHTESGKTCQRWDQQTPHRHKFLPERYPDKGFDDNYCRNPDGKPRPWCYTLDPDTPWEYCAIKTCA RNTLHEFKKSAKTTLTKEDPLLKIKTKKVNSADECANRCIRNRGFTFTCKAFVFDKSRKRCYWYPFNSMSSGVKKGFGHEFDLYENKDYIRNCIIGKGGSYKGTVSITKSGIKCQPWNSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVECMTANGESYRGPMDHTESGKTCQRWDQQTPHRHKFLPERYPDKGFDDNYCRNPDGKPRPWCYTLDPDTPWEYCAIKTCA 4iuo-a1-m1-cA_4iuo-a1-m1-cB 1.8 Angstrom Crystal Structure of the Salmonella enterica 3-Dehydroquinate Dehydratase (aroD) K170M Mutant in Complex with Quinate P58687 P58687 1.8 X-RAY DIFFRACTION 53 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 259 260 3l2i-a1-m1-cB_3l2i-a1-m1-cA 3lb0-a1-m1-cB_3lb0-a1-m1-cA 3m7w-a1-m1-cA_3m7w-a1-m1-cD 3m7w-a2-m1-cB_3m7w-a2-m1-cC 3m7w-a3-m1-cE_3m7w-a3-m1-cF 3nnt-a1-m1-cA_3nnt-a1-m1-cB 3o1n-a1-m1-cB_3o1n-a1-m1-cA 3oex-a1-m1-cA_3oex-a1-m1-cB 3oex-a2-m1-cC_3oex-a2-m1-cD 3s42-a1-m1-cA_3s42-a1-m1-cB 4gfs-a1-m1-cB_4gfs-a1-m1-cA 4guf-a1-m1-cA_4guf-a1-m1-cB 4gug-a1-m1-cB_4gug-a1-m1-cA 4guh-a1-m1-cA_4guh-a1-m1-cB 4gui-a1-m1-cA_4gui-a1-m1-cB 4guj-a1-m1-cA_4guj-a1-m1-cB NLYFQSNAMKTVTVRDLVVGEGAPKIIVSLMGKTITDVKSEALAYREADFDILEWRVDHFANVTTAESVLEAAGAIREIITDKPLLFTFRSAKEGGEQALTTGQYIDLNRAAVDSGLVDMIDLELFTGDDEVKATVGYAHQHNVAVIMSNHDFHKTPAAEEIVQRLRKMQELGADIPMIAVMPQTKADVLTLLTATVEMQERYADRPIITMSMSKTGVISRLAGEVFGSAATFGAVKKASAPGQISVADLRTVLTILHQ NLYFQSNAMKTVTVRDLVVGEGAPKIIVSLMGKTITDVKSEALAYREADFDILEWRVDHFANVTTAESVLEAAGAIREIITDKPLLFTFRSAKEGGEQALTTGQYIDLNRAAVDSGLVDMIDLELFTGDDEVKATVGYAHQHNVAVIMSNHDFHKTPAAEEIVQRLRKMQELGADIPMIAVMPQTKADVLTLLTATVEMQERYADRPIITMSMSKTGVISRLAGEVFGSAATFGAVKKASAPGQISVADLRTVLTILHQA 4iv6-a1-m1-cA_4iv6-a1-m2-cB X-ray crystal structure of an isovaleryl-CoA dehydrogenase from Mycobacterium smegmatis A0QTW7 A0QTW7 2 X-RAY DIFFRACTION 128 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 382 383 4iv6-a1-m2-cA_4iv6-a1-m1-cB LTAEEETIVKTVHDFVEKQVKPVVRELEHANTYPEELIETMKEIGIFGLAIPEPYGFGAVSMPCYVQVAEELARGWMSLAGAMGGHTVVSKLLLLFGTEEQKQKYLPRMATGELRATMALTEPGGGSDLQAMRTVARRDGDDYVINGSKTWISNARRSDLVALMCKTDPDAQPAHKGVSILLVEKVPGFDVSRDLPKLGYKGVESCELNFTDARVPVSSLLGDDEGRGFAQMMKGLEVGRLQVAARATGVARAAFEDALRYSQERESFGKPIWQHQSVGNMLADMGTKLYAARSLLLSAAEKFDAGQRCDMEAGMAKLFASETAMQIALDAVRVHGGYGYSTEYDVERYFRDAPLMIVGEGTNEIQRNVIAKQLVARGGLDI ALTAEEETIVKTVHDFVEKQVKPVVRELEHANTYPEELIETMKEIGIFGLAIPEPYGFGAVSMPCYVQVAEELARGWMSLAGAMGGHTVVSKLLLLFGTEEQKQKYLPRMATGELRATMALTEPGGGSDLQAMRTVARRDGDDYVINGSKTWISNARRSDLVALMCKTDPDAQPAHKGVSILLVEKVPGFDVSRDLPKLGYKGVESCELNFTDARVPVSSLLGDDEGRGFAQMMKGLEVGRLQVAARATGVARAAFEDALRYSQERESFGKPIWQHQSVGNMLADMGTKLYAARSLLLSAAEKFDAGQRCDMEAGMAKLFASETAMQIALDAVRVHGGYGYSTEYDVERYFRDAPLMIVGEGTNEIQRNVIAKQLVARGGLDI 4iv6-a1-m1-cB_4iv6-a1-m2-cB X-ray crystal structure of an isovaleryl-CoA dehydrogenase from Mycobacterium smegmatis A0QTW7 A0QTW7 2 X-RAY DIFFRACTION 10 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 383 383 4iv6-a1-m1-cA_4iv6-a1-m2-cA ALTAEEETIVKTVHDFVEKQVKPVVRELEHANTYPEELIETMKEIGIFGLAIPEPYGFGAVSMPCYVQVAEELARGWMSLAGAMGGHTVVSKLLLLFGTEEQKQKYLPRMATGELRATMALTEPGGGSDLQAMRTVARRDGDDYVINGSKTWISNARRSDLVALMCKTDPDAQPAHKGVSILLVEKVPGFDVSRDLPKLGYKGVESCELNFTDARVPVSSLLGDDEGRGFAQMMKGLEVGRLQVAARATGVARAAFEDALRYSQERESFGKPIWQHQSVGNMLADMGTKLYAARSLLLSAAEKFDAGQRCDMEAGMAKLFASETAMQIALDAVRVHGGYGYSTEYDVERYFRDAPLMIVGEGTNEIQRNVIAKQLVARGGLDI ALTAEEETIVKTVHDFVEKQVKPVVRELEHANTYPEELIETMKEIGIFGLAIPEPYGFGAVSMPCYVQVAEELARGWMSLAGAMGGHTVVSKLLLLFGTEEQKQKYLPRMATGELRATMALTEPGGGSDLQAMRTVARRDGDDYVINGSKTWISNARRSDLVALMCKTDPDAQPAHKGVSILLVEKVPGFDVSRDLPKLGYKGVESCELNFTDARVPVSSLLGDDEGRGFAQMMKGLEVGRLQVAARATGVARAAFEDALRYSQERESFGKPIWQHQSVGNMLADMGTKLYAARSLLLSAAEKFDAGQRCDMEAGMAKLFASETAMQIALDAVRVHGGYGYSTEYDVERYFRDAPLMIVGEGTNEIQRNVIAKQLVARGGLDI 4iv6-a1-m2-cA_4iv6-a1-m2-cB X-ray crystal structure of an isovaleryl-CoA dehydrogenase from Mycobacterium smegmatis A0QTW7 A0QTW7 2 X-RAY DIFFRACTION 111 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 382 383 4iv6-a1-m1-cA_4iv6-a1-m1-cB LTAEEETIVKTVHDFVEKQVKPVVRELEHANTYPEELIETMKEIGIFGLAIPEPYGFGAVSMPCYVQVAEELARGWMSLAGAMGGHTVVSKLLLLFGTEEQKQKYLPRMATGELRATMALTEPGGGSDLQAMRTVARRDGDDYVINGSKTWISNARRSDLVALMCKTDPDAQPAHKGVSILLVEKVPGFDVSRDLPKLGYKGVESCELNFTDARVPVSSLLGDDEGRGFAQMMKGLEVGRLQVAARATGVARAAFEDALRYSQERESFGKPIWQHQSVGNMLADMGTKLYAARSLLLSAAEKFDAGQRCDMEAGMAKLFASETAMQIALDAVRVHGGYGYSTEYDVERYFRDAPLMIVGEGTNEIQRNVIAKQLVARGGLDI ALTAEEETIVKTVHDFVEKQVKPVVRELEHANTYPEELIETMKEIGIFGLAIPEPYGFGAVSMPCYVQVAEELARGWMSLAGAMGGHTVVSKLLLLFGTEEQKQKYLPRMATGELRATMALTEPGGGSDLQAMRTVARRDGDDYVINGSKTWISNARRSDLVALMCKTDPDAQPAHKGVSILLVEKVPGFDVSRDLPKLGYKGVESCELNFTDARVPVSSLLGDDEGRGFAQMMKGLEVGRLQVAARATGVARAAFEDALRYSQERESFGKPIWQHQSVGNMLADMGTKLYAARSLLLSAAEKFDAGQRCDMEAGMAKLFASETAMQIALDAVRVHGGYGYSTEYDVERYFRDAPLMIVGEGTNEIQRNVIAKQLVARGGLDI 4iv8-a1-m1-cA_4iv8-a1-m1-cB Crystal structure of N-methyl transferase from Plasmodium knowlesi complexed with S-adenosyl methionine A0A384KJX3 A0A384KJX3 1.9 X-RAY DIFFRACTION 45 1.0 5851 (Plasmodium knowlesi strain H) 5851 (Plasmodium knowlesi strain H) 245 245 GIKAYEFIFGEDYISSGGIVATTKILSDIYLEPNSKVLDIGSGLGGGCKYINEKYDAHVYGVDICEKMIAIAKLRNKDKSKVEFEAMDILKKDFPECTFDMIYSRDAILHLPYADKKKLFEKCYKWLKPNGILLITDYCADKIENWDEEFKAYINKRKYTLIPIQDYGDLIKSCNFQNVQAKDISDYWLELLQMELNKLEEKKDEFLKLYPTDEYNSLKDGWTRKIKDTKRHLQKWGYFKAQKMV GIKAYEFIFGEDYISSGGIVATTKILSDIYLEPNSKVLDIGSGLGGGCKYINEKYDAHVYGVDICEKMIAIAKLRNKDKSKVEFEAMDILKKDFPECTFDMIYSRDAILHLPYADKKKLFEKCYKWLKPNGILLITDYCADKIENWDEEFKAYINKRKYTLIPIQDYGDLIKSCNFQNVQAKDISDYWLELLQMELNKLEEKKDEFLKLYPTDEYNSLKDGWTRKIKDTKRHLQKWGYFKAQKMV 4iv9-a1-m1-cA_4iv9-a1-m1-cB Structure of the Flavoprotein Tryptophan-2-Monooxygenase P06617 P06617 1.951 X-RAY DIFFRACTION 113 1.0 29438 (Pseudomonas savastanoi) 29438 (Pseudomonas savastanoi) 552 552 NSPSIDILYDYGPFLKKCEMTGGIGSYSAGTPTPRVAIVGAGISGLVAATELLRAGVKDVVLYESRDRIGGRVWSQVFDQTRPRYIAEMGAMRFPPSATGLFHYLKKFGISTSTTFPDPGVVDTELHYRGKRYHWPAGKKPPELFRRVYEGWQSLLSEGYLLEGGSLVAPLDITAMLKSGRLEEAAIAWQGWLNVFRDCSFYNAIVCIFTGRHPPGGDRWARPEDFELFGSLGIGSGGFLPVFQAGFTEILRMVINGYQSDQRLIPDGISSLAARLADQSFDGKALRDRVCFSRVGRISREAEKIIIQTEAGEQRVFDRVIVTSSNRAMQMIHCLTDSESFLSRDVARAVRETHLTGSSKLFILTRTKFWIKNKLPTTIQSDGLVRGVYCLDYQPDEPEGHGVVLLSYTWEDDAQKMLAMPDKKTRCQVLVDDLAAIHPTFASYLLPVDGDYERYVLHHDWLTDPHSAGAFKLNYPGEDVYSQRLFFQPMTANSPNKDTGLYLAGCSCSFAGGWIEGAVQTALNSACAVLRSTGGQLSKGNPLDCINASYRY NSPSIDILYDYGPFLKKCEMTGGIGSYSAGTPTPRVAIVGAGISGLVAATELLRAGVKDVVLYESRDRIGGRVWSQVFDQTRPRYIAEMGAMRFPPSATGLFHYLKKFGISTSTTFPDPGVVDTELHYRGKRYHWPAGKKPPELFRRVYEGWQSLLSEGYLLEGGSLVAPLDITAMLKSGRLEEAAIAWQGWLNVFRDCSFYNAIVCIFTGRHPPGGDRWARPEDFELFGSLGIGSGGFLPVFQAGFTEILRMVINGYQSDQRLIPDGISSLAARLADQSFDGKALRDRVCFSRVGRISREAEKIIIQTEAGEQRVFDRVIVTSSNRAMQMIHCLTDSESFLSRDVARAVRETHLTGSSKLFILTRTKFWIKNKLPTTIQSDGLVRGVYCLDYQPDEPEGHGVVLLSYTWEDDAQKMLAMPDKKTRCQVLVDDLAAIHPTFASYLLPVDGDYERYVLHHDWLTDPHSAGAFKLNYPGEDVYSQRLFFQPMTANSPNKDTGLYLAGCSCSFAGGWIEGAVQTALNSACAVLRSTGGQLSKGNPLDCINASYRY 4ive-a1-m1-cA_4ive-a1-m1-cD Crystal structure of a polyadenylate-binding protein 3 (PABPC3) from Homo sapiens at 2.30 A resolution Q9H361 Q9H361 2.3 X-RAY DIFFRACTION 38 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 4ive-a1-m1-cC_4ive-a1-m1-cB QETLTASRLASAPPQKQKQLGERLFPLIQAHPTLAGKITGLLEIDNSELLYLESPESLRSKVDEAVAVLQAH ETLTASRLASAPPQKQKQLGERLFPLIQAHPTLAGKITGLLEIDNSELLYLESPESLRSKVDEAVAVLQAHQ 4ive-a1-m1-cD_4ive-a1-m1-cB Crystal structure of a polyadenylate-binding protein 3 (PABPC3) from Homo sapiens at 2.30 A resolution Q9H361 Q9H361 2.3 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 73 ETLTASRLASAPPQKQKQLGERLFPLIQAHPTLAGKITGLLEIDNSELLYLESPESLRSKVDEAVAVLQAHQ ETLTASRLASAPPQKQKQLGERLFPLIQAHPTLAGKITGLLEIDNSELLYLESPESLRSKVDEAVAVLQAHQA 4ive-a3-m1-cC_4ive-a3-m1-cD Crystal structure of a polyadenylate-binding protein 3 (PABPC3) from Homo sapiens at 2.30 A resolution Q9H361 Q9H361 2.3 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 4ive-a1-m1-cA_4ive-a1-m1-cB 4ive-a1-m1-cC_4ive-a1-m1-cD 4ive-a2-m1-cA_4ive-a2-m1-cB ETLTASRLASAPPQKQKQLGERLFPLIQAHPTLAGKITGLLEIDNSELLYLESPESLRSKVDEAVAVLQAHQ ETLTASRLASAPPQKQKQLGERLFPLIQAHPTLAGKITGLLEIDNSELLYLESPESLRSKVDEAVAVLQAHQ 4ivf-a4-m1-cH_4ivf-a4-m1-cE Crystal structure of glutathione transferase homolog from Lodderomyces elongisporus, target EFI-501753, with two GSH per subunit A5E437 A5E437 2.2 X-RAY DIFFRACTION 103 1.0 379508 (Lodderomyces elongisporus NRRL YB-4239) 379508 (Lodderomyces elongisporus NRRL YB-4239) 218 226 4ivf-a1-m1-cA_4ivf-a1-m1-cF 4ivf-a2-m1-cB_4ivf-a2-m1-cG 4ivf-a3-m1-cD_4ivf-a3-m1-cC LKPIKLYTAPTPNGYKISIFLEVLGLDYEVQKFDLSKNETKEDWFVKLNPNGRIPTINDPNFKGVDGGLVLSQTGAILQYLADTYDKEHKFSYPAGTAEYYKTLEYLIFQVAENGPIQGQANHFVFAAKEKVPYGINRYITDTKRIYGVFEDILSRNKANDSKYLVGDRYTVADFALLGWAYRLSRLEIDINQWPLLGKWYDSLLKLPAVQKGFEVPP LKPIKLYTAPTPNGYKISIFLEVLGLDYEVQKFDLSKNETKEDWFVKLNPNGRIPTINDPNFKGVDGGLVLSQTGAILQYLADTYDKEHKFSYPAGTAEYYKTLEYLIFQVAENGPIQGQANHFVFAAKEKVPYGINRYITDTKRIYGVFEDILSRNKANDSKYLVGDRYTVADFALLGWAYRLSRLEIDINQWPLLGKWYDSLLKLPAVQKGFEVPPKNAENLYF 4ivg-a2-m1-cA_4ivg-a2-m4-cA Crystal structure of mitochondrial Hsp90 (TRAP1) NTD-Middle domain dimer with AMPPNP A8WFV1 A8WFV1 1.749 X-RAY DIFFRACTION 36 1.0 7955 (Danio rerio) 7955 (Danio rerio) 477 477 4ivg-a2-m2-cA_4ivg-a2-m3-cA TLHNIITDTENVQGSFSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNGSDALEKLRHRMITTAPMEIHLQTDSVKGTFTIQDTGVGMNKEDLVSNLGTIARSGSKAFLDALQNQAEASSSIIGQFGVGFYSAFMVADKVEVYSQSAEADAPGYKWSSDGSGVFEVAEASGVRQGTKIVLHLKDDCKEFSSEDRVKEVVTKYSNFVSFPIFLNGRRLNTLQALWMMEPKDISEWQHEEFYRYVAQAYDKPRYTLHYRADAPLNIRSIFYVPEMKPSMFDVSRSSVALYSRKILIQTKATDILPKWLRFLRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRVIRFLLDQSKKDPEKYARFFEDYGLFMREGIVTTGEQSVKEDIAKLLRFESSALPAGQQTSLMEYSSRMKAGTRNIYYLCAPNRHLAEHSPYFEAMKQKDMEVLFCFEQFDELTLLHLREFDRKKLISAATD TLHNIITDTENVQGSFSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNGSDALEKLRHRMITTAPMEIHLQTDSVKGTFTIQDTGVGMNKEDLVSNLGTIARSGSKAFLDALQNQAEASSSIIGQFGVGFYSAFMVADKVEVYSQSAEADAPGYKWSSDGSGVFEVAEASGVRQGTKIVLHLKDDCKEFSSEDRVKEVVTKYSNFVSFPIFLNGRRLNTLQALWMMEPKDISEWQHEEFYRYVAQAYDKPRYTLHYRADAPLNIRSIFYVPEMKPSMFDVSRSSVALYSRKILIQTKATDILPKWLRFLRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRVIRFLLDQSKKDPEKYARFFEDYGLFMREGIVTTGEQSVKEDIAKLLRFESSALPAGQQTSLMEYSSRMKAGTRNIYYLCAPNRHLAEHSPYFEAMKQKDMEVLFCFEQFDELTLLHLREFDRKKLISAATD 4ivg-a2-m2-cA_4ivg-a2-m4-cA Crystal structure of mitochondrial Hsp90 (TRAP1) NTD-Middle domain dimer with AMPPNP A8WFV1 A8WFV1 1.749 X-RAY DIFFRACTION 20 1.0 7955 (Danio rerio) 7955 (Danio rerio) 477 477 4ivg-a2-m1-cA_4ivg-a2-m3-cA TLHNIITDTENVQGSFSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNGSDALEKLRHRMITTAPMEIHLQTDSVKGTFTIQDTGVGMNKEDLVSNLGTIARSGSKAFLDALQNQAEASSSIIGQFGVGFYSAFMVADKVEVYSQSAEADAPGYKWSSDGSGVFEVAEASGVRQGTKIVLHLKDDCKEFSSEDRVKEVVTKYSNFVSFPIFLNGRRLNTLQALWMMEPKDISEWQHEEFYRYVAQAYDKPRYTLHYRADAPLNIRSIFYVPEMKPSMFDVSRSSVALYSRKILIQTKATDILPKWLRFLRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRVIRFLLDQSKKDPEKYARFFEDYGLFMREGIVTTGEQSVKEDIAKLLRFESSALPAGQQTSLMEYSSRMKAGTRNIYYLCAPNRHLAEHSPYFEAMKQKDMEVLFCFEQFDELTLLHLREFDRKKLISAATD TLHNIITDTENVQGSFSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNGSDALEKLRHRMITTAPMEIHLQTDSVKGTFTIQDTGVGMNKEDLVSNLGTIARSGSKAFLDALQNQAEASSSIIGQFGVGFYSAFMVADKVEVYSQSAEADAPGYKWSSDGSGVFEVAEASGVRQGTKIVLHLKDDCKEFSSEDRVKEVVTKYSNFVSFPIFLNGRRLNTLQALWMMEPKDISEWQHEEFYRYVAQAYDKPRYTLHYRADAPLNIRSIFYVPEMKPSMFDVSRSSVALYSRKILIQTKATDILPKWLRFLRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRVIRFLLDQSKKDPEKYARFFEDYGLFMREGIVTTGEQSVKEDIAKLLRFESSALPAGQQTSLMEYSSRMKAGTRNIYYLCAPNRHLAEHSPYFEAMKQKDMEVLFCFEQFDELTLLHLREFDRKKLISAATD 4ivg-a2-m3-cA_4ivg-a2-m4-cA Crystal structure of mitochondrial Hsp90 (TRAP1) NTD-Middle domain dimer with AMPPNP A8WFV1 A8WFV1 1.749 X-RAY DIFFRACTION 235 1.0 7955 (Danio rerio) 7955 (Danio rerio) 477 477 4ivg-a1-m1-cA_4ivg-a1-m2-cA 4ivg-a2-m1-cA_4ivg-a2-m2-cA TLHNIITDTENVQGSFSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNGSDALEKLRHRMITTAPMEIHLQTDSVKGTFTIQDTGVGMNKEDLVSNLGTIARSGSKAFLDALQNQAEASSSIIGQFGVGFYSAFMVADKVEVYSQSAEADAPGYKWSSDGSGVFEVAEASGVRQGTKIVLHLKDDCKEFSSEDRVKEVVTKYSNFVSFPIFLNGRRLNTLQALWMMEPKDISEWQHEEFYRYVAQAYDKPRYTLHYRADAPLNIRSIFYVPEMKPSMFDVSRSSVALYSRKILIQTKATDILPKWLRFLRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRVIRFLLDQSKKDPEKYARFFEDYGLFMREGIVTTGEQSVKEDIAKLLRFESSALPAGQQTSLMEYSSRMKAGTRNIYYLCAPNRHLAEHSPYFEAMKQKDMEVLFCFEQFDELTLLHLREFDRKKLISAATD TLHNIITDTENVQGSFSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNGSDALEKLRHRMITTAPMEIHLQTDSVKGTFTIQDTGVGMNKEDLVSNLGTIARSGSKAFLDALQNQAEASSSIIGQFGVGFYSAFMVADKVEVYSQSAEADAPGYKWSSDGSGVFEVAEASGVRQGTKIVLHLKDDCKEFSSEDRVKEVVTKYSNFVSFPIFLNGRRLNTLQALWMMEPKDISEWQHEEFYRYVAQAYDKPRYTLHYRADAPLNIRSIFYVPEMKPSMFDVSRSSVALYSRKILIQTKATDILPKWLRFLRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRVIRFLLDQSKKDPEKYARFFEDYGLFMREGIVTTGEQSVKEDIAKLLRFESSALPAGQQTSLMEYSSRMKAGTRNIYYLCAPNRHLAEHSPYFEAMKQKDMEVLFCFEQFDELTLLHLREFDRKKLISAATD 4ivh-a1-m1-cA_4ivh-a1-m4-cA Crystal structure of QKLVFFAED nonapeptide segment from amyloid beta incorporated into a macrocyclic beta-sheet template 1.77 X-RAY DIFFRACTION 27 1.0 32630 (synthetic construct) 32630 (synthetic construct) 11 11 4ivh-a1-m2-cA_4ivh-a1-m3-cA TQKLVFFAEDK TQKLVFFAEDK 4ivn-a1-m1-cB_4ivn-a1-m1-cA The Vibrio vulnificus NanR protein complexed with ManNAc-6P Q7MD38 Q7MD38 1.9 X-RAY DIFFRACTION 165 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 261 264 NLLVRLRSNMEPFSKKLRVVADYILENAHDVQFQTITDLARNTQTSEATVVRLCRDMGYKGYSDFRMALAVDLSQDICDVSAQSAVDSLQDTAKLIDRKSLARIVERVHQAEFIGCIGVGASSIVGRYLAYRLIRIGKKAIMFEDTHLAAMSASRSSQGDLWFAVSSSGSTKEVIHAAGLAYKRDIPVVSLTNINHSPLSSLSTEMLVAARPEGPLTGGAFASKVGALLLVDVLVNSLLESYPEYKDSVQETAEVVIPLMA NLLVRLRSNMEPFSKKLRVVADYILENAHDVQFQTITDLARNTQTSEATVVRLCRDMGYKGYSDFRMALAVDLSQTGDICDVSAQSAVDSLQDTAKLIDRKSLARIVERVHQAEFIGCIGVGASSIVGRYLAYRLIRIGKKAIMFEDTHLAAMSASRSSQGDLWFAVSSSGSTKEVIHAAGLAYKRDIPVVSLTNINHSPLSSLSTEMLVAARPEGPLTGGAFASKVGALLLVDVLVNSLLESYPEYKDSVQETAEVVIPLMAN 4iw4-a2-m1-cE_4iw4-a2-m2-cE Crystal structure of the serine protease domain of MASP-3 in complex with ecotin P48740 P48740 3.2 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 IIGGRNAEPGLFPWQALIVVEKWFGSGALLSASWILTAAHVLRSQRRDTTVIPVSKEHVTVYLGLHDVRAVNSSAARVVLHPDFNIQNYNHDIALVQLQEPVPLGPHVMPVCLPRLGPAPHMLGLVAGWGISNLSDVLQYVKLPVVPHAECKTSYESRSGNYSVTENMFCAGYYEGGKDTCLGDSGGAFVIFDDLSQRWVVQGLVSWGGPEECGSKQVYGVYTKVSNYVDWVWEQMGLPQSVVE IIGGRNAEPGLFPWQALIVVEKWFGSGALLSASWILTAAHVLRSQRRDTTVIPVSKEHVTVYLGLHDVRAVNSSAARVVLHPDFNIQNYNHDIALVQLQEPVPLGPHVMPVCLPRLGPAPHMLGLVAGWGISNLSDVLQYVKLPVVPHAECKTSYESRSGNYSVTENMFCAGYYEGGKDTCLGDSGGAFVIFDDLSQRWVVQGLVSWGGPEECGSKQVYGVYTKVSNYVDWVWEQMGLPQSVVE 4iw7-a1-m1-cA_4iw7-a1-m2-cA Crystal structure of 8-amino-7-oxononanoate synthase (bioF) from Francisella tularensis. Q5NGB3 Q5NGB3 2.25 X-RAY DIFFRACTION 110 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 334 334 DDSIIDFTTSDYLNLSSAHNLKHAIVNGFDKYGFGSKTDETQQFEHEFAKFINYPRAIFFSSGFMANLAIYSTLFSKHDSIFADKYIHASIIDGIKLSQAKLRRYKHQQLSQLQDIYDGKSFITTEGVFSTSGSITQLDKLAKITPEKLIVDEAHSFGVLGKNGRGAINSFRISYKNCLICVFPLGKAFGGVGAVVCTTEAIAEYLIQFARNYIYTTALPPMILKAALIQLKNLENVNDNRARLQQNITFFNELCDAKDLELVSKDLSPIRSIQLNNANLAIRLKDKLFENKIIVSFRYPTQAILRFSLHSNNTFDQIQQALEIISKEVKYEYI DDSIIDFTTSDYLNLSSAHNLKHAIVNGFDKYGFGSKTDETQQFEHEFAKFINYPRAIFFSSGFMANLAIYSTLFSKHDSIFADKYIHASIIDGIKLSQAKLRRYKHQQLSQLQDIYDGKSFITTEGVFSTSGSITQLDKLAKITPEKLIVDEAHSFGVLGKNGRGAINSFRISYKNCLICVFPLGKAFGGVGAVVCTTEAIAEYLIQFARNYIYTTALPPMILKAALIQLKNLENVNDNRARLQQNITFFNELCDAKDLELVSKDLSPIRSIQLNNANLAIRLKDKLFENKIIVSFRYPTQAILRFSLHSNNTFDQIQQALEIISKEVKYEYI 4iw9-a1-m1-cA_4iw9-a1-m1-cB Crystal structure of glutathione s-transferase mha_0454 (target efi-507015) from mannheimia haemolytica, gsh complex 1.76 X-RAY DIFFRACTION 99 1.0 272629 (Mannheimia haemolytica PHL213) 272629 (Mannheimia haemolytica PHL213) 210 215 4iq1-a1-m1-cA_4iq1-a1-m1-cB 4iq1-a2-m1-cC_4iq1-a2-m2-cC 4iw9-a2-m1-cC_4iw9-a2-m2-cC SMKLYGLTGACSFVPHVALEWVKLRANQDYAFQAVSREFIKSAEYLALNPRGNVPLLVDGDLALTQNQAIVHYLDELYPEAKLFGSKTARDKAKAARWLAFFNSDVHKSFVPLFRLPSYAEGNETLTKTIRQQSAEQILEQLAFANAHLENHIFFGEEISVADAYLYIMLNWCRLLGLDFSHLSQLSAFMQRVEADQGVDNVREQEGLKG NLYFQSMKLYGLTGACSFVPHVALEWVKLRANQDYAFQAVSREFIKSAEYLALNPRGNVPLLVDGDLALTQNQAIVHYLDELYPEAKLFGSKTARDKAKAARWLAFFNSDVHKSFVPLFRLPSYAEGNETLTKTIRQQSAEQILEQLAFANAHLENHIFFGEEISVADAYLYIMLNWCRLLGLDFSHLSQLSAFMQRVEADQGVDNVREQEGLKG 4iwg-a2-m2-cB_4iwg-a2-m2-cC Crystal Structure of the Conserved Hypothetical Protein MJ0927 from Methanocaldococcus jannaschii (in C2221 form) Q58337 Q58337 2.472 X-RAY DIFFRACTION 34 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 244 244 4iwg-a1-m1-cA_4iwg-a1-m1-cB 4iwg-a1-m1-cA_4iwg-a1-m1-cC 4iwg-a1-m1-cB_4iwg-a1-m1-cC 4iwg-a2-m1-cA_4iwg-a2-m1-cB 4iwg-a2-m1-cA_4iwg-a2-m1-cC 4iwg-a2-m1-cB_4iwg-a2-m1-cC 4iwg-a2-m2-cA_4iwg-a2-m2-cB 4iwg-a2-m2-cA_4iwg-a2-m2-cC 4iwm-a1-m1-cA_4iwm-a1-m1-cB 4iwm-a1-m1-cA_4iwm-a1-m1-cC 4iwm-a1-m1-cB_4iwm-a1-m1-cC 4iwm-a1-m1-cD_4iwm-a1-m1-cE 4iwm-a1-m1-cD_4iwm-a1-m1-cF 4iwm-a1-m1-cE_4iwm-a1-m1-cF MKAKEIIEFIETFAPKDLAIEGDNIGLQVGDNLDKEIKKLGIALDPSLSVIKKAEKEGVDFLFTHHPLLKDPIRNFTGVIYKKLKILMENDIILYSAHTNLDICKNGLNDALAELYNLENPKPLYDNGLGRVGIFKGSFEEFLEITKKYIHKNPIVVKSKEVDDNFKLAVLSGYGLSQSSIKYVAEKADVYLSGDLTHHSKILAEELGLVVVDATHYSTEVFGLKKFKEFLSSNLDLEIISLDF MKAKEIIEFIETFAPKDLAIEGDNIGLQVGDNLDKEIKKLGIALDPSLSVIKKAEKEGVDFLFTHHPLLKDPIRNFTGVIYKKLKILMENDIILYSAHTNLDICKNGLNDALAELYNLENPKPLYDNGLGRVGIFKGSFEEFLEITKKYIHKNPIVVKSKEVDDNFKLAVLSGYGLSQSSIKYVAEKADVYLSGDLTHHSKILAEELGLVVVDATHYSTEVFGLKKFKEFLSSNLDLEIISLDF 4iwk-a1-m4-cC_4iwk-a1-m4-cA Crystal structure of iron soaked (overnight) ferritin from Pseudo-nitzschia multiseries B6DMH6 B6DMH6 1.65 X-RAY DIFFRACTION 50 1.0 37319 (Pseudo-nitzschia multiseries) 37319 (Pseudo-nitzschia multiseries) 157 158 3e6r-a1-m1-cB_3e6r-a1-m3-cF 3e6r-a1-m1-cC_3e6r-a1-m1-cA 3e6r-a1-m1-cE_3e6r-a1-m3-cD 3e6r-a1-m2-cB_3e6r-a1-m4-cF 3e6r-a1-m2-cC_3e6r-a1-m2-cA 3e6r-a1-m2-cE_3e6r-a1-m4-cD 3e6r-a1-m3-cB_3e6r-a1-m2-cF 3e6r-a1-m3-cC_3e6r-a1-m3-cA 3e6r-a1-m3-cE_3e6r-a1-m2-cD 3e6r-a1-m4-cB_3e6r-a1-m1-cF 3e6r-a1-m4-cC_3e6r-a1-m4-cA 3e6r-a1-m4-cE_3e6r-a1-m1-cD 3e6s-a1-m1-cB_3e6s-a1-m3-cF 3e6s-a1-m1-cC_3e6s-a1-m1-cA 3e6s-a1-m1-cE_3e6s-a1-m3-cD 3e6s-a1-m2-cB_3e6s-a1-m4-cF 3e6s-a1-m2-cC_3e6s-a1-m2-cA 3e6s-a1-m2-cE_3e6s-a1-m4-cD 3e6s-a1-m3-cB_3e6s-a1-m2-cF 3e6s-a1-m3-cC_3e6s-a1-m3-cA 3e6s-a1-m3-cE_3e6s-a1-m2-cD 3e6s-a1-m4-cB_3e6s-a1-m1-cF 3e6s-a1-m4-cC_3e6s-a1-m4-cA 3e6s-a1-m4-cE_3e6s-a1-m1-cD 4ism-a1-m1-cA_4ism-a1-m1-cE 4ism-a1-m1-cC_4ism-a1-m1-cH 4ism-a1-m1-cD_4ism-a1-m2-cG 4ism-a1-m1-cF_4ism-a1-m1-cB 4ism-a1-m1-cG_4ism-a1-m3-cD 4ism-a1-m2-cA_4ism-a1-m2-cE 4ism-a1-m2-cC_4ism-a1-m2-cH 4ism-a1-m2-cD_4ism-a1-m3-cG 4ism-a1-m2-cF_4ism-a1-m2-cB 4ism-a1-m3-cA_4ism-a1-m3-cE 4ism-a1-m3-cC_4ism-a1-m3-cH 4ism-a1-m3-cF_4ism-a1-m3-cB 4isp-a1-m1-cA_4isp-a1-m1-cE 4isp-a1-m1-cC_4isp-a1-m1-cH 4isp-a1-m1-cF_4isp-a1-m1-cB 4isp-a1-m1-cG_4isp-a1-m2-cD 4isp-a1-m2-cA_4isp-a1-m2-cE 4isp-a1-m2-cC_4isp-a1-m2-cH 4isp-a1-m2-cF_4isp-a1-m2-cB 4isp-a1-m2-cG_4isp-a1-m3-cD 4isp-a1-m3-cA_4isp-a1-m3-cE 4isp-a1-m3-cC_4isp-a1-m3-cH 4isp-a1-m3-cF_4isp-a1-m3-cB 4isp-a1-m3-cG_4isp-a1-m1-cD 4itt-a1-m1-cC_4itt-a1-m1-cH 4itt-a1-m1-cE_4itt-a1-m1-cA 4itt-a1-m1-cF_4itt-a1-m1-cB 4itt-a1-m1-cG_4itt-a1-m3-cD 4itt-a1-m2-cC_4itt-a1-m2-cH 4itt-a1-m2-cE_4itt-a1-m2-cA 4itt-a1-m2-cF_4itt-a1-m2-cB 4itt-a1-m2-cG_4itt-a1-m1-cD 4itt-a1-m3-cC_4itt-a1-m3-cH 4itt-a1-m3-cE_4itt-a1-m3-cA 4itt-a1-m3-cF_4itt-a1-m3-cB 4itt-a1-m3-cG_4itt-a1-m2-cD 4itw-a1-m1-cA_4itw-a1-m1-cE 4itw-a1-m1-cC_4itw-a1-m1-cH 4itw-a1-m1-cF_4itw-a1-m1-cB 4itw-a1-m1-cG_4itw-a1-m2-cD 4itw-a1-m2-cA_4itw-a1-m2-cE 4itw-a1-m2-cC_4itw-a1-m2-cH 4itw-a1-m2-cF_4itw-a1-m2-cB 4itw-a1-m2-cG_4itw-a1-m3-cD 4itw-a1-m3-cA_4itw-a1-m3-cE 4itw-a1-m3-cC_4itw-a1-m3-cH 4itw-a1-m3-cF_4itw-a1-m3-cB 4itw-a1-m3-cG_4itw-a1-m1-cD 4iwj-a1-m1-cA_4iwj-a1-m1-cE 4iwj-a1-m1-cC_4iwj-a1-m1-cH 4iwj-a1-m1-cF_4iwj-a1-m1-cB 4iwj-a1-m1-cG_4iwj-a1-m3-cD 4iwj-a1-m2-cA_4iwj-a1-m2-cE 4iwj-a1-m2-cC_4iwj-a1-m2-cH 4iwj-a1-m2-cF_4iwj-a1-m2-cB 4iwj-a1-m2-cG_4iwj-a1-m1-cD 4iwj-a1-m3-cA_4iwj-a1-m3-cE 4iwj-a1-m3-cC_4iwj-a1-m3-cH 4iwj-a1-m3-cF_4iwj-a1-m3-cB 4iwj-a1-m3-cG_4iwj-a1-m2-cD 4iwk-a1-m1-cB_4iwk-a1-m4-cF 4iwk-a1-m1-cC_4iwk-a1-m1-cA 4iwk-a1-m1-cE_4iwk-a1-m4-cD 4iwk-a1-m2-cB_4iwk-a1-m3-cF 4iwk-a1-m2-cC_4iwk-a1-m2-cA 4iwk-a1-m2-cE_4iwk-a1-m3-cD 4iwk-a1-m3-cB_4iwk-a1-m1-cF 4iwk-a1-m3-cC_4iwk-a1-m3-cA 4iwk-a1-m3-cE_4iwk-a1-m1-cD 4iwk-a1-m4-cB_4iwk-a1-m2-cF 4iwk-a1-m4-cE_4iwk-a1-m2-cD 4ixk-a1-m1-cA_4ixk-a1-m1-cE 4ixk-a1-m1-cC_4ixk-a1-m1-cH 4ixk-a1-m1-cF_4ixk-a1-m1-cB 4ixk-a1-m1-cG_4ixk-a1-m2-cD 4ixk-a1-m2-cA_4ixk-a1-m2-cE 4ixk-a1-m2-cC_4ixk-a1-m2-cH 4ixk-a1-m2-cF_4ixk-a1-m2-cB 4ixk-a1-m2-cG_4ixk-a1-m3-cD 4ixk-a1-m3-cA_4ixk-a1-m3-cE 4ixk-a1-m3-cC_4ixk-a1-m3-cH 4ixk-a1-m3-cF_4ixk-a1-m3-cB 4ixk-a1-m3-cG_4ixk-a1-m1-cD 4zkh-a1-m1-cA_4zkh-a1-m1-cE 4zkh-a1-m1-cB_4zkh-a1-m1-cF 4zkh-a1-m1-cC_4zkh-a1-m1-cH 4zkh-a1-m1-cG_4zkh-a1-m3-cD 4zkh-a1-m2-cA_4zkh-a1-m2-cE 4zkh-a1-m2-cB_4zkh-a1-m2-cF 4zkh-a1-m2-cC_4zkh-a1-m2-cH 4zkh-a1-m2-cG_4zkh-a1-m1-cD 4zkh-a1-m3-cA_4zkh-a1-m3-cE 4zkh-a1-m3-cB_4zkh-a1-m3-cF 4zkh-a1-m3-cC_4zkh-a1-m3-cH 4zkh-a1-m3-cG_4zkh-a1-m2-cD 4zkw-a1-m1-cA_4zkw-a1-m1-cE 4zkw-a1-m1-cC_4zkw-a1-m1-cH 4zkw-a1-m1-cD_4zkw-a1-m2-cG 4zkw-a1-m1-cF_4zkw-a1-m1-cB 4zkw-a1-m1-cG_4zkw-a1-m3-cD 4zkw-a1-m2-cA_4zkw-a1-m2-cE 4zkw-a1-m2-cC_4zkw-a1-m2-cH 4zkw-a1-m2-cD_4zkw-a1-m3-cG 4zkw-a1-m2-cF_4zkw-a1-m2-cB 4zkw-a1-m3-cA_4zkw-a1-m3-cE 4zkw-a1-m3-cC_4zkw-a1-m3-cH 4zkw-a1-m3-cF_4zkw-a1-m3-cB 4zkx-a1-m1-cA_4zkx-a1-m1-cE 4zkx-a1-m1-cC_4zkx-a1-m1-cH 4zkx-a1-m1-cD_4zkx-a1-m2-cG 4zkx-a1-m1-cF_4zkx-a1-m1-cB 4zkx-a1-m2-cA_4zkx-a1-m2-cE 4zkx-a1-m2-cC_4zkx-a1-m2-cH 4zkx-a1-m2-cD_4zkx-a1-m3-cG 4zkx-a1-m2-cF_4zkx-a1-m2-cB 4zkx-a1-m3-cA_4zkx-a1-m3-cE 4zkx-a1-m3-cC_4zkx-a1-m3-cH 4zkx-a1-m3-cD_4zkx-a1-m1-cG 4zkx-a1-m3-cF_4zkx-a1-m3-cB 4zl5-a1-m1-cA_4zl5-a1-m1-cF 4zl5-a1-m1-cC_4zl5-a1-m1-cB 4zl5-a1-m1-cD_4zl5-a1-m1-cE 4zl5-a1-m2-cA_4zl5-a1-m2-cF 4zl5-a1-m2-cC_4zl5-a1-m2-cB 4zl5-a1-m2-cD_4zl5-a1-m2-cE 4zl5-a1-m3-cA_4zl5-a1-m3-cF 4zl5-a1-m3-cC_4zl5-a1-m3-cB 4zl5-a1-m3-cD_4zl5-a1-m3-cE 4zl5-a1-m4-cA_4zl5-a1-m4-cF 4zl5-a1-m4-cC_4zl5-a1-m4-cB 4zl5-a1-m4-cD_4zl5-a1-m4-cE 4zl6-a1-m1-cA_4zl6-a1-m1-cF 4zl6-a1-m1-cB_4zl6-a1-m1-cC 4zl6-a1-m1-cD_4zl6-a1-m1-cE 4zl6-a1-m2-cA_4zl6-a1-m2-cF 4zl6-a1-m2-cB_4zl6-a1-m2-cC 4zl6-a1-m2-cD_4zl6-a1-m2-cE 4zl6-a1-m3-cA_4zl6-a1-m3-cF 4zl6-a1-m3-cB_4zl6-a1-m3-cC 4zl6-a1-m3-cD_4zl6-a1-m3-cE 4zl6-a1-m4-cA_4zl6-a1-m4-cF 4zl6-a1-m4-cB_4zl6-a1-m4-cC 4zl6-a1-m4-cD_4zl6-a1-m4-cE 4zlw-a1-m1-cA_4zlw-a1-m1-cE 4zlw-a1-m1-cC_4zlw-a1-m1-cH 4zlw-a1-m1-cD_4zlw-a1-m3-cG 4zlw-a1-m1-cF_4zlw-a1-m1-cB 4zlw-a1-m1-cG_4zlw-a1-m2-cD 4zlw-a1-m2-cA_4zlw-a1-m2-cE 4zlw-a1-m2-cC_4zlw-a1-m2-cH 4zlw-a1-m2-cF_4zlw-a1-m2-cB 4zlw-a1-m2-cG_4zlw-a1-m3-cD 4zlw-a1-m3-cA_4zlw-a1-m3-cE 4zlw-a1-m3-cC_4zlw-a1-m3-cH 4zlw-a1-m3-cF_4zlw-a1-m3-cB 4zmc-a1-m1-cA_4zmc-a1-m1-cE 4zmc-a1-m1-cB_4zmc-a1-m1-cF 4zmc-a1-m1-cD_4zmc-a1-m2-cG 4zmc-a1-m1-cH_4zmc-a1-m1-cC 4zmc-a1-m2-cA_4zmc-a1-m2-cE 4zmc-a1-m2-cB_4zmc-a1-m2-cF 4zmc-a1-m2-cD_4zmc-a1-m3-cG 4zmc-a1-m2-cH_4zmc-a1-m2-cC 4zmc-a1-m3-cA_4zmc-a1-m3-cE 4zmc-a1-m3-cB_4zmc-a1-m3-cF 4zmc-a1-m3-cD_4zmc-a1-m1-cG 4zmc-a1-m3-cH_4zmc-a1-m3-cC SEELLDLFNRQVTQEFTASQVYLSASIWFDQNDWEGMAAYMLAESAEEREHGLGFVDFANKRNIPIELQAVPAPVSAEWSSPEDVWQSILELEQANTRSLLNLAEAASTCHDFAVMAFLNPFHLQQVNEEDKIGSILAKVTDENRTPGLLRSLDVVS SEELLDLFNRQVTQEFTASQVYLSASIWFDQNDWEGMAAYMLAESAEEREHGLGFVDFANKRNIPIELQAVPAPVSAEWSSPEDVWQSILELEQANTRSLLNLAEAASTCHDFAVMAFLNPFHLQQVNEEDKIGSILAKVTDENRTPGLLRSLDVVSF 4ix1-a4-m1-cD_4ix1-a4-m1-cH Crystal structure of hypothetical protein OPAG_01669 from Rhodococcus Opacus PD630, Target 016205 M1E1G7 M1E1G7 2.8 X-RAY DIFFRACTION 66 0.996 543736 (Rhodococcus opacus PD630) 543736 (Rhodococcus opacus PD630) 230 230 4ix1-a1-m1-cE_4ix1-a1-m1-cA 4ix1-a2-m1-cF_4ix1-a2-m1-cB 4ix1-a3-m1-cC_4ix1-a3-m1-cG ADYGWRGKVGLISTPVIENAHVELARVAPEGVGVYQTFPYVPNFRVDATNIKRAVEQLETSAAALGSAGVDIVGQVGTPFSFAGGTGLEWAEDISTKLEKASGKPVALGLSIVEALQERGYKTVAISSTYYSRELSERYTQFLEAGGIRVLTIKNPASYAYKSAREVAAEAPEADCIISGAAVHTDIIAPLEADLGKPVISSDSAFFWKILSLLGVRETSGGWGSLLDSL DYGWRGKVGLISTPVIENAHVELARVAPEGVGVYQTFPYVPNFRVDATNIKRAVEQLETSAAALGSAGVDIVGQVGTPFSFAGGTGLEWAEDISTKLEKASGKPVALGLSIVEALQERGYKTVAISSTYYSRELSERYTQFLEAGGIRVLTIKNWPASYAYKSAREVAAEAPEADCIISGAAVHTDIIAPLEADLGKPVISSDSAFFWKILSLLGVRETSGGWGSLLDSL 4ix3-a1-m1-cA_4ix3-a1-m1-cB Crystal structure of a Stt7 homolog from Micromonas algae C1EBN1 C1EBN1 1.35 X-RAY DIFFRACTION 60 1.0 296587 (Micromonas commoda) 296587 (Micromonas commoda) 346 350 4ix4-a1-m1-cA_4ix4-a1-m1-cB 4ix5-a1-m1-cA_4ix5-a1-m1-cB 4ix6-a1-m1-cA_4ix6-a1-m1-cB LKARGGPKTLRRTPGVEPKDIRVLPGPLGSGNFGTVFRGVFKGDQDVVLKNAKADVMAAEELLECEMDVNYHVHANAKGTCARFMGCIELGAKDGGEIYNGTLTEGLWLMWANEGENTVEALMRRGTAPLATAMACADATELGVTKKAMRELLGSLARLHECGVVHRDVKPANLIAAEKDGGVLKLIDLGAAALCLPLPETLNYYPGDGPADPRYAKADELYLLPPGSPRPTKDNAAKLWEAHKPDRFDSWSAGCVMLQLAVVGLRTDAGLERFLADYKAVGYDVNAFRGEKSGEYGTMDFAALDANGGAGWDLCQRLMEAERDARASCEAALSHAFFDAAALEHH LKARGGPKTLRRTPGVEPKDIRVLPGPLGSGNFGTVFRGVFKGDQDVVLKNAKADVMAAEELLECEMDVNYHVHANAKGTCARFMGCIELGAKDGGEIYNGTLTEGLWLMWANEGENTVEALMRRGTAPLATAMACADATELGVTKKAMRELLGSLARLHECGVVHRDVKPANLIAAEKDGGVLKLIDLGAAALCLPLPETLNYYPGDGPADPRYAKADELYLLPPGSPRPTKDNAAKLWEAHKPDRFDSWSAGCVMLQLAVVGLRTDAGLERFLADYKAVGYDVNAFRGEKSGEYGTMDFAALDANGGAGWDLCQRLMEAERDARASCEAALSHAFFDAAALEHHHHHH 4ix8-a1-m1-cB_4ix8-a1-m1-cA Crystal structure of Tyrosine aminotransferase from Leishmania infantum A4IDL0 A4IDL0 2.35 X-RAY DIFFRACTION 241 1.0 5671 (Leishmania infantum) 5671 (Leishmania infantum) 369 406 SFRRIASSKHAQRTLQPLNNLTNLRLSIGDPTVDGNLKTPDIVTEAMVDVVRSGKFNGYPPTVGADNLRQVVSTYWRRFCQTKSRQEALKWENVIITSGVSQAIVLALTALCNEGDNILVCAPSFPHYKSVCDSYGIECRYYYLDPSKSWECDLRAAAGMVDSHTKAFVIINPSNPCGSNFSRAHVSDIIDFCQQHQIPLISDEIYAEMVLNNGIFTSVADFDTNVPRLILGGTAYQVCPGWRVGWSILIDPMNVAGDWAVGMERLTQLIAGVNSICQEAIARTLLKCPTECTEHIVTQLEAGAKVYARLLISMEAPQASMFVMLDMEFYEKLLDNVQVLPGEIFGMSGFLRATVSRPSAVLNEAVDRI SFRRIASSKHAQRTLQPLNNLTMKPSRSTKSNLRLSIGDPTVDGNLKTPDIVTEAMVDVVRSGKFNGYPPTVGADNLRQVVSTYWRRFCQTKSRQEALKWENVIITSGVSQAIVLALTALCNEGDNILVCAPSFPHYKSVCDSYGIECRYYYLDPSKSWECDLRAAAGMVDSHTKAFVIINPSNPCGSNFSRAHVSDIIDFCQQHQIPLISDEIYAEMVLNNGIFTSVADFDTNVPRLILGGTAYQVCPGWRVGWSILIDPMNVAGDWAVGMERLTQLIAGVNSICQEAIARTLLKCPTECTEHIVTQLEAGAKVYARLLEHDIGISMEAPQASMFVMLKLNLSYFQDLKSDMEFYEKLLDEENVQVLPGEIFGMSGFLRATVSRPSAVLNEAVDRIIEFCERHKK 4ixd-a2-m1-cA_4ixd-a2-m2-cA X-ray structure of lfa-1 i-domain in complex with ibe-667 at 1.8a resolution P20701 P20701 1.8 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 182 1zoo-a1-m1-cA_1zoo-a1-m1-cB 1zop-a1-m1-cA_1zop-a1-m1-cB 3bqm-a3-m1-cB_3bqm-a3-m1-cC 3bqn-a3-m1-cB_3bqn-a3-m1-cC 3e2m-a1-m1-cA_3e2m-a1-m1-cB GNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKWKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKKIYVI GNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKWKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKKIYVI 4ixn-a1-m1-cA_4ixn-a1-m1-cB Crystal Structure of Zn(II)-bound E37A,C66A,C67A triple mutant YjiA GTPase P24203 P24203 2.05 X-RAY DIFFRACTION 69 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 318 318 4ixm-a1-m1-cB_4ixm-a1-m1-cA MNPIAVTLLTGFLGAGKTTLLRHILNEQHGYKIAVIANEFGEVSVDDQLIGDRATQIKTLTNGCIAASRSNELEDALLDLLDNLDKGNIQFDRLVIECTGMADPGPIIQTFFSHEVLCQRYLLDGVIALVDAVHADEQMNQFTIAQSQVGYADRILLTKTDVAGEAEKLHERLARINARAPVYTVTHGDIDLGLLFNTNGFMLEENVVSTKPRFHFIADKQNDISSIVVELDYPVDISEVSRVMENLLLESADKLLRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDEKPHSTMVFIGIQLPEEEIRAAFAGLRK MNPIAVTLLTGFLGAGKTTLLRHILNEQHGYKIAVIANEFGEVSVDDQLIGDRATQIKTLTNGCIAASRSNELEDALLDLLDNLDKGNIQFDRLVIECTGMADPGPIIQTFFSHEVLCQRYLLDGVIALVDAVHADEQMNQFTIAQSQVGYADRILLTKTDVAGEAEKLHERLARINARAPVYTVTHGDIDLGLLFNTNGFMLEENVVSTKPRFHFIADKQNDISSIVVELDYPVDISEVSRVMENLLLESADKLLRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDEKPHSTMVFIGIQLPEEEIRAAFAGLRK 4ixn-a2-m1-cA_4ixn-a2-m2-cB Crystal Structure of Zn(II)-bound E37A,C66A,C67A triple mutant YjiA GTPase P24203 P24203 2.05 X-RAY DIFFRACTION 91 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 318 318 4ixm-a2-m2-cB_4ixm-a2-m1-cA MNPIAVTLLTGFLGAGKTTLLRHILNEQHGYKIAVIANEFGEVSVDDQLIGDRATQIKTLTNGCIAASRSNELEDALLDLLDNLDKGNIQFDRLVIECTGMADPGPIIQTFFSHEVLCQRYLLDGVIALVDAVHADEQMNQFTIAQSQVGYADRILLTKTDVAGEAEKLHERLARINARAPVYTVTHGDIDLGLLFNTNGFMLEENVVSTKPRFHFIADKQNDISSIVVELDYPVDISEVSRVMENLLLESADKLLRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDEKPHSTMVFIGIQLPEEEIRAAFAGLRK MNPIAVTLLTGFLGAGKTTLLRHILNEQHGYKIAVIANEFGEVSVDDQLIGDRATQIKTLTNGCIAASRSNELEDALLDLLDNLDKGNIQFDRLVIECTGMADPGPIIQTFFSHEVLCQRYLLDGVIALVDAVHADEQMNQFTIAQSQVGYADRILLTKTDVAGEAEKLHERLARINARAPVYTVTHGDIDLGLLFNTNGFMLEENVVSTKPRFHFIADKQNDISSIVVELDYPVDISEVSRVMENLLLESADKLLRYKGMLWIDGEPNRLLFQGVQRLYSADWDRPWGDEKPHSTMVFIGIQLPEEEIRAAFAGLRK 4ixo-a1-m1-cA_4ixo-a1-m1-cB X-ray structure of NifS-like protein from Rickettsia africae ESF-5 C3PNQ7 C3PNQ7 2.2 X-RAY DIFFRACTION 205 0.997 347255 (Rickettsia africae ESF-5) 347255 (Rickettsia africae ESF-5) 359 361 HMIYLDHNATTFIDPRVKEFIISLMDKELNPSSAHSSGRFAKNLIETVRAQIATALGITLSSREYDITFTSSGTEGNNLIMKNFYDGDIFISAIEHLSIYNHINYAPNIKVISVNTQGLVDLEHLEELLAQSNTSKKLVSIIMANNESGVLQDIAEIGKITKKYEAKFHSDLVQGFGRIPINIKALGLDFATISGHIGGGQGGAALISSSNFQITPMIIGGGQEKSVRSGTENVLAIAGFGLASALRTDNISENYIKIKKLQENLEKKLKKYPNVNIVSNNVARLPNTTLITIPNTDAQAKLIGFDLHNICVSSGSHVLTNMGVGEEEAKSSIRISLSHTNTVRDIEAFIEAFEEIYDV MIYLDHNATTFIDPRVKEFIISLMDKELNPSSAHSSGRFAKNLIETVRAQIATALGITLSSREYDITFTSSGTEGNNLIMKNFYDGDIFISAIEHLSIYNHINYAPNIKVISVNTQGLVDLEHLEELLAQSNTSKKLVSIIMANNESGVLQDIAEIGKITKKYEAKFHSDLVQGFGRIPINIKALGLDFATISGHIGGGQGGAALISSSNFQITPMIIGGGQEKSVRSGTENVLAIAGFGLASALRTDNISENYIKIKKLQENLEKKLKKYPNVNIVSNNVARLPNTTLITIPNTDAQAKLIGFDLHNICVSSGSHVLTNMGVGEEEAKSSIRISLSHTNTVRDIEAFIEAFEEIYDVIPS 4ixp-a2-m1-cA_4ixp-a2-m2-cA Crystal structure of Maternal Embryonic Leucine Zipper Kinase (MELK) Q14680 Q14680 2.749 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 KDYDELLKYYELHETIGTGGFAKVKLACHILTGEMVAIRIMDKNTLGSDLPRIKTEIEALKNLRHQHICQLYHVLETANKIFMVLEYCPGGELFDYIISQDRLSEEETRVVFRQIVSAVAYVHSQGYAHRDLKPENLLFDEYHKLKLIAFGLCAKPKGNKDYHLQTCCGSLAYAAPELIQGKSYLGSEADVWSMGILLYVLMCGFLPFDDDNVMALYKKIMRGKYDVPKWLSPSSILLLQQMLQVDPKKRISMKNLLNHPWIMQDYNYPVEWQSKNPFIHLDDDCVTELSVHHRNNRQTMEDLISLWQYDHLTATYLLLLAKKARGKPVRLRLS KDYDELLKYYELHETIGTGGFAKVKLACHILTGEMVAIRIMDKNTLGSDLPRIKTEIEALKNLRHQHICQLYHVLETANKIFMVLEYCPGGELFDYIISQDRLSEEETRVVFRQIVSAVAYVHSQGYAHRDLKPENLLFDEYHKLKLIAFGLCAKPKGNKDYHLQTCCGSLAYAAPELIQGKSYLGSEADVWSMGILLYVLMCGFLPFDDDNVMALYKKIMRGKYDVPKWLSPSSILLLQQMLQVDPKKRISMKNLLNHPWIMQDYNYPVEWQSKNPFIHLDDDCVTELSVHHRNNRQTMEDLISLWQYDHLTATYLLLLAKKARGKPVRLRLS 4ixs-a1-m1-cB_4ixs-a1-m2-cB Native structure of xometc at ph 5.2 Q5H4T8 Q5H4T8 2.29 X-RAY DIFFRACTION 199 1.0 291331 (Xanthomonas oryzae pv. oryzae KACC 10331) 291331 (Xanthomonas oryzae pv. oryzae KACC 10331) 371 371 LSLATLAIHGGQSPDPSTGAVMPPIYATSTYAQSSPSRTHNPTRFAYERCVAALEGGTRAFAFASGMAATSTVMELLDAGSHVVAMDDLYGGTFRLFERVRRRTAGLDFSFVDLTDPAAFKAAIRADTKMVWIETPTNPMLKLVDIAAIAVIARKHGLLTVVDNTFASPMLQRPLSLGADLVVHSATYLNGHSDMVGGIAVVGDNAELAEQMAFLQNSIGGVQGPFDSFLALRGLKTLPLRMRAHCENALALAQWLETHPAIEKVIYPGLASHPQHVLAKRQMSGFGGIVSIVLKGGFDAAKRFCEKTELFTLAESLGGVESLVNHPAVMTHASIPVARREQLGISDALVRLSVGIEDLGDLRGDLERALV LSLATLAIHGGQSPDPSTGAVMPPIYATSTYAQSSPSRTHNPTRFAYERCVAALEGGTRAFAFASGMAATSTVMELLDAGSHVVAMDDLYGGTFRLFERVRRRTAGLDFSFVDLTDPAAFKAAIRADTKMVWIETPTNPMLKLVDIAAIAVIARKHGLLTVVDNTFASPMLQRPLSLGADLVVHSATYLNGHSDMVGGIAVVGDNAELAEQMAFLQNSIGGVQGPFDSFLALRGLKTLPLRMRAHCENALALAQWLETHPAIEKVIYPGLASHPQHVLAKRQMSGFGGIVSIVLKGGFDAAKRFCEKTELFTLAESLGGVESLVNHPAVMTHASIPVARREQLGISDALVRLSVGIEDLGDLRGDLERALV 4ixs-a1-m2-cA_4ixs-a1-m1-cB Native structure of xometc at ph 5.2 Q5H4T8 Q5H4T8 2.29 X-RAY DIFFRACTION 65 0.997 291331 (Xanthomonas oryzae pv. oryzae KACC 10331) 291331 (Xanthomonas oryzae pv. oryzae KACC 10331) 360 371 ALSLATLAIHGGQSPDPSTGAVMPPIYATSTYAQSRTHNPTRFAYERCVAALEGGTRAFAFASGMAATSTVMELLDAGSHVVAMDDLYGGTFRLFERVRRRTAGLDFSFVDLTDPAAFKAAIRADTKMVWIETPTNPMLKLVDIAAIAVIARKHGLLTVVDNTFASPMLQRPLSLGADLVVHSATYLNGHSDMVGGIAVVGDNAELAEQMAFLQNSIGGVQGPFDSFLALRGLKTLPLRMRAHCENALALAQWLETHPAIEKVIYPGLASHPQHVLAKRQMSGFGGIVSIVLKGGFDAAKRFCEKTELFTLAESLGGVESLVNHPAVMTEQLGISDALVRLSVGIEDLGDLRGDLERALV LSLATLAIHGGQSPDPSTGAVMPPIYATSTYAQSSPSRTHNPTRFAYERCVAALEGGTRAFAFASGMAATSTVMELLDAGSHVVAMDDLYGGTFRLFERVRRRTAGLDFSFVDLTDPAAFKAAIRADTKMVWIETPTNPMLKLVDIAAIAVIARKHGLLTVVDNTFASPMLQRPLSLGADLVVHSATYLNGHSDMVGGIAVVGDNAELAEQMAFLQNSIGGVQGPFDSFLALRGLKTLPLRMRAHCENALALAQWLETHPAIEKVIYPGLASHPQHVLAKRQMSGFGGIVSIVLKGGFDAAKRFCEKTELFTLAESLGGVESLVNHPAVMTHASIPVARREQLGISDALVRLSVGIEDLGDLRGDLERALV 4iyj-a1-m1-cB_4iyj-a1-m1-cA Crystal structure of a putative acylhydrolase (BACUNI_03406) from Bacteroides uniformis ATCC 8492 at 1.37 A resolution A7V743 A7V743 1.37 X-RAY DIFFRACTION 65 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 203 206 QKQDWGNLKRYAEANKELVRKGKQKDRVVFGNSITEGWVANDAAFFEDNGYVGRGIGGQTSSHFLLRFREDVIKLAPALVVINAGTNDIAENAGAYNEEYTFGNIVSVELARANKIKVILTSVLPAAAFGWNPSVKDAPQKIQLNARIRKYAQENKIPYVDYYSEVEGDNKALNSSYTRDGVHPTLEGYKVEALIKKAIDKVL SDAQKQDWGNLKRYAEANKELVRKGKQKDRVVFGNSITEGWVANDAAFFEDNGYVGRGIGGQTSSHFLLRFREDVIKLAPALVVINAGTNDIAENAGAYNEEYTFGNIVSVELARANKIKVILTSVLPAAAFGWNPSVKDAPQKIQLNARIRKYAQENKIPYVDYYSEVEGDNKALNSSYTRDGVHPTLEGYKVEALIKKAIDKVL 4iyl-a3-m1-cA_4iyl-a3-m4-cA 30S ribosomal protein S15 from Campylobacter jejuni Q0PA13 Q0PA13 2.36 X-RAY DIFFRACTION 19 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 85 85 4iyl-a3-m2-cA_4iyl-a3-m3-cA LDSAKKAEIVAKFAKKPGDTGSTEVQVALLTARIAELTEHLKIYKKDFSSRLGLLKLVGQRKRLLSYLKRKDYNSYSKLITELNL LDSAKKAEIVAKFAKKPGDTGSTEVQVALLTARIAELTEHLKIYKKDFSSRLGLLKLVGQRKRLLSYLKRKDYNSYSKLITELNL 4iyl-a3-m3-cA_4iyl-a3-m4-cA 30S ribosomal protein S15 from Campylobacter jejuni Q0PA13 Q0PA13 2.36 X-RAY DIFFRACTION 94 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 85 85 4iyl-a2-m1-cA_4iyl-a2-m2-cA 4iyl-a3-m1-cA_4iyl-a3-m2-cA LDSAKKAEIVAKFAKKPGDTGSTEVQVALLTARIAELTEHLKIYKKDFSSRLGLLKLVGQRKRLLSYLKRKDYNSYSKLITELNL LDSAKKAEIVAKFAKKPGDTGSTEVQVALLTARIAELTEHLKIYKKDFSSRLGLLKLVGQRKRLLSYLKRKDYNSYSKLITELNL 4iyq-a1-m1-cB_4iyq-a1-m1-cC Crystal structure of divalent ion tolerance protein CutA1 from Ehrlichia chaffeensis Q2GG79 Q2GG79 2.55 X-RAY DIFFRACTION 76 1.0 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 107 107 4iyq-a1-m1-cA_4iyq-a1-m1-cB 4iyq-a1-m1-cA_4iyq-a1-m1-cC SMKNISLLYTTTPTYEDAYRISNILLENKLIACANIFSNITSVYVWEDEIHNNTECAIILKTTNDLVQHATNKIQAIHPYDTPAIITIDPTNANDKFIQWVNDCTAL SMKNISLLYTTTPTYEDAYRISNILLENKLIACANIFSNITSVYVWEDEIHNNTECAIILKTTNDLVQHATNKIQAIHPYDTPAIITIDPTNANDKFIQWVNDCTAL 4iys-a1-m1-cA_4iys-a1-m2-cA Structural and ligand binding properties of the Bateman domain of human magnesium transporters CNNM2 and CNNM4 Q9H8M5 Q9H8M5 1.8 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 155 155 MEELNIIQGALELRTKTVEDVMTPLRDCFMITGEAILDFNTMSEIMESGYTRIPVFEGERSNIVDLLFVKDLAFVDPDDCTPLKTITKFYNHPLHFVFNDTKLDAMLEEFKKGKSHLAIVQRVNNEGEDPFYEVLGIVTLEDVIEEIIKSEILDE MEELNIIQGALELRTKTVEDVMTPLRDCFMITGEAILDFNTMSEIMESGYTRIPVFEGERSNIVDLLFVKDLAFVDPDDCTPLKTITKFYNHPLHFVFNDTKLDAMLEEFKKGKSHLAIVQRVNNEGEDPFYEVLGIVTLEDVIEEIIKSEILDE 4iz6-a1-m1-cA_4iz6-a1-m1-cB Structure of EntE and EntB, an NRPS adenylation-PCP fusion protein with pseudo translational symmetry P0ADI4 P0ADI4 2.4 X-RAY DIFFRACTION 204 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 609 612 SIPFTRWPEEFARRYREKGYWQDLPLTDILTRHAASDSIAVIDGERQLSYRELNQAADNLACSLRRQGIKPGETALVQLGNVAELYITFFALLKLGVAPVLALFSHQRSELNAYASQIEPALLIADRQHALFSGDDFLNTFVTEHSSIRVVQLLNDSGEHNLQDAINHPAEDFTATPSPADEVAYFQLSGGTGTPKLIPRTHNDYYYSVRRSVEICQFTQQTRYLCAIPAAHNYAMSSPGSLGVFLAGGTVVLAADPSATLCFPLIEKHQVNVTALVPPAVSLWLQALIEGESRAQLASLKLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLDDSAEKIIHTQGYPMCPDDEVWVADAEGNPLPQGEVGRLMTRGPYTFRGYYKSPQHNASAFDANGFYCSGDLISIDPEGYITVQGREKDQINRGGEKIAAEEIENLLLRHPAVIYAALVSMEDELMGEKSCAYLVVKEPLRAVQVRRFLREQGIAEFKLPDRVECVDSLPLTAVGKVDKKQLRQWLASRASAGPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSREVK SIPFTRWPEEFARRYREKGYWQDLPLTDILTRHAASDSIAVIDGERQLSYRELNQAADNLACSLRRQGIKPGETALVQLGNVAELYITFFALLKLGVAPVLALFSHQRSELNAYASQIEPALLIADRQHALFSGDDFLNTFVTEHSSIRVVQLLNDSGEHNLQDAINHPAEDFTATPSPADEVAYFQLSGTGTPKLIPRTHNDYYYSVRRSVEICQFTQQTRYLCAIPAAHNYAMSSPGSLGVFLAGGTVVLAADPSATLCFPLIEKHQVNVTALVPPAVSLWLQALIEGESRAQLASLKLLQVGGARLSATLAARIPAEIGCQLQQVFGMAEGLVNYTRLDDSAEKIIHTQGYPMCPDDEVWVADAEGNPLPQGEVGRLMTRGPYTFRGYYKSPQHNASAFDANGFYCSGDLISIDPEGYITVQGREKDQINRGGEKIAAEEIENLLLRHPAVIYAALVSMEDELMGEKSCAYLVVKEPLRAVQVRRFLREQGIAEFKLPDRVECVDSLPLTAVGKVDKKQLRQWLASRASAGRASIPASKAALREVILPLLDESDEPFDDDNLIDYGLDSVRMMALAARWRKVHGDIDFVMLAKNPTIDAWWKLLSREVK 4izs-a1-m1-cA_4izs-a1-m2-cA The C145A mutant of the amidase from Nesterenkonia sp. AN1 in complex with butyramide D0VWZ1 D0VWZ1 1.44 X-RAY DIFFRACTION 121 1.0 501897 (Nesterenkonia sp. 10004) 501897 (Nesterenkonia sp. 10004) 261 261 3hkx-a1-m1-cA_3hkx-a1-m2-cA 4izt-a1-m1-cA_4izt-a1-m2-cA 4izu-a1-m1-cA_4izu-a1-m2-cA 4izv-a1-m1-cA_4izv-a1-m2-cA 4izw-a1-m1-cA_4izw-a1-m2-cA 5jqn-a1-m1-cA_5jqn-a1-m2-cA 5nxz-a1-m1-cA_5nxz-a1-m2-cA 5ny2-a1-m1-cA_5ny2-a1-m2-cA 5ny7-a1-m1-cA_5ny7-a1-m2-cA 5nyb-a1-m1-cA_5nyb-a1-m2-cA 5nyc-a1-m1-cA_5nyc-a1-m2-cA 5nye-a1-m1-cA_5nye-a1-m2-cA 5nz5-a1-m1-cA_5nz5-a1-m2-cA GLVPRGSHMRIALMQHTARPLDPQHNLDLIDDAAARASEQGAQLLLTPELFGFGYVPSQICAQVSAEQVDAARSRLRGIARDRGIALVWSLPGPEGPEQRGITAELADEHGEVLASYQKVQLYGPEEKAAFVPGEQPPPVLSWGGRQLSLLVAYDVEFPEMVRAAAARGAQLVLVPTALAGDETSVPGILLPARAVENGITLAYANHCGPEGGLVFDGGSVVVGPAGQPLGELGVEPGLLVVDLPADYLQDRRAELHRNWL GLVPRGSHMRIALMQHTARPLDPQHNLDLIDDAAARASEQGAQLLLTPELFGFGYVPSQICAQVSAEQVDAARSRLRGIARDRGIALVWSLPGPEGPEQRGITAELADEHGEVLASYQKVQLYGPEEKAAFVPGEQPPPVLSWGGRQLSLLVAYDVEFPEMVRAAAARGAQLVLVPTALAGDETSVPGILLPARAVENGITLAYANHCGPEGGLVFDGGSVVVGPAGQPLGELGVEPGLLVVDLPADYLQDRRAELHRNWL 4j00-a1-m1-cA_4j00-a1-m1-cB Crystal Structure of Fischerella Transcription Factor HetR complexed with 24mer DNA target Q2ACK9 Q2ACK9 3.004 X-RAY DIFFRACTION 445 1.0 98439 (Fischerella thermalis PCC 7521) 98439 (Fischerella thermalis PCC 7521) 297 297 3qod-a1-m1-cB_3qod-a1-m1-cA 3qoe-a1-m1-cB_3qoe-a1-m1-cA 4izz-a1-m1-cA_4izz-a1-m1-cB 4j01-a1-m1-cA_4j01-a1-m1-cB 4j01-a2-m1-cE_4j01-a2-m1-cF SNDVDLIKRLGPSAMDQIMLYLAFSAMRTSGHRHGAFLDAAATAAKCAIYMTYLEQGQNLRMTGHLHHLEPKRVKAIVEEVRQALTEGKLLKMLGSQEPRYLIQFPYVWMEKYPWRPGRSRIPGTSLTSEEKRQIEQKLPSNLPDAHLITSFEFLELIEFLHKRSQEDLPKEHQMPLSEALAEHIKRRLLYSGTVTRIDSPWGMPFYALTRPFYAPADDQERTYIMVEDTARFFRMMRDWAEKRPNTMRVLEELDILPEKMQQAKDELDEIIRAWADKYHQDDGVPVVLQMVFGKKE SNDVDLIKRLGPSAMDQIMLYLAFSAMRTSGHRHGAFLDAAATAAKCAIYMTYLEQGQNLRMTGHLHHLEPKRVKAIVEEVRQALTEGKLLKMLGSQEPRYLIQFPYVWMEKYPWRPGRSRIPGTSLTSEEKRQIEQKLPSNLPDAHLITSFEFLELIEFLHKRSQEDLPKEHQMPLSEALAEHIKRRLLYSGTVTRIDSPWGMPFYALTRPFYAPADDQERTYIMVEDTARFFRMMRDWAEKRPNTMRVLEELDILPEKMQQAKDELDEIIRAWADKYHQDDGVPVVLQMVFGKKE 4j07-a1-m1-cD_4j07-a1-m1-cC Crystal structure of a PROBABLE RIBOFLAVIN SYNTHASE, BETA CHAIN RIBH (6,7-dimethyl-8-ribityllumazine synthase, DMRL synthase, Lumazine synthase) from Mycobacterium leprae B8ZUN3 B8ZUN3 1.95 X-RAY DIFFRACTION 86 1.0 561304 (Mycobacterium leprae Br4923) 561304 (Mycobacterium leprae Br4923) 146 149 4j07-a1-m1-cB_4j07-a1-m1-cA 4j07-a1-m1-cB_4j07-a1-m1-cE 4j07-a1-m1-cD_4j07-a1-m1-cA 4j07-a1-m1-cE_4j07-a1-m1-cC IDASGLRLGIVASTWHSRICDALLAGARKVAADSGIDGPTVVRVLGAIEIPVVVQELARHHDAVVALGVVIRGDTPHFDYVCNSVTQGLTRIALDTSTPVGNGVLTTNTEKQALDRAGLPTSAEDKGAQAAAAALTTALTLLNLRS GIDASGLRLGIVASTWHSRICDALLAGARKVAADSGIDGPTVVRVLGAIEIPVVVQELARHHDAVVALGVVIRGDTPHFDYVCNSVTQGLTRIALDTSTPVGNGVLTTNTEKQALDRAGLPTSAEDKGAQAAAAALTTALTLLNLRSRI 4j0e-a1-m1-cB_4j0e-a1-m1-cA Crystal structure of 3-hydroxyacyl-CoA dehydrogenase from Caenorhadbitis elegans in P1 space group P34439 P34439 1.6 X-RAY DIFFRACTION 127 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 283 296 4j0f-a1-m1-cB_4j0f-a1-m1-cA MFTAKCAMQNIRNVAIVGSGQMGSGIAQVTASSGFNVMLADVNKKALDRAMKAISQSVTHDFVTLTMSRIKTCNNVSTAVADADLIIEAAIENIDLKRGIFAQIEQSCKKDSILTTNTSSFLLEDVAKGLQDKTRFGGLHFFNPVPVMKLLEVIRSDDTSDETYATLIKFGTAVGKTTVACKDSPGFIVNRLLIPYFFEAARMYERGDASMTDIDEAMKLGAGHPMGPFELADYIGLDTVKFVMDGWAAKYPEVQLFEASPLVDKLVAEGKLGRKTGDGFYSY MFTAKCAMQNIRNVAIVGSGQMGSGIAQVTASSGFNVMLADVNKKALDRAMKAISQSVTHLSKKQKGTDKEKSDFVTLTMSRIKTCNNVSTAVADADLIIEAAIENIDLKRGIFAQIEQSCKKDSILTTNTSSFLLEDVAKGLQDKTRFGGLHFFNPVPVMKLLEVIRSDDTSDETYATLIKFGTAVGKTTVACKDSPGFIVNRLLIPYFFEAARMYERGDASMTDIDEAMKLGAGHPMGPFELADYIGLDTVKFVMDGWAAKYPEVQLFEASPLVDKLVAEGKLGRKTGDGFYSY 4j16-a1-m1-cB_4j16-a1-m1-cA Crystal structure of Thermus thermophilus transhydrogenase heterotrimeric complex of the Alpha1 subunit dimer with the NADP binding domain (domain III) of the Beta subunit Q72GR8 Q72GR8 2.41 X-RAY DIFFRACTION 117 0.997 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 369 372 4izh-a1-m1-cA_4izh-a1-m1-cB 4izi-a1-m1-cA_4izi-a1-m1-cB 4j1t-a1-m1-cB_4j1t-a1-m1-cA 4j1t-a2-m1-cD_4j1t-a2-m1-cE 4o9u-a1-m1-cF_4o9u-a1-m1-cE MVTVAVPKERAPGERRVALVPEVVARLVKGGARVRVERGAGEGAYHPDEAYQEAGAEVVERGELLKGAHLLFTVQPPPEDLIQALEPGAIVVGFVQPHKNLELVRALQAKKATVIAMELIPRITRAQSMDALSSQATVAGYLAAIHAARLSPRFFPMLTTAAGTIRPAKVMVMGVGVAGLMAIATAKRLGAQVFAYDVRKAALEQALSLGAKPIELPISAEGARELTEEEKRIQHEALRDHVAGMDVLITTAQVPGRRAPILLTEDMVERLKPGTVVVDLAAESGGNCVLTKPGEVVEVRGVRVYGPLNLPSELSVHASEMYAKNLYNLSSLLIEKGAFAPKWEDEIVRAALLMKEGEVLHGPTKALLG MVTVAVPKERAPGERRVALVPEVVARLVKGGARVRVERGAGEGAYHPDEAYQEAGAEVVERGELLKGAHLLFTVQPPPEDLIQALEPGAIVVGFVQPHKNLELVRALQAKKATVIAMELIPRITRAQSMDALSSQATVAGYLAAIHAARLSPRFFPMLTTAAGTIRPAKVMVMGVGVAGLMAIATAKRLGAQVFAYDVRKAALEQALSLGAKPIELPISAEGEGGYARELTEEEKRIQHEALRDHVAGMDVLITTAQVPGRRAPILLTEDMVERLKPGTVVVDLAAESGGNCVLTKPGEVVEVRGVRVYGPLNLPSELSVHASEMYAKNLYNLSSLLIEKGAFAPKWEDEIVRAALLMKEGEVLHGPTKALL 4j1g-a1-m1-cB_4j1g-a1-m1-cA Leanyer orthobunyavirus nucleoprotein-ssRNA complex F2WAD7 F2WAD7 2.789 X-RAY DIFFRACTION 67 1.0 999729 (Leanyer virus) 999729 (Leanyer virus) 227 228 4j1g-a1-m1-cB_4j1g-a1-m1-cC 4j1g-a1-m1-cD_4j1g-a1-m1-cA 4j1g-a1-m1-cD_4j1g-a1-m1-cC 4j1j-a1-m1-cB_4j1j-a1-m1-cA 4j1j-a1-m1-cB_4j1j-a1-m1-cC 4j1j-a1-m1-cD_4j1j-a1-m1-cA 4j1j-a1-m1-cD_4j1j-a1-m1-cC DFIYDDRPAAVSSTFNPEKGYMDFITAYGKNINADNVRIFFLNHKKAKDSLKGSPKVEVDLQFGTLRVKVVNNHNPRNRDNPVADNAITLHRLSGYLAKWCFDEIDHGQIEEAEVKSKVVIPLAEAKGCKWGDGVALYLAFAPGAEMFLKDFEFYPLAIDIQRVVKDGMDITFMRKVLKQRYGTKTADDWMISEVTAIQSAVKVVAKLPWAKAGFTAAAKNFLAKFN DFIYDDRPAAVSSTFNPEKGYMDFITAYGKNINADNVRIFFLNHKKAKDSLKGSPKVEVDLQFGTLRVKVVNNHNPRNRDNPVADNAITLHRLSGYLAKWCFDEIDHGQIEEAEVKSKVVIPLAEAKGCKWGDGVALYLAFAPGAEMFLKDFEFYPLAIDIQRVVKDGMDITFMRKVLKQRYGTKTADDWMISEVTAIQSAVKVVAKLPWAKAGFTAAAKNFLAKFNI 4j1y-a3-m2-cB_4j1y-a3-m1-cA The X-ray crystal structure of human complement protease C1s zymogen P09871 P09871 2.6645 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 362 378 MPCPKEDTPNSVWEPAKAKYVFRDVVQITCLDGFEVVEGRVGATSFYSTCQSNGKWSNSKLKCQPVDCGIPESIENGKVEDPESTLFGSVIRYTCEEPYYYMENGGGGEYHCAGNGSWVNEVLGPELPKCVPVCGVPREPSDADIKNFPWQVFFDNPWAGGALINEYWVLTAAHVVEGNREPTMYVGSTSVQKSKMLTPEHVFIHPGWKLLEVPEGRTNFDNDIALVRLKDPVKMGPTVSPICLPGTSSDYNLMDGDLGLISGWGRTEDRAVRLKAARLPVAPLRKCKEVVFTPNMICAGGEKMDSCKGDSGGAFAVQDPNDKTKFYAAGLVSWGPQCGTYGLYTRVKNYVDWIMKTMQENS MPCPKEDTPNSVWEPAKAKYVFRDVVQITCLDGFEVVEGRVGATSFYSTCQSNGKWSNSKLKCQPVDCGIPESIENGKVEDPESTLFGSVIRYTCEEPYYYMENGGGGEYHCAGNGSWVNEVLGPELPKCVPVCGVPREPFIGGSDADIKNFPWQVFFDNPWAGGALINEYWVLTAAHVVEGNREPTMYVGSTSVQTSRLAKSKMLTPEHVFIHPGWKLLEVPEGRTNFDNDIALVRLKDPVKMGPTVSPICLPGTSSDYNLMDGDLGLISGWGRTEKRDRAVRLKAARLPVAPLRKCKEVEAYVFTPNMICAGGEKGMDSCKGDSGGAFAVQDPNDKTKFYAAGLVSWGPQCGTYGLYTRVKNYVDWIMKTMQENST 4j29-a1-m1-cA_4j29-a1-m2-cA Crystal Structure of Engineered Protein. Northeast Structural Genomics Consortium Target OR258. 2.1 X-RAY DIFFRACTION 200 1.0 32630 (synthetic construct) 32630 (synthetic construct) 126 126 TVVIVVSRDERILEELLEVVLKSDPNVKTVRTDDKEKVKEEIEKARKQGRPIVIFIRGATEEVVRDIVEYAQKEGLRVLVIVDQDQEELERIYEQLKKDGVDVRVTDNEDEAKKRLKELLEKVLEH TVVIVVSRDERILEELLEVVLKSDPNVKTVRTDDKEKVKEEIEKARKQGRPIVIFIRGATEEVVRDIVEYAQKEGLRVLVIVDQDQEELERIYEQLKKDGVDVRVTDNEDEAKKRLKELLEKVLEH 4j2f-a1-m1-cA_4j2f-a1-m2-cA Crystal structure of a glutathione transferase family member from Ricinus communis, target EFI-501866 B9RWR5 B9RWR5 1.9 X-RAY DIFFRACTION 62 1.0 3988 (Ricinus communis) 3988 (Ricinus communis) 218 218 EVLKLHGAWPSPFSCRVIWALKLKGIPYEYVEEDLFNKSPLLLQYNPVHKKIPVLVHGGKPICESTIILEYLDETWPENPLLPSDPHERAVARFWVKFIEDKGTAIWNIFRTKGEELEKAVKNCLEVLKTIEEHAMGVSDDKYFGGDKIGIVDIAFCGIAHWLGVIEEVAGVKVLESQKFPRLHAWTENFKEAPIIKENLPDRDQMTAFFKRRREMIL EVLKLHGAWPSPFSCRVIWALKLKGIPYEYVEEDLFNKSPLLLQYNPVHKKIPVLVHGGKPICESTIILEYLDETWPENPLLPSDPHERAVARFWVKFIEDKGTAIWNIFRTKGEELEKAVKNCLEVLKTIEEHAMGVSDDKYFGGDKIGIVDIAFCGIAHWLGVIEEVAGVKVLESQKFPRLHAWTENFKEAPIIKENLPDRDQMTAFFKRRREMIL 4j2h-a1-m1-cA_4j2h-a1-m4-cA Crystal structure of a putative short-chain alcohol dehydrogenase from Sinorhizobium meliloti 1021 (Target NYSGRC-011708) Q930I9 Q930I9 2.1 X-RAY DIFFRACTION 27 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 249 249 4j2h-a1-m2-cA_4j2h-a1-m3-cA PIFDLSGRRALVTGASRGIGQSIAVALAEAGAHVAVTARTVEGLAETRALIEKTGRRAVALAQDVRDVEACASVTRAAAEGLGGLDILVNNAGFENVRPSFDVDEALWDTIVSTNLKGAFFCAQAAGRIADANGGAIVNLCSLTSYVGIPTAVPYGASKSGLLGVTRALATEWAAHNIRVNAIAPGYFRTATAGFYEDEDWQSRLEKIPQRRFGKESDIGGVAVFLCSDAAAYITGHCIPADGGYLASI PIFDLSGRRALVTGASRGIGQSIAVALAEAGAHVAVTARTVEGLAETRALIEKTGRRAVALAQDVRDVEACASVTRAAAEGLGGLDILVNNAGFENVRPSFDVDEALWDTIVSTNLKGAFFCAQAAGRIADANGGAIVNLCSLTSYVGIPTAVPYGASKSGLLGVTRALATEWAAHNIRVNAIAPGYFRTATAGFYEDEDWQSRLEKIPQRRFGKESDIGGVAVFLCSDAAAYITGHCIPADGGYLASI 4j2h-a1-m2-cA_4j2h-a1-m4-cA Crystal structure of a putative short-chain alcohol dehydrogenase from Sinorhizobium meliloti 1021 (Target NYSGRC-011708) Q930I9 Q930I9 2.1 X-RAY DIFFRACTION 127 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 249 249 4j2h-a1-m1-cA_4j2h-a1-m3-cA PIFDLSGRRALVTGASRGIGQSIAVALAEAGAHVAVTARTVEGLAETRALIEKTGRRAVALAQDVRDVEACASVTRAAAEGLGGLDILVNNAGFENVRPSFDVDEALWDTIVSTNLKGAFFCAQAAGRIADANGGAIVNLCSLTSYVGIPTAVPYGASKSGLLGVTRALATEWAAHNIRVNAIAPGYFRTATAGFYEDEDWQSRLEKIPQRRFGKESDIGGVAVFLCSDAAAYITGHCIPADGGYLASI PIFDLSGRRALVTGASRGIGQSIAVALAEAGAHVAVTARTVEGLAETRALIEKTGRRAVALAQDVRDVEACASVTRAAAEGLGGLDILVNNAGFENVRPSFDVDEALWDTIVSTNLKGAFFCAQAAGRIADANGGAIVNLCSLTSYVGIPTAVPYGASKSGLLGVTRALATEWAAHNIRVNAIAPGYFRTATAGFYEDEDWQSRLEKIPQRRFGKESDIGGVAVFLCSDAAAYITGHCIPADGGYLASI 4j2h-a1-m3-cA_4j2h-a1-m4-cA Crystal structure of a putative short-chain alcohol dehydrogenase from Sinorhizobium meliloti 1021 (Target NYSGRC-011708) Q930I9 Q930I9 2.1 X-RAY DIFFRACTION 131 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 249 249 4j2h-a1-m1-cA_4j2h-a1-m2-cA PIFDLSGRRALVTGASRGIGQSIAVALAEAGAHVAVTARTVEGLAETRALIEKTGRRAVALAQDVRDVEACASVTRAAAEGLGGLDILVNNAGFENVRPSFDVDEALWDTIVSTNLKGAFFCAQAAGRIADANGGAIVNLCSLTSYVGIPTAVPYGASKSGLLGVTRALATEWAAHNIRVNAIAPGYFRTATAGFYEDEDWQSRLEKIPQRRFGKESDIGGVAVFLCSDAAAYITGHCIPADGGYLASI PIFDLSGRRALVTGASRGIGQSIAVALAEAGAHVAVTARTVEGLAETRALIEKTGRRAVALAQDVRDVEACASVTRAAAEGLGGLDILVNNAGFENVRPSFDVDEALWDTIVSTNLKGAFFCAQAAGRIADANGGAIVNLCSLTSYVGIPTAVPYGASKSGLLGVTRALATEWAAHNIRVNAIAPGYFRTATAGFYEDEDWQSRLEKIPQRRFGKESDIGGVAVFLCSDAAAYITGHCIPADGGYLASI 4j2k-a3-m1-cB_4j2k-a3-m1-cA Crystal structure of a plant trypsin inhibitor EcTI P86451 P86451 1.75 X-RAY DIFFRACTION 48 1.0 55671 (Enterolobium contortisiliquum) 55671 (Enterolobium contortisiliquum) 167 168 KELLDSDGDILRNGGTYYILPALRGKGGGLELAKTGDETCPLNVVQARSETKRGRPAIIWTPPRIAILTPAFYLNIEFQTRDLPACLEEYSRLPWKVEGESQEVKIAPKEEEQHLFGSFKIKPYRDDYKLVYCESCKDLGISIDDENNRLLVVKDGDPLAVRFVKAH KELLDSDGDILRNGGTYYILPALRGKGGGLELAKTGDETCPLNVVQARSETKRGRPAIIWTPPRIAILTPAFYLNIEFQTRDLPACLEEYSRLPWKVEGESQEVKIAPKEEEQHLFGSFKIKPYRDDYKLVYCESCKDLGISIDDENNRLLVVKDGDPLAVRFVKAHR 4j2n-a1-m1-cB_4j2n-a1-m1-cC Crystal Structure of mycobacteriophage Pukovnik Xis B3VGI6 B3VGI6 2.348 X-RAY DIFFRACTION 38 1.0 540068 (Pukovnikvirus pukovnik) 540068 (Pukovnikvirus pukovnik) 54 56 MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI AMMPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI 4j2n-a1-m1-cB_4j2n-a1-m1-cD Crystal Structure of mycobacteriophage Pukovnik Xis B3VGI6 B3VGI6 2.348 X-RAY DIFFRACTION 109 1.0 540068 (Pukovnikvirus pukovnik) 540068 (Pukovnikvirus pukovnik) 54 54 MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI 4j2n-a1-m1-cB_4j2n-a1-m1-cE Crystal Structure of mycobacteriophage Pukovnik Xis B3VGI6 B3VGI6 2.348 X-RAY DIFFRACTION 20 1.0 540068 (Pukovnikvirus pukovnik) 540068 (Pukovnikvirus pukovnik) 54 54 4j2n-a1-m1-cA_4j2n-a1-m1-cC MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI 4j2n-a1-m1-cD_4j2n-a1-m1-cE Crystal Structure of mycobacteriophage Pukovnik Xis B3VGI6 B3VGI6 2.348 X-RAY DIFFRACTION 18 1.0 540068 (Pukovnikvirus pukovnik) 540068 (Pukovnikvirus pukovnik) 54 54 MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI MPPRASIQQTADYLGVSTKTVRNYIAAGKLKAVRLGPRLIRVERDSVEALMRPI 4j2o-a1-m1-cE_4j2o-a1-m1-cC Crystal structure of NADP-bound WbjB from A. baumannii community strain D1279779 P37362 P37362 2.653 X-RAY DIFFRACTION 49 1.0 945556 (Acinetobacter baumannii D1279779) 945556 (Acinetobacter baumannii D1279779) 290 302 4j2o-a1-m1-cD_4j2o-a1-m1-cA 4j2o-a1-m1-cF_4j2o-a1-m1-cB FKDKVLLITGGTGSFGNAVLKRFLETDIKEIRIFSRDEKKQDDRKKYHSAKLKFYIGDVRDYNSILNATRGVDYIYHAAALKQVPSCEFHPEAVKTNVLGTENVLEAAIQNHVKRVVCLSTDKAVYPINAGISKAEKVVAKSRNLEGLDTVICGTRYGNVASRGSVIPLFVDQIRQGKPLTITDPNTRFTLEDAVDLVLYAFEHGENGDIFVQKAPAATIAVLAEALKQLLNVEDHPIKAFEALLSREEVHAFDQGDYFRVPADDYNSHNTTRLDVEGKQLLLKLDFVRA FKDKVLLITGGTGSFGNAVLKRFLETDIKEIRIFSRDEKKQDDRKKYHSAKLKFYIGDVRDYNSILNATRGVDYIYHAAALKQVPSCEFHPEAVKTNVLGTENVLEAAIQNHVKRVVCLSTDKAVYPINAGISKAEKVVAKSRNLEGLDTVICGTRYGNVASRGSVIPLFVDQIRQGKPLTITDPNTRFTLEDAVDLVLYAFEHGENGDIFVQKAPAATIAVLAEALKQLLNVEDHPISIGTRHGEKAFEALLSREEVHAFDQGDYFRVPADEDYNSHNTTRLDVEGKQLLLKLDFVRALTR 4j2o-a1-m1-cF_4j2o-a1-m1-cC Crystal structure of NADP-bound WbjB from A. baumannii community strain D1279779 P37362 P37362 2.653 X-RAY DIFFRACTION 41 1.0 945556 (Acinetobacter baumannii D1279779) 945556 (Acinetobacter baumannii D1279779) 287 302 4j2o-a1-m1-cE_4j2o-a1-m1-cA FKDKVLLITGGTGSFGNAVLKRFLETDIKEIRIFSRDEKKQDDRKKYHSAKLKFYIGDVRDYNSILNATRGVDYIYHAAALKQVPSCEFHPEAVKTNVLGTENVLEAAIQNHVKRVVCLSTDKAVYPINAGISKAEKVVAKSRNLEGLDTVICGTRYGNVASRGSVIPLFVDQIRQGKPLTITDPNTRFTLEDAVDLVLYAFEHGENGDIFVQKAPAATIAVLAEALKQLLNVEKAFEALLSREEVHAFDQGDYFRVPADDYNSHNTTRLDVEGKQLLLKLDFVRAL FKDKVLLITGGTGSFGNAVLKRFLETDIKEIRIFSRDEKKQDDRKKYHSAKLKFYIGDVRDYNSILNATRGVDYIYHAAALKQVPSCEFHPEAVKTNVLGTENVLEAAIQNHVKRVVCLSTDKAVYPINAGISKAEKVVAKSRNLEGLDTVICGTRYGNVASRGSVIPLFVDQIRQGKPLTITDPNTRFTLEDAVDLVLYAFEHGENGDIFVQKAPAATIAVLAEALKQLLNVEDHPISIGTRHGEKAFEALLSREEVHAFDQGDYFRVPADEDYNSHNTTRLDVEGKQLLLKLDFVRALTR 4j2q-a1-m1-cA_4j2q-a1-m1-cB Crystal structure of C-terminally truncated arrestin reveals mechanism of arrestin activation P08168 P08168 3 X-RAY DIFFRACTION 77 0.997 9913 (Bos taurus) 9913 (Bos taurus) 340 346 HVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQEDIDMGLSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLTSSEVATEVPFRLMHPQP HVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQEDIDVMGLSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLGELTSSEVATEVPFRLMHPQP 4j30-a1-m1-cB_4j30-a1-m2-cB Structure of the effector - immunity system Tae4 / Tai4 from Salmonella typhimurium, selenomethionine variant Q8ZRL5 Q8ZRL5 2.3 X-RAY DIFFRACTION 94 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 100 100 4hff-a2-m1-cB_4hff-a2-m2-cB 4j32-a1-m1-cB_4j32-a1-m2-cB QEALTTQYSQSELLKNWALSHCLALVYKDDVVKNDARATASAYLEYGKQSVEIYHEIDEIAKKYSGLKYNGSISSDFNTKCIDFIHDRELNELIKRRVEK QEALTTQYSQSELLKNWALSHCLALVYKDDVVKNDARATASAYLEYGKQSVEIYHEIDEIAKKYSGLKYNGSISSDFNTKCIDFIHDRELNELIKRRVEK 4j3c-a1-m1-cA_4j3c-a1-m1-cB Crystal structure of 16S ribosomal RNA methyltransferase RsmE Q92RS8 Q92RS8 2 X-RAY DIFFRACTION 89 0.982 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 227 229 QRLFIENALHAGAKHEATREQFNVLRLGEGSSLLVFNGRDGEWRAEIAPSRQAVLVAVEQTRPQPAPCDLVYLFAPLKVGRLDYLVQKAVEGAGVLQPVTQHVQGKIGSLERVRANVIEAAEQCGVLGIPAVEEPRKLEDLLIDWPRDRRIVFCDEGSQNPLPILEGIAERRLALLIGPEGGFSEAERDLLRSRDFVTAIPLGPRILRADTAAVAAAVIQATLGDWR QRLFIENALHAGAKHEATREQFNYLINVLRLGEGSSLLVFNGRDGEWRAEIAPSRQAVLVAVEQTRPQPAPCDLVYLFAPLVGRLDYLVQKAVEGAGVLQPVTQHVQGKIGSLERVRANVIEAAEQCGVLGIPAVEEPRKLEDLLIDWPRDRRIVFCNDSQNPLPILEGIAERRLALLIGPEGGFSEAERDLLRSRDFVTAIPLGPRILRADTAAVAAAVIQATLGDWR 4j3g-a2-m1-cC_4j3g-a2-m1-cD Crystal structure of Ribosomal-protein-alanine N-acetyltransferase from Brucella melitensis Q2YRK4 Q2YRK4 1.75 X-RAY DIFFRACTION 93 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 162 163 4j3g-a1-m1-cA_4j3g-a1-m1-cB 4jwp-a1-m1-cB_4jwp-a1-m1-cA LLIRHATEADLPALLAIYNDAVENTLAIWNETLVDLENRHQWLENRNRDGFPVLVAEREGQVVGYASYGPFRPFEGFRHSSELSVYVASNARGGGIGRTLLAELIEEARERKVHVLIAGIEAGNAASIALHRSQGFEECGTLKQVGQKFGRWLDLLFMQKIL TLLIRHATEADLPALLAIYNDAVENTLAIWNETLVDLENRHQWLENRNRDGFPVLVAEREGQVVGYASYGPFRPFEGFRHSSELSVYVASNARGGGIGRTLLAELIEEARERKVHVLIAGIEAGNAASIALHRSQGFEECGTLKQVGQKFGRWLDLLFMQKIL 4j3y-a1-m1-cC_4j3y-a1-m1-cA Crystal structure of XIAP-BIR2 domain P98170 P98170 1.45 X-RAY DIFFRACTION 38 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 77 83 4wvt-a1-m1-cC_4wvt-a1-m1-cA 4wvt-a2-m1-cD_4wvt-a2-m1-cB PAMYSEEARLKSFQNWPDYAHLTPRELASAGLYYTGIGDQVQCFACGGKLKNWEPGDRAWSEHRRHFPNCFFVLGRN GTIYPRNPAMYSEEARLKSFQNWPDYAHLTPRELASAGLYYTGIGDQVQCFACGGKLKNWEPGDRAWSEHRRHFPNCFFVLGR 4j40-a1-m1-cA_4j40-a1-m1-cB Crystal structure of the dual-domain GGDEF-EAL module of FimX from Pseudomonas aeruginosa Q9HUK6 Q9HUK6 2.99 X-RAY DIFFRACTION 144 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 251 251 4afy-a1-m1-cA_4afy-a1-m1-cB 4ag0-a1-m1-cB_4ag0-a1-m1-cA AAQRGDVIAILQQALETNSFRLLFQPVISLRGDSHENYEVLLRLLNPQGQEVPPAEFLHAAKEAGLAEKIDRWVILNSIKLLAEHRAKGHQTKLFVHLSSASLQDPGLLPWLGVALKAARLPPESLVFQISEADATSYLKQAKQLTQGLATLHCQAAISQFGCSLNPFNALKHLTVQFIKIDGSFVQDLNQVENQEILKGLIAELHEQQKLSIVPFVESASVLATLWQAGATYIQGYYLQGPSQAMDYDFS AAQRGDVIAILQQALETNSFRLLFQPVISLRGDSHENYEVLLRLLNPQGQEVPPAEFLHAAKEAGLAEKIDRWVILNSIKLLAEHRAKGHQTKLFVHLSSASLQDPGLLPWLGVALKAARLPPESLVFQISEADATSYLKQAKQLTQGLATLHCQAAISQFGCSLNPFNALKHLTVQFIKIDGSFVQDLNQVENQEILKGLIAELHEQQKLSIVPFVESASVLATLWQAGATYIQGYYLQGPSQAMDYDFS 4j4a-a2-m1-cF_4j4a-a2-m1-cD Crystal Structure of Engineered Trimeric Cortexillin-1 Coiled-Coil Variant Q54HG2 Q54HG2 1.6499 X-RAY DIFFRACTION 20 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 23 27 4j4a-a1-m1-cC_4j4a-a1-m1-cA 4j4a-a2-m1-cF_4j4a-a2-m1-cE 4j4a-a4-m1-cK_4j4a-a4-m1-cJ GSLELIKLRIMEIEARIAKIEKD GSLELIKLRIMEIEARIAKIEKDRAIL 4j4a-a4-m1-cL_4j4a-a4-m1-cJ Crystal Structure of Engineered Trimeric Cortexillin-1 Coiled-Coil Variant Q54HG2 Q54HG2 1.6499 X-RAY DIFFRACTION 18 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 21 27 4j4a-a1-m1-cB_4j4a-a1-m1-cC GSLELIKLRIMEIEARIAKIE GSLELIKLRIMEIEARIAKIEKDRAIL 4j4a-a4-m1-cL_4j4a-a4-m1-cK Crystal Structure of Engineered Trimeric Cortexillin-1 Coiled-Coil Variant Q54HG2 Q54HG2 1.6499 X-RAY DIFFRACTION 15 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 21 25 4j4a-a1-m1-cB_4j4a-a1-m1-cA 4j4a-a2-m1-cE_4j4a-a2-m1-cD GSLELIKLRIMEIEARIAKIE GSLELIKLRIMEIEARIAKIEKDRA 4j4e-a2-m1-cD_4j4e-a2-m1-cF Structure of P51G Cyanovirin-N swapped trimer in the P212121 space group P81180 P81180 2.4 X-RAY DIFFRACTION 149 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 4j4e-a1-m1-cA_4j4e-a1-m1-cC LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4e-a2-m1-cE_4j4e-a2-m1-cF Structure of P51G Cyanovirin-N swapped trimer in the P212121 space group P81180 P81180 2.4 X-RAY DIFFRACTION 69 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 4j4e-a1-m1-cB_4j4e-a1-m1-cC LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4f-a1-m1-cA_4j4f-a1-m1-cB Structure of P51G Cyanovirin-N swapped tetramer in the P212121 space group P81180 P81180 1.9 X-RAY DIFFRACTION 180 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 4j4d-a1-m1-cA_4j4d-a1-m1-cB 4j4d-a2-m1-cC_4j4d-a2-m1-cD 4j4e-a1-m1-cA_4j4e-a1-m1-cB 4j4e-a2-m1-cD_4j4e-a2-m1-cE 4j4f-a1-m1-cC_4j4f-a1-m1-cD LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4f-a1-m1-cB_4j4f-a1-m1-cC Structure of P51G Cyanovirin-N swapped tetramer in the P212121 space group P81180 P81180 1.9 X-RAY DIFFRACTION 83 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4f-a1-m1-cB_4j4f-a1-m1-cD Structure of P51G Cyanovirin-N swapped tetramer in the P212121 space group P81180 P81180 1.9 X-RAY DIFFRACTION 87 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 4j4f-a1-m1-cA_4j4f-a1-m1-cC LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4g-a1-m1-cA_4j4g-a1-m1-cB Structure of P51G Cyanovirin-N swapped tetramer in the C2 space group P81180 P81180 1.92 X-RAY DIFFRACTION 106 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4g-a1-m1-cA_4j4g-a1-m1-cD Structure of P51G Cyanovirin-N swapped tetramer in the C2 space group P81180 P81180 1.92 X-RAY DIFFRACTION 79 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 4j4g-a1-m1-cB_4j4g-a1-m1-cC LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4g-a1-m1-cB_4j4g-a1-m1-cD Structure of P51G Cyanovirin-N swapped tetramer in the C2 space group P81180 P81180 1.92 X-RAY DIFFRACTION 140 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 4j4g-a1-m1-cA_4j4g-a1-m1-cC LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4g-a1-m1-cC_4j4g-a1-m1-cD Structure of P51G Cyanovirin-N swapped tetramer in the C2 space group P81180 P81180 1.92 X-RAY DIFFRACTION 116 1.0 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 101 101 LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE LGKFSQTCYNSAIQGSVLTSTCERTNGGYNTSSIDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIANIDGTLKYE 4j4w-a1-m2-cA_4j4w-a1-m4-cA Crystal structure of BueVN A7KCP4 A7KCP4 2.661 X-RAY DIFFRACTION 91 1.0 206377 (Buenaventura virus) 206377 (Buenaventura virus) 243 243 4j4w-a1-m1-cA_4j4w-a1-m3-cA 4j4w-a1-m1-cA_4j4w-a1-m4-cA 4j4w-a1-m2-cA_4j4w-a1-m3-cA MSYEEIAIQFASESVDATTIAAWVSEFAYQGFDARQVINLVKQRGGDDWKEDVKKMIVLSLTRGNKPSKMLNKMSESGQKIVNDLISKYKLKSGNPGRNDLTLSRIAAAFAGWTCQAAEVVQDYLPVTGRAMDAISDKFPRALMHPSFAGLVDPTLPEGVVEDIVHAHCLFMIQFSKTINPSLRSSSKSEVVSSFDRPMQAAINSPFLTAGNRRDILMSLGLINSNLKPSPTVVAAAKVYRKL MSYEEIAIQFASESVDATTIAAWVSEFAYQGFDARQVINLVKQRGGDDWKEDVKKMIVLSLTRGNKPSKMLNKMSESGQKIVNDLISKYKLKSGNPGRNDLTLSRIAAAFAGWTCQAAEVVQDYLPVTGRAMDAISDKFPRALMHPSFAGLVDPTLPEGVVEDIVHAHCLFMIQFSKTINPSLRSSSKSEVVSSFDRPMQAAINSPFLTAGNRRDILMSLGLINSNLKPSPTVVAAAKVYRKL 4j4x-a1-m1-cC_4j4x-a1-m1-cB Crystal structure of GraVN E2DQZ4 E2DQZ4 2.51 X-RAY DIFFRACTION 97 1.0 904668 (Granada virus) 904668 (Granada virus) 246 248 4j4x-a1-m1-cB_4j4x-a1-m1-cA 4j4x-a1-m1-cC_4j4x-a1-m1-cD 4j4x-a1-m1-cD_4j4x-a1-m1-cE 4j4x-a1-m1-cF_4j4x-a1-m1-cA 4j4x-a1-m1-cF_4j4x-a1-m1-cE NYRTIALAFLDESADSTTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPESMMKKMSEKGAAIVTQLISTYQLKEGNPGRDTITLSRVSAAFVPWTVQALKTLSESLPVTGTTMDSIAGTTYPRCMMHPSFAGIIDLELPNNTGAMLADAHGLFMLEFSKTINPSLRTKQPNEIAATFEKPNMAAMTGRFFTRDDKKKLLIAIGVLNEDLVPNPAIEKCAEKYKAK NYRTIALAFLDESADSTTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPESMMKKMSEKGAAIVTQLISTYQLKEGNPGRDTITLSRVSAAFVPWTVQALKTLSESLPVTGTTMDSIAGTTYPRCMMHPSFAGIIDLELPNNTGAMLADAHGLFMLEFSKTINPSLRTKQPNEIAATFEKPNMAAMTGRFFTRDDKKKLLIAIGVLNEDLVPNPAIEKCAEKYKAKVG 4j4y-a1-m1-cD_4j4y-a1-m1-cA Triple mutant GraVN E2DQZ4 E2DQZ4 2.45 X-RAY DIFFRACTION 102 0.996 904668 (Granada virus) 904668 (Granada virus) 248 250 4j4y-a1-m1-cB_4j4y-a1-m1-cC EDNYRTIALAFLDESADSTTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVDGNEPESMMKEMSEKGAAIVTQLISTYQLKEGNPGRDTITLSRVSAAFVPWTVQALKTLSESLPVTGTTMDSIAGTTYPRCMMHPSFAGIIDLELPNNTGAMLADAHGLFMLEFSKTINPSLRTKQPNEIAATFEKPNMAAMTGRFFTRDDKKKLLIAIGVLNEDLVPNPAIEKCAEKYKAK DNYRTIALAFLDESADSTTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVDGNEPESMMKEMSEKGAAIVTQLISTYQLKEGNPGRDTITLSRVSAAFVPWTVQALKTLSESLPVTGTTMDSIAGTTYPRCMMHPSFAGIIDLELPNNTGAMLADAHGLFMLEFSKTINPSLRTKQPNEIAATFEKPNMAAMTGRFFTRDDKKKLLIAIGVLNEDLVPNPAIEKCAEKYKAKVGK 4j4y-a1-m1-cD_4j4y-a1-m1-cC Triple mutant GraVN E2DQZ4 E2DQZ4 2.45 X-RAY DIFFRACTION 87 1.0 904668 (Granada virus) 904668 (Granada virus) 248 251 4j4y-a1-m1-cB_4j4y-a1-m1-cA EDNYRTIALAFLDESADSTTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVDGNEPESMMKEMSEKGAAIVTQLISTYQLKEGNPGRDTITLSRVSAAFVPWTVQALKTLSESLPVTGTTMDSIAGTTYPRCMMHPSFAGIIDLELPNNTGAMLADAHGLFMLEFSKTINPSLRTKQPNEIAATFEKPNMAAMTGRFFTRDDKKKLLIAIGVLNEDLVPNPAIEKCAEKYKAK EDNYRTIALAFLDESADSTTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVDGNEPESMMKEMSEKGAAIVTQLISTYQLKEGNPGRDTITLSRVSAAFVPWTVQALKTLSESLPVTGTTMDSIAGTTYPRCMMHPSFAGIIDLELPNNTGAMLADAHGLFMLEFSKTINPSLRTKQPNEIAATFEKPNMAAMTGRFFTRDDKKKLLIAIGVLNEDLVPNPAIEKCAEKYKAKVGK 4j56-a2-m1-cC_4j56-a2-m1-cD Structure of Plasmodium falciparum thioredoxin reductase-thioredoxin complex P61076 P61076 2.371 X-RAY DIFFRACTION 273 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 504 504 4b1b-a1-m1-cA_4b1b-a1-m1-cB 4j56-a1-m1-cA_4j56-a1-m1-cB 4j57-a1-m1-cA_4j57-a1-m1-cB HTYDYDYVVIGGGPGGMASAKEAAAHGARVLLFDYVKPSSQGTKWGIGGTCVNVGCVPKKLMHYAGHMGSIFKLDSKAYGWKFDNLKHDWKKLVTTVQSHIRSLNFSYMTGLRSSKVKYINGLAKLKDKNTVSYYLKGDLSKEETVTGKYILIATGCRPHIPDDVEGAKELSITSDDIFSLKKDPGKTLVVGASYVALECSGFLNSLGYDVTVAVRSIVLRGFDQQCAVKVKLYMEEQGVMFKNGILPKKLTKMDDKILVEFSDKTSELYDTVLYAIGRKGDIDGLNLESLNMNVNKSNNKIIADHLSCTNIPSIFAVGDVAENVPELAPVAIKAGEILARRLFKDSDEIMDYSYIPTSIYTPIEYGACGYSEEKAYELYGKSNVEVFLQEFNNLEISAVHRQKHIRAQKDEYDLDVSSTCLAKLVCLKNEDNRVIGFHYVGPNAGEVTQGMALALRLKVKKKDFDNCIGIHPTDAESFMNLFVTISSGLSYAAKGGSGGGKCG HTYDYDYVVIGGGPGGMASAKEAAAHGARVLLFDYVKPSSQGTKWGIGGTCVNVGCVPKKLMHYAGHMGSIFKLDSKAYGWKFDNLKHDWKKLVTTVQSHIRSLNFSYMTGLRSSKVKYINGLAKLKDKNTVSYYLKGDLSKEETVTGKYILIATGCRPHIPDDVEGAKELSITSDDIFSLKKDPGKTLVVGASYVALECSGFLNSLGYDVTVAVRSIVLRGFDQQCAVKVKLYMEEQGVMFKNGILPKKLTKMDDKILVEFSDKTSELYDTVLYAIGRKGDIDGLNLESLNMNVNKSNNKIIADHLSCTNIPSIFAVGDVAENVPELAPVAIKAGEILARRLFKDSDEIMDYSYIPTSIYTPIEYGACGYSEEKAYELYGKSNVEVFLQEFNNLEISAVHRQKHIRAQKDEYDLDVSSTCLAKLVCLKNEDNRVIGFHYVGPNAGEVTQGMALALRLKVKKKDFDNCIGIHPTDAESFMNLFVTISSGLSYAAKGGSGGGKCG 4j5i-a1-m1-cA_4j5i-a1-m1-cB Crystal structure of an alpha-ketoglutarate-dependent taurine dioxygenase from Mycobacterium smegmatis A0QZ23 A0QZ23 2.6 X-RAY DIFFRACTION 40 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 248 285 4j5i-a1-m1-cD_4j5i-a1-m1-cC 4j5i-a2-m1-cE_4j5i-a2-m1-cF 4j5i-a2-m1-cH_4j5i-a2-m1-cG QVTVTKLGAHIGARIDGVRVGGDLSPATVSAINAALLEHKVIFFSGQDHLDDAGQLEFAELLGTPTVANSWHTDVTFVDRIPKASLLRAVTLPSYGGTTAWASTEAAYQQLPAPLRTLADNLWAVHTNRDYYEVEHPVVRVHPETGERVLLLGHFVKSFVGLKDTESAALFRLFQDRITRLENTVRWSWKPGDLAIWDNRATQHYAVADYDDQYRRLNRVTLAGDIPVDVYGERSRVIAGDASSYSPV VQVTVTKLGAHIGARIDGVRVGGDLSPATVSAINAALLEHKVIFFSGQDHLDDAGQLEFAELLGTPTVAHPTLAEGAEQLLPIDSRYDKANSWHTDVTFVDRIPKASLLRAVTLPSYGGTTAWASTEAAYQQLPAPLRTLADNLWAVHTNRISAEQRGYRQRFESDYYEVEHPVVRVHPETGERVLLLGHFVKSFVGLKDTESAALFRLFQDRITRLENTVRWSWKPGDLAIWDNRATQHYAVADYDDQYRRLNRVTLAGDIPVDVYGERSRVIAGDASSYSPVD 4j5i-a2-m1-cE_4j5i-a2-m1-cG Crystal structure of an alpha-ketoglutarate-dependent taurine dioxygenase from Mycobacterium smegmatis A0QZ23 A0QZ23 2.6 X-RAY DIFFRACTION 58 0.992 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 250 264 4j5i-a1-m1-cA_4j5i-a1-m1-cC 4j5i-a1-m1-cD_4j5i-a1-m1-cB 4j5i-a2-m1-cH_4j5i-a2-m1-cF VQVTVTKLGAHIGARIDGVRVGGDLSPATVSAINAALLEHKVIFFSGQDHLDDAGQLEFAELLGTPTVANSWHTDVTFVDRIPKASLLRAVTLPSYGGTTAWASTEAAYQQLPAPLRTLADNLWAVHTNRDYYEVEHPVVRVHPETGERVLLLGHFVKSFVGLKDTESAALFRLFQDRITRLENTVRWSWKPGDLAIWDNRATQHYAVADYDDQYRRLNRVTLAGDIPVDVYGERSRVIAGDASSYSPVD QVTVTKLGAHIGARIDGVRVGGDLSPATVSAINAALLEHKVIFFSGQDHLDDAGQLEFAELLGTPTVAHPTLAEGAEQLLPIDANSWHTDVTFVDRIPKASLLRAVTLPSYGGTTAWASTEAAYQQLPAPLRTLADNLWAVHTNRDYYEVEHPVVRVHPETGERVLLLGHFVKSFVGLKDTESAALFRLFQDRITRLENTVRWSWKPGDLAIWDNRATQHYAVADYDDQYRRLNRVTLAGDIPVDVYGERSRVIAGDASSYSPV 4j5r-a3-m1-cB_4j5r-a3-m1-cA TARG1 (C6orf130), Terminal ADP-ribose Glycohydrolase 1 bound to ADP-HPD Q9Y530 Q9Y530 1.25 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 141 RITYVKGDLFACPKTDSLAHCISEDCRMGAGIAVLFKKKFGGVQELLNQQKKSGEVAVLKRDGRYIYYLITKKRASHKPTYENLQKSLEAMKSHCLKNGVTDLSMPRIGCGLDRLQWENVSAMIEEVFEATDIKITVYT SRITYVKGDLFACPKTDSLAHCISEDCRMGAGIAVLFKKKFGGVQELLNQQKKSGEVAVLKRDGRYIYYLITKKRASHKPTYENLQKSLEAMKSHCLKNGVTDLSMPRIGCGLDRLQWENVSAMIEEVFEATDIKITVYTL 4j5u-a1-m1-cA_4j5u-a1-m1-cB X-ray crystal structure of a serine hydroxymethyltransferase with covalently bound PLP from Rickettsia rickettsii str. Sheila Smith A8GTI9 A8GTI9 1.7 X-RAY DIFFRACTION 305 1.0 392021 (Rickettsia rickettsii str. 'Sheila Smith') 392021 (Rickettsia rickettsii str. 'Sheila Smith') 419 419 MNIFNNNLHETDKEINEIIKHEKLRQSSVIELIASENFVSPAVLEAQGALLTNKYAEGYPSKRFYNGCEEVDKAENLAIERVKKLFNCKYANVQPHSGSQANQAVYLALLQPGDTVLGMSLDSGGHLTHGAAPNMSGKWFNAVSYSVNKETYLIDYDEIERLADLHKPKLLIAGFSAYPRNIDFAKFREIVDKVGAYFMADIAHIAGLVATGEHQSPIPYAHAVTSTTHTLRGPRGGLILSNDEEIGHKINSALFPGLQGGPLMHIIAAKAVAFLENLQPEYKSYIQQVISNAKALASSLQERGYDILTGGTDNHIVLVDLRKDGITGKLAANSLDRAGITCNKNAIPFDETSPFITSGIRLGTPACTTRGFKEKDFVLVGHMVADILDGLKNNEDNSALEQQVLNEVTKLIELFPFYG MNIFNNNLHETDKEINEIIKHEKLRQSSVIELIASENFVSPAVLEAQGALLTNKYAEGYPSKRFYNGCEEVDKAENLAIERVKKLFNCKYANVQPHSGSQANQAVYLALLQPGDTVLGMSLDSGGHLTHGAAPNMSGKWFNAVSYSVNKETYLIDYDEIERLADLHKPKLLIAGFSAYPRNIDFAKFREIVDKVGAYFMADIAHIAGLVATGEHQSPIPYAHAVTSTTHTLRGPRGGLILSNDEEIGHKINSALFPGLQGGPLMHIIAAKAVAFLENLQPEYKSYIQQVISNAKALASSLQERGYDILTGGTDNHIVLVDLRKDGITGKLAANSLDRAGITCNKNAIPFDETSPFITSGIRLGTPACTTRGFKEKDFVLVGHMVADILDGLKNNEDNSALEQQVLNEVTKLIELFPFYG 4j6c-a3-m1-cB_4j6c-a3-m2-cA The 1.9 A crystal structure of CYP154C5 from Nocardia farcinica in complex with progesterone Q5YNS8 Q5YNS8 1.9 X-RAY DIFFRACTION 71 1.0 247156 (Nocardia farcinica IFM 10152) 247156 (Nocardia farcinica IFM 10152) 406 407 4j6b-a3-m1-cA_4j6b-a3-m2-cB 4j6d-a3-m1-cA_4j6d-a3-m2-cB 4jbt-a3-m1-cB_4jbt-a3-m2-cA PHSDTLTIDPMITDLAGETSRLRAAGPLTRIDLLGVPALAVTGHTLARQLLTDTRLVKDINAWSLWQSGTVTRQWPLIGMIDVDRSMFTVDGPEHRRLRIKTTQALTRRRLDALKPTIERYVAELLDDLERAGADGAVVDLKSVFAYPLPMRVISALMGVPSEDQEQLLTWYKAFFSILTPQDERLRVIDEMHGYFTEMVRRKTAEPGDDLTSALIYATDGETPLTEEEVIGNLQALVAAGHETTVSLILTAVRALLSHPEQLRLVRDGEIGWETAIEETLRWDGPVIHLLMRFATEDIDLGDAVIPRGEGVVMSYRAIGRDITVHGADADDFDITRATAARHISFGHGPHICPGAALARLEAAIALPALFTRFPHLHPALPLDQIPNLPVLTQNDLSHFPIHLGR CPHSDTLTIDPMITDLAGETSRLRAAGPLTRIDLLGVPALAVTGHTLARQLLTDTRLVKDINAWSLWQSGTVTRQWPLIGMIDVDRSMFTVDGPEHRRLRIKTTQALTRRRLDALKPTIERYVAELLDDLERAGADGAVVDLKSVFAYPLPMRVISALMGVPSEDQEQLLTWYKAFFSILTPQDERLRVIDEMHGYFTEMVRRKTAEPGDDLTSALIYATDGETPLTEEEVIGNLQALVAAGHETTVSLILTAVRALLSHPEQLRLVRDGEIGWETAIEETLRWDGPVIHLLMRFATEDIDLGDAVIPRGEGVVMSYRAIGRDITVHGADADDFDITRATAARHISFGHGPHICPGAALARLEAAIALPALFTRFPHLHPALPLDQIPNLPVLTQNDLSHFPIHLGR 4j6e-a1-m1-cA_4j6e-a1-m2-cA Structure of LPXI D225A Mutant A0A0H3C8Q1 A0A0H3C8Q1 2.52 X-RAY DIFFRACTION 88 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 273 273 MRKLGLIAGGGALPVELASHCEAAGRAFAVMRLRSFADPSLDRYPGADVGIGEFGKIFKALRAEGCDVVCFAGNVSRPDFSALMPDARGLKVLPSLIVAARKGDDALLRRVLDEFEKEGFEIEGAHEVMGEMTLPRGRLGKVSPAPEHMADIDKALDVAREIGRLDIGQGAVVCEGLVLAVEAQEGTDAMLRRVADLPEAIRGRAERRLGVLAKAPKPIRVALPTIGVATIHRAARAGLAGIVGEAGRLLVVDREAVIAAADDLGLFVLGVDP MRKLGLIAGGGALPVELASHCEAAGRAFAVMRLRSFADPSLDRYPGADVGIGEFGKIFKALRAEGCDVVCFAGNVSRPDFSALMPDARGLKVLPSLIVAARKGDDALLRRVLDEFEKEGFEIEGAHEVMGEMTLPRGRLGKVSPAPEHMADIDKALDVAREIGRLDIGQGAVVCEGLVLAVEAQEGTDAMLRRVADLPEAIRGRAERRLGVLAKAPKPIRVALPTIGVATIHRAARAGLAGIVGEAGRLLVVDREAVIAAADDLGLFVLGVDP 4j6f-a1-m1-cB_4j6f-a1-m1-cA Crystal structure of putative alcohol dehydrogenase from Sinorhizobium meliloti 1021, NYSGRC-Target 012230 Q92WD4 Q92WD4 2.8 X-RAY DIFFRACTION 124 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 348 349 SRHSVPKTTAVLLTGHGGLEKLVYSRDVPVPAPAAGEVLIKVTACGNNTDVWVREGAYGTEDDPSAVSTWRRHGNTLTFPRIQGTDTVGHIVAVGEGVDRARIGERVVDFSIYNRDDDSLADIDYGHGRDGGYAEYALPAENAHVVATDLTDIELATFCCAYLTGERLERARLAAGETVLVTGASGGVGSAIIQLARARGAVPIAVAGPGKEAALDIGAQAVVTRGQGDLAEAVEAASGGRPIDVVADLVGGPLFNDLLKILRPEGRYTTAGAIAGPVVQLDLRTYLKQLELHGSSQGSRADFRRLVRYIEEKKIRPLVGGVYPLSEFHRAQTDFAKNFVGKLVVVPD QSRHSVPKTTAVLLTGHGGLEKLVYSRDVPVPAPAAGEVLIKVTACGNNTDVWVREGAYGTEDDPSAVSTWRRHGNTLTFPRIQGTDTVGHIVAVGEGVDRARIGERVVDFSIYNRDDDSLADIDYGHGRDGGYAEYALPAENAHVVATDLTDIELATFCCAYLTGERLERARLAAGETVLVTGASGGVGSAIIQLARARGAVPIAVAGPGKEAALDIGAQAVVTRGQGDLAEAVEAASGGRPIDVVADLVGGPLFNDLLKILRPEGRYTTAGAIAGPVVQLDLRTYLKQLELHGSSQGSRADFRRLVRYIEEKKIRPLVGGVYPLSEFHRAQTDFAKNFVGKLVVVPD 4j6q-a2-m1-cA_4j6q-a2-m2-cA Crystal structure of calcium2+-free wild-type CD23 lectin domain (crystal form G) P06734 P06734 2.539 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 132 FVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKHASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGEPTSRSQGEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCT FVCNTCPEKWINFQRKCYYFGKGTKQWVHARYACDDMEGQLVSIHSPEEQDFLTKHASHTGSWIGLRNLDLKGEFIWVDGSHVDYSNWAPGEPTSRSQGEDCVMMRGSGRWNDAFCDRKLGAWVCDRLATCT 4j7a-a1-m1-cA_4j7a-a1-m1-cD Crystal Structure of Est25 - a Bacterial Homolog of Hormone-Sensitive Lipase from a Metagenomic Library Q4TZQ3 Q4TZQ3 1.492 X-RAY DIFFRACTION 80 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 355 355 4j7a-a2-m1-cB_4j7a-a2-m1-cC 5iq0-a1-m1-cB_5iq0-a1-m1-cA 5iq0-a2-m1-cC_5iq0-a2-m1-cD 5iq2-a1-m1-cB_5iq2-a1-m1-cA 5iq2-a2-m1-cC_5iq2-a2-m1-cD 5iq3-a1-m1-cB_5iq3-a1-m1-cA 5iq3-a2-m1-cC_5iq3-a2-m1-cD QLPGRLGDPSMSLGTDPRTDPRLAAALTQLGLADQAAEPPVNANSEVADCIAYSTAAEQAWQTLFAMLGSQGEPSNPVDVREETIKGRGGNEIKLYIHSPTGHTSDSDPLPCVVHTHGGGMVILTAADANYSRWRSELAATGLVVVGVEFRNAAGALGNHPFPAGLHDCADAAKWVASNREALGISTLIMSGESGGGNLSLATTMLAKKEGWLEEIAGVYAQCPYISGLYASKPEELPSLLENDAYFLDMKTMGAMVKPYDPTGENASNPLAWPYHASLEDLAGLPPHVISVNELDPLRDEGLAHYRKLLKAGVSTVGRTVHGTCHAADCSFVDVIPDVYFATVRDISAFAYSRA QLPGRLGDPSMSLGTDPRTDPRLAAALTQLGLADQAAEPPVNANSEVADCIAYSTAAEQAWQTLFAMLGSQGEPSNPVDVREETIKGRGGNEIKLYIHSPTGHTSDSDPLPCVVHTHGGGMVILTAADANYSRWRSELAATGLVVVGVEFRNAAGALGNHPFPAGLHDCADAAKWVASNREALGISTLIMSGESGGGNLSLATTMLAKKEGWLEEIAGVYAQCPYISGLYASKPEELPSLLENDAYFLDMKTMGAMVKPYDPTGENASNPLAWPYHASLEDLAGLPPHVISVNELDPLRDEGLAHYRKLLKAGVSTVGRTVHGTCHAADCSFVDVIPDVYFATVRDISAFAYSRA 4j7c-a3-m1-cK_4j7c-a3-m1-cL KtrAB potassium transporter from Bacillus subtilis O32081 O32081 3.5 X-RAY DIFFRACTION 221 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 429 429 4j7c-a1-m1-cI_4j7c-a1-m1-cJ 4j7c-a2-m1-cK_4j7c-a2-m1-cL 4j7c-a3-m1-cI_4j7c-a3-m1-cJ 5but-a1-m1-cI_5but-a1-m1-cJ 5but-a2-m1-cK_5but-a2-m1-cL TPPQVLAIGFFLTIIIGAVLLMLPISTTKPLSWIDALFTAASATTVTGLAVVDTGTQFTVFGQTVIMGLIQIGGLGFMTFAVLIVMILKIGLKERMLVQEALNQPTIGGVIGLVKVLFLFSISIELIAALILSIRLVPQYGWSSGLFASLFHAISAFNNAGFSLWPDNLMSYVGDPTVNLVITFLFITGGIGFTVLFDVMKNRRFKTFSLHTKLMLTGTLMLNAIAMLTVFILEYSNPGTLGHLHIVDKLWASYFQAVTPRTAGFNSLDFGSMREGTIVFTLLLMFIGAGSASTASGIKLTTFIVILTSVIAYLRGKKETVIFRRSIKYPIIIKALAVSVTSLFIVFLGIFALTITEQAPFLQIVFETFSAFGTVGLTMGLTPELTTAGKCIIIVIMFIGRIGPLTFVFSFAKTEQSNIRYPDGEVFTG TPPQVLAIGFFLTIIIGAVLLMLPISTTKPLSWIDALFTAASATTVTGLAVVDTGTQFTVFGQTVIMGLIQIGGLGFMTFAVLIVMILKIGLKERMLVQEALNQPTIGGVIGLVKVLFLFSISIELIAALILSIRLVPQYGWSSGLFASLFHAISAFNNAGFSLWPDNLMSYVGDPTVNLVITFLFITGGIGFTVLFDVMKNRRFKTFSLHTKLMLTGTLMLNAIAMLTVFILEYSNPGTLGHLHIVDKLWASYFQAVTPRTAGFNSLDFGSMREGTIVFTLLLMFIGAGSASTASGIKLTTFIVILTSVIAYLRGKKETVIFRRSIKYPIIIKALAVSVTSLFIVFLGIFALTITEQAPFLQIVFETFSAFGTVGLTMGLTPELTTAGKCIIIVIMFIGRIGPLTFVFSFAKTEQSNIRYPDGEVFTG 4j7h-a3-m4-cB_4j7h-a3-m5-cB Crystal structure of EvaA, a 2,3-dehydratase in complex with dTDP-benzene and dTDP-rhamnose O52793 O52793 1.69 X-RAY DIFFRACTION 147 1.0 31958 (Amycolatopsis orientalis) 31958 (Amycolatopsis orientalis) 444 444 4j7g-a1-m1-cA_4j7g-a1-m2-cA 4j7g-a2-m1-cB_4j7g-a2-m3-cB 4j7g-a3-m1-cA_4j7g-a3-m2-cA 4j7g-a3-m4-cB_4j7g-a3-m5-cB 4j7h-a1-m1-cA_4j7h-a1-m2-cA 4j7h-a2-m1-cB_4j7h-a2-m3-cB 4j7h-a3-m1-cA_4j7h-a3-m2-cA AVRPRDHHDYADRIALSAATTDGVQMRTEDVRAWIAERRDANVFHVERIPFADLDQWWFEGVTGNLVHRSGRFFTIEGLHVIEHDGPHGDGPYREWQQPVIRQPEVGILGILAKEFDGVLHFLMQAKMEPGNPNLVQLSPTVQATRSNNVKLIEYFAPPDPERVIVDVLQAEQGSWFFRKSNRNMIVETVDDVPLWDDFCWLTLGQIAELMHEDETINMNSRSVLSCLPYQDITPRALFSDVQLLSWFTNERSRHDVRVRRIPLADVCGWKQGAEEIEHEDGRYFKVLAVAVKGSWTQPLVESVDLGVVAFLVRKIDGVPHVLVQARVDGGFLDTVELAPTVQCTPLNYAHLPAEEAPPFLDLVQNAPRSRIRYEAIHSEEGGRFLGVRARYLVIDADEAIDPPPGYAWVTPAQLTALTRHGHYVNVEARTLLACINAAAAQPR AVRPRDHHDYADRIALSAATTDGVQMRTEDVRAWIAERRDANVFHVERIPFADLDQWWFEGVTGNLVHRSGRFFTIEGLHVIEHDGPHGDGPYREWQQPVIRQPEVGILGILAKEFDGVLHFLMQAKMEPGNPNLVQLSPTVQATRSNNVKLIEYFAPPDPERVIVDVLQAEQGSWFFRKSNRNMIVETVDDVPLWDDFCWLTLGQIAELMHEDETINMNSRSVLSCLPYQDITPRALFSDVQLLSWFTNERSRHDVRVRRIPLADVCGWKQGAEEIEHEDGRYFKVLAVAVKGSWTQPLVESVDLGVVAFLVRKIDGVPHVLVQARVDGGFLDTVELAPTVQCTPLNYAHLPAEEAPPFLDLVQNAPRSRIRYEAIHSEEGGRFLGVRARYLVIDADEAIDPPPGYAWVTPAQLTALTRHGHYVNVEARTLLACINAAAAQPR 4j7r-a1-m1-cB_4j7r-a1-m1-cA Crystal Structure of Chlamydomonas reinhardtii Isoamylase 1 (ISA1) Q7X8Q2 Q7X8Q2 2.3 X-RAY DIFFRACTION 107 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 797 800 4okd-a1-m1-cB_4okd-a1-m1-cA CEPSGQPASTAYGPALTGRPAPLGASIDADTGAINFSVFSSSAESVSLVLFTEADLNAGRATFEIPLDPYVNRTGDVWHIMLPDLRDDLLYGYRVEGVHQEEDKDYPGMRHDKRRVVLDPYAVAVLNRRRWGQMGPNLPYGEEGVLGVMPTWPQAAAALPAARGSAFDWEGDTPLNLPMESLVIYEAHVRGFTAHASSGVAAPGTYAGMVERLDYLKSLGVNAIELLPVFEFNELEYYSQIPGSDQYRFNFWGYSTVNYFSPMGRFSAAVGQGAPARASCDEFKQLVKECHRRGIEVILDVVFNHTAEGNERGPTISFRGLDNRVYYMLAPGGEYYNYSGCGNTLNCNQPVVRQFILDCLKHWVTEYHVDGFRFDLASILTRAHSAWHPQQYDQETGQRVAMSSGGAIVTAEGIMTDGAGVPTGYPLADPPLVESISEDPVLRNTKMIAEAWDCDGLNQVGAFPHYGGRWSEWNGKFRDVVRNFIKGTDGPWAGDFASAICGSPNIYANNTPHETDWWANNGGRQWKGGRGPHASINFVAAHDGFTLADMVAYNNKHNEANGENNRDGEQHNNSWNCGEEGPTTKWEVNRLRQRQMRNLTGALLLSCGVPMINMGDEYGHSKNGNNNTYCHDSELNYLRWDQLAEDPHGFNRFVRLLIHFRRATPALQRTTFVNDKDIQWHGELPNTPDWTDTSRLVAFTLHDGKGGGLYVAFNTSHLPKLLQLPKWGGRVWQPLVDTSKVAPYDFLAVDGVLSAEDVAAARRQMAMWTADHTYPVLPWSCIVLQSAPEDPAATSMI LFCEPSGQPASTAYGPALTGRPAPLGASIDADTGAINFSVFSSSAESVSLVLFTEADLNAGRATFEIPLDPYVNRTGDVWHIMLPDLRDDLLYGYRVEGVHQEEDKDYPGMRHDKRRVVLDPYAVAVLNRRRWGQMGPNLPYGEEGVLGVMPTWPQAAAALPAARGSAFDWEGDTPLNLPMESLVIYEAHVRGFTAHASSGVAAPGTYAGMVERLDYLKSLGVNAIELLPVFEFNELEYYSQIPGSDQYRFNFWGYSTVNYFSPMGRFSAAVGQGAPARASCDEFKQLVKECHRRGIEVILDVVFNHTAEGNERGPTISFRGLDNRVYYMLAPGGEYYNYSGCGNTLNCNQPVVRQFILDCLKHWVTEYHVDGFRFDLASILTRAHSAWHPQQYDQETGQRVAMSSGGAIVTAEGIMTDGAGVPTGYPLADPPLVESISEDPVLRNTKMIAEAWDCDGLNQVGAFPHYGGRWSEWNGKFRDVVRNFIKGTDGPWAGDFASAICGSPNIYANNTPHETDWWANNGGRQWKGGRGPHASINFVAAHDGFTLADMVAYNNKHNEANGENNRDGEQHNNSWNCGEEGPTTKWEVNRLRQRQMRNLTGALLLSCGVPMINMGDEYGHSKNGNNNTYCHDSELNYLRWDQLAEDPHGFNRFVRLLIHFRRATPALQRTTFVNDKDIQWHGELPNTPDWTDTSRLVAFTLHDGKGGGLYVAFNTSHLPKLLQLPKWGGRVWQPLVDTSKVAPYDFLAVDGVLSAEDVAAARRQMAMWTADHTYPVLPWSCIVLQSAPEDPAATSMIK 4j7y-a2-m2-cA_4j7y-a2-m9-cA Human LTC4 synthase in complex with product analogs - implications for enzyme catalysis Q16873 Q16873 2.901 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 147 3leo-a1-m10-cA_3leo-a1-m9-cA 3leo-a1-m11-cA_3leo-a1-m12-cA 3leo-a1-m1-cA_3leo-a1-m2-cA 3leo-a1-m3-cA_3leo-a1-m4-cA 3leo-a1-m5-cA_3leo-a1-m6-cA 3leo-a1-m7-cA_3leo-a1-m8-cA 4j7t-a2-m10-cA_4j7t-a2-m11-cA 4j7t-a2-m12-cA_4j7t-a2-m3-cA 4j7t-a2-m1-cA_4j7t-a2-m5-cA 4j7t-a2-m2-cA_4j7t-a2-m7-cA 4j7t-a2-m4-cA_4j7t-a2-m6-cA 4j7t-a2-m8-cA_4j7t-a2-m9-cA 4j7y-a2-m10-cA_4j7y-a2-m3-cA 4j7y-a2-m11-cA_4j7y-a2-m12-cA 4j7y-a2-m1-cA_4j7y-a2-m4-cA 4j7y-a2-m5-cA_4j7y-a2-m6-cA 4j7y-a2-m7-cA_4j7y-a2-m8-cA HHHKDEVALLAAVTLLGVLLQAYFSLQVISARRAFRVSPPLTTGPPEFERVYRAQVNCSEYFPLFLATLWVAGIFFHEGAAALCGLVYLFARLRYFQGYARSAQLRLAPLYASARALWLLVALAALGLLAHFLPAALRAALLGRLRT HHHKDEVALLAAVTLLGVLLQAYFSLQVISARRAFRVSPPLTTGPPEFERVYRAQVNCSEYFPLFLATLWVAGIFFHEGAAALCGLVYLFARLRYFQGYARSAQLRLAPLYASARALWLLVALAALGLLAHFLPAALRAALLGRLRT 4j80-a2-m1-cC_4j80-a2-m1-cD Thermus thermophilus DnaJ Q56237 Q56237 2.9 X-RAY DIFFRACTION, EPR 88 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 265 265 4j80-a1-m1-cA_4j80-a1-m1-cB AAKKDYYAILGVPRNATQEEIKRAYKRLARQYHPDVNKSPEAEEKFKEINEAYAVSDPEKRRIYDTYGTTEAPPPPPPGGYDFSGFDVEDFSEFFQELFGPGLFGKGRDLRAELPLTLEEAFHGGERVVEVAGRRVSVRPPGVREGSVIRVPGGGQGNPPGDLLLVVRLPHPVFRLEGQDLYATLDVPAPIAVVGGKVRATLEGPVEVAVPPRTQAGRKRLKGGGFPGPAGRGDLYLEVRITIPERLTPEEEALWKKLAEAYYAR AAKKDYYAILGVPRNATQEEIKRAYKRLARQYHPDVNKSPEAEEKFKEINEAYAVSDPEKRRIYDTYGTTEAPPPPPPGGYDFSGFDVEDFSEFFQELFGPGLFGKGRDLRAELPLTLEEAFHGGERVVEVAGRRVSVRPPGVREGSVIRVPGGGQGNPPGDLLLVVRLPHPVFRLEGQDLYATLDVPAPIAVVGGKVRATLEGPVEVAVPPRTQAGRKRLKGGGFPGPAGRGDLYLEVRITIPERLTPEEEALWKKLAEAYYAR 4j83-a2-m1-cA_4j83-a2-m2-cA SET7/9 in complex with TAF10K189A peptide and AdoMet Q8WTS6 Q8WTS6 1.7 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 3cbo-a2-m1-cA_3cbo-a2-m2-cA 4j7f-a2-m1-cA_4j7f-a2-m2-cA 4j7i-a2-m1-cA_4j7i-a2-m2-cA GVCWIYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRPHFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNTVMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFTPNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDHSPPEAPEWYQVELKAFQAT GVCWIYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRPHFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNTVMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFTPNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDHSPPEAPEWYQVELKAFQAT 4j8c-a1-m1-cA_4j8c-a1-m1-cB Crystal structure of the dimerization domain of Hsc70-interacting protein P50503 P50503 1.1 X-RAY DIFFRACTION 48 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 44 44 MDPRKVSELRAFVKMCRQDPSVLHTEEMRFLREWVESMGGKVPP MDPRKVSELRAFVKMCRQDPSVLHTEEMRFLREWVESMGGKVPP 4j8e-a3-m1-cA_4j8e-a3-m1-cB Middle domain of Hsc70-interacting protein, crystal form I P50503 P50503 2.6 X-RAY DIFFRACTION 42 0.992 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 119 119 APQEMGDENAEITEAMMDEANEKKGAAIDALNDGELQKAIDLFTDAIKLNPRLAILYAKRASVFVKLQKPNAAIRDCDRAIEINPDSAQPYKWRGKAHRLLGHWEEAARDLALACKLDY PQEMGDENAEITEAMMDEANEKKGAAIDALNDGELQKAIDLFTDAIKLNPRLAILYAKRASVFVKLQKPNAAIRDCDRAIEINPDSAQPYKWRGKAHRLLGHWEEAARDLALACKLDYD 4j8f-a1-m1-cA_4j8f-a1-m2-cA Crystal structure of a fusion protein containing the NBD of Hsp70 and the middle domain of Hip P50503 P50503 2.7 X-RAY DIFFRACTION 72 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 551 551 FMAKAAAIGIDLGTTYSCVGVFQHGKVEIIANDQGNRTTPSYVAFTDTERLIGDAAKNQVALNPQNTVFDAKRLIGRKFGDPVVQSDMKHWPFQVINDGDKPKVQVSYKGETKAFYPEEISSMVLTKMKEIAEAYLGYPVTNAVITVPAYFNDSQRQATKDAGVIAGLNVLRIINEPTAAAIAYGLDRTGKGERNVLIFDLGGGTFDVSILTIDDGIFEVKATAGDTHLGGEDFDNRLVNHFVEEFKRKHKKDISQNKRAVRRLRTACERAKRTLSSSTQASLEIDSLFEGIDFYTSITRARFEELCSDLFRSTLEPVEKALRDAKLDKAQIHDLVLVGGSTRIPKVQKLLQDFFNGRDLNKSINPDEAVAYGAAVQAAILMGLESDLEIDNEGVIEADTDAPQEMGDENAEITEAMMDEANEKKGAAIDALNDGELQKAIDLFTDAIKLNPRLAILYAKRASVFVKLQKPNAAIRDCDRAIEINPDSAQPYKWRGKAHRLLGHWEEAARDLALACKLDYDEDASAMLREVQPRAQKIAEHRRKYERKREE FMAKAAAIGIDLGTTYSCVGVFQHGKVEIIANDQGNRTTPSYVAFTDTERLIGDAAKNQVALNPQNTVFDAKRLIGRKFGDPVVQSDMKHWPFQVINDGDKPKVQVSYKGETKAFYPEEISSMVLTKMKEIAEAYLGYPVTNAVITVPAYFNDSQRQATKDAGVIAGLNVLRIINEPTAAAIAYGLDRTGKGERNVLIFDLGGGTFDVSILTIDDGIFEVKATAGDTHLGGEDFDNRLVNHFVEEFKRKHKKDISQNKRAVRRLRTACERAKRTLSSSTQASLEIDSLFEGIDFYTSITRARFEELCSDLFRSTLEPVEKALRDAKLDKAQIHDLVLVGGSTRIPKVQKLLQDFFNGRDLNKSINPDEAVAYGAAVQAAILMGLESDLEIDNEGVIEADTDAPQEMGDENAEITEAMMDEANEKKGAAIDALNDGELQKAIDLFTDAIKLNPRLAILYAKRASVFVKLQKPNAAIRDCDRAIEINPDSAQPYKWRGKAHRLLGHWEEAARDLALACKLDYDEDASAMLREVQPRAQKIAEHRRKYERKREE 4j8l-a2-m1-cA_4j8l-a2-m2-cA CRYSTAL STRUCTURE OF THE PYRIDOXAL-5'-PHOSPHATE DEPENDENT protein YhfS from Escherichia coli P45545 P45545 1.651 X-RAY DIFFRACTION 137 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 356 356 KTFPLQSLTIIEAQQKQFALVDSICRHFPGSEFLTGGDLGLTPGLNQPRVTQRVEQVLADAFHAQAAALVQGAGTGAIRAGLAALLKPGQRLLVHDAPVYPTTRVIIEQGLTLITVDFNDLSALKQVVDEQQPDAALVQHTRQQPQDSYVLADVLATLRAAGVPALTDDNYAVKVARIGCECGANVSTFSCFLFGPEGVGAVVGDADVINRIRATLYSGGSQIQGAQALEVLRGLVFAPVHAVQAGVSERLLALLNGGAVPEVKSAVIANAQSKVLIVEFHQPIAARVLEEAQKRGALPYPVGAESKYEIPPLFYRLSGTFRQANPQSEHCAIRINPNRSGEETVLRILRESIASI KTFPLQSLTIIEAQQKQFALVDSICRHFPGSEFLTGGDLGLTPGLNQPRVTQRVEQVLADAFHAQAAALVQGAGTGAIRAGLAALLKPGQRLLVHDAPVYPTTRVIIEQGLTLITVDFNDLSALKQVVDEQQPDAALVQHTRQQPQDSYVLADVLATLRAAGVPALTDDNYAVKVARIGCECGANVSTFSCFLFGPEGVGAVVGDADVINRIRATLYSGGSQIQGAQALEVLRGLVFAPVHAVQAGVSERLLALLNGGAVPEVKSAVIANAQSKVLIVEFHQPIAARVLEEAQKRGALPYPVGAESKYEIPPLFYRLSGTFRQANPQSEHCAIRINPNRSGEETVLRILRESIASI 4j8q-a1-m1-cA_4j8q-a1-m2-cA Crystal structure of a NigD-like protein (BF0700) from Bacteroides fragilis NCTC 9343 at 2.50 A resolution Q5LHD5 Q5LHD5 2.5 X-RAY DIFFRACTION 71 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 191 191 DGYSLGDIAVDWATVRVVGGDTYSLNADRWGTLWPAATAIPFYKPIDGQRVITYFNPLYDNYEGYDHAVKVEHNYNVLTKQVEDLTAENESEFGNDPVWVNKDWIGGGYLNVIFRQNLKHLVSLVRDRATAAEGEDDGYIHLELRYKTYDDQANGAVSFNLNSLDLTGKKGIKVKLNSVKDGETEVVFNLK DGYSLGDIAVDWATVRVVGGDTYSLNADRWGTLWPAATAIPFYKPIDGQRVITYFNPLYDNYEGYDHAVKVEHNYNVLTKQVEDLTAENESEFGNDPVWVNKDWIGGGYLNVIFRQNLKHLVSLVRDRATAAEGEDDGYIHLELRYKTYDDQANGAVSFNLNSLDLTGKKGIKVKLNSVKDGETEVVFNLK 4j8t-a5-m1-cB_4j8t-a5-m1-cA Engineered Digoxigenin binder DIG10.2 Q9HYR3 Q9HYR3 2.05 X-RAY DIFFRACTION 48 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 128 4j8t-a5-m3-cC_4j8t-a5-m2-cD 4j9a-a10-m1-cA_4j9a-a10-m2-cA 4j9a-a11-m1-cB_4j9a-a11-m1-cD 4j9a-a12-m1-cC_4j9a-a12-m1-cF 4j9a-a14-m4-cI_4j9a-a14-m1-cH NAKEIVVHALRLLENGDARGWCDLFHPEGVLEYPYPPPGYKTRFEGRETIWAHMRLFPEYMTIRFTDVQFYETADPDLAIGEFHGDGVHTVKLAADYISVLRTRDGQILLYRLFFNPLRVL MNAKEIVVHALRLLENGDARGWCDLFHPEGVLEYPYPPPGYKTRFEGRETIWAHMRLFPEYMTIRFTDVQFYETADPDLAIGEFHGDGVHTVSGGKLAADYISVLRTRDGQILLYRLFFNPLRVLEPL 4j8t-a5-m3-cC_4j8t-a5-m1-cB Engineered Digoxigenin binder DIG10.2 Q9HYR3 Q9HYR3 2.05 X-RAY DIFFRACTION 22 0.992 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 120 121 MNAKEIVVHALRLLENGDARGWCDLFHPEGVLEYPYPPPGYKTRFEGRETIWAHMRLFPEYMTIRFTDVQFYETADPDLAIGEFHGDGVHKLAADYISVLRTRDGQILLYRLFFNPLRVL NAKEIVVHALRLLENGDARGWCDLFHPEGVLEYPYPPPGYKTRFEGRETIWAHMRLFPEYMTIRFTDVQFYETADPDLAIGEFHGDGVHTVKLAADYISVLRTRDGQILLYRLFFNPLRVL 4j9u-a2-m1-cC_4j9u-a2-m1-cD Crystal Structure of the TrkH/TrkA potassium transport complex Q87TN7 Q87TN7 3.8 X-RAY DIFFRACTION 126 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 462 462 3pjz-a1-m1-cA_3pjz-a1-m1-cB 4j9u-a1-m1-cA_4j9u-a1-m1-cB 6v4j-a1-m1-cB_6v4j-a1-m1-cA 6v4j-a1-m1-cD_6v4j-a1-m1-cC 6v4k-a1-m1-cA_6v4k-a1-m1-cC 6v4k-a1-m1-cB_6v4k-a1-m1-cD 6v4l-a1-m1-cA_6v4l-a1-m1-cB 6v4l-a1-m2-cA_6v4l-a1-m2-cB MQFRSIIRIVGLLLALFSVTMLAPALVALLYRDGAGVPFVTTFFVLLFCGAMCWFPNRRHKHSRDGFLIVVLFWTVLGSAGSLPFLIADNPNISVTDAFFESFSALTTTGATVIVGLDELPKAILFYRQFLQWFGGMGIIVLAVAILPVLGIGGMIAETAKALWYIYLSLTIACAVAFWLAGMTPFDAISHSFSTIAIGGFSTHDASMGYFDSYAINLITVVFLLISACNFTLHFAAFASGGVHPKYYWKDPEFRAFIFIQVLLFLVCFLLLLKHHSYTSPYDAFDQALFQTVSISTTAGFTTTGFADWPLFLPVLLLFSSFIGGCAGSTGGGMKVIRILLLTLQGARELKRLVHPRAVYTIKVGGSALPQRVVDAVWGFFSAYALVFVVCMLGLIATGMDELSAFSAVAATLNNLGPGLGEVALHFGDVNDKAKWVLIVSMLFGRLEIFTLLILLTPTFWR MQFRSIIRIVGLLLALFSVTMLAPALVALLYRDGAGVPFVTTFFVLLFCGAMCWFPNRRHKHSRDGFLIVVLFWTVLGSAGSLPFLIADNPNISVTDAFFESFSALTTTGATVIVGLDELPKAILFYRQFLQWFGGMGIIVLAVAILPVLGIGGMIAETAKALWYIYLSLTIACAVAFWLAGMTPFDAISHSFSTIAIGGFSTHDASMGYFDSYAINLITVVFLLISACNFTLHFAAFASGGVHPKYYWKDPEFRAFIFIQVLLFLVCFLLLLKHHSYTSPYDAFDQALFQTVSISTTAGFTTTGFADWPLFLPVLLLFSSFIGGCAGSTGGGMKVIRILLLTLQGARELKRLVHPRAVYTIKVGGSALPQRVVDAVWGFFSAYALVFVVCMLGLIATGMDELSAFSAVAATLNNLGPGLGEVALHFGDVNDKAKWVLIVSMLFGRLEIFTLLILLTPTFWR 4j9w-a1-m1-cA_4j9w-a1-m1-cB Crystal structure of the complex of a hydroxyproline epimerase (TARGET EFI-506499, PSEUDOMONAS FLUORESCENS PF-5) with the inhibitor pyrrole-2-carboxylate Q4KGU2 Q4KGU2 1.6 X-RAY DIFFRACTION 97 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 310 310 4j9x-a1-m1-cA_4j9x-a1-m1-cB MKKITVIDSHTGGEPTRLVIDGFPDLGRGSMAERLQILEREHDQWRRACVLEPRGSDVLVGALLCQPQAGDACAGVIFFNNSGYLGMCGHGTIGLVRSLYHLGRIDQGVHRIETPVGTVEATLHEDLSVSVRNVPAYRYRTQVMLQLPGHGKVHGDIAWGGNWFFLISDHGQRIALDNVEALTHYTRDVRQALEAAGITGAEGGVIDHIELFADDPQADSRNFVLCPGKAYDRSPCGTGTSAKLACLAADGKLAPGQAWRQASVIGSQFSAHYEKVGEQLIPILRGSAHISAEATLLLDDSDPFVWGIGS MKKITVIDSHTGGEPTRLVIDGFPDLGRGSMAERLQILEREHDQWRRACVLEPRGSDVLVGALLCQPQAGDACAGVIFFNNSGYLGMCGHGTIGLVRSLYHLGRIDQGVHRIETPVGTVEATLHEDLSVSVRNVPAYRYRTQVMLQLPGHGKVHGDIAWGGNWFFLISDHGQRIALDNVEALTHYTRDVRQALEAAGITGAEGGVIDHIELFADDPQADSRNFVLCPGKAYDRSPCGTGTSAKLACLAADGKLAPGQAWRQASVIGSQFSAHYEKVGEQLIPILRGSAHISAEATLLLDDSDPFVWGIGS 4ja8-a1-m1-cB_4ja8-a1-m1-cA Complex of Mitochondrial Isocitrate Dehydrogenase R140Q Mutant with AGI-6780 Inhibitor P48735 P48735 1.55 X-RAY DIFFRACTION 223 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 406 416 1lwd-a1-m1-cA_1lwd-a1-m1-cB 5h3e-a1-m1-cA_5h3e-a1-m1-cB 5h3f-a1-m1-cA_5h3f-a1-m1-cB 5i95-a1-m1-cA_5i95-a1-m2-cA 5i96-a1-m1-cB_5i96-a1-m1-cA 5svn-a1-m1-cA_5svn-a1-m1-cB 5svo-a1-m1-cB_5svo-a1-m1-cA 6adi-a1-m1-cB_6adi-a1-m1-cA 6vfz-a1-m1-cB_6vfz-a1-m1-cA RIKVAKPVVEMDGDEMTRIIWQFIKEKLILPHVDIQLKYFDLGLPNRDQTDDQVTIDSALATQKYSVAVKCATITPDEARVEEFKLKKMWKSPNGTIQNILGGTVFREPIICKNIPRLVPGWTKPITIGRHAHGDQYKATDFVADRAGTFKMVFTPKDGSGVKEWEVYNFPAGGVGMGMYNTDESISGFAHSCFQYAIQKKWPLYMSTKNTILKAYDGRFKDIFQEIFDKHYKTDFDKNKIWYEHRLIDDMVAQVLKSSGGFVWACKNYDGDVQSDILAQGFGSLGLMTSVLVCPDGKTIEAEAAHGTVTRHYREHQKGRPTSTNPIASIFAWTRGLEHRGKLDGNQDLIRFAQMLEKVCVETVESGAMTKDLAGCIHGLSNVKLNEHFLNTTDFLDTIKSNLDRA DKRIKVAKPVVEMDGDEMTRIIWQFIKEKLILPHVDIQLKYFDLGLPNRDQTDDQVTIDSALATQKYSVAVKCATITPDEARVEEFKLKKMWKSPNGTIQNILGGTVFREPIICKNIPRLVPGWTKPITIGRHAHGDQYKATDFVADRAGTFKMVFTPKDGSGVKEWEVYNFPAGGVGMGMYNTDESISGFAHSCFQYAIQKKWPLYMSTKNTILKAYDGRFKDIFQEIFDKHYKTDFDKNKIWYEHRLIDDMVAQVLKSSGGFVWACKNYDGDVQSDILAQGFGSLGLMTSVLVCPDGKTIEAEAAHGTVTRHYREHQKGRPTSTNPIASIFAWTRGLEHRGKLDGNQDLIRFAQMLEKVCVETVESGAMTKDLAGCIHGLSNVKLNEHFLNTTDFLDTIKSNLDRALGRQHHHH 4jak-a1-m1-cA_4jak-a1-m1-cB Crystal structure of tRNA (Um34/Cm34) methyltransferase TrmL from Escherichia coli P0AGJ7 P0AGJ7 2 X-RAY DIFFRACTION 99 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 155 155 4jal-a1-m1-cB_4jal-a1-m1-cA 4kdz-a1-m1-cA_4kdz-a1-m2-cA MALNIVLYEPEIPPNTGNIIRLCANTGFRLHIIEPMGFAWDDKRLRRAGLDYHEFTAVTRHHDYRAFLEAENPQRLFALTTKGTPAHSAVSYQDGDYLMFGPETRGLPASILDALPAEQKIRIPMVPDSRSMNLSNAVSVVVYEAWRQLGYPGAV MALNIVLYEPEIPPNTGNIIRLCANTGFRLHIIEPMGFAWDDKRLRRAGLDYHEFTAVTRHHDYRAFLEAENPQRLFALTTKGTPAHSAVSYQDGDYLMFGPETRGLPASILDALPAEQKIRIPMVPDSRSMNLSNAVSVVVYEAWRQLGYPGAV 4jaw-a3-m1-cB_4jaw-a3-m1-cA Crystal Structure of Lacto-N-Biosidase from Bifidobacterium bifidum complexed with LNB-thiazoline B3TLD6 B3TLD6 1.8 X-RAY DIFFRACTION 147 1.0 398514 (Bifidobacterium bifidum JCM 1254) 398514 (Bifidobacterium bifidum JCM 1254) 632 633 4h04-a3-m1-cB_4h04-a3-m1-cA SSGLVPRGSHMGYSATAPVNLTRPATVPSMDGWTDGTGAWTLGEGTRVVSSDALAARAQSLASELTKFTDVDIKAATGSATGKDISLTLDASKKAELGDEGFKLNIGSKGLEVIGATDIGVFYGTRSVSQMLRQGQLTLPAGTVATKPKYKERGATLCACQINISTDWIDRFLSDMADLRLNYVLLEMKLKPEEDNTKKAATWSYYTRDDVKKFVKKANNYGIDVIPEINSPGHMNVWLENYPEYQLADNSGRKDPNKLDISNPEAVKFYKTLIDEYDGVFTTKYWHMGADEYMIGTSFDNYSKLKTFAEKQYGAGATPNDAFTGFINDIDKYVKAKGKQLRIWNDGIVNTKNVSLNKDIVIEYWYGAGRKPQELVQDGYTLMNATQALYWSRSAQVYKVNAARLYNNNWNVGTFDGGRQIDKNYDKLTGAKVSIWPDSSYFQTENEVEKEIFDGMRFISQMTWSDSRPWATWNDMKADIDKIGYPLDIREYDYTPVDAGIYDIPQLKSISKGPWELITTPDGYYQMKDTVSGKCLALFTGSKHLDVVTQVGARPELRNCADVSVGQDQRNTANERNTQKWQIRADKDGKYTISPALTQQRLAIATGNEQNIDLETHRPAAGTVAQFPADLV SSGLVPRGSHMGYSATAPVNLTRPATVPSMDGWTDGTGAWTLGEGTRVVSSDALAARAQSLASELTKFTDVDIKAATGSATGKDISLTLDASKKAELGDEGFKLNIGSKGLEVIGATDIGVFYGTRSVSQMLRQGQLTLPAGTVATKPKYKERGATLCACQINISTDWIDRFLSDMADLRLNYVLLEMKLKPEEDNTKKAATWSYYTRDDVKKFVKKANNYGIDVIPEINSPGHMNVWLENYPEYQLADNSGRKDPNKLDISNPEAVKFYKTLIDEYDGVFTTKYWHMGADEYMIGTSFDNYSKLKTFAEKQYGAGATPNDAFTGFINDIDKYVKAKGKQLRIWNDGIVNTKNVSLNKDIVIEYWYGAGRKPQELVQDGYTLMNATQALYWSRSAQVYKVNAARLYNNNWNVGTFDGGRQIDKNYDKLTGAKVSIWPDSSYFQTENEVEKEIFDGMRFISQMTWSDSRPWATWNDMKADIDKIGYPLDIREYDYTPVDAGIYDIPQLKSISKGPWELITTPDGYYQMKDTVSGKCLALFTGSKHLDVVTQVGARPELRNCADVSVGQDQRNTANERNTQKWQIRADKDGKYTISPALTQQRLAIATGNEQNIDLETHRPAAGTVAQFPADLVS 4jb7-a1-m1-cA_4jb7-a1-m2-cA 1.42 Angstrom resolution crystal structure of accessory colonization factor AcfC (acfC) in complex with D-aspartic acid Q9KTQ6 Q9KTQ6 1.42 X-RAY DIFFRACTION 122 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 228 228 ADVNLYGPGGPHVPLIKVAESFEKSQSKRVNITFGPQATWNDKAKKNADILFGASEHSALAIAEGHSERFSKFNIHPVFREAIILVKKGNPKNIKGADLLKPGIGIVVNDGAGVSNTSGTAVWEDSVGRKNVEKLQAFRSNIHVFAPNSGSARKAFVDGEDIDAWITWVDWAIANPTIGDVREDEYRIYRDFNVVLAKNPSSEAIDFFDYLTKSKDAEAIFQHYGWFK ADVNLYGPGGPHVPLIKVAESFEKSQSKRVNITFGPQATWNDKAKKNADILFGASEHSALAIAEGHSERFSKFNIHPVFREAIILVKKGNPKNIKGADLLKPGIGIVVNDGAGVSNTSGTAVWEDSVGRKNVEKLQAFRSNIHVFAPNSGSARKAFVDGEDIDAWITWVDWAIANPTIGDVREDEYRIYRDFNVVLAKNPSSEAIDFFDYLTKSKDAEAIFQHYGWFK 4jba-a2-m1-cA_4jba-a2-m2-cB Crystal Structure of the Oxidized Form of MarR from E.coli P27245 P27245 2.5 X-RAY DIFFRACTION 17 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 134 136 4jba-a2-m2-cA_4jba-a2-m1-cB LFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLSSIRSAASITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNVLVKLTTGGAAISEQSHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP DLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLSSIRSAASITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNGVLVKLTTGGAAISEQSHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP 4jba-a2-m1-cB_4jba-a2-m2-cB Crystal Structure of the Oxidized Form of MarR from E.coli P27245 P27245 2.5 X-RAY DIFFRACTION 20 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 136 136 DLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLSSIRSAASITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNGVLVKLTTGGAAISEQSHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP DLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLSSIRSAASITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNGVLVKLTTGGAAISEQSHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP 4jba-a2-m2-cA_4jba-a2-m2-cB Crystal Structure of the Oxidized Form of MarR from E.coli P27245 P27245 2.5 X-RAY DIFFRACTION 140 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 134 136 1jgs-a1-m1-cA_1jgs-a1-m2-cA 3vod-a1-m1-cB_3vod-a1-m1-cA 3voe-a1-m1-cB_3voe-a1-m1-cA 4jba-a1-m1-cA_4jba-a1-m1-cB 4jba-a2-m1-cA_4jba-a2-m1-cB LFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLSSIRSAASITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNVLVKLTTGGAAISEQSHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP DLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLSSIRSAASITPVELKKVLSVDLGALTRMLDRLVCKGWVERLPNPNGVLVKLTTGGAAISEQSHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP 4jbb-a1-m1-cA_4jbb-a1-m2-cA Crystal structure of Glutathione S-transferase A6TBY7(Target EFI-507184) from Klebsiella pneumoniae MGH 78578, GSH complex A6TBY7 A6TBY7 1.48 X-RAY DIFFRACTION 91 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 208 208 QPVITLWSDADFFSPYVMSVYVALQEKSLPFTLKTVDLNRGEHLQAGWTGYAATRRVPLLEVDDFALSESSAITEYLDERFAPPEWERIYPHDLQKRARARQIQAWLRSDLMPIREERSTAVVFGGAKMPDLSEAGRQSAEKLFATATMLLAHGGQNLFGEWSIADADLALMLNRLVLNGDKVPEALADYASFQWQRASIQRYVALSA QPVITLWSDADFFSPYVMSVYVALQEKSLPFTLKTVDLNRGEHLQAGWTGYAATRRVPLLEVDDFALSESSAITEYLDERFAPPEWERIYPHDLQKRARARQIQAWLRSDLMPIREERSTAVVFGGAKMPDLSEAGRQSAEKLFATATMLLAHGGQNLFGEWSIADADLALMLNRLVLNGDKVPEALADYASFQWQRASIQRYVALSA 4jbd-a1-m1-cA_4jbd-a1-m2-cA Crystal structure of Pput_1285, a putative hydroxyproline epimerase from Pseudomonas putida f1 (target EFI-506500), open form, space group I2, bound citrate A5VZY6 A5VZY6 1.3 X-RAY DIFFRACTION 88 1.0 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 308 308 4jd7-a1-m2-cD_4jd7-a1-m1-cA MKQIHVIDSHTGGEPTRLVMKGFPQLHGRSMAEQRDELRELHDRWRRACLLEPRGNDVLVGALYCPPVSADATCGVIFFNNAGYLNMCGHGTIGLVASLQHLGLIAPGVHKIDTPVGQVSATLHEDGAITVANVPSYRYRQHVAVNVPGHGVVHGDIAWGGNWFFLVAEHGQRIELDNREVLTEYTWAMLKALEAQGITGENGAPIDHVELFADDPNADSRNFVMCPGKAYDRSPCGTGTSAKLACLAADGTLAEGQTWVQASITGSQFHGRYERDGERIRPFITGRAHMTADSTLLIDEQDPFAWGI MKQIHVIDSHTGGEPTRLVMKGFPQLHGRSMAEQRDELRELHDRWRRACLLEPRGNDVLVGALYCPPVSADATCGVIFFNNAGYLNMCGHGTIGLVASLQHLGLIAPGVHKIDTPVGQVSATLHEDGAITVANVPSYRYRQHVAVNVPGHGVVHGDIAWGGNWFFLVAEHGQRIELDNREVLTEYTWAMLKALEAQGITGENGAPIDHVELFADDPNADSRNFVMCPGKAYDRSPCGTGTSAKLACLAADGTLAEGQTWVQASITGSQFHGRYERDGERIRPFITGRAHMTADSTLLIDEQDPFAWGI 4jbe-a1-m1-cA_4jbe-a1-m1-cB 1.95 Angstrom Crystal Structure of Gamma-glutamyl phosphate Reductase from Saccharomonospora viridis. C7MW73 C7MW73 1.95 X-RAY DIFFRACTION 153 1.0 471857 (Saccharomonospora viridis DSM 43017) 471857 (Saccharomonospora viridis DSM 43017) 408 409 NEVAKAVEECARAAKSAAPSLSGAPDTAIDAALESADRLLAHRDAVLAANAEDIAKAEAGGSAGLLDRLTITESRLTDADQLRLLAGAPHPQRTVELSTLDGGLRLVERRRPVGVIGANYEARPNVTVDVASQLVKSRNAGVLRTGSAALKSAQRLLEVVIRPALTDSGIDANVVQLVPRPEREAAGALVRLPDLVPLVILRGSGESTRALALEAAQHGVRTLAHADGGGVLYVDEKADRDTVRSLVVNSLDRLGVCNRLNLLLIHDAVYEEFWPVVSEALAERGVSPSLPPYDHPIGYEWALDSEREATVTVARVDGVAEAVRIANEETSGLAAGIATEDARAAEEFFDGYQGTGVFWNAPTRLLDGFKLLGVPETGINLDKVPGPRGPVTYPDLYVRQYAVLPVER TNEVAKAVEECARAAKSAAPSLSGAPDTAIDAALESADRLLAHRDAVLAANAEDIAKAEAGGSAGLLDRLTITESRLTDADQLRLLAGAPHPQRTVELSTLDGGLRLVERRRPVGVIGANYEARPNVTVDVASQLVKSRNAGVLRTGSAALKSAQRLLEVVIRPALTDSGIDANVVQLVPRPEREAAGALVRLPDLVPLVILRGSGESTRALALEAAQHGVRTLAHADGGGVLYVDEKADRDTVRSLVVNSLDRLGVCNRLNLLLIHDAVYEEFWPVVSEALAERGVSPSLPPYDHPIGYEWALDSEREATVTVARVDGVAEAVRIANEETSGLAAGIATEDARAAEEFFDGYQGTGVFWNAPTRLLDGFKLLGVPETGINLDKVPGPRGPVTYPDLYVRQYAVLPVER 4jc2-a3-m1-cD_4jc2-a3-m1-cF Isolation, Cloning and Biophysical Analysis of a Novel Hexameric Green Fluorescent Protein from a Philippine Soft Coral B5BRC3 B5BRC3 2.35 X-RAY DIFFRACTION 93 1.0 40679 (Alcyonium) 40679 (Alcyonium) 220 220 4jc2-a1-m1-cA_4jc2-a1-m1-cE 4jc2-a2-m1-cC_4jc2-a2-m1-cB SVIKQEMKIKLHMEGNVNGHAFVIEGDGKGKPYDGTQTLNLTVKEGAPLPFSYDILTAAFNRAFTRYPADIPDYFKQTFPEGYSWERTMSYEDNAICNVRSEISMEGDCFTYKIRFDGKNFPPNGPVMQKKTLKWEPSTEKMYVRDGFLMGDVNMALLLDGGGHHRCDFKTSYKAKKVVQLPDYHFVDHRNEILSHDRDYSKVKLYENAVARYSLLPSQA SVIKQEMKIKLHMEGNVNGHAFVIEGDGKGKPYDGTQTLNLTVKEGAPLPFSYDILTAAFNRAFTRYPADIPDYFKQTFPEGYSWERTMSYEDNAICNVRSEISMEGDCFTYKIRFDGKNFPPNGPVMQKKTLKWEPSTEKMYVRDGFLMGDVNMALLLDGGGHHRCDFKTSYKAKKVVQLPDYHFVDHRNEILSHDRDYSKVKLYENAVARYSLLPSQA 4jc8-a3-m1-cB_4jc8-a3-m1-cA Crystal Structure of HOPS component Vps33 from Chaetomium thermophilum G0SCM5 G0SCM5 2.6 X-RAY DIFFRACTION 59 0.99 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 582 583 AGFDAEQVRDKARKDLLHLLEGVRGKKNLVIEKDLAGPLGVIVKASTLRDYGVDNFFFLENKNTGTSQRNIVFIARGESVRNAHAIAAQIKRIQRESQTSHDFHIFWVPRRTLFSDKVLEEAGVLGDANISELPLYFFPLERDVLSLELNDSFRDLYLAKDPTPVFLLSRALGIQKKHGLFPRIIGKGENAKRVADLLSRRQELLAGLSPSTTIESVIIIDREVDFVTPLLTQLTYEGLIDEYFGIQNNQTDVDAVIVGARKRKIQLDGSDSLYSQLRDANFAIVGSLLNTVARRLKSDYESRHNTKTTAELKEFVKKLPGYQAEQQSLKIHSNIAEEIINYTRTEIFNKLLEVQQNLAAGADPSSQFDSIEELVARDTPLPQVLRLLCLYSCISGGIKTKELDHFRRLVLQGYGHQHLLTLHNLERLQFLSKSSPLASITSGSSGGPDQKTNYTYLRKQLRLIVDEVNEQDPNDIAYVYSGYAPLSIRLVQCVLQKQYLLSITAQGWKGFEEIVKHARGPTFDEIQKGDKKTVFVVFVGGITFTEIAALRFIAKQEEARRNIVICTTSIINGNRNAAIETA AGFDAEQVRDKARKDLLHLLEGVRGKKNLVIEKDLAGPLGVIVKASTLRDYGVDNFFFLENKNTGTSQRNIVFIARGESVRNAHAIAAQIKRIQRESQTSHDFHIFWVPRRTLFSDKVLEEAGVLGDANISELPLYFFPLERDVLSLELNDSFRDLYLAKDPTPVFLLSRALGIQKKHGLFPRIIGKGENAKRVADLLSRRQELLAGLSPSTTIESVIIIDREVDFVTPLLTQLTYEGLIDEYFGIQNNQTDVDAVIVGARKRKIQLDGSDSLYSQLRDANFAIVGSLLNTVARRLKSDYESRTAELKEFVKKLPGYQAEQQSLKIHSNIAEEIINYTRTEIFNKLLEVQQNLAAGADPSSQFDSIEELVARDTPLPQVLRLLCLYSCISGGIKTKELDHFRRLVLQGYGHQHLLTLHNLERLQFLSKSSPLASITSGSSGGPDQKTNYTYLRKQLRLIVDEVNEQDPNDIAYVYSGYAPLSIRLVQCVLQKQYLLSITKGSGGGGAQGWKGFEEIVKHARGPTFDEIQKDKKTVFVVFVGGITFTEIAALRFIAKQEEARRNIVICTTSIINGNRNAAIETA 4jch-a1-m1-cB_4jch-a1-m1-cA OSH4 bound to an electrophilic oxysterol P35844 P35844 1.7 X-RAY DIFFRACTION 43 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 430 436 MDPSQYASSSSWTSFLKSIASFNGDLSSLSAPPFILSPISLTEFSQYWAEHPELFLEPSFINDDNYKEHCLIDPEVESPELARMLAVTKWFISTLKSQYCSRNESLGSEKKPLNPFLGELFVGKWENKEHPEFGETVLLSEQVSHHPPVTAFSIFNDKNKVKLQGYNQIKASFTKSLMLTVKQFGHTMLDIKDESYLVTPPPLHIEGILVASPFVELEGKSYIQSSTGLLCVIEFSGKKNSFKARIYKDSKDSKDKEKALYTISGQWSGSSKIIKANKKEESRLFYDAARIPAEHLNVKPLEEQHPLESRKAWYDVAGAIKLGDFNLIAKTKTELEETQRELRKEEEAKGISWQRRWFKDFDYSVTPEEGALVPEKDDTFLKLASALNLSTKNAPSGTLVGDKEDRKEDLSSIHWRFQRELWDEEKEIVL MDPSQYASSSSWTSFLKSIASFNGDLSSLSAPPFILSPISLTEFSQYWAEHPELFLEPSFINDDNYKEHCLIDPEVESPELARMLAVTKWFISTLKSQYCSRNESLGSEKKPLNPFLGELFVGKWENKEHPEFGETVLLSEQVSHHPPVTAFSIFNDKNKVKLQGYNQIKASFTKSLMLTVKQFGHTMLDIKDESYLVTPPPLHIEGILVASPFVELEGKSYIQSSTGLLCVIEFSGRGYFSGKKNSFKARIYKDSKDSKDKEKALYTISGQWSGSSKIIKANKKEESRLFYDAARIPAEHLNVKPLEEQHPLESRKAWYDVAGAIKLGDFNLIAKTKTELEETQRELRKEEEAKGISWQRRWFKDFDYSVTPEEGALVPEKDDTFLKLASALNLSTKNAPSGTLVGDKEDRKEDLSSIHWRFQRELWDEEKEIVL 4jci-a1-m1-cB_4jci-a1-m1-cA Crystal structure of csal_2705, a putative hydroxyproline epimerase from CHROMOHALOBACTER SALEXIGENS (TARGET EFI-506486), SPACE GROUP P212121, unliganded Q1QU06 Q1QU06 1.7 X-RAY DIFFRACTION 90 0.997 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 308 312 MKRVHVIDSHTAGEPTRLVMEGMPALSGRTIAEKCDDFRDNHDAWRRAIMLEPRGHDVLVGALYCAPESSDASCGVIFFNNSGYLGMCGHGTIGLVASLHHLGQLTPGCHKIDTPAGPVSATLHDDGAVTVRNVLSYRHRRRVPVEVPGYGTVHGDIAWGGNWFFLVSDHDMTLELDNVEALTDYTWAIRQALEAQSITGENGGVIDHIELFCDDREADSRNFVLCPGKAYDRSPCGTGTSAKLACLAADGKLAPGQVWTQASICGSRFEAFYEREGDGIRPSIKGRAYLSADATLLIDERDPFAWGI YFQSMKRVHVIDSHTAGEPTRLVMEGMPALSGRTIAEKCDDFRDNHDAWRRAIMLEPRGHDVLVGALYCAPESSDASCGVIFFNNSGYLGMCGHGTIGLVASLHHLGQLTPGCHKIDTPAGPVSATLHDDGAVTVRNVLSYRHRRRVPVEVPGYGTVHGDIAWGGNWFFLVSDDMTLELDNVEALTDYTWAIRQALEAQSITGENGGVIDHIELFCDDREADSRNFVLCPGKAYDRSPCGTGTSAKLACLAADGKLAPGQVWTQASICGSRFEAFYEREGDGIRPSIKGRAYLSADATLLIDERDPFAWGIA 4jcu-a1-m1-cA_4jcu-a1-m1-cC Crystal structure of a 5-carboxymethyl-2-hydroxymuconate isomerase from Deinococcus radiodurans R1 Q9RYT1 Q9RYT1 2.4 X-RAY DIFFRACTION 91 0.985 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 132 132 4jcu-a1-m1-cB_4jcu-a1-m1-cA 4jcu-a1-m1-cB_4jcu-a1-m1-cC NLYFQSPHLTLEYTDNLPEPRIPELLQKLNGVLLARPDIFPVGGIRARAYRLSEYALADSSEPSDAFVHLRLQIGAGRSEEVKKETGDALFAVLTDHFAAEFAQRGLLSAEISEFSEAGTWKKNNIHARYRK TENLYFQSPHLTLEYTDNLPEPRIPELLQKLNGVLLARPDIFPVGGIRARAYRLSEYALADSSEPSDAFVHLRLQIGAGRSEEVKKETGDALFAVLTDHFAAEFAQRGLLSAEISEFSEAGTWKKNNIHARY 4jcw-a1-m1-cA_4jcw-a1-m1-cB Crystal structure of Clavibacter michiganensis expansin in complex with cellopentaose A5CLK3 A5CLK3 1.75 X-RAY DIFFRACTION 38 1.0 443906 (Clavibacter michiganensis subsp. michiganensis NCPPB 382) 443906 (Clavibacter michiganensis subsp. michiganensis NCPPB 382) 202 202 MTTHGRATHYSLGQGNTIANGNCSMPAVPADRMYVAVSSPEYSGAAACGTFLDVTGPKGTVRVQVADQCHGCEVGHLDLSEEAFRALGDFNAGIIPISYVTVRDPAGPTVAIRVKEGSSRWWAGLQVLNAGNRIDRVEIQAGRQWLPLTRTDYGYWVTPSPIQDGPLTVKVTDQYGRAVVLPGLRMAPGEIQRTASRFYPVH MTTHGRATHYSLGQGNTIANGNCSMPAVPADRMYVAVSSPEYSGAAACGTFLDVTGPKGTVRVQVADQCHGCEVGHLDLSEEAFRALGDFNAGIIPISYVTVRDPAGPTVAIRVKEGSSRWWAGLQVLNAGNRIDRVEIQAGRQWLPLTRTDYGYWVTPSPIQDGPLTVKVTDQYGRAVVLPGLRMAPGEIQRTASRFYPVH 4jcy-a1-m1-cA_4jcy-a1-m1-cB Crystal structure of the Restriction-Modification Controller Protein C.Csp231I OR operator complex Q32WH4 Q32WH4 1.8 X-RAY DIFFRACTION 65 1.0 315237 (Citrobacter sp. RFL231) 315237 (Citrobacter sp. RFL231) 92 92 3lfp-a1-m1-cA_3lfp-a1-m2-cA 3lis-a1-m1-cA_3lis-a1-m1-cB 4jcx-a1-m1-cA_4jcx-a1-m1-cB 4jqd-a1-m1-cA_4jqd-a1-m1-cB 4jqd-a2-m1-cF_4jqd-a2-m1-cE MLIRRLKDARLRAGISQEKLGVLAGIDEASASARMNQYEKGKHAPDFEMANRLAKVLKIPVSYLYTPEDDLAQIILTWNELNEQERKRINFY MLIRRLKDARLRAGISQEKLGVLAGIDEASASARMNQYEKGKHAPDFEMANRLAKVLKIPVSYLYTPEDDLAQIILTWNELNEQERKRINFY 4jda-a1-m1-cB_4jda-a1-m1-cA Complex structure of abscisic acid receptor PYL3 with (-)-ABA Q9SSM7 Q9SSM7 2.65 X-RAY DIFFRACTION 51 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 171 177 3oji-a1-m1-cA_3oji-a1-m1-cB 4dsc-a1-m1-cA_4dsc-a1-m1-cB 4jda-a2-m1-cC_4jda-a2-m1-cD YGLTKDEFSTLDSIIRTHHTFPRSPNTCTSLIAHRVDAPAHAIWRFVRDFANPNKYKHFIKSCTIRVNEIKVGTIREVSVVSGLPASTSVEILEVLDEEKRILSFRVLGGEHRLNNYRSVTSVNEFVVVYSVVLESYIVDIPQGNTEEDTRMFVDTVVKSNLQNLAVISTA YGLTKDEFSTLDSIIRTHHTFPRSPNTCTSLIAHRVDAPAHAIWRFVRDFANPNKYKHFIKSCTIRVNKEIKVGTIREVSVVSGLPASTSVEILEVLDEEKRILSFRVLGGEHRLNNYRSVTSVNEFVVLKKRVYSVVLESYIVDIPQGNTEEDTRMFVDTVVKSNLQNLAVISTAS 4jdl-a2-m1-cB_4jdl-a2-m2-cB Crystal structure of native abscisic acid receptor PYL5 at 2.65 Angstrom Q9FLB1 Q9FLB1 2.65 X-RAY DIFFRACTION 33 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 154 154 TRGMHVPEHVAMHHTHDVGPDQCCSSVVQMIHAPPESVWALVRRFDNPKVYKNFIRQCRIVLHVGDLREVMVPAVSSTERLEILDEERHVISFSVVGGDHRLKNYRSVTTLHASVVVESYIVDVPPGNTEEETLSFVDTIVRCNLQSLARSTNR TRGMHVPEHVAMHHTHDVGPDQCCSSVVQMIHAPPESVWALVRRFDNPKVYKNFIRQCRIVLHVGDLREVMVPAVSSTERLEILDEERHVISFSVVGGDHRLKNYRSVTTLHASVVVESYIVDVPPGNTEEETLSFVDTIVRCNLQSLARSTNR 4jdm-a2-m1-cE_4jdm-a2-m1-cF Secreted Chlamydial Protein PGP3, full-length 3.1 X-RAY DIFFRACTION 238 1.0 759364 (Chlamydia trachomatis D-LC) 759364 (Chlamydia trachomatis D-LC) 258 264 4jdm-a1-m1-cB_4jdm-a1-m1-cC 4jdn-a1-m1-cB_4jdn-a1-m1-cC GNSGFYLYNTENCVFADNIKVGQTEPLKDQQIILGTKSTPVAAKTASDGISLTVSNNSSTNASITIGLDAEKAYQLILEKLGNQILDGIADTIVDSTVQDILDKITTDPSLGLLKAFNNFPITNKIQCNGLFTPSNIETLLGGTEIGKFTVTPKSSGSFLVSADIIASREGGVVLALVREGDSKPCAISYGYSSGVPNLCSLRTSITNTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQTN GPLGSGNSGFYLYNTENCVFADNIKVGQTEPLKDQQIILGTKSTPVAAKTASDGISLTVSNNSSTNASITIGLDAEKAYQLILEKLGNQILDGIADTIVDSTVQDILDKITTDPSLGLLKAFNNFPITNKIQCNGLFTPSNIETLLGGTEIGKFTVTPKSSGSFLVSADIIASREGGVVLALVREGDSKPCAISYGYSSGVPNLCSLRTSITNTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQTNA 4jdn-a1-m1-cB_4jdn-a1-m1-cA Secreted Chlamydial Protein PGP3, C-terminal Domain 2 X-RAY DIFFRACTION 74 1.0 759364 (Chlamydia trachomatis D-LC) 759364 (Chlamydia trachomatis D-LC) 141 142 4jdm-a1-m1-cA_4jdm-a1-m1-cC 4jdm-a1-m1-cB_4jdm-a1-m1-cA 4jdm-a2-m1-cD_4jdm-a2-m1-cF 4jdm-a2-m1-cE_4jdm-a2-m1-cD 4jdn-a1-m1-cA_4jdn-a1-m1-cC AFNNFPITNKIQCNGLFTPSNIETLLGGTEIGKFTVTPKSSGSFLVSADIIASREGGVVLALVREGDSKPCAISYGYSSGVPNLCSLRTSITNTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQ KAFNNFPITNKIQCNGLFTPSNIETLLGGTEIGKFTVTPKSSGSFLVSADIIASREGGVVLALVREGDSKPCAISYGYSSGVPNLCSLRTSITNTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQ 4jdo-a1-m1-cC_4jdo-a1-m1-cB Secreted chlamydial protein pgp3, coiled-coil deletion 2.3 X-RAY DIFFRACTION 203 1.0 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 212 213 4jdo-a1-m1-cA_4jdo-a1-m1-cB 4jdo-a1-m1-cA_4jdo-a1-m1-cC 4jdo-a2-m1-cE_4jdo-a2-m1-cD 4jdo-a2-m1-cE_4jdo-a2-m1-cF 4jdo-a2-m1-cF_4jdo-a2-m1-cD 4jdo-a3-m1-cG_4jdo-a3-m1-cI 4jdo-a3-m1-cH_4jdo-a3-m1-cG 4jdo-a3-m1-cH_4jdo-a3-m1-cI GNSGFYLYNTENCVFADNIKVGQTEPLKDQQIILGTKSTPVAAKTASDGISLTVSNNSSTNASITIGLLKAFNNFPITNKIQCNGLFTPSNIETLLGGTEIGKFTVTPKSSGSFLVSADIIASREGGVVLALVREGDSKPCAISYGYSSGVPNLCSLRTSITNTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQT GNSGFYLYNTENCVFADNIKVGQTEPLKDQQIILGTKSTPVAAKTASDGISLTVSNNSSTNASITIGLLKAFNNFPITNKIQCNGLFTPSNIETLLGGTEIGKFTVTPKSSGSFLVSADIIASREGGVVLALVREGDSKPCAISYGYSSGVPNLCSLRTSITNTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQTN 4jdp-a1-m1-cA_4jdp-a1-m1-cB Crystal structure of probable p-nitrophenyl phosphatase (pho2) (target EFI-501307) from Archaeoglobus fulgidus DSM 4304 with Magnesium bound O29873 O29873 1.76 X-RAY DIFFRACTION 87 0.996 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 264 265 3qgm-a1-m1-cA_3qgm-a1-m1-cB 3qgm-a2-m1-cC_3qgm-a2-m1-cD MMPDKKGYIIDIDGVIGKSVTPIPEGVEGVKKLKELGKKIIFVSNNSTRSRRILLERLRSFGLEVGEDEILVATYATARFIAREKPNAKVFTTGEEGLIEELRLAGLEIVDYDEAEYLVVGSNRKINFELMTKALRACLRGIRYIATNPDRIFPAEDGPIPGTGMIIGALYWMTGREPDVVVGKPSEVIMREALDILGLDAKDVAVVGDQIDVDVAAGKAIGAETVLVLTGVTTRENLDQMIERHGLKPDYVFNSLKDMVEALE QSMMPDKKGYIIDIDGVIGKSVTPIPEGVEGVKKLKELGKKIIFVSNNSTRSRRILLERLRSFGLEVGEDEILVATYATARFIAREKPNAKVFTTGEEGLIEELRLAGLEIVDYDEAEYLVVGSNRKINFELMTKALRACLRGIRYIATNPDRIFPAEDGPIPGTGMIIGALYWMTGREPDVVVGKPSEVIMREALDILGLDAKDVAVVGDQIDVDVAAGKAIGAETVLVLTGVTTRENLDQMIERHGLKPDYVFNSLKDMVEAL 4jds-a1-m1-cA_4jds-a1-m2-cA SETD7 in complex with inhibitor PF-5426 and S-adenosyl-methionine Q8WTS6 Q8WTS6 1.7 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 HGVCWIYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRPHFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNTVMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFTPNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDEAPEWYQVELKAFQATQQKHHH HGVCWIYYPDGGSLVGEVNEDGEMTGEKIAYVYPDERTALYGKFIDGEMIEGKLATLMSTEEGRPHFELMPGNSVYHFDKSTSSCISTNALLPDPYESERVYVAESLISSAGEGLFSKVAVGPNTVMSFYNGVRITHQEVDSRDWALNGNTLSLDEETVIDVPEPYNHVSKYCASLGHKANHSFTPNCIYDMFVHPRFGPIKCIRTLRAVEADEELTVAYGYDEAPEWYQVELKAFQATQQKHHH 4jdx-a2-m1-cD_4jdx-a2-m1-cB Structure of the Fluorescence Recovery Protein from Synechocystis sp PCC 6803 P74103 P74103 2.5 X-RAY DIFFRACTION 36 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 97 102 4jdq-a1-m1-cA_4jdq-a1-m2-cC 4jdq-a2-m1-cD_4jdq-a2-m1-cB 4jdx-a1-m1-cA_4jdx-a1-m2-cC AETQSAHALFRKAYQRELDGLLATVQAQASQITQIDDLWKLHDFLSAKRHEIDGKYDDRQSVIIFVFAQLLKEGLVQAEELTFLAADKQSKIKALAR PWSQAETQSAHALFRKAYQRELDGLLATVQAQASQITQIDDLWKLHDFLSAKRHEIDGKYDDRQSVIIFVFAQLLKEGLVQAEELTFLAADKQSKIKALARL 4je0-a1-m1-cA_4je0-a1-m1-cB Structures of SdrD from Staphylococcus aureus reveal the molecular mechanism of how the cell surface receptors recognize their ligands 1.7 X-RAY DIFFRACTION 21 1.0 548473 (Staphylococcus aureus subsp. aureus TCH60) 548473 (Staphylococcus aureus subsp. aureus TCH60) 307 309 KNVNDLITSNTTLTVVDADKNNKIVPAQDYLALKSQIKVDDKVKSGDYFTIKYSDTVQVYGLNPEDIKNIGDIKDPNNGETIATAKHDTANNLITYTFTDYVDRFNSVQGINYSIYDADTIPVSKNDVEFNVTIGNDTTKTTANIQYPDYVSRDNNSIGSAFTETVSHAGNAEDPGYYKQTVYVNPSEKSLTNAKLKVEAYHKDYPDNVGQINKDVTKIKIYQAPKDYVLNKGYDVNTNQLIDVTEQFKDKITYGANDSVNVDFGSINNSYVVVDTKFEYTTSESPTLVQATLTSDGNRSVSTGNAA GSKNVNDLITSNTTLTVVDADKNNKIVPAQDYLALKSQIKVDDKVKSGDYFTIKYSDTVQVYGLNPEDIKNIGDIKDPNNGETIATAKHDTANNLITYTFTDYVDRFNSVQGINYSIYDADTIPVSKNDVEFNVTIGNDTTKTTANIQYPDYVSRDNNSIGSAFTETVSHAGNAEDPGYYKQTVYVNPSEKSLTNAKLKVEAYHKDYPDNVGQINKDVTKIKIYQAPKDYVLNKGYDVNTNQLIDVTEQFKDKITYGANDSVNVDFGSINNSYVVVDTKFEYTTSESPTLVQATLTSDGNRSVSTGNAA 4je1-a1-m1-cB_4je1-a1-m1-cA Crystal structure of thiol peroxidase from BURKHOLDERIA CENOCEPACIA J2315 B4E5V4 B4E5V4 1.4 X-RAY DIFFRACTION 51 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 166 174 SKVTLGGNPIDLAGTFPAVGAQAADFKLVGKDLADLSLASFAGKRKVLNIVPSLDTPTCATSTRKFNEAASSLDNTVVIVVSADLPFAATRFCTTEGLANVVTASTFRTGRAFANAYGVDVTSGPLNGLTARAVVVLDAQDKVIHAELVGEIKDEPNYDAALAALK AHHHHHHMSKVTLGGNPIDLAGTFPAVGAQAADFKLVGKDLADLSLASFAGKRKVLNIVPSLDTPTCATSTRKFNEAASSLDNTVVIVVSADLPFAATRFCTTEGLANVVTASTFRTGRAFANAYGVDVTSGPLNGLTARAVVVLDAQDKVIHAELVGEIKDEPNYDAALAALK 4je5-a2-m1-cC_4je5-a2-m1-cD Crystal structure of the aromatic aminotransferase Aro8, a putative alpha-aminoadipate aminotransferase in Saccharomyces cerevisiae P53090 P53090 1.909 X-RAY DIFFRACTION 343 0.994 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 492 495 4je5-a1-m1-cA_4je5-a1-m1-cB TLPESKDFSYLFSDETNARKPSPLKTCPNIIFLGGGLPLKDYFPWDNLSVDSPKPPFPQGIGAPIDEQNCIKYTVNKDYADKSANPSNDIPLSRALQYGFSAGQPELLNFIRDHTKIIHDLKYKDWDVLATAGNTNAWESTLRVFCNRGDVILVEAHSFSSSLASAEAQGVITFPVPIDADGIIPEKLAKVMENWTPGAPKPKLLYTIPTGQNPTGTSIADHRKEAIYKIAQKYDFLIVEDEPYYFLQMNPYIKDLKEREKAQSSPKQDHDEFLKSLANTFLSLDTEGRVIRMDSFSKVLAPGTRLGWITGSSKILKPYLSLHEMTIQAPAGFTQVLVNATLSRWGQKGYLDWLLGLRHEYTLKRDCAIDALYKYLPQSDAFVINPPIAGMFFTVNIDASVHPEFKTKYNSDPYQLEQSLYHKVVERGVLVVPGSWFKSEGETEPPQPAESKEVSNPNIIFFRGTYAAVSPEKLTEGLKRLGDTLYEEFGIS TLPESKDFSYLFSDETNARKPSPLKTCIHLFQDPNIIFLGGGLPLKDYFPWDNLSVDSPKPPFPQGIGAPIDEQNCIKYTVNKDYADKSANPSNDIPLSRALQYGFSAGQPELLNFIRDHTKIIHDLKYKDWDVLATAGNTNAWESTLRVFCNRGDVILVEAHSFSSSLASAEAQGVITFPVPIDADGIIPEKLAKVMENWTPGAPKPKLLYTIPTGQNPTGTSIADHRKEAIYKIAQKYDFLIVEDEPYYFLQMNPYIKDLKEREKAQSSPKQDHDEFLKSLANTFLSLDTEGRVIRMDSFSVLAPGTRLGWITGSSKILKPYLSLHEMTIQAPAGFTQVLVNATLSRWGQKGYLDWLLGLRHEYTLKRDCAIDALYKYLPQSDAFVINPPIAGMFFTVNIDASVHPEFKTKYNSDPYQLEQSLYHKVVERGVLVVPGSWFKSEGETEPPQPAESKEVSNPNIIFFRGTYAAVSPEKLTEGLKRLGDTLYEEFG 4jed-a1-m1-cA_4jed-a1-m2-cA Crystal structure of glutathione s-transferase mrad2831_1084 (target efi-507060) from methylobacterium radiotolerans jcm 2831, complex with glutathione sulfonate B1M0X3 B1M0X3 1.1 X-RAY DIFFRACTION 76 1.0 426355 (Methylobacterium radiotolerans JCM 2831) 426355 (Methylobacterium radiotolerans JCM 2831) 212 212 TRYRLISATPSPYARKVRIALAEKGLPFELVTEVPWDSATTVPRHNPLEKLPVLLLPAGGSVYESSYILQWLELKHPDPPLLPPDPDGVLAARRYEVLCDGICDAVVLTFFERQRDEAGRSAPWLARQRRKIEGGLAEIARLLGDRDWTVGDRFTLGDIAAGTVTGYLSVRFPELDWRARHPNLARLSDRLEARPSFADSVPYAQTITDRVV TRYRLISATPSPYARKVRIALAEKGLPFELVTEVPWDSATTVPRHNPLEKLPVLLLPAGGSVYESSYILQWLELKHPDPPLLPPDPDGVLAARRYEVLCDGICDAVVLTFFERQRDEAGRSAPWLARQRRKIEGGLAEIARLLGDRDWTVGDRFTLGDIAAGTVTGYLSVRFPELDWRARHPNLARLSDRLEARPSFADSVPYAQTITDRVV 4jeh-a2-m1-cA_4jeh-a2-m2-cA Crystal Structure of Munc18a and Syntaxin1 lacking N-peptide complex P61765 P61765 2.5 X-RAY DIFFRACTION 53 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 556 556 IGLKAVVGEKIMHDVIKKVKKKGEWKVLVVDQLSMRMLSSCCKMTDIMTEGITIVEDINKRREPLPSLEAVYLITPSEKSVHSLISDFKDPPTAKYRAAHVFFTDSCPDALFNELVKSRAAKVIKTLTEINIAFLPYESQVYSLDSADSFQSFYSPHKAQMKNPILERLAEQIATLCATLKEYPAVRYRGEYKDNALLAQLIQDKLDAYKADDPTMGEGPDKARSQLLILDRGFDPSSPVLHELTFQAMSYDLLPIENDVYKYETSGIGEARVKEVLLDEDDDLWIALRHKHIAEVSQEVTRSLKDFSSSKRMMRDLSQMLKKMPQYQKELSKYSTHLHLAEDCMKHYQGTVDKLCRVEQDLAMGTDAEGEKIKDPMRAIVPILLDANVSTYDKIRIILLYIFLKNGITEENLNKLIQHAQIPPEDSEIITNMAHLGVPIVTDSTLRRRSKPERKERISEQTYQLSRWTPIIKDIMEDTIEDKLDTKHYPYISTRRSGPRLIIFILGGVSLNEMRCAYEVTQANGKWEVLIGSTHILTPQKLLDTLKKLNKTDEEI IGLKAVVGEKIMHDVIKKVKKKGEWKVLVVDQLSMRMLSSCCKMTDIMTEGITIVEDINKRREPLPSLEAVYLITPSEKSVHSLISDFKDPPTAKYRAAHVFFTDSCPDALFNELVKSRAAKVIKTLTEINIAFLPYESQVYSLDSADSFQSFYSPHKAQMKNPILERLAEQIATLCATLKEYPAVRYRGEYKDNALLAQLIQDKLDAYKADDPTMGEGPDKARSQLLILDRGFDPSSPVLHELTFQAMSYDLLPIENDVYKYETSGIGEARVKEVLLDEDDDLWIALRHKHIAEVSQEVTRSLKDFSSSKRMMRDLSQMLKKMPQYQKELSKYSTHLHLAEDCMKHYQGTVDKLCRVEQDLAMGTDAEGEKIKDPMRAIVPILLDANVSTYDKIRIILLYIFLKNGITEENLNKLIQHAQIPPEDSEIITNMAHLGVPIVTDSTLRRRSKPERKERISEQTYQLSRWTPIIKDIMEDTIEDKLDTKHYPYISTRRSGPRLIIFILGGVSLNEMRCAYEVTQANGKWEVLIGSTHILTPQKLLDTLKKLNKTDEEI 4jej-a1-m1-cA_4jej-a1-m2-cA GGGPS from Flavobacterium johnsoniae A5FJK8 A5FJK8 1.52 X-RAY DIFFRACTION 96 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 241 241 KILTTIHQQILEAKKNGQKLLAILLDPDKIVWENLDHLLLKINQSPATHIFVGGSIVESTIIEDLIAQLKQKTRLPVVIFPGDPSQISPKADAILFLSLLSGRNPDYLIEYQVQAAPILKKTNLEVISTGYILIESGNETAVARVSKTEPLNRENFDLALATAQAGEMLGSKLIYLEAGSGAKKPVPLEMISVISQNVEIPIIVGGGIVDLHGIKKAYNAGADLVVIGTAFENDSHFFDSL KILTTIHQQILEAKKNGQKLLAILLDPDKIVWENLDHLLLKINQSPATHIFVGGSIVESTIIEDLIAQLKQKTRLPVVIFPGDPSQISPKADAILFLSLLSGRNPDYLIEYQVQAAPILKKTNLEVISTGYILIESGNETAVARVSKTEPLNRENFDLALATAQAGEMLGSKLIYLEAGSGAKKPVPLEMISVISQNVEIPIIVGGGIVDLHGIKKAYNAGADLVVIGTAFENDSHFFDSL 4jel-a2-m1-cA_4jel-a2-m3-cA Structure of MilB Streptomyces rimofaciens CMP N-glycosidase B4Y381 B4Y381 1.952 X-RAY DIFFRACTION 33 1.0 504097 (Streptomyces rimofaciens) 504097 (Streptomyces rimofaciens) 149 149 PAVGSVFLGGPFRQLVDPRTGVSSGDQNVFSRLIEHFESRGTTVYNAHRREAWGAEFLSPAEATRLDHDEIKAADVFVAFPGVPASPGTHVEIGWASGGKPVLLLERDEDYAFLVTGLESQANVEILRFSGTEEIVERLDGAVARVLGR PAVGSVFLGGPFRQLVDPRTGVSSGDQNVFSRLIEHFESRGTTVYNAHRREAWGAEFLSPAEATRLDHDEIKAADVFVAFPGVPASPGTHVEIGWASGGKPVLLLERDEDYAFLVTGLESQANVEILRFSGTEEIVERLDGAVARVLGR 4jen-a2-m1-cC_4jen-a2-m2-cC Structure of Clostridium botulinum CMP N-glycosidase, BcmB 3 X-RAY DIFFRACTION 115 1.0 441770 (Clostridium botulinum A str. ATCC 19397) 441770 (Clostridium botulinum A str. ATCC 19397) 113 113 4jen-a1-m1-cA_4jen-a1-m1-cB KRVFLAAQEKKRIEDLILFLEEKGWEVDSPDQCTKLDYDAIKECDLFIAFPGVPVSPGTHIEIGWASAMGKKIILLLAEKENYAYLIRGLHTVSNVHYIIYNKEKEYLQKLDL KRVFLAAQEKKRIEDLILFLEEKGWEVDSPDQCTKLDYDAIKECDLFIAFPGVPVSPGTHIEIGWASAMGKKIILLLAEKENYAYLIRGLHTVSNVHYIIYNKEKEYLQKLDL 4jey-a1-m1-cB_4jey-a1-m1-cA E198A mutant of N-acetylornithine aminotransferase from Salmonella typhimurium P40732 P40732 1.55 X-RAY DIFFRACTION 288 0.99 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 388 397 2pb0-a1-m1-cB_2pb0-a1-m1-cA 2pb2-a1-m1-cA_2pb2-a1-m1-cB 4jev-a1-m1-cA_4jev-a1-m1-cB 4jew-a1-m1-cB_4jew-a1-m1-cA 4jex-a1-m1-cA_4jex-a1-m1-cB 4jez-a1-m1-cA_4jez-a1-m1-cB 4jf0-a1-m1-cA_4jf0-a1-m1-cB 4jf1-a1-m1-cB_4jf1-a1-m1-cA LPVYAPADFIPVKGKGSRVWDQQGKEYIDFAGGIAVTALGHCHPALVEALKSQGETLWHTSNVFTNEPALRLGRKLIDATFAERVLFMNSGTEANETAFKLARHYACVRHSPFKTKIIAFHNAFHGRSLFTVSVGGQPKYSDGFGPKPADIIHVPFNDLHAVKAVMDDHTCAVVVEPIQGAGGVQAATPEFLKGLRDLCDEHQALLVFDEVQCGMGRTGDLFAYMHYGVTPDILTSAKALGGGFPVSAMLTTQEIASAFHVGSHGSTYGGNPLACAVAGATFDIINTPEVLQGIHTKRQQFVQHLQAIDEQFDIFSDIRGMGLLIGAELKPKYKGRARDFLYAGAEAGVMVLNAGADVMRFAPSLVVEEADIHEGMQRFAQAVGKVVA TAITRATFDEVILPVYAPADFIPVKGKGSRVWDQQGKEYIDFAGGIAVTALGHCHPALVEALKSQGETLWHTSNVFTNEPALRLGRKLIDATFAERVLFMNSGTEANETAFKLARHYACVRHSPFKTKIIAFHNAFHGRSLFTVSVGGQPKYSDGFGPKPADIIHVPFNDLHAVKAVMDDHTCAVVVEPIQGAGGVQAATPEFLKGLRDLCDEHQALLVFDEVQCGMGRTGDLFAYMHYGVTPDILTSAKALGGGFPVSAMLTTQEIASAFHGSTYGGNPLACAVAGATFDIINTPEVLQGIHTKRQQFVQHLQAIDEQFDIFSDIRGMGLLIGAELKPKYKGRARDFLYAGAEAGVMVLNAGADVMRFAPSLVVEEADIHEGMQRFAQAVGKVVAL 4jf3-a2-m4-cB_4jf3-a2-m5-cB Crystal structure of the mpmv tm retroviral fusion core P07575 P07575 1.7 X-RAY DIFFRACTION 84 1.0 11855 (Mason-Pfizer monkey virus) 11855 (Mason-Pfizer monkey virus) 92 92 4jf3-a1-m1-cA_4jf3-a1-m2-cA 4jf3-a1-m1-cA_4jf3-a1-m3-cA 4jf3-a1-m2-cA_4jf3-a1-m3-cA 4jf3-a2-m1-cB_4jf3-a2-m4-cB 4jf3-a2-m1-cB_4jf3-a2-m5-cB SITQYTKLSHQLISDVQAISSTIQDLQDQVDSLAEVVLQNRRGLDLLTAEQGGICLALQEKCSFYANKSGIVRDKIKNLQDDLERRRRQLID SITQYTKLSHQLISDVQAISSTIQDLQDQVDSLAEVVLQNRRGLDLLTAEQGGICLALQEKCSFYANKSGIVRDKIKNLQDDLERRRRQLID 4jf8-a1-m1-cA_4jf8-a1-m2-cA Crystal structure of a TrwG component of type IV secretion system protein from Bartonella birtlesii D0AAZ5 D0AAZ5 1.35 X-RAY DIFFRACTION 38 1.0 111504 (Bartonella birtlesii) 111504 (Bartonella birtlesii) 144 144 HETSYGEVVDRYWLNQYVLNRETYDYDTIQLNYDTTALLSTAAVQQEFYKIYEGEDARDKVLSNKARITVKVRSIQPNGRGQATVRFTTQQHDSTGAVGVKQHQIATIGYTYVGAPMKSSDRLLNPLGFQVTSYRTDPEILLNN HETSYGEVVDRYWLNQYVLNRETYDYDTIQLNYDTTALLSTAAVQQEFYKIYEGEDARDKVLSNKARITVKVRSIQPNGRGQATVRFTTQQHDSTGAVGVKQHQIATIGYTYVGAPMKSSDRLLNPLGFQVTSYRTDPEILLNN 4jfa-a1-m1-cC_4jfa-a1-m1-cA Crystal Structure of Plasmodium falciparum Tryptophanyl-tRNA synthetase Q8IDW3 Q8IDW3 2.6 X-RAY DIFFRACTION 108 0.994 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 348 362 4j75-a1-m1-cB_4j75-a1-m1-cA 4j76-a1-m1-cB_4j76-a1-m1-cA 4jfa-a2-m1-cD_4jfa-a2-m1-cB INYNKLIKEFGCSKITENHIKRIEKLTNSKAHHFIRRGIFFSHRDLDFLLNYYEQHKCFYIYTGRGPSSLSMHLGHLIPFYFCKYLQEAFNVPLVIQLSDDEKYLFNQNYSLEYINTLTNENVKDIISVGLNPELTFIFKNTEYAGYLYPTVLSIHKKTTLNQSMNVFGFNHSDNIGKISYPSFQIAPCFSQCFPNFLGKNIPCLVPQGIDQDPYFRLSRDIAVKMALHKPVVVHSVFMPGLNNSVIFLTDTPEQIKNKINKYAFSGNLDKDISYQYLRYLLEDDNKLNEIGEKYKKGEMLSGEIKKILIDVLTELVLKHQEKKKSLTDEEISYFFDPNKPSLQKFKN INYNKLIKEFGCSKITENHIKRIEKLTNSKAHHFIRRGIFFSHRDLDFLLNYYEQHKCFYIYTGRGPSSLSMHLGHLIPFYFCKYLQEAFNVPLVIQLSDDEKYLFNQNYSLEYINTLTNENVKDIISVGLNPELTFIFKNTEYAGYLYPTVLSIHKKTTLNQSMNVFGFNHSDNIGKISYPSFQIAPCFSQCFPNFLGKNIPCLVPQGIDQDPYFRLSRDIAVKMALHKPVVVHSVFMPGLQGVNNSVIFLTDTPEQIKNKINKYAFSGGGTTIQEHREKGGNLDKDISYQYLRYLLEDDNKLNEIGEKYKKGEMLSGEIKKILIDVLTELVLKHQEKKKSLTDEEISYFFDPNKPSLQKF 4jfc-a1-m2-cA_4jfc-a1-m3-cA Crystal structure of a enoyl-CoA hydratase from Polaromonas sp. JS666 Q129C0 Q129C0 2.25 X-RAY DIFFRACTION 159 1.0 296591 (Polaromonas sp. JS666) 296591 (Polaromonas sp. JS666) 254 254 4jfc-a1-m1-cA_4jfc-a1-m2-cA 4jfc-a1-m1-cA_4jfc-a1-m3-cA GAIKSTSEGQTLILTLSNPEFRNALGPEIYAAGIEALNAAENNPEIRSVVITGEGAVFCAGGNLQRLQANRREAPEVQAQSIEGLHNWIDSIRTYPKPVIAAVEGAAAGAGFSLALACDFVVAASNAVFVSYSTVGLSPDGGGSWSLARSLPRALASELLGGERISAQRLHDLGLVNKVASAGDALSEALRAGQLNARAPNALASIKELINEASSNTLSQQLACERDHFVRNLHHSNGGEGIAAFLGKRTPQYR GAIKSTSEGQTLILTLSNPEFRNALGPEIYAAGIEALNAAENNPEIRSVVITGEGAVFCAGGNLQRLQANRREAPEVQAQSIEGLHNWIDSIRTYPKPVIAAVEGAAAGAGFSLALACDFVVAASNAVFVSYSTVGLSPDGGGSWSLARSLPRALASELLGGERISAQRLHDLGLVNKVASAGDALSEALRAGQLNARAPNALASIKELINEASSNTLSQQLACERDHFVRNLHHSNGGEGIAAFLGKRTPQYR 4jg9-a2-m1-cB_4jg9-a2-m2-cB X-ray Crystal Structure of a Putative Lipoprotein from Bacillus anthracis A0A6L7HR41 A0A6L7HR41 2.425 X-RAY DIFFRACTION 66 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 135 135 4jg9-a1-m1-cA_4jg9-a1-m2-cA STQVNAPSFFHLSVLKDVNWEETPSFIQEKIPLKGIEEKIAADSPIIANEKNEIWYFLDPEPTGKLSIIALKQGSVTPTPLLFQQESSEPTWTTSNTIDSTTNELPLTSLPSSGLWVLNIYVNEKYYDQFVITAE STQVNAPSFFHLSVLKDVNWEETPSFIQEKIPLKGIEEKIAADSPIIANEKNEIWYFLDPEPTGKLSIIALKQGSVTPTPLLFQQESSEPTWTTSNTIDSTTNELPLTSLPSSGLWVLNIYVNEKYYDQFVITAE 4jga-a1-m1-cA_4jga-a1-m1-cB X-ray crystal structure of 3-oxoacyl-[acyl-carrier-protein] synthase 2 from Rickettsia rickettsii A0A0H3AY56 A0A0H3AY56 2.1 X-RAY DIFFRACTION 275 1.0 392021 (Rickettsia rickettsii str. 'Sheila Smith') 392021 (Rickettsia rickettsii str. 'Sheila Smith') 422 422 NKRVVITGLGLVTPVGLNVNSSWKNIVDGVSGIKTITEFDTSKLACKIAGLIDNSEKDGFKLENFTQADDINRLSKMDKFIHYGVAAATEAVEDSGWLPDDEKSRDRTGLILGSGIGGLKMIEDTSIKLYQENNGKVSPFFIPASLINLLSGLVSIKYGFSGPNQTAVTACSTGAHAIGDAMRMIKHGYADVMIAGGAEAPVTPVGVAGFVAARALCTKYNDNPKKASRPWDKDRSGFVMGEGAGVVVLEEYEHALNRGAKVYGEVIGYGSTGDAYHMTAPHPEGRGAYRAMRDAMLDATITPDMIDYINAHGTSTTLGDGIELAAVQKLFLEANPKVLMSSTKSSIGHLLGAAGSVEFIFSALAIRDQIAPPTLNLDTPMDEVNIDLVALKAKKTKIDYVLSNSFGFGGTNASLVIKSILV NKRVVITGLGLVTPVGLNVNSSWKNIVDGVSGIKTITEFDTSKLACKIAGLIDNSEKDGFKLENFTQADDINRLSKMDKFIHYGVAAATEAVEDSGWLPDDEKSRDRTGLILGSGIGGLKMIEDTSIKLYQENNGKVSPFFIPASLINLLSGLVSIKYGFSGPNQTAVTACSTGAHAIGDAMRMIKHGYADVMIAGGAEAPVTPVGVAGFVAARALCTKYNDNPKKASRPWDKDRSGFVMGEGAGVVVLEEYEHALNRGAKVYGEVIGYGSTGDAYHMTAPHPEGRGAYRAMRDAMLDATITPDMIDYINAHGTSTTLGDGIELAAVQKLFLEANPKVLMSSTKSSIGHLLGAAGSVEFIFSALAIRDQIAPPTLNLDTPMDEVNIDLVALKAKKTKIDYVLSNSFGFGGTNASLVIKSILV 4jgi-a3-m1-cA_4jgi-a3-m2-cB 1.5 Angstrom crystal structure of a novel cobalamin-binding protein from Desulfitobacterium hafniense DCB-2 Q8RPG0 Q8RPG0 1.5 X-RAY DIFFRACTION 16 1.0 49338 (Desulfitobacterium hafniense) 49338 (Desulfitobacterium hafniense) 205 206 VIDLNASAQAMSDLDEGAINEVVDKVMAKADADAAQELIKAFQQGMTKVGERFDSGEYFIGDLIFAGEILQAAMDKLKPALKRAKIVLATVEGDLHDIGKNIFRTMAEASGFEVFDLGIDVPVKIIVDKVKEVNPEIVGLSGVLTLALDSMRETVDALKAEGLRNDLKVIIGGVPVNENVCQRVGADDFSTNAADGVKICQRWVG VIDLNASAQAMSDLDEGAINEVVDKVMAKADADAAQELIKAFQQGMTKVGERFDSGEYFIGDLIFAGEILQAAMDKLKPALEKRAKIVLATVEGDLHDIGKNIFRTMAEASGFEVFDLGIDVPVKIIVDKVKEVNPEIVGLSGVLTLALDSMRETVDALKAEGLRNDLKVIIGGVPVNENVCQRVGADDFSTNAADGVKICQRWVG 4jgj-a1-m1-cB_4jgj-a1-m1-cA Crystal structure of the Ig-like D1 domain from mouse Carcinoembryogenic antigen-related cell adhesion molecule 15 (CEACAM15) [PSI-NYSGRC-005691] A0A0B4J1L0 A0A0B4J1L0 2.6508 X-RAY DIFFRACTION 58 1.0 10090 (Mus musculus) 10090 (Mus musculus) 104 105 ALLTSKEMRFSAAEGAKVLLSVPDLLSFSWYKGKDVNENFTIAHYKKSSDSLQLGKKVSGREEIYKDGSMMLRAITLEDTGFYTLQTFKGQQEVTHVHLQVYKI ALLTSKEMRFSAAEGAKVLLSVPDNLLSFSWYKGKDVNENFTIAHYKKSSDSLQLGKKVSGREEIYKDGSMMLRAITLEDTGFYTLQTFKGQQEVTHVHLQVYKI 4jgp-a1-m1-cA_4jgp-a1-m1-cB The crystal structure of sporulation kinase D sensor domain from Bacillus subtilis subsp in complex with pyruvate at 2.0A resolution O31671 O31671 2.03 X-RAY DIFFRACTION 59 0.995 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 201 201 4jgo-a1-m1-cA_4jgo-a1-m1-cB 4jgq-a1-m1-cB_4jgq-a1-m1-cA 4jgr-a1-m1-cA_4jgr-a1-m1-cB EKDTIAAEHKQEASVLLNLHRNKINYLIGETARTSLSIAIDRPVDIKKQSILEKTFDSEPRFSGLYFLNAKGDVTASTTELKTKVNLADRSFFIKAKETKKTVISDSYSSRITGQPIFTICVPVLDSKRNVTDYLVAAIQIDYLKNLINLLSPDVYIEVVNQDGKIFASGQASHAEDQKPVSGYLDDISWNKVYPNPVTIE KDTIAAEHKQEASVLLNLHRNKINYLIGETARTSLSIAIDRPVDIKKQSILEKTFDSEPRFSGLYFLNAKGDVTASTTELKTKVNLADRSFFIKAKETKKTVISDSYSSRITGQPIFTICVPVLDSKRNVTDYLVAAIQIDYLKNLINLLSPDVYIEVVNQDGKIFASGQASHAEDQKPVSGYLDDISWNKVYPNPVTIEE 4jgs-a2-m1-cF_4jgs-a2-m1-cB Crystal structure of the xmrv tm retroviral fusion core D0UFA8 D0UFA8 2.2 X-RAY DIFFRACTION 92 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 82 4jgs-a1-m1-cA_4jgs-a1-m1-cE 4jgs-a1-m1-cA_4jgs-a1-m1-cG 4jgs-a1-m1-cE_4jgs-a1-m1-cG 4jgs-a2-m1-cB_4jgs-a2-m1-cI 4jgs-a2-m1-cF_4jgs-a2-m1-cI 4jgs-a3-m1-cD_4jgs-a3-m1-cC 4jgs-a3-m1-cH_4jgs-a3-m1-cC 4jgs-a3-m1-cH_4jgs-a3-m1-cD FEQLQAAIHTDLGALEKSVSALEKSLTSLSEVVLQNRRGLDLLFLKEGGLCAALKEECSFYADHTGVVRDSMAKLRERLN KQFEQLQAAIHTDLGALEKSVSALEKSLTSLSEVVLQNRRGLDLLFLKEGGLCAALKEECSFYADHTGVVRDSMAKLRERLN 4jgx-a1-m1-cA_4jgx-a1-m1-cB The Structure of Sterol Carrier Protein 2 from the Yeast Yarrowia Lipolytica P80547 P80547 2.2 X-RAY DIFFRACTION 46 1.0 284591 (Yarrowia lipolytica CLIB122) 284591 (Yarrowia lipolytica CLIB122) 119 128 SLKVDGFTSSIIFDVIRDGLNDPSQAKQKAESIKKANAIIVFNLKNKAGKTESWYLDLKNDGDVGKGNKSPKGDADIQLTLSDDHFQQLVEGKANAQRLFMTGKLKVKGNVMKAAAIEG SLKVDGFTSSIIFDVIRDGLNDPSQAKQKAESIKKANAIIVFNLKNKAGKTESWYLDLKNDGDVGKGNKSPKGDADIQLTLSDDHFQQLVEGKANAQRLFMTGKLKVKGNVMKAAAIEGILKNAQNNL 4jh2-a1-m1-cA_4jh2-a1-m1-cB Crystal Structure of FosB from Bacillus cereus with Zinc and Sulfate at 1.27 A Resolution Q739M9 Q739M9 1.27 X-RAY DIFFRACTION 186 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 138 138 4jh1-a1-m1-cA_4jh1-a1-m1-cB 4jh3-a1-m1-cA_4jh3-a1-m1-cB 4jh4-a1-m1-cA_4jh4-a1-m1-cB 4jh5-a1-m1-cA_4jh5-a1-m1-cB 4jh6-a1-m1-cA_4jh6-a1-m1-cB 4jh7-a1-m1-cA_4jh7-a1-m1-cB 4jh8-a1-m1-cA_4jh8-a1-m1-cB 4jh9-a1-m1-cA_4jh9-a1-m1-cB MLNGINHLCFSVSNLEDSIEFYEKVLEGELLVRGRKLAYFNICGVWVALNEEIHIPRNEIYQSYTHIAFSVEQKDFESLLQRLEENDVHILKGRERDVRDCESIYFVDPDGHKFEFHSGTLQDRLNYYREDKPHMTFY MLNGINHLCFSVSNLEDSIEFYEKVLEGELLVRGRKLAYFNICGVWVALNEEIHIPRNEIYQSYTHIAFSVEQKDFESLLQRLEENDVHILKGRERDVRDCESIYFVDPDGHKFEFHSGTLQDRLNYYREDKPHMTFY 4jhb-a1-m1-cA_4jhb-a1-m2-cA Crystal structure of RelB double mutants: Y300F/I335F Q04863 Q04863 2.44 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 110 110 4jgm-a1-m1-cA_4jgm-a1-m2-cA LVPRGSHMNTSELRICRINKESGPCTGGEELFLLCDKVQKEDISVVFSTASWEGRADFSQADVHRQFAIVFKTPPYEDLEISEPVTVNVFLQRLTDGVCSEPLPFTYLPR LVPRGSHMNTSELRICRINKESGPCTGGEELFLLCDKVQKEDISVVFSTASWEGRADFSQADVHRQFAIVFKTPPYEDLEISEPVTVNVFLQRLTDGVCSEPLPFTYLPR 4jhc-a1-m1-cB_4jhc-a1-m1-cA Crystal structure of the uncharacterized Maf protein YceF from E. coli P0A729 P0A729 1.85 X-RAY DIFFRACTION 81 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 182 192 4lu1-a1-m1-cB_4lu1-a1-m1-cA PKLILASTSPWRRALLEKLQISFECAAPEVDETPRSDESPRQLVLRLAQEKAQSLASRYPDHLIIGSDQVCVLDGEITGKPLEENARLQLRKASGNIVTFYTGLALFNSANGHLQTEVEPFDVHFRHLSEAEIDNYVRFKSEGFGITLFERLEGRDPNTLVGLPLIALCQMLRREGKNPLMG PKLILASTSPWRRALLEKLQISFECAAPEVDETPRSDESPRQLVLRLAQEKAQSLASRYPDHLIIGSDQVCVLDGEITGKPLTEENARLQLRKASGNIVTFYTGLALFNSANGHLQTEVEPFDVHFRHLSEAEIDNYVRKEHPLHCAGSFKSEGFGITLFERLEGRDPNTLVGLPLIALCQMLRREGKNPLM 4jhr-a1-m1-cB_4jhr-a1-m1-cA An auto-inhibited conformation of LGN reveals a distinct interaction mode between GoLoco motifs and TPR motifs Q8VDU0 Q8VDU0 2.8 X-RAY DIFFRACTION 147 0.997 10090 (Mus musculus) 10090 (Mus musculus) 289 290 NFDEAIVCCQRHLDISRELNDKVGEARALYNLGNVYHAKGKSFEDVRNALQAAVDLYEENLSLVTALGDRAAQGRAFGNLGNTHYLLGNFRDAVIAHEQRLLIAKEFGDKAAERRAYSNLGNAYIFLGEFETASEYYKKTLLLARQLKDRAVEAQSCYSLGNTYTLLQDYEKAIDYHLKHLAIAQELKDRIGEGRACWSLGNAYTALGNHDQAMHFAEKHLEISREVGDLEVPPDEDFFDILVKCQGSRLDDQRCAPPSAATKGPTVPDEDFFSLILRSQAKRMDEQRV NFDEAIVCCQRHLDISRELNDKVGEARALYNLGNVYHAKGKSEDVRNALQAAVDLYEENLSLVTALGDRAAQGRAFGNLGNTHYLLGNFRDAVIAHEQRLLIAKEFGDKAAERRAYSNLGNAYIFLGEFETASEYYKKTLLLARQLKDRAVEAQSCYSLGNTYTLLQDYEKAIDYHLKHLAIAQELKDRIGEGRACWSLGNAYTALGNHDQAMHFAEKHLEISREVGDLEVLFPPDEDFFDILVKCQGSRLDDQRCAPPSAATKGPTVPDEDFFSLILRSQAKRMDEQRV 4jib-a1-m1-cC_4jib-a1-m1-cB Crystal structure of of PDE2-inhibitor complex O00408 O00408 1.72 X-RAY DIFFRACTION 48 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 327 336 IQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL DEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDF 4jib-a1-m1-cC_4jib-a1-m1-cD Crystal structure of of PDE2-inhibitor complex O00408 O00408 1.72 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 327 335 4jib-a1-m1-cB_4jib-a1-m1-cA IQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL YTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL 4jib-a1-m1-cD_4jib-a1-m1-cA Crystal structure of of PDE2-inhibitor complex O00408 O00408 1.72 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 335 340 YTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL AMDDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL 4jif-a2-m1-cA_4jif-a2-m2-cA Co-crystal structure of ICAP1 PTB domain in complex with a KRIT1 peptide O14713 O14713 1.701 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 CAEFRIKYVGAIEKLKLLEGPLDLINYIDVAQQDGKLPFVPPEEEFIMGVSKYGIKVSTSDQYDVLHRHALYLIIRMVCYDDGLGAGKSLLALKTTDASNEEYSLWVYQCNSLEQAQAICKVLSTAFDSV CAEFRIKYVGAIEKLKLLEGPLDLINYIDVAQQDGKLPFVPPEEEFIMGVSKYGIKVSTSDQYDVLHRHALYLIIRMVCYDDGLGAGKSLLALKTTDASNEEYSLWVYQCNSLEQAQAICKVLSTAFDSV 4jig-a1-m1-cA_4jig-a1-m4-cA Crystal structure of a putative dehydrogenase from Burkholderia cenocepacia B4E5P7 B4E5P7 1.85 X-RAY DIFFRACTION 134 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 237 237 4jig-a1-m2-cA_4jig-a1-m3-cA SSDRKAVLITGASRGIGRATAVLAAERGWDVGINYARDAAAAELTAQAVRDAGGRACIVAGDVANEADVVAMFDTVAAAFGRLDALVNNAGIVAPSMPLADMPVDRLRRMFDTNVLGAYLCAREAARRLSTDRGGRGGAIVNVSSIASRLGSPNEYVDYAGSKGAVDSLTIGLAKELGPHGVRVNAVRPGLIETRLGAQTPLGRAGEAQEVAEAIVWLLGDTASYTTGALLDVGGGR SSDRKAVLITGASRGIGRATAVLAAERGWDVGINYARDAAAAELTAQAVRDAGGRACIVAGDVANEADVVAMFDTVAAAFGRLDALVNNAGIVAPSMPLADMPVDRLRRMFDTNVLGAYLCAREAARRLSTDRGGRGGAIVNVSSIASRLGSPNEYVDYAGSKGAVDSLTIGLAKELGPHGVRVNAVRPGLIETRLGAQTPLGRAGEAQEVAEAIVWLLGDTASYTTGALLDVGGGR 4jig-a1-m2-cA_4jig-a1-m4-cA Crystal structure of a putative dehydrogenase from Burkholderia cenocepacia B4E5P7 B4E5P7 1.85 X-RAY DIFFRACTION 104 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 237 237 4jig-a1-m1-cA_4jig-a1-m3-cA SSDRKAVLITGASRGIGRATAVLAAERGWDVGINYARDAAAAELTAQAVRDAGGRACIVAGDVANEADVVAMFDTVAAAFGRLDALVNNAGIVAPSMPLADMPVDRLRRMFDTNVLGAYLCAREAARRLSTDRGGRGGAIVNVSSIASRLGSPNEYVDYAGSKGAVDSLTIGLAKELGPHGVRVNAVRPGLIETRLGAQTPLGRAGEAQEVAEAIVWLLGDTASYTTGALLDVGGGR SSDRKAVLITGASRGIGRATAVLAAERGWDVGINYARDAAAAELTAQAVRDAGGRACIVAGDVANEADVVAMFDTVAAAFGRLDALVNNAGIVAPSMPLADMPVDRLRRMFDTNVLGAYLCAREAARRLSTDRGGRGGAIVNVSSIASRLGSPNEYVDYAGSKGAVDSLTIGLAKELGPHGVRVNAVRPGLIETRLGAQTPLGRAGEAQEVAEAIVWLLGDTASYTTGALLDVGGGR 4jis-a1-m1-cB_4jis-a1-m1-cA Crystal structure of ribitol 5-phosphate cytidylyltransferase (TarI) from Bacillus subtilis Q8RKI9 Q8RKI9 1.772 X-RAY DIFFRACTION 119 1.0 655816 (Bacillus subtilis subsp. spizizenii str. W23) 655816 (Bacillus subtilis subsp. spizizenii str. W23) 219 221 GMIYAEILAPKQFLPLNKRPIIIHTVEKFLLNDRFDKILIVSPKEWINHTKDILKKFIGQDDRLVVVEGGSDRNESIMSGIRYIEKEFGIQDNDVIITHDSVRPFLTHRIIDENIDAVLQYGAVDTVISAIDTIIASEDQEFISDIPVRDNMYQGQTPQSFRISKLVELYNKLSDEQKAVLTDACKICSLAGEKVKLVRGEVFNIKVTTPYDLKVANAI GMIYAEILAMPKQFLPLNKRPIIIHTVEKFLLNDRFDKILIVSPKEWINHTKDILKKFIGQDDRLVVVEGGSDRNESIMSGIRYIEKEFGIQDNDVIITHDSVRPFLTHRIIDENIDAVLQYGAVDTVISAIDTIIASEDQEFISDIPVRDNMYQGQTPQSFRISKLVELYNKLSDEQKAVLTDACKICSLAGEKVKLVRGEVFNIKVTTPYDLKVANAIL 4jix-a1-m1-cB_4jix-a1-m1-cA Crystal structure of the metallopeptidase zymogen of Methanocaldococcus jannaschii jannalysin Q57587 Q57587 2 X-RAY DIFFRACTION 45 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 104 112 KKDIKDIVNEILISLNINESINIEIKPMKQKIASFSFKTKTLRLNKYVVENFDEELLHYIILHELIHFKIKSINHGIKFENELRNYFSKNECDEIELKIIQKLI GPMAINENKKDIKDIVNEILISLNINESINIEIKPMKQKIASFSFKTKTLRLNKYVVENFDEELLHYIILHELIHFKIKSINHGIKFENELRNYFSKNECDEIELKIIQKLI 4jj9-a1-m1-cC_4jj9-a1-m1-cB Crystal Structure of 5-carboxymethyl-2-hydroxymuconate delta-isomerase A0A0H3LHY8 A0A0H3LHY8 1.76 X-RAY DIFFRACTION 124 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 141 147 4jj9-a1-m1-cC_4jj9-a1-m1-cA YFQSPHLVILYSGNLDRDLDGAVCRGLADALTVRDDEGRQVFPTGGTRVLAYPAPHYAIADGGQAGRDAGESGDYGFAYLNLRGRGRSEAVQRRAGETIAQAARALLAPLLQQRRVGLTFQIDVGAEVYDAKFGNLHALFQ NLYFQSPHLVILYSGNLDRDLDGAVCRGLADALTVRDDEGRQVFPTGGTRVLAYPAPHYAIADGGQAGRDAGESGDYGFAYLNLRGRGRSEAVQRRAGETIAQAARALLAPLLQQRRVGLTFQIDVGAEVYDAKFGNLHALFQKGEK 4jjh-a1-m1-cA_4jjh-a1-m1-cB Crystal structure of the D1 domain from human Nectin-4 extracellular fragment [PSI-NYSGRC-005624] Q96NY8 Q96NY8 2.25 X-RAY DIFFRACTION 22 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 111 112 TSDVVTVVLGQDAKLPCFYRGDEQVGQVAWARVAQELALLHSKYGLHVSPAYEGRVEQPPPPRNPLDGSVLLRNAVQADEGEYECRVSTFPAGSFQARLRLRVLVPPLPSL TSDVVTVVLGQDAKLPCFYRDSGEQVGQVAWARVAQELALLHSKYGLHVSPAYEGRVEQPPPPRNPLDGSVLLRNAVQADEGEYECRVSTFPAGSFQARLRLRVLVPPLPSL 4jjn-a1-m1-cE_4jjn-a1-m1-cA Crystal structure of heterochromatin protein Sir3 in complex with a silenced yeast nucleosome P61830 P61830 3.09 X-RAY DIFFRACTION 35 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 96 98 1id3-a1-m1-cA_1id3-a1-m1-cE 4kud-a1-m1-cA_4kud-a1-m1-cE 6gej-a1-m1-cA_6gej-a1-m1-cB 6gen-a1-m1-cA_6gen-a1-m1-cB 7e9c-a1-m1-cE_7e9c-a1-m1-cA 7e9f-a1-m1-cE_7e9f-a1-m1-cA 7k7g-a1-m1-cA_7k7g-a1-m1-cE 7wlr-a1-m1-cA_7wlr-a1-m1-cE HRYKPGTVALREIRRFQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAIGALQESVEAYLVSLFEDTNLAAIHAKRVTIQKKDIKLARRLRGER PHRYKPGTVALREIRRFQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAIGALQESVEAYLVSLFEDTNLAAIHAKRVTIQKKDIKLARRLRGERS 4jjp-a1-m1-cB_4jjp-a1-m1-cA 2.06 Angstrom resolution crystal structure of phosphomethylpyrimidine kinase (thiD)from Clostridium difficile 630 Q186F5 Q186F5 2.056 X-RAY DIFFRACTION 114 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 217 231 IPTLTIAGSDSSGGAGIQADLKTFSAIGTYGMSVITAITAQNTKGVFAVEDLNKKIIKKQIEAVFEDIPPRAVKIGMVSSPEIILEIVENLKKYNPKYLVVDPVMIYLLKPEAKENLIKYLIPLAYIITPNIPEAEEITGIKIHNVDDMKRVGEEILQLGPKFVLMKGGAVDILVGKNIFKVYKSGCTLSSAITSYLALGYEITEAVNLSKIYITEA KIPTLTIAGSDSSGGAGIQADLKTFSAIGTYGMSVITAITAQNTKGVFAVEDLNKKIIKKQIEAVFEDIPPRAVKIGMVSSPEIILEIVENLKKYNPKYLVVDPVMISKSGYYLLKPEAKENLIKYLIPLAYIITPNIPEAEEITGIKIHNVDDMKRVGEEILQLGPKFVLMKGGHLDGEAVDILVGKNIFKVYKSEGCTLSSAITSYLALGYEITEAVNLSKIYITEAIK 4jjt-a1-m1-cB_4jjt-a1-m2-cC The crystal structure of enoyl-CoA hydratase from Mycobacterium tuberculosis H37Rv I6YEH6 I6YEH6 2.496 X-RAY DIFFRACTION 35 0.986 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 219 219 4jjt-a1-m1-cA_4jjt-a1-m2-cA 4jjt-a1-m1-cC_4jjt-a1-m2-cB DILLIDTDERVRTLTLNRPQSRNALSAALRDRFFAALADAEADDDIDVVILTGADPVFCAGLDLKELAGQISPRWPATKPVIGAINGAAVTGGLELALYCDILIASEHARFADTHARVGLLPTWGLSVRLPQKVGIGLARRSLTGDYLSATDALRAGLVTEVVAHDQLLPTARRVAASIVGNNQNAVRALLASYHRIDESQTAAGLWLEACAAKQFRTS DILLIDTDERVRTLTLNRPQSRNALSAALRDRFFAALADAEADDDIDVVILTGADPVFCAGLDLKELISPRWPATKPVIGAINGAAVTGGLELALYCDILIASEHARFADTHARVGLLPTWGLSVRLPQKVGIGLARRSLTGDYLSATDALRAGLVTEVVAHDQLLPTARRVAASIVGNNQNAVRALLASYHRIDESQTAAGLWLEACAAKQFRTSGDT 4jjt-a1-m2-cB_4jjt-a1-m2-cC The crystal structure of enoyl-CoA hydratase from Mycobacterium tuberculosis H37Rv I6YEH6 I6YEH6 2.496 X-RAY DIFFRACTION 96 0.986 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 219 219 4jjt-a1-m1-cB_4jjt-a1-m1-cA 4jjt-a1-m1-cB_4jjt-a1-m1-cC 4jjt-a1-m1-cC_4jjt-a1-m1-cA 4jjt-a1-m2-cB_4jjt-a1-m2-cA 4jjt-a1-m2-cC_4jjt-a1-m2-cA DILLIDTDERVRTLTLNRPQSRNALSAALRDRFFAALADAEADDDIDVVILTGADPVFCAGLDLKELAGQISPRWPATKPVIGAINGAAVTGGLELALYCDILIASEHARFADTHARVGLLPTWGLSVRLPQKVGIGLARRSLTGDYLSATDALRAGLVTEVVAHDQLLPTARRVAASIVGNNQNAVRALLASYHRIDESQTAAGLWLEACAAKQFRTS DILLIDTDERVRTLTLNRPQSRNALSAALRDRFFAALADAEADDDIDVVILTGADPVFCAGLDLKELISPRWPATKPVIGAINGAAVTGGLELALYCDILIASEHARFADTHARVGLLPTWGLSVRLPQKVGIGLARRSLTGDYLSATDALRAGLVTEVVAHDQLLPTARRVAASIVGNNQNAVRALLASYHRIDESQTAAGLWLEACAAKQFRTSGDT 4jkm-a1-m1-cA_4jkm-a1-m1-cB Crystal Structure of Clostridium perfringens beta-glucuronidase Q8XP19 Q8XP19 2.263 X-RAY DIFFRACTION 35 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 602 602 6cxs-a2-m1-cA_6cxs-a2-m2-cB 6cxs-a2-m2-cA_6cxs-a2-m1-cB SNAMLYPIITESRQLIDLSGIWKFKLNEGNGLTEELSKAPLEDTIEMAVPSSYNDLVESQEVRDHVGWVWYERNFTIPKTLLNERIVLRFGSATHEAKVYLNGELLVEHKGGFTPFEAEINDLLVSGDNRLTVAVNNIIDETTLPVGLVKEVEVDGKKVIKNSVNFDFFNYAGIHRPVKIYTTPKSYIEDITIVTDFKENNGYVNYEVQAVGKCNIKVTIIDEENNIVAEGEGKEGKLTINNVHLWEPMNAYLYKLKVELLDDEEIIDTYFEEFGVRTVEVKDGKFLINNKPFYFKGFGKHEDSYVNGRGINEAINIKDFNLMKWIGANSFRTSHYPYSEEIMRLADREGIVVIDETPAVGLHLNFMATGFGGDAPKRDTWKEIGTKEAHERILRELVSRDKNHPCVVMWSVANEPDSDSEGAKEYFEPLIKLTKELDPQKRPVTVVTYLMSTPDRCKVGDIVDVLCLNRYYGWYVAGGDLEEAKRMLEDELKGWEERCPKTPIMFTEYGADTVAGLHDTVPVMFTEEYQVEYYKANHEVMDKCKNFVGEQVWNFADFATSQGIIRVQGNKKGIFTRERKPKMIAHSLRERWTNIPEFGYKK SNAMLYPIITESRQLIDLSGIWKFKLNEGNGLTEELSKAPLEDTIEMAVPSSYNDLVESQEVRDHVGWVWYERNFTIPKTLLNERIVLRFGSATHEAKVYLNGELLVEHKGGFTPFEAEINDLLVSGDNRLTVAVNNIIDETTLPVGLVKEVEVDGKKVIKNSVNFDFFNYAGIHRPVKIYTTPKSYIEDITIVTDFKENNGYVNYEVQAVGKCNIKVTIIDEENNIVAEGEGKEGKLTINNVHLWEPMNAYLYKLKVELLDDEEIIDTYFEEFGVRTVEVKDGKFLINNKPFYFKGFGKHEDSYVNGRGINEAINIKDFNLMKWIGANSFRTSHYPYSEEIMRLADREGIVVIDETPAVGLHLNFMATGFGGDAPKRDTWKEIGTKEAHERILRELVSRDKNHPCVVMWSVANEPDSDSEGAKEYFEPLIKLTKELDPQKRPVTVVTYLMSTPDRCKVGDIVDVLCLNRYYGWYVAGGDLEEAKRMLEDELKGWEERCPKTPIMFTEYGADTVAGLHDTVPVMFTEEYQVEYYKANHEVMDKCKNFVGEQVWNFADFATSQGIIRVQGNKKGIFTRERKPKMIAHSLRERWTNIPEFGYKK 4jl3-a1-m1-cA_4jl3-a1-m1-cD Crystal structure of ms6564-dna complex A0R6I8 A0R6I8 2.5 X-RAY DIFFRACTION 105 0.994 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 176 177 4jkz-a1-m1-cA_4jkz-a1-m2-cA 4jl3-a1-m1-cB_4jl3-a1-m1-cC SEKSRVAIVEATRALLLERGFDGLSIEAVAAKAGVGKQTIYRWWPSRHALVADVLLEDADKILARPKTDDVTADLASWAGTLAAALTTRRGHALKTLAASLEHEDTAARLREGFSRPLIESVRDRLRDEDIDADHAQAAADALLGAVVNAVLSEGRSYSRQRAETSARIIVAGLRP RRSEKSRVAIVEATRALLLERGFDGLSIEAVAAKAGVGKQTIYRWWPSRHALVADVLLEDADKILARPKTDDVTADLASWAGTLAAALTTRRGHALKTLAASLEHEDTAARLREGFSRPLIESVRDRLRDEDIDADHAQAAADALLGAVVNAVLSEGRSYSRQRAETSARIIVAGLR 4jle-a2-m4-cA_4jle-a2-m1-cB Structure of the P. falciparum PFI1780w PHIST domain Q8I2F2 Q8I2F2 2.35 X-RAY DIFFRACTION 13 0.98 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 149 159 4jle-a2-m3-cA_4jle-a2-m2-cB YTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLKQHE SLSDEINKCDMKKYTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLK 4jle-a2-m4-cA_4jle-a2-m2-cB Structure of the P. falciparum PFI1780w PHIST domain Q8I2F2 Q8I2F2 2.35 X-RAY DIFFRACTION 14 0.98 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 149 159 4jle-a2-m3-cA_4jle-a2-m1-cB YTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLKQHE SLSDEINKCDMKKYTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLK 4jle-a3-m1-cB_4jle-a3-m2-cB Structure of the P. falciparum PFI1780w PHIST domain Q8I2F2 Q8I2F2 2.35 X-RAY DIFFRACTION 100 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 159 159 4jle-a2-m1-cB_4jle-a2-m2-cB SLSDEINKCDMKKYTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLK SLSDEINKCDMKKYTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLK 4jle-a3-m2-cA_4jle-a3-m2-cB Structure of the P. falciparum PFI1780w PHIST domain Q8I2F2 Q8I2F2 2.35 X-RAY DIFFRACTION 230 0.98 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 149 159 4jle-a1-m1-cA_4jle-a1-m1-cB 4jle-a3-m1-cA_4jle-a3-m1-cB YTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLKQHE SLSDEINKCDMKKYTAEEINEMINSSNEFINRNDMNIIFSYVHESEREKFKKVEENIFKFIQSIVETYKIPDEYKMRKFKFAHFEMQGYALKQEKFLLEYAFLSLNGKLCERKKFKEVLEYVKREWIEFRKSMFDVWKEKLASEFREHGEMLNQKRKLK 4jll-a2-m1-cA_4jll-a2-m2-cA Crystal Structure of the evolved variant of the computationally designed serine hydrolase, OSH55.4_H1 covalently bound with FP-alkyne, Northeast Structural Genomics Consortium (NESG) Target OR273 1.36 X-RAY DIFFRACTION 63 1.0 32630 (synthetic construct) 32630 (synthetic construct) 161 161 4j4z-a2-m1-cA_4j4z-a2-m2-cA 4jca-a2-m1-cA_4jca-a2-m2-cA ARIRHVQGDITEFQGDAIVNAANNYLKLGAGVAGAILRKGGPSIQEECDRIGKIRVGEAAVTGAGNLPVRYVIHAAVLGDEPASLETVRKATKSALEKAVELGLKTVAFTSWGAWVGGLPAEAVHRVMGEEIKKAPDTLEVTGVHGTEKSAEAYRRASLEH ARIRHVQGDITEFQGDAIVNAANNYLKLGAGVAGAILRKGGPSIQEECDRIGKIRVGEAAVTGAGNLPVRYVIHAAVLGDEPASLETVRKATKSALEKAVELGLKTVAFTSWGAWVGGLPAEAVHRVMGEEIKKAPDTLEVTGVHGTEKSAEAYRRASLEH 4jlw-a1-m1-cA_4jlw-a1-m1-cD Crystal structure of formaldehyde dehydrogenase from Pseudomonas aeruginosa 2.7 X-RAY DIFFRACTION 64 1.0 557722 (Pseudomonas aeruginosa LESB58) 557722 (Pseudomonas aeruginosa LESB58) 395 395 4jlw-a1-m1-cB_4jlw-a1-m1-cC GNRGVVYLGPGKVEVQNIPYPKMQDPQGRQIDHGVILRVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVVEIGRGVETMKIGDLVSVPFNVACGHCRTCKEQHTGVCLTVNPARAGGAYGYVDMGGWVGGQAEYVLVPYADFNLLKLPNREAAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIVGDVNPTRLAHAKKQGFEIADLSKDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHSGSQQEAPATVLNSLMGITRVAGKIGIPGLYVTEDPGAVDAAAKHGALSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRIKIADIVGVEVITLDDAPKGYGEFDAGVPKKFVIDPHNLFR GNRGVVYLGPGKVEVQNIPYPKMQDPQGRQIDHGVILRVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVVEIGRGVETMKIGDLVSVPFNVACGHCRTCKEQHTGVCLTVNPARAGGAYGYVDMGGWVGGQAEYVLVPYADFNLLKLPNREAAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIVGDVNPTRLAHAKKQGFEIADLSKDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHSGSQQEAPATVLNSLMGITRVAGKIGIPGLYVTEDPGAVDAAAKHGALSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRIKIADIVGVEVITLDDAPKGYGEFDAGVPKKFVIDPHNLFR 4jlw-a1-m1-cB_4jlw-a1-m1-cD Crystal structure of formaldehyde dehydrogenase from Pseudomonas aeruginosa 2.7 X-RAY DIFFRACTION 40 1.0 557722 (Pseudomonas aeruginosa LESB58) 557722 (Pseudomonas aeruginosa LESB58) 395 395 4jlw-a1-m1-cA_4jlw-a1-m1-cC GNRGVVYLGPGKVEVQNIPYPKMQDPQGRQIDHGVILRVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVVEIGRGVETMKIGDLVSVPFNVACGHCRTCKEQHTGVCLTVNPARAGGAYGYVDMGGWVGGQAEYVLVPYADFNLLKLPNREAAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIVGDVNPTRLAHAKKQGFEIADLSKDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHSGSQQEAPATVLNSLMGITRVAGKIGIPGLYVTEDPGAVDAAAKHGALSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRIKIADIVGVEVITLDDAPKGYGEFDAGVPKKFVIDPHNLFR GNRGVVYLGPGKVEVQNIPYPKMQDPQGRQIDHGVILRVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVVEIGRGVETMKIGDLVSVPFNVACGHCRTCKEQHTGVCLTVNPARAGGAYGYVDMGGWVGGQAEYVLVPYADFNLLKLPNREAAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIVGDVNPTRLAHAKKQGFEIADLSKDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHSGSQQEAPATVLNSLMGITRVAGKIGIPGLYVTEDPGAVDAAAKHGALSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRIKIADIVGVEVITLDDAPKGYGEFDAGVPKKFVIDPHNLFR 4jlw-a1-m1-cC_4jlw-a1-m1-cD Crystal structure of formaldehyde dehydrogenase from Pseudomonas aeruginosa 2.7 X-RAY DIFFRACTION 133 1.0 557722 (Pseudomonas aeruginosa LESB58) 557722 (Pseudomonas aeruginosa LESB58) 395 395 4jlw-a1-m1-cA_4jlw-a1-m1-cB GNRGVVYLGPGKVEVQNIPYPKMQDPQGRQIDHGVILRVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVVEIGRGVETMKIGDLVSVPFNVACGHCRTCKEQHTGVCLTVNPARAGGAYGYVDMGGWVGGQAEYVLVPYADFNLLKLPNREAAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIVGDVNPTRLAHAKKQGFEIADLSKDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHSGSQQEAPATVLNSLMGITRVAGKIGIPGLYVTEDPGAVDAAAKHGALSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRIKIADIVGVEVITLDDAPKGYGEFDAGVPKKFVIDPHNLFR GNRGVVYLGPGKVEVQNIPYPKMQDPQGRQIDHGVILRVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVVEIGRGVETMKIGDLVSVPFNVACGHCRTCKEQHTGVCLTVNPARAGGAYGYVDMGGWVGGQAEYVLVPYADFNLLKLPNREAAMEKIRDLTCLSDILPTGYHGAVTAGVGPGSTVYIAGAGPVGLAAAASARLLGAAVVIVGDVNPTRLAHAKKQGFEIADLSKDTPLHEQIAALLGEPEVDCAVDAVGFEARGHGHSGSQQEAPATVLNSLMGITRVAGKIGIPGLYVTEDPGAVDAAAKHGALSIRFGLGWAKSHSFHTGQTPVMKYNRQLMQAIMWDRIKIADIVGVEVITLDDAPKGYGEFDAGVPKKFVIDPHNLFR 4jm0-a1-m1-cA_4jm0-a1-m1-cB Structure of Human Cytomegalovirus Immune Modulator UL141 Q6RJQ3 Q6RJQ3 3.25 X-RAY DIFFRACTION 88 0.983 295027 (Human herpesvirus 5 strain Merlin) 295027 (Human herpesvirus 5 strain Merlin) 175 183 AEKMWAENYETTSPAPVLVAEGEQVTIPCTVMTHSWPMVSIRARFCRSHDGSDELILDAVKGHRLMNGLQYRLPYATWNFSQLHLGQIFSLTFNVSTDTAGMYECVLRNYSHGLIMQRFVILTQLEPALGRYSLGDQIWSPTPWRLRNHDCGMYYFYIGRAPDRCWTVIQRYRLP PFATADIAEKMWAENYETTSPAPVLVAEGEQVTIPCTVMTHSWPMVSIRARFCRSHDGSDELILDAVKGHRLMNGLQYRLPYATWNFSQLHLGQIFSLTFNVSTDTAGMYECVLRNYSHGLIMQRFVILTQLETLPALGRYSLGDQIWSPTPWRLRNHDCGMYFYIGREEPDRCWTVIQRYRL 4jmf-a1-m1-cB_4jmf-a1-m1-cC Crystal structure of ExoT (residues 28 -77)- SpcS complex from Pseudomonas aeruginosa at 2.1 angstrom G3XD93 G3XD93 2.099 X-RAY DIFFRACTION 85 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 116 116 6jnp-a1-m1-cB_6jnp-a1-m1-cC 6jnp-a1-m2-cE_6jnp-a1-m2-cF MNPLYRAAIHQLFLALDLPTPNDEESVLSLQVGPHLCHLAEHPTDHLLMFTRLEGQGDATANEQNLFSQDPCKPILGRDPESGERLLWNRQPLQLLDRAQIHHQLEQLVAAAEELR MNPLYRAAIHQLFLALDLPTPNDEESVLSLQVGPHLCHLAEHPTDHLLMFTRLEGQGDATANEQNLFSQDPCKPILGRDPESGERLLWNRQPLQLLDRAQIHHQLEQLVAAAEELR 4jmr-a1-m1-cA_4jmr-a1-m1-cB A unique spumavirus gag N-terminal domain with functional properties of orthoretroviral Matrix and Capsid P14349 P14349 2.9 X-RAY DIFFRACTION 94 1.0 11641 (Human foamy virus) 11641 (Human foamy virus) 171 173 4jmr-a2-m1-cC_4jmr-a2-m1-cD 4jnh-a1-m1-cA_4jnh-a1-m1-cB EYELDVEALVVILRDRNIPRNPLHGEVIGLRLTEGWWGQIERFQMVRLILQNDDNEPLQRPRYEVIQRAVNPHTMFMISGPLAELQLAFQDLDLPEGPLRFGPLANGHYVQGDPYSSSYRPVTMAETAQMTRDELEDVLNTQSEIEIQMINLLELYEVETRALRRQLAERS VEEYELDVEALVVILRDRNIPRNPLHGEVIGLRLTEGWWGQIERFQMVRLILQNDDNEPLQRPRYEVIQRAVNPHTMFMISGPLAELQLAFQDLDLPEGPLRFGPLANGHYVQGDPYSSSYRPVTMAETAQMTRDELEDVLNTQSEIEIQMINLLELYEVETRALRRQLAERS 4jn6-a1-m1-cA_4jn6-a1-m1-cC Crystal Structure of the Aldolase-Dehydrogenase Complex from Mycobacterium tuberculosis HRv37 P9WMK5 P9WMK5 1.93 X-RAY DIFFRACTION 91 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 338 339 MWDVRITDTSLRDGSHHKRHQFTKDEVGAIVAALDAAGVPVIEVTHGDGLGGSSFNYGFSKTPEQELIKLAAATAKEARIAFLMLPGVGTKDDIKEARDNGGSICRIATHCTEADVSIQHFGLARELGLETVGFLMMAHTIAPEKLAAQARIMADAGCQCVYVVDSAGALVLDGVADRVSALVAELGEDAQVGFHGHENLGLGVANSVAAVRAGAKQIDGSCRRFGAGAGNAPVEALIGVFDKIGVKTGIDFFDIADAAEDVVRPAMPAECLLDRNALIMGYSGVYSSFLKHAVRQAERYGVPASALLHRAGQRKLIGGQEDQLIDIALEIKRELDSG MWDVRITDTSLRDGSHHKRHQFTKDEVGAIVAALDAAGVPVIEVTHGDGLGGSSFNYGFSKTPEQELIKLAAATAKEARIAFLMLPGVGTKDDIKEARDNGGSICRIATHCTEADVSIQHFGLARELGLETVGFLMMAHTIAPEKLAAQARIMADAGCQCVYVVDSAGALVLDGVADRVSALVAELGEDAQVGFHGHENLGLGVANSVAAVRAGAKQIDGSCRRFGAGAGNAPVEALIGVFDKIGVKTGIDFFDIADAAEDVVRPAMPAECLLDRNALIMGYSGVYSSFLKHAVRQAERYGVPASALLHRAGQRKLIGGQEDQLIDIALEIKRELDSGA 4jng-a1-m1-cD_4jng-a1-m1-cC Schmallenberg virus nucleoprotein-RNA complex H2AM13 H2AM13 2.12 X-RAY DIFFRACTION 42 0.982 1133363 (Schmallenberg virus) 1133363 (Schmallenberg virus) 223 224 3zl9-a1-m1-cA_3zl9-a1-m1-cB 3zl9-a1-m1-cB_3zl9-a1-m1-cC 3zl9-a1-m1-cD_3zl9-a1-m1-cA 3zl9-a1-m1-cD_3zl9-a1-m1-cC 4idu-a1-m1-cA_4idu-a1-m1-cB 4jng-a1-m1-cB_4jng-a1-m1-cA 4jng-a1-m1-cB_4jng-a1-m1-cC 4jng-a1-m1-cD_4jng-a1-m1-cA SSQFIFEDVPQRNAATFNPEVGYVAFIGKYGQQLNFGVARVFFLNQKKAKMVLHKTAQPSVDLTFGGVKFTVVNNHFPQYVSNPVPDNAITLHRMSGYLARWIADTCKASVLKLAEASAQIVMPLAEVKGCTWADGYTMYLGFAPGAEMFLDAFDFYPLVIEMHRVLKDNMDVNFMKKVLRQRYGTMTAEEWMTQKITEIKAAFNSVGQLAWAKSAARTFLQQ FIFEDVPQRNAATFNPEVGYVAFIGKYGQQLNFGVARVFFLNQKKAKMVLHKTAQPSVDLTFGGVKFTVVNNHFPQYVSNPVPDNAITLHRMSGYLARWIADTCKASVLKLAEASAQIVMPLAEVKGCTWADGYTMYLGFAPGAEMFLDAFDFYPLVIEMHRVLKDNMDVNFMKKVLRQRYGTMTAEEWMTQKITEIKAAFNSVGQLAWAKGFSPAARTFLQQF 4jnq-a1-m1-cA_4jnq-a1-m2-cA Crystal structure of a thioredoxin reductase from Brucella melitensis Q8YID2 Q8YID2 1.8 X-RAY DIFFRACTION 141 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 315 315 SMTQRHAPVIVIGSGPAGYTAAIYAARAMLKPVVIAGLQQGGQLMITTDVENYPGYAEPVQGPWMMEQMARQAENVGAQIVHDIITEVETTVRPFRLKGDSGTIYTCDALIIATGAQAKWLGLESEQTFMGGGVSACATCDGFFYRGKDVVVVGGGNTAVEEALYLSHIAKSVTIVHRRDGFRAEKIMQDRLLSRENVSVVWNSVIDEILGTEARGATVTGVRLKNIVTGETQERATHGVFIAIGHAPAVSLFEGKLKQKPNGYLWTAPDSTATDVPGIFAAGDVTDDIYRQAVTAAGMGCMAALEAERWLAAQE SMTQRHAPVIVIGSGPAGYTAAIYAARAMLKPVVIAGLQQGGQLMITTDVENYPGYAEPVQGPWMMEQMARQAENVGAQIVHDIITEVETTVRPFRLKGDSGTIYTCDALIIATGAQAKWLGLESEQTFMGGGVSACATCDGFFYRGKDVVVVGGGNTAVEEALYLSHIAKSVTIVHRRDGFRAEKIMQDRLLSRENVSVVWNSVIDEILGTEARGATVTGVRLKNIVTGETQERATHGVFIAIGHAPAVSLFEGKLKQKPNGYLWTAPDSTATDVPGIFAAGDVTDDIYRQAVTAAGMGCMAALEAERWLAAQE 4jo0-a1-m1-cA_4jo0-a1-m2-cA Crystal Structure of CmlA, a diiron beta-hydroxylase from Streptomyces venezuelae F2RB80 F2RB80 2.17 X-RAY DIFFRACTION 172 1.0 54571 (Streptomyces venezuelae) 54571 (Streptomyces venezuelae) 522 522 5kik-a1-m1-cA_5kik-a1-m2-cA 5kil-a1-m1-cA_5kil-a1-m2-cA SHMRYSLRQDIAVEPVIAGWYGWSYLLPPQTLARFVHNRFNRIVESYLDDPQVHAAAVRQRRMHGGPWIHAHEHRDAIEAWYRETAPRRERLDELFEAVRRLEEDILPRHHGECLDPVYQELPAALAGRVEVFYGRDNRTADYRFVEPLMYASEYYDESWQQVRFRPVTEDAREFALTTPMLEYGPEQLLVNVPLNSPLLDAVFRGGLTGTELDDLAARFGLDGERAARFASYFEPTPEEDVLEYVGHACVFARHRGTTFLVDPVLSYSGYPGGAENRFTFADLPERIDHLLITHNHQDHMLFETLLRIRHRVGRVLVPKSTNASLVDPGLGGILRRLGFTDVVEVDDLETLSCGSAEVVALPFLGEHGDLRIRSKTGWLIRFGERSVLFAADSTNISPTMYTKVAEVIGPVDTVFIGMESIGAAASWIYGPLYGEPLDRRTDQSRRLNGSNFPQAREIVDALEPDEVYVYAMGLEPWMGVVMAVDYDESHPAIVDSDLLVRHVQDKGGTAERLHLRRTLRL SHMRYSLRQDIAVEPVIAGWYGWSYLLPPQTLARFVHNRFNRIVESYLDDPQVHAAAVRQRRMHGGPWIHAHEHRDAIEAWYRETAPRRERLDELFEAVRRLEEDILPRHHGECLDPVYQELPAALAGRVEVFYGRDNRTADYRFVEPLMYASEYYDESWQQVRFRPVTEDAREFALTTPMLEYGPEQLLVNVPLNSPLLDAVFRGGLTGTELDDLAARFGLDGERAARFASYFEPTPEEDVLEYVGHACVFARHRGTTFLVDPVLSYSGYPGGAENRFTFADLPERIDHLLITHNHQDHMLFETLLRIRHRVGRVLVPKSTNASLVDPGLGGILRRLGFTDVVEVDDLETLSCGSAEVVALPFLGEHGDLRIRSKTGWLIRFGERSVLFAADSTNISPTMYTKVAEVIGPVDTVFIGMESIGAAASWIYGPLYGEPLDRRTDQSRRLNGSNFPQAREIVDALEPDEVYVYAMGLEPWMGVVMAVDYDESHPAIVDSDLLVRHVQDKGGTAERLHLRRTLRL 4jol-a2-m1-cB_4jol-a2-m1-cD Complex structure of AML1-ETO NHR2 domain with HEB fragment Q06455 Q06455 2.906 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 1wq6-a1-m1-cA_1wq6-a1-m2-cA 1wq6-a1-m1-cB_1wq6-a1-m2-cB 4jol-a1-m1-cA_4jol-a1-m1-cC IDHRLTDREWAEEWKHLDHLLNCIMDMVEKTRRSLTVLRRCQEADREELNYWIRRYSDAE IDHRLTDREWAEEWKHLDHLLNCIMDMVEKTRRSLTVLRRCQEADREELNYWIRRYSDAE 4joq-a1-m1-cB_4joq-a1-m1-cA Putative ribose ABC transporter, periplasmic solute-binding protein from Rhodobacter sphaeroides A4WW08 A4WW08 1.9 X-RAY DIFFRACTION 71 1.0 349102 (Cereibacter sphaeroides ATCC 17025) 349102 (Cereibacter sphaeroides ATCC 17025) 285 287 AQEKVGTIGIAIPSATHGFGGLNFHAQDTIKRLQEVYPQLDFVLATAGNAGKVNDIEDVATRNISALVVLPFESEPLTSPVQAVKEAGIWVTVVDRGLSVEGIEDLYVAGDNPGFGRVAGEYFAQHLESGKKIVVLRGIPTTLDNERVEAFTAAIEGSGIEVLDQHGNWNRDDAFNVQDFLSKYPQIDAVWAADDDAIGAEAIAQAGRTEEWVGGAGKEIIRRIADGDPQLPANVTYPPAQISTAIELTALKLVSSTPVSGRFIIGSQLVTPENAEQFYFPDSPF SNAQEKVGTIGIAIPSATHGFGGLNFHAQDTIKRLQEVYPQLDFVLATAGNAGKVNDIEDVATRNISALVVLPFESEPLTSPVQAVKEAGIWVTVVDRGLSVEGIEDLYVAGDNPGFGRVAGEYFAQHLESGKKIVVLRGIPTTLDNERVEAFTAAIEGSGIEVLDQHGNWNRDDAFNVQDFLSKYPQIDAVWAADDDAIGAEAIAQAGRTEEWVGGAGKEIIRRIADGDPQLPANVTYPPAQISTAIELTALKLVSSTPVSGRFIIGSQLVTPENAEQFYFPDSPF 4jos-a1-m1-cA_4jos-a1-m1-cB Crystal structure of a putative 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase from Francisella philomiragia ATCC 25017 (Target NYSGRC-029335) B0TZL4 B0TZL4 1.45 X-RAY DIFFRACTION 118 1.0 484022 (Francisella philomiragia subsp. philomiragia ATCC 25017) 484022 (Francisella philomiragia subsp. philomiragia ATCC 25017) 220 222 KKIAILGAEIEIQPILQKLEKYETVEYANNKYYVANYNGIELVVAYSKIGKVFSSLTATIIEHFGVDALLFTGVAGGLQDLQVGDIAATATVQHDVDITAFGYPYGKIPISEVEIATSARILEQAKVIAKELNLNLHTGVIATGDQFVHSAERKDFVVKEFDAKAIEEGASVNLICNENIPSFILRSISDTADGDAPDNFDEFAKAANRSADFVKLVDRI QSKKIAILGAEIEIQPILQKLEKYETVEYANNKYYVANYNGIELVVAYSKIGKVFSSLTATIIEHFGVDALLFTGVAGGLQDLQVGDIAATATVQHDVDITAFGYPYGKIPISEVEIATSARILEQAKVIAKELNLNLHTGVIATGDQFVHSAERKDFVVKEFDAKAIEEGASVNLICNENIPSFILRSISDTADGDAPDNFDEFAKAANRSADFVKLVDRI 4jot-a1-m2-cA_4jot-a1-m3-cA Crystal structure of enoyl-CoA hydrotase from Deinococcus radiodurans R1 Q9RY37 Q9RY37 1.94 X-RAY DIFFRACTION 124 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 249 249 4jot-a1-m1-cA_4jot-a1-m2-cA 4jot-a1-m1-cA_4jot-a1-m3-cA QSTYQSIRLTQRPLSQDGTTQGGTVATLTLAAKGSGPAFWQEFPQALSELGDARVLIVRGEQVFSAGLDVKSNGAAIVPALGKPDAFKAVVDEHAVTEGLAALPPVIAAVHGWCIGAGLELIAGADLRLCSQDARFSLPEVKLGITADLGGLQRLPHLIGRGRTAHLALTGEAIDAATAERWGLVTEVLPDQDALFARAEALAEHLAALPAKALEGTKRALSDGLPHAESLAAAVRWNAEHTVEALQAG QSTYQSIRLTQRPLSQDGTTQGGTVATLTLAAKGSGPAFWQEFPQALSELGDARVLIVRGEQVFSAGLDVKSNGAAIVPALGKPDAFKAVVDEHAVTEGLAALPPVIAAVHGWCIGAGLELIAGADLRLCSQDARFSLPEVKLGITADLGGLQRLPHLIGRGRTAHLALTGEAIDAATAERWGLVTEVLPDQDALFARAEALAEHLAALPAKALEGTKRALSDGLPHAESLAAAVRWNAEHTVEALQAG 4jpb-a2-m1-cB_4jpb-a2-m4-cC The structure of a ternary complex between CheA domains P4 and P5 with CheW and with an unzipped fragment of TM14, a chemoreceptor analog from Thermotoga maritima. Q7DFA3 Q7DFA3 3.186 X-RAY DIFFRACTION 39 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 84 85 4jpb-a2-m4-cB_4jpb-a2-m1-cC QIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLE QIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLEN 4jpb-a2-m1-cC_4jpb-a2-m4-cC The structure of a ternary complex between CheA domains P4 and P5 with CheW and with an unzipped fragment of TM14, a chemoreceptor analog from Thermotoga maritima. Q7DFA3 Q7DFA3 3.186 X-RAY DIFFRACTION 123 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 85 85 4jpb-a2-m1-cB_4jpb-a2-m4-cB QIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLEN QIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLEN 4jpb-a2-m4-cB_4jpb-a2-m4-cC The structure of a ternary complex between CheA domains P4 and P5 with CheW and with an unzipped fragment of TM14, a chemoreceptor analog from Thermotoga maritima. Q7DFA3 Q7DFA3 3.186 X-RAY DIFFRACTION 116 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 84 85 4jpb-a2-m1-cB_4jpb-a2-m1-cC QIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLE QIGETLENIRSIEKLIQNIMRIARETNILALNATIEAARAGEAGKGFMIVANEVQNLSNETNEVTKQIVEKAREILESSQRSLEN 4jpf-a1-m1-cA_4jpf-a1-m2-cA Structure of wild type Pseudomonas aeruginosa FabF (KASII) in Complex with ligand G3XDA2 G3XDA2 1.67 X-RAY DIFFRACTION 268 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 411 411 4b7v-a1-m1-cB_4b7v-a1-m1-cA 4jb6-a1-m1-cA_4jb6-a1-m2-cA 4jb6-a2-m1-cB_4jb6-a2-m3-cB 7oc0-a1-m1-cB_7oc0-a1-m1-cA 7oc1-a1-m1-cA_7oc1-a1-m1-cB RRRVVITGMGMLSPLGLDVPSSWEGILAGRSGIAPIEHMDLSAYSTRFGGSVKGFNVEEYLSAKEARKLDLFIQYGLAASFQAVRDSGLEVTDANRERIGVSMGSGIGGLTNIENNCRSLFEQGPRRISPFFVPGSIINMVSGFLSIHLGLQGPNYALTTACTTGTHSIGMAARNIAYGEADVMVAGGSEMAACGLGLGGFGAARALSTRNDEPTRASRPWDRDRDGFVLSDGSGALVLEELEHARARGARIYAELVGFGMSGDAFHMTAPPEDGAGAARCMKNALRDAGLDPRQVDYINAHGTSTPAGDIAEIAAVKSVFGEHAHALSMSSTKSMTGHLLGAAGAVEAIFSVLALRDQVAPPTINLDNPDEGCDLDLVAHEAKPRKIDVALSNSFGFGGTNGTLVFRRFA RRRVVITGMGMLSPLGLDVPSSWEGILAGRSGIAPIEHMDLSAYSTRFGGSVKGFNVEEYLSAKEARKLDLFIQYGLAASFQAVRDSGLEVTDANRERIGVSMGSGIGGLTNIENNCRSLFEQGPRRISPFFVPGSIINMVSGFLSIHLGLQGPNYALTTACTTGTHSIGMAARNIAYGEADVMVAGGSEMAACGLGLGGFGAARALSTRNDEPTRASRPWDRDRDGFVLSDGSGALVLEELEHARARGARIYAELVGFGMSGDAFHMTAPPEDGAGAARCMKNALRDAGLDPRQVDYINAHGTSTPAGDIAEIAAVKSVFGEHAHALSMSSTKSMTGHLLGAAGAVEAIFSVLALRDQVAPPTINLDNPDEGCDLDLVAHEAKPRKIDVALSNSFGFGGTNGTLVFRRFA 4jph-a2-m1-cC_4jph-a2-m1-cD Crystal structure of Protein Related to DAN and Cerberus (PRDC) O88273 O88273 2.25 X-RAY DIFFRACTION 159 1.0 10090 (Mus musculus) 10090 (Mus musculus) 101 111 4jph-a1-m1-cB_4jph-a1-m1-cA LVVTERKYLKSDWCKTQPLRQTVSEEGCRSRTILNRFCYGQCNSFYIPRHVKKEEDSFQSCAFCKPQRVTSVIVELECPGLDPPFRIKKIQKVKHCRCMSV KEVLASSQEALVVTERKYLKSDWCKTQPLRQTVSEEGCRSRTILNRFCYGQCNSFYIPRHVKKEEDSFQSCAFCKPQRVTSVIVELECPGLDPPFRIKKIQKVKHCRCMSV 4jpo-a8-m1-cA_4jpo-a8-m2-cA 5A resolution structure of Proteasome Assembly Chaperone Hsm3 in complex with a C-terminal fragment of Rpt1 P38348 P38348 5 X-RAY DIFFRACTION 21 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 452 452 YVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSAGAIIDLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVNG YVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSAGAIIDLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVNG 4jpo-a8-m2-cB_4jpo-a8-m1-cA 5A resolution structure of Proteasome Assembly Chaperone Hsm3 in complex with a C-terminal fragment of Rpt1 P38348 P38348 5 X-RAY DIFFRACTION 28 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 447 452 4jpo-a8-m1-cB_4jpo-a8-m2-cA YVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSADLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVN YVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSAGAIIDLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVNG 4jpo-a8-m2-cB_4jpo-a8-m2-cA 5A resolution structure of Proteasome Assembly Chaperone Hsm3 in complex with a C-terminal fragment of Rpt1 P38348 P38348 5 X-RAY DIFFRACTION 12 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 447 452 4jpo-a7-m1-cB_4jpo-a7-m1-cA 4jpo-a8-m1-cB_4jpo-a8-m1-cA YVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSADLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVN YVENLLTQLENELNEDNLPEDINTLLRKCSLNLVTVDVKPLLATIKRFLTSNVSYDSLNYDYLLDVVDKLVPMADFDDVLEVYSAEDLVKALRSEIDPLKVAACRVIENSQPKGLFATSNIIDILLDILFDEKVENDKLITAIEKALERLSTDELIRRRLFDNNLPYLVSVKGRMETVSFVRLIDFLTIEFQFISGPEFKDIIFCFTKEEILKSVEDILVFIELVNYYTKFLLEIRNQDKYWALRHVKKILPVFAQLFEDTENYPDVRAFSTNCLLQLFAEVSRIEEDEYSLFKTMDKDSLKIGSEAKLITEWLELINPQYLVKYHKDVVENYFHVSGYSIGMLRNLSADEECFNAIRNKFSAEIVLRLPYLEQMQVVETLTRYEYTSKFLLNEMPKVMGSLIGDGSAGAIIDLETVHYRNSALRNLLDKGEEKLSVWYEPLLREYSKAVNG 4jq6-a1-m2-cC_4jq6-a1-m2-cB Crystal structure of blue light-absorbing proteorhodopsin from Med12 at 2.3 Angstrom Q4PP54 Q4PP54 2.31 X-RAY DIFFRACTION 30 0.99 77133 (uncultured bacterium) 77133 (uncultured bacterium) 199 203 4jq6-a1-m1-cA_4jq6-a1-m1-cB 4jq6-a1-m1-cA_4jq6-a1-m2-cC 4jq6-a1-m1-cC_4jq6-a1-m1-cB 4jq6-a1-m2-cA_4jq6-a1-m1-cC 4jq6-a1-m2-cA_4jq6-a1-m2-cB DYVGISFWLAAAIMLASTVFFFVERSDVPVKWKTSLTVAGLVTGVAFWHYLYMRGVWIYAGETPTVFRYIDWLITVPLQIIEFYLIIAVFWKLLIASLVMLIGGFIGEAGLGDVVVWWIVGMIAWLYIIYEIFSQQAFNTIKWIVTVGWAIYPIGYAWGYFGDGLNEDALNIVYNLADLINKAAFGLAIWAAAMKDKET DYVGISFWLAAAIMLASTVFFFVERSDVPVKWKTSLTVAGLVTGVAFWHYLYMRGVWIYAGETPTVFRYIDWLITVPLQIIEFYLIIAAAVFWKLLIASLVMLIGGFIGEAGLGDVVVWWIVGMIAWLYIIYEIFLGAASQQAFNTIKWIVTVGWAIYPIGYAWGYFGDGLNEDALNIVYNLADLINKAAFGLAIWAAAMKDK 4jq9-a3-m1-cD_4jq9-a3-m1-cF Dihydrolipoyl dehydrogenase of Escherichia coli pyruvate dehydrogenase complex C3TQA2 C3TQA2 2.17 X-RAY DIFFRACTION 275 1.0 562 (Escherichia coli) 562 (Escherichia coli) 469 469 4jdr-a1-m1-cA_4jdr-a1-m1-cB 4jq9-a1-m1-cA_4jq9-a1-m1-cB 4jq9-a2-m1-cC_4jq9-a2-m1-cE STEIKTQVVVLGAGPAGYSAAFRCADLGLETVIVERYNTLGGVCLNVGCIPSKALLHVAKVIEEAKALAEHGIVFGEPKTDIDKIRTWKEKVINQLTGGLAGMAKGRKVKVVNGLGKFTGANTLEVEGENGKTVINFDNAIIAAGSRPIQLPFIPHEDPRIWDSTDALELKEVPERLLVMGGGIIGLEMGTVYHALGSQIDVVEMFDQVIPAADKDIVKVFTKRISKKFNLMLETKVTAVEAKEDGIYVTMEGKKAPAEPQRYDAVLVAIGRVPNGKNLDAGKAGVEVDDRGFIRVDKQLRTNVPHIFAIGDIVGQPMLAHKGVHEGHVAAEVIAGKKHYFDPKVIPSIAYTEPEVAWVGLTEKEAKEKGISYETATFPWAASGRAIASDCADGMTKLIFDKESHRVIGGAIVGTNGGELLGEIGLAIEMGCDAEDIALTIHAHPTLHESVGLAAEVFEGSITDLPNPK STEIKTQVVVLGAGPAGYSAAFRCADLGLETVIVERYNTLGGVCLNVGCIPSKALLHVAKVIEEAKALAEHGIVFGEPKTDIDKIRTWKEKVINQLTGGLAGMAKGRKVKVVNGLGKFTGANTLEVEGENGKTVINFDNAIIAAGSRPIQLPFIPHEDPRIWDSTDALELKEVPERLLVMGGGIIGLEMGTVYHALGSQIDVVEMFDQVIPAADKDIVKVFTKRISKKFNLMLETKVTAVEAKEDGIYVTMEGKKAPAEPQRYDAVLVAIGRVPNGKNLDAGKAGVEVDDRGFIRVDKQLRTNVPHIFAIGDIVGQPMLAHKGVHEGHVAAEVIAGKKHYFDPKVIPSIAYTEPEVAWVGLTEKEAKEKGISYETATFPWAASGRAIASDCADGMTKLIFDKESHRVIGGAIVGTNGGELLGEIGLAIEMGCDAEDIALTIHAHPTLHESVGLAAEVFEGSITDLPNPK 4jqo-a1-m1-cC_4jqo-a1-m1-cA Crystal structure of anabolic ornithine carbamoyltransferase from Vibrio vulnificus in complex with citrulline and inorganic phosphate Q8DCF5 Q8DCF5 2.082 X-RAY DIFFRACTION 80 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 334 338 3upd-a1-m1-cA_3upd-a1-m2-cA 3upd-a1-m1-cA_3upd-a1-m3-cA 3upd-a1-m2-cA_3upd-a1-m3-cA 4h31-a1-m1-cB_4h31-a1-m1-cA 4h31-a1-m1-cB_4h31-a1-m1-cC 4h31-a1-m1-cC_4h31-a1-m1-cA 4jfr-a1-m1-cA_4jfr-a1-m1-cB 4jfr-a1-m1-cC_4jfr-a1-m1-cA 4jfr-a1-m1-cC_4jfr-a1-m1-cB 4jhx-a1-m1-cB_4jhx-a1-m1-cA 4jhx-a1-m1-cB_4jhx-a1-m1-cC 4jhx-a1-m1-cC_4jhx-a1-m1-cA 4jqo-a1-m1-cA_4jqo-a1-m1-cB 4jqo-a1-m1-cC_4jqo-a1-m1-cB 4kwt-a1-m1-cA_4kwt-a1-m1-cB 4kwt-a1-m1-cA_4kwt-a1-m1-cC 4kwt-a1-m1-cB_4kwt-a1-m1-cC MAFNLRNRNFLKLLDFSTKEIQFLIDLSADLKKAKYAGTEQKKLLGKNIALIFEKASTRTRCAFEVAAFDQGAQVTYIGPSGSQIGDKESMKDTARVLGRMYDGIQYRGFGQAIVEELGAFAGVPVWNGLTDEFHPTQILADFLTMLEHSQGKALADIQFAYLGDARNNVGNSLMVGAAKMGMDIRLVGPQAYWPDEELVAACQAIAKQTGGKITLTENVAEGVQGCDFLYTDVWVSMGESPEAWDERVALMKPYQVNMNVLKQTGNPNVKFMHCLPAFHNDETTIGKQVADKFGMKGLEVTEEVFESEHSIVFDEAENRMHTIKAVMVATLGS QSNAMAFNLRNRNFLKLLDFSTKEIQFLIDLSADLKKAKYAGTEQKKLLGKNIALIFEKASTRTRCAFEVAAFDQGAQVTYIGPSGSQIGDKESMKDTARVLGRMYDGIQYRGFGQAIVEELGAFAGVPVWNGLTDEFHPTQILADFLTMLEHSQGKALADIQFAYLGDARNNVGNSLMVGAAKMGMDIRLVGPQAYWPDEELVAACQAIAKQTGGKITLTENVAEGVQGCDFLYTDVWVSMGESPEAWDERVALMKPYQVNMNVLKQTGNPNVKFMHCLPAFHNDETTIGKQVADKFGMKGLEVTEEVFESEHSIVFDEAENRMHTIKAVMVATLGS 4jqp-a1-m1-cA_4jqp-a1-m1-cB X-ray crystal structure of a 4-hydroxythreonine-4-phosphate dehydrogenase from Burkholderia phymatum B2JVC5 B2JVC5 1.65 X-RAY DIFFRACTION 131 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 330 330 NYLPVIGITMGDAAGVGAEVVVKSLAHASVYAQCRPLVIGDAKRLERANQIVGGEMKIRRIEDASEARYEQGTIDCIDLGLIPDDLPFGQLSAIAGDAAYQYIKRAVELAQSGKIDAICTAPLNKEALHAGGHKYPGHTEMLAHLTGVDEVSMMLVAPQLRVIHVTTHIGIIDAIRKIEPGLVQRTIERGNATLVKAGIERPRIGVCGINPHAGENGLFGYGEEEEKIIPAVTLLQERGLDVTGPLPADTLFFRAGRGDFDLVVAMYHDQGHGPVKVLGLEAGVNVTVGLEVIRTSVDHGTAFDIAGKGVVDEGSMLEALRQGAELATRR NYLPVIGITMGDAAGVGAEVVVKSLAHASVYAQCRPLVIGDAKRLERANQIVGGEMKIRRIEDASEARYEQGTIDCIDLGLIPDDLPFGQLSAIAGDAAYQYIKRAVELAQSGKIDAICTAPLNKEALHAGGHKYPGHTEMLAHLTGVDEVSMMLVAPQLRVIHVTTHIGIIDAIRKIEPGLVQRTIERGNATLVKAGIERPRIGVCGINPHAGENGLFGYGEEEEKIIPAVTLLQERGLDVTGPLPADTLFFRAGRGDFDLVVAMYHDQGHGPVKVLGLEAGVNVTVGLEVIRTSVDHGTAFDIAGKGVVDEGSMLEALRQGAELATRR 4jqt-a1-m1-cA_4jqt-a1-m1-cB Crystal structure of a putative glycosyl hydrolase (BT3469) from Bacteroides thetaiotaomicron VPI-5482 at 2.49 A resolution Q8A237 Q8A237 2.49 X-RAY DIFFRACTION 48 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 425 425 GQTWEPLFNGKNLKGWKKLNGKAEYKIVDGAIVGISKGTPNTFLATTKNYGDFILEFDFKIDDGLNSGVQLRSESKKDYQNGRVHGYQFEIDPSKRAWSGGIYDEARRNWLYPLTLNPAAKTAFKNNAWNKARIEAIGNSIRTWINGVPCANIWDDTPSGFIALQVHAIGNASEEGKTVSWKDIRICTTDVERYQTPETEEAPERNIANTISPREAKEGWALLWDGKTNNGWRGAKLNAFPEKGWKEDGILKVKSGGAESANGGDIVTTRKYKNFILTVDFKITEGANSGVKYFVNPDLNKGEGSAIGCEFQILDDDKHPDAKLGVKGNRKLGSLYDLIPAPEKKPFNKKDFNTATIIVQDNHVEHWLNGVKLIEYTRNTDWNALVAYSKYKNWPNFGNSAEGNILLQDHGDEVWFKNVKIKELK GQTWEPLFNGKNLKGWKKLNGKAEYKIVDGAIVGISKGTPNTFLATTKNYGDFILEFDFKIDDGLNSGVQLRSESKKDYQNGRVHGYQFEIDPSKRAWSGGIYDEARRNWLYPLTLNPAAKTAFKNNAWNKARIEAIGNSIRTWINGVPCANIWDDTPSGFIALQVHAIGNASEEGKTVSWKDIRICTTDVERYQTPETEEAPERNIANTISPREAKEGWALLWDGKTNNGWRGAKLNAFPEKGWKEDGILKVKSGGAESANGGDIVTTRKYKNFILTVDFKITEGANSGVKYFVNPDLNKGEGSAIGCEFQILDDDKHPDAKLGVKGNRKLGSLYDLIPAPEKKPFNKKDFNTATIIVQDNHVEHWLNGVKLIEYTRNTDWNALVAYSKYKNWPNFGNSAEGNILLQDHGDEVWFKNVKIKELK 4jqy-a1-m1-cA_4jqy-a1-m1-cB Human procaspase-3, crystal form 1 P42574 P42574 2.495 X-RAY DIFFRACTION 79 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 194 205 4jqz-a1-m1-cB_4jqz-a1-m1-cA 7xn4-a1-m1-cC_7xn4-a1-m1-cA 7xn6-a1-m1-cC_7xn6-a1-m1-cA NADNSYKMDYPEMGLCIIINNKSGTDVDAANLRETFRNLKYEVRNKNDLTREEIVELMRDVSKEDHSKRSSFVCVLLSHGEEGIIFGTNGPVDLKKITNFFRGDRCRSLTGKPKLFIIQAARKIPVEADFLYAYSTADGSWFIQSLCAMLKQYADKLEFMHILTRVNRKVATEFESFQIPCIVSMLTKELYFYH NADNSYKMDYPEMGLCIIINNKNFHTDVDAANLRETFRNLKYEVRNKNDLTREEIVELMRDVSKEDHSKRSSFVCVLLSHGEEGIIFGTNGPVDLKKITNFFRGDRCRSLTGKPKLFIIQAARKIPVEADFLYAYSTAPGYYSWRNSKDGSWFIQSLCAMLKQYADKLEFMHILTRVNRKVATEFESFSQIPCIVSMLTKELYFY 4jr8-a1-m2-cA_4jr8-a1-m3-cA Crystal structure of cruxrhodopsin-3 from Haloarcula vallismortis at 2.3 angstrom resolution P94854 P94854 2.3 X-RAY DIFFRACTION 37 1.0 28442 (Haloarcula vallismortis) 28442 (Haloarcula vallismortis) 234 234 4jr8-a1-m1-cA_4jr8-a1-m2-cA 4jr8-a1-m1-cA_4jr8-a1-m3-cA 4l35-a1-m1-cA_4l35-a1-m2-cA 4l35-a1-m1-cA_4l35-a1-m3-cA 4l35-a1-m2-cA_4l35-a1-m3-cA 4pxk-a1-m1-cA_4pxk-a1-m2-cA 4pxk-a1-m1-cA_4pxk-a1-m3-cA 4pxk-a1-m2-cA_4pxk-a1-m3-cA PEGEAIWLWLGTAGMFLGMLYFIARGWGETDSRRQKFYIATILITAIAFVNYLAMALGFGLTIVEIAGEQRPIYWARYSDWLFTTPLLLYDLGLLAGADRNTISSLVSLDVLMIGTGLVATLSAGSGVLSAGAERLVWWGISTAFLLVLLYFLFSSLSGRVADLPSDTRSTFKTLRNLVTVVWLVYPVWWLVGTEGIGLVGIGIETAGFMVIDLVAKVGFGIILLRSHGVLDGA PEGEAIWLWLGTAGMFLGMLYFIARGWGETDSRRQKFYIATILITAIAFVNYLAMALGFGLTIVEIAGEQRPIYWARYSDWLFTTPLLLYDLGLLAGADRNTISSLVSLDVLMIGTGLVATLSAGSGVLSAGAERLVWWGISTAFLLVLLYFLFSSLSGRVADLPSDTRSTFKTLRNLVTVVWLVYPVWWLVGTEGIGLVGIGIETAGFMVIDLVAKVGFGIILLRSHGVLDGA 4jre-a1-m1-cC_4jre-a1-m1-cL Crystal structure of nitrate/nitrite exchanger NarK with nitrite bound 2.8 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 DILMTQSPSSLSVSVGSSVTITCQASQNITNYIVWYQQKPGQAPKLLIYYTSTLESGIPSRFSGSGSGRDYSFTISNLQPEDVATYYCLQYNSLLTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKNINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN DILMTQSPSSLSVSVGSSVTITCQASQNITNYIVWYQQKPGQAPKLLIYYTSTLESGIPSRFSGSGSGRDYSFTISNLQPEDVATYYCLQYNSLLTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKNINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN 4jrf-a1-m2-cA_4jrf-a1-m4-cA Crystal structure of a putative cell adhesion protein (BACOVA_01548) from Bacteroides ovatus ATCC 8483 at 1.98 A resolution (PSI Community Target, Nakayama) A7LUP9 A7LUP9 1.98 X-RAY DIFFRACTION 58 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 469 469 4jrf-a1-m1-cA_4jrf-a1-m3-cA 4jrf-a1-m1-cA_4jrf-a1-m4-cA 4jrf-a1-m2-cA_4jrf-a1-m3-cA DGREAYSVSVAPKSGEHHGTADEQNVKEVLLALFDASDVCLETKTLATTDYILNVGGANKAGYDGKAFKVPSATAKVLAVVNPSDKFKTACVASASWSAINGAVEQTLDEVTGTSKNNFINAGDNANPTNGALVTANVKVVDGTTIPDVATAISEAQADRSIYVDRVVAKVSLGTNPDGLKVPAGVTCTFGDWALNITNKSFPYSEIVPAGGSTGADYRIDPNYELAGFDVSQFNYLKVADDGTLPADFSAADSKYCLENTAADAQTQAQTTSAVASAVYTPGSFTVGESWFRLLGVTYKTLADLQVVYNAAKAAGTADAAQTQVITLCDQFYARIAKAATAQGKAVGADFASITITELDDLKSGGEYSKPDAAAGETVGVEYFQKGVCYYNILIHHDDAITATAHGKYGVVRNNWYTLTINSVKQPGTPWLPDTTNPTDPKDPGEDDDDKEAYLSVEITVNPWTTWSQ DGREAYSVSVAPKSGEHHGTADEQNVKEVLLALFDASDVCLETKTLATTDYILNVGGANKAGYDGKAFKVPSATAKVLAVVNPSDKFKTACVASASWSAINGAVEQTLDEVTGTSKNNFINAGDNANPTNGALVTANVKVVDGTTIPDVATAISEAQADRSIYVDRVVAKVSLGTNPDGLKVPAGVTCTFGDWALNITNKSFPYSEIVPAGGSTGADYRIDPNYELAGFDVSQFNYLKVADDGTLPADFSAADSKYCLENTAADAQTQAQTTSAVASAVYTPGSFTVGESWFRLLGVTYKTLADLQVVYNAAKAAGTADAAQTQVITLCDQFYARIAKAATAQGKAVGADFASITITELDDLKSGGEYSKPDAAAGETVGVEYFQKGVCYYNILIHHDDAITATAHGKYGVVRNNWYTLTINSVKQPGTPWLPDTTNPTDPKDPGEDDDDKEAYLSVEITVNPWTTWSQ 4jrl-a1-m1-cA_4jrl-a1-m2-cA Crystal structure of a putative glycoside hydrolase (BACOVA_00087) from Bacteroides ovatus ATCC 8483 at 2.10 A resolution A7LQL7 A7LQL7 2.1 X-RAY DIFFRACTION 39 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 343 343 EAAIDVCSGDDVQLANIDADSKVINVYVNKGADLSKQKLEFTLPQGATIKVNTPITGDTESTYDFSEEPHSRKFTVTSEDGQWQPVYTVNVILAELPTLFKFEELLTTSSEYDTFYEFTPATSQEISKVLQWSSGNPGFKLTGANSRIDYPTVQVANGFKGKAVKLETRNTGDFGAVKYIAAGNLFIGTFEVENALTNPRKATNFGFQFYKHPIALKGYYKFKAGEVYSVEGQPQTGKRDKCDIYAVYEAENNSILNGDNVFNSDKLVLLARIEPEDIVESDEWNEFTIHFESVKGREIDDTKLQNGKYKLGIVLSSSVDGAYFRGAVGSTLYVDELELICKE EAAIDVCSGDDVQLANIDADSKVINVYVNKGADLSKQKLEFTLPQGATIKVNTPITGDTESTYDFSEEPHSRKFTVTSEDGQWQPVYTVNVILAELPTLFKFEELLTTSSEYDTFYEFTPATSQEISKVLQWSSGNPGFKLTGANSRIDYPTVQVANGFKGKAVKLETRNTGDFGAVKYIAAGNLFIGTFEVENALTNPRKATNFGFQFYKHPIALKGYYKFKAGEVYSVEGQPQTGKRDKCDIYAVYEAENNSILNGDNVFNSDKLVLLARIEPEDIVESDEWNEFTIHFESVKGREIDDTKLQNGKYKLGIVLSSSVDGAYFRGAVGSTLYVDELELICKE 4jrm-a2-m1-cA_4jrm-a2-m1-cB Crystal structure of beta-ketoacyl-ACP synthase II (FabF) from Vibrio Cholerae (space group P212121) at 1.75 Angstrom Q9KQH9 Q9KQH9 1.75 X-RAY DIFFRACTION 295 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 412 412 4jrh-a1-m1-cA_4jrh-a1-m1-cB 4jrm-a1-m1-cD_4jrm-a1-m1-cC KRRVVVTGMGMLSPVGNTVESSWKALLAGQSGIVNIEHFDTTNFSTRFAGLVKGFDCEQYMSKKDARKMDLFIQYGIAAGIQALEDSGLEVNEENAARIGVAIGSGIGGLELIETGHQALIEKGPRKVSPFFVPSTIVNMIAGNLSIMRGLRGPNIAISTACTTGLHNIGHAARMIAYGDADAMVAGGAEKASTPLGMAGFGAAKALSTRNDEPQKASRPWDKDRDGFVLGDGAGIMVLEEYEHAKARGAKIYAEVVGFGMSGDAYHMTSPSEDGSGGALAMEAAMRDAGVTGEQIGYVNAHGTSTPAGDVAEVKGIKRALGEAGTKQVLVSSTKSMTGHLLGAAGSVEAIITVMSLVDQMVPPTINLDNPEEGLGVDLVPHVARKVESMEYAMCNSFGFGGTNGSLIFKRM KRRVVVTGMGMLSPVGNTVESSWKALLAGQSGIVNIEHFDTTNFSTRFAGLVKGFDCEQYMSKKDARKMDLFIQYGIAAGIQALEDSGLEVNEENAARIGVAIGSGIGGLELIETGHQALIEKGPRKVSPFFVPSTIVNMIAGNLSIMRGLRGPNIAISTACTTGLHNIGHAARMIAYGDADAMVAGGAEKASTPLGMAGFGAAKALSTRNDEPQKASRPWDKDRDGFVLGDGAGIMVLEEYEHAKARGAKIYAEVVGFGMSGDAYHMTSPSEDGSGGALAMEAAMRDAGVTGEQIGYVNAHGTSTPAGDVAEVKGIKRALGEAGTKQVLVSSTKSMTGHLLGAAGSVEAIITVMSLVDQMVPPTINLDNPEEGLGVDLVPHVARKVESMEYAMCNSFGFGGTNGSLIFKRM 4jro-a1-m1-cB_4jro-a1-m1-cD Crystal structure of 3-oxoacyl-[acyl-carrier protein]reductase (FabG)from Listeria monocytogenes in complex with NADP+ Q8Y690 Q8Y690 1.92 X-RAY DIFFRACTION 99 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 238 244 4jro-a1-m1-cA_4jro-a1-m1-cC MTLQGKVAVVTGGSRGIGRDIAINLAKEGANIFFNYNGSPEAAEETAKLVAEHGVEVEAMKANVAIAEDVDAFFKQAIERFGRVDILVNNAGITRDNLLMRMKEDEWDDVININLKGTFLCTKAVSRTMMKQRAGKIINMASVVGLIGNAGQANYVASKAGVIGLTKTTARELAPRGINVNAVAPGFITTDKEAMLAQIPLGAYGTTEDIANAVLFLASDASKYITGQTLSVDGGMVM MTLQGKVAVVTGGSRGIGRDIAINLAKEGANIFFNYNGSPEAAEETAKLVAEHGVEVEAMKANVAIAEDVDAFFKQAIERFGRVDILVNNAGITRDNLLMRMKEDEWDDVININLKGTFLCTKAVSRTMMKQRAGKIINMASVVGLIGNAGQANYVASKAGVIGLTKTTARELAPRGINVNAVAPGFITTDMTDEKTKEAMLAQIPLGAYGTTEDIANAVLFLASDASKYITGQTLSVDGGMVM 4jro-a1-m1-cD_4jro-a1-m1-cC Crystal structure of 3-oxoacyl-[acyl-carrier protein]reductase (FabG)from Listeria monocytogenes in complex with NADP+ Q8Y690 Q8Y690 1.92 X-RAY DIFFRACTION 125 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 244 247 4jro-a1-m1-cB_4jro-a1-m1-cA MTLQGKVAVVTGGSRGIGRDIAINLAKEGANIFFNYNGSPEAAEETAKLVAEHGVEVEAMKANVAIAEDVDAFFKQAIERFGRVDILVNNAGITRDNLLMRMKEDEWDDVININLKGTFLCTKAVSRTMMKQRAGKIINMASVVGLIGNAGQANYVASKAGVIGLTKTTARELAPRGINVNAVAPGFITTDMTDEKTKEAMLAQIPLGAYGTTEDIANAVLFLASDASKYITGQTLSVDGGMVM MTLQGKVAVVTGGSRGIGRDIAINLAKEGANIFFNYNGSPEAAEETAKLVAEHGVEVEAMKANVAIAEDVDAFFKQAIERFGRVDILVNNAGITRDNLLMRMKEDEWDDVININLKGTFLCTKAVSRTMMKQRAGKIINMASVVGLIGNAGQANYVASKAGVIGLTKTTARELAPRGINVNAVAPGFITTDMTDKLDEKTKEAMLAQIPLGAYGTTEDIANAVLFLASDASKYITGQTLSVDGGMVM 4jrq-a3-m1-cB_4jrq-a3-m1-cA Crystal structure of E. coli Exonuclease I in complex with a 5cy-dA13 oligonucleotide P04995 P04995 3 X-RAY DIFFRACTION 70 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 459 460 4jrp-a3-m1-cA_4jrp-a3-m1-cB 4js4-a3-m1-cB_4js4-a3-m1-cA QSTFLFHDYETFGTHPALDRPAQFAAIRTDSEFNVIGEPEVFYCKPADDYLPQPGAVLITGITPQEARAKGENEAAFAARIHSLFTVPKTCILGYNNVRFDDEVTRNIFYRNFYDPYAWSWQHDNSRWDLLDVMRACYALRPEGINWPENDDGLPSFRLEHLTKANGIEDAMADVYATIAMAKLVKTRQPRLFDYLFTHRNKHKLMALIDVPQMKPLVHVSGMFGAWRGNTSWVAPLAWHPENRNAVIMVDLAGDISPLLELDSDTLRERLYTAKTDLGDNAAVPVKLVHINKCPVLAQANTLRPEDADRLGINRQHCLDNLKILRENPQVREKVVAIFAEAPSDNVDAQLYNGFFSDADRAAMKIVLETEPRNLPALDITFVDKRIEKLLFNYRARNFPGTLDYAEQQRWLEHRRQVFTPEFLQGYADELQMLVQQYADDKEKVALLKALWQYAEEIV QSTFLFHDYETFGTHPALDRPAQFAAIRTDSEFNVIGEPEVFYCKPADDYLPQPGAVLITGITPQEARAKGENEAAFAARIHSLFTVPKTCILGYNNVRFDDEVTRNIFYRNFYDPYAWSWQHDNSRWDLLDVMRACYALRPEGINWPENDDGLPSFRLEHLTKANGIHDAMADVYATIAMAKLVKTRQPRLFDYLFTHRNKHKLMALIDVPQMKPLVHVSGMFGAWRGNTSWVAPLAWHPENRNAVIMVDLAGDISPLLELDSDTLRERLYTAKTDLGDNAAVPVKLVHINKCPVLAQANTLRPEDADRLGINRQHCLDNLKILRENPQVREKVVAIFAEATPSDNVDAQLYNGFFSDADRAAMKIVLETEPRNLPALDITFVDKRIEKLLFNYRARNFPGTLDYAEQQRWLEHRRQVFTPEFLQGYADELQMLVQQYADDKEKVALLKALWQYAEEIV 4jsb-a1-m2-cA_4jsb-a1-m3-cA Crystal structure of Tfu_1878, a putative enoyl-CoA hydratase from Thermobifida fusca YX Q47NQ8 Q47NQ8 1.87 X-RAY DIFFRACTION 132 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 256 256 4jsb-a1-m1-cA_4jsb-a1-m2-cA 4jsb-a1-m1-cA_4jsb-a1-m3-cA 4jvt-a1-m1-cA_4jvt-a1-m2-cA 4jvt-a1-m1-cA_4jvt-a1-m3-cA 4jvt-a1-m2-cA_4jvt-a1-m3-cA 4omr-a1-m1-cA_4omr-a1-m2-cA 4omr-a1-m1-cA_4omr-a1-m3-cA 4omr-a1-m2-cA_4omr-a1-m3-cA QTKAPTAEELAAAGLTLTIDGEVARITLSRPHRRNATGRWTELARIGHTLPQAVRIVVITGEGPTFSSGIDLDFQAGKVDGEPTPFTLTAALDQVIASYQEGFLWLRRADIVSIAAVRGHAIGAGFQLALSCDIRILSDTAQLCKEPALGLVPDLTGTQPLVELVGVNRAIELCLTARTIDAAEAAQLRLAERVVADAELDAAVDALVAQLLAVPAAAARATKELLLQAGRNDLATQARVERTAQLARLAELAKAS QTKAPTAEELAAAGLTLTIDGEVARITLSRPHRRNATGRWTELARIGHTLPQAVRIVVITGEGPTFSSGIDLDFQAGKVDGEPTPFTLTAALDQVIASYQEGFLWLRRADIVSIAAVRGHAIGAGFQLALSCDIRILSDTAQLCKEPALGLVPDLTGTQPLVELVGVNRAIELCLTARTIDAAEAAQLRLAERVVADAELDAAVDALVAQLLAVPAAAARATKELLLQAGRNDLATQARVERTAQLARLAELAKAS 4jti-a1-m1-cC_4jti-a1-m1-cD Crystal structure of F114R/R117Q/F139G mutant of 3-deoxy-D-manno-octulosonate 8-phosphate synthase (KDO8PS) from Neisseria meningitidis Q9JZ55 Q9JZ55 1.75 X-RAY DIFFRACTION 84 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 258 258 2qkf-a1-m1-cA_2qkf-a1-m1-cB 2qkf-a1-m1-cD_2qkf-a1-m1-cC 3fyo-a1-m1-cA_3fyo-a1-m1-cB 3fyo-a1-m1-cC_3fyo-a1-m1-cD 3fyp-a1-m1-cB_3fyp-a1-m1-cA 3fyp-a1-m1-cD_3fyp-a1-m1-cC 3qpy-a1-m1-cA_3qpy-a1-m1-cB 3qpy-a1-m1-cD_3qpy-a1-m1-cC 3qpz-a1-m1-cA_3qpz-a1-m1-cB 3qpz-a1-m1-cC_3qpz-a1-m1-cD 3qq0-a1-m1-cA_3qq0-a1-m1-cB 3qq0-a1-m1-cD_3qq0-a1-m1-cC 3qq1-a1-m1-cA_3qq1-a1-m1-cB 3qq1-a1-m1-cC_3qq1-a1-m1-cD 3stc-a1-m1-cA_3stc-a1-m1-cB 3stc-a1-m1-cD_3stc-a1-m1-cC 3ste-a1-m1-cB_3ste-a1-m1-cA 3ste-a1-m1-cC_3ste-a1-m1-cD 3stf-a1-m1-cA_3stf-a1-m1-cB 3stf-a1-m1-cD_3stf-a1-m1-cC 3stg-a1-m1-cA_3stg-a1-m1-cB 3stg-a1-m1-cD_3stg-a1-m1-cC 4jte-a1-m1-cA_4jte-a1-m1-cB 4jte-a1-m1-cC_4jte-a1-m1-cD 4jtf-a1-m1-cA_4jtf-a1-m1-cB 4jtf-a1-m1-cD_4jtf-a1-m1-cC 4jtg-a1-m1-cA_4jtg-a1-m1-cB 4jtg-a1-m1-cD_4jtg-a1-m1-cC 4jth-a1-m1-cA_4jth-a1-m1-cB 4jth-a1-m1-cD_4jth-a1-m1-cC 4jti-a1-m1-cA_4jti-a1-m1-cB 4jtj-a1-m1-cA_4jtj-a1-m1-cB 4jtj-a1-m1-cC_4jtj-a1-m1-cD 4jtk-a1-m1-cA_4jtk-a1-m1-cB 4jtk-a1-m1-cC_4jtk-a1-m1-cD 4jtl-a1-m1-cA_4jtl-a1-m1-cB 4jtl-a1-m1-cC_4jtl-a1-m1-cD MDIKINDITLGNNSPFVLFGGINVLESLDSTLQTCAHYVEVTRKLGIPYIFKASFDKANRSSIHSYRGVGLEEGLKIFEKVKAEFGIPVITDVHEPHQCQPVAEVCDVIQLPARLAQQTDLVVAMAKTGNVVNIKKPQGLSPSQMKNIVEKFHEAGNGKLILCERGSSFGYDNLVVDMLGFGVMKQTCGNLPVIFDVTHSLQTRGRRAQALDLALAGMATRLAGLFLESHPALPLHLLEDFLIRIKALDDLIKSQPIL MDIKINDITLGNNSPFVLFGGINVLESLDSTLQTCAHYVEVTRKLGIPYIFKASFDKANRSSIHSYRGVGLEEGLKIFEKVKAEFGIPVITDVHEPHQCQPVAEVCDVIQLPARLAQQTDLVVAMAKTGNVVNIKKPQGLSPSQMKNIVEKFHEAGNGKLILCERGSSFGYDNLVVDMLGFGVMKQTCGNLPVIFDVTHSLQTRGRRAQALDLALAGMATRLAGLFLESHPALPLHLLEDFLIRIKALDDLIKSQPIL 4jtm-a1-m1-cA_4jtm-a1-m2-cB Structure of the N0 domain of the type II secretin from enterotoxigenic Escherichia coli E3PJ86 E3PJ86 1.43 X-RAY DIFFRACTION 26 1.0 316401 (Escherichia coli ETEC H10407) 316401 (Escherichia coli ETEC H10407) 81 81 GAMATFTANFKDTDLKSFIETVGANLNKTIIMGPGVQGKVSIRTMTPLNERQYYQLFLNLLEAQGYAVVPMENDVLKVVKS GAMATFTANFKDTDLKSFIETVGANLNKTIIMGPGVQGKVSIRTMTPLNERQYYQLFLNLLEAQGYAVVPMENDVLKVVKS 4jtu-a1-m1-cA_4jtu-a1-m2-cA Crystal structure of human dihydroorotate dehydrogenase (DHODH) with brequinar analogue Q02127 Q02127 1.9 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 365 365 TGDERFYAEHLMPTLQGLLDPESAHRLAVRFTSLGLLPRARFQDSDMLEVRVLGHKFRNPVGIAAGFDKHGEAVDGLYKMGFGFVEIGSVTPKPQEGNPRPRVFRLPEDQAVINRYGFNSHGLSVVEHRLRARQQKQAKLTEDGLPLGVNLGKNKTSVDAAEDYAEGVRVLGPLADYLVVNVSSPNTAGLRSLQGKAELRRLLTKVLQERDGLRRVHRPAVLVKIAPDLTSQDKEDIASVVKELGIDGLIVTNTTVSRPAGLQGALRSETGGLSGKPLRDLSTQTIREMYALTQGRVPIIGVGGVSSGQDALEKIRAGASLVQLYTALTFWGPPVVGKVKRELEALLKEQGFGGVTDAIGADHRR TGDERFYAEHLMPTLQGLLDPESAHRLAVRFTSLGLLPRARFQDSDMLEVRVLGHKFRNPVGIAAGFDKHGEAVDGLYKMGFGFVEIGSVTPKPQEGNPRPRVFRLPEDQAVINRYGFNSHGLSVVEHRLRARQQKQAKLTEDGLPLGVNLGKNKTSVDAAEDYAEGVRVLGPLADYLVVNVSSPNTAGLRSLQGKAELRRLLTKVLQERDGLRRVHRPAVLVKIAPDLTSQDKEDIASVVKELGIDGLIVTNTTVSRPAGLQGALRSETGGLSGKPLRDLSTQTIREMYALTQGRVPIIGVGGVSSGQDALEKIRAGASLVQLYTALTFWGPPVVGKVKRELEALLKEQGFGGVTDAIGADHRR 4ju5-a1-m1-cB_4ju5-a1-m1-cA Crystal structure of the dimeric form of the bb' domains of human protein disulfide isomerase P07237 P07237 2.28 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 200 AATTLPDGAAAESLVESSEVAVIGFFKDVESDSAKQFLQAAEAIDDIPFGITSNSDVFSKYQLDKDGVVLFKKFDEGRNNFEGEVTKENLLDFIKHNQLPLVIEFTEQTAPKIFGGEIKTHILLFLPKSVSDYDGKLSNFKTAAESFKGKILFIFIDSDHTDNQRILEFFGLKKEECPAVRLITLEERITEFCHRFL AATTLPDGAAAESLVESSEVAVIGFFKDVESDSAKQFLQAAEAIDDIPFGITSNSDVFSKYQLDKDGVVLFKKFDEGRNNFEGEVTKENLLDFIKHNQLPLVIEFTEQTAPKIFGGEIKTHILLFLPKSVSDYDGKLSNFKTAAESFKGKILFIFIDSDHTDNQRILEFFGLKKEECPAVRLITLEETAERITEFCHRFL 4jup-a1-m1-cA_4jup-a1-m1-cB Dimeric structure of CARMA1 CARD Q9BXL7 Q9BXL7 3.2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 80 LWDNVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNANRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTG LWDNVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNANRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTG 4juu-a1-m1-cB_4juu-a1-m1-cA Crystal structure of a putative hydroxyproline epimerase from xanthomonas campestris (TARGET EFI-506516) with bound phosphate and unknown ligand Q8P833 Q8P833 1.75 X-RAY DIFFRACTION 98 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 311 315 HTIDVIDSHTAGEPTRVVLAGFPDLGDGDLAQCRERFRSDFDHWRSAIACEPRGSDTMVGALLLPPRDPSACTGVIFFNNVGYLGMCGHGTIGVVRTLAELGRIAPGQHRIETPVGTVGVALADDGTVSIDNVESYRHAAGVEVDVPGHGRVRGDVAWGGNWFFITEQAPCALGLAQQRELTAYTEAIRLALEAAGITGEAGGEIDHIEISGVAPDGSGAARNFVLCPGLAYDRSPCGTGTSAKLACLAADGKLAEGERWLQQGILGSAFEGSYRHSGRGIAPRISGHAFITARSQLLIDPADPFAWGIVA FQSMHTIDVIDSHTAGEPTRVVLAGFPDLGDGDLAQCRERFRSDFDHWRSAIACEPRGSDTMVGALLLPPRDPSACTGVIFFNNVGYLGMCGHGTIGVVRTLAELGRIAPGQHRIETPVGTVGVALADDGTVSIDNVESYRHAAGVEVDVPGHGRVRGDVAWGGNWFFITEQAPCALGLAQQRELTAYTEAIRLALEAAGITGEAGGEIDHIEISGVAPDGSGAARNFVLCPGLAYDRSPCGTGTSAKLACLAADGKLAEGERWLQQGILGSAFEGSYRHSGRGIAPRISGHAFITARSQLLIDPADPFAWGIVA 4jvh-a1-m1-cA_4jvh-a1-m2-cA Structure of the star domain of quaking protein in complex with RNA Q96PU8 Q96PU8 3.501 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 168 KPTPDYLQLNDKKLSNHLERLLDEEISRVRKDYNDTSAELPDAVGPIVQLQEKLYVPVKEYPDFNFVGRILGPRGLTAKQLEAETGCKIVRGKGSRDKKKEEQNRGKPNWEHLNEDLHVLITVEDAQNRAEIKLKRAVEEVKKLLVPAAEGEDSLKKQLELAILNGTY KPTPDYLQLNDKKLSNHLERLLDEEISRVRKDYNDTSAELPDAVGPIVQLQEKLYVPVKEYPDFNFVGRILGPRGLTAKQLEAETGCKIVRGKGSRDKKKEEQNRGKPNWEHLNEDLHVLITVEDAQNRAEIKLKRAVEEVKKLLVPAAEGEDSLKKQLELAILNGTY 4jvh-a2-m1-cA_4jvh-a2-m3-cA Structure of the star domain of quaking protein in complex with RNA Q96PU8 Q96PU8 3.501 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 168 KPTPDYLQLNDKKLSNHLERLLDEEISRVRKDYNDTSAELPDAVGPIVQLQEKLYVPVKEYPDFNFVGRILGPRGLTAKQLEAETGCKIVRGKGSRDKKKEEQNRGKPNWEHLNEDLHVLITVEDAQNRAEIKLKRAVEEVKKLLVPAAEGEDSLKKQLELAILNGTY KPTPDYLQLNDKKLSNHLERLLDEEISRVRKDYNDTSAELPDAVGPIVQLQEKLYVPVKEYPDFNFVGRILGPRGLTAKQLEAETGCKIVRGKGSRDKKKEEQNRGKPNWEHLNEDLHVLITVEDAQNRAEIKLKRAVEEVKKLLVPAAEGEDSLKKQLELAILNGTY 4jvo-a1-m1-cB_4jvo-a1-m1-cA Crystal structure of the double mutant (S112A, H303A) of B.anthracis mycrocine immunity protein (MccF) with alanyl sulfamoyl adenylates A0A6L8PEJ7 A0A6L8PEJ7 1.3 X-RAY DIFFRACTION 118 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 332 336 3gjz-a1-m1-cB_3gjz-a1-m1-cA 3sr3-a1-m1-cB_3sr3-a1-m1-cA 3t5m-a1-m1-cB_3t5m-a1-m1-cA 3tyx-a1-m1-cB_3tyx-a1-m1-cA 3u1b-a1-m1-cB_3u1b-a1-m1-cA 4mi1-a1-m1-cA_4mi1-a1-m1-cB 4mjx-a1-m1-cA_4mjx-a1-m1-cB PLPKSLKYGDTIGIYSPSSPVTYTSPKRFERAKSYLLQKGFHILEGSLTGRYDYYRSGSIQERAKELNALIRNPNVSCIMSTIGGMNSNSLLPYIDYDAFQNNPKIMIGYADATALLLGIYAKTGIPTFYGPALVPSFGEFEPFVDDTYKYFLETLLHDQALPYNIKQPLFWSDEFINWEEKTKEKELRPNNWISVTNGQATGRVIGGNLNTIQGIWGSPYMPCIQEGDILFIEDSSKDAATIERSFSFLKINGVFDKVSGIILGKHEQFDDCGTNRKPYEILLEVLQNQRIPLLADFDCCATHPMITMPIGVQVKMDATNKTIHILEKWKI SNAMPLPKSLKYGDTIGIYSPSSPVTYTSPKRFERAKSYLLQKGFHILEGSLTGRYDYYRSGSIQERAKELNALIRNPNVSCIMSTIGGMNSNSLLPYIDYDAFQNNPKIMIGYADATALLLGIYAKTGIPTFYGPALVPSFGEFEPFVDDTYKYFLETLLHDQALPYNIKQPLFWSDEFINWEEKTKEKELRPNNWISVTNGQATGRVIGGNLNTIQGIWGSPYMPCIQEGDILFIEDSSKDAATIERSFSFLKINGVFDKVSGIILGKHEQFDDCGTNRKPYEILLEVLQNQRIPLLADFDCCATHPMITMPIGVQVKMDATNKTIHILEKWKI 4jvp-a3-m1-cB_4jvp-a3-m1-cA Three dimensional structure of broadly neutralizing anti - Hepatitis C virus (HCV) glycoprotein E2 alpaca nanobody D03 1.76 X-RAY DIFFRACTION 32 0.992 30538 (Vicugna pacos) 30538 (Vicugna pacos) 127 131 QLQASGGGLVQPGGSLRLSCTAGFTDDYYAIGWFRQAPGKEREGVSCITNFDGGTYYADSVKSRFTMSRDNAKNTVYLQMNSLKPEDTAVYYCAADKGLCSWLRAKVTFGSWGQGTQVTVSSAAALE EVQLQASGGGLVQPGGSLRLSCTASGFTDDYYAIGWFRQAPGKEREGVSCITNFDGGTYYADSVKSRFTMSRDNKNTVYLQMNSLKPEDTAVYYCAADKGLCSWLRAGGKVTFGSWGQGTQVTVSSAAALE 4jvy-a1-m1-cB_4jvy-a1-m1-cA Structure of the STAR (signal transduction and activation of RNA) domain of GLD-1 bound to RNA Q17339 Q17339 2.853 X-RAY DIFFRACTION 42 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 190 191 3k6t-a1-m1-cB_3k6t-a1-m1-cA 3k6t-a2-m1-cD_3k6t-a2-m1-cC 3kbl-a1-m1-cB_3kbl-a1-m1-cA 3kbl-a2-m1-cD_3kbl-a2-m1-cC SHEATVEYLADLVKEKKHLTLFPHMFSNVERLLDDEIGRVRVALFQTEFPRVELPEPAGDMISITEKIYVPKNEYPDYNFVGRILGPRGMTAKQLEQDTGCKIMVRGKGSMRDKSKESAHRGKANWEHLEDDLHVLVQCEDTENRVHIKLQAALEQVKKLLIPAPEGTDELKRKQLMELAIINGTYRPMK SHEATVEYLADLVKEKKHLTLFPHMFSNVERLLDDEIGRVRVALFQTEFPRVELPEPAGDMISITEKIYVPKNEYPDYNFVGRILGPRGMTAKQLEQDTGCKIMVRGKGSMRDKSKESAHRGKANWEHLEDDLHVLVQCEDTENRVHIKLQAALEQVKKLLIPAPEGTDELKRKQLMELAIINGTYRPMKS 4jw0-a1-m1-cC_4jw0-a1-m1-cD Structure of Gloeobacter violaceus CcmL Q7NIT8 Q7NIT8 1.7 X-RAY DIFFRACTION 104 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 95 95 4jw0-a1-m1-cA_4jw0-a1-m1-cB 4jw0-a1-m1-cA_4jw0-a1-m1-cE 4jw0-a1-m1-cC_4jw0-a1-m1-cB 4jw0-a1-m1-cD_4jw0-a1-m1-cE MQIGRVRGTVVSSQKEPSMVGVKFLLLQLIDEAGQPLPQYEVAADGVGAGLDEWVLFSRGSAARQVAGSEKRPVDAVVIGIIDTVSVDNRPLYSK MQIGRVRGTVVSSQKEPSMVGVKFLLLQLIDEAGQPLPQYEVAADGVGAGLDEWVLFSRGSAARQVAGSEKRPVDAVVIGIIDTVSVDNRPLYSK 4jwq-a1-m1-cA_4jwq-a1-m1-cC Crystal Structure of the Calcium Binding Domain of CDPK3 from Plasmodium Berghei, PB000947.00 2.15 X-RAY DIFFRACTION 46 0.986 5823 (Plasmodium berghei ANKA) 5823 (Plasmodium berghei ANKA) 69 73 KHLSKKLIYCAFRVFDVDNDGEITTAELAHILYNSITQKDVNQVKKMIQEVDKNNDGKIDFYEFCEMMK DRKHLSKKLIYCAFRVFDVDNDGEITTAELAHILYNITQKDVNQVKKMIQEVDKNNDGKIDFYEFCEMMKLKY 4jwt-a1-m1-cA_4jwt-a1-m2-cA Crystal structure of a putative 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase from Sulfurimonas denitrificans DSM 1251 (Target NYSGRC-029304 ) Q30QR2 Q30QR2 2.05 X-RAY DIFFRACTION 119 1.0 326298 (Sulfurimonas denitrificans DSM 1251) 326298 (Sulfurimonas denitrificans DSM 1251) 235 235 GVDLGTENLYFQSKIAIGAPEEISPILEKIGSYKSTSYAGNKYYEATYQGVELVIAYSKIGKVFSALSAATIEHFGATKLLFSGVAGAISTNLKVGDLIVATKLSQHDLDITAFGHPYGYVPEGSVFVEADKDIELSKKVALEGKSVQEGIIATGDQFVANEERKNWIGTTFGADALEEGGSVGVVCNALNIPFFILRSISDAADDASFSFDEFLESSAKESAEFIKVDELVALP GVDLGTENLYFQSKIAIGAPEEISPILEKIGSYKSTSYAGNKYYEATYQGVELVIAYSKIGKVFSALSAATIEHFGATKLLFSGVAGAISTNLKVGDLIVATKLSQHDLDITAFGHPYGYVPEGSVFVEADKDIELSKKVALEGKSVQEGIIATGDQFVANEERKNWIGTTFGADALEEGGSVGVVCNALNIPFFILRSISDAADDASFSFDEFLESSAKESAEFIKVDELVALP 4jwv-a1-m2-cB_4jwv-a1-m3-cB Crystal Structure of putative short chain enoyl-CoA hydratase from Novosphingobium aromaticivorans DSM 12444 Q2G8B7 Q2G8B7 2.1 X-RAY DIFFRACTION 116 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 246 246 4jwv-a1-m1-cA_4jwv-a1-m2-cA 4jwv-a1-m1-cA_4jwv-a1-m3-cA 4jwv-a1-m1-cB_4jwv-a1-m2-cB 4jwv-a1-m1-cB_4jwv-a1-m3-cB 4jwv-a1-m2-cA_4jwv-a1-m3-cA ADIDFRIEGHVAHVRLNRPQGLNAITQEDDLLLDAWTEVNANSDIWAVVLSAEGEKAFCIGADVAERKTRALGGGLTGIGGPLVTCKKPVAAVQGFCVGGGFELACADIIVAADTAQFGLPETKVGIIGECGVVHRARQLPYHIALQLILTGERIKADEARHYGLVNEVVPFAELEEAALRWASKLNAASPLAVQAAKAAALGRLGHPLEVALTRFEPIEEYAATEDKKEGERAAGERRKPVWTGK ADIDFRIEGHVAHVRLNRPQGLNAITQEDDLLLDAWTEVNANSDIWAVVLSAEGEKAFCIGADVAERKTRALGGGLTGIGGPLVTCKKPVAAVQGFCVGGGFELACADIIVAADTAQFGLPETKVGIIGECGVVHRARQLPYHIALQLILTGERIKADEARHYGLVNEVVPFAELEEAALRWASKLNAASPLAVQAAKAAALGRLGHPLEVALTRFEPIEEYAATEDKKEGERAAGERRKPVWTGK 4jwv-a1-m3-cB_4jwv-a1-m3-cA Crystal Structure of putative short chain enoyl-CoA hydratase from Novosphingobium aromaticivorans DSM 12444 Q2G8B7 Q2G8B7 2.1 X-RAY DIFFRACTION 22 0.992 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 246 247 4jwv-a1-m1-cB_4jwv-a1-m1-cA 4jwv-a1-m2-cB_4jwv-a1-m2-cA ADIDFRIEGHVAHVRLNRPQGLNAITQEDDLLLDAWTEVNANSDIWAVVLSAEGEKAFCIGADVAERKTRALGGGLTGIGGPLVTCKKPVAAVQGFCVGGGFELACADIIVAADTAQFGLPETKVGIIGECGVVHRARQLPYHIALQLILTGERIKADEARHYGLVNEVVPFAELEEAALRWASKLNAASPLAVQAAKAAALGRLGHPLEVALTRFEPIEEYAATEDKKEGERAAGERRKPVWTGK FQSADIDFRIEGHVAHVRLNRPQGLNAITQEDDLLLDAWTEVNANSDIWAVVLSAEGEKAFCIGADVRKTRALGGGLTGIGGPLVTCKKPVAAVQGFCVGGGFELACADIIVAADTAQFGLPETKVGIIGECGVVHRARQLPYHIALQLILTGERIKADEARHYGLVNEVVPFAELEEAALRWASKLNAASPLAVQAAKAAALGRLGHPLEVALTRFEPIEEYAATEDKKEGERAAGERRKPVWTGK 4jwx-a2-m1-cA_4jwx-a2-m2-cA GluN2A ligand-binding core in complex with propyl-NHP5G Q00959 Q00959 1.5 X-RAY DIFFRACTION 75 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 280 280 2a5s-a2-m1-cA_2a5s-a2-m2-cA 6odl-a1-m1-cA_6odl-a1-m1-cB NHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSRGTQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICHA NHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSRGTQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICHA 4jx2-a2-m1-cB_4jx2-a2-m2-cB Crystal structure of a putative secreted protein (lpg1979) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 2.65 A resolution Q5ZU29 Q5ZU29 2.65 X-RAY DIFFRACTION 44 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 384 384 4jx2-a2-m1-cA_4jx2-a2-m2-cA NTYVTPQAFWNLYFDFTGDETPGYPKGKINISQTLFQSEKKNEGQLILFINSTLYIYNSDRQLKLKQLRTAPNSGFTETAISHIGPALYLAKIKENGDASWKSQENLLKDIQAVKVINAQTPNNWLEQVNAPAWKPHLTTIHNIDYACSAGNYSDVLNEKLSFDASLQNDFLNGNKTYPIPYNNVIGTFLTALQSDQLHSKISQLKIDWPHAKVIIRFVAGSNVSAGVSKGSNWLVPFVQALSNNKLATDRIYITPYAAVKPSLGAQELTQADYNYYNNTVWGARHNRRIIANEVFTNITSIFLPDRPAIPGDYTYSKPPKIEDFLRLKFSLAEPTELSNTVGFWAGELAEKNWNYNKISIPGITTGFPEGISTYPNNNPVIQR NTYVTPQAFWNLYFDFTGDETPGYPKGKINISQTLFQSEKKNEGQLILFINSTLYIYNSDRQLKLKQLRTAPNSGFTETAISHIGPALYLAKIKENGDASWKSQENLLKDIQAVKVINAQTPNNWLEQVNAPAWKPHLTTIHNIDYACSAGNYSDVLNEKLSFDASLQNDFLNGNKTYPIPYNNVIGTFLTALQSDQLHSKISQLKIDWPHAKVIIRFVAGSNVSAGVSKGSNWLVPFVQALSNNKLATDRIYITPYAAVKPSLGAQELTQADYNYYNNTVWGARHNRRIIANEVFTNITSIFLPDRPAIPGDYTYSKPPKIEDFLRLKFSLAEPTELSNTVGFWAGELAEKNWNYNKISIPGITTGFPEGISTYPNNNPVIQR 4jx2-a2-m2-cB_4jx2-a2-m1-cA Crystal structure of a putative secreted protein (lpg1979) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 2.65 A resolution Q5ZU29 Q5ZU29 2.65 X-RAY DIFFRACTION 21 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 384 387 4jx2-a2-m1-cB_4jx2-a2-m2-cA NTYVTPQAFWNLYFDFTGDETPGYPKGKINISQTLFQSEKKNEGQLILFINSTLYIYNSDRQLKLKQLRTAPNSGFTETAISHIGPALYLAKIKENGDASWKSQENLLKDIQAVKVINAQTPNNWLEQVNAPAWKPHLTTIHNIDYACSAGNYSDVLNEKLSFDASLQNDFLNGNKTYPIPYNNVIGTFLTALQSDQLHSKISQLKIDWPHAKVIIRFVAGSNVSAGVSKGSNWLVPFVQALSNNKLATDRIYITPYAAVKPSLGAQELTQADYNYYNNTVWGARHNRRIIANEVFTNITSIFLPDRPAIPGDYTYSKPPKIEDFLRLKFSLAEPTELSNTVGFWAGELAEKNWNYNKISIPGITTGFPEGISTYPNNNPVIQR NTYVTPQAFWNLYFDFTGDETPGYPKGKINISQTLFQSEKKAQQNEGQLILFINSTLYIYNSDRQLKLKQLRTAPNSGFTETAISHIGPALYLAKIKENGDASWKSQENLLKDIQAVKVINAQTPNNWLEQVNAPAWKPHLTTIHNIDYACSAGNYSDVLNEKLSFDASLQNDFLNGNKTYPIPYNNVIGTFLTALQSDQLHSKISQLKIDWPHAKVIIRFVAGSNVSAGVSKGSNWLVPFVQALSNNKLATDRIYITPYAAVKPSLGAQELTQADYNYYNNTVWGARHNRRIIANEVFTNITSIFLPDRPAIPGDYTYSKPPKIEDFLRLKFSLAEPTELSNTVGFWAGELAEKNWNYNKISIPGITTGFPEGISTYPNNNPVIQR 4jx2-a2-m2-cB_4jx2-a2-m2-cA Crystal structure of a putative secreted protein (lpg1979) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 2.65 A resolution Q5ZU29 Q5ZU29 2.65 X-RAY DIFFRACTION 328 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 384 387 4jx2-a1-m1-cB_4jx2-a1-m1-cA 4jx2-a2-m1-cB_4jx2-a2-m1-cA NTYVTPQAFWNLYFDFTGDETPGYPKGKINISQTLFQSEKKNEGQLILFINSTLYIYNSDRQLKLKQLRTAPNSGFTETAISHIGPALYLAKIKENGDASWKSQENLLKDIQAVKVINAQTPNNWLEQVNAPAWKPHLTTIHNIDYACSAGNYSDVLNEKLSFDASLQNDFLNGNKTYPIPYNNVIGTFLTALQSDQLHSKISQLKIDWPHAKVIIRFVAGSNVSAGVSKGSNWLVPFVQALSNNKLATDRIYITPYAAVKPSLGAQELTQADYNYYNNTVWGARHNRRIIANEVFTNITSIFLPDRPAIPGDYTYSKPPKIEDFLRLKFSLAEPTELSNTVGFWAGELAEKNWNYNKISIPGITTGFPEGISTYPNNNPVIQR NTYVTPQAFWNLYFDFTGDETPGYPKGKINISQTLFQSEKKAQQNEGQLILFINSTLYIYNSDRQLKLKQLRTAPNSGFTETAISHIGPALYLAKIKENGDASWKSQENLLKDIQAVKVINAQTPNNWLEQVNAPAWKPHLTTIHNIDYACSAGNYSDVLNEKLSFDASLQNDFLNGNKTYPIPYNNVIGTFLTALQSDQLHSKISQLKIDWPHAKVIIRFVAGSNVSAGVSKGSNWLVPFVQALSNNKLATDRIYITPYAAVKPSLGAQELTQADYNYYNNTVWGARHNRRIIANEVFTNITSIFLPDRPAIPGDYTYSKPPKIEDFLRLKFSLAEPTELSNTVGFWAGELAEKNWNYNKISIPGITTGFPEGISTYPNNNPVIQR 4jxk-a1-m1-cA_4jxk-a1-m1-cB Crystal Structure of Oxidoreductase ROP_24000 (Target EFI-506400) from Rhodococcus opacus B4 C1B3E9 C1B3E9 2 X-RAY DIFFRACTION 98 1.0 632772 (Rhodococcus opacus B4) 632772 (Rhodococcus opacus B4) 327 327 EFTAWIARENEGAIGLSQETVGESFLPQGEVTIQVEYSSVNFKDALALTPKGGVVREYPIVPGIDVAGTVVESQSPEFSVGDTVVAHGYDIGTARHGGYAQFARVPADWVVKLDGMSTRTAAAIGTAGFTAAMSVEALQSRGVEPGNGPVLVTGASGGVGTVAVDLLSAAGFEVVASSGKPEKAELLTQLGASKVIGRLPEPDTKPRPLGKAQWAAAVDCVGGATLAHVLSTIEYGGAVAASGLTGGPKLETTVLPFILRGVSLLGIDSVQYPIDQRRRLWGRLASDLAPSRLESITHDVPIADVVSVIDQVRAGTYSGRAVVAVAP EFTAWIARENEGAIGLSQETVGESFLPQGEVTIQVEYSSVNFKDALALTPKGGVVREYPIVPGIDVAGTVVESQSPEFSVGDTVVAHGYDIGTARHGGYAQFARVPADWVVKLDGMSTRTAAAIGTAGFTAAMSVEALQSRGVEPGNGPVLVTGASGGVGTVAVDLLSAAGFEVVASSGKPEKAELLTQLGASKVIGRLPEPDTKPRPLGKAQWAAAVDCVGGATLAHVLSTIEYGGAVAASGLTGGPKLETTVLPFILRGVSLLGIDSVQYPIDQRRRLWGRLASDLAPSRLESITHDVPIADVVSVIDQVRAGTYSGRAVVAVAP 4jxn-a1-m1-cA_4jxn-a1-m2-cA CRYSTAL STRUCTURE OF POLYPRENYL SYNTHASE ISP_B (TARGET EFI-509198) FROM Roseobacter denitrificans Q163F0 Q163F0 2.3 X-RAY DIFFRACTION 126 1.0 375451 (Roseobacter denitrificans OCh 114) 375451 (Roseobacter denitrificans OCh 114) 297 297 AQKPHDRMAAYLESDMAAVSTLIRERMASKHAPRIPEVTAHLVRLRPMLTLAAAHLCGYDGPFHINLAATVEFIHTATLLHDDVNKSSVLVGDYLFSRSFQLMVETGSLRVLDILANASATIAEGEVLQLTASQNLATTEEVYLQVVRGKTAALFSAATEVGGVIAGAPDDHVAALFEYGDALGIAFQIVDDLLDFQGKNIGDDFRERKLTMPLIKAVAKADAEERAFWVRTIEKGKQEEGDLQHAIALLHKHAALTDTSVVARTQAARAKAALAPLPAHPVKDMLVDLADYVVERI AQKPHDRMAAYLESDMAAVSTLIRERMASKHAPRIPEVTAHLVRLRPMLTLAAAHLCGYDGPFHINLAATVEFIHTATLLHDDVNKSSVLVGDYLFSRSFQLMVETGSLRVLDILANASATIAEGEVLQLTASQNLATTEEVYLQVVRGKTAALFSAATEVGGVIAGAPDDHVAALFEYGDALGIAFQIVDDLLDFQGKNIGDDFRERKLTMPLIKAVAKADAEERAFWVRTIEKGKQEEGDLQHAIALLHKHAALTDTSVVARTQAARAKAALAPLPAHPVKDMLVDLADYVVERI 4jxr-a1-m1-cA_4jxr-a1-m1-cB Crystal structure of a GNAT superfamily phosphinothricin acetyltransferase (Pat) from Sinorhizobium meliloti in complex with AcCoA Q92L60 Q92L60 1.15 X-RAY DIFFRACTION 100 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 180 180 4jxq-a1-m1-cA_4jxq-a1-m2-cB TATLRDAVAADLRSITEIYRESVLNGVATYEETPPSEAEALRFSTITGNGYPYVVALDERGAVIGYAYASAFRNRTAYRFLVEDSIYLSPEARGKGIGKALLSELVGRCTALGFRQIAVIGGAHPSSIALHRALGFELQGLKATGFKHGRWLDTAFQRPLGEGTATKPTEGVYPDTLYRS TATLRDAVAADLRSITEIYRESVLNGVATYEETPPSEAEALRFSTITGNGYPYVVALDERGAVIGYAYASAFRNRTAYRFLVEDSIYLSPEARGKGIGKALLSELVGRCTALGFRQIAVIGGAHPSSIALHRALGFELQGLKATGFKHGRWLDTAFQRPLGEGTATKPTEGVYPDTLYRS 4jxu-a2-m1-cB_4jxu-a2-m2-cB Structure of aminotransferase ilvE2 from Sinorhizobium meliloti complexed with PLP Q92RC2 Q92RC2 2.4 X-RAY DIFFRACTION 180 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 272 272 4jxu-a1-m1-cA_4jxu-a1-m2-cA AVDTSPRSTTWTFVDGEWLAGNPPLIGPTSHAWLGSTVFDGARWFDGIAPDLDLHCQRVNRSAEALGLKPTSAEEIEGLAWEGVKKFDGKTAIYVKPYWGEHGSWSVVAVDPESTRFALCLFEASSLTLSPFRRPTLECPTDAAGCLYPNNARILNEARSRGFDNALVRDLGNIAETGSSNIFVKDGVVFTPAANRTFLAGITRSRVGLLSEAGFEVIETSLTADFEGADEIFTSGNYSKVLPVTRLEQRELQAGPVTAKARDLYDWAHATE AVDTSPRSTTWTFVDGEWLAGNPPLIGPTSHAWLGSTVFDGARWFDGIAPDLDLHCQRVNRSAEALGLKPTSAEEIEGLAWEGVKKFDGKTAIYVKPYWGEHGSWSVVAVDPESTRFALCLFEASSLTLSPFRRPTLECPTDAAGCLYPNNARILNEARSRGFDNALVRDLGNIAETGSSNIFVKDGVVFTPAANRTFLAGITRSRVGLLSEAGFEVIETSLTADFEGADEIFTSGNYSKVLPVTRLEQRELQAGPVTAKARDLYDWAHATE 4jy8-a2-m1-cA_4jy8-a2-m2-cA X-ray snapshots of possible intermediates in the time course of synthesis and degradation of protein-bound Fe4S4 clusters Q9X0Z6 Q9X0Z6 2.901 X-RAY DIFFRACTION 51 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 346 346 TGREILEKLERREFTREVLKEALSINDRGFNEALFKLADEIRRKYVGDEVHIRAIIEFSNVCRKNCLYCGLRRDNKNLKRYRMTPEEIVERARLAVQFGAKTIVLQSGEDPYYMPDVISDIVKEIKKMGVAVTLSLGEWPREYYEKWKEAGADRYLLRHETANPVLHRKLRPDTSFENRLNCLLTLKELGYETGAGSMVGLPGQTIDDLVDDLLFLKEHDFDMVGIGPFIPHPDTPLANEKKGDFTLTLKMVALTRILLPDSNIPATTAMGTIVPGGREITLRCGANVIMPNWTPSPYRQLYQLYPGKICVFEKDTACIPCVMKMIELLGRKPGRDWGGRKRVFET TGREILEKLERREFTREVLKEALSINDRGFNEALFKLADEIRRKYVGDEVHIRAIIEFSNVCRKNCLYCGLRRDNKNLKRYRMTPEEIVERARLAVQFGAKTIVLQSGEDPYYMPDVISDIVKEIKKMGVAVTLSLGEWPREYYEKWKEAGADRYLLRHETANPVLHRKLRPDTSFENRLNCLLTLKELGYETGAGSMVGLPGQTIDDLVDDLLFLKEHDFDMVGIGPFIPHPDTPLANEKKGDFTLTLKMVALTRILLPDSNIPATTAMGTIVPGGREITLRCGANVIMPNWTPSPYRQLYQLYPGKICVFEKDTACIPCVMKMIELLGRKPGRDWGGRKRVFET 4jyb-a1-m1-cB_4jyb-a1-m1-cA MeaB, A Bacterial Homolog of MMAA, Bound to GMPPNP C5AP93 C5AP93 2.1 X-RAY DIFFRACTION 172 1.0 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 315 323 2qm7-a1-m1-cB_2qm7-a1-m1-cA 2qm8-a1-m1-cB_2qm8-a1-m1-cA 4jyc-a2-m1-cB_4jyc-a2-m1-cC 4lc1-a1-m1-cB_4lc1-a1-m1-cA DMDTLRERLLAGDRAALARAITLAESRRADHRAAVRDLIDAVLPQTGRAIRVGITGVPGVGKSTTIDALGSLLTAAGHKVAVLAVDPSSTRTGGSILGDKTRMARLAIDRNAFIRPSPSSGTLGGVAAKTRETMLLCEAAGFDVILVETVGVGQSETAVADLTDFFLVLMLPGKKGIFELADMIAVNKADDGDGERRASAAASEYRAALHILTPPSATWTPPVVTISGLHGKGLDSLWSRIEDHRSKLTATGEIAGKRREQDVKWMWALVHERLHQRLVGSAEVRQATAEAERAVAGGEHSPAAGADAIATLIGL DMDTLRERLLAGDRAALARAITLAESRRADHRAAVRDLIDAVLPQTGRAIRVGITGVPGVGKSTTIDALGSLLTAAGHKVAVLAVDPSSTRTGGSILGDKTRMARLAIDRNAFIRPSPSSGTLGGVAAKTRETMLLCEAAGFDVILVETVGVGQSETAVADLTDFFLVLMLPGAGDELQGIKKGIFELADMIAVNKADDGDGERRASAAASEYRAALHILTPPSATWTPPVVTISGLHGKGLDSLWSRIEDHRSKLTATGEIAGKRREQDVKWMWALVHERLHQRLVGSAEVRQATAEAERAVAGGEHSPAAGADAIATLIGL 4jyi-a1-m1-cA_4jyi-a1-m1-cB Crystal structure of RARbeta LBD in complex with selective partial agonist BMS641 [3-chloro-4-[(E)-2-(5,5-dimethyl-8-phenyl-5,6-dihydronaphthalen-2-yl)ethenyl]benzoic acid] P10826 P10826 1.9 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 239 4jyg-a1-m1-cA_4jyg-a1-m1-cB 4jyh-a1-m1-cA_4jyh-a1-m1-cB 6ssq-a1-m1-cA_6ssq-a1-m1-cB SYEMTAELDDLTEKIRKAHQETFPSLCQLGKYTTNSSADHRVRLDLGLWDKFSELATKCIIKIVEFAKRLPGFTGLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFTFANQLLPLEMDDTETGLLSAICLICGDRQDLEEPTKVDKLQEPLLEALKIYIRKRRPSKPHMFPKILMKITDLRSISAKGAERVITLKMEIPGSMPPLIQEMME SYEMTAELDDLTEKIRKAHQETFPSLCQLGKYTTNSSADHRVRLDLGLWDKFSELATKCIIKIVEFAKRLPGFTGLTIADQITLLKAACLDILILRICTRYTPEQDTMTFSDGLTLNRTQMHNAGFGPLTDLVFTFANQLLPLEMDDTETGLLSAICLICGDRQDLEEPTKVDKLQEPLLEALKIYIRKRRPSKPHMFPKILMKITDLRSISAKGAERVITLKMEIPGSMPPLIQEMME 4jyo-a2-m1-cX_4jyo-a2-m2-cX Structural basis for angiopoietin-1 mediated signaling initiation Q15389 Q15389 2.5 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 217 PFRDCADVYQAGFNKSGIYTIYINNMPEPKKVFCNMDVNGGGWTVIQHREDGSLDFQRGWKEYKMGFGNPSGEYWLGNEFIFAITSQRQYMLRIELMDWEGNRAYSQYDRFHIGNEKQNYRLYLKGHTGTAGKQSSLILHGADFSTKDADNDNCMCKCALMLTGGWWFDACGPSNLNGMFYTAGQNHGKLNGIKWHYFKGPSYSLRSTTMMIRPLDF PFRDCADVYQAGFNKSGIYTIYINNMPEPKKVFCNMDVNGGGWTVIQHREDGSLDFQRGWKEYKMGFGNPSGEYWLGNEFIFAITSQRQYMLRIELMDWEGNRAYSQYDRFHIGNEKQNYRLYLKGHTGTAGKQSSLILHGADFSTKDADNDNCMCKCALMLTGGWWFDACGPSNLNGMFYTAGQNHGKLNGIKWHYFKGPSYSLRSTTMMIRPLDF 4jys-a2-m2-cB_4jys-a2-m1-cA Crystal structure of FKBP25 from Plasmodium Vivax A5JZC2 A5JZC2 1.9 X-RAY DIFFRACTION 31 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 114 132 DKPYVKTESGILYKDLIDGEGDPIEEGDIVYIHYQGKTTNDFRIIHSTFNSIIPPKIRAGQYDQKHIRAIYEIVIGMKKHTRRQCVVPPHLAYPNHFPSQPLLYEIDVVKVVKK DKPYVKTESGILYKDLIDGEGDPIEEGDIVYIHYQGKTTNDFRIIHSTFNSIIPPKIRAGQYDQKHIRAIYEIVIGMKKHTRRQCVVPPHLAYPNHFPSQPLLYEIDVVKVVKKDSQGKTFIEKVEQKIDQI 4jz6-a1-m1-cA_4jz6-a1-m2-cA Crystal structure of a salicylaldehyde dehydrogenase from Pseudomonas putida G7 complexed with salicylaldehyde Q1XGL7 Q1XGL7 2.417 X-RAY DIFFRACTION 204 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 484 484 HMKTKLFINNAWIDSSDQQTFERKHPVSSEVMTESANATVTDAIKAAQAAEEAFKTWKDVGPSERRRLLLKVADVMESKTPKFIEVMAMEVGASALWAGFNVHASANVFREAASLATQIQGETIPTDKAETLSMTLRQPVGPILSIVPWNGTAVLAARAIAYPLVCGNTVVFKGSEFSPATHALITQCVQEAGLPAGVLNYLNSSPDRSPEIADALISAKEIRRINFTGSTRVGSIIAQKAAQHLKRCLLELGGKSPLIVLDDADINAAVKAAVFGSFLFQGQICMSTERLVVDEKIADEFVARFVEKTERLSVGDPCLTGDCIIGPMVSPNSGERINGLFKDAIDKGAKVVCGGMAQGAVMPATILDHVKSDMRIYDEETFGPITVVIRCKGEAEAIRIANDSVYGLSSGVFGRDINRALRVGMSIEYGCVHINGSTVQNEAQAPYGGTKNTGYGRFDGRAVIDEFTELKWLTIEPFEQQYPF HMKTKLFINNAWIDSSDQQTFERKHPVSSEVMTESANATVTDAIKAAQAAEEAFKTWKDVGPSERRRLLLKVADVMESKTPKFIEVMAMEVGASALWAGFNVHASANVFREAASLATQIQGETIPTDKAETLSMTLRQPVGPILSIVPWNGTAVLAARAIAYPLVCGNTVVFKGSEFSPATHALITQCVQEAGLPAGVLNYLNSSPDRSPEIADALISAKEIRRINFTGSTRVGSIIAQKAAQHLKRCLLELGGKSPLIVLDDADINAAVKAAVFGSFLFQGQICMSTERLVVDEKIADEFVARFVEKTERLSVGDPCLTGDCIIGPMVSPNSGERINGLFKDAIDKGAKVVCGGMAQGAVMPATILDHVKSDMRIYDEETFGPITVVIRCKGEAEAIRIANDSVYGLSSGVFGRDINRALRVGMSIEYGCVHINGSTVQNEAQAPYGGTKNTGYGRFDGRAVIDEFTELKWLTIEPFEQQYPF 4jz8-a1-m1-cB_4jz8-a1-m1-cA Carbamate kinase from Giardia lamblia bound to citric acid A8BB85 A8BB85 2.1 X-RAY DIFFRACTION 158 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 311 316 3kzf-a1-m1-cA_3kzf-a1-m1-cB 4jz7-a1-m1-cA_4jz7-a1-m1-cB 4jz7-a2-m1-cC_4jz7-a2-m1-cD 4jz8-a2-m1-cC_4jz8-a2-m1-cD 4jz9-a1-m1-cA_4jz9-a1-m1-cB 4jz9-a2-m1-cC_4jz9-a2-m1-cD 4olc-a1-m1-cA_4olc-a1-m1-cB 4olc-a2-m1-cC_4olc-a2-m1-cD MSAGKTVVIALGGNAMLQAKEKGDYDTQRKNVEIAASEIYKIHKAGYKVVLTSGNGPQVGAIKLQNQAAAGVSPEMPLHVCGAMSQGFIGYMMSQAMDNVFCANNEPANCVTCVTQTLVDPKDQAFTNPTKPVGRFYTEQEAKDLMAANPGKILREDAGRGWRVVVPSPRPLEIVEYGVIKTLIDNNVLVICTNGGGIPCKRENKVISGVDAVIDKDLATSLLAKTLNSDYLMILTDVLNACINERKLEEIKLSEILALEKDGHFAAGSMGPKVRAAIEFTQATGKMSIITSLSTAVDALNGKCGTRIIKD MSAGKTVVIALGGNAMLQAKEKGDYDTQRKNVEIAASEIYKIHKAGYKVVLTSGNGPQVGAIKLQNQAAAGVSPEMPLHVCGAMSQGFIGYMMSQAMDNVFCANNEPANCVTCVTQTLVDPKDQAFTNPTKPVGRFYTEQEAKDLMAANPGKILREDAGRGWRVVVPSPRPLEIVEYGVIKTLIDNNVLVICTNGGGIPCKRENKVISGVDAVIDKDLATSLLAKTLNSDYLMILTDVLNACINYKKPDERKLEEIKLSEILALEKDGHFAAGSMGPKVRAAIEFTQATGKMSIITSLSTAVDALNGKCGTRIIKD 4jza-a3-m1-cB_4jza-a3-m1-cA Crystal structure of a Legionella phosphoinositide phosphatase: insights into lipid metabolism in pathogen host interaction D3HMN4 D3HMN4 2.584 X-RAY DIFFRACTION 108 1.0 661367 (Legionella longbeachae NSW150) 661367 (Legionella longbeachae NSW150) 805 806 GKGIIVRVPHGIELSSELLSALEVRFPGYILETYYQKPDYHRSFARRVDSLHKAFYFLIDAYPFSAKNTPLTKQTLKAYVDECKLATTDAKGSIDDLHKELERFTAKLIELIALNWGCSEIKEAVELLNEAEQYALGEGRYDLVTLLPQLGQDVDYVLQVDESLPPYYDQLLDELTLIKAKKYPKTPGWLRDLEEYQHAYFCNLDQGVTSYLEVIRDFNNFLLNWASIKKIALSLNSDLQQIVSGSPPLPSWFNGLSVHQRERILAADPTSLDKKLTQFKKFLTGDIKWEIWDTATQISSLPQWYWVLSEHQQFFLEHVLKGVDDVKDAVSFLSSRHRTLPLPANYAAHSLLGLSENGNRELSAKRYRSSHIATRDGLNWPKAVQQRHSDSNLAKVEYSKNDQLAILQTLISPIHATEYVPNWITDYLPTLPPDLDLYKLARSAVERRKETQSILQNNHPYNAKRLYYTQAYDKDSQSLLVTAKKYASFTPGLQELLDQYQSVLESALGTATIFDYAGRELFLSSLEQLIILTIGGHSYGSCVSGKDRKAIELIHTDAILYKECYGTWPVFDELPDKENRIRFVSLVADLYSRHQHEHAGQNAPGSEGIKTPEWYLPEDIAAEIRKRLDSERSLKDDDRAATDNEVKNIFIYLLPEKKLLCRLVARQLGESNCTKLYDALHSLINERNLFTPQEQSSRWTSSFFSSESNPTPDGIKQILELLSPSSGKDNIIRIEKILQVVSERPEIDGSRTEATNSVYGRLRSFLNCSEKATTFSEIVSTTVEEWTKLFEESKRAHVKEFESSH GKGIIVRVPHGIELSSELLSALEVRFPGYILETYYQKPDYHRSFARRVDSLHKAFYFLIDAYPFSAKNTPLTKQTLKAYVDECKLATTDAKGSIDDLHKELERFTAKLIELIALNWGCSEIKEAVELLNEAEQYALGEGRYDLVTLLPQLGQDVDYVLQVDESLPPYYDQLLDELTLIKAKKYPKTPGWLRDLEEYQHAYFCNLDQGVTSYLEVIRDFNNFLLNWASIKKIALSLNSDLQQIVSGSPPLPSWFNGLSVHQRERILAADPTSLDKKLTQFKKFLTGDIKWEIWDTATQISSLPQWYWVLSEHQQFFLEHVLKGVDDVKDAVSFLSSRHRTLPLPANYAAHSLLGLSENGNRELSAKRYRSSHIATRDGLNWPKAVQQRHSDSNLAKVEYSKNDQLAILQTLISPIHATEYVPNWITDYLPTLPPDLDLYKLARSAVERRKETQSILQNNHPYNAKRLYYTQAYDKDSQSLLVTAKKYASFTPGLQELLDQYQSVLESALGTATIFDYAGRELFLSSLEQLIILTIGGHSYGSCVSGKDRKAIELIHTDAILYKECYGTWPVFDELPDKENRIRFVSLVADLYSRHQHEHAGQNAPGSEGIKTPEWYLPEDIAAEIRKRLDSERSLKDDDRAATDNEVKNIFIGYLLPEKKLLCRLVARQLGESNCTKLYDALHSLINERNLFTPQEQSSRWTSSFFSSESNPTPDGIKQILELLSPSSGKDNIIRIEKILQVVSERPEIDGSRTEATNSVYGRLRSFLNCSEKATTFSEIVSTTVEEWTKLFEESKRAHVKEFESSH 4jzc-a2-m1-cA_4jzc-a2-m2-cA Angiopoietin-2 fibrinogen domain TAG mutant O15123 O15123 1.9 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 ISFRDCAEVFKSGHTTNGIYTLTFPNSTEEIKAYCDMEAGGGGWTIIQRREDGSVDFQRTWKEYKVGFGNPSGEYWLGNEFVSQLTNQQRYVLKIHLKDWEGNEAYSLYEHFYLSSEELNYRIHLKGLTGTAGKISSISQPGNDFSTKDGDNDKCICKCSQMLTGGWWFDACGPSNLNGMYYTAGQNTNKFNGIKWYYWKGSGYSLKATTMMIRPADF ISFRDCAEVFKSGHTTNGIYTLTFPNSTEEIKAYCDMEAGGGGWTIIQRREDGSVDFQRTWKEYKVGFGNPSGEYWLGNEFVSQLTNQQRYVLKIHLKDWEGNEAYSLYEHFYLSSEELNYRIHLKGLTGTAGKISSISQPGNDFSTKDGDNDKCICKCSQMLTGGWWFDACGPSNLNGMYYTAGQNTNKFNGIKWYYWKGSGYSLKATTMMIRPADF 4jzj-a1-m1-cB_4jzj-a1-m1-cL Crystal Structure of Receptor-Fab Complex 2.801 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 219 219 DIVMTQSPDSLAVSLGERATINCESSQSLLNSGNQKNYLTWYQQKPGQPPKPLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQNDYSYPYTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE DIVMTQSPDSLAVSLGERATINCESSQSLLNSGNQKNYLTWYQQKPGQPPKPLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQNDYSYPYTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE 4jzl-a1-m1-cD_4jzl-a1-m1-cA Crystal structure of BAP31 vDED at alkaline pH P51572 P51572 2.2 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 62 4jzl-a2-m1-cB_4jzl-a2-m1-cC 4jzp-a1-m1-cB_4jzp-a1-m1-cA AEVKLEEENRSLKADLQKLKDELASTKQKLEKAENQVLAMRKQSEGLTKEYDRLLEEHAKL NAEVKLEEENRSLKADLQKLKDELASTKQKLEKAENQVLAMRKQSEGLTKEYDRLLEEHAKL 4k00-a1-m1-cB_4k00-a1-m2-cB Crystal structure of Slr0204, a 1,4-dihydroxy-2-naphthoyl-CoA thioesterase from Synechocystis Q55777 Q55777 1.9 X-RAY DIFFRACTION 37 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 136 136 4k00-a1-m1-cA_4k00-a1-m2-cA TFTYERQVYLADTDGAGVVYFNQFLQMCHEAYESWLSSEHLSLQNIISVGDFALPLVHASIDFFAPAHCGDRLLVNLTITQASAHRFCCDYEISQAESAQLLARAQTHHVCIALPERKKAPLPQPWQTAICDLDHP TFTYERQVYLADTDGAGVVYFNQFLQMCHEAYESWLSSEHLSLQNIISVGDFALPLVHASIDFFAPAHCGDRLLVNLTITQASAHRFCCDYEISQAESAQLLARAQTHHVCIALPERKKAPLPQPWQTAICDLDHP 4k00-a1-m2-cB_4k00-a1-m1-cA Crystal structure of Slr0204, a 1,4-dihydroxy-2-naphthoyl-CoA thioesterase from Synechocystis Q55777 Q55777 1.9 X-RAY DIFFRACTION 43 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 136 137 4k00-a1-m1-cB_4k00-a1-m2-cA TFTYERQVYLADTDGAGVVYFNQFLQMCHEAYESWLSSEHLSLQNIISVGDFALPLVHASIDFFAPAHCGDRLLVNLTITQASAHRFCCDYEISQAESAQLLARAQTHHVCIALPERKKAPLPQPWQTAICDLDHP GTFTYERQVYLADTDGAGVVYFNQFLQMCHEAYESWLSSEHLSLQNIISVGDFALPLVHASIDFFAPAHCGDRLLVNLTITQASAHRFCCDYEISQAESAQLLARAQTHHVCIALPERKKAPLPQPWQTAICDLDHP 4k00-a1-m2-cB_4k00-a1-m2-cA Crystal structure of Slr0204, a 1,4-dihydroxy-2-naphthoyl-CoA thioesterase from Synechocystis Q55777 Q55777 1.9 X-RAY DIFFRACTION 55 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 136 137 4k00-a1-m1-cB_4k00-a1-m1-cA TFTYERQVYLADTDGAGVVYFNQFLQMCHEAYESWLSSEHLSLQNIISVGDFALPLVHASIDFFAPAHCGDRLLVNLTITQASAHRFCCDYEISQAESAQLLARAQTHHVCIALPERKKAPLPQPWQTAICDLDHP GTFTYERQVYLADTDGAGVVYFNQFLQMCHEAYESWLSSEHLSLQNIISVGDFALPLVHASIDFFAPAHCGDRLLVNLTITQASAHRFCCDYEISQAESAQLLARAQTHHVCIALPERKKAPLPQPWQTAICDLDHP 4k02-a1-m1-cA_4k02-a1-m2-cB Crystal structure of AtDHNAT1, a 1,4-dihydroxy-2-naphthoyl-CoA thioesterase from Arabidopsis thaliana Q9SX65 Q9SX65 1.9 X-RAY DIFFRACTION 34 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 127 127 4k02-a1-m1-cB_4k02-a1-m2-cA AIDPPLHMLGFEFDELSPTRITGRLPVSPVCCQPFKVLHGGVSALIAESLASMGAHMASGFKRVAGIQLSINHLKSADLGDLVFAEATPVSTGKTIQVWEVKLWKTTQKDKANKILISSSRVTLICN AIDPPLHMLGFEFDELSPTRITGRLPVSPVCCQPFKVLHGGVSALIAESLASMGAHMASGFKRVAGIQLSINHLKSADLGDLVFAEATPVSTGKTIQVWEVKLWKTTQKDKANKILISSSRVTLICN 4k02-a1-m1-cB_4k02-a1-m2-cB Crystal structure of AtDHNAT1, a 1,4-dihydroxy-2-naphthoyl-CoA thioesterase from Arabidopsis thaliana Q9SX65 Q9SX65 1.9 X-RAY DIFFRACTION 16 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 127 127 4k02-a1-m1-cA_4k02-a1-m2-cA AIDPPLHMLGFEFDELSPTRITGRLPVSPVCCQPFKVLHGGVSALIAESLASMGAHMASGFKRVAGIQLSINHLKSADLGDLVFAEATPVSTGKTIQVWEVKLWKTTQKDKANKILISSSRVTLICN AIDPPLHMLGFEFDELSPTRITGRLPVSPVCCQPFKVLHGGVSALIAESLASMGAHMASGFKRVAGIQLSINHLKSADLGDLVFAEATPVSTGKTIQVWEVKLWKTTQKDKANKILISSSRVTLICN 4k02-a1-m2-cA_4k02-a1-m2-cB Crystal structure of AtDHNAT1, a 1,4-dihydroxy-2-naphthoyl-CoA thioesterase from Arabidopsis thaliana Q9SX65 Q9SX65 1.9 X-RAY DIFFRACTION 107 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 127 127 4k02-a1-m1-cA_4k02-a1-m1-cB AIDPPLHMLGFEFDELSPTRITGRLPVSPVCCQPFKVLHGGVSALIAESLASMGAHMASGFKRVAGIQLSINHLKSADLGDLVFAEATPVSTGKTIQVWEVKLWKTTQKDKANKILISSSRVTLICN AIDPPLHMLGFEFDELSPTRITGRLPVSPVCCQPFKVLHGGVSALIAESLASMGAHMASGFKRVAGIQLSINHLKSADLGDLVFAEATPVSTGKTIQVWEVKLWKTTQKDKANKILISSSRVTLICN 4k05-a3-m1-cA_4k05-a3-m1-cB Crystal structure of a DUF1343 family protein (BF0371) from Bacteroides fragilis NCTC 9343 at 1.65 A resolution A0A380YTY6 A0A380YTY6 1.65 X-RAY DIFFRACTION 79 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 372 372 PRIRIKTGIEVLKEQNFKCLEGKRVGLITNPTGVDNHLISTIDILHEAPNVNLVALYGPEHGVRGDVHANDSSTGLPVYSLYGKTRKPTPELKDIDVLVYDIQDIGCRSFTYISTGVAEAAAENNKEFIVLDRPNPIGGLKIEGNVVEDGYISFVSQFKIPYLYGLTCGELALLNGEQLSKPCNLHVVKKGWKRKDYVQTGLQWIPSSPHIPHPHSAFFYPVSGILGELGYSIGVGYTIPFQFAARWVEAEKLADNLNRLHLPGVIFRPHLKPFYSVGKEEHLQGVQVHIVDFNKASLSEIQFYVQEVTALYPDRAVFDHADKERFHFDLVSGSKEIRERFSQRNRWEDVRDYWYKDVDDFRRLSQKYYLYK PRIRIKTGIEVLKEQNFKCLEGKRVGLITNPTGVDNHLISTIDILHEAPNVNLVALYGPEHGVRGDVHANDSSTGLPVYSLYGKTRKPTPELKDIDVLVYDIQDIGCRSFTYISTGVAEAAAENNKEFIVLDRPNPIGGLKIEGNVVEDGYISFVSQFKIPYLYGLTCGELALLNGEQLSKPCNLHVVKKGWKRKDYVQTGLQWIPSSPHIPHPHSAFFYPVSGILGELGYSIGVGYTIPFQFAARWVEAEKLADNLNRLHLPGVIFRPHLKPFYSVGKEEHLQGVQVHIVDFNKASLSEIQFYVQEVTALYPDRAVFDHADKERFHFDLVSGSKEIRERFSQRNRWEDVRDYWYKDVDDFRRLSQKYYLYK 4k08-a2-m1-cA_4k08-a2-m2-cA Periplasmic sensor domain of chemotaxis protein, Adeh_3718 Q2IFX2 Q2IFX2 2 X-RAY DIFFRACTION 67 1.0 290397 (Anaeromyxobacter dehalogenans 2CP-C) 290397 (Anaeromyxobacter dehalogenans 2CP-C) 140 140 ARLAERQAKVRALVEAAHGLVEHQGARAARGEISADEARRAALEALRALRYDGSEYFWVNDLEPRVHPTNPQLDGQDLSGYRDPNGKLLFQFVRTVRARGSGFVDYLWPKPGSTVPVPKISFVTQYQPWGWVVGSGLYVD ARLAERQAKVRALVEAAHGLVEHQGARAARGEISADEARRAALEALRALRYDGSEYFWVNDLEPRVHPTNPQLDGQDLSGYRDPNGKLLFQFVRTVRARGSGFVDYLWPKPGSTVPVPKISFVTQYQPWGWVVGSGLYVD 4k0d-a2-m1-cA_4k0d-a2-m2-cB Periplasmic sensor domain of sensor histidine kinase, Adeh_2942 Q2IDQ5 Q2IDQ5 1.997 X-RAY DIFFRACTION 40 1.0 290397 (Anaeromyxobacter dehalogenans 2CP-C) 290397 (Anaeromyxobacter dehalogenans 2CP-C) 141 143 4k0d-a2-m2-cA_4k0d-a2-m1-cB IAASADAQLELIGPRAAAAASLESAVLHVSLTARAYALTPEPARDALQAALRRLEGAAARFAALPKSPEGAALSGRILAAVPPFEKAAVALGTAVATGGDDSAIRAREATLPPREELLSLLRTFGALQQAHDAGASHTILA IAASADAQLELIGPRAAAAASLESAVLHVSLTARAYALTPEPARDALQAALRRLEGAAARFAALPKSPEGAALSGRILAAVPPFEKAAVALGTAVATGGDDSAIRAREATLPPREELLSLLRTFGALQQAHDAGASHTILAYQ 4k0d-a2-m1-cB_4k0d-a2-m2-cB Periplasmic sensor domain of sensor histidine kinase, Adeh_2942 Q2IDQ5 Q2IDQ5 1.997 X-RAY DIFFRACTION 17 1.0 290397 (Anaeromyxobacter dehalogenans 2CP-C) 290397 (Anaeromyxobacter dehalogenans 2CP-C) 143 143 IAASADAQLELIGPRAAAAASLESAVLHVSLTARAYALTPEPARDALQAALRRLEGAAARFAALPKSPEGAALSGRILAAVPPFEKAAVALGTAVATGGDDSAIRAREATLPPREELLSLLRTFGALQQAHDAGASHTILAYQ IAASADAQLELIGPRAAAAASLESAVLHVSLTARAYALTPEPARDALQAALRRLEGAAARFAALPKSPEGAALSGRILAAVPPFEKAAVALGTAVATGGDDSAIRAREATLPPREELLSLLRTFGALQQAHDAGASHTILAYQ 4k0d-a2-m2-cA_4k0d-a2-m2-cB Periplasmic sensor domain of sensor histidine kinase, Adeh_2942 Q2IDQ5 Q2IDQ5 1.997 X-RAY DIFFRACTION 77 1.0 290397 (Anaeromyxobacter dehalogenans 2CP-C) 290397 (Anaeromyxobacter dehalogenans 2CP-C) 141 143 4k0d-a1-m1-cA_4k0d-a1-m1-cB 4k0d-a2-m1-cA_4k0d-a2-m1-cB IAASADAQLELIGPRAAAAASLESAVLHVSLTARAYALTPEPARDALQAALRRLEGAAARFAALPKSPEGAALSGRILAAVPPFEKAAVALGTAVATGGDDSAIRAREATLPPREELLSLLRTFGALQQAHDAGASHTILA IAASADAQLELIGPRAAAAASLESAVLHVSLTARAYALTPEPARDALQAALRRLEGAAARFAALPKSPEGAALSGRILAAVPPFEKAAVALGTAVATGGDDSAIRAREATLPPREELLSLLRTFGALQQAHDAGASHTILAYQ 4k0j-a2-m1-cE_4k0j-a2-m1-cD X-ray crystal structure of a heavy metal efflux pump, crystal form I Q1LCD8 Q1LCD8 3 X-RAY DIFFRACTION 164 0.987 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 954 958 4k0e-a1-m1-cB_4k0e-a1-m1-cA 4k0e-a1-m1-cC_4k0e-a1-m1-cA 4k0e-a1-m1-cC_4k0e-a1-m1-cB 4k0j-a1-m1-cA_4k0j-a1-m1-cC 4k0j-a1-m1-cB_4k0j-a1-m1-cA 4k0j-a1-m1-cB_4k0j-a1-m1-cC 4k0j-a2-m1-cD_4k0j-a2-m1-cF 4k0j-a2-m1-cE_4k0j-a2-m1-cF RLVTLCFNRRGIVALVFAMVALYGWYAWKQLPLEAYPDIADTTSQVVTQVNGLAAEEVEQQITIPLEREIMGVPGMHVMRSKSTFGLSLITVVFKDGAEDYWSRQRLQERINGVPSLDPLTSPIGEIYRYTLVSKTRDLRELSELQFWKVIPRLKQVAGVVDVANFGGLTTQFMLEFDPVMLYNISLNQITQAISENNANAGGSILNRGEQGLVVRGVGLIRNLDDLGNIVVDLGRVVLGNPQRHGILGMDRNPDTIQGITLLLKNENPSVVMEGVHAAVRDLNDNILPKDVKVVPYIDRSNLVDATVHTVGKTLMEGMFLVSLVLLLFLGSPRAAIIVAVTIPLSLLMAFILMHHFKIPANLLSLGAIDFGIIVDGAIVVMENILRRREIMQSVLQVARPIFFGMIVIITAYLPLFAFQRIEYKLFSPMAFAVGFALFGALLVALLLIPGLAALVWLAPRYESVLNRLVGSTRTAIGIAVATLVGVMILGATIGRDFLPYLDEGSIWLQVTLPPGISLEKAGQMADNLRAATMEFPEVEHVVTQVGRNDEGTDPFSPSHIETAVTLHPYSTWTSGRDKQQLIEAMATRFRDLPGTQVGFSQPMIDGVLDKLAGAHSDLVVKVYGNDFAETRQVATAITRLLKTVPGAQDVIIDQEPPLPQVRIDVDRAAAARLGINVADVMALIQTGIGGSPVTQVFVEDRSYNVVARFIGSSRNDPEAIGNLTLTAANGAHVALAQVAHIRLAEGETTITREMNKRHLTVRLNLRGRDLSTFLEEARMRIDKEVPYDIQVAWGGQFENQQRAQARLAVILPMVLALMFVLLFGRQPALILMAVPLATLGGLVALHLRGMTLNVSSAVGFIALFGVAVLNAIIMIANLNRWREAVVRGAGERMRPVLMTATVAALGLIPAALAHGLGSDVQRPLATVVVGGLITATALTLVLLPALYYLIETR RLVTLCFNRRGIVALVFAMVALYGWYAWKQLPLEAYPDIADTTSQVVTQVNGLAAEEVEQQITIPLEREIMGVPGMHVMRSKSTFGLSLITVVFKDGAEDYWSRQRLQERINGVSLPYGAQPSLDPLTSPIGEIYRYTLVSKTRDLRELSELQFWKVIPRLKQVAGVVDVANFGGLTTQFMLEFDPVMLSKYNISLNQITQAISENNANAGGSILNRGEQGLVVRGVGLIRNLDDLGNIVVTQGRVVLGNPQRHGILGMDRNPDTIQGITLLLKNENPSVVMEGVHAAVRDLNDNILPKDVKVVPYIDRSNLVDATVHTVGKTLMEGMFLVSLVLLLFLGSPRAAIIVAVTIPLSLLMAFILMHHFKIPANLLSLGAIDFGIIVDGAIVVMENILRRRDIMQSVLQVARPIFFGMIVIITAYLPLFAFQRIEYKLFSPMAFAVGFALFGALLVALLLIPGLAALVWLAPRYESVLNRSTRTAIGIAVATLVGVMILGATIGRDFLPYLDEGSIWLQVTLPPGISLEKAGQMADNLRAATMEFPEVEHVVTQVGRNDEGTDPFSPSHIETAVTLHPYSTWTSGRDKQQLIEAMATRFRDLPGTQVGFSQPMIDGVLDKLAGAHSDLVVKVYGNDFAETRQVATAITRLLKTVPGAQDVIIDQEPPLPQVRIDVDRAAAARLGINVADVMALIQTGIGGSPVTQVFVEDRSYNVVARFIGSSRNDPEAIGNLTLTAANGAHVALAQVAHIRLAEGETTITREMNKRHLTVRLNLRGRDLSTFLEEARMRIDKEVPYDRTHIQVAWGGQFENQQRAQARLAVILPMVLALMFVLLFQPALILMAVPLATLGGLVALHLRGMTLNVSSAVGFIALFGVAVLNAIIMIANLKEAVVRGAGERMRPVLMTATVAALGLIPAALAHGLGSDVQRPLATVVVGGLITATALTLVLLPALYYLIETR 4k0u-a1-m1-cA_4k0u-a1-m2-cA Pilotin/secretin peptide Complex Q01567 Q01567 2.15 X-RAY DIFFRACTION 29 1.0 198628 (Dickeya dadantii 3937) 198628 (Dickeya dadantii 3937) 95 95 VPANEQISQLASLVAASKYLRVQCERSDLPDDGTILKTAVNVAVQKGWDTGRYQSLPQLSENLYQGLLKDGTPKATQCSSFNRTMTPFLDAMRTV VPANEQISQLASLVAASKYLRVQCERSDLPDDGTILKTAVNVAVQKGWDTGRYQSLPQLSENLYQGLLKDGTPKATQCSSFNRTMTPFLDAMRTV 4k15-a1-m2-cC_4k15-a1-m1-cA 2.75 Angstrom Crystal Structure of Hypothetical Protein lmo2686 from Listeria monocytogenes EGD-e Q8Y3Z3 Q8Y3Z3 2.75 X-RAY DIFFRACTION 89 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 129 137 4k15-a1-m1-cB_4k15-a1-m1-cA 4k15-a1-m1-cC_4k15-a1-m2-cA 4k15-a1-m2-cB_4k15-a1-m2-cA FDLNGNIAQEKEIVLEDGTEGTLGVPILKGTYSLANGTSTWKIYWYSGVYNCSFNAKINVSKGKGKITSAYNPWYQFYSPGLDVKKSKLSKTSSGSSASYVFDCKNKISNWNVTLKASVSGKKLTTSFK ETFDLNGNIAQEKEIVLEDGTEGTLGVPIIDERPLLKGTYSLANGTSTWKIYWYSGVYNCSFNAKINVSKGKGKITSAYNPWYQFYSPGLDVKKSKLSKTSSGSSASYVFDCKNKISNWNVTLKASVSGKKLTTSFK 4k1c-a3-m5-cB_4k1c-a3-m6-cB VCX1 Calcium/Proton Exchanger Q99385 Q99385 2.3 X-RAY DIFFRACTION 93 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 371 371 4k1c-a3-m1-cA_4k1c-a3-m2-cA 4k1c-a3-m1-cA_4k1c-a3-m3-cA 4k1c-a3-m2-cA_4k1c-a3-m3-cA 4k1c-a3-m4-cB_4k1c-a3-m5-cB 4k1c-a3-m4-cB_4k1c-a3-m6-cB TAWRAAVYDLQYILKASPLNFLLVFVPLGLIWGHFQLSHTLTFLFNFLAIIPLAAILANATEELADKAGNTIGGLLNATFGNAVELIVSIIALKKGQVRIVQASMLGSLLSNLLLVLGLCFIFGGYNRVQQTFNQTAAQTMSSLLAIACASLLIPAAFRATLPDGKILELSRGTSIVILIVYVLFLYFQLGSHHALFEQQEEETDEVMSTISRNPHHSLSVKSSLVILLGTTVIISFCADFLVGTIDNVVESTGLSKTFIGLIVIPIVGNAAEHVTSVLVAMKDKMDLALGVAIGSSLQVALFVTPFMVLVGWMIDVPMTLNFSTFETATLFIAVFLSNYLILDGESNWLEGVMSLAMYILIAMAFFYYPD TAWRAAVYDLQYILKASPLNFLLVFVPLGLIWGHFQLSHTLTFLFNFLAIIPLAAILANATEELADKAGNTIGGLLNATFGNAVELIVSIIALKKGQVRIVQASMLGSLLSNLLLVLGLCFIFGGYNRVQQTFNQTAAQTMSSLLAIACASLLIPAAFRATLPDGKILELSRGTSIVILIVYVLFLYFQLGSHHALFEQQEEETDEVMSTISRNPHHSLSVKSSLVILLGTTVIISFCADFLVGTIDNVVESTGLSKTFIGLIVIPIVGNAAEHVTSVLVAMKDKMDLALGVAIGSSLQVALFVTPFMVLVGWMIDVPMTLNFSTFETATLFIAVFLSNYLILDGESNWLEGVMSLAMYILIAMAFFYYPD 4k1c-a3-m6-cB_4k1c-a3-m1-cA VCX1 Calcium/Proton Exchanger Q99385 Q99385 2.3 X-RAY DIFFRACTION 18 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 371 374 4k1c-a3-m4-cB_4k1c-a3-m2-cA 4k1c-a3-m5-cB_4k1c-a3-m3-cA TAWRAAVYDLQYILKASPLNFLLVFVPLGLIWGHFQLSHTLTFLFNFLAIIPLAAILANATEELADKAGNTIGGLLNATFGNAVELIVSIIALKKGQVRIVQASMLGSLLSNLLLVLGLCFIFGGYNRVQQTFNQTAAQTMSSLLAIACASLLIPAAFRATLPDGKILELSRGTSIVILIVYVLFLYFQLGSHHALFEQQEEETDEVMSTISRNPHHSLSVKSSLVILLGTTVIISFCADFLVGTIDNVVESTGLSKTFIGLIVIPIVGNAAEHVTSVLVAMKDKMDLALGVAIGSSLQVALFVTPFMVLVGWMIDVPMTLNFSTFETATLFIAVFLSNYLILDGESNWLEGVMSLAMYILIAMAFFYYPD TAWRAAVYDLQYILKASPLNFLLVFVPLGLIWGHFQLSHTLTFLFNFLAIIPLAAILANATEELADKAGNTIGGLLNATFGNAVELIVSIIALKKGQVRIVQASMLGSLLSNLLLVLGLCFIFGGYNRVQQTFNQTAAQTMSSLLAIACASLLIPAAFRATLPFIDGKILELSRGTSIVILIVYVLFLYFQLGSHHALFEQQEEETDEVMSTISRNPHHSLSVKSSLVILLGTTVIISFCADFLVGTIDNVVESTGLSKTFIGLIVIPIVGNAAEHVTSVLVAMKDKMDLALGVAIGSSLQVALFVTPFMVLVGWMIDVPMTLNFSTFETATLFIAVFLSNYLILDGESNWLEGVMSLAMYILIAMAFFYYPDE 4k1r-a3-m1-cA_4k1r-a3-m1-cC Crystal structure of Schizosaccharomyces pombe sst2 catalytic domain and Ubiquitin Q9P371 Q9P371 1.632 X-RAY DIFFRACTION 53 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 189 189 TFKIHAYTEGGKPLRTIYLPKLLKKVFLDVVKPNTKKNLETCGILCGKLRQNAFFITHLVIPLQEATSDTCGTTDEASLFEFQDKHNLLTLGWIHTHPTQTCFMSSVDLHTHCSYQLMLPEAIAIVMAPSKNTSGIFRLLDPEGLQTIVKCRKPGLFHPHEGKVYTMVAQPGHVREINSKLQVVDLRVK TFKIHAYTEGGKPLRTIYLPKLLKKVFLDVVKPNTKKNLETCGILCGKLRQNAFFITHLVIPLQEATSDTCGTTDEASLFEFQDKHNLLTLGWIHTHPTQTCFMSSVDLHTHCSYQLMLPEAIAIVMAPSKNTSGIFRLLDPEGLQTIVKCRKPGLFHPHEGKVYTMVAQPGHVREINSKLQVVDLRVK 4k1t-a1-m1-cA_4k1t-a1-m2-cC Gly-Ser-SplB protease from Staphylococcus aureus at 1.60 A resolution Q2FXC3 Q2FXC3 1.6 X-RAY DIFFRACTION 25 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 202 203 4k1t-a1-m1-cB_4k1t-a1-m2-cB 4k1t-a1-m2-cA_4k1t-a1-m1-cC GSENNVTKVKDTNIFPYTGVVAFKSATGFVVGKNTILTNKHVSKNYKVGDRITAHPNSDKGNGGIYSIKKIINYPGKEDVSVIQVEERAIERGPKGFNFNDNVTPFKYAAGAKAGERIKVIGYPHPYKNKYVLYESTGPVMSVEGSSIVYSAHTESGNSGSPVLNSNNELVGIHFASDDNRNAYGVYFTPEIKKFIAENIDK GSENNVTKVKDTNIFPYTGVVAFKSATGFVVGKNTILTNKHVSKNYKVGDRITAHPNSDKGNGGIYSIKKIINYPGKEDVSVIQVEERAIERGPKGFNFNDNVTPFKYAAGAKAGERIKVIGYPHPYKNKYVLYESTGPVMSVEGSSIVYSAHTESGNSGSPVLNSNNELVGIHFASDDDNRNAYGVYFTPEIKKFIAENIDK 4k1t-a1-m2-cB_4k1t-a1-m2-cC Gly-Ser-SplB protease from Staphylococcus aureus at 1.60 A resolution Q2FXC3 Q2FXC3 1.6 X-RAY DIFFRACTION 36 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 202 203 4k1t-a1-m1-cA_4k1t-a1-m1-cB 4k1t-a1-m1-cA_4k1t-a1-m1-cC 4k1t-a1-m1-cB_4k1t-a1-m1-cC 4k1t-a1-m2-cA_4k1t-a1-m2-cB 4k1t-a1-m2-cA_4k1t-a1-m2-cC GSENNVTKVKDTNIFPYTGVVAFKSATGFVVGKNTILTNKHVSKNYKVGDRITAHPNSDKGNGGIYSIKKIINYPGKEDVSVIQVEERAIERGPKGFNFNDNVTPFKYAAGAKAGERIKVIGYPHPYKNKYVLYESTGPVMSVEGSSIVYSAHTESGNSGSPVLNSNNELVGIHFASDDNRNAYGVYFTPEIKKFIAENIDK GSENNVTKVKDTNIFPYTGVVAFKSATGFVVGKNTILTNKHVSKNYKVGDRITAHPNSDKGNGGIYSIKKIINYPGKEDVSVIQVEERAIERGPKGFNFNDNVTPFKYAAGAKAGERIKVIGYPHPYKNKYVLYESTGPVMSVEGSSIVYSAHTESGNSGSPVLNSNNELVGIHFASDDDNRNAYGVYFTPEIKKFIAENIDK 4k22-a1-m1-cB_4k22-a1-m2-cB Structure of the C-terminal truncated form of E.Coli C5-hydroxylase UBII involved in ubiquinone (Q8) biosynthesis P25535 P25535 2 X-RAY DIFFRACTION 14 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 353 353 4k22-a1-m1-cA_4k22-a1-m2-cA QSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQNAPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNP QSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQNAPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNP 4k22-a1-m2-cB_4k22-a1-m1-cA Structure of the C-terminal truncated form of E.Coli C5-hydroxylase UBII involved in ubiquinone (Q8) biosynthesis P25535 P25535 2 X-RAY DIFFRACTION 26 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 353 354 4k22-a1-m1-cB_4k22-a1-m2-cA QSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQNAPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNP MQSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQRPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNPA 4k22-a1-m2-cB_4k22-a1-m2-cA Structure of the C-terminal truncated form of E.Coli C5-hydroxylase UBII involved in ubiquinone (Q8) biosynthesis P25535 P25535 2 X-RAY DIFFRACTION 123 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 353 354 4k22-a1-m1-cB_4k22-a1-m1-cA QSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQNAPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNP MQSVDVAIVGGGMVGLAVACGLQGSGLRVAVLEQRPPQLRVSAINAASEKLLTRLGVWQDILSRRASCYHGMEVWDKDSFGHISFDDQSMGYSHLGHIVENSVIHYALWNKAHQSSDITLLAPAELQQVAWGENETFLTLKDGSMLTARLVIGADGANSWLRNKADIPLTFWDYQHHALVATIRTEEPHDAVARQVFHGEGILAFLPLSDPHLCSIVWSLSPEEAQRMQQASEDEFNRALNIAFDNRLGLCKVESARQVFPLTGRYARQFASHRLALVGDAAHTIHPLAGQGVNLGFMDAAELIAELKRLHRQGKDIGQYIYLRRYERSRKHSAALMLAGMQGFRDLFSGTNPA 4k28-a3-m1-cB_4k28-a3-m2-cA 2.15 Angstrom resolution crystal structure of a shikimate dehydrogenase family protein from Pseudomonas putida KT2440 in complex with NAD+ Q88JP1 Q88JP1 2.15 X-RAY DIFFRACTION 109 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 266 266 RGSTELVAIVGSPIAQVKSPQNFNTWFNHNNCNLAMLPIDLHEAALDSFADTLRGWQNLRGCVVTVPYKQALANRVDGLSERAAALGSINVIRRERDGRLLGDNVDGAGFLGAAHKHGFEPAGKRALVIGCGGVGSAIAYALAEAGIASITLCDPSTARMGAVCELLGNGFPGLTVSTQFSGLEDFDLVANASPVGMGTRAELPLSAALLATLQPDTLVADVVTSPEITPLLNRARQVGCRIQTGPEMAFAQLGHLGAFMGVTPLE RGSTELVAIVGSPIAQVKSPQNFNTWFNHNNCNLAMLPIDLHEAALDSFADTLRGWQNLRGCVVTVPYKQALANRVDGLSERAAALGSINVIRRERDGRLLGDNVDGAGFLGAAHKHGFEPAGKRALVIGCGGVGSAIAYALAEAGIASITLCDPSTARMGAVCELLGNGFPGLTVSTQFSGLEDFDLVANASPVGMGTRAELPLSAALLATLQPDTLVADVVTSPEITPLLNRARQVGCRIQTGPEMAFAQLGHLGAFMGVTPLE 4k2h-a7-m1-cM_4k2h-a7-m1-cN Crystal structure of C103A mutant of DJ-1 superfamily protein STM1931 from Salmonella typhimurium Q8ZNU7 Q8ZNU7 2.2 X-RAY DIFFRACTION 76 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 185 185 4k2h-a1-m1-cA_4k2h-a1-m1-cB 4k2h-a2-m1-cC_4k2h-a2-m1-cD 4k2h-a3-m1-cE_4k2h-a3-m1-cF 4k2h-a4-m1-cH_4k2h-a4-m1-cG 4k2h-a5-m1-cI_4k2h-a5-m1-cJ 4k2h-a6-m1-cK_4k2h-a6-m1-cL MKKVAVLLAPGFEEAEAIVTLDILRRLHIDVETLACAESRAVVSYHDIPMVADSTLSERQQALFDAVVLPGGPQGSANLAANPAVIAFVARHDAAGKLICPIASAAARVLGAHGLLKGRRYVCSGDLWKAVPEGVYVDAPVVEDGNLISGKGLGHVFDFALTLSARLLGDDAPVREQAEHIYYPW MKKVAVLLAPGFEEAEAIVTLDILRRLHIDVETLACAESRAVVSYHDIPMVADSTLSERQQALFDAVVLPGGPQGSANLAANPAVIAFVARHDAAGKLICPIASAAARVLGAHGLLKGRRYVCSGDLWKAVPEGVYVDAPVVEDGNLISGKGLGHVFDFALTLSARLLGDDAPVREQAEHIYYPW 4k2m-a1-m1-cB_4k2m-a1-m1-cA Crystal structure of ntda from bacillus subtilis in complex with the plp external aldimine adduct with kanosamine-6-phosphate O07566 O07566 1.71 X-RAY DIFFRACTION 174 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 439 442 4k2b-a1-m1-cA_4k2b-a1-m1-cB 4k2i-a1-m1-cA_4k2i-a1-m1-cB MQKQVKISGKSKENMSLLKHLKGDVQGKELVIEDSIVNERWKQVLKEKIDIEHDLFNYQKNREISKVPFLPVDRLITNDEVEDILNTLTEVLPTGKFTSGPYLEQFEKVLSTYLHKRYVIATSSGTDAIMIGLLALGLNPGDEVIMPANSFSATENAVLASGGVPIYVDINPQTFCIDPDKIEEAITPYTKFILPVHLYGKHSDMQHIRQIANRYKLKVIEDACQGIGLTDLGKYADITTLSFNPYKNFGVCGKAGAIATDNEELAKKCIQFSYHGFEVNVKNKKVINFGFNSKMDNLQAAIGLERMKYLSLNNFKRLFLADRYITQLAELQNKGYIELPELSEDHVWHLFPIKVRTEDRADIMTKLNEDFGVQTDVYYPILSHMQKTPLVQDKYAGLQLVHTEKAHSQVLHLPLYPSFTLEEQDRVMEGLFHVIKQEI AGMQKQVKISGKSKENMSLLKHLKGDVQGKELVIEDSIVNERWKQVLKEKIDIEHDLFNYQKNREISKVPFLPVDRLITNDEVEDILNTLTEVLPTGKFTSGPYLEQFEKVLSTYLHKRYVIATSSGTDAIMIGLLALGLNPGDEVIMPANSFSATENAVLASGGVPIYVDINPQTFCIDPDKIEEAITPYTKFILPVHLYGKHSDMQHIRQIANRYKLKVIEDACQGIGLTDLGKYADITTLSFNPYKNFGVCGKAGAIATDNEELAKKCIQFSYHGFEVNVKNKKVINFGFNSKMDNLQAAIGLERMKYLSLNNFKRLFLADRYITQLAELQNKGYIELPELSEDHVWHLFPIKVRTEDRADIMTKLNEDFGVQTDVYYPILSHMQKTPLVQDKYAGLQLVHTEKAHSQVLHLPLYPSFTLEEQDRVMEGLFHVIKQEIG 4k2n-a1-m2-cA_4k2n-a1-m3-cA Crystal structure of an enoyl-CoA hydratase/ carnithine racemase from Magnetospirillum magneticum Q2W7Q6 Q2W7Q6 2 X-RAY DIFFRACTION 117 1.0 342108 (Magnetospirillum magneticum AMB-1) 342108 (Magnetospirillum magneticum AMB-1) 260 260 4k2n-a1-m1-cA_4k2n-a1-m2-cA 4k2n-a1-m1-cA_4k2n-a1-m3-cA GTENLYFQSDVIQLVREGAIATVTLNRPDRNALNLPWRGLAEAFETISADRSIHVVILRGAGTKAFAPGADIEEFDTLRANAEQAKAYDLVRKALDTVRACPQPVIAAIWGPCVGGGLELACCCDIRLSAKSGKFGVPINKISVVAYPELAQIRRVAGPAAALEILLEGRIDADEAAAKRLVNRVVEDDADAEVAATAKRIAAGAPLANRWHKAFIARLDDPTPVSEAELDECYRFLDTKDYAEGLAAFRAKRKPVFTAE GTENLYFQSDVIQLVREGAIATVTLNRPDRNALNLPWRGLAEAFETISADRSIHVVILRGAGTKAFAPGADIEEFDTLRANAEQAKAYDLVRKALDTVRACPQPVIAAIWGPCVGGGLELACCCDIRLSAKSGKFGVPINKISVVAYPELAQIRRVAGPAAALEILLEGRIDADEAAAKRLVNRVVEDDADAEVAATAKRIAAGAPLANRWHKAFIARLDDPTPVSEAELDECYRFLDTKDYAEGLAAFRAKRKPVFTAE 4k2x-a1-m1-cA_4k2x-a1-m1-cB OxyS anhydrotetracycline hydroxylase from Streptomyces rimosus L8EUQ6 L8EUQ6 2.55 X-RAY DIFFRACTION 70 1.0 1265868 (Streptomyces rimosus subsp. rimosus ATCC 10970) 1265868 (Streptomyces rimosus subsp. rimosus ATCC 10970) 488 490 MRYDVVIAGAGPTGLMLACELRLAGARTLVLERLAEPVDFSKALGVHARTVELLDMRGLGEGFQAEAPKLRGGNFASLGVPLDFSSFDTRHPYALFVPQVRTEELLTGRALELGAELRRGHAVTALEQDADGVTVSVTGPEGPYEVECAYLVGCDGGGSTVRKLLGIDFPGQDPHMFAVIADARFREELPHGPYGVMRHDLRAWFAAFPLEPDVYRATVAFFDAPVTEEDVRAALTEVAGSDFGMHDVRWLSRLTDTSRQAERYRDGRVLLAGDACHIHLPAGGQGLNLGFQDAVNLGWKLGATIAGTAPPELLDTYEAERRPIAAGVLRNTRAQAVLIDPDPRYEGLRELMIELLHVPETNRYLAGLISALDVRYPMAGEHPLLGRRVPDLPLVTEDGTRQLSTYFHAARGVLLTLGCDQPLADEAAAWKDRVDLVAAEGVADPGSAVDGLTALLVRPDGYICWTAAPETGTDGLTDALRTWFGPPA MRYDVVIAGAGPTGLMLACELRLAGARTLVLERLAEPVDFSKALGVHARTVELLDMRGLGEGFQAEAPKLRGGNFASLGVPLDFSSFDTRHPYALFVPQVRTEELLTGRALELGAELRRGHAVTALEQDADGVTVSVTGPEGPYEVECAYLVGCDGGGSTVRKLLGIDFPGQDPHMFAVIADARFREELPHGPYGVMRHDLRAWFAAFPLEPDVYRATVAFFDRRAPVTEEDVRAALTEVAGSDFGMHDVRWLSRLTDTSRQAERYRDGRVLLAGDACHIHLPAGGQGLNLGFQDAVNLGWKLGATIAGTAPPELLDTYEAERRPIAAGVLRNTRAQAVLIDPDPRYEGLRELMIELLHVPETNRYLAGLISALDVRYPMAGEHPLLGRRVPDLPLVTEDGTRQLSTYFHAARGVLLTLGCDQPLADEAAAWKDRVDLVAAEGVADPGSAVDGLTALLVRPDGYICWTAAPETGTDGLTDALRTWFGPPA 4k30-a3-m1-cY_4k30-a3-m3-cY Structure of the N-acetyltransferase domain of human N-acetylglutamate synthase Q8N159 Q8N159 2.103 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 149 4k30-a1-m1-cB_4k30-a1-m1-cA 4k30-a2-m1-cX_4k30-a2-m2-cX MLRVRSLDKLDQGRLVDLVNASFGKKLRDDYLASLRPRLHSIYVSEGYNAAAILTMEPVLGGTPYLDKFVVSSSRQGQGSGQMLWECLRRDLQTLFWRSRVTNPINPWYFKHSDGSFSNKQWIFFWFGLADIRDSYELVNHAKGLPDSF MLRVRSLDKLDQGRLVDLVNASFGKKLRDDYLASLRPRLHSIYVSEGYNAAAILTMEPVLGGTPYLDKFVVSSSRQGQGSGQMLWECLRRDLQTLFWRSRVTNPINPWYFKHSDGSFSNKQWIFFWFGLADIRDSYELVNHAKGLPDSF 4k34-a1-m1-cB_4k34-a1-m1-cA Crystal structures of CusC review conformational changes accompanying folding and transmembrane channel formation P77211 P77211 2.69 X-RAY DIFFRACTION 50 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 351 381 AGWRTFFVDNQVKTLISEALVNNRDLRMATLKVQEARAQYRLNASFDLDFFGRLKNMSEAERQNYLATEEAQRAVHILLVSNVAQSYFNQQLAYAQLQIAEETLRNYQQSYAFVEKQNVLALEQARGVIESTRSDIAKRQGELAQANNALQLLLGSYGKLPQAQTVNSDSLQSVKLPAGLSSQILLQRPDIMEAEHALMAANANIGAARAAFFPSISLTSGISTASSDLSSLFNASSGMWNFIPKIEIPIFNRQQQSVVNYEQKIQNAFKEVADALALRQSLNDQISAQQRYLASLQITLQRARALYQHGAVSYLEVLDAERSLFATRQTLLDLNYARQVNEISLYTALGG YQNAGWRTFFVDNQVKTLISEALVNNRDLRMATLKVQEARAQYRLTDADRASFDLDFFGRLKNMSEAERQNYLATEEAQRAVHILLVSNVAQSYFNQQLAYAQLQIAEETLRNYQQSYAFVEKQLLTGSSNVLALEQARGVIESTRSDIAKRQGELAQANNALQLLLGSYGKLPQAQTVNSDSLQSVKLPAGLSSQILLQRPDIMEAEHALMAANANIGAARAAFFPSISLTSGISTASSDLSSLFNASSGMWNFIPKIEIPIFNAGRNQANLDIAEIRQQQSVVNYEQKIQNAFKEVADALALRQSLNDQISAQQRYLASLQITLQRARALYQHGAVSYLEVLDAERSLFATRQTLLDLNYARQVNEISLYTALGGGHHH 4k35-a3-m1-cB_4k35-a3-m1-cA The structure of a glycoside hydrolase family 81 endo-[beta]-1,3-glucanase A0A023I7E1 A0A023I7E1 2.003 X-RAY DIFFRACTION 54 0.999 4839 (Rhizomucor miehei) 4839 (Rhizomucor miehei) 700 706 GDDLFVPVSNFDPKSIFPEIKHPFEPYANTENGKIVPTNSWISNLFYPSADNLAPTTPDPYTLRLLDGYGGNPGLTIRQPSAKVLGSYPPTAGYINSVVVDLRLTSSEWSDVVPDRQVTDWDHLSANLRLSTPQDSNSYIDFPIVRGAYITANYNNLTPQFLSQHAIISVEADEKKSDDNTSTFSGRKFKITNDDPTSTFIIYSLGDKPLELRKQDNSNLVASKPYTGVIRVAKLPAPEFETLLDASRAVWPTGGDISARSDDNNGASYTIKWKTNSNEAPLLTYAYAHHLTSIDDSNVKRTDTLQSATKGPTALVGNEWTLRETELSPVEWLPLQAAPNPTTINEITEINKDIASNYTQETAKEDNYFSGKGLQKFALALILNKSDQTQLRNPELAQIALDKLKAAFLPYLQNEQADPFRYDTLYKGIVAKAGLPTSGGTDDLSAEFGHSYYSDHHYHQGYFVVTAAIIHHLDPTWNADRLKAWTEALIRDVNNANDGDEYFAAFRNWDWFAGHSWAGGIKPDGALDGRDQESVPESVNFYWGAKLWGLATGNTPLTKLASLQLAVTKRTTYEYFWLDGNKNRPENIVRNKVIGIYFEQKTDYTTYFGRFLEYIHGIQQLPTPELEYIRTPEFVSQEWDEKLGAIAPTVQSPWAGVLYLNYAIINPAEAYPALRKVQDDGQTRSYSLYLTATRPHFFRR DDLFVPVSNFDPKSIFPEIKHPFEPYANTENGKIVPTNSWISNLFYPSADNLAPTTPDPYTLRLLDGYGGNPGLTIRQPSAKVLGSYPPTNDVPYTDAGYINSVVVDLRLTSSEWSDVVPDRQVTDWDHLSANLRLSTPQDSNSYIDFPIVRGAYITANYNNLTPQFLSQHAIISVEADEKKSDDNTSTFSGRKFKITNDDPTSTFIIYSLGDKPLELRKQDNSNLVASKPYTGVIRVAKLPAPEFETLLDASRAVWPTGGDISARSDDNNGASYTIKWKTNSNEAPLLTYAYAHHLTSIDDSNVKRTDTLQSATKGPTALVGNEWTLRETELSPVEWLPLQAAPNPTTINEITEINKDIASNYTQETAKEDNYFSGKGLQKFALALILNKSDQTQLRNPELAQIALDKLKAAFLPYLQNEQADPFRYDTLYKGIVAKAGLPTSGGTDDLSAEFGHSYYSDHHYHQGYFVVTAAIIHHLDPTWNADRLKAWTEALIRDVNNANDGDEYFAAFRNWDWFAGHSWAGGIKPDGALDGRDQESVPESVNFYWGAKLWGLATGNTPLTKLASLQLAVTKRTTYEYFWLDGNKNRPENIVRNKVIGIYFEQKTDYTTYFGRFLEYIHGIQQLPTPELEYIRTPEFVSQEWDEKLGAIAPTVQSPWAGVLYLNYAIINPAEAYPALRKVQDDGQTRSYSLYLTATRPHFFRR 4k3h-a3-m1-cF_4k3h-a3-m1-cE Immunoglobulin lambda variable domain L5(L89S) fluorogen activationg protein in complex with malachite green 2.45 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 4k3g-a1-m1-cB_4k3g-a1-m1-cA 4k3h-a1-m1-cB_4k3h-a1-m1-cA 4k3h-a2-m1-cD_4k3h-a2-m1-cC 4k3h-a4-m1-cH_4k3h-a4-m1-cG QAVVTQEPSVTVSPGGTVILTCGSSTGAVTSGHYANWFQQKPGQAPRALIFETDKKYSWTPGRFSGSLLGAKAALTISDAQPEDEAEYYCSLSDVDGYLFGGGTQLTVL QAVVTQEPSVTVSPGGTVILTCGSSTGAVTSGHYANWFQQKPGQAPRALIFETDKKYSWTPGRFSGSLLGAKAALTISDAQPEDEAEYYCSLSDVDGYLFGGGTQLTVL 4k3w-a1-m1-cB_4k3w-a1-m1-cC Crystal structure of an enoyl-CoA hydratase/isomerase from Marinobacter aquaeolei A1U4G2 A1U4G2 2.31 X-RAY DIFFRACTION 129 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 254 255 4k3w-a1-m1-cA_4k3w-a1-m1-cC 4k3w-a1-m1-cB_4k3w-a1-m1-cA CETLILEKQGPTLVITINRPDVRNASLQVAELSTIFSEIENDISIRAAVLRGAGGHFCAGGDIKDAGARSQKAGEGRDDPFYKLNRAFGQIQQVNESSKVVIAITEGAVGGGFGLACVSDLAIAGPTAKFGPETTLGVIPAQIAPFVVERIGLTQARRLALLGLRIDATEACKLGIVHQVAESEEQLSDLNQALERVRLCAPDATAETKALLHRVGHEAAGLLDDAAEKFAAAIRGPEGAEGTAFQKREPKWAE CETLILEKQGPTLVITINRPDVRNASLQVAELSTIFSEIENDISIRAAVLRGAGGHFCAGGDIKDAGARSQKAGEGRDDPFYKLNRAFGQIQQVNESSKVVIAITEGAVGGGFGLACVSDLAIAGPTAKFGPETTLGVIPAQIAPFVVERIGLTQARRLALLGLRIDATEACKLGIVHQVAESEEQLSDLNQALERVRLCAPDATAETKALLHRVGHEAAGLLDDAAEKFAAAIRGPEGAEGTAFQKREPKWAEL 4k3z-a2-m1-cB_4k3z-a2-m2-cB Crystal structure of D-erythrulose 4-phosphate dehydrogenase from Brucella melitensis, solved by iodide SAD Q8YCV0 Q8YCV0 1.95 X-RAY DIFFRACTION 118 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 306 306 4k3z-a1-m1-cA_4k3z-a1-m2-cA MALTLSLNTNPLVNRFAEPDDLIETVARDLRLRDLQLTHEFINPSWQASTIRRLTRDMDRALQRTGVRVTSGMTGPYGRLNHFGHPDRDVRRYYVDWFKTFADIIGDLGGKSVGTQFAIFTYKDFDDPARREELIKIAIDCWAEVAEHAAGAGLDYVFWEPMSIGREFGETIAECMKLQDRLTAANMAIPMWMMADIDHGDVTSANPDDYDPYAWARTVPKVSPIIHIKQSLMHRPFTAAFNAKGRIQPEPLLKAFAEGGAVDNEICLELSFKEREPNDREVIPQIAESVAFWAPHIDTGAKDLKI MALTLSLNTNPLVNRFAEPDDLIETVARDLRLRDLQLTHEFINPSWQASTIRRLTRDMDRALQRTGVRVTSGMTGPYGRLNHFGHPDRDVRRYYVDWFKTFADIIGDLGGKSVGTQFAIFTYKDFDDPARREELIKIAIDCWAEVAEHAAGAGLDYVFWEPMSIGREFGETIAECMKLQDRLTAANMAIPMWMMADIDHGDVTSANPDDYDPYAWARTVPKVSPIIHIKQSLMHRPFTAAFNAKGRIQPEPLLKAFAEGGAVDNEICLELSFKEREPNDREVIPQIAESVAFWAPHIDTGAKDLKI 4k4c-a2-m1-cB_4k4c-a2-m1-cC X-ray crystal structure of E. coli YbdB complexed with phenacyl-CoA P0A8Y8 P0A8Y8 1.85 X-RAY DIFFRACTION 126 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 137 137 1vh9-a2-m1-cB_1vh9-a2-m2-cB 1vh9-a3-m1-cA_1vh9-a3-m2-cA 4k4c-a1-m1-cA_4k4c-a1-m1-cD 4k4d-a1-m1-cA_4k4d-a1-m1-cB MIWKRHLTLDELNATSDNTMVAHLGIVYTRLGDDVLEAEMPVDTRTHQPFGLLHGGASAALAETLGSMAGFMMTRDGQCVVGTELNATHHRPVSEGKVRGVCQPLHLGRQNQSWEIVVFDEQGRRCCTCRLGTAVLG MIWKRHLTLDELNATSDNTMVAHLGIVYTRLGDDVLEAEMPVDTRTHQPFGLLHGGASAALAETLGSMAGFMMTRDGQCVVGTELNATHHRPVSEGKVRGVCQPLHLGRQNQSWEIVVFDEQGRRCCTCRLGTAVLG 4k5c-a1-m1-cA_4k5c-a1-m1-cB From DARPins to LoopDARPins: Novel LoopDARPin Design Allows the Selection of Low Picomolar Binders in a Single Round of Ribosome Display 1.7 X-RAY DIFFRACTION 47 1.0 562 (Escherichia coli) 562 (Escherichia coli) 170 171 DLGKKLLEAAWQGQDDEVRILMANGADVNAQDKFGTTPLHLAADMGHLEIVEVLLKTGADVNAAATGHYFQPYFSHSVSYFGETPLHLAAEMGHLEIVEVLLKAGADVNAFADLGHTPLHLAAQWGHLEIVEVLLKHGADVNAQDKFGKTPFDLAIDNGNEDIAEVLQKA DLGKKLLEAAWQGQDDEVRILMANGADVNAQDKFGTTPLHLAADMGHLEIVEVLLKTGADVNAAATGHYFQPYFSHSVSYFGETPLHLAAEMGHLEIVEVLLKAGADVNAFADLGHTPLHLAAQWGHLEIVEVLLKHGADVNAQDKFGKTPFDLAIDNGNEDIAEVLQKAA 4k5r-a2-m1-cB_4k5r-a2-m3-cB The 2.0 angstrom crystal structure of MTMOIV, a baeyer-villiger monooxygenase from the mithramycin biosynthetic pathway in streptomyces argillaceus. Q194P4 Q194P4 2 X-RAY DIFFRACTION 66 1.0 41951 (Streptomyces argillaceus) 41951 (Streptomyces argillaceus) 491 491 3fmw-a1-m1-cA_3fmw-a1-m2-cC 3fmw-a2-m1-cB_3fmw-a2-m3-cB 4k5r-a1-m1-cA_4k5r-a1-m2-cA 4k5s-a1-m1-cA_4k5s-a1-m2-cA ALTTDVVVVGGGPVGLMLAGELRAGGVGALVLEKLVEPVGHDRAGALHIRTVETLDLRGLLDRFLEGTQVAKGLPFAGIFTQGLDFGLVDTRHPYTALVPQSRTEALLAEHAREAGAEIRRGHEVTGLRQDAEAVEVTVAGPSGPYRVRARYAVGCDGGRSTVRRLAGIGFPGTEATVRALIGYVTTPEREVPRRWERTPDGILVLAFPPEGGLGRVVVIEYTEGPVTLEDLGAAVARVRGTPLTLTEPVSWLSRFGDASRQAKRYRSGRVLLAGDAAHVHFPIGGQGLNTGLQDAVNLGWKLAARVRGWGSEELLDTYHDERHPVAERVLLNTRAQLALMRPDEQHTTPLRGFVEELLGTDEVNRYFTGMITGTDVRYATFAPAARPHPWAGRFAGGLVLSGPSGEPVPVAELLRSARPLLLDLAGRADLREATRPWSDRVSVVAGEATVEPPAQALLVRPDGYVAWAGSPAATADELRASLARWFGPPA ALTTDVVVVGGGPVGLMLAGELRAGGVGALVLEKLVEPVGHDRAGALHIRTVETLDLRGLLDRFLEGTQVAKGLPFAGIFTQGLDFGLVDTRHPYTALVPQSRTEALLAEHAREAGAEIRRGHEVTGLRQDAEAVEVTVAGPSGPYRVRARYAVGCDGGRSTVRRLAGIGFPGTEATVRALIGYVTTPEREVPRRWERTPDGILVLAFPPEGGLGRVVVIEYTEGPVTLEDLGAAVARVRGTPLTLTEPVSWLSRFGDASRQAKRYRSGRVLLAGDAAHVHFPIGGQGLNTGLQDAVNLGWKLAARVRGWGSEELLDTYHDERHPVAERVLLNTRAQLALMRPDEQHTTPLRGFVEELLGTDEVNRYFTGMITGTDVRYATFAPAARPHPWAGRFAGGLVLSGPSGEPVPVAELLRSARPLLLDLAGRADLREATRPWSDRVSVVAGEATVEPPAQALLVRPDGYVAWAGSPAATADELRASLARWFGPPA 4k5u-a1-m1-cC_4k5u-a1-m1-cD Recognition of the BG-H Antigen by a Lamprey Variable Lymphocyte Receptor K0IE77 K0IE77 1.698 X-RAY DIFFRACTION 30 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 217 217 4k5u-a1-m1-cA_4k5u-a1-m1-cB ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKC ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKC 4k6b-a1-m1-cC_4k6b-a1-m1-cA Atomic structure of bacteriophage HS1 tail needle knob 1.101 X-RAY DIFFRACTION 78 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 153 154 3rwn-a1-m1-cB_3rwn-a1-m1-cA 3rwn-a1-m1-cC_3rwn-a1-m1-cA 3rwn-a1-m1-cC_3rwn-a1-m1-cB 4k6b-a1-m1-cA_4k6b-a1-m1-cB 4k6b-a1-m1-cC_4k6b-a1-m1-cB SSRISALEYATTRKKSEVVYSGVSVTIPTAPTNLVSLLKTLTPSSGTLAPFFDTVNNKMVVFNENKTLFFKLSIVGTWPSGTANRSMQLTFSGSVPDTLVSSRNSATTTDNILLATFFSVDKDGFLATNGSTLTIQSNGAAFTATTIKIIAEQ GSSRISALEYATTRKKSEVVYSGVSVTIPTAPTNLVSLLKTLTPSSGTLAPFFDTVNNKMVVFNENKTLFFKLSIVGTWPSGTANRSMQLTFSGSVPDTLVSSRNSATTTDNILLATFFSVDKDGFLATNGSTLTIQSNGAAFTATTIKIIAEQ 4k6h-a1-m1-cA_4k6h-a1-m1-cB Crystal structure of CALB mutant L278M from Candida antarctica P41365 P41365 1.6 X-RAY DIFFRACTION 36 1.0 319 320 ALPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALMAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTPL ALPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALMAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTPLE 4k6k-a1-m1-cA_4k6k-a1-m1-cB Crystal structure of CALB mutant D223G from Candida antarctica P41365 P41365 1.6 X-RAY DIFFRACTION 89 1.0 311 312 LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLLAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIGHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTP LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLLAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIGHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTPL 4k71-a3-m1-cA_4k71-a3-m2-cA Crystal structure of a high affinity Human Serum Albumin variant bound to the Neonatal Fc Receptor P02768 P02768 2.4 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 583 583 HKSEVAHRFKDLGEENFKALVLIAFAQYLQQCPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQMSAPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAGTFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAAMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAALGL HKSEVAHRFKDLGEENFKALVLIAFAQYLQQCPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQMSAPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAGTFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAAMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAALGL 4k79-a1-m1-cA_4k79-a1-m1-cD Recognition of the Thomsen-Friedenreich Antigen by a Lamprey Variable Lymphocyte Receptor K0IE77 K0IE77 2.2 X-RAY DIFFRACTION 16 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 218 218 4k79-a1-m1-cB_4k79-a1-m1-cC ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKCP ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKCP 4k79-a1-m1-cB_4k79-a1-m1-cD Recognition of the Thomsen-Friedenreich Antigen by a Lamprey Variable Lymphocyte Receptor K0IE77 K0IE77 2.2 X-RAY DIFFRACTION 12 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 218 218 ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKCP ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKCP 4k79-a1-m1-cC_4k79-a1-m1-cD Recognition of the Thomsen-Friedenreich Antigen by a Lamprey Variable Lymphocyte Receptor K0IE77 K0IE77 2.2 X-RAY DIFFRACTION 50 1.0 7757 (Petromyzon marinus) 7757 (Petromyzon marinus) 218 218 4k5u-a1-m1-cC_4k5u-a1-m1-cB 4k5u-a1-m1-cD_4k5u-a1-m1-cA 4k79-a1-m1-cA_4k79-a1-m1-cB ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKCP ACPSQCSCSGTEVNCAGKSLASVPAGIPTTTRVLYLNSNQITKLEPGVFDRLANLRELHLWGNQLVSLPPGVFDNLANLEKLWLNSNQLTSLPAGLFDRLVNLEHLGLCCMKLTELPSGAFDKLTRLKQLGLDQNQLKSIPDGAFARLPSLTHVWLHTNPWDCQCTDILYLSGWVAQHSSIVGEGWPWRHSPDSAKCSGTNTPVRAVTEASTSPSKCP 4k7e-a2-m1-cA_4k7e-a2-m2-cA Crystal structure of Junin virus nucleoprotein Q6IVU2 Q6IVU2 2.2 X-RAY DIFFRACTION 32 1.0 151 151 NLTEIQEAVIREAVGKLDPTNTLWLDIEGPATDPVEMALFQPAGKQYIHCFRAMPGVLSYVIGLLPPDMVVTTQGSDDIRKLFDLHGRRDLKLVDVRLTSEQARQFDQQVWEKYGHLCKEPHCALLDCIMFQSVLDGKLYEEELTPLLPSS NLTEIQEAVIREAVGKLDPTNTLWLDIEGPATDPVEMALFQPAGKQYIHCFRAMPGVLSYVIGLLPPDMVVTTQGSDDIRKLFDLHGRRDLKLVDVRLTSEQARQFDQQVWEKYGHLCKEPHCALLDCIMFQSVLDGKLYEEELTPLLPSS 4k7g-a1-m1-cB_4k7g-a1-m1-cD Crystal structure of a 3-hydroxyproline dehydratse from agrobacterium vitis, target efi-506470, with bound pyrrole 2-carboxylate, ordered active site B9K4G4 B9K4G4 2 X-RAY DIFFRACTION 155 1.0 311402 (Allorhizobium ampelinum S4) 311402 (Allorhizobium ampelinum S4) 338 352 KVIHVIGVHAEGEVGDVIVGGVSPPPGDTLWEQSRFIASDETLRNFVLNEPRGGVFRHVNLLVPPKDPRAQMGFIIMEPADTPPMSGSNSICVSTAILDSGIISMQEPLTHMVLEAPGGVIEVTAECANGKAERINVLNVASFVTRLAAALEVEGLGTLTVDTAYGGDSFVIVDAIGLGFSLKPDEARELAELGMKITAAANEQLGFVHPCNADWNHISFCQMTTPITRENGILTGKSAVAIRPGKIDRSPTGTGCSARLAVMHARGEIGIGETYIGRSIIDSEFKCHIDSLTEIGGLSAIRPVISGRAWITGVSQLMLDPTDPWPSGYQLSDTWPAI LGTENLYFQSMRTNKVIHVIGVHAEGEVGDVIVGGVSPPPGDTLWEQSRFIASDETLRNFVLNEPRGGVFRHVNLLVPPKDPRAQMGFIIMEPADTPPMSGSNSICVSTAILDSGIISMQEPLTHMVLEAPGGVIEVTAECANGKAERINVLNVASFVTRLAAALEVEGLGTLTVDTAYGGDSFVIVDAIGLGFSLKPDEARELAELGMKITAAANEQLGFVHPCNADWNHISFCQMTTPITRENGILTGKSAVAIRPGKIDRSPTGTGCSARLAVMHARGEIGIGETYIGRSIIDSEFKCHIDSLTEIGGLSAIRPVISGRAWITGVSQLMLDPTDPWPSGYQLSDTWPAI 4k7o-a4-m1-cA_4k7o-a4-m2-cA HUMAN PEROXIREDOXIN 5 with a fragment P30044 P30044 1.98 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 162 1hd2-a1-m1-cA_1hd2-a1-m2-cA 2vl2-a1-m1-cA_2vl2-a1-m2-cA 2vl2-a2-m1-cB_2vl2-a2-m1-cC 2vl3-a1-m1-cA_2vl3-a1-m2-cA 2vl3-a2-m1-cB_2vl3-a2-m1-cC 2vl9-a1-m1-cB_2vl9-a1-m1-cC 3mng-a1-m1-cA_3mng-a1-m2-cA 4k7i-a4-m1-cA_4k7i-a4-m2-cA 4k7i-a5-m1-cC_4k7i-a5-m1-cB 4k7n-a1-m1-cA_4k7n-a1-m2-cA 4k7n-a2-m1-cB_4k7n-a2-m1-cC 4k7o-a5-m1-cC_4k7o-a5-m1-cB 4mmm-a5-m1-cA_4mmm-a5-m1-cE 4mmm-a6-m1-cC_4mmm-a6-m1-cG SAPIKVGDAIPAVEVFEGEPGNKVNLAELFKGKKGVLFGVPGAFTPGCSKTHLPGFVEQAEALKAKGVQVVACLSVNDAFVTGEWGRAHKAEGKVRLLADPTGAFGKETDLLLDDSLVSIFGNRRLKRFSMVVQDGIVKALNVEPDGTGLTCSLAPNIISQL SAPIKVGDAIPAVEVFEGEPGNKVNLAELFKGKKGVLFGVPGAFTPGCSKTHLPGFVEQAEALKAKGVQVVACLSVNDAFVTGEWGRAHKAEGKVRLLADPTGAFGKETDLLLDDSLVSIFGNRRLKRFSMVVQDGIVKALNVEPDGTGLTCSLAPNIISQL 4k7r-a1-m2-cA_4k7r-a1-m3-cA Crystal structures of CusC review conformational changes accompanying folding and transmembrane channel formation P77211 P77211 2.094 X-RAY DIFFRACTION 182 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 429 429 3pik-a1-m1-cA_3pik-a1-m2-cA 3pik-a1-m1-cA_3pik-a1-m3-cA 3pik-a1-m2-cA_3pik-a1-m3-cA 4k7r-a1-m1-cA_4k7r-a1-m2-cA 4k7r-a1-m1-cA_4k7r-a1-m3-cA CSLAPDYQRPAMPVPQQFSLYQNAGWRTFFVDNQVKTLISEALVNNRDLRMATLKVQEARAQYRLTDADRYPQLNGEGSGSWSGNLKGNTATTREFSTGLNASFDLDFFGRLKNMSEAERQNYLATEEAQRAVHILLVSNVAQSYFNQQLAYAQLQIAEETLRNYQQSYAFVEKQLLTGSSNVLALEQARGVIESTRSDIAKRQGELAQANNALQLLLGSYGKLPQAQTVNSDSLQSVKLPAGLSSQILLQRPDIMEAEHALMAANANIGAARAAFFPSISLTSGISTASSDLSSLFNASSGMWNFIPKIEIPIFNAGRNQANLDIAEIRQQQSVVNYEQKIQNAFKEVADALALRQSLNDQISAQQRYLASLQITLQRARALYQHGAVSYLEVLDAERSLFATRQTLLDLNYARQVNEISLYTALGGG CSLAPDYQRPAMPVPQQFSLYQNAGWRTFFVDNQVKTLISEALVNNRDLRMATLKVQEARAQYRLTDADRYPQLNGEGSGSWSGNLKGNTATTREFSTGLNASFDLDFFGRLKNMSEAERQNYLATEEAQRAVHILLVSNVAQSYFNQQLAYAQLQIAEETLRNYQQSYAFVEKQLLTGSSNVLALEQARGVIESTRSDIAKRQGELAQANNALQLLLGSYGKLPQAQTVNSDSLQSVKLPAGLSSQILLQRPDIMEAEHALMAANANIGAARAAFFPSISLTSGISTASSDLSSLFNASSGMWNFIPKIEIPIFNAGRNQANLDIAEIRQQQSVVNYEQKIQNAFKEVADALALRQSLNDQISAQQRYLASLQITLQRARALYQHGAVSYLEVLDAERSLFATRQTLLDLNYARQVNEISLYTALGGG 4k7x-a1-m1-cA_4k7x-a1-m2-cA Crystal structure of a 4-hydroxyproline epimerase from burkholderia multivorans, target efi-506479, with bound phosphate, closed domains B3D6W2 B3D6W2 1.75 X-RAY DIFFRACTION 103 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 314 314 4q60-a1-m1-cB_4q60-a1-m1-cA YFQSMMKRIQIIDSHTGGEPTRLVVSGFPSLGSGTMAERRDVLAREYDRYRTACILEPRGSDVLVGALLCEPVSPDAAAGVIFFNNSGYLGMCGHGTIGVVRTLHHMGRIGPGVHRIETPVGTVEATLHDDLSVSVRNVLAYRHAKDVALDVPGYGPVRGDIAWGGNWFFLISDHGQRVAGDNVAALTAYASAVREGLERAGITGANGGEIDHIELFADDPEHDSRSFVLCPGLAYDRSPCGTGTSAKLACLAADGKLAPGAVWRQASVIGSVFHASYVQAEGGIVPTIRGSAHLSAEATLLIEDDDPFRWGIV YFQSMMKRIQIIDSHTGGEPTRLVVSGFPSLGSGTMAERRDVLAREYDRYRTACILEPRGSDVLVGALLCEPVSPDAAAGVIFFNNSGYLGMCGHGTIGVVRTLHHMGRIGPGVHRIETPVGTVEATLHDDLSVSVRNVLAYRHAKDVALDVPGYGPVRGDIAWGGNWFFLISDHGQRVAGDNVAALTAYASAVREGLERAGITGANGGEIDHIELFADDPEHDSRSFVLCPGLAYDRSPCGTGTSAKLACLAADGKLAPGAVWRQASVIGSVFHASYVQAEGGIVPTIRGSAHLSAEATLLIEDDDPFRWGIV 4k7z-a1-m1-cA_4k7z-a1-m2-cA Crystal structure of the C136(42)A/C141(47)A double mutant of Tn501 MerA in complex with NADP and Hg2+ P00392 P00392 1.5 X-RAY DIFFRACTION 288 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 467 467 1zk7-a1-m1-cA_1zk7-a1-m2-cA 1zx9-a1-m1-cA_1zx9-a1-m2-cA 4k8d-a1-m1-cA_4k8d-a1-m2-cA MEPPVQVAVIGSGGAAMAAALKAVEQGAQVTLIERGTIGGTAVNVGAVPSKIMIRAAHIAHLRRESPFDGGIAATVPTIDRSKLLAQQQARVDELRHAKYEGILGGNPAITVVHGEARFKDDQSLTVRLNEGGERVVMFDRCLVATGASPAVPPIPGLKESPYWTSTEALASDTIPERLAVIGSSVVALELAQAFARLGSKVTVLARNTLFFREDPAIGEAVTAAFRAEGIEVLEHTQASQVAHMDGEFVLTTTHGELRADKLLVATGRTPNTRSLALDAAGVTVNAQGAIVIDQGMRTSNPNIYAAGDCTDQPQFVYVAAAAGTRAAINMTGGDAALDLTAMPAVVFTDPQVATVGYSEAEAHHDGIETDSRTLTLDNVPRALANFDTRGFIKLVIEEGSHRLIGVQAVAPEAGELIQTAALAIRNRMTVQELADQLFPYLTMVEGLKLAAQTFNKDVKQLSCCAG MEPPVQVAVIGSGGAAMAAALKAVEQGAQVTLIERGTIGGTAVNVGAVPSKIMIRAAHIAHLRRESPFDGGIAATVPTIDRSKLLAQQQARVDELRHAKYEGILGGNPAITVVHGEARFKDDQSLTVRLNEGGERVVMFDRCLVATGASPAVPPIPGLKESPYWTSTEALASDTIPERLAVIGSSVVALELAQAFARLGSKVTVLARNTLFFREDPAIGEAVTAAFRAEGIEVLEHTQASQVAHMDGEFVLTTTHGELRADKLLVATGRTPNTRSLALDAAGVTVNAQGAIVIDQGMRTSNPNIYAAGDCTDQPQFVYVAAAAGTRAAINMTGGDAALDLTAMPAVVFTDPQVATVGYSEAEAHHDGIETDSRTLTLDNVPRALANFDTRGFIKLVIEEGSHRLIGVQAVAPEAGELIQTAALAIRNRMTVQELADQLFPYLTMVEGLKLAAQTFNKDVKQLSCCAG 4k80-a2-m1-cA_4k80-a2-m2-cA Crystal structure of human ceramide-1-phosphate transfer protein (CPTP) in complex with 2:0 ceramide-1-phosphate (2:0-C1P) Q5TA50 Q5TA50 2.051 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 TGFNLKVVLVSFKQCLDEKEEVLLDPYIASWKGLVRFLNSLGTIFSFISKDVVSKLRIMERLRGGPQSEHYRSLQAMVAHELSNRLVDLERRSHHPESGCRTVLRLHRALHWLQLFLEGLRTSPEDARTSALCADSYNASLAAYHPWVVRRAVTVAFCTLPTREVFLEAMNVGPPEQAVQMLGEALPFIQRVYNVSQKLYAEHSLLDLP TGFNLKVVLVSFKQCLDEKEEVLLDPYIASWKGLVRFLNSLGTIFSFISKDVVSKLRIMERLRGGPQSEHYRSLQAMVAHELSNRLVDLERRSHHPESGCRTVLRLHRALHWLQLFLEGLRTSPEDARTSALCADSYNASLAAYHPWVVRRAVTVAFCTLPTREVFLEAMNVGPPEQAVQMLGEALPFIQRVYNVSQKLYAEHSLLDLP 4k8f-a2-m1-cC_4k8f-a2-m1-cD Structure of the heme domain of CooA from Rhodospirillum rubrum Q2RUG3 Q2RUG3 2.7 X-RAY DIFFRACTION 72 1.0 269796 (Rhodospirillum rubrum ATCC 11170) 269796 (Rhodospirillum rubrum ATCC 11170) 132 132 1ft9-a1-m1-cB_1ft9-a1-m1-cA 4k8f-a1-m1-cA_4k8f-a1-m1-cB PPRFNIANVLLSPDGETFFRGFRSKIHAKGSLVCTGEGDENGVFVVVDGRLRVYLVGEEREISLFYLTSGDMFCMHSGCLVEATERTEVRFADIRTFEQKLQTCPSMAWGLIAILGRALTSCMRTIEDLMHH PPRFNIANVLLSPDGETFFRGFRSKIHAKGSLVCTGEGDENGVFVVVDGRLRVYLVGEEREISLFYLTSGDMFCMHSGCLVEATERTEVRFADIRTFEQKLQTCPSMAWGLIAILGRALTSCMRTIEDLMHH 4k8g-a1-m2-cA_4k8g-a1-m8-cA Crystal structure of D-Mannonate dehydratase from Novosphingobium aromaticivorans mutant (V161A, R163A, K165G, L166A, Y167G, Y168A, E169G) A4XF23 A4XF23 1.25 X-RAY DIFFRACTION 139 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 386 386 2qjj-a1-m1-cA_2qjj-a1-m1-cB 2qjj-a2-m1-cC_2qjj-a2-m1-cD 2qjj-a3-m1-cA_2qjj-a3-m1-cB 2qjj-a3-m1-cC_2qjj-a3-m1-cD 2qjj-a3-m2-cA_2qjj-a3-m2-cB 2qjj-a3-m2-cC_2qjj-a3-m2-cD 2qjm-a1-m1-cA_2qjm-a1-m1-cB 2qjm-a2-m1-cC_2qjm-a2-m1-cD 2qjm-a3-m1-cA_2qjm-a3-m1-cB 2qjm-a3-m1-cC_2qjm-a3-m1-cD 2qjm-a3-m2-cA_2qjm-a3-m2-cB 2qjm-a3-m2-cC_2qjm-a3-m2-cD 2qjn-a1-m1-cA_2qjn-a1-m1-cB 2qjn-a2-m1-cC_2qjn-a2-m1-cD 2qjn-a3-m1-cA_2qjn-a3-m1-cB 2qjn-a3-m1-cC_2qjn-a3-m1-cD 2qjn-a3-m2-cA_2qjn-a3-m2-cB 2qjn-a3-m2-cC_2qjn-a3-m2-cD 4k1w-a1-m1-cB_4k1w-a1-m1-cA 4k1w-a2-m1-cC_4k1w-a2-m1-cD 4k8g-a1-m1-cA_4k8g-a1-m7-cA 4k8g-a1-m3-cA_4k8g-a1-m5-cA 4k8g-a1-m4-cA_4k8g-a1-m6-cA HMKITAARVIITCPGRNFVTLKIETDQGVYGIGDATLNGRELSVVAYLQEHVAPCLIGMDPRRIEDIWQYVYRGAYWRRGPVTMRAIAAVDMALWDIKAKMAGMPLYQLLGGRSRDGIMVYGHANGSDIAETVEAVGHYIDMGYKAIRAQTGVPGIKSLPSVTGWDTRKALNYVPKLFEELRKTYGFDHHLLHDGHHRYTPQEAANLGKMLEPYQLFWLEDCTPAENQEAFRLVRQHTVTPLAVGEIFNTIWDAKDLIQNQLIDYIRATVVGAGGLTHLRRIADLASLYQVRTGCHGATDLSPVTMGCALHFDTWVPNFGIQEYMRHTEETDAVFPHDYWFEKGELFVGETPGHGVDIDEELAAKYPYKPAYLPVARLEDGTMWNW HMKITAARVIITCPGRNFVTLKIETDQGVYGIGDATLNGRELSVVAYLQEHVAPCLIGMDPRRIEDIWQYVYRGAYWRRGPVTMRAIAAVDMALWDIKAKMAGMPLYQLLGGRSRDGIMVYGHANGSDIAETVEAVGHYIDMGYKAIRAQTGVPGIKSLPSVTGWDTRKALNYVPKLFEELRKTYGFDHHLLHDGHHRYTPQEAANLGKMLEPYQLFWLEDCTPAENQEAFRLVRQHTVTPLAVGEIFNTIWDAKDLIQNQLIDYIRATVVGAGGLTHLRRIADLASLYQVRTGCHGATDLSPVTMGCALHFDTWVPNFGIQEYMRHTEETDAVFPHDYWFEKGELFVGETPGHGVDIDEELAAKYPYKPAYLPVARLEDGTMWNW 4k8g-a1-m3-cA_4k8g-a1-m8-cA Crystal structure of D-Mannonate dehydratase from Novosphingobium aromaticivorans mutant (V161A, R163A, K165G, L166A, Y167G, Y168A, E169G) A4XF23 A4XF23 1.25 X-RAY DIFFRACTION 81 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 386 386 2qjj-a3-m1-cB_2qjj-a3-m2-cB 2qjj-a3-m1-cC_2qjj-a3-m2-cC 2qjj-a3-m1-cD_2qjj-a3-m1-cA 2qjj-a3-m2-cD_2qjj-a3-m2-cA 2qjm-a3-m1-cA_2qjm-a3-m1-cD 2qjm-a3-m1-cB_2qjm-a3-m2-cB 2qjm-a3-m1-cC_2qjm-a3-m2-cC 2qjm-a3-m2-cA_2qjm-a3-m2-cD 2qjn-a3-m1-cA_2qjn-a3-m1-cD 2qjn-a3-m1-cB_2qjn-a3-m2-cB 2qjn-a3-m1-cC_2qjn-a3-m2-cC 2qjn-a3-m2-cA_2qjn-a3-m2-cD 4k8g-a1-m1-cA_4k8g-a1-m5-cA 4k8g-a1-m2-cA_4k8g-a1-m6-cA 4k8g-a1-m4-cA_4k8g-a1-m7-cA HMKITAARVIITCPGRNFVTLKIETDQGVYGIGDATLNGRELSVVAYLQEHVAPCLIGMDPRRIEDIWQYVYRGAYWRRGPVTMRAIAAVDMALWDIKAKMAGMPLYQLLGGRSRDGIMVYGHANGSDIAETVEAVGHYIDMGYKAIRAQTGVPGIKSLPSVTGWDTRKALNYVPKLFEELRKTYGFDHHLLHDGHHRYTPQEAANLGKMLEPYQLFWLEDCTPAENQEAFRLVRQHTVTPLAVGEIFNTIWDAKDLIQNQLIDYIRATVVGAGGLTHLRRIADLASLYQVRTGCHGATDLSPVTMGCALHFDTWVPNFGIQEYMRHTEETDAVFPHDYWFEKGELFVGETPGHGVDIDEELAAKYPYKPAYLPVARLEDGTMWNW HMKITAARVIITCPGRNFVTLKIETDQGVYGIGDATLNGRELSVVAYLQEHVAPCLIGMDPRRIEDIWQYVYRGAYWRRGPVTMRAIAAVDMALWDIKAKMAGMPLYQLLGGRSRDGIMVYGHANGSDIAETVEAVGHYIDMGYKAIRAQTGVPGIKSLPSVTGWDTRKALNYVPKLFEELRKTYGFDHHLLHDGHHRYTPQEAANLGKMLEPYQLFWLEDCTPAENQEAFRLVRQHTVTPLAVGEIFNTIWDAKDLIQNQLIDYIRATVVGAGGLTHLRRIADLASLYQVRTGCHGATDLSPVTMGCALHFDTWVPNFGIQEYMRHTEETDAVFPHDYWFEKGELFVGETPGHGVDIDEELAAKYPYKPAYLPVARLEDGTMWNW 4k8g-a1-m6-cA_4k8g-a1-m8-cA Crystal structure of D-Mannonate dehydratase from Novosphingobium aromaticivorans mutant (V161A, R163A, K165G, L166A, Y167G, Y168A, E169G) A4XF23 A4XF23 1.25 X-RAY DIFFRACTION 54 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 386 386 2qjj-a3-m1-cA_2qjj-a3-m2-cB 2qjj-a3-m1-cB_2qjj-a3-m2-cA 2qjj-a3-m1-cC_2qjj-a3-m1-cA 2qjj-a3-m1-cC_2qjj-a3-m2-cD 2qjj-a3-m1-cD_2qjj-a3-m1-cB 2qjj-a3-m2-cC_2qjj-a3-m1-cD 2qjj-a3-m2-cC_2qjj-a3-m2-cA 2qjj-a3-m2-cD_2qjj-a3-m2-cB 2qjm-a3-m1-cA_2qjm-a3-m1-cC 2qjm-a3-m1-cA_2qjm-a3-m2-cB 2qjm-a3-m1-cB_2qjm-a3-m1-cD 2qjm-a3-m1-cC_2qjm-a3-m2-cD 2qjm-a3-m2-cA_2qjm-a3-m1-cB 2qjm-a3-m2-cA_2qjm-a3-m2-cC 2qjm-a3-m2-cB_2qjm-a3-m2-cD 2qjm-a3-m2-cC_2qjm-a3-m1-cD 2qjn-a3-m1-cA_2qjn-a3-m2-cB 2qjn-a3-m1-cB_2qjn-a3-m1-cD 2qjn-a3-m1-cB_2qjn-a3-m2-cA 2qjn-a3-m1-cC_2qjn-a3-m1-cA 2qjn-a3-m1-cC_2qjn-a3-m2-cD 2qjn-a3-m2-cB_2qjn-a3-m2-cD 2qjn-a3-m2-cC_2qjn-a3-m1-cD 2qjn-a3-m2-cC_2qjn-a3-m2-cA 4k8g-a1-m1-cA_4k8g-a1-m3-cA 4k8g-a1-m1-cA_4k8g-a1-m4-cA 4k8g-a1-m2-cA_4k8g-a1-m3-cA 4k8g-a1-m2-cA_4k8g-a1-m4-cA 4k8g-a1-m5-cA_4k8g-a1-m7-cA 4k8g-a1-m5-cA_4k8g-a1-m8-cA 4k8g-a1-m6-cA_4k8g-a1-m7-cA HMKITAARVIITCPGRNFVTLKIETDQGVYGIGDATLNGRELSVVAYLQEHVAPCLIGMDPRRIEDIWQYVYRGAYWRRGPVTMRAIAAVDMALWDIKAKMAGMPLYQLLGGRSRDGIMVYGHANGSDIAETVEAVGHYIDMGYKAIRAQTGVPGIKSLPSVTGWDTRKALNYVPKLFEELRKTYGFDHHLLHDGHHRYTPQEAANLGKMLEPYQLFWLEDCTPAENQEAFRLVRQHTVTPLAVGEIFNTIWDAKDLIQNQLIDYIRATVVGAGGLTHLRRIADLASLYQVRTGCHGATDLSPVTMGCALHFDTWVPNFGIQEYMRHTEETDAVFPHDYWFEKGELFVGETPGHGVDIDEELAAKYPYKPAYLPVARLEDGTMWNW HMKITAARVIITCPGRNFVTLKIETDQGVYGIGDATLNGRELSVVAYLQEHVAPCLIGMDPRRIEDIWQYVYRGAYWRRGPVTMRAIAAVDMALWDIKAKMAGMPLYQLLGGRSRDGIMVYGHANGSDIAETVEAVGHYIDMGYKAIRAQTGVPGIKSLPSVTGWDTRKALNYVPKLFEELRKTYGFDHHLLHDGHHRYTPQEAANLGKMLEPYQLFWLEDCTPAENQEAFRLVRQHTVTPLAVGEIFNTIWDAKDLIQNQLIDYIRATVVGAGGLTHLRRIADLASLYQVRTGCHGATDLSPVTMGCALHFDTWVPNFGIQEYMRHTEETDAVFPHDYWFEKGELFVGETPGHGVDIDEELAAKYPYKPAYLPVARLEDGTMWNW 4k8l-a1-m1-cA_4k8l-a1-m2-cA Crystal structure of a putative 4-hydroxyproline epimerase/3-hydroxyproline dehydratse from the soil bacterium ochrobacterium anthropi, target efi-506495, disordered loops A6WW16 A6WW16 1.9 X-RAY DIFFRACTION 97 1.0 439375 (Brucella anthropi ATCC 49188) 439375 (Brucella anthropi ATCC 49188) 305 305 SMRSTKVIHIVGCHAEGEVGDVIVGGVAPPPGKTVWEQSRFIASDETLRNFVLNEPRGGVFRHVNLLVPPKDPRAQMGFIIMEPADTPPMSGSNSICVSTVLLDSGIIPMQEPVTRMVLEAPGGLIEVEAECRNGKAERISVRNVPSFADRLNASLEVGTITVDTAYGGDSFVIVDAASIGMELAEIGVKITKAANEQLGFRHPEKDWNHISFCQITEPVTRDGDILTGVNTVAITGTGCSARMAVLHAKGQMKVGERFIGHCRLDKTLELGGKPAISPIISGRAWVTGTSQLMLDPSDPFPSGY SMRSTKVIHIVGCHAEGEVGDVIVGGVAPPPGKTVWEQSRFIASDETLRNFVLNEPRGGVFRHVNLLVPPKDPRAQMGFIIMEPADTPPMSGSNSICVSTVLLDSGIIPMQEPVTRMVLEAPGGLIEVEAECRNGKAERISVRNVPSFADRLNASLEVGTITVDTAYGGDSFVIVDAASIGMELAEIGVKITKAANEQLGFRHPEKDWNHISFCQITEPVTRDGDILTGVNTVAITGTGCSARMAVLHAKGQMKVGERFIGHCRLDKTLELGGKPAISPIISGRAWVTGTSQLMLDPSDPFPSGY 4k8m-a1-m1-cA_4k8m-a1-m2-cA High resolution structure of M.tb NRDH I6YB06 I6YB06 0.87 X-RAY DIFFRACTION 61 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 84 84 TVTVYTKPACVQCSATSKALDKQGIAYQKVDISLDSEARDYVMALGYLQAPVVVAGNDHWSGFRPDRIKALAGAALTAHHHHHH TVTVYTKPACVQCSATSKALDKQGIAYQKVDISLDSEARDYVMALGYLQAPVVVAGNDHWSGFRPDRIKALAGAALTAHHHHHH 4k8o-a1-m1-cA_4k8o-a1-m2-cA CRYSTAL STRUCTURE OF THE ATPASE DOMAIN OF TAP1 WITH ATP (D645N, D651A MUTANT) P36370 P36370 2.65 X-RAY DIFFRACTION 51 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 254 254 GSLAPLNMKGLVKFQDVSFAYPNHPNVQVLQGLTFTLYPGKVTALVGPNGSGKSTVAALLQNLYQPTGGKVLLDGEPLVQYDHHYLHTQVAAVGQEPLLFGRSFRENIAYGLTRTPTMEEITAVAMESGAHDFISGFPQGYDTEVGETGNQLSGGQRQAVALARALIRKPRLLILDNATSALAAGNQLRVQRLLYESPEWASRTVLLITQQLSLAERAHHILFLKEGSVCEQGTHLQLMERGGCYRSMVEALAA GSLAPLNMKGLVKFQDVSFAYPNHPNVQVLQGLTFTLYPGKVTALVGPNGSGKSTVAALLQNLYQPTGGKVLLDGEPLVQYDHHYLHTQVAAVGQEPLLFGRSFRENIAYGLTRTPTMEEITAVAMESGAHDFISGFPQGYDTEVGETGNQLSGGQRQAVALARALIRKPRLLILDNATSALAAGNQLRVQRLLYESPEWASRTVLLITQQLSLAERAHHILFLKEGSVCEQGTHLQLMERGGCYRSMVEALAA 4k9q-a1-m1-cB_4k9q-a1-m2-cB The Crystal Structure of Benzoylformate Decarboxylase from Polynucleobacter necessarius A4SXU0 A4SXU0 1.598 X-RAY DIFFRACTION 263 1.0 576610 (Polynucleobacter necessarius) 576610 (Polynucleobacter necessarius) 530 530 4k9q-a1-m1-cA_4k9q-a1-m2-cA RTVKEITFDLLRKLQVTTVVGNPGSTEETFLKDFPSDFNYVLALQEASVVAIADGLSQSLRKPVIVNIHTGAGLGNAMGCLLTAYQNKTPLIITAGQQTREMLLNEPLLTNIEAINMPKPWVKWSYEPARPEDVPGAFMRAYATAMQQPQGPVFLSLPLDDWEKLIPEVDVARTVSTRQGPDPDKVKEFAQRITASKNPLLIYGSDIARSQAWSDGIAFAERLNAPVWAAPFAERTPFPEDHPLFQGALTSGIGSLEKQIQGHDLIVVIGAPVFRYYPWIAGQFIPEGSTLLQVSDDPNMTSKAVVGDSLVSDSKLFLIEALKLIDQREKNNTPQRSPMTKEDRTAMPLRPHAVLEVLKENSPKEIVLVEECPSIVPLMQDVFRINQPDTFYTFASGGLGWDLPAAVGLALGEEVSGRNRPVVTLMGDGSFQYSVQGIYTGVQQKTHVIYVVFQNEEYGILKQFAELEQTPNVPGLDLPGLDIVAQGKAYGAKSLKVETLDELKTAYLEALSFKGTSVIVVPITKELKPL RTVKEITFDLLRKLQVTTVVGNPGSTEETFLKDFPSDFNYVLALQEASVVAIADGLSQSLRKPVIVNIHTGAGLGNAMGCLLTAYQNKTPLIITAGQQTREMLLNEPLLTNIEAINMPKPWVKWSYEPARPEDVPGAFMRAYATAMQQPQGPVFLSLPLDDWEKLIPEVDVARTVSTRQGPDPDKVKEFAQRITASKNPLLIYGSDIARSQAWSDGIAFAERLNAPVWAAPFAERTPFPEDHPLFQGALTSGIGSLEKQIQGHDLIVVIGAPVFRYYPWIAGQFIPEGSTLLQVSDDPNMTSKAVVGDSLVSDSKLFLIEALKLIDQREKNNTPQRSPMTKEDRTAMPLRPHAVLEVLKENSPKEIVLVEECPSIVPLMQDVFRINQPDTFYTFASGGLGWDLPAAVGLALGEEVSGRNRPVVTLMGDGSFQYSVQGIYTGVQQKTHVIYVVFQNEEYGILKQFAELEQTPNVPGLDLPGLDIVAQGKAYGAKSLKVETLDELKTAYLEALSFKGTSVIVVPITKELKPL 4k9q-a1-m2-cB_4k9q-a1-m1-cA The Crystal Structure of Benzoylformate Decarboxylase from Polynucleobacter necessarius A4SXU0 A4SXU0 1.598 X-RAY DIFFRACTION 35 1.0 576610 (Polynucleobacter necessarius) 576610 (Polynucleobacter necessarius) 530 531 4k9q-a1-m1-cB_4k9q-a1-m2-cA RTVKEITFDLLRKLQVTTVVGNPGSTEETFLKDFPSDFNYVLALQEASVVAIADGLSQSLRKPVIVNIHTGAGLGNAMGCLLTAYQNKTPLIITAGQQTREMLLNEPLLTNIEAINMPKPWVKWSYEPARPEDVPGAFMRAYATAMQQPQGPVFLSLPLDDWEKLIPEVDVARTVSTRQGPDPDKVKEFAQRITASKNPLLIYGSDIARSQAWSDGIAFAERLNAPVWAAPFAERTPFPEDHPLFQGALTSGIGSLEKQIQGHDLIVVIGAPVFRYYPWIAGQFIPEGSTLLQVSDDPNMTSKAVVGDSLVSDSKLFLIEALKLIDQREKNNTPQRSPMTKEDRTAMPLRPHAVLEVLKENSPKEIVLVEECPSIVPLMQDVFRINQPDTFYTFASGGLGWDLPAAVGLALGEEVSGRNRPVVTLMGDGSFQYSVQGIYTGVQQKTHVIYVVFQNEEYGILKQFAELEQTPNVPGLDLPGLDIVAQGKAYGAKSLKVETLDELKTAYLEALSFKGTSVIVVPITKELKPL MRTVKEITFDLLRKLQVTTVVGNPGSTEETFLKDFPSDFNYVLALQEASVVAIADGLSQSLRKPVIVNIHTGAGLGNAMGCLLTAYQNKTPLIITAGQQTREMLLNEPLLTNIEAINMPKPWVKWSYEPARPEDVPGAFMRAYATAMQQPQGPVFLSLPLDDWEKLIPEVDVARTVSTRQGPDPDKVKEFAQRITASKNPLLIYGSDIARSQAWSDGIAFAERLNAPVWAAPFAERTPFPEDHPLFQGALTSGIGSLEKQIQGHDLIVVIGAPVFRYYPWIAGQFIPEGSTLLQVSDDPNMTSKAVVGDSLVSDSKLFLIEALKLIDQREKNNTPQRSPMTKEDRTAMPLRPHAVLEVLKENSPKEIVLVEECPSIVPLMQDVFRINQPDTFYTFASGGLGWDLPAAVGLALGEEVSGRNRPVVTLMGDGSFQYSVQGIYTGVQQKTHVIYVVFQNEEYGILKQFAELEQTPNVPGLDLPGLDIVAQGKAYGAKSLKVETLDELKTAYLEALSFKGTSVIVVPITKELKPL 4k9q-a1-m2-cB_4k9q-a1-m2-cA The Crystal Structure of Benzoylformate Decarboxylase from Polynucleobacter necessarius A4SXU0 A4SXU0 1.598 X-RAY DIFFRACTION 107 1.0 576610 (Polynucleobacter necessarius) 576610 (Polynucleobacter necessarius) 530 531 4k9q-a1-m1-cB_4k9q-a1-m1-cA RTVKEITFDLLRKLQVTTVVGNPGSTEETFLKDFPSDFNYVLALQEASVVAIADGLSQSLRKPVIVNIHTGAGLGNAMGCLLTAYQNKTPLIITAGQQTREMLLNEPLLTNIEAINMPKPWVKWSYEPARPEDVPGAFMRAYATAMQQPQGPVFLSLPLDDWEKLIPEVDVARTVSTRQGPDPDKVKEFAQRITASKNPLLIYGSDIARSQAWSDGIAFAERLNAPVWAAPFAERTPFPEDHPLFQGALTSGIGSLEKQIQGHDLIVVIGAPVFRYYPWIAGQFIPEGSTLLQVSDDPNMTSKAVVGDSLVSDSKLFLIEALKLIDQREKNNTPQRSPMTKEDRTAMPLRPHAVLEVLKENSPKEIVLVEECPSIVPLMQDVFRINQPDTFYTFASGGLGWDLPAAVGLALGEEVSGRNRPVVTLMGDGSFQYSVQGIYTGVQQKTHVIYVVFQNEEYGILKQFAELEQTPNVPGLDLPGLDIVAQGKAYGAKSLKVETLDELKTAYLEALSFKGTSVIVVPITKELKPL MRTVKEITFDLLRKLQVTTVVGNPGSTEETFLKDFPSDFNYVLALQEASVVAIADGLSQSLRKPVIVNIHTGAGLGNAMGCLLTAYQNKTPLIITAGQQTREMLLNEPLLTNIEAINMPKPWVKWSYEPARPEDVPGAFMRAYATAMQQPQGPVFLSLPLDDWEKLIPEVDVARTVSTRQGPDPDKVKEFAQRITASKNPLLIYGSDIARSQAWSDGIAFAERLNAPVWAAPFAERTPFPEDHPLFQGALTSGIGSLEKQIQGHDLIVVIGAPVFRYYPWIAGQFIPEGSTLLQVSDDPNMTSKAVVGDSLVSDSKLFLIEALKLIDQREKNNTPQRSPMTKEDRTAMPLRPHAVLEVLKENSPKEIVLVEECPSIVPLMQDVFRINQPDTFYTFASGGLGWDLPAAVGLALGEEVSGRNRPVVTLMGDGSFQYSVQGIYTGVQQKTHVIYVVFQNEEYGILKQFAELEQTPNVPGLDLPGLDIVAQGKAYGAKSLKVETLDELKTAYLEALSFKGTSVIVVPITKELKPL 4k9z-a1-m3-cA_4k9z-a1-m4-cA Crystal structure of a putative thiol-disulfide oxidoreductase from Bacteroides vulgatus (target NYSGRC-011676), space group P6222 A6L2G8 A6L2G8 1.8 X-RAY DIFFRACTION 31 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 141 141 4k9z-a1-m1-cA_4k9z-a1-m2-cA 4ka0-a1-m1-cB_4ka0-a1-m1-cA 4ka0-a1-m1-cC_4ka0-a1-m1-cD ASKLLPGQPAIDFEMLDVEGNVKHLADFKGKVIYIDLWATWCGPCIQESPAFEALGKKYVGKDIVFLPVSTDTTTKPWLRYLDGHKKELTQYHSNDVALKESWAIMYIPRFILIDKDFNIVNAYAPRPSSEEIGTLIDSVL ASKLLPGQPAIDFEMLDVEGNVKHLADFKGKVIYIDLWATWCGPCIQESPAFEALGKKYVGKDIVFLPVSTDTTTKPWLRYLDGHKKELTQYHSNDVALKESWAIMYIPRFILIDKDFNIVNAYAPRPSSEEIGTLIDSVL 4ka0-a1-m1-cB_4ka0-a1-m1-cD Crystal structure of a putative thiol-disulfide oxidoreductase from Bacteroides vulgatus (target NYSGRC-011676), space group P21221 A6L2G8 A6L2G8 2.1 X-RAY DIFFRACTION 42 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 140 141 4k9z-a1-m1-cA_4k9z-a1-m3-cA 4k9z-a1-m2-cA_4k9z-a1-m4-cA 4ka0-a1-m1-cC_4ka0-a1-m1-cA SKLLPGQPAIDFEMLDVEGNVKHLADFKGKVIYIDLWATWCGPCIQESPAFEALGKKYVGKDIVFLPVSTDTTTKPWLRYLDGHKKELTQYHSNDVALKESWAIMYIPRFILIDKDFNIVNAYAPRPSSEEIGTLIDSVL ASKLLPGQPAIDFEMLDVEGNVKHLADFKGKVIYIDLWATWCGPCIQESPAFEALGKKYVGKDIVFLPVSTDTTTKPWLRYLDGHKKELTQYHSNDVALKESWAIMYIPRFILIDKDFNIVNAYAPRPSSEEIGTLIDSVL 4ka0-a1-m1-cD_4ka0-a1-m1-cA Crystal structure of a putative thiol-disulfide oxidoreductase from Bacteroides vulgatus (target NYSGRC-011676), space group P21221 A6L2G8 A6L2G8 2.1 X-RAY DIFFRACTION 24 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 141 143 4ka0-a1-m1-cB_4ka0-a1-m1-cC ASKLLPGQPAIDFEMLDVEGNVKHLADFKGKVIYIDLWATWCGPCIQESPAFEALGKKYVGKDIVFLPVSTDTTTKPWLRYLDGHKKELTQYHSNDVALKESWAIMYIPRFILIDKDFNIVNAYAPRPSSEEIGTLIDSVL ASKLLPGQPAIDFEMLDVEGNVKHLADFKGKVIYIDLWATWCGPCIQESPAFEALGKKYVGKDIVFLPVSTDTTTKPWLRYLDGHKKELTQYHSNDVALKESWAIMYIPRFILIDKDFNIVNAYAPRPSSEEIGTLIDSVLNK 4kae-a1-m1-cB_4kae-a1-m1-cA Crystal structure of Maleylacetoacetate isomerase from Anaeromyxobacter dehalogenans 2CP-1, TARGET EFI-507175, with bound dicarboxyethyl glutathione and citrate in the active site B8J605 B8J605 1.5 X-RAY DIFFRACTION 96 0.981 455488 (Anaeromyxobacter dehalogenans 2CP-1) 455488 (Anaeromyxobacter dehalogenans 2CP-1) 215 220 FQSMTLRLYSYWRSSSAWRVRLGLALKGLAYEYRAVDLLAQEQFQAAHQARNSQVPVLEVEEDGRTHLLVQSMAILEWLEERHPEPALLPPDLWGRARVRALAEHVNSGTQPMQNALVLRMLREKVPGWDREWARFFIARGLAALETAVRDGAGRFSHGDAPTLADCYLVPQLYNARRFGLDLEPYPTLRRVDEACAALAPFQAAHPDRQPDAPP LYFQSMTLRLYSYWRSSSAWRVRLGLALKGLAYEYRAVDLLAQEQFQAAHMSQVPVLEVEEDGRTHLLVQSMAILEWLEERHPEPALLPPDLWGRARVRALAEHVNSGTQPMQNALVLRMLREKVPGWDREWARFFIARGLAALETAVRDGAGRFSHGDAPTLADCYLVPQLYNARRFGLDLEPYPTLRRVDEACAALAPFQAAHPDRQPDAPPPDRRTP 4kaf-a2-m1-cA_4kaf-a2-m1-cB Crystal Structure of Haloalkane dehalogenase HaloTag7 at the resolution 1.5A, Northeast Structural Genomics Consortium (NESG) Target OR151 P0A3G3 P0A3G3 1.496 X-RAY DIFFRACTION 32 1.0 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 1831 (Rhodococcus sp. (in: high G+C Gram-positive bacteria)) 289 291 4kaf-a1-m1-cA_4kaf-a1-m1-cB AEIGTGFPFDPHYVEVLGERHYVDVGPRDGTPVLFLHGNPTSSYVWRNIIPHVAPTHRCIAPDLIGGKSDKPDLGYFFDDHVRFDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERIKGIAFEFIRPIPTWDEWPEFARETFQAFRTTDVGRKLIIDQNVFIEGTLPGVVRPLTEVEDHYREPFLNPVDREPLWRFPNELPIAGEPANIVALVEEYDWLHQSPVPKLLFWGTPGVLIPPAEAARLAKSLPNCKAVDIGPGLNLLQEDNPDLIGSEIARWLSTLEISG SHAEIGTGFPFDPHYVEVLGERHYVDVGPRDGTPVLFLHGNPTSSYVWRNIIPHVAPTHRCIAPDLIGGKSDKPDLGYFFDDHVRFDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERIKGIAFEFIRPIPTWDEWPEFARETFQAFRTTDVGRKLIIDQNVFIEGTLPGVVRPLTEVEDHYREPFLNPVDREPLWRFPNELPIAGEPANIVALVEEYDWLHQSPVPKLLFWGTPGVLIPPAEAARLAKSLPNCKAVDIGPGLNLLQEDNPDLIGSEIARWLSTLEISG 4kam-a1-m1-cB_4kam-a1-m1-cC X-ray crystal structure of O-acetylhomoserine sulfhydrylase MetC from Mycobacterium marinum ATCC BAA-535 / M B2HDS7 B2HDS7 2 X-RAY DIFFRACTION 22 0.987 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 381 383 PTAHWSFETKQIHAGQNARALPIYQTTSTRLGNPTTDVVEQRIAALEGGVAALFLSSGQAAETFAILNLAGAGDHIVSSPRLYGGTYNLFHYSLAKLGIEVSFVDDPDNLDSWQAAVRPNTKAFFGETISNPQIDLLDTPGVAEVAHRNGIPLIVDNTIATPYLIRPFTQGADIVVHSATKYLGGHGAAIAGVIVDGGTFDWTQGRFPEFTTPDPSYHGVVFAELGAPAYALKARVQLLRDLGSAASPFNAFLVAQGLETLSLRIERHVSNAQRVAEFLADREDVVTVNYAGLPGSPWHERAKKLSPKGTGAVLSFELAGGVEAGKAFVNALKLHSHVANIGDVRSLVIHSPGLVRLAVGIEGIEDILADLELGFAAARKF PTAHWSFETKQIHAGQQPDSATLPIYQTTSRLGNPTTDVVEQRIAALEGGVAALFLSSGQAAETFAILNLAGAGDHIVSSPRLYGGTYNLFHYSLAKLGIEVSFVDDPDNLDSWQAAVRPNTKAFFGETISNPQIDLLDTPGVAEVAHRNGIPLIVDNTIATPYLIRPFTQGADIVVHSATKYLGGHGAAIAGVIVDGGTFDWTQGRFPEFTTPDPSYHGVVFAELGAPAYALKARVQLLRDLGSAASPFNAFLVAQGLETLSLRIERHVSNAQRVAEFLADREDVVTVNYAGLPGSPWHERAKKLSPKGTGAVLSFELAGGVEAGKAFVNALKLHSHVANIGDVRSLVIHSPGLVRLAVGIEGIEDILADLELGFAAARKFS 4kam-a1-m1-cD_4kam-a1-m1-cB X-ray crystal structure of O-acetylhomoserine sulfhydrylase MetC from Mycobacterium marinum ATCC BAA-535 / M B2HDS7 B2HDS7 2 X-RAY DIFFRACTION 106 0.995 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 368 381 4kam-a1-m1-cA_4kam-a1-m1-cC HWSFETKQIHAGQNARALPIYQTTSYRLGNPTTDVVEQRIAALEGGVAALFLSSGQAAETFAILNLAGAGDHIVSSPRLYGGTYNLFHYSLAKLGIEVSFVDDPDNLDSWQAAVRPNTKAFFGETISNPQIDLLDTPGVAEVAHRNGIPLIVDNTIATPYLIRPFTQGADIVVHSATKYLGGHGAAIAGVIVDGGTFDWTQGRFPEFTTPDPSYHGVVFAELGAPAYALKARVQLLRDLGSAASPFNAFLVAQGLETLSLRIERHVSNAQRVAEFLADREDVVTVNYAGLPGSPWHERAKKLSPKGTGAVLSFELAKAFVNALKLHSHVANIGDVRSLVIHPSPGLVRLAVGIEGIEDILADLELGFA PTAHWSFETKQIHAGQNARALPIYQTTSTRLGNPTTDVVEQRIAALEGGVAALFLSSGQAAETFAILNLAGAGDHIVSSPRLYGGTYNLFHYSLAKLGIEVSFVDDPDNLDSWQAAVRPNTKAFFGETISNPQIDLLDTPGVAEVAHRNGIPLIVDNTIATPYLIRPFTQGADIVVHSATKYLGGHGAAIAGVIVDGGTFDWTQGRFPEFTTPDPSYHGVVFAELGAPAYALKARVQLLRDLGSAASPFNAFLVAQGLETLSLRIERHVSNAQRVAEFLADREDVVTVNYAGLPGSPWHERAKKLSPKGTGAVLSFELAGGVEAGKAFVNALKLHSHVANIGDVRSLVIHSPGLVRLAVGIEGIEDILADLELGFAAARKF 4kam-a3-m1-cD_4kam-a3-m1-cC X-ray crystal structure of O-acetylhomoserine sulfhydrylase MetC from Mycobacterium marinum ATCC BAA-535 / M B2HDS7 B2HDS7 2 X-RAY DIFFRACTION 163 0.984 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 368 383 4kam-a1-m1-cA_4kam-a1-m1-cB 4kam-a1-m1-cD_4kam-a1-m1-cC 4kam-a2-m1-cA_4kam-a2-m1-cB HWSFETKQIHAGQNARALPIYQTTSYRLGNPTTDVVEQRIAALEGGVAALFLSSGQAAETFAILNLAGAGDHIVSSPRLYGGTYNLFHYSLAKLGIEVSFVDDPDNLDSWQAAVRPNTKAFFGETISNPQIDLLDTPGVAEVAHRNGIPLIVDNTIATPYLIRPFTQGADIVVHSATKYLGGHGAAIAGVIVDGGTFDWTQGRFPEFTTPDPSYHGVVFAELGAPAYALKARVQLLRDLGSAASPFNAFLVAQGLETLSLRIERHVSNAQRVAEFLADREDVVTVNYAGLPGSPWHERAKKLSPKGTGAVLSFELAKAFVNALKLHSHVANIGDVRSLVIHPSPGLVRLAVGIEGIEDILADLELGFA PTAHWSFETKQIHAGQQPDSATLPIYQTTSRLGNPTTDVVEQRIAALEGGVAALFLSSGQAAETFAILNLAGAGDHIVSSPRLYGGTYNLFHYSLAKLGIEVSFVDDPDNLDSWQAAVRPNTKAFFGETISNPQIDLLDTPGVAEVAHRNGIPLIVDNTIATPYLIRPFTQGADIVVHSATKYLGGHGAAIAGVIVDGGTFDWTQGRFPEFTTPDPSYHGVVFAELGAPAYALKARVQLLRDLGSAASPFNAFLVAQGLETLSLRIERHVSNAQRVAEFLADREDVVTVNYAGLPGSPWHERAKKLSPKGTGAVLSFELAGGVEAGKAFVNALKLHSHVANIGDVRSLVIHSPGLVRLAVGIEGIEDILADLELGFAAARKFS 4kay-a3-m1-cA_4kay-a3-m1-cB Structure of the soluble domain of Lipooligosaccharide phosphoethanolamine transferase A from Neisseria meningitidis - complex with Zn Q7DD94 Q7DD94 1.781 X-RAY DIFFRACTION 45 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 331 332 NIPYTQLDMAVVQNRPAGSLRRFVVLVVGETTRAANWGLNGYSRQTTPLLAARGDEIVNFPQVRSCGTSAHSLPCMFSTFDRTDYDEIKAEHQDNLLDIVQRAGVEVTWLENDSGCKGVCGKVPNTDVTSLNLPEYCRNGECLDNILLTKFDEVLNKNDKDAVLILHTIGSHGPTYYERYTEAERKFTPTCDTNEINKCTATLVNTYDNTVLYVDQFIDKVIRKLENRDDLESVVHYVSDHGESLGENGMYLHAAPYAIAPSGQTHIPMVMWFSKAFRQHGGIDFQCLKQKAAENEYSHDHYFSTVLGLMDISNSQTYRKEMDILAACRRP NIPYTQLDMAVVQNRPAGSLRRFVVLVVGETTRAANWGLNGYSRQTTPLLAARGDEIVNFPQVRSCGTSAHSLPCMFSTFDRTDYDEIKAEHQDNLLDIVQRAGVEVTWLENDSGCKGVCGKVPNTDVTSLNLPEYCRNGECLDNILLTKFDEVLNKNDKDAVLILHTIGSHGPTYYERYTEAERKFTPTCDTNEINKCTRATLVNTYDNTVLYVDQFIDKVIRKLENRDDLESVVHYVSDHGESLGENGMYLHAAPYAIAPSGQTHIPMVMWFSKAFRQHGGIDFQCLKQKAAENEYSHDHYFSTVLGLMDISNSQTYRKEMDILAACRRP 4kb3-a1-m1-cA_4kb3-a1-m1-cJ Crystal structure of the mitochondrial peroxiredoxin from Leishmania braziliensis in the decameric form A4HCL7 A4HCL7 2.93 X-RAY DIFFRACTION 65 1.0 5660 (Leishmania braziliensis) 5660 (Leishmania braziliensis) 163 163 4kb3-a1-m1-cC_4kb3-a1-m1-cB 4kb3-a1-m1-cE_4kb3-a1-m1-cD 4kb3-a1-m1-cF_4kb3-a1-m1-cG 4kb3-a1-m1-cI_4kb3-a1-m1-cH ATVRDPAPQFSGKAVVDGAIKEINSNDYKGKYIVLFFYPMDFTFVCPTEIIAFSDRYLEFEKLNTQVIAVSCDSEYSHLAWVNTPRKKGGLGEMKIPVLADKSMEIARDYGVLIESAGIALRGLFVIDKKGTLRHSTINDLPVGRNVDEVLRVVEAFQYADEN ATVRDPAPQFSGKAVVDGAIKEINSNDYKGKYIVLFFYPMDFTFVCPTEIIAFSDRYLEFEKLNTQVIAVSCDSEYSHLAWVNTPRKKGGLGEMKIPVLADKSMEIARDYGVLIESAGIALRGLFVIDKKGTLRHSTINDLPVGRNVDEVLRVVEAFQYADEN 4kb3-a1-m1-cI_4kb3-a1-m1-cJ Crystal structure of the mitochondrial peroxiredoxin from Leishmania braziliensis in the decameric form A4HCL7 A4HCL7 2.93 X-RAY DIFFRACTION 66 1.0 5660 (Leishmania braziliensis) 5660 (Leishmania braziliensis) 163 163 4kb3-a1-m1-cA_4kb3-a1-m1-cB 4kb3-a1-m1-cC_4kb3-a1-m1-cD 4kb3-a1-m1-cE_4kb3-a1-m1-cF 4kb3-a1-m1-cG_4kb3-a1-m1-cH ATVRDPAPQFSGKAVVDGAIKEINSNDYKGKYIVLFFYPMDFTFVCPTEIIAFSDRYLEFEKLNTQVIAVSCDSEYSHLAWVNTPRKKGGLGEMKIPVLADKSMEIARDYGVLIESAGIALRGLFVIDKKGTLRHSTINDLPVGRNVDEVLRVVEAFQYADEN ATVRDPAPQFSGKAVVDGAIKEINSNDYKGKYIVLFFYPMDFTFVCPTEIIAFSDRYLEFEKLNTQVIAVSCDSEYSHLAWVNTPRKKGGLGEMKIPVLADKSMEIARDYGVLIESAGIALRGLFVIDKKGTLRHSTINDLPVGRNVDEVLRVVEAFQYADEN 4kb5-a2-m1-cA_4kb5-a2-m2-cA Crystal structure of MycP1 from Mycobacterium smegmatis A0QNL1 A0QNL1 2.15 X-RAY DIFFRACTION 105 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 386 386 MIDPPVIDAGAVPPDETGPDQPTEQRKICATPTVMPNSNFADRPWANDYLRIQEAQKFATGAGVTVAVIDTGVNGSPRVPAEPGGDFVDAAGNGMSDCDAHGTMTAAIIGGRPSPTDGFVGMAPDVRLLSLRQTSVAFQPKGARQDPNDPNTTQTAGSIRSLARSVVHAANLGAQVINISEAACYKVTRRIDETSLGAAINYAVNVKGAVIVVAAGNTGQDCSQNPPPDPSVPSDPRGWREVQTIVSPAWYDPLVLTVGSIGQNGQPSNFSMSGPWVGAAAPGENLTSLGYDGQPVNATPGEDGPVPLNGTSFSAAYVSGLAALVKQRFPDLTPAQIINRITATARHPGGGVDNYVGAGVIDPVAALTWEIPDGPEKAPFRVKEVP MIDPPVIDAGAVPPDETGPDQPTEQRKICATPTVMPNSNFADRPWANDYLRIQEAQKFATGAGVTVAVIDTGVNGSPRVPAEPGGDFVDAAGNGMSDCDAHGTMTAAIIGGRPSPTDGFVGMAPDVRLLSLRQTSVAFQPKGARQDPNDPNTTQTAGSIRSLARSVVHAANLGAQVINISEAACYKVTRRIDETSLGAAINYAVNVKGAVIVVAAGNTGQDCSQNPPPDPSVPSDPRGWREVQTIVSPAWYDPLVLTVGSIGQNGQPSNFSMSGPWVGAAAPGENLTSLGYDGQPVNATPGEDGPVPLNGTSFSAAYVSGLAALVKQRFPDLTPAQIINRITATARHPGGGVDNYVGAGVIDPVAALTWEIPDGPEKAPFRVKEVP 4kbj-a1-m1-cA_4kbj-a1-m1-cB Structure of Mtb RNAP Beta subunit B1 and B2 domains P9WGY9 P9WGY9 2.4532 X-RAY DIFFRACTION 81 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 384 386 PRGSHMMLLDVQTDSFEWLIGSPRWRESAAERGDVNPVGGLEEVLYELSPIEDFSGSMSLSFSDPRFDDVKAPVDECKDKDMTYAAPLFVTAEFINNNTGEIKSQTVFMGDFPMMTEKGTFIINGTERVVVSQLVRSPGVYFDETIDKSTDKTLHSVKVIPSRGAWLEFDVDKRDTVGVRIDRKRRQPVTVLLKALGWTSEQIVERFGFSEIMRSTLEKDNTVGTDEALLDIYRKLRPGEPPTKESAQTLLENLFFKEKRYDLARVGRYKVNKKLGLHVGEPITSSTLTEEDVVATIEYLVRLHEGQTTMTVPGGVEVPVETDDIDHNRRLRTVGELIQNQIRVGMSRMERVVRERMTTQDVEAITPQTLINIRPVVAAIKEFF PRGSHMMLLDVQTDSFEWLIGSPRWRESAAERGDVNPVGGLEEVLYELSPIEDFSGSMSLSFSDPRFDDVKAPVDECKDKDMTYAAPLFVTAEFINNNTGEIKSQTVFMGDFPMMTEKGTFIINGTERVVVSQLVRSPGVYFDETIDKSTDKTLHSVKVIPSRGAWLEFDVDKRDTVGVRIDRKRRQPVTVLLKALGWTSEQIVERFGFSEIMRSTLEKDNTVGTDEALLDIYRKLRPGEPPTKESAQTLLENLFFKEKRYDLARVGRYKVNKKLGLHVGEPITSSTLTEEDVVATIEYLVRLHEGQTTMTVPGGVEVPVETDDIDHFGNRRLRTVGELIQNQIRVGMSRMERVVRERMTTQDVEAITPQTLINIRPVVAAIKEFF 4kbl-a3-m1-cB_4kbl-a3-m1-cA Structure of HHARI, a RING-IBR-RING ubiquitin ligase: autoinhibition of an Ariadne-family E3 and insights into ligation mechanism Q9Y4X5 Q9Y4X5 3.3 X-RAY DIFFRACTION 60 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 394 395 YRYEVLTAEQILQHMVECIREVNEVIQNPATITRILLSHFNWDKEKLMERYFDGPCQICYLNYPNSYFTGLECGHKFCMQCWSEYLTTKIMEMGQTISCPAHGCDILVDDNTVMRLITDSKVKLKYQHLITNSFVECNRLLKWCPAPDCHHVVKVQYPDAKPVRCKCGRQFCFNCGENWHDPVKCKWLKKWIKKCDIAANTKECPKCHVTIEKDGGCNHMVCRNQNCKAEFCWVCLGPWEPHGSAWYNCNRYNERSRAALQRYLFYCNRYMNHMQSLRFEHKLYAQVKQKMEWIEVQFLKKAVDVLCQCRATLMYTYVFAFYLKKNNQSIIFENNQADLENATEVLSGYLERDISQDSLQDIKQKVQDKYRYCESRRRVLLQHVHEGYEKDLWE YRYEVLTAEQILQHMVECIREVNEVIQNPATITRILLSHFNWDKEKLMERYFDGNMPCQICYLNYPNSYFTGLECGHKFCMQCWSEYLTTKIMEEGMGQTISCPAHGCDILVDDNTVMRLITDSKVKLKYQHLITNSFVECNRLLKWCPAPDCHHVVKVQYPDAKPVRCKCGRQFCFNCGENWHDPVKCKWLKKWIKKCIAANTKECPKCHVTIEKDGGCNHMVCRNQNCKAEFCWVCLGPWEPHGSAWYNCNRYNRSRAALQRYLFYCNRYMNHMQSLRFEHKLYAQVKQKMEWIEVQFLKKAVDVLCQCRATLMYTYVFAFYLKKNNQSIIFENNQADLENATEVLSGYLERDISQDSLQDIKQKVQDKYRYCESRRRVLLQHVHEGYEKDLW 4kbr-a11-m1-cD_4kbr-a11-m2-cG Crystal structure of mouse Ceramide-1-phosphate transfer protein (apo-form) Q8BS40 Q8BS40 2.547 X-RAY DIFFRACTION 44 0.98 10090 (Mus musculus) 10090 (Mus musculus) 202 203 4kbr-a10-m1-cB_4kbr-a10-m1-cE 4kbr-a12-m1-cF_4kbr-a12-m3-cH 4kbr-a9-m1-cC_4kbr-a9-m1-cA FNLKVVLVSFKQCLTDKGEVLLDHYIAGWKGLVRFLNSLGAVFSFISKDVVAKLQIMERLRSSPQSEHYTSLQSMVAYEVSNKLVDMDHPRHPHSGCRTVLRLHRALHWLQLFLDGLRTSSTSTLCSEAYNATLANYHSWIVRQAVTVAFCALPSRKVFLEAMNMESTEQAVEMLGEALPFIEHVYDISQKLYAEHSLLDLP DFNLKVVLVSFKQCLTDKGEVLLDHYIAGWKGLVRFLNSLGAVFSFISKDVVAKLQIMERLRSSPQSEHYTSLQSMVAYEVSNKLVDRHPHSGCRTVLRLHRALHWLQLFLDGLRTSSEDARTSTLCSEAYNATLANYHSWIVRQAVTVAFCALPSRKVFLEAMNMESTEQAVEMLGEALPFIEHVYDISQKLYAEHSLLDLP 4kbx-a1-m1-cA_4kbx-a1-m2-cA Crystal structure of the pyridoxal-5'-phosphate dependent protein yhfx from escherichia coli P45550 P45550 1.599 X-RAY DIFFRACTION 167 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 380 380 FVEALRQNPALISAALSLWQQGKIAPDSWVIDVDQILENGKRLIETARLYGIELYLTQFGRNPWLAEKLLALGYSGIVAVDYKEARVRRAGLPVAHQGHLVQIPCHQVADAVEQGTDVITVFTLDKAREVSAAAVKAGRIQSVLLKVYSDDDFLYPGQESGFALKVLPEIVAEIQNLPGLHLAGLTHFPCLLWDEAVGKVLPTPNLHTLIQARDQLAKSGIALEQLNAPSATSCTSLPLLAQYGVTHAEPGHALTGTIPANQQGDQPERIALWLSEISHHFRGDSYCYGGGYYRRGHAQHALVFTPENQKITETNLKTVDDSSIDYTLPLAGEFPVSSAVVLCFRTQIFVTRSDVVLVSGIHRGEPEIVGRYDSLGNSLG FVEALRQNPALISAALSLWQQGKIAPDSWVIDVDQILENGKRLIETARLYGIELYLTQFGRNPWLAEKLLALGYSGIVAVDYKEARVRRAGLPVAHQGHLVQIPCHQVADAVEQGTDVITVFTLDKAREVSAAAVKAGRIQSVLLKVYSDDDFLYPGQESGFALKVLPEIVAEIQNLPGLHLAGLTHFPCLLWDEAVGKVLPTPNLHTLIQARDQLAKSGIALEQLNAPSATSCTSLPLLAQYGVTHAEPGHALTGTIPANQQGDQPERIALWLSEISHHFRGDSYCYGGGYYRRGHAQHALVFTPENQKITETNLKTVDDSSIDYTLPLAGEFPVSSAVVLCFRTQIFVTRSDVVLVSGIHRGEPEIVGRYDSLGNSLG 4kc0-a1-m1-cB_4kc0-a1-m1-cA mSTING Q3TBT3 Q3TBT3 2.2 X-RAY DIFFRACTION 92 1.0 10090 (Mus musculus) 10090 (Mus musculus) 178 182 4kby-a1-m1-cA_4kby-a1-m1-cB VAHGLAWSYYIGYLRLILPGLQARIRMFNQLHNNMLSGAGSRRLYILFPLDCGVPDNLSVVDPNIRFRDMLPQQNIDRAGIKNRVYSNSVYEILENGQPAGVCILEYATPLQTLFAMSQDAKREDRLEQAKLFCRTLEEILEDVPESRNNCRLIVYQEPTDGNSFSLSQEVLRHIRQE LNVAHGLAWSYYIGYLRLILPGLQARIRMFNQLHNNMLSGAGSRRLYILFPLDCGVPDNLSVVDPNIRFRDMLPQQNIDRAGIKNRVYSNSVYEILENGQPAGVCILEYATPLQTLFAMSQDAKSREDRLEQAKLFCRTLEEILEDVPESRNNCRLIVYQEPTDGNSFSLSQEVLRHIRQEE 4kc5-a2-m1-cC_4kc5-a2-m1-cD Crystal structure of the C-terminal part of RhiE from Burkholderia rhizoxinica A1KQS1 A1KQS1 2.14 X-RAY DIFFRACTION 273 0.996 412963 (Mycetohabitans rhizoxinica) 412963 (Mycetohabitans rhizoxinica) 901 910 4kc5-a1-m1-cB_4kc5-a1-m1-cA ELANYIAVIGLGGYYPGADSIDELWQNLANGVDCMSDFPADRWDHSKIYYKNRKVLGKTTCINGSFIKDVDKFDYSYFKMPKVYADHMSPEVRLFLQVAVHTFEDAGYSKETLLSRYNGDVGVLLGTMSNDYHYYGFESNVFRGSMASGSGMATIPMTVSYFYGLTGPSLFIDTMCSSSSTCIHTACQMLKHDETKMVLAGGLNLMYHPYTTVNTSQGNFTSITSESVNSYGVGADGTVIGEGIGAVLLKRLDRAIADRDQIYGVIKGSAMTNAGERNGFNVPNPDLQTLAIRQAMDQAKVHPSSISYIEGHGSGTKLGDPIEVLGLNNAFRWATDDKQFCYLGSIKSNIGHLLAASGIAGLTKTLLQFKHKQIAPSIHSSQLNQDIDFADTPFVVPQQLIEWRQPERQVFPRRAGLTSIAAGGMNAHMIVEEYPEPADSAGQISEDQLVFVFSVHKLALLAQNLTSFRDWLASSEAPLAQIAYTLQVGKNNLRNRLAIRCRTRQALSRALNACIDGHYQSSADSKIFYRFQESDAVQPLESDLNDPLAPLLTQWLNGDSQVDWASLYAQPPVRISLPAYRFEKTRCWYTEEGYESSIVNPLMFKNKLHPLVAKNCSTPQPGAIFRTDFVEDELLDYVYSGRGGRRLSAFNFADVALAMPALASRFDGRTLSVSCAFEHYIADWTTVTGLEYRLFEIDSEQLELEFDFRRSGEQPTHLGFAVINPLTLPQQWLDDARELLNRQALQAGRQLSAAEVSQRLAQAGYDFAPYLDHDGELTIGRSGLVLKGRPPVNRHNHYADNVQLSPYLATTIDKALYLLLDELGLPQGRVIVRNIERLCCYHTPAGGFSVVLSGIGLNDNELSLSLLVLDEREQICVKLDKVSLYLGKQEVASVDRKHSLL NELANYIAVIGLGGYYPGADSIDELWQNLANGVDCMSDFPADRWDHSKIYYKNRKVLGKTTCINGSFIKDVDKFDYSYFKMPKVYADHMSPEVRLFLQVAVHTFEDAGYSKETLLSRYNGDVGVLLGTMSNDYHYYGFESNVFRGSMASGSGMATIPMTVSYFYGLTGPSLFIDTMCSSSSTCIHTACQMLKHDETKMVLAGGLNLMYHPYTTVNTSQGNFTSITSESVNSYGVGADGTVIGEGIGAVLLKRLDRAIADRDQIYGVIKGSAMTNAGERNGFNVPNPDLQTLAIRQAMDQAKVHPSSISYIEGHGSGTKLGDPIEVLGLNNAFRWATDDKQFCYLGSIKSNIGHLLAASGIAGLTKTLLQFKHKQIAPSIHSSQLNQDIDFADTPFVVPQQLIEWRQPERIINGRKQVFPRRAGLTSIAAGGMNAHMIVEEYPEPADSAGQISEDQLVFVFSVHKLALLAQNLTSFRDWLASSEAPLAQIAYTLQVGKNNLRNRLAIRCRTRQALSRALNACIDGHYQSSADSKIFYRFQESDAVQPLEDPLAPLLTQWLNGDSQVDWASLYAQPPVRISLPAYRFEKTRCWYTEEGYESSIVNPLMFKNKLHPLVAKNCSTPQPGAIFRTDFVEDELLDYVYSGRGGRRLSAFNFADVALAMPALASRFDGRTLSVSCAFEHYIADWTTVTGLEYRLFEIDSEQLELEFDFRRSGEQPTHLGFAVINPLTSDEPPLPQQWLDDARELLNRQALQAGRQLSAAEVSQRLAQAGYDFAPYLDHDGELTIGRSGLVLKGRPPVNRHNHYADNVQLSPYLATTIDKALYLLLDELGLPQGRVIVRNIERLCCYHTPAGGFSVVLSGIGLNDNELSLSLLVLDEREQICVKLDKVSLYLGKQEVASVDRKHSLLT 4kd5-a1-m1-cA_4kd5-a1-m1-cC substrate binding domain of putative molybdenum ABC transporter from Clostridium difficile Q18A64 Q18A64 2.4999 X-RAY DIFFRACTION 40 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 225 225 SVELNISAAASLKEAAKIEEEYKKVDSNVKLTVNYGASGSLQQQIEQGAPCDLFISAGQKQKVLDEEKLLVSDTKDLVKNDLVLISSADSSVSGKDLTTDKVKKIAVGEAESVPAGKYADEVLTNLNLKDKLKDKLVFAKDVKEVLAWVQSGNADVGFVYFSDTVNNDKIKVVEKTDEKTHSPITYPVSVIKASKNVDAAKKFEEFLLSESGQKIFEEFGYKKVE SVELNISAAASLKEAAKIEEEYKKVDSNVKLTVNYGASGSLQQQIEQGAPCDLFISAGQKQKVLDEEKLLVSDTKDLVKNDLVLISSADSSVSGKDLTTDKVKKIAVGEAESVPAGKYADEVLTNLNLKDKLKDKLVFAKDVKEVLAWVQSGNADVGFVYFSDTVNNDKIKVVEKTDEKTHSPITYPVSVIKASKNVDAAKKFEEFLLSESGQKIFEEFGYKKVE 4kd5-a1-m1-cD_4kd5-a1-m1-cA substrate binding domain of putative molybdenum ABC transporter from Clostridium difficile Q18A64 Q18A64 2.4999 X-RAY DIFFRACTION 53 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 223 225 4kd5-a1-m1-cB_4kd5-a1-m1-cC VELNISAAASLKEAAKIEEEYKKVDSNVKLTVNYGASGSLQQQIEQGAPCDLFISAGQKQKVLDEEKLLVSDTKDLVKNDLVLISSADSSVSGKDLTTDKVKKIAVGEAESVPAGKYADEVLTNLNLKDKLKDKLVFAKDVKEVLAWVQSGNADVGFVYFSDTVNNDKIKVVEKTDEKTHSPITYPVSVIKASKNVDAAKKFEEFLLSESGQKIFEEFGYKKV SVELNISAAASLKEAAKIEEEYKKVDSNVKLTVNYGASGSLQQQIEQGAPCDLFISAGQKQKVLDEEKLLVSDTKDLVKNDLVLISSADSSVSGKDLTTDKVKKIAVGEAESVPAGKYADEVLTNLNLKDKLKDKLVFAKDVKEVLAWVQSGNADVGFVYFSDTVNNDKIKVVEKTDEKTHSPITYPVSVIKASKNVDAAKKFEEFLLSESGQKIFEEFGYKKVE 4kd6-a1-m2-cA_4kd6-a1-m3-cA Crystal structure of a Enoyl-CoA hydratase/isomerase from Burkholderia graminis C4D1M B1GB42 B1GB42 2.25 X-RAY DIFFRACTION 57 1.0 396598 (Paraburkholderia graminis C4D1M) 396598 (Paraburkholderia graminis C4D1M) 205 205 4kd6-a1-m1-cA_4kd6-a1-m2-cA 4kd6-a1-m1-cA_4kd6-a1-m3-cA DVLFSNHGRVAVITLNRPERLNAWTTPRETIIDALERFNRDPEVAAIITGAGNRAFSAGQDLSWVKEWQRYYTALRSLSKPLVALNGTAAGSAFQVALLGDIRVGHPGVRGQPEINAGIASTTGPWINALGSRTIELTLTGRLEAEECHRIGLIHHLVDEDKVFDKALEIATELAAKPPVARLDKQRFRETEPGFIDCIEAGERI DVLFSNHGRVAVITLNRPERLNAWTTPRETIIDALERFNRDPEVAAIITGAGNRAFSAGQDLSWVKEWQRYYTALRSLSKPLVALNGTAAGSAFQVALLGDIRVGHPGVRGQPEINAGIASTTGPWINALGSRTIELTLTGRLEAEECHRIGLIHHLVDEDKVFDKALEIATELAAKPPVARLDKQRFRETEPGFIDCIEAGERI 4ke2-a2-m1-cB_4ke2-a2-m1-cC Crystal structure of the hyperactive Type I antifreeze from winter flounder B1P0S1 B1P0S1 1.8 X-RAY DIFFRACTION 234 1.0 8265 (Pseudopleuronectes americanus) 8265 (Pseudopleuronectes americanus) 196 196 4ke2-a1-m1-cA_4ke2-a1-m2-cA MNIDPAARAAAAAAASKAAVTAADAAAAAATIAASAASVAAATAADDAAASIATINAASAAAKSIAAAAAMAAKDTAAAAASAAAAAVASAAKALETINVKAAYAAATTANTAAAAAAATATTAAAAAAAKATIDNAAAAKAAAVATAVSDAAATAATAAAVAAATLEAAAAKAAATAVSAAAAAAAAAIAFAAAP MNIDPAARAAAAAAASKAAVTAADAAAAAATIAASAASVAAATAADDAAASIATINAASAAAKSIAAAAAMAAKDTAAAAASAAAAAVASAAKALETINVKAAYAAATTANTAAAAAAATATTAAAAAAAKATIDNAAAAKAAAVATAVSDAAATAATAAAVAAATLEAAAAKAAATAVSAAAAAAAAAIAFAAAP 4keg-a2-m1-cA_4keg-a2-m2-cA Crystal Structure of MBP Fused Human SPLUNC1 Q9NP55 Q9NP55 2.5 X-RAY DIFFRACTION 202 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 535 535 4n4x-a2-m1-cA_4n4x-a2-m2-cA KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALAAAQTNAAASPTGLAGSLTNALSNGLLSGGLLGILENLPLDIKVTDPQLLELGLVQSPDGHRLYVTIPLGIKLQVNLLRLAVKLDITAEILAVRDKQERIHLVLGDCTHSPGSLQISLLDLLDSLTGILNKVLPELVQGNVCPLVNEVLRGLDITLVHDIVNMLIHGLQFVIKV KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALAAAQTNAAASPTGLAGSLTNALSNGLLSGGLLGILENLPLDIKVTDPQLLELGLVQSPDGHRLYVTIPLGIKLQVNLLRLAVKLDITAEILAVRDKQERIHLVLGDCTHSPGSLQISLLDLLDSLTGILNKVLPELVQGNVCPLVNEVLRGLDITLVHDIVNMLIHGLQFVIKV 4kem-a1-m1-cA_4kem-a1-m1-cB Crystal structure of a tartrate dehydratase from azospirillum, target efi-502395, with bound mg and a putative acrylate ion, ordered active site D3P639 D3P639 1.3 X-RAY DIFFRACTION 132 1.0 137722 (Azospirillum sp. B510) 137722 (Azospirillum sp. B510) 390 390 MRIVEIREQTAGIKSDIANAFIDFSQMTCSVVAVVTDVVRDGKPVIGYGFNSNGRYAAGGLLRERFIPRLMSAAPDSLLDETGENLDPFRIWTRLMTNEKPGGHGERSVAVGTIDMAVWDAVAKIAGVPLYRLLADRFRGGVADDGVWVYAAGGYYYPGKDVKALQDEMRSYRDRGYRVVKMKIGGAPLAEDLRRIDAVLEVVGSGDNLCVDANGRFDIDTAIAYGEALKPYGLFWYEEAGDPLDYALQAELAKHYDRPMATGENLFSHQDARNLIRHGGMRPDRDWLQFDCALSYGLVEYLRTLDMLKENGWSSRRVVPHGGHQMSLNIAAGLHLGGNESYPDVFKPFCGFADGIAVEDGRVRLPDLPGVGFEAKSELFATMSGLLGTR MRIVEIREQTAGIKSDIANAFIDFSQMTCSVVAVVTDVVRDGKPVIGYGFNSNGRYAAGGLLRERFIPRLMSAAPDSLLDETGENLDPFRIWTRLMTNEKPGGHGERSVAVGTIDMAVWDAVAKIAGVPLYRLLADRFRGGVADDGVWVYAAGGYYYPGKDVKALQDEMRSYRDRGYRVVKMKIGGAPLAEDLRRIDAVLEVVGSGDNLCVDANGRFDIDTAIAYGEALKPYGLFWYEEAGDPLDYALQAELAKHYDRPMATGENLFSHQDARNLIRHGGMRPDRDWLQFDCALSYGLVEYLRTLDMLKENGWSSRRVVPHGGHQMSLNIAAGLHLGGNESYPDVFKPFCGFADGIAVEDGRVRLPDLPGVGFEAKSELFATMSGLLGTR 4kep-a1-m1-cA_4kep-a1-m2-cA Crystal structure of 4-pyridoxolactonase, wild-type Q988B9 Q988B9 1.83 X-RAY DIFFRACTION 59 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 273 273 3aj3-a1-m1-cA_3aj3-a1-m2-cA 4keq-a2-m1-cA_4keq-a2-m3-cA SDTKVYLLDGGSLVLDGYHVFWNRGPGGEVRFPVYSILIEHAEGRFLIDTGYDYDHVMKVLPFEKPIQEKHQTIPGALGLLGLEPRDIDVVVNSHFHFDHCGGNKYFPHAKKICHRSEVPQACNPQPFEHLGYSDLSFSAEAAEARGATAQLLEGTTRANSTFEGIDGDVDLARGVKLISTPGHSIGHYSLLVEFPRRKPILFTIDAAYTQKSLETLCQAAFHIDPVAGVNSMRKVKKLAEDHGAELMYSHDMDNFKTYRTGTQFYGHHHHHH SDTKVYLLDGGSLVLDGYHVFWNRGPGGEVRFPVYSILIEHAEGRFLIDTGYDYDHVMKVLPFEKPIQEKHQTIPGALGLLGLEPRDIDVVVNSHFHFDHCGGNKYFPHAKKICHRSEVPQACNPQPFEHLGYSDLSFSAEAAEARGATAQLLEGTTRANSTFEGIDGDVDLARGVKLISTPGHSIGHYSLLVEFPRRKPILFTIDAAYTQKSLETLCQAAFHIDPVAGVNSMRKVKKLAEDHGAELMYSHDMDNFKTYRTGTQFYGHHHHHH 4keq-a1-m1-cA_4keq-a1-m2-cA Crystal structure of 4-pyridoxolactonase, 5-pyridoxolactone bound Q988B9 Q988B9 2.279 X-RAY DIFFRACTION 10 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 270 270 DTKVYLLDGGSLVLDGYHVFWNRGPGGEVRFPVYSILIEHAEGRFLIDTGYDYDHVMKVLPFEKPIQEKHQTIPGALGLLGLEPRDIDVVVNSHFHFDHCGGNKYFPHAKKICHRSEVPQACNPQPFEHLGYSDLSFSAEAAEARGATAQLLEGTTRANSTFEGIDGDVDLARGVKLISTPGHSIGHYSLLVEFPRRKPILFTIDAAYTQKSLETLCQAAFHIDPVAGVNSMRKVKKLAEDHGAELMYSHDMDNFKTYRTGTQFYGHHHH DTKVYLLDGGSLVLDGYHVFWNRGPGGEVRFPVYSILIEHAEGRFLIDTGYDYDHVMKVLPFEKPIQEKHQTIPGALGLLGLEPRDIDVVVNSHFHFDHCGGNKYFPHAKKICHRSEVPQACNPQPFEHLGYSDLSFSAEAAEARGATAQLLEGTTRANSTFEGIDGDVDLARGVKLISTPGHSIGHYSLLVEFPRRKPILFTIDAAYTQKSLETLCQAAFHIDPVAGVNSMRKVKKLAEDHGAELMYSHDMDNFKTYRTGTQFYGHHHH 4kf9-a1-m1-cA_4kf9-a1-m2-cA Crystal structure of a glutathione transferase family member from ralstonia solanacearum, target efi-501780, with bound gsh coordinated to a zinc ion, ordered active site 2.3 X-RAY DIFFRACTION 141 1.0 564066 (Ralstonia solanacearum IPO1609) 564066 (Ralstonia solanacearum IPO1609) 318 318 VMTELILHHYATSPFSEKARLILGYKDQPWKSVTVPVILPKPDVMPLTGGYRRTPFLQIGADIYCDTALIAQVLESIHPVPTLYPADRAAAAFAMAQWADTTLFWAAASFVGQPEGFKSLMAGLPEDFVKAFVEDRKAMRAGGTGLRTPLPEAVATLQVFLAQLERQFATGEHIFLFGEQPTIADFSVYHALWFIRRATAVAGILDAHPEVVAWMHRMAGFGHAQAQPMTPAEALAIARAATPRALTDAGAGADFDARYGLPKGTRVTVAATDYAVDPVEGDLVVSTRDAVGVLREDPRVGQVVVHFPRVGYAVRKVE VMTELILHHYATSPFSEKARLILGYKDQPWKSVTVPVILPKPDVMPLTGGYRRTPFLQIGADIYCDTALIAQVLESIHPVPTLYPADRAAAAFAMAQWADTTLFWAAASFVGQPEGFKSLMAGLPEDFVKAFVEDRKAMRAGGTGLRTPLPEAVATLQVFLAQLERQFATGEHIFLFGEQPTIADFSVYHALWFIRRATAVAGILDAHPEVVAWMHRMAGFGHAQAQPMTPAEALAIARAATPRALTDAGAGADFDARYGLPKGTRVTVAATDYAVDPVEGDLVVSTRDAVGVLREDPRVGQVVVHFPRVGYAVRKVE 4kfc-a1-m1-cA_4kfc-a1-m1-cB Crystal structure of a hyperactive mutant of response regulator KdpE complexed to its promoter DNA P21866 P21866 2.53 X-RAY DIFFRACTION 59 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 223 224 1zh2-a1-m1-cA_1zh2-a1-m1-cB 1zh4-a1-m1-cB_1zh4-a1-m1-cA 4kny-a1-m1-cA_4kny-a1-m1-cB AMANVLIVEDEQAIRRFLRTALEGDGMRVFEAETLQRGLLEAATRKPDLIILDLGLPDGDGIEFIRDLRQWSAVPVIVLSARSEESDKIAALDAGADDYLSKPFGIGELQARLRVALRRHSAPDPLVKFSDVTVDLAARVIHRGEEEVHLTPIEFRLLAVLLNNAGKVLTQRQLLNQVWGPNAVEHSHYLRIYMGHLRQKLEQDPARPRHFITATGIGYRFML AMANVLIVEDEQAIRRFLRTALEGDGMRVFEAETLQRGLLEAATRKPDLIILDLGLPDGDGIEFIRDLRQWSAVPVIVLSARSEESDKIAALDAGADDYLSKPFGIGELQARLRVALRRHSTAPDPLVKFSDVTVDLAARVIHRGEEEVHLTPIEFRLLAVLLNNAGKVLTQRQLLNQVWGPNAVEHSHYLRIYMGHLRQKLEQDPARPRHFITATGIGYRFML 4kgb-a1-m1-cB_4kgb-a1-m1-cA Structure of succinyl-CoA: 3-ketoacid CoA transferase from Drosophila melanogaster Q9W058 Q9W058 2.64 X-RAY DIFFRACTION 159 0.994 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 464 466 GKIYESAIDAVADVQDGAQILFGGFGICGIPEKMINALKQKGVKNITGVSNNGGVDDTGLGVLIKQKQVSKVIGSYVGENTELVRQYLEGELAVELTPQGTLAEKIRAGGAGIPAFYTPTGYATLVQEGGAPIKYSGKVEISSEKKPVKEFNGKNYVMEESIFADFAFVKAQKADPLGNLVFNKAARNFNAPMCRAAKITVAEVEEIVPIGALSPDEIHVPGIYINRIFKGTNYNKRVERLRITPNPAQVLRERIARRVALEFHDGMYANLGIGIPVLSSNYIPKGMNVMLQSENGILGLGPFPTKDKVDPDLINAGKESVTVVPGASYFGSDDSFAMIRGGHVDITILGAMEVSATGDLANWMKGMGGAMDLVAAPGTKVIITMEHNARDGSPKILDTCSLPLTGKGVIDMIISEKAVFTVEKGVGLTLIEVAEGYTVDDIIASTGAKFTVSPNLKKMGQIPV GKIYESAIDAVADVQDGAQILFGGFGICGIPEKMINALKQKGVKNITGVSNNGGVDDTGLGVLIKQKQVSKVIGSYVGENTELVRQYLEGELAVELTPQGTLAEKIRAGGAGIPAFYTPTGYATLVQEGGAPIKYSKDGKVEISSEKKPVKEFNGKNYVMEESIFADFAFVKAQKADPLGNLVFNKAARNFNAPMCRAAKITVAEVEEIVPIGALSPDEIHVPGIYINRIFKGTNYNKRVERLRITEPNPAQVLRERIARRVALEFHDGMYANLGIGIPVLSSNYIPKGMNVMLQSENGILGLGPFPTKDKVDPDLINAGKESVTVVPGASYFGSDDSFAMIRGGHVDITILGAMEVSATGDLANWMVKMGGAMDLVAAPGTKVIITMEHNARDGSPKILDTCSLPLTGKGVIDMIISEKAVFTVEKGVGLTLIEVAEGYTVDDIIASTGAKFTVSPNLKKMGQIP 4kgd-a1-m1-cB_4kgd-a1-m2-cB High-resolution crystal structure of pyruvate oxidase from L. plantarum in complex with phosphate 1.06 X-RAY DIFFRACTION 249 1.0 644042 (Lactiplantibacillus plantarum JDM1) 644042 (Lactiplantibacillus plantarum JDM1) 585 585 1pow-a1-m1-cA_1pow-a1-m2-cA 1pow-a1-m1-cB_1pow-a1-m2-cB 1pox-a1-m1-cA_1pox-a1-m2-cA 1pox-a1-m1-cB_1pox-a1-m2-cB 1y9d-a1-m1-cC_1y9d-a1-m1-cA 1y9d-a1-m1-cD_1y9d-a1-m1-cB 2ez4-a1-m1-cA_2ez4-a1-m2-cA 2ez4-a1-m1-cB_2ez4-a1-m2-cB 2ez8-a1-m1-cA_2ez8-a1-m2-cA 2ez8-a1-m1-cB_2ez8-a1-m2-cB 2ez9-a1-m1-cA_2ez9-a1-m2-cA 2ez9-a1-m1-cB_2ez9-a1-m2-cB 2ezt-a1-m1-cA_2ezt-a1-m2-cA 2ezt-a1-m1-cB_2ezt-a1-m2-cB 2ezu-a1-m1-cA_2ezu-a1-m2-cA 2ezu-a1-m1-cB_2ezu-a1-m2-cB 4fee-a1-m1-cA_4fee-a1-m2-cA 4fee-a1-m1-cB_4fee-a1-m2-cB 4feg-a1-m1-cA_4feg-a1-m2-cA 4feg-a1-m1-cB_4feg-a1-m2-cB 4kgd-a1-m1-cA_4kgd-a1-m2-cA 6haf-a1-m1-cA_6haf-a1-m2-cA 6haf-a1-m1-cB_6haf-a1-m2-cB TNILAGAAVIKVLEAWGVDHLYGIPGGSINSIMDALSAERDRIHYIQVRHEEVGAMAAAADAKLTGKIGVCFGSAGPGGTHLMNGLYDAREDHVPVLALIGQFGTTGMNMDTFQEMNENPIYADVADYNVTAVNAATLPHVIDEAIRRAYAHQGVAVVQIPVDLPWQQIPAEDWYASANSYQTPLLPEPDVQAVTRLTQTLLAAERPLIYYGIGARKAGKELEQLSKTLKIPLMSTYPAKGIVADRYPAYLGSANRVAQKPANEALAQADVVLFVGNNYPFAEVSKAFKNTRYFLQIDIDPAKLGKRHKTDIAVLADAQKTLAAILAQVSERESTPWWQANLANVKNWRAYLASLEDKQEGPLQAYQVLRAVNKIAEPDAIYSIDVGDINLNANRHLKLTPSNRHITSNLFATMGVGIPGAIAAKLNYPERQVFNLAGDGGASMTMQDLATQVQYHLPVINVVFTNCQYGFIKDEQEDTNQNDFIGVEFNDIDFSKIADGVHMQAFRVNKIEQLPDVFEQAKAIAQHEPVLIDAVITGDRPLPAEKLRLDSAMSSAADIEAFKQRYEAQDLQPLSTYLKQFGLDD TNILAGAAVIKVLEAWGVDHLYGIPGGSINSIMDALSAERDRIHYIQVRHEEVGAMAAAADAKLTGKIGVCFGSAGPGGTHLMNGLYDAREDHVPVLALIGQFGTTGMNMDTFQEMNENPIYADVADYNVTAVNAATLPHVIDEAIRRAYAHQGVAVVQIPVDLPWQQIPAEDWYASANSYQTPLLPEPDVQAVTRLTQTLLAAERPLIYYGIGARKAGKELEQLSKTLKIPLMSTYPAKGIVADRYPAYLGSANRVAQKPANEALAQADVVLFVGNNYPFAEVSKAFKNTRYFLQIDIDPAKLGKRHKTDIAVLADAQKTLAAILAQVSERESTPWWQANLANVKNWRAYLASLEDKQEGPLQAYQVLRAVNKIAEPDAIYSIDVGDINLNANRHLKLTPSNRHITSNLFATMGVGIPGAIAAKLNYPERQVFNLAGDGGASMTMQDLATQVQYHLPVINVVFTNCQYGFIKDEQEDTNQNDFIGVEFNDIDFSKIADGVHMQAFRVNKIEQLPDVFEQAKAIAQHEPVLIDAVITGDRPLPAEKLRLDSAMSSAADIEAFKQRYEAQDLQPLSTYLKQFGLDD 4kgd-a1-m2-cB_4kgd-a1-m1-cA High-resolution crystal structure of pyruvate oxidase from L. plantarum in complex with phosphate 1.06 X-RAY DIFFRACTION 67 1.0 644042 (Lactiplantibacillus plantarum JDM1) 644042 (Lactiplantibacillus plantarum JDM1) 585 586 1pow-a1-m1-cA_1pow-a1-m2-cB 1pow-a1-m1-cB_1pow-a1-m2-cA 1pox-a1-m1-cA_1pox-a1-m2-cB 1pox-a1-m1-cB_1pox-a1-m2-cA 1y9d-a1-m1-cA_1y9d-a1-m1-cD 1y9d-a1-m1-cC_1y9d-a1-m1-cB 2ez4-a1-m1-cA_2ez4-a1-m2-cB 2ez4-a1-m1-cB_2ez4-a1-m2-cA 2ez8-a1-m1-cA_2ez8-a1-m2-cB 2ez8-a1-m1-cB_2ez8-a1-m2-cA 2ez9-a1-m1-cA_2ez9-a1-m2-cB 2ez9-a1-m1-cB_2ez9-a1-m2-cA 2ezt-a1-m1-cA_2ezt-a1-m2-cB 2ezt-a1-m1-cB_2ezt-a1-m2-cA 2ezu-a1-m1-cA_2ezu-a1-m2-cB 2ezu-a1-m1-cB_2ezu-a1-m2-cA 4fee-a1-m1-cB_4fee-a1-m2-cA 4fee-a1-m2-cB_4fee-a1-m1-cA 4feg-a1-m1-cA_4feg-a1-m2-cB 4feg-a1-m1-cB_4feg-a1-m2-cA 4kgd-a1-m1-cB_4kgd-a1-m2-cA 6haf-a1-m1-cA_6haf-a1-m2-cB 6haf-a1-m1-cB_6haf-a1-m2-cA TNILAGAAVIKVLEAWGVDHLYGIPGGSINSIMDALSAERDRIHYIQVRHEEVGAMAAAADAKLTGKIGVCFGSAGPGGTHLMNGLYDAREDHVPVLALIGQFGTTGMNMDTFQEMNENPIYADVADYNVTAVNAATLPHVIDEAIRRAYAHQGVAVVQIPVDLPWQQIPAEDWYASANSYQTPLLPEPDVQAVTRLTQTLLAAERPLIYYGIGARKAGKELEQLSKTLKIPLMSTYPAKGIVADRYPAYLGSANRVAQKPANEALAQADVVLFVGNNYPFAEVSKAFKNTRYFLQIDIDPAKLGKRHKTDIAVLADAQKTLAAILAQVSERESTPWWQANLANVKNWRAYLASLEDKQEGPLQAYQVLRAVNKIAEPDAIYSIDVGDINLNANRHLKLTPSNRHITSNLFATMGVGIPGAIAAKLNYPERQVFNLAGDGGASMTMQDLATQVQYHLPVINVVFTNCQYGFIKDEQEDTNQNDFIGVEFNDIDFSKIADGVHMQAFRVNKIEQLPDVFEQAKAIAQHEPVLIDAVITGDRPLPAEKLRLDSAMSSAADIEAFKQRYEAQDLQPLSTYLKQFGLDD TNILAGAAVIKVLEAWGVDHLYGIPGGSINSIMDALSAERDRIHYIQVRHEEVGAMAAAADAKLTGKIGVCFGSAGPGGTHLMNGLYDAREDHVPVLALIGQFGTTGMNMDTFQEMNENPIYADVADYNVTAVNAATLPHVIDEAIRRAYAHQGVAVVQIPVDLPWQQIPAEDWYASANSYQTPLLPEPDVQAVTRLTQTLLAAERPLIYYGIGARKAGKELEQLSKTLKIPLMSTYPAKGIVADRYPAYLGSANRVAQKPANEALAQADVVLFVGNNYPFAEVSKAFKNTRYFLQIDIDPAKLGKRHKTDIAVLADAQKTLAAILAQVSERESTPWWQANLANVKNWRAYLASLEDKQEGPLQAYQVLRAVNKIAEPDAIYSIDVGDINLNANRHLKLTPSNRHITSNLFATMGVGIPGAIAAKLNYPERQVFNLAGDGGASMTMQDLATQVQYHLPVINVVFTNCQYGFIKDEQEDTNQNDFIGVEFNDIDFSKIADGVHMQAFRVNKIEQLPDVFEQAKAIAQHEPVLIDAVITGDRPLPAEKLRLDSAMSSAADIEAFKQRYEAQDLQPLSTYLKQFGLDDL 4kgd-a1-m2-cB_4kgd-a1-m2-cA High-resolution crystal structure of pyruvate oxidase from L. plantarum in complex with phosphate 1.06 X-RAY DIFFRACTION 94 1.0 644042 (Lactiplantibacillus plantarum JDM1) 644042 (Lactiplantibacillus plantarum JDM1) 585 586 1pow-a1-m1-cA_1pow-a1-m1-cB 1pow-a1-m2-cA_1pow-a1-m2-cB 1pox-a1-m1-cA_1pox-a1-m1-cB 1pox-a1-m2-cA_1pox-a1-m2-cB 1y9d-a1-m1-cA_1y9d-a1-m1-cB 1y9d-a1-m1-cC_1y9d-a1-m1-cD 2ez4-a1-m1-cA_2ez4-a1-m1-cB 2ez4-a1-m2-cA_2ez4-a1-m2-cB 2ez8-a1-m1-cA_2ez8-a1-m1-cB 2ez8-a1-m2-cA_2ez8-a1-m2-cB 2ez9-a1-m1-cA_2ez9-a1-m1-cB 2ez9-a1-m2-cA_2ez9-a1-m2-cB 2ezt-a1-m1-cA_2ezt-a1-m1-cB 2ezt-a1-m2-cA_2ezt-a1-m2-cB 2ezu-a1-m1-cA_2ezu-a1-m1-cB 2ezu-a1-m2-cA_2ezu-a1-m2-cB 4fee-a1-m1-cB_4fee-a1-m1-cA 4fee-a1-m2-cB_4fee-a1-m2-cA 4feg-a1-m1-cA_4feg-a1-m1-cB 4feg-a1-m2-cA_4feg-a1-m2-cB 4kgd-a1-m1-cB_4kgd-a1-m1-cA 6haf-a1-m1-cA_6haf-a1-m1-cB 6haf-a1-m2-cA_6haf-a1-m2-cB TNILAGAAVIKVLEAWGVDHLYGIPGGSINSIMDALSAERDRIHYIQVRHEEVGAMAAAADAKLTGKIGVCFGSAGPGGTHLMNGLYDAREDHVPVLALIGQFGTTGMNMDTFQEMNENPIYADVADYNVTAVNAATLPHVIDEAIRRAYAHQGVAVVQIPVDLPWQQIPAEDWYASANSYQTPLLPEPDVQAVTRLTQTLLAAERPLIYYGIGARKAGKELEQLSKTLKIPLMSTYPAKGIVADRYPAYLGSANRVAQKPANEALAQADVVLFVGNNYPFAEVSKAFKNTRYFLQIDIDPAKLGKRHKTDIAVLADAQKTLAAILAQVSERESTPWWQANLANVKNWRAYLASLEDKQEGPLQAYQVLRAVNKIAEPDAIYSIDVGDINLNANRHLKLTPSNRHITSNLFATMGVGIPGAIAAKLNYPERQVFNLAGDGGASMTMQDLATQVQYHLPVINVVFTNCQYGFIKDEQEDTNQNDFIGVEFNDIDFSKIADGVHMQAFRVNKIEQLPDVFEQAKAIAQHEPVLIDAVITGDRPLPAEKLRLDSAMSSAADIEAFKQRYEAQDLQPLSTYLKQFGLDD TNILAGAAVIKVLEAWGVDHLYGIPGGSINSIMDALSAERDRIHYIQVRHEEVGAMAAAADAKLTGKIGVCFGSAGPGGTHLMNGLYDAREDHVPVLALIGQFGTTGMNMDTFQEMNENPIYADVADYNVTAVNAATLPHVIDEAIRRAYAHQGVAVVQIPVDLPWQQIPAEDWYASANSYQTPLLPEPDVQAVTRLTQTLLAAERPLIYYGIGARKAGKELEQLSKTLKIPLMSTYPAKGIVADRYPAYLGSANRVAQKPANEALAQADVVLFVGNNYPFAEVSKAFKNTRYFLQIDIDPAKLGKRHKTDIAVLADAQKTLAAILAQVSERESTPWWQANLANVKNWRAYLASLEDKQEGPLQAYQVLRAVNKIAEPDAIYSIDVGDINLNANRHLKLTPSNRHITSNLFATMGVGIPGAIAAKLNYPERQVFNLAGDGGASMTMQDLATQVQYHLPVINVVFTNCQYGFIKDEQEDTNQNDFIGVEFNDIDFSKIADGVHMQAFRVNKIEQLPDVFEQAKAIAQHEPVLIDAVITGDRPLPAEKLRLDSAMSSAADIEAFKQRYEAQDLQPLSTYLKQFGLDDL 4kgg-a1-m3-cD_4kgg-a1-m3-cC Crystal structure of light mutant2 and dcr3 complex O95407 O95407 2.78 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 165 4j6g-a1-m4-cD_4j6g-a1-m2-cC 4j6g-a1-m5-cD_4j6g-a1-m3-cC 4j6g-a1-m6-cD_4j6g-a1-m1-cC 4kgg-a1-m1-cD_4kgg-a1-m1-cC 4kgg-a1-m2-cD_4kgg-a1-m2-cC 4kgq-a1-m1-cD_4kgq-a1-m1-cC 4kgq-a1-m2-cD_4kgq-a1-m2-cC 4kgq-a1-m3-cD_4kgq-a1-m3-cC TPTYPWRDAETGERLVCAQCPPGTFVQRPCRRDSPTTCGPCPPRHYTQFWNYLERCRYCNVLCGEREEEARACHATHNRACRCRTGFFAHAGFCLEHASCPPGAGVIAPGTPSQNTQCQPCPPGTFSASSSSSEQCQPHRNCTALGLALNVPGSSSHDTLCTS TPTYPWRDAETGERLVCAQCPPGTFVQRPCRRDSPTTCGPCPPRHYTQFWNYLERCRYCNVLCGEREEEARACHATHNRACRCRTGFFAHAGFCLEHASCPPGAGVIAPGTPSQNTQCQPCPPGTFSASSSSSEQCQPHRNCTALGLALNVPGSSSHDTLCTSTG 4kgi-a2-m1-cC_4kgi-a2-m1-cD Crystal structure of a glutathione transferase family member from Shigella flexneri, target EFI-507258, bound GSH, TEV-his-tag linker in active site 1.6 X-RAY DIFFRACTION 90 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 206 206 1a0f-a1-m1-cA_1a0f-a1-m1-cB 1n2a-a1-m1-cB_1n2a-a1-m1-cA 4kgi-a1-m1-cA_4kgi-a1-m1-cB NLYFQSMKLFYKPGACSLASHITLRESGKDFTLVSVDLMKKRLENGDDYFSVNPKGQVPALLLDDGTLLTEGVAIMQYLADSVPDRQLLAPVNSISRYKTIEWLNYIATELHKGFTPLFRPDTPEEYKPTVRAQLDKKLQYVNEALKDEHWICGQRFTIADAYLFTVLRWAYAVKLNLEGLEHIAAFMQRMAERPEVQDALSAEGL NLYFQSMKLFYKPGACSLASHITLRESGKDFTLVSVDLMKKRLENGDDYFSVNPKGQVPALLLDDGTLLTEGVAIMQYLADSVPDRQLLAPVNSISRYKTIEWLNYIATELHKGFTPLFRPDTPEEYKPTVRAQLDKKLQYVNEALKDEHWICGQRFTIADAYLFTVLRWAYAVKLNLEGLEHIAAFMQRMAERPEVQDALSAEGL 4kgn-a1-m1-cA_4kgn-a1-m1-cB Crystal structure of a tRNA (cytidine(34)-2'-O)-methyltransferase bound to S-adenosyl homocysteine Q3JWH1 Q3JWH1 2.15 X-RAY DIFFRACTION 98 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 139 156 3e5y-a1-m1-cB_3e5y-a1-m1-cA 4kgn-a2-m1-cD_4kgn-a2-m1-cC 4kgn-a3-m1-cE_4kgn-a3-m1-cF 4kgn-a4-m1-cG_4kgn-a4-m1-cH MFNVVLVEPEIPPNTGNVIRLCANTGARLHLIEPLGFPQMRVHRDWDAFVAAEAPDPARMFAFTTRGSGRFHDRAFEPGDWFVFGAETRGLAPALVDRFAPEQRVRLPMRPGNRSLNLSNTVAVVVFEAWRQAGFEGGA MFNVVLVEPEIPPNTGNVIRLCANTGARLHLIEPLGFPLDDAKMRRAGLDYHEYAQMRVHRDWDAFVAAEAPDPARMFAFTTRGSGRFHDRAFEPGDWFVFGAETRGLAPALVDRFAPEQRVRLPMRPGNRSLNLSNTVAVVVFEAWRQAGFEGGA 4kh0-a1-m2-cC_4kh0-a1-m3-cC The R state structure of E. coli ATCase with ATP and Magnesium bound 2.25 X-RAY DIFFRACTION 75 1.0 595495 (Escherichia coli KO11FL) 595495 (Escherichia coli KO11FL) 310 310 1acm-a1-m1-cA_1acm-a1-m2-cA 1acm-a1-m1-cA_1acm-a1-m3-cA 1acm-a1-m1-cC_1acm-a1-m2-cC 1acm-a1-m1-cC_1acm-a1-m3-cC 1acm-a1-m2-cA_1acm-a1-m3-cA 1acm-a1-m2-cC_1acm-a1-m3-cC 1at1-a1-m1-cA_1at1-a1-m2-cA 1at1-a1-m1-cA_1at1-a1-m3-cA 1at1-a1-m1-cC_1at1-a1-m2-cC 1at1-a1-m1-cC_1at1-a1-m3-cC 1at1-a1-m2-cA_1at1-a1-m3-cA 1at1-a1-m2-cC_1at1-a1-m3-cC 1d09-a1-m1-cA_1d09-a1-m2-cA 1d09-a1-m1-cA_1d09-a1-m3-cA 1d09-a1-m1-cC_1d09-a1-m2-cC 1d09-a1-m1-cC_1d09-a1-m3-cC 1d09-a1-m2-cA_1d09-a1-m3-cA 1d09-a1-m2-cC_1d09-a1-m3-cC 1ekx-a1-m1-cB_1ekx-a1-m1-cA 1ekx-a1-m1-cB_1ekx-a1-m1-cC 1ekx-a1-m1-cC_1ekx-a1-m1-cA 1ezz-a1-m1-cA_1ezz-a1-m2-cA 1ezz-a1-m1-cA_1ezz-a1-m3-cA 1ezz-a1-m1-cC_1ezz-a1-m2-cC 1ezz-a1-m1-cC_1ezz-a1-m3-cC 1ezz-a1-m2-cA_1ezz-a1-m3-cA 1ezz-a1-m2-cC_1ezz-a1-m3-cC 1f1b-a1-m1-cA_1f1b-a1-m2-cA 1f1b-a1-m1-cA_1f1b-a1-m3-cA 1f1b-a1-m1-cC_1f1b-a1-m2-cC 1f1b-a1-m1-cC_1f1b-a1-m3-cC 1f1b-a1-m2-cA_1f1b-a1-m3-cA 1f1b-a1-m2-cC_1f1b-a1-m3-cC 1i5o-a1-m1-cA_1i5o-a1-m2-cA 1i5o-a1-m1-cA_1i5o-a1-m3-cA 1i5o-a1-m1-cC_1i5o-a1-m2-cC 1i5o-a1-m1-cC_1i5o-a1-m3-cC 1i5o-a1-m2-cA_1i5o-a1-m3-cA 1i5o-a1-m2-cC_1i5o-a1-m3-cC 1nbe-a1-m1-cA_1nbe-a1-m2-cA 1nbe-a1-m1-cA_1nbe-a1-m3-cA 1nbe-a1-m1-cC_1nbe-a1-m2-cC 1nbe-a1-m1-cC_1nbe-a1-m3-cC 1nbe-a1-m2-cA_1nbe-a1-m3-cA 1nbe-a1-m2-cC_1nbe-a1-m3-cC 1q95-a1-m1-cA_1q95-a1-m1-cB 1q95-a1-m1-cA_1q95-a1-m1-cC 1q95-a1-m1-cB_1q95-a1-m1-cC 1q95-a1-m1-cD_1q95-a1-m1-cE 1q95-a1-m1-cD_1q95-a1-m1-cF 1q95-a1-m1-cE_1q95-a1-m1-cF 1r0b-a1-m1-cA_1r0b-a1-m1-cB 1r0b-a1-m1-cA_1r0b-a1-m1-cC 1r0b-a1-m1-cB_1r0b-a1-m1-cC 1r0b-a1-m1-cD_1r0b-a1-m1-cE 1r0b-a1-m1-cD_1r0b-a1-m1-cF 1r0b-a1-m1-cE_1r0b-a1-m1-cF 1r0c-a1-m1-cA_1r0c-a1-m2-cA 1r0c-a1-m1-cA_1r0c-a1-m3-cA 1r0c-a1-m1-cG_1r0c-a1-m2-cG 1r0c-a1-m1-cG_1r0c-a1-m3-cG 1r0c-a1-m2-cA_1r0c-a1-m3-cA 1r0c-a1-m2-cG_1r0c-a1-m3-cG 1raa-a1-m1-cA_1raa-a1-m2-cA 1raa-a1-m1-cA_1raa-a1-m3-cA 1raa-a1-m1-cC_1raa-a1-m2-cC 1raa-a1-m1-cC_1raa-a1-m3-cC 1raa-a1-m2-cA_1raa-a1-m3-cA 1raa-a1-m2-cC_1raa-a1-m3-cC 1rab-a1-m1-cA_1rab-a1-m2-cA 1rab-a1-m1-cA_1rab-a1-m3-cA 1rab-a1-m1-cC_1rab-a1-m2-cC 1rab-a1-m1-cC_1rab-a1-m3-cC 1rab-a1-m2-cA_1rab-a1-m3-cA 1rab-a1-m2-cC_1rab-a1-m3-cC 1rac-a1-m1-cA_1rac-a1-m2-cA 1rac-a1-m1-cA_1rac-a1-m3-cA 1rac-a1-m1-cC_1rac-a1-m2-cC 1rac-a1-m1-cC_1rac-a1-m3-cC 1rac-a1-m2-cA_1rac-a1-m3-cA 1rac-a1-m2-cC_1rac-a1-m3-cC 1rad-a1-m1-cA_1rad-a1-m2-cA 1rad-a1-m1-cA_1rad-a1-m3-cA 1rad-a1-m1-cC_1rad-a1-m2-cC 1rad-a1-m1-cC_1rad-a1-m3-cC 1rad-a1-m2-cA_1rad-a1-m3-cA 1rad-a1-m2-cC_1rad-a1-m3-cC 1rae-a1-m1-cA_1rae-a1-m2-cA 1rae-a1-m1-cA_1rae-a1-m3-cA 1rae-a1-m1-cC_1rae-a1-m2-cC 1rae-a1-m1-cC_1rae-a1-m3-cC 1rae-a1-m2-cA_1rae-a1-m3-cA 1rae-a1-m2-cC_1rae-a1-m3-cC 1raf-a1-m1-cA_1raf-a1-m2-cA 1raf-a1-m1-cA_1raf-a1-m3-cA 1raf-a1-m1-cC_1raf-a1-m2-cC 1raf-a1-m1-cC_1raf-a1-m3-cC 1raf-a1-m2-cA_1raf-a1-m3-cA 1raf-a1-m2-cC_1raf-a1-m3-cC 1rag-a1-m1-cA_1rag-a1-m2-cA 1rag-a1-m1-cA_1rag-a1-m3-cA 1rag-a1-m1-cC_1rag-a1-m2-cC 1rag-a1-m1-cC_1rag-a1-m3-cC 1rag-a1-m2-cA_1rag-a1-m3-cA 1rag-a1-m2-cC_1rag-a1-m3-cC 1rah-a1-m1-cA_1rah-a1-m2-cA 1rah-a1-m1-cA_1rah-a1-m3-cA 1rah-a1-m1-cC_1rah-a1-m2-cC 1rah-a1-m1-cC_1rah-a1-m3-cC 1rah-a1-m2-cA_1rah-a1-m3-cA 1rah-a1-m2-cC_1rah-a1-m3-cC 1rai-a1-m1-cA_1rai-a1-m2-cA 1rai-a1-m1-cA_1rai-a1-m3-cA 1rai-a1-m1-cC_1rai-a1-m2-cC 1rai-a1-m1-cC_1rai-a1-m3-cC 1rai-a1-m2-cA_1rai-a1-m3-cA 1rai-a1-m2-cC_1rai-a1-m3-cC 1sku-a1-m1-cA_1sku-a1-m2-cA 1sku-a1-m1-cA_1sku-a1-m3-cA 1sku-a1-m1-cC_1sku-a1-m2-cC 1sku-a1-m1-cC_1sku-a1-m3-cC 1sku-a1-m2-cA_1sku-a1-m3-cA 1sku-a1-m2-cC_1sku-a1-m3-cC 1tth-a1-m1-cA_1tth-a1-m2-cA 1tth-a1-m1-cA_1tth-a1-m3-cA 1tth-a1-m1-cC_1tth-a1-m2-cC 1tth-a1-m1-cC_1tth-a1-m3-cC 1tth-a1-m2-cA_1tth-a1-m3-cA 1tth-a1-m2-cC_1tth-a1-m3-cC 1tu0-a1-m1-cA_1tu0-a1-m2-cA 1tu0-a1-m1-cA_1tu0-a1-m3-cA 1tu0-a1-m1-cC_1tu0-a1-m2-cC 1tu0-a1-m1-cC_1tu0-a1-m3-cC 1tu0-a1-m2-cA_1tu0-a1-m3-cA 1tu0-a1-m2-cC_1tu0-a1-m3-cC 1tug-a1-m1-cA_1tug-a1-m2-cA 1tug-a1-m1-cA_1tug-a1-m3-cA 1tug-a1-m1-cC_1tug-a1-m2-cC 1tug-a1-m1-cC_1tug-a1-m3-cC 1tug-a1-m2-cA_1tug-a1-m3-cA 1tug-a1-m2-cC_1tug-a1-m3-cC 1xjw-a1-m1-cA_1xjw-a1-m2-cA 1xjw-a1-m1-cA_1xjw-a1-m3-cA 1xjw-a1-m1-cC_1xjw-a1-m2-cC 1xjw-a1-m1-cC_1xjw-a1-m3-cC 1xjw-a1-m2-cA_1xjw-a1-m3-cA 1xjw-a1-m2-cC_1xjw-a1-m3-cC 1za1-a1-m1-cA_1za1-a1-m2-cA 1za1-a1-m1-cA_1za1-a1-m3-cA 1za1-a1-m1-cC_1za1-a1-m2-cC 1za1-a1-m1-cC_1za1-a1-m3-cC 1za1-a1-m2-cA_1za1-a1-m3-cA 1za1-a1-m2-cC_1za1-a1-m3-cC 1za2-a1-m1-cA_1za2-a1-m2-cA 1za2-a1-m1-cA_1za2-a1-m3-cA 1za2-a1-m1-cC_1za2-a1-m2-cC 1za2-a1-m1-cC_1za2-a1-m3-cC 1za2-a1-m2-cA_1za2-a1-m3-cA 1za2-a1-m2-cC_1za2-a1-m3-cC 2a0f-a1-m1-cA_2a0f-a1-m2-cA 2a0f-a1-m1-cA_2a0f-a1-m3-cA 2a0f-a1-m1-cC_2a0f-a1-m2-cC 2a0f-a1-m1-cC_2a0f-a1-m3-cC 2a0f-a1-m2-cA_2a0f-a1-m3-cA 2a0f-a1-m2-cC_2a0f-a1-m3-cC 2air-a1-m1-cA_2air-a1-m2-cA 2air-a1-m1-cA_2air-a1-m3-cA 2air-a1-m1-cG_2air-a1-m2-cG 2air-a1-m1-cG_2air-a1-m3-cG 2air-a1-m2-cA_2air-a1-m3-cA 2air-a1-m2-cG_2air-a1-m3-cG 2at1-a1-m1-cA_2at1-a1-m2-cA 2at1-a1-m1-cA_2at1-a1-m3-cA 2at1-a1-m1-cC_2at1-a1-m2-cC 2at1-a1-m1-cC_2at1-a1-m3-cC 2at1-a1-m2-cA_2at1-a1-m3-cA 2at1-a1-m2-cC_2at1-a1-m3-cC 2atc-a1-m1-cA_2atc-a1-m2-cA 2atc-a1-m1-cA_2atc-a1-m3-cA 2atc-a1-m2-cA_2atc-a1-m3-cA 2atc-a1-m4-cA_2atc-a1-m5-cA 2atc-a1-m4-cA_2atc-a1-m6-cA 2atc-a1-m5-cA_2atc-a1-m6-cA 2fzc-a1-m1-cA_2fzc-a1-m2-cA 2fzc-a1-m1-cA_2fzc-a1-m3-cA 2fzc-a1-m1-cC_2fzc-a1-m2-cC 2fzc-a1-m1-cC_2fzc-a1-m3-cC 2fzc-a1-m2-cA_2fzc-a1-m3-cA 2fzc-a1-m2-cC_2fzc-a1-m3-cC 2fzg-a1-m1-cA_2fzg-a1-m2-cA 2fzg-a1-m1-cA_2fzg-a1-m3-cA 2fzg-a1-m1-cC_2fzg-a1-m2-cC 2fzg-a1-m1-cC_2fzg-a1-m3-cC 2fzg-a1-m2-cA_2fzg-a1-m3-cA 2fzg-a1-m2-cC_2fzg-a1-m3-cC 2fzk-a1-m1-cA_2fzk-a1-m2-cA 2fzk-a1-m1-cA_2fzk-a1-m3-cA 2fzk-a1-m1-cC_2fzk-a1-m2-cC 2fzk-a1-m1-cC_2fzk-a1-m3-cC 2fzk-a1-m2-cA_2fzk-a1-m3-cA 2fzk-a1-m2-cC_2fzk-a1-m3-cC 2h3e-a1-m1-cA_2h3e-a1-m2-cA 2h3e-a1-m1-cA_2h3e-a1-m3-cA 2h3e-a1-m1-cC_2h3e-a1-m2-cC 2h3e-a1-m1-cC_2h3e-a1-m3-cC 2h3e-a1-m2-cA_2h3e-a1-m3-cA 2h3e-a1-m2-cC_2h3e-a1-m3-cC 2hse-a1-m1-cA_2hse-a1-m2-cA 2hse-a1-m1-cA_2hse-a1-m3-cA 2hse-a1-m1-cC_2hse-a1-m2-cC 2hse-a1-m1-cC_2hse-a1-m3-cC 2hse-a1-m2-cA_2hse-a1-m3-cA 2hse-a1-m2-cC_2hse-a1-m3-cC 2ipo-a1-m1-cA_2ipo-a1-m2-cA 2ipo-a1-m1-cA_2ipo-a1-m3-cA 2ipo-a1-m1-cC_2ipo-a1-m2-cC 2ipo-a1-m1-cC_2ipo-a1-m3-cC 2ipo-a1-m2-cA_2ipo-a1-m3-cA 2ipo-a1-m2-cC_2ipo-a1-m3-cC 2qg9-a1-m1-cA_2qg9-a1-m2-cA 2qg9-a1-m1-cA_2qg9-a1-m3-cA 2qg9-a1-m1-cC_2qg9-a1-m2-cC 2qg9-a1-m1-cC_2qg9-a1-m3-cC 2qg9-a1-m2-cA_2qg9-a1-m3-cA 2qg9-a1-m2-cC_2qg9-a1-m3-cC 2qgf-a1-m1-cA_2qgf-a1-m2-cA 2qgf-a1-m1-cA_2qgf-a1-m3-cA 2qgf-a1-m1-cC_2qgf-a1-m2-cC 2qgf-a1-m1-cC_2qgf-a1-m3-cC 2qgf-a1-m2-cA_2qgf-a1-m3-cA 2qgf-a1-m2-cC_2qgf-a1-m3-cC 3at1-a1-m1-cA_3at1-a1-m2-cA 3at1-a1-m1-cA_3at1-a1-m3-cA 3at1-a1-m1-cC_3at1-a1-m2-cC 3at1-a1-m1-cC_3at1-a1-m3-cC 3at1-a1-m2-cA_3at1-a1-m3-cA 3at1-a1-m2-cC_3at1-a1-m3-cC 3csu-a1-m1-cA_3csu-a1-m1-cB 3csu-a1-m1-cB_3csu-a1-m1-cC 3d7s-a1-m1-cA_3d7s-a1-m2-cA 3d7s-a1-m1-cA_3d7s-a1-m3-cA 3d7s-a1-m1-cC_3d7s-a1-m2-cC 3d7s-a1-m1-cC_3d7s-a1-m3-cC 3d7s-a1-m2-cA_3d7s-a1-m3-cA 3d7s-a1-m2-cC_3d7s-a1-m3-cC 3mpu-a1-m1-cA_3mpu-a1-m2-cA 3mpu-a1-m1-cA_3mpu-a1-m3-cA 3mpu-a1-m1-cC_3mpu-a1-m2-cC 3mpu-a1-m1-cC_3mpu-a1-m3-cC 3mpu-a1-m2-cA_3mpu-a1-m3-cA 3mpu-a1-m2-cC_3mpu-a1-m3-cC 3mpu-a2-m1-cE_3mpu-a2-m4-cE 3mpu-a2-m1-cE_3mpu-a2-m5-cE 3mpu-a2-m4-cE_3mpu-a2-m5-cE 3mpu-a2-m6-cE_3mpu-a2-m7-cE 3mpu-a2-m6-cE_3mpu-a2-m8-cE 3mpu-a2-m7-cE_3mpu-a2-m8-cE 3npm-a1-m1-cA_3npm-a1-m2-cA 3npm-a1-m1-cA_3npm-a1-m3-cA 3npm-a1-m2-cA_3npm-a1-m3-cA 3npm-a1-m4-cA_3npm-a1-m5-cA 3npm-a1-m4-cA_3npm-a1-m6-cA 3npm-a1-m5-cA_3npm-a1-m6-cA 4at1-a1-m1-cA_4at1-a1-m2-cA 4at1-a1-m1-cA_4at1-a1-m3-cA 4at1-a1-m1-cC_4at1-a1-m2-cC 4at1-a1-m1-cC_4at1-a1-m3-cC 4at1-a1-m2-cA_4at1-a1-m3-cA 4at1-a1-m2-cC_4at1-a1-m3-cC 4e2f-a1-m1-cA_4e2f-a1-m1-cE 4e2f-a1-m1-cA_4e2f-a1-m1-cI 4e2f-a1-m1-cC_4e2f-a1-m1-cG 4e2f-a1-m1-cC_4e2f-a1-m1-cK 4e2f-a1-m1-cE_4e2f-a1-m1-cI 4e2f-a1-m1-cG_4e2f-a1-m1-cK 4f04-a1-m1-cA_4f04-a1-m2-cA 4f04-a1-m1-cA_4f04-a1-m3-cA 4f04-a1-m1-cC_4f04-a1-m2-cC 4f04-a1-m1-cC_4f04-a1-m3-cC 4f04-a1-m2-cA_4f04-a1-m3-cA 4f04-a1-m2-cC_4f04-a1-m3-cC 4fyv-a1-m1-cA_4fyv-a1-m2-cA 4fyv-a1-m1-cA_4fyv-a1-m3-cA 4fyv-a1-m1-cC_4fyv-a1-m2-cC 4fyv-a1-m1-cC_4fyv-a1-m3-cC 4fyv-a1-m2-cA_4fyv-a1-m3-cA 4fyv-a1-m2-cC_4fyv-a1-m3-cC 4fyw-a1-m1-cA_4fyw-a1-m2-cA 4fyw-a1-m1-cA_4fyw-a1-m3-cA 4fyw-a1-m1-cC_4fyw-a1-m2-cC 4fyw-a1-m1-cC_4fyw-a1-m3-cC 4fyw-a1-m2-cA_4fyw-a1-m3-cA 4fyw-a1-m2-cC_4fyw-a1-m3-cC 4fyx-a1-m1-cA_4fyx-a1-m2-cA 4fyx-a1-m1-cA_4fyx-a1-m3-cA 4fyx-a1-m1-cC_4fyx-a1-m2-cC 4fyx-a1-m1-cC_4fyx-a1-m3-cC 4fyx-a1-m2-cA_4fyx-a1-m3-cA 4fyx-a1-m2-cC_4fyx-a1-m3-cC 4fyy-a1-m1-cA_4fyy-a1-m2-cA 4fyy-a1-m1-cA_4fyy-a1-m3-cA 4fyy-a1-m1-cC_4fyy-a1-m2-cC 4fyy-a1-m1-cC_4fyy-a1-m3-cC 4fyy-a1-m2-cA_4fyy-a1-m3-cA 4fyy-a1-m2-cC_4fyy-a1-m3-cC 4kgv-a1-m1-cA_4kgv-a1-m2-cA 4kgv-a1-m1-cA_4kgv-a1-m3-cA 4kgv-a1-m1-cC_4kgv-a1-m2-cC 4kgv-a1-m1-cC_4kgv-a1-m3-cC 4kgv-a1-m2-cA_4kgv-a1-m3-cA 4kgv-a1-m2-cC_4kgv-a1-m3-cC 4kgx-a1-m1-cA_4kgx-a1-m2-cA 4kgx-a1-m1-cA_4kgx-a1-m3-cA 4kgx-a1-m1-cC_4kgx-a1-m2-cC 4kgx-a1-m1-cC_4kgx-a1-m3-cC 4kgx-a1-m2-cA_4kgx-a1-m3-cA 4kgx-a1-m2-cC_4kgx-a1-m3-cC 4kgz-a1-m1-cA_4kgz-a1-m2-cA 4kgz-a1-m1-cA_4kgz-a1-m3-cA 4kgz-a1-m1-cC_4kgz-a1-m2-cC 4kgz-a1-m1-cC_4kgz-a1-m3-cC 4kgz-a1-m2-cA_4kgz-a1-m3-cA 4kgz-a1-m2-cC_4kgz-a1-m3-cC 4kh0-a1-m1-cA_4kh0-a1-m2-cA 4kh0-a1-m1-cA_4kh0-a1-m3-cA 4kh0-a1-m1-cC_4kh0-a1-m2-cC 4kh0-a1-m1-cC_4kh0-a1-m3-cC 4kh0-a1-m2-cA_4kh0-a1-m3-cA 4kh1-a1-m1-cA_4kh1-a1-m2-cA 4kh1-a1-m1-cA_4kh1-a1-m3-cA 4kh1-a1-m1-cC_4kh1-a1-m2-cC 4kh1-a1-m1-cC_4kh1-a1-m3-cC 4kh1-a1-m2-cA_4kh1-a1-m3-cA 4kh1-a1-m2-cC_4kh1-a1-m3-cC 5at1-a1-m1-cA_5at1-a1-m2-cA 5at1-a1-m1-cA_5at1-a1-m3-cA 5at1-a1-m1-cC_5at1-a1-m2-cC 5at1-a1-m1-cC_5at1-a1-m3-cC 5at1-a1-m2-cA_5at1-a1-m3-cA 5at1-a1-m2-cC_5at1-a1-m3-cC 5vmq-a1-m1-cA_5vmq-a1-m1-cC 5vmq-a1-m1-cB_5vmq-a1-m1-cC 6at1-a1-m1-cA_6at1-a1-m2-cA 6at1-a1-m1-cA_6at1-a1-m3-cA 6at1-a1-m1-cC_6at1-a1-m2-cC 6at1-a1-m1-cC_6at1-a1-m3-cC 6at1-a1-m2-cA_6at1-a1-m3-cA 6at1-a1-m2-cC_6at1-a1-m3-cC 6kj7-a1-m1-cA_6kj7-a1-m2-cA 6kj7-a1-m1-cA_6kj7-a1-m3-cA 6kj7-a1-m2-cA_6kj7-a1-m3-cA 6kj8-a1-m1-cA_6kj8-a1-m1-cC 6kj8-a1-m1-cA_6kj8-a1-m1-cE 6kj8-a1-m1-cE_6kj8-a1-m1-cC 6kj8-a1-m2-cA_6kj8-a1-m2-cC 6kj8-a1-m2-cA_6kj8-a1-m2-cE 6kj8-a1-m2-cE_6kj8-a1-m2-cC 6kj9-a1-m1-cA_6kj9-a1-m1-cB 6kj9-a1-m1-cE_6kj9-a1-m1-cA 6kj9-a1-m1-cE_6kj9-a1-m1-cB 6kj9-a2-m1-cC_6kj9-a2-m1-cF 6kj9-a2-m1-cD_6kj9-a2-m1-cC 6kj9-a2-m1-cD_6kj9-a2-m1-cF 6kja-a1-m1-cA_6kja-a1-m1-cC 6kja-a1-m1-cA_6kja-a1-m1-cE 6kja-a1-m1-cC_6kja-a1-m1-cE 6kja-a1-m2-cA_6kja-a1-m2-cC 6kja-a1-m2-cA_6kja-a1-m2-cE 6kja-a1-m2-cC_6kja-a1-m2-cE 6kjb-a1-m1-cA_6kjb-a1-m2-cA 6kjb-a1-m1-cA_6kjb-a1-m3-cA 6kjb-a1-m2-cA_6kjb-a1-m3-cA 6kjb-a1-m4-cA_6kjb-a1-m5-cA 6kjb-a1-m4-cA_6kjb-a1-m6-cA 6kjb-a1-m5-cA_6kjb-a1-m6-cA 7at1-a1-m1-cA_7at1-a1-m2-cA 7at1-a1-m1-cA_7at1-a1-m3-cA 7at1-a1-m1-cC_7at1-a1-m2-cC 7at1-a1-m1-cC_7at1-a1-m3-cC 7at1-a1-m2-cA_7at1-a1-m3-cA 7at1-a1-m2-cC_7at1-a1-m3-cC 8at1-a1-m1-cA_8at1-a1-m2-cA 8at1-a1-m1-cA_8at1-a1-m3-cA 8at1-a1-m1-cC_8at1-a1-m2-cC 8at1-a1-m1-cC_8at1-a1-m3-cC 8at1-a1-m2-cA_8at1-a1-m3-cA 8at1-a1-m2-cC_8at1-a1-m3-cC 8atc-a1-m1-cA_8atc-a1-m2-cA 8atc-a1-m1-cA_8atc-a1-m3-cA 8atc-a1-m1-cC_8atc-a1-m2-cC 8atc-a1-m1-cC_8atc-a1-m3-cC 8atc-a1-m2-cA_8atc-a1-m3-cA 8atc-a1-m2-cC_8atc-a1-m3-cC 9atc-a1-m1-cA_9atc-a1-m2-cA 9atc-a1-m1-cA_9atc-a1-m3-cA 9atc-a1-m2-cA_9atc-a1-m3-cA 9atc-a1-m4-cA_9atc-a1-m5-cA 9atc-a1-m4-cA_9atc-a1-m6-cA 9atc-a1-m5-cA_9atc-a1-m6-cA ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL 4kh1-a1-m2-cA_4kh1-a1-m3-cC The R state structure of E. coli ATCase with CTP,UTP, and Magnesium bound 2.2 X-RAY DIFFRACTION 16 1.0 595495 (Escherichia coli KO11FL) 595495 (Escherichia coli KO11FL) 310 310 1acm-a1-m1-cA_1acm-a1-m2-cC 1acm-a1-m1-cC_1acm-a1-m3-cA 1acm-a1-m2-cA_1acm-a1-m3-cC 1at1-a1-m1-cA_1at1-a1-m2-cC 1at1-a1-m1-cC_1at1-a1-m3-cA 1at1-a1-m2-cA_1at1-a1-m3-cC 1d09-a1-m1-cA_1d09-a1-m2-cC 1d09-a1-m1-cC_1d09-a1-m3-cA 1d09-a1-m2-cA_1d09-a1-m3-cC 1f1b-a1-m1-cA_1f1b-a1-m2-cC 1f1b-a1-m1-cC_1f1b-a1-m3-cA 1f1b-a1-m2-cA_1f1b-a1-m3-cC 1q95-a1-m1-cA_1q95-a1-m1-cE 1q95-a1-m1-cB_1q95-a1-m1-cF 1q95-a1-m1-cC_1q95-a1-m1-cD 1r0b-a1-m1-cA_1r0b-a1-m1-cE 1r0b-a1-m1-cB_1r0b-a1-m1-cF 1r0b-a1-m1-cC_1r0b-a1-m1-cD 1tth-a1-m1-cA_1tth-a1-m2-cC 1tth-a1-m1-cC_1tth-a1-m3-cA 1tth-a1-m2-cA_1tth-a1-m3-cC 1xjw-a1-m1-cA_1xjw-a1-m2-cC 1xjw-a1-m1-cC_1xjw-a1-m3-cA 1xjw-a1-m2-cA_1xjw-a1-m3-cC 2a0f-a1-m1-cA_2a0f-a1-m2-cC 2a0f-a1-m1-cC_2a0f-a1-m3-cA 2a0f-a1-m2-cA_2a0f-a1-m3-cC 2at1-a1-m1-cA_2at1-a1-m2-cC 2at1-a1-m1-cC_2at1-a1-m3-cA 2at1-a1-m2-cA_2at1-a1-m3-cC 2h3e-a1-m1-cA_2h3e-a1-m2-cC 2h3e-a1-m1-cC_2h3e-a1-m3-cA 2h3e-a1-m2-cA_2h3e-a1-m3-cC 2hse-a1-m1-cA_2hse-a1-m3-cC 2hse-a1-m1-cC_2hse-a1-m2-cA 2hse-a1-m2-cC_2hse-a1-m3-cA 2ipo-a1-m1-cA_2ipo-a1-m2-cC 2ipo-a1-m1-cC_2ipo-a1-m3-cA 2ipo-a1-m2-cA_2ipo-a1-m3-cC 3mpu-a1-m1-cA_3mpu-a1-m1-cC 3mpu-a1-m2-cA_3mpu-a1-m2-cC 3mpu-a1-m3-cA_3mpu-a1-m3-cC 3mpu-a2-m1-cE_3mpu-a2-m6-cE 3mpu-a2-m4-cE_3mpu-a2-m8-cE 3mpu-a2-m5-cE_3mpu-a2-m7-cE 3npm-a1-m1-cA_3npm-a1-m4-cA 3npm-a1-m2-cA_3npm-a1-m6-cA 3npm-a1-m3-cA_3npm-a1-m5-cA 4f04-a1-m1-cA_4f04-a1-m2-cC 4f04-a1-m1-cC_4f04-a1-m3-cA 4f04-a1-m2-cA_4f04-a1-m3-cC 4kgv-a1-m1-cA_4kgv-a1-m2-cC 4kgv-a1-m1-cC_4kgv-a1-m3-cA 4kgv-a1-m2-cA_4kgv-a1-m3-cC 4kgx-a1-m1-cA_4kgx-a1-m2-cC 4kgx-a1-m1-cC_4kgx-a1-m3-cA 4kgx-a1-m2-cA_4kgx-a1-m3-cC 4kgz-a1-m1-cA_4kgz-a1-m2-cC 4kgz-a1-m1-cC_4kgz-a1-m3-cA 4kgz-a1-m2-cA_4kgz-a1-m3-cC 4kh0-a1-m1-cA_4kh0-a1-m2-cC 4kh0-a1-m1-cC_4kh0-a1-m3-cA 4kh0-a1-m2-cA_4kh0-a1-m3-cC 4kh1-a1-m1-cA_4kh1-a1-m2-cC 4kh1-a1-m1-cC_4kh1-a1-m3-cA 7at1-a1-m1-cA_7at1-a1-m2-cC 7at1-a1-m1-cC_7at1-a1-m3-cA 7at1-a1-m2-cA_7at1-a1-m3-cC 8at1-a1-m1-cA_8at1-a1-m2-cC 8at1-a1-m1-cC_8at1-a1-m3-cA 8at1-a1-m2-cA_8at1-a1-m3-cC 8atc-a1-m1-cA_8atc-a1-m3-cC 8atc-a1-m1-cC_8atc-a1-m2-cA 8atc-a1-m2-cC_8atc-a1-m3-cA ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL ANPLYQKHIISINDLSRDDLNLVLATAAKLKANPQPELLKHKVIASCFFEASTRTRLSFETSMHRLGASVVGFSDSANTSLGKKGETLADTISVISTYVDAIVMRHPQEGAARLATEFSGNVPVLNAGDGSNQHPTQTLLDLFTIQETQGRLDNLHVAMVGDLKYGRTVHSLTQALAKFDGNRFYFIAPDALAMPQYILDMLDEKGIAWSLHSSIEEVMAEVDILYMTRVQKERLDPSEYANVKAQFVLRASDLHNAKANMKVLHPLPRVDEIATDVDKTPHAWYFQQAGNGIFARQALLALVLNRDLVL 4kh7-a1-m1-cA_4kh7-a1-m1-cB Crystal structure of a glutathione transferase family member from salmonella enterica ty2, target efi-507262, with bound glutathione Q8Z859 Q8Z859 1.5 X-RAY DIFFRACTION 86 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 205 212 SMITLWGRNNSTNVKKVLWTLEELELPYDQILAGGKFGVNQDADYLAMNPNGLVPLLKDDETDLLLWESNAIVRYLAAQYGQNRLWVDNPARRAEGEKWMDWANQTLSPAHRVILMGLVRTRDQAAIEAGIEKCDSLFALLDDALAHQPWFSGDNFGTGDIAIAPFVYNLLNVGLKWTPRPNLQRWYQQLTERPAFRKVVMIPVT YFQSMITLWGRNNSTNVKKVLWTLEELELPYDQILAGGKFGVNQDADYLAMNPNGLVPLLKDDETDLLLWESNAIVRYLAAQYGQNRLWVDNPARRAEGEKWMDWANQTLSPAHRVILMGLVRTPPEKRDQAAIEAGIEKCDSLFALLDDALAHQPWFSGDNFGTGDIAIAPFVYNLLNVGLKWTPRPNLQRWYQQLTERPAFRKVVMIPVT 4kht-a2-m2-cA_4kht-a2-m3-cA Triple helix bundle of GP41 complexed with fab 8066 A1YNW7 A1YNW7 2.817 X-RAY DIFFRACTION 53 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 66 66 4kht-a2-m1-cA_4kht-a2-m2-cA 4kht-a2-m1-cA_4kht-a2-m3-cA 4khx-a2-m1-cA_4khx-a2-m2-cA 4khx-a2-m1-cA_4khx-a2-m3-cA 4khx-a2-m2-cA_4khx-a2-m3-cA CCGGIKKEIEAIKKEQEAIKKKIEAIEKELSGIVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARIL CCGGIKKEIEAIKKEQEAIKKKIEAIEKELSGIVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARIL 4ki0-a1-m1-cA_4ki0-a1-m1-cB Crystal structure of the maltose-binding protein/maltose transporter complex in an outward-facing conformation bound to maltohexaose P68187 P68187 2.38 X-RAY DIFFRACTION 150 1.0 536056 (Escherichia coli DH1) 536056 (Escherichia coli DH1) 371 371 1q12-a1-m1-cA_1q12-a1-m1-cB 1q12-a2-m1-cC_1q12-a2-m1-cD 1q1b-a1-m1-cA_1q1b-a1-m1-cB 1q1b-a2-m1-cC_1q1b-a2-m1-cD 2awo-a1-m1-cA_2awo-a1-m1-cB 2r6g-a1-m1-cA_2r6g-a1-m1-cB 3puv-a1-m1-cB_3puv-a1-m1-cA 3puw-a1-m1-cB_3puw-a1-m1-cA 3pux-a1-m1-cB_3pux-a1-m1-cA 3puy-a1-m1-cB_3puy-a1-m1-cA 3puz-a1-m1-cA_3puz-a1-m1-cB 3pv0-a1-m1-cA_3pv0-a1-m1-cB 3rlf-a1-m1-cA_3rlf-a1-m1-cB 4khz-a1-m1-cB_4khz-a1-m1-cA ASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGVA ASVQLQNVTKAWGEVVVSKDINLDIHEGEFVVFVGPSGCGKSTLLRMIAGLETITSGDLFIGEKRMNDTPPAERGVGMVFQSYALYPHLSVAENMSFGLKLAGAKKEVINQRVNQVAEVLQLAHLLDRKPKALSGGQRQRVAIGRTLVAEPSVFLLDEPLSNLDAALRVQMRIEISRLHKRLGRTMIYVTHDQVEAMTLADKIVVLDAGRVAQVGKPLELYHYPADRFVAGFIGSPKMNFLPVKVTATAIDQVQVELPMPNRQQVWLPVESRDVQVGANMSLGIRPEHLLPSDIADVILEGEVQVVEQLGNETQIHIQIPSIRQNLVYRQNDVVLVEEGATFAIGLPPERCHLFREDGTACRRLHKEPGVA 4ki7-a3-m1-cD_4ki7-a3-m1-cX Design and structural analysis of aromatic inhibitors of type II dehydroquinase from Mycobacterium tuberculosis - compound 41c [3-hydroxy-5-(3-nitrophenoxy)benzoic acid] P9WPX7 P9WPX7 2.8 X-RAY DIFFRACTION 31 0.986 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 143 150 LIVNVINGPNLGRLGRREPAVYGGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEHVG LYFQSHMSELIVNVINGPNLGRLGRREPAVYGGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH 4ki7-a3-m1-cI_4ki7-a3-m1-cX Design and structural analysis of aromatic inhibitors of type II dehydroquinase from Mycobacterium tuberculosis - compound 41c [3-hydroxy-5-(3-nitrophenoxy)benzoic acid] P9WPX7 P9WPX7 2.8 X-RAY DIFFRACTION 18 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 141 150 LIVNVINGPNLGRLGRREPAVYGGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH LYFQSHMSELIVNVINGPNLGRLGRREPAVYGGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH 4ki7-a3-m1-cM_4ki7-a3-m1-cD Design and structural analysis of aromatic inhibitors of type II dehydroquinase from Mycobacterium tuberculosis - compound 41c [3-hydroxy-5-(3-nitrophenoxy)benzoic acid] P9WPX7 P9WPX7 2.8 X-RAY DIFFRACTION 12 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 137 143 LIVNVINGPNLGRLGRREGGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEH LIVNVINGPNLGRLGRREPAVYGGTTHDELVALIEREAAELGLKAVVRQSDSEAQLLDWIHQAADAAEPVILNAGGLTHTSVALRDACAELSAPLIEVHISNVHAREEFRRHSYLSPIATGVIVGLGIQGYLLALRYLAEHVG 4ki8-a1-m1-cB_4ki8-a1-m1-cC Crystal structure of a GroEL-ADP complex in the relaxed allosteric state Q548M1 Q548M1 2.722 X-RAY DIFFRACTION 80 1.0 562 (Escherichia coli) 562 (Escherichia coli) 524 524 2c7c-a1-m1-cH_2c7c-a1-m1-cI 2c7c-a1-m1-cH_2c7c-a1-m1-cN 2c7c-a1-m1-cI_2c7c-a1-m1-cJ 2c7c-a1-m1-cJ_2c7c-a1-m1-cK 2c7c-a1-m1-cK_2c7c-a1-m1-cL 2c7c-a1-m1-cL_2c7c-a1-m1-cM 2c7c-a1-m1-cM_2c7c-a1-m1-cN 2c7d-a1-m1-cH_2c7d-a1-m1-cI 2c7d-a1-m1-cH_2c7d-a1-m1-cN 2c7d-a1-m1-cI_2c7d-a1-m1-cJ 2c7d-a1-m1-cJ_2c7d-a1-m1-cK 2c7d-a1-m1-cK_2c7d-a1-m1-cL 2c7d-a1-m1-cL_2c7d-a1-m1-cM 2c7d-a1-m1-cM_2c7d-a1-m1-cN 2c7e-a1-m1-cA_2c7e-a1-m1-cB 2c7e-a1-m1-cA_2c7e-a1-m1-cG 2c7e-a1-m1-cB_2c7e-a1-m1-cC 2c7e-a1-m1-cC_2c7e-a1-m1-cD 2c7e-a1-m1-cD_2c7e-a1-m1-cE 2c7e-a1-m1-cE_2c7e-a1-m1-cF 2c7e-a1-m1-cF_2c7e-a1-m1-cG 2c7e-a1-m1-cH_2c7e-a1-m1-cI 2c7e-a1-m1-cH_2c7e-a1-m1-cN 2c7e-a1-m1-cI_2c7e-a1-m1-cJ 2c7e-a1-m1-cJ_2c7e-a1-m1-cK 2c7e-a1-m1-cK_2c7e-a1-m1-cL 2c7e-a1-m1-cL_2c7e-a1-m1-cM 2c7e-a1-m1-cM_2c7e-a1-m1-cN 2cgt-a1-m1-cH_2cgt-a1-m1-cI 2cgt-a1-m1-cH_2cgt-a1-m1-cN 2cgt-a1-m1-cI_2cgt-a1-m1-cJ 2cgt-a1-m1-cJ_2cgt-a1-m1-cK 2cgt-a1-m1-cK_2cgt-a1-m1-cL 2cgt-a1-m1-cL_2cgt-a1-m1-cM 2cgt-a1-m1-cM_2cgt-a1-m1-cN 4aau-a1-m1-cH_4aau-a1-m1-cI 4aau-a1-m1-cH_4aau-a1-m1-cN 4aau-a1-m1-cI_4aau-a1-m1-cJ 4aau-a1-m1-cJ_4aau-a1-m1-cK 4aau-a1-m1-cK_4aau-a1-m1-cL 4aau-a1-m1-cL_4aau-a1-m1-cM 4aau-a1-m1-cM_4aau-a1-m1-cN 4ab2-a1-m1-cH_4ab2-a1-m1-cI 4ab2-a1-m1-cH_4ab2-a1-m1-cN 4ab2-a1-m1-cI_4ab2-a1-m1-cJ 4ab2-a1-m1-cJ_4ab2-a1-m1-cK 4ab2-a1-m1-cK_4ab2-a1-m1-cL 4ab2-a1-m1-cL_4ab2-a1-m1-cM 4ab2-a1-m1-cM_4ab2-a1-m1-cN 4ki8-a1-m1-cA_4ki8-a1-m1-cB 4ki8-a1-m1-cA_4ki8-a1-m1-cG 4ki8-a1-m1-cC_4ki8-a1-m1-cD 4ki8-a1-m1-cD_4ki8-a1-m1-cE 4ki8-a1-m1-cE_4ki8-a1-m1-cF 4ki8-a1-m1-cF_4ki8-a1-m1-cG 7pbj-a1-m1-cAd_7pbj-a1-m1-cAk 7pbj-a1-m1-cAd_7pbj-a1-m1-cAr 7pbj-a1-m1-cAk_7pbj-a1-m1-cAy 7pbj-a1-m1-cAr_7pbj-a1-m1-cBm 7pbj-a1-m1-cAy_7pbj-a1-m1-cBt 7pbj-a1-m1-cBf_7pbj-a1-m1-cBm 7pbj-a1-m1-cBf_7pbj-a1-m1-cBt AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANAAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDAGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANAAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDAGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 4kik-a1-m1-cA_4kik-a1-m1-cB Human IkB kinase beta O14920 O14920 2.83 X-RAY DIFFRACTION 88 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 618 648 4e3c-a2-m1-cC_4e3c-a2-m1-cB TQTCGAWEMKERLGTGNVIRWHNQETGEQIAIKQCRQELSPRNRERWCLEIQIMRRLTHPNVVAARDVPEGMQNDLPLLAMEYCQGGDLRKYLNQFENCCGLREGAILTLLSDIASALRYLHENRIIHRDLKPENIVLQQGEQRLIHKIIDLGYTSFVGTLQYLAPELLEQQKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHSKVRQKSEVDIVVSEDLNGTVKFSSLPYPNNLNSVLAERLEKWLQLMLMWHPRQRGTDPTYGPNGCFKALDDILNLKLVHILNMVTGTIHTYPVTEDESLQSLKARIQQDTGIPEEDQELLQEAGLALIPDKPATQCISLNEGHTLDMDLVFLFDNSKITYETQRPQPESVSCILQEPKRNLAFFQLRKVWGQVWHSIQTLKEDCNRLQQGQRAAMMNLLRNNSCLSKMKNSMASMSQQLKAKLDFFKTSIQIDLEKYSEQTDKLLLAWREMEQAVELCGRENEVKLLVERMMALQTDIVDLQRSGTLDDLEEQARELYRRLREKPRDQRTEGDSQEMVRLLLQAIQSFEKKVRVIYTQLSKTVVCKQKALELLPKVEEVVSLMNEDEKTVVRLQEKRQKELWNLLKIACS HSWSPSLTTQTCGAWEMKERLGTGGFGNVIRWHNQETGEQIAIKQCRQELSPRNRERWCLEIQIMRRLTHPNVVAARDVPEGMQNLAPNDLPLLAMEYCQGGDLRKYLNQFENCCGLREGAILTLLSDIASALRYLHENRIIHRDLKPENIVLQQGEQRLIHKIIDLGYAKELLCTFVGTLQYLAPELLEQQKYTVTVDYWSFGTLAFECITGFRPFLPNWQPVQWHSKVRQKSEVDIVVSEDLNGTVKFSSSLPYPNNLNSVLAERLEKWLQLMLMWHPRQRGTDPTYGPNGCFKALDDILNLKLVHILNMVTGTIHTYPVTEDESLQSLKARIQQDTGIPEEDQELLQEAGLALIPDKPATQCISLNEGHTLDMDLVFLFDNSKITYETQISPRPQPESVSCILQEPKRNLAFFQLRKVWGQVWHSIQTLKEDCNRLQQGQRAAMMNLLRNNSCLSKMKNSMASMSQQLKAKLDFFKTSIQIDLEKYSEQTEFGITSDKLLLAWREMEQAVELCGRENEVKLLVERMMALQTDIVDLQRSGTLDDLEEQARELYRRLREKPRDQRTEGDSQEMVRLLLQAIQSFEKKVRVIYTQLSKTVVCKQKALELLPKVEEVVSLMNEDEKTVVRLQEKRQKELWNLLKIACS 4kjd-a1-m1-cB_4kjd-a1-m1-cA RatIntestinal AP expressed in E. coli P15693 P15693 2.21 X-RAY DIFFRACTION 189 0.998 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 406 407 PVEEENPVFWNQKAKEALDVAKKLQPIQTSAKNLILFLGDGMGVPTVTATRILKGQLGGHLGPETPLAMDHFPFTALSKTYNVDRQVPDAGTATAYLCGVKANYKTIGVSAAARFNQCNSTFGNEVFSVMHRAKKAGKSVGVVTTTRVQHASPAGTYAHTVNRDWYSDADMPSSALQEGCKDIATQLISNMDIDVILGGGRKFMFPKGTPDPEYPGDSDQSGVRLDSRNLVEEWLAKYQGTRYVWNREQLMQASQDPAVTRLMGLFEPTEMKYDVNRNASADPSLAEMTEVAVRLLSRNPQGFYLFVEGGRIDQGHTAYLALTEAVMFDSAIEKASQLTNEKDTLTLITADHSHVTLRHGGEDVAIFARGPQAHLVHGVQEQNYIAHVMAFAGCLEPYTDCGLAPP VEEENPVFWNQKAKEALDVAKKLQPIQTSAKNLILFLGDGMGVPTVTATRILKGQLGGHLGPETPLAMDHFPFTALSKTYNVDRQVPDAGTATAYLCGVKANYKTIGVSAAARFNQCNSTFGNEVFSVMHRAKKAGKSVGVVTTTRVQHASPAGTYAHTVNRDWYSDADMPSSALQEGCKDIATQLISNMDIDVILGGGRKFMFPKGTPDPEYPGDSDQSGVRLDSRNLVEEWLAKYQGTRYVWNREQLMQASQDPAVTRLMGLFEPTEMKYDVNRNASADPSLAEMTEVAVRLLSRNPQGFYLFVEGGRIDQGHTAYLALTEAVMFDSAIEKASQLTNEKDTLTLITADHSHVTLRHGGEDVAIFARGPQAHLVHGVQEQNYIAHVMAFAGCLEPYTDCGLAPPAD 4kjg-a1-m1-cB_4kjg-a1-m1-cA Structure of Rat Intestinal Alkaline Phosphatase expressed in insect cell P15693 P15693 2.38 X-RAY DIFFRACTION 359 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 484 486 VIPVEEENPVFWNQKAKEALDVAKKLQPIQTSAKNLILFLGDGMGVPTVTATRILKGQLGGHLGPETPLAMDHFPFTALSKTYNVDRQVPDSAGTATAYLCGVKANYKTIGVSAAARFNQCNSTFGNEVFSVMHRAKKAGKSVGVVTTTRVQHASPAGTYAHTVNRDWYSDADMPSSALQEGCKDIATQLISNMDIDVILGGGRKFMFPKGTPDPEYPGDSDQSGVRLDSRNLVEEWLAKYQGTRYVWNREQLMQASQDPAVTRLMGLFEPTEMKYDVNRNASADPSLAEMTEVAVRLLSRNPQGFYLFVEGGRIDQGHHAGTAYLALTEAVMFDSAIEKASQLTNEKDTLTLITADHSHVFAFGGYTLRGTSIFGLAPLNAQDGKSYTSILYGNGPGYVLNSGNRPNVTDAESGDVNYKQQAAVPLSSETHGGEDVAIFARGPQAHLVHGVQEQNYIAHVMAFAGCLEPYTDCGLAPPADEHH VIPVEEENPVFWNQKAKEALDVAKKLQPIQTSAKNLILFLGDGMGVPTVTATRILKGQLGGHLGPETPLAMDHFPFTALSKTYNVDRQVPDSAGTATAYLCGVKANYKTIGVSAAARFNQCNSTFGNEVFSVMHRAKKAGKSVGVVTTTRVQHASPAGTYAHTVNRDWYSDADMPSSALQEGCKDIATQLISNMDIDVILGGGRKFMFPKGTPDPEYPGDSDQSGVRLDSRNLVEEWLAKYQGTRYVWNREQLMQASQDPAVTRLMGLFEPTEMKYDVNRNASADPSLAEMTEVAVRLLSRNPQGFYLFVEGGRIDQGHHAGTAYLALTEAVMFDSAIEKASQLTNEKDTLTLITADHSHVFAFGGYTLRGTSIFGLAPLNAQDGKSYTSILYGNGPGYVLNSGNRPNVTDAESGDVNYKQQAAVPLSSETHGGEDVAIFARGPQAHLVHGVQEQNYIAHVMAFAGCLEPYTDCGLAPPADEHHHH 4kjm-a2-m1-cB_4kjm-a2-m2-cB Crystal structure of the Staphylococcus aureus protein (NP_646141.1, domain 3912-4037) similar to streptococcal adhesins emb and ebhA/ebhB Q8NWQ6 Q8NWQ6 2 X-RAY DIFFRACTION 29 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 117 117 4kjm-a2-m1-cA_4kjm-a2-m2-cA TGNLQTAINDKSGTLASQNFLDADEQKRNAYNQAVSAAETILAKTAVEQALNNVNNAKHALNGTQNLNNAKQAAITAINGASDLNQKQKDALKAQANGAQRVSNAQDVQHNATELNT TGNLQTAINDKSGTLASQNFLDADEQKRNAYNQAVSAAETILAKTAVEQALNNVNNAKHALNGTQNLNNAKQAAITAINGASDLNQKQKDALKAQANGAQRVSNAQDVQHNATELNT 4kjm-a2-m2-cB_4kjm-a2-m1-cA Crystal structure of the Staphylococcus aureus protein (NP_646141.1, domain 3912-4037) similar to streptococcal adhesins emb and ebhA/ebhB Q8NWQ6 Q8NWQ6 2 X-RAY DIFFRACTION 13 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 117 121 4kjm-a2-m1-cB_4kjm-a2-m2-cA TGNLQTAINDKSGTLASQNFLDADEQKRNAYNQAVSAAETILAKTAVEQALNNVNNAKHALNGTQNLNNAKQAAITAINGASDLNQKQKDALKAQANGAQRVSNAQDVQHNATELNT TSTGNLQTAINDKSGTLASQNFLDADEQKRNAYNQAVSAAETILNTAKTAVEQALNNVNNAKHALNGTQNLNNAKQAAITAINGASDLNQKQKDALKAQANGAQRVSNAQDVQHNATELNT 4kjm-a2-m2-cB_4kjm-a2-m2-cA Crystal structure of the Staphylococcus aureus protein (NP_646141.1, domain 3912-4037) similar to streptococcal adhesins emb and ebhA/ebhB Q8NWQ6 Q8NWQ6 2 X-RAY DIFFRACTION 41 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 117 121 4kjm-a1-m1-cB_4kjm-a1-m1-cA 4kjm-a2-m1-cB_4kjm-a2-m1-cA TGNLQTAINDKSGTLASQNFLDADEQKRNAYNQAVSAAETILAKTAVEQALNNVNNAKHALNGTQNLNNAKQAAITAINGASDLNQKQKDALKAQANGAQRVSNAQDVQHNATELNT TSTGNLQTAINDKSGTLASQNFLDADEQKRNAYNQAVSAAETILNTAKTAVEQALNNVNNAKHALNGTQNLNNAKQAAITAINGASDLNQKQKDALKAQANGAQRVSNAQDVQHNATELNT 4kk2-a1-m1-cB_4kk2-a1-m1-cA Crystal structure of a chimeric FPP/GFPP synthase (TARGET EFI-502313c) from Artemisia spiciformiS (1-72:GI751454468,73-346:GI75233326), apo structure Q7XYS9 Q7XYS9 2.2 X-RAY DIFFRACTION 135 1.0 235357 (Artemisia spiciformis) 235357 (Artemisia spiciformis) 336 338 LNSQFMQVYETLKSELIHDPLFEFDDDSRQWVERMIDYTVPGGKMVRGYSVVDSYQLLKGEELTDDEIFLSSALGWCIEWLQAYFLVLDDIMDESHTRRGQPCWFRLPKVGMIAANDGILLRNHVPRILKKHFRGKPYYVDLVDLFNEVEFQTASGQMIDLITTLVKDLSKYSLSIHRRIVQYKTAYYSFYLPVACALLMFGEDLDKHVEVKNVLVEMGTYFQVQDDYLDCFGAPEVIGKIGTDIEDFKCSWLVVKALELANEEQKKTLHENYGKKDPASVAKVKEVYHTLNLQAVFEDYEATSYKKLITSIENHPSKAVQAVLKSFLGKIYKRQK LNSQFMQVYETLKSELIHDPLFEFDDDSRQWVERMIDYTVPGGKMVRGYSVVDSYQLLKGEELTDDEIFLSSALGWCIEWLQAYFLVLDDIMDESHTRRGQPCWFRLPKVGMIAANDGILLRNHVPRILKKHFRGKPYYVDLVDLFNEVEFQTASGQMIDLITTLVGEKDLSKYSLSIHRRIVQYKTAYYSFYLPVACALLMFGEDLDKHVEVKNVLVEMGTYFQVQDDYLDCFGAPEVIGKIGTDIEDFKCSWLVVKALELANEEQKKTLHENYGKKDPASVAKVKEVYHTLNLQAVFEDYEATSYKKLITSIENHPSKAVQAVLKSFLGKIYKRQK 4kkm-a1-m1-cA_4kkm-a1-m1-cB Crystal structure of a FPP/GFPP synthase (Target EFI-501952) from Zymomonas mobilis, apo structure Q5NP81 Q5NP81 1.9 X-RAY DIFFRACTION 173 0.996 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 278 280 MAVNLKTMMEQVAQDIDRLFAEQLPVPEDPRRRLVEAMRYAAIGGGKRLRPLLVVATCALFNVDREAALRVGMAIECIHVYSLIHDDMPCMDNDDLRRGKPTVHKAFDDASAVLSGDALQALAFEILSEEKIHTDPHVRLELIQALAIASGKDGMVGGQAIDLAAETSTVPFDLPTITRLQQLKTGALFGFCLEAGAIMGRQNKDIRDRLKAYARDIGLAFQIADDLIDAGKATFLSLLGLEKARSQAQALVDQAIAHLSVFGSEADYLRSIARYIVA MAVNLKTMMEQVAQDIDRLFAEQLPVPEDPRRRLVEAMRYAAIGGGKRLRPLLVVATCALFNVDREAALRVGMAIECIHVYSLIHDDMPCMDNDDLRRGKPTVHKAFDDASAVLSGDALQALAFEILSEEKIHTDPHVRLELIQALAIASGKDGMVGGQAIDLAAETSTVPFDLPTITRLQQLKTGALFGFCLEAGAIMGRQNKDIRDRLKAYARDIGLAFQIADDLIDAEGDGKATFLSLLGLEKARSQAQALVDQAIAHLSVFGSEADYLRSIARYIV 4kl5-a3-m1-cA_4kl5-a3-m2-cB Crystal structure of NpuDnaE intein B2J821 B2J821 1.72 X-RAY DIFFRACTION 56 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 140 142 GALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMTVDGQMLPIDEIFERELDLMRVDNLPNIKIATRKYLGKQNVYDIGVERDHNFALKNGFIASNAD SGGALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMTVDGQMLPIDEIFERELDLMRVDNLPNIKIATRKYLGKQNVYDIGVERDHNFALKNGFIASNAD 4kl6-a2-m1-cC_4kl6-a2-m1-cD Crystal structure of dimeric form of NpuDnaE intein B2J821 B2J821 2.2 X-RAY DIFFRACTION 399 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 135 136 4kl6-a1-m1-cB_4kl6-a1-m1-cA GALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMVDGQMLPIDEIFERELDLMRNPGIKIATRKYLGKQNVYDIGVERDHNFALKNGFIASNA GGALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMVDGQMLPIDEIFERELDLMRNPGIKIATRKYLGKQNVYDIGVERDHNFALKNGFIASNA 4km3-a1-m1-cB_4km3-a1-m1-cA Discovery of a novel structural motif in methionine aminopeptidase from Streptococci with possible post-translational modification B2IQ22 B2IQ22 3.2 X-RAY DIFFRACTION 74 1.0 516950 (Streptococcus pneumoniae CGSP14) 516950 (Streptococcus pneumoniae CGSP14) 277 286 MITLKSAREIEAMDKAGDFLASIHIGLRDLIKPGVDMWEVEEYVRRRCKEENFLPLQIGVDGAMMDYPYATCCSLNDEVAHAFPRHYILKDGDLLKVDMVLGGPIAKSDLNVSKLNFNNVEQMKKYTQSYSGGLADSCWAYAVGTPSEEVKNLMDITKEAMYKGIEQAVVGNRIGDIGAAIQEYAESRGYGVVRDLVGEPMVPNYGIAGRGLRLREGMVLTIEPMINTGDWEIDTDMKTGWAHKTIDGGLSCQYEHQFVITKDGPVILTSQGEEGTY MITLKSAREIEAMDKAGDFLASIHIGLRDLIKPGVDMWEVEEYVRRRCKEENFLPLQIGVDGAMMDYPYATCCSLNDEVAHAFPRHYILKDGDLLKVDMVLGGPIAKSDLNVSKLNFNNVEQMKKYTQSYSGGLADSCWAYAVGTPSEEVKNLMDITKEAMYKGIEQAVVGNRIGDIGAAIQEYAESRGYGVVRDLVGHGVGPTMHEEPMVPNYGIAGRGLRLREGMVLTIEPMINTGDWEIDTDMKTGWAHKTIDGGLSCQYEHQFVITKDGPVILTSQGEEGTY 4kmc-a2-m1-cA_4kmc-a2-m2-cA Structure analysis of M. Tuberculosis rRNA transcriptional regulator CarD and its interaction with T. Aquaticus RNA polymerase-BETA1 domain P9WJG3 P9WJG3 2.15 X-RAY DIFFRACTION 69 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 79 79 TNWSRRYKANLEKLASGDVNKVAEVVRDLWRRDQERGLSAGEKRMLAKARQILVGELALAESTDDAKAETILDEVLAAA TNWSRRYKANLEKLASGDVNKVAEVVRDLWRRDQERGLSAGEKRMLAKARQILVGELALAESTDDAKAETILDEVLAAA 4kmd-a2-m1-cA_4kmd-a2-m2-cA Crystal structure of Sufud60-Gli1p Q9UMX1 Q9UMX1 1.7 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 367 367 SLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETDGSNLSGVSAKCAWDDLELIRTRQLESVHLKFNQESGALIPLCLRGRLLHGRHFTYKSITGDMAITFVSTGVEGAFATEEHPYAAHGPWLQILLTEEFVEKMLEDLEDLKLPKEYSWPEKKLKVSILPDVVFD SLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETDGSNLSGVSAKCAWDDLELIRTRQLESVHLKFNQESGALIPLCLRGRLLHGRHFTYKSITGDMAITFVSTGVEGAFATEEHPYAAHGPWLQILLTEEFVEKMLEDLEDLKLPKEYSWPEKKLKVSILPDVVFD 4kmg-a2-m1-cA_4kmg-a2-m2-cA Crystal structure of cytochrome c6B from Synechococcus sp. WH8102 Q7U624 Q7U624 1.4 X-RAY DIFFRACTION 28 1.0 84588 (Parasynechococcus marenigrum WH 8102) 84588 (Parasynechococcus marenigrum WH 8102) 88 88 ETSGEGAVLFGQHCAGCHVNGGNIIRRGKNLKLATLKRQGLDSTEAIASIARKGIGQMSGYGDKLGEGGDQLVAGWILEQAQNAWTQG ETSGEGAVLFGQHCAGCHVNGGNIIRRGKNLKLATLKRQGLDSTEAIASIARKGIGQMSGYGDKLGEGGDQLVAGWILEQAQNAWTQG 4kmh-a1-m1-cA_4kmh-a1-m1-cB Crystal structure of Suppressor of Fused d20 Q9UMX1 Q9UMX1 3.04 X-RAY DIFFRACTION 60 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 383 389 RGSHMAEPTAPPAFASLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETDGSNLSGVSAKCAWDDLSRTRQLESVHLKFNQESGALIPLCLRGRLLHGRHFTYKSITGDMAITFVSTGVEGAFATEEHPYAAHGPWLQILLTEEFVEKMLEDLEDLEFKLPKEYSWPEKKLKVSILPDVVFDS LVPRGSHMAELRPTAPPAFASLFPPGLHAIYGECRRLYPDQPNPLQVTAIVKYWLGGPDPLDYVSMYRNVGSPSANIPEHWHYISFGLSDLYGDNRVHEFTGTDGPSGFGFELTFRLKRETGESAPPTWPAELMQGLARYVFQSENTFCSGDHVSWHSPLDNSESRIQHMLLTEDPQMQPVQTPFGVVTFLQIVGVCTEELHSAQQWNGQGILELLRTVPIAGGPWLITDMRRGETIFEIDPHLQERVDKGIETDGSNLSGVSAKCAWDDLSRIRTRQLESVHLKFNQESGALIPLCLRGRLLHGRHFTYKSITGDMAITFVSTGVEGAFATEEHPYAAHGPWLQILLTEEFVEKMLEDLEDLFKLPKEYSWPEKKLKVSILPDVVFDS 4kmr-a1-m1-cB_4kmr-a1-m1-cA Structure of a putative transcriptional regulator of LacI family from Sanguibacter keddieii DSM 10542. D1BJM2 D1BJM2 1.45 X-RAY DIFFRACTION 104 0.985 446469 (Sanguibacter keddieii DSM 10542) 446469 (Sanguibacter keddieii DSM 10542) 260 265 SGVIGLAVPELGQAFFAQLADEVIRVAAEQDLVVLVEQTGGLRERELEALRLTDGLLLAPLGLTQDAGRPLVVLGEPLFPGPVDHVTQHEAAARAATEHLLGLGRRRVLLGAHATERTGVAALRYAGYREALTAAGLAVDDDLVVPVETWDRSSGAEAARVLDAGVRDAVFANDDLALGALRSLQERGVAVPGDVALGFDDVADGRYTYPSLTTVEPGRHDIARAAVTLSERIADAGTGAIEPRLTAPEFRLVVRESTGG GRSGVIGLAVPELGQAFFAQLADEVIRVAAEQDLVVLVEQTGGLRERELEALRNPRLSLTDGLLLAPLGLTDDVRPLVVLGEPLFPGPVDHVTQHEAAARAATEHLLGLGRRRVLLGAHATERTGVAALRYAGYREALTAAGLAVDDDLVVPVETWDRSSGAEAARVLDAGVRDAVFANDDLALGALRSLQERGVAVPGDVALGFDDVADGRYTYPSLTTVEPGRHDIARAAVTLSERIADAGTAIEPRLTAPEFRLVVRESTGG 4kms-a1-m1-cB_4kms-a1-m2-cB Crystal structure of Acetoacetyl-CoA reductase from Rickettsia felis Q4UN54 Q4UN54 2 X-RAY DIFFRACTION 90 1.0 315456 (Rickettsia felis URRWXCal2) 315456 (Rickettsia felis URRWXCal2) 226 226 4kms-a1-m1-cA_4kms-a1-m2-cA HHHMSEIAIVTGGTRGIGKATALELKNKGLTVVANFFSNYDAAKEMEEKYGIKTKCWNVADFEECRQAVKEIEEEFKKPVSILVNNAGITKDKMLHRMSHQDWNDVINVNLNSCFNMSSSVMEQMRNQDYGRIVNISSIVGQTNYSAAKAGIIGFTKALARETASKNITVNCIAPGYIATELAKIINSIPKKRLGQPEEIARAVAFLVDENAGFITGETISINGGH HHHMSEIAIVTGGTRGIGKATALELKNKGLTVVANFFSNYDAAKEMEEKYGIKTKCWNVADFEECRQAVKEIEEEFKKPVSILVNNAGITKDKMLHRMSHQDWNDVINVNLNSCFNMSSSVMEQMRNQDYGRIVNISSIVGQTNYSAAKAGIIGFTKALARETASKNITVNCIAPGYIATELAKIINSIPKKRLGQPEEIARAVAFLVDENAGFITGETISINGGH 4kms-a1-m2-cB_4kms-a1-m2-cA Crystal structure of Acetoacetyl-CoA reductase from Rickettsia felis Q4UN54 Q4UN54 2 X-RAY DIFFRACTION 105 1.0 315456 (Rickettsia felis URRWXCal2) 315456 (Rickettsia felis URRWXCal2) 226 236 4kms-a1-m1-cB_4kms-a1-m1-cA HHHMSEIAIVTGGTRGIGKATALELKNKGLTVVANFFSNYDAAKEMEEKYGIKTKCWNVADFEECRQAVKEIEEEFKKPVSILVNNAGITKDKMLHRMSHQDWNDVINVNLNSCFNMSSSVMEQMRNQDYGRIVNISSIVGQTNYSAAKAGIIGFTKALARETASKNITVNCIAPGYIATELAKIINSIPKKRLGQPEEIARAVAFLVDENAGFITGETISINGGH HHHMSEIAIVTGGTRGIGKATALELKNKGLTVVANFFSNYDAAKEMEEKYGIKTKCWNVADFEECRQAVKEIEEEFKKPVSILVNNAGITKDKMLHRMSHQDWNDVINVNLNSCFNMSSSVMEQMRNQDYGRIVNISSINAQVGQTNYSAAKAGIIGFTKALARETASKNITVNCIAPGYIATEMVPEDVLAKIINSIPKKRLGQPEEIARAVAFLVDENAGFITGETISINGGHN 4kn5-a1-m1-cB_4kn5-a1-m1-cA Crystal structure of a putative methylthioadenosine nucleosidase from Weissella paramesenteroides ATCC 33313 (Target NYSGRC-029342 ) C5RAK4 C5RAK4 1.7 X-RAY DIFFRACTION 96 1.0 585506 (Weissella paramesenteroides ATCC 33313) 585506 (Weissella paramesenteroides ATCC 33313) 222 230 RYGVINAAEEKAALVDAIDEKKTTIAGKLFHHGKIGHVDVVVVESGIGKVASALTTTLLITNFGVDAVINSGSAGALGTDLRIGDIVIADYLAYADADARAFGYAYGQVPQQPARFKADTDLSNDLSESYEKVTDARLVRGLVVTSDSFIASNEQKQTILTHFPEAQSAEEGASIAQVANYFDVPFAVVRAISDNANGFDDFIVEAGQQSAQVLINFFEAQA YFQSRYGVINAAEEKAALVDAIDEKKTTIAGKLFHHGKIGHVDVVVVESGIGKVASALTTTLLITNFGVDAVINSGSAGALGTDLRIGDIVIADYLAYADADARAFGYAYGQVPQQPARFKADTDLSNDLSESYEKVTDARLVRGLVVTSDSFIASNEQKQTILTHFPEAQSAEEGASIAQVANYFDVPFAVVRAISDNANGEAGTFDDFIVEAGQQSAQVLINFFEAQA 4kn8-a1-m1-cB_4kn8-a1-m1-cA Crystal structure of Bs-TpNPPase Q8L1N9 Q8L1N9 1.502 X-RAY DIFFRACTION 89 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 244 255 4ift-a1-m1-cB_4ift-a1-m1-cA 4ig4-a1-m1-cB_4ig4-a1-m1-cA 4o8c-a3-m1-cA_4o8c-a3-m1-cB MRKYNGYLIDLDGTMYAASGFIKELNRLHIPYLFVTNNSTRTPEQVADKLVSLDIPATPEQIFTSSMATANYVYDLDQNAMIYFIGEEGLYKALKEKGFSFADENADVVIVGLDREVTYEKLAVACLAVRNGAKLISTNGDLALPTERGFMPGNGAFTALISHSTQVKATFVGKPEPIIMEQALKVLGTNKNETIMVGDNYDTDILAGIRAGLDTLLVHTGVTTVEYKQQPTYSMKSLDDWKFL MRKYNGYLIDLDGTMYRGTERIDAASGFIKELNRLHIPYLFVTNNSTRTPEQVADKLVSLDIPATPEQIFTSSMATANYVYDLDQNAMIYFIGEEGLYKALKEKGFSFADENADVVIVGLDREVTYEKLAVACLAVRNGAKLISTNGDLALPTERGFMPGNGAFTALISHSTQVKATFVGKPEPIIMEQALKVLGTNKNETIMVGDNYDTDILAGIRAGLDTLLVHTGVTTVEKLKEYKQQPTYSMKSLDDWKFL 4kna-a1-m1-cB_4kna-a1-m1-cA Crystal structure of an N-succinylglutamate 5-semialdehyde dehydrogenase from Burkholderia thailandensis Q2SXN9 Q2SXN9 1.95 X-RAY DIFFRACTION 267 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 486 487 TELFIDGAWVDGAGPVFASRNPGTNERVWEGASASADDVERAVASARRAFAAWSALDLDARCTIVKRFAALLVERKEALATMIGRETGKPLWEARTEVASMAAKVDISITAYHERTGEKRAPMADGVAVLRHRPHGVVAVFGPYNFPGHLPNGHIVPALIAGNTVVFKPSELAPGVARATVEIWRDAGLPAGVLNLVQGEKDTGVALANHRQIDGLFFTGSSDTGTLLHKQFGGRPEIVLALEMGGNNPLVVAEVEDIDAAVHHAIQSAFLSAGQRCTCARRILVPRGAFGDRFVARLADVASKITASVFDADPQPFMGAVISARAASRLVAAQARLVGLGASPIIEMKQRDPALGFVNAAILDVTNVRELPDEEHFGPLAQIVRYTDLDDAIARANDTAFGLSAGLLADDEQAWHTFRRAIRAGIVNWNRPTNGASSAAPFGGAGRSGNHRPSAYYAADYCAYPMASVESAQLQMPASLSPGLHF MTELFIDGAWVDGAGPVFASRNPGTNERVWEGASASADDVERAVASARRAFAAWSALDLDARCTIVKRFAALLVERKEALATMIGRETGKPLWEARTEVASMAAKVDISITAYHERTGEKRAPMADGVAVLRHRPHGVVAVFGPYNFPGHLPNGHIVPALIAGNTVVFKPSELAPGVARATVEIWRDAGLPAGVLNLVQGEKDTGVALANHRQIDGLFFTGSSDTGTLLHKQFGGRPEIVLALEMGGNNPLVVAEVEDIDAAVHHAIQSAFLSAGQRCTCARRILVPRGAFGDRFVARLADVASKITASVFDADPQPFMGAVISARAASRLVAAQARLVGLGASPIIEMKQRDPALGFVNAAILDVTNVRELPDEEHFGPLAQIVRYTDLDDAIARANDTAFGLSAGLLADDEQAWHTFRRAIRAGIVNWNRPTNGASSAAPFGGAGRSGNHRPSAYYAADYCAYPMASVESAQLQMPASLSPGLHF 4knf-a1-m1-cB_4knf-a1-m1-cC Crystal structure of a blue-light absorbing proteorhodopsin double-mutant D97N/Q105L from HOT75 Q9AFF7 Q9AFF7 2.6 X-RAY DIFFRACTION 51 0.991 245185 (gamma proteobacterium 'Hot 75m4') 245185 (gamma proteobacterium 'Hot 75m4') 224 232 4kly-a1-m1-cD_4kly-a1-m1-cE GDLDISDTVGVSFWLVTAGMLAATVFFFVERDQVSAKWKTSLTVSGLITGIAFWHYLYMRGVWIDTGDTPTVFRYINWLLTVPLLVVEFYLIVAASLFKKLLAGSLVMLGAGFAGEAGLAPVLPAFIIGMAGWLYMIYELYMGEGKAAVSSPAVNSAYNAMMMIIVVGWAIYPAGYAAGYLMGVYASNLNLIYNLADFVNKILFGLIIWNVAVKESSNAKLLEH GDLDISDTVGVSFWLVTAGMLAATVFFFVERDQVSAKWKTSLTVSGLITGIAFWHYLYMRGVWIDTGDTPTVFRYINWLLTVPLLVVEFYLILAACTSVAASLFKKLLAGSLVMLGAGFAGEAGLAPVLPAFIIGMAGWLYMIYELYMGEGKAAVSTASPAVNSAYNAMMMIIVVGWAIYPAGYAAGYLMGGGVYASNLNLIYNLADFVNKILFGLIIWNVAVKESSNAKLL 4knf-a1-m1-cD_4knf-a1-m1-cC Crystal structure of a blue-light absorbing proteorhodopsin double-mutant D97N/Q105L from HOT75 Q9AFF7 Q9AFF7 2.6 X-RAY DIFFRACTION 53 0.996 245185 (gamma proteobacterium 'Hot 75m4') 245185 (gamma proteobacterium 'Hot 75m4') 229 232 4kly-a1-m1-cA_4kly-a1-m1-cB 4kly-a1-m1-cC_4kly-a1-m1-cB 4kly-a1-m1-cD_4kly-a1-m1-cC 4kly-a1-m1-cE_4kly-a1-m1-cA 4knf-a1-m1-cB_4knf-a1-m1-cA 4knf-a1-m1-cD_4knf-a1-m1-cE 4knf-a1-m1-cE_4knf-a1-m1-cA GGDLDISDTVGVSFWLVTAGMLAATVFFFVERDQVSAKWKTSLTVSGLITGIAFWHYLYMRGVWIDTGDTPTVFRYINWLLTVPLLVVEFYLILAACTSVAASLFKKLLAGSLVMLGAGFAGEAGLAPVLPAFIIGMAGWLYMIYELYMGEGKAAASPAVNSAYNAMMMIIVVGWAIYPAGYAAGYLMGGVYASNLNLIYNLADFVNKILFGLIIWNVAVKESSNAKLL GDLDISDTVGVSFWLVTAGMLAATVFFFVERDQVSAKWKTSLTVSGLITGIAFWHYLYMRGVWIDTGDTPTVFRYINWLLTVPLLVVEFYLILAACTSVAASLFKKLLAGSLVMLGAGFAGEAGLAPVLPAFIIGMAGWLYMIYELYMGEGKAAVSTASPAVNSAYNAMMMIIVVGWAIYPAGYAAGYLMGGGVYASNLNLIYNLADFVNKILFGLIIWNVAVKESSNAKLL 4kng-a1-m1-cA_4kng-a1-m1-cB Crystal structure of human LGR5-RSPO1-RNF43 O75473 O75473 2.5 X-RAY DIFFRACTION 17 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 461 463 GPRGCPTHCHCEPDGRMLLRVDCSDLGLSELPSNLSVFTSYLDLSMNNISQLLPNPLPSLRFLEELRLAGNALTYIPKGAFTGLYSLKVLMLQNNQLRHVPTEALQNLRSLQSLRLDANHISYVPPSCFSGLHSLRHLWLDDNALTEIPVQAFRSLSALQAMTLALNKIHHIPDYAFGNLSSLVVLHLHNNRIHSLGKKCFDGLHSLETLDLNYNNLDEFPTAIRTLSNLKELGFHSNNIRSIPEKAFVGNPSLITIHFYDNPIQFVGRSAFQHLPELRTLTLNGASQITEFPDLTGTANLESLTLTGAQISSLPQTVCNQLPNLQVLDLSYNLLEDLPSFSVCQKLQKIDLRHNEIYEIKVDTFQQLLSLRSLNLAWNKIAIIHPNAFSTLPSLIKLDLSSNLLSSFPITGLHGLTHLKLTGNHALQSLISSENFPELKVIEMPYAYQCCAFGHSVQCSP GPRGCPTHCHCEPDGRMLLRVDCSDLGLSELPSNLSVFTSYLDLSMNNISQLLPNPLPSLRFLEELRLAGNALTYIPKGAFTGLYSLKVLMLQNNQLRHVPTEALQNLRSLQSLRLDANHISYVPPSCFSGLHSLRHLWLDDNALTEIPVQAFRSLSALQAMTLALNKIHHIPDYAFGNLSSLVVLHLHNNRIHSLGKKCFDGLHSLETLDLNYNNLDEFPTAIRTLSNLKELGFHSNNIRSIPEKAFVGNPSLITIHFYDNPIQFVGRSAFQHLPELRTLTLNGASQITEFPDLTGTANLESLTLTGAQISSLPQTVCNQLPNLQVLDLSYNLLEDLPSFSVCQKLQKIDLRHNEIYEIKVDTFQQLLSLRSLNLAWNKIAIIHPNAFSTLPSLIKLDLSSNLLSSFPITGLHGLTHLKLTGNHALQSLISSENFPELKVIEMPYAYQCCAFHSVQCSPSPG 4knl-a4-m1-cG_4knl-a4-m1-cD Crystal structure of Staphylococcus aureus hydrolase AmiA in complex with its ligand Q2FZK7 1.55 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 1 204 4knl-a3-m1-cF_4knl-a3-m1-cC A LPKYKPQVNSSINDYICKNNLKAPKIEEDYTSYFPKYAYRNGVGRPEGIVVHDTANDRSTINGEISYMKNNYQNAFVHAFVDGDRIIETAPTDYLSWGVGAVGNPRFINVEIVHTHDYASFARSMNNYADYAATQLQYYGLKPDSAEYDGNGTVWTHYAVSKYLGGTDHADPHGYLRSHNYSYDQLYDLINEKYLIKMGKVAPW 4koa-a1-m1-cA_4koa-a1-m2-cA Crystal Structure Analysis of 1,5-anhydro-D-fructose reductase from Sinorhizobium meliloti Q92KZ3 Q92KZ3 1.93 X-RAY DIFFRACTION 131 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 333 333 MIRWGLIGASTIAREWVIGAIRAAGGEVVSVMSSSAERGEAYAAENGIAKAVTSVDDLVGDPDVDAVYISTTNELHHGQALAAIRAGKHVLCEKPLAMNLNDGCEMVLKACEAGVVLGTNHHLRNAATHRAMREAIAAGRIGRPIAARVFHAVYLPPHLQGWRLDKPEAGGGVILDITVHDADTLRFVLNDDPIEAVAISHSAGMGKEGLEDGVMGVLRFRSGVIAQFHDAFTTKFAETGLEVHGTAGSLIGRNVMTQRPVGTVVLRNEEGESELPLDHRNLYETAIAAFHSAIGGNGRPSASGEDGVWSLATGLAVVKAAATGGAVEIETGL MIRWGLIGASTIAREWVIGAIRAAGGEVVSVMSSSAERGEAYAAENGIAKAVTSVDDLVGDPDVDAVYISTTNELHHGQALAAIRAGKHVLCEKPLAMNLNDGCEMVLKACEAGVVLGTNHHLRNAATHRAMREAIAAGRIGRPIAARVFHAVYLPPHLQGWRLDKPEAGGGVILDITVHDADTLRFVLNDDPIEAVAISHSAGMGKEGLEDGVMGVLRFRSGVIAQFHDAFTTKFAETGLEVHGTAGSLIGRNVMTQRPVGTVVLRNEEGESELPLDHRNLYETAIAAFHSAIGGNGRPSASGEDGVWSLATGLAVVKAAATGGAVEIETGL 4kop-a1-m1-cB_4kop-a1-m1-cC Crystal Structure of WHY2 from Arabidopsis thaliana Q8VYF7 Q8VYF7 1.75 X-RAY DIFFRACTION 69 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 151 152 4kop-a1-m1-cB_4kop-a1-m1-cA 4kop-a1-m1-cD_4kop-a1-m1-cA 4kop-a1-m1-cD_4kop-a1-m1-cC RLFAPYSIFKGKAALSVEPVLPSFTEIDSGNLRIDRRGSLMMTFMPAIGERKYDWEKKQKFALSPTEVGSLISMGSKDSSEFFHDPQVRKSLSVKPHADGSGYFISLSVNNSILKTNDYFVVPVTKAEFAVMKTAFSFALPHIMGWNRLTG RLFAPYSIFKGKAALSVEPVLPSFTEIDSGNLRIDRRGSLMMTFMPAIGERKYDWEKKQKFALSPTEVGSLISMGSKDSSEFFHDPGQVRKSLSVKPHADGSGYFISLSVNNSILKTNDYFVVPVTKAEFAVMKTAFSFALPHIMGWNRLTG 4kp2-a1-m1-cA_4kp2-a1-m2-cB Crystal structure of homoaconitase large subunit from methanococcus jannaschii (MJ1003) Q58409 Q58409 2.504 X-RAY DIFFRACTION 134 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 418 418 MTLVEKILSKKVGYEVCAGDSIEVEVDLAMTHDGTTPLAYKALKEMSDSVWNPDKIVVAFDHNVPPNTVKAAEMQKLALEFVKRFGIKNFHKGGEGICHQILAENYVLPNMFVAGGDSHTCTHGAFGAFATGFGATDMAYIYATGETWIKVPKTIRVDIVGKNENVSAKDIVLRVCKEIGRRGATYMAIEYGGEVVKNMDMDGRLTLCNMAIEMGGKTGVIEADEITYDYLKKERGLSDEDIAKLKKERITVNRDEANYYKEIEIDITDMEEQVAVPHHPDNVKPISDVEGTEINQVFIGSCTNGRLSDLREAAKYLKGREVHKDVKLIVIPASKKVFLQALKEGIIDIFVKAGAMICTPGCGPCLGAHQGVLAEGEICLSTTNRNFKGRMGHINSYIYLASPKIAAISAVKGYITNK MTLVEKILSKKVGYEVCAGDSIEVEVDLAMTHDGTTPLAYKALKEMSDSVWNPDKIVVAFDHNVPPNTVKAAEMQKLALEFVKRFGIKNFHKGGEGICHQILAENYVLPNMFVAGGDSHTCTHGAFGAFATGFGATDMAYIYATGETWIKVPKTIRVDIVGKNENVSAKDIVLRVCKEIGRRGATYMAIEYGGEVVKNMDMDGRLTLCNMAIEMGGKTGVIEADEITYDYLKKERGLSDEDIAKLKKERITVNRDEANYYKEIEIDITDMEEQVAVPHHPDNVKPISDVEGTEINQVFIGSCTNGRLSDLREAAKYLKGREVHKDVKLIVIPASKKVFLQALKEGIIDIFVKAGAMICTPGCGPCLGAHQGVLAEGEICLSTTNRNFKGRMGHINSYIYLASPKIAAISAVKGYITNK 4kp3-a1-m1-cC_4kp3-a1-m1-cD Crystal Structure of MyoVa-GTD in Complex with Two Cargos Q99LE1 Q99LE1 2.405 X-RAY DIFFRACTION 113 1.0 10090 (Mus musculus) 10090 (Mus musculus) 81 82 EDEGALAKSPLQLTTDDVYDISYVVGRELMALGSDPRVTRLQFKIVRVMEMLETLVNEGSLAVEELRMERDNLKQEVEGLR EDEGALAKSPLQLTTDDVYDISYVVGRELMALGSDPRVTRLQFKIVRVMEMLETLVNEGSLAVEELRMERDNLKQEVEGLRK 4kp4-a1-m1-cB_4kp4-a1-m1-cA Deciphering cis-trans directionality and visualizing autophosphorylation in histidine kinases. P0AEJ4 P0AEJ4 3 X-RAY DIFFRACTION 98 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 217 219 ADDRTLLMAGVSHDLRTPLTRIRAYAETIYNSLGELDLSTLKELAESINKDIEECNAIIEQFIDYLRTGQEMPMEMADLNAVLGEVIAAESGYEREIETALYPGSIEVKMHPLSIKRAVANMVVNAARYGNGWIKVSSGTEPNRAWFQVEDDGPGIAPEQRKHLFQPFVRGDSARTISGTGLGLAIVQRIVDNHNGMLELGTSERGGLSIRAWLPVP ADDRTLLMAGVSHDLRTPLTRIRAYAETIYNSLGELDLSTLKELAESINKDIEECNAIIEQFIDYLRTGQEMPMEMADLNAVLGEVIAAESGYEREIETALYPGSIEVKMHPLSIKRAVANMVVNAARYGNGWIKVSSGTEPNRAWFQVEDDGPGIAPEQRKHLFQPFVRGDSARTISGTGLGLAIVQRIVDNHNGMLELGTSERGGLSIRAWLPVPVT 4kpk-a1-m2-cA_4kpk-a1-m3-cA Crystal structure of a enoyl-CoA hydratase from Shewanella pealeana ATCC 700345 A8H6D2 A8H6D2 2.09 X-RAY DIFFRACTION 140 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 255 255 4kpk-a1-m1-cA_4kpk-a1-m2-cA 4kpk-a1-m1-cA_4kpk-a1-m3-cA ATQTEILDQQLHYLSCTLNGGVAQVLDRSDKHNAFDEVISEIQVLEHFKRNEQCQILLLKANGKNFSAGADLNWRKQAKDFEQNLADANELARLSLDKFPKPTITLVQGAAFGGALGLICCSDIAIANERASFCLSEVKLGLIPAVISPYVTRAGQRAARRYLTAERFDAQKALELQIIHDINDDLDAAAQPFIDALLSNSPQGAWVKCLLSSLEDGVIDQNTLDHTSERIARIRVSEEGQEGLNAFFEKRSPQW ATQTEILDQQLHYLSCTLNGGVAQVLDRSDKHNAFDEVISEIQVLEHFKRNEQCQILLLKANGKNFSAGADLNWRKQAKDFEQNLADANELARLSLDKFPKPTITLVQGAAFGGALGLICCSDIAIANERASFCLSEVKLGLIPAVISPYVTRAGQRAARRYLTAERFDAQKALELQIIHDINDDLDAAAQPFIDALLSNSPQGAWVKCLLSSLEDGVIDQNTLDHTSERIARIRVSEEGQEGLNAFFEKRSPQW 4kpn-a4-m1-cG_4kpn-a4-m1-cH Plant nucleoside hydrolase - PpNRh1 enzyme A9TXA6 A9TXA6 3.35 X-RAY DIFFRACTION 74 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 318 318 4kpn-a1-m1-cA_4kpn-a1-m1-cB 4kpn-a2-m1-cC_4kpn-a2-m1-cD 4kpn-a3-m1-cE_4kpn-a3-m1-cF PPKKVIIDTDPGIDDAMAIFFALKSPELDVIALTTIYGNVRTPTATVNALHLLEFAGREDIPVSEGFRTSLRGELKERIADFVHGADGLGNTYPTLSDRKPIDTFAPDYLIQKVNEFPGEITIVALGPLTNLAAAVECDPTFAKKVGQIIILGGAFQVNGNVNPAAEANIYGDPEAADIIFTCGADILVVGINITHQVYWTGKDLEDLGRSDSKFGKYLYAASHFYATYHREAYDIDAIYLHDPATMVAAVDPSLMTYATGAVRVQKDGICKGLTLFNNSNKVWHDPTDWCGIPPVKVAVTVDRERVASLLKERLTAP PPKKVIIDTDPGIDDAMAIFFALKSPELDVIALTTIYGNVRTPTATVNALHLLEFAGREDIPVSEGFRTSLRGELKERIADFVHGADGLGNTYPTLSDRKPIDTFAPDYLIQKVNEFPGEITIVALGPLTNLAAAVECDPTFAKKVGQIIILGGAFQVNGNVNPAAEANIYGDPEAADIIFTCGADILVVGINITHQVYWTGKDLEDLGRSDSKFGKYLYAASHFYATYHREAYDIDAIYLHDPATMVAAVDPSLMTYATGAVRVQKDGICKGLTLFNNSNKVWHDPTDWCGIPPVKVAVTVDRERVASLLKERLTAP 4kpq-a1-m1-cC_4kpq-a1-m1-cE Structure and receptor binding specificity of the hemagglutinin H13 from avian influenza A virus H13N6 P13103 P13103 2.502 X-RAY DIFFRACTION 29 1.0 384499 (Influenza A virus (A/gull/Maryland/704/1977(H13N6))) 384499 (Influenza A virus (A/gull/Maryland/704/1977(H13N6))) 324 324 4kpq-a1-m1-cA_4kpq-a1-m1-cC 4kpq-a1-m1-cA_4kpq-a1-m1-cE 4kps-a1-m1-cA_4kps-a1-m1-cC 4kps-a1-m1-cA_4kps-a1-m1-cE 4kps-a1-m1-cC_4kps-a1-m1-cE IQDRICVGYLSTNSSERVDTLLENGVPVTSSIDLIETNHTGTYCSLNGVSPVHLGDCSFEGWIVGNPACTSNFGIREWSYLIEDPAAPHGLCYPGELNNNGELRHLFSGIRSFSRTELIPPTSWGEVLDGTTSACRDNTGTNSFYRNLVWFIKKNNRYPVISKTYNNTTGRDVLVLWGIHHPVSVDETKTLYVNSDPYTLVSTKSWSEKYKLETGVRPGYNGQRSWMKIYWSLIHPGEMITFESNGGFLAPRYGYIIEEYGKGRIFQSRIRMSRCNTKCQTSVGGINTNRTFQNIDKNALGDCPKYIKSGQLKLATGLRNVPAI IQDRICVGYLSTNSSERVDTLLENGVPVTSSIDLIETNHTGTYCSLNGVSPVHLGDCSFEGWIVGNPACTSNFGIREWSYLIEDPAAPHGLCYPGELNNNGELRHLFSGIRSFSRTELIPPTSWGEVLDGTTSACRDNTGTNSFYRNLVWFIKKNNRYPVISKTYNNTTGRDVLVLWGIHHPVSVDETKTLYVNSDPYTLVSTKSWSEKYKLETGVRPGYNGQRSWMKIYWSLIHPGEMITFESNGGFLAPRYGYIIEEYGKGRIFQSRIRMSRCNTKCQTSVGGINTNRTFQNIDKNALGDCPKYIKSGQLKLATGLRNVPAI 4kpq-a1-m1-cD_4kpq-a1-m1-cF Structure and receptor binding specificity of the hemagglutinin H13 from avian influenza A virus H13N6 P13103 P13103 2.502 X-RAY DIFFRACTION 46 1.0 384499 (Influenza A virus (A/gull/Maryland/704/1977(H13N6))) 384499 (Influenza A virus (A/gull/Maryland/704/1977(H13N6))) 165 165 4kpq-a1-m1-cB_4kpq-a1-m1-cD 4kpq-a1-m1-cB_4kpq-a1-m1-cF 4kps-a1-m1-cB_4kps-a1-m1-cD 4kps-a1-m1-cB_4kps-a1-m1-cF 4kps-a1-m1-cD_4kps-a1-m1-cF LFGAIAGFIEGGWPGLINGWYGFQHQNEQGTGIAADKESTQKAIDQITTKINNIIDKMNGNYDSIRGEFNQVEKRINMLADRIDDAVTDIWSYNAKLLVLLENDKTLDMHDANVKNLHEQVRRELKDNAIDEGNGCFELLHKCNDSCMETIRNGTYDHTEYAEES LFGAIAGFIEGGWPGLINGWYGFQHQNEQGTGIAADKESTQKAIDQITTKINNIIDKMNGNYDSIRGEFNQVEKRINMLADRIDDAVTDIWSYNAKLLVLLENDKTLDMHDANVKNLHEQVRRELKDNAIDEGNGCFELLHKCNDSCMETIRNGTYDHTEYAEES 4kpr-a2-m1-cA_4kpr-a2-m1-cB Tetrameric form of rat selenoprotein thioredoxin reductase 1 O89049 O89049 2.4 X-RAY DIFFRACTION 266 0.998 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 484 484 1h6v-a1-m1-cB_1h6v-a1-m1-cA 1h6v-a2-m1-cC_1h6v-a2-m1-cD 1h6v-a3-m1-cF_1h6v-a3-m1-cE 2cfy-a1-m1-cA_2cfy-a1-m1-cB 2cfy-a2-m1-cC_2cfy-a2-m1-cD 2cfy-a3-m1-cE_2cfy-a3-m1-cF 2j3n-a1-m1-cA_2j3n-a1-m1-cB 2j3n-a2-m1-cC_2j3n-a2-m1-cD 2j3n-a3-m1-cF_2j3n-a3-m1-cE 2zz0-a1-m1-cB_2zz0-a1-m1-cA 2zz0-a2-m1-cD_2zz0-a2-m1-cC 2zzb-a1-m1-cB_2zzb-a1-m1-cA 2zzb-a2-m1-cD_2zzb-a2-m1-cC 2zzc-a1-m1-cB_2zzc-a1-m1-cA 2zzc-a2-m1-cD_2zzc-a2-m1-cC 3ean-a1-m1-cA_3ean-a1-m1-cB 3ean-a2-m1-cC_3ean-a2-m1-cD 3ean-a3-m1-cF_3ean-a3-m1-cE 3eao-a1-m1-cA_3eao-a1-m1-cB 3eao-a2-m1-cC_3eao-a2-m1-cD 3eao-a3-m1-cF_3eao-a3-m1-cE 3qfa-a1-m1-cA_3qfa-a1-m1-cB 3qfb-a1-m1-cB_3qfb-a1-m1-cA 4kpr-a1-m1-cE_4kpr-a1-m1-cF 7x1r-a1-m1-cA_7x1r-a1-m1-cB YDFDLIIIGGGSGGLAAAKEAAKFDKKVMVLDFVTPTPLGTRWGLGGTCVNVGCIPKKLMHQAALLGQALKDSRNYGWKLEDTVKHDWEKMTESVQNHIGSLNWGYRVALREKKVVYENAYGKFIGPHKIMATNNKGKEKVYSAERFLIATGERPRYLGIPGDKEYCISSDDLFSLPYCPGKTLVVGASYVALECAGFLAGIGLDVTVMVRSILLRGFDQDMANKIGEHMEEHGIKFIRQFVPTKIEQIEAGTPGRLKVTAKSTNSEETIEDEFNTVLLAVGRDSCTRTIGLETVGVKINEKTGKIPVTDEEQTNVPYIYAIGDILEGKLELTPVAIQAGRLLAQRLYGGSTVKCDYDNVPTTVFTPLEYGCCGLSEEKAVEKFGEENIEVYHSFFWPLEWTVPSRDNNKCYAKVICNLKDNERVVGFHVLGPNAGEVTQGFAAALKCGLTKQQLDSTIGIHPVCAEIFTTLSVTKRSGGDILQ SYDFDLIIIGGGSGGLAAAKEAAKFDKKVMVLDFVTPTPLGTRWGLGGTCVNVGCIPKKLMHQAALLGQALKDSRNYGWKLEDTVKHDWEKMTESVQNHIGSLNWGYRVALREKKVVYENAYGKFIGPHKIMATNNKGKEKVYSAERFLIATGERPRYLGIPGDKEYCISSDDLFSLPYCPGKTLVVGASYVALECAGFLAGIGLDVTVMVRSILLRGFDQDMANKIGEHMEEHGIKFIRQFVPTKIEQIEAGTPGRLKVTAKSTNSEETIEDEFNTVLLAVGRDSCTRTIGLETVGVKINEKTGKIPVTDEEQTNVPYIYAIGDILEGKLELTPVAIQAGRLLAQRLYGGSTVKCDYDNVPTTVFTPLEYGCCGLSEEKAVEKFGEENIEVYHSFFWPLEWTVPSRDNNKCYAKVICNLKDNERVVGFHVLGPNAGEVTQGFAAALKCGLTKQQLDSTIGIHPVCAEIFTTLSVTKRSGGDIL 4kq6-a2-m1-cF_4kq6-a2-m1-cJ Product complex of lumazine synthase from candida glabrata Q6FXA8 Q6FXA8 2.24 X-RAY DIFFRACTION 69 1.0 284593 (Nakaseomyces glabratus CBS 138) 284593 (Nakaseomyces glabratus CBS 138) 157 157 4kq6-a1-m1-cA_4kq6-a1-m1-cB 4kq6-a1-m1-cB_4kq6-a1-m1-cC 4kq6-a1-m1-cC_4kq6-a1-m1-cD 4kq6-a1-m1-cE_4kq6-a1-m1-cA 4kq6-a1-m1-cE_4kq6-a1-m1-cD 4kq6-a2-m1-cF_4kq6-a2-m1-cG 4kq6-a2-m1-cH_4kq6-a2-m1-cG 4kq6-a2-m1-cH_4kq6-a2-m1-cI 4kq6-a2-m1-cJ_4kq6-a2-m1-cI QNYDGSKLRVGIIHARWNRVIIDALVKGAIDRMLSLGVKEENIIVETVPGSFELPYGSKRFAEKQAKKGEPLDVVIPIGVLIKGSTMHFEYISDSTTQAIMNLQDKINIPVIFGLLTCLTEEQALARAGIDEGKTMHNHGEDWGAAAVEMATKFGAN QNYDGSKLRVGIIHARWNRVIIDALVKGAIDRMLSLGVKEENIIVETVPGSFELPYGSKRFAEKQAKKGEPLDVVIPIGVLIKGSTMHFEYISDSTTQAIMNLQDKINIPVIFGLLTCLTEEQALARAGIDEGKTMHNHGEDWGAAAVEMATKFGAN 4kq7-a1-m2-cB_4kq7-a1-m3-cB Crystal structure of a DUF2961 family protein (BACUNI_00161) from Bacteroides uniformis ATCC 8492 at 1.62 A resolution A7UXZ0 A7UXZ0 1.62 X-RAY DIFFRACTION 167 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 363 363 4kq7-a1-m1-cA_4kq7-a1-m2-cA 4kq7-a1-m1-cA_4kq7-a1-m3-cA 4kq7-a1-m1-cB_4kq7-a1-m2-cB 4kq7-a1-m1-cB_4kq7-a1-m3-cB 4kq7-a1-m2-cA_4kq7-a1-m3-cA QSNTNEFDLAKLKSGVKNKRISSTDPTGGNRDHLEPFKPGEKRIIADIKGGVINHIWVTIAPPPPTLSRNDIIIRYWDGNDYPSVESPIGPFFGQGWDERYNYASLPLSAGPENGTGLSCYFAPFEKGARIEIENQSDRNIDAFYFYVDYLEAKLPKDGRFHAWYNHNLTEALPEGETEWGVTGAQKPNTTGERNYVFETQGKGHFVGINYYVHCPTPWYGEGDDWFIDGEKVPSLIGTGTEDFFNTAWCPKEAFSHPYFGYPRVNNDIGWLGRTHVYRFFIEDPIFFEKSLKGTIEHGSNNNLTLDLSTVAYWYQDSAVALPEAPTKAQRAPKPFINHVDIHRWRDAWRKSKGNKATLWGNE QSNTNEFDLAKLKSGVKNKRISSTDPTGGNRDHLEPFKPGEKRIIADIKGGVINHIWVTIAPPPPTLSRNDIIIRYWDGNDYPSVESPIGPFFGQGWDERYNYASLPLSAGPENGTGLSCYFAPFEKGARIEIENQSDRNIDAFYFYVDYLEAKLPKDGRFHAWYNHNLTEALPEGETEWGVTGAQKPNTTGERNYVFETQGKGHFVGINYYVHCPTPWYGEGDDWFIDGEKVPSLIGTGTEDFFNTAWCPKEAFSHPYFGYPRVNNDIGWLGRTHVYRFFIEDPIFFEKSLKGTIEHGSNNNLTLDLSTVAYWYQDSAVALPEAPTKAQRAPKPFINHVDIHRWRDAWRKSKGNKATLWGNE 4kq7-a1-m3-cA_4kq7-a1-m3-cB Crystal structure of a DUF2961 family protein (BACUNI_00161) from Bacteroides uniformis ATCC 8492 at 1.62 A resolution A7UXZ0 A7UXZ0 1.62 X-RAY DIFFRACTION 148 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 363 363 4kq7-a1-m1-cA_4kq7-a1-m1-cB 4kq7-a1-m2-cA_4kq7-a1-m2-cB QSNTNEFDLAKLKSGVKNKRISSTDPTGGNRDHLEPFKPGEKRIIADIKGGVINHIWVTIAPPPPTLSRNDIIIRYWDGNDYPSVESPIGPFFGQGWDERYNYASLPLSAGPENGTGLSCYFAPFEKGARIEIENQSDRNIDAFYFYVDYLEAKLPKDGRFHAWYNHNLTEALPEGETEWGVTGAQKPNTTGERNYVFETQGKGHFVGINYYVHCPTPWYGEGDDWFIDGEKVPSLIGTGTEDFFNTAWCPKEAFSHPYFGYPRVNNDIGWLGRTHVYRFFIEDPIFFEKSLKGTIEHGSNNNLTLDLSTVAYWYQDSAVALPEAPTKAQRAPKPFINHVDIHRWRDAWRKSKGNKATLWGNE QSNTNEFDLAKLKSGVKNKRISSTDPTGGNRDHLEPFKPGEKRIIADIKGGVINHIWVTIAPPPPTLSRNDIIIRYWDGNDYPSVESPIGPFFGQGWDERYNYASLPLSAGPENGTGLSCYFAPFEKGARIEIENQSDRNIDAFYFYVDYLEAKLPKDGRFHAWYNHNLTEALPEGETEWGVTGAQKPNTTGERNYVFETQGKGHFVGINYYVHCPTPWYGEGDDWFIDGEKVPSLIGTGTEDFFNTAWCPKEAFSHPYFGYPRVNNDIGWLGRTHVYRFFIEDPIFFEKSLKGTIEHGSNNNLTLDLSTVAYWYQDSAVALPEAPTKAQRAPKPFINHVDIHRWRDAWRKSKGNKATLWGNE 4kqb-a3-m2-cB_4kqb-a3-m1-cA crystal structure of the Golgi casein kinase with Mn/ADP bound Q9XTW2 Q9XTW2 3.045 X-RAY DIFFRACTION 67 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 418 419 PHQPIPPSLGEKDLSDPFNFLFSSNKITLRKLYDLTKNVDFDQLRQNECKKNITLSKFWEEDDNWERFYSNIGSCSVYSDDQMIDNLLHDLNTSPIKHVHIMDGGTQVKFVFTFKNDKQAVFKPMRFGRDYESDPNHFYFSDFERHHAEIATFHLDRVLGFRRAIPTVGRVLNMTTELFEKAEKKLKKTFFFSPAKNFCFVSRCDYYCDTTHAICGLPDMKEGSVQVFLPDESAVPRKHNRSPYRRTYSKKNQVAEWQSSMNYCTDKVKTKRQYAHGRRLLDLVDIHILDYLIGNQDRHHFESFNVFNDLPSYAIHLDHGRAFGRSDFDDDDIILPLRQCCILRPSTFQTLMNFYSTPKSLTKALHESLSKDPAHPILAYKHYPAMERRLAKIMSHILECFESRGVAEVLVAEYNNPD PHQPIPPSLGEKDLSDPFNFLFSSNKITLRKLYDLTKNVDFDQLRQNECKKNITLSKFWEEDDNWERFYSNIGSCSVYSDDQMIDNLLHDLNTSPIKHVHIMDGGTQVKFVFTFKNDKQAVFKPMRFGRDYESDPNHFYFSDFERHHAEIATFHLDRVLGFRRAIPTVGRVLNMTTELFEKAEKKLKKTFFFSPAKNFCFVSRCDYYCDTTHAICGLPDMKEGSVQVFLPDESAVPRKHNRSPYRRTYSKKNQVAEWQSSMNYCTDKVKTKRQYAHGRRLLDLVDIHILDYLIGNQDRHHFESFNVFNDLPSYAIHLDHGRAFGRSDFDDDDIILPLRQCCILRPSTFQTLMNFYSTPKSLTKALHESLSKDPAHPILAYKHYPAMERRLAKIMSHILECFESRGVAEVLVAEYNNPDV 4kqd-a2-m1-cC_4kqd-a2-m1-cD The crystal Structure of the N-terminal PAS domain of the F plasmid TraJ P06626 P06626 1.55 X-RAY DIFFRACTION 66 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 109 115 4kqd-a1-m1-cA_4kqd-a1-m1-cB DLLENLTAVIQDYPNPACIRDETGKFIFCNTLFHESFLTQDQSAEKWLLSQRDFCELISVTEMEAYRNEHTHLNLVEDVFIQNRFWTISVQSFLNGHRNIILWQFYDAA IDLLENLTAVIQDYPNPACIRDETGKFIFCNTLFHESFLTQDQSAEKWLLSQRDFCELISVTEMEAYRNEHTHLNLVEDVFIQNRFWTISVQSFLNGHRNIILWQFYDAAHVRHK 4kqe-a1-m1-cA_4kqe-a1-m2-cA The mutant structure of the human glycyl-tRNA synthetase E71G P41250 P41250 2.739 X-RAY DIFFRACTION 186 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 597 597 4qei-a1-m1-cA_4qei-a1-m2-cA IVDRAKMGDTLKRRFFYDQAFAIYGGVSGLYDFGPVGCALKNNIIQTWRQHFIQEEQILEIDCTMLTPEPVLKTSGHVDKFADFMVKDVKNGECFRADHLLKAHLQKLMSDKKCSVEKKSEMESVLAQLDNYGQQELADLFVNYNVKSPITGNDLSPPVSFNLMFKTFIGPGGNMPGYLRPETAQGIFLNFKRLLEFNQGKLPFAAAQIGNSFRNEISPRSGLIRVREFTMAEIEHFVDPSEKDHPKFQNVADLHLYLYSAKAQVSGQSARKMRLGDAVEQGVINNTVLGYFIGRIYLYLTKVGISPDKLRFRQHMENECDCWDAESKTSYGWIEIVGCADRSCYDLSCHARATKVPLVAEKPLKEPQFEPSKGAIGKAYKKDAKLVMEYLAICDECYITEMEMLLNEKGEFTIETEGKTFQLTKDMINVKRFQKVEEVVPNVIEPSFGLGRIMYTVFEHTFHVREGDEQRTFFSFPAVVAPFKCSVLPLSQNQEFMPFVKELSEALTRHGVSHKVDDSSGSIGRRYARTDEIGVAFGVTIDFDTVNKTPHTATLRDRDSMRQIRAEISELPSIVQDLANGNITWADVEARYPLFEG IVDRAKMGDTLKRRFFYDQAFAIYGGVSGLYDFGPVGCALKNNIIQTWRQHFIQEEQILEIDCTMLTPEPVLKTSGHVDKFADFMVKDVKNGECFRADHLLKAHLQKLMSDKKCSVEKKSEMESVLAQLDNYGQQELADLFVNYNVKSPITGNDLSPPVSFNLMFKTFIGPGGNMPGYLRPETAQGIFLNFKRLLEFNQGKLPFAAAQIGNSFRNEISPRSGLIRVREFTMAEIEHFVDPSEKDHPKFQNVADLHLYLYSAKAQVSGQSARKMRLGDAVEQGVINNTVLGYFIGRIYLYLTKVGISPDKLRFRQHMENECDCWDAESKTSYGWIEIVGCADRSCYDLSCHARATKVPLVAEKPLKEPQFEPSKGAIGKAYKKDAKLVMEYLAICDECYITEMEMLLNEKGEFTIETEGKTFQLTKDMINVKRFQKVEEVVPNVIEPSFGLGRIMYTVFEHTFHVREGDEQRTFFSFPAVVAPFKCSVLPLSQNQEFMPFVKELSEALTRHGVSHKVDDSSGSIGRRYARTDEIGVAFGVTIDFDTVNKTPHTATLRDRDSMRQIRAEISELPSIVQDLANGNITWADVEARYPLFEG 4kqn-a1-m1-cB_4kqn-a1-m1-cA 2.8 Angstrom Resolution Crystal Structure of D-Hydantoinase from Bacillus sp. AR9 in C2221 Space Group Q5DLU2 Q5DLU2 2.8 X-RAY DIFFRACTION 58 1.0 301298 (Bacillus sp. AR9) 301298 (Bacillus sp. AR9) 456 460 4kir-a1-m1-cB_4kir-a1-m1-cA KKWIRGGTVVTAADTYQADVLIEGERVVAIGHQGAEEIDATGCYVIPGGIDPHTHLDMPFGGTVTADDFFTGTRAAAFGGTTSIVDFCLTKKGESLKSAIATWHEKARGKAVIDYGFHLMIAEANDQVLEELESVISSEGITSLKVFMAYKNVFQADDETLFKTLVKAKELGALVQVHAENGDVLDYLTKKALAEGNTDPIYHAYTRPPEAEGEATGRAIALTALAGSQLYVVHVSCASAVQRIAEAREKGWNVYGETCPQYLALDVSIMDQPDFEGAKYVWSPPLREKWNQEVLWSALKNGILQTVGSDHCPFNFRGQKELGRGDFTKIPNGGPLIEDRLTILYSEGVRQGRISLNQFVDISSTKAAKLFGMFPRKGTIAVGSDADIVIFDPHVKRTLSVETHHMNVDYNPFEGMEVYGEVVSVLSRGSFVVRDKQFVGQAGSGQYIKRTTFEQA KKWIRGGTVVTAADTYQADVLIEGERVVAIGHQLAAAGAEEIDATGCYVIPGGIDPHTHLDMPFGGTVTADDFFTGTRAAAFGGTTSIVDFCLTKKGESLKSAIATWHEKARGKAVIDYGFHLMIAEANDQVLEELESVISSEGITSLKVFMAYKNVFQADDETLFKTLVKAKELGALVQVHAENGDVLDYLTKKALAEGNTDPIYHAYTRPPEAEGEATGRAIALTALAGSQLYVVHVSCASAVQRIAEAREKGWNVYGETCPQYLALDVSIMDQPDFEGAKYVWSPPLREKWNQEVLWSALKNGILQTVGSDHCPFNFRGQKELGRGDFTKIPNGGPLIEDRLTILYSEGVRQGRISLNQFVDISSTKAAKLFGMFPRKGTIAVGSDADIVIFDPHVKRTLSVETHHMNVDYNPFEGMEVYGEVVSVLSRGSFVVRDKQFVGQAGSGQYIKRTTFEQA 4kqw-a1-m1-cB_4kqw-a1-m1-cA The structure of the Slackia exigua KARI in complex with NADP D0WGK0 D0WGK0 1.39 X-RAY DIFFRACTION 453 1.0 649764 (Slackia exigua ATCC 700122) 649764 (Slackia exigua ATCC 700122) 324 326 4kqx-a1-m1-cA_4kqx-a1-m1-cB TILYEQDVDPKVIQGLKVGIIGYGSQGHAHALNLMDSGVDVRVGLREGSSSWKTAEEAGLKVTDMDTAAEEADVIMVLVPDEIQPKVYQEHIAAHLKAGNTLAFAHGFNIHYGYIVPPEDVNVIMCAPKGPGHIVRRQFTEGSGVPDLACVQQDATGNAWDIVLSYCWGVGGARSGIIKATFAEETEEDLFGEQAVLCGGLVELVKAGFETLTEAGYPPELAYFECYHEMKMIVDLMYESGIHFMNYSISNTAEYGEYYAGPKVINEQSREAMKEILKRIQDGSFAQEFVDDCNNGHKRLLEQREAINTHPIETTGAIRSMFSW TILYEQDVDPKVIQGLKVGIIGYGSQGHAHALNLMDSGVDVRVGLREGSSSWKTAEEAGLKVTDMDTAAEEADVIMVLVPDEIQPKVYQEHIAAHLKAGNTLAFAHGFNIHYGYIVPPEDVNVIMCAPKGPGHIVRRQFTEGSGVPDLACVQQDATGNAWDIVLSYCWGVGGARSGIIKATFAEETEEDLFGEQAVLCGGLVELVKAGFETLTEAGYPPELAYFECYHEMKMIVDLMYESGIHFMNYSISNTAEYGEYYAGPKVINEQSREAMKEILKRIQDGSFAQEFVDDCNNGHKRLLEQREAINTHPIETTGAQIRSMFSWI 4kr3-a1-m1-cA_4kr3-a1-m2-cA Glycyl-tRNA synthetase mutant E71G in complex with tRNA-Gly P41250 P41250 3.235 X-RAY DIFFRACTION 190 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 466 466 4kr2-a1-m1-cA_4kr2-a1-m2-cA VDRAKMGDTLKRRFFYDQAFAIYGGVSGLYDFGPVGCALKNNIIQTWRQHFIQEEQILEIDCTMLTPEPVLKTSGHVDKFSFNLMFKTFIGPGGNMPGYLRPETAQGIFLNFKRLLEFNQGKLPFAAAQIGNSFRNEISPRSGLIRVREFTMAEIEHFVDPSEKDHPKFQNVADLHLYLYSAKAQVSGQSARKMRLGDAVEQGVINNTVLGYFIGRIYLYLTKVGISPDKLRFRQHMENACDCWDAESKTSYGWIEIVGCADRSCYDLSCHARATKVPLVAEKPLKEPKTVNVVFQKTLYVEEVVPNVIEPSFGLGRIMYTVFEHTFHVREGDEQRTFFSFPAVVAPFKCSVLPLSQNQEFMPFVKELSEALTRHGVSHKVDDSSGSIGRRYARTDEIGVAFGVTIDFDTVNKTPHTATLRDRDSMRQIRAEISELPSIVQDLANGNITWADVEARYPLFEGQETG VDRAKMGDTLKRRFFYDQAFAIYGGVSGLYDFGPVGCALKNNIIQTWRQHFIQEEQILEIDCTMLTPEPVLKTSGHVDKFSFNLMFKTFIGPGGNMPGYLRPETAQGIFLNFKRLLEFNQGKLPFAAAQIGNSFRNEISPRSGLIRVREFTMAEIEHFVDPSEKDHPKFQNVADLHLYLYSAKAQVSGQSARKMRLGDAVEQGVINNTVLGYFIGRIYLYLTKVGISPDKLRFRQHMENACDCWDAESKTSYGWIEIVGCADRSCYDLSCHARATKVPLVAEKPLKEPKTVNVVFQKTLYVEEVVPNVIEPSFGLGRIMYTVFEHTFHVREGDEQRTFFSFPAVVAPFKCSVLPLSQNQEFMPFVKELSEALTRHGVSHKVDDSSGSIGRRYARTDEIGVAFGVTIDFDTVNKTPHTATLRDRDSMRQIRAEISELPSIVQDLANGNITWADVEARYPLFEGQETG 4kr5-a1-m1-cA_4kr5-a1-m1-cB Crystal structure of Lactococcus lactis GlnP substrate binding domain 2 (SBD2) in open conformation Q9CES5 Q9CES5 1.5 X-RAY DIFFRACTION 83 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 229 232 GMATPKKDVYTIASDNSFAPFEFQNDDKQFTGIDVDLLNAIAKNQGFKLKWNFIGFQAAVDSVQSGHADGMMSGMSITDARKQVFDYGSPYYSSNLTIATSSTDDSIKSWKDLKGKTLGAKNGTASFDYLNAHAKEYGYTVKTFTDATTMYSSLNNGSINALMDDEPVIKYAIKQGQKFATPIKPIPDGQYGFAVKKGSNPELIEMFNNGLANLRANGEYDKIIDKYLE GMATPKKDVYTIASDNSFAPFEFQNDDKQFTGIDVDLLNAIAKNQGFKLKWNFIGFQAAVDSVQSGHADGMMSGMSITDARKQVFDYGSPYYSSNLTIATSSTDDSIKSWKDLKGKTLGAKNGTASFDYLNAHAKEYGYTVKTFTDATTMYSSLNNGSINALMDDEPVIKYAIKQGQKFATPIKPIPDGQYGFAVKKGSNPELIEMFNNGLANLRANGEYDKIIDKYLESDA 4kr7-a1-m1-cA_4kr7-a1-m1-cB Crystal structure of a 4-thiouridine synthetase - RNA complex with bound ATP Q9X220 Q9X220 3.421 X-RAY DIFFRACTION 131 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 386 386 4kr6-a1-m1-cA_4kr6-a1-m1-cB 4kr9-a1-m1-cA_4kr9-a1-m1-cB ELRVYIVRYSEIGLKGKNRKDFEEALRRNIERVTGMKVKRQWGRFLIPIDENVTLDDKLKKIFGIQNFSKGFLVSHDFEEVKKYSLIAVKEKLEKGNYRTFKVQAKKAYKEYKKGVYEINSELGALILKNFKELSVDVRNPDFVLGVEVRPEGVLIFTDRVECYGGLPVGTGGKAVLLLSGGIDSPVAGWYALKRGVLIESVTFVSPPFTSEGAVEKVRDILRVLREFSGGHPLRLHIVNLTKLQLEVKKRVPDKYSLIMYRRSMFRIAEKIAEETGAVAFYTGENIGQVASQTLENLWSIESVTTRPVIRPLSGFDKTEIVEKAKEIGTYEISIKPYQDSCVFFAPKNPATRSHPSILEKLEQQVPDLPVLEEEAFTSRKVEVIE ELRVYIVRYSEIGLKGKNRKDFEEALRRNIERVTGMKVKRQWGRFLIPIDENVTLDDKLKKIFGIQNFSKGFLVSHDFEEVKKYSLIAVKEKLEKGNYRTFKVQAKKAYKEYKKGVYEINSELGALILKNFKELSVDVRNPDFVLGVEVRPEGVLIFTDRVECYGGLPVGTGGKAVLLLSGGIDSPVAGWYALKRGVLIESVTFVSPPFTSEGAVEKVRDILRVLREFSGGHPLRLHIVNLTKLQLEVKKRVPDKYSLIMYRRSMFRIAEKIAEETGAVAFYTGENIGQVASQTLENLWSIESVTTRPVIRPLSGFDKTEIVEKAKEIGTYEISIKPYQDSCVFFAPKNPATRSHPSILEKLEQQVPDLPVLEEEAFTSRKVEVIE 4krw-a1-m1-cA_4krw-a1-m2-cA Novel re-arrangement of an RsmA/cSRa family protein to create a structurally distinct new RNA-binding family member A0A0H2ZIZ8 A0A0H2ZIZ8 2.01 X-RAY DIFFRACTION 112 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 67 67 4k59-a1-m1-cA_4k59-a1-m2-cA 4kji-a1-m1-cA_4kji-a1-m1-cB SMGFLILSRREGEGITLSLKADYPAEELIRQLREGGIRILVTDIIGNQARVGIEAPRGVLIVRDELK SMGFLILSRREGEGITLSLKADYPAEELIRQLREGGIRILVTDIIGNQARVGIEAPRGVLIVRDELK 4kry-a3-m1-cF_4kry-a3-m1-cE Structure of Aes from E. coli in covalent complex with PMS P23872 P23872 2.3 X-RAY DIFFRACTION 88 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 317 328 4krx-a1-m1-cA_4krx-a1-m1-cB 4krx-a2-m1-cC_4krx-a2-m2-cC 4kry-a1-m1-cA_4kry-a1-m1-cB 4kry-a2-m1-cC_4kry-a2-m1-cD KPENKLPVLDLISAEMKTVVNTLQPDLPPWPATGTIAEQRQYYTLERRFWNAGAPEMATRAYMVPTKYGQVETRLFCPQPDSPATLFYLHGGGFILGNLDTHDRIMRLLASYSQCTVIGIDYTLSPEARFPQAIEEIVAACCYFHQQAEDYQINMSRIGFAGDAGAMLALASALWLRDKQIDCGKVAGVLLWYGLYGLRDSVTRRLLGGVWDGLTQQDLQMYEEAYLSNDADRESPYYCLFNNDLTREVPPCFIAGAEFDPLLDDSRLLYQTLAAHQQPCEFKLYPGTLHAFLHYSRMMKTADEALRDGAQFFTAQL HHHHHHTDPIMKPENKLPVLDLISAEMKTVVNTLQPDLPPWPATGTIAEQRQYYTLERRFWNAGAPEMATRAYMVPTKYGQVETRLFCPQPDSPATLFYLHGGGFILGNLDTHDRIMRLLASYSQCTVIGIDYTLSPEARFPQAIEEIVAACCYFHQQAEDYQINMSRIGFAGDAGAMLALASALWLRDKQIDCGKVAGVLLWYGLYGLRDSVTRRLLGGVWDGLTQQDLQMYEEAYLSNDADRESPYYCLFNNDLTREVPPCFIAGAEFDPLLDDSRLLYQTLAAHQQPCEFKLYPGTLHAFLHYSRMMKTADEALRDGAQFFTAQL 4ks9-a1-m1-cA_4ks9-a1-m1-cB Crystal Structure of Malonyl-CoA decarboxylase (Rmet_2797) from Cupriavidus metallidurans, Northeast Structural Genomics Consortium Target CrR76 Q1LJK6 Q1LJK6 2.3 X-RAY DIFFRACTION 97 0.995 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 392 395 TRATKRQRDQLRQCFDARLTDVAANAAAQAWQDEYEAAVEPLRQAMLGVLAEVAAVRDATASGLSQALSNARIRFFKRFAALHGNSACGLHFLIQLRADMLRWHKRIPGLRELDEDLEALFSNWFDVGLLELQPITWDSPASLLEKLIRYWTDLRNRLDSDRRCYAFFHPRIPREPLIFVEVAFVPEMAANVQALLDLRRVKWAIFYSISNTQAGLRGVSFGNFLLKRVIEELQREHPKLKQFATLSPIPGFADWLRKRDGESIDRVLGVKRLARWREQHGEVPADGAAWFSALSADTEDTVIRDTAMTLAAHYLVREGGKGVPADPVARFHLGNGACVERVNWGADMSRKGRAQSCGMMVNYLYVPDALDDNLARLGDGNPRISRAVAKLL TRATKRQRDQLRQCFDARLTDVAANAAAQAWQDEYEAAVEPLRQAMLGVLAEVAAVRDAATASGLSQALSNARIRFFKRFAALHNSACGLHFLIQLRADMLRWHKRIPGLRELDEDLEALFSNWFDVGLLELQPITWDSPASLLEKLIRYEISSWTDLRNRLDSDRRCYAFFHPRIPREPLIFVEVAFVPEMAANVQALLLRRVKWAIFYSISNTQAGLRGVSFGNFLLKRVIEELQREHPKLKQFATLSPIPGFADWLRKRDGESIDRVLGVKRLARWREQHGEVPADGAAWFSALSADTEDTVIRDTAMTLAAHYLVREGGKGVPADPVARFHLGNGACVERVNWGADMSRKGRAQSCGMMVNYLYVPDALDDNLARLGDGNPRISRAVAKLL 4ksa-a1-m1-cD_4ksa-a1-m1-cA Crystal Structure of Malonyl-CoA decarboxylase from Rhodopseudomonas palustris, Northeast Structural Genomics Consortium Target RpR127 Q6NCB2 Q6NCB2 2.7 X-RAY DIFFRACTION 33 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 409 433 4ksa-a1-m1-cB_4ksa-a1-m1-cC PSGDELIALSETLLSRRGEASGVALAASLLAGYEAADEDDKLAFLDALAEQFGPDLAELNTAIEAFRADASAEATGELLRAAEPRRQELIRRLNHAPGGTAALVKREAVLARIAAHPQLRHVDDDFVHLFTSWFNRGFLVLQRIDWTTPANILEKIIRYEQVHTIHDWDDLRARLAPPDRRCYGFFHPRLVDEPLIFVEVALTKDSPAAIAPLLDLEREPIAASDATTAVFYSISNTQQGLAGISFGNFLIKQVVEEIKRELPNVQTFVTLSPVPGFAKWLKRERDNPDSTLLDASARTALEALDTPNWFDDADTADRLKPIVLQLAAAYFLQAKGPNGRPLDPVARFHLGNGARLDRLNFLGDRSPNGRQSHGLVNYLYALGDIEANHEALFERGQIAAASAVRKLVP TTADRASEFLGGLFNSLTERGRSQPSGDELIALSETLLSRRGEASGVALAASLLAGYEAADEDDKLAFLDALAEQFGPDLAELNTAIEAFRADASAEATGELLRAAEPRRQELIRRLNHAPGGTAALVKREAVLARIAAHPQLRHVDDDFVHLFTSWFNRGFLVLQRIDWTTPANILEKIIRYEQVHTIHDWDDLRARLAPPDRRCYGFFHPRLVDEPLIFVEVALTKDSPAAIAPLLDLEREPIAASDATTAVFYSISNTQQGLAGISFGNFLIKQVVEEIKRELPNVQTFVTLSPVPGFAKWLKRERDNPDSTLLDASARTALEALDTPNWFDDADTADRLKPIVLQLAAAYFLQAKGPNGRPLDPVARFHLGNGARLDRLNFLGDRSPNGRQSHGLVNYLYALGDIEANHEALFERGQIAAASAVRKLVP 4ksa-a1-m1-cD_4ksa-a1-m1-cC Crystal Structure of Malonyl-CoA decarboxylase from Rhodopseudomonas palustris, Northeast Structural Genomics Consortium Target RpR127 Q6NCB2 Q6NCB2 2.7 X-RAY DIFFRACTION 115 0.998 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 409 432 4ksa-a1-m1-cB_4ksa-a1-m1-cA PSGDELIALSETLLSRRGEASGVALAASLLAGYEAADEDDKLAFLDALAEQFGPDLAELNTAIEAFRADASAEATGELLRAAEPRRQELIRRLNHAPGGTAALVKREAVLARIAAHPQLRHVDDDFVHLFTSWFNRGFLVLQRIDWTTPANILEKIIRYEQVHTIHDWDDLRARLAPPDRRCYGFFHPRLVDEPLIFVEVALTKDSPAAIAPLLDLEREPIAASDATTAVFYSISNTQQGLAGISFGNFLIKQVVEEIKRELPNVQTFVTLSPVPGFAKWLKRERDNPDSTLLDASARTALEALDTPNWFDDADTADRLKPIVLQLAAAYFLQAKGPNGRPLDPVARFHLGNGARLDRLNFLGDRSPNGRQSHGLVNYLYALGDIEANHEALFERGQIAAASAVRKLVP ADRASEFLGGLFNSLTERGRSLSQPSGDELIALSETLLSRRGEASGVALAASLLAGYEAADEDDKLAFLDALAEQFGPDLAELNTAIEAFRADASAEATGELLRAAEPRRQELIRRLNHAPGGTAALVKREAVLARIAAHPQLRHVDDDFVHLFTSWFNRGFLVLQRIDWTTPANILEKIIRYEQVHTIHDWDDLRARLAPPDRRCYGFFHPRLVDEPLIFVEVALTKDSPAAIAPLLDLEREPIAASDATTAVFYSISNTQQGLAGISFGNFLIKQVVEEIKRELPNVQTFVTLSPVPGFAKWLKRERDNPDSTLLDASARTALEALDTPNWFDDADTADRLKPIVLQLAAAYFLQAKGPNGRPLDPVARFHLGNGARLDRLNFLGDRSPNGRQSHGLVNYLYALGDIEANHEALFERGQIAAASAVRKLV 4ksf-a1-m2-cA_4ksf-a1-m4-cA Crystal Structure of Malonyl-CoA decarboxylase from Agrobacterium vitis, Northeast Structural Genomics Consortium Target RiR35 B9K0V9 B9K0V9 3.1 X-RAY DIFFRACTION 27 1.0 311402 (Allorhizobium ampelinum S4) 311402 (Allorhizobium ampelinum S4) 400 400 4ksf-a1-m1-cA_4ksf-a1-m3-cA TDIETLCELLSSRGEASGAIAAEILDRWSRFNAAEAVQFLHLSDRFGAEAAALDKAIDAYRTDKSPAVIALHNAAEPRRQELLRRLNLAPNGTQKLVRRERLLETRADLGAVDTDFAHLFSSWFNRGFLTLQPIDWTTPAHILEKIIKYEAVHEIAGWEELRRRLAPADRRCFAFFHPRLRDDPLVFVEVALTRSIPSAIADVLDESRDHIGADTATTAVFYSISNCQDGLRGISFGNFLIKQVVEDLRRDLPGLKEFVTLSPVPGFARWISKIRDPKSGFPLSPEDRNTLVLLDDPTWPEDKARADAVERILLPLAARYFITERTPDNRPVDPVARFHLGNGARLERLNFLGDRSVKARQAHGLVNYLYKLEDIETNHEALAQRGEVAASPAVKALQGK TDIETLCELLSSRGEASGAIAAEILDRWSRFNAAEAVQFLHLSDRFGAEAAALDKAIDAYRTDKSPAVIALHNAAEPRRQELLRRLNLAPNGTQKLVRRERLLETRADLGAVDTDFAHLFSSWFNRGFLTLQPIDWTTPAHILEKIIKYEAVHEIAGWEELRRRLAPADRRCFAFFHPRLRDDPLVFVEVALTRSIPSAIADVLDESRDHIGADTATTAVFYSISNCQDGLRGISFGNFLIKQVVEDLRRDLPGLKEFVTLSPVPGFARWISKIRDPKSGFPLSPEDRNTLVLLDDPTWPEDKARADAVERILLPLAARYFITERTPDNRPVDPVARFHLGNGARLERLNFLGDRSVKARQAHGLVNYLYKLEDIETNHEALAQRGEVAASPAVKALQGK 4ksf-a1-m3-cA_4ksf-a1-m4-cA Crystal Structure of Malonyl-CoA decarboxylase from Agrobacterium vitis, Northeast Structural Genomics Consortium Target RiR35 B9K0V9 B9K0V9 3.1 X-RAY DIFFRACTION 117 1.0 311402 (Allorhizobium ampelinum S4) 311402 (Allorhizobium ampelinum S4) 400 400 4ksf-a1-m1-cA_4ksf-a1-m2-cA TDIETLCELLSSRGEASGAIAAEILDRWSRFNAAEAVQFLHLSDRFGAEAAALDKAIDAYRTDKSPAVIALHNAAEPRRQELLRRLNLAPNGTQKLVRRERLLETRADLGAVDTDFAHLFSSWFNRGFLTLQPIDWTTPAHILEKIIKYEAVHEIAGWEELRRRLAPADRRCFAFFHPRLRDDPLVFVEVALTRSIPSAIADVLDESRDHIGADTATTAVFYSISNCQDGLRGISFGNFLIKQVVEDLRRDLPGLKEFVTLSPVPGFARWISKIRDPKSGFPLSPEDRNTLVLLDDPTWPEDKARADAVERILLPLAARYFITERTPDNRPVDPVARFHLGNGARLERLNFLGDRSVKARQAHGLVNYLYKLEDIETNHEALAQRGEVAASPAVKALQGK TDIETLCELLSSRGEASGAIAAEILDRWSRFNAAEAVQFLHLSDRFGAEAAALDKAIDAYRTDKSPAVIALHNAAEPRRQELLRRLNLAPNGTQKLVRRERLLETRADLGAVDTDFAHLFSSWFNRGFLTLQPIDWTTPAHILEKIIKYEAVHEIAGWEELRRRLAPADRRCFAFFHPRLRDDPLVFVEVALTRSIPSAIADVLDESRDHIGADTATTAVFYSISNCQDGLRGISFGNFLIKQVVEDLRRDLPGLKEFVTLSPVPGFARWISKIRDPKSGFPLSPEDRNTLVLLDDPTWPEDKARADAVERILLPLAARYFITERTPDNRPVDPVARFHLGNGARLERLNFLGDRSVKARQAHGLVNYLYKLEDIETNHEALAQRGEVAASPAVKALQGK 4ksn-a1-m1-cA_4ksn-a1-m2-cA C-terminal domain of SdbC protein from Legionella pneumophila. Q5ZSX5 Q5ZSX5 1.86 X-RAY DIFFRACTION 18 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 64 64 DTHLADLYLLKYDTGLGVYESFICKYLEDSNDYIASHPQKLSLDEPRPLESETVSLRQLIVSVL DTHLADLYLLKYDTGLGVYESFICKYLEDSNDYIASHPQKLSLDEPRPLESETVSLRQLIVSVL 4ksn-a1-m1-cB_4ksn-a1-m2-cD C-terminal domain of SdbC protein from Legionella pneumophila. Q5ZSX5 Q5ZSX5 1.86 X-RAY DIFFRACTION 12 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 52 61 GQLDTHLADLYLLKYDTGLGVYESFICKYLEPRPLESETVSLRQLIVSVLPS GQLDTHLADLYLLKYDTGLGVYESFICKYLEDSNDYIEPRPLESETVSLRQLIVSVLPSRP 4ksn-a1-m2-cB_4ksn-a1-m1-cD C-terminal domain of SdbC protein from Legionella pneumophila. Q5ZSX5 Q5ZSX5 1.86 X-RAY DIFFRACTION 12 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 52 61 GQLDTHLADLYLLKYDTGLGVYESFICKYLEPRPLESETVSLRQLIVSVLPS GQLDTHLADLYLLKYDTGLGVYESFICKYLEDSNDYIEPRPLESETVSLRQLIVSVLPSRP 4ksn-a2-m1-cB_4ksn-a2-m1-cC C-terminal domain of SdbC protein from Legionella pneumophila. Q5ZSX5 Q5ZSX5 1.86 X-RAY DIFFRACTION 15 0.981 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 52 63 4ksn-a1-m1-cB_4ksn-a1-m1-cC 4ksn-a1-m2-cB_4ksn-a1-m2-cC GQLDTHLADLYLLKYDTGLGVYESFICKYLEPRPLESETVSLRQLIVSVLPS GQLDTHLADLYLLKYDTGLGVYESFICKYLEDSNDYIASHPQKPRPLESETVSLRQLIVSVLP 4ksn-a2-m1-cB_4ksn-a2-m1-cD C-terminal domain of SdbC protein from Legionella pneumophila. Q5ZSX5 Q5ZSX5 1.86 X-RAY DIFFRACTION 54 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 52 61 4ksn-a1-m1-cB_4ksn-a1-m1-cD 4ksn-a1-m2-cB_4ksn-a1-m2-cD GQLDTHLADLYLLKYDTGLGVYESFICKYLEPRPLESETVSLRQLIVSVLPS GQLDTHLADLYLLKYDTGLGVYESFICKYLEDSNDYIEPRPLESETVSLRQLIVSVLPSRP 4kso-a1-m1-cA_4kso-a1-m1-cC Crystal Structure of Circadian clock protein KaiB from S.Elongatus Q79PF5 Q79PF5 2.622 X-RAY DIFFRACTION 26 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 95 102 ILKLYVAGNTPNSVRALKTLKNILEVEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPLPVRRIIGDLSDREKVLIGLDLLYGELQDSDDF MSPRKTYILKLYVAGNTPNSVRALKTLKNILEVEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPLPVRRIIGDLSDREKVLIGLDLLYGELQDSDDF 4kso-a1-m1-cA_4kso-a1-m1-cD Crystal Structure of Circadian clock protein KaiB from S.Elongatus Q79PF5 Q79PF5 2.622 X-RAY DIFFRACTION 25 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 95 102 4kso-a1-m1-cB_4kso-a1-m1-cC ILKLYVAGNTPNSVRALKTLKNILEVEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPLPVRRIIGDLSDREKVLIGLDLLYGELQDSDDF MSPRKTYILKLYVAGNTPNSVRALKTLKNILEVEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPLPVRRIIGDLSDREKVLIGLDLLYGELQDSDDF 4kso-a1-m1-cC_4kso-a1-m1-cD Crystal Structure of Circadian clock protein KaiB from S.Elongatus Q79PF5 Q79PF5 2.622 X-RAY DIFFRACTION 64 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 102 102 4kso-a1-m1-cA_4kso-a1-m1-cB MSPRKTYILKLYVAGNTPNSVRALKTLKNILEVEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPLPVRRIIGDLSDREKVLIGLDLLYGELQDSDDF MSPRKTYILKLYVAGNTPNSVRALKTLKNILEVEFQGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPLPVRRIIGDLSDREKVLIGLDLLYGELQDSDDF 4kt7-a2-m1-cA_4kt7-a2-m2-cA The crystal structure of 4-diphosphocytidyl-2C-methyl-D-erythritolsynthase from Anaerococcus prevotii DSM 20548 C7RFG6 C7RFG6 2.001 X-RAY DIFFRACTION 20 1.0 525919 (Anaerococcus prevotii DSM 20548) 525919 (Anaerococcus prevotii DSM 20548) 223 223 SNAIDGKFISAIITAAGSGLRPYIEVGGRKVLEITLDTVSRVKEIDEIILVIRKDDEDIIKDILEKYDGNIRYVYGSTTRELSTFEGLKALDPQSELVLTHDGVRPFASEELFLKTINALRKNKAVITATKSKDTVKIIDDDYVDFTPNRDYVYNIQTPQAFDKKLIYAYEKYLASEFKVTDDSQLFEFFDRDEKVKVVHGEYSNIKITTQEDIIFANAYLQR SNAIDGKFISAIITAAGSGLRPYIEVGGRKVLEITLDTVSRVKEIDEIILVIRKDDEDIIKDILEKYDGNIRYVYGSTTRELSTFEGLKALDPQSELVLTHDGVRPFASEELFLKTINALRKNKAVITATKSKDTVKIIDDDYVDFTPNRDYVYNIQTPQAFDKKLIYAYEKYLASEFKVTDDSQLFEFFDRDEKVKVVHGEYSNIKITTQEDIIFANAYLQR 4kt7-a2-m2-cB_4kt7-a2-m2-cA The crystal structure of 4-diphosphocytidyl-2C-methyl-D-erythritolsynthase from Anaerococcus prevotii DSM 20548 C7RFG6 C7RFG6 2.001 X-RAY DIFFRACTION 109 1.0 525919 (Anaerococcus prevotii DSM 20548) 525919 (Anaerococcus prevotii DSM 20548) 217 223 4kt7-a1-m1-cB_4kt7-a1-m1-cA 4kt7-a2-m1-cB_4kt7-a2-m1-cA DGKFISAIITAAGSGLRIEVGGRKVLEITLDTVSRVKEIDEIILVIRKDDEDIIKDILEKYDGNIRYVYGSTTRELSTFEGLKALDPQSELVLTHDGVRPFASEELFLKTINALRKNKAVITATKSKDTVKIIDDDYVDFTPNRDYVYNIQTPQAFDKKLIYAYEKYLASEFKVTDDSQLFEFFDRDEKVKVVHGEYSNIKITTQEDIIFANAYLQR SNAIDGKFISAIITAAGSGLRPYIEVGGRKVLEITLDTVSRVKEIDEIILVIRKDDEDIIKDILEKYDGNIRYVYGSTTRELSTFEGLKALDPQSELVLTHDGVRPFASEELFLKTINALRKNKAVITATKSKDTVKIIDDDYVDFTPNRDYVYNIQTPQAFDKKLIYAYEKYLASEFKVTDDSQLFEFFDRDEKVKVVHGEYSNIKITTQEDIIFANAYLQR 4kt8-a1-m1-cA_4kt8-a1-m2-cA The complex structure of Rv3378c-Y51FY90F with substrate, TPP P9WJ61 P9WJ61 2.4 X-RAY DIFFRACTION 242 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 289 289 3wqk-a1-m1-cA_3wqk-a1-m2-cA 3wql-a1-m1-cA_3wql-a1-m1-cB 3wql-a2-m1-cD_3wql-a2-m1-cC 3wqm-a1-m1-cA_3wqm-a1-m2-cA 3wqn-a1-m1-cA_3wqn-a1-m2-cA 4cmv-a1-m1-cA_4cmv-a1-m1-cB 4cmw-a1-m1-cB_4cmw-a1-m1-cA 4cmx-a1-m1-cB_4cmx-a1-m1-cA MNLVSEKEFLDLPLVSVAEIVRCRGPKVSVFPFDGTRRWFHLEFQQAALRQSIRILKMLFEHGIETVISPIFSDDLLDRGDRFIVQALEGMALLANDEEILSFYKEHEVHVLFYGDYKKRLPSTAQGAAVVKSFDDLTISTSSNTEHRLCFGVFGNDAAESVAQFSISWNETHGKPPTRREIIEGYYGEYVDKADMFIGFGRFSTFDFPLLSSGKTSLYFTVAPSYYMTETTLRRILYDHIYLRHFRPKPDYSAMSADQLNVLRNRYRAQPDRVFGVGCVHDGIWFAEG MNLVSEKEFLDLPLVSVAEIVRCRGPKVSVFPFDGTRRWFHLEFQQAALRQSIRILKMLFEHGIETVISPIFSDDLLDRGDRFIVQALEGMALLANDEEILSFYKEHEVHVLFYGDYKKRLPSTAQGAAVVKSFDDLTISTSSNTEHRLCFGVFGNDAAESVAQFSISWNETHGKPPTRREIIEGYYGEYVDKADMFIGFGRFSTFDFPLLSSGKTSLYFTVAPSYYMTETTLRRILYDHIYLRHFRPKPDYSAMSADQLNVLRNRYRAQPDRVFGVGCVHDGIWFAEG 4ktb-a1-m1-cB_4ktb-a1-m1-cD The crystal structure of posible asymmetric diadenosine tetraphosphate (Ap(4)A) hydrolases from Jonesia denitrificans DSM 20603 C7R2I1 C7R2I1 1.936 X-RAY DIFFRACTION 29 1.0 471856 (Jonesia denitrificans DSM 20603) 471856 (Jonesia denitrificans DSM 20603) 153 154 4ktb-a1-m1-cA_4ktb-a1-m1-cC SLLPLVYVDAVPVRVDESGDVIQVGLLLRATESGHRALVSGRVYHERVRDALVRHIEKDLGPVALPSIPASPQPFTVAEYFPTPGVTPFYDDRHHAVSLAYIVPVRGDCSPQQNNLELTWLTPEEACSPRILAHQGGQDLLKQALAHAGRLPD SLLPLVYVDAVPVRVDESGDVIQVGLLLRATESGHRALVSGRVYHERVRDALVRHIEKDLGPVALPSIPASPQPFTVAEYFPTPGVTPFYDDRHHAVSLAYIVPVRGDCSPQQNNLELTWLTPEEACSPRILAHQGGQDLLKQALAHAGRLPDL 4ktb-a1-m1-cD_4ktb-a1-m1-cA The crystal structure of posible asymmetric diadenosine tetraphosphate (Ap(4)A) hydrolases from Jonesia denitrificans DSM 20603 C7R2I1 C7R2I1 1.936 X-RAY DIFFRACTION 73 1.0 471856 (Jonesia denitrificans DSM 20603) 471856 (Jonesia denitrificans DSM 20603) 154 155 4ktb-a1-m1-cB_4ktb-a1-m1-cC SLLPLVYVDAVPVRVDESGDVIQVGLLLRATESGHRALVSGRVYHERVRDALVRHIEKDLGPVALPSIPASPQPFTVAEYFPTPGVTPFYDDRHHAVSLAYIVPVRGDCSPQQNNLELTWLTPEEACSPRILAHQGGQDLLKQALAHAGRLPDL RSLLPLVYVDAVPVRVDESGDVIQVGLLLRATESGHRALVSGRVYHERVRDALVRHIEKDLGPVALPSIPASPQPFTVAEYFPTPGVTPFYDDRHHAVSLAYIVPVRGDCSPQQNNLELTWLTPEEACSPRILAHQGGQDLLKQALAHAGRLPDL 4ktb-a1-m1-cD_4ktb-a1-m1-cC The crystal structure of posible asymmetric diadenosine tetraphosphate (Ap(4)A) hydrolases from Jonesia denitrificans DSM 20603 C7R2I1 C7R2I1 1.936 X-RAY DIFFRACTION 73 1.0 471856 (Jonesia denitrificans DSM 20603) 471856 (Jonesia denitrificans DSM 20603) 154 155 4ktb-a1-m1-cB_4ktb-a1-m1-cA SLLPLVYVDAVPVRVDESGDVIQVGLLLRATESGHRALVSGRVYHERVRDALVRHIEKDLGPVALPSIPASPQPFTVAEYFPTPGVTPFYDDRHHAVSLAYIVPVRGDCSPQQNNLELTWLTPEEACSPRILAHQGGQDLLKQALAHAGRLPDL RSLLPLVYVDAVPVRVDESGDVIQVGLLLRATESGHRALVSGRVYHERVRDALVRHIEKDLGPVALPSIPASPQPFTVAEYFPTPGVTPFYDDRHHAVSLAYIVPVRGDCSPQQNNLELTWLTPEEACSPRILAHQGGQDLLKQALAHAGRLPDL 4kto-a1-m1-cB_4kto-a1-m1-cA Crystal Structure Of a Putative Isovaleryl-CoA dehydrogenase (PSI-NYSGRC-012251) from Sinorhizobium meliloti 1021 Q92VK1 Q92VK1 2.137 X-RAY DIFFRACTION 141 0.992 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 359 362 FEAGLNFALGEEIDALRASVRRFASERIAPLADDADRSNAFPSLWREGELGLLGITADEAHGGAGLGYLAHCVAEEISRASASVGLSYGAHSNLCVNQINRNGKPAQKSRYLPKLISGEHVGALASEPGVSKLKADKRGDRYVLNGSKWITNGPDADVLVVYAKTDPARGITAFLVEKAFPGFSAGQKLDKLGRGSNTSELIFTDCEVPEENVLGGVGEGVKVLSGLDYERVVLSAGPLGIAACLDVVVPYLHERKQGEFQLQGKLADYVTNAARAYVYAVAAACDRGETARKDAAGCILYAAEKATAALEAIQALGGNGYTNDYPAGRLLRDAKLYEIGAGTSEIRRLIGRELFAETK FEAGLNFALGEEIDALRASVRRFASERIAPLADDADRSNAFPSLWREGELGLLGITADEAHGGAGLGYLAHCVAEEISRASASVGLSYGAHSNLCVNQINRNGKPAQKSRYLPKLISGEHVGALASEPGVSKLKADKRGDRYVLNGSKWITNGPDADVLVVYAKTDPPRGITAFLVEKAFPGFSAGQKLDKLGRGSNTSELIFTDCEVPEENVLGGVGEGVKVLSGLDYERVVLSAGPLGIAACLDVVVPYLHERKQFGQPIGEFQLQGKLADYVTNAARAYVYAVAAACDRGETARKDAAGCILYAAEKATAALEAIQALGGNGYTNDYPAGRLLRDAKLYEIGAGTSEIRRLIGRELFAE 4kto-a1-m1-cB_4kto-a1-m1-cC Crystal Structure Of a Putative Isovaleryl-CoA dehydrogenase (PSI-NYSGRC-012251) from Sinorhizobium meliloti 1021 Q92VK1 Q92VK1 2.137 X-RAY DIFFRACTION 10 0.986 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 359 359 FEAGLNFALGEEIDALRASVRRFASERIAPLADDADRSNAFPSLWREGELGLLGITADEAHGGAGLGYLAHCVAEEISRASASVGLSYGAHSNLCVNQINRNGKPAQKSRYLPKLISGEHVGALASEPGVSKLKADKRGDRYVLNGSKWITNGPDADVLVVYAKTDPARGITAFLVEKAFPGFSAGQKLDKLGRGSNTSELIFTDCEVPEENVLGGVGEGVKVLSGLDYERVVLSAGPLGIAACLDVVVPYLHERKQGEFQLQGKLADYVTNAARAYVYAVAAACDRGETARKDAAGCILYAAEKATAALEAIQALGGNGYTNDYPAGRLLRDAKLYEIGAGTSEIRRLIGRELFAETK FEAGLNFALGEEIDALRASVRRFASERIAPLADDADRSNAFPSLWREGELGLLGITADEAHGGAGLGYLAHCVAEEISRASASVGLSYGAHSNLCVNQINRNGKPAQKSRYLPKLISGEHVGALASEPGAGSDVVSKLKADKRGDRYVLNGSKWITNGPDADVLVVYAKTDPGITAFLVEKAFPGFSAGQKLDKLGRGSNTSELIFTDCEVPEENVLGGVGEGVKVLSGLDYERVVLSAGPLGIAACLDVVVPYLHEREFQLQGKLADYVTNAARAYVYAVAAACDRGETARKDAAGCILYAAEKATAALEAIQALGGNGYTNDYPAGRLLRDAKLYEIGAGTSEIRRLIGRELFAETK 4kto-a1-m1-cB_4kto-a1-m1-cD Crystal Structure Of a Putative Isovaleryl-CoA dehydrogenase (PSI-NYSGRC-012251) from Sinorhizobium meliloti 1021 Q92VK1 Q92VK1 2.137 X-RAY DIFFRACTION 86 0.986 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 359 359 4kto-a1-m1-cC_4kto-a1-m1-cA FEAGLNFALGEEIDALRASVRRFASERIAPLADDADRSNAFPSLWREGELGLLGITADEAHGGAGLGYLAHCVAEEISRASASVGLSYGAHSNLCVNQINRNGKPAQKSRYLPKLISGEHVGALASEPGVSKLKADKRGDRYVLNGSKWITNGPDADVLVVYAKTDPARGITAFLVEKAFPGFSAGQKLDKLGRGSNTSELIFTDCEVPEENVLGGVGEGVKVLSGLDYERVVLSAGPLGIAACLDVVVPYLHERKQGEFQLQGKLADYVTNAARAYVYAVAAACDRGETARKDAAGCILYAAEKATAALEAIQALGGNGYTNDYPAGRLLRDAKLYEIGAGTSEIRRLIGRELFAETK FEAGLNFALGEEIDALRASVRRFASERIAPLADDADRSNAFPSLWREGELGLLGITADEAHGGAGLGYLAHCVAEEISRASASVGLSYGAHSNLCVNQINRNGKPAQKSRYLPKLISGEHVGALASEPGVSKLKADKRGDRYVLNGSKWITNGPDADVLVVYAKTDPGITAFLVEKAFPGFSAGQKLDKLGRGSNTSELIFTDCEVPEENVLGGVGEGVKVLSGLDYERVVLSAGPLGIAACLDVVVPYLHERKQFGQPIGEFQLQGKLADYVTNAARAYVYAVAAACDRGETARKDAAGCILYAAEKATAALEAIQALGGNGYTNDYPAGRLLRDAKLYEIGAGTSEIRRLIGRELFA 4ktr-a4-m1-cH_4ktr-a4-m1-cG Crystal structure of 2-O-alpha-glucosylglycerol phosphorylase in complex with isofagomine and glycerol D6XZ22 D6XZ22 2.3 X-RAY DIFFRACTION 62 1.0 439292 ([Bacillus] selenitireducens MLS10) 439292 ([Bacillus] selenitireducens MLS10) 761 762 4ktp-a1-m1-cB_4ktp-a1-m1-cA 4ktr-a1-m1-cB_4ktr-a1-m1-cA 4ktr-a2-m1-cC_4ktr-a2-m1-cD 4ktr-a3-m1-cE_4ktr-a3-m1-cF MHEIGEHLTTNTGWDIIKNRYEAAQAITEGSNFMIGNGFMGYRGTFAEDGKDAYAACIVTDTWDKADGKWEELSTVPNALLTLLHVDGEPFIMSEEAASFERTLDLSQGVTSRKVSQRMKNGATITIHEEKFASYRKKHAVLMKYTVESDQDTDAVLDTGIDYDVWSINGDHLQGHHYFSHPTGDGVTAKTVSYEDTVTVVETCSLDADASEEDYQNPDGSGRTFSLSLEAGKPVTLEKAMIIYSSNDVDNPQDEALLEAKHMQSYEEEKAANRLEWDNLWSHYDVTIQNNIIDQVALRFNIYHAIIATPVHKSLPIGARGLSCQAYQGAAFWDQEIYNMPMYLYSNPEIARNILKYRHRTLDGARRKAKRLGYEGAYYAWISGKTGDELCPDFFFKDVLSGRDIRNHFNDWQIHISPDIAYAVKKYHQVTGDDAFIRDYGAEMIFEIARFLASHAVYKPMRGRYEFMRVQGPDQYHENVDNNAFTNHQAMFTLQAADELLQTLDEKTLSAVKEKIGLSDDEISLWRDMLANTYVPKPDKHGIIEQFDGYYDLETIIPAKKVTERLIKEDEYYGYPNGVTVRTQCIKQADVIQLFVLHPHLYDRKTVELNYEFYEPRTLHFSSLSPSSYAIVAAQIDKVEEAYRNFRKSVMIDLLNTNEAVSGGTFIGGIHTAANGASWQMVVNGFGGLSVHGDDIHLSPRLPDAWDGYTFKAIVKGQTLEVDVTKEQITITNKSEDRKPLTLHIFGEKSVLDSERITKSR MHEIGEHLTTNTGWDIIKNRYEAAQAITEGSNFMIGNGFMGYRGTFAEDGKDAYAACIVTDTWDKADGKWEELSTVPNALLTLLHVDGEPFIMSEEAASFERTLDLSQGVTSRKVSQRMKNGATITIHEEKFASYRKKHAVLMKYTVESDQDTDAVLDTGIDYDVWSINGDHLQGHHYFSHPTGDGVTAKTVSYEDTVTVVETCSLDADASEEDYQNPDGSGRTFSLSLEAGKPVTLEKAMIIYSSNDVDNPQDEALLEAKHMQSYEEEKAANRLEWDNLWSHYDVTIQNNIIDQVALRFNIYHAIIATPVHKSLPIGARGLSCQAYQGAAFWDQEIYNMPMYLYSNPEIARNILKYRHRTLDGARRKAKRLGYEGAYYAWISGKTGDELCPDFFFKDVLSGRDIRNHFNDWQIHISPDIAYAVKKYHQVTGDDAFIRDYGAEMIFEIARFLASHAVYKPMRGRYEFMRVQGPDQYHENVDNNAFTNHQAMFTLQAADELLQTLDEKTLSAVKEKIGLSDDEISLWRDMLANTYVPKPDKHGIIEQFDGYYDLETIIPAKKVTERLIKEDEYYGYPNGVTVRTQCIKQADVIQLFVLHPHLYDRKTVELNYEFYEPRTLHFSSLSPSSYAIVAAQIDKVEEAYRNFRKSVMIDLLNTNEAVSGGTFIGGIHTAANGASWQMVVNGFGGLSVHGDDIHLSPRLPDAWDGYTFKAIVKGQTLEVDVTKEQITITNKSEDRKPLTLHIFGEKSVLDSERITKSRL 4ktw-a1-m1-cB_4ktw-a1-m1-cA Lactococcus phage 67 RuvC - apo form Q38242 Q38242 1.68 X-RAY DIFFRACTION 55 1.0 36343 (Ceduovirus bIL67) 36343 (Ceduovirus bIL67) 159 160 4ktz-a1-m1-cA_4ktz-a1-m1-cB KKILAINFSTASKKGEGTGYAFRKDGQVYVGSIKAYNPKKTAWERTFDIVNAIKDIIDEFDLKGYHLAIETPIMGRNRKHSITLANCNGYFIGAIDGLVNGYTFIDNSKWCSYHLISGKREQRKEESLELLKATGLVDSNCKDDNIADAYNILTYCEHL MKKILAINFSTASKKGEGTGYAFRKDGQVYVGSIKAYNPKKTAWERTFDIVNAIKDIIDEFDLKGYHLAIETPIMGRNRKHSITLANCNGYFIGAIDGLVNGYTFIDNSKWCSYHLISGKREQRKEESLELLKATGLVDSNCKDDNIADAYNILTYCEHL 4kuj-a3-m1-cA_4kuj-a3-m2-cB Structural and functional characterization of a novel Alpha Kinase from Entamoeba histolytica M3TP73 M3TP73 1.99 X-RAY DIFFRACTION 47 1.0 885319 (Entamoeba histolytica HM-1:IMSS-B) 885319 (Entamoeba histolytica HM-1:IMSS-B) 261 266 YQTQVSGYIITVPNETTQIRKFLASNQRINQFLFQHSTFRVELAPFAKGGERLAFRAINGRGDRIVLKRFFQQRPLTMLLETIERQLICIYLANIFNKLNVSPNKLHFLPNYLFIPSPTKDLDGKILTLEQTEQAVAATCRTPNFVEPYLSGYFIKYIDNNGWINESEFHSTLHAFAHWTWVHTKGALLICDIQGVNANNKFYLTDPALHHIDQNKFIYSETNLGEVGISQFFRTHQCNAICQGLHLPKHKEQVLPDTKGT EPQYQTQVSGYIITVPNETTQIRKFLASNQRINQFLFQHSTFRVELAPFAKGGERLAFRAINGRGDRIVLKRFFQQRPLTMLLETIERQLICIYLANIFNKLNVSPNKLHFLPNYLFIPSPTKDLDGKILTLEQTEQAVAATCRTPNFVEPYLSGYFIKYIDNNGWINESEFHSTLHAFAHWTWVHTKGALLICDIQGVNANNKFYLTDPALHHIDQNKFIYSETNLGEVGISQFFRTHQCNAICQGLHLPKHKEQVLPDTKGTLE 4kun-a1-m1-cB_4kun-a1-m1-cA Crystal structure of Legionella pneumophila Lpp1115 / KaiB 1.95 X-RAY DIFFRACTION 48 1.0 297246 (Legionella pneumophila str. Paris) 297246 (Legionella pneumophila str. Paris) 88 89 TRTKLKLFVIGNSAISKRAIINLQSICSDPKLADLCDIEVVDLCKNKGIAEQEKILATPILIKKEPLPERRIIGDLSDKQKVISALED GTRTKLKLFVIGNSAISKRAIINLQSICSDPKLADLCDIEVVDLCKNKGIAEQEKILATPILIKKEPLPERRIIGDLSDKQKVISALED 4kv9-a1-m1-cA_4kv9-a1-m1-cB GTPase domain of Septin 10 from Schistosoma mansoni in complex with GDP A0A3Q0KDV9 A0A3Q0KDV9 1.93 X-RAY DIFFRACTION 50 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 246 253 4kva-a1-m1-cA_4kva-a1-m1-cB FVFNILCVGETGIGKSTLLETLFNQKFDFKLKAVTYDLKEANVKLKLTVVETCENNIKPVVDYIDNQFENYLQEELKMKRSMQAFHDTRVHVCLYFIAPTGHSLKSIDLVAMKKLENKVNVIPVIAKSDTITKSELQKFKARILSEIQSNEIGIYQFPTDDEAVSETNSVMNQHIPFAVVGSSEEVKITVRVRQYPWGSVQVENENHCDFVRLREMLLRVNMEDLRERTHGVHYETYRRQRLIEMG FVFNILCVGETGIGKSTLLETLFNQKFDFSPKLKAVTYDLKEANVKLKLTVVETCNKENNIKPVVDYIDNQFENYLQEELKMKRSMQAFHDTRVHVCLYFIAPTGHSLKSIDLVAMKKLENKVNVIPVIAKSDTITKSELQKFKARILSEIQSNEIGIYQFPTDDEAVSETNSVMNQHIPFAVVGSSEEVKINGKTVRVRQYPWGSVQVENENHCDFVRLREMLLRVNMEDLRERTHGVHYETYRRQRLIEMG 4kvs-a2-m1-cA_4kvs-a2-m2-cA Crystal Structure of Prochlorococcus marinus aldehyde-deformylating oxygenase (mutant A134F) Q7V6D4 Q7V6D4 1.67 X-RAY DIFFRACTION 36 1.0 74547 (Prochlorococcus marinus str. MIT 9313) 74547 (Prochlorococcus marinus str. MIT 9313) 221 221 4kvr-a2-m1-cA_4kvr-a2-m2-cA ALPDFTSDRYKDAYSRINAIVIEGEQEAHDNYIAIGTLLPDHVEELKRLAKMEMRHKKGFTACGKNLGVEADMDFAREFFAPLRDNFQTALGQGKTPTCLLIQALLIEAFAISFYHTYIPVSDPFARKITEGVVKDEYTHLNYGEAWLKANLESCREELLEANRENLPLIRRMLDQVAGDAAVLQMDKEDLIEDFLIAYQESLTEIGFNTREITRMAAAAL ALPDFTSDRYKDAYSRINAIVIEGEQEAHDNYIAIGTLLPDHVEELKRLAKMEMRHKKGFTACGKNLGVEADMDFAREFFAPLRDNFQTALGQGKTPTCLLIQALLIEAFAISFYHTYIPVSDPFARKITEGVVKDEYTHLNYGEAWLKANLESCREELLEANRENLPLIRRMLDQVAGDAAVLQMDKEDLIEDFLIAYQESLTEIGFNTREITRMAAAAL 4kwa-a1-m1-cB_4kwa-a1-m1-cA Crystal structure of a putative transcriptional regulator from Saccharomonospora viridis in complex with choline C7MT25 C7MT25 1.8 X-RAY DIFFRACTION 112 1.0 471857 (Saccharomonospora viridis DSM 43017) 471857 (Saccharomonospora viridis DSM 43017) 190 191 4ich-a1-m1-cA_4ich-a1-m1-cB 4jnn-a1-m1-cA_4jnn-a1-m2-cA 4nel-a1-m1-cA_4nel-a1-m2-cA QSEARRRILETAWRLIARRGYHNVRIHDIASELGTSNATIHYHFPSKKDILLEALRRNVKLAFDRQVAELHTIADARERLVRLVELQLPTPGLLRDEWSVWLQVWTESTLNPKIRDLYNDAYDRWYQTIATIRTGQKQGVFRDQDADELATRLSALIDGLGIQVLTGKRGCSVDHRQHLNDFIEHNIVER PQSEARRRILETAWRLIARRGYHNVRIHDIASELGTSNATIHYHFPSKKDILLEALRRNVKLAFDRQVAELHTIADARERLVRLVELQLPTPGLLRDEWSVWLQVWTESTLNPKIRDLYNDAYDRWYQTIATIRTGQKQGVFRDQDADELATRLSALIDGLGIQVLTGKRGCSVDHRQHLNDFIEHNIVER 4kxf-a11-m1-cD_4kxf-a11-m5-cD Crystal structure of NLRC4 reveals its autoinhibition mechanism Q3UP24 Q3UP24 3.2 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 899 899 4kxf-a10-m1-cF_4kxf-a10-m1-cB 4kxf-a10-m1-cL_4kxf-a10-m1-cH 4kxf-a11-m1-cN_4kxf-a11-m5-cN 4kxf-a9-m1-cK_4kxf-a9-m2-cK 4kxf-a9-m3-cP_4kxf-a9-m4-cP VTEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGASGDFARSLDYCGDLALEGVFAHKFDFEPEHGSSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVEIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWEFDDYDISAIKGTFKLVT VTEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGASGDFARSLDYCGDLALEGVFAHKFDFEPEHGSSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVEIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWEFDDYDISAIKGTFKLVT 4kxf-a11-m5-cN_4kxf-a11-m1-cD Crystal structure of NLRC4 reveals its autoinhibition mechanism Q3UP24 Q3UP24 3.2 X-RAY DIFFRACTION 43 1.0 10090 (Mus musculus) 10090 (Mus musculus) 881 899 4kxf-a10-m1-cH_4kxf-a10-m1-cB 4kxf-a10-m1-cL_4kxf-a10-m1-cF 4kxf-a11-m1-cN_4kxf-a11-m5-cD 4kxf-a9-m3-cP_4kxf-a9-m2-cK 4kxf-a9-m4-cP_4kxf-a9-m1-cK TEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGDFARSLDYCGDLALEGVFAHKFDFEPEHSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWIKGTFKL VTEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGASGDFARSLDYCGDLALEGVFAHKFDFEPEHGSSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVEIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWEFDDYDISAIKGTFKLVT 4kxf-a11-m5-cN_4kxf-a11-m5-cD Crystal structure of NLRC4 reveals its autoinhibition mechanism Q3UP24 Q3UP24 3.2 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 881 899 4kxf-a10-m1-cH_4kxf-a10-m1-cF 4kxf-a10-m1-cL_4kxf-a10-m1-cB 4kxf-a11-m1-cN_4kxf-a11-m1-cD 4kxf-a9-m3-cP_4kxf-a9-m1-cK 4kxf-a9-m4-cP_4kxf-a9-m2-cK TEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGDFARSLDYCGDLALEGVFAHKFDFEPEHSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWIKGTFKL VTEEDLNVLAQNLKDLYNSPAFLNFYPLGEDIDIIFNLEKTFTEPIMWKKDHRHHRVEQLTLGSLLEALKSPCLIEGESGKGKSTLLQRIAMLWASGGCRALKGFRLVFFIHLRSARGGLFETLYDQLLNIPDFISKPTFKALLLKLHKEVLFLLDGYNEFHPQNCPEIEALIKENHRFKNMVIVTTTTECLRHIRHVGALTAEVGDMTEDSAKDLIEAVLVPDQVERLWAQIQESRCLRNLMKTPLFVVITCAIQMGRQEFQAHTQTMLFQTFYDLLIQKNSHRYRGGASGDFARSLDYCGDLALEGVFAHKFDFEPEHGSSMNEDVLVTIGLLCKYTAQRLKPTYKFFHKSFQEYTAGRRLSSLLTSKEPEEVSKGNSYLNKMVSISDITSLYGNLLLYTCGSSTEATRAVMRHLAMVYQHGSLQGLSVEIQSLRNTTEQDVLKAINVNSFVECGINLFSESMSKSDLSQEFEAFFQGKSLYINSENIPDYLFDFFEYLPNCASALDFVKLDFYERATPPRAVSLFFNWKQEFKTLEVTLRDINKLNKQDIKYLGKIFSSATNLRLHIKRCAAMAGRLSSVLRTCKNMHTLMVEASPLTTDDEQYITSVTGLQNLSIHRLHTQQLPGGLIDSLGNLKNLERLILDDIRMNEEDAKNLAEGLRSLKKMRLLHLTHLSDIGEGMDYIVKSLSEESCDLQEMKLVACCLTANSVKVLAQNLHNLIKLSILDISENYLEKDGNEALQELIGRLGVLGELTTLMLPWCWDVHTSLPKLLKQLEGTPGLAKLGLKNWRLRDEEIKSLGEFLEMNPLRDLQQLDLAGHCVSSDGWLYFMNVFENLKQLVFFDFSTEEFLPDAALVRKLSQVLSKLTLLQEVKLTGWEFDDYDISAIKGTFKLVT 4kxh-a2-m1-cC_4kxh-a2-m1-cD The X-ray crystal structure of a dimeric variant of human pancreatic ribonuclease P07998 P07998 2.7 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 120 4kxh-a1-m1-cA_4kxh-a1-m1-cB KESRAKKFQRQHMDSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVE KESRAKKFQRQHMDSSSSTYCNQMMRRRNMTQGRCKPVNTFVHEPLVDVQNVCFQEKVTCKNGQGNCYKSNSSMHITDCRLTNGSRYPNCAYRTSPKERHIIVACEGSPYVPVHFDASVE 4kxl-a2-m1-cC_4kxl-a2-m1-cD Crystal structure of DNPH1 (RCL) with 6-CYCLOPENTYL-AMP O35820 O35820 1.69 X-RAY DIFFRACTION 137 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 134 136 2khz-a1-m1-cA_2khz-a1-m1-cB 4kxm-a1-m1-cA_4kxm-a1-m1-cB 4kxm-a2-m1-cC_4kxm-a2-m1-cD 4kxn-a1-m1-cB_4kxn-a1-m1-cA 4p5d-a1-m1-cC_4p5d-a1-m3-cC 4p5d-a2-m1-cA_4p5d-a2-m2-cA RRSVYFCGSIRGGREDQALYARIVSRLRRYGKVLTEHVADAGGDQFIHEQNLNWLQQADVVVAEVTQPSLGVGYELGRAVALGKPILCLFRPQSGRVLSAMIRGAADGSRFQVWDYAEGEVETMLDRYFEAYLV RRSVYFCGSIRGGREDQALYARIVSRLRRYGKVLTEHVADEAAGGDQFIHEQNLNWLQQADVVVAEVTQPSLGVGYELGRAVALGKPILCLFRPQSGRVLSAMIRGAADGSRFQVWDYAEGEVETMLDRYFEAYLV 4kxp-a1-m1-cA_4kxp-a1-m2-cA Crystal Structure of AMP complexes of Porcine Liver Fructose-1,6-bisphosphatase Mutant I10D in T-state P00636 P00636 2.7 X-RAY DIFFRACTION 60 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 309 309 1cnq-a1-m1-cA_1cnq-a1-m3-cA 1cnq-a1-m2-cA_1cnq-a1-m4-cA 1eyi-a1-m1-cA_1eyi-a1-m3-cA 1eyi-a1-m2-cA_1eyi-a1-m4-cA 1eyj-a1-m1-cA_1eyj-a1-m2-cA 1eyj-a1-m1-cB_1eyj-a1-m2-cB 1eyk-a1-m1-cA_1eyk-a1-m2-cA 1eyk-a1-m1-cB_1eyk-a1-m2-cB 1fbc-a1-m1-cA_1fbc-a1-m2-cA 1fbc-a1-m1-cB_1fbc-a1-m2-cB 1fbd-a1-m1-cA_1fbd-a1-m2-cA 1fbd-a1-m1-cB_1fbd-a1-m2-cB 1fbe-a1-m1-cA_1fbe-a1-m2-cA 1fbe-a1-m1-cB_1fbe-a1-m2-cB 1fbf-a1-m1-cA_1fbf-a1-m2-cA 1fbf-a1-m1-cB_1fbf-a1-m2-cB 1fbg-a1-m1-cA_1fbg-a1-m2-cA 1fbg-a1-m1-cB_1fbg-a1-m2-cB 1fbh-a1-m1-cA_1fbh-a1-m2-cA 1fbh-a1-m1-cB_1fbh-a1-m2-cB 1fbp-a1-m1-cA_1fbp-a1-m2-cA 1fbp-a1-m1-cB_1fbp-a1-m2-cB 1fj6-a1-m1-cA_1fj6-a1-m3-cA 1fj6-a1-m2-cA_1fj6-a1-m4-cA 1fj9-a1-m1-cA_1fj9-a1-m2-cA 1fj9-a1-m1-cB_1fj9-a1-m2-cB 1fpb-a1-m1-cA_1fpb-a1-m2-cA 1fpb-a1-m1-cB_1fpb-a1-m2-cB 1fpd-a1-m1-cA_1fpd-a1-m2-cA 1fpd-a1-m1-cB_1fpd-a1-m2-cB 1fpe-a1-m1-cA_1fpe-a1-m2-cA 1fpe-a1-m1-cB_1fpe-a1-m2-cB 1fpf-a1-m1-cA_1fpf-a1-m2-cA 1fpf-a1-m1-cB_1fpf-a1-m2-cB 1fpg-a1-m1-cA_1fpg-a1-m2-cA 1fpg-a1-m1-cB_1fpg-a1-m2-cB 1fpi-a1-m1-cA_1fpi-a1-m2-cA 1fpi-a1-m1-cB_1fpi-a1-m2-cB 1fpj-a1-m1-cA_1fpj-a1-m2-cA 1fpj-a1-m1-cB_1fpj-a1-m2-cB 1fpk-a1-m1-cA_1fpk-a1-m2-cA 1fpk-a1-m1-cB_1fpk-a1-m2-cB 1fpl-a1-m1-cA_1fpl-a1-m2-cA 1fpl-a1-m1-cB_1fpl-a1-m2-cB 1frp-a1-m1-cA_1frp-a1-m2-cA 1frp-a1-m1-cB_1frp-a1-m2-cB 1fsa-a1-m1-cA_1fsa-a1-m2-cA 1fsa-a1-m1-cB_1fsa-a1-m2-cB 1kz8-a1-m1-cA_1kz8-a1-m2-cA 1kz8-a1-m1-cF_1kz8-a1-m2-cF 1lev-a1-m1-cA_1lev-a1-m2-cA 1lev-a1-m1-cF_1lev-a1-m2-cF 1nuw-a2-m1-cA_1nuw-a2-m3-cA 1nuw-a2-m2-cA_1nuw-a2-m4-cA 1nux-a2-m1-cA_1nux-a2-m3-cA 1nux-a2-m2-cA_1nux-a2-m4-cA 1nuy-a2-m1-cA_1nuy-a2-m3-cA 1nuy-a2-m2-cA_1nuy-a2-m4-cA 1nuz-a2-m1-cA_1nuz-a2-m3-cA 1nuz-a2-m2-cA_1nuz-a2-m4-cA 1nv0-a2-m1-cA_1nv0-a2-m3-cA 1nv0-a2-m2-cA_1nv0-a2-m4-cA 1nv1-a2-m1-cA_1nv1-a2-m3-cA 1nv1-a2-m2-cA_1nv1-a2-m4-cA 1nv2-a2-m1-cA_1nv2-a2-m3-cA 1nv2-a2-m2-cA_1nv2-a2-m4-cA 1nv3-a2-m1-cA_1nv3-a2-m3-cA 1nv3-a2-m2-cA_1nv3-a2-m4-cA 1nv4-a2-m1-cA_1nv4-a2-m3-cA 1nv4-a2-m2-cA_1nv4-a2-m4-cA 1nv5-a2-m1-cA_1nv5-a2-m3-cA 1nv5-a2-m2-cA_1nv5-a2-m4-cA 1nv6-a2-m1-cA_1nv6-a2-m3-cA 1nv6-a2-m2-cA_1nv6-a2-m4-cA 1nv7-a2-m1-cA_1nv7-a2-m2-cA 1nv7-a2-m1-cB_1nv7-a2-m2-cB 1q9d-a2-m1-cA_1q9d-a2-m2-cA 1q9d-a2-m1-cB_1q9d-a2-m2-cB 1rdx-a1-m1-cA_1rdx-a1-m2-cA 1rdx-a1-m1-cB_1rdx-a1-m2-cB 1rdy-a1-m1-cA_1rdy-a1-m2-cA 1rdy-a1-m1-cB_1rdy-a1-m2-cB 1rdz-a1-m1-cA_1rdz-a1-m2-cA 1rdz-a1-m1-cB_1rdz-a1-m2-cB 1yxi-a1-m1-cA_1yxi-a1-m3-cA 1yxi-a1-m2-cA_1yxi-a1-m4-cA 1yyz-a1-m1-cA_1yyz-a1-m3-cA 1yyz-a1-m2-cA_1yyz-a1-m4-cA 1yz0-a1-m1-cA_1yz0-a1-m2-cA 1yz0-a1-m1-cB_1yz0-a1-m2-cB 2f3b-a1-m1-cA_2f3b-a1-m3-cA 2f3b-a1-m2-cA_2f3b-a1-m4-cA 2f3d-a1-m1-cA_2f3d-a1-m3-cA 2f3d-a1-m2-cA_2f3d-a1-m4-cA 2fbp-a1-m1-cA_2fbp-a1-m2-cA 2fbp-a1-m1-cB_2fbp-a1-m2-cB 2qvu-a1-m1-cA_2qvu-a1-m2-cA 2qvu-a1-m1-cB_2qvu-a1-m2-cB 2qvv-a1-m1-cA_2qvv-a1-m2-cA 2qvv-a1-m1-cB_2qvv-a1-m2-cB 3fbp-a1-m1-cA_3fbp-a1-m2-cA 3fbp-a1-m1-cB_3fbp-a1-m2-cB 4fbp-a1-m1-cA_4fbp-a1-m1-cC 4fbp-a1-m1-cB_4fbp-a1-m1-cD 4gbv-a1-m1-cA_4gbv-a1-m3-cA 4gbv-a1-m2-cA_4gbv-a1-m4-cA 4gbw-a1-m1-cA_4gbw-a1-m3-cA 4gbw-a1-m2-cA_4gbw-a1-m4-cA 4gws-a1-m1-cA_4gws-a1-m2-cA 4gws-a1-m1-cB_4gws-a1-m2-cB 4gwu-a1-m1-cA_4gwu-a1-m3-cA 4gwu-a1-m2-cA_4gwu-a1-m4-cA 4gww-a1-m1-cA_4gww-a1-m3-cA 4gww-a1-m2-cA_4gww-a1-m4-cA 4gwx-a1-m1-cA_4gwx-a1-m3-cA 4gwx-a1-m2-cA_4gwx-a1-m4-cA 4gwy-a1-m1-cA_4gwy-a1-m3-cA 4gwy-a1-m2-cA_4gwy-a1-m4-cA 4gwz-a1-m1-cA_4gwz-a1-m2-cA 4gwz-a1-m1-cB_4gwz-a1-m2-cB 4gx3-a1-m1-cA_4gx3-a1-m2-cA 4gx3-a1-m1-cB_4gx3-a1-m2-cB 4gx4-a1-m1-cA_4gx4-a1-m2-cA 4gx4-a1-m1-cB_4gx4-a1-m2-cB 4gx6-a1-m1-cA_4gx6-a1-m2-cA 4gx6-a1-m1-cB_4gx6-a1-m2-cB 4h45-a1-m1-cA_4h45-a1-m3-cA 4h45-a1-m2-cA_4h45-a1-m4-cA 4kxp-a1-m1-cB_4kxp-a1-m2-cB 5fbp-a1-m1-cA_5fbp-a1-m2-cA 5fbp-a1-m1-cB_5fbp-a1-m2-cB DVTLTRFVMEEGRKARGTGEMTQLLNSLCTAVKAISTAVRKAGIAKLDVLSNDLVINVLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKNSTDEPSEKDALQPGRNLVAAGYALYGSATMLVLAMVNGVNCFMLDPAIGEFILVDRDVKIKKKGSIYSINEGYAKEFDPAITEYIQRKKFPPDNSAPYGARYVGSMVADVHRTLVYGGIFMYPANKKSPKGKLRLLYECNPMAYVMEKAGGLATTGKEAVLDIVPTDIHQRAPIILGSPEDVTELLEIYQKHA DVTLTRFVMEEGRKARGTGEMTQLLNSLCTAVKAISTAVRKAGIAKLDVLSNDLVINVLKSSFATCVLVSEEDKNAIIVEPEKRGKYVVCFDPLDGSSNIDCLVSIGTIFGIYRKNSTDEPSEKDALQPGRNLVAAGYALYGSATMLVLAMVNGVNCFMLDPAIGEFILVDRDVKIKKKGSIYSINEGYAKEFDPAITEYIQRKKFPPDNSAPYGARYVGSMVADVHRTLVYGGIFMYPANKKSPKGKLRLLYECNPMAYVMEKAGGLATTGKEAVLDIVPTDIHQRAPIILGSPEDVTELLEIYQKHA 4kxw-a1-m1-cA_4kxw-a1-m2-cA Human transketolase in covalent complex with donor ketose D-xylulose-5-phosphate, crystal 2 P29401 P29401 0.97 X-RAY DIFFRACTION 304 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 621 621 3mos-a1-m1-cA_3mos-a1-m2-cA 3ooy-a1-m1-cA_3ooy-a1-m1-cB 4kxu-a1-m1-cA_4kxu-a1-m2-cA 4kxv-a1-m1-cA_4kxv-a1-m2-cA 4kxx-a1-m1-cA_4kxx-a1-m2-cA 4kxy-a1-m1-cA_4kxy-a1-m1-cB 6ha3-a1-m1-cA_6ha3-a1-m2-cA 6had-a1-m1-cA_6had-a1-m2-cA 6rjb-a1-m1-cA_6rjb-a1-m1-cB ESYHKPDQQKLQALKDTANRLRISSIQATTAAGSGHPTSCCSAAEIMAVLFFHTMRYKSQDPRNPHNDRFVLSKGHAAPILYAVWAEAGFLAEAELLNLRKISSDLDGHPVPKQAFTDVATGSLGQGLGAACGMAYTGKYFDKASYRVYCLLGDGELSEGSVWEAMAFASIYKLDNLVAILDINRLGQSDPAPLQHQMDIYQKRCEAFGWHAIIVDGHSVEELCKAFGQAKHQPTAIIAKTFKGRGITGVEDKESWHGKPLPKNMAEQIIQEIYSQIQSKKKILATPPQEDAPSVDIANIRMPSLPSYKVGDKIATRKAYGQALAKLGHASDRIIALDGDTKNSTFSEIFKKEHPDRFIECYIAEQNMVSIAVGCATRNRTVPFCSTFAAFFTRAFDQIRMAAISESNINLCGSHCGVSIGEDGPSQMALEDLAMFRSVPTSTVFYPSDGVATEKAVELAANTKGICFIRTSRPENAIIYNNNEDFQVGQAKVVLKSKDDQVTVIGAGVTLHEALAAAELLKKEKINIRVLDPFTIKPLDRKLILDSARATKGRILTVEDHYYEGGIGEAVSSAVVGEPGITVTHLAVNRVPRSGKPAELLKMFGIDRDAIAQAVRGLITK ESYHKPDQQKLQALKDTANRLRISSIQATTAAGSGHPTSCCSAAEIMAVLFFHTMRYKSQDPRNPHNDRFVLSKGHAAPILYAVWAEAGFLAEAELLNLRKISSDLDGHPVPKQAFTDVATGSLGQGLGAACGMAYTGKYFDKASYRVYCLLGDGELSEGSVWEAMAFASIYKLDNLVAILDINRLGQSDPAPLQHQMDIYQKRCEAFGWHAIIVDGHSVEELCKAFGQAKHQPTAIIAKTFKGRGITGVEDKESWHGKPLPKNMAEQIIQEIYSQIQSKKKILATPPQEDAPSVDIANIRMPSLPSYKVGDKIATRKAYGQALAKLGHASDRIIALDGDTKNSTFSEIFKKEHPDRFIECYIAEQNMVSIAVGCATRNRTVPFCSTFAAFFTRAFDQIRMAAISESNINLCGSHCGVSIGEDGPSQMALEDLAMFRSVPTSTVFYPSDGVATEKAVELAANTKGICFIRTSRPENAIIYNNNEDFQVGQAKVVLKSKDDQVTVIGAGVTLHEALAAAELLKKEKINIRVLDPFTIKPLDRKLILDSARATKGRILTVEDHYYEGGIGEAVSSAVVGEPGITVTHLAVNRVPRSGKPAELLKMFGIDRDAIAQAVRGLITK 4kxz-a1-m1-cA_4kxz-a1-m1-cB crystal structure of tgfb2 in complex with GC2008. P61812 P61812 2.83 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 1tfg-a1-m1-cA_1tfg-a1-m2-cA 2tgi-a1-m1-cA_2tgi-a1-m2-cA 4kxz-a2-m1-cD_4kxz-a2-m1-cE 6i9j-a1-m1-cA_6i9j-a1-m2-cA 6xm2-a1-m1-cK_6xm2-a1-m1-cL 6xm2-a2-m1-cJ_6xm2-a2-m1-cI 7rco-a1-m1-cA_7rco-a1-m1-cB ALDAAYCFRNVQDNCCLRPLYIDFKRDLGWKWIHEPKGYNANFCAGACPYLWSSDTQHSRVLSLYNTINPEASASPCCVSQDLEPLTILYYIGKTPKIEQLSNMIVKSCKCS ALDAAYCFRNVQDNCCLRPLYIDFKRDLGWKWIHEPKGYNANFCAGACPYLWSSDTQHSRVLSLYNTINPEASASPCCVSQDLEPLTILYYIGKTPKIEQLSNMIVKSCKCS 4kyn-a2-m1-cB_4kyn-a2-m1-cD Crystal structure of odorant binding protein 48 from Anopheles gambiae at 3.3 Angstrom resolution Q8MMI9 Q8MMI9 3.3 X-RAY DIFFRACTION 122 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 172 172 4ij7-a1-m1-cA_4ij7-a1-m1-cB 4kyn-a1-m1-cA_4kyn-a1-m1-cC GDNPCAAGPPVDTNPAECCPKPMLVDGTIMMDCYKKYGEQTKKQLQMDGIPRGCCIAECAMNATNMYADGMLKRDDLSKMFMDAVKDKPEWMSLVRDATNACFELAEKKMDEIEAGAKLEPSFEGEKICHPISGTILRCMGMMMFAQCPASVFNVNENCNKLREYGSICPMI GDNPCAAGPPVDTNPAECCPKPMLVDGTIMMDCYKKYGEQTKKQLQMDGIPRGCCIAECAMNATNMYADGMLKRDDLSKMFMDAVKDKPEWMSLVRDATNACFELAEKKMDEIEAGAKLEPSFEGEKICHPISGTILRCMGMMMFAQCPASVFNVNENCNKLREYGSICPMI 4kyt-a3-m1-cC_4kyt-a3-m1-cB The structure of superinhibitory phospholamban bound to the calcium pump SERCA1a P61012 P61012 2.833 X-RAY DIFFRACTION 25 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 15 29 QALQCLFINFCAILI PQQARQALQCLFINFCAILICLLLICIIG 4kyx-a1-m1-cB_4kyx-a1-m1-cA Crystal structure of ADP-ribose pyrophosphatase MutT from Rickettsia felis Q4ULX7 Q4ULX7 1.8 X-RAY DIFFRACTION 55 0.993 315456 (Rickettsia felis URRWXCal2) 315456 (Rickettsia felis URRWXCal2) 134 139 MINHPRIGIGILIFNNRNEILLGKRISYAPAGGHLEFGETFEECAIREVLEETNLIIENPQFIAVTNDIFEKEQKHYVSIFLKAHCLNEHELQNLEPHKVENWQWFALDNLPSNLFLPLKRLIEKKCYLYKEII INHPRIGIGILIFNNRNEILLGKRISSHGESSYAPAGGHLEFGETFEECAIREVLEETNLIIENPQFIAVTNDIFEKEQKHYVSIFLKAHCLNEHELQNLEPHKVENWQWFALDNLPSNLFLPLKRLIEKKCYLYKEII 4kz1-a1-m1-cA_4kz1-a1-m2-cA Crystal structure of the soluble domain of VirB8 from Bartonella grahamii C6AER9 C6AER9 2.55 X-RAY DIFFRACTION 41 1.0 634504 (Bartonella grahamii as4aup) 634504 (Bartonella grahamii as4aup) 135 135 4mei-a1-m1-cA_4mei-a1-m2-cA YDEAITRYFASQYVRAREGFQASEAENNFRLVSLLSSPKEQNRFGKWYAGNNPESPQNIYHNMIATVTIKSISFISKDLIQVRYYKTVRDFNEKENISHWISILNFSYVNAHISTSDRLINPLGFQVSEYRSDPE YDEAITRYFASQYVRAREGFQASEAENNFRLVSLLSSPKEQNRFGKWYAGNNPESPQNIYHNMIATVTIKSISFISKDLIQVRYYKTVRDFNEKENISHWISILNFSYVNAHISTSDRLINPLGFQVSEYRSDPE 4kzp-a2-m1-cB_4kzp-a2-m1-cC Crystal Structure of a Putative Short Chain Dehydrogenase from Mycobacterium smegmatis A0R4P1 A0R4P1 1.68 X-RAY DIFFRACTION 347 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 283 295 4kzp-a1-m1-cA_4kzp-a1-m1-cD DLDLSGKVAVVTGAAAGLGRAEAIGLAKAGATVVVNDIAGALEGSDVLDEIAAAGSKGVAVAGDISQRSTADELVETAEGLGGLDIVVNNAGITRDRILFNMSDEEWDAVIAVHLRGHFLLTRNAAAYWRSKAKAGDGTVYGRVINTSSEAGLSGPVGQPNYGAAKAGITALTLSAARALERFGVRANAIAPRARTAMTAGVFQMDPLSTDHVVTLVQFLAAPASEGVNGQLFIVYGPSVTLVAAPTAEKQFVADEDAWEPADLSVTLRDYFADRDPERGFSA DLDLSGKVAVVTGAAAGLGRAEAIGLAKAGATVVVNDIAGALEGSDVLDEIAAAGSKGVAVAGDISQRSTADELVETAEGLGGLDIVVNNAGITRDRILFNMSDEEWDAVIAVHLRGHFLLTRNAAAYWRSKAKAGDGTVYGRVINTSSEAGLSGPVGQPNYGAAKAGITALTLSAARALERFGVRANAIAPRARTAMTAGVFGDAPELAGQMDPLSTDHVVTLVQFLAAPASEGVNGQLFIVYGPSVTLVAAPTAEKQFVADEDAWEPADLSVTLRDYFADRDPERGFSATALM 4kzt-a1-m1-cX_4kzt-a1-m1-cY Structure mmNAGS bound with L-arginine Q0ASS9 Q0ASS9 2.8 X-RAY DIFFRACTION 68 1.0 394221 (Maricaulis maris MCS10) 394221 (Maricaulis maris MCS10) 431 431 3s6g-a1-m1-cB_3s6g-a1-m1-cA 3s6g-a1-m1-cY_3s6g-a1-m1-cX 3s7y-a1-m1-cX_3s7y-a1-m2-cA 3s7y-a1-m2-cX_3s7y-a1-m1-cA 4kzt-a1-m1-cA_4kzt-a1-m1-cB RQTIVQLLSHMRDGKEIREYLHRFSGIDQERFAVIKVGGAVIQDDLPGLASALAFLQTVGLTPVVVHGGGPQLDAALEAADIPTERVDGLRVTRDEAMPIIRDTLTQANLALVDAIRDAGGRAAAVPRGVFEADIVDADKLGRVGEPRHIHLDLVGSAARAGQAAILACLGETPDGTLVNINADVAVRALVHALQPYKVVFLTGTGGLLDEDGDILSSINLATDFGDLMQADWVNGGMRLKLEEIKRLLDDLPLSSSVSITRPSELARELFTHAGSGTLIRRGERMVATDDKSSLDLGRLDNLVKAAFGRPAVEGYWDRLRVDRAFVTESYRAAAITTRLDGWVYLDKFAVLDDARGEGLGRTVWNRMVDYAPQLIWRSRTNNPVNGFYFEECDGAVRRDEWTVFWRGEMGPVEVADVVEKAFALPPTLEA RQTIVQLLSHMRDGKEIREYLHRFSGIDQERFAVIKVGGAVIQDDLPGLASALAFLQTVGLTPVVVHGGGPQLDAALEAADIPTERVDGLRVTRDEAMPIIRDTLTQANLALVDAIRDAGGRAAAVPRGVFEADIVDADKLGRVGEPRHIHLDLVGSAARAGQAAILACLGETPDGTLVNINADVAVRALVHALQPYKVVFLTGTGGLLDEDGDILSSINLATDFGDLMQADWVNGGMRLKLEEIKRLLDDLPLSSSVSITRPSELARELFTHAGSGTLIRRGERMVATDDKSSLDLGRLDNLVKAAFGRPAVEGYWDRLRVDRAFVTESYRAAAITTRLDGWVYLDKFAVLDDARGEGLGRTVWNRMVDYAPQLIWRSRTNNPVNGFYFEECDGAVRRDEWTVFWRGEMGPVEVADVVEKAFALPPTLEA 4l00-a3-m1-cA_4l00-a3-m1-cB Crystal structure of the apo Jak1 pseudokinase domain P23458 P23458 1.8 X-RAY DIFFRACTION 72 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 277 278 4l01-a3-m1-cA_4l01-a3-m1-cB WQPVYPMSQLSFDRILKKDLVQGEHLGRGTRTHIYSGTLMDKKIKVILKVLDPSHRDISLAFFEAASMMRQVSHKHIVYLYGVCVRDVENIMVEEFVEGGPLDLFMHRKSDVLTTPWKFKVAKQLASALSYLEDKDLVHGNVCTKNLLLAREGIDSECGPFIKLSDPGIPITVLSRQECIERIPWIAPECVEDSKNLSVAADKWSFGTTLWEICYNGEIPLKDKTLIEKERFYESRCRPVTPSCKELADLMTRCMNYDPNQRPFFRAIMRDINKLEE QPVYPMSQLSFDRILKKDLVQGEHLGRGTRTHIYSGTLMDYEKKIKVILKVLDPSHRDISLAFFEAASMMRQVSHKHIVYLYGVCVRDVENIMVEEFVEGGPLDLFMHRKSDVLTTPWKFKVAKQLASALSYLEDKDLVHGNVCTKNLLLAREGIDSECGPFIKLSDPGIPITVLSRQECIERIPWIAPECVEDSKNLSVAADKWSFGTTLWEICYNGEIPLKDKTLIEKERFYESRCRPVTPSCKELADLMTRCMNYDPNQRPFFRAIMRDINKLEE 4l07-a1-m1-cA_4l07-a1-m2-cB Crystal structure of the maleamate amidase Ami from Pseudomonas putida S16 F8G0M0 F8G0M0 1.75 X-RAY DIFFRACTION 57 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 208 208 4l07-a1-m1-cB_4l07-a1-m2-cA MSQKEVYDAAGFGNPVSRGVHPAIIVVDFSYGFTDLQYPTASDASLQMSRTKEICDLARALEFPVIFTTIAYHPGEIPMLPWLEKSSGMAALLYGSRLVEIDMATGIQPNDVVVVKKGASSFFGSTLSSLLAGTNTDTVVVTGATTSGCVRATVVDAVQSGFKVLVPADCCADRAKGPHEASLYDIQQKYGDVTDSDDILKWLRSVAG MSQKEVYDAAGFGNPVSRGVHPAIIVVDFSYGFTDLQYPTASDASLQMSRTKEICDLARALEFPVIFTTIAYHPGEIPMLPWLEKSSGMAALLYGSRLVEIDMATGIQPNDVVVVKKGASSFFGSTLSSLLAGTNTDTVVVTGATTSGCVRATVVDAVQSGFKVLVPADCCADRAKGPHEASLYDIQQKYGDVTDSDDILKWLRSVAG 4l07-a1-m1-cB_4l07-a1-m2-cB Crystal structure of the maleamate amidase Ami from Pseudomonas putida S16 F8G0M0 F8G0M0 1.75 X-RAY DIFFRACTION 31 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 208 208 4l07-a1-m1-cA_4l07-a1-m2-cA MSQKEVYDAAGFGNPVSRGVHPAIIVVDFSYGFTDLQYPTASDASLQMSRTKEICDLARALEFPVIFTTIAYHPGEIPMLPWLEKSSGMAALLYGSRLVEIDMATGIQPNDVVVVKKGASSFFGSTLSSLLAGTNTDTVVVTGATTSGCVRATVVDAVQSGFKVLVPADCCADRAKGPHEASLYDIQQKYGDVTDSDDILKWLRSVAG MSQKEVYDAAGFGNPVSRGVHPAIIVVDFSYGFTDLQYPTASDASLQMSRTKEICDLARALEFPVIFTTIAYHPGEIPMLPWLEKSSGMAALLYGSRLVEIDMATGIQPNDVVVVKKGASSFFGSTLSSLLAGTNTDTVVVTGATTSGCVRATVVDAVQSGFKVLVPADCCADRAKGPHEASLYDIQQKYGDVTDSDDILKWLRSVAG 4l07-a1-m2-cA_4l07-a1-m2-cB Crystal structure of the maleamate amidase Ami from Pseudomonas putida S16 F8G0M0 F8G0M0 1.75 X-RAY DIFFRACTION 147 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 208 208 4l07-a1-m1-cA_4l07-a1-m1-cB 4l08-a1-m1-cB_4l08-a1-m1-cE 4l08-a2-m1-cA_4l08-a2-m1-cG 4l08-a3-m1-cC_4l08-a3-m1-cF 4l08-a4-m1-cD_4l08-a4-m1-cH MSQKEVYDAAGFGNPVSRGVHPAIIVVDFSYGFTDLQYPTASDASLQMSRTKEICDLARALEFPVIFTTIAYHPGEIPMLPWLEKSSGMAALLYGSRLVEIDMATGIQPNDVVVVKKGASSFFGSTLSSLLAGTNTDTVVVTGATTSGCVRATVVDAVQSGFKVLVPADCCADRAKGPHEASLYDIQQKYGDVTDSDDILKWLRSVAG MSQKEVYDAAGFGNPVSRGVHPAIIVVDFSYGFTDLQYPTASDASLQMSRTKEICDLARALEFPVIFTTIAYHPGEIPMLPWLEKSSGMAALLYGSRLVEIDMATGIQPNDVVVVKKGASSFFGSTLSSLLAGTNTDTVVVTGATTSGCVRATVVDAVQSGFKVLVPADCCADRAKGPHEASLYDIQQKYGDVTDSDDILKWLRSVAG 4l0j-a2-m1-cA_4l0j-a2-m2-cA Structure of a translocation signal domain mediating conjugative transfer by type IV secretion systems Q6TDU5 Q6TDU5 1.85 X-RAY DIFFRACTION 73 1.0 562 (Escherichia coli) 562 (Escherichia coli) 210 210 DRNVRYARLAGDFAASVKAGEESVAQVSGVREQAILTQAIRSELKTQGVLGHPEVTTALSPVWLDSRSRYLRDYRPGVEQWNPETRSHDRYVIDRVTAQSHSLTLRDAQGETQVVRISSLDSSWSLFRPEKPVADGERLRVTGKIPGLRVSGGDRLQVASVSEDATVVVPGRAEPASLPVSDSPFTALKLENGWVETPGHSVSDSATVFA DRNVRYARLAGDFAASVKAGEESVAQVSGVREQAILTQAIRSELKTQGVLGHPEVTTALSPVWLDSRSRYLRDYRPGVEQWNPETRSHDRYVIDRVTAQSHSLTLRDAQGETQVVRISSLDSSWSLFRPEKPVADGERLRVTGKIPGLRVSGGDRLQVASVSEDATVVVPGRAEPASLPVSDSPFTALKLENGWVETPGHSVSDSATVFA 4l0k-a2-m1-cB_4l0k-a2-m1-cD Crystal structure of a type II restriction endonuclease A0A067XG67 A0A067XG67 2.328 X-RAY DIFFRACTION 44 0.98 32062 (Deinococcus radiophilus) 32062 (Deinococcus radiophilus) 202 207 4l0k-a1-m1-cC_4l0k-a1-m1-cA MELCHKTVKPHKCQLPLGHSGKCLEFPFLVSLSKTHPRIAAKIVRDATMTMPRYVAILDDDILLEKFNLDMQSLPEITRLKIREKAADYDSCIDVARKLTWLAYQLHGAPIPDSFTKNYLEEFFGPMVAGSTNCEICKLPLTIDLFSENRVAAVETAHKTPRLHNAENVGFAHRFCNVAQGNKSLDEFYLWMEEVLTRVKML MELCHKTVKSRTAYSKHFPHKCQLPLGHSGKCLEFPFLVSLSKTHPRIAAKIVRDATMTMPRYVAILDDDILLEKFNLDMQSLPEITRLKIREKAADYDSCIDVARKLTWLAYQLHGAPIPDSFTKNYLEEFFGPMVAGSTNCEICKLPLTIDLFSAAVETAHKTPRLHNAENVGFAHRFCNVAQGNKSLDEFYLWMEEVLTRVKML 4l0m-a1-m1-cA_4l0m-a1-m2-cA Crystal structure of a putative 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase from Borrelia burgdorferi B31 bound to Adenine (Target NYSGRC-029268 ) O50162 O50162 1.7 X-RAY DIFFRACTION 112 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 233 233 ILIISAQEESEEINKILDNKEEIVLNDYLENKKIYKGKILGKDVISLTTGIGKVNAATWSSQIISKYKITHIINSGSSGGIKENSNLKILDIIVSSETAYYDFDLTKFGHKIGQVPNLPQKFKADEELLKKVANIVDNKLLNIDIHIGLILTGDQFVDNEKNLETIKKNFKDALAVDEGAAIAQVAHIFKIPFIIIRSISDLPNNKDNHIDFNKFLKTSSINSSKTKELIRLI ILIISAQEESEEINKILDNKEEIVLNDYLENKKIYKGKILGKDVISLTTGIGKVNAATWSSQIISKYKITHIINSGSSGGIKENSNLKILDIIVSSETAYYDFDLTKFGHKIGQVPNLPQKFKADEELLKKVANIVDNKLLNIDIHIGLILTGDQFVDNEKNLETIKKNFKDALAVDEGAAIAQVAHIFKIPFIIIRSISDLPNNKDNHIDFNKFLKTSSINSSKTKELIRLI 4l0q-a1-m1-cA_4l0q-a1-m1-cB Crystal structure of S-nitrosoglutathione reductase from Arabidopsis thaliana, C370A/C373A double mutant Q96533 Q96533 1.95 X-RAY DIFFRACTION 111 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 378 378 3uko-a1-m1-cA_3uko-a1-m1-cB 3uko-a2-m1-cA_3uko-a2-m1-cB 3uko-a2-m2-cA_3uko-a2-m2-cB 4dl9-a1-m1-cA_4dl9-a1-m1-cB 4dla-a1-m1-cA_4dla-a1-m1-cB 4dlb-a1-m1-cA_4dlb-a1-m1-cB 4gl4-a3-m1-cA_4gl4-a3-m1-cB 4jji-a1-m1-cA_4jji-a1-m1-cB ATQGQVITCKAAVAYEPNKPLVIEDVQVAPPQAGEVRIKILYTALCHTDAYTWSGKDPEGLFPCILGHEAAGIVESVGEGVTEVQAGDHVIPCYQAECRECKFCKSGKTNLCGKVRSATGVGIMMNDRKSRFSVNGKPIYHFMGTSTFSQYTVVHDVSVAKIDPTAPLDKVCLLGCGVPTGLGAVWNTAKVEPGSNVAIFGLGTVGLAVAEGAKTAGASRIIGIDIDSKKYETAKKFGVNEFVNPKDHDKPIQEVIVDLTDGGVDYSFECIGNVSVMRAALECCHKGWGTSVIVGVAASGQEISTRPFQLVTGRVWKGTAFGGFKSRTQVPWLVEKYMNKEIKVDEYITHNLTLGEINKAFDLLHEGTALRAVLDTSK ATQGQVITCKAAVAYEPNKPLVIEDVQVAPPQAGEVRIKILYTALCHTDAYTWSGKDPEGLFPCILGHEAAGIVESVGEGVTEVQAGDHVIPCYQAECRECKFCKSGKTNLCGKVRSATGVGIMMNDRKSRFSVNGKPIYHFMGTSTFSQYTVVHDVSVAKIDPTAPLDKVCLLGCGVPTGLGAVWNTAKVEPGSNVAIFGLGTVGLAVAEGAKTAGASRIIGIDIDSKKYETAKKFGVNEFVNPKDHDKPIQEVIVDLTDGGVDYSFECIGNVSVMRAALECCHKGWGTSVIVGVAASGQEISTRPFQLVTGRVWKGTAFGGFKSRTQVPWLVEKYMNKEIKVDEYITHNLTLGEINKAFDLLHEGTALRAVLDTSK 4l0r-a1-m1-cB_4l0r-a1-m1-cA Crystal structure of FGF2-interacting protein from Homo sapiens. Northeast Structural Genomics Consortium Target HR9027A. Q86XR8 Q86XR8 2.49 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 74 GINEELSEVLQTLQDEFGQMSFDHQQLAKLIQESPTVELKDKLECELEALVGRMEAKANQITKVRKYQAQLEK GINEELSEVLQTLQDEFGQMSFDHQQLAKLIQESPTVELKDKLECELEALVGRMEAKANQITKVRKYQAQLEKQ 4l0u-a1-m1-cD_4l0u-a1-m1-cC Crystal structure of Plasmodium vivax Prx1a A5K421 A5K421 2.5 X-RAY DIFFRACTION 95 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 171 172 2h66-a1-m1-cA_2h66-a1-m1-cB 2h66-a1-m1-cD_2h66-a1-m1-cC 2h66-a1-m1-cE_2h66-a1-m1-cF 2h66-a1-m1-cH_2h66-a1-m1-cG 2h66-a1-m1-cJ_2h66-a1-m1-cI 2i81-a1-m1-cA_2i81-a1-m2-cA 2i81-a1-m1-cB_2i81-a1-m1-cC 2i81-a1-m1-cD_2i81-a1-m1-cE 2i81-a1-m2-cB_2i81-a1-m2-cC 2i81-a1-m2-cD_2i81-a1-m2-cE 4l0u-a1-m1-cA_4l0u-a1-m1-cB 4l0u-a1-m1-cE_4l0u-a1-m1-cF 4l0u-a1-m1-cH_4l0u-a1-m1-cG 4l0u-a1-m1-cI_4l0u-a1-m1-cJ PTYVGKEAPFFKAEAVFGDNSFGEVNLTQFIGKKYVLLYFYPLDFTFVCPSEIIALDKALDAFHERNVELLGCSVDSKYTHLAWKKTPLAKGGIGNIKHTLLSDITKSISKDYNVLFDDSVSLRAFVLIDMNGIVQHLLVNNLAIGRSVDEILRIIDAIQHHEKYGDVCPA SPTYVGKEAPFFKAEAVFGDNSFGEVNLTQFIGKKYVLLYFYPLDFTFVCPSEIIALDKALDAFHERNVELLGCSVDSKYTHLAWKKTPLAKGGIGNIKHTLLSDITKSISKDYNVLFDDSVSLRAFVLIDMNGIVQHLLVNNLAIGRSVDEILRIIDAIQHHEKYGDVCPA 4l0u-a1-m1-cF_4l0u-a1-m1-cJ Crystal structure of Plasmodium vivax Prx1a A5K421 A5K421 2.5 X-RAY DIFFRACTION 10 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 169 179 PTYVGKEAPFFKAEAVFGDNSFGEVNLTQFIGKKYVLLYFYPLDFTFVCPSEIIALDKALDAFHERNVELLGCSVDSKYTHLAWKKTPLAKGGIGNIKHTLLSDITKSISKDYNVLFDDSVSLRAFVLIDMNGIVQHLLVNNLAIGRSVDEILRIIDAIQHHEKYGDVC PTYVGKEAPFFKAEAVFGDNSFGEVNLTQFIGKKYVLLYFYPLDFTFVCPSEIIALDKALDAFHERNVELLGCSVDSKYTHLAWKKTPLAKGGIGNIKHTLLSDITKSISKDYNVLFDDSVSLRAFVLIDMNGIVQHLLVNNLAIGRSVDEILRIIDAIQHHEKYGDVCPANWQKGKVS 4l19-a3-m1-cA_4l19-a3-m2-cB Matrix metalloproteinase-13 complexed with selective inhibitor compound Q1 P45452 P45452 1.66 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 170 1xur-a2-m1-cB_1xur-a2-m2-cA 1xur-a2-m2-cB_1xur-a2-m1-cA 1you-a3-m1-cB_1you-a3-m2-cA 1you-a3-m2-cB_1you-a3-m1-cA 2ow9-a3-m1-cB_2ow9-a3-m2-cA 2ow9-a3-m2-cB_2ow9-a3-m1-cA 2ozr-a1-m1-cG_2ozr-a1-m1-cA 2ozr-a1-m1-cH_2ozr-a1-m1-cB 3elm-a1-m1-cA_3elm-a1-m2-cB 3elm-a1-m2-cA_3elm-a1-m1-cB 3i7g-a2-m1-cB_3i7g-a2-m2-cA 3i7g-a2-m2-cB_3i7g-a2-m1-cA 3i7i-a2-m1-cB_3i7i-a2-m2-cA 3i7i-a2-m2-cB_3i7i-a2-m1-cA 3kry-a5-m1-cA_3kry-a5-m2-cC 3kry-a5-m1-cD_3kry-a5-m1-cB 3o2x-a5-m1-cB_3o2x-a5-m1-cD 3o2x-a5-m2-cA_3o2x-a5-m2-cC 3o2x-a6-m1-cA_3o2x-a6-m1-cC 3o2x-a7-m1-cB_3o2x-a7-m1-cD 3zxh-a1-m1-cA_3zxh-a1-m2-cB 3zxh-a1-m1-cB_3zxh-a1-m2-cA 4a7b-a1-m1-cB_4a7b-a1-m2-cA 4a7b-a1-m2-cB_4a7b-a1-m1-cA 4l19-a3-m2-cA_4l19-a3-m1-cB YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPG YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGDEDP 4l1c-a1-m1-cA_4l1c-a1-m1-cB Crystal structure of Dimerized N-terminal Domain of MinC Q1RCS1 Q1RCS1 2.28 X-RAY DIFFRACTION 131 1.0 364106 (Escherichia coli UTI89) 364106 (Escherichia coli UTI89) 98 98 TPIELKGSSFTLSVVHLHEAEPKVIHQALEDKIAQAPAFLKHAPVVLNVSALEDPVNWSAMHKAVSATGLRVIGVSGCKDAQLKAEIEKMGLPILTEG TPIELKGSSFTLSVVHLHEAEPKVIHQALEDKIAQAPAFLKHAPVVLNVSALEDPVNWSAMHKAVSATGLRVIGVSGCKDAQLKAEIEKMGLPILTEG 4l1f-a1-m1-cA_4l1f-a1-m2-cB Electron transferring flavoprotein of Acidaminococcus fermentans: Towards a mechanism of flavin-based electron bifurcation D2RL84 D2RL84 1.79 X-RAY DIFFRACTION 116 1.0 591001 (Acidaminococcus fermentans DSM 20731) 591001 (Acidaminococcus fermentans DSM 20731) 380 380 4l1f-a1-m1-cB_4l1f-a1-m2-cA MDFNLTEDQQMIKDMAAEFAEKFLAPTVEERDKAHIWDRKLIDKMGEAGFCGICFPEEYGGMGLDVLSYILAVEELSKVDDGTGITLSANVSLCATPIYMFGTEEQKQKYLAPIAEGTHVGAFGLTEPSAGTDASAQQTTAVLKGDKYILNGSKIFITNGKEADTYVVFAMTDKSQGVHGISAFILEKGMPGFRFGKIEDKMGGHTSITAELIFEDCEVPKENLLGKEGEGFKIAMETLDGGRIGVAAQALGIAEGALAAAVKYSKEREQFGRSISKFQALQFMMADMATKIEAARYLVYHAAMLKNEGKPYSEAAAMAKCFASDVAMEVTTDAVQIFGGYGYTVDYPAERYMRNAKITQIYEGTNQVMRIVTSRALLRD MDFNLTEDQQMIKDMAAEFAEKFLAPTVEERDKAHIWDRKLIDKMGEAGFCGICFPEEYGGMGLDVLSYILAVEELSKVDDGTGITLSANVSLCATPIYMFGTEEQKQKYLAPIAEGTHVGAFGLTEPSAGTDASAQQTTAVLKGDKYILNGSKIFITNGKEADTYVVFAMTDKSQGVHGISAFILEKGMPGFRFGKIEDKMGGHTSITAELIFEDCEVPKENLLGKEGEGFKIAMETLDGGRIGVAAQALGIAEGALAAAVKYSKEREQFGRSISKFQALQFMMADMATKIEAARYLVYHAAMLKNEGKPYSEAAAMAKCFASDVAMEVTTDAVQIFGGYGYTVDYPAERYMRNAKITQIYEGTNQVMRIVTSRALLRD 4l1f-a1-m1-cB_4l1f-a1-m2-cB Electron transferring flavoprotein of Acidaminococcus fermentans: Towards a mechanism of flavin-based electron bifurcation D2RL84 D2RL84 1.79 X-RAY DIFFRACTION 10 1.0 591001 (Acidaminococcus fermentans DSM 20731) 591001 (Acidaminococcus fermentans DSM 20731) 380 380 4l1f-a1-m1-cA_4l1f-a1-m2-cA MDFNLTEDQQMIKDMAAEFAEKFLAPTVEERDKAHIWDRKLIDKMGEAGFCGICFPEEYGGMGLDVLSYILAVEELSKVDDGTGITLSANVSLCATPIYMFGTEEQKQKYLAPIAEGTHVGAFGLTEPSAGTDASAQQTTAVLKGDKYILNGSKIFITNGKEADTYVVFAMTDKSQGVHGISAFILEKGMPGFRFGKIEDKMGGHTSITAELIFEDCEVPKENLLGKEGEGFKIAMETLDGGRIGVAAQALGIAEGALAAAVKYSKEREQFGRSISKFQALQFMMADMATKIEAARYLVYHAAMLKNEGKPYSEAAAMAKCFASDVAMEVTTDAVQIFGGYGYTVDYPAERYMRNAKITQIYEGTNQVMRIVTSRALLRD MDFNLTEDQQMIKDMAAEFAEKFLAPTVEERDKAHIWDRKLIDKMGEAGFCGICFPEEYGGMGLDVLSYILAVEELSKVDDGTGITLSANVSLCATPIYMFGTEEQKQKYLAPIAEGTHVGAFGLTEPSAGTDASAQQTTAVLKGDKYILNGSKIFITNGKEADTYVVFAMTDKSQGVHGISAFILEKGMPGFRFGKIEDKMGGHTSITAELIFEDCEVPKENLLGKEGEGFKIAMETLDGGRIGVAAQALGIAEGALAAAVKYSKEREQFGRSISKFQALQFMMADMATKIEAARYLVYHAAMLKNEGKPYSEAAAMAKCFASDVAMEVTTDAVQIFGGYGYTVDYPAERYMRNAKITQIYEGTNQVMRIVTSRALLRD 4l1f-a2-m1-cA_4l1f-a2-m1-cB Electron transferring flavoprotein of Acidaminococcus fermentans: Towards a mechanism of flavin-based electron bifurcation D2RL84 D2RL84 1.79 X-RAY DIFFRACTION 107 1.0 591001 (Acidaminococcus fermentans DSM 20731) 591001 (Acidaminococcus fermentans DSM 20731) 380 380 4l1f-a1-m1-cA_4l1f-a1-m1-cB 4l1f-a1-m2-cA_4l1f-a1-m2-cB MDFNLTEDQQMIKDMAAEFAEKFLAPTVEERDKAHIWDRKLIDKMGEAGFCGICFPEEYGGMGLDVLSYILAVEELSKVDDGTGITLSANVSLCATPIYMFGTEEQKQKYLAPIAEGTHVGAFGLTEPSAGTDASAQQTTAVLKGDKYILNGSKIFITNGKEADTYVVFAMTDKSQGVHGISAFILEKGMPGFRFGKIEDKMGGHTSITAELIFEDCEVPKENLLGKEGEGFKIAMETLDGGRIGVAAQALGIAEGALAAAVKYSKEREQFGRSISKFQALQFMMADMATKIEAARYLVYHAAMLKNEGKPYSEAAAMAKCFASDVAMEVTTDAVQIFGGYGYTVDYPAERYMRNAKITQIYEGTNQVMRIVTSRALLRD MDFNLTEDQQMIKDMAAEFAEKFLAPTVEERDKAHIWDRKLIDKMGEAGFCGICFPEEYGGMGLDVLSYILAVEELSKVDDGTGITLSANVSLCATPIYMFGTEEQKQKYLAPIAEGTHVGAFGLTEPSAGTDASAQQTTAVLKGDKYILNGSKIFITNGKEADTYVVFAMTDKSQGVHGISAFILEKGMPGFRFGKIEDKMGGHTSITAELIFEDCEVPKENLLGKEGEGFKIAMETLDGGRIGVAAQALGIAEGALAAAVKYSKEREQFGRSISKFQALQFMMADMATKIEAARYLVYHAAMLKNEGKPYSEAAAMAKCFASDVAMEVTTDAVQIFGGYGYTVDYPAERYMRNAKITQIYEGTNQVMRIVTSRALLRD 4l1j-a1-m1-cA_4l1j-a1-m1-cB Three dimensional structure of mutant D143A of human HD domain-containing protein 2, Northeast Structural Genomics Consortium (NESG) Target HR6723 Q7Z4H3 Q7Z4H3 1.824 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 187 4dmb-a1-m1-cA_4dmb-a1-m1-cB 4l7e-a1-m1-cA_4l7e-a1-m1-cB 4l7w-a1-m1-cA_4l7w-a1-m2-cA GARSLLQFLRLVGQLKRVPRTGWVYRNVQRPESVSDHYRAVAVIKDDRLNKDRCVRLALVHDAECIVGDIAPADNIPKEEKHRREEEAKQITQLLPEDLRKELYELWEEYETQSSAEAKFVKQLAQCEILQASEYEDLEHKPGRLQDFYDSTAGKFNHPEIVQLVSELEAERSTNIAAAAS SATFGHGARSLLQFLRLVGQLKRVPRTGWVYRNVQRPESVSDHYRAVAVIKDDRLNKDRCVRLALVHDAECIVGDIAPADNIPKEEKHRREEEAKQITQLLPEDLRKELYELWEEYETQSSAEAKFVKQLAQCEILQASEYEDLEHKPGRLQDFYDSTAGKFNHPEIVQLVSELEAERSTNIAAAAS 4l37-a1-m2-cB_4l37-a1-m3-cB SP2-SP3 - a complex of two storage proteins from Bombyx mori hemolymph Q1HPP4 Q1HPP4 2.9 X-RAY DIFFRACTION 41 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 667 667 3wjm-a1-m1-cE_3wjm-a1-m1-cF 4l37-a1-m1-cB_4l37-a1-m2-cB 4l37-a1-m1-cB_4l37-a1-m3-cB IKTKNVDAVFVEKQKKILSFFQDVSQLNTDDEYYKIGKDYDIEMNMDNYTNKKAVEEFLKMYRTGFMPKNLEFSVFYDKMRDEAIALFHLFYYAKDFETFYKTACFARVHLNQGQFLYAFYIAVIQRSDCHGFVVPAPYEVYPKMFMNMEVLQKIYVTKMQDGLINPEAAAKYGIHKENDYFVYKANYSNAVLYNNEEQRLTYFTEDIGMNAYYYYFHSHLPFWWTSEKYGALKERRGEVYFYFYQQLLARYYFERLTNGLGKIPEFSWYSPIKTGYYPLMLTKFTPFAQRPDYYNLHTEENYERVRFLDTYEKTFVQFLQKDHFEAFGQKIDFHDPKAINFVGNYWQDNADLYGEEVTKDYQRSYEVFARRVLGAAPMPFDKYTFMPSAMDFYQTSLRDPAFYQLYNRIVEYIVEFKQYLKPYTQDKLYFDGVKITDVKVDKLTTFFENFEFDASNSVYFSKEEIKNNHVHDVKVRQPRLNHSPFNVNIEVDSNVASDAVVKIFLAPKYDDNGIPLTLEDNWMKFFELDWFTTKLTAGQNKIIRNSNEFVIFKEDSVPMTEIMKMLDEGKVPFDMSEEFCYMPKRLMLPRGTEGGFPFQLFVFVYPFDNKGKDLAPFESFVLDNKPLGFPLDRPVVDALFKVPNMYFKDIFIYHEGERFPYKFNIP IKTKNVDAVFVEKQKKILSFFQDVSQLNTDDEYYKIGKDYDIEMNMDNYTNKKAVEEFLKMYRTGFMPKNLEFSVFYDKMRDEAIALFHLFYYAKDFETFYKTACFARVHLNQGQFLYAFYIAVIQRSDCHGFVVPAPYEVYPKMFMNMEVLQKIYVTKMQDGLINPEAAAKYGIHKENDYFVYKANYSNAVLYNNEEQRLTYFTEDIGMNAYYYYFHSHLPFWWTSEKYGALKERRGEVYFYFYQQLLARYYFERLTNGLGKIPEFSWYSPIKTGYYPLMLTKFTPFAQRPDYYNLHTEENYERVRFLDTYEKTFVQFLQKDHFEAFGQKIDFHDPKAINFVGNYWQDNADLYGEEVTKDYQRSYEVFARRVLGAAPMPFDKYTFMPSAMDFYQTSLRDPAFYQLYNRIVEYIVEFKQYLKPYTQDKLYFDGVKITDVKVDKLTTFFENFEFDASNSVYFSKEEIKNNHVHDVKVRQPRLNHSPFNVNIEVDSNVASDAVVKIFLAPKYDDNGIPLTLEDNWMKFFELDWFTTKLTAGQNKIIRNSNEFVIFKEDSVPMTEIMKMLDEGKVPFDMSEEFCYMPKRLMLPRGTEGGFPFQLFVFVYPFDNKGKDLAPFESFVLDNKPLGFPLDRPVVDALFKVPNMYFKDIFIYHEGERFPYKFNIP 4l3b-a1-m7-cC_4l3b-a1-m9-cC X-ray structure of the HRV2 A particle uncoating intermediate P04936 P04936 6.5 X-RAY DIFFRACTION 12 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 237 237 4l3b-a1-m10-cC_4l3b-a1-m7-cC 4l3b-a1-m10-cC_4l3b-a1-m8-cC 4l3b-a1-m11-cC_4l3b-a1-m13-cC 4l3b-a1-m11-cC_4l3b-a1-m14-cC 4l3b-a1-m12-cC_4l3b-a1-m14-cC 4l3b-a1-m12-cC_4l3b-a1-m15-cC 4l3b-a1-m13-cC_4l3b-a1-m15-cC 4l3b-a1-m16-cC_4l3b-a1-m18-cC 4l3b-a1-m16-cC_4l3b-a1-m19-cC 4l3b-a1-m17-cC_4l3b-a1-m19-cC 4l3b-a1-m17-cC_4l3b-a1-m20-cC 4l3b-a1-m18-cC_4l3b-a1-m20-cC 4l3b-a1-m1-cC_4l3b-a1-m3-cC 4l3b-a1-m1-cC_4l3b-a1-m4-cC 4l3b-a1-m21-cC_4l3b-a1-m23-cC 4l3b-a1-m21-cC_4l3b-a1-m24-cC 4l3b-a1-m22-cC_4l3b-a1-m24-cC 4l3b-a1-m22-cC_4l3b-a1-m25-cC 4l3b-a1-m23-cC_4l3b-a1-m25-cC 4l3b-a1-m26-cC_4l3b-a1-m28-cC 4l3b-a1-m26-cC_4l3b-a1-m29-cC 4l3b-a1-m27-cC_4l3b-a1-m29-cC 4l3b-a1-m27-cC_4l3b-a1-m30-cC 4l3b-a1-m28-cC_4l3b-a1-m30-cC 4l3b-a1-m2-cC_4l3b-a1-m4-cC 4l3b-a1-m2-cC_4l3b-a1-m5-cC 4l3b-a1-m31-cC_4l3b-a1-m33-cC 4l3b-a1-m31-cC_4l3b-a1-m34-cC 4l3b-a1-m32-cC_4l3b-a1-m34-cC 4l3b-a1-m32-cC_4l3b-a1-m35-cC 4l3b-a1-m33-cC_4l3b-a1-m35-cC 4l3b-a1-m36-cC_4l3b-a1-m38-cC 4l3b-a1-m36-cC_4l3b-a1-m39-cC 4l3b-a1-m37-cC_4l3b-a1-m39-cC 4l3b-a1-m37-cC_4l3b-a1-m40-cC 4l3b-a1-m38-cC_4l3b-a1-m40-cC 4l3b-a1-m3-cC_4l3b-a1-m5-cC 4l3b-a1-m41-cC_4l3b-a1-m43-cC 4l3b-a1-m41-cC_4l3b-a1-m44-cC 4l3b-a1-m42-cC_4l3b-a1-m44-cC 4l3b-a1-m42-cC_4l3b-a1-m45-cC 4l3b-a1-m43-cC_4l3b-a1-m45-cC 4l3b-a1-m46-cC_4l3b-a1-m48-cC 4l3b-a1-m46-cC_4l3b-a1-m49-cC 4l3b-a1-m47-cC_4l3b-a1-m49-cC 4l3b-a1-m47-cC_4l3b-a1-m50-cC 4l3b-a1-m48-cC_4l3b-a1-m50-cC 4l3b-a1-m51-cC_4l3b-a1-m53-cC 4l3b-a1-m51-cC_4l3b-a1-m54-cC 4l3b-a1-m52-cC_4l3b-a1-m54-cC 4l3b-a1-m52-cC_4l3b-a1-m55-cC 4l3b-a1-m53-cC_4l3b-a1-m55-cC 4l3b-a1-m56-cC_4l3b-a1-m58-cC 4l3b-a1-m56-cC_4l3b-a1-m59-cC 4l3b-a1-m57-cC_4l3b-a1-m59-cC 4l3b-a1-m57-cC_4l3b-a1-m60-cC 4l3b-a1-m58-cC_4l3b-a1-m60-cC 4l3b-a1-m6-cC_4l3b-a1-m8-cC 4l3b-a1-m6-cC_4l3b-a1-m9-cC GLPVFITPGSGQFLTTDDFQSPCALPWYHPTKEISIPGEVKNLVEICQVDSLVPINNTDTYINSENMYSVVLQSSINAPDKIFSIRTDVASQPLATTLIGEISSYFTHWTGSLRFSFMFCGTANTTVKLLLAYTPPGIAEPTTRKDAMLGTHVIWDVGLQSTISMVVPWISASHYRNTSPGRSTSGYITCWYQTRLVIPPQTPPTARLLCFVSGCKDFCLRMARDTNLHLQSGAIAQ GLPVFITPGSGQFLTTDDFQSPCALPWYHPTKEISIPGEVKNLVEICQVDSLVPINNTDTYINSENMYSVVLQSSINAPDKIFSIRTDVASQPLATTLIGEISSYFTHWTGSLRFSFMFCGTANTTVKLLLAYTPPGIAEPTTRKDAMLGTHVIWDVGLQSTISMVVPWISASHYRNTSPGRSTSGYITCWYQTRLVIPPQTPPTARLLCFVSGCKDFCLRMARDTNLHLQSGAIAQ 4l3r-a1-m1-cA_4l3r-a1-m1-cB Crystal structure of a DUF4847 family protein (BACEGG_01241) from Bacteroides eggerthii DSM 20697 at 2.23 A resolution 2.23 X-RAY DIFFRACTION 53 1.0 483216 (Bacteroides eggerthii DSM 20697) 483216 (Bacteroides eggerthii DSM 20697) 141 142 DDVEIFNDKTWKLSRITTEKGKEQFYQGLWSNEAEEKASRELLKITENFTLNFNCADVNGEVTGTVSAHAVKANISDAILKIDGKEHTISISGKAYGSESDKLAKVFISGLFNVFKYEGDVHNLTLYFKDGNTTKVGFTAR EDDVEIFNDKTWKLSRITTEKGKEQFYQGLWSNEAEEKASRELLKITENFTLNFNCADVNGEVTGTVSAHAVKANISDAILKIDGKEHTISISGKAYGSESDKLAKVFISGLFNVFKYEGDVHNLTLYFKDGNTTKVGFTAR 4l4q-a1-m1-cB_4l4q-a1-m1-cD Methionine Adenosyltransferase Q5JF22 Q5JF22 2 X-RAY DIFFRACTION 66 1.0 311400 (Thermococcus kodakarensis) 311400 (Thermococcus kodakarensis) 401 402 4l4q-a1-m1-cA_4l4q-a1-m1-cC VRNIVVEELVRTPVEMQKVELVERKGIGHPDSIADGIAEAVSRALSREYVKRYGIILHHNTDQVEVVGGRAYPQFGGGEVIKPIYILLSGRAVEMVDREFFPVHEIALKAAKDYLRKAVRHLDLEHHVIIDSRIGQGSVDLVGVFNKAKKNPIPLANDTSFGVGYAPLSETEKIVLETEKYLNSDEFKKKYPAVGEDIKVMGLRKGDEIDLTIAAAIVDSEVDNPDDYMAVKEAIYEAAKGIVESHTERPTNIYVNTADDPKEGIYYITVTGTSAEAGDDGSVGRGNRVNGLITPNRHMSMEAAAGKNPVSHVGKIYNILSMLIANDIAEQVEGVEEVYVRILSQIGKPIDEPLVASVQIIPKKGYSIDVLQKPAYEIADEWLANITKIQKMILEDKVNVF KVRNIVVEELVRTPVEMQKVELVERKGIGHPDSIADGIAEAVSRALSREYVKRYGIILHHNTDQVEVVGGRAYPQFGGGEVIKPIYILLSGRAVEMVDREFFPVHEIALKAAKDYLRKAVRHLDLEHHVIIDSRIGQGSVDLVGVFNKAKKNPIPLANDTSFGVGYAPLSETEKIVLETEKYLNSDEFKKKYPAVGEDIKVMGLRKGDEIDLTIAAAIVDSEVDNPDDYMAVKEAIYEAAKGIVESHTERPTNIYVNTADDPKEGIYYITVTGTSAEAGDDGSVGRGNRVNGLITPNRHMSMEAAAGKNPVSHVGKIYNILSMLIANDIAEQVEGVEEVYVRILSQIGKPIDEPLVASVQIIPKKGYSIDVLQKPAYEIADEWLANITKIQKMILEDKVNVF 4l4q-a3-m1-cC_4l4q-a3-m1-cD Methionine Adenosyltransferase Q5JF22 Q5JF22 2 X-RAY DIFFRACTION 148 1.0 311400 (Thermococcus kodakarensis) 311400 (Thermococcus kodakarensis) 402 402 4l4q-a1-m1-cB_4l4q-a1-m1-cA 4l4q-a1-m1-cC_4l4q-a1-m1-cD 4l4q-a2-m1-cB_4l4q-a2-m1-cA KVRNIVVEELVRTPVEMQKVELVERKGIGHPDSIADGIAEAVSRALSREYVKRYGIILHHNTDQVEVVGGRAYPQFGGGEVIKPIYILLSGRAVEMVDREFFPVHEIALKAAKDYLRKAVRHLDLEHHVIIDSRIGQGSVDLVGVFNKAKKNPIPLANDTSFGVGYAPLSETEKIVLETEKYLNSDEFKKKYPAVGEDIKVMGLRKGDEIDLTIAAAIVDSEVDNPDDYMAVKEAIYEAAKGIVESHTERPTNIYVNTADDPKEGIYYITVTGTSAEAGDDGSVGRGNRVNGLITPNRHMSMEAAAGKNPVSHVGKIYNILSMLIANDIAEQVEGVEEVYVRILSQIGKPIDEPLVASVQIIPKKGYSIDVLQKPAYEIADEWLANITKIQKMILEDKVNVF KVRNIVVEELVRTPVEMQKVELVERKGIGHPDSIADGIAEAVSRALSREYVKRYGIILHHNTDQVEVVGGRAYPQFGGGEVIKPIYILLSGRAVEMVDREFFPVHEIALKAAKDYLRKAVRHLDLEHHVIIDSRIGQGSVDLVGVFNKAKKNPIPLANDTSFGVGYAPLSETEKIVLETEKYLNSDEFKKKYPAVGEDIKVMGLRKGDEIDLTIAAAIVDSEVDNPDDYMAVKEAIYEAAKGIVESHTERPTNIYVNTADDPKEGIYYITVTGTSAEAGDDGSVGRGNRVNGLITPNRHMSMEAAAGKNPVSHVGKIYNILSMLIANDIAEQVEGVEEVYVRILSQIGKPIDEPLVASVQIIPKKGYSIDVLQKPAYEIADEWLANITKIQKMILEDKVNVF 4l4x-a1-m1-cA_4l4x-a1-m2-cA An A2-type ketoreductase from a modular polyketide synthase Q93NX9 Q93NX9 2.55 X-RAY DIFFRACTION 39 1.0 40318 (Streptomyces nodosus) 40318 (Streptomyces nodosus) 503 503 DAAFWTAVEDGDVSALTAALGTDEDSVAAVLPALSSWRRARKERSTVDSWRYRPTWKPVTKLPQRTLDGTWLLVSADGVDDTDVAEALETGGAEVRRLVLDESCTDRAVLRERLTDADGLTGIVSVLAGAERTGAVPGTGLVLGVALTVALVQALGDAGIDTPLWALTRGAVSTGRSDKVTAPVQAQVTGIGWTAALECPGRWGGVVDLPETLDARAGQRLAAVLAGALGDDDQIALRSSGVFTRRIVRADAARDWKPRGTTLVTGGSGTLAPHLARWLAEQGAEHLVLVSRRGPEAPGAAELRAELAERGTETTLAACDITDRDAVAALLESLKAEGRTVRTVVHTAATIELHTLDATTLDDFDRVLAAKVTGAQILDELLDDEELDDFVLYSSTAGMWGSGAHAAYVAGNAYLAALAEHRRARGLTALSLSWGIWAQMIRRSGLEFMDPQLALSGLKRALDDDEQVIAVADVDWETYHPVYTSARPTPLFDEVPEVQRLTA DAAFWTAVEDGDVSALTAALGTDEDSVAAVLPALSSWRRARKERSTVDSWRYRPTWKPVTKLPQRTLDGTWLLVSADGVDDTDVAEALETGGAEVRRLVLDESCTDRAVLRERLTDADGLTGIVSVLAGAERTGAVPGTGLVLGVALTVALVQALGDAGIDTPLWALTRGAVSTGRSDKVTAPVQAQVTGIGWTAALECPGRWGGVVDLPETLDARAGQRLAAVLAGALGDDDQIALRSSGVFTRRIVRADAARDWKPRGTTLVTGGSGTLAPHLARWLAEQGAEHLVLVSRRGPEAPGAAELRAELAERGTETTLAACDITDRDAVAALLESLKAEGRTVRTVVHTAATIELHTLDATTLDDFDRVLAAKVTGAQILDELLDDEELDDFVLYSSTAGMWGSGAHAAYVAGNAYLAALAEHRRARGLTALSLSWGIWAQMIRRSGLEFMDPQLALSGLKRALDDDEQVIAVADVDWETYHPVYTSARPTPLFDEVPEVQRLTA 4l57-a1-m1-cA_4l57-a1-m2-cB High resolutin structure of human cytosolic 5'(3')-deoxyribonucleotidase Q8TCD5 Q8TCD5 1.08 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 2i7d-a1-m1-cB_2i7d-a1-m1-cA 4yih-a1-m1-cB_4yih-a1-m1-cA 6g2n-a1-m1-cA_6g2n-a1-m1-cB SVRVLVDMDGVLADFEAGLLRGFRRRFPEEPHVPLEQRRGFLAREQYRALRPDLADKVASVYEAPGFFLDLEPIPGALDAVREMNDLPDTQVFICTSPLLKYHHCVGEKYRWVEQHLGPQFVERIILTRDKTVVLGDLLIDDKDTVRGQEETPSWEHILFTCCHNRHLVLPPTRRRLLSWSDNWREILDSKR SVRVLVDMDGVLADFEAGLLRGFRRRFPEEPHVPLEQRRGFLAREQYRALRPDLADKVASVYEAPGFFLDLEPIPGALDAVREMNDLPDTQVFICTSPLLKYHHCVGEKYRWVEQHLGPQFVERIILTRDKTVVLGDLLIDDKDTVRGQEETPSWEHILFTCCHNRHLVLPPTRRRLLSWSDNWREILDSKR 4l59-a1-m1-cA_4l59-a1-m2-cA Crystal structure of the 3-MBT repeat domain of L3MBTL3 and UNC2533 complex Q96JM7 Q96JM7 2.29 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 307 307 4fl6-a1-m1-cB_4fl6-a1-m1-cA WCWASYLEEEKAVAVPAKLFKEHQSFPYNKNGFKVGMKLEGVDPEHQSVYCVLTVAEVCGYRIKLHFDGYSDCYDFWVNADALDIHPVGWCEKTGHKLHPPKGYKEEEFNWQTYLKTCKAQAAPKSLFEVIPSGFRVGMKLEAVDKKNPSFICVATVTDMVDNRFLVHFDNWDESYDYWCEASSPHIHPVGWCKEHRRTLITPPGYNVKHFSWDKYLEETNSLPAPARAFKVKPPHGFQKKMKLEVVDKRNPMFIRVATVADTDDHRVKVHFDGWNNCYDYWIDADSPDIHPVGWCSKTGHPLQPPL WCWASYLEEEKAVAVPAKLFKEHQSFPYNKNGFKVGMKLEGVDPEHQSVYCVLTVAEVCGYRIKLHFDGYSDCYDFWVNADALDIHPVGWCEKTGHKLHPPKGYKEEEFNWQTYLKTCKAQAAPKSLFEVIPSGFRVGMKLEAVDKKNPSFICVATVTDMVDNRFLVHFDNWDESYDYWCEASSPHIHPVGWCKEHRRTLITPPGYNVKHFSWDKYLEETNSLPAPARAFKVKPPHGFQKKMKLEVVDKRNPMFIRVATVADTDDHRVKVHFDGWNNCYDYWIDADSPDIHPVGWCSKTGHPLQPPL 4l5e-a1-m1-cA_4l5e-a1-m2-cA Crystal structure of A. aeolicus NtrC1 DNA binding domain O67198 O67198 1.34 X-RAY DIFFRACTION 13 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 46 46 HKSIKEIEKEEIIKVLKEVNFNKKLASEILGIPLRTLYKRLKEYGI HKSIKEIEKEEIIKVLKEVNFNKKLASEILGIPLRTLYKRLKEYGI 4l5n-a5-m1-cD_4l5n-a5-m1-cC Crystallographic Structure of HHV-1 Uracil-DNA Glycosylase complexed with the Bacillus phage PZA inhibitor protein p56 P06948 P06948 2.16 X-RAY DIFFRACTION 30 1.0 10757 (Bacillus phage PZA) 10757 (Bacillus phage PZA) 49 50 4l5n-a1-m1-cD_4l5n-a1-m1-cC LDSYDVTMLLQDDNGKQYYEYHKGLSLSDFEVLYGNTVDEIIKLRVDKI LDSYDVTMLLQDDNGKQYYEYHKGLSLSDFEVLYGNTVDEIIKLRVDKIS 4l5n-a6-m1-cE_4l5n-a6-m1-cF Crystallographic Structure of HHV-1 Uracil-DNA Glycosylase complexed with the Bacillus phage PZA inhibitor protein p56 P06948 P06948 2.16 X-RAY DIFFRACTION 26 1.0 10757 (Bacillus phage PZA) 10757 (Bacillus phage PZA) 47 48 2le2-a1-m1-cA_2le2-a1-m1-cB 3zoq-a1-m1-cB_3zoq-a1-m1-cC 4l5n-a3-m1-cE_4l5n-a3-m1-cF SYDVTMLLQDDNGKQYYEYHKGLSLSDFEVLYGNTVDEIIKLRVDKI DSYDVTMLLQDDNGKQYYEYHKGLSLSDFEVLYGNTVDEIIKLRVDKI 4l5t-a1-m1-cA_4l5t-a1-m1-cB Crystal structure of the tetrameric p202 HIN2 Q9R002 Q9R002 3.405 X-RAY DIFFRACTION 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 180 185 LLKESFEGDGYHKGPKQVVALKATKLFTYDSIKSKKMFHATVATDTEFFRVMVFEENLEKKFIPGNTIALSDYFGMYGSLAIHEYSSVSEVLKICDLHLQTEERLVDGEFKVYRKSSGNNCICYGIWDDTGAMKVVVSGQLTSVNCEIGNTIRLVCFELTSNADEWFLRATRYSYMEVIM KLLKESFEGDGYHKGPKQVVALKATKLFTYDSIKSKKMFHATVATDTEFFRVMVFEENLEKKFIPGNTIALSDYFGMYGSLAIHEYSSVSEVKSEHLKICDLHLQTEERLVDGEFKVYRKSSGNNCICYGIWDDTGAMKVVVSGQLTSVNCEIGNTIRLVCFELTSNADEWFLRATRYSYMEVIM 4l5t-a1-m1-cD_4l5t-a1-m1-cB Crystal structure of the tetrameric p202 HIN2 Q9R002 Q9R002 3.405 X-RAY DIFFRACTION 31 0.995 10090 (Mus musculus) 10090 (Mus musculus) 183 185 4l5t-a1-m1-cA_4l5t-a1-m1-cC KESFEGDGYHKGPKQVVALKATKLFTYDSIKSKKMFHATVATDTEFFRVMVFEENLEKKFIPGNTIALSDYFGMYGSLAIHEYSSVSEVKSIEHLKICDLHLQTEERLVDGEFKVYRKSSGNNCICYGIWDDTGAMKVVVSGQLTSVNCEIGNTIRLVCFELTSNADEWFLRATRYSYMEVIM KLLKESFEGDGYHKGPKQVVALKATKLFTYDSIKSKKMFHATVATDTEFFRVMVFEENLEKKFIPGNTIALSDYFGMYGSLAIHEYSSVSEVKSEHLKICDLHLQTEERLVDGEFKVYRKSSGNNCICYGIWDDTGAMKVVVSGQLTSVNCEIGNTIRLVCFELTSNADEWFLRATRYSYMEVIM 4l5t-a3-m1-cA_4l5t-a3-m1-cD Crystal structure of the tetrameric p202 HIN2 Q9R002 Q9R002 3.405 X-RAY DIFFRACTION 94 0.989 10090 (Mus musculus) 10090 (Mus musculus) 180 183 4l5t-a1-m1-cA_4l5t-a1-m1-cD 4l5t-a1-m1-cC_4l5t-a1-m1-cB 4l5t-a2-m1-cC_4l5t-a2-m1-cB LLKESFEGDGYHKGPKQVVALKATKLFTYDSIKSKKMFHATVATDTEFFRVMVFEENLEKKFIPGNTIALSDYFGMYGSLAIHEYSSVSEVLKICDLHLQTEERLVDGEFKVYRKSSGNNCICYGIWDDTGAMKVVVSGQLTSVNCEIGNTIRLVCFELTSNADEWFLRATRYSYMEVIM KESFEGDGYHKGPKQVVALKATKLFTYDSIKSKKMFHATVATDTEFFRVMVFEENLEKKFIPGNTIALSDYFGMYGSLAIHEYSSVSEVKSIEHLKICDLHLQTEERLVDGEFKVYRKSSGNNCICYGIWDDTGAMKVVVSGQLTSVNCEIGNTIRLVCFELTSNADEWFLRATRYSYMEVIM 4l62-a2-m1-cG_4l62-a2-m1-cH Crystal Structure of Pseudomonas aeruginosa transcriptional regulator PA2196 bound to its operator DNA Q9I1S1 Q9I1S1 2.9 X-RAY DIFFRACTION 125 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 187 190 3rd3-a1-m1-cA_3rd3-a1-m1-cB 4l62-a1-m1-cB_4l62-a1-m1-cA 4l62-a1-m1-cD_4l62-a1-m1-cC 4l62-a2-m1-cF_4l62-a2-m1-cE 4l62-a3-m1-cJ_4l62-a3-m1-cI 4l62-a3-m1-cL_4l62-a3-m1-cK 4l62-a4-m1-cN_4l62-a4-m1-cM 4l62-a4-m1-cP_4l62-a4-m1-cO DTRQHLLDTGYRIMAVKGFSGVGLNEILQSAGVPKGSFYHYFKSKEQFGQALLEDYFRVYLADMDQRFSAPGLNARERLMSYWQKWLDNACPPCDEQRCLVVKLSAEVADLSESMRITLRDGSDGIIERLVGCLGQGRDDGSLAPCDARHMASALYQLWLGASLLSKLHRSPGPLETAMQTTRSLLE SYDDTRQHLLDTGYRIMAVKGFSGVGLNEILQSAGVPKGSFYHYFKSKEQFGQALLEDYFRVYLADMDQRFSAPGLNARERLMSYWQKWLDNACPPCDEQRCLVVKLSAEVADLSESMRITLRDGSDGIIERLVGCLGQGRDDGSLAPCDARHMASALYQLWLGASLLSKLHRSPGPLETAMQTTRSLLE 4l63-a1-m1-cF_4l63-a1-m1-cE Apo form of AB5 holotoxin Q8GAV3 Q8GAV3 1.8 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 103 104 4l63-a1-m1-cB_4l63-a1-m1-cC 4l63-a1-m1-cC_4l63-a1-m1-cD 4l63-a1-m1-cE_4l63-a1-m1-cD 4l63-a1-m1-cF_4l63-a1-m1-cB 4l6t-a1-m1-cB_4l6t-a1-m1-cC 4l6t-a1-m1-cB_4l6t-a1-m1-cF 4l6t-a1-m1-cC_4l6t-a1-m1-cD 4l6t-a1-m1-cD_4l6t-a1-m1-cE 4l6t-a1-m1-cE_4l6t-a1-m1-cF TPQNITDLCNEYQNTMIYSLNKEIATYTESLAGKREMVIISFSNGATFQVEVPGSQHLESQKRPLERMKDTLRAAYFTGIKISKLCAWTNKSPNSIAAIELSN TPQNITDLCNEYQNTMIYSLNKEIATYTESLAGKREMVIISFSNGATFQVEVPGSQHLESQKRPLERMKDTLRAAYFTGIKISKLCAWTNKSPNSIAAIELSNL 4l69-a1-m1-cA_4l69-a1-m2-cA Rv2372c of Mycobacterium tuberculosis is RsmE like methyltransferse P9WGX1 P9WGX1 2.9 X-RAY DIFFRACTION 100 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 244 244 VAMLFYVDTLPDTGAVAVVDGDEGFHAATVRRIRPGEQLVLGDGVGRLARCVVEQGGLRARVLRRWSVPPVRPPVTVVQALPKSERSELAIELATEAGADAFLAWQAARCVANWDGARVDKGLRRWRAVVRSAARQSRRARIPPVDGVLSTPMLVQRVREEVAAGAAVLVLHEEATERIVDIAAAQAGSLMLVVGPEGGIAPDELAALTDAGAVAVRLGPTVLRTSTAAAVALGAVGVLTSRWD VAMLFYVDTLPDTGAVAVVDGDEGFHAATVRRIRPGEQLVLGDGVGRLARCVVEQGGLRARVLRRWSVPPVRPPVTVVQALPKSERSELAIELATEAGADAFLAWQAARCVANWDGARVDKGLRRWRAVVRSAARQSRRARIPPVDGVLSTPMLVQRVREEVAAGAAVLVLHEEATERIVDIAAAQAGSLMLVVGPEGGIAPDELAALTDAGAVAVRLGPTVLRTSTAAAVALGAVGVLTSRWD 4l6y-a1-m1-cB_4l6y-a1-m1-cA Structure of the microtubule associated protein PRC1 (Protein Regulator of Cytokinesis 1) O43663 O43663 3.3015 X-RAY DIFFRACTION 125 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 432 445 4l3i-a1-m1-cB_4l3i-a1-m1-cA RRSEVLAEESIVCLQKALNHLREIWELIGIPEDQRLQRTEVVKKHIKELLDMMIAEEESLKERLIKSISVCQKELNTLCSELHVEPFQEEGETTILQLEKDLRTQVELMRKQKKERKQELKLLQEQDQELCEILCMPSASVPSLEELNQFRQHVTTLRETKASRREEFVSIKRQIILCMEELDHTPDTSFERDVVCEDEDAFCLSLENIATLQKLLRQLEMQKSQNEAVCEGLRTQIRELWDRLQIPEEEREAVATIMSGSKAKVRKALQLEVDRLEELKMQNMKKVIEAIRVELVQYWDQCQEQRQAFAPFCAEDYTESLLQLHDAEIVRLKNYYEVHKELFEGVQKWEETWRLFLEFERKASDPNRFTNRGGNLLKEEKQRAKLQKMLPKLEEELKARIELWEQEHSKAFMVNGMEYVAEQWEMHRLEKE RRSEVLAEESIVCLQKALNHLREIWELIGIPEDQRLQRTEVVKKHIKELLDMMIAEEESLKERLIKSISVCQKELNTLCSELHVEPFQEEGETTILQLEKDLRTQVELMRKQKKERKQELKLLQEQDQELCEILCMPHYDIDSASVPSLEELNQFRQHVTTLRETKASRREEFVSIKRQIILCMEELDHTPDTSFERDVVCEDEDAFCLSLENIATLQKLLRQLEMQKSQNEAVCEGLRTQIRELWDRLQIPEEEREAVATIMSGSKAKVRKALQLEVDRLEELKMQNMKKVIEAIRVELVQYWDQCFYSQEQRQAFAPFCAEYTESLLQLHDAEIVRLKNYYEVHKELFEGVQKWEETWRLFLEFERKASDPNRRGGNLLKEEKQRAKLQKMLPKLEEELKARIELWEQEHSKAFMVNGQKFMEYVAEQWEMHRLEKERAKQER 4l7a-a3-m1-cB_4l7a-a3-m1-cA Crystal structure of a putative zinc-binding metallo-peptidase (BACCAC_01431) from Bacteroides caccae ATCC 43185 at 2.10 A resolution A5ZEW7 A5ZEW7 2.09 X-RAY DIFFRACTION 59 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 253 254 IFDASEKEKSEFDRWLLENYVNPYNIDFKYREHIESDYTHNLVPTDFWLSVKLAKIVKHCWLEAYDEVGGLDFTRACAPKVIHLIGSASWDKGTYTLGTAEGGLKVTLYGNWLDLTNVDRNEYYFKVHHEFAHILHQKKNYPVDYDKISAGNYTPTGWQNRKLAEVAPLGFVTPYAGSKPSEDIAEVTACFLTYPEAQWENVTLAGEKGKPIIDQKLAVKKYKDSWQVDLDLLRKVIARRTNEISELDLDHIY SIFDASEKEKSEFDRWLLENYVNPYNIDFKYREHIESDYTHNLVPTDFWLSVKLAKIVKHCWLEAYDEVGGLDFTRACAPKVIHLIGSASWDKGTYTLGTAEGGLKVTLYGNWLDLTNVDRNEYYFKVHHEFAHILHQKKNYPVDYDKISAGNYTPTGWQNRKLAEVAPLGFVTPYAGSKPSEDIAEVTACFLTYPEAQWENVTLAGEKGKPIIDQKLAVKKYKDSWQVDLDLLRKVIARRTNEISELDLDHIY 4l7d-a1-m1-cB_4l7d-a1-m1-cC Structure of keap1 kelch domain with (1S,2R)-2-{[(1S)-5-methyl-1-[(1-oxo-1,3-dihydro-2H-isoindol-2-yl)methyl]-3,4-dihydroisoquinolin-2(1H)-yl]carbonyl}cyclohexanecarboxylic acid Q14145 Q14145 2.25 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 287 4l7c-a1-m1-cB_4l7c-a1-m1-cC 4n1b-a1-m1-cB_4n1b-a1-m1-cC 7k2b-a1-m1-cB_7k2b-a1-m1-cA RLIYTAGGYFRQSLSYLEAYNPSDGTWLDLADLQVPRSGLAGCVVGGLLYAVGGRNNSPDGNTDSSALDCYNPMTNQWSPCAPMSVPRNRIGVGVIDGHIYAVGGSHGCIHHNSVERYEPERDEWHLVAPMLTRRIGVGVAVLNRLLYAVGGFDGTNRLNSAECYYPERNEWRMITAMNTIRSGAGVCVLHNCIYAAGGYDGQDQLNSVERYDVETETWTFVAPMKHRRSALGITVHQGRIYVLGGYDGHTFLDSVECYDPDTDTWSEVTRMTSGRSGVGVAVTL GRLIYTAGGYFRQSLSYLEAYNPSDGTWLDLADLQVPRSGLAGCVVGGLLYAVGGRNNSPDGNTDSSALDCYNPMTNQWSPCAPMSVPRNRIGVGVIDGHIYAVGGSHGCIHHNSVERYEPERDEWHLVAPMLTRRIGVGVAVLNRLLYAVGGFDGTNRLNSAECYYPERNEWRMITAMNTIRSGAGVCVLHNCIYAAGGYDGQDQLNSVERYDVETETWTFVAPMKHRRSALGITVHQGRIYVLGGYDGHTFLDSVECYDPDTDTWSEVTRMTSGRSGVGVAVTLE 4l82-a2-m1-cC_4l82-a2-m1-cD Structure of a putative oxidoreductase from Rickettsia felis Q4UKE8 Q4UKE8 2 X-RAY DIFFRACTION 167 1.0 315456 (Rickettsia felis URRWXCal2) 315456 (Rickettsia felis URRWXCal2) 156 156 4l82-a1-m1-cA_4l82-a1-m1-cB VTESQFKDTMSRFPQGVTIITTNCNNELFGFTASSLTSVSLKPPLILFCLNKNSFSINSFQKSDKFAVSILAENQIDISKHFAKSQPNKFTKIAYELGNKTNCPLINGATCYIECNKYASYDAGDHVIFIGEVINTAIKNDLKPLLYFHKSYTNLQ VTESQFKDTMSRFPQGVTIITTNCNNELFGFTASSLTSVSLKPPLILFCLNKNSFSINSFQKSDKFAVSILAENQIDISKHFAKSQPNKFTKIAYELGNKTNCPLINGATCYIECNKYASYDAGDHVIFIGEVINTAIKNDLKPLLYFHKSYTNLQ 4l85-a2-m1-cC_4l85-a2-m2-cC Crystal structure of receiver domain of KdpE D52A mutant from E. coli P21866 P21866 2.202 X-RAY DIFFRACTION 44 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 120 120 GAMANVLIVEDEQAIRRFLRTALEGDGMRVFEAETLQRGLLEAATRKPDLIILALGLPDGDGIEFIRDLRQWSAVPVIVLSARSEESDKIAALDAGADDYLSKPFGIGELQARLRVALRR GAMANVLIVEDEQAIRRFLRTALEGDGMRVFEAETLQRGLLEAATRKPDLIILALGLPDGDGIEFIRDLRQWSAVPVIVLSARSEESDKIAALDAGADDYLSKPFGIGELQARLRVALRR 4l8e-a1-m1-cA_4l8e-a1-m2-cA Crystal structure of a glutathione transferase family member from xenorhabdus nematophila, target efi-507418, with two gsh per subunit D3VKV1 D3VKV1 1.7 X-RAY DIFFRACTION 96 1.0 406817 (Xenorhabdus nematophila ATCC 19061) 406817 (Xenorhabdus nematophila ATCC 19061) 203 203 IDLYYAPTPNGYKITLFLEEVGLPYTIHPIDISAGDQFKPEFLAIAPNNKIPAIVDHQPDGGGEAISIFESGAILLYLANKTGRFLSKDTRERTEQLQWLFWQVAGFGPMLGQNHHFNRYAPEVVPYAIKRYTEESQRLYKVLNTQLEKTPYLGGNEYSIADIAVYPWAKCYEHQKINLEDYPAVKKWLEKIQQRPATQAAYN IDLYYAPTPNGYKITLFLEEVGLPYTIHPIDISAGDQFKPEFLAIAPNNKIPAIVDHQPDGGGEAISIFESGAILLYLANKTGRFLSKDTRERTEQLQWLFWQVAGFGPMLGQNHHFNRYAPEVVPYAIKRYTEESQRLYKVLNTQLEKTPYLGGNEYSIADIAVYPWAKCYEHQKINLEDYPAVKKWLEKIQQRPATQAAYN 4l8i-a3-m1-cB_4l8i-a3-m1-cA Crystal structure of RSV epitope scaffold FFL_005 2 X-RAY DIFFRACTION 51 0.991 32630 (synthetic construct) 32630 (synthetic construct) 112 114 GSMSDIRKDLEERFDKLVEALKNKVDKMKAAFRMDQFHEERMKDWFKDLRKEVEQMRRAVRNYASEALSKINDLPITNDDKKLASNDVLKLVAEVWKKLEAILADVEAWFTH SMSDIRKDLEERFDKLVEALKNKVDKMKAAFRMDQFHEERMKDWFKDLRKEVEQMRRAVRNYASEALSKINDLPITNDDKKLASNDVLKLVAEVWKKLEAILADVEAWFTHHHH 4l8j-a1-m1-cA_4l8j-a1-m2-cA Crystal structure of a Putative efflux transporter (BACEGG_01895) from Bacteroides eggerthii DSM 20697 at 2.06 A resolution 2.06 X-RAY DIFFRACTION 320 1.0 483216 (Bacteroides eggerthii DSM 20697) 483216 (Bacteroides eggerthii DSM 20697) 323 323 DTALVRPVKTATVSSQSVILKDFSGVEAVEYVKLAFRVSGQIINLPVVEGQRVKKGQLIAAIDPRDISLQYAADKAAYETAAAQVERNKRLLGRQAISLQEYEISVANYQKAKSAYELSTNNRDTKLLAPFDGSIETRLVENYQRVNSGEGIVRLVNTRKLRIKFTVPDDYLYLLRAKDATFKVEFDTYKGTVFNARLEEYLDISTDGTGIPVTIIIDDAAFDRTIYDVKPGFTCNIRLASDIAPFIEEKLNVPLSAVFGDSENKNTYVWIVKDNKVNRREVTVYSPTGEANLLISKGLKPGETVVTAGVYQLVEGQRIKEVK DTALVRPVKTATVSSQSVILKDFSGVEAVEYVKLAFRVSGQIINLPVVEGQRVKKGQLIAAIDPRDISLQYAADKAAYETAAAQVERNKRLLGRQAISLQEYEISVANYQKAKSAYELSTNNRDTKLLAPFDGSIETRLVENYQRVNSGEGIVRLVNTRKLRIKFTVPDDYLYLLRAKDATFKVEFDTYKGTVFNARLEEYLDISTDGTGIPVTIIIDDAAFDRTIYDVKPGFTCNIRLASDIAPFIEEKLNVPLSAVFGDSENKNTYVWIVKDNKVNRREVTVYSPTGEANLLISKGLKPGETVVTAGVYQLVEGQRIKEVK 4l8n-a1-m1-cA_4l8n-a1-m2-cA Crystal structure of a PDZ domain protein (BDI_1242) from Parabacteroides distasonis ATCC 8503 at 2.50 A resolution A6LBD9 A6LBD9 2.5 X-RAY DIFFRACTION 103 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 440 440 NTSICRLGFTYDISQSKNWGNNKPVIKSIIPYSSAEQAGIKKYDVIEEINGVPVTEVSVDEIPQLLNPAGRNDVLLTISNLSSPSKQVLVKKDCKKSNAITEDQLASAYAYSLETTNEQEFVCPFKTTVTSDGVDFGNFKTFAFSTIDENNRKLETVINECIENELTKKGLTVDIAKPDLLIQTFYFFDKNPNYLGANEKEPTYRYNFSHSKEKFPFLNYAAAEAEAEYLLQFGIRIIDQKDIPGRVLWECEANELLEDSYRLDEYARVHVPLCQYPYTKYGRNVPFKVSKKTYNYTGISYDIDKLDQVVDVDRNSPAYAAGIRPRDIIEKIGRHKDHSAEEFSSAYKRFITNTQYRDPKTFTDANGFKYCFWDVFKYPQIADASQSSDYLPAFSYLYYFAPYINPSGNNACTFNIKRGKTKLEVIIRPTIRSEVTVEIK NTSICRLGFTYDISQSKNWGNNKPVIKSIIPYSSAEQAGIKKYDVIEEINGVPVTEVSVDEIPQLLNPAGRNDVLLTISNLSSPSKQVLVKKDCKKSNAITEDQLASAYAYSLETTNEQEFVCPFKTTVTSDGVDFGNFKTFAFSTIDENNRKLETVINECIENELTKKGLTVDIAKPDLLIQTFYFFDKNPNYLGANEKEPTYRYNFSHSKEKFPFLNYAAAEAEAEYLLQFGIRIIDQKDIPGRVLWECEANELLEDSYRLDEYARVHVPLCQYPYTKYGRNVPFKVSKKTYNYTGISYDIDKLDQVVDVDRNSPAYAAGIRPRDIIEKIGRHKDHSAEEFSSAYKRFITNTQYRDPKTFTDANGFKYCFWDVFKYPQIADASQSSDYLPAFSYLYYFAPYINPSGNNACTFNIKRGKTKLEVIIRPTIRSEVTVEIK 4l8o-a1-m2-cA_4l8o-a1-m3-cA Crystal structure of a bile-acid 7-alpha dehydratase (CLOHYLEM_06634) from Clostridium hylemonae DSM 15053 at 2.20 A resolution B4YSU1 B4YSU1 2.2 X-RAY DIFFRACTION 82 1.0 553973 ([Clostridium] hylemonae DSM 15053) 553973 ([Clostridium] hylemonae DSM 15053) 164 164 4l8o-a1-m1-cA_4l8o-a1-m2-cA 4l8o-a1-m1-cA_4l8o-a1-m3-cA MSIEERLEALEKEIQKMKDIEEIKKLKGQYFRCLDGKFWDELETTLSPNIVTSYLVFHGPKEVTDYFKKAMPREEISMHMGHTPEITIDSETTATGRWYLEDKLIFTEESKYAGSGVNGGAFYTDKYEKVDGKWYILETGYLRVYEEHFMRDPKIKITMNMHKT MSIEERLEALEKEIQKMKDIEEIKKLKGQYFRCLDGKFWDELETTLSPNIVTSYLVFHGPKEVTDYFKKAMPREEISMHMGHTPEITIDSETTATGRWYLEDKLIFTEESKYAGSGVNGGAFYTDKYEKVDGKWYILETGYLRVYEEHFMRDPKIKITMNMHKT 4l8v-a1-m1-cB_4l8v-a1-m1-cC Crystal Structure of A12K/D35S mutant myo-inositol dehydrogenase from Bacillus subtilis with bound cofactor NADP P26935 P26935 2.09 X-RAY DIFFRACTION 48 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 337 337 3mz0-a1-m1-cA_3mz0-a1-m4-cA 3mz0-a1-m2-cA_3mz0-a1-m3-cA 3nt2-a1-m1-cA_3nt2-a1-m2-cB 3nt2-a1-m1-cB_3nt2-a1-m2-cA 3nt4-a1-m1-cA_3nt4-a1-m2-cB 3nt4-a1-m1-cB_3nt4-a1-m2-cA 3nt5-a1-m1-cA_3nt5-a1-m2-cB 3nt5-a1-m1-cB_3nt5-a1-m2-cA 3nto-a1-m1-cA_3nto-a1-m4-cA 3nto-a1-m2-cA_3nto-a1-m3-cA 3ntq-a1-m1-cA_3ntq-a1-m2-cB 3ntq-a1-m1-cB_3ntq-a1-m2-cA 3ntr-a1-m1-cA_3ntr-a1-m2-cB 3ntr-a1-m1-cB_3ntr-a1-m2-cA 4l8v-a1-m1-cA_4l8v-a1-m1-cD 4l9r-a1-m1-cA_4l9r-a1-m4-cA 4l9r-a1-m2-cA_4l9r-a1-m3-cA MSLRIGVIGTGKIGKEHINRITNKLSGAEIVAVTSVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ MSLRIGVIGTGKIGKEHINRITNKLSGAEIVAVTSVNQEAAQKVVEQYQLNATVYPNDDSLLADENVDAVLVTSWGPAHESSVLKAIKAQKYVFCEKPLATTAEGCMRIVEEEIKVGKRLVQVGFMRRYDSGYVQLKEALDNHVIGEPLMIHCAHRNPTVGDNYTTDMAVVDTLVHEIDVLHWLVNDDYESVQVIYPKKSKNALPHLKDPQIVVIETKGGIVINAEIYVNCKYGYDIQCEIVGEDGIIKLPEPSSISLRKEGRFSTDILMDWQRRFVAAYDVEIQDFIDSIQKKGEVSGPTAWDGYIAAVTTDACVKAQESGQKEKVELKEKPEFYQ 4l98-a1-m1-cA_4l98-a1-m1-cB Crystal structure of the complex of F360L PPARgamma mutant with the ligand LT175 P37231 P37231 2.28 X-RAY DIFFRACTION 105 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 244 258 4l96-a1-m1-cA_4l96-a1-m2-cA SADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPLGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY ESADLRALAKHLYDSYIKSFPLTKAKARAILTGTTDKSPFVIYDMNSLMMGEDKIKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPLGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY 4l9a-a3-m1-cB_4l9a-a3-m1-cA Crystal structure of Smu.1393c from cariogenic pathogen Streptococcus mutans Q8DTF4 Q8DTF4 2 X-RAY DIFFRACTION 50 0.996 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 260 269 AALNKEVNTLLGPIYTCHREGNPCFVFLSGAGFFSTADNFANIIDKLPDSIGILTIDAPNSGYSPVSNQANVGLRDWVNAILIFEHFKFQSYLLCVHSIGGFAALQINQSSKACLGFIGLEPTTVIYRAGFSSDLYPQLATAADRLNYLKDLSRSHFSSQQFKQLWRGYDYCQRQLNDVQSLPDFKIRLALGEEDFKTGISEKIPSIVFSESFREKEYLESEYLNKHTQTKLILCGQHHYLHWSETNSILEKVEQLLSNH ALNKEVNTLLGPIYTCHREGNPCFVFLSGAGFFSTADNFANIIDKLPDSIGILTIDAPNSGYSPVSNQANVGLRDWVNAILIFEHFKFQSYLLCVHSIGGFAALQINQSSKACLGFIGLEPTTVIYRAGFSSDLYPQLALRRQKLKTAADRLNYLKDLSRSHFSSQQFKQLWRGYDYCQRQLNDVQSLPDFKIRLALGEEDFKTGISEKIPSIVFSESFREKEYLESEYLNKHTQTKLILCGQHHYLHWSETNSILEKVEQLLSNHEKL 4l9c-a3-m1-cB_4l9c-a3-m2-cA Crystal structure of the FP domain of human F-box protein Fbxo7 (native) Q9Y3I1 Q9Y3I1 2.1 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 150 HSLETLYQSADCSDANDALIVLIHLLMLESGYIPQGTEAKALSMPEKWKLSGVYKLQYMHPLCEGSSATLTCVPLGNLIVVNATLKINNEIRSVKRLQLLPESFICKEKLGENVANIYKDLQKLSRLFKDQLVYPLLAFTRQALNLPDVF HSLETLYQSADCSDANDALIVLIHLLMLESGYIPQGTEAKALSMPEKWKLSGVYKLQYMHPLCEGSSATLTCVPLGNLIVVNATLKINNEIRSVKRLQLLPESFICKEKLGENVANIYKDLQKLSRLFKDQLVYPLLAFTRQALNLPDVF 4l9m-a1-m1-cA_4l9m-a1-m2-cA Autoinhibited state of the Ras-specific exchange factor RasGRP1 O95267 O95267 3 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 522 522 LGHLAKGASLDDLIDSCIQSFDADGNLCRSNQLLQVMLTMHRIVISSAELLQKVITLYKDALAKNSPGLCLKICYFVRYWITEFWVMFKMDASLTDTMEEFQELVKAKGEELHCRLIDTTQINARDWSRKLTQKKRKVSLLFDHLEPEELSEHLTYLEFKSFRRISFSDYQNYLVNSCVKENPTMERSIALCNGISQWVQLMVLSRPTPQLRAEVFIKFIQVAQKLHQLQNFNTLMAVIGGLCHSSISRLKETSSHVPHEINKVLGEMTELLSSSRNYDNYRRAYGECTDFKIPILGVHLKDLISLYEAMPDYLEDGKVNVHKLLALYNHISELVQLQEVAPPLEANKDLVHLLTLSLDLYYTEDEIYELSYAREPRPVVVDWASGVSPKPDPKTISKHVQRMVDSVFKNYDHDQDGYISQEEFEKIAASFPFSFCVMDKDREGLISRDEITAYFMRASSIYSKLGLGFPHNFQETTYLKPTFCDNCAGFLWGVIKQGYRCKDCGMNCHKQCKDLVVFECKK LGHLAKGASLDDLIDSCIQSFDADGNLCRSNQLLQVMLTMHRIVISSAELLQKVITLYKDALAKNSPGLCLKICYFVRYWITEFWVMFKMDASLTDTMEEFQELVKAKGEELHCRLIDTTQINARDWSRKLTQKKRKVSLLFDHLEPEELSEHLTYLEFKSFRRISFSDYQNYLVNSCVKENPTMERSIALCNGISQWVQLMVLSRPTPQLRAEVFIKFIQVAQKLHQLQNFNTLMAVIGGLCHSSISRLKETSSHVPHEINKVLGEMTELLSSSRNYDNYRRAYGECTDFKIPILGVHLKDLISLYEAMPDYLEDGKVNVHKLLALYNHISELVQLQEVAPPLEANKDLVHLLTLSLDLYYTEDEIYELSYAREPRPVVVDWASGVSPKPDPKTISKHVQRMVDSVFKNYDHDQDGYISQEEFEKIAASFPFSFCVMDKDREGLISRDEITAYFMRASSIYSKLGLGFPHNFQETTYLKPTFCDNCAGFLWGVIKQGYRCKDCGMNCHKQCKDLVVFECKK 4l9u-a1-m1-cB_4l9u-a1-m1-cA Structure of C-terminal coiled coil of RasGRP1 O95267 O95267 1.6014 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 49 LPTYQELEQEINTLKADNDALKIQLKYAQKKIESLQLEKSNH LPTYQELEQEINTLKADNDALKIQLKYAQKKIESLQLEKSNHVLAQMEQ 4laq-a1-m2-cH_4laq-a1-m3-cH Crystal structure of a therapeutic single chain antibody in the free form 2.8 X-RAY DIFFRACTION 102 1.0 10090 (Mus musculus) 10090 (Mus musculus) 222 222 4laq-a1-m1-cH_4laq-a1-m2-cH 4laq-a1-m1-cH_4laq-a1-m3-cH QTLSLTCSVTGDSVTSGYWSWIRQFPGNKLDYMGYISYRGSTYYNPSLKSRISITRDTSKNQVYLQLKSVSSEDTATYYCSYFDSDDYAMEYWGQGTSVTVSGGSQIVLTQSPAIMSASPGEKVTLTCSASSSVSSSHLYWYQQKPGSSPKLWIYSTSNLASGVPARFSGSGSGTSYSLTISSMEAEDAASYFCHQWSSFPFTFGSGTKLEIKRAPHHHHHH QTLSLTCSVTGDSVTSGYWSWIRQFPGNKLDYMGYISYRGSTYYNPSLKSRISITRDTSKNQVYLQLKSVSSEDTATYYCSYFDSDDYAMEYWGQGTSVTVSGGSQIVLTQSPAIMSASPGEKVTLTCSASSSVSSSHLYWYQQKPGSSPKLWIYSTSNLASGVPARFSGSGSGTSYSLTISSMEAEDAASYFCHQWSSFPFTFGSGTKLEIKRAPHHHHHH 4lb0-a1-m1-cA_4lb0-a1-m1-cB Crystal structure of a hydroxyproline epimerase from agrobacterium vitis, target efi-506420, with bound trans-4-oh-l-proline B9JQV3 B9JQV3 1.7 X-RAY DIFFRACTION 130 1.0 311402 (Allorhizobium ampelinum S4) 311402 (Allorhizobium ampelinum S4) 342 347 MRWKRMMQLLDVHCEGEIGKVAIGGVPKIPGDTVADQLHWLNTDPKGRELRHFLVLEPRGAPIGSVNLLLPAKDSRADAAFIILQPDQAHASSGSNSICVTTALLESGMIEMQEPETVVMLETAAGLVKAVAQCRDGHCDSVTLTMVPSFVHELDAQIATESWGEIRFDLAYGGVFYALVDVRQLGLTIEPGNARRLVEAGMLLKGEINQRIQVVHPDIPAISGVAYVMFRDEDPDGAVRTCTTMWPGRVDRSPCGTGNSANLATLHARGRVKPGDSFLSRSIIGSQFTVGLQGLTTVAGRSAVIPTITGRGFTYGIHQVALDDPLGGGFVLTDVWGAAAET SMRWKRMMQLLDVHCEGEIGKVAIGGVPKIPGDTVADQLHWLNTDPKGRELRHFLVLEPRGAPIGSVNLLLPAKDSRADAAFIILQPDQAHASSGSNSICVTTALLESGMIEMQEPETVVMLETAAGLVKAVAQCRDGHCDSVTLTMVPSFVHELDAQIATESWGEIRFDLAYGGVFYALVDVRQLGLTIEPGNARRLVEAGMLLKGEINQRIQVVHPDIPAISGVAYVMFRDEDPDGAVRTCTTMWPGRVDRSPCGTGNSANLATLHARGRVKPGDSFLSRSIIGSQFTVGLQGLTTVAGRSAVIPTITGRGFTYGIHQVALDAFDPLGGGFVLTDVWGAAAETIK 4lb1-a1-m1-cD_4lb1-a1-m1-cE Crystal structure of human alpha-defensin 1 (HNP1) Y16A/F28A mutant P59665 P59665 2 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 3loe-a2-m1-cA_3loe-a2-m2-cA 4lb1-a1-m1-cA_4lb1-a1-m1-cB 4lb7-a1-m1-cA_4lb7-a1-m1-cB 4lb7-a1-m1-cD_4lb7-a1-m1-cE ACYCRIPACIAGERRAGTCIYQGRLWAACC ACYCRIPACIAGERRAGTCIYQGRLWAACC 4lb7-a1-m1-cA_4lb7-a1-m1-cE Crystal structure of human alpha-defensin 1 (HNP1) Y16A/I20A/L25A/F28A mutant. P59665 P59665 1.902 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 4lb7-a1-m1-cB_4lb7-a1-m1-cD ACYCRIPACIAGERRAGTCAYQGRAWAACC ACYCRIPACIAGERRAGTCAYQGRAWAACC 4lb8-a1-m1-cA_4lb8-a1-m2-cA Crystal structure of a DUF4848 family protein (BT3222) from Bacteroides thetaiotaomicron VPI-5482 at 2.49 A resolution Q8A2T3 Q8A2T3 2.49 X-RAY DIFFRACTION 220 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 265 265 EIEVINDGTIKFKDVESYENALLKVSASTSEQVSFLNSLSFKSQILQEADGELDKICNQAADKAEFDVLYEKYKHKYGDVFFNTIDATDLSPYSRLVYVANEYFVNKGEFIGDSLVVDKVYTDFKERQQQFTVSTRSSVSDLSSINEAYSRQKDRKVGLYLSVSSGIIHANFTSQKKGVFGWSRYSTTYHAKVNLRGFEFAQGELLGYGPVYVNKDGIPFAIDTKEGGNVTKVFGRKLAQECTGTIEIWSRGVPYDQRGFATVRL EIEVINDGTIKFKDVESYENALLKVSASTSEQVSFLNSLSFKSQILQEADGELDKICNQAADKAEFDVLYEKYKHKYGDVFFNTIDATDLSPYSRLVYVANEYFVNKGEFIGDSLVVDKVYTDFKERQQQFTVSTRSSVSDLSSINEAYSRQKDRKVGLYLSVSSGIIHANFTSQKKGVFGWSRYSTTYHAKVNLRGFEFAQGELLGYGPVYVNKDGIPFAIDTKEGGNVTKVFGRKLAQECTGTIEIWSRGVPYDQRGFATVRL 4lbf-a1-m1-cA_4lbf-a1-m1-cB Crystal structure of HUMAN ALPHA-DEFENSIN 1 (HNP1) I20A/L25A mutant P59665 P59665 1.7 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 ACYCRIPACIAGERRYGTCAYQGRAWAFCC ACYCRIPACIAGERRYGTCAYQGRAWAFCC 4lbf-a1-m1-cB_4lbf-a1-m1-cC Crystal structure of HUMAN ALPHA-DEFENSIN 1 (HNP1) I20A/L25A mutant P59665 P59665 1.7 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 4lbf-a1-m1-cA_4lbf-a1-m1-cD 4lbf-a2-m1-cF_4lbf-a2-m1-cG ACYCRIPACIAGERRYGTCAYQGRAWAFCC ACYCRIPACIAGERRYGTCAYQGRAWAFCC 4lbf-a2-m1-cE_4lbf-a2-m1-cF Crystal structure of HUMAN ALPHA-DEFENSIN 1 (HNP1) I20A/L25A mutant P59665 P59665 1.7 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 30 ACYCRIPACIAGERRYGTCAWAFCC ACYCRIPACIAGERRYGTCAYQGRAWAFCC 4lbf-a2-m1-cE_4lbf-a2-m1-cG Crystal structure of HUMAN ALPHA-DEFENSIN 1 (HNP1) I20A/L25A mutant P59665 P59665 1.7 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 30 ACYCRIPACIAGERRYGTCAWAFCC ACYCRIPACIAGERRYGTCAYQGRAWAFCC 4lbf-a2-m1-cE_4lbf-a2-m1-cH Crystal structure of HUMAN ALPHA-DEFENSIN 1 (HNP1) I20A/L25A mutant P59665 P59665 1.7 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 30 ACYCRIPACIAGERRYGTCAWAFCC ACYCRIPACIAGERRYGTCAYQGRAWAFCC 4lbf-a2-m1-cF_4lbf-a2-m1-cH Crystal structure of HUMAN ALPHA-DEFENSIN 1 (HNP1) I20A/L25A mutant P59665 P59665 1.7 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 4lbf-a1-m1-cA_4lbf-a1-m1-cC 4lbf-a1-m1-cB_4lbf-a1-m1-cD ACYCRIPACIAGERRYGTCAYQGRAWAFCC ACYCRIPACIAGERRYGTCAYQGRAWAFCC 4lbw-a2-m1-cA_4lbw-a2-m2-cA Identifying ligand binding hot spots in proteins using brominated fragments P60338 P60338 1.741 X-RAY DIFFRACTION 27 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 403 403 4lbv-a2-m1-cA_4lbv-a2-m2-cA 4lbz-a2-m1-cA_4lbz-a2-m2-cA 4lc0-a2-m1-cA_4lc0-a2-m2-cA GEFVRTKPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVEVKDYGDIDKAPEERARGITINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEQMHRNPKTRRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRKTVVTGVEMHRKTLQEGIAGDNVGVLLRGVSREEVERGQVLAKPGSITPHTKFEASVYVLKKEEGGRHTGFFSGYRPQFYFRTTDVTGVVQLPPGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE GEFVRTKPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVEVKDYGDIDKAPEERARGITINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEQMHRNPKTRRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRKTVVTGVEMHRKTLQEGIAGDNVGVLLRGVSREEVERGQVLAKPGSITPHTKFEASVYVLKKEEGGRHTGFFSGYRPQFYFRTTDVTGVVQLPPGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE 4lc3-a1-m1-cA_4lc3-a1-m1-cB X-ray crystal structure of a putative UDP-4-amino-4-deoxy-l-arabinose--oxoglutarate aminotransferase from Burkholderia cenocepacia B4EB17 B4EB17 1.6 X-RAY DIFFRACTION 172 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 378 378 APFLPFTRPEIDEETIQGVVEVLRSGWITTGPQCQKFEAALSEYCGGRPVRVFNSGTCTLEIGLRIAGVGPGDEVITTPASWVSTSNVIIETGATPVFADIDPVTRNIDLDKLEQAITPRTKAIIPVFLSGLPVDMDRLYAIARAHKLRVIEDAAQAFGSTWHGKRIGAIGDLVSFSFHANKNLTTIEGGALVLNNEDEAVLAQKYRLQGITRTGFDGMDCDVLGGKYNLTDVAARVGLGQLPHLERFTAQRRALARAYFAAFDGGAAAKLGVGLPVAEFENGNWHMFLVTLPLERLTITRAEFMAQMKERGIGTGIHYPAIHLFTLYRARGFKEGMFPHAERYGASTVTLPLFTQMTEGDVRRVVDAVNQICEQYGK APFLPFTRPEIDEETIQGVVEVLRSGWITTGPQCQKFEAALSEYCGGRPVRVFNSGTCTLEIGLRIAGVGPGDEVITTPASWVSTSNVIIETGATPVFADIDPVTRNIDLDKLEQAITPRTKAIIPVFLSGLPVDMDRLYAIARAHKLRVIEDAAQAFGSTWHGKRIGAIGDLVSFSFHANKNLTTIEGGALVLNNEDEAVLAQKYRLQGITRTGFDGMDCDVLGGKYNLTDVAARVGLGQLPHLERFTAQRRALARAYFAAFDGGAAAKLGVGLPVAEFENGNWHMFLVTLPLERLTITRAEFMAQMKERGIGTGIHYPAIHLFTLYRARGFKEGMFPHAERYGASTVTLPLFTQMTEGDVRRVVDAVNQICEQYGK 4lct-a2-m1-cC_4lct-a2-m1-cD Crystal Structure and Versatile Functional Roles of the COP9 Signalosome Subunit 1 P45432 P45432 2.7 X-RAY DIFFRACTION 27 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 321 348 4lct-a1-m1-cA_4lct-a1-m1-cB EPLDIEAYAALYKGRTKIMRLLFIANHCGGNHALQFDALRMAYDEIKKGENTQLFREVVNKIGNRLGEKYGMDLAWCEAVDRRAEQKKVKLENELSSYRTNLIKESIRMGYNDFGDFYYACGMLGDAFKNYIRTRDYCTTTKHIIHMCMNAILVSIEMGQFTHVTSYVNKAEQNPETLEPMVNAKLRCASGLAHLELKKYKLAARKFLDVNPELGNSYNEVIAPQDIATYGGLCALASFDRSELKQKVIDNINFRNFLELVPDVRELINDFYSSRYASCLEYLASLKSNLLLDIHLHDHVDTLYDQIRKKALIQYTLPFVS EPLDIEAYAALYKGRTKIMRLLFIANHCGGNHALQFDALRMAYDEIKKGENTQLFREVVNKIGNRLGEKYGMDLAWCEAVDRRAEQKKVKLENELSSYRTNLIKESIRMGYNDFGDFYYACGMLGDAFKNYIRTRDYCTTTKHIIHMCMNAILVSIEMGQFTHVTSYVNKAEQNPETLEPMVNAKLRCASGLAHLELKKYKLAARKFLDVNPELGNSYNEVIAPQDIATYGGLCALASFDRSELKQKVIDNINFRNFLELVPDVRELINDFYSSRYASCLEYLASLKSNLLLDIHLHDHVDTLYDQIRKKALIQYTLPFVSVDLSRMADAFKTSVSGLEKELEALITD 4ld8-a1-m1-cA_4ld8-a1-m2-cA Crystal Structure of Dimeric Sudan Virus VP40 Q5XX06 Q5XX06 1.83 X-RAY DIFFRACTION 63 1.0 186540 (Sudan ebolavirus) 186540 (Sudan ebolavirus) 235 235 MDTPSNSMRPVADDNIDHTSHTPNGVASAFILEATVNVISGPKVLMKQIPIWLPLGIADQKTYSFDSTTAAIMLASYTITHFGKANNPLVRVNRLGQGIPDHPLRLLRMGNQAFLQEFVLPPVQLPQYFTFDLTALKLVTQPLPAATWTDLRPGLSFHPKLRPVLLPGKDKIQTIVNLMQDFKIVPIDPAKSIIGIEVPELLVHKLTGKKKNGQPIIPVLLPKYIGPGDLTMVIT MDTPSNSMRPVADDNIDHTSHTPNGVASAFILEATVNVISGPKVLMKQIPIWLPLGIADQKTYSFDSTTAAIMLASYTITHFGKANNPLVRVNRLGQGIPDHPLRLLRMGNQAFLQEFVLPPVQLPQYFTFDLTALKLVTQPLPAATWTDLRPGLSFHPKLRPVLLPGKDKIQTIVNLMQDFKIVPIDPAKSIIGIEVPELLVHKLTGKKKNGQPIIPVLLPKYIGPGDLTMVIT 4ldd-a1-m1-cA_4ldd-a1-m2-cA Crystal Structure of Ebola virus VP40 Hexamer Q05128 Q05128 3.498 X-RAY DIFFRACTION 61 1.0 186538 (Zaire ebolavirus) 186538 (Zaire ebolavirus) 137 137 4ldb-a1-m1-cD_4ldb-a1-m1-cA 4ldi-a1-m1-cA_4ldi-a1-m1-cB 7jzj-a2-m1-cC_7jzj-a2-m1-cB DTPSNPLRPIADDTIDHASHTPGSVSSAFILEAMVNVISGPLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFGNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPLPQYFTFDLTALKLITQPLPA DTPSNPLRPIADDTIDHASHTPGSVSSAFILEAMVNVISGPLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFGNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPLPQYFTFDLTALKLITQPLPA 4ldd-a1-m2-cC_4ldd-a1-m2-cB Crystal Structure of Ebola virus VP40 Hexamer Q05128 Q05128 3.498 X-RAY DIFFRACTION 58 0.993 186538 (Zaire ebolavirus) 186538 (Zaire ebolavirus) 139 226 4ldd-a1-m1-cC_4ldd-a1-m1-cB 7jzt-a2-m1-cB_7jzt-a2-m1-cC DTPSNPLRPIADDTIDHASHTPGSVSSAFILEAMVNVISGPKVLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFATNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPVPQYFTFDLTALKLITQPLP DTPSNPLRPIADDTIDHASHTPGSVSSAFILEAMVNVISGPKVLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFTNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPVQLPQYFTFDLTALKLITQPLPAATWTDALRPGISFHPKLRPILLPTSPEKIQAIMTSLQDFKIVPIDPTKNIMGIEVPETLVHKLQPIIPVLLPKYIGGDLTMVITQ 4ldf-a3-m2-cB_4ldf-a3-m1-cA Crystal Structure of CpBRD2 from cryptosporidium, cgd3_3190 Q5CUE2 Q5CUE2 2 X-RAY DIFFRACTION 34 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 106 107 VDLSMNDQIWQLLDTLSRHENAWPFRKPVSIGEASDYYEIIKEPTDIQTMKRKAKNKEYKTLSEFSSELKRMFDNCRFYNAKNTIYTKYANQLEAFIWPMLQTIQE KVDLSMNDQIWQLLDTLSRHENAWPFRKPVSIGEASDYYEIIKEPTDIQTMKRKAKNKEYKTLSEFSSELKRMFDNCRFYNAKNTIYTKYANQLEAFIWPMLQTIQE 4ldm-a1-m3-cA_4ldm-a1-m8-cA Crystal Structure of an RNA-free VP40 Octameric Ring Q05128 Q05128 1.85 X-RAY DIFFRACTION 86 1.0 186538 (Zaire ebolavirus) 186538 (Zaire ebolavirus) 120 120 1h2c-a1-m1-cA_1h2c-a1-m2-cA 1h2c-a1-m3-cA_1h2c-a1-m4-cA 1h2c-a1-m5-cA_1h2c-a1-m6-cA 1h2c-a1-m7-cA_1h2c-a1-m8-cA 1h2d-a1-m1-cA_1h2d-a1-m2-cA 1h2d-a1-m1-cB_1h2d-a1-m3-cB 1h2d-a1-m2-cB_1h2d-a1-m4-cB 1h2d-a1-m3-cA_1h2d-a1-m4-cA 4ldm-a1-m1-cA_4ldm-a1-m5-cA 4ldm-a1-m2-cA_4ldm-a1-m6-cA 4ldm-a1-m4-cA_4ldm-a1-m7-cA 7k5d-a1-m1-cA_7k5d-a1-m6-cA 7k5d-a1-m2-cA_7k5d-a1-m5-cA 7k5d-a1-m3-cA_7k5d-a1-m7-cA 7k5d-a1-m4-cA_7k5d-a1-m8-cA 7k5l-a1-m1-cA_7k5l-a1-m6-cA 7k5l-a1-m2-cA_7k5l-a1-m5-cA 7k5l-a1-m3-cA_7k5l-a1-m7-cA 7k5l-a1-m4-cA_7k5l-a1-m8-cA VSSAFILEAMVNVISGPKVLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFGKATNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPVQLPQYFTFDLTALKLITQPLPA VSSAFILEAMVNVISGPKVLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFGKATNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPVQLPQYFTFDLTALKLITQPLPA 4ldn-a1-m2-cA_4ldn-a1-m6-cA Crystal structure of a putative purine nucleoside phosphorylase from Vibrio fischeri ES114 (Target NYSGRC-029521) Q5DYV8 Q5DYV8 1.48 X-RAY DIFFRACTION 70 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 232 232 4ldn-a1-m1-cA_4ldn-a1-m4-cA 4ldn-a1-m3-cA_4ldn-a1-m5-cA NLYFQSSTPHINAPLDAFADTILPGDPLRAKLIAETYLENVVQVTDVRGLGFTGEFKGRKISVGHGGAPSASIYFHELTTYKVKNFIRIGSCGAIHDDVKLKDLIVAIGASTDSKNRIRFKDNDFAATANYNLSECVNTLKTTDINYLVGNVFSSDLFYRPDEEQYDARYGILGVEEVNALYSAAAENHCNAVALCTVTDHIKNHEHLTADERRTELHEINVALDVALKLPT NLYFQSSTPHINAPLDAFADTILPGDPLRAKLIAETYLENVVQVTDVRGLGFTGEFKGRKISVGHGGAPSASIYFHELTTYKVKNFIRIGSCGAIHDDVKLKDLIVAIGASTDSKNRIRFKDNDFAATANYNLSECVNTLKTTDINYLVGNVFSSDLFYRPDEEQYDARYGILGVEEVNALYSAAAENHCNAVALCTVTDHIKNHEHLTADERRTELHEINVALDVALKLPT 4ldn-a1-m3-cA_4ldn-a1-m6-cA Crystal structure of a putative purine nucleoside phosphorylase from Vibrio fischeri ES114 (Target NYSGRC-029521) Q5DYV8 Q5DYV8 1.48 X-RAY DIFFRACTION 106 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 232 232 4ldn-a1-m1-cA_4ldn-a1-m5-cA 4ldn-a1-m2-cA_4ldn-a1-m4-cA NLYFQSSTPHINAPLDAFADTILPGDPLRAKLIAETYLENVVQVTDVRGLGFTGEFKGRKISVGHGGAPSASIYFHELTTYKVKNFIRIGSCGAIHDDVKLKDLIVAIGASTDSKNRIRFKDNDFAATANYNLSECVNTLKTTDINYLVGNVFSSDLFYRPDEEQYDARYGILGVEEVNALYSAAAENHCNAVALCTVTDHIKNHEHLTADERRTELHEINVALDVALKLPT NLYFQSSTPHINAPLDAFADTILPGDPLRAKLIAETYLENVVQVTDVRGLGFTGEFKGRKISVGHGGAPSASIYFHELTTYKVKNFIRIGSCGAIHDDVKLKDLIVAIGASTDSKNRIRFKDNDFAATANYNLSECVNTLKTTDINYLVGNVFSSDLFYRPDEEQYDARYGILGVEEVNALYSAAAENHCNAVALCTVTDHIKNHEHLTADERRTELHEINVALDVALKLPT 4ldr-a1-m1-cA_4ldr-a1-m1-cB Structure of the S283Y mutant of MRDI Q9BV20 Q9BV20 2.292 X-RAY DIFFRACTION 196 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 353 356 4ldq-a1-m1-cA_4ldq-a1-m1-cB TLEAIRYSRGSLQILDQLLLPKQSRYEAVGSVHQAWEAIRAMKVRGAPAIALVGCLSLAVELQAGAGGPGLAALVAFVRDKLSFLVTARPTAVNMARAARDLADVAAREAEREGATEEAVRERVICCTEDMLEKDLRDNRSIGDLGARHLLERVAPSGGKVTVLTHCNTGALATAGYGTALGVIRSLHSLGRLEHAFCTETRPYNQGARLTAFELVYEQIPATLITDSMVAAAMAHRGVSAVVVGADRVVANGDTANKVGTYQLAIVAKHHGIPFYVAAPSYSCDLRLETGKEIIIEERPGQELTDVNGVRIAAPGIGVWNPAFDVTPHDLITGGIITELGVFAPEELRTALT TLEAIRYSRGSLQILDQLLLPKQSRYEAVGSVHQAWEAIRAMKVRGAPAIALVGCLSLAVELQAGAGGPGLAALVAFVRDKLSFLVTARPTAVNMARAARDLADVAAREAEREGATEEAVRERVICCTEDMLEKDLRDNRSIGDLGARHLLERVAPSGGKVTVLTHCNTGALATAGYGTALGVIRSLHSLGRLEHAFCTETRPYNQGARLTAFELVYEQIPATLITDSMVAAAMAHRGVSAVVVGADRVVANGDTANKVGTYQLAIVAKHHGIPFYVAAPSYSCDLRLETGKEIIIEERPGQELTDVNGVRIAAPGIGVWNPAFDVTPHDLITGGIITELGVFAPEELRTALTTTI 4lds-a1-m1-cA_4lds-a1-m1-cB The inward-facing structure of the glucose transporter from Staphylococcus epidermidis A0A0H2VG78 A0A0H2VG78 3.2 X-RAY DIFFRACTION 32 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 421 421 LIFILGALGGLLYGYDNGVISGALLFIHKDIPLNSTTEGIVVSSMLIGAIVGAGSSGPLADKLGRRRLVMLIAIVFIIGALILAASTNLALLIIGRLIIGLAVGGSMSTVPVYLSEMAPTEYRGSLGSLNQLMITIGILAAYLVNYAFADIEGWRWMLGLAVVPSVILLVGIYFMPESPRWLLENRNEEAARQVMKITYDDSEIDKELKEMKEINAISESTWTVIKSPWLGRILIVGCIFAIFQQFIGINAVIFYSSSIFAKAGLGEAASILGSVGIGTINVLVTIVAIFVVDKIDRKKLLVGGNIGMIASLLIMAILIWTIGIASSAWIIIVCLSLFIVFFGISWGPVLWVMLPELFPMRARGAATGISALVLNIGTLIVSLFFPILSDALSTEWVFLIFAFIGVLAMIFVIKFLPETRG LIFILGALGGLLYGYDNGVISGALLFIHKDIPLNSTTEGIVVSSMLIGAIVGAGSSGPLADKLGRRRLVMLIAIVFIIGALILAASTNLALLIIGRLIIGLAVGGSMSTVPVYLSEMAPTEYRGSLGSLNQLMITIGILAAYLVNYAFADIEGWRWMLGLAVVPSVILLVGIYFMPESPRWLLENRNEEAARQVMKITYDDSEIDKELKEMKEINAISESTWTVIKSPWLGRILIVGCIFAIFQQFIGINAVIFYSSSIFAKAGLGEAASILGSVGIGTINVLVTIVAIFVVDKIDRKKLLVGGNIGMIASLLIMAILIWTIGIASSAWIIIVCLSLFIVFFGISWGPVLWVMLPELFPMRARGAATGISALVLNIGTLIVSLFFPILSDALSTEWVFLIFAFIGVLAMIFVIKFLPETRG 4ldu-a1-m1-cA_4ldu-a1-m2-cA Crystal structure of the DNA binding domain of Arabidopsis thaliana auxin response factor 5 P93024 P93024 2.15 X-RAY DIFFRACTION 103 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 336 336 PVINSELWHACAGPLVCLPQVGSLVYYFSQGHSEQVAVSTRRSATTQVPNYPNLPSQLMCQVHNVTLHADKDSDEIYAQMSLQPVHSERDVFPVPDFGMLRGSKHPTEFFCKTLTASDTSTHGGFSVPRRAAEKLFPPLDYSAQPPTQELVVRDLHENTWTFRHIYRGQPKRHLLTTGWSLFVGSKRLRAGDSVLFIRDEKSQLMVGVRRANLPSSVLSADSMHIGVLAAAAHATANRTPFLIFYNPRACPAEFVIPLAKYRKAICGSQLSVGMRFGMMFETEDSGKRRYMGTIVGISDLDPLRWPGSKWRNLQVEWDEPGCNDKPTRVSPWDIET PVINSELWHACAGPLVCLPQVGSLVYYFSQGHSEQVAVSTRRSATTQVPNYPNLPSQLMCQVHNVTLHADKDSDEIYAQMSLQPVHSERDVFPVPDFGMLRGSKHPTEFFCKTLTASDTSTHGGFSVPRRAAEKLFPPLDYSAQPPTQELVVRDLHENTWTFRHIYRGQPKRHLLTTGWSLFVGSKRLRAGDSVLFIRDEKSQLMVGVRRANLPSSVLSADSMHIGVLAAAAHATANRTPFLIFYNPRACPAEFVIPLAKYRKAICGSQLSVGMRFGMMFETEDSGKRRYMGTIVGISDLDPLRWPGSKWRNLQVEWDEPGCNDKPTRVSPWDIET 4ldx-a1-m1-cA_4ldx-a1-m1-cB Crystal structure of the DNA binding domain of arabidopsis thaliana auxin response factor 1 (ARF1) in complex with protomor-like sequence ER7 Q8L7G0 Q8L7G0 2.9 X-RAY DIFFRACTION 99 0.994 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 332 337 4ldv-a1-m1-cA_4ldv-a1-m2-cA 4ldw-a1-m1-cA_4ldw-a1-m1-cB 4ldy-a1-m1-cA_4ldy-a1-m1-cB 6ycq-a1-m1-cB_6ycq-a1-m1-cA SDALCRELWHACAGPLVTLPREGERVYYFPEGHMEQLEASMHQGLEQQMPSFNLPSKILCKVINIQRRAEPETDEVYAQITLLPELDQSEPTSPDAPVQEPEKCTVHSFCKTLTASDTSTHGGFSVLRRHADDCLPPLDMSQQPPWQELVATDLHNSEWHFRHIFRGQPRRHLLTTGWSVFVSSKKLVAGDAFIFLRGENEELRVGVRRHMRQPSSVISSHSMHIGVLATAAHAITTGTIFSVFYKPRTSRSEFIVSVNRYLEAKTQKLSVGMRFKMRFEGKRFSGTIVGVQENKSSVWHDSEWRSLKVQWDEPSSVFRPERVSPWELEPLN LSDALCRELWHACAGPLVTLPREGERVYYFPEGHMEQLEASMHQGLEQQMPSFNLPSKILCKVINIQRRAEPETDEVYAQITLLPELDQSEPTSPDAPVQEPEKCTVHSFCKTLTASDTSTHGGFSVLRRHADDCLPPLDMSQQPPWQELVATDLHNSEWHFRHIFRGQPRRHLLTTGWSVFVSSKKLVAGDAFIFLRGENEELRVGVRRHMRQQTNIPSSVISSHSMHIGVLATAAHAITTGTIFSVFYKPRTSRSEFIVSVNRYLEAKTQKLSVGMRFKMRFEPEKRFSGTIVGVQENKSSVWHDSEWRSLKVQWDEPSSVFRPERVSPWELEPL 4ldz-a1-m1-cB_4ldz-a1-m1-cA Crystal structure of the full-length response regulator DesR in the active state O34723 O34723 2.31 X-RAY DIFFRACTION 79 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 188 196 4le0-a1-m1-cA_4le0-a1-m1-cB 4le2-a1-m1-cB_4le2-a1-m1-cA 4le2-a2-m1-cD_4le2-a2-m1-cC SMISIFIAEDQQMLLGALGSLLNLEDDMEVVGKGTTGQDAVDFVKKRQPDVCIMDIEMPGKTGLEAAEELKDTGCKIIILTTFARPGYFQRAIKAGVKGYLLKDSPSEELANAIRSVMNGKRIYAPELMEDLYSEANPLTDREKEVLELVADGKNTKEIAQELSIKSGTVRNYISMILEKLEVKNRIE GSMISIFIAEDQQMLLGALGSLLNLEDDMEVVGKGTTGQDAVDFVKKRQPDVCIMDIEMPGKTGLEAAEELKDTGCKIIILTTFARPGYFQRAIKAGVKGYLLKDSPSEELANAIRSVMNGKRIYAPELMEDLYSEANPLTDREKEVLELVADGKNTKEIAQELSIKSGTVRNYISMILEKLEVKNRIEAITRSKE 4le1-a3-m1-cB_4le1-a3-m2-cA Crystal structure of the receiver domain of DesR in the inactive state O34723 O34723 1.951 X-RAY DIFFRACTION 17 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 130 132 MISIFIAEDQQMLLGALGSLLNLEDDMEVVGKGTTGQDAVDFVKKRQPDVCIMDIEMPGKTGLEAAEELKDTGCKIIILTTFARPGYFQRAIKAGVKGYLLKDSPSEELANAIRSVMNGKRIYAPELMED MISIFIAEDQQMLLGALGSLLNLEDDMEVVGKGTTGQDAVDFVKKRQPDVCIMDIEMPGKTGLEAAEELKDTGCKIIILTTFARPGYFQRAIKAGVKGYLLKDSPSEELANAIRSVMNGKRIYAPELMEDLY 4le2-a4-m2-cD_4le2-a4-m1-cC Crystal structure of the unphosphorylated receiver domain of DesR in the active state O34723 O34723 2.54 X-RAY DIFFRACTION 21 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 126 134 4le0-a2-m2-cA_4le0-a2-m1-cB 4le2-a3-m2-cB_4le2-a3-m1-cA SMISIFIAEDQQMLLGALGSLLNLEDDMEVVGKGTTGQDAVDFVKKRQPDVCIMDIEMPGKTGLEAAEELKDTGCKIIILTTFYFQRAIKAGVKGYLLKDSPSEELANAIRSVMNGKRIYAPELME SGSMISIFIAEDQQMLLGALGSLLNLEDDMEVVGKGTTGQDAVDFVKKRQPDVCIMDIEMPGKTGLEAAEELKDTGCKIIILTTFARPGYFQRAIKAGVKGYLLKDSPSEELANAIRSVMNGKRIYAPELMEDL 4le5-a1-m1-cB_4le5-a1-m1-cA Structure of an Unusual S-adenosylmethionine synthetase from Campylobacter jejuni 1.7 X-RAY DIFFRACTION 198 0.987 195099 (Campylobacter jejuni RM1221) 195099 (Campylobacter jejuni RM1221) 386 388 MYLFTSEVVSAGHPDKCADIIADTIVDILLKNDKNSRVASEVFVAGNKVVIGGEVKSNHKLSKADYDNLVKDVLKNIGYDGAGHFSKEQCLHPDEVDVMVFLNEQSPDINQDQGIMFGFASCEAEEYMPAAISYARMLCDRVYAYAKANPHELGVDIKTQVTIDYGTKANFENCKPQSIHTIVVSAPCVESMKIEDLRSLVMKLILDSNLPKELFDPNKTRILINPTGKYVNHSSLHDSGLTGRKLIVDSFGGYSPIGGGAQSSKDYTKVDRSGLYAGRWLAKNIVAAGLAKKCIVQLSYAIGVAKPTSVSVDCMGTNTSVNDDVLSDFVMQNFSLTPNWIRDKFHLDKPSKETFLYADVAARGQVGQKDYPWEKLDALEQFKKLL MYLFTSEVVSAGHPDKCADIIADTIVDILLKNDKNSRVASEVFVAGNKVVIGGEVKSNHKLSKADYDNLVKDVLKNIGYDGAGHFSKEQCLHPDEVDVMVFLNEQSGETGAGDQGIMFGFASCEAEEYMPAAISYARMLCDRVYAYAKANPHELGVDIKTQVTIDYGTKANFENCKPQSIHTIVVSAPCVESMKIEDLRSLVMKLILDSNLPKELFDPNKTRILINPTGKYVNHSSLHDSGLTGRKLIVDSFGGYSPIGGGAQSSKDYTKVDRSGLYAGRWLAKNIVAAGLAKKCIVQLSYAIGVAKPTSVSVDCMGTNTSVNDDVLSDFVMQNFSLTPNWIRDKFHLDKPSKETFLYADVAARGQVGQKDYPWEKLDALEQFKKLLK 4le6-a3-m1-cD_4le6-a3-m1-cE Crystal structure of the phosphotriesterase OPHC2 from Pseudomonas pseudoalcaligenes Q5W503 Q5W503 2.1 X-RAY DIFFRACTION 124 1.0 251 251 4le6-a1-m1-cA_4le6-a1-m2-cA 4le6-a2-m1-cC_4le6-a2-m1-cB APAQQKTQVPGYYRMALGDFEVTALYDGYVDLPASLLKGIDDKDLQSLLARMFVASEKGVQTAVNAYLINTGDNLVLIDTGAAQCFGPTLGVVQTNLKASGYQPEQVDTVLLTHLHPDHACGLVNADGSPAYPNATVEVPQLLPGVSLVASPGHTPGHTSYLFKSGGQSLLVWGDILLNHAVQFAKPEVVFEFDVDSDQARQSRQRILAEAATDKLWVAGAHLPFPGLGHVRKEAQGYAWVPVEFSPIRSD APAQQKTQVPGYYRMALGDFEVTALYDGYVDLPASLLKGIDDKDLQSLLARMFVASEKGVQTAVNAYLINTGDNLVLIDTGAAQCFGPTLGVVQTNLKASGYQPEQVDTVLLTHLHPDHACGLVNADGSPAYPNATVEVPQLLPGVSLVASPGHTPGHTSYLFKSGGQSLLVWGDILLNHAVQFAKPEVVFEFDVDSDQARQSRQRILAEAATDKLWVAGAHLPFPGLGHVRKEAQGYAWVPVEFSPIRSD 4le9-a1-m1-cA_4le9-a1-m2-cA Crystal structure of a chimeric c-Src-SH3 domain P00523 P00523 1.344 X-RAY DIFFRACTION 216 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 59 59 7pvw-a1-m1-cA_7pvw-a1-m1-cB HMTFVALYDYVASGETDLSFKKGERLQIVGYNHGDWWLAHSLTTGRTGYIPSNYVAPSD HMTFVALYDYVASGETDLSFKKGERLQIVGYNHGDWWLAHSLTTGRTGYIPSNYVAPSD 4leh-a1-m1-cB_4leh-a1-m1-cC Crystal structure of a bile-acid 7-alpha dehydratase (CLOSCI_03134) from Clostridium scindens ATCC 35704 at 2.90 A resolution B0NI18 B0NI18 2.9 X-RAY DIFFRACTION 62 1.0 411468 ([Clostridium] scindens ATCC 35704) 411468 ([Clostridium] scindens ATCC 35704) 158 158 4leh-a1-m1-cA_4leh-a1-m1-cB 4leh-a1-m1-cA_4leh-a1-m1-cC GTLEERVEALEKELQKKDIEAIKELKGKYFRCLDGKWDELETTLSPNIVTSYSNGKLVFHSPKEVTDYLKSTPKEEISHGHTPEITIDSETTATGRWYLEDKLIFTDGKYKDVGINGGAFYTDKYEKIEGQWYILETGYVRIYEEHFRDPKIHITNHK GTLEERVEALEKELQKKDIEAIKELKGKYFRCLDGKWDELETTLSPNIVTSYSNGKLVFHSPKEVTDYLKSTPKEEISHGHTPEITIDSETTATGRWYLEDKLIFTDGKYKDVGINGGAFYTDKYEKIEGQWYILETGYVRIYEEHFRDPKIHITNHK 4lej-a1-m2-cA_4lej-a1-m3-cA Crystal Structure of the Korean pine (Pinus koraiensis) vicilin V9VGU0 V9VGU0 2.402 X-RAY DIFFRACTION 188 1.0 88728 (Pinus koraiensis) 88728 (Pinus koraiensis) 355 355 4lej-a1-m1-cA_4lej-a1-m2-cA 4lej-a1-m1-cA_4lej-a1-m3-cA NPYVFHSDRFRIRASSEAGEIRALPNFGEVSELLEGISRYRVTCIEMKPNTVMLPHYIDAKWILYVTGGRGYIAYVQQNELVKRKLEEGDVFGVPSGHTFYLVNNDDHNSLRIASLLRTESTMRGEYEPFYVAGGRNPETVYSAFSDDVLEAAFNTDVQKLEHIFGAHRRGVIFYASEQPKPFNLRNQKPDFENDNGRFTRAGPKDNPFLDSVDVTVGFGVLNPGTMTAPSHNTKATSIAIVMEGEGRIEMACPHLQDINYERVRARLRTGTVYVVPAGHPITEIASTNGRLEILWFDINTSGNEREFLAGKNNVLQTLEKEVRHLSFNIPRGEEIEEVLQAQKDQVILRGPQRQ NPYVFHSDRFRIRASSEAGEIRALPNFGEVSELLEGISRYRVTCIEMKPNTVMLPHYIDAKWILYVTGGRGYIAYVQQNELVKRKLEEGDVFGVPSGHTFYLVNNDDHNSLRIASLLRTESTMRGEYEPFYVAGGRNPETVYSAFSDDVLEAAFNTDVQKLEHIFGAHRRGVIFYASEQPKPFNLRNQKPDFENDNGRFTRAGPKDNPFLDSVDVTVGFGVLNPGTMTAPSHNTKATSIAIVMEGEGRIEMACPHLQDINYERVRARLRTGTVYVVPAGHPITEIASTNGRLEILWFDINTSGNEREFLAGKNNVLQTLEKEVRHLSFNIPRGEEIEEVLQAQKDQVILRGPQRQ 4lev-a3-m1-cA_4lev-a3-m2-cB Structure of human cGAS Q8N884 Q8N884 1.952 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 364 FELDAAPGASKLRAVLEKLKLSRDDISTAAGVKGVVDHLLLRLKCDSAFRGVGLLNTGSYYEHVKISAPNEFDVFKLEVPRIQLEEYSNTRAYYFVKFKRNPKENPLSQFLEGEILSASKLSKFRKIIKEEINDIKDTDVIKRKRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLVPKHAKEGNGFQEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLKYLLEQLKERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKLENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFDEF FELDAAPGASKLRAVLEKLKLSRDDISTAAGVKGVVDHLLLRLKCDSAFRGVGLLNTGSYYEHVKISAPNEFDVFKLEVPRIQLEEYSNTRAYYFVKFKRNPKENPLSQFLEGEILSASKLSKFRKIIKEEINDIKDTDVIKRKRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLVPKHAKEGNGFQEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLKYLLEQLKERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKLENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFDEF 4lf0-a1-m1-cA_4lf0-a1-m6-cA The E142D mutant of the amidase from Geobacillus pallidus Q9L543 Q9L543 1.1 X-RAY DIFFRACTION 331 1.0 1409 (Bacillus sp. (in: firmicutes)) 1409 (Bacillus sp. (in: firmicutes)) 340 340 2plq-a1-m1-cA_2plq-a1-m6-cA 2plq-a1-m2-cA_2plq-a1-m5-cA 2plq-a1-m3-cA_2plq-a1-m4-cA 4gyl-a1-m1-cA_4gyl-a1-m6-cA 4gyl-a1-m2-cA_4gyl-a1-m5-cA 4gyl-a1-m3-cA_4gyl-a1-m4-cA 4gyn-a1-m1-cA_4gyn-a1-m6-cA 4gyn-a1-m2-cA_4gyn-a1-m5-cA 4gyn-a1-m3-cA_4gyn-a1-m4-cA 4kzf-a1-m1-cA_4kzf-a1-m6-cA 4kzf-a1-m2-cA_4kzf-a1-m5-cA 4kzf-a1-m3-cA_4kzf-a1-m4-cA 4lf0-a1-m2-cA_4lf0-a1-m5-cA 4lf0-a1-m3-cA_4lf0-a1-m4-cA MRHGDISSSHDTVGIAVVNYKMPRLHTKAEVIENAKKIADMVVGMKQGLPGMDLVVFPEYSTMGIMYDQDEMFATAASIPGEETAIFAEACKKADTWGVFSLTGEKHEDHPNKAPYNTLVLINNKGEIVQKYRKIIPWCPIDGWYPGDTTYVTEGPKGLKISLIVCDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKEQQIMMAKAMAWANNTYVAVANATGFDGVYSYFGHSAIIGFDGRTLGECGTEENGIQYAEVSISQIRDFRKNAQSQNHLFKLLHRGYTGLINSGEGDRGVAECPFDFYRTWVLDAEKARENVEKITRSTVGTAECPIQGIPNE MRHGDISSSHDTVGIAVVNYKMPRLHTKAEVIENAKKIADMVVGMKQGLPGMDLVVFPEYSTMGIMYDQDEMFATAASIPGEETAIFAEACKKADTWGVFSLTGEKHEDHPNKAPYNTLVLINNKGEIVQKYRKIIPWCPIDGWYPGDTTYVTEGPKGLKISLIVCDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKEQQIMMAKAMAWANNTYVAVANATGFDGVYSYFGHSAIIGFDGRTLGECGTEENGIQYAEVSISQIRDFRKNAQSQNHLFKLLHRGYTGLINSGEGDRGVAECPFDFYRTWVLDAEKARENVEKITRSTVGTAECPIQGIPNE 4lf0-a1-m3-cA_4lf0-a1-m6-cA The E142D mutant of the amidase from Geobacillus pallidus Q9L543 Q9L543 1.1 X-RAY DIFFRACTION 72 1.0 1409 (Bacillus sp. (in: firmicutes)) 1409 (Bacillus sp. (in: firmicutes)) 340 340 2plq-a1-m1-cA_2plq-a1-m5-cA 2plq-a1-m2-cA_2plq-a1-m4-cA 2plq-a1-m3-cA_2plq-a1-m6-cA 4gyl-a1-m1-cA_4gyl-a1-m5-cA 4gyl-a1-m2-cA_4gyl-a1-m4-cA 4gyl-a1-m3-cA_4gyl-a1-m6-cA 4gyn-a1-m1-cA_4gyn-a1-m5-cA 4gyn-a1-m2-cA_4gyn-a1-m4-cA 4gyn-a1-m3-cA_4gyn-a1-m6-cA 4kzf-a1-m1-cA_4kzf-a1-m5-cA 4kzf-a1-m2-cA_4kzf-a1-m4-cA 4kzf-a1-m3-cA_4kzf-a1-m6-cA 4lf0-a1-m1-cA_4lf0-a1-m5-cA 4lf0-a1-m2-cA_4lf0-a1-m4-cA MRHGDISSSHDTVGIAVVNYKMPRLHTKAEVIENAKKIADMVVGMKQGLPGMDLVVFPEYSTMGIMYDQDEMFATAASIPGEETAIFAEACKKADTWGVFSLTGEKHEDHPNKAPYNTLVLINNKGEIVQKYRKIIPWCPIDGWYPGDTTYVTEGPKGLKISLIVCDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKEQQIMMAKAMAWANNTYVAVANATGFDGVYSYFGHSAIIGFDGRTLGECGTEENGIQYAEVSISQIRDFRKNAQSQNHLFKLLHRGYTGLINSGEGDRGVAECPFDFYRTWVLDAEKARENVEKITRSTVGTAECPIQGIPNE MRHGDISSSHDTVGIAVVNYKMPRLHTKAEVIENAKKIADMVVGMKQGLPGMDLVVFPEYSTMGIMYDQDEMFATAASIPGEETAIFAEACKKADTWGVFSLTGEKHEDHPNKAPYNTLVLINNKGEIVQKYRKIIPWCPIDGWYPGDTTYVTEGPKGLKISLIVCDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKEQQIMMAKAMAWANNTYVAVANATGFDGVYSYFGHSAIIGFDGRTLGECGTEENGIQYAEVSISQIRDFRKNAQSQNHLFKLLHRGYTGLINSGEGDRGVAECPFDFYRTWVLDAEKARENVEKITRSTVGTAECPIQGIPNE 4lf0-a1-m5-cA_4lf0-a1-m6-cA The E142D mutant of the amidase from Geobacillus pallidus Q9L543 Q9L543 1.1 X-RAY DIFFRACTION 76 1.0 1409 (Bacillus sp. (in: firmicutes)) 1409 (Bacillus sp. (in: firmicutes)) 340 340 2plq-a1-m1-cA_2plq-a1-m2-cA 2plq-a1-m1-cA_2plq-a1-m3-cA 2plq-a1-m2-cA_2plq-a1-m3-cA 2plq-a1-m4-cA_2plq-a1-m5-cA 2plq-a1-m4-cA_2plq-a1-m6-cA 2plq-a1-m5-cA_2plq-a1-m6-cA 4gyl-a1-m1-cA_4gyl-a1-m2-cA 4gyl-a1-m1-cA_4gyl-a1-m3-cA 4gyl-a1-m2-cA_4gyl-a1-m3-cA 4gyl-a1-m4-cA_4gyl-a1-m5-cA 4gyl-a1-m4-cA_4gyl-a1-m6-cA 4gyl-a1-m5-cA_4gyl-a1-m6-cA 4gyn-a1-m1-cA_4gyn-a1-m2-cA 4gyn-a1-m1-cA_4gyn-a1-m3-cA 4gyn-a1-m2-cA_4gyn-a1-m3-cA 4gyn-a1-m4-cA_4gyn-a1-m5-cA 4gyn-a1-m4-cA_4gyn-a1-m6-cA 4gyn-a1-m5-cA_4gyn-a1-m6-cA 4kzf-a1-m1-cA_4kzf-a1-m2-cA 4kzf-a1-m1-cA_4kzf-a1-m3-cA 4kzf-a1-m2-cA_4kzf-a1-m3-cA 4kzf-a1-m4-cA_4kzf-a1-m5-cA 4kzf-a1-m4-cA_4kzf-a1-m6-cA 4kzf-a1-m5-cA_4kzf-a1-m6-cA 4lf0-a1-m1-cA_4lf0-a1-m2-cA 4lf0-a1-m1-cA_4lf0-a1-m3-cA 4lf0-a1-m2-cA_4lf0-a1-m3-cA 4lf0-a1-m4-cA_4lf0-a1-m5-cA 4lf0-a1-m4-cA_4lf0-a1-m6-cA MRHGDISSSHDTVGIAVVNYKMPRLHTKAEVIENAKKIADMVVGMKQGLPGMDLVVFPEYSTMGIMYDQDEMFATAASIPGEETAIFAEACKKADTWGVFSLTGEKHEDHPNKAPYNTLVLINNKGEIVQKYRKIIPWCPIDGWYPGDTTYVTEGPKGLKISLIVCDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKEQQIMMAKAMAWANNTYVAVANATGFDGVYSYFGHSAIIGFDGRTLGECGTEENGIQYAEVSISQIRDFRKNAQSQNHLFKLLHRGYTGLINSGEGDRGVAECPFDFYRTWVLDAEKARENVEKITRSTVGTAECPIQGIPNE MRHGDISSSHDTVGIAVVNYKMPRLHTKAEVIENAKKIADMVVGMKQGLPGMDLVVFPEYSTMGIMYDQDEMFATAASIPGEETAIFAEACKKADTWGVFSLTGEKHEDHPNKAPYNTLVLINNKGEIVQKYRKIIPWCPIDGWYPGDTTYVTEGPKGLKISLIVCDDGNYPEIWRDCAMKGAELIVRCQGYMYPAKEQQIMMAKAMAWANNTYVAVANATGFDGVYSYFGHSAIIGFDGRTLGECGTEENGIQYAEVSISQIRDFRKNAQSQNHLFKLLHRGYTGLINSGEGDRGVAECPFDFYRTWVLDAEKARENVEKITRSTVGTAECPIQGIPNE 4lfg-a1-m1-cB_4lfg-a1-m1-cA Crystal structure of geranylgeranyl diphosphate synthase sub1274 (target efi-509455) from streptococcus uberis 0140j with bound magnesium and isopentyl diphosphate, fully liganded complex; B9DUT7 B9DUT7 1.76 X-RAY DIFFRACTION 175 1.0 218495 (Streptococcus uberis 0140J) 218495 (Streptococcus uberis 0140J) 288 290 4lfe-a1-m1-cA_4lfe-a1-m1-cB DKLKKIDQTIHAFYCEKAVISEKLNEAVLYSINAGGKRIRPILFLEVIEALQIPLTESHFKAAAALEMIHTGSLIHDDLPAMDNDDYRRGQLTNHKKFDEATAILAGDSLFLDAFGMLAETDFPTDVTVDLVRSLSSASGTFGMVGGQMLDMAAEGKKLNLKNLQLIHRHKTGQLLAYPFWAAARVAQLDENLLATFLEIGMIIGLAFQVRDDILDITANFEEIGKTPKKDVMAEKMTYPHLLGLNESYQILDESLDQAEAILRKLSDEIAFAPQKILSLIERLRLDA SMDKLKKIDQTIHAFYCEKAVISEKLNEAVLYSINAGGKRIRPILFLEVIEALQIPLTESHFKAAAALEMIHTGSLIHDDLPAMDNDDYRRGQLTNHKKFDEATAILAGDSLFLDAFGMLAETDFPTDVTVDLVRSLSSASGTFGMVGGQMLDMAAEGKKLNLKNLQLIHRHKTGQLLAYPFWAAARVAQLDENLLATFLEIGMIIGLAFQVRDDILDITANFEEIGKTPKKDVMAEKMTYPHLLGLNESYQILDESLDQAEAILRKLSDEIAFAPQKILSLIERLRLDA 4lfi-a1-m1-cA_4lfi-a1-m1-cB Crystal structure of scCK2 alpha in complex with GMPPNP P15790 P15790 1.85 X-RAY DIFFRACTION 22 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 370 371 4fi1-a2-m1-cA_4fi1-a2-m2-cA 4mwh-a2-m1-cA_4mwh-a2-m2-cA KCRVWSEARVYTNINKQRTEEYWDYENTVIDWSTNTKDYEIENKVGRGKYSEVFQGVKLDSKVKIVIKMLKPVKKKKIKREIKILTDLSNEKVPPTTLPFQKDQYYTNQKEDVLKFIRPYIFDQPHNGHANIIHLFDIIKDPISKTPALVFEYVDNVDFRILYPKLTDLEIRFYMFELLKALDYCHSMGIMHRDVKPHNVMIDHKNKKLRLIDWGLAEFYHVNMEYNVRVASRFFKGPELLVDYRMYDYSLDLWSFGTMLASMIFKREPFFHGTSNTDQLVKIVKVLGTSDFEKYLLKYEITLPREFYDMDQYIRKPWHRFINDGNKHLSGNDEIIDLIDNLLRYDHQERLTAKEAMGHPWFAPIREQIE MKCRVWSEARVYTNINKQRTEEYWDYENTVIDWSTNTKDYEIENKVGRGKYSEVFQGVKLDSKVKIVIKMLKPVKKKKIKREIKILTDLSNEKVPPTTLPFQKDQYYTNQKEDVLKFIRPYIFDQPHNGHANIIHLFDIIKDPISKTPALVFEYVDNVDFRILYPKLTDLEIRFYMFELLKALDYCHSMGIMHRDVKPHNVMIDHKNKKLRLIDWGLAEFYHVNMEYNVRVASRFFKGPELLVDYRMYDYSLDLWSFGTMLASMIFKREPFFHGTSNTDQLVKIVKVLGTSDFEKYLLKYEITLPREFYDMDQYIRKPWHRFINDGNKHLSGNDEIIDLIDNLLRYDHQERLTAKEAMGHPWFAPIREQIE 4lfn-a1-m2-cA_4lfn-a1-m2-cC Crystal Structure of D-galactose-6-phosphate isomerase in complex with D-ribulose 1.65 X-RAY DIFFRACTION 24 1.0 568704 (Lacticaseibacillus rhamnosus Lc 705) 568704 (Lacticaseibacillus rhamnosus Lc 705) 142 142 4lfk-a1-m1-cA_4lfk-a1-m1-cC 4lfk-a1-m2-cA_4lfk-a1-m2-cC 4lfl-a1-m1-cA_4lfl-a1-m1-cC 4lfl-a1-m2-cA_4lfl-a1-m2-cC 4lfm-a1-m1-cA_4lfm-a1-m1-cC 4lfm-a1-m2-cA_4lfm-a1-m2-cC 4lfn-a1-m1-cA_4lfn-a1-m1-cC MDVIIGADKDGFAMKEQVKKYLEEHQYRVADVTPEPAEDFVESSLAVTKKLLNSDAHKAIMFDRYGVGSAMASNKVKGMVTAVVEEENTAHMTAEHNGAKAIAIGTGITGYDRALVIIQRYLDTEYAGGRHQIRLDMLEKMI MDVIIGADKDGFAMKEQVKKYLEEHQYRVADVTPEPAEDFVESSLAVTKKLLNSDAHKAIMFDRYGVGSAMASNKVKGMVTAVVEEENTAHMTAEHNGAKAIAIGTGITGYDRALVIIQRYLDTEYAGGRHQIRLDMLEKMI 4lft-a1-m1-cA_4lft-a1-m1-cB Structure of alpha-elapitoxin-Dpp2d isolated from Black Mamba (Dendroaspis polylepis) venom P01396 P01396 1.7 X-RAY DIFFRACTION 42 1.0 8620 (Dendroaspis polylepis polylepis) 8620 (Dendroaspis polylepis polylepis) 64 72 RTCNKTFSDQSKICPPGENICYTKTWCDAFCSQRGKRVELGCAATCPKVKAGVEIKCCSTDNCN RTCNKTFSDQSKICPPGENICYTKTWCDAFCSQRGKRVELGCAATCPKVKAGVEIKCCSTDNCNKFQFGKPR 4lfy-a3-m1-cA_4lfy-a3-m1-cB Crystal structure of a dihydroorotase from Burkholderia cenocepacia J2315 B4EEU0 B4EEU0 1.8 X-RAY DIFFRACTION 70 0.997 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 348 352 PPMTASNSPATLSLARPDDWHLHLRDGDMLAAVLPHTARQFGRAIVMPNLKPPVTTTAQAQAYRERILAALPAGMTFEPLMTLYLTDNTPPDEIRRARESGFVHGVLYPASDHGVTDLAKCAKTLEAMQETGMPLLVHGEVTDASIDLFDREKVFIDRVMTPLRRDFPGLKVVFEHITTKDAADYVRDADAAPGLLGATITAHHLLYNRNALFVGGIRPHYYCLPVLKRETHRVALVEAATSGNPRFFLGTDSAPHARDAKETACGCAGCYTALHALELYAEAFDTAGALDKLEGFASFFGADFYGLPRSAETVTLRREPWELPREIFAGETPVVPLRGGETIGWKLA PMTASNASSPATLSLARPDDWHLHLRDGDMLAAVLPHTARQFGRAIVMPNLKPPVTTTAQAQAYRERILAALPAGMTFEPLMTLYLTDNTPPDEIRRARESGFVHGVLYPAGTNSDHGVTDLAKCAKTLEAMQETGMPLLVHGEVTDASIDLFDREKVFIDRVMTPLRRDFPGLKVVFEHITTKDAADYVRDADAAPGLLGATITAHHLLYNRNALFVGGIRPHYYCLPVLKRETHRVALVEAATSGNPRFFLGTDSAPHARDAKETACGCAGCYTALHALELYAEAFDTAGALDKLEGFASFFGADFYGLPRSAETVTLRREPWELPREIFAGETPVVPLRGGETIGWKLA 4lg1-a1-m1-cB_4lg1-a1-m1-cA Human Methyltransferase-Like Protein 21D Q9H867 Q9H867 1.8 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 217 RSFVRVLEKRDGTVLRLQQYSSGGVGCVVWDAAIVLSKYLETPEFSGDGAHALSRRSVLELGSGTGAVGLMAATLGADVVVTDLEELQDLLKMNINMNKHLVTGSVQAKVLKWGEEIEPSPPDFILMADCIYYEESLEPLLKTLKDISGFETCIICCYEQRTMGKNPEIEKKYFELLQLDFDFEKIPLEKHDEEYRSEDIHIIYIRKKKSKFP DPLRSFVRVLEKRDGTVLRLQQYSSGGVGCVVWDAAIVLSKYLETPEFSGDGAHALSRRSVLELGSGTGAVGLMAATLGADVVVTDLEELQDLLKMNINMNKHLVTGSVQAKVLKWGEEIEFPSPPDFILMADCIYYEESLEPLLKTLKDISGFETCIICCYEQRTMGKNPEIEKKYFELLQLDFDFEKIPLEKHDEEYRSEDIHIIYIRKKKSKFP 4lg1-a1-m1-cB_4lg1-a1-m1-cC Human Methyltransferase-Like Protein 21D Q9H867 Q9H867 1.8 X-RAY DIFFRACTION 45 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 213 217 RSFVRVLEKRDGTVLRLQQYSSGGVGCVVWDAAIVLSKYLETPEFSGDGAHALSRRSVLELGSGTGAVGLMAATLGADVVVTDLEELQDLLKMNINMNKHLVTGSVQAKVLKWGEEIEPSPPDFILMADCIYYEESLEPLLKTLKDISGFETCIICCYEQRTMGKNPEIEKKYFELLQLDFDFEKIPLEKHDEEYRSEDIHIIYIRKKKSKFP GSSLEDPLRSFVRVLEKRDGTVLRLQQYSSVGCVVWDAAIVLSKYLETPEFSGDGAHALSRRSVLELGSGTGAVGLMAATLGADVVVTDLEELQDLLKMNINMNKHLVTGSVQAKVLKWGEEIESPPDFILMADCIYYEESLEPLLKTLKDISGFETCIICCYEQRTMGKNPEIEKKYFELLQLDFDFEKIPLEKHDEEYRSEDIHIIYIRKKKSKF 4lg2-a1-m1-cA_4lg2-a1-m1-cB Crystal structure of Reston Ebola virus VP35 RNA binding domain bound to 12-bp dsRNA Q8JPY0 Q8JPY0 2.7 X-RAY DIFFRACTION 25 1.0 386032 (Reston ebolavirus - Reston (1989)) 386032 (Reston ebolavirus - Reston (1989)) 122 122 ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI 4lg2-a1-m1-cA_4lg2-a1-m1-cC Crystal structure of Reston Ebola virus VP35 RNA binding domain bound to 12-bp dsRNA Q8JPY0 Q8JPY0 2.7 X-RAY DIFFRACTION 27 1.0 386032 (Reston ebolavirus - Reston (1989)) 386032 (Reston ebolavirus - Reston (1989)) 122 122 ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI 4lg2-a1-m1-cA_4lg2-a1-m1-cD Crystal structure of Reston Ebola virus VP35 RNA binding domain bound to 12-bp dsRNA Q8JPY0 Q8JPY0 2.7 X-RAY DIFFRACTION 28 1.0 386032 (Reston ebolavirus - Reston (1989)) 386032 (Reston ebolavirus - Reston (1989)) 122 122 ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI ISAKDLKEIMYDHLPGFGTAFHQLVQVICKIGKDNNLLDTIHAEFQASLADGDSPQCALIQITKRVPIFQDVPPPIIHIRSRGDIPRACQKSLRPAPPSPKIDRGWVCLFKMQDGKTLGLKI 4lgi-a2-m1-cB_4lgi-a2-m1-cC N-terminal truncated NleC structure Q8X834 Q8X834 2.301 X-RAY DIFFRACTION 54 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 203 205 4lgi-a1-m1-cD_4lgi-a1-m1-cA SNVYESVIRAVHDSRSRLIDQHTVDIGNTVLDALSRSQTFRDAVSYGIHNEKVHIGCIKYRNEYELNEESSVIDDIQSLTCNELYEYDVQEPIFPICEAGENDNEEPYVSFSVAPDTDSYEPSWQEGLIHEIIHHVTGSLGPTEILARRVAQELGWSREAHLRLRNLNALRQAARHEENERAFFERLGTISDRYEASPDFTEY SNVYESVIRAVHDSRSRLIDQHTVDIGNTVLDALSRSQTFRDAVSYGIHNEKVHIGCIKYRNEYELNEESSVIDDIQSLTCNELYEYDVGQEPIFPICEAGENDNEEPYVSFSVAPDTDSYEPSWQEGLIHEIIHHVTGSSLGPTEILARRVAQELGWSREAHLRLRNLNALRQAARHEENERAFFERLGTISDRYEASPDFTEY 4lgo-a1-m1-cB_4lgo-a1-m1-cC Crystal Structure of N-terminal domain 1 of VompD from Bartonella quintana A0A0H3LUZ2 A0A0H3LUZ2 1.7 X-RAY DIFFRACTION 204 1.0 803 (Bartonella quintana) 803 (Bartonella quintana) 116 117 4lgo-a1-m1-cB_4lgo-a1-m1-cA 4lgo-a1-m1-cC_4lgo-a1-m1-cA AWKLVVNDENPIDVNAGSTVKFVGVKAEEGNEDSKNIKITTGNNNEVKFDLNDIIRVKRVIAGKANVSEVGFVITGGPNMTVGGINAGNKKITGVANGIRENDAVNVSQLNELKNQ AWKLVVNDENPIDVNAGSTVKFVGVKAEEGNEDSKNIKITTGNNNEVKFDLNDIIRVKRVIAGKANVSEVGFVITGGPNMTVGGINAGNKKITGVANGIRENDAVNVSQLNELKNQI 4lgq-a2-m1-cC_4lgq-a2-m1-cD Crystal structure of a putative polyketide cyclase (CV_0247) from Chromobacterium violaceum ATCC 12472 at 2.72 A resolution Q7P1G6 Q7P1G6 2.72 X-RAY DIFFRACTION 52 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 130 130 4lgq-a1-m1-cA_4lgq-a1-m1-cB DTSKAVIQRFNREVIENGDAAFAELVAPDFVNHSAPPGVSPGPDGFAGFFTGLHPALSDIRVHIHEQIEENGKVVTRKTIEATHTGAFFGQPASGKRIAIHADIVVVRDGKYAEHWSCADLYGALAQIRA DTSKAVIQRFNREVIENGDAAFAELVAPDFVNHSAPPGVSPGPDGFAGFFTGLHPALSDIRVHIHEQIEENGKVVTRKTIEATHTGAFFGQPASGKRIAIHADIVVVRDGKYAEHWSCADLYGALAQIRA 4lh9-a1-m1-cA_4lh9-a1-m6-cA Crystal structure of the refolded hood domain (Asp256-Gly295) of HetR P27709 P27709 2.049 X-RAY DIFFRACTION 19 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 40 40 4lh9-a1-m2-cA_4lh9-a1-m5-cA 4lh9-a1-m3-cA_4lh9-a1-m4-cA DVPPERWDEAMQELDEIIRTWADKYHQVGGIPMILQMVFG DVPPERWDEAMQELDEIIRTWADKYHQVGGIPMILQMVFG 4lh9-a1-m3-cA_4lh9-a1-m6-cA Crystal structure of the refolded hood domain (Asp256-Gly295) of HetR P27709 P27709 2.049 X-RAY DIFFRACTION 107 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 40 40 4lh9-a1-m1-cA_4lh9-a1-m5-cA 4lh9-a1-m2-cA_4lh9-a1-m4-cA DVPPERWDEAMQELDEIIRTWADKYHQVGGIPMILQMVFG DVPPERWDEAMQELDEIIRTWADKYHQVGGIPMILQMVFG 4lhb-a1-m1-cC_4lhb-a1-m2-cC Crystal structure of tungsten cofactor synthesizing protein MoaB from Pyrococcus furiosus Q8U3T3 Q8U3T3 2.5 X-RAY DIFFRACTION 61 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 160 160 4lhb-a1-m1-cB_4lhb-a1-m1-cA 4lhb-a1-m2-cB_4lhb-a1-m2-cA APKTFKFGVITVSDKGAKGEREDKSGPLIIEELSKLGEHVYYKIVPDDKIEVLIALFEAIKSGADVVVTTGGTGITRRDITIESIKPLFDKELSFGEVFRAKSYEEVGYATVLTRATAGIIRGQERIVVVFSLPGSVNAVKTGLEIIKSEVFHILKHARE APKTFKFGVITVSDKGAKGEREDKSGPLIIEELSKLGEHVYYKIVPDDKIEVLIALFEAIKSGADVVVTTGGTGITRRDITIESIKPLFDKELSFGEVFRAKSYEEVGYATVLTRATAGIIRGQERIVVVFSLPGSVNAVKTGLEIIKSEVFHILKHARE 4lhb-a1-m2-cA_4lhb-a1-m2-cC Crystal structure of tungsten cofactor synthesizing protein MoaB from Pyrococcus furiosus Q8U3T3 Q8U3T3 2.5 X-RAY DIFFRACTION 49 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 159 160 4lhb-a1-m1-cA_4lhb-a1-m1-cC 4lhb-a1-m1-cB_4lhb-a1-m2-cA 4lhb-a1-m1-cB_4lhb-a1-m2-cC 4lhb-a1-m2-cB_4lhb-a1-m1-cA 4lhb-a1-m2-cB_4lhb-a1-m1-cC PKTFKFGVITVSDKGAKGEREDKSGPLIIEELSKLGEHVYYKIVPDDKIEVLIALFEAIKSGADVVVTTGGTGITRRDITIESIKPLFDKELSFGEVFRAKSYEEVGYATVLTRATAGIIRGQERIVVVFSLPGSVNAVKTGLEIIKSEVFHILKHARE APKTFKFGVITVSDKGAKGEREDKSGPLIIEELSKLGEHVYYKIVPDDKIEVLIALFEAIKSGADVVVTTGGTGITRRDITIESIKPLFDKELSFGEVFRAKSYEEVGYATVLTRATAGIIRGQERIVVVFSLPGSVNAVKTGLEIIKSEVFHILKHARE 4lhd-a1-m1-cB_4lhd-a1-m1-cA Crystal structure of Synechocystis sp. PCC 6803 glycine decarboxylase (P-protein), holo form with pyridoxal-5'-phosphate and glycine, closed flexible loop P74416 P74416 1.7959 X-RAY DIFFRACTION 230 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 939 951 4lgl-a1-m1-cB_4lgl-a1-m1-cA 4lhc-a1-m1-cA_4lhc-a1-m1-cB AIAVDLTKLEEKLAPADSFLDRHLGPGETEQRQMLQTLGFDTLGDLIDQAVPPAIRFPRSLQLPASQSEYGAIAQLKSIASKNQVFRSYIGMGYYDTITPPVIQRNILENPGWYTAYTPYQAEIAQGRLEALLNFQTMVMDLTGLEIANASLLDEGTAAAEAMALSYGVSKSKANAFFVAQDCHPQTIEVIKTRANPLGIEVIVGDHHTFSFSTSIFGALLQYPATDGAVYDYRSFIDKAHQHQALVTLAADPLSLTLLTPPGELGADIAVGSTQRFGIPLGYGGPHAAYFATKAEYQRKMPGRIVGVSKDAHGNPALRLALQSNICTAQVLLAVMASMYGVYHGSTGLKNIALRIHQLTVLLAIGLKRLNYSLNNDYFFDTLRVGVGEQSAPAILKAAEGRGINLRPLVPGEVGISLDETVTVQDLLDLWQVFAGKDNLPFTPEELWSEVKTSFPADLTRQSLYLQDAVFNQYHSETELLRYLHQLESKDLALNTSMIPLGSCTMKLNATAEMMPVTWPEFGKIHPFAPAGQTEGYQILFAQLEAWLGEITGFDAISLQPNAGSQGEYAGLQVIRQYHLSRGEEQRNICLIPESAHGTNPASAVMCGMQVVPVKCDGEGNIDVEDLTSKAEKYGDRLAALMVTYPSTHGVFEATIGTICDIVHRFGGEVYMDGANMNAQVGLCRPADFGADVCHLNLHTFCIPHGGGGPGMGPIGVKSHLQAFLPRTDQSIGMISAAPYGSASILVISWMYIAMMGPQGLTKATEVAILSANYMAKRLENYYPILFRGNNELVAHECILDLRPLKKQAAIEVEDVAKRLMDFGFHAPTVSWPVLGTMMVEPTESESLGELDRFCDAMIAIYQEAQAITHGEIDPADNPLKNAPHTAQSLICGEWNHPYSQEEAAYPAPWTKQFKFWPAVGRINNTYGDRHLVCSCEGM AIAVDLTKLEEKLAPADSFLDRHLGPGETEQRQMLQTLGFDTLGDLIDQAVPPAIRFPRSLQLPASQSEYGAIAQLKSIASKNQVFRSYIGMGYYDTITPPVIQRNILENPGWYTAYTPYQAEIAQGRLEALLNFQTMVMDLTGLEIANASLLDEGTAAAEAMALSYGVSKSKANAFFVAQDCHPQTIEVIKTRANPLGIEVIVGDHHTFSFSTSIFGALLQYPATDGAVYDYRSFIDKAHQHQALVTLAADPLSLTLLTPPGELGADIAVGSTQRFGIPLGYGGPHAAYFATKAEYQRKMPGRIVGVSKDAHGNPALRLALQTREQHIRRDKATSNICTAQVLLAVMASMYGVYHGSTGLKNIALRIHQLTVLLAIGLKRLNYSLNNDYFFDTLRVGVGEQSAPAILKAAEGRGINLRPLVPGEVGISLDETVTVQDLLDLWQVFAGKDNLPFTPEELWSEVKTSFPADLTRQSLYLQDAVFNQYHSETELLRYLHQLESKDLALNTSMIPLGSCTMKLNATAEMMPVTWPEFGKIHPFAPAGQTEGYQILFAQLEAWLGEITGFDAISLQPNAGSQGEYAGLQVIRQYHLSRGEEQRNICLIPESAHGTNPASAVMCGMQVVPVKCDGEGNIDVEDLTSKAEKYGDRLAALMVTYPSTHGVFEATIGTICDIVHRFGGEVYMDGANMNAQVGLCRPADFGADVCHLNLHTFCIPHGGGGPGMGPIGVKSHLQAFLPRTDQSIGMISAAPYGSASILVISWMYIAMMGPQGLTKATEVAILSANYMAKRLENYYPILFRGNNELVAHECILDLRPLKKQAAIEVEDVAKRLMDFGFHAPTVSWPVLGTMMVEPTESESLGELDRFCDAMIAIYQEAQAITHGEIDPADNPLKNAPHTAQSLICGEWNHPYSQEEAAYPAPWTKQFKFWPAVGRINNTYGDRHLVCSCEGM 4lhp-a4-m1-cJ_4lhp-a4-m1-cL Crystal Structure of Native FG41Malonate Semialdehyde Decarboxylase F2Z288 F2Z288 2.02 X-RAY DIFFRACTION 106 1.0 1728 (coryneform bacterium) 1728 (coryneform bacterium) 131 131 3mjz-a1-m1-cA_3mjz-a1-m1-cB 3mjz-a1-m1-cA_3mjz-a1-m1-cC 3mjz-a1-m1-cB_3mjz-a1-m1-cC 3mjz-a2-m1-cD_3mjz-a2-m1-cE 3mjz-a2-m1-cF_3mjz-a2-m1-cD 3mjz-a2-m1-cF_3mjz-a2-m1-cE 3mjz-a3-m1-cG_3mjz-a3-m1-cH 3mjz-a3-m1-cG_3mjz-a3-m1-cI 3mjz-a3-m1-cH_3mjz-a3-m1-cI 3mjz-a4-m1-cJ_3mjz-a4-m1-cL 3mjz-a4-m1-cK_3mjz-a4-m1-cJ 3mjz-a4-m1-cK_3mjz-a4-m1-cL 3mlc-a1-m1-cA_3mlc-a1-m1-cB 3mlc-a1-m1-cA_3mlc-a1-m1-cC 3mlc-a1-m1-cB_3mlc-a1-m1-cC 3mlc-a2-m1-cD_3mlc-a2-m2-cD 3mlc-a2-m1-cD_3mlc-a2-m3-cD 3mlc-a2-m2-cD_3mlc-a2-m3-cD 3mlc-a3-m1-cE_3mlc-a3-m4-cE 3mlc-a3-m1-cE_3mlc-a3-m5-cE 3mlc-a3-m4-cE_3mlc-a3-m5-cE 4lho-a1-m1-cA_4lho-a1-m1-cB 4lho-a1-m1-cA_4lho-a1-m1-cC 4lho-a1-m1-cB_4lho-a1-m1-cC 4lho-a2-m1-cD_4lho-a2-m2-cD 4lho-a2-m1-cD_4lho-a2-m3-cD 4lho-a2-m2-cD_4lho-a2-m3-cD 4lho-a3-m1-cE_4lho-a3-m4-cE 4lho-a3-m1-cE_4lho-a3-m5-cE 4lho-a3-m4-cE_4lho-a3-m5-cE 4lhp-a1-m1-cA_4lhp-a1-m1-cB 4lhp-a1-m1-cA_4lhp-a1-m1-cC 4lhp-a1-m1-cB_4lhp-a1-m1-cC 4lhp-a2-m1-cD_4lhp-a2-m1-cE 4lhp-a2-m1-cF_4lhp-a2-m1-cD 4lhp-a2-m1-cF_4lhp-a2-m1-cE 4lhp-a3-m1-cG_4lhp-a3-m1-cH 4lhp-a3-m1-cG_4lhp-a3-m1-cI 4lhp-a3-m1-cH_4lhp-a3-m1-cI 4lhp-a4-m1-cK_4lhp-a4-m1-cJ 4lhp-a4-m1-cK_4lhp-a4-m1-cL PLIRIDLTSDRSREQRRAIADAVHDALVEVLAIPARDRFQILTAHDPSDIIAEDAGLGFQRSPSVVIIHVFTQAGRTIETKQRVFAAITESLAPIGVAGSDVFIAITENAPHDWSFGFGSAQYVTGELAIP PLIRIDLTSDRSREQRRAIADAVHDALVEVLAIPARDRFQILTAHDPSDIIAEDAGLGFQRSPSVVIIHVFTQAGRTIETKQRVFAAITESLAPIGVAGSDVFIAITENAPHDWSFGFGSAQYVTGELAIP 4lhr-a1-m2-cA_4lhr-a1-m3-cA Crystal structure of a deoxyuridine 5'-triphosphate nucleotidohydrolase from Burkholderia thailandensis Q2T0H6 Q2T0H6 1.5 X-RAY DIFFRACTION 123 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 134 134 4lhr-a1-m1-cA_4lhr-a1-m2-cA 4lhr-a1-m1-cA_4lhr-a1-m3-cA HHMKLDLKILDARMRDYLPKYATTGSAGLDLRACLDAPVTLKPGDTALVPTGLAIHLADPGYAALILPRSGLGHKHGIVLGNLVGLIDSDYQGELMISTWNRGQTEFVLNPFERLAQLVIVPVVQATFNIVGDF HHMKLDLKILDARMRDYLPKYATTGSAGLDLRACLDAPVTLKPGDTALVPTGLAIHLADPGYAALILPRSGLGHKHGIVLGNLVGLIDSDYQGELMISTWNRGQTEFVLNPFERLAQLVIVPVVQATFNIVGDF 4lhs-a1-m1-cA_4lhs-a1-m2-cA Crystal structure of a putative GDSL-like lipase (BACOVA_00914) from Bacteroides ovatus ATCC 8483 at 1.40 A resolution A7LSX5 A7LSX5 1.4 X-RAY DIFFRACTION 137 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 329 329 NITYVPAQELLLVGKATTEGEYFHRVDTAKYRTPPTVKKLFTNSAGLAISFTTNSPVIKAKWVPDNYQLPNLTRVAQKGLDLYIKRDGKWQFAGVGIPGGVTTEKVLVDNGTEEKECLLYLPLYDELKSLEIGVSSDAHIRKGENPFKEKIVVYGSSILQGASASRPGAYPARLSRSSGYNFINLGLSGNGKEKEVAELADIDADAFILDCIPNPSPKEITDRTVDFVTLRQKHPDTPIIVIQTLIRETGNFNQKARENVKRQNEAIAEQVEVLRKKNVKNLYFIKEDQFLGTDHEGTVDGTHPNDLGFDRLKKYKPAISKILKIKFKA NITYVPAQELLLVGKATTEGEYFHRVDTAKYRTPPTVKKLFTNSAGLAISFTTNSPVIKAKWVPDNYQLPNLTRVAQKGLDLYIKRDGKWQFAGVGIPGGVTTEKVLVDNGTEEKECLLYLPLYDELKSLEIGVSSDAHIRKGENPFKEKIVVYGSSILQGASASRPGAYPARLSRSSGYNFINLGLSGNGKEKEVAELADIDADAFILDCIPNPSPKEITDRTVDFVTLRQKHPDTPIIVIQTLIRETGNFNQKARENVKRQNEAIAEQVEVLRKKNVKNLYFIKEDQFLGTDHEGTVDGTHPNDLGFDRLKKYKPAISKILKIKFKA 4lhx-a2-m1-cD_4lhx-a2-m1-cC Crystal structure of nucleotide-free Rab8:Rabin8 Q96QF0 Q96QF0 3.05 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 72 4lhx-a1-m1-cE_4lhx-a1-m1-cF 4lhy-a1-m1-cE_4lhy-a1-m1-cF 4lhy-a2-m1-cD_4lhy-a2-m1-cC 4lhz-a1-m1-cE_4lhz-a1-m1-cF 4lhz-a2-m1-cD_4lhz-a2-m1-cC GYERLKEELAKAQRELKLKDEECERLSKVRDQLGQELEELTASLFEEAHKMVREANIKQATAEKQLKEAQG GYERLKEELAKAQRELKLKDEECERLSKVRDQLGQELEELTASLFEEAHKMVREANIKQATAEKQLKEAQGK 4li0-a2-m1-cC_4li0-a2-m1-cD Crystal structure of GDP-bound Rab8:GRAB Q8TBN0 Q8TBN0 3.3 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 4li0-a1-m1-cE_4li0-a1-m1-cF LKEELHRAQKELKLKDEECERLSKVREQLEQELEELTASLFEEAHKMVREANMKQAASEKQLKEARGKI LKEELHRAQKELKLKDEECERLSKVREQLEQELEELTASLFEEAHKMVREANMKQAASEKQLKEARGKI 4li1-a1-m1-cA_4li1-a1-m1-cB Crystal Structures of Lgr4 and its complex with R-spondin1 B0BLW3 B0BLW3 2.658 X-RAY DIFFRACTION 12 1.0 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 424 425 PCPAPCACDLDGGADCSGKGLVTVPDGLSVFTHSLDLSMNNITKLPEGAFKGFPYLEELRLAGNDLSIIHPMALSGLKELKVLTLQNNQLKTVPSESLKGLVSLQSLRLDANHIVTVPEDSFEGLVQLRHLWLDDNSLTEVPIRPLSNLPSLQALTLALNKISHIPDYAFSNLSSLVVLHLHNNKIRTLGPHCFHGLDNLEALDLNYNNLIDFPDSIRSLPNLKELGFHSNSITIIPDGAFVKNPLLRTIHLYDNPLSFVGNSAFQNLSDLHFLIIRGASNVQWFPNLTGTNNLESLTLTGTKIRSIPIKFCQEQKMLRTLDLSYNEISALVGFEGCSSLEEVYLQNNQIQEVQNETFQGLAALRMLDLSRNRIHTIHKEAFVTLKALTNLDLSFNDLTAFPTAGLHGLNQLKLTGNPNFKETL APCPAPCACDLDGGADCSGKGLVTVPDGLSVFTHSLDLSMNNITKLPEGAFKGFPYLEELRLAGNDLSIIHPMALSGLKELKVLTLQNNQLKTVPSESLKGLVSLQSLRLDANHIVTVPEDSFEGLVQLRHLWLDDNSLTEVPIRPLSNLPSLQALTLALNKISHIPDYAFSNLSSLVVLHLHNNKIRTLGPHCFHGLDNLEALDLNYNNLIDFPDSIRSLPNLKELGFHSNSITIIPDGAFVKNPLLRTIHLYDNPLSFVGNSAFQNLSDLHFLIIRGASNVQWFPNLTGTNNLESLTLTGTKIRSIPIKFCQEQKMLRTLDLSYNEISALVGFEGCSSLEEVYLQNNQIQEVQNETFQGLAALRMLDLSRNRIHTIHKEAFVTLKALTNLDLSFNDLTAFPTAGLHGLNQLKLTGNPNFKETL 4li1-a2-m2-cA_4li1-a2-m1-cB Crystal Structures of Lgr4 and its complex with R-spondin1 B0BLW3 B0BLW3 2.658 X-RAY DIFFRACTION 75 1.0 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 424 425 PCPAPCACDLDGGADCSGKGLVTVPDGLSVFTHSLDLSMNNITKLPEGAFKGFPYLEELRLAGNDLSIIHPMALSGLKELKVLTLQNNQLKTVPSESLKGLVSLQSLRLDANHIVTVPEDSFEGLVQLRHLWLDDNSLTEVPIRPLSNLPSLQALTLALNKISHIPDYAFSNLSSLVVLHLHNNKIRTLGPHCFHGLDNLEALDLNYNNLIDFPDSIRSLPNLKELGFHSNSITIIPDGAFVKNPLLRTIHLYDNPLSFVGNSAFQNLSDLHFLIIRGASNVQWFPNLTGTNNLESLTLTGTKIRSIPIKFCQEQKMLRTLDLSYNEISALVGFEGCSSLEEVYLQNNQIQEVQNETFQGLAALRMLDLSRNRIHTIHKEAFVTLKALTNLDLSFNDLTAFPTAGLHGLNQLKLTGNPNFKETL APCPAPCACDLDGGADCSGKGLVTVPDGLSVFTHSLDLSMNNITKLPEGAFKGFPYLEELRLAGNDLSIIHPMALSGLKELKVLTLQNNQLKTVPSESLKGLVSLQSLRLDANHIVTVPEDSFEGLVQLRHLWLDDNSLTEVPIRPLSNLPSLQALTLALNKISHIPDYAFSNLSSLVVLHLHNNKIRTLGPHCFHGLDNLEALDLNYNNLIDFPDSIRSLPNLKELGFHSNSITIIPDGAFVKNPLLRTIHLYDNPLSFVGNSAFQNLSDLHFLIIRGASNVQWFPNLTGTNNLESLTLTGTKIRSIPIKFCQEQKMLRTLDLSYNEISALVGFEGCSSLEEVYLQNNQIQEVQNETFQGLAALRMLDLSRNRIHTIHKEAFVTLKALTNLDLSFNDLTAFPTAGLHGLNQLKLTGNPNFKETL 4lid-a1-m1-cB_4lid-a1-m6-cB A100, A DNA binding scaffold from Sulfolobus spindle-shape virus 1 P20194 P20194 3 X-RAY DIFFRACTION 52 1.0 244589 (Sulfolobus spindle-shaped virus 1) 244589 (Sulfolobus spindle-shaped virus 1) 86 86 4lid-a1-m1-cA_4lid-a1-m4-cA 4lid-a1-m2-cA_4lid-a1-m6-cA 4lid-a1-m2-cB_4lid-a1-m5-cB 4lid-a1-m3-cA_4lid-a1-m5-cA 4lid-a1-m3-cB_4lid-a1-m4-cB KQNSVFYLLTLGRKPYGSYLHIKIELDEDEKLEKEIYADNIKLENELRQLKRLYEVYQSVEIDDAQKAIQKEALLTIAKILSVFDF KQNSVFYLLTLGRKPYGSYLHIKIELDEDEKLEKEIYADNIKLENELRQLKRLYEVYQSVEIDDAQKAIQKEALLTIAKILSVFDF 4lis-a2-m1-cB_4lis-a2-m1-cC Crystal Structure of UDP-galactose-4-epimerase from Aspergillus nidulans C8VAU8 C8VAU8 2.8 X-RAY DIFFRACTION 80 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 363 364 4lis-a1-m1-cA_4lis-a1-m2-cA SGSVLVTGGTGYIGSFTTLALLEAGYKVVVADNLYNSSAEALNRIELISGKKAEFAQLDVTDEAAFDKVFEAHPDIDSVIHFAALKAVGESGEKPLDYYHVNVYGTICLLRSMVRHNVTNIVFSSSATVYGDATRFPDMIPIPEHCPLGPTNPYGNTKFAIELAITDVINAQRNNAKKAGNETEAAKWNGALLRYFNPAGAHPSGIMGEDPQGVPYNLLPLLAQVATGKREKLLVFGDDYASHDGTAIRDYIHILDLADGHLKALNYLRANNPGVRAWNLGTGRGSTVYEMIRAFSKAVGRDLPYEVAPRRAGDVLNLTSNPTRANTELGWKAQRTLEQACEDLWLWTKNNPQGYRQQPPAEL PSGSVLVTGGTGYIGSFTTLALLEAGYKVVVADNLYNSSAEALNRIELISGKKAEFAQLDVTDEAAFDKVFEAHPDIDSVIHFAALKAVGESGEKPLDYYHVNVYGTICLLRSMVRHNVTNIVFSSSATVYGDATRFPDMIPIPEHCPLGPTNPYGNTKFAIELAITDVINAQRNNAKKAGNETEAAKWNGALLRYFNPAGAHPSGIMGEDPQGVPYNLLPLLAQVATGKREKLLVFGDDYASHDGTAIRDYIHILDLADGHLKALNYLRANNPGVRAWNLGTGRGSTVYEMIRAFSKAVGRDLPYEVAPRRAGDVLNLTSNPTRANTELGWKAQRTLEQACEDLWLWTKNNPQGYRQQPPAEL 4liu-a1-m1-cA_4liu-a1-m2-cA Structure of YcfD, a Ribosomal oxygenase from Escherichia coli. P27431 P27431 2.7 X-RAY DIFFRACTION 188 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 351 351 4ccl-a1-m1-cA_4ccl-a1-m1-cB 4lit-a1-m1-cA_4lit-a1-m2-cA 4liv-a1-m1-cA_4liv-a1-m2-cA 4nub-a1-m1-cA_4nub-a1-m2-cA EYQLTLNWPDFLERHWQKRPVVLKRGFNNFIDPISPDELAGLAESEVDSRLVSHQDGKWQVSHGPFESYDHLGETNWSLLVQAVNHWHEPTAALRPFRELPDWRIDDLISFSVPGGGVGPHLDQYDVFIIQGTGRRRWRVGEKLVDPFEAIIDEELEPGDILYIPPGFPHEGYALENANYSVGFRAPNTRELISGFADYVLQRELGGNYYSDPDVPPRAHPADVLPQEDKLRELELINQPEHFKQWFGEFISQSRHELDIAPPEPPYQPDEIYDALKQGEVLVRLGGLRVLRIGDDVYANGEKIDSPHRPALDALASNIALTAENFGDALEDPSFLALAALVNSGYWFFEG EYQLTLNWPDFLERHWQKRPVVLKRGFNNFIDPISPDELAGLAESEVDSRLVSHQDGKWQVSHGPFESYDHLGETNWSLLVQAVNHWHEPTAALRPFRELPDWRIDDLISFSVPGGGVGPHLDQYDVFIIQGTGRRRWRVGEKLVDPFEAIIDEELEPGDILYIPPGFPHEGYALENANYSVGFRAPNTRELISGFADYVLQRELGGNYYSDPDVPPRAHPADVLPQEDKLRELELINQPEHFKQWFGEFISQSRHELDIAPPEPPYQPDEIYDALKQGEVLVRLGGLRVLRIGDDVYANGEKIDSPHRPALDALASNIALTAENFGDALEDPSFLALAALVNSGYWFFEG 4lj0-a1-m1-cB_4lj0-a1-m1-cA Nab2 Zn fingers complexed with polyadenosine G0SCL7 G0SCL7 2.15 X-RAY DIFFRACTION 10 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 64 65 EQDCKYWPNCANPLCAFRHPTMPPCRNGGECKVPGCKFTHLKTPCKFRPCTNRSCPFLHEEGQR EQDCKYWPNCANPLCAFRHPTMPPCRNGGECKVPGCKFTHLKTPCKFRPCTNRSCPFLHEEGQRG 4ljh-a1-m1-cA_4ljh-a1-m1-cD Crystal Structure of Pseudomonas aeruginosa Lectin LecA Complexed with 1-Methyl-3-indolyl-b-D-galactopyranoside at 1.45 A Resolution Q05097 Q05097 1.45 X-RAY DIFFRACTION 12 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 121 AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4ljh-a1-m1-cB_4ljh-a1-m1-cD Crystal Structure of Pseudomonas aeruginosa Lectin LecA Complexed with 1-Methyl-3-indolyl-b-D-galactopyranoside at 1.45 A Resolution Q05097 Q05097 1.45 X-RAY DIFFRACTION 38 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 121 4lk7-a1-m1-cB_4lk7-a1-m1-cC AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4lji-a1-m1-cB_4lji-a1-m1-cA Crystal structure at 1.5 angstrom resolution of the PsbV2 cytochrome from the cyanobacterium thermosynechococcus elongatus Q8DJE2 Q8DJE2 1.508 X-RAY DIFFRACTION 20 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 131 133 GVDNYVIQYLKVTDTVELPVNDRGETKTFTAVDLTRGKRLFEENCKNCHVGGSTLPNPLVSLSLKDLKGATPPRDTIASLVAFQRSPKSYDGSEESYSCRRVSEDWLTTEQLETLAAFILRAAAVAPGWGV AGVDNYVIQYLKVTDTVELPVNDRGETKTFTAVDLTRGKRLFEENCKNCHVGGSTLPNPLVSLSLKDLKGATPPRDTIASLVAFQRSPKSYDGSEESYSCRRVSEDWLTTEQLETLAAFILRAAAVAPGWGVE 4ljl-a1-m1-cA_4ljl-a1-m1-cB Structural insights into the unique single-stranded DNA binding mode of DNA processing protein A from Helicobacter pylori O25100 O25100 2.2 X-RAY DIFFRACTION 42 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 219 219 4ljk-a1-m1-cH_4ljk-a1-m1-cA 4ljk-a2-m1-cD_4ljk-a2-m1-cB 4ljk-a3-m1-cC_4ljk-a3-m1-cE 4ljk-a4-m1-cG_4ljk-a4-m1-cF 4ljr-a1-m1-cA_4ljr-a1-m1-cB MKSHFQYSTLENIPKAFDILKDPPKKLYCVGDTKLLDTPLKVAIIGTRRPTPYSKQHTITLARELAKNGAVIVSGGALGVDIIAQENALPKTIMLSPCSLDFIYPTNNHKVIQEIAQNGLILSEYEKDFMPIKGSFLARNRLVIALSDVVIIPQADLKSGSMSSARLAQKYQKPLFVLPQRLNESDGTNELLEKGQAQGIFNIQNFINTLLKDYHLKEM MKSHFQYSTLENIPKAFDILKDPPKKLYCVGDTKLLDTPLKVAIIGTRRPTPYSKQHTITLARELAKNGAVIVSGGALGVDIIAQENALPKTIMLSPCSLDFIYPTNNHKVIQEIAQNGLILSEYEKDFMPIKGSFLARNRLVIALSDVVIIPQADLKSGSMSSARLAQKYQKPLFVLPQRLNESDGTNELLEKGQAQGIFNIQNFINTLLKDYHLKEM 4ljq-a6-m1-cA_4ljq-a6-m2-cD Crystal structure of the catalytic core of E3 ligase HOIP Q96EP0 Q96EP0 2.45 X-RAY DIFFRACTION 48 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 4ljq-a5-m1-cB_4ljq-a5-m1-cC QGLAYLQEGIDCPKCKFSYACHFHCTQCRHQFCSGCYNAFYAKNKCPEPNCRVKKSLHGHHPRDCLFYLRDWTALRLQKLLQDNNVFNTEPPGGCRVIEDEACGKETPAGYAGLCQAHYKEYLVSLINAHSLDPATLYEVEELETATERYLHVRPQPLAGEDPPAYQARLLQKLTEEVPLGQSIPRR GLAYLQEGIDCPKCKFSYAGCHFHCTQCRHQFCSGCYNAFYAKNKCPEPNCRVKKSLHGHHPRDCLFYLRDWTALRLQKLLQDNNVFNTEPPGGCRVIEDEACGKETPAGYAGLCQAHYKEYLVSLINAHSLDPATLYEVEELETATERYLHVRPQPLAGEDPPAYQARLLQKLTEEVPLGQSIPRR 4lk5-a1-m1-cB_4lk5-a1-m1-cC Crystal structure of a enoyl-CoA hydratase from Mycobacterium avium subsp. paratuberculosis K-10 Q73WM1 Q73WM1 2.5 X-RAY DIFFRACTION 100 0.992 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 237 241 LAPVAGLDVTLSDGVFSVTINRPDSLNSLTVPVITGIADAEYAATDPEVKVVRIGGAGRGFSSGAEIILEINRLVRAIAALPHPVVAVVQGPAAGVGVSIALACDVVLASENAFFLAFTKIGLPDGGASALVAAAVGRIRAQALLPERLPAAEALAWGLVTAVYPADEFEAEVDKVIARLLSGPAVAFAKTKLAINAATLTELDPALQREFDGQSVLLKSPDFVEGATAFQQPNFTD PVAGLDVTLSDGVFSVTINRPDSLNSLTVPVITGIADAEYAATDPEVKVVRIGGAGRGFSSGAGIDEIILEINRLVRAIAALPHPVVAVVQGPAAGVGVSIALACDVVLASENAFFLAFTKIGLPDGGASALVAAAVGRIRAQALLPERLPAAEALAWGLVTAVYPADEFEAEVDKVIARLLSGPAVAFAKTKLAINAATLTELDPALQREFDGQSVLLKSPDFVEGATAFQQRRTPNFTD 4lk7-a1-m1-cA_4lk7-a1-m1-cD Crystal Structure of Pseudomonas aeruginosa Lectin LecA Complexed with Resorufin-b-D-galactopyranoside at 1.76 A Resolution Q05097 Q05097 1.758 X-RAY DIFFRACTION 12 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 121 AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4lk7-a1-m1-cB_4lk7-a1-m1-cD Crystal Structure of Pseudomonas aeruginosa Lectin LecA Complexed with Resorufin-b-D-galactopyranoside at 1.76 A Resolution Q05097 Q05097 1.758 X-RAY DIFFRACTION 13 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 121 AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4lk7-a1-m1-cC_4lk7-a1-m1-cD Crystal Structure of Pseudomonas aeruginosa Lectin LecA Complexed with Resorufin-b-D-galactopyranoside at 1.76 A Resolution Q05097 Q05097 1.758 X-RAY DIFFRACTION 15 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 121 AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4lkd-a2-m1-cF_4lkd-a2-m1-cH Crystal Structure of Pseudomonas aeruginosa Lectin LecA Complexed with GalA-QRS at 2.31 A Resolution Q05097 Q05097 2.307 X-RAY DIFFRACTION 20 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 121 121 1l7l-a1-m1-cA_1l7l-a1-m3-cA 1l7l-a1-m2-cA_1l7l-a1-m4-cA 1oko-a1-m1-cA_1oko-a1-m1-cD 1oko-a1-m1-cB_1oko-a1-m1-cC 1uoj-a1-m1-cA_1uoj-a1-m1-cD 1uoj-a1-m1-cB_1uoj-a1-m1-cC 2wyf-a5-m1-cE_2wyf-a5-m1-cH 2wyf-a5-m1-cF_2wyf-a5-m1-cG 2wyf-a6-m1-cA_2wyf-a6-m1-cD 2wyf-a6-m1-cB_2wyf-a6-m1-cC 4al9-a1-m1-cA_4al9-a1-m1-cD 4al9-a1-m1-cB_4al9-a1-m1-cC 4al9-a2-m1-cE_4al9-a2-m1-cH 4al9-a2-m1-cF_4al9-a2-m1-cG 4cp9-a1-m1-cA_4cp9-a1-m1-cD 4cp9-a1-m1-cB_4cp9-a1-m1-cC 4cpb-a1-m1-cA_4cpb-a1-m1-cD 4cpb-a1-m1-cB_4cpb-a1-m1-cC 4lk6-a1-m1-cA_4lk6-a1-m1-cB 4lk6-a1-m1-cF_4lk6-a1-m1-cG 4lk6-a2-m1-cC_4lk6-a2-m1-cJ 4lk6-a2-m1-cI_4lk6-a2-m1-cK 4lk6-a3-m1-cD_4lk6-a3-m1-cL 4lk6-a3-m1-cE_4lk6-a3-m1-cH 4lkd-a1-m1-cA_4lkd-a1-m1-cD 4lkd-a1-m1-cC_4lkd-a1-m1-cE 4lkd-a2-m1-cB_4lkd-a2-m1-cG 4lke-a1-m1-cA_4lke-a1-m1-cC 4lke-a1-m1-cB_4lke-a1-m1-cD 4yw6-a1-m1-cA_4yw6-a1-m1-cB 4yw6-a1-m1-cC_4yw6-a1-m1-cD 4ywa-a1-m1-cA_4ywa-a1-m2-cC 4ywa-a1-m1-cB_4ywa-a1-m2-cD 4ywa-a2-m1-cC_4ywa-a2-m3-cA 4ywa-a2-m1-cD_4ywa-a2-m3-cB 5d21-a1-m1-cA_5d21-a1-m1-cC 5d21-a1-m1-cB_5d21-a1-m1-cD 5mih-a1-m1-cA_5mih-a1-m1-cD 5mih-a1-m1-cB_5mih-a1-m1-cC 6yo3-a1-m1-cA_6yo3-a1-m1-cD 6yo3-a1-m1-cB_6yo3-a1-m1-cC 7fio-a1-m1-cA_7fio-a1-m1-cD 7fio-a1-m1-cB_7fio-a1-m1-cC 7fjh-a1-m1-cA_7fjh-a1-m1-cD 7fjh-a1-m1-cB_7fjh-a1-m1-cC 7z63-a1-m1-cAAA_7z63-a1-m1-cDDD 7z63-a1-m1-cBBB_7z63-a1-m1-cCCC AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4lkr-a1-m1-cA_4lkr-a1-m6-cA Crystal structure of deoD-3 gene product from Shewanella oneidensis MR-1, NYSGRC target 029437 Q8EDM4 Q8EDM4 2.4 X-RAY DIFFRACTION 98 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 223 223 4lkr-a1-m2-cA_4lkr-a1-m5-cA 4lkr-a1-m3-cA_4lkr-a1-m4-cA TAHINAQPTDFAETVIPGDPLRAKYIAETYLTDAVEVTNVRNLGYTGYYQGQRISVGHGGISSVLYGHELINFFGVKRIIRIGSLGATQQHVERDVILAQAAGTDSPTNAKRSSGYHATSATFSLLHKAYTKANEKGISVKVGNVFSGDLYYDPDEDIPALERFGVLGIDEVAGLYGLAHQQGIESLAILTVSDHCLTGEETTAQERQLSFNNIELALETALN TAHINAQPTDFAETVIPGDPLRAKYIAETYLTDAVEVTNVRNLGYTGYYQGQRISVGHGGISSVLYGHELINFFGVKRIIRIGSLGATQQHVERDVILAQAAGTDSPTNAKRSSGYHATSATFSLLHKAYTKANEKGISVKVGNVFSGDLYYDPDEDIPALERFGVLGIDEVAGLYGLAHQQGIESLAILTVSDHCLTGEETTAQERQLSFNNIELALETALN 4lkr-a1-m3-cA_4lkr-a1-m6-cA Crystal structure of deoD-3 gene product from Shewanella oneidensis MR-1, NYSGRC target 029437 Q8EDM4 Q8EDM4 2.4 X-RAY DIFFRACTION 82 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 223 223 4lkr-a1-m1-cA_4lkr-a1-m5-cA 4lkr-a1-m2-cA_4lkr-a1-m4-cA TAHINAQPTDFAETVIPGDPLRAKYIAETYLTDAVEVTNVRNLGYTGYYQGQRISVGHGGISSVLYGHELINFFGVKRIIRIGSLGATQQHVERDVILAQAAGTDSPTNAKRSSGYHATSATFSLLHKAYTKANEKGISVKVGNVFSGDLYYDPDEDIPALERFGVLGIDEVAGLYGLAHQQGIESLAILTVSDHCLTGEETTAQERQLSFNNIELALETALN TAHINAQPTDFAETVIPGDPLRAKYIAETYLTDAVEVTNVRNLGYTGYYQGQRISVGHGGISSVLYGHELINFFGVKRIIRIGSLGATQQHVERDVILAQAAGTDSPTNAKRSSGYHATSATFSLLHKAYTKANEKGISVKVGNVFSGDLYYDPDEDIPALERFGVLGIDEVAGLYGLAHQQGIESLAILTVSDHCLTGEETTAQERQLSFNNIELALETALN 4lku-a1-m1-cE_4lku-a1-m1-cD Structure of the C-terminal domain of the E. coli mechanosensitive channel of large conductance P0A742 P0A742 1.45 X-RAY DIFFRACTION 29 1.0 536056 (Escherichia coli DH1) 536056 (Escherichia coli DH1) 23 25 4lku-a1-m1-cA_4lku-a1-m1-cB 4lku-a1-m1-cC_4lku-a1-m1-cB 4lku-a1-m1-cC_4lku-a1-m1-cD 4lku-a1-m1-cE_4lku-a1-m1-cA APTKEEVLLTEIRDLLKEQNNRS APAPTKEEVLLTEIRDLLKEQNNRS 4ll1-a1-m1-cA_4ll1-a1-m1-cC The structure of the TRX and TXNIP complex Q9H3M7 Q9H3M7 2 X-RAY DIFFRACTION 81 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 278 280 4ll4-a1-m1-cA_4ll4-a1-m1-cC IKSFEVVFNDPEKVYGSGEKVAGRVIVEVCEVTRVKAVRILACGVAKVLWMQGSQQCKQTSEYLRYEDTLLLEDQPTGENEMVIMRPGNKYEYKFGFELPQGPLGTSFKGKYGSVDYWVKAFLDRPSQPTQETKKNFEVVPDLMAPVSAKKEKKVSSMFIPDGRVSVSARIDRKGFCEGDEISIHADFENTSSRIVVPKAAIVARHTYLANGQTKVLTQKLSSVRGNHIISGTCASWRGKSLRVQKINILRVEYSLLIYVSVPGSKKVILDLPLVIGS KSFEVVFNDPEKVYGSGEKVAGRVIVEVCEVTRVKAVRILACGVAKVLWMQGSQQCKQTSEYLRYEDTLLLEDQPTGENEMVIMRPGNKYEYKFGFELPQGPLGTSFKGKYGSVDYWVKAFLDRPSQPTQETKKNFEVVDPDLMAPVSAKKEKKVSSMFIPDGRVSVSARIDRKGFCEGDEISIHADFENTSSRIVVPKAAIVARHTYLANGQTKVLTQKLSSVRGNHIISGTCASWRGKSLRVQKGSNILRVEYSLLIYVSVPGSKKVILDLPLVIGSR 4ll7-a4-m1-cG_4ll7-a4-m1-cF Structure of She3p amino terminus. P38272 P38272 2.31 X-RAY DIFFRACTION 48 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 87 91 4ll7-a1-m1-cC_4ll7-a1-m1-cA 4ll7-a2-m1-cB_4ll7-a2-m1-cD 4ll7-a3-m1-cE_4ll7-a3-m1-cH HDQIDMLTKTNLQLTTQSQNLLSKLELAQSKESKLLENLNLLKNENENLNSIFERKNKKLKELEKDYSELSNRYNEQKEKMDQLSKL IESLHDQIDMLTKTNLQLTTQSQNLLSKLELAQSKESKLLENLNLLKNENENLNSIFERKNKKLKELEKDYSELSNRYNEQKEKMDQLSKL 4ll8-a1-m1-cB_4ll8-a1-m1-cE Complex of carboxy terminal domain of Myo4p and She3p middle fragment P38272 P38272 3.578 X-RAY DIFFRACTION 148 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 113 119 MESKLLENLNLLKNENENLNSIFERKNKKLKELEKDYSELSNRYNEQKEKMDQLSKLAKNSSAIEQSCSEKLQNMEVNYNSLLESQNLYRDHYSDEISKLNEKIGLLELELSN EHMESKLLENLNLLKNENENLNSIFERKNKKLKELEKDYSELSNRYNEQKEKMDQLSKLAKNSSAIEQSCSEKLQNMEVNYNSLLESQNLYRDHYSDEISKLNEKIGLLELELSNQNLN 4llr-a1-m1-cA_4llr-a1-m1-cJ Tryparedoxin peroxidase (TXNPX) from trypanosoma cruzi in the reduced state O96763 O96763 2.8 X-RAY DIFFRACTION 64 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 194 194 4llr-a1-m1-cB_4llr-a1-m1-cC 4llr-a1-m1-cD_4llr-a1-m1-cE 4llr-a1-m1-cF_4llr-a1-m1-cG 4llr-a1-m1-cH_4llr-a1-m1-cI GDAKLNHPAPDFNETALMPNGTFKKVALTSYKGKWLVLFFYPMDFTFVCPTEICQFSDRVKEFSDIGCEVLACSMDSEYSHLAWTSIERKRGGLGQMNIPILADKTKCIMKSYGVLKEEDGVAYRGLFIIDPKQNLRQITVNDLPVGRDVDEALRLVKAFQFVEKHGEVCPANWKPGDKTMKPDPEKSKEYFGA GDAKLNHPAPDFNETALMPNGTFKKVALTSYKGKWLVLFFYPMDFTFVCPTEICQFSDRVKEFSDIGCEVLACSMDSEYSHLAWTSIERKRGGLGQMNIPILADKTKCIMKSYGVLKEEDGVAYRGLFIIDPKQNLRQITVNDLPVGRDVDEALRLVKAFQFVEKHGEVCPANWKPGDKTMKPDPEKSKEYFGA 4llr-a1-m1-cI_4llr-a1-m1-cJ Tryparedoxin peroxidase (TXNPX) from trypanosoma cruzi in the reduced state O96763 O96763 2.8 X-RAY DIFFRACTION 144 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 194 194 4llr-a1-m1-cA_4llr-a1-m1-cB 4llr-a1-m1-cC_4llr-a1-m1-cD 4llr-a1-m1-cE_4llr-a1-m1-cF 4llr-a1-m1-cG_4llr-a1-m1-cH GDAKLNHPAPDFNETALMPNGTFKKVALTSYKGKWLVLFFYPMDFTFVCPTEICQFSDRVKEFSDIGCEVLACSMDSEYSHLAWTSIERKRGGLGQMNIPILADKTKCIMKSYGVLKEEDGVAYRGLFIIDPKQNLRQITVNDLPVGRDVDEALRLVKAFQFVEKHGEVCPANWKPGDKTMKPDPEKSKEYFGA GDAKLNHPAPDFNETALMPNGTFKKVALTSYKGKWLVLFFYPMDFTFVCPTEICQFSDRVKEFSDIGCEVLACSMDSEYSHLAWTSIERKRGGLGQMNIPILADKTKCIMKSYGVLKEEDGVAYRGLFIIDPKQNLRQITVNDLPVGRDVDEALRLVKAFQFVEKHGEVCPANWKPGDKTMKPDPEKSKEYFGA 4lls-a1-m1-cB_4lls-a1-m1-cA Crystal structure of a farnesyl diphosphate synthase from Roseobacter denitrificans OCh 114, target EFI-509393, with IPP, GSPP, and calcium bound in active site Q16CN9 Q16CN9 1.5 X-RAY DIFFRACTION 151 1.0 375451 (Roseobacter denitrificans OCh 114) 375451 (Roseobacter denitrificans OCh 114) 290 300 4llt-a1-m1-cB_4llt-a1-m1-cA SMFTQRLDAAAAAVQAHFDKVLAAFEPLPIVEAMAHATSGGKRLRGFLVLETARLHDIAAGEAIWSATAIEALHAYSLVHDDLPCMDNDDMRRGQPTVHKKWDDATAVLAGDALQTLAFELVTHPGASASAEVRADLALSLARASGAQGMVLGQALDIAAETARAPLSLDEITRLQQGKTGALIGWSAQAGARLAQADTAALKRYAQALGLAFQIADDILDVTGDSAQVGKAVGKDASAGKATFVSLLGLDAARARAMSLIDEACDSLATYGAKADTLRETARFVVRRTH DLGTENLYFQSMFTQRLDAAAAAVQAHFDKVLAAFEPLPIVEAMAHATSGGKRLRGFLVLETARLHDIAAGEAIWSATAIEALHAYSLVHDDLPCMDNDDMRRGQPTVHKKWDDATAVLAGDALQTLAFELVTHPGASASAEVRADLALSLARASGAQGMVLGQALDIAAETARAPLSLDEITRLQQGKTGALIGWSAQAGARLAQADTAALKRYAQALGLAFQIADDILDVTGDSAQVGKAVGKDASAGKATFVSLLGLDAARARAMSLIDEACDSLATYGAKADTLRETARFVVRRTH 4lma-a1-m1-cB_4lma-a1-m1-cA Crystal structure analysis of O-acetylserine sulfhydrylase CysK1 from Microcystis aeruginosa 7806 A8YBS4 A8YBS4 2.3 X-RAY DIFFRACTION 156 1.0 267872 (Microcystis aeruginosa PCC 7806) 267872 (Microcystis aeruginosa PCC 7806) 312 318 MRIAHDVTELVGRTPLVQLNRIPQAEGCLGRIVMKLEGMNPAASVKDRIGTHMINSAEKAGLINPETTVLVEPTSGNTGIALAMTAAAKGYRLILTMPETMSLERRAMLKAYGATLELTPGSQGMKGAILRAQQIVDSIPGAYMLQQFRNPSNPEIHRLTTAEEIWQDTEGQVDFIVAGVGTGGTITGVAEVIKSRKPSFQVVAVEPFNSPVISGGNPGPHKIQGIGAGFIPEVLRTDLIDEVITVSDEEAFQFGRRLAKEEGLLSGISSGANLCAAIQLAQRPENEGKLIVVIQPSFGERYLSTLMFQNIE MRIAHDVTELVGRTPLVQLNRIPQAEGCLGRIVMKLEGMNPAASVKDRIGTHMINSAEKAGLINPETTVLVEPTSGNTGIALAMTAAAKGYRLILTMPETMSLERRAMLKAYGATLELTPGSQGMKGAILRAQQIVDSIPGAYMLQQFRNPSNPEIHRLTTAEEIWQDTEGQVDFIVAGVGTGGTITGVAEVIKSRKPSFQVVAVEPFNSPVISGGNPGPHKIQGIGAGFIPEVLRTDLIDEVITVSDEEAFQFGRRLAKEEGLLSGISSGANLCAAIQLAQRPENEGKLIVVIQPSFGERYLSTLMFQNIEERELTL 4lmb-a1-m1-cA_4lmb-a1-m2-cA Crystal structure analysis of O-acetylserine sulfhydrylase CysK2 complexed with cystine from Microcystis aeruginosa 7806 A8YBP8 A8YBP8 1.91 X-RAY DIFFRACTION 149 1.0 267872 (Microcystis aeruginosa PCC 7806) 267872 (Microcystis aeruginosa PCC 7806) 310 310 MLIARDITQLVGRTPLVQLNRIPVAEGVKARIVVKLESMNPAASVKDRIGVSMVEDAEAAGLIHPDKTILVEPTSGNTGIALAMVAAAKGYRLVLTMPETMSLERRAMLKAYGAQLELTPGSQGMEGAITRAEEIVENTPNAYSLQQFRNPANPKIHRETTAEEIWADTDGLVDIVIGGVGTGGTITGIAETIKPRRPQFQAIAVEPSNSPVLSGGQPGPHKIQGIGAGFIPAIFRPELIDEVIIVDDTEAFAYARRLARQEGLLSGISAGAALWAAIQVGKRPENEDKLIVMIQPSFGERYLSTALFKD MLIARDITQLVGRTPLVQLNRIPVAEGVKARIVVKLESMNPAASVKDRIGVSMVEDAEAAGLIHPDKTILVEPTSGNTGIALAMVAAAKGYRLVLTMPETMSLERRAMLKAYGAQLELTPGSQGMEGAITRAEEIVENTPNAYSLQQFRNPANPKIHRETTAEEIWADTDGLVDIVIGGVGTGGTITGIAETIKPRRPQFQAIAVEPSNSPVLSGGQPGPHKIQGIGAGFIPAIFRPELIDEVIIVDDTEAFAYARRLARQEGLLSGISAGAALWAAIQVGKRPENEDKLIVMIQPSFGERYLSTALFKD 4lmf-a6-m1-cB_4lmf-a6-m1-cC C1s CUB1-EGF-CUB2 P09871 P09871 2.921 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 276 276 1nzi-a1-m1-cA_1nzi-a1-m1-cB 4lmf-a5-m1-cA_4lmf-a5-m2-cD PTMYGEILSPNYPQAYPSEVEKSWDIEVPEGYGIHLYFTHLDIELSENCAYDSVQIISGDTEEGRLCGQRSSNNPHSPIVEEFQVPYNKLQVIFKSDFSNEERFTGFAAYYVATDINECTDFVDVPCSHFCNNFIGGYFCSCPPEYFLHDDMKNCGVNCSGDVFTALIGEIASPNYPKPYPENSRCEYQIRLEKGFQVVVTLRREDFDVEAADSAGNCLDSLVFVAGDRQFGPYCGHGFPGPLNIETKSNALDIIFQTDLTGQKKGWKLRYHGDPM PTMYGEILSPNYPQAYPSEVEKSWDIEVPEGYGIHLYFTHLDIELSENCAYDSVQIISGDTEEGRLCGQRSSNNPHSPIVEEFQVPYNKLQVIFKSDFSNEERFTGFAAYYVATDINECTDFVDVPCSHFCNNFIGGYFCSCPPEYFLHDDMKNCGVNCSGDVFTALIGEIASPNYPKPYPENSRCEYQIRLEKGFQVVVTLRREDFDVEAADSAGNCLDSLVFVAGDRQFGPYCGHGFPGPLNIETKSNALDIIFQTDLTGQKKGWKLRYHGDPM 4lmi-a1-m1-cA_4lmi-a1-m1-cB Crystal structure of putative ketosteroid isomerase from Kribbella flavida DSM 17836 D2Q2I7 D2Q2I7 1.8 X-RAY DIFFRACTION 153 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 134 135 ATDTEQTRALARKYFDTLNGRAWEEFAALLAEDVRYELPQTSERITGRADYLRFNQEYPGDWQLTVTRLLADGPSAAVSVNLTLGDERLVGVVFLEVVDGLVSRVTDFWPEAYEPPPGREHLVERVPAELDRFG NATDTEQTRALARKYFDTLNGRAWEEFAALLAEDVRYELPQTSERITGRADYLRFNQEYPGDWQLTVTRLLADGPSAAVSVNLTLGDERLVGVVFLEVVDGLVSRVTDFWPEAYEPPPGREHLVERVPAELDRFG 4lms-a1-m1-cB_4lms-a1-m1-cD Light harvesting complex PC645 from the cryptophyte Chroomonas sp. CCMP270 U5T8F2 U5T8F2 1.35 X-RAY DIFFRACTION 14 1.0 3029 (Chroomonas sp.) 3029 (Chroomonas sp.) 161 162 7t7u-a1-m1-cB_7t7u-a1-m1-cD KAAYVGGADLQALKKFVSEGNKRLDAVNAIVSNASCIVSDAVSGMICENPALISPSGCYTNRRMAACLRDAEIILRYVSYSLLSGDSSVLEDRCLGGLKETYASLGVPAAGNARAVGIMKATCVAFINNTSNQKKLSTPAGDCSALASECAGYFDKVTSAL SKAAYVGGADLQALKKFVSEGNKRLDAVNAIVSNASCIVSDAVSGMICENPALISPSGCYTNRRMAACLRDAEIILRYVSYSLLSGDSSVLEDRCLGGLKETYASLGVPAAGNARAVGIMKATCVAFINNTSNQKKLSTPAGDCSALASECAGYFDKVTSAL 4lmv-a2-m1-cC_4lmv-a2-m1-cD Crystal structure of glutathione transferase GSTFuA2 from Phanerochaete chrysosporium A0A067XG72 A0A067XG72 3.204 X-RAY DIFFRACTION 84 1.0 252 252 4lmv-a1-m1-cA_4lmv-a1-m1-cB 4lmv-a3-m1-cE_4lmv-a3-m1-cF SQPIVFYDIPSNDTLKQSPWSPNTWKIRYALNIKGIKYKTEWVEYPDIEDVVKKLGGKPTGKKPDGRDHYTVPVIYDPNTKTVVEDGIKIAKYLDDAYPDTPRLFPAGTDAFQAAFDDFVWSVTLAFPLLSLLLLDVSNSLPPRSSAYFRATREQQFGKRLEEQGGEERWQQLEAGLGKFKGYLERNGAGNDLLLMGTQGGITYSDVQIASLFVWAKVVWGEGSEKWKRLMGFHGGKWAQFCAQFAEYERAD SQPIVFYDIPSNDTLKQSPWSPNTWKIRYALNIKGIKYKTEWVEYPDIEDVVKKLGGKPTGKKPDGRDHYTVPVIYDPNTKTVVEDGIKIAKYLDDAYPDTPRLFPAGTDAFQAAFDDFVWSVTLAFPLLSLLLLDVSNSLPPRSSAYFRATREQQFGKRLEEQGGEERWQQLEAGLGKFKGYLERNGAGNDLLLMGTQGGITYSDVQIASLFVWAKVVWGEGSEKWKRLMGFHGGKWAQFCAQFAEYERAD 4lmw-a1-m1-cA_4lmw-a1-m2-cA Crystal structure of glutathione transferase GSTFuA3 from Phanerochaete chrysosporium A0A067XG73 A0A067XG73 2.099 X-RAY DIFFRACTION 81 1.0 250 250 SLEPIIFYDIPANEPRQMAWGPNTWKTRYVLNFKGLKYRTEWVEYPDIEAVCKQIGAPATEKKPDGRDHYTLPVIQDPNTKAVVADSDAIAKYLESTYPDTPRLFPEGTRAFQHAFYQLARPSVLMPIFNIVVARVWKLLRPRSQEYFRATREQMLGKKLEEIGSEDDWNALESGLARIKSSLEANGAGKDLLLMGDRVTFADLQLASLFIWLRVSAGEESEDWKRFLSLHEGKWAKFMQQFAAYEFVDV SLEPIIFYDIPANEPRQMAWGPNTWKTRYVLNFKGLKYRTEWVEYPDIEAVCKQIGAPATEKKPDGRDHYTLPVIQDPNTKAVVADSDAIAKYLESTYPDTPRLFPEGTRAFQHAFYQLARPSVLMPIFNIVVARVWKLLRPRSQEYFRATREQMLGKKLEEIGSEDDWNALESGLARIKSSLEANGAGKDLLLMGDRVTFADLQLASLFIWLRVSAGEESEDWKRFLSLHEGKWAKFMQQFAAYEFVDV 4lmx-a3-m1-cI_4lmx-a3-m1-cK Light harvesting complex PE555 from the cryptophyte Hemiselmis andersenii CCMP644 U5TBJ3 U5TBJ3 1.8 X-RAY DIFFRACTION 11 1.0 464988 (Hemiselmis andersenii) 464988 (Hemiselmis andersenii) 65 65 4lmx-a2-m1-cG_4lmx-a2-m1-cE AMKDSKAPCVEVFDERDGCKAAGTQKASGDDGFCVKVSMKAIKMNAAEATSVTKNYNTKLLGAKS AMKDSKAPCVEVFDERDGCKAAGTQKASGDDGFCVKVSMKAIKMNAAEATSVTKNYNTKLLGAKS 4lmy-a1-m1-cA_4lmy-a1-m1-cB Structure of GAS PerR-Zn-Zn 1.6 X-RAY DIFFRACTION 117 1.0 1138874 (Streptococcus pyogenes NS88.2) 1138874 (Streptococcus pyogenes NS88.2) 149 157 4i7h-a1-m1-cA_4i7h-a1-m1-cB MDIHSHQQALDAYENVLEHLREKHIRITETRKAIISYMIQSTEHPSADKIYRDLQPNFPNMSLATVYNNLKVLVDEGFVSELKISNDLTTYYDFMGHQHVNVVCEICGKIADFMDVDVMDIAKEAHEQTGYKVTRIPVIAYGICPDCQA MDIHSHQQALDAYENVLEHLREKHIRITETRKAIISYMIQSTEHPSADKIYRDLQPNFPNMSLATVYNNLKVLVDEGFVSELKISNDLTTYYDFMGHQHVNVVCEICGKIADFMDVDVMDIAKEAHEQTGYKVTRIPVIAYGICPDCQAKDQPDFLE 4ln9-a1-m1-cB_4ln9-a1-m1-cA Crystal structure of the dehydratase domain from the terminal module of the rifamycin polyketide synthase O54593 O54593 1.82 X-RAY DIFFRACTION 88 1.0 33910 (Amycolatopsis mediterranei) 33910 (Amycolatopsis mediterranei) 276 281 DAVSLGLAGADHPLLGAVVQLPQSDGLVFTSRLSLRSHPWLADHAVRDVVIVPGTGLVELAVRAGDEAGCPVLDELVIEAPLVVPRRGGVRVQVALGGPADDGSRTVDVFSLREDADSWLRHATGVLVPENRPRGTAAFDFAAWPPPEAKPVDLTGAYDVLADVGYGYGPTFRAVRAVWRRGSGNTTETFAEIALPEDARAEAGRFGIHPALLDAALHSTMVSAALPFAWNGLRLHAAGASVLRVRVAKPERDSLSLEAVDESGGLVVTLDSLVGR DAVSLGLAGADHPLLGAVVQLPQSDGLVFTSRLSLRSHPWLADHAVRDVVIVPGTGLVELAVRAGDEAGCPVLDELVIEAPLVVPRRGGVRVQVALGGPADDGSRTVDVFSLREDADSWLRHATGVLVPENRPRGTAAFDFAAWPPPEAKPVDLTGAYDVLADVGYGYGPTFRAVRAVWRRGSGNTTETFAEIALPEDARAEAGRFGIHPALLDAALHSTMVSAAADVRLPFAWNGLRLHAAGASVLRVRVAKPERDSLSLEAVDESGGLVVTLDSLVGRP 4lna-a1-m2-cA_4lna-a1-m3-cA CRYSTAL STRUCTURE OF purine nucleoside phosphorylase I from Spirosoma linguale DSM 74, NYSGRC Target 029362 D2QIK7 D2QIK7 2.1 X-RAY DIFFRACTION 73 1.0 504472 (Spirosoma linguale DSM 74) 504472 (Spirosoma linguale DSM 74) 257 257 4lna-a1-m1-cA_4lna-a1-m2-cA 4lna-a1-m1-cA_4lna-a1-m3-cA SFEQIQETTQFIQSKITLRPAIGIILGTGLGALTNELDIDTTIPYETIPHFPLSTVSGKLLIGTLGGKSVVVQGRFHYYEGYTQQVTYPVRVHALGIQTLLVSNAAGGNPTFQTSDLVIDDHISLLLPQNPLICPNPPIFGDRFPDSEPYRKSLIDLAFSVAAELDIPLKRGVYVSVTGPQLETRAEYRLRQWGADAVGSTVPEVIVANQLGDVFGISVITDLCFPDTLEKAELVKILATAAQAEPKLTLIREIGRL SFEQIQETTQFIQSKITLRPAIGIILGTGLGALTNELDIDTTIPYETIPHFPLSTVSGKLLIGTLGGKSVVVQGRFHYYEGYTQQVTYPVRVHALGIQTLLVSNAAGGNPTFQTSDLVIDDHISLLLPQNPLICPNPPIFGDRFPDSEPYRKSLIDLAFSVAAELDIPLKRGVYVSVTGPQLETRAEYRLRQWGADAVGSTVPEVIVANQLGDVFGISVITDLCFPDTLEKAELVKILATAAQAEPKLTLIREIGRL 4lnl-a1-m1-cB_4lnl-a1-m2-cB Structure of Escherichia coli Threonine Aldolase in Complex with Allo-Thr 2.1 X-RAY DIFFRACTION 25 1.0 945433 (Escherichia coli WV_060327) 945433 (Escherichia coli WV_060327) 332 332 3wlx-a1-m1-cA_3wlx-a1-m2-cA 3wlx-a1-m1-cB_3wlx-a1-m2-cB 4lnj-a1-m1-cA_4lnj-a1-m2-cA 4lnj-a1-m1-cB_4lnj-a1-m2-cB 4lnl-a1-m1-cA_4lnl-a1-m2-cA 4lnm-a1-m1-cA_4lnm-a1-m2-cA 4lnm-a1-m1-cB_4lnm-a1-m2-cB 4rjy-a1-m1-cA_4rjy-a1-m1-cC 4rjy-a1-m1-cB_4rjy-a1-m1-cD MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRKRNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSKGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGMYALKNNVARLQEDHDNTAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSRAQLAEVAAHWRAFLA MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRKRNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSKGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGMYALKNNVARLQEDHDNTAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSRAQLAEVAAHWRAFLA 4lns-a1-m1-cA_4lns-a1-m2-cA Crystal structure of Asparagine synthetase A (AsnA) from Trypanosoma brucei Q57WT9 Q57WT9 2.2 X-RAY DIFFRACTION 117 1.0 304 304 DDGYSSYVLLQEQILTVKRSFSEALEKELNLVEVRAPILFRVGDGTQDAVQVPVKAIPNASFEVVHSLAKWKRRTLANYKFAPGHGLYTHMTALRVDDVLDNIHSVVVDQWDWEMVMKDDQRNLAFLKEVVCKVYAAIRKTELAVCEKYKQKPILPETIQFVHAEHLLLAYPNLTAKEREREIAREYGAVFLIGIGAVLSSLSSLKGLNGDILLYNPTLDDSLEVSSMGIRVNAEALRHQISLTGDDSLLKSEWHQQLLNGEFPQTVGGGIGQSRMVMFMLRKKHIGEVQCSVWPEEIRKKHNL DDGYSSYVLLQEQILTVKRSFSEALEKELNLVEVRAPILFRVGDGTQDAVQVPVKAIPNASFEVVHSLAKWKRRTLANYKFAPGHGLYTHMTALRVDDVLDNIHSVVVDQWDWEMVMKDDQRNLAFLKEVVCKVYAAIRKTELAVCEKYKQKPILPETIQFVHAEHLLLAYPNLTAKEREREIAREYGAVFLIGIGAVLSSLSSLKGLNGDILLYNPTLDDSLEVSSMGIRVNAEALRHQISLTGDDSLLKSEWHQQLLNGEFPQTVGGGIGQSRMVMFMLRKKHIGEVQCSVWPEEIRKKHNL 4lob-a1-m1-cA_4lob-a1-m2-cA Crystal structure of polyprenyl diphosphate synthase A1S_2732 (Target EFI-509223) from Acinetobacter baumannii 2 X-RAY DIFFRACTION 121 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 326 326 HSSGVDLGTENLYFQSMVIDFKQDILAPVATDFAAMDHLINEGISSKVGLVMSVSKHVVEAGGKRMRPIMCLLAARACDLDNMQNAQRLAAIIEMLHTATLVHDDVVDWNNQTAVLVGDFLIARAFDLLVDLNNMTLLKDFSTGTCEIAEGEVLQLQSQHQPDTTEETYLKIIHGKTSRLFELATEGAAILAGQEAYREPLRLFAGHFGNAFQIIDDILDYTSDAETLGKNIGDDLMEGKPTLPLISALAHSTGEEHAIIRRSIATGGVDQLPKVIEIVQKSGALDYCQRRAQEETEAALQALSILPDTPYRQALINLTRLALHRI HSSGVDLGTENLYFQSMVIDFKQDILAPVATDFAAMDHLINEGISSKVGLVMSVSKHVVEAGGKRMRPIMCLLAARACDLDNMQNAQRLAAIIEMLHTATLVHDDVVDWNNQTAVLVGDFLIARAFDLLVDLNNMTLLKDFSTGTCEIAEGEVLQLQSQHQPDTTEETYLKIIHGKTSRLFELATEGAAILAGQEAYREPLRLFAGHFGNAFQIIDDILDYTSDAETLGKNIGDDLMEGKPTLPLISALAHSTGEEHAIIRRSIATGGVDQLPKVIEIVQKSGALDYCQRRAQEETEAALQALSILPDTPYRQALINLTRLALHRI 4loc-a1-m1-cC_4loc-a1-m1-cD Structure of the carboxyl transferase domain from Rhizobium etli pyruvate carboxylase with oxamate and biotin Q2K340 Q2K340 2.26 X-RAY DIFFRACTION 143 0.998 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 594 595 3tw6-a1-m1-cA_3tw6-a1-m1-cB 3tw6-a1-m2-cA_3tw6-a1-m2-cB 3tw6-a2-m1-cC_3tw6-a2-m1-cD 3tw6-a2-m3-cC_3tw6-a2-m3-cD 3tw7-a1-m1-cB_3tw7-a1-m1-cA 3tw7-a1-m2-cB_3tw7-a1-m2-cA 4jx4-a1-m1-cC_4jx4-a1-m1-cA 4jx4-a1-m1-cD_4jx4-a1-m1-cB 4jx4-a2-m1-cC_4jx4-a2-m1-cA 4jx4-a3-m1-cD_4jx4-a3-m1-cB 4jx5-a1-m1-cC_4jx5-a1-m1-cA 4jx5-a1-m1-cD_4jx5-a1-m1-cB 4jx5-a2-m1-cC_4jx5-a2-m1-cA 4jx5-a3-m1-cD_4jx5-a3-m1-cB 4jx6-a1-m1-cC_4jx6-a1-m1-cA 4jx6-a1-m1-cD_4jx6-a1-m1-cB 4jx6-a2-m1-cC_4jx6-a2-m1-cA 4jx6-a3-m1-cD_4jx6-a3-m1-cB 4loc-a1-m1-cB_4loc-a1-m1-cA 4m6v-a1-m1-cB_4m6v-a1-m1-cA 4m6v-a1-m1-cD_4m6v-a1-m1-cC 4mfd-a1-m1-cB_4mfd-a1-m1-cD 4mfd-a1-m1-cC_4mfd-a1-m1-cA 4mfe-a1-m1-cB_4mfe-a1-m1-cA 4mfe-a1-m1-cD_4mfe-a1-m1-cC 4mim-a1-m1-cB_4mim-a1-m1-cA 4mim-a1-m1-cD_4mim-a1-m1-cC DRATKLLTYLADVTVNGHPEAKDRPKPLENAARPVVPYGNGVKDGTKQLLDTLGPKKFGEWMRNEKRVLLTDTTMRDGHQSLLATRMRTYDIARIAGTYSHALPNLLSLECWGGATFDVSMRFLTEDPWERLALIREGAPNLLLQMLLRGANGVGYTNYPDNVVKYFVRQAAKGGIDLFRVFDCLNWVENMRVSMDAIAEENKLCEAAICYTGDILNSARPKYDLKYYTNLAVELEKAGAHIIAVDMAGLLKPAAAKVLFKALREATGLPIHFHTHDTSGIAAATVLAAVEAGVDAVDAAMDALSGNTSQPCLGSIVEALSGSERDPGLDPAWIRRISFYWEAVRNQYAAFESDLKGPASEVYLHEMPGGQFTNLKEQARSLGLETRWHQVAQAYADANQMFGDIVKVTPSSKVVGDMALMMVSQDLTVADVVSPDREVSFPESVVSMLKGDLGQPPSGWPEALQKKALKGEKPYTVRPGSLLKEADLDAERKVIEKKLEREVSDFEFASYLMYPKVFTDFALASDTYGPVSVLPTPAYFYGLADGEELFADIEKGKTLVIVNQAVSATDSQGMVTVFFELNGQPRRIKVPDRA DRATKLLTYLADVTVNGHPEAKDRPKPLENAARPVVPYANGNGVKDGTKQLLDTLGPKKFGEWMRNEKRVLLTDTTMRDGHQSLLATRMRTYDIARIAGTYSHALPNLLSLECWGGATFDVSMRFLTEDPWERLALIREGAPNLLLQMLLRGANGVGYTNYPDNVVKYFVRQAAKGGIDLFRVFDCLNWVENMRVSMDAIAEENKLCEAAICYTGDILNSARPKYDLKYYTNLAVELEKAGAHIIAVDMAGLLKPAAAKVLFKALREATGLPIHFHTHDTSGIAAATVLAAVEAGVDAVDAAMDALSGNTSQPCLGSIVEALSGSERDPGLDPAWIRRISFYWEAVRNQYAAFESDLKGPASEVYLHEMPGGQFTNLKEQARSLGLETRWHQVAQAYADANQMFGDIVKVTPSSKVVGDMALMMVSQDLTVADVVSPREVSFPESVVSMLKGDLGQPPSGWPEALQKKALKGEKPYTVRPGSLLKEADLDAERKVIEKKLEREVSDFEFASYLMYPKVFTDFALASDTYGPVSVLPTPAYFYGLADGEELFADIEKGKTLVIVNQAVSATDSQGMVTVFFELNGQPRRIKVPDRA 4lok-a1-m1-cB_4lok-a1-m1-cA Crystal structure of mSting in complex with c[G(3',5')pA(3',5')p] Q3TBT3 Q3TBT3 2.07 X-RAY DIFFRACTION 107 1.0 10090 (Mus musculus) 10090 (Mus musculus) 180 181 4jc5-a1-m1-cB_4jc5-a1-m1-cA 4loj-a1-m1-cB_4loj-a1-m1-cA 4lol-a1-m1-cB_4lol-a1-m1-cA 4yp1-a1-m1-cA_4yp1-a1-m1-cB 5gs5-a1-m1-cA_5gs5-a1-m2-cC 5gs5-a2-m1-cB_5gs5-a2-m3-cD 6xnn-a1-m1-cA_6xnn-a1-m1-cB AHGLAWSYYIGYLRLILPGLQARIRMFNQLHNNMLSGAGSRRLYILFPLDCGVPDNLSVVDPNIRFRDMLPQQNIDRAGIKNRVYSNSVYEILENGQPAGVCILEYATPLQTLFAMSQDAKAGFSREDRLEQAKLFCRTLEEILEDVPESRNNCRLIVYQEPTDGNSFSLSQEVLRHIRQ VAHGLAWSYYIGYLRLILPGLQARIRMFNQLHNNMLSGAGSRRLYILFPLDCGVPDNLSVVDPNIRFRDMLPQQNIDRAGIKNRVYSNSVYEILENGQPAGVCILEYATPLQTLFAMSQDAKAGFSREDRLEQAKLFCRTLEEILEDVPESRNNCRLIVYQEPTDGNSFSLSQEVLRHIRQ 4lor-a1-m1-cB_4lor-a1-m1-cC C1s CUB1-EGF-CUB2 in complex with a collagen-like peptide from C1q 2.5 X-RAY DIFFRACTION 35 1.0 16 16 GPGPGPGKLGPGPGPG GPGPGPGKLGPGPGPG 4low-a1-m1-cB_4low-a1-m1-cA Structure and identification of a pterin dehydratase-like protein as a RuBisCO assembly factor in the alpha-carboxysome D5X340 D5X340 1.3 X-RAY DIFFRACTION 31 1.0 75379 (Thiomonas intermedia K12) 75379 (Thiomonas intermedia K12) 79 84 HHHHHSWREQGKPPMLFKRFAFGSYAQTRAFLDALAALSEETGQHPQNINFGTTYVNITLDAAGEAERAFAARVDALAG HHHHHHSWREQGKPPMLFKRFAFGSYAQTRAFLDALAALSEETGQHPQNINFGTTYVNITLDAATLGEAERAFAARVDALAGSS 4lp7-a1-m1-cA_4lp7-a1-m1-cC Crystal structure of the human metapneumovirus matrix protein Q91F56 Q91F56 2.83 X-RAY DIFFRACTION 90 0.991 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 219 229 MESYLVDTYQGIPYTAAVQVDLIEKDLLPASLTIWFPLFQANTPPAVLLDQLKTLTITTLYAASQNGPILKVNASAQGAAMSVLPKKFEVNATVALDEYSKLEFDKLTVCEVKTVYLTTMKPYGKKTHDLIALCDFMDLEKNTPVTIPAFIKSVSIKEQALTQAKIAPYAGLIMIMTMNNPGAGTQVIVELGAYVQAESISKICKTWSHQGTRYVLKSR MESYLVDTYQGIPYTAAVQVDLIEKDLLPASLTIWFPLFQANTPPAVLLDQLKTLTITTLYAASQNGPILKVNASAQGAAMSVLPKKFEVNATVALDEYSKLEFDKLTVCEVKTVYLTTMKPYKKTHDLIALCDFMDLEKNTPVTIPAFIKSVSIKESESATVEAAIALTQAKIAPYAGLIMIMTMNNPKGGAGTQVIVELGAYVQAESISKICKTWSHQGTRYVLKSR 4lpa-a5-m1-cA_4lpa-a5-m2-cD Crystal structure of a Cdc6 phosphopeptide in complex with Cks1 P20486 P20486 2.9 X-RAY DIFFRACTION 31 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 112 112 4lpa-a5-m1-cB_4lpa-a5-m2-cC AFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAPEPHILLFKRPLNYEAELRAAIPIPT AFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAPEPHILLFKRPLNYEAELRAAIPIPT 4lpa-a5-m1-cB_4lpa-a5-m2-cD Crystal structure of a Cdc6 phosphopeptide in complex with Cks1 P20486 P20486 2.9 X-RAY DIFFRACTION 46 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 112 112 4lpa-a5-m1-cA_4lpa-a5-m2-cC AFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAPEPHILLFKRPLNYEAELRAAIPIPT AFQGRKLTDQERARVLEFQDSIHYSPRYSDDNYEYRHVMLPKAMLKVIPSDYFNSEVGTLRILTEDEWRGLGITQSLGWEHYECHAPEPHILLFKRPLNYEAELRAAIPIPT 4lpu-a1-m1-cA_4lpu-a1-m1-cB Crystal structure of TENCON variant P40AR2-32R2 3.4 X-RAY DIFFRACTION 187 1.0 32630 (synthetic construct) 32630 (synthetic construct) 93 93 MLPAPKNLVVSEVTEDSLRLSWDSPPNWYDSFLIQYQESEKVGEAINLTVPGSERSYDLTGLKPGTEYTVSIYGVYYVALSNPLSAEFTTGGH MLPAPKNLVVSEVTEDSLRLSWDSPPNWYDSFLIQYQESEKVGEAINLTVPGSERSYDLTGLKPGTEYTVSIYGVYYVALSNPLSAEFTTGGH 4lqb-a1-m1-cB_4lqb-a1-m1-cA Crystal structure of uncharacterized protein Kfla3161 D2Q399 D2Q399 1.72 X-RAY DIFFRACTION 99 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 127 129 AHRSRVSTVLIDVPREQASRSAQFWAGALGVRADSPPGEPQYVTLHGALPGLVTAVQALEEGEARYHLDIETDDVDAEVERLVGLGAVEESSWQGCRTLRVPGGQLVCVIPLHSDPDEFAARATSWP SNAHRSRVSTVLIDVPREQASRSAQFWAGALGVRADSPPGEPQYVTLHGALPGLVTAVQALEEGEARYHLDIETDDVDAEVERLVGLGAVEESSWQGCRTLRVPGGQLVCVIPLHSDPDEFAARATSWP 4lqe-a2-m2-cA_4lqe-a2-m4-cA Crystal Structure of MepB A0A0H3JPI4 A0A0H3JPI4 2.1 X-RAY DIFFRACTION 34 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 148 148 4lqe-a2-m1-cA_4lqe-a2-m3-cA MYKSKILLKYIFSEESEVKDLTEEKYNQDYEALTFSFKEETYQSRLAKKTPTKAGYFVTCWTKDENNCNQPYSKEAFADYLMIIVIDEELSGYFLFPRELLVEKGILTTFEHKGKMAFRVYPKWNQLNKTAGQTQKWQCKYFLNTNKK MYKSKILLKYIFSEESEVKDLTEEKYNQDYEALTFSFKEETYQSRLAKKTPTKAGYFVTCWTKDENNCNQPYSKEAFADYLMIIVIDEELSGYFLFPRELLVEKGILTTFEHKGKMAFRVYPKWNQLNKTAGQTQKWQCKYFLNTNKK 4lqe-a2-m3-cA_4lqe-a2-m4-cA Crystal Structure of MepB A0A0H3JPI4 A0A0H3JPI4 2.1 X-RAY DIFFRACTION 91 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 148 148 4lqe-a2-m1-cA_4lqe-a2-m2-cA MYKSKILLKYIFSEESEVKDLTEEKYNQDYEALTFSFKEETYQSRLAKKTPTKAGYFVTCWTKDENNCNQPYSKEAFADYLMIIVIDEELSGYFLFPRELLVEKGILTTFEHKGKMAFRVYPKWNQLNKTAGQTQKWQCKYFLNTNKK MYKSKILLKYIFSEESEVKDLTEEKYNQDYEALTFSFKEETYQSRLAKKTPTKAGYFVTCWTKDENNCNQPYSKEAFADYLMIIVIDEELSGYFLFPRELLVEKGILTTFEHKGKMAFRVYPKWNQLNKTAGQTQKWQCKYFLNTNKK 4lqf-a1-m1-cA_4lqf-a1-m2-cA Structure of murine IgG2b A2C7-Fab in complex with vaccinia antigen A33R at the resolution of 2.3 Angstroms Q71TT1 Q71TT1 2.3 X-RAY DIFFRACTION 19 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 78 78 4lu5-a1-m1-cB_4lu5-a1-m1-cA 4m1g-a1-m1-cB_4m1g-a1-m1-cA SCNGLYYQGSCYILHSDYQMFSDAAANCTAESSTLPNKSDVMITWLIDYVEDTWGSDGNPITSDVSQEVRKYFCVKTM SCNGLYYQGSCYILHSDYQMFSDAAANCTAESSTLPNKSDVMITWLIDYVEDTWGSDGNPITSDVSQEVRKYFCVKTM 4lqk-a2-m1-cA_4lqk-a2-m1-cB Structure of the vaccinia virus NF- B antagonist A46 P26672 P26672 1.99 X-RAY DIFFRACTION 39 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 129 132 4lqk-a1-m1-cC_4lqk-a1-m1-cD 4m0s-a1-m1-cA_4m0s-a1-m1-cB SFKLILAEYIRHRNTISGNIYSALTLDDLAIKQYGDIDLLFNEKLKVDSDSGLFDFVNFVKDICCDSRIVVALSSLVSKHWELTNKKYRCALAEHISDSIPISELSRLRYNLSKYLRGHTESIEDKFDY SFKLILAEYIRHRNTISGNIYSALTLDDLAIKQYGDIDLLFNEKLKVDSDSGLFDFVNFVKDICCDSRIVVALSSLVSKHWELTNKKYRCALAEHISDSIPISELSRLRYNLSKYLRGHTESIEDKFDYFED 4lqx-a1-m1-cA_4lqx-a1-m1-cB Crystal structure of a TENA/THI-4 domain-containing protein (SSO2700) from Sulfolobus solfataricus P2 at 2.34 A resolution Q97VD2 Q97VD2 2.34 X-RAY DIFFRACTION 47 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 288 294 GPLCPSCEKFNSWEDLAKHDLIANTNSDKSHVWLNRNISKREVNELANALERFFSTPNSLSWIRTRFIERFYGDNPHPFIVAQNPTKGVLLGYVIEHQHFLKNWVKVLSSIVFKTDKDDVLQYELENISVEFIGYNGRPAHYELLLRGEALGPREKILSTQPLPSTQSAIKTWRKIAESKTWLETASHSLELVADRSLVKYGAKLPYFNPEILSSDEYPQAVKDFLREGYEADVSHAGEALEVEKYTEEEKEQVQITVLKSFDAFSKYLLARLERGFEIEPSLLKRVI NLYFQGPLCPSCEKFNSWEDLAKHDLIANTNSDKSHVWLNRNISKREVNELANALERFFSTPNSLSWIRTRFIERFYGDNPHPFIVAQNPTKGVLLGYVIEHQHFLKNWVKVLSSIVFKTDKDDVLQYELENISVEFIGYNGRPAHYELLLRGEALGPREKILSTQPLPSTQSAIKTWRKIAESKTWLETASHSLELVADRSLVKYGAKLPYFNPEILSSDEYPQAVKDFLREGYEADVSHAGEALEVEKYTEEEKEQVQITVLKSFDAFSKYLLARLERGFEIEPSLLKRVIK 4lrk-a5-m1-cA_4lrk-a5-m2-cB Bacterial Effector NleH2 Kinase Domain Q8XAL6 Q8XAL6 2.274 X-RAY DIFFRACTION 99 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 162 162 4lrk-a6-m1-cC_4lrk-a6-m1-cD 4o96-a1-m1-cA_4o96-a1-m1-cB 4o96-a2-m1-cC_4o96-a2-m1-cD SPVPGNVIGKGGNAVVYEDMEDTTKVLKMFTISQSHEEVTSEVRCFNQYYGSGSAEKIYNDNGNVIGIRMNKINGESLLDIPSLPAQAEQAIYDMFDRLEKKGILFVDTTETNVLYDRMRNEFNPIDISSYNVSDISWSEHQVMQSYHGGKLDLISVVLSKI SPVPGNVIGKGGNAVVYEDMEDTTKVLKMFTISQSHEEVTSEVRCFNQYYGSGSAEKIYNDNGNVIGIRMNKINGESLLDIPSLPAQAEQAIYDMFDRLEKKGILFVDTTETNVLYDRMRNEFNPIDISSYNVSDISWSEHQVMQSYHGGKLDLISVVLSKI 4lrq-a2-m1-cD_4lrq-a2-m1-cB Crystal structure of a Low Molecular Weight Phosphotyrosine phosphatase from Vibrio choleraeO395 A0A0H3ALA8 A0A0H3ALA8 1.45 X-RAY DIFFRACTION 14 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 148 150 4lrq-a1-m1-cA_4lrq-a1-m1-cC MQKVLVVCMGNICRSPTAEAVLRAKAAQLKVDVEVDSAGTIGYHQGNPPDARSKAAGEKRGYSFSGIKARKIRDEDFVKFDWILAADQENLAELKARCPQSHQHKLSLMLSHSDSEYQEIPDPYYGGERGFELVLDLVEDAAEQFLLK MQKVLVVCMGNICRSPTAEAVLRAKAAQLKVDVEVDSAGTIGYHQGNPPDARSKAAGEKRGYSFSGIKARKIRDEDFVKFDWILAADQENLAELKARCPQSHQHKLSLMLSHSDSEYQEIPDPYYGGERGFELVLDLVEDAAEQFLLKLK 4lrt-a1-m1-cA_4lrt-a1-m1-cC Crystal and solution structures of the bifunctional enzyme (Aldolase/Aldehyde dehydrogenase) from Thermomonospora curvata, reveal a cofactor-binding domain motion during NAD+ and CoA accommodation whithin the shared cofactor-binding site D1A3K8 D1A3K8 1.5 X-RAY DIFFRACTION 93 0.997 471852 (Thermomonospora curvata DSM 43183) 471852 (Thermomonospora curvata DSM 43183) 334 335 4lrs-a1-m1-cA_4lrs-a1-m2-cA APRVRITDSTLRDGSHAMAHQFTEEQVRATVHALDAAGVEVIEVSHGDGLGGSSFNYGFSAVDEIDLVAAAVDEAVNAKIAVLLLPGVGTVRDLKRAHDAGASVARIATHCTEADVSCQHFAAARELGMETVGFLMLAHRIGPEELARQARIMVDAGAQCVYVVDSAGALVLSDVQARVQALVREIGHEAQVGFHGHQNLSLGVANSVLAYQNGARQIDGALCALGAGAGNSPTEILAATFERLNIETGVNVQAALAAAEEVVRPYLPRLPWADRAAIVQGYAGVYSSFLLHAERAAERYGVPAHEILQRVGEAGYVGGQEDMIIDIAVQLAEE PRVRITDSTLRDGSHAMAHQFTEEQVRATVHALDAAGVEVIEVSHGDGLGGSSFNYGFSAVDEIDLVAAAVDEAVNAKIAVLLLPGVGTVRDLKRAHDAGASVARIATHCTEADVSCQHFAAARELGMETVGFLMLAHRIGPEELARQARIMVDAGAQCVYVVDSAGALVLSDVQARVQALVREIGHEAQVGFHGHQNLSLGVANSVLAYQNGARQIDGALCALGAGAGNSPTEILAATFERLNIETGVNVQAALAAAEEVVRPYLPRLPWADRAAIVQGYAGVYSSFLLHAERAAERYGVPAHEILQRVGEAGYVGGQEDMIIDIAVQLAEERH 4lrz-a2-m1-cE_4lrz-a2-m1-cG Crystal Structure of the E.coli DhaR(N)-DhaL complex P76016 P76016 2.32 X-RAY DIFFRACTION 159 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 294 294 4lrx-a1-m1-cC_4lrx-a1-m1-cD 4lry-a1-m1-cC_4lry-a1-m1-cD 4lrz-a1-m1-cH_4lrz-a1-m1-cF SPLIATSWERCNKLMKRETWNVPHQAQGVTFASIYRRKKAMLTLGQAALEDAWEYMAPRECALFILDETACILSRNGDPQTLQQLSALGFNDGTYCAEGIIGTCALSLAAISGQAVKTMADQHFKQVLWNWAFCATPLFDSKGRLTGTIALACPVEQTTAADLPLTLAIAREVGNLLLTDSLLAETNRHLNQLNALLESMDDGVISWDEQGNLQFINAQAARVLRLDATASQGRAITELLTLPAVLQQAIKQAHPLKHVEATFESQHQFIDAVITLKPIIETQGTSFILLLHPV SPLIATSWERCNKLMKRETWNVPHQAQGVTFASIYRRKKAMLTLGQAALEDAWEYMAPRECALFILDETACILSRNGDPQTLQQLSALGFNDGTYCAEGIIGTCALSLAAISGQAVKTMADQHFKQVLWNWAFCATPLFDSKGRLTGTIALACPVEQTTAADLPLTLAIAREVGNLLLTDSLLAETNRHLNQLNALLESMDDGVISWDEQGNLQFINAQAARVLRLDATASQGRAITELLTLPAVLQQAIKQAHPLKHVEATFESQHQFIDAVITLKPIIETQGTSFILLLHPV 4ls6-a1-m1-cA_4ls6-a1-m1-cB Crystal structure of beta-ketoacyl-ACP synthase II (FabF) I108F mutant from Bacillus subtilis O34340 O34340 1.56 X-RAY DIFFRACTION 252 0.998 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 411 411 4ls5-a1-m1-cB_4ls5-a1-m1-cA 4ls7-a1-m1-cA_4ls7-a1-m1-cB 4ls8-a1-m1-cB_4ls8-a1-m1-cA KKRVVVTGLGALSPLGNDVDTSWNNAINGVSGIGPITRVDAEEYPAKVAAELKDFNVEDYMDKKEARKMDRFTQYAVVAAKMAVEDADLNITDEIAPRVGVWVGSGFGGLETLESQFEIFLTKGPRRVSPFFVPMMIPDMATGQISIALGAKGVNSCTVTACATGTNSIGDAFKVIQRGDADVMVTGGTEAPLTRMSFAGFSANKALSTNPDPKTASRPFDKNRDGFVMGEGAGIIVLEELEHALARGAKIYGEIVGYGSTGDAYHITAPAQDGEGGARAMQEAIKDAGIAPEEIDYINAHGTSTYYNDKYETMAIKTVFGEHAHKLAVSSTKSMTGHLLGAAGGIEAIFSILAIKEGVIPPTINIQTPDEECDLDYVPDEARRQELNYVLSNSLGFGGHNATLIFKKYQS TKKRVVVTGLGALSPLGNDVDTSWNNAINGVSGIGPITRVDAEEYPAKVAAELKDFNVEDYMDKKEARKMDRFTQYAVVAAKMAVEDADLNITDEIAPRVGVWVGSGFGGLETLESQFEIFLTKGPRRVSPFFVPMMIPDMATGQISIALGAKGVNSCTVTACATGTNSIGDAFKVIQRGDADVMVTGGTEAPLTRMSFAGFSANKALSTNPDPKTASRPFDKNRDGFVMGEGAGIIVLEELEHALARGAKIYGEIVGYGSTGDAYHITAPAQDGEGGARAMQEAIKDAGIAPEEIDYINAHGTSTYYNDKYETMAIKTVFGEHAHKLAVSSTKSMTGHLLGAAGGIEAIFSILAIKEGVIPPTINIQTPDEECDLDYVPDEARRQELNYVLSNSLGFGGHNATLIFKKYQ 4ls9-a1-m1-cA_4ls9-a1-m1-cB Structure of mycobacterial nrnA homolog reveals multifunctional nuclease activities A0QVM9 A0QVM9 2.2 X-RAY DIFFRACTION 166 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 314 314 GARVDARGAADLLTAASSVSVICHVYPDADTIGAGLALAQVLAASGKHVEVSFATPAQLPESLQSLPGGHLLVAPEARRDADLVVTVDIPSINRLGALSGLAGPGREVLVIDHHASNQLFGTANYIDPSADSTTLVAELLDAWGKPIDEKVAHCLYAGLTTDTGSFRWATARAHRLAARLVELGVDNASISRTLLDTHPFAWLPLSRVLATARLLPDALDGRGFVYAVVPHDEWSEARPEEVESIVDIVRTTQQAEVAAVFKEIEPHWSVSRAKSVNLASVASAFGGGGHPHAAGYSATGSADDVVQALARALG GARVDARGAADLLTAASSVSVICHVYPDADTIGAGLALAQVLAASGKHVEVSFATPAQLPESLQSLPGGHLLVAPEARRDADLVVTVDIPSINRLGALSGLAGPGREVLVIDHHASNQLFGTANYIDPSADSTTLVAELLDAWGKPIDEKVAHCLYAGLTTDTGSFRWATARAHRLAARLVELGVDNASISRTLLDTHPFAWLPLSRVLATARLLPDALDGRGFVYAVVPHDEWSEARPEEVESIVDIVRTTQQAEVAAVFKEIEPHWSVSRAKSVNLASVASAFGGGGHPHAAGYSATGSADDVVQALARALG 4lsb-a1-m1-cA_4lsb-a1-m1-cB Crystal structure of a putative lyase/mutase from Burkholderia cenocepacia J2315 B4EFV2 B4EFV2 1.8 X-RAY DIFFRACTION 201 0.996 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 277 278 DLQARHAEAFRALHTRPGAFIIPNPWDAGTARLLAMAGFEALATTSAGYAFSKGQPDNAIDRDAMLDHIADLVAAGGLPVSADLENGFGDAPGTVAETIRLAAEAGAVGGSIEDATGRADTPIYARDASVERIAAAVDAARALPFPFTLTARCENYLHGRRDLDDTIARLVAYRDAGADVLYAPGITDADEIAAVTRAVGAPVNVVMGLQGGLLSLDELAALGVKRVSVGGALARAALGAFLRAATEMRRDGTFTFTQAAVPGRDINRWFAAPDNSP SDLQARHAEAFRALHTRPGAFIIPNPWDAGTARLLAMAGFEALATTSAGYAFSKGQPDNIDRDAMLDHIADLVAAGGLPVSADLENGFGDAPGTVAETIRLAAEAGAVGGSIEDATGRADTPIYARDASVERIAAAVDAARALPFPFTLTARCENYLHGRRDLDDTIARLVAYRDAGADVLYAPGITDADEIAAVTRAVGAPVNVVMGLQGGLLSLDELAALGVKRVSVGGALARAALGAFLRAATEMRRDGTFTFTQAAVPGRDINRWFAAPDNSPI 4lsd-a2-m1-cC_4lsd-a2-m1-cD Myokine structure Q8NAU1 Q8NAU1 2.28 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 4lsd-a1-m1-cB_4lsd-a1-m1-cA 4lsd-a3-m1-cG_4lsd-a3-m1-cH 4lsd-a4-m1-cE_4lsd-a4-m1-cF SPSAPVNVTVRHLKANSAVVSWDVLEDEVVIGFAISQQKKDVRLRFIQEVNTTTRSCALWDLEEDTEYIVHVQAISIQGQSPASEPVLFKTPR SPSAPVNVTVRHLKANSAVVSWDVLEDEVVIGFAISQQKKDVRLRFIQEVNTTTRSCALWDLEEDTEYIVHVQAISIQGQSPASEPVLFKTPR 4lsg-a3-m1-cA_4lsg-a3-m1-cB Structure of Mouse P-Glycoprotein P21447 P21447 3.8 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1182 1182 4q9k-a1-m1-cB_4q9k-a1-m1-cA VSVLTMFRYAGWLDRLYMLVGTLAAIIHGVALPLMMLIFGDMTDSFASVGNVSKNSTNMSEADKRAMFAKLEEEMTTYAYYYTGIGAGVLIVAYIQVSFWCLAAGRQIHKIRQKFFHAIMNQEIGWFDVHDVGELNTRLTDDVSKINEGIGDKIGMFFQAMATFFGGFIIGFTRGWKLTLVILAISPVLGLSAGIWAKILSSFTDKELHAYAKAGAVAEEVLAAIRTVIAFGGQKKELERYNNNLEEAKRLGIKKAITANISMGAAFLLIYASYALAFWYGTSLVISKEYSIGQVLTVFFSVLIGAFSVGQASPNIEAFANARGAAYEVFKIIDNKPSIDSFSKSGHKPDNIQGNLEFKNIHFSYPSRKEVQILKGLNLKVKSGQTVALVGNSGCGKSTTVQLMQRLYDPLDGMVSIDGQDIRTINVRYLREIIGVVSQEPVLFATTIAENIRYGREDVTMDEIEKAVKEANAYDFIMKLPHQFDTLVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESEAVVQAALDKAREGRTTIVIAHRLSTVRNADVIAGFDGGVIVEQGNHDELMREKGIYFKLVMTQTLDEDVPPASFWRILKLNSTEWPYFVVGIFCAIINGGLQPAFSVIFSKVVGVFTNGGPPETQRQNSNLFSLLFLILGIISFITFFLQGFTFGKAGEILTKRLRYMVFKSMLRQDVSWFDDPKNTTGALTTRLANDAAQVKGATGSRLAVIFQNIANLGTGIIISLIYGWQLTLLLLAIVPIIAIAGVVEMKMLSGQALKDKKELEGSGKIATEAIENFRTVVSLTREQKFETMYAQSLQIPYRNAMKKAHVFGITFSFTQAMMYFSYAAAFRFGAYLVTQQLMTFENVLLVFSAIVFGAMAVGQVSSFAPDYAKATVSASHIIRIIEKTPEIDSYSTQGLKPNMLEGNVQFSGVVFNYPTRPSIPVLQGLSLEVKKGQTLALVGSSGCGKSTVVQLLERFYDPMAGSVFLDGKEIKQLNVQWLRAQLGIVSQEPILFDCSIAENIAYGDNSRVVSYEEIVRAAKEANIHQFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRQPHILLLDEATSALDTESEKVVQEALDKAREGRTCIVIAHRLSTIQNADLIVVIQNGKVKEHGTHQQLLAQKGIYFSMVSVQA VSVLTMFRYAGWLDRLYMLVGTLAAIIHGVALPLMMLIFGDMTDSFASVGNVSKNSTNMSEADKRAMFAKLEEEMTTYAYYYTGIGAGVLIVAYIQVSFWCLAAGRQIHKIRQKFFHAIMNQEIGWFDVHDVGELNTRLTDDVSKINEGIGDKIGMFFQAMATFFGGFIIGFTRGWKLTLVILAISPVLGLSAGIWAKILSSFTDKELHAYAKAGAVAEEVLAAIRTVIAFGGQKKELERYNNNLEEAKRLGIKKAITANISMGAAFLLIYASYALAFWYGTSLVISKEYSIGQVLTVFFSVLIGAFSVGQASPNIEAFANARGAAYEVFKIIDNKPSIDSFSKSGHKPDNIQGNLEFKNIHFSYPSRKEVQILKGLNLKVKSGQTVALVGNSGCGKSTTVQLMQRLYDPLDGMVSIDGQDIRTINVRYLREIIGVVSQEPVLFATTIAENIRYGREDVTMDEIEKAVKEANAYDFIMKLPHQFDTLVGERGAQLSGGQKQRIAIARALVRNPKILLLDEATSALDTESEAVVQAALDKAREGRTTIVIAHRLSTVRNADVIAGFDGGVIVEQGNHDELMREKGIYFKLVMTQTLDEDVPPASFWRILKLNSTEWPYFVVGIFCAIINGGLQPAFSVIFSKVVGVFTNGGPPETQRQNSNLFSLLFLILGIISFITFFLQGFTFGKAGEILTKRLRYMVFKSMLRQDVSWFDDPKNTTGALTTRLANDAAQVKGATGSRLAVIFQNIANLGTGIIISLIYGWQLTLLLLAIVPIIAIAGVVEMKMLSGQALKDKKELEGSGKIATEAIENFRTVVSLTREQKFETMYAQSLQIPYRNAMKKAHVFGITFSFTQAMMYFSYAAAFRFGAYLVTQQLMTFENVLLVFSAIVFGAMAVGQVSSFAPDYAKATVSASHIIRIIEKTPEIDSYSTQGLKPNMLEGNVQFSGVVFNYPTRPSIPVLQGLSLEVKKGQTLALVGSSGCGKSTVVQLLERFYDPMAGSVFLDGKEIKQLNVQWLRAQLGIVSQEPILFDCSIAENIAYGDNSRVVSYEEIVRAAKEANIHQFIDSLPDKYNTRVGDKGTQLSGGQKQRIAIARALVRQPHILLLDEATSALDTESEKVVQEALDKAREGRTCIVIAHRLSTIQNADLIVVIQNGKVKEHGTHQQLLAQKGIYFSMVSVQA 4lsm-a2-m1-cA_4lsm-a2-m2-cB Crystal structure of a glycosomal glyceraldehyde-3-phosphate dehydrogenase from Trypanosoma cruzi Q4DZT1 Q4DZT1 1.65 X-RAY DIFFRACTION 98 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 331 331 4lsm-a2-m1-cB_4lsm-a2-m2-cA TIKIGINGFGRIGRMVFRAAQHRNDIEIVGINDLLDADYMAYMLKYDSTHGRYGGMVEVREGALVVNGKKIRVTSERDPANLKWNEVGAVVVVESTGLFLTDETARKHIQAGAKKVVMTGPPKDDTPMFVMGVNNTMYKGQEIVSNASCTTNCLAPLAKIIHEKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSATGAAKAVGKVIPALNGRLTGMAFRVPTPNVSVVDLTARLERPATYEQICAAIKAASEGELKGILGYTEDEVVSTDMNGVALTSVFDVKAGISLNDRFVKLISWYDNETGYSHKVLDLVAYISAH TIKIGINGFGRIGRMVFRAAQHRNDIEIVGINDLLDADYMAYMLKYDSTHGRYGGMVEVREGALVVNGKKIRVTSERDPANLKWNEVGAVVVVESTGLFLTDETARKHIQAGAKKVVMTGPPKDDTPMFVMGVNNTMYKGQEIVSNASCTTNCLAPLAKIIHEKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSATGAAKAVGKVIPALNGRLTGMAFRVPTPNVSVVDLTARLERPATYEQICAAIKAASEGELKGILGYTEDEVVSTDMNGVALTSVFDVKAGISLNDRFVKLISWYDNETGYSHKVLDLVAYISAH 4lsm-a2-m1-cB_4lsm-a2-m2-cB Crystal structure of a glycosomal glyceraldehyde-3-phosphate dehydrogenase from Trypanosoma cruzi Q4DZT1 Q4DZT1 1.65 X-RAY DIFFRACTION 32 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 331 331 4lsm-a2-m1-cA_4lsm-a2-m2-cA TIKIGINGFGRIGRMVFRAAQHRNDIEIVGINDLLDADYMAYMLKYDSTHGRYGGMVEVREGALVVNGKKIRVTSERDPANLKWNEVGAVVVVESTGLFLTDETARKHIQAGAKKVVMTGPPKDDTPMFVMGVNNTMYKGQEIVSNASCTTNCLAPLAKIIHEKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSATGAAKAVGKVIPALNGRLTGMAFRVPTPNVSVVDLTARLERPATYEQICAAIKAASEGELKGILGYTEDEVVSTDMNGVALTSVFDVKAGISLNDRFVKLISWYDNETGYSHKVLDLVAYISAH TIKIGINGFGRIGRMVFRAAQHRNDIEIVGINDLLDADYMAYMLKYDSTHGRYGGMVEVREGALVVNGKKIRVTSERDPANLKWNEVGAVVVVESTGLFLTDETARKHIQAGAKKVVMTGPPKDDTPMFVMGVNNTMYKGQEIVSNASCTTNCLAPLAKIIHEKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSATGAAKAVGKVIPALNGRLTGMAFRVPTPNVSVVDLTARLERPATYEQICAAIKAASEGELKGILGYTEDEVVSTDMNGVALTSVFDVKAGISLNDRFVKLISWYDNETGYSHKVLDLVAYISAH 4lsm-a2-m2-cA_4lsm-a2-m2-cB Crystal structure of a glycosomal glyceraldehyde-3-phosphate dehydrogenase from Trypanosoma cruzi Q4DZT1 Q4DZT1 1.65 X-RAY DIFFRACTION 139 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 331 331 4lsm-a1-m1-cA_4lsm-a1-m1-cB 4lsm-a2-m1-cA_4lsm-a2-m1-cB TIKIGINGFGRIGRMVFRAAQHRNDIEIVGINDLLDADYMAYMLKYDSTHGRYGGMVEVREGALVVNGKKIRVTSERDPANLKWNEVGAVVVVESTGLFLTDETARKHIQAGAKKVVMTGPPKDDTPMFVMGVNNTMYKGQEIVSNASCTTNCLAPLAKIIHEKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSATGAAKAVGKVIPALNGRLTGMAFRVPTPNVSVVDLTARLERPATYEQICAAIKAASEGELKGILGYTEDEVVSTDMNGVALTSVFDVKAGISLNDRFVKLISWYDNETGYSHKVLDLVAYISAH TIKIGINGFGRIGRMVFRAAQHRNDIEIVGINDLLDADYMAYMLKYDSTHGRYGGMVEVREGALVVNGKKIRVTSERDPANLKWNEVGAVVVVESTGLFLTDETARKHIQAGAKKVVMTGPPKDDTPMFVMGVNNTMYKGQEIVSNASCTTNCLAPLAKIIHEKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSATGAAKAVGKVIPALNGRLTGMAFRVPTPNVSVVDLTARLERPATYEQICAAIKAASEGELKGILGYTEDEVVSTDMNGVALTSVFDVKAGISLNDRFVKLISWYDNETGYSHKVLDLVAYISAH 4lsw-a2-m1-cA_4lsw-a2-m2-cA Crystallization and Structural Analysis of 2-Hydroxyacid Dehydrogenase from Ketogulonicigenium vulgare Y25 1.64 X-RAY DIFFRACTION 156 1.0 880591 (Ketogulonicigenium vulgare Y25) 880591 (Ketogulonicigenium vulgare Y25) 318 318 MTKPEILQLGPYPAWDQEPLDAAFTVHRLFEADDRAAMLANVGDRIRAIATRGELGASRALIEACPNLELISVYGVGYDAVDLAACRERGIQVTNTPDVLTGDVADLGVAMMLAQSRGIIGAETWARSGKWAAEGLYPLKRRVFGRRAGVLGLGRIGFEVARRLAGFDMQISYSDIAPKSYAPDWTFVEDAVTLARDVDFLFVTLAASAATRHIVGRDVIEALGPEGMLINISRASNIDEEALIAALADGRLGSAALDVFEGEPNFDPRFRDLPNVLLQPHHASGTIETRKAMGQLLRDNLTAHFAGSPLLTPVVLEH MTKPEILQLGPYPAWDQEPLDAAFTVHRLFEADDRAAMLANVGDRIRAIATRGELGASRALIEACPNLELISVYGVGYDAVDLAACRERGIQVTNTPDVLTGDVADLGVAMMLAQSRGIIGAETWARSGKWAAEGLYPLKRRVFGRRAGVLGLGRIGFEVARRLAGFDMQISYSDIAPKSYAPDWTFVEDAVTLARDVDFLFVTLAASAATRHIVGRDVIEALGPEGMLINISRASNIDEEALIAALADGRLGSAALDVFEGEPNFDPRFRDLPNVLLQPHHASGTIETRKAMGQLLRDNLTAHFAGSPLLTPVVLEH 4lu0-a1-m1-cA_4lu0-a1-m1-cD Crystal structure of 2-Keto-3-deoxy-D-manno-octulosonate-8-phosphate synthase from Pseudomonas aeruginosa. Q9ZFK4 Q9ZFK4 2.8 X-RAY DIFFRACTION 73 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 247 252 4lu0-a1-m1-cB_4lu0-a1-m1-cC KIVRVGDIQIGNDLPFVLFGGMNVLESRDLAMQVCEEYVRVTEKLGIPYVFKASFDKANRSSIHSFRGPGLEEGMKIFEEIKKTFKVPVITDVHEPFQAQPVAEVCDIIQLPAFLSRQTDLVVAMARTNAVINIKKAQFLAPQEMKHILTKCEEAGNDRLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALRRAQVTDLAKAGLSQKLAGLFLEAHPLNKLEAFLSQLKQLDELIKSFP QKIVRVGDIQIGNDLPFVLFGGMNVLESRDLAMQVCEEYVRVTEKLGIPYVFKASFDKANRSSIHSFRGPGLEEGMKIFEEIKKTFKVPVITDVHEPFQAQPVAEVCDIIQLPAFLSRQTDLVVAMARTNAVINIKKAQFLAPQEMKHILTKCEEAGNDRLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALRAQVTDLAKAGLSQKLAGLFLEAHPDPELRLNKLEAFLSQLKQLDELIKSFP 4lu0-a1-m1-cB_4lu0-a1-m1-cD Crystal structure of 2-Keto-3-deoxy-D-manno-octulosonate-8-phosphate synthase from Pseudomonas aeruginosa. Q9ZFK4 Q9ZFK4 2.8 X-RAY DIFFRACTION 75 0.984 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 247 252 4lu0-a1-m1-cA_4lu0-a1-m1-cC AQKIVRVGDIQIGNDLPFVLFGGMNVLESRDLAMQVCEEYVRVTEKLGIPYVFKASFDKANRSSIHSFRGPGLEEGMKIFEEIKKTFKVPVITDVHEPFQAQPVAEVCDIIQLPAFLSRQTDLVVAMARTNAVINIKKAQFLAPQEMKHILTKCEEAGNDRLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALQRAQVTDLAKAGLSQKLAGLFLEAKLEAFLSQLKQLDELIKSFPAI QKIVRVGDIQIGNDLPFVLFGGMNVLESRDLAMQVCEEYVRVTEKLGIPYVFKASFDKANRSSIHSFRGPGLEEGMKIFEEIKKTFKVPVITDVHEPFQAQPVAEVCDIIQLPAFLSRQTDLVVAMARTNAVINIKKAQFLAPQEMKHILTKCEEAGNDRLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALRAQVTDLAKAGLSQKLAGLFLEAHPDPELRLNKLEAFLSQLKQLDELIKSFP 4lu0-a1-m1-cC_4lu0-a1-m1-cD Crystal structure of 2-Keto-3-deoxy-D-manno-octulosonate-8-phosphate synthase from Pseudomonas aeruginosa. Q9ZFK4 Q9ZFK4 2.8 X-RAY DIFFRACTION 11 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 250 252 4lu0-a1-m1-cA_4lu0-a1-m1-cB AQKIVRVGDIQIGNDLPFVLFGGMNVLESRDLAMQVCEEYVRVTEKLGIPYVFKASFDKANRSSIHSFRGPGLEEGMKIFEEIKKTFKVPVITDVHEPFQAQPVAEVCDIIQLPAFLSRQTDLVVAMARTNAVINIKKAQFLAPQEMKHILTKCEEAGNDRLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALRAQVTDLAKAGLSQKLAGLFLEAHPDRLNKLEAFLSQLKQLDELIKSFP QKIVRVGDIQIGNDLPFVLFGGMNVLESRDLAMQVCEEYVRVTEKLGIPYVFKASFDKANRSSIHSFRGPGLEEGMKIFEEIKKTFKVPVITDVHEPFQAQPVAEVCDIIQLPAFLSRQTDLVVAMARTNAVINIKKAQFLAPQEMKHILTKCEEAGNDRLILCERGSSFGYNNLVVDMLGFGIMKQFEYPVFFDVTHALRAQVTDLAKAGLSQKLAGLFLEAHPDPELRLNKLEAFLSQLKQLDELIKSFP 4lu5-a1-m1-cH_4lu5-a1-m1-cI Structure of murine IgG2a A20G2-Fab in complex with vaccinia antigen A33R at the resolution of 2.9 Angstroms 2.9 X-RAY DIFFRACTION 16 1.0 10090 (Mus musculus) 10090 (Mus musculus) 209 210 EVKLVESGGGLVQPGGSLKLSCATSGFTFSDYYIYWVRQTPEKRLEWVAYISNGGYKTYYPDTVKGRFTISRDNAKNILYLQMSRLKSEDTGIYYCARGMDYWGQGTSVTVSSAKTTAPSVYPLAPVCGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR EVKLVESGGGLVQPGGSLKLSCATSGFTFSDYYIYWVRQTPEKRLEWVAYISNGGYKTYYPDTVKGRFTISRDNAKNILYLQMSRLKSEDTGIYYCARGMDYWGQGTSVTVSSAKTTAPSVYPLAPVCTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR 4lub-a1-m1-cA_4lub-a1-m1-cB X-ray structure of prephenate dehydratase from Streptococcus mutans Q8DUV6 Q8DUV6 2.1 X-RAY DIFFRACTION 91 0.995 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 188 190 TMKIAYLGPSGSFTHNVALHAFPAADLLPFENITEVIKAYESKQVCFAIVPVENSIEGSVHETFDYLFHQAKIEAVAEIILENYTRFWVLGDETPTIHLKEEDQKISLALTLPDNLPGALYKALSTFAWRGIDLTKIESRPLKTILGEYFFIIDFENHNEKLVSFALEELTSIGIHYKILGKYAVYRL TMKIAYLGPSGSFTHNVALHAFPAADLLPFENITEVIKAYESKQVCFAIVPVENSIEGSVHETFDYLFHQAKIEAVAEIILPIKENYTRFWVLGDETPTIHLKEEDQKISLALTLPDNLPGALYKALSTFAWRGIDLTKIESRPLKTILGEYFFIIDFENHNEKLVSFALEELTSIGIHYKILGKYAVYR 4luj-a1-m1-cA_4luj-a1-m1-cB Crystal structure of Orotidine 5'-monophosphate decarboxylase from methanocaldococcus jannaschii complexed with inhibitor BMP Q57700 Q57700 1.6 X-RAY DIFFRACTION 116 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 214 214 4lui-a1-m1-cA_4lui-a1-m1-cB HMPKLMLALDVLDRDRALKIVEDVKDYVDAIKVGYPLVLSTGTEIIKEIKKLCNKEVIADFKVADIPATNEKIAKITLKYADGIIVHGFVGEDSVKAVQDVAKKLNKKVIMVTEMSHPGAVQFLQPIADKLSEMAKKLKVDAIVAPSTRPERLKEIKEIAELPVITPGVGAQGGKIEDILNILDENDYVIVGRAIYQSQNPKEEAKKYKEMLNK HMPKLMLALDVLDRDRALKIVEDVKDYVDAIKVGYPLVLSTGTEIIKEIKKLCNKEVIADFKVADIPATNEKIAKITLKYADGIIVHGFVGEDSVKAVQDVAKKLNKKVIMVTEMSHPGAVQFLQPIADKLSEMAKKLKVDAIVAPSTRPERLKEIKEIAELPVITPGVGAQGGKIEDILNILDENDYVIVGRAIYQSQNPKEEAKKYKEMLNK 4lus-a2-m1-cD_4lus-a2-m1-cC alanine racemase [Clostridium difficile 630] Q180W0 Q180W0 2.1 X-RAY DIFFRACTION 234 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 378 380 4luy-a1-m1-cA_4luy-a1-m1-cB KITVPTWAEINLDNLRFNLNNIKNLLEEDIKICGVIADAYGHGAVEVAKLLEKEKVDYLAVARTAEGIELRQNGITLPILNLGYTPDEAFEDSIKNKITMTVYSLETAQKINEIAKSLGEKACVHVIDSGMTRIGFQPNEESVQEIIELNKLEYIDLEGMFTHFATADEVSKEYTYKQANNYKFMSDKLDEAGIAIKHVSNSAAIMDCPDLRLNMVRAGIILYGHYPSDDVFKDRLELRPAMKLKSKIGHIKQVEPGVGISYGLKYTTTGKETIATVPIGYADGFTRIQKNPKVLIKGEVFDVVGRICMDQIMVRIDKDIDIKVGDEVILFGEGEVTAERIAKDLGTINYEVLCMISRRVDRVYMENNELVQINSYLL KITVPTWAEINLDNLRFNLNNIKNLLEEDIKICGVIADAYGHGAVEVAKLLEKEKVDYLAVARTAEGIELRQNGITLPILNLGYTPDEAFEDSIKNKITMTVYSLETAQKINEIAKSLGEKACVHVIDSGMTRIGFQPNEESVQEIIELNKLEYIDLEGMFTHFATADEVSKEYTYKQANNYKFMSDKLDEAGVKIAIKHVSNSAAIMDCPDLRLNMVRAGIILYGHYPSDDVFKDRLELRPAMKLKSKIGHIKQVEPGVGISYGLKYTTTGKETIATVPIGYADGFTRIQKNPKVLIKGEVFDVVGRICMDQIMVRIDKDIDIKVGDEVILFGEGEVTAERIAKDLGTINYEVLCMISRRVDRVYMENNELVQINSYLL 4lvp-a2-m2-cA_4lvp-a2-m4-cA Crystal structure of IFT81 N-terminal domain Q68RJ5 Q68RJ5 2.323 X-RAY DIFFRACTION 44 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 124 124 4lvp-a2-m1-cA_4lvp-a2-m3-cA 4lvr-a2-m1-cA_4lvr-a2-m3-cA 4lvr-a2-m2-cA_4lvr-a2-m4-cA AMGDVSYIVDSLGLPPFSYQMSLLSFTEKGPQELLQLLSDVFSTISPQKVDVAKEVPDQTADRLIGFLKIIKYRPNVQDPLLFRQLVAAGDRETLYQILRWVVPQAQLLEKRAFVGYYLSFPDM AMGDVSYIVDSLGLPPFSYQMSLLSFTEKGPQELLQLLSDVFSTISPQKVDVAKEVPDQTADRLIGFLKIIKYRPNVQDPLLFRQLVAAGDRETLYQILRWVVPQAQLLEKRAFVGYYLSFPDM 4lvp-a2-m3-cA_4lvp-a2-m4-cA Crystal structure of IFT81 N-terminal domain Q68RJ5 Q68RJ5 2.323 X-RAY DIFFRACTION 26 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 124 124 4lvp-a2-m1-cA_4lvp-a2-m2-cA 4lvr-a2-m1-cA_4lvr-a2-m2-cA 4lvr-a2-m3-cA_4lvr-a2-m4-cA AMGDVSYIVDSLGLPPFSYQMSLLSFTEKGPQELLQLLSDVFSTISPQKVDVAKEVPDQTADRLIGFLKIIKYRPNVQDPLLFRQLVAAGDRETLYQILRWVVPQAQLLEKRAFVGYYLSFPDM AMGDVSYIVDSLGLPPFSYQMSLLSFTEKGPQELLQLLSDVFSTISPQKVDVAKEVPDQTADRLIGFLKIIKYRPNVQDPLLFRQLVAAGDRETLYQILRWVVPQAQLLEKRAFVGYYLSFPDM 4lvu-a1-m1-cA_4lvu-a1-m2-cB Crystal Structure of a Putative Short Chain Dehydrogenase from Burkholderia thailandensis Q2SZC0 Q2SZC0 1.25 X-RAY DIFFRACTION 131 0.988 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 252 252 4lvu-a1-m1-cB_4lvu-a1-m2-cA DERYARYPSLAGRAVLITGGATGIGASFVEHFARQGARVAFVDLDEQAARALAARLADAAHEPVFVACDLTDIAALRGAIEAIRARIGPIAALVNNAANDVRHAIADVTPDSFDACIAVNLRHQFFAAQAVIDDMKRLGGGSIVNLGSISWMLKNAGYPVYASAKAAVQGLTRALARELGPFGIRVNTLVPGWVMTQRRLWLDDAGRAAIKAGQCIDAELLPGDLARMALFLAADDSRMITAQDVVVDGGWA DERYARYPSLAGRAVLITGGATGIGASFVEHFARQGARVAFVDLDEQAARALAARLADAAHEPVFVACDLTDIAALRGAIEAIRARIGPIAALVNNAANDVRHAIADVTPDSFDACIAVNLRHQFFAAQAVIDDMKRLGGGSIVNLGSISWMLKNAGYPVYASAKAAVQGLTRALARELGPFGIRVNTLVPGWVMTDKQLWLDDAGRAAIKAGQCIDAELLPGDLARMALFLAADDSRMITAQDVVVDGGWA 4lvu-a1-m2-cA_4lvu-a1-m2-cB Crystal Structure of a Putative Short Chain Dehydrogenase from Burkholderia thailandensis Q2SZC0 Q2SZC0 1.25 X-RAY DIFFRACTION 121 0.988 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 252 252 4lvu-a1-m1-cA_4lvu-a1-m1-cB 5wjs-a1-m1-cA_5wjs-a1-m1-cB DERYARYPSLAGRAVLITGGATGIGASFVEHFARQGARVAFVDLDEQAARALAARLADAAHEPVFVACDLTDIAALRGAIEAIRARIGPIAALVNNAANDVRHAIADVTPDSFDACIAVNLRHQFFAAQAVIDDMKRLGGGSIVNLGSISWMLKNAGYPVYASAKAAVQGLTRALARELGPFGIRVNTLVPGWVMTQRRLWLDDAGRAAIKAGQCIDAELLPGDLARMALFLAADDSRMITAQDVVVDGGWA DERYARYPSLAGRAVLITGGATGIGASFVEHFARQGARVAFVDLDEQAARALAARLADAAHEPVFVACDLTDIAALRGAIEAIRARIGPIAALVNNAANDVRHAIADVTPDSFDACIAVNLRHQFFAAQAVIDDMKRLGGGSIVNLGSISWMLKNAGYPVYASAKAAVQGLTRALARELGPFGIRVNTLVPGWVMTDKQLWLDDAGRAAIKAGQCIDAELLPGDLARMALFLAADDSRMITAQDVVVDGGWA 4lw2-a2-m1-cC_4lw2-a2-m1-cB Structural changes during cysteine desulfurase CsdA and sulfur-acceptor CsdE interactions provide insight into the trans-persulfuration Q46925 Q46925 1.8 X-RAY DIFFRACTION 269 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 398 399 4lw2-a1-m1-cA_4lw2-a1-m2-cA 4lw4-a1-m1-cA_4lw4-a1-m1-cB 5ft4-a1-m1-cB_5ft4-a1-m1-cA 5ft5-a1-m1-cA_5ft5-a1-m1-cB 5ft6-a1-m1-cB_5ft6-a1-m1-cA 5ft8-a1-m1-cA_5ft8-a1-m1-cC 5ft8-a2-m1-cE_5ft8-a2-m1-cG 5ft8-a3-m1-cI_5ft8-a3-m1-cK 5ft8-a4-m1-cM_5ft8-a4-m1-cO VFNPAQFRAQFPALQDAGVYLDSAATALKPEAVVEATQQFYSLSAGNVHRSQFAEAQRLTARYEAAREKVAQLLNAPDDKTIVWTRGTTESINMVAQCYARPRLQPGDEIIVSVAEHHANLVPWLMVAQQTGAKVVKLPLNAQRLPDVDLLPELITPRSRILALGQMSNVTGGCPDLARAITFAHSAGMVVMVDGAQGAVHFPADVQQLDIDFYAFSGHKLYGPTGIGVLYGKSELLEAMSPWLGGGKMVHEVSFDGFTTQSAPWKLEAGTPNVAGVIGLSAALEWLADYDINQAESWSRSLATLAEDALAKRPGFRSFRCQDSSLLAFDFAGVHHSDMVTLLAEYGIALRAGQHCAQPLLAELGVTGTLRASFAPYNTKSDVDALVNAVDRALELLV NVFNPAQFRAQFPALQDAGVYLDSAATALKPEAVVEATQQFYSLSAGNVHRSQFAEAQRLTARYEAAREKVAQLLNAPDDKTIVWTRGTTESINMVAQCYARPRLQPGDEIIVSVAEHHANLVPWLMVAQQTGAKVVKLPLNAQRLPDVDLLPELITPRSRILALGQMSNVTGGCPDLARAITFAHSAGMVVMVDGAQGAVHFPADVQQLDIDFYAFSGHKLYGPTGIGVLYGKSELLEAMSPWLGGGKMVHEVSFDGFTTQSAPWKLEAGTPNVAGVIGLSAALEWLADYDINQAESWSRSLATLAEDALAKRPGFRSFRCQDSSLLAFDFAGVHHSDMVTLLAEYGIALRAGQHCAQPLLAELGVTGTLRASFAPYNTKSDVDALVNAVDRALELLV 4lw8-a1-m1-cA_4lw8-a1-m1-cB Crystal structure of a putative epimerase from Burkholderia cenocepacia J2315 B4EFL1 B4EFL1 2.1 X-RAY DIFFRACTION 58 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 303 303 GRPSRRAFVTGLTGFTGRYMAERLQAAGYDVWGTVAPGTPRPADPAFAQCTLLPVDLLDAEAMRAAAADARPDAVVHLAARAEPSQTYAVNIVGTRNLLAALSGLDRRPSAVLLASSANIYGNSTAGVLDETVAPAPANDYAVSKLAMEYAAKLWADRLPIVIARPFNYTGVGQSDAYLLPKLVAHYARNAPRISLGNLDVSRDFSDVRDVTAAYLKLIEAAPAGETFNVCSERAYSLKEVLAMLSRIAGYVIDVTIDPRFVRHNEVKSLSGSRDKLRRAVGELPVTPLDETLRWMVDAMRAA GRPSRRAFVTGLTGFTGRYMAERLQAAGYDVWGTVAPGTPRPADPAFAQCTLLPVDLLDAEAMRAAAADARPDAVVHLAARAEPSQTYAVNIVGTRNLLAALSGLDRRPSAVLLASSANIYGNSTAGVLDETVAPAPANDYAVSKLAMEYAAKLWADRLPIVIARPFNYTGVGQSDAYLLPKLVAHYARNAPRISLGNLDVSRDFSDVRDVTAAYLKLIEAAPAGETFNVCSERAYSLKEVLAMLSRIAGYVIDVTIDPRFVRHNEVKSLSGSRDKLRRAVGELPVTPLDETLRWMVDAMRAA 4lwd-a2-m1-cA_4lwd-a2-m6-cA Human CARMA1 CARD domain Q9BXL7 Q9BXL7 1.792 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 4lwd-a2-m2-cA_4lwd-a2-m5-cA 4lwd-a2-m3-cA_4lwd-a2-m4-cA ALWENVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNAPMLPSKINRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTGKE ALWENVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNAPMLPSKINRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTGKE 4lwd-a2-m5-cA_4lwd-a2-m6-cA Human CARMA1 CARD domain Q9BXL7 Q9BXL7 1.792 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 4lwd-a2-m1-cA_4lwd-a2-m2-cA 4lwd-a2-m1-cA_4lwd-a2-m3-cA 4lwd-a2-m2-cA_4lwd-a2-m3-cA 4lwd-a2-m4-cA_4lwd-a2-m5-cA 4lwd-a2-m4-cA_4lwd-a2-m6-cA ALWENVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNAPMLPSKINRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTGKE ALWENVECNRHMLSRYINPAKLTPYLRQCKVIDEQDEDEVLNAPMLPSKINRAGRLLDILHTKGQRGYVVFLESLEFYYPELYKLVTGKE 4lwo-a2-m1-cE_4lwo-a2-m1-cG Crystal structure of PRMT6 Q57U70 Q57U70 2.203 X-RAY DIFFRACTION 81 0.997 341 342 4lwo-a1-m1-cA_4lwo-a1-m1-cB 4lwp-a1-m1-cA_4lwp-a1-m1-cB ESYSDLAVHRLMLEDAQRMSFYRKSIEQSASIEGKVVVDVGSGTGILSMWAARAGAKHVFSIEASSLSEFQIGVVEDNDLSTKITVLGDTVENIIAGGVANFVNRHKAKLGKCGVAVLLSEWMGFYLFHEGMLPSVIRARNFFQDVNAALGVLQPIEMIPERATVFVAPITCKPYYVQRYKNFWRDVDGLDFSRYGRIEYEVYLPLVECLPPLCLLHEGLSLIELNLSTVQEEVLTSLHNTVHFDLKESAEFQQHAREAGSGRVSVDGFTVWFDVSYGAHTLSTSPRSPSTHWKQTTILLPREARNEELVSFPVEGGELGVEMHISASDKTLRFYTIELEL SYSDLAVHRLMLEDAQRMSFYRKSIEQSASIEGKVVVDVGSGTGILSMWAARAGAKHVFSIEASSLSEFQIGVVEDNDLSTKITVLGDTVENIIAGGVANFVNRHKAKLGKCGVAVLLSEWMGFYLFHEGMLPSVIRARNFFQDVNAALGVLQPIEMIPERATVFVAPITCKPYYVQRYKNFWRDVDGLDFSRYGRIEYEVYLEPLVECLPPLCLLHEGLSLIELNLSTVQEEVLTSLHNTVHFDLKESAEFQQHAREAGSEGRVSVDGFTVWFDVSYGAHTLSTSPRSPSTHWKQTTILLPREARNEELVSFPVEGGELGVEMHISASDKTLRFYTIELEL 4lxc-a5-m1-cA_4lxc-a5-m2-cD The antimicrobial peptidase lysostaphin from Staphylococcus simulans P10547 P10547 3.5 X-RAY DIFFRACTION 58 0.996 1286 (Staphylococcus simulans) 1286 (Staphylococcus simulans) 246 246 AATHEHSAQWLNNYKKGYGYGPYPLGINGGMHYGVDFFMNIGTPVKAISSGKIVEAGWSNYGGGNQIGLIENDGVHRQWYMHLSKYNVKVGDYVKAGQIIGWSGSTGYSTAPHLHFQRMVNSFSNSTAQDPMPFLKSAGYGKAGGTVTPTPNTGWKTNKYGTLYKSESASFTPNTDIITRTTGPFRSMPQSGVLKAGQTIHYDEVMKQDGHVWVGYTGNSGQRIYLPVRTWNKSTNTLGVLWGTIK ATHEHSAQWLNNYKKGYGYGPYPLGINGGMHYGVDFFMNIGTPVKAISSGKIVEAGWSNYGGGNQIGLIENDGVHRQWYMHLSKYNVKVGDYVKAGQIIGWSGSTGYSTAPHLHFQRMVNSFSNSTAQDPMPFLKSAGYGKAGGTVTPTPNTGWKTNKYGTLYKSESASFTPNTDIITRTTGPFRSMPQSGVLKAGQTIHYDEVMKQDGHVWVGYTGNSGQRIYLPVRTWNKSTNTLGVLWGTIKL 4lxc-a5-m1-cB_4lxc-a5-m2-cD The antimicrobial peptidase lysostaphin from Staphylococcus simulans P10547 P10547 3.5 X-RAY DIFFRACTION 13 1.0 1286 (Staphylococcus simulans) 1286 (Staphylococcus simulans) 240 246 4lxc-a5-m2-cC_4lxc-a5-m1-cA SAQWLNNYKKGYGYGPYPLGINGGMHYGVDFFMNIGTPVKAISSGKIVEAGWSNYGGGNQIGLIENDGVHRQWYMHLSKYNVKVGDYVKAGQIIGWSGSTGYSTAPHLHFQRMVNSFSNSTAQDPMPFLKSAGYGKAGGTVTPTPNTGWKTNKYGTLYKSESASFTPNTDIITRTTGPFRSMPQSGVLKAGQTIHYDEVMKQDGHVWVGYTGNSGQRIYLPVRTWNKSTNTLGVLWGTIK ATHEHSAQWLNNYKKGYGYGPYPLGINGGMHYGVDFFMNIGTPVKAISSGKIVEAGWSNYGGGNQIGLIENDGVHRQWYMHLSKYNVKVGDYVKAGQIIGWSGSTGYSTAPHLHFQRMVNSFSNSTAQDPMPFLKSAGYGKAGGTVTPTPNTGWKTNKYGTLYKSESASFTPNTDIITRTTGPFRSMPQSGVLKAGQTIHYDEVMKQDGHVWVGYTGNSGQRIYLPVRTWNKSTNTLGVLWGTIKL 4lxc-a5-m2-cC_4lxc-a5-m2-cD The antimicrobial peptidase lysostaphin from Staphylococcus simulans P10547 P10547 3.5 X-RAY DIFFRACTION 70 1.0 1286 (Staphylococcus simulans) 1286 (Staphylococcus simulans) 240 246 4lxc-a5-m1-cB_4lxc-a5-m1-cA ATHEHSAQWLNNYKKGYGYGPYPLMHYGVDFFMNIGTPVKAISSGKIVEAGWSNYGGGNQIGLIENDGVHRQWYMHLSKYNVKVGDYVKAGQIIGWSGSTGYSTAPHLHFQRMVNSFSNSTAQDPMPFLKSAGYGKAGGTVTPTPNTGWKTNKYGTLYKSESASFTPNTDIITRTTGPFRSMPQSGVLKAGQTIHYDEVMKQDGHVWVGYTGNSGQRIYLPVRTWNKSTNTLGVLWGTIK ATHEHSAQWLNNYKKGYGYGPYPLGINGGMHYGVDFFMNIGTPVKAISSGKIVEAGWSNYGGGNQIGLIENDGVHRQWYMHLSKYNVKVGDYVKAGQIIGWSGSTGYSTAPHLHFQRMVNSFSNSTAQDPMPFLKSAGYGKAGGTVTPTPNTGWKTNKYGTLYKSESASFTPNTDIITRTTGPFRSMPQSGVLKAGQTIHYDEVMKQDGHVWVGYTGNSGQRIYLPVRTWNKSTNTLGVLWGTIKL 4lxf-a1-m1-cB_4lxf-a1-m2-cB Crystal structure of M. tuberculosis TreS 2.6 X-RAY DIFFRACTION 96 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 546 546 4lxf-a1-m1-cA_4lxf-a1-m2-cA PVQGSHVEGGVVEHPDAKDFGSAAALPADPTWFKHAVFYEVLVRAFFDASADGSGDLRGLIDRLDYLQWLGIDCIWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVALVDAAHRRGIRIITDLVMNHTSESHPWFQESRRDPDGPYGDYYVWSDTSERYTDARIIFVDTEESNWSFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMIDVIRFWLGLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRVRKVVDDEFPGRVLLAEANQWPGDVVEYFGDPNTGGDECHMAFHFPLMPRIFMAVRRESRFPISEIIAQTPPIPDMAQWGIFLRNHDELRRRLAPLLDNDRNQIELFTALLLSLPGSPVLYYGDEIGMGDVIWLGDRDGVRIPMQWTPDRNAGFSTANPGRLYLPPSQDPVYGYQAVNVEAQRDTSTSLLNFTRTMLAVRRRHPAFAVGAFQELGGSNPSVLAYVRQVAGDDGDTVLCVNNLSRFPQPIELDLQQWTNYTPVELTGHVEFPRIGQVPYLLTLPGHGFYWFQLTT PVQGSHVEGGVVEHPDAKDFGSAAALPADPTWFKHAVFYEVLVRAFFDASADGSGDLRGLIDRLDYLQWLGIDCIWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVALVDAAHRRGIRIITDLVMNHTSESHPWFQESRRDPDGPYGDYYVWSDTSERYTDARIIFVDTEESNWSFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMIDVIRFWLGLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRVRKVVDDEFPGRVLLAEANQWPGDVVEYFGDPNTGGDECHMAFHFPLMPRIFMAVRRESRFPISEIIAQTPPIPDMAQWGIFLRNHDELRRRLAPLLDNDRNQIELFTALLLSLPGSPVLYYGDEIGMGDVIWLGDRDGVRIPMQWTPDRNAGFSTANPGRLYLPPSQDPVYGYQAVNVEAQRDTSTSLLNFTRTMLAVRRRHPAFAVGAFQELGGSNPSVLAYVRQVAGDDGDTVLCVNNLSRFPQPIELDLQQWTNYTPVELTGHVEFPRIGQVPYLLTLPGHGFYWFQLTT 4lxf-a1-m2-cB_4lxf-a1-m2-cA Crystal structure of M. tuberculosis TreS 2.6 X-RAY DIFFRACTION 48 0.991 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 546 570 4lxf-a1-m1-cB_4lxf-a1-m1-cA PVQGSHVEGGVVEHPDAKDFGSAAALPADPTWFKHAVFYEVLVRAFFDASADGSGDLRGLIDRLDYLQWLGIDCIWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVALVDAAHRRGIRIITDLVMNHTSESHPWFQESRRDPDGPYGDYYVWSDTSERYTDARIIFVDTEESNWSFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMIDVIRFWLGLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRVRKVVDDEFPGRVLLAEANQWPGDVVEYFGDPNTGGDECHMAFHFPLMPRIFMAVRRESRFPISEIIAQTPPIPDMAQWGIFLRNHDELRRRLAPLLDNDRNQIELFTALLLSLPGSPVLYYGDEIGMGDVIWLGDRDGVRIPMQWTPDRNAGFSTANPGRLYLPPSQDPVYGYQAVNVEAQRDTSTSLLNFTRTMLAVRRRHPAFAVGAFQELGGSNPSVLAYVRQVAGDDGDTVLCVNNLSRFPQPIELDLQQWTNYTPVELTGHVEFPRIGQVPYLLTLPGHGFYWFQLTT PVQGSHVEGGVVEHPDAKDFGSAAALPADPTWFKHAVFYEVLVRAFFDASADGSGDLRGLIDRLDYLQWLGIDCIWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVALVDAAHRRGIRIITDLVMNHTSESHPWFQESRRDPDGPYGDYYVWSDTSERYTDARIIFVDTEESNWSFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMIDVIRFWLGLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRVRKVVDDEFPGRVLLAEANQWPGDVVEYFGDPNTGGDECHMAFHFPLMPRIFMAVRRESRFPISEIIAQTPPIPDMAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLDNDRNQIELFTALLLSLPGSPVLYYGDEIGMGDVIWGVRIPMQWTPDRNAGFSTANPGRLYLPPSQDPVYGYQAVNVEAQRDTSTSLLNFTRTMLAVRRRHPAFAVGAFQELGGSNPSVLAYVRQVAGDDGDTVLCVNNLSRFPQPIELDLQQWTNYTPVELTGHVEFPRIGQVPYLLTLPGHGFYWFQLTT 4lxu-a1-m1-cA_4lxu-a1-m1-cB dTdp-Fuc3N and 5-N-Formyl-THF 1.4 X-RAY DIFFRACTION 102 1.0 407148 (Campylobacter jejuni subsp. jejuni 81116) 407148 (Campylobacter jejuni subsp. jejuni 81116) 273 274 4lxq-a1-m1-cA_4lxq-a1-m1-cB 4lxt-a1-m1-cA_4lxt-a1-m1-cB 4lxx-a1-m1-cA_4lxx-a1-m1-cB 4lxy-a1-m1-cA_4lxy-a1-m1-cB 4ly0-a1-m1-cA_4ly0-a1-m1-cB 4ly3-a1-m1-cA_4ly3-a1-m1-cB GHMIKICIAGKNNIAVNSLQFILKNYFEADQIVVIPNKNDKGIDSWQKSLLKFALDNNIKIVTLDEIYNIEQIIFFSLEFDQIIKIENFKSDRLFNIHFSALPKYKGVFTSITPILNNELESGVTLHRIDNGIDTGNIIDQHCFPIDINDTARDLYFNYLKYGESIFKKNIQTIINNSYKDLKQTNINSSYFSRKDINLVHKINFKKTSFEIHNQIRAFIFQEYQLPIINNSKIIKSILANEFIGYNVFEEFENYFIISGIDGFKIIAQKLNK GHMIKICIAGKNNIAVNSLQFILKNYFEADQIVVIPNKNDKGIDSWQKSLLKFALDNNIKIVTLDEIYNIEQIIFFSLEFDQIIKIENFKSDRLFNIHFSALPKYKGVFTSITPILNNELESGVTLHRIDNGIDTGNIIDQHCFPIDINDTARDLYFNYLKYGESIFKKNIQTIINNSYKDLKQTNINSSYFSRKDINLVHKINFKKTSFEIHNQIRAFIFQEYQLPIINNSKIIKSILANEFIGYNVFEEFENYFIISGIDGFKIIAQKLNKL 4ly4-a1-m1-cC_4ly4-a1-m1-cD Crystal structure of peptidoglycan deacetylase (HP0310) with Zinc from Helicobacter pylori B5ZA76 B5ZA76 2.199 X-RAY DIFFRACTION 117 1.0 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 290 290 3qbu-a1-m1-cA_3qbu-a1-m1-cB 3qbu-a1-m1-cA_3qbu-a1-m1-cC 3qbu-a1-m1-cB_3qbu-a1-m1-cD 3qbu-a1-m1-cC_3qbu-a1-m1-cD 4ly4-a1-m1-cA_4ly4-a1-m1-cB 4ly4-a1-m1-cA_4ly4-a1-m1-cC 4ly4-a1-m1-cB_4ly4-a1-m1-cD AKEILVAYGVDIDAVAGWLGSYGGEDSPDDISRGLFAGEVGIPRLLKLFKKYHLPATWFVPGHSIETFPEQMKMIVDAGHEVGAHGYSHENPIAMSTKQEEDVLLKSVELIKDLTGKAPTGYVAPWWEFSNITNELLLKHGFKYDHSLMHNDFTPYYVRVGDSWSKIDYSLEAKDWMKPLIRGVETNLVEIPANWYLDDLPPMMFIKKSPNSFGFVSPRDIGQMWIDQFDWVYREMDYAVFSMTIHPDVSARPQVLLMHEKIIEHINKHEGVRWVTFNEIADDFLKRNPR AKEILVAYGVDIDAVAGWLGSYGGEDSPDDISRGLFAGEVGIPRLLKLFKKYHLPATWFVPGHSIETFPEQMKMIVDAGHEVGAHGYSHENPIAMSTKQEEDVLLKSVELIKDLTGKAPTGYVAPWWEFSNITNELLLKHGFKYDHSLMHNDFTPYYVRVGDSWSKIDYSLEAKDWMKPLIRGVETNLVEIPANWYLDDLPPMMFIKKSPNSFGFVSPRDIGQMWIDQFDWVYREMDYAVFSMTIHPDVSARPQVLLMHEKIIEHINKHEGVRWVTFNEIADDFLKRNPR 4lyd-a1-m1-cA_4lyd-a1-m2-cA Crystal structure of the S105A mutant of a C-C hydrolase, DxnB2 from Sphingomonas wittichii RW1 2.26 X-RAY DIFFRACTION 37 1.0 392499 (Rhizorhabdus wittichii RW1) 392499 (Rhizorhabdus wittichii RW1) 268 268 4lxg-a1-m1-cA_4lxg-a1-m2-cA 4lxh-a1-m1-cA_4lxh-a1-m2-cA 4lxi-a1-m1-cA_4lxi-a1-m2-cA 4lye-a1-m1-cA_4lye-a1-m2-cA MFEQFESKFIDCDGIRTHYIEMGEGDPLVLVHGGGAGADGRSNFADNFPIFARHMRVIAYDMVGFGQTDAPDPAGFAYTQAARTDHLISFIKALGLSKICLIGNAMGGTTACGAALKAPELIDRLVLMGAAVNISPDDMVANRYDGSEEGMRKIIAALTHSYQPTDDIVHYRHEASLRPTTTAAYKATMGWAKQNGLYYSPEQLASLTMPVLVLGGKNDVMVPVRKVIDQILAIPQAIGHVFPNCGHWVMIEYPEEFCTQTLHFFGKL MFEQFESKFIDCDGIRTHYIEMGEGDPLVLVHGGGAGADGRSNFADNFPIFARHMRVIAYDMVGFGQTDAPDPAGFAYTQAARTDHLISFIKALGLSKICLIGNAMGGTTACGAALKAPELIDRLVLMGAAVNISPDDMVANRYDGSEEGMRKIIAALTHSYQPTDDIVHYRHEASLRPTTTAAYKATMGWAKQNGLYYSPEQLASLTMPVLVLGGKNDVMVPVRKVIDQILAIPQAIGHVFPNCGHWVMIEYPEEFCTQTLHFFGKL 4lyl-a9-m1-cA_4lyl-a9-m1-cO Crystal structure of uracil-DNA glycosylase from cod (Gadus morhua) in complex with the proteinaceous inhibitor UGI Q9I983 Q9I983 1.93 X-RAY DIFFRACTION 26 1.0 8049 (Gadus morhua) 8049 (Gadus morhua) 223 223 4lyl-a10-m1-cC_4lyl-a10-m1-cM 4lyl-a11-m1-cE_4lyl-a11-m1-cK 4lyl-a12-m1-cG_4lyl-a12-m1-cI MEFFGETWRRELAAEFEKPYFKQLMSFVADERSRHTVYPPADQVYSWTEMCDIQDVKVVILGQDPYHGPNQAHGLCFSVQKPVPPPPSLVNIYKELCTDIDGFKHPGHGDLSGWAKQGVLLLNAVLTVRAHQANSHKDRGWETFTDAVIKWLSVNREGVVFLLWGSYAHKKGATIDRKRHHVLQAVHPSPLSAHRGFLGCKHFSKANGLLKLSGTEPINWRAL MEFFGETWRRELAAEFEKPYFKQLMSFVADERSRHTVYPPADQVYSWTEMCDIQDVKVVILGQDPYHGPNQAHGLCFSVQKPVPPPPSLVNIYKELCTDIDGFKHPGHGDLSGWAKQGVLLLNAVLTVRAHQANSHKDRGWETFTDAVIKWLSVNREGVVFLLWGSYAHKKGATIDRKRHHVLQAVHPSPLSAHRGFLGCKHFSKANGLLKLSGTEPINWRAL 4lyy-a1-m1-cB_4lyy-a1-m1-cD Crystal structure of hypoxanthine phosphoribosyltransferase from Shewanella pealeana ATCC 700345, NYSGRC Target 029677. A8H0C8 A8H0C8 1.86 X-RAY DIFFRACTION 30 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 159 161 4lyy-a1-m1-cC_4lyy-a1-m1-cA HTTEVITAEEIDQKLDILAEQINAHYADSDRLLVGLLKGSVVFADLCRRIKGHVEIDFSVSSRDVKILKDVQSEIQGRDVLIVEDLIDSGNTLNKVRDLLLREPKSLALCTLLDKPERREVDVPVDFIGFTIPDEFIVGYGIDYAEQYRNLPYIAKVVP KHTTEVITAEEIDQKLDILAEQINAHYADSDRLLVGLLKGSVVFADLCRRIKGHVEIDFSVSSYRDVKILKDVQSEIQGRDVLIVEDLIDSGNTLNKVRDLLLREPKSLALCTLLDKPERREVDVPVDFIGFTIPDEFIVGYGIDYAEQYRNLPYIAKVVP 4lyy-a1-m1-cC_4lyy-a1-m1-cD Crystal structure of hypoxanthine phosphoribosyltransferase from Shewanella pealeana ATCC 700345, NYSGRC Target 029677. A8H0C8 A8H0C8 1.86 X-RAY DIFFRACTION 67 1.0 398579 (Shewanella pealeana ATCC 700345) 398579 (Shewanella pealeana ATCC 700345) 159 161 4lyy-a1-m1-cB_4lyy-a1-m1-cA KHTTEVITAEEIDQKLDILAEQINAHYADSDRLLVGLLKGSVVFADLCRRIKGHVEIDFSVSSRDVKILKDVQSEIQGRDVLIVEDLIDSGNTLNKVRDLLLREPKSLALCTLLDKPERREVDVPVDFIGFTIPDEFIVGYGIDYAEQYRNLPYIAKVV KHTTEVITAEEIDQKLDILAEQINAHYADSDRLLVGLLKGSVVFADLCRRIKGHVEIDFSVSSYRDVKILKDVQSEIQGRDVLIVEDLIDSGNTLNKVRDLLLREPKSLALCTLLDKPERREVDVPVDFIGFTIPDEFIVGYGIDYAEQYRNLPYIAKVVP 4lza-a1-m1-cA_4lza-a1-m1-cB Crystal structure of adenine phosphoribosyltransferase from Thermoanaerobacter pseudethanolicus ATCC 33223, NYSGRC Target 029700. B0K969 B0K969 1.84 X-RAY DIFFRACTION 114 1.0 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 165 169 TLEEIKIREIPDFPKKGIKFKDITPVLKDAKAFNYSIELAKALEGRKFDLIAAPEARGFLFGAPLAYRLGVGFVPVRKPGKLPAETLSYEYETDSLEIHKDAVLEGQRVVIVDDLLATGGTIYASAKLVESLGGIVDSIIFLTELTFLDGRKKLDGYDIISLIKF TLEEIKIREIPDFPKKGIKFKDITPVLKDAKAFNYSIELAKALEGRKFDLIAAPEARGFLFGAPLAYRLGVGFVPVRKPGKLPAETLSYEYELEYGTDSLEIHKDAVLEGQRVVIVDDLLATGGTIYASAKLVESLGGIVDSIIFLTELTFLDGRKKLDGYDIISLIKF 4lzk-a1-m1-cD_4lzk-a1-m1-cA Crystal structure of inclusion body protein (PixA pfam12306) from Burkholderia cenocepacia J2315 B4EII9 B4EII9 1.89 X-RAY DIFFRACTION 54 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 156 157 4lzk-a1-m1-cA_4lzk-a1-m1-cB 4lzk-a1-m1-cD_4lzk-a1-m1-cB 4lzk-a1-m1-cE_4lzk-a1-m1-cC 4lzk-a1-m1-cE_4lzk-a1-m1-cF 4lzk-a1-m1-cF_4lzk-a1-m1-cC SINLEKAAQSIQILAVIDTNYIKRSHPNPSLNAQNPTSIPSTALFLNGHAPGVSSSEGNGNLGLKLNVGDKVSLGTSLADNSGDAALIYHVQQYSGAQVFAPFTAVTIEQVFQAFESVAKSAGSEYLATSFALYTRSQNRKSLFGYFFWVWQAAAA SINLEKAAQSIQILAVIDTNYIKRSHPNPSLNAQNPTSIPSTALFLNGHAPGVSSSEGNGNLGLKLNVGDKVSLGTSLADNSGDAALIYHVQQYSGAQVFAPFTAVTIEQQVFQAFESVAKSAGSEYLATSFALYTRSQNRKSLFGYFFWVWQAAAA 4lzk-a1-m1-cE_4lzk-a1-m1-cD Crystal structure of inclusion body protein (PixA pfam12306) from Burkholderia cenocepacia J2315 B4EII9 B4EII9 1.89 X-RAY DIFFRACTION 79 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 155 156 4lzk-a1-m1-cA_4lzk-a1-m1-cC 4lzk-a1-m1-cF_4lzk-a1-m1-cB INLEKAAQSIQILAVIDTNYIKRSHPNPSLNAQNPTSIPSTALFLNGHAPGVSSSEGNGNLGLKLNVGDKVSLGTSLADNSGDAALIYHVQQYSGAQVFAPFTAVTIEQVFQAFESVAKSAGSEYLATSFALYTRSQNRKSLFGYFFWVWQAAAA SINLEKAAQSIQILAVIDTNYIKRSHPNPSLNAQNPTSIPSTALFLNGHAPGVSSSEGNGNLGLKLNVGDKVSLGTSLADNSGDAALIYHVQQYSGAQVFAPFTAVTIEQVFQAFESVAKSAGSEYLATSFALYTRSQNRKSLFGYFFWVWQAAAA 4lzp-a2-m1-cD_4lzp-a2-m1-cC Structure of the TIR domain of the immunosuppressor BtpA from Brucella C0RGW8 C0RGW8 3.15 X-RAY DIFFRACTION 73 0.992 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 130 163 4lqc-a1-m1-cA_4lqc-a1-m1-cB 4lzp-a1-m1-cB_4lzp-a1-m1-cA EEEYDFFISHASEDKEAFVQDLVAALRDLGAKIFYDAYTLKVGDSLRRKIDQGLANSKFGIVVLSEHFFSKQWPARELDGLTAQTRILPIWHKVSYDEVRRFSPSLADKVALNTSLKSVEEIAKELHSLI QAVKKVAQEQKRLSDERTKHEAFIKQSLSSMRTTEEEYDFFISHASEDKEAFVQDLVAALRDLGAKIFYDAYTLKVGDSLRRKIDQGLANSKFGIVVLSEHFFSKQWPARELDGLTQTRILPIWHKVSYDEVRRFSPSLADKVALNTSLKSVEEIAKELHSLI 4m03-a1-m1-cA_4m03-a1-m2-cA C-terminal fragment(residues 576-751) of binding region of SraP Q2FUW1 Q2FUW1 2.24 X-RAY DIFFRACTION 81 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 165 165 TVTVGNQTIEVGKTMNPIVLTTVTNTVTGLPSGLSYDSATNSIIGTPTKIGQSTVTVVSTDQANNKSTTTFTINVVDTTAPTVTPIGDQSSEVYSPISPIKIATQDNSGNAVTNTVTGLPSGLTFDSTNNTISGTPTNIGTSTISIVSTDASGNKTTTTFKYEVT TVTVGNQTIEVGKTMNPIVLTTVTNTVTGLPSGLSYDSATNSIIGTPTKIGQSTVTVVSTDQANNKSTTTFTINVVDTTAPTVTPIGDQSSEVYSPISPIKIATQDNSGNAVTNTVTGLPSGLTFDSTNNTISGTPTNIGTSTISIVSTDASGNKTTTTFKYEVT 4m0k-a2-m1-cC_4m0k-a2-m1-cD Crystal structure of adenine phosphoribosyltransferase from Rhodothermus marinus DSM 4252, NYSGRC Target 029775. D0MGF4 D0MGF4 1.4 X-RAY DIFFRACTION 101 1.0 518766 (Rhodothermus marinus DSM 4252) 518766 (Rhodothermus marinus DSM 4252) 174 174 4m0k-a1-m1-cA_4m0k-a1-m1-cB NATALETLKQAIRTVPDFPEPGIQFKDITPVLGHPELLRLAIEALLEPFQEQEITKVVGIESRGFILGGLAHHLDAGFVPVRKKGKLPYQTLAESYQLEYGTDTIEHIDAIEPGDRVLIHDDVIATGGTAEATIRLVERAGGEVVGCAFLIELTGLQGRKRLPAHVPVHTVLQL NATALETLKQAIRTVPDFPEPGIQFKDITPVLGHPELLRLAIEALLEPFQEQEITKVVGIESRGFILGGLAHHLDAGFVPVRKKGKLPYQTLAESYQLEYGTDTIEHIDAIEPGDRVLIHDDVIATGGTAEATIRLVERAGGEVVGCAFLIELTGLQGRKRLPAHVPVHTVLQL 4m0q-a1-m1-cA_4m0q-a1-m1-cB Ebola virus VP24 structure Q05322 Q05322 1.921 X-RAY DIFFRACTION 80 1.0 186538 (Zaire ebolavirus) 186538 (Zaire ebolavirus) 222 222 MISPKKDLEKGVVLSDLCNFLVSQTIQGWKVYWAGIEFDVTHKGMALLHRLKTNDFAPAWSMTRNLFPHLFQNPNSTIESPLWALRVILAAGIQDQLIDQSLIEPLAGALGLISDWLLTTNTNHFNMRTQRVKEQLSLKMLSLIRSNILKFINKLDALHVVNYNGLLSSIEIGTQNHTIIITRTNMGFLVELQEPDKSAMNRMKPGPAKFSLLHESTLKAFT MISPKKDLEKGVVLSDLCNFLVSQTIQGWKVYWAGIEFDVTHKGMALLHRLKTNDFAPAWSMTRNLFPHLFQNPNSTIESPLWALRVILAAGIQDQLIDQSLIEPLAGALGLISDWLLTTNTNHFNMRTQRVKEQLSLKMLSLIRSNILKFINKLDALHVVNYNGLLSSIEIGTQNHTIIITRTNMGFLVELQEPDKSAMNRMKPGPAKFSLLHESTLKAFT 4m1p-a1-m3-cA_4m1p-a1-m4-cA Crystal structure of the copper-sensing repressor CsoR with Cu(I) from Geobacillus thermodenitrificans NG80-2 A4INJ9 A4INJ9 2.564 X-RAY DIFFRACTION 116 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 96 96 4m1p-a1-m1-cA_4m1p-a1-m2-cA VLHGTMIPRTKEEIENIMKRLKRIEGQVRGVQKMVEDNRYCIDILVQISAIQAALRQVGMQLLERHANHCVAKAIREGSGEQSLRELMDVIKQFAK VLHGTMIPRTKEEIENIMKRLKRIEGQVRGVQKMVEDNRYCIDILVQISAIQAALRQVGMQLLERHANHCVAKAIREGSGEQSLRELMDVIKQFAK 4m1p-a2-m12-cA_4m1p-a2-m9-cA Crystal structure of the copper-sensing repressor CsoR with Cu(I) from Geobacillus thermodenitrificans NG80-2 A4INJ9 A4INJ9 2.564 X-RAY DIFFRACTION 40 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 96 96 4m1p-a1-m1-cA_4m1p-a1-m3-cA 4m1p-a1-m2-cA_4m1p-a1-m4-cA 4m1p-a2-m10-cA_4m1p-a2-m6-cA 4m1p-a2-m11-cA_4m1p-a2-m5-cA 4m1p-a2-m13-cA_4m1p-a2-m8-cA 4m1p-a2-m14-cA_4m1p-a2-m7-cA 4m1p-a2-m1-cA_4m1p-a2-m3-cA VLHGTMIPRTKEEIENIMKRLKRIEGQVRGVQKMVEDNRYCIDILVQISAIQAALRQVGMQLLERHANHCVAKAIREGSGEQSLRELMDVIKQFAK VLHGTMIPRTKEEIENIMKRLKRIEGQVRGVQKMVEDNRYCIDILVQISAIQAALRQVGMQLLERHANHCVAKAIREGSGEQSLRELMDVIKQFAK 4m1q-a1-m1-cA_4m1q-a1-m2-cA Crystal structure of L-lactate dehydrogenase from Bacillus selenitireducens MLS10, NYSGRC Target 029814. D6XW60 D6XW60 1.6 X-RAY DIFFRACTION 11 1.0 439292 ([Bacillus] selenitireducens MLS10) 439292 ([Bacillus] selenitireducens MLS10) 302 302 TKTSRVVIIGTGAVGSSYAFSINQNVTDEVLIDLDKRKTEGDADLNHGIPFGAPTKVWAGDYGDCKSADIVVITAGAAQKPGETRLDLVEKNANIFKGIVDQVGSGFNGIFIIATNPVDVLAYATWKFSGLPKERVIGSGTILDTARFRFLLSEYFDIDVRNIHGYIGEHGDTELPVWSQTRIGSEPISRYDKYKPDGSNKDLDEIFVNVRDAAYHIIERKGATHYAIAGLARLTKAILRNEQSILTVSTLEGEYDLDDVYIGVPAIVSQKGVERAIEIDLNDEEKKLHHSSNTLKDVKPIF TKTSRVVIIGTGAVGSSYAFSINQNVTDEVLIDLDKRKTEGDADLNHGIPFGAPTKVWAGDYGDCKSADIVVITAGAAQKPGETRLDLVEKNANIFKGIVDQVGSGFNGIFIIATNPVDVLAYATWKFSGLPKERVIGSGTILDTARFRFLLSEYFDIDVRNIHGYIGEHGDTELPVWSQTRIGSEPISRYDKYKPDGSNKDLDEIFVNVRDAAYHIIERKGATHYAIAGLARLTKAILRNEQSILTVSTLEGEYDLDDVYIGVPAIVSQKGVERAIEIDLNDEEKKLHHSSNTLKDVKPIF 4m1q-a1-m2-cB_4m1q-a1-m1-cA Crystal structure of L-lactate dehydrogenase from Bacillus selenitireducens MLS10, NYSGRC Target 029814. D6XW60 D6XW60 1.6 X-RAY DIFFRACTION 96 0.997 439292 ([Bacillus] selenitireducens MLS10) 439292 ([Bacillus] selenitireducens MLS10) 299 302 4m1q-a1-m1-cB_4m1q-a1-m2-cA KTSRVVIIGTGAVGSSYAFSINQNVTDEVLIDLDKRKTEGDADLNHGIPFGAPTKVWAGDYGDCKSADIVVITAGAAGETRLDLVEKNANIFKGIVDQVGSGFNGIFIIATNPVDVLAYATWKFSGLPKERVIGSGTILDTARFRFLLSEYFDIDVRNIHGYIGEHGDTELPVWSQTRIGSEPISRYDKYKPDGSNKDLDEIFVNVRDAAYHIIERKGATHYAIAGLARLTKAILRNEQSILTVSTLEGEYDLDDVYIGVPAIVSQKGVERAIEIDLNDEEKKLHHSSNTLKDVKPIFD TKTSRVVIIGTGAVGSSYAFSINQNVTDEVLIDLDKRKTEGDADLNHGIPFGAPTKVWAGDYGDCKSADIVVITAGAAQKPGETRLDLVEKNANIFKGIVDQVGSGFNGIFIIATNPVDVLAYATWKFSGLPKERVIGSGTILDTARFRFLLSEYFDIDVRNIHGYIGEHGDTELPVWSQTRIGSEPISRYDKYKPDGSNKDLDEIFVNVRDAAYHIIERKGATHYAIAGLARLTKAILRNEQSILTVSTLEGEYDLDDVYIGVPAIVSQKGVERAIEIDLNDEEKKLHHSSNTLKDVKPIF 4m1q-a1-m2-cB_4m1q-a1-m2-cA Crystal structure of L-lactate dehydrogenase from Bacillus selenitireducens MLS10, NYSGRC Target 029814. D6XW60 D6XW60 1.6 X-RAY DIFFRACTION 68 0.997 439292 ([Bacillus] selenitireducens MLS10) 439292 ([Bacillus] selenitireducens MLS10) 299 302 4m1q-a1-m1-cB_4m1q-a1-m1-cA KTSRVVIIGTGAVGSSYAFSINQNVTDEVLIDLDKRKTEGDADLNHGIPFGAPTKVWAGDYGDCKSADIVVITAGAAGETRLDLVEKNANIFKGIVDQVGSGFNGIFIIATNPVDVLAYATWKFSGLPKERVIGSGTILDTARFRFLLSEYFDIDVRNIHGYIGEHGDTELPVWSQTRIGSEPISRYDKYKPDGSNKDLDEIFVNVRDAAYHIIERKGATHYAIAGLARLTKAILRNEQSILTVSTLEGEYDLDDVYIGVPAIVSQKGVERAIEIDLNDEEKKLHHSSNTLKDVKPIFD TKTSRVVIIGTGAVGSSYAFSINQNVTDEVLIDLDKRKTEGDADLNHGIPFGAPTKVWAGDYGDCKSADIVVITAGAAQKPGETRLDLVEKNANIFKGIVDQVGSGFNGIFIIATNPVDVLAYATWKFSGLPKERVIGSGTILDTARFRFLLSEYFDIDVRNIHGYIGEHGDTELPVWSQTRIGSEPISRYDKYKPDGSNKDLDEIFVNVRDAAYHIIERKGATHYAIAGLARLTKAILRNEQSILTVSTLEGEYDLDDVYIGVPAIVSQKGVERAIEIDLNDEEKKLHHSSNTLKDVKPIF 4m28-a2-m1-cA_4m28-a2-m2-cA UDP-Glucose Pyrophosphorylase from Leishmania major in complex with UTP analog dUpCpp Q4QDU3 Q4QDU3 3 X-RAY DIFFRACTION 106 1.0 5664 (Leishmania major) 5664 (Leishmania major) 483 483 KSLSAAAQACVKKMRDAKVNEACIRTFIAQHVMVSKGETGSIPDSAIMPVDSLDALDSLTIECDNAVLQSTVVLKLNGGLGTGMGLCDAKTLLEVKDGKTFLDFTALQVQYLRQHCSEHLRFMLMDSFNTSASTKSFLKARYPWLYQVFDSEVELMQNQVPKILQDTLEPAAWAENPAYEWAPPGHGDIYTALYGSGKLQELVEQGYRYMFVSNGDNLGATIDKRVLAYMEKEKIDFLMEVCRRTESDKKGGHLARQTVYVKGKDGQPDAEKRVLLLRESAQCPKADMESFQDINKYSFFNTNNLWIRLPVLLETMQEHGGTLPLPVIRNEKTVDSSNSASPKVYQLETAMGAAIAMFESASAIVVPRSRFAPVKTCADLLALRSDAYVVTDDFRLVLDDRCHGHPPVVDLDSAHYKMMNGFEKLVQHGVPSLVECKRVTVKGLVQFGAGNVLTGTVTIENTDSASAFVIPDGAKLNDTTASP KSLSAAAQACVKKMRDAKVNEACIRTFIAQHVMVSKGETGSIPDSAIMPVDSLDALDSLTIECDNAVLQSTVVLKLNGGLGTGMGLCDAKTLLEVKDGKTFLDFTALQVQYLRQHCSEHLRFMLMDSFNTSASTKSFLKARYPWLYQVFDSEVELMQNQVPKILQDTLEPAAWAENPAYEWAPPGHGDIYTALYGSGKLQELVEQGYRYMFVSNGDNLGATIDKRVLAYMEKEKIDFLMEVCRRTESDKKGGHLARQTVYVKGKDGQPDAEKRVLLLRESAQCPKADMESFQDINKYSFFNTNNLWIRLPVLLETMQEHGGTLPLPVIRNEKTVDSSNSASPKVYQLETAMGAAIAMFESASAIVVPRSRFAPVKTCADLLALRSDAYVVTDDFRLVLDDRCHGHPPVVDLDSAHYKMMNGFEKLVQHGVPSLVECKRVTVKGLVQFGAGNVLTGTVTIENTDSASAFVIPDGAKLNDTTASP 4m2k-a1-m1-cA_4m2k-a1-m2-cA Crystal structure of PLP-dependent cyclase OrfR in complex with PLP G9MBV4 G9MBV4 2 X-RAY DIFFRACTION 234 1.0 58340 (Streptomyces lavendulae subsp. lavendulae) 58340 (Streptomyces lavendulae subsp. lavendulae) 382 382 4m2j-a1-m1-cA_4m2j-a1-m2-cA 4m2m-a1-m1-cA_4m2m-a1-m2-cA SSLRPRREDPPVLEEWYRRHLGPDIHDISSSGVHPYSFAEIRDVCRIPAADLDAVVMDDSVSQGGEGVRRAIADRYAGGDADRVLVTHGSSEAIALTLNALLHRGDRVVVQEGIYHSLGHYPRAAGCDVAVLPGRAVRDGEIDPDVLAGLVTPGTAAVIVNFPHNPTGVTLSPQGLRALKERTAATGAVLVWDAATAEIAHRWEVLADPGADGGDTVSYGTLSKTFGLPGLRVGWAVAPKELLTATFPLRDRTTLFLSPLVELVAERAVRHADELIGARAAEARHNLAHLTGWMAAHEELVRWTPPEGGVCALPVFRELERAAAGPQEVERFCLELLERHRTLLVPGTAFGAPHGARLGFGGPQEDFRAGLDGLSRFLRERA SSLRPRREDPPVLEEWYRRHLGPDIHDISSSGVHPYSFAEIRDVCRIPAADLDAVVMDDSVSQGGEGVRRAIADRYAGGDADRVLVTHGSSEAIALTLNALLHRGDRVVVQEGIYHSLGHYPRAAGCDVAVLPGRAVRDGEIDPDVLAGLVTPGTAAVIVNFPHNPTGVTLSPQGLRALKERTAATGAVLVWDAATAEIAHRWEVLADPGADGGDTVSYGTLSKTFGLPGLRVGWAVAPKELLTATFPLRDRTTLFLSPLVELVAERAVRHADELIGARAAEARHNLAHLTGWMAAHEELVRWTPPEGGVCALPVFRELERAAAGPQEVERFCLELLERHRTLLVPGTAFGAPHGARLGFGGPQEDFRAGLDGLSRFLRERA 4m30-a1-m1-cB_4m30-a1-m1-cA Crystal structure of RNASE III complexed with double-stranded RNA AND AMP (TYPE II CLEAVAGE) O67082 O67082 2.501 X-RAY DIFFRACTION 68 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 218 220 2ez6-a1-m1-cA_2ez6-a1-m1-cB 2nuf-a1-m1-cA_2nuf-a1-m1-cB 2nug-a1-m1-cA_2nug-a1-m1-cB 4m2z-a1-m1-cB_4m2z-a1-m1-cA MLEQLEKKLGYTFKDKSLLEKALTHVSYSKKEHYETLEFLGDALVNFFIVDLLVQYSPNKREGFLSPLKAYLISEEFFNLLAQKLELHKFIRIKRGKINETIIGDVFEALWAAVYIDSGRDANFTRELFYKLFKEDILSAIKEGRVKKDYKTILQEITQKRWKERPEYRLISVEGPHHKKKFIVEAKIKEYRTLGEGKSKKEAEQRAAEELIKLLEES KMLEQLEKKLGYTFKDKSLLEKALTHVSYSKKEHYETLEFLGDALVNFFIVDLLVQYSPNKREGFLSPLKAYLISEEFFNLLAQKLELHKFIRIKRGKINETIIGDVFEALWAAVYIDSGRDANFTRELFYKLFKEDILSAIKEGRVKKDYKTILQEITQKRWKERPEYRLISVEGPHHKKKFIVEAKIKEYRTLGEGKSKKEAEQRAAEELIKLLEESE 4m3c-a2-m1-cE_4m3c-a2-m1-cG Structure of a binary complex between homologous tetrameric legume lectins from Butea monosperma and Spatholobus parviflorus seeds P86352 P86352 2.5 X-RAY DIFFRACTION 16 1.0 132465 (Spatholobus parviflorus) 132465 (Spatholobus parviflorus) 249 249 AEETSFVFSKFKPLEPNLILQGDALVTVAGVLQLTNVDKNGVPEPSSLGRATYSAPINIWDSATGLVASFATSFRFTIYAPNIATIADGLAFFLAPVASAPDSGGGFLGLFDSAVSGSTYQTVAVEFDTYENTVFTDPPYTHIGFDVNSISSIKTVKWSLANGEAAKVLITYNSAVKLLVASLVYPSSKTSFILADIVDLSSVLPEWVRVGFSAATGASGGKIETHDVFSWSFASKLAGTKDSSFLDGG AEETSFVFSKFKPLEPNLILQGDALVTVAGVLQLTNVDKNGVPEPSSLGRATYSAPINIWDSATGLVASFATSFRFTIYAPNIATIADGLAFFLAPVASAPDSGGGFLGLFDSAVSGSTYQTVAVEFDTYENTVFTDPPYTHIGFDVNSISSIKTVKWSLANGEAAKVLITYNSAVKLLVASLVYPSSKTSFILADIVDLSSVLPEWVRVGFSAATGASGGKIETHDVFSWSFASKLAGTKDSSFLDGG 4m3j-a3-m1-cA_4m3j-a3-m1-cB Structure of a single-domain camelid antibody fragment cAb-H7S specific of the BlaP beta-lactamase from Bacillus licheniformis 1.95 X-RAY DIFFRACTION 31 0.991 9844 (Lama glama) 9844 (Lama glama) 116 119 QVQLQESGGGLVQPGGSLRLSCAASGSISSITTMGWYRQGRELVALINSVGDTTYAGSVKGRFTISRDNAKNTVYLEMSSLKPEDTAVYYCNAFMSTNSGRTGSFWGQGTQVTVSS QVQLQESGGGLVQPGGSLRLSCAASGSISSITTMGWYRQDPGKGRELVALINSVGDTTYAGSVKGRFTISRDNAKNTVYLEMSSLKPEDTAVYYCNAFMSTNSGRTGSFWGQGTQVTVS 4m3l-a1-m1-cD_4m3l-a1-m1-cA Crystal Structure of the coiled coil domain of MuRF1 Q969Q1 Q969Q1 2.1 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 60 4m3l-a1-m1-cC_4m3l-a1-m1-cB TLYAILDEKKSELLQRITQEQEEKLSFIEALIQQYQEQLDKSTKLVETAIQSL GAMDTLYAILDEKKSELLQRITQEQEEKLSFIEALIQQYQEQLDKSTKLVETAIQSLDEP 4m3l-a1-m1-cD_4m3l-a1-m1-cB Crystal Structure of the coiled coil domain of MuRF1 Q969Q1 Q969Q1 2.1 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 58 4m3l-a1-m1-cC_4m3l-a1-m1-cA TLYAILDEKKSELLQRITQEQEEKLSFIEALIQQYQEQLDKSTKLVETAIQSL GAMDTLYAILDEKKSELLQRITQEQEEKLSFIEALIQQYQEQLDKSTKLVETAIQSLD 4m3l-a1-m1-cD_4m3l-a1-m1-cC Crystal Structure of the coiled coil domain of MuRF1 Q969Q1 Q969Q1 2.1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 57 4m3l-a1-m1-cB_4m3l-a1-m1-cA TLYAILDEKKSELLQRITQEQEEKLSFIEALIQQYQEQLDKSTKLVETAIQSL AMDTLYAILDEKKSELLQRITQEQEEKLSFIEALIQQYQEQLDKSTKLVETAIQSLD 4m3p-a1-m1-cD_4m3p-a1-m1-cB Betaine-Homocysteine S-Methyltransferase from Homo sapiens complexed with Homocysteine Q93088 Q93088 1.895 X-RAY DIFFRACTION 22 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 371 373 1lt8-a1-m1-cB_1lt8-a1-m2-cB 8d45-a1-m1-cA_8d45-a1-m1-cC 8d45-a1-m1-cB_8d45-a1-m1-cD KKGILERLNAGEIVIGDGGFVFALEKRGYVKAGPWTPEAAVEHPEAVRQLHREFLRAGSNVMQTFTFYSGQEVNEAACDIARQVADEGDALVAGGVSQTPSYLSCKSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMCIGPEGDLHGVPPGECAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDCNKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPASEKHGSWGSGLDMHTKPWVRARARKEYWENLRIASGRPYNPSMSKPDGWAELMQQKEATTEQQLKELFEKQKF KAKKGILERLNAGEIVIGDGGFVFALEKRGYVKAGPWTPEAAVEHPEAVRQLHREFLRAGSNVMQTFTFYSGQEVNEAACDIARQVADEGDALVAGGVSQTPSETEVKKVFLQQLEVFMKKNVDFLIAEYFEHVEEAVWAVETLIASGKPVAATMCIGPEGDLHGVPPGECAVRLVKAGASIIGVNCHFDPTISLKTVKLMKEGLEAAQLKAHLMSQPLAYHTPDCNKQGFIDLPEFPFGLEPRVATRWDIQKYAREAYNLGVRYIGGCCGFEPYHIRAIAEELAPERGFLPPASEKHGSWGSGLDMHTKPWVRARARKEYWENLRIASGRPYNPSMSKPDGWGVTKGTAELMQQKEATTEQQLKELFEKQKF 4m4g-a1-m1-cA_4m4g-a1-m2-cA Crystal structure of ligand binding domain of CysB, a LysR member from Salmonella typhimurium LT2 in complex with effector ligand, N-acetylserine. P06614 P06614 2.7 X-RAY DIFFRACTION 96 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 239 239 4gwo-a1-m1-cA_4gwo-a1-m1-cB 4gxa-a1-m1-cA_4gxa-a1-m1-cB 4lon-a1-m1-cB_4lon-a1-m2-cB 4lp2-a1-m1-cB_4lp2-a1-m2-cB 4lq2-a1-m1-cA_4lq2-a1-m2-cA 4lq5-a1-m1-cA_4lq5-a1-m2-cA EHTWPDKGSLYIATTHTQARYALPGVIKGFIERYPRVSLHMHQGSPTQIAEAVSKGNADFAIATEALHLYDDLVMLPCYHWNRSIVVTPDHPLAATSSVTIEALAQYPLVTYTFGFTGRSELDTAFNRAGLTPRIVFTATDADVIKTYVRLGLGVGVIASMAVDPLADPDLVRIDAHDIFSHSTTKIGFRRSTFLRSYMYDFIQRFAPHLTRDVVDTAVALRSNEEIEAMFQDIKLPEK EHTWPDKGSLYIATTHTQARYALPGVIKGFIERYPRVSLHMHQGSPTQIAEAVSKGNADFAIATEALHLYDDLVMLPCYHWNRSIVVTPDHPLAATSSVTIEALAQYPLVTYTFGFTGRSELDTAFNRAGLTPRIVFTATDADVIKTYVRLGLGVGVIASMAVDPLADPDLVRIDAHDIFSHSTTKIGFRRSTFLRSYMYDFIQRFAPHLTRDVVDTAVALRSNEEIEAMFQDIKLPEK 4m4w-a1-m1-cB_4m4w-a1-m1-cD Mechanistic implications for the bacterial primosome assembly of the structure of a helicase-helicase loader complex Q9X4C9 Q9X4C9 6.1 X-RAY DIFFRACTION 10 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 358 358 EAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQEVSEISRSLKALARELEVPVIALSQLRPMMSDIRESGSIEQDADIVAFLYEIIIAKQRNGPVGTVQLAFIKEYNKFVNL EAEQAVLGAVFLDPAALVPASEILIPEDFYRAAHQKIFHAMLRVADRGEPVDLVTVTAELAASEQLEEIGGVSYLSELADAVPTAANVEYYARIVEEKSVLRRLIRTATSIAQDGYTREDEIDVLLDEADRKIMEITGIPTGFTELDRMTSGFQRSDLIIVAARPSVGKTAFALNIAQNVATKTNENVAIFSLEMSAQQLVMRMLCAEGNINAQNLRTGKLTPEDWGKLTMAMGSLSNAGIYIDDTPSIRVSDIRAKCRRLKQESGLGMIVIDYLQLIQEVSEISRSLKALARELEVPVIALSQLRPMMSDIRESGSIEQDADIVAFLYEIIIAKQRNGPVGTVQLAFIKEYNKFVNL 4m4x-a1-m1-cB_4m4x-a1-m1-cA Structure and Dimerization Properties of the Aryl Hydrocarbon Receptor (AHR) PAS-A Domain P30561 P30561 2.551 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 111 126 SMLQEGEFLLQALNGFVLVVTADALVFYASSTIQDYLGFQQSDVIHQSVYELIHTEDRAEFQRQLHWALASFMERCFRCRLRCLLGFLAMNFQGRLKYPPQLALFAIATPL GSMLQEGEFLLQALNGFVLVVTADALVFYASSTIQDYLGFQQSDVIHQSVYELIHTEDRAEFQRQLHWALNPDNASFMERCFRCRLRCLLDNSSGFLAMNFQGRLKYLHGQNLPPQLALFAIATPL 4m51-a1-m1-cA_4m51-a1-m2-cA Crystal structure of amidohydrolase nis_0429 (ser145ala mutant) from nitratiruptor sp. sb155-2 A6Q234 A6Q234 1.08 X-RAY DIFFRACTION 106 1.0 387092 (Nitratiruptor sp. SB155-2) 387092 (Nitratiruptor sp. SB155-2) 402 402 3v7p-a1-m1-cA_3v7p-a1-m2-cA MRIIKPFAILTPQTIIQDKAVAFDKKIEAIDTVENLIKKYPNAAVEHDENSLLLPGFANPHLHLEFSANKATLQYGDFIPWLYSVIRHREDLLPLCDGACLEQTLSSIIQTGTTAIGAISSYGEDLQACIDSALKVVYFNEVIGANAATADVMYASFLERFHQSKKHENERFKAAVAIHSPYSVHYILAKRALDIAKKYGSLVSVHFMESRAEREWLDKGSGEFAKFFKEFLNQTRPVNDTKSFLELFKELHTLFVHMVWANEEEIQTIASYNAHIIHCPISNRLLGNGVLDLEKIKSIPYAIATDGLSSNYSLNMYEELKAALFVHPNKEATTFAKELIIRATKAGYDALGFEGGEIAVGKDADMQLIDLPEGLTNVEDLYLHVILHTTKPKKVYIQGEEH MRIIKPFAILTPQTIIQDKAVAFDKKIEAIDTVENLIKKYPNAAVEHDENSLLLPGFANPHLHLEFSANKATLQYGDFIPWLYSVIRHREDLLPLCDGACLEQTLSSIIQTGTTAIGAISSYGEDLQACIDSALKVVYFNEVIGANAATADVMYASFLERFHQSKKHENERFKAAVAIHSPYSVHYILAKRALDIAKKYGSLVSVHFMESRAEREWLDKGSGEFAKFFKEFLNQTRPVNDTKSFLELFKELHTLFVHMVWANEEEIQTIASYNAHIIHCPISNRLLGNGVLDLEKIKSIPYAIATDGLSSNYSLNMYEELKAALFVHPNKEATTFAKELIIRATKAGYDALGFEGGEIAVGKDADMQLIDLPEGLTNVEDLYLHVILHTTKPKKVYIQGEEH 4m57-a1-m1-cA_4m57-a1-m2-cA Crystal structure of the pentatricopeptide repeat protein PPR10 from maize B8Y6I0 B8Y6I0 2.86 X-RAY DIFFRACTION 214 1.0 4577 (Zea mays) 4577 (Zea mays) 674 674 HSFLSPDAQVLVLAISSHPLPTLAAFLASRRDELLRADITSLLKALELSGHWEWALALLRWAGKEGAADASALEVVRALGREGQHDAVCALLDETPLPPGSRLDVRAYTTVLHALSRAGRYERALELFAELRRQGVAPTLVTYNVVLDVYGRGRSWPRIVALLDERAAGVEPDGFTASTVIAACSRDGLVDEAVAFFEDLKARGHAPSVVTYNALLQVFGKAGNYTEALRVLGEEQNGCQPDAVTYNELAGTYARAGFFEEAARCLDTASKGLLPNAFTYNTVTAYGNVGKVDEALALFDQKKTGFVPNVNTYNLVLGLGKKSRFTVLELGESRSGCTPNRVTWNTLAVSGKRGEDYVTRVLEGRSSGVELSRDTYNTLIAAYGRCGSRTNAFKYNETSAGFTPCITTYNALLNVLSRQGDWSTAQSIVSKRTKGFKPNEQSYSLLLQCYAKGGNVAGIAAIENEVYGPSWVILRTLVIANFKCRRLDGETAFQEVKARGYNPDLVIFNSLSIYAKNGYSKATEVFDSIKRSGLSPDLITYNSLDYAKCSESWEAEKILNQLKCSQTKPDVVSYNTVINGFCKQGLVKEAQRVLSEVADGAPCAVTYHTLVGGYSSLEFSEAREVIGYVQHGLKPELTYRRVVESYCRAKRFEEARGFLSEVKALEAYIEDAQF HSFLSPDAQVLVLAISSHPLPTLAAFLASRRDELLRADITSLLKALELSGHWEWALALLRWAGKEGAADASALEVVRALGREGQHDAVCALLDETPLPPGSRLDVRAYTTVLHALSRAGRYERALELFAELRRQGVAPTLVTYNVVLDVYGRGRSWPRIVALLDERAAGVEPDGFTASTVIAACSRDGLVDEAVAFFEDLKARGHAPSVVTYNALLQVFGKAGNYTEALRVLGEEQNGCQPDAVTYNELAGTYARAGFFEEAARCLDTASKGLLPNAFTYNTVTAYGNVGKVDEALALFDQKKTGFVPNVNTYNLVLGLGKKSRFTVLELGESRSGCTPNRVTWNTLAVSGKRGEDYVTRVLEGRSSGVELSRDTYNTLIAAYGRCGSRTNAFKYNETSAGFTPCITTYNALLNVLSRQGDWSTAQSIVSKRTKGFKPNEQSYSLLLQCYAKGGNVAGIAAIENEVYGPSWVILRTLVIANFKCRRLDGETAFQEVKARGYNPDLVIFNSLSIYAKNGYSKATEVFDSIKRSGLSPDLITYNSLDYAKCSESWEAEKILNQLKCSQTKPDVVSYNTVINGFCKQGLVKEAQRVLSEVADGAPCAVTYHTLVGGYSSLEFSEAREVIGYVQHGLKPELTYRRVVESYCRAKRFEEARGFLSEVKALEAYIEDAQF 4m59-a1-m1-cB_4m59-a1-m1-cA Crystal structure of the pentatricopeptide repeat protein PPR10 in complex with an 18-nt psaJ RNA element B8Y6I0 B8Y6I0 2.46 X-RAY DIFFRACTION 194 0.981 4577 (Zea mays) 4577 (Zea mays) 683 687 4oe1-a1-m1-cB_4oe1-a1-m1-cA LSPDAQVLVLAISSHPLPTLAAFLASRRDELLRADITSLLKALELSGHWEWALALLRWAGKEGAADASALEMVVRALGREGQHDAVCALLDETPLPPGSRLDVRAYTTVLHALSRAGRYERALELFAELRRQGVAPTLVTYNVVLDVYGRMGRSWPRIVALLDEMRAAGVEPDGFTASTVIAACSRDGLVDEAVAFFEDLKARGHAPSVVTYNALLQVFGKAEALRVLGEMEQNGPDAVTYNELAGTYARAGFFEEAARCLDTMAFTYNTVMTAYGNVGKVDEALALFDQMKKTGFVPNVNTYNLVLGMLGKKSRFTVMLEMLGEMSRSGCTPNRVTWNTMLAVSGKRGMEDYVTRVLEGMRSSGVELSRDTYNTLIAAYGRCGSRTNAFKMYNEMTSAGFTPCITTYNALLNVLSRQGDWSTAQSIVSKMRTKGFKPNEQSYSLLLQCYAKGGNVAGIAAIENEVYVFPSWVILRTLVIANFKCRRLDGMETAFQEVKARGYNPDLVIFNSMLSIYAKNGMYSKATEVFDSIKRSGLSPDLITYNSLMDMYAKCSESWEAEKILNQLKCSQTMKPDVVSYNTVINGFCKQGLVKEAQRVLSEMVADGMAPCAVTYHTLVGGYSSLEMFSEAREVIGYMVQHGLKPMELTYRRVVESYCRAKRFEEARGFLKALEAYIEDAQF PDAQVLVLAISSHPLPTLAAFLASRRDELLRADITSLLKALELSGHWEWALALLRWAGKEGAADASALEMVVRALGREGQHDAVCALLDETPLPPGSRLDVRAYTTVLHALSRAGRYERALELFAELRRQGVAPTLVTYNVVLDVYGRMGRSWPRIVALLDEMRAAGVEPDGFTASTVIAACSRDGLVDEAVAFFEDLKARGHAPSVVTYNALLQVFGKAGNYTEALRVLGEMEQNGCQPDAVTYNELAGTEEAARCLDTMASPNAFTYNTVMTAYGNVGKVDEALALFDQMKKTGFVPNVNTYNLVLGMLGKKSRFTVMLEMLGEMSRSGCTPNRVTWNTMLAVSGKRGMEDYVTRVLEGMRSSGVELSRDTYNTLIAAYGRCGSRTNAFKMYNEMTSAGFTPCITTYNALLNVLSRQGDWSTAQSIVSKMRTKGFKPNEQSYSLLLQCYAKGGNVAGIAAIENEVYGSGAVFPSWVILRTLVIANFKCRRLDGMETAFQEVKARGYNPDLVIFNSMLSIYAKNGMYSKATEVFDSIKRSGLSPDLITYNSLMDMYAKCSESWEAEKILNQLKCSQTMKPDVVSYNTVINGFCKQGLVKEAQRVLSEMVADGMAPCAVTYHTLVGGYSSLEMFSEAREVIGYMVQHGLKPMELTYRRVVESYCRAFEEARGFLSEVKALEAYIEDA 4m5p-a1-m1-cA_4m5p-a1-m2-cA OYE2.6 Y78W, I113C A3LT82 A3LT82 1.503 X-RAY DIFFRACTION 28 1.0 322104 (Scheffersomyces stipitis CBS 6054) 322104 (Scheffersomyces stipitis CBS 6054) 404 404 3upw-a1-m1-cA_3upw-a1-m2-cA 4df2-a1-m1-cA_4df2-a1-m2-cA SSVKISPLKDSEAFQSIKVGNNTLQTKIVYPPTTRFRALEDHTPSDLQLQYYGDRSTFPGTLLITEATFVSPQASGWEGAAPGIWTDKHAKAWKVITDKVHANGSFVSTQLCFLGRVADPAVMKTRGLNPVSASATYESDAAKEAAEAVGNPVRALTTQEVKDLVYEAYTNAAQKAMDAGFDYIELHAAHGYLLDQFLQPCTNQRTDEYGGSIENRARLILELIDHLSTIVGADKIGIRISPWATFQNMKAHKDTVHPLTTFSYLVHELQQRADKGQGIAYISVVEPRVSGNVDVSEEDQAGDNEFVSKIWKGVILKAGNYSYDAPEFKTLKEDIADKRTLVGFSRYFTSNPNLVWKLRDGIDLVPYDRNTFYSDNNYGYNTFSMDSEEVDKELEIKRVPSAIE SSVKISPLKDSEAFQSIKVGNNTLQTKIVYPPTTRFRALEDHTPSDLQLQYYGDRSTFPGTLLITEATFVSPQASGWEGAAPGIWTDKHAKAWKVITDKVHANGSFVSTQLCFLGRVADPAVMKTRGLNPVSASATYESDAAKEAAEAVGNPVRALTTQEVKDLVYEAYTNAAQKAMDAGFDYIELHAAHGYLLDQFLQPCTNQRTDEYGGSIENRARLILELIDHLSTIVGADKIGIRISPWATFQNMKAHKDTVHPLTTFSYLVHELQQRADKGQGIAYISVVEPRVSGNVDVSEEDQAGDNEFVSKIWKGVILKAGNYSYDAPEFKTLKEDIADKRTLVGFSRYFTSNPNLVWKLRDGIDLVPYDRNTFYSDNNYGYNTFSMDSEEVDKELEIKRVPSAIE 4m5t-a3-m1-cA_4m5t-a3-m1-cC Disulfide trapped human alphaB crystallin core domain in complex with C-terminal peptide P02511 P02511 2 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 85 4m5s-a1-m1-cA_4m5s-a1-m2-cA 4m5t-a1-m1-cA_4m5t-a1-m1-cC 4m5t-a2-m1-cE_4m5t-a2-m1-cG 4m5t-a3-m1-cE_4m5t-a3-m1-cG GMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERGFISRCFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV GMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQEHGFISRCFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV 4m5t-a3-m1-cC_4m5t-a3-m1-cE Disulfide trapped human alphaB crystallin core domain in complex with C-terminal peptide P02511 P02511 2 X-RAY DIFFRACTION 11 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 GMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQEHGFISRCFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV GMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISRCFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQ 4m5t-a3-m1-cC_4m5t-a3-m1-cG Disulfide trapped human alphaB crystallin core domain in complex with C-terminal peptide P02511 P02511 2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 86 4m5t-a3-m1-cA_4m5t-a3-m1-cE GMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQEHGFISRCFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV GMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISRCFHRKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV 4m62-a2-m1-cI_4m62-a2-m1-cH Ontogeny of recognition specificity and functionality for the anti-HIV neutralizing antibody 4E10 1.8 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 127 4m62-a1-m1-cI_4m62-a1-m1-cH QVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADKSTSTAYMELSSLRSEDTAVYYCAREGTTGSGWLGKPIGAFAYWGQGTLVTVS QVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADKSTSTAYMELSSLRSEDTAVYYCAREGTTGSGWLGKPIGAFAYWGQGTLVTVSS 4m63-a1-m1-cB_4m63-a1-m1-cA Crystal Structure of a Filament-Like Actin Trimer Bound to the Bacterial Effector VopL 2.748 X-RAY DIFFRACTION 54 0.995 1211705 (Vibrio parahaemolyticus BB22OP) 1211705 (Vibrio parahaemolyticus BB22OP) 222 224 RLLSEDLFKQSPKLSEQELDELANNLADYLFQAADIDWHQVISEKTRGLTTEEMAKSEHRYVQAFCREILKYPDCYKSADVASPESVIDVALKRLQTGRERLFTTTDEKGNRELKKGDAILESAINAARMAISTEEKNTILSNNVKSATFDVFCELPCMDGFAEQNGKTAFYALRAGFYSAFKNTDTAKQDITKFMKDNLQAGFSGYSYQGLTNRVAQLEAQ RLLSEDLFKQSPKLSEQELDELANNLADYLFQAADIDWHQVISEKTRGLTTEEMAKSEHRYVQAFCREILKYPDCYKSADVASPESPKSVIDVALKRLQTGRERLFTTTDEKGNRELKKGDAILESAINAARMAISTEEKNTILSNNVKSATFDVFCELPCMDGFAEQNGKTAFYALRAGFYSAFKNTDTAKQDITKFMKDNLQAGFSGYSYQGLTNRVAQLEA 4m6r-a1-m1-cB_4m6r-a1-m1-cC Structural and biochemical basis for the inhibition of cell death by APIP, a methionine salvage enzyme Q96GX9 Q96GX9 2 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 224 4m6r-a1-m1-cA_4m6r-a1-m1-cB 4m6r-a1-m1-cD_4m6r-a1-m1-cA 4m6r-a1-m1-cD_4m6r-a1-m1-cC MDKEHPRYLIPELCKQFYHLGWVTGTGGGISLKHGDEIYIAPSGVQKERIQPEDMFVCDINEKDISGPSPSKKLKKSQCTPLFMNAYTMRGAGAVIHTHSKAAVMATLLFPGREFKITHQEMIKGIKKCTSGGYYRYDDMLVVPIIENTPEEKDLKDRMAHAMNEYPDSCAVLVRRHGVYVWGETWEKAKTMCECYDYLFDIAVSMKKVGLDPSQLPVGENGIV MDKEHPRYLIPELCKQFYHLGWVTGTGGGISLKHGDEIYIAPSGVQKERIQPEDMFVCDINEKDISGPSPSKKLKKSQCTPLFMNAYTMRGAGAVIHTHSKAAVMATLLFPGREFKITHQEMIKGIKKCTSGGYYRYDDMLVVPIIENTPEEKDLKDRMAHAMNEYPDSCAVLVRRHGVYVWGETWEKAKTMCECYDYLFDIAVSMKKVGLDPSQLPVGENGIV 4m6t-a2-m1-cA_4m6t-a2-m6-cA Structure of human Paf1 and Leo1 complex Q8WVC0 Q8WVC0 2.498 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 177 4m6t-a2-m2-cA_4m6t-a2-m5-cA 4m6t-a2-m3-cA_4m6t-a2-m4-cA KDRDSQITAIEKTFEDAQKSISQHYSKPRVTPVEVMPVFPDFKMWINPCAQVIFDSDPAPKDTSGAAALEMMSQAMIRGMMSGENLYFQSGNDLYFVKLPNFLSVEPRPFDPQYYEDEFEEEGRTRLKLKVENTIRWRIRRDEEGNEIKESNARIVKWSDGSMSLHLGNEVFDVYKA KDRDSQITAIEKTFEDAQKSISQHYSKPRVTPVEVMPVFPDFKMWINPCAQVIFDSDPAPKDTSGAAALEMMSQAMIRGMMSGENLYFQSGNDLYFVKLPNFLSVEPRPFDPQYYEDEFEEEGRTRLKLKVENTIRWRIRRDEEGNEIKESNARIVKWSDGSMSLHLGNEVFDVYKA 4m6t-a2-m3-cA_4m6t-a2-m6-cA Structure of human Paf1 and Leo1 complex Q8WVC0 Q8WVC0 2.498 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 177 4m6t-a2-m1-cA_4m6t-a2-m5-cA 4m6t-a2-m2-cA_4m6t-a2-m4-cA KDRDSQITAIEKTFEDAQKSISQHYSKPRVTPVEVMPVFPDFKMWINPCAQVIFDSDPAPKDTSGAAALEMMSQAMIRGMMSGENLYFQSGNDLYFVKLPNFLSVEPRPFDPQYYEDEFEEEGRTRLKLKVENTIRWRIRRDEEGNEIKESNARIVKWSDGSMSLHLGNEVFDVYKA KDRDSQITAIEKTFEDAQKSISQHYSKPRVTPVEVMPVFPDFKMWINPCAQVIFDSDPAPKDTSGAAALEMMSQAMIRGMMSGENLYFQSGNDLYFVKLPNFLSVEPRPFDPQYYEDEFEEEGRTRLKLKVENTIRWRIRRDEEGNEIKESNARIVKWSDGSMSLHLGNEVFDVYKA 4m71-a1-m1-cB_4m71-a1-m1-cA Mutant structure of methyltransferase from Streptomyces hygroscopicus complexed with S-adenosyl-L-homocysteine and methylphenylpyruvic acid Q643C8 Q643C8 2.21 X-RAY DIFFRACTION 254 1.0 1912 (Streptomyces hygroscopicus) 1912 (Streptomyces hygroscopicus) 332 333 4kib-a1-m1-cA_4kib-a1-m1-cB 4kic-a1-m1-cB_4kic-a1-m1-cA 4kif-a1-m1-cA_4kif-a1-m1-cB 4kig-a1-m1-cA_4kig-a1-m1-cB 4m6x-a1-m1-cB_4m6x-a1-m1-cA 4m6y-a1-m1-cA_4m6y-a1-m1-cB 4m72-a1-m1-cA_4m72-a1-m1-cB 4m73-a1-m1-cA_4m73-a1-m1-cB 4m74-a1-m1-cA_4m74-a1-m1-cB SEAQARRAVADIFNSTLASSAIGAAWELGALDELRENGKLDVSDFAVRHDLHEPAVVGMFTALASVGIVRREGATVVVGPYFDEANHHRSLFHWLNQGSGELFRRMPQVLPNENRTGKFYQLDAGAISYACREISERYFDPAFWAAVDGLGYTPTTVADLGSGSGERLIQIARRFPGVRGLGVDIADGAIAMAEKEVAAKGFGDQISFVRGDARTIDQVSARGEFAEVDLLTCFMMGHEFWPRENCVQTLRKLRAAFPNVRRFLLGDATRTVGIPDRELPVFTLGFEFGHDMMGVYLPTLDEWDGVFEEGGWRCVKKHAIDSLSVSVVFELE VSEAQARRAVADIFNSTLASSAIGAAWELGALDELRENGKLDVSDFAVRHDLHEPAVVGMFTALASVGIVRREGATVVVGPYFDEANHHRSLFHWLNQGSGELFRRMPQVLPNENRTGKFYQLDAGAISYACREISERYFDPAFWAAVDGLGYTPTTVADLGSGSGERLIQIARRFPGVRGLGVDIADGAIAMAEKEVAAKGFGDQISFVRGDARTIDQVSARGEFAEVDLLTCFMMGHEFWPRENCVQTLRKLRAAFPNVRRFLLGDATRTVGIPDRELPVFTLGFEFGHDMMGVYLPTLDEWDGVFEEGGWRCVKKHAIDSLSVSVVFELE 4m8a-a1-m1-cA_4m8a-a1-m2-cA Crystal Structure of Thermotoga maritima FtsH Periplasmic Domain Q9WZ49 Q9WZ49 1.502 X-RAY DIFFRACTION 17 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 67 67 SKLSYTSFVQMVEDERSVVSEVVIRDDGVLRVYTKDGRVYEVDAPWAVNDSQLIEKLVSKGIKVSGE SKLSYTSFVQMVEDERSVVSEVVIRDDGVLRVYTKDGRVYEVDAPWAVNDSQLIEKLVSKGIKVSGE 4m8a-a1-m2-cA_4m8a-a1-m2-cB Crystal Structure of Thermotoga maritima FtsH Periplasmic Domain Q9WZ49 Q9WZ49 1.502 X-RAY DIFFRACTION 35 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 67 68 4m8a-a1-m1-cA_4m8a-a1-m1-cB 4m8a-a1-m1-cB_4m8a-a1-m1-cC 4m8a-a1-m2-cB_4m8a-a1-m2-cC 4q0f-a1-m1-cB_4q0f-a1-m1-cA 4q0f-a1-m1-cC_4q0f-a1-m1-cA 4q0f-a1-m2-cB_4q0f-a1-m2-cA 4q0f-a1-m2-cC_4q0f-a1-m2-cA SKLSYTSFVQMVEDERSVVSEVVIRDDGVLRVYTKDGRVYEVDAPWAVNDSQLIEKLVSKGIKVSGE SKLSYTSFVQMVEDERSVVSEVVIRDDGVLRVYTKDGRVYEVDAPWAVNDSQLIEKLVSKGIKVSGER 4m8d-a6-m1-cK_4m8d-a6-m1-cL Crystal structure of an isatin hydrolase bound to product analogue thioisatinate A0NLY7 A0NLY7 1.9 X-RAY DIFFRACTION 282 1.0 384765 (Roseibium aggregatum IAM 12614) 384765 (Roseibium aggregatum IAM 12614) 262 262 4j0n-a1-m1-cA_4j0n-a1-m1-cB 4m8d-a1-m1-cA_4m8d-a1-m1-cB 4m8d-a2-m1-cC_4m8d-a2-m1-cD 4m8d-a3-m1-cE_4m8d-a3-m1-cF 4m8d-a4-m1-cG_4m8d-a4-m1-cH 4m8d-a5-m1-cI_4m8d-a5-m1-cJ MSAQSALSGLGAKLLSGEVEVVDCTGVLGPNTPILQLPPDFAKNTPKVEIHKISEYDSDGPFFAWNWMVLGEHSGTHFDAPHHWITGKDYSDGFTDTLDVQRLIAPVNVIDCSKESAADPDFLLTADLIKAWEAEHGEIGAGEWVVMRTDWDKRAGDEAAFLNADETGPHSPGPTPDAIEYLLSKKIVGWGSQCIGTDAGQAGGMEPPFPAHNLLHRDNCFGLASLANLDKLPAKGAILIAAPLKIERGTGSPIRALALVPK MSAQSALSGLGAKLLSGEVEVVDCTGVLGPNTPILQLPPDFAKNTPKVEIHKISEYDSDGPFFAWNWMVLGEHSGTHFDAPHHWITGKDYSDGFTDTLDVQRLIAPVNVIDCSKESAADPDFLLTADLIKAWEAEHGEIGAGEWVVMRTDWDKRAGDEAAFLNADETGPHSPGPTPDAIEYLLSKKIVGWGSQCIGTDAGQAGGMEPPFPAHNLLHRDNCFGLASLANLDKLPAKGAILIAAPLKIERGTGSPIRALALVPK 4m8k-a3-m1-cB_4m8k-a3-m1-cA Crystal structure of a putative GDSL-like lipase (BACUNI_00748) from Bacteroides uniformis ATCC 8492 at 1.90 A resolution A7UZL6 A7UZL6 1.9 X-RAY DIFFRACTION 61 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 210 211 NLYFQGQKKVSILGDSYSTFYGHVSPAANLCWYGVPGEKKENDVTKVEETWWYRFIHEHGFQLERNNSYSGSTVCHTGYEKADYSDRSFITRIHNLGTPDIILVFGGTNDSWAGAPIGAYQYDGWTKADLYSFRPAFCYLLASLKQLYPAARIYNITNSELSEEVTDSDEICRHYGIENIRLHDIDKQWGHPSVQGQSIDAQVWESVSPI ENLYFQGQKKVSILGDSYSTFYGHVSPAANLCWYGVPGEKKENDVTKVEETWWYRFIHEHGFQLERNNSYSGSTVCHTGYEKADYSDRSFITRIHNLGTPDIILVFGGTNDSWAGAPIGAYQYDGWTKADLYSFRPAFCYLLASLKQLYPAARIYNITNSELSEEVTDSDEICRHYGIENIRLHDIDKQWGHPSVQGQSIDAQVWESVSPI 4m8l-a2-m1-cB_4m8l-a2-m1-cD crystal structure of RpiA-R5P complex A4IYN5 A4IYN5 2.37 X-RAY DIFFRACTION 83 1.0 263 (Francisella tularensis) 263 (Francisella tularensis) 217 218 3kwm-a1-m1-cA_3kwm-a1-m1-cD 3kwm-a2-m1-cB_3kwm-a2-m1-cC 4io1-a1-m1-cB_4io1-a1-m1-cA 4m8l-a1-m1-cC_4m8l-a1-m1-cA NQDELKKLAATEAAKSITTEITLGVGTGSTVGFLIEELVNYRDKIKTVVSSSEDSTRKLKALGFDVVDLNYAGEIDLYIDGADECNNHKELIKGGGAALTREKICVAAAKKFICIIDESKKVNTLGNFPLPIEVIPMARSYIARQIVKLGGQPVYREQTITDNGNVILDVYNLKIDNPLKLETELNQITGVVTNGIFALKPADTVIMATKDSNIVVL NNQDELKKLAATEAAKSITTEITLGVGTGSTVGFLIEELVNYRDKIKTVVSSSEDSTRKLKALGFDVVDLNYAGEIDLYIDGADECNNHKELIKGGGAALTREKICVAAAKKFICIIDESKKVNTLGNFPLPIEVIPMARSYIARQIVKLGGQPVYREQTITDNGNVILDVYNLKIDNPLKLETELNQITGVVTNGIFALKPADTVIMATKDSNIVVL 4m8n-a2-m1-cC_4m8n-a2-m1-cB Crystal Structure of PlexinC1/Rap1B Complex Q5RGW1 Q5RGW1 3.294 X-RAY DIFFRACTION 80 0.998 7955 (Danio rerio) 7955 (Danio rerio) 560 571 4m8m-a1-m1-cA_4m8m-a1-m1-cB 4m8n-a1-m1-cD_4m8n-a1-m1-cA KKMNDQLELMESNIRRDIRQGFVDLQTEKSDLIVGAIPFLDYKHFASRIFFPEAGTLTAVMIRDEKCLAFAELIRDKQFLSCFVHALEEQKNFSIKDKCTVASLLTLALHGDLLYLTEIMEDLLQSLMDQSSNANPKLLLRRTESIVEKLLTNWMSICLYGFLRESVGQPLFLLVSALTQQISKGPVDSVTEKALYTLSEDWLLCQAQDFEPLKLKVVFAVEEISESLEVIALTCDTIQQVKEKILQTFQRKFGFRYTQQIRDIEIEYEKEGKFVMLQEVDDTSEIRGHVTMLNTLKHYQVGDGACIKVITPKIHAPLKTQNSVKDDKNFSIKYFHLVDPKALKIKEMYLIKLLSTKVAVHSFVENLFKSIWGLPNNKAPLAVKYFFDFLDEQAERKKITDPDVLHIWKTNSLPLRFWVNILKNPDFVFSDMEKSPHLDGCLSVIAQAFMDSFSLTDTHLDKHSPTNKLLYGKDIPQYKQEVKSYYKLVKDQTSISSQELKTFLQEESKKHQNEFNESAALRELYKYMQRYFTEIFQKLEQTDAPSNLKENMHRVKELFD QKQMSKKMNDQLELMESNIRRDIRQGFVDLQTEKSDLIVGAIPFLDYKHFASRIFFPEAGTLTAVMIEQTTVDEKCLAFAELIRDKQFLSCFVHALEEQKNFSIKDKCTVASLLTLALHGDLLYLTEIMEDLLQSLMDQSSNANPKLLLRRTESIVEKLLTNWMSICLYGFLRESVGQPLFLLVSALTQQISKGPVDSVTEKALYTLSEDWLLCQAQDFEPLKLKVVFAVEEISESLEVIALTCDTIQQVKEKILQTFQRKFGFRYTQQIRDIEIEYEKEGKFVMLQEVDDTSEIRGHVTMLNTLKHYQVGDGACIKVITPKIHAPLKTQNSVKDDKNFSIKYFHLVDPEKKALKIKEMYLIKLLSTKVAVHSFVENLFKSIWGLPNNKAPLAVKYFFDFLDEQAERKKITDPDVLHIWKTNSLPLRFWVNILKNPDFVFSDMEKSPHLDGCLSVIAQAFMDSFSLTDTHLDKHSPTNKLLYGKDIPQYKQEVKSYYKLVKDQTSISSQELKTFLQEESKKHQNEFNESAALRELYKYMQRYFTEIFQKLEQTDAPSNLKENMHRVKELFD 4m8q-a3-m2-cH_4m8q-a3-m1-cA Ontogeny of recognition specificity and functionality for the anti-HIV neutralizing antibody 4E10 2.89 X-RAY DIFFRACTION 44 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 QVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADKSTSTAYMELSSLRSEDTAVYYCAREGTTGWGWGKPIGAFAYWGQGTLVTVS QVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADKSTSTAYMELSSLRSEDTAVYYCAREGTTGWGGKPIGAFAYWGQGTLVTVSS 4m8r-a1-m1-cA_4m8r-a1-m2-cB Crystal structure of a DUF4784 family protein (BACCAC_01631) from Bacteroides caccae ATCC 43185 at 2.50 A resolution A5ZFG7 A5ZFG7 2.5 X-RAY DIFFRACTION 17 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 396 396 4m8r-a1-m1-cB_4m8r-a1-m2-cA KILVTNAGVTEANQTVKPGDIVHIYGDGFQEGDQVDFDFRWDLGEPLFPEGYLGPVGAEIVERHSNGSIRPYRKPESRVEIFLNRASERSLGKVLLADGQTPKDFRLYGINETDKTIERAYAEETVTGKKTWDSAHPDFRSVVNLQKTYGLCGLAEENGVQQPFFLDFCTGEWKALSFYDYNTLALVIGSGNDIAAIQQRGKGYSLYNVSAGLEQSNYATKTRSNFPPEPQFELPEGFTPEQFGDYPGVFQGNEIILLSARKGNGKWVPLYNYRNGFYVLEGIEADAIIPFYFGALPDSLLYQKKVGYIYYSSGDNRGSSFRLLEPDKESSKLQLQEPFAQLSDKKVVSITNRLDRIGTITVLFSDRTTSDFDWNSKEWTDYTDLSDPYNSVVWAN KILVTNAGVTEANQTVKPGDIVHIYGDGFQEGDQVDFDFRWDLGEPLFPEGYLGPVGAEIVERHSNGSIRPYRKPESRVEIFLNRASERSLGKVLLADGQTPKDFRLYGINETDKTIERAYAEETVTGKKTWDSAHPDFRSVVNLQKTYGLCGLAEENGVQQPFFLDFCTGEWKALSFYDYNTLALVIGSGNDIAAIQQRGKGYSLYNVSAGLEQSNYATKTRSNFPPEPQFELPEGFTPEQFGDYPGVFQGNEIILLSARKGNGKWVPLYNYRNGFYVLEGIEADAIIPFYFGALPDSLLYQKKVGYIYYSSGDNRGSSFRLLEPDKESSKLQLQEPFAQLSDKKVVSITNRLDRIGTITVLFSDRTTSDFDWNSKEWTDYTDLSDPYNSVVWAN 4m8r-a1-m1-cB_4m8r-a1-m2-cB Crystal structure of a DUF4784 family protein (BACCAC_01631) from Bacteroides caccae ATCC 43185 at 2.50 A resolution A5ZFG7 A5ZFG7 2.5 X-RAY DIFFRACTION 120 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 396 396 4m8r-a1-m1-cA_4m8r-a1-m2-cA KILVTNAGVTEANQTVKPGDIVHIYGDGFQEGDQVDFDFRWDLGEPLFPEGYLGPVGAEIVERHSNGSIRPYRKPESRVEIFLNRASERSLGKVLLADGQTPKDFRLYGINETDKTIERAYAEETVTGKKTWDSAHPDFRSVVNLQKTYGLCGLAEENGVQQPFFLDFCTGEWKALSFYDYNTLALVIGSGNDIAAIQQRGKGYSLYNVSAGLEQSNYATKTRSNFPPEPQFELPEGFTPEQFGDYPGVFQGNEIILLSARKGNGKWVPLYNYRNGFYVLEGIEADAIIPFYFGALPDSLLYQKKVGYIYYSSGDNRGSSFRLLEPDKESSKLQLQEPFAQLSDKKVVSITNRLDRIGTITVLFSDRTTSDFDWNSKEWTDYTDLSDPYNSVVWAN KILVTNAGVTEANQTVKPGDIVHIYGDGFQEGDQVDFDFRWDLGEPLFPEGYLGPVGAEIVERHSNGSIRPYRKPESRVEIFLNRASERSLGKVLLADGQTPKDFRLYGINETDKTIERAYAEETVTGKKTWDSAHPDFRSVVNLQKTYGLCGLAEENGVQQPFFLDFCTGEWKALSFYDYNTLALVIGSGNDIAAIQQRGKGYSLYNVSAGLEQSNYATKTRSNFPPEPQFELPEGFTPEQFGDYPGVFQGNEIILLSARKGNGKWVPLYNYRNGFYVLEGIEADAIIPFYFGALPDSLLYQKKVGYIYYSSGDNRGSSFRLLEPDKESSKLQLQEPFAQLSDKKVVSITNRLDRIGTITVLFSDRTTSDFDWNSKEWTDYTDLSDPYNSVVWAN 4m8r-a1-m2-cA_4m8r-a1-m2-cB Crystal structure of a DUF4784 family protein (BACCAC_01631) from Bacteroides caccae ATCC 43185 at 2.50 A resolution A5ZFG7 A5ZFG7 2.5 X-RAY DIFFRACTION 76 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 396 396 4m8r-a1-m1-cA_4m8r-a1-m1-cB KILVTNAGVTEANQTVKPGDIVHIYGDGFQEGDQVDFDFRWDLGEPLFPEGYLGPVGAEIVERHSNGSIRPYRKPESRVEIFLNRASERSLGKVLLADGQTPKDFRLYGINETDKTIERAYAEETVTGKKTWDSAHPDFRSVVNLQKTYGLCGLAEENGVQQPFFLDFCTGEWKALSFYDYNTLALVIGSGNDIAAIQQRGKGYSLYNVSAGLEQSNYATKTRSNFPPEPQFELPEGFTPEQFGDYPGVFQGNEIILLSARKGNGKWVPLYNYRNGFYVLEGIEADAIIPFYFGALPDSLLYQKKVGYIYYSSGDNRGSSFRLLEPDKESSKLQLQEPFAQLSDKKVVSITNRLDRIGTITVLFSDRTTSDFDWNSKEWTDYTDLSDPYNSVVWAN KILVTNAGVTEANQTVKPGDIVHIYGDGFQEGDQVDFDFRWDLGEPLFPEGYLGPVGAEIVERHSNGSIRPYRKPESRVEIFLNRASERSLGKVLLADGQTPKDFRLYGINETDKTIERAYAEETVTGKKTWDSAHPDFRSVVNLQKTYGLCGLAEENGVQQPFFLDFCTGEWKALSFYDYNTLALVIGSGNDIAAIQQRGKGYSLYNVSAGLEQSNYATKTRSNFPPEPQFELPEGFTPEQFGDYPGVFQGNEIILLSARKGNGKWVPLYNYRNGFYVLEGIEADAIIPFYFGALPDSLLYQKKVGYIYYSSGDNRGSSFRLLEPDKESSKLQLQEPFAQLSDKKVVSITNRLDRIGTITVLFSDRTTSDFDWNSKEWTDYTDLSDPYNSVVWAN 4m8s-a1-m1-cD_4m8s-a1-m1-cB Crystal structure of 3-ketoacyl -(acyl carrier protein) reductase (FabG) from Neisseria meningitidis A1KRY4 A1KRY4 2 X-RAY DIFFRACTION 130 0.996 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 237 246 4m8s-a1-m1-cA_4m8s-a1-m1-cC STQDLSGKIALVTGASRGIGAAIADTLAAAGAKVIGTATSESGAAAISERLAQWGGEGRVLNSAEPETVENLIADIEKTFGKLDILVNNAGITRDNLLMRMKEEEWDDIMQVNLKSVFRASKAVLRGMMKQRAGRIINITSVVGVMGNAGQTNYAAAKAGLIGFSKSMAREVGSRGITVNCVAPGFIDTRQTFTAQTALGRFGDAQDIADAVLFLASDQAKYITGQTLHVNGGMLMP TQDLSGKIALVTGASRGIGAAIADTLAAAGAKVIGTATSESGAAAISERLAQWGGEGRVLNSAEPETVENLIADIEKTFGKLDILVNNAGITRDNLLMRMKEEEWDDIMQVNLKSVFRASKAVLRGMMKQRAGRIINITSVVGVMGNAGQTNYAAAKAGLIGFSKSMAREVGSRGITVNCVAPGFIDTDMTRALPEETRQTFTAQTALGRFGDAQDIADAVLFLASDQAKYITGQTLHVNGGMLMP 4m8s-a1-m1-cD_4m8s-a1-m1-cC Crystal structure of 3-ketoacyl -(acyl carrier protein) reductase (FabG) from Neisseria meningitidis A1KRY4 A1KRY4 2 X-RAY DIFFRACTION 110 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 237 247 4m8s-a1-m1-cB_4m8s-a1-m1-cA STQDLSGKIALVTGASRGIGAAIADTLAAAGAKVIGTATSESGAAAISERLAQWGGEGRVLNSAEPETVENLIADIEKTFGKLDILVNNAGITRDNLLMRMKEEEWDDIMQVNLKSVFRASKAVLRGMMKQRAGRIINITSVVGVMGNAGQTNYAAAKAGLIGFSKSMAREVGSRGITVNCVAPGFIDTRQTFTAQTALGRFGDAQDIADAVLFLASDQAKYITGQTLHVNGGMLMP STQDLSGKIALVTGASRGIGAAIADTLAAAGAKVIGTATSESGAAAISERLAQWGGEGRVLNSAEPETVENLIADIEKTFGKLDILVNNAGITRDNLLMRMKEEEWDDIMQVNLKSVFRASKAVLRGMMKQRAGRIINITSVVGVMGNAGQTNYAAAKAGLIGFSKSMAREVGSRGITVNCVAPGFIDTDMTRALPEETRQTFTAQTALGRFGDAQDIADAVLFLASDQAKYITGQTLHVNGGMLMP 4m8z-a1-m1-cA_4m8z-a1-m1-cB Crystal Structure of SFH3, a phosphatidylinositol transfer protein that integrates phosphoinositide signaling with lipid droplet metabolism P53860 P53860 1.928 X-RAY DIFFRACTION 39 0.997 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 315 317 4fmm-a1-m1-cA_4fmm-a1-m1-cB 4j7p-a1-m1-cB_4j7p-a1-m1-cA 4j7q-a3-m1-cA_4j7q-a3-m1-cB NLINIDKPIKELPASIAIPKEKPLTGEQQKYDEVLKHFSNPDLKVYTSEKNKSEDDLKPLEEEEKAWLTRECFLRYLRATKWVLKDCIDRITTLAWRREFGISHLGEEHGDKITADLVAVENESGKQVILGYENDARPILYLKPGRQNTKTSHRQVQHLVFLERVIDFPAGQDSLALLIDFKDYPDVPKGVGKEVLHILQTHYPERLGKALLTNIPWLAWTFLKLIHPFIDPLTREKLVFDEPFVKYVPKNELDSLYGGDLKFKYNHDVYWPALVETAREKRDHYFKRFQSFGGIVGLSEVDLRGTHEKLLYPVK KNLINIDKPIKELPASIAIPKEKPLTGEQQKYDEVLKHFSNPDLKVYTSEKNKSEDDLKPLEEEEKAWLTRECFLRYLRATKWVLKDCIDRITTLAWRREFGISHLGEEHGDKITADLVAVENESGKQVILGYENDARPILYLKPGRQNTKTSHRQVQHLVFLERVIDFPAGQDSLALLIDFKDYPDVPKVVGKEVLHILQTHYPERLGKALLTNIPWLAWTFLKLIHPFIDPLTREKLVFDEPFVKYVPKNELDSLYGGDLKFKYNHDVYWPALVETAREKRDHYFKRFQSFGGIVGLSEVDLRGTHEKLLYPVKS 4m99-a1-m1-cA_4m99-a1-m1-cC Acetyltransferase domain of PglB from Neisseria gonorrhoeae FA1090 in complex with acetyl coenzyme A Q5FAE1 Q5FAE1 2.6 X-RAY DIFFRACTION 87 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 206 206 4m98-a1-m1-cA_4m98-a1-m2-cA 4m98-a1-m1-cA_4m98-a1-m3-cA 4m98-a1-m2-cA_4m98-a1-m3-cA 4m99-a1-m1-cB_4m99-a1-m1-cA 4m99-a1-m1-cB_4m99-a1-m1-cC GNRKLAVIGAGGHGKVVAELAAALGTYGEIVFLDDRTQGSVNGFPVIGTTLLLENSLSPEQFDITVAVGNNRIRRQITENAAALGFKLPVLIHPDATVSPSAIIGQGSVVMAKAVVQAGSVLKDGVIVNTAATVDHDCLLDAFVHISPGAHLSGNTRIGEESRIGTGACSRQQTTVGSGVTAGAGAVIVCDIPDGMTVAGNPAKPL GNRKLAVIGAGGHGKVVAELAAALGTYGEIVFLDDRTQGSVNGFPVIGTTLLLENSLSPEQFDITVAVGNNRIRRQITENAAALGFKLPVLIHPDATVSPSAIIGQGSVVMAKAVVQAGSVLKDGVIVNTAATVDHDCLLDAFVHISPGAHLSGNTRIGEESRIGTGACSRQQTTVGSGVTAGAGAVIVCDIPDGMTVAGNPAKPL 4m9a-a1-m1-cD_4m9a-a1-m1-cA Crystal structure of Acyl-coA dehydrogenase from Burkholderia thailandensis E264 Q2T4A2 Q2T4A2 2.2 X-RAY DIFFRACTION 98 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 364 371 4m9a-a1-m1-cC_4m9a-a1-m1-cB DDLYTEDQRMILDAARAFCAEVLAPNAAQWDRESHLPDEVVAQMGELGFLGMIVPADWGGSYTDYVAYALALEEIAAGCASCATLVSVHNSVGCGPVLNYGTTEQKERWLRDLASGKTVGAFSLTEPHNLRTRAELRDGKWILNGSKQFVTNGARAGLAIVFAMTDPDKRGLSAFVVPTDTPGFIVGKPEKKMGIRASDTCPITLENCAIPQENLLGKRGEGLKIALSNLEGGRIGIAAQATGIARAAFDRARRYARERKPIAEHQAIAEKLANMATQINAARLLTHHAARLRTAGLPCLSEASQAKLFASEMAEAVCSDAIQIHGGYGFLVDYEVERHYRDARITQIYEGTSEVQRMVIARQL DDLYTEDQRMILDAARAFCAEVLAPNAAQWDRESHLPDEVVAQMGELGFLGMIVPADWGGSYTDYVAYALALEEIAAGCASCATLVSVHNSVGCGPVLNYGTTEQKERWLRDLASGKTVGAFSLTEPHHNLRTRAELRDGKWILNGSKQFVTNGARAGLAIVFAMTDPDEGKRGLSAFVVPTDTPGFIVGKPEKKMGIRASDTCPITLENCAIPQENLLGKRGEGLKIALSNLEGGRIGIAAQATGIARAAFDRARRYARERVQFGKPIAEHQAIAEKLANMATQINAARLLTHHAARLRTAGLPCLSEASQAKLFASEMAEAVCSDAIQIHGGYGFLVDYEVERHYRDARITQIYEGTSEVQRMVIARQL 4m9a-a1-m1-cD_4m9a-a1-m1-cC Crystal structure of Acyl-coA dehydrogenase from Burkholderia thailandensis E264 Q2T4A2 Q2T4A2 2.2 X-RAY DIFFRACTION 77 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 364 372 4m9a-a1-m1-cA_4m9a-a1-m1-cB DDLYTEDQRMILDAARAFCAEVLAPNAAQWDRESHLPDEVVAQMGELGFLGMIVPADWGGSYTDYVAYALALEEIAAGCASCATLVSVHNSVGCGPVLNYGTTEQKERWLRDLASGKTVGAFSLTEPHNLRTRAELRDGKWILNGSKQFVTNGARAGLAIVFAMTDPDKRGLSAFVVPTDTPGFIVGKPEKKMGIRASDTCPITLENCAIPQENLLGKRGEGLKIALSNLEGGRIGIAAQATGIARAAFDRARRYARERKPIAEHQAIAEKLANMATQINAARLLTHHAARLRTAGLPCLSEASQAKLFASEMAEAVCSDAIQIHGGYGFLVDYEVERHYRDARITQIYEGTSEVQRMVIARQL DDLYTEDQRMILDAARAFCAEVLAPNAAQWDRESHLPDEVVAQMGELGFLGMIVPADWGGSYTDYVAYALALEEIAAGCASCATLVSVHNSVGCGPVLNYGTTEQKERWLRDLASGKTVGAFSLTEPHAHNLRTRAELRDGKWILNGSKQFVTNGARAGLAIVFAMTDPDEGKRGLSAFVVPTDTPGFIVGKPEKKMGIRASDTCPITLENCAIPQENLLGKRGEGLKIALSNLEGGRIGIAAQATGIARAAFDRARRYARERVQFGKPIAEHQAIAEKLANMATQINAARLLTHHAARLRTAGLPCLSEASQAKLFASEMAEAVCSDAIQIHGGYGFLVDYEVERHYRDARITQIYEGTSEVQRMVIARQL 4m9c-a1-m1-cA_4m9c-a1-m1-cC WeeI from Acinetobacter baumannii AYE B0V6J7 B0V6J7 2.1 X-RAY DIFFRACTION 73 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 216 216 4m9c-a1-m1-cB_4m9c-a1-m1-cA 4m9c-a1-m1-cB_4m9c-a1-m1-cC 4m9c-a2-m1-cD_4m9c-a2-m1-cF 4m9c-a2-m1-cE_4m9c-a2-m1-cD 4m9c-a2-m1-cE_4m9c-a2-m1-cF MTMIIGVYGASGFGKEVMPLVRQQFPTLSKEQFAFIDDGLSGTTLNGYPVLSYLDFISKPADHKAVTIAIANSVVREKLVSLLEKDGVQHLAVQSTNTVILDEVEIGEGSLLCPFTCLTSNIKIGKFFHANIYSYVAHDCVIGDYVTFAPGAKCNGNIHIEDHAYIGTGAVIKQGTPDKPLIIGKGAIVGMGAVVTKSVPAGVTVVGNPARILERK MTMIIGVYGASGFGKEVMPLVRQQFPTLSKEQFAFIDDGLSGTTLNGYPVLSYLDFISKPADHKAVTIAIANSVVREKLVSLLEKDGVQHLAVQSTNTVILDEVEIGEGSLLCPFTCLTSNIKIGKFFHANIYSYVAHDCVIGDYVTFAPGAKCNGNIHIEDHAYIGTGAVIKQGTPDKPLIIGKGAIVGMGAVVTKSVPAGVTVVGNPARILERK 4m9d-a1-m1-cA_4m9d-a1-m1-cB The Crystal structure of an adenylosuccinate synthetase from Bacillus anthracis str. Ames Ancestor in complex with AMP. Q81JI9 Q81JI9 1.821 X-RAY DIFFRACTION 203 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 417 425 4m0g-a1-m1-cB_4m0g-a1-m1-cA SSVVVVGTQWGDEGKGKITDFLSEHAEVVARYQGGNNAGHTIVFGGVKYKLHLIPSGIFYKEKICVIGNGLVVDPKALLEELKYLHDRGVSTDNLRVSNRAHVILPYHLKQDELEEASKGDNKIGTTKKGIGPAYDKAARIGIRADLLDREAFKEKLEQNLAQKNRLFEKYDTEGFSVDEIFEEYFEYGQQIAQYVCDTSVVLNDALDNNHRVLFEGAQGVLDIDHGTYPFVTSSNPIAGGVTVGTGVGPAKVTRVVGVCKAYTSRVGDGPFPTELHDEIGHQIREVGREYGTTTGRPRRVGWFDSVVVRHARRVSGLTDLSLNSIDVLTGIPTLKICVAYKCDGKVIDEVPANLNILAKCEPVCEELPGWTEDITGVRSLDELPENARKYVERVSELTGIQLSFSVGPDRNQTNIV SNASSVVVVGTQWGDEGKGKITDFLSEHAEVVARYQGGNNAGHTIVFGGVKYKLHLIPSGIFYKEKICVIGNGLVVDPKALLEELKYLHDRGVSTDNLRVSNRAHVILPYHLKQDELEEASKGDNKIGTTKKGIGPAYDKAARIGIRADLLDREAFKEKLEQNLAQKNRLFEKYDTEGFSVDEIFEEYFEYGQQIAQYVCDTSVVLNDALDNNHRVLFEGAQGVLDIDHGTYPFVTSSNPIAGGVTVGTGVGPAKVTRVVGVCKAYTSRVGDGPFPTELHDEIGHQIREVGREYGTTTGRPRRVGWFDSVVVRHARRVSGLTDLSLNSIDVLTGIPTLKICVAYKCDGKVIDEVPANLNILAKCEPVCEELPGWTEDITGVRSLDELPENARKYVERVSELTGIQLSFSVGPDRNQTNIVRNVYE 4m9r-a1-m1-cB_4m9r-a1-m1-cA Crystal structure of CED-3 P42573 P42573 2.656 X-RAY DIFFRACTION 120 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 223 256 TQYIFHEEDMNFVDAPTISRVFDEKTMYRNFSSPRGMCLIINNEHFEQMPTRNGTKADKDNLTNLFRCMGYTVICKDNLTGRGMLLTIRDFAKHESHGDSAILVILSHGEENVIIGVDDIPISTHEIYDLLNAANAPRLANKPKIVFVQASRRKKPSQADILIAYATTGSWFIQAVCEVFSTHAKDMDVVELLTEVNKKVACGMPEMTSRLLKKFYFWPEARN TQYIFHEEDMNFVDAPTISRVFDEKTMYRNFSSPRGMCLIINNEHFEQMPTRNGTKADKDNLTNLFRCMGYTVICKDNLTGRGMLLTIRDFAKHESHGDSAILVILSHGEENVIIGVDDIPISTHEIYDLLNAANAPRLANKPKIVFVQASRGERRDNGFPVRKKPSQADILIAYATTAQYVSWRNSARGSWFIQAVCEVFSTHAKDMDVVELLTEVNKKVACGFQTSQGSNILKQMPEMTSRLLKKFYFWPEARN 4m9v-a3-m1-cC_4m9v-a3-m1-cF Zfp57 mutant (E182Q) in complex with 5-carboxylcytosine DNA Q8C6P8 Q8C6P8 0.969 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 60 60 PSERPFFCNFCGKTYRDASGLSRHRRAHLGYRPRSCPECGKCFRDQSQVNRHLKVHQNKP PSERPFFCNFCGKTYRDASGLSRHRRAHLGYRPRSCPECGKCFRDQSQVNRHLKVHQNKP 4ma0-a1-m1-cA_4ma0-a1-m2-cA The crystal structure of phosphoribosylaminoimidazole carboxylase ATPase subunit of Francisella tularensis subsp. tularensis SCHU S4 in complex with partially hydrolysed ATP Q5NGE8 Q5NGE8 1.982 X-RAY DIFFRACTION 96 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 361 361 4m9u-a1-m1-cA_4m9u-a1-m2-cA 4ma5-a1-m1-cA_4ma5-a1-m2-cA 4mam-a1-m1-cB_4mam-a1-m1-cA 5jqw-a1-m1-cA_5jqw-a1-m2-cA KIGIIGAGQLARLSLAGTPLGLEFHCLGKNGDCAEEVVKTVTDIELTKVNDVVAWAKQFDVITFENENISHELIKAINHEVSVYPSAKAIAISQDRLLEKSFQDHGIATAKFVNIDSLAKLQSAVDDHGLPAILKTRRFGYDGKGQFVIRSQEDITKAWDVLKDAPDGLIYEAFVDFDYEVSQICTADLKGNIAFYPLARNTHKQGIIVESEAPFENVVLAEKAQQIAKILVKEFAYVGTLAIEFFVKGDELIVNEIAPRVHNSGHWSIDGAVTSQFENHVRAIAGLILGDTTSRKTVLNCIGGPATKDLAALDRVKIHSYNKEPRKGRKVGHLNLNLNDETDEYQLLQVKKLIALSEEIA KIGIIGAGQLARLSLAGTPLGLEFHCLGKNGDCAEEVVKTVTDIELTKVNDVVAWAKQFDVITFENENISHELIKAINHEVSVYPSAKAIAISQDRLLEKSFQDHGIATAKFVNIDSLAKLQSAVDDHGLPAILKTRRFGYDGKGQFVIRSQEDITKAWDVLKDAPDGLIYEAFVDFDYEVSQICTADLKGNIAFYPLARNTHKQGIIVESEAPFENVVLAEKAQQIAKILVKEFAYVGTLAIEFFVKGDELIVNEIAPRVHNSGHWSIDGAVTSQFENHVRAIAGLILGDTTSRKTVLNCIGGPATKDLAALDRVKIHSYNKEPRKGRKVGHLNLNLNDETDEYQLLQVKKLIALSEEIA 4mac-a1-m1-cB_4mac-a1-m1-cA Crystal structure of CIDE-N domain of FSP27 P56198 P56198 2 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 78 82 ARPCRVSTADRKVRKGIMAHSLEDLLNKVQDILKLKDKPFSLVLEEDGTIVETEEYFQALAKDTMFMVLLKGQKWKPP ETPRARPCRVSTADRKVRKGIMAHSLEDLLNKVQDILKLKDKPFSLVLEEDGTIVETEEYFQALAKDTMFMVLLKGQKWKPP 4maf-a4-m1-cF_4maf-a4-m1-cG Soybean ATP Sulfurylase Q8SAG1 Q8SAG1 2.48 X-RAY DIFFRACTION 79 1.0 3847 (Glycine max) 3847 (Glycine max) 401 404 4maf-a1-m1-cH_4maf-a1-m1-cA 4maf-a2-m1-cC_4maf-a2-m1-cB 4maf-a3-m1-cD_4maf-a3-m1-cE MLIEPDGGKLVELVVTDFERDLKKGEALSLPRIKLSRIDLEWVHVLSEGWATPLKGFMREAEFLQTLHFNSLRLDDGSVVNMSVPIVLAIDDAQKHRIGDNKKVALFDSKGDPVAILNNIEIYKHPKEERIARTWGTIAPGLPYVEQTITNAGNWLIGGDLEVIEPIQYNDGLDHFRLSPTQLRAEFTRRNADAVFAFQLRNPVHNGHALLMTDTRKRLLEMGYKNPVLLLHPLGGYTKADDVPLDWRMKQHEKVLEDGVLDPETTVVSIFPSPMHYAGPTEVQWHAKARINAGANFYIVGRDPAGMSHPVEKRDLYDADHGKKVLSMAPGLERLNILPFRVAAYDKTQGKMAFFDPSRPQDFLFISGTKMRTLARNKESPPDGFMCPGGWKVLVDYYDSL MLIEPDGGKLVELVVTDFERDLKKGEALSLPRIKLSRIDLEWVHVLSEGWATPLKGFMREAEFLQTLHFNSLRLDDGSVVNMSVPIVLAIDDAQKHRIGDNKKVALFDSKGDPVAILNNIEIYKHPKEERIARTWGTIAPGLPYVEQTITNAGNWLIGGDLEVIEPIQYNDGLDHFRLSPTQLRAEFTRRNADAVFAFQLRNPVHNGHALLMTDTRKRLLEMGYKNPVLLLHPLGGYTKADDVPLDWRMKQHEKVLEDGVLDPETTVVSIFPSPMHYAGPTEVQWHAKARINAGANFYIVGRDPAGMSHPVEKRDLYDADHGKKVLSMAPGLERLNILPFRVAAYDKTQGKMAFFDPSRPQDFLFISGTKMRTLARNKESPPDGFMCPGGWKVLVDYYDSLVLS 4maq-a1-m1-cA_4maq-a1-m1-cB Crystal Structure of a putative fumarylpyruvate hydrolase from Burkholderia cenocepacia B4EKU2 B4EKU2 1.4 X-RAY DIFFRACTION 142 0.991 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 224 230 SAYVIDAAERPSVEVDQSSARFPVRRVFCVGRNYADHADREPPFFFTKPADAIVPASGTVAYPPLTNDLHHEIELVVAIGKDGRSIDPADALSHVWGYGVGVDLTRRDLQAEAKKLSRPWDWAKGFDASGPVTALRAATATGHPAAGRIWLAVNGDTRQQGDLADMIWPVPDVIAYVSRSVELKAGDLIFTGTPAGVGALQPGDRVTGGVDGIATFEFVVGAKP AHHHHHHMSAYVIDAAERPSVEVDQSSARFPVRRVFCVGRNYADDREPPFFFTKPADAIVPASGTVAYPPLTNDLHHEIELVVAIGKDGRSIDPADALSHVWGYGVGVDLTRRDLQAEAKKLSRPWDWAKGFDASGPVTALRAATATGHPAAGRIWLAVNGDTRQQGDLADMIWPVPDVIAYVSRSVELKAGDLIFTGTPAGVGALQPGDRVTGGVDGIATFEFVVGAKP 4mb7-a2-m1-cA_4mb7-a2-m2-cA Crystal Structure of a viral DNA glycosylase Q5UNW7 Q5UNW7 2.04 X-RAY DIFFRACTION 69 1.0 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 273 273 VEAPRIRITYEKIRHTKNHRIVSISGPSYKRMNVDLIDYIIRKWWFAGKYIYLMLISSNKPTYVIRTHMMMHGRILVGNQDSPTKRAFMIIQLDNDIVLRWYRSQITLLDPNCLAEIKTNYTICTTRQAIMDSIKLMKYDLSNNRFDYNLFQSHLKNGINIHSSEIITDFLLDQEYFPGVGNILQQEALYDCKILPLKKVQDIDEPMFDCLCNSLKKIIDLLYESYKFRESGKEFGPILRIYRKSLCPLGHKTIRKKIGLRNRMTTWCPVCQL VEAPRIRITYEKIRHTKNHRIVSISGPSYKRMNVDLIDYIIRKWWFAGKYIYLMLISSNKPTYVIRTHMMMHGRILVGNQDSPTKRAFMIIQLDNDIVLRWYRSQITLLDPNCLAEIKTNYTICTTRQAIMDSIKLMKYDLSNNRFDYNLFQSHLKNGINIHSSEIITDFLLDQEYFPGVGNILQQEALYDCKILPLKKVQDIDEPMFDCLCNSLKKIIDLLYESYKFRESGKEFGPILRIYRKSLCPLGHKTIRKKIGLRNRMTTWCPVCQL 4mb8-a1-m1-cA_4mb8-a1-m1-cD Evolutionary history and metabolic insights of ancient mammalian uricases Q5FZI9 Q5FZI9 2.4009 X-RAY DIFFRACTION 11 1.0 1002697 (unclassified Mammalia) 1002697 (unclassified Mammalia) 285 290 4mb8-a1-m1-cC_4mb8-a1-m1-cB VEFVRTGYGKDMVKVLHIQRDGKYHSIKEVATSVQLTLSSKKDYLHGDNSDIIPTDTIKNTVHVLAKFKGIKSIEAFAMNICEHFLSSFNHVIRAQVYVEEVPWKRFEKNGVKHVHAFIHTPTGTHFCEVEQMKSGPPVIHSGIKDLKVLKTTQSGFEGFIKDQFTTLPEVKDRCFATQVYCKWRYHQGRDVDFEATWDTVRDIVLKKFAGPYDKGEYSPSVQKTLYDIQVLSLSRVPEIEDMEISLPNIHYFNIDMSKMGLINKEEVLLPLDNPYGKITGTVKR VEFVRTGYGKDMVKVLHIQRDGKYHSIKEVATSVQLTLSSKKDYLHGDNSDIIPTDTIKNTVHVLAKFKGIKSIEAFAMNICEHFLSSFNHVIRAQVYVEEVPWKRFEKNGVKHVHAFIHTPTGTHFCEVEQMKSGPPVIHSGIKDLKVLKTTQSGFEGFIKDQFTTLPEVKDRCFATQVYCKWRYHQGRDVDFEATWDTVRDIVLKKFAGPYDKGEYSPSVQKTLYDIQVLSLSRVPEIEDMEISLPNIHYFNIDMSKMGLINKEEVLLPLDNPYGKITGTVKRKLSSR 4mb8-a1-m1-cB_4mb8-a1-m1-cD Evolutionary history and metabolic insights of ancient mammalian uricases Q5FZI9 Q5FZI9 2.4009 X-RAY DIFFRACTION 184 1.0 1002697 (unclassified Mammalia) 1002697 (unclassified Mammalia) 286 290 4mb8-a1-m1-cA_4mb8-a1-m1-cC VEFVRTGYGKDMVKVLHIQRDGKYHSIKEVATSVQLTLSSKKDYLHGDNSDIIPTDTIKNTVHVLAKFKGIKSIEAFAMNICEHFLSSFNHVIRAQVYVEEVPWKRFEKNGVKHVHAFIHTPTGTHFCEVEQMKSGPPVIHSGIKDLKVLKTTQSGFEGFIKDQFTTLPEVKDRCFATQVYCKWRYHQGRDVDFEATWDTVRDIVLKKFAGPYDKGEYSPSVQKTLYDIQVLSLSRVPEIEDMEISLPNIHYFNIDMSKMGLINKEEVLLPLDNPYGKITGTVKRK VEFVRTGYGKDMVKVLHIQRDGKYHSIKEVATSVQLTLSSKKDYLHGDNSDIIPTDTIKNTVHVLAKFKGIKSIEAFAMNICEHFLSSFNHVIRAQVYVEEVPWKRFEKNGVKHVHAFIHTPTGTHFCEVEQMKSGPPVIHSGIKDLKVLKTTQSGFEGFIKDQFTTLPEVKDRCFATQVYCKWRYHQGRDVDFEATWDTVRDIVLKKFAGPYDKGEYSPSVQKTLYDIQVLSLSRVPEIEDMEISLPNIHYFNIDMSKMGLINKEEVLLPLDNPYGKITGTVKRKLSSR 4mb8-a1-m1-cC_4mb8-a1-m1-cD Evolutionary history and metabolic insights of ancient mammalian uricases Q5FZI9 Q5FZI9 2.4009 X-RAY DIFFRACTION 247 1.0 1002697 (unclassified Mammalia) 1002697 (unclassified Mammalia) 285 290 4mb8-a1-m1-cA_4mb8-a1-m1-cB VEFVRTGYGKDMVKVLHIQRDGKYHSIKEVATSVQLTLSSKKDYLHGDNSDIIPTDTIKNTVHVLAKFKGIKSIEAFAMNICEHFLSSFNHVIRAQVYVEEVPWKRFEKNGVKHVHAFIHTPTGTHFCEVEQMKSGPPVIHSGIKDLKVLKTTQSGFEGFIKDQFTTLPEVKDRCFATQVYCKWRYHQGVDFEATWDTVRDIVLKKFAGPYDKGEYSPSVQKTLYDIQVLSLSRVPEIEDMEISLPNIHYFNIDMSKMGLINKEEVLLPLDNPYGKITGTVKRKL VEFVRTGYGKDMVKVLHIQRDGKYHSIKEVATSVQLTLSSKKDYLHGDNSDIIPTDTIKNTVHVLAKFKGIKSIEAFAMNICEHFLSSFNHVIRAQVYVEEVPWKRFEKNGVKHVHAFIHTPTGTHFCEVEQMKSGPPVIHSGIKDLKVLKTTQSGFEGFIKDQFTTLPEVKDRCFATQVYCKWRYHQGRDVDFEATWDTVRDIVLKKFAGPYDKGEYSPSVQKTLYDIQVLSLSRVPEIEDMEISLPNIHYFNIDMSKMGLINKEEVLLPLDNPYGKITGTVKRKLSSR 4mbb-a2-m2-cA_4mbb-a2-m3-cA Cubic crystal form of PIR1 dual specificity phosphatase core O75319 O75319 1.849 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 4mbb-a2-m1-cA_4mbb-a2-m2-cA 4mbb-a2-m1-cA_4mbb-a2-m3-cA GPLGSNHIPERWKDYLPVGQRMPGTRFIAFKVPLQKSFEKKLAPEECFSPLDLFNKIREQNEELGLIIDLTYTQRYYKPEDLPETVPYLKIFTVGHQVPDDETIFKFKHAVNGFLKENKDNDKLIGVHSTHGLNRTGYLICRYLIDVEGVRPDDAIELFNRCRGHCLERQNYIEDLQNGPIRKN GPLGSNHIPERWKDYLPVGQRMPGTRFIAFKVPLQKSFEKKLAPEECFSPLDLFNKIREQNEELGLIIDLTYTQRYYKPEDLPETVPYLKIFTVGHQVPDDETIFKFKHAVNGFLKENKDNDKLIGVHSTHGLNRTGYLICRYLIDVEGVRPDDAIELFNRCRGHCLERQNYIEDLQNGPIRKN 4mbo-a2-m1-cA_4mbo-a2-m2-cA 1.65 Angstrom Crystal Structure of Serine-rich Repeat Adhesion Glycoprotein (Srr1) from Streptococcus agalactiae Q8E473 Q8E473 1.65 X-RAY DIFFRACTION 37 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 307 307 MLGKDVSSELQKVNIALKDNTLSEPGTVKLDSSENLVLNFAFSIASVNEGDVFTVKLSDNLDTQGIGTILKVQDIMDETGQLLATGSYSPLTHNITYTWTRYASTLNNIKARVNMPVWPDQRIISKTTSDKQCFTATLNNQVASIEERVQYNSPSVTEHTNVKTNVRSRIMKLDDERQTETYITQINPEGKEMYFASGLGNLYTIIGSDGSPVNLLNAEVKILKTNSKNLTDSMDQNYDSPEFEDVTSQYSYTNDGSKITIDWKTNSISSTTSYVVLVKIPQSGVLYSTVSDINQTYGSKYSYGHTN MLGKDVSSELQKVNIALKDNTLSEPGTVKLDSSENLVLNFAFSIASVNEGDVFTVKLSDNLDTQGIGTILKVQDIMDETGQLLATGSYSPLTHNITYTWTRYASTLNNIKARVNMPVWPDQRIISKTTSDKQCFTATLNNQVASIEERVQYNSPSVTEHTNVKTNVRSRIMKLDDERQTETYITQINPEGKEMYFASGLGNLYTIIGSDGSPVNLLNAEVKILKTNSKNLTDSMDQNYDSPEFEDVTSQYSYTNDGSKITIDWKTNSISSTTSYVVLVKIPQSGVLYSTVSDINQTYGSKYSYGHTN 4mbq-a2-m1-cC_4mbq-a2-m1-cD TPR3 of FimV from P. aeruginosa (PAO1) Q9HZA6 Q9HZA6 2.006 X-RAY DIFFRACTION 25 0.98 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 51 51 4mbq-a1-m1-cA_4mbq-a1-m1-cB SGADEAATKLDLARAYIDMGDSEGARDILDEVLAEGNDSQQAEARELLERL GADEAATKLDLARAYIDMGDSEGARDILDEVLAEGNDSQQAEARELLERLA 4mbq-a2-m1-cF_4mbq-a2-m1-cD TPR3 of FimV from P. aeruginosa (PAO1) Q9HZA6 Q9HZA6 2.006 X-RAY DIFFRACTION 24 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 50 51 4mbq-a1-m1-cA_4mbq-a1-m1-cE GADEAATKLDLARAYIDMGDSEGARDILDEVLAEGNDSQQAEARELLERL GADEAATKLDLARAYIDMGDSEGARDILDEVLAEGNDSQQAEARELLERLA 4mbu-a1-m2-cB_4mbu-a1-m2-cA Crystal structure of N-acetyltransferase from Staphylococcus aureus Mu50 A0A0H3JXG2 A0A0H3JXG2 2.15 X-RAY DIFFRACTION 103 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 162 165 4mbu-a1-m1-cB_4mbu-a1-m1-cA MIRCAKKEDLNAILAIYNDAIINTTAVYTYKPQTIDERIAWFETKQRNHEPIFVFEENGSVLGFATFGSFRPWPAYQYTIEHSIYVDASARGKGIASQLLQRLIVEAKAKGYRTLVAGIDASNEASIKLHQKFNFKHAGTLTNVGYKFDYWLDLAFYELDLK SNAMIRCAKKEDLNAILAIYNDAIINTTAVYTYKPQTIDERIAWFETKQRNHEPIFVFEENGSVLGFATFGSFRPWPAYQYTIEHSIYVDASARGKGIASQLLQRLIVEAKAKGYRTLVAGIDASNEASIKLHQKFNFKHAGTLTNVGYKFDYWLDLAFYELDLK 4mc2-a1-m1-cA_4mc2-a1-m1-cB HIV protease in complex with SA525P P0C6F2 P0C6F2 1.56 X-RAY DIFFRACTION 142 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 1a30-a1-m1-cA_1a30-a1-m1-cB 1a8g-a1-m1-cA_1a8g-a1-m1-cB 1a8k-a1-m1-cA_1a8k-a1-m1-cB 1a8k-a2-m1-cD_1a8k-a2-m1-cE 1a94-a1-m1-cA_1a94-a1-m1-cB 1a94-a2-m1-cD_1a94-a2-m1-cE 1a9m-a1-m1-cA_1a9m-a1-m1-cB 1aaq-a1-m1-cA_1aaq-a1-m1-cB 1ajv-a1-m1-cA_1ajv-a1-m1-cB 1ajx-a1-m1-cA_1ajx-a1-m1-cB 1axa-a1-m1-cA_1axa-a1-m1-cB 1b6j-a1-m1-cA_1b6j-a1-m1-cB 1b6k-a1-m1-cA_1b6k-a1-m1-cB 1b6l-a1-m1-cA_1b6l-a1-m1-cB 1b6m-a1-m1-cA_1b6m-a1-m1-cB 1b6p-a1-m1-cA_1b6p-a1-m1-cB 1bdl-a1-m1-cA_1bdl-a1-m1-cB 1bdq-a1-m1-cA_1bdq-a1-m1-cB 1bdr-a1-m1-cA_1bdr-a1-m1-cB 1bv7-a1-m1-cA_1bv7-a1-m1-cB 1bv9-a1-m1-cA_1bv9-a1-m1-cB 1bve-a1-m1-cA_1bve-a1-m1-cB 1bvg-a1-m1-cA_1bvg-a1-m1-cB 1bwa-a1-m1-cA_1bwa-a1-m1-cB 1bwb-a1-m1-cA_1bwb-a1-m1-cB 1c6x-a1-m1-cA_1c6x-a1-m1-cB 1c6y-a1-m1-cA_1c6y-a1-m1-cB 1c6z-a1-m1-cA_1c6z-a1-m1-cB 1c70-a1-m1-cA_1c70-a1-m1-cB 1cpi-a1-m1-cA_1cpi-a1-m1-cB 1d4h-a1-m1-cA_1d4h-a1-m1-cB 1d4i-a1-m1-cA_1d4i-a1-m1-cB 1d4j-a1-m1-cA_1d4j-a1-m1-cB 1d4k-a1-m1-cA_1d4k-a1-m1-cB 1d4l-a1-m1-cA_1d4l-a1-m1-cB 1d4s-a1-m1-cA_1d4s-a1-m1-cB 1d4y-a1-m1-cA_1d4y-a1-m1-cB 1daz-a1-m1-cC_1daz-a1-m1-cD 1dif-a1-m1-cA_1dif-a1-m1-cB 1dmp-a1-m1-cA_1dmp-a1-m1-cB 1dw6-a1-m1-cC_1dw6-a1-m1-cD 1ebk-a1-m1-cC_1ebk-a1-m1-cD 1ebk-a2-m1-cE_1ebk-a2-m1-cF 1ebw-a1-m1-cA_1ebw-a1-m1-cB 1eby-a1-m1-cA_1eby-a1-m1-cB 1ebz-a1-m1-cA_1ebz-a1-m1-cB 1ec0-a1-m1-cA_1ec0-a1-m1-cB 1ec1-a1-m1-cA_1ec1-a1-m1-cB 1ec2-a1-m1-cA_1ec2-a1-m1-cB 1ec3-a1-m1-cA_1ec3-a1-m1-cB 1fb7-a1-m1-cA_1fb7-a1-m2-cA 1fej-a1-m1-cC_1fej-a1-m1-cD 1ff0-a1-m1-cC_1ff0-a1-m1-cD 1fff-a1-m1-cC_1fff-a1-m1-cD 1ffi-a1-m1-cC_1ffi-a1-m1-cD 1fg6-a1-m1-cC_1fg6-a1-m1-cD 1fg8-a1-m1-cC_1fg8-a1-m1-cD 1fgc-a1-m1-cC_1fgc-a1-m1-cD 1fqx-a1-m1-cA_1fqx-a1-m1-cB 1g2k-a1-m1-cA_1g2k-a1-m1-cB 1g35-a1-m1-cA_1g35-a1-m1-cB 1gnm-a1-m1-cA_1gnm-a1-m1-cB 1gnn-a1-m1-cA_1gnn-a1-m1-cB 1gno-a1-m1-cA_1gno-a1-m1-cB 1hbv-a1-m1-cA_1hbv-a1-m1-cB 1hef-a1-m1-cE_1hef-a1-m2-cE 1heg-a1-m1-cE_1heg-a1-m2-cE 1hih-a1-m1-cA_1hih-a1-m1-cB 1hiv-a1-m1-cA_1hiv-a1-m1-cB 1hos-a1-m1-cA_1hos-a1-m1-cB 1hpo-a1-m1-cA_1hpo-a1-m1-cB 1hps-a1-m1-cA_1hps-a1-m1-cB 1hpv-a1-m1-cA_1hpv-a1-m1-cB 1hpx-a1-m1-cA_1hpx-a1-m1-cB 1hsg-a1-m1-cA_1hsg-a1-m1-cB 1hte-a1-m1-cA_1hte-a1-m1-cB 1htf-a1-m1-cA_1htf-a1-m1-cB 1htg-a1-m1-cA_1htg-a1-m1-cB 1hvh-a1-m1-cA_1hvh-a1-m1-cB 1hvi-a1-m1-cA_1hvi-a1-m1-cB 1hvj-a1-m1-cA_1hvj-a1-m1-cB 1hvk-a1-m1-cA_1hvk-a1-m1-cB 1hvl-a1-m1-cA_1hvl-a1-m1-cB 1hvr-a1-m1-cA_1hvr-a1-m1-cB 1hvs-a1-m1-cA_1hvs-a1-m1-cB 1hwr-a1-m1-cA_1hwr-a1-m1-cB 1hxb-a1-m1-cA_1hxb-a1-m1-cB 1hxw-a1-m1-cA_1hxw-a1-m1-cB 1iiq-a1-m1-cA_1iiq-a1-m1-cB 1izh-a1-m1-cA_1izh-a1-m1-cB 1izi-a1-m1-cA_1izi-a1-m1-cB 1k1t-a1-m1-cA_1k1t-a1-m1-cB 1k1u-a1-m1-cA_1k1u-a1-m1-cB 1k2b-a1-m1-cA_1k2b-a1-m1-cB 1k2c-a1-m1-cA_1k2c-a1-m1-cB 1kj4-a1-m1-cA_1kj4-a1-m1-cB 1kj4-a2-m1-cC_1kj4-a2-m1-cD 1kj4-a3-m1-cA_1kj4-a3-m1-cB 1kj4-a3-m1-cC_1kj4-a3-m1-cD 1kj4-a3-m2-cA_1kj4-a3-m2-cB 1kj4-a3-m2-cC_1kj4-a3-m2-cD 1kj4-a3-m3-cA_1kj4-a3-m3-cB 1kj4-a3-m3-cC_1kj4-a3-m3-cD 1kj4-a3-m4-cA_1kj4-a3-m4-cB 1kj4-a3-m4-cC_1kj4-a3-m4-cD 1kzk-a1-m1-cA_1kzk-a1-m1-cB 1lzq-a1-m1-cA_1lzq-a1-m1-cB 1m0b-a1-m1-cA_1m0b-a1-m1-cB 1mer-a1-m1-cA_1mer-a1-m1-cB 1mes-a1-m1-cA_1mes-a1-m1-cB 1met-a1-m1-cA_1met-a1-m1-cB 1meu-a1-m1-cA_1meu-a1-m1-cB 1mrw-a1-m1-cA_1mrw-a1-m1-cB 1mrx-a1-m1-cA_1mrx-a1-m1-cB 1msm-a1-m1-cA_1msm-a1-m1-cB 1msn-a1-m1-cA_1msn-a1-m1-cB 1mtr-a1-m1-cA_1mtr-a1-m1-cB 1mui-a1-m1-cA_1mui-a1-m1-cB 1nh0-a1-m1-cA_1nh0-a1-m1-cB 1npa-a1-m1-cA_1npa-a1-m1-cB 1npv-a1-m1-cA_1npv-a1-m1-cB 1npw-a1-m1-cA_1npw-a1-m1-cB 1odw-a1-m1-cA_1odw-a1-m1-cB 1odx-a1-m1-cA_1odx-a1-m1-cB 1ody-a1-m1-cA_1ody-a1-m1-cB 1ohr-a1-m1-cA_1ohr-a1-m1-cB 1pro-a1-m1-cA_1pro-a1-m1-cB 1qbr-a1-m1-cA_1qbr-a1-m1-cB 1qbs-a1-m1-cA_1qbs-a1-m1-cB 1qbt-a1-m1-cA_1qbt-a1-m1-cB 1qbu-a1-m1-cA_1qbu-a1-m1-cB 1rl8-a1-m1-cA_1rl8-a1-m1-cB 1sbg-a1-m1-cA_1sbg-a1-m1-cB 1sdt-a1-m1-cA_1sdt-a1-m1-cB 1sdu-a1-m1-cA_1sdu-a1-m1-cB 1sdv-a1-m1-cA_1sdv-a1-m1-cB 1sp5-a1-m1-cA_1sp5-a1-m1-cB 1sp5-a1-m1-cI_1sp5-a1-m1-cA 1sp5-a1-m1-cI_1sp5-a1-m1-cB 1t3r-a1-m1-cA_1t3r-a1-m1-cB 1t7i-a1-m1-cA_1t7i-a1-m1-cB 1t7j-a1-m1-cA_1t7j-a1-m1-cB 1t7k-a1-m1-cA_1t7k-a1-m1-cB 1tcx-a1-m1-cA_1tcx-a1-m1-cB 1tsu-a1-m1-cA_1tsu-a1-m1-cB 1u8g-a1-m1-cA_1u8g-a1-m1-cB 1upj-a1-m1-cA_1upj-a1-m2-cA 1vij-a1-m1-cA_1vij-a1-m1-cB 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6opv-a1-m1-cA_6opv-a1-m1-cB 6opw-a1-m1-cA_6opw-a1-m1-cB 6opx-a1-m1-cA_6opx-a1-m1-cB 6opy-a1-m1-cA_6opy-a1-m1-cB 6opz-a1-m1-cA_6opz-a1-m1-cB 6otg-a1-m1-cA_6otg-a1-m1-cB 6oxo-a1-m1-cA_6oxo-a1-m1-cB 6oxp-a1-m1-cA_6oxp-a1-m1-cB 6oxq-a1-m1-cA_6oxq-a1-m1-cB 6oxr-a1-m1-cA_6oxr-a1-m1-cB 6oxs-a1-m1-cA_6oxs-a1-m1-cB 6oxt-a1-m1-cA_6oxt-a1-m1-cB 6oxu-a1-m1-cA_6oxu-a1-m1-cB 6oxv-a1-m1-cA_6oxv-a1-m1-cB 6oxw-a1-m1-cA_6oxw-a1-m1-cB 6oxx-a1-m1-cA_6oxx-a1-m1-cB 6oxy-a1-m1-cA_6oxy-a1-m1-cB 6oxz-a1-m1-cA_6oxz-a1-m1-cB 6oy0-a1-m1-cA_6oy0-a1-m1-cB 6oy1-a1-m1-cA_6oy1-a1-m1-cB 6oy2-a1-m1-cA_6oy2-a1-m1-cB 6oyd-a1-m1-cA_6oyd-a1-m2-cA 6oyr-a1-m1-cA_6oyr-a1-m2-cA 6pjb-a1-m1-cA_6pjb-a1-m1-cB 6pjc-a1-m1-cA_6pjc-a1-m1-cB 6pjc-a2-m1-cC_6pjc-a2-m1-cD 6pjd-a1-m1-cA_6pjd-a1-m1-cB 6pje-a1-m1-cA_6pje-a1-m1-cB 6pjf-a1-m1-cA_6pjf-a1-m1-cB 6pjg-a1-m1-cA_6pjg-a1-m1-cB 6pjh-a1-m1-cA_6pjh-a1-m1-cB 6pji-a1-m1-cA_6pji-a1-m1-cB 6pjk-a1-m1-cA_6pjk-a1-m1-cB 6pjl-a1-m1-cA_6pjl-a1-m1-cB 6pjm-a1-m1-cA_6pjm-a1-m1-cB 6pjn-a1-m1-cA_6pjn-a1-m1-cB 6pjo-a1-m1-cA_6pjo-a1-m1-cB 6ptp-a1-m1-cA_6ptp-a1-m1-cB 6pu8-a1-m1-cA_6pu8-a1-m1-cB 6u7o-a1-m1-cA_6u7o-a1-m1-cB 6u7p-a1-m1-cA_6u7p-a1-m1-cB 6uwb-a1-m1-cA_6uwb-a1-m1-cB 6uwc-a1-m1-cA_6uwc-a1-m1-cB 6vce-a1-m1-cA_6vce-a1-m1-cB 6vod-a1-m1-cA_6vod-a1-m1-cB 6voe-a1-m1-cA_6voe-a1-m1-cB 6w6t-a1-m1-cA_6w6t-a1-m1-cB 7hvp-a1-m1-cA_7hvp-a1-m1-cB 7ldy-a1-m1-cA_7ldy-a1-m1-cB 7ldz-a1-m1-cA_7ldz-a1-m1-cB 7le0-a1-m1-cA_7le0-a1-m1-cB 7le1-a1-m1-cA_7le1-a1-m1-cB 7le2-a1-m1-cA_7le2-a1-m1-cB 7le3-a1-m1-cA_7le3-a1-m1-cB 7le4-a1-m1-cA_7le4-a1-m1-cB 7le5-a1-m1-cA_7le5-a1-m1-cB 7le6-a1-m1-cA_7le6-a1-m1-cB 7le7-a1-m1-cA_7le7-a1-m1-cB 7le8-a1-m1-cA_7le8-a1-m1-cB 7le9-a1-m1-cA_7le9-a1-m1-cB 7lea-a1-m1-cA_7lea-a1-m1-cB 7leb-a1-m1-cA_7leb-a1-m1-cB 7lec-a1-m1-cA_7lec-a1-m1-cB 7led-a1-m1-cA_7led-a1-m1-cB 7lee-a1-m1-cA_7lee-a1-m1-cB 7lef-a1-m1-cA_7lef-a1-m1-cB 7leg-a1-m1-cA_7leg-a1-m1-cB 7leh-a1-m1-cA_7leh-a1-m1-cB 7lei-a1-m1-cA_7lei-a1-m1-cB 7m9g-a1-m1-cA_7m9g-a1-m1-cB 7m9h-a1-m1-cA_7m9h-a1-m1-cB 7m9i-a1-m1-cA_7m9i-a1-m1-cB 7m9j-a1-m1-cA_7m9j-a1-m1-cB 7m9k-a1-m1-cA_7m9k-a1-m1-cB 7m9l-a1-m1-cA_7m9l-a1-m1-cB 7m9m-a1-m1-cA_7m9m-a1-m1-cB 7m9n-a1-m1-cA_7m9n-a1-m1-cB 7m9o-a1-m1-cA_7m9o-a1-m1-cB 7m9p-a1-m1-cA_7m9p-a1-m1-cB 7m9q-a1-m1-cA_7m9q-a1-m1-cB 7m9r-a1-m1-cA_7m9r-a1-m1-cB 7m9s-a1-m1-cA_7m9s-a1-m1-cB 7m9t-a1-m1-cA_7m9t-a1-m1-cB 7m9u-a1-m1-cA_7m9u-a1-m1-cB 7m9v-a1-m1-cA_7m9v-a1-m1-cB 7m9w-a1-m1-cA_7m9w-a1-m1-cB 7m9x-a1-m1-cA_7m9x-a1-m1-cB 7m9z-a1-m1-cA_7m9z-a1-m1-cB 7ma0-a1-m1-cA_7ma0-a1-m1-cB 7ma1-a1-m1-cA_7ma1-a1-m1-cB 7ma2-a1-m1-cA_7ma2-a1-m1-cB 7ma3-a1-m1-cA_7ma3-a1-m1-cB 7ma4-a1-m1-cA_7ma4-a1-m1-cB 7ma5-a1-m1-cA_7ma5-a1-m1-cB 7ma6-a1-m1-cA_7ma6-a1-m1-cB 7ma7-a1-m1-cA_7ma7-a1-m1-cB 7ma8-a1-m1-cA_7ma8-a1-m1-cB 7ma9-a1-m1-cA_7ma9-a1-m1-cB 7maa-a1-m1-cA_7maa-a1-m1-cB 7mab-a1-m1-cA_7mab-a1-m1-cB 7mac-a1-m1-cA_7mac-a1-m1-cB 7mad-a1-m1-cA_7mad-a1-m1-cB 7mae-a1-m1-cA_7mae-a1-m1-cB 7maf-a1-m1-cA_7maf-a1-m1-cB 7mag-a1-m1-cA_7mag-a1-m1-cB 7mah-a1-m1-cA_7mah-a1-m1-cB 7mai-a1-m1-cA_7mai-a1-m1-cB 7maj-a1-m1-cA_7maj-a1-m1-cB 7mak-a1-m1-cA_7mak-a1-m1-cB 7mal-a1-m1-cA_7mal-a1-m1-cB 7man-a1-m1-cA_7man-a1-m1-cB 7mao-a1-m1-cA_7mao-a1-m1-cB 7map-a1-m1-cA_7map-a1-m1-cB 7map-a2-m1-cA_7map-a2-m1-cB 7maq-a1-m1-cA_7maq-a1-m1-cB 7maq-a2-m1-cA_7maq-a2-m1-cB 7to5-a1-m1-cA_7to5-a1-m1-cB 7to6-a1-m1-cA_7to6-a1-m1-cB 7upj-a1-m1-cA_7upj-a1-m1-cB 7wbs-a1-m1-cA_7wbs-a1-m1-cB 7wcq-a1-m1-cA_7wcq-a1-m2-cA 8esx-a1-m1-cA_8esx-a1-m1-cB 8esy-a1-m1-cA_8esy-a1-m1-cB 8f0f-a1-m1-cA_8f0f-a1-m1-cB 8fui-a1-m1-cA_8fui-a1-m1-cB 8fuj-a1-m1-cA_8fuj-a1-m1-cB 8hvp-a1-m1-cA_8hvp-a1-m1-cB 9hvp-a1-m1-cA_9hvp-a1-m1-cB PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF PQITLWKRPLVTIKIGGQLKEALLDTGADDTVIEEMSLPGRWKPKMIGGIGGFIKVRQYDQIIIEICGHKAIGTVLVGPTPVNIIGRNLLTQIGCTLNF 4mc7-a1-m1-cB_4mc7-a1-m1-cC Crystal structure of a subtype N11 neuraminidase-like protein of A/flat-faced bat/Peru/033/2010 (H18N11) 2.99 X-RAY DIFFRACTION 66 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 363 363 4k3y-a1-m1-cA_4k3y-a1-m1-cB 4k3y-a1-m1-cA_4k3y-a1-m1-cC 4k3y-a1-m1-cD_4k3y-a1-m1-cB 4k3y-a1-m1-cD_4k3y-a1-m1-cC 4mc7-a1-m1-cA_4mc7-a1-m1-cC 4mc7-a1-m1-cA_4mc7-a1-m1-cD 4mc7-a1-m1-cB_4mc7-a1-m1-cD ATPLVLGENLCSINGWVPTYRGEGTTGKIPDEQMLTRQNFVSCSDKECRRFFVSMGYGTTTNFADLIVSEQMNVYSVKLGDPPTPDKLKFEAVGWSASSCHDGFQWTVLSVAGDGFVSILYGGIITDTIHPTNGGPLRTQASSCICNDGTCYTIIADGTTYTASSHRLYRLVNGTSAGWKALDTTGFNFEFPTCYYTSGKVKCTGTNLWNDAKRPFLEFDQSFTYTFKEPCLGFLGDTPRGIDTTNYCDKTTTEGEGGIQGFMIEGSNSWIGRIINPGSKKGFEIYKFLGTLFSVQTVGNRNYQLLSNSTIGRSGLYQPAYESRDCQELCFWIEIAATTKAGLSSNDLITFCGTGGSMPDVNW ATPLVLGENLCSINGWVPTYRGEGTTGKIPDEQMLTRQNFVSCSDKECRRFFVSMGYGTTTNFADLIVSEQMNVYSVKLGDPPTPDKLKFEAVGWSASSCHDGFQWTVLSVAGDGFVSILYGGIITDTIHPTNGGPLRTQASSCICNDGTCYTIIADGTTYTASSHRLYRLVNGTSAGWKALDTTGFNFEFPTCYYTSGKVKCTGTNLWNDAKRPFLEFDQSFTYTFKEPCLGFLGDTPRGIDTTNYCDKTTTEGEGGIQGFMIEGSNSWIGRIINPGSKKGFEIYKFLGTLFSVQTVGNRNYQLLSNSTIGRSGLYQPAYESRDCQELCFWIEIAATTKAGLSSNDLITFCGTGGSMPDVNW 4mcj-a1-m1-cA_4mcj-a1-m1-cB Crystal structure of a putative nucleoside deoxyribosyltransferase (BDI_0649) from Parabacteroides distasonis ATCC 8503 at 2.40 A resolution A6L9R1 A6L9R1 2.4 X-RAY DIFFRACTION 57 0.986 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 143 145 4mcj-a2-m1-cD_4mcj-a2-m1-cC 4mcj-a3-m1-cE_4mcj-a3-m1-cF 4mcj-a4-m1-cH_4mcj-a4-m1-cG 4mcj-a5-m1-cI_4mcj-a5-m1-cJ GAQSEVVVLYPDTENKDLDEAVYQKIFLAGTIDDWQKATCDWFRALPEGRYLLFNPRRDKGLSGESDFEHQVNWELEHLEKADLIINILASSKSPITLLEGLFRSGKLRVICEPGFYRYDNVRLTCARYGVPLYQNDDFLKTR AQSEVVVLYPDTENKDLDEAVYQKIFLAGTIDGKSVDWQKATCDWFRALPEGRYLLFNPRRDKGLSGESDFEHQVNWELEHLEKADLIINILASSKSPITLLEGLFRSGKLRVICEPGFYRYDNVRLTCARYGVPLYQNDDFLKT 4mcw-a1-m1-cA_4mcw-a1-m1-cB Crystal structure of a HD-GYP domain (a cyclic-di-GMP phosphodiesterase) containing a tri-nuclear metal centre C0QQ26 C0QQ26 2.03 X-RAY DIFFRACTION 184 1.0 123214 (Persephonella marina EX-H1) 123214 (Persephonella marina EX-H1) 361 363 4mdz-a1-m1-cA_4mdz-a1-m1-cB 4me4-a1-m1-cA_4me4-a1-m1-cB DPERKLKILLDYSSKIANEKDLRNVLLFLTDLAKEIMEADRASIFLYDDQKKTLWTIVAHGVDRIEIDADKGIAGYVFRTGEILNIPDAYKDPRFDRDIDKRTGYRTRTILAVPLFDRKQNIIGVFQVINKLTNSVFTEEDIELLRHISLYASSTIENAILYEKLKKAHEDVIYRLSHATKFKDPETQNHIIRVGLYAEILAREAGLDEEDVELVKLAAPMHDIGKVGIPDRVLLKPGKLNDEEWEIMKKHTIYGYEILKGGDSRLLQIAADIAIEHHERWDGTGYPFGKKGEEISIYGRMTSISDVFDALTSDRPYKKAWDMDRTVRFFKEQKGKHFDPFLTDIFLKNIDQMFSIKRELR YQDPERKLKILLDYSSKIANEKDLRNVLLFLTDLAKEIMEADRASIFLYDDQKKTLWTIVAHGVDRIEIDADKGIAGYVFRTGEILNIPDAYKDPRFDRDIDKRTGYRTRTILAVPLFDRKQNIIGVFQVINKLTNSVFTEEDIELLRHISLYASSTIENAILYEKLKKAHEDVIYRLSHATKFKDPETQNHIIRVGLYAEILAREAGLDEEDVELVKLAAPMHDIGKVGIPDRVLLKPGKLNDEEWEIMKKHTIYGYEILKGGDSRLLQIAADIAIEHHERWDGTGYPFGKKGEEISIYGRMTSISDVFDALTSDRPYKKAWDMDRTVRFFKEQKGKHFDPFLTDIFLKNIDQMFSIKRELR 4mcx-a1-m1-cC_4mcx-a1-m1-cA P. vulgaris HIGBA structure, crystal form 2 Q7A224 Q7A224 2.1 X-RAY DIFFRACTION 77 1.0 585 (Proteus vulgaris) 585 (Proteus vulgaris) 92 93 4mct-a1-m1-cA_4mct-a1-m1-cC 4mcx-a2-m1-cE_4mcx-a2-m2-cE 6chv-a1-m1-cC_6chv-a1-m1-cA 6chv-a2-m1-cB_6chv-a2-m1-cD 6chv-a3-m1-cH_6chv-a3-m1-cG MRQFKVSHPGEMIARDLEDMGVSGRRFAHNIGVTPATVSRLLAGKTALTPSLSIRIAAALGSTPEFWLRLQSNYDLRQLENQIDTSGIVLYG MRQFKVSHPGEMIARDLEDMGVSGRRFAHNIGVTPATVSRLLAGKTALTPSLSIRIAAALGSTPEFWLRLQSNYDLRQLENQIDTSGIVLYGE 4mdc-a2-m1-cC_4mdc-a2-m1-cD Crystal structure of glutathione S-transferase from Sinorhizobium meliloti 1021, NYSGRC target 021389 Q92SP3 Q92SP3 1.78 X-RAY DIFFRACTION 53 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 226 226 4mdc-a1-m1-cA_4mdc-a1-m1-cB FQSPTLYHHPSPASRFVRLILSEYGYQTELSEEQPWENRRDFLTLNPAGTLPVYVDDSRALCGATIISEYLDETSGIKRDRRLLAEDPFQRAEIRRLTEWFLQKEADVTRPLVRERIFKLQTPDQGGGAPDSKILRTSRSNIRQHKYLSWLAGSRPWLAGDRISYGDLAAAAAISVLDYLGEIDWSDAPTAKEWYQRLKSRPSFRPLLAERVRGVTPVSHYADLDF FQSPTLYHHPSPASRFVRLILSEYGYQTELSEEQPWENRRDFLTLNPAGTLPVYVDDSRALCGATIISEYLDETSGIKRDRRLLAEDPFQRAEIRRLTEWFLQKEADVTRPLVRERIFKLQTPDQGGGAPDSKILRTSRSNIRQHKYLSWLAGSRPWLAGDRISYGDLAAAAAISVLDYLGEIDWSDAPTAKEWYQRLKSRPSFRPLLAERVRGVTPVSHYADLDF 4mdv-a2-m1-cB_4mdv-a2-m1-cA Crystal structure of calcium-bound annexin (Sm)1 C4QH88 C4QH88 2.5 X-RAY DIFFRACTION 77 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 349 351 4mdu-a1-m1-cA_4mdu-a1-m1-cB 4mdv-a1-m1-cB_4mdv-a1-m1-cA ISEFGITRSLIHSFDPHGKHYRPTIKPTTGFSASADAERLHRSMKGPGTNELAIINILARRTNYERQEICQSYKSLYKQDLKDDLKSDTSGDFRKVLCQLIVDTPYMLAKSLYYAMKGLGTNDRVLIEIFTTLWNDEMKAVADAYKQVLKDKGSEESERSLVTDMKKETCGDYEYALLSLVQAERDDIPILQLKAIPDKGVNSIINHELAEADAKDLYAERRITRVICNRTPYQLYLTSEIYFKMYGKTLLEHIESETSGDYRKLLVAVLRYAIDRPSLIAEWLHDSMAGLGTKDYALMRLLITRSEIDLQDIMDAYESIYGKSLLNAVKDDTSGDYRRTLCVLMGEIY ISEFGITRSLIHSFDPHGKHYRPTIKPTTGFSASADAERLHRSMKGPGTNELAIINILARRTNYERQEICQSYKSLYKQDLKDDLKSDTSGDFRKVLCQLIVDTPYMLAKSLYYAMKGLGTNDRVLIEIFTTLWNDEMKAVADAYKQVLKDKGSEESERSLVTDMKKETCGDYEYALLSLVQAERDDIPILQLKAIPDKGVNSIINHELAEADAKDLYASERRITRVICNRTPYQLYLTSEIYFKMYGKTLLEHIESETSGDYRKLLVAVLRYAIDRPSLIAEWLHDSMAGLGTKDYALMRLLITRSEIDLQDIMDAYESIYGKSLLNAVKDDTSGDYRRTLCVLMGEIYN 4me7-a1-m1-cD_4me7-a1-m1-cC Crystal structure of Bacillus subtilis toxin MazF in complex with cognate antitoxin MazE P96622 P96622 2.918 X-RAY DIFFRACTION 63 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 100 107 4me7-a1-m1-cA_4me7-a1-m1-cB IVKRGDVYFADVRPVLVIQNDIGNRFSPTAIVAAITAQIQKAKLPTHVEIDAKRYGFERDSVILLEQIRTIDKQRLTDKITHLDDEDKVDEALQISLALI IVKRGDVYFADLSPVVGSVRPVLVIQNDIGNRFSPTAIVAAITAQIQKAKLPTHVEIDAKRYGFERDSVILLEQIRTIDKQRLTDKITHLDDEDKVDEALQISLALI 4me7-a1-m1-cE_4me7-a1-m1-cF Crystal structure of Bacillus subtilis toxin MazF in complex with cognate antitoxin MazE P96621 P96621 2.918 X-RAY DIFFRACTION 101 0.986 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 73 74 ARTEKISLPENLVAELDGVAREKRSRNELISQAVRAYVSERTTRHNRDLRRGYEAKINLNISSEAHFAECEAE RTEKISLPENLVAELDGVAREKRSRNELISQAVRAYVSERTTRHNRDLRRGYEAKINLNISSEAHFAECEAETT 4me9-a1-m1-cB_4me9-a1-m1-cA Crystal structure of a transcriptional regulator, TetR family (BCE_2991) from Bacillus cereus ATCC 10987 at 2.50 A resolution Q736B0 Q736B0 2.5 X-RAY DIFFRACTION 77 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 181 182 KNKQEDIFDAAQLFAERGYDGTTIPIAEKAKVGAGTIYRYFENKEALVNSLFSKSLQLSEIKTDFPVEANIREQFSHTYNRLFEFARNNVDAFLFTNSHCDSYFLDEQSKKIFDDFIGFFNIIEDGIVKGLLRPLPPVALIIIVYQPLEKLIKVIATGQLEYSKELVKELEESSWNAIRII AKNKQEDIFDAAQLFAERGYDGTTIPIAEKAKVGAGTIYRYFENKEALVNSLFSKSLQLSEIKTDFPVEANIREQFSHTYNRLFEFARNNVDAFLFTNSHCDSYFLDEQSKKIFDDFIGFFNIIEDGIVKGLLRPLPPVALIIIVYQPLEKLIKVIATGQLEYSKELVKELEESSWNAIRII 4mea-a1-m1-cB_4mea-a1-m1-cA Crystal structure of the Cif epoxide hydrolase from Acinetobacter nosocomialis 1.95 X-RAY DIFFRACTION 128 1.0 575564 (Acinetobacter sp. RUH 2624) 575564 (Acinetobacter sp. RUH 2624) 323 324 4meb-a1-m1-cA_4meb-a1-m1-cB YDPNLKSIDTPPAVSQQMFNKVKSNGLGQYAYAKGLSSKFIESEGVKLHYVEGGSKGTPIVFIHGFGSTWKMWEPVMLSYMKDHKVIAIDLPGLGQSGPILNDDYSAENTSKILIGAIKKIAGKGPIYYVSHDLGNTASYPLVANNQGYIKKAVFMDSPIPDRAMFEYPGYTADGPGLGWHFGYFSFGDIAEKQIANDPNLFFSYFIKTYAGKKEIFTPELLAELIEPYSTRDKLKAAFGYYRSHADSIRQNEALLANGKKLTIPSMALTGQKGVNDVLVKEMRARFVADPAQYTAIILPDTGHWMVEENAEGVEKSLSNFLF EYDPNLKSIDTPPAVSQQMFNKVKSNGLGQYAYAKGLSSKFIESEGVKLHYVEGGSKGTPIVFIHGFGSTWKMWEPVMLSYMKDHKVIAIDLPGLGQSGPILNDDYSAENTSKILIGAIKKIAGKGPIYYVSHDLGNTASYPLVANNQGYIKKAVFMDSPIPDRAMFEYPGYTADGPGLGWHFGYFSFGDIAEKQIANDPNLFFSYFIKTYAGKKEIFTPELLAELIEPYSTRDKLKAAFGYYRSHADSIRQNEALLANGKKLTIPSMALTGQKGVNDVLVKEMRARFVADPAQYTAIILPDTGHWMVEENAEGVEKSLSNFLF 4mel-a3-m1-cA_4mel-a3-m1-cB Crystal Structure of the human USP11 DUSP-UBL domains P51784 P51784 2.899 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 LPGLDSQWRQIENGESGRERPLRAGESWFLVEKHWYKQWEAYVQGGDQDSSTFPGCINNATLFQDEINWRLKEGLVEGEDYVLLPAAAWHYLVSWYGLEHGQPPIERKVIELPNIQKVEVYPVELLLVRHNDLGKSHTVQFSHTDSIGLVLRTARERFLVEPQEDTRLWAKNSEGSLDRLYDTHITVLDAALETGQLIIMETRKKDGTWPSAQ LPGLDSQWRQIENGESGRERPLRAGESWFLVEKHWYKQWEAYVQGGDQDSSTFPGCINNATLFQDEINWRLKEGLVEGEDYVLLPAAAWHYLVSWYGLEHGQPPIERKVIELPNIQKVEVYPVELLLVRHNDLGKSHTVQFSHTDSIGLVLRTARERFLVEPQEDTRLWAKNSEGSLDRLYDTHITVLDAALETGQLIIMETRKKDGTWPSAQ 4mem-a3-m1-cA_4mem-a3-m2-cB Crystal Structure of the rat USP11 DUSP-UBL domains Q5D006 Q5D006 2.34 X-RAY DIFFRACTION 74 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 212 216 AMPDLDQQWRQIGNGRERPLRAGESWFLVEKHWYKQWEAYVKGGDQDASTFPGSINNSGLFEDQISWHLRERLVEGDDYVLLPAPAWNYLVSWYGLKDDQPPIERKVIELPGIRKVEVYPIELLLVQHSDMETALTIQFSYSDSVDLVLQTAREQFLVEPQEDTRLWTKNSEGSLDRLCNTQITLLDACLETGQLVIMETRNKDGTWPSAQL MPDLDQQWRQIGNGRERPLRAGESWFLVEKHWYKQWEAYVKGGDQDASTFPGSINNSGLFEDQISWHLRERLVEGDDYVLLPAPAWNYLVSWYGLKDDQPPIERKVIELPGIRKVEVYPIELLLVQHSDMETALTIQFSYSDSVDLVLQTAREQFLVEPQEDTRLWTKNSEGSLDRLCNTQITLLDACLETGQLVIMETRNKDGTWPSAQLEHHHH 4mer-a1-m1-cA_4mer-a1-m1-cD Crystal structure of the novel protein and virulence factor sHIP (Q99XU0) from Streptococcus pyogenes Q99XU0 Q99XU0 2.41 X-RAY DIFFRACTION 20 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 96 97 4mer-a1-m1-cC_4mer-a1-m1-cB SMKQDQLIVEKMEQTYEAFSPKLANLIEALDAFKEHYEEYATLRNFYSSDEWFRLANQPDIPCGVLSEDLLFDMIGDHNQLLADILDLAPIMYKHM SMKQDQLIVEKMEQTYEAFSPKLANLIEALDAFKEHYEEYATLRNFYSSDEWFRLANQPDDIPCGVLSEDLLFDMIGDHNQLLADILDLAPIMYKHM 4mer-a1-m1-cC_4mer-a1-m1-cD Crystal structure of the novel protein and virulence factor sHIP (Q99XU0) from Streptococcus pyogenes Q99XU0 Q99XU0 2.41 X-RAY DIFFRACTION 167 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 88 97 KQDQLIVEKMEQTYEAFSPKLANLIEALDAFKEHYEEYATLRNFYSSDEWFRIPCGVLSEDLLFDMIGDHNQLLADILDLAPIMYKHM SMKQDQLIVEKMEQTYEAFSPKLANLIEALDAFKEHYEEYATLRNFYSSDEWFRLANQPDDIPCGVLSEDLLFDMIGDHNQLLADILDLAPIMYKHM 4mf5-a1-m1-cA_4mf5-a1-m2-cA Crystal structure of glutathione transferase BgramDRAFT_1843 from Burkholderia graminis, Target EFI-507289, with traces of one GSH bound B1FXZ2 B1FXZ2 1.11 X-RAY DIFFRACTION 112 1.0 396598 (Paraburkholderia graminis C4D1M) 396598 (Paraburkholderia graminis C4D1M) 238 238 4mf6-a1-m1-cA_4mf6-a1-m2-cA YFQSMTDLSAFPITKKWPAAHPERLQLYSLPTPNGVKVSIMLEETGLPYEPHLVRFDTNDQLTPEFMSLNPNNKIPAIIDPNGPDGKPLPLFESGAILIYLADKTGQLIPQDAAGRYEAIQWVMFQMGGIGPMFGQLGFFHKFAGKEYEDKRPRDRYVAESKRLLGVLEQRLEGREWILGDQYSIADIATFPWVRNLIGFYEAGELVAIQDFPNVQRALAAFVARPAVVRGLDSPKRG YFQSMTDLSAFPITKKWPAAHPERLQLYSLPTPNGVKVSIMLEETGLPYEPHLVRFDTNDQLTPEFMSLNPNNKIPAIIDPNGPDGKPLPLFESGAILIYLADKTGQLIPQDAAGRYEAIQWVMFQMGGIGPMFGQLGFFHKFAGKEYEDKRPRDRYVAESKRLLGVLEQRLEGREWILGDQYSIADIATFPWVRNLIGFYEAGELVAIQDFPNVQRALAAFVARPAVVRGLDSPKRG 4mf7-a1-m1-cA_4mf7-a1-m2-cA Crystal structure of glutathione transferase BBTA-3750 from Bradyrhizobium sp., Target EFI-507290 A5EI34 A5EI34 1.8 X-RAY DIFFRACTION 67 1.0 288000 (Bradyrhizobium sp. BTAi1) 288000 (Bradyrhizobium sp. BTAi1) 205 205 LSSFPITKRWPAQHSDRIQLYSLPTPNGVKVSIMLEETGLPYEPHAIDFGKDHQKTPEFLSLNPNGKIPAIIDPNGPGDKPLGLFESGAILQYLAEKTGQFLPADPARRWQTLQWLHFQRPLQRYVAESKRLLGVLEARLDGRQWIMDADYTIADIATLGWVRNLIGFYGARELVAFDELTHVPAWLERGLARPAVQRGLEIPKR LSSFPITKRWPAQHSDRIQLYSLPTPNGVKVSIMLEETGLPYEPHAIDFGKDHQKTPEFLSLNPNGKIPAIIDPNGPGDKPLGLFESGAILQYLAEKTGQFLPADPARRWQTLQWLHFQRPLQRYVAESKRLLGVLEARLDGRQWIMDADYTIADIATLGWVRNLIGFYGARELVAFDELTHVPAWLERGLARPAVQRGLEIPKR 4mfe-a1-m1-cA_4mfe-a1-m1-cC Structure of the carboxyl transferase domain from Rhizobium etli pyruvate carboxylase with 3-hydroxypyruvate Q2K340 Q2K340 2.61 X-RAY DIFFRACTION 30 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 596 596 3tw6-a1-m1-cA_3tw6-a1-m2-cB 3tw6-a1-m2-cA_3tw6-a1-m1-cB 3tw6-a2-m1-cC_3tw6-a2-m3-cD 3tw6-a2-m3-cC_3tw6-a2-m1-cD 3tw7-a1-m1-cB_3tw7-a1-m2-cA 3tw7-a1-m2-cB_3tw7-a1-m1-cA 4jx4-a1-m1-cB_4jx4-a1-m1-cA 4jx4-a1-m1-cD_4jx4-a1-m1-cC 4jx5-a1-m1-cB_4jx5-a1-m1-cA 4jx5-a1-m1-cD_4jx5-a1-m1-cC 4jx6-a1-m1-cB_4jx6-a1-m1-cA 4jx6-a1-m1-cD_4jx6-a1-m1-cC 4loc-a1-m1-cA_4loc-a1-m1-cD 4loc-a1-m1-cB_4loc-a1-m1-cC 4m6v-a1-m1-cB_4m6v-a1-m1-cD 4m6v-a1-m1-cC_4m6v-a1-m1-cA 4mfd-a1-m1-cA_4mfd-a1-m1-cB 4mfd-a1-m1-cC_4mfd-a1-m1-cD 4mfe-a1-m1-cB_4mfe-a1-m1-cD 4mim-a1-m1-cA_4mim-a1-m1-cC 4mim-a1-m1-cD_4mim-a1-m1-cB DRATKLLTYLADVTVNGHPEAKDRPKPLENAARPVVPYANGNGVKDGTKQLLDTLGPKKFGEWMRNEKRVLLTDTTMRDGHQSLLATRMRTYDIARIAGTYSHALPNLLSLECWGGATFDVSMRFLTEDPWERLALIREGAPNLLLQMLLRGANGVGYTNYPDNVVKYFVRQAAKGGIDLFRVFDCLNWVENMRVSMDAIAEENKLCEAAICYTGDILNSARPKYDLKYYTNLAVELEKAGAHIIAVDMAGLLKPAAAKVLFKALREATGLPIHFHTHDTSGIAAATVLAAVEAGVDAVDAAMDALSGNTSQPCLGSIVEALSGSERDPGLDPAWIRRISFYWEAVRNQYAAFESDLKGPASEVYLHEMPGGQFTNLKEQARSLGLETRWHQVAQAYADANQMFGDIVKVTPSSKVVGDMALMMVSQDLTVADVVSPDREVSFPESVVSMLKGDLGQPPSGWPEALQKKALKGEKPYTVRPGSLLKEADLDAERKVIEKKLEREVSDFEFASYLMYPKVFTDFALASDTYGPVSVLPTPAYFYGLADGEELFADIEKGKTLVIVNQAVSATDSQGMVTVFFELNGQPRRIKVPDRA DRATKLLTYLADVTVNGHPEAKDRPKPLENAARPVVPYANGNGVKDGTKQLLDTLGPKKFGEWMRNEKRVLLTDTTMRDGHQSLLATRMRTYDIARIAGTYSHALPNLLSLECWGGATFDVSMRFLTEDPWERLALIREGAPNLLLQMLLRGANGVGYTNYPDNVVKYFVRQAAKGGIDLFRVFDCLNWVENMRVSMDAIAEENKLCEAAICYTGDILNSARPKYDLKYYTNLAVELEKAGAHIIAVDMAGLLKPAAAKVLFKALREATGLPIHFHTHDTSGIAAATVLAAVEAGVDAVDAAMDALSGNTSQPCLGSIVEALSGSERDPGLDPAWIRRISFYWEAVRNQYAAFESDLKGPASEVYLHEMPGGQFTNLKEQARSLGLETRWHQVAQAYADANQMFGDIVKVTPSSKVVGDMALMMVSQDLTVADVVSPDREVSFPESVVSMLKGDLGQPPSGWPEALQKKALKGEKPYTVRPGSLLKEADLDAERKVIEKKLEREVSDFEFASYLMYPKVFTDFALASDTYGPVSVLPTPAYFYGLADGEELFADIEKGKTLVIVNQAVSATDSQGMVTVFFELNGQPRRIKVPDRA 4mfg-a2-m2-cD_4mfg-a2-m3-cD 2.0 Angstrom Resolution Crystal Structure of Putative Carbonic Anhydrase from Clostridium difficile. Q183I2 Q183I2 2 X-RAY DIFFRACTION 53 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 168 168 4mfg-a1-m1-cA_4mfg-a1-m1-cB 4mfg-a1-m1-cA_4mfg-a1-m1-cC 4mfg-a1-m1-cB_4mfg-a1-m1-cC 4mfg-a2-m1-cD_4mfg-a2-m2-cD 4mfg-a2-m1-cD_4mfg-a2-m3-cD SNAMIRDYLEDKPLIDESVFVAKSADVIGNVKIGKDSSIWYNAVVRGDEGPITIGENTNIQDCSIVHGDTETIIGNNVTVGHRSIVHGCKISDNVLIGMGSIILDNAEIGEYTLIGAGTLITSNKKFPPGVLIMGSPGKVVRELTEEDKKYIDESYEWYLEAAQNQKY SNAMIRDYLEDKPLIDESVFVAKSADVIGNVKIGKDSSIWYNAVVRGDEGPITIGENTNIQDCSIVHGDTETIIGNNVTVGHRSIVHGCKISDNVLIGMGSIILDNAEIGEYTLIGAGTLITSNKKFPPGVLIMGSPGKVVRELTEEDKKYIDESYEWYLEAAQNQKY 4mfu-a1-m1-cA_4mfu-a1-m2-cA Crystal structure of human CTNNBL1(residues 77~563) Q8WYA6 Q8WYA6 2.744 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 487 487 4mfv-a1-m1-cA_4mfv-a1-m1-cB LDESSVKKMILTFEKRSYKNQELRIKFPDNPEKFMESELDLNDIIQEMHVVATMPDLYHLLVELNAVQSLLGLLGHDNTDVSIAVVDLLQELTDIDTLHESEEGAEVLIDALVDGQVVALLVQNLERLDESVKEEADGVHNTLAIVENMAEFRPEMCTEGAQQGLLQWLLKRLKAKMPFDANKLYCSEVLAILLQDNDENRELLGELDGIDVLLQQLSVFKRHNPSTAEEQEMMENLFDSLCSCLMLSSNRERFLKGEGLQLMNLMLREKKISRSSALKVLDHAMIGPEGTDNCHKFVDILGLRTIFPLFMKSPRKIKKVGTTEKEHEEHVCSILASLLRNLRGQQRTRLLNKFTENDSEKVDRLMELHFKYLGAMQVADKKIEGEKHDMVRRGEIIDNDTEEEFYLRRLDAGLFVLQHICYIMAEICNANVPQIRQRVHQILNMRGSSIKIVRHIIKEYAENIGDGRSPEFRENEQKRILGLLENF LDESSVKKMILTFEKRSYKNQELRIKFPDNPEKFMESELDLNDIIQEMHVVATMPDLYHLLVELNAVQSLLGLLGHDNTDVSIAVVDLLQELTDIDTLHESEEGAEVLIDALVDGQVVALLVQNLERLDESVKEEADGVHNTLAIVENMAEFRPEMCTEGAQQGLLQWLLKRLKAKMPFDANKLYCSEVLAILLQDNDENRELLGELDGIDVLLQQLSVFKRHNPSTAEEQEMMENLFDSLCSCLMLSSNRERFLKGEGLQLMNLMLREKKISRSSALKVLDHAMIGPEGTDNCHKFVDILGLRTIFPLFMKSPRKIKKVGTTEKEHEEHVCSILASLLRNLRGQQRTRLLNKFTENDSEKVDRLMELHFKYLGAMQVADKKIEGEKHDMVRRGEIIDNDTEEEFYLRRLDAGLFVLQHICYIMAEICNANVPQIRQRVHQILNMRGSSIKIVRHIIKEYAENIGDGRSPEFRENEQKRILGLLENF 4mg3-a1-m1-cA_4mg3-a1-m1-cB Crystal Structural Analysis of 2A Protease from Coxsackievirus A16 Q9QF31 Q9QF31 1.798 X-RAY DIFFRACTION 42 1.0 231417 (Coxsackievirus A16 (strain Tainan/5079/98)) 231417 (Coxsackievirus A16 (strain Tainan/5079/98)) 142 145 GQQSGAIYVGNYRVVNRHLATHNDWANLVWEDSSRDLLVSSTTAQGCDTIARCNCQTGVYYCSSKRKHYPVSFTKPSLIFVEASEYYPARYQSHLMLAVGHSEPGDCGGILRCQHGVVGIVSTGGNGLVGFADVRDLLWLDE GKFGQQSGAIYVGNYRVVNRHLATHNDWANLVWEDSSRDLLVSSTTAQGCDTIARCNCQTGVYYCSSKRKHYPVSFTKPSLIFVEASEYYPARYQSHLMLAVGHSEPGDCGGILRCQHGVVGIVSTGGNGLVGFADVRDLLWLDE 4mg4-a3-m1-cC_4mg4-a3-m1-cE Crystal structure of a putative phosphonomutase from Burkholderia cenocepacia J2315 B4EL08 B4EL08 1.7 X-RAY DIFFRACTION 111 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 253 253 4mg4-a1-m1-cH_4mg4-a1-m1-cA 4mg4-a2-m1-cF_4mg4-a2-m1-cB 4mg4-a4-m1-cD_4mg4-a4-m1-cG MGNNEKGAIFRSLHRAGQPLALFNVWDAGSARVVADAGAVALATGSWSVAAANGFVDGEQMPRALMMEVLERIVRATDLPVTVDLESGYGERPEDVAETIAMSIRAGAIGCNLEDSFPSTGELRDVDEAAARIAAARQAADRAGVDYFINARTDVFFKAATETHDERLLDATLARARAYAAAGADGLFVPGLRSPALIRALTAASPLPVNVMRVAETPTLAELAEYGVARISHGPYPYLQAMKTLAALVKQGG MGNNEKGAIFRSLHRAGQPLALFNVWDAGSARVVADAGAVALATGSWSVAAANGFVDGEQMPRALMMEVLERIVRATDLPVTVDLESGYGERPEDVAETIAMSIRAGAIGCNLEDSFPSTGELRDVDEAAARIAAARQAADRAGVDYFINARTDVFFKAATETHDERLLDATLARARAYAAAGADGLFVPGLRSPALIRALTAASPLPVNVMRVAETPTLAELAEYGVARISHGPYPYLQAMKTLAALVKQGG 4mge-a4-m4-cB_4mge-a4-m1-cA 1.85 Angstrom Resolution Crystal Structure of PTS System Cellobiose-specific Transporter Subunit IIB from Bacillus anthracis. A0A6H3A658 A0A6H3A658 1.85 X-RAY DIFFRACTION 33 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 107 108 4mge-a4-m2-cB_4mge-a4-m3-cA MNILLCCSAGMSTSLLVTKMEAAAKARGLEGKIWAVSGDAVKTNIDQADVLLLGPQVRYMLSSMKTLADERNVGIDVINPMHYGMMNGEAVLDHALTLKKGENLYFQ MNILLCCSAGMSTSLLVTKMEAAAKARGLEGKIWAVSGDAVKTNIDQADVLLLGPQVRYMLSSMKTLADERNVGIDVINPMHYGMMNGEAVLDHALTLKKGENLYFQS 4mge-a4-m4-cB_4mge-a4-m3-cA 1.85 Angstrom Resolution Crystal Structure of PTS System Cellobiose-specific Transporter Subunit IIB from Bacillus anthracis. A0A6H3A658 A0A6H3A658 1.85 X-RAY DIFFRACTION 52 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 107 108 4mge-a3-m2-cB_4mge-a3-m1-cA 4mge-a4-m2-cB_4mge-a4-m1-cA MNILLCCSAGMSTSLLVTKMEAAAKARGLEGKIWAVSGDAVKTNIDQADVLLLGPQVRYMLSSMKTLADERNVGIDVINPMHYGMMNGEAVLDHALTLKKGENLYFQ MNILLCCSAGMSTSLLVTKMEAAAKARGLEGKIWAVSGDAVKTNIDQADVLLLGPQVRYMLSSMKTLADERNVGIDVINPMHYGMMNGEAVLDHALTLKKGENLYFQS 4mgp-a1-m1-cA_4mgp-a1-m2-cA Structure of racemic Ala-(8,13,18) Magainin 2 P11006 P11006 1.75 X-RAY DIFFRACTION 35 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 22 22 GIGKFLHAAKKFAKAFVAEIMN GIGKFLHAAKKFAKAFVAEIMN 4mgr-a2-m1-cD_4mgr-a2-m1-cC The crystal structure of Bacillus subtilis GabR, an autorepressor and PLP- and GABA-dependent transcriptional activator of gabT P94426 P94426 2.55 X-RAY DIFFRACTION 232 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 472 475 4mgr-a1-m1-cB_4mgr-a1-m1-cA 4n0b-a1-m1-cB_4n0b-a1-m1-cA 4n0b-a2-m1-cC_4n0b-a2-m1-cD 4tv7-a2-m1-cD_4tv7-a2-m1-cC 5t4j-a1-m1-cB_5t4j-a1-m2-cB 5t4k-a1-m1-cA_5t4k-a1-m2-cA 5x03-a1-m1-cA_5x03-a1-m1-cB 6uxz-a1-m1-cB_6uxz-a1-m1-cC MDITITLDRSEQADYIYQQIYQKLKKEILSRNLLPHSKVPSKRELAENLKVSVNSVNSAYQQLLAEGYLYAIERKGFFVEELDMFSAEEHPPFALPDDLKEIHIDQSDWISFSHMSSDTDHFPIKSWFRCEQKAASRSYRTLGDMSHPQGIYEVRAAITRLISLTRGVKCRPEQMIIGAGTQVLMQLLTELLPKEAVYAMEEPGYRRMYQLLKNAGKQVKTIMLDEKGMSIAEITRQQPDVLVTTPSHQFPSGTIMPVSRRIQLLNWAAEEPRRYIIEDDYDSEFTYDVDSIPALQSLDRFQNVIYMGTFSKSLLPGLRISYMVLPPELLRAYKQRGYDLQTCSSLTQLTLQEFIESGEYQKHIKKMKQHYKEKRERLITALEAEFSGEVTVKGANAGLHFVTEFDTRRTEQDILSHAAGLQLEIFGMSRFNLKENKRQTGRPALIIGFARLKEEDIQEGVQRLFKAVYGHK MDITITLDRSEQADYIYQQIYQKLKKEILSRNLLPHSKVPSKRELAENLKVSVNSVNSAYQQLLAEGYLYAIERKGFFVEELDMFSAEEHPPFALPDDLKEIHIDQSDWISFSHMSSDTDHFPIKSWFRCEQKAASRSYRTLGDMSHPQGIYEVRAAITRLISLTRGVKCRPEQMIIGAGTQVLMQLLTELLPKEAVYAMEEPGYRRMYQLLKNAGKQVKTIMLDEKGMSIAEITRQQPDVLVTTPSHQFPSGTIMPVSRRIQLLNWAAEEPRRYIIEDDYDSEFTYDVDSIPALQSLDRFQNVIYMGTFSKSLLPGLRISYMVLPPELLRAYKQRGYDLQTCSSLTQLTLQEFIESGEYQKHIKKMKQHYKEKRERLITALEAEFSGEVTVKGANAGLHFVTEFDTRRTEQDILSHAAGLQLEIFGMSRFNLKENKRQTGRPALIIGFARLKEEDIQEGVQRLFKAVYGHKKIP 4mgz-a2-m1-cE_4mgz-a2-m2-cE Selective activation of Epac1 and Epac2 Q9EQZ6 Q9EQZ6 3 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 632 632 3cf6-a1-m1-cE_3cf6-a1-m2-cE 4mgi-a2-m1-cE_4mgi-a2-m2-cE 4mgk-a2-m1-cE_4mgk-a2-m2-cE 4mgy-a2-m1-cE_4mgy-a2-m2-cE 4mh0-a2-m1-cE_4mh0-a2-m2-cE HMRMILRKPPGQRTVDDLEIIYDELLHIKALSHLSTTVKRELAGVLIFESHAKGGTVLFNQGEEGTSWYIILKGSVNVVIYGKGVVCTLHEGDDFGKLALVNDAPRAASIVLREDNCHFLRVDKEDFNRILRDVEANTVRLKEHDQDVLVLEKVQKYTVMSGTPEKILEHFLETIRLEPSLNEATDSVLNDFVMMHCVFMPNTQLCPALVAHYHAQPSQGTEQERMDYALNNKRRVIRLVLQWAAMYGDLLQEDDVAMAFLEEFYVSVSDDARMMAAFKEQLPELEKIVKQISRQPIRGSDEVLFKVYCIDHTYTTIRVPVAASVKEVISAVADKLGSGEGLIIVKMNSGGEKVVLKSNDVSVFTTLTINGRLFACPREQFDSLTPLPEQEGPTTGTVGTFELMSSKDLAYQMTTYDWELFNCVHELELIYHTFGRHNFKKTTANLDLFLRRFNEIQFWVVTEVCLCSQLSKRVQLLKKFIKIAAHCKEYKNLNSFFAIVMGLSNVAVSRLALTWEKLPSKFKKFYAEFESLMDPSRNHRAYRLTAAKLEPPLIPFMPLLIKDMTFTHEGNKTFIDNLVNFEKMRMIANTARTVRYYRSQPFNHQDVRSYVRQLNVIDNQRTLSQMSHRLEP HMRMILRKPPGQRTVDDLEIIYDELLHIKALSHLSTTVKRELAGVLIFESHAKGGTVLFNQGEEGTSWYIILKGSVNVVIYGKGVVCTLHEGDDFGKLALVNDAPRAASIVLREDNCHFLRVDKEDFNRILRDVEANTVRLKEHDQDVLVLEKVQKYTVMSGTPEKILEHFLETIRLEPSLNEATDSVLNDFVMMHCVFMPNTQLCPALVAHYHAQPSQGTEQERMDYALNNKRRVIRLVLQWAAMYGDLLQEDDVAMAFLEEFYVSVSDDARMMAAFKEQLPELEKIVKQISRQPIRGSDEVLFKVYCIDHTYTTIRVPVAASVKEVISAVADKLGSGEGLIIVKMNSGGEKVVLKSNDVSVFTTLTINGRLFACPREQFDSLTPLPEQEGPTTGTVGTFELMSSKDLAYQMTTYDWELFNCVHELELIYHTFGRHNFKKTTANLDLFLRRFNEIQFWVVTEVCLCSQLSKRVQLLKKFIKIAAHCKEYKNLNSFFAIVMGLSNVAVSRLALTWEKLPSKFKKFYAEFESLMDPSRNHRAYRLTAAKLEPPLIPFMPLLIKDMTFTHEGNKTFIDNLVNFEKMRMIANTARTVRYYRSQPFNHQDVRSYVRQLNVIDNQRTLSQMSHRLEP 4mh1-a1-m1-cB_4mh1-a1-m2-cB Crystal structure and functional studies of quinoprotein L-sorbose dehydrogenase from Ketogulonicigenium vulgare Y25 2.7 X-RAY DIFFRACTION 20 1.0 880591 (Ketogulonicigenium vulgare Y25) 880591 (Ketogulonicigenium vulgare Y25) 514 514 QSAQTAITDEMLANPPAGEWISYGQNQENYRHSPLTQITTENVGQLQLVWARGMQPGKVQVTPLIHDGVMYLANPGDVIQAIDAKTGDLIWEHRRQLPNIATLNSFGEPTRGMALYGTNVYFVSWDNHLVALDMGTGQVVFDVDRGQDERVSNSSGPIVANGTIVAGSTGCFVSGHDSATGEELWRNYFIWMTGAWGQITYDPVTNLVHYGSGTNTRFAVRPDTGEIVWRHQTLPRDNWDQECTFEMMVTNVDVQPSTEMEGLQSINPNAATGERRVLTGVPCKTGTMWQFDAETGEFLWARDTNYQNMIESIDENGIVTVNEDAILKELDVEYDVCPTFLGGRDWPSAALNPDSGIYFIPLNNVCYDMMAVDQEFTSMDVYNTSNVTKLPPGKDMIGRIDAIDISTGRTLWSVERAAANYSPVLSTGGGVLFNGGTDRYFRALSQETGETLWQTRLATVASGQAISYEVDGMQYVAIAGGGVSYGSGLNSALAGERVDSTAIGNAVYVFALPQ QSAQTAITDEMLANPPAGEWISYGQNQENYRHSPLTQITTENVGQLQLVWARGMQPGKVQVTPLIHDGVMYLANPGDVIQAIDAKTGDLIWEHRRQLPNIATLNSFGEPTRGMALYGTNVYFVSWDNHLVALDMGTGQVVFDVDRGQDERVSNSSGPIVANGTIVAGSTGCFVSGHDSATGEELWRNYFIWMTGAWGQITYDPVTNLVHYGSGTNTRFAVRPDTGEIVWRHQTLPRDNWDQECTFEMMVTNVDVQPSTEMEGLQSINPNAATGERRVLTGVPCKTGTMWQFDAETGEFLWARDTNYQNMIESIDENGIVTVNEDAILKELDVEYDVCPTFLGGRDWPSAALNPDSGIYFIPLNNVCYDMMAVDQEFTSMDVYNTSNVTKLPPGKDMIGRIDAIDISTGRTLWSVERAAANYSPVLSTGGGVLFNGGTDRYFRALSQETGETLWQTRLATVASGQAISYEVDGMQYVAIAGGGVSYGSGLNSALAGERVDSTAIGNAVYVFALPQ 4mh4-a1-m1-cB_4mh4-a1-m1-cA Crystal Structure of OsmC-like protein from Burkholderia cenocepacia J2315 B4E9U7 B4E9U7 1.9 X-RAY DIFFRACTION 283 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 137 138 KIEKVLYTGKTHTTSGGRDGAARSSDGRLDIQLSSPGSAGTGTNPEQLFAAGWSACFIGAMQLAARAAKVTLPADLAVDAEVDLGTAGNAYFLQARLNVSVPGLERDVAQRIVDAAHQTCPYSKATRGNIDVDIRIA SKIEKVLYTGKTHTTSGGRDGAARSSDGRLDIQLSSPGSAGTGTNPEQLFAAGWSACFIGAMQLAARAAKVTLPADLAVDAEVDLGTAGNAYFLQARLNVSVPGLERDVAQRIVDAAHQTCPYSKATRGNIDVDIRIA 4mhb-a9-m4-cE_4mhb-a9-m1-cC Structure of a putative reductase from Yersinia pestis Q7CJX8 Q7CJX8 1.75 X-RAY DIFFRACTION 20 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 273 274 4mhb-a7-m2-cD_4mhb-a7-m1-cA 4mhb-a8-m1-cF_4mhb-a8-m3-cB QTVKLNNGIAPLLGFGVFTNTAECERAVIDAIETGYRLIDTAASYQNETQVGNALKLSGIARDELFITTKLWLQDTYYEGAKAQFERSLNRLQLDYVDLYLIHQPYGDVHGAWRAEELHQAGKIRAIGVSNFHPDRLADLAFNKIIPAVNQIEVNPFNQQLHAVPWQSRGIQPEAWAPFAEGRNGLFQNPVLTAIGEKYGKSVGQVVLRWIFQRGIVSLAKSVRKGREENINILDFELSAEDLQIAALDTATSAFFSHRDPAVEWLTGRKLDV QTVKLNNGIAPLLGFGVFQTNTAECERAVIDAIETGYRLIDTAASYQNETQVGNALKLSGIARDELFITTKLWLQDTYYEGAKAQFERSLNRLQLDYVDLYLIHQPYGDVHGAWRAEELHQAGKIRAIGVSNFHPDRLADLAFNKIIPAVNQIEVNPFNQQLHAVPWQSRGIQPEAWAPFAEGRNGLFQNPVLTAIGEKYGKSVGQVVLRWIFQRGIVSLAKSVRKGREENINILDFELSAEDLQIAALDTATSAFFSHRDPAVEWLTGRKLDV 4mhe-a2-m1-cC_4mhe-a2-m1-cB Crystal structure of CC-chemokine 18 P55774 P55774 2.1 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 69 4mhe-a1-m1-cD_4mhe-a1-m1-cA KELCCLVYTSWQIPQKFIVDYSETSPQCPKPGVILLTKRGRQICADPNKKWVQKYISDLKL SAQVGTNKELCCLVYTSWQIPQKFIVDYSETSPQCPKPGVILLTKRGRQICADPNKKWVQKYISDLKLN 4mhr-a2-m1-cA_4mhr-a2-m2-cA Crystal structure of EctD from S. alaskensis in its apoform Q1GNW5 Q1GNW5 2.1 X-RAY DIFFRACTION 59 1.0 317655 (Sphingopyxis alaskensis RB2256) 317655 (Sphingopyxis alaskensis RB2256) 280 280 4mhu-a3-m2-cB_4mhu-a3-m1-cA 4q5o-a1-m1-cA_4q5o-a1-m1-cB QDLYPSRQRADAEMRPRLDPVVHSEWTNDAPISARQAAAFDRDGYIVLEDIFSADEVAFLQKAAGNLLADPAALDADTIVTEPQSNEIRSIFEIHAQSPVMARLAADARLADVARFLLGDEVYIHQSRLNYKPGFKGREFYWHSDFETWHVEDGMPRMRALSMSVLLAENTPHNGPLMVIPGSHRTYLTCVGVPDEESLAELAHRHGIVAPTGKPGTVILFDCNLMHGSNGNITPFPRANAFLVYNAVSNRLEKPFGVERPWFLARREPAALRVERGPLV QDLYPSRQRADAEMRPRLDPVVHSEWTNDAPISARQAAAFDRDGYIVLEDIFSADEVAFLQKAAGNLLADPAALDADTIVTEPQSNEIRSIFEIHAQSPVMARLAADARLADVARFLLGDEVYIHQSRLNYKPGFKGREFYWHSDFETWHVEDGMPRMRALSMSVLLAENTPHNGPLMVIPGSHRTYLTCVGVPDEESLAELAHRHGIVAPTGKPGTVILFDCNLMHGSNGNITPFPRANAFLVYNAVSNRLEKPFGVERPWFLARREPAALRVERGPLV 4mi2-a1-m1-cB_4mi2-a1-m1-cC Crystal structure of putative Enoyl-CoA hydratase/isomerase from Mycobacterium abscessus B1MJ43 B1MJ43 2.3 X-RAY DIFFRACTION 139 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 261 261 4mi2-a1-m1-cA_4mi2-a1-m1-cB 4mi2-a1-m1-cA_4mi2-a1-m1-cC AAVAYSVNHAGVAAIVLDRPEASNALDRTMKTELLQALLAAGGDPAVRAVVMSAAGKNFCVGQDLAEHVEALRDDPAHAMDTVREHYNPVLEALDAIKVPVVVAINGACVGAGLGLALGADIRIAGQRAKFGTAFTGIGLAADSALSASLPRLIGASRATAMFLLGDTIDAPTAHTWGLVHEVVDEGSPADVANSVAGRLAGGPTAAFSEVKELLRRNAVAPLGDVLEREASAQQRLGASRDHSAAVEAFLAKDKPVFVGR AAVAYSVNHAGVAAIVLDRPEASNALDRTMKTELLQALLAAGGDPAVRAVVMSAAGKNFCVGQDLAEHVEALRDDPAHAMDTVREHYNPVLEALDAIKVPVVVAINGACVGAGLGLALGADIRIAGQRAKFGTAFTGIGLAADSALSASLPRLIGASRATAMFLLGDTIDAPTAHTWGLVHEVVDEGSPADVANSVAGRLAGGPTAAFSEVKELLRRNAVAPLGDVLEREASAQQRLGASRDHSAAVEAFLAKDKPVFVGR 4mi8-a3-m3-cA_4mi8-a3-m4-cA Crystal structure of the complex of murine gamma-herpesvirus 68 Bcl-2 homolog M11 and a Beclin 1 BH3 domain-derived peptide P89884 P89884 2.1 X-RAY DIFFRACTION 41 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 135 135 4mi8-a3-m1-cB_4mi8-a3-m2-cB SHKKSGTYWATLITAFLKTVSKVEELDCVDSAVLVDVSKIITLTQEFRRHYDSVYRADYGPALKNWKRDLSKLFTSLFVDVINSGRIVGFFDVGRYVCEEVLCPGSWTEDHELLNDCMTHFFIENNLMNHFPLED SHKKSGTYWATLITAFLKTVSKVEELDCVDSAVLVDVSKIITLTQEFRRHYDSVYRADYGPALKNWKRDLSKLFTSLFVDVINSGRIVGFFDVGRYVCEEVLCPGSWTEDHELLNDCMTHFFIENNLMNHFPLED 4mid-a1-m1-cA_4mid-a1-m2-cA Crystal Structure of Activin A/BMP2 chimera P08476 P08476 2.139 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 LKSSCKRHPLYVDFSDVGWNDWIIAPSGYHANYCDGECPFPLADHLNSTNHAIVQTLVNSVNSKIPKACCVPTKLRPMSMLYYDDGQNIIKKDIQNMIVEECGCS LKSSCKRHPLYVDFSDVGWNDWIIAPSGYHANYCDGECPFPLADHLNSTNHAIVQTLVNSVNSKIPKACCVPTKLRPMSMLYYDDGQNIIKKDIQNMIVEECGCS 4mis-a1-m1-cB_4mis-a1-m1-cA The structure of Brucella abortus PliC in the orthorombic crystal form Q57ES7 Q57ES7 2 X-RAY DIFFRACTION 126 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 97 98 4mir-a1-m1-cA_4mir-a1-m2-cA 4mir-a2-m1-cC_4mir-a2-m1-cB MGEITIKLPDSVKVSTNSILYKCGAKDLSVTYYNAGDISLAKLELEDETVVASNVISGSGAKYAGSVYIWWTKGKTASLYNLIDNPEEDKPISCVEQ AMGEITIKLPDSVKVSTNSILYKCGAKDLSVTYYNAGDISLAKLELEDETVVASNVISGSGAKYAGSVYIWWTKGKTASLYNLIDNPEEDKPISCVEQ 4miv-a4-m1-cG_4miv-a4-m1-cH Crystal Structure of Sulfamidase, Crystal Form L P51688 P51688 2.4 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 478 481 4mhx-a1-m1-cB_4mhx-a1-m1-cA 4miv-a1-m1-cB_4miv-a1-m1-cA 4miv-a2-m1-cD_4miv-a2-m1-cC 4miv-a3-m1-cF_4miv-a3-m1-cE PRNALLLLADDGGFESGAYNNSAIATPHLDALARRSLLFRNAFTSVSSSPSRASLLTGLPQHQNGMYGLHQDVHHFNSFDKVRSLPLLLSQAGVRTGIIGKKHVGPETVYPFDFAYTEENSVLQVGRNITRIKLLVRKFLQTQDDRPFFLYVAFHDPHRCGHSQPQYGTFCEKFGNGESGMGRIPDWTPQAYDPLDVLVPYFVPNTPAARADLAAQYTTVGRMDQGVGLVLQELRDAGVLNDTLVIFTSDNGIPFPSGRTNLYWPGTAEPLLVSSPEHPKRWGQVSEAYVSLLDLTPTILDWFSIPYPSYAIFGSKTIHLTGRSLLPALEAEPLWATVFGSQSHHEVTMSYPMRSVQHRHFRLVHNLNFKMPFPIDQDFYVSPTFQDLLNRTTAGQPTGWYKDLRHYYYRARWELYDRSRDPHETQNLATDPRFAQLLEMLRDQLAKWQWETHDPWVCAPDGVLEEKLSPQCQPLHNE PRNALLLLADDGGFESGAYNNSAIATPHLDALARRSLLFRNAFTSVSSSPSRASLLTGLPQHQNGMYGLHQDVHHFNSFDKVRSLPLLLSQAGVRTGIIGKKHVGPETVYPFDFAYTEENGSVLQVGRNITRIKLLVRKFLQTQDDRPFFLYVAFHDPHRCGHSQPQYGTFCEKFGNGESGMGRIPDWTPQAYDPLDVLVPYFVPNTPAARADLAAQYTTVGRMDQGVGLVLQELRDAGVLNDTLVIFTSDNGIPFPSGRTNLYWPGTAEPLLVSSPEHPKRWGQVSEAYVSLLDLTPTILDWFSIPYPSYAIFGSKTIHLTGRSLLPALEAEPLWATVFGSQSHHEVTMSYPMRSVQHRHFRLVHNLNFKMPFPIDQDFYVSPTFQDLLNRTTAGQPTGWYKDLRHYYYRARWELYDRSRDPHETQNLATDPRFAQLLEMLRDQLAKWQWETHDPWVCAPDGVLEEKLSPQCQPLHNELR 4mj7-a1-m1-cB_4mj7-a1-m1-cA Crystal structure of the PIN domain of Saccharomyces cerevisiae Utp23 Q12339 Q12339 2.51 X-RAY DIFFRACTION 135 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 153 157 QKRAKSYRKQLLVYSHTFKFREPYQVLVDNQLVLECNNSNFNLPSGLKRTLQADVKVMITQCCIQALYETRNDGAINLAKQFERRRCNHSKSPAECIESVVNISGANKHRYVVASQDIDLRRKLRTVPGVPLIHLTRSVMVMEPLSTASAKAS QKRAKSYRKQLLVYSHTFKFREPYQVLVDNQLVLECNNSNFNLPSGLKRTLQADVKVMITQCCIQALYETRNDGAINLAKQFERRRCNHSFKDPKSPAECIESVVNISGANKHRYVVASQDIDLRRKLRTVPGVPLIHLTRSVMVMEPLSTASAKAS 4mjd-a1-m1-cA_4mjd-a1-m1-cB Crystal structure of ketosteroid isomerase fold protein Hmuk_0747 C7NZX0 C7NZX0 1.28 X-RAY DIFFRACTION 92 1.0 485914 (Halomicrobium mukohataei DSM 12286) 485914 (Halomicrobium mukohataei DSM 12286) 113 113 4kvh-a1-m1-cA_4kvh-a1-m2-cA SNAMDRVATARAYYRALDEHDYDLLSDVLAPDFVHDRPDRTIEGRERFVRFMREERPQTDTSHPIATIYTGASTVAVEGRLLNSDGAEITQFVDVFAFEDGVIGRIRTHTPEP SNAMDRVATARAYYRALDEHDYDLLSDVLAPDFVHDRPDRTIEGRERFVRFMREERPQTDTSHPIATIYTGASTVAVEGRLLNSDGAEITQFVDVFAFEDGVIGRIRTHTPEP 4mjf-a1-m1-cA_4mjf-a1-m2-cA Crystal structure of a DUF4348 family protein (BVU_2238) from Bacteroides vulgatus ATCC 8482 at 1.99 A resolution A6L2I4 A6L2I4 1.99 X-RAY DIFFRACTION 41 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 219 219 ADESFADFFYNFASDEKLQLSRIVFPLPYYTEKKEHIEKDQWKHDPLFSRQDAYTVLFDKAEDEDTGLTSVKIEWIYLKKGKIKRYYFERLKGLWKLEAIDFADPREDTGKEDFFEFYERFANDSVFQLSRLHEPLKFVTADPEDEFQILETTLEAGQWFAFQPVLPRENLTNVNYGQNENVHSNTKVIEKGFGNGFNNTLYFERRHGLWKLQFEDLSD ADESFADFFYNFASDEKLQLSRIVFPLPYYTEKKEHIEKDQWKHDPLFSRQDAYTVLFDKAEDEDTGLTSVKIEWIYLKKGKIKRYYFERLKGLWKLEAIDFADPREDTGKEDFFEFYERFANDSVFQLSRLHEPLKFVTADPEDEFQILETTLEAGQWFAFQPVLPRENLTNVNYGQNENVHSNTKVIEKGFGNGFNNTLYFERRHGLWKLQFEDLSD 4mjj-a2-m1-cA_4mjj-a2-m2-cA Crystal structure of the C2A domain of DOC2A Q14183 Q14183 2 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 116 ALGTLEFDLLYDRASCTLHCSILRAKGLKPDPYVKLHLLPGACKANKLKTKTQRNTLNPVWNEDLTYSGITDDDITHKVLRIAVCDEDEFIGEIRVPLRRLKPSQKKHFNICLERQ ALGTLEFDLLYDRASCTLHCSILRAKGLKPDPYVKLHLLPGACKANKLKTKTQRNTLNPVWNEDLTYSGITDDDITHKVLRIAVCDEDEFIGEIRVPLRRLKPSQKKHFNICLERQ 4mjm-a1-m1-cD_4mjm-a1-m1-cC Crystal Structure of the Inosine 5'-monophosphate Dehydrogenase, with a Short Internal Deletion of CBS Domain from Bacillus anthracis str. Ames A0A6L8P2U9 A0A6L8P2U9 2.2544 X-RAY DIFFRACTION 114 0.982 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 328 329 4mjm-a1-m1-cA_4mjm-a1-m1-cB 4mjm-a1-m1-cA_4mjm-a1-m1-cD 4mjm-a1-m1-cB_4mjm-a1-m1-cC KFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIGRQFKVYGRVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLESH AMWESKFVKEGLTFDDVLLVPAKSDVLPREVSVKTVLSESLQLNIPLISAGMDTVTEADMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSESGGIKDIEKVIEFPNSAKDKQGRLLVGAAVGVTADAMTRIDALVKASVDAIVLDTAHGHSQGVIDKVKEVRAKYPSLNIIAGNVATAEATKALIEAGANVVKVGIGPGSICTTRVVAGVGVPQLTAVYDCATEARKHGIPVIADGGIKYSGDMVKALAAGAHVVMLGSMFAGVAESPGETEIRQFKVVPYKGPLADTVHQLVGGLRAGMGYCGAQDLEFLRENAQFIRMSGAGLLE 4mjt-a1-m1-cH_4mjt-a1-m1-cI Crystal structure of the oligomeric pore-forming toxin pro-Monalysin Q1I8U1 Q1I8U1 2.85 X-RAY DIFFRACTION 56 1.0 384676 (Pseudomonas entomophila L48) 384676 (Pseudomonas entomophila L48) 236 236 4mjt-a1-m1-cA_4mjt-a1-m1-cB 4mjt-a1-m1-cA_4mjt-a1-m1-cI 4mjt-a1-m1-cB_4mjt-a1-m1-cC 4mjt-a1-m1-cC_4mjt-a1-m1-cD 4mjt-a1-m1-cD_4mjt-a1-m1-cE 4mjt-a1-m1-cE_4mjt-a1-m1-cF 4mjt-a1-m1-cF_4mjt-a1-m1-cG 4mjt-a1-m1-cG_4mjt-a1-m1-cH SGRFDQYPTKKGDFAIDGYLLDYSSPKQGCWVDGITVYGDIYIGKQNWGTYTRPVFAYLQYVETISIPQNVTTTLSYQLTKGHTRSFETSVNAKYSVGANIDIVNVGSEISTGFTRSESWSTTQSFTDTTEMKGPGTFVIYQVVLVYAHNATSAGRQNANAFAYSKTQAVGSRVDLYYLSAITQRKRVIVPSSNAVTPLDWDTVQRNVLMENYNPGSNSGHFSFDWSAYNDPHRRY SGRFDQYPTKKGDFAIDGYLLDYSSPKQGCWVDGITVYGDIYIGKQNWGTYTRPVFAYLQYVETISIPQNVTTTLSYQLTKGHTRSFETSVNAKYSVGANIDIVNVGSEISTGFTRSESWSTTQSFTDTTEMKGPGTFVIYQVVLVYAHNATSAGRQNANAFAYSKTQAVGSRVDLYYLSAITQRKRVIVPSSNAVTPLDWDTVQRNVLMENYNPGSNSGHFSFDWSAYNDPHRRY 4mjz-a2-m1-cB_4mjz-a2-m3-cB 2.75 Angstrom Resolution Crystal Structure of Putative Orotidine-monophosphate-decarboxylase from Toxoplasma gondii. B6KBH9 B6KBH9 2.75 X-RAY DIFFRACTION 174 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 288 288 4mjz-a1-m1-cA_4mjz-a1-m2-cA GCKNFFKTLDARIEAVDSLLTVGLDPHIADLPSPATAERAFVFCERIIRETLPFTCCYKPNSAFFEAFGPPGLQALERVCALIPDDVPILLDAKRGDIGSTAQAYASSAFDAFKADGVTVNAYMGREAVRPFLSYRNKGVFVLVKTSNQSSNEFQTLPVRDVPLYVQMARVCNELAQECVSEEDSPSTTGHGLRHNASGGGVGLVVGATDIEALREVRKACPDLYILAPGVGAQGADLERALSAGLCKDGKGMLIPVSRGISRAENLAAQANAYREQINEVRRGIVQQ GCKNFFKTLDARIEAVDSLLTVGLDPHIADLPSPATAERAFVFCERIIRETLPFTCCYKPNSAFFEAFGPPGLQALERVCALIPDDVPILLDAKRGDIGSTAQAYASSAFDAFKADGVTVNAYMGREAVRPFLSYRNKGVFVLVKTSNQSSNEFQTLPVRDVPLYVQMARVCNELAQECVSEEDSPSTTGHGLRHNASGGGVGLVVGATDIEALREVRKACPDLYILAPGVGAQGADLERALSAGLCKDGKGMLIPVSRGISRAENLAAQANAYREQINEVRRGIVQQ 4mk1-a2-m1-cA_4mk1-a2-m2-cA 5-bromopyridine-2,3-diol bound to influenza 2009 pH1N1 endonuclease M9V5A4 M9V5A4 1.85 X-RAY DIFFRACTION 30 1.0 985958 (Influenza A virus (A/Lima/WRAIR1695P/2009(H1N1))) 985958 (Influenza A virus (A/Lima/WRAIR1695P/2009(H1N1))) 200 200 4ln7-a2-m1-cA_4ln7-a2-m2-cA 4m4q-a2-m1-cA_4m4q-a2-m2-cA 4m5o-a2-m1-cA_4m5o-a2-m2-cA 4m5q-a2-m1-cA_4m5q-a2-m2-cA 4m5r-a2-m1-cA_4m5r-a2-m2-cA 4m5u-a2-m1-cA_4m5u-a2-m2-cA 4m5v-a2-m1-cA_4m5v-a2-m2-cA 5cxr-a2-m1-cA_5cxr-a2-m2-cA 6nem-a2-m1-cA_6nem-a2-m2-cA GPLGSMEDFVRQCFNPMIVELAEKAMKEYGEDPKIETNKFAAICTHLEVCFMYSDFHFIDERGESIIVESGDPNALLKHRFEIIEGRDRIMAWTVVNSICNTTGVEKPKFLPDLYDYKENRFIEIGVTRREVHIYYLEKANKIKSEKTHIHIFSFTGEEMATKADYTLDEESRARIKTRLFTIRQEMASRSLWDSFRQSE GPLGSMEDFVRQCFNPMIVELAEKAMKEYGEDPKIETNKFAAICTHLEVCFMYSDFHFIDERGESIIVESGDPNALLKHRFEIIEGRDRIMAWTVVNSICNTTGVEKPKFLPDLYDYKENRFIEIGVTRREVHIYYLEKANKIKSEKTHIHIFSFTGEEMATKADYTLDEESRARIKTRLFTIRQEMASRSLWDSFRQSE 4mk3-a1-m1-cA_4mk3-a1-m2-cA Crystal structure of a glutathione transferase family member from Cupriavidus metallidurans CH34, target EFI-507362, with bound glutathione sulfinic acid (gso2h) Q1LJ46 Q1LJ46 1.501 X-RAY DIFFRACTION 99 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 203 203 MKLYASQTSPYARKVRVVLAEKKIDYEMIEENVWSPDTTIGRFNPLGKVPCLVMEDGGAVFDSRVIAEYADTLSPVSRLIPQGSRERLEVRCWEALADGLLDAALLARLEVTQRKESERSESWVQRQRSKIDAALTAMSTGLADKTWCTGTHYTLADVAVGCALAYLDFRFPDIAWRDRHPNLVAFQEKIEKRQSFIDTEPPR MKLYASQTSPYARKVRVVLAEKKIDYEMIEENVWSPDTTIGRFNPLGKVPCLVMEDGGAVFDSRVIAEYADTLSPVSRLIPQGSRERLEVRCWEALADGLLDAALLARLEVTQRKESERSESWVQRQRSKIDAALTAMSTGLADKTWCTGTHYTLADVAVGCALAYLDFRFPDIAWRDRHPNLVAFQEKIEKRQSFIDTEPPR 4mk6-a1-m1-cA_4mk6-a1-m2-cA Crystal Structure of Probable Dihydroxyacetone Kinase Regulator DHSK_reg from Listeria monocytogenes EGD-e Q8Y9P4 Q8Y9P4 2.35 X-RAY DIFFRACTION 46 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 183 183 SNAAESLITKKAIAGGLELCQHKRFEKISIADITNICGLNRQTFYYHFTDKYDLLTWTYENDFFHCLADGITLGNWDKHVLKLESIKENADFYKNTVSADASILSFCFSKLTNSLFDLFEKIDTNATVNEADRVFYAEFFSYGCSGVLIKWITRGFKEAPETIANQLFRLAKDTEFLANSYRE SNAAESLITKKAIAGGLELCQHKRFEKISIADITNICGLNRQTFYYHFTDKYDLLTWTYENDFFHCLADGITLGNWDKHVLKLESIKENADFYKNTVSADASILSFCFSKLTNSLFDLFEKIDTNATVNEADRVFYAEFFSYGCSGVLIKWITRGFKEAPETIANQLFRLAKDTEFLANSYRE 4mki-a1-m1-cB_4mki-a1-m1-cA Cobalt transporter ATP-binding subunit Q8R7Y5 Q8R7Y5 2.3 X-RAY DIFFRACTION 99 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 283 285 MPIKVENVSFIYNEGTPYATVALKDINFSIDDEEFVGIIGHTGSGKSTLIQQLNGLLKPSKGKIYINGIDITDKKVSLKDIRKQVGLVFQYPEYQLFEETVFKDIAFGPSNLGLSEEEVKERVYEAMEIVGISKELADKSPFELSGGQKRRVAIAGILAMRPKILILDEPTAGLDPKGKQEILNKIKEIHDKYKMITILVSHNMEDIARIADKIIVMNRGKIELIGTPREVFREAERLEKIGLSVPQITSLARELRKRGVPIPPDVLTIEEAKEHILRYLRGT RPMPIKVENVSFIYNEGTPYATVALKDINFSIDDEEFVGIIGHTGSGKSTLIQQLNGLLKPSKGKIYINGIDITDKKVSLKDIRKQVGLVFQYPEYQLFEETVFKDIAFGPSNLGLSEEEVKERVYEAMEIVGISKELADKSPFELSGGQKRRVAIAGILAMRPKILILDEPTAGLDPKGKQEILNKIKEIHDKYKMITILVSHNMEDIARIADKIIVMNRGKIELIGTPREVFREAERLEKIGLSVPQITSLARELRKRGVPIPPDVLTIEEAKEHILRYLRGT 4mkk-a1-m1-cA_4mkk-a1-m4-cA Crystal structure of C115A mutant L-methionine gamma-lyase from Citrobacter freundii modified by allicine Q84AR1 Q84AR1 1.45 X-RAY DIFFRACTION 77 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 385 385 1y4i-a1-m1-cA_1y4i-a1-m4-cA 1y4i-a1-m2-cA_1y4i-a1-m3-cA 2rfv-a1-m1-cA_2rfv-a1-m4-cA 2rfv-a1-m2-cA_2rfv-a1-m3-cA 3jw9-a1-m1-cA_3jw9-a1-m4-cA 3jw9-a1-m2-cA_3jw9-a1-m3-cA 3jwa-a1-m1-cA_3jwa-a1-m4-cA 3jwa-a1-m2-cA_3jwa-a1-m3-cA 3jwb-a1-m1-cA_3jwb-a1-m4-cA 3jwb-a1-m2-cA_3jwb-a1-m3-cA 3mkj-a1-m1-cA_3mkj-a1-m4-cA 3mkj-a1-m2-cA_3mkj-a1-m3-cA 4hf8-a1-m1-cA_4hf8-a1-m4-cA 4hf8-a1-m2-cA_4hf8-a1-m3-cA 4mkj-a1-m1-cA_4mkj-a1-m4-cA 4mkj-a1-m2-cA_4mkj-a1-m3-cA 4mkk-a1-m2-cA_4mkk-a1-m3-cA 4oma-a1-m1-cA_4oma-a1-m4-cA 4oma-a1-m2-cA_4oma-a1-m3-cA 4p7y-a1-m1-cA_4p7y-a1-m4-cA 4p7y-a1-m2-cA_4p7y-a1-m3-cA 5d5s-a1-m1-cA_5d5s-a1-m4-cA 5d5s-a1-m2-cA_5d5s-a1-m3-cA 5e4z-a1-m1-cA_5e4z-a1-m4-cA 5e4z-a1-m2-cA_5e4z-a1-m3-cA 5k30-a1-m1-cA_5k30-a1-m4-cA 5k30-a1-m2-cA_5k30-a1-m3-cA 5m3z-a1-m1-cA_5m3z-a1-m4-cA 5m3z-a1-m2-cA_5m3z-a1-m3-cA 6egr-a1-m1-cA_6egr-a1-m4-cA 6egr-a1-m2-cA_6egr-a1-m3-cA 6s0c-a1-m1-cA_6s0c-a1-m4-cA 6s0c-a1-m2-cA_6s0c-a1-m3-cA SDRTYGFNTQIVHAGQQPDPSTGALSTPIFQTSTFVFDSAEQGAARFYTRLGNPTTDALEKKLAVLERGEAGLATASGISAITTTLLTLCQQGDHIVSASAIYGATHAFLSHSMPKFGINVSFVDAAKPEEIRAAMRPETKVVYIETPANPTLSLVDIETVAGIAHQQGALLVVDNTFMSPYCQQPLQLGADIVVHSVTYINGHGDVIGGIIVGKQEFIDQARFVGLKDITGGMSPFNAWLTLRGVKTLGIRMERHCENALKIARFLEGHPSITRVYYPGLSSHPQYELGQRQMSLPGGIISFEIAGGLEAGRRMINSVELCLLAVSLGDTETLIQHPASMTHSPVAPEERLKAGITDGLIRLSVGLEDPEDIINDLEHAIRKAT SDRTYGFNTQIVHAGQQPDPSTGALSTPIFQTSTFVFDSAEQGAARFYTRLGNPTTDALEKKLAVLERGEAGLATASGISAITTTLLTLCQQGDHIVSASAIYGATHAFLSHSMPKFGINVSFVDAAKPEEIRAAMRPETKVVYIETPANPTLSLVDIETVAGIAHQQGALLVVDNTFMSPYCQQPLQLGADIVVHSVTYINGHGDVIGGIIVGKQEFIDQARFVGLKDITGGMSPFNAWLTLRGVKTLGIRMERHCENALKIARFLEGHPSITRVYYPGLSSHPQYELGQRQMSLPGGIISFEIAGGLEAGRRMINSVELCLLAVSLGDTETLIQHPASMTHSPVAPEERLKAGITDGLIRLSVGLEDPEDIINDLEHAIRKAT 4mkk-a1-m2-cA_4mkk-a1-m4-cA Crystal structure of C115A mutant L-methionine gamma-lyase from Citrobacter freundii modified by allicine Q84AR1 Q84AR1 1.45 X-RAY DIFFRACTION 202 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 385 385 1y4i-a1-m1-cA_1y4i-a1-m3-cA 1y4i-a1-m2-cA_1y4i-a1-m4-cA 2rfv-a1-m1-cA_2rfv-a1-m3-cA 2rfv-a1-m2-cA_2rfv-a1-m4-cA 3jw9-a1-m1-cA_3jw9-a1-m3-cA 3jw9-a1-m2-cA_3jw9-a1-m4-cA 3jwa-a1-m1-cA_3jwa-a1-m3-cA 3jwa-a1-m2-cA_3jwa-a1-m4-cA 3jwb-a1-m1-cA_3jwb-a1-m3-cA 3jwb-a1-m2-cA_3jwb-a1-m4-cA 3mkj-a1-m1-cA_3mkj-a1-m3-cA 3mkj-a1-m2-cA_3mkj-a1-m4-cA 4hf8-a1-m1-cA_4hf8-a1-m3-cA 4hf8-a1-m2-cA_4hf8-a1-m4-cA 4mkj-a1-m1-cA_4mkj-a1-m3-cA 4mkj-a1-m2-cA_4mkj-a1-m4-cA 4mkk-a1-m1-cA_4mkk-a1-m3-cA 4oma-a1-m1-cA_4oma-a1-m3-cA 4oma-a1-m2-cA_4oma-a1-m4-cA 4p7y-a1-m1-cA_4p7y-a1-m3-cA 4p7y-a1-m2-cA_4p7y-a1-m4-cA 5d5s-a1-m1-cA_5d5s-a1-m3-cA 5d5s-a1-m2-cA_5d5s-a1-m4-cA 5e4z-a1-m1-cA_5e4z-a1-m3-cA 5e4z-a1-m2-cA_5e4z-a1-m4-cA 5k30-a1-m1-cA_5k30-a1-m3-cA 5k30-a1-m2-cA_5k30-a1-m4-cA 5m3z-a1-m1-cA_5m3z-a1-m3-cA 5m3z-a1-m2-cA_5m3z-a1-m4-cA 6egr-a1-m1-cA_6egr-a1-m3-cA 6egr-a1-m2-cA_6egr-a1-m4-cA 6s0c-a1-m1-cA_6s0c-a1-m3-cA 6s0c-a1-m2-cA_6s0c-a1-m4-cA SDRTYGFNTQIVHAGQQPDPSTGALSTPIFQTSTFVFDSAEQGAARFYTRLGNPTTDALEKKLAVLERGEAGLATASGISAITTTLLTLCQQGDHIVSASAIYGATHAFLSHSMPKFGINVSFVDAAKPEEIRAAMRPETKVVYIETPANPTLSLVDIETVAGIAHQQGALLVVDNTFMSPYCQQPLQLGADIVVHSVTYINGHGDVIGGIIVGKQEFIDQARFVGLKDITGGMSPFNAWLTLRGVKTLGIRMERHCENALKIARFLEGHPSITRVYYPGLSSHPQYELGQRQMSLPGGIISFEIAGGLEAGRRMINSVELCLLAVSLGDTETLIQHPASMTHSPVAPEERLKAGITDGLIRLSVGLEDPEDIINDLEHAIRKAT SDRTYGFNTQIVHAGQQPDPSTGALSTPIFQTSTFVFDSAEQGAARFYTRLGNPTTDALEKKLAVLERGEAGLATASGISAITTTLLTLCQQGDHIVSASAIYGATHAFLSHSMPKFGINVSFVDAAKPEEIRAAMRPETKVVYIETPANPTLSLVDIETVAGIAHQQGALLVVDNTFMSPYCQQPLQLGADIVVHSVTYINGHGDVIGGIIVGKQEFIDQARFVGLKDITGGMSPFNAWLTLRGVKTLGIRMERHCENALKIARFLEGHPSITRVYYPGLSSHPQYELGQRQMSLPGGIISFEIAGGLEAGRRMINSVELCLLAVSLGDTETLIQHPASMTHSPVAPEERLKAGITDGLIRLSVGLEDPEDIINDLEHAIRKAT 4mkk-a1-m3-cA_4mkk-a1-m4-cA Crystal structure of C115A mutant L-methionine gamma-lyase from Citrobacter freundii modified by allicine Q84AR1 Q84AR1 1.45 X-RAY DIFFRACTION 103 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 385 385 1y4i-a1-m1-cA_1y4i-a1-m2-cA 1y4i-a1-m3-cA_1y4i-a1-m4-cA 2rfv-a1-m1-cA_2rfv-a1-m2-cA 2rfv-a1-m3-cA_2rfv-a1-m4-cA 3jw9-a1-m1-cA_3jw9-a1-m2-cA 3jw9-a1-m3-cA_3jw9-a1-m4-cA 3jwa-a1-m1-cA_3jwa-a1-m2-cA 3jwa-a1-m3-cA_3jwa-a1-m4-cA 3jwb-a1-m1-cA_3jwb-a1-m2-cA 3jwb-a1-m3-cA_3jwb-a1-m4-cA 3mkj-a1-m1-cA_3mkj-a1-m2-cA 3mkj-a1-m3-cA_3mkj-a1-m4-cA 4hf8-a1-m1-cA_4hf8-a1-m2-cA 4hf8-a1-m3-cA_4hf8-a1-m4-cA 4mkj-a1-m1-cA_4mkj-a1-m2-cA 4mkj-a1-m3-cA_4mkj-a1-m4-cA 4mkk-a1-m1-cA_4mkk-a1-m2-cA 4oma-a1-m1-cA_4oma-a1-m2-cA 4oma-a1-m3-cA_4oma-a1-m4-cA 4p7y-a1-m1-cA_4p7y-a1-m2-cA 4p7y-a1-m3-cA_4p7y-a1-m4-cA 5d5s-a1-m1-cA_5d5s-a1-m2-cA 5d5s-a1-m3-cA_5d5s-a1-m4-cA 5e4z-a1-m1-cA_5e4z-a1-m2-cA 5e4z-a1-m3-cA_5e4z-a1-m4-cA 5k30-a1-m1-cA_5k30-a1-m2-cA 5k30-a1-m3-cA_5k30-a1-m4-cA 5m3z-a1-m1-cA_5m3z-a1-m2-cA 5m3z-a1-m3-cA_5m3z-a1-m4-cA 6egr-a1-m1-cA_6egr-a1-m2-cA 6egr-a1-m3-cA_6egr-a1-m4-cA 6s0c-a1-m1-cA_6s0c-a1-m2-cA 6s0c-a1-m3-cA_6s0c-a1-m4-cA SDRTYGFNTQIVHAGQQPDPSTGALSTPIFQTSTFVFDSAEQGAARFYTRLGNPTTDALEKKLAVLERGEAGLATASGISAITTTLLTLCQQGDHIVSASAIYGATHAFLSHSMPKFGINVSFVDAAKPEEIRAAMRPETKVVYIETPANPTLSLVDIETVAGIAHQQGALLVVDNTFMSPYCQQPLQLGADIVVHSVTYINGHGDVIGGIIVGKQEFIDQARFVGLKDITGGMSPFNAWLTLRGVKTLGIRMERHCENALKIARFLEGHPSITRVYYPGLSSHPQYELGQRQMSLPGGIISFEIAGGLEAGRRMINSVELCLLAVSLGDTETLIQHPASMTHSPVAPEERLKAGITDGLIRLSVGLEDPEDIINDLEHAIRKAT SDRTYGFNTQIVHAGQQPDPSTGALSTPIFQTSTFVFDSAEQGAARFYTRLGNPTTDALEKKLAVLERGEAGLATASGISAITTTLLTLCQQGDHIVSASAIYGATHAFLSHSMPKFGINVSFVDAAKPEEIRAAMRPETKVVYIETPANPTLSLVDIETVAGIAHQQGALLVVDNTFMSPYCQQPLQLGADIVVHSVTYINGHGDVIGGIIVGKQEFIDQARFVGLKDITGGMSPFNAWLTLRGVKTLGIRMERHCENALKIARFLEGHPSITRVYYPGLSSHPQYELGQRQMSLPGGIISFEIAGGLEAGRRMINSVELCLLAVSLGDTETLIQHPASMTHSPVAPEERLKAGITDGLIRLSVGLEDPEDIINDLEHAIRKAT 4mkn-a1-m2-cA_4mkn-a1-m1-cA Crystal structure of chloroplastic triosephosphate isomerase from Chlamydomonas reinhardtii at 1.1 A of resolution Q5S7Y5 Q5S7Y5 1.1 X-RAY DIFFRACTION 122 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 254 254 SSAKFFVGGNWKCNGSVANVAKLVDELNAGTIPRGVDVVVAPPFIYIDYVMQHLDRDKYQLSAQNAWIGGNGAFTGEVSAEQLTDFGVPWVILGHSERRSLFGESNEVVAKKTSHALAAGLGVIACIGETLEQRNSGSVFKVLDAQMDALVDEVKDWTKVVLAYEPVWAIGTGVVASPEQAQEVHAYLRQYCAKKLGAAVADKLRIIYGGSVSDTNCKDLSKQEDIDGFLVGGASLKGAAFVTICNAAGPKAKP SSAKFFVGGNWKCNGSVANVAKLVDELNAGTIPRGVDVVVAPPFIYIDYVMQHLDRDKYQLSAQNAWIGGNGAFTGEVSAEQLTDFGVPWVILGHSERRSLFGESNEVVAKKTSHALAAGLGVIACIGETLEQRNSGSVFKVLDAQMDALVDEVKDWTKVVLAYEPVWAIGTGVVASPEQAQEVHAYLRQYCAKKLGAAVADKLRIIYGGSVSDTNCKDLSKQEDIDGFLVGGASLKGAAFVTICNAAGPKAKP 4mkq-a1-m1-cA_4mkq-a1-m2-cB Crystal structure of the Pore-Forming Toxin Monalysin mutant deleted of the membrane-spanning domain Q1I8U1 Q1I8U1 2.65 X-RAY DIFFRACTION 29 1.0 384676 (Pseudomonas entomophila L48) 384676 (Pseudomonas entomophila L48) 169 169 4mkq-a1-m1-cB_4mkq-a1-m2-cA SGRFDQYPTKKGDFAIDGYLLDYSSPKQGCWVDGITVYGDIYIGKQNWGTYTRPVFAYLQYVETISGSGTFVIYQVVLVYAHNATSAGRQNANAFAYSKTQAVGSRVDLYYLSAITQRKRVIVPSSNAVTPLDWDTVQRNVLMENYNPGSNSGHFSFDWSAYNDPHRRY SGRFDQYPTKKGDFAIDGYLLDYSSPKQGCWVDGITVYGDIYIGKQNWGTYTRPVFAYLQYVETISGSGTFVIYQVVLVYAHNATSAGRQNANAFAYSKTQAVGSRVDLYYLSAITQRKRVIVPSSNAVTPLDWDTVQRNVLMENYNPGSNSGHFSFDWSAYNDPHRRY 4mkq-a1-m2-cA_4mkq-a1-m2-cB Crystal structure of the Pore-Forming Toxin Monalysin mutant deleted of the membrane-spanning domain Q1I8U1 Q1I8U1 2.65 X-RAY DIFFRACTION 82 1.0 384676 (Pseudomonas entomophila L48) 384676 (Pseudomonas entomophila L48) 169 169 4mkq-a1-m1-cA_4mkq-a1-m1-cB SGRFDQYPTKKGDFAIDGYLLDYSSPKQGCWVDGITVYGDIYIGKQNWGTYTRPVFAYLQYVETISGSGTFVIYQVVLVYAHNATSAGRQNANAFAYSKTQAVGSRVDLYYLSAITQRKRVIVPSSNAVTPLDWDTVQRNVLMENYNPGSNSGHFSFDWSAYNDPHRRY SGRFDQYPTKKGDFAIDGYLLDYSSPKQGCWVDGITVYGDIYIGKQNWGTYTRPVFAYLQYVETISGSGTFVIYQVVLVYAHNATSAGRQNANAFAYSKTQAVGSRVDLYYLSAITQRKRVIVPSSNAVTPLDWDTVQRNVLMENYNPGSNSGHFSFDWSAYNDPHRRY 4mks-a2-m4-cB_4mks-a2-m1-cA Crystal structure of enolase from Lactobacillus gasseri Q042F4 Q042F4 2.079 X-RAY DIFFRACTION 79 1.0 324831 (Lactobacillus gasseri ATCC 33323 = JCM 1131) 324831 (Lactobacillus gasseri ATCC 33323 = JCM 1131) 397 400 4mks-a2-m1-cB_4mks-a2-m3-cA 4mks-a2-m2-cB_4mks-a2-m4-cA 4mks-a2-m3-cB_4mks-a2-m2-cA VITDIHAREVLDSRGNPTAEAEVYTELGGFGRAIVPSGASTGEHEAVELRDGDKSRFGGQGVLTAVENVNGEIAKAVIGLDVTDQRLIDQTMIDLDGTPNKGRLGANAILSVSLASARAAADELGLPLYEYLGGPNAHVLPTPMMNVINGNVDIQEFMIMPVGAKSLHEAVRMGAETFHTLKGLLQERGESTAVGDEGGFAPNNEEPFEILVEAIQRAGYKPGQDIAIAFDCAASEFYWTSLIEDLVDKYPVISVEDPLDENDWEGWKTFTERLGDKVQIVGDDLFVTNTSYLEKGIKMGVANSILIKLNQIGTLTETFEAIEMAKEAGYTAVVSHRSGETEDTTIADLVVATNAGQIKTGSMSRTDRIAKYNQLMRIEEALGSTAQYKGIHSFYNL VITDIHAREVLDSRGNPTAEAEVYTELGGFGRAIVPSGASTGEHEAVELRDGDKSRFGGQGVLTAVENVNGEIAKAVIGLDVTDQRLIDQTMIDLDGTPNKGRLGANAILSVSLASARAAADELGLPLYEYLGGPNAHVLPTPMMNVINGGDNNVDIQEFMIMPVGAKSLHEAVRMGAETFHTLKGLLQERGESTAVGDEGGFAPNNEEPFEILVEAIQRAGYKPGQDIAIAFDCAASEFYWTSLIEDLVDKYPVISVEDPLDENDWEGWKTFTERLGDKVQIVGDDLFVTNTSYLEKGIKMGVANSILIKLNQIGTLTETFEAIEMAKEAGYTAVVSHRSGETEDTTIADLVVATNAGQIKTGSMSRTDRIAKYNQLMRIEEALGSTAQYKGIHSFYNL 4mks-a2-m4-cB_4mks-a2-m4-cA Crystal structure of enolase from Lactobacillus gasseri Q042F4 Q042F4 2.079 X-RAY DIFFRACTION 119 1.0 324831 (Lactobacillus gasseri ATCC 33323 = JCM 1131) 324831 (Lactobacillus gasseri ATCC 33323 = JCM 1131) 397 400 4mks-a1-m1-cB_4mks-a1-m1-cA 4mks-a2-m1-cB_4mks-a2-m1-cA 4mks-a2-m2-cB_4mks-a2-m2-cA 4mks-a2-m3-cB_4mks-a2-m3-cA VITDIHAREVLDSRGNPTAEAEVYTELGGFGRAIVPSGASTGEHEAVELRDGDKSRFGGQGVLTAVENVNGEIAKAVIGLDVTDQRLIDQTMIDLDGTPNKGRLGANAILSVSLASARAAADELGLPLYEYLGGPNAHVLPTPMMNVINGNVDIQEFMIMPVGAKSLHEAVRMGAETFHTLKGLLQERGESTAVGDEGGFAPNNEEPFEILVEAIQRAGYKPGQDIAIAFDCAASEFYWTSLIEDLVDKYPVISVEDPLDENDWEGWKTFTERLGDKVQIVGDDLFVTNTSYLEKGIKMGVANSILIKLNQIGTLTETFEAIEMAKEAGYTAVVSHRSGETEDTTIADLVVATNAGQIKTGSMSRTDRIAKYNQLMRIEEALGSTAQYKGIHSFYNL VITDIHAREVLDSRGNPTAEAEVYTELGGFGRAIVPSGASTGEHEAVELRDGDKSRFGGQGVLTAVENVNGEIAKAVIGLDVTDQRLIDQTMIDLDGTPNKGRLGANAILSVSLASARAAADELGLPLYEYLGGPNAHVLPTPMMNVINGGDNNVDIQEFMIMPVGAKSLHEAVRMGAETFHTLKGLLQERGESTAVGDEGGFAPNNEEPFEILVEAIQRAGYKPGQDIAIAFDCAASEFYWTSLIEDLVDKYPVISVEDPLDENDWEGWKTFTERLGDKVQIVGDDLFVTNTSYLEKGIKMGVANSILIKLNQIGTLTETFEAIEMAKEAGYTAVVSHRSGETEDTTIADLVVATNAGQIKTGSMSRTDRIAKYNQLMRIEEALGSTAQYKGIHSFYNL 4mky-a2-m1-cC_4mky-a2-m1-cD Polymerase Domain from Mycobacterium tuberculosis Ligase D in complex with an annealed double-strand DNA break. P9WNV3 P9WNV3 2.4 X-RAY DIFFRACTION 33 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 284 284 4mky-a1-m1-cB_4mky-a1-m1-cA QRVTLTNADKVLYPATGTTKSDIFDYYAGVAEVMLGHIAGRPATRKRWPNGVDQPAFFEKQLALSAPPWLSRATVAHRSGTTTYPIIDSATGLAWIAQQAALEVHVPQWRFVAEPGSGELNPGPATRLVFDLDPGEGVMMAQLAEVARAVRDLLADIGLVTFPVTSGSKGLHLYTPLDEPVSSRGATVLAKRVAQRLEQAMPALVTSTMTKSLRAGKVFVDWSQNSGSKTTIAPYSLRGRTHPTVAAPRTWAELDDPALRQLSYDEVLTRIARDGDLLERLDAD QRVTLTNADKVLYPATGTTKSDIFDYYAGVAEVMLGHIAGRPATRKRWPNGVDQPAFFEKQLALSAPPWLSRATVAHRSGTTTYPIIDSATGLAWIAQQAALEVHVPQWRFVAEPGSGELNPGPATRLVFDLDPGEGVMMAQLAEVARAVRDLLADIGLVTFPVTSGSKGLHLYTPLDEPVSSRGATVLAKRVAQRLEQAMPALVTSTMTKSLRAGKVFVDWSQNSGSKTTIAPYSLRGRTHPTVAAPRTWAELDDPALRQLSYDEVLTRIARDGDLLERLDAD 4mlc-a3-m1-cA_4mlc-a3-m4-cA ABC Transporter Substrate-Binding Protein fromDesulfitobacterium hafniense B8FZ96 B8FZ96 2.705 X-RAY DIFFRACTION 42 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 329 329 4mlc-a3-m2-cA_4mlc-a3-m3-cA EEIFIGVAWPFASLDDLFAEGLELAVQEINEQGGVQGRKLSLVKADDEAELEKGLAIAQAFADNAGIQAVIGHRNSFISIPAASIYDQAGLVLSPASTSPDLTDHGYIHVFRNIPSDQEIARQLAIYLAEQGHERVIYYTDDSYGNGLANAFEDYARAQGITIVDRFNYYGNLKDLERLYDKWQAFGDGIFIAKTATGGGTEFLVDAKSVGIEVPLIAGNSWDAGTAEGLLVGSFFNPQRPDSRTQDFVEAFRREYGQPPTSYAAAGYDAVILLAEALEKSDLTHPATLAQGLRDLGPWEGVGHRFDGRGDDIGDLVVLKKKDGRFEYL EEIFIGVAWPFASLDDLFAEGLELAVQEINEQGGVQGRKLSLVKADDEAELEKGLAIAQAFADNAGIQAVIGHRNSFISIPAASIYDQAGLVLSPASTSPDLTDHGYIHVFRNIPSDQEIARQLAIYLAEQGHERVIYYTDDSYGNGLANAFEDYARAQGITIVDRFNYYGNLKDLERLYDKWQAFGDGIFIAKTATGGGTEFLVDAKSVGIEVPLIAGNSWDAGTAEGLLVGSFFNPQRPDSRTQDFVEAFRREYGQPPTSYAAAGYDAVILLAEALEKSDLTHPATLAQGLRDLGPWEGVGHRFDGRGDDIGDLVVLKKKDGRFEYL 4mlc-a3-m3-cA_4mlc-a3-m4-cA ABC Transporter Substrate-Binding Protein fromDesulfitobacterium hafniense B8FZ96 B8FZ96 2.705 X-RAY DIFFRACTION 48 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 329 329 4mlc-a2-m1-cA_4mlc-a2-m2-cA 4mlc-a3-m1-cA_4mlc-a3-m2-cA EEIFIGVAWPFASLDDLFAEGLELAVQEINEQGGVQGRKLSLVKADDEAELEKGLAIAQAFADNAGIQAVIGHRNSFISIPAASIYDQAGLVLSPASTSPDLTDHGYIHVFRNIPSDQEIARQLAIYLAEQGHERVIYYTDDSYGNGLANAFEDYARAQGITIVDRFNYYGNLKDLERLYDKWQAFGDGIFIAKTATGGGTEFLVDAKSVGIEVPLIAGNSWDAGTAEGLLVGSFFNPQRPDSRTQDFVEAFRREYGQPPTSYAAAGYDAVILLAEALEKSDLTHPATLAQGLRDLGPWEGVGHRFDGRGDDIGDLVVLKKKDGRFEYL EEIFIGVAWPFASLDDLFAEGLELAVQEINEQGGVQGRKLSLVKADDEAELEKGLAIAQAFADNAGIQAVIGHRNSFISIPAASIYDQAGLVLSPASTSPDLTDHGYIHVFRNIPSDQEIARQLAIYLAEQGHERVIYYTDDSYGNGLANAFEDYARAQGITIVDRFNYYGNLKDLERLYDKWQAFGDGIFIAKTATGGGTEFLVDAKSVGIEVPLIAGNSWDAGTAEGLLVGSFFNPQRPDSRTQDFVEAFRREYGQPPTSYAAAGYDAVILLAEALEKSDLTHPATLAQGLRDLGPWEGVGHRFDGRGDDIGDLVVLKKKDGRFEYL 4mld-a1-m1-cA_4mld-a1-m1-cD X-ray structure of ComE D58E REC domain from Streptococcus pneumoniae Q8DMW5 Q8DMW5 2.88 X-RAY DIFFRACTION 32 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 133 133 4cbv-a1-m1-cC_4cbv-a1-m1-cD 4cbv-a2-m1-cE_4cbv-a2-m1-cF 4ml3-a1-m1-cA_4ml3-a1-m1-cC 4ml3-a2-m1-cB_4ml3-a2-m1-cD 4mld-a2-m1-cB_4mld-a2-m1-cC MKVLILEDVIEHQVRLERILDEISKESNIPISYKTTGKVREFEEYIENDEVNQLYFLEIDIHGIEKKGFEVAQLIRHYNPYAIIVFITSRSEFATLTYKYQVSALDFVDKDINDEMFKKRIEQNIFYTKSMLL MKVLILEDVIEHQVRLERILDEISKESNIPISYKTTGKVREFEEYIENDEVNQLYFLEIDIHGIEKKGFEVAQLIRHYNPYAIIVFITSRSEFATLTYKYQVSALDFVDKDINDEMFKKRIEQNIFYTKSMLL 4mlg-a6-m1-cL_4mlg-a6-m1-cK Structure of RS223-Beta-xylosidase I7EUE2 I7EUE2 2.7 X-RAY DIFFRACTION 53 1.0 155900 (uncultured organism) 155900 (uncultured organism) 322 324 4mlg-a1-m1-cA_4mlg-a1-m1-cB 4mlg-a2-m1-cD_4mlg-a2-m1-cC 4mlg-a3-m1-cE_4mlg-a3-m1-cF 4mlg-a4-m1-cG_4mlg-a4-m1-cH 4mlg-a5-m1-cI_4mlg-a5-m1-cJ MKEPRYLVPGDYMADPAAHVFNDKLYIYPSHDWESGIPENDNGDHFNMKDYHVFSMDDVEQGEVTDHGVVLRTEDIPWAGRQLWDSDVAFRNGKYYMYFPLKDQNDIFRIGVAISDRPEGPFIPQENPIKGSYSMDPCIWPDKDGEYYMYFGGLWGGQLQRYRNNKALECALLPEGDEPALCPKVVRLREDMLEFAEEPRDLMILDEKGKLLSAGDTKRRFFEASWMHYYNGKYYFSYSTGDTHLICYATGDNPYGPFTYRGVILTPVVGWTTHHSIVEFKGKWYLFHHDCVPSKGKTWLRSLKVAELKYNPDGSIQPIKGT MKEPRYLVPGDYMADPAAHVFNDKLYIYPSHDWESGIPENDNGDHFNMKDYHVFSMDDVEQGEVTDHGVVLRTEDIPWAGRQLWDSDVAFRNGKYYMYFPLKDQNDIFRIGVAISDRPEGPFIPQENPIKGSYSMDPCIWPDKDGEYYMYFGGLWGGQLQRYRNNKALECALLPEGDEPALCPKVVRLREDMLEFAEEPRDLMILDEKGKLLSAGDTKRRFFEASWMHYYNGKYYFSYSTGDTHLICYATGDNPYGPFTYRGVILTPVVGWTTHHSIVEFKGKWYLFHHDCVPSKGKTWLRSLKVAELKYNPDGSIQPIKGTAE 4mlk-a1-m1-cA_4mlk-a1-m6-cA 3.05A resolution structure of CT584 from Chlamydia trachomatis A0A0H3MCR9 A0A0H3MCR9 3.051 X-RAY DIFFRACTION 172 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 151 151 4mlk-a1-m2-cA_4mlk-a1-m5-cA 4mlk-a1-m3-cA_4mlk-a1-m4-cA TFLLLEGNLKRIFATPIGYTTFREFQNVVFNCAQQELANFLFELINGKLKQSAQSLIVQFMMPIRVAKDIHERGEFINFITSDMLCVFLNRLSRVDGQEFLLMTDVQNTCHLIRHLLSRLLEAQKNPIGEKNLQEIQEDLDSLRAHFEELT TFLLLEGNLKRIFATPIGYTTFREFQNVVFNCAQQELANFLFELINGKLKQSAQSLIVQFMMPIRVAKDIHERGEFINFITSDMLCVFLNRLSRVDGQEFLLMTDVQNTCHLIRHLLSRLLEAQKNPIGEKNLQEIQEDLDSLRAHFEELT 4mlk-a1-m5-cA_4mlk-a1-m6-cA 3.05A resolution structure of CT584 from Chlamydia trachomatis A0A0H3MCR9 A0A0H3MCR9 3.051 X-RAY DIFFRACTION 33 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 151 151 4mlk-a1-m1-cA_4mlk-a1-m2-cA 4mlk-a1-m1-cA_4mlk-a1-m3-cA 4mlk-a1-m2-cA_4mlk-a1-m3-cA 4mlk-a1-m4-cA_4mlk-a1-m5-cA 4mlk-a1-m4-cA_4mlk-a1-m6-cA TFLLLEGNLKRIFATPIGYTTFREFQNVVFNCAQQELANFLFELINGKLKQSAQSLIVQFMMPIRVAKDIHERGEFINFITSDMLCVFLNRLSRVDGQEFLLMTDVQNTCHLIRHLLSRLLEAQKNPIGEKNLQEIQEDLDSLRAHFEELT TFLLLEGNLKRIFATPIGYTTFREFQNVVFNCAQQELANFLFELINGKLKQSAQSLIVQFMMPIRVAKDIHERGEFINFITSDMLCVFLNRLSRVDGQEFLLMTDVQNTCHLIRHLLSRLLEAQKNPIGEKNLQEIQEDLDSLRAHFEELT 4mlm-a3-m1-cB_4mlm-a3-m1-cA Crystal Structure of PhnZ from uncultured bacterium HF130_AEPn_1 D0E8I5 D0E8I5 1.7 X-RAY DIFFRACTION 22 1.0 663362 (uncultured bacterium HF130_AEPn_1) 663362 (uncultured bacterium HF130_AEPn_1) 182 183 SLSNSSKVSVLISLLEKSRDLDYIGEAINQLEHSLQCAYFAQRSGADNEVLAALLHDLGHYCNDTSFEDGGYGVWQHEKVGADYLRGLGFSERVACLIEGHVAAKRYLVSSKSYLKNLSDASRKTLEYQGGPDEGERRLFEEREDFKDCLKIRAWDEKGKQTDLKVPGPEHYRKEEHLSENQ SLSNSSKVSVLISLLEKSRDLDYIGEAINQLEHSLQCAYFAQRSGADNEVLAALLHDLGHYCNDTSFEDGGYGVWQHEKVGADYLRGLGFSERVACLIEGHVAAKRYLVSSKASYLKNLSDASRKTLEYQGGPDEGERRLFEEREDFKDCLKIRAWDEKGKQTDLKVPGPEHYRKEEHLSENQ 4mlw-a2-m2-cA_4mlw-a2-m4-cA Crystal structure of non-myristoylated recoverin at 1.45 A resolution with calcium bound to EF-hand 3 P21457 P21457 1.45 X-RAY DIFFRACTION 53 1.0 9913 (Bos taurus) 9913 (Bos taurus) 192 192 1omr-a2-m1-cA_1omr-a2-m3-cA 1omr-a2-m1-cA_1omr-a2-m4-cA 1omr-a2-m2-cA_1omr-a2-m3-cA 1omr-a2-m2-cA_1omr-a2-m4-cA 1omv-a2-m1-cA_1omv-a2-m3-cA 1omv-a2-m1-cA_1omv-a2-m4-cA 1omv-a2-m2-cA_1omv-a2-m3-cA 1omv-a2-m2-cA_1omv-a2-m4-cA 1rec-a1-m1-cA_1rec-a1-m3-cA 1rec-a1-m1-cA_1rec-a1-m4-cA 1rec-a1-m2-cA_1rec-a1-m3-cA 1rec-a1-m2-cA_1rec-a1-m4-cA 2het-a5-m1-cA_2het-a5-m1-cB 2het-a5-m1-cA_2het-a5-m1-cD 2het-a5-m1-cB_2het-a5-m1-cC 2het-a5-m1-cC_2het-a5-m1-cD 4m2o-a2-m1-cA_4m2o-a2-m3-cA 4m2o-a2-m1-cA_4m2o-a2-m4-cA 4m2o-a2-m2-cA_4m2o-a2-m3-cA 4m2o-a2-m2-cA_4m2o-a2-m4-cA 4m2q-a2-m1-cA_4m2q-a2-m3-cA 4m2q-a2-m1-cA_4m2q-a2-m4-cA 4m2q-a2-m2-cA_4m2q-a2-m3-cA 4m2q-a2-m2-cA_4m2q-a2-m4-cA 4mlw-a2-m1-cA_4mlw-a2-m3-cA 4mlw-a2-m1-cA_4mlw-a2-m4-cA 4mlw-a2-m2-cA_4mlw-a2-m3-cA GALSKEILEELQLNTKFTEEELSSWYQSFLKECPSGRITRQEFQTIYSKFFPEADPKAYAQHVFRSFDANSDGTLDFKEYVIALHMTSAGKTNQKLEWAFSLYDVDGNGTISKNEVLEIVTAIFKMISPEDTKHLPEDENTPEKRAEKIWGFFGKKDDDKLTEKEFIEGTLANKEILRLIQFEPQKVKEKLK GALSKEILEELQLNTKFTEEELSSWYQSFLKECPSGRITRQEFQTIYSKFFPEADPKAYAQHVFRSFDANSDGTLDFKEYVIALHMTSAGKTNQKLEWAFSLYDVDGNGTISKNEVLEIVTAIFKMISPEDTKHLPEDENTPEKRAEKIWGFFGKKDDDKLTEKEFIEGTLANKEILRLIQFEPQKVKEKLK 4mmn-a3-m1-cC_4mmn-a3-m1-cH Structural and biochemical analysis of type II free methionine-R-sulfoxide reductase from Thermoplasma acidophilum Q9HJW5 Q9HJW5 2.6 X-RAY DIFFRACTION 14 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 140 140 4mmn-a2-m1-cD_4mmn-a2-m1-cE DLKEFARSQMQAACQYLKEKNPKYDWVGFYVLEHGKLKLEAFVGEKTDHVEINLGDGLCSLAVLKNDIVNEYDVKSNPKYLACFPSTQSEIVVPVRYQGEPIGEIDIDSDKKAAFSKEDEAMLSSIADLMAPLVHEFFVK DLKEFARSQMQAACQYLKEKNPKYDWVGFYVLEHGKLKLEAFVGEKTDHVEINLGDGLCSLAVLKNDIVNEYDVKSNPKYLACFPSTQSEIVVPVRYQGEPIGEIDIDSDKKAAFSKEDEAMLSSIADLMAPLVHEFFVK 4mmn-a4-m1-cG_4mmn-a4-m1-cF Structural and biochemical analysis of type II free methionine-R-sulfoxide reductase from Thermoplasma acidophilum Q9HJW5 Q9HJW5 2.6 X-RAY DIFFRACTION 48 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 140 141 4mmn-a1-m1-cB_4mmn-a1-m1-cA 4mn7-a1-m1-cB_4mn7-a1-m1-cA DLKEFARSQMQAACQYLKEKNPKYDWVGFYVLEHGKLKLEAFVGEKTDHVEINLGDGLCSLAVLKNDIVNEYDVKSNPKYLACFPSTQSEIVVPVRYQGEPIGEIDIDSDKKAAFSKEDEAMLSSIADLMAPLVHEFFVK DLKEFARSQMQAACQYLKEKNPKYDWVGFYVLEHGKLKLEAFVGEKTDHVEINLGDGLCSLAVLKNDIVNEYDVKSNPKYLACFPSTQSEIVVPVRYQGEPIGEIDIDSDKKAAFSKEDEAMLSSIADLMAPLVHEFFVKL 4mmo-a1-m1-cB_4mmo-a1-m1-cA The crystal structure of a M20 family metallo-carboxypeptidase Sso-CP2 from Sulfolobus solfataricus Q97V97 Q97V97 2.3363 X-RAY DIFFRACTION 223 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 382 437 LIEFLKKPSITGEGIDETANYLKETVEKLLGVKANLEKTKGHPVVYAEINVNAKKTLLIYNHYPFSATSDNKGTLMARLFAIKHLLDKNELNVNVKLLYEGSVNLEDYIEKNTNKLKADSVIMEGAGLDPKGRPQIVLGVKGLLYVELVLDYGTKDLHSSNAPLVRNPCIDLAKIISTLVDMGGRVLIEGFYDDVRELTEEERELIKKYDIDVEELKKALGFKELKYNEKEKIAEALLTYPTCNVDGFECGYTGKGSKTIVPHRAFAKLDFRLVPNQDPYKVFELLKKHLQKAGFNGEILAHGFEYPVRTSVNSTVVKAMIESAKKVYGEPQVIPNSAGTQPMGLFVYKLGIRDAVSAIIKIDDYYKAIKHTEEFLKLYPIL MDEELYTLIEFLKKPSISATGEGIDETANYLKETVEKLLGVKANLEKTKGHPVVYAEINVNAKKTLLIYNHYDVQPVDPISEWKRAPFSATIENDRIYARGASDNKGTLMARLFAIKHLLDKNELNVNVKLLYEGEEEIGSVNLEDYIEKNTNKLKADSVIMEGAGLDPKGRPQIVLGVKGLLYVELVLDYGTKDLHSSNAPLVRNPCIDLAKIISTLVDMGGRVLIEGFYDDVRELTEEERELIKKYDIDVEELKKALGFKELKYNEKEKIAEALLTYPTCNVDGFECGYTGKGSKTIVPHRAFAKLDFRLVPNQDPYKVFELLKKHLQKAGFNGEILAHGFEYPVRTSVNSTVVKAMIESAKKVYGTEPQVIPNSAGTQPMGLFVYKLGIRDAVSAIGAGGYYSNAHAPNENIKIDDYYKAIKHTEEFLKLYPIL 4mn5-a3-m1-cB_4mn5-a3-m1-cA Crystal structure of PAS domain of S. aureus YycG Q9RDT3 Q9RDT3 2 X-RAY DIFFRACTION 50 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 96 98 4mn5-a4-m2-cB_4mn5-a4-m1-cA 7duc-a1-m1-cA_7duc-a1-m1-cB LDSVITHSDGIIATDRRGRIRIVNDALKLGAKEDIIGYYLSVLSLEDEFKLEEIQENNDSFLLDLGLIARVNFSTIVQETGFVTGYIAVLHDVTEQ RRLDSVITHSDGIIATDRRGRIRIVNDALKLGAKEDIIGYYLSVLSLEDEFKLEEIQENNDSFLLDLGLIARVNFSTIVQETGFVTGYIAVLHDVTEQ 4mnd-a1-m1-cA_4mnd-a1-m2-cA Crystal structure of Archaeoglobus fulgidus IPCT-DIPPS bifunctional membrane protein O29976 O29976 2.66 X-RAY DIFFRACTION 105 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 408 408 LMKAVILAAGLGGGVPKPLVRVGGCEIILRTMKLLSPHVSEFIIVASRYADDIDAFLKDKGFNYKIVRHDRPEKGNGYSLLVAKNHVEDRFILTMGDHVYSQQFIEKAVRGEGVIADREPRFVDIGEATKIRVEDGRVAKIGKDLREFDCVDTGFFVLDDSIFEHAEKLRDREEIPLSEIVKLARLPVTYVDGELWMDVDTKEDVRRANRALVSAAVGDGFISRKINRKISTRISAAIVNKVNPNQMTLISFLVGAFSALASFFSIPLAGLLYQFSSILDGCDGEIARASLKMSKKGGYVDSILDRFVDFLFLAIIALLYPKTATVAMFAIFGSVMVSYTSEKYKAEFGESIRVLNYIPGKRDERIFLIMIFCLLSAISLQWIFWMFLFVAAISLTRVVVTLLAVLVS LMKAVILAAGLGGGVPKPLVRVGGCEIILRTMKLLSPHVSEFIIVASRYADDIDAFLKDKGFNYKIVRHDRPEKGNGYSLLVAKNHVEDRFILTMGDHVYSQQFIEKAVRGEGVIADREPRFVDIGEATKIRVEDGRVAKIGKDLREFDCVDTGFFVLDDSIFEHAEKLRDREEIPLSEIVKLARLPVTYVDGELWMDVDTKEDVRRANRALVSAAVGDGFISRKINRKISTRISAAIVNKVNPNQMTLISFLVGAFSALASFFSIPLAGLLYQFSSILDGCDGEIARASLKMSKKGGYVDSILDRFVDFLFLAIIALLYPKTATVAMFAIFGSVMVSYTSEKYKAEFGESIRVLNYIPGKRDERIFLIMIFCLLSAISLQWIFWMFLFVAAISLTRVVVTLLAVLVS 4mnn-a2-m1-cA_4mnn-a2-m2-cA The crystal structure of Sso1120 from Sulfolobus solfataricus Q97Z21 Q97Z21 1.8 X-RAY DIFFRACTION 30 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 165 165 SYDYVIKEYLNAIKKGDITIQQCNGDSLFHEFKNYVNVETLNNCKKPLVKVKRGDRVYYTYYGIPIANELWPFLNSLVRISNNVVNLDEREVELAKQVRGSVKLFVTPDCTKCPITAEFLYQVSQINENVKLEIYDATEYEEERDKYRVLSVPKIIFNDKVEIPG SYDYVIKEYLNAIKKGDITIQQCNGDSLFHEFKNYVNVETLNNCKKPLVKVKRGDRVYYTYYGIPIANELWPFLNSLVRISNNVVNLDEREVELAKQVRGSVKLFVTPDCTKCPITAEFLYQVSQINENVKLEIYDATEYEEERDKYRVLSVPKIIFNDKVEIPG 4mnu-a1-m1-cB_4mnu-a1-m1-cA Crystal Structure of Uncharacterized SlyA-like Transcription Regulator from Listeria monocytogenes Q8Y8S9 Q8Y8S9 1.898 X-RAY DIFFRACTION 185 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 148 149 6q2b-a1-m1-cA_6q2b-a1-m1-cB KDILRDIGVIARALDSISNIEFKELNLAKGQFIYLVRICENQGIIQEKLVDILKIDRTTASRAIKNLEKNGLIIKKQNKNNKKNKLLFPTEKGQQLYPLIIRENEYSNAVALKGFTEAEINLTDALKKVKENIADDWLYVKKGNKRSY AKDILRDIGVIARALDSISNIEFKELNLAKGQFIYLVRICENQGIIQEKLVDILKIDRTTASRAIKNLEKNGLIIKKQNKNNKKNKLLFPTEKGQQLYPLIIRENEYSNAVALKGFTEAEINLTDALKKVKENIADDWLYVKKGNKRSY 4mo2-a1-m1-cA_4mo2-a1-m2-cB Crystal Structure of UDP-N-acetylgalactopyranose mutase from Campylobacter jejuni Q0P8H5 Q0P8H5 2 X-RAY DIFFRACTION 26 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 363 365 MYDYLIVGSGLFGSIFAYEATEKGYTCLVVEQREHIGGNCYTENIKNINVHKYGAHIFRTSDQNIWDYMNQFCEFNHFINSPIAIYKDEIYNLPFNMNTFSKLWGIKTPNEARKIIEMQKQIIQHPPKNLEEQAISLVGTDVYEKLIKGYTEKQWGRSCKDLPASIIRRLPVRYIYDNNYFNDPYQGIPKGGYTAIFDKMLKKSKVILNTDFLKYKDKFKNKAKKIVFTGCIDAYYDYRYGALEYRSLKFEHKILNLDNFQGVAVVNYTDKEIPYTRIIEHKHFEFGNTDTTVISEEYPLEWIKGIEPYYPINDEKNQALYEKYKQLAKHESNVYFGGRLGEYRYYDMQDVVRSALLFCKNEL MYDYLIVGSGLFGSIFAYEATEKGYTCLVVEQREHIGGNCYTENIKNINVHKYGAHIFRTSDQNIWDYMNQFCEFNHFINSPIAIYKDEIYNLPFNMNTFSKLWGIKTPNEARKIIEMQKQIIQHPPKNLEEQAISLVGTDVYEKLIKGYTEKQWGRSCKDLPASIIRRLPVRYIYDNNYFNDPYQGIPKGGYTAIFDKMLKKSKVILNTDFLKYKDKFKNKAKKIVFTGCIDAYYDYRYGALEYRSLKFEHKILNLDNFQGVAVVNYTDKEIPYTRIIEHKHFEFGNTDTTVISEEYPLEWIKGIEPYYPINDEKNQALYEKYKQLAKHESNVYFGGRLGEYRYYDMQDVVRSALLFCKNELKN 4mo2-a2-m1-cA_4mo2-a2-m1-cB Crystal Structure of UDP-N-acetylgalactopyranose mutase from Campylobacter jejuni Q0P8H5 Q0P8H5 2 X-RAY DIFFRACTION 75 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 363 365 MYDYLIVGSGLFGSIFAYEATEKGYTCLVVEQREHIGGNCYTENIKNINVHKYGAHIFRTSDQNIWDYMNQFCEFNHFINSPIAIYKDEIYNLPFNMNTFSKLWGIKTPNEARKIIEMQKQIIQHPPKNLEEQAISLVGTDVYEKLIKGYTEKQWGRSCKDLPASIIRRLPVRYIYDNNYFNDPYQGIPKGGYTAIFDKMLKKSKVILNTDFLKYKDKFKNKAKKIVFTGCIDAYYDYRYGALEYRSLKFEHKILNLDNFQGVAVVNYTDKEIPYTRIIEHKHFEFGNTDTTVISEEYPLEWIKGIEPYYPINDEKNQALYEKYKQLAKHESNVYFGGRLGEYRYYDMQDVVRSALLFCKNEL MYDYLIVGSGLFGSIFAYEATEKGYTCLVVEQREHIGGNCYTENIKNINVHKYGAHIFRTSDQNIWDYMNQFCEFNHFINSPIAIYKDEIYNLPFNMNTFSKLWGIKTPNEARKIIEMQKQIIQHPPKNLEEQAISLVGTDVYEKLIKGYTEKQWGRSCKDLPASIIRRLPVRYIYDNNYFNDPYQGIPKGGYTAIFDKMLKKSKVILNTDFLKYKDKFKNKAKKIVFTGCIDAYYDYRYGALEYRSLKFEHKILNLDNFQGVAVVNYTDKEIPYTRIIEHKHFEFGNTDTTVISEEYPLEWIKGIEPYYPINDEKNQALYEKYKQLAKHESNVYFGGRLGEYRYYDMQDVVRSALLFCKNELKN 4mo4-a2-m1-cD_4mo4-a2-m1-cC Crystal structure of AnmK bound to AMPPCP Q9I5Q5 Q9I5Q5 1.67 X-RAY DIFFRACTION 114 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 353 354 3qbw-a1-m1-cA_3qbw-a1-m1-cB 3qbx-a1-m1-cA_3qbx-a1-m1-cB 4mo4-a1-m1-cA_4mo4-a1-m1-cB 4mo5-a1-m1-cA_4mo5-a1-m1-cB 4mo5-a2-m1-cC_4mo5-a2-m1-cD PRYLGLMSGTSLDGMDIVLIEQGDRTTLLASHYLPMPAGLREDILALCVPGPDEIARAAEVEQRWVALAAQGVRELLLQQQMSPDEVRAIGSHGQTIRHEPARHFTVQIGNPALLAELTGIDVVADFRRRDVAAGGQGAPLVPAFHQALFGDDDTSRAVLNIGGFSNVSLLSPGKPVRGFDCGPGNVLMDAWIHHQRGEHFDRDGAWAASGQVNHALLASLLADEFFERFNLPWLQEHLARHPALPAADIQATLLELSARSISESLLDAQPDCEEVLVCGGGAFNTALMKRLAMLMPEARVASTDEYGIPPAWMEGMAFAWLAHRFLERLPGNCPDVTGALGPRTLGALYPAG PRYLGLMSGTSLDGMDIVLIEQGDRTTLLASHYLPMPAGLREDILALCVPGPDEIARAAEVEQRWVALAAQGVRELLLQQQMSPDEVRAIGSHGQTIRHEPARHFTVQIGNPALLAELTGIDVVADFRRRDVAAGGQGAPLVPAFHQALFGDDDTSRAVLNIGGFSNVSLLSPGKPVRGFDCGPGNVLMDAWIHHQRGEHFDRDGAWAASGQVNHALLASLLADEFFRERFNLPWLQEHLARHPALPAADIQATLLELSARSISESLLDAQPDCEEVLVCGGGAFNTALMKRLAMLMPEARVASTDEYGIPPAWMEGMAFAWLAHRFLERLPGNCPDVTGALGPRTLGALYPAG 4mo7-a1-m1-cA_4mo7-a1-m2-cA Crystal structure of superantigen PfiT 1.701 X-RAY DIFFRACTION 61 1.0 1037911 (Pseudomonas fluorescens A506) 1037911 (Pseudomonas fluorescens A506) 187 187 TDPESARGKLLQTAAHLFRNKGFERTTVRDLASAVGIQSGSIFHHFKSKDEILRAVMEETIHYNTAMMRASLEEASTVRERVLALIRELQSIMGGSGEAMAVLVYEWRSLSAEGQAHVLALRDVYEQIWLQVLGEAKAAGYIRGDVFITRRFLTGALSWTTTWFRAQGSLTLEELAEEALLMVLKSD TDPESARGKLLQTAAHLFRNKGFERTTVRDLASAVGIQSGSIFHHFKSKDEILRAVMEETIHYNTAMMRASLEEASTVRERVLALIRELQSIMGGSGEAMAVLVYEWRSLSAEGQAHVLALRDVYEQIWLQVLGEAKAAGYIRGDVFITRRFLTGALSWTTTWFRAQGSLTLEELAEEALLMVLKSD 4moc-a1-m2-cA_4moc-a1-m3-cA Human Acyl-coenzyme A Thioesterase 12 Q8WYK0 Q8WYK0 2.5 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 3b7k-a1-m1-cB_3b7k-a1-m1-cA 3b7k-a1-m1-cC_3b7k-a1-m1-cA 4mob-a1-m1-cA_4mob-a1-m2-cA 4mob-a1-m1-cA_4mob-a1-m3-cA 4mob-a1-m2-cA_4mob-a1-m3-cA 4moc-a1-m1-cA_4moc-a1-m2-cA 4moc-a1-m1-cA_4moc-a1-m3-cA MGEVVMSQAIQPAHATARGELSAGQLLKWIDTTACLAAEKHAGVSCVTASVDDIQFEETARVGQVITIKAKVTRAFSTSMEISIKVMVQDMLTGIEKLVSVAFSTFVAKPVGKEKIHLKPVTLLTEQDHVEHNLAAERRKVRLQHEDTRGTSVQSIELVLPPHANHHGNTFGGQIMAWMETVATISASRLCWAHPFLKSVDMFKFRGPSTVGDRLVFTAIVNNTFQTCVEVGVRVEAFDCQEWAEGRGRHINSAFLIYNAADDKENLITFPRI MGEVVMSQAIQPAHATARGELSAGQLLKWIDTTACLAAEKHAGVSCVTASVDDIQFEETARVGQVITIKAKVTRAFSTSMEISIKVMVQDMLTGIEKLVSVAFSTFVAKPVGKEKIHLKPVTLLTEQDHVEHNLAAERRKVRLQHEDTRGTSVQSIELVLPPHANHHGNTFGGQIMAWMETVATISASRLCWAHPFLKSVDMFKFRGPSTVGDRLVFTAIVNNTFQTCVEVGVRVEAFDCQEWAEGRGRHINSAFLIYNAADDKENLITFPRI 4mod-a2-m4-cB_4mod-a2-m5-cB Structure of the MERS-CoV fusion core K9N5Q8 K9N5Q8 1.901 X-RAY DIFFRACTION 88 1.0 1235996 (Human betacoronavirus 2c EMC/2012) 1235996 (Human betacoronavirus 2c EMC/2012) 76 76 4mod-a1-m1-cA_4mod-a1-m2-cA 4mod-a1-m1-cA_4mod-a1-m3-cA 4mod-a1-m2-cA_4mod-a1-m3-cA 4mod-a2-m1-cB_4mod-a2-m4-cB 4mod-a2-m1-cB_4mod-a2-m5-cB NQKLIANKFNQALGAMQTGFTTTNEAFQKVQDAVNNNAQALSKLASEQINTTLLDLTYEMLSLQQVVKALNESYID NQKLIANKFNQALGAMQTGFTTTNEAFQKVQDAVNNNAQALSKLASEQINTTLLDLTYEMLSLQQVVKALNESYID 4mou-a1-m1-cC_4mou-a1-m1-cB Crystal Structure of an Enoyl-CoA Hydratase/Isomerase Family Member, NYSGRC target 028282 A1RAA6 A1RAA6 2.25 X-RAY DIFFRACTION 96 0.996 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 250 253 4mou-a1-m1-cA_4mou-a1-m1-cB 4mou-a1-m1-cC_4mou-a1-m1-cA TGRISVAIADGVASVEISNLAQRNALTKDCLEIQELPQLDADPDVAVVVLRGAGDTFCAGASISELASVLLDPQPDGSTADHLSRADSAIAALSKPAVALVDGACGGGWQIASACDFIIANERAVIGLTPAKIGIIYPRPGLERLVRLVGHANAKYILLTGQTFSAPEARALGLVADVVPSESFEEKCAALVRSLRSRSRFSHSKRLVDLTDSAGIDQEWAAAWSAPDSPDGIGISAFLNREQPRFWRPA ARPRTGRISVAIADGVASVEISNLAQRNALTKDCLEIQELPQLDADPDVAVVVLRGAGDTFCAGASISELASVLLDPQPDGSTADHLSRADSAIAALSKPAVALVDGACGGGWQIASACDFIIANERAVIGLTPAKIGIIYPRPGLERLVRLVGHANAKYILLTGQTFSAPEARALGLVADVVPSESFEEKCAALVRSLRSRSRFSHSKRLVDLTDSGIDQEWAAAWSAPDSPDGIGISAFLNREQPRFWRPA 4mp4-a2-m1-cC_4mp4-a2-m2-cC Crystal structure of a glutathione transferase family member from Acinetobacter baumannii, Target EFI-501785, apo structure 2.498 X-RAY DIFFRACTION 90 1.0 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 193 193 4mp4-a1-m1-cB_4mp4-a1-m1-cA EYFKLYTDSQFLSPYAFTVFVGLHEKQIPFEIAAIDLKSLTAKVPVLEHNDFALSESSAILEYLEELYPDTAIYPKDIQARARARQIQAWLRSDLVALRTERPTDVIFIQPKSTPLSEEGKKAAEKLFFVAEKLLASDAEFLFGSWSIVDAELALMLQRLIQNGDAVSERLKNYALQQWQRPSVQKWLALRHK EYFKLYTDSQFLSPYAFTVFVGLHEKQIPFEIAAIDLKSLTAKVPVLEHNDFALSESSAILEYLEELYPDTAIYPKDIQARARARQIQAWLRSDLVALRTERPTDVIFIQPKSTPLSEEGKKAAEKLFFVAEKLLASDAEFLFGSWSIVDAELALMLQRLIQNGDAVSERLKNYALQQWQRPSVQKWLALRHK 4mp8-a1-m1-cA_4mp8-a1-m2-cA Staphyloferrin B precursor biosynthetic enzyme SbnB bound to malonate and NAD+ A0A0H3K9Y6 A0A0H3K9Y6 1.85 X-RAY DIFFRACTION 153 1.0 196620 (Staphylococcus aureus subsp. aureus MW2) 196620 (Staphylococcus aureus subsp. aureus MW2) 334 334 4m54-a1-m1-cA_4m54-a1-m2-cA 4mp3-a1-m1-cA_4mp3-a1-m2-cA 4mp6-a1-m1-cA_4mp6-a1-m2-cA 4mpd-a1-m1-cA_4mpd-a1-m2-cA REMLYLNRSDIEQAGGNHSQVYVDALTEALTAHAHNDFVQPLKPYLRQDPENGHIADRIIAMPSHIGGEHAISGIKWIGSKHDNPSKRNMERASGVIILNDPETNYPIAVMEASLISSMRTAAVSVIAAKHLAKKGFKDLTIIGCGLIGDKQLQSMLEQFDHIERVFVYDQFSEACARFVDRWQQQRPEINFIATENAKEAVSNGEVVITCTVTDQPYIEYDWLQKGAFISNISIMDVHKEVFIKADKVVVDDWSQCNREKKTINQLVLEGKFSKEALHAELGQLVTGDIPGREDDDEIILLNPMGMAIEDISSAYFIYQQAQQQNIGTTLNLY REMLYLNRSDIEQAGGNHSQVYVDALTEALTAHAHNDFVQPLKPYLRQDPENGHIADRIIAMPSHIGGEHAISGIKWIGSKHDNPSKRNMERASGVIILNDPETNYPIAVMEASLISSMRTAAVSVIAAKHLAKKGFKDLTIIGCGLIGDKQLQSMLEQFDHIERVFVYDQFSEACARFVDRWQQQRPEINFIATENAKEAVSNGEVVITCTVTDQPYIEYDWLQKGAFISNISIMDVHKEVFIKADKVVVDDWSQCNREKKTINQLVLEGKFSKEALHAELGQLVTGDIPGREDDDEIILLNPMGMAIEDISSAYFIYQQAQQQNIGTTLNLY 4mpc-a1-m1-cA_4mpc-a1-m2-cA Crystal structure of pyruvate dehydrogenase kinase isoform 2 in complex with inhibitor PS2 Q15119 Q15119 1.699 X-RAY DIFFRACTION 158 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 363 2bu2-a1-m1-cA_2bu2-a1-m2-cA 2bu8-a1-m1-cA_2bu8-a1-m2-cA 3crl-a1-m1-cA_3crl-a1-m1-cB 4mp2-a1-m1-cA_4mp2-a1-m2-cA 4mp7-a1-m1-cA_4mp7-a1-m2-cA 4mpe-a1-m1-cA_4mpe-a1-m2-cA 4mpn-a1-m1-cA_4mpn-a1-m2-cA 4v25-a1-m1-cA_4v25-a1-m2-cA 4v26-a1-m1-cA_4v26-a1-m2-cA 5j6a-a1-m1-cA_5j6a-a1-m2-cA 6lil-a1-m1-cB_6lil-a1-m1-cA 6lin-a1-m1-cB_6lin-a1-m1-cA 6lin-a2-m1-cD_6lin-a2-m1-cC 6lio-a1-m1-cA_6lio-a1-m1-cB 7eas-a1-m1-cA_7eas-a1-m2-cA 7ebh-a1-m1-cA_7ebh-a1-m2-cA 7vbx-a1-m1-cA_7vbx-a1-m2-cA SLAGAPKYIEHFSKFSPSPLSMKQFLDFGSSNACEKTSFTFLRQELPVRLANIMKEINLLPDRVLSTPSVQLVQSWYVQSLLDIMEFLDKDPEDHRTLSQFTDALVTIRNRHNDVVPTMAQGVLEYKDTYGDDPVSNQNIQYFLDRFYLSRISIRMLINQHTLIFDPAHPKHIGSIDPNCNVSEVVKDAYDMAKLLCDKYYMASPDLEIQEINAANSKQPIHMVYVPSHLYHMLFELFKNAMRATVESHESSLILPPIKVMVALGEEDLSIKMSDRGGGVPLRKIERLFSYMYSTGYGLPISRLYAKYFQGDLQLFSMEGFGTDAVIYLKALSTDSVERLPVYNKSAWRHYQTIQEAGDWCVP SLAGAPKYIEHFSKFSPSPLSMKQFLDFGSSNACEKTSFTFLRQELPVRLANIMKEINLLPDRVLSTPSVQLVQSWYVQSLLDIMEFLDKDPEDHRTLSQFTDALVTIRNRHNDVVPTMAQGVLEYKDTYGDDPVSNQNIQYFLDRFYLSRISIRMLINQHTLIFDPAHPKHIGSIDPNCNVSEVVKDAYDMAKLLCDKYYMASPDLEIQEINAANSKQPIHMVYVPSHLYHMLFELFKNAMRATVESHESSLILPPIKVMVALGEEDLSIKMSDRGGGVPLRKIERLFSYMYSTGYGLPISRLYAKYFQGDLQLFSMEGFGTDAVIYLKALSTDSVERLPVYNKSAWRHYQTIQEAGDWCVP 4mph-a1-m1-cA_4mph-a1-m1-cB Crystal structure of BaLdcB / VanY-like L,D-carboxypeptidase Zinc(II)-bound A0A6L8PDI9 A0A6L8PDI9 2.0301 X-RAY DIFFRACTION 23 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 181 184 ASSFASVQAVVNKEYGLPEDYKPEDLVVPNVPFSFSGTLEKSYLRKEAAEALERLFDLANKEGIQLNAVSGFRSYDYQKKLYANNVKRFSAKPGHSEHQTGLTMDVSSKSANNELELTFANTKEGKWLKENAHRAGFIIRYPKGKESITGYAYEPWHIRYVGDIAESIYKKKLTLEEYMNL SNAASSFASVQAVVNKEYGLPEDYKPEDLVVPNVPFSFSGTLEKSYLRKEAAEALERLFDLANKEGIQLNAVSGFRSYDYQKKLYANNVKRFSAKPGHSEHQTGLTMDVSSKSANNELELTFANTKEGKWLKENAHRAGFIIRYPKGKESITGYAYEPWHIRYVGDIAESIYKKKLTLEEYMNL 4mpm-a1-m1-cA_4mpm-a1-m1-cB Wild-type human neuroglobin Q9NPG2 Q9NPG2 1.74 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 148 RPEPELIRQSWRAVSRSPLEHGTVLFARLFALEPDLLPLFQYNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLASLGRKHRAVGVKLSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAMSRGWD ERPEPELIRQSWRAVSRSPLEHGTVLFARLFALEPDLLPLFQYNCRQFSSPEDCLSSPEFLDHIRKVMLVIDAAVTNVEDLSSLEEYLASLGRKHRAVGVKLSSFSTVGESLLYMLEKCLGPAFTPATRAAWSQLYGAVVQAMSRGWD 4mqb-a1-m1-cA_4mqb-a1-m1-cB Crystal structure of thymidylate kinase from Staphylococcus aureus in complex with 2-(N-morpholino)ethanesulfonic acid P65248 P65248 1.55 X-RAY DIFFRACTION 15 0.995 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 199 200 4f4i-a1-m1-cA_4f4i-a1-m1-cB 4xwa-a1-m1-cB_4xwa-a1-m1-cA SAFITFEGPEGSGKTTVINEVYHRLVKDYDVITREPGGVPTGEEIRKIVLEGNDDIRTEALFAASRREHLVLKVIPALKEGKVVLCDRYIDSSLAYQGYARGIGVEEVRALNEFAINGLYPDLTIYLNVSAEVGRERIIKNSRDQNRLDQEDLKFHEKVIEGYQEIIHSQRFKSVNADQPLENVVEDTYQTIIKYLEKI SAFITFEGPEGSGKTTVINEVYHRLVKDYDVITREPGGVPTGEEIRKIVLEGNDDIRTEALFAASRREHLVLKVIPALKEGKVVLCDRYIDSSLAYQGYARGIGVEEVRALNEFAINGLYPDLTIYLNVSAEVGRERIIKNSRDQNRLDQEDLKFHEKVIEGYQEIIHNESQRFKSVNADQPLENVVEDTYQTIIKYLEK 4mqd-a2-m1-cC_4mqd-a2-m1-cD Crystal structure of ComJ, inhibitor of the DNA degrading activity of NucA, from Bacillus subtilis P12669 P12669 2.16 X-RAY DIFFRACTION 22 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 128 129 4mqd-a1-m1-cB_4mqd-a1-m1-cA IKSWKPQELSISYHQFTVFQKDSTPPVDWTDEAIEKGYAAADGAISFEAQRNTKAFILFRLNSSETVNSYEKKVTVPFHVTENGIHIESISKRLSFDLPKGDYQLTCWTVPAESDLHADTYIIDAVSV AIKSWKPQELSISYHQFTVFQKDSTPPVDWTDEAIEKGYAAADGAISFEAQRNTKAFILFRLNSSETVNSYEKKVTVPFHVTENGIHIESISKRLSFDLPKGDYQLTCWTVPAESDLHADTYIIDAVSV 4mqd-a4-m1-cC_4mqd-a4-m3-cD Crystal structure of ComJ, inhibitor of the DNA degrading activity of NucA, from Bacillus subtilis P12669 P12669 2.16 X-RAY DIFFRACTION 15 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 128 129 4mqd-a3-m2-cB_4mqd-a3-m1-cA IKSWKPQELSISYHQFTVFQKDSTPPVDWTDEAIEKGYAAADGAISFEAQRNTKAFILFRLNSSETVNSYEKKVTVPFHVTENGIHIESISKRLSFDLPKGDYQLTCWTVPAESDLHADTYIIDAVSV AIKSWKPQELSISYHQFTVFQKDSTPPVDWTDEAIEKGYAAADGAISFEAQRNTKAFILFRLNSSETVNSYEKKVTVPFHVTENGIHIESISKRLSFDLPKGDYQLTCWTVPAESDLHADTYIIDAVSV 4msp-a1-m1-cA_4msp-a1-m1-cB Crystal structure of human peptidyl-prolyl cis-trans isomerase FKBP22 (aka FKBP14) containing two EF-hand motifs Q9NWM8 Q9NWM8 1.9 X-RAY DIFFRACTION 109 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 LIPEPEVKIEVLQKPFICHRKTKGGDLMLVHYEGYLEKDGSLFHSTHKHNNGQPIWFTLGILEALKGWDQGLKGMCVGEKRKLIIPPALGYGKEGKGKIPPESTLIFNIDLLEIRNGPRSHESFQEMDLNDDWKLSKDEVKAYLKKEFEKHGAVVNESHHDALVEDIFDKEDEDKDGFISAREFTYKHD IPEPEVKIEVLQKPFICHRKTKGGDLMLVHYEGYLEKDGSLFHSTHKHNNGQPIWFTLGILEALKGWDQGLKGMCVGEKRKLIIPPALGYGKEGKGKIPPESTLIFNIDLLEIRNGPRSHESFQEMDLNDDWKLSKDEVKAYLKKEFEKHGAVVNESHHDALVEDIFDKEDEDKDGFISAREFTYKHDE 4msv-a1-m2-cA_4msv-a1-m3-cA Crystal structure of FASL and DcR3 complex P48023 P48023 2.5 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 4msv-a1-m1-cA_4msv-a1-m2-cA 4msv-a1-m1-cA_4msv-a1-m3-cA 5l36-a1-m1-cA_5l36-a1-m2-cA 5l36-a1-m1-cA_5l36-a1-m3-cA 5l36-a1-m2-cA_5l36-a1-m3-cA LRKVAHLTGKSNSRSMPLEWEDTYGIVLLSGVKYKKGGLVINETGLYFVYSKVYFRGQSCNNLPLSHKVYMRNSKYPQDLVMMEGKMMSYCTTGQMWARSSYLGAVFNLTSADHLYVNVSELSLVNFEESQTFFGLYKL LRKVAHLTGKSNSRSMPLEWEDTYGIVLLSGVKYKKGGLVINETGLYFVYSKVYFRGQSCNNLPLSHKVYMRNSKYPQDLVMMEGKMMSYCTTGQMWARSSYLGAVFNLTSADHLYVNVSELSLVNFEESQTFFGLYKL 4mt0-a1-m2-cA_4mt0-a1-m3-cA Crystal Structure of the Open State of the Neisseria gonorrhoeae MtrE Outer Membrane Channel Q51006 Q51006 3.292 X-RAY DIFFRACTION 173 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 445 445 4mt0-a1-m1-cA_4mt0-a1-m2-cA 4mt0-a1-m1-cA_4mt0-a1-m3-cA CTMIPQYEQPKVEVAETFQNDTSVSSIRAVDLGWHDYFADPRLQKLIDIALERNTSLRTAVLNSEIYRKQYMIERNNLLPTLAANANGSRQGSLSGGNVSSSYNVGLGAASYELDLFGRVRSSSEAALQGYFASVANRDAAHLSLIATVAKAYFNERYAEEAMSLAQRVLKTREETYNAVRIAVQGRRDFRRRPAPAEALIESAKADYAHAARSREQARNALATLINRPIPEDLPAGLPLDKQFFVEKLPAGLSSEVLLDRPDIRAAEHALKQANANIGAARAAFFPSIRLTGSVGTGSVELGGLFKSGTGVWAFAPSITLPIFTWGTNKANLDVAKLRQQAQIVAYESAVQSAFQDVANALAAREQLDKAYDALSKQSRASKEALRLVGLRYKHGVSGALDLLDAERSSYSAEGAALSAQLTRAENLADLYKALGGGLKRDTQT CTMIPQYEQPKVEVAETFQNDTSVSSIRAVDLGWHDYFADPRLQKLIDIALERNTSLRTAVLNSEIYRKQYMIERNNLLPTLAANANGSRQGSLSGGNVSSSYNVGLGAASYELDLFGRVRSSSEAALQGYFASVANRDAAHLSLIATVAKAYFNERYAEEAMSLAQRVLKTREETYNAVRIAVQGRRDFRRRPAPAEALIESAKADYAHAARSREQARNALATLINRPIPEDLPAGLPLDKQFFVEKLPAGLSSEVLLDRPDIRAAEHALKQANANIGAARAAFFPSIRLTGSVGTGSVELGGLFKSGTGVWAFAPSITLPIFTWGTNKANLDVAKLRQQAQIVAYESAVQSAFQDVANALAAREQLDKAYDALSKQSRASKEALRLVGLRYKHGVSGALDLLDAERSSYSAEGAALSAQLTRAENLADLYKALGGGLKRDTQT 4mt2-a1-m1-cA_4mt2-a1-m2-cA COMPARISON OF THE NMR SOLUTION STRUCTURE AND THE X-RAY CRYSTAL STRUCTURE OF RAT METALLOTHIONEIN-2 P04355 P04355 2 X-RAY DIFFRACTION 61 1.0 10117 (Rattus rattus) 10117 (Rattus rattus) 61 61 MDPNCSCATDGSCSCAGSCKCKQCKCTSCKKSCCSCCPVGCAKCSQGCICKEASDKCSCCA MDPNCSCATDGSCSCAGSCKCKQCKCTSCKKSCCSCCPVGCAKCSQGCICKEASDKCSCCA 4mt4-a1-m1-cC_4mt4-a1-m1-cB Crystal structure of the Campylobacter jejuni CmeC outer membrane channel Q8RTE3 Q8RTE3 2.373 X-RAY DIFFRACTION 224 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 472 473 4mt4-a1-m1-cA_4mt4-a1-m1-cB 4mt4-a1-m1-cA_4mt4-a1-m1-cC CSLSPNLNIPEANYSIDNKLGALSWEKETNSSITKNWWKDFDDENLNKVVDLALKNNNDLKLAFIHMEQAAAQLGIDFSSLLPKFDGSASGSRAKTAINAPSNRTGEVSYGNDFKMGLNLSYEIDLWGKYRDTYRASKSGFKASEYDYEAARLSVISNTVQTYFNLVNAYENENALKEAYESAKEIYRINDEKFQVGAVGEYELAQARANLESMALQYNEAKLNKENYLKALKILTSNDLNDILYKNQSYQVFNLKEFDIPTGISSTILLQRPDIGSSLEKLTQQNYLVGVARTAFLPSLSLTGLLGFESGDLDTLVKGGSKTWNIGGNFTLPIFHWGEIYQNVNLAKLNKDEAFVNYQNTLITAFGEIRYALVARKTIRLQYDNAQASEQSYKRIYEIAKERYDIGEMSLQDYLEARQNWLNAAVAFNNIKYSYANSIVDVIKAFGGGFEQSEDTSKNIKEESKNLDMSFR CSLSPNLNIPEANYSIDNKLGALSWEKETNSSITKNWWKDFDDENLNKVVDLALKNNNDLKLAFIHMEQAAAQLGIDFSSLLPKFDGSASGSRAKTAINAPSNRTGEVSYGNDFKMGLNLSYEIDLWGKYRDTYRASKSGFKASEYDYEAARLSVISNTVQTYFNLVNAYENENALKEAYESAKEIYRINDEKFQVGAVGEYELAQARANLESMALQYNEAKLNKENYLKALKILTSNDLNDILYKNQSYQVFNLKEFDIPTGISSTILLQRPDIGSSLEKLTQQNYLVGVARTAFLPSLSLTGLLGFESGDLDTLVKGGSKTWNIGGNFTLPIFHWGEIYQNVNLAKLNKDEAFVNYQNTLITAFGEIRYALVARKTIRLQYDNAQASEQSYKRIYEIAKERYDIGEMSLQDYLEARQNWLNAAVAFNNIKYSYANSIVDVIKAFGGGFEQSEDTSKNIKEESKNLDMSFRE 4mt8-a1-m1-cB_4mt8-a1-m1-cA Structure of the ERS1 dimerization and histidine phosphotransfer domain from Arabidopsis thaliana Q38846 Q38846 1.9 X-RAY DIFFRACTION 130 0.99 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 96 100 4mtx-a1-m1-cA_4mtx-a1-m1-cB 4mtx-a2-m1-cD_4mtx-a2-m1-cC ILEESMHARDQLMEQNFALDKARQEAEMAVHARNDFLAVMNHEMRTPMHAIISLSSLLLETELSPEQRVMIETILKSSNLVATLISDVLDLSRLED ASHAAILEESMHARDQLMEQNFALDKARQEAEMAVHARNDFLAVMNHEMRTPMHAIISLSSLLLETELSPEQRVMIETILKSSNLVATLISDVLDLSRLE 4mte-a1-m1-cA_4mte-a1-m1-cD Zinc Uptake Regulator Complexed with Zinc and DNA P0AC51 P0AC51 2.5 X-RAY DIFFRACTION 120 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 149 151 4mtd-a1-m1-cA_4mtd-a1-m1-cD 4mtd-a1-m1-cC_4mtd-a1-m1-cB 4mte-a1-m1-cC_4mte-a1-m1-cB TTTQELLAQAEKICAQRNVRLTPQRLEVLRLMSLQDGAISAYDLLDLLREAEPQAKPPTVYRALDFLLEQGFVHKVESTNSYVLCHLFDQPTHTSAMFICDRCGAVKEECAEGVEDIMHTLAAKMGFALRHNVIEAHGLCAACVEVEAC EKTTTQELLAQAEKICAQRNVRLTPQRLEVLRLMSLQDGAISAYDLLDLLREAEPQAKPPTVYRALDFLLEQGFVHKVESTNSYVLCHLFDQPTHTSAMFICDRCGAVKEECAEGVEDIMHTLAAKMGFALRHNVIEAHGLCAACVEVEAC 4mtl-a1-m1-cA_4mtl-a1-m2-cB Human Methyltransferase-Like Protein 21C Q5VZV1 Q5VZV1 1.65 X-RAY DIFFRACTION 22 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 208 219 4mtl-a1-m2-cA_4mtl-a1-m1-cB KFVPTDYASYTQEHYRFAGKEIVIQESIESYGAVVWPGAMALCQYLEEHAEELNFQDAKILEIGAGPGLVSIVASILGAQVTATDLPDVLGNLQYNLLKNTLQCTAHLPEVKELVWGEDLDKNFPKSAFYYDYVLASDVVYHHYFLDKLLTTMVYLSQPGTVLLWANKFRFSTDYEFLDKFKQVFDTTLLAEYPESSVKLFKGILKWD SNKIEPSLHSLQKFVPTDYASYTQEHYRFAGKEIVIQESIESYGAVVWPGAMALCQYLEEHAEELNFQDAKILEIGAGPGLVSIVASILGAQVTATDLPDVLGNLQYNLLKNTLQCTAHLPEVKELVWGEDLDKNFPKSAFYYDYVLASDVVYHHYFLDKLLTTMVYLSQPGTVLLWANKFRFSTDYEFLDKFKQVFDTTLLAEYPESSVKLFKGILKW 4mtl-a1-m1-cB_4mtl-a1-m2-cB Human Methyltransferase-Like Protein 21C Q5VZV1 Q5VZV1 1.65 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 SNKIEPSLHSLQKFVPTDYASYTQEHYRFAGKEIVIQESIESYGAVVWPGAMALCQYLEEHAEELNFQDAKILEIGAGPGLVSIVASILGAQVTATDLPDVLGNLQYNLLKNTLQCTAHLPEVKELVWGEDLDKNFPKSAFYYDYVLASDVVYHHYFLDKLLTTMVYLSQPGTVLLWANKFRFSTDYEFLDKFKQVFDTTLLAEYPESSVKLFKGILKW SNKIEPSLHSLQKFVPTDYASYTQEHYRFAGKEIVIQESIESYGAVVWPGAMALCQYLEEHAEELNFQDAKILEIGAGPGLVSIVASILGAQVTATDLPDVLGNLQYNLLKNTLQCTAHLPEVKELVWGEDLDKNFPKSAFYYDYVLASDVVYHHYFLDKLLTTMVYLSQPGTVLLWANKFRFSTDYEFLDKFKQVFDTTLLAEYPESSVKLFKGILKW 4mtl-a1-m2-cA_4mtl-a1-m2-cB Human Methyltransferase-Like Protein 21C Q5VZV1 Q5VZV1 1.65 X-RAY DIFFRACTION 35 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 208 219 4mtl-a1-m1-cA_4mtl-a1-m1-cB KFVPTDYASYTQEHYRFAGKEIVIQESIESYGAVVWPGAMALCQYLEEHAEELNFQDAKILEIGAGPGLVSIVASILGAQVTATDLPDVLGNLQYNLLKNTLQCTAHLPEVKELVWGEDLDKNFPKSAFYYDYVLASDVVYHHYFLDKLLTTMVYLSQPGTVLLWANKFRFSTDYEFLDKFKQVFDTTLLAEYPESSVKLFKGILKWD SNKIEPSLHSLQKFVPTDYASYTQEHYRFAGKEIVIQESIESYGAVVWPGAMALCQYLEEHAEELNFQDAKILEIGAGPGLVSIVASILGAQVTATDLPDVLGNLQYNLLKNTLQCTAHLPEVKELVWGEDLDKNFPKSAFYYDYVLASDVVYHHYFLDKLLTTMVYLSQPGTVLLWANKFRFSTDYEFLDKFKQVFDTTLLAEYPESSVKLFKGILKW 4mtm-a1-m2-cA_4mtm-a1-m3-cA Crystal structure of the tail fiber gp53 from Acinetobacter baumannii bacteriophage AP22 I2GUG0 I2GUG0 1.368 X-RAY DIFFRACTION 182 1.0 1187128 (Acinetobacter phage AP22) 1187128 (Acinetobacter phage AP22) 137 137 4mtm-a1-m1-cA_4mtm-a1-m2-cA 4mtm-a1-m1-cA_4mtm-a1-m3-cA IPTATSTTAGITKVLNVLNSNDVGSALSAAQGKVLNDKFNFQNSKNQSGYVRLGDSGLIIQWGVFTSTKTQSNLIFPLAFPNALLSITGNLNSNTPDVIGIDFDLSTATKTSIKTGAAQVGASWLSGKKISWIAIGY IPTATSTTAGITKVLNVLNSNDVGSALSAAQGKVLNDKFNFQNSKNQSGYVRLGDSGLIIQWGVFTSTKTQSNLIFPLAFPNALLSITGNLNSNTPDVIGIDFDLSTATKTSIKTGAAQVGASWLSGKKISWIAIGY 4mts-a1-m1-cB_4mts-a1-m1-cA Ni- and Zn-bound GloA2 at high resolution Q9I5L8 Q9I5L8 1.8 X-RAY DIFFRACTION 140 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 127 129 4mtq-a1-m1-cA_4mtq-a1-m1-cB 4mtr-a1-m1-cB_4mtr-a1-m1-cA 4mtt-a1-m1-cB_4mtt-a1-m1-cA MRILHSMLRVADLEAALEFYTRALDMRLLRRRDYPEGRFTLAFVGYQDERAAAALELTHNWDRDGYTQGDGYGHLAIEVEDAAVTCARARALGYRVTREAGLMQHGRSVIAFLEDPDGYKVELIQKG MRILHSMLRVADLEAALEFYTRALDMRLLRRRDYPEGRFTLAFVGYQDERAAAALELTHNWDRDGYTQGDGYGHLAIEVEDAAVTCARARALGYRVTREAGLMQHGRSVIAFLEDPDGYKVELIQKGTQ 4mud-a2-m1-cC_4mud-a2-m1-cD Crystal structure of a ring oxydation complex/ phenylacetic acid degradation-like protein (SSO1313) from Sulfolobus solfataricus P2 at 2.43 A resolution Q97YL0 Q97YL0 2.43 X-RAY DIFFRACTION 50 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 215 217 4mud-a1-m1-cA_4mud-a1-m1-cB KLRSVKEVPQDLTNTLVNIIELRADFELAVEQYSPWLVNAPTVDSRLFVAKLVSDELNHGWQLVRLLEEFKVKDVIERISNARLGIHKLEVSNLPLFNWEDVIAFTFLVDGAGLYQLKILKDCSFEPLSTLASSIKEEESHIFFSQNELRNYQNKNRQGAINFWFPRAVELHTWSLNETHLRDLNISDLTKNDLINGYIKTTNEELKKCGYNEVN QKLRSVKEVPQDLTNTLVNIIELRADFELAVEQYSPWLVNAPTVDSRLFVAKLVSDELNHGWQLVRLLEEFKVKDVIERISNARLGIHKLEVSNLPLFNWEDVIAFTFLVDGAGLYQLKILKDCSFEPLSTLASSIKEEESHIFFSQNELRNYQNKNRQGAINFWFPRAVELHTWSLNETHLRDLNISDLTKNDLINGYIKTTNEELKKCGYNEVNY 4mug-a2-m2-cB_4mug-a2-m1-cA Crystal structure of pantothenate synthetase in complex with 2-(5-methoxy-2-(morpholinosulfonylcarbamoyl)-1H-indol-1-yl)acetic acid 1.54 X-RAY DIFFRACTION 100 0.993 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 274 287 1mop-a2-m2-cB_1mop-a2-m1-cA 3imc-a2-m2-cB_3imc-a2-m1-cA 3img-a2-m2-cB_3img-a2-m1-cA 3isj-a1-m2-cB_3isj-a1-m1-cA 3iub-a2-m2-cB_3iub-a2-m1-cA 3ivc-a2-m2-cB_3ivc-a2-m1-cA 3ivg-a2-m2-cB_3ivg-a2-m1-cA 3ivx-a2-m1-cB_3ivx-a2-m2-cA 3le8-a2-m2-cB_3le8-a2-m1-cA 4ddk-a2-m1-cB_4ddk-a2-m2-cA 4ddm-a2-m2-cB_4ddm-a2-m1-cA 4de5-a2-m1-cB_4de5-a2-m2-cA 4ef6-a2-m2-cB_4ef6-a2-m1-cA 4efk-a2-m1-cB_4efk-a2-m2-cA 4fzj-a2-m2-cB_4fzj-a2-m1-cA 4g5f-a2-m1-cB_4g5f-a2-m2-cA 4g5y-a2-m1-cB_4g5y-a2-m2-cA 4mq6-a2-m2-cB_4mq6-a2-m1-cA 4mue-a2-m1-cA_4mue-a2-m2-cB 4muf-a2-m2-cB_4muf-a2-m1-cA 4muh-a2-m2-cB_4muh-a2-m1-cA 4mui-a2-m2-cB_4mui-a2-m1-cA 4muj-a2-m1-cB_4muj-a2-m2-cA 4muk-a2-m2-cB_4muk-a2-m1-cA 4mul-a2-m2-cB_4mul-a2-m1-cA 4mun-a2-m2-cB_4mun-a2-m1-cA MAIPAFHPGELNVYSAPGDVADVSRALRLTGRRVMLVPTMGALHEGHLALVRAAKRVPGSVVVVSIFVNPTPDDDLAQLRAEGVEIAFTPTTAAMYPDGLRTTVQPGPLAAELEGGPRPTHFAGVLTVVLKLLQIVRPDRVFFGEKDYQQLVLIRQLVADFNLDVAVVGVPTVREADGLAMSSRNRYLDPAQRAAAVALSAALTAAAHAATAGAQAALDAARAVLDAAPGVAVDYLELRDIGLGPMPLNGSGRLLVAARLGTTRLLDNIAIEIG IPAFHPGELNVYSAPGDVADVSRALRLTGRRVMLVPTMGALHEGHLALVRAAKRVPGSVVVVSIFVNPMQFGAGGDLDAYPRTPDDDLAQLRAEGVEIAFTPTTAAMYPDGLRTTVQPGPLAAELEGGPRPTHFAGVLTVVLKLLQIVRPDRVFFGEKDYQQLVLIRQLVADFNLDVAVVGVPTVREADGLAMSSRNRYLDPAQRAAAVALSAALTAAAHAATAGAQAALDAARAVLDAAPGVAVDYLELRDIGLGPMPLNGSGRLLVAARLGTTRLLDNIAIEIGT 4mur-a1-m1-cA_4mur-a1-m1-cB Crystal structure of vancomycin resistance D,D-dipeptidase/D,D-pentapeptidase VanXYc D59S mutant Q9JN36 Q9JN36 1.65 X-RAY DIFFRACTION 67 1.0 1353 (Enterococcus gallinarum) 1353 (Enterococcus gallinarum) 189 189 4mus-a1-m1-cA_4mus-a1-m1-cB 4mut-a1-m1-cA_4mut-a1-m1-cB 4oak-a1-m1-cA_4oak-a1-m1-cB MNTLQLINKNHPLKKNQEPPHLVLAPFSDHDVYLQPEVAKQWERLVRATGLEKDIRLVSGYRTEKEQRRLWEYSLKENGLAYTKQFVALPGCSEHQIGLAIDVGLKKQEDDDLICPHFRDSAAADLFMQQMMNYGFILRYPEDKQEITGISYEPWHFRYVGLPHSQVITAQKWTLEEYHDYLAQTVRQF MNTLQLINKNHPLKKNQEPPHLVLAPFSDHDVYLQPEVAKQWERLVRATGLEKDIRLVSGYRTEKEQRRLWEYSLKENGLAYTKQFVALPGCSEHQIGLAIDVGLKKQEDDDLICPHFRDSAAADLFMQQMMNYGFILRYPEDKQEITGISYEPWHFRYVGLPHSQVITAQKWTLEEYHDYLAQTVRQF 4mut-a2-m1-cA_4mut-a2-m2-cB Crystal structure of vancomycin resistance D,D-dipeptidase/D,D-pentapeptidase VanXYc D59S mutant in complex with D-Alanine Q9JN36 Q9JN36 2.25 X-RAY DIFFRACTION 30 1.0 1353 (Enterococcus gallinarum) 1353 (Enterococcus gallinarum) 187 188 NTLQLINKNHPLKKNQEPPHLVLAPFSDHDVYLQPEVAKQWERLVRATGLEKDIRLVSGYRTEKEQRRLWEYSLKENGLAYTKQFVALPGCSEHQIGLAIDVGLKKQEDDDLICPHFRDSAAADLFMQQMMNYGFILRYPEDKQEITGISYEPWHFRYVGLPHSQVITAQKWTLEEYHDYLAQTVRQ NTLQLINKNHPLKKNQEPPHLVLAPFSDHDVYLQPEVAKQWERLVRATGLEKDIRLVSGYRTEKEQRRLWEYSLKENGLAYTKQFVALPGCSEHQIGLAIDVGLKKQEDDDLICPHFRDSAAADLFMQQMMNYGFILRYPEDKQEITGISYEPWHFRYVGLPHSQVITAQKWTLEEYHDYLAQTVRQF 4mv3-a1-m1-cA_4mv3-a1-m2-cA Crystal Structure of Biotin Carboxylase from Haemophilus influenzae in Complex with AMPPCP and Bicarbonate P43873 P43873 1.69 X-RAY DIFFRACTION 70 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 439 439 4mv1-a1-m1-cA_4mv1-a1-m2-cA 4mv4-a1-m1-cA_4mv4-a1-m2-cA 4mv6-a1-m1-cA_4mv6-a1-m2-cA 4mv7-a1-m1-cA_4mv7-a1-m2-cA 4mv8-a1-m1-cA_4mv8-a1-m2-cA 4mv9-a1-m1-cA_4mv9-a1-m2-cA 4rzq-a1-m1-cA_4rzq-a1-m2-cA 6ojh-a1-m1-cA_6ojh-a1-m2-cA MLEKVVIANRGEIALRILRACKELGIKTVAVHSTADRDLKHVLLADETICIGPAPSAKSYLNIPAIIAAAEVTGADAIHPGYGFLSENADFAEQVERSGFTFIGPTADVIRLMGDKVSAIKAMKKAGVPCVPGSDGPVSNDIAKNKEIAKRIGYPIIIKASGMRVVRSEDALEESIAMTKAEAKAAFNNDMVYMEKYLENPRHVEIQVLADTHGNAVYLAERDCSMQRRHQKVVEEAPAPGITEEVRRDIGSRCANACVEIGYRGAGTFEFLYENGEFYFIEMNTRIQVEHPVTEMITGVDLVKEQLRIAAGLPISFKQEDIKVKGHAMECRINAEDPKTFLPSPGKVNHLHSPGGLGVRWDSHVYGGYTVPPHYDSMIAKLITYGDTREVAIRRMQNALSETIIDGIKTNIPLHELILEDENFQKGGTNIHYLEKKLG MLEKVVIANRGEIALRILRACKELGIKTVAVHSTADRDLKHVLLADETICIGPAPSAKSYLNIPAIIAAAEVTGADAIHPGYGFLSENADFAEQVERSGFTFIGPTADVIRLMGDKVSAIKAMKKAGVPCVPGSDGPVSNDIAKNKEIAKRIGYPIIIKASGMRVVRSEDALEESIAMTKAEAKAAFNNDMVYMEKYLENPRHVEIQVLADTHGNAVYLAERDCSMQRRHQKVVEEAPAPGITEEVRRDIGSRCANACVEIGYRGAGTFEFLYENGEFYFIEMNTRIQVEHPVTEMITGVDLVKEQLRIAAGLPISFKQEDIKVKGHAMECRINAEDPKTFLPSPGKVNHLHSPGGLGVRWDSHVYGGYTVPPHYDSMIAKLITYGDTREVAIRRMQNALSETIIDGIKTNIPLHELILEDENFQKGGTNIHYLEKKLG 4mva-a1-m1-cB_4mva-a1-m1-cA 1.43 Angstrom Resolution Crystal Structure of Triosephosphate Isomerase (tpiA) from Escherichia coli in Complex with Acetyl Phosphate. 1.43 X-RAY DIFFRACTION 120 1.0 595496 (Escherichia coli BW2952) 595496 (Escherichia coli BW2952) 254 255 1tmh-a1-m1-cA_1tmh-a1-m1-cB 1tmh-a2-m1-cC_1tmh-a2-m1-cD 1tre-a1-m1-cB_1tre-a1-m1-cA 4iot-a1-m1-cA_4iot-a1-m1-cB 4k6a-a1-m1-cA_4k6a-a1-m1-cB MRHPLVMGNWKLNGSRHMVHELVSNLRKELAGVAGCAVAIAPPEMYIDMAKREAEGSHIMLGAQNVDLNLSGAFTGETSAAMLKDIGAQYIIIGHSERRTYHKESDELIAKKFAVLKEQGLTPVLCIGETEAENEAGKTEEVCARQIDAVLKTQGAAAFEGAVIAYEPVWAIGTGKSATPAQAQAVHKFIRDHIAKVDANIAEQVIIQYGGSVNASNAAELFAQPDIDGALVGGASLKADAFAVIVKAAEAAKQ MRHPLVMGNWKLNGSRHMVHELVSNLRKELAGVAGCAVAIAPPEMYIDMAKREAEGSHIMLGAQNVDLNLSGAFTGETSAAMLKDIGAQYIIIGHSERRTYHKESDELIAKKFAVLKEQGLTPVLCIGETEAENEAGKTEEVCARQIDAVLKTQGAAAFEGAVIAYEPVWAIGTGKSATPAQAQAVHKFIRDHIAKVDANIAEQVIIQYGGSVNASNAAELFAQPDIDGALVGGASLKADAFAVIVKAAEAAKQA 4mxe-a2-m1-cA_4mxe-a2-m2-cA Human ESCO1 (Eco1/Ctf7 ortholog), acetyltransferase domain in complex with acetyl-CoA Q5FWF5 Q5FWF5 2.6 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 179 179 LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNDYSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNDYSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING 4mxe-a2-m1-cB_4mxe-a2-m2-cB Human ESCO1 (Eco1/Ctf7 ortholog), acetyltransferase domain in complex with acetyl-CoA Q5FWF5 Q5FWF5 2.6 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 177 LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING 4mxe-a2-m2-cB_4mxe-a2-m1-cA Human ESCO1 (Eco1/Ctf7 ortholog), acetyltransferase domain in complex with acetyl-CoA Q5FWF5 Q5FWF5 2.6 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 179 4mxe-a2-m1-cB_4mxe-a2-m2-cA LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNDYSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING 4mxe-a2-m2-cB_4mxe-a2-m2-cA Human ESCO1 (Eco1/Ctf7 ortholog), acetyltransferase domain in complex with acetyl-CoA Q5FWF5 Q5FWF5 2.6 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 179 4mxe-a1-m1-cB_4mxe-a1-m1-cA 4mxe-a2-m1-cB_4mxe-a2-m1-cA LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING LYFQSMKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNDYSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPVIRSEEEKVRFERQKAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCGTGQFLVYNFING 4mxt-a1-m1-cA_4mxt-a1-m2-cA Crystal structure of an Outer-membrane lipoprotein carrier protein (BACUNI_04723) from Bacteroides uniformis ATCC 8492 at 1.40 A resolution A7VAU1 A7VAU1 1.4 X-RAY DIFFRACTION 55 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 183 183 QQPDAKNILERTAEAFRKAGGVKLAFTVNEQQGSYAGVLYLEGEKFVVETEGKTWFDGHTQWSYVASADEVNVSEPTQEELQTLNPYAWLSLYKQGYRLKLSSVGGDKSVYYITTAADKRKDPESVYLFVTKDTYRLHQVDLAPRGSKYTTILIDSYQTGQSYPDSFFVFDKKAYPTAEVIDR QQPDAKNILERTAEAFRKAGGVKLAFTVNEQQGSYAGVLYLEGEKFVVETEGKTWFDGHTQWSYVASADEVNVSEPTQEELQTLNPYAWLSLYKQGYRLKLSSVGGDKSVYYITTAADKRKDPESVYLFVTKDTYRLHQVDLAPRGSKYTTILIDSYQTGQSYPDSFFVFDKKAYPTAEVIDR 4mxu-a1-m1-cA_4mxu-a1-m1-cB Human brain aspartoacylase mutant K213E complex with intermediate analog (N-phosphonomethyl-L-aspartate) P45381 P45381 2.6 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 301 2i3c-a1-m1-cA_2i3c-a1-m1-cB 2o4h-a1-m1-cA_2o4h-a1-m1-cB 2o53-a1-m1-cA_2o53-a1-m1-cB 2q51-a1-m1-cA_2q51-a1-m1-cB 4mri-a1-m1-cA_4mri-a1-m1-cB 4nfr-a1-m1-cA_4nfr-a1-m1-cB 4tnu-a1-m1-cA_4tnu-a1-m1-cB HIQKVAIFGGTHGNELTGVFLVKHWLENGAEIQRTGLEVKPFITNPRAVKKCTRYIDCDLNRIFDLENLGKKMSEDLPYEVRRAQEINHLFGPKDSEDSYDIIFDLHNTTSNMGCTLILEDSRNNFLIQMFHYIKTSLAPLPCYVYLIEHPSLKYATTRSIAKYPVGIEVGPQPQGVLRADILDQMRKMIKHALDFIHHFNEGEEFPPCAIEVYKIIEKVDYPRDENGEIAAIIHPNLQDQDWKPLHPGDPMFLTLDGKTIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRC HIQKVAIFGGTHGNELTGVFLVKHWLENGAEIQRTGLEVKPFITNPRAVKKCTRYIDCDLNRIFDLENLGKKMSEDLPYEVRRAQEINHLFGPKDSEDSYDIIFDLHNTTSNMGCTLILEDSRNNFLIQMFHYIKTSLAPLPCYVYLIEHPSLKYATTRSIAKYPVGIEVGPQPQGVLRADILDQMRKMIKHALDFIHHFNEGEEFPPCAIEVYKIIEKVDYPRDENGEIAAIIHPNLQDQDWKPLHPGDPMFLTLDGKTIPLGGDCTVYPVFVNEAAYYEKKEAFAKTTKLTLNAKSIRC 4mxw-a2-m1-cB_4mxw-a2-m1-cD Structure of heterotrimeric lymphotoxin LTa1b2 bound to lymphotoxin beta receptor LTbR and anti-LTa Fab Q06643 Q06643 3.6 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 135 LPAAHLIGAPLKGLGWETTKEQAFLTSGTQFSDAEGLALPQDGLYYLYCLVGYRGRAPQGRSVTLRSSLTPELLLEGAETVTPWYTSVGFGGLVQLRRGERVYVNISHPDMVDFARGKTFFGAVMV LPAAHLIGAPLKGQGLGWETTKEQAFLTSGTQFSDAEGLALPQDGLYYLYCLVGYRGRAPPQGRSVTLRSSLYGPGTPELLLEGAETVTPPLWYTSVGFGGLVQLRRGERVYVNISHPDMVDFARGKTFFGAVMV 4my5-a2-m1-cD_4my5-a2-m1-cC Crystal structure of the aromatic amino acid aminotransferase from Streptococcus mutants Q8DWM1 Q8DWM1 2.194 X-RAY DIFFRACTION 145 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 377 388 4my5-a1-m1-cB_4my5-a1-m1-cA DLSKRFNKNLNKIEVSMIRQFDQSISDIPDVLKLTLGEPDFATPKHIKEAAKRAIDAGLLALRQAASAFVKEKYHLTYNPDNEILVTIGATEALSASLTAILEPGDKVLLPAPAYPGYEPVVNLVGAEVVEIDTRSNDFVLTPEMLEEAILKEGEALKAVILNYPTNPTGVTYSRQQIKNLAEVLKKYPIFVISDEVYAELTYTGESHVSIAEYLPDQTILISGLSKSHAMTGWRLGLIFAPAVLTAQLIKSHQYLVTAATTSVQFAAIEALTNGKDDALPMKEEYIKRRDYIIEKMEAMKFKIIKPDGAFYIFAKIPVAQGQDSFKFLQDFAKEKAVAFIPGVAFGKYGEGYLRISYAASMETIKEAMKRLKEFME MDLSKRFNKNLNKIEVSMIRQFDQSISDIPDVLKLTLGEPDFATPKHIKEAAKRAIDADESHYTGMAGLLALRQAASAFVKEKYHLTYNPDNEILVTIGATEALSASLTAILEPGDKVLLPAPAYPGYEPVVNLVGAEVVEIDTRSNDFVLTPEMLEEAILKEGEALKAVILNYPTNPTGVTYSRQQIKNLAEVLKKYPIFVISDEVYAELTYTGESHVSIAEYLPDQTILISGLSKSHAMTGWRLGLIFAPAVLTAQLIKSHQYLVTAATTSVQFAAIEALTNGKDDALPMKEEYIKRRDYIIEKMEAMKFKIIKPDGAFYIFAKIPVAQGQDSFKFLQDFAKEKAVAFIPGVAFGKYGEGYLRISYAASMETIKEAMKRLKEFMEQ 4myb-a1-m1-cA_4myb-a1-m2-cA Crystal Structure of Francisella tularensis 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (IspD) 2.4 X-RAY DIFFRACTION 142 1.0 263 (Francisella tularensis) 263 (Francisella tularensis) 217 217 SNKYVIIPAAGIGDIPKQYYKLNNGKTILDNTLVKFIDNPLFDKIFVAIFWNNSLYYNHDKIVVCNGGETRFNSVYNALNVIDERKNDDWVFVHDAARPCVSIDSIIDLYEQTKSSHSQAGILAVRAYETVKQVTKNIVVKTLARDNIWLAQTPQLSRLGQLEKAFDFCYSNNLVAKVTDEASALEMFGINPIVVECSKKNIKITTKDDLEYANWQL SNKYVIIPAAGIGDIPKQYYKLNNGKTILDNTLVKFIDNPLFDKIFVAIFWNNSLYYNHDKIVVCNGGETRFNSVYNALNVIDERKNDDWVFVHDAARPCVSIDSIIDLYEQTKSSHSQAGILAVRAYETVKQVTKNIVVKTLARDNIWLAQTPQLSRLGQLEKAFDFCYSNNLVAKVTDEASALEMFGINPIVVECSKKNIKITTKDDLEYANWQL 4myc-a1-m1-cA_4myc-a1-m1-cB Structure of the mitochondrial ABC transporter, Atm1 P40416 P40416 3.06 X-RAY DIFFRACTION 401 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 598 598 4myc-a2-m1-cC_4myc-a2-m2-cC 4myh-a1-m1-cA_4myh-a1-m1-cB 4myh-a2-m1-cC_4myh-a2-m2-cC 7psl-a1-m1-cA_7psl-a1-m1-cB YIWPKGNNKVRIRVLIALGLLISAKILNVQVPFFFKQTIDSMNIAWDDPTVALPAAIGLTILCYGVARFGSVLFGELRNAVFAKVAQNAIRTVSLQTFQHLMKLDLGWHLSRQTGGLTRAMDRGTKGISQVLTAMVFHIIPISFEISVVCGILTYQFGASFAAITFSTMLLYSIFTIKTTAWRTHFRRDANKADNKAASVALDSLINFEAVKYFNNEKYLADKYNGSLMNYRDSQIKVSQSLAFLNSGQNLIFTTALTAMMYMGCTGVIGGNLTVGDLVLINQLVFQLSVPLNFLGSVYRDLKQSLIDMETLFKLRKNEVKIKNAERPLMLPENVPYDITFENVTFGYHPDRKILKNASFTIPAGWKTAIVGSSGSGKSTILKLVFRFYDPESGRILINGRDIKEYDIDALRKVIGVVPQDTPLFNDTIWENVKFGRIDATDEEVITVVEKAQLAPLIKKLPQGFDTIVGERGLMISGGEKQRLAIARVLLKNARIMFFDEATSALDTHTEQALLRTIRDNFTSGSRTSVYIAHRLRTIADADKIIVLDNGRVREEGKHLELLAMPGSLYRELWTIQEDLDHLENELKDQQELWSHPQ YIWPKGNNKVRIRVLIALGLLISAKILNVQVPFFFKQTIDSMNIAWDDPTVALPAAIGLTILCYGVARFGSVLFGELRNAVFAKVAQNAIRTVSLQTFQHLMKLDLGWHLSRQTGGLTRAMDRGTKGISQVLTAMVFHIIPISFEISVVCGILTYQFGASFAAITFSTMLLYSIFTIKTTAWRTHFRRDANKADNKAASVALDSLINFEAVKYFNNEKYLADKYNGSLMNYRDSQIKVSQSLAFLNSGQNLIFTTALTAMMYMGCTGVIGGNLTVGDLVLINQLVFQLSVPLNFLGSVYRDLKQSLIDMETLFKLRKNEVKIKNAERPLMLPENVPYDITFENVTFGYHPDRKILKNASFTIPAGWKTAIVGSSGSGKSTILKLVFRFYDPESGRILINGRDIKEYDIDALRKVIGVVPQDTPLFNDTIWENVKFGRIDATDEEVITVVEKAQLAPLIKKLPQGFDTIVGERGLMISGGEKQRLAIARVLLKNARIMFFDEATSALDTHTEQALLRTIRDNFTSGSRTSVYIAHRLRTIADADKIIVLDNGRVREEGKHLELLAMPGSLYRELWTIQEDLDHLENELKDQQELWSHPQ 4mym-a1-m1-cA_4mym-a1-m2-cA Crystal structure of a glyoxalase/ bleomycin resistance protein/ dioxygenase from Nocardioides A1SPF2 A1SPF2 1.9 X-RAY DIFFRACTION 184 1.0 196162 (Nocardioides sp. JS614) 196162 (Nocardioides sp. JS614) 148 148 GTENLYFQSVTVSRPTITDLCLVTHDLEASVEFYTTKLGYTLSSRPGFADFEGPGVILALWDAQLIRETTGVPALAEEPSGRTVVAVELSSPVEIDTAYERLRARGIEFYSPPADYPWNARCIYFPGPCGEFWEYFAWLEGGKPGQLG GTENLYFQSVTVSRPTITDLCLVTHDLEASVEFYTTKLGYTLSSRPGFADFEGPGVILALWDAQLIRETTGVPALAEEPSGRTVVAVELSSPVEIDTAYERLRARGIEFYSPPADYPWNARCIYFPGPCGEFWEYFAWLEGGKPGQLG 4myp-a1-m1-cB_4myp-a1-m1-cA Structure of the central NEAT domain, N2, of the listerial Hbp2 protein complexed with heme Q7AP54 Q7AP54 1.8 X-RAY DIFFRACTION 11 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 117 121 GIYTIPFVAKKANDDSNSSMQNYFNNPAWLKVKNGKKMVAMTVNDNKTVTALKTTLAGTLQDVKVVSEDKDANTRIVEFEVEDLNQPLAAHVNYEAPFNGSVYKGQADFRYVFDTAK TLSDGIYTIPFVAKKANDDSNSSMQNYFNNPAWLKVKNGKKMVAMTVNDNKTVTALKTTLAGTLQDVKVVSEDKDANTRIVEFEVEDLNQPLAAHVNYEAPFNGSVYKGQADFRYVFDTAK 4myy-a1-m1-cA_4myy-a1-m1-cB Structure of a class 2 docking domain complex from modules CurG and CurH of the curacin A polyketide synthase F4Y428 F4Y428 1.68 X-RAY DIFFRACTION 118 0.987 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 79 84 SALEAKLLDEIKQSSNQELESSIDQILESIINGGSMLNKFTKKEQILSEKQQIKQLSPLQRAALALKKLETKLNNTLHE NSALEAKLLDEIKQSSNQELESSIDQILESIINGGGSGGGSMLNKFTKKEQILSEKQQIKQLSPLQRAALALKKLETKLNNTLH 4myz-a3-m1-cC_4myz-a3-m2-cC Structure of a class 2 docking domain complex from modules CurK and CurL of the curacin A polyketide synthase F4Y424 F4Y424 1.5 X-RAY DIFFRACTION 88 1.0 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 51 51 4myz-a2-m1-cC_4myz-a2-m2-cC DITELSEIELEASVLQEIEALEKLIGKEQSLSALQRALIALKDARSKLEKY DITELSEIELEASVLQEIEALEKLIGKEQSLSALQRALIALKDARSKLEKY 4myz-a3-m2-cA_4myz-a3-m2-cB Structure of a class 2 docking domain complex from modules CurK and CurL of the curacin A polyketide synthase F4Y424 F4Y424 1.5 X-RAY DIFFRACTION 94 1.0 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 48 52 4myz-a1-m1-cA_4myz-a1-m1-cB 4myz-a3-m1-cA_4myz-a3-m1-cB DITELSEIELEASVLQEIEALEKLISLSALQRALIALKDARSKLEKYE DITELSEIELEASVLQEIEALEKLIKEQSLSALQRALIALKDARSKLEKYET 4mz0-a1-m1-cB_4mz0-a1-m1-cA Structure of a ketosynthase-acyltransferase di-domain from module CurL of the curacin A polyketide synthase F4Y424 F4Y424 2.8 X-RAY DIFFRACTION 248 1.0 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 823 896 SLSALQRALIALKDARSKLEKYETQSKEPIAIIGMSCRFPGGVDSPESFWQLLNDGVDAISEVPSNRWNINNYYDPDPDATGKISTRDGGFLSQIDGFDAPFFCISPREVQSLDPQQRLLLEVSWEAIERANIVPDQLFNSLTGVFIGIGSSDYLNQLATSEVPQAYWGTGNAPSAATGRLSYILGLTGPNLAVETACSSSLVSLHLACQSLRQQECNLALAGGVNLLLSPETSIIFSQAKMLSPDGRCKTFDASANGYVRGEGCGVIVLKRLSDAVANGDNVLAVIRGTAINQDGASGGLTVPNGPSQVAVIRKALSNGGVDPASVSYIEAHGTGTSLGDPIEVGAIGTVFGKTHSQEQPLIVGTAKTNIGHLEVAAGIAGLMKVVLQLQHQQIAPSLHFKQPNPYINWSQLPVQVSTQLTPWQTNGKSRIAGVSSFGFSGTNAHVVIEEAPKRAVYLLTLSAKTQAALDDLVNSYQNYLKNYPELRIADICYTANTCRSHFNNRLAVVASNQQELVEKLRQHQQGEEVTGIYSIELPNNSTAPKIALLFTGQGSQYVNMGRQLYQQAPVFRKALEQTAYTQPCLFALEYALFKLWQSWGIQPDVVMGHSVGEYVAATVAGVFSLEEGLKLGEMVSVIASESKVLEIFKAMSLEEAIAAINGPESTVISGEAEAVGAIATHLESLSIKTKQQVSHAFHYSQPQISLISNVTGQQVYWVNHVRQPVRFSESMTTLHQEGYELFLEIGPKPILLGMGRQCLPEGVGVWLPSLRPGVEAWQQMLQSLGQLYMKGIKVNWSGFDQDYACHKVAIPTYPFQRESYWI LKQEQEKEQSLSALQRALIALKDARSKLEKYETQSKEPIAIIGMSCRFPGGVDSPESFWQLLNDGVDAISEVPSNRWNINNYYDPDPDATGKISTRDGGFLSQIDGFDAPFFCISPREVQSLDPQQRLLLEVSWEAIERANIVPDQLFNSLTGVFIGIGSSDYLNQLATSEVPQAYWGTGNAPSAATGRLSYILGLTGPNLAVETACSSSLVSLHLACQSLRQQECNLALAGGVNLLLSPETSIIFSQAKMLSPDGRCKTFDASANGYVRGEGCGVIVLKRLSDAVANGDNVLAVIRGTAINQDGASGGLTVPNGPSQVAVIRKALSNGGVDPASVSYIEAHGTGTSLGDPIEVGAIGTVFGKTHSQEQPLIVGTAKTNIGHLEVAAGIAGLMKVVLQLQHQQIAPSLHFKQPNPYINWSQLPVQVSTQLTPWQTNGKSRIAGVSSFGFSGTNAHVVIEEAPKERAVYLLTLSAKTQAALDDLVNSYQNYLKNYPELRIADICYTANTCRSHFNNRLAVVASNQQELVEKLRQHQQGEEVTGIYSIELPNNSTAPKIALLFTGQGSQYVNMGRQLYQQAPVFRKALEQCNEILKSLLEILYPANLDQTAYTQPCLFALEYALFKLWQSWGIQPDVVMGHSVGEYVAATVAGVFSLEEGLKLIAARGRLMQQLPAGGEMVSVIASESKVLEIFKAMSLEEKVAIAAINGPESTVISGEAEAVGAIATHLESLSIKTKQLQVSHAFHSRLMEPMLAEFEAVAKQVTYSQPQISLISNVTGQQVGSEITSAEYWVNHVRQPVRFSESMTTLHQEGYELFLEIGPKPILLGMGRQCLPEGVGVWLPSLRPGVEAWQQMLQSLGQLYMKGIKVNWSGFDQDYACHKVAIPTYPFQRESYWI 4mz9-a1-m1-cB_4mz9-a1-m1-cC Revised structure of E. coli SSB P0AGE0 P0AGE0 2.2 X-RAY DIFFRACTION 17 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 114 114 1eqq-a1-m1-cA_1eqq-a1-m1-cD 1eqq-a1-m1-cC_1eqq-a1-m1-cB 1qvc-a1-m1-cB_1qvc-a1-m1-cC 1qvc-a1-m1-cD_1qvc-a1-m1-cA 4mz9-a1-m1-cA_4mz9-a1-m1-cD 7f2n-a1-m1-cC_7f2n-a1-m1-cA ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGG ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGG 4mz9-a1-m1-cB_4mz9-a1-m1-cD Revised structure of E. coli SSB P0AGE0 P0AGE0 2.2 X-RAY DIFFRACTION 21 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 114 114 1eqq-a1-m1-cA_1eqq-a1-m1-cC 1eqq-a1-m1-cD_1eqq-a1-m1-cB 1qvc-a1-m1-cC_1qvc-a1-m1-cA 1qvc-a1-m1-cD_1qvc-a1-m1-cB 4mz9-a1-m1-cA_4mz9-a1-m1-cC 7f2n-a1-m1-cD_7f2n-a1-m1-cA ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGG ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGG 4mz9-a1-m1-cC_4mz9-a1-m1-cD Revised structure of E. coli SSB P0AGE0 P0AGE0 2.2 X-RAY DIFFRACTION 78 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 114 114 1eqq-a1-m1-cA_1eqq-a1-m1-cB 1eqq-a1-m1-cC_1eqq-a1-m1-cD 1eyg-a1-m1-cB_1eyg-a1-m1-cA 1qvc-a1-m1-cB_1qvc-a1-m1-cA 1qvc-a1-m1-cD_1qvc-a1-m1-cC 4mz9-a1-m1-cA_4mz9-a1-m1-cB ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGG ASRGVNKVILVGNLGQDPEVRYMPNGGAVANITLATSESWRDKATGEMKEQTEWHRVVLFGKLAEVASEYLRKGSQVYIEGQLRTRKWTDQSGQDRYTTEVVVNVGGTMQMLGG 4mzp-a4-m1-cG_4mzp-a4-m1-cH MazF from S. aureus crystal form III, C2221, 2.7 A Q7A4G9 Q7A4G9 2.702 X-RAY DIFFRACTION 94 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 113 114 2mf2-a1-m1-cA_2mf2-a1-m1-cB 4mzm-a1-m1-cB_4mzm-a1-m1-cA 4mzm-a2-m1-cC_4mzm-a2-m1-cD 4mzp-a1-m1-cA_4mzp-a1-m1-cB 4mzp-a2-m1-cC_4mzp-a2-m1-cD 4mzp-a3-m1-cE_4mzp-a3-m1-cF 4mzt-a1-m1-cB_4mzt-a1-m1-cA 4of1-a1-m1-cA_4of1-a1-m1-cB 5dlo-a1-m1-cA_5dlo-a1-m2-cA PIRRGDVYLADLSPVQGSEQGGVRPVVIIQNDTGNKYSPTVIVAAITGRINKAKIPTHVEIEKKKYKLDKDSVILLEQIRTLDKKRLKEKLTYLSDDKMKEVDNALMISLGLN PIRRGDVYLADLSPVQGSEQGGVRPVVIIQNDTGNKYSPTVIVAAITGRINKAKIPTHVEIEKKKYKLDKDSVILLEQIRTLDKKRLKEKLTYLSDDKMKEVDNALMISLGLNA 4mzv-a1-m1-cA_4mzv-a1-m2-cA Crystal structure of extracellular part of human EpCAM P16422 P16422 1.865 X-RAY DIFFRACTION 159 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 6i07-a1-m1-cC_6i07-a1-m1-cD EECVCENYKLAVNCFVNNNRQCQCTSVGAQNTVICSKLAAKCLVMKAEMQGSKLGRRAKPEGALQNNDGLYDPDCDESGLFKAKQCQGTSTCWCVNTAGVRRTDKDTEITCSERVRTYWIIIELKHKAREKPYDSKSLRTALQKEITTRYQLDPKFITSILYENNVITIDLVQQSSQKTQNDVDIADVAYYFEKDVKGESLFHSKKMDLTVNGEQLDLDPGQTLIYYVDEKAPEFSMQGLKH EECVCENYKLAVNCFVNNNRQCQCTSVGAQNTVICSKLAAKCLVMKAEMQGSKLGRRAKPEGALQNNDGLYDPDCDESGLFKAKQCQGTSTCWCVNTAGVRRTDKDTEITCSERVRTYWIIIELKHKAREKPYDSKSLRTALQKEITTRYQLDPKFITSILYENNVITIDLVQQSSQKTQNDVDIADVAYYFEKDVKGESLFHSKKMDLTVNGEQLDLDPGQTLIYYVDEKAPEFSMQGLKH 4mzw-a1-m1-cB_4mzw-a1-m1-cA CRYSTAL STRUCTURE OF NU-CLASS GLUTATHIONE TRANSFERASE YGHU FROM Streptococcus sanguinis SK36, COMPLEX WITH GLUTATHIONE DISULFIDE, TARGET EFI-507286 A3CNR0 A3CNR0 1.95 X-RAY DIFFRACTION 196 1.0 388919 (Streptococcus sanguinis SK36) 388919 (Streptococcus sanguinis SK36) 261 270 TYQLPKVWSAADSDQGKFSGINQPTAGVRFEQKLPVGKEPFQLYSLGTPNGVKVTIMLEELLAAGVTEATYDLYKISIMDGDQFGSDFVKINPNSKIPALLDQSGHKPIPVFESANILLYLAEKFGKLIPSDLAGRTEVLNWLFWQTGAAPFLGGGFGHFFNYAPEKLEYPINRFTMEAKRQLDLLDKELAKKAYIAGEDYSIADIAIWSWYGQLVQDKLYPGAAEFLDAASYKHLSAWAEKIAARPAVQRGLAAEYQEIK SGVDLGTENTYQLPKVWSAADSDQGKFSGINQPTAGVRFEQKLPVGKEPFQLYSLGTPNGVKVTIMLEELLAAGVTEATYDLYKISIMDGDQFGSDFVKINPNSKIPALLDQSGHKPIPVFESANILLYLAEKFGKLIPSDLAGRTEVLNWLFWQTGAAPFLGGGFGHFFNYAPEKLEYPINRFTMEAKRQLDLLDKELAKKAYIAGEDYSIADIAIWSWYGQLVQDKLYPGAAEFLDAASYKHLSAWAEKIAARPAVQRGLAAEYQEIK 4mzy-a1-m1-cA_4mzy-a1-m2-cA Crystal structure of enterococcus faecalis nicotinate phosphoribosyltransferase with malonate and phosphate bound Q830Y8 Q830Y8 1.95 X-RAY DIFFRACTION 345 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 486 486 2f7f-a1-m1-cA_2f7f-a1-m2-cA YTYADDSLTLHTDMYQINMMQTYWELGRADLHAVFECYFREMPFNHGYAIFAGLERLVNYLENLTFTESDIAYLREVEEYPEDFLTYLANFEFKCTVRSALEGDLVFNNEPLIQIEGPLAQCQLVETALLNMVNFQTLIATKAARIKSVIGDDPLLEFGTRRAQELDAAIWGTRAAYIGGADATSNVRAGKIFGIPVSGTHAHSLVQSYGNDYEAFMAYAKTHRDCVFLVDTYDTLKAGVPSAIRVAREMGDKINFLGVRIDSGDMAYISKRVREQLDEAGFTEAKIYASNDLDENTILNLKMQKSKIDVWGVGTKLITAYDQPALGAVFKLVSIEGEDGQMKDTIKLSSNAEKVTTPGKKQVWRITRKSDKKSEGDYVTLWNEDPRQEEEIYMFHPVHTFINKYVRDFEARPVLQDIFVEGKRVYELPTLDEIKQYAKENLDSLHEEYKRDLNPQKYPVDLSTDCWNHKMNLLEKVRKDVKHLTE YTYADDSLTLHTDMYQINMMQTYWELGRADLHAVFECYFREMPFNHGYAIFAGLERLVNYLENLTFTESDIAYLREVEEYPEDFLTYLANFEFKCTVRSALEGDLVFNNEPLIQIEGPLAQCQLVETALLNMVNFQTLIATKAARIKSVIGDDPLLEFGTRRAQELDAAIWGTRAAYIGGADATSNVRAGKIFGIPVSGTHAHSLVQSYGNDYEAFMAYAKTHRDCVFLVDTYDTLKAGVPSAIRVAREMGDKINFLGVRIDSGDMAYISKRVREQLDEAGFTEAKIYASNDLDENTILNLKMQKSKIDVWGVGTKLITAYDQPALGAVFKLVSIEGEDGQMKDTIKLSSNAEKVTTPGKKQVWRITRKSDKKSEGDYVTLWNEDPRQEEEIYMFHPVHTFINKYVRDFEARPVLQDIFVEGKRVYELPTLDEIKQYAKENLDSLHEEYKRDLNPQKYPVDLSTDCWNHKMNLLEKVRKDVKHLTE 4n02-a1-m2-cA_4n02-a1-m4-cA Type 2 IDI from S. pneumoniae B2ILS5 B2ILS5 1.4 X-RAY DIFFRACTION 86 1.0 516950 (Streptococcus pneumoniae CGSP14) 516950 (Streptococcus pneumoniae CGSP14) 332 332 4n02-a1-m1-cA_4n02-a1-m3-cA 4n02-a1-m1-cA_4n02-a1-m4-cA 4n02-a1-m2-cA_4n02-a1-m3-cA TTNRKDEHILYALEQKSSYNSFDEVELIHSSLPLYNLDEIDLSTEFAGRKWDFPFYINAMTGGSNKGREINQKLAQVAESCGILFVTGSYSAALKNPTDDSFSVKSSHPNLLLGTNIGLDKPVELGLQTVEEMNPVLLQVHVNVMQELLMPEGERKFRSWQSHLADYSKQIPVPIVLKEVGFGMDAKTIERAYEFGVRTVDLSGRGGTSFAYIENRRSGQRDYLNQWGQSTMQALLNAQEWKDKVELLVSGGVRNPLDMIKCLVFGAKAVGLSRTVLELVETYTVEEVIGIVQGWKADLRLIMCSLNCATIADLQKVDYLLYGKLKEAKDQM TTNRKDEHILYALEQKSSYNSFDEVELIHSSLPLYNLDEIDLSTEFAGRKWDFPFYINAMTGGSNKGREINQKLAQVAESCGILFVTGSYSAALKNPTDDSFSVKSSHPNLLLGTNIGLDKPVELGLQTVEEMNPVLLQVHVNVMQELLMPEGERKFRSWQSHLADYSKQIPVPIVLKEVGFGMDAKTIERAYEFGVRTVDLSGRGGTSFAYIENRRSGQRDYLNQWGQSTMQALLNAQEWKDKVELLVSGGVRNPLDMIKCLVFGAKAVGLSRTVLELVETYTVEEVIGIVQGWKADLRLIMCSLNCATIADLQKVDYLLYGKLKEAKDQM 4n04-a3-m1-cB_4n04-a3-m1-cA The crystal structure of glyoxalase / bleomycin resistance protein from Catenulispora Acidiphila DSM 44928 C7Q893 C7Q893 2.489 X-RAY DIFFRACTION 80 1.0 479433 (Catenulispora acidiphila DSM 44928) 479433 (Catenulispora acidiphila DSM 44928) 109 110 SLNLFAGVAVGDFGAALAWYRSLLGAEPTFYPHETEAVWQLEEGRLLYIVERPEHAGHAQTLIVEDLDAVLSGASERGVEAAKQETYANGVRKVTYLDPDGSEIAFGEV SLNLFAGVAVGDFGAALAWYRSLLGAEPTFYPHETEAVWQLEEGRLLYIVERPEHAGHAQTLIVEDLDAVLSGASERGVEAAKQETYANGVRKVTYLDPDGSEIAFGEVP 4n06-a1-m1-cA_4n06-a1-m1-cB Crystal structure of Cas1 from Archaeoglobus fulgidus and its nucleolytic activity O28401 O28401 2.4 X-RAY DIFFRACTION 113 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 339 340 GGRLVVDGFGKYLGIENGLIVVKEKGKALRKVRPEDLKQVLIIGKAAISSDAIKLLLKNRVDVVFLDFNGEILGRLSHPLIGTAKTRREQYLAYGDKRGVHLAKEFIKAKANQAILTNLAKARKDSNPEVAESLLKAKKEIDACLNELDGVEAEIDKVRERLLGIEGKASKHYWDAISLVIPEEYRFNGRRGIEIGSPRYAKDIVNALNYGYSILLAECVKAVELAGLDPYAGFLHVDVSGRSSLAIDLENFRQQVVDRVVLRLISYRQIKPEDCEKRNVCQLSDNARRLLLASLLERLDSKTQYRGRNLAYSSIILLHARDVVAFLRGERRYEGFVQK GGRLVVDGFGKYLGIENGLIVVKEKGKALRKVRPEDLKQVLIIGKAAISSDAIKLLLKNRVDVVFLDFNGEILGRLSHPLIGTAKTRREQYLAYGDKRGVHLAKEFIKAKANQAILTNLAKARKDSNPEVAESLLKAKKEIDACLNELDGVEAEIDKVRERLLGIEGKASKHYWDAISLVIPEEYRFNGRRGIEIGSPRYAKDIVNALNYGYSILLAECVKAVELAGLDPYAGFLHVDVSGRSSLAIDLENFRQQVVDRVVLRLISYRQIKPEDCEKRNVCQLSDNARRLLLASLLERLDSKTQYRGRNLAYSSIILLHARDVVAFLRGERRYEGFVQKW 4n0a-a1-m1-cA_4n0a-a1-m2-cB Crystal structure of Lsm2-3-Pat1C complex from Saccharomyces cerevisiae P57743 P57743 3.15 X-RAY DIFFRACTION 21 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 80 80 4m7a-a3-m1-cC_4m7a-a3-m1-cJ 4n0a-a1-m1-cB_4n0a-a1-m2-cA METPLDLLKLNLDERVYIKLRGARTLVGTLQAFDSHCNIVLSDAVETIYQLNNEELSESERRCEMVFIRGDTVTLISTPS METPLDLLKLNLDERVYIKLRGARTLVGTLQAFDSHCNIVLSDAVETIYQLNNEELSESERRCEMVFIRGDTVTLISTPS 4n0a-a1-m2-cE_4n0a-a1-m2-cF Crystal structure of Lsm2-3-Pat1C complex from Saccharomyces cerevisiae P57743 P57743 3.15 X-RAY DIFFRACTION 53 0.985 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 68 75 4n0a-a1-m1-cE_4n0a-a1-m1-cF METPLDLLKLNLDERVYIKLRGARTLVGTLQAFDSHCNIVLSDAVETERRCEMVFIRGDTVTLISTPS METPLDLLKLNLDERVYIKLRGARTLVGTLQAFDSHCNIVLSDAVETIYQLNSESERRCEMVFIRGDTVTLISTP 4n0r-a1-m1-cB_4n0r-a1-m1-cA Crystal structure of a putative glycoside hydrolase (BVU_0362) from Bacteroides vulgatus ATCC 8482 at 1.80 A resolution A6KXB7 A6KXB7 1.8 X-RAY DIFFRACTION 71 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 498 499 QDKVECWDRFELSFKQVTKGNPFDIRLSATFVCGKEKKTVEGFYDGENTYRIRFPAVAGEWRYVTSSSIGANGRKGTFTVIPAGKDNHGVLVDGEHNFKYADGTRYYPGTTAYAWTHKETTQEATLKSFGEAGFNKVRCVFPKNYSLVKDEPALYPFEIEKTIKDKEGNERKEWDFDRFDPAFFQHLEKRIDQLNRLGIEADLILFHPYDKGRWGFDASNEVNVRYIKYITARLASFRNVWWSANEWDYVKAKTVDDWKLLTKTVVENDPYRHLCSIHGATATYFDYWPEFTHVSIQDEAPVLSSTASATLRKIYRKPVICDEVGYEGNLPYRWGRLSPQQTCFILNGLLGGIYVTHGECYQQGNEPIFWAQGGSLKGESWKRVKFLRTIIEAAPHPLEADISRDLVTSTAGPDYYLVNGKDVKGFWTFNLPVKNADYNKLQKNKRFKVEIIDVWATVTEYPVIFETTEELDYRVFDIHHRGVRIPDAPYIVLRITEV QDKVECWDRFELSFKQVTKGNPFDIRLSATFVCGKEKKTVEGFYDGENTYRIRFPAVAGEWRYVTSSSIGANGRKGTFTVIPAGKDNHGVLVDGEHNFKYADGTRYYPGTTAYAWTHKETTQEATLKSFGEAGFNKVRCVFPKNYSLVKDEPALYPFEIEKTIKDKEGNERKEWDFDRFDPAFFQHLEKRIDQLNRLGIEADLILFHPYDKGRWGFDASNEVNVRYIKYITARLASFRNVWWSANEWDYVKAKTVDDWKLLTKTVVENDPYRHLCSIHGATATYFDYWPEFTHVSIQDEAPVLSSTASATLRKIYRKPVICDEVGYEGNLPYRWGRLSPQQTCFILNGLLGGIYVTHGECYQQGNEPIFWAQGGSLKGESWKRVKFLRTIIEAAPHPLEADISRDLVTSTAGPDYYLVNGKDVKGFWTFNLPVKNADYNKLQKNKRFKVEIIDVWATVTEYPVIFETTEELDYRVFDIHHRGVRIPDAPYIVLRITEVK 4n0v-a1-m1-cB_4n0v-a1-m1-cA Crystal structure of a glutathione S-transferase domain-containing protein (Marinobacter aquaeolei VT8), Target EFI-507332 A1TY67 A1TY67 1.7 X-RAY DIFFRACTION 81 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 205 213 MKIYDTEGFPNPLRVRIALAEKGATDKVVFVPVDVMGGEHRTTDFRAKNPDATVPVLELDDGTCIAQCNAITEYLDGVFDGPSLTGASPKERAVIAMMNIRAESGLMNAVGAYFHHATRGLGPDLETWQCPDWGNKQKEVAQSTMAYLNEVLAENEFLAGDRFTVADITAYAGLVFAEFAKVDIPGHLDHLLAWRARVAARPSIT MKIYDTEGFPNPLRVRIALAEKGATDKVVFVPVDVMGGEHRTTDFRAKNPDATVPVLELDDGTCIAQCNAITEYLDGVFDGPSLTGASPKERAVIAMMNIRAESGLMNAVGAYFHHATRGLGPDLETWQCPDWGNKQKEVAQSTMAYLNEVLAENEFLAGDRFTVADITAYAGLVFAEFAKVDIPGHLDHLLAWRARVAARPSITGAENLYFQ 4n0w-a2-m1-cB_4n0w-a2-m1-cD X-ray crystal structure of a serine hydroxymethyltransferase from Burkholderia cenocepacia with covalently attached pyridoxal phosphate B4ECY9 B4ECY9 1.65 X-RAY DIFFRACTION 287 0.998 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 414 414 4mso-a1-m1-cB_4mso-a1-m1-cA 4n0w-a1-m1-cC_4n0w-a1-m1-cA 4ot8-a1-m1-cA_4ot8-a1-m1-cC 4ot8-a2-m1-cD_4ot8-a2-m1-cB 4otl-a1-m1-cA_4otl-a1-m1-cC 4otl-a2-m1-cB_4otl-a2-m1-cD MFDRAQSTIANVDPEIFAAIEQENRRQEDHIELIASENYTSPAVMAAQGSQLTNKYAEGYPGKRYYGGCEYVDVVEQLAIDRVKQLFGAEAANVQPNSGSQANQGVFFAMLKPGDTIMGMSLAHGGHLTHGSPVNMSGKWFNVVSYGLNENEDIDYDAAEKLANEHKPKLIVAGASAFALKIDFERLAKIAKSVGAYLMVDMAHYAGLIAAGVYPNPVPHADFVTTTTHKSLRGPRGGVILMKAEYEKPINSAIFPGIQGGPLMHVIAAKAVAFKEALSPEFKEYQQKVVENARVLAETLVKRGLRIVSGRTESHVMLVDLRAKHITGKAAEAALGAAHITVNKNAIPNDPEKPFVTSGIRLGSPAMTTRGFGPAEAEQVGNLIADVLENPEDAATIERVRAQVAELTKRFPVY FDRAQSTIANVDPEIFAAIEQENRRQEDHIELIASENYTSPAVMAAQGSQLTNKYAEGYPGKRYYGGCEYVDVVEQLAIDRVKQLFGAEAANVQPNSGSQANQGVFFAMLKPGDTIMGMSLAHGGHLTHGSPVNMSGKWFNVVSYGLNENEDIDYDAAEKLANEHKPKLIVAGASAFALKIDFERLAKIAKSVGAYLMVDMAHYAGLIAAGVYPNPVPHADFVTTTTHKSLRGPRGGVILMKAEYEKPINSAIFPGIQGGPLMHVIAAKAVAFKEALSPEFKEYQQKVVENARVLAETLVKRGLRIVSGRTESHVMLVDLRAKHITGKAAEAALGAAHITVNKNAIPNDPEKPFVTSGIRLGSPAMTTRGFGPAEAEQVGNLIADVLENPEDAATIERVRAQVAELTKRFPVYR 4n18-a1-m1-cA_4n18-a1-m2-cA Crystal structure of D-isomer specific 2-hydroxyacid dehydrogenase family protein from Klebsiella pneumoniae 342 B5XVG7 B5XVG7 1.97 X-RAY DIFFRACTION 92 1.0 507522 (Klebsiella pneumoniae 342) 507522 (Klebsiella pneumoniae 342) 306 306 FQSSDITIVVDCNDADFARDICAALQQFPDVTALLPHHQAARDAQYASCWFPDPQLLSRSPGLKLIQAASAGVDHLPPALFASEIPLCRVIDEDFRHGFEYALWSVLWFQRHFDRALAHQRTQTWKLYPQRAAADFHIGIGLGEIGGYIADQLARLGYRVSGWSRSEKQLAGVTCYRGEEALDHFLGSLDGLINLLPLTAQTRGILAAPLFNRLPAGAVLINCGRGEHVNDDVLAALESGQLAGAVLDVFPQEPLPADDPLWRHPQVVITPHASAAPAEVIARQLLENIQRQRRGLPLKNLVNKHA FQSSDITIVVDCNDADFARDICAALQQFPDVTALLPHHQAARDAQYASCWFPDPQLLSRSPGLKLIQAASAGVDHLPPALFASEIPLCRVIDEDFRHGFEYALWSVLWFQRHFDRALAHQRTQTWKLYPQRAAADFHIGIGLGEIGGYIADQLARLGYRVSGWSRSEKQLAGVTCYRGEEALDHFLGSLDGLINLLPLTAQTRGILAAPLFNRLPAGAVLINCGRGEHVNDDVLAALESGQLAGAVLDVFPQEPLPADDPLWRHPQVVITPHASAAPAEVIARQLLENIQRQRRGLPLKNLVNKHA 4n1d-a1-m1-cA_4n1d-a1-m2-cA Nodal/BMP2 chimera NB250 P12643 P12643 1.912 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 KSSCKRHPLYVDFNLIGWGSWIIYPKQYNAYRCEGECPNPVGEEFHPTNHAYIQSLLKRYQPHRVPSTCCVPTELSAISMLYLDENEKVVLKNYQDMVVEGCGCR KSSCKRHPLYVDFNLIGWGSWIIYPKQYNAYRCEGECPNPVGEEFHPTNHAYIQSLLKRYQPHRVPSTCCVPTELSAISMLYLDENEKVVLKNYQDMVVEGCGCR 4n1e-a3-m1-cF_4n1e-a3-m1-cE Structural evidence for antigen receptor evolution 2.23 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 106 4n1c-a1-m1-cB_4n1c-a1-m1-cA 4n1e-a1-m1-cA_4n1e-a1-m1-cB 4n1e-a2-m1-cC_4n1e-a2-m1-cD 4n1e-a4-m1-cH_4n1e-a4-m1-cG DIQMTQSPSSLSASVGDRVTITCRASQDIAAALNWYQQKPGKAPKLLIYASSYLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQDGYYPATFGQGTKVE DIQMTQSPSSLSASVGDRVTITCRASQDIAAALNWYQQKPGKAPKLLIYASSYLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQDGYYPATFGQGTKVEI 4n1j-a3-m2-cC_4n1j-a3-m2-cD Crystal structures of NLRP14 pyrin domain reveal a conformational switch mechanism, regulating its molecular interactions Q86W24 Q86W24 2.6 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 91 4n1j-a1-m1-cA_4n1j-a1-m1-cB 4n1j-a2-m1-cC_4n1j-a2-m1-cD 4n1j-a3-m1-cA_4n1j-a3-m1-cB 4n1k-a2-m1-cC_4n1k-a2-m1-cD 4n1k-a3-m2-cC_4n1k-a3-m2-cD SFFPDFGLLLYLEELNKEELNTFKLFLKETEPEHGLTPWNEVKKARREDLANLKKYYPGEKAWSVSLKIFGKNLKDLCERAKEEIN SSSFFPDFGLLLYLEELNKEELNTFKLFLKETEPEHGLTPWNEVKKARREDLANLKKYYPGEKAWSVSLKIFGKNLKDLCERAKEEINWSA 4n1k-a3-m1-cA_4n1k-a3-m2-cD Crystal structures of NLRP14 pyrin domain reveal a conformational switch mechanism, regulating its molecular interactions Q86W24 Q86W24 3 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 94 4n1k-a3-m2-cC_4n1k-a3-m1-cB SSSFFPDFGLLLYLEELNKEELNTFKLFLKETMEPEHGLTPWNEVKKARREDLANLMKKYYPGEKAWSVSLKIFGKMNLKVLCERAKE SSSFFPDFGLLLYLEELNKEELNTFKLFLKETMEPEHGLTPWNEVKKARREDLANLMKKYYPGEKAWSVSLKIFGKMNLKVLCERAKEEINWSA 4n1k-a3-m2-cC_4n1k-a3-m1-cA Crystal structures of NLRP14 pyrin domain reveal a conformational switch mechanism, regulating its molecular interactions Q86W24 Q86W24 3 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 88 SFFPDFGLLLYLEELNKEELNTFKLFLKETMEPEHGLTPWNEVKKARREDLANLMKKYYPGEKAWSVSLKIFGKMNLKVLCERAKE SSSFFPDFGLLLYLEELNKEELNTFKLFLKETMEPEHGLTPWNEVKKARREDLANLMKKYYPGEKAWSVSLKIFGKMNLKVLCERAKE 4n1y-a2-m1-cC_4n1y-a2-m1-cD Crystal Structure of the Pacific Oyster Estrogen Receptor Ligand Binding Domain K1QUU5 K1QUU5 2.605 X-RAY DIFFRACTION 81 1.0 29159 (Crassostrea gigas) 29159 (Crassostrea gigas) 224 226 4n1y-a1-m1-cA_4n1y-a1-m1-cB TVTILQALNKAALPVLESHHNHGQPPTKVHLLNSLVKLAERELVHLINWAKNVPGYTDLSLSDQVHLIECCWMELLLLNCAFRSIEHGGKSLAFAPDLVLDRSSWSTVEMTEIFEQVAAVSEQMMQNHLHKDELLLLQAMVLVNAEVRRLASYNQIFNMQQSLLDAIVDTAQKYHPDNVRHVPAVLLLLTHIRQAGERGIAFFQRLKSEGVVTFCDLLKEMLDA QTVTILQALNKAALPVLESHHNHGQPPTKVHLLNSLVKLAERELVHLINWAKNVPGYTDLSLSDQVHLIECCWMELLLLNCAFRSIEHGGKSLAFAPDLVLDRSSWSTVEMTEIFEQVAAVSEQMMQNHLHKDELLLLQAMVLVNAEVRRLASYNQIFNMQQSLLDAIVDTAQKYHPDNVRHVPAVLLLLTHIRQAGERGIAFFQRLKSEGVVTFCDLLKEMLDAQ 4n21-a2-m1-cE_4n21-a2-m1-cD Crystal structure of the GP2 Core Domain from the California Academy of Science Virus J7H5L9 J7H5L9 1.99 X-RAY DIFFRACTION 119 1.0 1223561 (CAS virus) 1223561 (CAS virus) 121 123 4n21-a1-m1-cA_4n21-a1-m1-cB 4n21-a1-m1-cA_4n21-a1-m1-cC 4n21-a1-m1-cB_4n21-a1-m1-cC 4n21-a2-m1-cD_4n21-a2-m1-cF 4n21-a2-m1-cE_4n21-a2-m1-cF 4n23-a1-m1-cA_4n23-a1-m1-cC 4n23-a1-m1-cB_4n23-a1-m1-cA 4n23-a1-m1-cB_4n23-a1-m1-cC NLYFQGNMKQIEDKIEEILSKIYHIENEIARIKKLIGAIASKIIKTANYTTNALFLLNKEESEIRDHVVEHELALNYLLAHQGGLCNVVKGPMCSSDIDDFSKNVSDMIDKVHEEMKKFYH ENLYFQGNMKQIEDKIEEILSKIYHIENEIARIKKLIGAIASKIIKTANYTTNALFLLNKEESEIRDHVVEHELALNYLLAHQGGLCNVVKGPMCSSDIDDFSKNVSDMIDKVHEEMKKFYHE 4n27-a2-m1-cE_4n27-a2-m1-cF X-ray structure of Brucella abortus RicA Q2YQG1 Q2YQG1 2.73 X-RAY DIFFRACTION 61 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 175 175 4n27-a1-m1-cA_4n27-a1-m1-cB 4n27-a1-m1-cA_4n27-a1-m1-cC 4n27-a1-m1-cB_4n27-a1-m1-cC 4n27-a2-m1-cD_4n27-a2-m1-cE 4n27-a2-m1-cD_4n27-a2-m1-cF MPIYAYNGHKPQFADRESNWIAPDATLIGKVVVGENAGFWFGAVLRGDNEPITIGADTNVQEQTIMHTDIGFPLTIGAGCTIGHRAILHGCTIGENTLIGMGAIVLNGAKVGKNCLIGAGTLVKEGMEIPDNSLVVGSPARVLRQLDDAAVEKLRASAKHYVERGHSFMRGMEPA MPIYAYNGHKPQFADRESNWIAPDATLIGKVVVGENAGFWFGAVLRGDNEPITIGADTNVQEQTIMHTDIGFPLTIGAGCTIGHRAILHGCTIGENTLIGMGAIVLNGAKVGKNCLIGAGTLVKEGMEIPDNSLVVGSPARVLRQLDDAAVEKLRASAKHYVERGHSFMRGMEPA 4n2o-a9-m1-cB_4n2o-a9-m1-cA Structure of a novel autonomous cohesin protein from Ruminococcus flavefaciens W5IDC3 W5IDC3 2.442 X-RAY DIFFRACTION 63 1.0 1265 (Ruminococcus flavefaciens) 1265 (Ruminococcus flavefaciens) 182 184 4n2o-a10-m1-cC_4n2o-a10-m1-cD 4n2o-a11-m1-cE_4n2o-a11-m1-cF 4n2o-a12-m1-cH_4n2o-a12-m1-cG SSVTADLNNAVINVDENEAFKDVPDLEGEGAHITLSNTTAKPGEAEVTSVSNADQWNCGIHIIYPDILKPEKDPEERTVAFQKGDALEAATGIVCEWQEGLPPVLTENKKGCLFLTAFSGNQGGEGDATFRFKVPDNAEPGAVYNLGYYYNTDLFINEQNIPTYQKYAFTHEGGTITVELEH GSSSVTADLNNAVINVDENEAFKDVPDLEGEGAHITLSNTTAKPGEAEVTSVSNADQWNCGIHIIYPDILKPEKDPEERTVAFQKGDALEAATGIVCEWQEGLPPVLTENKKGCLFLTAFSGNQGGEGDATFRFKVPDNAEPGAVYNLGYYYNTDLFINEQNIPTYQKYAFTHEGGTITVELEH 4n2p-a6-m1-cC_4n2p-a6-m1-cD Structure of Archease from Pyrococcus horikoshii O59205 O59205 1.435 X-RAY DIFFRACTION 103 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 139 139 4n2p-a5-m1-cA_4n2p-a5-m1-cB LKKWEHYEHTADIGIRGYGDSLEEAFEAVAIALFDVVNVNKVEKKEVREIEVEAEDLEALLYSFLEELLVIHDIEGLVFRDFEVKIERVNGKYRLRAKAYGEKLDLKKHEPKEEVKAITYHDKIERLPNGKWAQLVPDI LKKWEHYEHTADIGIRGYGDSLEEAFEAVAIALFDVVNVNKVEKKEVREIEVEAEDLEALLYSFLEELLVIHDIEGLVFRDFEVKIERVNGKYRLRAKAYGEKLDLKKHEPKEEVKAITYHDKIERLPNGKWAQLVPDI 4n2q-a1-m1-cA_4n2q-a1-m2-cA Crystal structure of THA8 in complex with Zm4 RNA I1HB13 I1HB13 2.8 X-RAY DIFFRACTION 57 1.0 15368 (Brachypodium distachyon) 15368 (Brachypodium distachyon) 198 198 4n2s-a1-m1-cA_4n2s-a1-m2-cA SLSTEAIHAVQALKRLTAADRSPPAATAAASAALGRLLRADLLAAMAELQRQGHWSLALAALHVARAEPWYRPDPELYATFVSSSPSNDPAAAAAVDALVEAFIEEKERGAAGGSSEGVWVGEDVYKLTRLVRALVAKGRARAAWRVYEAAVRKGGCEVDEYMYRVMAKGMKRLGLDEEAAEVEADLADWEARHLPDE SLSTEAIHAVQALKRLTAADRSPPAATAAASAALGRLLRADLLAAMAELQRQGHWSLALAALHVARAEPWYRPDPELYATFVSSSPSNDPAAAAAVDALVEAFIEEKERGAAGGSSEGVWVGEDVYKLTRLVRALVAKGRARAAWRVYEAAVRKGGCEVDEYMYRVMAKGMKRLGLDEEAAEVEADLADWEARHLPDE 4n2x-a1-m1-cE_4n2x-a1-m1-cG Crystal Structure of DL-2-haloacid dehalogenase A6BM74 A6BM74 1.7 X-RAY DIFFRACTION 17 1.0 439332 (Methylobacterium sp. CPA1) 439332 (Methylobacterium sp. CPA1) 298 298 4n2x-a1-m1-cA_4n2x-a1-m1-cD 4n2x-a1-m1-cA_4n2x-a1-m1-cF 4n2x-a1-m1-cB_4n2x-a1-m1-cE 4n2x-a1-m1-cB_4n2x-a1-m1-cG 4n2x-a1-m1-cD_4n2x-a1-m1-cF RSVLGSFPQVDHHQAKGQLAEVYDDIHNTMRVPWVAFGIRVMSQFPHFIPDAWAALKPNIETRYAEDGADLIRLNSIVPGPVMPNPTPKLLRLGWTESKIEELKTALDLLNYGNPKYLILITAFNEAWHERDTGGRAPQKLRGRDAERIPYGLPNSVEKFNLLDIEKASDRTQTVLRDIRDAFLHHGPASDYRVLGVWPDYLEIALRDSLAPVALSAEYDETARRIRKIAREHVKGFDKPAGVAWRDMTEKLSAEQIAGLTGLLFMYNRFIADITIAIIRLKQAFSGPEDATANKYTN RSVLGSFPQVDHHQAKGQLAEVYDDIHNTMRVPWVAFGIRVMSQFPHFIPDAWAALKPNIETRYAEDGADLIRLNSIVPGPVMPNPTPKLLRLGWTESKIEELKTALDLLNYGNPKYLILITAFNEAWHERDTGGRAPQKLRGRDAERIPYGLPNSVEKFNLLDIEKASDRTQTVLRDIRDAFLHHGPASDYRVLGVWPDYLEIALRDSLAPVALSAEYDETARRIRKIAREHVKGFDKPAGVAWRDMTEKLSAEQIAGLTGLLFMYNRFIADITIAIIRLKQAFSGPEDATANKYTN 4n2x-a1-m1-cF_4n2x-a1-m1-cG Crystal Structure of DL-2-haloacid dehalogenase A6BM74 A6BM74 1.7 X-RAY DIFFRACTION 100 1.0 439332 (Methylobacterium sp. CPA1) 439332 (Methylobacterium sp. CPA1) 298 298 3wj8-a1-m1-cA_3wj8-a1-m1-cB 3wj8-a2-m1-cD_3wj8-a2-m1-cE 3wj8-a3-m1-cF_3wj8-a3-m1-cG 4n2x-a1-m1-cA_4n2x-a1-m1-cB 4n2x-a1-m1-cD_4n2x-a1-m1-cE RSVLGSFPQVDHHQAKGQLAEVYDDIHNTMRVPWVAFGIRVMSQFPHFIPDAWAALKPNIETRYAEDGADLIRLNSIVPGPVMPNPTPKLLRLGWTESKIEELKTALDLLNYGNPKYLILITAFNEAWHERDTGGRAPQKLRGRDAERIPYGLPNSVEKFNLLDIEKASDRTQTVLRDIRDAFLHHGPASDYRVLGVWPDYLEIALRDSLAPVALSAEYDETARRIRKIAREHVKGFDKPAGVAWRDMTEKLSAEQIAGLTGLLFMYNRFIADITIAIIRLKQAFSGPEDATANKYTN RSVLGSFPQVDHHQAKGQLAEVYDDIHNTMRVPWVAFGIRVMSQFPHFIPDAWAALKPNIETRYAEDGADLIRLNSIVPGPVMPNPTPKLLRLGWTESKIEELKTALDLLNYGNPKYLILITAFNEAWHERDTGGRAPQKLRGRDAERIPYGLPNSVEKFNLLDIEKASDRTQTVLRDIRDAFLHHGPASDYRVLGVWPDYLEIALRDSLAPVALSAEYDETARRIRKIAREHVKGFDKPAGVAWRDMTEKLSAEQIAGLTGLLFMYNRFIADITIAIIRLKQAFSGPEDATANKYTN 4n2y-a2-m1-cC_4n2y-a2-m2-cD Crystal structure of orotidine 5'-monophosphate decarboxylase from Archaeoglobus fulgidus O29333 O29333 1.549 X-RAY DIFFRACTION 120 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 201 202 4muz-a1-m1-cA_4muz-a1-m1-cB 4n2y-a1-m1-cB_4n2y-a1-m1-cA MKQLILALDVMDGEKAMEIAKKVAEHVDRIKVNYPLVLSAGVGIMKRLSEIKPVIADFKIADVPYTSSLIARIAFENSAESVIVHGFVGSDTLREVCRVAEEFGGKVYAVTELSSPGGEEFMSAVSLKIVEKAKEAGCHGLIAPSTRIERLREIRKAAGDMEILCPIEAVKYADGIIVGRGIYASGNPAEEARKLRRVLKI MKQLILALDVMDGEKAMEIAKKVAEHVDRIKVNYPLVLSAGVGIMKRLSEIKPVIADFKIADVPYTSSLIARIAFENSAESVIVHGFVGSDTLREVCRVAEEFGGKVYAVTELSSPGGEEFMSAVSLKIVEKAKEAGCHGLIAPSTRIERLREIRKAAGDMEILCPSIEAVKYADGIIVGRGIYASGNPAEEARKLRRVLKI 4n3n-a2-m1-cA_4n3n-a2-m2-cA Crystal structure of eukaryotic translation initiation factor eIF5B (517-1116) from Chaetomium thermophilum, apo form G0S8G9 G0S8G9 2.752 X-RAY DIFFRACTION 100 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 587 587 SHMNKDNLRSPICCILGGKTKLLDKIRQTNVQAGGITQQIGATYFPVEAIKQKTAVVNKDGKFEFKVPGLLIIDTPGHESFSNLRSRGSSLCNIAILVVDIMHGLEPQTIESLRLLRERKTPFVVALNKIDRLYGWKKIENNGFRESFALQNKAVQNEFRNRLDQVKLQFAEQGFNSELFYENKNFARYVSLVPTSAHTGEGIPDMLKLIVQLCQERMASSLMYLSELQATVLEVKAIEGFGVTIDVILSNGILREGDRIVLCGLEGPIKTNIRALLTPAPYIHHKEVKAAQGVKISAPGLEGAIAGSRLLVVGPDDDEEELEEEVESDLQSLFSRVEKTGKGVSVQASTLGSLEALLDFLKDCKIPVANVGIGPVYKRDVMQCGIMLEKAPDYAVMLCFDVKVDKEAQQYADENGIKIFTADIIYHLFDQFTKHMQEQLEKKKEESKMLAVFPCVLNPVAVFNKTNPIVVGVDVVDGQLKLNTPIAAVKMNPTTGQKEIISLGRVTGIERDHKPLQVCKKGQPAVAIKIEMGGHQPAYGRHLDEKDVLYSHISRASIDVLKQFYRDVVTTDEWQLIIKLKSVFDVQ SHMNKDNLRSPICCILGGKTKLLDKIRQTNVQAGGITQQIGATYFPVEAIKQKTAVVNKDGKFEFKVPGLLIIDTPGHESFSNLRSRGSSLCNIAILVVDIMHGLEPQTIESLRLLRERKTPFVVALNKIDRLYGWKKIENNGFRESFALQNKAVQNEFRNRLDQVKLQFAEQGFNSELFYENKNFARYVSLVPTSAHTGEGIPDMLKLIVQLCQERMASSLMYLSELQATVLEVKAIEGFGVTIDVILSNGILREGDRIVLCGLEGPIKTNIRALLTPAPYIHHKEVKAAQGVKISAPGLEGAIAGSRLLVVGPDDDEEELEEEVESDLQSLFSRVEKTGKGVSVQASTLGSLEALLDFLKDCKIPVANVGIGPVYKRDVMQCGIMLEKAPDYAVMLCFDVKVDKEAQQYADENGIKIFTADIIYHLFDQFTKHMQEQLEKKKEESKMLAVFPCVLNPVAVFNKTNPIVVGVDVVDGQLKLNTPIAAVKMNPTTGQKEIISLGRVTGIERDHKPLQVCKKGQPAVAIKIEMGGHQPAYGRHLDEKDVLYSHISRASIDVLKQFYRDVVTTDEWQLIIKLKSVFDVQ 4n3o-a1-m1-cB_4n3o-a1-m1-cA 2.4 Angstrom Resolution Crystal Structure of Putative Sugar Kinase from Campylobacter jejuni. Q0P8I9 Q0P8I9 2.4 X-RAY DIFFRACTION 83 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 309 323 SNAKTIRTQTPLRLGLAGGGTDINLYCDKYTGYVLNATISLYIHCTLIKREDGKIIFDSPDTNSYCEYESKEFLGNDGKLDIFKSIYNRIVKDFTKKPLSFSLHTYSDVPSGSGLGGSSTLVVGVIKAFAEWLNLPLGEYEIAKLAYEIEREDLGIVGGAQDQYAATFGGFNFEFYNNKRVIVNPLRIKNWIASELEARTVLYFTNITSLEAHAIKQDAIKKEALFRADFGTLAQILGKSWRNDELERIYKLAIDNGAYSGKTSGAGAGGFFFFVDPTKKYNLIKALRKEQGYVQDFSFTKEGVKSWRI SNAKTIRTQTPLRLGLAGGGTDINLYCDKYTGYVLNATISLYIHCTLIKREDGKIIFDSPDTNSYCEYESKEFLGNDGKLDIFKSIYNRIVKDFTKKPLSFSLHTYSDVPSGSGLGGSSTLVVGVIKAFAEWLNLPLGEYEIAKLAYEIEREDLGIVGGAQDQYAATFGGFNFEFYNNKRVIVNPLRIKNWIASELEARTVLYFTNITREAKSLEAHAIKQDAIKKEALFRADFGTLAQILGKSWRSKKIISEIVSNDELERIYKLAIDNGAYSGKTSGAGAGGFFFFVDPTKKYNLIKALRKEQGYVQDFSFTKEGVKSWRI 4n3p-a3-m2-cA_4n3p-a3-m1-cB Crystal Structure of De Novo designed Serine Hydrolase OSH18, Northeast Structural Genomics Consortium (NESG) Target OR396 2.501 X-RAY DIFFRACTION 50 0.99 32630 (synthetic construct) 32630 (synthetic construct) 410 411 KLKTNIRHLHGIIRVPGDSSISVLSIIFGSLAEGETKVYDILRGEDVLSTQVFRDLGVEIEDKDGVITVQGVGAGLKAPQNALNGNSGASIVAISGVLAGADFEVEFGDDSLSKRPDRVTLPLKKGVSISGQTERDLPPLRLKGTKNLRPIHYELPIASNSVKSALFAALQAKGESVIIEKEYTSNHTEDLQQFGGHLSVDGKKITVQGPQKLTGQKVVVPGDISSAAFWLVAGLIAPNSRLVLQNVGIEETLTGIIDVIRAGGKLEITEIDPVAKSATLIVESSDLKGTEICGALIPRLIDELPIIALLATQAQGVTVIKDAEELKVKETDRIQVVADALNSGADITPTADGIIKGKSALHGARVNTFGDHRIGTAIAALLVADGEVELDRAEAIPSFFDDLESLIHGL KLKTNIRHLHGIIRVPGDSSISVLSIIFGSLAEGETKVYDILRGEDVLSTQVFRDLGVEIEDKDGVITVQGVGAGLKAPQNALNGNSGASIVAISGVLAGADFEVEFGDDSLSKRPDRVTLPLKKGVSISGQTERDLPPLRLKGTKNLRPIHYELPIASNSVKSALFAALQAKGESVIIEKEYTSNHTEDLQQFGGHLSVDGKKITVQGPQKLTGQKVVVPGDISSAAFWLVAGLIAPNSRLVLQNVGIEETLTGIIDVIRAGGKLEITEIDPVAKSATLIVESSDLKGTEICGALIPRLIDELPIIALLATQAQGVTVIKDAEEETDRIQVVADALNSGADITPTADGIIKGKSALHGARVNTFGDHRIGTAIAALLVADGEVELDRAEAINTSYPSFFDDLESLIHGLE 4n3v-a2-m4-cB_4n3v-a2-m5-cB Crystal structure of a bile-acid 7-alpha dehydratase (CLOHIR_00079) from Clostridium hiranonis DSM 13275 at 1.89 A resolution with product added Q9RB47 Q9RB47 1.89 X-RAY DIFFRACTION 81 1.0 500633 (Peptacetobacter hiranonis DSM 13275) 500633 (Peptacetobacter hiranonis DSM 13275) 167 167 4l8p-a1-m1-cA_4l8p-a1-m2-cA 4l8p-a1-m1-cA_4l8p-a1-m3-cA 4l8p-a1-m2-cA_4l8p-a1-m3-cA 4n3v-a1-m1-cA_4n3v-a1-m2-cA 4n3v-a1-m1-cA_4n3v-a1-m3-cA 4n3v-a1-m2-cA_4n3v-a1-m3-cA 4n3v-a2-m1-cB_4n3v-a2-m4-cB 4n3v-a2-m1-cB_4n3v-a2-m5-cB GMTLEARIEALEKEIQRLNDIEAIKQLKAKYFRCLDGKLWDELETTLSPNIETSYSDGKLVFHSPKEVTEYLAAAMPKEEISMHMGHTPEITIDSENTATGRWYLEDNLIFTDGKYKNVGINGGAFYTDKYEKIDGQWYIKETGYVRIFEEHFMRDPKIHITSNMHK GMTLEARIEALEKEIQRLNDIEAIKQLKAKYFRCLDGKLWDELETTLSPNIETSYSDGKLVFHSPKEVTEYLAAAMPKEEISMHMGHTPEITIDSENTATGRWYLEDNLIFTDGKYKNVGINGGAFYTDKYEKIDGQWYIKETGYVRIFEEHFMRDPKIHITSNMHK 4n3y-a1-m1-cB_4n3y-a1-m1-cC Crystal structure of Rabex-5CC and Rabaptin-5C21 complex Q15276 Q15276 2.2 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 83 ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS 4n3z-a1-m1-cB_4n3z-a1-m1-cC Crystal structure of Rabex-5delta and Rabaptin-5C21 complex Q15276 Q15276 3.1 X-RAY DIFFRACTION 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 83 TRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS TRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQSR 4n40-a2-m2-cA_4n40-a2-m3-cA Crystal structure of human Epithelial cell-transforming sequence 2 protein Q9H8V3 Q9H8V3 3.106 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 4n40-a2-m1-cA_4n40-a2-m2-cA 4n40-a2-m1-cA_4n40-a2-m3-cA EPQIETRVILVQEAGKQEELIKALKDIKVGFVKESVEEFEGLDSPEFENVFVVTDFQDSVFNDLYKADCRVIGPPVVLNCSQKGEPLPFSCRPLYCTSNLVLCFTGFRKKEELVRLVTLVHHGGVIRKDFNSKVTHLVANCTQGEKFRVAVSLGTPIKPEWIYKAWERRNEQDFYAAVDDFRNEFKVPPFQDCILSFLGFSDEEKTNEETEQGGKYLPLGDERCTHLVVEENIVKDLPFEPSKKLYVVKQEWFWGSIQDARAGETYLYEK EPQIETRVILVQEAGKQEELIKALKDIKVGFVKESVEEFEGLDSPEFENVFVVTDFQDSVFNDLYKADCRVIGPPVVLNCSQKGEPLPFSCRPLYCTSNLVLCFTGFRKKEELVRLVTLVHHGGVIRKDFNSKVTHLVANCTQGEKFRVAVSLGTPIKPEWIYKAWERRNEQDFYAAVDDFRNEFKVPPFQDCILSFLGFSDEEKTNEETEQGGKYLPLGDERCTHLVVEENIVKDLPFEPSKKLYVVKQEWFWGSIQDARAGETYLYEK 4n4a-a2-m1-cA_4n4a-a2-m2-cA Cystal structure of Cap-specific mRNA (nucleoside-2'-O-)-methyltransferase 1 Q8N1G2 Q8N1G2 2.35 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 398 398 NVDWRDEPEPSACEQVSWFPECTTEIPDTQEMSDWMVVGKRKMIIEDETEFCGEELLHSVLQCKSVFDVLDGEEMRRARTRANPYEMIRGVFFLNRAAMKMANMDFVFDRMFTNPRDSYGKPLVKDREAELLYFADVCAGPGGFSEYVLWRKKWHAKGFGMTLKGPNDFKLEDFYSASSELFEPYYGDITRPENISAFRNFVLDNTDRKGVHFLMADGGFSVEGQENLQEILSKQLLLCQFLMALSIVRTGGHFICKTFDLFTPFSVGLVYLLYCCFERVCLFKPITSRPANSERYVVCKGLKVGIDDVRDYLFAVNIKLNQLRNTDSDVNLVVPLEVIKGDHEFTDYMIRSNESHCSLQIKALAKIHAFVQDTTLSEPRQAEIRKECLRLWGIPDQA NVDWRDEPEPSACEQVSWFPECTTEIPDTQEMSDWMVVGKRKMIIEDETEFCGEELLHSVLQCKSVFDVLDGEEMRRARTRANPYEMIRGVFFLNRAAMKMANMDFVFDRMFTNPRDSYGKPLVKDREAELLYFADVCAGPGGFSEYVLWRKKWHAKGFGMTLKGPNDFKLEDFYSASSELFEPYYGDITRPENISAFRNFVLDNTDRKGVHFLMADGGFSVEGQENLQEILSKQLLLCQFLMALSIVRTGGHFICKTFDLFTPFSVGLVYLLYCCFERVCLFKPITSRPANSERYVVCKGLKVGIDDVRDYLFAVNIKLNQLRNTDSDVNLVVPLEVIKGDHEFTDYMIRSNESHCSLQIKALAKIHAFVQDTTLSEPRQAEIRKECLRLWGIPDQA 4n4c-a1-m1-cA_4n4c-a1-m1-cB Crystal structure of the C-terminal swapped dimer of a Bovine seminal ribonuclease mutant P00669 P00669 2.48 X-RAY DIFFRACTION 147 1.0 9913 (Bos taurus) 9913 (Bos taurus) 122 122 KESAAAKFERQHMDSSTSAASSSNYCNLMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV KESAAAKFERQHMDSSTSAASSSNYCNLMMRKMTQGKCKPVNTFVHESLADVKAVCSQKKVTCKNGQTNCYQSKSTMRITDCRETGSSKYPNCAYKTTQVEKHIIVACGGKPSVPVHFDASV 4n4p-a1-m1-cC_4n4p-a1-m1-cA Crystal Structure of N-acetylneuraminate lyase from Mycoplasma synoviae, crystal form I Q4A6K4 Q4A6K4 1.8 X-RAY DIFFRACTION 58 0.997 262723 (Mycoplasmopsis synoviae 53) 262723 (Mycoplasmopsis synoviae 53) 289 290 4n4p-a1-m1-cD_4n4p-a1-m1-cB 4n4q-a1-m1-cC_4n4q-a1-m1-cA 4n4q-a1-m1-cD_4n4q-a1-m1-cB NFDKFKGLFPAMVTPFTKDGKLHKAGVKEVVNFLVEKQKVDGIYITGSTGEFLLLSFEDKKEVMKLVAEANAGRVTLIAQIGSLNIEETKELAKLAKELKYDAISAITPYYYNFSFNETHHYYEEISKAADIPMLIYYLPQVSTDQFGKLLEIKNVIGSKYGATDLFAFERLMSKYPDKLFMFAWDEALAMGLTMGAKGFIGSTYNVNAKGANAIIKAWEANDKEAVMKLTHTYNDYVLDLISKGLMQSLKAIMRLHGVDAGYTRKPFWRYEDEEIKKHAEFITDKYLK MHNFDKFKGLFPAMVTPFTKDGKLHKAGVKEVVNFLVEKQKVDGIYITGSTGEFLLLSFEDKKEVMKLVAEANAGRVTLIAQIGSLNIEETKELAKLAKELKYDAISAITPYYYNFSFNETHHYYEEISKAADIPMLIYYLPVSTDQFGKLLEIKNVIGSKYGATDLFAFERLMSKYPDKLFMFAWDEALAMGLTMGAKGFIGSTYNVNAKGANAIIKAWEANDKEAVMKLTHTYNDYVLDLISKGLMQSLKAIMRLHGVDAGYTRKPFWRYEDEEIKKHAEFITDKYLK 4n4p-a1-m1-cD_4n4p-a1-m1-cC Crystal Structure of N-acetylneuraminate lyase from Mycoplasma synoviae, crystal form I Q4A6K4 Q4A6K4 1.8 X-RAY DIFFRACTION 67 1.0 262723 (Mycoplasmopsis synoviae 53) 262723 (Mycoplasmopsis synoviae 53) 288 289 4n4p-a1-m1-cA_4n4p-a1-m1-cB 4n4q-a1-m1-cA_4n4q-a1-m1-cB 4n4q-a1-m1-cC_4n4q-a1-m1-cD NFDKFKGLFPAMVTPFTKDGKLHKAGVKEVVNFLVEKQKVDGIYITGSTGEFLLLSFEDKKEVMKLVAEANAGRVTLIAQIGSLNIEETKELAKLAKELKYDAISAITPYYYNFSFNETHHYYEEISKAADIPMLIYYLPVSTDQFGKLLEIKNVIGSKYGATDLFAFERLMSKYPDKLFMFAWDEALAMGLTMGAKGFIGSTYNVNAKGANAIIKAWEANDKEAVMKLTHTYNDYVLDLISKGLMQSLKAIMRLHGVDAGYTRKPFWRYEDEEIKKHAEFITDKYLK NFDKFKGLFPAMVTPFTKDGKLHKAGVKEVVNFLVEKQKVDGIYITGSTGEFLLLSFEDKKEVMKLVAEANAGRVTLIAQIGSLNIEETKELAKLAKELKYDAISAITPYYYNFSFNETHHYYEEISKAADIPMLIYYLPQVSTDQFGKLLEIKNVIGSKYGATDLFAFERLMSKYPDKLFMFAWDEALAMGLTMGAKGFIGSTYNVNAKGANAIIKAWEANDKEAVMKLTHTYNDYVLDLISKGLMQSLKAIMRLHGVDAGYTRKPFWRYEDEEIKKHAEFITDKYLK 4n58-a4-m1-cB_4n58-a4-m3-cB Crystal Structure of Pectocin M2 at 1.86 Angstroms A0A067XG75 A0A067XG75 1.86 X-RAY DIFFRACTION 65 1.0 558269 (Pectobacterium brasiliense PBR1692) 558269 (Pectobacterium brasiliense PBR1692) 266 266 4n58-a3-m1-cA_4n58-a3-m2-cA TYKVKDVTTGAEIEVPDDKYILDEFEKQGVNLPYSCRAGACSSCVALISSGEVDQSDGSFLSEKQEKKYILTCCSYPKSDCTIETGYEDKILEDFEIELAETGLEFFNLPRSGEILSGVTAPFEAFDHYLFGNGVERSININDVGFNINVSQIPPIMSLLNGKNVGRFDIGSDFVRNTALDGYSVAAYLGNITMRTEGVLNVKSDGTWQYEGVIRSYNDTYDANPSTHRGALGEWATGVLNNLSGTPYEIRIPGELKIKENGKKLE TYKVKDVTTGAEIEVPDDKYILDEFEKQGVNLPYSCRAGACSSCVALISSGEVDQSDGSFLSEKQEKKYILTCCSYPKSDCTIETGYEDKILEDFEIELAETGLEFFNLPRSGEILSGVTAPFEAFDHYLFGNGVERSININDVGFNINVSQIPPIMSLLNGKNVGRFDIGSDFVRNTALDGYSVAAYLGNITMRTEGVLNVKSDGTWQYEGVIRSYNDTYDANPSTHRGALGEWATGVLNNLSGTPYEIRIPGELKIKENGKKLE 4n5f-a2-m1-cB_4n5f-a2-m2-cB Crystal Structure of a Putative acyl-CoA dehydrogenase with bound FADH2 from Burkholderia cenocepacia J2315 B4EGC8 B4EGC8 2.2 X-RAY DIFFRACTION 73 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 369 369 4n5f-a1-m1-cA_4n5f-a1-m2-cA HMDELYTEDQRMIRDAARAFATEMLAPNAAQWDHDAHLPDAIVAQLGELGLLGMIVPQELGGSYTDYVAYALAMEEVAAGDAACATMMSVHNSVGCGPILGFGTPAQKDRWLADMAAGRVIGAFCLTEPHLRTRAELRDWVLNGAKQFVTNGQRAGVAIVFAMTDPEAGKRGISAFLVPTDTPGFIVGKPEKKMGIRASDTCPITFENCAIPEDNLLGNRGEGLKIALSNLEGGRIGIAAQALGIARAAFDKARRYAGERVQFGKPIAEHQAIQQKLADMAVQINAARLLVHHAAKLRTAGLPCLSEASQAKLFASEMAERVCSDAIQIHGGYGYLVDYEVERHYRDARITQIYEGTSEVQRMVIARQL HMDELYTEDQRMIRDAARAFATEMLAPNAAQWDHDAHLPDAIVAQLGELGLLGMIVPQELGGSYTDYVAYALAMEEVAAGDAACATMMSVHNSVGCGPILGFGTPAQKDRWLADMAAGRVIGAFCLTEPHLRTRAELRDWVLNGAKQFVTNGQRAGVAIVFAMTDPEAGKRGISAFLVPTDTPGFIVGKPEKKMGIRASDTCPITFENCAIPEDNLLGNRGEGLKIALSNLEGGRIGIAAQALGIARAAFDKARRYAGERVQFGKPIAEHQAIQQKLADMAVQINAARLLVHHAAKLRTAGLPCLSEASQAKLFASEMAERVCSDAIQIHGGYGYLVDYEVERHYRDARITQIYEGTSEVQRMVIARQL 4n5h-a1-m2-cX_4n5h-a1-m4-cX Crystal structure of ESTERASE B from Lactobacillus Rhamnosis (HN001) 1.71 X-RAY DIFFRACTION 41 1.0 568704 (Lacticaseibacillus rhamnosus Lc 705) 568704 (Lacticaseibacillus rhamnosus Lc 705) 315 315 4n5h-a1-m1-cX_4n5h-a1-m3-cX 4n5h-a1-m1-cX_4n5h-a1-m4-cX 4n5h-a1-m2-cX_4n5h-a1-m3-cX MADEEAMLAKVQASWAQTAARDKARYADERVPEDVHWETEYRYEQSADPQQTLNLYYPAKRRNATMPTVIDIHGGGWFYGDRNLNRNYCRYLASQGYAVMGMGYRLLPDVDLRGQIQDIFASLRWLSHFGPQRGFDLDHVLLTGDSAGGHLASLVACIQQSAELQELFGVSRVNFNFTLVALVCPVAEPSKLPEAAGDMSDMAAFYLDKLSGGDQALVDHLNFSQVVKGLDLPPFMLIGGQNDSFYLQSQALLKVFDANHVTYTTKLWPASAGPHLKHVFNVQHWEWPESIETNLEMLRTFDALSKQQDQAEENE MADEEAMLAKVQASWAQTAARDKARYADERVPEDVHWETEYRYEQSADPQQTLNLYYPAKRRNATMPTVIDIHGGGWFYGDRNLNRNYCRYLASQGYAVMGMGYRLLPDVDLRGQIQDIFASLRWLSHFGPQRGFDLDHVLLTGDSAGGHLASLVACIQQSAELQELFGVSRVNFNFTLVALVCPVAEPSKLPEAAGDMSDMAAFYLDKLSGGDQALVDHLNFSQVVKGLDLPPFMLIGGQNDSFYLQSQALLKVFDANHVTYTTKLWPASAGPHLKHVFNVQHWEWPESIETNLEMLRTFDALSKQQDQAEENE 4n5l-a1-m1-cA_4n5l-a1-m2-cB Crystal structure of (R)-3-hydroxybutyryl-CoA dehydrogenase from Ralstonia eutropha P14697 P14697 1.65 X-RAY DIFFRACTION 15 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 244 244 3vzp-a1-m1-cA_3vzp-a1-m1-cB 3vzp-a1-m1-cC_3vzp-a1-m1-cD 3vzq-a1-m1-cA_3vzq-a1-m2-cA 3vzq-a1-m1-cB_3vzq-a1-m2-cB 3vzr-a1-m1-cA_3vzr-a1-m2-cA 3vzr-a1-m1-cB_3vzr-a1-m2-cB 3vzs-a1-m1-cA_3vzs-a1-m1-cB 3vzs-a1-m1-cC_3vzs-a1-m1-cD 4n5l-a1-m1-cB_4n5l-a1-m2-cA 4n5m-a1-m1-cA_4n5m-a1-m2-cA 4n5m-a1-m1-cB_4n5m-a1-m2-cB 4n5n-a1-m1-cA_4n5n-a1-m2-cB 4n5n-a1-m1-cB_4n5n-a1-m2-cA QRIAYVTGGMGGIGTAICQRLAKDGFRVVAGCGPNSPRREKWLEQQKALGFDFIASEGNVADWDSTKTAFDKVKSEVGEVDVLINNAGITRDVVFRKMTRADWDAVIDTNLTSLFNVTKQVIDGMADRGWGRIVNISSVNGQKGQFGQTNYSTAKAGLHGFTMALAQEVATKGVTVNTVSPGYIATDMVKAIRQDVLDKIVATIPVKRLGLPEEIASICAWLSSEESGFSTGADFSLNGGLHMG QRIAYVTGGMGGIGTAICQRLAKDGFRVVAGCGPNSPRREKWLEQQKALGFDFIASEGNVADWDSTKTAFDKVKSEVGEVDVLINNAGITRDVVFRKMTRADWDAVIDTNLTSLFNVTKQVIDGMADRGWGRIVNISSVNGQKGQFGQTNYSTAKAGLHGFTMALAQEVATKGVTVNTVSPGYIATDMVKAIRQDVLDKIVATIPVKRLGLPEEIASICAWLSSEESGFSTGADFSLNGGLHMG 4n5l-a1-m2-cA_4n5l-a1-m2-cB Crystal structure of (R)-3-hydroxybutyryl-CoA dehydrogenase from Ralstonia eutropha P14697 P14697 1.65 X-RAY DIFFRACTION 133 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 244 244 3vzp-a1-m1-cA_3vzp-a1-m1-cD 3vzp-a1-m1-cC_3vzp-a1-m1-cB 3vzq-a1-m1-cA_3vzq-a1-m1-cB 3vzq-a1-m2-cA_3vzq-a1-m2-cB 3vzr-a1-m1-cA_3vzr-a1-m2-cB 3vzr-a1-m1-cB_3vzr-a1-m2-cA 3vzs-a1-m1-cA_3vzs-a1-m1-cD 3vzs-a1-m1-cC_3vzs-a1-m1-cB 4n5l-a1-m1-cA_4n5l-a1-m1-cB 4n5m-a1-m1-cA_4n5m-a1-m1-cB 4n5m-a1-m2-cA_4n5m-a1-m2-cB 4n5n-a1-m1-cA_4n5n-a1-m1-cB 4n5n-a1-m2-cA_4n5n-a1-m2-cB QRIAYVTGGMGGIGTAICQRLAKDGFRVVAGCGPNSPRREKWLEQQKALGFDFIASEGNVADWDSTKTAFDKVKSEVGEVDVLINNAGITRDVVFRKMTRADWDAVIDTNLTSLFNVTKQVIDGMADRGWGRIVNISSVNGQKGQFGQTNYSTAKAGLHGFTMALAQEVATKGVTVNTVSPGYIATDMVKAIRQDVLDKIVATIPVKRLGLPEEIASICAWLSSEESGFSTGADFSLNGGLHMG QRIAYVTGGMGGIGTAICQRLAKDGFRVVAGCGPNSPRREKWLEQQKALGFDFIASEGNVADWDSTKTAFDKVKSEVGEVDVLINNAGITRDVVFRKMTRADWDAVIDTNLTSLFNVTKQVIDGMADRGWGRIVNISSVNGQKGQFGQTNYSTAKAGLHGFTMALAQEVATKGVTVNTVSPGYIATDMVKAIRQDVLDKIVATIPVKRLGLPEEIASICAWLSSEESGFSTGADFSLNGGLHMG 4n5n-a1-m1-cA_4n5n-a1-m2-cA Crystal structure of (R)-3-hydroxybutyryl-CoA dehydrogenase from Ralstonia eutropha in complexed with NADP P14697 P14697 1.9 X-RAY DIFFRACTION 120 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 244 244 3vzp-a1-m1-cB_3vzp-a1-m1-cD 3vzp-a1-m1-cC_3vzp-a1-m1-cA 3vzq-a1-m1-cA_3vzq-a1-m2-cB 3vzq-a1-m1-cB_3vzq-a1-m2-cA 3vzr-a1-m1-cA_3vzr-a1-m1-cB 3vzr-a1-m2-cA_3vzr-a1-m2-cB 3vzs-a1-m1-cA_3vzs-a1-m1-cC 3vzs-a1-m1-cB_3vzs-a1-m1-cD 4n5l-a1-m1-cA_4n5l-a1-m2-cA 4n5l-a1-m1-cB_4n5l-a1-m2-cB 4n5m-a1-m1-cA_4n5m-a1-m2-cB 4n5m-a1-m1-cB_4n5m-a1-m2-cA 4n5n-a1-m1-cB_4n5n-a1-m2-cB QRIAYVTGGMGGIGTAICQRLAKDGFRVVAGCGPNSPRREKWLEQQKALGFDFIASEGNVADWDSTKTAFDKVKSEVGEVDVLINNAGITRDVVFRKMTRADWDAVIDTNLTSLFNVTKQVIDGMADRGWGRIVNISSVNGQKGQFGQTNYSTAKAGLHGFTMALAQEVATKGVTVNTVSPGYIATDMVKAIRQDVLDKIVATIPVKRLGLPEEIASICAWLSSEESGFSTGADFSLNGGLHMG QRIAYVTGGMGGIGTAICQRLAKDGFRVVAGCGPNSPRREKWLEQQKALGFDFIASEGNVADWDSTKTAFDKVKSEVGEVDVLINNAGITRDVVFRKMTRADWDAVIDTNLTSLFNVTKQVIDGMADRGWGRIVNISSVNGQKGQFGQTNYSTAKAGLHGFTMALAQEVATKGVTVNTVSPGYIATDMVKAIRQDVLDKIVATIPVKRLGLPEEIASICAWLSSEESGFSTGADFSLNGGLHMG 4n6f-a1-m1-cA_4n6f-a1-m1-cB Crystal structure of Amycolatopsis orientalis BexX complexed with G6P D7RFL7 D7RFL7 2.25 X-RAY DIFFRACTION 147 0.996 797057 (Amycolatopsis orientalis subsp. vinearia) 797057 (Amycolatopsis orientalis subsp. vinearia) 242 242 4n6e-a1-m1-cA_4n6e-a1-m2-cA DEPWLKIGAREFRSRILVGIEQYDSVPLVRDVLNAAGADVFITTVDPDNRRSSLLLMDLADELPLDDFTWIGTTSFARTKESALRSARILRDSLGIEILKLDVRGDDNTPDNAGTVEAARELRAEGMELLPFILPDLATARALEEAGCAALRVMASPVASGRGIANPAAIRELIEQIGIPVVVEGGIGSARHVAEAMELGASATLVNTALVRAESPLLMAAAMRQAALAGLLSYESGPMPEV EPWLKIGAREFRSRILVGIEQYDSVPLVRDVLNAAGADVFITTVDPDNRRSSLLLMDLADELPLDDFTWIGTTSFARTKESALRSARILRDSLGIEILKLDVRGDDNTPDNAGTVEAARELRAEGMELLPFILPDLATARALEEAGCAALRVMASPVASGRGIANPAAIRELIEQIGIPVVVEGGIGSARHVAEAMELGASATLVNTALVRAESPLLMAAAMRQAALAGLLSYESGPMPEVA 4n6j-a1-m1-cB_4n6j-a1-m1-cA Crystal structure of human Striatin-3 coiled coil domain Q13033 Q13033 2.001 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 45 DWEVERAELQARIALQGERKGQENLKKDLVRRIKLEALKQERA STDWEVERAELQARIALQGERKGQENLKKDLVRRIKLEALKQERA 4n6q-a1-m1-cA_4n6q-a1-m2-cA Crystal structure of VosA velvet domain Q5BBX1 Q5BBX1 1.79 X-RAY DIFFRACTION 79 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 178 178 DPSLPRPSTSDDFELIVRQNPNRARVAGGKEKERKPVDPPPIVQIRVREEGTYLAQHYLQSPYFFMSCSLYDAQEDAPASIPPSTALTGTLVSSLHRLKDVDNTDGGFFVWGDLSIKVEGDFRLKFSLFEMRKTDVVFLKSIVSERFTVSPPKSFPGMAESTFLSRSFADQGVKLRIR DPSLPRPSTSDDFELIVRQNPNRARVAGGKEKERKPVDPPPIVQIRVREEGTYLAQHYLQSPYFFMSCSLYDAQEDAPASIPPSTALTGTLVSSLHRLKDVDNTDGGFFVWGDLSIKVEGDFRLKFSLFEMRKTDVVFLKSIVSERFTVSPPKSFPGMAESTFLSRSFADQGVKLRIR 4n7c-a2-m1-cA_4n7c-a2-m2-cA Structural re-examination of native Bla g 4 B7TYB2 B7TYB2 1.75 X-RAY DIFFRACTION 76 1.0 6973 (Blattella germanica) 6973 (Blattella germanica) 174 174 3ebk-a3-m2-cB_3ebk-a3-m1-cA 4n7d-a2-m1-cA_4n7d-a2-m2-cA DTLANEDCFRHESLVPNLDYERFRGSWIIAAGTSEALTQYKCWIDRFSYDDALVSKYTDSQGKNRTTIRGRTKFEGNKFTIDYNDKGKAFSAPYSVLATDYENYAIVEGCPAAANGHVIYVQLRMTLRRFHPKLGDKEMLQHYTLDQVNQNKKAIEEDLKHFNLKYEDLHSTCH DTLANEDCFRHESLVPNLDYERFRGSWIIAAGTSEALTQYKCWIDRFSYDDALVSKYTDSQGKNRTTIRGRTKFEGNKFTIDYNDKGKAFSAPYSVLATDYENYAIVEGCPAAANGHVIYVQLRMTLRRFHPKLGDKEMLQHYTLDQVNQNKKAIEEDLKHFNLKYEDLHSTCH 4n7u-a2-m1-cA_4n7u-a2-m2-cA Crystal Structure of Intracellular B30.2 Domain of BTN3A1 in Complex with CHDMAPP O00481 O00481 1.4598 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 186 4n7i-a2-m1-cA_4n7i-a2-m2-cA 4v1p-a1-m1-cA_4v1p-a1-m2-cA GAYNEWKKALFKPADVILDPKTADPILLVSEDQRSVERAKEPQDLPDNPERFNWHYCVLGCESFISGRHYWEVEVGDRKEWHIGVCSKNVQRKGWVKMTPENGFWTMGLTDGNKYRTLTEPRTNLKLPKPPKKVGVFLDYETGDISFYNAVDGSHIHTFLDVSFSEALYPVFRILTLEPTALTICP GAYNEWKKALFKPADVILDPKTADPILLVSEDQRSVERAKEPQDLPDNPERFNWHYCVLGCESFISGRHYWEVEVGDRKEWHIGVCSKNVQRKGWVKMTPENGFWTMGLTDGNKYRTLTEPRTNLKLPKPPKKVGVFLDYETGDISFYNAVDGSHIHTFLDVSFSEALYPVFRILTLEPTALTICP 4n7w-a3-m1-cB_4n7w-a3-m1-cA Crystal Structure of the sodium bile acid symporter from Yersinia frederiksenii 1.951 X-RAY DIFFRACTION 31 1.0 29484 (Yersinia frederiksenii) 29484 (Yersinia frederiksenii) 304 307 VKITRLFPVWALLLSVAAYFRPTTFTGIGPYVGPLLMLIMFAMGVTLRLDDFKRVLSRPAPVAAATFLHYLIMPLTAWILAMLFRMPPDLSAGMVLVGSVASGTASNVMIYLAKGDVALSVTISAVSTLVGVFATPLLTRLYVDATISVDVVGMLKSILQIVVIPITAGLVIHHTFTKTVKRIEPYLPAMSMVCILAIISAVVAGSQSHIASVGFVVIIAVILHNGIGLLSGYWGGKLFGFDESTCRTLAIEVGMQNSGLAATLGKIYFSPLAALPGALFSVWHNLSGSLLAGYWSGKPVKKDQ MLVKITRLFPVWALLLSVAAYFRPTTFTGIGPYVGPLLMLIMFAMGVTLRLDDFKRVLSRPAPVAAATFLHYLIMPLTAWILAMLFRMPPDLSAGMVLVGSVASGTASNVMIYLAKGDVALSVTISAVSTLVGVFATPLLTRLYVDATISVDVVGMLKSILQIVVIPITAGLVIHHTFTKTVKRIEPYLPAMSMVCILAIISAVVAGSQSHIASVGFVVIIAVILHNGIGLLSGYWGGKLFGFDESTCRTLAIEVGMQNSGLAATLGKIYFSPLAALPGALFSVWHNLSGSLLAGYWSGKPVKKDQE 4n81-a1-m1-cA_4n81-a1-m2-cA Another flexible region at the active site of an inositol monophosphatase from Zymomonas mobilis Q5NMB8 Q5NMB8 1.901 X-RAY DIFFRACTION 68 1.0 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 253 253 RSAYEDDIRLAHRLADVAADIIRPFFRAPLTIDLKADHSPVTKADRGAEQAMRAILEQERPEDGIFGESRPDARRLWVLDPIDGTRAFIGGRASFGTLIALVEDGRPVLGIINQPIHQERWVGVKDLPTSFNGEVIHTRSCPALDHALLATTSPWLFEKEGEVHFDKIRLKCRDTLLGGDCYNYGLLSLGHCDLVVEQGLKFYDFAALVPIVEGAGGIMRDWQNRPLNKNSVGEVIAAGDHHLIEPALSAMEL RSAYEDDIRLAHRLADVAADIIRPFFRAPLTIDLKADHSPVTKADRGAEQAMRAILEQERPEDGIFGESRPDARRLWVLDPIDGTRAFIGGRASFGTLIALVEDGRPVLGIINQPIHQERWVGVKDLPTSFNGEVIHTRSCPALDHALLATTSPWLFEKEGEVHFDKIRLKCRDTLLGGDCYNYGLLSLGHCDLVVEQGLKFYDFAALVPIVEGAGGIMRDWQNRPLNKNSVGEVIAAGDHHLIEPALSAMEL 4n83-a4-m1-cE_4n83-a4-m1-cF X-ray crystal structure of Streptococcus sanguinis dimanganese(II)-NrdF A3CLZ4 A3CLZ4 2.65 X-RAY DIFFRACTION 143 1.0 388919 (Streptococcus sanguinis SK36) 388919 (Streptococcus sanguinis SK36) 284 284 4n83-a1-m1-cG_4n83-a1-m1-cA 4n83-a2-m1-cH_4n83-a2-m1-cB 4n83-a3-m1-cC_4n83-a3-m1-cD TYYKAINWNAIEDVIDKSTWEKLTEQFWLDTRIPLSNDLDDWRKLSHKEKDLVGKVFGGLTLLDTLQSESGVDALRKDVRTAHEEAVFNNIQFMESVHAKSYSSIFSTLNTKSEIDEIFAWTNTNPYLQKKAEIINEIYLNGTALEKKIASVFLETFLFYSGFFTPLYYLGNNKLANVAEIIKLIIRDESVHGTYIGYKFQLAFNELPEDEQEKLKEWMYDLLYTLYENEEGYTESLYDTVGWTEEVKTFLRYNANKALMNLGQDPLFPDSADDVNPIVMNGIS TYYKAINWNAIEDVIDKSTWEKLTEQFWLDTRIPLSNDLDDWRKLSHKEKDLVGKVFGGLTLLDTLQSESGVDALRKDVRTAHEEAVFNNIQFMESVHAKSYSSIFSTLNTKSEIDEIFAWTNTNPYLQKKAEIINEIYLNGTALEKKIASVFLETFLFYSGFFTPLYYLGNNKLANVAEIIKLIIRDESVHGTYIGYKFQLAFNELPEDEQEKLKEWMYDLLYTLYENEEGYTESLYDTVGWTEEVKTFLRYNANKALMNLGQDPLFPDSADDVNPIVMNGIS 4n88-a1-m1-cA_4n88-a1-m1-cC Crystal structure of Tse3-Tsi3 complex with calcium ion Q9HYC5 Q9HYC5 2.8 X-RAY DIFFRACTION 18 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 401 401 TATSDLIESLISYSWDDWQVTRQEARRVIAAIRNDNVPDATIAALDKSGSLIKLFQRVGPPELARSLIASIAGRTTMQRYQARNALIRSLINNPLGTQTDNWIYFPTITFFDICADLADAAGRLGFAAAGATGVASQAIQGPFSGVGATGVNPTDLPSIAFGDQLKLLNKDPATVTKYSNPLGDLGAYLSQLSPQDKLNQAQTLVGQPISTLFPDAYPGNPPSRAKVMSAAARKYDLTPQLIGAIILAEQRDQTRDEDAKDYQAAVSIKSANTSIGLGQVVVSTAIKYELFTDLLGQPVRRGLSRKAVATLLASDEFNIFATARYIRYVANLASQQDLRKLPKTRGAFPSIDLRAYAGNPRNWPRDNVRALASEYTSRPWDDNLSPGWPMFVDDAYATFLD TATSDLIESLISYSWDDWQVTRQEARRVIAAIRNDNVPDATIAALDKSGSLIKLFQRVGPPELARSLIASIAGRTTMQRYQARNALIRSLINNPLGTQTDNWIYFPTITFFDICADLADAAGRLGFAAAGATGVASQAIQGPFSGVGATGVNPTDLPSIAFGDQLKLLNKDPATVTKYSNPLGDLGAYLSQLSPQDKLNQAQTLVGQPISTLFPDAYPGNPPSRAKVMSAAARKYDLTPQLIGAIILAEQRDQTRDEDAKDYQAAVSIKSANTSIGLGQVVVSTAIKYELFTDLLGQPVRRGLSRKAVATLLASDEFNIFATARYIRYVANLASQQDLRKLPKTRGAFPSIDLRAYAGNPRNWPRDNVRALASEYTSRPWDDNLSPGWPMFVDDAYATFLD 4n8g-a1-m1-cD_4n8g-a1-m1-cB Crystal structure of a TRAP periplasmic solute binding protein from Chromohalobacter salexigens DSM 3043 (Csal_0660), Target EFI-501075, with bound D-alanine-D-alanine Q1QZT7 Q1QZT7 1.502 X-RAY DIFFRACTION 42 1.0 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 303 312 4n8g-a1-m1-cC_4n8g-a1-m1-cA ATTLNLSYNGPPDTDKNAVHLFASNLKRLVEEKTDGDIQLKLYPNSLGEEQEREQVINTPSLNIASFAGLSPIVPEIYVSAIPFLFEDYEAAHQFFDEGDYWNKVEDTLEERTGAELLGVIEEGGFLDFTNSKRPISSPEDFEGLRFRADPSQVALYEAFGASGTPIPWTDTYALKTNVADGQNPPYIIGSLYEVQKYLTLANVQYSDQFLIANGEWYDDLSEENRQAIEAAVQEASELNREDVEKRVDERIQFLADQGEVIEPTEDELAAFREKGQPAYIEWLTDEQGIDRAWIEALEDAGQ ATTLNLSYNGPPDTDKNAVHLFASNLKRLVEEKTDGDIQLKLYPNSLGEEQEREQVINTPSLNIASFAGLSPIVPEIYVSAIPFLFEDYEAAHQFFDEGDYWNKVEDTLEERTGAELLGVIEEGGFLDFTNSKRPISSPEDFEGLRFRADPSQVALYEAFGASGTPIPWTDTYALKTNVADGQNPPYIIGSLYEVQKYLTLANVQYSDQFLIANGEWYDDLSEENRQAIEAAVQEASELNREDVEKRVDERIQFLADQGEVIEPTEDELAAFREKGQPAYIEWLTDEQGIDRAWIEALEDAGQSDLLANAEN 4n8g-a1-m1-cD_4n8g-a1-m1-cC Crystal structure of a TRAP periplasmic solute binding protein from Chromohalobacter salexigens DSM 3043 (Csal_0660), Target EFI-501075, with bound D-alanine-D-alanine Q1QZT7 Q1QZT7 1.502 X-RAY DIFFRACTION 81 1.0 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 303 307 4n8g-a1-m1-cB_4n8g-a1-m1-cA ATTLNLSYNGPPDTDKNAVHLFASNLKRLVEEKTDGDIQLKLYPNSLGEEQEREQVINTPSLNIASFAGLSPIVPEIYVSAIPFLFEDYEAAHQFFDEGDYWNKVEDTLEERTGAELLGVIEEGGFLDFTNSKRPISSPEDFEGLRFRADPSQVALYEAFGASGTPIPWTDTYALKTNVADGQNPPYIIGSLYEVQKYLTLANVQYSDQFLIANGEWYDDLSEENRQAIEAAVQEASELNREDVEKRVDERIQFLADQGEVIEPTEDELAAFREKGQPAYIEWLTDEQGIDRAWIEALEDAGQ ATTLNLSYNGPPDTDKNAVHLFASNLKRLVEEKTDGDIQLKLYPNSLGEEQEREQVINTPSLNIASFAGLSPIVPEIYVSAIPFLFEDYEAAHQFFDEGDYWNKVEDTLEERTGAELLGVIEEGGFLDFTNSKRPISSPEDFEGLRFRADPSQVALYEAFGASGTPIPWTDTYALKTNVADGQNPPYIIGSLYEVQKYLTLANVQYSDQFLIANGEWYDDLSEENRQAIEAAVQEASELNREDVEKRVDERIQFLADQGEVIEPTEDELAAFREKGQPAYIEWLTDEQGIDRAWIEALEDAGQSDLL 4n8o-a1-m1-cA_4n8o-a1-m2-cB Crystal structure of Mycobacterial FtsX extracellular domain, bromide derivative P9WG19 P9WG19 2.3 X-RAY DIFFRACTION 27 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 99 99 VESQVFLTEDVSANDSSCDTTACKALREKIETRSDVKAVRFLNRQQAYDDAIRKFPQFKDVAGKDSFPASFIVKLENPEQHKDFDTAMKGQPGVLDVLN VESQVFLTEDVSANDSSCDTTACKALREKIETRSDVKAVRFLNRQQAYDDAIRKFPQFKDVAGKDSFPASFIVKLENPEQHKDFDTAMKGQPGVLDVLN 4n8o-a2-m1-cA_4n8o-a2-m1-cB Crystal structure of Mycobacterial FtsX extracellular domain, bromide derivative P9WG19 P9WG19 2.3 X-RAY DIFFRACTION 57 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 99 99 VESQVFLTEDVSANDSSCDTTACKALREKIETRSDVKAVRFLNRQQAYDDAIRKFPQFKDVAGKDSFPASFIVKLENPEQHKDFDTAMKGQPGVLDVLN VESQVFLTEDVSANDSSCDTTACKALREKIETRSDVKAVRFLNRQQAYDDAIRKFPQFKDVAGKDSFPASFIVKLENPEQHKDFDTAMKGQPGVLDVLN 4n8p-a1-m1-cA_4n8p-a1-m2-cA Crystal structure of a strand swapped CTLA-4 from Duckbill Platypus [PSI-NYSGRC-012711] F6ZMI5 F6ZMI5 2.299 X-RAY DIFFRACTION 231 1.0 9258 (Ornithorhynchus anatinus) 9258 (Ornithorhynchus anatinus) 119 119 YGGPPALQVTQPRVVLASMKGVASLACEYEFTGKAKEIRVTLIRQTGNEFHEVCASSFTTEYEPFDIECHVQPSENNVTLTLMGLKATDTGLYVCRVELMYPPPYYMGLGNGTQIYVVE YGGPPALQVTQPRVVLASMKGVASLACEYEFTGKAKEIRVTLIRQTGNEFHEVCASSFTTEYEPFDIECHVQPSENNVTLTLMGLKATDTGLYVCRVELMYPPPYYMGLGNGTQIYVVE 4n8u-a1-m1-cA_4n8u-a1-m1-cC Two-Domain Laccase from Streptomyces viridochromogenes at 2.4 A resolution AC629 J9S5G3 J9S5G3 2.4 X-RAY DIFFRACTION 121 1.0 1938 (Streptomyces viridochromogenes) 1938 (Streptomyces viridochromogenes) 275 275 4n8u-a1-m1-cA_4n8u-a1-m1-cB 4n8u-a1-m1-cC_4n8u-a1-m1-cB RTAPAGGEVRHLKLYIEKLADGQLGYGFEKGRATIPGPLIELNEGDTAHIEVENTLDVPASLHVHGLDYEITSDGTKLNRSDVEPGGTRTYTWRTHAPGRRADGTWRAGSAGYWHYHDHVVGTEHGTGGIRKGLYGPVVVRRKGDVLPDATHTIVFNDMLINNQPAHSGPNFEATVGDRVEFVMITHGEYYHTFHMHGHRWADNRTGLLTGPDDPSQVIDNKIVGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGMVGLFLVKKKDGTIPGH RTAPAGGEVRHLKLYIEKLADGQLGYGFEKGRATIPGPLIELNEGDTAHIEVENTLDVPASLHVHGLDYEITSDGTKLNRSDVEPGGTRTYTWRTHAPGRRADGTWRAGSAGYWHYHDHVVGTEHGTGGIRKGLYGPVVVRRKGDVLPDATHTIVFNDMLINNQPAHSGPNFEATVGDRVEFVMITHGEYYHTFHMHGHRWADNRTGLLTGPDDPSQVIDNKIVGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGMVGLFLVKKKDGTIPGH 4n91-a2-m1-cA_4n91-a2-m2-cA Crystal structure of a trap periplasmic solute binding protein from anaerococcus prevotii dsm 20548 (Apre_1383), target EFI-510023, with bound alpha/beta d-glucuronate C7RDZ3 C7RDZ3 1.7 X-RAY DIFFRACTION 79 1.0 525919 (Anaerococcus prevotii DSM 20548) 525919 (Anaerococcus prevotii DSM 20548) 299 299 KTIIRVGHNQSQNHPTHLGLLAFEEYVEDKLGDKYDIQVYPSELLGSQIDVQLTQTGAINICVASNAILETFNDVWEIFNLPYLFASSEAYHHVDDPEIVKPIFESTREGGFEGVTWLDAGSRSFYTKDKPVNSPEDLSGLKIRVQQSPTNVRDLLGSSASPGFGEVYTALQSGIIDGAENNESLTDNGHGEVCKYYSYDHQVPDIVIANYSWLEGLPEEDRKVFDEGFKVLNEVQRKEWKVAVDKAKEKASEGVEFIYPDQKPFVDAVAPLTKEVLERNDKLAPFYDAIQKYNEEYPA KTIIRVGHNQSQNHPTHLGLLAFEEYVEDKLGDKYDIQVYPSELLGSQIDVQLTQTGAINICVASNAILETFNDVWEIFNLPYLFASSEAYHHVDDPEIVKPIFESTREGGFEGVTWLDAGSRSFYTKDKPVNSPEDLSGLKIRVQQSPTNVRDLLGSSASPGFGEVYTALQSGIIDGAENNESLTDNGHGEVCKYYSYDHQVPDIVIANYSWLEGLPEEDRKVFDEGFKVLNEVQRKEWKVAVDKAKEKASEGVEFIYPDQKPFVDAVAPLTKEVLERNDKLAPFYDAIQKYNEEYPA 4n9i-a2-m1-cC_4n9i-a2-m1-cD Crystal Structure of Transcription regulation protein CRP complexed with cGMP C3SQJ7 C3SQJ7 2.19 X-RAY DIFFRACTION 139 1.0 562 (Escherichia coli) 562 (Escherichia coli) 202 202 3fwe-a1-m1-cA_3fwe-a1-m1-cB 3hif-a1-m1-cA_3hif-a1-m1-cB 3hif-a2-m1-cC_3hif-a2-m1-cD 3hif-a3-m1-cE_3hif-a3-m1-cF 4n9h-a1-m1-cA_4n9h-a1-m1-cB 4n9i-a1-m1-cA_4n9i-a1-m1-cB DPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVYGTR DPTLEWFLSHCHIHKYPSKSTLIHQGEKAETLYYIVKGSVAVLIKDEEGKEMILSYLNQGDFIGELGLFEEGQERSAWVRAKTACEVAEISYKKFRQLIQVNPDILMRLSAQMARRLQVTSEKVGNLAFLDVTGRIAQTLLNLAKQPDAMTHPDGMQIKITRQEIGQIVGCSRETVGRILKMLEDQNLISAHGKTIVVYGTR 4n9k-a1-m1-cA_4n9k-a1-m1-cB crystal structure of beta-lactamse PenP_E166S in complex with cephaloridine P00808 P00808 1.93 X-RAY DIFFRACTION 22 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 256 256 4n92-a1-m1-cA_4n92-a1-m1-cB 4n9l-a1-m1-cA_4n9l-a1-m1-cB DDFAKLEEQFDAKLGIFALDTGTNRTVAYRPDERFAFASTIKALTVGVLLQQKSIEDLNQRITYTRDDLVNYNPITEKHVDTGMTLKELADASLRYSDNAAQNLILKQIGGPESLKKELRKIGDEVTNPERFSPELNEVNPGETQDTSTARALVTSLRAFALEDKLPSEKRELLIDWMKRNTTGDALIRAGVPDGWEVADKTGAASYGTRNDIAIIWPPKGDPVVLAVLSSRDKKDAKYDDKLIAEATKVVMKALN DDFAKLEEQFDAKLGIFALDTGTNRTVAYRPDERFAFASTIKALTVGVLLQQKSIEDLNQRITYTRDDLVNYNPITEKHVDTGMTLKELADASLRYSDNAAQNLILKQIGGPESLKKELRKIGDEVTNPERFSPELNEVNPGETQDTSTARALVTSLRAFALEDKLPSEKRELLIDWMKRNTTGDALIRAGVPDGWEVADKTGAASYGTRNDIAIIWPPKGDPVVLAVLSSRDKKDAKYDDKLIAEATKVVMKALN 4n9n-a1-m1-cA_4n9n-a1-m1-cB Crystal Structure of Saccharomyces cerevisiae Upc2 Transcription Factor fused with T4 Lysozyme Q12151 Q12151 2.9 X-RAY DIFFRACTION 33 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 417 417 NLNLIDKLFHHYCTKVWPTITAAKVSGPEIWRDYIPELAFDYPFLHALLAFSATHLSRTETGLEQYVSSHRLDALRLLREAVLEISENNTDALVASALILIDSLANASVDNIFELRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINVFQGETGVAGFTNSLRLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYVDSSPSAWIFHVKGAATILTAVWPLSERSKFHNIISVDLSDLGDVINPDVGTITELVCFDESIADLYPVGLDSPYLITLAYLDKLHREKNQGDFILRVFTFPALLDKTFLALLTGDLGARIRSYYKLLRGFATEVKDKVWFLEGVTQVLPQ NLNLIDKLFHHYCTKVWPTITAAKVSGPEIWRDYIPELAFDYPFLHALLAFSATHLSRTETGLEQYVSSHRLDALRLLREAVLEISENNTDALVASALILIDSLANASVDNIFELRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINVFQGETGVAGFTNSLRLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYVDSSPSAWIFHVKGAATILTAVWPLSERSKFHNIISVDLSDLGDVINPDVGTITELVCFDESIADLYPVGLDSPYLITLAYLDKLHREKNQGDFILRVFTFPALLDKTFLALLTGDLGARIRSYYKLLRGFATEVKDKVWFLEGVTQVLPQ 4na2-a2-m1-cB_4na2-a2-m3-cB Crystal Structure of the second ketosynthase from the bacillaene polyketide synthase bound to its natural intermediate P40806 P40806 2.3 X-RAY DIFFRACTION 209 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 580 580 4na1-a1-m1-cB_4na1-a1-m1-cA 4na2-a1-m1-cA_4na2-a1-m2-cA 4na3-a1-m1-cB_4na3-a1-m1-cA DFEPVAIVGISGRFPGAMDIDEFWKNLEEGKDSITEVPKDRWDWREHYGNPDTDVNKTDIKWGGFIDGVAEFDPLFFGISPREADYVDPQQRLLMTYVWKALEDAGCSPQSLSGTGTGIFIGTGNTGYKDLFHRANLPIEGHAATGHMIPSVGPNRMSYFLNIHGPSEPVETASSSLVAIHRAVTAMQNGDCEMAIAGGVNTILTEEAHISYSKAGMLSTDGRCKTFSADANGYVRGEGVGMVMLKKLEDAERDGNHIYGVIRGTAENHGGRANTLTSPNPKAQADLLVRAYRQADIDPSTVTYIEAHGTGTELGDPIEINGLKAAFKELSNMHRCGIGSVKSNIGHLELAAGISGLIKVLLQMKHKTLVKSLHCETLNPYLQLTDSPFYIVQEKQEWKSVLPRRAGISSFGIGGVNAHIVIEEYMPEQPNVIVLSAKNKSRLIDRASQLLEVIRNKKYTDQDLHRIAYTLQVGREEMDERLACVAGTMQELEEKLQAFVDGEFFRGQSHRNKETQTIFTADEDMALALDAWIRKRKYAKLADLWVKGVSIQWNTLYGETKPRLISLPSYPFAKDHYWVP DFEPVAIVGISGRFPGAMDIDEFWKNLEEGKDSITEVPKDRWDWREHYGNPDTDVNKTDIKWGGFIDGVAEFDPLFFGISPREADYVDPQQRLLMTYVWKALEDAGCSPQSLSGTGTGIFIGTGNTGYKDLFHRANLPIEGHAATGHMIPSVGPNRMSYFLNIHGPSEPVETASSSLVAIHRAVTAMQNGDCEMAIAGGVNTILTEEAHISYSKAGMLSTDGRCKTFSADANGYVRGEGVGMVMLKKLEDAERDGNHIYGVIRGTAENHGGRANTLTSPNPKAQADLLVRAYRQADIDPSTVTYIEAHGTGTELGDPIEINGLKAAFKELSNMHRCGIGSVKSNIGHLELAAGISGLIKVLLQMKHKTLVKSLHCETLNPYLQLTDSPFYIVQEKQEWKSVLPRRAGISSFGIGGVNAHIVIEEYMPEQPNVIVLSAKNKSRLIDRASQLLEVIRNKKYTDQDLHRIAYTLQVGREEMDERLACVAGTMQELEEKLQAFVDGEFFRGQSHRNKETQTIFTADEDMALALDAWIRKRKYAKLADLWVKGVSIQWNTLYGETKPRLISLPSYPFAKDHYWVP 4naf-a1-m1-cB_4naf-a1-m1-cA PrcB from Geobacillus kaustophilus, apo structure Q5L3C1 Q5L3C1 1.9 X-RAY DIFFRACTION 80 0.991 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 222 223 4nae-a1-m1-cB_4nae-a1-m1-cA EEIRAWRHVFKLDPNKPIDDERLERLCESGTDAVIVGTIDNVLDLLARIRRFSVPCALEVTDVEALTPGFDVYLVPIVLNSRQAEWIIGRHHEAVKQYGDMMNWDEIAAEGYCILNPECKAAKLTRADTELDVDDIVAYARLAEHLYKLPIFYLEYSGVYGDPSVVEKVKQALDQTQLFYGGGITTPEQAEHMARYADTVVVGNAIYDAFEQALATVAAVKQ EIRAWRHVFKLDPNKPIDDERLERLCESGTDAVIVGGVTIDNVLDLLARIRRFSVPCALEVTDVEALTPGFDVYLVPIVLNSRQAEWIIGRHHEAVKQYGDMMNWDEIAAEGYCILNPECKAAKLTRADTELDVDDIVAYARLAEHLYKLPIFYLEYSGVYGDPSVVDKVKQALDQTQLFYGGGITTPEQAEHMARYADTVVVGNAIYDAFEQALATVAAVKQ 4nao-a1-m1-cA_4nao-a1-m2-cA Crystal structure of EasH G8GV69 G8GV69 1.649 X-RAY DIFFRACTION 161 1.0 5111 (Claviceps purpurea) 5111 (Claviceps purpurea) 282 282 GTKRFSIQSDPVEIHRAIVEDGVAIIEGFLTPEQVQKLNKDVDAPLKADREQFWLADFIPDHVARVHNLVDFSHCFRHEILNHELLHKICRLTFEESGDYWLGYGAVIENGPGTTEQKWHRDQPRYPLVKEGPDAPEGMLNFFTALTDFDAETGKTQYILGSNKRVELGEPDADHPIEYVGLKPGDTTIVSGKITHRGSDNRSDKMRRAMPIMIIPSILTPFDATCHLSRELVETMTPLAQKMICRRSVMIPAKTGIWCVNMREAGEQIGLKSNQRAKEDAE GTKRFSIQSDPVEIHRAIVEDGVAIIEGFLTPEQVQKLNKDVDAPLKADREQFWLADFIPDHVARVHNLVDFSHCFRHEILNHELLHKICRLTFEESGDYWLGYGAVIENGPGTTEQKWHRDQPRYPLVKEGPDAPEGMLNFFTALTDFDAETGKTQYILGSNKRVELGEPDADHPIEYVGLKPGDTTIVSGKITHRGSDNRSDKMRRAMPIMIIPSILTPFDATCHLSRELVETMTPLAQKMICRRSVMIPAKTGIWCVNMREAGEQIGLKSNQRAKEDAE 4nar-a2-m1-cA_4nar-a2-m2-cA Crystal Structure of the Q9WYS3 protein from Thermotoga maritima. Northeast Structural Genomics Consortium Target VR152 Q9WYS3 Q9WYS3 2.388 X-RAY DIFFRACTION 31 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 411 411 YLEGDPLTEEKIKEGLSKLVEDLGKVKKVLVVHTDYTRVDFTHLVAKNLYRFLLERGLKEFHTLNASGTHRTKIEEFEKKLGISRNERRVFFHNHEFFNPEALAFVGTLPAGFVSETEGDLEEEIPIKVNRLLFEDFDAIFFINGTVPHESTGFSGGLKIVIPGIASTEVVDTFHWAAVLGIPKLIGTVDNPARKIINRASEIFEKIKARSFTLNVYEEEEEVIPRALYIDEGYEGFLRAYEKACELSSQLHVKYIDRPLRRAVQVIGEEYDEVWTAGKGSYKLQRPGVAKGGQIIIYAPHIKRFHSNPQDKWIREIGYHCKDYVKWYLKKHPDFNKNVAAHVINVRGAGTFDPETGKEEFEFDVILATSIPEDECRAVNLGYDPSKIKKEDFDEDSLWIVPGGKYLYDLK YLEGDPLTEEKIKEGLSKLVEDLGKVKKVLVVHTDYTRVDFTHLVAKNLYRFLLERGLKEFHTLNASGTHRTKIEEFEKKLGISRNERRVFFHNHEFFNPEALAFVGTLPAGFVSETEGDLEEEIPIKVNRLLFEDFDAIFFINGTVPHESTGFSGGLKIVIPGIASTEVVDTFHWAAVLGIPKLIGTVDNPARKIINRASEIFEKIKARSFTLNVYEEEEEVIPRALYIDEGYEGFLRAYEKACELSSQLHVKYIDRPLRRAVQVIGEEYDEVWTAGKGSYKLQRPGVAKGGQIIIYAPHIKRFHSNPQDKWIREIGYHCKDYVKWYLKKHPDFNKNVAAHVINVRGAGTFDPETGKEEFEFDVILATSIPEDECRAVNLGYDPSKIKKEDFDEDSLWIVPGGKYLYDLK 4nas-a2-m1-cD_4nas-a2-m1-cC The crystal structure of a rubisco-like protein (MtnW) from Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446 C8WQ56 C8WQ56 1.92 X-RAY DIFFRACTION 228 0.997 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 385 389 4nas-a1-m1-cA_4nas-a1-m1-cB RDAVVATYRLRDRKDKLEARAEGIAVGLTIGTWRKSVAKHCGRVEGIRVLDERPDGDVVAEIDIAYPVANLNGTFASLLVTVFGKLSDGEIRLERLQPDELVRQFPGPKFGVEGVRRRLGAYNRPLVSIFKACAGLTLDELVEAFGEQAEGGVDLVDDEIFFTEAYATPEDRVRAYAAKADEIAQRTGRRTAYAVNLTGPVHSLRERARRLAELGAGALLVNVVAYGYDVVADLARDPDVDVPILAHPAVSGALYGSPNYGIAADIVLGQLRLAGADIGIFPSYGSVTLGREATDRLLQHLRAEGPHKPVLPAPSAGIYPGLVPRLYQDFGVDLVLNAGGGIHGHPGGARGGRAFFDAIWAVEHGVPLEEAAKDRPALRQALEKW DAVVATYRLRDRKDKLEARAEGIAVGLTIGTWPAARKSEVAKHCGRVEGIRVLDERPDGDVVAEIDIAYPVANLNGTFASLLVTVFGKLSDGEIRLERLQPDELVRQFPGPKFGVEGVRRRLGAYNRPLVSIFKACAGLTLDELVEAFGEQAEGGVDLVDDEIFFTEAYATPEDRVRAYAAKADEIAQRTGRRTAYAVNLTGPVHSLRERARRLAELGAGALLVNVVAYGYDVVADLARDPDVDVPILAHPAVSGALYGSPNYGIAADIVLGQLRLAGADIGIFPSYGSVTLGREATDRLLQHLRAEGPHKPVLPAPSAGIYPGLVPRLYQDFGVDLVLNAGGGIHGHPGGARGGRAFFDAIWAVEHGVPLEEAAKDRPALRQALEKWG 4nav-a1-m2-cC_4nav-a1-m2-cD Crystal structure of hypothetical protein XCC2798 from Xanthomonas campestris, Target EFI-508608 Q8P716 Q8P716 2.69 X-RAY DIFFRACTION 71 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 182 182 4nav-a1-m1-cC_4nav-a1-m1-cD 4nav-a1-m1-cC_4nav-a1-m2-cD 4nav-a1-m1-cD_4nav-a1-m2-cC 4nav-a2-m1-cA_4nav-a2-m1-cB 4nav-a2-m1-cA_4nav-a2-m2-cB 4nav-a2-m1-cB_4nav-a2-m2-cA 4nav-a2-m2-cA_4nav-a2-m2-cB MPYSPLQDLPADLIDRAARVRLACFDVDGTLTDGRLYYDHAGNESKAFNVLDGQGLKQLEHAGIHVALITARASLSAEKRGQDLGLHVQIGVKNKRLAVLALCQEHGLSLDQVLFMGDDLPDLPALLAVGLPVAPANAHPWIAERVQWHTRARGGEGAAREVCDVVLAAQGQVDSIIARFSA MPYSPLQDLPADLIDRAARVRLACFDVDGTLTDGRLYYDHAGNESKAFNVLDGQGLKQLEHAGIHVALITARASLSAEKRGQDLGLHVQIGVKNKRLAVLALCQEHGLSLDQVLFMGDDLPDLPALLAVGLPVAPANAHPWIAERVQWHTRARGGEGAAREVCDVVLAAQGQVDSIIARFSA 4nax-a1-m1-cB_4nax-a1-m1-cA Crystal structure of glutathione transferase PPUT_1760 from Pseudomonas putida, target EFI-507288, with one glutathione disulfide bound per one protein subunit A5W1A6 A5W1A6 1.301 X-RAY DIFFRACTION 102 0.996 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 230 237 TELSAFPITRKWPAKHPERLQLYSLPTPNGVKVSIMLEEIGLAYEAHKVSFDNDDQLSPEFISLSANNKIPAILDPNGPGGQPLPLFESGAILQYLAEKSGQLLSQDPAQRYQTLQWLMFQMGGIGPMFGQVGFFHFFAGKEYEDKRPRDRYVNESKRLLGVLDRHLKGRQWMAEEYSIADIAIFPWVRNLVERYNARDLVGFDQFKEVQRVLANFLERPAVQHGLKIPG ELSAFPITRKWPAKHPERLQLYSLPTPNGVKVSIMLEEIGLAYEAHKVSFDNDDQLSPEFISLSANNKIPAILDPNGPGGQPLPLFESGAILQYLAEKSGQLLSQDPAQRYQTLQWLMFQMGGIGPMFGQVGFFHFFAGKEYEDKRPRDRYVNESKRLLGVLDRHLKGRQWMAEEYSIADIAIFPWVRNLVERYNARDLVGFDQFKEVQRVLANFLERPAVQHGLKIPGAENLYFQG 4naz-a1-m1-cA_4naz-a1-m2-cA Crystal Structure of FosB from Staphylococcus aureus with Zn and Sulfate at 1.15 Angstrom Resolution P60864 P60864 1.15 X-RAY DIFFRACTION 182 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 130 130 4nay-a1-m1-cA_4nay-a1-m2-cA HHLKSINHICFSVRNLNDSIHFYRDILLGKLLLTGKKTAYFELAGLWIALNEEKDIPRNEIHFSYTHIAFTIDDSEFKYWHQRLKDNNVNILQSIYFTDPDGHKLELHTGTLENRLNYYKEAKPHMTFYK HHLKSINHICFSVRNLNDSIHFYRDILLGKLLLTGKKTAYFELAGLWIALNEEKDIPRNEIHFSYTHIAFTIDDSEFKYWHQRLKDNNVNILQSIYFTDPDGHKLELHTGTLENRLNYYKEAKPHMTFYK 4nb5-a1-m1-cC_4nb5-a1-m1-cB Crystal Structure of a transcriptional regulator I6Y8F7 I6Y8F7 1.641 X-RAY DIFFRACTION 39 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 147 149 PDIMEFVEQMGGYFESRSLTRLAGRLLGWLLVCDPERQSSEELATALAASSGGISTNARMLIQFGFIERLAVAGDRRTYFRLRPNAFAAGERERIRAMAELQDLADVGLRALGDAPPQRSRRLREMRDLLAYMENVVSDALGRYSQR EPDIMEFVEQMGGYFESRSLTRLAGRLLGWLLVCDPERQSSEELATALAASSGGISTNARMLIQFGFIERLAVAGDRRTYFRLRPNAFAAGERERIRAMAELQDLADVGLRALGDAPPQRSRRLREMRDLLAYMENVVSDALGRYSQRT 4nb5-a1-m1-cD_4nb5-a1-m1-cB Crystal Structure of a transcriptional regulator I6Y8F7 I6Y8F7 1.641 X-RAY DIFFRACTION 21 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 146 149 4nb5-a1-m1-cA_4nb5-a1-m1-cC PDIMEFVEQMGGYFESRSLTRLAGRLLGWLLVCDPERQSSEELATALAASSGGISTNARMLIQFGFIERLAVAGDRRTYFRLRPNAFAAGERERIRAMAELQDLADVGLRALGDAPPQRSRRLREMRDLLAYMENVVSDALGRYSQ EPDIMEFVEQMGGYFESRSLTRLAGRLLGWLLVCDPERQSSEELATALAASSGGISTNARMLIQFGFIERLAVAGDRRTYFRLRPNAFAAGERERIRAMAELQDLADVGLRALGDAPPQRSRRLREMRDLLAYMENVVSDALGRYSQRT 4nb5-a1-m1-cD_4nb5-a1-m1-cC Crystal Structure of a transcriptional regulator I6Y8F7 I6Y8F7 1.641 X-RAY DIFFRACTION 130 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 146 147 4nb5-a1-m1-cA_4nb5-a1-m1-cB PDIMEFVEQMGGYFESRSLTRLAGRLLGWLLVCDPERQSSEELATALAASSGGISTNARMLIQFGFIERLAVAGDRRTYFRLRPNAFAAGERERIRAMAELQDLADVGLRALGDAPPQRSRRLREMRDLLAYMENVVSDALGRYSQ PDIMEFVEQMGGYFESRSLTRLAGRLLGWLLVCDPERQSSEELATALAASSGGISTNARMLIQFGFIERLAVAGDRRTYFRLRPNAFAAGERERIRAMAELQDLADVGLRALGDAPPQRSRRLREMRDLLAYMENVVSDALGRYSQR 4nbm-a2-m1-cC_4nbm-a2-m1-cD Crystal structure of UVB photoreceptor UVR8 and light-induced structural changes at 180K Q9FN03 Q9FN03 1.61 X-RAY DIFFRACTION 24 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 369 369 4d9s-a1-m1-cB_4d9s-a1-m1-cA 4dnu-a1-m1-cA_4dnu-a1-m2-cA 4dnv-a1-m1-cB_4dnv-a1-m1-cA 4dnv-a2-m1-cD_4dnv-a2-m1-cC 4dnw-a1-m1-cA_4dnw-a1-m1-cB 4naa-a1-m1-cA_4naa-a1-m1-cB 4naa-a2-m1-cC_4naa-a2-m1-cD 4nbm-a1-m1-cA_4nbm-a1-m1-cB 4nc4-a1-m1-cA_4nc4-a1-m1-cB 4nc4-a2-m1-cC_4nc4-a2-m1-cD 6dd7-a1-m1-cA_6dd7-a1-m1-cD 6dd7-a2-m1-cB_6dd7-a2-m1-cC PPRKVLIISAGASHSVALLSGDIVCSWGRGEDGQLGHGDAEDRPSPTQLSALDGHQIVSVTCGADHTVAYSQSGMEVYSWGWGDFGRLGHGNSSDLFTPLPIKALHGIRIKQIACGDSHCLAVTMEGEVQSWGRNQNGQLGLGDTEDSLVPQKIQAFEGIRIKMVAAGAEHTAAVTEDGDLYGWGWGRYGNLGLGDRTDRLVPERVTSTGGEKMSMVACGWRHTISVSYSGALYTYGWSKYGQLGHGDLEDHLIPHKLEALSNSFISQISGGWRHTMALTSDGKLYGWGWNKFGQVGVGNNLDQCSPVQVRFPDDQKVVQVSCGWRHTLAVTERNNVFAWGRGTNGQLGIGESVDRNFPKIIEALSVDG PPRKVLIISAGASHSVALLSGDIVCSWGRGEDGQLGHGDAEDRPSPTQLSALDGHQIVSVTCGADHTVAYSQSGMEVYSWGWGDFGRLGHGNSSDLFTPLPIKALHGIRIKQIACGDSHCLAVTMEGEVQSWGRNQNGQLGLGDTEDSLVPQKIQAFEGIRIKMVAAGAEHTAAVTEDGDLYGWGWGRYGNLGLGDRTDRLVPERVTSTGGEKMSMVACGWRHTISVSYSGALYTYGWSKYGQLGHGDLEDHLIPHKLEALSNSFISQISGGWRHTMALTSDGKLYGWGWNKFGQVGVGNNLDQCSPVQVRFPDDQKVVQVSCGWRHTLAVTERNNVFAWGRGTNGQLGIGESVDRNFPKIIEALSVDG 4nbq-a1-m1-cC_4nbq-a1-m1-cB Structure of the polynucleotide phosphorylase (CBU_0852) from Coxiella burnetii Q83D87 Q83D87 2.9138 X-RAY DIFFRACTION 146 0.997 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 592 652 4nbq-a1-m1-cC_4nbq-a1-m1-cA NKIRKTFQYGKHEVTFETGEARQATGAVVVRGDTVLLVSVVAKKEAERDFFPLTVNYQEKTYAAGKIPGGYFKREGRPTEKETLTSRLIDRPLRPLFPKGFTNEVQVIATVLSVDSKVPTDIPAILGASAAIGLSGIPFNGSLGAARVGYRGGEYLLNPSLDELKDSALDLVVAGTRDAVLVESEAQELPESVLGAVLHGHQAQVAIQAIAEFIQEAGGAKWEWEPPTVNTALEKWVVEKSEAPLKKAYQIQEKTARQAQIQAIRDQLLADRAAEEHELAVIFHELERRIVREQILTGQPRIDGRDTKTVRPITVKVGVLPRSHGSALFTRGETQALVVTTLGTERDAQSIDDLDGDRQEEFIFHYNFPPFCVGEVGFGPKRREIGHGRLAKRAVVPVVPTLDKFPYVIRVVSEILESNGSSSASVCGSSLALDAGVPTKAPVAGIAGLIKENDKYAVLSDILGDEDHLGDDFKVAGTSNGVTALQDIKIEGITKEIEQALDQAKEGRLHILSINKVLDKPRSQVSDLAPQYVTKINPEKIRDVIGKGGVVIREITEATNCAIDISDDGTIKIAAHTTEEGEAAKRRIEELT ANKIRKTFQYGKHEVTFETGEARQATGAVVVRGDTVLLVSVVAKKEAEEGRDFFPLTVNYQEKTYAAGKIPGGYREGRPTEKETLTSRLIDRPLRPLFPKGFTNEVQVIATVLSVDSKVPTDIPAILGASAAIGLSGIPFNGSLGAARVGYRGGEYLLNPSLDELKDSALDLVVAGTRDAVLVESEAQELPESVLGAVLHGHQAQVAIQAIAEFIQEAGGAKWEWEPPTVNTALEKWVVEKSEAPLKKAYQIQEKTARQAQIQAIRDQLLADRAAEAVNEHELAVIFHELERRIVREQILTGQPRIDGRDTKTVRPITVKVGVLPRSHGSALFTRGETQALVVTTLGTERDAQSIDDLDGDRQEEFIFHYNFPPFCVGEVGFSGPKRREIGHGRLAKRAVVPVVPTLDKFPYVIRVVSEILESNGSSSASVCGSSLALDAGVPTKAPVAGIAGLIKENDKYAVLSDILGDEDHLGDDFKVAGTSNGVTALQDIKIEGITKEIEQALDQAKEGRLHILSINKVLDKPRSQVSDLAPQYVTKINPEKIRDVIGKGGVVIREITEATNCAIDISDDGTIKIAAHTTEEGEAAKRRIEELTELGKVYEGTVVKITDGAFVQILTQGLVHISQIAQERVDYLEEGQVKVIEIDVRLS 4nbr-a2-m1-cA_4nbr-a2-m2-cA Crystal Structure of 3-oxoacyl-[acyl-carrier protein] reductase from Brucella melitensis ATCC 23457 Q577I6 Q577I6 1.35 X-RAY DIFFRACTION 141 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 268 268 5ts3-a1-m1-cA_5ts3-a1-m2-cA 5ts3-a1-m1-cB_5ts3-a1-m2-cB HHHMELTEITPESLRLRPSHKERNVLITGAARGIGRAIAQAFVERSATVGICDLNLADVARTCEELNGLGLGRAVPIACDVSDYDALVAAIDDTGLVFDTVVNNAGISPKHNGVAHKVWEMAPDEWRRVVDVNLTGTFNTIRALTPGMVEARRGWIVNTSSVAGKTYSPIVACHYAATKSAIIGFTKHLAAELGPYSIRVNAMAPGRIATPMVAGVAPEVNAEQVKLTPMARLGQPAEVADVALWLTSTESSFVTGQTVDVAGGLYMA HHHMELTEITPESLRLRPSHKERNVLITGAARGIGRAIAQAFVERSATVGICDLNLADVARTCEELNGLGLGRAVPIACDVSDYDALVAAIDDTGLVFDTVVNNAGISPKHNGVAHKVWEMAPDEWRRVVDVNLTGTFNTIRALTPGMVEARRGWIVNTSSVAGKTYSPIVACHYAATKSAIIGFTKHLAAELGPYSIRVNAMAPGRIATPMVAGVAPEVNAEQVKLTPMARLGQPAEVADVALWLTSTESSFVTGQTVDVAGGLYMA 4nbr-a3-m1-cA_4nbr-a3-m3-cA Crystal Structure of 3-oxoacyl-[acyl-carrier protein] reductase from Brucella melitensis ATCC 23457 Q577I6 Q577I6 1.35 X-RAY DIFFRACTION 137 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 268 268 5ts3-a1-m1-cB_5ts3-a1-m1-cA 5ts3-a1-m2-cB_5ts3-a1-m2-cA HHHMELTEITPESLRLRPSHKERNVLITGAARGIGRAIAQAFVERSATVGICDLNLADVARTCEELNGLGLGRAVPIACDVSDYDALVAAIDDTGLVFDTVVNNAGISPKHNGVAHKVWEMAPDEWRRVVDVNLTGTFNTIRALTPGMVEARRGWIVNTSSVAGKTYSPIVACHYAATKSAIIGFTKHLAAELGPYSIRVNAMAPGRIATPMVAGVAPEVNAEQVKLTPMARLGQPAEVADVALWLTSTESSFVTGQTVDVAGGLYMA HHHMELTEITPESLRLRPSHKERNVLITGAARGIGRAIAQAFVERSATVGICDLNLADVARTCEELNGLGLGRAVPIACDVSDYDALVAAIDDTGLVFDTVVNNAGISPKHNGVAHKVWEMAPDEWRRVVDVNLTGTFNTIRALTPGMVEARRGWIVNTSSVAGKTYSPIVACHYAATKSAIIGFTKHLAAELGPYSIRVNAMAPGRIATPMVAGVAPEVNAEQVKLTPMARLGQPAEVADVALWLTSTESSFVTGQTVDVAGGLYMA 4nbt-a1-m1-cA_4nbt-a1-m1-cD Crystal structure of FabG from Acholeplasma laidlawii A9NFJ2 A9NFJ2 1.48 X-RAY DIFFRACTION 132 1.0 441768 (Acholeplasma laidlawii PG-8A) 441768 (Acholeplasma laidlawii PG-8A) 239 239 4nbt-a1-m1-cB_4nbt-a1-m1-cC KKLEGKVAVITGGAKGLGQAIALAYAEEGAKVIAGDLGDLTYSHPNVEGMYLNVTDVTGVEKFYQSVIDKYGKIDILVNNAGITKDAMTRKMTEAQWDAVIDVNLKGVFNLTRLVGPQMQTNGYGSIINISSVVGVFGNIGQANYAATKAGVIGLTMTWAKEFALKGANVRVNAIAPGYIMTDILKTVPQDLLDKFAALTMLNRLGQPEEIAKVALFLASDDASYVTGQTINVNGGMRL KKLEGKVAVITGGAKGLGQAIALAYAEEGAKVIAGDLGDLTYSHPNVEGMYLNVTDVTGVEKFYQSVIDKYGKIDILVNNAGITKDAMTRKMTEAQWDAVIDVNLKGVFNLTRLVGPQMQTNGYGSIINISSVVGVFGNIGQANYAATKAGVIGLTMTWAKEFALKGANVRVNAIAPGYIMTDILKTVPQDLLDKFAALTMLNRLGQPEEIAKVALFLASDDASYVTGQTINVNGGMRL 4nbt-a1-m1-cC_4nbt-a1-m1-cD Crystal structure of FabG from Acholeplasma laidlawii A9NFJ2 A9NFJ2 1.48 X-RAY DIFFRACTION 88 1.0 441768 (Acholeplasma laidlawii PG-8A) 441768 (Acholeplasma laidlawii PG-8A) 239 239 4nbt-a1-m1-cA_4nbt-a1-m1-cB KKLEGKVAVITGGAKGLGQAIALAYAEEGAKVIAGDLGDLTYSHPNVEGMYLNVTDVTGVEKFYQSVIDKYGKIDILVNNAGITKDAMTRKMTEAQWDAVIDVNLKGVFNLTRLVGPQMQTNGYGSIINISSVVGVFGNIGQANYAATKAGVIGLTMTWAKEFALKGANVRVNAIAPGYIMTDILKTVPQDLLDKFAALTMLNRLGQPEEIAKVALFLASDDASYVTGQTINVNGGMRL KKLEGKVAVITGGAKGLGQAIALAYAEEGAKVIAGDLGDLTYSHPNVEGMYLNVTDVTGVEKFYQSVIDKYGKIDILVNNAGITKDAMTRKMTEAQWDAVIDVNLKGVFNLTRLVGPQMQTNGYGSIINISSVVGVFGNIGQANYAATKAGVIGLTMTWAKEFALKGANVRVNAIAPGYIMTDILKTVPQDLLDKFAALTMLNRLGQPEEIAKVALFLASDDASYVTGQTINVNGGMRL 4nbu-a1-m1-cA_4nbu-a1-m1-cD Crystal structure of FabG from Bacillus sp A6CQL2 A6CQL2 1.34 X-RAY DIFFRACTION 98 1.0 161544 (Bacillus sp. SG-1) 161544 (Bacillus sp. SG-1) 242 242 4nbu-a1-m1-cC_4nbu-a1-m1-cB SRLQDKVAIITGAANGIGLEAARVFMKEGAKVVIADFNEAAGKEAVEANPGVVFIRVDVSDRESVHRLVENVAERFGKIDILINNAGITRDSMLSKMTVDQFQQVINVNLTGVFHCTQAVLPYMAEQGKGKIINTSSVTGTYGNVGQTNYAAAKAGVIGMTKTWAKELARKGINVNAVAPGFTETAMVAEVPEKVIEKMKAQVPMGRLGKPEDIANAYLFLASHESDYVNGHVLHVDGGIMM SRLQDKVAIITGAANGIGLEAARVFMKEGAKVVIADFNEAAGKEAVEANPGVVFIRVDVSDRESVHRLVENVAERFGKIDILINNAGITRDSMLSKMTVDQFQQVINVNLTGVFHCTQAVLPYMAEQGKGKIINTSSVTGTYGNVGQTNYAAAKAGVIGMTKTWAKELARKGINVNAVAPGFTETAMVAEVPEKVIEKMKAQVPMGRLGKPEDIANAYLFLASHESDYVNGHVLHVDGGIMM 4nbu-a1-m1-cD_4nbu-a1-m1-cB Crystal structure of FabG from Bacillus sp A6CQL2 A6CQL2 1.34 X-RAY DIFFRACTION 124 1.0 161544 (Bacillus sp. SG-1) 161544 (Bacillus sp. SG-1) 242 244 4nbu-a1-m1-cA_4nbu-a1-m1-cC SRLQDKVAIITGAANGIGLEAARVFMKEGAKVVIADFNEAAGKEAVEANPGVVFIRVDVSDRESVHRLVENVAERFGKIDILINNAGITRDSMLSKMTVDQFQQVINVNLTGVFHCTQAVLPYMAEQGKGKIINTSSVTGTYGNVGQTNYAAAKAGVIGMTKTWAKELARKGINVNAVAPGFTETAMVAEVPEKVIEKMKAQVPMGRLGKPEDIANAYLFLASHESDYVNGHVLHVDGGIMM HMSRLQDKVAIITGAANGIGLEAARVFMKEGAKVVIADFNEAAGKEAVEANPGVVFIRVDVSDRESVHRLVENVAERFGKIDILINNAGITRDSMLSKMTVDQFQQVINVNLTGVFHCTQAVLPYMAEQGKGKIINTSSVTGTYGNVGQTNYAAAKAGVIGMTKTWAKELARKGINVNAVAPGFTETAMVAEVPEKVIEKMKAQVPMGRLGKPEDIANAYLFLASHESDYVNGHVLHVDGGIMM 4nbv-a1-m1-cA_4nbv-a1-m2-cB Crystal structure of FabG from Cupriavidus taiwanensis B3R6T4 B3R6T4 1.645 X-RAY DIFFRACTION 111 1.0 164546 (Cupriavidus taiwanensis) 164546 (Cupriavidus taiwanensis) 246 246 4nbv-a1-m1-cB_4nbv-a1-m2-cA MKLQGRVAIITGAAAGIGFATAQRFAEDGAIVVLCDVQEARVREAAARLAATGATVSAYRVDVTRRDEVDAMVAAVLAAHQRVDILVNNAGITKDARLAKMTEAQFDAVIDVNLKGVFNCAQAVAGLMTEQGKGVILNASSVVGLYGNFGQTNYAASKFGVIGFTKTWARELGPKGVRVNAVCPGFVNTEILQTVPDKVLDGMTSSCWLRRLAEPAEIASIYAFLASDDASYVNGVAIEASGGMSL MKLQGRVAIITGAAAGIGFATAQRFAEDGAIVVLCDVQEARVREAAARLAATGATVSAYRVDVTRRDEVDAMVAAVLAAHQRVDILVNNAGITKDARLAKMTEAQFDAVIDVNLKGVFNCAQAVAGLMTEQGKGVILNASSVVGLYGNFGQTNYAASKFGVIGFTKTWARELGPKGVRVNAVCPGFVNTEILQTVPDKVLDGMTSSCWLRRLAEPAEIASIYAFLASDDASYVNGVAIEASGGMSL 4nbv-a1-m2-cA_4nbv-a1-m2-cB Crystal structure of FabG from Cupriavidus taiwanensis B3R6T4 B3R6T4 1.645 X-RAY DIFFRACTION 102 1.0 164546 (Cupriavidus taiwanensis) 164546 (Cupriavidus taiwanensis) 246 246 4nbv-a1-m1-cA_4nbv-a1-m1-cB MKLQGRVAIITGAAAGIGFATAQRFAEDGAIVVLCDVQEARVREAAARLAATGATVSAYRVDVTRRDEVDAMVAAVLAAHQRVDILVNNAGITKDARLAKMTEAQFDAVIDVNLKGVFNCAQAVAGLMTEQGKGVILNASSVVGLYGNFGQTNYAASKFGVIGFTKTWARELGPKGVRVNAVCPGFVNTEILQTVPDKVLDGMTSSCWLRRLAEPAEIASIYAFLASDDASYVNGVAIEASGGMSL MKLQGRVAIITGAAAGIGFATAQRFAEDGAIVVLCDVQEARVREAAARLAATGATVSAYRVDVTRRDEVDAMVAAVLAAHQRVDILVNNAGITKDARLAKMTEAQFDAVIDVNLKGVFNCAQAVAGLMTEQGKGVILNASSVVGLYGNFGQTNYAASKFGVIGFTKTWARELGPKGVRVNAVCPGFVNTEILQTVPDKVLDGMTSSCWLRRLAEPAEIASIYAFLASDDASYVNGVAIEASGGMSL 4nbw-a1-m1-cA_4nbw-a1-m1-cD Crystal structure of FabG from Plesiocystis pacifica A6G411 A6G411 2 X-RAY DIFFRACTION 26 1.0 391625 (Plesiocystis pacifica SIR-1) 391625 (Plesiocystis pacifica SIR-1) 253 253 4nbw-a1-m1-cB_4nbw-a1-m1-cC KRVAIITGAANGIGRATALEFAQAGYHVVAWDLAEEAGAALIAEIADAGGSADFARVDVSAAESVEAAVAEIIAEHGRVDVLVNNAGILHDGQLVKVKGGEVVKKMAEAQFDAVISVNLKGVFLCTQAVAPHMIAAKYGRILNASSVVGLYGNFGQTNYVAAKSGVIGMTKVWARELGRYGITVNAIAPGFIATEMVQQMPERVLEAMVARTPVGRIGDPVDIARAYLFLASEESGFISGTTLSVDGGMVVGS KRVAIITGAANGIGRATALEFAQAGYHVVAWDLAEEAGAALIAEIADAGGSADFARVDVSAAESVEAAVAEIIAEHGRVDVLVNNAGILHDGQLVKVKGGEVVKKMAEAQFDAVISVNLKGVFLCTQAVAPHMIAAKYGRILNASSVVGLYGNFGQTNYVAAKSGVIGMTKVWARELGRYGITVNAIAPGFIATEMVQQMPERVLEAMVARTPVGRIGDPVDIARAYLFLASEESGFISGTTLSVDGGMVVGS 4nbw-a1-m1-cB_4nbw-a1-m1-cD Crystal structure of FabG from Plesiocystis pacifica A6G411 A6G411 2 X-RAY DIFFRACTION 142 1.0 391625 (Plesiocystis pacifica SIR-1) 391625 (Plesiocystis pacifica SIR-1) 253 253 4nbw-a1-m1-cA_4nbw-a1-m1-cC KRVAIITGAANGIGRATALEFAQAGYHVVAWDLAEEAGAALIAEIADAGGSADFARVDVSAAESVEAAVAEIIAEHGRVDVLVNNAGILHDGQLVKVKGGEVVKKMAEAQFDAVISVNLKGVFLCTQAVAPHMIAAKYGRILNASSVVGLYGNFGQTNYVAAKSGVIGMTKVWARELGRYGITVNAIAPGFIATEMVQQMPERVLEAMVARTPVGRIGDPVDIARAYLFLASEESGFISGTTLSVDGGMVVGS KRVAIITGAANGIGRATALEFAQAGYHVVAWDLAEEAGAALIAEIADAGGSADFARVDVSAAESVEAAVAEIIAEHGRVDVLVNNAGILHDGQLVKVKGGEVVKKMAEAQFDAVISVNLKGVFLCTQAVAPHMIAAKYGRILNASSVVGLYGNFGQTNYVAAKSGVIGMTKVWARELGRYGITVNAIAPGFIATEMVQQMPERVLEAMVARTPVGRIGDPVDIARAYLFLASEESGFISGTTLSVDGGMVVGS 4nbw-a1-m1-cC_4nbw-a1-m1-cD Crystal structure of FabG from Plesiocystis pacifica A6G411 A6G411 2 X-RAY DIFFRACTION 94 1.0 391625 (Plesiocystis pacifica SIR-1) 391625 (Plesiocystis pacifica SIR-1) 253 253 4nbw-a1-m1-cA_4nbw-a1-m1-cB KRVAIITGAANGIGRATALEFAQAGYHVVAWDLAEEAGAALIAEIADAGGSADFARVDVSAAESVEAAVAEIIAEHGRVDVLVNNAGILHDGQLVKVKGGEVVKKMAEAQFDAVISVNLKGVFLCTQAVAPHMIAAKYGRILNASSVVGLYGNFGQTNYVAAKSGVIGMTKVWARELGRYGITVNAIAPGFIATEMVQQMPERVLEAMVARTPVGRIGDPVDIARAYLFLASEESGFISGTTLSVDGGMVVGS KRVAIITGAANGIGRATALEFAQAGYHVVAWDLAEEAGAALIAEIADAGGSADFARVDVSAAESVEAAVAEIIAEHGRVDVLVNNAGILHDGQLVKVKGGEVVKKMAEAQFDAVISVNLKGVFLCTQAVAPHMIAAKYGRILNASSVVGLYGNFGQTNYVAAKSGVIGMTKVWARELGRYGITVNAIAPGFIATEMVQQMPERVLEAMVARTPVGRIGDPVDIARAYLFLASEESGFISGTTLSVDGGMVVGS 4nc9-a5-m1-cB_4nc9-a5-m1-cA Crystal structure of phosphatidyl mannosyltransferase PimA A0QWG6 A0QWG6 3.192 X-RAY DIFFRACTION 48 0.994 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 361 369 GAMRIGMVCPYSFDVPGGVQSHVLQLAEVLRDAGHEVSVLAPASPHVKLPDYVVSGGKAVPVARLRFGPATHRKVKKWIAEGDFDVLHIHEPNAPSLSMLALQAAEGPIVATFHTSTTKSLTLSVFQGILRPYHIAVSDLARRWQMEALGSDAVEIPNGVDVASFADAPLLDGYPREGRTVLFLGRYDEPRKGMAVLLAALPKLVARFPDVEILIVGRGDEDELREQAGDLAGHLRFLGQVDDATKASAMRSADVYCAPHLESFGIVLVEAMAAGTAVVASDLDAFRRVLADGDAGRLVPVDDADGMAAALIGILEDDQLRAGYVARASERVHRYDWSVVSAQIMRVYETVSGAGIKVQVS GAMRIGMVCPYSFDVPGGVQSHVLQLAEVLRDAGHEVSVLAPASPHVKLPDYVVSGGKAVARLRFGPATHRKVKKWIAEGDFDVLHIHEPNAPSLSMLALQAAEGPIVATFHTSTTKSLTLSVFQGILRPYHEKIIGRIAVSDLARRWQMEALGSDAVEIPNGVDVASFADAPLLDGYPREGRTVLFLGRYDEPRKGMAVLLAALPKLVARFPDVEILIVGRGDEDELREQAGDLAGHLRFLGQVDDATKASAMRSADVYCAPHLGGESFGIVLVEAMAAGTAVVASDLDAFRRVLADGDAGRLVPVDDADGMAAALIGILEDDQLRAGYVARASERVHRYDWSVVSAQIMRVYETVSGAGIKVQVSGA 4ncd-a1-m1-cA_4ncd-a1-m2-cA Crystal Structure of Class 5 Fimbriae Chaperone CfaA 2.037 X-RAY DIFFRACTION 58 1.0 1116069 (Escherichia coli P0301867.5) 1116069 (Escherichia coli P0301867.5) 211 211 NFMIYPISKDLKNGNSELVRVYSKSKEIQYIKIYTKKIINPGTTEEYEVDIPNWDGGLVVTPQKVILPAGASKSIRLTQFKIPKKEEVYRVYFEAVKPDSLTTELSVNIIYAALIRSLPSEQNISLNISRNAKKNIIIYNNGNVRAGVKDIYFCKSSNIDDNCVKKAYNKNIYPEKSFDTLVNNNFSYVFIKLNHEGIEKEQGLIQLKVPL NFMIYPISKDLKNGNSELVRVYSKSKEIQYIKIYTKKIINPGTTEEYEVDIPNWDGGLVVTPQKVILPAGASKSIRLTQFKIPKKEEVYRVYFEAVKPDSLTTELSVNIIYAALIRSLPSEQNISLNISRNAKKNIIIYNNGNVRAGVKDIYFCKSSNIDDNCVKKAYNKNIYPEKSFDTLVNNNFSYVFIKLNHEGIEKEQGLIQLKVPL 4nct-a5-m1-cD_4nct-a5-m1-cA Human DYRK1A in complex with PKC412 Q13627 Q13627 2.597 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 331 341 4nct-a5-m1-cB_4nct-a5-m1-cC KVYNDGYDDDNYDYIVKNGEKWMDRYEIDSLIGKGSFGQVVKAYDRVEQEWVAIKIIKNKKAFLNQAQIEVRLLELMNKHDTEMKYYIVHLKRHFMFRNHLCLVFEMLSYNLYDLLRNTNFRGVSLNLTRKFAQQMCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQIQSRFYRSPEVLLGMPYDLAIDMWSLGCILVEMHTGEPLFSGANEVDQMNKIVEVLGIPPAHILDQAPKARKFFEKLPDGTWNLKKYKPPGTRKLHNILGVETGGPGGTVADYLKFKDLILRMLDYDPKTRIQPYYALQHSFFK KVYNDGYDDDNYDYIVKNGEKWMDRYEIDSLIGKGSFGQVVKAYDRVEQEWVAIKIIKNKKAFLNQAQIEVRLLELMNKHDTEMKYYIVHLKRHFMFRNHLCLVFEMLSYNLYDLLRNTNFRGVSLNLTRKFAQQMCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQIQSRFYRSPEVLLGMPYDLAIDMWSLGCILVEMHTGEPLFSGANEVDQMNKIVEVLGIPPAHILDQAPKARKFFEKLPDGTWNLKKTEYKPPGTRKLHNILGVETGGPGGRRAGESGHTVADYLKFKDLILRMLDYDPKTRIQPYYALQHSFFK 4nct-a5-m1-cD_4nct-a5-m1-cC Human DYRK1A in complex with PKC412 Q13627 Q13627 2.597 X-RAY DIFFRACTION 49 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 331 339 4nct-a5-m1-cB_4nct-a5-m1-cA KVYNDGYDDDNYDYIVKNGEKWMDRYEIDSLIGKGSFGQVVKAYDRVEQEWVAIKIIKNKKAFLNQAQIEVRLLELMNKHDTEMKYYIVHLKRHFMFRNHLCLVFEMLSYNLYDLLRNTNFRGVSLNLTRKFAQQMCTALLFLATPELSIIHCDLKPENILLCNPKRSAIKIVDFGSSCQLGQRIYQIQSRFYRSPEVLLGMPYDLAIDMWSLGCILVEMHTGEPLFSGANEVDQMNKIVEVLGIPPAHILDQAPKARKFFEKLPDGTWNLKKYKPPGTRKLHNILGVETGGPGGTVADYLKFKDLILRMLDYDPKTRIQPYYALQHSFFK KVYNDGYDDDNYDYIVKNGEKWMDRYEIDSLIGKGSFGQVVKAYDRVEQEWVAIKIIKNKKAFLNQAQIEVRLLELMNKHDTEMKYYIVHLKRHFMFRNHLCLVFEMLSYNLYDLLRNTNFRGVSLNLTRKFAQQMCTALLFLATPELSIIHCDLKPENILLCNPKRAIKIVDFGSSCQLGQRIYQIQSRFYRSPEVLLGMPYDLAIDMWSLGCILVEMHTGEPLFSGANEVDQMNKIVEVLGIPPAHILDQAPKARKFFEKLPDGTWNLKKREYKPPGTRKLHNILGVETGGPGGRRAGESGHTVADYLKFKDLILRMLDYDPKTRIQPYYALQHSFF 4nd2-a1-m2-cB_4nd2-a1-m1-cA Crystal structure of the lactate dehydrogenase from cryptosporidium parvum complexed with substrate (pyruvic acid) and cofactor analog (3-acetylpyridine adenine dinucleotide) Q5CYZ2 Q5CYZ2 2 X-RAY DIFFRACTION 65 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 317 317 2fn7-a2-m1-cB_2fn7-a2-m2-cA 2fn7-a2-m2-cB_2fn7-a2-m1-cA 4nd1-a1-m1-cB_4nd1-a1-m2-cA 4nd1-a1-m2-cB_4nd1-a1-m1-cA 4nd2-a1-m1-cB_4nd2-a1-m2-cA 4nd3-a1-m1-cB_4nd3-a1-m2-cA 4nd3-a1-m2-cB_4nd3-a1-m1-cA 4nd4-a1-m1-cB_4nd4-a1-m2-cA 4nd4-a1-m2-cB_4nd4-a1-m1-cA 4nd5-a1-m1-cA_4nd5-a1-m2-cA 4nd5-a1-m2-cB_4nd5-a1-m1-cB 4nd5-a2-m1-cC_4nd5-a2-m3-cC 4nd5-a2-m3-cD_4nd5-a2-m1-cD MIERRKIAVIGSGQIGGNIAYIVGKDNLADVVLFDIAEGIPQGKALDITHSMVMFGSTSKVIGTNDYADISGSDVVIITASIPGRPKDDRSELLFGNARILDSVAEGVKKYCPNAFVICITNPLDVMVSHFQKVSGLPHNKVCGMAGVLDSSRFRTFIAQHFGVNASDVSANVIGGHGDGMVPATSSVSVGGVPLSSFIKQGLITQEQIDEIVCHTRIAWKEVADNLKTGTAYFAPAAAAVKMAEAYLKDKKAVVPCSAFCSNHYGVKGIYMGVPTIIGKNGVEDILELDLTPLEQKLLGESINEVNTISKVLDNAP MIERRKIAVIGSGQIGGNIAYIVGKDNLADVVLFDIAEGIPQGKALDITHSMVMFGSTSKVIGTNDYADISGSDVVIITASIPGRPKDDRSELLFGNARILDSVAEGVKKYCPNAFVICITNPLDVMVSHFQKVSGLPHNKVCGMAGVLDSSRFRTFIAQHFGVNASDVSANVIGGHGDGMVPATSSVSVGGVPLSSFIKQGLITQEQIDEIVCHTRIAWKEVADNLKTGTAYFAPAAAAVKMAEAYLKDKKAVVPCSAFCSNHYGVKGIYMGVPTIIGKNGVEDILELDLTPLEQKLLGESINEVNTISKVLDNAP 4nd2-a1-m2-cB_4nd2-a1-m1-cB Crystal structure of the lactate dehydrogenase from cryptosporidium parvum complexed with substrate (pyruvic acid) and cofactor analog (3-acetylpyridine adenine dinucleotide) Q5CYZ2 Q5CYZ2 2 X-RAY DIFFRACTION 40 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 317 317 2fn7-a2-m1-cA_2fn7-a2-m2-cA 2fn7-a2-m2-cB_2fn7-a2-m1-cB 4nd1-a1-m1-cA_4nd1-a1-m2-cA 4nd1-a1-m2-cB_4nd1-a1-m1-cB 4nd2-a1-m1-cA_4nd2-a1-m2-cA 4nd3-a1-m1-cA_4nd3-a1-m2-cA 4nd3-a1-m2-cB_4nd3-a1-m1-cB 4nd4-a1-m1-cA_4nd4-a1-m2-cA 4nd4-a1-m2-cB_4nd4-a1-m1-cB 4nd5-a1-m1-cB_4nd5-a1-m2-cA 4nd5-a1-m2-cB_4nd5-a1-m1-cA 4nd5-a2-m1-cD_4nd5-a2-m3-cC 4nd5-a2-m3-cD_4nd5-a2-m1-cC MIERRKIAVIGSGQIGGNIAYIVGKDNLADVVLFDIAEGIPQGKALDITHSMVMFGSTSKVIGTNDYADISGSDVVIITASIPGRPKDDRSELLFGNARILDSVAEGVKKYCPNAFVICITNPLDVMVSHFQKVSGLPHNKVCGMAGVLDSSRFRTFIAQHFGVNASDVSANVIGGHGDGMVPATSSVSVGGVPLSSFIKQGLITQEQIDEIVCHTRIAWKEVADNLKTGTAYFAPAAAAVKMAEAYLKDKKAVVPCSAFCSNHYGVKGIYMGVPTIIGKNGVEDILELDLTPLEQKLLGESINEVNTISKVLDNAP MIERRKIAVIGSGQIGGNIAYIVGKDNLADVVLFDIAEGIPQGKALDITHSMVMFGSTSKVIGTNDYADISGSDVVIITASIPGRPKDDRSELLFGNARILDSVAEGVKKYCPNAFVICITNPLDVMVSHFQKVSGLPHNKVCGMAGVLDSSRFRTFIAQHFGVNASDVSANVIGGHGDGMVPATSSVSVGGVPLSSFIKQGLITQEQIDEIVCHTRIAWKEVADNLKTGTAYFAPAAAAVKMAEAYLKDKKAVVPCSAFCSNHYGVKGIYMGVPTIIGKNGVEDILELDLTPLEQKLLGESINEVNTISKVLDNAP 4nd2-a1-m2-cB_4nd2-a1-m2-cA Crystal structure of the lactate dehydrogenase from cryptosporidium parvum complexed with substrate (pyruvic acid) and cofactor analog (3-acetylpyridine adenine dinucleotide) Q5CYZ2 Q5CYZ2 2 X-RAY DIFFRACTION 124 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 317 317 2fn7-a1-m1-cB_2fn7-a1-m1-cA 2fn7-a2-m1-cA_2fn7-a2-m1-cB 2fn7-a2-m2-cB_2fn7-a2-m2-cA 4nd1-a1-m1-cA_4nd1-a1-m1-cB 4nd1-a1-m2-cB_4nd1-a1-m2-cA 4nd2-a1-m1-cA_4nd2-a1-m1-cB 4nd3-a1-m1-cA_4nd3-a1-m1-cB 4nd3-a1-m2-cB_4nd3-a1-m2-cA 4nd4-a1-m1-cA_4nd4-a1-m1-cB 4nd4-a1-m2-cB_4nd4-a1-m2-cA 4nd5-a1-m1-cB_4nd5-a1-m1-cA 4nd5-a1-m2-cB_4nd5-a1-m2-cA 4nd5-a2-m1-cD_4nd5-a2-m1-cC 4nd5-a2-m3-cD_4nd5-a2-m3-cC MIERRKIAVIGSGQIGGNIAYIVGKDNLADVVLFDIAEGIPQGKALDITHSMVMFGSTSKVIGTNDYADISGSDVVIITASIPGRPKDDRSELLFGNARILDSVAEGVKKYCPNAFVICITNPLDVMVSHFQKVSGLPHNKVCGMAGVLDSSRFRTFIAQHFGVNASDVSANVIGGHGDGMVPATSSVSVGGVPLSSFIKQGLITQEQIDEIVCHTRIAWKEVADNLKTGTAYFAPAAAAVKMAEAYLKDKKAVVPCSAFCSNHYGVKGIYMGVPTIIGKNGVEDILELDLTPLEQKLLGESINEVNTISKVLDNAP MIERRKIAVIGSGQIGGNIAYIVGKDNLADVVLFDIAEGIPQGKALDITHSMVMFGSTSKVIGTNDYADISGSDVVIITASIPGRPKDDRSELLFGNARILDSVAEGVKKYCPNAFVICITNPLDVMVSHFQKVSGLPHNKVCGMAGVLDSSRFRTFIAQHFGVNASDVSANVIGGHGDGMVPATSSVSVGGVPLSSFIKQGLITQEQIDEIVCHTRIAWKEVADNLKTGTAYFAPAAAAVKMAEAYLKDKKAVVPCSAFCSNHYGVKGIYMGVPTIIGKNGVEDILELDLTPLEQKLLGESINEVNTISKVLDNAP 4nds-a1-m1-cA_4nds-a1-m1-cB Crystal structure of L. decastes alpha-galactosyl-binding lectin A7UNK4 A7UNK4 0.997 X-RAY DIFFRACTION 81 1.0 64660 (Lyophyllum decastes) 64660 (Lyophyllum decastes) 94 94 4ndt-a1-m1-cA_4ndt-a1-m2-cA 4ndu-a1-m1-cA_4ndu-a1-m1-cB 4ndv-a1-m1-cA_4ndv-a1-m1-cB ACWKANSCPGSAFESKDRLRSFALLYCRYNYKPPYGQGAFGYASAVSTHGWETEAQCINTFEQIITSCHGQSNGGTLELNSGRLSLAFGNCEEL ACWKANSCPGSAFESKDRLRSFALLYCRYNYKPPYGQGAFGYASAVSTHGWETEAQCINTFEQIITSCHGQSNGGTLELNSGRLSLAFGNCEEL 4ndy-a4-m1-cB_4ndy-a4-m1-cX Human MHF1-MHF2 DNA complex A8MT69 A8MT69 6.999 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 4ndy-a2-m1-cL_4ndy-a2-m1-cU 4ne1-a1-m1-cB_4ne1-a1-m1-cX 4ne1-a1-m1-cV_4ne1-a1-m1-cW 4ne1-a2-m1-cd_4ne1-a2-m1-cr 4ne1-a2-m1-ch_4ne1-a2-m1-co 4ne1-a2-m1-cp_4ne1-a2-m1-cq SGFRKELVSRLLHLHFKDDKTKVSGDALQLMVELLKVFVVEAAVRGVRQAQAEDALRVDVDQLEKVLPQLLLDF SGFRKELVSRLLHLHFKDDKTKVSGDALQLMVELLKVFVVEAAVRGVRQAQAEDALRVDVDQLEKVLPQLLLDF 4ndz-a2-m1-cD_4ndz-a2-m1-cE Structure of Maltose Binding Protein fusion to 2-O-Sulfotransferase with bound heptasaccharide and PAP Q76KB1 Q76KB1 3.45 X-RAY DIFFRACTION 131 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 654 654 4ndz-a1-m1-cB_4ndz-a1-m1-cC KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYEYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTKETIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPKS KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYEYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTKETIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPKS 4ndz-a2-m1-cD_4ndz-a2-m1-cF Structure of Maltose Binding Protein fusion to 2-O-Sulfotransferase with bound heptasaccharide and PAP Q76KB1 Q76KB1 3.45 X-RAY DIFFRACTION 115 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 654 654 4ndz-a1-m1-cA_4ndz-a1-m1-cB KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYEYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTKETIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPKS KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYEYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTKETIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPKS 4ndz-a2-m1-cE_4ndz-a2-m1-cF Structure of Maltose Binding Protein fusion to 2-O-Sulfotransferase with bound heptasaccharide and PAP Q76KB1 Q76KB1 3.45 X-RAY DIFFRACTION 113 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 654 654 4ndz-a1-m1-cA_4ndz-a1-m1-cC KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYEYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTKETIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPKS KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYEYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAADEEDDVVIIYNRVPKTASTSFTNIAYDLCAKNRYHVLHINTTKNNPVMSLQDQVRFVKNVTSWKEMKPGFYHGHVSYLDFAKFGVKKKPIYINVIRDPIERLVSYYYFLRFGDDYRPGLRRRKQGDKKTFDECVAAGGSDCAPEKLWLQIPFFCGHSSECWNVGSRWALEQAKYNLINEYFLVGVTEELEDFIMLLEAALPRFFRGATELYRTGKKSHLRKTTEKKLPTKETIAKLQQSEIWKMENEFYEFALEQFQFVRAHAVREKDGELYILAQNFFYEKIYPKS 4ne1-a1-m1-cD_4ne1-a1-m1-cH Human MHF1 MHF2 DNA complexes A8MT69 A8MT69 6.499 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 4ndy-a5-m1-cD_4ndy-a5-m1-cH SGFRKELVSRLLHLHFKDDKTKVSGDALQLMVELLKVFVVEAAVRGVRQAQAEDALRVDVDQLEKVLPQLLLDF SGFRKELVSRLLHLHFKDDKTKVSGDALQLMVELLKVFVVEAAVRGVRQAQAEDALRVDVDQLEKVLPQLLLDF 4ne1-a1-m1-cD_4ne1-a1-m1-cX Human MHF1 MHF2 DNA complexes A8MT69 A8MT69 6.499 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 SGFRKELVSRLLHLHFKDDKTKVSGDALQLMVELLKVFVVEAAVRGVRQAQAEDALRVDVDQLEKVLPQLLLDF SGFRKELVSRLLHLHFKDDKTKVSGDALQLMVELLKVFVVEAAVRGVRQAQAEDALRVDVDQLEKVLPQLLLDF 4ne7-a1-m1-cA_4ne7-a1-m2-cA Crystal Structure of engineered Kumamolisin-As from Alicyclobacillus sendaiensis, Northeast Structural Genomics Consortium (NESG) Target OR367 Q8GB88 Q8GB88 2.497 X-RAY DIFFRACTION 46 1.0 192387 (Alicyclobacillus sendaiensis) 192387 (Alicyclobacillus sendaiensis) 356 356 PTAYTPLDVAQAYQFPEGLDGQGQCIAIIELGGGYDEASLAQYFASLGVPAPQVVSVSVDGASNQPTGDPKGPDGEVELDIEVAGALAPGAKFAVYFAPDTTAGFLDAITTAIHDPTLKPSVVSISWSGPEDSWTSAAIAAMNRAFLDAAALGVTVLAAAGDSGSTGGEQDGLYHVHFPAASPYVLACGGTRLVASGGRIAQETVWNDGPDGGATGGGVSRIFPLPAWQEHANVPPSANPGASSGRGVPDLAGNADPATGYEVVIDGEATVIGGTSAVAPLFAALVARINQKLGKAVGYLNPTLYQLPADVFHDITEGNNDIANRAQIYQAGPGWDPCTGLGSPIGVRLLQALLPS PTAYTPLDVAQAYQFPEGLDGQGQCIAIIELGGGYDEASLAQYFASLGVPAPQVVSVSVDGASNQPTGDPKGPDGEVELDIEVAGALAPGAKFAVYFAPDTTAGFLDAITTAIHDPTLKPSVVSISWSGPEDSWTSAAIAAMNRAFLDAAALGVTVLAAAGDSGSTGGEQDGLYHVHFPAASPYVLACGGTRLVASGGRIAQETVWNDGPDGGATGGGVSRIFPLPAWQEHANVPPSANPGASSGRGVPDLAGNADPATGYEVVIDGEATVIGGTSAVAPLFAALVARINQKLGKAVGYLNPTLYQLPADVFHDITEGNNDIANRAQIYQAGPGWDPCTGLGSPIGVRLLQALLPS 4nec-a4-m1-cH_4nec-a4-m1-cD Conversion of a Disulfide Bond into a Thioacetal Group during Echinomycin Biosynthesis Q0X0A7 1.5 X-RAY DIFFRACTION 10 1.0 67293 (Streptomyces echinatus) 324833 (Streptomyces lasalocidi) 2 239 4nec-a1-m1-cE_4nec-a1-m1-cA 4nec-a3-m1-cG_4nec-a3-m1-cC AA HMTEVFDAVYRGESPFGKRPPWDIGAPQPAYVALEKAGLIQGAVLDAGCGTGEDALHLAGLGYAVTGLDLSPTAISVARDKADARGLGAVFEVADALDLTGWEERFDTVIDSGLAHTFEGDRLRAYATALHRACRPGAVAHILSISDRGSAEMQARLAEAIDEIPAPLPDSPTLKRSADHLRDGFAEGWTIESIDESLMRGVIPTTSELLDVHAWLGRFRRDWNSSSVDKLAAALEHHH 4neg-a1-m1-cB_4neg-a1-m1-cA The crystal structure of tryptophan synthase subunit beta from Bacillus anthracis str. 'Ames Ancestor' Q81TL8 Q81TL8 2.201 X-RAY DIFFRACTION 105 0.993 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 304 311 YVPETLQSVLELEEAYKEAEDEAFQKELNHYLKTYVGRETPLYFAENTEYCGGAKIYLKREDLNHTGAHKINNTIGQALLAVRGKKKVVAETGAGQHGVATATVCALLGLECVIFGEEDVRRQKLNVFRELLGAKVESVAASGTLKDAVNEALRYWVSHVHDTHYIGSVLGPHPFPQIVRDFQSVIGNETKKQYEALEGKLPEAVVACIGGSNAGFYPFVHDEEVALYGVEAAKDIGRVSYHSITDDEALEAFQLLTKKEGIIPALESSHAVAYALKLAPQKEDEGLVICLSGRGDKDVESIKR VPETLQSVLELEEAYKEAEDEAFQKELNHYLKTYVGRETPLYFAENTEYCGGAKIYLKREDLNHTGAHKINNTIGQALLAVRGKKKVVAETGAGQHGVATATVCALLGLECVIFGEEDVRRQKLNVFRELLGAKVESVAAGTLKDAVNEALRYWVSHVHDTHYIGSVLGPHPFPQIVRDFQSVIGNETKKQYEALEGKLPEAVVACIGGGSNAGFYPFVHDEEVALYGVEAAGDYHSLLKDIGRVSYHSITDDEALEAFQLLTKKEGIIPALESSHAVAYALKLAPQKEDEGLVICLSGRGDKDVESIKRY 4nei-a1-m1-cA_4nei-a1-m1-cB Alg17c PL17 Family Alginate Lyase Q21FJ0 Q21FJ0 1.85 X-RAY DIFFRACTION 134 1.0 203122 (Saccharophagus degradans 2-40) 203122 (Saccharophagus degradans 2-40) 705 705 4ojz-a1-m1-cB_4ojz-a1-m1-cA 4ok2-a1-m1-cB_4ok2-a1-m1-cA 4ok4-a1-m1-cA_4ok4-a1-m1-cB HPNLIVTEQDVANIAASWESYDAYAEQLNADKTNLDAFMAEGVVVPMPKDAGGGYTHEQHKRNYKAIRNAGFLYQVTGDEKYLTFAKDLLLAYAKMYPSLGEHPNRKEQSPGRLFWQSLNEAVWLVYSIQGYDAIIDGLAAEEKQEIESGVFLPMAKFLSVESPETFNKIHNHGTWAVAAVGMTGYVLGNDELVEISLMGLDKTGKAGFMKQLDKLFSPDGYYTEGPYYQRYALMPFIWFAKAIETNEPERKIFEYRNNILLKAVYTTIDLSYAGYFFPINDALKDKGIDTVELVHALAIVYSITGDNTLLDIAQEQGRISLTGDGLKVAKAVGEGLTQPYNYRSILLGDGADGDQGALSIHRLGEGHNHMALVAKNTSQGMGHGHFDKLNWLLYDNGNEIVTDYGAARYLNVEAKYGGHYLAENNTWAKQTIAHNTLVVNEQSHFYGDVTTADLHHPEVLSFYSGEDYQLSSAKEANAYDGVEFVRSMLLVNVPSLEHPIVVDVLNVSADKASTFDLPLYFNGQIIDFSFKVKDNKNVMKMLGKRNGYQHLWLRNTAPVGDASERATWILDDRFYSYAFVTSTPSKKQNVLIAELGANDPNYNLRQQQVLIRRVEKAKQASFVSVLEPHGKYDGSLETTSGAYSNVKSVKHVSENGKDVVVVDLKDGSNVVVALSYNANSEQVHKVNAGEEAIEWKGFSSVVVR HPNLIVTEQDVANIAASWESYDAYAEQLNADKTNLDAFMAEGVVVPMPKDAGGGYTHEQHKRNYKAIRNAGFLYQVTGDEKYLTFAKDLLLAYAKMYPSLGEHPNRKEQSPGRLFWQSLNEAVWLVYSIQGYDAIIDGLAAEEKQEIESGVFLPMAKFLSVESPETFNKIHNHGTWAVAAVGMTGYVLGNDELVEISLMGLDKTGKAGFMKQLDKLFSPDGYYTEGPYYQRYALMPFIWFAKAIETNEPERKIFEYRNNILLKAVYTTIDLSYAGYFFPINDALKDKGIDTVELVHALAIVYSITGDNTLLDIAQEQGRISLTGDGLKVAKAVGEGLTQPYNYRSILLGDGADGDQGALSIHRLGEGHNHMALVAKNTSQGMGHGHFDKLNWLLYDNGNEIVTDYGAARYLNVEAKYGGHYLAENNTWAKQTIAHNTLVVNEQSHFYGDVTTADLHHPEVLSFYSGEDYQLSSAKEANAYDGVEFVRSMLLVNVPSLEHPIVVDVLNVSADKASTFDLPLYFNGQIIDFSFKVKDNKNVMKMLGKRNGYQHLWLRNTAPVGDASERATWILDDRFYSYAFVTSTPSKKQNVLIAELGANDPNYNLRQQQVLIRRVEKAKQASFVSVLEPHGKYDGSLETTSGAYSNVKSVKHVSENGKDVVVVDLKDGSNVVVALSYNANSEQVHKVNAGEEAIEWKGFSSVVVR 4nes-a1-m1-cA_4nes-a1-m2-cA Crystal structure of Methanocaldococcus jannaschii UDP-GlcNAc 2-epimerase in complex with UDP-GlcNAc and UDP Q58899 Q58899 1.42 X-RAY DIFFRACTION 84 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 356 356 4neq-a1-m1-cA_4neq-a1-m2-cA KLSIILGTRPEIIKLSPIIRALEKTNIDWHIIHTNQHYSENDKIFFEELNLPNPKYNLNIGSGTHGEQTGKLIEIEKVLLKEKPDVVVVQGDTNTVLAGALVASKLKIDVAHVEAGLRSFDRNPEEINRVLTDHISSYLFAPTEIAKNNLLREGIEENKIFVVGNTIVDATLQNLKIAEKNENVRAFFNSVVDDYFLLTLHRAENVDNKERLKNIVEGIFEIIEIYDKAIIFSIHPRTKKRLKEFNLFDKLKSNKKIKIIEPVGYLEFLLEKNAELILTDSGGVQEEACILKVPCITLRDNTERPETVEVGANILVGDNKEKLIKAVEILNKKRNWKNPFGNGKSGERIVRILTYG KLSIILGTRPEIIKLSPIIRALEKTNIDWHIIHTNQHYSENDKIFFEELNLPNPKYNLNIGSGTHGEQTGKLIEIEKVLLKEKPDVVVVQGDTNTVLAGALVASKLKIDVAHVEAGLRSFDRNPEEINRVLTDHISSYLFAPTEIAKNNLLREGIEENKIFVVGNTIVDATLQNLKIAEKNENVRAFFNSVVDDYFLLTLHRAENVDNKERLKNIVEGIFEIIEIYDKAIIFSIHPRTKKRLKEFNLFDKLKSNKKIKIIEPVGYLEFLLEKNAELILTDSGGVQEEACILKVPCITLRDNTERPETVEVGANILVGDNKEKLIKAVEILNKKRNWKNPFGNGKSGERIVRILTYG 4ney-a1-m1-cA_4ney-a1-m1-cB Crystal Structure of an engineered protein with ferredoxin fold, Northeast Structural Genomics Consortium (NESG) Target OR277 2.323 X-RAY DIFFRACTION 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 163 164 GEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIRGSGSGSGSEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIRTGSLEHHHHH GEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIRGSGSGSGSEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIRTGSLEHHHHHH 4nez-a1-m1-cA_4nez-a1-m2-cA Crystal Structure of an engineered protein with ferredoxin fold, Northeast Structural Genomics Consortium (NESG) Target OR276 2.395 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 152 152 GEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIRGSGSGSGEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIR GEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIRGSGSGSGEIIFEGDDLEALEKALKEIRQARKFAGTVEYWLSGNRLIRITGVPEQVRKELAKEAERLKAEFNIQVEYQIR 4nf1-a2-m1-cC_4nf1-a2-m1-cD Structure of N-acetyltransferase domain of X. fastidiosa NAGS/K without his-tag Q87EL2 Q87EL2 1.3986 X-RAY DIFFRACTION 28 1.0 183190 (Xylella fastidiosa Temecula1) 183190 (Xylella fastidiosa Temecula1) 147 149 4nex-a1-m1-cB_4nex-a1-m1-cA 4nf1-a1-m1-cA_4nf1-a1-m1-cB 4nf1-a3-m1-cE_4nf1-a3-m1-cF 4nf1-a4-m1-cG_4nf1-a4-m1-cH MVIRATTWKDLDLPRLQHLIQSSFRRTLIPHYFETTPLLRAYVSENYRAAVILTKLGNVPYLDKFAVLDDAQGEGLGRAVWSIMREETPQLFWRSRHNNQANAFYYAESDGYYKQDHWKIFWNGLHHFQQIQQCVAHCTQHPPTLID SHMVIRATTWKDLDLPRLQHLIQSSFRRTLIPHYFETTPLLRAYVSENYRAAVILTKLGNVPYLDKFAVLDDAQGEGLGRAVWSIMREETPQLFWRSRHNNQANAFYYAESDGYYKQDHWKIFWNGLHHFQQIQQCVAHCTQHPPTLID 4nfz-a4-m2-cB_4nfz-a4-m4-cA Crystal structure of polymerase subunit PA N-terminal endonuclease domain from bat-derived influenza virus H17N10 H6QM92 H6QM92 2.7 X-RAY DIFFRACTION 18 1.0 1129347 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/060/2010(H17N10))) 1129347 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/060/2010(H17N10))) 196 196 4nfz-a4-m1-cA_4nfz-a4-m3-cB 4nfz-a4-m1-cA_4nfz-a4-m4-cC 4nfz-a4-m1-cC_4nfz-a4-m2-cB 4nfz-a4-m1-cC_4nfz-a4-m4-cA 4nfz-a4-m3-cB_4nfz-a4-m4-cC MENFVRTNFNPMILERAEKTMKEYGENPQNEGNKFAAISTHMEVCFMYSDFHFIDLEGNTIVKENDDDNAMLKHRFEIIEGQERNIAWTIVNSICNMTENSKPRFLPDLYDYKTNKFIEIGVTRRKVEDYYYEKASKLKGENVYIHIFSFDGEEMATDDEYILDEESRARIKTRLFVLRQELATAGLWDSFRQSEK MENFVRTNFNPMILERAEKTMKEYGENPQNEGNKFAAISTHMEVCFMYSDFHFIDLEGNTIVKENDDDNAMLKHRFEIIEGQERNIAWTIVNSICNMTENSKPRFLPDLYDYKTNKFIEIGVTRRKVEDYYYEKASKLKGENVYIHIFSFDGEEMATDDEYILDEESRARIKTRLFVLRQELATAGLWDSFRQSEK 4nfz-a4-m4-cA_4nfz-a4-m4-cC Crystal structure of polymerase subunit PA N-terminal endonuclease domain from bat-derived influenza virus H17N10 H6QM92 H6QM92 2.7 X-RAY DIFFRACTION 30 1.0 1129347 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/060/2010(H17N10))) 1129347 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/060/2010(H17N10))) 196 196 4nfz-a4-m1-cA_4nfz-a4-m1-cC 4nfz-a4-m2-cB_4nfz-a4-m3-cB MENFVRTNFNPMILERAEKTMKEYGENPQNEGNKFAAISTHMEVCFMYSDFHFIDLEGNTIVKENDDDNAMLKHRFEIIEGQERNIAWTIVNSICNMTENSKPRFLPDLYDYKTNKFIEIGVTRRKVEDYYYEKASKLKGENVYIHIFSFDGEEMATDDEYILDEESRARIKTRLFVLRQELATAGLWDSFRQSEK MENFVRTNFNPMILERAEKTMKEYGENPQNEGNKFAAISTHMEVCFMYSDFHFIDLEGNTIVKENDDDNAMLKHRFEIIEGQERNIAWTIVNSICNMTENSKPRFLPDLYDYKTNKFIEIGVTRRKVEDYYYEKASKLKGENVYIHIFSFDGEEMATDDEYILDEESRARIKTRLFVLRQELATAGLWDSFRQSEK 4ng2-a3-m1-cJ_4ng2-a3-m1-cI Crystal structure of LasR LBD-QslA complex from Pseudomonas aeruginosa Q9I494 Q9I494 2.413 X-RAY DIFFRACTION 42 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 82 94 4ng2-a1-m1-cF_4ng2-a1-m1-cE 4ng2-a2-m1-cG_4ng2-a2-m1-cH 4ng2-a4-m1-cK_4ng2-a4-m1-cL DLMVEIPPADRQPGLSLLWPVPAQPAIDKGVRQAENWLADQIEGQLWTAFAFGRDSLPTPMQKTAFEVAFLTRLQQRLVAAR KTHVDAIIERYKDLMVEIPPADRQPGLSLLWPVPAQPAIDKGVRQAENWLADQIEGQLWTAFAFGRDSLPTPMQKTAFEVAFLTRLQQRLVAAR 4nh4-a1-m1-cB_4nh4-a1-m1-cA Structure of the binary complex of a zingiber officinale double bond reductase in complex with NADP A0A096LNF0 A0A096LNF0 2.1 X-RAY DIFFRACTION 91 1.0 94328 (Zingiber officinale) 94328 (Zingiber officinale) 351 352 4mkr-a1-m1-cB_4mkr-a1-m1-cA 4mkr-a2-m1-cD_4mkr-a2-m1-cC 4we3-a2-m1-cD_4we3-a2-m1-cC 4wgg-a1-m1-cB_4wgg-a1-m1-cA VVVVNKQVLLKHFIPEGAPKETDMELVTTGTIRLRVPEGSNAVLLKNLYLSCDPYMRMRMTKHEEASYVDDFVPGAPITGFGVGKVVDSSHPDFKTGDYVWGLIGWEEYSLITKPQGLFKIHHTEIPLSYYTGILGMVGLTAYVGFYDICSPKKGERVFVSAAAGAVGQIVGQFAKQFGCYVVGSAGSDEKVNLLKTKFGFDEAFNYKKEPDLTKALKRYFPEGIDIYFENVGGPMLEAVLHNMRIKGRIAACGMISQYNLEKPEGVHNLFLIVGKRIRLEGFLVFDHYGSYPEFEEKVVQLIKEEKIKYLEDIVEGLENAPAALIGLFEGRNVGKQVVVVSREKGHHHHH VVVVNKQVLLKHFIPEGAPKETDMELVTTGTIRLRVPEGSNAVLLKNLYLSCDPYMRMRMTKHEEASYVDDFVPGAPITGFGVGKVVDSSHPDFKTGDYVWGLIGWEEYSLITKPQGLFKIHHTEIPLSYYTGILGMVGLTAYVGFYDICSPKKGERVFVSAAAGAVGQIVGQFAKQFGCYVVGSAGSDEKVNLLKTKFGFDEAFNYKKEPDLTKALKRYFPEGIDIYFENVGGPMLEAVLHNMRIKGRIAACGMISQYNLEKPEGVHNLFLIVGKRIRLEGFLVFDHYGSYPEFEEKVVQLIKEEKIKYLEDIVEGLENAPAALIGLFEGRNVGKQVVVVSREKGHHHHHH 4nhd-a2-m1-cB_4nhd-a2-m1-cD Crystal structure of beta-ketoacyl-ACP synthase III (FabH) from Vibrio Cholerae in complex with Coenzyme A Q9KQH5 Q9KQH5 1.78 X-RAY DIFFRACTION 230 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 316 317 4nhd-a1-m1-cA_4nhd-a1-m1-cC AMYSKILGTGSYLPSQVRTNADLEKMVETSDEWIVARTGIRERRIAADNETVADMAFFAAQNAINMAGIDKHDIDMIIVATTSASHTFPSAACQVQGKLGIKGCPAFDLAAASGFMYALSIADQHVKSGMCKHVLVIGADALSKTCDPTDRSTIILFGDGAGAVVVGASNEPGILSTHIHADGEFGDLLSLEVPVRGGDSDKWLHMAGNEVFKVAVTQLSKLVVDTLKANNMHKSELDWLVPHQANYRIISATAKKLSMSLDQVVITLDRHGNTSAATVPTALDEAVRDGRIQRGQMLLLEAFGGGFTWGSALVKF NAMYSKILGTGSYLPSQVRTNADLEKMVETSDEWIVARTGIRERRIAADNETVADMAFFAAQNAINMAGIDKHDIDMIIVATTSASHTFPSAACQVQGKLGIKGCPAFDLAAASGFMYALSIADQHVKSGMCKHVLVIGADALSKTCDPTDRSTIILFGDGAGAVVVGASNEPGILSTHIHADGEFGDLLSLEVPVRGGDSDKWLHMAGNEVFKVAVTQLSKLVVDTLKANNMHKSELDWLVPHQANYRIISATAKKLSMSLDQVVITLDRHGNTSAATVPTALDEAVRDGRIQRGQMLLLEAFGGGFTWGSALVKF 4nhe-a2-m1-cC_4nhe-a2-m2-cC The crystal structure of oxidoreductase (Gfo/Idh/MocA family) from Streptococcus pneumoniae TIGR4 in complex with NADP A0A0H2UR04 A0A0H2UR04 1.95 X-RAY DIFFRACTION 89 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 326 326 2ho5-a1-m1-cB_2ho5-a1-m1-cA 4iq0-a1-m1-cA_4iq0-a1-m1-cC 4iq0-a2-m1-cB_4iq0-a2-m1-cD 4nhe-a1-m1-cA_4nhe-a1-m1-cB AMLKLGVIGTGAISHHFIEAAHTSGEYQLVAIYSRKLETAATFASRYQNIQLFDQLEVFFKSSFDLVYIASPNSLHFAQAKAALSAGKHVILEKPAVSQPQEWFDLIQTAEKNNCFIFEAARNYHEKAFTTIKNFLADKQVLGADFNYAKYSSKMPDLLAGQTPNVFSDRFAGGALMDLGIYPLYAAVRLFGKANDATYHAQQLDNSIDLNGDGILFYPDYQVHIKAGKNITSNLPCEIYTTDGTLTLNTIEHIRSAIFTDHQGNQVQLPIQQAPHTMTEEVAAFAHMIQQPDLNLYQTWLYDAGSVHELLYTMRQTAGIRFEAEK AMLKLGVIGTGAISHHFIEAAHTSGEYQLVAIYSRKLETAATFASRYQNIQLFDQLEVFFKSSFDLVYIASPNSLHFAQAKAALSAGKHVILEKPAVSQPQEWFDLIQTAEKNNCFIFEAARNYHEKAFTTIKNFLADKQVLGADFNYAKYSSKMPDLLAGQTPNVFSDRFAGGALMDLGIYPLYAAVRLFGKANDATYHAQQLDNSIDLNGDGILFYPDYQVHIKAGKNITSNLPCEIYTTDGTLTLNTIEHIRSAIFTDHQGNQVQLPIQQAPHTMTEEVAAFAHMIQQPDLNLYQTWLYDAGSVHELLYTMRQTAGIRFEAEK 4nhf-a3-m1-cE_4nhf-a3-m1-cF Crystal structure of the soluble domain of TrwG Type IV secretion machinery from Bartonella grahamii C6AAT5 C6AAT5 2 X-RAY DIFFRACTION 31 1.0 634504 (Bartonella grahamii as4aup) 634504 (Bartonella grahamii as4aup) 142 143 4nhf-a1-m1-cB_4nhf-a1-m1-cA 4nhf-a2-m1-cC_4nhf-a2-m1-cD ETSYGEVVDRYWLNQYVLNRENYDYDTIQLNYDTTALLSAASVQQEYYKIYDGENARDKVLSNKARITVKVRSIQLNGLGQATVRFTTQQLDSSGATTGPKQHQIATIGYTYVGAPMKSSDRLLNPLGFQITSYRSDPEILL ETSYGEVVDRYWLNQYVLNRENYDYDTIQLNYDTTALLSAASVQQEYYKIYDGENARDKVLSNKARITVKVRSIQLNGLGQATVRFTTQQLDSSGATTGPKQHQIATIGYTYVGAPMKSSDRLLNPLGFQITSYRSDPEILLN 4nhj-a1-m1-cB_4nhj-a1-m1-cA Crystal structure of Klebsiella pneumoniae RstA DNA-binding domain in complex with RstA box A6T8N1 A6T8N1 2.701 X-RAY DIFFRACTION 25 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 101 102 HKTISFGSLTIDPVNRQVMLGGENVALSTADFDMLWELATHAGQIMDRDALLKNLRGVTYDGMDRSVDVAISRLRKKLLDNATEPYRIKTVRNKGYLFAPH PHKTISFGSLTIDPVNRQVMLGGENVALSTADFDMLWELATHAGQIMDRDALLKNLRGVTYDGMDRSVDVAISRLRKKLLDNATEPYRIKTVRNKGYLFAPH 4nhr-a2-m1-cA_4nhr-a2-m2-cA Crystal structure of the outer membrane lipopolysaccharide transport protein LptE (RlpB) P0ADC1 P0ADC1 2.34 X-RAY DIFFRACTION 110 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 137 137 MKVMILDSGDPNGPLSRAVRNQLRLNGVELLDKETTRKDVPSLRLGKVSIAKDTASVFRNGQTAEYQMIMTVNATVLIPGRDIYPISAKVFRSFFDNPQMALAKDNEQDMIVKEMYDRAAEQLIRKLPSIRAADIRS MKVMILDSGDPNGPLSRAVRNQLRLNGVELLDKETTRKDVPSLRLGKVSIAKDTASVFRNGQTAEYQMIMTVNATVLIPGRDIYPISAKVFRSFFDNPQMALAKDNEQDMIVKEMYDRAAEQLIRKLPSIRAADIRS 4nhv-a3-m5-cB_4nhv-a3-m1-cA Crystal structure of B. anthracis DHPS with interfacial compound 4: 5-(trifluoromethyl)-1,2-benzoxazol-3-amine Q81VW8 Q81VW8 1.992 X-RAY DIFFRACTION 31 0.996 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 264 274 1tx2-a3-m3-cB_1tx2-a3-m2-cA 1tx2-a3-m4-cB_1tx2-a3-m1-cA 3v5o-a3-m1-cB_3v5o-a3-m5-cA 3v5o-a3-m3-cB_3v5o-a3-m4-cA 4d8a-a3-m1-cB_4d8a-a3-m5-cA 4d8a-a3-m3-cB_4d8a-a3-m4-cA 4d8z-a3-m1-cB_4d8z-a3-m5-cA 4d8z-a3-m3-cB_4d8z-a3-m4-cA 4d9p-a3-m4-cB_4d9p-a3-m2-cA 4d9p-a3-m5-cB_4d9p-a3-m1-cA 4nhv-a3-m4-cB_4nhv-a3-m2-cA 4nil-a3-m4-cB_4nil-a3-m2-cA 4nil-a3-m5-cB_4nil-a3-m1-cA 4nir-a3-m4-cB_4nir-a3-m2-cA 4nir-a3-m5-cB_4nir-a3-m1-cA KWDYDLRCGEYTLNLNEKTLIMGILNVTPSDGGSYNEVDAAVRHAKEMRDEGAHIIDIGGESVSVEEEIKRVVPMIQAVSKEVKLPISIDTYKAEVAKQAIEAGAHIINDIWGAKAEPKIAEVAAHYDVPIILMHNRDNMNYRNLMADMIADLYDSIKIAKDAGVRDENIILDPGIGFAKTPEQNLEAMRNLEQLNVLGYPVLLGTSRKSFIGHVLDLPVEERLEGTGATVCLGIEKGCEFVRVHDVKEMSRMAKMMDAMIGKG MKWDYDLRCGEYTLNLNEKTLIMGILNVTPDSFSDGGSYNEVDAAVRHAKEMRDEGAHIIDIGGESTRPGFAKVSVEEEIKRVVPMIQAVSKEVKLPISIDTYKAEVAKQAIEAGAHIINDIWGAKAEPKIAEVAAHYDVPIILMHNRDNMNYRNLMADMIADLYDSIKIAKDAGVRDENIILDPGIGFAKTPEQNLEAMRNLEQLNVLGYPVLLGTSRKSFIGHVLDLPVEERLEGTGATVCLGIEKGCEFVRVHDVKEMSRMAKMMDAMIGK 4nhw-a1-m1-cA_4nhw-a1-m1-cB Crystal structure of glutathione transferase SMc00097 from Sinorhizobium meliloti, target EFI-507275, with one glutathione bound per one protein subunit 2 X-RAY DIFFRACTION 83 1.0 1286640 (Sinorhizobium meliloti 2011) 1286640 (Sinorhizobium meliloti 2011) 213 215 MLTIYGVYRSRASRNYWMAGELGLPFRSVPVVQAHRVADPLAADAPLNTKSPGFLAINPMGLIPAIEDDGLVLTESLANNLYLARKHGGPLAPADIREEGQIGNWTMWAATEVEPHAVKIVLAHTPEGRAEIAACARSLEKAFAVLETHLAERDYVVGDRFTVADLNLAEVFRYTMSQTDLFKRHPQVKAWLARCQSRPAFKAMMEERLKEPE MLTIYGVYRSRASRNYWMAGELGLPFRSVPVVQAHRVADPLAADAPLNTKSPGFLAINPMGLIPAIEDDGLVLTESLANNLYLARKHGGPLAPADIREEGQIGNWTMWAATEVEPHAVKIVLAHDNTPEGRAEIAACARSLEKAFAVLETHLAERDYVVGDRFTVADLNLAEVFRYTMSQTDLFKRHPQVKAWLARCQSRPAFKAMMEERLKEPE 4nhy-a6-m3-cC_4nhy-a6-m1-cD Crystal structure of human OGFOD1, 2-oxoglutarate and iron-dependent oxygenase domain containing 1, in complex with pyridine-2,4-dicarboxylic acid (2,4-PDCA) Q8N543 Q8N543 2.603 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 457 461 4nhy-a5-m1-cA_4nhy-a5-m2-cB AEFSDAVTEETLKKQVAEAWSRRTPFSHEVIVMDMDPFLHCVIPNFIQSQDFLEGLQKELMNLDFHEKYNDLYKFQQSDDLKKRREPHISTLRKILFEDFRSWLSDISKIDLESTIDMSCAKYEFTDALLCHDDELEGRRIAFILYLVPPWDRSMGGTLDLYSIDEHFQPKQIVKSLIPSWNKLVFFEVSPVSFHQVSEVLSEEKSRLSISGWFHGPSLTRPPNYFEPPIPRSPHIPQDHEILYDWINPTYLDMDYQVQIQEEFEESSEILLKEFLKPEKFTKVCEALEHGHVEWSSRGPPNKRFYEKAEESKLPEILKECMKLFRSEALFLLLSNFTGLKLHFLAPSSVPMCQGELRHWKTGHYTLIHKAEFALDLILYCGCEGWEPEYGGFTSYIAKGEDEELLTVNPESNSLALVYRDRETLKFVKHINHRSLEQKKTFPNRTGFWDFSFIYYE AEFSDAVTEETLKKQVAEAWSRRTPFSHEVIVMDMDPFLHCVIPNFIQSQDFLEGLQKELMNLDFHEKYNDLYKFQQSDDLKKRREPHISTLRKILFEDFRSWLSDISKIDLESTIDMSCAKYEFTDALLCHDDELEGRRIAFILYLVPPWDRSMGGTLDLYSIDEHFQPKQIVKSLIPSWNKLVFFEVSPVSFHQVSEVLSEEKSRLSISGWFHGPSLTRPPNYFEPPIPRSPHIPQDHEILYDWINPTYLDMDYQVQIQEEFEESSEILLKEFLKPEKFTKVCEALEHGHVEWSSRGPPNKRFYEKAEESKLPEILKECMKLFRSEALFLLLSNFTGLKLHFLAPSSSVPMCQGELRHWKTGHYTLIHDHSKAEFALDLILYCGCEGWEPEYGGFTSYIAKGEDEELLTVNPESNSLALVYRDRETLKFVKHINHRSLEQKKTFPNRTGFWDFSFIYYE 4nhz-a8-m1-cO_4nhz-a8-m1-cP Crystal structure of glutathione transferase BBTA-3750 from Bradyrhizobium sp., Target EFI-507290, with one glutathione bound A5EI34 A5EI34 1.901 X-RAY DIFFRACTION 104 1.0 288000 (Bradyrhizobium sp. BTAi1) 288000 (Bradyrhizobium sp. BTAi1) 231 232 4nhz-a1-m1-cA_4nhz-a1-m1-cB 4nhz-a2-m1-cD_4nhz-a2-m1-cC 4nhz-a3-m1-cF_4nhz-a3-m1-cE 4nhz-a4-m1-cG_4nhz-a4-m1-cH 4nhz-a5-m1-cJ_4nhz-a5-m1-cI 4nhz-a6-m1-cK_4nhz-a6-m1-cL 4nhz-a7-m1-cM_4nhz-a7-m1-cN LSSFPITKRWPAQHSDRIQLYSLPTPNGVKVSIMLEETGLPYEPHAIDFGKDHQKTPEFLSLNPNGKIPAIIDPNGPGDKPLGLFESGAILQYLAEKTGQFLPADPARRWQTLQWLHFQMGGIGPMFGQLGFFHKFAGREYEDKRPLQRYVAESKRLLGVLEARLDGRQWIMDADYTIADIATLGWVRNLIGFYGARELVAFDELTHVPAWLERGLARPAVQRGLEIPKRP DLSSFPITKRWPAQHSDRIQLYSLPTPNGVKVSIMLEETGLPYEPHAIDFGKDHQKTPEFLSLNPNGKIPAIIDPNGPGDKPLGLFESGAILQYLAEKTGQFLPADPARRWQTLQWLHFQMGGIGPMFGQLGFFHKFAGREYEDKRPLQRYVAESKRLLGVLEARLDGRQWIMDADYTIADIATLGWVRNLIGFYGARELVAFDELTHVPAWLERGLARPAVQRGLEIPKRP 4ni5-a1-m1-cA_4ni5-a1-m2-cB Crystal Structure of a Short Chain Dehydrogenase from Brucella suis B0CGS2 B0CGS2 1.7 X-RAY DIFFRACTION 11 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 225 226 4ni5-a1-m2-cA_4ni5-a1-m1-cB MRFKDKVVIVTGGASGIGEATARAFIREGAKVVIADFSDALFIKTDVADTRAVQALIARTVENYGRLDIMFANAGIAADAPIDELDEAAWQKTIDINLTGVYLCDKYAIDQMRSQGGGVIVNCGSIHSHVGKSGVTAYAAAKGGVKLLTQTLAIDYGPQNIRVNAVCPGYIDTPDDKKQALVALHPMGRLGRAEEVANAVLFLASDEASFVNGASLLVDGGYTAQ MRFKDKVVIVTGGASGIGEATARAFIREGAKVVIADFSDALFIKTDVADTRAVQALIARTVENYGRLDIMFANAGIAADAPIDELDEAAWQKTIDINLTGVYLCDKYAIDQMRSQGGGVIVNCGSIHSHVGKSGVTAYAAAKGGVKLLTQTLAIDYGPQNIRVNAVCPGYIDTIPDDKKQALVALHPMGRLGRAEEVANAVLFLASDEASFVNGASLLVDGGYTAQ 4ni5-a2-m1-cA_4ni5-a2-m1-cB Crystal Structure of a Short Chain Dehydrogenase from Brucella suis B0CGS2 B0CGS2 1.7 X-RAY DIFFRACTION 125 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 225 226 4ni5-a1-m1-cA_4ni5-a1-m1-cB 4ni5-a1-m2-cA_4ni5-a1-m2-cB MRFKDKVVIVTGGASGIGEATARAFIREGAKVVIADFSDALFIKTDVADTRAVQALIARTVENYGRLDIMFANAGIAADAPIDELDEAAWQKTIDINLTGVYLCDKYAIDQMRSQGGGVIVNCGSIHSHVGKSGVTAYAAAKGGVKLLTQTLAIDYGPQNIRVNAVCPGYIDTPDDKKQALVALHPMGRLGRAEEVANAVLFLASDEASFVNGASLLVDGGYTAQ MRFKDKVVIVTGGASGIGEATARAFIREGAKVVIADFSDALFIKTDVADTRAVQALIARTVENYGRLDIMFANAGIAADAPIDELDEAAWQKTIDINLTGVYLCDKYAIDQMRSQGGGVIVNCGSIHSHVGKSGVTAYAAAKGGVKLLTQTLAIDYGPQNIRVNAVCPGYIDTIPDDKKQALVALHPMGRLGRAEEVANAVLFLASDEASFVNGASLLVDGGYTAQ 4ni5-a4-m1-cB_4ni5-a4-m2-cB Crystal Structure of a Short Chain Dehydrogenase from Brucella suis B0CGS2 B0CGS2 1.7 X-RAY DIFFRACTION 129 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 226 226 4ni5-a1-m1-cA_4ni5-a1-m2-cA 4ni5-a1-m1-cB_4ni5-a1-m2-cB 4ni5-a3-m1-cA_4ni5-a3-m2-cA MRFKDKVVIVTGGASGIGEATARAFIREGAKVVIADFSDALFIKTDVADTRAVQALIARTVENYGRLDIMFANAGIAADAPIDELDEAAWQKTIDINLTGVYLCDKYAIDQMRSQGGGVIVNCGSIHSHVGKSGVTAYAAAKGGVKLLTQTLAIDYGPQNIRVNAVCPGYIDTIPDDKKQALVALHPMGRLGRAEEVANAVLFLASDEASFVNGASLLVDGGYTAQ MRFKDKVVIVTGGASGIGEATARAFIREGAKVVIADFSDALFIKTDVADTRAVQALIARTVENYGRLDIMFANAGIAADAPIDELDEAAWQKTIDINLTGVYLCDKYAIDQMRSQGGGVIVNCGSIHSHVGKSGVTAYAAAKGGVKLLTQTLAIDYGPQNIRVNAVCPGYIDTIPDDKKQALVALHPMGRLGRAEEVANAVLFLASDEASFVNGASLLVDGGYTAQ 4nic-a2-m1-cC_4nic-a2-m1-cD Crystal structure of Klebsiella pneumoniae RstA BeF3-activated N-terminal receiver domain 3.18 X-RAY DIFFRACTION 29 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 117 117 4nic-a1-m1-cA_4nic-a1-m1-cB NKIVFVEDDPEVGTLIAAYLGKHDMDVVVEPRGDRAEEVIAREKPDLVLLDIMLPGKDGMTLCRDLRGQWQGPIVLLTSLDSDMNHILSLEMGASDYILKTTPPAVLLARLRLHLRQ NKIVFVEDDPEVGTLIAAYLGKHDMDVVVEPRGDRAEEVIAREKPDLVLLDIMLPGKDGMTLCRDLRGQWQGPIVLLTSLDSDMNHILSLEMGASDYILKTTPPAVLLARLRLHLRQ 4nif-a1-m1-cA_4nif-a1-m1-cD Heterodimeric structure of ERK2 and RSK1 Q15418 Q15418 2.15 X-RAY DIFFRACTION 55 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 313 313 VFSDGYVVKETIGVGSYSECKRCVHKATNMEYAVKVIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKHVYLVTELMRGGELLDKILRQKFFSEREASFVLHTIGKTVEYLHSQGVVHRDLKPSNILYVDESGNPECLRICDFGFAKQLRAENGLLMTPCYFVAPEVLKRQGYDEGCDIWSLGILLYTMLAGYTPFANGPSDTPEEILTRIGSGKFTLSGGNWNTVSETAKDLVSKMLHVDPHQRLTAKQVLQHPWVTQKDKLPQSQLSHQDLQLVKGAMAATYSALNSSKPTPQLKPIESSILAQRRVR VFSDGYVVKETIGVGSYSECKRCVHKATNMEYAVKVIDKSKRDPSEEIEILLRYGQHPNIITLKDVYDDGKHVYLVTELMRGGELLDKILRQKFFSEREASFVLHTIGKTVEYLHSQGVVHRDLKPSNILYVDESGNPECLRICDFGFAKQLRAENGLLMTPCNFVAPEVLKRQGYDEGCDIWSLGILLYTMLAGYTPFANGPSDTPEEILTRIGSGKFTLSGGNWNTVSETAKDLVSKMLHVDPHQRLTAKQVLQHPWVTQKDKLPQSQLSHQDLQLVKGAMAATYSALNSSKPTPQLKPIESSILAQRRVR 4nim-a3-m1-cA_4nim-a3-m4-cA Crystal Structure of a Short Chain Dehydrogenase from Brucella melitensis C0RJU5 C0RJU5 1.8 X-RAY DIFFRACTION 70 1.0 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 240 240 4nim-a3-m2-cA_4nim-a3-m3-cA GQLKGKIAVITGSTQGLGAATARLFAERGAQGLVICGRSAEKGRAQAAGLEELGAKAVFVQVDLENVEDCRRIVAEADRAFGRLDILVNAAGLTDRGTILDTSPELFDRLFAVNTRAPFFLIQEAIKLFRRDRVEGAIVNVSSMSSMGGQPFIAAYCASKGALDTLTRNVAYSVLRNRIRVNSLNIGWMAFGRLLDPAKVARAIAFLASEESGLMTGAIVNFDQSVWGAYDGSPHPEKPL GQLKGKIAVITGSTQGLGAATARLFAERGAQGLVICGRSAEKGRAQAAGLEELGAKAVFVQVDLENVEDCRRIVAEADRAFGRLDILVNAAGLTDRGTILDTSPELFDRLFAVNTRAPFFLIQEAIKLFRRDRVEGAIVNVSSMSSMGGQPFIAAYCASKGALDTLTRNVAYSVLRNRIRVNSLNIGWMAFGRLLDPAKVARAIAFLASEESGLMTGAIVNFDQSVWGAYDGSPHPEKPL 4nim-a3-m2-cA_4nim-a3-m4-cA Crystal Structure of a Short Chain Dehydrogenase from Brucella melitensis C0RJU5 C0RJU5 1.8 X-RAY DIFFRACTION 91 1.0 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 240 240 4nim-a3-m1-cA_4nim-a3-m3-cA GQLKGKIAVITGSTQGLGAATARLFAERGAQGLVICGRSAEKGRAQAAGLEELGAKAVFVQVDLENVEDCRRIVAEADRAFGRLDILVNAAGLTDRGTILDTSPELFDRLFAVNTRAPFFLIQEAIKLFRRDRVEGAIVNVSSMSSMGGQPFIAAYCASKGALDTLTRNVAYSVLRNRIRVNSLNIGWMAFGRLLDPAKVARAIAFLASEESGLMTGAIVNFDQSVWGAYDGSPHPEKPL GQLKGKIAVITGSTQGLGAATARLFAERGAQGLVICGRSAEKGRAQAAGLEELGAKAVFVQVDLENVEDCRRIVAEADRAFGRLDILVNAAGLTDRGTILDTSPELFDRLFAVNTRAPFFLIQEAIKLFRRDRVEGAIVNVSSMSSMGGQPFIAAYCASKGALDTLTRNVAYSVLRNRIRVNSLNIGWMAFGRLLDPAKVARAIAFLASEESGLMTGAIVNFDQSVWGAYDGSPHPEKPL 4nim-a3-m3-cA_4nim-a3-m4-cA Crystal Structure of a Short Chain Dehydrogenase from Brucella melitensis C0RJU5 C0RJU5 1.8 X-RAY DIFFRACTION 169 1.0 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 240 240 4nim-a2-m1-cA_4nim-a2-m2-cA 4nim-a3-m1-cA_4nim-a3-m2-cA GQLKGKIAVITGSTQGLGAATARLFAERGAQGLVICGRSAEKGRAQAAGLEELGAKAVFVQVDLENVEDCRRIVAEADRAFGRLDILVNAAGLTDRGTILDTSPELFDRLFAVNTRAPFFLIQEAIKLFRRDRVEGAIVNVSSMSSMGGQPFIAAYCASKGALDTLTRNVAYSVLRNRIRVNSLNIGWMAFGRLLDPAKVARAIAFLASEESGLMTGAIVNFDQSVWGAYDGSPHPEKPL GQLKGKIAVITGSTQGLGAATARLFAERGAQGLVICGRSAEKGRAQAAGLEELGAKAVFVQVDLENVEDCRRIVAEADRAFGRLDILVNAAGLTDRGTILDTSPELFDRLFAVNTRAPFFLIQEAIKLFRRDRVEGAIVNVSSMSSMGGQPFIAAYCASKGALDTLTRNVAYSVLRNRIRVNSLNIGWMAFGRLLDPAKVARAIAFLASEESGLMTGAIVNFDQSVWGAYDGSPHPEKPL 4nin-a1-m10-cA_4nin-a1-m9-cA DSVISLS segment 101-107 from Human Superoxide Dismutase P00441 P00441 1.402 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 4nin-a1-m10-cA_4nin-a1-m6-cA 4nin-a1-m1-cA_4nin-a1-m2-cA 4nin-a1-m1-cA_4nin-a1-m5-cA 4nin-a1-m2-cA_4nin-a1-m3-cA 4nin-a1-m4-cA_4nin-a1-m5-cA 4nin-a1-m6-cA_4nin-a1-m7-cA 4nin-a1-m7-cA_4nin-a1-m8-cA DSVISLS DSVISLS 4nio-a1-m6-cA_4nio-a1-m9-cA GVTGIAQ segment 147-153 from Human Superoxide Dismutase with I149T mutation associated with a familial form of amyotrophic lateral sclerosis P00441 P00441 1.3 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 4nio-a1-m10-cA_4nio-a1-m9-cA 4nio-a1-m1-cA_4nio-a1-m2-cA 4nio-a1-m1-cA_4nio-a1-m4-cA 4nio-a1-m2-cA_4nio-a1-m3-cA 4nio-a1-m4-cA_4nio-a1-m5-cA 4nio-a1-m6-cA_4nio-a1-m7-cA 4nio-a1-m7-cA_4nio-a1-m8-cA GVTGIAQ GVTGIAQ 4nip-a1-m6-cA_4nip-a1-m9-cA GVIGIAQ segment 147-153 from Human Superoxide Dismutase P00441 P00441 1.9 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 4nip-a1-m10-cA_4nip-a1-m9-cA 4nip-a1-m1-cA_4nip-a1-m2-cA 4nip-a1-m1-cA_4nip-a1-m4-cA 4nip-a1-m2-cA_4nip-a1-m3-cA 4nip-a1-m4-cA_4nip-a1-m5-cA 4nip-a1-m6-cA_4nip-a1-m7-cA 4nip-a1-m7-cA_4nip-a1-m8-cA GVIGIAQ GVIGIAQ 4niz-a1-m1-cA_4niz-a1-m1-cB GCN4-p1 single Val9 to aminobutyric acid mutant P03069 P03069 2 X-RAY DIFFRACTION 41 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 29 31 4nj2-a1-m1-cA_4nj2-a1-m1-cB 4tl1-a1-m1-cB_4tl1-a1-m1-cA 6o2f-a1-m1-cA_6o2f-a1-m2-cA RMKQLEDKEELLSKNYHLENEVARLKKLV RMKQLEDKEELLSKNYHLENEVARLKKLVGE 4njh-a1-m1-cA_4njh-a1-m1-cB Crystal Structure of QueE from Burkholderia multivorans in complex with AdoMet and 6-carboxy-5,6,7,8-tetrahydropterin A0A0H3KB22 A0A0H3KB22 1.898 X-RAY DIFFRACTION 87 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 209 209 4njg-a1-m1-cA_4njg-a1-m1-cB 4nji-a1-m1-cA_4nji-a1-m1-cB 4njj-a1-m1-cA_4njj-a1-m1-cB 4njk-a1-m1-cA_4njk-a1-m1-cB TYAVKEIFYTLQGEGANAGRPAVFCRFAGCNLWSGREEDRAQAVCRFCDTDFVGTDGENGGKFKDADALVATIAGLWPAGEAHRFVVCTGGEPMLQLDQPLVDALHAAGFGIAIETNGSLPVLESIDWICVSPKADAPLVVTKGNELKVVIPQDNQRLADYAKLDFEYFLVQPMDGPSRDLNTKLAIDWCKRHPQWRLSMQTHKYLNIP TYAVKEIFYTLQGEGANAGRPAVFCRFAGCNLWSGREEDRAQAVCRFCDTDFVGTDGENGGKFKDADALVATIAGLWPAGEAHRFVVCTGGEPMLQLDQPLVDALHAAGFGIAIETNGSLPVLESIDWICVSPKADAPLVVTKGNELKVVIPQDNQRLADYAKLDFEYFLVQPMDGPSRDLNTKLAIDWCKRHPQWRLSMQTHKYLNIP 4njl-a1-m2-cA_4njl-a1-m3-cA Crystal structure of middle east respiratory syndrome coronavirus S2 protein fusion core R9UQ53 R9UQ53 2.3 X-RAY DIFFRACTION 140 1.0 1335626 (Middle East respiratory syndrome-related coronavirus) 1335626 (Middle East respiratory syndrome-related coronavirus) 129 129 4njl-a1-m1-cA_4njl-a1-m2-cA 4njl-a1-m1-cA_4njl-a1-m3-cA ITQQVLSENQKLIANKFNQALGAMQTGFTTTNEAFQKVQDAVNNNAQALSKLASELSNTFGAISASIGDIIQRLDVLEQSGGRGGSIPNFGSLTQINTTLLDLTYEMLSLQQVVKALNESYIDLKELGN ITQQVLSENQKLIANKFNQALGAMQTGFTTTNEAFQKVQDAVNNNAQALSKLASELSNTFGAISASIGDIIQRLDVLEQSGGRGGSIPNFGSLTQINTTLLDLTYEMLSLQQVVKALNESYIDLKELGN 4njo-a1-m1-cA_4njo-a1-m1-cB crystal structure of cofactor(NAD+) bound 3-phosphoglycerate dehydrogenase in Entamoeba histolytica Q76KF5 Q76KF5 2.22 X-RAY DIFFRACTION 121 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 302 302 4nfy-a1-m1-cB_4nfy-a1-m1-cA 4njm-a1-m1-cB_4njm-a1-m1-cA ASMKIVVITEKPFAENAVKGIREILEKAGHEVVMIEKYKKKEDVIERIKDADGVIVRSDKIDEEIIKAGEKVKIIVRAGAGYDNIDIEACNQGKIVVMNTPGQNRNGVAELCIGMMIFGFRKGFKEGKGRELKDKTLGICGCGYVGKRVKEIAEGIGMKIKVYDPFITTENQVKKIEELFEECQVISLHLPLTKETKGKIGYELIKKLPYGGMICNTARKEIIDEEGLIRIMREREDLIYITDVAPTSKVFNNEFKGRFFATPIKIGAETEESNINAGMAAASQICDFFTNGTVKFQVNKFL ASMKIVVITEKPFAENAVKGIREILEKAGHEVVMIEKYKKKEDVIERIKDADGVIVRSDKIDEEIIKAGEKVKIIVRAGAGYDNIDIEACNQGKIVVMNTPGQNRNGVAELCIGMMIFGFRKGFKEGKGRELKDKTLGICGCGYVGKRVKEIAEGIGMKIKVYDPFITTENQVKKIEELFEECQVISLHLPLTKETKGKIGYELIKKLPYGGMICNTARKEIIDEEGLIRIMREREDLIYITDVAPTSKVFNNEFKGRFFATPIKIGAETEESNINAGMAAASQICDFFTNGTVKFQVNKFL 4nk2-a1-m1-cA_4nk2-a1-m1-cB Crystal structure of Hell's gate globin IV B3DVC3 B3DVC3 1.96 X-RAY DIFFRACTION 113 1.0 481448 (Methylacidiphilum infernorum V4) 481448 (Methylacidiphilum infernorum V4) 164 164 4nk1-a1-m1-cA_4nk1-a1-m1-cB AESGSICEARIDFVFPEVKFPSKKVYLAAGEELLRKLVEVHHENLMKSKIHYLFPTSHEQLRSLVKRSADFVVEMCGGPPYYTLTRGEPKMRARHFSVTIDEKAREIWLACYKHALKDVHFPLSVLEEFWQWIESFSIRMINRRTTLEPPRRVPYSEIQDFFVS AESGSICEARIDFVFPEVKFPSKKVYLAAGEELLRKLVEVHHENLMKSKIHYLFPTSHEQLRSLVKRSADFVVEMCGGPPYYTLTRGEPKMRARHFSVTIDEKAREIWLACYKHALKDVHFPLSVLEEFWQWIESFSIRMINRRTTLEPPRRVPYSEIQDFFVS 4nk6-a2-m1-cA_4nk6-a2-m2-cA Crystal Structure of the periplasmic alginate epimerase AlgG Q887Q3 Q887Q3 2.0974 X-RAY DIFFRACTION 73 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 407 407 4nk8-a2-m1-cA_4nk8-a2-m2-cA 4ozy-a2-m1-cA_4ozy-a2-m2-cA 4ozz-a2-m1-cA_4ozz-a2-m2-cA EMAKPVLPDLSGYTTEAALIARNKPGKITVARMMEETGLEFIGGDNMAEWVVRQKGIPQAIMISDGYVNLQDLVKKVPKQFLSEVSPGVYVARLPILVETGIFEIDSTKELRLSQEGSFIVSEGMLITNTSVNAWSETRNGLAAYRTPDEFRPFVLTWGGSQTWIATKMASMGYNQSSYGVSISQYTPNTAKVLKRGEPTGWIIDSEFADMWYGFYCYETRDFVVGNTYRDNIVYGIDPHDRSHGLIIAENDVYGTHGIIISREVDNSFIFRNSHNNLSGVVLDRNSVGNIVAYNEIYQNHTDGITLYESGNNLLWGNRVIANRRHGIRVRNSVNIKLYENVAMANGLMGVYGHIDLNDTDRDIELDPFDAQVSLIMVGGELSSNGSGPLSIDSPLSVELYRVSMLM EMAKPVLPDLSGYTTEAALIARNKPGKITVARMMEETGLEFIGGDNMAEWVVRQKGIPQAIMISDGYVNLQDLVKKVPKQFLSEVSPGVYVARLPILVETGIFEIDSTKELRLSQEGSFIVSEGMLITNTSVNAWSETRNGLAAYRTPDEFRPFVLTWGGSQTWIATKMASMGYNQSSYGVSISQYTPNTAKVLKRGEPTGWIIDSEFADMWYGFYCYETRDFVVGNTYRDNIVYGIDPHDRSHGLIIAENDVYGTHGIIISREVDNSFIFRNSHNNLSGVVLDRNSVGNIVAYNEIYQNHTDGITLYESGNNLLWGNRVIANRRHGIRVRNSVNIKLYENVAMANGLMGVYGHIDLNDTDRDIELDPFDAQVSLIMVGGELSSNGSGPLSIDSPLSVELYRVSMLM 4nk7-a2-m1-cA_4nk7-a2-m4-cA Crystal Structure of the D. melanogaster Plk4 cryptic polo box (CPB) O97143 O97143 3.233 X-RAY DIFFRACTION 26 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 212 212 4nk7-a2-m2-cA_4nk7-a2-m3-cA HMRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRP HMRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRP 4nk7-a2-m3-cA_4nk7-a2-m4-cA Crystal Structure of the D. melanogaster Plk4 cryptic polo box (CPB) O97143 O97143 3.233 X-RAY DIFFRACTION 63 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 212 212 4g7n-a2-m3-cB_4g7n-a2-m2-cA 4g7n-a2-m4-cB_4g7n-a2-m1-cA 4nk7-a1-m1-cA_4nk7-a1-m2-cA 4nk7-a2-m1-cA_4nk7-a2-m2-cA HMRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRP HMRISVPPLNTKRLLPTRYKTKNAIMSILRNGEVVLEFLKFRPTYNEDRINDICRISDDGQRIIIYQPDPGRGLPVREQPPDLQIPSGDCVYNYDNLPSKHWKKYIYGARFVGLVKSKTPKVTYFSTLGKCQLMETMTDFEIRFYSGAKLLKTPSEGLKVYDRNGMLLCSESRSLIEHGNECFTHCVNISNALEVAQTKDNSCFPVTIGRRP 4nka-a1-m1-cA_4nka-a1-m1-cB Crystal structure of human fibroblast growth factor receptor 1 kinase domain in complex with pyrazolaminopyrimidine 2 P11362 P11362 2.19 X-RAY DIFFRACTION 41 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 279 287 4nk9-a1-m1-cA_4nk9-a1-m1-cB 5vnd-a3-m1-cB_5vnd-a3-m1-cA ELPEDPRWELPRDRLVLGKPLGEQVVLAEAIGLDKDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPEEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFGIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQE AGVSEYELPEDPRWELPRDRLVLGKPLGEGAFGQVVLAEAIGLDKPNRVTKVAVKMLKSDATEKDLSDLISEMEMMKMIGKHKNIINLLGACTQDGPLYVIVEYASKGNLREYLQARRPPEQLSSKDLVSCAYQVARGMEYLASKKCIHRDLAARNVLVTEDNVMKIADFHHIDYYKKTTNGRLPVKWMAPEALFDRIYTHQSDVWSFGVLLWEIFTLGGSPYPGVPVEELFKLLKEGHRMDKPSNCTNELYMMMRDCWHAVPSQRPTFKQLVEDLDRIVALTSNQE 4nkb-a2-m2-cA_4nkb-a2-m2-cB Crystal Structure of the cryptic polo box (CPB)of ZYG-1 Q9GT24 Q9GT24 2.3 X-RAY DIFFRACTION 55 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 203 204 4nkb-a2-m1-cA_4nkb-a2-m1-cB QLWPIRMDRLEGQRVCTAGGRYIVELDTRCRFEVAAQGNFVKRILIVEVDEMVQTVYVHRIPDRTVRGRNGEEELITLTNNPFVYTSYSQMPKEVQNDYMRLQKMVAVTISGRVAKVTFRRPSQFPDAQAQLMENGDLRIKLPRSVIVRKMDNGEIFNCQKQAVSGITLTKVNEVYKYLIRFEQCLNGMDRCFPIVFSAGTNM QLWPIRMDRLEGQRVCTAGGRYIVELDTRCRFEVAAQGNFVKRILIVEVDEMVQTVYVHRIPDRTVRGRNGEEELITLTNNPFVYTSYSQMPKEVQNDYMRLQKMVAVTISGRVAKVTFRRPSQFPDAQAQLMENGDLRIKLPRSVIVRKMDNGEIFNCIQKQAVSGITLTKVNEVYKYLIRFEQCLNGMDRCFPIVFSAGTNM 4nkb-a3-m3-cA_4nkb-a3-m4-cB Crystal Structure of the cryptic polo box (CPB)of ZYG-1 Q9GT24 Q9GT24 2.3 X-RAY DIFFRACTION 50 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 203 204 4nkb-a1-m1-cA_4nkb-a1-m2-cB 4nkb-a2-m1-cA_4nkb-a2-m2-cB 4nkb-a2-m2-cA_4nkb-a2-m1-cB 4nkb-a3-m1-cA_4nkb-a3-m2-cB QLWPIRMDRLEGQRVCTAGGRYIVELDTRCRFEVAAQGNFVKRILIVEVDEMVQTVYVHRIPDRTVRGRNGEEELITLTNNPFVYTSYSQMPKEVQNDYMRLQKMVAVTISGRVAKVTFRRPSQFPDAQAQLMENGDLRIKLPRSVIVRKMDNGEIFNCQKQAVSGITLTKVNEVYKYLIRFEQCLNGMDRCFPIVFSAGTNM QLWPIRMDRLEGQRVCTAGGRYIVELDTRCRFEVAAQGNFVKRILIVEVDEMVQTVYVHRIPDRTVRGRNGEEELITLTNNPFVYTSYSQMPKEVQNDYMRLQKMVAVTISGRVAKVTFRRPSQFPDAQAQLMENGDLRIKLPRSVIVRKMDNGEIFNCIQKQAVSGITLTKVNEVYKYLIRFEQCLNGMDRCFPIVFSAGTNM 4nkh-a2-m1-cB_4nkh-a2-m1-cE Crystal structure of SspH1 LRR domain D0ZVG2 D0ZVG2 2.75 X-RAY DIFFRACTION 116 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 237 239 4nkh-a1-m1-cF_4nkh-a1-m1-cA 4nkh-a3-m1-cC_4nkh-a3-m1-cD EYDAVWSKWERDAPAGESPGRAAVVQEMRDCLNNGNPVLNVGASGLTTLPDRLPPHITTLVIPDNNLTSLPELPEGLRELEVSGNLQLTSLPSLPQGLQKLWAYNNWLASLPTLPPGLGDLAVSNNQLTSLPEMPPALRELRVSGNNLTSLPALPSGLQKLWAYNNRLTSLPEMSPGLQELDVSHNQLTRLPQSLTGLSSAARVYLDGNPLSVRTLQALRDIIGHSGIRIHFDMAGP GAEYDAVWSKWERDAPAGESPGRAAVVQEMRDCLNNGNPVLNVGASGLTTLPDRLPPHITTLVIPDNNLTSLPELPEGLRELEVSGNLQLTSLPSLPQGLQKLWAYNNWLASLPTLPPGLGDLAVSNNQLTSLPEMPPALRELRVSGNNLTSLPALPSGLQKLWAYNNRLTSLPEMSPGLQELDVSHNQLTRLPQSLTGLSSAARVYLDGNPLSVRTLQALRDIIGHSGIRIHFDMAGP 4nkn-a2-m1-cC_4nkn-a2-m1-cD The Crystal Structure of the N-terminal domain of COMMD9 Q9P000 Q9P000 2.79 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 4nkn-a1-m1-cB_4nkn-a1-m1-cA 4nkn-a1-m1-cB_4nkn-a1-m1-cE 4nkn-a1-m1-cE_4nkn-a1-m1-cA 4nkn-a2-m1-cF_4nkn-a2-m1-cC 4nkn-a2-m1-cF_4nkn-a2-m1-cD LTAEHFAALQSLLKASSKDVVRQLCQESFSSSALGLKKLLDVTCSSLSVTQEEAEELLQALHRTRLVAFRDLSSAEAILALFPENFHQNLKNLLTKILEHVSTWRTEAQA LTAEHFAALQSLLKASSKDVVRQLCQESFSSSALGLKKLLDVTCSSLSVTQEEAEELLQALHRTRLVAFRDLSSAEAILALFPENFHQNLKNLLTKILEHVSTWRTEAQA 4nkr-a1-m1-cA_4nkr-a1-m2-cA The Crystal structure of Bacillus subtilis MobB E0U3U4 E0U3U4 2.41 X-RAY DIFFRACTION 158 1.0 655816 (Bacillus subtilis subsp. spizizenii str. W23) 655816 (Bacillus subtilis subsp. spizizenii str. W23) 148 148 4nkr-a2-m1-cB_4nkr-a2-m1-cE 4nkr-a3-m1-cC_4nkr-a3-m1-cD 4oyh-a1-m1-cA_4oyh-a1-m2-cA 4oyh-a2-m1-cE_4oyh-a2-m1-cB 4oyh-a3-m1-cC_4oyh-a3-m1-cD FPIVQVVGFQNSGKTTFIERILEKASEQGLNLGCLKHHDRYQAAGADVTAVEGAGVLQLTARRLWDLTRLIELYQFLETDCLLIEGFKKAPYPKVVILSEKEDLEALKTVNTIAIIYRKKEHMTEHQGLPIFHADDPVAVDLVLSQLK FPIVQVVGFQNSGKTTFIERILEKASEQGLNLGCLKHHDRYQAAGADVTAVEGAGVLQLTARRLWDLTRLIELYQFLETDCLLIEGFKKAPYPKVVILSEKEDLEALKTVNTIAIIYRKKEHMTEHQGLPIFHADDPVAVDLVLSQLK 4nl5-a2-m2-cB_4nl5-a2-m1-cA Mycobacterium tuberculosis heme-degrading protein MhuD in complex with heme and cyanide P9WKH3 P9WKH3 1.9 X-RAY DIFFRACTION 49 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 100 101 PVVKINAIEVPAGAGPELEKRFAHRAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAAHAGHRANPVATGASLLEFEVVLDVGGT PVVKINAIEVPAGAGPELEKRFAHRAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAAHAGHRANPVATGASLLEFEVVLDVGGTG 4nla-a1-m2-cA_4nla-a1-m3-cA Structure of the central NEAT domain, N2, of the listerial Hbp2 protein, apo form Q7AP54 Q7AP54 2.7 X-RAY DIFFRACTION 41 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 122 122 4nla-a1-m1-cA_4nla-a1-m2-cA 4nla-a1-m1-cA_4nla-a1-m3-cA STLSDGIYTIPFVAKKANDDSNSSMQNYFNNPAWLKVKNGKKMVAMTVNDNKTVTALKTTLAGTLQDVKVVSEDKDANTRIVEFEVEDLNQPLAAHVNYEAPFNGSVYKGQADFRYVFDTAK STLSDGIYTIPFVAKKANDDSNSSMQNYFNNPAWLKVKNGKKMVAMTVNDNKTVTALKTTLAGTLQDVKVVSEDKDANTRIVEFEVEDLNQPLAAHVNYEAPFNGSVYKGQADFRYVFDTAK 4nle-a1-m1-cB_4nle-a1-m2-cB Crystal structure of apo Adenylosuccinate Lyase from Mycobacterium smegmatis A0R4I6 A0R4I6 2.16 X-RAY DIFFRACTION 121 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 451 451 4nle-a1-m1-cA_4nle-a1-m2-cA TIPNVLANRYASDEMVAIWSPEAKIIAERRLWLAVLRAQAELGVAPDGVVEDYERVLENVDLESIAARERVTRHDVKARIEEFNAHEHVHKGMTSRDLTENVEQLQIRQSLELVFSHGVAVVARLAERAVVYRDLVMAGRSHNVAAQATTLGKRFASAAEETLVALTRLRELIDRYPLRGVKGPMGTAQDMLDLFGGDVGKLADLERRVAEFLGFTEVFTSVGQVYPRSLDHDVLSALVQFGAGPSSMAHTIRLMAGHELVTEGKMNTRSCERVNGLQVVLRGYASMAAELAGAQWNEGDVFCSVVRRVALPDAFFAIDGQTETFLTVLDEFGAYPAVIQRELDRYLPFLATTRILMAAVRAGVGREAAHEVIKEHAVAVALAMREQGREPDLIDRLAGDPRLPLDKVALEAALEDKQAFTGAAGDQVDGVVAAVGELVSRYPEAAKYTSG TIPNVLANRYASDEMVAIWSPEAKIIAERRLWLAVLRAQAELGVAPDGVVEDYERVLENVDLESIAARERVTRHDVKARIEEFNAHEHVHKGMTSRDLTENVEQLQIRQSLELVFSHGVAVVARLAERAVVYRDLVMAGRSHNVAAQATTLGKRFASAAEETLVALTRLRELIDRYPLRGVKGPMGTAQDMLDLFGGDVGKLADLERRVAEFLGFTEVFTSVGQVYPRSLDHDVLSALVQFGAGPSSMAHTIRLMAGHELVTEGKMNTRSCERVNGLQVVLRGYASMAAELAGAQWNEGDVFCSVVRRVALPDAFFAIDGQTETFLTVLDEFGAYPAVIQRELDRYLPFLATTRILMAAVRAGVGREAAHEVIKEHAVAVALAMREQGREPDLIDRLAGDPRLPLDKVALEAALEDKQAFTGAAGDQVDGVVAAVGELVSRYPEAAKYTSG 4nle-a1-m2-cB_4nle-a1-m1-cA Crystal structure of apo Adenylosuccinate Lyase from Mycobacterium smegmatis A0R4I6 A0R4I6 2.16 X-RAY DIFFRACTION 102 0.998 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 451 464 4nle-a1-m1-cB_4nle-a1-m2-cA TIPNVLANRYASDEMVAIWSPEAKIIAERRLWLAVLRAQAELGVAPDGVVEDYERVLENVDLESIAARERVTRHDVKARIEEFNAHEHVHKGMTSRDLTENVEQLQIRQSLELVFSHGVAVVARLAERAVVYRDLVMAGRSHNVAAQATTLGKRFASAAEETLVALTRLRELIDRYPLRGVKGPMGTAQDMLDLFGGDVGKLADLERRVAEFLGFTEVFTSVGQVYPRSLDHDVLSALVQFGAGPSSMAHTIRLMAGHELVTEGKMNTRSCERVNGLQVVLRGYASMAAELAGAQWNEGDVFCSVVRRVALPDAFFAIDGQTETFLTVLDEFGAYPAVIQRELDRYLPFLATTRILMAAVRAGVGREAAHEVIKEHAVAVALAMREQGREPDLIDRLAGDPRLPLDKVALEAALEDKQAFTGAAGDQVDGVVAAVGELVSRYPEAAKYTSG TIPNVLANRYASDEMVAIWSPEAKIIAERRLWLAVLRAQAELGVAVPDGVVEDYERVLENVDLESIAARERVRHDVKARIEEFNAHEHVHKGMTSRDLTENVEQLQIRQSLELVFSHGVAVVARLAERAVVYRDLVMAGRSHNVAAQATTLGKRFASAAEETLVALTRLRELIDRYPLRGVKGPMGTAQDMLDLFGGDVGKLADLERRVAEFLGFTEVFTSVGQVYPRSLDHDVLSALVQFGAGPSSMAHTIRLMAGHELVTEGFAPGQVGSSAMPHKMNTRSCERVNGLQVVLRGYASMAAELAGAQWNEGDVFCSVVRRVALPDAFFAIDGQTETFLTVLDEFGAYPAVIQRELDRYLPFLATTRILMAAVRAGVGREAAHEVIKEHAVAVALAMREQGREPDLIDRLAGDPRLPLDKVALEAALEDKQAFTGAAGDQVDGVVAAVGELVSRYPEAAKYTSG 4nle-a1-m2-cB_4nle-a1-m2-cA Crystal structure of apo Adenylosuccinate Lyase from Mycobacterium smegmatis A0R4I6 A0R4I6 2.16 X-RAY DIFFRACTION 281 0.998 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 451 464 4nle-a1-m1-cB_4nle-a1-m1-cA TIPNVLANRYASDEMVAIWSPEAKIIAERRLWLAVLRAQAELGVAPDGVVEDYERVLENVDLESIAARERVTRHDVKARIEEFNAHEHVHKGMTSRDLTENVEQLQIRQSLELVFSHGVAVVARLAERAVVYRDLVMAGRSHNVAAQATTLGKRFASAAEETLVALTRLRELIDRYPLRGVKGPMGTAQDMLDLFGGDVGKLADLERRVAEFLGFTEVFTSVGQVYPRSLDHDVLSALVQFGAGPSSMAHTIRLMAGHELVTEGKMNTRSCERVNGLQVVLRGYASMAAELAGAQWNEGDVFCSVVRRVALPDAFFAIDGQTETFLTVLDEFGAYPAVIQRELDRYLPFLATTRILMAAVRAGVGREAAHEVIKEHAVAVALAMREQGREPDLIDRLAGDPRLPLDKVALEAALEDKQAFTGAAGDQVDGVVAAVGELVSRYPEAAKYTSG TIPNVLANRYASDEMVAIWSPEAKIIAERRLWLAVLRAQAELGVAVPDGVVEDYERVLENVDLESIAARERVRHDVKARIEEFNAHEHVHKGMTSRDLTENVEQLQIRQSLELVFSHGVAVVARLAERAVVYRDLVMAGRSHNVAAQATTLGKRFASAAEETLVALTRLRELIDRYPLRGVKGPMGTAQDMLDLFGGDVGKLADLERRVAEFLGFTEVFTSVGQVYPRSLDHDVLSALVQFGAGPSSMAHTIRLMAGHELVTEGFAPGQVGSSAMPHKMNTRSCERVNGLQVVLRGYASMAAELAGAQWNEGDVFCSVVRRVALPDAFFAIDGQTETFLTVLDEFGAYPAVIQRELDRYLPFLATTRILMAAVRAGVGREAAHEVIKEHAVAVALAMREQGREPDLIDRLAGDPRLPLDKVALEAALEDKQAFTGAAGDQVDGVVAAVGELVSRYPEAAKYTSG 4nlh-a1-m1-cB_4nlh-a1-m1-cA SKICH domain of human TAX1BP1 Q86VP1 Q86VP1 1.9 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 115 AHVIFQNVAKSYLPNAHLECHYTLTPYIHPHPKDWVGIFKVGWSTARDYYTFLWSPMPEHYVEGSTVNCVLAFQGYYLPNDDGEFYQFCYVTHKGEIRGASTPFQFRASS GPSSPAHVIFQNVAKSYLPNAHLECHYTLTPYIHPHPKDWVGIFKVGWSTARDYYTFLWSPMPEHYVEGSTVNCVLAFQGYYLPNDDGEFYQFCYVTHKGEIRGASTPFQFRASS 4nmd-a1-m1-cA_4nmd-a1-m1-cB Crystal structure of proline utilization A (PutA) from Geobacter sulfurreducens PCA reduced with dithionite Q746X3 Q746X3 1.979 X-RAY DIFFRACTION 253 0.997 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 979 980 4nm9-a1-m1-cA_4nm9-a1-m1-cB 4nma-a1-m1-cA_4nma-a1-m1-cB 4nmb-a1-m1-cA_4nmb-a1-m1-cB 4nme-a1-m1-cA_4nme-a1-m1-cB 4nmf-a1-m1-cA_4nmf-a1-m1-cB 7na0-a1-m1-cB_7na0-a1-m1-cA SMLNSELNTKIVNRGKEFFGSIPSLFNKGAWMGKAMDWSMQNEQFKIQMFRFVDVFPSLTTSKLLTEHIREYFGNEQDMPAFMAVLNKVLTSNIEEMARQFIVGETTKEAVKNLEKLRKDGFAAVVDVLGEATLSEEEAEVYTNTYLELLEALKKEQGSWKGLPGKGGDPGLDWGHAPKVNIAVKPTALFCLANPQDFEGSVVAILDRMRRIFKKVMELNGFLCIDMESYRHKEIILEVFRRLKLEYRDYPHLGIVLQAYLKDNDKDLDDLLAWAKEHKVQISVRLVKGAYWDYETVKAKQNDWEVPVWTIKAESDAAYERQARKILENHQICHFACASHNIRTISAVMEMARELNVPEDRYEFQVLYGMAEPVRKGILKVAGRIRLYAPYGNMVPGMGYLVRRLLENTANESFLRQSFAEDAQIERLLEDPAVTVERERAARAAKGLGGLPPFNNEAMVDFTRADHRAAFPKHIAQVRTQLGKTYPLFINGKEVRTNDLIPTVNPNKPSEVLGQICQAGTTEVGDAIAAAKAAFPAWRDTDPRTRAEYLLKAAQAARKRLFELSAWQVLEIGKQWDQAYADVTEAIDFLEYYAREMIRLGQPQRVGHAPGELNHYFYEPKGVAAVIAPWNFPLAISMGMASAAIVTGNCVVFKPSGITSIIGWHLVELFREAGLPEGVFNFTPGRGSVMGDYLVDHPDISLIAFTGSMETGLRIIERAAKVHPGQANVKKIISEMGGKNAIIIDDDADLDEAVPHVLYSAFGFQGQKCSACSRVIVLDAVYDKFIERLVSMAKATKVGPSEDPANYMGAVADDKAMKSIKEYAEIGKREGHVLYESPVPAGEGYFVPMTIIGGIKPEHRIAQEEIFGPVLAVMRAKDFDQAIEWANSTQFALTGGIFSRSPEHLAKARREFRVGNLYINRNNTGALVERQPFGGARMSGVGTKAGGPDYLLHFMDPRVVTENTMRRGFAPIEEDDDWV NSELNTKIVNRGKEFFGSISGEKPSLFNKGAWMGKAMDWSMQNEQFKIQMFRFVDVFPSLTTSKLLTEHIREYFGNEQDMPAFMAVLNKVLTSNIEEMARQFIVGETTKEAVKNLEKLRKDGFAAVVDVLGEATLSEEEAEVYTNTYLELLEALKKEQGSWKGLPGKGGDPGLDWGHAPKVNIAVKPTALFCLANPQDFEGSVVAILDRMRRIFKKVMELNGFLCIDMESYRHKEIILEVFRRLKLEYRDYPHLGIVLQAYLKDNDKDLDDLLAWAKEHKVQISVRLVKGAYWDYETVKAKQNDWEVPVWTIKAESDAAYERQARKILENHQICHFACASHNIRTISAVMEMARELNVPEDRYEFQVLYGMAEPVRKGILKVAGRIRLYAPYGNMVPGMGYLVRRLLENTANESFLRQSFAEDAQIERLLEDPAVTVERERAARAAKGLGGLPPFNNEAMVDFTRADHRAAFPKHIAQVRTQLGKTYPLFINGKEVRTNDLIPTVNPNKPSEVLGQICQAGTTEVGDAIAAAKAAFPAWRDTDPRTRAEYLLKAAQAARKRLFELSAWQVLEIGKQWDQAYADVTEAIDFLEYYAREMIRLGQPQRVGHAPGELNHYFYEPKGVAAVIAPWNFPLAISMGMASAAIVTGNCVVFKPSGITSIIGWHLVELFREAGLPEGVFNFTPGRGSVMGDYLVDHPDISLIAFTGSMETGLRIIERAAKVHPGQANVKKIISEMGGKNAIIIDDDADLDEAVPHVLYSAFGFQGQKCSACSRVIVLDAVYDKFIERLVSMAKATKVGPSEDPANYMGAVADDKAMKSIKEYAEIGKREGHVLYESPVPAGEGYFVPMTIIGGIKPEHRIAQEEIFGPVLAVMRAKDFDQAIEWANSTQFALTGGIFSRSPEHLAKARREFRVGNLYINRNNTGALVERQPFGGARMSGVGTKAGGPDYLLHFMDPRVVTENTMRRGFAPIEEDDDWV 4nmi-a1-m1-cA_4nmi-a1-m2-cA Crystal Structure of the Apo ectoine hydroxylase ECTD from Salibacillus salexigens Q2TDY4 Q2TDY4 1.78 X-RAY DIFFRACTION 53 1.0 61016 (Virgibacillus salexigens) 61016 (Virgibacillus salexigens) 280 280 3emr-a2-m1-cA_3emr-a2-m2-cA EDLYPSRQNNQPKILKRKDPVIYTDRSKDNQAPITKEQLDSYEKNGFLQIKNFFSEDEVIDMQKAIFELQDSIKDVASDKVIREPESNDIRSIFHVHQDDNYFQDVANDKRILDIVRHLLGSDVYVHQSRINYKPGFKGKEFDWHSDFETWHVEDGMPRMRAISVSIALSDNYSFNGPLMLIPGSHNYFVSCVGLGVPDEESLRELTRIGGGISVPTGKAGSVTLFESNTMHGSTSNITPYPRNNLFMVYNSVKNRLVEPFSGGEKRPEYIAVREKQPVY EDLYPSRQNNQPKILKRKDPVIYTDRSKDNQAPITKEQLDSYEKNGFLQIKNFFSEDEVIDMQKAIFELQDSIKDVASDKVIREPESNDIRSIFHVHQDDNYFQDVANDKRILDIVRHLLGSDVYVHQSRINYKPGFKGKEFDWHSDFETWHVEDGMPRMRAISVSIALSDNYSFNGPLMLIPGSHNYFVSCVGLGVPDEESLRELTRIGGGISVPTGKAGSVTLFESNTMHGSTSNITPYPRNNLFMVYNSVKNRLVEPFSGGEKRPEYIAVREKQPVY 4nml-a2-m1-cA_4nml-a2-m2-cA 2.60 Angstrom resolution crystal structure of putative ribose 5-phosphate isomerase from Toxoplasma gondii ME49 in complex with DL-Malic acid S8GQK2 S8GQK2 2.6 X-RAY DIFFRACTION 63 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 244 244 NPQDKAKQAVGYFAVDTYVRSGKVGLGTGTTAKFVVERIGQRQEGSLKDLLCVPTSEATRKQAESLGIPLTTLDGIADLDVAIDGADEILPPTLGLVKGRGGALLREKIAAAAKTFIVAADETKLVSNGIGSTGALPVEVVVFSGSHTKRLLSALPSVKRHGGRAEFRKRAGAAQEDIREEDRFVTDNGNYIVDLYFTETVPDLHEDKELKSIPGVVETGFFLDLASVCLIGKADGSVATLTAE NPQDKAKQAVGYFAVDTYVRSGKVGLGTGTTAKFVVERIGQRQEGSLKDLLCVPTSEATRKQAESLGIPLTTLDGIADLDVAIDGADEILPPTLGLVKGRGGALLREKIAAAAKTFIVAADETKLVSNGIGSTGALPVEVVVFSGSHTKRLLSALPSVKRHGGRAEFRKRAGAAQEDIREEDRFVTDNGNYIVDLYFTETVPDLHEDKELKSIPGVVETGFFLDLASVCLIGKADGSVATLTAE 4nmn-a1-m3-cB_4nmn-a1-m2-cA Aquifex aeolicus replicative helicase (DnaB) complexed with ADP, at 3.3 resolution O67450 O67450 3.301 X-RAY DIFFRACTION 184 0.99 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 412 425 4nmn-a1-m1-cB_4nmn-a1-m3-cA 4nmn-a1-m2-cB_4nmn-a1-m1-cA PCDESAERAVLGSMLEDPENIPLVLEYLKEEDFCIDEHKLLFRVLTNLWSEGNKLDFVLIKDHLEKKPIDWLEELYEEAVSPDTLEEVCKIVKQRSAQRAIIQLGIELIHKGKENKDFHTLIEEAQSRIFSIAESATSTQFYHVKDVAEEVIELIYKFKSSDRLVTGLPSGFTELDLKTTGFHPGDLIILAARPGMGKTAFMLSIIYNLAKDEGKPSAVFSLEMSKEQLVMRLLSMMSEVPLFKIRSGSISNEDLKKLEASAIELAKYDIYLDDTPALTTTDLRIRARKLRKEKEVEFVAVDYLQLLRPPVRKSPRQEEVAEVSRNLKALAKELRIPVMALAQLSKRPQLADLRESGQIEQDADLILFLHRPEYYTPEEQGIAEVIIAKQRQGPTDIVKLAFIKEYTKFANL PCDESAERAVLGSMLEDPENIPLVLEYLKEEDFCIDEHKLLFRVLTNLWSEYGNKLDFVLIKDHLEKKNLLQIDWLEELYEEAVSPDTLEEVCKIVKQRSAQRAIIQLGIELIHKGKENKDFHTLIEEAQSRIFSIAESSTQFYHVKDVAEEVIELIYKFKSSDRLVTGLPSGFTELDLKTTGFHPGDLIILAARPGMGKTAFMLSIIYNLAKDEGKPSAVFSLEMSKEQLVMRLLSMMSEVPLFKIRSGSISNEDLKKLEASAIELAKYDIYLDDTPALTTTDLRIRARKLRKEKEVEFVAVDYLQLLRPPVRKSPRQEEVAEVSRNLKALAKELRIPVMALAQLSREVEKRSDKRPQLADLRESGQIEQDADLILFLHRPEYYTKKPNEQGIAEVIIAKQRQGPTDIVKLAFIKEYTKFANLE 4nmn-a1-m3-cB_4nmn-a1-m3-cA Aquifex aeolicus replicative helicase (DnaB) complexed with ADP, at 3.3 resolution O67450 O67450 3.301 X-RAY DIFFRACTION 134 0.99 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 412 425 4nmn-a1-m1-cB_4nmn-a1-m1-cA 4nmn-a1-m2-cB_4nmn-a1-m2-cA PCDESAERAVLGSMLEDPENIPLVLEYLKEEDFCIDEHKLLFRVLTNLWSEGNKLDFVLIKDHLEKKPIDWLEELYEEAVSPDTLEEVCKIVKQRSAQRAIIQLGIELIHKGKENKDFHTLIEEAQSRIFSIAESATSTQFYHVKDVAEEVIELIYKFKSSDRLVTGLPSGFTELDLKTTGFHPGDLIILAARPGMGKTAFMLSIIYNLAKDEGKPSAVFSLEMSKEQLVMRLLSMMSEVPLFKIRSGSISNEDLKKLEASAIELAKYDIYLDDTPALTTTDLRIRARKLRKEKEVEFVAVDYLQLLRPPVRKSPRQEEVAEVSRNLKALAKELRIPVMALAQLSKRPQLADLRESGQIEQDADLILFLHRPEYYTPEEQGIAEVIIAKQRQGPTDIVKLAFIKEYTKFANL PCDESAERAVLGSMLEDPENIPLVLEYLKEEDFCIDEHKLLFRVLTNLWSEYGNKLDFVLIKDHLEKKNLLQIDWLEELYEEAVSPDTLEEVCKIVKQRSAQRAIIQLGIELIHKGKENKDFHTLIEEAQSRIFSIAESSTQFYHVKDVAEEVIELIYKFKSSDRLVTGLPSGFTELDLKTTGFHPGDLIILAARPGMGKTAFMLSIIYNLAKDEGKPSAVFSLEMSKEQLVMRLLSMMSEVPLFKIRSGSISNEDLKKLEASAIELAKYDIYLDDTPALTTTDLRIRARKLRKEKEVEFVAVDYLQLLRPPVRKSPRQEEVAEVSRNLKALAKELRIPVMALAQLSREVEKRSDKRPQLADLRESGQIEQDADLILFLHRPEYYTKKPNEQGIAEVIIAKQRQGPTDIVKLAFIKEYTKFANLE 4nn0-a3-m2-cC_4nn0-a3-m3-cC Crystal structure of the C1QTNF5 globular domain in space group P63 Q9BXJ0 Q9BXJ0 1.42 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 4f3j-a1-m1-cA_4f3j-a1-m2-cA 4f3j-a1-m1-cA_4f3j-a1-m3-cA 4f3j-a1-m2-cA_4f3j-a1-m3-cA 4nn0-a1-m1-cA_4nn0-a1-m2-cA 4nn0-a1-m1-cA_4nn0-a1-m3-cA 4nn0-a1-m2-cA_4nn0-a1-m3-cA 4nn0-a2-m1-cB_4nn0-a2-m4-cB 4nn0-a2-m1-cB_4nn0-a2-m5-cB 4nn0-a2-m4-cB_4nn0-a2-m5-cB 4nn0-a3-m1-cC_4nn0-a3-m2-cC 4nn0-a3-m1-cC_4nn0-a3-m3-cC ARSAFSAKRSESRVPPPSDAPLPFDRVLVNEQGHYDAVTGKFTCQVPGVYYFAVHATVYRASLQFDLVKNGESIASFFQFFGGWPKPASLSGGAMVRLEPEDQVWVQVGVGDYIGIYASIKTDSTFSGFLVYSDWHSS ARSAFSAKRSESRVPPPSDAPLPFDRVLVNEQGHYDAVTGKFTCQVPGVYYFAVHATVYRASLQFDLVKNGESIASFFQFFGGWPKPASLSGGAMVRLEPEDQVWVQVGVGDYIGIYASIKTDSTFSGFLVYSDWHSS 4nn1-a1-m1-cA_4nn1-a1-m2-cA Crystal Structure of transcriptional regulator Rv1219c of Mycobacterium tuberculosis O86312 O86312 2.99 X-RAY DIFFRACTION 201 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 205 205 LTAHARIREAAIEQFGRHGFGVGLRAIAEAAGVSAALVIHHFGSKEGLRKACDDFVAEEIRSSKAAALKSNDPTTWLAQMAEIESYAPLMAYLVRSMQSGGELAKMLWQKMIDNAEEYLDEGVRAGTVKPSRDPRARARFLAITGGGGFLLYLQMHENPTDLRAALRDYAHDMVLPSLEVYTEGLLADRAMYEAFLAEAQQGEAH LTAHARIREAAIEQFGRHGFGVGLRAIAEAAGVSAALVIHHFGSKEGLRKACDDFVAEEIRSSKAAALKSNDPTTWLAQMAEIESYAPLMAYLVRSMQSGGELAKMLWQKMIDNAEEYLDEGVRAGTVKPSRDPRARARFLAITGGGGFLLYLQMHENPTDLRAALRDYAHDMVLPSLEVYTEGLLADRAMYEAFLAEAQQGEAH 4nnc-a2-m1-cA_4nnc-a2-m2-cA Ternary complex of ObcA with C4-CoA adduct and oxalate C5AJX5 C5AJX5 2.279 X-RAY DIFFRACTION 73 1.0 626418 (Burkholderia glumae BGR1) 626418 (Burkholderia glumae BGR1) 483 483 TSLYITAAPIGAVPKFLDPFEATFIPSFLLEGFFDADRCASIAADLKTDGWEVVPAGGRLLQVGHAQPIAAHFPKPWLAALSNKLARRIVLQLTTYGWIVSEQGDLLWEHERQHHYLPPALIEAIEKESPALLKNMEEAGWIACAAGYWQAGKARSPYLPITPEAITEETIRSMRAGAAVVHLHTRDLSDRRRIEIPGLGVVTVGSQRNQIVLDDYDAIVPMVKKREPAAILNLSTSVRGDRHGARSKLRRAHLKFYDDVGSAPEVASLSPAAVVFQGGGGYDNAPDFLDAQFDHFERVGTRPEVEVFNHAIVDNATSLYRDRLLRTGKPVLFMLVAGVDQYRRDPITGEVEDDSLIARVVREEISSLLADESADSHRRAVELAIGQLRPVVERLRASFPVSKISILLPGPMQNLLVDVALGLGLDGIRVGLEDGLTVNDARVPGGVRKARGTWEQVSLVREELLGRGATILTAAQVRDMFGL TSLYITAAPIGAVPKFLDPFEATFIPSFLLEGFFDADRCASIAADLKTDGWEVVPAGGRLLQVGHAQPIAAHFPKPWLAALSNKLARRIVLQLTTYGWIVSEQGDLLWEHERQHHYLPPALIEAIEKESPALLKNMEEAGWIACAAGYWQAGKARSPYLPITPEAITEETIRSMRAGAAVVHLHTRDLSDRRRIEIPGLGVVTVGSQRNQIVLDDYDAIVPMVKKREPAAILNLSTSVRGDRHGARSKLRRAHLKFYDDVGSAPEVASLSPAAVVFQGGGGYDNAPDFLDAQFDHFERVGTRPEVEVFNHAIVDNATSLYRDRLLRTGKPVLFMLVAGVDQYRRDPITGEVEDDSLIARVVREEISSLLADESADSHRRAVELAIGQLRPVVERLRASFPVSKISILLPGPMQNLLVDVALGLGLDGIRVGLEDGLTVNDARVPGGVRKARGTWEQVSLVREELLGRGATILTAAQVRDMFGL 4nnj-a1-m1-cA_4nnj-a1-m1-cC Crystal structure of Uba1 in complex with ubiquitin-AMP and thioesterified ubiquitin P22515 P22515 2.4 X-RAY DIFFRACTION 96 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 1006 1006 AGEIDESLYSRQLYVLGKEAMLKMQTSNVLILGLKGLGVEIAKNVVLAGVKSMTVFDPEPVQLADLSTQFFLTEKDIGQKRGDVTRAKLAELNAYVPVNVLDSLDDVTQLSQFQVVVATDTVSLEDKVKINEFCHSSGIRFISSETRGLFGNTFVDLGDEFTVLDPTGEEPRTGMVSDIEPDGTVTMLDDNRHGLEDGNFVRFSEVEGLDKLNDGTLFKVEVLGPFAFRIGSVKEYGEYKKGGIFTEVKVPRKISFKSLKQQLSNPEFVFSDFAKFDRAAQLHLGFQALHQFAVRHNGELPRTMNDEDANELIKLVTDLSVQQPEVLGEGVDVNEDLIKELSYQARGDIPGVVAFFGGLVAQEVLKACSGKFTPLKQFMYFDSLESLPDPKNFPRNEKTTQPVNSRYDNQIAVFGLDFQKKIANSKVFLVGSGAIGCEMLKNWALLGLGSGSDGYIVVTDNDSIEKSNLNRQFLFRPKDVGKNKSEVAAEAVCAMNPDLKGKINAKIDKVGPETEEIFNDSFWESLDFVTNALDNVDARTYVDRRCVFYRKPLLESGTLGTKGNTQVIIPRLTESYSSSRDPPEKSIPLCTLRSFPNKIDHTIAWAKSLFQGYFTDSAENVNMYLTQPNFVEQTLKQSGDVKGVLESISDSLSSKPHNFEDCIKWARLEFEKKFNHDIKQLLFNFPKDAKTSNGEPFWSGAKRAPTPLEFDIYNNDHFHFVVAGASLRAYNYGIKSDDSNSKPNVDEYKSVIDHMIIPEFTPNANLKIQVNDDDPDPDEIDQLVSSLPDPSTLAGFKLEPVDFEKDDDTNHHIEFITACSNCRAQNYFIETADRQKTKFIAGRIIPAIATTTSLVTGLVNLELYKLIDNKTDIEQYKNGFVNLALPFFGFSEPIASPKGEYNNKKYDKIWDRFDIKGDIKLSDLIEHFEKDEGLEITMLSYGVSLLYASFFPPKKLKERLNLPITQLVKLVTKKDIPAHVSTMILEICADDKEGEDVEVPFITIHL AGEIDESLYSRQLYVLGKEAMLKMQTSNVLILGLKGLGVEIAKNVVLAGVKSMTVFDPEPVQLADLSTQFFLTEKDIGQKRGDVTRAKLAELNAYVPVNVLDSLDDVTQLSQFQVVVATDTVSLEDKVKINEFCHSSGIRFISSETRGLFGNTFVDLGDEFTVLDPTGEEPRTGMVSDIEPDGTVTMLDDNRHGLEDGNFVRFSEVEGLDKLNDGTLFKVEVLGPFAFRIGSVKEYGEYKKGGIFTEVKVPRKISFKSLKQQLSNPEFVFSDFAKFDRAAQLHLGFQALHQFAVRHNGELPRTMNDEDANELIKLVTDLSVQQPEVLGEGVDVNEDLIKELSYQARGDIPGVVAFFGGLVAQEVLKACSGKFTPLKQFMYFDSLESLPDPKNFPRNEKTTQPVNSRYDNQIAVFGLDFQKKIANSKVFLVGSGAIGCEMLKNWALLGLGSGSDGYIVVTDNDSIEKSNLNRQFLFRPKDVGKNKSEVAAEAVCAMNPDLKGKINAKIDKVGPETEEIFNDSFWESLDFVTNALDNVDARTYVDRRCVFYRKPLLESGTLGTKGNTQVIIPRLTESYSSSRDPPEKSIPLCTLRSFPNKIDHTIAWAKSLFQGYFTDSAENVNMYLTQPNFVEQTLKQSGDVKGVLESISDSLSSKPHNFEDCIKWARLEFEKKFNHDIKQLLFNFPKDAKTSNGEPFWSGAKRAPTPLEFDIYNNDHFHFVVAGASLRAYNYGIKSDDSNSKPNVDEYKSVIDHMIIPEFTPNANLKIQVNDDDPDPDEIDQLVSSLPDPSTLAGFKLEPVDFEKDDDTNHHIEFITACSNCRAQNYFIETADRQKTKFIAGRIIPAIATTTSLVTGLVNLELYKLIDNKTDIEQYKNGFVNLALPFFGFSEPIASPKGEYNNKKYDKIWDRFDIKGDIKLSDLIEHFEKDEGLEITMLSYGVSLLYASFFPPKKLKERLNLPITQLVKLVTKKDIPAHVSTMILEICADDKEGEDVEVPFITIHL 4nnq-a1-m1-cC_4nnq-a1-m1-cB Crystal structure of LnmF protein from Streptomyces amphibiosporus Q8GGP6 Q8GGP6 2.01 X-RAY DIFFRACTION 66 0.991 66869 (Streptomyces atroolivaceus) 66869 (Streptomyces atroolivaceus) 226 227 4nnq-a1-m1-cA_4nnq-a1-m1-cB 4nnq-a1-m1-cA_4nnq-a1-m1-cC RGVRLTAEPHVLRATLTSPDGLNSLSGAALDALGAALDRAEADPECRVLLLEGSGGTFCTGLDFGRGGAEFLALRRFGETPLAVVACVDGRAAGGGVGLAAAADLVIATERSEFSLPEALWGLVPCCVLPVLVRRTGFQPAYAALSTQPVSARRAADFRLVDEVVPDPDAAVRRLLVRLTRLDPATIGELKQYFRAWFTTEDTDAFALREFTRLIDSPVARRRITD RGVRLTAEPHVLRATLTSPDGLNSLSGAALDALGAALDRAEADPECRVLLLEGSGGTFCTGLDRGGAEFLALRRFGETPLAVVACVDGRAAGGGVGLAAAADLVIATERSEFSLPEALWGLVPCCVLPVLVRRTGFQPAYAALSTQPVSARRAADFRLVDEVVPDPDAAVRRLLVRLTRLDPATIGELKQYFRAWFTTEDTDAFALREFTRLIDSPVARRRITDYTT 4nnz-a1-m2-cB_4nnz-a1-m1-cA Subunit PA0372 of heterodimeric zinc protease PA0371-PA0372 Q9I6C2 Q9I6C2 2.478 X-RAY DIFFRACTION 104 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 397 398 PTHEFSLDNGLKVIVREDHRAPVVVSQLWYRIGSSYETPGLTGLSHALEHMMFENAFTTDDYTAYYQVLARDRLPVALEMEADRMAHLSLPVDQFKSEIEVIKEERRLRTDDNPNALAFERFKAAAYPASGYHTPTIGWMADLQRMTIDDLRHWYESWYAPNNATLVVVGDVTADEVKTLAKRYFGEIPWRQLPPARKPLELAEPGERRLKLYVRTQLPNLIMGFNVPSLGSSENPREVNALRLIGALLDGGYSARLASRLERGEELVAGASTYYDAFNRGDSLFVLSATPNVQKGKTLEQVEAGLWKQLDDLKQNPPSAAEIERVRAQMIAGMVYEKDSIAAQASSIGQLESVGLSWKLIDQDLEALKAVTPDDIQKAARTYFTPSRLTLAQVLPV PTHEFSLDNGLKVIVREDHRAPVVVSQLWYRIGSSYETPGLTGLSHALEHMMFEENAFTTDDYTAYYQVLARDRLPVALEMEADRMAHLSLPVDQFKSEIEVIKEERRLRTDDNPNALAFERFKAAAYPASGYHTPTIGWMADLQRMTIDDLRHWYESWYAPNNATLVVVGDVTADEVKTLAKRYFGEIPWRQLPPARKPLELAEPGERRLKLYVRTQLPNLIMGFNVPSLGSSENPREVNALRLIGALLDGGYSARLASRLERGEELVAGASTYYDAFNRGDSLFVLSATPNVQKGKTLEQVEAGLWKQLDDLKQNPPSAAEIERVRAQMIAGMVYEKDSIAAQASSIGQLESVGLSWKLIDQDLEALKAVTPDDIQKAARTYFTPSRLTLAQVLPV 4nnz-a2-m1-cB_4nnz-a2-m1-cA Subunit PA0372 of heterodimeric zinc protease PA0371-PA0372 Q9I6C2 Q9I6C2 2.478 X-RAY DIFFRACTION 58 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 397 398 PTHEFSLDNGLKVIVREDHRAPVVVSQLWYRIGSSYETPGLTGLSHALEHMMFENAFTTDDYTAYYQVLARDRLPVALEMEADRMAHLSLPVDQFKSEIEVIKEERRLRTDDNPNALAFERFKAAAYPASGYHTPTIGWMADLQRMTIDDLRHWYESWYAPNNATLVVVGDVTADEVKTLAKRYFGEIPWRQLPPARKPLELAEPGERRLKLYVRTQLPNLIMGFNVPSLGSSENPREVNALRLIGALLDGGYSARLASRLERGEELVAGASTYYDAFNRGDSLFVLSATPNVQKGKTLEQVEAGLWKQLDDLKQNPPSAAEIERVRAQMIAGMVYEKDSIAAQASSIGQLESVGLSWKLIDQDLEALKAVTPDDIQKAARTYFTPSRLTLAQVLPV PTHEFSLDNGLKVIVREDHRAPVVVSQLWYRIGSSYETPGLTGLSHALEHMMFEENAFTTDDYTAYYQVLARDRLPVALEMEADRMAHLSLPVDQFKSEIEVIKEERRLRTDDNPNALAFERFKAAAYPASGYHTPTIGWMADLQRMTIDDLRHWYESWYAPNNATLVVVGDVTADEVKTLAKRYFGEIPWRQLPPARKPLELAEPGERRLKLYVRTQLPNLIMGFNVPSLGSSENPREVNALRLIGALLDGGYSARLASRLERGEELVAGASTYYDAFNRGDSLFVLSATPNVQKGKTLEQVEAGLWKQLDDLKQNPPSAAEIERVRAQMIAGMVYEKDSIAAQASSIGQLESVGLSWKLIDQDLEALKAVTPDDIQKAARTYFTPSRLTLAQVLPV 4noc-a2-m1-cC_4noc-a2-m2-cC The crystal structure of a CBS Domain-containing Protein of Unknown Function from Kribbella flavida DSM 17836. D2PVT0 D2PVT0 2.3 X-RAY DIFFRACTION 177 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 144 144 4noc-a1-m1-cB_4noc-a1-m1-cA 4noc-a3-m1-cD_4noc-a3-m3-cD AHGEQAEQFPVVGLDSDAREAVELLASRRLPGLIVVDEKGSPHSVLPASQVVRFLVPSYVQDDPSLARVIDESLADQVADKLAGVTVRKLLPSQPAELPVVKHDDTVLEVAAIARLRCPLVAVVKNKEIIGAITASRLLELVVS AHGEQAEQFPVVGLDSDAREAVELLASRRLPGLIVVDEKGSPHSVLPASQVVRFLVPSYVQDDPSLARVIDESLADQVADKLAGVTVRKLLPSQPAELPVVKHDDTVLEVAAIARLRCPLVAVVKNKEIIGAITASRLLELVVS 4nog-a1-m1-cA_4nog-a1-m1-cB Crystal structure of a putative ornithine aminotransferase from Toxoplasma gondii ME49 in complex with pyrodoxal-5'-phosphate S8EY38 S8EY38 1.2 X-RAY DIFFRACTION 461 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 422 424 4zlv-a1-m1-cA_4zlv-a1-m1-cB 4zwm-a1-m1-cA_4zwm-a1-m1-cB 5dj9-a1-m1-cA_5dj9-a1-m1-cB 5e3k-a1-m1-cA_5e3k-a1-m1-cB 5e5i-a1-m1-cA_5e5i-a1-m1-cB 5eav-a1-m1-cB_5eav-a1-m1-cA 5eqc-a1-m1-cB_5eqc-a1-m1-cA RKTNIEAYRDGLKLKTEEDFFACDRQYVCQNYAPVPVVISKGKGARVWDINGNEYYDFLAGVSSLSQGHCHPRVIAALCRQAERLTLTLRAFGNDVTGPACRFMAEMFGYDRVLLMNTGAEAGESALKIARKWAYEVKEIPPDSAKVILCNNNYWGRTITACSSSTTFDCYNNFGPFTPGFELIDYDDVGALEEALKDPNVAAFFVEPIQGEGGVNVPKPGYLKRAHELCRSKNVLLIVDEIQTGLCRTGRLLAADHDEVHPDILLLGKSLSAGVVPISAVMGRADVMDVLKPGTHGSTFGGNPLACAVAVEALTVLKDEKLADRAERLGAQFRDCLRRELYGKVPWIKEIRGRGLLNAVEVDSDAIDPNDVVMKLKENGILSKPTRGRVMRFIPPLVITDEEHRDATTRIIKSFLAVEEER ARKTNIEAYRDGLKLKTEEDFFACDRQYVCQNYAPVPVVISKGKGARVWDINGNEYYDFLAGVSSLSQGHCHPRVIAALCRQAERLTLTLRAFGNDVTGPACRFMAEMFGYDRVLLMNTGAEAGESALKIARKWAYEVKEIPPDSAKVILCNNNYWGRTITACSSSTTFDCYNNFGPFTPGFELIDYDDVGALEEALKDPNVAAFFVEPIQGEGGVNVPKPGYLKRAHELCRSKNVLLIVDEIQTGLCRTGRLLAADHDEVHPDILLLGKSLSAGVVPISAVMGRADVMDVLKPGTHGSTFGGNPLACAVAVEALTVLKDEKLADRAERLGAQFRDCLRRELYGKVPWIKEIRGRGLLNAVEVDSDAIDPNDVVMKLKENGILSKPTRGRVMRFIPPLVITDEEHRDATTRIIKSFLAVEEERK 4noi-a1-m1-cB_4noi-a1-m1-cA 2.17 Angstrom Crystal Structure of DNA-directed RNA Polymerase Subunit Alpha from Campylobacter jejuni. Q9PM80 Q9PM80 2.17 X-RAY DIFFRACTION 98 0.995 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 216 224 YTPTEFTIENISDTVAKISAWPFEIGYGITLAHPLRRLLYTSTIGYAPTAIHIDGVAHEFDSRGLEDVALFIINLKKLRFKIKGDSNKEIVEFSFKGSKEIYGKDLNNDQVEVVNKDAYLATINEDAELKFTLIVEKGIGYVPSEEIKELINDPKFIALDAFFTPVREATYDIEKVLPDYEKVVLTVTTDGQITPNEAFQNALEAYKQLSVFDKIT ITTSAYTPTEFTIENISDTVAKISAWPFEIGYGITLAHPLRRLLYTSTIGYAPTAIHIDGVAHEFDSRGLEDVALFIINLKKLRFKIKGDSNKEIVEFSFKGSKEIYGKDLNNDQVEVVNKDAYLATINEDAELKFTLIVEKGIGYVPSEEIKELINDPKFIALDAFFTPVREATYDIEKVLFEDNPDYEKVVLTVTTDGQITPNEAFQNALEAYKQLSVFDKI 4nom-a1-m1-cA_4nom-a1-m2-cA Crystal structure of asparaginyl endopeptidase (AEP)/Legumain activated at pH 4.5 O89017 O89017 2.006 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 407 407 EDGGKHWVVIVAGSNGWYNYRHQADACHAYQIIHRNGIPDEQIIVMMYDDIANSEENPTPGVVINRPNGTDVYKGVLKDYTGEDVTPENFLAVLRGDAEAVKGKGSGKVLKSGPRDHVFIYFTDHGATGILVFPNDDLHVKDLNKTIRYMYEHKMYQKMVFYIEACESGSMMNHLPDDINVYATTAANPKESSYACYYDEERGTYLGDWYSVNWMEDSDVEDLTKETLHKQYHLVKSHTNTSHVMQYGNKSISTMKVMQFQGMKHRASSPISLPPVTHLDLTPSPDVPLTILKRKLLRTNDVKESQNLIGQIQQFLDARHVIEKSVHKIVSLLAGFGETAERHLSERTMLTAHDCYQEAVTHFRTHCFNWHSVTYEHALRYLYVLANLCEAPYPIDRIEMAMDKVCL EDGGKHWVVIVAGSNGWYNYRHQADACHAYQIIHRNGIPDEQIIVMMYDDIANSEENPTPGVVINRPNGTDVYKGVLKDYTGEDVTPENFLAVLRGDAEAVKGKGSGKVLKSGPRDHVFIYFTDHGATGILVFPNDDLHVKDLNKTIRYMYEHKMYQKMVFYIEACESGSMMNHLPDDINVYATTAANPKESSYACYYDEERGTYLGDWYSVNWMEDSDVEDLTKETLHKQYHLVKSHTNTSHVMQYGNKSISTMKVMQFQGMKHRASSPISLPPVTHLDLTPSPDVPLTILKRKLLRTNDVKESQNLIGQIQQFLDARHVIEKSVHKIVSLLAGFGETAERHLSERTMLTAHDCYQEAVTHFRTHCFNWHSVTYEHALRYLYVLANLCEAPYPIDRIEMAMDKVCL 4noz-a1-m1-cA_4noz-a1-m1-cB Crystal Structure of an Organic Hydroperoxide Resistance Protein from Burkholderia cenocepacia B4EPK2 B4EPK2 2.22 X-RAY DIFFRACTION 330 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 142 148 HMSIEKVLYRAHAKATGGRDGRATVPESGLDLKLTTPRELGGAGGAGANPEQLFAAGYSACFIGAMKFVAARDKIAIPADAAIEGSVGIGAIPNGFGIEVELKISLPGLDRDIAQTLIDRAHVVCPYSNATRGNIDVTLTLV AHHHHHHMSIEKVLYRAHAKATGGRDGRATVPESGLDLKLTTPRELGGAGGAGANPEQLFAAGYSACFIGAMKFVAARDKIAIPADAAIEGSVGIGAIPNGFGIEVELKISLPGLDRDIAQTLIDRAHVVCPYSNATRGNIDVTLTLV 4np4-a1-m1-cH_4np4-a1-m1-cI Clostridium difficile toxin B CROP domain in complex with FAB domains of neutralizing antibody bezlotoxumab 2.89 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 221 EVQLVQSGAEVKKSGESLKISCKGSGYSFTSYWIGWVRQMPGKGLEWMGIFYPGDSSTRYSPSFQGQVTISADKSVNTAYLQWSSLKASDTAMYYCARRRNWGNAFDIWGQGTMVTVSSASTKGPSVFPLAPSSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKS EVQLVQSGAEVKKSGESLKISCKGSGYSFTSYWIGWVRQMPGKGLEWMGIFYPGDSSTRYSPSFQGQVTISADKSVNTAYLQWSSLKASDTAMYYCARRRNWGNAFDIWGQGTMVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKS 4np6-a2-m1-cD_4np6-a2-m1-cC Crystal Structure of Adenylate Kinase from Vibrio cholerae O1 biovar eltor Q9KTB7 Q9KTB7 2.004 X-RAY DIFFRACTION 57 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 206 211 4np6-a1-m1-cB_4np6-a1-m1-cA ARIILLGAPGAGKGTQAQFIEKFGIPQISTGDLRAAIKAGTELGKQAKAVIDAGQLVSDDIILGLIKERIAQADCEKGFLLDGFPRTIPQADGLKEGINVDYVIEFDVADDVIVERAGRRAHLPSGRTYHVVYNPPKVEGKDEDLVIREDDKEETVRARLNVYHTQTAPLIEYYGKEAAAGKTQYLKFDGTKQVSEVSADIAKALA NARIILLGAPGAGKGTQAQFIEKFGIPQISTGDLRAAIKAGTELGKQAKAVIDAGQLVSDDIILGLIKERIAQADCEKGFLLDGFPRTIPQADGLKEGINVDYVIEFDVADDVIVERAGRRAHLPSGRTYHVVYNPPKVEGKDDVTGEDLVIREDDKEETVRARLNVYHTQTAPLIEYYGKEAAAGKTQYLKFDGTKQVSEVSADIAKALA 4np8-a1-m7-cA_4np8-a1-m8-cA Structure of an amyloid forming peptide VQIVYK from the second repeat region of tau (alternate polymorph) P10636 P10636 1.51 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 4np8-a1-m1-cA_4np8-a1-m2-cA 4np8-a1-m2-cA_4np8-a1-m3-cA 4np8-a1-m3-cA_4np8-a1-m4-cA 4np8-a1-m5-cA_4np8-a1-m6-cA 4np8-a1-m6-cA_4np8-a1-m7-cA 5k7n-a1-m1-cZ_5k7n-a1-m5-cZ 5k7n-a1-m1-cZ_5k7n-a1-m6-cZ 5k7n-a1-m2-cZ_5k7n-a1-m3-cZ 5k7n-a1-m3-cZ_5k7n-a1-m4-cZ 5k7n-a1-m4-cZ_5k7n-a1-m5-cZ 5k7n-a1-m6-cZ_5k7n-a1-m7-cZ 5k7n-a1-m7-cZ_5k7n-a1-m8-cZ 5k7n-a1-m8-cZ_5k7n-a1-m9-cZ VQIVYK VQIVYK 4npb-a1-m1-cA_4npb-a1-m1-cB The crystal structure of thiol:disulfide interchange protein DsbC from Yersinia pestis CO92 A0A5P8YD62 A0A5P8YD62 2.147 X-RAY DIFFRACTION 79 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 207 207 ADDSAIQQTLKKLDIQQADIQPSPIPGISTVTESGVLYISADGKHLLQGPLYDVSGDQPINVTNQALLKKLEALSSEIVYKAPEEKHVITVFTDITCGYCRKLHEQKDYNALGITVRYLAFPRQGLSSQAEKDRSIWCADRNKAFDDAKNNDISPATCKTDISKHYQLGVQFGIQGTPAIVLQNGTIVPGYQGPKELQLNAHQASLK ADDSAIQQTLKKLDIQQADIQPSPIPGISTVTESGVLYISADGKHLLQGPLYDVSGDQPINVTNQALLKKLEALSSEIVYKAPEEKHVITVFTDITCGYCRKLHEQKDYNALGITVRYLAFPRQGLSSQAEKDRSIWCADRNKAFDDAKNNDISPATCKTDISKHYQLGVQFGIQGTPAIVLQNGTIVPGYQGPKELQLNAHQASLK 4npc-a1-m1-cA_4npc-a1-m1-cB Crystal Structure of an Oxidoreductase, Short-Chain Dehydrogenase/Reductase Family Protein from Brucella suis B0CIA7 B0CIA7 1.75 X-RAY DIFFRACTION 123 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 251 253 QIDLNFPLSEKVAIVTGGASGIGAAISKAFIAKGAKVAVLDISADIAKAKAEELGENAKPFVCDVSSQQSVNDAITAVISQFGKIDIAVNSAGVVYLAPAEDISLDYWDKTININLKGSFLVTQAVGRAMIAAGNGGKIINLASQAGTVAIEEHVAYCASKFGVIGMSKTFAAEWGKYGICVNTLSPTIVLTELGKKAWAGEKGEAAKKRIPAGRFAYPEEIAAAAVFLASAGADMITGADLLIDGGYTIL APQIDLNFPLSEKVAIVTGGASGIGAAISKAFIAKGAKVAVLDISADIAKAKAEELGENAKPFVCDVSSQQSVNDAITAVISQFGKIDIAVNSAGVVYLAPAEDISLDYWDKTININLKGSFLVTQAVGRAMIAAGNGGKIINLASQAGTVAIEEHVAYCASKFGVIGMSKTFAAEWGKYGICVNTLSPTIVLTELGKKAWAGEKGEAAKKRIPAGRFAYPEEIAAAAVFLASAGADMITGADLLIDGGYTIL 4npj-a3-m1-cB_4npj-a3-m2-cA Extended-Synaptotagmin 2, C2A- and C2B-domains A0FGR8 A0FGR8 2.101 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 292 RITVPLVSEVQIAQLRFPVPKGVLRIHFIEAQDLQGKDTGKSDPYGIIRVGNQIFQSRVIKENLSPKWNEVYEALVYEHPGQELEIELFDEDPDKDDFLGSLMIDLIEVEKERLLDEWFTLDEVPKGKLHLRLEWLTLMPNASNLDKVLTDIKADKDQANDGLSSALLILYLDSARNLPNPNPVVQMSVGHKAQESKIRYKTNEPVWEENFTFFIHNPKRQDLEVEVRDEQHQCSLGNLKVPLSQLLTSEDMTVSQRFQLSNSGPNSTIKMKIALRVLHLEK NRITVPLVSEVQIAQLRFPVPKGVLRIHFIEAQDLQGKDTYLKGLVKGKSDPYGIIRVGNQIFQSRVIKENLSPKWNEVYEALVYEHPGQELEIELFDEDPDKDDFLGSLMIDLIEVEKERLLDEWFTLDEVPKGKLHLRLEWLTLMPNASNLDKVLTDIKADKDQANDGLSSALLILYLDSARNLPSGNPNPVVQMSVGHKAQESKIRYKTNEPVWEENFTFFIHNPKRQDLEVEVRDEQHQCSLGNLKVPLSQLLTSEDMTVSQRFQLSNSGPNSTIKMKIALRVLHLEK 4npj-a4-m1-cB_4npj-a4-m1-cA Extended-Synaptotagmin 2, C2A- and C2B-domains A0FGR8 A0FGR8 2.101 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 292 RITVPLVSEVQIAQLRFPVPKGVLRIHFIEAQDLQGKDTGKSDPYGIIRVGNQIFQSRVIKENLSPKWNEVYEALVYEHPGQELEIELFDEDPDKDDFLGSLMIDLIEVEKERLLDEWFTLDEVPKGKLHLRLEWLTLMPNASNLDKVLTDIKADKDQANDGLSSALLILYLDSARNLPNPNPVVQMSVGHKAQESKIRYKTNEPVWEENFTFFIHNPKRQDLEVEVRDEQHQCSLGNLKVPLSQLLTSEDMTVSQRFQLSNSGPNSTIKMKIALRVLHLEK NRITVPLVSEVQIAQLRFPVPKGVLRIHFIEAQDLQGKDTYLKGLVKGKSDPYGIIRVGNQIFQSRVIKENLSPKWNEVYEALVYEHPGQELEIELFDEDPDKDDFLGSLMIDLIEVEKERLLDEWFTLDEVPKGKLHLRLEWLTLMPNASNLDKVLTDIKADKDQANDGLSSALLILYLDSARNLPSGNPNPVVQMSVGHKAQESKIRYKTNEPVWEENFTFFIHNPKRQDLEVEVRDEQHQCSLGNLKVPLSQLLTSEDMTVSQRFQLSNSGPNSTIKMKIALRVLHLEK 4npn-a1-m2-cA_4npn-a1-m4-cA Crystal structure of human tetra-SUMO-2 P61956 P61956 1.633 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 HINLKVAGQDGSVVQFKIKRHTPLSKLMKAYCERQGLSMRQIRFRFDGQPINETDTPAQLEMEDEDTIDVF HINLKVAGQDGSVVQFKIKRHTPLSKLMKAYCERQGLSMRQIRFRFDGQPINETDTPAQLEMEDEDTIDVF 4npr-a3-m2-cB_4npr-a3-m1-cA Crystal Structure of the Family 12 Xyloglucanase from Aspergillus niveus H6TQN1 H6TQN1 2.5 X-RAY DIFFRACTION 68 1.0 41281 (Aspergillus niveus) 41281 (Aspergillus niveus) 219 221 TQFCDQWGSVTEGNYILYNNLWGQAQATSGSQCTTFESLSGNTIVWNTKWSWSGGQGQVKSFANAALQFTPKKLSSVKSIDSTWKWNYSGSNIVADVAYDMFLSTSPGGDHNYEIMVWLGALGGAGPISSTGSPIATPTVAGIKFNLYLGPNGSMQVYSFVAQSTTNSFSGDMRDFFTYLESNQGLSSDLYLVDVQAGTEPFSGSNAVFTVSDYSVSVA SATQFCDQWGSVTEGNYILYNNLWGQAQATSGSQCTTFESLSGNTIVWNTKWSWSGGQGQVKSFANAALQFTPKKLSSVKSIDSTWKWNYSGSNIVADVAYDMFLSTSPGGDHNYEIMVWLGALGGAGPISSTGSPIATPTVAGIKFNLYLGPNGSMQVYSFVAQSTTNSFSGDMRDFFTYLESNQGLSSDLYLVDVQAGTEPFSGSNAVFTVSDYSVSVA 4npx-a1-m1-cA_4npx-a1-m2-cA Structure of hypothetical protein Cj0539 from Campylobacter jejuni Q0PAX7 Q0PAX7 1.93 X-RAY DIFFRACTION 105 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 78 78 FNKTPKEKFIEIIQNGNLGALEKVFEEFFADHIAVELLEKQGLTEDVKNFILENGDFIEERQNDIYIELGAKILGHEG FNKTPKEKFIEIIQNGNLGALEKVFEEFFADHIAVELLEKQGLTEDVKNFILENGDFIEERQNDIYIELGAKILGHEG 4nq1-a1-m1-cA_4nq1-a1-m1-cB Legionella pneumophila dihydrodipicolinate synthase with first substrate pyruvate bound in the active site 1.65 X-RAY DIFFRACTION 118 1.0 423212 (Legionella pneumophila 2300/99 Alcoy) 423212 (Legionella pneumophila 2300/99 Alcoy) 289 289 MFSGSIVALVTPMRNDSVDVHHLRELVEFHIAKGTHALVAAGTTGEAGTLSHSEKLLVIKTVIEQAKERVPVIAGTAMNATKDCIELTQQAMEYGAHAALIMTPAYIKPTQEGLYLHYSHIAQSVAIPIILYNVPGRTACDMLPETVARLAKISNIIGIEATGQMTRLQQILRLCEGSIDVYSGDDLTAAQWLLSGAKGVISVTANVAAKLMAKMCDLAMDDDQAGCLRIQEQLMPLHELLFVESNPIPVKWAMKKMGLIGGELRLPMTELSEKHHQALEKVLKNLELI MFSGSIVALVTPMRNDSVDVHHLRELVEFHIAKGTHALVAAGTTGEAGTLSHSEKLLVIKTVIEQAKERVPVIAGTAMNATKDCIELTQQAMEYGAHAALIMTPAYIKPTQEGLYLHYSHIAQSVAIPIILYNVPGRTACDMLPETVARLAKISNIIGIEATGQMTRLQQILRLCEGSIDVYSGDDLTAAQWLLSGAKGVISVTANVAAKLMAKMCDLAMDDDQAGCLRIQEQLMPLHELLFVESNPIPVKWAMKKMGLIGGELRLPMTELSEKHHQALEKVLKNLELI 4nq3-a1-m1-cB_4nq3-a1-m2-cB Crystal structure of cyanuic acid hydrolase from A. caulinodans A8IKD2 A8IKD2 2.702 X-RAY DIFFRACTION 36 1.0 438753 (Azorhizobium caulinodans ORS 571) 438753 (Azorhizobium caulinodans ORS 571) 334 334 4nq3-a1-m1-cA_4nq3-a1-m2-cA PIAKVHRIATASPDDVSGLAAAIATGAIAPAGILAIFGKTEGNGCVNDFSRGFAVQSLQLLRGHGAAADEVCLVSGGTEGGSPHFLVFERAEPALAIGRAHTPDLPFEALGRGQVRVAQAVRRAAAAGITDPEDVHFVQVKCPLLTARVKEAEARGATTATSDTLKSGLSRGASALGIALALGEVAEDALSDAVICADYGLWSARASCSSGIELLGHEIVVLGSEGWSGPLAIAHGVADAIDVTPVKAALSALGAEAGEATIVLAKAEPSRSGRIRGKRHTLDDSDISPTRHARAFVAGALAGVVGHTEIYVSGGGEHQGPDGGGPVAVIAART PIAKVHRIATASPDDVSGLAAAIATGAIAPAGILAIFGKTEGNGCVNDFSRGFAVQSLQLLRGHGAAADEVCLVSGGTEGGSPHFLVFERAEPALAIGRAHTPDLPFEALGRGQVRVAQAVRRAAAAGITDPEDVHFVQVKCPLLTARVKEAEARGATTATSDTLKSGLSRGASALGIALALGEVAEDALSDAVICADYGLWSARASCSSGIELLGHEIVVLGSEGWSGPLAIAHGVADAIDVTPVKAALSALGAEAGEATIVLAKAEPSRSGRIRGKRHTLDDSDISPTRHARAFVAGALAGVVGHTEIYVSGGGEHQGPDGGGPVAVIAART 4nq3-a1-m2-cB_4nq3-a1-m1-cA Crystal structure of cyanuic acid hydrolase from A. caulinodans A8IKD2 A8IKD2 2.702 X-RAY DIFFRACTION 60 1.0 438753 (Azorhizobium caulinodans ORS 571) 438753 (Azorhizobium caulinodans ORS 571) 334 337 4nq3-a1-m1-cB_4nq3-a1-m2-cA PIAKVHRIATASPDDVSGLAAAIATGAIAPAGILAIFGKTEGNGCVNDFSRGFAVQSLQLLRGHGAAADEVCLVSGGTEGGSPHFLVFERAEPALAIGRAHTPDLPFEALGRGQVRVAQAVRRAAAAGITDPEDVHFVQVKCPLLTARVKEAEARGATTATSDTLKSGLSRGASALGIALALGEVAEDALSDAVICADYGLWSARASCSSGIELLGHEIVVLGSEGWSGPLAIAHGVADAIDVTPVKAALSALGAEAGEATIVLAKAEPSRSGRIRGKRHTLDDSDISPTRHARAFVAGALAGVVGHTEIYVSGGGEHQGPDGGGPVAVIAART PIAKVHRIATASPDDVSGLAAAIATGAIAPAGILAIFGKTEGNGCVNDFSRGFAVQSLQLLRGHGAAADEVCLVSGGTEGGSPHFLVFERAEGNAPALAIGRAHTPDLPFEALGRGQVRVAQAVRRAAAAGITDPEDVHFVQVKCPLLTARVKEAEARGATTATSDTLKSGLSRGASALGIALALGEVAEDALSDAVICADYGLWSARASCSSGIELLGHEIVVLGSEGWSGPLAIAHGVADAIDVTPVKAALSALGAEAGEATIVLAKAEPSRSGRIRGKRHTLDDSDISPTRHARAFVAGALAGVVGHTEIYVSGGGEHQGPDGGGPVAVIAART 4nq3-a1-m2-cB_4nq3-a1-m2-cA Crystal structure of cyanuic acid hydrolase from A. caulinodans A8IKD2 A8IKD2 2.702 X-RAY DIFFRACTION 127 1.0 438753 (Azorhizobium caulinodans ORS 571) 438753 (Azorhizobium caulinodans ORS 571) 334 337 4nq3-a1-m1-cB_4nq3-a1-m1-cA PIAKVHRIATASPDDVSGLAAAIATGAIAPAGILAIFGKTEGNGCVNDFSRGFAVQSLQLLRGHGAAADEVCLVSGGTEGGSPHFLVFERAEPALAIGRAHTPDLPFEALGRGQVRVAQAVRRAAAAGITDPEDVHFVQVKCPLLTARVKEAEARGATTATSDTLKSGLSRGASALGIALALGEVAEDALSDAVICADYGLWSARASCSSGIELLGHEIVVLGSEGWSGPLAIAHGVADAIDVTPVKAALSALGAEAGEATIVLAKAEPSRSGRIRGKRHTLDDSDISPTRHARAFVAGALAGVVGHTEIYVSGGGEHQGPDGGGPVAVIAART PIAKVHRIATASPDDVSGLAAAIATGAIAPAGILAIFGKTEGNGCVNDFSRGFAVQSLQLLRGHGAAADEVCLVSGGTEGGSPHFLVFERAEGNAPALAIGRAHTPDLPFEALGRGQVRVAQAVRRAAAAGITDPEDVHFVQVKCPLLTARVKEAEARGATTATSDTLKSGLSRGASALGIALALGEVAEDALSDAVICADYGLWSARASCSSGIELLGHEIVVLGSEGWSGPLAIAHGVADAIDVTPVKAALSALGAEAGEATIVLAKAEPSRSGRIRGKRHTLDDSDISPTRHARAFVAGALAGVVGHTEIYVSGGGEHQGPDGGGPVAVIAART 4nq8-a3-m1-cA_4nq8-a3-m1-cB Crystal structure of a trap periplasmic solute binding protein from Bordetella bronchispeptica (bb3421), target EFI-510039, with density modeled as pantoate A0A0H3LPK2 A0A0H3LPK2 1.5 X-RAY DIFFRACTION 67 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 300 301 TTLKMAYALSTSSHYGAGAEAFAKSIEGASGGKYKVQQFANSALGGEREVIEGLQIGTIDLAIVSTGATLNFVPETGVFDIPFLLRDLPHARAVLDSKIGQDMLAKFPDRGIIALAWGEQGFRHLTNNVRPVKTPADAKGLKIRTTENPIHITAFRQIGILPTPMAWPEVATALQQGTIDGQENPLSVITSAKLSQLQKYLSLTGHVYGPALVLMSANVYNGLSDAEKASFKAAGKDSAQAMRAYVDNIEQTGVEQLKKEGMEVSEVDRAAFAAAVEPAYAEYYKKFDKQLIQSIRDTKA QTTLKMAYALSTSSHYGAGAEAFAKSIEGASGGKYKVQQFANSALGGEREVIEGLQIGTIDLAIVSTGATLNFVPETGVFDIPFLLRDLPHARAVLDSKIGQDMLAKFPDRGIIALAWGEQGFRHLTNNVRPVKTPADAKGLKIRTTENPIHITAFRQIGILPTPMAWPEVATALQQGTIDGQENPLSVITSAKLSQLQKYLSLTGHVYGPALVLMSANVYNGLSDAEKASFKAAGKDSAQAMRAYVDNIEQTGVEQLKKEGMEVSEVDRAAFAAAVEPAYAEYYKKFDKQLIQSIRDTKA 4nqf-a1-m1-cA_4nqf-a1-m2-cB Crystal structure of HEPN domain protein Q7CW19 Q7CW19 2.7 X-RAY DIFFRACTION 43 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 142 148 LSPADALRVAEDHFLRHPDARDFADVAKYLVAKGNLHLAAFNLHQAVETAYNCYLLTLTNYSPASHNKFLRGLSEGRDRRLIDIWPRDRQRFTTWYNINEAYVKARYSKRFEVSEEALTWLQERTAELHKLVETLCREHIEK LSPADALRVAEDHFLRHPDARDFADVAKYLVAKGNLHLAAFNLHQAVETAYNCYLLTLTNYSPASHNKFLRGLSEGRDRRLIDIWPRDRQRFTTWYNINEAYVKARYSKRFEVSEEALTWLQERTAELHKLVETLCREHIEKLEHAAG 4nqi-a2-m1-cC_4nqi-a2-m1-cD Structure of the N-terminal I-BAR domain (1-259) of D.Discoideum IBARa C7FZZ0 C7FZZ0 2.21 X-RAY DIFFRACTION 206 0.995 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 222 227 QQNPVIEITLKTINNLKVNSPPLFTEVIKAANKYQQQAQALSQAGLVLADTLTRLTIHNGGDFGEGFKKLADAIKDLENRRDDVAKVLLNEFITPNKQAIEDDQKAIATFEKNYKKDRDQRQDILKLEAKTRKTTPEVLKQQITELNDKIKESEQLNANKLRDVVLERRKHATFLSQFNQFLEKEIELSADTSKFSTNLNTHRDLINSQSQLPLEESISKQE QNPVIEITLKTINNLKVNSPPLFTEVIKAANKYQQQAQALSQAGLVLADTLTRLTIHNGGDFGEGFKKLADAIKDLENRRDDVAKVLLNEFITPNKQAIEDDQKAIATFEKNYKKDRDQRQDILKLEAKTRKAGKKTTPEVLKQQITELNDKIKESEQLNANKLRDVVLERRKHATFLSQFNQFLEKEIELSADTSKFSTNLNTHRDLINSQSQLPLEESISKQERT 4nqq-a1-m1-cA_4nqq-a1-m1-cB Crystal structure of mouse P-cadherin extracellular domains EC1-EC2 P10287 P10287 3.2 X-RAY DIFFRACTION 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 213 EWVMPPIFVPENGKGPFPQRLNQLKSNKDRGTKIFYSITGPGADSPPEGVFTIEKESGWLLLHMPLDREKIVKYELYGHAVSENGASVEEPMNISIIVTDQNDNKPKFTQDTFRGSVLEGVMPGTSVMQVTATDEDDAVNTYNGVVAYSIHSQEPKEPHDLMFTIHKSTGTISVISSGLDREKVPEYRLTVQATDMDGEGSTTTAEAVVQILD EWVMPPIFVPENGKGPFPQRLNQLKSNKDRGTKIFYSITGPGADSPPEGVFTIEKESGWLLLHMPLDREKIVKYELYGHAVSENGASVEEPMNISIIVTDQNDNKPKFTQDTFRGSVLEGVMPGTSVMQVTATDEDDAVNTYNGVVAYSIHSQEPKEPHDLMFTIHKSTGTISVISSGLDREKVPEYRLTVQATDMDGEGSTTTAEAVVQILD 4nqq-a2-m1-cC_4nqq-a2-m1-cD Crystal structure of mouse P-cadherin extracellular domains EC1-EC2 P10287 P10287 3.2 X-RAY DIFFRACTION 23 0.99 10090 (Mus musculus) 10090 (Mus musculus) 210 211 MPPIFVPENGKGPFPQRLNQLKSNKDRGTKIFYSITGPGADSPPEGVFTIEKESGWLLLHMPLDREKIVKYELYGHAVSENGASVEEPMNISIIVTDQNDNKPKFTQDTFRGSVLEGVMPGTSVMQVTATDEDDAVNTYNGVVAYSIHSQEPKEPHDLMFTIHKSTGTISVISSGLDREKVPEYRLTVQATDMDGEGSTTTAEAVVQILD EWVMPPIFVPENGKGPFPQRLNQLKSNKDRGTKIFYSITGPGADSPPEGVFTIEKESGWLLLHMPLDREKIVKYELYGHAVSENGASVEEPMNISIIVTDQNDNKPKFTQDTFRGSVLEGVMPGTSVMQVTATDEDDAVNTYNGVVAYSIHSQEPKEPHDLMFTIHKSTGTISVISSGLDREKVPEYRLTVQATDMDGEGSTTTAEAVVQI 4nqy-a3-m1-cA_4nqy-a3-m1-cB The reduced form of MJ0499 P81291 P81291 2.6 X-RAY DIFFRACTION 56 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 409 409 MTIVEKILAKASGKKEVSPGDIVMANIDVAMVHDITGPLTVNTLKEYGIEKVWNPEKIVILFDNHILMRKFVKEQGIKYFYDIREGVCHQVLPEKGHVAPGEVVVGADSHTCTHGAFGAFATGIGSTDMAHVFATGKLWFKVPETIYFNITGDLQPYVTSKDVILSIIGEVGVDGATYKACQFGGETVKKMSIASRMTMTNMAIEMGGKTGIIEPDEKTIQYVKEAMKKHGTERPFEVIKGDEDAEFAEVYEIEADKIEPVFACPHNVDNVKQAREVAGKPIDQVFIGSCTNGRLEDLRMAIKIIEKHGGIADDVRVVVTPASREEYLKALKEGIIEKFLKYGCVVTNPSCSACMGSLYGVLGPGEVCVSTSNRNFRGRQGSLEAEIYLASPITAAACAVKGELVDPRD MTIVEKILAKASGKKEVSPGDIVMANIDVAMVHDITGPLTVNTLKEYGIEKVWNPEKIVILFDNHILMRKFVKEQGIKYFYDIREGVCHQVLPEKGHVAPGEVVVGADSHTCTHGAFGAFATGIGSTDMAHVFATGKLWFKVPETIYFNITGDLQPYVTSKDVILSIIGEVGVDGATYKACQFGGETVKKMSIASRMTMTNMAIEMGGKTGIIEPDEKTIQYVKEAMKKHGTERPFEVIKGDEDAEFAEVYEIEADKIEPVFACPHNVDNVKQAREVAGKPIDQVFIGSCTNGRLEDLRMAIKIIEKHGGIADDVRVVVTPASREEYLKALKEGIIEKFLKYGCVVTNPSCSACMGSLYGVLGPGEVCVSTSNRNFRGRQGSLEAEIYLASPITAAACAVKGELVDPRD 4nr2-a3-m1-cF_4nr2-a3-m1-cE Crystal structure of STK4 (MST1) SARAH domain Q13043 Q13043 2 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 47 51 4nr2-a1-m1-cB_4nr2-a1-m1-cA 4nr2-a2-m1-cD_4nr2-a2-m1-cC 4nr2-a4-m1-cG_4nr2-a4-m1-cH EFLKSWTVEDLQKRLLALDPMMEQEIEEIRQKYQSKRQPILDAIEAK SMDYEFLKSWTVEDLQKRLLALDPMMEQEIEEIRQKYQSKRQPILDAIEAK 4nrd-a2-m1-cE_4nrd-a2-m1-cF Crystal structure of a putative GDSL-like lipase (BACOVA_04955) from Bacteroides ovatus ATCC 8483 at 2.10 A resolution A7M4B4 A7M4B4 2.1 X-RAY DIFFRACTION 37 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 200 201 4nrd-a1-m1-cA_4nrd-a1-m1-cC 4nrd-a1-m1-cB_4nrd-a1-m1-cA 4nrd-a1-m1-cB_4nrd-a1-m1-cC 4nrd-a2-m1-cD_4nrd-a2-m1-cF 4nrd-a2-m1-cE_4nrd-a2-m1-cD QSLKSISILGDSYSTFEGYLQPDTNSIWYYVSPRQQTDVTSVKQTWWHKFIKENNYRLCVNNSFSGATICNTGYNQADYSDRSFITRDKLGCPDIIFIFGATNDCWAGSPLGDYKYEGWTKEDLYTFRPAAYLLDHIDRYPNVEIYFLLNSGLKEEFNESVRAICNHYNIDCIELHDIDKKSGHPSIKGEQISEQIKFRK QSLKSISILGDSYSTFEGYLQPDTNSIWYYVSPRQQTDVTSVKQTWWHKFIKENNYRLCVNNSFSGATICNTGYNQADYSDRSFITRDKLGCPDIIFIFGATNDCWAGSPLGDYKYEGWTKEDLYTFRPAAYLLDHIDRYPNVEIYFLLNSGLKEEFNESVRAICNHYNIDCIELHDIDKKSGHPSIKGEQISEQIKFRKT 4nre-a2-m2-cA_4nre-a2-m6-cA The structure of human 15-lipoxygenase-2 with a substrate mimic O15296 O15296 2.63 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 675 675 4nre-a2-m1-cA_4nre-a2-m4-cA 4nre-a2-m3-cA_4nre-a2-m5-cA AEFRVRVSTGEAFGAGTWDKVSVSIVGTRGESPPLPLDNLGKEFTAGAEEDFQVTLPEDVGRVLLLRVHKAPPVLPLLGPLAPDAWFCRWFQLTPPRGGHLLFPCYQWLEGAGTLVLQEGTAKVSWADHHPVLQQQRQEELQARQEMYQWKAYNPGWPHCLDEKTVEDLELNIKYSTAKNANFYLQAGSAFAEMKIKGLLDRKGLWRSLNEMKRIFNFRRTPAAEHAFEHWQEDAFFASQFLNGLNPVLIRRCHYLPKNFPVTDAMVASVLGPGTSLQAELEKGSLFLVDHGILSGIQTNVINGKPQFSAAPMTLLYQSPGCGPLLPLAIQLSQTPGPNSPIFLPTDDKWDWLLAKTWVRNAEFSFHEALTHLLHSHLLPEVFTLATLRQLPHCHPLFKLLIPHTRYTLHINTLARELLIVPGQVVDRSTGIGIEGFSELIQRNMKQLNYSLLCLPEDIRTRGVEDIPGYYYRDDGMQIWGAVERFVSEIIGIYYPSDESVQDDRELQAWVREIFSKGFLNQESSGIPSSLETREALVQYVTMVIFTCSAKHAAVSAGQFDSCAWMPNLPPSMQLPPPTSKGLATCEGFIATLPPVNATCDVILALWLLSKEPGDQRPLGTYPDEHFTEEAPRRSIATFQSRLAQISRGIQERNQGLVLPYTYLDPPLIENSVSI AEFRVRVSTGEAFGAGTWDKVSVSIVGTRGESPPLPLDNLGKEFTAGAEEDFQVTLPEDVGRVLLLRVHKAPPVLPLLGPLAPDAWFCRWFQLTPPRGGHLLFPCYQWLEGAGTLVLQEGTAKVSWADHHPVLQQQRQEELQARQEMYQWKAYNPGWPHCLDEKTVEDLELNIKYSTAKNANFYLQAGSAFAEMKIKGLLDRKGLWRSLNEMKRIFNFRRTPAAEHAFEHWQEDAFFASQFLNGLNPVLIRRCHYLPKNFPVTDAMVASVLGPGTSLQAELEKGSLFLVDHGILSGIQTNVINGKPQFSAAPMTLLYQSPGCGPLLPLAIQLSQTPGPNSPIFLPTDDKWDWLLAKTWVRNAEFSFHEALTHLLHSHLLPEVFTLATLRQLPHCHPLFKLLIPHTRYTLHINTLARELLIVPGQVVDRSTGIGIEGFSELIQRNMKQLNYSLLCLPEDIRTRGVEDIPGYYYRDDGMQIWGAVERFVSEIIGIYYPSDESVQDDRELQAWVREIFSKGFLNQESSGIPSSLETREALVQYVTMVIFTCSAKHAAVSAGQFDSCAWMPNLPPSMQLPPPTSKGLATCEGFIATLPPVNATCDVILALWLLSKEPGDQRPLGTYPDEHFTEEAPRRSIATFQSRLAQISRGIQERNQGLVLPYTYLDPPLIENSVSI 4nre-a2-m5-cA_4nre-a2-m6-cA The structure of human 15-lipoxygenase-2 with a substrate mimic O15296 O15296 2.63 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 675 675 4nre-a2-m1-cA_4nre-a2-m2-cA 4nre-a2-m1-cA_4nre-a2-m3-cA 4nre-a2-m2-cA_4nre-a2-m3-cA 4nre-a2-m4-cA_4nre-a2-m5-cA 4nre-a2-m4-cA_4nre-a2-m6-cA AEFRVRVSTGEAFGAGTWDKVSVSIVGTRGESPPLPLDNLGKEFTAGAEEDFQVTLPEDVGRVLLLRVHKAPPVLPLLGPLAPDAWFCRWFQLTPPRGGHLLFPCYQWLEGAGTLVLQEGTAKVSWADHHPVLQQQRQEELQARQEMYQWKAYNPGWPHCLDEKTVEDLELNIKYSTAKNANFYLQAGSAFAEMKIKGLLDRKGLWRSLNEMKRIFNFRRTPAAEHAFEHWQEDAFFASQFLNGLNPVLIRRCHYLPKNFPVTDAMVASVLGPGTSLQAELEKGSLFLVDHGILSGIQTNVINGKPQFSAAPMTLLYQSPGCGPLLPLAIQLSQTPGPNSPIFLPTDDKWDWLLAKTWVRNAEFSFHEALTHLLHSHLLPEVFTLATLRQLPHCHPLFKLLIPHTRYTLHINTLARELLIVPGQVVDRSTGIGIEGFSELIQRNMKQLNYSLLCLPEDIRTRGVEDIPGYYYRDDGMQIWGAVERFVSEIIGIYYPSDESVQDDRELQAWVREIFSKGFLNQESSGIPSSLETREALVQYVTMVIFTCSAKHAAVSAGQFDSCAWMPNLPPSMQLPPPTSKGLATCEGFIATLPPVNATCDVILALWLLSKEPGDQRPLGTYPDEHFTEEAPRRSIATFQSRLAQISRGIQERNQGLVLPYTYLDPPLIENSVSI AEFRVRVSTGEAFGAGTWDKVSVSIVGTRGESPPLPLDNLGKEFTAGAEEDFQVTLPEDVGRVLLLRVHKAPPVLPLLGPLAPDAWFCRWFQLTPPRGGHLLFPCYQWLEGAGTLVLQEGTAKVSWADHHPVLQQQRQEELQARQEMYQWKAYNPGWPHCLDEKTVEDLELNIKYSTAKNANFYLQAGSAFAEMKIKGLLDRKGLWRSLNEMKRIFNFRRTPAAEHAFEHWQEDAFFASQFLNGLNPVLIRRCHYLPKNFPVTDAMVASVLGPGTSLQAELEKGSLFLVDHGILSGIQTNVINGKPQFSAAPMTLLYQSPGCGPLLPLAIQLSQTPGPNSPIFLPTDDKWDWLLAKTWVRNAEFSFHEALTHLLHSHLLPEVFTLATLRQLPHCHPLFKLLIPHTRYTLHINTLARELLIVPGQVVDRSTGIGIEGFSELIQRNMKQLNYSLLCLPEDIRTRGVEDIPGYYYRDDGMQIWGAVERFVSEIIGIYYPSDESVQDDRELQAWVREIFSKGFLNQESSGIPSSLETREALVQYVTMVIFTCSAKHAAVSAGQFDSCAWMPNLPPSMQLPPPTSKGLATCEGFIATLPPVNATCDVILALWLLSKEPGDQRPLGTYPDEHFTEEAPRRSIATFQSRLAQISRGIQERNQGLVLPYTYLDPPLIENSVSI 4nrn-a3-m1-cA_4nrn-a3-m1-cB Crystal structure of metal-bound toxin from Helicobacter pylori O25552 O25552 1.802 X-RAY DIFFRACTION 42 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 90 90 MLTIETSKKFDKDLKILVKNGFDLKLLYKVVGNLATEQPLAPKYKDHPLKGGLKDFRECHLKPDLLLVYQIKKQENTLFLVRLGSHSELF MLTIETSKKFDKDLKILVKNGFDLKLLYKVVGNLATEQPLAPKYKDHPLKGGLKDFRECHLKPDLLLVYQIKKQENTLFLVRLGSHSELF 4nrr-a3-m1-cB_4nrr-a3-m1-cA Crystal Structure of Glycoside Hydrolase Family 5 Mannosidase (E202A mutant) from Rhizomucor miehei in complex with mannosyl-fructose A0A075C6T6 A0A075C6T6 2.4 X-RAY DIFFRACTION 56 0.998 4839 (Rhizomucor miehei) 4839 (Rhizomucor miehei) 415 416 GSEFAFVKIASDGKGFTRYGEPYLIRGANYWQGMNLGADDCSGGDRKRMELEIKQMAEMGINNLRVMASSEGPDDQPYRMRPSMMPQPGKYNEGVFVGLDYLLDTMDRYNMTAVMTLGNFWQWSGGFGQYVAWITGNQTIPYPVGDVTYDEFTQFAARFYNDSEIAPKANKLFKDHIYTVQNRRNTVNGKIYKEDPVIMSWQIANAPQEAPASWFEEISTFIKKGAPKHLVSAGLESKLDEYDFDRAHDHKNIDYTTCHCWVENWGIYDPADPDGLPHANEYMHDFLESRSKWAAQLNKPIVMEEFGMARDAWRNPEDETYKYLPSTPTSHKDEYYQKAFNQIVSLASNRSFSGSNFWAYGGEGRSTYPPNPYGMVWLGDPPHEPHGWYSVYSNDTTVQIIKDYNANLLKVQKEL SEFAFVKIASDGKGFTRYGEPYLIRGANYWQGMNLGADDCSGGDRKRMELEIKQMAEMGINNLRVMASSEGPDDQPYRMRPSMMPQPGKYNEGVFVGLDYLLDTMDRYNMTAVMTLGNFWQWSGGFGQYVAWITGNQTIPYPVGDVTYDEFTQFAARFYNDSEIAPKANKLFKDHIYTVQNRRNTVNGKIYKEDPVIMSWQIANAPQEAPASWFEEISTFIKKGAPKHLVSAGLESKLDEYDFDRAHDHKNIDYTTCHCWVENWGIYDPADPDGLPHANEYMHDFLESRSKWAAQLNKPIVMEEFGMARDAWRNPEDETYKYLPSTPTSHKDEYYQKAFNQIVSLASNRSFSGSNFWAYGGEGRSTYPPNPYGMVWLGDPPHEPHGWYSVYSNDTTVQIIKDYNANLLKVQKELSK 4ns1-a1-m1-cA_4ns1-a1-m1-cB Crystal structure of purine nucleoside phosphorylase from Porphyromonas gingivalis ATCC 33277, NYSGRC Target 30972 B2RKN6 B2RKN6 1.64 X-RAY DIFFRACTION 74 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 256 258 4ns1-a1-m1-cC_4ns1-a1-m1-cA 4ns1-a1-m1-cC_4ns1-a1-m1-cB 4ns1-a2-m1-cD_4ns1-a2-m2-cD 4ns1-a2-m1-cD_4ns1-a2-m3-cD 4ns1-a2-m2-cD_4ns1-a2-m3-cD 4nsn-a1-m1-cA_4nsn-a1-m1-cB 4nsn-a1-m1-cA_4nsn-a1-m1-cC 4nsn-a1-m1-cB_4nsn-a1-m1-cC KLQEQHYHEAASFLSSRLPGDAKTAIILGSGLGELAEKIENKTVIPYNEIPHFAQAKGNIIGGILGGTPVVAQGRFHYYEGYSDQVTFPIRVKLLGIENLFVSNAAGGINTSFKVGDLIIDHINNLPNPLIGPNDFGVRFPDTRAYDREFIAKAKGIAQELNIPVKEGVYVGLTGPSYETPAEYKFWGQVGGDAIGSTVPEVIVARHTGIRVFGSVITNEGYHFADDFVNDEQDVIRAANAASEKGAIFARLIAAV QSKLQEQHYHEAASFLSSRLPGDAKTAIILGSGLGELAEKIENKTVIPYNEIPHFAQAKGNIIGGILGGTPVVAQGRFHYYEGYSDQVTFPIRVKLLGIENLFVSNAAGGINTSFKVGDLIIDHINNLPNPLIGPNDFGVRFPDTRAYDREFIAKAKGIAQELNIPVKEGVYVGLTGPSYETPAEYKFWGQVGGDAIGSTVPEVIVARHTGIRVFGSVITNEGYHFADDFVNDEQDVIRAANAASEKGAIFARLIAAV 4nsc-a1-m1-cA_4nsc-a1-m1-cD Crystal Structure of CBARA1 in the Apo-form Q9BPX6 Q9BPX6 3.2 X-RAY DIFFRACTION 26 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 310 326 KRSGFRDRKVMEYENRIRAYSTPDKIFRYFATLKAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFDIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMRMGFTRLMQAMWKCAQ FRDRKVMEYENRIRAYSTPDKIFRYFATLKVISGEAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFDEKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQTSMGSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMRGLTRLMQAMWKCAQET 4nsc-a1-m1-cB_4nsc-a1-m1-cC Crystal Structure of CBARA1 in the Apo-form Q9BPX6 Q9BPX6 3.2 X-RAY DIFFRACTION 11 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 316 330 RDRKVMEYENRIRAYSTPDKIFRYFATLKVIAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRREKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQTSMGMCSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDSNKEFVSIMKQRLMRGFTRLMQAMWKCAQET RDRKVMEYENRIRAYSTPDKIFRYFATLKVIAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFEREKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQTSMGMRHALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMRGLEKPKDMGFTRLMQAMWKCA 4nsc-a1-m1-cF_4nsc-a1-m1-cC Crystal Structure of CBARA1 in the Apo-form Q9BPX6 Q9BPX6 3.2 X-RAY DIFFRACTION 11 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 310 330 RSGFRDRKVMEYENRIRAYSTPDKIFRYFATLKVIAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFSQEREKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQTSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMR RDRKVMEYENRIRAYSTPDKIFRYFATLKVIAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFEREKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQTSMGMRHALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMRGLEKPKDMGFTRLMQAMWKCA 4nsc-a1-m1-cF_4nsc-a1-m1-cE Crystal Structure of CBARA1 in the Apo-form Q9BPX6 Q9BPX6 3.2 X-RAY DIFFRACTION 19 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 310 330 4nsc-a1-m1-cA_4nsc-a1-m1-cE RSGFRDRKVMEYENRIRAYSTPDKIFRYFATLKVIAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFSQEREKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQTSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMR RSGFRDRKVMEYENRIRAYSTPDKIFRYFATLKVISEPGEAEVFMTPEDFVRSITPNEKQPEHLGLDQYIIKRFDQEREKFADEGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSQSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLMRGLFTRLMQAMWKCAQE 4nsd-a2-m1-cB_4nsd-a2-m3-cB Crystal Structure of CBARA1 in the Ca2+ Binding Form Q9BPX6 Q9BPX6 2.7 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 283 283 4nsd-a1-m1-cA_4nsd-a1-m2-cA IRAYSTPDKIFRYFATLKVISEPGEAEVFMTPEDFVRSITPNEHLGLDQYIIKGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSLCSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLM IRAYSTPDKIFRYFATLKVISEPGEAEVFMTPEDFVRSITPNEHLGLDQYIIKGSIFYTLGECGLISFSDYIFLTTVLSTPQRNFEIAFKMFDLNGDGEVDMEEFEQVQSIIRSLCSALTTYFFGADLKGKLTIKNFLEFQRKLQHDVLKLEFERHDPVDGRITERQFGGMLLAYSGVQSKKLTAMQRQLKKHFKEGKGLTFQEVENFFTFLKNINDVDTALSFYHMAGASLDKVTMQQVARTVAKVELSDHVCDVVFALFDCDGNGELSNKEFVSIMKQRLM 4nsm-a1-m2-cA_4nsm-a1-m3-cA crystal structure of the streptococcal collagen-like protein 2 globular domain from invasive M3-type group A Streptococcus A0A0H2UUG0 A0A0H2UUG0 1.6 X-RAY DIFFRACTION 34 1.0 198466 (Streptococcus pyogenes MGAS315) 198466 (Streptococcus pyogenes MGAS315) 71 71 4nsm-a1-m1-cA_4nsm-a1-m2-cA 4nsm-a1-m1-cA_4nsm-a1-m3-cA QKRAQIQKREELLSALIDGTSRLENKQFPYPGSTGLDDTYMNSLIQYLQERKQIEDKWRASLLKGIQDHVL QKRAQIQKREELLSALIDGTSRLENKQFPYPGSTGLDDTYMNSLIQYLQERKQIEDKWRASLLKGIQDHVL 4nsq-a2-m1-cB_4nsq-a2-m1-cC Crystal structure of PCAF Q92831 Q92831 2.3108 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 4nsq-a1-m1-cA_4nsq-a1-m1-cD KVIEFHVVGNSPNKKILMWLVGLQNVFSHQLPRMPKEYITRLVFDPKHKTLALIKDGRVIGGICFRMFPSQGFTEIVFCAVTSNEQVKGYGTHLMNHLKEYHIKHDILNFLTYADEYAIGYFKKQGFSKEIKIPKTKYVGYIKDYEGATLMGCELNP KVIEFHVVGNSPNKKILMWLVGLQNVFSHQLPRMPKEYITRLVFDPKHKTLALIKDGRVIGGICFRMFPSQGFTEIVFCAVTSNEQVKGYGTHLMNHLKEYHIKHDILNFLTYADEYAIGYFKKQGFSKEIKIPKTKYVGYIKDYEGATLMGCELNP 4nsr-a3-m1-cE_4nsr-a3-m1-cF Crystal structure of the Immunity protein Q9KN41 Q9KN41 2.795 X-RAY DIFFRACTION 52 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 89 89 4nso-a1-m1-cB_4nso-a1-m2-cB 4nsr-a1-m1-cA_4nsr-a1-m1-cB 4nsr-a2-m1-cD_4nsr-a2-m1-cC VHQKILVCIQNEIAKSETQIRNNISSKSIDYGFPDDFYSKQRLAIHEKCMLYINVGGQRGELLMNQCELSMLQGLDIYIQQYIEDVDNS VHQKILVCIQNEIAKSETQIRNNISSKSIDYGFPDDFYSKQRLAIHEKCMLYINVGGQRGELLMNQCELSMLQGLDIYIQQYIEDVDNS 4nsv-a1-m1-cA_4nsv-a1-m1-cB Lysobacter enzymogenes lysc endoproteinase K30R mutant covalently inhibited by TLCK Q7M135 Q7M135 0.9 X-RAY DIFFRACTION 32 1.0 69 (Lysobacter enzymogenes) 69 (Lysobacter enzymogenes) 264 264 4nsy-a1-m1-cA_4nsy-a1-m1-cB GVSGSCNIDVVCPEGNGHRDVIRSVAAYSRQGTMWCTGSLVNNSANDKKMYFLTANHCGMTTAAIASSMVVYWNYQNSTCRAPGSSSSGANGDGSLAQSQTGAVVRATNAASDFTLLELNTAANPAYNLFWAGWDRRDQNFAGATAIHHPNVAEKRISHSTVATEISGYNGATGTSHLHVFWQASGGVTEPGSSGSPIYSPEKRVLGQLHGGPSSCSATGADRSDYYGRVFTSWTGGGTSATRLSDWLDAAGTGAQFIDGLDST GVSGSCNIDVVCPEGNGHRDVIRSVAAYSRQGTMWCTGSLVNNSANDKKMYFLTANHCGMTTAAIASSMVVYWNYQNSTCRAPGSSSSGANGDGSLAQSQTGAVVRATNAASDFTLLELNTAANPAYNLFWAGWDRRDQNFAGATAIHHPNVAEKRISHSTVATEISGYNGATGTSHLHVFWQASGGVTEPGSSGSPIYSPEKRVLGQLHGGPSSCSATGADRSDYYGRVFTSWTGGGTSATRLSDWLDAAGTGAQFIDGLDST 4nt4-a2-m1-cA_4nt4-a2-m2-cA Crystal structure of the kinase domain of Gilgamesh isoform I from Drosophila melanogaster Q86NK8 Q86NK8 2.86 X-RAY DIFFRACTION 35 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 300 300 AVLMVGPNFRVGKKIGCFGELRLGKNLYNNEHVAIKMEPMKSKAPQLHLEYRFYKLLGSHADNAPDGIPRIYHLGTCGGRYNAMVLELLGLSLEDLFNICARKFSLKTVLMIAKQLLHRIEYVHSRHLIYRDVKPENFLIGRTSTKREKIIHIIDFGLAKEYIDLDTNRHIPYREHKSLTGTARYMSINTHMGREQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRATPIEVLCDGHPEEFATYLRYVRRLDFFETPDYDFLRRLFQDLFDRKGYTDEGEFDWTGKT AVLMVGPNFRVGKKIGCFGELRLGKNLYNNEHVAIKMEPMKSKAPQLHLEYRFYKLLGSHADNAPDGIPRIYHLGTCGGRYNAMVLELLGLSLEDLFNICARKFSLKTVLMIAKQLLHRIEYVHSRHLIYRDVKPENFLIGRTSTKREKIIHIIDFGLAKEYIDLDTNRHIPYREHKSLTGTARYMSINTHMGREQSRRDDLEALGHMFMYFLRGSLPWQGLKADTLKERYQKIGDTKRATPIEVLCDGHPEEFATYLRYVRRLDFFETPDYDFLRRLFQDLFDRKGYTDEGEFDWTGKT 4nt5-a1-m1-cA_4nt5-a1-m2-cA Crystal structure of human von Willebrand factor CTCK domain P04275 P04275 3.281 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 EPECNDITARLQYVKVGSCKSEVEVDIHYCQGKCASKAMYSIDINDVQDQCSCCSPTRTEPMQVALHCTNGSVVYHEVLNAMECKCSPRKCSK EPECNDITARLQYVKVGSCKSEVEVDIHYCQGKCASKAMYSIDINDVQDQCSCCSPTRTEPMQVALHCTNGSVVYHEVLNAMECKCSPRKCSK 4nt9-a1-m1-cA_4nt9-a1-m1-cB Crystal structure of an L,D-carboxypeptidase DacB from Streptococcus pneumonia A0A0H2UP74 A0A0H2UP74 1.705 X-RAY DIFFRACTION 33 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 184 184 4oxd-a1-m1-cH_4oxd-a1-m1-cA KAEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAMQEAGFPISDHYSGFRSYETQTKLYQDYVNQDGKAAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYMAEEWHLRYVGKEAKEIAASGLSLEEYYGFEGGDYV KAEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAMQEAGFPISDHYSGFRSYETQTKLYQDYVNQDGKAAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYMAEEWHLRYVGKEAKEIAASGLSLEEYYGFEGGDYV 4nt9-a1-m1-cA_4nt9-a1-m1-cC Crystal structure of an L,D-carboxypeptidase DacB from Streptococcus pneumonia A0A0H2UP74 A0A0H2UP74 1.705 X-RAY DIFFRACTION 23 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 184 184 KAEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAMQEAGFPISDHYSGFRSYETQTKLYQDYVNQDGKAAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYMAEEWHLRYVGKEAKEIAASGLSLEEYYGFEGGDYV KAEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAMQEAGFPISDHYSGFRSYETQTKLYQDYVNQDGKAAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYMAEEWHLRYVGKEAKEIAASGLSLEEYYGFEGGDYV 4ntc-a1-m1-cB_4ntc-a1-m1-cA Crystal structure of GliT E9RAH5 E9RAH5 1.9 X-RAY DIFFRACTION 154 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 314 325 LLVDVLIIGAGPAGLSTATGLARQLHTAVVFDSGVYRNAKTQHMHNVLGWDHRNPAELRAAGRADLTTRYSTIQFQNSTIEAIRQVETNQLFEARDNEGHSWYGRKVVLATGVRDIPLDIEGYSECWANGIYHCLFCDGYEERGQETVGVLALGPIANPARALHLARMALRLSESVTIYTNGNEQLAKEIQQAAEESPVGASGLKFEARPIRRFEKGDVAKTVIVHLGESESKTEGFLVYNPQTEVNGPFAKQLALNMTEGGDILTTPPFYETSVPGVFAVGDCATPLKAVTPAVSMGSLAAGGLVAQLQAQAL MSIGKLLSNGALLVDVLIIGAGPAGLSTATGLARQLHTAVVFDSGVYRNAKTQHMHNVLGWDHRNPAELRAAGRADLTTRYSTIQFQNSTIEAIRQVETNQLFEARDNEGHSWYGRKVVLATGVRDIPLDIEGYSECWANGIYHCLFCDGYEERGQETVGVLALGPIANPARALHLARMALRLSESVTIYTNGNEQLAKEIQQAAEESPVGASGLKFEARPIRRFEKGDVAKTVIVHLGESESKTEGFLVYNPQTEVNGPFAKQLALNMTEGGDILTTPPFYETSVPGVFAVGDCATPLKAVTPAVSMGSLAAGGLVAQLQAQAL 4ntd-a1-m1-cA_4ntd-a1-m2-cA Crystal structure of HlmI E2PZ87 E2PZ87 1.6 X-RAY DIFFRACTION 179 1.0 318 318 NGFTHEGGIDVVVIGAGAGGLNAALVLARARRRVVLVDSGAPRNAPSAHMQGFLSRDGMAPSALLETGRAEVSGYGAEFIRGEVDDVEREGEDDAPRFTVRLVGGVALSTRRVVVATGLRDELPDIPGVRERWGKDLLHCPYCHGYEVSDQPLGVLGTSPGAVRHALLLRQWSDDVVLFRHGLELTDDDRRALSARQVPVIEGTVKRLVVEDDRLRGVELAEDSGVARSTVFVVPRMVPRDGLLTALGCERGADGWIATDRSGLTSVPGVWAVGNVVDPRALVVSSAGMGSAAAFALNHQLVDEDVASAVRAAARTVA NGFTHEGGIDVVVIGAGAGGLNAALVLARARRRVVLVDSGAPRNAPSAHMQGFLSRDGMAPSALLETGRAEVSGYGAEFIRGEVDDVEREGEDDAPRFTVRLVGGVALSTRRVVVATGLRDELPDIPGVRERWGKDLLHCPYCHGYEVSDQPLGVLGTSPGAVRHALLLRQWSDDVVLFRHGLELTDDDRRALSARQVPVIEGTVKRLVVEDDRLRGVELAEDSGVARSTVFVVPRMVPRDGLLTALGCERGADGWIATDRSGLTSVPGVWAVGNVVDPRALVVSSAGMGSAAAFALNHQLVDEDVASAVRAAARTVA 4nte-a1-m1-cA_4nte-a1-m1-cB Crystal structure of DepH A4ZPY8 A4ZPY8 1.9 X-RAY DIFFRACTION 119 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 292 296 4jn9-a1-m1-cB_4jn9-a1-m1-cA MLFDVIVIGGSHAGQSAALQIARARRRVLVIDAGARRNRFASQSHGVIGQDGRSPDAIAADGKAQLLAYPNAQWREDSVVRAERSGYTLICASGQHYRACQLVLAFGVVDELPELEGLEERWGESVFHCPYCHGYELDGGRIGVLGSGPLSYLSAMLMPEWGQTVFLTDASFEPDEEQREALARRGVEIVRDRIARIVDRATVELADGRRIAFDGLFTMNRMRLSSPVAEQLGCAIEEGPLGPYVRTDDAMETSTPGVFACGDITHRGGTVALAIGNGALAGIAAHRKLVFG TSPMLFDVIVIGGSHAGQSAALQIARARRRVLVIDAGARRNRFASQSHGVIGQDGRSPDAIAADGKAQLLAYPNAQWREDSVVRAERSDGYTLICASGQHYRACQLVLAFGVVDELPELEGLEERWGESVFHCPYCHGYELDGGRIGVLGSGPLSYLSAMLMPEWGQTVFLTDASFEPDEEQREALARRGVEIVRDRIARIVDRATVELADGRRIAFDGLFTMNRMRLSSPVAEQLGCAIEEGPLGPYVRTDDAMETSTPGVFACGDITHRGGTVALAIGNGALAGIAAHRKLVFG 4ntf-a1-m2-cA_4ntf-a1-m3-cA Mus Musculus LTC4 synthase in S-hexyl-GSH complex form Q60860 Q60860 2.65 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 145 145 2pno-a1-m1-cA_2pno-a1-m1-cB 2pno-a1-m1-cA_2pno-a1-m1-cC 2pno-a1-m1-cB_2pno-a1-m1-cC 2pno-a2-m1-cD_2pno-a2-m1-cE 2pno-a2-m1-cD_2pno-a2-m1-cF 2pno-a2-m1-cE_2pno-a2-m1-cF 2pno-a3-m1-cG_2pno-a3-m1-cH 2pno-a3-m1-cG_2pno-a3-m1-cI 2pno-a3-m1-cH_2pno-a3-m1-cI 2pno-a4-m1-cJ_2pno-a4-m1-cK 2pno-a4-m1-cJ_2pno-a4-m1-cL 2pno-a4-m1-cK_2pno-a4-m1-cL 2uuh-a1-m1-cA_2uuh-a1-m2-cA 2uuh-a1-m1-cA_2uuh-a1-m3-cA 2uuh-a1-m2-cA_2uuh-a1-m3-cA 2uui-a1-m1-cA_2uui-a1-m2-cA 2uui-a1-m1-cA_2uui-a1-m3-cA 2uui-a1-m2-cA_2uui-a1-m3-cA 3b29-a1-m1-cA_3b29-a1-m2-cA 3b29-a1-m1-cA_3b29-a1-m3-cA 3b29-a1-m2-cA_3b29-a1-m3-cA 3hkk-a1-m1-cA_3hkk-a1-m2-cA 3hkk-a1-m1-cA_3hkk-a1-m3-cA 3hkk-a1-m2-cA_3hkk-a1-m3-cA 3leo-a1-m10-cA_3leo-a1-m4-cA 3leo-a1-m10-cA_3leo-a1-m7-cA 3leo-a1-m11-cA_3leo-a1-m2-cA 3leo-a1-m11-cA_3leo-a1-m8-cA 3leo-a1-m12-cA_3leo-a1-m3-cA 3leo-a1-m12-cA_3leo-a1-m6-cA 3leo-a1-m1-cA_3leo-a1-m5-cA 3leo-a1-m1-cA_3leo-a1-m9-cA 3leo-a1-m2-cA_3leo-a1-m8-cA 3leo-a1-m3-cA_3leo-a1-m6-cA 3leo-a1-m4-cA_3leo-a1-m7-cA 3leo-a1-m5-cA_3leo-a1-m9-cA 3leo-a2-m1-cA_3leo-a2-m5-cA 3leo-a2-m1-cA_3leo-a2-m9-cA 3leo-a2-m5-cA_3leo-a2-m9-cA 3pcv-a1-m1-cA_3pcv-a1-m2-cA 3pcv-a1-m1-cA_3pcv-a1-m3-cA 3pcv-a1-m2-cA_3pcv-a1-m3-cA 4j7t-a1-m1-cA_4j7t-a1-m2-cA 4j7t-a1-m1-cA_4j7t-a1-m3-cA 4j7t-a1-m2-cA_4j7t-a1-m3-cA 4j7t-a2-m10-cA_4j7t-a2-m5-cA 4j7t-a2-m10-cA_4j7t-a2-m8-cA 4j7t-a2-m11-cA_4j7t-a2-m4-cA 4j7t-a2-m11-cA_4j7t-a2-m7-cA 4j7t-a2-m12-cA_4j7t-a2-m6-cA 4j7t-a2-m12-cA_4j7t-a2-m9-cA 4j7t-a2-m1-cA_4j7t-a2-m2-cA 4j7t-a2-m1-cA_4j7t-a2-m3-cA 4j7t-a2-m2-cA_4j7t-a2-m3-cA 4j7t-a2-m4-cA_4j7t-a2-m7-cA 4j7t-a2-m5-cA_4j7t-a2-m8-cA 4j7t-a2-m6-cA_4j7t-a2-m9-cA 4j7y-a1-m1-cA_4j7y-a1-m2-cA 4j7y-a1-m1-cA_4j7y-a1-m3-cA 4j7y-a1-m2-cA_4j7y-a1-m3-cA 4j7y-a2-m10-cA_4j7y-a2-m6-cA 4j7y-a2-m10-cA_4j7y-a2-m8-cA 4j7y-a2-m11-cA_4j7y-a2-m5-cA 4j7y-a2-m11-cA_4j7y-a2-m9-cA 4j7y-a2-m12-cA_4j7y-a2-m4-cA 4j7y-a2-m12-cA_4j7y-a2-m7-cA 4j7y-a2-m1-cA_4j7y-a2-m2-cA 4j7y-a2-m1-cA_4j7y-a2-m3-cA 4j7y-a2-m2-cA_4j7y-a2-m3-cA 4j7y-a2-m4-cA_4j7y-a2-m7-cA 4j7y-a2-m5-cA_4j7y-a2-m9-cA 4j7y-a2-m6-cA_4j7y-a2-m8-cA 4jc7-a1-m1-cA_4jc7-a1-m2-cA 4jc7-a1-m1-cA_4jc7-a1-m3-cA 4jc7-a1-m2-cA_4jc7-a1-m3-cA 4jcz-a1-m1-cA_4jcz-a1-m2-cA 4jcz-a1-m1-cA_4jcz-a1-m3-cA 4jcz-a1-m2-cA_4jcz-a1-m3-cA 4jrz-a1-m1-cA_4jrz-a1-m2-cA 4jrz-a1-m1-cA_4jrz-a1-m3-cA 4jrz-a1-m2-cA_4jrz-a1-m3-cA 4nta-a1-m1-cA_4nta-a1-m2-cA 4nta-a1-m1-cA_4nta-a1-m3-cA 4nta-a1-m2-cA_4nta-a1-m3-cA 4ntb-a1-m1-cA_4ntb-a1-m2-cA 4ntb-a1-m1-cA_4ntb-a1-m3-cA 4ntb-a1-m2-cA_4ntb-a1-m3-cA 4ntf-a1-m1-cA_4ntf-a1-m2-cA 4ntf-a1-m1-cA_4ntf-a1-m3-cA 5hv9-a1-m1-cA_5hv9-a1-m2-cA 5hv9-a1-m1-cA_5hv9-a1-m3-cA 5hv9-a1-m2-cA_5hv9-a1-m3-cA 6r7d-a1-m1-cA_6r7d-a1-m1-cB 6r7d-a1-m1-cC_6r7d-a1-m1-cA 6r7d-a1-m1-cC_6r7d-a1-m1-cB 6r7d-a2-m1-cD_6r7d-a2-m1-cF 6r7d-a2-m1-cE_6r7d-a2-m1-cD 6r7d-a2-m1-cE_6r7d-a2-m1-cF 6r7d-a3-m1-cG_6r7d-a3-m1-cH 6r7d-a3-m1-cI_6r7d-a3-m1-cG 6r7d-a3-m1-cI_6r7d-a3-m1-cH 6r7d-a4-m1-cJ_6r7d-a4-m1-cK 6r7d-a4-m1-cL_6r7d-a4-m1-cJ 6r7d-a4-m1-cL_6r7d-a4-m1-cK HKDEVALLATVTLVGVLLQAYFSLQVISARRAFHVSPPLTSGPPEFERVFRAQVNCSEYFPLFLATLWVAGIFFHEGAAALCGLFYLFARLRYFQGYARSAQLRLTPLYASARALWLLVAMAALGLLVHFLPGTLRTALFRWLQM HKDEVALLATVTLVGVLLQAYFSLQVISARRAFHVSPPLTSGPPEFERVFRAQVNCSEYFPLFLATLWVAGIFFHEGAAALCGLFYLFARLRYFQGYARSAQLRLTPLYASARALWLLVAMAALGLLVHFLPGTLRTALFRWLQM 4ntl-a1-m1-cA_4ntl-a1-m2-cA Crystal structure of a lipoprotein, YaeC family (EF3198) from Enterococcus faecalis V583 at 1.80 A resolution Q82Z74 Q82Z74 1.799 X-RAY DIFFRACTION 56 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 237 237 DKEITVAVQLESSKDILEIAKKEAEKKGYKINIEVSDNVAYNDAVQHDEADANFAQHQPFEFNKEKKADLVAVQPIYYFAGGFYSKEYQDAKDLPENAKVGIPSDPTNEGRALAILNANGVIKLKEGVGFNGTVADVVENPKNITFESIDLLNLAKAYDEKDIAVFCYPAYLEPAGLTTKDAILLEDKEASKHYALQVVTRKGEKDSEKIKVLKEATTKEVAEYIKKNSKGANIPAF DKEITVAVQLESSKDILEIAKKEAEKKGYKINIEVSDNVAYNDAVQHDEADANFAQHQPFEFNKEKKADLVAVQPIYYFAGGFYSKEYQDAKDLPENAKVGIPSDPTNEGRALAILNANGVIKLKEGVGFNGTVADVVENPKNITFESIDLLNLAKAYDEKDIAVFCYPAYLEPAGLTTKDAILLEDKEASKHYALQVVTRKGEKDSEKIKVLKEATTKEVAEYIKKNSKGANIPAF 4ntp-a1-m1-cG_4ntp-a1-m1-cH Crystal structure of macrocycles containing A 17-23 (LV(PHI)FAED) and A 30-36 (AII(SAR)L(ORN)V) 1.987 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 11 11 4ntp-a1-m1-cD_4ntp-a1-m1-cE LVFAEDAIILV LVFAEDAIILV 4nu3-a3-m1-cB_4nu3-a3-m2-cA Crystal structure of mFfIBP, a capping head region swapped mutant of ice-binding protein H7FWB6 H7FWB6 1.399 X-RAY DIFFRACTION 60 1.0 1086011 (Flavobacterium frigoris PS1) 1086011 (Flavobacterium frigoris PS1) 225 226 SGQTLDLVNLGVAANFAILSKTGITDVYKSAITGDIGVSPAAATYITGFGLTQDSSTTYATSPQVTGLIYAADYSTPTPSRLTTAVGDMQIAYDNAAGRLNPDFLNLGAGTIGGKTLTPGLYKWTSTLNIPTDITISGSSTDVWIFQVAGNLNMSSAVRITLAGGAQAKNIFWQTAGAVTLGSTSHFEGNILSQTGINMKTAASINGRMMAQTAVTLQMNTVTIP SGQTLDLVNLGVAANFAILSKTGITDVYKSAITGDIGVSPAAATYITGFGLTQDSSTTYATSPQVTGLIYAADYSTPTPSRLTTAVGDMQIAYDNAAGRLNPDFLNLGAGTIGGKTLTPGLYKWTSTLNIPTDITISGSSTDVWIFQVAGNLNMSSAVRITLAGGAQAKNIFWQTAGAVTLGSTSHFEGNILSQTGINMKTAASINGRMMAQTAVTLQMNTVTIPQ 4num-a2-m1-cC_4num-a2-m1-cD Crystal structure of mouse N-cadherin EC1-2 A78SI92M P15116 P15116 3.3 X-RAY DIFFRACTION 45 1.0 10090 (Mus musculus) 10090 (Mus musculus) 215 215 4num-a1-m1-cA_4num-a1-m1-cB DWVIPPINLPENSRGPFPQELVRIRSDRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRSHAVDINGNQVENPMDIVINVIDMNDNRPEFLHQVWNGSVPEGSKPGTYVMTVTAIDADDPNALNGMLRYRILSQAPSTPSPNMFTINNETGDIITVAAGLDREKVQQYTLIIQATDMEGNPTYGLSNTATAVITVTD DWVIPPINLPENSRGPFPQELVRIRSDRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRSHAVDINGNQVENPMDIVINVIDMNDNRPEFLHQVWNGSVPEGSKPGTYVMTVTAIDADDPNALNGMLRYRILSQAPSTPSPNMFTINNETGDIITVAAGLDREKVQQYTLIIQATDMEGNPTYGLSNTATAVITVTD 4nup-a2-m1-cC_4nup-a2-m2-cC Crystal structure of mouse N-cadherin EC1-2 with AA insertion between residues 2 and 3 P15116 P15116 2.7 X-RAY DIFFRACTION 94 1.0 10090 (Mus musculus) 10090 (Mus musculus) 217 217 4nup-a1-m1-cA_4nup-a1-m1-cB DWAAVIPPINLPENSRGPFPQELVRIRSDRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRAHAVDINGNQVENPIDIVINVIDMNDNRPEFLHQVWNGSVPEGSKPGTYVMTVTAIDADDPNALNGMLRYRILSQAPSTPSPNMFTINNETGDIITVAAGLDREKVQQYTLIIQATDMEGNPTYGLSNTATAVITVTD DWAAVIPPINLPENSRGPFPQELVRIRSDRDKNLSLRYSVTGPGADQPPTGIFIINPISGQLSVTKPLDRELIARFHLRAHAVDINGNQVENPIDIVINVIDMNDNRPEFLHQVWNGSVPEGSKPGTYVMTVTAIDADDPNALNGMLRYRILSQAPSTPSPNMFTINNETGDIITVAAGLDREKVQQYTLIIQATDMEGNPTYGLSNTATAVITVTD 4nur-a1-m1-cA_4nur-a1-m1-cB Crystal structure of thermostable alkylsulfatase SdsAP from Pseudomonas sp. S9 F2WP51 F2WP51 1.761 X-RAY DIFFRACTION 332 1.0 686578 (Pseudomonas sp. S9) 686578 (Pseudomonas sp. S9) 633 633 AETAKPATDATKAANDALLKELPFDDKTSFDLAHKGFIAPLPAEPIKGEKGNMIWDPSKYGFIKEGEAAPDTTNPSLWRQSQLINISGLFEVTDGIYQVRNYDLSNMTIVEGKDGITIFDPLISQETAKAALDLYYKHRPKKPVVAVIYTHSHVDHYGGVRGVVDEADVKAGKVKIYAPLGFLEHAVAENVMAGTAMSRRASYMYGNLLPPDAKGQLGAGLGTTTSAGTVTLIPPTDIIKETGETHVIDGLTYEFMYAPGSEAPAEMLYYIKEKKALNAAEDSTHTLHNTYSLRGAKIRDPLAWSKYLNEALKLWGDDVQVMYAMHHWPVWGNKEVREQLSLQRDMYRYINDETLRLANKGYTMTEIAEQVKLPKKIATKFSNRGYYGSLNHNVKATYVLYLGWFIGNPATLWELPPADKAKRYVEMMGGADAVLKKAKEYYDKGDFRWVAEVVNHVVFAEPNNQAAKNMQADALEQLGYQAESGPWRNFYLTGAQELRNGVQQLPTPDTASPDTVKAMDLDLFFDFLAMRLKGPDVADKHITLNLDFTDLKQKYTLEMVNGVLNHTEGMQAKNADATVTLTRETLNNVMLKQTTLKDAESSGDIKIEGDKGKLEELMSYMDNFDFWFNIVTP AETAKPATDATKAANDALLKELPFDDKTSFDLAHKGFIAPLPAEPIKGEKGNMIWDPSKYGFIKEGEAAPDTTNPSLWRQSQLINISGLFEVTDGIYQVRNYDLSNMTIVEGKDGITIFDPLISQETAKAALDLYYKHRPKKPVVAVIYTHSHVDHYGGVRGVVDEADVKAGKVKIYAPLGFLEHAVAENVMAGTAMSRRASYMYGNLLPPDAKGQLGAGLGTTTSAGTVTLIPPTDIIKETGETHVIDGLTYEFMYAPGSEAPAEMLYYIKEKKALNAAEDSTHTLHNTYSLRGAKIRDPLAWSKYLNEALKLWGDDVQVMYAMHHWPVWGNKEVREQLSLQRDMYRYINDETLRLANKGYTMTEIAEQVKLPKKIATKFSNRGYYGSLNHNVKATYVLYLGWFIGNPATLWELPPADKAKRYVEMMGGADAVLKKAKEYYDKGDFRWVAEVVNHVVFAEPNNQAAKNMQADALEQLGYQAESGPWRNFYLTGAQELRNGVQQLPTPDTASPDTVKAMDLDLFFDFLAMRLKGPDVADKHITLNLDFTDLKQKYTLEMVNGVLNHTEGMQAKNADATVTLTRETLNNVMLKQTTLKDAESSGDIKIEGDKGKLEELMSYMDNFDFWFNIVTP 4nuv-a1-m1-cA_4nuv-a1-m1-cB Heterotetramer structure of Region II from Plasmodium vivax Duffy Binding Protein (PvDBP) bound to the ectodomain of the Duffy Antigen Receptor for Chemokines (DARC) P22290 P22290 2.6 X-RAY DIFFRACTION 16 0.986 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 288 288 NTVMKNCNYKRKRRERDWDCNTKKDVCIPDRRYQLCMKELTNLVFHRDITFRKLYLKRKLIYDAAVEGDLLLKLNNYRYNKDFCKDIRWSLGDFGDIIMGTDMEGIGYSKVVENNLRSIFGTDEKAQQRRKQWWNESKAQIWTAMMYSVKKRLFIWICKLNVAVNIEPQIYRWIREWGRDYVSELPTEVQKLKEKCDGKINYTDKKVCKVPPCQNACKSYDQWITRKKNQWDVLSNKFISVKNAEKQTAGIVTPYDILKQELDEFNEVAFENEINKRDGAYIELCVCS MKNCNYKRKRRERDWDCNTKKDVCIPDRRYQLCMKELTNLVHRDITFRKLYLKRKLIYDAAVEGDLLLKLNNYRYNKDFCKDIRWSLGDFGDIIMGTDMEGIGYSKVVENNLRSIFGTDEKAQQRRKQWWNESKAQIWTAMMYSVKKRLKGNFIWICKLNVAVNIEPQIYRWIREWGRDYVSELPTEVQKLKEKCDGKINYTDKKVCKVPPCQNACKSYDQWITRKKNQWDVLSNKFISVKNAEKVQTAGIVTPYDILKQELDEFNEVAFENEINKRDGAYIELCVCS 4nv1-a2-m1-cF_4nv1-a2-m1-cE Crystal structure of a 4-N formyltransferase from Francisella tularensis Q5NF01 Q5NF01 2.1 X-RAY DIFFRACTION 116 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 240 242 4nv1-a1-m1-cD_4nv1-a1-m1-cC 4nv1-a3-m1-cA_4nv1-a3-m1-cB 4nv1-a4-m1-cH_4nv1-a4-m1-cG MKKIFVVTDNRTILSDFKNIIGSKNDVQVDYFCSFKSQTSFAKEIYNSEIKPIDMKKNGNDLIGKYDLGFSCHSKQLFPAKLVNSVLCINIHPGLNPYNRGWFPQVFSIINKLPIGATIHVMDEEIDHGDIIIQEEVEVNSFENSFDVYAKVQKKEVELFTKVIDDILNNKFTRIKPNSEGNYNSIHDYKNMCEIDLDKIVTMREAIDYLRAMTHPPYKNSYFIDEHGNKVFVALELEKI GHMKKIFVVTDNRTILSDFKNIIGSKNDVQVDYFCSFKSQTSFAKEIYNSEIKPIDMKKNGNDLIGKYDLGFSCHSKQLFPAKLVNSVLCINIHPGLNPYNRGWFPQVFSIINKLPIGATIHVMDEEIDHGDIIIQEEVEVNSFENSFDVYAKVQKKEVELFTKVIDDILNNKFTRIKPNSEGNYNSIHDYKNMCEIDLDKIVTMREAIDYLRAMTHPPYKNSYFIDEHGNKVFVALELEKI 4nv4-a2-m1-cB_4nv4-a2-m3-cB 1.8 Angstrom Crystal Structure of Signal Peptidase I from Bacillus anthracis. A0A6L7HM74 A0A6L7HM74 1.8 X-RAY DIFFRACTION 136 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 112 112 4nv4-a1-m1-cA_4nv4-a1-m2-cA DLNRFDVVVFHANKKEDYVKRIIGLPGDHIEYKHDKLYVNGQFVDEPYLETYKKEIDGRQLTGDFKLEELTKEKSVPPGYIFVVGDNRLGSWDSRHFGFVKADTVVGKVDLR DLNRFDVVVFHANKKEDYVKRIIGLPGDHIEYKHDKLYVNGQFVDEPYLETYKKEIDGRQLTGDFKLEELTKEKSVPPGYIFVVGDNRLGSWDSRHFGFVKADTVVGKVDLR 4nv8-a3-m1-cB_4nv8-a3-m1-cA Crystal Structure of Mesorhizobium Loti Arylamine N-acetyltransferase F42W Mutant Q98D42 Q98D42 1.84 X-RAY DIFFRACTION 37 0.996 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 268 270 4nv7-a3-m1-cA_4nv7-a3-m1-cB PPFDLDAYLARIGYTGPRNASLDTLKALHFAHPQAIPWENIDPFLGRPVRLDLAALQDKIVLGGRGGYCFEHNLLFMHALKALGFEVGGLAARVLWGDAITARSHMLLRVELDGRTYIADVGFGGLTLTAPLLLEPGREQKTPHEPFRIVEADDHFRLQAAIGGDWRSLYRFDLQPQYEVDYSVTNYFLSTSPTSHFLSSVIAARAAPDRRYALRGNRLSIHHLGGRTEQTEIATAADLADTLQGLLGIIIPDRTAFEAKVRETKIVE PPFDLDAYLARIGYTGPRNASLDTLKALHFAHPQAIPWENIDPFLGRPVRLDLAALQDKIVLGGRGGYCFEHNLLFMHALKALGFEVGGLAARVLWGQSEAITARSHMLLRVELDGRTYIADVGFGGLTLTAPLLLEPGREQKTPHEPFRIVEADDHFRLQAAIGGDWRSLYRFDLQPQYEVDYSVTNYFLSTSPTSHFLSSVIAARAAPDRRYALRGNRLSIHHLGGRTEQTEIATAADLADTLQGLLGIIIPDRTAFEAKVRETKIVE 4nvr-a2-m1-cD_4nvr-a2-m1-cB 2.22 Angstrom Resolution Crystal Structure of a Putative Acyltransferase from Salmonella enterica Q8ZRI7 Q8ZRI7 2.22 X-RAY DIFFRACTION 45 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 295 296 4nvr-a1-m1-cC_4nvr-a1-m1-cA LIECGASPFIPGFALKDVRLENGLTVRVAIGGSGSPLVLLHGHPQNHTTWRKVAPTLAQNHTVILPDLRGYGDSDKPTSDPAHRTYSKRTAQDIVLDALGFSRFAFVGHDRGGRVGHRLALDYPDRVTCCTFIDIAPTATYALTDKSFATRYFWWFFLIQPFPLPETIAHDPAFFLRKHISGQLKIEGATSQEAFNEYLRCYQNPEIHAICEDYRAAATIDLDDDAADTSARIRCPLQLLWGGLGTVGQLYNVVGTWKEKALNVQGEALPCGHSPQEECPEYFIQKLQSFLHSVL TLIECGASPFIPGFALKDVRLENGLTVRVAIGGSGSPLVLLHGHPQNHTTWRKVAPTLAQNHTVILPDLRGYGDSDKPTSDPAHRTYSKRTAQDIVLDALGFSRFAFVGHDRGGRVGHRLALDYPDRVTCCTFIDIAPTATYALTDKSFATRYFWWFFLIQPFPLPETIAHDPAFFLRKHISGQLKIEGATSQEAFNEYLRCYQNPEIHAICEDYRAAATIDLDDDAADTSARIRCPLQLLWGGLGTVGQLYNVVGTWKEKALNVQGEALPCGHSPQEECPEYFIQKLQSFLHSVL 4nvs-a1-m1-cA_4nvs-a1-m1-cB Crystal Structure of the Q18CP6_CLOD6 protein from glyoxalase family. Northeast Structural Genomics Consortium Target CfR3 Q18CP6 Q18CP6 2.385 X-RAY DIFFRACTION 119 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 152 153 KFLNVLIVVEDIEKSKKFYYDVLGLKVICDFGENVVLEGNISLQEKKLWLEFINKSDSEVKFNGNDAELYFEEDNFDTFVERLSTKDIDYVHLAIEHRWGQRAIRFYDLDGHIIEVGETSSVCRRFLDSGLSIDEVAKRDVTVEYIESVLEL KFLNVLIVVEDIEKSKKFYYDVLGLKVICDFGENVVLEGNISLQEKKLWLEFINKSDSEVKFNGNDAELYFEEDNFDTFVERLSTKDIDYVHLAIEHRWGQRAIRFYDLDGHIIEVGETSSVCRRFLDSGLSIDEVAKRDVTVEYIESVLELE 4nvt-a2-m1-cC_4nvt-a2-m1-cB Crystal Structure of Triosephosphate Isomerase from Brucella melitensis C0RJA8 C0RJA8 2.1 X-RAY DIFFRACTION 128 0.996 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 246 248 4nvt-a1-m1-cD_4nvt-a1-m1-cA IRPLVAGNWKMNGKGESLTELRAIAAGLSSDLGRKLDAVICVPATLLSRAAETLEGETVGLGGQDAHFKTSGAHTGDISPEMLKEAGATHVILGHSERRTDHHESNKLICAKTEAAWAAGLVAIVCVGETASERKAERALDVIGDQLSGSLPDGVTAENTIIAYEPVWAILTPTVQDVRAAHAFMREQLIERFGAKGAHLRLLYGGSVKPSNAAELLGVADVDGALVGGASLKAADFLAICETYRN IRPLVAGNWKMNGKGESLTELRAIAAGLSSDLGRKLDAVICVPATLLSRAAETLEGETVGLGGQDAHFKTSGAHTGDISPEMLKEAGATHVILGHSERRTDHHESNKLICAKTEAAWAAGLVAIVCVGETASERKAERALDVIGDQLSGSLPDGVTAENTIIAYEPVWAIGTGLTPTVQDVRAAHAFMREQLIERFGAKGAHLRLLYGGSVKPSNAAELLGVADVDGALVGGASLKAADFLAICETYR 4nwb-a2-m1-cA_4nwb-a2-m2-cA Crystal structure of Mrt4 G0S616 G0S616 1.8 X-RAY DIFFRACTION 64 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 228 228 KRARVYHLTQVNKRLFSNIRETIPKYQHCFVFSVDNRNNYLKDVRHELNDCRIFFGKTKLARALGTTPEEEQADGLHRLTRYLTGTVGLLFTNRDPADIESYFSNLSQVDFARAGTVAPRTVTVPPGIVYSTGGEVPPEHDVPVSHTLEPELRRLGPVRIKGKVCLGEGYTICKEGEVLDSRQTRLLKLFSICLSEFKVSLLGYWSSASGEVTELEAGKTRPKREGNR KRARVYHLTQVNKRLFSNIRETIPKYQHCFVFSVDNRNNYLKDVRHELNDCRIFFGKTKLARALGTTPEEEQADGLHRLTRYLTGTVGLLFTNRDPADIESYFSNLSQVDFARAGTVAPRTVTVPPGIVYSTGGEVPPEHDVPVSHTLEPELRRLGPVRIKGKVCLGEGYTICKEGEVLDSRQTRLLKLFSICLSEFKVSLLGYWSSASGEVTELEAGKTRPKREGNR 4nwo-a1-m5-cB_4nwo-a1-m9-cB Computationally Designed Two-Component Self-Assembling Tetrahedral Cage T33-15 Q5SJY4 Q5SJY4 2.8 X-RAY DIFFRACTION 66 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 114 114 1ode-a1-m1-cB_1ode-a1-m1-cA 1ode-a1-m1-cB_1ode-a1-m1-cC 1ode-a1-m1-cC_1ode-a1-m1-cA 1ufy-a1-m1-cA_1ufy-a1-m2-cA 1ufy-a1-m1-cA_1ufy-a1-m3-cA 1ufy-a1-m2-cA_1ufy-a1-m3-cA 1ui9-a1-m1-cA_1ui9-a1-m2-cA 1ui9-a1-m1-cA_1ui9-a1-m3-cA 1ui9-a1-m2-cA_1ui9-a1-m3-cA 4nwo-a1-m10-cB_4nwo-a1-m5-cB 4nwo-a1-m10-cB_4nwo-a1-m9-cB 4nwo-a1-m11-cB_4nwo-a1-m3-cB 4nwo-a1-m11-cB_4nwo-a1-m4-cB 4nwo-a1-m12-cB_4nwo-a1-m2-cB 4nwo-a1-m12-cB_4nwo-a1-m7-cB 4nwo-a1-m1-cB_4nwo-a1-m6-cB 4nwo-a1-m1-cB_4nwo-a1-m8-cB 4nwo-a1-m2-cB_4nwo-a1-m7-cB 4nwo-a1-m3-cB_4nwo-a1-m4-cB 4nwo-a1-m6-cB_4nwo-a1-m8-cB 4zk7-a1-m1-cA_4zk7-a1-m1-cB 4zk7-a1-m1-cA_4zk7-a1-m1-cD 4zk7-a1-m1-cB_4zk7-a1-m1-cD 4zk7-a1-m1-cC_4zk7-a1-m1-cE 4zk7-a1-m1-cC_4zk7-a1-m1-cF 4zk7-a1-m1-cE_4zk7-a1-m1-cF 4zk7-a1-m1-cG_4zk7-a1-m1-cH 4zk7-a1-m1-cG_4zk7-a1-m1-cI 4zk7-a1-m1-cH_4zk7-a1-m1-cI 4zk7-a1-m1-cJ_4zk7-a1-m1-cK 4zk7-a1-m1-cJ_4zk7-a1-m1-cL 4zk7-a1-m1-cK_4zk7-a1-m1-cL 7l85-a1-m1-cB_7l85-a1-m1-cO 7l85-a1-m1-cB_7l85-a1-m1-cS 7l85-a1-m1-cC_7l85-a1-m1-cI 7l85-a1-m1-cC_7l85-a1-m1-cK 7l85-a1-m1-cE_7l85-a1-m1-cG 7l85-a1-m1-cE_7l85-a1-m1-cX 7l85-a1-m1-cG_7l85-a1-m1-cX 7l85-a1-m1-cI_7l85-a1-m1-cK 7l85-a1-m1-cM_7l85-a1-m1-cQ 7l85-a1-m1-cM_7l85-a1-m1-cV 7l85-a1-m1-cO_7l85-a1-m1-cS 7l85-a1-m1-cQ_7l85-a1-m1-cV MVRGIRGAITVNSDTPTSIIIATILLLEKMLEANGIQSYEELAAVIFTVTEDLTSAFPAEAARQIGMHRVPLLSAREVPVPGSLPRVIRVLALWNTDTPQDRVRHVYLSEAVRL MVRGIRGAITVNSDTPTSIIIATILLLEKMLEANGIQSYEELAAVIFTVTEDLTSAFPAEAARQIGMHRVPLLSAREVPVPGSLPRVIRVLALWNTDTPQDRVRHVYLSEAVRL 4nwp-a1-m3-cF_4nwp-a1-m3-cG Computationally Designed Two-Component Self-Assembling Tetrahedral Cage, T33-21, Crystallized in Space Group R32 Q9I2D8 Q9I2D8 2.1 X-RAY DIFFRACTION 98 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 118 118 3e6q-a1-m1-cA_3e6q-a1-m1-cB 3e6q-a1-m1-cA_3e6q-a1-m1-cC 3e6q-a1-m1-cB_3e6q-a1-m1-cC 3e6q-a2-m1-cD_3e6q-a2-m1-cF 3e6q-a2-m1-cE_3e6q-a2-m1-cD 3e6q-a2-m1-cE_3e6q-a2-m1-cF 3e6q-a3-m1-cG_3e6q-a3-m1-cH 3e6q-a3-m1-cG_3e6q-a3-m1-cI 3e6q-a3-m1-cH_3e6q-a3-m1-cI 3e6q-a4-m1-cJ_3e6q-a4-m1-cK 3e6q-a4-m1-cJ_3e6q-a4-m1-cL 3e6q-a4-m1-cK_3e6q-a4-m1-cL 4nwp-a1-m1-cE_4nwp-a1-m2-cE 4nwp-a1-m1-cE_4nwp-a1-m3-cE 4nwp-a1-m1-cF_4nwp-a1-m1-cG 4nwp-a1-m1-cH_4nwp-a1-m3-cF 4nwp-a1-m1-cH_4nwp-a1-m3-cG 4nwp-a1-m2-cE_4nwp-a1-m3-cE 4nwp-a1-m2-cF_4nwp-a1-m2-cG 4nwp-a1-m2-cH_4nwp-a1-m1-cF 4nwp-a1-m2-cH_4nwp-a1-m1-cG 4nwp-a1-m3-cH_4nwp-a1-m2-cF 4nwp-a1-m3-cH_4nwp-a1-m2-cG 4nwq-a1-m10-cB_4nwq-a1-m11-cB 4nwq-a1-m10-cB_4nwq-a1-m12-cB 4nwq-a1-m11-cB_4nwq-a1-m12-cB 4nwq-a1-m1-cB_4nwq-a1-m2-cB 4nwq-a1-m1-cB_4nwq-a1-m3-cB 4nwq-a1-m2-cB_4nwq-a1-m3-cB 4nwq-a1-m4-cB_4nwq-a1-m5-cB 4nwq-a1-m4-cB_4nwq-a1-m6-cB 4nwq-a1-m5-cB_4nwq-a1-m6-cB 4nwq-a1-m7-cB_4nwq-a1-m8-cB 4nwq-a1-m7-cB_4nwq-a1-m9-cB 4nwq-a1-m8-cB_4nwq-a1-m9-cB 6c9i-a1-m1-cE_6c9i-a1-m1-cM 6c9i-a1-m1-cE_6c9i-a1-m1-cU 6c9i-a1-m1-cF_6c9i-a1-m1-cG 6c9i-a1-m1-cH_6c9i-a1-m1-cV 6c9i-a1-m1-cH_6c9i-a1-m1-cW 6c9i-a1-m1-cM_6c9i-a1-m1-cU 6c9i-a1-m1-cN_6c9i-a1-m1-cO 6c9i-a1-m1-cP_6c9i-a1-m1-cF 6c9i-a1-m1-cP_6c9i-a1-m1-cG 6c9i-a1-m1-cV_6c9i-a1-m1-cW 6c9i-a1-m1-cX_6c9i-a1-m1-cN 6c9i-a1-m1-cX_6c9i-a1-m1-cO 6c9k-a1-m1-cE_6c9k-a1-m1-cM 6c9k-a1-m1-cE_6c9k-a1-m1-cU 6c9k-a1-m1-cF_6c9k-a1-m1-cG 6c9k-a1-m1-cH_6c9k-a1-m1-cV 6c9k-a1-m1-cH_6c9k-a1-m1-cW 6c9k-a1-m1-cM_6c9k-a1-m1-cU 6c9k-a1-m1-cN_6c9k-a1-m1-cO 6c9k-a1-m1-cP_6c9k-a1-m1-cF 6c9k-a1-m1-cP_6c9k-a1-m1-cG 6c9k-a1-m1-cV_6c9k-a1-m1-cW 6c9k-a1-m1-cX_6c9k-a1-m1-cN 6c9k-a1-m1-cX_6c9k-a1-m1-cO 6nht-a1-m1-cE_6nht-a1-m1-cM 6nht-a1-m1-cE_6nht-a1-m1-cU 6nht-a1-m1-cF_6nht-a1-m1-cG 6nht-a1-m1-cF_6nht-a1-m1-cP 6nht-a1-m1-cG_6nht-a1-m1-cP 6nht-a1-m1-cH_6nht-a1-m1-cV 6nht-a1-m1-cH_6nht-a1-m1-cW 6nht-a1-m1-cM_6nht-a1-m1-cU 6nht-a1-m1-cN_6nht-a1-m1-cO 6nht-a1-m1-cN_6nht-a1-m1-cX 6nht-a1-m1-cO_6nht-a1-m1-cX 6nht-a1-m1-cV_6nht-a1-m1-cW 6nhv-a1-m1-cN_6nhv-a1-m1-cO 6nhv-a1-m1-cN_6nhv-a1-m1-cX 6nhv-a1-m1-cO_6nhv-a1-m1-cX PHLVIEATANLRLETSPGELLEQANKALFASGQFGEADIKSRFVTLEAYRQGTAAVERAYLHACLSILDGRDIATRTLLGASLCAVLAEAVAGGGEEGVQVSVEVREMERLSYAKRVV PHLVIEATANLRLETSPGELLEQANKALFASGQFGEADIKSRFVTLEAYRQGTAAVERAYLHACLSILDGRDIATRTLLGASLCAVLAEAVAGGGEEGVQVSVEVREMERLSYAKRVV 4nxf-a1-m1-cB_4nxf-a1-m1-cA Crystal structure of iLOV-I486(2LT) at pH 8.0 P93025 P93025 1.766 X-RAY DIFFRACTION 25 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 103 105 4nxb-a1-m1-cB_4nxb-a1-m1-cA 4nxe-a1-m1-cA_4nxe-a1-m1-cB 4nxg-a1-m1-cA_4nxg-a1-m1-cB KNFVITDPRLPDNPIIFASDGFLELTEYSREEILGRNARFLQGPETDQATVQKIRDAIRDQRETTVQLINYTKSGKKFWNLLHLQPVRDQKGELQYFGVQLDG KNFVITDPRLPDNPIIFASDGFLELTEYSREEILGRNARFLQGPETDQATVQKIRDAIRDQRETTVQLINYTKSGKKFWNLLHLQPVRDQKGELQYFGVQLDGSD 4nxv-a6-m1-cB_4nxv-a6-m3-cC Crystal structure of the cytosolic domain of human MiD51 Q9NQG6 Q9NQG6 2.3 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 337 4nxu-a5-m2-cD_4nxu-a5-m1-cA 4nxu-a6-m3-cB_4nxu-a6-m1-cC 4nxv-a5-m1-cA_4nxv-a5-m2-cD 4oaf-a1-m1-cA_4oaf-a1-m1-cC 4oaf-a2-m1-cB_4oaf-a2-m1-cD 4oag-a1-m1-cB_4oag-a1-m1-cA 4oah-a1-m1-cC_4oah-a1-m1-cA 4oah-a2-m1-cB_4oah-a2-m1-cD RMSLQEKLLTYYRNRAAIPAGEQARAKQAAVDICAELRSFLRAKLPDMPLRDMYLSGSLYDDLQVVTADHIQLIVPLVLEQNLWSCIPGEDTIMNVPGFFLVRRENPEYFPRGSSYWDRCVVGGYLSPKTVADTFEKVVAGSINWPAIGSLLDYVIRPAPPEALTLEVQYERDKHLFIDFLPSVTLGDTVLVAKPHRLAQYDNLWRLSLRPAETARLRALDQADSGCRSLCLKILKAICKSTPALGHLTASQLTNVILHLAQEEADWSPDMLADRFLQALRGLISYLEAGVLPSALNPKVNLFAELTPEEIDELGYTLYCSLSEPEVLLQ LKKSRLRMSLQEKLLTYYRNRAAIPAGEQARAKQAAVDICAELRSFLRAKLPDMPLRDMYLSGSLYDDLQVVTADHIQLIVPLVLEQNLWSCIPGEDTIMNVPGFFLVRRENPEYFPRGSSYWDRCVVGGYLSPKTVADTFEKVVAGSINWPAIGSLLDYVIRPAPPPEALTLEVQYERDKHLFIDFLPSVTLGDTVLVAKPHRLAQYDNLWRLSLRPAETARLRALDQADSGCRSLCLKILKAICKSTPALGHLTASQLTNVILHLAQEEADWSPDMLADRFLQALRGLISYLEAGVLPSALNPKVNLFAELTPEEIDELGYTLYCSLSEPEVLLQ 4ny0-a2-m1-cA_4ny0-a2-m1-cC Crystal structure of FERM domain of human focal adhesion kinase Q05397 Q05397 2.8 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 335 4ny0-a1-m1-cB_4ny0-a1-m1-cD ERVLKVFHYFESNSEPTTWASIIRHGDATDVRGIIQKIVDSHKVKHVACYGLRLSHLRSEEVHWLHVDMGVSSVREKYELAHPPEEWKYELRIRYLPKGFLNQFTEDKPTLNFFYQQVKSDYMLEIADQVDQEIALKLGCLEIRRSYGEMRGNALEKKSNYEVLEKDVGLKRFFPKSLLDSVKAKTLRKLIQQTFRQFANLNREESILKFFEILSPVYRFDKECFKCALGSSWIISVELAIGPEEGISYLTDKGCNPTHLADFTQVQTIQYSNSEDKDRKGMLQLKIAGAPEPLTVTAPSLTIAENMADLIDGYCRLVNGTSQSFIIRP ERVLKVFHYFESNSEPTTWASIIRHGDATDVRGIIQKIVDSHKVKHVACYGLRLSHLRSEEVHWLHVDMGVSSVREKYELAHPPEEWKYELRIRYLPKGFLNQFTEDKPTLNFFYQQVKSDYMLEIADQVDQEIALKLGCLEIRRSYGEMRGNALEKKSNYEVLEKDVGLKRFFPKSLLDSVKAKTLRKLIQQTFRQFANLNREESILKFFEILSPVYRFDKECFKCALGSSWIISVELAIGPEEGISYLTDKGCNPTHLADFTQVQTIQYSNSEDKDRKGMLQLKIAGAPEPLTVTAPSLTIAENMADLIDGYCRLVNGTSQSFIIRPIIDEED 4nyu-a1-m1-cA_4nyu-a1-m2-cA Structure of Vibrio cholerae chitin de-N-acetylase in complex with acetate ion (ACT) in C 2 2 21 2.03 X-RAY DIFFRACTION 94 1.0 1095658 (Vibrio cholerae O1 str. NHCC-010F) 1095658 (Vibrio cholerae O1 str. NHCC-010F) 406 406 4ny2-a1-m1-cB_4ny2-a1-m1-cA 4nyy-a1-m1-cB_4nyy-a1-m1-cA 4nyy-a2-m1-cC_4nyy-a2-m1-cD 4nz1-a1-m1-cA_4nz1-a1-m1-cB 4nz3-a1-m1-cA_4nz3-a1-m1-cB 4nz4-a1-m1-cA_4nz4-a1-m1-cB 4nz5-a1-m1-cA_4nz5-a1-m1-cB 4oui-a1-m1-cA_4oui-a1-m1-cB TPKGTIYLTFDDGPVNASVEVIKVLNQGGVKATFYFNAWHLDGIGDENEDRALEALKLALDSGHIVGNHSYDHMIHNCVEEFGPTSGADCNATGNHQIHSYQDPVRDAASFEQNLITLEKYLPTIRSYPNYKGYELARLPYTNGWRVTKHFQADGLCATSDNLKPWEPGYVCDPANPSNSVKASIQVQNILANQGYQTHGWDVDWAPENWGIPMPANSLTEAVPFLAYVDKALNSCSPTTIEPINSKTQEFPCGTPLHADKVIVLTHDFLFEDGKRGMGATQNLPKLAEFIRIAKEAGYVFDTMDNYTPRWSVGKTYQAGEYVLYQGVVYKAVISHTAQQDWAPSSTSSLWTNADPATNWTLNVSYEQGDIVNYKGKRYLVSVPHVSQQDWTPDTQNTLFTALELR TPKGTIYLTFDDGPVNASVEVIKVLNQGGVKATFYFNAWHLDGIGDENEDRALEALKLALDSGHIVGNHSYDHMIHNCVEEFGPTSGADCNATGNHQIHSYQDPVRDAASFEQNLITLEKYLPTIRSYPNYKGYELARLPYTNGWRVTKHFQADGLCATSDNLKPWEPGYVCDPANPSNSVKASIQVQNILANQGYQTHGWDVDWAPENWGIPMPANSLTEAVPFLAYVDKALNSCSPTTIEPINSKTQEFPCGTPLHADKVIVLTHDFLFEDGKRGMGATQNLPKLAEFIRIAKEAGYVFDTMDNYTPRWSVGKTYQAGEYVLYQGVVYKAVISHTAQQDWAPSSTSSLWTNADPATNWTLNVSYEQGDIVNYKGKRYLVSVPHVSQQDWTPDTQNTLFTALELR 4nz0-a7-m1-cD_4nz0-a7-m1-cF The EMCV 3Dpol structure at 2.8A resolution P12296 P12296 2.8 X-RAY DIFFRACTION 69 1.0 12107 (Mengo virus) 12107 (Mengo virus) 460 460 GALERLPDGPRIHVPRKTALRPTVARQVFQPAFAPAVLSKFDPRTDADVDEVAFSKHTSNQETLPPVFRMVAREYANRVFALLGRDNGRLSVKQALDGLEGMDPMDKNTSPGLPYTTLGMRRTDVVDWETATLIPFAAERLEKMNNKDFSDIVYQTFLKDELRPIEKVQAAKTRIVDVPPFEHCILGRQLLGKFASKFQTQPGLELGSAIGCDPDVHWTAFGVAMQGFERVYDVDYSNFDSTHSVAMFRLLAEEFFSEENGFDPLVKDYLESLAISKHAYEEKRYLITGGLPSGCAATSMLNTIMNNIIIRAGLYLTYKNFEFDDVKVLSYGDDLLVATNYQLNFDRVRTSLAKTGYKITPANKTSTFPLESTLEDVVFLKRKFKKEGPLYRPVMNREALEAMLSYYRPGTLSEKLTSITMLAVHSGKQEYDRLFAPFREVGVIVPTFESVEYRWRSLFW GALERLPDGPRIHVPRKTALRPTVARQVFQPAFAPAVLSKFDPRTDADVDEVAFSKHTSNQETLPPVFRMVAREYANRVFALLGRDNGRLSVKQALDGLEGMDPMDKNTSPGLPYTTLGMRRTDVVDWETATLIPFAAERLEKMNNKDFSDIVYQTFLKDELRPIEKVQAAKTRIVDVPPFEHCILGRQLLGKFASKFQTQPGLELGSAIGCDPDVHWTAFGVAMQGFERVYDVDYSNFDSTHSVAMFRLLAEEFFSEENGFDPLVKDYLESLAISKHAYEEKRYLITGGLPSGCAATSMLNTIMNNIIIRAGLYLTYKNFEFDDVKVLSYGDDLLVATNYQLNFDRVRTSLAKTGYKITPANKTSTFPLESTLEDVVFLKRKFKKEGPLYRPVMNREALEAMLSYYRPGTLSEKLTSITMLAVHSGKQEYDRLFAPFREVGVIVPTFESVEYRWRSLFW 4nzd-a4-m2-cA_4nzd-a4-m4-cC Interleukin 21 receptor Q9HBE5 Q9HBE5 2.75 X-RAY DIFFRACTION 167 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 4nzd-a4-m1-cC_4nzd-a4-m3-cA CPDLVCYTDYLQTVICILEMWNLHPSTLTLTWQEATSCSLHRSAHNATHATYTCHMDVFHFMADDIFSVQITDQSGQYSQECGSFLLAESIKPAPPFDVTVTFSGQYQISWRSDYEDPAFYMLKGKLQYELQYRNRGDPWAVSPRRKLISVDSRSVSLLPLEFRKDSSYELQVRAGPMPGSSYQGTWSEWSDPVIFQTQSEELKEHHHHH CPDLVCYTDYLQTVICILEMWNLHPSTLTLTWQDATSCSLHRSAHNATHATYTCHMDVFHFMADDIFSVQITDQSGQYSQECGSFLLAESIKPAPPFDVTVTFSGQYQISWRSDYEDPAFYMLKGKLQYELQYRNRGDPWAVSPRRKLISVDSRSVSLLPLEFRKDSSYELQVRAGPMPGSSYQGTWSEWSDPVIFQTQSEELKEHHHHH 4nzd-a4-m3-cA_4nzd-a4-m4-cC Interleukin 21 receptor Q9HBE5 Q9HBE5 2.75 X-RAY DIFFRACTION 148 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 4nzd-a4-m1-cC_4nzd-a4-m2-cA CPDLVCYTDYLQTVICILEMWNLHPSTLTLTWQEATSCSLHRSAHNATHATYTCHMDVFHFMADDIFSVQITDQSGQYSQECGSFLLAESIKPAPPFDVTVTFSGQYQISWRSDYEDPAFYMLKGKLQYELQYRNRGDPWAVSPRRKLISVDSRSVSLLPLEFRKDSSYELQVRAGPMPGSSYQGTWSEWSDPVIFQTQSEELKEHHHHH CPDLVCYTDYLQTVICILEMWNLHPSTLTLTWQDATSCSLHRSAHNATHATYTCHMDVFHFMADDIFSVQITDQSGQYSQECGSFLLAESIKPAPPFDVTVTFSGQYQISWRSDYEDPAFYMLKGKLQYELQYRNRGDPWAVSPRRKLISVDSRSVSLLPLEFRKDSSYELQVRAGPMPGSSYQGTWSEWSDPVIFQTQSEELKEHHHHH 4nzg-a2-m1-cA_4nzg-a2-m1-cC Crystal Structure of the N-terminal domain of Moloney murine leukemia virus integrase, Northeast Structural Genomics Consortium Target OR3 P03355 P03355 2.152 X-RAY DIFFRACTION 10 1.0 928306 (Moloney murine leukemia virus isolate Shinnick) 928306 (Moloney murine leukemia virus isolate Shinnick) 93 93 4nzg-a1-m1-cA_4nzg-a1-m1-cC HFHYTVTDIKDLTKLGAIYDKTKKYWVYQGKPVMPDQFTFELLDFLHQLTHLSFSKMKALLERSHSPYYMLNRDRTLKNITETCKACAQVNAS HFHYTVTDIKDLTKLGAIYDKTKKYWVYQGKPVMPDQFTFELLDFLHQLTHLSFSKMKALLERSHSPYYMLNRDRTLKNITETCKACAQVNAS 4nzj-a2-m1-cA_4nzj-a2-m2-cA Crystal structure of a putative alpha-galactosidase (BF1418) from Bacteroides fragilis NCTC 9343 at 1.57 A resolution Q5LFG6 Q5LFG6 1.57 X-RAY DIFFRACTION 77 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 456 456 VVLKVFEGKPRINSPHIIGNYPSTPFIFYIPTSGQRPQWSAEKLPEGLELDSKTGIISGVTSKGDYTVTLKAENALGVSVKQLVIRIGDELLLTPPGWNSWNTFGQHLTEELVLQTADAITNGRDLGYSYINIDDFWQLPERGADGHLQIDKTKFPRGIKYVADYLHERGFKLGIYSDAAEKTCGGVCGSYGYEETDAKDFASWGVDLLKYDYCNAPVDRVEAERYAKGRALRATNRSIVYSVCEWGQREPWKWAKQVGGHLWRVSGDIGDIWYRDGNRVGGLHGILNILEINAPLSEYAGPSGWNDPDLVVGIDGKSEGCTQEQYKSHFSLWCASPLLSGNDVRNNDSTLKILLDPDLIAINQDVLGRQAERSIRSDHYDIWVKPLADGRKAVACFNRASSPQTVILNENTIADLSFEQIYCLDNHLTKSGSDSKELIVKLAPYQCKVYIFGKTD VVLKVFEGKPRINSPHIIGNYPSTPFIFYIPTSGQRPQWSAEKLPEGLELDSKTGIISGVTSKGDYTVTLKAENALGVSVKQLVIRIGDELLLTPPGWNSWNTFGQHLTEELVLQTADAITNGRDLGYSYINIDDFWQLPERGADGHLQIDKTKFPRGIKYVADYLHERGFKLGIYSDAAEKTCGGVCGSYGYEETDAKDFASWGVDLLKYDYCNAPVDRVEAERYAKGRALRATNRSIVYSVCEWGQREPWKWAKQVGGHLWRVSGDIGDIWYRDGNRVGGLHGILNILEINAPLSEYAGPSGWNDPDLVVGIDGKSEGCTQEQYKSHFSLWCASPLLSGNDVRNNDSTLKILLDPDLIAINQDVLGRQAERSIRSDHYDIWVKPLADGRKAVACFNRASSPQTVILNENTIADLSFEQIYCLDNHLTKSGSDSKELIVKLAPYQCKVYIFGKTD 4nzp-a1-m1-cA_4nzp-a1-m4-cA The crystal structure of argininosuccinate synthase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PHK7 Q9PHK7 2.307 X-RAY DIFFRACTION 61 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 385 385 4nzp-a1-m2-cA_4nzp-a1-m3-cA EVKKVVLAYSGGLDTSIILKWLQDEYNCEVVTFTADIGQGEELEPARKKALSLGIKEENIFIKDLRDEFVKDYVFPMFRANAIYEGEYLLGTSIARPLIAKTQAQIALQTGADAVSHGATGKGNDQVRFELGYLAFSPDLKIIAPWREWDLNSREKLLAYAQKHGKSPYSMDANLLHISYEGLVLEDPAHAPEEDMWRWSKSPKDAPNESEIIELDFQKGDLVAINGEKLSPAGLLTKLNELGCKHGIGRLDIVENRYVGMKSRGCYETPGGTILLKAHRALESITLDREAAHLKDELMPKYASLIYNGYWFSPERMMLQALIDESQIHANGRVKLELYKGNVMVIGRESANDSLFNVYNQKDAAGFIKLNALRFIIAGKNGRKF EVKKVVLAYSGGLDTSIILKWLQDEYNCEVVTFTADIGQGEELEPARKKALSLGIKEENIFIKDLRDEFVKDYVFPMFRANAIYEGEYLLGTSIARPLIAKTQAQIALQTGADAVSHGATGKGNDQVRFELGYLAFSPDLKIIAPWREWDLNSREKLLAYAQKHGKSPYSMDANLLHISYEGLVLEDPAHAPEEDMWRWSKSPKDAPNESEIIELDFQKGDLVAINGEKLSPAGLLTKLNELGCKHGIGRLDIVENRYVGMKSRGCYETPGGTILLKAHRALESITLDREAAHLKDELMPKYASLIYNGYWFSPERMMLQALIDESQIHANGRVKLELYKGNVMVIGRESANDSLFNVYNQKDAAGFIKLNALRFIIAGKNGRKF 4nzp-a1-m2-cA_4nzp-a1-m4-cA The crystal structure of argininosuccinate synthase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PHK7 Q9PHK7 2.307 X-RAY DIFFRACTION 232 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 385 385 4nzp-a1-m1-cA_4nzp-a1-m3-cA EVKKVVLAYSGGLDTSIILKWLQDEYNCEVVTFTADIGQGEELEPARKKALSLGIKEENIFIKDLRDEFVKDYVFPMFRANAIYEGEYLLGTSIARPLIAKTQAQIALQTGADAVSHGATGKGNDQVRFELGYLAFSPDLKIIAPWREWDLNSREKLLAYAQKHGKSPYSMDANLLHISYEGLVLEDPAHAPEEDMWRWSKSPKDAPNESEIIELDFQKGDLVAINGEKLSPAGLLTKLNELGCKHGIGRLDIVENRYVGMKSRGCYETPGGTILLKAHRALESITLDREAAHLKDELMPKYASLIYNGYWFSPERMMLQALIDESQIHANGRVKLELYKGNVMVIGRESANDSLFNVYNQKDAAGFIKLNALRFIIAGKNGRKF EVKKVVLAYSGGLDTSIILKWLQDEYNCEVVTFTADIGQGEELEPARKKALSLGIKEENIFIKDLRDEFVKDYVFPMFRANAIYEGEYLLGTSIARPLIAKTQAQIALQTGADAVSHGATGKGNDQVRFELGYLAFSPDLKIIAPWREWDLNSREKLLAYAQKHGKSPYSMDANLLHISYEGLVLEDPAHAPEEDMWRWSKSPKDAPNESEIIELDFQKGDLVAINGEKLSPAGLLTKLNELGCKHGIGRLDIVENRYVGMKSRGCYETPGGTILLKAHRALESITLDREAAHLKDELMPKYASLIYNGYWFSPERMMLQALIDESQIHANGRVKLELYKGNVMVIGRESANDSLFNVYNQKDAAGFIKLNALRFIIAGKNGRKF 4nzp-a1-m3-cA_4nzp-a1-m4-cA The crystal structure of argininosuccinate synthase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PHK7 Q9PHK7 2.307 X-RAY DIFFRACTION 65 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 385 385 4nzp-a1-m1-cA_4nzp-a1-m2-cA EVKKVVLAYSGGLDTSIILKWLQDEYNCEVVTFTADIGQGEELEPARKKALSLGIKEENIFIKDLRDEFVKDYVFPMFRANAIYEGEYLLGTSIARPLIAKTQAQIALQTGADAVSHGATGKGNDQVRFELGYLAFSPDLKIIAPWREWDLNSREKLLAYAQKHGKSPYSMDANLLHISYEGLVLEDPAHAPEEDMWRWSKSPKDAPNESEIIELDFQKGDLVAINGEKLSPAGLLTKLNELGCKHGIGRLDIVENRYVGMKSRGCYETPGGTILLKAHRALESITLDREAAHLKDELMPKYASLIYNGYWFSPERMMLQALIDESQIHANGRVKLELYKGNVMVIGRESANDSLFNVYNQKDAAGFIKLNALRFIIAGKNGRKF EVKKVVLAYSGGLDTSIILKWLQDEYNCEVVTFTADIGQGEELEPARKKALSLGIKEENIFIKDLRDEFVKDYVFPMFRANAIYEGEYLLGTSIARPLIAKTQAQIALQTGADAVSHGATGKGNDQVRFELGYLAFSPDLKIIAPWREWDLNSREKLLAYAQKHGKSPYSMDANLLHISYEGLVLEDPAHAPEEDMWRWSKSPKDAPNESEIIELDFQKGDLVAINGEKLSPAGLLTKLNELGCKHGIGRLDIVENRYVGMKSRGCYETPGGTILLKAHRALESITLDREAAHLKDELMPKYASLIYNGYWFSPERMMLQALIDESQIHANGRVKLELYKGNVMVIGRESANDSLFNVYNQKDAAGFIKLNALRFIIAGKNGRKF 4o0l-a1-m1-cA_4o0l-a1-m1-cD Crystal structure of NADPH-Dependent 3-Quinuclidinone Reductase from Rhodotorula Rubra B9ZZZ6 B9ZZZ6 2.2 X-RAY DIFFRACTION 16 1.0 5537 (Rhodotorula mucilaginosa) 5537 (Rhodotorula mucilaginosa) 266 266 4o0l-a1-m1-cB_4o0l-a1-m1-cC GPFPKATPQLPNSVFDMFSMKGKVTAITGGGGGIGFAAAEAIAEAGGDVALLYRSAPNMEERSAELAKRFGVKVKSYQCEVTEHESVKQAIEAVEKDFGRLDCYIANAGGGVPGSINPDYPLEAWHKTQSVNLHSTFYAARECARIFKAQGSGSFIATTSISARIVNVPYDQPAYNSSKAAVVHFCRSLARDWRNFARVNTISPGFFDTPMGPSDKAVEDVLYQKSVLGRAGDVKELKAAYLYLASNASTYTTGADLLIDGGYCLT GPFPKATPQLPNSVFDMFSMKGKVTAITGGGGGIGFAAAEAIAEAGGDVALLYRSAPNMEERSAELAKRFGVKVKSYQCEVTEHESVKQAIEAVEKDFGRLDCYIANAGGGVPGSINPDYPLEAWHKTQSVNLHSTFYAARECARIFKAQGSGSFIATTSISARIVNVPYDQPAYNSSKAAVVHFCRSLARDWRNFARVNTISPGFFDTPMGPSDKAVEDVLYQKSVLGRAGDVKELKAAYLYLASNASTYTTGADLLIDGGYCLT 4o0l-a1-m1-cB_4o0l-a1-m1-cD Crystal structure of NADPH-Dependent 3-Quinuclidinone Reductase from Rhodotorula Rubra B9ZZZ6 B9ZZZ6 2.2 X-RAY DIFFRACTION 184 1.0 5537 (Rhodotorula mucilaginosa) 5537 (Rhodotorula mucilaginosa) 266 266 4o0l-a1-m1-cA_4o0l-a1-m1-cC GPFPKATPQLPNSVFDMFSMKGKVTAITGGGGGIGFAAAEAIAEAGGDVALLYRSAPNMEERSAELAKRFGVKVKSYQCEVTEHESVKQAIEAVEKDFGRLDCYIANAGGGVPGSINPDYPLEAWHKTQSVNLHSTFYAARECARIFKAQGSGSFIATTSISARIVNVPYDQPAYNSSKAAVVHFCRSLARDWRNFARVNTISPGFFDTPMGPSDKAVEDVLYQKSVLGRAGDVKELKAAYLYLASNASTYTTGADLLIDGGYCLT GPFPKATPQLPNSVFDMFSMKGKVTAITGGGGGIGFAAAEAIAEAGGDVALLYRSAPNMEERSAELAKRFGVKVKSYQCEVTEHESVKQAIEAVEKDFGRLDCYIANAGGGVPGSINPDYPLEAWHKTQSVNLHSTFYAARECARIFKAQGSGSFIATTSISARIVNVPYDQPAYNSSKAAVVHFCRSLARDWRNFARVNTISPGFFDTPMGPSDKAVEDVLYQKSVLGRAGDVKELKAAYLYLASNASTYTTGADLLIDGGYCLT 4o0l-a1-m1-cC_4o0l-a1-m1-cD Crystal structure of NADPH-Dependent 3-Quinuclidinone Reductase from Rhodotorula Rubra B9ZZZ6 B9ZZZ6 2.2 X-RAY DIFFRACTION 124 1.0 5537 (Rhodotorula mucilaginosa) 5537 (Rhodotorula mucilaginosa) 266 266 4o0l-a1-m1-cA_4o0l-a1-m1-cB GPFPKATPQLPNSVFDMFSMKGKVTAITGGGGGIGFAAAEAIAEAGGDVALLYRSAPNMEERSAELAKRFGVKVKSYQCEVTEHESVKQAIEAVEKDFGRLDCYIANAGGGVPGSINPDYPLEAWHKTQSVNLHSTFYAARECARIFKAQGSGSFIATTSISARIVNVPYDQPAYNSSKAAVVHFCRSLARDWRNFARVNTISPGFFDTPMGPSDKAVEDVLYQKSVLGRAGDVKELKAAYLYLASNASTYTTGADLLIDGGYCLT GPFPKATPQLPNSVFDMFSMKGKVTAITGGGGGIGFAAAEAIAEAGGDVALLYRSAPNMEERSAELAKRFGVKVKSYQCEVTEHESVKQAIEAVEKDFGRLDCYIANAGGGVPGSINPDYPLEAWHKTQSVNLHSTFYAARECARIFKAQGSGSFIATTSISARIVNVPYDQPAYNSSKAAVVHFCRSLARDWRNFARVNTISPGFFDTPMGPSDKAVEDVLYQKSVLGRAGDVKELKAAYLYLASNASTYTTGADLLIDGGYCLT 4o0r-a3-m2-cB_4o0r-a3-m1-cA Back pocket flexibility provides group-II PAK selectivity for type 1 kinase inhibitors Q13153 Q13153 2.4 X-RAY DIFFRACTION 46 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 282 293 SDEEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTAMDVATGQEVAIKQMNLQKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALEFLHSNQVIHRNIKSDNILLGMDGSVKLTDFGQSKRSEMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMIEGEPPYLNENPLRALYLIATNGTPELQNPEKLSAIFRDFLNRCLEMDVEKRGSAKELLQHQFLKIAKPLSSLTPLIAAAKEATK SDEEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTAMDVATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALEFLHSNQVIHRNIKSDNILLGMDGSVKLTDFGFCAQITPEQSKRSEMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMIEGEPPYLNENPLRALYLIATNGTPELQNPEKLSAIFRDFLNRCLEMDVEKRGSAKELLQHQFLKIAKPLSSLTPLIAAAKEAT 4o0t-a3-m1-cB_4o0t-a3-m1-cA Back pocket flexibility provides group-II PAK selectivity for type 1 kinase inhibitors Q13153 Q13153 2.6 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 280 292 EKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTAMDVATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALEFLHSNQVIHRNIKSDNILLGMDGSVKLTDFEQSKRSEMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMIEGEPPYLNENPLRALYLIATNGTPELQNPEKLSAIFRDFLNRCLEMDVEKRGSAKELLQHQFLKIAKPLSSLTPLIAAAKEATK EEILEKLRSIVSVGDPKKKYTRFEKIGQGASGTVYTAMDVATGQEVAIKQMNLQQQPKKELIINEILVMRENKNPNIVNYLDSYLVGDELWVVMEYLAGGSLTDVVTETCMDEGQIAAVCRECLQALEFLHSNQVIHRNIKSDNILLGMDGSVKLTDFGFCAQITPEQSKRSEMVGTPYWMAPEVVTRKAYGPKVDIWSLGIMAIEMIEGEPPYLNENPLRALYLIATNGTPELQNPEKLSAIFRDFLNRCLEMDVEKRGSAKELLQHQFLKIAKPLSSLTPLIAAAKEATK 4o1e-a1-m1-cB_4o1e-a1-m1-cA Structure of a methyltransferase component in complex with MTHF involved in O-demethylation B8FW00 B8FW00 1.61 X-RAY DIFFRACTION 111 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 267 271 4o0q-a1-m1-cB_4o0q-a1-m1-cA 4o1f-a1-m1-cA_4o1f-a1-m1-cB HMLIIIGEKINGTIPSVKKAIEAKDEKLIRDLALRQEAGADYIDVCASTSPELEVETLQWLMDIVQEATDTPLCIDSPNPRAIQQVLLYAKRPGLINSVSLEGDKCEVIFPLIQGTSWQVIALTCDNSGIPQDVQSRVEIAQALVEKAQSYDIAQERIHIDPLVIALSADNGALLKFAEATRQIKANYPMINVTSGLSNISFGMPLRKVVNQNFLTLAMFAGMDSAILDPLNRDLLAALLATEALLGRDKHCRNFANAYRKNKIGPL GSHMLIIIGEKINGTIPSVKKAIEAKDEKLIRDLALRQSEAGADYIDVCASTSPELEVETLQWLMDIVQEATDTPLCIDSPNPRAIQQVLLYAKRPGLINSVSLEGDKCEVIFPLIQGTSWQVIALTCDNSGIPQDVQSRVEIAQALVEKAQSYDIAQERIHIDPLVIALSADNGALLKFAEATRQIKANYPMINVTSGLSNISFGMPLRKVVNQNFLTLAMFAGMDSAILDPLNRDLLAALLATEALLGRDKHCRNFANAYRKNKIGPLK 4o1h-a2-m1-cC_4o1h-a2-m1-cD Crystal Structure of the regulatory domain of AmeGlnR Q8GD11 Q8GD11 2.8 X-RAY DIFFRACTION 37 1.0 33910 (Amycolatopsis mediterranei) 33910 (Amycolatopsis mediterranei) 110 110 4o1h-a1-m1-cB_4o1h-a1-m1-cA SHSLDLLVTAEADATAVLPALDLLPHTVRVRAPEVTALLDAGHRDVILLDARSDLASAKSLCRLKGTATPIIAVVGEGGLVAVSAEWRTDDILLPTAGPAEVDARLRVTT SHSLDLLVTAEADATAVLPALDLLPHTVRVRAPEVTALLDAGHRDVILLDARSDLASAKSLCRLKGTATPIIAVVGEGGLVAVSAEWRTDDILLPTAGPAEVDARLRVTT 4o1i-a3-m1-cE_4o1i-a3-m2-cE Crystal Structure of the regulatory domain of MtbGlnR O53830 O53830 2.8 X-RAY DIFFRACTION 48 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 113 113 4o1i-a1-m1-cA_4o1i-a1-m1-cB 4o1i-a2-m1-cC_4o1i-a2-m1-cD MLELLLLTSELYPDPVLPALSLLPHTVRTAPAEASSLLEAGNADAVLVDARNDLSSGRGLCRLLSSTGRSIPVLAVVSEGGLVAVSADWGLDEILLLSTGPAEIDARLRLVVG MLELLLLTSELYPDPVLPALSLLPHTVRTAPAEASSLLEAGNADAVLVDARNDLSSGRGLCRLLSSTGRSIPVLAVVSEGGLVAVSADWGLDEILLLSTGPAEIDARLRLVVG 4o1j-a1-m1-cB_4o1j-a1-m2-cB Crystal structures of two tetrameric beta-carbonic anhydrases from the filamentous ascomycete Sordaria macrospora. F7VW42 F7VW42 2.695 X-RAY DIFFRACTION 239 1.0 5147 (Sordaria macrospora) 5147 (Sordaria macrospora) 196 196 4o1j-a1-m1-cA_4o1j-a1-m2-cA NTFHYALSSNNAWAGYKAHQNPHFFPKLAGGQAPEILWIGCSDSRCPETTILGMQPGDVFVHRNIANIVSPTDINTTAVIEYAVAHLKVKHIVLCGHSACGGAAGALSDGRIGGVLDTWLLPLKTVRYNHAEELDAITDEKERVIRIAQLNVEAGIKVLMNNPTIREAIAERGLEVHGVFFDIGCGRIKELGCGTA NTFHYALSSNNAWAGYKAHQNPHFFPKLAGGQAPEILWIGCSDSRCPETTILGMQPGDVFVHRNIANIVSPTDINTTAVIEYAVAHLKVKHIVLCGHSACGGAAGALSDGRIGGVLDTWLLPLKTVRYNHAEELDAITDEKERVIRIAQLNVEAGIKVLMNNPTIREAIAERGLEVHGVFFDIGCGRIKELGCGTA 4o1j-a1-m2-cB_4o1j-a1-m1-cA Crystal structures of two tetrameric beta-carbonic anhydrases from the filamentous ascomycete Sordaria macrospora. F7VW42 F7VW42 2.695 X-RAY DIFFRACTION 19 1.0 5147 (Sordaria macrospora) 5147 (Sordaria macrospora) 196 197 4o1j-a1-m1-cB_4o1j-a1-m2-cA NTFHYALSSNNAWAGYKAHQNPHFFPKLAGGQAPEILWIGCSDSRCPETTILGMQPGDVFVHRNIANIVSPTDINTTAVIEYAVAHLKVKHIVLCGHSACGGAAGALSDGRIGGVLDTWLLPLKTVRYNHAEELDAITDEKERVIRIAQLNVEAGIKVLMNNPTIREAIAERGLEVHGVFFDIGCGRIKELGCGTA ENTFHYALSSNNAWAGYKAHQNPHFFPKLAGGQAPEILWIGCSDSRCPETTILGMQPGDVFVHRNIANIVSPTDINTTAVIEYAVAHLKVKHIVLCGHSACGGAAGALSDGRIGGVLDTWLLPLKTVRYNHAEELDAITDEKERVIRIAQLNVEAGIKVLMNNPTIREAIAERGLEVHGVFFDIGCGRIKELGCGTA 4o1j-a1-m2-cB_4o1j-a1-m2-cA Crystal structures of two tetrameric beta-carbonic anhydrases from the filamentous ascomycete Sordaria macrospora. F7VW42 F7VW42 2.695 X-RAY DIFFRACTION 53 1.0 5147 (Sordaria macrospora) 5147 (Sordaria macrospora) 196 197 4o1j-a1-m1-cB_4o1j-a1-m1-cA NTFHYALSSNNAWAGYKAHQNPHFFPKLAGGQAPEILWIGCSDSRCPETTILGMQPGDVFVHRNIANIVSPTDINTTAVIEYAVAHLKVKHIVLCGHSACGGAAGALSDGRIGGVLDTWLLPLKTVRYNHAEELDAITDEKERVIRIAQLNVEAGIKVLMNNPTIREAIAERGLEVHGVFFDIGCGRIKELGCGTA ENTFHYALSSNNAWAGYKAHQNPHFFPKLAGGQAPEILWIGCSDSRCPETTILGMQPGDVFVHRNIANIVSPTDINTTAVIEYAVAHLKVKHIVLCGHSACGGAAGALSDGRIGGVLDTWLLPLKTVRYNHAEELDAITDEKERVIRIAQLNVEAGIKVLMNNPTIREAIAERGLEVHGVFFDIGCGRIKELGCGTA 4o1k-a1-m1-cA_4o1k-a1-m4-cA Crystal structures of two tetrameric beta-carbonic anhydrases from the filamentous ascomycete Sordaria macrospora. C1L336 C1L336 1.83 X-RAY DIFFRACTION 176 1.0 5147 (Sordaria macrospora) 5147 (Sordaria macrospora) 211 211 4o1k-a1-m2-cA_4o1k-a1-m3-cA LQETHDKVFENNKSWATEQVAKDPDFFKKLAAGQNPEYLWIGCSDSRIPAEQITGLQPGDAFVHRNIANLVCNTDLNVMSVIEYAVKHLKVKHIVVCGHYGCGGVKAAMTPKDLGLMNPWLRNIRDVYRLHEKELDAIADEEARYERLVELNVYEQCRNVVKTAALQQSYAENGFPVIHGWVFNFRDGLLKDLNVDFETILKDIQKIYNLT LQETHDKVFENNKSWATEQVAKDPDFFKKLAAGQNPEYLWIGCSDSRIPAEQITGLQPGDAFVHRNIANLVCNTDLNVMSVIEYAVKHLKVKHIVVCGHYGCGGVKAAMTPKDLGLMNPWLRNIRDVYRLHEKELDAIADEEARYERLVELNVYEQCRNVVKTAALQQSYAENGFPVIHGWVFNFRDGLLKDLNVDFETILKDIQKIYNLT 4o1k-a1-m2-cA_4o1k-a1-m4-cA Crystal structures of two tetrameric beta-carbonic anhydrases from the filamentous ascomycete Sordaria macrospora. C1L336 C1L336 1.83 X-RAY DIFFRACTION 65 1.0 5147 (Sordaria macrospora) 5147 (Sordaria macrospora) 211 211 4o1k-a1-m1-cA_4o1k-a1-m3-cA LQETHDKVFENNKSWATEQVAKDPDFFKKLAAGQNPEYLWIGCSDSRIPAEQITGLQPGDAFVHRNIANLVCNTDLNVMSVIEYAVKHLKVKHIVVCGHYGCGGVKAAMTPKDLGLMNPWLRNIRDVYRLHEKELDAIADEEARYERLVELNVYEQCRNVVKTAALQQSYAENGFPVIHGWVFNFRDGLLKDLNVDFETILKDIQKIYNLT LQETHDKVFENNKSWATEQVAKDPDFFKKLAAGQNPEYLWIGCSDSRIPAEQITGLQPGDAFVHRNIANLVCNTDLNVMSVIEYAVKHLKVKHIVVCGHYGCGGVKAAMTPKDLGLMNPWLRNIRDVYRLHEKELDAIADEEARYERLVELNVYEQCRNVVKTAALQQSYAENGFPVIHGWVFNFRDGLLKDLNVDFETILKDIQKIYNLT 4o1k-a1-m3-cA_4o1k-a1-m4-cA Crystal structures of two tetrameric beta-carbonic anhydrases from the filamentous ascomycete Sordaria macrospora. C1L336 C1L336 1.83 X-RAY DIFFRACTION 11 1.0 5147 (Sordaria macrospora) 5147 (Sordaria macrospora) 211 211 4o1k-a1-m1-cA_4o1k-a1-m2-cA LQETHDKVFENNKSWATEQVAKDPDFFKKLAAGQNPEYLWIGCSDSRIPAEQITGLQPGDAFVHRNIANLVCNTDLNVMSVIEYAVKHLKVKHIVVCGHYGCGGVKAAMTPKDLGLMNPWLRNIRDVYRLHEKELDAIADEEARYERLVELNVYEQCRNVVKTAALQQSYAENGFPVIHGWVFNFRDGLLKDLNVDFETILKDIQKIYNLT LQETHDKVFENNKSWATEQVAKDPDFFKKLAAGQNPEYLWIGCSDSRIPAEQITGLQPGDAFVHRNIANLVCNTDLNVMSVIEYAVKHLKVKHIVVCGHYGCGGVKAAMTPKDLGLMNPWLRNIRDVYRLHEKELDAIADEEARYERLVELNVYEQCRNVVKTAALQQSYAENGFPVIHGWVFNFRDGLLKDLNVDFETILKDIQKIYNLT 4o1l-a1-m1-cA_4o1l-a1-m1-cB Human Adenosine Kinase in complex with inhibitor P55263 P55263 2.5 X-RAY DIFFRACTION 44 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 326 339 LRENILFGMGNPLLDISAVVDKDFLDKYSLKPNDQILAEDKHKELFDELVKKFKVEYHAGGSTQNSIKVAQWMIQQPHKAATFFGCIGIDKFGEILKRKAAEAHVDAHYYEQNEQPTGTCAACITGDNRSLIANLAAANCYKKEKHLDLEKNWMLVEKARVCYIAGFFLTVSPESVLKVAHHASENNRIFTLNLSAPFISQFYKESLMKVMPYVDILFGNETEAATFAREQGFETKDIKEIAKKTQALPKMNSKRQRIVIFTQGRDDTIMATESEVTAFAVLDQDQKIDTNGAGDAFVGGFLSQLVSDKPLTECIRAGHYAASIII APQALRENILFGMGNPLLDISAVVDKDFLDKYSLKPNDQILAEDKHKELFDELVKKFKVEYHAGGSTQNSIKVAQWMIQQPHKAATFFGCIGIDKFGEILKRKAAEAHVDAHYYEQNEQPTGTCAACITGDNRSLIANLAAANCYKKEKHLDLEKNWMLVEKARVCYIAGFFLTVSPESVLKVAHHASENNRIFTLNLSAPFISQFYKESLMKVMPYVDILFGNETEAATFAREQGFETKDIKEIAKKTQALPKMNSKRQRIVIFTQGRDDTIMATESEVTAFAVLIDTNGAGDAFVGGFLSQLVSDKPLTECIRAGHYAASIIIRRTGCTFPEKPDFH 4o1m-a1-m1-cC_4o1m-a1-m1-cE Toxoplasma gondii Enoyl acyl carrier protein reductase Q6UCJ9 Q6UCJ9 2 X-RAY DIFFRACTION 107 0.997 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 297 298 2o2s-a1-m1-cB_2o2s-a1-m2-cA 2o2s-a1-m2-cB_2o2s-a1-m1-cA 2o50-a1-m1-cA_2o50-a1-m2-cB 2o50-a1-m1-cB_2o50-a1-m2-cA 3nj8-a1-m1-cB_3nj8-a1-m2-cA 3nj8-a1-m2-cB_3nj8-a1-m1-cA 4o1m-a1-m1-cB_4o1m-a1-m1-cA 4o1m-a2-m1-cD_4o1m-a2-m1-cF 4o1m-a2-m2-cD_4o1m-a2-m2-cF FPIDLRGQTAFVAGVADSHGYGWAIAKHLASAGARVALGTWPPVLGLFQKSLQSGRLDEDRKLPDGSLIEFAGVYPLDAAFDKPEDVPQDIKDNKRYAGVDGYTIKEVAVKVKQDLGNIDILVHSLANGPEVTKPLLETSRKGYLAASSNSAYSFVSLLQHFGPIMNEGGSAVTLSYLAAERVVPGYGGGMSSAKAALESDTRTLAWEAGQKYGVRVNAISAGPLKSRAASAFIDYAIDYSYNNAPLRRDLHSDDVGGAALFLLSPLARAVSGVTLYVDNGLHAMGQAVDSRSMPPL FPIDLRGQTAFVAGVADSHGYGWAIAKHLASAGARVALGTWPPVLGLFQKSLQSGRLDEDRKLPDGSLIEFAGVYPLDAAFDKPEDVPQDIKDNKRYAGVDGYTIKEVAVKVKQDLGNIDILVHSLANGPEVTKPLLETSRKGYLAASSNSAYSFVSLLQHFGPIMNEGGSAVTLSYLAAERVVPGYGGGMSSAKAALESDTRTLAWEAGQKYGVRVNAISAGPLKSRAASAISFIDYAIDYSYNNAPLRRDLHSDDVGGAALFLLSPLARAVSGVTLYVDNGLHAMGQAVDSRSMPP 4o1r-a2-m1-cA_4o1r-a2-m2-cA Crystal structure of NpuDnaB intein B2IVH9 B2IVH9 1.4 X-RAY DIFFRACTION 40 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 142 142 SGGALAGDSLVTLVDSGLQVPIKELVGKSGFAVWALNEATMQLEKAIVSNAFSTGIKPLFTLTTRLGRKIRATGNHKFLTINGWKRLDELTPKEHLALPRNSGSDIYWDEIVSITYSGEEEVFDLTVPGLHNFVANNIIVHN SGGALAGDSLVTLVDSGLQVPIKELVGKSGFAVWALNEATMQLEKAIVSNAFSTGIKPLFTLTTRLGRKIRATGNHKFLTINGWKRLDELTPKEHLALPRNSGSDIYWDEIVSITYSGEEEVFDLTVPGLHNFVANNIIVHN 4o1s-a3-m1-cA_4o1s-a3-m1-cB Crystal structure of TvoVMA intein Q97CQ0 Q97CQ0 2.7008 X-RAY DIFFRACTION 66 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 170 170 SGGKAVSGETPVYLADGKTIKIKDLYSSERKKEDNIVEAGSGEEIIHLKDPIQIYSYVDGTIVRSRSRLLYKGKSSYLVRIETIGGRSVSVTPVHKLFVLTEKGIEEVMASNLKVGDMIAAVAESASEATFDRVKSIAYEKGDFDVYDLSVPEYGRNFIGGEGLLVLHNA SGGKAVSGETPVYLADGKTIKIKDLYSSERKKEDNIVEAGSGEEIIHLKDPIQIYSYVDGTIVRSRSRLLYKGKSSYLVRIETIGGRSVSVTPVHKLFVLTEKGIEEVMASNLKVGDMIAAVAESASEATFDRVKSIAYEKGDFDVYDLSVPEYGRNFIGGEGLLVLHNA 4o1w-a3-m1-cF_4o1w-a3-m1-cE Crystal Structure of Colwellia psychrerythraea cytochrome c Q48A34 Q48A34 2 X-RAY DIFFRACTION 41 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 78 79 4o1w-a1-m1-cD_4o1w-a1-m1-cA 4o1w-a2-m1-cB_4o1w-a2-m1-cC GDAAAGKAKSVMCAACHGAAGVSAVPTYPNLAGQKEAYLTKQLNDFKSGKRNDPTMKGMVMALSPADMENLAAYYANM GDAAAGKAKSVMCAACHGAAGVSAVPTYPNLAGQKEAYLTKQLNDFKSGKRNDPTMKGMVMALSPADMENLAAYYANMK 4o2h-a2-m1-cB_4o2h-a2-m3-cB Crystal structure of BCAM1869 protein (RsaM homolog) from Burkholderia cenocepacia B4EMD1 B4EMD1 2.3 X-RAY DIFFRACTION 59 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 130 130 4o2h-a1-m1-cA_4o2h-a1-m2-cA SPLLHPVPGPSPDGYVRLSEGALAALVLDHVASGLDPSLLAELRDNAIDARLAGYTEWHRTAGAGVAYVTVGWDWYLERATGTFVIAGGDVRSNVAIADIGLRTAAALAARLAALDWPAAVASALLGHND SPLLHPVPGPSPDGYVRLSEGALAALVLDHVASGLDPSLLAELRDNAIDARLAGYTEWHRTAGAGVAYVTVGWDWYLERATGTFVIAGGDVRSNVAIADIGLRTAAALAARLAALDWPAAVASALLGHND 4o2z-a1-m1-cA_4o2z-a1-m2-cA Crystal Structure of MPK3 from Leishmania donovani, LdBPK_100540 in the presence of NVP-BBT594 A0A3S7WR45 A0A3S7WR45 2.71 X-RAY DIFFRACTION 69 1.0 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 363 363 NLYFQGNQELSVPKIVGDFKVYNVSGSPFEVPSKYTLLKILGMGAYGIACSCLDGDTGEKVSIKKCRDVFRDVEDGKRVLREIDMMRFFHHENLLNVVNILPPLKREYHSFEDVYVVTPLMDVDMNVVLRSRQVLEESHMQYFVYQILRGLKYLHSANVAHRDLKPANLVTNISCELKIIDFGLSRSVPYSELTDYVITRWYRPPELLLENTNYSTAVDIWSVGCIFAEMYNRKPVFPGRNTMDQLRMIAQHIGKPPASIVEHREALEKLNELPDGSLNIPKLVPGLAGNTEGIDFLSKMWTLDPSKRPTAADMLAHPYLAHLHDEEDEPTCPCPFLWAHESTPMGVSELRRAFWADIVDYNP NLYFQGNQELSVPKIVGDFKVYNVSGSPFEVPSKYTLLKILGMGAYGIACSCLDGDTGEKVSIKKCRDVFRDVEDGKRVLREIDMMRFFHHENLLNVVNILPPLKREYHSFEDVYVVTPLMDVDMNVVLRSRQVLEESHMQYFVYQILRGLKYLHSANVAHRDLKPANLVTNISCELKIIDFGLSRSVPYSELTDYVITRWYRPPELLLENTNYSTAVDIWSVGCIFAEMYNRKPVFPGRNTMDQLRMIAQHIGKPPASIVEHREALEKLNELPDGSLNIPKLVPGLAGNTEGIDFLSKMWTLDPSKRPTAADMLAHPYLAHLHDEEDEPTCPCPFLWAHESTPMGVSELRRAFWADIVDYNP 4o38-a1-m1-cA_4o38-a1-m1-cB Crystal structure of the human cyclin G associated kinase (GAK) O14976 O14976 2.097 X-RAY DIFFRACTION 119 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 263 272 4c58-a1-m1-cA_4c58-a1-m2-cA QSDFVGQTVELGELRLRVRRVLAEGGFAFVYEAQDVGSGREYALKRLLSNEEEKNRAIIQEVCFKKLSGHPNIVQFCSAASIGKEESDTGQAEFLLLTELCKGQLVEFLKKESRGPLSCDTVLKIFYQTCRAVQHHRQKPPIIHRDLKVENLLLSNQGTIKLCDFGSATTISHYPLYSNFPIGEKQDIWALGCILYLLCFRQHPFYSIPPHDTQYTVFHSLIRALQVNPEERLSIAEVVHQLQEIAAARNVNPKSPITELLEQ SDFVGQTVELGELRLRVRRVLAEGGFAFVYEAQDVGSGREYALKRLLSNEEEKNRAIIQEVCFKKLSGHPNIVQFCSAASIGKEESDTGQAEFLLLTELCKGQLVEFLKKESRGPLSCDTVLKIFYQTCRAVQHHRQKPPIIHRDLKVENLLLSNQGTIKLCDFGSATTISHYPDTPEIIDLYSNFPIGEKQDIWALGCILYLLCFRQHPFESIPPHDTQYTVFHSLIRALQVNPEERLSIAEVVHQLQEIAAARNVNPKSPITELLEQNGG 4o3v-a1-m1-cA_4o3v-a1-m1-cB Crystal structure of a VirB8-like protein of type IV secretion system from Rickettsia typhi Q68X84 Q68X84 1.95 X-RAY DIFFRACTION 64 1.0 257363 (Rickettsia typhi str. Wilmington) 257363 (Rickettsia typhi str. Wilmington) 138 140 ANPYISVANIMLQNYVKQREKYNYDTLKEQFTFIKNASTSIVYMQFANFMNIDNSLSPVIRYQKLYRRSINIISINNINNNEATVTFESLAQNNTGEILENMLWEAKIGFIMDSISTNMPFHFIVTSYKLKLLRNKNQ ANPYISVANIMLQNYVKQREKYNYDTLKEQFTFIKNASTSIVYMQFANFMNIDNSLSPVIRYQKLYRRSINIISINNINNNEATVTFESLAQNNTGEILENMLWEAKIGFIMDSISTSHNMPFHFIVTSYKLKLLRNKNQ 4o47-a1-m1-cB_4o47-a1-m1-cA Crystal structure of uncleaved guinea pig L-asparaginase type III 1.9 X-RAY DIFFRACTION 123 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 290 295 4o48-a1-m1-cA_4o48-a1-m1-cB HMEPVLVVHGGGRRQRVRQGVIRAASLGHGVLRAGGSAVDAVEAAVAALEDDAEFNAGHGSVLTENGDVEMDASIMDGRDLGAGAVSAVRCIANPIKLARLVMDKTPHCFLTGQGAAKFAADMGISEIPGEQLVTERNRKRLEKERLGTVGAVALDCKGNVAYATSTGGIVNKMTGRVGDSPCIGSGGYADNSIGAVSTTGHGESILKVNLARLALFHLEQGGKTVDEAADLALGYMKSRLKGLGGLILVSRTGEWVAKWTSTSMPWAAVKGGKVHAGIDLNDTTVTDLC HMEPVLVVHGGGISCERRQRVRQGVIRAASLGHGVLRAGGSAVDAVEAAVAALEDDAEFNAGHGSVLTENGDVEMDASIMDGRDLGAGAVSAVRCIANPIKLARLVMDKTPHCFLTGQGAAKFAADMGISEIPGEQLVTERNRKRLEKERQLGTVGAVALDCKGNVAYATSTGGIVNKMTGRVGDSPCIGSGGYADNSIGAVSTTGHGESILKVNLARLALFHLEQGGKTVDEAADLALGYMKSRLKGLGGLILVSRTGEWVAKWTSTSMPWAAVKGGKVHAGIDLNDTTVTDLC 4o4a-a1-m2-cC_4o4a-a1-m1-cD 2.75 Angstrom Crystal Structure of Putative Lipoprotein from Bacillus anthracis. A0A6L8PAP6 A0A6L8PAP6 2.75 X-RAY DIFFRACTION 27 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 139 141 4o4a-a1-m1-cA_4o4a-a1-m2-cB ETTDTIYLIPEEYEGDLIVVYNVPGAELLPKEEEFSVVTFAADGTAVTSTKNKFGTVNDLYYTVNKEGQRTKIDSSCIHFSSTGSRTENSWEFPFANLEVTRTACSQEFSANGREVPENQEHPAEKKRDLQRIQERYNK ETTDTIYLIPEEYEGDLIVVYNVPGAELLPKEEEFSVVTFAADGTAVTSTKNKFGTVNDLYYTVNKEGQRTKIDSSCIHFSSTGSRTENSWEFPFANLEVTRTACSQEFSANGREVPENQEHPAEKKRDLQRIQERYNKVK 4o4a-a1-m2-cC_4o4a-a1-m2-cB 2.75 Angstrom Crystal Structure of Putative Lipoprotein from Bacillus anthracis. A0A6L8PAP6 A0A6L8PAP6 2.75 X-RAY DIFFRACTION 19 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 139 143 4o4a-a1-m1-cA_4o4a-a1-m1-cD ETTDTIYLIPEEYEGDLIVVYNVPGAELLPKEEEFSVVTFAADGTAVTSTKNKFGTVNDLYYTVNKEGQRTKIDSSCIHFSSTGSRTENSWEFPFANLEVTRTACSQEFSANGREVPENQEHPAEKKRDLQRIQERYNK AKETTDTIYLIPEEYEGDLIVVYNVPGAELLPKEEEFSVVTFAADGTAVTSTKNKFGTVNDLYYTVNKEGQRTKIDSSCIHFSSTGSRTENSWEFPFANLEVTRTACSQEFSANGREVPENQEHPAEKKRDLQRIQERYNKVK 4o4o-a1-m1-cA_4o4o-a1-m1-cB Crystal structure of phycobiliprotein lyase CpcT Q8YLF9 Q8YLF9 1.95 X-RAY DIFFRACTION 55 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 192 192 4o4s-a1-m1-cB_4o4s-a1-m1-cA 4o4s-a2-m1-cI_4o4s-a2-m1-cJ 4o4s-a3-m1-cD_4o4s-a3-m1-cC 4o4s-a4-m1-cE_4o4s-a4-m1-cF 4o4s-a5-m1-cH_4o4s-a5-m1-cG 4o4s-a6-m1-cK_4o4s-a6-m1-cL THSTDIATLARWAADFSNQAQAFENPPFYAHIRVCRPLPWEVLSGVGFFVEQAYDYLNDPYRLRVLKLIVGDRIHIENYTVKQEENFYGASRDLNRLQTLTSESLEKLPGCNIVEWTGNSFKGTVEPGKGCIVVRKGQKTYLDSEFEINEEKFISLDRGRDLETDAHIWGSVAGPFYFVRLHNFADEVKISA THSTDIATLARWAADFSNQAQAFENPPFYAHIRVCRPLPWEVLSGVGFFVEQAYDYLNDPYRLRVLKLIVGDRIHIENYTVKQEENFYGASRDLNRLQTLTSESLEKLPGCNIVEWTGNSFKGTVEPGKGCIVVRKGQKTYLDSEFEINEEKFISLDRGRDLETDAHIWGSVAGPFYFVRLHNFADEVKISA 4o5a-a1-m1-cA_4o5a-a1-m2-cA The crystal structure of a LacI family transcriptional regulator from Bifidobacterium animalis subsp. lactis DSM 10140 1.777 X-RAY DIFFRACTION 84 1.0 555970 (Bifidobacterium animalis subsp. lactis DSM 10140) 555970 (Bifidobacterium animalis subsp. lactis DSM 10140) 259 259 SRTRRIGLVLGYDYIRLISGLGSALEERDYSLLVRSDDDDEVSILEDWIATGNVDALLLLNLEIGDPRIELKNNPQPCLALADSSLTSGLPTLSDDAAASGTIRHLALFGHKNIARVAGPEELGHSYIRDAAFSEITTELGRYRLHTDYTPESGAEATKRLLSVEPRPTAIIYDNDVALAGESVASVKGVRVPEDLSIISWGDSFNVAAHPPITALSRNILESGRLAAQLLKLIDGEDVENVEEPPYELIERASTAPAA SRTRRIGLVLGYDYIRLISGLGSALEERDYSLLVRSDDDDEVSILEDWIATGNVDALLLLNLEIGDPRIELKNNPQPCLALADSSLTSGLPTLSDDAAASGTIRHLALFGHKNIARVAGPEELGHSYIRDAAFSEITTELGRYRLHTDYTPESGAEATKRLLSVEPRPTAIIYDNDVALAGESVASVKGVRVPEDLSIISWGDSFNVAAHPPITALSRNILESGRLAAQLLKLIDGEDVENVEEPPYELIERASTAPAA 4o5f-a1-m1-cB_4o5f-a1-m1-cA Crystal structure of Type III pantothenate kinase from Burkholderia thailandensis in complex with pantothenate and phosphate Q2T1M2 Q2T1M2 1.55 X-RAY DIFFRACTION 186 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 248 258 4o8k-a1-m1-cB_4o8k-a1-m1-cA VCLLIDAGNSRIKWALADTGRHFVTSGAFEHADDTPDWSTLPAPRGAWISNVAGDAAAARIDALIDAHWPALPRTVVRACAAQCGVTNGYAEPARLGSDRWAGLIGAHAAFPGEHLLIATFGTATTLEALRADGRFTGGLIAPGWALMMRSLGMHTAQLPTVSIDAATSLLDEAPFAIDTPHALSAGCLQAQAGLIERAWRDLEKAWKAPVRLVLSGGAADAIVRALTVPHTRHDTLVLTGLALIAHS MSGVCLLIDAGNSRIKWALADTGRHFVTSGAFEHADDTPDWSTLPAPRGAWISNVAGDAAAARIDALIDAHWPALPRTVVRACAAQCGVTNGYAEPARLGSDRWAGLIGAHAAFPGEHLLIATFGTATTLEALRADGRFTGGLIAPGWALMMRSLGMHTAQLPTVSIDAATSLLDELAANDAHAPFAIDTPHALSAGCLQAQAGLIERAWRDLEKAWKAPVRLVLSGGAADAIVRALTVPHTRHDTLVLTGLALIAHS 4o5h-a3-m1-cC_4o5h-a3-m1-cD X-ray crystal structure of a putative phenylacetaldehyde dehydrogenase from Burkholderia cenocepacia B4EH14 B4EH14 2 X-RAY DIFFRACTION 67 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 496 496 4o5h-a3-m1-cA_4o5h-a3-m1-cB TFALLDATRAFLAKPKQMLIGAEWSDAASGRQLDVVNPADGTVIARVPEADERDVQQAVAAARRAFDAGPWRTAKTTDRERLMLVLADLIEANARELAEIESLDNGKPVMVAQGLDVAMAAQCFRYMAGWATKIEGSVIDAGMPYLPDSEIFAYTRKEPVGVVGAIIPWNFPLLMAAWKIAPALATGCTVVLKPAEDTPLSALRLGELIQAAGFPDGVVNIVTGYGHTAGAALSRDPRIDKIAFTGSTQTGKTIGHAALDNMTRMSLELGGKSPVIVLPDVDLDKAAQGVANAIFFNQGQVCTAGSRAYIHSKVFDGVIERVAKIAASLKIGPGMDPATQIGPLVSAKQRERVCGYIDSGFGEGARAAAGGRAIDGPGFFVEPTVLVDTTQAMRVVREEIFGPVLVAMPFDDVDTAVQLANDTPYGLGASIWSNDLSAIHKLVPRIAAGTVWVNCHSLLDNALPFGGMKQSGFGRELGRAVIDQYTESKSVMMNYA TFALLDATRAFLAKPKQMLIGAEWSDAASGRQLDVVNPADGTVIARVPEADERDVQQAVAAARRAFDAGPWRTAKTTDRERLMLVLADLIEANARELAEIESLDNGKPVMVAQGLDVAMAAQCFRYMAGWATKIEGSVIDAGMPYLPDSEIFAYTRKEPVGVVGAIIPWNFPLLMAAWKIAPALATGCTVVLKPAEDTPLSALRLGELIQAAGFPDGVVNIVTGYGHTAGAALSRDPRIDKIAFTGSTQTGKTIGHAALDNMTRMSLELGGKSPVIVLPDVDLDKAAQGVANAIFFNQGQVCTAGSRAYIHSKVFDGVIERVAKIAASLKIGPGMDPATQIGPLVSAKQRERVCGYIDSGFGEGARAAAGGRAIDGPGFFVEPTVLVDTTQAMRVVREEIFGPVLVAMPFDDVDTAVQLANDTPYGLGASIWSNDLSAIHKLVPRIAAGTVWVNCHSLLDNALPFGGMKQSGFGRELGRAVIDQYTESKSVMMNYA 4o5h-a3-m1-cD_4o5h-a3-m1-cA X-ray crystal structure of a putative phenylacetaldehyde dehydrogenase from Burkholderia cenocepacia B4EH14 B4EH14 2 X-RAY DIFFRACTION 177 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 496 511 4o5h-a1-m1-cD_4o5h-a1-m1-cA 4o5h-a2-m1-cC_4o5h-a2-m1-cB 4o5h-a3-m1-cC_4o5h-a3-m1-cB TFALLDATRAFLAKPKQMLIGAEWSDAASGRQLDVVNPADGTVIARVPEADERDVQQAVAAARRAFDAGPWRTAKTTDRERLMLVLADLIEANARELAEIESLDNGKPVMVAQGLDVAMAAQCFRYMAGWATKIEGSVIDAGMPYLPDSEIFAYTRKEPVGVVGAIIPWNFPLLMAAWKIAPALATGCTVVLKPAEDTPLSALRLGELIQAAGFPDGVVNIVTGYGHTAGAALSRDPRIDKIAFTGSTQTGKTIGHAALDNMTRMSLELGGKSPVIVLPDVDLDKAAQGVANAIFFNQGQVCTAGSRAYIHSKVFDGVIERVAKIAASLKIGPGMDPATQIGPLVSAKQRERVCGYIDSGFGEGARAAAGGRAIDGPGFFVEPTVLVDTTQAMRVVREEIFGPVLVAMPFDDVDTAVQLANDTPYGLGASIWSNDLSAIHKLVPRIAAGTVWVNCHSLLDNALPFGGMKQSGFGRELGRAVIDQYTESKSVMMNYA AHHHHHHMVNMETNETFALLDATRAFLAKPKQMLIGAEWSDAASGRQLDVVNPADGTVIARVPEADERDVQQAVAAARRAFDAGPWRTAKTTDRERLMLVLADLIEANARELAEIESLDNGKPVMVAQGLDVAMAAQCFRYMAGWATKIEGSVIDAGMPYLPDSEIFAYTRKEPVGVVGAIIPWNFPLLMAAWKIAPALATGCTVVLKPAEDTPLSALRLGELIQAAGFPDGVVNIVTGYGHTAGAALSRDPRIDKIAFTGSTQTGKTIGHAALDNMTRMSLELGGKSPVIVLPDVDLDKAAQGVANAIFFNQGQVCTAGSRAYIHSKVFDGVIERVAKIAASLKIGPGMDPATQIGPLVSAKQRERVCGYIDSGFGEGARAAAGGRAIDGPGFFVEPTVLVDTTQAMRVVREEIFGPVLVAMPFDDVDTAVQLANDTPYGLGASIWSNDLSAIHKLVPRIAAGTVWVNCHSLLDNALPFGGMKQSGFGRELGRAVIDQYTESKSVMMNYA 4o5h-a3-m1-cD_4o5h-a3-m1-cB X-ray crystal structure of a putative phenylacetaldehyde dehydrogenase from Burkholderia cenocepacia B4EH14 B4EH14 2 X-RAY DIFFRACTION 59 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 496 511 4o5h-a3-m1-cC_4o5h-a3-m1-cA TFALLDATRAFLAKPKQMLIGAEWSDAASGRQLDVVNPADGTVIARVPEADERDVQQAVAAARRAFDAGPWRTAKTTDRERLMLVLADLIEANARELAEIESLDNGKPVMVAQGLDVAMAAQCFRYMAGWATKIEGSVIDAGMPYLPDSEIFAYTRKEPVGVVGAIIPWNFPLLMAAWKIAPALATGCTVVLKPAEDTPLSALRLGELIQAAGFPDGVVNIVTGYGHTAGAALSRDPRIDKIAFTGSTQTGKTIGHAALDNMTRMSLELGGKSPVIVLPDVDLDKAAQGVANAIFFNQGQVCTAGSRAYIHSKVFDGVIERVAKIAASLKIGPGMDPATQIGPLVSAKQRERVCGYIDSGFGEGARAAAGGRAIDGPGFFVEPTVLVDTTQAMRVVREEIFGPVLVAMPFDDVDTAVQLANDTPYGLGASIWSNDLSAIHKLVPRIAAGTVWVNCHSLLDNALPFGGMKQSGFGRELGRAVIDQYTESKSVMMNYA AHHHHHHMVNMETNETFALLDATRAFLAKPKQMLIGAEWSDAASGRQLDVVNPADGTVIARVPEADERDVQQAVAAARRAFDAGPWRTAKTTDRERLMLVLADLIEANARELAEIESLDNGKPVMVAQGLDVAMAAQCFRYMAGWATKIEGSVIDAGMPYLPDSEIFAYTRKEPVGVVGAIIPWNFPLLMAAWKIAPALATGCTVVLKPAEDTPLSALRLGELIQAAGFPDGVVNIVTGYGHTAGAALSRDPRIDKIAFTGSTQTGKTIGHAALDNMTRMSLELGGKSPVIVLPDVDLDKAAQGVANAIFFNQGQVCTAGSRAYIHSKVFDGVIERVAKIAASLKIGPGMDPATQIGPLVSAKQRERVCGYIDSGFGEGARAAAGGRAIDGPGFFVEPTVLVDTTQAMRVVREEIFGPVLVAMPFDDVDTAVQLANDTPYGLGASIWSNDLSAIHKLVPRIAAGTVWVNCHSLLDNALPFGGMKQSGFGRELGRAVIDQYTESKSVMMNYA 4o5m-a1-m1-cB_4o5m-a1-m1-cC X-ray Crystal Structure of Isovaleryl-CoA Dehydrogenase from Brucella suis A0A0H3G544 A0A0H3G544 2.2 X-RAY DIFFRACTION 74 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 342 362 HHHMNFGLGEEIEALRDTVRRFAESRIAPLAAETDRNNQFPMHLWREFGELGVLGITAPEDYGGAGMGYLAHCIAMEEISRASASIGLSYGAHSNLCVNQITRNGSPEQRAKYLPKLISGEHVGALADRYVLNGNKMWITNGPDADVLVVYAKTSAFIIEKGFKGFSTAQKLDKLGMRGSNTCELVFEDCEVPAENLLGTEGKGVNVLMSGLDYERVVLAGGPLGIMAACLDVVVPYVHEREFQLMQCKLADMYVTFNASRAYVYAVAAACDRGETTRKDAAGCILYSAENATQMALQAIQSLGGNGYINDYPTGRLLRDAKLYEIEIRRMLIGRELFQETR HHHHMNFGLGEEIEALRDTVRRFAESRIAPLAAETDRNNQFPMHLWREFGELGVLGITAPEDYGGAGMGYLAHCIAMEEISRASASIGLSYGAHSNLCVNQITRNGSPEQRAKYLPKLISGEHVGALAMSMKLAAEKRGDRYVLNGNKMWITNGPDADVLVVYAKTDISAFIIEKGFKGFSTAQKLDKLGMRGSNTCELVFEDCEVPAENLLGTEGKGVNVLMSGLDYERVVLAGGPLGIMAACLDVVVPYVHERGEFQLMQCKLADMYVTFNASRAYVYAVAAACDRGETTRKDAAGCILYSAENATQMALQAIQSLGGNGYINDYPTGRLLRDAKLYEIGAGTSEIRRMLIGRELFQETR 4o5m-a1-m1-cB_4o5m-a1-m1-cD X-ray Crystal Structure of Isovaleryl-CoA Dehydrogenase from Brucella suis A0A0H3G544 A0A0H3G544 2.2 X-RAY DIFFRACTION 149 0.982 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 342 358 4o5m-a1-m1-cA_4o5m-a1-m1-cC HHHMNFGLGEEIEALRDTVRRFAESRIAPLAAETDRNNQFPMHLWREFGELGVLGITAPEDYGGAGMGYLAHCIAMEEISRASASIGLSYGAHSNLCVNQITRNGSPEQRAKYLPKLISGEHVGALADRYVLNGNKMWITNGPDADVLVVYAKTSAFIIEKGFKGFSTAQKLDKLGMRGSNTCELVFEDCEVPAENLLGTEGKGVNVLMSGLDYERVVLAGGPLGIMAACLDVVVPYVHEREFQLMQCKLADMYVTFNASRAYVYAVAAACDRGETTRKDAAGCILYSAENATQMALQAIQSLGGNGYINDYPTGRLLRDAKLYEIEIRRMLIGRELFQETR HHHHMNFGLGEEIEALRDTVRRFAESRIAPLAAETDRNNQFPMHLWREFGELGVLGITAPEDYGGAGMGYLAHCIAMEEISRASASIGLSYGAHSNLCVNQITRNGSPEQRAKYLPKLISGEHVGALAMSMKLAAEKRGDRYVLNGNKMWITNGPDADVLVVYAKTGISAFIIEKGFKGFSTAQKLDKLGMRGSNTCELVFEDCEVPAENLLGTEGKGVNVLMSGLDYERVVLAGGPLGIMAACLDVVVPYVHERKQFDQPIGEFQLMQCKLADMYVTFNASRAYVYAVAAACDRGETTRKDAAGCILYSAENATQMALQAIQSLGGNGDYPTGRLLRDAKLYEIRMLIGRELFQETR 4o5v-a1-m1-cA_4o5v-a1-m2-cA Crystal structure of T. acidophilum IdeR Q9HJU1 Q9HJU1 2.1 X-RAY DIFFRACTION 57 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 208 208 4o6j-a1-m1-cA_4o6j-a1-m2-cA IRSVTEEDYLKIIQELVLYKGYATLADISRSLNVKRQSVRDEINHLISLSAEKIERGKYRLTPSGDREANRFLRKHRTAEILLSRCIGIPWERVDEEAGIEHGTEEIIQRTIERFGVDRCPHGNPIPDPEGNVEPVADVRITSLLPDSTARISRIVYETDDILHFLALNGLIPGKDIKIESVKDTVRVLVDGRSIEIPTDIAAIVTVD IRSVTEEDYLKIIQELVLYKGYATLADISRSLNVKRQSVRDEINHLISLSAEKIERGKYRLTPSGDREANRFLRKHRTAEILLSRCIGIPWERVDEEAGIEHGTEEIIQRTIERFGVDRCPHGNPIPDPEGNVEPVADVRITSLLPDSTARISRIVYETDDILHFLALNGLIPGKDIKIESVKDTVRVLVDGRSIEIPTDIAAIVTVD 4o60-a1-m1-cB_4o60-a1-m1-cA Structure of ankyrin repeat protein 2.52 X-RAY DIFFRACTION 73 1.0 32630 (synthetic construct) 32630 (synthetic construct) 228 230 DIGKKLLEAARAGHDDSVEVLLKKGADINAKDNVGVTPLHLAAVNGHLELVKLLLEKGADINATDLFGLTPLHFAATNGHLELVKLLLEKGADINAVDDVGVTPLHFAARNGHLELVKLLLEKGADINAMDMVGPTPLHFAAKNGHLELVKLLLEKDADINAEDHFGSTPLHSAAENGHLELVKLLLEKGADINARDKFGKTPFDLAIDNGNEDIAEVLQKAARSHHH SMDIGKKLLEAARAGHDDSVEVLLKKGADINAKDNVGVTPLHLAAVNGHLELVKLLLEKGADINATDLFGLTPLHFAATNGHLELVKLLLEKGADINAVDDVGVTPLHFAARNGHLELVKLLLEKGADINAMDMVGPTPLHFAAKNGHLELVKLLLEKDADINAEDHFGSTPLHSAAENGHLELVKLLLEKGADINARDKFGKTPFDLAIDNGNEDIAEVLQKAARSHHH 4o62-a1-m1-cA_4o62-a1-m1-cC CW-type zinc finger of ZCWPW2 in complex with the amino terminus of histone H3 Q504Y3 Q504Y3 1.78 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 56 ENMYVNKVWVQCENENCLKWRLLSSEDSAKVDHDEPWYCFMNTDSRYNNCSISEED ENMYVNKVWVQCENENCLKWRLLSSEDSAKVDHDEPWYCFMNTDSRYNNCSISEED 4o62-a1-m1-cC_4o62-a1-m1-cB CW-type zinc finger of ZCWPW2 in complex with the amino terminus of histone H3 Q504Y3 Q504Y3 1.78 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 57 ENMYVNKVWVQCENENCLKWRLLSSEDSAKVDHDEPWYCFMNTDSRYNNCSISEED ENMYVNKVWVQCENENCLKWRLLSSEDSAKVDHDEPWYCFMNTDSRYNNCSISEEDF 4o66-a6-m1-cC_4o66-a6-m1-cD Crystal Structure of SMARCAL1 HARP substrate recognition domain Q8BJL0 Q8BJL0 1.9 X-RAY DIFFRACTION 152 1.0 10090 (Mus musculus) 10090 (Mus musculus) 70 70 4o66-a5-m1-cA_4o66-a5-m1-cB NTGFLRGACIKTGDRFRVKIGYNQELIAVFKSLPSRHYDSFTKTWDFSMSDYRALMKAVERLSTVSLKPL NTGFLRGACIKTGDRFRVKIGYNQELIAVFKSLPSRHYDSFTKTWDFSMSDYRALMKAVERLSTVSLKPL 4o67-a1-m1-cA_4o67-a1-m1-cB Human cyclic GMP-AMP synthase (cGAS) in complex with GAMP Q8N884 Q8N884 2.444 X-RAY DIFFRACTION 20 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 346 347 GASKLRAVLEKLKLSRDDISTAAGMVKGVVDHLLLRLKCDSAFRGVGLLNTKISAPNEFDVMFKLEVPRIQLEEYSNTRAYYFVKFKRNKENPLSQFLEGEILSASKMLSKFRKIIKEEINDIKDTDVIMKRKRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLVPKHAEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLMKYLLEQLKERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKLENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFDE GASKLRAVLEKLKLSRDDISTAAGMVKGVVDHLLLRLKCDSAFRGVGLLNVKISAPNEFDVMFKLEVPRIQLEEYSNTRAYYFVKFKRNKENPLSQFLEGEILSASKMLSKFRKIIKEEINDIKDTDVIMKRKRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLVPKHAQEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLMKYLLEQLKERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKLENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFDE 4o6c-a3-m1-cE_4o6c-a3-m1-cF West Nile Virus Non-structural protein 1 (NS1) Form 2 crystal Q9Q6P4 Q9Q6P4 2.7508 X-RAY DIFFRACTION 198 1.0 11082 (West Nile virus) 11082 (West Nile virus) 338 338 4o6c-a1-m1-cA_4o6c-a1-m1-cB 4o6c-a2-m1-cC_4o6c-a2-m1-cD 4o6d-a1-m1-cA_4o6d-a1-m1-cB 4oie-a1-m1-cA_4oie-a1-m2-cA 4oii-a1-m1-cA_4oii-a1-m1-cB 4tpl-a1-m1-cA_4tpl-a1-m1-cB ADTGCAIDISRQELRCGSGVFIHNDVEAWMDRYKYYPETPQGLAKIIQKAHKEGVCGLRSVSRLEHQMWEAVKDELNTLLKENGVDLSVVVEKQEGMYKSAPKRLTATTEAPELANNTFVVDGPETKECPTQNRAWNSLEVEDFGFGLTSTRMFLKVRESNTTECDSKIIGTAVKNNLAIHSDLSYWIESRLNDTWKLERAVLGEVKSCTWPETHTLWGDGILESDLIIPVTLAGPRSNHNRRPGYKTQNQGPWDEGRVEIDFDYCPGTTVTLSESCGHRGPATRTTTESGKLITDWCCRSCTLPPLRYQTDSGCWYGMEIRPQRHDEKTLVQSQVNA ADTGCAIDISRQELRCGSGVFIHNDVEAWMDRYKYYPETPQGLAKIIQKAHKEGVCGLRSVSRLEHQMWEAVKDELNTLLKENGVDLSVVVEKQEGMYKSAPKRLTATTEAPELANNTFVVDGPETKECPTQNRAWNSLEVEDFGFGLTSTRMFLKVRESNTTECDSKIIGTAVKNNLAIHSDLSYWIESRLNDTWKLERAVLGEVKSCTWPETHTLWGDGILESDLIIPVTLAGPRSNHNRRPGYKTQNQGPWDEGRVEIDFDYCPGTTVTLSESCGHRGPATRTTTESGKLITDWCCRSCTLPPLRYQTDSGCWYGMEIRPQRHDEKTLVQSQVNA 4o6h-a4-m1-cF_4o6h-a4-m1-cH 2.8A crystal structure of Lymphocytic Choriomeningitis Virus Nucleoprotein C-terminal Domain P09992 P09992 2.8 X-RAY DIFFRACTION 61 1.0 11624 (Lymphocytic choriomeningitis virus (strain Armstrong)) 11624 (Lymphocytic choriomeningitis virus (strain Armstrong)) 195 203 4o6h-a1-m1-cA_4o6h-a1-m1-cD 4o6h-a2-m2-cC_4o6h-a2-m1-cB 4o6h-a3-m1-cE_4o6h-a3-m3-cG 4o6i-a1-m1-cA_4o6i-a1-m1-cB VGLSYSQTMLLKDLMGGIDPNAPTWIDIEGRFNDPVEIAIFQPQNGQFIHFYREPVDQKQFKQDSKYSHGMDLADLFNAQPGLTSSVIGALPQGMVLSCQGSDDIRKLLDSQNRKDIKLIDVEMTREASREYEDKVWDKYGWLCKMHTGIVTPHCALMDCIIFESASKARLPDLKTVHNILPHDLIFRGPNVVTL VGLSYSQTMLLKDLMGGIDPNAPTWIDIEGRFNDPVEIAIFQPQNGQFIHFYREPVDQKQFKQDSKYSHGMDLADLFNAQPGLTSSVIGALPQGMVLSCQGSDDIRKLLDSQNRKDIKLIDVEMTREASREYEDKVWDKYGWLCKMHTGIVRDKKKKEITPHCALMDCIIFESASKARLPDLKTVHNILPHDLIFRGPNVVTL 4o6m-a1-m1-cA_4o6m-a1-m1-cB Structure of AF2299, a CDP-alcohol phosphotransferase (CMP-bound) O27985 O27985 1.901 X-RAY DIFFRACTION 93 0.997 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 330 341 4o6n-a1-m1-cA_4o6n-a1-m1-cB 4q7c-a1-m1-cA_4q7c-a1-m1-cB MRLAYVKNHEIYGEKLLGLTLRERIEKTLQRAGFDVRFFDELSLEEAEDYLIILEPVLILERDLLLEGRKILVSDGFTVGYFFGGDFRTVFDGNLQSSIEKYLSLNNLESYEIWAIKLSNDNLKTAEKLLLSSLIDGWIAREINRKVSLRISRLLADTSVTPNQITVFSFFLSLVGSALFLLNSYLTTLLAGVIIQLHSIIDGCDGEIARLKFMESKYGAWLDGVLDRYSDFIIVFSITYVLSASNPVYWIIGFLAAFASLMIAYTGDKFVAAYMRTYSPEGFAIPITRDFRLLIIFACSVVNLPSLALVIIALLGNFEALRRIVALRSY MRLAYVKNHEIYGEKLLGLTLRERIEKTLQRAGFDVRFFDELSLEEAEDYLIILEPVLILERDLLLEGRKILVSDGFTVGYFFGGDFRTVFDGNLQSSIEKYLSLNNLESYEIWAIKLSNDNLKTAEKLLLSSLIKAKRTGLKPAYYDGWIAREINRKVSLRISRLLADTSVTPNQITVFSFFLSLVGSALFLLNSYLTTLLAGVIIQLHSIIDGCDGEIARLKFMESKYGAWLDGVLDRYSDFIIVFSITYVLSASNPVYWIIGFLAAFASLMIAYTGDKFVAAYMRTYSPEGFAIPITRDFRLLIIFACSVVNLPSLALVIIALLGNFEALRRIVALRS 4o6r-a1-m1-cA_4o6r-a1-m1-cD Crystal Structure of a Putative Aldehyde Dehydrogenase from Burkholderia cenocepacia B4EJX1 B4EJX1 1.9 X-RAY DIFFRACTION 68 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 489 489 4o6r-a1-m1-cB_4o6r-a1-m1-cC HMQTQLFIDGRFVDAVDRGTIDVLNPHDGSVITKIAAATAADVDLAVDAATRAFPAWSAMPAAERGRLLLRLADAIEANTEALAQLESLDTGHPIRDSRALDVPRTAACFRYFGGMADKLQGSVIPVDTGFLNYVQRAPIGVVGQIVPWNFPLMFTSWKMGPALAAGNTVVLKPSEITPLSTLRIVELMAEVGFPAGVVNIVPGYGHTAGQRLAEHPGVGKIAFTGSTATGRRIVEASQGNLKRVQLELGGKGANIVFDDANLDAAINGAAWAIFHNQGQACIAGSRLVLHERIADAFLERFVALASSIRIGNPLDPNTEMGPLTSKQHLDRVLSYVDVAREQGGRVLTGGSAPQDPALANGYYVRPTIVEAKHATDRVAQEEVFGPFVTVLRFGSDDEALAIANATEYGLGSGLWTNDLSRAHRMAARIDAGMCWINCYKRVNPGSPFGGVGKSGYGREMGFEAMHDYTEARSVWVNVDGNVPPHFKR HMQTQLFIDGRFVDAVDRGTIDVLNPHDGSVITKIAAATAADVDLAVDAATRAFPAWSAMPAAERGRLLLRLADAIEANTEALAQLESLDTGHPIRDSRALDVPRTAACFRYFGGMADKLQGSVIPVDTGFLNYVQRAPIGVVGQIVPWNFPLMFTSWKMGPALAAGNTVVLKPSEITPLSTLRIVELMAEVGFPAGVVNIVPGYGHTAGQRLAEHPGVGKIAFTGSTATGRRIVEASQGNLKRVQLELGGKGANIVFDDANLDAAINGAAWAIFHNQGQACIAGSRLVLHERIADAFLERFVALASSIRIGNPLDPNTEMGPLTSKQHLDRVLSYVDVAREQGGRVLTGGSAPQDPALANGYYVRPTIVEAKHATDRVAQEEVFGPFVTVLRFGSDDEALAIANATEYGLGSGLWTNDLSRAHRMAARIDAGMCWINCYKRVNPGSPFGGVGKSGYGREMGFEAMHDYTEARSVWVNVDGNVPPHFKR 4o6r-a1-m1-cB_4o6r-a1-m1-cD Crystal Structure of a Putative Aldehyde Dehydrogenase from Burkholderia cenocepacia B4EJX1 B4EJX1 1.9 X-RAY DIFFRACTION 210 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 489 489 4o6r-a1-m1-cA_4o6r-a1-m1-cC HMQTQLFIDGRFVDAVDRGTIDVLNPHDGSVITKIAAATAADVDLAVDAATRAFPAWSAMPAAERGRLLLRLADAIEANTEALAQLESLDTGHPIRDSRALDVPRTAACFRYFGGMADKLQGSVIPVDTGFLNYVQRAPIGVVGQIVPWNFPLMFTSWKMGPALAAGNTVVLKPSEITPLSTLRIVELMAEVGFPAGVVNIVPGYGHTAGQRLAEHPGVGKIAFTGSTATGRRIVEASQGNLKRVQLELGGKGANIVFDDANLDAAINGAAWAIFHNQGQACIAGSRLVLHERIADAFLERFVALASSIRIGNPLDPNTEMGPLTSKQHLDRVLSYVDVAREQGGRVLTGGSAPQDPALANGYYVRPTIVEAKHATDRVAQEEVFGPFVTVLRFGSDDEALAIANATEYGLGSGLWTNDLSRAHRMAARIDAGMCWINCYKRVNPGSPFGGVGKSGYGREMGFEAMHDYTEARSVWVNVDGNVPPHFKR HMQTQLFIDGRFVDAVDRGTIDVLNPHDGSVITKIAAATAADVDLAVDAATRAFPAWSAMPAAERGRLLLRLADAIEANTEALAQLESLDTGHPIRDSRALDVPRTAACFRYFGGMADKLQGSVIPVDTGFLNYVQRAPIGVVGQIVPWNFPLMFTSWKMGPALAAGNTVVLKPSEITPLSTLRIVELMAEVGFPAGVVNIVPGYGHTAGQRLAEHPGVGKIAFTGSTATGRRIVEASQGNLKRVQLELGGKGANIVFDDANLDAAINGAAWAIFHNQGQACIAGSRLVLHERIADAFLERFVALASSIRIGNPLDPNTEMGPLTSKQHLDRVLSYVDVAREQGGRVLTGGSAPQDPALANGYYVRPTIVEAKHATDRVAQEEVFGPFVTVLRFGSDDEALAIANATEYGLGSGLWTNDLSRAHRMAARIDAGMCWINCYKRVNPGSPFGGVGKSGYGREMGFEAMHDYTEARSVWVNVDGNVPPHFKR 4o6r-a1-m1-cC_4o6r-a1-m1-cD Crystal Structure of a Putative Aldehyde Dehydrogenase from Burkholderia cenocepacia B4EJX1 B4EJX1 1.9 X-RAY DIFFRACTION 49 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 489 489 4o6r-a1-m1-cA_4o6r-a1-m1-cB HMQTQLFIDGRFVDAVDRGTIDVLNPHDGSVITKIAAATAADVDLAVDAATRAFPAWSAMPAAERGRLLLRLADAIEANTEALAQLESLDTGHPIRDSRALDVPRTAACFRYFGGMADKLQGSVIPVDTGFLNYVQRAPIGVVGQIVPWNFPLMFTSWKMGPALAAGNTVVLKPSEITPLSTLRIVELMAEVGFPAGVVNIVPGYGHTAGQRLAEHPGVGKIAFTGSTATGRRIVEASQGNLKRVQLELGGKGANIVFDDANLDAAINGAAWAIFHNQGQACIAGSRLVLHERIADAFLERFVALASSIRIGNPLDPNTEMGPLTSKQHLDRVLSYVDVAREQGGRVLTGGSAPQDPALANGYYVRPTIVEAKHATDRVAQEEVFGPFVTVLRFGSDDEALAIANATEYGLGSGLWTNDLSRAHRMAARIDAGMCWINCYKRVNPGSPFGGVGKSGYGREMGFEAMHDYTEARSVWVNVDGNVPPHFKR HMQTQLFIDGRFVDAVDRGTIDVLNPHDGSVITKIAAATAADVDLAVDAATRAFPAWSAMPAAERGRLLLRLADAIEANTEALAQLESLDTGHPIRDSRALDVPRTAACFRYFGGMADKLQGSVIPVDTGFLNYVQRAPIGVVGQIVPWNFPLMFTSWKMGPALAAGNTVVLKPSEITPLSTLRIVELMAEVGFPAGVVNIVPGYGHTAGQRLAEHPGVGKIAFTGSTATGRRIVEASQGNLKRVQLELGGKGANIVFDDANLDAAINGAAWAIFHNQGQACIAGSRLVLHERIADAFLERFVALASSIRIGNPLDPNTEMGPLTSKQHLDRVLSYVDVAREQGGRVLTGGSAPQDPALANGYYVRPTIVEAKHATDRVAQEEVFGPFVTVLRFGSDDEALAIANATEYGLGSGLWTNDLSRAHRMAARIDAGMCWINCYKRVNPGSPFGGVGKSGYGREMGFEAMHDYTEARSVWVNVDGNVPPHFKR 4o6v-a1-m1-cA_4o6v-a1-m1-cD Crystal Structure of a 3-oxoacyl-[acyl-carrier protein] reductase (EC 1.1.1.100) from Brucella suis B0CL43 B0CL43 1.85 X-RAY DIFFRACTION 93 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 229 232 4o6v-a1-m1-cB_4o6v-a1-m1-cC IQKVAIITAGGSGMGAASARRLAQDGFAVAILSSSGKGEALAKELGGIGVTGSNQSNDDLQKLVDQTLEKWGRIDVLVNSAGRAPILEITDEDWHKGMDTYFLNAVRPARLVVPAMQKQKSGVIINISTAWAFEPSAMFPTSAVFRAGLASFTKIFADTYAAENIRMNNVLPGWIDSLPTTEERRESVPMQRYGKSEEIAATVSFLASDGAAYITGQNLRVDGGLTRSV IQKVAIITAGGSGMGAASARRLAQDGFAVAILSSSGKGEALAKELGGIGVTGSNQSNDDLQKLVDQTLEKWGRIDVLVNSAGHGPRAPILEITDEDWHKGMDTYFLNAVRPARLVVPAMQKQKSGVIINISTAWAFEPSAMFPTSAVFRAGLASFTKIFADTYAAENIRMNNVLPGWIDSLPTTEERRESVPMQRYGKSEEIAATVSFLASDGAAYITGQNLRVDGGLTRSV 4o6v-a1-m1-cB_4o6v-a1-m1-cD Crystal Structure of a 3-oxoacyl-[acyl-carrier protein] reductase (EC 1.1.1.100) from Brucella suis B0CL43 B0CL43 1.85 X-RAY DIFFRACTION 20 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 232 232 4o6v-a1-m1-cA_4o6v-a1-m1-cC IQKVAIITAGGSGMGAASARRLAQDGFAVAILSSSGKGEALAKELGGIGVTGSNQSNDDLQKLVDQTLEKWGRIDVLVNSAGHGPRAPILEITDEDWHKGMDTYFLNAVRPARLVVPAMQKQKSGVIINISTAWAFEPSAMFPTSAVFRAGLASFTKIFADTYAAENIRMNNVLPGWIDSLPTTEERRESVPMQRYGKSEEIAATVSFLASDGAAYITGQNLRVDGGLTRSV IQKVAIITAGGSGMGAASARRLAQDGFAVAILSSSGKGEALAKELGGIGVTGSNQSNDDLQKLVDQTLEKWGRIDVLVNSAGHGPRAPILEITDEDWHKGMDTYFLNAVRPARLVVPAMQKQKSGVIINISTAWAFEPSAMFPTSAVFRAGLASFTKIFADTYAAENIRMNNVLPGWIDSLPTTEERRESVPMQRYGKSEEIAATVSFLASDGAAYITGQNLRVDGGLTRSV 4o6v-a1-m1-cD_4o6v-a1-m1-cC Crystal Structure of a 3-oxoacyl-[acyl-carrier protein] reductase (EC 1.1.1.100) from Brucella suis B0CL43 B0CL43 1.85 X-RAY DIFFRACTION 107 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 232 235 4o6v-a1-m1-cA_4o6v-a1-m1-cB IQKVAIITAGGSGMGAASARRLAQDGFAVAILSSSGKGEALAKELGGIGVTGSNQSNDDLQKLVDQTLEKWGRIDVLVNSAGHGPRAPILEITDEDWHKGMDTYFLNAVRPARLVVPAMQKQKSGVIINISTAWAFEPSAMFPTSAVFRAGLASFTKIFADTYAAENIRMNNVLPGWIDSLPTTEERRESVPMQRYGKSEEIAATVSFLASDGAAYITGQNLRVDGGLTRSV HMTIQKVAIITAGGSGMGAASARRLAQDGFAVAILSSSGKGEALAKELGGIGVTGSNQSNDDLQKLVDQTLEKWGRIDVLVNSAGHGPRAPILEITDEDWHKGMDTYFLNAVRPARLVVPAMQKQKSGVIINISTAWAFEPSAMFPTSAVFRAGLASFTKIFADTYAAENIRMNNVLPGWIDSLPTTEERRESVPMQRYGKSEEIAATVSFLASDGAAYITGQNLRVDGGLTRSV 4o6x-a3-m2-cB_4o6x-a3-m1-cA Crystal structure of human Ankyrin G death domain Q12955 Q12955 2.103 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 98 ERTDIRMAIVADHLGLSWTELARELNFSVDEINQIRVENPNSLISQSFMLLKKWVTRDGKNATTDALTSVLTKINRIDIVTLLEGPIFDYGRSFA ERTDIRMAIVADHLGLSWTELARELNFSVDEINQIRVENPNSLISQSFMLLKKWVTRDGKNATTDALTSVLTKINRIDIVTLLEGPIFDYGNISRSFA 4o6y-a1-m1-cA_4o6y-a1-m1-cB Crystal Structure of Cytochrome b561 Q9SWS1 Q9SWS1 1.7 X-RAY DIFFRACTION 83 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 210 211 4o79-a1-m1-cA_4o79-a1-m1-cB 4o7g-a1-m1-cA_4o7g-a1-m1-cB PIFMVVRVLGFIIAALVLTWTVHYRGGLALSSDNKDHIFNVHPVMMVIGLILFNGEAMLAYKSVQGTKNLKKLVHLTLQLTAFILSLIGVWAALKFHIDKGIENFYSLHSWLGLACLFLFAFQWAAGFVTYWYPGGSRNSRASLMPWHVFLGISIYALALVTATTGILEKVTFLQVNQVITRYSTEAMLVNTMGVLILILGGFVILGVVT FPIFMVVRVLGFIIAALVLTWTVHYRGGLALSSDNKDHIFNVHPVMMVIGLILFNGEAMLAYKSVQGTKNLKKLVHLTLQLTAFILSLIGVWAALKFHIDKGIENFYSLHSWLGLACLFLFAFQWAAGFVTYWYPGGSRNSRASLMPWHVFLGISIYALALVTATTGILEKVTFLQVNQVITRYSTEAMLVNTMGVLILILGGFVILGVVT 4o6z-a2-m1-cC_4o6z-a2-m1-cD Crystal structure of serine hydroxymethyltransferase with covalently bound PLP Schiff-base from Plasmodium falciparum Q8I566 Q8I566 2.98 X-RAY DIFFRACTION 264 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 441 445 4o6z-a1-m1-cB_4o6z-a1-m1-cA FNNDPLQKYDKELFDLLEKEKNRQIETINLIASENLTNTAVRECLGDRISNKYSEGYPHKRYYGGNDYVDKIEELCYKRALEAFNVSEEEWGVNVQPLSGSAANVQALYALVGVKGKIMGMHLCSGGHLTHGFFDEKKKVSITSDLFESKLYKCNSEGYVDMESVRNLALSFQPKVIICGYTSYPRDIDYKGFREICDEVNAYLFADISHISSFVACNLLNNPFTYADVVTTTTHKILRGPRSALIFFNKKRNPGIDQKINSSVFPSFQGGPHNNKIAAVACQLKEVNTPEFKEYTKQVLLNSKALAECLLKRNLDLVTNGTDNHLIVVDLRKYNITGSKLQETCNAINIALNKNTIPSDVDCVSPSGIRIGTPALTTRGCKEKDMEFIADMLLKAILLTDELQQKYGKKLVDFKKGLVNNPKIDELKKEVVQWAKNLPFA TPGMFNNDPLQKYDKELFDLLEKEKNRQIETINLIASENLTNTAVRECLGDRISNKYSEGYPHKRYYGGNDYVDKIEELCYKRALEAFNVSEEEWGVNVQPLSGSAANVQALYALVGVKGKIMGMHLCSGGHLTHGFFDEKKKVSITSDLFESKLYKCNSEGYVDMESVRNLALSFQPKVIICGYTSYPRDIDYKGFREICDEVNAYLFADISHISSFVACNLLNNPFTYADVVTTTTHKILRGPRSALIFFNKKRNPGIDQKINSSVFPSFQGGPHNNKIAAVACQLKEVNTPEFKEYTKQVLLNSKALAECLLKRNLDLVTNGTDNHLIVVDLRKYNITGSKLQETCNAINIALNKNTIPSDVDCVSPSGIRIGTPALTTRGCKEKDMEFIADMLLKAILLTDELQQKYGKKLVDFKKGLVNNPKIDELKKEVVQWAKNLPFA 4o7h-a1-m1-cB_4o7h-a1-m1-cA Crystal structure of a glutathione S-transferase from Rhodospirillum rubrum F11, Target EFI-507460 1.6 X-RAY DIFFRACTION 68 1.0 1036743 (Rhodospirillum rubrum F11) 1036743 (Rhodospirillum rubrum F11) 220 222 MRRLYHHGLSPAARKVRVALAEKRLDYEAVIEETWIRNESFLAMNPEGEVPVLVEADGLTITDGWAICEYLEEVYPEPSLLGGPAAMRAEVRRLVAWFDRKFNREVTEPLVREKLLKRVISAPDSRQIRAGRANVHTHLRYISWLIDRRRWLAGDMLTYADITAACHLSLIDYAGDVPWEDHPQAKEWYALVKSRPSFRPLLTETISPIRPPRHYADLDF MRRLYHHGLSPAARKVRVALAEKRLDYEAVIEETWIRNESFLAMNPEGEVPVLVEADGLTITDGWAICEYLEEVYPEPSLLGGPAAMRAEVRRLVAWFDRKFNREVTEPLVREKLLKRVISGGAPDSRQIRAGRANVHTHLRYISWLIDRRRWLAGDMLTYADITAACHLSLIDYAGDVPWEDHPQAKEWYALVKSRPSFRPLLTETISPIRPPRHYADLDF 4o7j-a1-m1-cA_4o7j-a1-m1-cB Crystal structure of CarG 1.8 X-RAY DIFFRACTION 121 1.0 104623 (Serratia sp. ATCC 39006) 104623 (Serratia sp. ATCC 39006) 157 158 LTPVTLKNGVNQLDINQDGLKDYVVLAQFDNNTSHPNLGLTFFIHRPDGGYSIMPVTNSSEFTWFDYRLSASADFLVQDNRLFKIKKHYYLVTARKTEEDLFDVGKVSLTIYRFKVSRDDPGVPLYEWSMSKTVTAQRSYQSADEAYQEVDEAMLTR LTPVTLKNGVNQLDINQDGLKDYVVLAQFDNNTSHPNLGLTFFIHRPDGGYSIMPVTNSSEFTWFDYRLSASADFLVQDNRLFKIKKHYYLVTARKTEEDLFDVGKVSLTIYRFKVSRDDPGVPLYEWSMSKTVTAQRSYQSADEAYQEVDEAMLTRH 4o7o-a1-m1-cA_4o7o-a1-m1-cB Crystal structure of Mycobacterium tuberculosis maltose kinase MaK O07177 O07177 2.4006 X-RAY DIFFRACTION 170 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 433 451 4o7p-a1-m1-cA_4o7p-a1-m1-cB TLATKLPWSDWLSRQRWYAGRNRELATVKPGVVVALRHNLDLVLVDVTYTDGATERYQVLVGWDKAAIGVADDRTGFDALYDVAGPQFLLSLIVSSAVCGTSTGEVTFTREPDVELPFAAQPRVCDAEQSNTSVIFDRRAILKVFRRVSSGINPDIELNRVLTRAGNPHVARLLGAYQFGDALAYALGMVTEYEANAAEGWAMATASVRDLFAEGDLYAHEVGGDFAGESYRLGEAVASVHATLADSLGTAQATFPVDRMLARLSSTVAVVPELREYAPTIEQQFQKLAAEAITVQRVHGDLHLGQVLRTPESWLLIDFEGEPGQPLDERRAPDSPLRDVAGVLRSFEYAAYGPLVDQATDKQLAARAREWVERNRAAFCDGYAVASGIDPRDSALLLGAYELDKAVYETGYETRHRPGWLPIPLRSIARLTA DTLATKLPWSDWLSRQRWYAGRNRELATVKPGVVVALRHNLDLVLVDVTYTDGATERYQVLVGWDFEPASEYGTKAAIGVADDRTGFDALYDVAGPQFLLSLIVSSAVCGTSTGEVTFTREPDVELPFAAQPRVCDAEQSNTSVIFDRRAILKVFRRVSSGINPDIELNRVLTRAGNPHVARLLGAYQFGRPNRSPTDALAYALGMVTEYEANAAEGWAMATASVRDLFAEGDLYAHEVGGDFAGESYRLGEAVASVHATLADSLGTAQATFPVDRMLARLSSTVAVVPELREYAPTIEQQFQKLAAEAITVQRVHGDLHLGQVLRTPESWLLIDFEGEPGQPLDERRAPDSPLRDVAGVLRSFEYAAYGPLVDQATDKQLAARAREWVERNRAAFCDGYAVASGIDPRDSALLLGAYELDKAVYETGYETRHRPGWLPIPLRSIARLTAS 4o87-a3-m1-cA_4o87-a3-m2-cB Crystal structure of a N-tagged Nuclease Q707V3 Q707V3 1.8 X-RAY DIFFRACTION 52 0.997 28986 (Millerozyma acaciae) 28986 (Millerozyma acaciae) 318 319 4o88-a2-m2-cB_4o88-a2-m1-cA SMNPTTCLNEGAIGYMAIDILQSQNIETITINDNEYKLNKFNNIKDYISKVWGAASVYNLDLGNDYTKWQSSLDNVETDNIKNYINGHDNVYYNPGGKNKYLIIEASKELKWKGNLNNNKFNVNLKSIFSNAENLKVGHSDLLKLFSSIVNSKGSDNQKKVLNSLLDNINDRRLKKLVSTGQWTEAISDSVANEIAKNNKLTSIKAQLGSQKTQNVMIDANGHDLLKIDYDKTFVTANDLKNKIIDKNKLENAKNYFKIQNNDKILEDIKSKFSKNINENIKGSIRDHAKLIEFTENKKFNTINDNSDSKIKSITCKV SMNPTTCLNEGAIGYMAIDILQSQNIETITINDNEYKLNKFNNIKDYISKVWGAASVYNLDLGNDYTKWQSSLDNVETDNIKNYINGHDNVYYNPGGKNKYLIIEASKELKWKGNLNNNKFNVNLKSIFSNAENLKVGHSDLLKLFSSIVNSKGSDNQKKVLNSLLDNINDRRLKKLVSTGQWTEAISDSVANEIAKNNKLTSIKAQLGSQKTQNVMIDANGHDLLKIDYDKTFVTANDLKNKIIDKNKLENAKNYFKIQNNDKILEDIKSKFSKNINENIKGSIRDHAKLIEFTENKKFNTINDNSNSDSKIKSITCK 4o87-a3-m1-cB_4o87-a3-m2-cB Crystal structure of a N-tagged Nuclease Q707V3 Q707V3 1.8 X-RAY DIFFRACTION 48 1.0 28986 (Millerozyma acaciae) 28986 (Millerozyma acaciae) 319 319 4o87-a3-m1-cA_4o87-a3-m2-cA 4o88-a2-m1-cA_4o88-a2-m2-cA 4o88-a2-m1-cB_4o88-a2-m2-cB SMNPTTCLNEGAIGYMAIDILQSQNIETITINDNEYKLNKFNNIKDYISKVWGAASVYNLDLGNDYTKWQSSLDNVETDNIKNYINGHDNVYYNPGGKNKYLIIEASKELKWKGNLNNNKFNVNLKSIFSNAENLKVGHSDLLKLFSSIVNSKGSDNQKKVLNSLLDNINDRRLKKLVSTGQWTEAISDSVANEIAKNNKLTSIKAQLGSQKTQNVMIDANGHDLLKIDYDKTFVTANDLKNKIIDKNKLENAKNYFKIQNNDKILEDIKSKFSKNINENIKGSIRDHAKLIEFTENKKFNTINDNSNSDSKIKSITCK SMNPTTCLNEGAIGYMAIDILQSQNIETITINDNEYKLNKFNNIKDYISKVWGAASVYNLDLGNDYTKWQSSLDNVETDNIKNYINGHDNVYYNPGGKNKYLIIEASKELKWKGNLNNNKFNVNLKSIFSNAENLKVGHSDLLKLFSSIVNSKGSDNQKKVLNSLLDNINDRRLKKLVSTGQWTEAISDSVANEIAKNNKLTSIKAQLGSQKTQNVMIDANGHDLLKIDYDKTFVTANDLKNKIIDKNKLENAKNYFKIQNNDKILEDIKSKFSKNINENIKGSIRDHAKLIEFTENKKFNTINDNSNSDSKIKSITCK 4o8b-a1-m1-cA_4o8b-a1-m2-cA Crystal structure of transcriptional regulator BswR Q9I063 Q9I063 2.3 X-RAY DIFFRACTION 100 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 101 101 MLGTRLKAARIRAGYSQKQLGMLVGMDEFSASARMNQYERERHSPNMRTSEQLAMVLQVPMAYLYCPEDELAELILKVSSLTPEFKKELTRFIEQLLAAQG MLGTRLKAARIRAGYSQKQLGMLVGMDEFSASARMNQYERERHSPNMRTSEQLAMVLQVPMAYLYCPEDELAELILKVSSLTPEFKKELTRFIEQLLAAQG 4o8f-a1-m1-cB_4o8f-a1-m1-cA Crystal Structure of the complex between PPARgamma mutant R357A and rosiglitazone P37231 P37231 2.6 X-RAY DIFFRACTION 11 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 249 252 ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLAKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIHPLLQEIYKDLY ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTSPFVIYDMNSLMMGEDTPLEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLAKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTELHPLLQEIYKDLY 4o8l-a1-m1-cB_4o8l-a1-m1-cA Structure of sortase A from Streptococcus pneumoniae Q8DPM3 Q8DPM3 2.7 X-RAY DIFFRACTION 381 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 155 168 LPVIGGIAIPELEMNLPIFKGLDNVNLFYGAGTMKREQVMGEGNYSLASHHIFGVDNANKMLFSPLDNAKNGMKIYLTDKNKVYAYEIREVKRVTPDRVDEVDDRDGVNEITLVTEDLAATERIIVKGDLKETKDYSQTSDEILTAFNQPYKQFY HMVLTSQWDAQKLPVIGGIAIPELEMNLPIFKGLDNVNLFYGAGTMKREQVMGEGNYSLASHHIFGVDNANKMLFSPLDNAKNGMKIYLTDKNKVYAYEIREVKRVTPDRVDEVDDRDGVNEITLVTCEDLAATERIIVKGDLKETKDYSQTSDEILTAFNQPYKQFY 4o8t-a1-m1-cB_4o8t-a1-m1-cA Structure of sortase A C207A mutant from Streptococcus pneumoniae Q8DPM3 Q8DPM3 2.48 X-RAY DIFFRACTION 413 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 157 173 4o8l-a2-m1-cD_4o8l-a2-m1-cC 4o8t-a2-m1-cD_4o8t-a2-m1-cC 4o8t-a3-m1-cE_4o8t-a3-m1-cF 5dv0-a2-m1-cA_5dv0-a2-m2-cA KLPVIGGIAIPELEMNLPIFKGLDNVNLFYGAGTMKREQVMGEGNYSLASHHIFGVDNANKMLFSPLDNAKNGMKIYLTDKNKVYAYEIREVKRVTPDRVDEVDDRDGVNEITLVTAEDLAATERIIVKGDLKETKDYSQTSDEILTAFNQPYKQFY VPRGSHMVLTSQWDAQKLPVIGGIAIPELEMNLPIFKGLDNVNLFYGAGTMKREQVMGEGNYSLASHHIFGVDNANKMLFSPLDNAKNGMKIYLTDKNKVYAYEIREVKRVTPDRVDEVDDRDGVNEITLVTAEDLAATERIIVKGDLKETKDYSQTSDEILTAFNQPYKQFY 4o8u-a2-m1-cD_4o8u-a2-m1-cF Structure of PF2046 Q8TZE9 Q8TZE9 2.345 X-RAY DIFFRACTION 49 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 224 224 4o8u-a1-m1-cA_4o8u-a1-m1-cB 4o8u-a1-m1-cA_4o8u-a1-m1-cE 4o8u-a1-m1-cB_4o8u-a1-m1-cE 4o8u-a2-m1-cC_4o8u-a2-m1-cD 4o8u-a2-m1-cC_4o8u-a2-m1-cF SRIVAADTGGAVLDETFEPIGLIATVAVLVEKPYRSAKEVVKYANPYDYDLTGRQAIRDEVLLAIELARKVKPDVIHLDSTLGGIELRKLDEPTIDALGISDKGKEVWKELSKDLQPLARKFWEETNIEIVAIGKSSVPVRIAEIYAGIYSAKWGIENVEKEGHLIIGLPRYEVNIKDGKIIGRSLDPREGGLYGSAEVSVPEGVKWEIYPNPVARRFIFEIFS SRIVAADTGGAVLDETFEPIGLIATVAVLVEKPYRSAKEVVKYANPYDYDLTGRQAIRDEVLLAIELARKVKPDVIHLDSTLGGIELRKLDEPTIDALGISDKGKEVWKELSKDLQPLARKFWEETNIEIVAIGKSSVPVRIAEIYAGIYSAKWGIENVEKEGHLIIGLPRYEVNIKDGKIIGRSLDPREGGLYGSAEVSVPEGVKWEIYPNPVARRFIFEIFS 4o8w-a1-m1-cA_4o8w-a1-m1-cC Crystal Structure of the GerD spore germination protein Q5L3Q1 Q5L3Q1 2.293 X-RAY DIFFRACTION 105 0.982 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 110 113 AVKETLQQMLTSDQGKKFWESALKDPKFAESFAKGLQAEHEKMMRALMKDPDYQALMIDILKDPEMEKAMVDVLKSKEFRQHLQKVITETLNSPLYQAKIQDMLMKAAEK VIDQKAVKETLQQMLTSDQGKKFWESALKDPKFAESFAKGLQAEHEKMMRALMKDPDYQALMIDILKDPEMEKAMVDVLKSKEFRQHLQKVITETLNSPLYQAKIQDMLMKAA 4o8w-a2-m1-cE_4o8w-a2-m1-cD Crystal Structure of the GerD spore germination protein Q5L3Q1 Q5L3Q1 2.293 X-RAY DIFFRACTION 135 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 115 120 4o8w-a1-m1-cC_4o8w-a1-m1-cB QQLVIDQKAVKETLQQMLTSDQGKKFWESALKDPKFAESFAKGLQAEHEKMMRALMKDPDYQALMIDILKDPEMEKAMVDVLKSKEFRQHLQKVITETLNSPLYQAKIQDMLMKA KQQLVIDQKAVKETLQQMLTSDQGKKFWESALKDPKFAESFAKGLQAEHEKMMRALMKDPDYQALMIDILKDPEMEKAMVDVLKSKEFRQHLQKVITETLNSPLYQAKIQDMLMKAAEKV 4o8w-a2-m1-cF_4o8w-a2-m1-cD Crystal Structure of the GerD spore germination protein Q5L3Q1 Q5L3Q1 2.293 X-RAY DIFFRACTION 136 0.991 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 115 120 4o8w-a1-m1-cA_4o8w-a1-m1-cB DQKAVKETLQQMLTSDQGKKFWESALKDPKFAESFAKGLQAEHEKMMRALMKDPDYQALMIDILKDPEMEKAMVDVLKSKEFRQHLQKVITETLNSPLYQAKIQDMLMKAAEKVQ KQQLVIDQKAVKETLQQMLTSDQGKKFWESALKDPKFAESFAKGLQAEHEKMMRALMKDPDYQALMIDILKDPEMEKAMVDVLKSKEFRQHLQKVITETLNSPLYQAKIQDMLMKAAEKV 4o91-a2-m2-cA_4o91-a2-m4-cA Crystal Structure of type II inhibitor NG25 bound to TAK1-TAB1 Q15750 Q15750 2.393 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 4o91-a2-m1-cA_4o91-a2-m3-cA SLHMIDYKEIEVEEVVGRGAFGVVCKAKWRAKDVAIKQIESESERKAFIVELRQLSRVNHPNIVKLYGACLNPVCLVMEYAEGGSLYNVLHGAEPLPYYTAAHAMSWCLQCSQGVAYLHSMQPKALIHRDLKPPNLLLVAGGTVLKICDFGGSAAWMAPEVFEGSNYSEKCDVFSWGIILWEVITRRKPFDEIGGPAFRIMWAVHNGTRPPLIKNLPKPIESLMTRCWSKDPSQRPSMEEIVKIMTHLMRYFPGADEPLQYPCQHSLPPGEDGRVEPYVDFAEFYRLWSVDHG SLHMIDYKEIEVEEVVGRGAFGVVCKAKWRAKDVAIKQIESESERKAFIVELRQLSRVNHPNIVKLYGACLNPVCLVMEYAEGGSLYNVLHGAEPLPYYTAAHAMSWCLQCSQGVAYLHSMQPKALIHRDLKPPNLLLVAGGTVLKICDFGGSAAWMAPEVFEGSNYSEKCDVFSWGIILWEVITRRKPFDEIGGPAFRIMWAVHNGTRPPLIKNLPKPIESLMTRCWSKDPSQRPSMEEIVKIMTHLMRYFPGADEPLQYPCQHSLPPGEDGRVEPYVDFAEFYRLWSVDHG 4o91-a2-m3-cA_4o91-a2-m4-cA Crystal Structure of type II inhibitor NG25 bound to TAK1-TAB1 Q15750 Q15750 2.393 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 4o91-a2-m1-cA_4o91-a2-m2-cA SLHMIDYKEIEVEEVVGRGAFGVVCKAKWRAKDVAIKQIESESERKAFIVELRQLSRVNHPNIVKLYGACLNPVCLVMEYAEGGSLYNVLHGAEPLPYYTAAHAMSWCLQCSQGVAYLHSMQPKALIHRDLKPPNLLLVAGGTVLKICDFGGSAAWMAPEVFEGSNYSEKCDVFSWGIILWEVITRRKPFDEIGGPAFRIMWAVHNGTRPPLIKNLPKPIESLMTRCWSKDPSQRPSMEEIVKIMTHLMRYFPGADEPLQYPCQHSLPPGEDGRVEPYVDFAEFYRLWSVDHG SLHMIDYKEIEVEEVVGRGAFGVVCKAKWRAKDVAIKQIESESERKAFIVELRQLSRVNHPNIVKLYGACLNPVCLVMEYAEGGSLYNVLHGAEPLPYYTAAHAMSWCLQCSQGVAYLHSMQPKALIHRDLKPPNLLLVAGGTVLKICDFGGSAAWMAPEVFEGSNYSEKCDVFSWGIILWEVITRRKPFDEIGGPAFRIMWAVHNGTRPPLIKNLPKPIESLMTRCWSKDPSQRPSMEEIVKIMTHLMRYFPGADEPLQYPCQHSLPPGEDGRVEPYVDFAEFYRLWSVDHG 4o92-a2-m1-cA_4o92-a2-m2-cA Crystal structure of a Glutathione S-transferase from Pichia kudriavzevii (Issatchenkia orientalis), target EFI-501747 Q9Y727 Q9Y727 2.51 X-RAY DIFFRACTION 69 1.0 4909 (Pichia kudriavzevii) 4909 (Pichia kudriavzevii) 193 193 TFGTLYILPPSPRSAWLPKLAKYLGLEINVKSLEVEDFKSKFPLGKAPAFEGSDGFRLTETLAIIKYFIDSSSKPEFAGSSLKEKALNEKWLSFANSDLCGAVGVWFCKDESKKPELVSKLNSLLQYIDNELNNSKFLVGDSVLVADILLYVTLQHIVEIGVDISSFSHLKKYSEEVAKHELLAEAENLYFQG TFGTLYILPPSPRSAWLPKLAKYLGLEINVKSLEVEDFKSKFPLGKAPAFEGSDGFRLTETLAIIKYFIDSSSKPEFAGSSLKEKALNEKWLSFANSDLCGAVGVWFCKDESKKPELVSKLNSLLQYIDNELNNSKFLVGDSVLVADILLYVTLQHIVEIGVDISSFSHLKKYSEEVAKHELLAEAENLYFQG 4o93-a3-m1-cC_4o93-a3-m1-cA Crystal structure of Thermus thermophilis transhydrogeanse domain II dimer Q72GR9 Q72GR9 2.77 X-RAY DIFFRACTION 33 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 90 94 4o9u-a1-m1-cC_4o9u-a1-m1-cA 5uni-a2-m1-cA_5uni-a2-m2-cA MEFGFWSALYIFVLTCFLGYELITRVPVILHTPLMSGSNFIHGVVVVGAMVVLGHAETGLEKLIGFLGVILGAANAAGGYAVTVRMLEMF MEFGFWSALYIFVLTCFLGYELITRVPVILHTPLMSGSNFIHGVVVVGAMVVLGHAETGLEKLIGFLGVILGAANAAGGYAVTVRMLEMFERKP 4o98-a1-m1-cA_4o98-a1-m1-cB Crystal structure of Pseudomonas oleovorans PoOPH mutant H250I/I263W A0A0B4J186 A0A0B4J186 2.251 X-RAY DIFFRACTION 127 1.0 301 (Pseudomonas oleovorans) 301 (Pseudomonas oleovorans) 306 307 APAQQKTQVPGYYRMALGDFEVTALYDGYVDLPASLLKGIDDKDLQSLLARMFVASEKGVQTAVNAYLINTGDNLVLIDTGAAQCFGPTLGVVQTNLKASGYQPEQVDTVLLTHLHPDHACGLVNADGSPAYPNATVEVPQAEAEFWLDEATMAKAPEGMQGMFKMARQAVAPYAKMNKLKPYKTEGELLPGVSLVASSGHTPGHTSYLFKSGGQSLLVWGDILINHAVQFAKPEVVWEFDVDSDQARQSRQRILAEAATDKLWVAGAHLPFPGLGHVREEAQGYAWVPVEFSPIRSDRKLAAALE APAQQKTQVPGYYRMALGDFEVTALYDGYVDLPASLLKGIDDKDLQSLLARMFVASEKGVQTAVNAYLINTGDNLVLIDTGAAQCFGPTLGVVQTNLKASGYQPEQVDTVLLTHLHPDHACGLVNADGSPAYPNATVEVPQAEAEFWLDEATMAKAPEGMQGMFKMARQAVAPYAKMNKLKPYKTEGELLPGVSLVASSGHTPGHTSYLFKSGGQSLLVWGDILINHAVQFAKPEVVWEFDVDSDQARQSRQRILAEAATDKLWVAGAHLPFPGLGHVREEAQGYAWVPVEFSPIRSDRKLAAALEH 4o9b-a2-m1-cB_4o9b-a2-m1-cC The Structure of CC1-IH in human STIM1. Q13586 Q13586 2.604 X-RAY DIFFRACTION 58 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 90 92 DLEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKELE LMKDLEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKEL 4o9b-a4-m1-cD_4o9b-a4-m3-cC The Structure of CC1-IH in human STIM1. Q13586 Q13586 2.604 X-RAY DIFFRACTION 65 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 89 92 4o9b-a3-m1-cA_4o9b-a3-m2-cB LEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKELE LMKDLEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKEL 4o9b-a5-m1-cA_4o9b-a5-m1-cD The Structure of CC1-IH in human STIM1. Q13586 Q13586 2.604 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 4o9b-a1-m1-cA_4o9b-a1-m1-cD LEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKELE LEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKELE 4o9b-a5-m1-cD_4o9b-a5-m3-cB The Structure of CC1-IH in human STIM1. Q13586 Q13586 2.604 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 90 4o9b-a5-m1-cA_4o9b-a5-m2-cC LEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKELE DLEGLHRAEQSLHDLQERLHKAQEEHRTVEVEKVHLEKKLRDEINLAKQEAQRLKELREGTENERSRQKYAEEEMEQVREALRKAEKELE 4o9g-a1-m1-cA_4o9g-a1-m1-cB Crystal structure of the H51N mutant of the 3,4-ketoisomerase QdtA from Thermoanaerobacterium thermosaccharolyticum in complex with TDP-4-keto-6-deoxyglucose Q6TFC5 Q6TFC5 1.9 X-RAY DIFFRACTION 112 1.0 1517 (Thermoanaerobacterium thermosaccharolyticum) 1517 (Thermoanaerobacterium thermosaccharolyticum) 138 138 4o9e-a1-m1-cA_4o9e-a1-m1-cB 4zu5-a1-m1-cB_4zu5-a1-m1-cA 4zu7-a1-m1-cA_4zu7-a1-m1-cB 4zu7-a2-m1-cD_4zu7-a2-m1-cC 4zu7-a3-m1-cE_4zu7-a3-m1-cF 4zu7-a4-m1-cG_4zu7-a4-m1-cH MLYNVALIKFKDIADKYGHLTPIEGKIDIPFDIKRVYYITKVDKDITRGYNSHKKLHQVLICLNGSVKIRLKIPDEEKIIELNDPSVGLYIGPLVWREMFDFTEGCVLLVLASEYYDETDYIRNYDFYIDEAKKRFLE MLYNVALIKFKDIADKYGHLTPIEGKIDIPFDIKRVYYITKVDKDITRGYNSHKKLHQVLICLNGSVKIRLKIPDEEKIIELNDPSVGLYIGPLVWREMFDFTEGCVLLVLASEYYDETDYIRNYDFYIDEAKKRFLE 4o9k-a1-m1-cB_4o9k-a1-m1-cA Crystal structure of the CBS pair of a putative D-arabinose 5-phosphate isomerase from Methylococcus capsulatus in complex with CMP-Kdo Q60AU8 Q60AU8 1.85 X-RAY DIFFRACTION 57 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 122 124 RLLTFVRDIHTGDDTPVIGLEASVRDALLETAKKLGTAIVDGAGTIQGVFTDGDLRRLLEKAQDIHATPITAVTRSCVTVEGSLLAAEAVRIEQKRINALPVVENGRLIGAINHDLLRAGVL GRRLLTFVRDIHTGDDTPVIGLEASVRDALLETAKKLGTAIVDGAGTIQGVFTDGDLRRLLEKAQDIHATPITAVTRSCVTVEGSLLAAEAVRIEQKRINALPVVENGRLIGAINHDLLRAGVL 4o9s-a3-m2-cB_4o9s-a3-m1-cA Crystal structure of Retinol-Binding Protein 4 (RBP4)in complex with a non-retinoid ligand P02753 P02753 2.3 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 175 ERDCRVSSFRVKENFDKARFSGTWYAMAKKDPEGLFLQDNIVAEFSVDETGQMSATAKGRVRLLNNWDVCADMVGTFTDTEDPAKFKMKYWGVASFLQKGNDDHWIVDTDYDTYAVQYSCRLLNLDGTCADSYSFVFSRDPNGLPPEAQKIVRQRQEELCLARQYRLIVHNGYC ERDCRVSSFRVKENFDKARFSGTWYAMAKKDPEGLFLQDNIVAEFSVDETGQMSATAKGRVRLLNNWDVCADMVGTFTDTEDPAKFKMKYWGVASFLQKGNDDHWIVDTDYDTYAVQYSCRLLNLDGTCADSYSFVFSRDPNGLPPEAQKIVRQRQEELCLARQYRLIVHNGYCD 4o9u-a1-m1-cD_4o9u-a1-m1-cB Mechanism of transhydrogenase coupling proton translocation and hydride transfer Q72GS0 Q72GS0 6.926 X-RAY DIFFRACTION 10 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 437 440 MDLIQAAYFVVAILFIVGLKRMAHPTTAKSGIVWAGWGMVLAVLATFFWPGMGNFALILLALLLGSVVAWWAAVRVAMTDMPQMVAIYNGMGGGAAATIAAVELLKGAFENTGLMALAILGGLIGSVAFTGSLIAFAKLQGIMKSRPILFPGQKAVNALVLALTVVIGLSLLWNDATASIVLFFLLALLFGVLMTLPIGGGDMPVAISFYNAFTGMAVGFEGFAVGNPALMVAGTLVGAAGTLLTVLMARAMNRSVWSVLKGSLKPIDVEDAAVMLAYAGKVVFVPGYGMALSQAQHKLKELADLLEARGVEVKFAIHPVAGRMPGHMNVLLAEAGVDYDKLKDLEEINPEFPTVDVAVVIGANDVVNPAARRPGSPLYGMPILDVDKAKNVIVIKRGQGKGFAGVENELFYAENTRMLYGDAQKVLTELIQALKRL MDLIQAAYFVVAILFIVGLKRMAHPTTAKSGIVWAGWGMVLAVLATFFWPGMGNFALILLALLLGSVVAWWAAVRVAMTDMPQMVAIYNGMGGGAAATIAAVELLKGAFENTGLMALAILGGLIGSVAFTGSLIAFAKLQGIMKSRPILFPGQKAVNALVLALTVVIGLSLLWNDATASIVLFFLLALLFGVLMTLPIGGGDMPVAISFYNAFTGMAVGFEGFAVGNPALMVAGTLVGAAGTLLTVLMARAMNRSVWSVLVGGKGSLKPIDVEDAAVMLAYAGKVVFVPGYGMALSQAQHKLKELADLLEARGVEVKFAIHPVAGRMPGHMNVLLAEAGVDYDKLKDLEEINPEFPTVDVAVVIGANDVVNPAARRPGSPLYGMPILDVDKAKNVIVIKRGQGKGFAGVENELFYAENTRMLYGDAQKVLTELIQALKRL 4oaa-a1-m1-cA_4oaa-a1-m1-cB Crystal structure of E. coli lactose permease G46W,G262W bound to sugar 3.5 X-RAY DIFFRACTION 39 1.0 316385 (Escherichia coli str. K-12 substr. DH10B) 316385 (Escherichia coli str. K-12 substr. DH10B) 391 391 LKNTNFWMFGLFFFFYFFIMGAYFPFFPIWLHDINHISKSDTWIIFAAISLFSLLFQPLFGLLSDKLGLRKYLLWIITGMLVMFAPFFIFIFGPLLQYNILVGSIVGGIYLGFCFNAGAPAVEAFIEKVSRRSNFEFGRARMFGCVGWALCASIVGIMFTINNQFVFWLGSGCALILAVLLFFAKTDAFSLKLALELFRQPKLWFLSLYVIGVSCTYDVFDQQFANFFTSFFATGEQGTRVFWYVTTMGELLNASIMFFAPLIINRIGGKNALLLAGTIMSVRIIGSSFATSALEVVILKTLHMFEVPFLLVGCFKYITSQFEVRFSATIYLVCFCFFKQLAMIFMSVLAGNMYESIGFQGAYLVLGLVALGFTLISVFTLSGPGPLSLLR LKNTNFWMFGLFFFFYFFIMGAYFPFFPIWLHDINHISKSDTWIIFAAISLFSLLFQPLFGLLSDKLGLRKYLLWIITGMLVMFAPFFIFIFGPLLQYNILVGSIVGGIYLGFCFNAGAPAVEAFIEKVSRRSNFEFGRARMFGCVGWALCASIVGIMFTINNQFVFWLGSGCALILAVLLFFAKTDAFSLKLALELFRQPKLWFLSLYVIGVSCTYDVFDQQFANFFTSFFATGEQGTRVFWYVTTMGELLNASIMFFAPLIINRIGGKNALLLAGTIMSVRIIGSSFATSALEVVILKTLHMFEVPFLLVGCFKYITSQFEVRFSATIYLVCFCFFKQLAMIFMSVLAGNMYESIGFQGAYLVLGLVALGFTLISVFTLSGPGPLSLLR 4oaq-a1-m1-cA_4oaq-a1-m1-cB Crystal structure of the R-specific Carbonyl Reductase from Candida parapsilosis ATCC 7330 M4VRJ6 M4VRJ6 1.858 X-RAY DIFFRACTION 109 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 365 365 7c2o-a1-m1-cA_7c2o-a1-m1-cB KAVPDKFQGFAVSDPKNWNRPKLASYERKQINPHDVVLKNEVCGLCYSDIHTLSAGWQPLQRDNLVVGHEIIGEVIAVGDEVTEFKVGDRVGIGAASSSCRSCQRCDSDNEQYCKQGAATYNSKDVRSNNYVTQGGYSSHSIADEKFVFAIPEDLPSSYGAPLMCAGITVFSPLIRNLGLDARGKNVGIIGIGGLGHLALQFANAMGANVTAFSRSSSKKEQAMKLGAHDFVATGEDKTWYKNYDDHFDFILNCASGIDGLNLSEYLSTLKVDKKFVSVGLPPSEDKFEVSPFTFLQQGASFGSSLLGSKTEVKEMLNLAAKHNVRPMIEEVPISEENCAKALDRCHAGDVRYRFVFTDFDKAFA KAVPDKFQGFAVSDPKNWNRPKLASYERKQINPHDVVLKNEVCGLCYSDIHTLSAGWQPLQRDNLVVGHEIIGEVIAVGDEVTEFKVGDRVGIGAASSSCRSCQRCDSDNEQYCKQGAATYNSKDVRSNNYVTQGGYSSHSIADEKFVFAIPEDLPSSYGAPLMCAGITVFSPLIRNLGLDARGKNVGIIGIGGLGHLALQFANAMGANVTAFSRSSSKKEQAMKLGAHDFVATGEDKTWYKNYDDHFDFILNCASGIDGLNLSEYLSTLKVDKKFVSVGLPPSEDKFEVSPFTFLQQGASFGSSLLGSKTEVKEMLNLAAKHNVRPMIEEVPISEENCAKALDRCHAGDVRYRFVFTDFDKAFA 4oav-a1-m1-cB_4oav-a1-m1-cD Complete human RNase L in complex with 2-5A (5'-ppp heptamer), AMPPCP and RNA substrate. Q05823 Q05823 2.1 X-RAY DIFFRACTION 133 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 673 674 4oau-a1-m1-cC_4oau-a1-m2-cC EDNHLLIKAVQNEDVDLVQQLLEGGANVNFQEEEGGWTPLHNAVQMSREDIVELLLRHGADPVLRKKNGATPFILAAIAGSVKLLKLFLSKGADVNECDFYGFTAFMEAAVYGKVKALKFLYKRGANVNLRRKTKEDQERLRKGGATALMDAAEKGHVEVLKILLDEMGADVNACDNMGRNALIHALLSSDDSDVEAITHLLLDHGADVNVRGERGKTPLILAVEKKHLGLVQRLLEQEHIEINDTDSDGKTALLLAVELKLKKIAELLCKRGASTDCGDLVMTARRNYDHSLVKVLLSHGAKEWKPQSSHWGAALKDLHRIYRPMIGKLKFFIDEKYKIADTSEGGIYLGFYEKQEVAVKTFCEGSPRAQREVSCLQSSRENSHLVTFYGSESHRGHLFVCVTLCEQTLEACLDVEEDEFARNVLSSIFKAVQELHLSCGYTHQDLQPQNILIDSKKAAHLADFDKSIKWAGDPQEVKRDLEDLGRLVLYVVKKGSISFEDLKAQSNEEVVQLSPDEETKDLIHRLFHPGEHVRDCLSDLLGHPFFWTWESRYRTLRNVGNESDIKTRKSESEILRLLQPGPSEHSKSFDKWTTKINECVMKKMNKFYEKRGNFYQNTVGDLLKFIRNLGENIDKMKLKIGDPSLYFQKTFPDLVIYVYTKLQNTEYRKHFP NHLLIKAVQNEDVDLVQQLLEGGANVNFQEEEGGWTPLHNAVQMSREDIVELLLRHGADPVLRKKNGATPFILAAIAGSVKLLKLFLSKGADVNECDFYGFTAFMEAAVYGKVKALKFLYKRGANVNLRRKTKEDQERLRKGGATALMDAAEKGHVEVLKILLDEMGADVNACDNMGRNALIHALLSSDDSDVEAITHLLLDHGADVNVRGERGKTPLILAVEKKHLGLVQRLLEQEHIEINDTDSDGKTALLLAVELKLKKIAELLCKRGASTDCGDLVMTARRNYDHSLVKVLLSHGAKEWKPQSSHWGAALKDLHRIYRPMIGKLKFFIDEKYKIADTSEGGIYLGFYEKQEVAVKTFCEGSPRAQREVSCLQSSRENSHLVTFYGSESHRGHLFVCVTLCEQTLEACLDVNEEDEFARNVLSSIFKAVQELHLSCGYTHQDLQPQNILIDSKKAAHLADFDKSIKWAGDPQEVKRDLEDLGRLVLYVVKKGSISFEDLKAQSNEEVVQLSPDEETKDLIHRLFHPGEHVRDCLSDLLGHPFFWTWESRYRTLRNVGNESDIKTRKSESEILRLLQPGPSEHSKSFDKWTTKINECVMKKMNKFYEKRGNFYQNTVGDLLKFIRNLGENIDEMKLKIGDPSLYFQKTFPDLVIYVYTKLQNTEYRKHFPQT 4ob4-a5-m1-cB_4ob4-a5-m2-cB Structure of the S. venezulae BldD DNA-binding domain Q7AKQ8 Q7AKQ8 2.8 X-RAY DIFFRACTION 39 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 69 69 4ob4-a4-m1-cC_4ob4-a4-m1-cA SEYAKQLGAKLRAIRTQQGLSLHGVEEKSQGRWKAVVVGSYERGDRAVTVQRLAELADFYGVPVQELLP SEYAKQLGAKLRAIRTQQGLSLHGVEEKSQGRWKAVVVGSYERGDRAVTVQRLAELADFYGVPVQELLP 4ob7-a1-m1-cA_4ob7-a1-m2-cA Crystal structure of esterase rPPE mutant W187H L7PYQ2 L7PYQ2 1.65 X-RAY DIFFRACTION 82 1.0 657346 (Pseudomonas sp. ECU1011) 657346 (Pseudomonas sp. ECU1011) 319 319 4ob6-a1-m1-cA_4ob6-a1-m2-cA SGSPGVEQHTQAFLEALEQGGGKPLEQLSPKDARAVLTGAQASVKVDLSGIEVKERTIQANGQSIKLQVVRPANVKGELPVFMFFHGGGWVLGDFPTHQRLIRDLVVGSGAVAVYVDYTPSPESHYPTAINQAYAATQWVAEHGKEIGVDGKRLAVAGNSVGGNMAAVVALKAKEAGTPALRFQLLLHPVTDASFETASYKQFADGHFLTTGMMKWFWDNYTTDAKAREQIYASPLRASSEQLKGLPPALVQTAEFDVLRDEGEAYARKLNAAGVTVTSVRYNGMIHDYGLLNPLSQVPAVKAAMRQAGTELKVHLQLE SGSPGVEQHTQAFLEALEQGGGKPLEQLSPKDARAVLTGAQASVKVDLSGIEVKERTIQANGQSIKLQVVRPANVKGELPVFMFFHGGGWVLGDFPTHQRLIRDLVVGSGAVAVYVDYTPSPESHYPTAINQAYAATQWVAEHGKEIGVDGKRLAVAGNSVGGNMAAVVALKAKEAGTPALRFQLLLHPVTDASFETASYKQFADGHFLTTGMMKWFWDNYTTDAKAREQIYASPLRASSEQLKGLPPALVQTAEFDVLRDEGEAYARKLNAAGVTVTSVRYNGMIHDYGLLNPLSQVPAVKAAMRQAGTELKVHLQLE 4ob8-a1-m1-cA_4ob8-a1-m2-cA Crystal structure of a novel thermostable esterase from Pseudomonas putida ECU1011 L7PYQ2 L7PYQ2 1.801 X-RAY DIFFRACTION 48 1.0 657346 (Pseudomonas sp. ECU1011) 657346 (Pseudomonas sp. ECU1011) 319 319 4ou4-a1-m1-cA_4ou4-a1-m2-cA 4ou5-a1-m1-cA_4ou5-a1-m2-cA SGSPGVEQHTQAFLEALEQGGGKPLEQLSPKDARAVLTGAQASVKVDLSGIEVKERTIQANGQSIKLQVVRPANVKGELPVFMFFHGGGWVLGDFPTHQRLIRDLVVGSGAVAVYVDYTPSPESHYPTAINQAYAATQWVAEHGKEIGVDGKRLAVAGNSVGGNMAAVVALKAKEAGTPALRFQLLLWPVTDASFETASYKQFADGHFLTTGMMKWFWDNYTTDAKAREQIYASPLRASSEQLKGLPPALVQTAEFDVLRDEGEAYARKLNAAGVTVTSVRYNGMIHDYGLLNPLSQVPAVKAAMRQAGTELKVHLQLE SGSPGVEQHTQAFLEALEQGGGKPLEQLSPKDARAVLTGAQASVKVDLSGIEVKERTIQANGQSIKLQVVRPANVKGELPVFMFFHGGGWVLGDFPTHQRLIRDLVVGSGAVAVYVDYTPSPESHYPTAINQAYAATQWVAEHGKEIGVDGKRLAVAGNSVGGNMAAVVALKAKEAGTPALRFQLLLWPVTDASFETASYKQFADGHFLTTGMMKWFWDNYTTDAKAREQIYASPLRASSEQLKGLPPALVQTAEFDVLRDEGEAYARKLNAAGVTVTSVRYNGMIHDYGLLNPLSQVPAVKAAMRQAGTELKVHLQLE 4obu-a4-m1-cB_4obu-a4-m1-cC Ruminococcus gnavus tryptophan decarboxylase RUMGNA_01526 (apo) A7B1V0 A7B1V0 2.804 X-RAY DIFFRACTION 421 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 462 462 4obu-a1-m1-cE_4obu-a1-m1-cH 4obu-a2-m1-cA_4obu-a2-m2-cU 4obu-a3-m1-cF_4obu-a3-m3-cG 4obv-a1-m1-cD_4obv-a1-m1-cB 4obv-a2-m1-cA_4obv-a2-m1-cC TEYILNSTQLEEAIKSFVHDFCAEKHEIHDQPVVVEAKEHQEDKIKQIKIPEKGRPVNEVVSEMMNEVYRYRGDANHPRFFSFVPGPASSVSWLGDIMTSAYNIHAGGSKLAPMVNCIEQEVLKWLAKQVGFTENPGGVFVSGGSMANITALTAARDNKLTDINLHLGTAYISDQTHSSVAKGLRIIGITDSRIRRIPTNSHFQMDTTKLEEAIETDKKSGYIPFVVIGTAGTTNTGSIDPLTEISALCKKHDMWFHIDGAYGASVLLSPKYKSLLTGTGLADSISWDAHKWLFQTYGCAMVLVKDIRNLFHSFHVNPEYLDIGMELTRPARGLKLWLTLQVLGSDLIGSAIEHGFQLAVWAEEALNPKKDWEIVSPAQMAMINFRYAPKDLTKEEQDILNEKISHRILESGYAAIFTTVLNGKTVLRICAIHPEATQEDMQHTIDLLDQYGREIYTEMKKA TEYILNSTQLEEAIKSFVHDFCAEKHEIHDQPVVVEAKEHQEDKIKQIKIPEKGRPVNEVVSEMMNEVYRYRGDANHPRFFSFVPGPASSVSWLGDIMTSAYNIHAGGSKLAPMVNCIEQEVLKWLAKQVGFTENPGGVFVSGGSMANITALTAARDNKLTDINLHLGTAYISDQTHSSVAKGLRIIGITDSRIRRIPTNSHFQMDTTKLEEAIETDKKSGYIPFVVIGTAGTTNTGSIDPLTEISALCKKHDMWFHIDGAYGASVLLSPKYKSLLTGTGLADSISWDAHKWLFQTYGCAMVLVKDIRNLFHSFHVNPEYLDIGMELTRPARGLKLWLTLQVLGSDLIGSAIEHGFQLAVWAEEALNPKKDWEIVSPAQMAMINFRYAPKDLTKEEQDILNEKISHRILESGYAAIFTTVLNGKTVLRICAIHPEATQEDMQHTIDLLDQYGREIYTEMKKA 4obx-a1-m1-cA_4obx-a1-m1-cB Crystal structure of yeast Coq5 in the apo form P49017 P49017 2.2 X-RAY DIFFRACTION 63 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 235 235 4obw-a1-m1-cB_4obw-a1-m1-cA 4obw-a2-m1-cC_4obw-a2-m1-cD 4obx-a2-m1-cC_4obx-a2-m1-cD SVANRYDLMNDVMSLGIHRLWKDHFINKLDAGKRPNSTTPLNFIDVAGGSGDIAFGLLDHAESKFGDTESTMDIVDINPDMLKEGEKRAMEQGKYFKDPRVRFLVSNGEKLEEIDSDSKDIYTVSFGIRNFTDIQKGLNTAYRVLKPGGIFYCLEFSKIENPLMDFAYQQWAKVLPVMGSMIANDYDSYQYLVESIERFPDQETFKSMIEKAGFKSAGYESLTFGICAIHWGIKV SVANRYDLMNDVMSLGIHRLWKDHFINKLDAGKRPNSTTPLNFIDVAGGSGDIAFGLLDHAESKFGDTESTMDIVDINPDMLKEGEKRAMEQGKYFKDPRVRFLVSNGEKLEEIDSDSKDIYTVSFGIRNFTDIQKGLNTAYRVLKPGGIFYCLEFSKIENPLMDFAYQQWAKVLPVMGSMIANDYDSYQYLVESIERFPDQETFKSMIEKAGFKSAGYESLTFGICAIHWGIKV 4oc8-a1-m1-cA_4oc8-a1-m1-cB DNA modification-dependent restriction endonuclease AspBHI A1K2B7 A1K2B7 2.884 X-RAY DIFFRACTION 224 1.0 387 387 TFFTGETLGQVDLIVDAVYAGYKTERGGMADPLVPLVGVSRQGGFRYRGTRERPTLLVLTSNLAEPEWPDQLDETTGTFIYYGDNRHPGRLLHDTPRFGNQLLRQIFDWAHLGQRHLVPPILVFTTEATGRTFRFRGLAVPGSPALAATEDLVALWKTTEGQRFQNYKAVFTILDEAVIPRAWVHAVGRGETSGLAPVAWNAWLSAGGIRPLMAPRSLLVRSKAEQLPATPEDQALIEVIRQRYKENPFGFEACAGALTRLLLPDVARLDLTRPWRDGGRDGIGRLRIGQSPAAIEVDFALEAKCYGANNAVGVKEVSRLISRIKHREFGVLVTTSYVDRQAYQEVTDDGHPVILTTAQDIVGLLRSAGVRTPTQVDAWLDGITASV TFFTGETLGQVDLIVDAVYAGYKTERGGMADPLVPLVGVSRQGGFRYRGTRERPTLLVLTSNLAEPEWPDQLDETTGTFIYYGDNRHPGRLLHDTPRFGNQLLRQIFDWAHLGQRHLVPPILVFTTEATGRTFRFRGLAVPGSPALAATEDLVALWKTTEGQRFQNYKAVFTILDEAVIPRAWVHAVGRGETSGLAPVAWNAWLSAGGIRPLMAPRSLLVRSKAEQLPATPEDQALIEVIRQRYKENPFGFEACAGALTRLLLPDVARLDLTRPWRDGGRDGIGRLRIGQSPAAIEVDFALEAKCYGANNAVGVKEVSRLISRIKHREFGVLVTTSYVDRQAYQEVTDDGHPVILTTAQDIVGLLRSAGVRTPTQVDAWLDGITASV 4oc8-a1-m1-cD_4oc8-a1-m1-cA DNA modification-dependent restriction endonuclease AspBHI A1K2B7 A1K2B7 2.884 X-RAY DIFFRACTION 38 1.0 215 387 4oc8-a1-m1-cC_4oc8-a1-m1-cB TFFTGETLGQVDLIVDAVYAGYKTERGGMADPLVPLVGVSRQGGFRYRGTRERPTLLVLTSNLAEPEWPDQLDETTGTFIYYGDNRHPGRLLHDTPRFGNQLLRQIFDWAHLGQRHLVPPILVFTTEATGRTFRFRGLAVPGSPALAATEDLVALWKTTEGQRFQNYKAVFTILDEAVIPRAWVHAVGRGETSGLAPVAWNAWLSAGGIRPLMAP TFFTGETLGQVDLIVDAVYAGYKTERGGMADPLVPLVGVSRQGGFRYRGTRERPTLLVLTSNLAEPEWPDQLDETTGTFIYYGDNRHPGRLLHDTPRFGNQLLRQIFDWAHLGQRHLVPPILVFTTEATGRTFRFRGLAVPGSPALAATEDLVALWKTTEGQRFQNYKAVFTILDEAVIPRAWVHAVGRGETSGLAPVAWNAWLSAGGIRPLMAPRSLLVRSKAEQLPATPEDQALIEVIRQRYKENPFGFEACAGALTRLLLPDVARLDLTRPWRDGGRDGIGRLRIGQSPAAIEVDFALEAKCYGANNAVGVKEVSRLISRIKHREFGVLVTTSYVDRQAYQEVTDDGHPVILTTAQDIVGLLRSAGVRTPTQVDAWLDGITASV 4oc8-a1-m1-cD_4oc8-a1-m1-cB DNA modification-dependent restriction endonuclease AspBHI A1K2B7 A1K2B7 2.884 X-RAY DIFFRACTION 25 1.0 215 387 4oc8-a1-m1-cC_4oc8-a1-m1-cA TFFTGETLGQVDLIVDAVYAGYKTERGGMADPLVPLVGVSRQGGFRYRGTRERPTLLVLTSNLAEPEWPDQLDETTGTFIYYGDNRHPGRLLHDTPRFGNQLLRQIFDWAHLGQRHLVPPILVFTTEATGRTFRFRGLAVPGSPALAATEDLVALWKTTEGQRFQNYKAVFTILDEAVIPRAWVHAVGRGETSGLAPVAWNAWLSAGGIRPLMAP TFFTGETLGQVDLIVDAVYAGYKTERGGMADPLVPLVGVSRQGGFRYRGTRERPTLLVLTSNLAEPEWPDQLDETTGTFIYYGDNRHPGRLLHDTPRFGNQLLRQIFDWAHLGQRHLVPPILVFTTEATGRTFRFRGLAVPGSPALAATEDLVALWKTTEGQRFQNYKAVFTILDEAVIPRAWVHAVGRGETSGLAPVAWNAWLSAGGIRPLMAPRSLLVRSKAEQLPATPEDQALIEVIRQRYKENPFGFEACAGALTRLLLPDVARLDLTRPWRDGGRDGIGRLRIGQSPAAIEVDFALEAKCYGANNAVGVKEVSRLISRIKHREFGVLVTTSYVDRQAYQEVTDDGHPVILTTAQDIVGLLRSAGVRTPTQVDAWLDGITASV 4ocg-a2-m2-cA_4ocg-a2-m3-cB Structure of the Shewanella loihica PV-4 NADH-dependent persulfide reductase F161A Mutant A3QAV3 A3QAV3 2.75 X-RAY DIFFRACTION 57 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 565 565 4ocg-a2-m1-cA_4ocg-a2-m2-cB 4ocg-a2-m1-cB_4ocg-a2-m3-cA MKKILIIGGVAGGASAAARARRLSETAEIIMFERGEYVSFANCGLPYHISGEIAQRSALVLQTPESFKARFNVEVRVKHEVVAIDRAAKLVTVRRLLDGSEYQESYDTLLLSPGAAPIVPPIPGVDNPLTHSLRNIPDMDRILQTIQMNNVEHATVVGGGAIGLEMMESLHHLGIKTTLLELADQVMTPVDREMAGFAHQAIRDQGVDLRLGTALSEVSYQVQTHVASDAAGEDTAHQHIKGHLSLTLSNGELLETDLLIMAIGVRPETQLARDAGLAIGELGGIKVNAMMQTSDPAIYAVGDAVEEQDFVTGQACLVPLAGPANRQGRMAADNMFGREERYQGTQGTAICKVFDLAVGATGKNEKQLKQAGIAFEKVYVHTASHASYYPGAEVVSFKLLFDPVKGTIFGAQAVGKDGIDKRIDVMAVAQRAGMTVEQLQHLELSYAPPYGSAKDVINQAAFVASNIIKGDATPIHFDQIDNLSEDQLLLDVRNPGELQNGGLEGAVNIPVDELRDRMHELPKDKEIIIFCQVGLRGNVAYRQLVNNGYRARNLIGGYRTYKFAS MKKILIIGGVAGGASAAARARRLSETAEIIMFERGEYVSFANCGLPYHISGEIAQRSALVLQTPESFKARFNVEVRVKHEVVAIDRAAKLVTVRRLLDGSEYQESYDTLLLSPGAAPIVPPIPGVDNPLTHSLRNIPDMDRILQTIQMNNVEHATVVGGGAIGLEMMESLHHLGIKTTLLELADQVMTPVDREMAGFAHQAIRDQGVDLRLGTALSEVSYQVQTHVASDAAGEDTAHQHIKGHLSLTLSNGELLETDLLIMAIGVRPETQLARDAGLAIGELGGIKVNAMMQTSDPAIYAVGDAVEEQDFVTGQACLVPLAGPANRQGRMAADNMFGREERYQGTQGTAICKVFDLAVGATGKNEKQLKQAGIAFEKVYVHTASHASYYPGAEVVSFKLLFDPVKGTIFGAQAVGKDGIDKRIDVMAVAQRAGMTVEQLQHLELSYAPPYGSAKDVINQAAFVASNIIKGDATPIHFDQIDNLSEDQLLLDVRNPGELQNGGLEGAVNIPVDELRDRMHELPKDKEIIIFCQVGLRGNVAYRQLVNNGYRARNLIGGYRTYKFAS 4ocg-a2-m2-cB_4ocg-a2-m3-cB Structure of the Shewanella loihica PV-4 NADH-dependent persulfide reductase F161A Mutant A3QAV3 A3QAV3 2.75 X-RAY DIFFRACTION 27 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 565 565 4ocg-a2-m1-cA_4ocg-a2-m2-cA 4ocg-a2-m1-cA_4ocg-a2-m3-cA 4ocg-a2-m1-cB_4ocg-a2-m2-cB 4ocg-a2-m1-cB_4ocg-a2-m3-cB 4ocg-a2-m2-cA_4ocg-a2-m3-cA MKKILIIGGVAGGASAAARARRLSETAEIIMFERGEYVSFANCGLPYHISGEIAQRSALVLQTPESFKARFNVEVRVKHEVVAIDRAAKLVTVRRLLDGSEYQESYDTLLLSPGAAPIVPPIPGVDNPLTHSLRNIPDMDRILQTIQMNNVEHATVVGGGAIGLEMMESLHHLGIKTTLLELADQVMTPVDREMAGFAHQAIRDQGVDLRLGTALSEVSYQVQTHVASDAAGEDTAHQHIKGHLSLTLSNGELLETDLLIMAIGVRPETQLARDAGLAIGELGGIKVNAMMQTSDPAIYAVGDAVEEQDFVTGQACLVPLAGPANRQGRMAADNMFGREERYQGTQGTAICKVFDLAVGATGKNEKQLKQAGIAFEKVYVHTASHASYYPGAEVVSFKLLFDPVKGTIFGAQAVGKDGIDKRIDVMAVAQRAGMTVEQLQHLELSYAPPYGSAKDVINQAAFVASNIIKGDATPIHFDQIDNLSEDQLLLDVRNPGELQNGGLEGAVNIPVDELRDRMHELPKDKEIIIFCQVGLRGNVAYRQLVNNGYRARNLIGGYRTYKFAS MKKILIIGGVAGGASAAARARRLSETAEIIMFERGEYVSFANCGLPYHISGEIAQRSALVLQTPESFKARFNVEVRVKHEVVAIDRAAKLVTVRRLLDGSEYQESYDTLLLSPGAAPIVPPIPGVDNPLTHSLRNIPDMDRILQTIQMNNVEHATVVGGGAIGLEMMESLHHLGIKTTLLELADQVMTPVDREMAGFAHQAIRDQGVDLRLGTALSEVSYQVQTHVASDAAGEDTAHQHIKGHLSLTLSNGELLETDLLIMAIGVRPETQLARDAGLAIGELGGIKVNAMMQTSDPAIYAVGDAVEEQDFVTGQACLVPLAGPANRQGRMAADNMFGREERYQGTQGTAICKVFDLAVGATGKNEKQLKQAGIAFEKVYVHTASHASYYPGAEVVSFKLLFDPVKGTIFGAQAVGKDGIDKRIDVMAVAQRAGMTVEQLQHLELSYAPPYGSAKDVINQAAFVASNIIKGDATPIHFDQIDNLSEDQLLLDVRNPGELQNGGLEGAVNIPVDELRDRMHELPKDKEIIIFCQVGLRGNVAYRQLVNNGYRARNLIGGYRTYKFAS 4oci-a1-m1-cA_4oci-a1-m2-cA Crystal Structure of Calcium Binding Protein-5 from Entamoeba histolytica and its involvement in initiation of phagocytosis of human erythrocytes N9UIU7 N9UIU7 2.009 X-RAY DIFFRACTION 66 1.0 885318 (Entamoeba histolytica HM-1:IMSS-A) 885318 (Entamoeba histolytica HM-1:IMSS-A) 135 135 LKESFLLFDGDGDGYLTLNEFESLVRVLGVVETSAIASTYNSNSKVRGSYELFTSCFSQLKTKSFNKDEIKTAINVLDKDKKGFIPAIELRRILSTIGDNEQKEITDLFTFGIDEQGVVKVDDFINQDNHHHHHH LKESFLLFDGDGDGYLTLNEFESLVRVLGVVETSAIASTYNSNSKVRGSYELFTSCFSQLKTKSFNKDEIKTAINVLDKDKKGFIPAIELRRILSTIGDNEQKEITDLFTFGIDEQGVVKVDDFINQDNHHHHHH 4odc-a1-m1-cB_4odc-a1-m2-cB Crystal structure of Trematomus bernacchii hemoglobin in a partially cyanided state P80044 P80044 1.54 X-RAY DIFFRACTION 26 1.0 40690 (Trematomus bernacchii) 40690 (Trematomus bernacchii) 146 146 1pbx-a1-m1-cB_1pbx-a1-m2-cB 1t1n-a1-m1-cB_1t1n-a1-m2-cB 2peg-a1-m1-cB_2peg-a1-m2-cB 3gkv-a1-m1-cB_3gkv-a1-m2-cB VEWTDKERSIISDIFSHMDYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAIIGNANVAAHGIKVLHGLDRGVKNMDNIAATYADLSTLHSEKLHVDPDNFKLLSDCITIVLAAKMGHAFTAETQGAFQKFLAVVVSALGKQYH VEWTDKERSIISDIFSHMDYDDIGPKALSRCLIVYPWTQRHFSGFGNLYNAEAIIGNANVAAHGIKVLHGLDRGVKNMDNIAATYADLSTLHSEKLHVDPDNFKLLSDCITIVLAAKMGHAFTAETQGAFQKFLAVVVSALGKQYH 4odi-a1-m1-cD_4odi-a1-m1-cB 2.6 Angstrom Crystal Structure of Putative Phosphoglycerate Mutase 1 from Toxoplasma gondii S8GJT7 S8GJT7 2.6 X-RAY DIFFRACTION 38 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 232 245 4odi-a1-m1-cC_4odi-a1-m1-cA AKYTLVLIRHGESTWNKENRFTGWTDVPLSPVGEQEAVEAAKALKEKGFEFDVAYTSVLQRAVVTCWTVLKGTDMCHIPVKSSWRLNERHYGALQGLNKAETAAKHGDEQVKIWRRSYDIPPPPLEKSDKRWPGNDAVYKMVPNEALPLTECLKDTVERVLPFWFDHIAPSIMEGKRVLVAAHGNSLRGLVKHLDKMSDEAVLELNIPTGVPLVYELDEDLQPVRHYYLLDE AKAKYTLVLIRHGESTWNKENRFTGWTDVPLSPVGEQEAVEAAKALKEKGFEFDVAYTSVLQRAVVTCWTVLKGTDMCHIPVKSSWRLNERHYGALQGLNKAETAAKHGDEQVKIWRRSYDIPPPPLEKSDKRWPGNDAVYKMVPNEALPLTECLKDTVERVLPFWFDHIAPSIMEGKRVLVAAHGNSLRGLVKHLDKMSDEAVLELNIPTGVPLVYELDEDLQPVRHYYLLDEAELKAKMEAVA 4odi-a1-m1-cD_4odi-a1-m1-cC 2.6 Angstrom Crystal Structure of Putative Phosphoglycerate Mutase 1 from Toxoplasma gondii S8GJT7 S8GJT7 2.6 X-RAY DIFFRACTION 35 1.0 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 232 243 4odi-a1-m1-cB_4odi-a1-m1-cA AKYTLVLIRHGESTWNKENRFTGWTDVPLSPVGEQEAVEAAKALKEKGFEFDVAYTSVLQRAVVTCWTVLKGTDMCHIPVKSSWRLNERHYGALQGLNKAETAAKHGDEQVKIWRRSYDIPPPPLEKSDKRWPGNDAVYKMVPNEALPLTECLKDTVERVLPFWFDHIAPSIMEGKRVLVAAHGNSLRGLVKHLDKMSDEAVLELNIPTGVPLVYELDEDLQPVRHYYLLDE AKAKYTLVLIRHGESTWNKENRFTGWTDVPLSPVGEQEAVEAAKALKEKGFEFDVAYTSVLQRAVVTCWTVLKGTDMCHIPVKSSWRLNERHYGALQGLNKAETAAKHGDEQVKIWRRSYDIPPPPLEKSDKRWPGNDAVYKMVPNEALPLTECLKDTVERVLPFWFDHIAPSIMEGKRVLVAAHGNSLRGLVKHLDKMSDEAVLELNIPTGVPLVYELDEDLQPVRHYYLLDEAELKAKMEA 4oe5-a2-m1-cD_4oe5-a2-m1-cC Structure of Human ALDH4A1 Crystallized in Space Group P21 P30038 P30038 1.95 X-RAY DIFFRACTION 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 507 520 3v9g-a1-m1-cA_3v9g-a1-m1-cB 3v9i-a1-m1-cB_3v9i-a1-m1-cA 4oe5-a1-m1-cA_4oe5-a1-m1-cB RWKHTSSLKVANEPVLAFTQGSPERDALQKALKDLKGRMEAIPCVVGDEEVWTSDVQYQVSPFNHGHKVAKFCYADKSLLNKAIEAALAARKEWDLKPIADRAQIFLKAADMLSGPRRAEILAKTMVGQGKTVIQAEIDAAAELIDFFRFNAKYAVELEGQQPISVPPSTNSTVYRGLEGFVAAISPFNFTAIGGNLAGAPALMGNVVLWKPSDTAMLASYAVYRILREAGLPPNIIQFVPADGPLFGDTVTSSEHLCGINFTGSVPTFKHLWKQVAQNLDRFHTFPRLAGECGGKNFHFVHRSADVESVVSGTLRSAFEYGGQKCSACSRLYVPHSLWPQIKGRLLEEHSRIKVGDPAEDFGTFFSAVIDAKSFARIKKWLEHARSSPSLTILAGGKCDDSVGYFVEPCIVESKDPQEPIMKEEIFGPVLSVYVYPDDKYKETLQLVDSTTSYGLTGAVFSQDKDVVQEATKVLRNAAGNFYINDKSTGSHYILRWTSPQVIKETH RWKHTSSLKVANEPVLAFTQGSPERDALQKALKDLKGRMEAIPCVVGDEEVWTSDVQYQVSPFNHGHKVAKFCYADKSLLNKAIEAALAARKEWDLKPIADRAQIFLKAADMLSGPRRAEILAKTMVGQGKTVIQAEIDAAAELIDFFRFNAKYAVELEGQQPISVPPSTNSTVYRGLEGFVAAISPFNFTAIGGNLAGAPALMGNVVLWKPSDTAMLASYAVYRILREAGLPPNIIQFVPADGPLFGDTVTSSEHLCGINFTGSVPTFKHLWKQVAQNLDRFHTFPRLAGECGGKNFHFVHRSADVESVVSGTLRSAFEYGGQKCSACSRLYVPHSLWPQIKGRLLEEHSRIKVGDPAEDFGTFFSAVIDAKSFARIKKWLEHARSSPSLTILAGGKCDDSVGYFVEPCIVESKDPQEPIMKEEIFGPVLSVYVYPDDKYKETLQLVDSTTSYGLTGAVFSQDKDVVQEATKVLRNAAGNFYINDKSTGSARASGTNDKPGGPHYILRWTSPQVIKETH 4oel-a2-m2-cA_4oel-a2-m4-cA Crystal structure of Cathepsin C in complex with dipeptide substrates P53634 P53634 1.4 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 281 4oel-a2-m1-cA_4oel-a2-m3-cA DTPANCTYLDLLGTWVFQVGSSGSQRDVNCSVMGPQEKKVVVYLQKLDTAYDDLGNSGHFTIIYNQGFEIVLNDYKWFAFFKYKEEGSKVTTYCNETMTGWVHDVLGRNWACFTGKKVLHLPTSWDWRNVHGINFVSPVRNQASCGSCYSFASMGMLEARIRILTNNSQTPILSPQEVVSCSQYAQGCEGGFPYLIAGKYAQDFGLVEEACFPYTGTDSPCKMKEDCFRYYSSEYHYVGGFYGGCNEALMKLELVHHGPMAVAFEVYDDFLHYKKGIYHHT DTPANCTYLDLLGTWVFQVGSSGSQRDVNCSVMGPQEKKVVVYLQKLDTAYDDLGNSGHFTIIYNQGFEIVLNDYKWFAFFKYKEEGSKVTTYCNETMTGWVHDVLGRNWACFTGKKVLHLPTSWDWRNVHGINFVSPVRNQASCGSCYSFASMGMLEARIRILTNNSQTPILSPQEVVSCSQYAQGCEGGFPYLIAGKYAQDFGLVEEACFPYTGTDSPCKMKEDCFRYYSSEYHYVGGFYGGCNEALMKLELVHHGPMAVAFEVYDDFLHYKKGIYHHT 4oem-a1-m1-cA_4oem-a1-m2-cA Crystal structure of Cathepsin C in complex with dipeptide substrates P53634 P53634 1.52 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 280 280 3pdf-a1-m1-cA_3pdf-a1-m2-cA 3pdf-a1-m3-cA_3pdf-a1-m4-cA 4oel-a1-m1-cA_4oel-a1-m2-cA 4oel-a2-m1-cA_4oel-a2-m2-cA 4oel-a2-m3-cA_4oel-a2-m4-cA DTPANCTYLDLLGTWVFQVGSSGSQRDVNCSVMGPQEKKVVVYLQKLDTAYDDLGNSGHFTIIYNQGFEIVLNDYKWFAFFKYKEEGSKVTTYCNETMTGWVHDVLGRNWACFTGKKVHLPTSWDWRNVHGINFVSPVRNQASCGSCYSFASMGMLEARIRILTNNSQTPILSPQEVVSCSQYAQGCEGGFPYLIAGKYAQDFGLVEEACFPYTGTDSPCKMKEDCFRYYSSEYHYVGGFYGGCNEALMKLELVHHGPMAVAFEVYDDFLHYKKGIYHHT DTPANCTYLDLLGTWVFQVGSSGSQRDVNCSVMGPQEKKVVVYLQKLDTAYDDLGNSGHFTIIYNQGFEIVLNDYKWFAFFKYKEEGSKVTTYCNETMTGWVHDVLGRNWACFTGKKVHLPTSWDWRNVHGINFVSPVRNQASCGSCYSFASMGMLEARIRILTNNSQTPILSPQEVVSCSQYAQGCEGGFPYLIAGKYAQDFGLVEEACFPYTGTDSPCKMKEDCFRYYSSEYHYVGGFYGGCNEALMKLELVHHGPMAVAFEVYDDFLHYKKGIYHHT 4oeo-a5-m1-cB_4oeo-a5-m3-cC High resolution crystal structure of the unliganded ZO-1 PDZ1 domain Q07157 Q07157 1.9 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 4oeo-a4-m1-cA_4oeo-a4-m2-cA MIWEQHTVTLHRAPGFGFGIAISGGRDNPHFQSGETSIVISDVLKGGPAEGQLQENDRVAMVNGVSMDNVEHAFAVQQLRKSGKNAKITIRRKK MIWEQHTVTLHRAPGFGFGIAISGGRDNPHFQSGETSIVISDVLKGGPAEGQLQENDRVAMVNGVSMDNVEHAFAVQQLRKSGKNAKITIRRKK 4of8-a2-m1-cB_4of8-a2-m1-cC Crystal Structure of Rst D1-D2 Q08180 Q08180 1.902 X-RAY DIFFRACTION 53 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 209 210 4of8-a1-m1-cD_4of8-a1-m1-cA QNQRFAMEPQDQTAVVGARVTLPCRVINKQGTLQWTKDDFGLGTSRDLSGFERYAMVGSDEEGDYSLDIYPVMLDDDARYQCQVSPGPEGQPAIRSTFAGLTVLVPPEAPKITQGDVIYATEDRKVEIECVSVGGKPAAEITWIDGLGNVLTDNIEYTVIPLPDQRRFTAKSVLRLTPKKEHHNTNFSCQAQNTADRTYRSAKIRVEVK YQNQRFAMEPQDQTAVVGARVTLPCRVINKQGTLQWTKDDFGLGTSRDLSGFERYAMVGSDEEGDYSLDIYPVMLDDDARYQCQVSPGPEGQPAIRSTFAGLTVLVPPEAPKITQGDVIYATEDRKVEIECVSVGGKPAAEITWIDGLGNVLTDNIEYTVIPLPDQRRFTAKSVLRLTPKKEHHNTNFSCQAQNTADRTYRSAKIRVEVK 4ofd-a1-m1-cA_4ofd-a1-m1-cB Crystal Structure of mouse Neph1 D1-D2 Q80W68 Q80W68 3.94 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 190 197 QTRFSQEPADQTVVAGQRAVLPCVLLNYSGIVQWTKDGLALGLKAWPRYRVVGSADAGQYNLEITDAELSDDASYECQATEAALRSRRAKLTVLIPPEETRIDGGPVILPYNLTCRAFNAKPAATIIWFRDGTQQEGAVTSTELLKDGKRETTISQLLIEPTDLDIGRVFTCRSMNEAIPNGKETSIELD TQTRFSQEPADQTVVAGQRAVLPCVLLNYSGIVQWTKDGLALGMGQGLKAWPRYRVVGSADAGQYNLEITDAELSDDASYECQATEAALRSRRAKLTVLIPPEETRIDGGPVILLPYNLTCRAFNAKPAATIIWFRDGTQQEGAVTSTELLKDGKRETTISQLLIEPTDLDIGRVFTCRSMNEAIPNGKETSIELDV 4ofi-a4-m1-cH_4ofi-a4-m1-cG Crystal Structure of Duf (Kirre) D1 Q9W4T9 Q9W4T9 2.3 X-RAY DIFFRACTION 47 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 105 106 4ofi-a1-m1-cA_4ofi-a1-m1-cB 4ofi-a2-m1-cD_4ofi-a2-m1-cC 4ofi-a3-m1-cE_4ofi-a3-m1-cF GQHFAMEPQDQTAVVGSRVTLPCRVMEKVGALQWTKDDFGLGQHRNLSGFERYSMVGSDEEGDFSLDIYPLMLDDDAKYQCQVGPGPQGEQGIRSRFAKLTVLVP GQHFAMEPQDQTAVVGSRVTLPCRVMEKVGALQWTKDDFGLGQHRNLSGFERYSMVGSDEEGDFSLDIYPLMLDDDAKYQCQVGPGPQGEQGIRSRFAKLTVLVPH 4ofm-a2-m1-cC_4ofm-a2-m1-cD Triclinic NaGST1 D3U1A5 D3U1A5 2.64 X-RAY DIFFRACTION 73 1.0 51031 (Necator americanus) 51031 (Necator americanus) 206 206 2on7-a1-m1-cA_2on7-a1-m1-cD 2on7-a2-m1-cB_2on7-a2-m1-cC 4ofm-a1-m1-cA_4ofm-a1-m1-cB 4ofn-a1-m1-cB_4ofn-a1-m1-cA 4oft-a1-m1-cA_4oft-a1-m1-cB MVHYKLTYFAIRGAGECARQIFALADQEFEDVRLDKEQFAKVKPDLPFGQVPVLEVDGKQLAQSLAICRYLARQFGFAGKSTFDEAVVDSLADQYSDYRVEIKSFFYTVIGMREGDVEQLKKEVLLPARDKFFGFITKFLKKSPSGFLVGDSLTWVDLLVSEHNATMLTFVPEFLEGYPEVKEHMEKIRAIPKLKKWIETRPETLF MVHYKLTYFAIRGAGECARQIFALADQEFEDVRLDKEQFAKVKPDLPFGQVPVLEVDGKQLAQSLAICRYLARQFGFAGKSTFDEAVVDSLADQYSDYRVEIKSFFYTVIGMREGDVEQLKKEVLLPARDKFFGFITKFLKKSPSGFLVGDSLTWVDLLVSEHNATMLTFVPEFLEGYPEVKEHMEKIRAIPKLKKWIETRPETLF 4ofx-a1-m1-cA_4ofx-a1-m2-cA Crystal Structure of a Putative Cystathionine beta-Synthase from Coxiella burnetii Q83A84 Q83A84 1.74 X-RAY DIFFRACTION 145 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 288 288 MVLDNILQVIGKTPVVRLHRIGQSLPCELYGKCEFLNPGGSVKDRIGAAMIESAEKQGKIKPGDTLIEPTSGNTGIGIALAGAVKGYRVIITMPEKMSHEKQVVLEALGATIYRTPESHISLAKRLNQEIPNSYILDQYSNAENPDIHYQTTGQEILDDMGENLSMVVMGVGTGGTIIGVAKKLKEVNPSIQIIGVDPIGSILGGGDNNLIDEYIKINDKDSFLMARRLIREEGLLVGGSSGSAVWAACQAAQRLKEGERCLVILPDAIRNYLTKFVDDAWMKAQGFL MVLDNILQVIGKTPVVRLHRIGQSLPCELYGKCEFLNPGGSVKDRIGAAMIESAEKQGKIKPGDTLIEPTSGNTGIGIALAGAVKGYRVIITMPEKMSHEKQVVLEALGATIYRTPESHISLAKRLNQEIPNSYILDQYSNAENPDIHYQTTGQEILDDMGENLSMVVMGVGTGGTIIGVAKKLKEVNPSIQIIGVDPIGSILGGGDNNLIDEYIKINDKDSFLMARRLIREEGLLVGGSSGSAVWAACQAAQRLKEGERCLVILPDAIRNYLTKFVDDAWMKAQGFL 4og1-a1-m2-cA_4og1-a1-m3-cA Crystal Structure of a Putative Enoyl-CoA Hydratase from Novosphingobium aromaticivorans DSM 12444 Q2GB23 Q2GB23 2.05 X-RAY DIFFRACTION 126 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 257 257 4og1-a1-m1-cA_4og1-a1-m2-cA 4og1-a1-m1-cA_4og1-a1-m3-cA MPNMNFHDRVSVTIEDHVAHVLLDRADKMNALDDAMFEGIVAAGHHLHSVKGVRCVVLSGAGRSFCAGLDLSSLTERTHGNANRAQQAAMVWRKLPMPVIAAVHGVCFGGGLQVASGADIRFITPDARLAVMEVKWGLVPDMAGYALWRGNVRDDVLRELTYTHREFSGEEAVRFGFATHVADDPLAGAMELARVVAEKSPNAVRGAKTLSNRAPDLTVDDVLMAESIAQHELMYSRNQMEAVKAGMEKRAGDFVDP MPNMNFHDRVSVTIEDHVAHVLLDRADKMNALDDAMFEGIVAAGHHLHSVKGVRCVVLSGAGRSFCAGLDLSSLTERTHGNANRAQQAAMVWRKLPMPVIAAVHGVCFGGGLQVASGADIRFITPDARLAVMEVKWGLVPDMAGYALWRGNVRDDVLRELTYTHREFSGEEAVRFGFATHVADDPLAGAMELARVVAEKSPNAVRGAKTLSNRAPDLTVDDVLMAESIAQHELMYSRNQMEAVKAGMEKRAGDFVDP 4ogz-a3-m2-cA_4ogz-a3-m1-cB Crystal structure of a putative alpha-galactosidase/melibiase (BF4189) from Bacteroides fragilis NCTC 9343 at 2.00 A resolution Q5L7T7 Q5L7T7 2 X-RAY DIFFRACTION 76 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 451 456 AIFEGKPCINPPHVVGNYPATPFLFYIPTSGERPIKWHAENLPKGLKLDKETGIIKGKVVEKGTYKVLKAENALGTDTQELLINIGDELLLTPPGWNSWNTFGRHLTEELLLQTADAVENGRDLGYAYINIDDFWQLPERGADGHIQIDKTKFPRGIKYVADYLHERGFKLGIYSDAADKTCGGVCGSYGYEEIDARDFASWGVDLLKYDYCNAPAGRVEAERYEKGRALRATDRSIVFSICEWGQREPWKWAKKVGGHLWRVSGDIGDLWNRGLRGILNILEINAPLSEYARPGGWNDPDLVVGIGGKSKSIGYESEGCTNEQYQSHFALWCASPLLCGNDVRQNDSTLQILLNKDLIAINQDPLGIQAERAIRADHYDVWVKPLSDGSKAIACLNRISGPVDVELNVKTVEGLSLDRVYDVIEGSLVAEASTGWVVKLAPGECKVFICK SEVRTAIFEGKPCINPPHVVGNYPATPFLFYIPTSGERPIKWHAENLPKGLKLDKETGIIKGKVVEKGTYKVLKAENALGTDTQELLINIGDELLLTPPGWNSWNTFGRHLTEELLLQTADAVENGRDLGYAYINIDDFWQLPERGADGHIQIDKTKFPRGIKYVADYLHERGFKLGIYSDAADKTCGGVCGSYGYEEIDARDFASWGVDLLKYDYCNAPAGRVEAERYEKGRALRATDRSIVFSICEWGQREPWKWAKKVGGHLWRVSGDIGDLWNRGLRGILNILEINAPLSEYARPGGWNDPDLVVGIGGKSKSIGYESEGCTNEQYQSHFALWCASPLLCGNDVRQNDSTLQILLNKDLIAINQDPLGIQAERAIRADHYDVWVKPLSDGSKAIACLNRISGPVDVELNVKTVEGLSLDRVYDVIEGSLVAEASTGWVVKLAPGECKVFICK 4oh1-a1-m1-cA_4oh1-a1-m4-cA Crystal structure of a putative zinc-binding dehydrogenase (gutB) from Clostridium scindens ATCC 35704 at 2.00 A resolution B0NC68 B0NC68 2 X-RAY DIFFRACTION 106 1.0 411468 ([Clostridium] scindens ATCC 35704) 411468 ([Clostridium] scindens ATCC 35704) 330 330 4oh1-a1-m2-cA_4oh1-a1-m3-cA GRQLFVTSIRDFEKNTGTVDEAPPEPKDEEIRIKVVYASIGSDTHILTGNLGEESTTRSLPSFGHELSGVIDKVGSTAEKGFKVGQKVVANYAKYCGCCENCREGKVNLCSNGYRNGFSEYAVYHSQIFPIPDDADLKDYALVEPLTVALSSAEQAKISYGKSVAIGAGGLGLVQLARLAGASTITVFDIVPEKLELALENGADYALNSAEEGVAERAIELAGGRYDCVLEGTGATAAAKLGLQLLARDGDAVYFAYGKDPILPVNLQSDLYWDQKHIHGIQGAWQFPKSIRIPRDFSKIIQKEHTLTNYKQAFEDLYSKKYAKIVIKDE GRQLFVTSIRDFEKNTGTVDEAPPEPKDEEIRIKVVYASIGSDTHILTGNLGEESTTRSLPSFGHELSGVIDKVGSTAEKGFKVGQKVVANYAKYCGCCENCREGKVNLCSNGYRNGFSEYAVYHSQIFPIPDDADLKDYALVEPLTVALSSAEQAKISYGKSVAIGAGGLGLVQLARLAGASTITVFDIVPEKLELALENGADYALNSAEEGVAERAIELAGGRYDCVLEGTGATAAAKLGLQLLARDGDAVYFAYGKDPILPVNLQSDLYWDQKHIHGIQGAWQFPKSIRIPRDFSKIIQKEHTLTNYKQAFEDLYSKKYAKIVIKDE 4oh1-a1-m2-cA_4oh1-a1-m4-cA Crystal structure of a putative zinc-binding dehydrogenase (gutB) from Clostridium scindens ATCC 35704 at 2.00 A resolution B0NC68 B0NC68 2 X-RAY DIFFRACTION 40 1.0 411468 ([Clostridium] scindens ATCC 35704) 411468 ([Clostridium] scindens ATCC 35704) 330 330 4oh1-a1-m1-cA_4oh1-a1-m3-cA GRQLFVTSIRDFEKNTGTVDEAPPEPKDEEIRIKVVYASIGSDTHILTGNLGEESTTRSLPSFGHELSGVIDKVGSTAEKGFKVGQKVVANYAKYCGCCENCREGKVNLCSNGYRNGFSEYAVYHSQIFPIPDDADLKDYALVEPLTVALSSAEQAKISYGKSVAIGAGGLGLVQLARLAGASTITVFDIVPEKLELALENGADYALNSAEEGVAERAIELAGGRYDCVLEGTGATAAAKLGLQLLARDGDAVYFAYGKDPILPVNLQSDLYWDQKHIHGIQGAWQFPKSIRIPRDFSKIIQKEHTLTNYKQAFEDLYSKKYAKIVIKDE GRQLFVTSIRDFEKNTGTVDEAPPEPKDEEIRIKVVYASIGSDTHILTGNLGEESTTRSLPSFGHELSGVIDKVGSTAEKGFKVGQKVVANYAKYCGCCENCREGKVNLCSNGYRNGFSEYAVYHSQIFPIPDDADLKDYALVEPLTVALSSAEQAKISYGKSVAIGAGGLGLVQLARLAGASTITVFDIVPEKLELALENGADYALNSAEEGVAERAIELAGGRYDCVLEGTGATAAAKLGLQLLARDGDAVYFAYGKDPILPVNLQSDLYWDQKHIHGIQGAWQFPKSIRIPRDFSKIIQKEHTLTNYKQAFEDLYSKKYAKIVIKDE 4oh1-a1-m3-cA_4oh1-a1-m4-cA Crystal structure of a putative zinc-binding dehydrogenase (gutB) from Clostridium scindens ATCC 35704 at 2.00 A resolution B0NC68 B0NC68 2 X-RAY DIFFRACTION 31 1.0 411468 ([Clostridium] scindens ATCC 35704) 411468 ([Clostridium] scindens ATCC 35704) 330 330 4oh1-a1-m1-cA_4oh1-a1-m2-cA GRQLFVTSIRDFEKNTGTVDEAPPEPKDEEIRIKVVYASIGSDTHILTGNLGEESTTRSLPSFGHELSGVIDKVGSTAEKGFKVGQKVVANYAKYCGCCENCREGKVNLCSNGYRNGFSEYAVYHSQIFPIPDDADLKDYALVEPLTVALSSAEQAKISYGKSVAIGAGGLGLVQLARLAGASTITVFDIVPEKLELALENGADYALNSAEEGVAERAIELAGGRYDCVLEGTGATAAAKLGLQLLARDGDAVYFAYGKDPILPVNLQSDLYWDQKHIHGIQGAWQFPKSIRIPRDFSKIIQKEHTLTNYKQAFEDLYSKKYAKIVIKDE GRQLFVTSIRDFEKNTGTVDEAPPEPKDEEIRIKVVYASIGSDTHILTGNLGEESTTRSLPSFGHELSGVIDKVGSTAEKGFKVGQKVVANYAKYCGCCENCREGKVNLCSNGYRNGFSEYAVYHSQIFPIPDDADLKDYALVEPLTVALSSAEQAKISYGKSVAIGAGGLGLVQLARLAGASTITVFDIVPEKLELALENGADYALNSAEEGVAERAIELAGGRYDCVLEGTGATAAAKLGLQLLARDGDAVYFAYGKDPILPVNLQSDLYWDQKHIHGIQGAWQFPKSIRIPRDFSKIIQKEHTLTNYKQAFEDLYSKKYAKIVIKDE 4oh7-a2-m4-cB_4oh7-a2-m5-cB Crystal structure of Ornithine carbamoyltransferase from Brucella melitensis C0RH19 C0RH19 1.5 X-RAY DIFFRACTION 49 1.0 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 299 299 4oh7-a1-m1-cA_4oh7-a1-m2-cA 4oh7-a1-m1-cA_4oh7-a1-m3-cA 4oh7-a1-m2-cA_4oh7-a1-m3-cA 4oh7-a2-m1-cB_4oh7-a2-m4-cB 4oh7-a2-m1-cB_4oh7-a2-m5-cB GIKHFIDLSTVPATELRAILEDAKARKARLKAGEVERPYAGKVLAMIFEKLSTRTRVSFDVGMRQLGGETIMLTGSEMQLGRSETIADTAKVLSRYVDAIMIRTTAHERMLELAEYATVPVINALTDDTHPCQIMADVLTYEEHRGPIKGKTFAWMGDGNNVLHSLVEAAARFDFNVNIATPKGSSQYIDWARANGAGIMSTTDPEKAASGADCIVTDTWVSMGQEDHARGHNVFIPYQVNANLMAKADPKALFMHCLPAHRGEEVTDEVIDGPQSVVFDEAENRLHAQKAILAWCLQD GIKHFIDLSTVPATELRAILEDAKARKARLKAGEVERPYAGKVLAMIFEKLSTRTRVSFDVGMRQLGGETIMLTGSEMQLGRSETIADTAKVLSRYVDAIMIRTTAHERMLELAEYATVPVINALTDDTHPCQIMADVLTYEEHRGPIKGKTFAWMGDGNNVLHSLVEAAARFDFNVNIATPKGSSQYIDWARANGAGIMSTTDPEKAASGADCIVTDTWVSMGQEDHARGHNVFIPYQVNANLMAKADPKALFMHCLPAHRGEEVTDEVIDGPQSVVFDEAENRLHAQKAILAWCLQD 4ohj-a2-m1-cB_4ohj-a2-m3-cB Crystal structure of toxic shock syndrome toxin-1 (TSST-1) from Staphylococcus aureus P06886 P06886 1.28 X-RAY DIFFRACTION 74 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 197 197 4ohj-a1-m1-cA_4ohj-a1-m2-cA ASTNDNIKDLLDWYSSGSDTFTNSEVLDNSLGSMRIKNTDGSISLIIFPSPYYSPAFTKGEKVDLNTKRTKKSQHTSEGTYIHFQISGVTNTEKLPTPIELPLKVKVHGKDSPLKYGPKFDKKQLAISTLDFEIRHQLTQIHGLYRSSDKTGGYWKITMNDGSTYQSDLSKKFEYNTEKPPINIDEIKTIEAEINGE ASTNDNIKDLLDWYSSGSDTFTNSEVLDNSLGSMRIKNTDGSISLIIFPSPYYSPAFTKGEKVDLNTKRTKKSQHTSEGTYIHFQISGVTNTEKLPTPIELPLKVKVHGKDSPLKYGPKFDKKQLAISTLDFEIRHQLTQIHGLYRSSDKTGGYWKITMNDGSTYQSDLSKKFEYNTEKPPINIDEIKTIEAEINGE 4ohq-a1-m1-cA_4ohq-a1-m1-cB Crystal structure of chloroplast triose phosphate isomerase from Arabidopsis thaliana Q9SKP6 Q9SKP6 2.15 X-RAY DIFFRACTION 122 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 250 251 GKFFVGGNWKCNGTKDSIAKLISDLNSATLEADVDVVVSPPFVYIDQVKSSLTDRIDISGQNSWVGKGGAFTGEISVEQLKDLGCKWVILGHSERRHVIGEKDEFIGKKAAYALSEGLGVIACIGEKLEEREAGKTFDVCFAQLKAFADAVPSWDNIVVAYEPVWAIGTGKVASPQQAQEVHVAVRGWLKKNVSEEVASKTRIIYGGSVNGGNSAELAKEEDIDGFLVGGASLKGPEFATIVNSVTSKKV SGKFFVGGNWKCNGTKDSIAKLISDLNSATLEADVDVVVSPPFVYIDQVKSSLTDRIDISGQNSWVGKGGAFTGEISVEQLKDLGCKWVILGHSERRHVIGEKDEFIGKKAAYALSEGLGVIACIGEKLEEREAGKTFDVCFAQLKAFADAVPSWDNIVVAYEPVWAIGTGKVASPQQAQEVHVAVRGWLKKNVSEEVASKTRIIYGGSVNGGNSAELAKEEDIDGFLVGGASLKGPEFATIVNSVTSKKV 4ohr-a2-m1-cA_4ohr-a2-m2-cA Crystal structure of MilB from Streptomyces rimofaciens B4Y381 B4Y381 1.8 X-RAY DIFFRACTION 116 1.0 504097 (Streptomyces rimofaciens) 504097 (Streptomyces rimofaciens) 158 158 4jel-a1-m1-cA_4jel-a1-m2-cA 4jem-a1-m1-cB_4jem-a1-m1-cA 4ohb-a2-m1-cA_4ohb-a2-m2-cA AVGSVFLGGPFRQLVDPRTGVMSSGDQNVFSRLIEHFESRGTTVYNAHRREAWGAEFLSPAEATRLDHDEIKAADVFVAFPGVPASPGTHVEIGWASGMGKPMVLLLERDEDYAFLVTGLESQANVEILRFSGTEEIVERLDGAVARVLGRAGEPTVI AVGSVFLGGPFRQLVDPRTGVMSSGDQNVFSRLIEHFESRGTTVYNAHRREAWGAEFLSPAEATRLDHDEIKAADVFVAFPGVPASPGTHVEIGWASGMGKPMVLLLERDEDYAFLVTGLESQANVEILRFSGTEEIVERLDGAVARVLGRAGEPTVI 4ohs-a1-m1-cD_4ohs-a1-m1-cE The structure of a far-red fluorescent protein, AQ143 Q2VFP3 Q2VFP3 2.19 X-RAY DIFFRACTION 106 1.0 6106 (Actinia equina) 6106 (Actinia equina) 217 217 4ohs-a1-m1-cA_4ohs-a1-m1-cB 4ohs-a2-m1-cG_4ohs-a2-m1-cF 4ohs-a2-m1-cH_4ohs-a2-m1-cC PLVTEDMCIKMTMEGTINGHHFKCVGEGEGKPFEGTQVEKIRITEGGPLPFAYDILAPCCSKTFIKHVSGIPDYFKESFPEGFTWERTQIFEDGGSLTIHQDTSLQGNNFIFKVNVIGANFPANGPVMQKKTAGWEPSVEILYPRDGVLCGQALMALKCTDGDHLTSHLRTTYRSRKPSNAVNMPEFHFGDHRIEILKAEQGKFYEQYESAVARYCE PLVTEDMCIKMTMEGTINGHHFKCVGEGEGKPFEGTQVEKIRITEGGPLPFAYDILAPCCSKTFIKHVSGIPDYFKESFPEGFTWERTQIFEDGGSLTIHQDTSLQGNNFIFKVNVIGANFPANGPVMQKKTAGWEPSVEILYPRDGVLCGQALMALKCTDGDHLTSHLRTTYRSRKPSNAVNMPEFHFGDHRIEILKAEQGKFYEQYESAVARYCE 4ohs-a2-m1-cG_4ohs-a2-m1-cH The structure of a far-red fluorescent protein, AQ143 Q2VFP3 Q2VFP3 2.19 X-RAY DIFFRACTION 38 1.0 6106 (Actinia equina) 6106 (Actinia equina) 214 216 4ohs-a1-m1-cD_4ohs-a1-m1-cA 4ohs-a1-m1-cE_4ohs-a1-m1-cB 4ohs-a2-m1-cC_4ohs-a2-m1-cF PLVTEDMCIKMTMEGTINGHHFKCVGEGEGKPFEGTQVEKIRITEGGPLPFAYDILAPCCSKTFIKHVSGIPDYFKESFPEGFTWERTQIFEDGGSLTIHQDTSLQGNNFIFKVNVIGANFPANGPVMQKKTAGWEPSVEILYPRDGVLCGQALMALKCTDGDHLTSHLRTTYRSRKPSNAVNMPEFHFGDHRIEILKAGKFYEQYESAVARYC PLVTEDMCIKMTMEGTINGHHFKCVGEGEGKPFEGTQVEKIRITEGGPLPFAYDILAPCCSKTFIKHVSGIPDYFKESFPEGFTWERTQIFEDGGSLTIHQDTSLQGNNFIFKVNVIGANFPANGPVMQKKTAGWEPSVEILYPRDGVLCGQALMALKCTDGDHLTSHLRTTYRSRKPSNAVNMPEFHFGDHRIEILKAEQGKFYEQYESAVARYC 4oi3-a1-m1-cA_4oi3-a1-m1-cB Crystal structure analysis of SCO4226 from Streptomyces coelicolor A3(2) Q9FCE4 Q9FCE4 1.3 X-RAY DIFFRACTION 73 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 79 79 4oi6-a1-m1-cA_4oi6-a1-m1-cB AHFDVHRGHGITSDQLHQAHQADLAVEKDENVHFEQAWADPASGTIYCLSEGPSAEAVQRVHERAGHKADEIHEVPLSA AHFDVHRGHGITSDQLHQAHQADLAVEKDENVHFEQAWADPASGTIYCLSEGPSAEAVQRVHERAGHKADEIHEVPLSA 4oid-a1-m4-cC_4oid-a1-m6-cD Structural and kinetic bases for the metal preference of the M18 aminopeptidase from Pseudomonas aeruginosa Q9HYZ3 Q9HYZ3 2.3 X-RAY DIFFRACTION 106 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 407 407 3wt4-a1-m1-cA_3wt4-a1-m1-cB 3wt4-a1-m1-cC_3wt4-a1-m1-cA 3wt4-a1-m1-cC_3wt4-a1-m1-cB 3wt4-a1-m1-cD_3wt4-a1-m2-cD 3wt4-a1-m1-cD_3wt4-a1-m3-cD 3wt4-a1-m2-cA_3wt4-a1-m2-cB 3wt4-a1-m2-cC_3wt4-a1-m2-cA 3wt4-a1-m2-cC_3wt4-a1-m2-cB 3wt4-a1-m2-cD_3wt4-a1-m3-cD 3wt4-a1-m3-cA_3wt4-a1-m3-cB 3wt4-a1-m3-cC_3wt4-a1-m3-cA 3wt4-a1-m3-cC_3wt4-a1-m3-cB 4njq-a1-m1-cA_4njq-a1-m1-cB 4njq-a1-m1-cA_4njq-a1-m1-cC 4njq-a1-m1-cC_4njq-a1-m1-cB 4njq-a1-m1-cD_4njq-a1-m2-cD 4njq-a1-m1-cD_4njq-a1-m3-cD 4njq-a1-m2-cA_4njq-a1-m2-cB 4njq-a1-m2-cA_4njq-a1-m2-cC 4njq-a1-m2-cC_4njq-a1-m2-cB 4njq-a1-m2-cD_4njq-a1-m3-cD 4njq-a1-m3-cA_4njq-a1-m3-cB 4njq-a1-m3-cA_4njq-a1-m3-cC 4njq-a1-m3-cC_4njq-a1-m3-cB 4njr-a1-m1-cA_4njr-a1-m1-cB 4njr-a1-m1-cC_4njr-a1-m1-cA 4njr-a1-m1-cC_4njr-a1-m1-cB 4njr-a1-m1-cD_4njr-a1-m2-cD 4njr-a1-m1-cD_4njr-a1-m3-cD 4njr-a1-m2-cA_4njr-a1-m2-cB 4njr-a1-m2-cC_4njr-a1-m2-cA 4njr-a1-m2-cC_4njr-a1-m2-cB 4njr-a1-m2-cD_4njr-a1-m3-cD 4njr-a1-m3-cA_4njr-a1-m3-cB 4njr-a1-m3-cC_4njr-a1-m3-cA 4njr-a1-m3-cC_4njr-a1-m3-cB 4oid-a1-m1-cA_4oid-a1-m2-cA 4oid-a1-m1-cA_4oid-a1-m3-cA 4oid-a1-m1-cB_4oid-a1-m5-cD 4oid-a1-m1-cB_4oid-a1-m6-cC 4oid-a1-m2-cA_4oid-a1-m3-cA 4oid-a1-m2-cB_4oid-a1-m4-cC 4oid-a1-m2-cB_4oid-a1-m6-cD 4oid-a1-m3-cB_4oid-a1-m4-cD 4oid-a1-m3-cB_4oid-a1-m5-cC 4oid-a1-m4-cD_4oid-a1-m5-cC 4oid-a1-m5-cD_4oid-a1-m6-cC 4oiw-a1-m1-cA_4oiw-a1-m1-cB 4oiw-a1-m1-cA_4oiw-a1-m1-cC 4oiw-a1-m1-cB_4oiw-a1-m1-cC 4oiw-a1-m1-cD_4oiw-a1-m1-cE 4oiw-a1-m1-cD_4oiw-a1-m1-cF 4oiw-a1-m1-cE_4oiw-a1-m1-cF 4oiw-a1-m2-cA_4oiw-a1-m2-cB 4oiw-a1-m2-cA_4oiw-a1-m2-cC 4oiw-a1-m2-cB_4oiw-a1-m2-cC 4oiw-a1-m2-cD_4oiw-a1-m2-cE 4oiw-a1-m2-cD_4oiw-a1-m2-cF 4oiw-a1-m2-cE_4oiw-a1-m2-cF MRAELNQGLIDFLKASPTPFHATASLARRLEAAGYRRLDERDAWHTETGGRYYVTRNDSSLIAIRLGRRSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLAIHLNRAANEGWPINAQNELPPIIAQLAPGEAADFRLLLDEQLLREHGITADVVLDYELSFYDTQSAAVVGLNDEFIAGARLANLLSCHAGLEALLNAEGDENCILVCTDHEEVPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASSELP MRAELNQGLIDFLKASPTPFHATASLARRLEAAGYRRLDERDAWHTETGGRYYVTRNDSSLIAIRLGRRSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLAIHLNRAANEGWPINAQNELPPIIAQLAPGEAADFRLLLDEQLLREHGITADVVLDYELSFYDTQSAAVVGLNDEFIAGARLANLLSCHAGLEALLNAEGDENCILVCTDHEEVPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASSELP 4oid-a1-m6-cC_4oid-a1-m6-cD Structural and kinetic bases for the metal preference of the M18 aminopeptidase from Pseudomonas aeruginosa Q9HYZ3 Q9HYZ3 2.3 X-RAY DIFFRACTION 253 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 407 407 3wt4-a1-m1-cA_3wt4-a1-m1-cD 3wt4-a1-m1-cC_3wt4-a1-m2-cB 3wt4-a1-m2-cA_3wt4-a1-m2-cD 3wt4-a1-m2-cC_3wt4-a1-m3-cB 3wt4-a1-m3-cA_3wt4-a1-m3-cD 3wt4-a1-m3-cC_3wt4-a1-m1-cB 4njq-a1-m1-cA_4njq-a1-m1-cD 4njq-a1-m1-cC_4njq-a1-m2-cB 4njq-a1-m2-cA_4njq-a1-m2-cD 4njq-a1-m2-cC_4njq-a1-m3-cB 4njq-a1-m3-cA_4njq-a1-m3-cD 4njq-a1-m3-cC_4njq-a1-m1-cB 4njr-a1-m1-cA_4njr-a1-m1-cD 4njr-a1-m1-cC_4njr-a1-m2-cB 4njr-a1-m2-cA_4njr-a1-m2-cD 4njr-a1-m2-cC_4njr-a1-m3-cB 4njr-a1-m3-cA_4njr-a1-m3-cD 4njr-a1-m3-cC_4njr-a1-m1-cB 4oid-a1-m1-cA_4oid-a1-m1-cB 4oid-a1-m2-cA_4oid-a1-m2-cB 4oid-a1-m3-cA_4oid-a1-m3-cB 4oid-a1-m4-cC_4oid-a1-m4-cD 4oid-a1-m5-cC_4oid-a1-m5-cD 4oiw-a1-m1-cA_4oiw-a1-m2-cA 4oiw-a1-m1-cB_4oiw-a1-m2-cD 4oiw-a1-m1-cC_4oiw-a1-m1-cE 4oiw-a1-m1-cD_4oiw-a1-m2-cB 4oiw-a1-m1-cF_4oiw-a1-m2-cF 4oiw-a1-m2-cC_4oiw-a1-m2-cE MRAELNQGLIDFLKASPTPFHATASLARRLEAAGYRRLDERDAWHTETGGRYYVTRNDSSLIAIRLGRRSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLAIHLNRAANEGWPINAQNELPPIIAQLAPGEAADFRLLLDEQLLREHGITADVVLDYELSFYDTQSAAVVGLNDEFIAGARLANLLSCHAGLEALLNAEGDENCILVCTDHEEVPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASSELP MRAELNQGLIDFLKASPTPFHATASLARRLEAAGYRRLDERDAWHTETGGRYYVTRNDSSLIAIRLGRRSPLESGFRLVGAHTDSPCLRVKPNPEIARNGFLQLGVEVYGGALFAPWFDRDLSLAGRVTFRANGKLESRLVDFRKAIAVIPNLAIHLNRAANEGWPINAQNELPPIIAQLAPGEAADFRLLLDEQLLREHGITADVVLDYELSFYDTQSAAVVGLNDEFIAGARLANLLSCHAGLEALLNAEGDENCILVCTDHEEVPFLEQVLRRLLPEGDAFSRAIQRSLLVSADNAHGVHPNYADRHDANHGPALNGGPVIKINSNQRYATNSETAGFFRHLCQDSEVPVQSFVTRSDMQVGVRTVDIGLPTFAMHSIRELAGSHDLAHLVKVLGAFYASSELP 4oif-a1-m1-cB_4oif-a1-m1-cC 3D structure of Gan42B, a GH42 beta-galactosidase from G. F8TRX0 F8TRX0 2.448 X-RAY DIFFRACTION 171 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 684 684 4oif-a1-m1-cB_4oif-a1-m1-cA 4oif-a1-m1-cC_4oif-a1-m1-cA 5dfa-a1-m1-cA_5dfa-a1-m1-cC 5dfa-a1-m1-cB_5dfa-a1-m1-cA 5dfa-a1-m1-cB_5dfa-a1-m1-cC KYERTYTTQANFILHGGDYNPDQWLDRPDILQADLELMKLSHTNTFTVGVFAWSALEPEEGVYRFEWLDKVFDDIYRIGGRVILATPSGARPAWLSQKYPEVLRVNAARVRQLHGGRHNHCFTSSVYREKTQHINRLLAERYGDHPALLMWHVSNEYGGECHCNLCQEAFREWLKKKYNHDLDALNAAWWTSFWSHTYTDWSQIESPSPIGEHTIHGLNLDWKRFVTDQTISFFENEIVPLRELTPHIPITTNFMADTHDLIPFQGLDYSKFAKHLDVISWDAYPAWHNDWESTADLAMKVGFINDLYRSLKQQPFLLMECTPSLVNWHKVNKAKRPGMHFLSSMQMIAHGSDSILYFQWRKSRGSFEKFHGAVVDHDNRTDSRVFQEVAEVGKALKKMSGIVGTNRPAEVAILYDWENNWALNDAQGFAAETKRYPQTLVQHYRPFWERDIPVDVITKEHDFSRYKLLIAPMLYLVSEETIARLKEFVANGGTLVMTYISGIVDEHDLAYLGGWHQDLREMFGMEPIETDTLYPRDRNSVHYRGRSYELKDYATVIKIHAATVEGVYEDDFYADTPAVTSNQYGKGQAYYIGGRLEDQFHRDFYQELMEKLDLRPVLFVKHEKGVSVQARQAPECDYVFIMNFTEEKQAVVLEEKVKDLFTGEEIVGEIMLDKYEVRVVEKRR KYERTYTTQANFILHGGDYNPDQWLDRPDILQADLELMKLSHTNTFTVGVFAWSALEPEEGVYRFEWLDKVFDDIYRIGGRVILATPSGARPAWLSQKYPEVLRVNAARVRQLHGGRHNHCFTSSVYREKTQHINRLLAERYGDHPALLMWHVSNEYGGECHCNLCQEAFREWLKKKYNHDLDALNAAWWTSFWSHTYTDWSQIESPSPIGEHTIHGLNLDWKRFVTDQTISFFENEIVPLRELTPHIPITTNFMADTHDLIPFQGLDYSKFAKHLDVISWDAYPAWHNDWESTADLAMKVGFINDLYRSLKQQPFLLMECTPSLVNWHKVNKAKRPGMHFLSSMQMIAHGSDSILYFQWRKSRGSFEKFHGAVVDHDNRTDSRVFQEVAEVGKALKKMSGIVGTNRPAEVAILYDWENNWALNDAQGFAAETKRYPQTLVQHYRPFWERDIPVDVITKEHDFSRYKLLIAPMLYLVSEETIARLKEFVANGGTLVMTYISGIVDEHDLAYLGGWHQDLREMFGMEPIETDTLYPRDRNSVHYRGRSYELKDYATVIKIHAATVEGVYEDDFYADTPAVTSNQYGKGQAYYIGGRLEDQFHRDFYQELMEKLDLRPVLFVKHEKGVSVQARQAPECDYVFIMNFTEEKQAVVLEEKVKDLFTGEEIVGEIMLDKYEVRVVEKRR 4oii-a1-m1-cI_4oii-a1-m1-cH West Nile Virus NS1 in complex with neutralizing 22NS1 antibody Fab 3 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 217 217 QVQLQQPGAELVKPGASVKLSCKASGYTFTSYWMHWVKLRPGQGFEWIGDINPNNGGPSYNEKFKRKATLTVDTSSSTAYMQLSSLTSEDSAVYYCTIDDGYRFGYWGQGTLVTVSAAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR QVQLQQPGAELVKPGASVKLSCKASGYTFTSYWMHWVKLRPGQGFEWIGDINPNNGGPSYNEKFKRKATLTVDTSSSTAYMQLSSLTSEDSAVYYCTIDDGYRFGYWGQGTLVTVSAAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR 4oij-a1-m1-cA_4oij-a1-m1-cB X-ray crystal structure of racemic non-glycosylated chemokine Ser-CCL1 P22362 P22362 2 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 4oik-a1-m1-cA_4oik-a1-m1-cB MQVPFSRCCFSFAEQEIPLRAILCYRNTSSICSNEGLIFKLKRGKEACALDTVGWVQRHRKMLRHCPSKRK MQVPFSRCCFSFAEQEIPLRAILCYRNTSSICSNEGLIFKLKRGKEACALDTVGWVQRHRKMLRHCPSKRK 4oiz-a1-m1-cA_4oiz-a1-m1-cB Structure, interactions and evolutionary implications of a domain-swapped lectin dimer from Mycobacterium smegmatis A0QYH7 A0QYH7 3.4 X-RAY DIFFRACTION 192 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 107 107 4oit-a1-m1-cA_4oit-a1-m1-cB 4oit-a2-m1-cC_4oit-a2-m1-cD 4oiz-a2-m1-cD_4oiz-a2-m1-cC 4oiz-a3-m1-cE_4oiz-a3-m2-cE 4okc-a1-m1-cB_4okc-a1-m1-cA MGDTLTAGQKLERGGSLQSGNGAYTLTLQDDGNLVLYARDKAVWSTGTNGQDVVRAEVQTDGNFVLYTAEKPVWHTDTKGKKEVKLVLQDDRNLVLYAKDGPAWSLE MGDTLTAGQKLERGGSLQSGNGAYTLTLQDDGNLVLYARDKAVWSTGTNGQDVVRAEVQTDGNFVLYTAEKPVWHTDTKGKKEVKLVLQDDRNLVLYAKDGPAWSLE 4oj4-a1-m1-cA_4oj4-a1-m2-cA Crystal structure of V290M PPARgamma mutant in complex with diclofenac P37231 P37231 2.3 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 260 ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTKSPFVIYDMNSLMMGEDKIEQSKEVAIRIFQGCQFRSMEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTKSPFVIYDMNSLMMGEDKIEQSKEVAIRIFQGCQFRSMEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDLY 4oja-a1-m1-cA_4oja-a1-m2-cA Structure of Hydra Cu-Zn superoxide dismutase I3V7W8 I3V7W8 2.277 X-RAY DIFFRACTION 76 1.0 6087 (Hydra vulgaris) 6087 (Hydra vulgaris) 149 149 SAICVLEGIVKGTIKFEDIGDGKTHVSGKITGLQPPGKHGFHIHQFGDYSGGCMSTGPHFNPFNKEHGGPEDENRHAGDLGNIVSDDYGNADVNIEDSQIPLDGPNSIIGRALVVHQNEDDLGLGGHKDSKTTGNAGARLSCGVIGLAA SAICVLEGIVKGTIKFEDIGDGKTHVSGKITGLQPPGKHGFHIHQFGDYSGGCMSTGPHFNPFNKEHGGPEDENRHAGDLGNIVSDDYGNADVNIEDSQIPLDGPNSIIGRALVVHQNEDDLGLGGHKDSKTTGNAGARLSCGVIGLAA 4ojd-a1-m2-cH_4ojd-a1-m3-cH Crystal structure of a C-terminally truncated trimeric ectodomain of the C. elegans fusion protein EFF-1 G260A/D321E/D322E mutant G5ECA1 G5ECA1 2.26 X-RAY DIFFRACTION 204 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 444 444 4ojc-a1-m1-cA_4ojc-a1-m2-cA 4ojc-a1-m1-cA_4ojc-a1-m3-cA 4ojc-a1-m2-cA_4ojc-a1-m3-cA 4ojd-a1-m1-cH_4ojd-a1-m2-cH 4ojd-a1-m1-cH_4ojd-a1-m3-cH 4oje-a1-m1-cH_4oje-a1-m2-cH 4oje-a1-m1-cH_4oje-a1-m3-cH 4oje-a1-m2-cH_4oje-a1-m3-cH RAEPPHCSKTPIVRAQTSQNAMGMQMQFSIGLHTAVCFRLYSLLHTIRLEKLEHHHPITQRYTFGIPEVHASCICECDATSSTCTAESHQFTACPEDETSSCYRTFFPNQTPIGCSEDDIPKLCCDVRFKPYKNMTFLAVKLEQPTTYATFVYAAYDFVNGYWVEKDKTKIRSQLDGGTQDRHLDQKRRISLAVTAGARASHQLETGMYFSRTSNGGETEELRMQPLNEITDNNFDRLGWYRMDDSGHFHVNNGVVKMEEIHKAKVKNCKEQTYKSILSANHYMPGHFNLTRPLEVIKPWIQSARIFDSSLRQAVVTHAEGTNLQISIHLESQNLVFFHNASRIRDFSGSIIVDSKSNRLFNLTVYEASGKIDGSVKMSTGFGSDTIHTFTAYVSDLHASNRSMIIPLPAIVGQGARAICLRADSMADIDKICHVIEYFESPLF RAEPPHCSKTPIVRAQTSQNAMGMQMQFSIGLHTAVCFRLYSLLHTIRLEKLEHHHPITQRYTFGIPEVHASCICECDATSSTCTAESHQFTACPEDETSSCYRTFFPNQTPIGCSEDDIPKLCCDVRFKPYKNMTFLAVKLEQPTTYATFVYAAYDFVNGYWVEKDKTKIRSQLDGGTQDRHLDQKRRISLAVTAGARASHQLETGMYFSRTSNGGETEELRMQPLNEITDNNFDRLGWYRMDDSGHFHVNNGVVKMEEIHKAKVKNCKEQTYKSILSANHYMPGHFNLTRPLEVIKPWIQSARIFDSSLRQAVVTHAEGTNLQISIHLESQNLVFFHNASRIRDFSGSIIVDSKSNRLFNLTVYEASGKIDGSVKMSTGFGSDTIHTFTAYVSDLHASNRSMIIPLPAIVGQGARAICLRADSMADIDKICHVIEYFESPLF 4ojk-a1-m2-cD_4ojk-a1-m1-cC Structure of the cGMP Dependent Protein Kinase II and Rab11b Complex Q64595 Q64595 2.657 X-RAY DIFFRACTION 44 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 33 37 YHLKELREQLAKQTVAIAELTEELQSKCIQLNK REYHLKELREQLAKQTVAIAELTEELQSKCIQLNKLQ 4ojq-a1-m1-cB_4ojq-a1-m1-cA Crystal Structure of Hepatitis C Virus NS3 Helicase Inhibitor Co-complex with Fragment 1 [(5-bromo-1H-indol-3-yl)acetic acid] K4KA16 K4KA16 2.25 X-RAY DIFFRACTION 94 0.988 11103 () 11103 () 420 440 1hei-a1-m1-cB_1hei-a1-m1-cA 4ok5-a1-m1-cB_4ok5-a1-m1-cA 4oks-a1-m1-cB_4oks-a1-m1-cA NSSPPAVPQSFQVAHLHAPTTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHSPITYSTYGKFLADGGCSGGAYDIIICDECHSTDATSILGIGTVLDQAETAGARLVVLATATPPGSVTVSHPNIEEVALSTTGEIPFYGKAIPLEVIKGGRHLIFCHSKKKCDELAAKLVALGINAVAYYRGLDVSVIPTNGDVVVVSTDALMGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTLPQDAVSRTQRRGRTGRGKPGIYRFVAPGERPSGMFDSSVLCECYDAGCAWYELMPAETTVRLRAYMNTPGLPVCQDHLEFWEGVFTGLTHIDAHFLSQTKQSGENFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTLTHPITKYIMTCMSADLE DNSSPPAVPQSFQVAHLHAPTGSGKSTKVPAAYAAQGYKVLVLNPSVAATLGFGAYMSKAHGVDPNIRTGVRTITTGSPITYSTYGKFLADGGCSGGAYDIIICDECHSTDATSILGIGTVLDQAETAGARLVVLATATPPGSVTVSHPNIEEVALSTTGEIPFYGKAIPLEVIKGGRHLIFCHSKKKCDELAAKLVALGINAVAYYLDVSVIPDVVVVSTDALMTGFTGDFDSVIDCNTCVTQTVDFSLDPTFTIETTTLPQDAVSRTQRRGRTGRGKPGIYRFVAPGERPSGMFDSSVLCECYDAGCAWYELMPAETTVRLRAYMNTPGLPVCQDHLEFWEGVFTGLTHIDAHFLSQTKQSGENFPYLVAYQATVCARAQAPPPSWDQMWKCLIRLKPTLHGPTPLLYRLGAVQNEVTLTHPITKYIMTCMSADLEVV 4oju-a1-m1-cD_4oju-a1-m1-cC Crystal structure of a leucine-rich repeat protein (BACCAP_00569) from Bacteroides capillosus ATCC 29799 at 2.00 A resolution A6NQU6 A6NQU6 2 X-RAY DIFFRACTION 38 1.0 411467 (Pseudoflavonifractor capillosus ATCC 29799) 411467 (Pseudoflavonifractor capillosus ATCC 29799) 136 140 4oju-a1-m1-cB_4oju-a1-m1-cA ESTVQVGPYTFEIWFDGTATLTRYDESLAGSTYADIPASVTDENGQEYPVTVIGEKAFEETNITGVTVPDSVISIGRLAFAYCNSLSDVKLSENLIYINELAFASCDALKEITIPASVEKDNPFRWSNALDTVYEG ASVVESTVQVGPYTFEIWFDGTATLTRYDESLAGSTYADIPASVTDENGQEYPVTVIGEKAFEETNITGVTVPDSVISIGRLAFAYCNSLSDVKLSENLIYINELAFASCDALKEITIPASVEKDNPFRWSNALDTVYEG 4ojx-a1-m1-cA_4ojx-a1-m2-cA crystal structure of yeast phosphodiesterase-1 in complex with GMP P22434 P22434 1.31 X-RAY DIFFRACTION 189 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 363 363 4ojv-a1-m1-cA_4ojv-a1-m2-cA MVVFEITILGANGGPTEYGTQCFILKPARTEDPELIAVDGGAGMYQLREMLVQGDDELVPSFYEHDREPIEFFIDSKLNIQKGLSKSLLQSLKRQGEHFESANTMKKTYEVFQGITDYYITHPHLDHISGLVVNSPSIYEQENSKKKTIWGLPHTIDVLQKHVFNDLIWPDLTAERSRKLKLKCLNPKEVQKCTIFPWDVIPFKVHHGIGVKTGAPVYSTFYIFRDRKSKDCIIVCGDVEQDRRESEESLLEEFWSYVAENIPLVHLKGILVECSCPLSSKPEQLYGHLSPIYLINELSNLNTLYNSSKGLSGLNVIVTHVKSTPAKRDPRLTILEELRFLAEERNLGDLRISIALEGHTLFL MVVFEITILGANGGPTEYGTQCFILKPARTEDPELIAVDGGAGMYQLREMLVQGDDELVPSFYEHDREPIEFFIDSKLNIQKGLSKSLLQSLKRQGEHFESANTMKKTYEVFQGITDYYITHPHLDHISGLVVNSPSIYEQENSKKKTIWGLPHTIDVLQKHVFNDLIWPDLTAERSRKLKLKCLNPKEVQKCTIFPWDVIPFKVHHGIGVKTGAPVYSTFYIFRDRKSKDCIIVCGDVEQDRRESEESLLEEFWSYVAENIPLVHLKGILVECSCPLSSKPEQLYGHLSPIYLINELSNLNTLYNSSKGLSGLNVIVTHVKSTPAKRDPRLTILEELRFLAEERNLGDLRISIALEGHTLFL 4ok7-a1-m1-cA_4ok7-a1-m1-cC Structure of bacteriophage SPN1S endolysin from Salmonella typhimurium H2D0G4 H2D0G4 1.9 X-RAY DIFFRACTION 53 1.0 1125653 (Salmonella phage SPN1S) 1125653 (Salmonella phage SPN1S) 223 223 HHHSSGENLYFQGHMMDINQFRRASGINEQLAARWFPHITTAMNEFGITKPDDQAMFIAQVGHESGGFTRLQENFNYSVNGLSGFIRAGRITPDQANALGRKTYEKSLPLERQRAIANLVYSKRMGNNGPGDGWNYRGRGLIQITGLNNYRDCGNGLKVDLVAQPELLAQDEYAARSAAWFFSSKGCMKYTGDLVRVTQIINGGQNGIDDRRTRYAAARKVLA HHHSSGENLYFQGHMMDINQFRRASGINEQLAARWFPHITTAMNEFGITKPDDQAMFIAQVGHESGGFTRLQENFNYSVNGLSGFIRAGRITPDQANALGRKTYEKSLPLERQRAIANLVYSKRMGNNGPGDGWNYRGRGLIQITGLNNYRDCGNGLKVDLVAQPELLAQDEYAARSAAWFFSSKGCMKYTGDLVRVTQIINGGQNGIDDRRTRYAAARKVLA 4ok7-a1-m1-cB_4ok7-a1-m1-cC Structure of bacteriophage SPN1S endolysin from Salmonella typhimurium H2D0G4 H2D0G4 1.9 X-RAY DIFFRACTION 52 1.0 1125653 (Salmonella phage SPN1S) 1125653 (Salmonella phage SPN1S) 223 223 4ok7-a1-m1-cA_4ok7-a1-m1-cB HHHSSGENLYFQGHMMDINQFRRASGINEQLAARWFPHITTAMNEFGITKPDDQAMFIAQVGHESGGFTRLQENFNYSVNGLSGFIRAGRITPDQANALGRKTYEKSLPLERQRAIANLVYSKRMGNNGPGDGWNYRGRGLIQITGLNNYRDCGNGLKVDLVAQPELLAQDEYAARSAAWFFSSKGCMKYTGDLVRVTQIINGGQNGIDDRRTRYAAARKVLA HHHSSGENLYFQGHMMDINQFRRASGINEQLAARWFPHITTAMNEFGITKPDDQAMFIAQVGHESGGFTRLQENFNYSVNGLSGFIRAGRITPDQANALGRKTYEKSLPLERQRAIANLVYSKRMGNNGPGDGWNYRGRGLIQITGLNNYRDCGNGLKVDLVAQPELLAQDEYAARSAAWFFSSKGCMKYTGDLVRVTQIINGGQNGIDDRRTRYAAARKVLA 4oke-a1-m1-cB_4oke-a1-m1-cA Structure of RNase AS, a polyadenylate-specific exoribonuclease affecting mycobacterial virulence in vivo P9WJ73 P9WJ73 1.7 X-RAY DIFFRACTION 72 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 158 160 4hec-a1-m1-cA_4hec-a1-m1-cB 4hvj-a1-m1-cA_4hvj-a1-m1-cB 4okj-a1-m1-cB_4okj-a1-m1-cA 4okk-a1-m1-cB_4okk-a1-m1-cA 6s0m-a1-m1-cB_6s0m-a1-m1-cA VRYFYDTEFIEDGHTIELISIGVVAEDGREYYAVSTEFDPERAGSWVRTHVLPKLPPPASQLWRSRQQIRLDLEEFLRIDGTDSIELWAWVGAYDHVALCQLWGPMTALPPTVPRFTRELRQLWEDRGCPRMPPRPRDVHDALVDARDQLRRFRLITS VRYFYDTEFIEDGHTIELISIGVVAEDGREYYAVSTEFDPERAGSWVRTHVLPKLPPPASQLWRSRQQIRLDLEEFLRIDGTDSIELWAWVGAYDHVALCQLWGPMTALPPTVPRFTRELRQLWEDRGCPRMPPRPRDVHDALVDARDQLRRFRLITSTD 4okh-a2-m1-cC_4okh-a2-m2-cC Crystal structure of calpain-3 penta-EF-hand domain P20807 P20807 2.45 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 147 DMEICADELKKVLNTVVHGFTLESCRSMIALMDTDGSGKLNLQEFHHLWNKIKAWQKIFKHYDTDQSGTINSYEMRNAVNDAGFHLNNQLYDIITMRYADKHMNIDFDSFICCFVRLEGMFRAFHAFDKDGDGIIKLNVLEWLQLTM DMEICADELKKVLNTVVHGFTLESCRSMIALMDTDGSGKLNLQEFHHLWNKIKAWQKIFKHYDTDQSGTINSYEMRNAVNDAGFHLNNQLYDIITMRYADKHMNIDFDSFICCFVRLEGMFRAFHAFDKDGDGIIKLNVLEWLQLTM 4oki-a1-m1-cB_4oki-a1-m1-cA X-ray structure of the nucleotide-binding subdomain of the enoylreductase domain of PpsC from Mycobacterium tuberculosis P96202 P96202 1.5 X-RAY DIFFRACTION 104 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 179 181 1pqw-a1-m1-cB_1pqw-a1-m1-cA EAATFGVAYLTAWHSLCEVGRLSPGERVLIHSATGGVGMAAVSIAKMIGARIYTTAGSDAKREMLSRLGVEYVGDSRSVDFADEILELTDGYGVDVVLNSLAGEAIQRGVQILAPGGRFIELGKKDVYADASLGLAALAKSASFSVVDLDLNLKLQPARYRQLLQHILQHVADGKLEVL NEAATFGVAYLTAWHSLCEVGRLSPGERVLIHSATGGVGMAAVSIAKMIGARIYTTAGSDAKREMLSRLGVEYVGDSRSVDFADEILELTDGYGVDVVLNSLAGEAIQRGVQILAPGGRFIELGKKDVYADASLGLAALAKSASFSVVDLDLNLKLQPARYRQLLQHILQHVADGKLEVLG 4oki-a2-m1-cB_4oki-a2-m2-cA X-ray structure of the nucleotide-binding subdomain of the enoylreductase domain of PpsC from Mycobacterium tuberculosis P96202 P96202 1.5 X-RAY DIFFRACTION 51 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 179 181 EAATFGVAYLTAWHSLCEVGRLSPGERVLIHSATGGVGMAAVSIAKMIGARIYTTAGSDAKREMLSRLGVEYVGDSRSVDFADEILELTDGYGVDVVLNSLAGEAIQRGVQILAPGGRFIELGKKDVYADASLGLAALAKSASFSVVDLDLNLKLQPARYRQLLQHILQHVADGKLEVL NEAATFGVAYLTAWHSLCEVGRLSPGERVLIHSATGGVGMAAVSIAKMIGARIYTTAGSDAKREMLSRLGVEYVGDSRSVDFADEILELTDGYGVDVVLNSLAGEAIQRGVQILAPGGRFIELGKKDVYADASLGLAALAKSASFSVVDLDLNLKLQPARYRQLLQHILQHVADGKLEVLG 4oku-a3-m1-cA_4oku-a3-m2-cB Structure of Toxoplasma gondii proMIC2 O00816 O00816 3.2 X-RAY DIFFRACTION 54 0.996 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 240 241 DSAIGAAEGCTNQLDICFLIDSSGSIGIQNFRLVKQFLHTFLMVLPIGPEEVNNAVVTYSTDVHLQWDLQSPNAVDKQLAAHAVLEMPYKKGSTNTADGLKACKQILFTGSRPGREHVPKLVIGMTDGESDSDFRTVRAAKEIRELGGIVTVLAVGPLYLRADWGQLATAIKPMLKEVCKTLPQDAICSDWSAWSPCGSQIRTRTEVSAPQPGTPTCPDCPAPMGRTCVEQGGLEEIREC DSAIGAAEGCTNQLDICFLIDSSGSIGIQNFRLVKQFLHTFLMVLPIGPEEVNNAVVTYSTDVHLQWDLQSPNAVDKQLAAHAVLEMPYKKGSTNTADGLKACKQILFTGSRPGREHVPKLVIGMTDGESDSDFRTVRAAKEIRELGGIVTVLAVGHCPLYLRADWGQLATAIKPMLKEVCKTLPQDAICSDWSAWSPCSQIRTRTEVSAPQPGTPTCPDCPAPMGRTCVEQGGLEEIREC 4oky-a1-m1-cC_4oky-a1-m2-cC Crystal structure of PvuRts1I, a 5-hydroxymethylcytosine DNA restriction endonuclease Q52612 Q52612 2.9 X-RAY DIFFRACTION 51 1.0 585 (Proteus vulgaris) 585 (Proteus vulgaris) 279 279 SKTDYILRALSKISHKRWEHYIINRVVHTLDDPDIEFVCQQCIRKEGHLGKIYLADLLFPQLNLYLEIDNDARKADAVRRLDIVEATGFQEERIPASNITLSEVNKLVDEFVRLVKDKKEELENQGLFFRWDYDERYSAKKHINTGYAVGPNSVFRYHRDALQCFGYRRQSGGWALPAEVAQSIGLTGRVVWFPRLYEAGEWKNALSADGNKITEQSLNATRNYQETWDYRIVAHSRDELNRTLYRFLGVFAIDVDKSSDEVKVFSRVYSRVNVYRSQN SKTDYILRALSKISHKRWEHYIINRVVHTLDDPDIEFVCQQCIRKEGHLGKIYLADLLFPQLNLYLEIDNDARKADAVRRLDIVEATGFQEERIPASNITLSEVNKLVDEFVRLVKDKKEELENQGLFFRWDYDERYSAKKHINTGYAVGPNSVFRYHRDALQCFGYRRQSGGWALPAEVAQSIGLTGRVVWFPRLYEAGEWKNALSADGNKITEQSLNATRNYQETWDYRIVAHSRDELNRTLYRFLGVFAIDVDKSSDEVKVFSRVYSRVNVYRSQN 4ol8-a1-m1-cA_4ol8-a1-m1-cB Ty3 reverse transcriptase bound to DNA/RNA Q99315 Q99315 3.1 X-RAY DIFFRACTION 67 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 385 447 PVWLQQKYREIIRNDLPPPVKHDIEIKPGARLPRLQPYHVTEKNEQEINKIVQKLLDNKFIVPSKSPCSSPVVLVPKTFRLCVDYRTLNKATISDPFPLPRIDNLLSRIGNAQIFTTLDLHSGYHQIPEPKDRYKTAFVTPSGKYEYTVPFGLVNAPSTFARYADTFRDLRFVNVYLDDILIFSESPEEHWKHLDTVLERLKNENLIVKKKKCKFEETEFLGYSIGIQKIAPLQHKCAAIRDFPTPKTVKQAQRFLGINYYRRFIPNCSKIAQPITEKQDKAIDKLKDAPFNNKANYRLTTDASKDGIGAVLEEVDNKNKLVGVVGYFSKSLEYPAGELELLGIIKALHHFRYLHGKHFTLRTNHARRVQRWLDDLATYDFTLEY KDTFCTLPVWLQQKYREIIRNDLPPRPAPVKHDIEIKPGARLPRLQPYHVTEKNEQEINKIVQKLLDNKFIVPSKSPCSSPVVLVPKKDGTFRLCVDYRTLNKATISDPFPLPRIDNLLSRIGNAQIFTTLDLHSGYHQIPEPKDRYKTAFVTPSGKYEYTVPFGLVNAPSTFARYADTFRDLRFVNVYLDDILIFSESPEEHWKHLDTVLERLKNENLIVKKKKCKFASEETEFLGYSIGIQKIAPLQHKCAAIRDFPTPKTVKQAQRFLGINYYRRFIPNCSKIAQPIQLFICDKSQWTEKQDKAIDKLKDALCNSPVLVPFNNKANYRLTTDASKDGIGAVLEEVDNKNKLVGVVGYFSKSLEYPAGELELLGIIKALHHFRYLHGKHFTLRTNHISLLSLQNKNEPARRVQRWLDDLATYDFTLEYLAGPKNVVADAISRAVY 4ol9-a1-m1-cA_4ol9-a1-m2-cA Crystal Structure of putative 2-dehydropantoate 2-reductase PanE from Mycobacterium tuberculosis complexed with NADP and oxamate P9WIL1 P9WIL1 1.85 X-RAY DIFFRACTION 99 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 297 297 HMIATGIALVGPGAVGTTVAALLHKAGYSPLLCGHTPRAGIELRRDGADPIVVPGPVHTSPREVAGPVDVLILAVKATQNDAARPWLTRLCDERTVVAVLQNGVEQVEQVQPHCPSSAVVPAIVWCSAETQPQGWVRLRGEAALVVPTGPAAEQFAGLLRGAGATVDCDPDFTTAAWRKLLVNALAGFMVLSGRRSAMFRRDDVAALSRRYVAECLAVARAEGARLDDDVVDEVVRLVRSAPQDMGTSMLADRAAHRPLEWDLRNGVIVRKARAHGLATPISDVLVPLLAAASDGPG HMIATGIALVGPGAVGTTVAALLHKAGYSPLLCGHTPRAGIELRRDGADPIVVPGPVHTSPREVAGPVDVLILAVKATQNDAARPWLTRLCDERTVVAVLQNGVEQVEQVQPHCPSSAVVPAIVWCSAETQPQGWVRLRGEAALVVPTGPAAEQFAGLLRGAGATVDCDPDFTTAAWRKLLVNALAGFMVLSGRRSAMFRRDDVAALSRRYVAECLAVARAEGARLDDDVVDEVVRLVRSAPQDMGTSMLADRAAHRPLEWDLRNGVIVRKARAHGLATPISDVLVPLLAAASDGPG 4oln-a1-m1-cB_4oln-a1-m1-cA Ancestral Steroid Receptor 1 in complex with estrogen response element DNA 1.7 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 67 70 KRLCQVCGDHASGFHYGVWSCEGCKAFFKRSIQDYVCPATNNCTIDKHRRKSCQACRLRKCLEVGMT KPKRLCQVCGDHASGFHYGVWSCEGCKAFFKRSIQVDYVCPATNNCTIDKHRRKSCQACRLRKCLEVGMT 4olp-a2-m3-cD_4olp-a2-m3-cC Ligand-free structure of the GrpU microcompartment shell protein from Pectobacterium wasabiae 2.79 X-RAY DIFFRACTION 47 1.0 561231 (Pectobacterium parmentieri WPP163) 561231 (Pectobacterium parmentieri WPP163) 80 87 4olp-a2-m1-cD_4olp-a2-m1-cC 4olp-a2-m1-cD_4olp-a2-m2-cC 4olp-a2-m2-cD_4olp-a2-m2-cC 4olp-a2-m2-cD_4olp-a2-m3-cC 4olp-a2-m3-cD_4olp-a2-m1-cC KKRIINAPTLETLAMLKRRMPSESRNRIDAIGLIMLPVPDLYFYADQASKSAHVAVSEIFTLAIFGEVAAVNEAMRIIED KKRIINAPTLETLAMLKRRMPSESRNRLEMVRIDAIGLIMLPVPDLYFYADQASKSAHVAVSEIFITTLAIFGEVAAVNEAMRIIED 4olr-a1-m5-cA_4olr-a1-m6-cB [Leu-5]-Enkephalin mutant - YVVFV 1.1 X-RAY DIFFRACTION 11 1.0 32630 (synthetic construct) 32630 (synthetic construct) 5 5 4olr-a1-m1-cB_4olr-a1-m2-cA 4olr-a1-m2-cB_4olr-a1-m3-cA 4olr-a1-m4-cA_4olr-a1-m5-cB YVVFV YVVFV 4olr-a1-m6-cA_4olr-a1-m6-cB [Leu-5]-Enkephalin mutant - YVVFV 1.1 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 32630 (synthetic construct) 5 5 4olr-a1-m1-cA_4olr-a1-m1-cB 4olr-a1-m2-cA_4olr-a1-m2-cB 4olr-a1-m3-cA_4olr-a1-m3-cB 4olr-a1-m4-cA_4olr-a1-m4-cB 4olr-a1-m5-cA_4olr-a1-m5-cB YVVFV YVVFV 4om4-a1-m1-cA_4om4-a1-m1-cB Crystal structure of CTX A2 from Taiwan Cobra (Naja naja atra) P01442 P01442 2.74 X-RAY DIFFRACTION 28 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om4-a1-m1-cA_4om4-a1-m1-cC Crystal structure of CTX A2 from Taiwan Cobra (Naja naja atra) P01442 P01442 2.74 X-RAY DIFFRACTION 12 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om4-a1-m1-cA_4om4-a1-m1-cE Crystal structure of CTX A2 from Taiwan Cobra (Naja naja atra) P01442 P01442 2.74 X-RAY DIFFRACTION 11 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om4-a1-m1-cC_4om4-a1-m1-cE Crystal structure of CTX A2 from Taiwan Cobra (Naja naja atra) P01442 P01442 2.74 X-RAY DIFFRACTION 10 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om4-a1-m1-cD_4om4-a1-m1-cE Crystal structure of CTX A2 from Taiwan Cobra (Naja naja atra) P01442 P01442 2.74 X-RAY DIFFRACTION 10 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN LKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om5-a1-m1-cA_4om5-a1-m1-cB Crystal structure of CTX A4 from Taiwan Cobra (Naja naja atra) P01443 P01443 2.55 X-RAY DIFFRACTION 19 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 RKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN RKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om5-a1-m1-cA_4om5-a1-m1-cC Crystal structure of CTX A4 from Taiwan Cobra (Naja naja atra) P01443 P01443 2.55 X-RAY DIFFRACTION 20 1.0 8656 (Naja atra) 8656 (Naja atra) 60 60 RKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN RKCNKLVPLFYKTCPAGKNLCYKMFMVSNLTVPVKRGCIDVCPKNSALVKYVCCNTDRCN 4om7-a1-m1-cA_4om7-a1-m1-cB Crystal structure of TIR domain of TLR6 Q9Y2C9 Q9Y2C9 2.204 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 143 LQFHAFISYSEHDSAWVKSELVPYLEKEDIQICLHERNFVPGKSIVENIINCIEKSYKSIFVLSPNFVQSEWCHYELYFAHHNLFHEGSNNLILILLEPIPQNSIPNKYHKLKALMTQRTYLQWPKEKSKRGLFWANIRAAFN LQFHAFISYSEHDSAWVKSELVPYLEKEDIQICLHERNFVPGKSIVENIINCIEKSYKSIFVLSPNFVQSEWCHYELYFAHHNLFHEGSNNLILILLEPIPQNSIPNKYHKLKALMTQRTYLQWPKEKSKRGLFWANIRAAFN 4om8-a2-m1-cB_4om8-a2-m3-cB Crystal structure of 5-formly-3-hydroxy-2-methylpyridine 4-carboxylic acid (FHMPC) 5-dehydrogenase, an NAD+ dependent dismutase. Q988C8 Q988C8 1.55 X-RAY DIFFRACTION 368 1.0 266835 (Mesorhizobium japonicum MAFF 303099) 266835 (Mesorhizobium japonicum MAFF 303099) 309 309 4om8-a1-m1-cA_4om8-a1-m2-cA MIRNIAIIGLGTMGPGMAARLARGGLQVVAYDVAPAAIERARSMLSVAETVLDALGIALPSAGVGTVRFTDDIGDAVSGADLVIENVPENISIKADVYRTIDGLIGQDTIVASDTSGIPITKLQAHISYPERMVGMHWSNPPHIIPMIEVIAGEKTAPQTVATIRDLIRSIGLLPVVVKKDVPGFVENRVLYALLREAVDLVERGVIDPEDLDTCVSWGIGYKIAVIGPMALLDMAGLDIYKSVSSFLNADLSNRDDVAPMVLEKTSASKFGIKSGEGMFCYTPEQTKALQAERARKLVAVRRILEGRE MIRNIAIIGLGTMGPGMAARLARGGLQVVAYDVAPAAIERARSMLSVAETVLDALGIALPSAGVGTVRFTDDIGDAVSGADLVIENVPENISIKADVYRTIDGLIGQDTIVASDTSGIPITKLQAHISYPERMVGMHWSNPPHIIPMIEVIAGEKTAPQTVATIRDLIRSIGLLPVVVKKDVPGFVENRVLYALLREAVDLVERGVIDPEDLDTCVSWGIGYKIAVIGPMALLDMAGLDIYKSVSSFLNADLSNRDDVAPMVLEKTSASKFGIKSGEGMFCYTPEQTKALQAERARKLVAVRRILEGRE 4omf-a1-m1-cG_4omf-a1-m2-cG The F420-reducing [NiFe]-hydrogenase complex from Methanothermobacter marburgensis, the first X-ray structure of a group 3 family member D9PYF7 D9PYF7 1.71 X-RAY DIFFRACTION 66 1.0 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 231 231 4ci0-a1-m10-cB_4ci0-a1-m11-cB 4ci0-a1-m12-cB_4ci0-a1-m9-cB 4ci0-a1-m1-cB_4ci0-a1-m4-cB 4ci0-a1-m2-cB_4ci0-a1-m3-cB 4ci0-a1-m5-cB_4ci0-a1-m8-cB 4ci0-a1-m6-cB_4ci0-a1-m7-cB AKPRIGYIHLSGCTGDAMSLTENYDILAELLTNMVDIVYGQTLVDLWEMPEMDLALVEGSVCLQDEHSLHELKELREKAKLVCAFGSCAATGCFTRYSRGGQQAQPSHESFVPIADLIDVDLALPGCPPSPEIIAKTVVALLNNDMDYLQPMLDLAGYTEACGCDLQTKVVNQGLCIGCGTCAMACQTRALDMTNGRPELNSDRCIKCGICYVQCPRSWWPEEQIKKELGL AKPRIGYIHLSGCTGDAMSLTENYDILAELLTNMVDIVYGQTLVDLWEMPEMDLALVEGSVCLQDEHSLHELKELREKAKLVCAFGSCAATGCFTRYSRGGQQAQPSHESFVPIADLIDVDLALPGCPPSPEIIAKTVVALLNNDMDYLQPMLDLAGYTEACGCDLQTKVVNQGLCIGCGTCAMACQTRALDMTNGRPELNSDRCIKCGICYVQCPRSWWPEEQIKKELGL 4omt-a1-m1-cA_4omt-a1-m2-cA Crystal structure of human muscle phosphofructokinase (dissociated homodimer) P08237 P08237 6 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 748 748 AAKTLGIGKAIAVLTSGGDAQGMNAAVRAVVRVGIFTGARVFFVHEGYQGLVDGGDHIKEATWESVSMMLQLGGTVIGSARCKDFREREGRLRAAYNLVKRGITNLCVIGGDGSLTGADTFRSEWSDLLSDLQKAGKITDEEATKSSYLNIVGLVGSIDNDFCGTDMTIGTDSALHRIMEIVDAITTTAQSHQRTFVLEVMGRHCGYLALVTSLSCGADWVFIPECPPDDDWEEHLCRRLSETRTRGSRLNIIIVAEGAIDKNGKPITSEDIKNLVVKRLGYDTRVTVLGHVQRGGTPSAFDRILGSRMGVEAVMALLEGTPDTPACVVSLSGNQAVRLPLMECVQVTKDVTKAMDEKKFDEALKLRGRSFMNNWEVYKLLAHVRPPVSKSGSHTVAVMNVGAPAAGMNAAVRSTVRIGLIQGNRVLVVHDGFEGLAKGQIEEAGWSYVGGWTGQGGSKLGTKRTLPKKSFEQISANITKFNIQGLVIIGGFEAYTGGLELMEGRKQFDELCIPFVVIPATVSNNVPGSDFSVGADTALNTICTTCDRIKQSAAGTKRRVFIIETMGGYCGYLATMAGLAAGADAAYIFEEPFTIRDLQANVEHLVQKMKTTVKRGLVLRNEKCNENYTTDFIFNLYSEEGKGIFDSRKNVLGHMQQGGSPTPFDRNFATKMGAKAMNWMSGKIKESYRNGRIFANTPDSGCVLGMRKRALVFQPVAELKDQTDFEHRIPKEQWWLKLRPILKILAKY AAKTLGIGKAIAVLTSGGDAQGMNAAVRAVVRVGIFTGARVFFVHEGYQGLVDGGDHIKEATWESVSMMLQLGGTVIGSARCKDFREREGRLRAAYNLVKRGITNLCVIGGDGSLTGADTFRSEWSDLLSDLQKAGKITDEEATKSSYLNIVGLVGSIDNDFCGTDMTIGTDSALHRIMEIVDAITTTAQSHQRTFVLEVMGRHCGYLALVTSLSCGADWVFIPECPPDDDWEEHLCRRLSETRTRGSRLNIIIVAEGAIDKNGKPITSEDIKNLVVKRLGYDTRVTVLGHVQRGGTPSAFDRILGSRMGVEAVMALLEGTPDTPACVVSLSGNQAVRLPLMECVQVTKDVTKAMDEKKFDEALKLRGRSFMNNWEVYKLLAHVRPPVSKSGSHTVAVMNVGAPAAGMNAAVRSTVRIGLIQGNRVLVVHDGFEGLAKGQIEEAGWSYVGGWTGQGGSKLGTKRTLPKKSFEQISANITKFNIQGLVIIGGFEAYTGGLELMEGRKQFDELCIPFVVIPATVSNNVPGSDFSVGADTALNTICTTCDRIKQSAAGTKRRVFIIETMGGYCGYLATMAGLAAGADAAYIFEEPFTIRDLQANVEHLVQKMKTTVKRGLVLRNEKCNENYTTDFIFNLYSEEGKGIFDSRKNVLGHMQQGGSPTPFDRNFATKMGAKAMNWMSGKIKESYRNGRIFANTPDSGCVLGMRKRALVFQPVAELKDQTDFEHRIPKEQWWLKLRPILKILAKY 4omu-a3-m1-cA_4omu-a3-m1-cB Crystal structure of shikimate dehydrogenase (AroE) from Pseudomonas putida Q88RQ5 Q88RQ5 1.65 X-RAY DIFFRACTION 122 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 274 282 MDQYVVFGNPIGHSKSPLIHRLFAEQTGQDLEYATLLAPLDEFSDCARGFFKQGSGGNVTVPFKEEAFRLCDSLTPRARRAGAVNTLSKLADGTLQGDNTDGAGLVRDLTVNAGVELAGKRILILGAGGAVRGVLEPILAHKPQSLVIANRTVEKAEQLAREFDELGPVVASGFAWLQEPVDVIINATSASLAGELPPIADSLVEAGRTVCYDMMYGKEPTPFCQWATKLGAAKVLDGLGMLAEQAAEAFFIWRGVRPDTAPVLAELRRQLARG MDQYVVFGNPIGHSKSPLIHRLFAEQTGQDLEYATLLAPLDEFSDCARGFFKQGSGGNVTVPFKEEAFRLCDSLTPRARRAGAVNTLSKLADGTLQGDNTDGAGLVRDLTVNAGVELAGKRILILGAGGAVRGVLEPILAHKPQSLVIANRTVEKAEQLAREFDELGPVVASGFAWLQEPVDVIINATSASLAGELPPIADSLVEAGRTVCYDMMYGKEPTPFCQWATKLGAAKVLDGLGMLAEQAAEAFFIWRGVRPDTAPVLAELRRQLARGSRENLYFQ 4omv-a1-m1-cA_4omv-a1-m1-cB Crystal Structure of a Putative Macrophage Growth Locus, subunit A From Francisella tularensis SCHU S4 Q5NFG1 Q5NFG1 2.75 X-RAY DIFFRACTION 57 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 194 198 4pur-a1-m1-cB_4pur-a1-m1-cA AMLLYTKKDDIYSDIVRMILLIKGANAKIVDVSKEENSKHLEELNIITPNGNIPTLSTDDFAVYRLSVIIEAIEDLYPFPPMFPVFPKQRANARILLEYVNKTFLQNIIKLQSPDLDEKQANEIKMLMQRDIISTYKKIVSERAQNINVLTLIITFVFYYFIKLKISIPTKDKNIIKEIKELLSEPNFIKTIKA AMLLYTKKDDIYSDIVRMILLIKGANAKIVDVSKEENSKHLEELNIITPNGNIPTLSTDDFAVYRLSVIIEAIEDLYPFPPMFPVFPKQRANARILLEYVNKTFLQNIIKLQSPDLDEKQANEIKMLMQRDIISTYKKIVSEREPDAQNINVLTLIITFVFYYFIKLKISIPTKDKNIIKEIKELLSEPNFIKTIKAK 4omz-a2-m1-cD_4omz-a2-m1-cC Crystal Structure of NolR from Sinorhizobium fredii Q83TD2 Q83TD2 2.64 X-RAY DIFFRACTION 103 1.0 380 (Sinorhizobium fredii) 380 (Sinorhizobium fredii) 98 100 4omy-a1-m1-cA_4omy-a1-m1-cB 4omy-a2-m1-cC_4omy-a2-m1-cD 4omz-a1-m1-cA_4omz-a1-m1-cB 4omz-a3-m1-cE_4omz-a3-m1-cF 4omz-a4-m1-cH_4omz-a4-m1-cG 4on0-a1-m1-cA_4on0-a1-m1-cB 4on0-a2-m1-cC_4on0-a2-m1-cD MQPLSPEKHEEAEIAAGFLSAMANPKRLLILDSLVKEEMAVGALANKVGLSQSALSQHLSKLRAQNLVSTRRDAQTIYYSSSSDSVMKILGALSEIYG MQPLSPEKHEEAEIAAGFLSAMANPKRLLILDSLVKEEMAVGALANKVGLSQSALSQHLSKLRAQNLVSTRRDAQTIYYSSSSDSVMKILGALSEIYGAA 4on3-a1-m1-cA_4on3-a1-m1-cB Crystal structure of human sorting nexin 10 (SNX10) Q9Y5X0 Q9Y5X0 2.6 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 151 4pzg-a1-m1-cB_4pzg-a1-m1-cA EEFVSVWVRDPRIQKEDFWHSYIDYEICIHTNSMAFTMKTSCVRRRYREFVWLRQRLQSNALLVQLPELPSKNLFFNMNNRQHVDQRRQGLEDFLRKVLQNALLLSDSSLHLFLQSHLNSEDIEACVSGQTKYSVEEAIHKFALMNRRFP EEFVSVWVRDPRIQKEDFWHSYIDYEICIHTNSMAFTMKTSCVRRRYREFVWLRQRLQSNALLVQLPELPSKNLFFNMNNRQHVDQRRQGLEDFLRKVLQNALLLSDSSLHLFLQSHLNSEDIEACVSGQTKYSVEEAIHKFALMNRRFPE 4onh-a1-m1-cA_4onh-a1-m2-cA Crystal Structure of DN6 TCR P01848 P01848 3.008 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 PKVVQSPLSLVVHEGDTVTLNCSYEVTNFRSLLWYKQEKKAPTFLFMLTSSGIEKKSGRLSSILDKKELFSILNITATQTGDSAVYLCAWAGGTSYGKLTFGQGTILTVHPNIQKPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPS PKVVQSPLSLVVHEGDTVTLNCSYEVTNFRSLLWYKQEKKAPTFLFMLTSSGIEKKSGRLSSILDKKELFSILNITATQTGDSAVYLCAWAGGTSYGKLTFGQGTILTVHPNIQKPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPS 4onj-a1-m1-cA_4onj-a1-m1-cB Crystal structure of the catalytic domain of ntDRM Q76KU6 Q76KU6 2.807 X-RAY DIFFRACTION 45 0.997 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 331 333 RLPKPMIGFGVPTEPLPAMVRRTLPEQAVGPPFFYYENVALAPKGVWDTISRFLYDIEPEFVDSKYFCAAARKRGYIHNLPVENRFPLFPLAPRTIHEALPLSKKWWPSWDPRTKLNCLQTAIGSAQLTNRIRKAVEDFDGEPPMRVQKFVLDQCRKWNLVWVGRNKVAPLEPDEVEMLLGFPKNHTRGGGISRTDRYKSLGNSFQVDTVAYHLSVLKDLFPGGINVLSLFSGIGGGEVALYRLGIPLNTVVSVEKSEVNRDIVRSWWEQTNQRGNLIHFNDVQQLNGDRLEQLIESFGGFDLVIGGSPESSLFYDYVRILDLVKSIMSRH IRLPKPMIGFGVPTEPLPAMVRRTLPEQAVGPPFFYYENVALAPKGVWDTISRFLYDIEPEFVDSKYFCAAARKRGYIHNLPVENRFPLFPLAPRTIHEALPLSKKWWPSWDPRTKLNCLQTAIGSAQLTNRIRKAVEDFDGEPPMRVQKFVLDQCRKWNLVWVGRNKVAPLEPDEVEMLLGFPKNHTRGGGISRTDRYKSLGNSFQVDTVAYHLSVLKDLFPGGINVLSLFSGIGGGEVALYRLGIPLNTVVSVEKSEVNRDIVRSWWEQTNQRGNLIHFNDVQQLNGDRLEQLIESFGGFDLVIGGSPCNESSLFYDYVRILDLVKSIMSR 4onk-a1-m5-cA_4onk-a1-m6-cB [Leu-5]-Enkephalin mutant - YVVFL 1.9 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 32630 (synthetic construct) 5 5 4onk-a1-m1-cA_4onk-a1-m2-cB 4onk-a1-m2-cA_4onk-a1-m3-cB 4onk-a1-m4-cA_4onk-a1-m5-cB YVVFL YVVFL 4onk-a1-m6-cA_4onk-a1-m6-cB [Leu-5]-Enkephalin mutant - YVVFL 1.9 X-RAY DIFFRACTION 13 1.0 32630 (synthetic construct) 32630 (synthetic construct) 5 5 4onk-a1-m1-cA_4onk-a1-m1-cB 4onk-a1-m2-cA_4onk-a1-m2-cB 4onk-a1-m3-cA_4onk-a1-m3-cB 4onk-a1-m4-cA_4onk-a1-m4-cB 4onk-a1-m5-cA_4onk-a1-m5-cB YVVFL YVVFL 4onx-a1-m1-cB_4onx-a1-m1-cA 2.8 Angstrom Crystal Structure of Sensor Domain of Histidine Kinase from Clostridium perfringens. A0A0H2YV09 A0A0H2YV09 2.8 X-RAY DIFFRACTION 134 1.0 195103 (Clostridium perfringens ATCC 13124) 195103 (Clostridium perfringens ATCC 13124) 119 122 4onx-a1-m1-cD_4onx-a1-m1-cC 4onx-a1-m1-cE_4onx-a1-m1-cF YDEDVRNTLKETAFSISEIPFIQEDLSNGEINSRIQEYTKHFIEAINDVDIIVVADRGVKYSHLDEKQIGQVFVNEDKKEVLTQGSSYYSLKGSGETLRWFQPVYNGKQVGFIVGKYYN YDEDVRNTLKETAFSISEIPFIQEDLSNGEINSRIQEYTKHFIEAINDVDIIVVADRGVKYSHLDEKQIGQVFVNEDKKEVLTQGSSYYSLKGSGETLRWFQPVYNGKQVGFIVGKYYNEIQ 4onx-a1-m1-cB_4onx-a1-m1-cF 2.8 Angstrom Crystal Structure of Sensor Domain of Histidine Kinase from Clostridium perfringens. A0A0H2YV09 A0A0H2YV09 2.8 X-RAY DIFFRACTION 47 1.0 195103 (Clostridium perfringens ATCC 13124) 195103 (Clostridium perfringens ATCC 13124) 119 123 4onx-a1-m1-cA_4onx-a1-m1-cC 4onx-a1-m1-cD_4onx-a1-m1-cE YDEDVRNTLKETAFSISEIPFIQEDLSNGEINSRIQEYTKHFIEAINDVDIIVVADRGVKYSHLDEKQIGQVFVNEDKKEVLTQGSSYYSLKGSGETLRWFQPVYNGKQVGFIVGKYYN DKLSYDEDVRNTLKETAFSISEIPFIQEDLSNGEINSRIQEYTKHFIEAINDVDIIVVADRGVKYSHLDEKQIGQVFVNEDKKEVLTQGSSYYSLKGSGETLRWFQPVYNGKQVGFIVGKYYN 4oo0-a1-m1-cB_4oo0-a1-m1-cA Crystal Structure of Maf-like protein BceJ2315_23540 from Burkholderia cenocepacia B4E5S2 B4E5S2 2.15 X-RAY DIFFRACTION 71 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 204 208 TPLFQTLYLASQSPRRQELLQQIGVRFELLLPRPDEDAEALEAELPGEAADAYVRRVTVAKAEAARARLVASGKPAAPVLVADTTVTIDGAILGKPTDADDALAMLTRLAGREHAVLTAVAVIDASGELLPPALSRSSVRFAAASRDAYVRYVETGEPFGKAGAYAIQGRAAEFIERIDGSHSGIMGLPLFETAALLRTARVAF ALFPTPLFQTLYLASQSPRRQELLQQIGVRFELLLPRPDEDAEALEAELPGEAADAYVRRVTVAKAEAARARLVASGKPAAPVLVADTTVTIDGAILGKPTDADDALAMLTRLAGREHAVLTAVAVIDASGELLPPALSRSSVRFAAASRDAYVRYVETGEPFGKAGAYAIQGRAAEFIERIDGSHSGIMGLPLFETAALLRTARVAF 4oo2-a1-m1-cA_4oo2-a1-m1-cD Streptomyces globisporus C-1027 FAD dependent (S)-3-chloro-β-tyrosine-S-SgcC2 C-5 hydroxylase SgcC apo form Q8GMG6 Q8GMG6 2.63 X-RAY DIFFRACTION 43 1.0 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 495 497 4oo2-a1-m1-cB_4oo2-a1-m1-cC TRPLTGEEYLESLRDAREVYLDGSRVKDVTAHPAFHNPARTARLYDSLHDPAQKAVLTAPTDAGDGFTHRFFTAPRSVDDLVKDQAAIASWARKSYGWGRSPDYKASFLGTLGANADFYEPFADNARRWYRESQEKVLYWNHAFLHPPVDRSEVGDVFIHVERETDAGLVVSGAKVVATGSALTHAAFISHWGLPIKDRKFALVATVPDADGLKVICRPSYSANAATTGSPFDNPLSSRLDENDAILVLDQVLIPWENVFVYGNLGKVHLLAGQSGIERATFHGCTRLAVKLEFIAGLLAKALDITGAKDFRGVQTRLGEVLAWRNLFWSLSDAAARNPVPWKNGTLLPNPQAGAYRWFQIGYPRVLEIVQQDVASGLYVNSSTEDFRNPETGPYLEKYLRGSDGAGAVERVKVKLLWDAVGSDFGGRHELYERNYSGNHENTRIELLLSQTASGKLDSYDFAQACDEYDLDGWTAPDLESFHARSASRDLLGGL GTRPLTGEEYLESLRDAREVYLDGSRVKDVTAHPAFHNPARTARLYDSLHDPAQKAVLTAPTDAGDGFTHRFFTAPRSVDDLVKDQAAIASWARKSYGWGRSPDYKASFLGTLGANADFYEPFADNARRWYRESQEKVLYWNHAFLHPPVDRSDEVGDVFIHVERETDAGLVVSGAKVVATGSALTHAAFISHWGLPIKDRKFALVATVPDADGLKVICRPSYSANAATTGSPFDNPLSSRLDENDAILVLDQVLIPWENVFVYGNLGKVHLLAGQSGIERATFHGCTRLAVKLEFIAGLLAKALDITGAKDFRGVQTRLGEVLAWRNLFWSLSDAAARNPVPWKNGTLLPNPQAGAYRWFQIGYPRVLEIVQQDVASGLYVNSSTEDFRNPETGPYLEKYLRGSDGAGAVERVKVKLLWDAVGSDFGGRHELYERNYSGNHENTRIELLLSQTASGKLDSYDFAQACDEYDLDGWTAPDLESFHARSASRDLLGGL 4oo2-a1-m1-cB_4oo2-a1-m1-cD Streptomyces globisporus C-1027 FAD dependent (S)-3-chloro-β-tyrosine-S-SgcC2 C-5 hydroxylase SgcC apo form Q8GMG6 Q8GMG6 2.63 X-RAY DIFFRACTION 249 1.0 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 488 497 4oo2-a1-m1-cA_4oo2-a1-m1-cC TRPLTGEEYLESLRDAREVYLDGSRVKDVTAHPAFHNPARTARLYDSLHDPAQKAVLTAPTDAGDGFTHRFFTAPRSVDDLVKDQAAIASWARKSYGWGRSPDYKASFLGTLGANADFYEPFADNARRWYRESQEKVLYWNHAFLHPPGDVFIHVERETDAGLVVSGAKVVATGSALTHAAFISHWGLPIKDRKFALVATVPDADGLKVICRPSYSANAATTGSPFDNPLSSRLDENDAILVLDQVLIPWENVFVYGNLGKVHLLAGQSGIERATFHGCTRLAVKLEFIAGLLAKALDITGAKDFRGVQTRLGEVLAWRNLFWSLSDAAARNPVPWKNGTLLPNPQAGAYRWFQIGYPRVLEIVQQDVASGLYVNSSTEDFRNPETGPYLEKYLRGSDGAGAVERVKVKLLWDAVGSDFGGRHELYERNYSGNHENTRIELLLSQTASGKLDSYDFAQACDEYDLDGWTAPDLESFHARSASRDLLGG GTRPLTGEEYLESLRDAREVYLDGSRVKDVTAHPAFHNPARTARLYDSLHDPAQKAVLTAPTDAGDGFTHRFFTAPRSVDDLVKDQAAIASWARKSYGWGRSPDYKASFLGTLGANADFYEPFADNARRWYRESQEKVLYWNHAFLHPPVDRSDEVGDVFIHVERETDAGLVVSGAKVVATGSALTHAAFISHWGLPIKDRKFALVATVPDADGLKVICRPSYSANAATTGSPFDNPLSSRLDENDAILVLDQVLIPWENVFVYGNLGKVHLLAGQSGIERATFHGCTRLAVKLEFIAGLLAKALDITGAKDFRGVQTRLGEVLAWRNLFWSLSDAAARNPVPWKNGTLLPNPQAGAYRWFQIGYPRVLEIVQQDVASGLYVNSSTEDFRNPETGPYLEKYLRGSDGAGAVERVKVKLLWDAVGSDFGGRHELYERNYSGNHENTRIELLLSQTASGKLDSYDFAQACDEYDLDGWTAPDLESFHARSASRDLLGGL 4oo2-a1-m1-cD_4oo2-a1-m1-cC Streptomyces globisporus C-1027 FAD dependent (S)-3-chloro-β-tyrosine-S-SgcC2 C-5 hydroxylase SgcC apo form Q8GMG6 Q8GMG6 2.63 X-RAY DIFFRACTION 238 0.998 1908 (Streptomyces globisporus) 1908 (Streptomyces globisporus) 497 499 4oo2-a1-m1-cB_4oo2-a1-m1-cA GTRPLTGEEYLESLRDAREVYLDGSRVKDVTAHPAFHNPARTARLYDSLHDPAQKAVLTAPTDAGDGFTHRFFTAPRSVDDLVKDQAAIASWARKSYGWGRSPDYKASFLGTLGANADFYEPFADNARRWYRESQEKVLYWNHAFLHPPVDRSDEVGDVFIHVERETDAGLVVSGAKVVATGSALTHAAFISHWGLPIKDRKFALVATVPDADGLKVICRPSYSANAATTGSPFDNPLSSRLDENDAILVLDQVLIPWENVFVYGNLGKVHLLAGQSGIERATFHGCTRLAVKLEFIAGLLAKALDITGAKDFRGVQTRLGEVLAWRNLFWSLSDAAARNPVPWKNGTLLPNPQAGAYRWFQIGYPRVLEIVQQDVASGLYVNSSTEDFRNPETGPYLEKYLRGSDGAGAVERVKVKLLWDAVGSDFGGRHELYERNYSGNHENTRIELLLSQTASGKLDSYDFAQACDEYDLDGWTAPDLESFHARSASRDLLGGL GTRPLTGEEYLESLRDAREVYLDGSRVKDVTAHPAFHNPARTARLYDSLHDPAQKAVLTAPTDAGDGFTHRFFTAPRSVDDLVKDQAAIASWARKSYGWGRSPDYKASFLGTLGANADFYEPFADNARRWYRESQEKVLYWNHAFLHPPVDRSLPADEVGDVFIHVERETDAGLVVSGAKVVATGSALTHAAFISHWGLPIKDRKFALVATVPDADGLKVICRPSYSANAATTGSPFDNPLSSRLDENDAILVLDQVLIPWENVFVYGNLGKVHLLAGQSGIERATFHGCTRLAVKLEFIAGLLAKALDITGAKDFRGVQTRLGEVLAWRNLFWSLSDAAARNPVPWKNGTLLPNPQAGAYRWFQIGYPRVLEIVQQDVASGLYVNSSTEDFRNPETGPYLEKYLRGSDGAGAVERVKVKLLWDAVGSDFGGRHELYERNYSGNHENTRIELLLSQTASGKLDSYDFAQACDEYDLDGWTAPDLESFHARSASRDLLGG 4ooa-a2-m1-cC_4ooa-a2-m1-cD CRYSTAL STRUCTURE of NAF1 (MINER1): H114C THE REDOX-ACTIVE 2FE-2S PROTEIN Q8N5K1 Q8N5K1 1.58 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 3fnv-a1-m1-cA_3fnv-a1-m1-cB 4oo7-a1-m1-cA_4oo7-a1-m1-cB 4ooa-a1-m1-cA_4ooa-a1-m1-cB 4ooa-a3-m1-cE_4ooa-a3-m1-cF 7p0p-a1-m1-cA_7p0p-a1-m1-cB 7p0p-a2-m1-cC_7p0p-a2-m1-cD SLINLKIQKENPKVVNEINIEDLSLTKAAYCRCWRSKTFPACDGSCNKHNELTGDNVGPLILKK SLINLKIQKENPKVVNEINIEDLSLTKAAYCRCWRSKTFPACDGSCNKHNELTGDNVGPLILKK 4oob-a2-m1-cA_4oob-a2-m2-cA Crystal structure of HtdX(Rv0241c) from Mycobacterium tuberculosis O53664 O53664 2.3 X-RAY DIFFRACTION 97 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 245 245 TVTVEELPIDPANVAAYAAVTGLRYGNQVPLTYPFALTFPSVMSLVTGFDFPFAAMGAIHTENHITQYRPIAVTDAVGVRVRAENLREHRRGLLVDLVTNVSVGNDVAWHQVTTFLHQQRTSLSGEPKPPPQKPPPAAVLRITPAKIRRYAAVGGDHNPIHTNPIAAKLFGFPTVIAHGMFTAAAVLANIEARFPDAVRYSVRFAKPVLLPATAGLYVAEGDGGWDLTLRNMKGYPHLTATVRGL TVTVEELPIDPANVAAYAAVTGLRYGNQVPLTYPFALTFPSVMSLVTGFDFPFAAMGAIHTENHITQYRPIAVTDAVGVRVRAENLREHRRGLLVDLVTNVSVGNDVAWHQVTTFLHQQRTSLSGEPKPPPQKPPPAAVLRITPAKIRRYAAVGGDHNPIHTNPIAAKLFGFPTVIAHGMFTAAAVLANIEARFPDAVRYSVRFAKPVLLPATAGLYVAEGDGGWDLTLRNMKGYPHLTATVRGL 4ooi-a1-m1-cA_4ooi-a1-m1-cB Reduced HlyU from Vibrio cholerae N16961 P52695 P52695 2.2 X-RAY DIFFRACTION 82 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 95 96 4k2e-a1-m1-cB_4k2e-a1-m1-cA 4k2e-a2-m1-cD_4k2e-a2-m1-cC 4ooi-a2-m1-cD_4ooi-a2-m1-cC LQEMEKNSAKAVVLLKAMANERRLQILCMLLDNELSVGELSSRLELSQSALSQHLAWLRRDGLVNTRKEAQTVFYTLSSTEVKAMIELLHRLYCQ NLQEMEKNSAKAVVLLKAMANERRLQILCMLLDNELSVGELSSRLELSQSALSQHLAWLRRDGLVNTRKEAQTVFYTLSSTEVKAMIELLHRLYCQ 4ope-a2-m1-cD_4ope-a2-m1-cC Streptomcyes albus JA3453 oxazolomycin ketosynthase domain OzmH KS7 B2WW42 B2WW42 2.58 X-RAY DIFFRACTION 219 1.0 1888 (Streptomyces albus) 1888 (Streptomyces albus) 554 570 4ope-a1-m1-cB_4ope-a1-m1-cA DEIVIVGVAGRYPKADDLAQFWRNLREGRDCVEEVPEDRWDHGRFYDPDPAAPGKAYAKWGGWLSDVASFDPFFRSQVEAEHIDPQERIFLQTVWHLLEDAGTSRAALSKVRTGVFVGLYGHYQLYGVEEALRGTGAATSSSYASVANRVSYFFDFDGPSIALDTCSSSLTALHLACRAIRDGDCEVAVAGGVNVSSHPLKYLQLAKGGFLSTDGRCRSFGEGGDGYVPAEGSGAVLLKRRSAAEADGDRVLAVVRSTAVNHGGAGKGFSVPNPRAQGVLIGEALERAGLAPADLGYLEAHGTGTSLGDPVEITGLVRAFQGHDLTGVRIPIGSVKSGIGHAESAAGAALTKVLLQFRHQELVPSLHAERLNPHLDLDATPFRLQRDLAPWTPPRTAAISAFGAGGSNAHVILEESVPQEPPYVCALSARDAERLHEHTARTAEFLRGEGRAAHPAAVAATLLTREPAHRLAVVFDTVDDLADALEDHLAPRVLTGTASRAAAPATGRTAPELAEAWVRGAPVAAPAGAPRVSLPGYPFARERCWLPAADAVRR DDEIVIVGVAGRYPKADDLAQFWRNLREGRDCVEEVPEDRWDHGRFYDPDPAAPGKAYAKWGGWLSDVASFDPFFRSQVEAEHIDPQERIFLQTVWHLLEDAGTSRAALSKVRTGVFVGLYGHYQLYGVEEALRGTGAATSSSYASVANRVSYFFDFDGPSIALDTCSSSLTALHLACRAIRDGDCEVAVAGGVNVSSHPLKYLQLAKGGFLSTDGRCRSFGEGGDGYVPAEGSGAVLLKRRSAAEADGDRVLAVVRSTAVNHGGAGKGFSVPNPRAQGVLIGEALERAGLAPADLGYLEAHGTGTSLGDPVEITGLVRAFQGHDLTGVRIPIGSVKSGIGHAESAAGAALTKVLLQFRHQELVPSLHAERLNPHLDLDATPFRLQRDLAPWTPRVDATGRALPRTAAISAFGAGGSNAHVILEESVPPTQTPAQEPPYVCALSARDAERLHEHTARTAEFLRGEGRAAHPAAVAATLLTREPAHRLAVVFDTVDDLADALEDHLAPRVLTGTASRAAAPATGRTAPELAEAWVRGAPVAAPAGAPRVSLPGYPFARERCWLPAADAVRR 4opf-a1-m1-cA_4opf-a1-m2-cA Streptomcyes albus JA3453 oxazolomycin ketosynthase domain OzmH KS8 B2WW42 B2WW42 2.12 X-RAY DIFFRACTION 138 1.0 1888 (Streptomyces albus) 1888 (Streptomyces albus) 363 363 PYDIAVVGSGRFPGAPDLDAYWRLLSEGRSAIAGLLDLEGFDPGHFHLSDADAAADPQALLLLEETLFAFCDAGYAPDELKGRGIGVYVGGRSRGQNYLAANLSHHFDLRGPSTVVDTACSSALVALHHAAQALRSGDVEAAVVAGVTLLPHVFDRRARGFTPAEGVGVLLLKPLAAAEAAGDRVHAVLKGIAVNNDGRTAGPATPNPAAQRGVARALAKAGVAADDVTYIETNAAGSQIPDLIELKAIAAVYRDGSDTPCSLGSVKPNIGHPQCAEGIAGVIKTVLLRNRAIVPFLSGRQPLEHFDFAATPLRFERALTPWPDAPLLAAVSSFADGGTNAHAVLAGRGRRAPLDRPRLARRG PYDIAVVGSGRFPGAPDLDAYWRLLSEGRSAIAGLLDLEGFDPGHFHLSDADAAADPQALLLLEETLFAFCDAGYAPDELKGRGIGVYVGGRSRGQNYLAANLSHHFDLRGPSTVVDTACSSALVALHHAAQALRSGDVEAAVVAGVTLLPHVFDRRARGFTPAEGVGVLLLKPLAAAEAAGDRVHAVLKGIAVNNDGRTAGPATPNPAAQRGVARALAKAGVAADDVTYIETNAAGSQIPDLIELKAIAAVYRDGSDTPCSLGSVKPNIGHPQCAEGIAGVIKTVLLRNRAIVPFLSGRQPLEHFDFAATPLRFERALTPWPDAPLLAAVSSFADGGTNAHAVLAGRGRRAPLDRPRLARRG 4opm-a3-m1-cA_4opm-a3-m1-cB Crystal structure of a putative lipase (lip1) from Acinetobacter baumannii AYE at 1.70 A resolution B0V9K7 B0V9K7 1.7 X-RAY DIFFRACTION 79 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 296 296 GADNIDVSFQTILQQERNWAGLQSKSLKVGDITWSYSEGGSSTKPTLLLIHGLAGSRDNWNRVAHYLTTNYHVIIPDLPGSGETIVSQDFDYSVPNLAEKLRRFVEAANLKGPIHIAGHSLGGSIALLYAGQYPFETKSLFLVDSGGIFRSANTIYLKDPTYLKQLLVSKKGDFNYLLKQTFNPPFIPKEFLQAQEKLINQAPQTQKLVDQLIALNKVYTPDSFAVLTKTIDAPTLILWGKQDKIINVEVANELKRLLKNAQPPVILENVGHPILEAEQLVIQQYVPFLLKVETNQ GADNIDVSFQTILQQERNWAGLQSKSLKVGDITWSYSEGGSSTKPTLLLIHGLAGSRDNWNRVAHYLTTNYHVIIPDLPGSGETIVSQDFDYSVPNLAEKLRRFVEAANLKGPIHIAGHSLGGSIALLYAGQYPFETKSLFLVDSGGIFRSANTIYLKDPTYLKQLLVSKKGDFNYLLKQTFNPPFIPKEFLQAQEKLINQAPQTQKLVDQLIALNKVYTPDSFAVLTKTIDAPTLILWGKQDKIINVEVANELKRLLKNAQPPVILENVGHPILEAEQLVIQQYVPFLLKVETNQ 4opq-a2-m1-cA_4opq-a2-m2-cA Room temperature crystal structure of stabilized TEM-1 beta-lactamase variant v.13 carrying R164S/G238S mutations Q8KMX3 Q8KMX3 1.7 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 258 258 4ibr-a2-m1-cA_4ibr-a2-m2-cA 4op5-a2-m1-cA_4op5-a2-m2-cA 4op8-a2-m1-cA_4op8-a2-m2-cA 4opr-a2-m1-cA_4opr-a2-m2-cA 4opz-a2-m1-cA_4opz-a2-m2-cA 4oq0-a2-m1-cA_4oq0-a2-m2-cA 4oqh-a2-m1-cA_4oqh-a2-m2-cA 4oqi-a2-m1-cA_4oqi-a2-m2-cA HPETLVKVKDAEDQLGGRVGYIELDLASGKILESFRPEERFPMMSTFKVLLCGAVLSRVDAGQEQLGRRIHYSQNDLVEYSPVTEKHLTDGMTVGELCSAAITMSDNTAANLLLTTIGGPKELTAFLHNMGDHVTRLDSWEPELNDERDTTTPVAMATTLRKLLTGELLTAASRQQLIDWMEADKVAGPLLRSALPAGWFIADKSGASERGSRGIIAALGPDGKPSRIVVIYMTGSQATMDERNRQIAEIGASLIKHW HPETLVKVKDAEDQLGGRVGYIELDLASGKILESFRPEERFPMMSTFKVLLCGAVLSRVDAGQEQLGRRIHYSQNDLVEYSPVTEKHLTDGMTVGELCSAAITMSDNTAANLLLTTIGGPKELTAFLHNMGDHVTRLDSWEPELNDERDTTTPVAMATTLRKLLTGELLTAASRQQLIDWMEADKVAGPLLRSALPAGWFIADKSGASERGSRGIIAALGPDGKPSRIVVIYMTGSQATMDERNRQIAEIGASLIKHW 4oqj-a1-m1-cA_4oqj-a1-m2-cA Streptomcyes albus JA3453 oxazolomycin ketosynthase domain OzmQ KS1 B2WW50 B2WW50 1.904 X-RAY DIFFRACTION 216 1.0 1888 (Streptomyces albus) 1888 (Streptomyces albus) 674 674 VRDSDIAVIGLACRFPGAATPDTFWKVLSEGRETLTHFSDEELRAAGVAEPLLADDRYVKAGQVLVDADKFDAGLFGITRDEAELIDPQQRQFLECAYEALERAGYDPQRGEQRIGVYAGVGLNTYLLHNLGERYRTASSVDRYRITNDKDFVATRTAYKLNLCGPSVSTNTACSTSLVAVHLACLSLLSGDCTALAGAAHIQADQGEGYLHHEGIFSPDGHCRAFDAKAQGTVIGNGVGAVVLKRLSDALADGDTVHAVIKGTAVNNDGSDKTGYTAPSVQGQAAVVAEAQEIADVGPETVSYVEAHGTATPLGDPIEVAALNQAFNREGAALAPGSCALGSVKTNVGHLDTAAGAGLIKTILLRHRTLVPSLCFEAPNPEIDFAAGPFYVGTETKEWPAGPTPRRAGVSSFGIGGTNAHVIVEEPPAVAGPRLLVLSANTPAALDTATADLARALRKDRDLDLSAVAQTLALGRRVLPYRRALVATGVRDAALALALGDAGRVTAGPADERPVVELVTGGGTPEHAAALYEEAAAFREHFDRCAAELGTPAAELLRGHGPDAAFAVQYATARALAGWGSTAPVVAADRTELPDAALRLLDGIGAQHTAGRPGVALLPAASAPVGTAFLLGLIGRLWTAGDTVDWTVFHQGEPVRRVPLPTYPFERVRHWAEP VRDSDIAVIGLACRFPGAATPDTFWKVLSEGRETLTHFSDEELRAAGVAEPLLADDRYVKAGQVLVDADKFDAGLFGITRDEAELIDPQQRQFLECAYEALERAGYDPQRGEQRIGVYAGVGLNTYLLHNLGERYRTASSVDRYRITNDKDFVATRTAYKLNLCGPSVSTNTACSTSLVAVHLACLSLLSGDCTALAGAAHIQADQGEGYLHHEGIFSPDGHCRAFDAKAQGTVIGNGVGAVVLKRLSDALADGDTVHAVIKGTAVNNDGSDKTGYTAPSVQGQAAVVAEAQEIADVGPETVSYVEAHGTATPLGDPIEVAALNQAFNREGAALAPGSCALGSVKTNVGHLDTAAGAGLIKTILLRHRTLVPSLCFEAPNPEIDFAAGPFYVGTETKEWPAGPTPRRAGVSSFGIGGTNAHVIVEEPPAVAGPRLLVLSANTPAALDTATADLARALRKDRDLDLSAVAQTLALGRRVLPYRRALVATGVRDAALALALGDAGRVTAGPADERPVVELVTGGGTPEHAAALYEEAAAFREHFDRCAAELGTPAAELLRGHGPDAAFAVQYATARALAGWGSTAPVVAADRTELPDAALRLLDGIGAQHTAGRPGVALLPAASAPVGTAFLLGLIGRLWTAGDTVDWTVFHQGEPVRRVPLPTYPFERVRHWAEP 4oqp-a1-m1-cA_4oqp-a1-m2-cA Structure of the effector-binding domain of deoxyribonucleoside regulator DeoR from Bacillus subtilis in complex with deoxyribose-5-phosphate P39140 P39140 1.6 X-RAY DIFFRACTION 39 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 254 254 4oqq-a1-m1-cA_4oqq-a1-m1-cB FEDLDALGSILEEKYGLLEAHVVFSPTPDYAGITHDLSRYGAEYMHETVKDGDIVGVSWGTTMYQIAQNMQPKQVKGVEVVQLKGGISHSRVNTYSAETIQLFAEAFQTMPRYLPLPVVFDNADVKRMVEKDRHIERIIEMGKQANIALFTVGTVRDEALLFRLGYFNEEEKALLKKQAVGDICSRFFDAKGNICSSAINDRTIGVELQDLRLKERSILVAGGSRKVSSIHGALTGKYANVLIIDQHTARALVN FEDLDALGSILEEKYGLLEAHVVFSPTPDYAGITHDLSRYGAEYMHETVKDGDIVGVSWGTTMYQIAQNMQPKQVKGVEVVQLKGGISHSRVNTYSAETIQLFAEAFQTMPRYLPLPVVFDNADVKRMVEKDRHIERIIEMGKQANIALFTVGTVRDEALLFRLGYFNEEEKALLKKQAVGDICSRFFDAKGNICSSAINDRTIGVELQDLRLKERSILVAGGSRKVSSIHGALTGKYANVLIIDQHTARALVN 4oqt-a1-m1-cA_4oqt-a1-m2-cA LINGO-1/Li81 Fab complex Q96FE5 Q96FE5 3.23 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 CPPRCECSAQDRAVLCHRKRFVAVPEGIPTETRLLDLGKNRIKTLNQDEFASFPHLEELELNENIVSAVEPGAFNNLFNLRTLGLRSNRLKLIPLGVFTGLSNLTKLDISENKIVILLDYMFQDLYNLKSLEVGDNDLVYISHRAFSGLNSLEQLTLEKCNLTSIPTEALSHLHGLIVLRLRHLNINAIRDYSFKRLYRLKVLEISHWPYLDTMTPNCLYGLNLTSLSITHCNLTAVPYLAVRHLVYLRFLNLSYNPISTIEGSMLHELLRLQEIQLVGGQLAVVEPYAFRGLNYLRVLNVSGNQLTTLEESVFHSVGNLETLILDSNPLACDCRLLWVFRRRWRLNFNRQQPTCATPEFVQGKEFKDFPDVLLPNYFTCRRARIRDRKAQQVFVDEGHTVQFVCRADGDPPPAILWLSPRKHLVSAKSNGRLTVFPDGTLEVRYAQVQDNGTYLCIAANAGGNDSMPAHLHVRS CPPRCECSAQDRAVLCHRKRFVAVPEGIPTETRLLDLGKNRIKTLNQDEFASFPHLEELELNENIVSAVEPGAFNNLFNLRTLGLRSNRLKLIPLGVFTGLSNLTKLDISENKIVILLDYMFQDLYNLKSLEVGDNDLVYISHRAFSGLNSLEQLTLEKCNLTSIPTEALSHLHGLIVLRLRHLNINAIRDYSFKRLYRLKVLEISHWPYLDTMTPNCLYGLNLTSLSITHCNLTAVPYLAVRHLVYLRFLNLSYNPISTIEGSMLHELLRLQEIQLVGGQLAVVEPYAFRGLNYLRVLNVSGNQLTTLEESVFHSVGNLETLILDSNPLACDCRLLWVFRRRWRLNFNRQQPTCATPEFVQGKEFKDFPDVLLPNYFTCRRARIRDRKAQQVFVDEGHTVQFVCRADGDPPPAILWLSPRKHLVSAKSNGRLTVFPDGTLEVRYAQVQDNGTYLCIAANAGGNDSMPAHLHVRS 4oqy-a1-m1-cA_4oqy-a1-m1-cB Streptomyces sp. GF3546 imine reductase M4ZS15 M4ZS15 1.9 X-RAY DIFFRACTION 265 1.0 1231256 (Streptomyces sp. GF3546) 1231256 (Streptomyces sp. GF3546) 268 274 KQSVTVIGLGPMGQAMVNTFLDNGHEVTVWNRTASKAEALVARGAVLAPTVEDALSANELIVLSLTDYDAVYAILEPVTGSLSGKVIANLSSDTPDKAREAAKWAAKHGAKHLTGGVQVPPPLIGKPESSTYYSGPKDVFDAHEDTLKVLTNADYRGEDAGLAAMYYQAQMTIFWTTMLSYYQTLALGQANGVSAKELLPYATMMTSMMPHFLDRLAMGAASVDHVLHTHQDAGVSTVLPAAVAEIFKAGMEKGFAENSFSSLIEVLK KQSVTVIGLGPMGQAMVNTFLDNGHEVTVWNRTASKAEALVARGAVLAPTVEDALSANELIVLSLTDYDAVYAILEPVTGSLSGKVIANLSSDTPDKAREAAKWAAKHGAKHLTGGVQVPPPLIGKPESSTYYSGPKDVFDAHEDTLKVLTNADYRGEDAGLAAMYYQAQMTIFWTTMLSYYQTLALGQANGVSAKELLPYATMMTSMMPHFLELYVDRLAMGAASVDHVLHTHQDAGVSTVLPAAVAEIFKAGMEKGFAENSFSSLIEVLKKP 4oqz-a1-m1-cA_4oqz-a1-m2-cA Streptomyces aurantiacus imine reductase S3Z901 S3Z901 1.96 X-RAY DIFFRACTION 295 1.0 1286094 (Streptomyces aurantiacus JA 4570) 1286094 (Streptomyces aurantiacus JA 4570) 283 283 QSVTVIGLGPMGQAMAAAYLDRGYEVTLWNRTASRADALVARGAKLAATPEQALSANELVILSLIDYDAMYGVLEGAEEAVAGRVLVNLSSDTPEKARAAARRVAELGGTHLTGGVLSPPPGIGSPDMSTFYSGPRAAYDQHRAALEVITGKTDYRGEDPGLAALMYQLNMVVFWPAMLSYWQAVALADAHGLTAADIAPYVSENFAGMGQFIDFYAARIDAGNHAGDVDRLSMGVASMEHVVHTNADSGVDTAFPRAVLDAFHRGADAGADSFSSVIKLMKK QSVTVIGLGPMGQAMAAAYLDRGYEVTLWNRTASRADALVARGAKLAATPEQALSANELVILSLIDYDAMYGVLEGAEEAVAGRVLVNLSSDTPEKARAAARRVAELGGTHLTGGVLSPPPGIGSPDMSTFYSGPRAAYDQHRAALEVITGKTDYRGEDPGLAALMYQLNMVVFWPAMLSYWQAVALADAHGLTAADIAPYVSENFAGMGQFIDFYAARIDAGNHAGDVDRLSMGVASMEHVVHTNADSGVDTAFPRAVLDAFHRGADAGADSFSSVIKLMKK 4or2-a1-m1-cA_4or2-a1-m1-cB Human class C G protein-coupled metabotropic glutamate receptor 1 in complex with a negative allosteric modulator Q13255 Q13255 2.8 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 360 366 DLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLIPVRYLEWSNIESIIAIAFSCLGILVTLFVTLIFVLYRDTPVVKSSSRELCYIILAGIFLGYVCPFTLIAKPTTTSCYLQRLLVGLSSAMCYSALVTKTNRIARILARKPRFMSAWAQVIIASILISVQLTLVVTLIIMEPPMPILSYPSIKEVYLICNTSNLGVVAPLGYNGLLIMSCTYYAFKTRNVPANFNEAKYIAFTMYTTCIIWLAFVPIYFGSNYKIITTCFAVSLSVTVALGCMFTPKMYIIIAKPE DLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLIPVRYLEWSNIESIIAIAFSCLGILVTLFVTLIFVLYRDTPVVKSSSRELCYIILAGIFLGYVCPFTLIAKPTTTSCYLQRLLVGLSSAMCYSALVTKTNRIARILAGCTRKPRFMSAWAQVIIASILISVQLTLVVTLIIMEPPMPILSYPSIKEVYLICNTSNLGVVAPLGYNGLLIMSCTYYAFKTRNVPANFNEAKYIAFTMYTTCIIWLAFVPIYFGSNYKIITTCFAVSLSVTVALGCMFTPKMYIIIAKPERNV 4orx-a3-m1-cA_4orx-a3-m1-cB Three-dimensional structure of the C65A-K59A double mutant of Human lipocalin-type Prostaglandin D Synthase holo-form P41222 P41222 1.6 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 4orr-a3-m1-cA_4orr-a3-m2-cA 4oru-a3-m1-cA_4oru-a3-m1-cB SVQPNFQQDKFLGRWFSAGLASNSSWLREKAAALSMAKSVVAPATDGGLNLTSTFLRKNQCETRTMLLQPAGSLGSYSYRSPHWGSTYSVSVVETDYDQYALLYSQGSKGPGEDFRMATLYSRTQTPRAELKEKFTAFCKAQGFTEDTIVFLPQTDKCM SVQPNFQQDKFLGRWFSAGLASNSSWLREKAAALSMAKSVVAPATDGGLNLTSTFLRKNQCETRTMLLQPAGSLGSYSYRSPHWGSTYSVSVVETDYDQYALLYSQGSKGPGEDFRMATLYSRTQTPRAELKEKFTAFCKAQGFTEDTIVFLPQTDKCM 4os0-a3-m1-cA_4os0-a3-m2-cB Three-dimensional structure of the C65A-W54F double mutant of Human lipocalin-type Prostaglandin D Synthase apo-form P41222 P41222 1.75 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 4ors-a3-m1-cA_4ors-a3-m1-cB 4os3-a3-m2-cB_4os3-a3-m1-cA 4os8-a3-m2-cB_4os8-a3-m1-cA QVSVQPNFQQDKFLGRWFSAGLASNSSFLREKKAALSMAKSVVAPATDGGLNLTSTFLRKNQCETRTMLLQPAGSLGSYSYRSPHWGSTYSVSVVETDYDQYALLYSQGSKGPGEDFRMATLYSRTQTPRAELKEKFTAFCKAQGFTEDTIVFLPQTDKCMTE QVSVQPNFQQDKFLGRWFSAGLASNSSFLREKKAALSMAKSVVAPATDGGLNLTSTFLRKNQCETRTMLLQPAGSLGSYSYRSPHWGSTYSVSVVETDYDQYALLYSQGSKGPGEDFRMATLYSRTQTPRAELKEKFTAFCKAQGFTEDTIVFLPQTDKCMTE 4osd-a1-m1-cC_4osd-a1-m1-cE Dimer of a C-terminal fragment of phage T4 gp5 beta-helix P16009 P16009 1.96 X-RAY DIFFRACTION 12 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 93 93 4osd-a1-m1-cA_4osd-a1-m1-cD 4osd-a1-m1-cB_4osd-a1-m1-cF SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIG SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIG 4osd-a2-m1-cH_4osd-a2-m1-cK Dimer of a C-terminal fragment of phage T4 gp5 beta-helix P16009 P16009 1.96 X-RAY DIFFRACTION 14 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 93 93 4osd-a2-m1-cI_4osd-a2-m1-cJ 4osd-a2-m1-cL_4osd-a2-m1-cG 4osd-a3-m1-cM_4osd-a3-m1-cR 4osd-a3-m1-cN_4osd-a3-m1-cQ 4osd-a3-m1-cO_4osd-a3-m1-cP SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIG SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSISSGQYTIDGSRIDIG 4osp-a1-m1-cD_4osp-a1-m1-cA The crystal structure of urdamycin C-6 ketoreductase domain UrdMred with bound NADP and rabelomycin K0IB23 K0IB23 2.25 X-RAY DIFFRACTION 114 0.996 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 245 252 4osp-a1-m1-cC_4osp-a1-m1-cB SGKLTGKTALVTGSSRGIGRATAIRLAREGALVAVHCSRNREAADETVATIEKEGGRAFSVLAELGVPGDVHELFLALERGLKERTDATTLDILVNNAGVMGGVAPEEVTPELFDRLVAVNAKAPFFIVQRALTLIPDGGRIINISSGLTRFANPQEVAYAMTKGAMDQLTLHFAKHLGSRNITVNSVGPGITNPEAVAQMAGYSVFNRVGEVTDVADVVAFLAGDDARWITGSYLDASGGTLLG GKLTGKTALVTGSSRGIGRATAIRLAREGALVAVHCSRNREAADETVATIEKEGGRAFSVLAELGVPGDVHELFLALERGLKERTDATTLDILVNNAGVMGGVAPEEVTPELFDRLVAVNAKAPFFIVQRALTLIPDGGRIINISSGLTRFANPQEVAYAMTKGAMDQLTLHFAKHLGSRNITVNSVGPGITNNGTPVFDNPEAVAQMAGYSVFNRVGEVTDVADVVAFLAGDDARWITGSYLDASGGTLLG 4osp-a1-m1-cD_4osp-a1-m1-cB The crystal structure of urdamycin C-6 ketoreductase domain UrdMred with bound NADP and rabelomycin K0IB23 K0IB23 2.25 X-RAY DIFFRACTION 12 1.0 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 245 253 4osp-a1-m1-cA_4osp-a1-m1-cC SGKLTGKTALVTGSSRGIGRATAIRLAREGALVAVHCSRNREAADETVATIEKEGGRAFSVLAELGVPGDVHELFLALERGLKERTDATTLDILVNNAGVMGGVAPEEVTPELFDRLVAVNAKAPFFIVQRALTLIPDGGRIINISSGLTRFANPQEVAYAMTKGAMDQLTLHFAKHLGSRNITVNSVGPGITNPEAVAQMAGYSVFNRVGEVTDVADVVAFLAGDDARWITGSYLDASGGTLLG SGKLTGKTALVTGSSRGIGRATAIRLAREGALVAVHCSRNREAADETVATIEKEGGRAFSVLAELGVPGDVHELFLALERGLKERTDATTLDILVNNAGVMGGVAPEEVTPELFDRLVAVNAKAPFFIVQRALTLIPDGGRIINISSGLTRFANPQEVAYAMTKGAMDQLTLHFAKHLGSRNITVNSVGPGITNNGTPVFDNPEAVAQMAGYSVFNRVGEVTDVADVVAFLAGDDARWITGSYLDASGGTLLG 4osp-a1-m1-cD_4osp-a1-m1-cC The crystal structure of urdamycin C-6 ketoreductase domain UrdMred with bound NADP and rabelomycin K0IB23 K0IB23 2.25 X-RAY DIFFRACTION 99 0.996 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 245 252 4osp-a1-m1-cA_4osp-a1-m1-cB SGKLTGKTALVTGSSRGIGRATAIRLAREGALVAVHCSRNREAADETVATIEKEGGRAFSVLAELGVPGDVHELFLALERGLKERTDATTLDILVNNAGVMGGVAPEEVTPELFDRLVAVNAKAPFFIVQRALTLIPDGGRIINISSGLTRFANPQEVAYAMTKGAMDQLTLHFAKHLGSRNITVNSVGPGITNPEAVAQMAGYSVFNRVGEVTDVADVVAFLAGDDARWITGSYLDASGGTLLG GKLTGKTALVTGSSRGIGRATAIRLAREGALVAVHCSRNREAADETVATIEKEGGRAFSVLAELGVPGDVHELFLALERGLKERTDATTLDILVNNAGVMGGVAPEEVTPELFDRLVAVNAKAPFFIVQRALTLIPDGGRIINISSGLTRFANPQEVAYAMTKGAMDQLTLHFAKHLGSRNITVNSVGPGITNNGTPVFDNPEAVAQMAGYSVFNRVGEVTDVADVVAFLAGDDARWITGSYLDASGGTLLG 4ot9-a1-m1-cA_4ot9-a1-m2-cA crystal structure of the C-terminal domain of p100/NF-kB2 Q00653 Q00653 3.35 X-RAY DIFFRACTION 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 298 QAPEMLQRAREYNARLFGLAQRSARALLDYGVTADARALLAGQRHLLTAQDENGDTPLHLAIIHGQTSVIEQIVYVIHHAQDLGVVNLTNHLHQTPLHLAVITGQTSVVSFLLRVGADPALLDRHGDSAMHLALRAGAGAPELLRALLQSGAPAVPQLLHMPDFEGLYPVHLAVRARSPECLDLLVDSGAEVEATERQGGRTALHLATEMEELGLVTHLVTKLRANVNARTFAGNTPLHLAAGLGYPTLTRLLLKAGADIHAENEEPSSFRGHTPLDLTCSTKVKTLLLNAAQNTMEP QAPEMLQRAREYNARLFGLAQRSARALLDYGVTADARALLAGQRHLLTAQDENGDTPLHLAIIHGQTSVIEQIVYVIHHAQDLGVVNLTNHLHQTPLHLAVITGQTSVVSFLLRVGADPALLDRHGDSAMHLALRAGAGAPELLRALLQSGAPAVPQLLHMPDFEGLYPVHLAVRARSPECLDLLVDSGAEVEATERQGGRTALHLATEMEELGLVTHLVTKLRANVNARTFAGNTPLHLAAGLGYPTLTRLLLKAGADIHAENEEPSSFRGHTPLDLTCSTKVKTLLLNAAQNTMEP 4ot9-a2-m1-cA_4ot9-a2-m3-cA crystal structure of the C-terminal domain of p100/NF-kB2 Q00653 Q00653 3.35 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 298 QAPEMLQRAREYNARLFGLAQRSARALLDYGVTADARALLAGQRHLLTAQDENGDTPLHLAIIHGQTSVIEQIVYVIHHAQDLGVVNLTNHLHQTPLHLAVITGQTSVVSFLLRVGADPALLDRHGDSAMHLALRAGAGAPELLRALLQSGAPAVPQLLHMPDFEGLYPVHLAVRARSPECLDLLVDSGAEVEATERQGGRTALHLATEMEELGLVTHLVTKLRANVNARTFAGNTPLHLAAGLGYPTLTRLLLKAGADIHAENEEPSSFRGHTPLDLTCSTKVKTLLLNAAQNTMEP QAPEMLQRAREYNARLFGLAQRSARALLDYGVTADARALLAGQRHLLTAQDENGDTPLHLAIIHGQTSVIEQIVYVIHHAQDLGVVNLTNHLHQTPLHLAVITGQTSVVSFLLRVGADPALLDRHGDSAMHLALRAGAGAPELLRALLQSGAPAVPQLLHMPDFEGLYPVHLAVRARSPECLDLLVDSGAEVEATERQGGRTALHLATEMEELGLVTHLVTKLRANVNARTFAGNTPLHLAAGLGYPTLTRLLLKAGADIHAENEEPSSFRGHTPLDLTCSTKVKTLLLNAAQNTMEP 4ote-a3-m2-cA_4ote-a3-m3-cA Crystal structure of a putative lipoprotein (CD630_1653) from Clostridium difficile 630 at 2.20 A resolution Q186K7 Q186K7 2.2 X-RAY DIFFRACTION 11 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 237 237 4ote-a3-m1-cA_4ote-a3-m2-cA 4ote-a3-m1-cA_4ote-a3-m3-cA DKKIVVGATLVPGGELLEELKPLIKEKGYTLEVKNFDDYILPNEALNNGEIDANLFQHEPYLKEAVKAKGYKIAGKKLYVCPAILYSYKIKSVDEFKKGDTIAISNNPSSCSKNLRYLESIGLLTLPKGDGLVSPKDIIENPKGIQFKELDIAQIPSSLPDVTAAFIDTTYAVPAGLDAKKNGIYTAPINDEYANLLAFRTEDKDSEKIKVLQDVLTSDKARSLIEEKYKGIVIPTF DKKIVVGATLVPGGELLEELKPLIKEKGYTLEVKNFDDYILPNEALNNGEIDANLFQHEPYLKEAVKAKGYKIAGKKLYVCPAILYSYKIKSVDEFKKGDTIAISNNPSSCSKNLRYLESIGLLTLPKGDGLVSPKDIIENPKGIQFKELDIAQIPSSLPDVTAAFIDTTYAVPAGLDAKKNGIYTAPINDEYANLLAFRTEDKDSEKIKVLQDVLTSDKARSLIEEKYKGIVIPTF 4ote-a3-m3-cA_4ote-a3-m3-cB Crystal structure of a putative lipoprotein (CD630_1653) from Clostridium difficile 630 at 2.20 A resolution Q186K7 Q186K7 2.2 X-RAY DIFFRACTION 21 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 237 239 4ote-a3-m1-cA_4ote-a3-m1-cB 4ote-a3-m2-cA_4ote-a3-m2-cB DKKIVVGATLVPGGELLEELKPLIKEKGYTLEVKNFDDYILPNEALNNGEIDANLFQHEPYLKEAVKAKGYKIAGKKLYVCPAILYSYKIKSVDEFKKGDTIAISNNPSSCSKNLRYLESIGLLTLPKGDGLVSPKDIIENPKGIQFKELDIAQIPSSLPDVTAAFIDTTYAVPAGLDAKKNGIYTAPINDEYANLLAFRTEDKDSEKIKVLQDVLTSDKARSLIEEKYKGIVIPTF KDDKKIVVGATLVPGGELLEELKPLIKEKGYTLEVKNFDDYILPNEALNNGEIDANLFQHEPYLKEAVKAKGYKIAGKKLYVCPAILYSYKIKSVDEFKKGDTIAISNNPSSCSKNLRYLESIGLLTLPKGDGLVSPKDIIENPKGIQFKELDIAQIPSSLPDVTAAFIDTTYAVPAGLDAKKNGIYTAPINDEYANLLAFRTEDKDSEKIKVLQDVLTSDKARSLIEEKYKGIVIPTF 4otm-a1-m1-cA_4otm-a1-m1-cB Crystal structure of the C-terminal domain from yeast GCN2 P15442 P15442 1.95 X-RAY DIFFRACTION 163 0.982 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 114 118 NNQKVIYVPNMATKWVYEDAARNSSNMILHNLSNAPIITVDALRDETLEIISITSLAQKEEWLRKVFGSGNNSTPRSFATSIYNNLSKEAHKGNRWAILYCHKTGKSSVIDLQR NQKVIYVPNMATRSKKANWVYEDAARNSSNMILHNLSNAPIITVDALRDETLEIISITSLAQKEEWLRKVFGSGNNSTPRSFATSIYNNLSKEAHKGNRWAILYCHKTGKSSVIDLQR 4otn-a1-m1-cB_4otn-a1-m1-cA Crystal structure of the C-terminal regulatory domain of murine GCN2 Q9QZ05 Q9QZ05 1.9 X-RAY DIFFRACTION 119 1.0 10090 (Mus musculus) 10090 (Mus musculus) 119 123 VPTVSVISPEKLSASTRRRHEIQVQTRLQTTLANLHQKSSEIEILAVDLPKETILQFLSLEWDADEQAFNTTVKQLLSRLPKQRYLKLVCDEIYNIKVEKKVSVLFLYSYRDDYYRILF GTTVVPTVSVISPEKLSASTRRRHEIQVQTRLQTTLANLHQKSSEIEILAVDLPKETILQFLSLEWDADEQAFNTTVKQLLSRLPKQRYLKLVCDEIYNIKVEKKVSVLFLYSYRDDYYRILF 4ou6-a1-m1-cC_4ou6-a1-m1-cE Crystal structure of DnaT84-153-dT10 ssDNA complex form 1 P0A8J2 P0A8J2 1.96 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 70 71 4ou6-a1-m1-cB_4ou6-a1-m1-cA 4ou6-a1-m1-cB_4ou6-a1-m1-cD 4ou6-a1-m1-cC_4ou6-a1-m1-cA 4ou7-a1-m1-cA_4ou7-a1-m1-cB 4ou7-a1-m1-cB_4ou7-a1-m1-cD 4ou7-a1-m1-cC_4ou7-a1-m1-cA 4ou7-a1-m1-cC_4ou7-a1-m1-cE VPMGKFAMYPDWQPDADFIRLAALWGVALREPVTTEELASFIAYWQAEGKVFHHVQWQQKLARSLQIGRA VPMGKFAMYPDWQPDADFIRLAALWGVALREPVTTEELASFIAYWQAEGKVFHHVQWQQKLARSLQIGRAS 4ouh-a1-m1-cC_4ouh-a1-m1-cA Crystal structure of the FP domain of Human PI31 Proteasome Inhibitor Q92530 Q92530 2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 149 SSPMAGLEVLFASAAPAITCRQDALVCFLHWEVVTHGYCGLGVGDQPGPNDKKSELLPAGWNNNKDLYVLRYEYKDGSRKLLVKAITVESSMILNVLEVADLTLNLDDYIDAEHLGDFHRTYKNSEELRSRIVSGIITPIHEQWEKA SSPMAGLEVLFASAAPAITCRQDALVCFLHWEVVTHGYCGLGVGDQPGPNDKKSELLPAGWNNNKDLYVLRYEYKDGSRKLLVKAITVESSMILNVLEQVADLTLNLDDYIDAEHLGDFHRTYKNSEELRSRIVSGIITPIHEQWEKAN 4ouh-a3-m1-cC_4ouh-a3-m1-cD Crystal structure of the FP domain of Human PI31 Proteasome Inhibitor Q92530 Q92530 2 X-RAY DIFFRACTION 50 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 147 147 4ouh-a1-m1-cB_4ouh-a1-m1-cA 4ouh-a1-m1-cC_4ouh-a1-m1-cD 4ouh-a2-m1-cB_4ouh-a2-m1-cA SSPMAGLEVLFASAAPAITCRQDALVCFLHWEVVTHGYCGLGVGDQPGPNDKKSELLPAGWNNNKDLYVLRYEYKDGSRKLLVKAITVESSMILNVLEVADLTLNLDDYIDAEHLGDFHRTYKNSEELRSRIVSGIITPIHEQWEKA SPMAGLEVLFASAAPAITCRQDALVCFLHWEVVTHGYCGLGVGDQPGPNDKKSELLPAGWNNNKDLYVLRYEYKDGSRKLLVKAITVESSMILNVLEQVADLTLNLDDYIDAEHLGDFHRTYKNSEELRSRIVSGIITPIHEQWEKA 4oul-a1-m1-cC_4oul-a1-m1-cB Crystal structure of human Caprin-2 C1q domain Q6IMN6 Q6IMN6 1.949 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 132 4oul-a1-m1-cA_4oul-a1-m1-cB 4oul-a1-m1-cC_4oul-a1-m1-cA 4oul-a2-m1-cD_4oul-a2-m1-cF 4oul-a2-m1-cE_4oul-a2-m1-cD 4oul-a2-m1-cE_4oul-a2-m1-cF 4oum-a1-m1-cA_4oum-a1-m2-cA 4oum-a1-m1-cA_4oum-a1-m3-cA 4oum-a1-m2-cA_4oum-a1-m3-cA RVAFSAARTSNLAPGTLDQPIVFDLLLNNLGETFDLQLGRFNCPVNGTYVFIFHMLKLAVNVPLYVNLMKNEEVLVSAYANDGAPDHETASNHAILQLFQGDQIWLRLHRGAIYGSSWKYSTFSGYLLYQD MRVAFSAARTSNLAPGTLDQPIVFDLLLNNLGETFDLQLGRFNCPVNGTYVFIFHMLKLAVNVPLYVNLMKNEEVLVSAYANDGAPDHETASNHAILQLFQGDQIWLRLHRGAIYGSSWKYSTFSGYLLYQD 4oun-a1-m1-cA_4oun-a1-m2-cA Crystal Structure of Mini-ribonuclease 3 from Bacillus subtilis O31418 O31418 1.8 X-RAY DIFFRACTION 67 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 125 125 6tnn-a1-m1-cH_6tnn-a1-m1-cI FDTIKDSKQLNGLALAYIGDAIFEVYVRHHLLKQGFTKPNDLHKKSSRIVSAKSQAEILFFLQNQSFFTEEEEAVLKRGRNAKNTDVQTYRYSTAFQALLGYLFLEKKEERLSQLVAEAIQFGTS FDTIKDSKQLNGLALAYIGDAIFEVYVRHHLLKQGFTKPNDLHKKSSRIVSAKSQAEILFFLQNQSFFTEEEEAVLKRGRNAKNTDVQTYRYSTAFQALLGYLFLEKKEERLSQLVAEAIQFGTS 4ouo-a1-m1-cA_4ouo-a1-m2-cA anti-Bla g 1 scFv 1.8 X-RAY DIFFRACTION 166 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 227 227 SFTQAALTQPSSVSANPGETVKITCSGGGSSSNYGWFQQKSPGSAPVTVIYNNNNRPSDIPSRFSGSKSGSTATLTITGVQADDEAVYFCGGRDSTYAGMFGAGTTLTVLAVTLDESGGGLQTPGGALSLVCKASGFTFSVYDMMWVRQAPSKGLEWVAGIGITGSTYYASAVKGRATISRDNGQSTVRLQLNNLRAEDTGTYYCARGGAYSINKLDTWGQGTEVIV SFTQAALTQPSSVSANPGETVKITCSGGGSSSNYGWFQQKSPGSAPVTVIYNNNNRPSDIPSRFSGSKSGSTATLTITGVQADDEAVYFCGGRDSTYAGMFGAGTTLTVLAVTLDESGGGLQTPGGALSLVCKASGFTFSVYDMMWVRQAPSKGLEWVAGIGITGSTYYASAVKGRATISRDNGQSTVRLQLNNLRAEDTGTYYCARGGAYSINKLDTWGQGTEVIV 4ous-a1-m2-cA_4ous-a1-m3-cA Crystal structure of zebrafish Caprin-2 C1q domain Q5RJ80 Q5RJ80 1.05 X-RAY DIFFRACTION 71 1.0 7955 (Danio rerio) 7955 (Danio rerio) 132 132 4ous-a1-m1-cA_4ous-a1-m2-cA 4ous-a1-m1-cA_4ous-a1-m3-cA LRVAFSAARTANFAPGTLDQPIAFDLLHTNLGDMFDTGSGRFTCPATGAYVFIFHILKLAISVPLYINLMRNEEVMVSAYANDGAPDHETASNHAVLQLFQGDQVWLRLHRGAIYGSSWKYSTFSGFLLYQD LRVAFSAARTANFAPGTLDQPIAFDLLHTNLGDMFDTGSGRFTCPATGAYVFIFHILKLAISVPLYINLMRNEEVMVSAYANDGAPDHETASNHAVLQLFQGDQVWLRLHRGAIYGSSWKYSTFSGFLLYQD 4ov2-a6-m1-cC_4ov2-a6-m1-cB Crystal structure of C-terminally truncated Neuronal Calcium Sensor (NCS-1) from Rattus norvegicus P62168 P62168 2.6 X-RAY DIFFRACTION 82 0.994 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 156 163 4yru-a2-m1-cC_4yru-a2-m1-cB LKPEVVEELTRKTYFTEKEVQQWYKGFILDAAGFQKIYKQFFPFGDPTKFATFVFNVFDENKDGRIEFSEFIQALSVTSRGTLDEKLRWAFKLYDLDNDGYITRNEMLDIVDAIYQMVGNTVELNTPEKRVDRIFAMMDKNADGKLTLQEFQEGSK LKPEVVEELTRKTYFTEKEVQQWYKGFIKDCPSGQLDAAGFQKIYKQFFPFGDPTKFATFVFNVFDENKDGRIEFSEFIQALSVTSRGTLDEKLRWAFKLYDLDNDGYITRNEMLDIVDAIYQMVGNTVENTPEKRVDRIFAMMDKNADGKLTLQEFQEGSKA 4ov4-a1-m1-cA_4ov4-a1-m2-cA Isopropylmalate synthase binding with ketoisovalerate B0SN40 B0SN40 2 X-RAY DIFFRACTION 190 1.0 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 379 379 4ov9-a1-m1-cA_4ov9-a1-m2-cA PKTIHIQDVTLRDGNQALKRPWTIDEKIEVFDLLVELNVDGIEVGFPSSNETEFHTCQVLSKRAPKGKPIAALSRANQNEIAVTWEAIQKADCPRMHIVYPVSDFSIKHVLKISEKEVLQKIRNSISFARSIVGPGIEIQFSGEHFGDAIENFAFTKEAFLTAIEAGANIINLPNTVERYRPMVFVNMVKEIKDVVKDKAIISIHTHNDLGMATATSVESVYVGAEQIEVALNGLGERAGNTNLYETAIALHQNGENLNINFQRIYPTAKRISELTGIPIGEKTPIIGEDIFSHRSGIHQHQSKGAYRTFSPEFVGRMDKETISFTNQSGHKAIEFLLHQRGIQVSKEGIHHLFSLAKSISSRENNREITEAELVALSQ PKTIHIQDVTLRDGNQALKRPWTIDEKIEVFDLLVELNVDGIEVGFPSSNETEFHTCQVLSKRAPKGKPIAALSRANQNEIAVTWEAIQKADCPRMHIVYPVSDFSIKHVLKISEKEVLQKIRNSISFARSIVGPGIEIQFSGEHFGDAIENFAFTKEAFLTAIEAGANIINLPNTVERYRPMVFVNMVKEIKDVVKDKAIISIHTHNDLGMATATSVESVYVGAEQIEVALNGLGERAGNTNLYETAIALHQNGENLNINFQRIYPTAKRISELTGIPIGEKTPIIGEDIFSHRSGIHQHQSKGAYRTFSPEFVGRMDKETISFTNQSGHKAIEFLLHQRGIQVSKEGIHHLFSLAKSISSRENNREITEAELVALSQ 4ova-a1-m1-cA_4ova-a1-m1-cB Structure of the two tandem Tudor domains and a new identified KH0 domain from human Fragile X Mental Retardation Protein Q06787 Q06787 3 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 200 MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLIM MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLIM 4ova-a1-m1-cA_4ova-a1-m1-cD Structure of the two tandem Tudor domains and a new identified KH0 domain from human Fragile X Mental Retardation Protein Q06787 Q06787 3 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 200 MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLIM MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLIM 4ova-a1-m1-cC_4ova-a1-m1-cB Structure of the two tandem Tudor domains and a new identified KH0 domain from human Fragile X Mental Retardation Protein Q06787 Q06787 3 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 200 MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLI MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLIM 4ova-a1-m1-cC_4ova-a1-m1-cD Structure of the two tandem Tudor domains and a new identified KH0 domain from human Fragile X Mental Retardation Protein Q06787 Q06787 3 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 200 MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLI MEELVVEVRGSNGAFYKAFVKDVHEDSITVAFENNWQPDRQIPFHDVRFPPPVGYNKDINESDEVEVYSRANEKEPCCWWLAKVRMIKGEFYVIEYAACDATYNEIVTIERLRSVNPNKPATKDTFHKIKLDVPEDLRQMCAKEAAHKDFKKAVGAFSVTYDPENYQLVILSINEVTSKRAHMLIDMHFRSLRTKLSLIM 4ovd-a2-m1-cA_4ovd-a2-m2-cA Crystal structure of a putative peptidoglycan glycosyltransferase from Atopobium parvulum DSM 20469 C8W9X3 C8W9X3 2 X-RAY DIFFRACTION 57 1.0 521095 (Lancefieldella parvula DSM 20469) 521095 (Lancefieldella parvula DSM 20469) 408 408 NDIVLHARRGTIYDRNGNVLASVDCKNNTKRVYPYGNVGVQILGFVNADNEGASGLEYYYNDILAGTNGHISNITEAQNGQDIVLSIDIELQKKAEEQLTAAVKDFEAKQGGSIANPRTGEIYAAASYPLPDFVDYESLNLKLVSSIYEPGSVFKVITTSIGVDNNLFGPNSTFNIPTELQVGDNKVTDDDWRTSADSVRELRRSSNVGAFLETQLIGDKRFAEGIDKFGIGHTTGIDFPGEATGIVRSLDQYEGPTGGNAFGQGLAIPFIQVIRAYTAVANKGTVTPHFVSKGGQEVSWPTKDVISSSTASAELDTTVVKEGTGVRAGIYGYTVAGKTGTGQQVVEETGSYGENSGFVASFCGIVNPSESDLVYVGLNDTHQLASQSAAVVFSQFAKDAATRLNIQP NDIVLHARRGTIYDRNGNVLASVDCKNNTKRVYPYGNVGVQILGFVNADNEGASGLEYYYNDILAGTNGHISNITEAQNGQDIVLSIDIELQKKAEEQLTAAVKDFEAKQGGSIANPRTGEIYAAASYPLPDFVDYESLNLKLVSSIYEPGSVFKVITTSIGVDNNLFGPNSTFNIPTELQVGDNKVTDDDWRTSADSVRELRRSSNVGAFLETQLIGDKRFAEGIDKFGIGHTTGIDFPGEATGIVRSLDQYEGPTGGNAFGQGLAIPFIQVIRAYTAVANKGTVTPHFVSKGGQEVSWPTKDVISSSTASAELDTTVVKEGTGVRAGIYGYTVAGKTGTGQQVVEETGSYGENSGFVASFCGIVNPSESDLVYVGLNDTHQLASQSAAVVFSQFAKDAATRLNIQP 4ovm-a5-m1-cI_4ovm-a5-m1-cJ Crystal structure of SgcJ protein from Streptomyces carzinostaticus Q84HC7 Q84HC7 2.719 X-RAY DIFFRACTION 93 0.983 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 115 119 4ovm-a1-m1-cB_4ovm-a1-m1-cA 4ovm-a2-m1-cD_4ovm-a2-m1-cC 4ovm-a3-m1-cE_4ovm-a3-m1-cF 4ovm-a4-m1-cG_4ovm-a4-m1-cH VTAVADVPRREAWASNDASAFASLFAPDGTVLPGDVFQKGVDGIREFTKCYAGPYKGTSVFGVPIDVRFTGPDTAILITQGGVAPGEHSVAPDKEIRATWVLWLVEAYHNSPVRL TAVADVPRREAWASNDASAFASLFAPDGTVLPGDVFQKGVDGIREFTKCYAGPYKGTSVFGVPIDVRFTGPDTAILITQGGVAPGEHSVAPDKEIRATWVLGKRDGAWLVEAYHNSPVR 4ovo-a2-m2-cA_4ovo-a2-m4-cA REFINED X-RAY CRYSTAL STRUCTURES OF THE REACTIVE SITE MODIFIED OVOMUCOID INHIBITOR THIRD DOMAINS FROM SILVER PHEASANT (OMSVP3(ASTERISK)) AND FROM JAPANESE QUAIL (OMJPQ3(ASTERISK)) P67954 P67954 2.5 X-RAY DIFFRACTION 14 1.0 9046 (Lophura nycthemera) 9046 (Lophura nycthemera) 56 56 4ovo-a2-m1-cA_4ovo-a2-m3-cA LAAVSVDCSEYPKPACTMEYRPLCGSDNKTYGNKCNFCNAVVESNGTLTLSHFGKC LAAVSVDCSEYPKPACTMEYRPLCGSDNKTYGNKCNFCNAVVESNGTLTLSHFGKC 4ovo-a2-m3-cA_4ovo-a2-m4-cA REFINED X-RAY CRYSTAL STRUCTURES OF THE REACTIVE SITE MODIFIED OVOMUCOID INHIBITOR THIRD DOMAINS FROM SILVER PHEASANT (OMSVP3(ASTERISK)) AND FROM JAPANESE QUAIL (OMJPQ3(ASTERISK)) P67954 P67954 2.5 X-RAY DIFFRACTION 57 1.0 9046 (Lophura nycthemera) 9046 (Lophura nycthemera) 56 56 4ovo-a1-m1-cA_4ovo-a1-m2-cA 4ovo-a2-m1-cA_4ovo-a2-m2-cA 4ovo-a2-m1-cA_4ovo-a2-m4-cA 4ovo-a2-m2-cA_4ovo-a2-m3-cA LAAVSVDCSEYPKPACTMEYRPLCGSDNKTYGNKCNFCNAVVESNGTLTLSHFGKC LAAVSVDCSEYPKPACTMEYRPLCGSDNKTYGNKCNFCNAVVESNGTLTLSHFGKC 4ovy-a1-m1-cA_4ovy-a1-m2-cA Crystal structure of Haloacid dehalogenase domain protein hydrolase from Planctomyces limnophilus DSM 3776 D5SUM3 D5SUM3 1.8 X-RAY DIFFRACTION 94 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 297 297 EEPLPSWNDSAARRAILEYVKSVTTEGSPRFVPVSERIVTFDNDGTLWCEQPYVQLAFALDRVRLLADKHPEWRTEEPFRAVIEKDLPALAKLGAKGLTELTATHAGTDDEFENIVTEWIRKARHPKFHRPYTECVYQPLELLAFLRQHEFKTFIVSGAGIEFRPWAKEVYGIPPEQVIGSSVKLKYELRDGKPVLVRLAELNFIDDQAGKPVGIRQVIGRRPVAVGNSDGDYELEYVTSGPANGLGLIVHHTDAVREFAYDRQSPFGRLDRALTDATSKGWIVIDQRDWKVIFPES EEPLPSWNDSAARRAILEYVKSVTTEGSPRFVPVSERIVTFDNDGTLWCEQPYVQLAFALDRVRLLADKHPEWRTEEPFRAVIEKDLPALAKLGAKGLTELTATHAGTDDEFENIVTEWIRKARHPKFHRPYTECVYQPLELLAFLRQHEFKTFIVSGAGIEFRPWAKEVYGIPPEQVIGSSVKLKYELRDGKPVLVRLAELNFIDDQAGKPVGIRQVIGRRPVAVGNSDGDYELEYVTSGPANGLGLIVHHTDAVREFAYDRQSPFGRLDRALTDATSKGWIVIDQRDWKVIFPES 4ow4-a3-m2-cB_4ow4-a3-m1-cA Beta-trefoil designed by folding nucleus symmetric expansion (""Phifoil"") 2.148 X-RAY DIFFRACTION 69 1.0 32630 (synthetic construct) 32630 (synthetic construct) 123 123 HEVYIKSTETGQYLRILPDGTVDGTRDRSDQHIQLQLSAESVGEVYIKSTETGQYLRILPDGTVDGTRDRSDQHIQLQLSAESVGEVYIKSTETGQYLRILPDGTVDGTRDRSDQHIQLQLSA HEVYIKSTETGQYLRILPDGTVDGTRDRSDQHIQLQLSAESVGEVYIKSTETGQYLRILPDGTVDGTRDRSDQHIQLQLSAESVGEVYIKSTETGQYLRILPDGTVDGTRDRSDQHIQLQLSA 4ow5-a1-m1-cA_4ow5-a1-m2-cA Structural basis for the enhancement of virulence by entomopoxvirus fusolin and its in vivo crystallization into viral spindles Q83389 Q83389 1.9 X-RAY DIFFRACTION 249 1.0 10291 (unidentified entomopoxvirus) 10291 (unidentified entomopoxvirus) 307 307 4x27-a1-m1-cA_4x27-a1-m2-cA 4x29-a1-m1-cA_4x29-a1-m2-cA HGYITFPIARQRRCNVQGGFWWPPDGSGIPDPMCRAAYQNVYNKVLQQGGTIDQAASAAQYMFQQDNEYAALAGPNYLDQNHIRNNVVPNYLCAAHATTWRIRPFGDKTGMDVSGSWTPTVIPLQDNTVSTVPIEFEFCPTAIHEPSFFEIYITVPSFNVYTDQVTWQQLINIFTGPIPLVQRRPDSQCNANNLVYRTTVGIPVRQTQFVLYVRWQRNDPVGEGFYNCADVIFAHRLGINEEDKIRPPKMKCKGNDKDCYHYHKCERQYNTKDFNYVEWNDDYSDYIENHTGINRDMCDSTTKCCYK HGYITFPIARQRRCNVQGGFWWPPDGSGIPDPMCRAAYQNVYNKVLQQGGTIDQAASAAQYMFQQDNEYAALAGPNYLDQNHIRNNVVPNYLCAAHATTWRIRPFGDKTGMDVSGSWTPTVIPLQDNTVSTVPIEFEFCPTAIHEPSFFEIYITVPSFNVYTDQVTWQQLINIFTGPIPLVQRRPDSQCNANNLVYRTTVGIPVRQTQFVLYVRWQRNDPVGEGFYNCADVIFAHRLGINEEDKIRPPKMKCKGNDKDCYHYHKCERQYNTKDFNYVEWNDDYSDYIENHTGINRDMCDSTTKCCYK 4ow8-a1-m1-cA_4ow8-a1-m2-cA Crystal structure of kinase domain of PknA from Mtb P9WI83 P9WI83 2.03 X-RAY DIFFRACTION 52 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 276 276 PRVGVTLSGRYRLQRLIATGGMGQVWEAVDNRLGRRVAVKVLKSEFSSDPEFIERFRAEARTTAMLNHPGIASVHDYGESQRTAYLVMELVNGEPLNSVLKRTGRLSLRHALDMLEQTGRALQIAHAAGLVHRDVKPGNILITPTGQVKITDFGIAKAVDAAPVTQTGMVMGTAQYIAPEQALGHDASPASDVYSLGVVGYEAVSGKRPFAGDGALTVAMKHIKEPPPPLPPDLPPNVRELIEITLVKNPAMRYRSGGPFADAVAAVRAGRRPPRP PRVGVTLSGRYRLQRLIATGGMGQVWEAVDNRLGRRVAVKVLKSEFSSDPEFIERFRAEARTTAMLNHPGIASVHDYGESQRTAYLVMELVNGEPLNSVLKRTGRLSLRHALDMLEQTGRALQIAHAAGLVHRDVKPGNILITPTGQVKITDFGIAKAVDAAPVTQTGMVMGTAQYIAPEQALGHDASPASDVYSLGVVGYEAVSGKRPFAGDGALTVAMKHIKEPPPPLPPDLPPNVRELIEITLVKNPAMRYRSGGPFADAVAAVRAGRRPPRP 4owi-a1-m1-cA_4owi-a1-m1-cB peptide structure P03069 P03069 1.202 X-RAY DIFFRACTION 47 1.0 32630 (synthetic construct) 32630 (synthetic construct) 33 33 GSMRMKQLEDKVGELLFSNYWLELEVARLKKLV GSMRMKQLEDKVGELLFSNYWLELEVARLKKLV 4owy-a1-m1-cA_4owy-a1-m1-cB Crystal Structure of Ahp1 from Saccharomyces cerevisiae. Investigating the electron transfers. P38013 P38013 2.2 X-RAY DIFFRACTION 83 1.0 1247190 (Saccharomyces cerevisiae BY4741) 1247190 (Saccharomyces cerevisiae BY4741) 169 174 4dsq-a1-m1-cA_4dsq-a1-m1-cB 4dsq-a2-m1-cC_4dsq-a2-m1-cD 4dsr-a1-m1-cA_4dsr-a1-m1-cB 4dsr-a2-m1-cC_4dsr-a2-m1-cD 4dss-a1-m1-cA_4dss-a1-m2-cA 4h86-a1-m1-cA_4h86-a1-m2-cA 4owy-a2-m1-cC_4owy-a2-m1-cD 7bvv-a1-m1-cA_7bvv-a1-m2-cA DLVNKKFPAGDYKFQYIAISQSDCKMPQTVEWSKLISENKKVIITGAPAAFSPTCTVSHIPGYINYLDELVKEKEVDQVIVVTVDNPFANQAWAKSLGVKDTTHIKFASDPGCAFTKSIGFELAVGDGVYWSGRWAMVVENGIVTYAAKETNPGTDVTVSSVESVLAHL DLVNKKFPAGDYKFQYIAISQSDADSESCKMPQTVEWSKLISENKKVIITGAPAAFSPTCTVSHIPGYINYLDELVKEKEVDQVIVVTVDNPFANQAWAKSLGVKDTTHIKFASDPGCAFTKSIGFELAVGDGVYWSGRWAMVVENGIVTYAAKETNPGTDVTVSSVESVLAHL 4ox0-a2-m2-cC_4ox0-a2-m1-cB Crystal structure of the keratin-like domain from the MADS transcription factor Sepallata 3 O22456 O22456 2.49 X-RAY DIFFRACTION 90 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 91 95 4ox0-a1-m1-cD_4ox0-a1-m2-cA 4ox0-a1-m2-cD_4ox0-a1-m1-cA 4ox0-a2-m1-cC_4ox0-a2-m2-cB LAVELSSQQEYLKLKERYDALQRTQRNLLGEDLGPLSTKELESLERQLDSSLKQIRALRTQFMLDQLNDLQSKERMLTETNKTLRLRLADG PSREALAVELSSQQEYLKLKERYDALQRTQRNLLGEDLGPLSTKELESLERQLDSSLKQIRALRTQFMLDQLNDLQSKERMLTETNKTLRLRLAD 4ox0-a2-m2-cC_4ox0-a2-m2-cB Crystal structure of the keratin-like domain from the MADS transcription factor Sepallata 3 O22456 O22456 2.49 X-RAY DIFFRACTION 43 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 91 95 4ox0-a1-m1-cD_4ox0-a1-m1-cA 4ox0-a1-m2-cD_4ox0-a1-m2-cA 4ox0-a2-m1-cC_4ox0-a2-m1-cB LAVELSSQQEYLKLKERYDALQRTQRNLLGEDLGPLSTKELESLERQLDSSLKQIRALRTQFMLDQLNDLQSKERMLTETNKTLRLRLADG PSREALAVELSSQQEYLKLKERYDALQRTQRNLLGEDLGPLSTKELESLERQLDSSLKQIRALRTQFMLDQLNDLQSKERMLTETNKTLRLRLAD 4ox5-a2-m2-cA_4ox5-a2-m4-cA Structure of the LdcB LD-carboxypeptidase reveals the molecular basis of peptidoglycan recognition Q8DQQ1 Q8DQQ1 1.8 X-RAY DIFFRACTION 10 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 181 181 4ox5-a2-m1-cA_4ox5-a2-m3-cA GSHEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAQEAGFPISDHYSGFRSYETQTKLYQDYVNGKEAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYAEEWHLRYVGKEAKEIAESGLSLEEYYGFEGGDYV GSHEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAQEAGFPISDHYSGFRSYETQTKLYQDYVNGKEAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYAEEWHLRYVGKEAKEIAESGLSLEEYYGFEGGDYV 4ox5-a2-m3-cA_4ox5-a2-m4-cA Structure of the LdcB LD-carboxypeptidase reveals the molecular basis of peptidoglycan recognition Q8DQQ1 Q8DQQ1 1.8 X-RAY DIFFRACTION 15 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 181 181 4ox5-a2-m1-cA_4ox5-a2-m2-cA GSHEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAQEAGFPISDHYSGFRSYETQTKLYQDYVNGKEAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYAEEWHLRYVGKEAKEIAESGLSLEEYYGFEGGDYV GSHEVVNKGDYYSIQGKYDEIIVANKHYPLSKDYNPGENPTAKAELVKLIKAQEAGFPISDHYSGFRSYETQTKLYQDYVNGKEAADRYSARPGYSEHQTGLAFDVIGTDGDLVTEEKAAQWLLDHAADYGFVVRYLKGKEKETGYAEEWHLRYVGKEAKEIAESGLSLEEYYGFEGGDYV 4ox6-a1-m3-cB_4ox6-a1-m3-cA Structure of Synechococcus elongatus PCC 7942 CcmK4 Q31RK2 Q31RK2 1.3367 X-RAY DIFFRACTION 87 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 93 103 4ox6-a1-m1-cB_4ox6-a1-m1-cA 4ox6-a1-m1-cB_4ox6-a1-m2-cA 4ox6-a1-m2-cB_4ox6-a1-m2-cA 4ox6-a1-m2-cB_4ox6-a1-m3-cA 4ox6-a1-m3-cB_4ox6-a1-m1-cA QAIGSLETKGFPPILAAADAMVKAGRITIVSYMRAGSARFAVNIRGDVSEVKTAMDAGIEAAKNTPGGTLETWVIIPRPHENVEAVFPIGFGP PMSQQAIGSLETKGFPPILAAADAMVKAGRITIVSYMRAGSARFAVNIRGDVSEVKTAMDAGIEAAKNTPGGTLETWVIIPRPHENVEAVFPIGFGPEVEQYR 4oxr-a1-m1-cA_4oxr-a1-m1-cB Structure of Staphylococcus pseudintermedius metal-binding protein SitA in complex with Manganese 2 X-RAY DIFFRACTION 63 1.0 283734 (Staphylococcus pseudintermedius) 283734 (Staphylococcus pseudintermedius) 278 278 4oxq-a1-m1-cB_4oxq-a1-m1-cA KLKIVTTNSILYDMTKNITGDKAEIHSIVPVGQDPHEYEIKPKDVQALTDADVIIYNGFNLESGNGWFEKALKQANKSIKDDSVIQASKNVKPIYLKQGEKSEHNIDPHAWLSLGNGIEYVKTIKSALENADKTHAKDYDKQGTEYLSKLEKLNKESKDKFNDIPKEKRVMITSEGAFKYFAQQFDVKPGYIWEINTENQGTPEQMKQAVDFVKENHIKNLLLETSVSDKSMKSLGEETGAKIYGTVYTDSIGKKGSDGDSYYKMMESNIKTIHESMQ KLKIVTTNSILYDMTKNITGDKAEIHSIVPVGQDPHEYEIKPKDVQALTDADVIIYNGFNLESGNGWFEKALKQANKSIKDDSVIQASKNVKPIYLKQGEKSEHNIDPHAWLSLGNGIEYVKTIKSALENADKTHAKDYDKQGTEYLSKLEKLNKESKDKFNDIPKEKRVMITSEGAFKYFAQQFDVKPGYIWEINTENQGTPEQMKQAVDFVKENHIKNLLLETSVSDKSMKSLGEETGAKIYGTVYTDSIGKKGSDGDSYYKMMESNIKTIHESMQ 4oy5-a1-m1-cA_4oy5-a1-m4-cA 0.89 Angstrom resolution crystal structure of (Gly-Pro-Hyp)10 0.89 X-RAY DIFFRACTION 20 1.0 40674 (Mammalia) 40674 (Mammalia) 14 14 4oy5-a1-m1-cA_4oy5-a1-m3-cA 4oy5-a1-m2-cA_4oy5-a1-m3-cA GPGPGPGPGPGPGP GPGPGPGPGPGPGP 4oy5-a1-m3-cA_4oy5-a1-m4-cA 0.89 Angstrom resolution crystal structure of (Gly-Pro-Hyp)10 0.89 X-RAY DIFFRACTION 12 1.0 40674 (Mammalia) 40674 (Mammalia) 14 14 4oy5-a1-m1-cA_4oy5-a1-m2-cA GPGPGPGPGPGPGP GPGPGPGPGPGPGP 4oyu-a1-m1-cA_4oyu-a1-m1-cB Crystal structure of the N-terminal domains of muskelin Q99PV3 Q99PV3 1.8 X-RAY DIFFRACTION 24 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 178 179 MECRLLPYALHKWSSFSSTYLPENILVDKPNDQSSRWSSESNYPPQYLILKLERPAIVQNITFGKYEKTHVCNLKKFKVFGGMNEENMTELLSSGLKNDYNKETFTLKHKIDEQMFPCRFIKIVPLLSWGPSFNFSIWYVELSGIDDPDIVQPCLNWYSKYREQEAIRLCLKHFRQHN AMECRLLPYALHKWSSFSSTYLPENILVDKPNDQSSRWSSESNYPPQYLILKLERPAIVQNITFGKYEKTHVCNLKKFKVFGGMNEENMTELLSSGLKNDYNKETFTLKHKIDEQMFPCRFIKIVPLLSWGPSFNFSIWYVELSGIDDPDIVQPCLNWYSKYREQEAIRLCLKHFRQHN 4oz1-a1-m1-cB_4oz1-a1-m1-cA Crystal structure of human CAPERalpha UHM bound to SF3b155 ULM5 Q14498 Q14498 1.74 X-RAY DIFFRACTION 28 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 110 111 4oz0-a1-m1-cB_4oz0-a1-m1-cA PLATQCFQLSNMFNPQTEEEVGWDTEIKDDVIEECNKHGGVIHIYVDKNSAQGNVYVKCPSIAAAIAAVNALHGRWFAGKMITAAYVPLPTYHNLFPDSMTATQLLVPSR VQPLATQCFQLSNMFNPQTEEEVGWDTEIKDDVIEECNKHGGVIHIYVDKNSAQGNVYVKCPSIAAAIAAVNALHGRWFAGKMITAAYVPLPTYHNLFPDSMTATQLLVPS 4ozn-a1-m1-cC_4ozn-a1-m1-cA GlnK2 from Haloferax mediterranei complexed with ATP B8ZYW1 B8ZYW1 2.6 X-RAY DIFFRACTION 84 0.991 523841 (Haloferax mediterranei ATCC 33500) 523841 (Haloferax mediterranei ATCC 33500) 113 116 4ozj-a1-m1-cA_4ozj-a1-m2-cA 4ozj-a1-m1-cA_4ozj-a1-m3-cA 4ozj-a1-m2-cA_4ozj-a1-m3-cA 4ozl-a1-m1-cA_4ozl-a1-m2-cA 4ozl-a1-m1-cA_4ozl-a1-m3-cA 4ozl-a1-m2-cA_4ozl-a1-m3-cA 4ozn-a1-m1-cB_4ozn-a1-m1-cA 4ozn-a1-m1-cB_4ozn-a1-m1-cC ADLPNDGGIKLVMAIIRPDKLADVKTALAEVGAPSLTVTNVSGRGSQRGEEYTVDLHQKVKVECVVADTPAEDVADAIADAAHTGEKGDGKIFILPVENAIQVRTGKTGRDAV DLPNDGGIKLVMAIIRPDKLADVKTALAEVGAPSLTVTNVSGRGSQKSQWRGEEYTVDLHQKVKVECVVADTPAEDVADAIADAAHTGEKGDGKIFILPVENAIQVRTGKTGRDAV 4ozo-a1-m1-cA_4ozo-a1-m1-cB Crystal structure of an a-L-fucosidase GH29 from Bacteroides thetaiotaomicron (BT2192) in complex with oNPTG Q8A5P6 Q8A5P6 2.6 X-RAY DIFFRACTION 41 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 459 459 SLAPCGLVPSARQLEWYNREMIAFFHFGINTFEEYVNEGDGKASTAIFNPTALDCRQWMQTLKAAGIPAAILTAKHADGFCLWPSKYTDYSVKNAAWKNGKGDVVREFVDACEEYGLKAGIYLGPHDRHEHLSPLYTTERYKEYYAHQLGELMSDYGKIWETWWDGAGADELTTPVYRHWYKIVREKQPDCVIFGTKNSYPFADVRWMGNEAGEAGDPCWATTDSVAIRDEAQYYKGLNEGMLDGDAYIPAETDVSIRPSWFYHAEEDSRVKSVRELWDIYCTSVGRNSVLLLNFPPDRRGLIHSTDSLHAALLKQGIDETFSTNLLRGAKVKATNVRGAKYSPEKMLDNEKNTYFAGKDGEVKADIIFTLPKTIEFDCLMIEEVIELGHRTTKWSVEYTVDGKNWITIPEATDKQAIGHKWIVRLAPVKAKQVRLRIQDGKACPAIHTFGVYKQSPVF SLAPCGLVPSARQLEWYNREMIAFFHFGINTFEEYVNEGDGKASTAIFNPTALDCRQWMQTLKAAGIPAAILTAKHADGFCLWPSKYTDYSVKNAAWKNGKGDVVREFVDACEEYGLKAGIYLGPHDRHEHLSPLYTTERYKEYYAHQLGELMSDYGKIWETWWDGAGADELTTPVYRHWYKIVREKQPDCVIFGTKNSYPFADVRWMGNEAGEAGDPCWATTDSVAIRDEAQYYKGLNEGMLDGDAYIPAETDVSIRPSWFYHAEEDSRVKSVRELWDIYCTSVGRNSVLLLNFPPDRRGLIHSTDSLHAALLKQGIDETFSTNLLRGAKVKATNVRGAKYSPEKMLDNEKNTYFAGKDGEVKADIIFTLPKTIEFDCLMIEEVIELGHRTTKWSVEYTVDGKNWITIPEATDKQAIGHKWIVRLAPVKAKQVRLRIQDGKACPAIHTFGVYKQSPVF 4ozs-a1-m1-cA_4ozs-a1-m3-cA RNA binding protein 2.17 X-RAY DIFFRACTION 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 175 175 4ozs-a1-m1-cA_4ozs-a1-m2-cA DVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKP DVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKPDVVTYNTLIDGLAKAGRLEEALQLFQEMKEKGVKP 4p0e-a1-m1-cB_4p0e-a1-m1-cA YhdE E33A (p212121 space group) P25536 P25536 2.3 X-RAY DIFFRACTION 67 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 188 189 4p0u-a1-m1-cA_4p0u-a1-m1-cB SLYLASGSPRRQELLAQLGVTFERIVTGIEAQRQPQESAQQYVVRLAREKARAGVAQTAKDLPVLGADTIVILNGEVLEKPRDAEHAAQMLRKLSGQTHQVMTAVALADSQHILDCLVVTDVTFRTLTDEDIAGYVASDEPLDKAGAYGIQGLGGCFVRKINGSYHAVVGLPLVETYELLSNFNALRE TSLYLASGSPRRQELLAQLGVTFERIVTGIEAQRQPQESAQQYVVRLAREKARAGVAQTAKDLPVLGADTIVILNGEVLEKPRDAEHAAQMLRKLSGQTHQVMTAVALADSQHILDCLVVTDVTFRTLTDEDIAGYVASDEPLDKAGAYGIQGLGGCFVRKINGSYHAVVGLPLVETYELLSNFNALRE 4p13-a1-m1-cD_4p13-a1-m1-cA Medium chain acyl-CoA dehydrogenase, K304E mutant P11310 P11310 1.73 X-RAY DIFFRACTION 146 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 387 1egc-a1-m1-cA_1egc-a1-m1-cD 1egc-a1-m1-cB_1egc-a1-m1-cC 1egd-a1-m1-cA_1egd-a1-m1-cD 1egd-a1-m1-cB_1egd-a1-m1-cC 1ege-a1-m1-cA_1ege-a1-m1-cD 1ege-a1-m1-cB_1ege-a1-m1-cC 1t9g-a1-m1-cA_1t9g-a1-m1-cD 1t9g-a1-m1-cB_1t9g-a1-m1-cC 2a1t-a1-m1-cA_2a1t-a1-m1-cD 2a1t-a1-m1-cB_2a1t-a1-m1-cC 4p13-a1-m1-cB_4p13-a1-m1-cC LGFSFEFTEQQKEFQATARKFAREEIIPVAAEYDKTGEYPVPLIRRAWELGLMNTHIPENCGGLGLGTFDACLISEELAYGCTGVQTAIEGNSLGQMPIIIAGNDQQKKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPANKAFTGFIVEADTPGIQIGRKELNMGQRCSDTRGIVFEDVKVPKENVLIGDGAGFKVAMGAFDKTRPVVAAGAVGLAQRALDEATKYALERKTFGKLLVEHQAISFMLAEMAMEVELARMSYQRAAWEVDSGRRNTYYASIAKAFAGDIANQLATDAVQILGGNGFNTEYPVEKLMRDAKIYQIYEGTSQIQRLIVAREHIDKYK LGFSFEFTEQQKEFQATARKFAREEIIPVAAEYDKTGEYPVPLIRRAWELGLMNTHIPENCGGLGLGTFDACLISEELAYGCTGVQTAIEGNSLGQMPIIIAGNDQQKKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPANKAFTGFIVEADTPGIQIGRKELNMGQRCSDTRGIVFEDVKVPKENVLIGDGAGFKVAMGAFDKTRPVVAAGAVGLAQRALDEATKYALERKTFGKLLVEHQAISFMLAEMAMEVELARMSYQRAAWEVDSGRRNTYYASIAKAFAGDIANQLATDAVQILGGNGFNTEYPVEKLMRDAKIYQIYEGTSQIQRLIVAREHIDKYKN 4p13-a1-m1-cD_4p13-a1-m1-cC Medium chain acyl-CoA dehydrogenase, K304E mutant P11310 P11310 1.73 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 387 1egc-a1-m1-cA_1egc-a1-m1-cB 1egc-a1-m1-cC_1egc-a1-m1-cD 1egd-a1-m1-cA_1egd-a1-m1-cB 1egd-a1-m1-cC_1egd-a1-m1-cD 1ege-a1-m1-cA_1ege-a1-m1-cB 1ege-a1-m1-cC_1ege-a1-m1-cD 1t9g-a1-m1-cA_1t9g-a1-m1-cB 1t9g-a1-m1-cD_1t9g-a1-m1-cC 2a1t-a1-m1-cA_2a1t-a1-m1-cB 2a1t-a1-m1-cD_2a1t-a1-m1-cC 4p13-a1-m1-cB_4p13-a1-m1-cA LGFSFEFTEQQKEFQATARKFAREEIIPVAAEYDKTGEYPVPLIRRAWELGLMNTHIPENCGGLGLGTFDACLISEELAYGCTGVQTAIEGNSLGQMPIIIAGNDQQKKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPANKAFTGFIVEADTPGIQIGRKELNMGQRCSDTRGIVFEDVKVPKENVLIGDGAGFKVAMGAFDKTRPVVAAGAVGLAQRALDEATKYALERKTFGKLLVEHQAISFMLAEMAMEVELARMSYQRAAWEVDSGRRNTYYASIAKAFAGDIANQLATDAVQILGGNGFNTEYPVEKLMRDAKIYQIYEGTSQIQRLIVAREHIDKYK LGFSFEFTEQQKEFQATARKFAREEIIPVAAEYDKTGEYPVPLIRRAWELGLMNTHIPENCGGLGLGTFDACLISEELAYGCTGVQTAIEGNSLGQMPIIIAGNDQQKKKYLGRMTEEPLMCAYCVTEPGAGSDVAGIKTKAEKKGDEYIINGQKMWITNGGKANWYFLLARSDPDPKAPANKAFTGFIVEADTPGIQIGRKELNMGQRCSDTRGIVFEDVKVPKENVLIGDGAGFKVAMGAFDKTRPVVAAGAVGLAQRALDEATKYALERKTFGKLLVEHQAISFMLAEMAMEVELARMSYQRAAWEVDSGRRNTYYASIAKAFAGDIANQLATDAVQILGGNGFNTEYPVEKLMRDAKIYQIYEGTSQIQRLIVAREHIDKYKN 4p1m-a1-m1-cA_4p1m-a1-m2-cB The structure of Escherichia coli ZapA P0ADS2 P0ADS2 1.95 X-RAY DIFFRACTION 47 0.991 562 (Escherichia coli) 562 (Escherichia coli) 106 107 4p1m-a1-m2-cA_4p1m-a1-m1-cB QPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTRVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE SAQPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE 4p1m-a1-m1-cB_4p1m-a1-m2-cB The structure of Escherichia coli ZapA P0ADS2 P0ADS2 1.95 X-RAY DIFFRACTION 79 1.0 562 (Escherichia coli) 562 (Escherichia coli) 107 107 4p1m-a1-m1-cA_4p1m-a1-m2-cA SAQPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE SAQPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE 4p1m-a1-m2-cA_4p1m-a1-m2-cB The structure of Escherichia coli ZapA P0ADS2 P0ADS2 1.95 X-RAY DIFFRACTION 101 0.991 562 (Escherichia coli) 562 (Escherichia coli) 106 107 4p1m-a1-m1-cA_4p1m-a1-m1-cB QPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTRVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE SAQPVDIQIFGRSLRVNCPPDQRDALNQAADDLNQRLQDLKERTVTNTEQLVFIAALNISYELAQEKAKTRDYAASMEQRIRMLQQTIEQALLEQGRITEKTNQNFE 4p1z-a2-m1-cD_4p1z-a2-m1-cB Structure of the MID domain from MIWI Q9JMB7 Q9JMB7 2.3 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 118 125 4p1z-a1-m1-cC_4p1z-a1-m1-cA KPLDNWLLIYTRRNYEAANSLIQNLFKVTPAMGIQMKKAIMIEVDDRTEAYLRALQQKVTSDTQIVVCLLSSNRKDKYDAIKKYLCTDCPTPSQCVVARTLKQQTVMAIATKIALQMN APLISVKPLDNWLLIYTRRNYEAANSLIQNLFKVTPAMGIQMKKAIMIEVDDRTEAYLRALQQKVTSDTQIVVCLLSSNRKDKYDAIKKYLCTDCPTPSQCVVARTLGKQQTVMAIATKIALQMN 4p22-a1-m1-cA_4p22-a1-m1-cB Crystal Structure of N-terminal Fragments of E1 P22314 P22314 2.75 X-RAY DIFFRACTION 173 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 370 375 IDEGLYSRQLYVLGHEAMKRLQTSSVLVSGLRGLGVEIAKNIILGGVKAVTLHDQGTAQWADLSSQFYLREEDIGKNRAEVSQPRLAELNSYVPVTAYTGPLVEDFLSGFQVVVLTNTPLEDQLRVGEFCHNRGIKLVVADTRGLFGQLFCDFGEEMILTDSPLSAMVSMVTKDNPGVVTCLDRHGFESGDFVSFSEVQGMVELNGNQPMEIKVLGPYTFSICDTSNFSDYIRGGIVSQVKVPKKISFKSLVASLAEPDFVKFSRPAQLHIGFQALHQFCAQHGRPPRPRNDEDAAELVALAQAVNARALPAVQQNNLDEDLIRKLAYVAAGDLAPINAFIGGLAAQEVMKACSGKFMPIMQWLYFDALE EGLYSRQLYVLGHEAMKRLQTSSVLVSGLRGLGVEIAKNIILGGVKAVTLHDQGTAQWADLSSQFYLREEDIGKNRAEVSQPRLAELNSYVPVTAYTGPLVEDFLSGFQVVVLTNTPLEDQLRVGEFCHNRGIKLVVADTRGLFGQLFCDFGEEMILTDSQPLSAMVSMVTKDNPGVVTCLDEARHGFESGDFVSFSEVQGMVELNGNQPMEIKVLGPYTFSICDTSNFSDYIRGGIVSQVKVPKKISFKSLVASLAEPDFVVTDFFSRPAQLHIGFQALHQFCAQHGRPPRPRNDEDAAELVALAQAVNARALPAVQQNNLDEDLIRKLAYVAAGDLAPINAFIGGLAAQEVMKACSGKFMPIMQWLYFDALEC 4p2b-a2-m1-cA_4p2b-a2-m2-cA Crystal structure of the apo form of the glutaminyl-tRNA synthetase catalytic domain from Toxoplasma gondii. B6KTZ0 B6KTZ0 2.8 X-RAY DIFFRACTION 114 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 507 507 GSHMVNFLKQIVEEDLRTGTVITRFPPEPNGFLHLGHAKSVCLNFGLAKAFGGRCHLRFDDTNPMKEETRYIESIQRDVRWLGGDWGNHLYYASDYFQQLYDWAELLIKKGLAFVDDDSLEEIRRKRENSPFRERSIEENLDLFRRMRAGEFEEGSRVLRAKIDMTHSNMNMRDPVLYRILKKEHPRTGNQWVIYPMYDYAHGQSDSIENITHSICLHRILYDWFQEKLEITRTRQIEFARLNVTYTVMSKRKLLALVTEKWVDGWDDPRLPTLSGLRRRGVPPSALRDFCDKVGVARRESTIKVEVLEKCIRDALHVVAHRRFAIQDPIAVTITNYGDKVETITARELHFSKKLYIDRDDFMENPPAGYRRLAPGAEVRLKHAYWIKCVDVVKDASGLVTELLCTYDPQTKNPDGRKVKGAIHWLSEKDAVPAEIRIFGRLFTKPNPWRENINKESLKVYKGFVERSAADSAAFPPQSSLQFERLGFFTPDGSTLTLPVFNLTVAL GSHMVNFLKQIVEEDLRTGTVITRFPPEPNGFLHLGHAKSVCLNFGLAKAFGGRCHLRFDDTNPMKEETRYIESIQRDVRWLGGDWGNHLYYASDYFQQLYDWAELLIKKGLAFVDDDSLEEIRRKRENSPFRERSIEENLDLFRRMRAGEFEEGSRVLRAKIDMTHSNMNMRDPVLYRILKKEHPRTGNQWVIYPMYDYAHGQSDSIENITHSICLHRILYDWFQEKLEITRTRQIEFARLNVTYTVMSKRKLLALVTEKWVDGWDDPRLPTLSGLRRRGVPPSALRDFCDKVGVARRESTIKVEVLEKCIRDALHVVAHRRFAIQDPIAVTITNYGDKVETITARELHFSKKLYIDRDDFMENPPAGYRRLAPGAEVRLKHAYWIKCVDVVKDASGLVTELLCTYDPQTKNPDGRKVKGAIHWLSEKDAVPAEIRIFGRLFTKPNPWRENINKESLKVYKGFVERSAADSAAFPPQSSLQFERLGFFTPDGSTLTLPVFNLTVAL 4p2c-a1-m1-cH_4p2c-a1-m1-cG Complex of Shiga toxin 2e with a neutralizing single-domain antibody R9VYW2 R9VYW2 2.818 X-RAY DIFFRACTION 12 1.0 9844 (Lama glama) 9844 (Lama glama) 120 121 VQLQESGGGLVQAGGSLRLSCAVSGSIFRLSTMGWYRQAPGKQREFVASITSYGDTNYRDSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNANIEAGTYYGPGRDYWGQGTQVTVS QVQLQESGGGLVQAGGSLRLSCAVSGSIFRLSTMGWYRQAPGKQREFVASITSYGDTNYRDSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNANIEAGTYYGPGRDYWGQGTQVTVS 4p2l-a1-m1-cB_4p2l-a1-m1-cA Quiescin Sulfhydryl Oxidase from Rattus norvegicus Q6IUU3 Q6IUU3 2.9 X-RAY DIFFRACTION 71 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 492 498 LYSSSDPLTLLDADTVRPAVLGSSSAWAVEFFASWCGHCIAFAPTWKELANDVKDWRPALNLAVLDCADETNSAVCREFNIAGFPTVRFFKAFSKNGTGTALPAAGANVQTLRMRLIDALESHRDTWPPACPPLEPAKLKDINEFFTRSKAEYLALIFEREDSYLGREVTLDLSQFHAVAVRRVLNSESDVVSKFAVTDFPSCYLLLRNGSVSRVPVLVESRPFYTSYLRGLPGLTREAPPPTVWKFADRSKIYMADLESALHYILRVEVGKFSVLEGQRLVALKKFVAVLAKYFPGQPLVQNFLHSINDWLQKQQKKKIPYSYFKAALDSHKENAVLAEKVNWIGCQGSEPHFRGFPCSLWVLFHFLTVQAHRYSEAHPQEPADGQEVLQAMRSYVQSFFCRDCANHFEQMAAASMHQVKSPSNAVLWLWTSHNRVNARLSGALSEDPQFPKVQWPPRELCSACHNVPLWDLGATLNFLKAHFSPANIVRD VLYSSSDPLTLLDADTVRPAVLGSSSAWAVEFFASWCGHCIAFAPTWKELANDVKDWRPALNLAVLDCADETNSAVCREFNIAGFPTVRFFKAFSKNGTGTALPAAGANVQTLRMRLIDALESHRDTWPPACPPLEPAKLKDINEFFTRSKAEYLALIFEREDSYLGREVTLDLSQFHAVAVRRVLNSESDVVSKFAVTDFPSCYLLLRNGSVSRVPVLVESRPFYTSYLRGLPGLTREAPPPTVWKFADRSKIYMADLESALHYILRVEVGKFSVLEGQRLVALKKFVAVLAKYFPGQPLVQNFLHSINDWLQKQQKKKIPYSYFKAALDSHKENAVLAEKVNWIGCQGSEPHFRGFPCSLWVLFHFLTVQAHRYSEAHPQEPADGQEVLQAMRSYVQSFFGCRDCANHFEQMAAASMHQVKSPSNAVLWLWTSHNRVNARLSGALSEDPQFPKVQWPPRELCSACHNEVNGVPLWDLGATLNFLKAHFSPANIVRD 4p2y-a3-m1-cB_4p2y-a3-m3-cB Crystal structure of the human RAGE ectodomain (fragment VC1C2) in complex with mouse S100A6 P14069 P14069 2.3 X-RAY DIFFRACTION 86 1.0 10090 (Mus musculus) 10090 (Mus musculus) 88 88 4p2y-a2-m1-cB_4p2y-a2-m3-cB 4p2y-a2-m2-cB_4p2y-a2-m4-cB ACPLDQAIGLLVAIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMDDLDRNKDQEVNFQEYVAFLGALALIYNEALK ACPLDQAIGLLVAIFHKYSGKEGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMDDLDRNKDQEVNFQEYVAFLGALALIYNEALK 4p37-a1-m1-cB_4p37-a1-m1-cA Crystal structure of the Megavirus polyadenylate synthase G5CT11 G5CT11 2.24 X-RAY DIFFRACTION 158 0.996 1094892 (Megavirus chiliensis) 1094892 (Megavirus chiliensis) 480 481 NRNRKLSYQEYYVDGDYEEVRKKLPEIIKQARIKASQVEPTIYEKRVVEIIKDFIRDKGRKVYGGTALNETIKKNPEDAIYDSYLFSDIEFYSPTPVPDLKELCDILYHKGYDPVQGKEAQHEETYSIFVNLQLYCDITYVPTKVYHGIKTIEIDGINYTHPHFLIDYLRINQPLTAAEQRWEKAFDRYVLLKNYPEKYDNSRITSPRDDIQYIGKVKSEFKIPEIQESCLISGFDAYNFFIRHAGDRKNFITVLPFELISVKYKDTVEKLYNFLREKVVNPDLITIDEYFPLFQFTGYSVSINYDGIPIVKVYEADGYCVPDIKTTSGYRYVSYQYILIYISKFKAHLDKNKEYFNYGIAISNLVQARNSYLNQKNIGVINDTVFSEFRIGCIGTTVSYTRSRLRLEKKKQGKVIQFVYTPKQYFSQTPEQQNNFDESKKYRFKNTSGNKITIPKNLLFKIDERGNISEEISTEEAYIT NRNRKLSYQEYYVDGDYEEVRKKLPEIIKQARIKASQVEPTIYEKRVVEIIKDFIRDKGRKVYGGTALNETIKKKNPEDAIYDSYLFSDIEFYSPTPVPDLKELCDILYHKGYDPVQGKEAQHEETYSIFVNLQLYCDITYVPTKVYHGIKTIEIDGINYTHPHFLIDYLRINQPLTAAEQRWEKAFDRYVLLKNYPEKYDNSRITSPRDDIQYIGKVKSEFKIPEIQESCLISGFDAYNFFIRHAGDRSLKNFITVLPFELISVKYKDTVEKLYNFLREKVVNPDLITIDEYFPLFQFTGYSVSINYDGIPIVKVYEADGYCVPDIKTTSGYRYVSYQYILIYISKFKAHLDKNKEYFNYGIAISNLVQARNSYLNQKNIGVINDTVFSEFRIGCIGTTVSYTRSRLRLEKKKQGKVIQFVYTPKQYFSQTPEQQNNFDESKKYRFKNTSGNKITIPKNLLFKIDERGNISEEISTEEAY 4p39-a5-m1-cA_4p39-a5-m1-cB Crystal structure of the human C5aR antagonist C5a-A8 P01031 P01031 2.401 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 STLQKKIEEIAAKYKHSVVKKCCYDGARVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANISFK STLQKKIEEIAAKYKHSVVKKCCYDGARVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANISFK 4p39-a7-m1-cB_4p39-a7-m3-cC Crystal structure of the human C5aR antagonist C5a-A8 P01031 P01031 2.401 X-RAY DIFFRACTION 42 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 4p39-a5-m1-cB_4p39-a5-m3-cC 4p39-a5-m2-cD_4p39-a5-m1-cA 4p39-a6-m2-cD_4p39-a6-m1-cA STLQKKIEEIAAKYKHSVVKKCCYDGARVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANISFK TLQKKIEEIAAKYKHSVVKKCCYDGARVNNDETCEQRAARISLGPRCIKAFTECCVVASQLRANISFKR 4p3a-a6-m1-cC_4p3a-a6-m1-cD Crystal structure of the mouse C5a anaphylatoxin P06684 P06684 1.4 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 68 69 4p3a-a5-m1-cB_4p3a-a5-m1-cA 4p3b-a5-m1-cA_4p3b-a5-m1-cC 4p3b-a6-m2-cD_4p3b-a6-m1-cB ANLHLLRQKIEEQAAKYKHSVPKKCCYDGARVNFYETCEERVARVTIGPLCIRAFNECCTIANKIRKE ANLHLLRQKIEEQAAKYKHSVPKKCCYDGARVNFYETCEERVARVTIGPLCIRAFNECCTIANKIRKES 4p3c-a1-m1-cH_4p3c-a1-m2-cH MT1-MMP:Fab complex (Form I) 1.943 X-RAY DIFFRACTION 112 1.0 10090 (Mus musculus) 10090 (Mus musculus) 218 218 4p3d-a1-m1-cA_4p3d-a1-m1-cH EVKLVESGGGLVKPGGSLKLSCAASGFIFSNYAMSWVRQTPEKRLEWVATISGGGRNIYSLDSVKGRFTFFRDNARNTLYLQMSSLRSEDTAMYFCSRENYGSSFTYWGQGTLVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR EVKLVESGGGLVKPGGSLKLSCAASGFIFSNYAMSWVRQTPEKRLEWVATISGGGRNIYSLDSVKGRFTFFRDNARNTLYLQMSSLRSEDTAMYFCSRENYGSSFTYWGQGTLVTVSSAKTTPPSVYPLAPGSAAQTNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSETVTCNVAHPASSTKVDKKIVPR 4p3d-a1-m1-cB_4p3d-a1-m1-cL MT1-MMP:Fab complex (Form II) A2NHM3 A2NHM3 1.949 X-RAY DIFFRACTION 23 1.0 10090 (Mus musculus) 10090 (Mus musculus) 218 218 1vpo-a2-m1-cL_1vpo-a2-m2-cL 2igf-a2-m2-cL_2igf-a2-m1-cL 4p3c-a1-m1-cL_4p3c-a1-m2-cL DVLMTQTPLSLPVGLGDQASISCRSSQSIVHSNGNTYLEWYLQKPGQSPKLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGVYYCFQGSHAPYTFGGGTKLEIKRAADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN DVLMTQTPLSLPVGLGDQASISCRSSQSIVHSNGNTYLEWYLQKPGQSPKLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDLGVYYCFQGSHAPYTFGGGTKLEIKRAADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN 4p3f-a1-m1-cA_4p3f-a1-m1-cB Structure of the human SRP68-RBD Q9UHB9 Q9UHB9 1.699 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 198 DSLSLEILQIIKESQQQHGLRHGDFQRYRGYCSRRQRRLRKTLNFKMGNRHKFTGKKVTEDLLTDNRYLLLVLMDAERAWSYAMQLKQEARKRFHLLSRLRKAVKHAEELERLCESNRVDAKTKLEAQAYTAYLSGMLRFEHQEWKAAIEAFNKCKTIYEKLASAFTEEQAVLYNQRVEEISPNIRYCAYNIG GDSLSLEILQIIKESQQQHGLRHGDFQRYRGYCSRRQRRLRKTLNFKMGNRHKFTGKKVTEDLLTDNRYLLLVLMDAERAWSYAMQLKQEANTEPRKRFHLLSRLRKAVKHAEELERLCESNRVDAKTKLEAQAYTAYLSGMLRFEHQEWKAAIEAFNKCKTIYEKLASAFTEEQAVLYNQRVEEISPNIRYCAYNIG 4p3g-a1-m1-cB_4p3g-a1-m1-cA Structure of the SRP68-RBD from Chaetomium thermophilum G0S5V2 G0S5V2 2.7 X-RAY DIFFRACTION 81 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 199 215 HHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIAITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANTKGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSDIFKELLSDTIDPSRFAAYQAKIPRTLPIATIAHRAFEQS HHHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIATKNRGKFHPKTAITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANTKGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSSKGDIFKELLSDTIDPSRFAAYQAKIPRTLPIATIAHRAFEQS 4p3g-a1-m1-cC_4p3g-a1-m1-cD Structure of the SRP68-RBD from Chaetomium thermophilum G0S5V2 G0S5V2 2.7 X-RAY DIFFRACTION 11 0.994 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 180 191 HHHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSATGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSSKGDIFKELLSDTIDPSRFAAYQAK HHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSSKGDIFKELLSDTIDPSRFAAYQAKIRTLPIATIA 4p3g-a1-m1-cD_4p3g-a1-m1-cA Structure of the SRP68-RBD from Chaetomium thermophilum G0S5V2 G0S5V2 2.7 X-RAY DIFFRACTION 18 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 191 215 HHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSSKGDIFKELLSDTIDPSRFAAYQAKIRTLPIATIA HHHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIATKNRGKFHPKTAITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANTKGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSSKGDIFKELLSDTIDPSRFAAYQAKIPRTLPIATIAHRAFEQS 4p3g-a1-m1-cD_4p3g-a1-m1-cB Structure of the SRP68-RBD from Chaetomium thermophilum G0S5V2 G0S5V2 2.7 X-RAY DIFFRACTION 47 0.984 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 191 199 4p3g-a1-m1-cC_4p3g-a1-m1-cA HHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSSKGDIFKELLSDTIDPSRFAAYQAKIRTLPIATIA HHDITKFVVTSREKALLYGDYATYRTQLSGKLLNCRKKLNIAITPEQIAENTEYVRLQLLTAERAWAHAAKAAHSANTKGTGRTRSHIVSRLEKGARIAEKLAQALSDGASGASPTDILDARAYAALLRGAALFEKQNWGACLKSYAICRIIYTALATSDIFKELLSDTIDPSRFAAYQAKIPRTLPIATIAHRAFEQS 4p3m-a1-m1-cA_4p3m-a1-m1-cB Crystal structure of serine hydroxymethyltransferase from Psychromonas ingrahamii A1SUU0 A1SUU0 1.85 X-RAY DIFFRACTION 260 1.0 357804 (Psychromonas ingrahamii 37) 357804 (Psychromonas ingrahamii 37) 376 389 MFNRDMNIADYDPELWQSITDEVQRQEDHIELIASENYTSPRVMEAQGSQLTNKYAEGYPGKRYYGGCEYVDVAESLAIERAKSLFGADYANVQPHSGSQANAAVYQALCAPGDTILGMYNAVQYILDYAEIERLAVEHKPTMIIAGGIVDWAKFREIADKVGAYLFVDMAHVAGLVAAGLYPNPVPFADVVTTTTHKTLGGPRGGLILAKANEAIEKKLNSAVFPGQQGGPLMHVIAAKAVAFKECAEPEFAVYQQQVLDNAKAMVKSFLARGYKIVSNHLFLVDLIAQDITGKEADAALGNAHITVNKNVTSGLRIGTPALARRGVNAQQSAELALWMCDVLDAIKDEAKLATTITAVKVKVAALCKACPVYGL MFNRDMNIADYDPELWQSITDEVQRQEDHIELIASENYTSPRVMEAQGSQLTNKYAEGYPGKRYYGGCEYVDVAESLAIERAKSLFGADYANVQPHSGSQANAAVYQALCAPGDTILGMMYNAVQYGILDYAEIERLAVEHKPTMIIAGFGIVDWAKFREIADKVGAYLFVDMAHVAGLVAAGLYPNPVPFADVVTTTTHKTLGGPRGGLILAKANEAIEKKLNSAVFPGQQGGPLMHVIAAKAVAFKECAEPEFAVYQQQVLDNAKAMVKSFLARGYKIVSNHLFLVDLIAQDITGKEADAALGNAHITVNKNSVPNDPRSPFVTSGLRIGTPALARRGVNAQQSAELALWMCDVLDAIKDEAKLATTITAVKVKVAALCKACPVYGL 4p3n-a2-m1-cC_4p3n-a2-m1-cD Structural Basis for Full-Spectrum Inhibition of Threonyl-tRNA Synthetase by Borrelidin 1 P26639 P26639 2.6 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 402 402 4hwt-a1-m1-cA_4hwt-a1-m1-cB 4p3n-a1-m1-cA_4p3n-a1-m1-cB 4ttv-a1-m1-cA_4ttv-a1-m1-cB 4ttv-a2-m1-cC_4ttv-a2-m1-cD DHRKIGRDQELYFFHELSPGSCFFLPKGAYIYNALIEFIRSEYRKRGFQEVVTPNIFNSRLWMTSGHWQHYSENMFSFEVEKELFALKPMNCPGHCLMFDHRPRSWRELPLRLADFGVLHRNELSGALTGLTRVRRFQQDDAHIFCAMEQIEDEIKGCLDFLRTVYSVFGFSFKLNLSTRPEKFLGDIEVWDQAEKQLENSLNEFGEKWELNSGDGAFYGPKIDIQIKDAIGRYHQCATIQLDFQLPIRFNLTYVSHDGDDKKRPVIVHRAILGSVERMIAILTENYGGKWPFWLSPRQVMVVPVGPTCDEYAQKVRQQFHDAKFMADIDLDPGCTLNKKIRNAQLAQYNFILVVGEKEKISGTVNIRTRDNKVHGERTISETIERLQQLKEFRSKQAEEEF DHRKIGRDQELYFFHELSPGSCFFLPKGAYIYNALIEFIRSEYRKRGFQEVVTPNIFNSRLWMTSGHWQHYSENMFSFEVEKELFALKPMNCPGHCLMFDHRPRSWRELPLRLADFGVLHRNELSGALTGLTRVRRFQQDDAHIFCAMEQIEDEIKGCLDFLRTVYSVFGFSFKLNLSTRPEKFLGDIEVWDQAEKQLENSLNEFGEKWELNSGDGAFYGPKIDIQIKDAIGRYHQCATIQLDFQLPIRFNLTYVSHDGDDKKRPVIVHRAILGSVERMIAILTENYGGKWPFWLSPRQVMVVPVGPTCDEYAQKVRQQFHDAKFMADIDLDPGCTLNKKIRNAQLAQYNFILVVGEKEKISGTVNIRTRDNKVHGERTISETIERLQQLKEFRSKQAEEEF 4p3v-a1-m1-cA_4p3v-a1-m2-cA Crystal structure of the E. coli HU beta2 protein P0ACF4 P0ACF4 1.25 X-RAY DIFFRACTION 155 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 72 72 MNKSQLIDKIAAGADISKAAAGRALDAIIASVTESLKEGDDVALVGFGTFAVKERAKVPSFRAGKALKDAVN MNKSQLIDKIAAGADISKAAAGRALDAIIASVTESLKEGDDVALVGFGTFAVKERAKVPSFRAGKALKDAVN 4p42-a1-m1-cB_4p42-a1-m1-cA Extended-Synaptotagmin 2, SMP - C2A - C2B Domains A0FGR8 A0FGR8 2.44 X-RAY DIFFRACTION 151 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 431 455 TERAEWLNKTVKHMWPFICQFIEKLFRETIEPAVRGANTHLSTFSFTKVDVGQQPLRINGVKVYTKRQIILDLQISFVGNCEIDLEIKRYFCRAGVKSIQIHGTMRVILEPLIGDMPLVGALSIFFLRKPLLEINWTGLTNLLDVPGLNGLSDTIILDIISNYLVLPNRITVPLVSRFPVPKGVLRIHFIEAQDLPYGIIRVGNQIFQSRVIKENLSPKWNEVYEALVYEHPGQELEIELFDEDPDDFLGSLMIDLIEVEKERLLDEWFTLDEVPKGKLHLRLEWLTLMPNASNLDKVLTDIKAGLSSALLILYLDSARNLPSGKKISSNPNPVVQMSVGHKAQESKIRYKTNEPVWEENFTFFIHNPKRQDLEVEVRDEQHQCSLGNLKVPLSQLLTSEDMTVSQRFQLSNSGPNSTIKMKIALRVLHLE DTERAEWLNKTVKHMWPFICQFIEKLFRETIEPAVRGANTHLSTFSFTKVDVGQQPLRINGVKVYTENVDKRQIILDLQISFVGNCEIDLEIKRYFCRAGVKSIQIHGTMRVILEPLIGDMPLVGALSIFFLRKPLLEINWTGLTNLLDVPGLNGLSDTIILDIISNYLVLPNRITVPLVSEVQIAQLRFPVPKGVLRIHFIEAQDLQGKDTYLKGLVKGKSDPYGIIRVGNQIFQSRVIKENLSPKWNEVYEALVYEHPGQELEIELFDEDPDKDDFLGSLMIDLIEVEKERLLDEWFTLDEVPKGKLHLRLEWLTLMPNASNLDKVLTDIGLSSALLILYLDSARNLPSSSNPNPVVQMSVGHKAQESKIRYKTNEPVWEENFTFFIHNPKRQDLEVEVRDEQHQCSLGNLKVPLSQLLTSEDMTVSQRFQLSNSGPNSTIKMKIALRVLHLE 4p4h-a1-m1-cI_4p4h-a1-m1-cJ Caught-in-action signaling complex of RIG-I 2CARD domain and MAVS CARD domain Q7Z434 Q7Z434 3.4 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 3j6j-a1-m1-cA_3j6j-a1-m1-cC 3j6j-a1-m1-cA_3j6j-a1-m1-cI 3j6j-a1-m1-cB_3j6j-a1-m1-cD 3j6j-a1-m1-cC_3j6j-a1-m1-cL 3j6j-a1-m1-cD_3j6j-a1-m1-cL 3j6j-a1-m1-cE_3j6j-a1-m1-cG 3j6j-a1-m1-cG_3j6j-a1-m1-cI 4p4h-a1-m1-cJ_4p4h-a1-m1-cK 4p4h-a1-m1-cK_4p4h-a1-m1-cL 4p4h-a1-m1-cM_4p4h-a1-m1-cN 4p4h-a1-m1-cN_4p4h-a1-m1-cO 4p4h-a1-m1-cO_4p4h-a1-m1-cP 7dni-a1-m1-cM_7dni-a1-m1-cN 7dni-a1-m1-cO_7dni-a1-m1-cN 7dni-a1-m1-cO_7dni-a1-m1-cP MPFAEDKTYKYICRNFSNFCNVKVVKILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCKLVDLADEVASVYQSYQP MPFAEDKTYKYICRNFSNFCNVKVVKILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCKLVDLADEVASVYQSYQP 4p4h-a1-m1-cM_4p4h-a1-m1-cP Caught-in-action signaling complex of RIG-I 2CARD domain and MAVS CARD domain Q7Z434 Q7Z434 3.4 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 2ms7-a1-m1-cA_2ms7-a1-m1-cD 2ms7-a1-m1-cA_2ms7-a1-m1-cN 2ms7-a1-m1-cB_2ms7-a1-m1-cE 2ms7-a1-m1-cB_2ms7-a1-m1-cM 2ms7-a1-m1-cC_2ms7-a1-m1-cF 2ms7-a1-m1-cC_2ms7-a1-m1-cL 2ms7-a1-m1-cD_2ms7-a1-m1-cG 2ms7-a1-m1-cE_2ms7-a1-m1-cH 2ms7-a1-m1-cF_2ms7-a1-m1-cI 2ms7-a1-m1-cG_2ms7-a1-m1-cJ 2ms7-a1-m1-cH_2ms7-a1-m1-cK 2ms7-a1-m1-cL_2ms7-a1-m1-cO 2ms7-a1-m1-cM_2ms7-a1-m1-cP 2ms7-a1-m1-cN_2ms7-a1-m1-cQ 2ms7-a1-m1-cO_2ms7-a1-m1-cR 2ms7-a1-m1-cP_2ms7-a1-m1-cS 2ms7-a1-m1-cQ_2ms7-a1-m1-cT 2ms7-a1-m1-cR_2ms7-a1-m1-cU 3j6j-a1-m1-cA_3j6j-a1-m1-cD 3j6j-a1-m1-cA_3j6j-a1-m1-cE 3j6j-a1-m1-cB_3j6j-a1-m1-cC 3j6j-a1-m1-cC_3j6j-a1-m1-cG 3j6j-a1-m1-cI_3j6j-a1-m1-cL 4p4h-a1-m1-cI_4p4h-a1-m1-cL 7dni-a1-m1-cM_7dni-a1-m1-cP MPFAEDKTYKYICRNFSNFCNVKVVKILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCKLVDLADEVASVYQSYQP MPFAEDKTYKYICRNFSNFCNVKVVKILPYLPCLTARDQDRLRATCTLSGNRDTLWHLFNTLQRRPGWVEYFIAALRGCKLVDLADEVASVYQSYQP 4p4u-a1-m1-cA_4p4u-a1-m2-cA Nucleotide-free stalkless-MxA P20591 P20591 1.9 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 338 338 4p4t-a1-m1-cA_4p4t-a1-m2-cA QYEEKVRPCIDLIDSLRALGVEQDLALPAIAVIGDQSSGKSSVLEALSGVALPRRCPLVLKLKKLVNEDKWRGKVSYQDYEIEISDASEVEKEINKAQNAIAGISHELITLEISSRDVPDLTLIDLPGITRVAVGNQPADIGYKIKTLIKKYIQRQETISLVVVPSNVDIATTEALSMAQEVDPEGDRTIGILTKPDLVDKGTEDKVVDVVRNLVFHLKKGYMIVKCRGQQEIQDQLSLSEALQREKIFFENHPYFRDLLEEGKATVPSLAEKLTSELITHISKSLPLLENQIKETHQRITEELQKYGVSDTSDKRKFLKERLARLTQARRRLAQFPG QYEEKVRPCIDLIDSLRALGVEQDLALPAIAVIGDQSSGKSSVLEALSGVALPRRCPLVLKLKKLVNEDKWRGKVSYQDYEIEISDASEVEKEINKAQNAIAGISHELITLEISSRDVPDLTLIDLPGITRVAVGNQPADIGYKIKTLIKKYIQRQETISLVVVPSNVDIATTEALSMAQEVDPEGDRTIGILTKPDLVDKGTEDKVVDVVRNLVFHLKKGYMIVKCRGQQEIQDQLSLSEALQREKIFFENHPYFRDLLEEGKATVPSLAEKLTSELITHISKSLPLLENQIKETHQRITEELQKYGVSDTSDKRKFLKERLARLTQARRRLAQFPG 4p4v-a1-m1-cA_4p4v-a1-m1-cB Hexamer formed by a macrocyclic peptide derived from beta-2-microglobulin (63-69) - (ORN)YLL(PHI)YTE(ORN)KVA(MAA)AVK 1.97 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 YLLYTEKVAAVK YLLYTEKVAAVK 4p4v-a1-m1-cC_4p4v-a1-m2-cC Hexamer formed by a macrocyclic peptide derived from beta-2-microglobulin (63-69) - (ORN)YLL(PHI)YTE(ORN)KVA(MAA)AVK 1.97 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 YLLYTEKVAAVK YLLYTEKVAAVK 4p4v-a1-m2-cA_4p4v-a1-m2-cB Hexamer formed by a macrocyclic peptide derived from beta-2-microglobulin (63-69) - (ORN)YLL(PHI)YTE(ORN)KVA(MAA)AVK 1.97 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 YLLYTEKVAAVK YLLYTEKVAAVK 4p52-a1-m1-cA_4p52-a1-m2-cA Crystal structure of homoserine kinase from Cytophaga hutchinsonii ATCC 33406, NYSGRC Target 032717. 2.6 X-RAY DIFFRACTION 120 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 308 308 NLYFQSKDSIKVFAPATVANVSCGFDVLGFAVDNPGDEVLLRLSDKKGVRITSITGDDGRLPKDAEKNTVSISILRYLETLGIEQGIEIELTKKPLGSGLGSSAASTVAGVYAINQLLGNKEVKDLLPFAEGEFLACGSAHADNVAPCLYGGFVLVRSYDPLDVVKLPVPANLYATIIHPHVEVQTKDARNILPKQIALSQAVAQWGNVGGLVAGLLNDTSLIGRSQDHIVEPARSVLIPGFDDVKKAALDAGALGCSISGSGPSIFALSTSQEAAQKIGQAKKGFDAINIGSDVYVSTVNQQGPKVI NLYFQSKDSIKVFAPATVANVSCGFDVLGFAVDNPGDEVLLRLSDKKGVRITSITGDDGRLPKDAEKNTVSISILRYLETLGIEQGIEIELTKKPLGSGLGSSAASTVAGVYAINQLLGNKEVKDLLPFAEGEFLACGSAHADNVAPCLYGGFVLVRSYDPLDVVKLPVPANLYATIIHPHVEVQTKDARNILPKQIALSQAVAQWGNVGGLVAGLLNDTSLIGRSQDHIVEPARSVLIPGFDDVKKAALDAGALGCSISGSGPSIFALSTSQEAAQKIGQAKKGFDAINIGSDVYVSTVNQQGPKVI 4p52-a2-m1-cA_4p52-a2-m3-cA Crystal structure of homoserine kinase from Cytophaga hutchinsonii ATCC 33406, NYSGRC Target 032717. 2.6 X-RAY DIFFRACTION 83 1.0 269798 (Cytophaga hutchinsonii ATCC 33406) 269798 (Cytophaga hutchinsonii ATCC 33406) 308 308 NLYFQSKDSIKVFAPATVANVSCGFDVLGFAVDNPGDEVLLRLSDKKGVRITSITGDDGRLPKDAEKNTVSISILRYLETLGIEQGIEIELTKKPLGSGLGSSAASTVAGVYAINQLLGNKEVKDLLPFAEGEFLACGSAHADNVAPCLYGGFVLVRSYDPLDVVKLPVPANLYATIIHPHVEVQTKDARNILPKQIALSQAVAQWGNVGGLVAGLLNDTSLIGRSQDHIVEPARSVLIPGFDDVKKAALDAGALGCSISGSGPSIFALSTSQEAAQKIGQAKKGFDAINIGSDVYVSTVNQQGPKVI NLYFQSKDSIKVFAPATVANVSCGFDVLGFAVDNPGDEVLLRLSDKKGVRITSITGDDGRLPKDAEKNTVSISILRYLETLGIEQGIEIELTKKPLGSGLGSSAASTVAGVYAINQLLGNKEVKDLLPFAEGEFLACGSAHADNVAPCLYGGFVLVRSYDPLDVVKLPVPANLYATIIHPHVEVQTKDARNILPKQIALSQAVAQWGNVGGLVAGLLNDTSLIGRSQDHIVEPARSVLIPGFDDVKKAALDAGALGCSISGSGPSIFALSTSQEAAQKIGQAKKGFDAINIGSDVYVSTVNQQGPKVI 4p53-a1-m1-cA_4p53-a1-m2-cA ValA (2-epi-5-epi-valiolone synthase) from Streptomyces hygroscopicus subsp. jinggangensis 5008 with NAD+ and Zn2+ bound H2K887 H2K887 2.1 X-RAY DIFFRACTION 162 1.0 1133850 (Streptomyces hygroscopicus subsp. jinggangensis 5008) 1133850 (Streptomyces hygroscopicus subsp. jinggangensis 5008) 360 360 WRVSALKEVSYDVVVQPRLLANPALADALSARRLIVIDATVRSLYGEQLAAYLAGHDVEFHLCVIDAHESAKVMETVFEVVDAMDAFGVPRRHAPVLAMGGGVLTDIVGLAASLYRRATPYVRIPTTLIGMIDAGIGAKTGVNFREHKNRLGTYHPSSLTLIDPGFLATLDARHLRNGLAEILKVALVKDAELFDLLEGHGASLVEQRMQPGAALTVLRRAVQGMLEELQPNLWEHQLRRLVDFGHSFSPSVEMAALPELLHGEAVCIDMALSSVLAHHRGLLTEAELGRVLDVMRLLHLPVLHPVCTPDLMRAALADTVKHRDGWQHMPLPRGIGDAVFVNDVTQREIEAALLTLAERD WRVSALKEVSYDVVVQPRLLANPALADALSARRLIVIDATVRSLYGEQLAAYLAGHDVEFHLCVIDAHESAKVMETVFEVVDAMDAFGVPRRHAPVLAMGGGVLTDIVGLAASLYRRATPYVRIPTTLIGMIDAGIGAKTGVNFREHKNRLGTYHPSSLTLIDPGFLATLDARHLRNGLAEILKVALVKDAELFDLLEGHGASLVEQRMQPGAALTVLRRAVQGMLEELQPNLWEHQLRRLVDFGHSFSPSVEMAALPELLHGEAVCIDMALSSVLAHHRGLLTEAELGRVLDVMRLLHLPVLHPVCTPDLMRAALADTVKHRDGWQHMPLPRGIGDAVFVNDVTQREIEAALLTLAERD 4p5b-a1-m1-cA_4p5b-a1-m1-cB Crystal structure of a UMP/dUMP methylase PolB from Streptomyces cacaoi bound with 5-Br dUMP C1IC19 C1IC19 2.274 X-RAY DIFFRACTION 156 1.0 249586 (Streptomyces asoensis) 249586 (Streptomyces asoensis) 229 235 4p5a-a1-m1-cA_4p5a-a1-m1-cB 4p5a-a1-m1-cC_4p5a-a1-m1-cD 4p5b-a1-m1-cC_4p5b-a1-m1-cD IELRSDITVELVDSSASDLAVVKAARVSTAGEDANDGGSTRGLIRYLMRSRHGSPFEHNSMTFLVRAPIFTVRHLMRHRTWSFNEESARYREVGAAFYVPDATRLLREGKPGDYRYVGGSTDDHQQVVRSATRAYEVAFEEYQRLLDSGIAREIARLVLPVSTYSVLYATCNARALMHFLSLRTHRPDAAYVSHPQREIEMVAEQMETAWAKLMPVTHEAFTAFGRVSP RIELRSDITVELVDSSASDLAVVKAARVSTAGEDANDELYDGGSTRGLIRYLMRSRHGSPFEHNSMTFLVRAPIFTVRHLMRHRTWSFNEESARYREVGAAFYVPDATRLLRQEGKPGDYRYVGGSTDDHQQVVRSATRAYEVAFEEYQRLLDSGIAREIARLVLPVSTYSVLYATCNARALMHFLSLRTHRPDAAYVSHPQREIEMVAEQMETAWAKLMPVTHEAFTAFGRVSP 4p5b-a1-m1-cA_4p5b-a1-m1-cD Crystal structure of a UMP/dUMP methylase PolB from Streptomyces cacaoi bound with 5-Br dUMP C1IC19 C1IC19 2.274 X-RAY DIFFRACTION 105 1.0 249586 (Streptomyces asoensis) 249586 (Streptomyces asoensis) 229 235 4p5a-a1-m1-cC_4p5a-a1-m1-cB 4p5a-a1-m1-cD_4p5a-a1-m1-cA 4p5b-a1-m1-cC_4p5b-a1-m1-cB IELRSDITVELVDSSASDLAVVKAARVSTAGEDANDGGSTRGLIRYLMRSRHGSPFEHNSMTFLVRAPIFTVRHLMRHRTWSFNEESARYREVGAAFYVPDATRLLREGKPGDYRYVGGSTDDHQQVVRSATRAYEVAFEEYQRLLDSGIAREIARLVLPVSTYSVLYATCNARALMHFLSLRTHRPDAAYVSHPQREIEMVAEQMETAWAKLMPVTHEAFTAFGRVSP RIELRSDITVELVDSSASDLAVVKAARVSTAGEDANDELYDGGSTRGLIRYLMRSRHGSPFEHNSMTFLVRAPIFTVRHLMRHRTWSFNEESARYREVGAAFYVPDATRLLRQEGKPGDYRYVGGSTDDHQQVVRSATRAYEVAFEEYQRLLDSGIAREIARLVLPVSTYSVLYATCNARALMHFLSLRTHRPDAAYVSHPQREIEMVAEQMETAWAKLMPVTHEAFTAFGRVSP 4p5e-a2-m3-cB_4p5e-a2-m1-cA CRYSTAL STRUCTURE OF HUMAN DNPH1 (RCL) WITH 6-NAPHTHYL-PURINE-RIBOSIDE-MONOPHOSPHATE O43598 O43598 1.35 X-RAY DIFFRACTION 133 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 136 140 4p5e-a1-m1-cB_4p5e-a1-m2-cA RPALYFCGSIRGGREDRTLYERIVSRLRRFGTVLTEHVAAAELGDRLIHEQDLEWLQQADVVVAEVTQPSLGVGYELGRAVAFNKRILCLFRPQSGRVLSAMIRGAADGSRFQVWDYEEGEVEALLDRYFEADPLE RPALYFCGSIRGGREDRTLYERIVSRLRRFGTVLTEHVAAGEEAAGGDRLIHEQDLEWLQQADVVVAEVTQPSLGVGYELGRAVAFNKRILCLFRPQSGRVLSAMIRGAADGSRFQVWDYEEGEVEALLDRYFEADPLEH 4p5h-a4-m1-cD_4p5h-a4-m1-cF Structure of Clostridium perfringens Enterotoxin with a peptide derived from a modified version of ECL-2 of Claudin 2 P01558 P01558 3.38 X-RAY DIFFRACTION 55 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 286 286 2yhj-a1-m1-cA_2yhj-a1-m2-cA 2yhj-a1-m1-cA_2yhj-a1-m3-cA 2yhj-a1-m2-cA_2yhj-a1-m3-cA 2yhj-a2-m1-cB_2yhj-a2-m2-cB 2yhj-a2-m1-cB_2yhj-a2-m3-cB 2yhj-a2-m2-cB_2yhj-a2-m3-cB 3am2-a1-m1-cA_3am2-a1-m2-cA 3am2-a1-m1-cA_3am2-a1-m3-cA 3am2-a1-m2-cA_3am2-a1-m3-cA 3ziw-a1-m1-cA_3ziw-a1-m1-cB 3ziw-a1-m1-cA_3ziw-a1-m1-cC 3ziw-a1-m1-cB_3ziw-a1-m1-cC 3ziw-a2-m1-cD_3ziw-a2-m1-cE 3ziw-a2-m1-cD_3ziw-a2-m1-cF 3ziw-a2-m1-cE_3ziw-a2-m1-cF 4p5h-a1-m1-cJ_4p5h-a1-m1-cK 4p5h-a1-m1-cJ_4p5h-a1-m1-cL 4p5h-a1-m1-cK_4p5h-a1-m1-cL 4p5h-a2-m1-cM_4p5h-a2-m1-cN 4p5h-a2-m1-cM_4p5h-a2-m1-cO 4p5h-a2-m1-cN_4p5h-a2-m1-cO 4p5h-a3-m1-cA_4p5h-a3-m1-cB 4p5h-a3-m1-cA_4p5h-a3-m1-cC 4p5h-a3-m1-cB_4p5h-a3-m1-cC 4p5h-a4-m1-cD_4p5h-a4-m1-cE 4p5h-a4-m1-cE_4p5h-a4-m1-cF 4p5h-a5-m1-cG_4p5h-a5-m1-cH 4p5h-a5-m1-cG_4p5h-a5-m1-cI 4p5h-a5-m1-cH_4p5h-a5-m1-cI GAMGSDGLYVIDKGDGWILGEPSVVSSQILNPNETGTFSQSLTKSKEVSINVNFSVGFTSEFIQASVEYGFGITIGEQNTIERSVSTTAGPNEYVYYKVYATYRKYQAIRISHGNISDDGSIYKLTGIWLSKTSADSLGNIDQGSLIETGERCVLTVPSTDIEKEILDLAAATERLNLTDALNSNPAGNLYDWRSSNSYPWTQKLNLHLTITATGQKYRILASKIVDFNIYSNNFNNLVKLEQSLGDGVKDHYVDISLDAGQYVLVMKANSSYSGNYPYSILFQKF GAMGSDGLYVIDKGDGWILGEPSVVSSQILNPNETGTFSQSLTKSKEVSINVNFSVGFTSEFIQASVEYGFGITIGEQNTIERSVSTTAGPNEYVYYKVYATYRKYQAIRISHGNISDDGSIYKLTGIWLSKTSADSLGNIDQGSLIETGERCVLTVPSTDIEKEILDLAAATERLNLTDALNSNPAGNLYDWRSSNSYPWTQKLNLHLTITATGQKYRILASKIVDFNIYSNNFNNLVKLEQSLGDGVKDHYVDISLDAGQYVLVMKANSSYSGNYPYSILFQKF 4p5i-a1-m1-cA_4p5i-a1-m2-cA Crystal structure of the chemokine binding protein from orf virus Q2F862 Q2F862 2.25 X-RAY DIFFRACTION 75 1.0 10258 (Orf virus) 10258 (Orf virus) 240 240 ESQRSNSEEKANFCSTHNDEVYARFRLQMRVGVRHSPLYTPSNMCMLDIEDSVEDIEESTEKEYASTATGEAAGVNVSVALVGEGVSIPFSYIGLGFNPSLEDSYLYVNVSSRAPWVKQTSDLSANGGWGIKQVLEKELLAIQIGCDNQKFPEEPTTTPPGASVDRKRNPADIDFSLLVDPRCVTSVDLHVELRDACIDYKQESPLSLKGKYGDGELVKKEIKDVGKNHNMCSLNLNPGN ESQRSNSEEKANFCSTHNDEVYARFRLQMRVGVRHSPLYTPSNMCMLDIEDSVEDIEESTEKEYASTATGEAAGVNVSVALVGEGVSIPFSYIGLGFNPSLEDSYLYVNVSSRAPWVKQTSDLSANGGWGIKQVLEKELLAIQIGCDNQKFPEEPTTTPPGASVDRKRNPADIDFSLLVDPRCVTSVDLHVELRDACIDYKQESPLSLKGKYGDGELVKKEIKDVGKNHNMCSLNLNPGN 4p5n-a1-m1-cA_4p5n-a1-m1-cB Structure of CNAG_02591 from Cryptococcus neoformans J9VKY2 J9VKY2 1.49 X-RAY DIFFRACTION 27 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 74 74 MSVQDKQGQNINVGDTVYTPYRGGKHEGQVADIVTTKEEAAEKGVKNPPKVLFTDQNNKDVAHNPGTLTDLDKQ MSVQDKQGQNINVGDTVYTPYRGGKHEGQVADIVTTKEEAAEKGVKNPPKVLFTDQNNKDVAHNPGTLTDLDKQ 4p5w-a1-m1-cB_4p5w-a1-m1-cA Structure of the N- and C-terminal domain fusion of the human mitochondrial aspartate/glutamate carrier Citrin in the calcium-bound state Q9UJS0 Q9UJS0 2.4 X-RAY DIFFRACTION 147 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 306 312 RADPAELRTIFLKYASIEKNGEFFMSPNDFVTRYLNINPKTVELLSGVVDQTKDGLISFQEFVAFESVLCAPDALFMVAFQLFDKAGKGEVTFEDVKQVFGQTTIHQHIPFNWDSEFVQLHFGKERKRHLTYAEFTQFLLEIQLEHAKQAFVQRDNARTGRVTAIDFRDIMVTIRPHVLTPFVEECLVAAAGGTTSHQVSFSYFNGFNSLLNNMELIRKIYSTLAGTRKDVEVTKEEFVLAAQKFGQVTPMEVDILFQLADLYEPRGRMTLADIERIAPPNPDHVGGYKLAVATFAGIENKFGLYL TKRADPAELRTIFLKYASIEKNGEFFMSPNDFVTRYLNIFSQPNPKTVELLSGVVDQTKDGLISFQEFVAFESVLCAPDALFMVAFQLFDKAGKGEVTFEDVKQVFGQTTIHQHIPFNWDSEFVQLHFGKERKRHLTYAEFTQFLLEIQLEHAKQAFVQRDNARTGRVTAIDFRDIMVTIRPHVLTPFVEECLVAAAGGTTSHQVSFSYFNGFNSLLNNMELIRKIYSTLAGTRKDVEVTKEEFVLAAQKFGQVTPMEVDILFQLADLYEPRGRMTLADIERIAPPNPDHVGGYKLAVATFAGIENKFGLYL 4p5x-a1-m1-cA_4p5x-a1-m2-cA Structure of the N-terminal domain of the human mitochondrial aspartate/glutamate carrier Aralar in the calcium-bound state O75746 O75746 2.261 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 267 267 HELRNIFLQYASTEVDGERYMTPEDFVQRYLGLYNDPNSNPKIVQLLAGVADQTKDGLISYQEFLAFESVLCAPDSMFIVAFQLFDKSGNGEVTFENVKEIFGQTIHHIPFNWDCEFIRLHFGHNRKKHLNYTEFTQFLQELQLEHARQAFALKDKSKSGMISGLDFSDIMVTIRSHMLTPFVEENLVSAAQVSFSYFNAFNSLLNNMELVRKIYSTLVEVTKEEFAQSAIRYGQVTPLEIDILYQLADLYNASGRLTLADIERIAP HELRNIFLQYASTEVDGERYMTPEDFVQRYLGLYNDPNSNPKIVQLLAGVADQTKDGLISYQEFLAFESVLCAPDSMFIVAFQLFDKSGNGEVTFENVKEIFGQTIHHIPFNWDCEFIRLHFGHNRKKHLNYTEFTQFLQELQLEHARQAFALKDKSKSGMISGLDFSDIMVTIRSHMLTPFVEENLVSAAQVSFSYFNAFNSLLNNMELVRKIYSTLVEVTKEEFAQSAIRYGQVTPLEIDILYQLADLYNASGRLTLADIERIAP 4p62-a1-m1-cA_4p62-a1-m2-cA Directed evolution of a B3 metallo-beta-lactamase AIM-1 B5DCA0 B5DCA0 1.89 X-RAY DIFFRACTION 15 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 269 269 ASRGCADDAGWNDPAMPQKVYGNTWYVGTCGISALLVTSDAGHILVDAATPQAGPQILANIRALGFRPEDVRAIVLSHEHFDHAGSLAELQKATGAPVYARAPAIDTLKRGLPDRTDPQFEVAEPVAPVANIVTLADDGVVSVGPLALTAVASPGHTPGGTSWTWRSCEGDDCRQMVYADSLTAISDDVYRYSDDAAHPGYLAAFRNTLARVAALDCDILVTPHPSASGLWNRIGPRAAAPLMDTTACRRYAQGARQRLEKRLAEEAAA ASRGCADDAGWNDPAMPQKVYGNTWYVGTCGISALLVTSDAGHILVDAATPQAGPQILANIRALGFRPEDVRAIVLSHEHFDHAGSLAELQKATGAPVYARAPAIDTLKRGLPDRTDPQFEVAEPVAPVANIVTLADDGVVSVGPLALTAVASPGHTPGGTSWTWRSCEGDDCRQMVYADSLTAISDDVYRYSDDAAHPGYLAAFRNTLARVAALDCDILVTPHPSASGLWNRIGPRAAAPLMDTTACRRYAQGARQRLEKRLAEEAAA 4p6k-a1-m1-cA_4p6k-a1-m2-cA Crystal Structure of the Computationally Designed Transmembrane Metallotransporter with 4-bromophenylalanine in Lipidic Cubic Phase 2.704 X-RAY DIFFRACTION 43 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 24 2muz-a1-m1-cA_2muz-a1-m1-cB 2muz-a1-m1-cC_2muz-a1-m1-cD 4p6j-a1-m1-cA_4p6j-a1-m1-cB 4p6l-a1-m1-cA_4p6l-a1-m1-cB YKEIAHALFSALFALSELYIAVRY YKEIAHALFSALFALSELYIAVRY 4p72-a1-m1-cA_4p72-a1-m1-cB PheRS in complex with compound 2a Q9I0A4 Q9I0A4 2.62 X-RAY DIFFRACTION 61 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 791 791 4p71-a1-m1-cA_4p71-a1-m1-cB 4p73-a1-m1-cA_4p73-a1-m1-cB 4p74-a1-m1-cA_4p74-a1-m1-cB 4p75-a1-m1-cA_4p75-a1-m1-cB MKFSEKWLRSWANPQVSHDELVARLSMVGLEVDADLPVAGAFSGVVVGEVLSTEQHPDADKLRVCQVSNGSETFQVVCGAPNVRAGLKIPFAMIGAELPDDFKIKKAKLRGVESFGMLCSAKELQISEENAGLLELPADAPVGQDVRTYLELADYTIEVGLTPNRGDCLSLAGLAREVSAIYDVPLAPVAVDAVAAQHDETRPVELAAPAACPRYLGRVIRNVDLSRPTPLWMVERLRRSDIRSIDPVVDVTNYVMIELGQPMHAFDLAEINGGVRVRMAEDGEKLVLLDGQEITLRADTLVIADHQRALAIAGVMGGEHSGVSDSTRDLFLEAAFFDTIALAGKARSYGLHTDSSHRFERGVDSQLARKAMERATRLILDIVGGEPGPIVEQVSEAHLPKVAPITLRAERVTQMLGMPLDAAEIVRLLQALELTVVADGEGQWSVGVPSHRFDISLEVDLIEELARLYGYNRLPVRYPQARLAPNNKPEARAALPLLRRLLVARGYQEAITFSFIDPALFELFDPGTQPLTLANPISADMAAMRSSLWPGLVKALQHNLNRQQSRVRLFESGLRFVGQLEGLKQEAMLAGAICGKRLPEGWANGRDGVDFFDAKADVEAVLASAGALGDFSFVPGEHPALHPGQTARIEREGRLVGYLGALHPELAKKLDLEQPVFLFELLLAEVVDGHLPKFRELSRFPEVRRDLALLVDQDVPAQDILTQIRAAAGEWLTDLRLFDVYHGKGIDPHRKSLAVGLTWQHPSRTLNDDEVNSTTQNIVTSLEERFNATLR MKFSEKWLRSWANPQVSHDELVARLSMVGLEVDADLPVAGAFSGVVVGEVLSTEQHPDADKLRVCQVSNGSETFQVVCGAPNVRAGLKIPFAMIGAELPDDFKIKKAKLRGVESFGMLCSAKELQISEENAGLLELPADAPVGQDVRTYLELADYTIEVGLTPNRGDCLSLAGLAREVSAIYDVPLAPVAVDAVAAQHDETRPVELAAPAACPRYLGRVIRNVDLSRPTPLWMVERLRRSDIRSIDPVVDVTNYVMIELGQPMHAFDLAEINGGVRVRMAEDGEKLVLLDGQEITLRADTLVIADHQRALAIAGVMGGEHSGVSDSTRDLFLEAAFFDTIALAGKARSYGLHTDSSHRFERGVDSQLARKAMERATRLILDIVGGEPGPIVEQVSEAHLPKVAPITLRAERVTQMLGMPLDAAEIVRLLQALELTVVADGEGQWSVGVPSHRFDISLEVDLIEELARLYGYNRLPVRYPQARLAPNNKPEARAALPLLRRLLVARGYQEAITFSFIDPALFELFDPGTQPLTLANPISADMAAMRSSLWPGLVKALQHNLNRQQSRVRLFESGLRFVGQLEGLKQEAMLAGAICGKRLPEGWANGRDGVDFFDAKADVEAVLASAGALGDFSFVPGEHPALHPGQTARIEREGRLVGYLGALHPELAKKLDLEQPVFLFELLLAEVVDGHLPKFRELSRFPEVRRDLALLVDQDVPAQDILTQIRAAAGEWLTDLRLFDVYHGKGIDPHRKSLAVGLTWQHPSRTLNDDEVNSTTQNIVTSLEERFNATLR 4p76-a1-m1-cB_4p76-a1-m2-cB Cellular response to a crystal-forming protein Q53UG8 Q53UG8 2.9 X-RAY DIFFRACTION 75 1.0 219 219 4p76-a1-m1-cA_4p76-a1-m2-cA SVITSEMKIELRMEGAVNGHKFVITGKGSGQPFEGIQNVDLTVIEGGPLPFAFDILTTAFNRVFVEYPEEIVDYFKQSFPEGYSWERSMSYEDGGICLATNNITMKKDGSNCFVNEIRFDGVNFPANGPVMQRKTVKWEPSTEKMYVRDGVLKGDVNMALLLQGGGHYRCDFRTTYKAKKVVQLPDYHFVDHSMEITSHDKDYNKVKLYEHAKAHSGLP SVITSEMKIELRMEGAVNGHKFVITGKGSGQPFEGIQNVDLTVIEGGPLPFAFDILTTAFNRVFVEYPEEIVDYFKQSFPEGYSWERSMSYEDGGICLATNNITMKKDGSNCFVNEIRFDGVNFPANGPVMQRKTVKWEPSTEKMYVRDGVLKGDVNMALLLQGGGHYRCDFRTTYKAKKVVQLPDYHFVDHSMEITSHDKDYNKVKLYEHAKAHSGLP 4p7a-a1-m1-cA_4p7a-a1-m2-cA Crystal Structure of human MLH1 P40692 P40692 2.3 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 303 303 FVAGVIRRLDETVVNRIAAGEVIQRPANAIKEMIENCLDAKSTSIQVIVKEGGLKLIQIQDNGTGIRKEDLDIVCERFTTSKLGFRGEALASISHVAHVTITTKTADGKCAYRASYSDGKLKAPPKPCAGNQGTQITVEDLFYNIATRRKALKNPSEEYGKILEVVGRYSVHNAGISFSVKKQGETVADVRTLPNASTVDNIRSIFGNAVSRELIEIGCEDKTLAFKMNGYISNANYSVKKCIFLLFINHRLVESTSLRKAIETVYAAYLPKNTHPFLYLSLEISPESILERVQQHIESKLLG FVAGVIRRLDETVVNRIAAGEVIQRPANAIKEMIENCLDAKSTSIQVIVKEGGLKLIQIQDNGTGIRKEDLDIVCERFTTSKLGFRGEALASISHVAHVTITTKTADGKCAYRASYSDGKLKAPPKPCAGNQGTQITVEDLFYNIATRRKALKNPSEEYGKILEVVGRYSVHNAGISFSVKKQGETVADVRTLPNASTVDNIRSIFGNAVSRELIEIGCEDKTLAFKMNGYISNANYSVKKCIFLLFINHRLVESTSLRKAIETVYAAYLPKNTHPFLYLSLEISPESILERVQQHIESKLLG 4p7c-a1-m1-cB_4p7c-a1-m1-cA Crystal structure of putative methyltransferase from Pseudomonas syringae pv. tomato Q87XG5 Q87XG5 1.85 X-RAY DIFFRACTION 18 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 309 312 IDLAPLVRRLAGTPLAEWANGLQAQLDTKSKGHGDLQRWQSALDALPALQPEKVDLTDSFTLETECDGETRTVLRKALLGLSPWRKGPFNVFGVHIDTEWRSDWKWSRVSPHLDLKGKRVLDVGCGNGYYQWRLGAGADSVIGVDPNWLFFCQFQAQRYLPDLPAWHLPFALEDLPANLEGFDTVFSGVLYHRKSPIDHLLALKDCLVKGGELVETLVIPGDVHQVLVPEDRYAQRNVWFLPSVPALELWRRAGFTDVRCVDVSHTTVEEQRSTEWRFQSLGDYLDPNDHSKTVEGLPAPRAVIVGRKP SNAIDLAPLVRRLAGTPLAEWANGLQAQLDTKSKGHGDLQRWQSALDALPALQPEKVDLTDSFTLETECDGETRTVLRKALLGLSPWRKGPFNVFGVHIDTEWRSDWKWSRVSPHLDLKGKRVLDVGCGNGYYQWRLGAGADSVIGVDPNWLFFCQFQAQRYLPDLPAWHLPFALEDLPANLEGFDTVFSGVLYHRKSPIDHLLALKDCLVKGGELVETLVIPGDVHQVLVPEDRYAQRNVWFLPSVPALELWRRAGFTDVRCVDVSHTTVEEQRSTEWRFQSLGDYLDPNDHSKTVEGLPAPRAVIVGRKP 4p7d-a1-m1-cA_4p7d-a1-m1-cD Antitoxin HicB3 crystal structure A0A5P8YCM0 A0A5P8YCM0 2.781 X-RAY DIFFRACTION 83 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 132 133 4p78-a1-m1-cA_4p78-a1-m1-cB 4p7d-a1-m1-cC_4p7d-a1-m1-cB IYPIFIFKTVEGFDGYFPDIDGCFFAGNTFADISKNAEEAFAVHIEALNEGFPLPSPPKDPHRYIDDPRLKEEGGILGFVEIDPAKYESKAVKFNLTSQNLLTAIDKFIATNRGYKNRSQFLAELAREKIIS IYPIFIFKTVEGFDGYFPDIDGCFFAGNTFADISKNAEEAFAVHIEALNEGFPLPSPPKDPHRYIDDPRLKEEGGILGFVEIDPAKYESKAVKFNLTSQNLLTAIDKFIATNRGYKNRSQFLAELAREKIISL 4p7d-a1-m1-cC_4p7d-a1-m1-cD Antitoxin HicB3 crystal structure A0A5P8YCM0 A0A5P8YCM0 2.781 X-RAY DIFFRACTION 125 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 132 133 4p7d-a1-m1-cA_4p7d-a1-m1-cB IYPIFIFKTVEGFDGYFPDIDGCFFAGNTFADISKNAEEAFAVHIEALNEGFPLPSPPKDPHRYIDDPRLKEEGGILGFVEIDPAKYESKAVKFNLTSQNLLTAIDKFIATNRGYKNRSQFLAELAREKIIS IYPIFIFKTVEGFDGYFPDIDGCFFAGNTFADISKNAEEAFAVHIEALNEGFPLPSPPKDPHRYIDDPRLKEEGGILGFVEIDPAKYESKAVKFNLTSQNLLTAIDKFIATNRGYKNRSQFLAELAREKIISL 4p7s-a2-m1-cA_4p7s-a2-m2-cA Crystal structure of PfMIF in complex with 4-(3-methoxy-5-methylphenoxy)-2-(4-methoxyphenyl)-6-methylpyridine Q6Q3H7 Q6Q3H7 2.87 X-RAY DIFFRACTION 21 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 104 104 4p7m-a2-m1-cA_4p7m-a2-m2-cA PCCEVITNVNLPDDNVQSTLSQIENAISDVMGKPLGYIMSNYDYQKNLRFGGSNEAYCFVRITSSNNSALADQITKLLVSNLNVKSRRIYVEFRDNFAFSGSLF PCCEVITNVNLPDDNVQSTLSQIENAISDVMGKPLGYIMSNYDYQKNLRFGGSNEAYCFVRITSSNNSALADQITKLLVSNLNVKSRRIYVEFRDNFAFSGSLF 4p80-a1-m1-cA_4p80-a1-m1-cB Structure of ancestral PyrR protein (AncGREENPyrR) 1.6 X-RAY DIFFRACTION 45 1.0 32630 (synthetic construct) 32630 (synthetic construct) 164 165 EKAVVLDEQAIRRALTRIAHEMIERNKGMNNCILVGIKTRGIYLAKRLAERIEQIEGNKVTVGELDITPLVKGADIPVDITDQKVILVDDVLYTGRTVRAAMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKSEKVMVQLSEVDGQDLVAIYEK EKAVVLDEQAIRRALTRIAHEMIERNKGMNNCILVGIKTRGIYLAKRLAERIEQIEGNKVTVGELDITEPLVKGADIPVDITDQKVILVDDVLYTGRTVRAAMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKSEKVMVQLSEVDGQDLVAIYEK 4p81-a1-m1-cC_4p81-a1-m1-cD Structure of ancestral PyrR protein (AncORANGEPyrR) 1.8 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 164 168 4p81-a1-m1-cA_4p81-a1-m1-cB SQEKAVVLDEQAIRRALTRIAHEIIERNKGVDNCVLVGIKTRGIYLAKRLAERIEQIEGKKVPVGELDITLYKGTDIPVDITDKKVILVDDVLYTGRTVRAAMDALMDLGRPSQIQLAVLVDRGHRELPIRADYVGKNVPTSKSERIVVQLSEVDGQDRVSIYE GSQEKAVVLDEQAIRRALTRIAHEIIERNKGVDNCVLVGIKTRGIYLAKRLAERIEQIEGKKVPVGELDITLYRDKGTDIPVDITDKKVILVDDVLYTGRTVRAAMDALMDLGRPSQIQLAVLVDRGHRELPIRADYVGKNVPTSKSERIVVQLSEVDGQDRVSIYEK 4p81-a1-m1-cD_4p81-a1-m1-cB Structure of ancestral PyrR protein (AncORANGEPyrR) 1.8 X-RAY DIFFRACTION 28 0.988 32630 (synthetic construct) 32630 (synthetic construct) 168 169 4p81-a1-m1-cC_4p81-a1-m1-cA GSQEKAVVLDEQAIRRALTRIAHEIIERNKGVDNCVLVGIKTRGIYLAKRLAERIEQIEGKKVPVGELDITLYRDKGTDIPVDITDKKVILVDDVLYTGRTVRAAMDALMDLGRPSQIQLAVLVDRGHRELPIRADYVGKNVPTSKSERIVVQLSEVDGQDRVSIYEK QEKAVVLDEQAIRRALTRIAHEIIERNKGVDNCVLVGIKTRGIYLAKRLAERIEQIEGKKVPVGELDITLYRDPLVKGTDIPVDITDKKVILVDDVLYTGRTVRAAMDALMDLGRPSQIQLAVLVDRGHRELPIRADYVGKNVPTSKSERIVVQLSEVDGQDRVSIYEK 4p86-a1-m1-cD_4p86-a1-m1-cB Structure of PyrR protein from Bacillus subtilis with GMP 1.93 X-RAY DIFFRACTION 32 0.994 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 174 175 4p86-a1-m1-cC_4p86-a1-m1-cA QKAVILDEQAIRRALTRIAHEMIERNKGMNNCILVGIKTRGIYLAKRLAERIEQIEGNPVTVGEIDITLYRDDLSNDEPLVKGADIPVDITDQKVILVDDVLYTGRTVRAGMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKSEKVMVQLDEVDQNDLVAIYEN KAVILDEQAIRRALTRIAHEMIERNKGMNNCILVGIKTRGIYLAKRLAERIEQIEGNPVTVGEIDITLYRDDLTSNDEPLVKGADIPVDITDQKVILVDDVLYTGRTVRAGMDALVDVGRPSSIQLAVLVDRGHRELPIRADYIGKNIPTSKSEKVMVQLDEVDQNDLVAIYENE 4p8i-a1-m1-cA_4p8i-a1-m1-cB Tgl - a bacterial spore coat transglutaminase P40746 P40746 1.85 X-RAY DIFFRACTION 85 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 242 242 4pa5-a1-m1-cA_4pa5-a1-m1-cB MIIVSGQLLRPQNWQIDQDLNPLLKEMIETPVQFDYHSIAELMFELKLRMNIVAAAKTLHKSGAKFATFLKTYGNTTYWRVSPEGALELKYRMPPSKAIRDIAENGPFYAFECATAIVIIYYLALIDTIGEDKFNASFDRIILYDWHYEKLPIYTETGHHFFLGDCLYFKNPEFDPQKAQWRGENVILLGEDKYFAHGLGILNGKQIIDKLNSFRKKGALQSAYLLSQATRLDVPSLFRIVR MIIVSGQLLRPQNWQIDQDLNPLLKEMIETPVQFDYHSIAELMFELKLRMNIVAAAKTLHKSGAKFATFLKTYGNTTYWRVSPEGALELKYRMPPSKAIRDIAENGPFYAFECATAIVIIYYLALIDTIGEDKFNASFDRIILYDWHYEKLPIYTETGHHFFLGDCLYFKNPEFDPQKAQWRGENVILLGEDKYFAHGLGILNGKQIIDKLNSFRKKGALQSAYLLSQATRLDVPSLFRIVR 4p8r-a1-m1-cA_4p8r-a1-m1-cD Structure of a glycosomal glyceraldehyde 3-phosphate dehydrogenase from Trypanosoma brucei Q38AR9 Q38AR9 2.2 X-RAY DIFFRACTION 26 1.0 331 331 4p8r-a1-m1-cC_4p8r-a1-m1-cB MVIRVGINGFGRIGRVVFRAAQRRNDIEIVGINDLLDADYMAYMLKYDSTHGRFEGAVEVQGGALVVNGKKIRVTSERDPANLKWNEINVDVVVESTGLFLSDDTARKHIQAGAKKVVITGPSKDDTPMFVMGVNHTTYKGEAIVSNASCTTNCLAPLAKVLNDKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSSTGAAKAVGKIIPSLNGKLTGMAFRVPTPNVSVVDLTVRLERPATYKQICDAIKAASEGELKGILGYVDEEIVSSDINGIPLTSVFDARAGISLNDNFVKLVSWYDNETGYSNKVLDLIAHITK MVIRVGINGFGRIGRVVFRAAQRRNDIEIVGINDLLDADYMAYMLKYDSTHGRFEGAVEVQGGALVVNGKKIRVTSERDPANLKWNEINVDVVVESTGLFLSDDTARKHIQAGAKKVVITGPSKDDTPMFVMGVNHTTYKGEAIVSNASCTTNCLAPLAKVLNDKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSSTGAAKAVGKIIPSLNGKLTGMAFRVPTPNVSVVDLTVRLERPATYKQICDAIKAASEGELKGILGYVDEEIVSSDINGIPLTSVFDARAGISLNDNFVKLVSWYDNETGYSNKVLDLIAHITK 4p8r-a1-m1-cB_4p8r-a1-m1-cD Structure of a glycosomal glyceraldehyde 3-phosphate dehydrogenase from Trypanosoma brucei Q38AR9 Q38AR9 2.2 X-RAY DIFFRACTION 138 1.0 331 331 4p8r-a1-m1-cC_4p8r-a1-m1-cA MVIRVGINGFGRIGRVVFRAAQRRNDIEIVGINDLLDADYMAYMLKYDSTHGRFEGAVEVQGGALVVNGKKIRVTSERDPANLKWNEINVDVVVESTGLFLSDDTARKHIQAGAKKVVITGPSKDDTPMFVMGVNHTTYKGEAIVSNASCTTNCLAPLAKVLNDKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSSTGAAKAVGKIIPSLNGKLTGMAFRVPTPNVSVVDLTVRLERPATYKQICDAIKAASEGELKGILGYVDEEIVSSDINGIPLTSVFDARAGISLNDNFVKLVSWYDNETGYSNKVLDLIAHITK MVIRVGINGFGRIGRVVFRAAQRRNDIEIVGINDLLDADYMAYMLKYDSTHGRFEGAVEVQGGALVVNGKKIRVTSERDPANLKWNEINVDVVVESTGLFLSDDTARKHIQAGAKKVVITGPSKDDTPMFVMGVNHTTYKGEAIVSNASCTTNCLAPLAKVLNDKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSSTGAAKAVGKIIPSLNGKLTGMAFRVPTPNVSVVDLTVRLERPATYKQICDAIKAASEGELKGILGYVDEEIVSSDINGIPLTSVFDARAGISLNDNFVKLVSWYDNETGYSNKVLDLIAHITK 4p8r-a1-m1-cC_4p8r-a1-m1-cD Structure of a glycosomal glyceraldehyde 3-phosphate dehydrogenase from Trypanosoma brucei Q38AR9 Q38AR9 2.2 X-RAY DIFFRACTION 97 1.0 330 331 4p8r-a1-m1-cA_4p8r-a1-m1-cB VIRVGINGFGRIGRVVFRAAQRRNDIEIVGINDLLDADYMAYMLKYDSTHGRFEGAVEVQGGALVVNGKKIRVTSERDPANLKWNEINVDVVVESTGLFLSDDTARKHIQAGAKKVVITGPSKDDTPMFVMGVNHTTYKGEAIVSNASCTTNCLAPLAKVLNDKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSSTGAAKAVGKIIPSLNGKLTGMAFRVPTPNVSVVDLTVRLERPATYKQICDAIKAASEGELKGILGYVDEEIVSSDINGIPLTSVFDARAGISLNDNFVKLVSWYDNETGYSNKVLDLIAHITK MVIRVGINGFGRIGRVVFRAAQRRNDIEIVGINDLLDADYMAYMLKYDSTHGRFEGAVEVQGGALVVNGKKIRVTSERDPANLKWNEINVDVVVESTGLFLSDDTARKHIQAGAKKVVITGPSKDDTPMFVMGVNHTTYKGEAIVSNASCTTNCLAPLAKVLNDKFGIVEGLMTTVHATTATQKTVDGPSQKDWRGGRGAAQNIIPSSTGAAKAVGKIIPSLNGKLTGMAFRVPTPNVSVVDLTVRLERPATYKQICDAIKAASEGELKGILGYVDEEIVSSDINGIPLTSVFDARAGISLNDNFVKLVSWYDNETGYSNKVLDLIAHITK 4p93-a1-m1-cA_4p93-a1-m1-cB Structure of Dienelactone Hydrolase at 1.85 A resolution crystallised in the C2 space group P0A115 P0A115 1.85 X-RAY DIFFRACTION 21 1.0 65741 (Pseudomonas knackmussii) 65741 (Pseudomonas knackmussii) 233 233 MLTEGISIQSYDGHTFGALVGSPAKAPAPVIVIAQEIFGVNAFMRETVSWLVDQGYAAVCPDLYARQAPGTALDPQDERQREQAYKLWQAFDMEAGVGDLEAAIRYARHQPYSNGKVGLVGYSLGGALAFLVAAKGYVDRAVGYYGVGLEKQLNKVPEVKHPALFHMGGQDHFVPAPSRQLITEGFGANPLLQVHWYEEAGHSFARTSSSGYVASAAALANERTLDFLAPLQS MLTEGISIQSYDGHTFGALVGSPAKAPAPVIVIAQEIFGVNAFMRETVSWLVDQGYAAVCPDLYARQAPGTALDPQDERQREQAYKLWQAFDMEAGVGDLEAAIRYARHQPYSNGKVGLVGYSLGGALAFLVAAKGYVDRAVGYYGVGLEKQLNKVPEVKHPALFHMGGQDHFVPAPSRQLITEGFGANPLLQVHWYEEAGHSFARTSSSGYVASAAALANERTLDFLAPLQS 4p9f-a1-m1-cB_4p9f-a1-m1-cA E. coli McbR/YncC 2.099 X-RAY DIFFRACTION 48 1.0 1281269 (Escherichia coli UMEA 3718-1) 1281269 (Escherichia coli UMEA 3718-1) 195 204 VSLTLQVENDLKHQLSIGALKPGARLITSITPVREALLRLVSVNALSVAPAQAFTVPEVGKRQLDEINRIRYELELAVALAVENLTPQDLAELQELLEKLQQAQEKGDEQIINVNRLFRLAIYHRSNPILCEIEQLWVRGPGLHYLYEAINPAELREHIENYHLLLAALKAKDKEGCRHCLAEIQQNIAILYQQY VSLTLQVENDLKHQLSIGALKPGARLITKNLAEQLGSITPVREALLRLVSVNALSVAPAQAFTVPEVGKRQLDEINRIRYELELAVALAVENLTPQDLAELQELLEKLQQAQEKGDEQIINVNRLFRLAIYHRSNPILCEIEQLWVRGPGLHYLYEAINPAELREHIENYHLLLAALKAKDKEGCRHCLAEIQQNIAILYQQYN 4p9i-a2-m1-cA_4p9i-a2-m2-cA Crystal Structure of mouse Ryanodine Receptor 2 SPRY2 Domain (1080-1253) E9Q401 E9Q401 1.3401 X-RAY DIFFRACTION 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 163 163 4p9l-a2-m1-cA_4p9l-a2-m2-cA RFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGELGSDDRAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMNEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWL RFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGELGSDDRAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMNEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWL 4p9u-a2-m1-cA_4p9u-a2-m1-cB FadR, Fatty Acid Responsive Transcription Factor from Vibrio cholerae, in Complex with DNA Q9KQU8 Q9KQU8 3.208 X-RAY DIFFRACTION 92 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 272 272 4p96-a1-m1-cA_4p96-a1-m1-cB 4p9u-a1-m1-cE_4p9u-a1-m1-cF KSPAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDAENATSIVEDLLAARTNISPIFMRYAFKLNKESAERIMINVIESCEALVNAPSWDAFIAASPYAEKIQQHVKEDSEKDELKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPQARELAMEFYRQLLAVCQSGEREHLPQVIRQYGIASGHIWNQMKMTLPSNFTED KSPAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDAENATSIVEDLLAARTNISPIFMRYAFKLNKESAERIMINVIESCEALVNAPSWDAFIAASPYAEKIQQHVKEDSEKDELKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPQARELAMEFYRQLLAVCQSGEREHLPQVIRQYGIASGHIWNQMKMTLPSNFTED 4pa1-a2-m1-cA_4pa1-a2-m3-cA Crystal Structure of Catalytic Core domain of FIV Integrase P16088 P16088 1.84 X-RAY DIFFRACTION 73 1.0 11674 (Feline immunodeficiency virus (isolate Petaluma)) 11674 (Feline immunodeficiency virus (isolate Petaluma)) 151 151 HMGIWQMDCTHFDGKIILVGIHVESGYIWAQIISQETADCTVKAVLQLLSAHNVTELQTDNGPNFKNQKMEGVLNYMGVKHKFGIPGNPQSQALVENVNHTLKVWIQKFLPETTSLDNALSLAVHSLNFKRRGRIGGMAPYELLAQQESLR HMGIWQMDCTHFDGKIILVGIHVESGYIWAQIISQETADCTVKAVLQLLSAHNVTELQTDNGPNFKNQKMEGVLNYMGVKHKFGIPGNPQSQALVENVNHTLKVWIQKFLPETTSLDNALSLAVHSLNFKRRGRIGGMAPYELLAQQESLR 4pa1-a3-m1-cA_4pa1-a3-m2-cA Crystal Structure of Catalytic Core domain of FIV Integrase P16088 P16088 1.84 X-RAY DIFFRACTION 51 1.0 11674 (Feline immunodeficiency virus (isolate Petaluma)) 11674 (Feline immunodeficiency virus (isolate Petaluma)) 151 151 HMGIWQMDCTHFDGKIILVGIHVESGYIWAQIISQETADCTVKAVLQLLSAHNVTELQTDNGPNFKNQKMEGVLNYMGVKHKFGIPGNPQSQALVENVNHTLKVWIQKFLPETTSLDNALSLAVHSLNFKRRGRIGGMAPYELLAQQESLR HMGIWQMDCTHFDGKIILVGIHVESGYIWAQIISQETADCTVKAVLQLLSAHNVTELQTDNGPNFKNQKMEGVLNYMGVKHKFGIPGNPQSQALVENVNHTLKVWIQKFLPETTSLDNALSLAVHSLNFKRRGRIGGMAPYELLAQQESLR 4pag-a3-m1-cB_4pag-a3-m1-cA ABC transporter solute binding protein from Sulfurospirillum deleyianum DSM 6946 D1B4R1 D1B4R1 1.901 X-RAY DIFFRACTION 45 1.0 525898 (Sulfurospirillum deleyianum DSM 6946) 525898 (Sulfurospirillum deleyianum DSM 6946) 317 318 SRTFLDVSNKPIVLPEHITRIYGSAPPISFIYVIDDTPLIGVNSPQTNKDNNNGEKFLSKHFELPILGGWHGNNIPNLEAILAAKPDVIITWDTPLLNEKTAKDLARISIPALKVNIDDSQNYPEVFRYLGRVQKEERANALANAQTYLDELKTFVASIPEKERTKVYYAEGDFGLQTECDRSFHSEPLALAGGNLVHKCVQNSVVGLQEVSFEQIILYDPEVIIVQNPTFYKTVFREKKWAVLKAVQNKKVYLVPKSPFNWTDRPPSFRILGAHWIASKLYPTRYPYKIEDKVKAFYQLFFGVELSNEDLKTYFKL ESRTFLDVSNKPIVLPEHITRIYGSAPPISFIYVIDDTPLIGVNSPQTNKDNNNGEKFLSKHFELPILGGWHGNNIPNLEAILAAKPDVIITWDTPLLNEKTAKDLARISIPALKVNIDDSQNYPEVFRYLGRVQKEERANALANAQTYLDELKTFVASIPEKERTKVYYAEGDFGLQTECDRSFHSEPLALAGGNLVHKCVQNSVVGLQEVSFEQIILYDPEVIIVQNPTFYKTVFREKKWAVLKAVQNKKVYLVPKSPFNWTDRPPSFRILGAHWIASKLYPTRYPYKIEDKVKAFYQLFFGVELSNEDLKTYFKL 4par-a1-m1-cA_4par-a1-m1-cC The 5-Hydroxymethylcytosine-Specific Restriction Enzyme AbaSI in a Complex with Product-like DNA B0VN39 B0VN39 2.89 X-RAY DIFFRACTION 11 0.997 509170 (Acinetobacter baumannii SDF) 509170 (Acinetobacter baumannii SDF) 314 314 ASSDLTDYVIRQLGRTKNKRYEAYVVSRIIHLLNDFTLKFVTQQFVRLSNKKIALTDLYFPQLGIHIEVDEGHHFLRNSKMEYSLNQIDEPLYSISQTESDAMREEDIISITGHKIFRVNVFKNQEGQPQNLENIHQQIDKIIEEIKTAKNKLIEASTFKEWNIETEYNPQTYIDLGRISLADNVVLKTTKDVCNCFGYSYKNYQRGGALHPYKKDTLIWFPRLYENKDWINTISPDGLTITEKSTDETITLKKLEEWKNGPQKRIVFARVKDNLSSRAMYRFMGLYEFQKADLKDGAVWKRVKSEVQTYSPKE KASSDLTDYVIRQLGRTKNKRYEAYVVSRIIHLLNDFTLKFVTQQFVRLSNKKIALTDLYFPQLGIHIEVDEGHHFLRNSKMEYSLNQIDEPLYSISQTESDAMREEDIISITGHKIFRVNVFKNQEGQPQNLENIHQQIDKIIEEIKTAKNKLIEASTFKEWNIETEYNPQTYIDLGRISLADNVVLKTTKDVCNCFGYSYKNYQRGGALHPYKKDTLIWFPRLYENKDWINTISPDGLTITEKSTDETITLKKLEEWKNGPQKRIVFARVKDNLSSRAMYRFMGLYEFQKADLKDGAVWKRVKSEVQTYSPK 4par-a1-m1-cB_4par-a1-m1-cA The 5-Hydroxymethylcytosine-Specific Restriction Enzyme AbaSI in a Complex with Product-like DNA B0VN39 B0VN39 2.89 X-RAY DIFFRACTION 74 1.0 509170 (Acinetobacter baumannii SDF) 509170 (Acinetobacter baumannii SDF) 313 314 4par-a1-m1-cD_4par-a1-m1-cC 4pba-a1-m1-cB_4pba-a1-m1-cA 4pba-a1-m1-cD_4pba-a1-m1-cC 4pbb-a1-m1-cB_4pbb-a1-m1-cA ASSDLTDYVIRQLGRTKNKRYEAYVVSRIIHLLNDFTLKFVTQQFVRLSNKKIALTDLYFPQLGIHIEVDEGHHFLRNSKMEYSLNQIDEPLYSISQTESDAMREEDIISITGHKIFRVNVFKNQEGQPQNLENIHQQIDKIIEEIKTAKNKLIEASTFKEWNIETEYNPQTYIDLGRISLADNVVLKTTKDVCNCFGYSYKNYQRGGALHPYKKDTLIWFPRLYENKDWINTISPDGLTITEKSTDETITLKKLEEWKNGPQKRIVFARVKDNLSSRAMYRFMGLYEFQKADLKDGAVWKRVKSEVQTYSPK ASSDLTDYVIRQLGRTKNKRYEAYVVSRIIHLLNDFTLKFVTQQFVRLSNKKIALTDLYFPQLGIHIEVDEGHHFLRNSKMEYSLNQIDEPLYSISQTESDAMREEDIISITGHKIFRVNVFKNQEGQPQNLENIHQQIDKIIEEIKTAKNKLIEASTFKEWNIETEYNPQTYIDLGRISLADNVVLKTTKDVCNCFGYSYKNYQRGGALHPYKKDTLIWFPRLYENKDWINTISPDGLTITEKSTDETITLKKLEEWKNGPQKRIVFARVKDNLSSRAMYRFMGLYEFQKADLKDGAVWKRVKSEVQTYSPKE 4pav-a7-m1-cD_4pav-a7-m2-cD Structure of hypothetical protein SA1046 from S. aureus. 2.3 X-RAY DIFFRACTION 81 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 107 107 GIQSWFNLHVQDLEKSAQFYKALGFKINRNPQLDKVGIQIGQTTVILIENEPNEVISLGVNTNEEVDQLVNKVKEAGGAVVQEPTVSQGFYGAFKDLDGHHFNFLVC GIQSWFNLHVQDLEKSAQFYKALGFKINRNPQLDKVGIQIGQTTVILIENEPNEVISLGVNTNEEVDQLVNKVKEAGGAVVQEPTVSQGFYGAFKDLDGHHFNFLVC 4pav-a7-m2-cD_4pav-a7-m2-cE Structure of hypothetical protein SA1046 from S. aureus. 2.3 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 107 122 4pav-a7-m1-cD_4pav-a7-m1-cE 4pav-a7-m1-cD_4pav-a7-m2-cF GIQSWFNLHVQDLEKSAQFYKALGFKINRNPQLDKVGIQIGQTTVILIENEPNEVISLGVNTNEEVDQLVNKVKEAGGAVVQEPTVSQGFYGAFKDLDGHHFNFLVC FQGIQSWFNLHVQDLEKSAQFYKALGFKINRNPQLDKVGIQIGQTTVILIENKHFQNVSQQSLNTEPNEVISLGVNTNEEVDQLVNKVKEAGGAVVQEPTVSQGFYGAFKDLDGHHFNFLVC 4pav-a7-m2-cD_4pav-a7-m2-cF Structure of hypothetical protein SA1046 from S. aureus. 2.3 X-RAY DIFFRACTION 10 0.991 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 107 124 4pav-a7-m1-cD_4pav-a7-m1-cF GIQSWFNLHVQDLEKSAQFYKALGFKINRNPQLDKVGIQIGQTTVILIENEPNEVISLGVNTNEEVDQLVNKVKEAGGAVVQEPTVSQGFYGAFKDLDGHHFNFLVC NLYFQGIQSWFNLHVQDLEKSAQFYKALGFKINRNPLDKVGIQIGQTTVILIENKHFQNVSQQSLNTEPNEVISLGVNTNEEVDQLVNKVKEAGGAVVQEPTVSQGFYGAFKDLDGHHFNFLVC 4paw-a3-m1-cB_4paw-a3-m1-cA Structure of hypothetical protein HP1257. P56162 P56162 2.23 X-RAY DIFFRACTION 64 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 196 197 MDIKACYQNAKALLEGHFLLSSGFHSNYYLQSAKVLEDPKLAEQLALELAKQIQEAHLNIECVCSPAIGGILAGYELARALGVRFIFTERVDNTMALRRGFEVKKNEKILVCEDIITTGKSAMECAKVLEEKGAQIVAFGALANRGICKRAHSHLKAQEGACLPSHLPLFALEDFVFDMHKPSSCPLCATSVAIKP HMDIKACYQNAKALLEGHFLLSSGFHSNYYLQSAKVLEDPKLAEQLALELAKQIQEAHLNIECVCSPAIGGILAGYELARALGVRFIFTERVDNTMALRRGFEVKKNEKILVCEDIITTGKSAMECAKVLEEKGAQIVAFGALANRGICKRAHSHLKAQEGACLPSHLPLFALEDFVFDMHKPSSCPLCATSVAIKP 4pbc-a1-m1-cB_4pbc-a1-m1-cA X-ray crystal structure of a putative D-amino acid aminotransferase from Burkholderia cenocepacia B4E9Q5 B4E9Q5 1.8 X-RAY DIFFRACTION 334 0.997 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 287 288 FEPIVYLSVSAQEELVPLSEARVPVLDRGFIFGDGVYEVVPVYAHDGAHVPFRIEQHLDRLARSLKKIGIDNPHDAAGWRALIERVVAANAEGLGDGNALVYLQVTRGVAKRGHAFPANAVPTVFAMTSPLRLPSEEERAKGVRCVTAEDRDIKSISLLGNVLMAQHAAERDAFETIQLRDENVTEGSSSNVWIVKNGELFAPPRYALVEQLADECGIRFVAREISEVELRSADEIMLTSATKEILPVTSLDDLPVQGGKPGPVFAALYDAYQRAKAREFEQFDLTR EPIVYLSVSAQEELVPLSEARVPVLDRGFIFGDGVYEVVPVYAHDGAHVPFRIEQHLDRLARSLKKIGIDNPHDAAGWRALIERVVAANAEGLGDGNALVYLQVTRGVAKRGHAFPANAVPTVFAMTSPLRLPSEEERAKGVRCVTAEDRCDIKSISLLGNVLMAQHAAERDAFETIQLRDENVTEGSSSNVWIVKNGELFAPPRRYALVEQLADECGIRFVAREISEVELRSADEIMLTSATKEILPVTSLDDLPVQGGKPGPVFAALYDAYQRAKAREFEQFDLTR 4pbo-a1-m2-cA_4pbo-a1-m3-cA Crystal structure of zebrafish short-chain pentraxin protein without calcium ions Q0IIP8 Q0IIP8 1.701 X-RAY DIFFRACTION 30 1.0 7955 (Danio rerio) 7955 (Danio rerio) 207 207 4pbo-a1-m1-cA_4pbo-a1-m2-cA 4pbo-a1-m1-cA_4pbo-a1-m3-cA 4pbp-a1-m1-cA_4pbp-a1-m1-cB 4pbp-a1-m1-cA_4pbp-a1-m1-cC 4pbp-a1-m1-cC_4pbp-a1-m1-cB FKNLSGKVLQFKTATDNSYVKLYPEKPLSLSAFTLCMRVATELPLDREVILFAYYTPDVDELNVWRERDGRVSLYIQSSKDAAFFRLPPLSTLQTHLCVAWESATGLTAFWMDGRRSLHQVYRKGYSIRSGGTVVLGQDPDSYVGSFDVDQSFVGEIANLQMWDYVLSSAQIKAVYYNQDNRVKGNVFDWDTIEYDVTGNVLVVPDN FKNLSGKVLQFKTATDNSYVKLYPEKPLSLSAFTLCMRVATELPLDREVILFAYYTPDVDELNVWRERDGRVSLYIQSSKDAAFFRLPPLSTLQTHLCVAWESATGLTAFWMDGRRSLHQVYRKGYSIRSGGTVVLGQDPDSYVGSFDVDQSFVGEIANLQMWDYVLSSAQIKAVYYNQDNRVKGNVFDWDTIEYDVTGNVLVVPDN 4pcg-a1-m1-cD_4pcg-a1-m1-cE Structure of Human Polyomavirus 6 (HPyV6) VP1 pentamer D6QWI0 D6QWI0 1.8 X-RAY DIFFRACTION 176 1.0 746830 (Human polyomavirus 6) 746830 (Human polyomavirus 6) 263 264 4pcg-a1-m1-cA_4pcg-a1-m1-cB 4pcg-a1-m1-cC_4pcg-a1-m1-cB 4pcg-a1-m1-cD_4pcg-a1-m1-cC 4pcg-a1-m1-cE_4pcg-a1-m1-cA VEVMETVPLSEDTIYKVEAILLPNFASGSNTAVYQSRGAPYTFTDTLDAGSSLCYTLAVVNLPEIPTLLVWEAFRVETELIFTPQLGSAGYIRAQGTPAGVEGSQMYFWACGGSPLDVIGINPDPERMNVAAGLEGPSKENQPSVAGIKATRKQVTAANFPIEIWSADPTRNENCRYFGRIVGGSVTPPVVSFGNQSTTPLVDENGVGILCLFGAIYLTSADMLGMVGYAGNPTLSDAYSQQRSVQAAFGRFFRVHFRQRRVK VEVMETVPLSEDTIYKVEAILLPNFASGSNTAVYQSRGAPYTFTDTLDAGSSLCYTLAVVNLPEIPTLLVWEAFRVETELIFTPQLGSAGYIRAQGTPAGVEGSQMYFWACGGSPLDVIGINPDPERMNVAAGLEGPSKENQPSVAGIKATRKQVTAANFPIEIWSADPTRNENCRYFGRIVGGSVTPPVVSFGNQSTTPLVDENGVGILCLFGAIYLTSADMLGMVGYAGNPTLSDAYSQQRSVQAAFGRFFRVHFRQRRVKH 4pch-a1-m1-cC_4pch-a1-m1-cB Structure of Human Polyomavirus 7 (HPyV7) VP1 pentamer D6QWK5 D6QWK5 1.7 X-RAY DIFFRACTION 179 1.0 746831 (Human polyomavirus 7) 746831 (Human polyomavirus 7) 265 266 4pch-a1-m1-cA_4pch-a1-m1-cB 4pch-a1-m1-cA_4pch-a1-m1-cE 4pch-a1-m1-cD_4pch-a1-m1-cC 4pch-a1-m1-cD_4pch-a1-m1-cE EVLDTVPLTEDTQYKVEAVLLPNFGKAATTGNFQSRGLPYTMSDTLGPGAALCYSVAVINLPEIPDAMCEDTMIVWEAYRLETELLFAPQMASSGYQRANGTLAGIEGTQLYFWACGGGPLDVIGINPDPERLKVNEALEGPGNSDVASLQALRKQVNAANFPVELWVADPTKNDNTRYFGRVVGGGVTPPVVSYGNQSTTPLIDENGVGILCTFGSVYLTSADMVGMTGLPGLPTLSADYSNQRTVQAGYGRFFRVHCRQRRIK VEVLDTVPLTEDTQYKVEAVLLPNFGKAATTGNFQSRGLPYTMSDTLGPGAALCYSVAVINLPEIPDAMCEDTMIVWEAYRLETELLFAPQMASSGYQRANGTLAGIEGTQLYFWACGGGPLDVIGINPDPERLKVNEALEGPGNSDVASLQALRKQVNAANFPVELWVADPTKNDNTRYFGRVVGGGVTPPVVSYGNQSTTPLIDENGVGILCTFGSVYLTSADMVGMTGLPGLPTLSADYSNQRTVQAGYGRFFRVHCRQRRIK 4pcq-a2-m1-cD_4pcq-a2-m1-cC Crystal Structure of MtbAldR (Rv2779c) O33321 O33321 2.95 X-RAY DIFFRACTION 168 0.993 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 145 147 4pcq-a1-m1-cA_4pcq-a1-m1-cB ELDEVDRRILSLLHGDARMPNNALDTVGIAPSTCHGRVRRLVDLGVIRGFYTDIDPVAVPLQAMISVNLQSSARGKIRSFIQQIRRKRQVMDVYFLAGADDFILHVAARDTEDLRSFVVENLNADADVAGTQTSLIFEHLRGAAP LDEVDRRILSLLHGDARMPNNALADTVGIAPSTCHGRVRRLVDLGVIRGFYTDIDPVAVGLPLQAMISVNLQSSARGKIRSFIQQIRRKRQVMDVYFLAGADDFILHVAARDTEDLRSFVVENLNADADVAGTQTSLIFEHLRGAAP 4pcw-a2-m1-cD_4pcw-a2-m1-cC Crystal Structure of the N-terminal Domain of Human Profilaggrin at 2.2 A Resolution P20930 P20930 2.2 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 91 4pcw-a1-m1-cA_4pcw-a1-m1-cB STLLENIFAIINLFKQYSKKDKNTDTLSKKELKELLEKEFRQILKNPDDPDMVDVFMDHLDIDHNKKIDFTEFLLMVFKLAQAYYEST STLLENIFAIINLFKQYSKKDKNTDTLSKKELKELLEKEFRQILKNPDDPDMVDVFMDHLDIDHNKKIDFTEFLLMVFKLAQAYYESTRKE 4pd0-a1-m1-cA_4pd0-a1-m2-cA 1.7 A resolution structure of gephyrin's E-domain Q03555 Q03555 1.7 X-RAY DIFFRACTION 230 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 416 416 1t3e-a1-m1-cB_1t3e-a1-m1-cA 2fts-a1-m1-cA_2fts-a1-m2-cA 2fu3-a1-m1-cA_2fu3-a1-m1-cB 4pd1-a1-m1-cA_4pd1-a1-m2-cA 4tk1-a1-m1-cB_4tk1-a1-m1-cA 4tk2-a1-m1-cA_4tk2-a1-m1-cB 4tk3-a1-m1-cB_4tk3-a1-m1-cA 4tk4-a1-m1-cB_4tk4-a1-m1-cA 5erq-a1-m1-cA_5erq-a1-m2-cA 5err-a1-m1-cA_5err-a1-m2-cA 5ers-a1-m1-cA_5ers-a1-m2-cA 5ert-a1-m1-cA_5ert-a1-m2-cA 5eru-a1-m1-cA_5eru-a1-m2-cA 5erv-a1-m1-cA_5erv-a1-m2-cA 6fgc-a1-m1-cA_6fgc-a1-m2-cA 6fgd-a1-m1-cA_6fgd-a1-m2-cA 6hsn-a1-m1-cA_6hsn-a1-m2-cA 6hso-a1-m1-cA_6hso-a1-m2-cA SPFPLTSMDKAFITVLEMTPVLGTEIINYRDGMGRVLAQDVYAKDNLPPFPASVKDGYAVRAADGPGDRFIIGESQAGEQPTQTVMPGQVMRVTTGAPIPCGADAVVQVEDTELIRESDDGTEELEVRILVQARPGQDIRPIGHDIKRGECVLAKGTHMGPSEIGLLATVGVTEVEVNKFPVVAVMSTGNELLNPEDDLLPGKIRDSNRSTLLATIQEHGYPTINLGIVGDNPDDLLNALNEGISRADVIITSGGVSMGEKDYLKQVLDIDLHAQIHFGRVFMKPGLPTTFATLDIDGVRKIIFALPGNPVSAVVTCNLFVVPALRKMQGILDPRPTIIKARLSCDVKLDPRPEYHRCILTWHHQEPLPWAQSTGNQSRLMSMRSANGLLMLPPKTEQYVELHKGEVVDVMVIGRL SPFPLTSMDKAFITVLEMTPVLGTEIINYRDGMGRVLAQDVYAKDNLPPFPASVKDGYAVRAADGPGDRFIIGESQAGEQPTQTVMPGQVMRVTTGAPIPCGADAVVQVEDTELIRESDDGTEELEVRILVQARPGQDIRPIGHDIKRGECVLAKGTHMGPSEIGLLATVGVTEVEVNKFPVVAVMSTGNELLNPEDDLLPGKIRDSNRSTLLATIQEHGYPTINLGIVGDNPDDLLNALNEGISRADVIITSGGVSMGEKDYLKQVLDIDLHAQIHFGRVFMKPGLPTTFATLDIDGVRKIIFALPGNPVSAVVTCNLFVVPALRKMQGILDPRPTIIKARLSCDVKLDPRPEYHRCILTWHHQEPLPWAQSTGNQSRLMSMRSANGLLMLPPKTEQYVELHKGEVVDVMVIGRL 4pde-a1-m1-cA_4pde-a1-m2-cA Crystal structure of FdhD in complex with GDP P32177 P32177 2.8 X-RAY DIFFRACTION 120 1.0 562 (Escherichia coli) 562 (Escherichia coli) 244 244 ITGVRQIELWRRDDLQHPRLDEVAEEVPVALVYNGISHVVMMASPKDLEYFALGFSLSEGIIESPRDIFGMDVVPSCNGLEVQIELSSRRFMGLKERRIGKPVQPLPFTQTFDLNKLDDALRHLNDFQPVGQLTGCTHAAAWMLPSGELVGGHEDVGRHVALDKLLGRRSQEGESWQQGAVLVSSRASYEMVQKSAMCGVEILFAVSAATTLAVEVAERCNLTLVGFCKPGRATVYTHPQRLSN ITGVRQIELWRRDDLQHPRLDEVAEEVPVALVYNGISHVVMMASPKDLEYFALGFSLSEGIIESPRDIFGMDVVPSCNGLEVQIELSSRRFMGLKERRIGKPVQPLPFTQTFDLNKLDDALRHLNDFQPVGQLTGCTHAAAWMLPSGELVGGHEDVGRHVALDKLLGRRSQEGESWQQGAVLVSSRASYEMVQKSAMCGVEILFAVSAATTLAVEVAERCNLTLVGFCKPGRATVYTHPQRLSN 4pdk-a1-m1-cA_4pdk-a1-m1-cB FadR, Fatty Acid Responsive Transcription Factor from Vibrio cholerae, in Complex with oleoyl-CoA Q9KQU8 Q9KQU8 2.8 X-RAY DIFFRACTION 50 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 259 265 PAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDAENATSIVEDLLAARTNISPIFMRYAFKLNKESAERIMINVIESCEALVNAPSWDAFIAASPYAEKIQQHVKEDSEKDELKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPQARELAMEFYRQLLAVCQSGEREHLPQVIRQYGIASGHIWNQM PAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDAENATSIVEDLLAARTNISPIFMRYAFKLNKESAERIMINVIESCEALVNAPSWDAFIAASPYAEKIQQHVKEDSEKDELKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPQARELAMEFYRQLLAVCQSGEREHLPQVIRQYGIASGHIWNQMKMTLPS 4pdo-a1-m1-cA_4pdo-a1-m1-cB Structure of Ephrin type-A receptor 2 P29317 P29317 2.104 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 261 DPHTYEDPNQAVLKFTTEIHPSCVTRQKVIGAFGEVYKGMLKTEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSHHNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLANMNYVHRDLAARNILVNSNLVCKVSDFGKIPIRWTAPEAISYRKFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQCWQQERARRPKFADIVSILDKLI DPHTYEDPNQAVLKFTTEIHPSCVTRQKVIGAFGEVYKGMLKTEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSHHNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLANMNYVHRDLAARNILVNSNLVCKVSDFGKIPIRWTAPEAISYRKFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQCWQQERARRPKFADIVSILDKLI 4pdp-a1-m1-cA_4pdp-a1-m3-cA Crystal structure of Rad53 kinase domain and SCD2 P22216 P22216 2.591 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 261 261 TGIFKDFSIIATVKKAIERTTGKTFSVKIISKRKMDGVTRELEVLQKLNHPRIVRLKGFYEDSYYMVMEFVSGGDLMDFVAAHGAVGEDAGREISRQILTAIKYIHSMGISHRDLKPDNILIEQDDPVLVKITAFGLAKVQTLAYVAPEVIRRNEYSSLVDMWSMGCLVYVILTGHLPFSGSTQDQLYKQIGRGSYHEGPLKDFRISEEARDFIDSLLQVDPNNRSTAAKALNHPWIKMSPLYGDFSQISLSQSLSQQKLL TGIFKDFSIIATVKKAIERTTGKTFSVKIISKRKMDGVTRELEVLQKLNHPRIVRLKGFYEDSYYMVMEFVSGGDLMDFVAAHGAVGEDAGREISRQILTAIKYIHSMGISHRDLKPDNILIEQDDPVLVKITAFGLAKVQTLAYVAPEVIRRNEYSSLVDMWSMGCLVYVILTGHLPFSGSTQDQLYKQIGRGSYHEGPLKDFRISEEARDFIDSLLQVDPNNRSTAAKALNHPWIKMSPLYGDFSQISLSQSLSQQKLL 4pdx-a1-m1-cB_4pdx-a1-m1-cA Crystal structure of Escherchia coli uncharacterized protein YjcS P32717 P32717 1.75 X-RAY DIFFRACTION 302 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 603 606 KEEAKAATQYTQQVNQNYAKSLPFSDRQDFDDAQRGFIAPLLDEGILRGKVYYRADDYKFDINAAAPETVNPSLWRQSQINGISGLFKVTDKYQVRGQDISNITFVEGEKGIIVIDPLVTPPAAKAALDLYFQHRPQKPIVAVIYTHSHTDHYGGVKGIISEADVKSGKVQVIAPAGFDEAISENVLAGNISRRALYSYGLLLPHNAQGNVGNGLGVTLATGDPSIIAPTKTIVRTGEKIIDGLEFDFLTPAEHFYIPALKALCTAENATHTLHNFYTLRGAKTRDTSKWTEYLNETLDWGNDAEVLFPHTWPVWGNKHINDYIGKYRDTIKYIHDQTLHLANQGYTNEIGDIKLPPALANNWASRGYYGSVSHNARAVYNFYLGYYDGNPANLHPYGQVEGKRYVQALGGSARVINLAQEANKQGDYRWSAELLKQVIAANPGDQVAKNLQANNFEQLGYQAESATWRGFYLTGAKELREGVHKFDTIRGSVELFDFAVRLDSAKAAGKNISLNFNSNGDNLNLTLNDSVLNYRKTLQPQADASFYISREDLHAVLTGQAKADLVKAKKAKIIGNGAKLEEIIACLDNFDLWVNIVTPNLEH KEEAKAATQYTQQVNQNYAKSLPFSDRQDFDDAQRGFIAPLLDEGILRDANGKVYYRADDYKFDINAAAPETVNPSLWRQSQINGISGLFKVTDKYQVRGQDISNITFVEGEKGIIVIDPLVTPPAAKAALDLYFQHRPQKPIVAVIYTHSHTDHYGGVKGIISEADVKSGKVQVIAPAGFDEAISENVLAGNISRRALYSYGLLLPHNAQGNVGNGLGVTLATGDPSIIAPTKTIVRTGEKIIDGLEFDFLTPAEHFYIPALKALCTAENATHTLHNFYTLRGAKTRDTSKWTEYLNETLDWGNDAEVLFPHTWPVWGNKHINDYIGKYRDTIKYIHDQTLHLANQGYTNEIGDIKLPPALANNWASRGYYGSVSHNARAVYNFYLGYYDGNPANLHPYGQVEGKRYVQALGGSARVINLAQEANKQGDYRWSAELLKQVIAANPGDQVAKNLQANNFEQLGYQAESATWRGFYLTGAKELREGVHKFDTIRGSVELFDFAVRLDSAKAAGKNISLNFNSNGDNLNLTLNDSVLNYRKTLQPQADASFYISREDLHAVLTGQAKADLVKAKKAKIIGNGAKLEEIIACLDNFDLWVNIVTPNLEH 4peo-a1-m1-cA_4peo-a1-m1-cB Crystal structure of a hypothetical protein from Staphylococcus aureus. Q2FXS9 Q2FXS9 1.73 X-RAY DIFFRACTION 79 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 92 93 7jvs-a1-m1-cB_7jvs-a1-m1-cD MITVDITVNDEGKVTDVIMDGAGASAVLFGSVNAIIGLTSERPDINYDDNGGHFHIRSVDTNNDEAQLILQTMLVSLQTIEEEYNNIRLNYK MITVDITVNDEGKVTDVIMDGHAGASAVLFGSVNAIIGLTSERPDINYDDNGGHFHIRSVDTNNDEAQLILQTMLVSLQTIEEEYNNIRLNYK 4pet-a1-m1-cB_4pet-a1-m1-cA CRYSTAL STRUCTURE OF A TRAP PERIPLASMIC SOLUTE BINDING PROTEIN FROM COLWELLIA PSYCHRERYTHRAEA (CPS_0129, TARGET EFI-510097) WITH BOUND CALCIUM AND PYRUVATE Q48AL6 Q48AL6 1.9 X-RAY DIFFRACTION 152 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 309 310 KKYRWKLAETWGPNFPIFGDATKNAKVKESNGRLTIRIDSSNKHKSALGIFDFVKSGQYQGHSASYYWKGKNFNTFFTTVPFGIASEQHAWFYYGGGELKKVYDQYGISFPGGNTGNQGGWFKKEINSVEDLKGLKRIPGFAGEVLAKLGAKPTNIPSGELYTALERNTIDALEWVGPSLDLRGFHKIAPYYYTGWHEPGTELQFVNQKAYNSLPKDLQKILTVAKAAAYDYSQSHASGVNLASLKKDYPNVQRSFPKPVEAIVQANDELLEEFAAKDPTAEILKSLNDYKHQIRAWTNLSDRAYLDNF DKKYRWKLAETWGPNFPIFGDATKNAKVKESNGRLTIRIDSSNKHKSALGIFDFVKSGQYQGHSASYYWKGKNFNTFFTTVPFGIASEQHAWFYYGGGELKKVYDQYGISFPGGNTGNQGGWFKKEINSVEDLKGLKRIPGFAGEVLAKLGAKPTNIPSGELYTALERNTIDALEWVGPSLDLRGFHKIAPYYYTGWHEPGTELQFVNQKAYNSLPKDLQKILTVAKAAAYDYSQSHASGVNLASLKKDYPNVQRSFPKPVEAIVQANDELLEEFAAKDPTAEILKSLNDYKHQIRAWTNLSDRAYLDNF 4pf1-a1-m1-cA_4pf1-a1-m1-cD Crystal structure of aminopeptidase from marine sediment archaeon Thaumarchaeota archaeon M7TVE7 M7TVE7 2.1 X-RAY DIFFRACTION 49 1.0 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 611 611 4pf1-a1-m1-cB_4pf1-a1-m1-cC FSEDSDSDIPEKFTPKTDLFDYTRREEMIPMRDGVKLNTIILIPKGVQNTPIVLTRTPYHAERRTLRFNSSSLSMVVPQMNDTTSAARYIIVYQDVRGKYGSEGGYMMNKPLTGPLNTTGTDHSTDTYDTIDWLVKNIPESNGRVAAIGGSYEGYTTLMCTINPHPALKAVVPFASMVDGWMGDDWFHMGAFRQEASLPYAYNQEATRKNEIKWWSGSYDTYDAYLRAGNAGAMAASRGMESIGFWKKLAAHPSYDSFWQQQAMDKMLAQHPLTVPMLIVGGLFDQEDIYGSPKLYKVLAPKDPEGKLVHFVLGPWNHGQGRRDARSLGPLQFEGDTGGWFRRNVMQPFLDHYLKDAPKLDIPRVLSYETGANAWHRYDDWPPEEAHYCDLYVQEDGKLGFEMPAAKQAFDEYVSDPAKPVPYRQRPTIPSYAAESTWGEWLVDDQRHTASRTDVLVWATEPLKEPLRVAGQPVARLFASTSGSDADWVVKIIDVWPDEVPENPKLGGYQQMLSADIFRGRYREDFAVAKPLVPDKVLEYRIPLPQVSHTFLPGHRIMVQVQSSWFPLYDRNPQTFVPNIMFAPPESYRKATQRVWRTAEYPTAIEIHIIS FSEDSDSDIPEKFTPKTDLFDYTRREEMIPMRDGVKLNTIILIPKGVQNTPIVLTRTPYHAERRTLRFNSSSLSMVVPQMNDTTSAARYIIVYQDVRGKYGSEGGYMMNKPLTGPLNTTGTDHSTDTYDTIDWLVKNIPESNGRVAAIGGSYEGYTTLMCTINPHPALKAVVPFASMVDGWMGDDWFHMGAFRQEASLPYAYNQEATRKNEIKWWSGSYDTYDAYLRAGNAGAMAASRGMESIGFWKKLAAHPSYDSFWQQQAMDKMLAQHPLTVPMLIVGGLFDQEDIYGSPKLYKVLAPKDPEGKLVHFVLGPWNHGQGRRDARSLGPLQFEGDTGGWFRRNVMQPFLDHYLKDAPKLDIPRVLSYETGANAWHRYDDWPPEEAHYCDLYVQEDGKLGFEMPAAKQAFDEYVSDPAKPVPYRQRPTIPSYAAESTWGEWLVDDQRHTASRTDVLVWATEPLKEPLRVAGQPVARLFASTSGSDADWVVKIIDVWPDEVPENPKLGGYQQMLSADIFRGRYREDFAVAKPLVPDKVLEYRIPLPQVSHTFLPGHRIMVQVQSSWFPLYDRNPQTFVPNIMFAPPESYRKATQRVWRTAEYPTAIEIHIIS 4pf1-a1-m1-cB_4pf1-a1-m1-cD Crystal structure of aminopeptidase from marine sediment archaeon Thaumarchaeota archaeon M7TVE7 M7TVE7 2.1 X-RAY DIFFRACTION 136 0.998 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 610 611 4pf1-a1-m1-cC_4pf1-a1-m1-cA DFSEDSDSDIPEKFTPKTDLFDYTRREEMIPMRDGVKLNTIILIPKGVQNTPIVLTRTPYHAERRTLRFNSSSLSMVVPQMNDTTSAARYIIVYQDVRGKYGSEGGYMMNKPLTGPLNTTGTDHSTDTYDTIDWLVKNIPESNGRVAAIGGSYEGYTTLMCTINPHPALKAVVPFASMVDGWMGDDWFHMGAFRQEASLPYAYNQEATRKNEIKWWSGSYDTYDAYLRAGNAGAMAASRGMESIGFWKKLAAHPSYDSFWQQQAMDKMLAQHPLTVPMLIVGGLFDQEDIYGSPKLYKVLAPKDPEGKLVHFVLGPWNHGQGRRDARSLGPLQFEGDTGGWFRRNVMQPFLDHYLKDAPKLDIPRVLSYETGANAWHRYDDWPPEHYCDLYVQEDGKLGFEMPAAKQAFDEYVSDPAKPVPYRQRPTIPSYAAESTWGEWLVDDQRHTASRTDVLVWATEPLKEPLRVAGQPVARLFASTSGSDADWVVKIIDVWPDEVPENPKLGGYQQMLSADIFRGRYREDFAVAKPLVPDKVLEYRIPLPQVSHTFLPGHRIMVQVQSSWFPLYDRNPQTFVPNIMFAPPESYRKATQRVWRTAEYPTAIEIHIIS FSEDSDSDIPEKFTPKTDLFDYTRREEMIPMRDGVKLNTIILIPKGVQNTPIVLTRTPYHAERRTLRFNSSSLSMVVPQMNDTTSAARYIIVYQDVRGKYGSEGGYMMNKPLTGPLNTTGTDHSTDTYDTIDWLVKNIPESNGRVAAIGGSYEGYTTLMCTINPHPALKAVVPFASMVDGWMGDDWFHMGAFRQEASLPYAYNQEATRKNEIKWWSGSYDTYDAYLRAGNAGAMAASRGMESIGFWKKLAAHPSYDSFWQQQAMDKMLAQHPLTVPMLIVGGLFDQEDIYGSPKLYKVLAPKDPEGKLVHFVLGPWNHGQGRRDARSLGPLQFEGDTGGWFRRNVMQPFLDHYLKDAPKLDIPRVLSYETGANAWHRYDDWPPEEAHYCDLYVQEDGKLGFEMPAAKQAFDEYVSDPAKPVPYRQRPTIPSYAAESTWGEWLVDDQRHTASRTDVLVWATEPLKEPLRVAGQPVARLFASTSGSDADWVVKIIDVWPDEVPENPKLGGYQQMLSADIFRGRYREDFAVAKPLVPDKVLEYRIPLPQVSHTFLPGHRIMVQVQSSWFPLYDRNPQTFVPNIMFAPPESYRKATQRVWRTAEYPTAIEIHIIS 4pf1-a1-m1-cC_4pf1-a1-m1-cD Crystal structure of aminopeptidase from marine sediment archaeon Thaumarchaeota archaeon M7TVE7 M7TVE7 2.1 X-RAY DIFFRACTION 93 0.998 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 610 611 4pf1-a1-m1-cB_4pf1-a1-m1-cA DFSEDSDSDIPEKFTPKTDLFDYTRREEMIPMRDGVKLNTIILIPKGVQNTPIVLTRTPYHAERRTLRFNSSSLSMVVPQMNDTTSAARYIIVYQDVRGKYGSEGGYMMNKPLTGPLNTTGTDHSTDTYDTIDWLVKNIPESNGRVAAIGGSYEGYTTLMCTINPHPALKAVVPFASMVDGWMGDDWFHMGAFRQEASLPYAYNQEATRKNEIKWWSGSYDTYDAYLRAGNAGAMAASRGMESIGFWKKLAAHPSYDSFWQQQAMDKMLAQHPLTVPMLIVGGLFDQEDIYGSPKLYKVLAPKDPEGKLVHFVLGPWNHGQGRRDARSLGPLQFEGDTGGWFRRNVMQPFLDHYLKDAPKLDIPRVLSYETGANAWHRYDDWPPEHYCDLYVQEDGKLGFEMPAAKQAFDEYVSDPAKPVPYRQRPTIPSYAAESTWGEWLVDDQRHTASRTDVLVWATEPLKEPLRVAGQPVARLFASTSGSDADWVVKIIDVWPDEVPENPKLGGYQQMLSADIFRGRYREDFAVAKPLVPDKVLEYRIPLPQVSHTFLPGHRIMVQVQSSWFPLYDRNPQTFVPNIMFAPPESYRKATQRVWRTAEYPTAIEIHIIS FSEDSDSDIPEKFTPKTDLFDYTRREEMIPMRDGVKLNTIILIPKGVQNTPIVLTRTPYHAERRTLRFNSSSLSMVVPQMNDTTSAARYIIVYQDVRGKYGSEGGYMMNKPLTGPLNTTGTDHSTDTYDTIDWLVKNIPESNGRVAAIGGSYEGYTTLMCTINPHPALKAVVPFASMVDGWMGDDWFHMGAFRQEASLPYAYNQEATRKNEIKWWSGSYDTYDAYLRAGNAGAMAASRGMESIGFWKKLAAHPSYDSFWQQQAMDKMLAQHPLTVPMLIVGGLFDQEDIYGSPKLYKVLAPKDPEGKLVHFVLGPWNHGQGRRDARSLGPLQFEGDTGGWFRRNVMQPFLDHYLKDAPKLDIPRVLSYETGANAWHRYDDWPPEEAHYCDLYVQEDGKLGFEMPAAKQAFDEYVSDPAKPVPYRQRPTIPSYAAESTWGEWLVDDQRHTASRTDVLVWATEPLKEPLRVAGQPVARLFASTSGSDADWVVKIIDVWPDEVPENPKLGGYQQMLSADIFRGRYREDFAVAKPLVPDKVLEYRIPLPQVSHTFLPGHRIMVQVQSSWFPLYDRNPQTFVPNIMFAPPESYRKATQRVWRTAEYPTAIEIHIIS 4pfk-a1-m1-cA_4pfk-a1-m4-cA PHOSPHOFRUCTOKINASE. STRUCTURE AND CONTROL P00512 P00512 2.4 X-RAY DIFFRACTION 119 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 319 319 1mto-a1-m1-cA_1mto-a1-m1-cC 1mto-a1-m1-cB_1mto-a1-m1-cD 1mto-a2-m1-cE_1mto-a2-m1-cG 1mto-a2-m1-cF_1mto-a2-m1-cH 3pfk-a1-m1-cA_3pfk-a1-m4-cA 3pfk-a1-m2-cA_3pfk-a1-m3-cA 3u39-a1-m1-cB_3u39-a1-m1-cA 3u39-a1-m1-cC_3u39-a1-m1-cD 4i36-a1-m1-cA_4i36-a1-m1-cB 4i36-a1-m1-cC_4i36-a1-m1-cD 4i4i-a1-m1-cA_4i4i-a1-m1-cB 4i4i-a1-m1-cC_4i4i-a1-m1-cD 4i7e-a1-m1-cA_4i7e-a1-m1-cB 4i7e-a1-m1-cC_4i7e-a1-m1-cD 4pfk-a1-m2-cA_4pfk-a1-m3-cA 6pfk-a1-m1-cA_6pfk-a1-m1-cB 6pfk-a1-m1-cC_6pfk-a1-m1-cD MKRIGVLTSGGDSPGMNAAIRSVVRKAIYHGVEVYGVYHGYAGLIAGNIKKLEVGDVGDIIHRGGTILYTARCPEFKTEEGQKKGIEQLKKHGIQGLVVIGGDGSYQGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWSGLAGGAETILIPEADYDMNDVIARLKRGHERGKKHSIIIVAEGVGSGVDFGRQIQEATGFETRVTVLGHVQRGGSPTAFDRVLASRLGARAVELLLEGKGGRCVGIQNNQLVDHDIAEALANKHTIDQRMYALSKELSI MKRIGVLTSGGDSPGMNAAIRSVVRKAIYHGVEVYGVYHGYAGLIAGNIKKLEVGDVGDIIHRGGTILYTARCPEFKTEEGQKKGIEQLKKHGIQGLVVIGGDGSYQGAKKLTEHGFPCVGVPGTIDNDIPGTDFTIGFDTALNTVIDAIDKIRDTATSHERTYVIEVMGRHAGDIALWSGLAGGAETILIPEADYDMNDVIARLKRGHERGKKHSIIIVAEGVGSGVDFGRQIQEATGFETRVTVLGHVQRGGSPTAFDRVLASRLGARAVELLLEGKGGRCVGIQNNQLVDHDIAEALANKHTIDQRMYALSKELSI 4pfm-a1-m1-cA_4pfm-a1-m1-cB SHEWANELLA BENTHICA DHDPS WITH LYSINE AND PYRUVATE A9DKW4 A9DKW4 2.327 X-RAY DIFFRACTION 130 1.0 314608 (Shewanella benthica KT99) 314608 (Shewanella benthica KT99) 294 294 4icn-a1-m1-cB_4icn-a1-m1-cA HMINGSIVALITPLNSDGTVDYTSLEKLVEYHITEGTDAIVAVGTTGESATLPISEHIAVVGQTVKFASGRIPVIGGNGANATAEAIELTKAQNKLGVAAMLGVTPYYNKPSPKGLIAHYTAVAASTDIPQILYNVPGRTAVDMLPETIAQLVEVPNIIGVDATGDVARVKQLRDLCGNDFLLYSGDDATAREFLTLGGDGVISVANNIVPKLFKLMCDAALAGDTQAAMAAEDQIKGLFSALFCEANPIPVKWAAHKMGLISQGDIRLPLTELSTEFHGLLLDAMKNARIEVK HMINGSIVALITPLNSDGTVDYTSLEKLVEYHITEGTDAIVAVGTTGESATLPISEHIAVVGQTVKFASGRIPVIGGNGANATAEAIELTKAQNKLGVAAMLGVTPYYNKPSPKGLIAHYTAVAASTDIPQILYNVPGRTAVDMLPETIAQLVEVPNIIGVDATGDVARVKQLRDLCGNDFLLYSGDDATAREFLTLGGDGVISVANNIVPKLFKLMCDAALAGDTQAAMAAEDQIKGLFSALFCEANPIPVKWAAHKMGLISQGDIRLPLTELSTEFHGLLLDAMKNARIEVK 4pfp-a1-m1-cA_4pfp-a1-m1-cC Myosin VI motor domain in the Pi release state (with Pi) space group P21 F1RQI7 F1RQI7 2.32 X-RAY DIFFRACTION 17 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 760 766 KPVWAPHPTDGFQVGNIVDIGPDSLTIEPLNQKGKTFLALINQVFPAEEDSKKDVEDNCSLMYLNEATLLHNIKVRYSKDRIYTYVANILIAVNPYFDIPKIYSSETIKSYQGKSLGTMPPHVFAIADKAFRDMKVLKLSQSIIVSGESGAGKTENTKFVLRYLTESYGTGQDIDDRIVEANPLLEAFGNAKTVRNNNSSRFGKFVEIHFNEKSSVVGGFVSHYLLEKSRICVQGKEERNYHIFYRLCAGASEDIRERLHLSSPDNFRYLNRGCTRYFANKETDKQILQNRKSPEYLKAGSLKDPLLDDHGDFIRMCTAMKKIGLDDEEKLDLFRVVAGVLHLGNIDFEEAGSTSGGCNLKNKSTQALEYCAELLGLDQDDLRVSLTTRVMVIKVPLKVEQANNARDALAKTVYSHLFDHVVNRVNQCFPFETSSYFIGVLDIAGFEYFEHNSFEQFCINYCNEKLQQFFNERILKEEQELYQKEGLGVNEVHYVDNQDCIDLIEARLVGILDILDEENRLPQPSDQHFTSAVHQKHKDHFRLSIPRKSKLAIHRNIRDDEGFIIRHFAGAVCYETTQFVEKNNDALHMSLESLICESRDKFIRELFELSFISVGNKFKTQLNLLLDKLRSTGASFIRCIKPNLKMTSHHFEGAQILSQLQCSGMVSVLDLMQGGFPSRASFHELYNMYKKYMPDKLARLDPRLFCKALFKALGLNEIDYKFGLTKVFFRPGKFAEFDQIMKSDPDHLAELVKRVNHWLI KPVWAPHPTDGFQVGNIVDIGPDSLTIEPLNQKGKTFLALINQVFPAEEDSKKDVEDNCSLMYLNEATLLHNIKVRYSKDRIYTYVANILIAVNPYFDIPKIYSSETIKSYQGKSLGTMPPHVFAIADKAFRDMKVLKLSQSIIVSGESGAGKTENTKFVLRYLTESYGTGQDIDDRIVEANPLLEAFGNAKTVRNNNSSRFGKFVEIHFNEKSSVVGGFVSHYLLEKSRICVQGKEERNYHIFYRLCAGASEDIRERLHLSSPDNFRYLNRGCTRYFANKETDKQILQNRKSPEYLKAGSLKDPLLDDHGDFIRMCTAMKKIGLDDEEKLDLFRVVAGVLHLGNIDFEEAGSTSGGCNLKNKSTQALEYCAELLGLDQDDLRVSLTTRVMLTGTVIKVPLKVEQANNARDALAKTVYSHLFDHVVNRVNQCFPFETSSYFIGVLDIAGFEYFEHNSFEQFCINYCNEKLQQFFNERILKEEQELYQKEGLGVNEVHYVDNQDCIDLIEARLVGILDILDEENRLPQPSDQHFTSAVHQKHKDHFRLSIPRKSKLAIHRNIRDDEGFIIRHFAGAVCYETTQFVEKNNDALHMSLESLICESRDKFIRELFEGKLSFISVGNKFKTQLNLLLDKLRSTGASFIRCIKPNLKMTSHHFEGAQILSQLQCSGMVSVLDLMQGGFPSRASFHELYNMYKKYMPDKLARLDPRLFCKALFKALGLNEIDYKFGLTKVFFRPGKFAEFDQIMKSDPDHLAELVKRVNHWLI 4pg8-a1-m1-cB_4pg8-a1-m1-cA Crystal structure of S. aureus Homoserine Dehydrogenase at pH8.5 A0A0M3KKV6 A0A0M3KKV6 2.2 X-RAY DIFFRACTION 98 0.987 1158465 (Staphylococcus aureus M1064) 1158465 (Staphylococcus aureus M1064) 388 399 4pg5-a1-m1-cA_4pg5-a1-m1-cB 4pg7-a1-m1-cB_4pg7-a1-m1-cA MKKLNIALLGLGTVGSGVVKIIEENRQQIQDTLNKDIVIKHILVRDKSKKRPLNISQYHLTEDVNEILNDDSLDIIVEVMGGIEPTVDWLRTALKNKKHVITANKDLLAVHLKLLEDLAEENGVALKFEASVAIPIVNNISKFMGILNGTSNFILSKMTKEQTTFEEALDEAKRLGFAEADPTDDVEGVDAARKVVITSYLSFNQVIKLNDVKRRGISGVTLTDINVADQLGYKIKLIGKGIYENGKVNASVEPTLIDKKHQLAAVEDEYNAIYVIGVGDTMFYGKGAGSLATGSAVVSDLLNVALFFPHFELEKSNFFVVVNHVKGSIENFENELKAILPFHRSLRVANYDNQSYAAVIVGLESSPEELITKHGYEVDKVYPVEGVL HMKKLNIALLGLGTVGSGVVKIIEENRQQIQDTLNKDIVIKHILVRDKSKKRPLNISQYHLTEDVNEILNDDSLDIIVEVMGGIEPTVDWLRTALKNKKHVITANKDLLAVHLKLLEDLAEENGVALKFEASVAGGPNNISKFMGILNGTSNFILSKMTKEQTTFEEALDEAKRLGFAEADPTDDVEGVDAARKVVITSYLSFNQVIKLNDVKRRGISGVTLTDINVADQLGYKIKLIGKGIYENGKVNASVEPTLIDKKHQLAAVEDEYNAIYVIGDAVGDTMFYGKGAGSLATGSAVVSDLLNVALFFELPPHFELKTDKTREEKSNFFVVVNHVKGSIENFENELKAILPFHRSLRVANYDNQSYAAVIVGLESSPEELITKHGYEVDKVYPVEGV 4pgf-a1-m1-cA_4pgf-a1-m2-cA The structure of mono-acetylated SAHH P23526 P23526 2.59 X-RAY DIFFRACTION 148 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 429 429 1a7a-a1-m1-cB_1a7a-a1-m1-cA 1a7a-a1-m2-cB_1a7a-a1-m2-cA 1b3r-a1-m1-cA_1b3r-a1-m1-cB 1b3r-a1-m1-cC_1b3r-a1-m1-cD 1d4f-a1-m1-cA_1d4f-a1-m1-cB 1d4f-a1-m1-cC_1d4f-a1-m1-cD 1k0u-a1-m1-cA_1k0u-a1-m1-cB 1k0u-a1-m1-cC_1k0u-a1-m1-cD 1k0u-a2-m1-cE_1k0u-a2-m1-cF 1k0u-a2-m1-cG_1k0u-a2-m1-cH 1ky4-a1-m1-cA_1ky4-a1-m1-cB 1ky4-a1-m1-cC_1ky4-a1-m1-cD 1ky5-a1-m1-cA_1ky5-a1-m1-cB 1ky5-a1-m1-cC_1ky5-a1-m1-cD 1li4-a1-m1-cA_1li4-a1-m2-cA 1li4-a1-m3-cA_1li4-a1-m4-cA 1xwf-a1-m1-cA_1xwf-a1-m1-cB 1xwf-a1-m1-cC_1xwf-a1-m1-cD 2h5l-a1-m1-cA_2h5l-a1-m1-cB 2h5l-a1-m1-cC_2h5l-a1-m1-cD 2h5l-a2-m1-cE_2h5l-a2-m1-cF 2h5l-a2-m1-cG_2h5l-a2-m1-cH 3nj4-a1-m1-cB_3nj4-a1-m1-cA 3nj4-a1-m1-cD_3nj4-a1-m1-cC 4pfj-a1-m1-cA_4pfj-a1-m2-cA 4pfj-a1-m1-cB_4pfj-a1-m2-cB 4pgf-a1-m1-cB_4pgf-a1-m2-cB 4yvf-a1-m1-cA_4yvf-a1-m1-cB 4yvf-a1-m2-cA_4yvf-a1-m2-cB 5axa-a1-m1-cA_5axa-a1-m2-cA 5axa-a1-m1-cC_5axa-a1-m2-cC 5axb-a1-m1-cA_5axb-a1-m2-cA 5axb-a1-m1-cC_5axb-a1-m2-cC 5axc-a1-m1-cA_5axc-a1-m2-cA 5axc-a1-m1-cC_5axc-a1-m2-cC 5axd-a1-m1-cA_5axd-a1-m2-cA 5axd-a1-m1-cC_5axd-a1-m2-cC 5w49-a1-m1-cA_5w49-a1-m1-cB 5w49-a1-m2-cA_5w49-a1-m2-cB 5w4b-a1-m1-cA_5w4b-a1-m1-cB 5w4b-a1-m1-cE_5w4b-a1-m1-cF 5w4b-a2-m1-cC_5w4b-a2-m2-cD 5w4b-a2-m2-cC_5w4b-a2-m1-cD DKLPYKVADIGLAAWGRKALDIAENEMPGLMRMRERYSASKPLKGARIAGCLHMTVETAVLIETLVTLGAEVQWSSCNIFSTQNHAAAAIAKAGIPVYAWKGETDEEYLWCIEQTLYFKDGPLNMILDDGGDLTNLIHTKYPQLLPGIRGISEETTTGVHNLYKMMANGILKVPAINVNDSVTKSKFDNLYGCRESLIDGIKRATDVMIAGKVAVVAGYGDVGKGCAQALRGFGARVIITEIDPINALQAAMEGYEVTTMDEACQEGNIFVTTTGCIDIILGRHFEQMKDDAIVCNIGHFDVEIDVKWLNENAVEKVNIKPQVDRYRLKNGRRIILLAEGRLVNLGCAMGHPSFVMSNSFTNQVMAQIELWTHPDKYPVGVHFLPKKLDEAVACAHLGKLNVKLTLTEKQAQYLGMSCDGPFKPDHYRY DKLPYKVADIGLAAWGRKALDIAENEMPGLMRMRERYSASKPLKGARIAGCLHMTVETAVLIETLVTLGAEVQWSSCNIFSTQNHAAAAIAKAGIPVYAWKGETDEEYLWCIEQTLYFKDGPLNMILDDGGDLTNLIHTKYPQLLPGIRGISEETTTGVHNLYKMMANGILKVPAINVNDSVTKSKFDNLYGCRESLIDGIKRATDVMIAGKVAVVAGYGDVGKGCAQALRGFGARVIITEIDPINALQAAMEGYEVTTMDEACQEGNIFVTTTGCIDIILGRHFEQMKDDAIVCNIGHFDVEIDVKWLNENAVEKVNIKPQVDRYRLKNGRRIILLAEGRLVNLGCAMGHPSFVMSNSFTNQVMAQIELWTHPDKYPVGVHFLPKKLDEAVACAHLGKLNVKLTLTEKQAQYLGMSCDGPFKPDHYRY 4pgh-a2-m1-cC_4pgh-a2-m1-cD Caffeic acid O-methyltransferase from Sorghum bicolor C5YH12 C5YH12 2.8 X-RAY DIFFRACTION 306 1.0 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 353 358 4pgg-a1-m1-cA_4pgg-a1-m1-cB 4pgh-a1-m1-cA_4pgh-a1-m1-cB AVADEEACMYAMQLASSSILPMTLKNALELGLLEVLQKDAGKALAAEEVVARLPVAPTNPAAADMVDRMLRLLASYDVVKCQMEDKDGKYERRYSAAPVGKWLTPNEDGVSMAALALMNQDKVLMESWYYLKDAVLDGGIPFNKAYGMTAFEYHGTDPRFNRVFNEGMKNHSVIITKKLLEFYTGFDESVSTLVDVGGGIGATLHAITSHHSHIRGVNFDLPHVISEAPPFPGVQHVGGDMFKSVPAGDAILMKWILHDWSDAHCATLLKNCYDALPEKGGKVIVVECVLPVTTDAVPKAQGVFHVDMIMLAHNPGGRERYEREFRDLAKAAGFSGFKATYIYANAWAIEFIK AEDVAAVADEEACMYAMQLASSSILPMTLKNALELGLLEVLQKDAGKALAAEEVVARLPVAPTNPAAADMVDRMLRLLASYDVVKCQMEDKDGKYERRYSAAPVGKWLTPNEDGVSMAALALMNQDKVLMESWYYLKDAVLDGGIPFNKAYGMTAFEYHGTDPRFNRVFNEGMKNHSVIITKKLLEFYTGFDESVSTLVDVGGGIGATLHAITSHHSHIRGVNFDLPHVISEAPPFPGVQHVGGDMFKSVPAGDAILMKWILHDWSDAHCATLLKNCYDALPEKGGKVIVVECVLPVTTDAVPKAQGVFHVDMIMLAHNPGGRERYEREFRDLAKAAGFSGFKATYIYANAWAIEFIK 4pgz-a1-m1-cC_4pgz-a1-m2-cC Structural basis of KIT activation by oncogenic mutations in the extracellular region reveals a zipper-like mechanism for ligand-dependent or oncogenic receptor tyrosine kinase activation P10721 P10721 2.4 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 165 165 DKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILIRMLQCVAAGFPEPTIDWYFCVQTLNSSGPPFGKLVVQSSICKAYNDVGKTSAYFNF DKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILIRMLQCVAAGFPEPTIDWYFCVQTLNSSGPPFGKLVVQSSICKAYNDVGKTSAYFNF 4pgz-a2-m1-cB_4pgz-a2-m1-cA Structural basis of KIT activation by oncogenic mutations in the extracellular region reveals a zipper-like mechanism for ligand-dependent or oncogenic receptor tyrosine kinase activation P10721 P10721 2.4 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 197 DKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILIRLVNLQCVAAGFPEPTIDWYFCPGTEQRCSASVLPVDVQTLNSSGPPFGKLVVQSSIDSSAFKHNGTVECKAYNDVGKTSAYFN VDKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILIRLVNGMLQCVAAGFPEPTIDWYFCPGTEQRCSASVLPVDVQTLNSSGPPFGKLVVQSSIDSSAFKHNGTVECKAYNDVGKTSAYFNF 4ph0-a1-m1-cE_4ph0-a1-m1-cD capsid protein from bovine leukemia virus A7KWZ1 A7KWZ1 2.7497 X-RAY DIFFRACTION 45 0.995 11901 (Bovine leukemia virus) 11901 (Bovine leukemia virus) 193 198 4ph0-a1-m1-cB_4ph0-a1-m1-cA 4ph0-a1-m1-cB_4ph0-a1-m1-cC 4ph0-a1-m1-cD_4ph0-a1-m1-cC 4ph0-a1-m1-cE_4ph0-a1-m1-cF PIISNRHRAWALRELQDIKKEIENKAPGSQVWIQTLRLAILQADPTPADLEQLCQYIASPVDQTAHMTSLTAAIAAAEAANTLQGFNPQNGTLTQQSAQPNAGDLRSQYQNLWLQAWKNWSTIVQGPAESYVEFVNRLQISLADNLPDGVPKEPIIDSLSYANANKECQQILQGRGLVAAPVGQKLQACAHWA PIISEGNRNRHRAWALRELQDIKKEIENKAPGSQVWIQTLRLAILQADPTPADLEQLCQYIASPVDQTAHMTSLTAAIAAAEAANTLQGFNPQNGTLTQQSAQPNAGDLRSQYQNLWLQAWKNLPWSTIVQGPAESYVEFVNRLQISLADNLPDGVPKEPIIDSLSYANANKECQQILQGRGLVAAPVGQKLQACAHW 4ph6-a1-m1-cA_4ph6-a1-m1-cB Structure of 3-Dehydroquinate Dehydratase from Enterococcus faecalis P36923 P36923 2.2 X-RAY DIFFRACTION 54 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 240 240 PVIVKNVRIGEGNPKIVVPIVAPTAEDILAEATASQTLDCDLVEWRLDYYENVADFSDVCNLSQQVMERLGQKPLLLTFRTQKEGGEMAFSEENYFALYHELVKKGALDLLDIELFANPLAADTLIHEAKKAGIKIVLCNHDFQKTPSQEEIVARLRQMQMRQADICKIAVMPQDATDVLTLLSATNEMYTHYASVPIVTMSMGQLGMISRVTGQLFGSALTFGSLSVQVLRNYLKTFEQ PVIVKNVRIGEGNPKIVVPIVAPTAEDILAEATASQTLDCDLVEWRLDYYENVADFSDVCNLSQQVMERLGQKPLLLTFRTQKEGGEMAFSEENYFALYHELVKKGALDLLDIELFANPLAADTLIHEAKKAGIKIVLCNHDFQKTPSQEEIVARLRQMQMRQADICKIAVMPQDATDVLTLLSATNEMYTHYASVPIVTMSMGQLGMISRVTGQLFGSALTFGSLSVQVLRNYLKTFEQ 4phi-a2-m1-cC_4phi-a2-m1-cD Crystal structure of HEWL with hexatungstotellurate(VI) P00698 P00698 1.811 X-RAY DIFFRACTION 25 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 127 127 4phi-a2-m1-cA_4phi-a2-m1-cB KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGC KVFGRCELAAAMKRHGLDNYRGYSLGNWVCAAKFESNFNTQATNRNTDGSTDYGILQINSRWWCNDGRTPGSRNLCNIPCSALLSSDITASVNCAKKIVSDGNGMNAWVAWRNRCKGTDVQAWIRGC 4phx-a1-m1-cC_4phx-a1-m1-cA Crystal structure of AggB, the minor subunit of aggregative adherence fimbriae type I from the Escherichia coli O4H104 P46006 P46006 2.4 X-RAY DIFFRACTION 11 0.992 562 (Escherichia coli) 562 (Escherichia coli) 132 133 AEITLISHLGSQLRDGMKLATGRIACREPHDGFHIWINASQNGKVGHYIVQNNRHELKVKIGGGGWSSSLIEGQRGVYRQGEEKQAIFDIMSDGNQYSAPGEYIFSVSGECLISQALERPPIKATETIRLTV AEITLISHTGSQLRDGMKLATGRIACREPHDGFHIWINASQNGKVGHYIVQNNRHELKVKIGGGGWSSSLIEGQRGVYRQGEEKQAIFDIMSDGNQYSAPGEYIFSVSGECLISRQALERPPIKATETIRLTV 4phx-a1-m1-cD_4phx-a1-m1-cA Crystal structure of AggB, the minor subunit of aggregative adherence fimbriae type I from the Escherichia coli O4H104 P46006 P46006 2.4 X-RAY DIFFRACTION 25 0.992 562 (Escherichia coli) 562 (Escherichia coli) 132 133 AEITLISHTLGSQLRDGMKLATGRIACREPHDGFHIWINASQNGKVGHYIVQNNRHELKVKIGGGGWSSSLIEGQRGVYRQGEEKQAIFDIMSDGNQYSAPGEYIFSVSGECLISALERPPIKATETIRLTV AEITLISHTGSQLRDGMKLATGRIACREPHDGFHIWINASQNGKVGHYIVQNNRHELKVKIGGGGWSSSLIEGQRGVYRQGEEKQAIFDIMSDGNQYSAPGEYIFSVSGECLISRQALERPPIKATETIRLTV 4pib-a2-m1-cC_4pib-a2-m1-cD Crystal Structure of Uncharacterized Conserved Protein PixA from Burkholderia thailandensis Q2SVW5 Q2SVW5 2 X-RAY DIFFRACTION 182 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 174 174 4pib-a1-m1-cA_4pib-a1-m1-cB 4pib-a3-m1-cF_4pib-a3-m1-cE 4pib-a4-m1-cH_4pib-a4-m1-cG 4pib-a5-m1-cJ_4pib-a5-m1-cI SHITINVTVIDVAAIIDELKAQEKKLGQTPDTATSIGHKYIYSSDDPRGWSVGNDPGNITLNAHVGDTLSFFCASTSDNSEYAAFIYRLTGGDPHLDPSHVEVIKLQNAAQPTPSNGYPFTTAPVAFSSCDAKVAQQGQAKNFYVWAALFTLDDSGEKQVLAGYVKWDPTVNVA SHITINVTVIDVAAIIDELKAQEKKLGQTPDTATSIGHKYIYSSDDPRGWSVGNDPGNITLNAHVGDTLSFFCASTSDNSEYAAFIYRLTGGDPHLDPSHVEVIKLQNAAQPTPSNGYPFTTAPVAFSSCDAKVAQQGQAKNFYVWAALFTLDDSGEKQVLAGYVKWDPTVNVA 4pic-a1-m1-cA_4pic-a1-m1-cB YwlE arginine phosphatase from Geobacillus stearothermophilus S0F332 S0F332 1.4 X-RAY DIFFRACTION 15 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 150 150 PYRILFVCTGNTCRSPAAALLENKQLPGVEVKSAGVFAAEGSEASVHAKVLKEKGIEAAHRSSQLKKEHIDWATHVLATSGHKDIVERFPEAKDKTFTLKQFVSGTDGDIADPFGGPIEVYRAARDELETLIDRLAEKLQTEQLEHHHHH PYRILFVCTGNTCRSPAAALLENKQLPGVEVKSAGVFAAEGSEASVHAKVLKEKGIEAAHRSSQLKKEHIDWATHVLATSGHKDIVERFPEAKDKTFTLKQFVSGTDGDIADPFGGPIEVYRAARDELETLIDRLAEKLQTEQLEHHHHH 4pj6-a1-m1-cB_4pj6-a1-m1-cA Crystal Structure of Human Insulin Regulated Aminopeptidase with Lysine in Active Site Q9UIQ6 Q9UIQ6 2.96 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 849 860 4p8q-a1-m1-cB_4p8q-a1-m1-cA LFPWAQIRLPTAVVPLRYELSLHPNLTSMTFRGSVTISVQALQVTWNIILHSTGHNISRVTFMEKQAEILEYAYHGQIAIVAPEALLAGHNYTLKIEYSANISSSYYGFYGFSYTDESNEKKYFAATQFEPLAARSAFPCFDEPAFKATFIIKIIRDEQYTALSNMPKKSSVVLDDGLVQDEFSESVKMSTYLVAFIVGEMKNLSQDVNGTLVSIYAVPEKIGQVHYALETTVKLLEFFQNYFEIQYPLKKLDLVAIPDFEAGAMENWGLLTFREETLLYDSNTSSMADRKLVTKIIAHELAHQWFGNLVTMKWWNDLWLNEGFATFMEYFSLEKIFKELSSYEDFLDARFKTMKKDSLNSSHPISSSVQSSEQIEEMFDSLSYFKGSSLLLMLKTYLSEDVFQHAVVLYLHNHSYASIQSDDLWDSFNEVTNQTLDVKRMMKTWTLQKGFPLVTVQKKGKELFIQQERFFLNTSYLWHIPLSYVTENYSKYQSVSLLDKKSGVINLTEEVLWVKVNINMNGYYIVHYADDDWEALIHQLKINPYVLSDKDRANLINNIFELAGLGKVPLKRAFDLINYLGNENHTAPITEALFQTDLIYNLLEKLGYMDLASRLVTRVFKLLQNQIQQQTWTDEGTPSMRELRSALLEFACTHNLGNCSTTAMKLFDDWMASNGTQSLPTDVMTTVFKVGAKTDKGWSFLLGKYISIGSEAEKNKILEALASSEDVRKLYWLMKSSLNGDNFRTQKLSFIIRTVGRHFPGHLLAWDFVKENWNKLVQKFPLGSYTIQNIVAGSTYLFSTKTHLSEVQAFFENQSEATFRLRCVQEALEVIQLNIQWMEKNLKSLTWWL KLFPWAQIRLPTAVVPLRYELSLHPNLTSMTFRGSVTISVQALQVTWNIILHSTGHNISRVTFMSVSSQEKQAEILEYAYHGQIAIVAPEALLAGHNYTLKIEYSANISSSYYGFYGFSYTDESNEKKYFAATQFEPLAARSAFPCFDEPAFKATFIIKIIRDEQYTALSNMPKKSSVVLDDGLVQDEFSESVKMSTYLVAFIVGEMKNLSQDVNGTLVSIYAVPEKIGQVHYALETTVKLLEFFQNYFEIQYPLKKLDLVAIPDFEAGAMENWGLLTFREETLLYDSNTSSMADRKLVTKIIAHELAHQWFGNLVTMKWWNDLWLNEGFATFMEYFSLEKIFKELSSYEDFLDARFKTMKKDSLNSSHPISSSVQSSEQIEEMFDSLSYFKGSSLLLMLKTYLSEDVFQHAVVLYLHNHSYASIQSDDLWDSFNEVTNQTLDVKRMMKTWTLQKGFPLVTVQKKGKELFIQQERFFLNMSDTSYLWHIPLSYVTEGRNYSKYQSVSLLDKKSGVINLTEEVLWVKVNINMNGYYIVHYADDDWEALIHQLKINPYVLSDKDRANLINNIFELAGLGKVPLKRAFDLINYLGNENHTAPITEALFQTDLIYNLLEKLGYMDLASRLVTRVFKLLQNQIQQQTWTDEGTPSMRELRSALLEFACTHNLGNCSTTAMKLFDDWMASNGTQSLPTDVMTTVFKVGAKTDKGWSFLLGKYISIGSEAEKNKILEALASSEDVRKLYWLMKSSLNGDNFRTQKLSFIIRTVGRHFPGHLLAWDFVKENWNKLVQKFPLGSYTIQNIVAGSTYLFSTKTHLSEVQAFFENQSEATFRLRCVQEALEVIQLNIQWMEKNLKSLTWWL 4pk9-a2-m1-cA_4pk9-a2-m2-cA The Crystal Structure of Native Patatin Q8LPW4 Q8LPW4 1.96 X-RAY DIFFRACTION 216 1.0 160510 (Solanum cardiophyllum) 160510 (Solanum cardiophyllum) 359 359 4pka-a2-m1-cX_4pka-a2-m2-cX 4pkb-a2-m1-cA_4pkb-a2-m2-cA QLGEMVTVLSIDGGGIRGIIPATILEFLEGQLQEMDNNADARLADYFDVIGGTSTGGLLTAMISTPNENNRPFAAAKEIVPFYFEHGPQIFNPSGQILGPKYDGKYLMQVLQEKLGETRVHQALTEVVISSFDIKTNKPVIFTKSNLANSPELDAKMYDISYSTAAAPTYFPPHYFVTNTSNGDEYEFNLVDGAVATVADPALLSISVATRLAQKDPAFASIRSLNYKKMLLLSLGTGTTSEFDKTYTAKEAATWTAVHWMLVIQKMTDAASSYMTDYYLSTAFQALDSKNNYLRVQENALTGTTTEMDDASEANMELLVQVGENLLKKPVSEDNPETYEEALKRFAKLLSDRKKLRAN QLGEMVTVLSIDGGGIRGIIPATILEFLEGQLQEMDNNADARLADYFDVIGGTSTGGLLTAMISTPNENNRPFAAAKEIVPFYFEHGPQIFNPSGQILGPKYDGKYLMQVLQEKLGETRVHQALTEVVISSFDIKTNKPVIFTKSNLANSPELDAKMYDISYSTAAAPTYFPPHYFVTNTSNGDEYEFNLVDGAVATVADPALLSISVATRLAQKDPAFASIRSLNYKKMLLLSLGTGTTSEFDKTYTAKEAATWTAVHWMLVIQKMTDAASSYMTDYYLSTAFQALDSKNNYLRVQENALTGTTTEMDDASEANMELLVQVGENLLKKPVSEDNPETYEEALKRFAKLLSDRKKLRAN 4pke-a2-m1-cA_4pke-a2-m6-cA The structure of a conserved Piezo channel domain reveals a novel beta sandwich fold A0A061ACU2 A0A061ACU2 2.5 X-RAY DIFFRACTION 24 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 211 211 4pke-a2-m2-cA_4pke-a2-m5-cA 4pke-a2-m3-cA_4pke-a2-m4-cA EKVTLRISIEGYPPLYEMEAQDNAELGMIKPDQLASLNQALTKGYTYEDILIVRFRPESEIYWPISQDSRNAMIDKLSRNTSVNFEVSLEFKHSKSWLVPISLDMTIRAKIQSALRGDPGHPILIPQSIPAFIQVPNQGELTLPTSIGNTIIARAWFDSLTLNLEQGKSQNEKMWIATSEHPGDQNAKLWIKTANTTYSGRPYLQVVGFID EKVTLRISIEGYPPLYEMEAQDNAELGMIKPDQLASLNQALTKGYTYEDILIVRFRPESEIYWPISQDSRNAMIDKLSRNTSVNFEVSLEFKHSKSWLVPISLDMTIRAKIQSALRGDPGHPILIPQSIPAFIQVPNQGELTLPTSIGNTIIARAWFDSLTLNLEQGKSQNEKMWIATSEHPGDQNAKLWIKTANTTYSGRPYLQVVGFID 4pke-a2-m2-cA_4pke-a2-m6-cA The structure of a conserved Piezo channel domain reveals a novel beta sandwich fold A0A061ACU2 A0A061ACU2 2.5 X-RAY DIFFRACTION 21 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 211 211 4pke-a2-m1-cA_4pke-a2-m4-cA 4pke-a2-m3-cA_4pke-a2-m5-cA EKVTLRISIEGYPPLYEMEAQDNAELGMIKPDQLASLNQALTKGYTYEDILIVRFRPESEIYWPISQDSRNAMIDKLSRNTSVNFEVSLEFKHSKSWLVPISLDMTIRAKIQSALRGDPGHPILIPQSIPAFIQVPNQGELTLPTSIGNTIIARAWFDSLTLNLEQGKSQNEKMWIATSEHPGDQNAKLWIKTANTTYSGRPYLQVVGFID EKVTLRISIEGYPPLYEMEAQDNAELGMIKPDQLASLNQALTKGYTYEDILIVRFRPESEIYWPISQDSRNAMIDKLSRNTSVNFEVSLEFKHSKSWLVPISLDMTIRAKIQSALRGDPGHPILIPQSIPAFIQVPNQGELTLPTSIGNTIIARAWFDSLTLNLEQGKSQNEKMWIATSEHPGDQNAKLWIKTANTTYSGRPYLQVVGFID 4pkm-a1-m1-cA_4pkm-a1-m2-cA Crystal Structure of Bacillus thuringiensis Cry51Aa1 Protoxin at 1.65 Angstroms Resolution A7IZR5 A7IZR5 1.65 X-RAY DIFFRACTION 166 1.0 592025 (Bacillus thuringiensis F14-1) 592025 (Bacillus thuringiensis F14-1) 305 305 5hd2-a1-m1-cA_5hd2-a1-m2-cA AILDLKSLVLNAINYWGPKNNNGIQGGDFGYPISEKQIDTSIITSTHPRLIPHDLTIPQNLETIFTTTQVLTNNTDLQQSQTVSFAKKTTTTTSTSTTNGWTEGGKISDTLEEKVSVSIPFIGEGGGKNSTTIEANFAHNSSTTTFQQASTDIEWNISQPVLVPPRKQVVATLVIMGGNFTIPMDLMTTIDSTEHYSGYPILTWISSPDNSYNGPFMSWYFANWPNLPSGFGPLNSDNTVTYTGSVVSQVSAGVYATVRFDQYDIHNLRTIEKTWYARHATLHNGKKISINNVTEMAPTSPIKTN AILDLKSLVLNAINYWGPKNNNGIQGGDFGYPISEKQIDTSIITSTHPRLIPHDLTIPQNLETIFTTTQVLTNNTDLQQSQTVSFAKKTTTTTSTSTTNGWTEGGKISDTLEEKVSVSIPFIGEGGGKNSTTIEANFAHNSSTTTFQQASTDIEWNISQPVLVPPRKQVVATLVIMGGNFTIPMDLMTTIDSTEHYSGYPILTWISSPDNSYNGPFMSWYFANWPNLPSGFGPLNSDNTVTYTGSVVSQVSAGVYATVRFDQYDIHNLRTIEKTWYARHATLHNGKKISINNVTEMAPTSPIKTN 4pkn-a1-m1-cE_4pkn-a1-m1-cL Crystal structure of the football-shaped GroEL-GroES2-(ADPBeFx)14 complex containing substrate Rubisco Q548M1 Q548M1 3.66 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 524 524 4pkn-a1-m1-cB_4pkn-a1-m1-cI 4pkn-a1-m1-cC_4pkn-a1-m1-cJ 4pkn-a1-m1-cD_4pkn-a1-m1-cK 4pkn-a1-m1-cF_4pkn-a1-m1-cM 4pkn-a1-m1-cG_4pkn-a1-m1-cN 4pko-a1-m1-cA_4pko-a1-m1-cH 4pko-a1-m1-cB_4pko-a1-m1-cN 4pko-a1-m1-cC_4pko-a1-m1-cM 4pko-a1-m1-cD_4pko-a1-m1-cL 4pko-a1-m1-cE_4pko-a1-m1-cK 4pko-a1-m1-cF_4pko-a1-m1-cJ 4pko-a1-m1-cG_4pko-a1-m1-cI 5opx-a1-m1-cA_5opx-a1-m1-cH 5opx-a1-m1-cB_5opx-a1-m1-cI 5opx-a1-m1-cC_5opx-a1-m1-cJ 5opx-a1-m1-cE_5opx-a1-m1-cL 5opx-a1-m1-cF_5opx-a1-m1-cM 5opx-a1-m1-cG_5opx-a1-m1-cN 7vwx-a1-m1-cA_7vwx-a1-m1-cH 7vwx-a1-m1-cB_7vwx-a1-m1-cN 7vwx-a1-m1-cC_7vwx-a1-m1-cM 7vwx-a1-m1-cD_7vwx-a1-m1-cL 7vwx-a1-m1-cE_7vwx-a1-m1-cK 7vwx-a1-m1-cF_7vwx-a1-m1-cJ 7vwx-a1-m1-cG_7vwx-a1-m1-cI AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 4pky-a2-m1-cF_4pky-a2-m1-cE ARNT/HIF transcription factor/coactivator complex Q9JJ11 Q9JJ11 3.2 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 49 50 4pky-a1-m1-cC_4pky-a1-m1-cB EFEVLALQASLRKAQMQNHSLEMTLEQKTKEIDELTRICDDLISKMEKI GEFEVLALQASLRKAQMQNHSLEMTLEQKTKEIDELTRICDDLISKMEKI 4pl0-a1-m1-cA_4pl0-a1-m1-cB Crystal structure of the antibacterial peptide ABC transporter McjD in an outward occluded state Q9X2W0 Q9X2W0 2.7 X-RAY DIFFRACTION 397 1.0 562 (Escherichia coli) 562 (Escherichia coli) 571 576 5eg1-a1-m1-cA_5eg1-a1-m1-cB 5ofp-a1-m1-cA_5ofp-a1-m2-cA 5ofr-a1-m1-cA_5ofr-a1-m1-cB LFNYIYSLMDVRGKFLFFSMLFITSLSSIIISISPLILAKITDLLSGSLSNFSYEYLVLLACLYMFCVISNKASVFLFMILQSSLRINMQKKMSLKYLRELYNENITNLSKNNAGYTTQSLNQASNDIYILVRNVSQNILSPVIQLISTIVVVLSTKDWFSAGVFFLYILVFVIFNTRLTGSLASLRKHSMDITLNSYSLLSDTVDNMIAAKKNNALRLISERYEDALTQENNAQKKYWLLSSKVLLLNSLLAVILFGSVFIYNILGVLNGVVSIGHFIMITSYIILLSTPVENIGALLSEIRQSMSSLAGFIQRHAENKATSPSIPFLNMERKLNLSIRELSFSYSDDKKILNSVSLDLFTGKMYSLTGPSGSGKSTLVKIISGYYKNYFGDIYLNDISLRNISDEDLNDAIYYLTQDDYIFMDTLRFNLRLANYDASENEIFKVLKLANLSVVNNEPVSLDTHLINRGNNYSGGQKQRISLARLFLRKPAIIIIDEATSALDYINESEILSSIRTHFPDALIINISHRINLLECSDCVYVLNEGNIVASGHFRDLMVSNEYISGLASVT KQKNSLFNYIYSLMDVRGKFLFFSMLFITSLSSIIISISPLILAKITDLLSGSLSNFSYEYLVLLACLYMFCVISNKASVFLFMILQSSLRINMQKKMSLKYLRELYNENITNLSKNNAGYTTQSLNQASNDIYILVRNVSQNILSPVIQLISTIVVVLSTKDWFSAGVFFLYILVFVIFNTRLTGSLASLRKHSMDITLNSYSLLSDTVDNMIAAKKNNALRLISERYEDALTQENNAQKKYWLLSSKVLLLNSLLAVILFGSVFIYNILGVLNGVVSIGHFIMITSYIILLSTPVENIGALLSEIRQSMSSLAGFIQRHAENKATSPSIPFLNMERKLNLSIRELSFSYSDDKKILNSVSLDLFTGKMYSLTGPSGSGKSTLVKIISGYYKNYFGDIYLNDISLRNISDEDLNDAIYYLTQDDYIFMDTLRFNLRLANYDASENEIFKVLKLANLSVVNNEPVSLDTHLINRGNNYSGGQKQRISLARLFLRKPAIIIIDEATSALDYINESEILSSIRTHFPDALIINISHRINLLECSDCVYVLNEGNIVASGHFRDLMVSNEYISGLASVT 4pl3-a1-m1-cB_4pl3-a1-m1-cA Crystal structure of murine IRE1 in complex with MKC9989 inhibitor Q9EQY0 Q9EQY0 2.9 X-RAY DIFFRACTION 21 0.997 10090 (Mus musculus) 10090 (Mus musculus) 383 388 RMVIVGKISFCPKDVLGHGAEGTIVYKGMFDNRDVAVKRILPECFSFADREVQLLRESDEHPNVIRYFCTEKDRQFQYIAIELCAATLQEYVEQKDFAHLGLEPITLLHQTTSGLAHLHSLNIVHRDLKPHNILLSMPNAHGRIKAMISDFGLCKKVPGTEGWIAPEMLSPTYTVDIFSAGCVFYYVISEGYHPFGKSLQRQANILLGACNLDCFHSDKHEDVIARELIEKMIAMDPQQRPSAKHVLKHPFFWSLEKQLQFFQDVSDRIEKEALDGPIVRQLERGGRAVVKMDWRENITVPLQTDLRKFRTYKGGSVRDLLRAMRNKKHHYRELPVEVQETLGSIPDDFVRYFTSRFPHLLSHTYQAMELCRHERLFQTYYWH ETRMVIVGKISFCPKDVLGHGAEGTIVYKGMFDNRDVAVKRILPECFSFADREVQLLRESDEHPNVIRYFCTEKDRQFQYIAIELCAATLQEYVEQKDFAHLGLEPITLLHQTTSGLAHLHSLNIVHRDLKPHNILLSMPNAHGRIKAMISDFGLCKKLVPGTEGWIAPEMLDNPTYTVDIFSAGCVFYYVISEGYHPFGKSLQRQANILLGACNLDCFHSDKHEDVIARELIEKMIAMDPQQRPSAKHVLKHPFFWSLEKQLQFFQDVSDRIEKEALDGPIVRQLERGGRAVVKMDWRENITVPLQTDLRKFRTYKGGSVRDLLRAMRNKKHHYRELPVEVQETLGSIPDDFVRYFTSRFPHLLSHTYQAMELCRHERLFQTYYWHE 4pl4-a1-m1-cB_4pl4-a1-m1-cA Crystal structure of murine IRE1 in complex with OICR464 inhibitor Q9EQY0 Q9EQY0 3 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 384 385 4pl5-a1-m1-cB_4pl5-a1-m1-cA RMVIVGKISFCPKDVLGHGAEGTIVYKGMFDNRDVAVKRILPECFSFADREVQLLRESDEHPNVIRYFCTEKDRQFQYIAIELCAATLQEYVEQKDFAHLGLEPITLLHQTTSGLAHLHSLNIVHRDLKPHNILLSMPNAHGRIKAMISDFGLCKKLVPGTEGWIAPEMLSPTYTVDIFSAGCVFYYVISEGYHPFGKSLQRQANILLGACNLDCFHSDKHEDVIARELIEKMIAMDPQQRPSAKHVLKHPFFWSLEKQLQFFQDVSDRIEKEALDGPIVRQLERGGRAVVKMDWRENITVPLQTDLRKFRTYKGGSVRDLLRAMRNKKHHYRELPVEVQETLGSIPDDFVRYFTSRFPHLLSHTYQAMELCRHERLFQTYYWH RMVIVGKISFCPKDVLGHGAEGTIVYKGMFDNRDVAVKRILPECFSFADREVQLLRESDEHPNVIRYFCTEKDRQFQYIAIELCAATLQEYVEQKDFAHLGLEPITLLHQTTSGLAHLHSLNIVHRDLKPHNILLSMPNAHGRIKAMISDFGLCKKLAVPGTEGWIAPEMLSPTYTVDIFSAGCVFYYVISEGYHPFGKSLQRQANILLGACNLDCFHSDKHEDVIARELIEKMIAMDPQQRPSAKHVLKHPFFWSLEKQLQFFQDVSDRIEKEALDGPIVRQLERGGRAVVKMDWRENITVPLQTDLRKFRTYKGGSVRDLLRAMRNKKHHYRELPVEVQETLGSIPDDFVRYFTSRFPHLLSHTYQAMELCRHERLFQTYYWH 4plk-a2-m1-cE_4plk-a2-m1-cF Hepatitis E Virus E2s domain (Genotype I) in complex with a neutralizing antibody 8G12 L0L7P5 L0L7P5 4 X-RAY DIFFRACTION 110 1.0 147 147 3ggq-a1-m1-cA_3ggq-a1-m2-cA 4plk-a1-m1-cA_4plk-a1-m1-cB SRPFSVLRANDVLWLSLTAAEYDQSTYGSSTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQHSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPPP SRPFSVLRANDVLWLSLTAAEYDQSTYGSSTGPVYVSDSVTLVNVATGAQAVARSLDWTKVTLDGRPLSTIQQHSKTFFVLPLRGKLSFWEAGTTKAGYPYNYNTTASDQLLVENAAGHRVAISTYTTSLGAGPVSISAVAVLAPPP 4pln-a1-m1-cA_4pln-a1-m1-cB Crystal Structure of Chicken Netrin-1 (LN-LE3) complexed with mouse Neogenin (FN4-5) Q90922 Q90922 3.2 X-RAY DIFFRACTION 46 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 417 417 PDPCYDEHGLPRRCIPDFVNSAFGKEVKVSSTCGKPPSRYCVVTEKGEEQVRSCHLCNASDPKRAHPPSFLTDLNNPHNLTCWQSDSYVQYPHNVTLTLSLGKKFEVTYVSLQFCSPRPESMAIYKSMDYGKTWVPFQFYSTQCRKMYNKPSRAAITKQNEQEAICTDSHTDVRPLSGGLIAFSTLDGRPTAHDFDNSPVLQDWVTATDIKVTFSRLHTFGDENEDDSELARDSYFYAVSDLQVGGRCKCNGHASRCVRDRDDNLVCDCKHNTAGPECDRCKPFHYDRPWQRATAREANECVACNCNLHARRCRFNMELYKLSGRKSGGVCLNCRHNTAGRHCHYCKEGFYRDLSKPISHRKACKECDCHPVGAAGQTCNQTTGQCPCKDGVTGITCNRCAKGYQQSRSPIAPCIKI PDPCYDEHGLPRRCIPDFVNSAFGKEVKVSSTCGKPPSRYCVVTEKGEEQVRSCHLCNASDPKRAHPPSFLTDLNNPHNLTCWQSDSYVQYPHNVTLTLSLGKKFEVTYVSLQFCSPRPESMAIYKSMDYGKTWVPFQFYSTQCRKMYNKPSRAAITKQNEQEAICTDSHTDVRPLSGGLIAFSTLDGRPTAHDFDNSPVLQDWVTATDIKVTFSRLHTFGDENEDDSELARDSYFYAVSDLQVGGRCKCNGHASRCVRDRDDNLVCDCKHNTAGPECDRCKPFHYDRPWQRATAREANECVACNCNLHARRCRFNMELYKLSGRKSGGVCLNCRHNTAGRHCHYCKEGFYRDLSKPISHRKACKECDCHPVGAAGQTCNQTTGQCPCKDGVTGITCNRCAKGYQQSRSPIAPCIKI 4plz-a1-m1-cA_4plz-a1-m4-cA Crystal structure of Plasmodium falciparum lactate dehydrogenase mutant W107fA. Q27743 Q27743 1.05 X-RAY DIFFRACTION 78 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 302 302 1ceq-a1-m2-cA_1ceq-a1-m3-cA 1ceq-a1-m4-cA_1ceq-a1-m1-cA 1cet-a1-m2-cA_1cet-a1-m3-cA 1cet-a1-m4-cA_1cet-a1-m1-cA 1ldg-a1-m2-cA_1ldg-a1-m3-cA 1ldg-a1-m4-cA_1ldg-a1-m1-cA 1t2e-a1-m2-cA_1t2e-a1-m3-cA 1t2e-a1-m4-cA_1t2e-a1-m1-cA 1u4o-a1-m2-cA_1u4o-a1-m3-cA 1u4o-a1-m4-cA_1u4o-a1-m1-cA 1u4s-a1-m2-cA_1u4s-a1-m3-cA 1u4s-a1-m4-cA_1u4s-a1-m1-cA 1u5a-a1-m2-cA_1u5a-a1-m3-cA 1u5a-a1-m4-cA_1u5a-a1-m1-cA 1u5c-a1-m2-cA_1u5c-a1-m3-cA 1u5c-a1-m4-cA_1u5c-a1-m1-cA 1xiv-a1-m2-cA_1xiv-a1-m3-cA 1xiv-a1-m4-cA_1xiv-a1-m1-cA 2x8l-a1-m1-cA_2x8l-a1-m3-cA 2x8l-a1-m4-cA_2x8l-a1-m2-cA 3zh2-a1-m1-cB_3zh2-a1-m1-cD 4b7u-a1-m1-cB_4b7u-a1-m1-cC 4plz-a1-m2-cA_4plz-a1-m3-cA KAKIVLVGSGMIGGVMATLIVQKNLGDVVLFDIVKNMPHGKALDTSHTNVMAYSNCKVSGSNTYDDLAGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKKNCPNAFIIVVTNPVDVMVQLLHQHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNAHIVGAHGNKMVLLKRYITVGGIPLQEFINNKLISDAELEAIFDRTVNTALEIVNLHASPYVAPAAAIIEMAESYLKDLKKVLICSTLLEGQYGHSDIFGGTPVVLGANGVEQVIELQLNSEEKAKFDEAIAETKRMKALAH KAKIVLVGSGMIGGVMATLIVQKNLGDVVLFDIVKNMPHGKALDTSHTNVMAYSNCKVSGSNTYDDLAGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKKNCPNAFIIVVTNPVDVMVQLLHQHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNAHIVGAHGNKMVLLKRYITVGGIPLQEFINNKLISDAELEAIFDRTVNTALEIVNLHASPYVAPAAAIIEMAESYLKDLKKVLICSTLLEGQYGHSDIFGGTPVVLGANGVEQVIELQLNSEEKAKFDEAIAETKRMKALAH 4plz-a1-m2-cA_4plz-a1-m4-cA Crystal structure of Plasmodium falciparum lactate dehydrogenase mutant W107fA. Q27743 Q27743 1.05 X-RAY DIFFRACTION 146 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 302 302 1ceq-a1-m1-cA_1ceq-a1-m3-cA 1ceq-a1-m4-cA_1ceq-a1-m2-cA 1cet-a1-m1-cA_1cet-a1-m3-cA 1cet-a1-m4-cA_1cet-a1-m2-cA 1ldg-a1-m1-cA_1ldg-a1-m3-cA 1ldg-a1-m4-cA_1ldg-a1-m2-cA 1t2e-a1-m1-cA_1t2e-a1-m3-cA 1t2e-a1-m4-cA_1t2e-a1-m2-cA 1u4o-a1-m1-cA_1u4o-a1-m3-cA 1u4o-a1-m4-cA_1u4o-a1-m2-cA 1u4s-a1-m1-cA_1u4s-a1-m3-cA 1u4s-a1-m4-cA_1u4s-a1-m2-cA 1u5a-a1-m1-cA_1u5a-a1-m3-cA 1u5a-a1-m4-cA_1u5a-a1-m2-cA 1u5c-a1-m1-cA_1u5c-a1-m3-cA 1u5c-a1-m4-cA_1u5c-a1-m2-cA 1xiv-a1-m1-cA_1xiv-a1-m3-cA 1xiv-a1-m4-cA_1xiv-a1-m2-cA 2x8l-a1-m1-cA_2x8l-a1-m2-cA 2x8l-a1-m4-cA_2x8l-a1-m3-cA 4b7u-a1-m1-cD_4b7u-a1-m1-cC 4plz-a1-m1-cA_4plz-a1-m3-cA KAKIVLVGSGMIGGVMATLIVQKNLGDVVLFDIVKNMPHGKALDTSHTNVMAYSNCKVSGSNTYDDLAGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKKNCPNAFIIVVTNPVDVMVQLLHQHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNAHIVGAHGNKMVLLKRYITVGGIPLQEFINNKLISDAELEAIFDRTVNTALEIVNLHASPYVAPAAAIIEMAESYLKDLKKVLICSTLLEGQYGHSDIFGGTPVVLGANGVEQVIELQLNSEEKAKFDEAIAETKRMKALAH KAKIVLVGSGMIGGVMATLIVQKNLGDVVLFDIVKNMPHGKALDTSHTNVMAYSNCKVSGSNTYDDLAGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKKNCPNAFIIVVTNPVDVMVQLLHQHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNAHIVGAHGNKMVLLKRYITVGGIPLQEFINNKLISDAELEAIFDRTVNTALEIVNLHASPYVAPAAAIIEMAESYLKDLKKVLICSTLLEGQYGHSDIFGGTPVVLGANGVEQVIELQLNSEEKAKFDEAIAETKRMKALAH 4plz-a1-m3-cA_4plz-a1-m4-cA Crystal structure of Plasmodium falciparum lactate dehydrogenase mutant W107fA. Q27743 Q27743 1.05 X-RAY DIFFRACTION 18 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 302 302 1ceq-a1-m1-cA_1ceq-a1-m2-cA 1ceq-a1-m4-cA_1ceq-a1-m3-cA 1cet-a1-m1-cA_1cet-a1-m2-cA 1cet-a1-m4-cA_1cet-a1-m3-cA 1ldg-a1-m1-cA_1ldg-a1-m2-cA 1ldg-a1-m4-cA_1ldg-a1-m3-cA 1t2e-a1-m1-cA_1t2e-a1-m2-cA 1t2e-a1-m4-cA_1t2e-a1-m3-cA 1u4o-a1-m1-cA_1u4o-a1-m2-cA 1u4o-a1-m4-cA_1u4o-a1-m3-cA 1u4s-a1-m1-cA_1u4s-a1-m2-cA 1u4s-a1-m4-cA_1u4s-a1-m3-cA 1u5a-a1-m1-cA_1u5a-a1-m2-cA 1u5a-a1-m4-cA_1u5a-a1-m3-cA 1u5c-a1-m1-cA_1u5c-a1-m2-cA 1u5c-a1-m4-cA_1u5c-a1-m3-cA 1xiv-a1-m1-cA_1xiv-a1-m2-cA 1xiv-a1-m4-cA_1xiv-a1-m3-cA 2x8l-a1-m2-cA_2x8l-a1-m3-cA 2x8l-a1-m4-cA_2x8l-a1-m1-cA 3zh2-a1-m1-cB_3zh2-a1-m1-cC 4b7u-a1-m1-cD_4b7u-a1-m1-cB 4plz-a1-m1-cA_4plz-a1-m2-cA KAKIVLVGSGMIGGVMATLIVQKNLGDVVLFDIVKNMPHGKALDTSHTNVMAYSNCKVSGSNTYDDLAGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKKNCPNAFIIVVTNPVDVMVQLLHQHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNAHIVGAHGNKMVLLKRYITVGGIPLQEFINNKLISDAELEAIFDRTVNTALEIVNLHASPYVAPAAAIIEMAESYLKDLKKVLICSTLLEGQYGHSDIFGGTPVVLGANGVEQVIELQLNSEEKAKFDEAIAETKRMKALAH KAKIVLVGSGMIGGVMATLIVQKNLGDVVLFDIVKNMPHGKALDTSHTNVMAYSNCKVSGSNTYDDLAGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKKNCPNAFIIVVTNPVDVMVQLLHQHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNAHIVGAHGNKMVLLKRYITVGGIPLQEFINNKLISDAELEAIFDRTVNTALEIVNLHASPYVAPAAAIIEMAESYLKDLKKVLICSTLLEGQYGHSDIFGGTPVVLGANGVEQVIELQLNSEEKAKFDEAIAETKRMKALAH 4pmi-a2-m6-cC_4pmi-a2-m6-cB Crystal structure of Rev and Rev-response-element RNA complex P69718 P69718 3.2 X-RAY DIFFRACTION 26 0.981 11707 (Human immunodeficiency virus type 1 (HXB3 ISOLATE)) 11707 (Human immunodeficiency virus type 1 (HXB3 ISOLATE)) 52 53 4pmi-a1-m1-cC_4pmi-a1-m1-cB 4pmi-a1-m2-cC_4pmi-a1-m2-cB 4pmi-a1-m3-cC_4pmi-a1-m3-cB 4pmi-a2-m1-cC_4pmi-a2-m1-cB 4pmi-a2-m2-cC_4pmi-a2-m2-cB 4pmi-a2-m3-cC_4pmi-a2-m3-cB 4pmi-a2-m4-cC_4pmi-a2-m4-cB 4pmi-a2-m5-cC_4pmi-a2-m5-cB LKAVRLIKFLYQSNPPPNPEGTRQARRNRRRRWRARQRQIHSISERIRSTYL DSLKAVRLIKFLYQSNPPPNPEGTRQARRNRRRRWRARQRQIHSISERIRSTY 4pmv-a1-m1-cB_4pmv-a1-m1-cA Crystal structure of a novel reducing-end xylose-releasing exo-oligoxylanase (XynA) belonging to GH10 family (space group P43212) Q8PEU1 Q8PEU1 3.001 X-RAY DIFFRACTION 41 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 356 357 4pmu-a1-m1-cA_4pmu-a1-m1-cB 4pmu-a2-m1-cD_4pmu-a2-m1-cC 4pmu-a3-m1-cF_4pmu-a3-m1-cE TSLKQAYAQGFLLGTAVNADIVSGKDAASAALVACHFNAVTAENVMKAEVVAPRRGVQDFSAADAFVAYAQRDRQFVVGHTLVWHNQTPEWFFTTADGRPNTPAQQLERMRAHIAAVAGRYTGKVQAWDVVNEIIDEDGSYRSTNWVQRVGDGDTVVRNAFAFAQRYAPDAQLYYNDFNAWRPAKREGIVRMVKMLQQAGVRIDGVGMQGHWGLNYPSLRDIEDAIDAYAALGVKVMITELDIDVLPLTKEGQIIGTGMAHKQFQLPEFKRFLDPYRDGLPADVQAQLRDRYAELFALFWRKRDKIARVSVWGVSDDMSWKNDYPVPGRTNYPLLFDRNHQPKPALDAVVAVPSAT GTSLKQAYAQGFLLGTAVNADIVSGKDAASAALVACHFNAVTAENVMKAEVVAPRRGVQDFSAADAFVAYAQRDRQFVVGHTLVWHNQTPEWFFTTADGRPNTPAQQLERMRAHIAAVAGRYTGKVQAWDVVNEIIDEDGSYRSTNWVQRVGDGDTVVRNAFAFAQRYAPDAQLYYNDFNAWRPAKREGIVRMVKMLQQAGVRIDGVGMQGHWGLNYPSLRDIEDAIDAYAALGVKVMITELDIDVLPLTKEGQIIGTGMAHKQFQLPEFKRFLDPYRDGLPADVQAQLRDRYAELFALFWRKRDKIARVSVWGVSDDMSWKNDYPVPGRTNYPLLFDRNHQPKPALDAVVAVPSAT 4pn1-a3-m1-cA_4pn1-a3-m1-cB Structure of S. pombe Pct1 RNA triphosphatase in complex with the Spt5 CTD Q9P6Q6 Q9P6Q6 2.803 X-RAY DIFFRACTION 130 0.992 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 259 261 4pn0-a1-m1-cB_4pn0-a1-m1-cA 4pn0-a2-m1-cC_4pn0-a2-m1-cD 4pn1-a1-m1-cA_4pn1-a1-m1-cB 4pn1-a2-m1-cD_4pn1-a2-m1-cC 4pn1-a3-m1-cD_4pn1-a3-m1-cC KIEMNFLNKPIVPDTTKVISNFLTHYLITEPVEHVEIEAKLGTLIDLETQNRFEFPVMNETILNPEFNLRTRFESDMTASEHKYLNEFLNQAFRDSQKPGRLPFAYKHTKQVDLFYETEDNDKIRVSKNQSDNQVLACVKKRRVADLFLYCPNDAFDIRISISDELPVSMPSGNQQPSLTRLKDRVGYVHQEIKIDLTKTTQNDPVYDTTERHELEVEFGNIADLRDRAQKAKDGMEAPLFRRVQLFMDNVRILRREHS VAVPKIEMNFLNKPIVPDTTKVISNFLTHYLITEPVEHVEIEAKLGTLIDLETQNRFEFPVMNETILNPEFNLRTRFESDMTASEHKYLNEFLNQAFRDSQKPGRLPFAYKHTKQVDLFYETEDKIRVSKNQSDNQVLACVKKRRVADLFLYCPNDAFDIRISISDELPVSMPSGNQQPSLTRLKDRVGYVHQEIKIDLTKTTQNDPVYDTTERHELEVEFGNIADLRDRAQKAKDGMEAPLFRRVQLFMDNVRILRREHS 4pn1-a3-m1-cC_4pn1-a3-m1-cA Structure of S. pombe Pct1 RNA triphosphatase in complex with the Spt5 CTD Q9P6Q6 Q9P6Q6 2.803 X-RAY DIFFRACTION 27 0.992 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 256 259 KIEMNFLNKPIVPDTTKVISNFLTHYLITEPVEHVEIEAKLGTLIDLETQNRFEFPVMNETILNPEFNLRTRFESDMTASEHKYLNEFLNQAFRDSQKPGRLPFAYKHTKQVDLFYETEDNSRDKIRVSKNQSDNQVLACVKKRRVADLFLYCPNDAFDIRISISDELPVSMPSGNQQPSLTRLKDRVGYVHQEIKIDLTKTTQNTTERHELEVEFGNIADLRDRAQKAKDGMEAPLFRRVQLFMDNVRILRREHS KIEMNFLNKPIVPDTTKVISNFLTHYLITEPVEHVEIEAKLGTLIDLETQNRFEFPVMNETILNPEFNLRTRFESDMTASEHKYLNEFLNQAFRDSQKPGRLPFAYKHTKQVDLFYETEDNDKIRVSKNQSDNQVLACVKKRRVADLFLYCPNDAFDIRISISDELPVSMPSGNQQPSLTRLKDRVGYVHQEIKIDLTKTTQNDPVYDTTERHELEVEFGNIADLRDRAQKAKDGMEAPLFRRVQLFMDNVRILRREHS 4pn6-a1-m1-cA_4pn6-a1-m1-cB Structure of the Cytomegalovirus-Encoded m04 Glycoprotein B3UWV7 B3UWV7 3 X-RAY DIFFRACTION 65 1.0 524650 (Muromegalovirus G4) 524650 (Muromegalovirus G4) 167 168 YRHPLGCYFKGINPTKVPSSGSHTILKCTLPVVKVNASWTLEWVVVKLQNSVDVTSYYESSPNSGPTFLRAILNFTPMHGLRTKNLLKVKDGFQVDNSTDNGNGGNLYVYPNATTGSADSVRCRLRMCPWTSNSKMTAPDEEMLRKMSEVLNLPNYGVPDLTPPRRD YRHPLGCYFKGINPTKVPSSGSHTILKCTLPVVKVNASWTLEWVVVKLQNSVDVTSYYESSPNSGPTFLRAILNFTPMHGLRTKNLLKVKDGFQVDNSTDNGNGGNLYVYPNATTGSADSVRCRLRMCPWTSNSKMTAPDEEMLRKMSEVLNLPNYGVPDLTPPRRDE 4pn8-a1-m1-cD_4pn8-a1-m1-cE A de novo designed pentameric coiled coil CC-Pent. 2 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 4pn8-a1-m1-cA_4pn8-a1-m1-cB 4pn8-a1-m1-cA_4pn8-a1-m1-cE 4pn8-a1-m1-cB_4pn8-a1-m1-cC 4pn8-a1-m1-cC_4pn8-a1-m1-cD 4pn8-a2-m1-cF_4pn8-a2-m1-cG 4pn8-a2-m1-cF_4pn8-a2-m1-cJ 4pn8-a2-m1-cG_4pn8-a2-m1-cH 4pn8-a2-m1-cI_4pn8-a2-m1-cH 4pn8-a2-m1-cI_4pn8-a2-m1-cJ GKIEQILQKIEKILQKIEWILQKIEQILQG GKIEQILQKIEKILQKIEWILQKIEQILQG 4pnd-a1-m1-cB_4pnd-a1-m1-cC A de novo designed pentameric coiled coil CC-Pent_Variant 1.75 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 30 4pnd-a1-m1-cA_4pnd-a1-m1-cE 4pnd-a1-m1-cB_4pnd-a1-m1-cA 4pnd-a1-m1-cC_4pnd-a1-m1-cD 4pnd-a1-m1-cD_4pnd-a1-m1-cE NILQKIENILKKIENILWKIENILQKIEG GNILQKIENILKKIENILWKIENILQKIEG 4pne-a3-m1-cA_4pne-a3-m1-cB Crystal Structure of the [4+2]-Cyclase SpnF Q9ALM7 Q9ALM7 1.5 X-RAY DIFFRACTION 56 0.993 60894 (Saccharopolyspora spinosa) 60894 (Saccharopolyspora spinosa) 270 272 RSGIPVAPTSQQVGQMYDLVTPLLNSVAGGPCAIHHGYWENDGRASWQQAADRLTDLVAERTVLDGGVRLLDVGCGTGQPALRVARDNAIQITGITVSQVQVAIAADCARERGLSHRVDFSCVDAMSLPYPDNAFDAAWAMQSLLEMSEPDRAIREILRVLKPGGILGVTEVVKREAGGDRWPTGLRICLAEQLLESLRAAGFEILDWEDVSSRTRYFMPQFAEELAAHQHGIADRYGPAVAGWAAAVCDYEKYAHDMGYAILTARKPVG SGIPAPTSQQVGQMYDLVTPLLNSVAGGPCAIHHGYWENDGRASWQQAADRLTDLVAERTVLDGGVRLLDVGCGTGQPALRVARDNAIQITGITVSQVQVAIAADCARERGLSHRVDFSCVDAMSLPYPDNAFDAAWAMQSLLEMSEPDRAIREILRVLKPGGILGVTEVVKREAGMPVSGDRWPTGLRICLAEQLLESLRAAGFEILDWEDVSSRTRYFMPQFAEELAAHQHGIADRYGPAVAGWAAAVCDYEKYAHDMGYAILTARKPVG 4png-a1-m1-cA_4png-a1-m1-cB Glutathione S-transferase from Drosophila melanogaster - isozyme E7 A1ZB72 A1ZB72 1.53 X-RAY DIFFRACTION 99 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 221 223 KLILYGLEASPPVRAVKLTLAALEVPYEFVEVNTRAKENFSEEFLKKNPQHTVPTLEDDGHYIWDSHAIIAYLVSKYGKTDSLYPKDLLQRAVVDQRLHFESGVIFANALRSITKPLFAGKQTMIPKERYDAIIEVYDFLEKFLAGNDYVAGNQLTIADFSIISTVSSLEVFVKVDTTKYPRIAAWFKRLQKLPYYEEANGNGARTFESFIREYNFTFASN MPKLILYGLEASPPVRAVKLTLAALEVPYEFVEVNTRAKENFSEEFLKKNPQHTVPTLEDDGHYIWDSHAIIAYLVSKYGKTDSLYPKDLLQRAVVDQRLHFESGVIFANALRSITKPLFAGKQTMIPKERYDAIIEVYDFLEKFLAGNDYVAGNQLTIADFSIISTVSSLEVFVKVDTTKYPRIAAWFKRLQKLPYYEEANGNGARTFESFIREYNFTFASN 4pnp-a1-m2-cA_4pnp-a1-m3-cA THE HIGH RESOLUTION CRYSTAL STRUCTURE OF BOVINE SPLEEN PURINE NUCLEOSIDE PHOSPHORYLASE IN COMPLEX FORMS WITH PHOSPHATE AND 9-DEAZAINOSINE P55859 P55859 1.8 X-RAY DIFFRACTION 112 1.0 9913 (Bos taurus) 9913 (Bos taurus) 284 284 1a9o-a1-m1-cA_1a9o-a1-m2-cA 1a9o-a1-m1-cA_1a9o-a1-m3-cA 1a9o-a1-m2-cA_1a9o-a1-m3-cA 1a9p-a1-m1-cA_1a9p-a1-m2-cA 1a9p-a1-m1-cA_1a9p-a1-m3-cA 1a9p-a1-m2-cA_1a9p-a1-m3-cA 1a9q-a1-m1-cA_1a9q-a1-m2-cA 1a9q-a1-m1-cA_1a9q-a1-m3-cA 1a9q-a1-m2-cA_1a9q-a1-m3-cA 1a9r-a1-m1-cA_1a9r-a1-m2-cA 1a9r-a1-m1-cA_1a9r-a1-m3-cA 1a9r-a1-m2-cA_1a9r-a1-m3-cA 1a9s-a1-m1-cA_1a9s-a1-m2-cA 1a9s-a1-m1-cA_1a9s-a1-m3-cA 1a9s-a1-m2-cA_1a9s-a1-m3-cA 1a9t-a1-m1-cA_1a9t-a1-m2-cA 1a9t-a1-m1-cA_1a9t-a1-m3-cA 1a9t-a1-m2-cA_1a9t-a1-m3-cA 1b8n-a2-m1-cA_1b8n-a2-m2-cA 1b8n-a2-m1-cA_1b8n-a2-m3-cA 1b8n-a2-m2-cA_1b8n-a2-m3-cA 1b8o-a2-m1-cA_1b8o-a2-m2-cA 1b8o-a2-m1-cA_1b8o-a2-m3-cA 1b8o-a2-m2-cA_1b8o-a2-m3-cA 1fxu-a2-m1-cA_1fxu-a2-m2-cA 1fxu-a2-m1-cA_1fxu-a2-m3-cA 1fxu-a2-m2-cA_1fxu-a2-m3-cA 1lv8-a1-m1-cA_1lv8-a1-m1-cB 1lv8-a1-m1-cA_1lv8-a1-m1-cC 1lv8-a1-m1-cB_1lv8-a1-m1-cC 1lv8-a1-m1-cD_1lv8-a1-m1-cE 1lv8-a1-m1-cD_1lv8-a1-m1-cF 1lv8-a1-m1-cE_1lv8-a1-m1-cF 1lvu-a1-m1-cA_1lvu-a1-m1-cB 1lvu-a1-m1-cA_1lvu-a1-m1-cC 1lvu-a1-m1-cC_1lvu-a1-m1-cB 1lvu-a1-m1-cE_1lvu-a1-m1-cD 1lvu-a1-m1-cE_1lvu-a1-m1-cF 1lvu-a1-m1-cF_1lvu-a1-m1-cD 1pbn-a1-m1-cA_1pbn-a1-m2-cA 1pbn-a1-m1-cA_1pbn-a1-m3-cA 1pbn-a1-m2-cA_1pbn-a1-m3-cA 1v48-a1-m1-cA_1v48-a1-m2-cA 1v48-a1-m1-cA_1v48-a1-m3-cA 1v48-a1-m2-cA_1v48-a1-m3-cA 1vfn-a1-m1-cA_1vfn-a1-m2-cA 1vfn-a1-m1-cA_1vfn-a1-m3-cA 1vfn-a1-m2-cA_1vfn-a1-m3-cA 2ai1-a1-m1-cA_2ai1-a1-m2-cA 2ai1-a1-m1-cA_2ai1-a1-m3-cA 2ai1-a1-m2-cA_2ai1-a1-m3-cA 2ai2-a1-m1-cA_2ai2-a1-m2-cA 2ai2-a1-m1-cA_2ai2-a1-m3-cA 2ai2-a1-m2-cA_2ai2-a1-m3-cA 2ai3-a1-m1-cA_2ai3-a1-m2-cA 2ai3-a1-m1-cA_2ai3-a1-m3-cA 2ai3-a1-m2-cA_2ai3-a1-m3-cA 2qpl-a1-m1-cA_2qpl-a1-m2-cA 2qpl-a1-m1-cA_2qpl-a1-m3-cA 2qpl-a1-m2-cA_2qpl-a1-m3-cA 3fuc-a1-m1-cA_3fuc-a1-m1-cB 3fuc-a1-m1-cA_3fuc-a1-m1-cC 3fuc-a1-m1-cB_3fuc-a1-m1-cC 3pnp-a1-m1-cA_3pnp-a1-m2-cA 3pnp-a1-m1-cA_3pnp-a1-m3-cA 3pnp-a1-m2-cA_3pnp-a1-m3-cA 4pnp-a1-m1-cA_4pnp-a1-m2-cA 4pnp-a1-m1-cA_4pnp-a1-m3-cA MANGYTYEDYQDTAKWLLSHTEQRPQVAVICGSGLGGLVNKLTQAQTFDYSEIPNFPESTVPGHAGRLVFGILNGRACVMMQGRFHMYEGYPFWKVTFPVRVFRLLGVETLVVTNAAGGLNPNFEVGDIMLIRDHINLPGFSGENPLRGPNEERFGVRFPAMSDAYDRDMRQKAHSTWKQMGEQRELQEGTYVMLGGPNFETVAECRLLRNLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDTESQGKANHEEVLEAGKQAAQKLEQFVSLLMASIPV MANGYTYEDYQDTAKWLLSHTEQRPQVAVICGSGLGGLVNKLTQAQTFDYSEIPNFPESTVPGHAGRLVFGILNGRACVMMQGRFHMYEGYPFWKVTFPVRVFRLLGVETLVVTNAAGGLNPNFEVGDIMLIRDHINLPGFSGENPLRGPNEERFGVRFPAMSDAYDRDMRQKAHSTWKQMGEQRELQEGTYVMLGGPNFETVAECRLLRNLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDTESQGKANHEEVLEAGKQAAQKLEQFVSLLMASIPV 4po2-a3-m1-cA_4po2-a3-m2-cA Crystal Structure of the Stress-Inducible Human Heat Shock Protein HSP70 Substrate-Binding Domain in Complex with Peptide Substrate 2 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 228 ENVQDLLLLDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG ENVQDLLLLDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG 4po2-a3-m1-cB_4po2-a3-m2-cB Crystal Structure of the Stress-Inducible Human Heat Shock Protein HSP70 Substrate-Binding Domain in Complex with Peptide Substrate 2 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 DVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG DVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG 4po2-a3-m2-cB_4po2-a3-m1-cA Crystal Structure of the Stress-Inducible Human Heat Shock Protein HSP70 Substrate-Binding Domain in Complex with Peptide Substrate 2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 228 4po2-a3-m1-cB_4po2-a3-m2-cA DVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG ENVQDLLLLDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG 4po2-a3-m2-cB_4po2-a3-m2-cA Crystal Structure of the Stress-Inducible Human Heat Shock Protein HSP70 Substrate-Binding Domain in Complex with Peptide Substrate 2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 228 4po2-a3-m1-cB_4po2-a3-m1-cA DVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG ENVQDLLLLDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSAKNALESYAFNMKSAVEDEGLKGKISEADKKKVLDKCQEVISWLDANTLAEKDEFEHKRKELEQVCNPIISGLYQG 4pob-a1-m1-cB_4pob-a1-m1-cA Crystal structure of a thioredoxin Rv1471 ortholog from Mycobacterium abscessus B1MMM4 B1MMM4 1.7 X-RAY DIFFRACTION 49 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 105 107 ATVTVTDDSFQEDVVSSNKPVLVDFWATWCGPCKMVAPVLEEIAKDHGEALTIAKLDVDANPETARAFQVTSIPTLILFQNGEATKRIVGAKSKSALLRELDGVV DHATVTVTDDSFQEDVVSSNKPVLVDFWATWCGPCKMVAPVLEEIAKDHGEALTIAKLDVDANPETARAFQVTSIPTLILFQNGEATKRIVGAKSKSALLRELDGVV 4pon-a1-m1-cB_4pon-a1-m1-cA The crystal structure of a putative SAM-dependent methyltransferase, YtqB, from Bacillus subtilis E0TY72 E0TY72 1.9 X-RAY DIFFRACTION 83 0.994 655816 (Bacillus subtilis subsp. spizizenii str. W23) 655816 (Bacillus subtilis subsp. spizizenii str. W23) 171 172 8h0s-a2-m1-cB_8h0s-a2-m1-cC MILKKILPYSKELLKMAAGEGDIVIDATMGNGHDTQFLAELVGENGHVYAFDIQESAVANTKERLGEAYQARTTLFHKSHDKIAKSLPPETHGKVAAAVFNLGGSSTIKAIEQLLSIMKDEGLIVLVVYHKNDVLDFCRNLDQQAARVLTYGFINQQNDPPFIVAIEKKAQ MILKKILPYSKELLKMAAGEGDIVIDATMGNGHDTQFLAELVGENGHVYAFDIQESAVANTKERLGEAYQARTTLFHKSHDKIAKSLPPETHGKVAAAVFNLGNGSSTIKAIEQLLSIMKDEGLIVLVVYHGNDVLDFCRNLDQQAARVLTYGFINQQNDPPFIVAIEKKAQ 4pp8-a1-m1-cA_4pp8-a1-m1-cB Crystal structure of murine NK cell ligand RAE-1 beta in complex with NKG2D O54709 O54709 1.95 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 125 125 1hq8-a1-m1-cA_1hq8-a1-m2-cA MEGYCGPCPNNWICHRNNCYQFFNEEKTWNQSQASCLSQNSSLLKIYSKEEQDFLKLVKSYHWMGLVQIPANGSWQWEDGSSLSYNQLTLVEIPKGSCAVYGSSFKAYTEDCANLNTYICMKRAV MEGYCGPCPNNWICHRNNCYQFFNEEKTWNQSQASCLSQNSSLLKIYSKEEQDFLKLVKSYHWMGLVQIPANGSWQWEDGSSLSYNQLTLVEIPKGSCAVYGSSFKAYTEDCANLNTYICMKRAV 4ppe-a2-m1-cA_4ppe-a2-m2-cB human RNF4 RING domain P78317 P78317 2 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 67 4ppe-a1-m1-cA_4ppe-a1-m2-cB 4ppe-a2-m2-cA_4ppe-a2-m1-cB RPSGTVSCPICMDGYSEIVQNGRLIVSTECGHVFCSQCLRDSLKNANTCPTCRKKINHKRYHPIYI LRPSGTVSCPICMDGYSEIVQNGRLIVSTECGHVFCSQCLRDSLKNANTCPTCRKKINHKRYHPIYI 4ppe-a2-m1-cB_4ppe-a2-m2-cB human RNF4 RING domain P78317 P78317 2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 4ppe-a2-m1-cA_4ppe-a2-m2-cA LRPSGTVSCPICMDGYSEIVQNGRLIVSTECGHVFCSQCLRDSLKNANTCPTCRKKINHKRYHPIYI LRPSGTVSCPICMDGYSEIVQNGRLIVSTECGHVFCSQCLRDSLKNANTCPTCRKKINHKRYHPIYI 4ppe-a2-m2-cA_4ppe-a2-m2-cB human RNF4 RING domain P78317 P78317 2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 67 2xeu-a1-m1-cA_2xeu-a1-m2-cA 3ng2-a1-m1-cA_3ng2-a1-m1-cB 4ppe-a2-m1-cA_4ppe-a2-m1-cB RPSGTVSCPICMDGYSEIVQNGRLIVSTECGHVFCSQCLRDSLKNANTCPTCRKKINHKRYHPIYI LRPSGTVSCPICMDGYSEIVQNGRLIVSTECGHVFCSQCLRDSLKNANTCPTCRKKINHKRYHPIYI 4pph-a1-m1-cA_4pph-a1-m1-cF Crystal structure of conglutin gamma, a unique basic 7S globulin from lupine seeds Q42369 Q42369 2.009 X-RAY DIFFRACTION 78 1.0 3871 (Lupinus angustifolius) 3871 (Lupinus angustifolius) 390 392 4pph-a1-m1-cB_4pph-a1-m1-cC 4pph-a1-m1-cE_4pph-a1-m1-cD KPNLLVLPVQEDASTGLHWANIHKRTPLMQVPLLLDLNGKHLWVTCSQHYSSSTYQAPFCHSTQCSRANTHQCFTCTDSTTTRPGCHNNTCGLLSSNPVTQESGLGELAQDVLAIHSTHGSKLGPMVKVPQFLFSCAPSFLAQKGLPNNVQGALGLGQAPISLQNQLFSHFGLKRQFSVCLSRYSTSNGAILFGDINDPNNNNYIHNSLDVLHDLVYTPLTISKQGEYFIQVNAIRVNKHLVIPTEIGGALITTTHPYTVLSHSIFEVFTQVFANNMPKQAQVKAVGPFGLCYDSRKISGGAPSVDLILDKNDAVWRISSENFMVQAQDGVSCLGFVDGGVHARAGIALGAHHLEENLVVFDLERSRVGFNSNSLKSYGKTCSNLFDLNN SKPNLLVLPVQEDASTGLHWANIHKRTPLMQVPLLLDLNGKHLWVTCSQHYSSSTYQAPFCHSTQCSRANTHQCFTCTDSTTTRPGCHNNTCGLLSSNPVTQESGLGELAQDVLAIHSTHGSKLGPMVKVPQFLFSCAPSFLAQKGLPNNVQGALGLGQAPISLQNQLFSHFGLKRQFSVCLSRYSTSNGAILFGDINDPNNNNYIHNSLDVLHDLVYTPLTISKQGEYFIQVNAIRVNKHLVIPTGEIGGALITTTHPYTVLSHSIFEVFTQVFANNMPKQAQVKAVGPFGLCYDSRKISGGAPSVDLILDKNDAVWRISSENFMVQAQDGVSCLGFVDGGVHARAGIALGAHHLEENLVVFDLERSRVGFNSNSLKSYGKTCSNLFDLNN 4pph-a1-m1-cE_4pph-a1-m1-cF Crystal structure of conglutin gamma, a unique basic 7S globulin from lupine seeds Q42369 Q42369 2.009 X-RAY DIFFRACTION 43 1.0 3871 (Lupinus angustifolius) 3871 (Lupinus angustifolius) 391 392 4pph-a1-m1-cA_4pph-a1-m1-cB 4pph-a1-m1-cC_4pph-a1-m1-cD KPNLLVLPVQEDASTGLHWANIHKRTPLMQVPLLLDLNGKHLWVTCSQHYSSSTYQAPFCHSTQCSRANTHQCFTCTDSTTTRPGCHNNTCGLLSSNPVTQESGLGELAQDVLAIHSTHGSKLGPMVKVPQFLFSCAPSFLAQKGLPNNVQGALGLGQAPISLQNQLFSHFGLKRQFSVCLSRYSTSNGAILFGDINDPNNNNYIHNSLDVLHDLVYTPLTISKQGEYFIQVNAIRVNKHLVIPTGEIGGALITTTHPYTVLSHSIFEVFTQVFANNMPKQAQVKAVGPFGLCYDSRKISGGAPSVDLILDKNDAVWRISSENFMVQAQDGVSCLGFVDGGVHARAGIALGAHHLEENLVVFDLERSRVGFNSNSLKSYGKTCSNLFDLNN SKPNLLVLPVQEDASTGLHWANIHKRTPLMQVPLLLDLNGKHLWVTCSQHYSSSTYQAPFCHSTQCSRANTHQCFTCTDSTTTRPGCHNNTCGLLSSNPVTQESGLGELAQDVLAIHSTHGSKLGPMVKVPQFLFSCAPSFLAQKGLPNNVQGALGLGQAPISLQNQLFSHFGLKRQFSVCLSRYSTSNGAILFGDINDPNNNNYIHNSLDVLHDLVYTPLTISKQGEYFIQVNAIRVNKHLVIPTGEIGGALITTTHPYTVLSHSIFEVFTQVFANNMPKQAQVKAVGPFGLCYDSRKISGGAPSVDLILDKNDAVWRISSENFMVQAQDGVSCLGFVDGGVHARAGIALGAHHLEENLVVFDLERSRVGFNSNSLKSYGKTCSNLFDLNN 4ppk-a6-m1-cD_4ppk-a6-m1-cC Crystal structure of eCGP123 T69V variant at pH 7.5 2 X-RAY DIFFRACTION 64 0.995 32630 (synthetic construct) 32630 (synthetic construct) 214 217 4ppk-a5-m1-cB_4ppk-a5-m1-cA SVIKPEMKIKLRMEGAVNGHKFVIEGEGIGKPYEGTQTLDLTVKEGAPLPFSYDILTPAFNRAFVKYPKDIPDYFKQAFPEGYSWERSMTYEDQGICIATSDITMEGDCFFYKIRFDGTNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLKGDVNMALLLEGGGHYRCDFKTTYKAKKDVRLPDAHEVDHRIEILSHDKDYNKVRLYEHAEARYS VIKPEMKIKLRMEGAVNGHKFVIEGEGIGKPYEGTQTLDLTVKEGAPLPFSYDILTPAFNRAFVKYPKDIPDYFKQAFPEGYSWERSMTYEDQGICIATSDITMEGDCFFYKIRFDGTNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLKGDVNMALLLEGGGHYRCDFKTTYKAKKDVRLPDAHEVDHRIEILSHDKDYNKVRLYEHAEARYSMLPS 4ppm-a1-m1-cB_4ppm-a1-m1-cA Crystal structure of PigE: a transaminase involved in the biosynthesis of 2-methyl-3-n-amyl-pyrrole (MAP) from Serratia sp. FS14 A0A0J9X1Q5 A0A0J9X1Q5 2.3 X-RAY DIFFRACTION 386 0.998 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 462 464 ALPASRLAFIDAVIAQTPAREDTLDRYHQYINPMMVDFLKLQRCDNVFRSAAGTQLYDDAGEAFLDMVAGYGCLNLGHNPQPVVNALKNYLDAQGPNFIQYISIPEQTAKLAEVLCRLAPGNMGRVFFSNSGTEAVEAAMKIAKASTGKPGIAYLRNSYHGKTLGALSITGRDKHRRYFTPLLDAMVEVPFGDLAALREALNREDVGALMIEPIQGEGGVHIPPAGYLQAVQQLCRETGVLLMVDEVQTGLGRTGKLFACEWDGIEPDVLMLSKSLSGGLIPIGATLCRADLWQKAYGTADRFLVHSSTYGGGNLASVVALSALREILAQDLVGHAERMGAYFKQALSEIAARYPFVSEVRGRGLMLGIQFDWHTTWKFLPDPVQAHLRAAMDRMEQALGEMFCMKFVTKLCQDHKILTFITANSSTVIRIQPPLIISKAEIDRFVGAFATVCEELSTFLDL ALPASRLAFIDAVIAQTPAREDTLDRYHQYINPMMVDFLKLQRCDNVFRSAAGTQLYDDAGEAFLDMVAGYGCLNLGHNPQPVVNALKNYLDAQGPNFIQYISIPEQTAKLAEVLCRLAPGNMGRVFFSNSGTEAVEAAMKIAKASTGKPGIAYLRNSYHGKTLGALSITGRDKHRRYFTPLLDAMVEVPFGDLAALREALNREDVGALMIEPIQGEGGVHIPPAGYLQAVQQLCRETGVLLMVDEVQTGLGRTGKLFACEWDGIEPDVLMLSKSLSGGLIPIGATLCRADLWQKAYGTADRFLVHSSTYGGGNLASVVALSALREILAQDLVGHAERMGAYFKQALSEIAARYPFVSEVRGRGLMLGIQFDQAHTTWKFLPDPVQAHLRAAMDRMEQALGEMFCMKFVTKLCQDHKILTFITANSSTVIRIQPPLIISKAEIDRFVGAFATVCEELSTFLDLE 4ppu-a1-m1-cA_4ppu-a1-m2-cA Crystal Structure of AtCM1 with Tyrosine Bound in Allosteric Site P42738 P42738 2.3 X-RAY DIFFRACTION 109 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 245 245 4ppv-a1-m1-cA_4ppv-a1-m2-cA RVDESESLTLEGIRNSLIRQEDSIIFGLLERAKYCYNADTYDPTAFDMDGFNGSLVEYMVKGTEKLHAKVGRFKSPDEHPFFPDDLPEPMLPPLQYPKVLHFAADSININKKIWNMYFRDLVPRLVKKGDDGNYGSTAVCDAICLQCLSKRIHYGKFVAEAKFQASPEAYESAIKAQDKDALMDMLTFPTVEDAIKKRVEMKTRTYGQEVKVYKISPILVGDLYGDWIMPLTKEVQVEYLLRRLD RVDESESLTLEGIRNSLIRQEDSIIFGLLERAKYCYNADTYDPTAFDMDGFNGSLVEYMVKGTEKLHAKVGRFKSPDEHPFFPDDLPEPMLPPLQYPKVLHFAADSININKKIWNMYFRDLVPRLVKKGDDGNYGSTAVCDAICLQCLSKRIHYGKFVAEAKFQASPEAYESAIKAQDKDALMDMLTFPTVEDAIKKRVEMKTRTYGQEVKVYKISPILVGDLYGDWIMPLTKEVQVEYLLRRLD 4ppy-a2-m1-cC_4ppy-a2-m2-cC Crystal structure of a putative acylhydrolase (BF3764) from Bacteroides fragilis NCTC 9343 at 2.00 A resolution Q5L8Y8 Q5L8Y8 2 X-RAY DIFFRACTION 60 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 204 204 4ppy-a1-m1-cB_4ppy-a1-m1-cA EKDWANLQRYAQQNAELPKPDKNEKRVVFGNSITEGWVNTHPDFFKSNGYIGRGIGGQTSYQFLVRFREDVINLSPALVVINAATNDIAENTGAYHEDRTFGNIVSVELAKANHIKVILTTTLPAAAFGWNPSIKDAPQKIASLNARLKAYAQTNKIPFVDYYSSVSGSNKALNPAYTKDGVHPTSEGYDVENLIQQAINKTLR EKDWANLQRYAQQNAELPKPDKNEKRVVFGNSITEGWVNTHPDFFKSNGYIGRGIGGQTSYQFLVRFREDVINLSPALVVINAATNDIAENTGAYHEDRTFGNIVSVELAKANHIKVILTTTLPAAAFGWNPSIKDAPQKIASLNARLKAYAQTNKIPFVDYYSSVSGSNKALNPAYTKDGVHPTSEGYDVENLIQQAINKTLR 4ppz-a1-m1-cA_4ppz-a1-m2-cA Crystal structure of zinc-bound succinyl-diaminopimelate desuccinylase from Neisseria meningitidis MC58 Q9JYL2 Q9JYL2 2 X-RAY DIFFRACTION 119 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 375 375 1vgy-a1-m1-cA_1vgy-a1-m1-cB 4o23-a1-m1-cB_4o23-a1-m1-cA 4pqa-a1-m1-cA_4pqa-a1-m2-cA 5uej-a1-m1-cA_5uej-a1-m1-cB TETQSLELAKELISRPSVTPDDRDCQKLLAERLHKIGFAAEELHFGDTKNIWLRRGTKAPVVCFAGHTDVVPTGPVEKWDSPPFEPAERDGRLYGRGAADMKTSIACFVTACERFVAKHPNHQGSIALLITSDEEGDALDGTTKVVDVLKARDELIDYCIVGEPTAVDKLGDMIKNGRRGSLSGNLTVKGKQGHIAYPHLAINPVHTFAPALLELTQEVWDEGNEYFPPTSFQISNINGGTGATNVIPGELNVKFNFRFSTESTEAGLKQRVHAILDKHGVQYDLQWSCSGQPFLTQAGKLTDVARAAIAETCGIEAELSTTGGTSDGRFIKAIAQELIELGPSNATIHQINENVRLNDIPKLSAVYEGILARLL TETQSLELAKELISRPSVTPDDRDCQKLLAERLHKIGFAAEELHFGDTKNIWLRRGTKAPVVCFAGHTDVVPTGPVEKWDSPPFEPAERDGRLYGRGAADMKTSIACFVTACERFVAKHPNHQGSIALLITSDEEGDALDGTTKVVDVLKARDELIDYCIVGEPTAVDKLGDMIKNGRRGSLSGNLTVKGKQGHIAYPHLAINPVHTFAPALLELTQEVWDEGNEYFPPTSFQISNINGGTGATNVIPGELNVKFNFRFSTESTEAGLKQRVHAILDKHGVQYDLQWSCSGQPFLTQAGKLTDVARAAIAETCGIEAELSTTGGTSDGRFIKAIAQELIELGPSNATIHQINENVRLNDIPKLSAVYEGILARLL 4pqg-a3-m2-cB_4pqg-a3-m1-cA Crystal structure of the pneumococcal O-GlcNAc transferase GtfA in complex with UDP and GlcNAc A0A0H2URG7 A0A0H2URG7 2 X-RAY DIFFRACTION 61 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 501 506 MTIYNINLGIGWASSGVEYAQAYRAGVFRKLNLSSKFIFTDMILADNIQHLTANIGFDDNQVIWLYNHFTDIKIAPTSVTVDDVLAYFGGEESHREKNGKVLRVFFFDQDKFVTCYLVDENKDLVQHAEYVFKGNLIRKDYFSYTRYCSEYFAPKDNVAVLYQRTFYNEDGTPVYDILMNQGKEEVYHFKDKIFYGKQAFVRAFMKSLNLNKSDLVILDRETGIGQVVFEEAQTAHLAVVVHAEHYSENATNEDYILWNNYYDYQFTNADKVDFFIVSTDRQNEVLQEQFAKYTQHQPKIVTIPVGSIDSLTDSSQGRKPFSLITASRLAKEKHIDWLVKAVIEAHKELPELTFDIYGSGGEDSLLREIIANHQAEDYIQLKGHAELSQIYSQYEVYLTASTSEGFGLTLMEAIGSGLPLIGFDVPYGNQTFIEDGQNGYLIPSSSDHVEDQIKQAYAAKICQLYQENRLEAMRAYSYQIAEGFLTKEILEKWKKTVEEVL HHHMTIYNINLGIGWASSGVEYAQAYRAGVFRKLNLSSKFIFTDMILADNIQHLTANIGFDDNQVIWLYNHFTDIKIAPTSVTVDDVLAYFGGEESHREKNGKVLRVFFFDQDKFVTCYLVDENKDLVQHAEYVFKGNLIRKDYFSYTRYCSEYFAPKDNVAVLYQRTFYNEDGTPVYDILMNQGKEEVYHFKDKIFYGKQAFVRAFMKSLNLNKSDLVILDRETGIGQVVFEEAQTAHLAVVVHAEHYSENATNEDYILWNNYYDYQFTNADKVDFFIVSTDRQNEVLQEQFAKYTQHQPKIVTIPVGSIDSLTDSSQGRKPFSLITASRLAKEKHIDWLVKAVIEAHKELPELTFDIYGSGGEDSLLREIIANHQAEDYIQLKGHAELSQIYSQYEVYLTASTSEGFGLTLMEAIGSGLPLIGFDVPYGNQTFIEDGQNGYLIPSSSDHVEDQIKQAYAAKICQLYQENRLEAMRAYSYQIAEGFLTKEILEKWKKTVEEVLHD 4pr3-a1-m1-cB_4pr3-a1-m1-cA Crystal structure of Brucella melitensis 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase Q8YBL1 Q8YBL1 2.606 X-RAY DIFFRACTION 107 0.995 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 192 198 NAKTVAGKRLLYVAADAEYGRHLAKLFTPLIGVGPVEAAVNLASALAHLKLAGDPDLVISLGSAGSAKLPQAEVYQVSSVSYRDDASPIGFEKGVTPFLDLPETVELPFRVAGIDTASLSTGGNIVSGKAYERIEADVDETYACLRACQAVGVPLLGLRGISDGASELHVIDEKLAGAVARVERAVADGLLS QSNAKTVAGKRLLYVAADAEYGRHLAKLFTPLIGVGPVEAAVNLASALAHLKLAGDPDLVISLGSAGSAKLPQAEVYQVSSVSYRDDASPIGFEKGVTPFLDLPETVELPFRVAGIDTASLSTGGNIVSGKAYERIEADVDETYACLRACQAVGVPLLGLRGISDGASTQHLHVIDEKLAGAVARVERAVADGLLSPS 4pr9-a1-m1-cA_4pr9-a1-m1-cB Human Vinculin (residues 891-1066) in complex with PIP P18206 P18206 3.2 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 176 GEVINQPMMMAARQLHDEARKWSSKGNDIIAAAKRMALLMAEMSRLVRGGSGTKRALIQCAKDIAKASDEVTRLAKEVAKQCTDKRIRTNLLQVCERIPTISTQLKILSTVKATMLGRTNISDEESEQATEMLVHNAQNLMQSVKETVREAEAASIKIRTDAGFTLRWVAKTPWY GEVINQPMMMAARQLHDEARKWSSKGNDIIAAAKRMALLMAEMSRLVRGGSGTKRALIQCAKDIAKASDEVTRLAKEVAKQCTDKRIRTNLLQVCERIPTISTQLKILSTVKATMLGRTNISDEESEQATEMLVHNAQNLMQSVKETVREAEAASIKIRTDAGFTLRWVAKTPWYQ 4prg-a1-m1-cB_4prg-a1-m1-cD 0072 PARTIAL AGONIST PPAR GAMMA COCRYSTAL P37231 P37231 2.9 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIKFKHITPLQEQSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDL ESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEDKIKFKHITPLQEQSKEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDL 4prs-a1-m1-cA_4prs-a1-m1-cB Structure of apo ArgBP from T. maritima Q9WZ62 Q9WZ62 1.47 X-RAY DIFFRACTION 85 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 226 227 AIDEIKSRGYLLVGLSADFPPFEFVDENGNIVGFDVDLAKEIARRLGVELKIVDMTFDGLIPSLLTKKIDVIISGMTITEERKKVVAFSDPYFDAGQVIVVRKDSDFRPKTYEDLVGKTVAVQIGTTGDIEVSKYDGIKVVRFDKFTDAFLELKRGRADAVVLDSATARAFVAKNPDLVISSGVLSSEQYGIAVRKEDTDLLEFINSVLRELKKSPYDVLIEKWFS AIDEIKSRGYLLVGLSADFPPFEFVDENGNIVGFDVDLAKEIARRLGVELKIVDMTFDGLIPSLLTKKIDVIISGMTITEERKKVVAFSDPYFDAGQVIVVRKDSDFRPKTYEDLVGKTVAVQIGTTGDIEVSKYDGIKVVRFDKFTDAFLELKRGRADAVVLDSATARAFVAKNPDLVISSGVLSSEQYGIAVRKEDTDLLEFINSVLRELKKSPYDVLIEKWFSE 4ps2-a2-m1-cA_4ps2-a2-m2-cA Structure of the C-terminal fragment (87-165) of E.coli EAEC TssB molecule D3GU37 D3GU37 2 X-RAY DIFFRACTION 51 1.0 216592 (Escherichia coli 042) 216592 (Escherichia coli 042) 79 79 EESISLTFRNMNDFTPEQVARQIPRLKAMLAMRSLLRDLKANLLDNVTFRKELEKILRDPALSQTLRDELRALVPEKAW EESISLTFRNMNDFTPEQVARQIPRLKAMLAMRSLLRDLKANLLDNVTFRKELEKILRDPALSQTLRDELRALVPEKAW 4psh-a1-m1-cA_4psh-a1-m1-cB Structure of holo ArgBP from T. maritima Q9WZ62 Q9WZ62 2.6 X-RAY DIFFRACTION 49 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 225 226 IDEIKSRGYLLVGLSADFPPFEFVDENGNIVGFDVDLAKEIARRLGVELKIVDMTFDGLIPSLLTKKIDVIISGMTITEERKKVVAFSDPYFDAGQVIVVRKDSDFRPKTYEDLVGKTVAVQIGTTGDIEVSKYDGIKVVRFDKFTDAFLELKRGRADAVVLDSATARAFVAKNPDLVISSGVLSSEQYGIAVRKEDTDLLEFINSVLRELKKSPYDVLIEKWFS AIDEIKSRGYLLVGLSADFPPFEFVDENGNIVGFDVDLAKEIARRLGVELKIVDMTFDGLIPSLLTKKIDVIISGMTITEERKKVVAFSDPYFDAGQVIVVRKDSDFRPKTYEDLVGKTVAVQIGTTGDIEVSKYDGIKVVRFDKFTDAFLELKRGRADAVVLDSATARAFVAKNPDLVISSGVLSSEQYGIAVRKEDTDLLEFINSVLRELKKSPYDVLIEKWFS 4pta-a1-m1-cD_4pta-a1-m4-cD Structure of MDR initiator A0A0H2XIV8 A0A0H2XIV8 2.6003 X-RAY DIFFRACTION 96 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 121 121 4pta-a1-m2-cD_4pta-a1-m3-cD QFFTVEENYKERFYQLPKVFFTNPNYKDLSNDAKIAYAILRDRLQLSIKNNWIDTEGNIYFIYTVADLEVILNCGNKKITKIKKELENVDLLIQKRPNLLYLLKPAITKNDIYEIDKAENE QFFTVEENYKERFYQLPKVFFTNPNYKDLSNDAKIAYAILRDRLQLSIKNNWIDTEGNIYFIYTVADLEVILNCGNKKITKIKKELENVDLLIQKRPNLLYLLKPAITKNDIYEIDKAENE 4pta-a1-m3-cD_4pta-a1-m4-cD Structure of MDR initiator A0A0H2XIV8 A0A0H2XIV8 2.6003 X-RAY DIFFRACTION 62 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 121 121 4pta-a1-m1-cD_4pta-a1-m2-cD QFFTVEENYKERFYQLPKVFFTNPNYKDLSNDAKIAYAILRDRLQLSIKNNWIDTEGNIYFIYTVADLEVILNCGNKKITKIKKELENVDLLIQKRPNLLYLLKPAITKNDIYEIDKAENE QFFTVEENYKERFYQLPKVFFTNPNYKDLSNDAKIAYAILRDRLQLSIKNNWIDTEGNIYFIYTVADLEVILNCGNKKITKIKKELENVDLLIQKRPNLLYLLKPAITKNDIYEIDKAENE 4pts-a1-m1-cA_4pts-a1-m1-cB Crystal structure of a glutathione transferase from Gordonia bronchialis DSM 43247, target EFI-507405 D0L9F3 D0L9F3 2.83 X-RAY DIFFRACTION 73 1.0 526226 (Gordonia bronchialis DSM 43247) 526226 (Gordonia bronchialis DSM 43247) 321 333 KYIETRITADGRDGYPVEPGRYRLIAARACPWANRTLIVRRLLGLENVLSLGLCGPTHDKNSWTFDLDPGGVDPVLGIPRLKDAYEKRFPGYPKGITVPAVVEIATGEVVTNDFPQITIDFSLEWTAYHRDGAPQLYPEHLRAEIDEVSKGIYTEVNNGVYRCGFAGSQDAYDAAYDRLFTKLDELSERLAQQRYLVGDTITEADVRLFTTLARFDAVYHGHFKCNRSKLSEMPVLWAYARDLFQTPGFGDTTDFTQIKQHYYIVHSDINPTQIVPKGPDLRNWLTPHHREELGGRPFGDGTPPGPPIAAEVVPAQNWVPT YVTTGQEFVRDTKYIETRITADGRDGYPVEPGRYRLIAARACPWANRTLIVRRLLGLENVLSLGLCGPTHDKNSWTFDLDPGGVDPVLGIPRLKDAYEKRFPGYPKGITVPAVVEIATGEVVTNDFPQITIDFSLEWTAYHRDGAPQLYPEHLRAEIDEVSKGIYTEVNNGVYRCGFAGSQDAYDAAYDRLFTKLDELSERLAQQRYLVGDTITEADVRLFTTLARFDAVYHGHFKCNRSKLSEMPVLWAYARDLFQTPGFGDTTDFTQIKQHYYIVHSDINPTQIVPKGPDLRNWLTPHHREELGGRPFGDGTPPGPPIAAEVVPAQNWVPT 4pu7-a1-m1-cB_4pu7-a1-m1-cA Shewanella oneidensis Toxin Antitoxin System Antitoxin Protein HipB Resolution 1.85 Q8EIX4 Q8EIX4 1.85 X-RAY DIFFRACTION 64 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 64 71 4pu3-a1-m1-cC_4pu3-a1-m1-cD 4pu4-a1-m1-cC_4pu4-a1-m1-cD 4pu8-a1-m1-cA_4pu8-a1-m1-cB PLNQQSLGLLIKERRKSAALTQDVAAMLCGVTKKTLIRVEKGEDVYISTVFKILDGLGIDIVSA LETIMASPLNQQSLGLLIKERRKSAALTQDVAAMLCGVTKKTLIRVEKGEDVYISTVFKILDGLGIDIVSA 4pua-a1-m1-cA_4pua-a1-m2-cA Crystal Structure Of glutathione transferase YghU from Streptococcus pneumoniae ATCC 700669, complexed with glutathione, Target EFI-507284 1.708 X-RAY DIFFRACTION 193 1.0 561276 (Streptococcus pneumoniae ATCC 700669) 561276 (Streptococcus pneumoniae ATCC 700669) 261 261 AYQLPTVWQDEASNQGAFTGLNRPTAGARFEQNLPKGEQAFQLYSLRTPNGVKVTILLEELLEAGFKEAAYDLYKIAIMDGDQFGSDFVKLNPNSKIPALLDQSGTEDVRVFESAHILLYLAEKFGAFLPSNPVERVEVLNWLFWQAGAAPFLGGGFGHFFNYAPEKLEYPINRFTMEVKRQLDLLDKELAQKPYIAGNDYTIADIAIWSWYGQLVQGNLYQGSAKFLDASSYQNLVKWAEKIANRPAVKRGLEVTYTEIK AYQLPTVWQDEASNQGAFTGLNRPTAGARFEQNLPKGEQAFQLYSLRTPNGVKVTILLEELLEAGFKEAAYDLYKIAIMDGDQFGSDFVKLNPNSKIPALLDQSGTEDVRVFESAHILLYLAEKFGAFLPSNPVERVEVLNWLFWQAGAAPFLGGGFGHFFNYAPEKLEYPINRFTMEVKRQLDLLDKELAQKPYIAGNDYTIADIAIWSWYGQLVQGNLYQGSAKFLDASSYQNLVKWAEKIANRPAVKRGLEVTYTEIK 4puc-a1-m1-cA_4puc-a1-m1-cB Crystal structure of a SusD homolog (BACUNI_02643) from Bacteroides uniformis ATCC 8492 at 2.00 A resolution A7V4Y5 A7V4Y5 2 X-RAY DIFFRACTION 46 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 479 483 DDYALGSASNLASTVISSDVNTAQFTDCLLGGPLGGYFADSNAGWSNTISNFNATNDWTRVFLISDRIISTLYGNLSTVKQVSENTNNPVPYAIAQIIKVAASRVTDAYGPIPYSKIGQDGKITIPYDTQEEVYNAFFKELDESIEVLTENRNAALVASADFVYSGNVQKWVKFANSLKLRLAIRIANVSPAKAKEAESAVNHELGLIETNADNATWKYFGTISNPLFVAVRYNEEASGGDTHPAADIICYNGYNDNRRASYFEESKWPGETYVGLRRGINLSKKEYFINYSRVKISSSDPVLWNAAEVAFLRAEATAIYGFNKGTAADFYEQGVRLSFEQWGATGVDSYLADESSVPALYKDPAGLNTYEKNLSAITVKWNEGASKEEKQERIITQKWIANWPLGNEAWADYRRTGYPKLLPATSEGNLSGGIVDSEKGARRPYPSEEYTSNTENVQEAVNSYLGGPDNATDVWWARK DLTPDDYALGSASNLASTVISSDVNTAQFTDCLLGGPLGGYFADSNAGWSNTISNFNATNDWTRVFLISDRIISTLYGNLSTVKQVSENTNNPVPYAIAQIIKVAASRVTDAYGPIPYSKIGQDGKITIPYDTQEEVYNAFFKELDESIEVLTENRNAALVASADFVYSGNVQKWVKFANSLKLRLAIRIANVSPAKAKEAESAVNHELGLIETNADNATWKYFGTISNPLFVAVRYNEEASGGDTHPAADIICYNGYNDNRRASYFEESKWPGETYVGLRRGINLSKKEYFINYSRVKISSSDPVLWNAAEVAFLRAEATAIYGFNKGTAADFYEQGVRLSFEQWGATGVDSYLADESSVPALYKDPAGLNTYEKNLSAITVKWNEGASKEEKQERIITQKWIANWPLGNEAWADYRRTGYPKLLPATSEGNLSGGIVDSEKGARRPYPSEEYTSNTENVQEAVNSYLGGPDNATDVWWARK 4puh-a1-m1-cA_4puh-a1-m1-cB Oxidized BolA2 from Arabidopsis thaliana Q9FIC3 Q9FIC3 1.898 X-RAY DIFFRACTION 11 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 81 81 VTKEQVEASLTSKLKPIHLEVIDISGGCGSSFEVEVVSEQFEGKRLLERHRMVNAALEEEMKEIHALSIKKAQTPQQWKPP VTKEQVEASLTSKLKPIHLEVIDISGGCGSSFEVEVVSEQFEGKRLLERHRMVNAALEEEMKEIHALSIKKAQTPQQWKPP 4pux-a2-m1-cA_4pux-a2-m4-cA Crystal structure of a beta-barrel like protein (ABAYE2633) from Acinetobacter baumannii AYE at 1.43 A resolution B0VAD0 B0VAD0 1.43 X-RAY DIFFRACTION 75 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 155 155 4pux-a2-m2-cA_4pux-a2-m3-cA QYNPPPIQLEPLAKFSVDLNAPVWELGTTSDAGKRRIIPITGGTFEGKSLKGRILNNGADWQIVDSKGLAIIDTRYLLETDDGALIYLQTKGYRHGSAETLKQLAQGKDVDPKNYYFKITQFETSSPKYSWLNQTVAVGSARLGKAVIYDAYTLK QYNPPPIQLEPLAKFSVDLNAPVWELGTTSDAGKRRIIPITGGTFEGKSLKGRILNNGADWQIVDSKGLAIIDTRYLLETDDGALIYLQTKGYRHGSAETLKQLAQGKDVDPKNYYFKITQFETSSPKYSWLNQTVAVGSARLGKAVIYDAYTLK 4pux-a2-m2-cA_4pux-a2-m4-cA Crystal structure of a beta-barrel like protein (ABAYE2633) from Acinetobacter baumannii AYE at 1.43 A resolution B0VAD0 B0VAD0 1.43 X-RAY DIFFRACTION 62 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 155 155 4pux-a2-m1-cA_4pux-a2-m3-cA QYNPPPIQLEPLAKFSVDLNAPVWELGTTSDAGKRRIIPITGGTFEGKSLKGRILNNGADWQIVDSKGLAIIDTRYLLETDDGALIYLQTKGYRHGSAETLKQLAQGKDVDPKNYYFKITQFETSSPKYSWLNQTVAVGSARLGKAVIYDAYTLK QYNPPPIQLEPLAKFSVDLNAPVWELGTTSDAGKRRIIPITGGTFEGKSLKGRILNNGADWQIVDSKGLAIIDTRYLLETDDGALIYLQTKGYRHGSAETLKQLAQGKDVDPKNYYFKITQFETSSPKYSWLNQTVAVGSARLGKAVIYDAYTLK 4pux-a2-m3-cA_4pux-a2-m4-cA Crystal structure of a beta-barrel like protein (ABAYE2633) from Acinetobacter baumannii AYE at 1.43 A resolution B0VAD0 B0VAD0 1.43 X-RAY DIFFRACTION 16 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 155 155 4pux-a2-m1-cA_4pux-a2-m2-cA QYNPPPIQLEPLAKFSVDLNAPVWELGTTSDAGKRRIIPITGGTFEGKSLKGRILNNGADWQIVDSKGLAIIDTRYLLETDDGALIYLQTKGYRHGSAETLKQLAQGKDVDPKNYYFKITQFETSSPKYSWLNQTVAVGSARLGKAVIYDAYTLK QYNPPPIQLEPLAKFSVDLNAPVWELGTTSDAGKRRIIPITGGTFEGKSLKGRILNNGADWQIVDSKGLAIIDTRYLLETDDGALIYLQTKGYRHGSAETLKQLAQGKDVDPKNYYFKITQFETSSPKYSWLNQTVAVGSARLGKAVIYDAYTLK 4pv2-a1-m1-cA_4pv2-a1-m1-cC Crystal structure of potassium-dependent plant-type L-asparaginase from Phaseolus vulgaris in complex with K+ and Na+ cations V7CU13 V7CU13 1.79 X-RAY DIFFRACTION 11 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 155 158 4pu6-a1-m1-cA_4pu6-a1-m1-cC 4pv3-a1-m1-cC_4pv3-a1-m1-cA GGWAIAVHGGAGVDPTLPLERQEEAKQLLTRCLNLGISALNSNVPAIDVVELVVRELETDPLFNSGRGSALTEKGTVEMEASIMDGPKRRCGAVSGLTTVKNPISLARLVMDKSPHSYIAFSGAEDFARQQGVEVVDNEYFVTPDNVGMLKLAKE GGWAIAVHGGAGVDPTLPLERQEEAKQLLTRCLNLGISALNSNVPAIDVVELVVRELETDPLFNSGRGSALTEKGTVEMEASIMDGPKRRCGAVSGLTTVKNPISLARLVMDKSPHSYIAFSGAEDFARQQGVEVVDNEYFVTPDNVGMLKLAKEANT 4pv2-a1-m1-cB_4pv2-a1-m1-cD Crystal structure of potassium-dependent plant-type L-asparaginase from Phaseolus vulgaris in complex with K+ and Na+ cations V7CU13 V7CU13 1.79 X-RAY DIFFRACTION 36 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 131 131 4pu6-a1-m1-cB_4pu6-a1-m1-cD 4pv3-a1-m1-cB_4pv3-a1-m1-cD TVGCVVVDREGRCAAATSTGGLMNKMTGRIGDSPLIGAGTYACDVCGVSCTGEGEAIIRGTLAREVAAVMEYKGLKLHQAVDFVIKHRLDEGKAGLIAVSNTGEVACGFNCNGMFRACATEDGFMEVAIWD TVGCVVVDREGRCAAATSTGGLMNKMTGRIGDSPLIGAGTYACDVCGVSCTGEGEAIIRGTLAREVAAVMEYKGLKLHQAVDFVIKHRLDEGKAGLIAVSNTGEVACGFNCNGMFRACATEDGFMEVAIWD 4pv4-a1-m1-cA_4pv4-a1-m1-cB Proline aminopeptidase P II from Yersinia pestis A0A2S9PFE9 A0A2S9PFE9 1.76 X-RAY DIFFRACTION 125 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 436 436 MTQQEYQNRRQALLAKMAPGSAAIIFAAPEATRSADSEYPYRQNSDFSYLTGFNEPEAVLILVKSDETHNHSVLFNRIRDLTAEIWFGRRLGQEAAPTKLAVDRALPFDEINEQLYLLLNRLDVIYHAQGQYAYADNIVFAALEKLRHGFRKNLRAPATLTDWRPWLHEMRLFKSAEEIAVLRRAGEISALAHTRAMEKCRPGMFEYQLEGEILHEFTRHGARYPAYNTIVGGGENGCILHYTENECELRDGDLVLIDAGCEYRGYAGDITRTFPVNGKFTPAQRAVYDIVLAAINKSLTLFRPGTSIREVTEEVVRIMVVGLVELGILKGDIEQLIAEQAHRPFFMHGLSHWLGMDVHDVGDYGSSDRGRILEPGMVLTVEPGLYIAPDADVPPQYRGIGIRIEDDIVITATGNENLTASVVKDPDDIEALMALN MTQQEYQNRRQALLAKMAPGSAAIIFAAPEATRSADSEYPYRQNSDFSYLTGFNEPEAVLILVKSDETHNHSVLFNRIRDLTAEIWFGRRLGQEAAPTKLAVDRALPFDEINEQLYLLLNRLDVIYHAQGQYAYADNIVFAALEKLRHGFRKNLRAPATLTDWRPWLHEMRLFKSAEEIAVLRRAGEISALAHTRAMEKCRPGMFEYQLEGEILHEFTRHGARYPAYNTIVGGGENGCILHYTENECELRDGDLVLIDAGCEYRGYAGDITRTFPVNGKFTPAQRAVYDIVLAAINKSLTLFRPGTSIREVTEEVVRIMVVGLVELGILKGDIEQLIAEQAHRPFFMHGLSHWLGMDVHDVGDYGSSDRGRILEPGMVLTVEPGLYIAPDADVPPQYRGIGIRIEDDIVITATGNENLTASVVKDPDDIEALMALN 4pvc-a1-m1-cA_4pvc-a1-m1-cB Crystal structure of yeast methylglyoxal/ isovaleraldehyde reductase Gre2 Q12068 Q12068 2 X-RAY DIFFRACTION 67 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 342 342 MSVFVSGANGFIAQHIVDLLLKEDYKVIGSARSQEKAENLTEAFGNNPKFSMEVVPDISKLDAFDHVFQKHGKDIKIVLHTASPFCFDITDSERDLLIPAVNGVKGILHSIKKYAADSVERVVLTSSYAAVFDMAKENDKSLTFNEESWNPATWESCQSDPVNAYCGSKKFAEKAAWEFLEENRDSVKFELTAVNPVYVFGPQMFDKDVKKHLNTSCELVNSLMHLSPEDKIPELFGGYIDVRDVAKAHLVAFQKRETIGQRLIVSEARFTMQDVLDILNEDFPVLKGNIPVGKPGSGATHNTLGATLDNKKSKKLLGFKFRNLKETIDDTASQILKFEGRI MSVFVSGANGFIAQHIVDLLLKEDYKVIGSARSQEKAENLTEAFGNNPKFSMEVVPDISKLDAFDHVFQKHGKDIKIVLHTASPFCFDITDSERDLLIPAVNGVKGILHSIKKYAADSVERVVLTSSYAAVFDMAKENDKSLTFNEESWNPATWESCQSDPVNAYCGSKKFAEKAAWEFLEENRDSVKFELTAVNPVYVFGPQMFDKDVKKHLNTSCELVNSLMHLSPEDKIPELFGGYIDVRDVAKAHLVAFQKRETIGQRLIVSEARFTMQDVLDILNEDFPVLKGNIPVGKPGSGATHNTLGATLDNKKSKKLLGFKFRNLKETIDDTASQILKFEGRI 4pw0-a1-m1-cA_4pw0-a1-m2-cA Alpha/beta hydrolase fold protein from Chitinophaga pinensis 1.48 X-RAY DIFFRACTION 57 1.0 485918 (Chitinophaga pinensis DSM 2588) 485918 (Chitinophaga pinensis DSM 2588) 269 269 NDHATAPTQYIEVNGTRYAYRSLGAPSDIPLICFQHFTGTLDNWDPLITNGLSKGRQLIIFDNKGVGLSSGTTPDNVAATADALEFITALGIRYFDVLGFSLGGFIVQYAHIQPDIRKIIIVGAAPQGVKVLHTFPDLIARAQLEPKERFLFIFFEQSEHSRSKGLATLGRLYERTTDRDQDASAQAIGAQLTAITNWGKKTPSFEITSIQHPVFVVQGSNDEDTYNSYELFKQLPDAILSLYPDAAHGSFYQYPELFVSQTEYFLDSY NDHATAPTQYIEVNGTRYAYRSLGAPSDIPLICFQHFTGTLDNWDPLITNGLSKGRQLIIFDNKGVGLSSGTTPDNVAATADALEFITALGIRYFDVLGFSLGGFIVQYAHIQPDIRKIIIVGAAPQGVKVLHTFPDLIARAQLEPKERFLFIFFEQSEHSRSKGLATLGRLYERTTDRDQDASAQAIGAQLTAITNWGKKTPSFEITSIQHPVFVVQGSNDEDTYNSYELFKQLPDAILSLYPDAAHGSFYQYPELFVSQTEYFLDSY 4pw1-a1-m1-cA_4pw1-a1-m1-cB Crystal structure of a protein with unknown function (CLOLEP_02462) from Clostridium leptum DSM 753 at 2.10 A resolution A7VV57 A7VV57 2.1 X-RAY DIFFRACTION 70 1.0 428125 ([Clostridium] leptum DSM 753) 428125 ([Clostridium] leptum DSM 753) 205 206 NLLYLNSGEELNLYPWNLYTGQEQELFEEEIVSFAANSVRILGGGSWTDEELYPLIKFRYSGQDLRFLKDALTEKDGRRYLVNALDPNGLCYFSYVNQDEREATADEDQALGKLQEDWEKFLSDPLPKTDNAFYFFRCQLSDQRKEQYSDYIGDNLYTIWELVLKSEFTSLSYDNHIYAYSNDGGTSVLIYSPIEERFVGFSLKY NLLYLNSGEELNLYPWNLYTGQEQELFEEEIVSFAANSVRILGGGSWTDEELYPLIKFRYSGQDLRFLKDALTEKDGRRYLVNALDPNGLCYFSYVNQDEREATADEDQALGKLQEDWEKFLSDPLPAKTDNAFYFFRCQLSDQRKEQYSDYIGDNLYTIWELVLKSEFTSLSYDNHIYAYSNDGGTSVLIYSPIEERFVGFSLKY 4pw2-a1-m1-cA_4pw2-a1-m2-cA Crystal structure of D-glucuronyl C5 epimerase F1QR43 F1QR43 1.9 X-RAY DIFFRACTION 183 1.0 7955 (Danio rerio) 7955 (Danio rerio) 510 510 4pxq-a1-m1-cB_4pxq-a1-m1-cA RYEEIDCLINDDATIKGRREGSEVYMPFSWMEKYFEVYGKVVQYDGYDRFEFSHSYSKVYAQREQYHPNGVFMSFEGYNVEVRDRVKCISGVEGVPLSTQWGPQGYFYAIQIAQYGLSHYSKNLTERPPHVEVYDTAEERSAWTVPKGCSLTRVYDKTRATSVREFSAPENSEGVSLPLGNTKDFIISFDLKFTSNGSVSVILETTEKGPPFVIHYVTTTQLILLKDRDITYGIGPRTTWTTVTRDLLTDLRKGIGLSNTKAVKATKTMPRRVVKLVVHGTGTIDNITISTTSHMAAFYAASDWLVRNQDERGGWPIMVTRKLGEGFRALEPGWYSAMAQGQAMSTLVRAYLMTKDDRYLKAALRATGPFKLPSEQHGVKAVFMNKYDWYEEYPTIPSSFVLNGFIYSLIGLFDLAQTAGEKLGRDAGQLYSKGMESLKVMLPLYDTGSGTIYDLRHFILGTAPNLARWDYHTTHINQLQLLGTIDNSPIFRDSVKRWKSYLKGGRAKHN RYEEIDCLINDDATIKGRREGSEVYMPFSWMEKYFEVYGKVVQYDGYDRFEFSHSYSKVYAQREQYHPNGVFMSFEGYNVEVRDRVKCISGVEGVPLSTQWGPQGYFYAIQIAQYGLSHYSKNLTERPPHVEVYDTAEERSAWTVPKGCSLTRVYDKTRATSVREFSAPENSEGVSLPLGNTKDFIISFDLKFTSNGSVSVILETTEKGPPFVIHYVTTTQLILLKDRDITYGIGPRTTWTTVTRDLLTDLRKGIGLSNTKAVKATKTMPRRVVKLVVHGTGTIDNITISTTSHMAAFYAASDWLVRNQDERGGWPIMVTRKLGEGFRALEPGWYSAMAQGQAMSTLVRAYLMTKDDRYLKAALRATGPFKLPSEQHGVKAVFMNKYDWYEEYPTIPSSFVLNGFIYSLIGLFDLAQTAGEKLGRDAGQLYSKGMESLKVMLPLYDTGSGTIYDLRHFILGTAPNLARWDYHTTHINQLQLLGTIDNSPIFRDSVKRWKSYLKGGRAKHN 4pw8-a1-m1-cD_4pw8-a1-m1-cB Human tryptophan 2,3-dioxygenase P48775 P48775 2.902 X-RAY DIFFRACTION 35 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 288 296 LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPGFQSLQFRLLENKIGVLENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGRYKVFVDLFNLSTYLIPRHWIPKMN LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQNFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLYKVFVDLFNLSTYLIPRHWIPKMN 4pw8-a2-m1-cE_4pw8-a2-m1-cF Human tryptophan 2,3-dioxygenase P48775 P48775 2.902 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 303 4pw8-a1-m1-cB_4pw8-a1-m1-cA 6a4i-a1-m1-cB_6a4i-a1-m1-cA IYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSYKVFVDLFNLSTYLIPRHWIPKMN LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAKEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSRYKVFVDLFNLSTYLIPRHWIPKMN 4pw8-a2-m1-cE_4pw8-a2-m1-cG Human tryptophan 2,3-dioxygenase P48775 P48775 2.902 X-RAY DIFFRACTION 43 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 293 304 4pw8-a1-m1-cA_4pw8-a1-m1-cC IYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSYKVFVDLFNLSTYLIPRHWIPKMN LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAKEEKEEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMRYKVFVDLFNLSTYLIPRHWIPKMN 4pw8-a2-m1-cE_4pw8-a2-m1-cH Human tryptophan 2,3-dioxygenase P48775 P48775 2.902 X-RAY DIFFRACTION 14 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 293 301 4pw8-a1-m1-cD_4pw8-a1-m1-cA IYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSYKVFVDLFNLSTYLIPRHWIPKMN LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAKEEEEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLRYKVFVDLFNLSTYLIPRHWIPKMN 4pwa-a2-m3-cB_4pwa-a2-m3-cD Crystal structure of the c-type cytochrome SorU from Sinorhizobium meliloti Q92M25 Q92M25 2.19 X-RAY DIFFRACTION 40 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 86 87 4pwa-a2-m1-cB_4pwa-a2-m1-cD 4pwa-a2-m1-cB_4pwa-a2-m3-cD 4pwa-a2-m3-cB_4pwa-a2-m1-cD EDKLALGREIFLERSEPQCALCHTLADAEAVGEVGPNLDELKPDAERVNTAVTNGIGPMPANEILTDEEIEAVALYVSTVAGKAKN EEDKLALGREIFLERSEPQCALCHTLADAEAVGEVGPNLDELKPDAERVNTAVTNGIGPMPANEILTDEEIEAVALYVSTVAGKAKN 4pwu-a4-m1-cD_4pwu-a4-m3-cD Crystal structure of a modulator protein MzrA (KPN_03524) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 2.45 A resolution A6TED5 A6TED5 2.45 X-RAY DIFFRACTION 17 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 75 75 4pwu-a3-m1-cB_4pwu-a3-m2-cB 4pwu-a4-m1-cC_4pwu-a4-m3-cC QQEATLAIRPVGQGIGPDGFSVWHHLDANGIRFKSITPQKDGLLIKFDSTAQGAAAKEVLGRALPHGYIIALLED QQEATLAIRPVGQGIGPDGFSVWHHLDANGIRFKSITPQKDGLLIKFDSTAQGAAAKEVLGRALPHGYIIALLED 4pwu-a4-m3-cD_4pwu-a4-m3-cC Crystal structure of a modulator protein MzrA (KPN_03524) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 2.45 A resolution A6TED5 A6TED5 2.45 X-RAY DIFFRACTION 26 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 75 77 4pwu-a1-m1-cA_4pwu-a1-m1-cB 4pwu-a2-m1-cD_4pwu-a2-m1-cC 4pwu-a3-m1-cA_4pwu-a3-m1-cB 4pwu-a3-m2-cA_4pwu-a3-m2-cB 4pwu-a4-m1-cD_4pwu-a4-m1-cC QQEATLAIRPVGQGIGPDGFSVWHHLDANGIRFKSITPQKDGLLIKFDSTAQGAAAKEVLGRALPHGYIIALLED QQEATLAIRPVGQGIGPDGFSVWHHLDANGIRFKSITPQKDGLLIKFDSTAQGAAAKEVLGRALPHGYIIALLEDDN 4pww-a1-m1-cA_4pww-a1-m2-cA Crystal Structure of Engineered Protein. Northeast Structural Genomics Consortium Target OR494. 1.471 X-RAY DIFFRACTION 66 1.0 32630 (synthetic construct) 32630 (synthetic construct) 85 85 MEMDIRFRGDDLEALLKAAIEMIKQALKFGATITLSLDGNDLEIRITGVPEQVRKELAKEAERLAKEFGITVTRTIRGSWSLEHH MEMDIRFRGDDLEALLKAAIEMIKQALKFGATITLSLDGNDLEIRITGVPEQVRKELAKEAERLAKEFGITVTRTIRGSWSLEHH 4pwy-a1-m1-cA_4pwy-a1-m2-cA Crystal structure of a Calmodulin-lysine N-methyltransferase fragment Q7Z624 Q7Z624 1.9 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 GSVRRFESFNLFSVTEGAWVQYTSIFCPEYSISLRHSLNVEDVLTSFDNTGNVCIWPSEEVLAYYCLKHNNIFRALAVCELGGGMTCLAGLMVAISADVKEVLLTDGNEKAIRNVQDIITRNQKAGVFKTQKISSCFLRWDNETDVSQLEGHFDIVMCADCLFLDQYRASLVDAIKRLLQPRGKAMVFAPRRGNTLNQFCNLAEKAGFCIQRHENYDEHISNFHSKLKKENPDIYEENLHYPLLLILTKH GSVRRFESFNLFSVTEGAWVQYTSIFCPEYSISLRHSLNVEDVLTSFDNTGNVCIWPSEEVLAYYCLKHNNIFRALAVCELGGGMTCLAGLMVAISADVKEVLLTDGNEKAIRNVQDIITRNQKAGVFKTQKISSCFLRWDNETDVSQLEGHFDIVMCADCLFLDQYRASLVDAIKRLLQPRGKAMVFAPRRGNTLNQFCNLAEKAGFCIQRHENYDEHISNFHSKLKKENPDIYEENLHYPLLLILTKH 4pxd-a1-m1-cA_4pxd-a1-m1-cB The crystal structure of EcAAH in complex with allantoate P77425 P77425 2.2 X-RAY DIFFRACTION 255 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 411 411 MITHFRQAIEETLPWLSSFGADPAGGMTRLLYSPEWLETQQQFKKRMAASGLETRFDEVGNLYGRLNGTEYPQEVVLSGSHIDTVVNGGNLDGQFGALAAWLAIDWLKTQYGAPLRTVEVVAMAEAEGSRFPYVFWGSKNIFGLANPDDVRNICDAKGNSFVDAMKACGFTLPNAPLTPRQDIKAFVELHIEQGCVLESNGQSIGVVNAIVGQRRYTVTLNGESNHAGTTPMGYRRDTVYAFSRICHQSVEKAKRMGDPLVLTFGKVEPRPNTVNVVPGKTTFTIDCRHTDAAVLRDFTQQLENDMRAICDEMDIGIDIDLWMDEEPVPMNKELVATLTELCEREKLNYRVMHSGAGHDAQIFAPRVPTCMIFIPSINGISHNPAERTNITDLAEGVKTLALMLYQLAWQK MITHFRQAIEETLPWLSSFGADPAGGMTRLLYSPEWLETQQQFKKRMAASGLETRFDEVGNLYGRLNGTEYPQEVVLSGSHIDTVVNGGNLDGQFGALAAWLAIDWLKTQYGAPLRTVEVVAMAEAEGSRFPYVFWGSKNIFGLANPDDVRNICDAKGNSFVDAMKACGFTLPNAPLTPRQDIKAFVELHIEQGCVLESNGQSIGVVNAIVGQRRYTVTLNGESNHAGTTPMGYRRDTVYAFSRICHQSVEKAKRMGDPLVLTFGKVEPRPNTVNVVPGKTTFTIDCRHTDAAVLRDFTQQLENDMRAICDEMDIGIDIDLWMDEEPVPMNKELVATLTELCEREKLNYRVMHSGAGHDAQIFAPRVPTCMIFIPSINGISHNPAERTNITDLAEGVKTLALMLYQLAWQK 4pxe-a1-m1-cA_4pxe-a1-m1-cB The crystal structure of AtUAH in complex with glyoxylate Q8VXY9 Q8VXY9 1.449 X-RAY DIFFRACTION 229 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 423 423 4pxb-a1-m1-cA_4pxb-a1-m1-cB 4pxc-a1-m1-cA_4pxc-a1-m1-cB NLASSLSVDAPGLQNQIDELSSFSDAPSPSVTRVLYTDKDVSARRYVKNLMALAGLTVREDAVGNIFGKWDGLEPNLPAVATGSHIDAIPYSGKYDGVVGVLGAIEAINVLKRSGFKPKRSLEIILFTSEEPTRFGISCLGSRLLAGSKELAEALKTTVVDGQNVSFIEAARSAGYAEDKDDDLSSVFLKKGSYFAFLELHIEQGPILEDEGLDIGVVTAIAAPASLKVEFEGNGGHAGAVLMPYRNDAGLAAAELALAVEKHVLESESIDTVGTVGILELHPGAINSIPSKSHLEIDTRDIDEARRNTVIKKIQESANTIAKKRKVKLSEFKIVNQDPPALSDKLVIKKMAEAATELNLSHKMMISRAYHDSLFMARISPMGMIFIPCYKGYSHKPEEYSSPEDMANGVKVLSLTLAKLSLD NLASSLSVDAPGLQNQIDELSSFSDAPSPSVTRVLYTDKDVSARRYVKNLMALAGLTVREDAVGNIFGKWDGLEPNLPAVATGSHIDAIPYSGKYDGVVGVLGAIEAINVLKRSGFKPKRSLEIILFTSEEPTRFGISCLGSRLLAGSKELAEALKTTVVDGQNVSFIEAARSAGYAEDKDDDLSSVFLKKGSYFAFLELHIEQGPILEDEGLDIGVVTAIAAPASLKVEFEGNGGHAGAVLMPYRNDAGLAAAELALAVEKHVLESESIDTVGTVGILELHPGAINSIPSKSHLEIDTRDIDEARRNTVIKKIQESANTIAKKRKVKLSEFKIVNQDPPALSDKLVIKKMAEAATELNLSHKMMISRAYHDSLFMARISPMGMIFIPCYKGYSHKPEEYSSPEDMANGVKVLSLTLAKLSLD 4pxi-a1-m1-cA_4pxi-a1-m1-cB Elucidation of the Structural and Functional Mechanism of Action of the TetR Family Protein, CprB from S. coelicolor A3(2) O66122 O66122 3.2 X-RAY DIFFRACTION 81 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 194 204 1ui6-a1-m1-cA_1ui6-a1-m1-cB 4pxi-a1-m1-cD_4pxi-a1-m1-cC 5h58-a1-m1-cA_5h58-a1-m1-cB 5h58-a1-m1-cD_5h58-a1-m1-cC LRAEQTRATIIGAAADLFDRRGYESTTLSEIVAHAGVTKGALYFHFAAKEDLAHAILEIQSRTSRRLAKDLDGRGYSSLEALMRLTFGMARLCVQGPVLRAGLRLATAPVRPPLPHPFTEWREIATSRLLDAVRQSDVHQDIDVDSVAHTLVCSVVGTREPRRLAEMWYILIRGMVPVTRRARYVTLAARLEQE LRAEQTRATIIGAAADLFDRRGYESTTLSEIVAHAGVTKGALYFHFAAKEDLAHAILEIQSRTSRRLAKDLDGRGYSSLEALMRLTFGMARLCVQGPVLRAGLRLATAGVPVRPPLPHPFTEWREIATSRLLDAVRQSDVHQDIDVDSVAHTLVCSVVGTRTLEPAGREPRRLAEMWYILIRGMVPVTRRARYVTLAARLEQET 4pxj-a2-m1-cC_4pxj-a2-m2-cC Crystallographic structure of the LZII fragment (anti-parallel orientation) from JIP3 Q9UPT6 Q9UPT6 2.06 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 61 4pxj-a1-m1-cA_4pxj-a1-m1-cB GAMDPEFTKNALNVVKNDLIAKVDQLSGEQEVLRGELEAAKQAKVKLENRIKELEEELKRV GAMDPEFTKNALNVVKNDLIAKVDQLSGEQEVLRGELEAAKQAKVKLENRIKELEEELKRV 4pxl-a1-m1-cA_4pxl-a1-m2-cB Structure of Zm ALDH2-3 (RF2C) in complex with NAD Q8S532 Q8S532 2.25 X-RAY DIFFRACTION 101 1.0 4577 (Zea mays) 4577 (Zea mays) 485 486 4pxl-a1-m2-cA_4pxl-a1-m1-cB VEVRFTKLFIDGKFVDAVSGKTFETRDPRTGEVIASIAEGDKADVDLAVKAAREAFDNGPWPRMTGYERGRILHRFADLIDEHVEELAALDTVDAGKLFAVGKARDIPGAAHLLRYYAGAADKVHGATLKMAQRMHGYTLKEPVGVVGHIVPWNYPTTMFFFKVGPALAAGCAVVVKPAEQTPLSALFYAHLAREAGVPAGVLNVVPGFGPTAGAAVAAHMDVDKVSFTGSTEVGRLVMRAAAESNLKPVSLELGGKSPVIVFDDADLDMAVNLVNFATYTNKGEIVAGTRIYVQEGIYDEFVKKAAELASKSVVGDPFNPSVSQGPQVDKDQYEKVLRYIDIGKREGATLVTGGKPCGDKGYYIEPTIFTDVKDDMTIAQDEIFGPVMALMKFKTVEEVIQKANNTRYGLAAGIVTKNIDVANTVSRSIRAGAIWINCYFAFDPDAPFGGYKMSGFGKDMGMDALDKYLQTKTVVTPLYNTPWL VEVRFTKLFIDGKFVDAVSGKTFETRDPRTGEVIASIAEGDKADVDLAVKAAREAFDNGPWPRMTGYERGRILHRFADLIDEHVEELAALDTVDAGKLFAVGKARDIPGAAHLLRYYAGAADKVHGATLKMAQRMHGYTLKEPVGVVGHIVPWNYPTTMFFFKVGPALAAGCAVVVKPAEQTPLSALFYAHLAREAGVPAGVLNVVPGFGPTAGAAVAAHMDVDKVSFTGSTEVGRLVMRAAAESNLKPVSLELGGKSPVIVFDDADLDMAVNLVNFATYTNKGEICVAGTRIYVQEGIYDEFVKKAAELASKSVVGDPFNPSVSQGPQVDKDQYEKVLRYIDIGKREGATLVTGGKPCGDKGYYIEPTIFTDVKDDMTIAQDEIFGPVMALMKFKTVEEVIQKANNTRYGLAAGIVTKNIDVANTVSRSIRAGAIWINCYFAFDPDAPFGGYKMSGFGKDMGMDALDKYLQTKTVVTPLYNTPWL 4pxl-a1-m1-cB_4pxl-a1-m2-cB Structure of Zm ALDH2-3 (RF2C) in complex with NAD Q8S532 Q8S532 2.25 X-RAY DIFFRACTION 73 1.0 4577 (Zea mays) 4577 (Zea mays) 486 486 4pxl-a1-m1-cA_4pxl-a1-m2-cA VEVRFTKLFIDGKFVDAVSGKTFETRDPRTGEVIASIAEGDKADVDLAVKAAREAFDNGPWPRMTGYERGRILHRFADLIDEHVEELAALDTVDAGKLFAVGKARDIPGAAHLLRYYAGAADKVHGATLKMAQRMHGYTLKEPVGVVGHIVPWNYPTTMFFFKVGPALAAGCAVVVKPAEQTPLSALFYAHLAREAGVPAGVLNVVPGFGPTAGAAVAAHMDVDKVSFTGSTEVGRLVMRAAAESNLKPVSLELGGKSPVIVFDDADLDMAVNLVNFATYTNKGEICVAGTRIYVQEGIYDEFVKKAAELASKSVVGDPFNPSVSQGPQVDKDQYEKVLRYIDIGKREGATLVTGGKPCGDKGYYIEPTIFTDVKDDMTIAQDEIFGPVMALMKFKTVEEVIQKANNTRYGLAAGIVTKNIDVANTVSRSIRAGAIWINCYFAFDPDAPFGGYKMSGFGKDMGMDALDKYLQTKTVVTPLYNTPWL VEVRFTKLFIDGKFVDAVSGKTFETRDPRTGEVIASIAEGDKADVDLAVKAAREAFDNGPWPRMTGYERGRILHRFADLIDEHVEELAALDTVDAGKLFAVGKARDIPGAAHLLRYYAGAADKVHGATLKMAQRMHGYTLKEPVGVVGHIVPWNYPTTMFFFKVGPALAAGCAVVVKPAEQTPLSALFYAHLAREAGVPAGVLNVVPGFGPTAGAAVAAHMDVDKVSFTGSTEVGRLVMRAAAESNLKPVSLELGGKSPVIVFDDADLDMAVNLVNFATYTNKGEICVAGTRIYVQEGIYDEFVKKAAELASKSVVGDPFNPSVSQGPQVDKDQYEKVLRYIDIGKREGATLVTGGKPCGDKGYYIEPTIFTDVKDDMTIAQDEIFGPVMALMKFKTVEEVIQKANNTRYGLAAGIVTKNIDVANTVSRSIRAGAIWINCYFAFDPDAPFGGYKMSGFGKDMGMDALDKYLQTKTVVTPLYNTPWL 4pxl-a1-m2-cA_4pxl-a1-m2-cB Structure of Zm ALDH2-3 (RF2C) in complex with NAD Q8S532 Q8S532 2.25 X-RAY DIFFRACTION 174 1.0 4577 (Zea mays) 4577 (Zea mays) 485 486 4pxl-a1-m1-cA_4pxl-a1-m1-cB VEVRFTKLFIDGKFVDAVSGKTFETRDPRTGEVIASIAEGDKADVDLAVKAAREAFDNGPWPRMTGYERGRILHRFADLIDEHVEELAALDTVDAGKLFAVGKARDIPGAAHLLRYYAGAADKVHGATLKMAQRMHGYTLKEPVGVVGHIVPWNYPTTMFFFKVGPALAAGCAVVVKPAEQTPLSALFYAHLAREAGVPAGVLNVVPGFGPTAGAAVAAHMDVDKVSFTGSTEVGRLVMRAAAESNLKPVSLELGGKSPVIVFDDADLDMAVNLVNFATYTNKGEIVAGTRIYVQEGIYDEFVKKAAELASKSVVGDPFNPSVSQGPQVDKDQYEKVLRYIDIGKREGATLVTGGKPCGDKGYYIEPTIFTDVKDDMTIAQDEIFGPVMALMKFKTVEEVIQKANNTRYGLAAGIVTKNIDVANTVSRSIRAGAIWINCYFAFDPDAPFGGYKMSGFGKDMGMDALDKYLQTKTVVTPLYNTPWL VEVRFTKLFIDGKFVDAVSGKTFETRDPRTGEVIASIAEGDKADVDLAVKAAREAFDNGPWPRMTGYERGRILHRFADLIDEHVEELAALDTVDAGKLFAVGKARDIPGAAHLLRYYAGAADKVHGATLKMAQRMHGYTLKEPVGVVGHIVPWNYPTTMFFFKVGPALAAGCAVVVKPAEQTPLSALFYAHLAREAGVPAGVLNVVPGFGPTAGAAVAAHMDVDKVSFTGSTEVGRLVMRAAAESNLKPVSLELGGKSPVIVFDDADLDMAVNLVNFATYTNKGEICVAGTRIYVQEGIYDEFVKKAAELASKSVVGDPFNPSVSQGPQVDKDQYEKVLRYIDIGKREGATLVTGGKPCGDKGYYIEPTIFTDVKDDMTIAQDEIFGPVMALMKFKTVEEVIQKANNTRYGLAAGIVTKNIDVANTVSRSIRAGAIWINCYFAFDPDAPFGGYKMSGFGKDMGMDALDKYLQTKTVVTPLYNTPWL 4pxn-a1-m1-cA_4pxn-a1-m2-cB Structure of Zm ALDH7 in complex with NAD C0PHD8 C0PHD8 2.94 X-RAY DIFFRACTION 63 1.0 4577 (Zea mays) 4577 (Zea mays) 498 498 4pxn-a1-m1-cB_4pxn-a1-m2-cA KEEHQFLAELGLAQRNPGAFACGAWGGSGPTVTSTSPTNNQVIAEVVEASVHDYEEGMRACFDAAKTWMAIPAPKRGEIVRQIGDALRAKLHHLGRLVSLEMGKILPEGIGEVQEIIDMCDYAVGLSRQLNGSIIPSERPNHMMMEVWNPLGVVGVITAFNFPCAVLGWNACIALVCGNCVVWKGAPTTPLITIAMTKIVASVLEKNNLPGAIFTSFCGGTEIGQAIALDIRIPLVSFTGSTRAGLMVQQQVSARFGKCLLELSGNNAIIVMDDADIQLAVRSVLFAAVGTAGQRCTTCRRLILHENIYQTFLDQLVEVYKQVRIGDPLEKGTLLGPLHTPASKENFLKGIQTIKSQGGKILFGGSAIESEGNFVQPTIVEITPSAPVVKEELFGPVLYVMKFQTLKEAIEINNSVPQGLSSSIFTKRPDIIFKWLGPHGSDCGIVNVNIPTNGAEIGGAFGGEKATGGGREAGSDSWKQYMRRATCTINYGSELPLA KEEHQFLAELGLAQRNPGAFACGAWGGSGPTVTSTSPTNNQVIAEVVEASVHDYEEGMRACFDAAKTWMAIPAPKRGEIVRQIGDALRAKLHHLGRLVSLEMGKILPEGIGEVQEIIDMCDYAVGLSRQLNGSIIPSERPNHMMMEVWNPLGVVGVITAFNFPCAVLGWNACIALVCGNCVVWKGAPTTPLITIAMTKIVASVLEKNNLPGAIFTSFCGGTEIGQAIALDIRIPLVSFTGSTRAGLMVQQQVSARFGKCLLELSGNNAIIVMDDADIQLAVRSVLFAAVGTAGQRCTTCRRLILHENIYQTFLDQLVEVYKQVRIGDPLEKGTLLGPLHTPASKENFLKGIQTIKSQGGKILFGGSAIESEGNFVQPTIVEITPSAPVVKEELFGPVLYVMKFQTLKEAIEINNSVPQGLSSSIFTKRPDIIFKWLGPHGSDCGIVNVNIPTNGAEIGGAFGGEKATGGGREAGSDSWKQYMRRATCTINYGSELPLA 4pxn-a1-m1-cB_4pxn-a1-m2-cB Structure of Zm ALDH7 in complex with NAD C0PHD8 C0PHD8 2.94 X-RAY DIFFRACTION 177 1.0 4577 (Zea mays) 4577 (Zea mays) 498 498 4pxn-a1-m1-cA_4pxn-a1-m2-cA KEEHQFLAELGLAQRNPGAFACGAWGGSGPTVTSTSPTNNQVIAEVVEASVHDYEEGMRACFDAAKTWMAIPAPKRGEIVRQIGDALRAKLHHLGRLVSLEMGKILPEGIGEVQEIIDMCDYAVGLSRQLNGSIIPSERPNHMMMEVWNPLGVVGVITAFNFPCAVLGWNACIALVCGNCVVWKGAPTTPLITIAMTKIVASVLEKNNLPGAIFTSFCGGTEIGQAIALDIRIPLVSFTGSTRAGLMVQQQVSARFGKCLLELSGNNAIIVMDDADIQLAVRSVLFAAVGTAGQRCTTCRRLILHENIYQTFLDQLVEVYKQVRIGDPLEKGTLLGPLHTPASKENFLKGIQTIKSQGGKILFGGSAIESEGNFVQPTIVEITPSAPVVKEELFGPVLYVMKFQTLKEAIEINNSVPQGLSSSIFTKRPDIIFKWLGPHGSDCGIVNVNIPTNGAEIGGAFGGEKATGGGREAGSDSWKQYMRRATCTINYGSELPLA KEEHQFLAELGLAQRNPGAFACGAWGGSGPTVTSTSPTNNQVIAEVVEASVHDYEEGMRACFDAAKTWMAIPAPKRGEIVRQIGDALRAKLHHLGRLVSLEMGKILPEGIGEVQEIIDMCDYAVGLSRQLNGSIIPSERPNHMMMEVWNPLGVVGVITAFNFPCAVLGWNACIALVCGNCVVWKGAPTTPLITIAMTKIVASVLEKNNLPGAIFTSFCGGTEIGQAIALDIRIPLVSFTGSTRAGLMVQQQVSARFGKCLLELSGNNAIIVMDDADIQLAVRSVLFAAVGTAGQRCTTCRRLILHENIYQTFLDQLVEVYKQVRIGDPLEKGTLLGPLHTPASKENFLKGIQTIKSQGGKILFGGSAIESEGNFVQPTIVEITPSAPVVKEELFGPVLYVMKFQTLKEAIEINNSVPQGLSSSIFTKRPDIIFKWLGPHGSDCGIVNVNIPTNGAEIGGAFGGEKATGGGREAGSDSWKQYMRRATCTINYGSELPLA 4pxn-a1-m2-cA_4pxn-a1-m2-cB Structure of Zm ALDH7 in complex with NAD C0PHD8 C0PHD8 2.94 X-RAY DIFFRACTION 40 1.0 4577 (Zea mays) 4577 (Zea mays) 498 498 4pxn-a1-m1-cA_4pxn-a1-m1-cB KEEHQFLAELGLAQRNPGAFACGAWGGSGPTVTSTSPTNNQVIAEVVEASVHDYEEGMRACFDAAKTWMAIPAPKRGEIVRQIGDALRAKLHHLGRLVSLEMGKILPEGIGEVQEIIDMCDYAVGLSRQLNGSIIPSERPNHMMMEVWNPLGVVGVITAFNFPCAVLGWNACIALVCGNCVVWKGAPTTPLITIAMTKIVASVLEKNNLPGAIFTSFCGGTEIGQAIALDIRIPLVSFTGSTRAGLMVQQQVSARFGKCLLELSGNNAIIVMDDADIQLAVRSVLFAAVGTAGQRCTTCRRLILHENIYQTFLDQLVEVYKQVRIGDPLEKGTLLGPLHTPASKENFLKGIQTIKSQGGKILFGGSAIESEGNFVQPTIVEITPSAPVVKEELFGPVLYVMKFQTLKEAIEINNSVPQGLSSSIFTKRPDIIFKWLGPHGSDCGIVNVNIPTNGAEIGGAFGGEKATGGGREAGSDSWKQYMRRATCTINYGSELPLA KEEHQFLAELGLAQRNPGAFACGAWGGSGPTVTSTSPTNNQVIAEVVEASVHDYEEGMRACFDAAKTWMAIPAPKRGEIVRQIGDALRAKLHHLGRLVSLEMGKILPEGIGEVQEIIDMCDYAVGLSRQLNGSIIPSERPNHMMMEVWNPLGVVGVITAFNFPCAVLGWNACIALVCGNCVVWKGAPTTPLITIAMTKIVASVLEKNNLPGAIFTSFCGGTEIGQAIALDIRIPLVSFTGSTRAGLMVQQQVSARFGKCLLELSGNNAIIVMDDADIQLAVRSVLFAAVGTAGQRCTTCRRLILHENIYQTFLDQLVEVYKQVRIGDPLEKGTLLGPLHTPASKENFLKGIQTIKSQGGKILFGGSAIESEGNFVQPTIVEITPSAPVVKEELFGPVLYVMKFQTLKEAIEINNSVPQGLSSSIFTKRPDIIFKWLGPHGSDCGIVNVNIPTNGAEIGGAFGGEKATGGGREAGSDSWKQYMRRATCTINYGSELPLA 4pxo-a1-m1-cB_4pxo-a1-m1-cA Crystal structure of Maleylacetoacetate isomerase from Methylobacteriu extorquens AM1 WITH BOUND MALONATE AND GSH (TARGET EFI-507068) C5ATQ9 C5ATQ9 1.8 X-RAY DIFFRACTION 132 1.0 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 214 216 4px1-a1-m1-cB_4px1-a1-m1-cA VKMYGNWRSAAAFRVRIALNLKGIAYEEVFLDLDAGDQHKPDFLAINPQGAVPALFDGDGPPLTQSLAILDYLEETRTGVPLLPEEPRARARARSLAQVVACDTHPLYVPRVRTFLMENYGLPRERMLEFLRNAFITGLKTLETRLSNEAGTGRFCQGDAVSHADLCLISLWVGTGIFGIDTAAYPTVKRISEEVLALDAVARAHPLRQPGAPA SMVKMYGNWRSAAAFRVRIALNLKGIAYEEVFLDLDAGDQHKPDFLAINPQGAVPALFDGDGPPLTQSLAILDYLEETRTGVPLLPEEPRARARARSLAQVVACDTHPLYVPRVRTFLMENYGLPRERMLEFLRNAFITGLKTLETRLSNEAGTGRFCQGDAVSHADLCLISLWVGTGIFGIDTAAYPTVKRISEEVLALDAVARAHPLRQPGAPA 4py6-a2-m1-cD_4py6-a2-m1-cB Crystal Structure of bromodomain of PFA0510w from Plasmodium Falciparum Q8I240 Q8I240 2.5 X-RAY DIFFRACTION 37 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 128 131 4py6-a1-m1-cC_4py6-a1-m1-cA RLLKQWEKILRDNVLKLLKNDNNAFYFKTPVLEDININDNIKEEYRIKIKKPMDYITISRNLSDGIYKEPIDFYHDMKLIYKNCIDFNPDIEENKYIIEAAKSSDMKFEFLWNKWKEKINNNFCDLNN SNKRLLKQWEKILRDNVLKLLKNDNNAFYFKTPVLEDININDNIKEEYRIKIKKPMDYITISRNLSDGIYKEPIDFYHDMKLIYKNCIDFNPDIEENKYIIEAAKSSDMKFEFLWNKWKEKINNNFCDLNN 4py9-a2-m1-cA_4py9-a2-m2-cA Crystal structure of an exopolyphosphatase-related protein from Bacteroides Fragilis. Northeast Structural Genomics target BFR192 Q64PD9 Q64PD9 2.25 X-RAY DIFFRACTION 112 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 329 329 3w5w-a1-m1-cA_3w5w-a1-m2-cA LTKVIAQAHIDHFTKWFERADKIVIVSHVSPDGDAIGSSLGLYHFLDSQDKIVNVIVPNAFPDFLKWPGSKDILLYDRYQEFADKLIEADVICCLDFNALKRIDESDIVAASPGRKIIDHHLYPEDFCRITISHPEISSTSELVFRLICRGYFSDISKEGAECIYTGTDTGGFTYNSNNREIYFIISELLSKGIDKDDIYRKVYNTYSESRLRLGYVLSNKVYKDYNSALISLTKEEQGKFDYIKGDSEGFVNIPLSIKNVCFSCFLREDTEIKISLRSVGKFPCNRLAAEFFNGGGHLNASGGEFYGTEEAVKVFEQALEKYKPLLKE LTKVIAQAHIDHFTKWFERADKIVIVSHVSPDGDAIGSSLGLYHFLDSQDKIVNVIVPNAFPDFLKWPGSKDILLYDRYQEFADKLIEADVICCLDFNALKRIDESDIVAASPGRKIIDHHLYPEDFCRITISHPEISSTSELVFRLICRGYFSDISKEGAECIYTGTDTGGFTYNSNNREIYFIISELLSKGIDKDDIYRKVYNTYSESRLRLGYVLSNKVYKDYNSALISLTKEEQGKFDYIKGDSEGFVNIPLSIKNVCFSCFLREDTEIKISLRSVGKFPCNRLAAEFFNGGGHLNASGGEFYGTEEAVKVFEQALEKYKPLLKE 4pyj-a2-m1-cA_4pyj-a2-m2-cA human apo-COMT, single domain swap P21964 P21964 1.9 X-RAY DIFFRACTION 203 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 4pyk-a2-m1-cA_4pyk-a2-m2-cA DTKEQRILNHVLQHAEPGNAQSVLEAIDTYCEQKGDKKGKIVDAVIQEHQPSVLLELGAYCGYSAVRMARLLSPGARLITIEINPDCAAITQRMVDFAGVKDKVTLVVGASQDIIPQLKKKYDVDTLDMVFLDHWKDRYLPDTLLLEECGLLRKGTVLLADNVICPGAPDFLAHVRGSSCFECTHYQSFLEYREVVDGLEKAIYKGPG DTKEQRILNHVLQHAEPGNAQSVLEAIDTYCEQKGDKKGKIVDAVIQEHQPSVLLELGAYCGYSAVRMARLLSPGARLITIEINPDCAAITQRMVDFAGVKDKVTLVVGASQDIIPQLKKKYDVDTLDMVFLDHWKDRYLPDTLLLEECGLLRKGTVLLADNVICPGAPDFLAHVRGSSCFECTHYQSFLEYREVVDGLEKAIYKGPG 4pz1-a1-m1-cA_4pz1-a1-m2-cA Crystal structure of a sHIP (UniProt Id: Q99XU0) mutant from Streptococcus pyogenes Q99XU0 Q99XU0 1.73 X-RAY DIFFRACTION 174 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 97 97 4mer-a1-m1-cB_4mer-a1-m1-cA MKQDQLIVEKMEQTYEAFSPKLANLIEALDAFKEHYEEYATLRNFYSSDEWFRLANQPWDDIPSGVLSEDLLFDMIGDHNQLAADIADLAPIMAKHM MKQDQLIVEKMEQTYEAFSPKLANLIEALDAFKEHYEEYATLRNFYSSDEWFRLANQPWDDIPSGVLSEDLLFDMIGDHNQLAADIADLAPIMAKHM 4pz2-a1-m1-cA_4pz2-a1-m1-cD Structure of Zm ALDH2-6 (RF2F) in complex with NAD W8SZG1 W8SZG1 2.4 X-RAY DIFFRACTION 94 0.998 4577 (Zea mays) 4577 (Zea mays) 491 491 4pz2-a1-m1-cC_4pz2-a1-m1-cB LFDVPEIRFTKLFINGSFVDAVSGRTFDTRDPRTGGVIASVAEADKEDVDLAVRAARAAFDHGEWPRMSGSERGRIMARLADLVEEHAGELAALESLDAGKHPAVTRAVDVGNAAGSLRYFAGAADKIHGETLKMPGQFQGHTLREPLGVAGVIIPWNFPSTMFAVKVAPALAAGCALVVKPAEQTPLSALYLAQLAKQAGVPDGVINVVPGFGPTAGAALASHMDVDMVSFTGSTEVGRLIMKASAESNLKPVYLELGGKSPLIVFDDADLDMAVELAVGASFFNKGEACVAASRVYVQERVYDRFEERLAERMRSWVVGDPFSDPRADQGPQVDKAQYERVLSYIDHGKREGATLLTGGRPCAPKGYYIEPTVFTNVKEDMIIAKEEIFGPVMCLMKFKTVEEAIARANDTRYGLGAGVVTRDLDVANRVVRSVRAGVVWVNCYFAMGSDCPFGGRKMSGFGKDEGMHALDKYLAVKSVVTPLRASPWI LLFDVPEIRFTKLFINGSFVDAVSGRTFDTRDPRTGGVIASVAEADKEDVDLAVRAARAAFDHGEWPRMSGSERGRIMARLADLVEEHAGELAALESLDAGKHPAVTRAVDVGNAAGSLRYFAGAADKIHGETLKMPGQFQGHTLREPLGVAGVIIPWNFPSTMFAVKVAPALAAGCALVVKPAEQTPLSALYLAQLAKQAGVPDGVINVVPGFGPTAGAALASHMDVDMVSFTGSTEVGRLIMKASAESNLKPVYLELGGKSPLIVFDDADLDMAVELAVGASFFNKGEACVAASRVYVQERVYDRFEERLAERMRSWVVGDPFSDPRADQGPQVDKAQYERVLSYIDHGKREGATLLTGGRPCAPGYYIEPTVFTNVKEDMIIAKEEIFGPVMCLMKFKTVEEAIARANDTRYGLGAGVVTRDLDVANRVVRSVRAGVVWVNCYFAMGSDCPFGGRKMSGFGKDEGMHALDKYLAVKSVVTPLRASPWI 4pz2-a1-m1-cC_4pz2-a1-m1-cD Structure of Zm ALDH2-6 (RF2F) in complex with NAD W8SZG1 W8SZG1 2.4 X-RAY DIFFRACTION 73 0.998 4577 (Zea mays) 4577 (Zea mays) 491 491 4pz2-a1-m1-cA_4pz2-a1-m1-cB LFDVPEIRFTKLFINGSFVDAVSGRTFDTRDPRTGGVIASVAEADKEDVDLAVRAARAAFDHGEWPRMSGSERGRIMARLADLVEEHAGELAALESLDAGKHPAVTRAVDVGNAAGSLRYFAGAADKIHGETLKMPGQFQGHTLREPLGVAGVIIPWNFPSTMFAVKVAPALAAGCALVVKPAEQTPLSALYLAQLAKQAGVPDGVINVVPGFGPTAGAALASHMDVDMVSFTGSTEVGRLIMKASAESNLKPVYLELGGKSPLIVFDDADLDMAVELAVGASFFNKGEACVAASRVYVQERVYDRFEERLAERMRSWVVGDPFSDPRADQGPQVDKAQYERVLSYIDHGKREGATLLTGGRPCAPKGYYIEPTVFTNVKEDMIIAKEEIFGPVMCLMKFKTVEEAIARANDTRYGLGAGVVTRDLDVANRVVRSVRAGVVWVNCYFAMGSDCPFGGRKMSGFGKDEGMHALDKYLAVKSVVTPLRASPWI LLFDVPEIRFTKLFINGSFVDAVSGRTFDTRDPRTGGVIASVAEADKEDVDLAVRAARAAFDHGEWPRMSGSERGRIMARLADLVEEHAGELAALESLDAGKHPAVTRAVDVGNAAGSLRYFAGAADKIHGETLKMPGQFQGHTLREPLGVAGVIIPWNFPSTMFAVKVAPALAAGCALVVKPAEQTPLSALYLAQLAKQAGVPDGVINVVPGFGPTAGAALASHMDVDMVSFTGSTEVGRLIMKASAESNLKPVYLELGGKSPLIVFDDADLDMAVELAVGASFFNKGEACVAASRVYVQERVYDRFEERLAERMRSWVVGDPFSDPRADQGPQVDKAQYERVLSYIDHGKREGATLLTGGRPCAPGYYIEPTVFTNVKEDMIIAKEEIFGPVMCLMKFKTVEEAIARANDTRYGLGAGVVTRDLDVANRVVRSVRAGVVWVNCYFAMGSDCPFGGRKMSGFGKDEGMHALDKYLAVKSVVTPLRASPWI 4pz2-a1-m1-cD_4pz2-a1-m1-cB Structure of Zm ALDH2-6 (RF2F) in complex with NAD W8SZG1 W8SZG1 2.4 X-RAY DIFFRACTION 171 1.0 4577 (Zea mays) 4577 (Zea mays) 491 494 4pz2-a1-m1-cA_4pz2-a1-m1-cC LLFDVPEIRFTKLFINGSFVDAVSGRTFDTRDPRTGGVIASVAEADKEDVDLAVRAARAAFDHGEWPRMSGSERGRIMARLADLVEEHAGELAALESLDAGKHPAVTRAVDVGNAAGSLRYFAGAADKIHGETLKMPGQFQGHTLREPLGVAGVIIPWNFPSTMFAVKVAPALAAGCALVVKPAEQTPLSALYLAQLAKQAGVPDGVINVVPGFGPTAGAALASHMDVDMVSFTGSTEVGRLIMKASAESNLKPVYLELGGKSPLIVFDDADLDMAVELAVGASFFNKGEACVAASRVYVQERVYDRFEERLAERMRSWVVGDPFSDPRADQGPQVDKAQYERVLSYIDHGKREGATLLTGGRPCAPGYYIEPTVFTNVKEDMIIAKEEIFGPVMCLMKFKTVEEAIARANDTRYGLGAGVVTRDLDVANRVVRSVRAGVVWVNCYFAMGSDCPFGGRKMSGFGKDEGMHALDKYLAVKSVVTPLRASPWI LLFDVPEIRFTKLFINGSFVDAVSGRTFDTRDPRTGGVIASVAEADKEDVDLAVRAARAAFDHGEWPRMSGSERGRIMARLADLVEEHAGELAALESLDAGKHPAVTRAVDVGNAAGSLRYFAGAADKIHGETLKMPGQFQGHTLREPLGVAGVIIPWNFPSTMFAVKVAPALAAGCALVVKPAEQTPLSALYLAQLAKQAGVPDGVINVVPGFGPTAGAALASHMDVDMVSFTGSTEVGRLIMKASAESNLKPVYLELGGKSPLIVFDDADLDMAVELAVGASFFNKGEACVAASRVYVQERVYDRFEERLAERMRSWVVGDPFSDPRADQGPQVDKAQYERVLSYIDHGKREGATLLTGGRPCAPEGKGYYIEPTVFTNVKEDMIIAKEEIFGPVMCLMKFKTVEEAIARANDTRYGLGAGVVTRDLDVANRVVRSVRAGVVWVNCYFAMGSDCPFGGRKMSGFGKDEGMHALDKYLAVKSVVTPLRASPWI 4pz3-a1-m1-cA_4pz3-a1-m1-cB High-resolution crystal structure of the human CD44 hyaluronan binding domain complex with undefined peptides P16070 P16070 1.083 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 151 AQIDLNITCRFAGVFHVEKNGRYSISRTEAADLCKAFNSTLPTMAQMEKALSIGFETCRYGFIEGHVVIPRIHPNSICAANNTGVYILTSNTSQYDTYCFNASAPPEEDCTSVTDLPNAFDGPITITIVNRDGTRYVQKGEYRTNPEDIY AQIDLNITCRFAGVFHVEKNGRYSISRTEAADLCKAFNSTLPTMAQMEKALSIGFETCRYGFIEGHVVIPRIHPNSICAANNTGVYILTSNTSQYDTYCFNASAPPEEDCTSVTDLPNAFDGPITITIVNRDGTRYVQKGEYRTNPEDIYP 4pzf-a6-m1-cD_4pzf-a6-m1-cB Berberine bridge enzyme G164A variant, a reticuline dehydrogenase P30986 P30986 2.2 X-RAY DIFFRACTION 30 1.0 3467 (Eschscholzia californica) 3467 (Eschscholzia californica) 497 498 4pzf-a5-m1-cC_4pzf-a5-m1-cA DLLSCLTFNGVRNHTVFSADSDSDFNRFLHLSIQNPLFQNSLISKPSAIILPGSKEELSNTIRCIRKGSWTIRLRSGGHSYEGLSYTSDTPFILIDLMNLNRVSIDLESETAWVESGSTLGELYYAITESSSKLGFTAAWCPTVGTGGHISGGGFGMMSRKYGLAADNVVDAILIDANGAILDRQAMGEDVFWAIRGGGGGVWGAIYAWKIKLLPVPEKVTVFRVTKNVAIDEATSLLHKWQFVAEELEEDFTLSVLGGADEKQVWLTMLGFHFGLKTVAKSTFDLLFPELGLVEEDYLEMSWGESFAYLAGLETVSQLNNRFLKFDERAFKTKVDLTKEPLPSKAFYGLLERLSKEPNGFIALNGFGGQMSKISSDFTPFPHRSGTRLMVEYIVAWNQSEQKKKTEFLDWLEKVYEFMKPFVSKNPRLGYVNHIDLDLGGIDWGNKTVVNNAIEISRSWGESYFLSNYERLIRAKTLIDPNNVFNHPQSIPPMANF NDLLSCLTFNGVRNHTVFSADSDSDFNRFLHLSIQNPLFQNSLISKPSAIILPGSKEELSNTIRCIRKGSWTIRLRSGGHSYEGLSYTSDTPFILIDLMNLNRVSIDLESETAWVESGSTLGELYYAITESSSKLGFTAAWCPTVGTGGHISGGGFGMMSRKYGLAADNVVDAILIDANGAILDRQAMGEDVFWAIRGGGGGVWGAIYAWKIKLLPVPEKVTVFRVTKNVAIDEATSLLHKWQFVAEELEEDFTLSVLGGADEKQVWLTMLGFHFGLKTVAKSTFDLLFPELGLVEEDYLEMSWGESFAYLAGLETVSQLNNRFLKFDERAFKTKVDLTKEPLPSKAFYGLLERLSKEPNGFIALNGFGGQMSKISSDFTPFPHRSGTRLMVEYIVAWNQSEQKKKTEFLDWLEKVYEFMKPFVSKNPRLGYVNHIDLDLGGIDWGNKTVVNNAIEISRSWGESYFLSNYERLIRAKTLIDPNNVFNHPQSIPPMANF 4pzj-a1-m1-cA_4pzj-a1-m2-cA 1.60 Angstrom resolution crystal structure of a transcriptional regulator of the LysR family from Eggerthella lenta DSM 2243 C8WJY2 C8WJY2 1.6 X-RAY DIFFRACTION 39 1.0 479437 (Eggerthella lenta DSM 2243) 479437 (Eggerthella lenta DSM 2243) 67 67 LDFRVETFLTVRTNYTRAAEELNITQPAVSQHIAHLERDYGVPLFAYRNKKLQLTDAGALLRDALST LDFRVETFLTVRTNYTRAAEELNITQPAVSQHIAHLERDYGVPLFAYRNKKLQLTDAGALLRDALST 4pzk-a1-m1-cA_4pzk-a1-m1-cB Crystal strucrure of putative RNA methyltransferase from Bacillus anthracis. A0A6L7HQJ3 A0A6L7HQJ3 1.5 X-RAY DIFFRACTION 118 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 159 159 GVHVVLYQPEIPANTGNIARTCAATGTELHLIRPLGFSTDDKMLKRAGLDYWQHVKITYYDSIEEFYEKNKDGEFFYLTKYGEKAHTAFDYSKREKDYYFVFGRETNGLPANVIEENFDHCLRIPMTDKVRSLNLSNTAAILIYEAFRQQNYPGLDLEI GVHVVLYQPEIPANTGNIARTCAATGTELHLIRPLGFSTDDKMLKRAGLDYWQHVKITYYDSIEEFYEKNKDGEFFYLTKYGEKAHTAFDYSKREKDYYFVFGRETNGLPANVIEENFDHCLRIPMTDKVRSLNLSNTAAILIYEAFRQQNYPGLDLEI 4pzl-a2-m1-cD_4pzl-a2-m1-cC The crystal structure of adenylate kinase from Francisella tularensis subsp. tularensis SCHU S4 Q5NFR4 Q5NFR4 2.1 X-RAY DIFFRACTION 73 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 216 217 4pzl-a1-m1-cA_4pzl-a1-m1-cB ARIILLGAPGAGKGTQAKIIEQKYNIAHISTGDIRETIKSGSALGQELKKVLDAGELVSDEFIIKIVKDRISKNDCNNGFLLDGVPRTIPQAQELDKLGVNIDYIVEVDVADNLLIERITGRRIHPASGRTYHTKFNPPKVADKDDVTGEPLITRTDDNEDTVKQRLSVYHAQTAKLIDFYRNFSSTNTKIPKYIKINGDQAVEKVSQDIFDQLNK NARIILLGAPGAGKGTQAKIIEQKYNIAHISTGDIRETIKSGSALGQELKKVLDAGELVSDEFIIKIVKDRISKNDCNNGFLLDGVPRTIPQAQELDKLGVNIDYIVEVDVADNLLIERITGRRIHPASGRTYHTKFNPPKVADKDDVTGEPLITRTDDNEDTVKQRLSVYHAQTAKLIDFYRNFSSTNTKIPKYIKINGDQAVEKVSQDIFDQLNK 4pzn-a1-m1-cB_4pzn-a1-m1-cA Crystal structure of PHC3 SAM L971E Q8NDX5 Q8NDX5 2.3 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 70 4pzn-a1-m1-cA_4pzn-a1-m1-cC 4pzn-a1-m1-cB_4pzn-a1-m1-cD 4pzn-a1-m1-cE_4pzn-a1-m1-cD 4pzo-a1-m1-cA_4pzo-a1-m1-cB 4pzo-a1-m1-cB_4pzo-a1-m1-cC 4pzo-a1-m1-cD_4pzo-a1-m1-cC 4pzo-a1-m1-cD_4pzo-a1-m1-cE 4pzo-a1-m1-cF_4pzo-a1-m1-cE TEPSIWTVDDVWAFIHSLPGCQDIADEFRAQEIDGQALLLLKEDHLMSAMNIKLGPAEKICARINSLKE TEPSIWTVDDVWAFIHSLPGCQDIADEFRAQEIDGQALLLLKEDHLMSAMNIKLGPAEKICARINSLKES 4pzu-a4-m1-cH_4pzu-a4-m1-cG Crystal structure of a putative uncharacterize protein Rv3404c and likely sugar N-formyltransferase from Mycobacterium tuberculosis P9WKZ3 P9WKZ3 2.1 X-RAY DIFFRACTION 109 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 231 232 4pzu-a1-m1-cB_4pzu-a1-m1-cA 4pzu-a2-m1-cC_4pzu-a2-m1-cD 4pzu-a3-m1-cE_4pzu-a3-m1-cF 4q12-a1-m1-cA_4q12-a1-m1-cB 5vyq-a1-m1-cB_5vyq-a1-m1-cA MVTILILTDNVHAHALAVDLQARHGDMDVYQSPIGQLPGVPRCDVAERVAEIVERYDLVLSFHCKQRFPAALIDGVRCVNVHPGFNPYNRGWFPQVFSIIDGQKVGVTIHEIDDQLDHGPIIAQRECAIESWDSSGSVYARLMDIERELVLEHFDAIRDGSYTAKSPATEGNLNLKKDFEQLRRLDLNERGTFGHFLNRLRALTHDDFRNAWFVDASGRKVFVRVVLEPEK MVTILILTDNVHAHALAVDLQARHGDMDVYQSPIGQLPGVPRCDVAERVAEIVERYDLVLSFHCKQRFPAALIDGVRCVNVHPGFNPYNRGWFPQVFSIIDGQKVGVTIHEIDDQLDHGPIIAQRECAIESWDSSGSVYARLMDIERELVLEHFDAIRDGSYTAKSPATEGNLNLKKDFEQLRRLDLNERGTFGHFLNRLRALTHDDFRNAWFVDASGRKVFVRVVLEPEKP 4q05-a1-m1-cA_4q05-a1-m1-cB Crystal structure of an esterase E25 B8Y553 B8Y553 2.05 X-RAY DIFFRACTION 171 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 327 327 ENSWQIGPRTLPAPSGASDVLYNIISKTPTPVPTINLNLVPRTESEWRAAITQLDEGKVDMAREISKQLSVSVEHGVIEGVSVYYVTPVEVAPDLEDKLFVHTHGGAFVLNGGEAGTIEAIVIATLAKVRVLSIDYRMPPSHPAPAARDDVFTVYQHLLKQGSAQKIALGGSSGGANLTMGLVQHLIEQEVDLPGALFLGTPGADMSKTGDSYYINDGIDRNLVTYDGFLEAAVRLYANGRDLKDPLVSPLYGDLHGFPPTFLITGTRDLLLSATVRTHIKLRQSGVVADLFVYEGIAHGDYAVDLTAPETQHAFAELNAFLLQHLR ENSWQIGPRTLPAPSGASDVLYNIISKTPTPVPTINLNLVPRTESEWRAAITQLDEGKVDMAREISKQLSVSVEHGVIEGVSVYYVTPVEVAPDLEDKLFVHTHGGAFVLNGGEAGTIEAIVIATLAKVRVLSIDYRMPPSHPAPAARDDVFTVYQHLLKQGSAQKIALGGSSGGANLTMGLVQHLIEQEVDLPGALFLGTPGADMSKTGDSYYINDGIDRNLVTYDGFLEAAVRLYANGRDLKDPLVSPLYGDLHGFPPTFLITGTRDLLLSATVRTHIKLRQSGVVADLFVYEGIAHGDYAVDLTAPETQHAFAELNAFLLQHLR 4q0c-a2-m1-cC_4q0c-a2-m1-cD 3.1 A resolution crystal structure of the B. pertussis BvgS periplasmic domain P16575 P16575 3.1 X-RAY DIFFRACTION 267 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 513 513 4q0c-a1-m1-cA_4q0c-a1-m1-cB SQELTLVGKAAVPDVEVALDGDDWRWLARKRVLTLGVYAPDIPPFDVTYGERYEGLTADYMAIIAHNLGMQAKVLRYPTREQALSALESGQIDLIGTVNGTDGRQQSLRLSVPYAADHPVIVMPIGARHVPASNLAGQRLAVDINYLPKETLARAYPQATLHYFPSSEQALAAVAYGQADVFIGDALTTSHLVSQSYFNDVRVVAPAHIATGGESFGVRADNTRLLRVVNAVLEAIPPSEHRSLIYRWGLGSSISLDFAHPAYSAREQQWMADHPVVKVAVLNLFAPFTLFRTDEQFGGISAAVLQLLQLRTGLDFEIIGVDTVEELIAKLRSGEADMAGALFVNSARESFLSFSRPYVRNGMVIVTRQDPDAPVDADHLDGRTVALVRNSAAIPLLQRRYPQAKVVTADNPSEAMLMVANGQADAVVQTQISASYYVNRYFAGKLRIASALDLPPAEIALATTRGQTELMSILNKALYSISNDELASIISRWRGSDGDPRTWYAYRNEIYLE SQELTLVGKAAVPDVEVALDGDDWRWLARKRVLTLGVYAPDIPPFDVTYGERYEGLTADYMAIIAHNLGMQAKVLRYPTREQALSALESGQIDLIGTVNGTDGRQQSLRLSVPYAADHPVIVMPIGARHVPASNLAGQRLAVDINYLPKETLARAYPQATLHYFPSSEQALAAVAYGQADVFIGDALTTSHLVSQSYFNDVRVVAPAHIATGGESFGVRADNTRLLRVVNAVLEAIPPSEHRSLIYRWGLGSSISLDFAHPAYSAREQQWMADHPVVKVAVLNLFAPFTLFRTDEQFGGISAAVLQLLQLRTGLDFEIIGVDTVEELIAKLRSGEADMAGALFVNSARESFLSFSRPYVRNGMVIVTRQDPDAPVDADHLDGRTVALVRNSAAIPLLQRRYPQAKVVTADNPSEAMLMVANGQADAVVQTQISASYYVNRYFAGKLRIASALDLPPAEIALATTRGQTELMSILNKALYSISNDELASIISRWRGSDGDPRTWYAYRNEIYLE 4q0f-a1-m1-cC_4q0f-a1-m2-cC Crystal Structure of Thermotoga maritima FtsH Periplasmic domain Q9WZ49 Q9WZ49 1.948 X-RAY DIFFRACTION 12 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 66 66 KLSYTSFVQVEDERSVVSEVVIRDDGVLRVYTKDGRVYEVDAPWAVNDSQLIEKLVSKGIKVSGER KLSYTSFVQVEDERSVVSEVVIRDDGVLRVYTKDGRVYEVDAPWAVNDSQLIEKLVSKGIKVSGER 4q0m-a1-m1-cA_4q0m-a1-m2-cA Crystal structure of Pyrococcus furiosus L-asparaginase Q8TZE8 Q8TZE8 2.226 X-RAY DIFFRACTION 201 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 327 327 5b5u-a1-m1-cB_5b5u-a1-m2-cB 5b74-a1-m1-cB_5b74-a1-m2-cB 5cbp-a1-m1-cB_5cbp-a1-m2-cB MMKILLIGMGGTIASVKGENGYEASLSVKEVLDIAGIKDCEDCDFLDLKNVDSTLIQPEDWVDLAETLYKNVKKYDGIIVTHGTDTLAYTSSMISFMLRNPPIPIVFTGSMIPATEENSDAPLNLQTAIKFATSGIRGVYVAFNGKVMLGVRTSKVRTMSRDAFESINYPIIAELRGEDLVVNFIPKFNNGEVTLDLRHDPKVLVIKLIPGLSGDIFRAAVELGYRGIVIEGYGAGGIPYRGSDLLQTIEELSKEIPIVMTTQAMYDGVDLTRYKVGRLALRAGVIPAGDMTKEATVTKLMWILGHTNNVEEIKVLMRKNLVGELRD MMKILLIGMGGTIASVKGENGYEASLSVKEVLDIAGIKDCEDCDFLDLKNVDSTLIQPEDWVDLAETLYKNVKKYDGIIVTHGTDTLAYTSSMISFMLRNPPIPIVFTGSMIPATEENSDAPLNLQTAIKFATSGIRGVYVAFNGKVMLGVRTSKVRTMSRDAFESINYPIIAELRGEDLVVNFIPKFNNGEVTLDLRHDPKVLVIKLIPGLSGDIFRAAVELGYRGIVIEGYGAGGIPYRGSDLLQTIEELSKEIPIVMTTQAMYDGVDLTRYKVGRLALRAGVIPAGDMTKEATVTKLMWILGHTNNVEEIKVLMRKNLVGELRD 4q0y-a1-m1-cA_4q0y-a1-m1-cB Crystal structure of a thioesterase-like protein (CLOSPO_01618) from Clostridium sporogenes ATCC 15579 at 1.70 A resolution J7SH17 J7SH17 1.7 X-RAY DIFFRACTION 38 0.984 471871 (Clostridium sporogenes ATCC 15579) 471871 (Clostridium sporogenes ATCC 15579) 129 130 GREISSLSSIDVFKFNSFSKFSNDKIGVIYDEEKLSKFKVINSLDTSEGIKKIEVPKDANIESFKYSYHIQPNLKYVEDNNVYDGYFLLYILVGDSEGKSYIIFSGTELSYVLDKNNTNILKEIFLNVK EISSLSSIDVFKFNSFSKFSNDKIGVIYDEEKLSKFKVINSLDTSEGIKKIEVPKDANIESFKYSYHIQPNLKYVEDNNVYDGYFLLYILVGDSEGKSYIIFSGTELSYVLDKNNTNILKEIFLNVKKQQ 4q14-a1-m1-cA_4q14-a1-m1-cB Crystal structure of 5-hydroxyisourate hydrolase from Brucella melitensis Q2YMM2 Q2YMM2 1.7 X-RAY DIFFRACTION 73 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 118 118 MGKLSTHVLDTAHGTPAAAMRVELYRIAASGTPELLKRVVTNLDGRTDAPLLSGDEMRTGIYELQFHVAEYFEGRGAELAHEPFLDLIPIRFGIADEDGNYHVPLLVSPWSYSTYRGS MGKLSTHVLDTAHGTPAAAMRVELYRIAASGTPELLKRVVTNLDGRTDAPLLSGDEMRTGIYELQFHVAEYFEGRGAELAHEPFLDLIPIRFGIADEDGNYHVPLLVSPWSYSTYRGS 4q16-a2-m1-cC_4q16-a2-m1-cD Structure of NAD+ Synthetase from Deinococcus radiodurans Q9RYV5 Q9RYV5 2.6 X-RAY DIFFRACTION 181 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 255 271 4q16-a1-m1-cB_4q16-a1-m1-cA LRSHIIRELHVQPDIDPGAEVERRVAFLCDYLQSTPTKGFVLGISGGQDSTLAGRLCQLAVERRRSQGHGATFLAVRLPYGVQADEADAQQALDFIQADREVTVNIKEAADASVAAAQAALGSEVRDFVRGNVKARERMVAQYALAGQENLLVVGTDHAAEALTGFYTKYGDGGVDLTPLSGLTKRQGAQLLAHLGAPEGTWDEVALGVTYAQIDAYLEGREVSDEAAARLERLFLNSRHKRALPVTPFDGWWQP LSPLRSHIIRELHVQPDIDPGAEVERRVAFLCDYLQSTPTKGFVLGISGGQDSTLAGRLCQLAVERRRSQGHGATFLAVRLPYGVQADEADAQQALDFIQADREVTVNIKEAADASVAAAQAALGSEVRDFVRGNVKARERMVAQYALAGQENLLVVGTDHAAEALTGFYTKYGDGGVDLTPLSGLTKRQGAQLLAHLGAPEGTWRKVPTADRPGLPDEVALGVTYAQIDAYLEGREVSDEAAARLERLFLNSRHKRALPVTPFDGWWQPG 4q1r-a1-m1-cA_4q1r-a1-m1-cB Galectin-1 in Complex with Ligand AN027 P09382 P09382 1.47 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 1gzw-a1-m1-cA_1gzw-a1-m1-cB 1w6m-a1-m1-cA_1w6m-a1-m1-cB 1w6n-a1-m1-cA_1w6n-a1-m1-cB 1w6o-a1-m1-cA_1w6o-a1-m1-cB 1w6p-a1-m1-cA_1w6p-a1-m1-cB 1w6q-a1-m1-cA_1w6q-a1-m1-cB 2km2-a1-m1-cA_2km2-a1-m1-cB 2zkn-a1-m1-cA_2zkn-a1-m1-cB 3oy8-a1-m1-cA_3oy8-a1-m1-cB 3oyw-a1-m1-cA_3oyw-a1-m1-cB 3t2t-a1-m1-cA_3t2t-a1-m1-cB 3w58-a1-m1-cA_3w58-a1-m1-cB 3w58-a2-m1-cC_3w58-a2-m1-cD 3w59-a1-m1-cA_3w59-a1-m1-cB 3w59-a2-m1-cD_3w59-a2-m1-cC 4q1p-a1-m1-cA_4q1p-a1-m1-cB 4q26-a1-m1-cA_4q26-a1-m1-cB 4q26-a2-m1-cG_4q26-a2-m1-cH 4q27-a1-m1-cA_4q27-a1-m1-cB 4q2f-a1-m1-cA_4q2f-a1-m1-cB 4xbl-a1-m1-cA_4xbl-a1-m1-cB 4y1u-a1-m1-cA_4y1u-a1-m1-cB 4y1v-a1-m1-cA_4y1v-a1-m1-cB 4y1x-a1-m1-cA_4y1x-a1-m1-cB 4y1y-a1-m1-cA_4y1y-a1-m1-cB 4y1z-a1-m1-cA_4y1z-a1-m1-cB 4y20-a1-m1-cB_4y20-a1-m1-cA 4y22-a1-m1-cA_4y22-a1-m1-cB 4y24-a1-m1-cA_4y24-a1-m1-cB 5mwt-a1-m1-cA_5mwt-a1-m1-cB 5mwx-a1-m1-cA_5mwx-a1-m1-cB 6f83-a1-m1-cA_6f83-a1-m1-cB 7lta-a1-m1-cA_7lta-a1-m1-cB 7nml-a1-m1-cA_7nml-a1-m1-cB CGLVASNLNLKPGELRVRGEVAPDAKSFVLNLGKDSNNLCLHFNPRFNAHGDANTIVCNSKDGGAWGTEQREAVFPFQPGSVAEVITFDQANLTVKLPDGYEFKFPNRLNLEAINYMAADGDFKIKVAFD CGLVASNLNLKPGELRVRGEVAPDAKSFVLNLGKDSNNLCLHFNPRFNAHGDANTIVCNSKDGGAWGTEQREAVFPFQPGSVAEVITFDQANLTVKLPDGYEFKFPNRLNLEAINYMAADGDFKIKVAFD 4q1t-a1-m1-cD_4q1t-a1-m1-cA Crystal structure of a glutamate 5-kinase from Burkholderia thailandensis Q2SZF9 Q2SZF9 2.15 X-RAY DIFFRACTION 55 0.982 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 331 340 4q1t-a1-m1-cC_4q1t-a1-m1-cB PGSMRSIIADSKRLVVKVGSSLVTNDGLDHDAIGRWAAQIAALRNEGKEVVLVSSGAIAEGMQRLGWSRRPREIDELQAAAAVGQMGLAQVYESRFAEHGIRTAQILLTHADLADRERYLNARSTLLTLLRLGVVPIINENDTVVTDEIKFGDNDTLGALVANLIEGDALIILTDQMLTKILAAKRAAHSGANTVIASGRERDVLLRLASGEAIGTQLIARTARMAARKQWMADHLQVRGHVVIDAGAVDKLTAGGKSLLPIGVVAVQGVFARGEVIACVNDAGREVARGITNYSSAEAKLIQRKPSGEIEAVLGYMLEPELIHRDNLVLV MRSIIADSKRLVVKVGSSLVTNGLDHDAIGRWAAQIAALRNEGKEVVLVSSGAIAEGMQRLGWSRRPREIDELQAAAAVGQMGLAQVYESRFAEHGIRTAQILLTHADLADRERYLNARSTLLTLLRLGVVPIINENDTVVTDEIKDNDTLGALVANLIEGDALIILTDQQGLLVAEASAGAPELMLTKILAAKRAAHSGANTVIASGRERDVLLRLASGEAIGTQLIARTARMAARKQWMADHLQVRGHVVIDAGAVDKLTAGGKSLLPIGVVAVQGVFARGEVIACVNDAGREVARGITNYSSAEAKLIQRKPSGEIEAVLGYMLEPELIHRDNLVLV 4q1t-a1-m1-cD_4q1t-a1-m1-cB Crystal structure of a glutamate 5-kinase from Burkholderia thailandensis Q2SZF9 Q2SZF9 2.15 X-RAY DIFFRACTION 152 0.991 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 331 353 4q1t-a1-m1-cA_4q1t-a1-m1-cC PGSMRSIIADSKRLVVKVGSSLVTNDGLDHDAIGRWAAQIAALRNEGKEVVLVSSGAIAEGMQRLGWSRRPREIDELQAAAAVGQMGLAQVYESRFAEHGIRTAQILLTHADLADRERYLNARSTLLTLLRLGVVPIINENDTVVTDEIKFGDNDTLGALVANLIEGDALIILTDQMLTKILAAKRAAHSGANTVIASGRERDVLLRLASGEAIGTQLIARTARMAARKQWMADHLQVRGHVVIDAGAVDKLTAGGKSLLPIGVVAVQGVFARGEVIACVNDAGREVARGITNYSSAEAKLIQRKPSGEIEAVLGYMLEPELIHRDNLVLV MRSIIADSKRLVVKVGSSLVTNDGRGLDHDAIGRWAAQIAALRNEGKEVVLVSSGAIAEGMQRLGWSRRPREIDELQAAAAVGQMGLAQVYESRFAEHGIRTAQILLTHADLADRERYLNARSTLLTLLRLGVVPIINENDTVVTDEIKFGDNDTLGALVANLIEGDALIILTDQQGLFTTLVAEASAGAPELEAMAGMLTKILAAKRAAHSGANTVIASGRERDVLLRLASGEAIGTQLIARTARMAARKQWMADHLQVRGHVVIDAGAVDKLTAGGKSLLPIGVVAVQGVFARGEVIACVNDAGREVARGITNYSSAEAKLIQRKPSGEIEAVLGYMLEPELIHRDNLVLV 4q1t-a1-m1-cD_4q1t-a1-m1-cC Crystal structure of a glutamate 5-kinase from Burkholderia thailandensis Q2SZF9 Q2SZF9 2.15 X-RAY DIFFRACTION 23 0.988 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 331 351 4q1t-a1-m1-cA_4q1t-a1-m1-cB PGSMRSIIADSKRLVVKVGSSLVTNDGLDHDAIGRWAAQIAALRNEGKEVVLVSSGAIAEGMQRLGWSRRPREIDELQAAAAVGQMGLAQVYESRFAEHGIRTAQILLTHADLADRERYLNARSTLLTLLRLGVVPIINENDTVVTDEIKFGDNDTLGALVANLIEGDALIILTDQMLTKILAAKRAAHSGANTVIASGRERDVLLRLASGEAIGTQLIARTARMAARKQWMADHLQVRGHVVIDAGAVDKLTAGGKSLLPIGVVAVQGVFARGEVIACVNDAGREVARGITNYSSAEAKLIQRKPSGEIEAVLGYMLEPELIHRDNLVLV MRSIIADSKRLVVKVGSSLVTNGLDHDAIGRWAAQIAALRNEGKEVVLVSSGAIAEGMQRLGWSRRPREIDELQAAAAVGQMGLAQVYESRFAEHGIRTAQILLTHADLADRERYLNARSTLLTLLRLGVVPIINENDTVVTDEIKFGDNDTLGALVANLIEGDALIILTDQQGLFTATLVAEASAGAPELEAMAGMLTKILAAKRAAHSGANTVIASGRERDVLLRLASGEAIGTQLIARTARMAARKQWMADHLQVRGHVVIDAGAVDKLTAGGKSLLPIGVVAVQGVFARGEVIACVNDAGREVARGITNYSSAEAKLIQRKPSGEIEAVLGYMLEPELIHRDNLVLV 4q1v-a1-m1-cA_4q1v-a1-m1-cB Crystal structure of a putative dipeptidyl aminopeptidase IV (BACOVA_01349) from Bacteroides ovatus ATCC 8483 at 2.48 A resolution A7LU53 A7LU53 2.48 X-RAY DIFFRACTION 86 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 689 689 TKKPTLEELIPGGESYLYAENLYGLQWWGDECIKPGVDTLYSIQPKTGKETVITREQINKVLEENKAGKLSHLYSVRFPWTDKAQLFTIAGKFIVYNFKNNQVVSTFKPKDGANNEDYCAASGNVAYTIDNNLYVNEKAVTNEPEGIVCGQTVHRNEFGINKGTFWSPKGNLLAFYRDESVTQYPLVDITARVGEVNNVRYPAGTSHQVKVGIYNPATGKSIYLNAGDPTDRYFTNISWAPDEKSLYLIEVNRDQNHAKLCQYNAETGEPGVLYEEHPKYVEPQNPIVFLPWDPTKFIYQSQRDGYNHLYLFETNAANKGETYNSANGGSYFQAGKVKQLTKGNWLVSEILGFNTKRKEVIFTAVEGLRSGHFAVNVSNGKISQPFENCKESEHSGTLSASGTYLIDRYSTKDQPRVINLVDTKNFKETANLLTAENPYDGYQPSIETGTIKAADGTTDLHYRLKPANFDPAKKYPVIVYVYGGPHAQCVTGGWQNGARGWDTYASKGYIFTIDNRGSSNRGLTFENATFRRLGIEEGKDQVKGVEFLKSLPYVDSERIGVHGWSFGGHTTALLRYPEIFKVGVAGGPVIDWGYYEIYGERYDTPESNPEGYKECNLKNLADQLKGHLLIIHDDHDDTCVPQHTLSFKACVDARTYPDLFIYPCHKHNVAGRDRVHLHEKITRYFEQNL TKKPTLEELIPGGESYLYAENLYGLQWWGDECIKPGVDTLYSIQPKTGKETVITREQINKVLEENKAGKLSHLYSVRFPWTDKAQLFTIAGKFIVYNFKNNQVVSTFKPKDGANNEDYCAASGNVAYTIDNNLYVNEKAVTNEPEGIVCGQTVHRNEFGINKGTFWSPKGNLLAFYRDESVTQYPLVDITARVGEVNNVRYPAGTSHQVKVGIYNPATGKSIYLNAGDPTDRYFTNISWAPDEKSLYLIEVNRDQNHAKLCQYNAETGEPGVLYEEHPKYVEPQNPIVFLPWDPTKFIYQSQRDGYNHLYLFETNAANKGETYNSANGGSYFQAGKVKQLTKGNWLVSEILGFNTKRKEVIFTAVEGLRSGHFAVNVSNGKISQPFENCKESEHSGTLSASGTYLIDRYSTKDQPRVINLVDTKNFKETANLLTAENPYDGYQPSIETGTIKAADGTTDLHYRLKPANFDPAKKYPVIVYVYGGPHAQCVTGGWQNGARGWDTYASKGYIFTIDNRGSSNRGLTFENATFRRLGIEEGKDQVKGVEFLKSLPYVDSERIGVHGWSFGGHTTALLRYPEIFKVGVAGGPVIDWGYYEIYGERYDTPESNPEGYKECNLKNLADQLKGHLLIIHDDHDDTCVPQHTLSFKACVDARTYPDLFIYPCHKHNVAGRDRVHLHEKITRYFEQNL 4q20-a1-m1-cB_4q20-a1-m1-cA Crystal structure of a C-terminal part of tyrosine kinase (DivL) from Caulobacter crescentus CB15 at 2.50 A resolution (PSI Community Target, Shapiro) Q9RQQ9 Q9RQQ9 2.5 X-RAY DIFFRACTION 107 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 225 231 ALADRSAALAEAERLKRDFVGNVSYELRTPLTTIIGYSELLERADSERGRNHVAAVRAAATQLARSIDDVLDMAQIDAGEMALEIEDIRVSDLLLNAQERALKDAQLGGVTLAVECEEDVGLIRGDGKRLAQTLDHLVENALRQTPPGGRVTLSARRALGEVRLDVSDTGRGVPFHVQAHIFDRFVGGPGLGLALVKALVELHGGWVALESEPGNGSTFTCHLPE ALADRSAALAEAERLKRDFVGNVSYELRTPLTTIIGYSELLERADSERGRNHVAAVRAAATQLARSIDDVLDMAQIDAGEMALEIEDIRVSDLLLNAQERALKDAQLGGVTLAVECEEDVGLIRGDGKRLAQTLDHLVENALRQTPPGGRVTLSARRALGEVRLDVSDTGRGVPFHVQAHIFDRFVGRDRGGPGLGLALVKALVELHGGWVALESEPGNGSTFTCHLPETQ 4q25-a1-m1-cB_4q25-a1-m1-cA Crystal structure of PhoU from Pseudomonas aeruginosa Q51547 Q51547 2.28 X-RAY DIFFRACTION 52 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 209 211 QFNAELEDVRSHLLAMGGLVEKQVNDAVNALIDADSGLAQQVREIDDQINQMERNIDEECVRILARRQPAASDLRLIISISKSVIDLERIGDEASKVARRAIQLCEEGESPRGYVEVRHIGSQVQKMVQEALDAFARFDADLALSVAQYDKTVDREYKTALRELVTYMMEDPRAISRVLNIIWALRSLERIGDHARNIAELVIYLVRGT SQQFNAELEDVRSHLLAMGGLVEKQVNDAVNALIDADSGLAQQVREIDDQINQMERNIDEECVRILARRQPAASDLRLIISISKSVIDLERIGDEASKVARRAIQLCEEGESPRGYVEVRHIGSQVQKMVQEALDAFARFDADLALSVAQYDKTVDREYKTALRELVTYMMEDPRAISRVLNIIWALRSLERIGDHARNIAELVIYLVRGT 4q29-a1-m1-cB_4q29-a1-m1-cA Ensemble Refinement of plu4264 protein from Photorhabdus luminescens Q7MZL9 Q7MZL9 1.349 X-RAY DIFFRACTION 89 1.0 243265 (Photorhabdus laumondii subsp. laumondii TTO1) 243265 (Photorhabdus laumondii subsp. laumondii TTO1) 117 118 4mv2-a1-m1-cB_4mv2-a1-m1-cA NIIRKDWDSVHEYDLDGSRLLPWEGLNTPFGGAWCIVRPETKSFRHSHNEYELFIVIQGNAIIRINDEDFPVTKGDLIIIPLDSEHHVINNNQEDFHFYTIWWDKESTLNFLTRLEQ NIIRKDWDSVHEYDLDGSRLLPWEGLNTPFGGAWCIVRPETKSFRHSHNEYELFIVIQGNAIIRINDEDFPVTKGDLIIIPLDSEHHVINNNQEDFHFYTIWWDKESTLNFLTRLEQD 4q2b-a3-m1-cE_4q2b-a3-m1-cF The crystal structure of an endo-1,4-D-glucanase from Pseudomonas putida KT2440 Q88JL2 Q88JL2 2.12 X-RAY DIFFRACTION 50 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 339 340 4q2b-a1-m1-cA_4q2b-a1-m1-cB 4q2b-a2-m1-cC_4q2b-a2-m1-cD AWPAWERFKAELVSVDGRVIDPSDERLITTSEGQSYALFFALVGNDRQTFAQLLRWTSNNLAEGDLARHLPAWLWGRDGQQQWQVLDANNASDADLWIAYSLLEAGRLWDQPAYTQLGQHLLWRIAAQTVRKLPGLGVLLPGDYGFEDAQGTRLNPSYLPLQLLDRFSDVDPLWGELAANTRRLWLASSPKGFAPDWLLWTPAGKPAADTKHGNAGDYDAIRVYLWVGLAEGAAQRRELVAHYAPAALTQRQGLPPEHLDARSGEARGHGPAGFSAALLPLLAASPEHVAGLAAQRQRLREQPVEAKAYYSQVLALFGQGFDEARYRFDPHGRLLPAWS NAWPAWERFKAELVSVDGRVIDPSDERLITTSEGQSYALFFALVGNDRQTFAQLLRWTSNNLAEGDLARHLPAWLWGRDGQQQWQVLDANNASDADLWIAYSLLEAGRLWDQPAYTQLGQHLLWRIAAQTVRKLPGLGVLLPGDYGFEDAQGTRLNPSYLPLQLLDRFSDVDPLWGELAANTRRLWLASSPKGFAPDWLLWTPAGKPAADTKHGNAGDYDAIRVYLWVGLAEGAAQRRELVAHYAPAALTQRQGLPPEHLDARSGEARGHGPAGFSAALLPLLAASPEHVAGLAAQRQRLREQPVEAKAYYSQVLALFGQGFDEARYRFDPHGRLLPAWS 4q2g-a1-m1-cA_4q2g-a1-m1-cB CRYSTAL STRUCTURE OF AN INTRAMEMBRANE CDP-DAG SYNTHETASE CENTRAL FOR PHOSPHOLIPID BIOSYNTHESIS (S200C/S223C, inactive mutant) Q9X1B7 Q9X1B7 3.4 X-RAY DIFFRACTION 125 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 261 269 4q2e-a1-m1-cA_4q2e-a1-m1-cB TASVVAPFVVLCFVSYESLIGLVSAILILAGYELITLEMKERDARFFYVILLALYPVLYGLVFEEPTQPLSILFITGVVFSLITDKDPSQVFKTVAAFSIALIYVTFFLSFFLPIYRDFGAANALLVLTSTWVFDSFAYFTGLKFGRTRISPRYSPRKSLEGVIGGFLGVVIYTFLYRLVVNDLLSVNVICFRTFLPFAATVAIMDTFGDIFESALKRHYGVKDSGKTLPGHGGMLDRIDGLLFVAPVCYIVFKILEGVVR DDLKTRVITASVVAPFVVLCFVSYESLIGLVSAILILAGYELITLEMKERDARFFYVILLALYPVLYGLVFEEPTQPLSILFITGVVFSLITDKDPSQVFKTVAAFSIALIYVTFFLSFFLPIYRDFGAANALLVLTSTWVFDSFAYFTGLKFGRTRISPRYSPRKSLEGVIGGFLGVVIYTFLYRLVVNDLLSVNVICFRTFLPFAATVAIMDTFGDIFESALKRHYGVKDSGKTLPGHGGMLDRIDGLLFVAPVCYIVFKILEGVVR 4q2h-a1-m1-cB_4q2h-a1-m1-cA Crystal structure of probable proline racemase from agrobacterium radiobacter K84, TARGET EFI-506561, with bound carbonate B9J8G8 B9J8G8 1.8 X-RAY DIFFRACTION 142 1.0 311403 (Agrobacterium radiobacter K84) 311403 (Agrobacterium radiobacter K84) 339 345 TIQLLDVHCEGEIGRVAIGGVPKIPGNTVAEQLHWLNTDPKGEELRRFLVLEPRGAPIGSVNLLLPARHPDADAAFIILQPDQAHASSGSNSICVTTALLESGIVEMKEPETVVTLETAAGLVRATATCRDGRCEKVRLTMVPSFVHELDVGIDTPQWGRIKLDLCYGGIFYALVDVGQIGLTIGKANAASLVQAGMVLKELINRTVPVVHPEIPAISGVAYVMFRDIDADGAIRTCTTMWPGRADRSPGTGNSANLATLHARGKARVGDVFKSRSIIGSEFEVGLQAETEVAGKPAIIPTITGRGFTFGLSQVALDPFDPMANGFALTDVWGPLAGDI SMRWKRTIQLLDVHCEGEIGRVAIGGVPKIPGNTVAEQLHWLNTDPKGEELRRFLVLEPRGAPIGSVNLLLPARHPDADAAFIILQPDQAHASSGSNSICVTTALLESGIVEMKEPETVVTLETAAGLVRATATCRDGRCEKVRLTMVPSFVHELDVGIDTPQWGRIKLDLCYGGIFYALVDVGQIGLTIGKANAASLVQAGMVLKELINRTVPVVHPEIPAISGVAYVMFRDIDADGAIRTCTTMWPGRADRSPGTGNSANLATLHARGKARVGDVFKSRSIIGSEFEVGLQAETEVAGKPAIIPTITGRGFTFGLSQVALDPFDPMANGFALTDVWGPLAGDI 4q2j-a1-m1-cB_4q2j-a1-m1-cD A novel structure-based mechanism for DNA-binding of SATB1 Q60611 Q60611 2.603 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 94 169 PGSGTMLPVFCVVEHEEHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQLH PGSGTMLPVFCVVEHYEEHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQLHCPKLEDLPPEQWSHTTVRNALKDLLKDMNQSSLAKECPLSQSMISSIVNSTYYANVSAAKCQEFGRWYKHFKKT 4q2j-a1-m1-cC_4q2j-a1-m1-cA A novel structure-based mechanism for DNA-binding of SATB1 Q60611 Q60611 2.603 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 92 169 GSGTMLPVFCVVEHEHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQLH GPGSGTMLPVFCVVEHKEEHAEFVLVRKDMLFNQLIEMALLSLGYSHSSAAQAKGLIQVGKWNPVPLSYVTDAPDATVADMLQDVYHVVTLKIQLHSCPKLEDLPPEQWSHTTVRNALKDLLKDMNQSSLAKECPLSQSMISSIVNSTYYANVSAAKCQEFGRWYKHFK 4q2k-a2-m1-cB_4q2k-a2-m1-cC Bovine alpha chymotrypsin bound to a cyclic peptide inhibitor, 5b P00766 P00766 2.2 X-RAY DIFFRACTION 17 0.991 9913 (Bos taurus) 9913 (Bos taurus) 231 234 1ab9-a1-m1-cD_1ab9-a1-m1-cC 1ab9-a2-m1-cD_1ab9-a2-m1-cC 1ab9-a2-m2-cD_1ab9-a2-m2-cC 1ab9-a3-m1-cD_1ab9-a3-m1-cC 1ab9-a3-m2-cD_1ab9-a3-m2-cC 1gha-a1-m1-cP_1gha-a1-m1-cG 1gha-a1-m2-cP_1gha-a1-m2-cG 1oxg-a1-m1-cB_1oxg-a1-m1-cA 4q2k-a1-m1-cA_4q2k-a1-m1-cD CGVPAIQPVLSIVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRYTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN CGVPAIQPVLIVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNNNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRYANTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN 4q2l-a1-m1-cA_4q2l-a1-m2-cA Atomic Resolution Structure of the E. coli YajR Transporter YAM Domain 1.071 X-RAY DIFFRACTION 19 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 64 64 PPYVSSLRIEIPADIAANEALKVRLLETEGVKEVLIAEEEHSAYVKIDSKVTNRFEVEQAIRQA PPYVSSLRIEIPADIAANEALKVRLLETEGVKEVLIAEEEHSAYVKIDSKVTNRFEVEQAIRQA 4q2n-a3-m1-cE_4q2n-a3-m1-cF INADL PDZ3 in Complex with a Phage-Derived Peptide Q8NI35 Q8NI35 2 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 98 4q2n-a2-m1-cC_4q2n-a2-m1-cD SHMETYNVELVRKDGQSLGIRIVGYVGTASGIYVKSIIPGSAAYHNGHIQVNDKIVAVDGVNIQGFANHDVVEVLRNAGQVVHLTLVRRGGGWFLDI SHMETYNVELVRKDGQSLGIRIVGYVGTSASGIYVKSIIPGSAAYHNGHIQVNDKIVAVDGVNIQGFANHDVVEVLRNAGQVVHLTLVRRGGGWFLDI 4q2p-a1-m1-cB_4q2p-a1-m1-cA NHERF3 PDZ2 in Complex with a Phage-Derived Peptide Q5T2W1 Q5T2W1 2.05 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 98 PRLCYLVKEGGSYGFSLKTVQGKKGVYMTDITPQGVAMRAGVLADDHLIEVNGENVEDASHEEVVEKVKKSGSRVMFLLVDKKITKF SHMQPRLCYLVKEGGSYGFSLKTVQGKKGVYMTDITPQGVAMRAGVLADDHLIEVNGENVEDASHEEVVEKVKKSGSRVMFLLVDKEAAGGGIKITKF 4q2p-a1-m1-cC_4q2p-a1-m1-cA NHERF3 PDZ2 in Complex with a Phage-Derived Peptide Q5T2W1 Q5T2W1 2.05 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 98 QPRLCYLVKGSYGFSLKTVYMTDITPQGVAMRAGVLADDHLIEVNGENVEDASHEEVVEKVKKSGSRVMFLLVDIKITKF SHMQPRLCYLVKEGGSYGFSLKTVQGKKGVYMTDITPQGVAMRAGVLADDHLIEVNGENVEDASHEEVVEKVKKSGSRVMFLLVDKEAAGGGIKITKF 4q2q-a1-m1-cA_4q2q-a1-m2-cA ZO1 PDZ3 in Complex with a Phage-Derived Peptide Q07157 Q07157 1.45 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 SMKLVKFRKGDSVGLRLAGGNDVGIFVAGVLEDSPAAKEGLEEGDQILRVNNVDFTNIIREEAVLFLLDLPKGEEVTILAQKGLWFSDWL SMKLVKFRKGDSVGLRLAGGNDVGIFVAGVLEDSPAAKEGLEEGDQILRVNNVDFTNIIREEAVLFLLDLPKGEEVTILAQKGLWFSDWL 4q2u-a4-m1-cM_4q2u-a4-m1-cG Crystal structure of the E. coli DinJ-YafQ toxin-antitoxin complex Q47150 Q47150 1.8 X-RAY DIFFRACTION 130 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 82 83 4ml0-a1-m1-cC_4ml0-a1-m1-cA 4ml0-a2-m1-cG_4ml0-a2-m1-cE 4ml0-a3-m1-cI_4ml0-a3-m1-cK 4ml0-a4-m1-cO_4ml0-a4-m1-cM 4q2u-a1-m1-cO_4q2u-a1-m1-cA 4q2u-a2-m1-cK_4q2u-a2-m1-cC 4q2u-a3-m1-cE_4q2u-a3-m1-cI NAFVRARIDEDLKNQAADVLAGGLTISDLVRITLTKVAREKALPFDLREPNQLTIQSIKNSEAGIDVHKAKDADDLFDKLGI ANAFVRARIDEDLKNQAADVLAGGLTISDLVRITLTKVAREKALPFDLREPNQLTIQSIKNSEAGIDVHKAKDADDLFDKLGI 4q34-a1-m1-cA_4q34-a1-m2-cA Crystal structure of a putative esterase (BDI_1566) from Parabacteroides distasonis ATCC 8503 at 1.60 A resolution A6LCA7 A6LCA7 1.6 X-RAY DIFFRACTION 157 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 313 313 ERVLVDEQGSFAVGGTVLVDSLGHTFHGDHAYVFYQKPVGARKYPLVFAHGVGQFSKTWETTPDGREGFQNIFLRRRFCVYLVDQPRRGNAGRGTESVTISPAFDEEVWFNRFRVGIWPDYFEGVQFKRDKETLDQYFRQTPTIGTTDFEVYSDAYAALFDKIGPGVFITHSQGGPVGWNTLLKTRNIKAIASYEPGGAVPFPEGQLPEEAKFITLSKKEGIEVPSVFEYTKVPIVIYYGDNLPETDERPELYEWTRRLRLKIWAKLNDQGGDVTVIHLPEVGLHGNTHFPSDLNNIEVADLLSEWLHTKALD ERVLVDEQGSFAVGGTVLVDSLGHTFHGDHAYVFYQKPVGARKYPLVFAHGVGQFSKTWETTPDGREGFQNIFLRRRFCVYLVDQPRRGNAGRGTESVTISPAFDEEVWFNRFRVGIWPDYFEGVQFKRDKETLDQYFRQTPTIGTTDFEVYSDAYAALFDKIGPGVFITHSQGGPVGWNTLLKTRNIKAIASYEPGGAVPFPEGQLPEEAKFITLSKKEGIEVPSVFEYTKVPIVIYYGDNLPETDERPELYEWTRRLRLKIWAKLNDQGGDVTVIHLPEVGLHGNTHFPSDLNNIEVADLLSEWLHTKALD 4q37-a4-m1-cD_4q37-a4-m1-cF Crystal structure of the hypothetical protein TM0182 Thermotoga maritima, N-terminal domain. Q9WY26 Q9WY26 3.19 X-RAY DIFFRACTION 136 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 120 120 4q37-a1-m1-cE_4q37-a1-m1-cA 4q37-a2-m1-cB_4q37-a2-m2-cB 4q37-a3-m1-cC_4q37-a3-m3-cC MYILFREMKNNWYSLAALLSTIYSRHLDVEARPVKFEEIKKFPPEKTIVAYSFMSFDLDTVREEVKTLKERGYTLIAGGPHVTADPEGCLRMGFDHVFTGDGEENILKFLMGERKKIFDG MYILFREMKNNWYSLAALLSTIYSRHLDVEARPVKFEEIKKFPPEKTIVAYSFMSFDLDTVREEVKTLKERGYTLIAGGPHVTADPEGCLRMGFDHVFTGDGEENILKFLMGERKKIFDG 4q3k-a1-m1-cA_4q3k-a1-m2-cB Crystal structure of MGS-M1, an alpha/beta hydrolase enzyme from a Medee basin deep-sea metagenome library A0A0B5KGV8 A0A0B5KGV8 1.57 X-RAY DIFFRACTION 64 1.0 32644 (unidentified) 32644 (unidentified) 241 242 4q3k-a1-m2-cA_4q3k-a1-m1-cB QGMNISKITINQHVGVTLTCYVQDVSQEMSNMSKRPAMLIFPGGGYQFCSDREAEPIALSYLAKGYNAFVLRYSVKEHAVFPRPLIDAEDALSYLKDNAHALHINPDKIAVIGFSAGGHLATTLATEGKVRPNAVVLGYPALIRHEKYWNFPTPKVDQQTPEMFVFHTFEDDLVPLSHPLYIVEELSKANIPVEFHLFKSGVHGLSLGNKIVSNGLDKMIEDDVQVWFDLSCRWLDKVLDL FQGMNISKITINQHVGVTLTCYVQDVSQEMSNMSKRPAMLIFPGGGYQFCSDREAEPIALSYLAKGYNAFVLRYSVKEHAVFPRPLIDAEDALSYLKDNAHALHINPDKIAVIGFSAGGHLATTLATEGKVRPNAVVLGYPALIRHEKYWNFPTPKVDQQTPEMFVFHTFEDDLVPLSHPLYIVEELSKANIPVEFHLFKSGVHGLSLGNKIVSNGLDKMIEDDVQVWFDLSCRWLDKVLDL 4q3k-a1-m2-cA_4q3k-a1-m2-cB Crystal structure of MGS-M1, an alpha/beta hydrolase enzyme from a Medee basin deep-sea metagenome library A0A0B5KGV8 A0A0B5KGV8 1.57 X-RAY DIFFRACTION 93 1.0 32644 (unidentified) 32644 (unidentified) 241 242 4q3k-a1-m1-cA_4q3k-a1-m1-cB QGMNISKITINQHVGVTLTCYVQDVSQEMSNMSKRPAMLIFPGGGYQFCSDREAEPIALSYLAKGYNAFVLRYSVKEHAVFPRPLIDAEDALSYLKDNAHALHINPDKIAVIGFSAGGHLATTLATEGKVRPNAVVLGYPALIRHEKYWNFPTPKVDQQTPEMFVFHTFEDDLVPLSHPLYIVEELSKANIPVEFHLFKSGVHGLSLGNKIVSNGLDKMIEDDVQVWFDLSCRWLDKVLDL FQGMNISKITINQHVGVTLTCYVQDVSQEMSNMSKRPAMLIFPGGGYQFCSDREAEPIALSYLAKGYNAFVLRYSVKEHAVFPRPLIDAEDALSYLKDNAHALHINPDKIAVIGFSAGGHLATTLATEGKVRPNAVVLGYPALIRHEKYWNFPTPKVDQQTPEMFVFHTFEDDLVPLSHPLYIVEELSKANIPVEFHLFKSGVHGLSLGNKIVSNGLDKMIEDDVQVWFDLSCRWLDKVLDL 4q3l-a2-m1-cE_4q3l-a2-m1-cH Crystal structure of MGS-M2, an alpha/beta hydrolase enzyme from a Medee basin deep-sea metagenome library A0A0B5KBT7 A0A0B5KBT7 3.01 X-RAY DIFFRACTION 104 1.0 32644 (unidentified) 32644 (unidentified) 275 280 4q3l-a1-m1-cA_4q3l-a1-m1-cC 4q3l-a1-m1-cD_4q3l-a1-m1-cB 4q3l-a2-m1-cF_4q3l-a2-m1-cG SIFTYQEKDIYYEIDGTLDINSDVIVILNGIMMSTKSWDAFVENFSKNHVLLRYDMFDQGQSSKIEESYTQTIQVELLKNLLEHLGIAQANIVGISYGASIALQFAAKYPTMIKRMVVANVVAKTSPWLKDIGDGWNEVAKTGNGLAYYHITIPYIYSPQFYTLHNDWMEKRKELLVPLFSTRTFLDRMIRLTKSAETHDVIKDLPNIKTPTLIISSEEDYLTPPFEQKYLQEHLQNAELVSIPNCGHASMYEVPKTFTALVLGFFGQTKLDYQI YFQGVSIFTYQEKDIYYEIDGTLDINSDVIVILNGIMMSTKSWDAFVENFSKNHVLLRYDMFDQGQSSKIEESYTQTIQVELLKNLLEHLGIAQANIVGISYGASIALQFAAKYPTMIKRMVVANVVAKTSPWLKDIGDGWNEVAKTGNGLAYYHITIPYIYSPQFYTLHNDWMEKRKELLVPLFSTRTFLDRMIRLTKSAETHDVIKDLPNIKTPTLIISSEEDYLTPPFEQKYLQEHLQNAELVSIPNCGHASMYEVPKTFTALVLGFFGQTKLDYQI 4q3l-a2-m1-cF_4q3l-a2-m1-cH Crystal structure of MGS-M2, an alpha/beta hydrolase enzyme from a Medee basin deep-sea metagenome library A0A0B5KBT7 A0A0B5KBT7 3.01 X-RAY DIFFRACTION 77 1.0 32644 (unidentified) 32644 (unidentified) 275 280 4q3l-a1-m1-cA_4q3l-a1-m1-cB 4q3l-a1-m1-cD_4q3l-a1-m1-cC 4q3l-a2-m1-cE_4q3l-a2-m1-cG SIFTYQEKDIYYEIDGTLDINSDVIVILNGIMMSTKSWDAFVENFSKNHVLLRYDMFDQGQSSKIEESYTQTIQVELLKNLLEHLGIAQANIVGISYGASIALQFAAKYPTMIKRMVVANVVAKTSPWLKDIGDGWNEVAKTGNGLAYYHITIPYIYSPQFYTLHNDWMEKRKELLVPLFSTRTFLDRMIRLTKSAETHDVIKDLPNIKTPTLIISSEEDYLTPPFEQKYLQEHLQNAELVSIPNCGHASMYEVPKTFTALVLGFFGQTKLDYQI YFQGVSIFTYQEKDIYYEIDGTLDINSDVIVILNGIMMSTKSWDAFVENFSKNHVLLRYDMFDQGQSSKIEESYTQTIQVELLKNLLEHLGIAQANIVGISYGASIALQFAAKYPTMIKRMVVANVVAKTSPWLKDIGDGWNEVAKTGNGLAYYHITIPYIYSPQFYTLHNDWMEKRKELLVPLFSTRTFLDRMIRLTKSAETHDVIKDLPNIKTPTLIISSEEDYLTPPFEQKYLQEHLQNAELVSIPNCGHASMYEVPKTFTALVLGFFGQTKLDYQI 4q3m-a3-m1-cF_4q3m-a3-m1-cE Crystal structure of MGS-M4, an aldo-keto reductase enzyme from a Medee basin deep-sea metagenome library A0A0B5KNF6 A0A0B5KNF6 2.552 X-RAY DIFFRACTION 62 0.996 32644 (unidentified) 32644 (unidentified) 268 272 4q3m-a1-m1-cB_4q3m-a1-m1-cA 4q3m-a2-m1-cC_4q3m-a2-m1-cD HSVKLNNNYEMPIIGLGTFRSKKNDAYNAVKAALEGGYRHIDTAMIYGNEEEVGRAIKDSEIFVTTKLWNTDQGYEKTLEAFNTSLKNLGLDYIDLYLIHWFKGYDNALSTYRAFETLYEEGKVKAIGVSNFNVHHLMYLMENAKIPPMVNQVETHVTLQNHFLHDYCKKNNIQLEAYAPLMSHQIKDLLSNETMAKIAKKHDKTIPQIAIRWLIEREIVVIPKSITPERIVQNFDVFDFTLDEEDMKSIRSVNTGKKIFTEFDNVDY SVKLNNNYEMPIIGLGTFRSKKNDAYNAVKAALEGGYRHIDTAMIYGNEEEVGRAIKDSNIPREEIFVTTKLWNTDQGYEKTLEAFNTSLKNLGLDYIDLYLIHWFKGYDNALSTYRAFETLYEEGKVKAIGVSNFNVHHLMYLMENAKIPPMVNQVETHVTLQNHFLHDYCKKNNIQLEAYAPLMSHQIKDLLSNETMAKIAKKHDKTIPQIAIRWLIEREIVVIPKSITPERIVQNFDVFDFTLDEEDMKSIRSVNTGKKIFTEFDNVDY 4q3n-a1-m1-cA_4q3n-a1-m4-cA Crystal structure of MGS-M5, a lactate dehydrogenase enzyme from a Medee basin deep-sea metagenome library A0A0B5KUB4 A0A0B5KUB4 1.97 X-RAY DIFFRACTION 78 1.0 32644 (unidentified) 32644 (unidentified) 314 314 4q3n-a1-m2-cA_4q3n-a1-m3-cA MRNSKVVVVGTGFVGMSYAYAMVNQGTVEELVLLDIDKRKAEGEAMDLNHGLAFGPRKMSIKAGDYKDCKDAGLVVITAGVNQKEGETRIHLLKRNAEIIKTVVKNIMSSGFNGILLVASNPVDVLAYVAWKESGLHHSRVIGSGTSLDTARLRYEISQYIHIDSRNVHAYILGEHGDSEFVCWSNANVGAKPIADVIDSMDEISFEDLEHIYLKVRDAAYEIISRKKATYYGIGMALVRITAAIFNNENRILPISVLNNGVYDCEDQVYIGLPAVLNKDGVHHIVKLKLNEKENSQLNNSANILRKNLDDMSY MRNSKVVVVGTGFVGMSYAYAMVNQGTVEELVLLDIDKRKAEGEAMDLNHGLAFGPRKMSIKAGDYKDCKDAGLVVITAGVNQKEGETRIHLLKRNAEIIKTVVKNIMSSGFNGILLVASNPVDVLAYVAWKESGLHHSRVIGSGTSLDTARLRYEISQYIHIDSRNVHAYILGEHGDSEFVCWSNANVGAKPIADVIDSMDEISFEDLEHIYLKVRDAAYEIISRKKATYYGIGMALVRITAAIFNNENRILPISVLNNGVYDCEDQVYIGLPAVLNKDGVHHIVKLKLNEKENSQLNNSANILRKNLDDMSY 4q3n-a1-m2-cA_4q3n-a1-m4-cA Crystal structure of MGS-M5, a lactate dehydrogenase enzyme from a Medee basin deep-sea metagenome library A0A0B5KUB4 A0A0B5KUB4 1.97 X-RAY DIFFRACTION 155 1.0 32644 (unidentified) 32644 (unidentified) 314 314 4q3n-a1-m1-cA_4q3n-a1-m3-cA MRNSKVVVVGTGFVGMSYAYAMVNQGTVEELVLLDIDKRKAEGEAMDLNHGLAFGPRKMSIKAGDYKDCKDAGLVVITAGVNQKEGETRIHLLKRNAEIIKTVVKNIMSSGFNGILLVASNPVDVLAYVAWKESGLHHSRVIGSGTSLDTARLRYEISQYIHIDSRNVHAYILGEHGDSEFVCWSNANVGAKPIADVIDSMDEISFEDLEHIYLKVRDAAYEIISRKKATYYGIGMALVRITAAIFNNENRILPISVLNNGVYDCEDQVYIGLPAVLNKDGVHHIVKLKLNEKENSQLNNSANILRKNLDDMSY MRNSKVVVVGTGFVGMSYAYAMVNQGTVEELVLLDIDKRKAEGEAMDLNHGLAFGPRKMSIKAGDYKDCKDAGLVVITAGVNQKEGETRIHLLKRNAEIIKTVVKNIMSSGFNGILLVASNPVDVLAYVAWKESGLHHSRVIGSGTSLDTARLRYEISQYIHIDSRNVHAYILGEHGDSEFVCWSNANVGAKPIADVIDSMDEISFEDLEHIYLKVRDAAYEIISRKKATYYGIGMALVRITAAIFNNENRILPISVLNNGVYDCEDQVYIGLPAVLNKDGVHHIVKLKLNEKENSQLNNSANILRKNLDDMSY 4q3n-a1-m3-cA_4q3n-a1-m4-cA Crystal structure of MGS-M5, a lactate dehydrogenase enzyme from a Medee basin deep-sea metagenome library A0A0B5KUB4 A0A0B5KUB4 1.97 X-RAY DIFFRACTION 28 1.0 32644 (unidentified) 32644 (unidentified) 314 314 4q3n-a1-m1-cA_4q3n-a1-m2-cA MRNSKVVVVGTGFVGMSYAYAMVNQGTVEELVLLDIDKRKAEGEAMDLNHGLAFGPRKMSIKAGDYKDCKDAGLVVITAGVNQKEGETRIHLLKRNAEIIKTVVKNIMSSGFNGILLVASNPVDVLAYVAWKESGLHHSRVIGSGTSLDTARLRYEISQYIHIDSRNVHAYILGEHGDSEFVCWSNANVGAKPIADVIDSMDEISFEDLEHIYLKVRDAAYEIISRKKATYYGIGMALVRITAAIFNNENRILPISVLNNGVYDCEDQVYIGLPAVLNKDGVHHIVKLKLNEKENSQLNNSANILRKNLDDMSY MRNSKVVVVGTGFVGMSYAYAMVNQGTVEELVLLDIDKRKAEGEAMDLNHGLAFGPRKMSIKAGDYKDCKDAGLVVITAGVNQKEGETRIHLLKRNAEIIKTVVKNIMSSGFNGILLVASNPVDVLAYVAWKESGLHHSRVIGSGTSLDTARLRYEISQYIHIDSRNVHAYILGEHGDSEFVCWSNANVGAKPIADVIDSMDEISFEDLEHIYLKVRDAAYEIISRKKATYYGIGMALVRITAAIFNNENRILPISVLNNGVYDCEDQVYIGLPAVLNKDGVHHIVKLKLNEKENSQLNNSANILRKNLDDMSY 4q3o-a4-m1-cE_4q3o-a4-m1-cH Crystal structure of MGS-MT1, an alpha/beta hydrolase enzyme from a Lake Matapan deep-sea metagenome library A0A0B5KQQ5 A0A0B5KQQ5 1.74 X-RAY DIFFRACTION 95 1.0 32644 (unidentified) 32644 (unidentified) 316 316 4q3o-a1-m1-cA_4q3o-a1-m1-cB 4q3o-a2-m1-cC_4q3o-a2-m1-cF 4q3o-a3-m1-cD_4q3o-a3-m1-cG VPIPQSISAEFKAALAQYPTPSVEEARSFVPTTAAQWRDYVQATNKMQKTKIKNMRKHYGVTVELLDIKGVTVRKITPKSLSPEFKDHVYIDIHGGAYVLFAGLPSIEEGILIAHRLGIVVYSVDYRMPPAYPFPAALDDVKHVYRVLSQQYDANHIFMGGTSAGGGLLLAFVQGLIENGVATPRAIYAGTPWADLTKTGDSLYTNEGIDRILITYDGTLGASARLYAGNTPLTHPKLSPIYGDFTDFPPTFLVTGTRDMFLSDTVRVNRKMRDAGVTTVLDVYEGLSHADYLVSHQTPESQSVYRQLKRFLVGFT VPIPQSISAEFKAALAQYPTPSVEEARSFVPTTAAQWRDYVQATNKMQKTKIKNMRKHYGVTVELLDIKGVTVRKITPKSLSPEFKDHVYIDIHGGAYVLFAGLPSIEEGILIAHRLGIVVYSVDYRMPPAYPFPAALDDVKHVYRVLSQQYDANHIFMGGTSAGGGLLLAFVQGLIENGVATPRAIYAGTPWADLTKTGDSLYTNEGIDRILITYDGTLGASARLYAGNTPLTHPKLSPIYGDFTDFPPTFLVTGTRDMFLSDTVRVNRKMRDAGVTTVLDVYEGLSHADYLVSHQTPESQSVYRQLKRFLVGFT 4q50-a5-m1-cH_4q50-a5-m2-cE The Estrogen Receptor Alpha Ligand Binding Domain D538G Mutant in Complex with 4-hydroxytamoxifen P03372 P03372 3.07 X-RAY DIFFRACTION 41 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 ALSLTADQMVSALLDAEPPILYSEYASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVEGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYPLYGLLLEMLDA LALSLTADQMVSALLDAEPPILYSEYASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMLYGLLLEMLD 4q50-a5-m2-cB_4q50-a5-m2-cC The Estrogen Receptor Alpha Ligand Binding Domain D538G Mutant in Complex with 4-hydroxytamoxifen P03372 P03372 3.07 X-RAY DIFFRACTION 40 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 209 220 4q50-a5-m1-cA_4q50-a5-m1-cD ALSLTADQMVSALLDAEPPILYSEMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMLYGLLLEMLD LALSLTADQMVSALLDAEPPILYSESMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTSSTSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSVVPLYGLLLEMLDA 4q50-a5-m2-cB_4q50-a5-m2-cE The Estrogen Receptor Alpha Ligand Binding Domain D538G Mutant in Complex with 4-hydroxytamoxifen P03372 P03372 3.07 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 218 4q50-a1-m1-cA_4q50-a1-m1-cF 4q50-a2-m1-cB_4q50-a2-m1-cE 4q50-a5-m1-cA_4q50-a5-m1-cF 7sfo-a1-m1-cA_7sfo-a1-m1-cB ALSLTADQMVSALLDAEPPILYSEMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMLYGLLLEMLD LALSLTADQMVSALLDAEPPILYSEYASMMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLECAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRNQGKCVGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGVYTFSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMLYGLLLEMLD 4q51-a1-m1-cA_4q51-a1-m1-cB Crystal structure of a putative molybdenum cofactor biosynthesis protein F from Burkholderia cenocepacia J2315 B4EN46 B4EN46 1.9 X-RAY DIFFRACTION 97 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 262 263 VFIQVGALADGFAPEANTLAPVDALVGRTLALEDASGAWRVHTFEPGALQWRDAATDTGGRAPCRVTRLRDGLYFVDYIDTTARATSVSLVIDLDNGVWTSVVGTLPTEADTRIDAFTRVARGLPLTAVDAQFRHGTLGGHARPGPLHAPTRELIGKRTYRYSPTECYEHIYLNENFYAWQCLQGVEGGLADVDRCHYFKADELYLFVWREKVVPTLGVVLIDLAQRKTDGKIFGYQGGDFGTLSNFQIGAYAQVLNETVHP PVFIQVGALADGFAPEANTLAPVDALVGRTLALEDASGAWRVHTFEPGALQWRDAATDTGGRAPCRVTRLRDGLYFVDYIDTTARATSVSLVIDLDNGVWTSVVGTLPTEADTRIDAFTRVARGLPLTAVDAQFRHGTLGGHARPGPLHAPTRELIGKRTYRYSPTECYEHIYLNENFYAWQCLQGVEGGLADVDRCHYFKADELYLFVWREKVVPTLGVVLIDLAQRKTDGKIFGYQGGDFGTLSNFQIGAYAQVLNETVHP 4q52-a2-m1-cB_4q52-a2-m1-cC 2.60 Angstrom resolution crystal structure of a conserved uncharacterized protein from Chitinophaga pinensis DSM 2588 2.6 X-RAY DIFFRACTION 160 0.994 485918 (Chitinophaga pinensis DSM 2588) 485918 (Chitinophaga pinensis DSM 2588) 168 171 4q52-a1-m1-cD_4q52-a1-m1-cA QIVHVFLVDTAYIYAKYTTGISTDPTKPPIDHNSEVACSFVNKPSADLSFSVPNQSTVAFWGSSLSNNGHDAIIIYDIEKNTNLGPTDDVFNPFVNQTLLPGGVIPSGSINGLPATTEARNIYALTSTVKAKGTENFVIRFGLYLFDAGTQTQKLWSYCQWDPTITVY IVHVFLVDTAYIYAKYTTGISTDPTKPPIDHNSEVACSFVNKPSKQGTADLSFSVPNQSTVAFWGSSLSNNGHDAIIIYDIEKNTNLGPTDDVFNPFVNQTLLPGGVIPSGSINGLPATTEARNIYALTSTVKAKGTENFVIRFGLYLFDAGTQTQKLWSYCQWDPTITVY 4q5f-a1-m1-cA_4q5f-a1-m1-cD Crystal Structure of the Glutathione S-transferase from Ascaris lumbricoides P46436 P46436 2.448 X-RAY DIFFRACTION 78 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 205 206 PQYKLTYFDIRGLGEGARLIFHQAGVKFEDNRLKREDWPALKPKTPFGQLPLLEVDGEVLAQSAAIYRYLGRQFGLAGKTPMEEAQVDSIFDQFKDFMAELRPCFRVLAGFEEGDKEKVLKEVAVPARDKHLPLLEKFLAKSGSEYMVGKSVTWADLVITDSLASWESLIPDFLSGHLQLKKYIEHVRELPNIKKWIAERPKTPY MPQYKLTYFDIRGLGEGARLIFHQAGVKFEDNRLKREDWPALKPKTPFGQLPLLEVDGEVLAQSAAIYRYLGRQFGLAGKTPMEEAQVDSIFDQFKDFMAELRPCFRVLAGFEEGDKEKVLKEVAVPARDKHLPLLEKFLAKSGSEYMVGKSVTWADLVITDSLASWESLIPDFLSGHLQLKKYIEHVRELPNIKKWIAERPKTPY 4q5g-a1-m1-cA_4q5g-a1-m2-cB Crystal Structure of mouse Serum Amyloid A3 P04918 P04918 2.057 X-RAY DIFFRACTION 30 1.0 10090 (Mus musculus) 10090 (Mus musculus) 96 96 4q5g-a1-m1-cB_4q5g-a1-m2-cA RWVQFKEAGQGSRDWRAYSDKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGDSRADQFANEWGRSGKDPNHFRPAGLPKRY RWVQFKEAGQGSRDWRAYSDKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGDSRADQFANEWGRSGKDPNHFRPAGLPKRY 4q5g-a1-m2-cA_4q5g-a1-m2-cB Crystal Structure of mouse Serum Amyloid A3 P04918 P04918 2.057 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 96 96 4q5g-a1-m1-cA_4q5g-a1-m1-cB 6pxz-a1-m1-cA_6pxz-a1-m1-cB 6py0-a1-m1-cB_6py0-a1-m1-cA RWVQFKEAGQGSRDWRAYSDKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGDSRADQFANEWGRSGKDPNHFRPAGLPKRY RWVQFKEAGQGSRDWRAYSDKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGDSRADQFANEWGRSGKDPNHFRPAGLPKRY 4q5n-a1-m1-cB_4q5n-a1-m1-cA Crystal structure of the gluthatione S-transferase Blo t 8 C8CGT7 C8CGT7 2.55 X-RAY DIFFRACTION 75 1.0 40697 (Blomia tropicalis) 40697 (Blomia tropicalis) 218 220 LKIGYWDVRGFAEPIRMLLKHLNIEFEETRYGFLPNRDEWLAEKFTLGLEFPNLPYLFDGDFKMTESVAILKRLARANGMIATTEPALSYSEMIEAMIIDIRNRLINVVYAETPEEFEQKLADLRERLETSLGQLEAFFQKHGSQWVAGDKLTYVDFLAYEYLDWYRVFVKSTPIFEKFAKVSDYMKRFEELPSLKEYIARDEHRSASCLSPFARIGH PLKIGYWDVRGFAEPIRMLLKHLNIEFEETRYGFLPNRDEWLAEKFTLGLEFPNLPYLFDGDFKMTESVAILKRLARANGMIATTEPALSYSEMIEAMIIDIRNRLINVVYAETPEEFEQKLADLRERLETSLGQLEAFFQKHGSQWVAGDKLTYVDFLAYEYLDWYRVFVKSTPIFEKFAKVSDYMKRFEELPSLKEYIARDEHRSASCLSPFARIGHR 4q5q-a1-m1-cB_4q5q-a1-m1-cA Crystal Structure of the Glutathione S-transferase Der p 8 P46419 P46419 1.931 X-RAY DIFFRACTION 75 1.0 6956 (Dermatophagoides pteronyssinus) 6956 (Dermatophagoides pteronyssinus) 188 218 SQPILGYWDIRGYAQPIRLLLTYSGVDFVDKRYQIGPAPDFDRSEWLNEKFNLGLDFPNLPYYIDGDMKMTQTFAILRYLGRKYKLNGSNDHEEIRISMAEQQTEDMMAAMIRVYLKSLPDCLKLMSKFVGEHAFIAGANISYVDFNLYEYLCHVKVMVPEVFGQFENLKRYVERMESLPRVSDYIKK SQPILGYWDIRGYAQPIRLLLTYSGVDFVDKRYQIGPAPDFDRSEWLNEKFNLGLDFPNLPYYIDGDMKMTQTFAILRYLGRKYKLNGSNDHEEIRISMAEQQTEDMMAAMIRVCYDANCDKLKPDYLKSLPDCLKLMSKFVGEHAFIAGANISYVDFNLYEYLCHVKVMVPEVFGQFENLKRYVERMESLPRVSDYIKKQQPKTFNAPTSKWNASYA 4q5r-a1-m1-cA_4q5r-a1-m1-cB Crystal Structure of Glutathione S-transferase Bla g 5 O18598 O18598 2.249 X-RAY DIFFRACTION 79 1.0 6973 (Blattella germanica) 6973 (Blattella germanica) 202 202 4q5r-a2-m1-cC_4q5r-a2-m1-cD 4q5r-a3-m1-cE_4q5r-a3-m1-cF PSYKLTYCPVKALGEPIRFLLSYGEKDFEDYRFQEGDWPNLKPSMPFGKTPVLEIDGKQTHQSVAISRYLGKQFGLSGKDDWENLEIDMIVDTISDFRAAIANYHYDADENSKQKKWDPLKKETIPYYTKKFDEVVKANGGYLAAGKLTWADFYFVAILDYLNHMAKEDLVANQPNLKALREKVLGLPAIKAWVAKRPPTDL PSYKLTYCPVKALGEPIRFLLSYGEKDFEDYRFQEGDWPNLKPSMPFGKTPVLEIDGKQTHQSVAISRYLGKQFGLSGKDDWENLEIDMIVDTISDFRAAIANYHYDADENSKQKKWDPLKKETIPYYTKKFDEVVKANGGYLAAGKLTWADFYFVAILDYLNHMAKEDLVANQPNLKALREKVLGLPAIKAWVAKRPPTDL 4q5y-a2-m1-cA_4q5y-a2-m2-cA Crystal structure of extended-Tudor 10-11 of Drosophila melanogaster P25823 P25823 3 X-RAY DIFFRACTION 79 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 353 353 SEFNSECIISYGNSPKSFYVQMKHNSADLDLIVKTLQSKEKLKKLIDPTTNSNGVCYSQEDACYYRCSIKSVLDPSQGFEVFLLDYGNTLVVPEVWQLPQEIEPIPSLALHCQLSKIPMDVSDEKLEEAFAALLEQHFGELYEITTQPNEDETKPLIAELRINYKDFVQELVSTVTGVQKPLEAELHNCVVVQFDGPMSFYVQMESDVPALEQMTDKLLDAEQDLPAFSDLKEGALCVAQFPEDEVFYRAQIRKVLDDGKCEVHFIDFGNNAVTQQFRQLPEELAKPARYSRHCELDASTISKCDAALLQSFIDTRFSETFQVEILATKGTGTHVVRLFYQSKNISEKLQECQ SEFNSECIISYGNSPKSFYVQMKHNSADLDLIVKTLQSKEKLKKLIDPTTNSNGVCYSQEDACYYRCSIKSVLDPSQGFEVFLLDYGNTLVVPEVWQLPQEIEPIPSLALHCQLSKIPMDVSDEKLEEAFAALLEQHFGELYEITTQPNEDETKPLIAELRINYKDFVQELVSTVTGVQKPLEAELHNCVVVQFDGPMSFYVQMESDVPALEQMTDKLLDAEQDLPAFSDLKEGALCVAQFPEDEVFYRAQIRKVLDDGKCEVHFIDFGNNAVTQQFRQLPEELAKPARYSRHCELDASTISKCDAALLQSFIDTRFSETFQVEILATKGTGTHVVRLFYQSKNISEKLQECQ 4q62-a1-m1-cA_4q62-a1-m2-cA Crystal Structure of Leucine-rich repeat- and Coiled coil-containing Protein from Legionella pneumophila Q5ZUB7 Q5ZUB7 1.898 X-RAY DIFFRACTION 97 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 386 386 QHQVKLVLKTSQDIQLFLNALRDSRNHGISSLSELDLSDTRFTNQELSDLVTALNNIPGIKSLRLDSCGLKDSDTVELSKLTHIKKLSLKSNYLKNRPFNSLEALYLDYNTELSASYVLFSLSRNAAALKKLSLRNCGVTDANLEYLTRPESRLKSLTHFNLRRNNITHQGVDSFAHLQSLTTIDLSQNTGIGDEGVSRLAPLKQLRTLYLDNCGIGGEGIKAIAKNLQTVDLSFNPGLKKEWGLDDIRPNHTIRTLLLTFCSLNDNHAKLIVSKFPAATDLNVANNNTRAGVKTLLSNPIIENLDVSTQSLYAKQQEKEKAQDLLDTICNTITLKSINLEHTGITSRLLSLIPDETDHKRYLKKINGVSCKELKPKLEQQIALRK QHQVKLVLKTSQDIQLFLNALRDSRNHGISSLSELDLSDTRFTNQELSDLVTALNNIPGIKSLRLDSCGLKDSDTVELSKLTHIKKLSLKSNYLKNRPFNSLEALYLDYNTELSASYVLFSLSRNAAALKKLSLRNCGVTDANLEYLTRPESRLKSLTHFNLRRNNITHQGVDSFAHLQSLTTIDLSQNTGIGDEGVSRLAPLKQLRTLYLDNCGIGGEGIKAIAKNLQTVDLSFNPGLKKEWGLDDIRPNHTIRTLLLTFCSLNDNHAKLIVSKFPAATDLNVANNNTRAGVKTLLSNPIIENLDVSTQSLYAKQQEKEKAQDLLDTICNTITLKSINLEHTGITSRLLSLIPDETDHKRYLKKINGVSCKELKPKLEQQIALRK 4q69-a1-m1-cB_4q69-a1-m1-cA Crystal structure of a SusD homolog (BT2259) from Bacteroides thetaiotaomicron VPI-5482 at 2.50 A resolution Q8A5I0 Q8A5I0 2.5 X-RAY DIFFRACTION 72 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 437 440 AEKVDPGYLFNYVAVNWAGTRTGGDFYIPLSSSQCQVDGGLDYGGWDESVYTISPYSTGNTWKHYYSVGGNNLLAIKNAEEADPVNHNAIAQCKILLAEHYEATLWGDIPFTESWNGTIKYPKFDSQESVLNGVLSLLDEALQIDLNDANAIDEYDIYYKGDNKWTLAKSLKFRTLVVDKDPSKATAIGTLLQAGGVSSASDNLVFPYSAEPGNQNPKYELIELVGGTQILFFASNYLKPQERNDPRIPCYFEPGADGVYRGLGNREPAVTDDKDNLSSVVSSYLFRKDAPELIYSCQEQLLLEAEAYARGLGVAQNLSKANELYKKGIREACAFYGVAEADIDTYVTGLPELTALTQEKALYEIHQQWIDLDRPFEEFVQWRRSGTAGNEVPTLQVPEDATSKELIRRWEYSPEETANINAPKESPKIWEKLWFDL PNTAEKVDPGYLFNYVAVNWAGTRTGGDFYIPLSSSQCQVDGGLDYGGWDESVYTISPYSTGNTWKHYYSVGGNNLLAIKNAEEADPVNHNAIAQCKILLAEHYEATLWGDIPFTESWNGTIKYPKFDSQESVLNGVLSLLDEALQIDLNDANAIDEYDIYYKGDNKWTLAKSLKFRTLVVDKDPSKATAIGTLLQAGGVSSASDNLVFPYSAEPGNQNPKYELIELVGGTQILFFASNYLKPQERNDPRIPCYFEPGADGVYRGLGNREPAVTDDKDNLSSVVSSYLFRKDAPELIYSCQEQLLLEAEAYARGLGVAQNLSKANELYKKGIREACAFYGVAEADIDTYVTGLPELTALTQEKALYEIHQQWIDLDRPFEEFVQWRRSGTAGNEVPTLQVPEDATSKELIRRWEYSPEETANINAPKESPKIWEKLWFDL 4q6j-a1-m1-cA_4q6j-a1-m2-cB Crystal Structure of EAL domain Protein from Listeria monocytogenes EGD-e Q8YAJ4 Q8YAJ4 1.369 X-RAY DIFFRACTION 59 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 238 239 4q6j-a1-m2-cA_4q6j-a1-m1-cB DISSTEIWDAIRRNSYLLYYQPKVDAKTNKIIGFEGLVRLKTATTILAPIDFFDDIVLLNATREQDFVAETAIKQINQLGGRFSISINIPAHYVASSTYTFLHDYVKEHLKYPECLEIEIIERTELAIADKNLRKIKDLGVKVSDDFGKGYSSLAYLRSLPIDIVKTDSFIALLKTDRKQQIIIRAIVNLCHDLGGKVVTEGVEDEQVEKLREKVDYFQGYYFSRPLPEEIKQKYSIV ADISSTEIWDAIRRNSYLLYYQPKVDAKTNKIIGFEGLVRLKTATTILAPIDFFDDIVLLNATREQDFVAETAIKQINQLGGRFSISINIPAHYVASSTYTFLHDYVKEHLKYPECLEIEIIERTELAIADKNLRKIKDLGVKVSDDFGKGYSSLAYLRSLPIDIVKTDSFIALLKTDRKQQIIIRAIVNLCHDLGGKVVTEGVEDEQVEKLREKVDYFQGYYFSRPLPEEIKQKYSIV 4q6j-a1-m1-cB_4q6j-a1-m2-cB Crystal Structure of EAL domain Protein from Listeria monocytogenes EGD-e Q8YAJ4 Q8YAJ4 1.369 X-RAY DIFFRACTION 18 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 239 239 4q6j-a1-m1-cA_4q6j-a1-m2-cA ADISSTEIWDAIRRNSYLLYYQPKVDAKTNKIIGFEGLVRLKTATTILAPIDFFDDIVLLNATREQDFVAETAIKQINQLGGRFSISINIPAHYVASSTYTFLHDYVKEHLKYPECLEIEIIERTELAIADKNLRKIKDLGVKVSDDFGKGYSSLAYLRSLPIDIVKTDSFIALLKTDRKQQIIIRAIVNLCHDLGGKVVTEGVEDEQVEKLREKVDYFQGYYFSRPLPEEIKQKYSIV ADISSTEIWDAIRRNSYLLYYQPKVDAKTNKIIGFEGLVRLKTATTILAPIDFFDDIVLLNATREQDFVAETAIKQINQLGGRFSISINIPAHYVASSTYTFLHDYVKEHLKYPECLEIEIIERTELAIADKNLRKIKDLGVKVSDDFGKGYSSLAYLRSLPIDIVKTDSFIALLKTDRKQQIIIRAIVNLCHDLGGKVVTEGVEDEQVEKLREKVDYFQGYYFSRPLPEEIKQKYSIV 4q6j-a1-m2-cA_4q6j-a1-m2-cB Crystal Structure of EAL domain Protein from Listeria monocytogenes EGD-e Q8YAJ4 Q8YAJ4 1.369 X-RAY DIFFRACTION 42 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 238 239 4q6j-a1-m1-cA_4q6j-a1-m1-cB DISSTEIWDAIRRNSYLLYYQPKVDAKTNKIIGFEGLVRLKTATTILAPIDFFDDIVLLNATREQDFVAETAIKQINQLGGRFSISINIPAHYVASSTYTFLHDYVKEHLKYPECLEIEIIERTELAIADKNLRKIKDLGVKVSDDFGKGYSSLAYLRSLPIDIVKTDSFIALLKTDRKQQIIIRAIVNLCHDLGGKVVTEGVEDEQVEKLREKVDYFQGYYFSRPLPEEIKQKYSIV ADISSTEIWDAIRRNSYLLYYQPKVDAKTNKIIGFEGLVRLKTATTILAPIDFFDDIVLLNATREQDFVAETAIKQINQLGGRFSISINIPAHYVASSTYTFLHDYVKEHLKYPECLEIEIIERTELAIADKNLRKIKDLGVKVSDDFGKGYSSLAYLRSLPIDIVKTDSFIALLKTDRKQQIIIRAIVNLCHDLGGKVVTEGVEDEQVEKLREKVDYFQGYYFSRPLPEEIKQKYSIV 4q6k-a2-m1-cC_4q6k-a2-m1-cD Crystal structure of a putative neuraminidase (BACCAC_01090) from Bacteroides caccae ATCC 43185 at 1.90 A resolution (PSI Community Target) A5ZDY0 A5ZDY0 1.902 X-RAY DIFFRACTION 110 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 506 506 4q6k-a1-m1-cA_4q6k-a1-m1-cB SDTVFVRETQIPILIERQDNVLFLRLNAKESRSLDEVVLNFGKDVNADIQSVKLYYSGTEARQNYGKKFFTPVSYISSHTPGKTLAANPSYSINKSQVNNPGRKVILNANQKLFPGINYFWISLQKPGASLLDKVSAKIVTVKVDNKEALHTVSPENIAHRVGVGVRHAGDDGSAAFRIPGLATTNKGTLLGVYDVRYNSSVDLQEHVDVGLSRSVDGGKTWEKRLPLAFGETGGLPAAQNGVGDPSILVDTKTNTTWVVAAWTHGGNQRAWWSSYPGDNHTAQLVLSKSTDDGKTWSEPINITDQVKDPSWYFLLQGPGRGITQDGTLVFPIQFIDSTRVPNAGIYSKDRGETWKIHNYARTNTTEAQVAEVEPGVLLNRDNRGGSRAVATTKDLGKTWTEHPSSRKALQEPVCASLISVKAADNTLNKDILLFSNPNTVKGRHHITIKASLDGGITWLPEHQVLDEGDGWGYSCLTIDKETVGILYESSVAHTFQAIRLRDIIQ SDTVFVRETQIPILIERQDNVLFLRLNAKESRSLDEVVLNFGKDVNADIQSVKLYYSGTEARQNYGKKFFTPVSYISSHTPGKTLAANPSYSINKSQVNNPGRKVILNANQKLFPGINYFWISLQKPGASLLDKVSAKIVTVKVDNKEALHTVSPENIAHRVGVGVRHAGDDGSAAFRIPGLATTNKGTLLGVYDVRYNSSVDLQEHVDVGLSRSVDGGKTWEKRLPLAFGETGGLPAAQNGVGDPSILVDTKTNTTWVVAAWTHGGNQRAWWSSYPGDNHTAQLVLSKSTDDGKTWSEPINITDQVKDPSWYFLLQGPGRGITQDGTLVFPIQFIDSTRVPNAGIYSKDRGETWKIHNYARTNTTEAQVAEVEPGVLLNRDNRGGSRAVATTKDLGKTWTEHPSSRKALQEPVCASLISVKAADNTLNKDILLFSNPNTVKGRHHITIKASLDGGITWLPEHQVLDEGDGWGYSCLTIDKETVGILYESSVAHTFQAIRLRDIIQ 4q6r-a1-m1-cA_4q6r-a1-m1-cB Crystal structure of human sphingosine-1-phosphate lyase in complex with inhibitor 6-[(2R)-4-(4-benzyl-7-chlorophthalazin-1-yl)-2-methylpiperazin-1-yl]pyridine-3-carbonitrile O95470 O95470 2.4 X-RAY DIFFRACTION 459 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 443 EYVKALPSQGLSSSAVLEKLKEYSSMDAFWQEGRASGTVYSGEEKLTELLVKAYGDFAWSNPLHPDIFPGLRKIEAEIVRIACSLFNGGPDSCGCVTSGGTESILMACKAYRDLAFEKGIKTPEIVAPQSAHAAFNKAASYFGMKIVRVPLTKMMEVDVRAMRRAISRNTAMLVCSTPQFPHGVIDPVPEVAKLAVKYKIPLHVDACLGGFLIVFMEKAGYPLEHPFDFRVKGVTSISADTHYGYAPKGSSLVLYSDKKYRNYQFFVDTDWQGGIYASPTIAGSRPGGISAACWAALMHFGENGYVEATKQIIKTARFLKSELENIKGIFVFGNPQLSVIALGSRDFDIYRLSNLMTAKGWNLNQLQFPPSIHFCITLLHARKRVAIQFLKDIRESVTQIMKNPKAKTTGMGAIYGMAQTTVDRNMVAELSSVFLDSLYSTD KEYVKALPSQGLSSSAVLEKLKEYSSMDAFWQEGRASGTVYSGEEKLTELLVKAYGDFAWSNPLHPDIFPGLRKIEAEIVRIACSLFNGGPDSCGCVTSGGTESILMACKAYRDLAFEKGIKTPEIVAPQSAHAAFNKAASYFGMKIVRVPLTKMMEVDVRAMRRAISRNTAMLVCSTPQFPHGVIDPVPEVAKLAVKYKIPLHVDACLGGFLIVFMEKAGYPLEHPFDFRVKGVTSISADTHYGYAPKGSSLVLYSDKKYRNYQFFVDTDWQGGIYASPTIAGSRPGGISAACWAALMHFGENGYVEATKQIIKTARFLKSELENIKGIFVFGNPQLSVIALGSRDFDIYRLSNLMTAKGWNLNQLQFPPSIHFCITLLHARKRVAIQFLKDIRESVTQIMKNPKAKTTGMGAIYGMAQTTVDRNMVAELSSVFLDSLYSTD 4q6z-a3-m1-cA_4q6z-a3-m1-cB LpoB C-terminal domain from Escherichia coli Q1RD49 Q1RD49 2.8 X-RAY DIFFRACTION 51 1.0 364106 (Escherichia coli UTI89) 364106 (Escherichia coli UTI89) 135 135 YDWNGAMQPMVSKMLGADGVTAGSVLLVDSVNNRTNGSLNAAEATETLRNALANNGKFTLVSAQQLSMAKQQLGLSPQDSLGTRSKAIGIARNVGAHYVLYSSASGNVNAPTLQMQLMLVQTGEIIWSGKGAVSQ YDWNGAMQPMVSKMLGADGVTAGSVLLVDSVNNRTNGSLNAAEATETLRNALANNGKFTLVSAQQLSMAKQQLGLSPQDSLGTRSKAIGIARNVGAHYVLYSSASGNVNAPTLQMQLMLVQTGEIIWSGKGAVSQ 4q75-a1-m1-cA_4q75-a1-m1-cB Crystal structure of Nfs2, the plastidial cysteine desulfurase from Arabidopsis thaliana Q93WX6 Q93WX6 1.709 X-RAY DIFFRACTION 299 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 411 411 4q76-a1-m1-cA_4q76-a1-m1-cB VSLGHRVRKDFRILHQEVNGSKLVYLDSAATSQKPAAVLDALQNYYEFYNSNVHRGIHYLSAKATDEFELARKKVARFINASDSREIVFTRNATEAINLVAYSWGLSNLKPGDEVILTVAEHHSCIVPWQIVSQKTGAVLKFVTLNEDEVPDINKLRELISPKTKLVAVHHVSNVLASSLPIEEIVVWAHDVGAKVLVDACQSVPHMVVDVQKLNADFLVASSHMCGPTGIGFLYGKSDLLHSMPPFLGGGEMISDVFLDHSTYAEPPSRFEAGTPAIGEAIALGAAVDYLSGIGMPKIHEYEVEIGKYLYEKLSSLPDVRIYGPRPSESVHRGALCSFNVEGLHPTDLATFLDQQHGVAIRSGHHAQPLHRYLGVNASARASLYFYNTKDDVDAFIVALADTVSFFNSFK VSLGHRVRKDFRILHQEVNGSKLVYLDSAATSQKPAAVLDALQNYYEFYNSNVHRGIHYLSAKATDEFELARKKVARFINASDSREIVFTRNATEAINLVAYSWGLSNLKPGDEVILTVAEHHSCIVPWQIVSQKTGAVLKFVTLNEDEVPDINKLRELISPKTKLVAVHHVSNVLASSLPIEEIVVWAHDVGAKVLVDACQSVPHMVVDVQKLNADFLVASSHMCGPTGIGFLYGKSDLLHSMPPFLGGGEMISDVFLDHSTYAEPPSRFEAGTPAIGEAIALGAAVDYLSGIGMPKIHEYEVEIGKYLYEKLSSLPDVRIYGPRPSESVHRGALCSFNVEGLHPTDLATFLDQQHGVAIRSGHHAQPLHRYLGVNASARASLYFYNTKDDVDAFIVALADTVSFFNSFK 4q7e-a1-m1-cB_4q7e-a1-m1-cA Non-phosphorylated HemR Receiver Domain from Leptospira biflexa 1.441 X-RAY DIFFRACTION 45 1.0 355278 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Ames)') 355278 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Ames)') 124 125 KPRILLVEDDEGLGETLKERLEQDKYRVEWAKTISEAENLYRPNAFDLVVLDLRLPDGNGFDLAEMIVKKEKDLPFLFLTAQAGAQERLRGFELGAAEFIPKPFHLKEFLIRLERVISLTRPHY MKPRILLVEDDEGLGETLKERLEQDKYRVEWAKTISEAENLYRPNAFDLVVLDLRLPDGNGFDLAEMIVKKEKDLPFLFLTAQAGAQERLRGFELGAAEFIPKPFHLKEFLIRLERVISLTRPHY 4q86-a1-m1-cA_4q86-a1-m1-cB YcaO with AMP Bound P75838 P75838 2.25 X-RAY DIFFRACTION 80 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 582 583 4q84-a1-m1-cA_4q84-a1-m1-cB 4q85-a1-m1-cA_4q85-a1-m1-cB 4q85-a2-m1-cC_4q85-a2-m1-cD 4q85-a3-m1-cF_4q85-a3-m1-cE 4q85-a4-m1-cG_4q85-a4-m1-cH 4q86-a2-m1-cC_4q86-a2-m1-cD 4q86-a3-m1-cF_4q86-a3-m1-cE 4q86-a4-m1-cG_4q86-a4-m1-cH TQTFIPGKDAALEDSIARFQQKLSDLGFQIEEASWLNPVPNVWSVHIRDKECALCFTNGKGATKKAALASALGEYFERLSTNYFFADFWLGETIANGPFVHYPNEKWFPLTENDDVPEGLLDDRLRAFYDPENELTGSMLIDLQSGNEDRGICGLPFTRQSDNQTVYIPMNIIGNLYVSNGMSAGNTRNEARVQGLSEVFERYVKNRIIAESISLPEIPADVLARYPAVVEAIETLEAEGFPIFAYDGSLGGQYPVICVVLFNPANGTCFASFGAHPDFGVALERTVTELLQGRGLKDLDVFTPPTFDDEEVAEHTNLETHFIDSSGLISWDLFKQDADYPFVDWNFSGTTEEEFATLMAIFNKEDKEVYIADYEHLGVYACRIIVPGMSDIYPAEDLWLANNSMGSHLRETILSLPGSEWEKEDYLNLIEQLDEEGFDDFTRVRELLGLATGSDNGWYTLRIGELKAMLALAGGDLEQALVWTEWTMEFNSSVFSPERANYYRCLQTLLLLAQEEDRQPLQYLNAFVRMYGADAVEAASAAMSGEAAFYGLQPVDSDLHAFAAHQSLLKAYEKLQRAKAAF TQTFIPGKDAALEDSIARFQQKLSDLGFQIEEASWLNPVPNVWSVHIRDKECALCFTNGKGATKKAALASALGEYFERLSTNYFFADFWLGETIANGPFVHYPNEKWFPLTENDDVPEGLLDDRLRAFYDPENELTGSMLIDLQSGNEDRGICGLPFTRQSDNQTVYIPMNIIGNLYVSNGMSAGNTRNEARVQGLSEVFERYVKNRIIAESISLPEIPADVLARYPAVVEAIETLEAEGFPIFAYDGSLGGQYPVICVVLFNPANGTCFASFGAHPDFGVALERTVTELLQGRGLKDLDVFTPPTFDDEEVAEHTNLETHFIDSSGLISWDLFKQDADYPFVDWNFSGTTEEEFATLMAIFNKEDKEVYIADYEHLGVYACRIIVPGMSDIYPAEDLWLANNSMGSHLRETILSLPGSEWEKEDYLNLIEQLDEEGFDDFTRVRELLGLATGSDNGWYTLRIGELKAMLALAGGDLEQALVWTEWTMEFNSSVFSPERANYYRCLQTLLLLAQEEDRQPLQYLNAFVRMYGADAVEAASAAMSGEAAFYGLQPVDSDLHAFAAHQSLLKAYEKLQRAKAAFW 4q8d-a5-m1-cA_4q8d-a5-m1-cB Crystal structure of a macrocyclic beta-sheet peptide containing two beta-strands from amyloid beta residues 15-23 1.746 X-RAY DIFFRACTION 20 1.0 14 14 QKLVFAEDQKLVED QKLVFAEDQKLVED 4q95-a2-m1-cA_4q95-a2-m2-cA Crystal structure of HRASLS3/LRAT chimeric protein P53816 P53816 2.2 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 141 141 PEPKPGDLIEIFRPFYRHWAIYVGDGYVVHLAPDILLALTNDKERTQKVVSNKRLLLGVICKVAIVKKELLYDVAGSDKYQVNNKHDDKYSPLPCSKIIQRAEELVGQEVLYKLTSENCEHFVNELRYGVARSDQEFIVTD PEPKPGDLIEIFRPFYRHWAIYVGDGYVVHLAPDILLALTNDKERTQKVVSNKRLLLGVICKVAIVKKELLYDVAGSDKYQVNNKHDDKYSPLPCSKIIQRAEELVGQEVLYKLTSENCEHFVNELRYGVARSDQEFIVTD 4q95-a2-m1-cB_4q95-a2-m2-cB Crystal structure of HRASLS3/LRAT chimeric protein P53816 P53816 2.2 X-RAY DIFFRACTION 16 1.0 10090 (Mus musculus) 10090 (Mus musculus) 127 127 PIPEPKPGDLIEIFRPFYRHWAIYVGDGYVVHLAPDILLALTNDKERLLLGVICKVAIVKKELLYDVAGSDKYQVNNKHDDKYSPLPCSKIIQRAEELVGQEVLYKLTSENCEHFVNELRYGVARSD PIPEPKPGDLIEIFRPFYRHWAIYVGDGYVVHLAPDILLALTNDKERLLLGVICKVAIVKKELLYDVAGSDKYQVNNKHDDKYSPLPCSKIIQRAEELVGQEVLYKLTSENCEHFVNELRYGVARSD 4q95-a2-m2-cB_4q95-a2-m2-cA Crystal structure of HRASLS3/LRAT chimeric protein P53816 P53816 2.2 X-RAY DIFFRACTION 146 0.984 10090 (Mus musculus) 10090 (Mus musculus) 127 141 4q95-a1-m1-cB_4q95-a1-m1-cA 4q95-a2-m1-cB_4q95-a2-m1-cA PIPEPKPGDLIEIFRPFYRHWAIYVGDGYVVHLAPDILLALTNDKERLLLGVICKVAIVKKELLYDVAGSDKYQVNNKHDDKYSPLPCSKIIQRAEELVGQEVLYKLTSENCEHFVNELRYGVARSD PEPKPGDLIEIFRPFYRHWAIYVGDGYVVHLAPDILLALTNDKERTQKVVSNKRLLLGVICKVAIVKKELLYDVAGSDKYQVNNKHDDKYSPLPCSKIIQRAEELVGQEVLYKLTSENCEHFVNELRYGVARSDQEFIVTD 4q97-a1-m1-cA_4q97-a1-m1-cB IgNAR antibody domain C1 Q90544 Q90544 2.4 X-RAY DIFFRACTION 82 1.0 7801 (Ginglymostoma cirratum) 7801 (Ginglymostoma cirratum) 108 108 SHMGIPPSPPIVSLLHSATEEQRANRFVQLVCLISGYYPENIAVSWQKNTKTITSGFATTSPVKTSSNDFSCASLLKVPLQEWSRGSVYSCQVSHSATSSNQRKEIRS SHMGIPPSPPIVSLLHSATEEQRANRFVQLVCLISGYYPENIAVSWQKNTKTITSGFATTSPVKTSSNDFSCASLLKVPLQEWSRGSVYSCQVSHSATSSNQRKEIRS 4q9a-a1-m1-cB_4q9a-a1-m1-cA Crystal structure of a putative GDSL-like lipase (PARMER_00689) from Parabacteroides merdae ATCC 43184 at 2.86 A resolution A7ABD4 A7ABD4 2.86 X-RAY DIFFRACTION 60 1.0 411477 (Parabacteroides merdae ATCC 43184) 411477 (Parabacteroides merdae ATCC 43184) 212 213 PKINLKKDCVILFQGDITDCGRDRNSNRCNTEQFGSGYVLFTATQLLEGKAALQPKIYNRGISGNKVYQLRERWEIDCLAFQPDVLSILIGVNDYWHTLTHGYKGTVETYENDLRALLKYTKEKLPNTQIVLCEPFTLRDGAAIEDSKWYPFDEFRKSARKLSEEFNTIFVPFQSGFDAAVKLAPARYWSNDGVHPDLPGRQLANWEATGLK APKINLKKDCVILFQGDITDCGRDRNSNRCNTEQFGSGYVLFTATQLLEGKAALQPKIYNRGISGNKVYQLRERWEIDCLAFQPDVLSILIGVNDYWHTLTHGYKGTVETYENDLRALLKYTKEKLPNTQIVLCEPFTLRDGAAIEDSKWYPFDEFRKSARKLSEEFNTIFVPFQSGFDAAVKLAPARYWSNDGVHPDLPGRQLANWEATGLK 4q9b-a1-m1-cB_4q9b-a1-m1-cA IgNAR antibody domain C2 Q90544 Q90544 1.5 X-RAY DIFFRACTION 34 1.0 7801 (Ginglymostoma cirratum) 7801 (Ginglymostoma cirratum) 92 101 AVLLRDPTVEEIWIDKSATLVCEVLVSAGVVVSWMVNGKVRNEGVQMEPTKMSGNQYLTISRLTSSVEEWQSGVEYTCSAKQDPVVKRTRKA SEIAVLLRDPTVEEIWIDKSATLVCEVLSTVSAGVVVSWMVNGKVRNEGVQMEPTKMSGNQYLTISRLTSSVEEWQSGVEYTCSAKQDQSSTPVVKRTRKA 4q9c-a1-m1-cA_4q9c-a1-m2-cA IgNAR antibody domain C3 Q90544 Q90544 2.8 X-RAY DIFFRACTION 55 1.0 7801 (Ginglymostoma cirratum) 7801 (Ginglymostoma cirratum) 105 105 VEPTKPHLRLLPPSPEEIQSTSSATLTCLIRGFYPDKVSVSWQKDDVSVSANVTNFPTALEQDLTFSTRSLLNLTAVEWKSGAKYTCTASHPPSQSTVKRVIRNQ VEPTKPHLRLLPPSPEEIQSTSSATLTCLIRGFYPDKVSVSWQKDDVSVSANVTNFPTALEQDLTFSTRSLLNLTAVEWKSGAKYTCTASHPPSQSTVKRVIRNQ 4q9d-a1-m1-cA_4q9d-a1-m2-cB X-ray structure of a putative thiamin diphosphate-dependent enzyme isolated from Mycobacterium smegmatis A0QSU7 A0QSU7 2.2 X-RAY DIFFRACTION 29 0.998 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 517 519 4q9d-a1-m2-cA_4q9d-a1-m1-cB QKTVHDVTYDLLRKLGLTTVFGNPGSTEESFLRDFPEDFTYVLSLQEASALAMADGFAQATGKPALVNLHTAAGTGNAMGSLVAAYRANTPLIITAGQQTREMSVVDPYLNNPDATTMPKPWVKWSYEPARAEDVPAAFMQAYAVAMQPPMGPVFLSIPLDDWDKPALGPAAVRSVSTRVAPDAERLAQFAERINAAKHPMLVLGPEVDRAGAWDAGIEFAEKLGAPVHASALPDRMSFPEDHPLYAGPLPMTIAGVEQAVSAYDLVVVVGAEVFRYYPYVPGEYLPEGTDLLQITADPHRSAVAPVGDSLVGDVGIALSRLTELIDTPDDRVPPKPLVRQRHSDIPSTAPMTSNAVYEVLSNVKPDDAAVVMESTSTMLDLFTWLPTTHPASFFATGSGGIGWGVPAAVGIALGDRARGVDRTVVATIGDGSFQYSIQAIWTAAQHKLPIVFVVLRNGEYPNVPGLQLPGLDISSIAAGFGCRTATVESTDMLEAELKTALQADGPTVLVVPTLPQ DQKTVHDVTYDLLRKLGLTTVFGNPGSTEESFLRDFPEDFTYVLSLQEASALAMADGFAQATGKPALVNLHTAAGTGNAMGSLVAAYRANTPLIITAGQQTREMSVVDPYLNNPDATTMPKPWVKWSYEPARAEDVPAAFMQAYAVAMQPPMGPVFLSIPLDDWDKPALGPAAVRSVSTRVAPDAERLAQFAERINAAKHPMLVLGPEVDRAGAWDAGIEFAEKLGAPVHASALPDRMSFPEDHPLYAGPLPMTIAGVEQAVSAYDLVVVVGAEVFRYYPYVPGEYLPEGTDLLQITADPHRSAVAPVGDSLVGDVGIALSRLTELIDTPDDRVPPKPLVRQRHSDIPSTAPMTSNAVYEVLSNVKPDDAAVVMESTSTMLDLFTWLPTTHPASFFATGSGGIGWGVPAAVGIALGDRARGVDRTVVATIGDGSFQYSIQAIWTAAQHKLPIVFVVLRNGEYAIPNVPGLQLPGLDISSIAAGFGCRTATVESTDMLEAELKTALQADGPTVLVVPTLP 4q9d-a1-m1-cB_4q9d-a1-m2-cB X-ray structure of a putative thiamin diphosphate-dependent enzyme isolated from Mycobacterium smegmatis A0QSU7 A0QSU7 2.2 X-RAY DIFFRACTION 260 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 519 519 4q9d-a1-m1-cA_4q9d-a1-m2-cA DQKTVHDVTYDLLRKLGLTTVFGNPGSTEESFLRDFPEDFTYVLSLQEASALAMADGFAQATGKPALVNLHTAAGTGNAMGSLVAAYRANTPLIITAGQQTREMSVVDPYLNNPDATTMPKPWVKWSYEPARAEDVPAAFMQAYAVAMQPPMGPVFLSIPLDDWDKPALGPAAVRSVSTRVAPDAERLAQFAERINAAKHPMLVLGPEVDRAGAWDAGIEFAEKLGAPVHASALPDRMSFPEDHPLYAGPLPMTIAGVEQAVSAYDLVVVVGAEVFRYYPYVPGEYLPEGTDLLQITADPHRSAVAPVGDSLVGDVGIALSRLTELIDTPDDRVPPKPLVRQRHSDIPSTAPMTSNAVYEVLSNVKPDDAAVVMESTSTMLDLFTWLPTTHPASFFATGSGGIGWGVPAAVGIALGDRARGVDRTVVATIGDGSFQYSIQAIWTAAQHKLPIVFVVLRNGEYAIPNVPGLQLPGLDISSIAAGFGCRTATVESTDMLEAELKTALQADGPTVLVVPTLP DQKTVHDVTYDLLRKLGLTTVFGNPGSTEESFLRDFPEDFTYVLSLQEASALAMADGFAQATGKPALVNLHTAAGTGNAMGSLVAAYRANTPLIITAGQQTREMSVVDPYLNNPDATTMPKPWVKWSYEPARAEDVPAAFMQAYAVAMQPPMGPVFLSIPLDDWDKPALGPAAVRSVSTRVAPDAERLAQFAERINAAKHPMLVLGPEVDRAGAWDAGIEFAEKLGAPVHASALPDRMSFPEDHPLYAGPLPMTIAGVEQAVSAYDLVVVVGAEVFRYYPYVPGEYLPEGTDLLQITADPHRSAVAPVGDSLVGDVGIALSRLTELIDTPDDRVPPKPLVRQRHSDIPSTAPMTSNAVYEVLSNVKPDDAAVVMESTSTMLDLFTWLPTTHPASFFATGSGGIGWGVPAAVGIALGDRARGVDRTVVATIGDGSFQYSIQAIWTAAQHKLPIVFVVLRNGEYAIPNVPGLQLPGLDISSIAAGFGCRTATVESTDMLEAELKTALQADGPTVLVVPTLP 4q9d-a1-m2-cA_4q9d-a1-m2-cB X-ray structure of a putative thiamin diphosphate-dependent enzyme isolated from Mycobacterium smegmatis A0QSU7 A0QSU7 2.2 X-RAY DIFFRACTION 115 0.998 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 517 519 4q9d-a1-m1-cA_4q9d-a1-m1-cB QKTVHDVTYDLLRKLGLTTVFGNPGSTEESFLRDFPEDFTYVLSLQEASALAMADGFAQATGKPALVNLHTAAGTGNAMGSLVAAYRANTPLIITAGQQTREMSVVDPYLNNPDATTMPKPWVKWSYEPARAEDVPAAFMQAYAVAMQPPMGPVFLSIPLDDWDKPALGPAAVRSVSTRVAPDAERLAQFAERINAAKHPMLVLGPEVDRAGAWDAGIEFAEKLGAPVHASALPDRMSFPEDHPLYAGPLPMTIAGVEQAVSAYDLVVVVGAEVFRYYPYVPGEYLPEGTDLLQITADPHRSAVAPVGDSLVGDVGIALSRLTELIDTPDDRVPPKPLVRQRHSDIPSTAPMTSNAVYEVLSNVKPDDAAVVMESTSTMLDLFTWLPTTHPASFFATGSGGIGWGVPAAVGIALGDRARGVDRTVVATIGDGSFQYSIQAIWTAAQHKLPIVFVVLRNGEYPNVPGLQLPGLDISSIAAGFGCRTATVESTDMLEAELKTALQADGPTVLVVPTLPQ DQKTVHDVTYDLLRKLGLTTVFGNPGSTEESFLRDFPEDFTYVLSLQEASALAMADGFAQATGKPALVNLHTAAGTGNAMGSLVAAYRANTPLIITAGQQTREMSVVDPYLNNPDATTMPKPWVKWSYEPARAEDVPAAFMQAYAVAMQPPMGPVFLSIPLDDWDKPALGPAAVRSVSTRVAPDAERLAQFAERINAAKHPMLVLGPEVDRAGAWDAGIEFAEKLGAPVHASALPDRMSFPEDHPLYAGPLPMTIAGVEQAVSAYDLVVVVGAEVFRYYPYVPGEYLPEGTDLLQITADPHRSAVAPVGDSLVGDVGIALSRLTELIDTPDDRVPPKPLVRQRHSDIPSTAPMTSNAVYEVLSNVKPDDAAVVMESTSTMLDLFTWLPTTHPASFFATGSGGIGWGVPAAVGIALGDRARGVDRTVVATIGDGSFQYSIQAIWTAAQHKLPIVFVVLRNGEYAIPNVPGLQLPGLDISSIAAGFGCRTATVESTDMLEAELKTALQADGPTVLVVPTLP 4q9u-a1-m1-cC_4q9u-a1-m1-cG Crystal structure of the Rab5, Rabex-5delta and Rabaptin-5C21 complex Q15276 Q15276 4.618 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 84 ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQSR 4q9u-a1-m1-cD_4q9u-a1-m1-cH Crystal structure of the Rab5, Rabex-5delta and Rabaptin-5C21 complex Q15276 Q15276 4.618 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 82 KKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLM TRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS 4q9u-a1-m1-cH_4q9u-a1-m1-cC Crystal structure of the Rab5, Rabex-5delta and Rabaptin-5C21 complex Q15276 Q15276 4.618 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 83 4q9u-a1-m1-cD_4q9u-a1-m1-cG TRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS 4q9u-a1-m1-cH_4q9u-a1-m1-cG Crystal structure of the Rab5, Rabex-5delta and Rabaptin-5C21 complex Q15276 Q15276 4.618 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 84 4q9u-a1-m1-cD_4q9u-a1-m1-cC TRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQS ETRDQVKKLQLMLRQANDQLEKTMKDKQELEDFIKQSSEDSSHQISALVLRAQASEILLEELQQGLSQAKRDVQEQMAVLMQSR 4q9v-a1-m1-cA_4q9v-a1-m1-cB Crystal structure of TIPE3 Q5GJ75 Q5GJ75 2.3 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 186 FSSKSLALQAQKKILSKIASKTVANMLIDDTSSEIFDELYKVTKEHTHNKKEAHKIMKDLIKVAIKIGILYRNNQFSQEELVIVEKFRKKLNQTAMTIVSFYEVEYTFDRNVLSNLLHECKDLVHELVQRHLTPRTHGRINHVFNHFADVEFLSTLYSLDGDCRPNLKRICEGINKLLDEKVL AMVFSSKSLALQAQKKILSKIASKTVANMLIDDTSSEIFDELYKVTKEHTHNKKEAHKIMKDLIKVAIKIGILYRNNQFSQEELVIVEKFRKKLNQTAMTIVSFYEVEYTFDRNVLSNLLHECKDLVHELVQRHLTPRTHGRINHVFNHFADVEFLSTLYSLDGDCRPNLKRICEGINKLLDEKVL 4q9z-a1-m1-cB_4q9z-a1-m1-cA Human Protein Kinase C Theta in Complex with Compound35 ((1R)-9-(AZETIDIN-3-YLAMINO)-1,8-DIMETHYL-3,5-DIHYDRO[1,2,4]TRIAZINO[3,4-C][1,4]BENZOXAZIN-2(1H)-ONE) Q04759 Q04759 2.6 X-RAY DIFFRACTION 43 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 308 331 4ra5-a1-m1-cB_4ra5-a1-m1-cA KLKIEDFELHKMLGKGSFGKVFLAEFKKTNQFFAIKALKKDVVLMDDDVECTMVEKRVLSLAWEHPFLTHMFCTFQTKENLFFVMEYLNGGDLMYHIQSCHKFDLSRATFYAAEIILGLQFLHSKGIVYRDLKLDNILLDKDGHIKIADFGMCKENMLGDAKTNEFCGTPDYIAPEILLGQKYNHSVDWWSFGVLLYEMLIGQSPFHGQDEEELFHSIRMDNPFYPRWLEKEAKDLLVKLFVREPEKRLGVRGDIRQHPLFREINWEELERKEIDPPFRPKVKSPFDCSNFDKNMFRNFFMNPGMERL LKIEDFELHKMLGKGSFGKVFLAEFKKTNQFFAIKALKKDVVLMDDDVECTMVEKRVLSLAWEHPFLTHMFCTFQTKENLFFVMEYLNGGDLMYHIQSCHKFDLSRATFYAAEIILGLQFLHSKGIVYRDLKLDNILLDKDGHIKIADFGMCKENMLGDAKTNEFCGTPDYIAPEILLGQKYNHSVDWWSFGVLLYEMLIGQSPFHGQDEEELFHSIRMDNPFYPRWLEKEAKDLLVKLFVREPEKRLGVRGDIRQHPLFREINWEELERKEIDPPFRPKVKSPFDCSNFDKEFLNEKPRLFADRALINSMDQNMFRNFFMNPGMERLISH 4qa9-a1-m1-cA_4qa9-a1-m2-cA Ensemble refinement of an epoxide hydrolase from Streptomyces carzinostaticus subsp. neocarzinostaticus. Q84HB8 Q84HB8 1.56 X-RAY DIFFRACTION 170 1.0 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 388 388 4i19-a1-m1-cA_4i19-a1-m2-cA SNAMRPFQVQIPQADIDDLKRRLSETRWPELVDVGWSRGAPLSYIKELAEYWRDGFDWRAAERRINQYPQFTTEIDGATIHFLHVRSPEPDATPMVITHGWPGTPVEFLDIIGPLTDPRAHGGDPADAFHLVIPSLPGFGLSGPLKSAGWELGRIAMAWSKLMASLGYERYIAQGGDIGAFTSLLLGAIDPSHLAGIHVNLLQTNLSGEPGELETLSDADKARLAVSERFLDDLSGPMKMQSTRPHTIGYMLNDSPVAQLAYLLEMFKHWAQTENVPEDAVDRDLMLTHISLFWFTATGGSAAQAHYELKPFLPITSLIGRSPTLDVPMGVAVYPGALFQPVRSLAERDFKQIVHWAELDRGGHFSAMEEPDLFVDDLRTFNRTLKKL SNAMRPFQVQIPQADIDDLKRRLSETRWPELVDVGWSRGAPLSYIKELAEYWRDGFDWRAAERRINQYPQFTTEIDGATIHFLHVRSPEPDATPMVITHGWPGTPVEFLDIIGPLTDPRAHGGDPADAFHLVIPSLPGFGLSGPLKSAGWELGRIAMAWSKLMASLGYERYIAQGGDIGAFTSLLLGAIDPSHLAGIHVNLLQTNLSGEPGELETLSDADKARLAVSERFLDDLSGPMKMQSTRPHTIGYMLNDSPVAQLAYLLEMFKHWAQTENVPEDAVDRDLMLTHISLFWFTATGGSAAQAHYELKPFLPITSLIGRSPTLDVPMGVAVYPGALFQPVRSLAERDFKQIVHWAELDRGGHFSAMEEPDLFVDDLRTFNRTLKKL 4qag-a3-m1-cA_4qag-a3-m1-cB Structure of a dihydroxycoumarin active-site inhibitor in complex with the RNASE H domain of HIV-1 reverse transcriptase P03366 P03366 1.712 X-RAY DIFFRACTION 54 1.0 11678 (Human immunodeficiency virus type 1 BH10) 11678 (Human immunodeficiency virus type 1 BH10) 133 133 3k2p-a3-m1-cA_3k2p-a3-m1-cB 3lp3-a3-m1-cA_3lp3-a3-m2-cB LWYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNKGRQKVVPLTNTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDKSESELVNQIIEQLIKKEKVYLAWVPAHKGIGGNEQVDKLVSAGIR LWYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNKGRQKVVPLTNTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDKSESELVNQIIEQLIKKEKVYLAWVPAHKGIGGNEQVDKLVSAGIR 4qar-a2-m1-cB_4qar-a2-m1-cA 1.45 A resolution structure of CT263 (MTAN) from Chlamydia trachomatis bound to Adenine A0A0H3MBV9 A0A0H3MBV9 1.45 X-RAY DIFFRACTION 50 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 187 195 4qaq-a1-m1-cB_4qaq-a1-m1-cA MFKLLLIFADPAEAARTLSLFPFSLNKENFYTYHTENVLLDVMVLKTWGYRGVVQALSPPPSGYDLWINAGFAGAANPNIPLLKTYTITSVKELTELEVTPIPRLPLAQLTSVRSPYRDGFHEHLQLVDMEGFFIAKQASLVACPCSMIKVSSDYTTREGQDFLKNNKVKLSQKLAEAIFPIYSSFI MFKLLLIFADPAEAARTLSLFPFSLNKENFYTYHTENVLLDVMVLKTWGYRGVVQALSPPPSGYDLWINAGFAGAANPNIPLLKTYTITSVKELTPTTSVEEELEVTPIPRLPLAQLTSVRSPYRDGFHEHLQLVDMEGFFIAKQASLVACPCSMIKVSSDYTTREGQDFLKNNKVKLSQKLAEAIFPIYSSFID 4qas-a1-m2-cB_4qas-a1-m1-cA 1.27 A resolution structure of CT263-D161N (MTAN) from Chlamydia trachomatis A0A0H3MBV9 A0A0H3MBV9 1.25 X-RAY DIFFRACTION 26 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 187 197 4qar-a1-m2-cB_4qar-a1-m1-cA 4qfb-a1-m1-cB_4qfb-a1-m1-cA MFKLLLIFADPAEAARTLSLFPFSLNKENFYTYHTENVLLDVMVLKTWGYRGVVQALSPPPSGYDLWINAGFAGAANPNIPLLKTYTITSVKELTPEELEVTPIPRLPLAQLTSVRSPYRDGFHLQLVDMEGFFIAKQASLVACPCSMIKVSSNYTTREGQDFLKNNKVKLSQKLAEAIFPIYSSFI SMFKLLLIFADPAEAARTLSLFPFSLNKENFYTYHTENVLLDVMVLKTWGYRGVVQALSPPPSGYDLWINAGFAGAANPNIPLLKTYTITSVKELTPTTSVEEELEVTPIPRLPLAQLTSVRSPYRDGFHEHLQLVDMEGFFIAKQASLVACPCSMIKVSSNYTTREGQDFLKNNKVKLSQKLAEAIFPIYSSFIDV 4qav-a1-m1-cA_4qav-a1-m1-cB The structure of Beta-ketoacyl -(acyl carrier protein) synthase II (FabF) from Neisseria meningitidis C6S978 C6S978 2.1 X-RAY DIFFRACTION 269 1.0 662598 (Neisseria meningitidis alpha14) 662598 (Neisseria meningitidis alpha14) 412 412 QRRVVITGLGQVSPVGNTVAEAWDTLLAGKSGIGAITRFDASDINSRVAGEVRGFDIGQYISAKEARRMDVFIHYGIAAALQAIADSGLDDVENLDKDRIGVNIGSGIGGLPSIEVTGKAVIEGGARKINPFFIPGSLINLISGHVTILKGYRGPSYGMVSACTTGAHAIGNSARLIKYGDADIMVAGGAEGAISTLGVGGFAAMKALSTRNDDPATASRPWDKGRDGFVIGEGAGILVLEELEHAKKRGAKIYAEIVGFGMSSDAYHITAPNEEGPALAVTRALKDAGINPEDVDYVNAHGTSTPLGDANETKALKRAFGEHAYKTVVSSTKSMTGHLLGAAGGVEAVYSILAIHDGKIPPTINIFEQDVEAGCDLDYCANEARDAEIDVAISNSFGFGGTNGTLVFKRFK QRRVVITGLGQVSPVGNTVAEAWDTLLAGKSGIGAITRFDASDINSRVAGEVRGFDIGQYISAKEARRMDVFIHYGIAAALQAIADSGLDDVENLDKDRIGVNIGSGIGGLPSIEVTGKAVIEGGARKINPFFIPGSLINLISGHVTILKGYRGPSYGMVSACTTGAHAIGNSARLIKYGDADIMVAGGAEGAISTLGVGGFAAMKALSTRNDDPATASRPWDKGRDGFVIGEGAGILVLEELEHAKKRGAKIYAEIVGFGMSSDAYHITAPNEEGPALAVTRALKDAGINPEDVDYVNAHGTSTPLGDANETKALKRAFGEHAYKTVVSSTKSMTGHLLGAAGGVEAVYSILAIHDGKIPPTINIFEQDVEAGCDLDYCANEARDAEIDVAISNSFGFGGTNGTLVFKRFK 4qay-a2-m1-cA_4qay-a2-m2-cA Crystal structure of TamA POTRA domains W1WMC8 W1WMC8 2.35 X-RAY DIFFRACTION 66 1.0 408170 (human gut metagenome) 408170 (human gut metagenome) 248 248 NVRLQVEGLSGQLEKNVRAQLSTIEPDRRFRARVDDAIREGLKALGYYQPTIEFDLRPPPKKGRQVLIAKVTPGVPVLIGGTDVVLRGGARTDKDYLKLLDTRPAIGTVLNQGDYENFKKSLTSIALRKGYFDSEFTKAQLGIALGLHKAFWDIDYNSGERYRFGHVTFEGSQIRDEYLQNLVPFKEGDEYESKDLAELNRRLSATGWFNSVVVAPQFDKARETKVLPLTGVVSPRTEGYSTDVGPRV NVRLQVEGLSGQLEKNVRAQLSTIEPDRRFRARVDDAIREGLKALGYYQPTIEFDLRPPPKKGRQVLIAKVTPGVPVLIGGTDVVLRGGARTDKDYLKLLDTRPAIGTVLNQGDYENFKKSLTSIALRKGYFDSEFTKAQLGIALGLHKAFWDIDYNSGERYRFGHVTFEGSQIRDEYLQNLVPFKEGDEYESKDLAELNRRLSATGWFNSVVVAPQFDKARETKVLPLTGVVSPRTEGYSTDVGPRV 4qb5-a2-m1-cB_4qb5-a2-m1-cD Crystal structure of a glyoxalase/bleomycin resistance protein from Albidiferax ferrireducens T118 Q21R90 Q21R90 2.05 X-RAY DIFFRACTION 115 1.0 338969 (Rhodoferax ferrireducens T118) 338969 (Rhodoferax ferrireducens T118) 122 123 4qb5-a1-m1-cA_4qb5-a1-m1-cC SFSHVVGVNDLEVSKKFYDALLGTLGIGPGVANKSRYFYRSPAGTFGITTPINGQPATHGNGSTLGFAAQSPEQCDAFHAAGIANGGTTCEEPPGFRDGAVGKLYLAYLRDPDGNKICALHR SFSHVVGVNDLEVSKKFYDALLGTLGIGPGVANKSRYFYRSPAGTFGITTPINGQPATHGNGSTLGFAAQSPEQCDAFHAAGIANGGTTCEEPPGFRDGAVGKLYLAYLRDPDGNKICALHRP 4qba-a1-m1-cB_4qba-a1-m1-cA Crystal structure of the effector-binding domain of S. aureus CcpE 2.21 X-RAY DIFFRACTION 106 1.0 282459 (Staphylococcus aureus subsp. aureus MSSA476) 282459 (Staphylococcus aureus subsp. aureus MSSA476) 188 195 GEVNGTISIGCSSLIGQTLLPEVLSLYNAQFPNVEIQVQVGSTEQIKANHRDYHVITRGNKVNLANTHLFNDDHYFIFPKNRRDDVTKLPFIEFQADPIYINQIKQWYNDNLEQDYHATITVDQVATCKELISGVGVTILPEIKNISKEQFEFEKVEIDNEPLIRSTFSYDPSLQLPQVDSFVNLASF FDKQAHIGEVNGTISIGCSSLIGQTLLPEVLSLYNAQFPNVEIQVQVGSTEQIKANHRDYHVITRGNKVNLANTHLFNDDHYFIFPKNRRDDVTKLPFIEFQADPIYINQIKQWYNDNLEQDYHATITVDQVATCKELISGVGVTILPEIKNISKEQFEFEKVEIDNEPLIRSTFSYDPSLQLPQVDSFVNLASF 4qbl-a3-m1-cD_4qbl-a3-m1-cC VRR_NUC domain protein A5WF35 A5WF35 2 X-RAY DIFFRACTION 68 1.0 349106 (Psychrobacter sp. PRwf-1) 349106 (Psychrobacter sp. PRwf-1) 118 120 4qbl-a1-m1-cA_4qbl-a1-m1-cE 4qbl-a2-m1-cB_4qbl-a2-m1-cF KGLTEDEVQTVVNWSKRQKFKGRPLFDYIHHSPAAKFKRGVKAGYPDLIIDIARGAYHGLRIEIKKDGNSYATPAQKERIELAKEGYCAVVAKGIDNVISVIQQYIKLGDFDGVSQLT RLKGLTEDEVQTVVNWSKRQKFKGRPLFDYIHHSPAAKFKRGVKAGYPDLIIDIARGAYHGLRIEIKKDGNSYATPAQKERIELAKEGYCAVVAKGIDNVISVIQQYIKLGDFDGVSQLT 4qbn-a2-m1-cB_4qbn-a2-m3-cB VRR_NUC domain A3EZR7 A3EZR7 1.85 X-RAY DIFFRACTION 63 1.0 424944 (Salmonella phage SETP3) 424944 (Salmonella phage SETP3) 93 93 4qbn-a1-m1-cA_4qbn-a1-m2-cA ATKEGRVQKYAKERFEALGGLVRKLSYEGRSGAPDLLVILPRGVIWFVEVKKDENTKPDPHQLREHERFRKRGANVFVVGSFKQVDKLIEHYY ATKEGRVQKYAKERFEALGGLVRKLSYEGRSGAPDLLVILPRGVIWFVEVKKDENTKPDPHQLREHERFRKRGANVFVVGSFKQVDKLIEHYY 4qbo-a1-m1-cA_4qbo-a1-m2-cA VRR_NUC domain A7J283 A7J283 1.3 X-RAY DIFFRACTION 69 1.0 403905 (Streptococcus phage P9) 403905 (Streptococcus phage P9) 92 92 GSMRTEKDIENYLKKKTKGLCLKFTSPGTIGVPDRIVVMNTGTFFVEVKAPGKKPRPSQVAMHKKIKEAGQHVWVVDSYESVDMALKEMENW GSMRTEKDIENYLKKKTKGLCLKFTSPGTIGVPDRIVVMNTGTFFVEVKAPGKKPRPSQVAMHKKIKEAGQHVWVVDSYESVDMALKEMENW 4qdc-a1-m2-cA_4qdc-a1-m3-cA Crystal structure of 3-ketosteroid-9-alpha-hydroxylase 5 (KshA5) from R. rhodochrous in complex with FE2/S2 (INORGANIC) CLUSTER F1CMY8 F1CMY8 1.9 X-RAY DIFFRACTION 84 1.0 1829 (Rhodococcus rhodochrous) 1829 (Rhodococcus rhodochrous) 369 369 4qdc-a1-m1-cA_4qdc-a1-m2-cA 4qdc-a1-m1-cA_4qdc-a1-m3-cA 4qdd-a1-m1-cA_4qdd-a1-m2-cA 4qdd-a1-m1-cA_4qdd-a1-m3-cA 4qdd-a1-m2-cA_4qdd-a1-m3-cA 4qdf-a1-m1-cA_4qdf-a1-m2-cA 4qdf-a1-m1-cA_4qdf-a1-m3-cA 4qdf-a1-m2-cA_4qdf-a1-m3-cA EIREIQAAAAPTRFARGWHCLGLLRDFQDGKPHSIEAFGTKLVVFADSKGQLNVLDAYCRHMGGDLSRGEVKGDSIACPFHDWRWNGKGKCTDIPYARRVPPIAKTRAWTTLERNGQLYVWNDPQGNPPPEDVTIPEIAGYGTDEWTDWSWKSLRIKGSHCREIVDNVVDMAHFFYIHYSFPRYFKNVFEGHTATQYMHSTGREDVISGTNYDDPNAELRSEATYFGPSYMIDWLESDANGQTIETILINCHYPVSNNEFVLQYGAIVKKLPGVSDEIAAGMAEQFAEGVQLGFEQDVEIWKNKAPIDNPLLSEEDGPVYQLRRWYQQFYVDVEDITEDMTKRFEFEIDTTRAVASWQKEVAENLAKQA EIREIQAAAAPTRFARGWHCLGLLRDFQDGKPHSIEAFGTKLVVFADSKGQLNVLDAYCRHMGGDLSRGEVKGDSIACPFHDWRWNGKGKCTDIPYARRVPPIAKTRAWTTLERNGQLYVWNDPQGNPPPEDVTIPEIAGYGTDEWTDWSWKSLRIKGSHCREIVDNVVDMAHFFYIHYSFPRYFKNVFEGHTATQYMHSTGREDVISGTNYDDPNAELRSEATYFGPSYMIDWLESDANGQTIETILINCHYPVSNNEFVLQYGAIVKKLPGVSDEIAAGMAEQFAEGVQLGFEQDVEIWKNKAPIDNPLLSEEDGPVYQLRRWYQQFYVDVEDITEDMTKRFEFEIDTTRAVASWQKEVAENLAKQA 4qdf-a2-m4-cB_4qdf-a2-m5-cB Crystal structure of apo KshA5 and KshA1 in complex with 1,4-30Q-CoA from R. rhodochrous F1CMX0 F1CMX0 2.43 X-RAY DIFFRACTION 66 1.0 1829 (Rhodococcus rhodochrous) 1829 (Rhodococcus rhodochrous) 357 357 4qdf-a2-m1-cB_4qdf-a2-m4-cB 4qdf-a2-m1-cB_4qdf-a2-m5-cB PARFARGWHCLGLAKDFKDGKPHSVHAFGTKLVVWADSNDEIRILDAYCRHMGGDLSQGTVKGDEIACPFHDWRWGGNGRCKNIPYARRVPPIAKTRAWHTLDQDGLLFVWHDPQGNPPPADVTIPRIAGATSDEWTDWVWYTTEVDTNCREIIDNIVDMAHFFYVHYSFPVYFKNVFEGHVASQFMRGQAREDTRMIGSRSDASYFGPSFMIDDLVYEYEGYDVESVLINCHYPVSQDKFVLMYGMIVKKSDRLEGEKALQTAQQFGNFIAKGFEQDIEIWRNKTRIDNPLLCEEDGPVYQLRRWYEQFYVDVEDVAPEMTDRFEFEMDTTRPVAAWMKEVEANIARKAALDTETR PARFARGWHCLGLAKDFKDGKPHSVHAFGTKLVVWADSNDEIRILDAYCRHMGGDLSQGTVKGDEIACPFHDWRWGGNGRCKNIPYARRVPPIAKTRAWHTLDQDGLLFVWHDPQGNPPPADVTIPRIAGATSDEWTDWVWYTTEVDTNCREIIDNIVDMAHFFYVHYSFPVYFKNVFEGHVASQFMRGQAREDTRMIGSRSDASYFGPSFMIDDLVYEYEGYDVESVLINCHYPVSQDKFVLMYGMIVKKSDRLEGEKALQTAQQFGNFIAKGFEQDIEIWRNKTRIDNPLLCEEDGPVYQLRRWYEQFYVDVEDVAPEMTDRFEFEMDTTRPVAAWMKEVEANIARKAALDTETR 4qdk-a1-m1-cA_4qdk-a1-m1-cB Crystal structure of magnesium protoporphyrin IX methyltransferase (ChlM) from Synechocystis PCC 6803 with bound SAH Q55467 Q55467 1.7 X-RAY DIFFRACTION 38 0.995 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 219 219 DDKTIVRDYFNSTGFDRWRRIYGDGQVNFVQKDIRVGHQQTVDSVVAWLVADGNLPGLLVCDAGCGVGSLSIPLAQAGALVYGSDISEKMVGEAQQKAQEVLAYGNQPTFMTQDLAQLGGKYDTVICLDVLIHYPTEEASAMISHLASLADRRLILSFAPKTLGLTVLKKIGGLFPGRAYQHKEADIRKILGDNGFSIARTGMTSTRFYYSRILEAVRS DKTIVRDYFNSTGFDRWRRIYGDGQVNFVQKDIRVGHQQTVDSVVAWLVADGNLPGLLVCDAGCGVGSLSIPLAQAGALVYGSDISEKMVGEAQQKAQEVLAYGNQPTFMTQDLAQLGGKYDTVICLDVLIHYPTEEASAMISHLASLADRRLILSFAPKTLGLTVLKKIGGLFPGTRAYQHKEADIRKILGDNGFSIARTGMTSTRFYYSRILEAVRS 4qdk-a2-m1-cA_4qdk-a2-m2-cB Crystal structure of magnesium protoporphyrin IX methyltransferase (ChlM) from Synechocystis PCC 6803 with bound SAH Q55467 Q55467 1.7 X-RAY DIFFRACTION 75 0.995 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 219 219 DDKTIVRDYFNSTGFDRWRRIYGDGQVNFVQKDIRVGHQQTVDSVVAWLVADGNLPGLLVCDAGCGVGSLSIPLAQAGALVYGSDISEKMVGEAQQKAQEVLAYGNQPTFMTQDLAQLGGKYDTVICLDVLIHYPTEEASAMISHLASLADRRLILSFAPKTLGLTVLKKIGGLFPGRAYQHKEADIRKILGDNGFSIARTGMTSTRFYYSRILEAVRS DKTIVRDYFNSTGFDRWRRIYGDGQVNFVQKDIRVGHQQTVDSVVAWLVADGNLPGLLVCDAGCGVGSLSIPLAQAGALVYGSDISEKMVGEAQQKAQEVLAYGNQPTFMTQDLAQLGGKYDTVICLDVLIHYPTEEASAMISHLASLADRRLILSFAPKTLGLTVLKKIGGLFPGTRAYQHKEADIRKILGDNGFSIARTGMTSTRFYYSRILEAVRS 4qdn-a2-m1-cA_4qdn-a2-m2-cA Crystal Structure of the endo-beta-N-acetylglucosaminidase from Thermotoga maritima Q9WZA1 Q9WZA1 1.7 X-RAY DIFFRACTION 50 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 118 118 MKERFLERFSESAFLLERLTGIDGKILLAQSALETGWGRHTVGNNLFGIKKLSWLTFQSFVSPENSMIAYLILIKECYNRAWECRKEPEKYFRLLQRYGYATDPMYAEKCLDVYNCVE MKERFLERFSESAFLLERLTGIDGKILLAQSALETGWGRHTVGNNLFGIKKLSWLTFQSFVSPENSMIAYLILIKECYNRAWECRKEPEKYFRLLQRYGYATDPMYAEKCLDVYNCVE 4qdq-a2-m1-cB_4qdq-a2-m3-cB Physical basis for Nrp2 ligand binding O60462 O60462 1.95 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 316 316 4qdq-a1-m1-cA_4qdq-a1-m2-cA QCNVPLGMESGRIANEQISASSTYSDGRWTPQQSRLHGDDNGWTPNLDSNKEYLQVDLRFLTMLTAIATQGAISRETQNGYYVKSYKLEVSTNGEDWMVYRHGKNHKVFQANNDATEVVLNKLHAPLLTRFVRIRPQTWHSGIALRLELFGCRVTDAPCSNMLGMLSGLIADSQISASSTQEYLWSPSAARLVSSRSGWFPRIPQAQPGEEWLQVDLGTPKTVKGVIIQGARARAFVRKFKVSYSLNGKDWEYIQDPRTQQPKLFEGNMHYDTPDIRRFDPIPAQYVRVYPERWSPAGIGMRLEVLGCDWTSIIRR QCNVPLGMESGRIANEQISASSTYSDGRWTPQQSRLHGDDNGWTPNLDSNKEYLQVDLRFLTMLTAIATQGAISRETQNGYYVKSYKLEVSTNGEDWMVYRHGKNHKVFQANNDATEVVLNKLHAPLLTRFVRIRPQTWHSGIALRLELFGCRVTDAPCSNMLGMLSGLIADSQISASSTQEYLWSPSAARLVSSRSGWFPRIPQAQPGEEWLQVDLGTPKTVKGVIIQGARARAFVRKFKVSYSLNGKDWEYIQDPRTQQPKLFEGNMHYDTPDIRRFDPIPAQYVRVYPERWSPAGIGMRLEVLGCDWTSIIRR 4qds-a1-m1-cB_4qds-a1-m1-cA Physical basis for Nrp2 ligand binding O60462 O60462 2.4 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 179 182 FQCNVPLGMESGRIANEQISASSTYSDGRWTPQQSRLHGDDNGWTPNLDSNKEYLQVDLRFLTMLTAIATQGAISRETQNGYYVKSYKLEVSTNGEDWMVYRHGKNHKVFQANNDATEVVLNKLHAPLLTRFVRIRPQTWHSGIALRLELFGCRVTDAPCSNMLGMLSGLIADSQISAS SHMFQCNVPLGMESGRIANEQISASSTYSDGRWTPQQSRLHGDDNGWTPNLDSNKEYLQVDLRFLTMLTAIATQGAISRETQNGYYVKSYKLEVSTNGEDWMVYRHGKNHKVFQANNDATEVVLNKLHAPLLTRFVRIRPQTWHSGIALRLELFGCRVTDAPCSNMLGMLSGLIADSQISAS 4qdy-a1-m1-cA_4qdy-a1-m2-cA Crystal structure of a YbbR-like protein (SP_1560) from Streptococcus pneumoniae TIGR4 at 2.74 A resolution A0A0H2UQV5 A0A0H2UQV5 2.74 X-RAY DIFFRACTION 110 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 195 195 GRQVKTETYTNTVTNVPIDIRYNSDKYFISGFASEVSVVLTGANRLSLASEQESTRKFKVTADLTDAGVGTIEVPLSIEDLPNGLTAVATPQKITVKIGKKAQKDKVKIVPEIDPSQIDSRVQIENVVSDKEVSITSDQETLDRIDKIIAVLPTSERITGNYSGSVPLQAIDRNGVVLPAVITPFDTIKVTTKPV GRQVKTETYTNTVTNVPIDIRYNSDKYFISGFASEVSVVLTGANRLSLASEQESTRKFKVTADLTDAGVGTIEVPLSIEDLPNGLTAVATPQKITVKIGKKAQKDKVKIVPEIDPSQIDSRVQIENVVSDKEVSITSDQETLDRIDKIIAVLPTSERITGNYSGSVPLQAIDRNGVVLPAVITPFDTIKVTTKPV 4qe0-a2-m1-cA_4qe0-a2-m2-cA Crystal structure of a DUF5043 family protein (BACUNI_01052) from Bacteroides uniformis ATCC 8492 at 1.85 A resolution A7V0G7 A7V0G7 1.85 X-RAY DIFFRACTION 47 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 155 155 TEESLEGTVIYTTTFEVDGYTYQCDVDDGSQFVTLYNENLTYEIVYDTGTYIGSWSSNVIEYDRFSQQADFIVDQAFTAADEIGTELITLLSPNTGEVEVNFNFFTFEPYAVPLHVYREIEVLEQIHFPIEEGQLNYILAWQPQGLPPLPPPGSL TEESLEGTVIYTTTFEVDGYTYQCDVDDGSQFVTLYNENLTYEIVYDTGTYIGSWSSNVIEYDRFSQQADFIVDQAFTAADEIGTELITLLSPNTGEVEVNFNFFTFEPYAVPLHVYREIEVLEQIHFPIEEGQLNYILAWQPQGLPPLPPPGSL 4qe0-a2-m2-cB_4qe0-a2-m2-cA Crystal structure of a DUF5043 family protein (BACUNI_01052) from Bacteroides uniformis ATCC 8492 at 1.85 A resolution A7V0G7 A7V0G7 1.85 X-RAY DIFFRACTION 53 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 144 155 4qe0-a1-m1-cB_4qe0-a1-m1-cA 4qe0-a2-m1-cB_4qe0-a2-m1-cA EESLEGTVIYTTTFEVDGYTYQCDVDDGSQFVTLYNENLTYEIVYDTGTYIGSWSSNVIEYDRFSQQADFIVDQAFTAADEIGTELITLLSPNTGEVEVNFNFFTFEPYAVPLHVYREIEVLEQIHFPIEEGQLNYILAWQPQG TEESLEGTVIYTTTFEVDGYTYQCDVDDGSQFVTLYNENLTYEIVYDTGTYIGSWSSNVIEYDRFSQQADFIVDQAFTAADEIGTELITLLSPNTGEVEVNFNFFTFEPYAVPLHVYREIEVLEQIHFPIEEGQLNYILAWQPQGLPPLPPPGSL 4qez-a2-m1-cC_4qez-a2-m2-cC Crystal structure of 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase from Bacillus anthracis Q81LL4 Q81LL4 2.7 X-RAY DIFFRACTION 122 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 231 231 4qez-a1-m1-cA_4qez-a1-m1-cB RIAVIGAMEEEVRILRDKLEQAETETVAGCEFTKGQLAGHEVILLKSGIGKVNAAMSTTILLERYKPEKVINTGSAGGFHHSLNVGDVVISTEVRHHDVDVTAFNYEYGQVPGMPPGFKADEALVALAEKCMQQVVKGMIATGDSFMSDPNRVAAIRDKFENLYAVEMEAAAVAQVCHQYEVPFVIIRALSDIAGKESNVSFDQFLDQAALHSTNFIVKVLEELKLEHHHH RIAVIGAMEEEVRILRDKLEQAETETVAGCEFTKGQLAGHEVILLKSGIGKVNAAMSTTILLERYKPEKVINTGSAGGFHHSLNVGDVVISTEVRHHDVDVTAFNYEYGQVPGMPPGFKADEALVALAEKCMQQVVKGMIATGDSFMSDPNRVAAIRDKFENLYAVEMEAAAVAQVCHQYEVPFVIIRALSDIAGKESNVSFDQFLDQAALHSTNFIVKVLEELKLEHHHH 4qf2-a2-m1-cB_4qf2-a2-m1-cD Crystal structure of human BAZ2A PHD zinc finger in the free form Q9UIF9 Q9UIF9 1.7 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 53 4qf2-a1-m1-cC_4qf2-a1-m1-cA 5t8r-a5-m1-cC_5t8r-a5-m1-cA 5t8r-a6-m1-cB_5t8r-a6-m1-cD KVTCLVCRKGDNDEFLLLCDGCDRGCHIYCHRPKMEAVPEGDWFCTVCLAQ KVTCLVCRKGDNDEFLLLCDGCDRGCHIYCHRPKMEAVPEGDWFCTVCLAQQV 4qf3-a3-m1-cA_4qf3-a3-m1-cB Crystal structure of human BAZ2B PHD zinc finger in the free form Q9UIF8 Q9UIF8 1.6 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 MSIMKVYCQICRKGDNEELLLLCDGCDKGCHTYCHRPKITTIPDGDWFCPACIAKAS MSIMKVYCQICRKGDNEELLLLCDGCDKGCHTYCHRPKITTIPDGDWFCPACIAKAS 4qf4-a1-m1-cA_4qf4-a1-m1-cB Crystal structure of Staphylococcal nuclease variant V23M at cryogenic temperature P00644 P00644 1.8 X-RAY DIFFRACTION 12 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 132 132 LHKEPATLIKAIDGDTMKLMYKGQPMTFRLLLVDTPETKHPVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKPNNTHEQHLRKSEAQAKKEKLNIWS LHKEPATLIKAIDGDTMKLMYKGQPMTFRLLLVDTPETKHPVEKYGPEASAFTKKMVENAKKIEVEFDKGQRTDKYGRGLAYIYADGKMVNEALVRQGLAKVAYVYKPNNTHEQHLRKSEAQAKKEKLNIWS 4qfh-a1-m1-cA_4qfh-a1-m1-cB Structure of a glucose-6-phosphate isomerase from Trypanosoma cruzi Q4E5N1 Q4E5N1 1.8 X-RAY DIFFRACTION 595 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 610 611 HHHMKDQYLKDLTVHLNESNAAPANTSMAVASFNMPHEITRRMRPLGVDADTSLTSCPSWRRLQELYEIHGSESILKNFDECKDRFQRYSLEVDLRSSDKNFVFLDYSKTHINDEIKDVLFKLVEERGIRAFMRALFAGEKVNTAENRSVLHIALRNRSNRPIFVNGHDVMPLVNKVLEQMKKLSEKVRRGEWKGQSGKPIRHVVNIGIGGSDLGPMMACEALRPFSDRRISMHFVSNIDGTHLSEVLNLVDLESTLFIIASKTFTTQETITNALSARNEFLKFLSSRGISEAGAVAKHFVALSTNAEKVKEFGIDEENMFQFWDWVGGRYSLWSAIGLSVMISIGYDNFVELLTGAHIMDEHFINAPTENNLPIILALVGIWYNNFFGSETQAILPYDQYLWRLPAYLQQLDMESNGKGATKNGRMVSTHTGPIIFGEAGTNGQHAFYQLIHQGTKLIPCDFIGAIQTQNYIGEHHRILMSNFFAQTEALMIGKTPEEVKRELESAGGKSEDEIQLLIPQKTFTGGRPSNSLLVKALTPRALGAIIAMYEHKVLVQGAIWGINSYDQWGVELGKLLAKSILLQLQPGQKVTNHDSSTNGLIELFNERSH HHHHMKDQYLKDLTVHLNESNAAPANTSMAVASFNMPHEITRRMRPLGVDADTSLTSCPSWRRLQELYEIHGSESILKNFDECKDRFQRYSLEVDLRSSDKNFVFLDYSKTHINDEIKDVLFKLVEERGIRAFMRALFAGEKVNTAENRSVLHIALRNRSNRPIFVNGHDVMPLVNKVLEQMKKLSEKVRRGEWKGQSGKPIRHVVNIGIGGSDLGPMMACEALRPFSDRRISMHFVSNIDGTHLSEVLNLVDLESTLFIIASKTFTTQETITNALSARNEFLKFLSSRGISEAGAVAKHFVALSTNAEKVKEFGIDEENMFQFWDWVGGRYSLWSAIGLSVMISIGYDNFVELLTGAHIMDEHFINAPTENNLPIILALVGIWYNNFFGSETQAILPYDQYLWRLPAYLQQLDMESNGKGATKNGRMVSTHTGPIIFGEAGTNGQHAFYQLIHQGTKLIPCDFIGAIQTQNYIGEHHRILMSNFFAQTEALMIGKTPEEVKRELESAGGKSEDEIQLLIPQKTFTGGRPSNSLLVKALTPRALGAIIAMYEHKVLVQGAIWGINSYDQWGVELGKLLAKSILLQLQPGQKVTNHDSSTNGLIELFNERSH 4qfj-a1-m1-cB_4qfj-a1-m1-cA The crystal structure of rat angiogenin-heparin complex Q5WRG2 Q5WRG2 2.196 X-RAY DIFFRACTION 18 0.982 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 113 114 DPRYTKFLTQHYDAKRDARYCESMMRRRGLTSPCKEVNTFIHGNKGSIKAICGANGSPYGENLRISQSPFQITTCKHTGGSPRPPCRYRASAGFRHVVIACENGLPVHFDESF DPRYTKFLTQHYDAKPKGRDARYCESMMRRRGLTSPCKEVNTFIHGNKGSIKAICGANGSPYNLRISQSPFQITTCKHTGGSPRPPCRYRASAGFRHVVIACENGLPVHFDESF 4qfo-a3-m1-cA_4qfo-a3-m1-cB Crystal structure of dipeptide binding protein from pseudoalteromonas sp. SM9913 in complex with Met-Leu A7Y7W1 A7Y7W1 2.304 X-RAY DIFFRACTION 72 1.0 234831 (Pseudoalteromonas sp. SM9913) 234831 (Pseudoalteromonas sp. SM9913) 507 507 QGLVYCAEANPVSFNPQVTTTGSTIDIIANQLYDRLISIDPVTAEFKSELATDWKISKDGKSVTFTLRKGVKFHTTAYFTPTREFNADDVIFTFSRLFDVYNPYHFVGDANYPYFQSVGIDQLIRKIVRVSDHQVRFELFNAESSFLANMATDFAVVLSKEYAMALKANNQENLFDQYPVGTGPYIYKEYRRDHLVRFYKNADYWKHEVALEQLVYDITPNGTTRIAKILTKECDVTAHPSSAQLSILAQRDDINVERETNLNIGYWAFNTERPPFDNLKVRQALVHAIDIEKIMQAVYYGNGLRARSILPPTSWAFEPQKNMPIFDPQLAKKLLTEAGYEKGFDMSIWAMPVSRIYNPNARKMAELMQSDLRKIGVNVNIVEYEWNTFIQRIGEHRHDSVLLGWAADTPDPDNFFSPLLSCTATFSGKNPANWCNPEFDLLLTKALDTTDLNLRKQYYDAAQSMIIEQLPLYPIAHGMRFQASSADVEGITLGPFGAISLANARKK QGLVYCAEANPVSFNPQVTTTGSTIDIIANQLYDRLISIDPVTAEFKSELATDWKISKDGKSVTFTLRKGVKFHTTAYFTPTREFNADDVIFTFSRLFDVYNPYHFVGDANYPYFQSVGIDQLIRKIVRVSDHQVRFELFNAESSFLANMATDFAVVLSKEYAMALKANNQENLFDQYPVGTGPYIYKEYRRDHLVRFYKNADYWKHEVALEQLVYDITPNGTTRIAKILTKECDVTAHPSSAQLSILAQRDDINVERETNLNIGYWAFNTERPPFDNLKVRQALVHAIDIEKIMQAVYYGNGLRARSILPPTSWAFEPQKNMPIFDPQLAKKLLTEAGYEKGFDMSIWAMPVSRIYNPNARKMAELMQSDLRKIGVNVNIVEYEWNTFIQRIGEHRHDSVLLGWAADTPDPDNFFSPLLSCTATFSGKNPANWCNPEFDLLLTKALDTTDLNLRKQYYDAAQSMIIEQLPLYPIAHGMRFQASSADVEGITLGPFGAISLANARKK 4qft-a2-m1-cA_4qft-a2-m2-cA Structure of COP9 signalosome complex subunit 6 Q7L5N1 Q7L5N1 1.76 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 SVSVALHPLVILNISDHWIRMRSQEGRPVQVIGALIGKQEGRNIEVMNSFELLSHTVEEKIIIDKEYYYTKEEQFKQVFKELEFLGWYTTGGPPDPSDIHVHKQVCEIIESPLFLKLNPMTKHTDLPVSVFESVIDIINGEATMLFAELTYTLATEEAERIGVDHVARMTA SVSVALHPLVILNISDHWIRMRSQEGRPVQVIGALIGKQEGRNIEVMNSFELLSHTVEEKIIIDKEYYYTKEEQFKQVFKELEFLGWYTTGGPPDPSDIHVHKQVCEIIESPLFLKLNPMTKHTDLPVSVFESVIDIINGEATMLFAELTYTLATEEAERIGVDHVARMTA 4qfv-a2-m1-cC_4qfv-a2-m1-cD Crystal structure of a unique ankyrin 1.999 X-RAY DIFFRACTION 116 1.0 32630 (synthetic construct) 32630 (synthetic construct) 227 227 4qfv-a1-m1-cB_4qfv-a1-m1-cA DIGKKLLEAARAGHDDSVEVLLKKGADINAKDNSGRTPLHVAALNGHLELVKLLLEKGADINARDMFGLTPLHTAASNGHLELVKLLLEKGADINARDEDGSTPLHLAASNGHLELVKLLLEKGADINAEDHSGTTPLHFAAKNGHLELVKLLLEKGADINASDFSGPTPLHSAAENGHLELVKLLLEKGADINARDKFGKTPFDLAIDNGNEDIAEVLQKAARSHH DIGKKLLEAARAGHDDSVEVLLKKGADINAKDNSGRTPLHVAALNGHLELVKLLLEKGADINARDMFGLTPLHTAASNGHLELVKLLLEKGADINARDEDGSTPLHLAASNGHLELVKLLLEKGADINAEDHSGTTPLHFAAKNGHLELVKLLLEKGADINASDFSGPTPLHSAAENGHLELVKLLLEKGADINARDKFGKTPFDLAIDNGNEDIAEVLQKAARSHH 4qfw-a1-m1-cD_4qfw-a1-m1-cB Crystal structure of acyl-CoA thioesterase tesB from Yersinia pestis A0A3N4BCC7 A0A3N4BCC7 2 X-RAY DIFFRACTION 26 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 263 265 4qfw-a1-m1-cA_4qfw-a1-m1-cC ALEKLLDLLDLEKIEEGIFRGQSEQVFGGQVVGQAIYAAKQTVPAERTVHSFHSYFLRPGDSSKPIIYDVETLRDGNSFSARRVSAIQNGKPIFYMTASFQSQEEGFEHQNTMPDVPPPEGLMSETDIARQGPQPIEMRPVKFHNPLQGSVEEPNRYVWFRANGKMPDDLRVHQYLLGYASDFNFLPTALQPHGIGFLEPGMQIATIDHSMWFHRPFRLDDWLLYAVESTSASGARGFVRGQIYNREGVLVASTVQEGVIRLH ALEKLLDLLDLEKIEEGIFRGQSEQVFGGQVVGQAIYAAKQTVPAERTVHSFHSYFLRPGDSSKPIIYDVETLRDGNSFSARRVSAIQNGKPIFYMTASFQSQEEGFEHQNTMPDVPPPEGLMSETDIARQFSGPQPIEMRPVKFHNPLQGSVEEPNRYVWFRANGKMPDDLRVHQYLLGYASDFNFLPTALQPHGIGFLEPGMQIATIDHSMWFHRPFRLDDWLLYAVESTSASGARGFVRGQIYNREGVLVASTVQEGVIRLH 4qfw-a3-m1-cD_4qfw-a3-m1-cC Crystal structure of acyl-CoA thioesterase tesB from Yersinia pestis A0A3N4BCC7 A0A3N4BCC7 2 X-RAY DIFFRACTION 176 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 263 269 4qfw-a1-m1-cA_4qfw-a1-m1-cB 4qfw-a1-m1-cD_4qfw-a1-m1-cC 4qfw-a2-m1-cA_4qfw-a2-m1-cB 4r4u-a1-m1-cB_4r4u-a1-m1-cA 4r4u-a2-m1-cD_4r4u-a2-m1-cC ALEKLLDLLDLEKIEEGIFRGQSEQVFGGQVVGQAIYAAKQTVPAERTVHSFHSYFLRPGDSSKPIIYDVETLRDGNSFSARRVSAIQNGKPIFYMTASFQSQEEGFEHQNTMPDVPPPEGLMSETDIARQGPQPIEMRPVKFHNPLQGSVEEPNRYVWFRANGKMPDDLRVHQYLLGYASDFNFLPTALQPHGIGFLEPGMQIATIDHSMWFHRPFRLDDWLLYAVESTSASGARGFVRGQIYNREGVLVASTVQEGVIRLH ALEKLLDLLDLEKIEEGIFRGQSEQVFGGQVVGQAIYAAKQTVPAERTVHSFHSYFLRPGDSSKPIIYDVETLRDGNSFSARRVSAIQNGKPIFYMTASFQSQEEGFEHQNTMPDVPPPEGLMSETDIARQFSHKFIGPQPIEMRPVKFHNPLQGSVEEPNRYVWFRANGKMPDDLRVHQYLLGYASDFNFLPTALQPHGIGFLEPGMQIATIDHSMWFHRPFRLDDWLLYAVESTSASGARGFVRGQIYNREGVLVASTVQEGVIRLH 4qg7-a1-m1-cA_4qg7-a1-m1-cB S.aureus TMK in complex with a potent inhibitor compound 18, 2-(3-CHLOROPHENOXY)-3-METHOXY-4-{[(3S)-3-(5-METHYL-2,4-DIOXO-3,4-DIHYDROPYRIMIDIN-1(2H)-YL)PIPERIDIN-1-YL]METHYL}BENZOIC ACID Q6GJI9 Q6GJI9 1.67 X-RAY DIFFRACTION 60 1.0 282458 (Staphylococcus aureus subsp. aureus MRSA252) 282458 (Staphylococcus aureus subsp. aureus MRSA252) 197 198 2ccg-a1-m1-cB_2ccg-a1-m1-cA 2ccj-a1-m1-cB_2ccj-a1-m1-cA 2cck-a1-m1-cA_2cck-a1-m1-cB 4dwj-a1-m1-cA_4dwj-a1-m1-cB 4dwj-a2-m1-cD_4dwj-a2-m1-cC 4dwj-a3-m1-cG_4dwj-a3-m1-cE 4dwj-a4-m1-cH_4dwj-a4-m1-cF 4eaq-a1-m1-cB_4eaq-a1-m1-cA 4f4i-a2-m1-cA_4f4i-a2-m2-cB 4gfd-a1-m1-cA_4gfd-a1-m1-cB 4gsy-a3-m1-cA_4gsy-a3-m1-cB 4hdc-a1-m1-cA_4hdc-a1-m1-cB 4hej-a1-m1-cB_4hej-a1-m1-cA 4hlc-a1-m1-cA_4hlc-a1-m1-cB 4hld-a1-m1-cA_4hld-a1-m1-cB 4mqb-a2-m1-cA_4mqb-a2-m2-cB 4qga-a1-m1-cA_4qga-a1-m1-cB 4qgf-a1-m1-cB_4qgf-a1-m1-cA 4qgg-a1-m1-cA_4qgg-a1-m1-cB SAFITFEGPEGSGKTTVINEVYHRLVKDYDVIMTREPGGVPTGEEIRKIVLEGNDMDIRTEAMLFAASRREHLVLKVIPALKEGKVVLCDRYIDSSLAYQGYARGIGVEEVRALNEFAINGLYPDLTIYLNVSAEVGRERIIKNDQEDLKFHEKVIEGYQEIIHNESQRFKSVNADQPLENVVEDTYQTIIKYLEKI SAFITFEGPEGSGKTTVINEVYHRLVKDYDVIMTREPGGVPTGEEIRKIVLEGNDMDIRTEAMLFAASRREHLVLKVIPALKEGKVVLCDRYIDSSLAYQGYARGIGVEEVRALNEFAINGLYPDLTIYLNVSAEVGRERIIKNSDQEDLKFHEKVIEGYQEIIHNESQRFKSVNADQPLENVVEDTYQTIIKYLEKI 4qgb-a3-m1-cA_4qgb-a3-m1-cB Crystal structure of mutant ribosomal protein G219V TthL1 P27150 P27150 2.6 X-RAY DIFFRACTION 100 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 216 216 KVDPNKIYTIDEAAHLVKELATAKFDETVEVHAKLGIDPRRSDQNVRGTVSLPHGLGKQVRVLAIAKGEKIKEAEEAGADYVGGEEIIQKILDGWMDFDAVVATPDVMGAVGSKLGRILGPRGLLPNPKAGTVGFNIGEIIREIKAGRIEFRNDKTGAIHAPVGKASFPPEKLADNIRAFIRALEAHKPEGAKGTFLRSVYVTTTMVPSVRINPHS KVDPNKIYTIDEAAHLVKELATAKFDETVEVHAKLGIDPRRSDQNVRGTVSLPHGLGKQVRVLAIAKGEKIKEAEEAGADYVGGEEIIQKILDGWMDFDAVVATPDVMGAVGSKLGRILGPRGLLPNPKAGTVGFNIGEIIREIKAGRIEFRNDKTGAIHAPVGKASFPPEKLADNIRAFIRALEAHKPEGAKGTFLRSVYVTTTMVPSVRINPHS 4qge-a1-m1-cB_4qge-a1-m1-cA phosphodiesterase-9A in complex with inhibitor WYQ-C36D H2QL32 H2QL32 2 X-RAY DIFFRACTION 38 1.0 9598 (Pan troglodytes) 9598 (Pan troglodytes) 320 322 2yy2-a1-m1-cB_2yy2-a1-m1-cA 3dyq-a1-m1-cA_3dyq-a1-m1-cB 3dys-a1-m1-cA_3dys-a1-m1-cB 3jsw-a1-m1-cA_3jsw-a1-m1-cB 3jsw-a2-m1-cA_3jsw-a2-m1-cB 3k3e-a1-m1-cA_3k3e-a1-m1-cB 3k3e-a2-m1-cA_3k3e-a2-m1-cB 3k3h-a1-m1-cA_3k3h-a1-m1-cB 3k3h-a2-m1-cA_3k3h-a2-m1-cB 4y86-a1-m1-cA_4y86-a1-m1-cB 4y87-a1-m1-cA_4y87-a1-m1-cB 4y8c-a1-m1-cA_4y8c-a1-m1-cB 6a3n-a1-m1-cA_6a3n-a1-m1-cB 6a3n-a2-m1-cA_6a3n-a2-m1-cB 8bpy-a1-m1-cA_8bpy-a1-m1-cB KYLLSPETIEALRKPTFDVWLWEPNEMLSCLEHMYHDLGLVRDFSINPVTLRRWLFCVHDNYRNNPFHNFRHCFCVAQMMYSMVWLCSLQEKFSQTDILILMTAAICHDLDHPGYNNTYQINARTELAVRYNDISPLENHHCAVAFQILAEPECNIFSNIPPDGFKQIRQGMITLILATDMARHAEIMDSFKEKMENFDYSNEEHMTLLKMILIKCCDISNEVRPMEVAEPWVDCLLEEYFMQSDREKSEGLPVAPFMDRDKVTKATAQIGFIKFVLIPMFETVTKLFPMVEEIMLQPLWESRDRYEELKRIDDAMKELQ KYLLSPETIEALRKPTFDVWLWEPNEMLSCLEHMYHDLGLVRDFSINPVTLRRWLFCVHDNYRNNPFHNFRHCFCVAQMMYSMVWLCSLQEKFSQTDILILMTAAICHDLDHPGYNNTYQINARTELAVRYNDISPLENHHCAVAFQILAEPECNIFSNIPPDGFKQIRQGMITLILATDMARHAEIMDSFKEKMENFDYSNEEHMTLLKMILIKCCDISNEVRPMEVAEPWVDCLLEEYFMQSDREKSEGLPVAPFMDRDKVTKATAQIGFIKFVLIPMFETVTKLFPMVEEIMLQPLWESRDRYEELKRIDDAMKELQKK 4qge-a2-m2-cB_4qge-a2-m1-cA phosphodiesterase-9A in complex with inhibitor WYQ-C36D H2QL32 H2QL32 2 X-RAY DIFFRACTION 45 1.0 9598 (Pan troglodytes) 9598 (Pan troglodytes) 320 322 6lzz-a1-m2-cB_6lzz-a1-m1-cA KYLLSPETIEALRKPTFDVWLWEPNEMLSCLEHMYHDLGLVRDFSINPVTLRRWLFCVHDNYRNNPFHNFRHCFCVAQMMYSMVWLCSLQEKFSQTDILILMTAAICHDLDHPGYNNTYQINARTELAVRYNDISPLENHHCAVAFQILAEPECNIFSNIPPDGFKQIRQGMITLILATDMARHAEIMDSFKEKMENFDYSNEEHMTLLKMILIKCCDISNEVRPMEVAEPWVDCLLEEYFMQSDREKSEGLPVAPFMDRDKVTKATAQIGFIKFVLIPMFETVTKLFPMVEEIMLQPLWESRDRYEELKRIDDAMKELQ KYLLSPETIEALRKPTFDVWLWEPNEMLSCLEHMYHDLGLVRDFSINPVTLRRWLFCVHDNYRNNPFHNFRHCFCVAQMMYSMVWLCSLQEKFSQTDILILMTAAICHDLDHPGYNNTYQINARTELAVRYNDISPLENHHCAVAFQILAEPECNIFSNIPPDGFKQIRQGMITLILATDMARHAEIMDSFKEKMENFDYSNEEHMTLLKMILIKCCDISNEVRPMEVAEPWVDCLLEEYFMQSDREKSEGLPVAPFMDRDKVTKATAQIGFIKFVLIPMFETVTKLFPMVEEIMLQPLWESRDRYEELKRIDDAMKELQKK 4qgk-a1-m1-cB_4qgk-a1-m1-cA Structure of the Human Sjogren Larsson Syndrome enzyme fatty aldehyde dehydrogenase (FALDH) P51648 P51648 2.1 X-RAY DIFFRACTION 295 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 458 461 AMELEVRRVRQAFLSGRSRPLRFRLQQLEALRRMVQEREKDILTAIAADLCKSEFNVYSQEVITVLGEIDFMLENLPEWVTAKPVKKNVLTMLDEAYIQPQPLGVVLIIGAWNYPFVLTIQPLIGAIAAGNAVIIKPSELSENTAKILAKLLPQYLDQDLYIVINGGVEETTELLKQRFDHIFYTGNTAVGKIVMEAAAKHLTPVTLELGGKSPCYIDKDCDLDIVCRRITWGKYMNCGQTCIAPDYILCEASLQNQIVWKIKETVKEFYGENIKESPDYERIINLRHFKRILSLLEGQKIAFGGETDEATRYIAPTVLTDVDPKTKVMQEEIFGPILPIVPVKNVDEAINFINEREKPLALYVFSHNHKLIKRMIDETSSGGVTGNDVIMHFTLNSFPFGGVGSSGMGAYHGKHSFDTFSHQRPCLLKSLKREGANKLRYPPNSQSKVDWGKFFLLK AMELEVRRVRQAFLSGRSRPLRFRLQQLEALRRMVQEREKDILTAIAADLCKSEFNVYSQEVITVLGEIDFMLENLPEWVTAKPVKKNVLTMLDEAYIQPQPLGVVLIIGAWNYPFVLTIQPLIGAIAAGNAVIIKPSELSENTAKILAKLLPQYLDQDLYIVINGGVEETTELLKQRFDHIFYTGNTAVGKIVMEAAAKHLTPVTLELGGKSPCYIDKDCDLDIVCRRITWGKYMNCGQTCIAPDYILCEASLQNQIVWKIKETVKEFYGENIKESPDYERIINLRHFKRILSLLEGQKIAFGGETDEATRYIAPTVLTDVDPKTKVMQEEIFGPILPIVPVKNVDEAINFINEREKPLALYVFSHNHKLIKRMIDETSSGGVTGNDVIMHFTLNSFPFGGVGSSGMGAYHGKHSFDTFSHQRPCLLKSLKREGANKLRYPPNSQSKVDWGKFFLLKRFN 4qgp-a1-m1-cB_4qgp-a1-m2-cB Crystal structure of a pyrophosphatase (AF1178) from Archaeoglobus fulgidus DSM 4304 at 1.80 A resolution O29089 O29089 1.78 X-RAY DIFFRACTION 11 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 105 105 IHHHHHHEELLDILREFRDSRGWLKYHTPKNLAVSISIEVAELLEIFQWTRSSDEEFEVLERRKGEVEEEIADVLIYLLFLCDVAEINPIEAVKRKEKNERKYPK IHHHHHHEELLDILREFRDSRGWLKYHTPKNLAVSISIEVAELLEIFQWTRSSDEEFEVLERRKGEVEEEIADVLIYLLFLCDVAEINPIEAVKRKEKNERKYPK 4qgp-a1-m2-cB_4qgp-a1-m1-cA Crystal structure of a pyrophosphatase (AF1178) from Archaeoglobus fulgidus DSM 4304 at 1.80 A resolution O29089 O29089 1.78 X-RAY DIFFRACTION 40 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 105 106 4qgp-a1-m1-cB_4qgp-a1-m2-cA IHHHHHHEELLDILREFRDSRGWLKYHTPKNLAVSISIEVAELLEIFQWTRSSDEEFEVLERRKGEVEEEIADVLIYLLFLCDVAEINPIEAVKRKEKNERKYPK KIHHHHHHEELLDILREFRDSRGWLKYHTPKNLAVSISIEVAELLEIFQWTRSSDEEFEVLERRKGEVEEEIADVLIYLLFLCDVAEINPIEAVKRKEKNERKYPK 4qgp-a2-m1-cB_4qgp-a2-m1-cA Crystal structure of a pyrophosphatase (AF1178) from Archaeoglobus fulgidus DSM 4304 at 1.80 A resolution O29089 O29089 1.78 X-RAY DIFFRACTION 165 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 105 106 4qgp-a1-m1-cB_4qgp-a1-m1-cA 4qgp-a1-m2-cB_4qgp-a1-m2-cA IHHHHHHEELLDILREFRDSRGWLKYHTPKNLAVSISIEVAELLEIFQWTRSSDEEFEVLERRKGEVEEEIADVLIYLLFLCDVAEINPIEAVKRKEKNERKYPK KIHHHHHHEELLDILREFRDSRGWLKYHTPKNLAVSISIEVAELLEIFQWTRSSDEEFEVLERRKGEVEEEIADVLIYLLFLCDVAEINPIEAVKRKEKNERKYPK 4qgr-a1-m1-cB_4qgr-a1-m1-cA Crystal structure of a DegT DnrJ EryC1 StrS aminotransferase from Brucella abortus Q2YRB9 Q2YRB9 1.75 X-RAY DIFFRACTION 142 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 373 376 HMQFIDLGAQRARIENRLNAAISKVVAEGRYILGPEVAEFEKKLGEYLGVEHVIACANGTDALQMPLMTRGIGPGHAVFVPSFTFAATAEVVALVGAEPVFVDVDPDSYNMNVEQLEAAIAATIKEGRLEPKAIIPVDLFGLAASYNRITAIAEREGLFIIEDAAQSIGGKRDNVMCGAFGHVGATSFYPAKPLGCYGDGGAMFTNDAELADTLRSVLFHGKGETQYDNVRIGINSRLDTIQAAVLLEKLAILEDEMEARDRIARRYNEALKDVVKVPELPAGNRSAWAQYSIESENRDGLKAQLQAEGIPSVIYYVKPLHLQTAYKHYSVAPGGLPVSESLPSRILSLPMHPYLSEADQDKIIGVIRGFHGK HHHMQFIDLGAQRARIENRLNAAISKVVAEGRYILGPEVAEFEKKLGEYLGVEHVIACANGTDALQMPLMTRGIGPGHAVFVPSFTFAATAEVVALVGAEPVFVDVDPDSYNMNVEQLEAAIAATIKEGRLEPKAIIPVDLFGLAASYNRITAIAEREGLFIIEDAAQSIGGKRDNVMCGAFGHVGATSFYPAKPLGCYGDGGAMFTNDAELADTLRSVLFHGKGETQYDNVRIGINSRLDTIQAAVLLEKLAILEDEMEARDRIARRYNEALKDVVKVPELPAGNRSAWAQYSIESENRDGLKAQLQAEGIPSVIYYVKPLHLQTAYKHYSVAPGGLPVSESLPSRILSLPMHPYLSEADQDKIIGVIRGFHGKK 4qgu-a1-m1-cA_4qgu-a1-m1-cB protein domain complex with ssDNA Q16666 Q16666 2.545 X-RAY DIFFRACTION 18 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 191 191 VLQKRPVIVKVLSTTKPFEYETPEMEKKIMFHATVATQTQFFHVKVLNTSLKEKFNGKKIIIISDYLEYDSLLEVNEESTVSEAGPNQTFEVPNKIINRAKETLKIDILHKQASGNIVYGVFMLHKKTVNQKTTIYEIQDDRGKMDVVGTGQCHNIPCEEGDKLQLFCFRLRKKNQMSKLISEMHSFIQIK NVLQKRPVIVKVLSTTKPFEYETPEMEKKIMFHATVATQTQFFHVKVLNTSLKEKFNGKKIIIISDYLEYDSLLEVNEESTVSEAGPQTFEVPNKIINRAKETLKIDILHKQASGNIVYGVFMLHKKTVNQKTTIYEIQDDRGKMDVVGTGQCHNIPCEEGDKLQLFCFRLRKKNQMSKLISEMHSFIQIK 4qh0-a6-m1-cD_4qh0-a6-m1-cB Crystal structure of NucA from Streptococcus agalactiae with magnesium ion bound 2 X-RAY DIFFRACTION 31 0.986 1318615 (Streptococcus agalactiae ILRI112) 1318615 (Streptococcus agalactiae ILRI112) 215 219 4qh0-a5-m1-cC_4qh0-a5-m1-cA AASSVDTSQEFQNNLKNAIGNLPFQYVNGIYELNNNQTNLNADVNVKAYVQNTIDNQQRPSTANAMLDRTIRQYQNRANWKPLGWHQVATNDHYGHAVDKGALIAYALAGNFKGWDASVSNPQNVVTQTAHSNQSNQKINRGQNYYESLVRKAVDQNKRVRYRVTPLYRNDTDLVPFAMHLEAKSQDGTLEFNVAIPNTQASYTMDYATGEITLN SVDTSQEFQNNLKNAIGNLPFQYVNGIYELNNNQTNLNADVNVKAYVQNTIDNQQRPSTANAMLDRTIRQYQNRRDTTLPDANWKPLGWHQVATNDHYGHAVDKGALIAYALAGNFKGWDASVSNPQNVVTQTAHSNQSNQKINRGQNYYESLVRKAVDQNKRVRYRVTPLYRNDTDLVPFAMHLEAKSQDGTLEFNVAIPNTQASYTMDYATGEITLN 4qhb-a1-m1-cB_4qhb-a1-m1-cC Crystal structure of a putative hydrolase (BVU_2763) from Bacteroides vulgatus ATCC 8482 at 2.44 A resolution A6L3Z9 A6L3Z9 2.44 X-RAY DIFFRACTION 18 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 380 380 ELPALGNTHIQVFDKTPVCFRPDSFPNYTPANADGVIRLVNGRIILKKITLPDYKRDVDVTLKVTVASNGDRWDKSGSCFVLPKESVINLNIAEGKRAFPAVDSTKYEKIGIVPGQDYVPTLELRFTPFGVGYYSSDNDSLSSKRRPVYIPKWEKSVTWVQDITDLYPALEREAYVGIYIDTWTAEGYVASELDVKESKITCDVPERRVKPLNTVYYIGQTYPDIFSRKDVVDFDPKAAKNVRLKYIVTGHGGHSGGDEFVEKRNIVSVDGKEVLNFIPWRDDCASFRRFNPATGVWLIPRVAAYIGDKGYTTKEIEEPLASSDLSRSNWCPGSDVPEEAVIGDLSAGKHSFKVSIPEAQQVDGNKLNHWLVSAYLVWEE ELPALGNTHIQVFDKTPVCFRPDSFPNYTPANADGVIRLVNGRIILKKITLPDYKRDVDVTLKVTVASNGDRWDKSGSCFVLPKESVINLNIAEGKRAFPAVDSTKYEKIGIVPGQDYVPTLELRFTPFGVGYYSSDNDSLSSKRRPVYIPKWEKSVTWVQDITDLYPALEREAYVGIYIDTWTAEGYVASELDVKESKITCDVPERRVKPLNTVYYIGQTYPDIFSRKDVVDFDPKAAKNVRLKYIVTGHGGHSGGDEFVEKRNIVSVDGKEVLNFIPWRDDCASFRRFNPATGVWLIPRVAAYIGDKGYTTKEIEEPLASSDLSRSNWCPGSDVPEEAVIGDLSAGKHSFKVSIPEAQQVDGNKLNHWLVSAYLVWEE 4qhb-a1-m1-cD_4qhb-a1-m1-cB Crystal structure of a putative hydrolase (BVU_2763) from Bacteroides vulgatus ATCC 8482 at 2.44 A resolution A6L3Z9 A6L3Z9 2.44 X-RAY DIFFRACTION 17 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 374 380 4qhb-a1-m1-cA_4qhb-a1-m1-cC ELPALGNTHIQVFDKTPVCFRPDSFPNYTPANADGVIRLVNGRIILKKITLPDYKRDVDVTLKVTVASNGDRWDKSGSCFVLPKESVINLNIAEGKRAFPAVDSTKYEKIGIVPGQDYVPTLELRFTPFGVGYYSSSKRRPVYIPKWEKSVTWVQDITDLYPALEREAYVGIYIDTWTAEGYVASELDVKESKITCDVPERRVKPLNTVYYIGQTYPDIFSRKDVVDFDPKAAKNVRLKYIVTGHGGHSGGDEFVEKRNIVSVDGKEVLNFIPWRDDCASFRRFNPATGVWLIPRVAAYIGDKGYTTKEIEEPLASSDLSRSNWCPGSDVPEEAVIGDLSAGKHSFKVSIPEAQQVDGNKLNHWLVSAYLVWEE ELPALGNTHIQVFDKTPVCFRPDSFPNYTPANADGVIRLVNGRIILKKITLPDYKRDVDVTLKVTVASNGDRWDKSGSCFVLPKESVINLNIAEGKRAFPAVDSTKYEKIGIVPGQDYVPTLELRFTPFGVGYYSSDNDSLSSKRRPVYIPKWEKSVTWVQDITDLYPALEREAYVGIYIDTWTAEGYVASELDVKESKITCDVPERRVKPLNTVYYIGQTYPDIFSRKDVVDFDPKAAKNVRLKYIVTGHGGHSGGDEFVEKRNIVSVDGKEVLNFIPWRDDCASFRRFNPATGVWLIPRVAAYIGDKGYTTKEIEEPLASSDLSRSNWCPGSDVPEEAVIGDLSAGKHSFKVSIPEAQQVDGNKLNHWLVSAYLVWEE 4qhb-a3-m1-cD_4qhb-a3-m1-cC Crystal structure of a putative hydrolase (BVU_2763) from Bacteroides vulgatus ATCC 8482 at 2.44 A resolution A6L3Z9 A6L3Z9 2.44 X-RAY DIFFRACTION 120 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 374 380 4qhb-a1-m1-cA_4qhb-a1-m1-cB 4qhb-a1-m1-cD_4qhb-a1-m1-cC 4qhb-a2-m1-cA_4qhb-a2-m1-cB ELPALGNTHIQVFDKTPVCFRPDSFPNYTPANADGVIRLVNGRIILKKITLPDYKRDVDVTLKVTVASNGDRWDKSGSCFVLPKESVINLNIAEGKRAFPAVDSTKYEKIGIVPGQDYVPTLELRFTPFGVGYYSSSKRRPVYIPKWEKSVTWVQDITDLYPALEREAYVGIYIDTWTAEGYVASELDVKESKITCDVPERRVKPLNTVYYIGQTYPDIFSRKDVVDFDPKAAKNVRLKYIVTGHGGHSGGDEFVEKRNIVSVDGKEVLNFIPWRDDCASFRRFNPATGVWLIPRVAAYIGDKGYTTKEIEEPLASSDLSRSNWCPGSDVPEEAVIGDLSAGKHSFKVSIPEAQQVDGNKLNHWLVSAYLVWEE ELPALGNTHIQVFDKTPVCFRPDSFPNYTPANADGVIRLVNGRIILKKITLPDYKRDVDVTLKVTVASNGDRWDKSGSCFVLPKESVINLNIAEGKRAFPAVDSTKYEKIGIVPGQDYVPTLELRFTPFGVGYYSSDNDSLSSKRRPVYIPKWEKSVTWVQDITDLYPALEREAYVGIYIDTWTAEGYVASELDVKESKITCDVPERRVKPLNTVYYIGQTYPDIFSRKDVVDFDPKAAKNVRLKYIVTGHGGHSGGDEFVEKRNIVSVDGKEVLNFIPWRDDCASFRRFNPATGVWLIPRVAAYIGDKGYTTKEIEEPLASSDLSRSNWCPGSDVPEEAVIGDLSAGKHSFKVSIPEAQQVDGNKLNHWLVSAYLVWEE 4qhg-a1-m1-cA_4qhg-a1-m2-cA Crystal structure of Methanocaldococcus jannaschii dimeric selecase Q58610 Q58610 2.2 X-RAY DIFFRACTION 34 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 108 108 DRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQKK DRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQKK 4qhh-a1-m1-cA_4qhh-a1-m4-cA Crystal structure of Methanocaldococcus jannaschii tetrameric selecase Q58610 Q58610 3 X-RAY DIFFRACTION 46 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 108 108 4qhh-a1-m2-cA_4qhh-a1-m3-cA KDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK KDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK 4qhh-a1-m2-cA_4qhh-a1-m4-cA Crystal structure of Methanocaldococcus jannaschii tetrameric selecase Q58610 Q58610 3 X-RAY DIFFRACTION 15 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 108 108 4qhh-a1-m1-cA_4qhh-a1-m3-cA KDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK KDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK 4qhh-a1-m3-cA_4qhh-a1-m4-cA Crystal structure of Methanocaldococcus jannaschii tetrameric selecase Q58610 Q58610 3 X-RAY DIFFRACTION 53 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 108 108 4qhh-a1-m1-cA_4qhh-a1-m2-cA KDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK KDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK 4qhi-a2-m1-cC_4qhi-a2-m1-cD Crystal structure of Methanocaldococcus jannaschii selecase mutant R36W Q58610 Q58610 2.3 X-RAY DIFFRACTION 49 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 106 107 4qhi-a1-m1-cA_4qhi-a1-m1-cB RKILNEILSNTINELNLNDKKANIKIKIKPLKWKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK DRKILNEILSNTINELNLNDKKANIKIKIKPLKWKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILINLINKLHQK 4qhj-a1-m1-cA_4qhj-a1-m1-cB Crystal structure of Methanocaldococcus jannaschii selecase mutant I100F+H107F Q58610 Q58610 1.75 X-RAY DIFFRACTION 47 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 108 108 MKDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILFNLINKLFQ MKDRKILNEILSNTINELNLNDKKANIKIKIKPLKRKIASISLTNKTIYINKNILPYLSDEEIRFILAHELLHLKYGKYHINEFEEELLFLFPNKEAILFNLINKLFQ 4qhr-a1-m1-cB_4qhr-a1-m1-cA The structure of alanine racemase from Acinetobacter baumannii A0A0M3KKV7 A0A0M3KKV7 1.9 X-RAY DIFFRACTION 179 1.0 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 336 355 MRQATVYIDRQALQYNLNRVKQLAANSKIVSMVANAYGHGVKDCLAALNASDAFGVACLQEGLEIRELGFEQPVTLIEGVFSEDEMPVAIEQKFECVIHHQQQFEWLIKHKQAYIAQGLKVWVKLNSGMNRLGFKDPEIIEVIKTLKSEGFTCVLAMHFANADVDHPLNEQQKQQFLHIKETCDPILASCCNSAAIFKWPELNFDYVRPGIMLYGASPFADKTVHDLDLKPVMTFTAEIIALNHIMDIAIVSIGYGDGYPRAYVKQNFVAIDGKLCPVVGRVSMDMIAIDVTNTQVKLGTQVELWGNHRLVDDVAEANGTIGYELLCRLSSRPVRQ MRQATVYIDRQALQYNLNRVKQLAANSKIVSMVANAYGHGVKDCLAALNASDAFGVACLQEGLEIRELGFEQPVTLIEGVFSEDEMPVAIEQKFECVIHHQQQFEWLIKHKQAYIAQGLKVWVKLNSGMNRLGFKDPEIIEVIKTLKSEGFTCVLAMHFANADVDHPLNEQQKQQFLHIKETCDPILASCCNSAAIFKWPELNFDYVRPGIMLYGASPFADKTVHDLDLKPVMTFTAEIIALNHIEAGEHVGYGSTFCAQQAMDIAIVSIGYGDGYPRAYVKQNFVAIDGKLCPVVGRVSMDMIAIDVTNTQVKLGTQVELWGNHRLVDDVAEANGTIGYELLCRLSSRPVRQGT 4qhx-a2-m2-cA_4qhx-a2-m3-cA Crystal structure of a putative two-domain sugar hydrolase (BACCAC_02064) from Bacteroides caccae ATCC 43185 at 1.80 A resolution A5ZGP5 A5ZGP5 1.8 X-RAY DIFFRACTION 18 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 394 394 4qhx-a2-m1-cA_4qhx-a2-m2-cA 4qhx-a2-m1-cA_4qhx-a2-m3-cA QPQQVVVGVSGNGYVTRQQDGARITQRGVTHWTNPKSIVSIYFYLHQPTTADLSLYAKGHSEIKVSYGKKGFKVNLQSNDFTKVPVGSIDIRQAGYVRIDLQGVSKSGEGFGEIKQLIADNVTGKSNYVKDFSDYWGRRGPSVHLGYALPEGDTEWFYNEITVPKEGETHSYYAAGFGEGYFGQYNSPTERRILFSVWSPFDTQNPKEIPDDQKIKLLRQGKDVHIGEFGNEGSGGQSYLKYPWKAGNTYKFLQIRPDGNGNTTYTAYFYATDEKEWKLIASFLRPKTNTWYKRPHSFLENFSPEQGYLSREVFFGNQWARSKEGKWSRLTDATFTHDATASAQVRLDYQGGNTKDNRFYLKGGFFNESVPGTKFYCKPTGKEPEIDWEALKQL QPQQVVVGVSGNGYVTRQQDGARITQRGVTHWTNPKSIVSIYFYLHQPTTADLSLYAKGHSEIKVSYGKKGFKVNLQSNDFTKVPVGSIDIRQAGYVRIDLQGVSKSGEGFGEIKQLIADNVTGKSNYVKDFSDYWGRRGPSVHLGYALPEGDTEWFYNEITVPKEGETHSYYAAGFGEGYFGQYNSPTERRILFSVWSPFDTQNPKEIPDDQKIKLLRQGKDVHIGEFGNEGSGGQSYLKYPWKAGNTYKFLQIRPDGNGNTTYTAYFYATDEKEWKLIASFLRPKTNTWYKRPHSFLENFSPEQGYLSREVFFGNQWARSKEGKWSRLTDATFTHDATASAQVRLDYQGGNTKDNRFYLKGGFFNESVPGTKFYCKPTGKEPEIDWEALKQL 4qhz-a1-m1-cA_4qhz-a1-m1-cD Crystal structure of a putative glycosyl hydrolase (BDI_3914) from Parabacteroides distasonis ATCC 8503 at 2.13 A resolution A6LIT1 A6LIT1 2.13 X-RAY DIFFRACTION 11 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 221 223 4qhz-a1-m1-cB_4qhz-a1-m1-cC PTGYAGITHESEFYEPVPPVVTPGTDLGGGFTAPSDAIVLFDGDLSAWESVGGAAEWDVHDGVFTVNKGDIQTQFNDFQHIEWQVPTNITGESQSRGNSGIFLQGYEVQVLDCYNNPTYVNGQTGSIYKQSIPLANARPGEWNVYDIIYTAPTFKEDGSYRTHPTVTVIQNGVVLQNHTTILGTTEWIGFPQVHGAGPIILQSHGDPSEPISFRNIWIREL EFPTGYAGITHESEFYEPVPPVVTPGTDLGGGFTAPSDAIVLFDGDLSAWESVGGAAEWDVHDGVFTVNKGDIQTQFNDFQHIEWQVPTNITGESQSRGNSGIFLQGYEVQVLDCYNNPTYVNGQTGSIYKQSIPLANARPGEWNVYDIIYTAPTFKEDGSYRTHPTVTVIQNGVVLQNHTTILGTTEWIGFPQVHGAGPIILQSHGDPSEPISFRNIWIREL 4qhz-a1-m1-cB_4qhz-a1-m1-cD Crystal structure of a putative glycosyl hydrolase (BDI_3914) from Parabacteroides distasonis ATCC 8503 at 2.13 A resolution A6LIT1 A6LIT1 2.13 X-RAY DIFFRACTION 11 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 221 223 4qhz-a1-m1-cA_4qhz-a1-m1-cC PTGYAGITHESEFYEPVPPVVTPGTDLGGGFTAPSDAIVLFDGDLSAWESVGGAAEWDVHDGVFTVNKGDIQTQFNDFQHIEWQVPTNITGESQSRGNSGIFLQGYEVQVLDCYNNPTYVNGQTGSIYKQSIPLANARPGEWNVYDIIYTAPTFKEDGSYRTHPTVTVIQNGVVLQNHTTILGTTEWIGFPQVHGAGPIILQSHGDPSEPISFRNIWIREL EFPTGYAGITHESEFYEPVPPVVTPGTDLGGGFTAPSDAIVLFDGDLSAWESVGGAAEWDVHDGVFTVNKGDIQTQFNDFQHIEWQVPTNITGESQSRGNSGIFLQGYEVQVLDCYNNPTYVNGQTGSIYKQSIPLANARPGEWNVYDIIYTAPTFKEDGSYRTHPTVTVIQNGVVLQNHTTILGTTEWIGFPQVHGAGPIILQSHGDPSEPISFRNIWIREL 4qhz-a1-m1-cC_4qhz-a1-m1-cD Crystal structure of a putative glycosyl hydrolase (BDI_3914) from Parabacteroides distasonis ATCC 8503 at 2.13 A resolution A6LIT1 A6LIT1 2.13 X-RAY DIFFRACTION 175 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 223 223 4qhz-a1-m1-cA_4qhz-a1-m1-cB EFPTGYAGITHESEFYEPVPPVVTPGTDLGGGFTAPSDAIVLFDGDLSAWESVGGAAEWDVHDGVFTVNKGDIQTQFNDFQHIEWQVPTNITGESQSRGNSGIFLQGYEVQVLDCYNNPTYVNGQTGSIYKQSIPLANARPGEWNVYDIIYTAPTFKEDGSYRTHPTVTVIQNGVVLQNHTTILGTTEWIGFPQVHGAGPIILQSHGDPSEPISFRNIWIREL EFPTGYAGITHESEFYEPVPPVVTPGTDLGGGFTAPSDAIVLFDGDLSAWESVGGAAEWDVHDGVFTVNKGDIQTQFNDFQHIEWQVPTNITGESQSRGNSGIFLQGYEVQVLDCYNNPTYVNGQTGSIYKQSIPLANARPGEWNVYDIIYTAPTFKEDGSYRTHPTVTVIQNGVVLQNHTTILGTTEWIGFPQVHGAGPIILQSHGDPSEPISFRNIWIREL 4qi3-a3-m1-cA_4qi3-a3-m1-cB Cytochrome domain of Myriococcum thermophilum cellobiose dehydrogenase, MtCYT A9XK88 A9XK88 1.4 X-RAY DIFFRACTION 38 1.0 207 207 NNVPNTFTDPDSGITFNTWGLDEDSPQTQGGFTFGVALPSDALTTDASEFIGYLKCARNDESGWCGISLGGPMTNSLLITAWPHEDTVYTSLRFATGYAMPDVYEGDAEITQVSSSVNSTHFSLIFRCKNCLQWSHGGSSGGASTSGGVLVLGWVQAFDDPGNPTCPEQITLQQHDNGMGIWGAQLNTDAASPSYTDWAAQATKTVT NNVPNTFTDPDSGITFNTWGLDEDSPQTQGGFTFGVALPSDALTTDASEFIGYLKCARNDESGWCGISLGGPMTNSLLITAWPHEDTVYTSLRFATGYAMPDVYEGDAEITQVSSSVNSTHFSLIFRCKNCLQWSHGGSSGGASTSGGVLVLGWVQAFDDPGNPTCPEQITLQQHDNGMGIWGAQLNTDAASPSYTDWAAQATKTVT 4qi4-a2-m2-cA_4qi4-a2-m3-cA Dehydrogenase domain of Myriococcum thermophilum cellobiose dehydrogenase, MtDH A9XK88 A9XK88 2.7 X-RAY DIFFRACTION 58 1.0 585 585 4qi4-a2-m1-cA_4qi4-a2-m2-cA 4qi4-a2-m1-cA_4qi4-a2-m3-cA PVPTGVSFDYIVVGGGAGGIPAADKLSEAGKSVLLIEKGFASTANTGGTLGPEWLEGHDLTRFDVPGLCNQIWVDSKGIACEDTDQMAGCVLGGGTAVNAGLWFKPYSLDWDYLFPDGWKYNDVQPAINRALSRIPGTDAPSTDGKRYYQEGFEVLSKGLAAGGWTSVTANNAPDKKNRTFAHAPFMFAGGERNGPLGTYFQTAKKRNNFDVWLNTSVKRVIREGGHITGVEVEPFRDGGYEGIVPVTKVTGRVILSAGTFGSAKILLRSGIGPEDQLEVVAASEKDGPTMIGNSSWINLPVGYNLDDHLNTDTVISHPDVVFYDFYEAWDDPIESDKNSYLESRTGILAQAAPNIGPMFWEEIVGADGIVRQLQWTARVEGSLGAPNGHTMTMSQYLGRGATSRGRMTITPSLTTIVSDVPYLKDPNDKEAVIQGIINLQNALQNVANLTWLFPNSTITPREYVESMVVSPSNRRSNHWMGTNKLGTDDGRKGGSAVVDLDTRVYGTDNLFVIDASIFPGVPTTNPTSYIVVAAEHASSRILALPDLEPVPKYGQCGGREWTGSFVCADGSTCEYQNEWYSQCL PVPTGVSFDYIVVGGGAGGIPAADKLSEAGKSVLLIEKGFASTANTGGTLGPEWLEGHDLTRFDVPGLCNQIWVDSKGIACEDTDQMAGCVLGGGTAVNAGLWFKPYSLDWDYLFPDGWKYNDVQPAINRALSRIPGTDAPSTDGKRYYQEGFEVLSKGLAAGGWTSVTANNAPDKKNRTFAHAPFMFAGGERNGPLGTYFQTAKKRNNFDVWLNTSVKRVIREGGHITGVEVEPFRDGGYEGIVPVTKVTGRVILSAGTFGSAKILLRSGIGPEDQLEVVAASEKDGPTMIGNSSWINLPVGYNLDDHLNTDTVISHPDVVFYDFYEAWDDPIESDKNSYLESRTGILAQAAPNIGPMFWEEIVGADGIVRQLQWTARVEGSLGAPNGHTMTMSQYLGRGATSRGRMTITPSLTTIVSDVPYLKDPNDKEAVIQGIINLQNALQNVANLTWLFPNSTITPREYVESMVVSPSNRRSNHWMGTNKLGTDDGRKGGSAVVDLDTRVYGTDNLFVIDASIFPGVPTTNPTSYIVVAAEHASSRILALPDLEPVPKYGQCGGREWTGSFVCADGSTCEYQNEWYSQCL 4qi7-a3-m1-cB_4qi7-a3-m1-cA Cellobiose dehydrogenase from Neurospora crassa, NcCDH Q7RXM0 Q7RXM0 2.9 X-RAY DIFFRACTION 69 1.0 367110 (Neurospora crassa OR74A) 367110 (Neurospora crassa OR74A) 792 805 TAPKTFTHPDTGIVFNTWSASDSQTKGGFTVGMALPSNALTTDATEFIGYLECSSAKNGANSGWCGVSLRGAMTNNLLITAWPSDGEVYTNLMFATGYAMPKNYAGDAKITQIASSVNATHFTLVFRCQNCLSWDQDGVTGGISTSNKGAQLGWVQAFPSPGNPTCPTQITLSQHDNGMGQWGAAFDSNIANPSYTAWAAKATKIAATPVPTGVSFDYIVVGGGAGGIPVADKLSESGKSVLLIEKGFASTGEHGGTLKPEWLNNTSLTRFDVPGLCNQIWKDSDGIACSDTDQMAGCVLGGGTAINAGLWYKPYTKDWDYLFPSGWKGSDIAGATSRALSRIPGTTTPSQDGKRYLQQGFEVLANGLKASGWKEVDSLKDSEQKNRTFSHTSYMYINGERGGPLATYLVSAKKRSNFKLWLNTAVKRVIREGGHITGVEVEAFRNGGYSGIIPVTNTTGRVVLSAGTFGSAKILLRSGIGPKDQLEVVKASADGPTMVSNSSWIDLPVGHNLVDHTNTDTVIQHNNVTFYDFYKAWDNPNTTDMNLYLNGRSGIFAQAAPNIGPLFWEEITGADGIVRQLHWTARVEGSFETPDGYAMTMSQYLGRGATSRGRMTLSPTLNTVVSDLPYLKDPNDKAAVVQGIVNLQKALANVKGLTWAYPSANQTAADFVDKQPVTYQSRRSNHWMGTNKMGTDDGRSGGTAVVDTNTRVYGTDNLYVVDASIFPGVPTTNPTAYIVVAAEHAAAKILAQPANEAVPKWGWCGGPTYTGSQTCQAPYKCEKQNDWYWQCV TAPKTFTHPDTGIVFNTWSASDSQTKGGFTVGMALPSNALTTDATEFIGYLECSSAKNGANSGWCGVSLRGAMTNNLLITAWPSDGEVYTNLMFATGYAMPKNYAGDAKITQIASSVNATHFTLVFRCQNCLSWDQDGVTGGISTSNKGAQLGWVQAFPSPGNPTCPTQITLSQHDNGMGQWGAAFDSNIANPSYTAWAAKATKTVTGTCSGPVTTSIAATPVPTGVSFDYIVVGGGAGGIPVADKLSESGKSVLLIEKGFASTGEHGGTLKPEWLNNTSLTRFDVPGLCNQIWKDSDGIACSDTDQMAGCVLGGGTAINAGLWYKPYTKDWDYLFPSGWKGSDIAGATSRALSRIPGTTTPSQDGKRYLQQGFEVLANGLKASGWKEVDSLKDSEQKNRTFSHTSYMYINGERGGPLATYLVSAKKRSNFKLWLNTAVKRVIREGGHITGVEVEAFRNGGYSGIIPVTNTTGRVVLSAGTFGSAKILLRSGIGPKDQLEVVKASADGPTMVSNSSWIDLPVGHNLVDHTNTDTVIQHNNVTFYDFYKAWDNPNTTDMNLYLNGRSGIFAQAAPNIGPLFWEEITGADGIVRQLHWTARVEGSFETPDGYAMTMSQYLGRGATSRGRMTLSPTLNTVVSDLPYLKDPNDKAAVVQGIVNLQKALANVKGLTWAYPSANQTAADFVDKQPVTYQSRRSNHWMGTNKMGTDDGRSGGTAVVDTNTRVYGTDNLYVVDASIFPGVPTTNPTAYIVVAAEHAAAKILAQPANEAVPKWGWCGGPTYTGSQTCQAPYKCEKQNDWYWQCV 4qic-a1-m1-cB_4qic-a1-m1-cD Co-Crystal Structure of Anti-anti-sigma factor PhyR complexed with Anti-sigma factor NepR from Bartonella quintana A0A0H3LV19 A0A0H3LV19 2.05 X-RAY DIFFRACTION 26 1.0 283165 (Bartonella quintana str. Toulouse) 283165 (Bartonella quintana str. Toulouse) 51 54 NHFTFGDDLLGVNSEIARKLRQFYLEIQEEALPARLLELLERLEQAERFGL NHFTFGDDLLGVNSEIARKLRQFYLEIQEEALPARLLELLERLEQAERFGLNNA 4qin-a1-m1-cA_4qin-a1-m2-cA Structure of the human smoothened receptor in complex with SAG1.5 Q99835 Q99835 2.6 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 447 447 QCEVPLVRTDNPKSWYEDVEGCGIQCQNPLFTEAEHQDMHSYIAAFGAVTGLCTLFTLATFVADWRNSNRYPAVILFYVNACFFVGSIGWLAQFMDGARREIVCRADGTMRLGEPTSNETLSCVIIFVIVYYALMAGVVWFVVLTYAWHTSFKALGTTYQPLSGKTSYFHLLTWSLPFVLTVAILAVAQVDGDSVSGICFVGYKNYRYRAGFVLAPIGLVLIVGGYFLIRGVMTLFSIKSNHADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLAASKINETMLRLGIFGFLAFGFVLITFSCHFYDFFNQAEWERSFRDYVLCQANDCEIKNRPSLLVEKINLFAMFGTGIAMSTWVWTKATLLIWRRTWCR QCEVPLVRTDNPKSWYEDVEGCGIQCQNPLFTEAEHQDMHSYIAAFGAVTGLCTLFTLATFVADWRNSNRYPAVILFYVNACFFVGSIGWLAQFMDGARREIVCRADGTMRLGEPTSNETLSCVIIFVIVYYALMAGVVWFVVLTYAWHTSFKALGTTYQPLSGKTSYFHLLTWSLPFVLTVAILAVAQVDGDSVSGICFVGYKNYRYRAGFVLAPIGLVLIVGGYFLIRGVMTLFSIKSNHADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLAASKINETMLRLGIFGFLAFGFVLITFSCHFYDFFNQAEWERSFRDYVLCQANDCEIKNRPSLLVEKINLFAMFGTGIAMSTWVWTKATLLIWRRTWCR 4qiq-a2-m1-cA_4qiq-a2-m2-cA Crystal structure of D-xylose-proton symporter P0AGF4 P0AGF4 3.51 X-RAY DIFFRACTION 157 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 439 439 SYIFSITLVATLGGLLFGYDTAVISGTVESLNTVFVAPQNLSESAANSLLGFCVASALIGCIIGGALGGYCSNRFGRRDSLKIAAVLFFISGVGSAWPELGFTSINPDNTVPVYLAGYVPEFVIYRIIGGIGVGLASMLSPMYIAELAPAHIRGKLVSFNQFAIIFGQLLVYCVNYFIARSGDASWLNTDGWRYMFASECIPALLFLMLLYTVPESPRWLMTLATQAVQEIKHSLDRLLMFGVGVIVIGVMLSIFQQFVGINVVLYYAPEVFKTLGASTDIALLQTIIVGVINLTFTVLAIMTVDKFGRKPLQIIGALGMAIGMFSLGTAFYTQAPGIVALLSMLFYVAAFAMSWGPVCWVLLSEIFPNAIRGKALAIAVAAQWLANYFVSWTFPMMDKNSWLVAHFHNGFSYWIYGCMGVLAALFMWKFVPETKGKTL SYIFSITLVATLGGLLFGYDTAVISGTVESLNTVFVAPQNLSESAANSLLGFCVASALIGCIIGGALGGYCSNRFGRRDSLKIAAVLFFISGVGSAWPELGFTSINPDNTVPVYLAGYVPEFVIYRIIGGIGVGLASMLSPMYIAELAPAHIRGKLVSFNQFAIIFGQLLVYCVNYFIARSGDASWLNTDGWRYMFASECIPALLFLMLLYTVPESPRWLMTLATQAVQEIKHSLDRLLMFGVGVIVIGVMLSIFQQFVGINVVLYYAPEVFKTLGASTDIALLQTIIVGVINLTFTVLAIMTVDKFGRKPLQIIGALGMAIGMFSLGTAFYTQAPGIVALLSMLFYVAAFAMSWGPVCWVLLSEIFPNAIRGKALAIAVAAQWLANYFVSWTFPMMDKNSWLVAHFHNGFSYWIYGCMGVLAALFMWKFVPETKGKTL 4qit-a1-m1-cB_4qit-a1-m1-cA Crystal structure of Nitroalkane Oxidase from Pseudomonas aeruginosa in mutant complex form A0A0M3KKW1 A0A0M3KKW1 1.4 X-RAY DIFFRACTION 116 1.0 1352354 (Pseudomonas aeruginosa PAO581) 1352354 (Pseudomonas aeruginosa PAO581) 349 350 4q4k-a1-m1-cB_4q4k-a1-m1-cA 4qis-a1-m1-cA_4qis-a1-m1-cB 4qiu-a1-m1-cA_4qiu-a1-m1-cB TDRFTRLLGIQQPIIQAPMLGVSTPALAAAVSNAGGLGSIAITGSAAEKGRALIREVRGLTDKPFNVNLFCHRPGQADPARERAWLDYLKPLFAEFGAEPPVRLKNIYLSFLEDPTLLPMLLEERPAAVSFHFGAPPRDQVRALQAVGIRVLVCATTPEEAALVEAAGADAVVAQGIEAGGSRGVFEPERGDAAIGTLALVRLLAARGSLPVVAAGGIMDGRGIRAALELGASAVQMGTAFVLCPESSANAAYREALKGPRAARTALTVTMSGRSARGLPNRMFFDAAAPGVPPLPDYPFVYDATKALQTAALARGNHDFAAQWAGQGAALARELPAAELLRTLVEELR MTDRFTRLLGIQQPIIQAPMLGVSTPALAAAVSNAGGLGSIAITGSAAEKGRALIREVRGLTDKPFNVNLFCHRPGQADPARERAWLDYLKPLFAEFGAEPPVRLKNIYLSFLEDPTLLPMLLEERPAAVSFHFGAPPRDQVRALQAVGIRVLVCATTPEEAALVEAAGADAVVAQGIEAGGSRGVFEPERGDAAIGTLALVRLLAARGSLPVVAAGGIMDGRGIRAALELGASAVQMGTAFVLCPESSANAAYREALKGPRAARTALTVTMSGRSARGLPNRMFFDAAAPGVPPLPDYPFVYDATKALQTAALARGNHDFAAQWAGQGAALARELPAAELLRTLVEELR 4qjn-a2-m1-cB_4qjn-a2-m1-cD Crystal structure of apo nucleoid associated protein, SAV1473 Q99U17 Q99U17 2.613 X-RAY DIFFRACTION 159 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 90 90 4qjn-a1-m1-cA_4qjn-a1-m1-cC 4qju-a1-m1-cA_4qju-a1-m1-cB MNKTDLINAVAEQADLTKKEAGSAVDAVFESIQNSLAKGEKVQLIGFGNFEVRERAARKGRNPQTGKEIDIPASKVPAFKAGKALKDAVK MNKTDLINAVAEQADLTKKEAGSAVDAVFESIQNSLAKGEKVQLIGFGNFEVRERAARKGRNPQTGKEIDIPASKVPAFKAGKALKDAVK 4qk0-a2-m1-cC_4qk0-a2-m1-cD Crystal structure of Ara127N-Se, a GH127 beta-L-arabinofuranosidase from Geobacillus Stearothermophilus T6 B3EYN9 B3EYN9 2.258 X-RAY DIFFRACTION 145 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 621 621 4qjy-a1-m1-cA_4qjy-a1-m1-cB 4qk0-a1-m1-cA_4qk0-a1-m1-cB TNVNLKDQFWKRYIDVVRHEVIPYQWEALNDRIPDAEPSHAIENFRIAAGESDGEFYGVFQDSDVAKWLEAVAYLLETKRDPELEKLADDVIELLGRAQQPDGYLNTYYTIKEPGKRWNLRDNHELYCAGHLIEAAVAYFRATGKRRFLDICKYADYIGTVFGRGEGQIPGYDGHQEIELALLKLYEVTGNENYLKLSQYFIDQRGQQPYYFDQEKEARGETEPFWYDGGYRYHQAHIPVREQKQAVGHAVRALYYTAAGLAAKGDESLKQACQTLWENVTKRQYITGGVGSSAFGESFTFDFDLPNDTAYAETCASIALVFWTRRLELEDGKYADVERALYNGTISGDLDGKKFFYVNPLEVWPKACERHDKRHVKPVRQKWFSCACCPPNLARLIASIGHYIYLQTSDALFVHLYVGSDIQTEIDGRSVKIQETNYPWDGTVRLTVSPESAGEFTLGLRIPGWCRGAEVTINGEKVDIVPLIKKGYAYIRRVWQQGDEVKLYFPPVERIKAHPQVRANAGKVALQRGPIVYCLEEVDNGPNLANLFLPRDAKLEAHFEPDLLEGVVVITGIAERVDESAWNDELYRPIEPRTYKVPFRAIPYYAWCNRGEGEVVWVNEK TNVNLKDQFWKRYIDVVRHEVIPYQWEALNDRIPDAEPSHAIENFRIAAGESDGEFYGVFQDSDVAKWLEAVAYLLETKRDPELEKLADDVIELLGRAQQPDGYLNTYYTIKEPGKRWNLRDNHELYCAGHLIEAAVAYFRATGKRRFLDICKYADYIGTVFGRGEGQIPGYDGHQEIELALLKLYEVTGNENYLKLSQYFIDQRGQQPYYFDQEKEARGETEPFWYDGGYRYHQAHIPVREQKQAVGHAVRALYYTAAGLAAKGDESLKQACQTLWENVTKRQYITGGVGSSAFGESFTFDFDLPNDTAYAETCASIALVFWTRRLELEDGKYADVERALYNGTISGDLDGKKFFYVNPLEVWPKACERHDKRHVKPVRQKWFSCACCPPNLARLIASIGHYIYLQTSDALFVHLYVGSDIQTEIDGRSVKIQETNYPWDGTVRLTVSPESAGEFTLGLRIPGWCRGAEVTINGEKVDIVPLIKKGYAYIRRVWQQGDEVKLYFPPVERIKAHPQVRANAGKVALQRGPIVYCLEEVDNGPNLANLFLPRDAKLEAHFEPDLLEGVVVITGIAERVDESAWNDELYRPIEPRTYKVPFRAIPYYAWCNRGEGEVVWVNEK 4qkd-a4-m1-cA_4qkd-a4-m1-cB Crystal structure of human ALKBH7 in complex with alpha-ketoglutarate and Mn(II) Q9BT30 Q9BT30 1.35 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 4qkb-a4-m1-cA_4qkb-a4-m1-cB 4qkb-a4-m1-cA_4qkb-a4-m1-cC 4qkb-a4-m1-cB_4qkb-a4-m1-cC 4qkd-a4-m1-cC_4qkd-a4-m1-cA 4qkd-a4-m1-cC_4qkd-a4-m1-cB MWVRGSGPSVLSRLQDAAVVRPGFLSTAEEETLSRELEPELRRRRYEYDHWDAAIHGFRETEKSRWSEASRAILRRVQAAAFGPQTLLSSVHVDLEARGYIKPHVDSIKFCGATIAGLSLLSPSVMRLVHTQEPGEWLELLLEPGSLYILRGSARYDFSHEILRDEESFFGERRIPRGRRISVICRSLP MWVRGSGPSVLSRLQDAAVVRPGFLSTAEEETLSRELEPELRRRRYEYDHWDAAIHGFRETEKSRWSEASRAILRRVQAAAFGPQTLLSSVHVDLEARGYIKPHVDSIKFCGATIAGLSLLSPSVMRLVHTQEPGEWLELLLEPGSLYILRGSARYDFSHEILRDEESFFGERRIPRGRRISVICRSLP 4qkl-a1-m2-cA_4qkl-a1-m4-cA Influenza A M2 wild type TM domain at high pH in the lipidic cubic phase under room temperature diffraction conditions P0DOF5 P0DOF5 1.711 X-RAY DIFFRACTION 27 1.0 385599 (Influenza A virus (A/udorn/1972(H3N2))) 385599 (Influenza A virus (A/udorn/1972(H3N2))) 25 25 3bkd-a1-m1-cG_3bkd-a1-m1-cH 3bkd-a2-m1-cC_3bkd-a2-m1-cD 4qk7-a1-m1-cA_4qk7-a1-m3-cA 4qk7-a1-m1-cA_4qk7-a1-m4-cA 4qk7-a1-m2-cA_4qk7-a1-m3-cA 4qk7-a1-m2-cA_4qk7-a1-m4-cA 4qkc-a1-m1-cA_4qkc-a1-m3-cA 4qkc-a1-m1-cA_4qkc-a1-m4-cA 4qkc-a1-m2-cA_4qkc-a1-m3-cA 4qkc-a1-m2-cA_4qkc-a1-m4-cA 4qkl-a1-m1-cA_4qkl-a1-m3-cA 4qkl-a1-m1-cA_4qkl-a1-m4-cA 4qkl-a1-m2-cA_4qkl-a1-m3-cA 4qkm-a1-m1-cA_4qkm-a1-m3-cA 4qkm-a1-m1-cA_4qkm-a1-m4-cA 4qkm-a1-m2-cA_4qkm-a1-m3-cA 4qkm-a1-m2-cA_4qkm-a1-m4-cA 5c02-a1-m1-cA_5c02-a1-m3-cA 5c02-a1-m1-cA_5c02-a1-m4-cA 5c02-a1-m2-cA_5c02-a1-m3-cA 5c02-a1-m2-cA_5c02-a1-m4-cA 5joo-a1-m1-cA_5joo-a1-m3-cA 5joo-a1-m1-cA_5joo-a1-m4-cA 5joo-a1-m2-cA_5joo-a1-m3-cA 5joo-a1-m2-cA_5joo-a1-m4-cA 5ttc-a1-m1-cA_5ttc-a1-m3-cA 5ttc-a1-m1-cA_5ttc-a1-m4-cA 5ttc-a1-m2-cA_5ttc-a1-m3-cA 5ttc-a1-m2-cA_5ttc-a1-m4-cA 5um1-a1-m1-cA_5um1-a1-m3-cA 5um1-a1-m1-cA_5um1-a1-m4-cA 5um1-a1-m2-cA_5um1-a1-m3-cA 5um1-a1-m2-cA_5um1-a1-m4-cA 6mjh-a2-m1-cE_6mjh-a2-m1-cF 6mjh-a2-m1-cE_6mjh-a2-m1-cH 6mjh-a2-m1-cF_6mjh-a2-m1-cG 6mjh-a2-m1-cG_6mjh-a2-m1-cH SSDPLVVAASIIGILHLILWILDRL SSDPLVVAASIIGILHLILWILDRL 4qkq-a3-m1-cE_4qkq-a3-m1-cL RadA from Methanococcus Voltae in complex with copper phthalocyanine tetrasulfonate inhibitor O73948 O73948 2 X-RAY DIFFRACTION 38 1.0 2188 (Methanococcus voltae) 2188 (Methanococcus voltae) 257 257 4dc9-a2-m1-cA_4dc9-a2-m2-cE 4dc9-a2-m1-cB_4dc9-a2-m2-cD 4dc9-a2-m1-cC_4dc9-a2-m2-cC 4dc9-a2-m1-cD_4dc9-a2-m2-cB 4dc9-a2-m1-cE_4dc9-a2-m2-cA 4dc9-a2-m1-cF_4dc9-a2-m2-cF 4qkq-a3-m1-cA_4qkq-a3-m1-cJ 4qkq-a3-m1-cB_4qkq-a3-m1-cI 4qkq-a3-m1-cC_4qkq-a3-m1-cH 4qkq-a3-m1-cD_4qkq-a3-m1-cG 4qkq-a3-m1-cF_4qkq-a3-m1-cK SHMDLGFKSGIDLLKQRSTVWKLSTSSSELDSVLGGGLESQSVTEFAGVFGSGKTQIMHQSCVNLQNPEFLFYDEEAVSKGEVAQPKAVYIDTEGTFRPERIMQMAEHAGIDGQTVLDNTFVARAYNSDMQMLFAEKIEDLIQEGNNIKLVVIDSLTSTFRNEYTGRGKLAERQQKLGRHMATLNKLADLFNCVVLVTNQVSAAEQAIGGHIVGHAATFRFFVRKGKGDKRVAKLYDSPHLPDAEAIFRITEKGIQD SHMDLGFKSGIDLLKQRSTVWKLSTSSSELDSVLGGGLESQSVTEFAGVFGSGKTQIMHQSCVNLQNPEFLFYDEEAVSKGEVAQPKAVYIDTEGTFRPERIMQMAEHAGIDGQTVLDNTFVARAYNSDMQMLFAEKIEDLIQEGNNIKLVVIDSLTSTFRNEYTGRGKLAERQQKLGRHMATLNKLADLFNCVVLVTNQVSAAEQAIGGHIVGHAATFRFFVRKGKGDKRVAKLYDSPHLPDAEAIFRITEKGIQD 4qkq-a3-m1-cK_4qkq-a3-m1-cL RadA from Methanococcus Voltae in complex with copper phthalocyanine tetrasulfonate inhibitor O73948 O73948 2 X-RAY DIFFRACTION 94 1.0 2188 (Methanococcus voltae) 2188 (Methanococcus voltae) 257 257 4dc9-a1-m1-cA_4dc9-a1-m1-cB 4dc9-a1-m1-cA_4dc9-a1-m1-cF 4dc9-a1-m1-cB_4dc9-a1-m1-cC 4dc9-a1-m1-cC_4dc9-a1-m1-cD 4dc9-a1-m1-cD_4dc9-a1-m1-cE 4dc9-a1-m1-cE_4dc9-a1-m1-cF 4dc9-a2-m1-cA_4dc9-a2-m1-cB 4dc9-a2-m1-cA_4dc9-a2-m1-cF 4dc9-a2-m1-cB_4dc9-a2-m1-cC 4dc9-a2-m1-cC_4dc9-a2-m1-cD 4dc9-a2-m1-cD_4dc9-a2-m1-cE 4dc9-a2-m1-cE_4dc9-a2-m1-cF 4dc9-a2-m2-cA_4dc9-a2-m2-cB 4dc9-a2-m2-cA_4dc9-a2-m2-cF 4dc9-a2-m2-cB_4dc9-a2-m2-cC 4dc9-a2-m2-cC_4dc9-a2-m2-cD 4dc9-a2-m2-cD_4dc9-a2-m2-cE 4dc9-a2-m2-cE_4dc9-a2-m2-cF 4qkq-a1-m1-cA_4qkq-a1-m1-cB 4qkq-a1-m1-cA_4qkq-a1-m1-cF 4qkq-a1-m1-cB_4qkq-a1-m1-cC 4qkq-a1-m1-cC_4qkq-a1-m1-cD 4qkq-a1-m1-cD_4qkq-a1-m1-cE 4qkq-a1-m1-cE_4qkq-a1-m1-cF 4qkq-a2-m1-cG_4qkq-a2-m1-cH 4qkq-a2-m1-cG_4qkq-a2-m1-cL 4qkq-a2-m1-cH_4qkq-a2-m1-cI 4qkq-a2-m1-cI_4qkq-a2-m1-cJ 4qkq-a2-m1-cJ_4qkq-a2-m1-cK 4qkq-a2-m1-cK_4qkq-a2-m1-cL 4qkq-a3-m1-cA_4qkq-a3-m1-cB 4qkq-a3-m1-cA_4qkq-a3-m1-cF 4qkq-a3-m1-cB_4qkq-a3-m1-cC 4qkq-a3-m1-cC_4qkq-a3-m1-cD 4qkq-a3-m1-cD_4qkq-a3-m1-cE 4qkq-a3-m1-cE_4qkq-a3-m1-cF 4qkq-a3-m1-cG_4qkq-a3-m1-cH 4qkq-a3-m1-cG_4qkq-a3-m1-cL 4qkq-a3-m1-cH_4qkq-a3-m1-cI 4qkq-a3-m1-cI_4qkq-a3-m1-cJ 4qkq-a3-m1-cJ_4qkq-a3-m1-cK SHMDLGFKSGIDLLKQRSTVWKLSTSSSELDSVLGGGLESQSVTEFAGVFGSGKTQIMHQSCVNLQNPEFLFYDEEAVSKGEVAQPKAVYIDTEGTFRPERIMQMAEHAGIDGQTVLDNTFVARAYNSDMQMLFAEKIEDLIQEGNNIKLVVIDSLTSTFRNEYTGRGKLAERQQKLGRHMATLNKLADLFNCVVLVTNQVSAAEQAIGGHIVGHAATFRFFVRKGKGDKRVAKLYDSPHLPDAEAIFRITEKGIQD SHMDLGFKSGIDLLKQRSTVWKLSTSSSELDSVLGGGLESQSVTEFAGVFGSGKTQIMHQSCVNLQNPEFLFYDEEAVSKGEVAQPKAVYIDTEGTFRPERIMQMAEHAGIDGQTVLDNTFVARAYNSDMQMLFAEKIEDLIQEGNNIKLVVIDSLTSTFRNEYTGRGKLAERQQKLGRHMATLNKLADLFNCVVLVTNQVSAAEQAIGGHIVGHAATFRFFVRKGKGDKRVAKLYDSPHLPDAEAIFRITEKGIQD 4qku-a2-m1-cC_4qku-a2-m1-cD Crystal structure of a putative hydrolase from Burkholderia cenocepacia B4ECX4 B4ECX4 2.45 X-RAY DIFFRACTION 176 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 420 427 4qku-a1-m1-cA_4qku-a1-m1-cB WRATLDPARKSWIETANDPACDFPIQNLPFGIFSDAKGARRPGVALGDQIVDLAALARAGLVTLPAGADVLAAPTLNAFIALGRDAWRSVRVQLSALFSRDDATLRDDAALRAQVLVAQRDATLHLPVEIPGYTDFYSSKEHATNVGSNALLPNWSEMPIGYNGRASSVVVSGTPVRRPNGQLKLPDQERPVFGACRKLDIELETGFIVGKGNALGEPIACEDAEAHIFGMVLLNDWSARDIQQWEYVPLGPFNSKGFATTISPWIVTLDALEPFRVAQPEQSPQPLAYLRHAGKHAFDIALEVTLRAEGAAEATSICRTNFRHMYWTMAQQLAHHTVAGCNTRVGDLMGSGTISGPTKDSFGSLLELTWNGKEPVALNGGGSRTFIEDGDELTLAGWCQGDGYRVGFGTCAGRILPARS WRATLDPARKSWIETANDPACDFPIQNLPFGIFSDAKGARRPGVALGDQIVDLAALARAGLVTLPAGADVLAAPTLNAFIALGRDAWRSVRVQLSALFSRDDATLRDDAALRAQVLVAQRDATLHLPVEIPGYTDFYSSKEHATNVGSMFRDPKNALLPNWSEMPIGYNGRASSVVVSGTPVRRPNGQLKLPDQERPVFGACRKLDIELETGFIVGKGNALGEPIACEDAEAHIFGMVLLNDWSARDIQQWEYVPLGPFNSKGFATTISPWIVTLDALEPFRVAQPEQSPQPLAYLRHAGKHAFDIALEVTLRAEGAAEATSICRTNFRHMYWTMAQQLAHHTVAGCNTRVGDLMGSGTISGPTKDSFGSLLELTWNGKEPVALNGGGSRTFIEDGDELTLAGWCQGDGYRVGFGTCAGRILPARSA 4qkv-a1-m1-cC_4qkv-a1-m1-cA Crystal structure of the mouse cavin1 HR1 domain O54724 O54724 3 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 91 101 GVLVLSLLDKIIGAVDQIQLTQAQLEERQAEMEGAVQSIQGELSKLGKAHATTSNTVSKLLEKVRKVSVNVKTVRGSLERQAGQIKKLEVN IKSDQVNGVLVLSLLDKIIGAVDQIQLTQAQLEERQAEMEGAVQSIQGELSKLGKAHATTSNTVSKLLEKVRKVSVNVKTVRGSLERQAGQIKKLEVNEAE 4qkv-a1-m1-cC_4qkv-a1-m1-cB Crystal structure of the mouse cavin1 HR1 domain O54724 O54724 3 X-RAY DIFFRACTION 87 1.0 10090 (Mus musculus) 10090 (Mus musculus) 91 93 4qkv-a1-m1-cB_4qkv-a1-m1-cA GVLVLSLLDKIIGAVDQIQLTQAQLEERQAEMEGAVQSIQGELSKLGKAHATTSNTVSKLLEKVRKVSVNVKTVRGSLERQAGQIKKLEVN NGVLVLSLLDKIIGAVDQIQLTQAQLEERQAEMEGAVQSIQGELSKLGKAHATTSNTVSKLLEKVRKVSVNVKTVRGSLERQAGQIKKLEVNE 4qkw-a1-m1-cC_4qkw-a1-m1-cA Crystal structure of the zebrafish cavin4a HR1 domain A1L260 A1L260 1.7 X-RAY DIFFRACTION 92 1.0 7955 (Danio rerio) 7955 (Danio rerio) 97 101 SALSILSLLERVSTIIDGVQASQQRMEERQQQLEGSVSAVQSELLKLARDHGATATTVDKLLQKARRVSTHVKEVRSRVEKQNVRVKKVETTQDELL PVSALSILSLLERVSTIIDGVQASQQRMEERQQQLEGSVSAVQSELLKLARDHGATATTVDKLLQKARRVSTHVKEVRSRVEKQNVRVKKVETTQDELLTR 4qkw-a1-m1-cC_4qkw-a1-m1-cB Crystal structure of the zebrafish cavin4a HR1 domain A1L260 A1L260 1.7 X-RAY DIFFRACTION 93 1.0 7955 (Danio rerio) 7955 (Danio rerio) 97 99 4qkw-a1-m1-cB_4qkw-a1-m1-cA SALSILSLLERVSTIIDGVQASQQRMEERQQQLEGSVSAVQSELLKLARDHGATATTVDKLLQKARRVSTHVKEVRSRVEKQNVRVKKVETTQDELL SALSILSLLERVSTIIDGVQASQQRMEERQQQLEGSVSAVQSELLKLARDHGATATTVDKLLQKARRVSTHVKEVRSRVEKQNVRVKKVETTQDELLTR 4ql0-a1-m1-cA_4ql0-a1-m2-cA Crystal Structure Analysis of the Membrane Transporter FhaC (double mutant V169T, I176N) P35077 P35077 2.5 X-RAY DIFFRACTION 284 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 520 520 QLLPGARDLNRIDDRQRKEQLQRDIERALTRPPVELNPQSEAAAPARKPDATSGHTVTVHAVDLDFGVEGRLFDPAPLVQDYLNRPLDNEQLFLLVKALSAALYDRGYATSIVTFVPPGVVDGVLKLKVEWGRIKGWLIDGKPLEGTRDRMMVFSAMPGWQDKVLNTFDIDQANYNINNGGKTGNITIVPADEYGYSYLDLQLQRRALPRVSLGMDNSGPGTPENGRYKYNASVTANDLLGLNDTLGLYIGNRYYRDAGHDAERNYDLMYSVPLGRTRLDLQTGYSTYRNLLKYGQYQSAGNSRSFGLKATRLLYRDTRSQFSVYGGLKLRQNKNYLAGTRLDVSSKHYSDVTVGMQYSTQRGANAYFGDLSFTRGVSRFNGSLAWTRYMALAGQPIQWASQLGFQYSRQQLLNSYQITVGDEYTVRGYNLRTSQSGDSGVYLSNTLTVPVQFSQASVAPFVGADVGALKSRTIRMAGLAAGVRFDLPYARMSFTYSKPVGAQPAPRAPVWLYINAGLSF QLLPGARDLNRIDDRQRKEQLQRDIERALTRPPVELNPQSEAAAPARKPDATSGHTVTVHAVDLDFGVEGRLFDPAPLVQDYLNRPLDNEQLFLLVKALSAALYDRGYATSIVTFVPPGVVDGVLKLKVEWGRIKGWLIDGKPLEGTRDRMMVFSAMPGWQDKVLNTFDIDQANYNINNGGKTGNITIVPADEYGYSYLDLQLQRRALPRVSLGMDNSGPGTPENGRYKYNASVTANDLLGLNDTLGLYIGNRYYRDAGHDAERNYDLMYSVPLGRTRLDLQTGYSTYRNLLKYGQYQSAGNSRSFGLKATRLLYRDTRSQFSVYGGLKLRQNKNYLAGTRLDVSSKHYSDVTVGMQYSTQRGANAYFGDLSFTRGVSRFNGSLAWTRYMALAGQPIQWASQLGFQYSRQQLLNSYQITVGDEYTVRGYNLRTSQSGDSGVYLSNTLTVPVQFSQASVAPFVGADVGALKSRTIRMAGLAAGVRFDLPYARMSFTYSKPVGAQPAPRAPVWLYINAGLSF 4ql5-a1-m1-cA_4ql5-a1-m2-cA Crystal structure of translation initiation factor IF-1 from Streptococcus pneumoniae TIGR4 P65121 P65121 2.025 X-RAY DIFFRACTION 28 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 68 68 DVIEVEGKVVDTMPNAMFTVELENGHQILATVSGKIRKNYIRILAGDRVTVEMSPYDLTRGRITYRFK DVIEVEGKVVDTMPNAMFTVELENGHQILATVSGKIRKNYIRILAGDRVTVEMSPYDLTRGRITYRFK 4ql5-a1-m2-cB_4ql5-a1-m1-cA Crystal structure of translation initiation factor IF-1 from Streptococcus pneumoniae TIGR4 P65121 P65121 2.025 X-RAY DIFFRACTION 10 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 66 68 4ql5-a1-m1-cB_4ql5-a1-m2-cA IEVEGKVVDTMPNAMFTVELENGHQILATVSGKIRKNYIRILAGDRVTVEMSPYDLTRGRITYRFK DVIEVEGKVVDTMPNAMFTVELENGHQILATVSGKIRKNYIRILAGDRVTVEMSPYDLTRGRITYRFK 4ql6-a2-m1-cB_4ql6-a2-m2-cB Structure of C. trachomatis CT441 A0A0H3MDM0 A0A0H3MDM0 2.97 X-RAY DIFFRACTION 81 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 509 509 4ql6-a1-m1-cA_4ql6-a1-m1-cC AEPLRRQDVRKTVDKLVEHHIDTQQISPYILSRSLEDYVRSFDSHKAYLTQDEVFSHAFSEEATHPLFKQYQEDNFSSFKELDTCIQQSISRAREWRSSWLTDSIRVIQDAMSHTIEKKPSAWASSIEEVKQRQYDLLLSYASIYLYQGKEHGLVKLCIRQIENHENPYIGINDHGYRMSPEEEANSFHVRIIKSIAHSLDAHTAYFSQEEALSRVDVSYEPYGNGIIGKITLHSFYEGENQVSSEQDLRKAIRELQEKNLLGLVLDIRENTGGFLSQAIKVSGLFLTNGVVVVSRYADGSVKRYRTISPQKFYDGPLAVLVSKSSAAAAEIVAQTLQDYGVALIVGDQQTYGKGTIQHQTDFFKVTVGRYYSPSGKSTQLEGVKSDIVIPSRYAEDKLGERFLEYALPADQYDNVINDNLGDLDINIRPWFQKYYSPHLQKPELVWREMLPQLAHNSQERLEKNKNFEIFVQHLKKTNKQDRSFGSNDLQMEESVNIVKDMILLKSIS AEPLRRQDVRKTVDKLVEHHIDTQQISPYILSRSLEDYVRSFDSHKAYLTQDEVFSHAFSEEATHPLFKQYQEDNFSSFKELDTCIQQSISRAREWRSSWLTDSIRVIQDAMSHTIEKKPSAWASSIEEVKQRQYDLLLSYASIYLYQGKEHGLVKLCIRQIENHENPYIGINDHGYRMSPEEEANSFHVRIIKSIAHSLDAHTAYFSQEEALSRVDVSYEPYGNGIIGKITLHSFYEGENQVSSEQDLRKAIRELQEKNLLGLVLDIRENTGGFLSQAIKVSGLFLTNGVVVVSRYADGSVKRYRTISPQKFYDGPLAVLVSKSSAAAAEIVAQTLQDYGVALIVGDQQTYGKGTIQHQTDFFKVTVGRYYSPSGKSTQLEGVKSDIVIPSRYAEDKLGERFLEYALPADQYDNVINDNLGDLDINIRPWFQKYYSPHLQKPELVWREMLPQLAHNSQERLEKNKNFEIFVQHLKKTNKQDRSFGSNDLQMEESVNIVKDMILLKSIS 4qla-a1-m1-cB_4qla-a1-m1-cA Crystal structure of juvenile hormone epoxide hydrolase from the silkworm Bombyx mori Q6U6J0 Q6U6J0 2.3 X-RAY DIFFRACTION 177 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 380 424 LDLEEWWGPPELKQKQDTSIKPFEITFSETMVKELKERIKKRRPFAPPLEGVGFKYGFNSKQLDSWLKYWAEEYPFAERQKFLNQYPHFKTNIQGLNIHFMRITPKVPKGVEIVPLLLLHGWPGSVREFYEAIPHLTAVSKDRNFALEIIAPSLPGYGFSDAAVRPGLAAAEVAVIFKNLMARLGYKQYYVQGGDWGALIGSAMATFFPKEIIGFHSNMATLLEELGYMHIQATKPDTVGIGLTDSPAGLLAYILEKFSTWTNPDLRSKEDGGLSYRWTKDQLIDNLMLYWSTKSIVTSMRLYAESFSSRHFIQVQVPTWVLQAKHELAYQPPCILKMKYPKLVNASVIEDGGHFLAFELPEIFAKDVLKAIGEFRKLKN LDLEEWWGPPELKQKQDTSIKPFEITFSETMVKELKERIKKRRPFAPPLEGVGFKYGFNSKQLDSWLKYWAEEYPFAERQKFLNQYPHFKTNIQGLNIHFMRITPKVPKGVEIVPLLLLHGWPGSVREFYEAIPHLTAVSKDRNFALEIIAPSLPGYGFSDAAVRPGLAAAEVAVIFKNLMARLGYKQYYVQGGDWGALIGSAMATFFPKEIIGFHSNMALTLSPAATFLEFVGALFPSLIVEPELANRLYPLSEKYSTLLEELGYMHIQATKPDTVGIGLTDSPAGLLAYILEKFSTWTNPDLRSKEDGGLSYRWTKDQLIDNLMLYWSTKSIVTSMRLYAESFSSRHFDLKLDEIQVQVPTWVLQAKHELAYQPPCILKMKYPKLVNASVIEDGGHFLAFELPEIFAKDVLKAIGEFRKLKN 4qlb-a2-m1-cB_4qlb-a2-m1-cD Structural Basis for the Recruitment of Glycogen Synthase by Glycogenin Q9U2D9 Q9U2D9 2.6 X-RAY DIFFRACTION 93 0.992 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 642 651 4qlb-a1-m1-cC_4qlb-a1-m1-cA ARMPRNLSSNKIAKTIAGEDLDEEEVLEMDAGQSAREEGRFVFECAWEVANKVGGIYTVLRSKAQISTEELGDQYCMFGPMKKWRLEVDPIEPENRTIRAAMKRFQADGFRCMYGRWLIEGYPKVILFDLGSGAVKMNEWKHELFEQCKIGIPHEDIESNDAVILGFMVALFLKHFRESVTSYTPLVVAHFHEWQAGVGLLMTRLWKLDIATVYTTHATLLGRHLCADLYNNLDSFDLDAEAGKRKIYHQYCLERAACQTAHIFTTVSEITGLEAEHFLCRKPDVLTPNGLNVVKFAALHEFQNLHAQNKEKINQFIRGHFHGHLDFDLDKTLYFFTAGRYEFSNKGGDMFIESLARLNHYLKTTSDPRHMGVTVVAFLIYPAPASFNVESLKGQAVTKQLKEAVDRIKEKVGQRIFDICLQGHLPEPEELMSPADNILLKRCIMSLHNSSLPPICTHNMIRDDPVLESLRRTSLFNKPEDRVKVVFHPEFLSSVSPLIGLDYEDFVRGCHLGVFPSYYEPWGYTPAECTVMGIPSVSTNLSGFGCFMQEHVEDHEQKGIYVIDRRHKAAEESVQELAQVMYDFCGQSRRQRIILRNSNEGLSALLDWQNLGVFYRDCRRLALERLHPDVDKIMRDNEGKVP MPRNLSSNKIAKTIAGEDLDEEEVLEMDAGQSAREEGRFVFECAWEVANKVGGIYTVLRSKAQISTEELGDQYCMFGPMKDGKWRLEVDPIEPENRTIRAAMKRFQADGFRCMYGRWLIEGYPKVILFDLGSGAVKMNEWKHELFEQCKIGIPHEDIESNDAVILGFMVALFLKHFRESVTSYTPLVVAHFHEWQAGVGLLMTRLWKLDIATVYTTHATLLGRHLDLYNNLDSFDLDAEAGKRKIYHQYCLERAACQTAHIFTTVSEITGLEAEHFLCRKPDVLTPNGLNVVKFAALHEFQNLHAQNKEKINQFIRGHFHGHLDFDLDKTLYFFTAGRYEFSNKGGDMFIESLARLNHYLKTTSDPRHMGVTVVAFLIYPAPASFNVESLKGQAVTKQLKEAVDRIKEKVGQRIFDICLQGHLPEPEELMSPADNILLKRCIMSLHNSLPPICTHNMIRADDPVLESLRRTSLFNKPEDRVKVVFHPEFLSSVSPLIGLDYEDFVRGCHLGVFPSYYEPWGYTPAECTVMGIPSVSTNLSGFGCFMQEHVEDHEQKGIYVIDRRHKAAEESVQELAQVMYDFCGQSRRQRIILRNSNEGLSALLDWQNLGVFYRDCRRLALERLHPDVDKIMRDNEGKVPSAATSRRPSIH 4qlo-a2-m1-cA_4qlo-a2-m2-cA Crystal Structure of homoserine o-acetyltransferase from Staphylococcus aureus 2.45 X-RAY DIFFRACTION 103 1.0 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 327 327 NYTVDTLNLGEFITESGEVIDNLRLRYEHVGYHGQPLVVVCHALTGNHLTYGTDDYPGWWREIIDGGYIPIHDYQFLTFDVIGSPFGSSSPLNDPHFPKKLTLRDIVRANERGIQALGYDKINILIGGSLGGMQAMELLYNQQFEVDKAIILAATSRTSSYSRAFNEIARQAIHLGGKEGLSIARQLGFLTYRSSKSYDERFTPDEVVAYQQHQGNKFKEHFDLNCYLTLLDVLDSHNIDRGRTDVTHVFKNLETKVLTMGFIDDLLYPDDQVRALGERFKYHRHFFVPDNVGHDGFLLNFSTWAPNLYHFLNLKHFKRKDPAFLYK NYTVDTLNLGEFITESGEVIDNLRLRYEHVGYHGQPLVVVCHALTGNHLTYGTDDYPGWWREIIDGGYIPIHDYQFLTFDVIGSPFGSSSPLNDPHFPKKLTLRDIVRANERGIQALGYDKINILIGGSLGGMQAMELLYNQQFEVDKAIILAATSRTSSYSRAFNEIARQAIHLGGKEGLSIARQLGFLTYRSSKSYDERFTPDEVVAYQQHQGNKFKEHFDLNCYLTLLDVLDSHNIDRGRTDVTHVFKNLETKVLTMGFIDDLLYPDDQVRALGERFKYHRHFFVPDNVGHDGFLLNFSTWAPNLYHFLNLKHFKRKDPAFLYK 4qly-a2-m1-cC_4qly-a2-m1-cD Crystal structure of CLA-ER, a novel enone reductase catalyzing a key step of a gut-bacterial fatty acid saturation metabolism, biohydrogenation U6C5W9 U6C5W9 2.005 X-RAY DIFFRACTION 188 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 210 210 4qlx-a1-m1-cB_4qlx-a1-m1-cA 4qly-a1-m1-cA_4qly-a1-m1-cB LVNNDLADVMFNRHSVRQFDPNVKIGRDELQKMIAEAATAPSACNLQSWHFVVVDTPEAKAKFKQAVMKFNYPQVDSASAIVFIAGDTQSHYVYRDVWNKVYEDGNITKERLDQILGTFLPLYENATPDFLKFDATIDCSVVGMQLLLVARAHGYDANAFSGIDFEKMIPTLGLDPKRYVPVMGIAIGKAAQEPLHTTRYDAKTQTDFLA LVNNDLADVMFNRHSVRQFDPNVKIGRDELQKMIAEAATAPSACNLQSWHFVVVDTPEAKAKFKQAVMKFNYPQVDSASAIVFIAGDTQSHYVYRDVWNKVYEDGNITKERLDQILGTFLPLYENATPDFLKFDATIDCSVVGMQLLLVARAHGYDANAFSGIDFEKMIPTLGLDPKRYVPVMGIAIGKAAQEPLHTTRYDAKTQTDFLA 4qlz-a1-m1-cB_4qlz-a1-m1-cA The structure of inorganic pyrophosphatase from Schistosoma japonicum Q5DE13 Q5DE13 2.326 X-RAY DIFFRACTION 46 1.0 6182 (Schistosoma japonicum) 6182 (Schistosoma japonicum) 283 284 4qmb-a1-m1-cB_4qmb-a1-m1-cA MSVERGTSNSASYKMFLTHGGSPISYFHDVPLFADATNNCYNMIVEIPRWTNAKMEICKEELMNPIKHDVKNNKLRYIYNVFPHKGYIWNYGALPQTWEDPSYVDEDTKAKGDNDPIDVCEIGSKIWPSGSVIPVKVLGILGMIDEGETDWKVIAINVADPMAEKLNDILDVDAHMPGFLKATRDWFKYYKVPAGKPENSFAFNGEFKNKEFAAKIISKTHEHWQKLISTKVEAGPIIRANVTVKGSPYMVSKEDFIDALQKHEDFKRGSEPTDQAIEQWHFC MSVERGTSNSASYKMFLTHGGSPISYFHDVPLFADATNNCYNMIVEIPRWTNAKMEICKEELMNPIKHDVKNNKLRYIYNVFPHKGYIWNYGALPQTWEDPSYVDEDTKAKGDNDPIDVCEIGSKIWPSGSVIPVKVLGILGMIDEGETDWKVIAINVADPMAEKLNDILDVDAHMPGFLKATRDWFKYYKVPAGKPENSFAFNGEFKNKEFAAKIISKTHEHWQKLISTKVEAGPIIRANVTVKGSPYMVSKEDFIDALQKHEDFKRGSEPTDQAIEQWHFCN 4qmk-a1-m1-cB_4qmk-a1-m1-cA Crystal structure of type III effector protein ExoU (exoU) 2.5 X-RAY DIFFRACTION 73 0.99 1037911 (Pseudomonas fluorescens A506) 1037911 (Pseudomonas fluorescens A506) 509 528 AKVPLVKGVGERNLSIYRHSDGRVEVVVSPPPPAHLVLSGGGAKGIAFPGMVQALEEADKLKGVKVVSGSSAGAICAALLASGMDAKAFTQLSNNLDLPRLLNDPVTAWLQEASSELGKLVRSLPGPVGNISQLLLTLLPRQPLEDLIRNESRQSILAHIAGMRPPEVTAIAERLSAGGGATFRDLEVLSRHIPAIKQLNITGTGMFDGRPQLVVFNANLTPDMDIGRAALISGALPGLFSFPESPLGKDEALIVKFEQNDRLQAFSEQTVTLPLNSDTMTPEQKQHLQAQARQTVSGHLQQRELERERHEFPSLNDAVMAMDDQMLASVQVDLQNDAAGAEALRFRKDAQQALQALDTAIAEANQTSTSLVITPKLASALRNLDALARRPEDIEWLGKRLNAPGQRNFQQLLQVGTKQGLSKVLTSAVAEMQKRDIGVKAENFIREVIYPSLYRPGQPAANVELLQRAVRDLGEATTPAEFNRVLDGIVKHYRASTTVEQAKAWRIPV AKVPLVKGVGERNLSIYRHSDGRVEVVVSPPPPAHLVLSGGGAKGIAFPGMVQALEEADKLKGVKVVSGSSAGAICAALLASGMDAKAFTQLSNNLDLPRLLDPVTAWLQEASSELGKLVRSLPGPVGNISQLLLTLLPRQPLEDLIRNESRQSILAHIAGMPPANRPPEVTAIAERLSAGGGATFRDLEVLSRHIPAIKQLNITGTGMFDGRPQLVVFNANLTPDMDIGRAALISGALPGRSFPESPLGKDEALIVKFEDRLQAFSEQTVTLPLNSDKGDFRGLLFTMTPEQKQHLQAQARQTVSGHLQQRELERERHEFPSLNDAVMAMDDQMLASVQVDLQNDAAGAEALRFRKDAQQALQALDTAIAEANQTSTSLVITPKLASALRNLDALARRPEDIEWLGKRLNAPGQRNFQQLLQVGTKQGLSKVLTSAVAEMQKRDIGVKAENFIREVIYPSLYRPGQPAANVELLQRAVRDLGEATTPAEFNRVLDGIVKHYRARNKPWSKPFSSTTVEQAKAWRIPV 4qn0-a2-m1-cB_4qn0-a2-m1-cD Crystal structure of the CPS-6 mutant Q130K Q95NM6 Q95NM6 2.74 X-RAY DIFFRACTION 60 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 239 239 3s5b-a1-m1-cA_3s5b-a1-m1-cB 4qn0-a1-m1-cA_4qn0-a1-m1-cC 5gkc-a1-m1-cA_5gkc-a1-m1-cB 5gkp-a1-m1-cA_5gkp-a1-m1-cB SRSAEIMKHGYPGFTNVRTYEDFVLSYDYKTRTAHWVCEHLTPERLKHAEGVDRKLCEFKPDITFPKKFLSQNTDYKCSGFDRGHLAAAGNHRKSQLAVDQTFYLSNMSPQVGRGFNRDKWNDLEMHCRRVAKKMINSYIITGPLYLPKLEGDGKKYIKYQVIGDNNVAVPTHFFKVALFEVTPGKFELESYILPNAVIEDTVEISKFHVPLDAVERSAGLEIFARLDPKSIVKENGAK SRSAEIMKHGYPGFTNVRTYEDFVLSYDYKTRTAHWVCEHLTPERLKHAEGVDRKLCEFKPDITFPKKFLSQNTDYKCSGFDRGHLAAAGNHRKSQLAVDQTFYLSNMSPQVGRGFNRDKWNDLEMHCRRVAKKMINSYIITGPLYLPKLEGDGKKYIKYQVIGDNNVAVPTHFFKVALFEVTPGKFELESYILPNAVIEDTVEISKFHVPLDAVERSAGLEIFARLDPKSIVKENGAK 4qn9-a1-m1-cA_4qn9-a1-m1-cB Structure of human NAPE-PLD Q6IQ20 Q6IQ20 2.652 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 321 322 SKKGKDGRFVNPWPTWKNPSIPNSSVPSSKEELDKELPVLKPYFITNPEEAGVREAGLRVTWLGHATVMVEMDELIFLTDPIFSSRASPSQYMGPKRFRRSPCTISELPPIDAVLISHNHYDHLDYNSVIALNERFGNELRWFVPLGLLDWMQKCGCENVIELDWWEENCVPGHDKVTFVFTPSQHWCKRTLMDDNKVLWGSWSVLGPWNRFFFAGDTGYCPAFEEIGKRFGPFDLAAIPIGAYEPRWFMKYQHVDPEEAVRIHTDVQTKKSMAIHWGTFALANEHYLEPPVKLNEALERYGLNAEDFFVLKHGESRYLNN SKKGKDGRFVNPWPTWKNPSIPNSSVPSSKEELDKELPVLKPYFITNPEEAGVREAGLRVTWLGHATVMVEMDELIFLTDPIFSSRASPSQYMGPKRFRRSPCTISELPPIDAVLISHNHYDHLDYNSVIALNERFGNELRWFVPLGLLDWMQKCGCENVIELDWWEENCVPGHDKVTFVFTPSQHWCKRTLMDDNKVLWGSWSVLGPWNRFFFAGDTGYCPAFEEIGKRFGPFDLAAIPIGAYEPRWFMKYQHVDPEEAVRIHTDVQTKKSMAIHWGTFALANEHYLEPPVKLNEALERYGLNAEDFFVLKHGESRYLNND 4qnc-a1-m1-cA_4qnc-a1-m1-cB Crystal structure of a SemiSWEET in an occluded state B0SR19 B0SR19 2.388 X-RAY DIFFRACTION 122 1.0 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 81 82 5uhs-a1-m1-cA_5uhs-a1-m1-cB MENLIGYVAAFLTTVSFLPQVLRVVMTKQTRDISRNMYIMFFLGVVLWFVYGILRSDLPIILANVVTLFFVTIILYYKLTE MENLIGYVAAFLTTVSFLPQVLRVVMTKQTRDISRNMYIMFFLGVVLWFVYGILRSDLPIILANVVTLFFVTIILYYKLTEG 4qnd-a1-m1-cA_4qnd-a1-m2-cA Crystal structure of a SemiSWEET F9RBV9 F9RBV9 1.698 X-RAY DIFFRACTION 115 1.0 701176 (Vibrio sp. N418) 701176 (Vibrio sp. N418) 97 97 MALIERIGKALEPLMLVMGLISPLATMPQLYKLYVSHSEHALGLSLTTWLLYSFIALLWTIYGIYHKNPTIWVGNCLGFLMYVAMVVGIIAHTGGTY MALIERIGKALEPLMLVMGLISPLATMPQLYKLYVSHSEHALGLSLTTWLLYSFIALLWTIYGIYHKNPTIWVGNCLGFLMYVAMVVGIIAHTGGTY 4qnd-a2-m1-cA_4qnd-a2-m3-cA Crystal structure of a SemiSWEET F9RBV9 F9RBV9 1.698 X-RAY DIFFRACTION 19 1.0 701176 (Vibrio sp. N418) 701176 (Vibrio sp. N418) 97 97 MALIERIGKALEPLMLVMGLISPLATMPQLYKLYVSHSEHALGLSLTTWLLYSFIALLWTIYGIYHKNPTIWVGNCLGFLMYVAMVVGIIAHTGGTY MALIERIGKALEPLMLVMGLISPLATMPQLYKLYVSHSEHALGLSLTTWLLYSFIALLWTIYGIYHKNPTIWVGNCLGFLMYVAMVVGIIAHTGGTY 4qnl-a1-m2-cA_4qnl-a1-m3-cA Crystal structure of tail fiber protein gp63.1 from E. coli phage G7C G0XNW5 G0XNW5 2.411 X-RAY DIFFRACTION 227 1.0 1054461 (Escherichia phage vB_EcoP_G7C) 1054461 (Escherichia phage vB_EcoP_G7C) 826 826 4qnl-a1-m1-cA_4qnl-a1-m2-cA 4qnl-a1-m1-cA_4qnl-a1-m3-cA TGILTNKQAIARHFGVKQSEVVYFSVGAVLSGYKVIYDKGTQRAYSLPANIGSGVTAISLSPAGVLVHSAGSVDLGALAVTRKEYVTLPDTFTSGSVIQTKNELLTHNGTQYRWAGGLPKSVPLNSTPVSAGGISPTAWVIANDELIRQELNNGLIPPVGSTSVYDVPGIVVNTTTDNRAAAYAFPGKIFIPNGVTIRCNLLPDDDVRKFVGEGKLIVKNQWYAKDHTFDIAASNGNNKTVNDEIYCAFRDQTFCRIGIIGDSITDGAWGKQDWSSPPTNSDGDLDAPSTYNHSLSGGSHSWTEHWNGLLLTQSRRSGETIYQSANCSVSGKKLSDGWGYRNFDRGFFGNTRYGAEAPRVCILAGWNDSSASIATYRDQIDKFVRKAWGYGCAVGIVTVNDNDSVRAFELSTKKYADKLGVEYFNLGPNLTSASSRNEQTGYYYYVKKDGTWDTTHPQELGQAGNAYQTLGNKYCRRVRPGDLTQAAVENYWDCVGYPSGTHYAPQYVPVSGAPALNVFRFLSKCVTNENVTTTVWCEEEGTVSLLEPWTNAAVVGQSHNIRVESPVGKALFESGEYQERNTQINAYRTVLNGKTASYFGGGKTLTTYGRLRKGLNFIRYIIDGSPTDAYFPLKFGSYKTDGVKLPVRLSKEPNTRPAPVKQSNANDYGVFGEVLSGTQFSKTADSHLYNGASVGYLAVPRGLKKNTYIALNYNPLTNVGVLVGVNAAGNCIGTFNNANPTDWVVFGDTTREDKGFKVWEYTSSSTGAHTFTVESDDGTATTSAFSTTVATSGYVGLYNPSASSQLFTLEYSTIGNVGLEHHHHHH TGILTNKQAIARHFGVKQSEVVYFSVGAVLSGYKVIYDKGTQRAYSLPANIGSGVTAISLSPAGVLVHSAGSVDLGALAVTRKEYVTLPDTFTSGSVIQTKNELLTHNGTQYRWAGGLPKSVPLNSTPVSAGGISPTAWVIANDELIRQELNNGLIPPVGSTSVYDVPGIVVNTTTDNRAAAYAFPGKIFIPNGVTIRCNLLPDDDVRKFVGEGKLIVKNQWYAKDHTFDIAASNGNNKTVNDEIYCAFRDQTFCRIGIIGDSITDGAWGKQDWSSPPTNSDGDLDAPSTYNHSLSGGSHSWTEHWNGLLLTQSRRSGETIYQSANCSVSGKKLSDGWGYRNFDRGFFGNTRYGAEAPRVCILAGWNDSSASIATYRDQIDKFVRKAWGYGCAVGIVTVNDNDSVRAFELSTKKYADKLGVEYFNLGPNLTSASSRNEQTGYYYYVKKDGTWDTTHPQELGQAGNAYQTLGNKYCRRVRPGDLTQAAVENYWDCVGYPSGTHYAPQYVPVSGAPALNVFRFLSKCVTNENVTTTVWCEEEGTVSLLEPWTNAAVVGQSHNIRVESPVGKALFESGEYQERNTQINAYRTVLNGKTASYFGGGKTLTTYGRLRKGLNFIRYIIDGSPTDAYFPLKFGSYKTDGVKLPVRLSKEPNTRPAPVKQSNANDYGVFGEVLSGTQFSKTADSHLYNGASVGYLAVPRGLKKNTYIALNYNPLTNVGVLVGVNAAGNCIGTFNNANPTDWVVFGDTTREDKGFKVWEYTSSSTGAHTFTVESDDGTATTSAFSTTVATSGYVGLYNPSASSQLFTLEYSTIGNVGLEHHHHHH 4qnn-a1-m1-cB_4qnn-a1-m1-cD Crystal Structure of phospholipase A 1 from hornet(Vespa basalis) venom A0A0M3KKW3 A0A0M3KKW3 2.5 X-RAY DIFFRACTION 49 1.0 7444 (Vespa basalis) 7444 (Vespa basalis) 297 297 4qnn-a1-m1-cA_4qnn-a1-m1-cC PCPYSDDTVKMIILTRENKKHDFYTLDTIKKHNEFKKSTIKHQVVFITHGFTSSADTENFLAMAKALSDKGNYLVILIDWRVAACTEEMSGIQLAYYSYAASNTRLVGNYIATVTKMLVQKYNVPMANIRLIGHSLGAHTSGFAGKKVQELGLGKYSEIIGLDPAGPSFKSNDCSERICKTDAHYVQIIHTSNHLGTLVTLGTVDFMNNGYNQPGCGLPLIGETCSHTRAVKYFTECIKHECCLIGVPQSKKPQPVSKCTRNECVCVGLNAKTYPKTGSFYVPVESKAPYCNNKGKI PCPYSDDTVKMIILTRENKKHDFYTLDTIKKHNEFKKSTIKHQVVFITHGFTSSADTENFLAMAKALSDKGNYLVILIDWRVAACTEEMSGIQLAYYSYAASNTRLVGNYIATVTKMLVQKYNVPMANIRLIGHSLGAHTSGFAGKKVQELGLGKYSEIIGLDPAGPSFKSNDCSERICKTDAHYVQIIHTSNHLGTLVTLGTVDFMNNGYNQPGCGLPLIGETCSHTRAVKYFTECIKHECCLIGVPQSKKPQPVSKCTRNECVCVGLNAKTYPKTGSFYVPVESKAPYCNNKGKI 4qnn-a1-m1-cC_4qnn-a1-m1-cD Crystal Structure of phospholipase A 1 from hornet(Vespa basalis) venom A0A0M3KKW3 A0A0M3KKW3 2.5 X-RAY DIFFRACTION 20 1.0 7444 (Vespa basalis) 7444 (Vespa basalis) 297 297 4qnn-a1-m1-cA_4qnn-a1-m1-cB PCPYSDDTVKMIILTRENKKHDFYTLDTIKKHNEFKKSTIKHQVVFITHGFTSSADTENFLAMAKALSDKGNYLVILIDWRVAACTEEMSGIQLAYYSYAASNTRLVGNYIATVTKMLVQKYNVPMANIRLIGHSLGAHTSGFAGKKVQELGLGKYSEIIGLDPAGPSFKSNDCSERICKTDAHYVQIIHTSNHLGTLVTLGTVDFMNNGYNQPGCGLPLIGETCSHTRAVKYFTECIKHECCLIGVPQSKKPQPVSKCTRNECVCVGLNAKTYPKTGSFYVPVESKAPYCNNKGKI PCPYSDDTVKMIILTRENKKHDFYTLDTIKKHNEFKKSTIKHQVVFITHGFTSSADTENFLAMAKALSDKGNYLVILIDWRVAACTEEMSGIQLAYYSYAASNTRLVGNYIATVTKMLVQKYNVPMANIRLIGHSLGAHTSGFAGKKVQELGLGKYSEIIGLDPAGPSFKSNDCSERICKTDAHYVQIIHTSNHLGTLVTLGTVDFMNNGYNQPGCGLPLIGETCSHTRAVKYFTECIKHECCLIGVPQSKKPQPVSKCTRNECVCVGLNAKTYPKTGSFYVPVESKAPYCNNKGKI 4qnp-a1-m3-cE_4qnp-a1-m4-cH Crystal structure of the 2009 pandemic H1N1 influenza virus neuraminidase with a neutralizing antibody 2.8 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 224 224 4qnp-a1-m1-cE_4qnp-a1-m2-cH 4qnp-a1-m1-cH_4qnp-a1-m2-cE 4qnp-a1-m3-cH_4qnp-a1-m4-cE QVKLQESGGGLVQPKGSLKLSCAASGFTFNTYAMNWVRQAPGKGLEWVARIRSKSNNYATFYADSVKDRFTISRDDSQSMLYLQMHNLKTDDTAMYYCVRPSIYYYASGYLDVWGAGTTVTVSSAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR QVKLQESGGGLVQPKGSLKLSCAASGFTFNTYAMNWVRQAPGKGLEWVARIRSKSNNYATFYADSVKDRFTISRDDSQSMLYLQMHNLKTDDTAMYYCVRPSIYYYASGYLDVWGAGTTVTVSSAKTTAPSVYPLAPVCGDTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVTSSTWPSQSITCNVAHPASSTKVDKKIEPR 4qns-a5-m1-cA_4qns-a5-m2-cB Crystal structure of bromodomain from Plasmodium faciparum GCN5, PF3D7_0823300 Q8IB67 Q8IB67 1.497 X-RAY DIFFRACTION 30 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 106 106 GHKEVQLKDQILGVLDYLEKQQSAWPFLKPVSLSEAPDYYDIIKEPTDILTMRRKARHGDYKTKEDFGIELKRMFDNCRLYNAPTTIYFKYANELQTLIWPKYEAI GHKEVQLKDQILGVLDYLEKQQSAWPFLKPVSLSEAPDYYDIIKEPTDILTMRRKARHGDYKTKEDFGIELKRMFDNCRLYNAPTTIYFKYANELQTLIWPKYEAI 4qns-a5-m3-cC_4qns-a5-m2-cB Crystal structure of bromodomain from Plasmodium faciparum GCN5, PF3D7_0823300 Q8IB67 Q8IB67 1.497 X-RAY DIFFRACTION 29 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 101 106 4qns-a5-m1-cD_4qns-a5-m1-cA QLKDQILGVLDYLEKQQSAWPFLKPVSLSEAPDYYDIIKEPTDILTMRRKARHGDYKTKEDFGIELKRMFDNCRLYNAPTTIYFKYANELQTLIWPKYEAI GHKEVQLKDQILGVLDYLEKQQSAWPFLKPVSLSEAPDYYDIIKEPTDILTMRRKARHGDYKTKEDFGIELKRMFDNCRLYNAPTTIYFKYANELQTLIWPKYEAI 4qny-a3-m2-cA_4qny-a3-m1-cB Crystal structure of MapK from Leishmania donovani, LDBPK_331470 A0A3Q8ITZ9 A0A3Q8ITZ9 2.257 X-RAY DIFFRACTION 61 0.994 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 333 339 TKSLAELQAEVCRLDDRYLLERIIGAGSYGVVIRARDTKSDNRLVAMKRVNKEIFEEVILAKRILREIKLLAHFNDDNIIGLRNILTPEDPENFDHFYIVMDIMETDLKQVLRSGQELTEAHIQFFIYQALRALHIIHSAGVIHRDITPANILVNTNCDLKICDFGLAKEEGEYMTDYVTMRWYRAPELVMEDKDYSAQIDVWGIGCILGELLGSRPLFQGKDRVNQLDKIVDVIGTPSEEDINSVGSSAAQKYLKKKSHRPQADWRQRYPTASPEALDLLRHMLVFNPKRRITVLQAMRHPFLEQLHDDYALFRFDTIVDVKRAIYEESVKF TKSLAELQAEVCRLDDRYLLERIIGAGSYGVVIRARDTKSDNRLVAMKRVNKEIFEEVILAKRILREIKLLAHFNDDNIIGLRNILTPEDPENFDHFYIVMDIMETDLKQVLRSGQELTEAHIQFFIYQALRALHIIHSAGVIHRDITPANILVNTNCDLKICDFGLAKEENDQYMTDYVTMRWYRAPELVMEDKDYSAQIDVWGIGCILGELLGSRPLFQGKDRVNQLDKIVDVIGTPSEEDINSVGSSAAQKYLKKKSHRPQADWRQRYPTASPEALDLLRHMLVFNPKRRITVLQAMRHPFLEQLHDDADDYALFRFDEKTIVDVKRAIYEESVKF 4qo5-a1-m2-cA_4qo5-a1-m3-cA Hypothetical multiheme protein A8AB33 A8AB33 1.697 X-RAY DIFFRACTION 199 1.0 453591 (Ignicoccus hospitalis KIN4/I) 453591 (Ignicoccus hospitalis KIN4/I) 521 521 4qo5-a1-m1-cA_4qo5-a1-m2-cA 4qo5-a1-m1-cA_4qo5-a1-m3-cA ANTVNLQEAVAKLKNVSPQTKTCLSCHISVTPGIVADWLKSKMAHVTPAEAWQKPALEREVSTPLDEIPANLRNVVVGCYECHGLNPEKHPDTIDHFGFKIHPIVTPNDCAVCHRTEVEQYSKSSKAWAYYNLMHNPIYRALVNASTMFTCMGKTFGGERTSQETSCLACHGTVVKVVGTVDTISHGIPVTLVKYEGYPNHGVGRVNPDGSLGACTACHPRHSFDIEIARSPYTCGQCHLDPDVPAFNVWKESKHGNIWFMHHKKYNMKAPAWKPGADFTAPTCATCHMSLLVNPVTGEVIAERTHNVDTRLWVRLFGLIYAHPMPRTGQHFKLSVEAMPESTAEALAKQGLTIAKALVGVKLPMPISLAPDIKTGKFLYATLPDGSPGLISEEEMAKRREQMVKICSACHNTEYAEYRMRLLDTQIEETNKATLKTTVLLLKAWQSGLAHVDLAKPVTLFDEYIEKLWVESWLFYSNSIRYGTAMNGQDWTTFKRGWYQLTKDIEHMKTLLRLWEAARAA ANTVNLQEAVAKLKNVSPQTKTCLSCHISVTPGIVADWLKSKMAHVTPAEAWQKPALEREVSTPLDEIPANLRNVVVGCYECHGLNPEKHPDTIDHFGFKIHPIVTPNDCAVCHRTEVEQYSKSSKAWAYYNLMHNPIYRALVNASTMFTCMGKTFGGERTSQETSCLACHGTVVKVVGTVDTISHGIPVTLVKYEGYPNHGVGRVNPDGSLGACTACHPRHSFDIEIARSPYTCGQCHLDPDVPAFNVWKESKHGNIWFMHHKKYNMKAPAWKPGADFTAPTCATCHMSLLVNPVTGEVIAERTHNVDTRLWVRLFGLIYAHPMPRTGQHFKLSVEAMPESTAEALAKQGLTIAKALVGVKLPMPISLAPDIKTGKFLYATLPDGSPGLISEEEMAKRREQMVKICSACHNTEYAEYRMRLLDTQIEETNKATLKTTVLLLKAWQSGLAHVDLAKPVTLFDEYIEKLWVESWLFYSNSIRYGTAMNGQDWTTFKRGWYQLTKDIEHMKTLLRLWEAARAA 4qoa-a1-m1-cA_4qoa-a1-m2-cA Crystal structure of a putative periplasmic protein (BACUNI_04550) from Bacteroides uniformis ATCC 8492 at 2.75 A resolution A7VAB9 A7VAB9 2.75 X-RAY DIFFRACTION 137 1.0 411479 (Bacteroides uniformis ATCC 8492) 411479 (Bacteroides uniformis ATCC 8492) 125 125 GDVITQDTKQLPLTARNFINQYFSKPHISHIKIESEILQTKKYEVLLTDRTEIDFDKKGNWLEVDCKKSAVPEALIPVPVKEYVKANFPREIITKIERGRTGVEIELGNDYSLKFNKKGKFVSDD GDVITQDTKQLPLTARNFINQYFSKPHISHIKIESEILQTKKYEVLLTDRTEIDFDKKGNWLEVDCKKSAVPEALIPVPVKEYVKANFPREIITKIERGRTGVEIELGNDYSLKFNKKGKFVSDD 4qoe-a1-m1-cA_4qoe-a1-m1-cB The value 'crystal structure of fad quinone reductase 2 at 1.45A P16083 P16083 1.45 X-RAY DIFFRACTION 143 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 229 1qr2-a1-m1-cA_1qr2-a1-m1-cB 1sg0-a1-m1-cA_1sg0-a1-m1-cB 1xi2-a1-m1-cA_1xi2-a1-m1-cB 1zx1-a1-m1-cA_1zx1-a1-m1-cB 2bzs-a1-m1-cA_2bzs-a1-m1-cB 2qmy-a1-m1-cA_2qmy-a1-m1-cB 2qmz-a1-m1-cA_2qmz-a1-m1-cB 2qr2-a1-m1-cA_2qr2-a1-m1-cB 2qwx-a1-m1-cA_2qwx-a1-m1-cB 2qx4-a1-m1-cA_2qx4-a1-m1-cB 2qx6-a1-m1-cA_2qx6-a1-m1-cB 2qx8-a1-m1-cA_2qx8-a1-m2-cB 2qx9-a1-m1-cA_2qx9-a1-m1-cB 3fw1-a1-m1-cA_3fw1-a1-m2-cA 3g5m-a1-m1-cA_3g5m-a1-m1-cB 3gam-a1-m1-cA_3gam-a1-m1-cB 3nfr-a1-m1-cA_3nfr-a1-m1-cB 3nhf-a1-m1-cA_3nhf-a1-m1-cB 3nhj-a1-m1-cA_3nhj-a1-m1-cB 3nhk-a1-m1-cA_3nhk-a1-m1-cB 3nhl-a1-m1-cA_3nhl-a1-m1-cB 3nhp-a1-m1-cA_3nhp-a1-m1-cB 3nhr-a1-m1-cA_3nhr-a1-m1-cB 3nhs-a1-m1-cA_3nhs-a1-m1-cB 3nhu-a1-m1-cA_3nhu-a1-m1-cB 3nhw-a1-m1-cA_3nhw-a1-m1-cB 3nhy-a1-m1-cA_3nhy-a1-m1-cB 3o2n-a1-m1-cA_3o2n-a1-m1-cB 3o73-a1-m1-cA_3o73-a1-m1-cB 3ovm-a1-m1-cA_3ovm-a1-m1-cB 3owh-a1-m1-cA_3owh-a1-m1-cB 3owx-a1-m1-cA_3owx-a1-m1-cB 3ox1-a1-m1-cA_3ox1-a1-m1-cB 3ox2-a1-m1-cA_3ox2-a1-m1-cB 3ox3-a1-m1-cA_3ox3-a1-m1-cB 3te7-a1-m1-cA_3te7-a1-m1-cB 3tem-a1-m1-cA_3tem-a1-m1-cB 3tzb-a1-m1-cB_3tzb-a1-m1-cA 3tzb-a2-m1-cD_3tzb-a2-m1-cC 3uxe-a1-m1-cA_3uxe-a1-m1-cB 3uxh-a1-m1-cA_3uxh-a1-m1-cB 4fgj-a1-m1-cA_4fgj-a1-m1-cB 4fgk-a1-m1-cA_4fgk-a1-m1-cB 4fgl-a1-m1-cA_4fgl-a1-m1-cB 4fgl-a2-m1-cC_4fgl-a2-m1-cD 4gqi-a1-m1-cA_4gqi-a1-m1-cB 4gr9-a1-m1-cA_4gr9-a1-m1-cB 4qod-a1-m1-cA_4qod-a1-m1-cB 4qof-a1-m1-cA_4qof-a1-m1-cB 4qog-a1-m1-cA_4qog-a1-m1-cB 4qoh-a1-m1-cB_4qoh-a1-m1-cA 4qoi-a1-m1-cA_4qoi-a1-m1-cB 4qoj-a1-m1-cA_4qoj-a1-m1-cB 4u7f-a1-m1-cA_4u7f-a1-m1-cB 4u7g-a1-m1-cA_4u7g-a1-m1-cB 4u7h-a1-m1-cA_4u7h-a1-m1-cB 4xdg-a1-m1-cA_4xdg-a1-m1-cB 4xdh-a1-m1-cA_4xdh-a1-m1-cB 4zvk-a1-m1-cA_4zvk-a1-m1-cB 4zvl-a1-m1-cA_4zvl-a1-m1-cB 4zvm-a1-m1-cA_4zvm-a1-m1-cB 4zvn-a1-m1-cA_4zvn-a1-m1-cB 5buc-a1-m1-cA_5buc-a1-m1-cB 5lbt-a1-m1-cB_5lbt-a1-m1-cA 5lbu-a1-m1-cA_5lbu-a1-m1-cB 5lbw-a1-m1-cA_5lbw-a1-m1-cB 5lby-a1-m1-cA_5lby-a1-m1-cB 5lbz-a1-m1-cA_5lbz-a1-m1-cB 7o4d-a1-m1-cA_7o4d-a1-m1-cB GKKVLIVYAHQEPKSFNGSLKNVAVDELSRQGCTVTVSDLYAMNFEPRATDKDITGTLSNPEVFNYGVETHEAYKQRSLASDITDEQKKVREADLVIFQFPLYWFSVPAILKGWMDRVLCQGFAFDIPGFYDSGLLQGKLALLSVTTGGTAEMYTKTGVNGDSRYFLWPLQHGTLHFCGFKVLAPQISFAPEIASEEERKGMVAAWSQRLQTIWKEEPIPCTAHWHFGQ GKKVLIVYAHQEPKSFNGSLKNVAVDELSRQGCTVTVSDLYAMNFEPRATDKDITGTLSNPEVFNYGVETHEAYKQRSLASDITDEQKKVREADLVIFQFPLYWFSVPAILKGWMDRVLCQGFAFDIPGFYDSGLLQGKLALLSVTTGGTAEMYTKTGVNGDSRYFLWPLQHGTLHFCGFKVLAPQISFAPEIASEEERKGMVAAWSQRLQTIWKEEPIPCTAHWHFGQ 4qpc-a2-m1-cA_4qpc-a2-m2-cA Crystal structure of the hydrolase domain of 10-formyltetrahydrofolate dehydrogenase (Y200A) from zebrafish E3NZ06 E3NZ06 1.902 X-RAY DIFFRACTION 52 1.0 7955 (Danio rerio) 7955 (Danio rerio) 308 308 MKIAVIGQSLFGQEVYKELKNEGHMIVGVFTIPDKDGKVDPLAIEAEKDGVPVFKFPRWRLKGKAITEVVDQYKAVGAELNVLPFCSQFIPMEVIDHPKHGSIIYHPSLLPRHRGASAINWTLIHGDKKGGFTVFWADDGLDTGPILLQRECDVEPNDNVNSIYKRFLFPEGVKGMVEAVRLIATGKAPRIKQPEEGATAECIQKKENSKIDWNQPAEAIHNWIRGNDRVPGAWAEIDGKSVSFYGSTLLENDHFSSNGQPLEIPGASRAALVTKNGLVLFGNDGKMLLVKNLQFEDGKMIPGSQYFK MKIAVIGQSLFGQEVYKELKNEGHMIVGVFTIPDKDGKVDPLAIEAEKDGVPVFKFPRWRLKGKAITEVVDQYKAVGAELNVLPFCSQFIPMEVIDHPKHGSIIYHPSLLPRHRGASAINWTLIHGDKKGGFTVFWADDGLDTGPILLQRECDVEPNDNVNSIYKRFLFPEGVKGMVEAVRLIATGKAPRIKQPEEGATAECIQKKENSKIDWNQPAEAIHNWIRGNDRVPGAWAEIDGKSVSFYGSTLLENDHFSSNGQPLEIPGASRAALVTKNGLVLFGNDGKMLLVKNLQFEDGKMIPGSQYFK 4qpk-a1-m1-cA_4qpk-a1-m1-cB 1.7 Angstrom Structure of a Bacterial Phosphotransferase Q2YQA5 Q2YQA5 1.66 X-RAY DIFFRACTION 133 0.995 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 205 207 4qpj-a1-m1-cA_4qpj-a1-m1-cB SLPVTLSALDLGALLCSRICHDIISPIGAINNGLELLEEGGADEDAMALIKSSARNASARLQFARIAFGAAGVQIDTGDAQNVATEYFRNEKPEFTWEGARVLLPKNKVKLLLNMLLIGNGAIPRGGSLAVRLEGSDTDPRFVITVKGRMLRVPPKFLELHSGAAPEEPIDAHSVQPYYTLLLAEEAGMKISIHATAEDIVFSAE LPVTLSALDLGALLCSRICHDIISPIGAINNGLELLEEGGADEDAMALIKSSARNASARLQFARIAFGAAGSAGVQIDTGDAQNVATEYFRNEKPEFTWEGARVLLPKNKVKLLLNMLLIGNGAIPRGGSLAVRLEGSDTDPRFVITVKGRMLRVPPKFLELHSGAAPEEPIDAHSVQPYYTLLLAEEAGMKISIHATAEDIVFSAE 4qpo-a1-m1-cB_4qpo-a1-m1-cC Mechanistic basis of plasmid-specific DNA binding of the F plasmid regulatory protein, TraM P10026 P10026 1.999 X-RAY DIFFRACTION 16 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 51 53 AKVNLYISNDAYEKINAIIEKRRQEGAREKDVSFSATASMLLELGLRVHEA AKVNLYISNDAYEKINAIIEKRRQEGAREKDVSFSATASMLLELGLRVHEAQM 4qpo-a1-m1-cD_4qpo-a1-m1-cA Mechanistic basis of plasmid-specific DNA binding of the F plasmid regulatory protein, TraM P10026 P10026 1.999 X-RAY DIFFRACTION 15 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 52 53 AKVNLYISNDAYEKINAIIEKRRQEGAREKDVSFSATASMLLELGLRVHEAQ AKVNLYISNDAYEKINAIIEKRRQEGAREKDVSFSATASMLLELGLRVHEAQM 4qpq-a1-m1-cG_4qpq-a1-m1-cF Mechanistic basis of plasmid-specific DNA binding of the F plasmid regulatory protein, TraM P10026 P10026 3.106 X-RAY DIFFRACTION 99 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 50 52 4qpo-a1-m1-cA_4qpo-a1-m1-cC 4qpo-a1-m1-cB_4qpo-a1-m1-cD 4qpq-a1-m1-cA_4qpq-a1-m1-cD 4qpq-a1-m1-cB_4qpq-a1-m1-cC 4qpq-a1-m1-cE_4qpq-a1-m1-cH AKVNLYISNDAYEKINAIIEKRRQEGAREKDVSFSATASMLLELGLRVHE AKVNLYISNDAYEKINAIIEKRRQEGAREKDVSFSATASMLLELGLRVHEAQ 4qpy-a1-m1-cA_4qpy-a1-m1-cC Crystal structure of C1QL2 Q8CFR0 Q8CFR0 2.384 X-RAY DIFFRACTION 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 131 131 4qpy-a1-m1-cA_4qpy-a1-m1-cB 4qpy-a1-m1-cC_4qpy-a1-m1-cB PKIAFYVGLKSPHEGYEVLKFDDVVTNLGNHYDPTTGKFSCQVRGIYFFTYHILMRGGDGTSMWADLCKNGQVRASAIAQDADQNYDYASNSVVLHLDSGDEVYVKLDGGKAHGGNNNKYSTFSGFLLYPD PKIAFYVGLKSPHEGYEVLKFDDVVTNLGNHYDPTTGKFSCQVRGIYFFTYHILMRGGDGTSMWADLCKNGQVRASAIAQDADQNYDYASNSVVLHLDSGDEVYVKLDGGKAHGGNNNKYSTFSGFLLYPD 4qq4-a1-m1-cA_4qq4-a1-m1-cB CW-type zinc finger of MORC3 in complex with the amino terminus of histone H3 Q14149 Q14149 1.75 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 48 48 PDQTWVQCDACLKWRKLPDGMDQLPEKWYCSNNPDPQFRNCEVPEEPE PDQTWVQCDACLKWRKLPDGMDQLPEKWYCSNNPDPQFRNCEVPEEPE 4qq5-a2-m2-cA_4qq5-a2-m3-cA Crystal Structure of FGF Receptor (FGFR) 4 Kinase Harboring the V550L Gate-Keeper Mutation in Complex With FIIN-2, an Irreversible Tyrosine Kinase Inhibitor Capable of Overcoming FGFR Kinase Gate-Keeper Mutations P22455 P22455 2.203 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 275 4qq5-a2-m1-cA_4qq5-a2-m2-cA 4qq5-a2-m1-cA_4qq5-a2-m3-cA QDPLLAGLVSLDLPLDPLWEFPRDRLVLGKPLGEGCFGQVVRAEAFGMDQASTVAVKMLKDNASDKDLADLVSEMEVMKLIGRHKNIINLLGVCTQEGPLYVILECAAKGNLREFLRARRPPGPLSFPVLVSCAYQVARGMQYLESRKCIHRDLAARNVLVTEDNVMKIADFGLALPVKWMAPEALFDEVYTHQSDVWSFGILLWEIFTLGGSPYPGIPVEELFSLLREGHRMDRPPHCPPELYGLMRECWHAAPSQRPTFKQLVEALDKVLLAV QDPLLAGLVSLDLPLDPLWEFPRDRLVLGKPLGEGCFGQVVRAEAFGMDQASTVAVKMLKDNASDKDLADLVSEMEVMKLIGRHKNIINLLGVCTQEGPLYVILECAAKGNLREFLRARRPPGPLSFPVLVSCAYQVARGMQYLESRKCIHRDLAARNVLVTEDNVMKIADFGLALPVKWMAPEALFDEVYTHQSDVWSFGILLWEIFTLGGSPYPGIPVEELFSLLREGHRMDRPPHCPPELYGLMRECWHAAPSQRPTFKQLVEALDKVLLAV 4qqr-a1-m1-cB_4qqr-a1-m1-cA Structural insight into nucleotide rhamnose synthase/epimerase-reductase from Arabidopsis thaliana Q9LQ04 Q9LQ04 2.7 X-RAY DIFFRACTION 67 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 268 274 SFNFLIYGKTGWIGGLLGKLCEAQGITYTYGSGRLQDRQSIVADIESVKPSHVFNAAGVWCESHKVETIRTNVAGTLTLADICREKGLVLINYATGCIFEYDSGHPLGSGIGFKEEDTPNFTGSFYSKTKAMVEELLKNYENVCTLRVRMPISSDLTNPRNFITKIARYEKVVDIPNSMTILDELLPISIEMAKRNLTGIYNFTNPGVVSHNEILEMYRDYIDPSFTWKNFTPRSNNELDATKLKTEFPELMSIKESLIKFVFEPNKK SFNFLIYGKTGWIGGLLGKLCEAQGITYTYGSGRLDRQSIVADIESVKPSHVFNAAGVTGRPNVDWCESHKVETIRTNVAGTLTLADICREKGLVLINYATGCIFEYDSGHPLGSGIGFKEEDTPNFTGSFYSKTKAMVEELLKNYENVCTLRVRMPISSDLTNPRNFITKIARYEKVVDIPNSMTILDELLPISIEMAKRNLTGIYNFTNPGVVSHNEILEMYRDYIDPSFTWKNFTEPRSNNELDATKLKTEFPELMSIKESLIKFVFEPNK 4qqv-a2-m1-cD_4qqv-a2-m1-cC Extracellular domains of mouse IL-3 beta receptor P26954 P26954 3.45 X-RAY DIFFRACTION 354 1.0 10090 (Mus musculus) 10090 (Mus musculus) 316 402 4qqv-a1-m1-cB_4qqv-a1-m1-cA EETVPLKTLECYNDYTNRIICSWADTEDAQGLINMTLLYHQLDKIQSVSCELSEKLMWSECPSSHRCVPRRCVIPYTRFSNGDNDYYSFQPDRDLGIQLMVPLAQHVQPPPPKDIHISPSGDHFLLEWSVSLGDSQVSWLSSKDIEFEVAYKRLQDSWEDASSLHTSNFQVNLEPKLFLPNSIYAARVRTRLSAGSSLSGRPSRWSPEVHWDSQPGDKAQPQNLQCFFDGIQSLHCSWEVWTQTTGSVSFGLFYRPSPAAPEEKCSPVVKEPQASVYTRYRCSLPVPEPSAHSQYTVSVKHLEQGKFIMSYYHIQM EETVPLKTLECYNDYTNRIICSWADTEDAQGLINMTLLYHQLDKIQSVSCELSEKLMWSECPSSHRCVPRRCVIPYTRFSNGDNDYYSFQPDRDLGIQLMVPLAQHVQPPPPKDIHISPSGDHFLLEWSVSLGDSQVSWLSSKDIEFEVAYKRLQDSWEDASSLHTSNFQVNLEPKLFLPNSIYAARVRTRLSAGSSLSGRPSRWSPEVHWDSQPGDKAQPQNLQCFFDGIQSLHCSWEVWTQTTGSVSFGLFYRPSPAAPEEKCSPVVKEPQASVYTRYRCSLPVPEPSAHSQYTVSVKHLEQGKFIMSYYHIQMEPPILQQTANAASYSLHWETQKIPKYIDHTFQVQYKKKSDSKTENLGRVNSMDLPQLEPDTSYCARVRVKPISDYDGIWSEWSNEY 4qqw-a5-m1-cC_4qqw-a5-m1-cA Crystal structure of T. fusca Cas3 Q47PJ0 Q47PJ0 2.664 X-RAY DIFFRACTION 134 0.994 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 902 911 4qqw-a6-m1-cE_4qqw-a6-m1-cG 4qqx-a5-m1-cC_4qqx-a5-m1-cA 4qqx-a6-m1-cG_4qqx-a6-m1-cE 4qqy-a5-m1-cA_4qqy-a5-m1-cC 4qqy-a6-m1-cG_4qqy-a6-m1-cE 4qqz-a5-m1-cC_4qqz-a5-m1-cA 4qqz-a6-m1-cG_4qqz-a6-m1-cE PPLDLRFWAKERGLRGKTYPLVCHSLDAAAAALVLWNEYLSPGLRDTIASSMETDEEHAGHCIAFWAGLHDIGKLTREFQQQIAIDLSAYPGEELSGEQRSHAAATGKWLPFALPSLGYPNGGLVTGLVAQMLGGHHGTFHPHPSFQSRNPLAEFGFSSPHWEKQRHALLHAVFDATGRPTPPDMLDGPTASVVCGLVILADWLVSQEDFLLERLTSLPADGSASALRAHFETSLRRIPSLLDAAGLRPITVPPATFTESFPHLSKPNGLQASLAKHLPCLCTGPGLVLITAPMGEGKTEAAYHVADLLGKATGRPGRFLALPTMATADQMHTRLKEYARYRVENTRSSTLALLHSMAWLNPDYAPADPFAATDWLMGRKRGLLAPWAVGTIDQALMAVLRAKHNALRLFGLAGKVVVVDEAHAVDPYMQVLLEQLLRWLGTLDVPVVLLSATLHHSIANSLVKAYLEGARGRRWNRSEPQPVSEVSYPGWLHVDARIGKVTRSSDVDPLPIATTPRKPLEVRLVDVPVKEGALNRSTVLAKELTPLVKQGGCAAIICTTVAEAQGVYDLLSQWFATLGEDAPDLYLLHSRFPNRQRTEITATIVDLFGKEGAQSGRRPTRGAVLVATQVVEQSLDLDVDLMISDLAPVSLLLQRAGRCWRHEHLGIINRPQWAKQPELVVLTPEQNAPWFPRSWTSVYPLALLQRTYTLLRRRNGAPVQIPEDVQQLVDDVYDDDSLAEDLEADMERMGEELAQRGLARNAVIPDPDDAEDNLNGLTEFSVLATRFGAGSVRVLCYYVDTAGNRWLDPECTVEFPEQGTGREGRFTMADCRDLVARTIPVRMGPWASQLTEDNHPPEAWRESFYLRDLVLIPQRVTDEGAVLPTETGGREWLLDPCKGLIF PPLDLRFWAKERGLRGKTYPLVCHSLDAAAAALVLWNEYLSPGLRDTIASSMETDEEHAGHCIAFWAGLHDIGKLTREFQQQIAIDLSAYPGEELSGEQRSHAAATGKWLPFALPSLGYPNGGLVTGLVAQMLGGHHGTFHPHPSFQSRNPLAEFGFSSPHWEKQRHALLHAVFDATGRPTPPDMLDGPTASVVCGLVILADWLVSQEDFLLERLTSLPADGSASALRAHFETSLRRIPSLLDAAGLRPITVPPATFTESFPHLSKPNGLQASLAKHLPCLCTGPGLVLITAPMGEGKTEAAYHVADLLGKATGRPGRFLALPTMATADQMHTRLKEYARYRVENTDLPRSSTLALLHSMAWLNPDYAPAVLSNLGHRDPFAATDWLMGRKRGLLAPWAVGTIDQALMAVLRAKHNALRLFGLAGKVVVVDEAHAVDPYMQVLLEQLLRWLGTLDVPVVLLSATLHHSIANSLVKAYLEGARGRRWNRSEPQPVSEVSYPGWLHVDARIGKVTRSSDVDPLPIATTPRKPLEVRLVDVPVKEGALNRSTVLAKELTPLVKQGGCAAIICTTVAEAQGVYDLLSQWFATLAPDLYLLHSRFPNRQRTEITATIVDLFGKEGAQSGRRPTAVLVATQVVEQSLDLDVDLMISDLAPVSLLLQRAGRCWRHEHLGIINRPQWAKQPELVVLTPEQNRAPWFPRSWTSVYPLALLQRTYTLLRRRNGAPVQIPEDVQQLVDDVYDDDSLAEDLEADMERMGEELAQRGLARNAVIPDPDDAEDNLNGLTEFSFHVLATRFGAGSVRVLCYYVDTAGNRWLDPECTVEFPEQGTGREGRFTMADCRDLVARTIPVRMGPWASQLTEDNHPPEAWRESFYLRDLVLIPQRVTDEGAVLPTETGGREWLLDPCKGLIF 4qr2-a1-m1-cB_4qr2-a1-m1-cA Crystal structure of Streptococcus pyogenes Cas2 at pH 7.5 Q99YS8 Q99YS8 1.8 X-RAY DIFFRACTION 89 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 82 83 4qr0-a1-m1-cB_4qr0-a1-m1-cA 4qr1-a1-m1-cB_4qr1-a1-m1-cA MMVLVTYDVNTETPAGRKRLRHVAKLCVDYGQRVQNSVFECSVTPAEFVDIKHRLTQIIDEKTDSIRFYLLGKNWQRRVETL MMVLVTYDVNTETPAGRKRLRHVAKLCVDYGQRVQNSVFECSVTPAEFVDIKHRLTQIIDEKTDSIRFYLLGKNWQRRVETLG 4qr8-a1-m1-cA_4qr8-a1-m1-cB Crystal Structure of E coli pepQ P21165 P21165 1.999 X-RAY DIFFRACTION 124 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 441 441 SLASLYKNHIATLQERTRDALARFKLDALLIHSGELFNVFLDDHPYPFKVNPQFKAWVPVTQVPNCWLLVDGVNKPKLWFYLPVDYWHNVEPLPTSFWTEDVEVIALPKADGIGSLLPAARGNIGYIGPVPERALQLGIEASNINPKGVIDYLHYYRSFKTEYELACMREAQKMAVNGHRAAEEAFRSGMSEFDINIAYLTATGHRDTDVPYSNIVALNEHAAVLHYTKLDHQAPEEMRSFLLDAGAEYNGYAADLTRTWSAKSDNDYAQLVKDVNDEQLALIATMKAGVSYVDYHIQFHQRIAKLLRKHQIITDMSEEAMVENDLTGPFMPHGIGHPLGLQVHDVAGFMQDDSGTHLAAPAKYPYLRCTRILQPGMVLTIEPGIYFIESLLAPWREGQFSKHFNWQKIEALKPFGGIRIEDNVVIHENNVENMTRDLKLA SLASLYKNHIATLQERTRDALARFKLDALLIHSGELFNVFLDDHPYPFKVNPQFKAWVPVTQVPNCWLLVDGVNKPKLWFYLPVDYWHNVEPLPTSFWTEDVEVIALPKADGIGSLLPAARGNIGYIGPVPERALQLGIEASNINPKGVIDYLHYYRSFKTEYELACMREAQKMAVNGHRAAEEAFRSGMSEFDINIAYLTATGHRDTDVPYSNIVALNEHAAVLHYTKLDHQAPEEMRSFLLDAGAEYNGYAADLTRTWSAKSDNDYAQLVKDVNDEQLALIATMKAGVSYVDYHIQFHQRIAKLLRKHQIITDMSEEAMVENDLTGPFMPHGIGHPLGLQVHDVAGFMQDDSGTHLAAPAKYPYLRCTRILQPGMVLTIEPGIYFIESLLAPWREGQFSKHFNWQKIEALKPFGGIRIEDNVVIHENNVENMTRDLKLA 4qr9-a1-m1-cA_4qr9-a1-m1-cB Crystal structure of two HMGB1 Box A domains cooperating to underwind and kink a DNA P63159 P63159 2 X-RAY DIFFRACTION 13 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 75 75 GSKPRGKMSSYAFFVQTCREEHKKKHPDASVNFSEFSKKCSERWKTMSAKEKGKFEDMAKADKARYEREMKTYIP GSKPRGKMSSYAFFVQTCREEHKKKHPDASVNFSEFSKKCSERWKTMSAKEKGKFEDMAKADKARYEREMKTYIP 4qrh-a1-m1-cA_4qrh-a1-m1-cB Molecular mechanism and evolution of guanylate kinase regulation by (p)ppGpp A0A0J9X1Z9 A0A0J9X1Z9 1.65 X-RAY DIFFRACTION 78 1.0 1458279 (Staphylococcus aureus USA300-ISMMS1) 1458279 (Staphylococcus aureus USA300-ISMMS1) 180 186 2j41-a1-m1-cA_2j41-a1-m1-cB NEKGLLIVLSGPSGVGKGTVRKRIFEDPSTSYKYSISMTTRQMREGEVDGVDYFFKTRDAFEALIKDDQFIEYAEYVGNYYGTPVQYVKDTMDEGHDVFLEIEVEGAKQVRKKFPDALFIFLAPPSLEHLNEARKEVEMMNLYDYVVVNDEVELAKNRIQCIVEAEHLKRERVEAKYRKM DNEKGLLIVLSGPSGVGKGTVRKRIFEDPSTSYKYSISMTTRQMREGEVDGVDYFFKTRDAFEALIKDDQFIEYAEYVGNYYGTPVQYVKDTMDEGHDVFLEIEVEGAKQVRKKFPDALFIFLAPPSLEHLNEARKEVEMMNLYDYVVVNDEVELAKNRIQCIVEAEHLKRERVEAKYRKMILEAK 4qri-a1-m1-cB_4qri-a1-m1-cA 2.35 Angstrom resolution crystal structure of hypoxanthine-guanine-xanthine phosphoribosyltransferase from Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130 Q72LV5 Q72LV5 2.35 X-RAY DIFFRACTION 77 0.994 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 155 157 SDILHPRFSREDISQKVKSLALQISEDYKKLNPIFICVLKGGVYFFTDLTREIPFSVEINFVQAIELLKDIDIDLSDRHVIIVEDILDTGFTLQYLVRHIFTRNPASLEIVTLLLKEFPVKYIGWRIPDEFLVGYGLDFDGRYRNLPDIHVLEPG SDILHPRFSREDISQKVKSLALQISEDYKKLNPIFICVLKGGVYFFTDLTREIPFSVEINFVQARKIELLKDIDIDLSDRHVIIVEDILDTGFTLQYLVRHIFTRNPASLEIVTLLLKEEFPVKYIGWRIPDEFLVGYGLDFDGRYRNLPDIHVLEP 4qrn-a2-m1-cC_4qrn-a2-m1-cD HIGH-RESOLUTION CRYSTAL STRUCTURE of 5-CARBOXYVANILLATE DECARBOXYLASE (TARGET EFI-505250) FROM NOVOSPHINGOBIUM AROMATICIVORANS DSM 12444 COMPLEXED WITH MANGANESE AND 4-HYDROXY-3-METHOXY-5-NITROBENZOIC ACID Q2GA79 Q2GA79 1.07 X-RAY DIFFRACTION 165 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 348 350 4inf-a1-m1-cB_4inf-a1-m1-cA 4inf-a2-m1-cC_4inf-a2-m1-cD 4qrn-a1-m1-cB_4qrn-a1-m1-cA 4qs5-a1-m1-cA_4qs5-a1-m1-cB 4qs5-a2-m1-cC_4qs5-a2-m1-cD 4qs6-a1-m1-cA_4qs6-a1-m1-cB 4qtg-a1-m1-cA_4qtg-a1-m1-cB DLKTGGEQGYLRIATEEAFATREIIDVYLRMIRDGTADKGMVSLWGFYAQSPSERATQILERLLDLGERRIADMDATGIDKAILALTSPGVQPLHDLDEARTLATRANDTLADACQKYPDRFIGMGTVAPQDPEWSAREIHRGARELGFKGIQINSHTQGRYLDEEFFDPIFRALVEVDQPLYIHPATSPDSMIDPMLEAGLDGAIFGFGVETGMHLLRLITIGIFDKYPSLQIMVGHMGEALPYWLYRLDYMHQAGVRSQRYERMKPLKKTIEGYLKSNVLVTNSGVAWEPAIKFCQQVMGEDRVMYAMDYPYQYVADEVRAMDAMDMSAQTKKKFFQTNAEKWFKL TQDLKTGGEQGYLRIATEEAFATREIIDVYLRMIRDGTADKGMVSLWGFYAQSPSERATQILERLLDLGERRIADMDATGIDKAILALTSPGVQPLHDLDEARTLATRANDTLADACQKYPDRFIGMGTVAPQDPEWSAREIHRGARELGFKGIQINSHTQGRYLDEEFFDPIFRALVEVDQPLYIHPATSPDSMIDPMLEAGLDGAIFGFGVETGMHLLRLITIGIFDKYPSLQIMVGHMGEALPYWLYRLDYMHQAGVRSQRYERMKPLKKTIEGYLKSNVLVTNSGVAWEPAIKFCQQVMGEDRVMYAMDYPYQYVADEVRAMDAMDMSAQTKKKFFQTNAEKWFKL 4qrp-a4-m1-cD_4qrp-a4-m2-cJ Crystal Structure of HLA B*0801 in complex with HSKKKCDEL and DD31 TCR 2.9 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 203 203 MGDSVTQMEGPVTLSEEAFLTINCTYTATGYPSLFWYVQYPGEGLQLLLKATKADDKGSNKGFEATYRKETTSFHLEKGSVQVSDSAVYFCALSDPVNDMRFGAGTRLTVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP MGDSVTQMEGPVTLSEEAFLTINCTYTATGYPSLFWYVQYPGEGLQLLLKATKADDKGSNKGFEATYRKETTSFHLEKGSVQVSDSAVYFCALSDPVNDMRFGAGTRLTVKPNIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSIIPEDTFFPSP 4qsr-a2-m1-cA_4qsr-a2-m2-cA Structure of the bromodomain of human ATPase family AAA domain-containing protein 2 (ATAD2) with bound MPD Q6PL18 Q6PL18 2 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 SMQEEDTFRELRIFLRNVTHRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLICSNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESR SMQEEDTFRELRIFLRNVTHRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLICSNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESR 4qsu-a2-m1-cA_4qsu-a2-m2-cA Structure of the bromodomain of human ATPase family AAA domain-containing protein 2 (ATAD2) in complex with thymine Q6PL18 Q6PL18 1.9 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 4qss-a2-m1-cA_4qss-a2-m2-cA 5a5r-a1-m1-cA_5a5r-a1-m2-cA 5a83-a1-m1-cA_5a83-a1-m2-cA SMQEEDTFRELRIFLRNVTHRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLICSNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESR SMQEEDTFRELRIFLRNVTHRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLICSNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESR 4qte-a2-m1-cA_4qte-a2-m2-cA Structure of ERK2 in complex with VTX-11e, 4-{2-[(2-CHLORO-4-FLUOROPHENYL)AMINO]-5-METHYLPYRIMIDIN-4-YL}-N-[(1S)-1-(3-CHLOROPHENYL)-2-HYDROXYETHYL]-1H-PYRROLE-2-CARBOXAMIDE P28482 P28482 1.5 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 348 348 PEMVRGQVFDVGPRYTNLSYIGEGAYGMVCSAYDNVNKVRVAIKKISPFEHQTYCQRTLREIKILLRFRHENIIGINDIIRAPTIEQMKDVYIVQDLMETDLYKLLKTQHLSNDHICYFLYQILRGLKYIHSANVLHRDLKPSNLLLNTTCDLKICDFGLARVADPDHDHTGFLTEYVATRWYRAPEIMLNSKGYTKSIDIWSVGCILAEMLSNRPIFPGKHYLDQLNHILGILGSPSQEDLNCIINLKARNYLLSLPHKNKVPWNRLFPNADSKALDLLDKMLTFNPHKRIEVEQALAHPYLEQYYDPSDEPIAEAPFKFDMELDDLPKEKLKELIFEETARFQPGY PEMVRGQVFDVGPRYTNLSYIGEGAYGMVCSAYDNVNKVRVAIKKISPFEHQTYCQRTLREIKILLRFRHENIIGINDIIRAPTIEQMKDVYIVQDLMETDLYKLLKTQHLSNDHICYFLYQILRGLKYIHSANVLHRDLKPSNLLLNTTCDLKICDFGLARVADPDHDHTGFLTEYVATRWYRAPEIMLNSKGYTKSIDIWSVGCILAEMLSNRPIFPGKHYLDQLNHILGILGSPSQEDLNCIINLKARNYLLSLPHKNKVPWNRLFPNADSKALDLLDKMLTFNPHKRIEVEQALAHPYLEQYYDPSDEPIAEAPFKFDMELDDLPKEKLKELIFEETARFQPGY 4qtn-a1-m1-cA_4qtn-a1-m1-cB Crystal structure of the Vitamin B3 transporter PnuC D2ZZC1 D2ZZC1 2.8 X-RAY DIFFRACTION 46 1.0 546266 (Neisseria mucosa ATCC 25996) 546266 (Neisseria mucosa ATCC 25996) 227 227 4qtn-a1-m1-cA_4qtn-a1-m1-cC 4qtn-a1-m1-cB_4qtn-a1-m1-cC GSLAWWKRELFGGWTHFEAVWLLFLGIQAVVFVFNPDSWLASVAAVTGILCVVFVGKGKISNYLFGLISVSLYAYVSYTFKLYGELNLLVYVPVQFVGFAWRKHALGETAETEEVKAKALTVRQWLLVVAASVVGTSVYIEWLHHLGSALPTLDGVTVVVSIVAQVLILRYREQWALWIVVNILTISLWAVAWFKNGETSLPLLLYVYLCNSVYGYINWTKLVKRHS GSLAWWKRELFGGWTHFEAVWLLFLGIQAVVFVFNPDSWLASVAAVTGILCVVFVGKGKISNYLFGLISVSLYAYVSYTFKLYGELNLLVYVPVQFVGFAWRKHALGETAETEEVKAKALTVRQWLLVVAASVVGTSVYIEWLHHLGSALPTLDGVTVVVSIVAQVLILRYREQWALWIVVNILTISLWAVAWFKNGETSLPLLLYVYLCNSVYGYINWTKLVKRHS 4qu6-a2-m1-cA_4qu6-a2-m2-cA Crystal structure of a G-rich RNA sequence binding factor 1 (GRSF1) from Homo sapiens at 1.75 A resolution Q12849 Q12849 1.75 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 DDVFLIRAQGLPWSCTMEDVLNFFSDCRIRNGENGIHFLLNRDGKRRGDALIEMESEQDVQKALEKHRMYMGQRYVEVYEINNEDVDALMKSLQVKSSP DDVFLIRAQGLPWSCTMEDVLNFFSDCRIRNGENGIHFLLNRDGKRRGDALIEMESEQDVQKALEKHRMYMGQRYVEVYEINNEDVDALMKSLQVKSSP 4quf-a2-m1-cD_4quf-a2-m1-cC crystal structure of chromodomain of Rhino with H3K9me3 Q7JXA8 Q7JXA8 2.501 X-RAY DIFFRACTION 47 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 58 61 4quf-a1-m1-cA_4quf-a1-m1-cB 4quf-a3-m1-cE_4quf-a3-m1-cF 4u68-a1-m1-cA_4u68-a1-m2-cA 4u68-a2-m1-cC_4u68-a2-m1-cB EEYVVEKILGKRFVNGRPQVLVKWSGFPNENNTWEPLENVGNCMKLVSDFESEVFRLH EEYVVEKILGKRFVNGRPQVLVKWSGFPNENNTWEPLENVGNCMKLVSDFESEVFRLHRKA 4quv-a3-m1-cB_4quv-a3-m1-cA Structure of an integral membrane delta(14)-sterol reductase G4SW86 G4SW86 2.743 X-RAY DIFFRACTION 51 1.0 1091494 (Methylotuvimicrobium alcaliphilum 20Z) 1091494 (Methylotuvimicrobium alcaliphilum 20Z) 389 393 SWLVLMIALPPLVYYLWICVTYYQGELVFTSDAAAWRRFWSHVAPPTWHAAGLYAAWFLGQAALQVWAPGPTVQGMKLPDGSRLDYRMNGIFSFLFTLAVVFGLVTMGWLDATVLYDQLGPLLTVVNIFTFVFAGFLYPFYDYFMGTALNPRIGSLDLKLFCEARPGMIFWLLMNLSMAAKQYELHGTVTVPMLLVVGFQSFYLIDYFIHEEAVLTTWDIKHEKFGWMLCWGDLVWLPFTYTLQAQYLVHHTHDLPVWGIIAIVALNLAGYAIFRGANIQKHHFRRDPNRIVWGKPAKYIKTKQGSLLLTSGWWGIARHMNYFGDLMIALSWCLPAAFGSPIPYFHIVYFTILLLHREKRDDAMCLAKYGEDWLQYRKKVPWRIVPKIY FSWLVLMIALPPLVYYLWICVTYYQGELVFTSDAAAWRRFWSHVAPPTWHAAGLYAAWFLGQAALQVWAPGPTVQGMKLPDGSRLDYRMNGIFSFLFTLAVVFGLVTMGWLDATVLYDQLGPLLTVVNIFTFVFAGFLYFWGPFYDYFMGTALNPRIGSLDLKLFCEARPGMIFWLLMNLSMAAKQYELHGTVTVPMLLVVGFQSFYLIDYFIHEEAVLTTWDIKHEKFGWMLCWGDLVWLPFTYTLQAQYLVHHTHDLPVWGIIAIVALNLAGYAIFRGANIQKHHFRRDPNRIVWGKPAKYIKTKQGSLLLTSGWWGIARHMNYFGDLMIALSWCLPAAFGSPIPYFHIVYFTILLLHREKRDDAMCLAKYGEDWLQYRKKVPWRIVPKIY 4quw-a2-m1-cA_4quw-a2-m2-cA Crystal structure of the apo form of cyanobacterial aldehyde-deformylating oxygenase Q54764 Q54764 2.26 X-RAY DIFFRACTION 68 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 223 223 ELDFQSESYKDAYSRINAIVIEGEQEAFDNYNRLAEMLPDQRDELHKLAKMEQRHMKGFMACGKNLSVTPDMGFAQKFFERLHENFKAAAAEGKVVTCLLIQSLIIECFAIAAYNIYIPVADAFARKITEGVVRDEYLHRNFGEEWLKANFDASKAELEEANRQNLPLVWLMLNEVADDARELGMERESLVEDFMIAYGEALENIGFTTREIMRMSAYGLAAV ELDFQSESYKDAYSRINAIVIEGEQEAFDNYNRLAEMLPDQRDELHKLAKMEQRHMKGFMACGKNLSVTPDMGFAQKFFERLHENFKAAAAEGKVVTCLLIQSLIIECFAIAAYNIYIPVADAFARKITEGVVRDEYLHRNFGEEWLKANFDASKAELEEANRQNLPLVWLMLNEVADDARELGMERESLVEDFMIAYGEALENIGFTTREIMRMSAYGLAAV 4qv2-a1-m1-cA_4qv2-a1-m1-cB Unliganded crystal structure of Feline Norovirus P Domain co-crystallized with HBGA A-trisaccharide H8YRY9 H8YRY9 1.68 X-RAY DIFFRACTION 158 1.0 1160949 (Norovirus cat/GIV.2/CU081210E/USA/2010) 1160949 (Norovirus cat/GIV.2/CU081210E/USA/2010) 311 322 4quz-a1-m1-cA_4quz-a1-m1-cB 4qva-a1-m1-cA_4qva-a1-m1-cB 4qvj-a1-m1-cA_4qvj-a1-m1-cB VSFSVPGLVVEDMSNSRWPAQINGLVVRGNEAQVVHFQNGRCTTEGTLLGTTTLSINSICGLRGLSVSQASVADTTLWLRVEEPDGRPYDIFGDQPAPLGTPDFTAVIVGTAIRPRTASGAYLHDAYVDTTPGDADFTPSTGNTKIVLRGGGSGHVGQGHYWQFRPIAVEGGGSRPQYQEYNLPDYAGPTASNHDLAPPVAPRMPGELLLLFESDMPVWDNGAGAAPAQKIHCLLPNEFITHLFDLQAPALAEAALLRYVHPDSGRTLFECKLYREGYMVVAAPAGRLNFPLDGYFRFDSWVSAFYILSPV VSFSVPGLVVEDMSNSRWPAQINGLVVRGNEAQVVHFQNGRCTTEGTLLGTTTLSINSICGLRGLSVSQASVGAAATYTLARAADTTLWLRVEEPDGRPYDIFGDQPAPLGTPDFTAVIVGTAIRPRTASGAYLHDAYVDTTPGDADFTPSTGNTKIVLRGGGSGHVGQGHYWQFRPIAVEGGGSRPQYQEYNLPDYAGPTASNHDLAPPVAPRMPGELLLLFESDMPVWDNGAGAAPAQKIHCLLPNEFITHLFDLQAPALAEAALLRYVHPDSGRTLFECKLYREGYMVVAAPAGRLNFPLDGYFRFDSWVSAFYILSPV 4qvh-a1-m2-cB_4qvh-a1-m1-cA Crystal structure of the essential Mycobacterium tuberculosis phosphopantetheinyl transferase PptT, solved as a fusion protein with maltose binding protein O33336 O33336 1.75 X-RAY DIFFRACTION 56 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 595 596 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMTVGTLVASVLPATVFEDLAYAELYSDPPGLTPLPEEAPLIARSVAKRRNEFITVRHCARIALDQLGVPPAPILKGDKGEPCWPDGMVGSLTHCAGYRGAVVGRRDAVRSVGIDAEPHDVLPNGVLDAISLPAERADMPRTMPAALHWDRILFCAKEATYKAWFPLTKRWLGFEDAHITFETDSTGWTGRFVSRILIDGSTLSGPPLTTLRGRWSVERGLVLTAIVL KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMTVGTLVASVLPATVFEDLAYAELYSDPPGLTPLPEEAPLIARSVAKRRNEFITVRHCARIALDQLGVPPAPILKGDKGEPCWPDGMVGSLTHCAGYRGAVVGRRDAVRSVGIDAEPHDVLPNGVLDAISLPAERADMPRTMPAALHWDRILFCAKEATYKAWFPLTKRWLGFEDAHITFETDSTGWTGRFVSRILIDGSTLSGPPLTTLRGRWSVERGLVLTAIVL 4qvs-a1-m1-cA_4qvs-a1-m2-cA 2.1 Angstrom resolution crystal structure of S-layer domain-containing protein (residues 221-444) from Clostridium thermocellum ATCC 27405 A3DIC9 A3DIC9 2.1 X-RAY DIFFRACTION 632 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 213 213 ETGAWYFDEAVEGSTNEFKDYKGNHGNAVLYSANGVVPGLNGNSVSLDGVDDYVALPDGIAGTFYNFTIAFWVRLDTIGEQPIFDFFDSGSNNKYRLTAESDGKIKFATQSGYYGEKTITSGSALTEGVWKHVAVTLSGDTGTLYINGENVGENNTLSLPLTFLGETSKGYIGKSHQTDSSEDPYYNSYLHGIDDFRIFDRALSADEIKTLAS ETGAWYFDEAVEGSTNEFKDYKGNHGNAVLYSANGVVPGLNGNSVSLDGVDDYVALPDGIAGTFYNFTIAFWVRLDTIGEQPIFDFFDSGSNNKYRLTAESDGKIKFATQSGYYGEKTITSGSALTEGVWKHVAVTLSGDTGTLYINGENVGENNTLSLPLTFLGETSKGYIGKSHQTDSSEDPYYNSYLHGIDDFRIFDRALSADEIKTLAS 4qvu-a1-m1-cA_4qvu-a1-m4-cA Crystal structure of a DUF4931 family protein (BCE0241) from Bacillus cereus ATCC 10987 at 2.65 A resolution Q73EW7 Q73EW7 2.65 X-RAY DIFFRACTION 30 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 214 214 4qvu-a1-m2-cA_4qvu-a1-m3-cA DILATEGSIIWLKNKFPTLKDTFQTVLIETDNCEDHIATYTEEHRSLIRFSIKHWLNLQKNEEFTSVILYKNHGPFSGGSLHHAHQIIGKYVNYLDNVEQDNFQGVIVQKNEHIELNISDRPIIGFTEFNIIIEDIGCIDELANYIQQTVRYILTDFHKGCSSYNLFFYYLNEKIICKVVPRFVVSPLYVGYKIPQVSTKIEDVKIQLAAYFTK DILATEGSIIWLKNKFPTLKDTFQTVLIETDNCEDHIATYTEEHRSLIRFSIKHWLNLQKNEEFTSVILYKNHGPFSGGSLHHAHQIIGKYVNYLDNVEQDNFQGVIVQKNEHIELNISDRPIIGFTEFNIIIEDIGCIDELANYIQQTVRYILTDFHKGCSSYNLFFYYLNEKIICKVVPRFVVSPLYVGYKIPQVSTKIEDVKIQLAAYFTK 4qvu-a1-m3-cA_4qvu-a1-m4-cA Crystal structure of a DUF4931 family protein (BCE0241) from Bacillus cereus ATCC 10987 at 2.65 A resolution Q73EW7 Q73EW7 2.65 X-RAY DIFFRACTION 15 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 214 214 4qvu-a1-m1-cA_4qvu-a1-m2-cA DILATEGSIIWLKNKFPTLKDTFQTVLIETDNCEDHIATYTEEHRSLIRFSIKHWLNLQKNEEFTSVILYKNHGPFSGGSLHHAHQIIGKYVNYLDNVEQDNFQGVIVQKNEHIELNISDRPIIGFTEFNIIIEDIGCIDELANYIQQTVRYILTDFHKGCSSYNLFFYYLNEKIICKVVPRFVVSPLYVGYKIPQVSTKIEDVKIQLAAYFTK DILATEGSIIWLKNKFPTLKDTFQTVLIETDNCEDHIATYTEEHRSLIRFSIKHWLNLQKNEEFTSVILYKNHGPFSGGSLHHAHQIIGKYVNYLDNVEQDNFQGVIVQKNEHIELNISDRPIIGFTEFNIIIEDIGCIDELANYIQQTVRYILTDFHKGCSSYNLFFYYLNEKIICKVVPRFVVSPLYVGYKIPQVSTKIEDVKIQLAAYFTK 4qvu-a2-m1-cA_4qvu-a2-m3-cA Crystal structure of a DUF4931 family protein (BCE0241) from Bacillus cereus ATCC 10987 at 2.65 A resolution Q73EW7 Q73EW7 2.65 X-RAY DIFFRACTION 80 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 214 214 4qvu-a1-m1-cA_4qvu-a1-m3-cA 4qvu-a1-m2-cA_4qvu-a1-m4-cA DILATEGSIIWLKNKFPTLKDTFQTVLIETDNCEDHIATYTEEHRSLIRFSIKHWLNLQKNEEFTSVILYKNHGPFSGGSLHHAHQIIGKYVNYLDNVEQDNFQGVIVQKNEHIELNISDRPIIGFTEFNIIIEDIGCIDELANYIQQTVRYILTDFHKGCSSYNLFFYYLNEKIICKVVPRFVVSPLYVGYKIPQVSTKIEDVKIQLAAYFTK DILATEGSIIWLKNKFPTLKDTFQTVLIETDNCEDHIATYTEEHRSLIRFSIKHWLNLQKNEEFTSVILYKNHGPFSGGSLHHAHQIIGKYVNYLDNVEQDNFQGVIVQKNEHIELNISDRPIIGFTEFNIIIEDIGCIDELANYIQQTVRYILTDFHKGCSSYNLFFYYLNEKIICKVVPRFVVSPLYVGYKIPQVSTKIEDVKIQLAAYFTK 4qww-a1-m1-cA_4qww-a1-m1-cB Crystal structure of the Fab410-BfAChE complex Q92035 Q92035 2.7 X-RAY DIFFRACTION 58 1.0 8613 (Bungarus fasciatus) 8613 (Bungarus fasciatus) 529 529 AGELKVSTQTGSVRGLSLPVLDGHVSAFLGIPFAEPPLGRMRFLRPEPVKPWQHVLDATSYKPACYQMVDTSYPGFQGTEMWNPNRGMSEDCLYLNIWVPSPRPKDAPVLVWIYGGGFYSGAASLDVYDGRFLTYTQNVILVSLSYRVGAFGFLGLPGSPEAPGNMGLLDQRLALQWIQNNIHPFGGNPRAVTVFGESAGAASVGMHLLSTQSRTLFQRAILQSGGPNAPWATVTPAESRGRAALLGKQLGCHFNNDSELVSCLRSKNPQELIDEEWSVLPYKSIFRFPFVPVIDGDFFPDTPEAMLSSGNFKETQVLLGVVKDEGSYFLIYGLPGFSKDNESLISRADFLEGVRMSVPHANDIATDAVVLQYTDWQDQDNREKNREALDDIVGDHNVICPVVQFANDYAKRNSKVYAYLFDHRASNLLWPPWMGVPHGYEIEFVFGLPLNDSLNYTPQEKELSRRMMRYWANFARTGNPTDPAAWPTYTASQPQYVQLNTQPLATQPSLRAQICAFWNHFLPKLLNAT AGELKVSTQTGSVRGLSLPVLDGHVSAFLGIPFAEPPLGRMRFLRPEPVKPWQHVLDATSYKPACYQMVDTSYPGFQGTEMWNPNRGMSEDCLYLNIWVPSPRPKDAPVLVWIYGGGFYSGAASLDVYDGRFLTYTQNVILVSLSYRVGAFGFLGLPGSPEAPGNMGLLDQRLALQWIQNNIHPFGGNPRAVTVFGESAGAASVGMHLLSTQSRTLFQRAILQSGGPNAPWATVTPAESRGRAALLGKQLGCHFNNDSELVSCLRSKNPQELIDEEWSVLPYKSIFRFPFVPVIDGDFFPDTPEAMLSSGNFKETQVLLGVVKDEGSYFLIYGLPGFSKDNESLISRADFLEGVRMSVPHANDIATDAVVLQYTDWQDQDNREKNREALDDIVGDHNVICPVVQFANDYAKRNSKVYAYLFDHRASNLLWPPWMGVPHGYEIEFVFGLPLNDSLNYTPQEKELSRRMMRYWANFARTGNPTDPAAWPTYTASQPQYVQLNTQPLATQPSLRAQICAFWNHFLPKLLNAT 4qxx-a1-m5-cZ_4qxx-a1-m6-cZ Structure of the amyloid forming peptide GNLVS (residues 26-30) from the eosinophil major basic protein (EMBP) P13727 P13727 1.445 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 5 5 4qxx-a1-m1-cZ_4qxx-a1-m2-cZ 4qxx-a1-m2-cZ_4qxx-a1-m3-cZ 4qxx-a1-m4-cZ_4qxx-a1-m5-cZ GNLVS GNLVS 4qxz-a1-m1-cB_4qxz-a1-m1-cA Crystal structure of a hypothetical protein from Staphylococcus aureus A0A0H3JSS7 A0A0H3JSS7 2.49 X-RAY DIFFRACTION 47 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 143 146 HMKTFKAVRFQIVNEHGRIIEYELEDGVIINKEESGTGWLLEIVISNEHYETFKEYQDNEQLLDIRVVITRPANDPALFESTVKSIKNFKTTMSIVFECHIYTLRQQYAESLLEQLIDDGLSGEELKKSFNRMMQSKPKLKDE SHMKTFKAVRFQIVNEHGRIIEYELEDGVIINKEESGTGWLLEIVISNEHYETFKEYQDNEQLLDIRVVITRPANDPALFESTVKSIKNFKTTMSIVFECHIYTLRQQYAESLLEQLIDDGLSGEELKKSFNRMMQSKPKLKDEKL 4qyb-a2-m1-cA_4qyb-a2-m2-cB 2.1 Angstrom resolution crystal structure of uncharacterized protein, disulfide-bridged dimer, from Burkholderia cenocepacia J2315 B4EGA9 B4EGA9 2.1 X-RAY DIFFRACTION 54 0.991 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 113 115 4pup-a1-m1-cA_4pup-a1-m2-cA 4pup-a2-m1-cB_4pup-a2-m1-cC 4qyb-a1-m1-cA_4qyb-a1-m2-cB 4qyb-a1-m2-cA_4qyb-a1-m1-cB HHQVQDLTGAALDYWVATAEGHEVPRADASGCTSIREPGGVPTPFAPSSSWADGGPIVERLPFAGFERDGGRGAWRAVLHRGERCTFNQSGPTLLIAARTLVASTFGDDVPDL HQVQDLTGAALDYWVATAEGHEVPRADASGCTSIREPGGVPTPFAPSSSWADGGPIVERLPFAGFERDGGRGAWRAVLHRPAAGERCTFNQSGPTLLIAARTLVASTFGDDVPDL 4qyb-a3-m1-cA_4qyb-a3-m1-cB 2.1 Angstrom resolution crystal structure of uncharacterized protein, disulfide-bridged dimer, from Burkholderia cenocepacia J2315 B4EGA9 B4EGA9 2.1 X-RAY DIFFRACTION 33 0.991 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 113 115 4qyb-a1-m1-cA_4qyb-a1-m1-cB 4qyb-a1-m2-cA_4qyb-a1-m2-cB HHQVQDLTGAALDYWVATAEGHEVPRADASGCTSIREPGGVPTPFAPSSSWADGGPIVERLPFAGFERDGGRGAWRAVLHRGERCTFNQSGPTLLIAARTLVASTFGDDVPDL HQVQDLTGAALDYWVATAEGHEVPRADASGCTSIREPGGVPTPFAPSSSWADGGPIVERLPFAGFERDGGRGAWRAVLHRPAAGERCTFNQSGPTLLIAARTLVASTFGDDVPDL 4qyi-a2-m1-cB_4qyi-a2-m1-cC 1.95 Angstrom resolution crystal structure of a hypoxanthine-guanine phosphoribosyltransferase (hpt-2) from Bacillus anthracis str. 'Ames Ancestor' with HEPES molecule in the active site A0A6L8PVA4 A0A6L8PVA4 1.95 X-RAY DIFFRACTION 65 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 170 170 3o7m-a1-m1-cC_3o7m-a1-m1-cB 3o7m-a1-m1-cD_3o7m-a1-m1-cA 4qyi-a1-m1-cD_4qyi-a1-m1-cA 4qyi-a3-m1-cE_4qyi-a3-m2-cE IEIKDTLISEEQLQEKVKELALQIERDFEGEEIVVIAVLKGSFVFAADLIRHIKNDVTIDFISASSYGNQTETTGKVKLLKDIDVNITGKNVIVVEDIIDSGLTLHFLKDHFFMHKPKALKFCTLLDKPERRKVDLTAEYVGFQIPDEFIVGYGIDAEKYRNLPFIASVV IEIKDTLISEEQLQEKVKELALQIERDFEGEEIVVIAVLKGSFVFAADLIRHIKNDVTIDFISASSYGNQTETTGKVKLLKDIDVNITGKNVIVVEDIIDSGLTLHFLKDHFFMHKPKALKFCTLLDKPERRKVDLTAEYVGFQIPDEFIVGYGIDAEKYRNLPFIASVV 4qyr-a1-m1-cA_4qyr-a1-m2-cA Streptomyces platensis isomigrastatin ketosynthase domain MgsE KS3 D0U2E3 D0U2E3 2.902 X-RAY DIFFRACTION 201 1.0 684832 (Streptomyces platensis subsp. rosaceus) 684832 (Streptomyces platensis subsp. rosaceus) 580 580 DDAVAIVGAAGRFPGADDLDTFWQQLRAGEDLIADYPGDRFDGGPYAEVVARADFPKFAGRIEGVDRFDADFFHLSRLEAELDPQHRLALETVWAALENGGYAPARLPENTGVYFGVSGSDYHHLLNASGVAPDGFTATGNAHSLANRISYVLDVHGPSEPVDTACSSSLVALHRAVEHIRSGRCEAIAGGVNLLLSVDTFAATHAGLSPDGRCKTFSAGADGYVRSEGVAAVLLKPLAQAQRDGDAIWGVVRGSAENHGGRAGSLTAPNGKAQAALIQDARGIDPDSIGYVEAHGTGTGLGDPVEVNALDSAYRALRTAEGGPPHAARPCALGSVKTNIGHAESAAGLAGVLKVLLARHRELPPALHCDRLNPHLPLDGGFEVVRELRRWEPCTDATGRPWPLRAGVSSFGFGGANAHVVLEAPPVPPAAPQAIVLSARDDDRLRATAGRLRDFLDRARRDGHAPDLADLAFTLQVGREAERRLGFVVGSDDVLGTLDRFFAGDEPSGWHTGGIRRGVRREAEQAPEVTRALHDGRLDRVTALWCDGAPVDWQAHPTGERRAVRLPAYPFACDRYWVPA DDAVAIVGAAGRFPGADDLDTFWQQLRAGEDLIADYPGDRFDGGPYAEVVARADFPKFAGRIEGVDRFDADFFHLSRLEAELDPQHRLALETVWAALENGGYAPARLPENTGVYFGVSGSDYHHLLNASGVAPDGFTATGNAHSLANRISYVLDVHGPSEPVDTACSSSLVALHRAVEHIRSGRCEAIAGGVNLLLSVDTFAATHAGLSPDGRCKTFSAGADGYVRSEGVAAVLLKPLAQAQRDGDAIWGVVRGSAENHGGRAGSLTAPNGKAQAALIQDARGIDPDSIGYVEAHGTGTGLGDPVEVNALDSAYRALRTAEGGPPHAARPCALGSVKTNIGHAESAAGLAGVLKVLLARHRELPPALHCDRLNPHLPLDGGFEVVRELRRWEPCTDATGRPWPLRAGVSSFGFGGANAHVVLEAPPVPPAAPQAIVLSARDDDRLRATAGRLRDFLDRARRDGHAPDLADLAFTLQVGREAERRLGFVVGSDDVLGTLDRFFAGDEPSGWHTGGIRRGVRREAEQAPEVTRALHDGRLDRVTALWCDGAPVDWQAHPTGERRAVRLPAYPFACDRYWVPA 4qys-a1-m1-cA_4qys-a1-m1-cB TrpB2 enzymes Q97TX6 Q97TX6 1.939 X-RAY DIFFRACTION 110 0.983 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 408 418 6hte-a1-m1-cB_6hte-a1-m1-cD RIRIDLPQDEIPAQWYNILPDLPEELPPPQDPTGKSLELLKEVLPSKVLELEFAKERYVKIPDEVLERYLQVGRPTPIIRAKRLEEYLGNNIKIYLKMESYTYTGSHKINSALAHVYYAKLDNAKFVTTETGAGQWGSSVALASALFRMKAHIFMVRTSYYAKPYRKYMMQMYGAEVHPSPSDLLGIAISDAVEYAHKNGGKYVVGSVVNSDIMFKTIAGMEAKKQMELIGEDPDYIIGVVGGGSNYAALAYPFLGDELRSGKVRRKYIASGSSEVPKMTKGVYKYDYPDTAKLLPMLKMYTIGSDFVPPPVYAGGLRYHGVAPTLSLLISKGIVQARDYSQEESFKWAKLFSELEGYIPAPETSHALPILAEIAEEAKKSGERKTVLVSFSGHGLLDLGNYASVLFK RIRIDLPQDEIPAQWYNILPDLPEELPPPQELLKEVLPSKVLELEFAKERYVKIPDEVLERYLQVGRPTPIIRAKRLEEYLGNNIKIYLKMESYTYTGSHKINSALAHVYYAKLDNAKFVTTETGAGQWGSSVALASALFRMKAHIFMVRTSYYAKPYRKYMMQMYGAEVHPSPSDLTEFGRQLLAKDSNHPGSLGIAISDAVEYAHKNGGKYVVGSVVNSDIMFKTIAGMEAKKQMELIGEDPDYIIGVVGGGSNYAALAYPFLGDELRSGKVRRKYIASGSSEVPKMTKGVYKYDYPDTAKLLPMLKMYTIGSDFVPPPVYAGGLRYHGVAPTLSLLISKGIVQARDYSQEESFKWAKLFSELEGYIPAPETSHALPILAEIAEEAKKSGERKTVLVSFSGHGLLDLGNYASVLFK 4qyt-a2-m1-cC_4qyt-a2-m1-cD Schizosaccharomyces pombe DJ-1 Q10356 Q10356 1.05 X-RAY DIFFRACTION 85 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 189 189 4ge0-a1-m1-cA_4ge0-a1-m1-cB 4ge0-a2-m1-cC_4ge0-a2-m1-cD 4ge3-a1-m1-cA_4ge3-a1-m1-cB 4ge3-a2-m1-cC_4ge3-a2-m1-cD 4qyt-a1-m1-cA_4qyt-a1-m1-cB VKVCLFVADGTDEIEFSAPWGIFKRAEIPIDSVYVGENKDRLVKMSRDVEMYANRSYKEIPSADDFAKQYDIAIIPGGGLGAKTLSTTPFVQQVVKEFYKKPNKWIGMIAGTLTAKTSGLPNKQITGHPSVRGQLEEGGYKYLDQPVVLEENLITSQGPGTAMLFGLKLLEQVASKDKYNAVYKSLSMP VKVCLFVADGTDEIEFSAPWGIFKRAEIPIDSVYVGENKDRLVKMSRDVEMYANRSYKEIPSADDFAKQYDIAIIPGGGLGAKTLSTTPFVQQVVKEFYKKPNKWIGMIAGTLTAKTSGLPNKQITGHPSVRGQLEEGGYKYLDQPVVLEENLITSQGPGTAMLFGLKLLEQVASKDKYNAVYKSLSMP 4r01-a1-m1-cA_4r01-a1-m2-cA Crystal structure of SP1627, a putative NADH-flavin reductase, from Streptococcus pneumoniae TIGR4 A0A0H2UR89 A0A0H2UR89 2.4 X-RAY DIFFRACTION 22 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 210 GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK 4r01-a1-m1-cA_4r01-a1-m2-cB Crystal structure of SP1627, a putative NADH-flavin reductase, from Streptococcus pneumoniae TIGR4 A0A0H2UR89 A0A0H2UR89 2.4 X-RAY DIFFRACTION 33 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 210 4r01-a1-m1-cB_4r01-a1-m2-cA GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK 4r01-a1-m1-cB_4r01-a1-m2-cB Crystal structure of SP1627, a putative NADH-flavin reductase, from Streptococcus pneumoniae TIGR4 A0A0H2UR89 A0A0H2UR89 2.4 X-RAY DIFFRACTION 31 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 210 GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK 4r01-a1-m2-cA_4r01-a1-m2-cB Crystal structure of SP1627, a putative NADH-flavin reductase, from Streptococcus pneumoniae TIGR4 A0A0H2UR89 A0A0H2UR89 2.4 X-RAY DIFFRACTION 46 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 210 210 4r01-a1-m1-cA_4r01-a1-m1-cB GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK GMKLAVIAANGQAGKAIVEEAVKRGHEVTAIVRSENKSQAESIIKKDLFELTKDDLTGFDAVISAFGAYTPDTLPLHSKSIELFNQLLAGTQTRFLVVGGAGSLYIDETKTTRLLDTPDFPEEFKPLAKAQADELDLLRTKNNLNWTFVSPAVDFIPDGEKTGNYILAGEIFTTNEKGISQISYADYAIGLVDELEKGHHIKERISLLEK 4r0b-a1-m1-cA_4r0b-a1-m2-cA Structure of dimeric human glycodelin P09466 P09466 2.45 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 153 153 QDLELPKLAGTWHSMAMATNEISLMATLKAPLRVHITSLLPTPEDNLEIVLHRWENNSCVEKKVLGEKTENPKKFKINYTVANEATLLDTDYDNFLFLCLQDTTTPIQSMMCQYLARVLVEDDEIMQGFIRAFRPLPRHLWYLLDLKQMEEPC QDLELPKLAGTWHSMAMATNEISLMATLKAPLRVHITSLLPTPEDNLEIVLHRWENNSCVEKKVLGEKTENPKKFKINYTVANEATLLDTDYDNFLFLCLQDTTTPIQSMMCQYLARVLVEDDEIMQGFIRAFRPLPRHLWYLLDLKQMEEPC 4r0c-a1-m1-cB_4r0c-a1-m1-cC Crystal structure of the Alcanivorax borkumensis YdaH transporter reveals an unusual topology Q0VR69 Q0VR69 2.963 X-RAY DIFFRACTION 73 1.0 393595 (Alcanivorax borkumensis SK2) 393595 (Alcanivorax borkumensis SK2) 468 474 PHPTLLFVWFCLLLLPLTAVLGALDVTATHPLTDETITAHSLLDADGLRYLFTTLVGNFTGFAPLGVVLVAMLGLGVAEQSGLLSVSLASLVRLVFTVAFAGVLSSLTVDAGYVVLIPLAGLVFQLAGRPPIAGIATAFAAVSGGFSANLLVGPVDATLAGLSTEAAHIIDPDRTVAATGNYWFIIASTFLVTGLVTLITRTLTEPRLAHANTVADASVDAPQIHSRAMKWTGLTLAILLAGLALLVLPNDAPLRHPDTGSVLGSPFIHGLVVIVALIAGICGAVYGRVSGQFRNSGAVITAMEVTMASMAGYLVLMFFAAQFVAWFNYSQLGLLLAVKGAAWLGALTVPKVVLLLLFVVLTALINLMIGSASAKWSILAPVFIPMLMLLGISPEASQAAYRVGDSSTNIITPLMPYFVLVLGFARRYQPETGIGTLIALMLPYSLTLLLGWSVLLGVWIGFGWPLGP PHPTLLFVWFCLLLLPLTAVLGALDVTATHPLTDETITAHSLLDADGLRYLFTTLVGNFTGFAPLGVVLVAMLGLGVAEQSGLLSVSLASLVRRSSGGALVFTVAFAGVLSSLTVDAGYVVLIPLAGLVFQLAGRPPIAGIATAFAAVSGGFSANLLVGPVDATLAGLSTEAAHIIDPDRTVAATGNYWFIIASTFLVTGLVTLITRTLTEPRLAHANTVADASVDAPQIHSRAMKWTGLTLAILLAGLALLVLPNDAPLRHPDTGSVLGSPFIHGLVVIVALIAGICGAVYGRVSGQFRNSGAVITAMEVTMASMAGYLVLMFFAAQFVAWFNYSQLGLLLAVKGAAWLGALTVPKVVLLLLFVVLTALINLMIGSASAKWSILAPVFIPMLMLLGISPEASQAAYRVGDSSTNIITPLMPYFVLVLGFARRYQPETGIGTLIALMLPYSLTLLLGWSVLLGVWIGFGWPLGP 4r0c-a1-m1-cC_4r0c-a1-m1-cD Crystal structure of the Alcanivorax borkumensis YdaH transporter reveals an unusual topology Q0VR69 Q0VR69 2.963 X-RAY DIFFRACTION 133 1.0 393595 (Alcanivorax borkumensis SK2) 393595 (Alcanivorax borkumensis SK2) 474 483 4r0c-a1-m1-cB_4r0c-a1-m1-cA PHPTLLFVWFCLLLLPLTAVLGALDVTATHPLTDETITAHSLLDADGLRYLFTTLVGNFTGFAPLGVVLVAMLGLGVAEQSGLLSVSLASLVRRSSGGALVFTVAFAGVLSSLTVDAGYVVLIPLAGLVFQLAGRPPIAGIATAFAAVSGGFSANLLVGPVDATLAGLSTEAAHIIDPDRTVAATGNYWFIIASTFLVTGLVTLITRTLTEPRLAHANTVADASVDAPQIHSRAMKWTGLTLAILLAGLALLVLPNDAPLRHPDTGSVLGSPFIHGLVVIVALIAGICGAVYGRVSGQFRNSGAVITAMEVTMASMAGYLVLMFFAAQFVAWFNYSQLGLLLAVKGAAWLGALTVPKVVLLLLFVVLTALINLMIGSASAKWSILAPVFIPMLMLLGISPEASQAAYRVGDSSTNIITPLMPYFVLVLGFARRYQPETGIGTLIALMLPYSLTLLLGWSVLLGVWIGFGWPLGP RLEQLGNRLPHPTLLFVWFCLLLLPLTAVLGALDVTATHPLTDETITAHSLLDADGLRYLFTTLVGNFTGFAPLGVVLVAMLGLGVAEQSGLLSVSLASLVRRSSGGALVFTVAFAGVLSSLTVDAGYVVLIPLAGLVFQLAGRPPIAGIATAFAAVSGGFSANLLVGPVDATLAGLSTEAAHIIDPDRTVAATGNYWFIIASTFLVTGLVTLITRTLTEPRLAHANTVADASVDAPQIHSRAMKWTGLTLAILLAGLALLVLPNDAPLRHPDTGSVLGSPFIHGLVVIVALIAGICGAVYGRVSGQFRNSGAVITAMEVTMASMAGYLVLMFFAAQFVAWFNYSQLGLLLAVKGAAWLGALTVPKVVLLLLFVVLTALINLMIGSASAKWSILAPVFIPMLMLLGISPEASQAAYRVGDSSTNIITPLMPYFVLVLGFARRYQPETGIGTLIALMLPYSLTLLLGWSVLLGVWIGFGWPLGP 4r0g-a2-m1-cD_4r0g-a2-m1-cC Crystal structure of Lpg0393 from Legionella pneumophila Q5ZYH9 Q5ZYH9 2.7 X-RAY DIFFRACTION 90 0.992 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 250 252 4r0g-a1-m1-cB_4r0g-a1-m1-cA MLSSTKEYLQALRDGKYLLFLQWPKFIAEYYGKSEADEMVSLLIFEWLNNGFCLDDIKKFAILYAVHEMESRPLREGLSYALTTISIALFPCMVYLTNNLQEHYITSKKLSSKEVLQLMTMNNAKQRFVEFLGQEQDKFFTWVKEADSSAVSKAFDQIYSVTYLKYLIEDYLSLLESAHLPTDQLKSSRISLVVRLAKYLHEQTELTQDVHDEIAVYVKKLWEMQPAEFEEEFLKKISPLPFIDNTVRIL MLSSTKEYLQALRDGKYLLFLQWPKFIAEYYGEADEMVSLLIFEWLNNGFCLDDIKKFAILYAVHEMESRPLREGLSYALTTISIALFPCMVYLTNNLQEHYITSKKLSSKEVLQLMTMNNAYLEKQRFVEFLGQEQDKFFTWVKEADSSAVSKAFDQIYSVTYLKYLIEDYLSLLESAHLPTDQLKSSRISLVVRLAKYLHEQTELTQDVHDEIAVYVKKLWEMQPAEFEEEFLKKISPLPFIDNTVRILT 4r0j-a2-m1-cA_4r0j-a2-m2-cA The crystal structure of a functionally uncharacterized protein SMU1763c from Streptococcus mutans Q8DSL7 Q8DSL7 1.715 X-RAY DIFFRACTION 17 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 191 191 NLYRSRNFYARIRGDRALFTNPATSSYSVPTRQALQGIIDGIYHKPTFTNVITEVKVVNQIQTELHGVRAYVSYLSDVEYLVKFHFIWNENREDLIQDRLPKKHEAIERSIRKGGRRDIFLGTRECFGLVDEISQEEYETIPSYYNGVTIDLGIFHSFAYPDTPLKSYFTKTVENGAIKFKPQSECEIVNT NLYRSRNFYARIRGDRALFTNPATSSYSVPTRQALQGIIDGIYHKPTFTNVITEVKVVNQIQTELHGVRAYVSYLSDVEYLVKFHFIWNENREDLIQDRLPKKHEAIERSIRKGGRRDIFLGTRECFGLVDEISQEEYETIPSYYNGVTIDLGIFHSFAYPDTPLKSYFTKTVENGAIKFKPQSECEIVNT 4r0k-a1-m1-cA_4r0k-a1-m1-cB Crystal structure of a putative dipeptidyl-peptidase VI (BT_1314) from Bacteroides thetaiotaomicron VPI-5482 at 1.75 A resolution Q8A860 Q8A860 1.75 X-RAY DIFFRACTION 86 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 292 293 3pvq-a1-m1-cA_3pvq-a1-m1-cB PPADSAYGVVHISVCNRDEGKFTSGSTQALLGPVKVLQYTGWYEIQTPDDYTGWVHRVITPSKEKYDEWNRAEKIVVTSHYGFTYEKPDDDSQTVSDVVAGNRLKWEGSKGHFYKVSYPDGRQAYISRHISQPESKWRASLKQDAESIIKTAYTIGIPYLWAGTSSKGVDSGLVRTVLFHDIIIPRDASQQAYVGERIEIAPDFSNVQRGDLVFFGRKATADRKEGISHVGIYLGNKRFIHALGDVHISSFDPEDEYDEFNTGRLLFATRFLPYINKEKGNTTDHNLYYLHH RPPADSAYGVVHISVCNRDEGKFTSGSTQALLGPVKVLQYTGWYEIQTPDDYTGWVHRVITPSKEKYDEWNRAEKIVVTSHYGFTYEKPDDDSQTVSDVVAGNRLKWEGSKGHFYKVSYPDGRQAYISRHISQPESKWRASLKQDAESIIKTAYTIGIPYLWAGTSSKGVDSGLVRTVLFHDIIIPRDASQQAYVGERIEIAPDFSNVQRGDLVFFGRKATADRKEGISHVGIYLGNKRFIHALGDVHISSFDPEDEYDEFNTGRLLFATRFLPYINKEKGNTTDHNLYYLHH 4r0l-a1-m1-cC_4r0l-a1-m1-cD Anti-canine CD28 antibody, 1C6, bound canine CD28 Q9N0N8 Q9N0N8 3.3 X-RAY DIFFRACTION 38 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 117 118 KILVKQLPRLVVYNNEVNLSCKYTYNLFSKEFRASLYKGVDSAVEVCVVNGNYSHQPQFYSSTGFDCDGKLGNETVTFYLRNLFVNQTDIYFCKIEVMYPPPYIGNEKSNGTIIHVK KILVKQLPRLVVYNNEVNLSCKYTYNLFSKEFRASLYKGVDSAVEVCVVNGNYSHQPQFYSSTGFDCDGKLGNETVTFYLRNLFVNQTDIYFCKIEVMYPPPYIGNEKSNGTIIHVKS 4r0p-a1-m6-cA_4r0p-a1-m9-cA Ifqins, an amyloid forming segment from human lysozyme spanning residues 56-61 P61626 P61626 1.52 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 4r0p-a1-m10-cA_4r0p-a1-m9-cA 4r0p-a1-m1-cA_4r0p-a1-m3-cA 4r0p-a1-m1-cA_4r0p-a1-m4-cA 4r0p-a1-m2-cA_4r0p-a1-m3-cA 4r0p-a1-m4-cA_4r0p-a1-m5-cA 4r0p-a1-m6-cA_4r0p-a1-m8-cA 4r0p-a1-m7-cA_4r0p-a1-m8-cA IFQINS IFQINS 4r0r-a1-m2-cA_4r0r-a1-m3-cA Ebolavirus GP Prehairpin Intermediate Mimic 2.15 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 48 48 4r0r-a1-m1-cA_4r0r-a1-m2-cA 4r0r-a1-m1-cA_4r0r-a1-m3-cA YGIKKEIEAIKKEQEAIKKKIEAIEKELRQLANETTQALQLFLRATTE YGIKKEIEAIKKEQEAIKKKIEAIEKELRQLANETTQALQLFLRATTE 4r0w-a1-m6-cA_4r0w-a1-m9-cA Vvtgvta, an amyloid forming segment from alpha synuclein, residues 70-76 P37840 P37840 1.5 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 4r0w-a1-m10-cA_4r0w-a1-m9-cA 4r0w-a1-m1-cA_4r0w-a1-m3-cA 4r0w-a1-m1-cA_4r0w-a1-m4-cA 4r0w-a1-m2-cA_4r0w-a1-m3-cA 4r0w-a1-m4-cA_4r0w-a1-m5-cA 4r0w-a1-m6-cA_4r0w-a1-m8-cA 4r0w-a1-m7-cA_4r0w-a1-m8-cA VVTGVTA VVTGVTA 4r0x-a2-m1-cA_4r0x-a2-m2-cA Allosteric coupling of conformational transitions in the FK1 domain of FKBP51 near the site of steroid receptor interaction Q13451 Q13451 1.2 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 122 MEQGEDITSKKDRGVLKIVKRVGNGEETPMIGDKVYVHYKGKLSNGKKFDSSHDRNEPFVFSLGKGQVIKAWDIGVATMKKGEICHLLCKPEYAYGSAGSLPGIPSNATLFFEIELLDFKGE MEQGEDITSKKDRGVLKIVKRVGNGEETPMIGDKVYVHYKGKLSNGKKFDSSHDRNEPFVFSLGKGQVIKAWDIGVATMKKGEICHLLCKPEYAYGSAGSLPGIPSNATLFFEIELLDFKGE 4r14-a1-m1-cA_4r14-a1-m1-cB Crystal structure of human CSN6 MPN domain Q7L5N1 Q7L5N1 2.601 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 153 153 VSVALHPLVILNISDHWIRMRSQEGRPVQVIGALIGKQEGRNIEVMNSFELLSHTVEEKIIIDKEYYYTKEEQFKQVFKELEFLGWYTTGGPPDPSDIHVHKQVCEIIESPLFLKLNPMTKHTDLPVSVFESVIDIINGEATMLFAELTYTLA VSVALHPLVILNISDHWIRMRSQEGRPVQVIGALIGKQEGRNIEVMNSFELLSHTVEEKIIIDKEYYYTKEEQFKQVFKELEFLGWYTTGGPPDPSDIHVHKQVCEIIESPLFLKLNPMTKHTDLPVSVFESVIDIINGEATMLFAELTYTLA 4r16-a1-m1-cA_4r16-a1-m1-cB Structure of UDP-D-MAnNAc dehdrogeanse from Pyrococcus horikoshii O59284 O59284 1.55 X-RAY DIFFRACTION 156 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 409 409 RIAVLGLGYIGLPTAIFASSGYDVVGYDIRSEVIKKINSGVAHIIEPEIDRRLKEVLSLGKLKVTDRVEDLKGSNVFIICVQTPLSGDDPDLSYLERAIRTVAEVDRGALVIIESTIPPGTTEKARLLENLTGLREGVDFYVAHAPERVPGRIFKELVYNSRIIGGVSEKAANLAEKLYRSFVKGRIFLTNATTAEVKLENTFRDVNIALANEFALLAHQYGVNVYEAIELANTHPRVKIHTPGIGVGGHCLPKDPYLLLSNAKEDFGLIRIARRINERPAFAAGLLFEALEKANIKPSEAIIAVLGLAYKGGTDDTRNSPALKFVEIIRNSVKEVRTYDPYVRGTHDSLEKVVEGADAIVIATDHPEFKSVNWESIGKSRHKIIIDGRNIIKEPPVGFIFRGIGRGDV RIAVLGLGYIGLPTAIFASSGYDVVGYDIRSEVIKKINSGVAHIIEPEIDRRLKEVLSLGKLKVTDRVEDLKGSNVFIICVQTPLSGDDPDLSYLERAIRTVAEVDRGALVIIESTIPPGTTEKARLLENLTGLREGVDFYVAHAPERVPGRIFKELVYNSRIIGGVSEKAANLAEKLYRSFVKGRIFLTNATTAEVKLENTFRDVNIALANEFALLAHQYGVNVYEAIELANTHPRVKIHTPGIGVGGHCLPKDPYLLLSNAKEDFGLIRIARRINERPAFAAGLLFEALEKANIKPSEAIIAVLGLAYKGGTDDTRNSPALKFVEIIRNSVKEVRTYDPYVRGTHDSLEKVVEGADAIVIATDHPEFKSVNWESIGKSRHKIIIDGRNIIKEPPVGFIFRGIGRGDV 4r1h-a1-m1-cB_4r1h-a1-m1-cA GntR family transcriptional regulator from Listeria monocytogenes Q8Y901 Q8Y901 1.76 X-RAY DIFFRACTION 74 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 113 115 FDDSKPIYKQIVHYIHTEIVTGTYEAGDKLLSVRELATKLEVNPTTIQRAYAELEETEIIYTVRGTGKYLTEDKRRIEQLENDIAKQLTENFISESKLGINKEKIIAWVKKVE FDDSKPIYKQIVHYIHTEIVTGTYEAGDKLLSVRELATKLEVNPTTIQRAYAELEETEIIYTVRGTGKYLTEDKRRIEQLENDIAKQLTENFISESKLGINKEKIIAWVKKVEEV 4r1i-a1-m1-cB_4r1i-a1-m1-cA Structure and Function of Neisseria gonorrhoeae MtrF Illuminates a Class of Antimetabolite Efflux Pumps Q9RNX2 Q9RNX2 3.959 X-RAY DIFFRACTION 127 1.0 528352 (Neisseria gonorrhoeae FA19) 528352 (Neisseria gonorrhoeae FA19) 506 507 RFLRTVEWLGNMLPHPVTLFIIFIVLLLIASAVGAYFGLSVPDPRPVGAKGRADDGLIHVVSLLDADGLIKILTHTVKNFTGFAPLGTVLVSLLGVGIAEKSGLISALMRLLLTKSPRKLTTFMVVFTGILSNTASELGYVVLIPLSAVIFHSLGRHPLAGLAAAFAGVSGGYSANLFLGTIDPLLAGITQQAAQIIHPDYVVGPEANWFFMAASTFVIALIGYFVTEKIVEPQLGPYQSDLSQEEKDIRHSNEITPLEYKGLIWAGVVFIALSALLAWSIVPADGILRHPETGLVAGSPFLKSIVVFIFLLFALPGIVYGRITRSLRGEREVVNAMAESMSTLGLYLVIIFFAAQFVAFFNWTNIGQYIAVKGAVFLKEVGLAGSVLFIGFILICAFINLMIGSASAQWAVTAPIFVPMLMLAGYAPEVIQAAYRIGDSVTNIITPMMSYFGLIMATVMKYKKDAGVGTLISMMLPYSAFFLIAWIALFCIWVFVLGLPVGPGAP GRFLRTVEWLGNMLPHPVTLFIIFIVLLLIASAVGAYFGLSVPDPRPVGAKGRADDGLIHVVSLLDADGLIKILTHTVKNFTGFAPLGTVLVSLLGVGIAEKSGLISALMRLLLTKSPRKLTTFMVVFTGILSNTASELGYVVLIPLSAVIFHSLGRHPLAGLAAAFAGVSGGYSANLFLGTIDPLLAGITQQAAQIIHPDYVVGPEANWFFMAASTFVIALIGYFVTEKIVEPQLGPYQSDLSQEEKDIRHSNEITPLEYKGLIWAGVVFIALSALLAWSIVPADGILRHPETGLVAGSPFLKSIVVFIFLLFALPGIVYGRITRSLRGEREVVNAMAESMSTLGLYLVIIFFAAQFVAFFNWTNIGQYIAVKGAVFLKEVGLAGSVLFIGFILICAFINLMIGSASAQWAVTAPIFVPMLMLAGYAPEVIQAAYRIGDSVTNIITPMMSYFGLIMATVMKYKKDAGVGTLISMMLPYSAFFLIAWIALFCIWVFVLGLPVGPGAP 4r1n-a2-m1-cC_4r1n-a2-m1-cD Crystal structure of (S)-3-hydroxybutylryl-CoA dehydrogenase form the n-butanol sysnthesizing bacterium, Clostridium butyricum. C4IEM5 C4IEM5 1.8 X-RAY DIFFRACTION 129 1.0 632245 (Clostridium butyricum E4 str. BoNT E BL5262) 632245 (Clostridium butyricum E4 str. BoNT E BL5262) 282 282 4kue-a1-m1-cA_4kue-a1-m1-cB 4kue-a2-m1-cC_4kue-a2-m1-cD 4kug-a1-m1-cA_4kug-a1-m1-cB 4kug-a2-m1-cC_4kug-a2-m1-cD 4kuh-a1-m1-cA_4kuh-a1-m1-cB 4kuh-a2-m1-cC_4kuh-a2-m1-cD 4kuh-a3-m1-cE_4kuh-a3-m1-cF 4kuh-a4-m1-cG_4kuh-a4-m1-cH 4r1n-a1-m1-cA_4r1n-a1-m1-cB MKKVFVLGAGTMGAGIVQAFAAKGCEVIVRDIKEEFVDRGIATITKSLSKLVAKEKITEADKEEILSRISGTTDMKLAADCDLVVEAAIENMKIKKEIFAELDGICKPETILASNTSSLSITEVASATKRADKVIGMHFFNPAPVMKLVEVIRGAATSQETFDAVKEMSESIGKTPVEVAEAPGFVVNRILIPMINEATFILQEGVAKEEDIDAAMKLGANHPMGPLALGDLIGLDVCLAIMDVLYNETGDTKYRASSLLRKYVRAGWLGRKTGKGFYDYSK MKKVFVLGAGTMGAGIVQAFAAKGCEVIVRDIKEEFVDRGIATITKSLSKLVAKEKITEADKEEILSRISGTTDMKLAADCDLVVEAAIENMKIKKEIFAELDGICKPETILASNTSSLSITEVASATKRADKVIGMHFFNPAPVMKLVEVIRGAATSQETFDAVKEMSESIGKTPVEVAEAPGFVVNRILIPMINEATFILQEGVAKEEDIDAAMKLGANHPMGPLALGDLIGLDVCLAIMDVLYNETGDTKYRASSLLRKYVRAGWLGRKTGKGFYDYSK 4r24-a1-m1-cB_4r24-a1-m2-cB Complete dissection of B. subtilis nitrogen homeostatic circuitry G2RUZ1 G2RUZ1 2.25 X-RAY DIFFRACTION 16 1.0 1006007 (Priestia megaterium WSH-002) 1006007 (Priestia megaterium WSH-002) 85 85 4r22-a1-m1-cB_4r22-a1-m2-cB ASYRDKKVMSIGIVKELTGLSERQIRYYEKRSLLFPDRTNTGIRKYSFSDVERLMDIADRIEEGVQTSEIRTELAKKDEARKMKE ASYRDKKVMSIGIVKELTGLSERQIRYYEKRSLLFPDRTNTGIRKYSFSDVERLMDIADRIEEGVQTSEIRTELAKKDEARKMKE 4r25-a1-m2-cA_4r25-a1-m3-cA Structure of B. subtilis GlnK Q07428 Q07428 2.5193 X-RAY DIFFRACTION 94 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 114 114 4r25-a1-m1-cA_4r25-a1-m2-cA 4r25-a1-m1-cA_4r25-a1-m3-cA 4rx6-a1-m1-cA_4rx6-a1-m1-cB 4rx6-a1-m1-cD_4rx6-a1-m1-cA 4rx6-a1-m1-cD_4rx6-a1-m1-cB SHMFKVEIVTRPANFEKLKQELGKIGVTSLTFSNVHGCGLQKAHTELYRGVKIESNVYERLKIEIVVSKVPVDQVTETAKRVLKTGSPGDGKIFVYEISNTINIRTGEEGPEAL SHMFKVEIVTRPANFEKLKQELGKIGVTSLTFSNVHGCGLQKAHTELYRGVKIESNVYERLKIEIVVSKVPVDQVTETAKRVLKTGSPGDGKIFVYEISNTINIRTGEEGPEAL 4r27-a1-m1-cB_4r27-a1-m1-cA Crystal structure of beta-glycosidase BGL167 L0ELG0 L0ELG0 2.03 X-RAY DIFFRACTION 58 1.0 1271882 (Microbacterium sp. Gsoil167) 1271882 (Microbacterium sp. Gsoil167) 407 417 NPFPQDFLWGVATAGHQVEGNNVNSDVWFLEHLPGTIFAEPSGDAVDHYHRYREDIALIAGLGFTSYRFSVEWARIEPEEGHFSVAALDHYKRVLEACREHGLTPVVTFHHFASPLWLLRSGGWEGERTPELFARYCGRVMAHLGDLIGVACTLNEPNLPWLLESFGIGGEAPENRGKVPMWAAAAQRLGVDASTVAPFQFCSTEAGFNVKLAAHKAATEAIKAHRPDLRVGWTLANSDIQSVPGGEEIAAQVRRDVNERFLEASRGDDFVGIQTYGRTVYGPDGHAPAPEGVAVNQMGEEIYPQALEATIREAWRVAGIPVMVTENGLATEDDTQRVAYLRTAVDGVASCLADGIDVRGYIAWTAFDNFEWIFGYGPKFGLIAVDRSTQERTPKESARWLGNFARQ NPFPQDFLWGVATAGHQVEGNNVNSDVWFLEHLPGTIFAEPSGDAVDHYHRYREDIALIAGLGFTSYRFSVEWARIEPEEGHFSVAALDHYKRVLEACREHGLTPVVTFHHFASPLWLLRSGGWEGERTPELFARYCGRVMAHLGDLIGVACTLNEPNLPWLLESFGIGGEAPENRGKVPMWAAAAQRLGVDASTVAPFQFCSTEAGFNVKLAAHKAATEAIKAHRPDLRVGWTLANSDIQSVPGGEEIAAQVRRDVNERFLEASRGDDFVGIQTYGRTVYGPDGHAPAPEGVAVNQMGEEIYPQALEATIREAWRVAGIPVMVTENGLATEDDTQRVAYLRTAVDGVASCLADGIDVRGYIAWTAFDNFEWIFGYGPKFGLIAVDRSTQERTPKESARWLGNFARQQAPAEAPQPA 4r2k-a1-m1-cA_4r2k-a1-m2-cA Crystal structure of H119A mutant of YdaA (Universal Stress Protein E) from Salmonella typhimurium Q8ZP84 Q8ZP84 1.97 X-RAY DIFFRACTION 129 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 311 311 4r2j-a1-m1-cA_4r2j-a1-m2-cA 5cb0-a1-m1-cB_5cb0-a1-m1-cA MAMYQNMLVVIDPNQDDQPALRRAVYLHQRIGGKIKAFLPIYDFSYEMTTLLSPDERTAMRQGVISQRTAWIREQAKYYLEAGVPIEIKVVWHNRPFEAIIQEVIAGSHDLVLKMAHQADRLEAVIFTPTDWHLLRKCPSPVWMVKDQPWPEGGKALVAVNLASEEPYHNALNEKLVKETLQLAEQVNHTEVHLVGAYPVTPINIAIELPEFDPSVYNDAIRGQHLLAMKALRQKFSIDEKVTHVEKGLPEEVIPDLAEHLQAGIVVLGTVGRTGLSAAFLGNTAEQVIDHLRCDLLVIKPDEYQTPVELD MAMYQNMLVVIDPNQDDQPALRRAVYLHQRIGGKIKAFLPIYDFSYEMTTLLSPDERTAMRQGVISQRTAWIREQAKYYLEAGVPIEIKVVWHNRPFEAIIQEVIAGSHDLVLKMAHQADRLEAVIFTPTDWHLLRKCPSPVWMVKDQPWPEGGKALVAVNLASEEPYHNALNEKLVKETLQLAEQVNHTEVHLVGAYPVTPINIAIELPEFDPSVYNDAIRGQHLLAMKALRQKFSIDEKVTHVEKGLPEEVIPDLAEHLQAGIVVLGTVGRTGLSAAFLGNTAEQVIDHLRCDLLVIKPDEYQTPVELD 4r2l-a1-m1-cB_4r2l-a1-m2-cB Crystal structure of YnaF (Universal Stress Protein F) from Salmonella typhimurium P67091 P67091 1.8 X-RAY DIFFRACTION 53 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 136 136 4r2l-a1-m1-cA_4r2l-a1-m2-cA 4r2m-a1-m1-cA_4r2m-a1-m2-cA 4r2m-a1-m1-cB_4r2m-a1-m2-cB NRTILVPIDISDSELTQRVISHVEAEAKIDDAKVHFLTVIPSLPYYASLGPAMDDLKAEAKSQLEAIIKKFNLPADRVQAHVAEGSPKDKILEMAKKLPADMVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR NRTILVPIDISDSELTQRVISHVEAEAKIDDAKVHFLTVIPSLPYYASLGPAMDDLKAEAKSQLEAIIKKFNLPADRVQAHVAEGSPKDKILEMAKKLPADMVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR 4r2l-a1-m2-cB_4r2l-a1-m2-cA Crystal structure of YnaF (Universal Stress Protein F) from Salmonella typhimurium P67091 P67091 1.8 X-RAY DIFFRACTION 42 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 136 142 4r2l-a1-m1-cB_4r2l-a1-m1-cA 4r2m-a1-m1-cA_4r2m-a1-m1-cB 4r2m-a1-m2-cA_4r2m-a1-m2-cB NRTILVPIDISDSELTQRVISHVEAEAKIDDAKVHFLTVIPSLPYYASLGPAMDDLKAEAKSQLEAIIKKFNLPADRVQAHVAEGSPKDKILEMAKKLPADMVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR NRTILVPIDISDSELTQRVISHVEAEAKIDDAKVHFLTVIPSLPYYASLGLASAELPAMDDLKAEAKSQLEAIIKKFNLPADRVQAHVAEGSPKDKILEMAKKLPADMVIIASHRPDITTYLLGSNAAAVVRHAECSVLVVR 4r2y-a6-m1-cC_4r2y-a6-m3-cC Crystal structure of APC11 RING domain Q9NYG5 Q9NYG5 1.755 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 4r2y-a5-m1-cA_4r2y-a5-m2-cA DENCGICRMAFNGCCPDCKVPGDDCPLVWGQCSHCFHMHCILKWLHAQQVQQHCPMCRQEWKFKE DENCGICRMAFNGCCPDCKVPGDDCPLVWGQCSHCFHMHCILKWLHAQQVQQHCPMCRQEWKFKE 4r2y-a6-m3-cD_4r2y-a6-m1-cC Crystal structure of APC11 RING domain Q9NYG5 Q9NYG5 1.755 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 65 4r2y-a5-m1-cB_4r2y-a5-m2-cA 4r2y-a5-m2-cB_4r2y-a5-m1-cA 4r2y-a6-m1-cD_4r2y-a6-m3-cC DENCGICRMAFNGCCPDCKDDCPLVWGQCSHCFHMHCILKWLHAQQVQQHCPMCRQEWKFKE DENCGICRMAFNGCCPDCKVPGDDCPLVWGQCSHCFHMHCILKWLHAQQVQQHCPMCRQEWKFKE 4r2y-a6-m3-cD_4r2y-a6-m3-cC Crystal structure of APC11 RING domain Q9NYG5 Q9NYG5 1.755 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 65 4r2y-a5-m1-cB_4r2y-a5-m1-cA 4r2y-a5-m2-cB_4r2y-a5-m2-cA 4r2y-a6-m1-cD_4r2y-a6-m1-cC DENCGICRMAFNGCCPDCKDDCPLVWGQCSHCFHMHCILKWLHAQQVQQHCPMCRQEWKFKE DENCGICRMAFNGCCPDCKVPGDDCPLVWGQCSHCFHMHCILKWLHAQQVQQHCPMCRQEWKFKE 4r31-a1-m1-cE_4r31-a1-m1-cC Crystal structure of a putative uridine phosphorylase from Actinobacillus succinogenes 130Z (Target NYSGRC-029667 ) A6VLF7 A6VLF7 2 X-RAY DIFFRACTION 144 1.0 339671 (Actinobacillus succinogenes 130Z) 339671 (Actinobacillus succinogenes 130Z) 245 247 4r31-a1-m1-cB_4r31-a1-m1-cF 4r31-a1-m1-cD_4r31-a1-m1-cA EVFHLGLTKALKGAKIAVIPGDPARSERIAQRDKPEFLASSREFTSWLGYLENEPVVVCSTGIGGPSVSICVEELAQLGVGTFLRIGTTGAIQPYINVGDVLVTTGAVRLDGASRHFAPLEYPAVADFSCTNALYSAAVAQGITPYVGITASSDTFYPGQERYDTFSGKVYPAYQGSLKQWQDLNVNYEESATLFTCAALGLKAGVAGVIVNRTQQEIPNEATIKSTEQKAVAVVIEAARRLISA SEVFHLGLTKALKGAKIAVIPGDPARSERIAQRDKPEFLASSREFTSWLGYLENEPVVVCSTGIGGPSVSICVEELAQLGVGTFLRIGTTGAIQPYINVGDVLVTTGAVRLDGASRHFAPLEYPAVADFSCTNALYSAAVAQGITPYVGITASSDTFYPGQERYDTFSGKVYPAYQGSLKQWQDLNVNYEESATLFTCAALGLKAGVAGVIVNRTQQEIPNEATIKSTEQKAVAVVIEAARRLISAG 4r31-a1-m1-cE_4r31-a1-m1-cF Crystal structure of a putative uridine phosphorylase from Actinobacillus succinogenes 130Z (Target NYSGRC-029667 ) A6VLF7 A6VLF7 2 X-RAY DIFFRACTION 72 1.0 339671 (Actinobacillus succinogenes 130Z) 339671 (Actinobacillus succinogenes 130Z) 245 247 4r31-a1-m1-cC_4r31-a1-m1-cA 4r31-a1-m1-cD_4r31-a1-m1-cB EVFHLGLTKALKGAKIAVIPGDPARSERIAQRDKPEFLASSREFTSWLGYLENEPVVVCSTGIGGPSVSICVEELAQLGVGTFLRIGTTGAIQPYINVGDVLVTTGAVRLDGASRHFAPLEYPAVADFSCTNALYSAAVAQGITPYVGITASSDTFYPGQERYDTFSGKVYPAYQGSLKQWQDLNVNYEESATLFTCAALGLKAGVAGVIVNRTQQEIPNEATIKSTEQKAVAVVIEAARRLISA SEVFHLGLTKALKGAKIAVIPGDPARSERIAQRDKPEFLASSREFTSWLGYLENEPVVVCSTGIGGPSVSICVEELAQLGVGTFLRIGTTGAIQPYINVGDVLVTTGAVRLDGASRHFAPLEYPAVADFSCTNALYSAAVAQGITPYVGITASSDTFYPGQERYDTFSGKVYPAYQGSLKQWQDLNVNYEESATLFTCAALGLKAGVAGVIVNRTQQEIPNEATIKSTEQKAVAVVIEAARRLISAG 4r38-a6-m1-cB_4r38-a6-m1-cD LOV domain from Erythrobacter litoralis EL346 blue-light activated histidine kinase Q2NB77 Q2NB77 1.6 X-RAY DIFFRACTION 31 1.0 314225 (Erythrobacter litoralis HTCC2594) 314225 (Erythrobacter litoralis HTCC2594) 107 108 4r38-a5-m1-cC_4r38-a5-m1-cA LPFSLTIADISQDDEPLIYVNRAFEQMTGYSRSSVVGRNCRFLQGEKTDPGAVERLAKAIRNCEEVEETIYNYRADGEGFWNHLLMGPLEDQDEKCRYFVGIQVDMG LPFSLTIADISQDDEPLIYVNRAFEQMTGYSRSSVVGRNCRFLQGEKTDPGAVERLAKAIRNCEEVEETIYNYRADGEGFWNHLLMGPLEDQDEKCRYFVGIQVDMGQ 4r3u-a2-m1-cB_4r3u-a2-m3-cB Crystal structure of 2-Hydroxyisobutyryl-CoA Mutase I3VE77 I3VE77 2.5 X-RAY DIFFRACTION 266 1.0 391953 (Aquincola tertiaricarbonis) 391953 (Aquincola tertiaricarbonis) 555 555 4r3u-a1-m1-cA_4r3u-a1-m2-cA TWLEPQIKSQLQSERKDWEANEVGAFLKKAPERKEQFHTIGDFPVQRTYTAADIADTPLEDIGLPGRYPFTRGPYPTMYRSRTWTMRQIAGFGTGEDTNKRFKYLIAQGQTGISTDFDMPTLMGYDSDHPMSDGEVGREGVAIDTLADMEALLADIDLEKISVSFTINPSAWILLAMYVALGEKRGYDLNKLSGTVQADILKEYMAQKEYIYPIAPSVRIVRDIITYSAKNLKRYNPINISGYHISEAGSSPLQEAAFTLANLITYVNEVTKTGMHVDEFAPRLAFFFVSQGDFFEEVAKFRALRRCYAKIMKERFGARNPESMRLRFHCQTAAATLTKPQYMVNVVRTSLQALSAVLGGAQSLHTNGYDEAFAIPTEDAMKMALRTQQIIAEESGVADVIDPLGGSYYVEALTTEYEKKIFEILEEVEKRGGTIKLIEQGWFQKQIADFAYETALRKQSGQKPVIGVNRFVENEVKIEIHPYDNTTAERQISRTRRVRAERDEAKVQAMLDQLVAVAKDESQNLMPLTIELVKAGATMGDIVEKLKGIWGTYRE TWLEPQIKSQLQSERKDWEANEVGAFLKKAPERKEQFHTIGDFPVQRTYTAADIADTPLEDIGLPGRYPFTRGPYPTMYRSRTWTMRQIAGFGTGEDTNKRFKYLIAQGQTGISTDFDMPTLMGYDSDHPMSDGEVGREGVAIDTLADMEALLADIDLEKISVSFTINPSAWILLAMYVALGEKRGYDLNKLSGTVQADILKEYMAQKEYIYPIAPSVRIVRDIITYSAKNLKRYNPINISGYHISEAGSSPLQEAAFTLANLITYVNEVTKTGMHVDEFAPRLAFFFVSQGDFFEEVAKFRALRRCYAKIMKERFGARNPESMRLRFHCQTAAATLTKPQYMVNVVRTSLQALSAVLGGAQSLHTNGYDEAFAIPTEDAMKMALRTQQIIAEESGVADVIDPLGGSYYVEALTTEYEKKIFEILEEVEKRGGTIKLIEQGWFQKQIADFAYETALRKQSGQKPVIGVNRFVENEVKIEIHPYDNTTAERQISRTRRVRAERDEAKVQAMLDQLVAVAKDESQNLMPLTIELVKAGATMGDIVEKLKGIWGTYRE 4r4e-a1-m1-cA_4r4e-a1-m1-cB Structure of GlnR-DNA complex P37582 P37582 2.57 X-RAY DIFFRACTION 41 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 83 84 MSDNIRRSMPLFPIGIVMQLTELSARQIRYYEENGLIFPARTEGNRRLFSFHDVDKLLEIKHLIEQGVNMAGIKQILAKAEAE MSDNIRRSMPLFPIGIVMQLTELSARQIRYYEENGLIFPARTEGNRRLFSFHDVDKLLEIKHLIEQGVNMAGIKQILAKAEAEP 4r4m-a2-m1-cC_4r4m-a2-m2-cC Crystal structure of C42L cGMP dependent protein kinase I alpha (PKGI alpha) leucine zipper Q13976 Q13976 1.922 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 49 49 1zxa-a1-m1-cA_1zxa-a1-m1-cB 4r4l-a1-m1-cA_4r4l-a1-m1-cB 4r4l-a2-m1-cC_4r4l-a2-m2-cC 4r4m-a1-m1-cA_4r4m-a1-m1-cB GSSELEEDFAKILMLKEERIKELEKRLSEKEEEIQELKRKLHKLQSVLP GSSELEEDFAKILMLKEERIKELEKRLSEKEEEIQELKRKLHKLQSVLP 4r5z-a2-m1-cC_4r5z-a2-m1-cD Crystal structure of Rv3772 encoded aminotransferase P9WML5 P9WML5 1.95 X-RAY DIFFRACTION 256 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 353 353 4r2n-a1-m1-cA_4r2n-a1-m1-cC 4r2n-a2-m1-cB_4r2n-a2-m1-cD 4r5z-a1-m1-cA_4r5z-a1-m1-cB VTARLRPELAGLPVYVPGKTVPGAIKLASNETVFGPLPSVRAAIDRATDTVNRYPDNGCVQLKAALARHLGPDFAPEHVAVGCGSVSLCQQLVQVTASVGDEVVFGWRSFELYPPQVRVAGAIPIQVPLTDHTFDLYAMLATVTDRTRLIFVCNPNNPTSTVVGPDALARFVEAVPAHILIAIDEAYVEYIRDGMRPDSLGLVRAHNNVVVLRTFSKAYGLAGLRIGYAIGHPDVITALDKVYVPFTVSSIGQAAAIASLDAADELLARTDTVVAERARVSAELRAAGFTLPPSQANFVWLPLGSRTQDFVEQAADARIVVRPYGTDGVRVTVAAPEENDAFLRFARRWRSDQ VTARLRPELAGLPVYVPGKTVPGAIKLASNETVFGPLPSVRAAIDRATDTVNRYPDNGCVQLKAALARHLGPDFAPEHVAVGCGSVSLCQQLVQVTASVGDEVVFGWRSFELYPPQVRVAGAIPIQVPLTDHTFDLYAMLATVTDRTRLIFVCNPNNPTSTVVGPDALARFVEAVPAHILIAIDEAYVEYIRDGMRPDSLGLVRAHNNVVVLRTFSKAYGLAGLRIGYAIGHPDVITALDKVYVPFTVSSIGQAAAIASLDAADELLARTDTVVAERARVSAELRAAGFTLPPSQANFVWLPLGSRTQDFVEQAADARIVVRPYGTDGVRVTVAAPEENDAFLRFARRWRSDQ 4r6i-a1-m1-cB_4r6i-a1-m1-cA AtxA protein, a virulence regulator from Bacillus anthracis. Q44636 Q44636 2.65 X-RAY DIFFRACTION 74 0.995 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 439 463 ALTPISIEKEHIRLINLLHFINEQNRWFTIKELSDYLQVADKTVRKYLKLLEDEIPPSWNLLVQKGKGIYLKKPLNESLSFVESKILRKSLNLQICEELVFKKNSQSLAQKLHLQVGALYPIINQINYDIQSSHLNIKKKPLEISGREQDVRVFLRLYCNIPNDYWPFPYINKQNITDLINKEKILNVQYTYSKHKLCVLFAITISRLLSGNTIDNVSGLILVNKNDDHYKTVASITSELQNSFGVTLHETEISFLALALLLSLGNSITNKTLTSYKKTIPLAKEITKGIEHKLQLGINYDESFLTYVVLIIKKALDKNFIQYYNYNIKFIRHIKQRHPNTFNTIQECISNLNYTVYSHFDCYEISLLTHFETQRLFKNNPKKIYVYTSQGCIHREYISALLEKRYNGLIKIVRNTIDEIDIIISNEFPTERDFHEIKK LTPISIEKEHIRLINLLHFINEQNRWFTIKELSDYLQVADKTVRKYLKLLEDEIPPSWNLLVQKGKGIYLKKPLNESLSFVESKILRKSLNLQICEELVFKKNSQSLAQKLHLQVGALYPIINQINYDIQSSHLNIKKKPLEISGREQDVRVFLRLYCNIPNDYWPFPYINKQNITDLINKEKILNVQYTYSKHKLCVLFAITISRLLSGNTIDNVSGLILVNKNDDHYKTVASITSELQNSFGVTLHETEISFLALALLLSLGNSISNKTLTSYKKTIPLAKEITKGIEHKLQLGINYDESFLTYVVLIIKKALDKNFIQYYNYNIKFIRHIKQRHPNTFNTIQECISNLNYTVYSHFDCYEISLLTHFETQRLFKNNPKKIYVYTSQGCIHREYISALLEKRYNGLIKIVRNTIINLTNESLQDEIDIIISNVNLPIKNIPIVQISEFPTERDFHEIKKII 4r70-a2-m1-cB_4r70-a2-m2-cB Crystal structure of bacteriophytochrome RpBphP3 from photosynthetic bacterium R. palustris Q6N5G2 Q6N5G2 2.85 X-RAY DIFFRACTION 64 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 486 486 4r70-a2-m1-cA_4r70-a2-m2-cA LTECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGGDPAAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEIVRHSVRMRAIQNRLLHELGDEQGLTAGLSRVSEEMLALMGASGFALCSFDGVAAFGRTPSDDEIQALASWLSHRESRGIFQTQQLSASFPEAEVYSDIASGLLAVPLGRASTTLMLWFRPEVAQTVTWGGDPHKPVRLQTRASFEAWREEVRDRSRPWRSHEIVAAEEIRDLVVDVILGRA LTECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGGDPAAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEIVRHSVRMRAIQNRLLHELGDEQGLTAGLSRVSEEMLALMGASGFALCSFDGVAAFGRTPSDDEIQALASWLSHRESRGIFQTQQLSASFPEAEVYSDIASGLLAVPLGRASTTLMLWFRPEVAQTVTWGGDPHKPVRLQTRASFEAWREEVRDRSRPWRSHEIVAAEEIRDLVVDVILGRA 4r70-a2-m2-cB_4r70-a2-m1-cA Crystal structure of bacteriophytochrome RpBphP3 from photosynthetic bacterium R. palustris Q6N5G2 Q6N5G2 2.85 X-RAY DIFFRACTION 58 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 486 498 4r70-a2-m1-cB_4r70-a2-m2-cA LTECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGGDPAAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEIVRHSVRMRAIQNRLLHELGDEQGLTAGLSRVSEEMLALMGASGFALCSFDGVAAFGRTPSDDEIQALASWLSHRESRGIFQTQQLSASFPEAEVYSDIASGLLAVPLGRASTTLMLWFRPEVAQTVTWGGDPHKPVRLQTRASFEAWREEVRDRSRPWRSHEIVAAEEIRDLVVDVILGRA LTECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGGDPAAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRDESRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEIVRHSVRMRAIQNRLLHELGDEQGLTAGLSRVSEEMLALMGASGFALCSFDGVAAFGRTPSDDEIQALASWLSHRESRGIFQTQQLSASFPEAEVYSDIASGLLAVPLGRASTTLMLWFRPEVAQTVTWGGDPHKPVQIGPRGRRLQTRASFEAWREEVRDRSRPWRSHEIVAAEEIRDLVVDVILGRAL 4r70-a2-m2-cB_4r70-a2-m2-cA Crystal structure of bacteriophytochrome RpBphP3 from photosynthetic bacterium R. palustris Q6N5G2 Q6N5G2 2.85 X-RAY DIFFRACTION 114 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 486 498 4r70-a1-m1-cB_4r70-a1-m1-cA 4r70-a2-m1-cB_4r70-a2-m1-cA LTECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGGDPAAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEIVRHSVRMRAIQNRLLHELGDEQGLTAGLSRVSEEMLALMGASGFALCSFDGVAAFGRTPSDDEIQALASWLSHRESRGIFQTQQLSASFPEAEVYSDIASGLLAVPLGRASTTLMLWFRPEVAQTVTWGGDPHKPVRLQTRASFEAWREEVRDRSRPWRSHEIVAAEEIRDLVVDVILGRA LTECDREPIHIPGAIQPHGYLFVVSETDLRIASVSANVEDLLRQPPASLLNVPIAHYLTAASAARLTHALHGGDPAAINPIRLDVVTPDGERAFNGILHRHDSIVILELEPRDESRYTNEFFRSVRVAIRRLQTAADLPTACWIAASEVRRITGFDRIKVYQFAADWSGQVIAEDRDSGIPSLLDFHFPSSDIPAQSRALYTINPVRIIPDIGYRPSPLVPDINPRLGGPIDLSFSVLRSVSPTHLEYMVNMGMHAAMSISIVRDNRLWGMISCHNLTPRFVSYEVRQACELIAQVLTWQIGVLEEAEIVRHSVRMRAIQNRLLHELGDEQGLTAGLSRVSEEMLALMGASGFALCSFDGVAAFGRTPSDDEIQALASWLSHRESRGIFQTQQLSASFPEAEVYSDIASGLLAVPLGRASTTLMLWFRPEVAQTVTWGGDPHKPVQIGPRGRRLQTRASFEAWREEVRDRSRPWRSHEIVAAEEIRDLVVDVILGRAL 4r77-a1-m1-cB_4r77-a1-m1-cA Crystal structure of choline kinase LicA from Streptococcus pneumoniae Q8DPI4 Q8DPI4 1.94 X-RAY DIFFRACTION 35 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 280 281 4r7b-a1-m1-cB_4r7b-a1-m1-cA SHMEKIIKEKISSLLVLSVEQLGGMTNQNYLAKTTNKQYIVKFFGKGTEKLINRQDEKYNLELLKDLGLDVKNYLFDIEAGIKVNEYIESAITLDSTSIKTKFDKIAPILQTIHTSAKELRGEFAPFEEIKKYESLIEEQIPYANYESVRNAVFSLEKRLADLGVDRKSCHIDLVPENFIESPQGRLYLIDWEYSSMNDPMWDLAALFLESEFTSQEEETFLSHYESDQTPVSHEKIAIYKILQDTIWSLWTVYKEEQGEDFGDYGVNRYQRAVKGLASY SHMEKIIKEKISSLLEVLSVEQLGGMTNQNYLAKTTNKQYIVKFFGKGTEKLINRQDEKYNLELLKDLGLDVKNYLFDIEAGIKVNEYIESAITLDSTSIKTKFDKIAPILQTIHTSAKELRGEFAPFEEIKKYESLIEEQIPYANYESVRNAVFSLEKRLADLGVDRKSCHIDLVPENFIESPQGRLYLIDWEYSSMNDPMWDLAALFLESEFTSQEEETFLSHYESDQTPVSHEKIAIYKILQDTIWSLWTVYKEEQGEDFGDYGVNRYQRAVKGLASY 4r7e-a1-m1-cA_4r7e-a1-m2-cA Structure of Bre1 RING domain Q07457 Q07457 2.251 X-RAY DIFFRACTION 56 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 69 69 DEALVEELANFRTLVYCSLCSKNWKNMAIKTCGHVFCENCCKERLAARMRKCPTCNKAFSSNDLLTVHL DEALVEELANFRTLVYCSLCSKNWKNMAIKTCGHVFCENCCKERLAARMRKCPTCNKAFSSNDLLTVHL 4r7f-a1-m1-cA_4r7f-a1-m2-cA Crystal structure of a hypothetical protein (PARMER_01801) from Parabacteroides merdae ATCC 43184 at 2.30 A resolution A7AEG3 A7AEG3 2.3 X-RAY DIFFRACTION 61 1.0 411477 (Parabacteroides merdae ATCC 43184) 411477 (Parabacteroides merdae ATCC 43184) 390 390 QVKFFTDVNSKQIKTLQVKVAGELISEPYIALGGEEQIEINFDGLGSGYTRYAYNVVHCNADWTQSQLSPIEYNGFQGTTIDDFANSIGTTTQYSNYRLLLPNDDVQFKVSGNYAIQVYNEDTPDQIIFTACFSVVEPVVNISASVSGNTDIDTNQSHQQVSFNINNKNFPITYPQTDLKIFVYQDNRRDNAVTDLQPSILENQISYTYNRNLIFPAGNEYRREFLSNKYNGHVENISFHNPYYNVELTDYRRDKGTYQYDQDQDGRFFIRCSDCNDPDTEADYYIVHFTLACDPLPDGSVYLNGELFNNVLDEKSKGYNFETKQYEKAVLLKQGSYNYQYLFVPTGSSVGQTGPIEGNYYQTQNEYSIYVYYRPGARYDRLIGVTTVRN QVKFFTDVNSKQIKTLQVKVAGELISEPYIALGGEEQIEINFDGLGSGYTRYAYNVVHCNADWTQSQLSPIEYNGFQGTTIDDFANSIGTTTQYSNYRLLLPNDDVQFKVSGNYAIQVYNEDTPDQIIFTACFSVVEPVVNISASVSGNTDIDTNQSHQQVSFNINNKNFPITYPQTDLKIFVYQDNRRDNAVTDLQPSILENQISYTYNRNLIFPAGNEYRREFLSNKYNGHVENISFHNPYYNVELTDYRRDKGTYQYDQDQDGRFFIRCSDCNDPDTEADYYIVHFTLACDPLPDGSVYLNGELFNNVLDEKSKGYNFETKQYEKAVLLKQGSYNYQYLFVPTGSSVGQTGPIEGNYYQTQNEYSIYVYYRPGARYDRLIGVTTVRN 4r7k-a1-m1-cA_4r7k-a1-m1-cD 1.88 Angstrom Resolution Crystal Structure of Hypothetical Protein jhp0584 from Helicobacter pylori. Q9ZLJ5 Q9ZLJ5 1.88 X-RAY DIFFRACTION 60 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 163 163 4r7k-a1-m1-cB_4r7k-a1-m1-cC ATTNAIRWPKKWIPGETDNFVSNEVIVKGLDFNKVVQHLRDASHWEKYYKNSGNIHYHQDNTILKDKTRFFETFGFLVEAEVEEFELKDAILRLAWRGWNEAKGDEYLEVYHAWLVEKLDNDRVRILTQESQSGVPAKALAKSVPNALNGHQAWLDGLVAYSR ATTNAIRWPKKWIPGETDNFVSNEVIVKGLDFNKVVQHLRDASHWEKYYKNSGNIHYHQDNTILKDKTRFFETFGFLVEAEVEEFELKDAILRLAWRGWNEAKGDEYLEVYHAWLVEKLDNDRVRILTQESQSGVPAKALAKSVPNALNGHQAWLDGLVAYSR 4r7k-a1-m1-cC_4r7k-a1-m1-cD 1.88 Angstrom Resolution Crystal Structure of Hypothetical Protein jhp0584 from Helicobacter pylori. Q9ZLJ5 Q9ZLJ5 1.88 X-RAY DIFFRACTION 35 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 163 163 4r7k-a1-m1-cA_4r7k-a1-m1-cB ATTNAIRWPKKWIPGETDNFVSNEVIVKGLDFNKVVQHLRDASHWEKYYKNSGNIHYHQDNTILKDKTRFFETFGFLVEAEVEEFELKDAILRLAWRGWNEAKGDEYLEVYHAWLVEKLDNDRVRILTQESQSGVPAKALAKSVPNALNGHQAWLDGLVAYSR ATTNAIRWPKKWIPGETDNFVSNEVIVKGLDFNKVVQHLRDASHWEKYYKNSGNIHYHQDNTILKDKTRFFETFGFLVEAEVEEFELKDAILRLAWRGWNEAKGDEYLEVYHAWLVEKLDNDRVRILTQESQSGVPAKALAKSVPNALNGHQAWLDGLVAYSR 4r7u-a1-m1-cA_4r7u-a1-m1-cD Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase from Vibrio cholerae in complex with substrate UDP-N-acetylglucosamine and the drug fosfomycin Q9KP62 Q9KP62 2.45 X-RAY DIFFRACTION 54 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 418 418 4r7u-a1-m1-cB_4r7u-a1-m1-cC MEKFRVIGSTQPLQGEVTISGAKNAALPILFASILAEEPVEVANVPHLRDIDTTMELLERLGAKVERNGSVHVDAGPINQYCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHIHGLEQLGATITLEDGYVKAHVDGRLQGAHIVMDKVSVGATITIMCAATLAEGTTVLDNAAREPEIVDTAMFLNKLGAKISGAGTDSITIEGVERLGGGKHAVVPDRIETGTFLVAAAVSRGKIVCRNTHAHLLEAVLAKLEEAGAEIECGEDWISLDMTGRELKAVTVRTAPHPGFPTDMQAQFTLLNMMAKGGGVITETIFENRFMHVPELKRMGAKAEIEGNTVICGDVDRLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYERIEDKLSALGANIERFR MEKFRVIGSTQPLQGEVTISGAKNAALPILFASILAEEPVEVANVPHLRDIDTTMELLERLGAKVERNGSVHVDAGPINQYCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHIHGLEQLGATITLEDGYVKAHVDGRLQGAHIVMDKVSVGATITIMCAATLAEGTTVLDNAAREPEIVDTAMFLNKLGAKISGAGTDSITIEGVERLGGGKHAVVPDRIETGTFLVAAAVSRGKIVCRNTHAHLLEAVLAKLEEAGAEIECGEDWISLDMTGRELKAVTVRTAPHPGFPTDMQAQFTLLNMMAKGGGVITETIFENRFMHVPELKRMGAKAEIEGNTVICGDVDRLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYERIEDKLSALGANIERFR 4r7u-a1-m1-cB_4r7u-a1-m1-cD Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase from Vibrio cholerae in complex with substrate UDP-N-acetylglucosamine and the drug fosfomycin Q9KP62 Q9KP62 2.45 X-RAY DIFFRACTION 23 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 418 418 4r7u-a1-m1-cA_4r7u-a1-m1-cC MEKFRVIGSTQPLQGEVTISGAKNAALPILFASILAEEPVEVANVPHLRDIDTTMELLERLGAKVERNGSVHVDAGPINQYCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHIHGLEQLGATITLEDGYVKAHVDGRLQGAHIVMDKVSVGATITIMCAATLAEGTTVLDNAAREPEIVDTAMFLNKLGAKISGAGTDSITIEGVERLGGGKHAVVPDRIETGTFLVAAAVSRGKIVCRNTHAHLLEAVLAKLEEAGAEIECGEDWISLDMTGRELKAVTVRTAPHPGFPTDMQAQFTLLNMMAKGGGVITETIFENRFMHVPELKRMGAKAEIEGNTVICGDVDRLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYERIEDKLSALGANIERFR MEKFRVIGSTQPLQGEVTISGAKNAALPILFASILAEEPVEVANVPHLRDIDTTMELLERLGAKVERNGSVHVDAGPINQYCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHIHGLEQLGATITLEDGYVKAHVDGRLQGAHIVMDKVSVGATITIMCAATLAEGTTVLDNAAREPEIVDTAMFLNKLGAKISGAGTDSITIEGVERLGGGKHAVVPDRIETGTFLVAAAVSRGKIVCRNTHAHLLEAVLAKLEEAGAEIECGEDWISLDMTGRELKAVTVRTAPHPGFPTDMQAQFTLLNMMAKGGGVITETIFENRFMHVPELKRMGAKAEIEGNTVICGDVDRLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYERIEDKLSALGANIERFR 4r7u-a1-m1-cD_4r7u-a1-m1-cC Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase from Vibrio cholerae in complex with substrate UDP-N-acetylglucosamine and the drug fosfomycin Q9KP62 Q9KP62 2.45 X-RAY DIFFRACTION 85 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 418 419 4r7u-a1-m1-cA_4r7u-a1-m1-cB MEKFRVIGSTQPLQGEVTISGAKNAALPILFASILAEEPVEVANVPHLRDIDTTMELLERLGAKVERNGSVHVDAGPINQYCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHIHGLEQLGATITLEDGYVKAHVDGRLQGAHIVMDKVSVGATITIMCAATLAEGTTVLDNAAREPEIVDTAMFLNKLGAKISGAGTDSITIEGVERLGGGKHAVVPDRIETGTFLVAAAVSRGKIVCRNTHAHLLEAVLAKLEEAGAEIECGEDWISLDMTGRELKAVTVRTAPHPGFPTDMQAQFTLLNMMAKGGGVITETIFENRFMHVPELKRMGAKAEIEGNTVICGDVDRLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYERIEDKLSALGANIERFR MEKFRVIGSTQPLQGEVTISGAKNAALPILFASILAEEPVEVANVPHLRDIDTTMELLERLGAKVERNGSVHVDAGPINQYCAPYDLVKTMRASIWALGPLVARFGQGQVSLPGGCAIGARPVDLHIHGLEQLGATITLEDGYVKAHVDGRLQGAHIVMDKVSVGATITIMCAATLAEGTTVLDNAAREPEIVDTAMFLNKLGAKISGAGTDSITIEGVERLGGGKHAVVPDRIETGTFLVAAAVSRGKIVCRNTHAHLLEAVLAKLEEAGAEIECGEDWISLDMTGRELKAVTVRTAPHPGFPTDMQAQFTLLNMMAKGGGVITETIFENRFMHVPELKRMGAKAEIEGNTVICGDVDRLSGAQVMATDLRASASLVIAGCIAKGETIVDRIYHIDRGYERIEDKLSALGANIERFRD 4r7y-a1-m3-cA_4r7y-a1-m3-cB Crystal structure of an active MCM hexamer Q8U3I4 Q8U3I4 2.7 X-RAY DIFFRACTION 148 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 591 591 4r7y-a1-m1-cA_4r7y-a1-m1-cB 4r7y-a1-m1-cA_4r7y-a1-m2-cB 4r7y-a1-m1-cB_4r7y-a1-m3-cA 4r7y-a1-m2-cA_4r7y-a1-m2-cB 4r7y-a1-m2-cA_4r7y-a1-m3-cB QIDYRDVFIEFLTTFKGNNNQNKYIERINELVAYRKKSLIIEFSDVLSFNENLAYEIINNTKIILPILEGALYDHILQLDPTYQRDIEKVHVRIVGIPRVIELRKIRSTDIGKLITIDGILVKVTPVKERIYKATYKHIHPDCMQEFEWPEDEEMPEVLEMPTICPKCGKPGQFRLIPEKTKLIDWQKAVIQERPEEVPSGQLPRQLEIILEDDLVDSARPGDRVKVTGILDIKQDSPVKRGSRAVFDIYMKVSSIEVSQKVLQELEISPEEEQIIKELAKRKDIVDAIVDSIAPAIYGYKEVKKGIALALFGGVSRKLPDGTRLRGDIHVLLVGDPGVAKSQILRYVANLAPRAIYTSGKSSSAAGLTAAAVRDEFTGGWVLEAGALVLADGGYALIDELDKMSDRDRSVIHEALEQQTISISKAGITATLNARTTVIAAANPKQGRFNRMKNPFEQIDLPPTLLSRFDLIFVLIDEPDDKIDSEVARHILRVRRGESEVVAPKIPHEILRKYIAYARKNIHPVISEEAMEEIEKYYVRMRKSPITARQLEALIRLSEAHARMRLSPIVTREDAREAIKLMEYTLKQIAM QIDYRDVFIEFLTTFKGNNNQNKYIERINELVAYRKKSLIIEFSDVLSFNENLAYEIINNTKIILPILEGALYDHILQLDPTYQRDIEKVHVRIVGIPRVIELRKIRSTDIGKLITIDGILVKVTPVKERIYKATYKHIHPDCMQEFEWPEDEEMPEVLEMPTICPKCGKPGQFRLIPEKTKLIDWQKAVIQERPEEVPSGQLPRQLEIILEDDLVDSARPGDRVKVTGILDIKQDSPVKRGSRAVFDIYMKVSSIEVSQKVLQELEISPEEEQIIKELAKRKDIVDAIVDSIAPAIYGYKEVKKGIALALFGGVSRKLPDGTRLRGDIHVLLVGDPGVAKSQILRYVANLAPRAIYTSGKSSSAAGLTAAAVRDEFTGGWVLEAGALVLADGGYALIDELDKMSDRDRSVIHEALEQQTISISKAGITATLNARTTVIAAANPKQGRFNRMKNPFEQIDLPPTLLSRFDLIFVLIDEPDDKIDSEVARHILRVRRGESEVVAPKIPHEILRKYIAYARKNIHPVISEEAMEEIEKYYVRMRKSPITARQLEALIRLSEAHARMRLSPIVTREDAREAIKLMEYTLKQIAM 4r81-a3-m1-cA_4r81-a3-m2-cD NAD(P)H:quinone oxidoreductase from Methanothermobacter marburgensis D9PVS9 D9PVS9 1.5 X-RAY DIFFRACTION 70 1.0 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 199 199 ASMHVYILFAHPSRKSFSREVLEAFTEGLSEAGHTYEVGDLYRMNFRSELSQEEYLREISQEAGSPLPEDVMEEHERIGRADALAFIYPLWWSDCPAKLKGWFDRVWTYGYAYFGTRIDIEKAVVLCSAGHTEEDLEGTGIAESMRSVMLGDRLLGVGVKNVTMEILGGMVPGDDSCREINLMRARRAGRNLEHHHHHH ASMHVYILFAHPSRKSFSREVLEAFTEGLSEAGHTYEVGDLYRMNFRSELSQEEYLREISQEAGSPLPEDVMEEHERIGRADALAFIYPLWWSDCPAKLKGWFDRVWTYGYAYFGTRIDIEKAVVLCSAGHTEEDLEGTGIAESMRSVMLGDRLLGVGVKNVTMEILGGMVPGDDSCREINLMRARRAGRNLEHHHHHH 4r81-a3-m1-cB_4r81-a3-m2-cD NAD(P)H:quinone oxidoreductase from Methanothermobacter marburgensis D9PVS9 D9PVS9 1.5 X-RAY DIFFRACTION 13 0.99 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 199 199 4r81-a3-m2-cC_4r81-a3-m1-cA ASMHVYILFAHPSRKSFSREVLEAFTEGLSEAGHTYEVGDLYRMNFRSELSQEEYLREISQEAGSPLPEDVMEEHERIGRADALAFIYPLWWSDCPAKLKGWFDRVWTYGYAYFYRGTRIDIEKAVVLCSAGHTEEDLEGTGIAESMRSVMLGDRLLGVGVKNVTMEILGGMVPGDDSCREINLMRARRAGRNLEHHHH ASMHVYILFAHPSRKSFSREVLEAFTEGLSEAGHTYEVGDLYRMNFRSELSQEEYLREISQEAGSPLPEDVMEEHERIGRADALAFIYPLWWSDCPAKLKGWFDRVWTYGYAYFGTRIDIEKAVVLCSAGHTEEDLEGTGIAESMRSVMLGDRLLGVGVKNVTMEILGGMVPGDDSCREINLMRARRAGRNLEHHHHHH 4r81-a3-m2-cC_4r81-a3-m2-cD NAD(P)H:quinone oxidoreductase from Methanothermobacter marburgensis D9PVS9 D9PVS9 1.5 X-RAY DIFFRACTION 121 0.98 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 197 199 4r81-a1-m1-cA_4r81-a1-m1-cB 4r81-a2-m1-cC_4r81-a2-m1-cD 4r81-a3-m1-cA_4r81-a3-m1-cB ASMHVYILFAHPSRKSFSREVLEAFTEGLSEAGHTYEVGDLYRMNFRSELSQEEYLREISQEAGSPLPEDVMEEHERIGRADALAFIYPLWWSDCPAKLKGWFDRVWTYGYAYFYEERGTRIDIEKAVVLCSAGHTEEDLEGTGIAESMRSVMLGDRLLGVGVKNVTMEILGGMVPGDDSCREINLMRARRAGRNLE ASMHVYILFAHPSRKSFSREVLEAFTEGLSEAGHTYEVGDLYRMNFRSELSQEEYLREISQEAGSPLPEDVMEEHERIGRADALAFIYPLWWSDCPAKLKGWFDRVWTYGYAYFGTRIDIEKAVVLCSAGHTEEDLEGTGIAESMRSVMLGDRLLGVGVKNVTMEILGGMVPGDDSCREINLMRARRAGRNLEHHHHHH 4r8d-a1-m1-cB_4r8d-a1-m1-cA Crystal structure of Rv1600 encoded aminotransferase in complex with PLP-MES from Mycobacterium tuberculosis P9WML7 P9WML7 2.05 X-RAY DIFFRACTION 269 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 365 369 PVTLDDLPLRADLRGKAPYGAPQLAVPVRLNTNENPHPPTRALVDDVVRSVREAAIDLHRYPDRDAVALRADLAGYLTAQTGIQLGVENIWAANGSNEILQQLLQAFGGPGRSAIGFVPSYSMHPIISDGTHTEWIEASRANDFGLDVDVAVAAVVDRKPDVVFIASPNNPSGQSVSLPDLCKLLDVAPGIAIVDEAYGEFSSQPSAVSLVEEYPSKLVVTRTMSKAFAFAGGRLGYLIATPAVIDAMLLVRLPYHLSSVTQAAARAALRHSDDTLSSVAALIAERERVTTSLNDMGFRVIPSDANFVLFGEFADAPAAWRRYLEAGILIRDVGIPGYLRATTGLAEENDAFLRASARIATDLVP GHPVTLDDLPLRADLRGKAPYGAPQLAVPVRLNTNENPHPPTRALVDDVVRSVREAAIDLHRYPDRDAVALRADLAGYLTAQTGIQLGVENIWAANGSNEILQQLLQAFGGPGRSAIGFVPSYSMHPIISDGTHTEWIEASRANDFGLDVDVAVAAVVDRKPDVVFIASPNNPSGQSVSLPDLCKLLDVAPGIAIVDEAYGEFSSQPSAVSLVEEYPSKLVVTRTMSKAFAFAGGRLGYLIATPAVIDAMLLVRLPYHLSSVTQAAARAALRHSDDTLSSVAALIAERERVTTSLNDMGFRVIPSDANFVLFGEFADAPAAWRRYLEAGILIRDVGIPGYLRATTGLAEENDAFLRASARIATDLVPVT 4r8e-a1-m1-cA_4r8e-a1-m1-cB Crystal structure of beta-ketoacyl-ACP synthase II (FabF) from Yersinia pestis A0A3N4B474 A0A3N4B474 2.7 X-RAY DIFFRACTION 283 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 411 411 KRRVVVTGLGMLSPVGNTVESTWKAVLAGQSGISLIDHFDTSAYATRFAGLVKDFNCEDYISRKDARKMDAFIQYGVAAGMQAMQDAGLDITEANASRIGAAIGSGIGGLGLIEENHTALVNGGPRKISPFFVPSTIVNMIAGHLTIMYGLRGPSISIATACTSGVHNIGHAARIIAYNDADVMVAGGAEKASTPLGVGGFGAARALSTRNDNPQAASRPWDKDRDGFVLGDGAGMMVLEEYEHAKKRGAKIYAEVVGFGMSSDAYHMTSPPEDGSGAALAMVNALRDAGITTSQIGYINAHGTSTPAGDKAETQAVKSVFGEDAYKVMVSSTKSMTGHLLGAAGAVESIFTVLALRDQAIPATINLDNPDEGCDLDYVPHDARQVKDMEYTLCNSFGFGGTNGSLVFRKV KRRVVVTGLGMLSPVGNTVESTWKAVLAGQSGISLIDHFDTSAYATRFAGLVKDFNCEDYISRKDARKMDAFIQYGVAAGMQAMQDAGLDITEANASRIGAAIGSGIGGLGLIEENHTALVNGGPRKISPFFVPSTIVNMIAGHLTIMYGLRGPSISIATACTSGVHNIGHAARIIAYNDADVMVAGGAEKASTPLGVGGFGAARALSTRNDNPQAASRPWDKDRDGFVLGDGAGMMVLEEYEHAKKRGAKIYAEVVGFGMSSDAYHMTSPPEDGSGAALAMVNALRDAGITTSQIGYINAHGTSTPAGDKAETQAVKSVFGEDAYKVMVSSTKSMTGHLLGAAGAVESIFTVLALRDQAIPATINLDNPDEGCDLDYVPHDARQVKDMEYTLCNSFGFGGTNGSLVFRKV 4r8g-a1-m1-cB_4r8g-a1-m1-cH Crystal Structure of Myosin-1c tail in complex with Calmodulin P0DP33 P0DP33 3.503 X-RAY DIFFRACTION 15 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 136 144 QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADQVNYEEFVQMMT ADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIGQVNYEEFVQMMTA 4r8o-a3-m1-cA_4r8o-a3-m1-cB Crystal structure of a DUF3836 family protein (BVU_1206) from Bacteroides vulgatus ATCC 8482 at 2.50 A resolution A6KZN2 A6KZN2 2.5 X-RAY DIFFRACTION 18 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 92 92 DNLIYNAEEVNGVVVSETIFKEGTLTNYKHNYKYDANNQRTEDEAQKWNSNKNRWENNLCIRYTYGNKSTTEYYKWNSKKKEYILVPETVTD DNLIYNAEEVNGVVVSETIFKEGTLTNYKHNYKYDANNQRTEDEAQKWNSNKNRWENNLCIRYTYGNKSTTEYYKWNSKKKEYILVPETVTD 4r8z-a1-m1-cB_4r8z-a1-m1-cA Crystal Structure of PA4781 HD-GYP domain from Pseudomonas aeruginosa at 2.2A resolution showing a bi-metallic Ni ion center Q9HV27 Q9HV27 2.2 X-RAY DIFFRACTION 98 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 217 218 RTRQLQQLQDAVIEALATLGDLRDNPRSRHLPRIERYVRLLAEHLAAQRAFADELTPEAVDLLSKSALLHDIGKVAVPDRVLLNPGQLDAADTALLQGHTRAGRDALASAERRLGQPSGFLRFARQIAYSHHERWDGRGFPEGLAGERIPLAARIVALADRYDELTSRHAYRPPLAHAEAVLLIQAGAGSEFDPRLVEAFVAVADAFAEVARRYADS RTRQLQQLQDAVIEALATLGDLRDNPRSRHLPRIERYVRLLAEHLAAQRAFADELTPEAVDLLSKSALLHDIGKVAVPDRVLLNPGQLDAADTALLQGHTRAGRDALASAERRLGQPSGFLRFARQIAYSHHERWDGRGFPEGLAGERIPLAARIVALADRYDELTSRHAYRPPLAHAEAVLLIQAGAGSEFDPRLVEAFVAVADAFAEVARRYADSA 4r9g-a3-m1-cA_4r9g-a3-m1-cB CpMnBP1 with Mannotriose Bound L0E2M2 L0E2M2 2.2 X-RAY DIFFRACTION 52 1.0 44256 (Caldanaerobius polysaccharolyticus) 44256 (Caldanaerobius polysaccharolyticus) 394 394 QVVLTLWYPWAGPDGDAVVSLAKEYSKTHPNVQIKAQMVSGAGIAAKFLSAVAAGNPPDLVLYWGQDALPGLADQGAIIPLDDYLKDVDTSKFFEAAYNAMKYKGKIYGLPEMVNVRVLFWNKDLFKQAGLDPNTPPKTIAELDQMAAKLTKTKNGTIEQMGFIPWIGQGVPHVMAGVFGTSLVDSNGNPILSPDKNPQLLNLLKWEVSYSDKYGAMNINKFIAGMSQNSSQANDPFVLGKVAMMISGEWQINANKQYNPKLNFGVGPIPQAPGGKPMPSLMDGNTWMIPKGSKHPQEAMDFIKWTMDPQRIADTADKVYNIAPIVEAAKIQKLNNDPYFKEVLNVAQKGSIYYTPAAKGMLSTETAANNAFQAAQYKKSTPEQALKNAQAEAE QVVLTLWYPWAGPDGDAVVSLAKEYSKTHPNVQIKAQMVSGAGIAAKFLSAVAAGNPPDLVLYWGQDALPGLADQGAIIPLDDYLKDVDTSKFFEAAYNAMKYKGKIYGLPEMVNVRVLFWNKDLFKQAGLDPNTPPKTIAELDQMAAKLTKTKNGTIEQMGFIPWIGQGVPHVMAGVFGTSLVDSNGNPILSPDKNPQLLNLLKWEVSYSDKYGAMNINKFIAGMSQNSSQANDPFVLGKVAMMISGEWQINANKQYNPKLNFGVGPIPQAPGGKPMPSLMDGNTWMIPKGSKHPQEAMDFIKWTMDPQRIADTADKVYNIAPIVEAAKIQKLNNDPYFKEVLNVAQKGSIYYTPAAKGMLSTETAANNAFQAAQYKKSTPEQALKNAQAEAE 4r9m-a1-m1-cB_4r9m-a1-m4-cB Crystal structure of spermidine N-acetyltransferase from Escherichia coli P0A951 P0A951 2.9 X-RAY DIFFRACTION 15 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 163 163 3wr7-a1-m1-cA_3wr7-a1-m3-cD 3wr7-a1-m1-cB_3wr7-a1-m2-cC 3wr7-a1-m1-cC_3wr7-a1-m3-cB 3wr7-a1-m1-cD_3wr7-a1-m2-cA 3wr7-a1-m2-cB_3wr7-a1-m3-cC 3wr7-a1-m2-cD_3wr7-a1-m3-cA 4r9m-a1-m1-cC_4r9m-a1-m3-cA 4r9m-a1-m2-cB_4r9m-a1-m3-cB 4r9m-a1-m2-cC_4r9m-a1-m4-cA 4r9m-a1-m3-cC_4r9m-a1-m1-cA 4r9m-a1-m4-cC_4r9m-a1-m2-cA 6cy6-a1-m11-cA_6cy6-a1-m3-cA 6cy6-a1-m12-cA_6cy6-a1-m2-cA 6cy6-a1-m1-cA_6cy6-a1-m10-cA 6cy6-a1-m4-cA_6cy6-a1-m7-cA 6cy6-a1-m5-cA_6cy6-a1-m9-cA 6cy6-a1-m6-cA_6cy6-a1-m8-cA HSVKLRPLEREDLRYVHQLVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAE HSVKLRPLEREDLRYVHQLVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAE 4r9m-a1-m1-cB_4r9m-a1-m4-cC Crystal structure of spermidine N-acetyltransferase from Escherichia coli P0A951 P0A951 2.9 X-RAY DIFFRACTION 55 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 163 164 3wr7-a1-m1-cA_3wr7-a1-m1-cB 3wr7-a1-m1-cC_3wr7-a1-m1-cD 3wr7-a1-m2-cA_3wr7-a1-m2-cB 3wr7-a1-m2-cC_3wr7-a1-m2-cD 3wr7-a1-m3-cA_3wr7-a1-m3-cB 3wr7-a1-m3-cC_3wr7-a1-m3-cD 4r9m-a1-m1-cA_4r9m-a1-m3-cA 4r9m-a1-m2-cA_4r9m-a1-m4-cA 4r9m-a1-m2-cB_4r9m-a1-m3-cC 4r9m-a1-m3-cB_4r9m-a1-m2-cC 4r9m-a1-m4-cB_4r9m-a1-m1-cC 6cy6-a1-m10-cA_6cy6-a1-m6-cA 6cy6-a1-m11-cA_6cy6-a1-m5-cA 6cy6-a1-m12-cA_6cy6-a1-m4-cA 6cy6-a1-m1-cA_6cy6-a1-m9-cA 6cy6-a1-m2-cA_6cy6-a1-m8-cA 6cy6-a1-m3-cA_6cy6-a1-m7-cA HSVKLRPLEREDLRYVHQLVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAE HSVKLRPLEREDLRYVHQLDVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAE 4r9o-a1-m1-cC_4r9o-a1-m2-cC Crystal Structure of Putative Aldo/Keto Reductase from Salmonella enterica Q8ZPN5 Q8ZPN5 1.949 X-RAY DIFFRACTION 89 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 295 295 4r9o-a1-m1-cA_4r9o-a1-m1-cB 4r9o-a1-m2-cA_4r9o-a1-m2-cB MVQRVTIAPQGPEFSRFVMGYWRLMDWNMSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALTLAPHLREKLQIVTKCGIATTARAENKLGHYITDRRHIILSAEQSLKNLATDYLDMLLIHRPDPLMDADDVAEAFQHLHQSGKVRHFGVSNFTPAQFTLLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRIRPMAWSCLGGGRLFNDEAYQPLRQELSVIAQELNASSIEQVVYAWILRLPSQPLPIIGSGKIERVRAALEAETLSLTRQQWFRIRKAALGY MVQRVTIAPQGPEFSRFVMGYWRLMDWNMSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALTLAPHLREKLQIVTKCGIATTARAENKLGHYITDRRHIILSAEQSLKNLATDYLDMLLIHRPDPLMDADDVAEAFQHLHQSGKVRHFGVSNFTPAQFTLLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRIRPMAWSCLGGGRLFNDEAYQPLRQELSVIAQELNASSIEQVVYAWILRLPSQPLPIIGSGKIERVRAALEAETLSLTRQQWFRIRKAALGY 4r9o-a1-m2-cB_4r9o-a1-m2-cC Crystal Structure of Putative Aldo/Keto Reductase from Salmonella enterica Q8ZPN5 Q8ZPN5 1.949 X-RAY DIFFRACTION 47 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 293 295 4r9o-a1-m1-cA_4r9o-a1-m2-cB 4r9o-a1-m1-cA_4r9o-a1-m2-cC 4r9o-a1-m1-cB_4r9o-a1-m1-cC 4r9o-a1-m1-cB_4r9o-a1-m2-cA 4r9o-a1-m2-cA_4r9o-a1-m1-cC MVQRVTIAPQGPEFSRFVMGYWRLMDWNMSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALTLAPHLREKLQIVTKCGIATTARAENKLGHYITDRRHIILSAEQSLKNLATDYLDMLLIHRPDPLMDADDVAEAFQHLHQSGKVRHFGVSNFTPAQFTLLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRIRPMAWSCLGGGRLFNDEAYQPLRQELSVIAQELNASSIEQVVYAWILRLPSQPLPIIGSGKIERVRAALEAETLSLTRQQWFRIRKAAL MVQRVTIAPQGPEFSRFVMGYWRLMDWNMSARQLVSFIEEHLDLGVTTVDHADIYGGYQCEAAFGEALTLAPHLREKLQIVTKCGIATTARAENKLGHYITDRRHIILSAEQSLKNLATDYLDMLLIHRPDPLMDADDVAEAFQHLHQSGKVRHFGVSNFTPAQFTLLQSRLPFTLATNQVEISPVHQPLLLDGTLDQLQQLRIRPMAWSCLGGGRLFNDEAYQPLRQELSVIAQELNASSIEQVVYAWILRLPSQPLPIIGSGKIERVRAALEAETLSLTRQQWFRIRKAALGY 4r9w-a1-m1-cA_4r9w-a1-m2-cB Crystal structure of platelet factor 4 complexed with fondaparinux P02776 P02776 2.5 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 64 1f9q-a1-m1-cB_1f9q-a1-m1-cD 1f9q-a1-m1-cC_1f9q-a1-m1-cA 1f9r-a1-m1-cA_1f9r-a1-m1-cC 1f9r-a1-m1-cB_1f9r-a1-m1-cD 1f9s-a1-m1-cB_1f9s-a1-m1-cD 1f9s-a1-m1-cC_1f9s-a1-m1-cA 1rhp-a1-m1-cA_1rhp-a1-m1-cD 1rhp-a1-m1-cB_1rhp-a1-m1-cC 4hsv-a1-m1-cB_4hsv-a1-m1-cD 4hsv-a1-m1-cC_4hsv-a1-m1-cA 4r9w-a1-m2-cA_4r9w-a1-m1-cB LQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLE DLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES 4r9w-a1-m2-cA_4r9w-a1-m2-cB Crystal structure of platelet factor 4 complexed with fondaparinux P02776 P02776 2.5 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 64 1f9q-a1-m1-cB_1f9q-a1-m1-cA 1f9q-a1-m1-cC_1f9q-a1-m1-cD 1f9r-a1-m1-cB_1f9r-a1-m1-cA 1f9r-a1-m1-cC_1f9r-a1-m1-cD 1f9s-a1-m1-cB_1f9s-a1-m1-cA 1f9s-a1-m1-cC_1f9s-a1-m1-cD 1pfm-a1-m1-cA_1pfm-a1-m1-cB 1pfm-a1-m1-cC_1pfm-a1-m1-cD 1pfn-a1-m1-cA_1pfn-a1-m1-cB 1pfn-a1-m1-cC_1pfn-a1-m1-cD 1rhp-a1-m1-cA_1rhp-a1-m1-cB 1rhp-a1-m1-cC_1rhp-a1-m1-cD 4r9w-a1-m1-cA_4r9w-a1-m1-cB LQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLE DLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES 4r9x-a1-m1-cA_4r9x-a1-m2-cB Crystal Structure of Putative Copper Homeostasis Protein CutC from Bacillus anthracis A0A6L8Q3J2 A0A6L8Q3J2 1.8515 X-RAY DIFFRACTION 100 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 219 219 LEVIATCLEDVKRIERAGGKRIELISSYTEGGLTPSYAFIKKAVEAVQIPIHVIRPHAKSFTYTEEEIEKEDIVVAQKLGVAGVVLGVLNERNEVAEEKLADLLSVVDGINVTYHRAIDDIENPVEARTLKKFHKVTHVLTSGGQGNIVDNIPVLTDQKISDGQIQLVVGAGVTKENIKQLLNETGISQAHVGTAVREGKSCFAEIDLNLVQELVQIIQ LEVIATCLEDVKRIERAGGKRIELISSYTEGGLTPSYAFIKKAVEAVQIPIHVIRPHAKSFTYTEEEIEKEDIVVAQKLGVAGVVLGVLNERNEVAEEKLADLLSVVDGINVTYHRAIDDIENPVEARTLKKFHKVTHVLTSGGQGNIVDNIPVLTDQKISDGQIQLVVGAGVTKENIKQLLNETGISQAHVGTAVREGKSCFAEIDLNLVQELVQIIQ 4r9y-a1-m1-cB_4r9y-a1-m1-cD Crystal structure of KKOFab in complex with platelet factor 4 P02776 P02776 4.11 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 1f9q-a1-m1-cA_1f9q-a1-m1-cD 1f9r-a1-m1-cA_1f9r-a1-m1-cD 1f9s-a1-m1-cD_1f9s-a1-m1-cA 1rhp-a1-m1-cB_1rhp-a1-m1-cD 4r9w-a1-m1-cB_4r9w-a1-m2-cB 4r9y-a2-m1-cA_4r9y-a2-m1-cC GDLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES GDLQCLCVKTTSQVRPRHITSLEVIKAGPHCPTAQLIATLKNGRKICLDLQAPLYKKIIKKLLES 4r9z-a1-m1-cA_4r9z-a1-m1-cB Mycobacterium avium subs paratuberculosis tesB protein MAP1729c Q73Z74 Q73Z74 2.6 X-RAY DIFFRACTION 141 0.996 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 262316 (Mycobacterium avium subsp. paratuberculosis K-10) 245 248 SLGDVLATLELERVGQWRFVGQQLPAPANHILGGHISAQALLAASRTAAGREPHSVHTYFLRPGDSRQPVDFEVVDLQEGRTFSARRVTARQDDKILMEAMSSFKVQVVYQPIMPEAPSPESLASLRWFERRTIETETVPPARVPMWWRPDGRVPDDPVLTASLVAYMSAVTLTEPAFAARGGVGASAQRDHSVWFHGRAVLSDWLFYDRSSPSSAGSLALASGTMFNRTGELVCTVKQEMYFPP SSLGDVLATLELERVGQWRFVGQQLPAPANHILGGHISAQALLAASRTAAGREPHSVHTYFLRPGDSRQPVDFEVVDLQEGRTFSARRVTARQDDKILMEAMSSFKVVNQVVYQPIMPEAPSPESWASLRWFERRTIETETVPPARVPMWWRPDGRVPDDPVLTASLVAYMSAVTLTEPAFAARGGVGASAQRDHSVWFHGRAVLSDWLFYDRSSPSSAGSLALASGTMFNRTGELVCTVKQEMYFPP 4ra1-a2-m1-cA_4ra1-a2-m2-cA PBP AccA from A. tumefaciens C58 in complex with D-Glucose-2-phosphate Q52012 Q52012 1.75 X-RAY DIFFRACTION 61 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 490 490 RRALRLGVNGLPNSLEPVNAISNVGPRIVNQIFDTLIARDFFAKGAPGNAIDLVPALAESWERIDEKSVRFKLRQKVMFHDGVELTADDVAYTFSSERLWGPEAIKKIPLGKSYSLDFDEPVVEDKYTVTLRTKTPSYLIETFVASWMSRIVPKEYYKKLGAVDFGNKPVGTGPYKFVEFVAGDRVVLEANDAYWGPKPTASKITYQIVAEPATRVAGLISGEYDIITTLTPDDIQLINSYPDLETRGTLIENFHMFTFNMNQEVFKDKKLRRALALAVNRPIMVEALWKKQASIPAGFNFPNYGETFDPKRKAMEYNVEEAKRLVKESGYDGTPITYHTMGNYYANAMPALMMMIEMWKQIGVNVVMKTYAPGSFPPDNQTWMRNWSNGQWMTDAYATIVPEFGPNGQVQKRWGWKAPAEFNELCQKVTVLPNGKERFDAYNRMRDIFEEEAPAVILYQPYDVYAARKDVHWKPVSFEMMEFRNNLSFG RRALRLGVNGLPNSLEPVNAISNVGPRIVNQIFDTLIARDFFAKGAPGNAIDLVPALAESWERIDEKSVRFKLRQKVMFHDGVELTADDVAYTFSSERLWGPEAIKKIPLGKSYSLDFDEPVVEDKYTVTLRTKTPSYLIETFVASWMSRIVPKEYYKKLGAVDFGNKPVGTGPYKFVEFVAGDRVVLEANDAYWGPKPTASKITYQIVAEPATRVAGLISGEYDIITTLTPDDIQLINSYPDLETRGTLIENFHMFTFNMNQEVFKDKKLRRALALAVNRPIMVEALWKKQASIPAGFNFPNYGETFDPKRKAMEYNVEEAKRLVKESGYDGTPITYHTMGNYYANAMPALMMMIEMWKQIGVNVVMKTYAPGSFPPDNQTWMRNWSNGQWMTDAYATIVPEFGPNGQVQKRWGWKAPAEFNELCQKVTVLPNGKERFDAYNRMRDIFEEEAPAVILYQPYDVYAARKDVHWKPVSFEMMEFRNNLSFG 4raa-a1-m1-cA_4raa-a1-m2-cA Crystal structure of a Putative exported protein (BF0058) from Bacteroides fragilis NCTC 9343 at 2.60 A resolution Q5LJ40 Q5LJ40 2.6 X-RAY DIFFRACTION 21 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 350 350 TIISFKEHTDVNADSILELSFLKLQTKDSCLVKNVGLIRELNNCLLILDSANSNLYVFNKSGAFVNQIGQKGSGPGEYILLSSFFVDNNKNYIAAIDIAQDKVLYYNATDFSFLYERRLPFSTSCCLQLEDGNLLWNSREYTDSKLSDFYFVVTDSLFDIIDYKNKEFKSGYTTGPSQIYKVGTNVFAYTPFDLTIYRVGTSEIVPAHSFSFEGTDIPSLDFLNKTSNQGNSNYLYDLIQSDYISYYCVEETERDLFVCYKNKEKYIGLYDKNTDRTYNYPIKIFQDQLKVGELNYFSIGSVDDYHVAPLDVLSLKDAGNGYVFDDKLSELLTISNEEDNSILLFVRIKK TIISFKEHTDVNADSILELSFLKLQTKDSCLVKNVGLIRELNNCLLILDSANSNLYVFNKSGAFVNQIGQKGSGPGEYILLSSFFVDNNKNYIAAIDIAQDKVLYYNATDFSFLYERRLPFSTSCCLQLEDGNLLWNSREYTDSKLSDFYFVVTDSLFDIIDYKNKEFKSGYTTGPSQIYKVGTNVFAYTPFDLTIYRVGTSEIVPAHSFSFEGTDIPSLDFLNKTSNQGNSNYLYDLIQSDYISYYCVEETERDLFVCYKNKEKYIGLYDKNTDRTYNYPIKIFQDQLKVGELNYFSIGSVDDYHVAPLDVLSLKDAGNGYVFDDKLSELLTISNEEDNSILLFVRIKK 4rae-a1-m1-cB_4rae-a1-m1-cA Crystal structure of Rv1600 encoded aminotransferase from Mycobacterium tuberculosis P9WML7 P9WML7 2.59 X-RAY DIFFRACTION 209 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 365 367 HPVTLDDLPLRADLRGKAPYGAPQLAVPVRLNTNENPHPPTRALVDDVVRSVREAAIDLHRYPDRDAVALRADLAGYLTAQTGIQLGVENIWAANGSNEILQQLLQAFGGPGRSAIGFVPSYSMHPIISDGTHTEWIEASRANDFGLDVDVAVAAVVDRKPDVVFIASPNNPSGQSVSLPDLCKLLDVAPGIAIVDEAYGEFSSQPSAVSLVEEYPSKLVVTRTMSKAFAFAGGRLGYLIATPAVIDAMLLVRLPYHLSSVTQAAARAALRHSDDTLSSVAALIAERERVTTSLNDMGFRVIPSDANFVLFGEFADAPAAWRRYLEAGILIRDVGIPGYLRATTGLAEENDAFLRASARIATDLV HPVTLDDLPLRADLRGKAPYGAPQLAVPVRLNTNENPHPPTRALVDDVVRSVREAAIDLHRYPDRDAVALRADLAGYLTAQTGIQLGVENIWAANGSNEILQQLLQAFGGPGRSAIGFVPSYSMHPIISDGTHTEWIEASRANDFGLDVDVAVAAVVDRKPDVVFIASPNNPSGQSVSLPDLCKLLDVAPGIAIVDEAYGEFSSQPSAVSLVEEYPSKLVVTRTMSKAFAFAGGRLGYLIATPAVIDAMLLVRLPYHLSSVTQAAARAALRHSDDTLSSVAALIAERERVTTSLNDMGFRVIPSDANFVLFGEFADAPAAWRRYLEAGILIRDVGIPGYLRATTGLAEENDAFLRASARIATDLVPV 4ras-a5-m1-cA_4ras-a5-m2-cA Reductive dehalogenase structure suggests a mechanism for B12-dependent dehalogenation K2MB66 K2MB66 2.3 X-RAY DIFFRACTION 53 1.0 391937 (Nitratireductor pacificus pht-3B) 391937 (Nitratireductor pacificus pht-3B) 698 698 4ras-a4-m1-cB_4ras-a4-m1-cC MRLYSNRDRPNHLGPLALERLARVDDVVAQPARQPEDGFAASEDSLLGDVEEYARLFTRFLDGPVAPLGDAIPDDPARRAENLKASAYFLDASMVGICRLDPDDRAGDCDPSHTHALVFAVQFGREPEAGEAGAEWIRGTNAARTDMRCAEIAAILSGYVRWMGFPARGHFSGDAQVDLARLAVRAGLARVVDGVLVAPFLRRGFRLGVVTTGYALAADRPLAPEGDLGETAPEVMLGIDGTRPGWEDAEEEKRPLHMGRYPMETIRRVDEPTTLVVRQEIQRVAKRGDFFKRAEAGDLGEKAKQEKKRFPMKHPLALGMQPLIQNMVPLQGTREKLAPTGKGGDLSDPGRNAEAIKALGYYLGADFVGICRAEPWMYYASDEVEGKPIEAYHDYAVVMLIDQGYETMEGASGDDWISASQSMRAYMRGAEIAGVMAAHCRRMGYSARSHSNAHSEVIHNPAILMAGLGEVSRIGDTLLNPFIGPRSKSIVFTTDLPMSVDRPIDFGLQDFCNQCRKCARECPCNAISFGDKVMFNGYEIWKADVEKCTKYRVTQMKGSACGRCMKMCPWNREDTVEGRRLAELSIKVPEARAAIIAMDDALQNGKRNLIKRWWFDLEVIDGVAGAPRMGTNERDLSPDRGDKIGANQKLAMYPPRLQPPPGTTLDAVLPVDRSGGLAEYAAAETPAAARARLKSSAG MRLYSNRDRPNHLGPLALERLARVDDVVAQPARQPEDGFAASEDSLLGDVEEYARLFTRFLDGPVAPLGDAIPDDPARRAENLKASAYFLDASMVGICRLDPDDRAGDCDPSHTHALVFAVQFGREPEAGEAGAEWIRGTNAARTDMRCAEIAAILSGYVRWMGFPARGHFSGDAQVDLARLAVRAGLARVVDGVLVAPFLRRGFRLGVVTTGYALAADRPLAPEGDLGETAPEVMLGIDGTRPGWEDAEEEKRPLHMGRYPMETIRRVDEPTTLVVRQEIQRVAKRGDFFKRAEAGDLGEKAKQEKKRFPMKHPLALGMQPLIQNMVPLQGTREKLAPTGKGGDLSDPGRNAEAIKALGYYLGADFVGICRAEPWMYYASDEVEGKPIEAYHDYAVVMLIDQGYETMEGASGDDWISASQSMRAYMRGAEIAGVMAAHCRRMGYSARSHSNAHSEVIHNPAILMAGLGEVSRIGDTLLNPFIGPRSKSIVFTTDLPMSVDRPIDFGLQDFCNQCRKCARECPCNAISFGDKVMFNGYEIWKADVEKCTKYRVTQMKGSACGRCMKMCPWNREDTVEGRRLAELSIKVPEARAAIIAMDDALQNGKRNLIKRWWFDLEVIDGVAGAPRMGTNERDLSPDRGDKIGANQKLAMYPPRLQPPPGTTLDAVLPVDRSGGLAEYAAAETPAAARARLKSSAG 4rav-a1-m1-cE_4rav-a1-m1-cF Crystal structure of scFvC4 in complex with the first 17 AA of huntingtin P42858 P42858 2.5 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 TLEKLMKAFESLKSF TLEKLMKAFESLKSF 4rbn-a1-m1-cA_4rbn-a1-m1-cD The crystal structure of Nitrosomonas europaea sucrose synthase: Insights into the evolutionary origin of sucrose metabolism in prokaryotes Q820M5 Q820M5 3.05 X-RAY DIFFRACTION 55 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 789 789 4rbn-a1-m1-cB_4rbn-a1-m1-cC IDTLATCTQQNRDAVYTLLRRYFTANRTLLLQSDLREGLLQTEQDCGQSDMLRAFVFRLQEGIFSSPWAYLALRPEIAKWEFMRIHQEHLIPEKLTISEFLKFKETVVKGEATESVLEVDFGPFNRGFPRLKESRSIGQGVIFLNRKLSSEMFSRIEAGHTSLLHFLGVHAIEGQQLMFSNNSHDIHAVRNQLRQALEMLETLDGTTPWIELAPKMNQLGFAPGWGHNANRVAETMNMLMDILEAPSPSALEEFLACIPMISRLLILSPHGYFGQDNVLGLPDTGGQVVYILDQVRALEKEMHDRLQLQGVQVEPKILIVTRLIPDAGDTTCNQRLEKVSGCTNTWILRVPFRKHNGEIIPHWISRFEIWPHLEIFAGDVEREALAELGGHPDLIIGNYSDGNLVATLLSRRLGVTQCNIAHALEKTKYLHSDIYWQENEDKYHFSCQYTADLLAMNSADFIVTSTYQEIAGTREAEGQYESYQAFSMPDLYRVIHGIDLFDPKFNIVSPGANADIYFPYSDPNRRLHSLIPEIESLIFDDATNLPARGYLQDPDKPLIFTMARLDRIKNITGLVELYAASPRLRSLANLVIVGGKIDPQHSSDHEEQEQIHRMHQLMDEHELDQQVRWLGMRLDKNLAGELYRYIADKRGIFVQPALFEAFGLTIIEAMASGLPTFATRYGGPLEIIQNNRSGFHIDPNQGAATADLIADFFEKNLENPQEWERISQGALDRVASRYTWKLYAERMMTLSRIYGFWKFVSGLEREETDRYLNMFYHLQFRPLANRLAH IDTLATCTQQNRDAVYTLLRRYFTANRTLLLQSDLREGLLQTEQDCGQSDMLRAFVFRLQEGIFSSPWAYLALRPEIAKWEFMRIHQEHLIPEKLTISEFLKFKETVVKGEATESVLEVDFGPFNRGFPRLKESRSIGQGVIFLNRKLSSEMFSRIEAGHTSLLHFLGVHAIEGQQLMFSNNSHDIHAVRNQLRQALEMLETLDGTTPWIELAPKMNQLGFAPGWGHNANRVAETMNMLMDILEAPSPSALEEFLACIPMISRLLILSPHGYFGQDNVLGLPDTGGQVVYILDQVRALEKEMHDRLQLQGVQVEPKILIVTRLIPDAGDTTCNQRLEKVSGCTNTWILRVPFRKHNGEIIPHWISRFEIWPHLEIFAGDVEREALAELGGHPDLIIGNYSDGNLVATLLSRRLGVTQCNIAHALEKTKYLHSDIYWQENEDKYHFSCQYTADLLAMNSADFIVTSTYQEIAGTREAEGQYESYQAFSMPDLYRVIHGIDLFDPKFNIVSPGANADIYFPYSDPNRRLHSLIPEIESLIFDDATNLPARGYLQDPDKPLIFTMARLDRIKNITGLVELYAASPRLRSLANLVIVGGKIDPQHSSDHEEQEQIHRMHQLMDEHELDQQVRWLGMRLDKNLAGELYRYIADKRGIFVQPALFEAFGLTIIEAMASGLPTFATRYGGPLEIIQNNRSGFHIDPNQGAATADLIADFFEKNLENPQEWERISQGALDRVASRYTWKLYAERMMTLSRIYGFWKFVSGLEREETDRYLNMFYHLQFRPLANRLAH 4rbn-a1-m1-cB_4rbn-a1-m1-cD The crystal structure of Nitrosomonas europaea sucrose synthase: Insights into the evolutionary origin of sucrose metabolism in prokaryotes Q820M5 Q820M5 3.05 X-RAY DIFFRACTION 62 1.0 915 (Nitrosomonas europaea) 915 (Nitrosomonas europaea) 789 789 4rbn-a1-m1-cA_4rbn-a1-m1-cC IDTLATCTQQNRDAVYTLLRRYFTANRTLLLQSDLREGLLQTEQDCGQSDMLRAFVFRLQEGIFSSPWAYLALRPEIAKWEFMRIHQEHLIPEKLTISEFLKFKETVVKGEATESVLEVDFGPFNRGFPRLKESRSIGQGVIFLNRKLSSEMFSRIEAGHTSLLHFLGVHAIEGQQLMFSNNSHDIHAVRNQLRQALEMLETLDGTTPWIELAPKMNQLGFAPGWGHNANRVAETMNMLMDILEAPSPSALEEFLACIPMISRLLILSPHGYFGQDNVLGLPDTGGQVVYILDQVRALEKEMHDRLQLQGVQVEPKILIVTRLIPDAGDTTCNQRLEKVSGCTNTWILRVPFRKHNGEIIPHWISRFEIWPHLEIFAGDVEREALAELGGHPDLIIGNYSDGNLVATLLSRRLGVTQCNIAHALEKTKYLHSDIYWQENEDKYHFSCQYTADLLAMNSADFIVTSTYQEIAGTREAEGQYESYQAFSMPDLYRVIHGIDLFDPKFNIVSPGANADIYFPYSDPNRRLHSLIPEIESLIFDDATNLPARGYLQDPDKPLIFTMARLDRIKNITGLVELYAASPRLRSLANLVIVGGKIDPQHSSDHEEQEQIHRMHQLMDEHELDQQVRWLGMRLDKNLAGELYRYIADKRGIFVQPALFEAFGLTIIEAMASGLPTFATRYGGPLEIIQNNRSGFHIDPNQGAATADLIADFFEKNLENPQEWERISQGALDRVASRYTWKLYAERMMTLSRIYGFWKFVSGLEREETDRYLNMFYHLQFRPLANRLAH IDTLATCTQQNRDAVYTLLRRYFTANRTLLLQSDLREGLLQTEQDCGQSDMLRAFVFRLQEGIFSSPWAYLALRPEIAKWEFMRIHQEHLIPEKLTISEFLKFKETVVKGEATESVLEVDFGPFNRGFPRLKESRSIGQGVIFLNRKLSSEMFSRIEAGHTSLLHFLGVHAIEGQQLMFSNNSHDIHAVRNQLRQALEMLETLDGTTPWIELAPKMNQLGFAPGWGHNANRVAETMNMLMDILEAPSPSALEEFLACIPMISRLLILSPHGYFGQDNVLGLPDTGGQVVYILDQVRALEKEMHDRLQLQGVQVEPKILIVTRLIPDAGDTTCNQRLEKVSGCTNTWILRVPFRKHNGEIIPHWISRFEIWPHLEIFAGDVEREALAELGGHPDLIIGNYSDGNLVATLLSRRLGVTQCNIAHALEKTKYLHSDIYWQENEDKYHFSCQYTADLLAMNSADFIVTSTYQEIAGTREAEGQYESYQAFSMPDLYRVIHGIDLFDPKFNIVSPGANADIYFPYSDPNRRLHSLIPEIESLIFDDATNLPARGYLQDPDKPLIFTMARLDRIKNITGLVELYAASPRLRSLANLVIVGGKIDPQHSSDHEEQEQIHRMHQLMDEHELDQQVRWLGMRLDKNLAGELYRYIADKRGIFVQPALFEAFGLTIIEAMASGLPTFATRYGGPLEIIQNNRSGFHIDPNQGAATADLIADFFEKNLENPQEWERISQGALDRVASRYTWKLYAERMMTLSRIYGFWKFVSGLEREETDRYLNMFYHLQFRPLANRLAH 4rbr-a1-m1-cA_4rbr-a1-m1-cB Crystal structure of Repressor of Toxin (Rot), a central regulator of Staphylococcus aureus virulence T1YAC1 T1YAC1 1.7 X-RAY DIFFRACTION 98 1.0 1193576 (Staphylococcus aureus subsp. aureus CN1) 1193576 (Staphylococcus aureus subsp. aureus CN1) 131 131 4q77-a1-m1-cA_4q77-a1-m1-cB NDTVFGILQLETLLGDINSIFSEIESEYKMSREEILILLTLWQKGSMTLKEMDRFVEVKPYKRTRTYNNLVELEWIYKERPVDDERTVIIHFNEKLQQEKVELLNFISDAIASRATAMQNSLNAIIAVHHH NDTVFGILQLETLLGDINSIFSEIESEYKMSREEILILLTLWQKGSMTLKEMDRFVEVKPYKRTRTYNNLVELEWIYKERPVDDERTVIIHFNEKLQQEKVELLNFISDAIASRATAMQNSLNAIIAVHHH 4rbw-a2-m1-cB_4rbw-a2-m1-cC Crystal structure of human alpha-defensin 5, HD5 (Thr7Arg Glu21Arg mutant) Q01523 Q01523 1.5 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 4e83-a3-m1-cA_4e83-a3-m1-cB 4rbw-a1-m1-cA_4rbw-a1-m1-cD ATCYCRRGRCATRESLSGVCRISGRLYRLCCR ATCYCRRGRCATRESLSGVCRISGRLYRLCCR 4rck-a1-m1-cB_4rck-a1-m1-cA Crystal Structure of Uncharacterized Membrane Spanning Protein from Vibrio fischeri Q5DZP5 Q5DZP5 2.999 X-RAY DIFFRACTION 289 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 196 198 EHRDLVVDLSGSAEEDKTSNGDFVDRLTAVKQVVSDFIDQRKGDRLGLVLFGDHAYLQTPLTFDRNTVREQLDRTVLNLVGQRTAIGEGLGLATKTFIESPQRTIILLSDGANTAGVLEPLEAAQLAKDNHAKIYTVGIGAGEQVRGFFGKQTVNTARDLDEDTLTKIATTGGQYFRARNADELAEIYQTIDALEP EHRDLVVDLSGSAEEDKTSNGDFVDRLTAVKQVVSDFIDQRKGDRLGLVLFGDHAYLQTPLTFDRNTVREQLDRTVLNLVGQRTAIGEGLGLATKTFIESNAPQRTIILLSDGANTAGVLEPLEAAQLAKDNHAKIYTVGIGAGEQVRGFFGKQTVNTARDLDEDTLTKIATTGGQYFRARNADELAEIYQTIDALEP 4rct-a1-m1-cA_4rct-a1-m1-cB Crystal structure of R-protein of NgoAVII restriction endonuclease Q5F9M9 Q5F9M9 2.25 X-RAY DIFFRACTION 138 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 345 345 SHMNTVFSNIANAKITEKSLNAVWMDLFKSADEVLMATGYVSNDAVVELHKILELNDHIQKIDLLVGMHYLEGFSHLQYDSLKLNDFLRHEKRGAVYVSPFVKFHGKMYSFKNYQKINGLIGSANLTCFWDSTERTYETMLHLNGKPAQILQADIQSTIHKLGKNIQEVERPSKFIEHNSHLENLGVQKIAPEQIRQLFAQTSEYHFSIPAKTEEKSNLNVFFGEGRRDKRGFVKPRPWYEVELIVSKDITSQEGYPVLKSFTVITDDGWQFQCKTSGDYSKNFRSENDLKTLGKWIKGRLESHGCLQNNEKITHETLREYGNDHFELRSTDNPDVWLLSFKGKN SHMNTVFSNIANAKITEKSLNAVWMDLFKSADEVLMATGYVSNDAVVELHKILELNDHIQKIDLLVGMHYLEGFSHLQYDSLKLNDFLRHEKRGAVYVSPFVKFHGKMYSFKNYQKINGLIGSANLTCFWDSTERTYETMLHLNGKPAQILQADIQSTIHKLGKNIQEVERPSKFIEHNSHLENLGVQKIAPEQIRQLFAQTSEYHFSIPAKTEEKSNLNVFFGEGRRDKRGFVKPRPWYEVELIVSKDITSQEGYPVLKSFTVITDDGWQFQCKTSGDYSKNFRSENDLKTLGKWIKGRLESHGCLQNNEKITHETLREYGNDHFELRSTDNPDVWLLSFKGKN 4rd7-a1-m1-cA_4rd7-a1-m2-cA The crystal structure of a Cupin 2 conserved barrel domain protein from Salinispora arenicola CNS-205 A8M0K5 A8M0K5 1.571 X-RAY DIFFRACTION 112 1.0 391037 (Salinispora arenicola CNS-205) 391037 (Salinispora arenicola CNS-205) 114 114 NAEIRPLDRANLRLDNNLRAQRLPWPTVNAPFEGSWCVVAPGVSSGEHGHHEYEIWIATGRAELVSDGARRPFHAGDVVYLPPGSRHQVVNPTDEQFQYAVWWDAAVDRFATRH NAEIRPLDRANLRLDNNLRAQRLPWPTVNAPFEGSWCVVAPGVSSGEHGHHEYEIWIATGRAELVSDGARRPFHAGDVVYLPPGSRHQVVNPTDEQFQYAVWWDAAVDRFATRH 4rdi-a2-m1-cD_4rdi-a2-m1-cC Crystal structure of E. coli tRNA N6-threonylcarbamoyladenosine dehydratase, TcdA Q46927 Q46927 1.95 X-RAY DIFFRACTION 160 1.0 562 (Escherichia coli) 562 (Escherichia coli) 233 237 4d79-a1-m1-cA_4d79-a1-m1-cB 4d79-a2-m1-cD_4d79-a2-m1-cC 4d7a-a1-m1-cA_4d7a-a1-m1-cB 4d7a-a2-m1-cC_4d7a-a2-m1-cD 4rdh-a1-m1-cB_4rdh-a1-m1-cA 4rdh-a2-m1-cD_4rdh-a2-m1-cC 4rdi-a1-m1-cB_4rdi-a1-m1-cA 4yed-a1-m1-cA_4yed-a1-m1-cB 4yed-a2-m1-cC_4yed-a2-m1-cD VVISDAWRQRFGGTARLYGEKALQLFADAHICVVGIGGVGSWAAEALARTGIGAITLIDDDVCVTNTNRQIHALRDNVGLAKAEVAERIRQINPECRVTVVDDFVTPDNVAQYSVGYSYVIDAIDSVRPKAALIAYCRRNKIPLVTTGGAGGQIDPTQIQVTDLAKTIQDPLAAKLRERLKSDFGVVKNSKGKLGVDCVFSTEALGFGAATVTATFGFVAVSHALKKAKAARQ SVVISDAWRQRFGGTARLYGEKALQLFADAHICVVGIGGVGSWAAEALARTGIGAITLIDDDVCVTNTNRQIHALRDNVGLAKAEVAERIRQINPECRVTVVDDFVTPDNVAQYSVGYSYVIDAIDSVRPKAALIAYCRRNKIPLVTTGGAGGQIDPTQIQVTDLAKTIQDPLAAKLRERLKSDFGVVKNSKGKLGVDCVFSTEALVYPGFGAATVTATFGFVAVSHALKKAKAARQ 4rdl-a1-m1-cA_4rdl-a1-m1-cB Crystal structure of Norovirus Boxer P domain in complex with Lewis y tetrasaccharide Q8BCA3 Q8BCA3 1.449 X-RAY DIFFRACTION 143 1.0 207658 (Human calicivirus NLV/Boxer/2001/US) 207658 (Human calicivirus NLV/Boxer/2001/US) 297 297 4rdj-a1-m1-cA_4rdj-a1-m1-cB 4rdk-a1-m1-cA_4rdk-a1-m1-cB KPFSVPNIPMNLMSNSRVPMLIDGMMVSNDQNQVPQFQNGRVTLDGQLQGTTTVSAACIARMRGRIFNNNGNYGVNLAELDGNPYHAFDSPAPLGFPDFGNCDLHMTFVKINPTELSTGDPSGKVVIHSYDATFAPHLGTVKLEDNNELDQFVGKEVVLELTWVSNRTGATLNLWAVPNYGSNLTQASQLAPPIYPPGFGEAIVYFTSTFPTVSNPKVPCTLPQEFVSHFVNEQAPTRGDAALLHYVDPDTHRNLGEFKMYPEGYMTCVPNAGGGPQTLPINGVFVFISWVSRYYQL KPFSVPNIPMNLMSNSRVPMLIDGMMVSNDQNQVPQFQNGRVTLDGQLQGTTTVSAACIARMRGRIFNNNGNYGVNLAELDGNPYHAFDSPAPLGFPDFGNCDLHMTFVKINPTELSTGDPSGKVVIHSYDATFAPHLGTVKLEDNNELDQFVGKEVVLELTWVSNRTGATLNLWAVPNYGSNLTQASQLAPPIYPPGFGEAIVYFTSTFPTVSNPKVPCTLPQEFVSHFVNEQAPTRGDAALLHYVDPDTHRNLGEFKMYPEGYMTCVPNAGGGPQTLPINGVFVFISWVSRYYQL 4rdz-a1-m1-cA_4rdz-a1-m1-cB Crystal structure of VmoLac in P64 space group F0QXN6 F0QXN6 1.8 X-RAY DIFFRACTION 90 1.0 985053 (Vulcanisaeta moutnovskia 768-28) 985053 (Vulcanisaeta moutnovskia 768-28) 314 315 4rdy-a1-m1-cA_4rdy-a1-m1-cB 4re0-a1-m1-cA_4re0-a1-m2-cA GMVRISIAGGNEIDPGSMGLTLFHEHLRLITEVVRWNWPHLYNEDEELKRAIDAVNAAKKYGVKTIIDLTVAGIGCDVRFNEKVAKATGVNIIMGTGFYTYTEIPFYFKNRGIDSLVDAFVHDITIGIQGTNTRAAFVAVIDSSGLTKDVEMAIRAAAKAHIKTDVPIITHSFVGNKSSLDLIRIFKEEGVDLARTVIGHVGDTDDISFIEQILREGAFIGLDRFGLDIYLPLDKRVKTAIELIKRGWIDQLLLSHDYCPTIDWYPPEVVRSTVPDWTMTLIFEKVIPRMRSEGITEEQINRVLIDNPRRLFTG GMVRISIAGGNEIDPGSMGLTLFHEHLRLITEVVRWNWPHLYNEDEELKRAIDAVNAAKKYGVKTIIDLTVAGIGCDVRFNEKVAKATGVNIIMGTGFYTYTEIPFYFKNRGIDSLVDAFVHDITIGIQGTNTRAAFVAVIDSSGLTKDVEMAIRAAAKAHIKTDVPIITHSFVGNKSSLDLIRIFKEEGVDLARTVIGHVGDTDDISFIEQILREGAFIGLDRFGLDIYLPLDKRVKTAIELIKRGWIDQLLLSHDYCPTIDWYPPEVVRSTVPDWTMTLIFEKVIPRMRSEGITEEQINRVLIDNPRRLFTGR 4re6-a3-m1-cA_4re6-a3-m2-cC Acylaminoacyl peptidase complexed with a chloromethylketone inhibitor Q9YBQ2 Q9YBQ2 2.55 X-RAY DIFFRACTION 39 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 577 577 MPVEFSRIVRDVERLIAVEKYSLQGVVDGDKLLVVGFSEGSVNAYLYDGGETVKLNREPINSVLDPHYGVGRVILVRDVSKGAEQHALFKVNTSRPGEEQRLEAVKPMRILSGVDTGEAVVFTGATEDRVALYALDGGGLRELARLPGFGFVSDIRGDLIAGLGFFGGGRVSLFTSNLSSGGLRVFDSGEGSFSSASISPGMKVTAGLETAREARLVTVDPRDGSVEDLELPSKDFSSYRPTAITWLGYLPDGRLAVVARREGRSAVFIDGERVEAPQGNHGRVVLWRGKLVTSHTSLSTPPRIVSLPSGEPLLEGGLPEDLRRSIAGSRLVWVESFDGSRVPTYVLESGRAPTPGPTVVLVHGGPFAEDSDSWDTFAASLAAAGFHVVMPNYRGSTGYGEEWRLKIIGDPCGGELEDVSAAARWARESGLASELYIMGYSYGGYMTLCALTMKPGLFKAGVAGASVVDWEEMYELSDAAFRNFIEQLTGGSREIMRSRSPINHVDRIKEPLALIHPQNDSRTPLKPLLRLMGELLARGKTFEAHIIPDAGHAINTMEDAVKILLPAVFFLATQRER MPVEFSRIVRDVERLIAVEKYSLQGVVDGDKLLVVGFSEGSVNAYLYDGGETVKLNREPINSVLDPHYGVGRVILVRDVSKGAEQHALFKVNTSRPGEEQRLEAVKPMRILSGVDTGEAVVFTGATEDRVALYALDGGGLRELARLPGFGFVSDIRGDLIAGLGFFGGGRVSLFTSNLSSGGLRVFDSGEGSFSSASISPGMKVTAGLETAREARLVTVDPRDGSVEDLELPSKDFSSYRPTAITWLGYLPDGRLAVVARREGRSAVFIDGERVEAPQGNHGRVVLWRGKLVTSHTSLSTPPRIVSLPSGEPLLEGGLPEDLRRSIAGSRLVWVESFDGSRVPTYVLESGRAPTPGPTVVLVHGGPFAEDSDSWDTFAASLAAAGFHVVMPNYRGSTGYGEEWRLKIIGDPCGGELEDVSAAARWARESGLASELYIMGYSYGGYMTLCALTMKPGLFKAGVAGASVVDWEEMYELSDAAFRNFIEQLTGGSREIMRSRSPINHVDRIKEPLALIHPQNDSRTPLKPLLRLMGELLARGKTFEAHIIPDAGHAINTMEDAVKILLPAVFFLATQRER 4red-a1-m1-cB_4red-a1-m2-cB Crystal structure of human AMPK alpha1 KD-AID with K43A mutation Q13131 Q13131 2.95 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 332 4red-a1-m1-cA_4red-a1-m2-cA SVKIGHYILGDTLGVGTFGKVKVGKHELTGHAVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRASIKDIREHEWFKQDLPKYLFPEDPSYSTTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDS SVKIGHYILGDTLGVGTFGKVKVGKHELTGHAVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRASIKDIREHEWFKQDLPKYLFPEDPSYSTTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDS 4red-a2-m1-cA_4red-a2-m1-cB Crystal structure of human AMPK alpha1 KD-AID with K43A mutation Q13131 Q13131 2.95 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 327 332 4red-a1-m1-cA_4red-a1-m1-cB 4red-a1-m2-cA_4red-a1-m2-cB SVKIGHYILGDTLGVGTFGKVKVGKHELTGHAVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKIFYTPQYLNPSVISLLKHMLQVDPMKRASIKDIREHEWFKQDLPKYLFPEDPSYSTTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDS SVKIGHYILGDTLGVGTFGKVKVGKHELTGHAVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRASIKDIREHEWFKQDLPKYLFPEDPSYSTTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDS 4red-a3-m1-cA_4red-a3-m2-cB Crystal structure of human AMPK alpha1 KD-AID with K43A mutation Q13131 Q13131 2.95 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 327 332 4red-a1-m1-cA_4red-a1-m2-cB 4red-a1-m2-cA_4red-a1-m1-cB SVKIGHYILGDTLGVGTFGKVKVGKHELTGHAVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKIFYTPQYLNPSVISLLKHMLQVDPMKRASIKDIREHEWFKQDLPKYLFPEDPSYSTTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDS SVKIGHYILGDTLGVGTFGKVKVGKHELTGHAVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRASIKDIREHEWFKQDLPKYLFPEDPSYSTTMIDDEALKEVCEKFECSEEEVLSCLYNRNHQDPLAVAYHLIIDNRRIMNEAKDFYLATSPPDS 4rev-a2-m4-cB_4rev-a2-m5-cB Structure of the dirigent protein DRR206 P13240 P13240 1.95 X-RAY DIFFRACTION 100 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 127 127 4rev-a1-m1-cA_4rev-a1-m2-cA 4rev-a1-m1-cA_4rev-a1-m3-cA 4rev-a1-m2-cA_4rev-a1-m3-cA 4rev-a2-m1-cB_4rev-a2-m4-cB 4rev-a2-m1-cB_4rev-a2-m5-cB YKPCKNLVFYFHDILKLAPQSHFGNIIVFDDPITLSHSLSSKQVGRAQGFYIYDYTSWLSFTFVLNSTHHQGTITFAGADPAKTRDISVTGGTGDFFMHRGIATITTDAFGEAYFRLGVYIKFFECW YKPCKNLVFYFHDILKLAPQSHFGNIIVFDDPITLSHSLSSKQVGRAQGFYIYDYTSWLSFTFVLNSTHHQGTITFAGADPAKTRDISVTGGTGDFFMHRGIATITTDAFGEAYFRLGVYIKFFECW 4rfa-a1-m1-cA_4rfa-a1-m2-cA Crystal structure of cyclic nucleotide-binding domain containing protein from Listeria monocytogenes EGD-e Q8Y902 Q8Y902 2.21 X-RAY DIFFRACTION 120 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 209 209 EKLDTVLGYLKEFPDYYKYVTKKTYTLNEKIIFEDEKAKSIFFIVEGYAAVELEDNLRKTNYISIFVLPYNVLGIDAFSSYPKHSITVSESLLYKIDADFLLNILSIKPDVNDFLLTSIADVFARHYALLGIAKTPKERIYALENLAVEGTEDEERNEIVLPNFINQSVLARYCRTTQPNISNLLTELVEEEFLINKKSPYRIDKDSLD EKLDTVLGYLKEFPDYYKYVTKKTYTLNEKIIFEDEKAKSIFFIVEGYAAVELEDNLRKTNYISIFVLPYNVLGIDAFSSYPKHSITVSESLLYKIDADFLLNILSIKPDVNDFLLTSIADVFARHYALLGIAKTPKERIYALENLAVEGTEDEERNEIVLPNFINQSVLARYCRTTQPNISNLLTELVEEEFLINKKSPYRIDKDSLD 4rfl-a2-m1-cC_4rfl-a2-m1-cD Crystal structure of G1PDH with NADPH from Methanocaldococcus jannaschii Q58122 Q58122 2.2 X-RAY DIFFRACTION 59 0.997 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 329 331 4rfl-a1-m1-cA_4rfl-a1-m1-cB 4rgq-a1-m1-cA_4rgq-a1-m1-cB 4rgq-a2-m1-cC_4rgq-a2-m1-cD 4rgv-a1-m1-cA_4rgv-a1-m1-cB IIVTPRYTIIEDGAINKIEEILKKLNLKNPLVITGKNTKKYCRFFYDIVYYDEILNNKKYTAYDCVIGIGGGRSIDTGKYLAYKLGIPFISVPTTASNDGIASPIVSIRQPSFMVDAPIAIIADTEIIKKSPRRLLSAGMGDIVSNITAVLDWKLAYKEKGEKYSESSAIFSKTIAKELISYVLNSDLSEYHNKLVKALVGSGIAIAIANSSRPASGSEHLFSHALDKLKEEYNLNINSLHGEQCGIGTIMMSYLHEKENKKLSGLHEKIKMSLKKVDAPTTAKELGFDEDIIIEALTMAHKIRNRWTILRDGLSREEARKLAEETGVI IIVTPRYTIIEDGAINKIEEILKKLNLKNPLVITGKNTKKYCRFFYDIVYYDEILNNLELKKYTAYDCVIGIGGGRSIDTGKYLAYKLGIPFISVPTTASNDGIASPIVSIQPSFMVDAPIAIIADTEIIKKSPRRLLSAGMGDIVSNITAVLDWKLAYKEKGEKYSESSAIFSKTIAKELISYVLNSDLSEYHNKLVKALVGSGIAIAIANSSRPASGSEHLFSHALDKLKEEYNLNINSLHGEQCGIGTIMMSYLHEKENKKLSGLHEKIKMSLKKVDAPTTAKELGFDEDIIIEALTMAHKIRNRWTILRDGLSREEARKLAEETGVI 4rfp-a1-m1-cA_4rfp-a1-m1-cB Crystal structure of a acidic PLA2 from Trimeresurus stejnegeri venom P82896 P82896 1.6 X-RAY DIFFRACTION 41 1.0 39682 (Trimeresurus stejnegeri) 39682 (Trimeresurus stejnegeri) 121 121 NLMQFELLIMKVAGRSGIVWYSDYGCFCGKGGHGRPQDATDRCCFVHDCCYGKVNGCDPKEDFYRYSSNNGDIVCEANNPCTKEICECDKAAAICFRDNKDTYDNKYWNIPMESCQESEPC NLMQFELLIMKVAGRSGIVWYSDYGCFCGKGGHGRPQDATDRCCFVHDCCYGKVNGCDPKEDFYRYSSNNGDIVCEANNPCTKEICECDKAAAICFRDNKDTYDNKYWNIPMESCQESEPC 4rfq-a1-m1-cA_4rfq-a1-m2-cA Human Methyltransferase-Like 18 O95568 O95568 2.4 X-RAY DIFFRACTION 130 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 270 AAPSQDTDSPLSAASSSRNLEPHGKQPSLRAAKEHAMPKDLKKMLENKVIETLPGFQHVKLSVVKTILLKENFPYEGGLKIWECTFDLLAYFTKAKVKFAGKKVLDLGCGSGLLGITAFKGGSKEIHFQDYNSMVIDEVTLPNVVANSTLEDRKPKVTQLYKCRFFSGEWSEFCKLVLSSEKLFVKYDLILTSETIYNPDYYSNLHQTFLRLLSKNGRVLLASKAHYFGVGGGVHLFQKFVEERDVFKTRILKIIDEGLKRFIIEITFKF AAPSQDTDSPLSAASSSRNLEPHGKQPSLRAAKEHAMPKDLKKMLENKVIETLPGFQHVKLSVVKTILLKENFPYEGGLKIWECTFDLLAYFTKAKVKFAGKKVLDLGCGSGLLGITAFKGGSKEIHFQDYNSMVIDEVTLPNVVANSTLEDRKPKVTQLYKCRFFSGEWSEFCKLVLSSEKLFVKYDLILTSETIYNPDYYSNLHQTFLRLLSKNGRVLLASKAHYFGVGGGVHLFQKFVEERDVFKTRILKIIDEGLKRFIIEITFKF 4rfv-a1-m1-cB_4rfv-a1-m1-cA Structure of the Mycobacterium tuberculosis APS kinase CysC Cys556Ala mutant P9WNM5 P9WNM5 1.69 X-RAY DIFFRACTION 31 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 140 143 PRGKTVWFTGLGSGKSSVAMLVERKLLEKGISAYVLDGDNLRHGLNADLGFSMADRAENLRRLSHVATLLADCGHLVLVPAISPLAEHRALARKVHADAGIDFFEVFCDTYQRPKNPDLRLTPDRSIDEQAQEVIDLLES PPRGKTVWFTGLSGSGKSSVAMLVERKLLEKGISAYVLDGDNLRHGLNADLGFSMADRAENLRRLSHVATLLADCGHLVLVPAISPLAEHRALARKVHADAGIDFFEVFCDTPYQRPKNPDLRLTPDRSIDEQAQEVIDLLES 4rfx-a1-m1-cB_4rfx-a1-m1-cA Crystal Structure of the Dynactin DCTN1 Fragment involved in Dynein Interaction P35458 P35458 2.9 X-RAY DIFFRACTION 149 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 98 100 4rfx-a2-m1-cD_4rfx-a2-m1-cC 4rfx-a3-m1-cE_4rfx-a3-m2-cE ETLTERNLDLEEKVRELRETVGDLEAMNEMNDELQENARETELELREQLDLAAARVREAEKRVEAAQETVADYQQTIKKYRELTAHLQDVNRELMSQQ MVETLTERNLDLEEKVRELRETVGDLEAMNEMNDELQENARETELELREQLDLAAARVREAEKRVEAAQETVADYQQTIKKYRELTAHLQDVNRELMSQQ 4rg1-a1-m1-cB_4rg1-a1-m1-cA Methyltransferase domain of C9orf114 Q5T280 Q5T280 1.86 X-RAY DIFFRACTION 104 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 282 285 RGRPYTLSVALPGSILDNAQSPELRTYLAGQIARACAIFCVDEIVVFDEEGGQACVQLARILQYLECPQYLRKAFFPKHQDLQFAGLLNPLDSPHHMRQDEESEFREGIVVDRPTRPGHGSFVNCGMKKEVKIDKNLEPGLRVTVRLNQYHGKVVSSQDPRTKAGLYWGYTVRLASCLSAVFAEAPFQDGYDLTIGTSERGSDVASAQLPNFRHALVVFGGLQGLEAGADADPNLEVAEPSVLFDLYVNTCPGQGSRTIRTEEAILISLAALQPGLTQAGAR RGRPYTLSVALPGSILDNAQSPELRTYLAGQIARACAIFCVDEIVVFDEEGQACVQLARILQYLECPQYLRKAFFPKHLQFAGLLNPLDSPHHMRQDEESEFREGIVVDRPTRPGHGSFVNCGMKKEVKIDKNLEPGLRVTVRLNQQQDCKTYHGKVVSSQDPRTKAGLYWGYTVRLASCLSAVFAEAPFQDGYDLTIGTSERGSDVASAQLPNFRHALVVFGGLQGLEAGADADPNLEVAEPSVLFDLYVNTCPGQGSRTIRTEEAILISLAALQPGLTQAGAR 4rgb-a1-m1-cA_4rgb-a1-m1-cB Crystal structure of a putative carveol dehydrogenase from Mycobacterium avium bound to NAD A0A0H2ZU39 A0A0H2ZU39 1.95 X-RAY DIFFRACTION 115 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 274 274 GSLDGRVVFITGAARGQGRSHAVMCAEQGANIVGVDICEDIDIVPYKLGTYEELEETARLVEKTGQEMLFRKADVRDKAVLQEVFDAGVEQFGHIDTVIANAGVVLTNPDERDASEALRLGLDIMLIGVWNTFQVAIPHMKERGQGGNLIATSSMIALLDLTDGRGGTDAYLTSKLAITGLVRSYALMLAADRIRVNGVAPTNCSTPMITENPALFKVIEENPHLVNAMSTALPDFPMIEPRDVSNAILFLISDAGRSFTGSVLKVDAGMDVKR GSLDGRVVFITGAARGQGRSHAVMCAEQGANIVGVDICEDIDIVPYKLGTYEELEETARLVEKTGQEMLFRKADVRDKAVLQEVFDAGVEQFGHIDTVIANAGVVLTNPDERDASEALRLGLDIMLIGVWNTFQVAIPHMKERGQGGNLIATSSMIALLDLTDGRGGTDAYLTSKLAITGLVRSYALMLAADRIRVNGVAPTNCSTPMITENPALFKVIEENPHLVNAMSTALPDFPMIEPRDVSNAILFLISDAGRSFTGSVLKVDAGMDVKR 4rgd-a1-m1-cA_4rgd-a1-m1-cB The structure a AS-48 G13K/L40K mutant Q47765 Q47765 1.2 X-RAY DIFFRACTION 49 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 70 70 MAKEFGIPAAVAKTVLNVVEAGGWVTTIVSILTAVGSGGKSLLAAAGRESIKAYLKKEIKKKGKRAVIAW MAKEFGIPAAVAKTVLNVVEAGGWVTTIVSILTAVGSGGKSLLAAAGRESIKAYLKKEIKKKGKRAVIAW 4rgh-a1-m1-cB_4rgh-a1-m1-cA Human DNA Damage-Inducible Protein: From Protein Chemistry and 3D Structure to Deciphering its Cellular Role Q5TDH0 Q5TDH0 1.9 X-RAY DIFFRACTION 75 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 120 128 GQVVMLYINCKVNGHPVKAFVDSGAQMTIMSQACAERCNIMRLVDRRWAIIGRVHLAQVQIEGDFLPCSFSILEEQPMDMLLGLDMLKRHQCSIDLKKNVLVIGTTGSQTTFLPEGELPE QVVMLYINCKVNGHPVKAFVDSGAQMTIMSQACAERCNIMRLVDRRWAGIAKGVGTQKIIGRVHLAQVQIEGDFLPCSFSILEEQPMDMLLGLDMLKRHQCSIDLKKNVLVIGTTGSQTTFLPEGELP 4rgk-a1-m1-cA_4rgk-a1-m2-cA Crystal Structure of Putative Phytanoyl-CoA Dioxygenase Family Protein YbiU from Yersinia pestis A0A2U2H2N4 A0A2U2H2N4 2.15 X-RAY DIFFRACTION 109 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 409 409 NAASLHIDDIPAAIKAVKQQLRQALPDYQQVFQAVEENIRQQVEIRRNLAEGKNPVPQLHADDIINGKVTEEQKAQIKQRGCCAILGVFPQEKATAWNREIGDYLDRNNFVERLKNAAEDNYFGTLAASKPQIYGIYWSTPQVEARQDKRQAVQIFLNNLWQTESNGKQHFDANRVVTYADRTRRRPPKSSSLGLSPHVDGGSIERWLDENFRHVYRHVFSGQWQKYDPFAAEGRPEVREFPSPAVCSFRTFQGWTALTPQRTHAGTLNVIPIANAAYILLRALQDDVADDDLCGAAPGRALSASEQWHPLLEAISPIPDLEAGDTVFWHCDVIHSVENEHNGEFDSNVYIAAAPWCEKNAAYLPRQLASFIDGRSPPDFAADDFEVDFIGRATIKNLTEIGKQQLGIT NAASLHIDDIPAAIKAVKQQLRQALPDYQQVFQAVEENIRQQVEIRRNLAEGKNPVPQLHADDIINGKVTEEQKAQIKQRGCCAILGVFPQEKATAWNREIGDYLDRNNFVERLKNAAEDNYFGTLAASKPQIYGIYWSTPQVEARQDKRQAVQIFLNNLWQTESNGKQHFDANRVVTYADRTRRRPPKSSSLGLSPHVDGGSIERWLDENFRHVYRHVFSGQWQKYDPFAAEGRPEVREFPSPAVCSFRTFQGWTALTPQRTHAGTLNVIPIANAAYILLRALQDDVADDDLCGAAPGRALSASEQWHPLLEAISPIPDLEAGDTVFWHCDVIHSVENEHNGEFDSNVYIAAAPWCEKNAAYLPRQLASFIDGRSPPDFAADDFEVDFIGRATIKNLTEIGKQQLGIT 4rgp-a1-m1-cA_4rgp-a1-m1-cB Crystal Structure of Uncharacterized CRISPR/Cas System-associated Protein Csm6 from Streptococcus mutans Q8DTU7 Q8DTU7 2.299 X-RAY DIFFRACTION 113 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 251 251 NATEQETLTILLDVYAYYQAYQIVKASQFFSDDIIFLLELLKERRELNVDFLFQNQVHLQELELTYHISLLDNAYEEELLANYIDLEAKLRNDHIIDFVRSVSPILYRLLRLQSQVADINDYIYDAKNDQYDTWKFDKHDSANPFVQNFVAKGRDSKITSRSLADFIQLTDLPQAIKDNILLLRDFEKSVRNPLAHLIKPFDEEELHRTTGFSSQTFLEKIIQLAVFSGIHYDNDKFYFDKVNELIKRIYQ NATEQETLTILLDVYAYYQAYQIVKASQFFSDDIIFLLELLKERRELNVDFLFQNQVHLQELELTYHISLLDNAYEEELLANYIDLEAKLRNDHIIDFVRSVSPILYRLLRLQSQVADINDYIYDAKNDQYDTWKFDKHDSANPFVQNFVAKGRDSKITSRSLADFIQLTDLPQAIKDNILLLRDFEKSVRNPLAHLIKPFDEEELHRTTGFSSQTFLEKIIQLAVFSGIHYDNDKFYFDKVNELIKRIYQ 4rgy-a1-m1-cB_4rgy-a1-m2-cB Structural and functional analysis of a low-temperature-active alkaline esterase from South China Sea marine sediment microbial metagenomic library B8Y562 B8Y562 1.4 X-RAY DIFFRACTION 51 1.0 651659 (uncultured bacterium FLS12) 651659 (uncultured bacterium FLS12) 236 236 4rgy-a1-m1-cA_4rgy-a1-m2-cA HMALFQCDFFSDVLGLSTSMTVILPQEEHPTLFLLHGLSDDHTIWLRRTSIERYVAEMGLAVVMPAVHRSFYTDMAHGLQYWTFISEELPALARSFFPLATAREDTFVAGLSMGGYGALKLGMRHPERFAAAASLSGALDITFVAEQRNIFGDLAALPGSDHDLFALAERMAQSDGPVPKLYQCCGTEDFLYEDNVRFRDHVRGLGLDFMYEESPGEHEWGYWDAQIQRVLAWLPL HMALFQCDFFSDVLGLSTSMTVILPQEEHPTLFLLHGLSDDHTIWLRRTSIERYVAEMGLAVVMPAVHRSFYTDMAHGLQYWTFISEELPALARSFFPLATAREDTFVAGLSMGGYGALKLGMRHPERFAAAASLSGALDITFVAEQRNIFGDLAALPGSDHDLFALAERMAQSDGPVPKLYQCCGTEDFLYEDNVRFRDHVRGLGLDFMYEESPGEHEWGYWDAQIQRVLAWLPL 4rgy-a1-m2-cB_4rgy-a1-m1-cA Structural and functional analysis of a low-temperature-active alkaline esterase from South China Sea marine sediment microbial metagenomic library B8Y562 B8Y562 1.4 X-RAY DIFFRACTION 37 0.996 651659 (uncultured bacterium FLS12) 651659 (uncultured bacterium FLS12) 236 237 4rgy-a1-m1-cB_4rgy-a1-m2-cA HMALFQCDFFSDVLGLSTSMTVILPQEEHPTLFLLHGLSDDHTIWLRRTSIERYVAEMGLAVVMPAVHRSFYTDMAHGLQYWTFISEELPALARSFFPLATAREDTFVAGLSMGGYGALKLGMRHPERFAAAASLSGALDITFVAEQRNIFGDLAALPGSDHDLFALAERMAQSDGPVPKLYQCCGTEDFLYEDNVRFRDHVRGLGLDFMYEESPGEHEWGYWDAQIQRVLAWLPL HMALFQCDFFSDVLGLSTSMTVILPQEEHPTLFLLHGLSDDHTIWLRRTSIERYVAEMGLAVVMPAVHRSFYTDMAHGLQYWTFISEELPALARSFFPLATAREDTFVAGLSMGGYGALKLGMRHPERFAAAASLSGALDITVWVAEQRNIFGDLAALPGSDHDLFALAERMAQSDGPVPKLYQCCGTEDFLYEDNVRFRDHVRGLGLDFMYEESPGEHEWGYWDAQIQRVLAWLPL 4rgy-a1-m2-cB_4rgy-a1-m2-cA Structural and functional analysis of a low-temperature-active alkaline esterase from South China Sea marine sediment microbial metagenomic library B8Y562 B8Y562 1.4 X-RAY DIFFRACTION 52 0.996 651659 (uncultured bacterium FLS12) 651659 (uncultured bacterium FLS12) 236 237 4rgy-a1-m1-cB_4rgy-a1-m1-cA HMALFQCDFFSDVLGLSTSMTVILPQEEHPTLFLLHGLSDDHTIWLRRTSIERYVAEMGLAVVMPAVHRSFYTDMAHGLQYWTFISEELPALARSFFPLATAREDTFVAGLSMGGYGALKLGMRHPERFAAAASLSGALDITFVAEQRNIFGDLAALPGSDHDLFALAERMAQSDGPVPKLYQCCGTEDFLYEDNVRFRDHVRGLGLDFMYEESPGEHEWGYWDAQIQRVLAWLPL HMALFQCDFFSDVLGLSTSMTVILPQEEHPTLFLLHGLSDDHTIWLRRTSIERYVAEMGLAVVMPAVHRSFYTDMAHGLQYWTFISEELPALARSFFPLATAREDTFVAGLSMGGYGALKLGMRHPERFAAAASLSGALDITVWVAEQRNIFGDLAALPGSDHDLFALAERMAQSDGPVPKLYQCCGTEDFLYEDNVRFRDHVRGLGLDFMYEESPGEHEWGYWDAQIQRVLAWLPL 4rgz-a1-m1-cA_4rgz-a1-m1-cN Crystal structure of recombinant prolidase from Thermococcus sibiricus at P21221 spacegroup C6A2N7 C6A2N7 2.6 X-RAY DIFFRACTION 99 1.0 604354 (Thermococcus sibiricus MM 739) 604354 (Thermococcus sibiricus MM 739) 367 367 4fkc-a1-m1-cA_4fkc-a1-m2-cA 4rgz-a2-m1-c1_4rgz-a2-m1-ce GSMDYKRRIHKFQAHFGKKGFEGALVAPGSNFYYLTGFNPLGTLERLFVLILPSEGLLTAIAPRLYEKELEEFNGEVVLWSDSENPYKIFATKIKETFKEGEKLLIDDTMPVGVFLKAKDIFDKYSLHPISPVISELREIKDKDEIKAHKKAAEIVDKVFYRFIEGKLEGKSERELANRIEYMIKNEFGADDVSFEPIVASGPNGANPHHRPSHRKIRKGDVVIFDYGAKYLGYCSDVTRTVVVGPPSEEVKKVYEIVKEAQETAVQKVAEGIPAEVVDATARGIISKYGYGEYFIHRTGHGLGIDVHEEPYISPGNKKILKDGMVFTIEPGIYLQGKFGVRIEDDVALVDKKGIRLTNADRELITL GSMDYKRRIHKFQAHFGKKGFEGALVAPGSNFYYLTGFNPLGTLERLFVLILPSEGLLTAIAPRLYEKELEEFNGEVVLWSDSENPYKIFATKIKETFKEGEKLLIDDTMPVGVFLKAKDIFDKYSLHPISPVISELREIKDKDEIKAHKKAAEIVDKVFYRFIEGKLEGKSERELANRIEYMIKNEFGADDVSFEPIVASGPNGANPHHRPSHRKIRKGDVVIFDYGAKYLGYCSDVTRTVVVGPPSEEVKKVYEIVKEAQETAVQKVAEGIPAEVVDATARGIISKYGYGEYFIHRTGHGLGIDVHEEPYISPGNKKILKDGMVFTIEPGIYLQGKFGVRIEDDVALVDKKGIRLTNADRELITL 4rha-a1-m1-cB_4rha-a1-m1-cA Structure of the C-terminal domain of outer-membrane protein OmpA from Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S A0A0H2UKZ3 A0A0H2UKZ3 1.75 X-RAY DIFFRACTION 38 0.984 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 126 130 VQTKHFTLKSDVLFNFNKSTLKPEGQQALDQLYSQLSNLDPKDGSVVVLGFTDRIGSDAYNQGLSEKRAQSVVDYLISKGIPSDKISARGGESNPVTGNTCDNVKPRAALIDCLAPDRRVEIEVKG EVQTKHFTLKSDVLFNFNKSTLKPEGQQALDQLYSQLSNLDPGSVVVLGFTDRIGSDAYNQGLSEKRAQSVVDYLISKGIPSDKISARGGESNPVTGNTCDNVKPRAALIDCLAPDRRVEIEVKGVKDVV 4rhh-a2-m1-cD_4rhh-a2-m1-cC Crystal structure of the catalytic mutant Xyn52B2-E335G, a GH52 Beta-D-xylosidase from Geobacillus stearothermophilus T6 Q09LZ0 Q09LZ0 2.15 X-RAY DIFFRACTION 143 0.999 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 693 696 4rhh-a1-m1-cA_4rhh-a1-m1-cB ATNLFFNAHHSPVGAFASFTLGFPGKSGGLDLELARPPRQNVFIGVESPHEPGLYHILPFAETENPDPNPQKPNILIPFAKERIEREFRVATDTWKAGDLTLTIYSPVKAVPDPETASEEELKLALVPAVIVEMTIDNTNGTRTRRAFFGFEGTDPYTSMRRIDDTCPQLRGVGQGRILGIASKDEGVRSALHFSMEDILTATLEENWTFGLGKVGALIADVPAGEKKTYQFAVCFYRGGCVTAGMDASYFYTRFFHNIEEVGLYALEQAEVLKEQAFRSNELIEKEWLSDDQKFMMAHAIRSYYGNTQLLEHEGKPIWVVNGGEYRMMNTFDLTVDQLFFELKMNPWTVKNVLDFYVERYSYEDRVRFPGDETEYPGGISFTHDMGVANTFSRPHYSSYELYGISGCFSHMTHEQLVNWVLCAAVYIEQTKDWAWRDRRLTILEQCLESMVRRDHPDPEKRNGVMGLDSTRTMGGAEITTYDSLDVSLGQARNNLYLAGKCWAAYVALEKLFRDVGKEELAALAREQAEKCAATIVSHVTEDGYIPAVMGEGNDSKIIPAIEGLVFPYFTNCHEALREDGRFGDYIRALRQHLQYVLREGICLFPDGGWKISSTSNNSWLSKIYLCQFIARRILGWEWDEQGKRADAAHVAWLTHPTLSIWSWSDQIIAGEISGSKYYPRGVTSILWLEEGE ATNLFFNAHHSPVGAFASFTLGFPGKSGGLDLELARPPRQNVFIGVESPHEPGLYHILPFAETAGDIENPDPNPQKPNILIPFAKERIEREFRVATDTWKAGDLTLTIYSPVKAVPDPETASEEELKLALVPAVIVEMTIDNTNGTRTRRAFFGFEGTDPYTSMRRIDDTCPQLRGVGQGRILGIASKDEGVRSALHFSMEDILTATLEENWTFGLGKVGALIADVPAGEKKTYQFAVCFYRGGCVTAGMDASYFYTRFFHNIEEVGLYALEQAEVLKEQAFRSNELIEKEWLSDDQKFMMAHAIRSYYGNTQLLEHEGKPIWVVNGGEYRMMNTFDLTVDQLFFELKMNPWTVKNVLDFYVERYSYEDRVRFPGDETEYPGGISFTHDMGVANTFSRPHYSSYELYGISGCFSHMTHEQLVNWVLCAAVYIEQTKDWAWRDRRLTILEQCLESMVRRDHPDPEKRNGVMGLDSTRTMGGAEITTYDSLDVSLGQARNNLYLAGKCWAAYVALEKLFRDVGKEELAALAREQAEKCAATIVSHVTEDGYIPAVMGEGNDSKIIPAIEGLVFPYFTNCHEALREDGRFGDYIRALRQHLQYVLREGICLFPDGGWKISSTSNNSWLSKIYLCQFIARRILGWEWDEQGKRADAAHVAWLTHPTLSIWSWSDQIIAGEISGSKYYPRGVTSILWLEEG 4ri0-a1-m1-cC_4ri0-a1-m1-cB Serine Protease HtrA3, mutationally inactivated P83110 P83110 3.272 X-RAY DIFFRACTION 71 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 196 202 SSPRYKFNFIADVVEKIAPAVVHIELFLRHPLFGRNVPLSSGSGFIMSEAGLIITNAHVVSSNSAAPGRQQLKVQLQNGDSYEATIKDIDKKSDIATIKIHPKKKLPVLLLGHSADLRPGEFVVAIGSPFALQNTVTTGIVSTAQMDYIQTDAIINYGNAGGPLVNLDGEVIGINTLKGISFAIPSDRITRFLTEF LHQLSSPRYKFNFIADVVEKIAPAVVHIELFLRHPLFGRNVPLSSGSGFIMSEAGLIITNAHVVSSNSAAPGRQQLKVQLQNGDSYEATIKDIDKKSDIATIKIHPKKKLPVLLLGHSADLRPGEFVVAIGSPFALQNTVTTGIVSTAQDYIQTDAIINYGNAGGPLVNLDGEVIGINTLKVTAGISFAIPSDRITRFLTEF 4ri1-a2-m1-cC_4ri1-a2-m1-cB Crystal structure of Helicobacter pylori pseudaminic acid biosynthesis N -acetyltransferase PseH complex with acetyl-coA O25094 O25094 2.3 X-RAY DIFFRACTION 75 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 175 179 4ri1-a1-m1-cA_4ri1-a1-m2-cA KKNYSYKNIQAIDFTNLNDGEKLLVLEFRNHPNTALWMYSTFISLKTHLQFIEDLKNSPNHRYFLFKEEGVYLGVGSITKINFFHKHGYLGIYKNPFLKNGGETILKALEFIAFEEFQLHSLHLEVMENNFKAIAFYEKNHYELEGRLKGFISKDKEFIDVLLYYKDKKGYNDQS KKNYSYKNIQAIDFTNLNDGEKLLVLEFRNHPNTALWMYSTFISLKTHLQFIEDLKNSPNHRYFLFKEEGVYLGVGSITKINFFHKHGYLGIYKNPFLKNGGETILKALEFIAFEEFQLHSLHLEVMENNFKAIAFYEKNHYELEGRLKGFISKDKEFIDVLLYYKDKKGYNDQSLLKL 4ri2-a1-m1-cB_4ri2-a1-m1-cA Crystal structure of the photoprotective protein PsbS from spinach Q02060 Q02060 2.35 X-RAY DIFFRACTION 121 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 163 177 4ri3-a1-m1-cB_4ri3-a1-m1-cA LKVEDGLFGTSGGIGFTKENELFVGRVAMIGFAASLLGEGITGKGILSQLNLETGIPIYEAEPLLLFFILFTLLGAIGALGDRGRFVDEPFGFTKSNELFVGRLAQLGFAFSLIGEIITGKGALAQLNIETGVPINEIEPLVLLNVVFFFIAAINPGTGKFIT AKAPKKVEKPKLKVEDGLFGTSGGIGFTKENELFVGRVAMIGFAASLLGEGITGKGILSQLNLETGIPIYEAEPLLLFFILFTLLGAIGALGDRGRFVDEPTFGFTKSNELFVGRLAQLGFAFSLIGEIITGKGALAQLNIETGVPINEIEPLVLLNVVFFFIAAINPGTGKFITDD 4ri6-a1-m1-cA_4ri6-a1-m1-cB Crystal structure of poplar glutathione transferase F1 A9PHH6 A9PHH6 1.523 X-RAY DIFFRACTION 79 1.0 47664 (Populus tremula x Populus tremuloides) 47664 (Populus tremula x Populus tremuloides) 214 214 4ri7-a1-m1-cA_4ri7-a1-m1-cB ATPVTIYGPPLSTAVSRVLATLIEKDVPFHLIPIDLSKGEQKKPEYLKIQPFGQVPAFKDESITLFESRAICRYICDKYADKGNKSLYGTDILSKANIDQWVETDGQTFGPPSGDLVHDLLFSSVPVDEALIKKNVDKLAKVLDIYEQKLGQTRFLAGDEFSFADLSHLPNGDYLVNSTDKGYLFTSRKNVNRWWTEISNRESWKKVLEMRKNA ATPVTIYGPPLSTAVSRVLATLIEKDVPFHLIPIDLSKGEQKKPEYLKIQPFGQVPAFKDESITLFESRAICRYICDKYADKGNKSLYGTDILSKANIDQWVETDGQTFGPPSGDLVHDLLFSSVPVDEALIKKNVDKLAKVLDIYEQKLGQTRFLAGDEFSFADLSHLPNGDYLVNSTDKGYLFTSRKNVNRWWTEISNRESWKKVLEMRKNA 4rih-a1-m1-cA_4rih-a1-m1-cB Chimeric Glycosyltransferase LanGT2S8Ac, carbasugar substrate complex Q9ZGC0 Q9ZGC0 2.22 X-RAY DIFFRACTION 115 1.0 80860 (Streptomyces cyanogenus) 80860 (Streptomyces cyanogenus) 368 374 4rie-a1-m1-cB_4rie-a1-m1-cA 4rif-a1-m1-cA_4rif-a1-m1-cB 4rig-a1-m1-cA_4rig-a1-m1-cB MKILFVAAGSPATVFALAPLATAARNAGHDVFMGAVEDMVPYIASAGIPAVATTDLPIRHFITMDREGNPVRMPETPEEELDFAGHWFGRMAAGSMDALREVTANWRPDLVVGGSMSFAAALIAAELGVPYVRQAWDTGDAWRTDPAASDELRPELRALGLDRLPDPALFVDICPPSLRPADAPPAQMMRWVPANGQRRLEPWMYTKGNRPRILVTSGSRLVFAKKTGFLRGLVADMAALDAEVVIATLDEVAEELGVRAGWVPLDVVVPTCDVVVHHAGGVTALTAMNAGVPQLIVPQGGNFVEAGLRISDFGAAITVDENTPEAVEKACGELIGNPSYAERARELSAEIAALPLPAEVVGALEGLV MKILFVAAGSPATVFALAPLATAARNAGHDVFMGAVEDMVPYIASAGIPAVATTDLPIRHFITMDREGNPVRMPETPEEELDFAGHWFGRMAAGSMDALREVTANWRPDLVVGGSMSFAAALIAAELGVPYVRQAWDTGDAWRTDPAASDELRPELRALGLDRLPDPALFVDICPPSLRPADAPPAQMMRWVPANGQRRLEPWMYTKGNRPRILVTSGSRLVFAKKTGFLRGLVADMAALDAEVVIATLDEVAEELRTELPGVRAGWVPLDVVVPTCDVVVHHAGGVTALTAMNAGVPQLIVPQGGNFVEAGLRISDFGAAITVDENTPEAVEKACGELIGNPSYAERARELSAEIAALPLPAEVVGALEGLVE 4riq-a2-m1-cU_4riq-a2-m1-cO Crystal structure of DPY-30 dimerization/docking domain in complex with Ash2L Sdc1-DPY-30 Interacting region (SDI) Q9UBL3 Q9UBL3 2.231 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 24 4riq-a1-m1-cC_4riq-a1-m1-cL 4riq-a1-m1-cF_4riq-a1-m1-cX 4riq-a2-m1-cR_4riq-a2-m3-cI MGSVEHTLADVLYHVETEVENLY AMGSVEHTLADVLYHVETEVENLY 4rjv-a2-m1-cC_4rjv-a2-m1-cD Crystal Structure of a De Novo Designed Ferredoxin Fold, Northeast Structural Genomics Consortium (NESG) Target OR461 1.523 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 79 83 4rjv-a1-m1-cB_4rjv-a1-m1-cA MEMDIRFRGDDDEALARALLKMVVRAVSFGAQVRFTDDGNDLEIRITGVPEQVLKELAKEAERLAKEFGITVTRTIRGS MEMDIRFRGDDDEALARALLKMVVRAVSFGAQVRFTDDGNDLEIRITGVPEQVLKELAKEAERLAKEFGITVTRTIRGSLEHH 4rjw-a1-m2-cA_4rjw-a1-m3-cA Crystal structure of Pseudomonas aeruginosa OprO P32977 P32977 1.52 X-RAY DIFFRACTION 201 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 426 426 4rjw-a1-m1-cA_4rjw-a1-m2-cA 4rjw-a1-m1-cA_4rjw-a1-m3-cA 4rjx-a1-m1-cA_4rjx-a1-m2-cA 4rjx-a1-m1-cA_4rjx-a1-m3-cA 4rjx-a1-m2-cA_4rjx-a1-m3-cA RLQHHHHHHHLEGTVTTDGADIVIKTKGGLEVATTDKEFSFKLGGRLQADYSRFDGFYTKNGNTADAAYFRRAFIELGGTAYKDWKYQINFDLSHNTGSSDNGYFDEASVTYTGFNPVNLKFGRFDPDFGLEKATSSKWVTAPERNAAYELADWINTHQDGMGAQVNSTLADMAYLSAGVSAKDADDSDGDSVKQFNFRGVFAPMHEAGNVLHVGVNYAYRDLDDTAFDSRIRPRLGMRGIATSGGNDAGDNGNRATFGGVSNSPAGSYKDDSVWGLEGAWAMGPFSAQAEYLARKLKADDNAYKDIKAKGYYAQLAYTLTGESRQYKLEGAKFDSVKPENKEIGAWEVFYRYDNIKVEDDNVVADTATREVGDTKAKAHNLGVNWYVNDAVKISAAYVKAKTDKITNNNGDDDGDGFVTRLQYVF RLQHHHHHHHLEGTVTTDGADIVIKTKGGLEVATTDKEFSFKLGGRLQADYSRFDGFYTKNGNTADAAYFRRAFIELGGTAYKDWKYQINFDLSHNTGSSDNGYFDEASVTYTGFNPVNLKFGRFDPDFGLEKATSSKWVTAPERNAAYELADWINTHQDGMGAQVNSTLADMAYLSAGVSAKDADDSDGDSVKQFNFRGVFAPMHEAGNVLHVGVNYAYRDLDDTAFDSRIRPRLGMRGIATSGGNDAGDNGNRATFGGVSNSPAGSYKDDSVWGLEGAWAMGPFSAQAEYLARKLKADDNAYKDIKAKGYYAQLAYTLTGESRQYKLEGAKFDSVKPENKEIGAWEVFYRYDNIKVEDDNVVADTATREVGDTKAKAHNLGVNWYVNDAVKISAAYVKAKTDKITNNNGDDDGDGFVTRLQYVF 4rjy-a1-m1-cA_4rjy-a1-m1-cD Crystal structure of E. coli L-Threonine Aldolase in complex with a non-covalently uncleaved bound L-serine substrate 2.1 X-RAY DIFFRACTION 65 1.0 1182686 (Escherichia coli KTE79) 1182686 (Escherichia coli KTE79) 331 331 3wlx-a1-m1-cA_3wlx-a1-m2-cB 3wlx-a1-m2-cA_3wlx-a1-m1-cB 4lnj-a1-m1-cA_4lnj-a1-m1-cB 4lnj-a1-m2-cA_4lnj-a1-m2-cB 4lnl-a1-m1-cA_4lnl-a1-m1-cB 4lnl-a1-m2-cA_4lnl-a1-m2-cB 4lnm-a1-m1-cA_4lnm-a1-m1-cB 4lnm-a1-m2-cA_4lnm-a1-m2-cB 4rjy-a1-m1-cB_4rjy-a1-m1-cC MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRKRNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGMYALKNNVARLQEDHDNTAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSRAQLAEVAAHWRAFLA MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRKRNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGMYALKNNVARLQEDHDNTAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSRAQLAEVAAHWRAFLA 4rjy-a1-m1-cC_4rjy-a1-m1-cD Crystal structure of E. coli L-Threonine Aldolase in complex with a non-covalently uncleaved bound L-serine substrate 2.1 X-RAY DIFFRACTION 149 1.0 1182686 (Escherichia coli KTE79) 1182686 (Escherichia coli KTE79) 331 331 3wlx-a1-m1-cA_3wlx-a1-m1-cB 3wlx-a1-m2-cA_3wlx-a1-m2-cB 4lnj-a1-m1-cA_4lnj-a1-m2-cB 4lnj-a1-m1-cB_4lnj-a1-m2-cA 4lnl-a1-m1-cA_4lnl-a1-m2-cB 4lnl-a1-m1-cB_4lnl-a1-m2-cA 4lnm-a1-m1-cA_4lnm-a1-m2-cB 4lnm-a1-m1-cB_4lnm-a1-m2-cA 4rjy-a1-m1-cA_4rjy-a1-m1-cB MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRKRNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGMYALKNNVARLQEDHDNTAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSRAQLAEVAAHWRAFLA MIDLRSDTVTRPSRAMLEAMMAAPVGDDVYGDDPTVNALQDYAAELSGKEAAIFLPTGTQANLVALLSHCERGEEYIVGQAAHNYLFEAGGAAVLGSIQPQPIDAAADGTLPLDKVAMKIKPDDIHFARTKLLSLENTHNGKVLPREYLKEAWEFTRKRNLALHVDGARIFNAVVAYGCELKEITQYCDSFTICLSGLGTPVGSLLVGNRDYIKRAIRWRKMTGGGMRQSGILAAAGMYALKNNVARLQEDHDNTAWMAEQLREAGADVMRQDTNMLFVRVGEENAAALGEYMKARNVLINASPIVRLVTHLDVSRAQLAEVAAHWRAFLA 4rk0-a2-m1-cC_4rk0-a2-m1-cD Crystal structure of LacI family transcriptional regulator from Enterococcus faecalis V583, Target EFI-512923, with bound ribose Q82ZT5 Q82ZT5 1.8 X-RAY DIFFRACTION 91 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 268 269 4rk0-a1-m1-cB_4rk0-a1-m1-cA SKTIGVIVPDITNPFFAQLIRGIESVLYKENFILILCNADQDVTREHEYLTELIRRSVDGFVIASSEISNQTINETLRAKKIPFIVLDQKKAEGFSDAVLTDDYRGGQLAAKHLQEQRHEQVIVVMPPHAPVNIQQRLKGFCSVYTEKVQLIETELSKTGGYQAVPEILKTESTGIFAINDEIAFGLYRGLAEAGKKIPEDYSIIGYDNVDMCEYVSPPLTTIAQPVFQLGQTTATLLLERIHQPAKDWEEQTLPVQLIERFSTAPLK KSKTIGVIVPDITNPFFAQLIRGIESVLYKENFILILCNADQDVTREHEYLTELIRRSVDGFVIASSEISNQTINETLRAKKIPFIVLDQKKAEGFSDAVLTDDYRGGQLAAKHLQEQRHEQVIVVMPPHAPVNIQQRLKGFCSVYTEKVQLIETELSKTGGYQAVPEILKTESTGIFAINDEIAFGLYRGLAEAGKKIPEDYSIIGYDNVDMCEYVSPPLTTIAQPVFQLGQTTATLLLERIHQPAKDWEEQTLPVQLIERFSTAPLK 4rk1-a3-m1-cE_4rk1-a3-m1-cF Crystal structure of LacI family transcriptional regulator from Enterococcus faecium, Target EFI-512930, with bound ribose I3TZ89 I3TZ89 1.9 X-RAY DIFFRACTION 91 1.0 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 265 265 4rk1-a1-m1-cA_4rk1-a1-m1-cB 4rk1-a2-m1-cC_4rk1-a2-m1-cD KTIGVLVPDITNPFFSTLRGIEDILYKQNFVTILCNADSIEYLAELTRRGVDGFIIATSAVSTDAINENLKKQGRPFIVLDQKKSEGFSDAVRTDDFRGGYLAGHLLSLGHQTIALVYPENPPENVHARIEGFKSALDVYQIPHDQLILLPTQFSKQGGYQITAELLDSAATGVFALNDELAFGLYRGLEEAGKSIPEDYSIIGYDNIDCEYIKPKLTTIAQPIFELGQTSAKLLLDRIQFPEKEWEEKRLPVRFEKRFSTAPLK KTIGVLVPDITNPFFSTLRGIEDILYKQNFVTILCNADSIEYLAELTRRGVDGFIIATSAVSTDAINENLKKQGRPFIVLDQKKSEGFSDAVRTDDFRGGYLAGHLLSLGHQTIALVYPENPPENVHARIEGFKSALDVYQIPHDQLILLPTQFSKQGGYQITAELLDSAATGVFALNDELAFGLYRGLEEAGKSIPEDYSIIGYDNIDCEYIKPKLTTIAQPIFELGQTSAKLLLDRIQFPEKEWEEKRLPVRFEKRFSTAPLK 4rk4-a1-m1-cA_4rk4-a1-m2-cA Crystal structure of LacI family transcriptional regulator from Lactobacillus casei, Target EFI-512911, with bound glucose Q036L9 Q036L9 1.32 X-RAY DIFFRACTION 82 1.0 321967 (Lacticaseibacillus paracasei ATCC 334) 321967 (Lacticaseibacillus paracasei ATCC 334) 270 270 4rk5-a1-m1-cA_4rk5-a1-m2-cA 6chk-a1-m1-cA_6chk-a1-m2-cA TGNIGVLVSRVTNPFFAGLFDAIERELHAHGYQVMITQTYDDPEAEERFLKQLKSRELDGVILASVEAPDRVMAVAKAFPGRVVVVNADVQIPGATSLVLPHYQATRDALDYLFNQGHRRFAYVSGGTISGAHHGQSRTQAFLDFMQAHQLLVAQDLLFGQIHTAKEGQAVGKQLASLAPNVRPDAVFTNSDEVAVGVIDSLLAADVKVPDDIAVMGYDDQPFAPFAKIPLTTVHQPVASMAAAATHELLKGLGRQVAQLHLSLKIRQSA TGNIGVLVSRVTNPFFAGLFDAIERELHAHGYQVMITQTYDDPEAEERFLKQLKSRELDGVILASVEAPDRVMAVAKAFPGRVVVVNADVQIPGATSLVLPHYQATRDALDYLFNQGHRRFAYVSGGTISGAHHGQSRTQAFLDFMQAHQLLVAQDLLFGQIHTAKEGQAVGKQLASLAPNVRPDAVFTNSDEVAVGVIDSLLAADVKVPDDIAVMGYDDQPFAPFAKIPLTTVHQPVASMAAAATHELLKGLGRQVAQLHLSLKIRQSA 4rk6-a1-m1-cB_4rk6-a1-m1-cA Crystal structure of LacI family transcriptional regulator CCPA from Weissella paramesenteroides, Target EFI-512926, with bound glucose C5RBT0 C5RBT0 1.76 X-RAY DIFFRACTION 60 0.996 585506 (Weissella paramesenteroides ATCC 33313) 585506 (Weissella paramesenteroides ATCC 33313) 260 261 4rk7-a1-m1-cA_4rk7-a1-m1-cB RVVGVVVPLIHTNFADEIIKGLYETTISSGYELLITYLDEDEDHQYQVFQTLLSRQVGAVFLSLDIPSWIDKLLEEQISVISLTALLSEQISAVTSNEFENSIVDYLIDGHKNIALVGDTKLTTNISSTRRTNFIKSTDHNLAYENIFLYGNDHSYETGYTSVTTGYDINQLPFTAAIATADVGQGLINASDHGKTVPEDLSIVTIDGLQQTEIARPKLTTVKQDFPEIGRIAQLFLDSPQIIYIPTELIQRDSVLNLNS RVVGVVVPLIHTNFADEIIKGLYETTISSGYELLITYLDEDEDHQYQVFQTLLSRQVGAVFLSLDIPSWIDKLLEEQISVISLTALLSEQISAVTSNEFENSIVDYLIDGHKNIALVGDTKLTTNISSTRRTNFIKSTDHNLAYENIFLYGNDHSYETGYTSVTTGYDINQLPFTAAIATADVGQGLINASDHGKTVPEDLSIVTIDGLQQTEIARPKLTTVKQDFPEIGRIAQLFLDSDEPQIIYIPTELIQRDSVLNLN 4rkh-a1-m1-cF_4rkh-a1-m1-cE Structure of the MSL2 CXC domain bound with a specific MRE sequence P50534 P50534 2 X-RAY DIFFRACTION 16 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 46 51 KPKCRCGISSNTLTTCRNSRCPCYKSYNSCAGCHCVGCKNPHKEDY SPPKPKCRCGISGSSNTLTTCRNSRCPCYKSYNSCAGCHCVGCKNPHKEDY 4rkk-a1-m1-cC_4rkk-a1-m1-cA Structure of a product bound phosphatase O95278 O95278 2.4 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 317 GSHMRFRFGVVVPPAVAGARPELLVVGSRPELGRWEPRGAVRLRPAGTAAGDGALALQEPGLWLGEVELAARVDTFWYKFLKREPGGELSWEGNGPHHDRCCTYNENNLVDGVYCLPIGHWIEATGHTNEMKHTTDFYFNIAGHQAMHYSRILPNIWLGSCPRQVEHVTIKLKHELGITAVMNFQTEWDIVQNSSGCNRYPEPMTPDTMIKLYREEGLAYIWMPTPDMSTEGRVQMLPQAVCLLHALLEKGHIVYVHSNAGVGRSTAAVCGWLQYVMGWNLRKVQYFLMAKRPAVYIDEEALARAQEDFFQKFGK GSHMRFRFGVVVPPAVAGARPELLVVGSRPELGRWEPRGAVRLRPAGTAAGDGALALQEPGLWLGEVELAARVDTFWYKFLKREPGGELSWEGNGPHHDRCCTYNENNLVDGVYCLPIGHWIEATGHTNEMKHTTDFYFNIAGHQAMHYSRILPNIWLGSCPRQVEHVTIKLKHELGITAVMNFQTEWDIVQNSSGCNRYPEPMTPDTMIKLYREEGLAYIWMPTPDMSTEGRVQMLPQAVCLLHALLEKGHIVYVHSNAGVGRSTAAVCGWLQYVMGWNLRKVQYFLMAKRPAVYIDEEALARAQEDFFQKFGKVR 4rkq-a2-m1-cC_4rkq-a2-m1-cD Crystal structure of LacI family transcriptional regulator from Arthrobacter sp. FB24, target EFI-560007 A0K1X3 A0K1X3 1.903 X-RAY DIFFRACTION 104 0.996 290399 (Arthrobacter sp. FB24) 290399 (Arthrobacter sp. FB24) 267 273 4rkq-a1-m1-cB_4rkq-a1-m1-cA 4rkr-a1-m1-cB_4rkr-a1-m1-cA 4rkr-a2-m1-cC_4rkr-a2-m1-cD ARTSVGLAIPDLTNPYFPAFASSVVELATLRGWHVVVDDYGHGGRSGLDAVEHLAPQVDAVIGYLGGYADQAQTVLGRRPLIVLDENPGGAAGSINFDYQHAAKVAVAQLMDSKRQHIAYLEAGSVPCTVRGKAVAGRLDELGASWSLIVAEETAEAAREAAAAFLREHPETDGILAFNDLMAAGVLKALSGSGRRVPEDCAVIGMDGIPLGELLSPQLSTMALDLREVGRAAVELLVGLLSGAVTPGSQSSRTTLKHRLVLRESTE RTSVGLAIPDLTNPYFPAFASSVVELATLRGWHVVVDDYGHGGRSGLDAVEHLAPQVDAVIGYLGGYADQAQTVLGRRPLIVLDENPGGAAGSINFDYQHAAKVAVAQLMDSKRQHIAYLEAGSASESDEPVPCTVRGKAVAGRLDELGASWSLIVAEETAEAAREAAAAFLREHPETDGILAFNDLMAAGVLKALSGSGRRVPEDCAVIGMDGIPLGELLSPQLSTMALDLREVGRAAVELLVGLLSGAVTPGSQSSRTTLKHRLVLRESTE 4rl4-a1-m1-cA_4rl4-a1-m1-cB Crystal structure of GTP cyclohydrolase II from Helicobacter pylori 26695 O08315 O08315 2.199 X-RAY DIFFRACTION 125 0.983 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 173 173 QGHMKRLEVSNQAKLPTQFGEFYIQCFREKGSKDHLVVFTPNFSQNPLVRLHSECLTGDALGSQKCDCGGALQMALERISKEGGLVIYLRQEGRGIGLFNKVNAYALQDKGYDTIQANEMIGFKDDERDYSVAGEILEYYRIKKMRLLTNNPKKIAALEKYAEVTRESLIVCA GHMKRLEVSNQAKLPTQFGEFYIQCFREKGSNGSKDHLVVFTPNFSQNPLVRLHSECLTGDALGSQKCDCGGALQMALERISKEGGLVIYLRQEGRGIGLFNKVNAYALQDKGYDTIQANEMIGFDDERDYSVAGEILEYYRIKKMRLLTNNPKKIAALEKYAEVTRESLIVC 4rl6-a1-m1-cB_4rl6-a1-m1-cA Crystal Structure of the Q04L03_STRP2 protein from Streptococcus pneumoniae. Northeast Structural Genomics Consortium Target SpR105 A0A0H2ZP94 A0A0H2ZP94 2.79 X-RAY DIFFRACTION 39 0.992 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 386 404 SRLLVIGCGGVAQVAISKICQDSETFTEIIASRTKSKCDDLKAKLEGKTSTKIETAALDADKVEEVIALIGSYKPEAVLNVALPYQDLTIDACLATGVHYIDTANYEAEDTEDPEWRAIYEKRCKELGFTAYFDYSWQWAYQEKFKEAGLTALLGSGFDPGVTSVFSAYALKHYFDEIHYIDILDCNFNPEINLREVSAPGSYWEDGKWVEVEASIKREYDFPQVGQKDYLLHHEEIESLAKNIPGVKRIRFFTFGQSYLTHKCLENVGLLRTDGQEIVPIQFLKALLGPRTVGKTNIGCIFTGVKDGVEKTIYIYNVCDHQECYAEVGSQAISYTTGVPAIGTKLVNGTWKQAGVYNLEELDPDPFEALNEYGLPWVVVENPQVD SRLLVIGCGGVAQVAISKICQDSETFTEIIASRTKSKCDDLKAKLEGKTSTKIETAALDADKVEEVIALIGSYKPEAVLNVALPYQDLTIDACLATGVHYIDTANYEAEDTEDPEWRAIYEKRCKELGFTAYFDYSWQWAYQEKFKEAGLTALLGSGFDPGVTSVFSAYALKHYFDEIHYIDILDCNGGDHGYPFATNFNPEINLREVSAPGSYWEDGKWVEVEASIKREYDFPQVGQKDYLLHHEEIESLAKNIPGVKRIRFFTFGQSYLTHKCLENVGLLRTDTINFIVPIQFLKALLPDPASLGPRTVGKTNIGCIFTGVKDGVEKTIYIYNVCDHQECYAEVGSQAISYTTGVPAIGTKLVNGTWKQAGVYNLEELDPDPFEALNEYGLPWVVVENPQVD 4rld-a6-m1-cD_4rld-a6-m1-cC Crystal structure of kkf mutant of bla G 2 protein P54958 P54958 2.9 X-RAY DIFFRACTION 51 1.0 6973 (Blattella germanica) 6973 (Blattella germanica) 330 330 4rld-a5-m1-cB_4rld-a5-m1-cA GASIVPLYKLVHVFINTQYAGITKIGNQNFLTVFDSTSCNVVVASQECVGGACVCPNLQKYEKLKPKYISDGNVQVKFFDTGSAVGRGIEDSLTISQLTTSQQDIVLADELSQEVCILSADVVVGIAAPGCPNALAGKTVLENFVEENLIAPVFSIHHARFQDGEHYGEIIFGGSDWKYVDGEFTYVPLVGDDSWKFRLDGVKIGDTTVAPAGTQAIIDTSKAIIVGPKAYVNPINEAIGCVVEKTTTRRICKLDCSAIPSLPDVTFVINGRNFNISSQYYIQQNGNLCYSGFQPCGHSDHFFIGDFFVDHYYSEFNWENKTMGFGRSVE GASIVPLYKLVHVFINTQYAGITKIGNQNFLTVFDSTSCNVVVASQECVGGACVCPNLQKYEKLKPKYISDGNVQVKFFDTGSAVGRGIEDSLTISQLTTSQQDIVLADELSQEVCILSADVVVGIAAPGCPNALAGKTVLENFVEENLIAPVFSIHHARFQDGEHYGEIIFGGSDWKYVDGEFTYVPLVGDDSWKFRLDGVKIGDTTVAPAGTQAIIDTSKAIIVGPKAYVNPINEAIGCVVEKTTTRRICKLDCSAIPSLPDVTFVINGRNFNISSQYYIQQNGNLCYSGFQPCGHSDHFFIGDFFVDHYYSEFNWENKTMGFGRSVE 4rle-a1-m2-cA_4rle-a1-m3-cA Crystal structure of the c-di-AMP binding PII-like protein DarA P37538 P37538 1.3 X-RAY DIFFRACTION 76 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 116 116 4rle-a1-m1-cA_4rle-a1-m2-cA 4rle-a1-m1-cA_4rle-a1-m3-cA HHHHHGSMKLIVAVVQDQDSNRLLKTLTDHNFRVTKLATTGGFLKSGNTTFMIGVEDIRVNKALSLIKENGQKRDQMIAPVSPMGGNADSYVPYPVEVEVGGATVFVLPVDEFHQF HHHHHGSMKLIVAVVQDQDSNRLLKTLTDHNFRVTKLATTGGFLKSGNTTFMIGVEDIRVNKALSLIKENGQKRDQMIAPVSPMGGNADSYVPYPVEVEVGGATVFVLPVDEFHQF 4rlj-a1-m1-cB_4rlj-a1-m2-cB Crystal Structure of (3R)-hydroxyacyl-ACP dehydratase HadAB hetero-dimer from Mycobacterium tuberculosis I6WYY7 I6WYY7 1.75 X-RAY DIFFRACTION 36 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 147 147 4rlt-a1-m1-cB_4rlt-a1-m2-cB 4rlu-a1-m1-cB_4rlu-a1-m2-cB 4rlw-a1-m1-cB_4rlw-a1-m2-cB 5zy8-a1-m1-cB_5zy8-a1-m1-cD GPLGSMALREFSSVKVGDQLPEKTYPLTRQDLVNYAGVSGDLNPIHWDDEIAKVVGLDTAIAHGMLTMGIGGGYVTSWVGDPGAVTEYNVRFTAVVPVPNDGKGAELVFNGRVKSVDPESKSVTIALTATTGGKKIFGRAIASAKLA GPLGSMALREFSSVKVGDQLPEKTYPLTRQDLVNYAGVSGDLNPIHWDDEIAKVVGLDTAIAHGMLTMGIGGGYVTSWVGDPGAVTEYNVRFTAVVPVPNDGKGAELVFNGRVKSVDPESKSVTIALTATTGGKKIFGRAIASAKLA 4rlo-a3-m1-cB_4rlo-a3-m1-cA Human p70s6k1 with ruthenium-based inhibitor EM5 P23443 P23443 2.527 X-RAY DIFFRACTION 128 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 254 259 3a60-a1-m1-cB_3a60-a1-m1-cA 4rlp-a2-m1-cA_4rlp-a2-m2-cA KIRPECFELLRVLGKGGYGKVFQVRKVTGANTGKIFAMKVLKKKHPFIVDLIYAFQTGGKLYLILEYLSGGELFMQLEREGIFMEDTACFYLAEISMALGHLHQKGIIYRDLKPENIMLNHQGHVKLTDFGLCKESITIEYMAPEILMRSGHNRAVDWWSLGALMYDMLTGAPPFTGENRKKTIDKILKCKLNLPPYLTQEARDLLKKLLKRNAASRLGAGPGDAGEVQAHPFFRHINWEELLARKVEPPFKPL KIRPECFELLRVLGKGGYGKVFQVRKVTGANTGKIFAMKVLKKAERNILEEVKHPFIVDLIYAFQTKLYLILEYLSGGELFMQLEREGIFMEDTACFYLAEISMALGHLHQKGIIYRDLKPENIMLNHQGHVKLTDFGLCKEGTIEYMAPEILMRSGHNRAVDWWSLGALMYDMLTGAPPFTGENRKKTIDKILKCKLNLPPYLTQEARDLLKKLLKRNAASRLGAGPGDAGEVQAHPFFRHINWEELLARKVEPPFKP 4rlr-a2-m1-cA_4rlr-a2-m2-cA Structure of monoheme cytochrome PccH from Geobacter sulfurreducens Q747J2 Q747J2 2.002 X-RAY DIFFRACTION 49 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 126 126 GEVTYRKDIKPIFDVRCAGCHGADAAPEYHAFKAEKEKWLAKGQGMRMDTYSHLIFYTAWPDTGALMRRLDDGKDAKPGNMYRHLGATEEERQRNLAVFKAWVGVWNLKKWPDITKEELNAITVTY GEVTYRKDIKPIFDVRCAGCHGADAAPEYHAFKAEKEKWLAKGQGMRMDTYSHLIFYTAWPDTGALMRRLDDGKDAKPGNMYRHLGATEEERQRNLAVFKAWVGVWNLKKWPDITKEELNAITVTY 4rlw-a1-m1-cA_4rlw-a1-m2-cA Crystal Structure of (3R)-hydroxyacyl-ACP dehydratase HadAB hetero-dimer from Mycobacterium tuberculosis complexed with Butein P9WFK1 P9WFK1 2.196 X-RAY DIFFRACTION 16 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 153 153 4rlj-a1-m1-cA_4rlj-a1-m2-cA 4rlt-a1-m1-cA_4rlt-a1-m2-cA 4rlu-a1-m1-cA_4rlu-a1-m2-cA VALSADIVGMHYRYPDHYEVEREKIREYAVAVQNDDAWYFEEDGAAELGYKGLLAPLTFICVFGYKAQAAFFKHANIATAEAQIVQVDQVLKFEKPIVAGDKLYCDVYVDSVREAHGTQIIVTKNIVTNEEGDLVQETYTTLAGRAGEGFSDG VALSADIVGMHYRYPDHYEVEREKIREYAVAVQNDDAWYFEEDGAAELGYKGLLAPLTFICVFGYKAQAAFFKHANIATAEAQIVQVDQVLKFEKPIVAGDKLYCDVYVDSVREAHGTQIIVTKNIVTNEEGDLVQETYTTLAGRAGEGFSDG 4rly-a2-m1-cA_4rly-a2-m2-cA Crystal Structure of AnkB Ankyrin Repeats (R1-R9) in Complex with Nav1.2 Ankyrin Binding Domain Q01484 Q01484 2.5032 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 308 308 STVTVPIAVGESDFENLNTESDSNASFLRAARAGNLDKVVEYLKGGIDINTCNQNGLNALHLAAKEGHVGLVQELLGRGSSVDSATKKGNTALHIASLAGQAEVVKVLVKEGANINAQSQNGFTPLYMAAQENHIDVVKYLLENGANQSTATEDGFTPLAVALQQGHNQAVAILLENDTKRLPALHIAARKDDTKSAALLLQNDHNQSKMMVNRTTESGFTPLHIAAHYGNVNVATLLLNRGAAVDFTARNGITPLHVASKRGNTNMVKLLLDRGGQIDAKTRDGLTPLHCAARSGHDQVVELLKVVT STVTVPIAVGESDFENLNTESDSNASFLRAARAGNLDKVVEYLKGGIDINTCNQNGLNALHLAAKEGHVGLVQELLGRGSSVDSATKKGNTALHIASLAGQAEVVKVLVKEGANINAQSQNGFTPLYMAAQENHIDVVKYLLENGANQSTATEDGFTPLAVALQQGHNQAVAILLENDTKRLPALHIAARKDDTKSAALLLQNDHNQSKMMVNRTTESGFTPLHIAAHYGNVNVATLLLNRGAAVDFTARNGITPLHVASKRGNTNMVKLLLDRGGQIDAKTRDGLTPLHCAARSGHDQVVELLKVVT 4rlz-a1-m1-cA_4rlz-a1-m1-cB Crystal structure of Norovirus OIF P domain Q6B7R3 Q6B7R3 1.19 X-RAY DIFFRACTION 172 1.0 286545 (Norovirus NLV/IF1998/2003/Iraq) 286545 (Norovirus NLV/IF1998/2003/Iraq) 306 307 4rm0-a1-m1-cB_4rm0-a1-m1-cA TKPFTLPILTIGELTNSRFPAPIDQLYTSPNADVVVQPQNGRCSLDGELQGTTQLLTTAICSYRGMTSNPTRDYWDGHLLHLVHPNGATYDPTEDVPAPFGTQDFRGILYGVLTQNPRASGDEAANSQGVYISSTSEKFTPKLGTIGLHQVQGNIASNQQSKFTPVGIAVNGNTPFRQWELPNYSGALTLNTNLAPAVGPNFPGEQILFFRSNVPSVQGGQPIEIDCLIPQEWVSHFYQESAPSQSDVALVRYVNPDTGRTIFEAKLHRQGFITIAATGSNPVVVPPNGYFRFDSWVNQFYALAPM KTKPFTLPILTIGELTNSRFPAPIDQLYTSPNADVVVQPQNGRCSLDGELQGTTQLLTTAICSYRGMTSNPTRDYWDGHLLHLVHPNGATYDPTEDVPAPFGTQDFRGILYGVLTQNPRASGDEAANSQGVYISSTSEKFTPKLGTIGLHQVQGNIASNQQSKFTPVGIAVNGNTPFRQWELPNYSGALTLNTNLAPAVGPNFPGEQILFFRSNVPSVQGGQPIEIDCLIPQEWVSHFYQESAPSQSDVALVRYVNPDTGRTIFEAKLHRQGFITIAATGSNPVVVPPNGYFRFDSWVNQFYALAPM 4rm1-a2-m1-cD_4rm1-a2-m1-cC The crystal structure of Y333Q mutant pyridoxal-dependent decarboxylase from Sphaerobacter thermophilus DSM 20745 D1C7D8 D1C7D8 1.99 X-RAY DIFFRACTION 558 0.996 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 469 475 4rit-a1-m1-cA_4rit-a1-m1-cB 4riz-a1-m1-cA_4riz-a1-m1-cB 4riz-a2-m1-cD_4riz-a2-m1-cC 4rj0-a1-m1-cA_4rj0-a1-m1-cB 4rj0-a2-m1-cC_4rj0-a2-m1-cD 4rlg-a1-m1-cB_4rlg-a1-m1-cA 4rlg-a2-m1-cC_4rlg-a2-m1-cD 4rm1-a1-m1-cB_4rm1-a1-m1-cA FLPATAFIDPEGRNRNEVERLVQQVVDLILAKLTGAAERPPMPETVPGPITIPEAAATEATLLQAIRDMVDGSMNPANPGYIGHMDPMPATMAILGDLVAAAVNNNMLSLEMSPSFSRLETLLLRAIAGLFGLGEQAGGVLTSGGSLANLQALAVARNVAFDSVEPGITGLAQRPVIFASEAAHTSLQKAAMLLGLGTAAVIPVRATADSRMDPEDLRARIDQARGAGQHPFCVVATAGTTTTGNIDPLAEIGAIAREHGLWFHVDAAYGGALVFSERHRWRLAGIEQADSITFNPQWLYVAKTCAMVLFRDAGVLERAFRIPAPQMRATDGFINLGEIGVQGTRHADVVKLWLTLQHIGQQGYARLIDDGYRLAERVVEGVRQRPFLRLAGEIDTNIVCFRGEPDWLPAERWDDWNAALQALLLREGKIFLSLPVYRGGRWLRAVLLNPYTTDAVIDAMFKQIDRFAG NAMDSRFLPATAFIDPEGRNRNEVERLVQQVVDLILAKLTGAAERPPMPETLPGPITIPEAAATEATLLQAIRDMVDGSMNPANPGYIGHMDPMPATMAILGDLVAAAVNNNMLSLEMSPSFSRLETLLLRAIAGLFGLGEQAGGVLTSGGSLANLQALAVARNVAFDSVEPGITGLAQRPVIFASEAAHTSLQKAAMLLGLGTAAVIPVRATADSRMDPEDLRARIDQARGAGQHPFCVVATAGTTTTGNIDPLAEIGAIAREHGLWFHVDAAYGGALVFSERHRWRLAGIEQADSITFNPQWLYVAKTCAMVLFRDAGVLERAFRIPAPQMRADGFINLGEIGVQGTRHADVVKLWLTLQHIGQQGYARLIDDGYRLAERVVEGVRQRPFLRLAGEIDTNIVCFRGEPDWLPAERWDDWNAALQALLLREGKIFLSLPVYRGGRWLRAVLLNPYTTDAVIDAMFKQIDRFAGR 4rm7-a1-m1-cA_4rm7-a1-m4-cA The crystal structure of acyl-COA dehydrogenase from Slackia heliotrinireducens DSM 20476 C7N4Y3 C7N4Y3 2.529 X-RAY DIFFRACTION 63 1.0 471855 (Slackia heliotrinireducens DSM 20476) 471855 (Slackia heliotrinireducens DSM 20476) 362 362 4rm7-a1-m2-cA_4rm7-a1-m3-cA NAYDGLSRDEQRLLNHVREYGEKYFTPASISKWRKDQGLPDEVVKAFVDLDFNGFGVIHRRNHRTYDLFAQVLVIEELSRISGACLPFQNDLLQLQILEAFASSAQTSPFRTEYQDTGRLSYALAISEPERTHVTREGDTLVNGTKFVNNGEYAPALLVSAYDKTGDDPEFSFWVPRSAAGIYAYPEQKIGQSLPFATVRFDNVEVKESWRLKGSSKGFSQLYSLLEYGRVFTCAAALGEAQAAEDAVAWARGREAQRIADLQQVQKLTEEVKLTNRNLVYGAAREYDRGEHKRLSVALKYYVPKAATEVASDAQILGGRGYIQENRVSSIWQDCRGYQFADGTDEVVVIAAPLILEQYKAS NAYDGLSRDEQRLLNHVREYGEKYFTPASISKWRKDQGLPDEVVKAFVDLDFNGFGVIHRRNHRTYDLFAQVLVIEELSRISGACLPFQNDLLQLQILEAFASSAQTSPFRTEYQDTGRLSYALAISEPERTHVTREGDTLVNGTKFVNNGEYAPALLVSAYDKTGDDPEFSFWVPRSAAGIYAYPEQKIGQSLPFATVRFDNVEVKESWRLKGSSKGFSQLYSLLEYGRVFTCAAALGEAQAAEDAVAWARGREAQRIADLQQVQKLTEEVKLTNRNLVYGAAREYDRGEHKRLSVALKYYVPKAATEVASDAQILGGRGYIQENRVSSIWQDCRGYQFADGTDEVVVIAAPLILEQYKAS 4rm7-a1-m2-cA_4rm7-a1-m4-cA The crystal structure of acyl-COA dehydrogenase from Slackia heliotrinireducens DSM 20476 C7N4Y3 C7N4Y3 2.529 X-RAY DIFFRACTION 102 1.0 471855 (Slackia heliotrinireducens DSM 20476) 471855 (Slackia heliotrinireducens DSM 20476) 362 362 4rm7-a1-m1-cA_4rm7-a1-m3-cA NAYDGLSRDEQRLLNHVREYGEKYFTPASISKWRKDQGLPDEVVKAFVDLDFNGFGVIHRRNHRTYDLFAQVLVIEELSRISGACLPFQNDLLQLQILEAFASSAQTSPFRTEYQDTGRLSYALAISEPERTHVTREGDTLVNGTKFVNNGEYAPALLVSAYDKTGDDPEFSFWVPRSAAGIYAYPEQKIGQSLPFATVRFDNVEVKESWRLKGSSKGFSQLYSLLEYGRVFTCAAALGEAQAAEDAVAWARGREAQRIADLQQVQKLTEEVKLTNRNLVYGAAREYDRGEHKRLSVALKYYVPKAATEVASDAQILGGRGYIQENRVSSIWQDCRGYQFADGTDEVVVIAAPLILEQYKAS NAYDGLSRDEQRLLNHVREYGEKYFTPASISKWRKDQGLPDEVVKAFVDLDFNGFGVIHRRNHRTYDLFAQVLVIEELSRISGACLPFQNDLLQLQILEAFASSAQTSPFRTEYQDTGRLSYALAISEPERTHVTREGDTLVNGTKFVNNGEYAPALLVSAYDKTGDDPEFSFWVPRSAAGIYAYPEQKIGQSLPFATVRFDNVEVKESWRLKGSSKGFSQLYSLLEYGRVFTCAAALGEAQAAEDAVAWARGREAQRIADLQQVQKLTEEVKLTNRNLVYGAAREYDRGEHKRLSVALKYYVPKAATEVASDAQILGGRGYIQENRVSSIWQDCRGYQFADGTDEVVVIAAPLILEQYKAS 4rmb-a1-m1-cA_4rmb-a1-m1-cB Crystal structure of keratin 4 binding domain of surface adhesin Srr-1 of S.agalactiae Q8E473 Q8E473 1.7 X-RAY DIFFRACTION 199 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 141 155 QTETYITQINPEGKEMYFASGLGNLYTIIGSDGSPVNLLNAEVKILKTNSKNLTNYDSPEFEDVTSQYSYTNDGSKITIDWKTNSISSTTSYVVLVKIPKQSGVLYSTVSDINQTYGSKYSYGHTNISGDSDANAEIKLLS RQTETYITQINPEGKEMYFASGLGNLYTIIGSDGSPVNLLNAEVKILKTNSKNLTDSMDQNYDSPEFEDVTSQYSYTNDGSKITIDWKTNSISSTTSYVVLVKIPKQSGVLYSTVSDINQTYGSKYSYGHTNISGDSDANAEIKLLSLEHHHHHH 4rmf-a1-m1-cA_4rmf-a1-m2-cA Biochemical and structural characterization of mycobacterial aspartyl-tRNA synthetase AspS, a promising TB drug target A0QWN3 A0QWN3 2.4 X-RAY DIFFRACTION 299 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 579 579 4o2d-a1-m1-cB_4o2d-a1-m1-cA LRTHAAGSLRPADAGQTVTLAGWVARRRDHGGVIFIDLRDASGVSQVVFREGDVLAAAHRLRAEFCVAVTGVVEVRPEGNENPEIPTGQIEVNATELTVLGESAPLPFQLDEQAGEEARLKYRYLDLRREGPGNALRLRSKVNAAARSVLAEHDFVEIETPTLTRSTPEGARDFLVPARLQPGSFYALPQSPQLFKQLLMVAGMERYYQIARCYRDEDFRADRQPEFTQLDMEMSFVEADDVIAISEQVLKAVWATIGYDLPLPLPRISYEEAMRRFGSDKPDLRFGIELVECTEYFKDTTFRVFQAPYVGAVVMPGGASQPRRTLDGWQEFAKQRGHKGLAYVLVGEDGTLGGPVAKNLSDAERDGLVAHVGANPGDCIFFAAGPAKGARALLGATRIEIAKRLDLIDPNAWAFTWVVDFPMFEAADEATAAGDVAVGSGAWTAMHHAFTAPKPDSVDTFDSDPGNALSDAYDIVCNGNEIGGGSIRIHRRDIQERVFAMMGIDHDEAQEKFGFLLDAFSYGAPPHGGIAFGWDRITALLAGVDSIREVIAFPKSGGGVDPLTDAPAPITPQQRKESG LRTHAAGSLRPADAGQTVTLAGWVARRRDHGGVIFIDLRDASGVSQVVFREGDVLAAAHRLRAEFCVAVTGVVEVRPEGNENPEIPTGQIEVNATELTVLGESAPLPFQLDEQAGEEARLKYRYLDLRREGPGNALRLRSKVNAAARSVLAEHDFVEIETPTLTRSTPEGARDFLVPARLQPGSFYALPQSPQLFKQLLMVAGMERYYQIARCYRDEDFRADRQPEFTQLDMEMSFVEADDVIAISEQVLKAVWATIGYDLPLPLPRISYEEAMRRFGSDKPDLRFGIELVECTEYFKDTTFRVFQAPYVGAVVMPGGASQPRRTLDGWQEFAKQRGHKGLAYVLVGEDGTLGGPVAKNLSDAERDGLVAHVGANPGDCIFFAAGPAKGARALLGATRIEIAKRLDLIDPNAWAFTWVVDFPMFEAADEATAAGDVAVGSGAWTAMHHAFTAPKPDSVDTFDSDPGNALSDAYDIVCNGNEIGGGSIRIHRRDIQERVFAMMGIDHDEAQEKFGFLLDAFSYGAPPHGGIAFGWDRITALLAGVDSIREVIAFPKSGGGVDPLTDAPAPITPQQRKESG 4rmm-a1-m1-cA_4rmm-a1-m2-cA Crystal Structure of the Q7NVP2_CHRVO protein from Chromobacterium violaceum. Northeast Structural Genomics Consortium Target CvR191 Q7NVP2 Q7NVP2 2.2 X-RAY DIFFRACTION 71 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 130 130 QRFADLRDRKAYAEIVDALPYVKLGTSAEDEQGELRFELPFLQPALHGGLIGGFESAAIHLWNRESLEAPKIVDFSLDYLRPGRPQTLFAQCEITKQGKRVAHVLIEAWQDDRSKPVAVARAHFLLTNLE QRFADLRDRKAYAEIVDALPYVKLGTSAEDEQGELRFELPFLQPALHGGLIGGFESAAIHLWNRESLEAPKIVDFSLDYLRPGRPQTLFAQCEITKQGKRVAHVLIEAWQDDRSKPVAVARAHFLLTNLE 4rna-a1-m1-cA_4rna-a1-m2-cA Crystal structure of PLpro from Middle East Respiratory Syndrome (MERS) coronavirus K4LC41 K4LC41 1.794 X-RAY DIFFRACTION 121 1.0 1235996 (Human betacoronavirus 2c EMC/2012) 1235996 (Human betacoronavirus 2c EMC/2012) 319 319 4p16-a1-m1-cA_4p16-a1-m2-cA 4pt5-a1-m1-cA_4pt5-a1-m2-cA LTIEVLVTVDGVNFRTVVLNNKNTYRSQLGCVFFNGADISDTIPDEKQNGHSLYLADNLTADETKALKELYGPVDPTFLHRFYSLKAAVHGWKMVVDKVRSLKLSDNNYLNAVIMTLDLLKDIKFVIPALQHAFMKHKGGDSTDFIALIMAYGNCTFGAPDDASRLLHTVLAKAELCCSARMVWREWCNVCGIKDVVLQGLKACCYVGVQTVEDLRARMTYVCQCGGERHRQLVEHTTPWLLLSGTPNEKLVTTSTAPDFVAFNVFQGIETAVGHYVHARLKGGLILKFDSGTVSKTSDWKCKVTDVLFPGQKYSSDCN LTIEVLVTVDGVNFRTVVLNNKNTYRSQLGCVFFNGADISDTIPDEKQNGHSLYLADNLTADETKALKELYGPVDPTFLHRFYSLKAAVHGWKMVVDKVRSLKLSDNNYLNAVIMTLDLLKDIKFVIPALQHAFMKHKGGDSTDFIALIMAYGNCTFGAPDDASRLLHTVLAKAELCCSARMVWREWCNVCGIKDVVLQGLKACCYVGVQTVEDLRARMTYVCQCGGERHRQLVEHTTPWLLLSGTPNEKLVTTSTAPDFVAFNVFQGIETAVGHYVHARLKGGLILKFDSGTVSKTSDWKCKVTDVLFPGQKYSSDCN 4rnc-a2-m1-cC_4rnc-a2-m2-cC Crystal structure of an esterase RhEst1 from Rhodococcus sp. ECU1013 A0A088CB91 A0A088CB91 1.95 X-RAY DIFFRACTION 81 1.0 1213589 (Rhodococcus sp. ECU1013) 1213589 (Rhodococcus sp. ECU1013) 275 275 4rnc-a1-m1-cB_4rnc-a1-m1-cA MSIREAVSVDGTSIVYRVTGNSAGTPLVLLHGWAQSSQCWGEQVLADLAADYRLIAVDLRGHGYSDAPESGYDDSANWAGDVAAVLAAEGVTENAILLGWSYGGLVICDYLAAHGTGAVAGAVLVGAITSIGRGEKGGKVGSAMRSAVPGAMSEDPREAIRALGAFGNALTGPPEGKGAASQALFGYSLSTRPRVRAALFNRAVGHDELLRNLDIPVLVLHGTDDSVVDVSAGKHAEELIPKSQASYWVGCNHGPFVEDPTRFVSEVRTFISSLG MSIREAVSVDGTSIVYRVTGNSAGTPLVLLHGWAQSSQCWGEQVLADLAADYRLIAVDLRGHGYSDAPESGYDDSANWAGDVAAVLAAEGVTENAILLGWSYGGLVICDYLAAHGTGAVAGAVLVGAITSIGRGEKGGKVGSAMRSAVPGAMSEDPREAIRALGAFGNALTGPPEGKGAASQALFGYSLSTRPRVRAALFNRAVGHDELLRNLDIPVLVLHGTDDSVVDVSAGKHAEELIPKSQASYWVGCNHGPFVEDPTRFVSEVRTFISSLG 4rnd-a1-m1-cC_4rnd-a1-m1-cA Crystal Structure of the subunit DF-assembly of the eukaryotic V-ATPase. P32610 P32610 3.18 X-RAY DIFFRACTION 188 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 167 178 EALTKRFRDITKRIDDAKQKMGRVMQTAAFSLAEVSYATGENIGYQVQESVSTARFKVRARQENVSGVYLSQFESYIDPEINDFRLTGLGRGGQQVQRAKEIYSRAVETLVELASLQTAFIILDEVIKVTNRRVNAIEHVIIPRTENTIAYINSELDELDREEFYRL QGYSLLKRKSEALTKRFRDITKRIDDAKQKMGRVMQTAAFSLAEVSYATGENIGYQVQESVSTARFKVRARQENVSGVYLSQFESYIDPEINDFRLTGLGRGGQQVQRAKEIYSRAVETLVELASLQTAFIILDEVIKVTNRRVNAIEHVIIPRTENTIAYINSELDELDREEFYRLK 4rng-a4-m1-cE_4rng-a4-m2-cA Crystal structure of a bacterial homologue of SWEET transporters B5YGD6 B5YGD6 2.4 X-RAY DIFFRACTION 11 1.0 289376 (Thermodesulfovibrio yellowstonii DSM 11347) 289376 (Thermodesulfovibrio yellowstonii DSM 11347) 82 82 4rng-a4-m1-cB_4rng-a4-m1-cF DLNNLIGIIAGAITTSALIPQALKIYKTKSARDVSLAMFIFMAIGITLWFFYGVLIKEIPVILANLISLILIFLIIFMKIRY DLNNLIGIIAGAITTSALIPQALKIYKTKSARDVSLAMFIFMAIGITLWFFYGVLIKEIPVILANLISLILIFLIIFMKIRY 4rng-a4-m1-cF_4rng-a4-m2-cA Crystal structure of a bacterial homologue of SWEET transporters B5YGD6 B5YGD6 2.4 X-RAY DIFFRACTION 14 1.0 289376 (Thermodesulfovibrio yellowstonii DSM 11347) 289376 (Thermodesulfovibrio yellowstonii DSM 11347) 82 82 4rng-a4-m1-cB_4rng-a4-m1-cE DLNNLIGIIAGAITTSALIPQALKIYKTKSARDVSLAMFIFMAIGITLWFFYGVLIKEIPVILANLISLILIFLIIFMKIRY DLNNLIGIIAGAITTSALIPQALKIYKTKSARDVSLAMFIFMAIGITLWFFYGVLIKEIPVILANLISLILIFLIIFMKIRY 4rng-a4-m2-cA_4rng-a4-m2-cC Crystal structure of a bacterial homologue of SWEET transporters B5YGD6 B5YGD6 2.4 X-RAY DIFFRACTION 124 1.0 289376 (Thermodesulfovibrio yellowstonii DSM 11347) 289376 (Thermodesulfovibrio yellowstonii DSM 11347) 82 83 4rng-a1-m1-cA_4rng-a1-m1-cC 4rng-a2-m1-cB_4rng-a2-m1-cD 4rng-a3-m1-cE_4rng-a3-m1-cF 4rng-a4-m1-cB_4rng-a4-m1-cD 4rng-a4-m1-cE_4rng-a4-m1-cF DLNNLIGIIAGAITTSALIPQALKIYKTKSARDVSLAMFIFMAIGITLWFFYGVLIKEIPVILANLISLILIFLIIFMKIRY DLNNLIGIIAGAITTSALIPQALKIYKTKSARDVSLAMFIFMAIGITLWFFYGVLIKEIPVILANLISLILIFLIIFMKIRYG 4rni-a1-m1-cA_4rni-a1-m1-cB PaMorA dimeric phosphodiesterase. apo form Q9HVI8 Q9HVI8 2.17 X-RAY DIFFRACTION 69 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 253 254 4rnh-a1-m1-cA_4rnh-a1-m2-cA RLELESDLRRALELGEFVLHYQPQFTGDGRRLTGAEALLRWQHPRRGLVPPSEFIPVLEEIGLVAQVGDWLLAEACKQLRSWHKAKVRVPKVSVNLSARQFADGQLGERIAAILYETGIPPACLELELTESILMSDVAEAMQILSGLKRLGLAIAVDDFGTGYSSLNYLKQFPIDVLKIDRSFVDGLPHGEQDAQIARAIIAMAHSLNLMVIAEGVESQAQLDFLREHGCDEVQGYLFGRPMPAEQFGMLYAS ERLELESDLRRALELGEFVLHYQPQFTGDGRRLTGAEALLRWQHPRRGLVPPSEFIPVLEEIGLVAQVGDWLLAEACKQLRSWHKAKVRVPKVSVNLSARQFADGQLGERIAAILYETGIPPACLELELTESILMSDVAEAMQILSGLKRLGLAIAVDDFGTGYSSLNYLKQFPIDVLKIDRSFVDGLPHGEQDAQIARAIIAMAHSLNLMVIAEGVESQAQLDFLREHGCDEVQGYLFGRPMPAEQFGMLYAS 4rnj-a1-m1-cB_4rnj-a1-m1-cA PaMorA phosphodiesterase domain, apo form Q9HVI8 Q9HVI8 2.32 X-RAY DIFFRACTION 32 0.984 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 254 255 NARALERLELESDLRRALELGEFVLHYQPQFTGDGRRLTGAEALLRWQHPRRGLVPPSEFIPVLEEIGLVAQVGDWLLAEACKQLRSWHKAKVRVPKVSVNLSARQFADGQLGERIAAILYETGIPPACLELELTESILMSDVAEAMQILSGLKRLGLAIAVDYSSLNYLKQFPIDVLKIDRSFVDGLPHGEQDAQIARAIIAMAHSLNLMVIAEGVESQAQLDFLREHGCDEVQGYLFGRPMPAEQFGMLYAS ALERLELESDLRRALELGEFVLHYQPQFTGDGRRLTGAEALLRWQHPRRGLVPPSEFIPVLEEIGLVAQVGDWLLAEACKQLRSWHKAKVRVPKVSVNLSARQFADGQLGERIAAILYETGIPPACLELELTESILMSDVAEAMQILSGLKRLGLAIAVDDFGTGYSSLNYLKQFPIDVLKIDRSFVDGLPHGEQDAQIARAIIAMAHSLNLMVIAEGVESQAQLDFLREHGCDEVQGYLFGRPMPAEQFGMLYA 4rny-a3-m1-cA_4rny-a3-m1-cB Structure of Helicobacter pylori Csd3 from the orthorhombic crystal O25247 O25247 2 X-RAY DIFFRACTION 46 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 359 359 MERLVWDKLTLLGFLEKNHIPQKLYYNLSSQDKELSAEIQSNVTYYTLRDANNTLIQALIPISQDLQIHIYKKGEDYFLDFIPIIFTRKEKTLLLSLQTSPYQDIIKATNDPLLANQLMNAYKKSVPFKRLVKNDKIAIVYTRDYRVGQAFGQPTIKMAMVSSRSNQYYLFSHSNGHYYDSKAQEVAGFLLETPVKYTRISSPFSYGRFHPVLKVRRPHYGVDYAAKHGSLIHSASDGRVGFMGVKAGYGKVVEIHLNELRLVYAHMSAFANGLKKGSFVKKGQIIGRVGSTGPHLHFGVYKNSRPINPLGYIRTAKSKLHGKQREVFLEKAQRSKQKLEELLKTHSFEKNSFYLLEGF MERLVWDKLTLLGFLEKNHIPQKLYYNLSSQDKELSAEIQSNVTYYTLRDANNTLIQALIPISQDLQIHIYKKGEDYFLDFIPIIFTRKEKTLLLSLQTSPYQDIIKATNDPLLANQLMNAYKKSVPFKRLVKNDKIAIVYTRDYRVGQAFGQPTIKMAMVSSRSNQYYLFSHSNGHYYDSKAQEVAGFLLETPVKYTRISSPFSYGRFHPVLKVRRPHYGVDYAAKHGSLIHSASDGRVGFMGVKAGYGKVVEIHLNELRLVYAHMSAFANGLKKGSFVKKGQIIGRVGSTGPHLHFGVYKNSRPINPLGYIRTAKSKLHGKQREVFLEKAQRSKQKLEELLKTHSFEKNSFYLLEGF 4ro3-a1-m1-cB_4ro3-a1-m1-cA 1.8 Angstrom Crystal Structure of the N-terminal Domain of Protein with Unknown Function from Vibrio cholerae. M1RHE3 M1RHE3 1.8 X-RAY DIFFRACTION 71 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 112 113 SKFYQINTTLLESNEAVNKQTGEVVPLSPETKLVYAYLNQYRYRKYGNRRYTESWDKIFTVCCDVAAQKQKRLAKELTTLGLIEVIGNKNAYKVVHSVESIIETWEFTNSKL SKFYQINTTLLESNEAVNKQTGEVVPLSPETKLVYAYLNQYRYRKYGNRRYTESWDKIFTVCCDVAAQKQKRLAKELTTLGLIEVIGNKNAYKVVHSVESIIETWEFTNSKLN 4rot-a1-m1-cA_4rot-a1-m4-cA Crystal structure of esterase A from Streptococcus pyogenes 1.8 X-RAY DIFFRACTION 61 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 268 268 4rot-a1-m2-cA_4rot-a1-m3-cA NLYFQGAMASIAIEYHSVVLGMERKVNVIYPDQSEIPKKDQGDKDIPVLYLLHGMGGNENSWQKRTAIERLLRHTNLIVVMPSTDLGWYTDTAYGLNYYRALSQELPQVLAAFFPNMTQKREKTFVAGLSMGGYGAFKWALKSNRFSYAASFSGALDFSPETNLEGNLGELAYWQGVFGQFEDPDLDKHYLKNMVAESDGKTKFYAWCGYEDFLFATNEKAIADFQAQGLDIDYHKGHGKHEWYYWNQQLEVLLEWLPINYQKEERLS NLYFQGAMASIAIEYHSVVLGMERKVNVIYPDQSEIPKKDQGDKDIPVLYLLHGMGGNENSWQKRTAIERLLRHTNLIVVMPSTDLGWYTDTAYGLNYYRALSQELPQVLAAFFPNMTQKREKTFVAGLSMGGYGAFKWALKSNRFSYAASFSGALDFSPETNLEGNLGELAYWQGVFGQFEDPDLDKHYLKNMVAESDGKTKFYAWCGYEDFLFATNEKAIADFQAQGLDIDYHKGHGKHEWYYWNQQLEVLLEWLPINYQKEERLS 4rot-a1-m2-cA_4rot-a1-m4-cA Crystal structure of esterase A from Streptococcus pyogenes 1.8 X-RAY DIFFRACTION 65 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 268 268 4rot-a1-m1-cA_4rot-a1-m3-cA NLYFQGAMASIAIEYHSVVLGMERKVNVIYPDQSEIPKKDQGDKDIPVLYLLHGMGGNENSWQKRTAIERLLRHTNLIVVMPSTDLGWYTDTAYGLNYYRALSQELPQVLAAFFPNMTQKREKTFVAGLSMGGYGAFKWALKSNRFSYAASFSGALDFSPETNLEGNLGELAYWQGVFGQFEDPDLDKHYLKNMVAESDGKTKFYAWCGYEDFLFATNEKAIADFQAQGLDIDYHKGHGKHEWYYWNQQLEVLLEWLPINYQKEERLS NLYFQGAMASIAIEYHSVVLGMERKVNVIYPDQSEIPKKDQGDKDIPVLYLLHGMGGNENSWQKRTAIERLLRHTNLIVVMPSTDLGWYTDTAYGLNYYRALSQELPQVLAAFFPNMTQKREKTFVAGLSMGGYGAFKWALKSNRFSYAASFSGALDFSPETNLEGNLGELAYWQGVFGQFEDPDLDKHYLKNMVAESDGKTKFYAWCGYEDFLFATNEKAIADFQAQGLDIDYHKGHGKHEWYYWNQQLEVLLEWLPINYQKEERLS 4rot-a1-m3-cA_4rot-a1-m4-cA Crystal structure of esterase A from Streptococcus pyogenes 1.8 X-RAY DIFFRACTION 103 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 268 268 4rot-a1-m1-cA_4rot-a1-m2-cA NLYFQGAMASIAIEYHSVVLGMERKVNVIYPDQSEIPKKDQGDKDIPVLYLLHGMGGNENSWQKRTAIERLLRHTNLIVVMPSTDLGWYTDTAYGLNYYRALSQELPQVLAAFFPNMTQKREKTFVAGLSMGGYGAFKWALKSNRFSYAASFSGALDFSPETNLEGNLGELAYWQGVFGQFEDPDLDKHYLKNMVAESDGKTKFYAWCGYEDFLFATNEKAIADFQAQGLDIDYHKGHGKHEWYYWNQQLEVLLEWLPINYQKEERLS NLYFQGAMASIAIEYHSVVLGMERKVNVIYPDQSEIPKKDQGDKDIPVLYLLHGMGGNENSWQKRTAIERLLRHTNLIVVMPSTDLGWYTDTAYGLNYYRALSQELPQVLAAFFPNMTQKREKTFVAGLSMGGYGAFKWALKSNRFSYAASFSGALDFSPETNLEGNLGELAYWQGVFGQFEDPDLDKHYLKNMVAESDGKTKFYAWCGYEDFLFATNEKAIADFQAQGLDIDYHKGHGKHEWYYWNQQLEVLLEWLPINYQKEERLS 4rou-a3-m1-cB_4rou-a3-m1-cA Auto-inhibition Mechanism of Human Mitochondrial RNase P Protein Complex O15091 O15091 2.713 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 249 253 MLETLKAFFDFGKDIKDDNYSNKLLDILSYLRNNQLYPGESFAHSIKTWFESWKGQFTTVRKSGQCSGCGKTIESIQLSPEEYECLKGKIMRLKRFENFIKSRPPFDVVIDGLNVAKMFPKVRESQLLLNVVSQLAKRNLRLLVLGRKHMLRRSWSRDEMEEVQKQASCFFADDISEDDPFLLYATLHSGNHCRFITDAKTQRLFFKWQQGHQLAIFQRILSYDTVVQTTGDSWHIPYDVPTKWLCLHQ PMLETLKAFFDFGKDIKDDNYSNKLLDILSYLRNNQLYPGESFAHSIKTWFESWKGQFTTVRKSGQCSGCGKTIESIQLSPEEYECLKGKIMRLKRFENFIKSRPPFDVVIDGLNVAKMFPKVRESQLLLNVVSQLAKRNLRLLVLGRKHMLRRSSQWSRDEMEEVQKQASCFFADDISEDDPFLLYATLHSGNHCRFITDAKTQRLFFKWQQGHQLAIVFQRILSYDTVVQTTGDSWHIPYDVPTKWLCLHQ 4rox-a1-m1-cA_4rox-a1-m1-cB Crystal Structure of P Domain of Hawaii Norovirus (GII.1) J9XXB7 J9XXB7 1.89 X-RAY DIFFRACTION 155 1.0 1208060 (Norovirus Hu/GII.1/7EK/Hawaii/1971/USA) 1208060 (Norovirus Hu/GII.1/7EK/Hawaii/1971/USA) 299 299 GPGSKPFTLPILTIGELSNSRFPVPIDELYTSPNEGVIVQPQNGRSTLDGELLGTTQLVPSNICALRGRINAQVDHHQWNLQVTNTNGTPFDPTEDVPAPLGTPDFLANIYGVTSQRNPNNTCRAHDGVLATWSPKFTPKLGSVILGTWLDLNQPTRFTPVGLFNTDHFDQWALPSYSGRLTLNMNLAPSVSPLFPGEQLLFFRSHIPLKGGTSDGAIDCLLPQEWIQHFYQESAPSPTDVALIRYTNPDTGRVLFEAKLHRQGFITVANSGSRPIVVPPNGYFRFDSWVNQFYSLAPM GPGSKPFTLPILTIGELSNSRFPVPIDELYTSPNEGVIVQPQNGRSTLDGELLGTTQLVPSNICALRGRINAQVDHHQWNLQVTNTNGTPFDPTEDVPAPLGTPDFLANIYGVTSQRNPNNTCRAHDGVLATWSPKFTPKLGSVILGTWLDLNQPTRFTPVGLFNTDHFDQWALPSYSGRLTLNMNLAPSVSPLFPGEQLLFFRSHIPLKGGTSDGAIDCLLPQEWIQHFYQESAPSPTDVALIRYTNPDTGRVLFEAKLHRQGFITVANSGSRPIVVPPNGYFRFDSWVNQFYSLAPM 4rp3-a1-m1-cB_4rp3-a1-m1-cA Crystal Structure of the L27 Domain of Discs Large 1 (target ID NYSGRC-010766) from Drosophila melanogaster bound to a potassium ion (space group P212121) P31007 P31007 1.36 X-RAY DIFFRACTION 149 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 90 91 4rp4-a1-m1-cA_4rp4-a1-m1-cB 4rp5-a1-m1-cB_4rp5-a1-m1-cA QEAHRALELLEDYHARLSEPQDRALRIAIERVIRIFKSRLFQALLDIQEFYELTLLDDSKSIQQKTAETLQIATKWEKDGQAVKIADFIK KQEAHRALELLEDYHARLSEPQDRALRIAIERVIRIFKSRLFQALLDIQEFYELTLLDDSKSIQQKTAETLQIATKWEKDGQAVKIADFIK 4rp6-a1-m5-cZ_4rp6-a1-m6-cZ Structure of the amyloid-forming segment LTIITLE from p53 (residues 252-258) P04637 P04637 1.703 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 4rp6-a1-m1-cZ_4rp6-a1-m2-cZ 4rp6-a1-m2-cZ_4rp6-a1-m3-cZ 4rp6-a1-m4-cZ_4rp6-a1-m5-cZ LTIITLE LTIITLE 4rp7-a1-m5-cZ_4rp7-a1-m6-cZ Structure of the amyloid-forming segment TIITLE from p53 (residues 253-258) P04637 P04637 1.576 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 4rp7-a1-m1-cZ_4rp7-a1-m2-cZ 4rp7-a1-m2-cZ_4rp7-a1-m3-cZ 4rp7-a1-m4-cZ_4rp7-a1-m5-cZ TIITLE TIITLE 4rp9-a1-m1-cA_4rp9-a1-m2-cA Bacterial vitamin C transporter UlaA/SgaT in C2 form P39301 P39301 1.651 X-RAY DIFFRACTION 95 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 451 451 4rp8-a1-m1-cC_4rp8-a1-m1-cA NIFTVFFNQVMTNAPLLLGIVTCLGYILLRKSVSVIIKGTIKTIIGFMLLQAGSGILTSTFKPVVAKMSEVYGINGAISDTYASMMATIDRMGDAYSWVGYAVLLALALNICYVLLRRITGIRTIMLTGHIMFQQAGLIAVTLFIFGYSMWTTIICTAILVSLYWGITSNMMYKPTQEVTDGCGFSIGHQQQFASWIAYKVAPFLGKKEESVEDLKLPGWLNIFHDNIVSTAIVMTIFFGAILLSFGIDTVQAMAGKVHWTVYILQTGFSFAVAIFIITQGVRMFVAELSEAFNGISQRLIPGAVLAIDCAAIYSFAPNAVVWGFMWGTIGQLIAVGILVACGSSILIIPGFIPMFFSNATIGVFANHFGGWRAALKICLVMGMIEIFGCVWAVKLTGMSAWMGMADWSILAPPMMQGFFSIGIAFMAVIIVIALAYMFFAGRALRAEEDA NIFTVFFNQVMTNAPLLLGIVTCLGYILLRKSVSVIIKGTIKTIIGFMLLQAGSGILTSTFKPVVAKMSEVYGINGAISDTYASMMATIDRMGDAYSWVGYAVLLALALNICYVLLRRITGIRTIMLTGHIMFQQAGLIAVTLFIFGYSMWTTIICTAILVSLYWGITSNMMYKPTQEVTDGCGFSIGHQQQFASWIAYKVAPFLGKKEESVEDLKLPGWLNIFHDNIVSTAIVMTIFFGAILLSFGIDTVQAMAGKVHWTVYILQTGFSFAVAIFIITQGVRMFVAELSEAFNGISQRLIPGAVLAIDCAAIYSFAPNAVVWGFMWGTIGQLIAVGILVACGSSILIIPGFIPMFFSNATIGVFANHFGGWRAALKICLVMGMIEIFGCVWAVKLTGMSAWMGMADWSILAPPMMQGFFSIGIAFMAVIIVIALAYMFFAGRALRAEEDA 4rpa-a2-m1-cA_4rpa-a2-m2-cB Crystal structure of inorganic pyrophosphatase from Staphylococcus aureus in complex with Mn2+ P65752 P65752 2.1 X-RAY DIFFRACTION 41 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 306 306 4rpa-a2-m1-cB_4rpa-a2-m2-cA AKTYIFGHKNPDTDAISSAIIMAEFEQLRGNSGAKAYRLGDVSAETQFALDTFNVPAPELLTDDLDGQDVILVDHNEFQQSSDTIASATIKHVIDHHRIANFETAGPLYRAEPVGCTATILYKMFRERGFEIKPEIAGLMLSAIISDSLLFKSPTTQQDVKAAEELKDIAKVDIQKYGLDMLKAGASTTDKSVEFLLNMDAKSFTMGDYVTRIAQVNAVDLDEVLNRKEDLEKEMLAVSAQEKYDLFVLVVTDIINSDSKILVVGAEKDKVGEAFNVQLEDDMAFLSGVVSRKKQIVPQITEALTK AKTYIFGHKNPDTDAISSAIIMAEFEQLRGNSGAKAYRLGDVSAETQFALDTFNVPAPELLTDDLDGQDVILVDHNEFQQSSDTIASATIKHVIDHHRIANFETAGPLYRAEPVGCTATILYKMFRERGFEIKPEIAGLMLSAIISDSLLFKSPTTQQDVKAAEELKDIAKVDIQKYGLDMLKAGASTTDKSVEFLLNMDAKSFTMGDYVTRIAQVNAVDLDEVLNRKEDLEKEMLAVSAQEKYDLFVLVVTDIINSDSKILVVGAEKDKVGEAFNVQLEDDMAFLSGVVSRKKQIVPQITEALTK 4rpa-a2-m2-cA_4rpa-a2-m2-cB Crystal structure of inorganic pyrophosphatase from Staphylococcus aureus in complex with Mn2+ P65752 P65752 2.1 X-RAY DIFFRACTION 80 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 306 306 4rpa-a1-m1-cA_4rpa-a1-m1-cB 4rpa-a2-m1-cA_4rpa-a2-m1-cB AKTYIFGHKNPDTDAISSAIIMAEFEQLRGNSGAKAYRLGDVSAETQFALDTFNVPAPELLTDDLDGQDVILVDHNEFQQSSDTIASATIKHVIDHHRIANFETAGPLYRAEPVGCTATILYKMFRERGFEIKPEIAGLMLSAIISDSLLFKSPTTQQDVKAAEELKDIAKVDIQKYGLDMLKAGASTTDKSVEFLLNMDAKSFTMGDYVTRIAQVNAVDLDEVLNRKEDLEKEMLAVSAQEKYDLFVLVVTDIINSDSKILVVGAEKDKVGEAFNVQLEDDMAFLSGVVSRKKQIVPQITEALTK AKTYIFGHKNPDTDAISSAIIMAEFEQLRGNSGAKAYRLGDVSAETQFALDTFNVPAPELLTDDLDGQDVILVDHNEFQQSSDTIASATIKHVIDHHRIANFETAGPLYRAEPVGCTATILYKMFRERGFEIKPEIAGLMLSAIISDSLLFKSPTTQQDVKAAEELKDIAKVDIQKYGLDMLKAGASTTDKSVEFLLNMDAKSFTMGDYVTRIAQVNAVDLDEVLNRKEDLEKEMLAVSAQEKYDLFVLVVTDIINSDSKILVVGAEKDKVGEAFNVQLEDDMAFLSGVVSRKKQIVPQITEALTK 4rpd-a1-m1-cA_4rpd-a1-m1-cB Crystal Structure of P Domain of 485 Norovirus Q20K66 Q20K66 1.51 X-RAY DIFFRACTION 152 1.0 11983 (Norwalk virus) 11983 (Norwalk virus) 302 303 SKPFTLPILTIGELSNSRFPAPIDELYTSPNEGLVVQPQNGRSTLDGELLGTTQLVPSNICSLRGRINAHLPDNQHRWNMQVTNANGTPFDPTEDVPAPLGTPDFLANIYGVTSQRNPDNTCRAHDGILATWSPKFTPKLGSVVLGTWEDRDFDINQPTRFTPVGLYDTDHFNQWALPNYSGALTLNMNLAPSVAPLFPGEQLLFFRSHIPLKGGTSNGAIDCLLPQEWVQHFYQESAPSSTDVALIRYTNPDTGRVLFEAKLHRQGFITVANSGSRPIVVPPNGYFRFDSWVNQFYSLAPM GSKPFTLPILTIGELSNSRFPAPIDELYTSPNEGLVVQPQNGRSTLDGELLGTTQLVPSNICSLRGRINAHLPDNQHRWNMQVTNANGTPFDPTEDVPAPLGTPDFLANIYGVTSQRNPDNTCRAHDGILATWSPKFTPKLGSVVLGTWEDRDFDINQPTRFTPVGLYDTDHFNQWALPNYSGALTLNMNLAPSVAPLFPGEQLLFFRSHIPLKGGTSNGAIDCLLPQEWVQHFYQESAPSSTDVALIRYTNPDTGRVLFEAKLHRQGFITVANSGSRPIVVPPNGYFRFDSWVNQFYSLAPM 4rpe-a2-m1-cA_4rpe-a2-m2-cA Crystal Structure of Variant G186E from Pseudomonas Aeruginosa Lipoxygenase 2 at 1.60A (C2) Q8RNT4 Q8RNT4 1.6 X-RAY DIFFRACTION 180 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 658 658 4g33-a2-m1-cA_4g33-a2-m2-cA SIFFSPLKYLGAEQQRSIDASRSLLDNLIPPSLPQYDNLAGKLARRAVLTSKKLVYVWTENFANVKGVPMARSVPLGELPNVDWLLKTAGVIVELIVNFVASLPASAAAQFERIAAGLSGDLEAARQVHEALLEEAKNDPAAAGSLLLRFTELQTRVIALLTRVELLVDDILKSASNLVTGLNRFRAVFGTLRLPEVADSFRDDEAFAYWRVAGPNPLLIRRVDALPANFPLGEEQFRRVMGADDSLLEAAASRRLYLLDYAELGKLAPSGAVDKLLTGTGFAYAPIALFALGKDRAGLLPVAIQCGQDPATHPMFVRPAESESDLYWGWQMAKTVVQVAEENYHEMFVHLAQTHLVSEAFCLATQRTLAPSHPLHVLLAPHFEGTLFINEGAARILLPSAGFIDVMFAAPIQDTQATAGGNRLGFDFYRGMLPESLKARNVDDPAALPDYPYRDDGLLVWNAIRQWAADYVAVYYASDGDVTADVELAAWVGEVIGSGKVAGFRPITGRSQLVEVLTMVIFTASAQHAAVNFPQPSMMTYAPAICAMSAAPAPDSPSGKSEADWLKMMPPTLVALEKVNIYHLLGSVYHGRLGDYRQTGFPYAPVFSDRRVTASGGPLERFQARLKEVEATIRTRNQARRKPYEYLLPSRIPASTNI SIFFSPLKYLGAEQQRSIDASRSLLDNLIPPSLPQYDNLAGKLARRAVLTSKKLVYVWTENFANVKGVPMARSVPLGELPNVDWLLKTAGVIVELIVNFVASLPASAAAQFERIAAGLSGDLEAARQVHEALLEEAKNDPAAAGSLLLRFTELQTRVIALLTRVELLVDDILKSASNLVTGLNRFRAVFGTLRLPEVADSFRDDEAFAYWRVAGPNPLLIRRVDALPANFPLGEEQFRRVMGADDSLLEAAASRRLYLLDYAELGKLAPSGAVDKLLTGTGFAYAPIALFALGKDRAGLLPVAIQCGQDPATHPMFVRPAESESDLYWGWQMAKTVVQVAEENYHEMFVHLAQTHLVSEAFCLATQRTLAPSHPLHVLLAPHFEGTLFINEGAARILLPSAGFIDVMFAAPIQDTQATAGGNRLGFDFYRGMLPESLKARNVDDPAALPDYPYRDDGLLVWNAIRQWAADYVAVYYASDGDVTADVELAAWVGEVIGSGKVAGFRPITGRSQLVEVLTMVIFTASAQHAAVNFPQPSMMTYAPAICAMSAAPAPDSPSGKSEADWLKMMPPTLVALEKVNIYHLLGSVYHGRLGDYRQTGFPYAPVFSDRRVTASGGPLERFQARLKEVEATIRTRNQARRKPYEYLLPSRIPASTNI 4rpf-a5-m1-cC_4rpf-a5-m2-cC Crystal structure of homoserine kinase from Yersinia pestis Nepal516, NYSGRC target 032715 Q1CMW6 Q1CMW6 2.3 X-RAY DIFFRACTION 111 1.0 377628 (Yersinia pestis Nepal516) 377628 (Yersinia pestis Nepal516) 309 309 4rpf-a4-m1-cA_4rpf-a4-m1-cB SMVKIYAPASIGNVSVGFDVLGAAVSPIDGTLLGDCVSVTAAERFSLHNEGRFVSKLPDDPKQNIVYQCWERFCQEMGKEIPVAMVLEKNMPIGSGLGSSACSVVAGLMAMNEFCGQPLDKVTLLGMMGELEGRVSGSIHFDNVAPCYLGGMQLILEQEGYISQDVPGFSDWLWVMAYPGIKVSTAEARAILPAQYRRQDCITHGRNLAGFIHACHTQQPDLAAKMMKDVIAEPYRTQLLPGFAAARQAAQDIGALACGISGSGPTLFAVCNDQATAQRMAGWLQNHYLQNDEGFVHICRLDTAGARLL SMVKIYAPASIGNVSVGFDVLGAAVSPIDGTLLGDCVSVTAAERFSLHNEGRFVSKLPDDPKQNIVYQCWERFCQEMGKEIPVAMVLEKNMPIGSGLGSSACSVVAGLMAMNEFCGQPLDKVTLLGMMGELEGRVSGSIHFDNVAPCYLGGMQLILEQEGYISQDVPGFSDWLWVMAYPGIKVSTAEARAILPAQYRRQDCITHGRNLAGFIHACHTQQPDLAAKMMKDVIAEPYRTQLLPGFAAARQAAQDIGALACGISGSGPTLFAVCNDQATAQRMAGWLQNHYLQNDEGFVHICRLDTAGARLL 4rpo-a2-m1-cC_4rpo-a2-m1-cD PcpR inducer binding domain (Complex with 2,4,6-trichlorophenol) P52679 P52679 1.95 X-RAY DIFFRACTION 123 1.0 46429 (Sphingobium chlorophenolicum) 46429 (Sphingobium chlorophenolicum) 217 218 4rns-a1-m1-cB_4rns-a1-m1-cA 4rns-a2-m1-cC_4rns-a2-m1-cD 4rpn-a1-m1-cC_4rpn-a1-m1-cD 4rpn-a2-m1-cA_4rpn-a2-m1-cB 4rpo-a1-m1-cA_4rpo-a1-m1-cB FDPGTSNRNFRIAASDFGQALMLPRLYATLEETAPQVRVTGVNLRHGPLVEELESGSIDIAFGGFPTLSAGIKTQTLFREEYVCVMRQSHPALTHGLDLEAFRQCRHIIVTAHEFNHVHEQVEARLLELLPPESIRFTTENFLVSAVIAEETDVILTIPSRLARWFANRGGLTIFPVPIELPSIEVKQYWHERYDKDPGNIWLRRVIAKIGFQNPPA RFDPGTSNRNFRIAASDFGQALMLPRLYATLEETAPQVRVTGVNLRHGPLVEELESGSIDIAFGGFPTLSAGIKTQTLFREEYVCVMRQSHPALTHGLDLEAFRQCRHIIVTAHEFNHVHEQVEARLLELLPPESIRFTTENFLVSAVIAEETDVILTIPSRLARWFANRGGLTIFPVPIELPSIEVKQYWHERYDKDPGNIWLRRVIAKIGFQNPPA 4rpt-a3-m1-cB_4rpt-a3-m1-cA The 1.35A structure of a viral RNase L antagonist reveals basis for the 2'-5'-oligoadenylate binding and enzyme activity. B3F2X4 B3F2X4 1.35 X-RAY DIFFRACTION 57 1.0 28875 (Rotavirus A) 28875 (Rotavirus A) 140 144 DPNYFIGIKFRHIPYEYDVKIPHLTFGVLFISDNMIPDVVEIMKIMKKELFEMDITTSYTYMLSDGIYVANVSGVLATYFKMYNLFYKSQITFGQSRMFIPHITLSFSNNKTVRIESTRLKISSIYLRKIKGDTVFDMSE SGADDPNYFIGIKFRHIPYEYDVKIPHLTFGVLFISDNMIPDVVEIMKIMKKELFEMDITTSYTYMLSDGIYVANVSGVLATYFKMYNLFYKSQITFGQSRMFIPHITLSFSNNKTVRIESTRLKISSIYLRKIKGDTVFDMSE 4rq9-a1-m1-cA_4rq9-a1-m2-cA Crystal structure of the chromophore-binding domain of Stigmatella aurantiaca bacteriophytochrome (Thr289His mutant) in the Pr state Q097N3 Q097N3 2.5 X-RAY DIFFRACTION 68 1.0 378806 (Stigmatella aurantiaca DW4/3-1) 378806 (Stigmatella aurantiaca DW4/3-1) 304 304 6baf-a1-m1-cA_6baf-a1-m2-cA 6bak-a1-m1-cA_6bak-a1-m2-cA 6bao-a1-m1-cA_6bao-a1-m1-cB 6bap-a1-m1-cA_6bap-a1-m1-cB 6bap-a2-m1-cC_6bap-a2-m2-cC 6bay-a1-m1-cA_6bay-a1-m1-cB 6bay-a2-m1-cC_6bay-a2-m2-cC TNCDREPIHIPGAIQPHGVLLVLSEPGLVLTHASENAPAVLGNSAEQLLGAPLGHFIEPSVREPLEADLRSARLKQLNPLKVVWRVDGVDRFFDGIAHRHQGRLILELEPSSHREAVPFLSFFHAVRDGLSRLRDARDLQELCEAVVQEVRGLTGFDRAIIYRFDAEWNGSVIAEARDARADPYLGLHFPASDIPRQARELYQLNWLRIIPTIDYQPARVRALPGHGEPLDLSFSVLRSVSPIHLEYLHNMGVQASMSISLMKDGKLWGLISCHQVSGTRYVPYEVRTACEFLGEVMSSLLAAK TNCDREPIHIPGAIQPHGVLLVLSEPGLVLTHASENAPAVLGNSAEQLLGAPLGHFIEPSVREPLEADLRSARLKQLNPLKVVWRVDGVDRFFDGIAHRHQGRLILELEPSSHREAVPFLSFFHAVRDGLSRLRDARDLQELCEAVVQEVRGLTGFDRAIIYRFDAEWNGSVIAEARDARADPYLGLHFPASDIPRQARELYQLNWLRIIPTIDYQPARVRALPGHGEPLDLSFSVLRSVSPIHLEYLHNMGVQASMSISLMKDGKLWGLISCHQVSGTRYVPYEVRTACEFLGEVMSSLLAAK 4rqa-a2-m2-cA_4rqa-a2-m4-cA Crystal Structure of a Hypoxanthine Phosphoribosyltransferase (target ID NYSGRC-029686) from Staphylococcus aureus (orthorhombic space group) 1.48 X-RAY DIFFRACTION 38 1.0 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 171 171 4rqa-a2-m1-cA_4rqa-a2-m3-cA 4rqb-a3-m1-cB_4rqb-a3-m2-cA 4rqb-a3-m2-cB_4rqb-a3-m1-cA NSVHNDLKEVLLTEEDIQNICKELGAQLTKDYQGKPLVCVGILKGSAFSDLIKRIDTHLSIDFDVSSYSTGEVQIIKDLGSSIENKDVLIIEDILETGTTLKSITELLQSRKVNSLEIVTLLDKPNRRKADIEAKYVGKKIPDEFVVGYGLDYRELYRNLPYIGTLKPEVY NSVHNDLKEVLLTEEDIQNICKELGAQLTKDYQGKPLVCVGILKGSAFSDLIKRIDTHLSIDFDVSSYSTGEVQIIKDLGSSIENKDVLIIEDILETGTTLKSITELLQSRKVNSLEIVTLLDKPNRRKADIEAKYVGKKIPDEFVVGYGLDYRELYRNLPYIGTLKPEVY 4rqa-a2-m3-cA_4rqa-a2-m4-cA Crystal Structure of a Hypoxanthine Phosphoribosyltransferase (target ID NYSGRC-029686) from Staphylococcus aureus (orthorhombic space group) 1.48 X-RAY DIFFRACTION 71 1.0 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 451516 (Staphylococcus aureus subsp. aureus USA300_TCH1516) 171 171 4rqa-a2-m1-cA_4rqa-a2-m2-cA 4rqb-a3-m1-cB_4rqb-a3-m1-cA 4rqb-a3-m2-cB_4rqb-a3-m2-cA NSVHNDLKEVLLTEEDIQNICKELGAQLTKDYQGKPLVCVGILKGSAFSDLIKRIDTHLSIDFDVSSYSTGEVQIIKDLGSSIENKDVLIIEDILETGTTLKSITELLQSRKVNSLEIVTLLDKPNRRKADIEAKYVGKKIPDEFVVGYGLDYRELYRNLPYIGTLKPEVY NSVHNDLKEVLLTEEDIQNICKELGAQLTKDYQGKPLVCVGILKGSAFSDLIKRIDTHLSIDFDVSSYSTGEVQIIKDLGSSIENKDVLIIEDILETGTTLKSITELLQSRKVNSLEIVTLLDKPNRRKADIEAKYVGKKIPDEFVVGYGLDYRELYRNLPYIGTLKPEVY 4rqf-a1-m1-cA_4rqf-a1-m1-cB human Seryl-tRNA synthetase dimer complexed with one molecule of tRNAsec P49591 P49591 3.503 X-RAY DIFFRACTION 191 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 451 474 3vbb-a1-m1-cA_3vbb-a1-m1-cB 3vbb-a2-m1-cD_3vbb-a2-m1-cC 4l87-a1-m1-cA_4l87-a1-m2-cA 4rqe-a1-m1-cC_4rqe-a1-m1-cA VLDLDLFRVDKGGDPALIRETQEKRFKDPGLVDQLVKADSEWRRCRFRADNLNKLKNLCSKTIFDDLTADALANLKVSQIKKVRLLIDEAILKCDAERIKLEAERFENLREIGNLLHPSVPISNDEDVDNKVERIWGDCTVRKKYSHVDLVVMVDGFEGEKGAVVAGSRGYFLKGVLVFLEQALIQYALRTLGSRGYIPIYTPFFMRKEVMQEVAQLSQFDEELYKVIGKGSEKSDDNSYDEKYLIATSEQPIAALHRDEWLRPEDLPIKYAGLSTCFRQEVGSHGRDTRGIFRVHQFEKIEQFVYSSPHDNKSWEMFEEMITTAEEFYQSLGIPYHIVNIVSGSLNHAASKKLDLEAWFPGSGAFRELVSCSNCTDYQARRLRIRYGQTMMDKVEFVHMLNATMCATTRTICAILENYQTKKGITVPEKLKEFMPPGLQELIPFVKPAPI VLDLDLFRVDKGGDPALIRETQEKRFKDPGLVDQLVKADSEWRRCRFRADNLNKLKNLCSKTIGEKMKKKEPVGDDESVPENVLSFDDLTADALANLKVSQIKKVRLLIDEAILKCDAERIKLEAERFENLREIGNLLHPSVPISNDEDVDNKVERIWGDCTVRKKYSHVDLVVMVDGFEGEKGAVVAGSRGYFLKGVLVFLEQALIQYALRTLGSRGYIPIYTPFFMRKEVMQEVAQLSQFDEELYKVIGKGSEKSDDNSYDEKYLIATSEQPIAALHRDEWLRPEDLPIKYAGLSTCFRQEVGSHGRDTRGIFRVHQFEKIEQFVYSSPHDNKSWEMFEEMITTAEEFYQSLGIPYHIVNIVSGSLNHAASKKLDLEAWFPGSGAFRELVSCSNCTDYQARRLRIRYGQTKKMMDKVEFVHMLNATMCATTRTICAILENYQTKKGITVPEKLKEFMPPGLQELIPFVKPAP 4rqo-a1-m1-cA_4rqo-a1-m1-cB Crystal structure of L-Serine Dehydratase from Legionella pneumophila 2.25 X-RAY DIFFRACTION 95 0.988 1199191 (Legionella pneumophila subsp. pneumophila str. Thunder Bay) 1199191 (Legionella pneumophila subsp. pneumophila str. Thunder Bay) 426 429 NISVFDLFSIGIGPSSSHTVGPLAANAFLQLLEQKNLFDKTQRVKVELYGSLALTGKGHGTDKAILNGLENKAPETVDPASIPRHEILDSNLLNLAGKKEIPFHEATDFLFLQKELLPKHSNGRFSAFDGNANLLIEQVYYSIGGGFITTEEDFDKNPPPYPFATATELLKLCKKHHLTIAELLVNEKTWRSTAEIHKGILDIAKVDDCINNGCKHDGVLPGGLNLKRRAPDLYRKLIFEQSDINHLNLYAAVNEENAAGGRIVTAPTNGAAGIIPAVLKYCQQAHDRSNEDIYTYFLTAAAIGILYKKGASISGAEVGCQGEVGVASSAAAGLTAVLGGTIEQVENAAEIAEHHLGTCDPVLGLVQIPCIERNAGAVKAVNATRALIGDGQHQISLDKVIKTKQTGDQSIYKETSGGLAVNLPEC NISVFDLFSIGIGPSSSHTVGPLAANAFLQLLEQKNLFDKTQRVKVELYGSLALTGKGHGTDKAILNGLENKAPETVDPASIPRHEILDSNLLNLAGKKEIPFHEATDFLFLQKELLPKHSNGRFSAFDGNANLLIEQVYYSIGGGFITTEEDFDNPPPYPFATATELLKLCKKHHLTIAELLVNEKTWRSTAEIHKGILDIAKVDDCINNGCKHDGVLPGGLNLKRRAPDLYRKLIEQKGVKSVFEQSDINHLNLYAAVNEENAAGGRIVTAPTNGAAGIIPAVLKYCQQAHDRSNEDIYTYFLTAAAIGILYKKSGAEVGCQGEVGVASSAAAGLTAVLGGTIEQVENAAEIAEHHLGTCDPVLGLVQIPCIERNAGAVKAVNATRALIGDGQHQISLDKVIKTKQTGDQSIYKETSGGLAVNLPEC 4rqt-a1-m1-cA_4rqt-a1-m2-cA Alcohol Dehydrogenase Crystal Structure P06525 P06525 2.3 X-RAY DIFFRACTION 116 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 375 375 4rqu-a1-m1-cA_4rqu-a1-m1-cB SQIIRCKAAVAWEAGKPLVIEEVEVAPPQKHEVRIKILFTSLCHTDVYFWEAKGQTPLFPRIFGHEAGGIVESVGEGVTDLQPGDHVLPIFTGECGECRHCHSEESNMCDLLRINTERGGMIHDGESRFSINGKPIYHFLGTSTFSEYTVVHSGQVAKINPDAPLDKVCIVSCGLSTGLGATLNVAKPKKGQSVAIFGLGAVGLGAAEGARIAGASRIIGVDFNSKRFDQAKEFGVTECVNPKDHDKPIQQVIAEMTDGGVDRSVECTGSVQAMIQAFECVHDGWGVAVLVGVPSKDDAFKTHPMNFLNERTLKGTFFGNYKPKTDIPGVVEKYMNKELELEKFITHTVPFSEINKAFDYMLKGESIRCIITMGA SQIIRCKAAVAWEAGKPLVIEEVEVAPPQKHEVRIKILFTSLCHTDVYFWEAKGQTPLFPRIFGHEAGGIVESVGEGVTDLQPGDHVLPIFTGECGECRHCHSEESNMCDLLRINTERGGMIHDGESRFSINGKPIYHFLGTSTFSEYTVVHSGQVAKINPDAPLDKVCIVSCGLSTGLGATLNVAKPKKGQSVAIFGLGAVGLGAAEGARIAGASRIIGVDFNSKRFDQAKEFGVTECVNPKDHDKPIQQVIAEMTDGGVDRSVECTGSVQAMIQAFECVHDGWGVAVLVGVPSKDDAFKTHPMNFLNERTLKGTFFGNYKPKTDIPGVVEKYMNKELELEKFITHTVPFSEINKAFDYMLKGESIRCIITMGA 4rqw-a3-m1-cB_4rqw-a3-m1-cA Crystal structure of Myc3 N-terminal JAZ-binding domain [44-238] from Arabidopsis Q9FIP9 Q9FIP9 2.2 X-RAY DIFFRACTION 37 0.994 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 156 166 DTLQQRLQALIESAGENWTYAIFWQISNTVILGWGDGYYKGENTAEQEHRKRVIRELNSLISGEEVTDTEWFFLVSTQSFVNGVGLPGESFLNSRVIWLSGSGALTGSGCERAGQGQIYGLKTVCIATQNGVVELGSSEVISQSSDLHKVNNLFNF DTLQQRLQALIESAGENWTYAIFWQISHDFDSSTGDNTVILGWGDGYYKGEENTAEQEHRKRVIRELNSLISGDEEVTDTEWFFLVSTQSFVNGVGLPGESFLNSRVIWLSGSGALTGSGCERAGQGQIYGLKTVCIATQNGVVELGSSEVISQSSDLHKVNNLFN 4rrg-a1-m1-cA_4rrg-a1-m1-cB Editing domain of threonyl-tRNA synthetase from Methanococcus jannaschii with L-Thr3AA Q58597 Q58597 1.93 X-RAY DIFFRACTION 60 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 138 138 4rrf-a1-m1-cA_4rrf-a1-m1-cD 4rrf-a2-m1-cB_4rrf-a2-m1-cC 4rrf-a3-m1-cE_4rrf-a3-m1-cF 4rrg-a2-m1-cC_4rrg-a2-m1-cD MKMLLIHSDYLEFEAKEKTKIAEETENLKGKLDECLACFIAVEREDENNPEGTAIGAVEEIEKVANQLKVNNIVVYPYAHLSSDLSSPETAVKVLKDIESILKERGYNVLRAPFGWYKAFKISCKGHPLSELSRKIVA MKMLLIHSDYLEFEAKEKTKIAEETENLKGKLDECLACFIAVEREDENNPEGTAIGAVEEIEKVANQLKVNNIVVYPYAHLSSDLSSPETAVKVLKDIESILKERGYNVLRAPFGWYKAFKISCKGHPLSELSRKIVA 4rru-a2-m1-cA_4rru-a2-m2-cA Myc3 N-terminal JAZ-binding domain[5-242] from arabidopsis Q9FIP9 Q9FIP9 2.1 X-RAY DIFFRACTION 65 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 189 189 SSINFLTSDDDASAAAMEAFIEDTLQQRLQALIESAGENWTYAIFWQISHDFDSSTGDNTVILGWGDGYYKGEAEQEHRKRVIRELNSLISGDEEVTDTEWFFLVSMTQSFVNGVGLPGESFLNSRVIWLSGSGALTGSGCERAGQGQIYGLKTMVCIATQNGVVELGSSEVISQSSDLMHKVNNLFNF SSINFLTSDDDASAAAMEAFIEDTLQQRLQALIESAGENWTYAIFWQISHDFDSSTGDNTVILGWGDGYYKGEAEQEHRKRVIRELNSLISGDEEVTDTEWFFLVSMTQSFVNGVGLPGESFLNSRVIWLSGSGALTGSGCERAGQGQIYGLKTMVCIATQNGVVELGSSEVISQSSDLMHKVNNLFNF 4rs7-a2-m1-cA_4rs7-a2-m1-cB Structure of pNOB8 ParB-C O93707 O93707 1.9 X-RAY DIFFRACTION 99 1.0 84600 (Sulfolobus sp. NOB8H2) 84600 (Sulfolobus sp. NOB8H2) 84 85 4rs7-a1-m1-cD_4rs7-a1-m1-cR ADLESLYRAPSIKKLVDEGKLTEKDAEKVYEIWRNEAIYKQASLLWYNTVDLLLKRIGLSEKEREEIFYEVRPYFRLFSREEVF ADLESLYRAPSIKKLVDEGKLTEKDAEKVYEIWRNEAIYKQASLLWYNTVDLLLKRIGLSEKEREEIFYEVRPYFRLFSREEVFP 4rsu-a1-m1-cL_4rsu-a1-m1-cD Crystal structure of the light and hvem complex Q92956 Q92956 2.3 X-RAY DIFFRACTION 14 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 104 105 4rsu-a1-m1-cF_4rsu-a1-m1-cJ SCKEDEYPVGSECCPKCSPGYRVKEACGELTGTVCEPCPPGTYIAHLNGLSKCLQCQMCDPAMGLRASRNCSRTENAVCGCSPGHFCIVQDGDHCAACRAYATS SLPSCKEDEYPVGSECCPKCSPGYRVKEACGELTGTVCEPCPPGTYIAHLNGLSKCLQCQMCDPAMGLRASRNCSRTENAVCGCSPGHFCIVQDGDHCAACRAYA 4rsw-a1-m1-cA_4rsw-a1-m1-cB The structure of the effector protein from Pseudomonas syringae pv. syringae strain 61 Q83YM3 Q83YM3 1.9 X-RAY DIFFRACTION 85 1.0 321 (Pseudomonas syringae pv. syringae) 321 (Pseudomonas syringae pv. syringae) 246 246 RLTSKQTFASFQQWAEKAEALGRDTEIGIYIYKRDTPDTTPNAAEQEHYLETLQALDNKKNLIIRPQIHDDREEEELDLGRYIAEDRNARTGFFRVPKDQRAPETNSGRLTIGVEPKYGAQLALAATLDKHKSVTQGKVVGPAKYGQQTDSAILYINGDLAKAVKLGEKLKKLSGIPPEGFVEHTPLSQSTGLGLSYAESVEGQPSSHGQARTHVIDALKGQGPENRLKALAERGYDPENPALRAR RLTSKQTFASFQQWAEKAEALGRDTEIGIYIYKRDTPDTTPNAAEQEHYLETLQALDNKKNLIIRPQIHDDREEEELDLGRYIAEDRNARTGFFRVPKDQRAPETNSGRLTIGVEPKYGAQLALAATLDKHKSVTQGKVVGPAKYGQQTDSAILYINGDLAKAVKLGEKLKKLSGIPPEGFVEHTPLSQSTGLGLSYAESVEGQPSSHGQARTHVIDALKGQGPENRLKALAERGYDPENPALRAR 4rsz-a7-m1-cA_4rsz-a7-m3-cD The X-ray structure of the Primary Adduct formed in the Reaction between Cisplatin and Cytochrome c P00004 P00004 2.19 X-RAY DIFFRACTION 25 1.0 9796 (Equus caballus) 9796 (Equus caballus) 104 104 GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE 4rsz-a7-m3-cD_4rsz-a7-m3-cF The X-ray structure of the Primary Adduct formed in the Reaction between Cisplatin and Cytochrome c P00004 P00004 2.19 X-RAY DIFFRACTION 30 1.0 9796 (Equus caballus) 9796 (Equus caballus) 104 104 4rsz-a7-m1-cA_4rsz-a7-m1-cB 4rsz-a7-m1-cA_4rsz-a7-m1-cC 4rsz-a7-m1-cB_4rsz-a7-m1-cC 4rsz-a7-m2-cE_4rsz-a7-m3-cD 4rsz-a7-m2-cE_4rsz-a7-m3-cF GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE GDVEKGKKIFVQKCAQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGFTYTDANKNKGITWKEETLMEYLENPKKYIPGTKMIFAGIKKKTEREDLIAYLKKATNE 4rt0-a2-m1-cB_4rt0-a2-m1-cC Structure of the Alg44 PilZ domain from Pseudomonas aeruginosa PAO1 in complex with c-di-GMP Q9HY69 Q9HY69 1.8 X-RAY DIFFRACTION 60 0.991 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 106 106 4rt0-a1-m1-cA_4rt0-a1-m2-cA 4rt1-a1-m1-cA_4rt1-a1-m2-cA 4rt1-a2-m1-cB_4rt1-a2-m1-cC 4xrn-a1-m1-cA_4xrn-a1-m1-cC 4xrn-a2-m1-cB_4xrn-a2-m1-cD AQRQFARVKLPARIRYIGANREGVDARLLDLSAGGFAFTASGAPIQPGDLYKGKLFQVDSISFSLEVEFQVRSVDPASRRVGCEFQNLKPREVAALRYLITSYLAG QRQFARVKLPARIRYIGANREGVDARLLDLSAGGFAFTASGAPIQPGDLYKGKLFQVDSISFSLEVEFQVRSVDPASRRVGCEFQNLKPREVAALRYLITSYLAGE 4rt5-a1-m1-cB_4rt5-a1-m1-cA The crystal structure of a glyoxalase/bleomycin resistance protein/dioxygenase protein from planctomyces limnophilus dsm 3776 D5SVJ2 D5SVJ2 1.5 X-RAY DIFFRACTION 110 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 99 100 KLDDLHHIAISVTDVAQSVEWYTSHFQCRIAYQDSTWALLKFGNLSLALVIPEQHPPHIAFTSDRAGEYGSLKTHRDGTRSCYIQDPSGNSVELDPTSL LKLDDLHHIAISVTDVAQSVEWYTSHFQCRIAYQDSTWALLKFGNLSLALVIPEQHPPHIAFTSDRAGEYGSLKTHRDGTRSCYIQDPSGNSVELDPTSL 4rt7-a1-m1-cA_4rt7-a1-m2-cA Crystal Structure of FLT3 with a small molecule inhibitor P36888 P36888 3.1 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 YDLKWEFPRENLEFGKVLGSGAFGKVMNATAYGISGVSIQVAVKMLKDSSEREALMSELKMMTQLGSHENIVNLLGACTLSGPIYLIFEYCCYGDLLNYLRSKRNVLTFEDLLCFAYQVAKGMEFLEFKSCVHRDLAARNVLVTHGKVVKICDFGLARDIMSDSNYVVRGNARLPVKWMAPESLFEGIYTIKSDVWSYGILLWEIFSLGVNPYPGIPVDANFYKLIQNGFKMDQPFYATEEIYIIMQSCWAFDSRKRPSFPNLTSFLGCQLADA YDLKWEFPRENLEFGKVLGSGAFGKVMNATAYGISGVSIQVAVKMLKDSSEREALMSELKMMTQLGSHENIVNLLGACTLSGPIYLIFEYCCYGDLLNYLRSKRNVLTFEDLLCFAYQVAKGMEFLEFKSCVHRDLAARNVLVTHGKVVKICDFGLARDIMSDSNYVVRGNARLPVKWMAPESLFEGIYTIKSDVWSYGILLWEIFSLGVNPYPGIPVDANFYKLIQNGFKMDQPFYATEEIYIIMQSCWAFDSRKRPSFPNLTSFLGCQLADA 4rtb-a2-m1-cA_4rtb-a2-m2-cA X-ray structure of the FeFe-hydrogenase maturase HydG from Carboxydothermus hydrogenoformans Q3ABV3 Q3ABV3 2.79 X-RAY DIFFRACTION 67 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 429 429 SHMTQEIITLVQRTYEIVNKVNRNPKEEISQIIQKLQKGERLSLIEAGIAFANDTEELDQILFWQARKVKEEIYGKRIVLFAPLYLSNICINNCSYCSFRRENKELSRVRLSLEEAVDEAKAIREMGHTRILLVMGEEPEDKTLSYLEEIIPAIYSEVDIRRINVNIAPLTLKGYERLKKLKIGTYQLFQESYNPEVYREVHLDGPKTNFLWRLNAVERAIEAGIDDIGIGALFGLGDPLFELLGVIAHADYLKKKFGIGPHTVSVPRLKPALNSVFSNDYKISDHKFKKIVALLRIMLPYTGIILSTREPQHLRDELVELGVSQMSAASRTGPGEYRGERQQFLLDHRSLAEIVEVLIDKGFLPSFCTACYRKRFCTPDALFSFVEYLYEIRDKHPELYKKGNGYLLQVVKDLPNFENIGRAIEYILK SHMTQEIITLVQRTYEIVNKVNRNPKEEISQIIQKLQKGERLSLIEAGIAFANDTEELDQILFWQARKVKEEIYGKRIVLFAPLYLSNICINNCSYCSFRRENKELSRVRLSLEEAVDEAKAIREMGHTRILLVMGEEPEDKTLSYLEEIIPAIYSEVDIRRINVNIAPLTLKGYERLKKLKIGTYQLFQESYNPEVYREVHLDGPKTNFLWRLNAVERAIEAGIDDIGIGALFGLGDPLFELLGVIAHADYLKKKFGIGPHTVSVPRLKPALNSVFSNDYKISDHKFKKIVALLRIMLPYTGIILSTREPQHLRDELVELGVSQMSAASRTGPGEYRGERQQFLLDHRSLAEIVEVLIDKGFLPSFCTACYRKRFCTPDALFSFVEYLYEIRDKHPELYKKGNGYLLQVVKDLPNFENIGRAIEYILK 4ru3-a1-m2-cA_4ru3-a1-m3-cA Crystal structure of the cell puncturing protein Orf41 from Pseudomonas phage SN B7VFI6 B7VFI6 1.172 X-RAY DIFFRACTION 319 1.0 582382 (Pseudomonas phage SN) 582382 (Pseudomonas phage SN) 205 205 4ru3-a1-m1-cA_4ru3-a1-m2-cA 4ru3-a1-m1-cA_4ru3-a1-m3-cA LIAALDARSRRDALDFEVMIPAQVVQYDRAENIATIQPLITWVDTEHNAVQRHQLVDIPVISMGAGGFHISFPIQQGDIGWIYAADRDTSQFLESLSMSKPNTGRIHKFEHGLFIPDVFRRYTINSEDSAAMVIQSTSGATRISIRGDNIKITAPSNVTVDTPQANFTGSVTIANTLVVNGVNVNNHGHLENNPPDARTKGGMIA LIAALDARSRRDALDFEVMIPAQVVQYDRAENIATIQPLITWVDTEHNAVQRHQLVDIPVISMGAGGFHISFPIQQGDIGWIYAADRDTSQFLESLSMSKPNTGRIHKFEHGLFIPDVFRRYTINSEDSAAMVIQSTSGATRISIRGDNIKITAPSNVTVDTPQANFTGSVTIANTLVVNGVNVNNHGHLENNPPDARTKGGMIA 4ru4-a2-m1-cE_4ru4-a2-m1-cF Crystal structure of the tailspike protein gp49 from Pseudomonas phage LKA1 Q0E5W5 Q0E5W5 1.903 X-RAY DIFFRACTION 201 1.0 386793 (Pseudomonas phage LKA1) 386793 (Pseudomonas phage LKA1) 590 590 4ru4-a1-m1-cA_4ru4-a1-m1-cB 4ru4-a1-m1-cA_4ru4-a1-m1-cC 4ru4-a1-m1-cC_4ru4-a1-m1-cB 4ru4-a2-m1-cD_4ru4-a2-m1-cE 4ru4-a2-m1-cD_4ru4-a2-m1-cF GRVTPAQFGAVGDGASHPLSERYATLAEAQTVYPHAVALSDEIDWAALQAAVDSGAPVHIPSGDYQINRGISSTGSLQIAGDGATSIIRPTAAFTGTSVLSCVGSLVALPNISSVSAGSLTIDFASTPNLVAGDVFIIYNPTDSSFSGFRTSYRAGEFCEVRAVSGNTVTIRSALYAAYDGATVAIYKVVSGVVDIASIQIVGGTVPMNGLLVEAVVSPRVDDVTVTLANNAGVYFARCYDAKITNSNISNIGDGGDDYGIIFGNCHDGGADNCKVYARRHAIATGGDAEVGCVPVRNVRMRNCTLRNDITSGTHCADFHGNAEDCSYENCTIYGGATWQGKDISYRHCTITNASGGWIVISAEILGGTFLLDQCTLYTTGDPQPGNRGVIDVGGNSAVLTTNTTQPCNFLIQGGSLRAPSLSTSSYLLRARLEGSTVPVNIQYSGQAIDVGSLGKVLQLDITSGSTSPEYLIVENLAGLPSGITLASAAGGFASAPMRMPVLGGRVQVTTATNASSVTAPVTFRYIYPKAPTVQVTKTDRSYAGNRVGVAIANPTSASGATLGLFTDDGTNFSSAVTNQLNWQAGIYEV GRVTPAQFGAVGDGASHPLSERYATLAEAQTVYPHAVALSDEIDWAALQAAVDSGAPVHIPSGDYQINRGISSTGSLQIAGDGATSIIRPTAAFTGTSVLSCVGSLVALPNISSVSAGSLTIDFASTPNLVAGDVFIIYNPTDSSFSGFRTSYRAGEFCEVRAVSGNTVTIRSALYAAYDGATVAIYKVVSGVVDIASIQIVGGTVPMNGLLVEAVVSPRVDDVTVTLANNAGVYFARCYDAKITNSNISNIGDGGDDYGIIFGNCHDGGADNCKVYARRHAIATGGDAEVGCVPVRNVRMRNCTLRNDITSGTHCADFHGNAEDCSYENCTIYGGATWQGKDISYRHCTITNASGGWIVISAEILGGTFLLDQCTLYTTGDPQPGNRGVIDVGGNSAVLTTNTTQPCNFLIQGGSLRAPSLSTSSYLLRARLEGSTVPVNIQYSGQAIDVGSLGKVLQLDITSGSTSPEYLIVENLAGLPSGITLASAAGGFASAPMRMPVLGGRVQVTTATNASSVTAPVTFRYIYPKAPTVQVTKTDRSYAGNRVGVAIANPTSASGATLGLFTDDGTNFSSAVTNQLNWQAGIYEV 4ru5-a1-m1-cB_4ru5-a1-m1-cC Crystal Structure of the Pseudomonas phage phi297 tailspike gp61 H2BD96 H2BD96 1.52 X-RAY DIFFRACTION 248 1.0 1129145 (Pseudomonas phage phi297) 1129145 (Pseudomonas phage phi297) 600 602 4ru5-a1-m1-cA_4ru5-a1-m1-cB 4ru5-a1-m1-cA_4ru5-a1-m1-cC RLNDTANVKDYGAIADGAYHPLSERFATLAEAQAVYPHATALTDSIDWAAYQAAINSGAPHVHAPGGHYVMNRGTLAERDIRYTGDGYATRVDFSLADGPGSCMLTQGELVQIGDLSVSVVKGARTLTFAAAPDLAPGDVVIVYNPANGSWLADRDPYRAGEMWKVHSVSGSTVTIYGNSSSVYLFSEVDVYRMRGVRVSVDQMHFSPSDTYAIAPFRVVFGDGVKVSNYYASDVTRYTGLEVERCFDVSINAVSSPNRSPAVNDEYGITISNCHNFSVYGGYAAATRHAVALGGMDAVCCVPNRNGLIYGMHIEGIDIDSDIGAGDMHGNADKITYDNCEFRNGVILQGRDATVRNSTIYGVSSVSGEALYGTEVYGGTYTIENNRFISYGNGASFGIIHISPGTSQREALLIIARNNTFELPNATGSTKVLFLRGRNSPLPCSVNIDGMHVHMAPVAMQCFLFADDQVAATLNSNYLIIDGVYGPSGTYLLYPTSKNAAIPTRQMHQSGAVNVTTTASATVAAPAQTIRYPYSKIPNVSVQVSSQSGGGQSAIGSITPVAIAYNVQPNSIRPAIMAPSGSFAAGGSARLHWSASLDDI ADRLNDTANVKDYGAIADGAYHPLSERFATLAEAQAVYPHATALTDSIDWAAYQAAINSGAPHVHAPGGHYVMNRGTLAERDIRYTGDGYATRVDFSLADGPGSCMLTQGELVQIGDLSVSVVKGARTLTFAAAPDLAPGDVVIVYNPANGSWLADRDPYRAGEMWKVHSVSGSTVTIYGNSSSVYLFSEVDVYRMRGVRVSVDQMHFSPSDTYAIAPFRVVFGDGVKVSNYYASDVTRYTGLEVERCFDVSINAVSSPNRSPAVNDEYGITISNCHNFSVYGGYAAATRHAVALGGMDAVCCVPNRNGLIYGMHIEGIDIDSDIGAGDMHGNADKITYDNCEFRNGVILQGRDATVRNSTIYGVSSVSGEALYGTEVYGGTYTIENNRFISYGNGASFGIIHISPGTSQREALLIIARNNTFELPNATGSTKVLFLRGRNSPLPCSVNIDGMHVHMAPVAMQCFLFADDQVAATLNSNYLIIDGVYGPSGTYLLYPTSKNAAIPTRQMHQSGAVNVTTTASATVAAPAQTIRYPYSKIPNVSVQVSSQSGGGQSAIGSITPVAIAYNVQPNSIRPAIMAPSGSFAAGGSARLHWSASLDDI 4rud-a1-m1-cA_4rud-a1-m1-cB Crystal structure of a three finger toxin U3EPL2 U3EPL2 1.95 X-RAY DIFFRACTION 31 1.0 8637 (Micrurus fulvius) 8637 (Micrurus fulvius) 58 58 LKCYSSRTETMTCPEGEDKCEKYAVGLMHGSFFFIYTCTSKCHEGAYNVCCSTDLCNK LKCYSSRTETMTCPEGEDKCEKYAVGLMHGSFFFIYTCTSKCHEGAYNVCCSTDLCNK 4ruh-a1-m1-cB_4ruh-a1-m1-cA Crystal structure of Human Carnosinase-2 (CN2) in complex with inhibitor, Bestatin at 2.25 A Q96KP4 Q96KP4 2.25 X-RAY DIFFRACTION 310 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 453 458 LTTLFKYIDENQDRYIKKLAKWVAIQSVSAWPEKRGEIRRMMEVAAADVKQLGGSVELVDIGKQKLPDGSEIPLPPILLGRLGSDPQKKTVCIYGHLDVQPAALEDGWDSEPFTLVERDGKLYGRGSTDDKGPVAGWINALEAYQKTGQEIPVNVRFCLEGMEESGSEGLDELIFARKDTFFKDVDYVCISDNYWLGKKPCITYGLRGICYFFIEVECSNKDLHSGVYGGSVHEAMTDLILLMGSLVDKRGNILIPGIIDFDIEEFAKDVGAQILLHSHKKDILMHRWRYPSLSLHGIEGAFSGSGAKTVIPRKVVGKFSIRLVPMTPEVVGEQVTSYLTKKFAELRSPNEFKVYMGHGGKPWVSDFSHPHYLAGRRAMKTVFGVEPDLTREGGSIPVTLTFQEATGKNVMLLPVGSADDGAHSQNEKLNRYNYIEGTKMLAAYLYEVSQLKD LTTLFKYIDENQDRYIKKLAKWVAIQSVSAWPEKRGEIRRMMEVAAADVKQLGGSVELVDIGKQKLPDGSEIPLPPILLGRLGSDPQKKTVCIYGHLDVQPAALEDGWDSEPFTLVERDGKLYGRGSTDDKGPVAGWINALEAYQKTGQEIPVNVRFCLEGMEESGSEGLDELIFARKDTFFKDVDYVCISDNYWLGKKKPCITYGLRGICYFFIEVECSNKDLHSGVYGGSVHEAMTDLILLMGSLVDKRGNILIPGINEDIDFDIEEFAKDVGAQILLHSHKKDILMHRWRYPSLSLHGIEGAFSGSGAKTVIPRKVVGKFSIRLVPNMTPEVVGEQVTSYLTKKFAELRSPNEFKVYMGHGGKPWVSDFSHPHYLAGRRAMKTVFGVEPDLTREGGSIPVTLTFQEATGKNVMLLPVGSADDGAHSQNEKLNRYNYIEGTKMLAAYLYEVSQLKD 4run-a3-m1-cA_4run-a3-m1-cB Crystal structure of human odorant binding protein OBPIIa Q9NY56 Q9NY56 2.6 X-RAY DIFFRACTION 44 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 147 152 EDITGTWYVKAMVVDKDFPEDRRPRKVSPVKVTALGGGNLEATFTFMREDRCIQKKILMRKTEEPGKFSAYGGRKLIYLQELPGTDDYVFYSKDQRRGGLRYMGNLVGRNPNTNLEALEEFKKLVQHKGLSEEDIFMPLQTGSCVLE SFTLEEEDITGTWYVKAMVVDKDFPEDRRPRKVSPVKVTALGGGNLEATFTFMREDRCIQKKILMRKTEEPGKFSAYGGRKLIYLQELPGTDDYVFYSKDQRRGGLRYMGNLVGRNPNTNLEALEEFKKLVQHKGLSEEDIFMPLQTGSCVL 4ruq-a1-m1-cA_4ruq-a1-m1-cB Carp Fishelectin, apo form P68512 P68512 1.35 X-RAY DIFFRACTION 119 1.0 7962 (Cyprinus carpio) 7962 (Cyprinus carpio) 236 237 4rus-a1-m1-cB_4rus-a1-m1-cA 4rus-a2-m1-cC_4rus-a2-m1-cD 4rus-a3-m1-cE_4rus-a3-m1-cF LDCTVIDGNLKQIDAGSGSVVGVNNLNETFVLIDNVFTKISGSLKHFSVGPAGQLGVNTANNIFKYQSGGFVQLAGLLKQVDAGGDQIIAGVNMYDDIYCLNMDANNKWPSSNTPWVQLNGKLKYYSCGPYSCWGVNSNDQIFIMKDVSSNVCSGSGSFINIPGLLSMIEVATDGSVFGVNSQGNLYQRTGVTRSKPDGTDWISMVACPNGHKHVSFDLGVLWLVCVDGSIRKCIL LDCTVIDGNLKQIDAGSGSVVGVNNLNETFVLIDNVFTKISGSLKHFSVGPAGQLGVNTANNIFKYQSGGFVQLAGLLKQVDAGGDQIIAGVNMYDDIYCLNMDANNKWPSSNTPWVQLNGKLKYYSCGPYSCWGVNSNDQIFIMKDVSSNVCSGSGSFINIPGLLSMIEVATDGSVFGVNSQGNLYQRTGVTRSKPDGTDWISMVACPNGHKHVSFDLGVLWLVCVDGSIRKCILT 4rv2-a1-m1-cA_4rv2-a1-m2-cA Crystal Structure of (3R)-hydroxyacyl-ACP dehydratase HadAB hetero-dimer from Mycobacterium smegmatis A0QS40 A0QS40 2.7 X-RAY DIFFRACTION 20 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 135 135 IVGMHYRYPDFYEVGREKIREHALAIKNDETYFYDEDAAAELGHDALPAPLTFICIFGYQAQSAFFDHADIGVREAKIVQVDQELKFFKPIKAGDRLYCDVYVHAVRRADIIVTKNIITNDAGEIVQEAYTTLAG IVGMHYRYPDFYEVGREKIREHALAIKNDETYFYDEDAAAELGHDALPAPLTFICIFGYQAQSAFFDHADIGVREAKIVQVDQELKFFKPIKAGDRLYCDVYVHAVRRADIIVTKNIITNDAGEIVQEAYTTLAG 4rv2-a1-m1-cB_4rv2-a1-m2-cB Crystal Structure of (3R)-hydroxyacyl-ACP dehydratase HadAB hetero-dimer from Mycobacterium smegmatis A0QS41 A0QS41 2.7 X-RAY DIFFRACTION 35 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 141 141 ALREFSSVKVGDTLPERVITLTRGDLVNYAGVSGDLNPIHWDDEIAKQVGLDTAIAHGMLTMGLGGGYVTSWVGDPAAVTEYNVRFTAVVPVPNDGVGAEITFNGRVKSVDAEEKLVTIAISATAGGKKIFGRAVATARLA ALREFSSVKVGDTLPERVITLTRGDLVNYAGVSGDLNPIHWDDEIAKQVGLDTAIAHGMLTMGLGGGYVTSWVGDPAAVTEYNVRFTAVVPVPNDGVGAEITFNGRVKSVDAEEKLVTIAISATAGGKKIFGRAVATARLA 4rv4-a1-m1-cA_4rv4-a1-m1-cB 2.65 Angstrom Resolution Crystal Structure of an orotate phosphoribosyltransferase from Bacillus anthracis str. 'Ames Ancestor' in complex with 5-phospho-alpha-D-ribosyl diphosphate (PRPP) Q81WF6 Q81WF6 2.65 X-RAY DIFFRACTION 93 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 203 211 3m3h-a1-m1-cA_3m3h-a1-m2-cA 4rv4-a2-m1-cC_4rv4-a2-m2-cC SNAMKKEIASHLLEIGAVFLQPNDPFTWSSGMKSPIYCDNRLTLSYPKVRQTIAAGLEELIKEHFPTVEVIAGTATAGIAHAAWVSDRMDLPMCYVRQIEGKAEKGQKVVVVEDLISTGGSAITCVEALREAGCEVLGIVSIFTYELEAGKEKLEAANVASYSLSDYSALTEVAAEKGIIGQAETKKLQEWRKNPADEAWITA NLYFQSNAMKKEIASHLLEIGAVFLQPNDPFTWSSGMKSPIYCDNRLTLSYPKVRQTIAAGLEELIKEHFPTVEVIAGTATAGIAHAAWVSDRMDLPMCYVRSGNQIEGKAEKGQKVVVVEDLISTGGSAITCVEALREAGCEVLGIVSIFTYELEAGKEKLEAANVASYSLSDYSALTEVAAEKGIIGQAETKKLQEWRKNPADEAWITA 4rvc-a1-m1-cA_4rvc-a1-m4-cA Structure of ATP binding subunit of ABC transporter U2YAF6 U2YAF6 1.77 X-RAY DIFFRACTION 12 1.0 1337888 (Geobacillus kaustophilus GBlys) 1337888 (Geobacillus kaustophilus GBlys) 240 240 4rvc-a1-m2-cA_4rvc-a1-m3-cA TLLEVKDLSGGYTAQNVLEDVTFVVDRGEMVALIGLNGAGKSTTIKHIIGLMEPRRGAISINGYRLADGPETYRRQFAYIPETPVLYEELTLEEHLRLAAMAYGLSEAEYERRLPPLLREFRLERRLSSFPAHFSKGMKQKVMIVCAFLLEPPLYIIDEPFLGLDPLAIHALLERMNEQKAKGAGILLSTHILATAERYCDSFVILHNGRVKAKGTLDDIRRQFGLRGASLDELYVELTK TLLEVKDLSGGYTAQNVLEDVTFVVDRGEMVALIGLNGAGKSTTIKHIIGLMEPRRGAISINGYRLADGPETYRRQFAYIPETPVLYEELTLEEHLRLAAMAYGLSEAEYERRLPPLLREFRLERRLSSFPAHFSKGMKQKVMIVCAFLLEPPLYIIDEPFLGLDPLAIHALLERMNEQKAKGAGILLSTHILATAERYCDSFVILHNGRVKAKGTLDDIRRQFGLRGASLDELYVELTK 4rvc-a1-m2-cA_4rvc-a1-m4-cA Structure of ATP binding subunit of ABC transporter U2YAF6 U2YAF6 1.77 X-RAY DIFFRACTION 48 1.0 1337888 (Geobacillus kaustophilus GBlys) 1337888 (Geobacillus kaustophilus GBlys) 240 240 4rvc-a1-m1-cA_4rvc-a1-m3-cA TLLEVKDLSGGYTAQNVLEDVTFVVDRGEMVALIGLNGAGKSTTIKHIIGLMEPRRGAISINGYRLADGPETYRRQFAYIPETPVLYEELTLEEHLRLAAMAYGLSEAEYERRLPPLLREFRLERRLSSFPAHFSKGMKQKVMIVCAFLLEPPLYIIDEPFLGLDPLAIHALLERMNEQKAKGAGILLSTHILATAERYCDSFVILHNGRVKAKGTLDDIRRQFGLRGASLDELYVELTK TLLEVKDLSGGYTAQNVLEDVTFVVDRGEMVALIGLNGAGKSTTIKHIIGLMEPRRGAISINGYRLADGPETYRRQFAYIPETPVLYEELTLEEHLRLAAMAYGLSEAEYERRLPPLLREFRLERRLSSFPAHFSKGMKQKVMIVCAFLLEPPLYIIDEPFLGLDPLAIHALLERMNEQKAKGAGILLSTHILATAERYCDSFVILHNGRVKAKGTLDDIRRQFGLRGASLDELYVELTK 4rvc-a1-m3-cA_4rvc-a1-m4-cA Structure of ATP binding subunit of ABC transporter U2YAF6 U2YAF6 1.77 X-RAY DIFFRACTION 72 1.0 1337888 (Geobacillus kaustophilus GBlys) 1337888 (Geobacillus kaustophilus GBlys) 240 240 4rvc-a1-m1-cA_4rvc-a1-m2-cA TLLEVKDLSGGYTAQNVLEDVTFVVDRGEMVALIGLNGAGKSTTIKHIIGLMEPRRGAISINGYRLADGPETYRRQFAYIPETPVLYEELTLEEHLRLAAMAYGLSEAEYERRLPPLLREFRLERRLSSFPAHFSKGMKQKVMIVCAFLLEPPLYIIDEPFLGLDPLAIHALLERMNEQKAKGAGILLSTHILATAERYCDSFVILHNGRVKAKGTLDDIRRQFGLRGASLDELYVELTK TLLEVKDLSGGYTAQNVLEDVTFVVDRGEMVALIGLNGAGKSTTIKHIIGLMEPRRGAISINGYRLADGPETYRRQFAYIPETPVLYEELTLEEHLRLAAMAYGLSEAEYERRLPPLLREFRLERRLSSFPAHFSKGMKQKVMIVCAFLLEPPLYIIDEPFLGLDPLAIHALLERMNEQKAKGAGILLSTHILATAERYCDSFVILHNGRVKAKGTLDDIRRQFGLRGASLDELYVELTK 4rvp-a1-m1-cA_4rvp-a1-m1-cB Crystal structure of superoxide dismutase from sedum alfredii A0A0A0QA66 A0A0A0QA66 2.6 X-RAY DIFFRACTION 23 1.0 439688 (Sedum alfredii) 439688 (Sedum alfredii) 153 153 KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT 4rvp-a1-m1-cA_4rvp-a1-m1-cF Crystal structure of superoxide dismutase from sedum alfredii A0A0A0QA66 A0A0A0QA66 2.6 X-RAY DIFFRACTION 70 1.0 439688 (Sedum alfredii) 439688 (Sedum alfredii) 153 153 4rvp-a1-m1-cC_4rvp-a1-m1-cD KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT 4rvp-a1-m1-cB_4rvp-a1-m1-cD Crystal structure of superoxide dismutase from sedum alfredii A0A0A0QA66 A0A0A0QA66 2.6 X-RAY DIFFRACTION 21 1.0 439688 (Sedum alfredii) 439688 (Sedum alfredii) 153 158 KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT MILAAKKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT 4rvp-a1-m1-cB_4rvp-a1-m1-cE Crystal structure of superoxide dismutase from sedum alfredii A0A0A0QA66 A0A0A0QA66 2.6 X-RAY DIFFRACTION 19 1.0 439688 (Sedum alfredii) 439688 (Sedum alfredii) 153 153 KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT 4rvp-a1-m1-cB_4rvp-a1-m1-cF Crystal structure of superoxide dismutase from sedum alfredii A0A0A0QA66 A0A0A0QA66 2.6 X-RAY DIFFRACTION 32 1.0 439688 (Sedum alfredii) 439688 (Sedum alfredii) 153 153 KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT 4rvp-a1-m1-cE_4rvp-a1-m1-cD Crystal structure of superoxide dismutase from sedum alfredii A0A0A0QA66 A0A0A0QA66 2.6 X-RAY DIFFRACTION 25 1.0 439688 (Sedum alfredii) 439688 (Sedum alfredii) 153 158 KKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT MILAAKKKAVAVLKGNSAVEGVVTLTQEEDGPTTVNVRITGLTPGPHGFHLHEFGDTTNGCISTGPHFNPKGLTHGAPEDEIRHAGDLGNIVANADGVAEVTIVDNQIPLTGPNAVVGRAFVVHELEDDLGKGGHELSLSTGNAGGRLACGVIGLTPT 4rvu-a1-m1-cD_4rvu-a1-m1-cA The native structure of mycobacterial Rv1454c complexed with NADPH O53146 O53146 1.7988 X-RAY DIFFRACTION 80 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 323 329 4rvs-a1-m1-cA_4rvs-a1-m1-cB 4rvu-a2-m1-cB_4rvu-a2-m1-cC SMHAIEVTETGGPGVLRHVDQPQPQPGHGELLIKAEAIGVNFIDTYFRSGQYPRELPFVIGSEVCGTVEAVGPGAISVGDRVVSASANGAYAEFCTAPASLTAKVPDDVTSEVAASALLKGLTAHYLLKSVYPVKRGDTVLVHAGAGGVGLILTQWATHLGVRVITTVSTAEKAKLSKDAGADVVLDYPEDAWQFAGRVRELTGGTGVQAVYDGVGATTFDASLASLAVRGTLALFGAASGPVPPVDPQRLNAAGSVYLTRPSLFHFTRTGEEFSWRAAELFDAINSEAITVAVGGRYPLADALRAHQDLEARKTVGSVVLLP SMHAIEVTETGGPGVLRHVDQPQPQPGHGELLIKAEAIGVNFIDTYFRSGQYPRELPFVIGSEVCGTVEAVGPGVTAADTAISVGDRVVSASANGAYAEFCTAPASLTAKVPDDVTSEVAASALLKGLTAHYLLKSVYPVKRGDTVLVHAGAGGVGLILTQWATHLGVRVITTVSTAEKAKLSKDAGADVVLDYPEDAWQFAGRVRELTGGTGVQAVYDGVGATTFDASLASLAVRGTLALFGAASGPVPPVDPQRLNAAGSVYLTRPSLFHFTRTGEEFSWRAAELFDAINSEAITVAVGGRYPLADALRAHQDLEARKTVGSVVLLP 4rww-a1-m1-cC_4rww-a1-m1-cB Crystal Structure of L. monocytogenes PstA in complex with cyclic-di-AMP Q8Y3Y7 Q8Y3Y7 1.6 X-RAY DIFFRACTION 83 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 103 106 4rww-a1-m1-cB_4rww-a1-m1-cA 4rww-a1-m1-cC_4rww-a1-m1-cA MKLIFAIVQDQDSNRLSDALTKGNFGATKLATTGGFLKAGNTTFIIGTEDERVEDALAIIKENCKAREQMMTPTYVPYPIEVQVGGATVFVMPVESFHHFLEH MKLIFAIVQDQDSNRLSDALTKGNFGATKLATTGGFLKAGNTTFIIGTEDERVEDALAIIKENCKAREQMMTPTVDTYVPYPIEVQVGGATVFVMPVESFHHFLEH 4rwx-a1-m1-cC_4rwx-a1-m1-cB Crystal Structure of L. monocytogenes PstA Q8Y3Y7 Q8Y3Y7 2.9 X-RAY DIFFRACTION 68 0.987 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 77 84 4rwx-a1-m1-cA_4rwx-a1-m1-cB MKLIFAIVQDQDSNRLSDALTKGNFGATKLATTGNTTFIIGTEDERVEDALAIIKENCATVFVMPVESFHHFLEHHH MKLIFAIVQDQDSNRLSDALTKGNFGATKLATTGNTTFIIGTEDERVEDALAIIKENCKAREQVGGATVFVMPVESFHHFLEHH 4rx1-a3-m1-cB_4rx1-a3-m1-cA Crystal Structure of antibiotic-resistance methyltransferase Kmr B2L3G9 B2L3G9 2.472 X-RAY DIFFRACTION 75 1.0 56 (Sorangium cellulosum) 56 (Sorangium cellulosum) 198 213 MIVQLGKASVTWTRADLEAKLAGHARVLIDVGTGDGRFVYRSAGAHPDTYCIGVDPAGERMREVSWRASRKPARGGRPNALFVVASVQALPEELAGLAHTLTLNFPWASLLSALVLPEAPVLEALRRLVRPGGELIALLNQSVFDDRPYAARLGLPELSDAWLDDALRPAYRAAGFEIRTSEIVDGGRRTRLLTAEAI MIVQLGKASVTWTRADLEAKLAGHARVLIDVGTGDGRFVYRSAGAHPDTYCIGVDPAGERMREVSWRASRKPARGGRPNALFVVASVQALPEELAGLAHTLTLNFPWASLLSALVLPEAPVLEALRRLVRPGGELIALLNQSVFDDRPYAARLGLPELSDAWLDDALRPAYRAAGFEIRTSEIVDGQTSWGQHLTLASGRRTRLLTAEAIGGS 4rxj-a1-m1-cA_4rxj-a1-m2-cA crystal structure of WHSC1L1-PWWP2 Q9BZ95 Q9BZ95 2.1 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 KLHYKQIVWVKLGNYRWWPAEICNPRSVPLNIQGLKHDLGDFPVFFFGSHDYYWVHQGRVFPYVEGDKSFAEGQTSINKTFKKALEEAAKRFQELKAQRESKEALEIE KLHYKQIVWVKLGNYRWWPAEICNPRSVPLNIQGLKHDLGDFPVFFFGSHDYYWVHQGRVFPYVEGDKSFAEGQTSINKTFKKALEEAAKRFQELKAQRESKEALEIE 4ry2-a1-m1-cB_4ry2-a1-m1-cA Crystal structure of the peptidase-containing ABC transporter PCAT1 A3DCU1 A3DCU1 3.611 X-RAY DIFFRACTION 281 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 699 701 6v9z-a1-m1-cA_6v9z-a1-m1-cB 7t55-a1-m1-cA_7t55-a1-m1-cB 7t56-a1-m1-cA_7t56-a1-m1-cB 7t57-a1-m1-cA_7t57-a1-m1-cB CVRQYDLTDCGAACLSSIAQYYGLKMSLAKIREMTGTDTQGTNAYGLIHAAKQLGFSAKGVKASKEDLLKDFRLPAIANVIVDNRLAHFVVIYSIKNRIITVADPGKGIVRYSMDDFCSIWTGGLVLLEPGEAFQKGDYTQNMMVKFAGFLKPLKKTVLCIFLASLLYTALGIAGSFYIKFLFDDLIKFEKLNDLHIISAGFAVIFLLQIFLNYYRSILVTKLGMSIDKSIMMEYYSHVLKLPMNFFNSRKVGEIISRFMDASKIRQAISGATLTIMIDTIMAVIGGILLYIQNSSLFFISFIIILLYGIIVTVFNKPIQNANRQIMEDNAKLTSALVESVKGIETIKSFGAEEQTEKSTRDKIETVMKSSFKEGMLYINLSSLTGIVAGLGGIVILWAGAYNVIKGNMSGGQLLAFNALLAYFLTPVKNLIDLQPLIQTAVVASNRLGEILELATEKELGDIEFRNVDFRYGLRKPVLKNINLTIPKGKTVAIVGESGSGKTTLAKLLMNFYSPEKGDILINGHSIKNISLELIRKKIAFVSQDVFIFSGTVKENLCLGNENVDMDEIIKAAKMANAHDFIEKLPLKYDTFLNESGANLSEGQKQRLAIARALLKKPDILILDEATSNLDSITENHIKDAIYGLEDDVTVIIIAHRLSTIVNCDKIYLLKDGEIVESGSHTELIALKGCYFKMWKQTE CVRQYDLTDCGAACLSSIAQYYGLKMSLAKIREMTGTDTQGTNAYGLIHAAKQLGFSAKGVKASKEDLLKDFRLPAIANVIVDNRLAHFVVIYSIKNRIITVADPGKGIVRYSMDDFCSIWTGGLVLLEPGEAFQKGDYTQNMMVKFAGFLKPLKKTVLCIFLASLLYTALGIAGSFYIKFLFDDLIKFEKLNDLHIISAGFAVIFLLQIFLNYYRSILVTKLGMSIDKSIMMEYYSHVLKLPMNFFNSRKVGEIISRFMDASKIRQAISGATLTIMIDTIMAVIGGILLYIQNSSLFFISFIIILLYGIIVTVFNKPIQNANRQIMEDNAKLTSALVESVKGIETIKSFGAEEQTEKSTRDKIETVMKSSFKEGMLYINLSSLTGIVAGLGGIVILWAGAYNVIKGNMSGGQLLAFNALLAYFLTPVKNLIDLQPLIQTAVVASNRLGEILELATEKELGDIEFRNVDFRYGLRKPVLKNINLTIPKGKTVAIVGESGSGKTTLAKLLMNFYSPEKGDILINGHSIKNISLELIRKKIAFVSQDVFIFSGTVKENLCLGNENVDMDEIIKAAKMANAHDFIEKLPLKYDTFLNESGANLSEGQKQRLAIARALLKKPDILILDEATSNLDSITENHIKDAIYGLEDDVTVIIIAHRLSTIVNCDKIYLLKDGEIVESGSHTELIALKGCYFKMWKQTENT 4ry8-a2-m1-cB_4ry8-a2-m1-cD Crystal structure of 5-methylthioribose transporter solute binding protein TLET_1677 from Thermotoga lettingae TMO TARGET EFI-511109 in complex with 5-methylthioribose A8F7U7 A8F7U7 1.75 X-RAY DIFFRACTION 51 1.0 416591 (Pseudothermotoga lettingae TMO) 416591 (Pseudothermotoga lettingae TMO) 321 321 4ry8-a1-m1-cA_4ry8-a1-m1-cC PKKFENPKNVRIALVREVGEGSFFERYLAGAQSMARELGVTLLEATAHGDMARMVTMIENFITQRVDAIIIDHGRPDPLMPKIKEALDRGIRVVTFDLVVDDNRVPEIEQDDLLIGYLISKQLAVDFAGNANVIYVNVGGFAPLDKRDKMWQIIKWRFPGIKEVAKIGAVTGSTAADTQTRMEAAMKEKPEANAVLAMWDEFAKGAVRAIMQAGKSDQFKVYSVDVTTEDIQMMIQQNSPWVATVGTDSYAVGRLAVRAAAALVGGEKLPKYLLVEPQLITRQFLVDNNITNMDELVKALPALGESNLVWPEWLKALTEKN PKKFENPKNVRIALVREVGEGSFFERYLAGAQSMARELGVTLLEATAHGDMARMVTMIENFITQRVDAIIIDHGRPDPLMPKIKEALDRGIRVVTFDLVVDDNRVPEIEQDDLLIGYLISKQLAVDFAGNANVIYVNVGGFAPLDKRDKMWQIIKWRFPGIKEVAKIGAVTGSTAADTQTRMEAAMKEKPEANAVLAMWDEFAKGAVRAIMQAGKSDQFKVYSVDVTTEDIQMMIQQNSPWVATVGTDSYAVGRLAVRAAAALVGGEKLPKYLLVEPQLITRQFLVDNNITNMDELVKALPALGESNLVWPEWLKALTEKN 4ryb-a1-m1-cA_4ryb-a1-m1-cB Crystal structure of beta-ketoacyl-ACP synthase III (FabH) from Neisseria meningitidis A1KRY9 A1KRY9 2.45 X-RAY DIFFRACTION 237 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 318 318 QYAKISGTGSYLPANRVSNDDLAQKVDTSDEWITARTGIKFRHIAAENEKTSDLAAEAARRALDAAGLDSGEIDLIIVATATPDMQFPSTATIVQQKLGITNGCPAFDVQAVAGFMYALTTANAYIKSGMAKNALVIGAETFSRIVDWNDRTTCVLFGDGAGAVVLSAADKPGIIHSKLKADGNYLKLLNVPGQIACGKVSGSPYISMDGPGVFKFAVKMLSKIADDVIEEAGYTAAQIDWIVPHQANRRIIESTAKHLGLSMDKVVLTVQDHGNTSAASIPLALDTGIRSGQIKRGQNLLLEGIGGGFAWGAVLLQY QYAKISGTGSYLPANRVSNDDLAQKVDTSDEWITARTGIKFRHIAAENEKTSDLAAEAARRALDAAGLDSGEIDLIIVATATPDMQFPSTATIVQQKLGITNGCPAFDVQAVAGFMYALTTANAYIKSGMAKNALVIGAETFSRIVDWNDRTTCVLFGDGAGAVVLSAADKPGIIHSKLKADGNYLKLLNVPGQIACGKVSGSPYISMDGPGVFKFAVKMLSKIADDVIEEAGYTAAQIDWIVPHQANRRIIESTAKHLGLSMDKVVLTVQDHGNTSAASIPLALDTGIRSGQIKRGQNLLLEGIGGGFAWGAVLLQY 4ryi-a1-m1-cA_4ryi-a1-m1-cB Crystal structure of BcTSPO/PK11195 complex Q81BL7 Q81BL7 3.49 X-RAY DIFFRACTION 54 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 151 151 4ryj-a1-m1-cA_4ryj-a1-m1-cB MKKSSIIVFFLTYGLFYVSSVLFPIDRTWYDALEKPSWTPPGMTIGMIWAVLFGLIALSVAIIYNNYGFKPKTFWFLFLLNYIFNQAFSYFQFSQKNLFLATVDCLLVAITTLLLIMFSSNLSKVSAWLLIPYFLWSAFATYLSWTIYSIN MKKSSIIVFFLTYGLFYVSSVLFPIDRTWYDALEKPSWTPPGMTIGMIWAVLFGLIALSVAIIYNNYGFKPKTFWFLFLLNYIFNQAFSYFQFSQKNLFLATVDCLLVAITTLLLIMFSSNLSKVSAWLLIPYFLWSAFATYLSWTIYSIN 4ryi-a2-m1-cA_4ryi-a2-m2-cB Crystal structure of BcTSPO/PK11195 complex Q81BL7 Q81BL7 3.49 X-RAY DIFFRACTION 25 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 151 151 MKKSSIIVFFLTYGLFYVSSVLFPIDRTWYDALEKPSWTPPGMTIGMIWAVLFGLIALSVAIIYNNYGFKPKTFWFLFLLNYIFNQAFSYFQFSQKNLFLATVDCLLVAITTLLLIMFSSNLSKVSAWLLIPYFLWSAFATYLSWTIYSIN MKKSSIIVFFLTYGLFYVSSVLFPIDRTWYDALEKPSWTPPGMTIGMIWAVLFGLIALSVAIIYNNYGFKPKTFWFLFLLNYIFNQAFSYFQFSQKNLFLATVDCLLVAITTLLLIMFSSNLSKVSAWLLIPYFLWSAFATYLSWTIYSIN 4ryk-a1-m1-cA_4ryk-a1-m2-cA Crystal structure of a putative transcriptional regulator from Listeria monocytogenes EGD-e Q8YA39 Q8YA39 2.09 X-RAY DIFFRACTION 156 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 290 290 HHHSYGELIREIRLSKGLTQKEVYTGIISRSYAIGFEKGKHEITLSLFEEILKRIVPLDEFFFIYRDFSSTEDDSFWIDFVELSGKNDVVGQALLDKITLERTEQSEVRKAILHTRIQTINHYLRTNVSNISDEYKKIIHDYLWKQTWTLEEVRIFSNGISFFEEEVQIHFYQILKSYEKYRYYDRGRLLFCHLFANLTDELIIQNKINYANLVLEKLKEASETSGSFNSAFYRIVANYYQGAIWKEGEVEKGYRQAKRAIQTWKELHYEAIADLYSVVLKQFLEKENIQ HHHSYGELIREIRLSKGLTQKEVYTGIISRSYAIGFEKGKHEITLSLFEEILKRIVPLDEFFFIYRDFSSTEDDSFWIDFVELSGKNDVVGQALLDKITLERTEQSEVRKAILHTRIQTINHYLRTNVSNISDEYKKIIHDYLWKQTWTLEEVRIFSNGISFFEEEVQIHFYQILKSYEKYRYYDRGRLLFCHLFANLTDELIIQNKINYANLVLEKLKEASETSGSFNSAFYRIVANYYQGAIWKEGEVEKGYRQAKRAIQTWKELHYEAIADLYSVVLKQFLEKENIQ 4ryv-a2-m1-cA_4ryv-a2-m2-cA Crystal structure of yellow lupin LLPR-10.1A protein in complex with trans-zeatin P52778 P52778 1.38 X-RAY DIFFRACTION 56 1.0 3873 (Lupinus luteus) 3873 (Lupinus luteus) 155 155 GIFAFENEQSSTVAPAKLYKALTKDSDEIVPKVIEPIQSVEIVEGNGGPGTIKKIIAIHDGHTSFVLHKLDAIDEANLTYNYSIIGGEGLDESLEKISYESKILPGPDGGSIGKINVKFHTKGDVLSETVRDQAKFKGLGLFKAIEGYVLAHPDY GIFAFENEQSSTVAPAKLYKALTKDSDEIVPKVIEPIQSVEIVEGNGGPGTIKKIIAIHDGHTSFVLHKLDAIDEANLTYNYSIIGGEGLDESLEKISYESKILPGPDGGSIGKINVKFHTKGDVLSETVRDQAKFKGLGLFKAIEGYVLAHPDY 4rz0-a1-m1-cB_4rz0-a1-m1-cA Crystal Structure of Plasmodium falciparum putative histone methyltransferase PFL0690c W7FLI1 W7FLI1 2.487 X-RAY DIFFRACTION 66 0.982 418107 (Plasmodium (Laverania)) 418107 (Plasmodium (Laverania)) 110 114 KIYIGKSSLGGLGVFSLEGIKKNEIIEICPTVSICNEEIPRNLVDYLYEGNYKLLPLGYGILYNHSDIPNAYVEIHKINKVTVSNNVMIVYAYNNIQKDDEILISYGHSW IQKKIYIGKSSLGGLGVFSLEGIKKNEIIEICPTVSICNEEIPRNLVDYLYEGKNYKLLPLGYGILYNHSDIPNAYVEIHKINTVSNNVMIVYAYNNIQKDDEILISYGHSWWK 4rz3-a1-m1-cA_4rz3-a1-m1-cB Crystal structure of the MinD-like ATPase FlhG A4IMB4 A4IMB4 1.9 X-RAY DIFFRACTION 98 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 244 244 SPRTIAVTSGKGGVGKSNVSLNFSLSLSKLGFRVLLLDMAIGMGNIDILLGESSSLALADWFSARLPLSELVKSGPEHLSYIAGGTGAAQWQGLDTASIDRFLTELQAVASQYDYLIFDMGAGASGERLYFLKSVDDVFVVTTPEPTAMTDAYAMMKYMHAAGSEAPFSVIVNRAGKEREGYEVFERLKHVTGRFLNKDIALLGIIPEDRTVARAVVSQTPFVLLDPAAKASKAVRQMAFRYAP SPRTIAVTSGKGGVGKSNVSLNFSLSLSKLGFRVLLLDMAIGMGNIDILLGESSSLALADWFSARLPLSELVKSGPEHLSYIAGGTGAAQWQGLDTASIDRFLTELQAVASQYDYLIFDMGAGASGERLYFLKSVDDVFVVTTPEPTAMTDAYAMMKYMHAAGSEAPFSVIVNRAGKEREGYEVFERLKHVTGRFLNKDIALLGIIPEDRTVARAVVSQTPFVLLDPAAKASKAVRQMAFRYAP 4rzh-a1-m1-cA_4rzh-a1-m1-cB Crystal structure of FabG from Synechocystis sp. PCC 6803 P73574 P73574 2.2 X-RAY DIFFRACTION 116 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 234 234 ALTAQVALVTGASRGIGKATALALAATGMKVVVNYAQSSTAADAVVAEIIANGGEAIAVQANVANADEVDQLIKTTLDKFSRIDVLVNNAGITRDTLLLRMKLEDWQAVIDLNLTGVFLCTKAVSKLMLKQKSGRIINITSVAGMMGNPGQANYSAAKAGVIGFTKTVAKELASRGVTVNAVAPGFIAPILQFIPLARYGQPEEVAGTIRFLATDPAAAYITGQTFNVDGGMVM ALTAQVALVTGASRGIGKATALALAATGMKVVVNYAQSSTAADAVVAEIIANGGEAIAVQANVANADEVDQLIKTTLDKFSRIDVLVNNAGITRDTLLLRMKLEDWQAVIDLNLTGVFLCTKAVSKLMLKQKSGRIINITSVAGMMGNPGQANYSAAKAGVIGFTKTVAKELASRGVTVNAVAPGFIAPILQFIPLARYGQPEEVAGTIRFLATDPAAAYITGQTFNVDGGMVM 4rzi-a2-m1-cA_4rzi-a2-m5-cC Crystal structure of PhaB from Synechocystis sp. PCC 6803 P73826 P73826 2.891 X-RAY DIFFRACTION 138 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 239 239 4rzi-a1-m1-cB_4rzi-a1-m3-cB 4rzi-a1-m2-cB_4rzi-a1-m4-cB 4rzi-a2-m1-cC_4rzi-a2-m5-cA LSLGLEDKVIVVTGGNRGIGAAIVKLLQEMGAKVAFTDLATDGGNTEALGVVANVTDLESMTAAAAEITDKLGPVYGVVANAGITKDNFFPKLTPADWDAVLNVNLKGVAYSIKPFIEGMYERKAGSIVAISSISGERGNVGQTNYSATKAGVIGMMKSLAREGARYGVRANAVAPGFIDTEMTLAIREDIREKITKEIPFRRFGKPEEIAWAVAFLLSPVASSYVTGEVLRVNGAHHT LSLGLEDKVIVVTGGNRGIGAAIVKLLQEMGAKVAFTDLATDGGNTEALGVVANVTDLESMTAAAAEITDKLGPVYGVVANAGITKDNFFPKLTPADWDAVLNVNLKGVAYSIKPFIEGMYERKAGSIVAISSISGERGNVGQTNYSATKAGVIGMMKSLAREGARYGVRANAVAPGFIDTEMTLAIREDIREKITKEIPFRRFGKPEEIAWAVAFLLSPVASSYVTGEVLRVNGAHHT 4rzi-a2-m1-cC_4rzi-a2-m5-cC Crystal structure of PhaB from Synechocystis sp. PCC 6803 P73826 P73826 2.891 X-RAY DIFFRACTION 108 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 239 239 4rzi-a1-m1-cB_4rzi-a1-m4-cB 4rzi-a1-m2-cB_4rzi-a1-m3-cB 4rzi-a2-m1-cA_4rzi-a2-m5-cA LSLGLEDKVIVVTGGNRGIGAAIVKLLQEMGAKVAFTDLATDGGNTEALGVVANVTDLESMTAAAAEITDKLGPVYGVVANAGITKDNFFPKLTPADWDAVLNVNLKGVAYSIKPFIEGMYERKAGSIVAISSISGERGNVGQTNYSATKAGVIGMMKSLAREGARYGVRANAVAPGFIDTEMTLAIREDIREKITKEIPFRRFGKPEEIAWAVAFLLSPVASSYVTGEVLRVNGAHHT LSLGLEDKVIVVTGGNRGIGAAIVKLLQEMGAKVAFTDLATDGGNTEALGVVANVTDLESMTAAAAEITDKLGPVYGVVANAGITKDNFFPKLTPADWDAVLNVNLKGVAYSIKPFIEGMYERKAGSIVAISSISGERGNVGQTNYSATKAGVIGMMKSLAREGARYGVRANAVAPGFIDTEMTLAIREDIREKITKEIPFRRFGKPEEIAWAVAFLLSPVASSYVTGEVLRVNGAHHT 4rzk-a1-m1-cA_4rzk-a1-m1-cB Crystal structure of Sulfolobus solfataricus Hsp20.1 ACD Q97W19 Q97W19 2.677 X-RAY DIFFRACTION 32 0.989 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 87 87 MISEEREPLADVIEKGDEIKVVAEVPGVNKEDIKVKVTNGGKKLVITAKSEDRQYYKEIDLPAEVDEKAAKANFKNGVLEITLKKKA PMISEEREPLADVIEKGDEIKVVAEVPGVNKEDIKVKVTNGGKKLVITAKSEDRQYYKEIDLPAEVDEKAAKANFKNGVLEITLKKK 4rzm-a3-m1-cA_4rzm-a3-m2-cB Crystal structure of the Lsd19-lasalocid A complex B6ZK72 B6ZK72 2.33 X-RAY DIFFRACTION 73 1.0 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 274 283 4rzm-a3-m2-cA_4rzm-a3-m1-cB GRHMPAETVRKEVALEYCRRVNAGELEGVLQLFAPDARLVDPLGTEPVVGRAALAARLAPALRGAVHEEPGRPYAAHDGTSVVLPATVTVRGRTRVMGVIEVGEDGLIREMRVMWGVTDSSWTARPAPDEERRKELAREHCLRINDGDVDGLLKLYSPRIRFEDPVGSWTRTGLEALRAHATMAVGSNVRETAGLTVAGQDGRHAAVTVSATMDYLPSGPLLARHHLMTLPAPADPHRALIGIEYVMVIGVDADGLIDEMRAYWGATDVSLLDP GRHMPAETVRKEVALEYCRRVNAGELEGVLQLFAPDARLVDPLGTEPVVGRAALAARLAPALRGAVHEEPGRPYAAHDGTSVVLPATVTVGAPGAPPQRRGRTRVMGVIEVGEDGLIREMRVMWGVTDSSWTARPAPDEERRKELAREHCLRINDGDVDGLLKLYSPRIRFEDPVGSWTRTGLEALRAHATMAVGSNVRETAGLTVAGQDGRHAAVTVSATMDYLPSGPLLARHHLMTLPAPADPHRALIGIEYVMVIGVDADGLIDEMRAYWGATDVSLLDP 4rzm-a3-m1-cB_4rzm-a3-m2-cB Crystal structure of the Lsd19-lasalocid A complex B6ZK72 B6ZK72 2.33 X-RAY DIFFRACTION 14 1.0 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 283 283 GRHMPAETVRKEVALEYCRRVNAGELEGVLQLFAPDARLVDPLGTEPVVGRAALAARLAPALRGAVHEEPGRPYAAHDGTSVVLPATVTVGAPGAPPQRRGRTRVMGVIEVGEDGLIREMRVMWGVTDSSWTARPAPDEERRKELAREHCLRINDGDVDGLLKLYSPRIRFEDPVGSWTRTGLEALRAHATMAVGSNVRETAGLTVAGQDGRHAAVTVSATMDYLPSGPLLARHHLMTLPAPADPHRALIGIEYVMVIGVDADGLIDEMRAYWGATDVSLLDP GRHMPAETVRKEVALEYCRRVNAGELEGVLQLFAPDARLVDPLGTEPVVGRAALAARLAPALRGAVHEEPGRPYAAHDGTSVVLPATVTVGAPGAPPQRRGRTRVMGVIEVGEDGLIREMRVMWGVTDSSWTARPAPDEERRKELAREHCLRINDGDVDGLLKLYSPRIRFEDPVGSWTRTGLEALRAHATMAVGSNVRETAGLTVAGQDGRHAAVTVSATMDYLPSGPLLARHHLMTLPAPADPHRALIGIEYVMVIGVDADGLIDEMRAYWGATDVSLLDP 4rzm-a3-m2-cA_4rzm-a3-m2-cB Crystal structure of the Lsd19-lasalocid A complex B6ZK72 B6ZK72 2.33 X-RAY DIFFRACTION 27 1.0 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 274 283 4rzm-a3-m1-cA_4rzm-a3-m1-cB GRHMPAETVRKEVALEYCRRVNAGELEGVLQLFAPDARLVDPLGTEPVVGRAALAARLAPALRGAVHEEPGRPYAAHDGTSVVLPATVTVRGRTRVMGVIEVGEDGLIREMRVMWGVTDSSWTARPAPDEERRKELAREHCLRINDGDVDGLLKLYSPRIRFEDPVGSWTRTGLEALRAHATMAVGSNVRETAGLTVAGQDGRHAAVTVSATMDYLPSGPLLARHHLMTLPAPADPHRALIGIEYVMVIGVDADGLIDEMRAYWGATDVSLLDP GRHMPAETVRKEVALEYCRRVNAGELEGVLQLFAPDARLVDPLGTEPVVGRAALAARLAPALRGAVHEEPGRPYAAHDGTSVVLPATVTVGAPGAPPQRRGRTRVMGVIEVGEDGLIREMRVMWGVTDSSWTARPAPDEERRKELAREHCLRINDGDVDGLLKLYSPRIRFEDPVGSWTRTGLEALRAHATMAVGSNVRETAGLTVAGQDGRHAAVTVSATMDYLPSGPLLARHHLMTLPAPADPHRALIGIEYVMVIGVDADGLIDEMRAYWGATDVSLLDP 4rzp-a3-m1-cA_4rzp-a3-m1-cB Crystal Structure of Engineered Protein. Northeast Structural Genomics Consortium (NESG) Target OR366. 2.804 X-RAY DIFFRACTION 85 1.0 32630 (synthetic construct) 32630 (synthetic construct) 242 242 MNDLEKLVELLTHDDSKTQQEAARDLAEIASGNASAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNDEAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNDEAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNDEAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNTSAIKQVIDAGALEKLQELLTHDDSKVQQEAQRALENIKSG MNDLEKLVELLTHDDSKTQQEAARDLAEIASGNASAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNDEAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNDEAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNDEAIKQVIDAGALEKLVELLTHDDSKVQQEAARALANIASGNTSAIKQVIDAGALEKLQELLTHDDSKVQQEAQRALENIKSG 4rzx-a1-m1-cB_4rzx-a1-m1-cA Crystal structure (type-3) of dTMP kinase (st1543) from Sulfolobus Tokodaii Strain7 Q970Q8 Q970Q8 2.3 X-RAY DIFFRACTION 62 0.995 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 199 207 2plr-a1-m1-cB_2plr-a1-m1-cA 4nzy-a1-m1-cB_4nzy-a1-m1-cA 5h70-a1-m1-cA_5h70-a1-m1-cB KGVLIAFEGIDGSGKSSQATLLKDWIELKRDVYLTEDWIHDIIKEAKLLTPLTFSLIHATDFSDRYERYILPMLKSGFIVISDRYIYTAYARDSVRGVDIDWVKKLYSFAIKPDITFYIRVSPDIALERIKKSKRKIKPQEAGADIFPGLSPEEGFLKYQGLITEVYDKLVKDENFIVIDGTKTPKEIQIQIRKFVGEL KGVLIAFEGIDGSGKSSQATLLKDWIELKRDVYLTEWNSSDWIHDIIKEAKKKDLLTPLTFSLIHATDFSDRYERYILPMLKSGFIVISDRYIYTAYARDSVRGVDIDWVKKLYSFAIKPDITFYIRVSPDIALERIKKSRKIKPQEAGADIFPGLSPEEGFLKYQGLITEVYDKLVKDENFIVIDGTKTPKEIQIQIRKFVGELID 4rzy-a2-m1-cB_4rzy-a2-m1-cD Crystal structure of metallopeptidase-like dimethylsulphoniopropionate (DMSP) lyase RlDddP in complex with MES 1.949 X-RAY DIFFRACTION 273 1.0 644107 (Ruegeria lacuscaerulensis ITI-1157) 644107 (Ruegeria lacuscaerulensis ITI-1157) 439 439 4rzy-a1-m1-cA_4rzy-a1-m1-cC 4rzz-a1-m1-cA_4rzz-a1-m1-cC 4rzz-a2-m1-cB_4rzz-a2-m1-cD 4s00-a1-m1-cA_4s00-a1-m1-cC 4s00-a2-m1-cB_4s00-a2-m1-cD 4s01-a1-m1-cA_4s01-a1-m1-cC 4s01-a2-m1-cB_4s01-a2-m1-cD RKIDPSRGATLGDGTPNDNDRIEIGPTQLAFSEWAAAGLQLPNLDRMREYRWKRLTQAIVDRGYGGLLMFDPLNIRYATDSTNMQLWNTHNPFRAVLLCADGYMVIWDYKNSPFLSKFNPLVREQRSGADLFYFDRGDKVDVQADVFANEVRVLMQDHAPGHTRLAVDKIMLHGLRALEAQGFEIMEGEEVTEKTRAIKGPDEILAMRCASHACETAVAEMEKFARAHVGDGKTSEDDIWAVLHAENIKRGGEWIETRLLASGPRTNPWFQECGPRITQKNEIIAFDTDLIGSYGICVDISRTWWIGDQKPRPDMVYAMQHAHEHIMTNMEMLKPGVMIPDLTANCHRLDDKFQAQKYGCLMHGVGLCDEWPLVAYPDKAVPGSYDYPLEPGMVLCVEAAVGEVGGDFSIKLEDQVLITEDGYENLTTYPFDAALMGLA RKIDPSRGATLGDGTPNDNDRIEIGPTQLAFSEWAAAGLQLPNLDRMREYRWKRLTQAIVDRGYGGLLMFDPLNIRYATDSTNMQLWNTHNPFRAVLLCADGYMVIWDYKNSPFLSKFNPLVREQRSGADLFYFDRGDKVDVQADVFANEVRVLMQDHAPGHTRLAVDKIMLHGLRALEAQGFEIMEGEEVTEKTRAIKGPDEILAMRCASHACETAVAEMEKFARAHVGDGKTSEDDIWAVLHAENIKRGGEWIETRLLASGPRTNPWFQECGPRITQKNEIIAFDTDLIGSYGICVDISRTWWIGDQKPRPDMVYAMQHAHEHIMTNMEMLKPGVMIPDLTANCHRLDDKFQAQKYGCLMHGVGLCDEWPLVAYPDKAVPGSYDYPLEPGMVLCVEAAVGEVGGDFSIKLEDQVLITEDGYENLTTYPFDAALMGLA 4s03-a1-m1-cA_4s03-a1-m2-cA Biphenylalanine modified threonyl-tRNA synthetase from Pyrococcus abyssi: I11BIF, Y79I, and F123A mutant Q9UZ14 Q9UZ14 2.05 X-RAY DIFFRACTION 65 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 140 140 1y2q-a1-m1-cA_1y2q-a1-m2-cA 2hkz-a1-m1-cA_2hkz-a1-m2-cA 2hl0-a1-m1-cA_2hl0-a1-m2-cA 2hl1-a1-m1-cA_2hl1-a1-m1-cB 2hl2-a1-m1-cA_2hl2-a1-m1-cB 3pd2-a1-m1-cB_3pd2-a1-m1-cA 3pd3-a1-m1-cB_3pd3-a1-m1-cA 3pd4-a1-m1-cB_3pd4-a1-m1-cA 3pd5-a1-m1-cA_3pd5-a1-m1-cB 4rrq-a1-m1-cA_4rrq-a1-m1-cB 4rrr-a1-m1-cB_4rrr-a1-m1-cA 4s02-a1-m1-cA_4s02-a1-m2-cA 4s0i-a1-m1-cA_4s0i-a1-m2-cA 4s0j-a1-m1-cA_4s0j-a1-m2-cA 4s0k-a1-m1-cA_4s0k-a1-m2-cA MRVLLIHADYEYEVKDKALKNPEPISEDMKRGRMEEVLVAFISVEKVDEKNPEEVSLKAIEEISKVAEQVKAENVFVIPWAHLSSELAKPSVAMDILNRVYQGLKERGFNVGKAPFGYYIAAKISCKGHPLAELSRTIVP MRVLLIHADYEYEVKDKALKNPEPISEDMKRGRMEEVLVAFISVEKVDEKNPEEVSLKAIEEISKVAEQVKAENVFVIPWAHLSSELAKPSVAMDILNRVYQGLKERGFNVGKAPFGYYIAAKISCKGHPLAELSRTIVP 4s04-a2-m1-cE_4s04-a2-m1-cF Crystal structure of Klebsiella pneumoniae PmrA in complex with PmrA box DNA A0A0R4I965 A0A0R4I965 3.2 X-RAY DIFFRACTION 79 1.0 1380908 (Klebsiella pneumoniae JM45) 1380908 (Klebsiella pneumoniae JM45) 219 219 MKILVIEDDALLLQGLILAMQSEGYVCDGVSTAHEAALSLASNHYSLIVLDLGLPDEDGLHFLSRMRREKMTQPVLILTARDTLEDRISGLDTGADDYLVKPFALEELNARIRALLRRHNNQGDNEISVGNLRLNVTRRLVWLGETALDLTPKEYALLSRLMMKAGSPVHREILYNDIYSGDNEPATNTLEVHIHNLREKIGKSRIRTVRGFGYMLANN MKILVIEDDALLLQGLILAMQSEGYVCDGVSTAHEAALSLASNHYSLIVLDLGLPDEDGLHFLSRMRREKMTQPVLILTARDTLEDRISGLDTGADDYLVKPFALEELNARIRALLRRHNNQGDNEISVGNLRLNVTRRLVWLGETALDLTPKEYALLSRLMMKAGSPVHREILYNDIYSGDNEPATNTLEVHIHNLREKIGKSRIRTVRGFGYMLANN 4s0f-a1-m1-cA_4s0f-a1-m1-cB Crystal structure of the peptidase-containing ABC transporter PCAT1 E648Q mutant complexed with ATPgS in an occluded conformation A3DCU1 A3DCU1 5.515 X-RAY DIFFRACTION 401 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 565 565 7t54-a1-m1-cA_7t54-a1-m1-cB FAGFLKPLKKTVLCIFLASLLYTALGIAGSFYIKFLFDDLIKFEKLNDLHIISAGFAVIFLLQIFLNYYRSILVTKLGMSIDKSIMMEYYSHVLKLPMNFFNSRKVGEIISRFMDASKIRQAISGATLTIMIDTIMAVIGGILLYIQNSSLFFISFIIILLYGIIVTVFNKPIQNANRQIMEDNAKLTSALVESVKGIETIKSFGAEEQTEKSTRDKIETVMKSSFKEGMLYINLSSLTGIVAGLGGIVILWAGAYNVIKGNMSGGQLLAFNALLAYFLTPVKNLIDLQPLIQTAVVASNRLGEILELATEKELREDSDDFVISLKGDIEFRNVDFRYGLRKPVLKNINLTIPKGKTVAIVGESGSGKTTLAKLLMNFYSPEKGDILINGHSIKNISLELIRKKIAFVSQDVFIFSGTVKENLCLGNENVDMDEIIKAAKMANAHDFIEKLPLKYDTFLNESGANLSEGQKQRLAIARALLKKPDILILDQATSNLDSITENHIKDAIYGLEDDVTVIIIAHRLSTIVNCDKIYLLKDGEIVESGSHTELIALKGCYFKMWKQTE FAGFLKPLKKTVLCIFLASLLYTALGIAGSFYIKFLFDDLIKFEKLNDLHIISAGFAVIFLLQIFLNYYRSILVTKLGMSIDKSIMMEYYSHVLKLPMNFFNSRKVGEIISRFMDASKIRQAISGATLTIMIDTIMAVIGGILLYIQNSSLFFISFIIILLYGIIVTVFNKPIQNANRQIMEDNAKLTSALVESVKGIETIKSFGAEEQTEKSTRDKIETVMKSSFKEGMLYINLSSLTGIVAGLGGIVILWAGAYNVIKGNMSGGQLLAFNALLAYFLTPVKNLIDLQPLIQTAVVASNRLGEILELATEKELREDSDDFVISLKGDIEFRNVDFRYGLRKPVLKNINLTIPKGKTVAIVGESGSGKTTLAKLLMNFYSPEKGDILINGHSIKNISLELIRKKIAFVSQDVFIFSGTVKENLCLGNENVDMDEIIKAAKMANAHDFIEKLPLKYDTFLNESGANLSEGQKQRLAIARALLKKPDILILDQATSNLDSITENHIKDAIYGLEDDVTVIIIAHRLSTIVNCDKIYLLKDGEIVESGSHTELIALKGCYFKMWKQTE 4s0n-a1-m1-cA_4s0n-a1-m1-cB Crystal Structure of HLTF HIRAN Domain bound to DNA Q14527 Q14527 1.501 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 125 DSVLFGSLRGHVVGLRYYTGVVNNNEMVALQRDPNNPYDKNAIKVNNVNGNQVGHLKKELAGALAYIMDNKLAQIEGVVPFGANNAFTMPLHMTFWGKEENRKAVSDQLKKHGFKLGPAPKT DSVLFGSLRGHVVGLRYYTGVVNNNEMVALQRDPNNPYDKNAIKVNNVNGNQVGHLKKELAGALAYIMDNKLAQIEGVVPFGANNAFTMPLHMTFWGKEENRKAVSDQLKKHGFKLGPAPKTLGF 4s0n-a1-m1-cA_4s0n-a1-m1-cD Crystal Structure of HLTF HIRAN Domain bound to DNA Q14527 Q14527 1.501 X-RAY DIFFRACTION 27 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 122 126 DSVLFGSLRGHVVGLRYYTGVVNNNEMVALQRDPNNPYDKNAIKVNNVNGNQVGHLKKELAGALAYIMDNKLAQIEGVVPFGANNAFTMPLHMTFWGKEENRKAVSDQLKKHGFKLGPAPKT GPGSVDSVLFGSLRGHVVGLRYYTGVVNNNEMVALQRDPNNPYDKNAIKVNNVNGNQVGHLKKELAGALAYIMDNKLAQIEGVVPFGANNAFTMPLHMTFWGKEENRKAVSDQLKKHGFKLGPAPK 4s12-a2-m1-cB_4s12-a2-m1-cC 1.55 Angstrom Crystal Structure of N-acetylmuramic acid 6-phosphate Etherase from Yersinia enterocolitica. A0A0H2UKZ5 A0A0H2UKZ5 1.55 X-RAY DIFFRACTION 180 0.986 930944 (Yersinia enterocolitica subsp. palearctica Y11) 930944 (Yersinia enterocolitica subsp. palearctica Y11) 287 288 4s12-a1-m1-cA_4s12-a1-m2-cA GALISESRNPDTMDLDTLSTLEMLTRINDEDRKVPEAIRLVIPNIAQAVDLAAKALRDGGRLIYLGAGTSGRLGVLDASECPPTFGVPHGRVIGLIAGGPAVEGAEDDVSLGERDLRDLQLTATDMVVGLAASGRTPYVIGALRFARQLGCPTAAISCNPDSPIAQEALVAISPVVGPEALTGSTRMKSGTAQKLVLNMLSTGAMVKLGKVYQNLMVDVKATNVKLVDRACRIVVEATGASRVEAENALSQTEFEVKPAILMILKGVSVEQARLNLQQHNGYLRAAL SESRNPDTMDLDTLSTLEMLTRINDEDRKVPEAIRLVIPNIAQAVDLAAKALRDGGRLIYLGAGTSGRLGVLDASECPPTFGVPHGRVIGLIAGGPGALLKAVEGAEDDVSLGERDLRDLQLTATDMVVGLAASGRTPYVIGALRFARQLGCPTAAISCNPDSPIAQEALVAISPVVGPEALTGSTRMKSGTAQKLVLNMLSTGAMVKLGKVYQNLMVDVKATNVKLVDRACRIVVEATGASRVEAENALSQTEFEVKPAILMILKGVSVEQARLNLQQHNGYLRAAL 4s1a-a1-m1-cA_4s1a-a1-m1-cB Crystal structure of a hypothetical protein Cthe_0052 from Ruminiclostridium thermocellum ATCC 27405 A3DBG4 A3DBG4 1.75 X-RAY DIFFRACTION 51 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 189 189 ALYLTGWTVGSDERLQHYVDLANRTEINAYVVDIKDDDGYVGYESNIPAVREIGAWKSKYNVDKVLKTFHDNNIHVIGRLVCFKDPVLSSKKPELAVKSVNGGSWRDNHNLTWLDPYNKDSWPYLIEIAKEAVEKGFDEIQFDYIRFPNKSSFNTGGKEKHEIINEFLAYAREQLPGVVLSADVFGIIL ALYLTGWTVGSDERLQHYVDLANRTEINAYVVDIKDDDGYVGYESNIPAVREIGAWKSKYNVDKVLKTFHDNNIHVIGRLVCFKDPVLSSKKPELAVKSVNGGSWRDNHNLTWLDPYNKDSWPYLIEIAKEAVEKGFDEIQFDYIRFPNKSSFNTGGKEKHEIINEFLAYAREQLPGVVLSADVFGIIL 4s1c-a3-m1-cA_4s1c-a3-m2-cD Crystal Structure of L. monocytogenes phosphodiesterase PgpH HD domain Q8Y746 Q8Y746 2.398 X-RAY DIFFRACTION 43 0.995 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 208 208 NHPLLKKILMKAPGTYHHSMMVANLAEACADKIGANSLLVRVGCFYHDIGKTLRPPYFVENQLQGINPHDRLTPEQSRDIILSHTKDGAEILKENHMPQPIIDIALQHHGTTLLKYFYFKAKEVKEADYRYSGPKPQTKEIAIINISDSVEAAVRSSTEPTMAKITEIIDGIIKDRFLDGQFTECDITIQEIKIIRDTLIATLNGIYH NHPLLKKILMKAPGTYHHSMMVANLAEACADKIGANSLLVRVGCFYHDIGKTLRPPYFVENQLQGINPHDRLTPEQSRDIILSHTKDGAEILKENHMPQPIIDIALQHHGTTLLKYFYFKAKDVKEADYRYSGPKPQTKEIAIINISDSVEAAVRSSTEPTMAKITEIIDGIIKDRFLDGQFTECDITIQEIKIIRDTLIATLNGIYH 4s1h-a1-m1-cB_4s1h-a1-m1-cA Pyridoxal kinase of Entamoeba histolytica with ADP C4LVZ4 C4LVZ4 1.6 X-RAY DIFFRACTION 139 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 279 287 4s1i-a1-m1-cB_4s1i-a1-m1-cA 4s1m-a1-m1-cB_4s1m-a1-m1-cA MTNKVLTISSYVCSGFVGNRCGMIILDSFQIQSIFVLTTHLANHTGYPVVGGSGVLLNDFISIMDSLEVNHLDKDIEFLVTGYFPSSDLVYETINRVKRIKDNKKVYFLCDPILGDNGKMYTKSEVQDSMKELIKYADIITPNATELSFLTGLEVNSVSEAIKACHILHEQGIPVILVTSIKEGNDIILLCSFKDTLNNKNFTIKIPRIEGDFTGVGDTLTYILLSWIIKGIPLEHAVNRAISTLQTILRNTVGTAEINIINCIPYLKGTEESFTITYI MTNKVLTISSYVCSGFVGNRCGMIILDSFQIQSIFVLTTHLANHTGYPVVGGSGVLLNDFISIMDSLEVNHLDKDIEFLVTGYFPSSDLVYETINRVKRIKDNKKVYFLCDPILGDNGKMYTKSEVQDSMKELIKYADIITPNATELSFLTGLEVNSVSEAIKACHILHEQGIPVILVTSIKEGNDIILLCSFKDTLNNKNFTIKIPRIEGDFTGVGDTLTYILLSWIIKGIPLEHAVNRAISTLQTILRNTVGTAEINIINCIPYLKGTEESFTITYILEHHHHHH 4s1v-a1-m1-cD_4s1v-a1-m1-cB Crystal structure of phosphoglycerate oxidoreductase from Vibrio Cholerae o395 A0A0H2UKZ7 A0A0H2UKZ7 2.1 X-RAY DIFFRACTION 30 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 314 315 4s1v-a1-m1-cA_4s1v-a1-m1-cC MMKIAILDDYQNVVRGLNAFQCLQGHDVTVFNDSVSDETVLIERLKPFEALVLIRERTPITENLLAHLPNLKLISQTGKVSNHIDVPLCERYGVTVLEGIGSPVAPAELCWSLILAASRHLPSYIEQLHAGHWQQNGGLGLGRTLSGRTLGIWGLGKIGQRIAQFGHVFGMPILVWGSEASRQKALELGYQAAADKAEFFAKADVLSLHLRLNDATRGIVTKQDLLAMKPDSLFVNTSRAELVESGALYSVMQANPMRQAAVDVYENEPALPNNEPLLSLPNVLCAPHLGYVEKNSYEIYFQAAFENVVKFAHS MMKIAILDDYQNVVRGLNAFQCLQGHDVTVFNDSVSDETVLIERLKPFEALVLIRERTPITENLLAHLPNLKLISQTGKVSNHIDVPLCERYGVTVLEGIGSPVAPAELCWSLILAASRHLPSYIEQLHAGHWQQNGGLGLGRTLSGRTLGIWGLGKIGQRIAQFGHVFGMPILVWGSEASRQKALELGYQAAADKAEFFAKADVLSLHLRLNDATRGIVTKQDLLAMKPDSLFVNTSRAELVESGALYSVMQANPMRQAAVDVYENEPALPNNEPLLSLPNVLCAPHLGYVEKNSYEIYFQAAFENVVKFAHSA 4s1v-a3-m1-cA_4s1v-a3-m1-cB Crystal structure of phosphoglycerate oxidoreductase from Vibrio Cholerae o395 A0A0H2UKZ7 A0A0H2UKZ7 2.1 X-RAY DIFFRACTION 183 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 313 315 4s1v-a1-m1-cA_4s1v-a1-m1-cB 4s1v-a1-m1-cD_4s1v-a1-m1-cC 4s1v-a2-m1-cD_4s1v-a2-m1-cC MMKIAILDDYQNVVRGLNAFQCLQGHDVTVFNDSVSDETVLIERLKPFEALVLIRERTPITENLLAHLPNLKLISQTGKVSNHIDVPLCERYGVTVLEGIGSPVAPAELCWSLILAASRHLPSYIEQLHAGHWQQNGGLGLGRTLSGRTLGIWGLGKIGQRIAQFGHVFGMPILVWGSEASRQKALELGYQAAADKAEFFAKADVLSLHLRLNDATRGIVTKQDLLAMKPDSLFVNTSRAELVESGALYSVMQANPMRQAAVDVYENEPALPNNEPLLSLPNVLCAPHLGYVEKNSYEIYFQAAFENVVKFAH MMKIAILDDYQNVVRGLNAFQCLQGHDVTVFNDSVSDETVLIERLKPFEALVLIRERTPITENLLAHLPNLKLISQTGKVSNHIDVPLCERYGVTVLEGIGSPVAPAELCWSLILAASRHLPSYIEQLHAGHWQQNGGLGLGRTLSGRTLGIWGLGKIGQRIAQFGHVFGMPILVWGSEASRQKALELGYQAAADKAEFFAKADVLSLHLRLNDATRGIVTKQDLLAMKPDSLFVNTSRAELVESGALYSVMQANPMRQAAVDVYENEPALPNNEPLLSLPNVLCAPHLGYVEKNSYEIYFQAAFENVVKFAHSA 4s1w-a1-m1-cA_4s1w-a1-m1-cB Structure of a putative Glutamine--Fructose-6-Phosphate Aminotransferase from Staphylococcus aureus subsp. aureus Mu50 A0A0J9X200 A0A0J9X200 1.65 X-RAY DIFFRACTION 98 1.0 331 338 VYAHYLKEIHEQPAVRRIIQEYQDAEGNLKIDQDIINDVKEADRIYVIAAGTSYHAGLVGKEFLEKWAGVPTEVHVASEFVYNPLLSEKPLFVYISQSGETADSRAVLVETNKLGHKSLTITNVAGSTLSREADHTLLLHAGPEIAVASTKAYTAQIAVLSILSQIVAKEHEADIDLLRELAKVTTAIEAIVDDAPIEQIATDFLETTRNAFFIGRTIDYNVSLEGALKLKEISYIQAEGFAGGELKHGTIALIEDGTPVVALATQENVNLSIRGNVKEVVARGAHPCIISEGLEKEGDTYVIPHVHELLTPLVSVVALQLISYYAALHRD KGVYAHYLKEIHEQPAVRRIIQEYQDAEGNLKIDQDIINDVKEADRIYVIAAGTSYHAGLVGKEFLEKWAGVPTEVHVASEFVYNPLLSEKPLFVYISQSGETADSRAVLVETNKLGHKSLTITNVAGSTLSREADHTLLLHAGPEIAVASTKAYTAQIAVLSILSQIVAKEHEADIDLLRELAKVTTAIEAIVDDAPIEQIATDFLETTRNAFFIGRTIDYNVSLEGALKLKEISYIQAEGFAGGELKHGTIALIEDGTPVVALATQENVNLSIRGNVKEVVARGAHPCIISEGLEKEGDTYVIPHVHELLTPLVSVVALQLISYYAALHRDLDVDK 4s21-a1-m1-cB_4s21-a1-m1-cA Crystal structure of the photosensory core module of bacteriophytochrome RPA3015 from R. palustris Q6N5G3 Q6N5G3 3.25 X-RAY DIFFRACTION 59 0.991 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 455 473 4r6l-a1-m1-cB_4r6l-a1-m1-cA TCDDEPIHIPGAIQPHGLLLALAADMTIVAGSDNLPELTIGRSAADVFDSETHNRLTIALAEPPIAVTMRKDAGFVGSWHRHDQLVFLELEPPFFRRTNSAIRRLQAAETLESACAAAAQEVREITGFDRVMIYRFASDFSGEVIAEDRCAEVESYLGLHFPASDIPAQARRLYTINPVRIIPDINYRPVPVTPDLNPVTGRPIDLSFAILRSVSPVHLEYMRNIGMHGTMSISILRGERLWGLIACHHRKPNYVDLDGRQACELVAQVLAWQIGVMEEQAITRQTLKGQAIQRSLINDIEQLHDHRAGLARNSEALLELMGASGLCLHSREGVITIGQTPPGPIIDQLAQLAGRSGGSELFQTDRLSTIIPEAGAFAEVASGVLAVPLSRTPPRRVMLWFRPEVAQTVYWAGNPDKSRTSFAAWTEQTHGRAIAWQPHEVAAAVEIRDLIIDVI STCDDEPIHIPGAIQPHGLLLALAADMTIVAGSDNLPELTGLAIGALIGRSAADVFDSETHNRLTIALAEPGAPIAVGFTDAGFVGSWHRHDQLVFLELEPPPQAFFRRTNSAIRRLQAAETLESACAAAAQEVREITGFDRVMIYRFASDFSGEVIAEDRCAEVESYLGLHFPASDIPAQARRLYTINPVRIIPDINYRPVPVTPDLNPVTGRPIDLSFAILRSVSPVHLEYMRNIGMHGTMSISILRGERLWGLIACHHRKPNYVDLDGRQACELVAQVLAWQIGVMEEQAITRQTLKGQAIQRSLINDIEQLHDHRAGLARNSEALLELMGASGLCLHSREGVITIGQTPPGPIIDQLAQLAGRSGGSELFQTDRLSTIIPEAGAFAEVASGVLAVPLSRTPPRRVMLWFRPEVAQTVYWAGNPDKSGRLRPRTSFAAWTEQTHGRAIAWQPHEVAAAVEIRDLIIDVIL 4s28-a1-m1-cA_4s28-a1-m2-cA Crystal structure of Arabidopsis thaliana ThiC with bound aminoimidazole ribonucleotide, S-adenosylhomocysteine, Fe4S4 cluster and Fe O82392 O82392 1.25 X-RAY DIFFRACTION 400 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 520 520 4n7q-a1-m1-cA_4n7q-a1-m2-cA 4s25-a1-m1-cA_4s25-a1-m2-cA 4s26-a1-m1-cB_4s26-a1-m1-cA 4s27-a1-m1-cA_4s27-a1-m2-cA 4s29-a1-m1-cA_4s29-a1-m2-cA SPDFQPIPSFEECFPKSTKEHKEVVHEESGHVLKVPFRRVHLSGGEPAFDNYDTSGPQNVNAHIGLAKLRKEWIDRREKLGTPRYTQMYYAKQGIITEEMLYCATREKLDPEFVRSEVARGRAIIPSNKKHLELEPMIVGRKFLVKVNANIGNSAVASSIEEEVYKVQWATMWGADTIMDLSTGRHIHETREWILRNSAVPVGTVPIYQALEKVDGIAENLNWEVFRETLIEQAEQGVDYFTIHAGVLLRYIPLTAKRLTGIVSRGGSIHAKWCLAYHKENFAYEHWDDILDICNQYDVALSIGDGLRPGSIYDANDTAQFAELLTQGELTRRAWEKDVQVMNEGPGHVPMHKIPENMQKQLEWCNEAPFYTLGPLTTDIAPGYDHITSAIGAANIGALGTALLCYVTPKEHLGLPNRDDVKAGVIAYKIAAHAADLAKQHPHAQAWDDALSKARFEFRWMDQFALSLDPMTAMSFHDETLPADGAKVAHFCSMCGPKFCSMKITEDIRKYAEENGYGSA SPDFQPIPSFEECFPKSTKEHKEVVHEESGHVLKVPFRRVHLSGGEPAFDNYDTSGPQNVNAHIGLAKLRKEWIDRREKLGTPRYTQMYYAKQGIITEEMLYCATREKLDPEFVRSEVARGRAIIPSNKKHLELEPMIVGRKFLVKVNANIGNSAVASSIEEEVYKVQWATMWGADTIMDLSTGRHIHETREWILRNSAVPVGTVPIYQALEKVDGIAENLNWEVFRETLIEQAEQGVDYFTIHAGVLLRYIPLTAKRLTGIVSRGGSIHAKWCLAYHKENFAYEHWDDILDICNQYDVALSIGDGLRPGSIYDANDTAQFAELLTQGELTRRAWEKDVQVMNEGPGHVPMHKIPENMQKQLEWCNEAPFYTLGPLTTDIAPGYDHITSAIGAANIGALGTALLCYVTPKEHLGLPNRDDVKAGVIAYKIAAHAADLAKQHPHAQAWDDALSKARFEFRWMDQFALSLDPMTAMSFHDETLPADGAKVAHFCSMCGPKFCSMKITEDIRKYAEENGYGSA 4s2r-a1-m1-cQ_4s2r-a1-m1-cP Crystal structure of X-prolyl aminopeptidase from Caenorhabditis elegans: a cytosolic enzyme with a di-nuclear active site O44750 O44750 1.949 X-RAY DIFFRACTION 126 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 612 615 4s2t-a1-m1-cQ_4s2t-a1-m1-cP MTALEKLAKLRSLFHSERVLALTSSKPMVAYLLPSTDAHHSEYLADYDFRVKFLSGFSGSNAYVVVTDREALLWTDGRYFTQAGNQLDSNSWKLMKQGQPDSITVVDWLVRELERGSVIGFDPTLSTFDAGSKTFKRLKAAGLQPVSIPGNLVDEFWTDRPRLAGEPVVVLDVEDTGLTTSKKVENLREKLKQKKCDAAVFTLLDDVMWLLNIRGSDIPYNPLAYSYLFVAMREIHVFIDNEKLDEKSRAHFHKSNVSIHPYGEVYSWISNWLKAKEASKEPHMVYLTPETNYAIGSIIGEENSMVDTSLVQTAKATKNDHEMQGMRNSHLRDSAALVEFLCWLEKELLSGKRYTEIELADKIDHLRSLQDKYVTLSFDTISAVGDHAALPHYKPLGESGNRKAAANQVFLLDSGAHYGDGTTDVTRTVWYTNPPKEFILHNTLVLKGHINLARAKFPDGIYGSRLDTLTRDALWKLGLDFEHGTGHGVGHYLNVHEGPIGIGHTGGELHASQVLTIEPGFYAKEKYGIRIENCYETVEAVVMSKAQNFLTFKSLTLVPIQTSIVDKSLLIEEEINWLNQYHARVLKEVGEHLQKRGKTDELKWLAEACKPI HMTALEKLAKLRSLFHSERVLALTSSKPMVAYLLPSTDAHHSEYLADYDFRVKFLSGFSGSNAYVVVTDREALLWTDGRYFTQAGNQLDSNSWKLMKQGQPDSITVVDWLVRELERGSVIGFDPTLSTFDAGSKTFKRLKAAGLQPVSIPGNLVDEFWTDRPRLAGEPVVVLDVEDTGLTTSKKVENLREKLKQKKCDAAVFTLLDDVMWLLNIRGSDIPYNPLAYSYLFVAMREIHVFIDNEKLDEKSRAHFHKSNVSIHPYGEVYSWISNWLKAKEASKEPHMVYLTPETNYAIGSIIGEENSMVDTSLVQTAKATKNDHEMQGMRNSHLRDSAALVEFLCWLEKELLSGKRYTEIELADKIDHLRSLQDKYVTLSFDTISAVGDHAALPHYKPLGESGNRKAAANQVFLLDSGAHYGDGTTDVTRTVWYTNPPKEFILHNTLVLKGHINLARAKFPDGIYGSRLDTLTRDALWKLGLDFEHGTGHGVGHYLNVHEGPIGIGHRPTGGELHASQVLTIEPGFYAKEKYGIRIENCYETVEAVVMSKAQNFLTFKSLTLVPIQTSIVDKSLLIEEEINWLNQYHARVLKEVGEHLQKRGKTDELKWLAEACKPI 4s2y-a2-m1-cA_4s2y-a2-m2-cA Structure of E. coli RppH bound to RNA and three magnesium ions P0A776 P0A776 1.6 X-RAY DIFFRACTION 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 155 155 4s2w-a2-m1-cA_4s2w-a2-m2-cA MIDDDGYRPNVGIVICNRQGQVMWARRFGQHSWQFPQGGINPGESAEQAMYRELFEEVGLSRKDVRILASTRNWLRYKLPKRLVRVCIGQKQKWFLLQLVSGDAEINMQTSSTPEFDGWRWVSYWYPVRQVVSFKRDVYRRVMKEFASVVMSLAA MIDDDGYRPNVGIVICNRQGQVMWARRFGQHSWQFPQGGINPGESAEQAMYRELFEEVGLSRKDVRILASTRNWLRYKLPKRLVRVCIGQKQKWFLLQLVSGDAEINMQTSSTPEFDGWRWVSYWYPVRQVVSFKRDVYRRVMKEFASVVMSLAA 4s3h-a2-m1-cC_4s3h-a2-m1-cD Crystal structure of S. pombe Mdb1 FHA domain O14079 O14079 2.701 X-RAY DIFFRACTION 36 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 90 90 MEIQFGNQRCRMVNSGGFLATDGSHLKEMETDDVLVEFLNIEHQLFIRNIRAIVKIADTTVLPSASDKKLLYYVFDETRVRINDTPVIFS MEIQFGNQRCRMVNSGGFLATDGSHLKEMETDDVLVEFLNIEHQLFIRNIRAIVKIADTTVLPSASDKKLLYYVFDETRVRINDTPVIFS 4s3m-a1-m1-cA_4s3m-a1-m1-cB Evidence of kinetic cooperativity in dimeric Ketopantoate Reductase from Staphylococcus aureus A0A0J9X201 A0A0J9X201 2.6 X-RAY DIFFRACTION 13 0.989 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 263 263 LSVAIIGPGAVGTTIAYELQQSLPHTTLIGRHAKTITYYTVPHAPAQDIVVKGYEDVTNTFDVIIIAVKTHQLDAVIPHLTYLAHEDTLIILAQNGYGQLEHIPFKNVCQAVVYISGQKKGDVVTHFRDYQLRIQDNALTRQFRDLVQDSQIDIVLEANIQQAIWYKLLVNLGINSITLLGRQTVAIMHNPEIRILCRQLLLDGCRVAQAEGLNFSEQTVDTIMTIYQGYEVEAIQGFIYRRAREHNLDTPYLDTIYSFLRAY SVAIIGPGAVGTTIAYELQQSLPHTTLIGRHAKTITYYTVPHAPAQDIVVKGYEDVTNTFDVIIIAVKTHQLDAVIPHLTYLAHEDTLIILAQNGYGQLEHIPFKNVCQAVVYISGQKKGDVVTHFRDYQLRIQDNALTRQFRDLVQDSQIDIVLEANIQQAIWYKLLVNLGINSITLLGRQTVAIMHNPEIRILCRQLLLDGCRVAQAEGLNFSEQTVDTIMTIYQLEVEAIQGFIYRRAREHNLDTPYLDTIYSFLRAYQQ 4s3p-a6-m1-cB_4s3p-a6-m2-cB Amylomaltase MalQ from Escherichia coli, apo structure P15977 P15977 2.8 X-RAY DIFFRACTION 62 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 689 689 4s3p-a4-m1-cA_4s3p-a4-m2-cA 4s3p-a5-m1-cB_4s3p-a5-m2-cB 4s3p-a6-m1-cA_4s3p-a6-m2-cA ESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRSA ESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRSA 4s3p-a6-m2-cB_4s3p-a6-m1-cA Amylomaltase MalQ from Escherichia coli, apo structure P15977 P15977 2.8 X-RAY DIFFRACTION 12 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 689 691 4s3p-a6-m1-cB_4s3p-a6-m2-cA ESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRSA MESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRSAH 4s3p-a6-m2-cB_4s3p-a6-m2-cA Amylomaltase MalQ from Escherichia coli, apo structure P15977 P15977 2.8 X-RAY DIFFRACTION 133 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 689 691 4s3p-a3-m1-cB_4s3p-a3-m1-cA 4s3p-a6-m1-cB_4s3p-a6-m1-cA ESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRSA MESKRLDNAALAAGISPNYINAHGKPQSISAETKRRLLDAMHQRTATKVAVTPVPNVMVYTSGKKMPMVVEGSGEYSWLLTTEEGTQYKGHVTGGKAFNLPTKLPEGYHTLTLTQDDQRAHCRVIVAPKRCYEPQALLNKQKLWGACVQLYTLRSEKNWGIGDFGDLKAMLVDVAKRGGSFIGLNPIHALYPANPESASPYSPSSRRWLNVIYIDVNAVEDFHLSEEAQAWWQLPTTQQTLQQARDADWVDYSTVTALKMTALRMAWKGFAQRDDEQMAAFRQFVAEQGDSLFWQAAFDALHAQQVKEDEMRWGWPAWPEMYQNVDSPEVRQFCEEHRDDVDFYLWLQWLAYSQFAACWEISQGYEMPIGLYRDLAVGVAEGGAETWCDRELYCLKASVGAPPDILGPLGQNWGLPPMDPHIITARAYEPFIELLRANMQNCGALRIDHVMSMLRLWWIPYGETADQGAYVHYPVDDLLSILALESKRHRCMVIGEDLGTVPVEIVGKLRSSGVYSYKVLYFENDHEKTFRAPKAYPEQSMAVAATHDLPTLRGYWECGDLTLGKTLGLYPDEVVLRGLYQDRELAKQGLLDALHKYGCLPKRAGHKASLMSMTPTLNRGLQRYIADSNSALLGLQPEDWLDMAEPVNIPGTSYQYKNWRRKLSATLESMFADDGVNKLLKDLDRRRRSAH 4tjx-a1-m1-cB_4tjx-a1-m1-cA Crystal structure of protease-associated domain of Arabidopsis VSR1 in complex with aleurain peptide P93026 1.902 X-RAY DIFFRACTION 18 1.0 4513 (Hordeum vulgare) 3702 (Arabidopsis thaliana) 3 153 ADS VEKNNLKVTSPDSIKGIYECAIGNFGVPQYGGTLVGTVVYPKSNQKACKSYSDFDISFKSKPGRLPTFVLIDRGDCYFTLKAWIAQQAGAAAILVADSKAEPLITMDTPDYLQNITIPSALITKTLGDSIKSALSGGDMVNMKLDWTESVPHP 4tkc-a1-m1-cA_4tkc-a1-m2-cA Japanese Marasmius oreades lectin complexed with mannose I7H471 I7H471 1.29 X-RAY DIFFRACTION 42 1.0 181124 (Marasmius oreades) 181124 (Marasmius oreades) 118 118 4pdt-a1-m1-cA_4pdt-a1-m2-cA SYVHPYGSTLPENGVIGRGYALISDSGRVEFRVTDEGNIQLFLDDSRKLWSVDGKNASFVKMQTDGNCVGYDPNGTAVWHTATNGDDHPYNLVCQNDGNLVVYAKGGKAVWHTNTAVV SYVHPYGSTLPENGVIGRGYALISDSGRVEFRVTDEGNIQLFLDDSRKLWSVDGKNASFVKMQTDGNCVGYDPNGTAVWHTATNGDDHPYNLVCQNDGNLVVYAKGGKAVWHTNTAVV 4tkd-a1-m1-cB_4tkd-a1-m1-cC Sulfolobus solfataricus HJC mutants Q7LXU0 Q7LXU0 2.01 X-RAY DIFFRACTION 40 0.983 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 117 125 SAVERNIVSRLRDKGFAVVRAPPIPDIIALKNGVIILIEMKSRGKIYVRREQAEGIIEFARKSGGSLFLGVKKPGVLKFIPFEKLRRTETGNYVADSEIEGLDLEDLVRLVEAKISR SAVERNIVSRLRDKGFAVVRAPASGSKRKDPIPDIIALKNGVIILIEMKSRKDGKIYVRREQAEGIIEFARKSGGSLFLGVKKPGVLKFIPFEKLRRTETGNYVADSEGLDLEDLVRLVEAKISR 4tkk-a1-m1-cA_4tkk-a1-m1-cB Sulfolobus solfataricus HJC mutants Q7LXU0 Q7LXU0 2.4 X-RAY DIFFRACTION 71 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 127 127 1hh1-a1-m1-cA_1hh1-a1-m2-cA 4tkd-a1-m1-cB_4tkd-a1-m1-cA 4tkd-a1-m1-cD_4tkd-a1-m1-cC SAVERNIVSRLRDKGFAVVRAPAKDPIPDIIALKNGVIILIEMKSRKDIEGKIYVRREQAEGIIEFARKSGGSLFLGVKKPGVLKFIPFEKLRRTETGNYVADSEIEGLDLEDLVRLVEAKISRTLD SAVERNIVSRLRDKGFAVVRAPAKDPIPDIIALKNGVIILIEMKSRKDIEGKIYVRREQAEGIIEFARKSGGSLFLGVKKPGVLKFIPFEKLRRTETGNYVADSEIEGLDLEDLVRLVEAKISRTLD 4tkr-a1-m1-cA_4tkr-a1-m1-cB Native-SAD phasing for ThiT from Listeria monocytogenes serovar. A0A0B8R2U7 A0A0B8R2U7 3.0023 X-RAY DIFFRACTION 43 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 183 186 NKRLIILLECAIFAAVAMVLSFIPLDIGSSFSISLGMIPMYVIAIRRGFWAAGFAGLLWGLLHFLTGKAYILMPSQAIIEYILAFSFIAFSGVFSKQVRSNLAANQLKKAIEWAWGTMIIGGVARYFWHYVAGVLFWGAYAFQGWGAQLFSIVMNGASCLGTVLVSGIIISILLKTSPKLFLP VMQNKRLIILLECAIFAAVAMVLSFIPLDIGSSFSISLGMIPMYVIAIRRGFWAAGFAGLLWGLLHFLTGKAYILMPSQAIIEYILAFSFIAFSGVFSKQVRSNLAANQLKKAIEWAWGTMIIGGVARYFWHYVAGVLFWGAYAFQGWGAQLFSIVMNGASCLGTVLVSGIIISILLKTSPKLFLP 4tkz-a3-m1-cE_4tkz-a3-m3-cF Crystal structure of phosphotransferase system component EIIA from Streptococcus agalactiae Q8E371 Q8E371 1.8 X-RAY DIFFRACTION 148 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 130 130 4tkz-a1-m1-cA_4tkz-a1-m1-cB 4tkz-a2-m1-cD_4tkz-a2-m2-cC MIKIIIVAHGNFPDGILSSLELIAGHQEYVVGINFIAGMSSNDVRVALQREVIDFKEILVLTDLLGGTPFNVSSALSVEYTDKKIKVLSGLNLSMLMEAVLSRTMFEHVDDLVDKVITSSHEGIVDFSTC MIKIIIVAHGNFPDGILSSLELIAGHQEYVVGINFIAGMSSNDVRVALQREVIDFKEILVLTDLLGGTPFNVSSALSVEYTDKKIKVLSGLNLSMLMEAVLSRTMFEHVDDLVDKVITSSHEGIVDFSTC 4tll-a1-m1-cB_4tll-a1-m1-cD Crystal structure of GluN1/GluN2B NMDA receptor, structure 1 A7XY94 A7XY94 3.59 X-RAY DIFFRACTION 28 0.981 8355 (Xenopus laevis) 8355 (Xenopus laevis) 738 757 5iou-a1-m1-cB_5iou-a1-m1-cD 5iov-a1-m1-cD_5iov-a1-m1-cB KHPNMDIAVILVGTTEEVAIKDVHEKDDFHHLPVTPRVELVTMQESDPKSIITRICDLMSDKKVQGVVFGDDTDQEAIAQILDFISVQTLTPILGIHGGSSMIMADKEEASMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFENKVRSTIENSFVGWELEEVIHLDMSLDDIDSKIQNQLCKLQSPVILLYCTKEEATYIFEVAHSVGLTGYGFTWIVPSLVAGDTDTVPDEFPTGLISVSYDEWDYDLPARVRDGIAIITTAASTMLSEHNSIPQSKSSCNNIQESRVYEAHMLKRYLINVTFEGRDLSFSEDGYQMHPKLVIILLNQERKWERVGKYKDRSLKMWPVFHLSIVTLEEAPFVIVEDVDPLSGTCMRNTVPCRKQIRPEGNYIKRCCKGFCIDILKKIAKTVKFTYDLYLVTNGKHGKKINGVWNGMIGEVVTKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSRSNSPSAFLEPFSADVWVMMFVMLLIVSAVAVFVKAIWLLWGLVFNNTSKIMVSVWAFFAVIFLASYTANLAAFMIQRRYVDQVSGLSDKKFQRPNDFSPAFRFGTVPNGSTERNIRNNYLEMHSYMVKFNQRSVQDALLSLKSGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFATTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEKNFYMLAAAMALSLITFIMEHLFY HPNMDIAVILVGTTEEVAIKDHHLPVTPRVELVTMQESDPKSIITRICDLMSDKKVQGVVFGDDTDQEAIAQILDFISVQTLTPILGIHGGSSMIMADKEEASMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFENKVRSTIENSFVGWELEEVIHLDMSLDDIDSKIQNQLCKLQSPVILLYCTKEEATYIFEVAHSVGLTGYGFTWIVPSLVAGDTDTVPDEFPTGLISVSYDEWDYDLPARVRDGIAIITTAASTMLSEHNSSKSSCNNIQESRVYEAHMLKRYLINVTFEGRDLSFSEDGYQMHPKLVIILLNQERKWERVGKYKDRSLKMWPVFDLYPNEHLSIVTLEEAPFVIVEDVDPLSGTCMRNTVPCRKQIRPENRTEEGGNYIKRCCKGFCIDILKKIAKTVKFTYDLYLVTNGKHGKKINGVWNGMIGEVVTKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSRSNSAFLEPFSADVWVMMFVMLLIVSAVAVFVSFTIGKAIWLLWGLVFNNSKIMVSVWAFFAVIFLASYTANLAAFMIQRRYVDQVSGLSDKKFQRPNDFSPAFRFGTVPNGSTERNIRNNYLEMHSYMVKFNQRSVQDALLSLKSGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFATTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEKNEVMSSQLDIDNMAGVFYMLAAAMALSLITFIMEHLFYK 4tm5-a1-m1-cA_4tm5-a1-m2-cA X-ray crystal structure of a D-amino acid aminotransferase from Burkholderia thailandensis E264 bound to the co-factor pyridoxal phosphate Q2T1L0 Q2T1L0 1.603 X-RAY DIFFRACTION 159 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 295 295 4m0j-a1-m1-cB_4m0j-a1-m1-cA IEPIVYLSVASREELVPLSEARVPVLDRGFIFGDGVYEVVPIYAEGARRAPFRIAQHLARLARSLKKIGIADPHDEAGWRALVARLVDANAAALGDGQHAIVYIQVTRGVAKRGHAFPANAVPTVFAMASPLALPTDAQRAQGVHCVTAEDRRWLHCDISVSLLGNVLMAQHAAEHDAAETIQLRDGNVTEGSSSNVWIVKNGELIAPPRSNRILEGIRYALVEELAEECGIRFVAREINEAELRAADEILLTSATKEILPVTRLDDLPVQGGRPGPVFDALYAAYQRAKAHEME IEPIVYLSVASREELVPLSEARVPVLDRGFIFGDGVYEVVPIYAEGARRAPFRIAQHLARLARSLKKIGIADPHDEAGWRALVARLVDANAAALGDGQHAIVYIQVTRGVAKRGHAFPANAVPTVFAMASPLALPTDAQRAQGVHCVTAEDRRWLHCDISVSLLGNVLMAQHAAEHDAAETIQLRDGNVTEGSSSNVWIVKNGELIAPPRSNRILEGIRYALVEELAEECGIRFVAREINEAELRAADEILLTSATKEILPVTRLDDLPVQGGRPGPVFDALYAAYQRAKAHEME 4tmc-a2-m1-cD_4tmc-a2-m1-cB CRYSTAL STRUCTURE of OLD YELLOW ENZYME from CANDIDA MACEDONIENSIS AKU4588 COMPLEXED with P-HYDROXYBENZALDEHYDE Q6I7B7 Q6I7B7 1.8 X-RAY DIFFRACTION 85 1.0 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 396 398 4tmb-a1-m1-cB_4tmb-a1-m1-cA 4tmb-a2-m1-cC_4tmb-a2-m1-cD 4tmc-a1-m1-cA_4tmc-a1-m1-cC MSYMNFDPKPLGDTNIFKPIKIGNNELKHRVVMPALTRMRAIAPGNIPNTEWAEEYYRQRSQYPGTLIITEGTFPSAQSGGYPNVPGIWSKEQLAEWKKIFNAIHENKSFVWVQLWVLGRQAWPEVLKKEGLRYDSATDDLYMGEEEKERALKANNPQHGITKEEIKQYIKEYVDAAKKAIDAGADGVQIHSANGYLLNQFLDPISNNRTDEYGGSIENRARFTLEVVDAVVDAVGAERTSIRFSPYGTFGTMSGGENPGIVAQYAYVIGELEKRARAGKRLAFIDLVEPRVTDPFLPEFEKWFKEGTNEFIYSIWKGPVLRVGNYALDPDQATLDSKKPNTLIGYGRSFIANPDLVYRLEKGLPLNKYDRNTFYTFTKEGYTDYPSYEESVAKGY MSYMNFDPKPLGDTNIFKPIKIGNNELKHRVVMPALTRMRAIAPGNIPNTEWAEEYYRQRSQYPGTLIITEGTFPSAQSGGYPNVPGIWSKEQLAEWKKIFNAIHENKSFVWVQLWVLGRQAWPEVLKKEGLRYDSATDDLYMGEEEKERALKANNPQHGITKEEIKQYIKEYVDAAKKAIDAGADGVQIHSANGYLLNQFLDPISNNRTDEYGGSIENRARFTLEVVDAVVDAVGAERTSIRFSPYGTFGTMSGGENPGIVAQYAYVIGELEKRARAGKRLAFIDLVEPRVTDPFLPEFEKWFKEGTNEFIYSIWKGPVLRVGNYALDPDQATLDSKKPNTLIGYGRSFIANPDLVYRLEKGLPLNKYDRNTFYTFTKEGYTDYPSYEESVAKGYKK 4tmt-a3-m1-cA_4tmt-a3-m1-cB Translation initiation factor eIF5B (517-858) mutant D533A from C. thermophilum, bound to GTPgammaS G0S8G9 G0S8G9 1.58 X-RAY DIFFRACTION 52 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 342 345 MNKDNLRSPICCILGHVATGKTKLLDKIRQTNVQEGEAGGITQQIGATYFPVEAIKQKTAVVNKDGKFEFKVPGLLIIDTPGHESFSNLRSRGSSLCNIAILVVDIMHGLEPQTIESLRLLRERKTPFVVALNKIDRLYGWKKIENNGFRESFALQNKAVQNEFRNRLDQVKLQFAEQGFNSELFYENKNFARYVSLVPTSAHTGEGIPDMLKLIVQLCQERMASSLMYLSELQATVLEVKAIEGFGVTIDVILSNGILREGDRIVLCGLEGPIKTNIRALLTPAPMRELRIKGQYIHHKEVKAAQGVKISAPGLEGAIAGSRLLVVGPDDDEEELEEEVES GHMNKDNLRSPICCILGHVATGKTKLLDKIRQTNVQEGEAGGITQQIGATYFPVEAIKQKTAVVNKDGKFEFKVPGLLIIDTPGHESFSNLRSRGSSLCNIAILVVDIMHGLEPQTIESLRLLRERKTPFVVALNKIDRLYGWKKIENNGFRESFALQNKAVQNEFRNRLDQVKLQFAEQGFNSELFYENKNFARYVSLVPTSAHTGEGIPDMLKLIVQLCQERMASSLMYLSELQATVLEVKAIEGFGVTIDVILSNGILREGDRIVLCGLEGPIKTNIRALLTPAPMRELRIKGQYIHHKEVKAAQGVKISAPGLEGAIAGSRLLVVGPDDDEEELEEEVESD 4tn5-a1-m1-cA_4tn5-a1-m1-cB Crystal Structure of Predicted Fructose Specific IIB from Escherichia Coli P32676 P32676 2.285 X-RAY DIFFRACTION 24 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 110 110 AYLVAVTACVSGVAHTYAAERLEKLCLLEKWGVSIETQGALGTENRLADEDIRRADVALLITDIELAGAERFEHCRYVQCSIYAFLREPQRVSAVRKVLSAPQQTHLILE AYLVAVTACVSGVAHTYAAERLEKLCLLEKWGVSIETQGALGTENRLADEDIRRADVALLITDIELAGAERFEHCRYVQCSIYAFLREPQRVSAVRKVLSAPQQTHLILE 4to8-a1-m1-cB_4to8-a1-m1-cA Methicillin-Resistant Staphylococcus Aureus Class IIb Fructose 1,6-Bisphosphate Aldolase W8TRN9 W8TRN9 2.1 X-RAY DIFFRACTION 105 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 278 279 PLVSMKEMLIDAKENGYAVGQYNINNLEFTQAILEASQEENAPVILGVSEGAARYMSGFYTIVKMVEGLMHDLNITIPVAIHLDHGSSFEKCKEAIDAGFTSVMIDASHSPFEENVATTKKVVEYAHEKGVSVEAELGTVGGDDVVADGIIYADPKECQELVEKTGIDALAPALGSVHPKLGFKEMEEIGLSTGLPLVLHGGTGIPTKDIQKAIPFGTAKINVNTENQIASAKAVRDVLNNDKEVYDPRKYLGPAREAIKETVKGKIKEFGTSNRAKH PLVSMKEMLIDAKENGYAVGQYNINNLEFTQAILEASQEENAPVILGVSEGAARYMSGFYTIVKMVEGLMHDLNITIPVAIHLDHGSSFEKCKEAIDAGFTSVMIDASHSPFEENVATTKKVVEYAHEKGVSVEAELGTVGGDDVVADGIIYADPKECQELVEKTGIDALAPALGSVHGPKLGFKEMEEIGLSTGLPLVLHGGTGIPTKDIQKAIPFGTAKINVNTENQIASAKAVRDVLNNDKEVYDPRKYLGPAREAIKETVKGKIKEFGTSNRAKH 4toi-a1-m1-cA_4toi-a1-m2-cA Crystal structure of E.coli ribosomal protein S2 in complex with N-terminal domain of S1 P0A7V0 P0A7V0 2.3 X-RAY DIFFRACTION 118 1.0 562 (Escherichia coli) 562 (Escherichia coli) 307 307 ATVSMRDMLKAGVHFGHQTRYWNPKMKPFIFGARNKVHIINLEKTVPMFNEALAELNKIASRKGKILFVGTKRAASEAVKDAALSCDQFFVNHRWLGGMLTNWKTVRQSIKRLKDLETQSQDGTFDKLTKKEALMRTRELEKLENSLGGIKDMGGLPDALFVIDADHEHIAIKEANNLGIPVFAIVDTNSDPDGVDFVIPGNDDAIRAVTLYLGAVAATVREGRSQDLASQAEESLYFQGESFAQLFEESLKEIETRIVRGVVVAIDKDVVLVDAGLKSESAIPAEQFKNAQGELEIQVGDEVDVAL ATVSMRDMLKAGVHFGHQTRYWNPKMKPFIFGARNKVHIINLEKTVPMFNEALAELNKIASRKGKILFVGTKRAASEAVKDAALSCDQFFVNHRWLGGMLTNWKTVRQSIKRLKDLETQSQDGTFDKLTKKEALMRTRELEKLENSLGGIKDMGGLPDALFVIDADHEHIAIKEANNLGIPVFAIVDTNSDPDGVDFVIPGNDDAIRAVTLYLGAVAATVREGRSQDLASQAEESLYFQGESFAQLFEESLKEIETRIVRGVVVAIDKDVVLVDAGLKSESAIPAEQFKNAQGELEIQVGDEVDVAL 4top-a1-m1-cA_4top-a1-m1-cB Glycine max glutathione transferase O49235 O49235 2.351 X-RAY DIFFRACTION 52 1.0 3847 (Glycine max) 3847 (Glycine max) 218 219 2vo4-a1-m1-cA_2vo4-a1-m1-cB 4chs-a1-m1-cA_4chs-a1-m1-cB 5agy-a1-m1-cB_5agy-a1-m1-cA SDEVVLLDFWPSPFGMRVRIALAEKGIKYEYKEEDLRNKSPLLLQMNPVHKKIPVLIHNGKPICESLIAVQYIEEVWNDRNPLLPSDPYQRAQTRFWADYVDKKIYDLGRKIWTSKGEEKEAAKKEFIEALKLLEEQLGDKTYFGGDNLGFVDIALVPFYTWFKAYETFGTLNIESECPKFIAWAKRCLQKESVAKSLPDQQKVYEFIMDLRKKLGIE MSDEVVLLDFWPSPFGMRVRIALAEKGIKYEYKEEDLRNKSPLLLQMNPVHKKIPVLIHNGKPICESLIAVQYIEEVWNDRNPLLPSDPYQRAQTRFWADYVDKKIYDLGRKIWTSKGEEKEAAKKEFIEALKLLEEQLGDKTYFGGDNLGFVDIALVPFYTWFKAYETFGTLNIESECPKFIAWAKRCLQKESVAKSLPDQQKVYEFIMDLRKKLGIE 4tor-a8-m1-cD_4tor-a8-m2-cD Crystal structure of Tankyrase 1 with IWR-8 O95271 O95271 1.501 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 4tor-a5-m1-cA_4tor-a5-m2-cA 4tor-a6-m1-cB_4tor-a6-m3-cB 4tor-a7-m1-cC_4tor-a7-m4-cC GTILLDLAPEDKEYQSVEEEMQSTIREHRDGGNAGGIFNRYNVIRIQKVVNKKLRERFCHRQKEVSEENHNHHNERMLFHGSPFINAIIHKGFDERHAYIGGMFGAGIYFAENSSKSNQYVYGIGGGTGCPTHKDRSCYICHRQMLFCRVTLGKSFLQFSTIKMAHAPPGHHSVIGRPSVNGLAYAEYVIYRGEQAYPEYLITYQIMKP GTILLDLAPEDKEYQSVEEEMQSTIREHRDGGNAGGIFNRYNVIRIQKVVNKKLRERFCHRQKEVSEENHNHHNERMLFHGSPFINAIIHKGFDERHAYIGGMFGAGIYFAENSSKSNQYVYGIGGGTGCPTHKDRSCYICHRQMLFCRVTLGKSFLQFSTIKMAHAPPGHHSVIGRPSVNGLAYAEYVIYRGEQAYPEYLITYQIMKP 4tpt-a1-m1-cB_4tpt-a1-m1-cA Crystal Structure of the Human LIMK2 Kinase Domain In Complex With a Non-ATP Competitive Inhibitor P53671 P53671 2.6 X-RAY DIFFRACTION 156 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 277 279 DLIHGEVLGKGFFGQAIKVTHKATGKVMVMKELIRCDEETQKTFLTEVKVMRSLDHPNVLKFIGVLYKDKKLNLLTEYIEGGTLKDFLRSMDPFPWQQKVRFAKGIASGMAYLHSMCIIHRDLNSHNCLIKLDKTVVVADFGLSRLIVYTVVGNPYWMAPEMLNGKSYDETVDIFSFGIVLCEIIGQVYADPDCLPRTLDFGLNVKLFWEKFVPTDCPPAFFPLAAICCRLEPESRPAFSKLEDSFEALSLYLGELGIPLPAELEELDHTVSMQYGL DLIHGEVLGKGFFGQAIKVTHKATGKVMVMKELIRCDEETQKTFLTEVKVMRSLDHPNVLKFIGVLYKDKKLNLLTEYIEGGTLKDFLRSMDPFPWQQKVRFAKGIASGMAYLHSMCIIHRDLNSHNCLIKLDKTVVVADFGLSRLIVKKRYTVVGNPYWMAPEMLNGKSYDETVDIFSFGIVLCEIIGQVYADPDCLPRTLDFGLNVKLFWEKFVPTDCPPAFFPLAAICCRLEPESRPAFSKLEDSFEALSLYLGELGIPLPAELEELDHTVSMQYG 4tpu-a1-m2-cA_4tpu-a1-m3-cA CRYSTAL STRUCTURE OF FERREDOXIN-DEPENDENT DISULFIDE REDUCTASE FROM METHANOSARCINA ACETIVORANS Q8TQ92 Q8TQ92 2.355 X-RAY DIFFRACTION 34 1.0 188937 (Methanosarcina acetivorans C2A) 188937 (Methanosarcina acetivorans C2A) 169 169 4tpu-a1-m1-cA_4tpu-a1-m2-cA 4tpu-a1-m1-cA_4tpu-a1-m3-cA EVDKVYRRLNQEVEKSGYHLNPDVEFTKELVRGLLANERRYGYWSCPCRLSADNKEEDLDIICPCYYRDPDLNDYGACYCALYVSDEVIRGEKEVESIPERRPPREKREAIRAEEASRAEMMETMEFTGKLSKPVWRCKVCGYLCAMDEAPGVCPICKARKERFERFMH EVDKVYRRLNQEVEKSGYHLNPDVEFTKELVRGLLANERRYGYWSCPCRLSADNKEEDLDIICPCYYRDPDLNDYGACYCALYVSDEVIRGEKEVESIPERRPPREKREAIRAEEASRAEMMETMEFTGKLSKPVWRCKVCGYLCAMDEAPGVCPICKARKERFERFMH 4tpv-a3-m1-cB_4tpv-a3-m1-cA Crystal Structure of Hookworm Platelet Inhibitor Q962V9 Q962V9 1.6 X-RAY DIFFRACTION 52 1.0 29170 (Ancylostoma caninum) 29170 (Ancylostoma caninum) 177 182 YSLCQQREKLDDDMREMFTELHNGYRAAFARNYKTSKMRTMVYDCTLEEKAYKSAEKCSEEPSSEEENVDVFSAATLNIPLEAGNSWWSEIFELRGKVYNKNGKTSNIANMVWDSHDKLGCAVVDCSGKTHVVCQYGPEAKGDGKTIYEEGAPCSRCSDYGAGVTCDDDWQNLLCIG DYSLCQQREKLDDDMREMFTELHNGYRAAFARNYKTSKMRTMVYDCTLEEKAYKSAEKCSEEPSSEEENVDVFSAATLNIPLEAGNSWWSEIFELRGKVYNKNGKTSNIANMVWDSHDKLGCAVVDCSGKTHVVCQYGPEAKGDGKTIYEEGAPCSRCSDYGAGVTCDDDWQNLLCIGHHHH 4tq2-a1-m1-cA_4tq2-a1-m2-cA Structure of S-type Phycobiliprotein Lyase CPES from Guillardia theta L1JFC7 L1JFC7 1.95 X-RAY DIFFRACTION 60 1.0 905079 (Guillardia theta CCMP2712) 905079 (Guillardia theta CCMP2712) 177 177 PQFEKIEGRMSVEEFFERSVGSWRSLRSSHNIAAQLEEVNSDIDITQVAADDSEFLDICKTYNFEPEKACSSIRMSWEGSSDWDENEVIKGSTVLVLYKDEERKGKLLRSVIPAVGEWTMQEDGTFVLHTFYDRAAAEERIWFATPDLRMRCSIIKTQHGKGVLTASLSTEVRDKSK PQFEKIEGRMSVEEFFERSVGSWRSLRSSHNIAAQLEEVNSDIDITQVAADDSEFLDICKTYNFEPEKACSSIRMSWEGSSDWDENEVIKGSTVLVLYKDEERKGKLLRSVIPAVGEWTMQEDGTFVLHTFYDRAAAEERIWFATPDLRMRCSIIKTQHGKGVLTASLSTEVRDKSK 4tqg-a1-m1-cA_4tqg-a1-m6-cA Crystal structure of Megavirus UDP-GlcNAc 4,6-dehydratase, 5-epimerase Mg534 G5CSR9 G5CSR9 2.2 X-RAY DIFFRACTION 86 1.0 1094892 (Megavirus chiliensis) 1094892 (Megavirus chiliensis) 297 297 4tqg-a1-m2-cA_4tqg-a1-m5-cA 4tqg-a1-m3-cA_4tqg-a1-m4-cA SQINDKTIMIFGGSGSLGNRLIETYINNNIIVNYSRDESKHWSMELKYKSDKLKNIIGDIRDFEKVQQSIMRINPDIIIIAAALKHIDRCEYEINECLDTNIKGLQNVLKVTEINRSNLSNLKAVCFVSTDKACSPVNSYGMSKAICETLVVEKSKYIKDIKYVCVRYGNVLNFTLTHTSMTRFIMTLDDSVKLIEYAIINGNSGEIVIPKLNSMYIKDMIELFADKYPIVITGLRSGERMYESLINDTQSMKTVPKGDYYHILPTYDPTIVTEEFYEYSSKQNILSKQELENYLNQ SQINDKTIMIFGGSGSLGNRLIETYINNNIIVNYSRDESKHWSMELKYKSDKLKNIIGDIRDFEKVQQSIMRINPDIIIIAAALKHIDRCEYEINECLDTNIKGLQNVLKVTEINRSNLSNLKAVCFVSTDKACSPVNSYGMSKAICETLVVEKSKYIKDIKYVCVRYGNVLNFTLTHTSMTRFIMTLDDSVKLIEYAIINGNSGEIVIPKLNSMYIKDMIELFADKYPIVITGLRSGERMYESLINDTQSMKTVPKGDYYHILPTYDPTIVTEEFYEYSSKQNILSKQELENYLNQ 4tqg-a1-m3-cA_4tqg-a1-m6-cA Crystal structure of Megavirus UDP-GlcNAc 4,6-dehydratase, 5-epimerase Mg534 G5CSR9 G5CSR9 2.2 X-RAY DIFFRACTION 49 1.0 1094892 (Megavirus chiliensis) 1094892 (Megavirus chiliensis) 297 297 4tqg-a1-m1-cA_4tqg-a1-m5-cA 4tqg-a1-m2-cA_4tqg-a1-m4-cA SQINDKTIMIFGGSGSLGNRLIETYINNNIIVNYSRDESKHWSMELKYKSDKLKNIIGDIRDFEKVQQSIMRINPDIIIIAAALKHIDRCEYEINECLDTNIKGLQNVLKVTEINRSNLSNLKAVCFVSTDKACSPVNSYGMSKAICETLVVEKSKYIKDIKYVCVRYGNVLNFTLTHTSMTRFIMTLDDSVKLIEYAIINGNSGEIVIPKLNSMYIKDMIELFADKYPIVITGLRSGERMYESLINDTQSMKTVPKGDYYHILPTYDPTIVTEEFYEYSSKQNILSKQELENYLNQ SQINDKTIMIFGGSGSLGNRLIETYINNNIIVNYSRDESKHWSMELKYKSDKLKNIIGDIRDFEKVQQSIMRINPDIIIIAAALKHIDRCEYEINECLDTNIKGLQNVLKVTEINRSNLSNLKAVCFVSTDKACSPVNSYGMSKAICETLVVEKSKYIKDIKYVCVRYGNVLNFTLTHTSMTRFIMTLDDSVKLIEYAIINGNSGEIVIPKLNSMYIKDMIELFADKYPIVITGLRSGERMYESLINDTQSMKTVPKGDYYHILPTYDPTIVTEEFYEYSSKQNILSKQELENYLNQ 4tqj-a1-m1-cA_4tqj-a1-m1-cB Structural basis of specific recognition of non-reducing terminal N-acetylglucosamine by an Agrocybe aegerita lection H6CS64 H6CS64 2 X-RAY DIFFRACTION 65 1.0 403 403 4tqk-a1-m1-cA_4tqk-a1-m1-cB TSNVITQDLPIPVASRGFADIVGFGLDGVVIGRNAVNLQPFLAVKNFAQNAGGWLTTKHVRLIADTTGTGKGDIVGFGNAGVYVSVNNGKNTFADPPKMVIANFGYDAGGWRVEKHLRYLADIRKTGRADIIGFGEKGVLVSRNNGGLNFGPATLVLKDFGYDAGGWRLDRHLRFLADVTGNGHLDIVGFGDKHVFISRNNGDGTFAPAKSVIDNFCIDAGGWKIGDHPRFVADLTGDGTADIIGCGKAGCWVALNNGGGVFGQVKLVINDFGTDKGWQAAKHPRFIADLTGNGRGDVVGFGNAGVYVALNNGDGTFQSAKLVLKDFGVQQGWTVSKHRRFVVDLTGDGCADIIGFGEKETLVSYNDGKGNFGPVKALTNDFSFSGGKWAPETTVCWMANLDS TSNVITQDLPIPVASRGFADIVGFGLDGVVIGRNAVNLQPFLAVKNFAQNAGGWLTTKHVRLIADTTGTGKGDIVGFGNAGVYVSVNNGKNTFADPPKMVIANFGYDAGGWRVEKHLRYLADIRKTGRADIIGFGEKGVLVSRNNGGLNFGPATLVLKDFGYDAGGWRLDRHLRFLADVTGNGHLDIVGFGDKHVFISRNNGDGTFAPAKSVIDNFCIDAGGWKIGDHPRFVADLTGDGTADIIGCGKAGCWVALNNGGGVFGQVKLVINDFGTDKGWQAAKHPRFIADLTGNGRGDVVGFGNAGVYVALNNGDGTFQSAKLVLKDFGVQQGWTVSKHRRFVVDLTGDGCADIIGFGEKETLVSYNDGKGNFGPVKALTNDFSFSGGKWAPETTVCWMANLDS 4tqo-a4-m1-cF_4tqo-a4-m1-cH The crystal structure of methanol dehydrogenase from Methylococcus capsulatus (Bath) Q60AR6 Q60AR6 2.57 X-RAY DIFFRACTION 90 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 573 573 4tqo-a1-m1-cB_4tqo-a1-m1-cG 4tqo-a2-m1-cA_4tqo-a2-m1-cE 4tqo-a3-m1-cC_4tqo-a3-m1-cD NSELDRLSKDDRNWVMQTKDYSATHFSRLTEINSHNVKNLKVAWTLSTGTLHGHEGAPLVVDGIMYIHTPFPNNVYAVDLNDTRKMLWQYKPKQNPAARAVACCDVVNRGLAYVPAGEHGPAKIFLNQLDGHIVALNAKTGEEIWKMENSDIAMGSTLTGAPFVVKDKVLVGSAGAELGVRGYVTAYNIKDGKQEWRAYATGPDEDLLLDKDFNKDNPHYGQFGLGLSTWEGDAWKIGGGTNWGWYAYDPKLDMIYYGSGNPAPWNETMRPGDNKWTMTIWGRDADTGRAKFGYQKTPHDEWDYAGVNYMGLSEQEVDGKLTPLLTHPDRNGLVYTLNRETGALVNAFKIDDTVNWVKKVDLKTGLPIRDPEYSTRMDHNAKGICPSAMGYHNQGIESYDPDKKLFFMGVNHICMDWEPFMLPYRAGQFFVGATLNMYPGPKGMLGQVKAMNAVTGKMEWEVPEKFAVWGGTLATAGDLVFYGTLDGFIKARDTRTGELKWQFQLPSGVIGHPITYQHNGKQYIAIYSGVGGWPGVGLVFDLKDPTAGLGAVGAFRELAHYTQMGGSVFVFSL NSELDRLSKDDRNWVMQTKDYSATHFSRLTEINSHNVKNLKVAWTLSTGTLHGHEGAPLVVDGIMYIHTPFPNNVYAVDLNDTRKMLWQYKPKQNPAARAVACCDVVNRGLAYVPAGEHGPAKIFLNQLDGHIVALNAKTGEEIWKMENSDIAMGSTLTGAPFVVKDKVLVGSAGAELGVRGYVTAYNIKDGKQEWRAYATGPDEDLLLDKDFNKDNPHYGQFGLGLSTWEGDAWKIGGGTNWGWYAYDPKLDMIYYGSGNPAPWNETMRPGDNKWTMTIWGRDADTGRAKFGYQKTPHDEWDYAGVNYMGLSEQEVDGKLTPLLTHPDRNGLVYTLNRETGALVNAFKIDDTVNWVKKVDLKTGLPIRDPEYSTRMDHNAKGICPSAMGYHNQGIESYDPDKKLFFMGVNHICMDWEPFMLPYRAGQFFVGATLNMYPGPKGMLGQVKAMNAVTGKMEWEVPEKFAVWGGTLATAGDLVFYGTLDGFIKARDTRTGELKWQFQLPSGVIGHPITYQHNGKQYIAIYSGVGGWPGVGLVFDLKDPTAGLGAVGAFRELAHYTQMGGSVFVFSL 4tqt-a2-m1-cF_4tqt-a2-m2-cF Crystal structure of Dihydropyrimidinase from Brucella suis A0A0H3G9X2 A0A0H3G9X2 2.15 X-RAY DIFFRACTION 127 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 480 480 4tqt-a1-m1-cB_4tqt-a1-m1-cD 4tqt-a1-m1-cC_4tqt-a1-m1-cA 4tqt-a2-m1-cE_4tqt-a2-m2-cE ASKVIKGGTVITADRTFRADILIEDGKIAAIGDSLEGDEVIDASGCYVMPGGIDPHTHLQMPFMGTYSSDDFDTGTAAALAGGTTMVVDFVLPDSEGNLLDALQEWFQKAGKARTDYSFHMAITGWNERTFNEMAEVVKRGINTFHFMAYKGALMVNDDEMFASFQRCAELGAMPLVHAENGDIVAQLQAKLMAEGNDGPEAHAYSRPPEVEGEATNRAIMIADQAGVPLYVVHVSCEQSHEAIRRARQKGMRVFGEPLIQHLTLDESEYHNRDWDYAARRVMSPPFRDKLNQDSLWAGLAAGSLQCVATDHCAFTTEQKRYGIGNFTKIPNGTGGLEERMPVLWTRGVRTGRLTPNEFVAVTSTNIAKILNIYPQKGAVVPGADADLVIWDPETTKKISAKTQHSSIDYNVFEGFELKGLPIMTLSRGRIAFDKGQVTAKPGDGRFIEREPNGAVNRALSQWKEIVAPRKVERSAEHMP ASKVIKGGTVITADRTFRADILIEDGKIAAIGDSLEGDEVIDASGCYVMPGGIDPHTHLQMPFMGTYSSDDFDTGTAAALAGGTTMVVDFVLPDSEGNLLDALQEWFQKAGKARTDYSFHMAITGWNERTFNEMAEVVKRGINTFHFMAYKGALMVNDDEMFASFQRCAELGAMPLVHAENGDIVAQLQAKLMAEGNDGPEAHAYSRPPEVEGEATNRAIMIADQAGVPLYVVHVSCEQSHEAIRRARQKGMRVFGEPLIQHLTLDESEYHNRDWDYAARRVMSPPFRDKLNQDSLWAGLAAGSLQCVATDHCAFTTEQKRYGIGNFTKIPNGTGGLEERMPVLWTRGVRTGRLTPNEFVAVTSTNIAKILNIYPQKGAVVPGADADLVIWDPETTKKISAKTQHSSIDYNVFEGFELKGLPIMTLSRGRIAFDKGQVTAKPGDGRFIEREPNGAVNRALSQWKEIVAPRKVERSAEHMP 4tqt-a2-m2-cE_4tqt-a2-m2-cF Crystal structure of Dihydropyrimidinase from Brucella suis A0A0H3G9X2 A0A0H3G9X2 2.15 X-RAY DIFFRACTION 104 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 476 480 4tqt-a1-m1-cA_4tqt-a1-m1-cB 4tqt-a1-m1-cC_4tqt-a1-m1-cD 4tqt-a2-m1-cE_4tqt-a2-m1-cF ASKVIKGGTVITADRTFRADILIEDGKIAAIGDSLEGDEVIDASGCYVMPGGIDPHTHLQMPFMGTYSSDDFDTGTAAALAGGTTMVVDFVLPDSEGNLLDALQEWFQKAGKARTDYSFHMAITGWNERTFNEMAEVVKRGINTFHFMAYKGALMVNDDEMFASFQRCAELGAMPLVHAENGDIVAQLQAKLMAEGNDGPEAHAYSRPPEVEGEATNRAIMIADQAGVPLYVVHVSCEQSHEAIRRARQKGMRVFGEPLIQHLTLDESEYHNRDWDYAARRVMSPPFRDKLNQDSLWAGLAAGSLQCVATDHCAFTTEQKRYGIGNFTKIPNGTGGLEERMPVLWTRGVRTGRLTPNEFVAVTSTNIAKILNIYPQKGAVVPGADADLVIWDPETTKKISAKTQHSSIDYNVFEGFELKGLPIMTLSRGRIAFDKGQVTAKPGDGRFIEREPNGAVNRALSQWKEIVAPRKVERSA ASKVIKGGTVITADRTFRADILIEDGKIAAIGDSLEGDEVIDASGCYVMPGGIDPHTHLQMPFMGTYSSDDFDTGTAAALAGGTTMVVDFVLPDSEGNLLDALQEWFQKAGKARTDYSFHMAITGWNERTFNEMAEVVKRGINTFHFMAYKGALMVNDDEMFASFQRCAELGAMPLVHAENGDIVAQLQAKLMAEGNDGPEAHAYSRPPEVEGEATNRAIMIADQAGVPLYVVHVSCEQSHEAIRRARQKGMRVFGEPLIQHLTLDESEYHNRDWDYAARRVMSPPFRDKLNQDSLWAGLAAGSLQCVATDHCAFTTEQKRYGIGNFTKIPNGTGGLEERMPVLWTRGVRTGRLTPNEFVAVTSTNIAKILNIYPQKGAVVPGADADLVIWDPETTKKISAKTQHSSIDYNVFEGFELKGLPIMTLSRGRIAFDKGQVTAKPGDGRFIEREPNGAVNRALSQWKEIVAPRKVERSAEHMP 4tqv-a4-m1-cO_4tqv-a4-m1-cP Crystal structure of a bacterial ABC transporter involved in the import of the acidic polysaccharide alginate Q9KWT9 Q9KWT9 4.504 X-RAY DIFFRACTION 76 1.0 28214 (Sphingomonas sp.) 28214 (Sphingomonas sp.) 363 363 4tqu-a1-m1-cS_4tqu-a1-m1-cT 4tqv-a1-m1-cC_4tqv-a1-m1-cD 4tqv-a2-m1-cG_4tqv-a2-m1-cH 4tqv-a3-m1-cK_4tqv-a3-m1-cL 4xig-a1-m1-cS_4xig-a1-m1-cT 4xtc-a1-m1-cS_4xtc-a1-m1-cT MVASVSIQNVVKRYDKTTVVHGVSLDIEPGEFVVLVGPSGCGKSTTLRMVAGLEEISGGTIRIDGRVINDLAPKDRDVAMVFQNYALYPHLNVRDNISFGLRLKRTKKSVIDAAVKTAADILGLQPLLERKPSDLSGGQRQRVAMGRAIVRDPKVFLFDQPLSNLDAKLRTQMRAEIKRLHQRLGTTVIYVTHDQVEAMTLADRIVVMRDGLIEQIGKPMDLFLHPANTFVASFIGSPPMNLMPARIAVDSTQHVELNGGNRISLLPRAGTHLAPGQEVVFGIRPEDVTLDGVEGSERAQIKATVDIVEPLGSESILHATVGDHSLVVKVGGLNEVHPGDPVTLHVDLTRVHLFDAQSQASIY MVASVSIQNVVKRYDKTTVVHGVSLDIEPGEFVVLVGPSGCGKSTTLRMVAGLEEISGGTIRIDGRVINDLAPKDRDVAMVFQNYALYPHLNVRDNISFGLRLKRTKKSVIDAAVKTAADILGLQPLLERKPSDLSGGQRQRVAMGRAIVRDPKVFLFDQPLSNLDAKLRTQMRAEIKRLHQRLGTTVIYVTHDQVEAMTLADRIVVMRDGLIEQIGKPMDLFLHPANTFVASFIGSPPMNLMPARIAVDSTQHVELNGGNRISLLPRAGTHLAPGQEVVFGIRPEDVTLDGVEGSERAQIKATVDIVEPLGSESILHATVGDHSLVVKVGGLNEVHPGDPVTLHVDLTRVHLFDAQSQASIY 4tr2-a3-m1-cA_4tr2-a3-m1-cB Crystal structure of PvSUB1 E6Y8B9 E6Y8B9 2.7 X-RAY DIFFRACTION 81 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 471 474 DDVHKIISELRFLQKVETILESSNMSVSDVEADANAYNPDRDAPKEELQKLQDKKSLRLIVSENHATSPSFFEESLLQEDVVSFIQSKGKLSNLKNLKSMIIDLNSDMTDEELAEYISLLERKGALIESDKLVGADYKFNDEYRNLQWGLDLARLDETQDLINANRVSVTKICVIDSGIDYNHPDLRNNIDVNVKELHGRKGVDDDSNGVVDDVYGANFVNNSGDPMDDNYHGTHVSGIISAVGNNGIGIVGVDGHSKLVICKALDQHKLGRLGDMFKCIDYCISRQAHMINGSFSFDEYSNIFNASVEHLRSLGILFFVSASNCAHDKLSKPDIAKCDLAVNHRYPPILSKTHNNVIAVANLKRDLDESYSLSVNSFYSNIYCQLAAPGTNIYSTTPMNNYRKLNGTSMASPHVAAIASIVRSINPNLTYLQIVEILRNAIVKLPSLTERVSWGGYVDILRAVNLAIDSK DDVHKIISELRFLQKVETILESSNMSVSDVEADANAYNPDRDAPKEELQKLQDKKSLRLIVSENHATSPSFFEESLLQEDVVSFIQSKGKLSNLKNLKSMIIDLNSDMTDEELAEYISLLERKGALIESDKLVGADYKFNDEYRNLQWGLDLARLDETQDLINANRVSVTKICVIDSGIDYNHPDLRNNIDVNVKELHGRKGVDDDSNGVVDDVYGANFVNNSGDPMDDNYHGTHVSGIISAVGNNGIGIVGVDGHSKLVICKALDQHKLGRLGDMFKCIDYCISRQAHMINGSFSFDEYSNIFNASVEHLRSLGILFFVSASNCAHDKLSKPDIAKCDLAVNHRYPPILSKTHNNVIAVANLKRDLDESYSLSVNSFYSNIYCQLAAPGTNIYSTTPMNNYRKLNGTSMASPHVAAIASIVRSINPNLTYLQIVEILRNAIVKLPSLTERVSWGGYVDILRAVNLAIDSKAAP 4tr6-a1-m1-cA_4tr6-a1-m1-cB Crystal structure of DNA polymerase sliding clamp from Bacillus subtilis P05649 P05649 1.5 X-RAY DIFFRACTION 78 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 380 380 6e8d-a1-m1-cC_6e8d-a1-m1-cA SHMKFTIQKDRLVESVQDVLKAVSSRTTIPILTGIKIVASDDGVSFTGSDSDISIESFIPKEEGDKEIVTIEQPGSIVLQARFFSEIVKKLPMATVEIEVQNQYLTIIRSGKAEFNLNGLDADEYPHLPQIEEHHAIQIPTDLLKNLIRQTVFAVSTSETRPILTGVNWKVEQSELLCTATDSHRLALRKAKLDIPEDRSYNVVIPGKSLTELSKILDDNQELVDIVITETQVLFKAKNVLFFSRLLDGNYPDTTSLIPQDSKTEIIVNTKEFLQAIDRASLLAREGRNNVVKLSAKPAESIEISSNSPEIGKVVEAIVADQIEGEELNISFSPKYMLDALKVLEGAEIRVSFTGAMRPFLIRTPNDETIVQLILPVRTY SHMKFTIQKDRLVESVQDVLKAVSSRTTIPILTGIKIVASDDGVSFTGSDSDISIESFIPKEEGDKEIVTIEQPGSIVLQARFFSEIVKKLPMATVEIEVQNQYLTIIRSGKAEFNLNGLDADEYPHLPQIEEHHAIQIPTDLLKNLIRQTVFAVSTSETRPILTGVNWKVEQSELLCTATDSHRLALRKAKLDIPEDRSYNVVIPGKSLTELSKILDDNQELVDIVITETQVLFKAKNVLFFSRLLDGNYPDTTSLIPQDSKTEIIVNTKEFLQAIDRASLLAREGRNNVVKLSAKPAESIEISSNSPEIGKVVEAIVADQIEGEELNISFSPKYMLDALKVLEGAEIRVSFTGAMRPFLIRTPNDETIVQLILPVRTY 4tr9-a1-m1-cA_4tr9-a1-m1-cD Ternary co-crystal structure of fructose-bisphosphate aldolase from Plasmodium falciparum in complex with TRAP and a small molecule inhibitor Q7KQL9 Q7KQL9 2.111 X-RAY DIFFRACTION 74 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 347 347 1a5c-a1-m1-cA_1a5c-a1-m2-cB 1a5c-a1-m1-cB_1a5c-a1-m2-cA 2eph-a1-m1-cB_2eph-a1-m1-cC 2eph-a1-m1-cD_2eph-a1-m1-cA 2pc4-a1-m1-cB_2pc4-a1-m1-cC 2pc4-a1-m1-cD_2pc4-a1-m1-cA 4tr9-a1-m1-cB_4tr9-a1-m1-cC EYMNAPKKLPADVAEELATTAQKLVQAGKGILAADESTQTIKKRFDNIKLENTIENRASYRDLLFGTKGLGKFISGAILFEETLFQKNEAGVPMVNLLHNENIIPGIKVDKGLVNIPCTDEEKSTQGLDGLAERCKEYYKAGARFAKWRTVLVIDTAKGKPTDLSIHETAWGLARYASICQQNRLVPIVEPEILADGPHSIEVCAVVTQKVLSCVFKALQENGVLLEGALLKPNMVTAGYECTAKTTTQDVGFLTVRTLRRTVPPALPGVVFLSGGQSEEEASVNLNSINALGPHPWALTFSYGRALQASVLNTWQGKKENVAKAREVLLQRAEANSLATYGKYKGG EYMNAPKKLPADVAEELATTAQKLVQAGKGILAADESTQTIKKRFDNIKLENTIENRASYRDLLFGTKGLGKFISGAILFEETLFQKNEAGVPMVNLLHNENIIPGIKVDKGLVNIPCTDEEKSTQGLDGLAERCKEYYKAGARFAKWRTVLVIDTAKGKPTDLSIHETAWGLARYASICQQNRLVPIVEPEILADGPHSIEVCAVVTQKVLSCVFKALQENGVLLEGALLKPNMVTAGYECTAKTTTQDVGFLTVRTLRRTVPPALPGVVFLSGGQSEEEASVNLNSINALGPHPWALTFSYGRALQASVLNTWQGKKENVAKAREVLLQRAEANSLATYGKYKGG 4tr9-a1-m1-cC_4tr9-a1-m1-cD Ternary co-crystal structure of fructose-bisphosphate aldolase from Plasmodium falciparum in complex with TRAP and a small molecule inhibitor Q7KQL9 Q7KQL9 2.111 X-RAY DIFFRACTION 87 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 347 347 1a5c-a1-m1-cA_1a5c-a1-m1-cB 1a5c-a1-m2-cA_1a5c-a1-m2-cB 2eph-a1-m1-cB_2eph-a1-m1-cA 2eph-a1-m1-cD_2eph-a1-m1-cC 2pc4-a1-m1-cB_2pc4-a1-m1-cA 2pc4-a1-m1-cD_2pc4-a1-m1-cC 4tr9-a1-m1-cA_4tr9-a1-m1-cB EYMNAPKKLPADVAEELATTAQKLVQAGKGILAADESTQTIKKRFDNIKLENTIENRASYRDLLFGTKGLGKFISGAILFEETLFQKNEAGVPMVNLLHNENIIPGIKVDKGLVNIPCTDEEKSTQGLDGLAERCKEYYKAGARFAKWRTVLVIDTAKGKPTDLSIHETAWGLARYASICQQNRLVPIVEPEILADGPHSIEVCAVVTQKVLSCVFKALQENGVLLEGALLKPNMVTAGYECTAKTTTQDVGFLTVRTLRRTVPPALPGVVFLSGGQSEEEASVNLNSINALGPHPWALTFSYGRALQASVLNTWQGKKENVAKAREVLLQRAEANSLATYGKYKGG EYMNAPKKLPADVAEELATTAQKLVQAGKGILAADESTQTIKKRFDNIKLENTIENRASYRDLLFGTKGLGKFISGAILFEETLFQKNEAGVPMVNLLHNENIIPGIKVDKGLVNIPCTDEEKSTQGLDGLAERCKEYYKAGARFAKWRTVLVIDTAKGKPTDLSIHETAWGLARYASICQQNRLVPIVEPEILADGPHSIEVCAVVTQKVLSCVFKALQENGVLLEGALLKPNMVTAGYECTAKTTTQDVGFLTVRTLRRTVPPALPGVVFLSGGQSEEEASVNLNSINALGPHPWALTFSYGRALQASVLNTWQGKKENVAKAREVLLQRAEANSLATYGKYKGG 4trh-a1-m1-cB_4trh-a1-m1-cA The Legionella effector SidC defines a unique family of ubiquitin ligases important for bacterial phagosomal remodeling Q6RCR4 Q6RCR4 2.03 X-RAY DIFFRACTION 140 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 508 509 4ooj-a1-m1-cA_4ooj-a1-m1-cB 4ooj-a2-m1-cD_4ooj-a2-m1-cC 4pay-a3-m1-cA_4pay-a3-m1-cB 4trg-a1-m1-cA_4trg-a1-m1-cB VIKFKEPERCDYLYVDENNKVHILLPIVGGDEIGLDNTCQTAVELITFFYGSAHSGVTKYSAEHQLSEYKRQLEEDIKAINSQKKISPHAYDDLLKEKIERLQQIEKYIELIQVLKKQYDEQNDIRQLRTGGIPQLPSGVKEIIKSSENAFAVRLSPYDNDKFTRFDDPLFNVKRNISKYDTPSRQAPIPIYEGLGYRLRSTLFPEDKTPTPINKKSLRDKVKSTVLSHYKDEDRIDGEKKDEKLNELITNLQNELVKELVKSDPQYSKLSLSKDPRGKEINYDYLVNSLMLVDNDSEIGDWIDTILDATVDSTVWVAQASSPFYDGAKEISSDRDADKISIRVQYLLAEANIYCKTNKLSDANFGEFFDKEPHATEIAKRVKEGFTQGADIEPIIYDYINSNHAELGLKSPLTGKQQQEITDKFTKHYNTIKESPHFDEFFVADPDKKGNIFSHQGRISCHFLDFFTRQTKGKHPLGDLASHQEALQEGTSNRLHHKNEVVAQGYEK VIKFKEPERCDYLYVDENNKVHILLPIVGGDEIGLDNTCQTAVELITFFYGSAHSGVTKYSAEHQLSEYKRQLEEDIKAINSQKKISPHAYDDLLKEKIERLQQIEKYIELIQVLKKQYDEQNDIRQLRTGGIPQLPSGVKEIIKSSENAFAVRLSPYDNDKFTRFDDPLFNVKRNISKYDTPSRQAPIPIYEGLGYRLRSTLFPEDKTPTPINKKSLRDKVKSTVLSHYKDEDRIDGEKKDEKLNELITNLQNELVKELVKSDPQYSKLSLSKDPRGKEINYDYLVNSLMLVDNDSEIGDWIDTILDATVDSTVWVAQASSPFYDGAKEISSDRDADKISIRVQYLLAEANIYCKTNKLSDANFGEFFDKEPHATEIAKRVKEGFTQGADIEPIIYDYINSNHAELGLKSPLTGKQQQEITDKFTKHYNTIKESPHFDEFFVADPDKKGNIFSHQGRISCHFLDFFTRQTKGKHPLGDLASHQEALQEGTSNRLHHKNEVVAQGYEKL 4trq-a1-m1-cB_4trq-a1-m1-cE Crystal structure of Sac3/Thp1/Sem1 Q08231 Q08231 3.1 X-RAY DIFFRACTION 51 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 286 286 GKQRILLYLVNKLNNIYFRIESPQLCSNIFKNFQPKSMLAHFNEYQLDQQIEYRYLLGRYYLLNSQVHNAFVQFNEAFQSLLNLPLTNQAITRNGTRILNYMIPTGLILGKMVKWGPLRPFLSQETIDNWSVLYKHVRYGNIQGVSLWLRQNERHLCARQLLIVLLEKLPMVTYRNLIKTVIKSWTTEWGQNKLPYSLIERVLQLSIGPTFEDPGAQEITIYNGIHSPKNVENVLVTLINLGLLRANCFPQLQLCVVKKTTMIQEIVPPVNERITKMFPAHSHVLW GKQRILLYLVNKLNNIYFRIESPQLCSNIFKNFQPKSMLAHFNEYQLDQQIEYRYLLGRYYLLNSQVHNAFVQFNEAFQSLLNLPLTNQAITRNGTRILNYMIPTGLILGKMVKWGPLRPFLSQETIDNWSVLYKHVRYGNIQGVSLWLRQNERHLCARQLLIVLLEKLPMVTYRNLIKTVIKSWTTEWGQNKLPYSLIERVLQLSIGPTFEDPGAQEITIYNGIHSPKNVENVLVTLINLGLLRANCFPQLQLCVVKKTTMIQEIVPPVNERITKMFPAHSHVLW 4trr-a2-m1-cG_4trr-a2-m1-cH Crystal structure of a putative Putative D-beta-hydroxybutyrate dehydrogenase from Burkholderia cenocepacia J2315 B4EG08 B4EG08 1.9 X-RAY DIFFRACTION 96 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 226 256 NGKTAVVTGAASGIGKEIALELAKAGAAVAIADLNQDGANAVAKAIGVAMDVTNEEAVNTGIDKVAEAFGSVDILVSNAGIQIVNPIENYSFADWKKMQAIHVDGAFLTTKAALKHMYKDDRGGVVIYMGSVHSHEASPLKSAYVTAKHGLLGLARVLAKEGAKHNVRSHVVCPGFVRTPLMLGNTVDGVFTTVQDVAQTVLFLSAFPSAALTGQSFIVSHGWFMQ NLNGKTAVVTGAASGIGKEIALELAKAGAAVAIADLNQDGANAVADEINKAGGKAIGVAMDVTNEEAVNTGIDKVAEAFGSVDILVSNAGIQIVNPIENYSFADWKKMQAIHVDGAFLTTKAALKHMYKDDRGGVVIYMGSVHSHEASPLKSAYVTAKHGLLGLARVLAKEGAKHNVRSHVVCPGFVRTPLVDKQIPEQAKISEEEVIKKVMLGNTVDGVFTTVQDVAQTVLFLSAFPSAALTGQSFIVSHGWFMQ 4trt-a1-m1-cA_4trt-a1-m1-cB Deinococcus radiodurans DNA polymerase III subunit beta Q9RYE8 Q9RYE8 2 X-RAY DIFFRACTION 76 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 361 361 VMKANVTKKTLNEGLGLLERVIPSRSSNPLLTALKVETSEGGLTLSGTNLEIDLSCFVPAEVQQPENFVVPAHLFAQIVRNLGGELVELELSGQELSVRSGGSDFKLQTGDIEAYPPLSFPAQADVSLDGGELSRAFSSVRYAASNEAFQAVFRGIKLEHHGESARVVASDGYRVAIRDFPASGDGKNLIIPARSVDELIRVLKDGEARFTYGDGMLTVTTDRVKMNLKLLDGDFPDYERVIPKDIKLQVTLPATALKEAVNRVAVLADKNANNRVEFLVSEGTLRLAAEGDYGRAQDTLSVTQGGTEQAMSLAFNARHVLDALGPIDGDAELLFSGSTSPAIFRAVGGGGGYMAVMVTLR VMKANVTKKTLNEGLGLLERVIPSRSSNPLLTALKVETSEGGLTLSGTNLEIDLSCFVPAEVQQPENFVVPAHLFAQIVRNLGGELVELELSGQELSVRSGGSDFKLQTGDIEAYPPLSFPAQADVSLDGGELSRAFSSVRYAASNEAFQAVFRGIKLEHHGESARVVASDGYRVAIRDFPASGDGKNLIIPARSVDELIRVLKDGEARFTYGDGMLTVTTDRVKMNLKLLDGDFPDYERVIPKDIKLQVTLPATALKEAVNRVAVLADKNANNRVEFLVSEGTLRLAAEGDYGRAQDTLSVTQGGTEQAMSLAFNARHVLDALGPIDGDAELLFSGSTSPAIFRAVGGGGGYMAVMVTLR 4ts5-a1-m1-cA_4ts5-a1-m1-cB Sulfolobus solfataricus adenine phosphoribosyltransferase with AMP Q97W95 Q97W95 2.4 X-RAY DIFFRACTION 99 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 209 209 4trb-a1-m1-cA_4trb-a1-m1-cB 4trc-a1-m1-cA_4trc-a1-m1-cB 4ts7-a1-m1-cA_4ts7-a1-m1-cB QKIPVKVVTWDEIVSLSTKLAEKIKADEYNVNVIVAIARGGLVPARLVADVLGVFDILSIKIEHWIETASHTPEAKVKYPFKVDLSDKNVLIIDDITDTGDSIELARKYVMENFRPTEVKTATLQYIKPAAKIIPDYYAEEIVSWAWFMYPWNYWEDEINLVNKILIERKTKDIDINELKRNFVESYGIENPPISLDKILTEMKRRKIV QKIPVKVVTWDEIVSLSTKLAEKIKADEYNVNVIVAIARGGLVPARLVADVLGVFDILSIKIEHWIETASHTPEAKVKYPFKVDLSDKNVLIIDDITDTGDSIELARKYVMENFRPTEVKTATLQYIKPAAKIIPDYYAEEIVSWAWFMYPWNYWEDEINLVNKILIERKTKDIDINELKRNFVESYGIENPPISLDKILTEMKRRKIV 4tsd-a1-m1-cA_4tsd-a1-m1-cB Crystal structure of Helicobacter pylori HP1029 O25673 O25673 1.53 X-RAY DIFFRACTION 99 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 179 181 AIFGELSSLGHLFKKTQELEILHEYLKEVMQKGSKANQRVLNLATNTEFQVPLGHGIFSIEQSYCLEHAKESEKGFFESHKKYVDFQLIVKGVEGAKAVGINQAVIKNPYDEKRDLIVYEPVSEASFLRLHAGMLAIFFENDAHALRFYGESFEKYREEPIFKAVVKAPKGLIKLKLAA AIFGELSSLGHLFKKTQELEILHEYLKEVMQKGSKANQRVLNLATNTEFQVPLGHGIFSIEQSYCLEHAKESEKGFFESHKKYVDFQLIVKGVEGAKAVGINQAVIKNPYDEKRDLIVYEPVSEASFLRLHAGMLAIFFENDAHALRFYGESFEKYREEPIFKAVVKAPKGLIKLKLAAEN 4tse-a3-m1-cB_4tse-a3-m1-cA Crystal Structure of the Mib Repeat Domain of Mind bomb 1 Q86YT6 Q86YT6 2.057 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 157 GPLGSRNPGGLQIGDLVNIDLDLEIVQSLQHGHGGWTDGMFETLTTTGTVCGIDEDHDIVVQYPSGNRWTFNPAVLTKAFQVGDLVQVCYDLERIKLLQRGHGEWAEAMLPTLGKVGRVQQIYSDSDLKVEVCGTSWTYNPAAVSKVASAGSAISN GPLGSRNPGGLQIGDLVNIDLDLEIVQSLQHGHGGWTDGMFETLTTTGTVCGIDEDHDIVVQYPSGNRWTFNPAVLTKAQFQVGDLVQVCYDLERIKLLQRGHGEWAEAMLPTLGKVGRVQQIYSDSDLKVEVCGTSWTYNPAAVSKVASAGSAISN 4tsk-a1-m1-cA_4tsk-a1-m4-cA Ketol-acid reductoisomerase from Alicyclobacillus acidocaldarius C8WR67 C8WR67 2.5 X-RAY DIFFRACTION 475 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 333 333 4tsk-a1-m2-cA_4tsk-a1-m3-cA EKIYYDADISIQPLADKRIAVIGYGSQGHAHAQNLRDSGFDVVIGLRPGSSWAKAEADGFRVMAVGEAVEESDVIMILLPDERQPAVYEREIRPYLTAGKALAFAHGFNIHFSQIQPPKDVDVFMVAPKGPGHLVRRVYEAGGGVPALIAVHQDASGQAKDLALAYARGIGAGRAGILTTTFREETETDLFGEQAVLCGGLSALIKAGFETLVEAGYQPEIAYFECLHEMKLIVDLIYEGGLEYMRYSISDTAQWGDFTSGPRIINEETKKEMRRILADIQSGAFAKSWILENQANRPMFNAINRRELEHPIEVVGRKLRSMMPFIKAKRPGD EKIYYDADISIQPLADKRIAVIGYGSQGHAHAQNLRDSGFDVVIGLRPGSSWAKAEADGFRVMAVGEAVEESDVIMILLPDERQPAVYEREIRPYLTAGKALAFAHGFNIHFSQIQPPKDVDVFMVAPKGPGHLVRRVYEAGGGVPALIAVHQDASGQAKDLALAYARGIGAGRAGILTTTFREETETDLFGEQAVLCGGLSALIKAGFETLVEAGYQPEIAYFECLHEMKLIVDLIYEGGLEYMRYSISDTAQWGDFTSGPRIINEETKKEMRRILADIQSGAFAKSWILENQANRPMFNAINRRELEHPIEVVGRKLRSMMPFIKAKRPGD 4tsk-a1-m2-cA_4tsk-a1-m4-cA Ketol-acid reductoisomerase from Alicyclobacillus acidocaldarius C8WR67 C8WR67 2.5 X-RAY DIFFRACTION 23 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 333 333 4tsk-a1-m1-cA_4tsk-a1-m3-cA EKIYYDADISIQPLADKRIAVIGYGSQGHAHAQNLRDSGFDVVIGLRPGSSWAKAEADGFRVMAVGEAVEESDVIMILLPDERQPAVYEREIRPYLTAGKALAFAHGFNIHFSQIQPPKDVDVFMVAPKGPGHLVRRVYEAGGGVPALIAVHQDASGQAKDLALAYARGIGAGRAGILTTTFREETETDLFGEQAVLCGGLSALIKAGFETLVEAGYQPEIAYFECLHEMKLIVDLIYEGGLEYMRYSISDTAQWGDFTSGPRIINEETKKEMRRILADIQSGAFAKSWILENQANRPMFNAINRRELEHPIEVVGRKLRSMMPFIKAKRPGD EKIYYDADISIQPLADKRIAVIGYGSQGHAHAQNLRDSGFDVVIGLRPGSSWAKAEADGFRVMAVGEAVEESDVIMILLPDERQPAVYEREIRPYLTAGKALAFAHGFNIHFSQIQPPKDVDVFMVAPKGPGHLVRRVYEAGGGVPALIAVHQDASGQAKDLALAYARGIGAGRAGILTTTFREETETDLFGEQAVLCGGLSALIKAGFETLVEAGYQPEIAYFECLHEMKLIVDLIYEGGLEYMRYSISDTAQWGDFTSGPRIINEETKKEMRRILADIQSGAFAKSWILENQANRPMFNAINRRELEHPIEVVGRKLRSMMPFIKAKRPGD 4tsy-a1-m2-cC_4tsy-a1-m2-cD Crystal structure of FraC with lipids B9W5G6 B9W5G6 3.14 X-RAY DIFFRACTION 60 1.0 396334 (Actinia fragacea) 396334 (Actinia fragacea) 176 176 4tsy-a1-m1-cA_4tsy-a1-m1-cB 4tsy-a1-m1-cA_4tsy-a1-m2-cD 4tsy-a1-m1-cB_4tsy-a1-m1-cC 4tsy-a1-m1-cC_4tsy-a1-m1-cD 4tsy-a1-m1-cD_4tsy-a1-m2-cA 4tsy-a1-m2-cA_4tsy-a1-m2-cB 4tsy-a1-m2-cB_4tsy-a1-m2-cC VAGAVIDGAGLGFDVLKTVLEALGNVKRKIAVGIDNESGKTWTAMNTYFRSGTSDIVLPHKVAHGKALLYNGQKNRGPVATGVVGVIAYSMSDGNTLAVLFSVPYDYNWYSNWWNVRVYKGQKRADQRMYEELYYHRSPFRGDNGWHSRGLGYGLKSRGFMNSSGHAILEIHVTKA VAGAVIDGAGLGFDVLKTVLEALGNVKRKIAVGIDNESGKTWTAMNTYFRSGTSDIVLPHKVAHGKALLYNGQKNRGPVATGVVGVIAYSMSDGNTLAVLFSVPYDYNWYSNWWNVRVYKGQKRADQRMYEELYYHRSPFRGDNGWHSRGLGYGLKSRGFMNSSGHAILEIHVTKA 4tt1-a1-m1-cB_4tt1-a1-m2-cB Crystal structure of fragment 1600-1733 of HSV1 UL36, native P10220 P10220 2.75 X-RAY DIFFRACTION 66 1.0 10299 (Human alphaherpesvirus 1 strain 17) 10299 (Human alphaherpesvirus 1 strain 17) 129 129 GPLGSAKQQRAEATERVTAGLREVLAARERRAQLEAEGLANLKTLLKVVAVPATVAKTLDQARSAEEIADQVEILVDQTEKARELDVQAVAWLEHAQRTFETHPLSAASGDGPGLLTRQGARLQALFDT GPLGSAKQQRAEATERVTAGLREVLAARERRAQLEAEGLANLKTLLKVVAVPATVAKTLDQARSAEEIADQVEILVDQTEKARELDVQAVAWLEHAQRTFETHPLSAASGDGPGLLTRQGARLQALFDT 4tt1-a1-m2-cA_4tt1-a1-m2-cB Crystal structure of fragment 1600-1733 of HSV1 UL36, native P10220 P10220 2.75 X-RAY DIFFRACTION 132 1.0 10299 (Human alphaherpesvirus 1 strain 17) 10299 (Human alphaherpesvirus 1 strain 17) 124 129 4tt0-a1-m1-cA_4tt0-a1-m1-cB 4tt1-a1-m1-cA_4tt1-a1-m1-cB AKQQRAEATERVTAGLREVLAARERRAQLEAEGLANLKTLLKVVAVPATVAKTLDQARSAEEIADQVEILVDQTEKARELDVQAVAWLEHAQRTFETHPLSAASGDGPGLLTRQGARLQALFDT GPLGSAKQQRAEATERVTAGLREVLAARERRAQLEAEGLANLKTLLKVVAVPATVAKTLDQARSAEEIADQVEILVDQTEKARELDVQAVAWLEHAQRTFETHPLSAASGDGPGLLTRQGARLQALFDT 4tt4-a1-m1-cA_4tt4-a1-m1-cB Crystal structure of ATAD2A bromodomain complexed with H3(1-21)K14Ac peptide Q6PL18 Q6PL18 2.7 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 SMQEEDTFRELRIFLRNVTHRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLICSNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESR SMQEEDTFRELRIFLRNVTHRLAIDKRFRVFTKPVDPDEVPDYVTVIKQPMDLSSVISKIDLHKYLTVKDYLRDIDLICSNALEYNPDRDPGDRLIRHRACALRDTAYAIIKEELDEDFEQLCEEIQESR 4tt9-a2-m1-cD_4tt9-a2-m1-cC Structure of the C-terminal SpoA domain of Shigella flexneri Spa33 P0A1K9 P0A1K9 2.3 X-RAY DIFFRACTION 149 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 68 72 4tt9-a1-m1-cA_4tt9-a1-m1-cB DDINVKVDFILLEKNMTINELKMYVENELFKFPDDIVKHVNIKVNGSLVGHGELVSIGYGIEISSWMV NYDDINVKVDFILLEKNMTINELKMYVENELFKFPDDIVKHVNIKVNGSLVGHGELVSIEDGYGIEISSWMV 4ttb-a1-m1-cA_4ttb-a1-m1-cB Crystal structure of homo sapiens IODOTYROSINE DEIODINASE (IYD) bound to FMN Q6PHW0 Q6PHW0 2.447 X-RAY DIFFRACTION 280 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 189 VEHIPFSHNHYPEKEMVKRSQEFYELLNKRRSVRFISNEQVPMEVIDNVIRTAGTAPSGAHTEPWTFVVVKDPDVKHKIRKIIEEEEEINNWIKEYLDTAPILILIFKQVYNEISVSIACGILLAALQNAGLVTVTTTPLNCGPRLRVLLGRPAHEKLLMLLPVGYPSKEATVPDLKRKPLDQIMVTVH VEHIPFSHNHYPEKEMVKRSQEFYELLNKRRSVRFISNEQVPMEVIDNVIRTAGTAPSGAHTEPWTFVVVKDPDVKHKIRKIIEEEEEINNWIKEYLDTAPILILIFKQVYNEISVSIACGILLAALQNAGLVTVTTTPLNCGPRLRVLLGRPAHEKLLMLLPVGYPSKEATVPDLKRKPLDQIMVTVH 4tv4-a1-m2-cB_4tv4-a1-m2-cC Crystal structure of a Putative uncharacterized protein from Burkholderia pseudomallei Q3JHV3 Q3JHV3 2.1 X-RAY DIFFRACTION 85 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 143 144 4tv4-a1-m1-cB_4tv4-a1-m1-cA 4tv4-a1-m1-cB_4tv4-a1-m1-cC 4tv4-a1-m1-cC_4tv4-a1-m2-cA 4tv4-a1-m2-cB_4tv4-a1-m2-cA 4tv4-a1-m2-cC_4tv4-a1-m1-cA AQDIFLKIDGINGESLDDSHKDEIEVLNWNWEIQQKASVKDLTFEHAIDRASPNLMKYALTGKHVDQAVLVMRKAGGNPLEYLKLTMSDVIITRVRPSGSRDSRETVSLSFAKVKQEYVVQNAQGGSGGAVTTSFDIKGNKET AQDIFLKIDGINGESLDDSHKDEIEVLNWNWEIQQKASVKDLTFEHAIDRASPNLMKYALTGKHVDQAVLVMRKAGGNPLEYLKLTMSDVIITRVRPSGSRDRSRETVSLSFAKVKQEYVVQNAQGGSGGAVTTSFDIKGNKET 4tva-a1-m1-cA_4tva-a1-m2-cA Universal Pathway for Post-Transfer Editing Reactions: Insight from Crystal structure of TthPheRS with Puromycine P27001 P27001 2.597 X-RAY DIFFRACTION 11 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 266 266 1jjc-a1-m1-cA_1jjc-a1-m2-cA 1pys-a1-m1-cA_1pys-a1-m2-cA 2akw-a1-m1-cA_2akw-a1-m2-cA 2amc-a1-m1-cA_2amc-a1-m2-cA 2iy5-a1-m1-cA_2iy5-a1-m2-cA 3teh-a1-m1-cA_3teh-a1-m2-cA RVDVSLPGASLFSGGLHPITLMERELVEIFRALGYQAVEGPEVESEFFNFDALNIPEHHPARDMWDTFWLTGEGFRLEGPLGEEVEGRLLLRTHTSPMQVRYMVAHTPPFRIVVPGRVFRFEQTDATHEAVFHQLEGLVVGEGIAMAHLKGAIYELAQALFGPDSKVRFQPVYFPFVEPGAQFAVWWPEGGKWLELGGAGMVHPKVFQAVDAYRERLGLPPAYRGVTGFAFGLGVERLAMLRYGIPDIRYFFGGRLKFLEQFKGVL RVDVSLPGASLFSGGLHPITLMERELVEIFRALGYQAVEGPEVESEFFNFDALNIPEHHPARDMWDTFWLTGEGFRLEGPLGEEVEGRLLLRTHTSPMQVRYMVAHTPPFRIVVPGRVFRFEQTDATHEAVFHQLEGLVVGEGIAMAHLKGAIYELAQALFGPDSKVRFQPVYFPFVEPGAQFAVWWPEGGKWLELGGAGMVHPKVFQAVDAYRERLGLPPAYRGVTGFAFGLGVERLAMLRYGIPDIRYFFGGRLKFLEQFKGVL 4tvi-a1-m1-cA_4tvi-a1-m1-cB X-ray crystal structure of an aminotransferase from Brucella abortus bound to the co-factor PLP Q2YKS6 Q2YKS6 2.1 X-RAY DIFFRACTION 200 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 279 279 RAMWTYYKGEWREGDVRILGAASQATWLGSLVFDGARLFEGVTPDLDRHSARANDSARALGLEPTLSANDIEALAREGLKKFAPDTDVYIRPMYWAEEGDASTVAPLASSTDFALCLEAIPMVEPKGFTITTTSFRRPYLEVMPVNAAACLYPNNARMLREAKAKGFHNALVTDVLGNVAETATSNVFMVRGGEVFTPVPNGTFLNGITRQRVIKLLREAGVSVHETTLKIEDFREADEIFSTGNMSKVVPIIGFDERKLDYGLVTKRARALYWEWAHA RAMWTYYKGEWREGDVRILGAASQATWLGSLVFDGARLFEGVTPDLDRHSARANDSARALGLEPTLSANDIEALAREGLKKFAPDTDVYIRPMYWAEEGDASTVAPLASSTDFALCLEAIPMVEPKGFTITTTSFRRPYLEVMPVNAAACLYPNNARMLREAKAKGFHNALVTDVLGNVAETATSNVFMVRGGEVFTPVPNGTFLNGITRQRVIKLLREAGVSVHETTLKIEDFREADEIFSTGNMSKVVPIIGFDERKLDYGLVTKRARALYWEWAHA 4tvm-a1-m1-cA_4tvm-a1-m2-cA Structure of Citrate Synthase from Mycobacterium tuberculosis P9WPD5 P9WPD5 2.6 X-RAY DIFFRACTION 480 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 380 380 TATLRYPGGEIDLQIVHATEGADGIALGPLLAKTGHTTFDVGFANTAAAKSSITYIDGDAGILRYRGYPIDQLAEKSTFIEVCYLLIYGELPDTDQLAQFTGRIQRHTMLHEDLKRFFDGFPRNAHPMPVLSSVVNALSAYYQDALDPMDNGQVELSTIRLLAKLPTIAAYAYKKSVGQPFLYPDNSLTLVENFLRLTFGFPAEPYQADPEVVRALDMLFILHADHEQNCSTSTVRLVGSSRANLFTSISGGINALWGPLHGGANQAVLEMLEGIRDSGDDVSENYDPRARIVKEQADKILGDDSLLGIAKELEEAVDFYTGLIYRALGFPTRMFTVLFALGRLPGWIAHWREMHDEGDSKIGRPRQIYTGYTERDYVTI TATLRYPGGEIDLQIVHATEGADGIALGPLLAKTGHTTFDVGFANTAAAKSSITYIDGDAGILRYRGYPIDQLAEKSTFIEVCYLLIYGELPDTDQLAQFTGRIQRHTMLHEDLKRFFDGFPRNAHPMPVLSSVVNALSAYYQDALDPMDNGQVELSTIRLLAKLPTIAAYAYKKSVGQPFLYPDNSLTLVENFLRLTFGFPAEPYQADPEVVRALDMLFILHADHEQNCSTSTVRLVGSSRANLFTSISGGINALWGPLHGGANQAVLEMLEGIRDSGDDVSENYDPRARIVKEQADKILGDDSLLGIAKELEEAVDFYTGLIYRALGFPTRMFTVLFALGRLPGWIAHWREMHDEGDSKIGRPRQIYTGYTERDYVTI 4tvo-a1-m1-cB_4tvo-a1-m1-cA Structure of Malate Dehydrogenase from Mycobacterium tuberculosis P9WK13 P9WK13 1.5 X-RAY DIFFRACTION 123 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 317 328 5kvv-a1-m1-cB_5kvv-a1-m1-cA SPLKVAVTGAAGQIGYSLLFRLASGSLLGPDRPIELRLLEIEPALQALEGVVMELDDCAFPLLSGVEIGSDPQKIFDGVSLALLVGARPLLEANGAIFTAQGKALNAVAADDVRVGVTGNPANTNALIAMTNAPDIPRERFSALTRLDHNRAISQLAAKTGAAVTDIKKMTIWGNHSATQYPDLFHAEVAGKNAAEVVNDQAWIEDEFIPTVAKRGAAIIDARGASSAASAASATIDAARDWLLGTPADDWVSMAVVSDGSYGVPEGLISSFPVTTKGGNWTIVSGLEIDEFSRGRIDKSTAELADERSAVTELGLI ASPLKVAVTGAAGQIGYSLLFRLASGSLLGPDRPIELRLLEIEPALQALEGVVMELDDCAFPLLSGVEIGSDPQKIFDGVSLALLVGARPRGAGMERSDLLEANGAIFTAQGKALNAVAADDVRVGVTGNPANTNALIAMTNAPDIPRERFSALTRLDHNRAISQLAAKTGAAVTDIKKMTIWGNHSATQYPDLFHAEVAGKNAAEVVNDQAWIEDEFIPTVAKRGAAIIDARGASSAASAASATIDAARDWLLGTPADDWVSMAVVSDGSYGVPEGLISSFPVTTKGGNWTIVSGLEIDEFSRGRIDKSTAELADERSAVTELGLIA 4tvq-a1-m1-cA_4tvq-a1-m1-cB CCM3 in complex with CCM2 LD-like motif Q9BUL8 Q9BUL8 2.8 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 185 MVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADRALKQILSKIPDEINDRVRFLQTIKDEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQT AETTSMVSMPLYAVMYPVFNELERVNLSAAQTLRAAFIKAEKENPGLTQDIIMKILEKKSVEVNFTESLLRMAADDVEEYMIPEPEFQDLNEKARALKQILSKIPDEINDRVRFLQTIKDIASAIKELLDTVNNVFEHQKKEFVKYSKSFSDTLKTYFKDGKAINVFVSANRLIHQTNLILQTFK 4tw5-a1-m1-cA_4tw5-a1-m1-cC Structure Of the First Two Thioredoxin Domains of Saccharomyces cerevisiae Eps1p C7GJH6 C7GJH6 2.37 X-RAY DIFFRACTION 56 1.0 574961 (Saccharomyces cerevisiae JAY291) 574961 (Saccharomyces cerevisiae JAY291) 264 264 PPEGFPEPLNPTNFKEELSKGLHIIDFYSPYCPHCKHLAPVWMETWEEFKEESKTLNITFSQVNCIESADLCGDENIEYFPEIRLYNPSGYIKSFTETPRTKESLIAFARRESMDPNNLDTDLDSAKSESQYLEGFDFLELIAGKATRPHLVSFWPTKDMKNSDDSLEFKNCDKCHEFQRTWKIISRQLAVDDINTGHVNCESNPTICEELGFGDLVKITNHRADREPKVALVLPNKTSNNLFDYPNGYSAKSDGYVDFARRTF PPEGFPEPLNPTNFKEELSKGLHIIDFYSPYCPHCKHLAPVWMETWEEFKEESKTLNITFSQVNCIESADLCGDENIEYFPEIRLYNPSGYIKSFTETPRTKESLIAFARRESMDPNNLDTDLDSAKSESQYLEGFDFLELIAGKATRPHLVSFWPTKDMKNSDDSLEFKNCDKCHEFQRTWKIISRQLAVDDINTGHVNCESNPTICEELGFGDLVKITNHRADREPKVALVLPNKTSNNLFDYPNGYSAKSDGYVDFARRTF 4tw5-a1-m1-cB_4tw5-a1-m1-cC Structure Of the First Two Thioredoxin Domains of Saccharomyces cerevisiae Eps1p C7GJH6 C7GJH6 2.37 X-RAY DIFFRACTION 35 1.0 574961 (Saccharomyces cerevisiae JAY291) 574961 (Saccharomyces cerevisiae JAY291) 264 264 PPEGFPEPLNPTNFKEELSKGLHIIDFYSPYCPHCKHLAPVWMETWEEFKEESKTLNITFSQVNCIESADLCGDENIEYFPEIRLYNPSGYIKSFTETPRTKESLIAFARRESMDPNNLDTDLDSAKSESQYLEGFDFLELIAGKATRPHLVSFWPTKDMKNSDDSLEFKNCDKCHEFQRTWKIISRQLAVDDINTGHVNCESNPTICEELGFGDLVKITNHRADREPKVALVLPNKTSNNLFDYPNGYSAKSDGYVDFARRTF PPEGFPEPLNPTNFKEELSKGLHIIDFYSPYCPHCKHLAPVWMETWEEFKEESKTLNITFSQVNCIESADLCGDENIEYFPEIRLYNPSGYIKSFTETPRTKESLIAFARRESMDPNNLDTDLDSAKSESQYLEGFDFLELIAGKATRPHLVSFWPTKDMKNSDDSLEFKNCDKCHEFQRTWKIISRQLAVDDINTGHVNCESNPTICEELGFGDLVKITNHRADREPKVALVLPNKTSNNLFDYPNGYSAKSDGYVDFARRTF 4tw5-a1-m1-cB_4tw5-a1-m1-cD Structure Of the First Two Thioredoxin Domains of Saccharomyces cerevisiae Eps1p C7GJH6 C7GJH6 2.37 X-RAY DIFFRACTION 57 1.0 574961 (Saccharomyces cerevisiae JAY291) 574961 (Saccharomyces cerevisiae JAY291) 264 264 PPEGFPEPLNPTNFKEELSKGLHIIDFYSPYCPHCKHLAPVWMETWEEFKEESKTLNITFSQVNCIESADLCGDENIEYFPEIRLYNPSGYIKSFTETPRTKESLIAFARRESMDPNNLDTDLDSAKSESQYLEGFDFLELIAGKATRPHLVSFWPTKDMKNSDDSLEFKNCDKCHEFQRTWKIISRQLAVDDINTGHVNCESNPTICEELGFGDLVKITNHRADREPKVALVLPNKTSNNLFDYPNGYSAKSDGYVDFARRTF PPEGFPEPLNPTNFKEELSKGLHIIDFYSPYCPHCKHLAPVWMETWEEFKEESKTLNITFSQVNCIESADLCGDENIEYFPEIRLYNPSGYIKSFTETPRTKESLIAFARRESMDPNNLDTDLDSAKSESQYLEGFDFLELIAGKATRPHLVSFWPTKDMKNSDDSLEFKNCDKCHEFQRTWKIISRQLAVDDINTGHVNCESNPTICEELGFGDLVKITNHRADREPKVALVLPNKTSNNLFDYPNGYSAKSDGYVDFARRTF 4twb-a3-m1-cE_4twb-a3-m1-cF Sulfolobus solfataricus ribose-phosphate pyrophosphokinase Q97Z86 Q97Z86 2.802 X-RAY DIFFRACTION 125 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 278 278 4twb-a1-m1-cA_4twb-a1-m1-cB 4twb-a2-m1-cC_4twb-a2-m1-cD MIIIGGSATNGIDESLSKILSIPLVKVENKIFPDGESYIRVPSSIRDEEVLLVQTTDYPQDKHLIELFLIAETIRDLGAKKLTAIVPYLAYSRQDRRFKDGEAISIKTILHILSEVGVNTLVVVEPHKPEELSYFKGELKIVHPYHQIARKIKEIIEDPFILAPDRGALDRARKIAEEINAPYSYIEKERNINLKGKDVVIIDDIISTGGTIVQATRLAYSLGAKSVTAAAIHLLLVGGAKERLREVGVKTLIGTNTINVNDKDIITIDVSQSIALSL MIIIGGSATNGIDESLSKILSIPLVKVENKIFPDGESYIRVPSSIRDEEVLLVQTTDYPQDKHLIELFLIAETIRDLGAKKLTAIVPYLAYSRQDRRFKDGEAISIKTILHILSEVGVNTLVVVEPHKPEELSYFKGELKIVHPYHQIARKIKEIIEDPFILAPDRGALDRARKIAEEINAPYSYIEKERNINLKGKDVVIIDDIISTGGTIVQATRLAYSLGAKSVTAAAIHLLLVGGAKERLREVGVKTLIGTNTINVNDKDIITIDVSQSIALSL 4twe-a1-m1-cA_4twe-a1-m1-cB Structure of ligand-free N-acetylated-alpha-linked-acidic-dipeptidase like protein (NAALADaseL) Q9UQQ1 Q9UQQ1 1.75 X-RAY DIFFRACTION 154 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 706 706 LAPQDLDLEILETVMGQLDAHRIRENLRELSREPHLASSPRDEDLVQLLLQRWKDPESGLDSAEASTYEVLLSFPSQEQPNVVDIVGPTGGIIHSCHRTEENVTGEQGGPDVVQPYAAYAPSGTPQGLLVYANRGAEEDFKELQTQGIKLEGTIALTRYGGVGRGAKAVNAAKHGVAGVLVYTDPADINDGLSSPDETFPNSWYLPPSGVERGSYYEYFGDPLTPYLPAVPSSFRVDLANVSGFPPIPTQPIGFQDARDLLCNLNGTLAPATWQGALGCHYRLGPGFRPDGDFPADSQVNVSVYNRLELRNSSNVLGIIRGAVEPDRYVLYGNHRDSWVHGAVDPSSGTAVLLELSRVLGTLLKKGTWRPRRSIVFASWGAEEFGLIGSTEFTEEFFNKLQERTVAYINVDISVFANATLRVQGTPPVQSVVFSATKEIRSPGPGDLSIYDNWIRYFNRSSPVYGLVPSLGSLGAGSDYAPFVHFLGISSMDIAYTYDRSKTSARIYPTYHTAFDTFDYVDKFLDPGFSSHQAVARTAGSVILRLSDSFFLPLKVSDYSETLRSFLQAAQQDLGALLEQHSISLGPLVTAVEKFEAEAAALGQRISTLQKGSPDPLQVRMLNDQLMLLERTFLNPRAFPEERYYSHVLWAPRTGSVVTFPGLSNACSRARDTASGSEAWAEVQRQLSIVVTALEGAAATLRPVADL LAPQDLDLEILETVMGQLDAHRIRENLRELSREPHLASSPRDEDLVQLLLQRWKDPESGLDSAEASTYEVLLSFPSQEQPNVVDIVGPTGGIIHSCHRTEENVTGEQGGPDVVQPYAAYAPSGTPQGLLVYANRGAEEDFKELQTQGIKLEGTIALTRYGGVGRGAKAVNAAKHGVAGVLVYTDPADINDGLSSPDETFPNSWYLPPSGVERGSYYEYFGDPLTPYLPAVPSSFRVDLANVSGFPPIPTQPIGFQDARDLLCNLNGTLAPATWQGALGCHYRLGPGFRPDGDFPADSQVNVSVYNRLELRNSSNVLGIIRGAVEPDRYVLYGNHRDSWVHGAVDPSSGTAVLLELSRVLGTLLKKGTWRPRRSIVFASWGAEEFGLIGSTEFTEEFFNKLQERTVAYINVDISVFANATLRVQGTPPVQSVVFSATKEIRSPGPGDLSIYDNWIRYFNRSSPVYGLVPSLGSLGAGSDYAPFVHFLGISSMDIAYTYDRSKTSARIYPTYHTAFDTFDYVDKFLDPGFSSHQAVARTAGSVILRLSDSFFLPLKVSDYSETLRSFLQAAQQDLGALLEQHSISLGPLVTAVEKFEAEAAALGQRISTLQKGSPDPLQVRMLNDQLMLLERTFLNPRAFPEERYYSHVLWAPRTGSVVTFPGLSNACSRARDTASGSEAWAEVQRQLSIVVTALEGAAATLRPVADL 4twg-a2-m1-cE_4twg-a2-m1-cB The structure of the Molybdopterin biosynthesis Mog protein from Mycobacterium ulcerans A0PL01 A0PL01 1.85 X-RAY DIFFRACTION 46 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 151 153 4twg-a1-m1-cA_4twg-a1-m1-cC 4twg-a1-m1-cA_4twg-a1-m1-cD 4twg-a1-m1-cD_4twg-a1-m1-cC 4twg-a2-m1-cB_4twg-a2-m1-cF 4twg-a2-m1-cE_4twg-a2-m1-cF RSAQIIIASTRAASGVYTDECGPIIAEWLEQRGFSPLESKVVADGNPVGEALQDAVEAQVDLIITSGGTGISPTDSTPEQTVAVLDFVIPGLADAIRRAGLPKVPTSVLSRGVCGVAGQTLIVNLPGSPGGVRDGLDVLADVVHHALDQIA ARSAQIIIASTRAASGVYTDECGPIIAEWLEQRGFSPLESKVVADGNPVGEALQDAVEAQVDLIITSGGTGISPTDSTPEQTVAVLDFVIPGLADAIRRAGLPKVPTSVLSRGVCGVAGQTLIVNLPGSPGGVRDGLDVLADVVHHALDQIAG 4twm-a3-m1-cB_4twm-a3-m1-cA Crystal structure of dioscorin from Dioscorea japonica A7MAQ2 A7MAQ2 2.11 X-RAY DIFFRACTION 25 1.0 4673 (Dioscorea japonica) 4673 (Dioscorea japonica) 236 239 4twl-a3-m1-cB_4twl-a3-m1-cA EFSYIDGNPNGPENWGNLKPEWETCGKGMEQSPIQLRDNRVIFDQTLGKLRRNYRAVDARLRNSGHDVLVDFKGNAGSLSINRVEYQLKRIHFHSPSEHEMNGERFDLEAQLVHESQDQKRAVVSILFRFGRADPFLSDLEDFIKQFSNSQKNEINAGVVDPNQLQIDDSAYYRYMGSFTAPPCTEGISWTVMRKVATVSPRQVLLLKQAVNENAINNARPLQPTNFRSVFYFEQL DEFSYIDGNPNGPENWGNLKPEWETCGKGMEQSPIQLRDNRVIFDQTLGKLRRNYRAVDARLRNSGHDVLVDFKGNAGSLSINRVEYQLKRIHFHSPSEHEMNGERFDLEAQLVHESQDQKRAVVSILFRFGRADPFLSDLEDFIKQFSNSQKNEINAGVVDPNQLQIDDSAYYRYMGSFTAPPCTEGISWTVMRKVATVSPRQVLLLKQAVNENAINNARPLQPTNFRSVFYFEQLKS 4tx1-a1-m1-cC_4tx1-a1-m2-cC The crystal structure of carbohydrate acetylesterase family member from Sinorhizobium meliloti Q7APD5 Q7APD5 1.75 X-RAY DIFFRACTION 72 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 213 213 4tx1-a1-m1-cA_4tx1-a1-m1-cB 4tx1-a1-m2-cA_4tx1-a1-m2-cB MKTVLCYGDSLTWGYDATGSGRHALEDRWPSVLQKALGSDAHVIAEGLNGRTTAYDDHLADCDRNGARVLPTVLHTHAPLDLIVFMLGSNDMKPIIHGTAFGAVKGIERLVNLVRRHDWPTETEEGPEILIVSPPPLCETANSAFAAMFAGGVEQSAMLAPLYRDLADELDCGFFDGGSVARTTPIDGVHLDAENTRAVGRGLEPVVRMMLGL MKTVLCYGDSLTWGYDATGSGRHALEDRWPSVLQKALGSDAHVIAEGLNGRTTAYDDHLADCDRNGARVLPTVLHTHAPLDLIVFMLGSNDMKPIIHGTAFGAVKGIERLVNLVRRHDWPTETEEGPEILIVSPPPLCETANSAFAAMFAGGVEQSAMLAPLYRDLADELDCGFFDGGSVARTTPIDGVHLDAENTRAVGRGLEPVVRMMLGL 4tx1-a1-m2-cB_4tx1-a1-m2-cC The crystal structure of carbohydrate acetylesterase family member from Sinorhizobium meliloti Q7APD5 Q7APD5 1.75 X-RAY DIFFRACTION 32 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 213 213 4tx1-a1-m1-cA_4tx1-a1-m2-cB 4tx1-a1-m1-cA_4tx1-a1-m2-cC 4tx1-a1-m1-cB_4tx1-a1-m1-cC 4tx1-a1-m1-cB_4tx1-a1-m2-cA 4tx1-a1-m1-cC_4tx1-a1-m2-cA MKTVLCYGDSLTWGYDATGSGRHALEDRWPSVLQKALGSDAHVIAEGLNGRTTAYDDHLADCDRNGARVLPTVLHTHAPLDLIVFMLGSNDMKPIIHGTAFGAVKGIERLVNLVRRHDWPTETEEGPEILIVSPPPLCETANSAFAAMFAGGVEQSAMLAPLYRDLADELDCGFFDGGSVARTTPIDGVHLDAENTRAVGRGLEPVVRMMLGL MKTVLCYGDSLTWGYDATGSGRHALEDRWPSVLQKALGSDAHVIAEGLNGRTTAYDDHLADCDRNGARVLPTVLHTHAPLDLIVFMLGSNDMKPIIHGTAFGAVKGIERLVNLVRRHDWPTETEEGPEILIVSPPPLCETANSAFAAMFAGGVEQSAMLAPLYRDLADELDCGFFDGGSVARTTPIDGVHLDAENTRAVGRGLEPVVRMMLGL 4tx4-a1-m1-cB_4tx4-a1-m1-cA Crystal Structure of a Single-Domain Cysteine Protease Inhibitor from Cowpea (Vigna unguiculata) Q06445 Q06445 1.95 X-RAY DIFFRACTION 165 1.0 3917 (Vigna unguiculata) 3917 (Vigna unguiculata) 79 83 SLEIDSLARFAVEEHNKKQNALLEFGRVVSAQQQVVSGTLYTITLEAKDGGQKKVYEAKVWEKPWLNFKELQEFKHVGD NSLEIDSLARFAVEEHNKKQNALLEFGRVVSAQQQVVSGTLYTITLEAKDGGQKKVYEAKVWEKPWLNFKELQEFKHVGDAPA 4tx5-a1-m1-cB_4tx5-a1-m1-cA Crystal structure of Smac-DIABLO (in space group P65) Q9NR28 Q9NR28 1.8 X-RAY DIFFRACTION 79 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 167 173 8auw-a1-m1-cD_8auw-a1-m1-cC 8e2i-a1-m1-cE_8e2i-a1-m1-cF 8e2j-a1-m1-cA_8e2j-a1-m1-cB LSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELRQKTQEEGEERAESEQEA SEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELRQKTQEEGEERAESEQEAYLREDLEH 4tx8-a2-m1-cA_4tx8-a2-m2-cA Crystal Structure of a Family GH18 Chitinase from Chromobacterium violaceum Q7NTW8 Q7NTW8 2.17 X-RAY DIFFRACTION 179 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 374 374 ACPGWAEGTAYKVGDVVSYNNANYTALVAHTAYVGANWNPAASPTLWTPGGSCGNTVPFAKHALVGYWHNFANPSGSAFPLSQVSADWDVIVVAFADDAGNGNVSFTLDPAAGSAAQFIQDIRAQQAKGKKVVLSLGGQNGSVTLNNATQVQNFVNSLYGILTQYGFDGIDLDLESGSGIVVGAPVVSNLVSAVKQLKAKIGPNFYLSMAPEHPYVQGGFVAYGGNWGAYLPIIDGLRDDLSVIHVQYYNNGGLYTPYSTGVLAEGSADMLVGGSKMLIEGFPIANGASGSFKGLRPDQVAFGVPSGRSSANSGFVTADTVAKALTCLTTLQGCGSVKPAQAYPAFRGVMTWSINWDRRDGYTFSRPVAASLRQ ACPGWAEGTAYKVGDVVSYNNANYTALVAHTAYVGANWNPAASPTLWTPGGSCGNTVPFAKHALVGYWHNFANPSGSAFPLSQVSADWDVIVVAFADDAGNGNVSFTLDPAAGSAAQFIQDIRAQQAKGKKVVLSLGGQNGSVTLNNATQVQNFVNSLYGILTQYGFDGIDLDLESGSGIVVGAPVVSNLVSAVKQLKAKIGPNFYLSMAPEHPYVQGGFVAYGGNWGAYLPIIDGLRDDLSVIHVQYYNNGGLYTPYSTGVLAEGSADMLVGGSKMLIEGFPIANGASGSFKGLRPDQVAFGVPSGRSSANSGFVTADTVAKALTCLTTLQGCGSVKPAQAYPAFRGVMTWSINWDRRDGYTFSRPVAASLRQ 4tyb-a1-m1-cB_4tyb-a1-m1-cA An Ligand-observed Mass Spectrometry-based Approach Integrated into the Fragment Based Lead Discovery Pipeline D0PY27 D0PY27 2.93 X-RAY DIFFRACTION 22 1.0 11103 () 11103 () 544 545 SMSYTWTGALITPCAAEESKLPNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPISGWFVAGYSGGDIYH SMSYTWTGALITPCAAEESKLPNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPIPSGWFVAGYSGGDIYH 4tyb-a1-m1-cB_4tyb-a1-m1-cC An Ligand-observed Mass Spectrometry-based Approach Integrated into the Fragment Based Lead Discovery Pipeline D0PY27 D0PY27 2.93 X-RAY DIFFRACTION 22 1.0 11103 () 11103 () 544 545 SMSYTWTGALITPCAAEESKLPNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPISGWFVAGYSGGDIYH SMSYTWTGALITPCAAEESKLPNSLLRHHNMVYATTSRSAGLRQKKVTFDRLQVLDDHYRDVLKEMKAKASTVKAKLLSVEEACKLTPPHSAKSKFGYGAKDVRNLSSKAVNHIHSVWKDLLEDTVTPIDTTIMAKNEVFCVQRKPARLIVFPDLGVRVCEKMALYDVVSTLPQVVMGSSYGFQYSPGQRVEFLVNTWKSKKNPMGFSYDTRCFDSTVTENDIRVEESIYQCCDLAPEARQAIKSLTERLYIGGPLTNSKGQNCGYRRCRASGVLTTSCGNTLTCYLKASAACRAAKLQDCTMLVNGDDLVVICESAGTQEDAASLRVFTEAMTRYSAPPGDPPQPEYDLELITSCSSNVSVAHDASGKRVYYLTRDPTTPLARAAWETARHTPVNSWLGNIIMYAPTLWARMILMTHFFSILLAQEQLEKALDCQIYGACYSIEPLDLPQIIERLHGLSAFSLHSYSPGEINRVASCLRKLGVPPLRVWRHRARSVRARLLSQGGRAATCGKYLFNWAVKTKLKLTPIPSGWFVAGYSGGDIYH 4tym-a2-m1-cA_4tym-a2-m6-cA Crystal structure of purine nucleoside phosphorylase from Streptococcus agalactiae 2603V/R, NYSGRC Target 030935 2.399 X-RAY DIFFRACTION 98 1.0 1105274 (Streptococcus agalactiae LMG 15084) 1105274 (Streptococcus agalactiae LMG 15084) 223 223 4tym-a2-m2-cA_4tym-a2-m5-cA 4tym-a2-m3-cA_4tym-a2-m4-cA SIHIEAKQGEIADKILLPGDPLRAKFIAENFLEDAVFNTVRNFGYTGTYKGHRVSVGTGGPSISIYARELIVDYGVKTLIRVGTAGAINPDIHVRELVLAQAAATNSNIIRNDWPEFDFPQIADFKLLDKAYHIAKEDITTHVGSVLSSDVFYSNQPDRNALGKLGVHAIEEAAALYYLAAQHNVNALATISDNLNNPEEDTSAEERQTTFTDKVGLETLISE SIHIEAKQGEIADKILLPGDPLRAKFIAENFLEDAVFNTVRNFGYTGTYKGHRVSVGTGGPSISIYARELIVDYGVKTLIRVGTAGAINPDIHVRELVLAQAAATNSNIIRNDWPEFDFPQIADFKLLDKAYHIAKEDITTHVGSVLSSDVFYSNQPDRNALGKLGVHAIEEAAALYYLAAQHNVNALATISDNLNNPEEDTSAEERQTTFTDKVGLETLISE 4tym-a2-m2-cA_4tym-a2-m6-cA Crystal structure of purine nucleoside phosphorylase from Streptococcus agalactiae 2603V/R, NYSGRC Target 030935 2.399 X-RAY DIFFRACTION 83 1.0 1105274 (Streptococcus agalactiae LMG 15084) 1105274 (Streptococcus agalactiae LMG 15084) 223 223 4tym-a2-m1-cA_4tym-a2-m4-cA 4tym-a2-m3-cA_4tym-a2-m5-cA SIHIEAKQGEIADKILLPGDPLRAKFIAENFLEDAVFNTVRNFGYTGTYKGHRVSVGTGGPSISIYARELIVDYGVKTLIRVGTAGAINPDIHVRELVLAQAAATNSNIIRNDWPEFDFPQIADFKLLDKAYHIAKEDITTHVGSVLSSDVFYSNQPDRNALGKLGVHAIEEAAALYYLAAQHNVNALATISDNLNNPEEDTSAEERQTTFTDKVGLETLISE SIHIEAKQGEIADKILLPGDPLRAKFIAENFLEDAVFNTVRNFGYTGTYKGHRVSVGTGGPSISIYARELIVDYGVKTLIRVGTAGAINPDIHVRELVLAQAAATNSNIIRNDWPEFDFPQIADFKLLDKAYHIAKEDITTHVGSVLSSDVFYSNQPDRNALGKLGVHAIEEAAALYYLAAQHNVNALATISDNLNNPEEDTSAEERQTTFTDKVGLETLISE 4tyu-a2-m1-cA_4tyu-a2-m2-cA Homodimeric Single Domain Antibody (sdAb) against Staphylococcal enterotoxin B (SEB) 2.13 X-RAY DIFFRACTION 53 1.0 9844 (Lama glama) 9844 (Lama glama) 130 130 4u05-a2-m1-cA_4u05-a2-m2-cA MEVQLVESGGGLVQAGDSLRLSCTASGRTFSRAVMGWFRQAPGKEREFVAAISAAPGTAYYAFYADSVRGRFSISADSAKNTVYLQMNSLKPEDTAVYYCAADLKMQVAAYMNQRSVDYWGQGTQVTVSS MEVQLVESGGGLVQAGDSLRLSCTASGRTFSRAVMGWFRQAPGKEREFVAAISAAPGTAYYAFYADSVRGRFSISADSAKNTVYLQMNSLKPEDTAVYYCAADLKMQVAAYMNQRSVDYWGQGTQVTVSS 4tzu-a1-m1-cA_4tzu-a1-m1-cB Crystal Structure of Murine Cereblon in Complex with Pomalidomide Q8C7D2 Q8C7D2 2 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 90 91 4tzu-a1-m1-cA_4tzu-a1-m1-cD 4tzu-a1-m1-cD_4tzu-a1-m1-cB 4tzu-a2-m1-cC_4tzu-a2-m2-cC 4tzu-a2-m1-cC_4tzu-a2-m3-cC 4tzu-a2-m2-cC_4tzu-a2-m3-cC TSLCCKQCQETEITTKNEIFSLSETLTVYKASNLNLIGRPSTVHSWFPGYAWTIAQCKICASHIGWKFTATKKDMSPQKFWGLTRSALLP TSLCCKQCQETEITTKNEIFSLSETLTVYKASNLNLIGRPSTVHSWFPGYAWTIAQCKICASHIGWKFTATKKDMSPQKFWGLTRSALLPT 4u0w-a1-m1-cA_4u0w-a1-m1-cB Crystal structure of YvoA from Bacillus subtilis in complex with N-acetylglucosamine-6-phosphate O34817 O34817 2.001 X-RAY DIFFRACTION 113 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 243 243 4u0v-a1-m1-cB_4u0v-a1-m1-cA HMNINKQSPIPIYYQIMEQLKTQIKNGELQPDMPLPSEREYAEQFGISRMTVRQALSNLVNEGLLYRLKGRGTFVSKPKMEQALQGLTSFTEDMKSRGMTPGSRLIDYQLIDSTEELAAILGCGHPSSIHKITRVRLANDIPMAIESSHIPFELAGELNESHFQSSIYDHIERYNSIPISRAKQELEPSAATTEEANILGIQKGAPVLLIKRTTYLQNGTAFEHAKSVYRGDRYTFVHYMDRL HMNINKQSPIPIYYQIMEQLKTQIKNGELQPDMPLPSEREYAEQFGISRMTVRQALSNLVNEGLLYRLKGRGTFVSKPKMEQALQGLTSFTEDMKSRGMTPGSRLIDYQLIDSTEELAAILGCGHPSSIHKITRVRLANDIPMAIESSHIPFELAGELNESHFQSSIYDHIERYNSIPISRAKQELEPSAATTEEANILGIQKGAPVLLIKRTTYLQNGTAFEHAKSVYRGDRYTFVHYMDRL 4u12-a1-m1-cA_4u12-a1-m2-cA Crystal structure of protein HP0242 from Helicobacter pylori at 1.94 A resolution: a knotted homodimer O25025 O25025 1.94 X-RAY DIFFRACTION 96 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 79 79 2bo3-a1-m1-cA_2bo3-a1-m2-cA NPLDKWNDIIFHASKKLSKKELERLLELLALLETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSANILSG NPLDKWNDIIFHASKKLSKKELERLLELLALLETFIEKEDLEEKFESFAKALRIDEELQQKIESRKTDIVIQSANILSG 4u13-a1-m1-cA_4u13-a1-m1-cB Crystal structure of putative polyketide cyclase (protein SMa1630) from Sinorhizobium meliloti at 2.3 A resolution Q92YJ1 Q92YJ1 2.3 X-RAY DIFFRACTION 20 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 107 107 FQSDLPDIVNYFDADSCNDTDALSETFAPDAVVEDEGARHQGVVAILRWWVAAKKAASYVAEPLESTVDGDKALVRAKVSGRFPGSPVTLTYSFTIKDGRIARLEIQ FQSDLPDIVNYFDADSCNDTDALSETFAPDAVVEDEGARHQGVVAILRWWVAAKKAASYVAEPLESTVDGDKALVRAKVSGRFPGSPVTLTYSFTIKDGRIARLEIQ 4u15-a3-m1-cA_4u15-a3-m1-cB M3-mT4L receptor bound to tiotropium P08483 P08483 2.8 X-RAY DIFFRACTION 48 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 391 392 TIWQVVFIAFLTGFLALVTIIGNILVIVAFKVNKQLKTVNNYFLLSLACADLIIGVISMNLFTTYIIMNRWALGNLACDLWLSIDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTTKRAGVMIGLAWVISFVLWAPAILFWQYFVGKRTVPPGECFIQFLSEPTITFGTAIAAFYMPVTIMTILYWRIYKETEKMNIFEMLRIDEGGGSGGDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYLIKEKKAAQTLSAILLAFIITWTPYNIMVLVNTFCDSCIPKTYWNLGYWLCYINSTVNPVCYALCNKTFRTTFKTL TIWQVVFIAFLTGFLALVTIIGNILVIVAFKVNKQLKTVNNYFLLSLACADLIIGVISMNLFTTYIIMNRWALGNLACDLWLSIDYVASNASVMNLLVISFDRYFSITRPLTYRAKRTTKRAGVMIGLAWVISFVLWAPAILFWQYFVGKRTVPPGECFIQFLSEPTITFGTAIAAFYMPVTIMTILYWRIYKETEKMNIFEMLRIDEGGGSGGDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYLIKEKKAAQTLSAILLAFIITWTPYNIMVLVNTFCDSCIPKTYWNLGYWLCYINSTVNPVCYALCNKTFRTTFKTLL 4u17-a2-m1-cB_4u17-a2-m2-cB Swapped dimer of the human Fyn-SH2 domain P06241 P06241 1.99 X-RAY DIFFRACTION 160 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 4u17-a1-m1-cA_4u17-a1-m1-cC MEWYFGKLGRKDAERQLLSFGNPRGTFLIRESETTKGAYSLSIRDWDDMKGDHVKHYKIRKLDNGGYYITTRAQFETLQQLVQHYSERAAGLCCRLVVPCHK MEWYFGKLGRKDAERQLLSFGNPRGTFLIRESETTKGAYSLSIRDWDDMKGDHVKHYKIRKLDNGGYYITTRAQFETLQQLVQHYSERAAGLCCRLVVPCHK 4u18-a1-m1-cC_4u18-a1-m1-cA Crystal structure of human peroxisomal delta3,delta2, enoyl-CoA isomerase (ISO-ECI2) O75521 O75521 2.64 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 256 2f6q-a1-m1-cC_2f6q-a1-m1-cB 4u18-a1-m1-cB_4u18-a1-m1-cA 4u18-a1-m1-cB_4u18-a1-m1-cC 4u19-a1-m1-cC_4u19-a1-m1-cA 4u19-a1-m1-cC_4u19-a1-m1-cB 4u1a-a1-m1-cA_4u1a-a1-m1-cB 4u1a-a1-m1-cA_4u1a-a1-m1-cC 4u1a-a1-m1-cB_4u1a-a1-m1-cC GFETLVVTSEDGITKIMFNRPKKKNAINTEMYHEIMRALKAASKDDSIITVLTGNGDYYSSGNDLTNFTDIPPGGVEEKAKNNAVLLREFVGCFIDFPKPLIAVVNGPAVGISVTLLGLFDAVYASDRATFHTPFSHLGQSPEGCSSYTFPKIMSPAKATEMLIFGKKLTAGEACAQGLVTEVFPDSTFQKEVWTRLKAFAKLPPNALRISKEVIRKREREKLHAVNAEECNVLQGRWLSDECTNAVV ENLYFQSMGFETLVVTSEDGITKIMFNRPKKKNAINTEMYHEIMRALKAASKDDSIITVLTGNGDYYSSGNDLTNFTDIPPGGVEEKAKNNAVLLREFVGCFIDFPKPLIAVVNGPAVGISVTLLGLFDAVYASDRATFHTPFSHLGQSPEGCSSYTFPKIMSPAKATEMLIFGKKLTAGEACAQGLVTEVFPDSTFQKEVWTRLKAFAKLPPNALRISKEVIRKREREKLHAVNAEECNVLQGRWLSDECTNAVV 4u1f-a1-m1-cA_4u1f-a1-m1-cB Crystal structure of middle domain of eukaryotic translation initiation factor eIF3b P06103 P06103 2.2 X-RAY DIFFRACTION 265 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 474 475 PSSSLKSWLMDDKVRDQFVLQDDVKTSVFWNSMFNEEDSLVESRENWSTNYVRFSPKGTYLFSYHQQGVTAWGGPNFDRLRRFYHPDVRNSSVSPNEKYLVTFSTEPIIVEEDNEFSPFTKKNEGHQLCIWDIASGLLMATFPVIKSPYLKWPLVRWSYNDKYCARMVGDSLIVHDATKNFMPLEAKALKPSGIRDFSFAPEGVKLQPFRNGDEPSVLLAYWTPETNNSACTATIAEVPRGRVLKTVNLVQVSNVTLHWQNQAEFLCFNVERHTKSGKTQFSNLQICRLTERDIPVEKVELKDSVFEFGWEPHGNRFVTISVHEVADMNYAIPANTIRFYAPETKKRWSLVKEIPKTFANTVSWSPAGRFVVVGALVGPNMRRSDLQFYDMDYPGEKNINDNNDVSASLKDVAHPTYSAATNITWDPSGRYVTAWSSSLKHKVEHGYKIFNIAGNLVKEDIIAGFKNFAWRPRP PSSSLKSWLMDDKVRDQFVLQDDVKTSVFWNSMFNEEDSLVESRENWSTNYVRFSPKGTYLFSYHQQGVTAWGGPNFDRLRRFYHPDVRNSSVSPNEKYLVTFSTEPIIVEEDNEFSPFTKKNEGHQLCIWDIASGLLMATFPVIKSPYLKWPLVRWSYNDKYCARMVGDSLIVHDATKNFMPLEAKALKPSGIRDFSFAPEGVKLQPFRNGDEPSVLLAYWTPETNNSACTATIAEVPRGRVLKTVNLVQVSNVTLHWQNQAEFLCFNVERHTKSGKTQFSNLQICRLTERDIPVEKVELKDSVFEFGWEPHGNRFVTISVHEVADMNYAIPANTIRFYAPETKEKRWSLVKEIPKTFANTVSWSPAGRFVVVGALVGPNMRRSDLQFYDMDYPGEKNINDNNDVSASLKDVAHPTYSAATNITWDPSGRYVTAWSSSLKHKVEHGYKIFNIAGNLVKEDIIAGFKNFAWRPRP 4u1q-a1-m1-cA_4u1q-a1-m1-cB Crystal structure of S-adenosylmethionine-dependent methyltransferase SibL in complex with 3HK and SAH C0LTM6 C0LTM6 2.085 X-RAY DIFFRACTION 275 1.0 457432 (Streptosporangium sibiricum) 457432 (Streptosporangium sibiricum) 341 341 4qvg-a1-m1-cA_4qvg-a1-m2-cA 4qvg-a2-m1-cB_4qvg-a2-m1-cC 4qvg-a3-m1-cD_4qvg-a3-m3-cD 4u1q-a2-m1-cC_4u1q-a2-m1-cD 4x3q-a1-m1-cA_4x3q-a1-m1-cB 4x3q-a2-m1-cC_4x3q-a2-m1-cD ELSALVPVLFGHAAFQQLNAGCQLGLFELLHERGPLSAEEVADALRLPRRSADILLLGTTALGLSTVTDGGYRNGAPIGAAFRDGLWPVLRDIVQYQDKIAYQPAADYVESLRTGQNAGIRHFPGTTRDLYSRLAAVPGLEELFYRGMHAWSQLSNPVLLAQPDFTRVHRVLDVGGGDAVNAVALARAHPSLRVTVLDRPGALEVARKTIAEAGLEERVRTHAADIFTDSYPAGHDCVLFAHQLVIWSPEQNLTLLRKAYDAVEPGGRVLVFNAFTDDDRTGPLYAALDNVYFTTLPFRHSTIHRWADCESWLREAGFTDVGRTAPPGWTPHGVVSGSRPR ELSALVPVLFGHAAFQQLNAGCQLGLFELLHERGPLSAEEVADALRLPRRSADILLLGTTALGLSTVTDGGYRNGAPIGAAFRDGLWPVLRDIVQYQDKIAYQPAADYVESLRTGQNAGIRHFPGTTRDLYSRLAAVPGLEELFYRGMHAWSQLSNPVLLAQPDFTRVHRVLDVGGGDAVNAVALARAHPSLRVTVLDRPGALEVARKTIAEAGLEERVRTHAADIFTDSYPAGHDCVLFAHQLVIWSPEQNLTLLRKAYDAVEPGGRVLVFNAFTDDDRTGPLYAALDNVYFTTLPFRHSTIHRWADCESWLREAGFTDVGRTAPPGWTPHGVVSGSRPR 4u33-a4-m1-cF_4u33-a4-m3-cF Structure of Mtb GlgE bound to maltose P9WQ16 P9WQ16 3.293 X-RAY DIFFRACTION 111 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 661 661 4u33-a1-m1-cA_4u33-a1-m1-cB 4u33-a2-m1-cC_4u33-a2-m1-cD 4u33-a3-m1-cE_4u33-a3-m2-cE 4u3c-a1-m1-cA_4u3c-a1-m1-cB 4u3c-a2-m1-cC_4u3c-a2-m1-cD 4u3c-a3-m1-cE_4u3c-a3-m2-cE 4u3c-a4-m1-cF_4u3c-a4-m3-cF PGRVEIDDVAPVVSCGVYPAKAVVGEVVPVSAAVWREGHEAVAATLVVRYLGVRYPHKPLLIPMTSGQEPFVFHGQFTPDRVGLWTFRVDGWGDPIHTWRHGLIAKLDAGELSNDLLVGAVLLERAATGVPRGLRDPLLAAAAALRTPGDPVTRTALALTPEIEELLADYPLRDLVTRGEQFGVWVDRPLARFGAWYEMFPRSTGGWDDDGNPVHGTFATAAAELPRIAGMGFDVVYLPPIHPIGKVHRKGRNNSPTAAPTDVGSPWAIGSDEGGHDTVHPSLGTIDDFDDFVSAARDLGMEVALDLALQCAPDHPWAREHRQWFTELPDGTIAYAENPPKKYQDIYPLNFDNDPEGLYDEVLRVVQHWVNHGVKFFRVDNPHTKPPNFWAWLIAQVKTVDPDVLFLSEAFTPPARQYGLAKLGFTQSYSYFTWRTTKWELTEFGNQIAELADYRRPNLFVNTPDILHAVLQHNGPGMFAIRAVLAATMSPAWGMYCGYELFEHRAVREGSEEYLDSEKYELRPRDFASALDQGRSLQPFITRLNIIRRLHPAFQQLRTIHFHHVDNDALLAYSKFDPATGDCVLVVVTLNAFGPEEATLWLDMAALGMEDYDRFWVRDEITGEEYQWGQANYIRIDPARAVAHIINMPAVPYESRNTLLR PGRVEIDDVAPVVSCGVYPAKAVVGEVVPVSAAVWREGHEAVAATLVVRYLGVRYPHKPLLIPMTSGQEPFVFHGQFTPDRVGLWTFRVDGWGDPIHTWRHGLIAKLDAGELSNDLLVGAVLLERAATGVPRGLRDPLLAAAAALRTPGDPVTRTALALTPEIEELLADYPLRDLVTRGEQFGVWVDRPLARFGAWYEMFPRSTGGWDDDGNPVHGTFATAAAELPRIAGMGFDVVYLPPIHPIGKVHRKGRNNSPTAAPTDVGSPWAIGSDEGGHDTVHPSLGTIDDFDDFVSAARDLGMEVALDLALQCAPDHPWAREHRQWFTELPDGTIAYAENPPKKYQDIYPLNFDNDPEGLYDEVLRVVQHWVNHGVKFFRVDNPHTKPPNFWAWLIAQVKTVDPDVLFLSEAFTPPARQYGLAKLGFTQSYSYFTWRTTKWELTEFGNQIAELADYRRPNLFVNTPDILHAVLQHNGPGMFAIRAVLAATMSPAWGMYCGYELFEHRAVREGSEEYLDSEKYELRPRDFASALDQGRSLQPFITRLNIIRRLHPAFQQLRTIHFHHVDNDALLAYSKFDPATGDCVLVVVTLNAFGPEEATLWLDMAALGMEDYDRFWVRDEITGEEYQWGQANYIRIDPARAVAHIINMPAVPYESRNTLLR 4u3w-a1-m1-cB_4u3w-a1-m2-cB X-ray crystal structure of 2-aminomuconate 6-semialdehyde dehydrogenase from Burkholderia cenocepacia B4EFS9 B4EFS9 1.9501 X-RAY DIFFRACTION 38 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 484 484 4u3w-a1-m1-cA_4u3w-a1-m2-cA QLLRHYINGEFVASGTTFPNLSPVDGRKLADVCEADAALVDSAVQAAHAAQKAGWRDTTPAQRAAWLHKIADGIEARFDEFVAAEVADTGRPVAQARTLDIARGIANFRTFADLVRTASGEYFETHAADGSELINYVTRKPLGVIGIISPWNLPLLLFTWKVAPALAMGNCVVAKPSEETPSSATLLAEVMHDVGLPPGVFNLIHGHGQNAAGEFLTRHPDISAITFTGESRTGSTIMKAVADGVKEVSFELGGKNAAVVFADADFDAAVAGVLRSSFTNAGQVCLCSERVYVERPIFERFVAALKEQAQALRVGAPEDPATTMGPLISRGHRDKVLSYFRLAVEEGATVVTGGGAPSFGDARDDGAFVMPTIWTGLPDSARCVREEIFGPVCHIAPFDDEAEVVKRVNDSAYGLAASIWTTQLARGHRVAKQIETGIVWVNAWFVRDLRTPFGGTKLSGLGREGGRHSLDFYSELTNVCVRIA QLLRHYINGEFVASGTTFPNLSPVDGRKLADVCEADAALVDSAVQAAHAAQKAGWRDTTPAQRAAWLHKIADGIEARFDEFVAAEVADTGRPVAQARTLDIARGIANFRTFADLVRTASGEYFETHAADGSELINYVTRKPLGVIGIISPWNLPLLLFTWKVAPALAMGNCVVAKPSEETPSSATLLAEVMHDVGLPPGVFNLIHGHGQNAAGEFLTRHPDISAITFTGESRTGSTIMKAVADGVKEVSFELGGKNAAVVFADADFDAAVAGVLRSSFTNAGQVCLCSERVYVERPIFERFVAALKEQAQALRVGAPEDPATTMGPLISRGHRDKVLSYFRLAVEEGATVVTGGGAPSFGDARDDGAFVMPTIWTGLPDSARCVREEIFGPVCHIAPFDDEAEVVKRVNDSAYGLAASIWTTQLARGHRVAKQIETGIVWVNAWFVRDLRTPFGGTKLSGLGREGGRHSLDFYSELTNVCVRIA 4u3w-a1-m2-cB_4u3w-a1-m1-cA X-ray crystal structure of 2-aminomuconate 6-semialdehyde dehydrogenase from Burkholderia cenocepacia B4EFS9 B4EFS9 1.9501 X-RAY DIFFRACTION 53 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 484 485 4u3w-a1-m1-cB_4u3w-a1-m2-cA QLLRHYINGEFVASGTTFPNLSPVDGRKLADVCEADAALVDSAVQAAHAAQKAGWRDTTPAQRAAWLHKIADGIEARFDEFVAAEVADTGRPVAQARTLDIARGIANFRTFADLVRTASGEYFETHAADGSELINYVTRKPLGVIGIISPWNLPLLLFTWKVAPALAMGNCVVAKPSEETPSSATLLAEVMHDVGLPPGVFNLIHGHGQNAAGEFLTRHPDISAITFTGESRTGSTIMKAVADGVKEVSFELGGKNAAVVFADADFDAAVAGVLRSSFTNAGQVCLCSERVYVERPIFERFVAALKEQAQALRVGAPEDPATTMGPLISRGHRDKVLSYFRLAVEEGATVVTGGGAPSFGDARDDGAFVMPTIWTGLPDSARCVREEIFGPVCHIAPFDDEAEVVKRVNDSAYGLAASIWTTQLARGHRVAKQIETGIVWVNAWFVRDLRTPFGGTKLSGLGREGGRHSLDFYSELTNVCVRIA RQLLRHYINGEFVASGTTFPNLSPVDGRKLADVCEADAALVDSAVQAAHAAQKAGWRDTTPAQRAAWLHKIADGIEARFDEFVAAEVADTGRPVAQARTLDIARGIANFRTFADLVRTASGEYFETHAADGSELINYVTRKPLGVIGIISPWNLPLLLFTWKVAPALAMGNCVVAKPSEETPSSATLLAEVMHDVGLPPGVFNLIHGHGQNAAGEFLTRHPDISAITFTGESRTGSTIMKAVADGVKEVSFELGGKNAAVVFADADFDAAVAGVLRSSFTNAGQVCLCSERVYVERPIFERFVAALKEQAQALRVGAPEDPATTMGPLISRGHRDKVLSYFRLAVEEGATVVTGGGAPSFGDARDDGAFVMPTIWTGLPDSARCVREEIFGPVCHIAPFDDEAEVVKRVNDSAYGLAASIWTTQLARGHRVAKQIETGIVWVNAWFVRDLRTPFGGTKLSGLGREGGRHSLDFYSELTNVCVRIA 4u3w-a1-m2-cB_4u3w-a1-m2-cA X-ray crystal structure of 2-aminomuconate 6-semialdehyde dehydrogenase from Burkholderia cenocepacia B4EFS9 B4EFS9 1.9501 X-RAY DIFFRACTION 176 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 484 485 4u3w-a1-m1-cB_4u3w-a1-m1-cA QLLRHYINGEFVASGTTFPNLSPVDGRKLADVCEADAALVDSAVQAAHAAQKAGWRDTTPAQRAAWLHKIADGIEARFDEFVAAEVADTGRPVAQARTLDIARGIANFRTFADLVRTASGEYFETHAADGSELINYVTRKPLGVIGIISPWNLPLLLFTWKVAPALAMGNCVVAKPSEETPSSATLLAEVMHDVGLPPGVFNLIHGHGQNAAGEFLTRHPDISAITFTGESRTGSTIMKAVADGVKEVSFELGGKNAAVVFADADFDAAVAGVLRSSFTNAGQVCLCSERVYVERPIFERFVAALKEQAQALRVGAPEDPATTMGPLISRGHRDKVLSYFRLAVEEGATVVTGGGAPSFGDARDDGAFVMPTIWTGLPDSARCVREEIFGPVCHIAPFDDEAEVVKRVNDSAYGLAASIWTTQLARGHRVAKQIETGIVWVNAWFVRDLRTPFGGTKLSGLGREGGRHSLDFYSELTNVCVRIA RQLLRHYINGEFVASGTTFPNLSPVDGRKLADVCEADAALVDSAVQAAHAAQKAGWRDTTPAQRAAWLHKIADGIEARFDEFVAAEVADTGRPVAQARTLDIARGIANFRTFADLVRTASGEYFETHAADGSELINYVTRKPLGVIGIISPWNLPLLLFTWKVAPALAMGNCVVAKPSEETPSSATLLAEVMHDVGLPPGVFNLIHGHGQNAAGEFLTRHPDISAITFTGESRTGSTIMKAVADGVKEVSFELGGKNAAVVFADADFDAAVAGVLRSSFTNAGQVCLCSERVYVERPIFERFVAALKEQAQALRVGAPEDPATTMGPLISRGHRDKVLSYFRLAVEEGATVVTGGGAPSFGDARDDGAFVMPTIWTGLPDSARCVREEIFGPVCHIAPFDDEAEVVKRVNDSAYGLAASIWTTQLARGHRVAKQIETGIVWVNAWFVRDLRTPFGGTKLSGLGREGGRHSLDFYSELTNVCVRIA 4u4h-a2-m1-cA_4u4h-a2-m2-cA Crystal Structure of HSV-1 UL21 N-terminal Domain P10205 P10205 2.05 X-RAY DIFFRACTION 86 1.0 10299 (Human alphaherpesvirus 1 strain 17) 10299 (Human alphaherpesvirus 1 strain 17) 198 198 MWSHPQFEKGSMELSYATTMHYRDVVFYVTTDRNRAYFVCGGCVYSVGRPCPGEIAKFGLVVRGTGPDDRVVANYVRSELRQRGLDEVFLDSVCLLNPNVSSELDVINTNDVEVLDECLAEYCTSLRTSPGVLISGLRVRAQDRIIELFEHPTIVNVSSHFVYTPSPYVFALAQAHLPRLPSSLEALVSGLFDGIPAP MWSHPQFEKGSMELSYATTMHYRDVVFYVTTDRNRAYFVCGGCVYSVGRPCPGEIAKFGLVVRGTGPDDRVVANYVRSELRQRGLDEVFLDSVCLLNPNVSSELDVINTNDVEVLDECLAEYCTSLRTSPGVLISGLRVRAQDRIIELFEHPTIVNVSSHFVYTPSPYVFALAQAHLPRLPSSLEALVSGLFDGIPAP 4u4i-a1-m1-cB_4u4i-a1-m1-cA Megavirus chilensis superoxide dismutase G5CS11 G5CS11 2.2 X-RAY DIFFRACTION 69 0.983 1094892 (Megavirus chiliensis) 1094892 (Megavirus chiliensis) 121 125 YDFFNVVTAICQLDKPHDYGYAIFTQLPDCTEIQFHLKNLPPGKHGCHIHKSGDRRNGCTSGPHFNPFLGNIVVNNNGECNEIICVKYLPLTGSNQIIGRGLVIHEKEDDRIACGIIAYLN FFNVVTAICQLDKPHDYGYAIFTQLPDCTEIQFHLKNLPPGKHGCHIHKSGDRRNGCTSGPHFNPFNLGDLGNIVVNNNGECNEIICVKYLPLTGSNQIIGRGLVIHEKEDDGDRIACGIIAYLN 4u5f-a1-m1-cE_4u5f-a1-m1-cF Crystal structure of GluA2, con-ikot-ikot snail toxin, partial agonist KA and postitive modulator (R,R)-2b complex, GluA2cryst2 construct P0CB20 P0CB20 3.7 X-RAY DIFFRACTION 57 1.0 6493 (Conus striatus) 6493 (Conus striatus) 85 85 4u5b-a1-m1-cE_4u5b-a1-m1-cF 4u5c-a1-m1-cE_4u5c-a1-m1-cF 4u5d-a1-m1-cE_4u5d-a1-m1-cF 4u5e-a1-m1-cE_4u5e-a1-m1-cF 4u5h-a1-m1-cC_4u5h-a1-m1-cD 4u5h-a2-m1-cE_4u5h-a2-m1-cF 4u5h-a3-m1-cH_4u5h-a3-m1-cG 4u5h-a4-m1-cA_4u5h-a4-m1-cB GPADCCRMKECCTDRVNECLQRYSGREDKFVSFCYQEATVTCGSFNEIVGCCYGYQMCMIRVVKPNSLSGAHEACKTVSCGNPCA GPADCCRMKECCTDRVNECLQRYSGREDKFVSFCYQEATVTCGSFNEIVGCCYGYQMCMIRVVKPNSLSGAHEACKTVSCGNPCA 4u5g-a1-m1-cA_4u5g-a1-m2-cB Crystal structure of con-ikot-ikot toxin P0CB20 P0CB20 2.1997 X-RAY DIFFRACTION 14 1.0 6493 (Conus striatus) 6493 (Conus striatus) 83 83 ADCCRMKECCTDRVNECLQRYSGREDKFVSFCYQEATVTCGSFNEIVGCCYGYQMCMIRVVKPNSLSGAHEACKTVSCGNPCA ADCCRMKECCTDRVNECLQRYSGREDKFVSFCYQEATVTCGSFNEIVGCCYGYQMCMIRVVKPNSLSGAHEACKTVSCGNPCA 4u5p-a1-m1-cB_4u5p-a1-m1-cC Crystal structure of native RhCC (YP_702633.1) from Rhodococcus jostii RHA1 at 1.78 Angstrom Q0SDB1 Q0SDB1 1.782 X-RAY DIFFRACTION 94 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 141 141 4u5p-a1-m1-cA_4u5p-a1-m1-cB 4u5p-a1-m1-cA_4u5p-a1-m1-cC 4u5r-a1-m1-cA_4u5r-a1-m1-cB 4u5r-a1-m1-cA_4u5r-a1-m1-cC 4u5r-a1-m1-cC_4u5r-a1-m1-cB PYWEIFTPENAFTPDDKEQLSEAITSIYVDYVNLPRFYVVVLFKDMPKETMYVGGKANNNFVRIRLDHIARQMETAEVRALMMTVAEEKLAPFIKERGYDWEIHIDETPMDLWRTQGLVPPPPESDMEKLWAKENRPIPYD PYWEIFTPENAFTPDDKEQLSEAITSIYVDYVNLPRFYVVVLFKDMPKETMYVGGKANNNFVRIRLDHIARQMETAEVRALMMTVAEEKLAPFIKERGYDWEIHIDETPMDLWRTQGLVPPPPESDMEKLWAKENRPIPYD 4u5t-a1-m1-cA_4u5t-a1-m1-cB Crystal Structure of VBP Leucine Zipper with Bound Arylstibonic Acid Q10587 Q10587 3.301 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 DPDLEIRAAFLEKENTALRTEVAELRKEVGRCKNIVS DPDLEIRAAFLEKENTALRTEVAELRKEVGRCKNIVS 4u5w-a1-m1-cC_4u5w-a1-m1-cA Crystal Structure of HIV-1 Nef-SF2 Core Domain in Complex with the Src Family Kinase Hck SH3-SH2 Tandem Regulatory Domains P03407 P03407 1.86 X-RAY DIFFRACTION 46 0.982 11685 (HIV-1 M:B_ARV2/SF2) 11685 (HIV-1 M:B_ARV2/SF2) 111 116 GFPVRPQVPLRPMTYKAALDISHFLKEKGGLEGLIWSQRRQEILDLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEPKEVLVWRFDSKLAFHHMARELHPEYYK FPVRPQVPLRPMTYKAALDISHFLKEKGGLEGLIWSQRRQEILDLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEPEKVEEANEVLVWRFDSKLAFHHMARELHPEYYK 4u5w-a1-m1-cD_4u5w-a1-m1-cB Crystal Structure of HIV-1 Nef-SF2 Core Domain in Complex with the Src Family Kinase Hck SH3-SH2 Tandem Regulatory Domains P08631 P08631 1.86 X-RAY DIFFRACTION 15 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 160 163 DIIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVDSLETEEWFFKGISRKDAERQLLAPGNMLGSFMIRDGSYSLSVRDYDPRQGDTVKHYKIRTLDNGGFYISPRSTFSTLQELVDHYKKGNDGLCQKLSVPCMLE DIIVVALYDYEAIHHEDLSFQKGDQMVVLEESGEWWKARSLATRKEGYIPSNYVARVDSLETEEWFFKGISRKDAERQLLAPGNMLGSFMIRDSETTKGSYSLSVRDYDPRQGDTVKHYKIRTLDNGGFYISPRSTFSTLQELVDHYKKGNDGLCQKLSVPCM 4u65-a2-m1-cC_4u65-a2-m1-cD Structure of the periplasmic output domain of the Legionella pneumophila LapD ortholog CdgS9 in complex with Pseudomonas fluorescens LapG Q5ZXA3 Q5ZXA3 2.1 X-RAY DIFFRACTION 129 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 131 131 4u64-a1-m1-cA_4u64-a1-m2-cA 4u65-a1-m1-cA_4u65-a1-m1-cB TYFITMNNARNFFIQQLESNAQDTATSLGLSLSQSLINHDVPTMDSMVKAVFDRGYFSSIKVQDIKGKVIILKKQLPQESDIPQWFVNLIKWPSTEKSSLIMDGWMQAGVVLVASDPSYVYASLWRNAVEM TYFITMNNARNFFIQQLESNAQDTATSLGLSLSQSLINHDVPTMDSMVKAVFDRGYFSSIKVQDIKGKVIILKKQLPQESDIPQWFVNLIKWPSTEKSSLIMDGWMQAGVVLVASDPSYVYASLWRNAVEM 4u66-a2-m1-cC_4u66-a2-m1-cB Induced Dimer Structure of Methionine Sulfoxide Reductase U16C from Clostridium Oremlandii A8MI53 A8MI53 2.9 X-RAY DIFFRACTION 33 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 203 204 4u66-a1-m1-cA_4u66-a1-m2-cA KLSIAVFALGCFWGPDAQFGSIKGVVSTRVGYAGGTTNNPSYYNLGDHSESIEIQYDANVITYGELLNIFWNLHNPVYETTNRQYMSRIFYLDDGQKSEALEMKRQIEAANGEKIYTEIVPLENFYLAEGYHQKYYLQNTTKLYQTLKAIYGGFGNLVRSTLAARMNGYIAGNLSIASLKEEMDLVELPEDQYEKVLSIVEEI QKLSIAVFALGCFWGPDAQFGSIKGVVSTRVGYAGGTTNNPSYYNLGDHSESIEIQYDANVITYGELLNIFWNLHNPVYETTNRQYMSRIFYLDDGQKSEALEMKRQIEAANGEKIYTEIVPLENFYLAEGYHQKYYLQNTTKLYQTLKAIYGGFGNLVRSTLAARMNGYIAGNLSIASLKEEMDLVELPEDQYEKVLSIVEEI 4u6b-a1-m1-cC_4u6b-a1-m1-cA Zg3597, a family 117 glycoside hydrolase, produced by the marine bacterium Zobellia galactanivorans F0V1E1 F0V1E1 2.3 X-RAY DIFFRACTION 48 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 342 343 DNELFSQFKYTRLKGFDYNNGDGTISRRDPSRPILVNGKYYIYYTKRDTKVPPIGWNRAKEATDEIPSTDWDLCEIWYATSEDGTTWKEEGVAIARPEKPKPGWRSVATPDILVWKGKYYLYYQAFNEPSGLRGDWCPVSVSYADSPDGPWTHGGDSVIPFGKKGEWDQDATHDPQPIVYKGKIHLYYKAAYNYAVGHGLAIADDPLGPFEKHPLNPVMTSGHETTYFPFKEGVATLAIKDGNERYTMQYAKDGVNFEIASVVSLAPTAAAPFAADAFTDSGNGRGVTWGLCHFTNASNNPKKGYSIIARFDCDLSLDVDDPFYKNTGVWHRPEVYFAQAPR DNELFSQFKYTRLKGFDYNNGDGTISRRDPSRPILVNGKYYIYYTKRDTKVPPIGWNRAKEATDEIPSTDWDLCEIWYATSEDGTTWKEEGVAIARPEKPKPGWRSVATPDILVWKGKYYLYYQAFNEPSGLRGDWCPVSVSYADSPDGPWTHGGDSVIPFGKKGEWDQDATHDPQPIVYKGKIHLYYKAAYNKYAVGHGLAIADDPLGPFEKHPLNPVMTSGHETTYFPFKEGVATLAIKDGNERYTMQYAKDGVNFEIASVVSLAPTAAAPFAADAFTDSGNGRGVTWGLCHFTNASNNPKKGYSIIARFDCDLSLDVDDPFYKNTGVWHRPEVYFAQAPR 4u6b-a1-m1-cC_4u6b-a1-m1-cD Zg3597, a family 117 glycoside hydrolase, produced by the marine bacterium Zobellia galactanivorans F0V1E1 F0V1E1 2.3 X-RAY DIFFRACTION 99 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 342 343 4u6b-a1-m1-cA_4u6b-a1-m1-cB DNELFSQFKYTRLKGFDYNNGDGTISRRDPSRPILVNGKYYIYYTKRDTKVPPIGWNRAKEATDEIPSTDWDLCEIWYATSEDGTTWKEEGVAIARPEKPKPGWRSVATPDILVWKGKYYLYYQAFNEPSGLRGDWCPVSVSYADSPDGPWTHGGDSVIPFGKKGEWDQDATHDPQPIVYKGKIHLYYKAAYNYAVGHGLAIADDPLGPFEKHPLNPVMTSGHETTYFPFKEGVATLAIKDGNERYTMQYAKDGVNFEIASVVSLAPTAAAPFAADAFTDSGNGRGVTWGLCHFTNASNNPKKGYSIIARFDCDLSLDVDDPFYKNTGVWHRPEVYFAQAPR DNELFSQFKYTRLKGFDYNNGDGTISRRDPSRPILVNGKYYIYYTKRDTKVPPIGWNRAKEATDEIPSTDWDLCEIWYATSEDGTTWKEEGVAIARPEKPKPGWRSVATPDILVWKGKYYLYYQAFNEPSGLRGDWCPVSVSYADSPDGPWTHGGDSVIPFGKKGEWDQDATHDPQPIVYKGKIHLYYKAAYNKYAVGHGLAIADDPLGPFEKHPLNPVMTSGHETTYFPFKEGVATLAIKDGNERYTMQYAKDGVNFEIASVVSLAPTAAAPFAADAFTDSGNGRGVTWGLCHFTNASNNPKKGYSIIARFDCDLSLDVDDPFYKNTGVWHRPEVYFAQAPR 4u6d-a1-m1-cA_4u6d-a1-m1-cB Zg3615, a family 117 glycoside hydrolase in complex with beta-3,6-anhydro-L-galactose F0V1E2 F0V1E2 1.7 X-RAY DIFFRACTION 266 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 382 385 EGFPFILPKEKPNRPLSAAMQRNYDNYMAPRPENNELYTQFKYTELKGFDYNGHDGTISRRDPSKVIYENGKYYVWYTYRNTPTPPQGAKNSNDTIPSADWDLAEIWYATSKDGFTWEEQGVAVPRPPKPNVGWRSVTTTDILKWKGKFYLYYQGFMEASGTRGDDCPVAVSYADSPDGPWTPHTEVVIPNGKKGEWDQYSIHDPYPIVYKDKIYLYYKSDFDGDPNLVRMQGLAIADNPLGPFKKSPLNPVINSGHETTLFPFKEGMAALVIRDGTEHNTVQYAEDGVNFNIASIVEFMPNAAGPYVADAFTNTKYGRGISWGISHFTNATTWDQNHAVLARFDCDLSLDVDDPHMKRLGTYFKPEFYYQMGLSKKQRERI QPEGFPFILPKEKPNRPLSAAMQRNYDNYMAPRPENNELYTQFKYTELKGFDYNGHDGTISRRDPSKVIYENGKYYVWYTYRNTPTPPQGAKNSNDTIPSADWDLAEIWYATSKDGFTWEEQGVAVPRPPKPNVGWRSVTTTDILKWKGKFYLYYQGFMEASGTRGDDCPVAVSYADSPDGPWTPHTEVVIPNGKKGEWDQYSIHDPYPIVYKDKIYLYYKSDFDGDPNLVRMQGLAIADNPLGPFKKSPLNPVINSGHETTLFPFKEGMAALVIRDGTEHNTVQYAEDGVNFNIASIVEFMPNAAGPYVADAFTNTKYGRGISWGISHFTNATTWDQNHAVLARFDCDLSLDVDDPHMKRLGTYFKPEFYYQMGLSKKQRERIE 4u6i-a1-m1-cC_4u6i-a1-m1-cA Crystal Structure of the EutL Microcompartment Shell Protein from Clostridium Perfringens Bound to Vitamin B12 Q8XLZ0 Q8XLZ0 2.1 X-RAY DIFFRACTION 96 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 216 217 4edi-a1-m1-cA_4edi-a1-m1-cB 4edi-a1-m1-cA_4edi-a1-m1-cC 4edi-a1-m1-cB_4edi-a1-m1-cC 4fdz-a1-m1-cA_4fdz-a1-m1-cB 4fdz-a1-m1-cA_4fdz-a1-m1-cC 4fdz-a1-m1-cB_4fdz-a1-m1-cC 4tlh-a1-m1-cB_4tlh-a1-m1-cA 4tlh-a1-m1-cC_4tlh-a1-m1-cA 4tlh-a1-m1-cC_4tlh-a1-m1-cB 4tm6-a1-m1-cA_4tm6-a1-m1-cB 4tm6-a1-m1-cA_4tm6-a1-m1-cC 4tm6-a1-m1-cB_4tm6-a1-m1-cC 4tme-a1-m1-cA_4tme-a1-m1-cB 4tme-a1-m1-cA_4tme-a1-m1-cC 4tme-a1-m1-cB_4tme-a1-m1-cC 4u6i-a1-m1-cA_4u6i-a1-m1-cB 4u6i-a1-m1-cC_4u6i-a1-m1-cB 6arc-a1-m1-cA_6arc-a1-m1-cB 6arc-a1-m1-cA_6arc-a1-m1-cC 6arc-a1-m1-cC_6arc-a1-m1-cB 6ard-a1-m1-cA_6ard-a1-m1-cB 6ard-a1-m1-cA_6ard-a1-m1-cC 6ard-a1-m1-cB_6ard-a1-m1-cC MKNDLIRPNVLSVKIISNVSPEMAKKLELEPHHKSLGLITADCDDVTYTALDEATKAAEVDVVYARSMYAGAGNASTKLAGEVIGILAGPSPAEVRSGLNATLDFIDSGVGFVSANEDDSICYYAQCVSRTGSYLSKTAGIREGEALAYLVAPPLEAMYALDAALKAADVEMCEFFAPPTETNFAGALLTGSQSACKAACDAFAEAVQSVASNPLG MKNDLIRPNVLSVKIISNVSPEMAKKLELEPHHKSLGLITADCDDVTYTALDEATKAAEVDVVYARSMYAGAGNASTKLAGEVIGILAGPSPAEVRSGLNATLDFIDSGVGFVSANEDDSICYYAQCVSRTGSYLSKTAGIREGEALAYLVAPPLEAMYALDAALKAADVEMCEFFAPPTETNFAGALLTGSQSACKAACDAFAEAVQSVASNPLGF 4u6o-a1-m1-cB_4u6o-a1-m1-cA STRUCTURE OF THE CAP-BINDING DOMAIN OF INFLUENZA VIRUS POLYMERASE SUBUNIT PB2 P03428 P03428 1.3 X-RAY DIFFRACTION 23 1.0 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 156 166 SSSFSFGGFTFKRTSGSSVKREEEVLTGNLQTLKIRVHEGYEEFTMVGRRATAILRKATRRLIQLIVSGRDEQSIAEAIIVAMVFSQEDCMIKAVRGDLNFVRLNPMHQLLRHFQKDAKVLFQNWGVEPIMGMIGILPDMTPSIEMSMRGVRISKM RISSSFSFGGFTFKRTSGSSVKREEEVLTGNLQTLKIRVHEGYEEFTMVGRRATAILRKATRRLIQLIVSGRDEQSIAEAIIVAMVFSQEDCMIKAVRGDLNFVNRANQRLNPMHQLLRHFQKDAKVLFQNWGVEPIDNVMGMIGILPDMTPSIEMSMRGVRISKM 4u6o-a2-m1-cB_4u6o-a2-m2-cA STRUCTURE OF THE CAP-BINDING DOMAIN OF INFLUENZA VIRUS POLYMERASE SUBUNIT PB2 P03428 P03428 1.3 X-RAY DIFFRACTION 31 1.0 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 156 166 SSSFSFGGFTFKRTSGSSVKREEEVLTGNLQTLKIRVHEGYEEFTMVGRRATAILRKATRRLIQLIVSGRDEQSIAEAIIVAMVFSQEDCMIKAVRGDLNFVRLNPMHQLLRHFQKDAKVLFQNWGVEPIMGMIGILPDMTPSIEMSMRGVRISKM RISSSFSFGGFTFKRTSGSSVKREEEVLTGNLQTLKIRVHEGYEEFTMVGRRATAILRKATRRLIQLIVSGRDEQSIAEAIIVAMVFSQEDCMIKAVRGDLNFVNRANQRLNPMHQLLRHFQKDAKVLFQNWGVEPIDNVMGMIGILPDMTPSIEMSMRGVRISKM 4u6u-a3-m1-cA_4u6u-a3-m2-cC Crystal Structure of the Cog5-Cog7 complex from Kluyveromyces lactis Q6CXE9 Q6CXE9 3 X-RAY DIFFRACTION 12 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 67 67 ANDPLLDMFFDDDFVPQAFVDILLSSFQTSQLEELKTNCSSLLSKMDYYSGHITKELESTIQVLQKP ANDPLLDMFFDDDFVPQAFVDILLSSFQTSQLEELKTNCSSLLSKMDYYSGHITKELESTIQVLQKP 4u6u-a3-m1-cB_4u6u-a3-m2-cD Crystal Structure of the Cog5-Cog7 complex from Kluyveromyces lactis Q6CLE2 Q6CLE2 3 X-RAY DIFFRACTION 48 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 282 283 QDILEPFERALKLQTVSSKIHQTTTLLRSSLIYVHMISQLQMMPLETDSTDDAALACGLKIAALHSQLKINIAANPNLATLQLIKSCENNVVSPNRQELLRYLSTNLTRDCLNNLKMENNPKRIVTLIKALYTLSPVDLFDTIDKVLSSKIQTTAQVLSKTITSIRNFNLSLDDAMENRNSILTLQNLMAACAIEGNTNTLRNYLSQRKFSSLIDQFWSKVTNSFKRDFEMSYNRGGPVGKSLQSNSNLIYEAISKCFGENDPSNELQGELQYILKAVSILD QDILEPFERALKLQTVSSKIHQTTTLLRSSLIYVHMISQLQMMPLETDSTDDAALACGLKIAALHSQLKINIAANPNLATLQLIKSCENNVVSPNRQELLRYLSTNLTRDCLNNLKMENNPKRIVTLIKALYTLSPVDLFDTIDKVLSSKIQTTAQVLSKTITSIRNFNLSLDDAMENRNSILTLQNLMAACAIEGNTNTLRNYLSQRKFSSLIDQFWSKVTNSFKRDFEMSYNRGGPVGKSLQSNSNLIYEAISKCFGENDPSNELQGELQYILKAVSILDT 4u77-a1-m1-cA_4u77-a1-m2-cA BTB domain from Drosophila CP190 Q24478 Q24478 2.03 X-RAY DIFFRACTION 110 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 121 121 5eup-a1-m1-cA_5eup-a1-m2-cA 6er1-a1-m1-cA_6er1-a1-m2-cA GEVKSVKVDNWGVFFLQKLQNFFNKTDYCDLTLQFRDNSQLKVHRLVLSACTDYFNVLEQTCEIVDDALIMPNEFQADVVVPIVNFMYTGTLEFELKMYGKLLRTAKEMNMTVLLKLLEAH GEVKSVKVDNWGVFFLQKLQNFFNKTDYCDLTLQFRDNSQLKVHRLVLSACTDYFNVLEQTCEIVDDALIMPNEFQADVVVPIVNFMYTGTLEFELKMYGKLLRTAKEMNMTVLLKLLEAH 4u7b-a1-m1-cA_4u7b-a1-m1-cB Crystal structure of a pre-cleavage Mos1 transpososome Q7JQ07 Q7JQ07 3.09 X-RAY DIFFRACTION 165 1.0 7226 (Drosophila mauritiana) 7226 (Drosophila mauritiana) 342 342 3hos-a1-m1-cA_3hos-a1-m1-cB 3hot-a1-m1-cA_3hot-a1-m1-cB 4r79-a1-m1-cA_4r79-a1-m1-cB 4u7b-a2-m1-cG_4u7b-a2-m2-cG 5hoo-a1-m1-cA_5hoo-a1-m1-cB FVPNKEQTRTVLIFCFHLKKTAAESHRMLVEAFGEQVPTVKTCERWFQRFKSGDFDVDDKEHGKPPKRYEDAELQALLDEDDAQTQKQLAEQLEVSQQAVSNRLREMGKIQKVGRWVPHELNERQMERRKNTCEILLSRYKRKSFLHRIVTGDEKWIFFVNPKRKKSYVDPGQPATSTARPNRFGKKTMLCVWWDQSGVIYYELLKPGETVNAARYQQQLINLNRALQRKRPEYQKRQHRVIFLHANAPSHTARAVRDTLETLNWEVLPHAAYSPDLAPSDYHLFASMGHALAEQRFDSYESVKKWLDEWFAAKDDEFYWRGIHKLPERWEKCVASDGKYFE FVPNKEQTRTVLIFCFHLKKTAAESHRMLVEAFGEQVPTVKTCERWFQRFKSGDFDVDDKEHGKPPKRYEDAELQALLDEDDAQTQKQLAEQLEVSQQAVSNRLREMGKIQKVGRWVPHELNERQMERRKNTCEILLSRYKRKSFLHRIVTGDEKWIFFVNPKRKKSYVDPGQPATSTARPNRFGKKTMLCVWWDQSGVIYYELLKPGETVNAARYQQQLINLNRALQRKRPEYQKRQHRVIFLHANAPSHTARAVRDTLETLNWEVLPHAAYSPDLAPSDYHLFASMGHALAEQRFDSYESVKKWLDEWFAAKDDEFYWRGIHKLPERWEKCVASDGKYFE 4u7n-a1-m1-cA_4u7n-a1-m1-cB Inactive structure of histidine kinase A0A0M3KKX3 A0A0M3KKX3 3.2 X-RAY DIFFRACTION 82 1.0 644042 (Lactiplantibacillus plantarum JDM1) 644042 (Lactiplantibacillus plantarum JDM1) 211 212 VSNVSHELRTPLTSLRSYIEALSDGAWKDPEVAPGFLKVTQEETDRMIRMINELLSLSRMDSGTTRVDMELVNINEMFNYVLDRFDMILKKDDNYYTIKREFTKRDLWVEIDTDKFTQVLDNIMNNAIKYSPDGGVVTCRLLETHNQVIISISDQGLGIPRADLGHVFDRFFRTGLGLAISKEVVQMLGGRIWVDSVEGKGSTFYISLPYE VSNVSHELRTPLTSLRSYIEALSDGAWKDPEVAPGFLKVTQEETDRMIRMINELLSLSRMDSGTTRVDMELVNINEMFNYVLDRFDMILKKDDNYYTIKREFTKRDLWVEIDTDKFTQVLDNIMNNAIKYSPDGGVVTCRLLETHNQVIISISDQGLGIPRADLGHVFDRFFRGTGLGLAISKEVVQMLGGRIWVDSVEGKGSTFYISLPYE 4u7o-a1-m1-cB_4u7o-a1-m1-cA Active histidine kinase bound with ATP A0A0M3KKX3 A0A0M3KKX3 2.395 X-RAY DIFFRACTION 95 0.991 644042 (Lactiplantibacillus plantarum JDM1) 644042 (Lactiplantibacillus plantarum JDM1) 218 234 4zki-a1-m1-cB_4zki-a1-m1-cA 5c93-a1-m1-cB_5c93-a1-m1-cA QFVSNVSHELRTPLTSLRSYIEALSDGAWKDPEVAPGFLKVTQEETDRMIRMINELLSLSTRVDMELVNINEMFNYVLDRFDMILKKDDNPAKYYTIKREFTKRDLWVEIDTDKFTQVLDNIMNNAIKYSPDGGVVTCRLLETHNQVIISISDQGLGIPRADLGHVFDRFFRVDKARQGGTGLGLAISKEVVQMLGGRIWVDSVEGKGSTFYISLPYE VTEQQKIDNDRKQFVSNVSHELRTPLTSLRSYIEALSDGAWKDPEVAPGFLKVTQEETDRMIRMINELLSLSRMDSGTTRVDMELVNINEMFNYVLDRFDMILKKDDNPAKYYTIKREFTKRDLWVEIDTDKFTQVLDNIMNNAIKYSPDGGVVTCRLLETHNQVIISISDQGLGIPRADLGHVFDRFFRVDKQGGTGLGLAISKEVVQMLGGRIWVDSVEGKGSTFYISLPYE 4u7u-a2-m1-cB_4u7u-a2-m1-cC Crystal structure of RNA-guided immune Cascade complex from E.coli P76632 P76632 3.003 X-RAY DIFFRACTION 24 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 157 157 4qyz-a1-m1-cB_4qyz-a1-m1-cC 4tvx-a1-m1-cV_4tvx-a1-m1-cW 4u7u-a1-m1-cB_4u7u-a1-m1-cC 4u7u-a1-m1-cN_4u7u-a1-m1-cO 4u7u-a3-m1-cN_4u7u-a3-m1-cO 5cd4-a1-m1-cK_5cd4-a1-m1-cJ 5cd4-a2-m1-cW_5cd4-a2-m1-cV 5h9e-a1-m1-cC_5h9e-a1-m1-cB 5h9f-a1-m1-cC_5h9f-a1-m1-cB DEIDAMALYRAWQQLDNGSCAQIRRVSEPDELRDIPAFYRLVQPFGWENPRHQQALLRMVFCLSAGKNVIRHQDKKSEQTTGISLGRALANSGRINERRIFQLIRADRTADMVQLRRLLTHAEPVLDWPLMARMLTWWGKRERQQLLEDFVLTTNKN EIDAMALYRAWQQLDNGSCAQIRRVSEPDELRDIPAFYRLVQPFGWENPRHQQALLRMVFCLSAGKNVIRHQDKKSEQTTGISLGRALANSGRINERRIFQLIRADRTADMVQLRRLLTHAEPVLDWPLMARMLTWWGKRERQQLLEDFVLTTNKNA 4u83-a2-m1-cD_4u83-a2-m1-cC Structure of Brucella Abortus Butyryl-CoA dehydrogenase 1.8 X-RAY DIFFRACTION 82 1.0 1104320 (Brucella abortus A13334) 1104320 (Brucella abortus A13334) 363 369 4u83-a1-m1-cB_4u83-a1-m1-cA HHMLLTDTQEQIREAARDFAQERLAPGAAARDREHAFPRAELTEMGALGFLGMLAPEEWGGSDLDMVAYALALEEIAAGDGACSTIVSVHSSVGCMPILRFGTEDQKRRFLPKMACGEWIGGFALTEPLKTRARLDGDHYVIDGSKQFITSGKNGNVVIVFAVTDPAAGKKGISAFIVPTDTPGYEVMSVEHKLGQHSSDTCALGFTNMRVPVENRLGAEGEGYKIALANLEGGRIGIAAQAVGMARAAFEAARDYARERITFHQAVAFRLADMATRIETARQMVLHAAALREAGKPCLTEASMAKLVASEMAEQVCSAAIQIHGGYGYLADYPVERIYRDVRVCQIYEGTSDVQRLVIARGL HHMLLTDTQEQIREAARDFAQERLAPGAAARDREHAFPRAELTEMGALGFLGMLAPEEWGGSDLDMVAYALALEEIAAGDGACSTIVSVHSSVGCMPILRFGTEDQKRRFLPKMACGEWIGGFALTEPLKTRARLDGDHYVIDGSKQFITSGKNGNVVIVFAVTDPAAGKKGISAFIVPTDTPGYEVMSVEHKLGQHSSDTCALGFTNMRVPVENRLGAEGEGYKIALANLEGGRIGIAAQAVGMARAAFEAARDYARERITFGKPIIEHQAVAFRLADMATRIETARQMVLHAAALREAGKPCLTEASMAKLVASEMAEQVCSAAIQIHGGYGYLADYPVERIYRDVRVCQIYEGTSDVQRLVIARGL 4u8g-a1-m1-cA_4u8g-a1-m4-cA Crystal structure of 2-keto-3-deoxy-D-gluconate dehydrogenase from Streptococcus agalactiae Q8E370 Q8E370 2.9 X-RAY DIFFRACTION 169 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 266 266 4u8g-a1-m2-cA_4u8g-a1-m3-cA TEQFLKDNFSLEGKVALITGASYGIGFSIATAFARAGATIVFNDIKQELVDKGISAYKKLGIKAHGYVCDVTDEDGINEMVDKISQDVGVIDILVNNAGIIKRTPMLEMSAADFRQVIDIDLNAPFIVSKAVLPGMIQKGHGKIINICAMMSELGRETVAAYAAAKGGLKMLTKNIASEYGSANIQCNGIGPGYIATPQTAPLRERQDDGSRHPFDQFIIAKTPAARWGEAEDLGAPAIFLASDASNFINGHILYVDGGILAYIGK TEQFLKDNFSLEGKVALITGASYGIGFSIATAFARAGATIVFNDIKQELVDKGISAYKKLGIKAHGYVCDVTDEDGINEMVDKISQDVGVIDILVNNAGIIKRTPMLEMSAADFRQVIDIDLNAPFIVSKAVLPGMIQKGHGKIINICAMMSELGRETVAAYAAAKGGLKMLTKNIASEYGSANIQCNGIGPGYIATPQTAPLRERQDDGSRHPFDQFIIAKTPAARWGEAEDLGAPAIFLASDASNFINGHILYVDGGILAYIGK 4u8g-a1-m3-cA_4u8g-a1-m4-cA Crystal structure of 2-keto-3-deoxy-D-gluconate dehydrogenase from Streptococcus agalactiae Q8E370 Q8E370 2.9 X-RAY DIFFRACTION 92 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 266 266 4u8g-a1-m1-cA_4u8g-a1-m2-cA TEQFLKDNFSLEGKVALITGASYGIGFSIATAFARAGATIVFNDIKQELVDKGISAYKKLGIKAHGYVCDVTDEDGINEMVDKISQDVGVIDILVNNAGIIKRTPMLEMSAADFRQVIDIDLNAPFIVSKAVLPGMIQKGHGKIINICAMMSELGRETVAAYAAAKGGLKMLTKNIASEYGSANIQCNGIGPGYIATPQTAPLRERQDDGSRHPFDQFIIAKTPAARWGEAEDLGAPAIFLASDASNFINGHILYVDGGILAYIGK TEQFLKDNFSLEGKVALITGASYGIGFSIATAFARAGATIVFNDIKQELVDKGISAYKKLGIKAHGYVCDVTDEDGINEMVDKISQDVGVIDILVNNAGIIKRTPMLEMSAADFRQVIDIDLNAPFIVSKAVLPGMIQKGHGKIINICAMMSELGRETVAAYAAAKGGLKMLTKNIASEYGSANIQCNGIGPGYIATPQTAPLRERQDDGSRHPFDQFIIAKTPAARWGEAEDLGAPAIFLASDASNFINGHILYVDGGILAYIGK 4u8o-a1-m1-cA_4u8o-a1-m1-cD Structure of Aspergillus fumigatus UDP-Galactopyranose mutase mutant N207A complexed with UDP Q4W1X2 Q4W1X2 2.3 X-RAY DIFFRACTION 51 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 505 505 3uka-a1-m1-cA_3uka-a1-m1-cC 3uka-a1-m1-cB_3uka-a1-m1-cD 3ukf-a1-m1-cA_3ukf-a1-m2-cC 3ukf-a1-m1-cH_3ukf-a1-m2-cF 3ukf-a2-m1-cB_3ukf-a2-m1-cD 3ukf-a2-m1-cE_3ukf-a2-m1-cG 3ukh-a1-m1-cB_3ukh-a1-m1-cD 3ukh-a1-m1-cC_3ukh-a1-m1-cA 3ukh-a2-m1-cF_3ukh-a2-m1-cH 3ukh-a2-m1-cG_3ukh-a2-m1-cE 3ukk-a1-m1-cB_3ukk-a1-m1-cA 3ukk-a1-m1-cD_3ukk-a1-m1-cC 3ukl-a1-m1-cA_3ukl-a1-m1-cB 3ukl-a1-m1-cD_3ukl-a1-m1-cF 3ukl-a2-m1-cC_3ukl-a2-m2-cG 3ukl-a2-m1-cE_3ukl-a2-m2-cH 3ukp-a1-m1-cA_3ukp-a1-m1-cG 3ukp-a1-m1-cC_3ukp-a1-m1-cE 3ukp-a2-m1-cB_3ukp-a2-m1-cH 3ukp-a2-m1-cD_3ukp-a2-m1-cF 3ukq-a1-m1-cA_3ukq-a1-m1-cC 3ukq-a1-m2-cB_3ukq-a1-m2-cD 3ute-a1-m1-cC_3ute-a1-m1-cB 3ute-a1-m1-cD_3ute-a1-m1-cA 3utf-a1-m1-cA_3utf-a1-m1-cD 3utf-a1-m1-cB_3utf-a1-m1-cC 3utg-a1-m1-cA_3utg-a1-m1-cD 3utg-a1-m1-cC_3utg-a1-m1-cB 3uth-a1-m1-cA_3uth-a1-m1-cD 3uth-a1-m1-cC_3uth-a1-m1-cB 4gde-a1-m1-cA_4gde-a1-m1-cD 4gde-a1-m1-cB_4gde-a1-m1-cC 4u8i-a1-m1-cA_4u8i-a1-m1-cD 4u8i-a1-m1-cB_4u8i-a1-m1-cC 4u8j-a1-m1-cA_4u8j-a1-m1-cD 4u8j-a1-m1-cB_4u8j-a1-m1-cC 4u8k-a1-m1-cA_4u8k-a1-m1-cD 4u8k-a1-m1-cB_4u8k-a1-m1-cC 4u8l-a1-m1-cA_4u8l-a1-m1-cD 4u8l-a1-m1-cB_4u8l-a1-m1-cC 4u8m-a1-m1-cA_4u8m-a1-m1-cD 4u8m-a1-m1-cB_4u8m-a1-m1-cC 4u8n-a1-m1-cA_4u8n-a1-m1-cD 4u8n-a1-m1-cB_4u8n-a1-m1-cC 4u8o-a1-m1-cC_4u8o-a1-m1-cB 4u8p-a1-m1-cA_4u8p-a1-m1-cD 4u8p-a1-m1-cB_4u8p-a1-m1-cC 4wx1-a1-m1-cA_4wx1-a1-m1-cD 4wx1-a1-m1-cB_4wx1-a1-m1-cC 5hhf-a1-m1-cC_5hhf-a1-m1-cB 5hhf-a1-m1-cD_5hhf-a1-m1-cA 5vwt-a1-m1-cA_5vwt-a1-m1-cD 5vwt-a1-m1-cB_5vwt-a1-m1-cC 5vwu-a1-m1-cA_5vwu-a1-m1-cD 5vwu-a1-m1-cB_5vwu-a1-m1-cC HPDISVDVLVIGAGPTGLGAAKRLNQIDGPSWMIVDSNETPGGLASTDVTPEGFLYDVGGHVIFSHYKYFDDCLDEALPKEDDWYTHQRISYVRCQGQWVPYPFQNNISMLPKEEQVKCIDGMIDAALEARVANTKPKTFDEWIVRMMGTGIADLFMRPYNFKVWAVPTTKMQCAWLGERVAAPNLKAVTTNVILGKTAGNWGPAATFRFPARGGTGGIWIAVANTLPKEKTRFGEKGKVTKVNANNKTVTLQDGTTIGYKKLVSTMAVDFLAEAMNDQELVGLTKQLFYSSTHVIGVGVRGSRPERIGDKCWLYFPEDNCPFYRATIFSNYSPYNQPEASAALPTMQLADGSRPQSTEAKEGPYWSIMLEVSESSMKPVNQETILADCIQGLVNTEMLKPTDEIVSTYHRRFDHGYPTPTLEREGTLTQILPKLQDKDIWSRGRFGSWRYEVGNQDHSFMLGVEAVDNIVNGAVELTLNYPDFVNGRQNTERRLVDGAQVFAKS HPDISVDVLVIGAGPTGLGAAKRLNQIDGPSWMIVDSNETPGGLASTDVTPEGFLYDVGGHVIFSHYKYFDDCLDEALPKEDDWYTHQRISYVRCQGQWVPYPFQNNISMLPKEEQVKCIDGMIDAALEARVANTKPKTFDEWIVRMMGTGIADLFMRPYNFKVWAVPTTKMQCAWLGERVAAPNLKAVTTNVILGKTAGNWGPAATFRFPARGGTGGIWIAVANTLPKEKTRFGEKGKVTKVNANNKTVTLQDGTTIGYKKLVSTMAVDFLAEAMNDQELVGLTKQLFYSSTHVIGVGVRGSRPERIGDKCWLYFPEDNCPFYRATIFSNYSPYNQPEASAALPTMQLADGSRPQSTEAKEGPYWSIMLEVSESSMKPVNQETILADCIQGLVNTEMLKPTDEIVSTYHRRFDHGYPTPTLEREGTLTQILPKLQDKDIWSRGRFGSWRYEVGNQDHSFMLGVEAVDNIVNGAVELTLNYPDFVNGRQNTERRLVDGAQVFAKS 4u8o-a1-m1-cC_4u8o-a1-m1-cA Structure of Aspergillus fumigatus UDP-Galactopyranose mutase mutant N207A complexed with UDP Q4W1X2 Q4W1X2 2.3 X-RAY DIFFRACTION 76 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 504 505 3uka-a1-m1-cA_3uka-a1-m1-cD 3uka-a1-m1-cB_3uka-a1-m1-cC 3ukf-a1-m1-cA_3ukf-a1-m1-cH 3ukf-a1-m2-cC_3ukf-a1-m2-cF 3ukf-a2-m1-cB_3ukf-a2-m1-cE 3ukf-a2-m1-cD_3ukf-a2-m1-cG 3ukh-a1-m1-cA_3ukh-a1-m1-cB 3ukh-a1-m1-cC_3ukh-a1-m1-cD 3ukh-a2-m1-cF_3ukh-a2-m1-cE 3ukh-a2-m1-cG_3ukh-a2-m1-cH 3ukk-a1-m1-cB_3ukk-a1-m1-cC 3ukk-a1-m1-cD_3ukk-a1-m1-cA 3ukl-a1-m1-cA_3ukl-a1-m1-cF 3ukl-a1-m1-cB_3ukl-a1-m1-cD 3ukl-a2-m1-cC_3ukl-a2-m1-cE 3ukl-a2-m2-cG_3ukl-a2-m2-cH 3ukp-a1-m1-cA_3ukp-a1-m1-cE 3ukp-a1-m1-cC_3ukp-a1-m1-cG 3ukp-a2-m1-cB_3ukp-a2-m1-cF 3ukp-a2-m1-cD_3ukp-a2-m1-cH 3ukq-a1-m1-cA_3ukq-a1-m2-cD 3ukq-a1-m1-cC_3ukq-a1-m2-cB 3ute-a1-m1-cC_3ute-a1-m1-cA 3ute-a1-m1-cD_3ute-a1-m1-cB 3utf-a1-m1-cA_3utf-a1-m1-cC 3utf-a1-m1-cB_3utf-a1-m1-cD 3utg-a1-m1-cB_3utg-a1-m1-cD 3utg-a1-m1-cC_3utg-a1-m1-cA 3uth-a1-m1-cB_3uth-a1-m1-cD 3uth-a1-m1-cC_3uth-a1-m1-cA 4gde-a1-m1-cA_4gde-a1-m1-cC 4gde-a1-m1-cB_4gde-a1-m1-cD 4u8i-a1-m1-cA_4u8i-a1-m1-cC 4u8i-a1-m1-cB_4u8i-a1-m1-cD 4u8j-a1-m1-cA_4u8j-a1-m1-cC 4u8j-a1-m1-cB_4u8j-a1-m1-cD 4u8k-a1-m1-cA_4u8k-a1-m1-cC 4u8k-a1-m1-cB_4u8k-a1-m1-cD 4u8l-a1-m1-cA_4u8l-a1-m1-cC 4u8l-a1-m1-cB_4u8l-a1-m1-cD 4u8m-a1-m1-cA_4u8m-a1-m1-cC 4u8m-a1-m1-cB_4u8m-a1-m1-cD 4u8n-a1-m1-cA_4u8n-a1-m1-cC 4u8n-a1-m1-cB_4u8n-a1-m1-cD 4u8o-a1-m1-cB_4u8o-a1-m1-cD 4u8p-a1-m1-cA_4u8p-a1-m1-cC 4u8p-a1-m1-cB_4u8p-a1-m1-cD 4wx1-a1-m1-cA_4wx1-a1-m1-cC 4wx1-a1-m1-cB_4wx1-a1-m1-cD 5hhf-a1-m1-cC_5hhf-a1-m1-cA 5hhf-a1-m1-cD_5hhf-a1-m1-cB 5vwt-a1-m1-cA_5vwt-a1-m1-cC 5vwt-a1-m1-cB_5vwt-a1-m1-cD 5vwu-a1-m1-cA_5vwu-a1-m1-cC 5vwu-a1-m1-cB_5vwu-a1-m1-cD HPDISVDVLVIGAGPTGLGAAKRLNQIDGPSWMIVDSNETPGGLASTDVTPEGFLYDVGGHVIFSHYKYFDDCLDEALPKEDDWYTHQRISYVRCQGQWVPYPFQNNISMLPKEEQVKCIDGMIDAALEARVANTKPKTFDEWIVRMMGTGIADLFMRPYNFKVWAVPTTKMQCAWLGERVAAPNLKAVTTNVILGKTAGNWGPAATFRFPARGGTGGIWIAVANTLPKEKTRFGEKGKVTKVNANNKTVTLQDGTTIGYKKLVSTMAVDFLAEAMNDQELVGLTKQLFYSSTHVIGVGVRGSRPERIGDKCWLYFPEDNCPFYRATIFSNYSPYNQPEASAALPTMQLADGSRPQSTEAKEGPYWSIMLEVSESSMKPVNQETILADCIQGLVNTEMLKPTDEIVSTYHRRFDHGYPTPTLEREGTLTQILPKLQDKDIWSRGRFGSWRYEVGNQDHSFMLGVEAVDNIVNGAVELTLNYPDFVNGRQNTERRLVDGAQVFAK HPDISVDVLVIGAGPTGLGAAKRLNQIDGPSWMIVDSNETPGGLASTDVTPEGFLYDVGGHVIFSHYKYFDDCLDEALPKEDDWYTHQRISYVRCQGQWVPYPFQNNISMLPKEEQVKCIDGMIDAALEARVANTKPKTFDEWIVRMMGTGIADLFMRPYNFKVWAVPTTKMQCAWLGERVAAPNLKAVTTNVILGKTAGNWGPAATFRFPARGGTGGIWIAVANTLPKEKTRFGEKGKVTKVNANNKTVTLQDGTTIGYKKLVSTMAVDFLAEAMNDQELVGLTKQLFYSSTHVIGVGVRGSRPERIGDKCWLYFPEDNCPFYRATIFSNYSPYNQPEASAALPTMQLADGSRPQSTEAKEGPYWSIMLEVSESSMKPVNQETILADCIQGLVNTEMLKPTDEIVSTYHRRFDHGYPTPTLEREGTLTQILPKLQDKDIWSRGRFGSWRYEVGNQDHSFMLGVEAVDNIVNGAVELTLNYPDFVNGRQNTERRLVDGAQVFAKS 4u8u-a1-m3-cr_4u8u-a1-m4-cr The Crystallographic structure of the giant hemoglobin from Glossoscolex paulistus at 3.2 A resolution. A0A0M3KKY0 A0A0M3KKY0 3.2 X-RAY DIFFRACTION 10 1.0 1046353 (Glossoscolex paulistus) 1046353 (Glossoscolex paulistus) 219 219 4u8u-a1-m1-cN_4u8u-a1-m1-cc 4u8u-a1-m1-cr_4u8u-a1-m2-cr 4u8u-a1-m2-cN_4u8u-a1-m2-cc 4u8u-a1-m3-cN_4u8u-a1-m3-cc 4u8u-a1-m4-cN_4u8u-a1-m4-cc DPRLAANGLRLIGLERKLKALKARLHEAEKIDPEGFIKELDARVSHVEGTHCAKKEFQCGGYDQECISDLFVCDGHKDCHNGHDEAEDVCDTSPVKPGNIFSGTSHWHDCLLRSDHVTRVVIKGTIRRNYFKSRIWVRAQIESDLIHDGKKELSDFDSKGYYNFANRRLVLIPIAQDDKHLSVICDFDRGDSRRASCHRVLEGTLHQCANLSVHLQGHH DPRLAANGLRLIGLERKLKALKARLHEAEKIDPEGFIKELDARVSHVEGTHCAKKEFQCGGYDQECISDLFVCDGHKDCHNGHDEAEDVCDTSPVKPGNIFSGTSHWHDCLLRSDHVTRVVIKGTIRRNYFKSRIWVRAQIESDLIHDGKKELSDFDSKGYYNFANRRLVLIPIAQDDKHLSVICDFDRGDSRRASCHRVLEGTLHQCANLSVHLQGHH 4u8u-a1-m3-cs_4u8u-a1-m4-cs The Crystallographic structure of the giant hemoglobin from Glossoscolex paulistus at 3.2 A resolution. A0A0M3KKY1 A0A0M3KKY1 3.2 X-RAY DIFFRACTION 20 1.0 1046353 (Glossoscolex paulistus) 1046353 (Glossoscolex paulistus) 213 213 4u8u-a1-m1-cO_4u8u-a1-m1-cd 4u8u-a1-m1-cs_4u8u-a1-m2-cs 4u8u-a1-m2-cO_4u8u-a1-m2-cd 4u8u-a1-m3-cO_4u8u-a1-m3-cd 4u8u-a1-m4-cO_4u8u-a1-m4-cd SHDEEIDKLNEDALKLTHEIIELQEKLDRRSDAKRIQRAGSLKARVEALEDPSCPDHEHQCGGDDPQCVSDLLVCDGIKDCRNGDDESHCHNPFHAGDDFVGDVVFDHCTKRRPENITLSVESISVAAFFPGFPKLHVHVNIHKETDEDEVEVSLPSDAIYSFAEDKLIVYPSEDDGLGLVGQFDGYNFDRFVGDIIHEASKEHCARFIFHRK SHDEEIDKLNEDALKLTHEIIELQEKLDRRSDAKRIQRAGSLKARVEALEDPSCPDHEHQCGGDDPQCVSDLLVCDGIKDCRNGDDESHCHNPFHAGDDFVGDVVFDHCTKRRPENITLSVESISVAAFFPGFPKLHVHVNIHKETDEDEVEVSLPSDAIYSFAEDKLIVYPSEDDGLGLVGQFDGYNFDRFVGDIIHEASKEHCARFIFHRK 4u90-a1-m1-cD_4u90-a1-m2-cE GephE in complex with PEG crosslinked GABA receptor alpha3 subunit derived dimeric peptide P20236 P20236 2 X-RAY DIFFRACTION 47 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 10 10 4u90-a1-m1-cE_4u90-a1-m2-cD FNIVGTTYPC FNIVGTTYPC 4u9c-a1-m1-cA_4u9c-a1-m1-cB STRUCTURE OF THE LBPB N-LOBE FROM NEISSERIA MENINGITIDIS 1.995 X-RAY DIFFRACTION 18 1.0 935597 (Neisseria meningitidis CU385) 935597 (Neisseria meningitidis CU385) 286 300 PVNRPAVGAAMRLPRRNIASYKPDKHQAEEHLPLKEKDILFLDGTLKEQADKLKKKINERYSDVRVITSKKEEEKYQYQFVRAGYVFTRAEGKDNEKEKTSEFVNRFSYDGFVYYSGERPSQSLPSAGTVQYSGNWQYMTDAKRHRTGSTDLGYTTYYGNEIGATSYEARDADDREKHPAEYTVDFDNKTLNGKLIKNQYVNPNEPKKPLTIYDITATLDGNRFTGSAKVSTEVKTQHADKEYLFFHTDADQRLEGGFFGDNGEELAGRFISNDNSVFGVFAGKQK PVNRPAVGAAMRLPRRNIASYKQDGTEIPDKHQAEEHLPLKEKDILFLDGTLKEQADKLKKKINERYSDVRVITSKKEEEKYQYQFVRAGYVFTRAEGKDNEKEKTSDGKEFVNRFSYDGFVYYSGERPSQSLPSAGTVQYSGNWQYMTDAKRHRTGSSTDLGYTTYYGNEIGATSYEARDADDREKHPAEYTVDFDNKTLNGKLIKNQYVQNKSNPNEPKKPLTIYDITATLDGNRFTGSAKVSTEVKTQHADKEYLFFHTDADQRLEGGFFGDNGEELAGRFISNDNSVFGVFAGKQK 4u9e-a1-m1-cA_4u9e-a1-m4-cA Crystal structure of the Zn-directed tetramer of the engineered cyt cb562 variant, A104/57G AB3 P0ABE7 P0ABE7 2.8 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 91 91 4u9e-a1-m2-cA_4u9e-a1-m3-cA ADLEDNMETLNDNLKVIEKADNAAQVKDALTKMAAAAADAWSMHDFRHGFWILIGQIHDALHLANEGKVKEAQHAAEQLKCTCNHCHQAYR ADLEDNMETLNDNLKVIEKADNAAQVKDALTKMAAAAADAWSMHDFRHGFWILIGQIHDALHLANEGKVKEAQHAAEQLKCTCNHCHQAYR 4ua1-a1-m1-cA_4ua1-a1-m1-cB Crystal structure of dual function transcriptional regulator MerR form Bacillus megaterium MB1 in complex with mercury (II) ion Q799U3 Q799U3 2.56 X-RAY DIFFRACTION 137 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 124 125 FRIGELADKCGVNKETIRYYERLGLIPEPEKGYRMQQTVDRLHFIKRMQELGFTLNEIDKLLGVVDRDEAKCRDMYDFTILKIEDIQRKIEDLKRIERMLMDLKERCPENKDIYECPIIETLMK FRIGELADKCGVNKETIRYYERLGLIPEPEEKGYRMQQTVDRLHFIKRMQELGFTLNEIDKLLGVVDRDEAKCRDMYDFTILKIEDIQRKIEDLKRIERMLMDLKERCPENKDIYECPIIETLMK 4ua2-a4-m1-cC_4ua2-a4-m1-cD Crystal structure of dual function transcriptional regulator MerR from Bacillus megaterium MB1 Q799U3 Q799U3 2.61 X-RAY DIFFRACTION 77 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 91 108 4ua2-a1-m1-cB_4ua2-a1-m1-cA 4ua2-a2-m1-cH_4ua2-a2-m1-cG 4ua2-a3-m1-cF_4ua2-a3-m1-cE KETIRYYERQTVDRLHFIKRQELGFTLNEIDKLLGVVDRDEAKCRDYDFTILKIEDIQRKIEDLKRIERLDLKERCPENKDIYECPIIETL RIGELADNKETIRYYERLGLIPESQQTVDRLHFIKRQELGFTLNEIDKLLGVVDRDEAKCRDYDFTILKIEDIQRKIEDLKRIERLDLKERCPENKDIYECPIIETLK 4uab-a1-m1-cB_4uab-a1-m1-cA Crystal structure of a TRAP periplasmic solute binding protein from Chromohalobacter salexigens DSM 3043 (Csal_0678), Target EFI-501078, with bound ethanolamine Q1QZR9 Q1QZR9 1.4 X-RAY DIFFRACTION 118 1.0 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 308 309 4xf5-a1-m1-cA_4xf5-a1-m1-cB IKWRQTYAGAALAEHVAKPAIDLFNRIAGDRQIELYSADQLVPTGELFRAQRGTIDAVQSDDDSASPTEVTVFGGYFPFGCRYSLDVPVLFNQYGLKEIWEEEYAKVGVKHVSAGAWDPCHFATKEPIRSLKDLEGKRVFTFPTAGRFLSRFGVVPVTLPWEDIEVALQTGELDGIAWSGITEDYTVGWANVTNYFLTNNISGAWIGHFFVNERWEELPEDLRLLFEVCCEQSHYHRQYWYWGGEARLRVHGDKLELTSIPDAEWDQVETAAQEFWDEIAAQSETKAKVVEIFKQYNADRKAGRPYRY TIKWRQTYAGAALAEHVAKPAIDLFNRIAGDRQIELYSADQLVPTGELFRAQRGTIDAVQSDDDSASPTEVTVFGGYFPFGCRYSLDVPVLFNQYGLKEIWEEEYAKVGVKHVSAGAWDPCHFATKEPIRSLKDLEGKRVFTFPTAGRFLSRFGVVPVTLPWEDIEVALQTGELDGIAWSGITEDYTVGWANVTNYFLTNNISGAWIGHFFVNERWEELPEDLRLLFEVCCEQSHYHRQYWYWGGEARLRVHGDKLELTSIPDAEWDQVETAAQEFWDEIAAQSETKAKVVEIFKQYNADRKAGRPYRY 4uai-a1-m1-cB_4uai-a1-m1-cA Crystal structure of CXCL12 in complex with inhibitor P48061 P48061 1.9 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 68 1a15-a1-m1-cB_1a15-a1-m1-cA 1qg7-a1-m1-cA_1qg7-a1-m1-cB 2j7z-a1-m1-cA_2j7z-a1-m1-cB 2k01-a1-m1-cA_2k01-a1-m1-cC 2k03-a1-m1-cA_2k03-a1-m1-cC 2k04-a1-m1-cA_2k04-a1-m1-cC 2k05-a1-m1-cA_2k05-a1-m1-cC 2nwg-a1-m1-cB_2nwg-a1-m1-cA 3gv3-a1-m1-cA_3gv3-a1-m2-cA PVSLSYRCPCRFFESHVARANVKHLKILNTPNCALQIVARLKNNNRQVCIDPKLKWIQEYLEKALNK KPVSLSYRCPCRFFESHVARANVKHLKILNTPNCALQIVARLKNNNRQVCIDPKLKWIQEYLEKALNK 4ubf-a1-m1-cA_4ubf-a1-m1-cB HsMCAK motor domain complex Q99661 Q99661 3 X-RAY DIFFRACTION 66 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 309 319 PNWEFARMIKEFRATLECHPLTMTDPIEEHRICVCVRKRPLNKQELAKKEIDVISIPSKCLLLVHEPKLKVDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGKGIYAMASRDVFLLKGLEVYVTFFEIYNGKLFDLLNKKAKLRVLEVQVVGLQEHLVNSADDVIKMIDMGSACRRSHACFQIILRAKGRMHGKFSLVDLAGNEGAEINKSLLALKECIRALGQNKAHTPFRESKLTQVLRDSFIGENSRTCMIATISPGISSCEYTLNTLRYADRVKE NWEFARMIKEFRATLECHPLTMTDPIEEHRICVCVRKRPLNKQELAKKEIDVISIPSKCLLLVHEPKLKDLTKYLENQAFCFDFAFDETASNEVVYRFTARPLVQTIFEGGKATCFAYGQTGSGKTHTMGSKGIYAMASRDVFLLKNQPCYRKLGLEVYVTFFEIYNGKLFDLLNKKAKLRVLEDGQVQVVGLQEHLVNSADDVIKMIDMGSACRNSSRSHACFQIILRAKGRMHGKFSLVDLAGNEGAEINKSLLALKECIRALGQNTPFRESKLTQVLRDSFIGENSRTCMIATISPGISSCEYTLNTLRYADRVKE 4ubr-a5-m1-cI_4ubr-a5-m2-cI Crystal structure of Pseudomonas aeruginosa N-aetyltransferase PA4534 A0A0M3KKY2 A0A0M3KKY2 2.21 X-RAY DIFFRACTION 147 1.0 1286151 (Pseudomonas aeruginosa 18A) 1286151 (Pseudomonas aeruginosa 18A) 137 137 4ubr-a1-m1-cA_4ubr-a1-m1-cB 4ubr-a2-m1-cC_4ubr-a2-m1-cD 4ubr-a3-m1-cE_4ubr-a3-m1-cF 4ubr-a4-m1-cG_4ubr-a4-m1-cH 5ib0-a1-m1-cA_5ib0-a1-m1-cB 5ib0-a2-m1-cC_5ib0-a2-m1-cD 5ib0-a3-m1-cE_5ib0-a3-m1-cF 5ib0-a4-m1-cG_5ib0-a4-m2-cG MQLRSVIAADHPALFALWSRTPGIRLRAEDAYPFFLAYLQRNPGLSLLVETEGEVIACLMAGHDGRRGYLQHLVVDPGYRGLGLARRMLDEVLARLAREGIGKSHVFVLDAAEEAQAFWRAQSDWERRKDIQVFSTR MQLRSVIAADHPALFALWSRTPGIRLRAEDAYPFFLAYLQRNPGLSLLVETEGEVIACLMAGHDGRRGYLQHLVVDPGYRGLGLARRMLDEVLARLAREGIGKSHVFVLDAAEEAQAFWRAQSDWERRKDIQVFSTR 4ubz-a1-m5-cA_4ubz-a1-m6-cB Crystal structure of a prion peptide 1.001 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 4ubz-a1-m1-cB_4ubz-a1-m2-cA 4ubz-a1-m3-cA_4ubz-a1-m4-cB GGYLLG GGYLLG 4ubz-a1-m6-cA_4ubz-a1-m6-cB Crystal structure of a prion peptide 1.001 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 4ubz-a1-m1-cA_4ubz-a1-m1-cB 4ubz-a1-m2-cA_4ubz-a1-m2-cB 4ubz-a1-m3-cA_4ubz-a1-m3-cB 4ubz-a1-m4-cA_4ubz-a1-m4-cB 4ubz-a1-m5-cA_4ubz-a1-m5-cB GGYLLG GGYLLG 4uc0-a1-m2-cA_4uc0-a1-m3-cA Crystal Structure Of a purine nucleoside phosphorylase (PSI-NYSGRC-029736) from Agrobacterium vitis B9JYS2 B9JYS2 2.4 X-RAY DIFFRACTION 64 1.0 373 (Agrobacterium vitis) 373 (Agrobacterium vitis) 235 235 4uc0-a1-m1-cA_4uc0-a1-m2-cA 4uc0-a1-m1-cA_4uc0-a1-m3-cA PAVDLLIDRLNGLLPRIAIVLGSGLGGLVDEVENAVRIPFADIPGFPKELVAGLFAGQPIILAGRVHYYEEGDAAARLPIETLASLGVTTLILTNAAGSLRADPPGSVQLIDHINFSGHNPLIGETGDGRFVGTQAYDGELAEARRAADAEDISLSSGVYWFSGPSFETPAEIRARTLGADAVGSTVPEVILARFFGLKVAAASVITNYGAGTDAPIGGRRLVAILKRIVDGGAD PAVDLLIDRLNGLLPRIAIVLGSGLGGLVDEVENAVRIPFADIPGFPKELVAGLFAGQPIILAGRVHYYEEGDAAARLPIETLASLGVTTLILTNAAGSLRADPPGSVQLIDHINFSGHNPLIGETGDGRFVGTQAYDGELAEARRAADAEDISLSSGVYWFSGPSFETPAEIRARTLGADAVGSTVPEVILARFFGLKVAAASVITNYGAGTDAPIGGRRLVAILKRIVDGGAD 4uc4-a1-m1-cA_4uc4-a1-m1-cB Crystal structure of hybrid tudor domain of human lysine demethylase KDM4B O94953 O94953 2.5612 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 AVSLGQVVITKNRNGLYYRCRVIGAASQTCYEVNFDDGSYSDNLYPESITSRDCVQLGPPSEGELVELRWTDGNLYKAKFISSVTSHIYQVEFEDGSQLTVKRGDIFTL AVSLGQVVITKNRNGLYYRCRVIGAASQTCYEVNFDDGSYSDNLYPESITSRDCVQLGPPSEGELVELRWTDGNLYKAKFISSVTSHIYQVEFEDGSQLTVKRGDIFTL 4uco-a1-m1-cA_4uco-a1-m2-cA Fragment bound to H.influenza NAD dependent DNA ligase P43813 P43813 2.5 X-RAY DIFFRACTION 193 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 317 317 4ucr-a1-m1-cA_4ucr-a1-m2-cA 4ucs-a1-m1-cA_4ucs-a1-m2-cA 4uct-a1-m1-cA_4uct-a1-m2-cA 4ucu-a1-m1-cA_4ucu-a1-m2-cA 4ucv-a1-m1-cA_4ucv-a1-m2-cA MTNIQTQLDNLRKTLRQYEYEYHVLDNPSVPDSEYDRLFHQLKALELEHPEFLTSDSPTQRVGAKPLSGFSQIRHEIPMLSLDNAFSDAEFNAFVKRIEDRLILLPKPLTFCCEPKLDGLAVSILYVNGELTQAATRGDGTTGEDITANIRTIRNVPLQLLTDNPPARLEVRGEVFMPHAGFERLNKYALEHNEKTFANPRNAAAGSLRQLDPNITSKRPLVLNAYGIGIAEGVDLPTTHYARLQWLKSIGIPVNPEIRLCNGADEVLGFYRDIQNKRSSLGYDIDGTVLKINDIALQNELGFISKAPRWAIAYKFP MTNIQTQLDNLRKTLRQYEYEYHVLDNPSVPDSEYDRLFHQLKALELEHPEFLTSDSPTQRVGAKPLSGFSQIRHEIPMLSLDNAFSDAEFNAFVKRIEDRLILLPKPLTFCCEPKLDGLAVSILYVNGELTQAATRGDGTTGEDITANIRTIRNVPLQLLTDNPPARLEVRGEVFMPHAGFERLNKYALEHNEKTFANPRNAAAGSLRQLDPNITSKRPLVLNAYGIGIAEGVDLPTTHYARLQWLKSIGIPVNPEIRLCNGADEVLGFYRDIQNKRSSLGYDIDGTVLKINDIALQNELGFISKAPRWAIAYKFP 4ucz-a1-m1-cB_4ucz-a1-m1-cA X-ray structure and activities of an essential Mononegavirales L- protein domain Q91L20 Q91L20 2.99 X-RAY DIFFRACTION 44 0.995 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 375 381 QVIDPTEQLAYFPKITFERLKNYDTSSNYAKGKLTRNYMILLPWQHVNRYNFVFSSTGCKVSLKTCIGKLMKDLNPKVLYFIGEGAGNWMARTACEYPDIKFVYRSLKDDLDHHYPLEYQRVIGELSRIIDSGEGLSMETTDATQKTHWDLIHRVSKDALLITLCDAEFKDRDDFFKMVILWRKHVLSCRICTTYGTDLYLFAKYHAKDCNVKLPFFVRSVATFIMQGSKLSGSECYILLTLGHHNNLPCHGEIQNSKMKIAVCNDFYAAKKLDNKSIEANCKSLLSGLRIPINKKELNRQRRLLTLSKWLTNKANTIIDWLEHILNSPKGELNYDFFEALENTYPNMIKLIDNLGNAEIKKLIKVTGYMLVSKK IDPTEQLAYFPKITFERLKNYDTSSNYAKGKLTRNYMILLPWQHVNRYNFVFSSTGCKVSLKTCIGKLMKDLNPKVLYFIGEGAGNWMARTACEYPDIKFVYRSLKDDLDHHYPLEYQRVIGELSRIIDSGEGLSMETTDATQKTHWDLIHRVSKDALLITLCDAEFKDRDDFFKMVILWRKHVLSCRICTTYGTDLYLFAKYHAKDCNVKLPFFVRSVATFIMQGSKLSGSECYILLTLGHHNNLPCHGEIQNSKMKIAVCNDFYAAKKLDNKSIEANCKSLLSGLRIPINKKELNRQRRLLTLQSNSKVIESKWLTNKANTIIDWLEHILNSPKGELNYDFFEALENTYPNMIKLIDNLGNAEIKKLIKVTGYMLVSKK 4ud0-a1-m1-cB_4ud0-a1-m2-cB X-ray structure and activities of an essential Mononegavirales L- protein domain Q91L20 Q91L20 3.2 X-RAY DIFFRACTION 40 1.0 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 350 350 IDPTEQLAYFPKITFERLTRNYMILLPWQHVNRYNFVFSSTGCKVSLKTCIGKLMKDLNPKVLYFIGEGAGNWMARTACEYPDIKFVYRSLKDDLDHHYPLEYQRVIGELSRIIDSGEGLSMETTDATQKTHWDLIHRVSKDALLITLCDAEFKDRDDFFKMVILWRKHVLSCRICTTYGTDLYLFAKYHAKDCNVKLPFFVRSVATFIMQGSKLSGSECYILLTLGHHNNLPCHGEIQNSKMKIAVANDFYAAKKLDNKSIEANCKSLLSGLRIPINKKEESKWLTNKANTIIDWLEHILNSPKGELNYDFFEALENTYPNMIKLIDNLGNAEIKKLIKVTGYMLVSKK IDPTEQLAYFPKITFERLTRNYMILLPWQHVNRYNFVFSSTGCKVSLKTCIGKLMKDLNPKVLYFIGEGAGNWMARTACEYPDIKFVYRSLKDDLDHHYPLEYQRVIGELSRIIDSGEGLSMETTDATQKTHWDLIHRVSKDALLITLCDAEFKDRDDFFKMVILWRKHVLSCRICTTYGTDLYLFAKYHAKDCNVKLPFFVRSVATFIMQGSKLSGSECYILLTLGHHNNLPCHGEIQNSKMKIAVANDFYAAKKLDNKSIEANCKSLLSGLRIPINKKEESKWLTNKANTIIDWLEHILNSPKGELNYDFFEALENTYPNMIKLIDNLGNAEIKKLIKVTGYMLVSKK 4uds-a1-m1-cA_4uds-a1-m2-cA Crystal structure of MbdR regulator from Azoarcus sp. CIB 1.76 X-RAY DIFFRACTION 187 1.0 198107 (Azoarcus sp. CIB) 198107 (Azoarcus sp. CIB) 183 183 ASTENILGCALDLFVKNGYRATTIDIAARAGLGAIYFYFKTKDAILLLEEAEKYIVDPIDEYANAGPLADAKLVKFINQALLGVTKPQHVLLLILVSIDFSGTGDDIEKRAKAIYRRYGHVEQLIAQGQTEGVFRSDSGSDELASIVAAHDGVLIEWYRRPNELTGKTLTKALRSVLLNGLIV ASTENILGCALDLFVKNGYRATTIDIAARAGLGAIYFYFKTKDAILLLEEAEKYIVDPIDEYANAGPLADAKLVKFINQALLGVTKPQHVLLLILVSIDFSGTGDDIEKRAKAIYRRYGHVEQLIAQGQTEGVFRSDSGSDELASIVAAHDGVLIEWYRRPNELTGKTLTKALRSVLLNGLIV 4udx-a1-m1-cX_4udx-a1-m2-cX CO2 bound to cluster C of Ni,Fe-CO dehydrogenase at true-atomic resolution Q9F8A8 Q9F8A8 1.03 X-RAY DIFFRACTION 322 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 633 633 1su6-a1-m1-cA_1su6-a1-m2-cA 1su7-a1-m1-cA_1su7-a1-m2-cA 1su8-a1-m1-cA_1su8-a1-m2-cA 1suf-a1-m1-cA_1suf-a1-m2-cA 2yiv-a1-m1-cX_2yiv-a1-m2-cX 3b51-a1-m1-cX_3b51-a1-m2-cX 3b52-a1-m1-cX_3b52-a1-m2-cX 3b53-a1-m1-cX_3b53-a1-m2-cX 3i39-a1-m1-cX_3i39-a1-m2-cX 4udy-a1-m1-cX_4udy-a1-m2-cX 5fle-a1-m1-cX_5fle-a1-m2-cX 7err-a1-m1-cA_7err-a1-m2-cA 7xdm-a1-m1-cA_7xdm-a1-m2-cA 7xdn-a1-m1-cA_7xdn-a1-m2-cA 7xdp-a1-m1-cA_7xdp-a1-m2-cA 7zx3-a1-m1-cX_7zx3-a1-m2-cX 7zx5-a1-m1-cX_7zx5-a1-m2-cX 7zx6-a1-m1-cX_7zx6-a1-m2-cX 7zxc-a1-m1-cX_7zxc-a1-m2-cX 7zxj-a1-m1-cX_7zxj-a1-m2-cX 7zxl-a1-m1-cX_7zxl-a1-m2-cX 7zxx-a1-m1-cX_7zxx-a1-m2-cX 7zy1-a1-m1-cX_7zy1-a1-m2-cX QNLKSTDRAVQQMLDKAKREGIQTVWDRYEAMKPQCGFGETGLCCRHCLQGPCRINPFGDEPKVGICGATAEVIVARGLDRSIAAGAAGHSGHAKHLAHTLKKAVQGKAASYMIKDRTKLHSIAKRLGIPTEGQKDEDIALEVAKAALADFHEKDTPVLWVTTVLPPSRVKVLSAHGLIPAGIDHEIAEIMHRTSMGCDADAQNLLLGGLRCSLADLAGCYMGTDLADILFGTPAPVVTESNLGVLKADAVNVAVHGHNPVLSDIIVSVSKEMENEARAAGATGINVVGICCTGNEVLMRHGIPACTHSVSQEMAMITGALDAMILDYQCIQPSVATIAECTGTTVITTMEMSKITGATHVNFAEEAAVENAKQILRLAIDTFKRRKGKPVEIPNIKTKVVAGFSTEAIINALSKLNANDPLKPLIDNVVNGNIRGVCLFAGCNNVKVPQDQNFTTIARKLLKQNVLVVATGCGAGALMRHGFMDPANVDELCGDGLKAVLTAIGEANGLGGPLPPVLHMGSCVDNSRAVALVAALANRLGVDLDRLPVVASAAEAMHEKAVAIGTWAVTIGLPTHIGVLPPITGSLPVTQILTSSVKDITGGYFIVELDPETAADKLLAAINERRAGLGLPW QNLKSTDRAVQQMLDKAKREGIQTVWDRYEAMKPQCGFGETGLCCRHCLQGPCRINPFGDEPKVGICGATAEVIVARGLDRSIAAGAAGHSGHAKHLAHTLKKAVQGKAASYMIKDRTKLHSIAKRLGIPTEGQKDEDIALEVAKAALADFHEKDTPVLWVTTVLPPSRVKVLSAHGLIPAGIDHEIAEIMHRTSMGCDADAQNLLLGGLRCSLADLAGCYMGTDLADILFGTPAPVVTESNLGVLKADAVNVAVHGHNPVLSDIIVSVSKEMENEARAAGATGINVVGICCTGNEVLMRHGIPACTHSVSQEMAMITGALDAMILDYQCIQPSVATIAECTGTTVITTMEMSKITGATHVNFAEEAAVENAKQILRLAIDTFKRRKGKPVEIPNIKTKVVAGFSTEAIINALSKLNANDPLKPLIDNVVNGNIRGVCLFAGCNNVKVPQDQNFTTIARKLLKQNVLVVATGCGAGALMRHGFMDPANVDELCGDGLKAVLTAIGEANGLGGPLPPVLHMGSCVDNSRAVALVAALANRLGVDLDRLPVVASAAEAMHEKAVAIGTWAVTIGLPTHIGVLPPITGSLPVTQILTSSVKDITGGYFIVELDPETAADKLLAAINERRAGLGLPW 4ue0-a1-m1-cB_4ue0-a1-m1-cC Structure of the bovine atadenovirus type 4 fibre head protein Q997H2 Q997H2 1.17 X-RAY DIFFRACTION 66 1.0 70333 (Bovine adenovirus 4) 70333 (Bovine adenovirus 4) 115 115 4ue0-a1-m1-cA_4ue0-a1-m1-cB 4ue0-a1-m1-cA_4ue0-a1-m1-cC TRQGSRVVGFMDFIIALGWQIIPSNIRYIYILNCSQFMPTSDVTTIYFQADSGLESIFVMDSPFYASCTQQLPDKTIKTYGVTISKKQSIISINFSSSLEPNIMVSAWTASITRT TRQGSRVVGFMDFIIALGWQIIPSNIRYIYILNCSQFMPTSDVTTIYFQADSGLESIFVMDSPFYASCTQQLPDKTIKTYGVTISKKQSIISINFSSSLEPNIMVSAWTASITRT 4uej-a1-m1-cA_4uej-a1-m1-cB Closed state of galactitol-1-phosphate 5-dehydrogenase from E. coli in complex with glycerol. P0A9S3 P0A9S3 1.74 X-RAY DIFFRACTION 118 1.0 562 (Escherichia coli) 562 (Escherichia coli) 346 346 4a2c-a1-m1-cA_4a2c-a1-m1-cB 4uek-a1-m1-cA_4uek-a1-m1-cB 4ueo-a1-m1-cA_4ueo-a1-m1-cB MKSVVNDTDGIVRVAESVIPEIKHQDEVRVKIASSGLCGSDLPRIFKNGAHYYPITLGHEFSGYIDAVGSGVDDLHPGDAVACVPLLPCFTCPECLKGFYSQCAKYDFIGSRRDGGFAEYIVVKRKNVFALPTDMPIEDGAFIEPITVGLHAFHLAQGCENKNVIIIGAGTIGLLAIQCAVALGAKSVTAIDISSEKLALAKSFGAMQTFNSSEMSAPQMQSVLRELRFNQLILETAGVPQTVELAVEIAGPHAQLALVGTLHQDLHLTSATFGKILRKELTVIGSWMNYSSPWPGQEWETASRLLTERKLSLEPLIAHRGSFESFAQAVRDIARNAMPGKVLLIP MKSVVNDTDGIVRVAESVIPEIKHQDEVRVKIASSGLCGSDLPRIFKNGAHYYPITLGHEFSGYIDAVGSGVDDLHPGDAVACVPLLPCFTCPECLKGFYSQCAKYDFIGSRRDGGFAEYIVVKRKNVFALPTDMPIEDGAFIEPITVGLHAFHLAQGCENKNVIIIGAGTIGLLAIQCAVALGAKSVTAIDISSEKLALAKSFGAMQTFNSSEMSAPQMQSVLRELRFNQLILETAGVPQTVELAVEIAGPHAQLALVGTLHQDLHLTSATFGKILRKELTVIGSWMNYSSPWPGQEWETASRLLTERKLSLEPLIAHRGSFESFAQAVRDIARNAMPGKVLLIP 4uf1-a1-m1-cA_4uf1-a1-m2-cA Deerpox virus DPV022 in complex with Bak BH3 Q08FX8 Q08FX8 2.3 X-RAY DIFFRACTION 183 1.0 305676 (Deerpox virus W-1170-84) 305676 (Deerpox virus W-1170-84) 135 135 4uf2-a1-m1-cA_4uf2-a1-m2-cA 4uf3-a1-m1-cA_4uf3-a1-m2-cA AAIEFDEIVKKLLNIYINDICTTGEKRLLNNYEKSILDRIYKSCEYIKKNYELDFNSMYNQININNITTSDIKSKIIEALLIDSRPSVKLATLSFISLIAEKWGEKNRAKIMEILSNEIVEKISNNGKDFIDFID AAIEFDEIVKKLLNIYINDICTTGEKRLLNNYEKSILDRIYKSCEYIKKNYELDFNSMYNQININNITTSDIKSKIIEALLIDSRPSVKLATLSFISLIAEKWGEKNRAKIMEILSNEIVEKISNNGKDFIDFID 4ufq-a2-m2-cA_4ufq-a2-m3-cA Structure of a novel Hyaluronidase (Hyal_Sk) from Streptomyces koganeiensis. A0A0U2E2J7 A0A0U2E2J7 1.45 X-RAY DIFFRACTION 591 1.0 1684313 (Streptomyces koganeiensis) 1684313 (Streptomyces koganeiensis) 211 211 4ufq-a1-m1-cB_4ufq-a1-m2-cB 4ufq-a1-m1-cB_4ufq-a1-m3-cB 4ufq-a1-m2-cB_4ufq-a1-m3-cB 4ufq-a2-m1-cA_4ufq-a2-m2-cA 4ufq-a2-m1-cA_4ufq-a2-m3-cA ATTTFDGPVAAERFSADTTLEAAFLKTTSETNHAATIYQAGTSGDGAALNVISDNPGTSAYLSGTETARGTLKITHRGYADGSDKDAAALSLDLRVAGTAAQGIYVTATNGPTKGNLIALRNNTGLDDFVVKGTGRIGVGIDRAATPRAQVHIVQRGDALAALLVEGSVRIGNAATVPTSVDSSGGGALYASGGALLWRGSNGTVTTIAPA ATTTFDGPVAAERFSADTTLEAAFLKTTSETNHAATIYQAGTSGDGAALNVISDNPGTSAYLSGTETARGTLKITHRGYADGSDKDAAALSLDLRVAGTAAQGIYVTATNGPTKGNLIALRNNTGLDDFVVKGTGRIGVGIDRAATPRAQVHIVQRGDALAALLVEGSVRIGNAATVPTSVDSSGGGALYASGGALLWRGSNGTVTTIAPA 4ug1-a1-m1-cA_4ug1-a1-m1-cB GpsB N-terminal domain Q8Y614 Q8Y614 1.6 X-RAY DIFFRACTION 126 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 70 73 GSHMTSEQFEYHLTGKEILEKEFKTGLRGYSPEDVDEFLDMVIKDYSTFTQEIEALQAENIRLVQELDNA GSHMTSEQFEYHLTGKEILEKEFKTGLRGYSPEDVDEFLDMVIKDYSTFTQEIEALQAENIRLVQELDNAPLR 4uhi-a1-m1-cA_4uhi-a1-m1-cD HUMAN STEROL 14-ALPHA DEMETHYLASE (CYP51) IN COMPLEX WITH VFV IN C121 SPACE GROUP Q16850 Q16850 2.04 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 4uhi-a1-m1-cB_4uhi-a1-m1-cC PPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS PPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS 4uhi-a1-m1-cB_4uhi-a1-m1-cD HUMAN STEROL 14-ALPHA DEMETHYLASE (CYP51) IN COMPLEX WITH VFV IN C121 SPACE GROUP Q16850 Q16850 2.04 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 PPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS PPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS 4uhi-a1-m1-cC_4uhi-a1-m1-cD HUMAN STEROL 14-ALPHA DEMETHYLASE (CYP51) IN COMPLEX WITH VFV IN C121 SPACE GROUP Q16850 Q16850 2.04 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 4uhi-a1-m1-cA_4uhi-a1-m1-cB PPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS PPYIFSPIPFLGHAIAFGKSPIEFLENAYEKYGPVFSFTMVGKTFTYLLGSDAAALLFNSKNEDLNAEDVYSRLTTPVFGKGVAYDVPNPVFLEQKKMLKSGLNIAHFKQHVSIIEKETKEYFESWGESGEKNVFEALSELIILTASHCLHGKEIRSQLNEKVAQLYADLDGGFSHAAWLLPGWLPLPSFRRRDRAHREIKDIFYKAIQKRRQSQEKIDDILQTLLDATYKDGRPLTDDEVAGMLIGLLLAGQHTSSTTSAWMGFFLARDKTLQKKCYLEQKTVCGENLPPLTYDQLKDLNLLDRCIKETLRLRPPIMIMMRMARTPQTVAGYTIPPGHQVCVSPTVNQRLKDSWVERLDFNPDRYLQDNPASGEKFAYVPFGAGRHRCIGENFAYVQIKTIWSTMLRLYEFDLIDGYFPTVNYTTMIHTPENPVIRYKRRS 4uhk-a2-m1-cA_4uhk-a2-m2-cA Crystal structure of the receiver domain of CpxR from E. coli (phosphorylated) P0AE88 P0AE88 2.6 X-RAY DIFFRACTION 68 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 129 129 4uhj-a1-m1-cA_4uhj-a1-m2-cA 4uhj-a2-m1-cC_4uhj-a2-m1-cB 4uhk-a1-m1-cB_4uhk-a1-m1-cC NKILLVDDDRELTSLLKELLEMEGFNVIVAHDGEQALDLLDDSIDLLLLVMMPKKNGIDTLKALRQTHQTPVIMLTARGSELDRVLGLELGADDYLPKPFNDRELVARIRAILRRSHWSEQKLAAALEH NKILLVDDDRELTSLLKELLEMEGFNVIVAHDGEQALDLLDDSIDLLLLVMMPKKNGIDTLKALRQTHQTPVIMLTARGSELDRVLGLELGADDYLPKPFNDRELVARIRAILRRSHWSEQKLAAALEH 4uhm-a1-m1-cA_4uhm-a1-m2-cA Characterization of a Novel Transaminase from Pseudomonas sp. Strain AAC 1.33 X-RAY DIFFRACTION 447 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 435 435 DLNLKAHWMPFSANRNFHKDPRIIVAAEGSWLVDDKGRRIYDSLSGLWTCGAGHSRKEIADAVAKQIGTLDYSPGFQYGHPLSFQLAEKIAQMTPGTLDHVFFTGSGSECADTSIKMARAYWRIKGQAQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGPLMDVDHLPHTLQPGMAFTKGAAETGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVIVPPKGYLQRLREICDANDILLIFDEVITAFGRMGKATGAEYFGVTPDIMNVAKQVTNGAVPMGAVIASSEIYDTFMNQNLPEYAVEFGHGYTYSAHPVACAAGIAALDLLQKENLIQQSAELAPHFEKALHGLKGTKNVIDIRNCGLAGAIQIAARDGDAIVRPFEASMKLWKEGFYVRFGGDTLQFGPTFNAKPEDLDRLFDAVGEALNGVA DLNLKAHWMPFSANRNFHKDPRIIVAAEGSWLVDDKGRRIYDSLSGLWTCGAGHSRKEIADAVAKQIGTLDYSPGFQYGHPLSFQLAEKIAQMTPGTLDHVFFTGSGSECADTSIKMARAYWRIKGQAQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGPLMDVDHLPHTLQPGMAFTKGAAETGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVIVPPKGYLQRLREICDANDILLIFDEVITAFGRMGKATGAEYFGVTPDIMNVAKQVTNGAVPMGAVIASSEIYDTFMNQNLPEYAVEFGHGYTYSAHPVACAAGIAALDLLQKENLIQQSAELAPHFEKALHGLKGTKNVIDIRNCGLAGAIQIAARDGDAIVRPFEASMKLWKEGFYVRFGGDTLQFGPTFNAKPEDLDRLFDAVGEALNGVA 4uhn-a1-m1-cA_4uhn-a1-m2-cA Characterization of a Novel Transaminase from Pseudomonas sp. Strain AAC 2.21 X-RAY DIFFRACTION 48 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 433 433 DLNLKAHWMPFSANRNFKDPRIIVAAEGSWLVDDKGRRIYDSLSGLWTCGAGHSRKEIADAVAKQIGTLDYSPGFQYGHPLSFQLAEKIAQMTPGTLDHVFFTGSGSECADTSIKMARAYWRIKGQAQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGPLMDVDHLPHTLQPGMAFTKGAAETGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVIVPPKGYLQRLREICDANDILLIFDEVITAFGRMGKATGAEYFGVTPDIMNVAKQVTNGAVPMGAVIASSEIYDTFMNQNLPEYAVEFGHGYTYSAHPVACAAGIAALDLLQKENLIQQSAELAPFEKALHGLKGTKNVIDIRNCGLAGAIQIAARDGDAIVRPFEASMKLWKEGFYVRFGGDTLQFGPTFNAKPEDLDRLFDAVGEALNGVA DLNLKAHWMPFSANRNFKDPRIIVAAEGSWLVDDKGRRIYDSLSGLWTCGAGHSRKEIADAVAKQIGTLDYSPGFQYGHPLSFQLAEKIAQMTPGTLDHVFFTGSGSECADTSIKMARAYWRIKGQAQKTKLIGRARGYHGVNVAGTSLGGIGGNRKMFGPLMDVDHLPHTLQPGMAFTKGAAETGGVELANELLKLIELHDASNIAAVIVEPMSGSAGVIVPPKGYLQRLREICDANDILLIFDEVITAFGRMGKATGAEYFGVTPDIMNVAKQVTNGAVPMGAVIASSEIYDTFMNQNLPEYAVEFGHGYTYSAHPVACAAGIAALDLLQKENLIQQSAELAPFEKALHGLKGTKNVIDIRNCGLAGAIQIAARDGDAIVRPFEASMKLWKEGFYVRFGGDTLQFGPTFNAKPEDLDRLFDAVGEALNGVA 4uhw-a1-m1-cA_4uhw-a1-m2-cA Human aldehyde oxidase Q06278 Q06278 2.6 X-RAY DIFFRACTION 159 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1288 1288 4uhx-a1-m1-cA_4uhx-a1-m2-cA 5epg-a1-m1-cA_5epg-a1-m2-cA 6q6q-a1-m1-cA_6q6q-a1-m2-cA 7opn-a1-m1-cA_7opn-a1-m1-cB 7orc-a1-m1-cA_7orc-a1-m1-cB 8emt-a1-m1-cB_8emt-a1-m1-cA ASELLFYVNGRKVIEKNVDPETMLLPYLRKKLRLTGTKYGCGGGGCGACTVMISRYNPITKRIRHHPANACLIPICSLYGAAVTTVEGIGSTHTRIHPVQERIAKCHGTQCGFCTPGMVMSIYTLLRNHPEPTLDQLTDALGGNLCRCTGYRPIIDACKTFCKTPKLFAEEEFLPLDPTQELIFPPELMIMAEKQSQRTRVFGSERMMWFSPVTLKELLEFKFKYPQAPVIMGNTSVGPEVKFKGVFHPVIISPDRIEELSVVNHAYNGLTLGAGLSLAQVKDILADVVQKLPEEKTQMYHALLKHLGTLAGSQIRNMASLGGHIISRHPDSDLNPILAVGNCTLNLLSKEGKRQIPLNEQFLSKCPNADLKPQEILVSVNIPYSRKWEFVSAFRQAQRQENALAIVNSGMRVFFGEGDGIIRELCISYGGVGPATICAKNSCQKLIGRHWNEQMLDIACRLILNEVSLLGSAPGGKVEFKRTLIISFLFKFYLEVSQILKKMDPVHYPSLADKYESALEDLHSHHCSTLKYQNPKQHPEDPIGHPIMHLSGVKHATGEAIYCDDMPLVDQELFLTFVTSSRAHAKIVSIDLSEALSMPGVVDIMTAEHLSDVNSFCKFLATDKVFCVGQLVCAVLADSEVQAKRAAKRVKIVYQDLEPLILTIEESIQSFKPERKLEYGNVDEAFKVVDQILEGEIHMGGQEHFYMETQSMLVVPKGEDQEMDVYVSTQFPKYIQDIVASTLKLPANKVMCHVRRVGGAFGGKVLKTGIIAAVTAFAANKHGRAVRCVLERGEDMLITGGRHPYLGKYKAGFMNDGRILALDMEHYSNAGASLSLFVIEMGLLKMDNAYKFPNLRCRGWACRTNLPSNTAFRGFGFPQAALITESCITEVAAKCGLSPEKVRIINMYKEIDQTPYKQEINAKNLIQCWRECMAMSSYSLRKVAVEKFNAENYWKKKGLAMVPLKFPVGLGSRAAGQAAALVHIYLDGSVLVTHGGIEMGQGVHTKMIQVVSRELRMPMSNVHLRGTSTETVPNANISGGSVVADLNGLAVKDACQTLLKRLEPIISKNPKGTWKDWAQTAFDESINLSAVGYFRGYESDMNWEKGEGQPFEYFVYGAACSEVEIDCLTGDHKNIRTDIVMDVGCSINPAIDIGQIEGAFIQGMGLYTIEELNYSPQGILHTRGPDQYKIPAICDMPTELHIALLPPSQNSNTLYSSKGLGESGVFLGCSVFFAIHDAVSAARQERGLHGPLTLNSPLTPEKIRMACEDKFTKMIPRDEPGSYVPWNV ASELLFYVNGRKVIEKNVDPETMLLPYLRKKLRLTGTKYGCGGGGCGACTVMISRYNPITKRIRHHPANACLIPICSLYGAAVTTVEGIGSTHTRIHPVQERIAKCHGTQCGFCTPGMVMSIYTLLRNHPEPTLDQLTDALGGNLCRCTGYRPIIDACKTFCKTPKLFAEEEFLPLDPTQELIFPPELMIMAEKQSQRTRVFGSERMMWFSPVTLKELLEFKFKYPQAPVIMGNTSVGPEVKFKGVFHPVIISPDRIEELSVVNHAYNGLTLGAGLSLAQVKDILADVVQKLPEEKTQMYHALLKHLGTLAGSQIRNMASLGGHIISRHPDSDLNPILAVGNCTLNLLSKEGKRQIPLNEQFLSKCPNADLKPQEILVSVNIPYSRKWEFVSAFRQAQRQENALAIVNSGMRVFFGEGDGIIRELCISYGGVGPATICAKNSCQKLIGRHWNEQMLDIACRLILNEVSLLGSAPGGKVEFKRTLIISFLFKFYLEVSQILKKMDPVHYPSLADKYESALEDLHSHHCSTLKYQNPKQHPEDPIGHPIMHLSGVKHATGEAIYCDDMPLVDQELFLTFVTSSRAHAKIVSIDLSEALSMPGVVDIMTAEHLSDVNSFCKFLATDKVFCVGQLVCAVLADSEVQAKRAAKRVKIVYQDLEPLILTIEESIQSFKPERKLEYGNVDEAFKVVDQILEGEIHMGGQEHFYMETQSMLVVPKGEDQEMDVYVSTQFPKYIQDIVASTLKLPANKVMCHVRRVGGAFGGKVLKTGIIAAVTAFAANKHGRAVRCVLERGEDMLITGGRHPYLGKYKAGFMNDGRILALDMEHYSNAGASLSLFVIEMGLLKMDNAYKFPNLRCRGWACRTNLPSNTAFRGFGFPQAALITESCITEVAAKCGLSPEKVRIINMYKEIDQTPYKQEINAKNLIQCWRECMAMSSYSLRKVAVEKFNAENYWKKKGLAMVPLKFPVGLGSRAAGQAAALVHIYLDGSVLVTHGGIEMGQGVHTKMIQVVSRELRMPMSNVHLRGTSTETVPNANISGGSVVADLNGLAVKDACQTLLKRLEPIISKNPKGTWKDWAQTAFDESINLSAVGYFRGYESDMNWEKGEGQPFEYFVYGAACSEVEIDCLTGDHKNIRTDIVMDVGCSINPAIDIGQIEGAFIQGMGLYTIEELNYSPQGILHTRGPDQYKIPAICDMPTELHIALLPPSQNSNTLYSSKGLGESGVFLGCSVFFAIHDAVSAARQERGLHGPLTLNSPLTPEKIRMACEDKFTKMIPRDEPGSYVPWNV 4uig-a1-m3-cA_4uig-a1-m4-cA Structure of the copper sensitive operon repressor from Streptomyces lividans at pH6 D6EK73 D6EK73 2 X-RAY DIFFRACTION 106 1.0 1916 (Streptomyces lividans) 1916 (Streptomyces lividans) 91 91 4adz-a1-m1-cA_4adz-a1-m2-cA 4adz-a1-m1-cB_4adz-a1-m2-cB 4uig-a1-m1-cA_4uig-a1-m2-cA HGYHKQKAEHLKRLRRIEGQIRGLQRMVDEDVYCIDILTQVSASTKALQSFALQLLEEHLRHCVADAALKGGTEIDAKVEEATKAIGRLLR HGYHKQKAEHLKRLRRIEGQIRGLQRMVDEDVYCIDILTQVSASTKALQSFALQLLEEHLRHCVADAALKGGTEIDAKVEEATKAIGRLLR 4uii-a1-m1-cB_4uii-a1-m1-cA Crystal structure of the Azotobacter vinelandii globin-coupled oxygen sensor in the aquo-met form M9YE33 M9YE33 2.827 X-RAY DIFFRACTION 64 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 126 132 EQQAAEWKLLLGQFPAPVVAQIRELATTHQSELPGYFYELRQWIVSVFSMSDDDAALQALIAQQKQIGEIHARIKIPIHLVLRGARHLRERLFVLLRQRPLDPEHKLFGQRLISETVDLAMEIMSR PEQQAAEWKLLLGQFPAPVVAQIRELATTHQSELPGYFYEQMGTLRQWIVSVFSMSDDDAALQALIAQQKQIGEIHARIKIPIHLVLRGARHLRERLFVLLRQRPLDPEHKLFGQRLISETVDLAMEIMSRA 4uiq-a2-m1-cA_4uiq-a2-m3-cA Isolated globin domain of the Bordetella pertussis globin-coupled sensor with a heme at the dimer interface Q7VTL8 Q7VTL8 1.55 X-RAY DIFFRACTION 84 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 154 154 4uiq-a1-m1-cB_4uiq-a1-m2-cB PEILALRWKDTSAHYSPHEWVAARNVVTANKAALADYFYESMLADPNAAFFLSDQLVKTKLHASMQDWLESVYAAAPTEEYERTVAFQRKVGEVHARIDIPVHLVTRGASALIRRICELLDRDASLSAAQAAATCRYVADVTMTAVEMMSHAYS PEILALRWKDTSAHYSPHEWVAARNVVTANKAALADYFYESMLADPNAAFFLSDQLVKTKLHASMQDWLESVYAAAPTEEYERTVAFQRKVGEVHARIDIPVHLVTRGASALIRRICELLDRDASLSAAQAAATCRYVADVTMTAVEMMSHAYS 4uir-a1-m1-cB_4uir-a1-m1-cA Structure of oleate hydratase from Elizabethkingia meningoseptica C7DLJ6 C7DLJ6 2.75 X-RAY DIFFRACTION 286 0.995 238 (Elizabethkingia meningoseptica) 238 (Elizabethkingia meningoseptica) 634 641 NPITSKFDKVLNASSEYGHVNHEPDSSKEQQRNTPQKSMPFSDQIGNYQRNKGIPVQSYDNSKIYIIGSGIAGMSAAYYFIRDGHVPAKNITFLEQLHIDGGSLDGAGNPTDGYIIREMDMTYENLWDMFQDIPALEMPAPYSVLDEYRLINDNDSNYSKARLINNKGEIKDFSKFGLNKMDQLAIIRLLLKNKEELDDLTIEDYFSESFLKSNFWTFWRTMFAFENWHSLLELKLYMHRFLHAIDGLNDLSSLVFPKYNQYDTFVTPLRKFLQEKGVNIHLNTLVKDLDIHINTEGKVVEGIITEQDGKEVKIPVGKNDYVIVTTGSMTEDTFYGNNKTAPIIGIDNSTSGQSAGWKLWKNLAAKSEIFGKPEKFCSNIEKSAWESATLTCKPSALIDKLKEYSVNDPYSGKTVTGGIITITDSNWLMSFTCNRQPHFPEQPDDVLVLWVYALFMDKEGNYIKKTMLECTGDEILAELCYHLGIEDQLENVQKNTIVRTAFMPYITSMFMPRAKGDRPRVVPEGCKNLGLVGQFVETNNDVVFTMESSVRTARIAVYKLLNLNKQVPDINPLQYDIRHLLKAAKTLNDDKPFVGEGLLRKVLKGTYFEHVLPAGAAEEESFIAEHVNKFREWV NPITSKFDKVLNASSEYGHVNHEPDSSKEQQRNTPQKSMPFSDQIGNYQRNKGIPVQSYDNSKIYIIGSGIAGMSAAYYFIRDGHVPAKNITFLEQLHIDGGSLDGAGNPTDGYIIRGGREMDMTYENLWDMFQDIPALEMPAPYSVLDEYRLINDNDSNYSKARLINNKGEIKDFSKFGLNKMDQLAIIRLLLKNKEELDDLTIEDYFSESFLKSNFWTFWRTMFAFENWHSLLELKLYMHRFLHAIDGLNDLSSLVFPKYNQYDTFVTPLRKFLQEKGVNIHLNTLVKDLDIHINTEGKVVEGIITEQDGKEVKIPVGKNDYVIVTTGSMTEDTFYGNNKTAPIIGIDNSTSGQSAGWKLWKNLAAKSEIFGKPEKFCSNIEKSAWESATLTCKPSALIDKLKEYSVNDPYSGKTVTGGIITITDSNWLMSFTCNRQPHFPEQPDDVLVLWVYALFMDKEGNYIKKTMLECTGDEILAELCYHLGIEDQLENVQKNTIVRTAFMPYITSMFMPRAKGDRPRVVPEGCKNLGLVGQFVETNNDVVFTMESSVRTARIAVYKLLNLNKQVPDINPLQYDIRHLLKAAKTLNDDKPFVGEGLLRKVLKGTYFEHVLPAGEEHESFIAEHVNKFREWVKGIRG 4uj4-a3-m1-cC_4uj4-a3-m3-cL Crystal structure of human Rab11-Rabin8-FIP3 O75154 O75154 4.2 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 38 4uj4-a1-m1-cF_4uj4-a1-m1-cI 4uj4-a2-m2-cC_4uj4-a2-m1-cL LMEAIQKQEEINFRLQDYIDRIIVAIMETNPSILEV ELMEAIQKQEEINFRLQDYIDRIIVAIMETNPSILEVK 4ulv-a1-m1-cA_4ulv-a1-m1-cB Cytochrome c prime from Shewanella frigidimarina Q07Z15 Q07Z15 1.29 X-RAY DIFFRACTION 37 1.0 56812 (Shewanella frigidimarina) 56812 (Shewanella frigidimarina) 128 128 4cx9-a1-m1-cA_4cx9-a1-m1-cB NFEEPADAIEYRQAAFGLIAYNFGDMGAMLKGKKPFDAAVFSTRADNVAALSKIPHEGFIAGSDKGDTEALAKIWQDKADFDSKMTAFQDNAAALAVAAKSSDQNNIKQAFANTGKSCKGCHDVYKKD NFEEPADAIEYRQAAFGLIAYNFGDMGAMLKGKKPFDAAVFSTRADNVAALSKIPHEGFIAGSDKGDTEALAKIWQDKADFDSKMTAFQDNAAALAVAAKSSDQNNIKQAFANTGKSCKGCHDVYKKD 4umj-a1-m1-cA_4umj-a1-m1-cB Native structure of Farnesyl Pyrophosphate Synthase from Pseudomonas aeruginosa PA01, with bound ibandronic acid molecules. Q9HWY4 Q9HWY4 1.85 X-RAY DIFFRACTION 156 0.993 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 269 273 3zcd-a1-m1-cB_3zcd-a1-m1-cA 3zl6-a1-m1-cA_3zl6-a1-m1-cB 3zmb-a1-m1-cB_3zmb-a1-m1-cA 3zmc-a1-m1-cA_3zmc-a1-m1-cB 3zou-a1-m1-cB_3zou-a1-m1-cA IAAYQARCQARVDAALDALFVAPREELQRLYEAMRYSVMNGGKRVRPLLAYAACEALGGAPQRADAAACAVELIHAYSLVHDDLPAMDDDDLRRGQPTTHRAFDEATAILAADGLQALAFEVLADTRRNPQEHAVCLEMLTRLARAAGSAGMVGGQAIDLGSLDQAALEVMHRHKTGALIEASVRLGALASGRAEPASLAALERYAEAIGLAFQVQDDILDVPTYPALLGLEAAKGYALELRDLALAALDGFPPSADPLRQLARYIVER SMIAAYQARCQARVDAALDALFVAPREELQRLYEAMRYSVMNGGKRVRPLLAYAACEALGGAPQRADAAACAVELIHAYSLVHDDLPAMDDDDLRRGQPTTHRAFDEATAILAADGLQALAFEVLADTRRNPQEHAVCLEMLTRLARAAGSAGMVGGQAIDLGSVGVALDQAALEVMHRHKTGALIEASVRLGALASGRAEPASLAALERYAEAIGLAFQVQDDILDVPTYPALLGLEAAKGYALELRDLALAALDGFPPSADPLRQLARYIV 4umk-a2-m1-cD_4umk-a2-m1-cB The complex of Spo0J and parS DNA in chromosomal partition system O25758 O25758 3.096 X-RAY DIFFRACTION 46 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 176 183 4umk-a1-m1-cA_4umk-a1-m1-cC VFSEDSLEELAQSIKEHGLLQPVLVVSENGRYHLIAGERRLRASKLAKMPTIKAIVVDIEQEKMREVALIENIQREDLNPLELARSYKELLESYQMTQEELSKIVKKSRAHVANIMRLLTLSSKVQNALLEEKITSGHAKVLVGLDGEKQELILNSIIGQKLSVRQTEDLARDFKI PYQPRKVFSEDSLEELAQSIKEHGLLQPVLVVSENGRYHLIAGERRLRASKLAKMPTIKAIVVDIEQEKMREVALIENIQREDLNPLELARSYKELLESYQMTQEELSKIVKKSRAHVANIMRLLTLSSKVQNALLEEKITSGHAKVLVGLDGEKQELILNSIIGQKLSVRQTEDLARDFKIN 4une-a3-m2-cD_4une-a3-m1-cB Human insulin B26Phe mutant crystal structure P01308 P01308 1.59 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 29 30 1b9e-a1-m1-cB_1b9e-a1-m1-cD FVNQHLCGSHLVEALYLVCGERGFFFTPK FVNQHLCGSHLVEALYLVCGERGFFFTPKT 4uoh-a1-m1-cA_4uoh-a1-m2-cA Crystallographic structure of nucleoside diphosphate kinase from Litopenaeus vannamei complexed with ADP A5J299 A5J299 2.007 X-RAY DIFFRACTION 73 1.0 6689 (Penaeus vannamei) 6689 (Penaeus vannamei) 128 128 MVRERTFIAVKPDGVQRGLIGEIIKRFEAKGFKLAGMKYIQASMSSGPVVAMCWEGTGVVKTARVMMGETRPADSKPGTIRGDFCIEVGRNIIHGSDSVESANKEIALWFKPEELVSWTQTNESWIYE MVRERTFIAVKPDGVQRGLIGEIIKRFEAKGFKLAGMKYIQASMSSGPVVAMCWEGTGVVKTARVMMGETRPADSKPGTIRGDFCIEVGRNIIHGSDSVESANKEIALWFKPEELVSWTQTNESWIYE 4uoh-a1-m2-cA_4uoh-a1-m2-cC Crystallographic structure of nucleoside diphosphate kinase from Litopenaeus vannamei complexed with ADP A5J299 A5J299 2.007 X-RAY DIFFRACTION 51 1.0 6689 (Penaeus vannamei) 6689 (Penaeus vannamei) 128 151 4uoh-a1-m1-cA_4uoh-a1-m1-cB 4uoh-a1-m1-cA_4uoh-a1-m1-cC 4uoh-a1-m2-cA_4uoh-a1-m2-cB MVRERTFIAVKPDGVQRGLIGEIIKRFEAKGFKLAGMKYIQASMSSGPVVAMCWEGTGVVKTARVMMGETRPADSKPGTIRGDFCIEVGRNIIHGSDSVESANKEIALWFKPEELVSWTQTNESWIYE MVRERTFIAVKPDGVQRGLIGEIIKRFEAKGFKLAGMKYIQASEDLLKQHYIDLADKPFYPGLCKYMSSGPVVAMCWEGTGVVKTARVMMGETRPADSKPGTIRGDFCIEVGRNIIHGSDSVESANKEIALWFKPEELVSWTQTNESWIYE 4uoi-a4-m3-cB_4uoi-a4-m1-cF Unexpected structure for the N-terminal domain of Hepatitis C virus envelope glycoprotein E1 H9XGD6 H9XGD6 3.49 X-RAY DIFFRACTION 126 1.0 63746 (Hepatitis C virus (isolate H77)) 63746 (Hepatitis C virus (isolate H77)) 72 75 4uoi-a3-m1-cB_4uoi-a3-m2-cF YQVRNSSGLYHVTNDCPNSSVVYEAADAILHTPGCVPCVREGQASRCWVAVTPLRRHIDLLVGSATENLYFQ GYQVRNSSGLYHVTNDCPNSSVVYEAADAILHTPGCVPCVREGQASRCWVAVTPTQLRRHIDLLVGSATENLYFQ 4uop-a1-m1-cA_4uop-a1-m1-cB Crystal structure of the lipoteichoic acid synthase LtaP from Listeria monocytogenes Q8Y989 Q8Y989 1.75 X-RAY DIFFRACTION 41 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 408 409 ITAKNVNDIKGVSVKSNPDYFGAAKGKNLIIVQLESFQRNLTNVKINGQSITPTLDGLQNETMYSNQFFQTVSKSNTADAEWSVYTSTFPSGYYTNTQTYGDRVIPSMPRLLGKNDYKTATFHTNDASFYNRDEFYPAVGFDKFYDRKFFGDEDVIGFSPSDEVLYNKAFPILEEQYKNNQKFYAQLISVSSHMPFDIPKDKQEIDLPSDLKDTELGNYFEAVHYADKQLGEFIQKLKDSGIWDDSVVVFYGDHHIIKTDQLPEEQKKYVNRSTQLKAEPADDYRIPFFLHYPGMENPGEIKNVGGEIDIMPTVMNLLGIKTGDQIMFGTDILNSSNNYVPERYTMPEGSYFTNSYMYQPDESFETGAATNYDGTNKELSSDVKKRFDASRKLLQYSDSYVNNLPLRN DITAKNVNDIKGVSVKSNPDYFGAAKGKNLIIVQLESFQRNLTNVKINGQSITPTLDGLQNETMYSNQFFQTVSKSNTADAEWSVYTSTFPSGYYTNTQTYGDRVIPSMPRLLGKNDYKTATFHTNDASFYNRDEFYPAVGFDKFYDRKFFGDEDVIGFSPSDEVLYNKAFPILEEQYKNNQKFYAQLISVSSHMPFDIPKDKQEIDLPSDLKDTELGNYFEAVHYADKQLGEFIQKLKDSGIWDDSVVVFYGDHHIIKTDQLPEEQKKYVNRSTQLKAEPADDYRIPFFLHYPGMENPGEIKNVGGEIDIMPTVMNLLGIKTGDQIMFGTDILNSSNNYVPERYTMPEGSYFTNSYMYQPDESFETGAATNYDGTNKELSSDVKKRFDASRKLLQYSDSYVNNLPLRN 4uot-a1-m1-cD_4uot-a1-m1-cE Thermodynamic hyperstability in parametrically designed helical bundles 1.69 X-RAY DIFFRACTION 45 1.0 32630 (synthetic construct) 32630 (synthetic construct) 33 33 4uot-a1-m1-cA_4uot-a1-m1-cB 4uot-a1-m1-cA_4uot-a1-m1-cE 4uot-a1-m1-cB_4uot-a1-m1-cC 4uot-a1-m1-cC_4uot-a1-m1-cD 6g6h-a1-m1-cA_6g6h-a1-m1-cE TQEYLLKEIMKLLKEQIKLLKEQIKMLKELEKQ TQEYLLKEIMKLLKEQIKLLKEQIKMLKELEKQ 4uoz-a1-m1-cB_4uoz-a1-m1-cC beta-(1,6)-galactosidase from Bifidobacterium animalis subsp. lactis Bl-04 nucleophile mutant E324A in complex with galactose 2.3 X-RAY DIFFRACTION 203 1.0 580050 (Bifidobacterium animalis subsp. lactis Bl-04) 580050 (Bifidobacterium animalis subsp. lactis Bl-04) 688 688 4uni-a1-m1-cB_4uni-a1-m1-cA 4uni-a1-m1-cC_4uni-a1-m1-cA 4uni-a1-m1-cC_4uni-a1-m1-cB 4uoq-a1-m1-cA_4uoq-a1-m1-cB 4uoq-a1-m1-cC_4uoq-a1-m1-cA 4uoq-a1-m1-cC_4uoq-a1-m1-cB 4uoz-a1-m1-cA_4uoz-a1-m1-cB 4uoz-a1-m1-cA_4uoz-a1-m1-cC RAHRWPQPLPGNDRKIWFGADYNPDQWPEDVQDEDIRLMKQAGVNIVSLAIFSWANIETSDGNFEFDWLDRVIDKLYKAGIAVDLASATASPPMWLTSAHPEVLRRDEQGHVIWPGARQHWRPTSPTFRTYALRLCREMAEHYKDNPAIVSWHVGNEYGCHNYFDYSDDAVQAFREWCRDRYGTIDKVNAAWGTNFWSQRLNSFEEILPPRYVGGEGNFTNPGRLLDFKHFCSDALKEFFCAERDVLSEVTPNIPLTTNFMVSASQNTLDYDDWAHEVDFVSNDHYFTPGSWHIDELAYSASLVDGISRKKPWFLMAQSTSAVNWREINPRKEPGELIRDSMLHLAMGADAICYFQWRQSRSGAEKFHSAMLPLAGEHSQIYRDVCALGADLDTLSDAGILRSKLSKARVAIVQDIQSEWATEHTATPTQHIREWTEPLDWFAAFANRGVTADVTPIHAQWDTYDAVVIPCVYLFSEEMAERLRTFVRNGGKAFVTYYSALADEHDRLHTEGWPGLIGDVVGVRIEEHCPLGTLFPGMLDHLDVSNGTVVHDLADVIDAIADDTTVLATFEADPATGMDGRAAITVHPYHEGGVAYIAGKLGRDGISQSLPEICAALGFELDADPRAGDVLRVVREQEDGAIFEFLFNRTRNTVTADRPAGDMLICSLATDSTDKVTLEPNGVLAFRR RAHRWPQPLPGNDRKIWFGADYNPDQWPEDVQDEDIRLMKQAGVNIVSLAIFSWANIETSDGNFEFDWLDRVIDKLYKAGIAVDLASATASPPMWLTSAHPEVLRRDEQGHVIWPGARQHWRPTSPTFRTYALRLCREMAEHYKDNPAIVSWHVGNEYGCHNYFDYSDDAVQAFREWCRDRYGTIDKVNAAWGTNFWSQRLNSFEEILPPRYVGGEGNFTNPGRLLDFKHFCSDALKEFFCAERDVLSEVTPNIPLTTNFMVSASQNTLDYDDWAHEVDFVSNDHYFTPGSWHIDELAYSASLVDGISRKKPWFLMAQSTSAVNWREINPRKEPGELIRDSMLHLAMGADAICYFQWRQSRSGAEKFHSAMLPLAGEHSQIYRDVCALGADLDTLSDAGILRSKLSKARVAIVQDIQSEWATEHTATPTQHIREWTEPLDWFAAFANRGVTADVTPIHAQWDTYDAVVIPCVYLFSEEMAERLRTFVRNGGKAFVTYYSALADEHDRLHTEGWPGLIGDVVGVRIEEHCPLGTLFPGMLDHLDVSNGTVVHDLADVIDAIADDTTVLATFEADPATGMDGRAAITVHPYHEGGVAYIAGKLGRDGISQSLPEICAALGFELDADPRAGDVLRVVREQEDGAIFEFLFNRTRNTVTADRPAGDMLICSLATDSTDKVTLEPNGVLAFRR 4up3-a1-m1-cA_4up3-a1-m1-cB Crystal structure of the mutant C140S,C286Q thioredoxin reductase from Entamoeba histolytica C4LW95 C4LW95 1.44 X-RAY DIFFRACTION 94 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 312 312 4a5l-a1-m1-cB_4a5l-a1-m1-cA 4a65-a1-m1-cA_4a65-a1-m1-cB 4cbq-a1-m1-cA_4cbq-a1-m1-cB 4ccq-a1-m1-cB_4ccq-a1-m1-cA NIHDVVIIGSGPAAHTAAIYLGRSSLKPVMYEGFMAGGVAAGGQLTTTTIIENFPGFPNGIDGNELMMNMRTQSEKYGTTIITETIDHVDFSTQPFKLFTEEGKEVLTKSVIIATGATAKRMHVPGEDKYWQNGVSASAICDGAVPIFRNKVLMVVGGGDAAMEEALHLTKYGSKVIILHRRDAFRASKTMQERVLNHPKIEVIWNSELVELEGDGDLLNGAKIHNLVSGEYKVVPVAGLFYAIGHSPNSKFLGGQVKTADDGYILTEGPKTSVDGVFACGDVQDRVYRQAIVAAGSGCMAALSCEKWLQTH NIHDVVIIGSGPAAHTAAIYLGRSSLKPVMYEGFMAGGVAAGGQLTTTTIIENFPGFPNGIDGNELMMNMRTQSEKYGTTIITETIDHVDFSTQPFKLFTEEGKEVLTKSVIIATGATAKRMHVPGEDKYWQNGVSASAICDGAVPIFRNKVLMVVGGGDAAMEEALHLTKYGSKVIILHRRDAFRASKTMQERVLNHPKIEVIWNSELVELEGDGDLLNGAKIHNLVSGEYKVVPVAGLFYAIGHSPNSKFLGGQVKTADDGYILTEGPKTSVDGVFACGDVQDRVYRQAIVAAGSGCMAALSCEKWLQTH 4up8-a1-m1-cA_4up8-a1-m2-cA Crystal structure of Entamoeba histolytica lysyl-tRNA synthetase apo form C4M7X2 C4M7X2 2.896 X-RAY DIFFRACTION 284 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 580 580 HHHMLSKQLFLNRCKDVEEYQKAGHNPWPHKFNVSITVPEFIAKYSGLEKSQVSDDIVSVAGRVLSKRSSSSALMFIDLHDSQTKLQIMLNKSAYENKEDFVSLTKMIYRGDICGFTGHPTRTKTGELSLIPISGMILSPCLHMLPSMHYGLGDQETRFRKRYLDLIVNPESVKNFVLRTKVVKAVRKYLDDKGFLEVETPILNTIPGGATARPFITHHNQLDIQMYMRIAPELYLKELVVGGINRVYEIGRLFRNEGIDQTHNPEFTTCEFYMAYADYNDIMKMTEELLGNMVKDITGGSTKLEIKDRLMDINNEEDIKMLEKFFKEPIPRPFNSAECSKVIEKHCTELNYYYDGNNEKAMKKLFADFVTEKKMVLDFTAPFKRISYVHALEEKFGEKIPRPLDGPEALTFLKKQAIRFNAICAEPQTTARVMDKLFGDLIEVDLVQPTFVCDQPQLMSPLAKYHRSEPELTERFELFILKREIANAYTELNNPIVQRSNFEQQAKDKALVDEVFLDAIEHAFPPTGGWGLGIDRLAMLLADVDNIKEVILFPTMRPEDELEKKAREAKEDAMVAQEKA HHHMLSKQLFLNRCKDVEEYQKAGHNPWPHKFNVSITVPEFIAKYSGLEKSQVSDDIVSVAGRVLSKRSSSSALMFIDLHDSQTKLQIMLNKSAYENKEDFVSLTKMIYRGDICGFTGHPTRTKTGELSLIPISGMILSPCLHMLPSMHYGLGDQETRFRKRYLDLIVNPESVKNFVLRTKVVKAVRKYLDDKGFLEVETPILNTIPGGATARPFITHHNQLDIQMYMRIAPELYLKELVVGGINRVYEIGRLFRNEGIDQTHNPEFTTCEFYMAYADYNDIMKMTEELLGNMVKDITGGSTKLEIKDRLMDINNEEDIKMLEKFFKEPIPRPFNSAECSKVIEKHCTELNYYYDGNNEKAMKKLFADFVTEKKMVLDFTAPFKRISYVHALEEKFGEKIPRPLDGPEALTFLKKQAIRFNAICAEPQTTARVMDKLFGDLIEVDLVQPTFVCDQPQLMSPLAKYHRSEPELTERFELFILKREIANAYTELNNPIVQRSNFEQQAKDKALVDEVFLDAIEHAFPPTGGWGLGIDRLAMLLADVDNIKEVILFPTMRPEDELEKKAREAKEDAMVAQEKA 4upa-a1-m1-cA_4upa-a1-m2-cA Crystal structure of Entamoeba histolytica lysyl-tRNA synthetase in complex with AMPPNP C4M7X2 C4M7X2 2.901 X-RAY DIFFRACTION 283 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 515 515 4up7-a1-m1-cA_4up7-a1-m2-cA 4up9-a1-m1-cA_4up9-a1-m2-cA HHHMLSKQLFLNRCKDVEEYQKAGHNPWPHKFNVSITVPEFIAKYSGLEKSQVSDDIVSVAGRVLSKRSSSSALMFIDLHDSQTKLQIMLNKSAYENKEDFVSLTKMIYRGDICGFTGHPTRTKTGELSLIPISGMILSPCLHMLPSMHYGLGDQETRFRKRYLDLIVNPESVKNFVLRTKVVKAVRKYLDDKGFLEVETPILNTIPGGATARPFITHHNQLDIQMYMRIAPELYLKELVVGGINRVYEIGRLFRNEGIDQTHNPEFTTCEFYMAYADYNDIMKMTEELLGNMVKDITGGSTKLEIKKKMVLDFTAPFKRISYVHALEEKFGEKIPRPLDGPEALTFLKKQAIRFNAICAEPQTTARVMDKLFGDLIEVDLVQPTFVCDQPQLMSPLAKYHRSEPELTERFELFILKREIANAYTELNNPIVQRSNFEQQAKDKALVDEVFLDAIEHAFPPTGGWGLGIDRLAMLLADVDNIKEVILFPTMRPEDELEKKAREAKEDAMVAQEKA HHHMLSKQLFLNRCKDVEEYQKAGHNPWPHKFNVSITVPEFIAKYSGLEKSQVSDDIVSVAGRVLSKRSSSSALMFIDLHDSQTKLQIMLNKSAYENKEDFVSLTKMIYRGDICGFTGHPTRTKTGELSLIPISGMILSPCLHMLPSMHYGLGDQETRFRKRYLDLIVNPESVKNFVLRTKVVKAVRKYLDDKGFLEVETPILNTIPGGATARPFITHHNQLDIQMYMRIAPELYLKELVVGGINRVYEIGRLFRNEGIDQTHNPEFTTCEFYMAYADYNDIMKMTEELLGNMVKDITGGSTKLEIKKKMVLDFTAPFKRISYVHALEEKFGEKIPRPLDGPEALTFLKKQAIRFNAICAEPQTTARVMDKLFGDLIEVDLVQPTFVCDQPQLMSPLAKYHRSEPELTERFELFILKREIANAYTELNNPIVQRSNFEQQAKDKALVDEVFLDAIEHAFPPTGGWGLGIDRLAMLLADVDNIKEVILFPTMRPEDELEKKAREAKEDAMVAQEKA 4uph-a2-m1-cB_4uph-a2-m1-cD Crystal Structure of Phosphonate Monoester Hydrolase of Agrobacterium radiobacter B9JE48 B9JE48 2.5 X-RAY DIFFRACTION 187 1.0 311403 (Agrobacterium radiobacter K84) 311403 (Agrobacterium radiobacter K84) 503 503 4uph-a1-m1-cA_4uph-a1-m1-cC RPNVLLISADQWRGDCLSAVGHASVKTPNVDALAQDGVLFTRHFAGTAPSPARATLYTGLYQMNHRVCRNGSPLDARFDNLALAARRGGYDPTLFGYTDTAPDPRGMDPNDPHLTTYEGVLPGFSARQLLPEHEKQWLSWLRSRGHPEATSRDIHIPVGATPGEISDVAPAYSKDETQTAFLAGEFIRWLGEQDAPWFAHVSFLRPHPPFSVPEPYNRMFTPSDGPAFARAANREAEQAVHPLLAFALPLIGKDSFIYGGEGSASDWTSEDLSAIRAIYYGMIAEVDTQLGRIWQALKNVGAWDDTLIIFTSDHAEMMGDHWMLGKGGFFDGSYHVPLVIRDPGHPGGAGRQVERFTSAADIFPTLCDRLGLVPDNHLDGGTLVPFLEGGEPEGWRDAAFWEFDFRDIAKGEAERHFGLKSNACNLAVIRDERFKYVHFAGLPPLLYDLAKDPMELTNVAADADYAAVRLGYAEKLLSLRAQHLDQTLAYTELTEKGPVSRRP RPNVLLISADQWRGDCLSAVGHASVKTPNVDALAQDGVLFTRHFAGTAPSPARATLYTGLYQMNHRVCRNGSPLDARFDNLALAARRGGYDPTLFGYTDTAPDPRGMDPNDPHLTTYEGVLPGFSARQLLPEHEKQWLSWLRSRGHPEATSRDIHIPVGATPGEISDVAPAYSKDETQTAFLAGEFIRWLGEQDAPWFAHVSFLRPHPPFSVPEPYNRMFTPSDGPAFARAANREAEQAVHPLLAFALPLIGKDSFIYGGEGSASDWTSEDLSAIRAIYYGMIAEVDTQLGRIWQALKNVGAWDDTLIIFTSDHAEMMGDHWMLGKGGFFDGSYHVPLVIRDPGHPGGAGRQVERFTSAADIFPTLCDRLGLVPDNHLDGGTLVPFLEGGEPEGWRDAAFWEFDFRDIAKGEAERHFGLKSNACNLAVIRDERFKYVHFAGLPPLLYDLAKDPMELTNVAADADYAAVRLGYAEKLLSLRAQHLDQTLAYTELTEKGPVSRRP 4upi-a1-m1-cA_4upi-a1-m2-cA Dimeric sulfatase SpAS1 from Silicibacter pomeroyi Q5LLA5 Q5LLA5 1.25 X-RAY DIFFRACTION 212 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 547 547 NRNILWIMCDQLRFDYLSCYGHERLNTPNIDKLAKRGVRFTNAYVQATVGPSRMSAYTGRYVRSHGSTQNGIPLRVGEPTLGDHLRDVGMRNVLIGKTHMRPDLDGMKRLGIDPDSEIGARVGEGGFDAFDRDDGVHPTGYRKKEPAYNDYLRHAGFQAENPWEFWANSAEGKGGENQSGWLLTHADKPARVPEEHSETAYMTRRAMEFMEAAEKDGRPWCAHLSYIKPHWPYIVPAPYHDMFGPDDVKPAVRSDEELKAAHPLFKAMTEEVYSRNFARDEVREKVIPAYMGLIKQIDDQLGQLFAFMQERGLDENTMIVFTADHGDYLGDHWMGEKYLFYEAAAKVPLIIYDPSDKADATRGTVSDALVEMIDLAPTFVDYAGGVPPMHILEGKSLLPLLHDDDSSWDRQYVFSELDYSNLPARLKLGRDIQDCRATMVFDGRYKLVEVMGFAPILFDLEVDPDELKDLGRDPSAEEVRQRLTSALDAWHRNTRQRITKSDAAYRALDPVLRESDPDLMAGVIIGYWDEDEVEAEKRRIARILGEN NRNILWIMCDQLRFDYLSCYGHERLNTPNIDKLAKRGVRFTNAYVQATVGPSRMSAYTGRYVRSHGSTQNGIPLRVGEPTLGDHLRDVGMRNVLIGKTHMRPDLDGMKRLGIDPDSEIGARVGEGGFDAFDRDDGVHPTGYRKKEPAYNDYLRHAGFQAENPWEFWANSAEGKGGENQSGWLLTHADKPARVPEEHSETAYMTRRAMEFMEAAEKDGRPWCAHLSYIKPHWPYIVPAPYHDMFGPDDVKPAVRSDEELKAAHPLFKAMTEEVYSRNFARDEVREKVIPAYMGLIKQIDDQLGQLFAFMQERGLDENTMIVFTADHGDYLGDHWMGEKYLFYEAAAKVPLIIYDPSDKADATRGTVSDALVEMIDLAPTFVDYAGGVPPMHILEGKSLLPLLHDDDSSWDRQYVFSELDYSNLPARLKLGRDIQDCRATMVFDGRYKLVEVMGFAPILFDLEVDPDELKDLGRDPSAEEVRQRLTSALDAWHRNTRQRITKSDAAYRALDPVLRESDPDLMAGVIIGYWDEDEVEAEKRRIARILGEN 4upl-a1-m1-cC_4upl-a1-m1-cA Dimeric sulfatase SpAS2 from Silicibacter pomeroyi Q5LMH0 Q5LMH0 1.805 X-RAY DIFFRACTION 365 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 553 555 VMNILFIMFDQLRWDYLSCYGHKTLNTPHIDRLAAKGVRFDRAYIQSPICGSSRMSTYTGRYVHSHGASWNGIPLKVGEMTMGDHLRAAGMGCWLVGKTHMRADEEGMARLGLEPDSLIGARVAECGFDVFERDDGMLPEGPDGYYDPDGAKEYNKFLRAKGYESDNPWHDFANSGLDDEGNVQSGWFLKNATRPANIAEEDSETPYLTSRAMEFIEQQTGPWCCHLSYIKPHWPYIVPEPYASMFGPEHVQDVVRSDSERQNAHPLFKAFMDTKVGEAFSRQEVRDAVIPAYMGLIKQADDQMGRLFKWLEDTGRMQDTMIVLTSDHGDFLGDHWMGEKTFFHDASTRVPLIIYDPRPEADATRGSVCDALVESIDLAPTFVEAAGGKPAMHILEGESLIPILHGARDHTLRDHVICEYDFSASPIAHLNDISVRQAVMFMVADKNWKLIHFEADPRPMLFDLKNDPQELVDLGGDPAHADVIAGMYDKLFRWTRRQSQRTTRSEEQLIAMRTKSRKRGIVLGIYDENETPLELTVKYRDRKARPYKDYLKG TAVMNILFIMFDQLRWDYLSCYGHKTLNTPHIDRLAAKGVRFDRAYIQSPICGSSRMSTYTGRYVHSHGASWNGIPLKVGEMTMGDHLRAAGMGCWLVGKTHMRADEEGMARLGLEPDSLIGARVAECGFDVFERDDGMLPEGPDGYYDPDGAKEYNKFLRAKGYESDNPWHDFANSGLDDEGNVQSGWFLKNATRPANIAEEDSETPYLTSRAMEFIEQQTGPWCCHLSYIKPHWPYIVPEPYASMFGPEHVQDVVRSDSERQNAHPLFKAFMDTKVGEAFSRQEVRDAVIPAYMGLIKQADDQMGRLFKWLEDTGRMQDTMIVLTSDHGDFLGDHWMGEKTFFHDASTRVPLIIYDPRPEADATRGSVCDALVESIDLAPTFVEAAGGKPAMHILEGESLIPILHGARDHTLRDHVICEYDFSASPIAHLNDISVRQAVMFMVADKNWKLIHFEADPRPMLFDLKNDPQELVDLGGDPAHADVIAGMYDKLFRWTRRQSQRTTRSEEQLIAMRTKSRKRGIVLGIYDENETPLELTVKYRDRKARPYKDYLKG 4upu-a1-m14-cA_4upu-a1-m9-cA Crystal structure of IP3 3-K calmodulin binding region in complex with Calmodulin P0DP23 P0DP23 2.34 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 145 4upu-a1-m10-cA_4upu-a1-m16-cA 4upu-a1-m10-cA_4upu-a1-m19-cA 4upu-a1-m11-cA_4upu-a1-m21-cA 4upu-a1-m11-cA_4upu-a1-m3-cA 4upu-a1-m12-cA_4upu-a1-m22-cA 4upu-a1-m12-cA_4upu-a1-m2-cA 4upu-a1-m13-cA_4upu-a1-m14-cA 4upu-a1-m13-cA_4upu-a1-m9-cA 4upu-a1-m15-cA_4upu-a1-m20-cA 4upu-a1-m15-cA_4upu-a1-m5-cA 4upu-a1-m16-cA_4upu-a1-m19-cA 4upu-a1-m17-cA_4upu-a1-m23-cA 4upu-a1-m17-cA_4upu-a1-m4-cA 4upu-a1-m18-cA_4upu-a1-m6-cA 4upu-a1-m1-cA_4upu-a1-m18-cA 4upu-a1-m1-cA_4upu-a1-m6-cA 4upu-a1-m20-cA_4upu-a1-m5-cA 4upu-a1-m21-cA_4upu-a1-m3-cA 4upu-a1-m23-cA_4upu-a1-m4-cA 4upu-a1-m24-cA_4upu-a1-m7-cA 4upu-a1-m24-cA_4upu-a1-m8-cA 4upu-a1-m2-cA_4upu-a1-m22-cA 4upu-a1-m7-cA_4upu-a1-m8-cA QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA 4upu-a1-m20-cA_4upu-a1-m9-cA Crystal structure of IP3 3-K calmodulin binding region in complex with Calmodulin P0DP23 P0DP23 2.34 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 145 4upu-a1-m10-cA_4upu-a1-m4-cA 4upu-a1-m11-cA_4upu-a1-m14-cA 4upu-a1-m12-cA_4upu-a1-m15-cA 4upu-a1-m13-cA_4upu-a1-m18-cA 4upu-a1-m16-cA_4upu-a1-m22-cA 4upu-a1-m17-cA_4upu-a1-m3-cA 4upu-a1-m19-cA_4upu-a1-m24-cA 4upu-a1-m1-cA_4upu-a1-m23-cA 4upu-a1-m2-cA_4upu-a1-m21-cA 4upu-a1-m5-cA_4upu-a1-m8-cA 4upu-a1-m6-cA_4upu-a1-m7-cA QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA QLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA 4uqq-a1-m1-cB_4uqq-a1-m1-cD Electron density map of GluK2 desensitized state in complex with 2S,4R-4-methylglutamate P42260 P42260 7.6 ELECTRON MICROSCOPY 15 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 688 688 THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTENRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLWWFFTLIIISSYTANLAAFLTVERPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFI THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTENRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLWWFFTLIIISSYTANLAAFLTVERPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFI 4uqq-a1-m1-cD_4uqq-a1-m1-cA Electron density map of GluK2 desensitized state in complex with 2S,4R-4-methylglutamate P42260 P42260 7.6 ELECTRON MICROSCOPY 54 0.999 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 688 693 4uqq-a1-m1-cB_4uqq-a1-m1-cC THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTENRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLWWFFTLIIISSYTANLAAFLTVERPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFI THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTENRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLLACWFFTLIIISSYTANLAAFLTVERPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFIVLA 4uqq-a1-m1-cD_4uqq-a1-m1-cC Electron density map of GluK2 desensitized state in complex with 2S,4R-4-methylglutamate P42260 P42260 7.6 ELECTRON MICROSCOPY 168 0.999 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 688 693 4uqq-a1-m1-cB_4uqq-a1-m1-cA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTENRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLWWFFTLIIISSYTANLAAFLTVERPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFI THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTENRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLLACWFFTLIIISSYTANLAAFLTVERPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFIVLA 4uqv-a5-m1-cH_4uqv-a5-m1-cG methanococcus jannaschii serine hydroxymethyl-transferase in complex with PLP Q58992 Q58992 3 X-RAY DIFFRACTION 312 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 427 429 4bhd-a1-m1-cB_4bhd-a1-m1-cA 4uqv-a1-m1-cL_4uqv-a1-m1-cK 4uqv-a2-m1-cB_4uqv-a2-m1-cA 4uqv-a3-m1-cC_4uqv-a3-m1-cD 4uqv-a4-m1-cF_4uqv-a4-m1-cE 4uqv-a6-m1-cI_4uqv-a6-m1-cJ MEYSDVPKFIRDVSIKQHEWMRESIKLIASENITSLAVREACATDFMHRYAEGLPGKRLYQGCKYIDEVETLCIELSKELFKAEHANVQPTSGVVANLAVFFAETKPGDKLMALSVPDGGHISHWKVSAAGIRGLKVINHPFDPEEMNIDADAMVKKILEEKPKLILFGGSLFPFPHPVADAYEAAQEVGAKIAYDGAHVLGLIAGKQDPLREGAEYLMGSTHKTFFGPQGGVILTTKENADKIDSHVFPGVVSNHHLHHKAGLAIALAEMLEFGEAYAKQVIKNAKALAQALYERGFNVLCEHKDFTESHQVIIDIESSPDIEFSASELAKMYEEANIILNKNLLPWDDVNNSDNPSGIRLGTQECTRLGMKEKEMEEIAEFMKRIAIDKEKPEKVREDVKEFAKEYSTIHYSFDEGDGFKYLRFY MEYSDVPKFIRDVSIKQHEWMRESIKLIASENITSLAVREACATDFMHRYAEGLPGKRLYQGCKYIDEVETLCIELSKELFKAEHANVQPTSGVVANLAVFFAETKPGDKLMALSVPDGGHISHWKVSAAGIRGLKVINHPFDPEEMNIDADAMVKKILEEKPKLILFGGSLFPFPHPVADAYEAAQEVGAKIAYDGAHVLGLIAGKQFQDPLREGAEYLMGSTHKTFFGPQGGVILTTKENADKIDSHVFPGVVSNHHLHHKAGLAIALAEMLEFGEAYAKQVIKNAKALAQALYERGFNVLCEHKDFTESHQVIIDIESSPDIEFSASELAKMYEEANIILNKNLLPWDDVNNSDNPSGIRLGTQECTRLGMKEKEMEEIAEFMKRIAIDKEKPEKVREDVKEFAKEYSTIHYSFDEGDGFKYLRFY 4ur6-a2-m1-cA_4ur6-a2-m3-cA Structure of the type III fish antifreeze protein from Zoarces viviparus ZvAFP6 R9S083 R9S083 1.2 X-RAY DIFFRACTION 37 1.0 48416 (Zoarces viviparus) 48416 (Zoarces viviparus) 64 64 4ur6-a1-m1-cB_4ur6-a1-m2-cB 5xqp-a1-m1-cA_5xqp-a1-m1-cB 5xqp-a2-m1-cC_5xqp-a2-m2-cD GESVVATQLIPINTALTPAMMAGKVTNPSGIPFAEMSQIVGKQVNTPVAKGQTLMPDMVKTYVP GESVVATQLIPINTALTPAMMAGKVTNPSGIPFAEMSQIVGKQVNTPVAKGQTLMPDMVKTYVP 4urj-a2-m1-cC_4urj-a2-m1-cD Crystal structure of human BJ-TSA-9 Q86UY5 Q86UY5 2.68 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 169 174 4urj-a1-m1-cA_4urj-a1-m2-cB EKSSATVYFQTVNNIRDLVRRCITRTSQVLVILMDVFTDVEIFCDILEAANKRGVFVCVLLDQGGVKLFQEMCDKVQISDSHLKNISIRSVEGEIYCAKSGRKFAGQIREKFIISDWRFVLSGSYSFTWLCGHVHRNILSKFTGQAVELFDEEFRHLYASSKPVMGLKS PYLKEKSSATVYFQTVNNIRDLVRRCITRTSQVLVILMDVFTDVEIFCDILEAANKRGVFVCVLLDQGGVKLFQEMCDKVQISDSHLKNISIRSVEGEIYCAKSGRKFAGQIREKFIISDWRFVLSGSYSFTWLCGHVHRNILSKFTGQAVELFDEEFRHLYASSKPVMGLKSP 4urp-a1-m1-cA_4urp-a1-m1-cB The Crystal structure of Nitroreductase from Saccharomyces cerevisiae P37261 P37261 2.991 X-RAY DIFFRACTION 147 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 178 178 PTGNYLNAITNRRTIYNLKPELPQGVGLDDVKRTVHVILKNTPTAFNSQVNRAVIIVGDTHKRIWDAVASAMPTAEAKKRPESCRDEAYGSVIFFTDLGPTEKLQRDFPALAAAFPTCAAHTTGAVQIQSWTALELLGLGANLQHYNDYVKSALPQDVPIAWTVQSQLVFGNNVINVY PTGNYLNAITNRRTIYNLKPELPQGVGLDDVKRTVHVILKNTPTAFNSQVNRAVIIVGDTHKRIWDAVASAMPTAEAKKRPESCRDEAYGSVIFFTDLGPTEKLQRDFPALAAAFPTCAAHTTGAVQIQSWTALELLGLGANLQHYNDYVKSALPQDVPIAWTVQSQLVFGNNVINVY 4urq-a1-m1-cU_4urq-a1-m1-cY Crystal Structure of GGDEF domain (I site mutant) from T.maritima Q9X2A8 Q9X2A8 2.5 X-RAY DIFFRACTION 34 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 154 154 4urq-a1-m1-cV_4urq-a1-m1-cX 4urs-a1-m1-cA_4urs-a1-m1-cB LTGLPNRRYFFELGNRYLDLAKREGKKVFVLFVDLAGFKAINDTYGHLSGDEVLKTVSKRILDRVARSDVVARYGGDEFTILLYDMKEEYLKSLLERILSTFREPVRVENKHLSVTPNIGVARFPEDGENLEELLKVADMRMYKAKEMKVPYFS LTGLPNRRYFFELGNRYLDLAKREGKKVFVLFVDLAGFKAINDTYGHLSGDEVLKTVSKRILDRVARSDVVARYGGDEFTILLYDMKEEYLKSLLERILSTFREPVRVENKHLSVTPNIGVARFPEDGENLEELLKVADMRMYKAKEMKVPYFS 4urq-a1-m1-cV_4urq-a1-m1-cY Crystal Structure of GGDEF domain (I site mutant) from T.maritima Q9X2A8 Q9X2A8 2.5 X-RAY DIFFRACTION 30 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 153 154 4urq-a1-m1-cU_4urq-a1-m1-cX TGLPNRRYFFELGNRYLDLAKREGKKVFVLFVDLAGFKAINDTYGHLSGDEVLKTVSKRILDRVARSDVVARYGGDEFTILLYDMKEEYLKSLLERILSTFREPVRVENKHLSVTPNIGVARFPEDGENLEELLKVADMRMYKAKEMKVPYFS LTGLPNRRYFFELGNRYLDLAKREGKKVFVLFVDLAGFKAINDTYGHLSGDEVLKTVSKRILDRVARSDVVARYGGDEFTILLYDMKEEYLKSLLERILSTFREPVRVENKHLSVTPNIGVARFPEDGENLEELLKVADMRMYKAKEMKVPYFS 4urq-a1-m1-cZ_4urq-a1-m1-cU Crystal Structure of GGDEF domain (I site mutant) from T.maritima Q9X2A8 Q9X2A8 2.5 X-RAY DIFFRACTION 36 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 153 154 4urq-a1-m1-cV_4urq-a1-m1-cW TGLPNRRYFFELGNRYLDLAKREGKKVFVLFVDLAGFKAINDTYGHLSGDEVLKTVSKRILDRVARSDVVARYGGDEFTILLYDMKEEYLKSLLERILSTFREPVRVENKHLSVTPNIGVARFPEDGENLEELLKVADMRMYKAKEMKVPYFS LTGLPNRRYFFELGNRYLDLAKREGKKVFVLFVDLAGFKAINDTYGHLSGDEVLKTVSKRILDRVARSDVVARYGGDEFTILLYDMKEEYLKSLLERILSTFREPVRVENKHLSVTPNIGVARFPEDGENLEELLKVADMRMYKAKEMKVPYFS 4us5-a2-m1-cD_4us5-a2-m1-cC Crystal Structure of apo-MsnO8 W8QCH3 W8QCH3 1.8 X-RAY DIFFRACTION 157 0.985 42235 (Streptomyces bottropensis) 42235 (Streptomyces bottropensis) 325 326 4us5-a1-m1-cA_4us5-a1-m1-cB HHHHVKLSVVEQAPVVEGLTPAHSLQHSIELARLADRLGYERFWVAEHHAEIFNAVPAPEILIARIAAETSGIRVGSGGVLLSLYSPLKVAEVFRTLHALYPDRIDLGIGRANRVKLPVFAALRDSSDDLWRRLEQLRAYLDPDSGLPFTVSPRPGGPALWLLGASVSSADAAARLGLPYAYAHFITPDFTREADTYRAAFVPGPDTPSPRPILSVVVCCAETDAEAQRVYATHRLFHRRSQGDVRLLPPADLAVAEDKPGPDPLAEESFEWPRYVVGSPDRVRDQLTKADATGAEELGVVSIHDQRDRLRSYRLLAEAFELTPR HVKLSVVEQAPVVEGLTPAHSLQHSIELARLADRLGYERFWVAEHHAEIFNAVPAPEILIARIAAETSGIRVGSGGVLLSLYSPLKVAEVFRTLHALYPDRIDLGIGRANRVKLPVFAALRDDKEPSSDDLWRRLEQLRAYLDPDSGLPFTVSPRPGGPALWLLGASVSSAEAAARLGLPYAYAHFITPQFTREADTYRAAFVPGPDTPSPRPILSVVVCCAETDAEAQRVYATHRLFHRRSQGDVRLLPPADLAVAEDKPGPDPLAEESFEWPRYVVGSPDRVRDQLTKADATGAEELGVVSIHDQRDRLRSYRLLAEAFELTPR 4usa-a1-m1-cA_4usa-a1-m2-cA Aldehyde Oxidoreductase from Desulfovibrio gigas (MOP), soaked with trans-cinnamaldehyde Q46509 Q46509 1.13 X-RAY DIFFRACTION 92 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 906 906 3fah-a2-m1-cA_3fah-a2-m2-cA 3fc4-a2-m1-cA_3fc4-a2-m2-cA 3l4p-a2-m1-cA_3l4p-a2-m2-cA 4c7y-a1-m1-cA_4c7y-a1-m2-cA 4c7z-a1-m1-cA_4c7z-a1-m2-cA 4c80-a1-m1-cA_4c80-a1-m2-cA 4us8-a1-m1-cA_4us8-a1-m2-cA 4us9-a1-m1-cA_4us9-a1-m2-cA MIQKVITVNGIEQNLFVDAEALLSDVLRQQLGLTGVKVGCEQGQCGACSVILDGKVVRACVTKMKRVADGAQITTIEGVGQPENLHPLQKAWVLHGGAQCGFCSPGFIVSAKGLLDTNADPSREDVRDWFQKHRNACRCTGYKPLVDAVMDAAAVINGKKPETDLEFKMPADGRIWGSKYPRPTAVAKVTGTLDYGADLGLKMPAGTLHLAMVQAKVSHANIKGIDTSEALTMPGVHSVITHKDVKGKNRITGLITFPTNKGDGWDRPILDEKVFQYGDCIALVCADSEANARAAAEKVKVDLEELPAYMSGPAAAAEDAIEIHPGTPNVYFEQPIVKGEDTGPIFASADVTVEGDFYVGRQPHMPIEPDVAFAYMGDDGKCYIHSKSIGVHLHLYMIAPGVGLEPDQLVLVANPMGGTFGYKFSPTSEALVAVAAMATGRPVHLRYNYQQQQQYTGKRSPWEMNVKFAAKKDGTLLAMESDWLVDHGPYSEFGDLLTLRGAQFIGAGYNIPNIRGLGRTVATNHVWGSAFRGYGAPQSMFASECLMDMLAEKLGMDPLELRYKNAYRPGDTNPTGQEPEVFSLPDMIDQLRPKYQAALEKAQKESTATHKKGVGISIGVYGSGLDGPDASEAWAELNADGTITVHTAWEDHGQGADIGCVGTAHEALRPMGVAPEKIKFTWPNTATTPNSGPSGGSRQQVMTGNAIRVACENLLKACEKPGGGYYTYDELKAADKPTKITGNWTASGATHCDAVTGLGKPFVVYMYGVFMAEVTVDVATGQTTVDGMTLMADLGSLCNQLATDGQIYGGLAQGIGLALSEDFEDIKKHATLVGAGFPFIKQIPDKLDIVYVNHPRPDGPFGASGVGELPLTSPHAAIINAIKSATGVRIYRLPAYPEKVLEALKA MIQKVITVNGIEQNLFVDAEALLSDVLRQQLGLTGVKVGCEQGQCGACSVILDGKVVRACVTKMKRVADGAQITTIEGVGQPENLHPLQKAWVLHGGAQCGFCSPGFIVSAKGLLDTNADPSREDVRDWFQKHRNACRCTGYKPLVDAVMDAAAVINGKKPETDLEFKMPADGRIWGSKYPRPTAVAKVTGTLDYGADLGLKMPAGTLHLAMVQAKVSHANIKGIDTSEALTMPGVHSVITHKDVKGKNRITGLITFPTNKGDGWDRPILDEKVFQYGDCIALVCADSEANARAAAEKVKVDLEELPAYMSGPAAAAEDAIEIHPGTPNVYFEQPIVKGEDTGPIFASADVTVEGDFYVGRQPHMPIEPDVAFAYMGDDGKCYIHSKSIGVHLHLYMIAPGVGLEPDQLVLVANPMGGTFGYKFSPTSEALVAVAAMATGRPVHLRYNYQQQQQYTGKRSPWEMNVKFAAKKDGTLLAMESDWLVDHGPYSEFGDLLTLRGAQFIGAGYNIPNIRGLGRTVATNHVWGSAFRGYGAPQSMFASECLMDMLAEKLGMDPLELRYKNAYRPGDTNPTGQEPEVFSLPDMIDQLRPKYQAALEKAQKESTATHKKGVGISIGVYGSGLDGPDASEAWAELNADGTITVHTAWEDHGQGADIGCVGTAHEALRPMGVAPEKIKFTWPNTATTPNSGPSGGSRQQVMTGNAIRVACENLLKACEKPGGGYYTYDELKAADKPTKITGNWTASGATHCDAVTGLGKPFVVYMYGVFMAEVTVDVATGQTTVDGMTLMADLGSLCNQLATDGQIYGGLAQGIGLALSEDFEDIKKHATLVGAGFPFIKQIPDKLDIVYVNHPRPDGPFGASGVGELPLTSPHAAIINAIKSATGVRIYRLPAYPEKVLEALKA 4usc-a1-m1-cA_4usc-a1-m1-cB Crystal structure of peroxidase from palm tree Chamaerops excelsa A0A0A0Y4H8 A0A0A0Y4H8 2.6 X-RAY DIFFRACTION 60 1.0 14027 (Trachycarpus fortunei) 14027 (Trachycarpus fortunei) 303 303 DLQIGFYNQSCPSAESLVQQGVAAAFANNSGIAPGLIRMHFHDCFVRGCDGSVLLDSTDTNTAEKDAAPNNPSLRGFEVIAAAKSAVEAACPKTVSCADILAFAARDSAALAGNITYQVPSGRRDGNVSLASEALTNIPAPTFNATQLINSFAGKNLTADEMVTLSGAHSIGVSHCFSFLNRIYNFSNTSQVDPTLSSSYADLLRTKCPSNSTRFTPITVSLDIITPTVLDNRYYTGVQLTLGLLTSDQALVTEANLSAAVKNNADNLTAWVAEFAQAIVKMGQIEVLTGTQGEIRTNCSVVN DLQIGFYNQSCPSAESLVQQGVAAAFANNSGIAPGLIRMHFHDCFVRGCDGSVLLDSTDTNTAEKDAAPNNPSLRGFEVIAAAKSAVEAACPKTVSCADILAFAARDSAALAGNITYQVPSGRRDGNVSLASEALTNIPAPTFNATQLINSFAGKNLTADEMVTLSGAHSIGVSHCFSFLNRIYNFSNTSQVDPTLSSSYADLLRTKCPSNSTRFTPITVSLDIITPTVLDNRYYTGVQLTLGLLTSDQALVTEANLSAAVKNNADNLTAWVAEFAQAIVKMGQIEVLTGTQGEIRTNCSVVN 4usj-a1-m2-cD_4usj-a1-m3-cD N-acetylglutamate kinase from Arabidopsis thaliana in complex with PII from Chlamydomonas reinhardtii 2.85 X-RAY DIFFRACTION 115 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 142 142 4usi-a1-m1-cB_4usi-a1-m1-cA 4usi-a1-m1-cC_4usi-a1-m1-cA 4usj-a1-m1-cC_4usj-a1-m2-cC 4usj-a1-m1-cC_4usj-a1-m3-cC 4usj-a1-m1-cD_4usj-a1-m2-cD 4usj-a1-m1-cD_4usj-a1-m3-cD 4usj-a1-m2-cC_4usj-a1-m3-cC LESIQCDLSAFPGVKFFRIEAIFRPWRLPFVIDTLSKYGIRGLTNTPVKGVGVQGGSRERYAGTEFGPSNLVDKEKLDIVVSRAQVDAVVRLVAASAYTGEIGDGKIFVHPVAEVVRIRTAETGLEAEKMEGGMEDMMKKKK LESIQCDLSAFPGVKFFRIEAIFRPWRLPFVIDTLSKYGIRGLTNTPVKGVGVQGGSRERYAGTEFGPSNLVDKEKLDIVVSRAQVDAVVRLVAASAYTGEIGDGKIFVHPVAEVVRIRTAETGLEAEKMEGGMEDMMKKKK 4usk-a2-m1-cA_4usk-a2-m2-cA Unravelling the B. pseudomallei heptokinase WcbL: from Structure to Drug Discovery. H7C745 H7C745 1.76 X-RAY DIFFRACTION 78 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 345 345 4usk-a1-m1-cB_4usk-a1-m2-cB 4usm-a1-m1-cB_4usm-a1-m2-cB 4usm-a2-m1-cA_4usm-a2-m2-cA 4ut4-a1-m1-cA_4ut4-a1-m2-cA 4ut4-a2-m1-cB_4ut4-a2-m2-cB 4utg-a1-m1-cA_4utg-a1-m2-cA 4utg-a2-m1-cB_4utg-a2-m2-cB NPTIIRARAPLRLGLAGGGTDVAPYADTFGGYVLNATIDRYAYAVIKTLTIPAVRFVSTDQQVEKHQLISEPLELNGTLNLHKAVYNHMIRNYNHGKPIALELSTFCDAPAGSGLGSSSTLVVVMIKAFVELLNLPLDDYAIAQLAYRIERVDCGLAGGRQDQYSATFGGFNFMEFYAAARTIVNPLRIKNWVLCELEASLVLFYTGVSRESAKIIQDQSDNVVSHKTAAIEAMHGIKREALVMKEALLKGDFKAFVASMRLGWDNKKNSARTVSNAHIDEIYDAAIRAGAQAGKVSGAGGGGFMLFFVPTEKRMDLIRTLGEYDGQVSNCHFTKNGTQAWRIAN NPTIIRARAPLRLGLAGGGTDVAPYADTFGGYVLNATIDRYAYAVIKTLTIPAVRFVSTDQQVEKHQLISEPLELNGTLNLHKAVYNHMIRNYNHGKPIALELSTFCDAPAGSGLGSSSTLVVVMIKAFVELLNLPLDDYAIAQLAYRIERVDCGLAGGRQDQYSATFGGFNFMEFYAAARTIVNPLRIKNWVLCELEASLVLFYTGVSRESAKIIQDQSDNVVSHKTAAIEAMHGIKREALVMKEALLKGDFKAFVASMRLGWDNKKNSARTVSNAHIDEIYDAAIRAGAQAGKVSGAGGGGFMLFFVPTEKRMDLIRTLGEYDGQVSNCHFTKNGTQAWRIAN 4uso-a2-m1-cC_4uso-a2-m1-cD X-ray structure of the CCL2 lectin in complex with sialyl lewis X B3GA02 B3GA02 1.95 X-RAY DIFFRACTION 47 0.985 5346 (Coprinopsis cinerea) 5346 (Coprinopsis cinerea) 130 130 4uso-a1-m1-cB_4uso-a1-m1-cA 4usp-a1-m1-cA_4usp-a1-m1-cB AGNYIIYNRVLSPRGEKLALTYPGRQRTPVTVSPLDGSSEQAWILRSYDSNTWTISPVGSPNSQIGWGAGNVPVVLPPNNYVWTLTLTSGGYNIQDGKRTVSWSLNNATAGEEVSIGADATFSGRWVIEK NYIIYNRVLSPRGEKLALTYPGRQRTPVTVSPLDGSSEQAWILRSYDSNSNTWTISPVGSPNSQIGWGAGNVPVVLPPNNYVWTLTLTSGGYNIQDGKRTVSWSLNNATAGEEVSIGADATFSGRWVIEK 4usq-a1-m1-cA_4usq-a1-m2-cF Structure of flavin-containing monooxygenase from Cellvibrio sp. BR I3IEE4 I3IEE4 2.39 X-RAY DIFFRACTION 62 0.997 1134474 (Cellvibrio sp. BR) 1134474 (Cellvibrio sp. BR) 333 341 4usq-a1-m2-cA_4usq-a1-m1-cF STDIVIIGGGQAALSVAYYLRRSKYSFVMLDAEQTPGGAWLHGWDSLRLFSPSTWSSLSGWQMPPTGETYPSRDQVVDYLRHYESRYEFPVQRPVWVSAVNNLGDRLEVVSERQQWRARVVISATGTWRNPFIPAYPGADLFQGAQLHSAHYQSPAPFAGQKVLVVGGGNSGAQILAEVSRVADCTWVTTSEPIFLPDDVDGRVLFQRATDRWKADVVMVPPVKEARERGALHAVRPFTRFTANGVVWADGTGSAVDAVIWCTGFRPALAHLQSLGVINPDGKVDLAGTRSLQEPRLWLLGYGEWTGLASATLIGVGRSARATAEEIIQYLDS STDIVIIGGGQAALSVAYYLRRSKYSFVMLDAEQTPGGAWLHGWDSLRLFSPSTWSSLSGWQMPPTGETYPSRDQVVDYLRHYESRYEFPVQRPVWVSAVNNLGDRLEVVSERQQWRARVVISATGTWRNPFIPAYPGADLFQGAQLHSAHYQSPAPFAGQKVLVVGGGNSGAQILAEVSRVADCTWVTTSEPIFLPDDVDGRVLFQRATDRWKAAQEGREIEQDVVMVPPVKEARERGALHAVRPFTRFTANGVVWADGTGSAVDAVIWCTGFRPALAHLQSLGVINPDGKVDLAGTRSLQEPRLWLLGYGEWTGLASATLIGVGRSARATAEEIIQYLD 4usq-a1-m2-cA_4usq-a1-m2-cF Structure of flavin-containing monooxygenase from Cellvibrio sp. BR I3IEE4 I3IEE4 2.39 X-RAY DIFFRACTION 96 0.997 1134474 (Cellvibrio sp. BR) 1134474 (Cellvibrio sp. BR) 333 341 4usq-a1-m1-cA_4usq-a1-m1-cF STDIVIIGGGQAALSVAYYLRRSKYSFVMLDAEQTPGGAWLHGWDSLRLFSPSTWSSLSGWQMPPTGETYPSRDQVVDYLRHYESRYEFPVQRPVWVSAVNNLGDRLEVVSERQQWRARVVISATGTWRNPFIPAYPGADLFQGAQLHSAHYQSPAPFAGQKVLVVGGGNSGAQILAEVSRVADCTWVTTSEPIFLPDDVDGRVLFQRATDRWKADVVMVPPVKEARERGALHAVRPFTRFTANGVVWADGTGSAVDAVIWCTGFRPALAHLQSLGVINPDGKVDLAGTRSLQEPRLWLLGYGEWTGLASATLIGVGRSARATAEEIIQYLDS STDIVIIGGGQAALSVAYYLRRSKYSFVMLDAEQTPGGAWLHGWDSLRLFSPSTWSSLSGWQMPPTGETYPSRDQVVDYLRHYESRYEFPVQRPVWVSAVNNLGDRLEVVSERQQWRARVVISATGTWRNPFIPAYPGADLFQGAQLHSAHYQSPAPFAGQKVLVVGGGNSGAQILAEVSRVADCTWVTTSEPIFLPDDVDGRVLFQRATDRWKAAQEGREIEQDVVMVPPVKEARERGALHAVRPFTRFTANGVVWADGTGSAVDAVIWCTGFRPALAHLQSLGVINPDGKVDLAGTRSLQEPRLWLLGYGEWTGLASATLIGVGRSARATAEEIIQYLD 4uss-a1-m1-cA_4uss-a1-m2-cA Populus trichocarpa glutathione transferase X1-1 (GHR1), complexed with glutathione 2.5 X-RAY DIFFRACTION 74 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 306 306 TASTFRNFISKEPNSQFPPESGRYHLYVSYACPWASRCLAYLKIKGLEKAIAFTSVKPIWERTKESDEHMGWVFPASETEEAGAEPDTLNGARSIRELYELASTNYAGKYTVPVLWDKKLKTIVNNESSEIIRMFNTEFNDIAENAALDLYPSHLQAQIDETNGWVYDGINNGVYKCGFARKQGPYEEAAIQLYEALDKCEEILGRQRYICGNTLSEADIKLFVTLIRFDEVYAVHFKCNKKLLRDYPNMFNYTKDIFQIPGMSSTVNMQHIKRHYYGSHPTVNPFGIIPLGPDIDYSSPHDRNRF TASTFRNFISKEPNSQFPPESGRYHLYVSYACPWASRCLAYLKIKGLEKAIAFTSVKPIWERTKESDEHMGWVFPASETEEAGAEPDTLNGARSIRELYELASTNYAGKYTVPVLWDKKLKTIVNNESSEIIRMFNTEFNDIAENAALDLYPSHLQAQIDETNGWVYDGINNGVYKCGFARKQGPYEEAAIQLYEALDKCEEILGRQRYICGNTLSEADIKLFVTLIRFDEVYAVHFKCNKKLLRDYPNMFNYTKDIFQIPGMSSTVNMQHIKRHYYGSHPTVNPFGIIPLGPDIDYSSPHDRNRF 4usx-a1-m1-cB_4usx-a1-m1-cC The Structure of the C-terminal YadA-like domain of BPSL2063 from Burkholderia pseudomallei Q63TA4 Q63TA4 1.8 X-RAY DIFFRACTION 384 0.991 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 211 214 4usx-a1-m1-cA_4usx-a1-m1-cB 4usx-a1-m1-cA_4usx-a1-m1-cC GPVALHNVAPGTASTDAVNVGQLGAVTTGLGGGAAIDPKTGAVTAPSYTVYNADGTTSNVGNVGAAIDAINSTGIKYFHANSTKPDSQALGADSVAIGPNAVANNAGDVALGSGAVTSQAGGTLSETINGVTYSFAGTTPIGTVSVGAPGVERTITNVAAGRIGQSSTDAINGSQLYGTNQSIEALTDKMNSLGNTVANTLASYNPQTGAV GPVALHNVAPGTASTDAVNVGQLGAVTTGLGGGAAIDPKTGAVTAPSYTVYNADGTTSNVGNVGAAIDAINSTGIKYFHANSTKPDSQALGADSVAIGPNAVANNAGDVALGSGAVTSQAGGTLSETINGVTYSFAGTTPIGTVSVGAPGVERTITNVAAGRIGQSSTDAINGSQLYGTNQSIEALTDKMNSLGNTVANGSGASYNPQTGAVNG 4utu-a1-m1-cA_4utu-a1-m1-cB Structural and biochemical characterization of the N- acetylmannosamine-6-phosphate 2-epimerase from Clostridium perfringens Q8XNZ3 Q8XNZ3 1.45 X-RAY DIFFRACTION 123 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 229 229 4utt-a1-m1-cA_4utt-a1-m1-cD 4utt-a2-m1-cB_4utt-a2-m2-cC 4utt-a3-m1-cC_4utt-a3-m3-cB 4utw-a1-m1-cA_4utw-a1-m1-cD 4utw-a2-m1-cB_4utw-a2-m2-cC 4utw-a3-m1-cC_4utw-a3-m3-cB GSSHHHHHHMLDVVKGNLIVSCQALSDEPLHSSFIMGRMAIAAKQGGAAAIRAQGVNDINEIKEVTKLPIIGIIARNYDDSEIYITPTMKEVDELLKTDCEMIALDATKRKRPNGENVKDLVDAIHAKGRLAMADISTLEEGIEAEKLGFDCVSTTLSGYTPYSKQSNSVDFELLEELVKTVKIPVICEGRINTPEELKKALDLGAYSAVVGGAITRPQQITKRFTDIL GSSHHHHHHMLDVVKGNLIVSCQALSDEPLHSSFIMGRMAIAAKQGGAAAIRAQGVNDINEIKEVTKLPIIGIIARNYDDSEIYITPTMKEVDELLKTDCEMIALDATKRKRPNGENVKDLVDAIHAKGRLAMADISTLEEGIEAEKLGFDCVSTTLSGYTPYSKQSNSVDFELLEELVKTVKIPVICEGRINTPEELKKALDLGAYSAVVGGAITRPQQITKRFTDIL 4uu2-a1-m1-cA_4uu2-a1-m1-cB Ferulic acid decarboxylase from Enterobacter sp., single mutant C6F3U5 C6F3U5 1.49 X-RAY DIFFRACTION 86 1.0 42895 (Enterobacter sp.) 42895 (Enterobacter sp.) 167 167 3nx1-a3-m1-cA_3nx1-a3-m1-cB 3nx2-a3-m1-cA_3nx2-a3-m1-cB 4uu3-a1-m1-cB_4uu3-a1-m1-cA MNTFDKHDLSGFVGKHLVYTYDNGWEYEIYVKNENTLDYRIHSGLVGNRWVKDQQAYIVRVGESIYKISWTAPTGTDVSLIVNLGDSLFHGTIFFPRWVMNNPEKTVCFQNDHIPLMNSYRDAGPAYPTEVIDEFATITFVRDCGANNESVIACAASELPKNFPDNL MNTFDKHDLSGFVGKHLVYTYDNGWEYEIYVKNENTLDYRIHSGLVGNRWVKDQQAYIVRVGESIYKISWTAPTGTDVSLIVNLGDSLFHGTIFFPRWVMNNPEKTVCFQNDHIPLMNSYRDAGPAYPTEVIDEFATITFVRDCGANNESVIACAASELPKNFPDNL 4uuk-a1-m1-cB_4uuk-a1-m1-cE Human dynamin 1 K44A superconstricted polymer stabilized with GTP strand 2 Q05193 Q05193 12.5 ELECTRON MICROSCOPY 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 4uud-a1-m1-cI_4uud-a1-m1-cJ KTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYS KTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYS 4uuk-a1-m1-cB_4uuk-a1-m1-cI Human dynamin 1 K44A superconstricted polymer stabilized with GTP strand 2 Q05193 Q05193 12.5 ELECTRON MICROSCOPY 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 KTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYS KTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYS 4uuk-a1-m1-cB_4uuk-a1-m1-cJ Human dynamin 1 K44A superconstricted polymer stabilized with GTP strand 2 Q05193 Q05193 12.5 ELECTRON MICROSCOPY 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 4uud-a1-m1-cB_4uud-a1-m1-cJ 4uud-a1-m1-cE_4uud-a1-m1-cI 4uuk-a1-m1-cE_4uuk-a1-m1-cI KTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYS KTKALLQMVQQFAVDFEKRIEGSGGARINRIFHERFPFELVKMEFDEKELRREISYAIKPDMAFETIVKKQVKKIREPCLKCVDMVISELISTVRQCTKKQYPRLREEMERIVTTHIREREGRTKEQVMLLIDIELAYMNTNHEDFIGFERVGPQLERQVETIRNLVDSYMAIVNKTVRDLMPKTIMHLMINNTKEFIFSELLANLYS 4uul-a1-m1-cA_4uul-a1-m1-cB Apo trichomonas vaginalis lactate dehydrogenase L91R O96445 O96445 1.28 X-RAY DIFFRACTION 113 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 334 337 4uum-a1-m1-cA_4uum-a1-m1-cB 4uun-a1-m1-cA_4uun-a1-m1-cB 5a1t-a1-m1-cA_5a1t-a1-m2-cA 5a1t-a2-m1-cB_5a1t-a2-m2-cB SEAAHVLITGAAGQIGYILSHWIASGELYGDRQVYLHLLDIPPAMNRLTALTMELEDCAFPHLAGFVATTDPKAAFKDIDCAFLVASMPRKPGQVRADLISSNSVIFKNTGEYLSKWAKPSVKVLVIGNPDNTNCEIAMLHAKNLKPENFSSLSMLDQNRAYYEVASKLGVDVKDVHDIIVWGNHGESMVADLTQATFTKEGKTQKVVDVLDHDYVFDTFFKKIGHRAWDILEHRGFTSAASPTKAAIQHMKAWLFGTAPGEVLSMGIPVPEGNPYGIKPGVVFSFPCNVDKEGKIHVVEGFKVNDWLREKLDFTEKDLFHEKEIALNHLAQLE SEAAHVLITGAAGQIGYILSHWIASGELYGDRQVYLHLLDIPPAMNRLTALTMELEDCAFPHLAGFVATTDPKAAFKDIDCAFLVASMPRKPGQVRADLISSNSVIFKNTGEYLSKWAKPSVKVLVIGNPDNTNCEIAMLHAKNLKPENFSSLSMLDQNRAYYEVASKLGVDVKDVHDIIVWGNHGESMVADLTQATFTKEGKTQKVVDVLDHDYVFDTFFKKIGHRAWDILEHRGFTSAASPTKAAIQHMKAWLFGTAPGEVLSMGIPVPEGNPYGIKPGVVFSFPCNVDKEGKIHVVEGFKVNDWLREKLDFTEKDLFHEKEIALNHLAQLEHHH 4uuo-a1-m1-cA_4uuo-a1-m2-cA Apo Trichomonas vaginalis malate dehydrogenase Q27819 Q27819 2.842 X-RAY DIFFRACTION 117 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 328 328 EPIHILITGAAGQIGYALTFRIAKGDLCGDRKVVLHLLEIPFGMKALEGCVMELQDCAFPNVAGIVWTDKVEEAFKGVDVAFLVGSFPRKDGMDRSDLLAKNGGIFTVQGKALNDYAKPTVKVLVVGNPANTNCLIAQASAPKLQNKNWCAMTRLDHNRMVGALAAKFGVTPEKIHKVCIWGNHSNTQVPDTTHATVDTVKVADKLPKEYLEGEFAQMIATRGGAVIKMRGASSAASAANAALTCVKDWLYGTDFVSMAIPVPDNEPYGIKQGTIFSFPVTVSKDGEVHVVEGLELNDWVKGRLEATEKELIGEKETAWKVLGLLEHH EPIHILITGAAGQIGYALTFRIAKGDLCGDRKVVLHLLEIPFGMKALEGCVMELQDCAFPNVAGIVWTDKVEEAFKGVDVAFLVGSFPRKDGMDRSDLLAKNGGIFTVQGKALNDYAKPTVKVLVVGNPANTNCLIAQASAPKLQNKNWCAMTRLDHNRMVGALAAKFGVTPEKIHKVCIWGNHSNTQVPDTTHATVDTVKVADKLPKEYLEGEFAQMIATRGGAVIKMRGASSAASAANAALTCVKDWLYGTDFVSMAIPVPDNEPYGIKQGTIFSFPVTVSKDGEVHVVEGLELNDWVKGRLEATEKELIGEKETAWKVLGLLEHH 4uup-a1-m1-cB_4uup-a1-m1-cA Reconstructed ancestral trichomonad malate dehydrogenase in complex with NADH, SO4, and PO4 1.543 X-RAY DIFFRACTION 113 1.0 32630 (synthetic construct) 32630 (synthetic construct) 330 334 EPIHVLITGAAGQIGYALAFRIAKGDLFGDRKVVLHLLEIPPAMKALEGVCMELQDCAFPTLAGVVATDDPEEAFKDVDVAFLVGSFPRKPGMERADLLEKNAGIFKVQGKALSEYAKPTVKVLVVGNPANTNCLIAMANAPKLGPENFSAMTRLDHNRAIGEIAAKLGVPVDKVHNVVVWGNHSNTQVPDVSHATVDKEGGTKKVSDALPKEYLEGEFVQKIAQRGGAVIEARGASSAASAANAALHMRDWLFGTKPGDWVSMGIPVPEGNPYGIKPGVIYSFPCTVDKDGKVHIVEGLEINDWVREKMEATEKELIEERETAFKVLAQ EPIHVLITGAAGQIGYALAFRIAKGDLFGDRKVVLHLLEIPPAMKALEGVCMELQDCAFPTLAGVVATDDPEEAFKDVDVAFLVGSFPRKPGMERADLLEKNAGIFKVQGKALSEYAKPTVKVLVVGNPANTNCLIAMANAPKLGPENFSAMTRLDHNRAIGEIAAKLGVPVDKVHNVVVWGNHSNTQVPDVSHATVDKEGGTKKVSDALPKEYLEGEFVQKIAQRGGAVIEARGASSAASAANAALHMRDWLFGTKPGDWVSMGIPVPEGNPYGIKPGVIYSFPCTVDKDGKVHIVEGLEINDWVREKMEATEKELIEERETAFKVLAQLEHH 4uuv-a2-m1-cD_4uuv-a2-m1-cG Structure of the DNA binding ETS domain of human ETV4 in complex with DNA P43268 P43268 2.8 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 4avp-a1-m1-cA_4avp-a1-m1-cB 4avp-a2-m1-cC_4avp-a2-m1-cD 4co8-a1-m1-cA_4co8-a1-m2-cA 4uuv-a1-m1-cJ_4uuv-a1-m1-cV 4uuv-a3-m1-cM_4uuv-a3-m1-cS 4uuv-a4-m1-cA_4uuv-a4-m1-cP 5ils-a2-m1-cA_5ils-a2-m2-cA 5ilu-a2-m1-cA_5ilu-a2-m2-cA ALQLWQFLVALLDDPTNAHFIAWTGRGMEFKLIEPEEVARLWGIQKNRPAMNYDKLSRSLRYYYEKGIMQKVAGERYVYKFVCEPDALFSMAFPD ALQLWQFLVALLDDPTNAHFIAWTGRGMEFKLIEPEEVARLWGIQKNRPAMNYDKLSRSLRYYYEKGIMQKVAGERYVYKFVCEPDALFSMAFPD 4uuw-a1-m1-cA_4uuw-a1-m1-cB Competence or damage-inducible protein CinA from Thermus thermophilus Q5SHB0 Q5SHB0 1.98 X-RAY DIFFRACTION 226 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 394 394 4ct8-a1-m1-cB_4ct8-a1-m1-cA 4ct9-a1-m1-cB_4ct9-a1-m1-cA 4cta-a1-m1-cA_4cta-a1-m1-cB 4uoc-a1-m1-cB_4uoc-a1-m1-cA 4uux-a1-m1-cA_4uux-a1-m1-cB MERAEILGVGTELLYGETLDTNTAEIARSLKPYALKVERTLRVADEVAPLAREVEEAFARARLVVLSGGLGPTPDDVTREAVALALGEPLELDEAVLGEIEAFFRARGRAMPEANRKQAMRIPSATWLKNPRGTAPGWWVRKGGKDLVLLPGPPPEWRPMWQEVLPRLGLPRRPYAERVLKTWGIGESEIVERLGPLFVREEEVEVGTYPKVHGVEVVVRGREDRVAELAERIKKKLLKEVWGEGEMTLAEAVKRRMEREGATLSTMESLTGGLLGAEITRVPGASRFYLGGVVSYSVGAKARFGVPQDLLSRTVSAETARAMAEAARSLFGSTYALATTGVAGPDPLEGEPPGTVYVALAGPTGAEVRRYRFPGDRETVRLRSVYAALALLVT MERAEILGVGTELLYGETLDTNTAEIARSLKPYALKVERTLRVADEVAPLAREVEEAFARARLVVLSGGLGPTPDDVTREAVALALGEPLELDEAVLGEIEAFFRARGRAMPEANRKQAMRIPSATWLKNPRGTAPGWWVRKGGKDLVLLPGPPPEWRPMWQEVLPRLGLPRRPYAERVLKTWGIGESEIVERLGPLFVREEEVEVGTYPKVHGVEVVVRGREDRVAELAERIKKKLLKEVWGEGEMTLAEAVKRRMEREGATLSTMESLTGGLLGAEITRVPGASRFYLGGVVSYSVGAKARFGVPQDLLSRTVSAETARAMAEAARSLFGSTYALATTGVAGPDPLEGEPPGTVYVALAGPTGAEVRRYRFPGDRETVRLRSVYAALALLVT 4uuy-a1-m1-cA_4uuy-a1-m1-cB Structural Identification of the Vps18 beta-propeller reveals a critical role in the HOPS complex stability and function. P27801 P27801 2.14 X-RAY DIFFRACTION 75 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 317 318 SIKTRIEEVQLQFLTGNTELTHLKVSNDQLIVTTQRTIYRINLQDPAIVNHFDCPLSKELETIMNVHVSPMGSVILIRTNFGRYMLLKDGEFTQLNKIKNLDLSSLHWINETTFLMGIKKTPKLYRVELTGKDITTKLWYENKKLSGGIDGIAYWEGSLLLTIKDNILYWRDVTNMKFPLVLPDESEQFERLKHHAIKKFDSYNGLFAWVTSNGIVFGDLKEFGKFLSSSKVLLNFELPDLIKDIVLTAFHILLLRKNTVTMVSQLNNDVVFHETIEKFLGLVRDSVKETFWCFSNINVFEIIIENEPNSVWNLLVR SIKTRIEEVQLQFLTGNTELTHLKVSNDQLIVTTQRTIYRINLQDPAIVNHFDCPLSKELETIMNVHVSPMGSVILIRTNFGRYMLLKDGEFTQLNKIKNLDLSSLHWINETTFLMGIKKTPKLYRVELTGKDITTKLWYENKKLSGGIDGIAYWEGSLLLTIKDNILYWRDVTNMKFPLVLPDESEQFERLKHHAIKKFDSYNGLFAWVTSNGIVFGDLKEFGKFLSSSKVLLNFELPDYLIKDIVLTAFHILLLRKNTVTMVSQLNNDVVFHETINEKFLGLVRDSVKETFWCFSNINVFEIIIENEPNSVWNLLV 4uv2-a2-m1-cM_4uv2-a2-m1-cN Structure of the curli transport lipoprotein CsgG in a non-lipidated, pre-pore conformation P0AEA2 P0AEA2 2.8 X-RAY DIFFRACTION 130 1.0 1403831 (Escherichia coli str. K-12 substr. MC4100) 1403831 (Escherichia coli str. K-12 substr. MC4100) 212 228 RAQSYKDLTHLPAPTGKIFVSVYNIQDETGQFKPYPASNFSTAVPQSATALVTALKDSRWFIPLERQGLQNLLNERKIIRAAQENGTVAINNRIPLQSLTAANIVEGSIIGYESNVQYQLDQIAVNLRVVNVSTGEILSSVNTSKTILSYEVQAGVFRFIDYGYTSNEPVLCLSAIETGVIFLINDGIDRGLWDLQNKAERQNDILVKYRHS RAQSYKDLTHLPAPTGKIFVSVYNIQDETGQFKPYPASNFSTAVPQSATALVTALKDSRWFIPLERQGLQNLLNERKIIRAAQENGTVAINNRIPLQSLTAANIVEGSIIGYESNVKSGGVGARYFGIGADTQYQLDQIAVNLRVVNVSTGEILSSVNTSKTILSYEVQAGVFRFIDYGYTSNEPVLCLSAIETGVIFLINDGIDRGLWDLQNKAERQNDILVKYRHS 4uvj-a1-m1-cA_4uvj-a1-m1-cB Cohesin subunit Scc3 from yeast, 674-1072 P40541 P40541 2.1 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 364 364 DSVKEIVLPLFYDLLNAASILCPLLESFITFSETELKKITDKTIKAFMDSTIGNSKVDMKYDIFAKFIHHIHHFEKKELQEKFLNQIATLKIHLKKFLQEKMDPNNSRDDYKDLTCSLYELYINKLTILGRDYPIEVDEELLQLFLNNFVSRIPIMFQDFDDSTAQEINFKMLVLLATWNLEKWREIIEKVRDLRSVWKPIAAIIGRLNTLVISLAATNETFENINSLFYLKWSACTSLMDIIVAIKIFELKLPADATTWRYSMSEQFPFYLHDNASKVLLKIFLYLESLFAKQVDVQLERVADEDANLNDLPETGFFENIETEFLLFTVKLKGLMKLNILDERFASRVALNKEKLGPLFKKIV DSVKEIVLPLFYDLLNAASILCPLLESFITFSETELKKITDKTIKAFMDSTIGNSKVDMKYDIFAKFIHHIHHFEKKELQEKFLNQIATLKIHLKKFLQEKMDPNNSRDDYKDLTCSLYELYINKLTILGRDYPIEVDEELLQLFLNNFVSRIPIMFQDFDDSTAQEINFKMLVLLATWNLEKWREIIEKVRDLRSVWKPIAAIIGRLNTLVISLAATNETFENINSLFYLKWSACTSLMDIIVAIKIFELKLPADATTWRYSMSEQFPFYLHDNASKVLLKIFLYLESLFAKQVDVQLERVADEDANLNDLPETGFFENIETEFLLFTVKLKGLMKLNILDERFASRVALNKEKLGPLFKKIV 4uvq-a1-m1-cA_4uvq-a1-m2-cA PatG Domain of Unknown Function Q52QJ1 Q52QJ1 1.724 X-RAY DIFFRACTION 59 1.0 1215 (Prochloron sp.) 1215 (Prochloron sp.) 259 259 FSGNVYALGTIGYDFGDEARRDTFKERADPYDARQVERLDRNPDEARSLIWTLNLEGDVIYALDPKGPFATNVYEIFLQLAGQLEPETSADFIERLSVPARRTTRTVELFSGEVVPVVNVRDPRGYGWNVNALVDAALATVEYEDEDSLRQGLTAFLNRVYHDLHNLGQTSRDRALNFTVTNTFQAASTFAQAIASGRQLDTIEVNKSPYCRLNSDCWDVLLTFYDPEHGRRSRRVFRFTLDVVYVLPVTVGSIKSWSL FSGNVYALGTIGYDFGDEARRDTFKERADPYDARQVERLDRNPDEARSLIWTLNLEGDVIYALDPKGPFATNVYEIFLQLAGQLEPETSADFIERLSVPARRTTRTVELFSGEVVPVVNVRDPRGYGWNVNALVDAALATVEYEDEDSLRQGLTAFLNRVYHDLHNLGQTSRDRALNFTVTNTFQAASTFAQAIASGRQLDTIEVNKSPYCRLNSDCWDVLLTFYDPEHGRRSRRVFRFTLDVVYVLPVTVGSIKSWSL 4uvr-a1-m1-cA_4uvr-a1-m2-cA Binding mode, selectivity and potency of N-indolyl-oxopyridinyl-4- amino-propanyl-based inhibitors targeting Trypanosoma cruzi CYP51 Q7Z1V1 Q7Z1V1 2.48 X-RAY DIFFRACTION 33 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 439 439 GKLPPVYPVTVPFLGHIVQFGKNPLEFMQRCKRDLKSGVFTISIGGQRVTIVGDPHEHSRFFSPRNEILSPREVYTIMTPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAENWKEDEGVINLLEDCGAMIINTACQCLFGEDLRKRLNARHFAQLLSKMESSLIPAAVFMPWLLRLPLPQSARCREARAELQKILGEIIVAREKSDLLGGLLKAVYRDGTRMSLHEVCGMIVAAMFAGQHTSTITTSWSMLHLMHPKNKKWLDKLHKEIDEFPAQLNYDNVMDEMPFAERCVRESIRRDPPLLMVMRMVKAEVKVGSYVVPKGDIIACSPLLSHHDEEAFPNPRLWDPERDEKVDGAFIGFGAGVHKCIGQKFALLQVKTILATAFREYDFQLLRDEVPDPDYHTMVVGPTLNQCLVKYTRK GKLPPVYPVTVPFLGHIVQFGKNPLEFMQRCKRDLKSGVFTISIGGQRVTIVGDPHEHSRFFSPRNEILSPREVYTIMTPVFGEGVAYAAPYPRMREQLNFLAEELTIAKFQNFVPAIQHEVRKFMAENWKEDEGVINLLEDCGAMIINTACQCLFGEDLRKRLNARHFAQLLSKMESSLIPAAVFMPWLLRLPLPQSARCREARAELQKILGEIIVAREKSDLLGGLLKAVYRDGTRMSLHEVCGMIVAAMFAGQHTSTITTSWSMLHLMHPKNKKWLDKLHKEIDEFPAQLNYDNVMDEMPFAERCVRESIRRDPPLLMVMRMVKAEVKVGSYVVPKGDIIACSPLLSHHDEEAFPNPRLWDPERDEKVDGAFIGFGAGVHKCIGQKFALLQVKTILATAFREYDFQLLRDEVPDPDYHTMVVGPTLNQCLVKYTRK 4uwe-a1-m1-cC_4uwe-a1-m1-cD Structure of the ryanodine receptor at resolution of 8.5 A in partially open state P11716 P11716 8.5 ELECTRON MICROSCOPY 133 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 3322 3322 4uwa-a1-m1-cA_4uwa-a1-m1-cB 4uwa-a1-m1-cA_4uwa-a1-m1-cD 4uwa-a1-m1-cB_4uwa-a1-m1-cC 4uwa-a1-m1-cC_4uwa-a1-m1-cD 4uwe-a1-m1-cA_4uwe-a1-m1-cB 4uwe-a1-m1-cA_4uwe-a1-m1-cD 4uwe-a1-m1-cB_4uwe-a1-m1-cC DEVQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANTVEAGVESSQGGGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSNRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDNCYMVWGISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX DEVQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANTVEAGVESSQGGGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSNRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDNCYMVWGISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 4uwm-a1-m1-cA_4uwm-a1-m1-cB Type II Baeyer-Villiger monooxygenase.The oxygenating constituent of 3,6-diketocamphane monooxygenase from CAM plasmid of Pseudomonas putida in complex with FMN. D7UER1 D7UER1 1.9 X-RAY DIFFRACTION 182 0.997 303 (Pseudomonas putida) 303 (Pseudomonas putida) 362 362 5aec-a1-m1-cA_5aec-a1-m1-cB MAMETGLIFHPYMRPGRSARQTFDWGIKSAVQADSVGIDSMMISEHASQIWENIPNPELLIAAAALQTKNIKFAPMAHLLPHQHPAKLATMIGWLSQILEGRYFLGIGAGAYPQASYMHGIRNAGTKNLNDMVRESLFIMEKIWKREPFFHEGKYWDAGYPEELEDEQHKLADFSPWGGKAPEIAVTGFSYNSPSMRLAGERNFKPVSIFSGLDALKRHWEVYSEAAIEAGHTPDRSRHAVSHTVFCADTDKEAKRLVMEGPIGYCFERYLIPIWRRFGMMDGYAKDAGIDPVDADLEFLVDNVFLVGSPDTVTEKINALFEATGGWGTLQVEAHDYYDDPAPWFQSLELISKEVAPKILLP MAMETGLIFHPYMRPGRSARQTFDWGIKSAVQADSVGIDSMMISEHASQIWENIPNPELLIAAAALQTKNIKFAPMAHLLPHQHPAKLATMIGWLSQILEGRYFLGIGAGAYPQASYMHGIRNATKNLNDMVRESLFIMEKIWKREPFFHEGKYWDAGYPEELEDEQHKLADFSPWGGKAPEIAVTGFSYNSPSMRLAGERNFKPVSIFSGLDALKRHWEVYSEAAIEAGHTPDRSRHAVSHTVFCADTDKEAKRLVMEGPIGYCFERYLIPIWRRFGMMDGYAKDAGIDPVDADLEFLVDNVFLVGSPDTVTEKINALFEATGGWGTLQVEAHDYYDDPAPWFQSLELISKEVAPKILLPK 4ux6-a1-m1-cB_4ux6-a1-m2-cB The discovery of novel, potent and highly selective inhibitors of inducible nitric oxide synthase (iNOS) P29477 P29477 3 X-RAY DIFFRACTION 130 1.0 10090 (Mus musculus) 10090 (Mus musculus) 389 389 1df1-a1-m1-cA_1df1-a1-m2-cA 1df1-a2-m1-cB_1df1-a2-m3-cB 1dwv-a1-m1-cA_1dwv-a1-m2-cA 1dwv-a2-m1-cB_1dwv-a2-m3-cB 1dww-a1-m1-cA_1dww-a1-m2-cA 1dww-a2-m1-cB_1dww-a2-m3-cB 1dwx-a1-m1-cA_1dwx-a1-m2-cA 1dwx-a2-m1-cB_1dwx-a2-m3-cB 1jwj-a1-m1-cA_1jwj-a1-m2-cA 1jwj-a2-m1-cB_1jwj-a2-m3-cB 1jwk-a1-m1-cA_1jwk-a1-m2-cA 1jwk-a2-m1-cB_1jwk-a2-m3-cB 1m8d-a1-m1-cA_1m8d-a1-m2-cA 1m8d-a2-m1-cB_1m8d-a2-m3-cB 1m8e-a1-m1-cA_1m8e-a1-m2-cA 1m8e-a2-m1-cB_1m8e-a2-m3-cB 1m8h-a1-m1-cA_1m8h-a1-m2-cA 1m8h-a2-m1-cB_1m8h-a2-m3-cB 1m8i-a1-m1-cA_1m8i-a1-m2-cA 1m8i-a2-m1-cB_1m8i-a2-m3-cB 1m9t-a1-m1-cA_1m9t-a1-m2-cA 1m9t-a2-m1-cB_1m9t-a2-m3-cB 1n2n-a1-m1-cA_1n2n-a1-m2-cA 1n2n-a2-m1-cB_1n2n-a2-m3-cB 1nod-a2-m1-cA_1nod-a2-m2-cA 1nod-a3-m1-cB_1nod-a3-m3-cB 1qom-a1-m1-cA_1qom-a1-m3-cA 1qom-a2-m1-cB_1qom-a2-m2-cB 1qw4-a1-m1-cA_1qw4-a1-m2-cA 1qw4-a2-m1-cB_1qw4-a2-m3-cB 1qw5-a1-m1-cA_1qw5-a1-m2-cA 1qw5-a2-m1-cB_1qw5-a2-m3-cB 1r35-a2-m1-cA_1r35-a2-m2-cA 1r35-a3-m1-cB_1r35-a3-m3-cB 1vaf-a1-m1-cA_1vaf-a1-m2-cA 1vaf-a2-m1-cB_1vaf-a2-m3-cB 2bhj-a1-m1-cA_2bhj-a1-m2-cA 2nod-a1-m1-cA_2nod-a1-m2-cA 2nod-a2-m1-cB_2nod-a2-m3-cB 2y37-a1-m1-cA_2y37-a1-m2-cA 2y37-a2-m1-cB_2y37-a2-m3-cB 3dwj-a1-m1-cA_3dwj-a1-m2-cA 3dwj-a2-m1-cB_3dwj-a2-m3-cB 3e65-a1-m1-cA_3e65-a1-m2-cA 3e65-a2-m1-cB_3e65-a2-m3-cB 3e67-a1-m1-cA_3e67-a1-m2-cA 3e67-a2-m1-cB_3e67-a2-m3-cB 3e68-a1-m1-cA_3e68-a1-m2-cA 3e68-a2-m1-cB_3e68-a2-m3-cB 3e6l-a1-m1-cA_3e6l-a1-m2-cA 3e6l-a2-m1-cB_3e6l-a2-m3-cB 3e6n-a1-m1-cA_3e6n-a1-m2-cA 3e6n-a2-m1-cB_3e6n-a2-m3-cB 3e6o-a1-m1-cA_3e6o-a1-m2-cA 3e6o-a2-m1-cB_3e6o-a2-m3-cB 3e6t-a1-m1-cA_3e6t-a1-m2-cA 3e6t-a2-m1-cB_3e6t-a2-m3-cB 3e7i-a1-m1-cA_3e7i-a1-m2-cA 3e7i-a2-m1-cB_3e7i-a2-m3-cB 3e7m-a1-m1-cA_3e7m-a1-m2-cA 3e7m-a2-m1-cB_3e7m-a2-m3-cB 3e7t-a1-m1-cA_3e7t-a1-m2-cA 3e7t-a2-m1-cB_3e7t-a2-m3-cB 3eai-a1-m1-cA_3eai-a1-m2-cA 3eai-a2-m1-cB_3eai-a2-m3-cB 3ebd-a1-m1-cA_3ebd-a1-m2-cA 3ebd-a2-m1-cB_3ebd-a2-m3-cB 3ebf-a1-m1-cA_3ebf-a1-m2-cA 3ebf-a2-m1-cB_3ebf-a2-m3-cB 3nod-a1-m1-cA_3nod-a1-m2-cA 3nod-a2-m1-cB_3nod-a2-m3-cB 3nqs-a1-m1-cA_3nqs-a1-m2-cA 3nqs-a2-m1-cB_3nqs-a2-m3-cB 3nw2-a1-m1-cA_3nw2-a1-m2-cA 3nw2-a2-m1-cB_3nw2-a2-m3-cB 4js9-a1-m1-cA_4js9-a1-m2-cA 4js9-a2-m1-cB_4js9-a2-m3-cB SCLGSIMNPKSLTRGPRDKPTPLEELLPHAIEFINQYYGSFKEAKIEEHLARLEAVTKEIETTGTYQLTLDELIFATKMAWRNAPRCIGRIQWSNLQVFDARNCSTAQEMFQHICRHILYATNNGNIRSAITVFPQRSDGKHDFRLWNSQLIRYAGYQMPDGTIRGDAATLEFTQLCIDLGWKPRYGRFDVLPLVLQADGQDPEVFEIPPDLVLEVTMEHPKYEWFQELGLKWYALPAVANMLLEVGGLEFPACPFNGWYMGTEIGVRDFCDTQRYNILEEVGRRMGLETHTLASLWKDRAVTEINVAVLHSFQKQNVTIMDHHTASESFMKHMQNEYRARGGCPADWIWLVPPVSGSITPVFHQEMLNYVLSPFYYYQIEPWKTHIWQ SCLGSIMNPKSLTRGPRDKPTPLEELLPHAIEFINQYYGSFKEAKIEEHLARLEAVTKEIETTGTYQLTLDELIFATKMAWRNAPRCIGRIQWSNLQVFDARNCSTAQEMFQHICRHILYATNNGNIRSAITVFPQRSDGKHDFRLWNSQLIRYAGYQMPDGTIRGDAATLEFTQLCIDLGWKPRYGRFDVLPLVLQADGQDPEVFEIPPDLVLEVTMEHPKYEWFQELGLKWYALPAVANMLLEVGGLEFPACPFNGWYMGTEIGVRDFCDTQRYNILEEVGRRMGLETHTLASLWKDRAVTEINVAVLHSFQKQNVTIMDHHTASESFMKHMQNEYRARGGCPADWIWLVPPVSGSITPVFHQEMLNYVLSPFYYYQIEPWKTHIWQ 4ux7-a1-m1-cA_4ux7-a1-m1-cB Structure of a Clostridium difficile sortase Q183F3 Q183F3 2.55 X-RAY DIFFRACTION 102 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 204 204 KKAGSAAAPFTHDTKISSELQKKEYKKEDLSKINSDFKFWLSVENTNINYPVVQSKDNSYYLDKDFYKKDSISGTLFMDYRNKSIDDKNIIIYGHNMKNKTMFNNLNKFKDADFFKKNNKIKITLNGKEFLYDVFSAYIVESDYDYLKTNFNNESDYQNYINDITSKSLYKSPIKVNSNDKIVTLSTATYEFDDARMVIHGRLI KKAGSAAAPFTHDTKISSELQKKEYKKEDLSKINSDFKFWLSVENTNINYPVVQSKDNSYYLDKDFYKKDSISGTLFMDYRNKSIDDKNIIIYGHNMKNKTMFNNLNKFKDADFFKKNNKIKITLNGKEFLYDVFSAYIVESDYDYLKTNFNNESDYQNYINDITSKSLYKSPIKVNSNDKIVTLSTATYEFDDARMVIHGRLI 4uxa-a9-m1-cK_4uxa-a9-m1-cL Improved variant of (R)-selective manganese-dependent hydroxynitrile lyase from bacteria E8WYN5 E8WYN5 2.1 X-RAY DIFFRACTION 114 1.0 940615 (Granulicella tundricola) 940615 (Granulicella tundricola) 131 131 4bif-a1-m1-cA_4bif-a1-m1-cB 4bif-a1-m1-cC_4bif-a1-m1-cD 4bif-a2-m1-cE_4bif-a2-m1-cF 4bif-a2-m1-cG_4bif-a2-m1-cH 4uxa-a10-m1-cI_4uxa-a10-m1-cJ 4uxa-a1-m1-cS_4uxa-a1-m1-cT 4uxa-a2-m1-cE_4uxa-a2-m1-cF 4uxa-a3-m1-cQ_4uxa-a3-m1-cR 4uxa-a4-m1-cG_4uxa-a4-m1-cH 4uxa-a5-m1-cO_4uxa-a5-m1-cP 4uxa-a6-m1-cM_4uxa-a6-m1-cN 4uxa-a7-m1-cC_4uxa-a7-m1-cD 4uxa-a8-m1-cA_4uxa-a8-m1-cB MEIKRVGSQASGKGPADWFTGTVRIDPLFQAPDPALVAGHSTTFEPGARTAWHTHPLGQTLIVTAGCGWAQREGGAVEEIHPGDVVWFSPGEKHWHGAAPTTAMTHLAIHERLDGKAVDWMEHVTDEQYRR MEIKRVGSQASGKGPADWFTGTVRIDPLFQAPDPALVAGHSTTFEPGARTAWHTHPLGQTLIVTAGCGWAQREGGAVEEIHPGDVVWFSPGEKHWHGAAPTTAMTHLAIHERLDGKAVDWMEHVTDEQYRR 4uxd-a1-m1-cA_4uxd-a1-m1-cD 2-keto 3-deoxygluconate aldolase from Picrophilus torridus Q6KZI8 Q6KZI8 2.5 X-RAY DIFFRACTION 27 1.0 82076 () 82076 () 274 274 4uxd-a1-m1-cB_4uxd-a1-m1-cC MYKGIVCPMITPLDAHGNIDYNATNILIKYLEGINVDYLFPMGSTGVFPYFTLKERKDFLKFVRENSKKPIMAGVGSSSINEVNELMKFSMDIGIEAAVLMPPYYIKLNQEAIYHYYKEILSSNDMDLLIYNIPQFTNKIDPETVKNLKSEFSSVKGVKDSSADIRGFMEMLSLSDDDFAVFQGQDDLLFTSLELGASGGVCGTTNFSDGIVRLYHEYKNNREMALKIEKNDVIPLMKKLGKYQFPNAYYEYFYKKNNINGGYRPPMYRVGIEI MYKGIVCPMITPLDAHGNIDYNATNILIKYLEGINVDYLFPMGSTGVFPYFTLKERKDFLKFVRENSKKPIMAGVGSSSINEVNELMKFSMDIGIEAAVLMPPYYIKLNQEAIYHYYKEILSSNDMDLLIYNIPQFTNKIDPETVKNLKSEFSSVKGVKDSSADIRGFMEMLSLSDDDFAVFQGQDDLLFTSLELGASGGVCGTTNFSDGIVRLYHEYKNNREMALKIEKNDVIPLMKKLGKYQFPNAYYEYFYKKNNINGGYRPPMYRVGIEI 4uxd-a1-m1-cC_4uxd-a1-m1-cD 2-keto 3-deoxygluconate aldolase from Picrophilus torridus Q6KZI8 Q6KZI8 2.5 X-RAY DIFFRACTION 110 1.0 82076 () 82076 () 274 274 4uxd-a1-m1-cA_4uxd-a1-m1-cB MYKGIVCPMITPLDAHGNIDYNATNILIKYLEGINVDYLFPMGSTGVFPYFTLKERKDFLKFVRENSKKPIMAGVGSSSINEVNELMKFSMDIGIEAAVLMPPYYIKLNQEAIYHYYKEILSSNDMDLLIYNIPQFTNKIDPETVKNLKSEFSSVKGVKDSSADIRGFMEMLSLSDDDFAVFQGQDDLLFTSLELGASGGVCGTTNFSDGIVRLYHEYKNNREMALKIEKNDVIPLMKKLGKYQFPNAYYEYFYKKNNINGGYRPPMYRVGIEI MYKGIVCPMITPLDAHGNIDYNATNILIKYLEGINVDYLFPMGSTGVFPYFTLKERKDFLKFVRENSKKPIMAGVGSSSINEVNELMKFSMDIGIEAAVLMPPYYIKLNQEAIYHYYKEILSSNDMDLLIYNIPQFTNKIDPETVKNLKSEFSSVKGVKDSSADIRGFMEMLSLSDDDFAVFQGQDDLLFTSLELGASGGVCGTTNFSDGIVRLYHEYKNNREMALKIEKNDVIPLMKKLGKYQFPNAYYEYFYKKNNINGGYRPPMYRVGIEI 4uxl-a1-m1-cA_4uxl-a1-m2-cA Structure of Human ROS1 Kinase Domain in Complex with PF-06463922 P08922 P08922 2.4 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 IENLPAFPREKLTLRLLLGSGAFGEVYEGTAVDILGVGSGEIKVAVKTLKKGSTDQEKIEFLKEAHLMSKFNHPNILKQLGVCLLNEPQYIILELMEGGDLLTYLRKARMATFYGPLLTLVDLVDLCVDISKGCVYLERMHFIHRDLAARNCLVSVKDYTSPRIVKIGDFGLARDIYKEGLLPVRWMAPESLMDGIFTTQSDVWSFGILIWEILTLGHQPYPAHSNLDVLNYVQTGGRLEPPRNCPDDLWNLMTQCWAQEPDQRPTFHRIQDQLQLFRNFFLNSIYKS IENLPAFPREKLTLRLLLGSGAFGEVYEGTAVDILGVGSGEIKVAVKTLKKGSTDQEKIEFLKEAHLMSKFNHPNILKQLGVCLLNEPQYIILELMEGGDLLTYLRKARMATFYGPLLTLVDLVDLCVDISKGCVYLERMHFIHRDLAARNCLVSVKDYTSPRIVKIGDFGLARDIYKEGLLPVRWMAPESLMDGIFTTQSDVWSFGILIWEILTLGHQPYPAHSNLDVLNYVQTGGRLEPPRNCPDDLWNLMTQCWAQEPDQRPTFHRIQDQLQLFRNFFLNSIYKS 4uxu-a1-m1-cA_4uxu-a1-m1-cB Crystal Structure of the Extracellular Domain of the Human Alpha9 Nicotinic Acetylcholine Receptor In Complex with Methyllycaconitine Q9UGM1 Q9UGM1 1.71 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 GKYAQKLFNDLFEDYSNALRPVEDTDKVLNVTLQITLSQIKDMDERNQILTAYLWIRQIWHDAYLTWDRDQYDGLDSIRIPSDLVWRPDIVLYNKADDESSEPVNTNVVLRYDGLITWDAPAITKSSCVVDVTYFPFDNQQCNLTFGSWTYNGNQVDIFNALDSGDLSDFIEDVEWEVHGMPAVKNVISYGCCSEPYPDVTFTLLLKRRS GKYAQKLFNDLFEDYSNALRPVEDTDKVLNVTLQITLSQIKDMDERNQILTAYLWIRQIWHDAYLTWDRDQYDGLDSIRIPSDLVWRPDIVLYNKADDESSEPVNTNVVLRYDGLITWDAPAITKSSCVVDVTYFPFDNQQCNLTFGSWTYNGNQVDIFNALDSGDLSDFIEDVEWEVHGMPAVKNVISYGCCSEPYPDVTFTLLLKRRS 4uy9-a1-m1-cA_4uy9-a1-m2-cB Structure of MLK1 kinase domain with leucine zipper 1 P80192 P80192 2.81 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 313 315 4uy9-a1-m2-cA_4uy9-a1-m1-cB QLLEIDFAELTLEEIIGIGGFGKVYRAFWIGDEVAVKAARHDPDEDISQTIENVRQEAKLFAMLKHPNIIALRGVCLKEPNLCLVMEFARGGPLNRVLSGKRIPPDILVNWAVQIARGMNYLHDEAIVPIIHRDLKSSNILILQKVENGDLSNKILKITDFGLAREWHRTTKMSAAGTYAWMAPEVIRASMFSKGSDVWSYGVLLWELLTGEVPFRGIDGLAVAYGVAMNKLALPIPSTCPEPFAKLMEDCWNPDPHSRPSFTNILDQLTTIEESGFFEMPKDSFHCLQDNWKHEIQEMFDQLRAKEKELRTW QLLEIDFAELTLEEIIGIGGFGKVYRAFWIGDEVAVKAARHDPDEDISQTIENVRQEAKLFAMLKHPNIIALRGVCLKEPNLCLVMEFARGGPLNRVLSGKRIPPDILVNWAVQIARGMNYLHDEAIVPIIHRDLKSSNILILQKVENGDLSNKILKITDFGLAREWHRTTKMSAAGTYAWMAPEVIRASMFSKGSDVWSYGVLLWELLTGEVPFRGIDGLAVAYGVAMNKLALPIPSTCPEPFAKLMEDCWNPDPHSRPSFTNILDQLTTIEESGFFEMPKDSFHCLQDNWKHEIQEMFDQLRAKEKELRTWEE 4uy9-a1-m2-cA_4uy9-a1-m2-cB Structure of MLK1 kinase domain with leucine zipper 1 P80192 P80192 2.81 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 313 315 4uy9-a1-m1-cA_4uy9-a1-m1-cB QLLEIDFAELTLEEIIGIGGFGKVYRAFWIGDEVAVKAARHDPDEDISQTIENVRQEAKLFAMLKHPNIIALRGVCLKEPNLCLVMEFARGGPLNRVLSGKRIPPDILVNWAVQIARGMNYLHDEAIVPIIHRDLKSSNILILQKVENGDLSNKILKITDFGLAREWHRTTKMSAAGTYAWMAPEVIRASMFSKGSDVWSYGVLLWELLTGEVPFRGIDGLAVAYGVAMNKLALPIPSTCPEPFAKLMEDCWNPDPHSRPSFTNILDQLTTIEESGFFEMPKDSFHCLQDNWKHEIQEMFDQLRAKEKELRTW QLLEIDFAELTLEEIIGIGGFGKVYRAFWIGDEVAVKAARHDPDEDISQTIENVRQEAKLFAMLKHPNIIALRGVCLKEPNLCLVMEFARGGPLNRVLSGKRIPPDILVNWAVQIARGMNYLHDEAIVPIIHRDLKSSNILILQKVENGDLSNKILKITDFGLAREWHRTTKMSAAGTYAWMAPEVIRASMFSKGSDVWSYGVLLWELLTGEVPFRGIDGLAVAYGVAMNKLALPIPSTCPEPFAKLMEDCWNPDPHSRPSFTNILDQLTTIEESGFFEMPKDSFHCLQDNWKHEIQEMFDQLRAKEKELRTWEE 4uyi-a1-m3-cA_4uyi-a1-m6-cA Crystal structure of the BTB domain of human SLX4 (BTBD12) Q8IY92 Q8IY92 1.86 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 4uyi-a1-m1-cA_4uyi-a1-m2-cA 4uyi-a1-m4-cA_4uyi-a1-m5-cA 4zou-a1-m1-cA_4zou-a1-m2-cA LYFQSMGRTLLSLGLLVADFGAMVNNPHLSDVQFQTDSGEVLYAHKFVLYARCPLLIQYVNNEGFSAIEDGVETQRVLLGDVSTEAARTFLHYLYTADTGLPPGLSSELSSLAHRFGVSELVHLCEQ LYFQSMGRTLLSLGLLVADFGAMVNNPHLSDVQFQTDSGEVLYAHKFVLYARCPLLIQYVNNEGFSAIEDGVETQRVLLGDVSTEAARTFLHYLYTADTGLPPGLSSELSSLAHRFGVSELVHLCEQ 4uyi-a1-m4-cA_4uyi-a1-m6-cA Crystal structure of the BTB domain of human SLX4 (BTBD12) Q8IY92 Q8IY92 1.86 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 4uyi-a1-m1-cA_4uyi-a1-m5-cA 4uyi-a1-m2-cA_4uyi-a1-m3-cA LYFQSMGRTLLSLGLLVADFGAMVNNPHLSDVQFQTDSGEVLYAHKFVLYARCPLLIQYVNNEGFSAIEDGVETQRVLLGDVSTEAARTFLHYLYTADTGLPPGLSSELSSLAHRFGVSELVHLCEQ LYFQSMGRTLLSLGLLVADFGAMVNNPHLSDVQFQTDSGEVLYAHKFVLYARCPLLIQYVNNEGFSAIEDGVETQRVLLGDVSTEAARTFLHYLYTADTGLPPGLSSELSSLAHRFGVSELVHLCEQ 4uyp-a1-m1-cA_4uyp-a1-m1-cC High resolution structure of the third cohesin ScaC in complex with the ScaB dockerin with a mutation in the N-terminal helix (IN to SI) from Acetivibrio cellulolyticus displaying a type I interaction. Q7WYN2 Q7WYN2 1.49 X-RAY DIFFRACTION 83 1.0 35830 (Acetivibrio cellulolyticus) 35830 (Acetivibrio cellulolyticus) 144 146 MLQVDIGSTSGKAGSVVSVPITFTNVPKSGIYALSFRTNFDPQKVTVASIDAGSLIENASDFTTYYNNENGFASMTFEAPVDRARIIDSDGVFATINFKVSDSAKVGELYNITTNSAYTSFYYSGTDEIKNVVYNDGKIEVIAL MLQVDIGSTSGKAGSVVSVPITFTNVPKSGIYALSFRTNFDPQKVTVASIDAGSLIENASDFTTYYNNENGFASMTFEAPVDRARIIDSDGVFATINFKVSDSAKVGELYNITTNSAYTSFYYSGTDEIKNVVYNDGKIEVIALEH 4uz8-a1-m1-cB_4uz8-a1-m1-cA The SeMet structure of the family 46 carbohydrate-binding module (CBM46) of endo-beta-1,4-glucanase B (Cel5B) from Bacillus halodurans Q9KF82 Q9KF82 2.3 X-RAY DIFFRACTION 32 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 104 105 4uzn-a1-m1-cA_4uzn-a1-m1-cB RTPVLQSTQGHVSNFSIPASFNGNSLATEAVYVDGGNAGPQDWTSFKEFGYAFSPSYDANEKLTEAFFREVRDGEVRLTFHFWSGETVNYTIIKNGNQVTGIAA YRTPVLQSTQGHVSNFSIPASFNGNSLATEAVYVDGGNAGPQDWTSFKEFGYAFSPSYDANEKLTEAFFREVRDGEVRLTFHFWSGETVNYTIIKNGNQVTGIAA 4uza-a1-m2-cA_4uza-a1-m3-cA STRUCTURE OF THE WNT DEACYLASE NOTUM - CRYSTAL FORM VIII - PHOSPHATE COMPLEX - 2.4A Q6P988 Q6P988 2.4 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 355 355 4uza-a1-m1-cA_4uza-a1-m2-cA 4uza-a1-m1-cA_4uza-a1-m3-cA QQLNEDLRLHLLLNTSVTCNDGSPAGYYLKESRGSRRWLLFLEGGWYCFNRENCDSRYDTMSSLMSSRDWPRTRTGTGILSSQPEENPYWWNANMVFIPYCSSDVWSGASSKSEKNEYAFMGALIIQEVVRELLGRGLSGAKVLLLAGSSAGGTGVLLNVDRVAEQLEKLGYPAIQVRGLADSGWFLDNKQYRHTDCVDTITCAPTEAIRRGIRYWNGVVPERCRRQFQEGEEWNCFFGYKVYPTLRSPVFVVQWLFDEAQLTVDNVHPVQEGLRLYIQNLGRELRHTLKDVPASFAPACLSHEIIIRSHWTDVQVKGTSLPRALHCWDRSLHKGCPVHLVDSCPWPHCNPSCPT QQLNEDLRLHLLLNTSVTCNDGSPAGYYLKESRGSRRWLLFLEGGWYCFNRENCDSRYDTMSSLMSSRDWPRTRTGTGILSSQPEENPYWWNANMVFIPYCSSDVWSGASSKSEKNEYAFMGALIIQEVVRELLGRGLSGAKVLLLAGSSAGGTGVLLNVDRVAEQLEKLGYPAIQVRGLADSGWFLDNKQYRHTDCVDTITCAPTEAIRRGIRYWNGVVPERCRRQFQEGEEWNCFFGYKVYPTLRSPVFVVQWLFDEAQLTVDNVHPVQEGLRLYIQNLGRELRHTLKDVPASFAPACLSHEIIIRSHWTDVQVKGTSLPRALHCWDRSLHKGCPVHLVDSCPWPHCNPSCPT 4uzi-a1-m1-cA_4uzi-a1-m1-cB Crystal Structure of AauDyP Complexed with Imidazole I2DBY1 I2DBY1 2.1 X-RAY DIFFRACTION 55 1.0 29892 (Auricularia auricula-judae) 29892 (Auricularia auricula-judae) 446 446 SLNTDDIQGDILVGMHKQKQLFYFFAINDPATFKTHLASDIAPVVASVTQLSNVATQPLVALNIAFSNTGLLALGVTDNLGDSLFANGQAKDATSFKESTSSWVPQFAGTGIHGVIILASDTTDLIDQQVASIESTFGSSISKLYSLSASIRPGNEAGHEMFGFLDGIAQPAINGFNTPLPGQNIVDAGVIITGATNDPITRPSWAVGGSFLAFRQLEQLVPEFNKYLLDNAPAGSGSLQARADLLGARMVGRWKSGAPIDLTPTADDPALGADAQRNNNFTYSHAGFDLGSDQSHCPFSAHIRKTRPRADLGGSLTPPNLSAGANSIMRSGIPYGPEVTSAESASNTTTQERGLAFVAYQAQLSQGFHFLQQTWADNANFPPGKTPATVGLDPIIGQNNGQPRVVNGLLPSNSSASLSIPQFVVSHGGEYFFSPPISAIGGRLSA SLNTDDIQGDILVGMHKQKQLFYFFAINDPATFKTHLASDIAPVVASVTQLSNVATQPLVALNIAFSNTGLLALGVTDNLGDSLFANGQAKDATSFKESTSSWVPQFAGTGIHGVIILASDTTDLIDQQVASIESTFGSSISKLYSLSASIRPGNEAGHEMFGFLDGIAQPAINGFNTPLPGQNIVDAGVIITGATNDPITRPSWAVGGSFLAFRQLEQLVPEFNKYLLDNAPAGSGSLQARADLLGARMVGRWKSGAPIDLTPTADDPALGADAQRNNNFTYSHAGFDLGSDQSHCPFSAHIRKTRPRADLGGSLTPPNLSAGANSIMRSGIPYGPEVTSAESASNTTTQERGLAFVAYQAQLSQGFHFLQQTWADNANFPPGKTPATVGLDPIIGQNNGQPRVVNGLLPSNSSASLSIPQFVVSHGGEYFFSPPISAIGGRLSA 4uzk-a1-m1-cA_4uzk-a1-m1-cB STRUCTURE OF THE WNT DEACYLASE NOTUM FROM DROSOPHILA - CRYSTAL FORM II - 1.9A Q9VUX3 Q9VUX3 1.9 X-RAY DIFFRACTION 26 0.997 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 349 350 RSLKRANLANTSITCNDGSHAGFYLRKHPSSKKWIVLLEGGWHCFDVRSCRSRWMRLRHLMTSSQWPETRDVGGILSPHPEENPYWHNANHVLIPYCSSDSWSGTRTEPDTSDRENSWRFMGALILRQVIAELIPVGLGRVPGGELMLVGSSAGGMGVMLNLDRIRDFLVNEKKLQITVRGVSDSGWFLDREPYTPAAVASNEAVRQGWKLWQGLLPEECTKSYPTEPWRCYYGYRLYPTLKTPLFVFQWLFDEAQMRVDNVGAPVTPQQWNYIHEMGGALRSSLDNVSAVFAPSCIGHGVLFKRDWVNIKIDDISLPSALRCWEHSTRSGLRLLERCSWPQCNHSCPT RSLKRANLANTSITCNDGSHAGFYLRKHPSSKKWIVLLEGGWHCFDVRSCRSRWMRLRHLMTSSQWPETRDVGGILSPHPEENPYWHNANHVLIPYCSSDSWSGTRTEPDTSDRENSWRFMGALILRQVIAELIPVGLGRVPGGELMLVGSSAGGMGVMLNLDRIRDFLVNEKKLQITVRGVSDSGWFLDREPYTPAAVASNEAVRQGWKLWQGLLPEECTKSYPTEPWRCYYGYRLYPTLKTPLFVFQWLFDEAQMRVDNVGAPVTPQQWNYIHEMGGALRSSLDNVSAVFAPSCIGHGVLFKRDWVNIKIDDISLPSALRCWEHSTRSGNGLRLLERCSWPQCNHSCP 4uzq-a1-m1-cA_4uzq-a1-m2-cA STRUCTURE OF THE WNT DEACYLASE NOTUM IN COMPLEX WITH O-PALMITOLEOYL SERINE - CRYSTAL FORM IX - 1.5A Q6P988 Q6P988 1.5 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 355 355 4uzq-a1-m1-cB_4uzq-a1-m1-cA 4uzq-a1-m2-cB_4uzq-a1-m2-cA EDLRLHLLLNTSVTCNDGSPAGYYLKESRGSRRWLLFLEGGWYCFNRENCDSRYDTMRRLMSSRDWPRTRTGTGILSSQPEENPYWWNANMVFIPYCSSDVWSGASSKSEKNEYAFMGALIIQEVVRELLGRGLSGAKVLLLAGSAAGGTGVLLNVDRVAEQLEKLGYPAIQVRGLADSGWFLDNKQYRHTDCVDTITCAPTEAIRRGIRYWNGVVPERCRRQFQEGEEWNCFFGYKVYPTLRSPVFVVQWLFDEAQLTVDNVHLTGQPVQEGLRLYIQNLGRELRHTLKDVPASFAPACLSHEIIIRSHWTDVQVKGTSLPRALHCWDRSLHKGCPVHLVDSCPWPHCNPSCPT EDLRLHLLLNTSVTCNDGSPAGYYLKESRGSRRWLLFLEGGWYCFNRENCDSRYDTMRRLMSSRDWPRTRTGTGILSSQPEENPYWWNANMVFIPYCSSDVWSGASSKSEKNEYAFMGALIIQEVVRELLGRGLSGAKVLLLAGSAAGGTGVLLNVDRVAEQLEKLGYPAIQVRGLADSGWFLDNKQYRHTDCVDTITCAPTEAIRRGIRYWNGVVPERCRRQFQEGEEWNCFFGYKVYPTLRSPVFVVQWLFDEAQLTVDNVHLTGQPVQEGLRLYIQNLGRELRHTLKDVPASFAPACLSHEIIIRSHWTDVQVKGTSLPRALHCWDRSLHKGCPVHLVDSCPWPHCNPSCPT 4uzr-a1-m1-cA_4uzr-a1-m2-cF Crystal Structure of Pyrococcus horikoshii Ph1500 O59169 O59169 2.652 X-RAY DIFFRACTION 60 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 142 142 4uzr-a1-m1-cB_4uzr-a1-m2-cE 4uzr-a1-m1-cC_4uzr-a1-m2-cD 4uzr-a1-m1-cD_4uzr-a1-m2-cC 4uzr-a1-m1-cE_4uzr-a1-m2-cB 4uzr-a1-m1-cF_4uzr-a1-m2-cA SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 4uzr-a1-m1-cB_4uzr-a1-m2-cC Crystal Structure of Pyrococcus horikoshii Ph1500 O59169 O59169 2.652 X-RAY DIFFRACTION 27 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 142 142 4uzr-a1-m1-cA_4uzr-a1-m2-cA 4uzr-a1-m1-cC_4uzr-a1-m2-cB SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 4uzr-a1-m1-cD_4uzr-a1-m2-cF Crystal Structure of Pyrococcus horikoshii Ph1500 O59169 O59169 2.652 X-RAY DIFFRACTION 34 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 142 142 4uzr-a1-m1-cE_4uzr-a1-m2-cE 4uzr-a1-m1-cF_4uzr-a1-m2-cD SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 4uzr-a1-m2-cA_4uzr-a1-m2-cF Crystal Structure of Pyrococcus horikoshii Ph1500 O59169 O59169 2.652 X-RAY DIFFRACTION 60 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 142 142 4uzr-a1-m1-cA_4uzr-a1-m1-cF 4uzr-a1-m1-cB_4uzr-a1-m1-cD 4uzr-a1-m1-cC_4uzr-a1-m1-cE 4uzr-a1-m2-cB_4uzr-a1-m2-cD 4uzr-a1-m2-cC_4uzr-a1-m2-cE SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 4uzr-a1-m2-cC_4uzr-a1-m2-cF Crystal Structure of Pyrococcus horikoshii Ph1500 O59169 O59169 2.652 X-RAY DIFFRACTION 67 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 142 142 4uzr-a1-m1-cA_4uzr-a1-m1-cD 4uzr-a1-m1-cB_4uzr-a1-m1-cE 4uzr-a1-m1-cC_4uzr-a1-m1-cF 4uzr-a1-m2-cA_4uzr-a1-m2-cD 4uzr-a1-m2-cB_4uzr-a1-m2-cE SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT SELKLKPLPKVELPPDFVDVIRIKLQGKTVRTGDVIGISILGKEVKFKVVQAYPSPLRVEDRTKITLVTHPVDVLEAKIKGIKDVILDENLIVVITEENEVLIFNQNLEELYRGKFENLNKVLVRNDLVVIIDEQKLTLIRT 4uzs-a1-m1-cB_4uzs-a1-m1-cC Crystal structure of Bifidobacterium bifidum beta-galactosidase 1.74 X-RAY DIFFRACTION 199 1.0 883062 (Bifidobacterium bifidum S17) 883062 (Bifidobacterium bifidum S17) 679 683 4ucf-a1-m1-cA_4ucf-a1-m1-cB 4ucf-a1-m1-cA_4ucf-a1-m1-cC 4ucf-a1-m1-cC_4ucf-a1-m1-cB 4uzs-a1-m1-cB_4uzs-a1-m1-cA 4uzs-a1-m1-cC_4uzs-a1-m1-cA RRKHSWPQPLKGAESRLWYGGDYNPDQWPEEVWDDDIRLMKKAGVNLVSVGIFSWAKIEPEEGKYDFDWLDRAIDKLGKAGIAVDLASATASPPMWLTQAHPEVLWKDERGDTVWPGAREHWRPTSPVFREYALNLCRRMAEHYKGNPYVVAWHVSNEYGCHNRFDYSDDAMRAFQKWCKKRYKTIDAVNEAWGTAFWAQHMNDFSEIIPPRYIGDGNFMNPGKLLDYKRFSSDALKELYIAERDVLESITPGLPLTTNFMVSAGGSMLDYDDWGAEVDFVSNDHYFTPGEAHFDEVAYAASLMDGISRKEPWFQMEHSTSAVNWRPINYRAEPGSVVRDSLAQVAMGADAICYFQWRQSKAGAEKWHSSMVPHAGEDSQIFRDVCELGADLGRLSDEGLMGTKTVKSKVAVVFDYESQWATEYTANPTQQVDHWTEPLDWFRALADNGITADVVPVRSDWDSYEIAVLPCVYLLSEETSRRVREFVANGGKLFVTYYTGLSDENDHIWLGGYPGSIRDVVGVRVEEFAPMGNDMPGALDHLDLDNGTVAHDFADVITSTADTSTVLASYKAERWTGMNEVPAIVANGYGDGRTVYVGCRLGRQGLAKSLPAMLGSMGLSGDGRVLRVERADSHFEFVFNRTHEPVTVDVEGEAIAASLAHVDDGRATIDPTGVVVLRR KRRKHSWPQPLKGAESRLWYGGDYNPDQWPEEVWDDDIRLMKKAGVNLVSVGIFSWAKIEPEEGKYDFDWLDRAIDKLGKAGIAVDLASATASPPMWLTQAHPEVLWKDERGDTVWPGAREHWRPTSPVFREYALNLCRRMAEHYKGNPYVVAWHVSNEYGCHNRFDYSDDAMRAFQKWCKKRYKTIDAVNEAWGTAFWAQHMNDFSEIIPPRYIGDGNFMNPGKLLDYKRFSSDALKELYIAERDVLESITPGLPLTTNFMVSAGGSMLDYDDWGAEVDFVSNDHYFTPGEAHFDEVAYAASLMDGISRKEPWFQMEHSTSAVNWRPINYRAEPGSVVRDSLAQVAMGADAICYFQWRQSKAGAEKWHSSMVPHAGEDSQIFRDVCELGADLGRLSDEGLMGTKTVKSKVAVVFDYESQWATEYTANPTQQVDHWTEPLDWFRALADNGITADVVPVRSDWDSYEIAVLPCVYLLSEETSRRVREFVANGGKLFVTYYTGLSDENDHIWLGGYPGSIRDVVGVRVEEFAPMGNDMPGALDHLDLDNGTVAHDFADVITSTADTSTVLASYKAERWTGMNEVPAIVANGYGDGRTVYVGCRLGRQGLAKSLPAMLGSMGLSDLAGDGRVLRVERADSHFEFVFNRTHEPVTVDVEGEAIAASLAHVDDGRATIDPTGVVVLRR 4uzv-a1-m1-cA_4uzv-a1-m2-cA Structure of a triple mutant of ASV-TfTrHb 3.4 X-RAY DIFFRACTION 51 1.0 1169414 (Thermobifida fusca TM51) 1169414 (Thermobifida fusca TM51) 129 129 DDQMTFYEAVGGEETFTRLARRFFEGVAADPVLRPMFPEEDLGPAEERLRLFLMQYWGGPETYSERRGHPRLRMRHEPYRIGAEERDRFLTHMRAAVDDLALPAHLEQQLWEYLVYAAYAMVNVPEDAQ DDQMTFYEAVGGEETFTRLARRFFEGVAADPVLRPMFPEEDLGPAEERLRLFLMQYWGGPETYSERRGHPRLRMRHEPYRIGAEERDRFLTHMRAAVDDLALPAHLEQQLWEYLVYAAYAMVNVPEDAQ 4v02-a1-m1-cD_4v02-a1-m1-cC MinC:MinD cell division protein complex, Aquifex aeolicus O67034 O67034 2.7 X-RAY DIFFRACTION 75 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 119 122 SRLLIIERTLRAGQRIEHRGDILILGDVNKDAEVLAGGNIIVMGKLRGVAKAGLIGDHSAVIVALKMEPQLLQIGKKKAIMSEADRGYPEVAKIEGEDIVLEPIEGAERWLKLLLGSHH SRLLIIERTLRAGQRIEHRGDILILGDVNKDAEVLAGGNIIVMGKLRGVAKAGLIGDHSAVIVALKMEPQLLQIGKKKAIMSEADRNSPGYPEVAKIEGEDIVLEPIEGAERWLKLLLGSHH 4v03-a1-m1-cA_4v03-a1-m1-cB MinD cell division protein, Aquifex aeolicus O67033 O67033 1.9 X-RAY DIFFRACTION 57 0.996 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 236 236 AEVIVITSGKGGVGKTTLTANIGTALAKLGKKVLLIDADRNLDMILGLENRIVYDILDVLEGRVPYEKALVKDKRGLSLWLLPVIDIEKWNKTVEEIKNSGNYDYILVDSPAGIEKGFQIAVSPADKALIVVNPEVSSIRDADRVIGLLESMDKRNYKVIVNRIKWEMVKRGAMLSVEDIVDILKAEIIGIIPEEPKLVDFTNRGEPIVLDEKFPASQAIIDTARRLMGESIPLKR AEVIVITSGKGGVGKTTLTANIGTALAKLGKKVLLIDADRNLDMILGLENRIVYDILDVLEGRVPYEKALVKDKRGLSLWLLPAVIDIEKWNKTVEEIKNSGNYDYILVDSPAGIEKGFQIAVSPADKALIVVNPEVSSIRDADRVIGLLESMDKRNYKVIVNRIKWEMVKRGAMLSVEDIVDILKAEIIGIIPEEPKLVDFTNRGEPIVLDEKFPASQAIIDTARRLMGESIPLK 4v08-a1-m1-cA_4v08-a1-m1-cB Inhibited dimeric pseudorabies virus protease pUL26N at 2 A resolution Q83417 Q83417 2.03 X-RAY DIFFRACTION 71 1.0 10345 (Suid alphaherpesvirus 1) 10345 (Suid alphaherpesvirus 1) 213 224 4v07-a1-m1-cA_4v07-a1-m1-cB MGPVYVSGYLALYDRDGGELALTREIVAAALPPAGPLPINIDHRPRCDIGAVLAVVDDDRGPFFLGVVNCPQLGAVLARAVGPDFFGDMRLSDEERLLYLLSNYLPSASLSSRRAPDETLFAHVALCVIGRRVGTIVVYDASPEAAVAPFRQLSARARSELLARAAESPDRERVWHMSEEALTRALLSTAVNNMLLRDRWELVAARRREAGVR MGPVYVSGYLALYDRDGGELALTREIVAAALPPAGPLPINIDHRPRCDIGAVLAVVDDDRGPFFLGVVNCPQLGAVLARAVGPDFFGDMRLSDEERLLYLLSNYLPSASLSSRRLAPGEAPDETLFAHVALCVIGRRVGTIVVYDASPEAAVAPFRQLSARARSELLARAAESPDRERVWHMSEEALTRALLSTAVNNMLLRDRWELVAARRREAGVRGHTYLQ 4v0h-a4-m5-cC_4v0h-a4-m1-cD Human metallo beta lactamase domain containing protein 1 (hMBLAC1) A4D2B0 A4D2B0 1.79 X-RAY DIFFRACTION 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 223 4v0h-a1-m1-cC_4v0h-a1-m2-cD 4v0h-a2-m3-cA_4v0h-a2-m1-cB 4v0h-a3-m1-cA_4v0h-a3-m4-cB RTEPLCGASPLLVPGDPYSVVVLLQGYAEPEGVGDAVRADGSVTLVLPQGAEAALEEAARGPILVDTGGPWAREALLGALAGQGVAPGDVTLVVGTHGHSDHIGNLGLFPGAALLVSHDFCLPGGRYLPHGLGEGQPLRLGPGLEVWATPGHGGQRDVSVVVAGTALGTVVVAGDVFERDGDEDSWQALSEDPAAQERSRKRVLVVADVVVPGHGPPFRVL RTEPLCGASPLLVPGDPYSVVVLLQGYAEPEGVGDAVRADGSVTLVLPQTGAEAALEEAARGPILVDTGGPWAREALLGALAGQGVAPGDVTLVVGTHGHSDHIGNLGLFPGAALLVSHDFCLPGGRYLPHGLGEGQPLRLGPGLEVWATPGHGGQRDVSVVVAGTALGTVVVAGDVFERDGDEDSWQALSEDPAAQERSRKRVLVVADVVVPGHGPPFRVLR 4v0p-a1-m1-cA_4v0p-a1-m2-cA Crystal structure of the MAGE homology domain of human MAGE-A3 P43357 P43357 2.07 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 SMEFQAALSRKVAELVHFLLLKYRAREPVTKAEMLGSVVGNWQYFFPVIFSKASSSLQLVFGIELMEVDPIGHLYIFATCLGLSYDGLLGDNQIMPKAGLLIIVLAIIAREGDCAPEEKIWEELSVLEVFEGREDSILGDPKKLLTQHFVQENYLEYRQVPGSDPACYEFLWGPRALVETSYVKVLHHMVKISGGPHISYPPLHEWVLR SMEFQAALSRKVAELVHFLLLKYRAREPVTKAEMLGSVVGNWQYFFPVIFSKASSSLQLVFGIELMEVDPIGHLYIFATCLGLSYDGLLGDNQIMPKAGLLIIVLAIIAREGDCAPEEKIWEELSVLEVFEGREDSILGDPKKLLTQHFVQENYLEYRQVPGSDPACYEFLWGPRALVETSYVKVLHHMVKISGGPHISYPPLHEWVLR 4v0q-a1-m1-cA_4v0q-a1-m2-cA Dengue Virus Full Length NS5 Complexed with SAH Q5UB51 Q5UB51 2.3 X-RAY DIFFRACTION 104 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 851 851 4v0r-a1-m1-cA_4v0r-a1-m2-cA 5ccv-a11-m1-cD_5ccv-a11-m1-cC 5ccv-a13-m1-cF_5ccv-a13-m1-cE 5ccv-a14-m1-cH_5ccv-a14-m1-cG GETLGEKWKKKLNQLSRKEFDLYKKSGITEVDRTEAKEGLKRGETTHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYYCAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGESSPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLSRNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRHVNAEPETPNMDVIGERIKRIKEEHNSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPLPGTRKVMEITAEWLWRTLGRNKRPRLCTREEFTKKVRTNWDSAKAAVEDEEFWKLVDRERELHKLGKCGSCVYNMMSRAIWYMWLGVRYLEFEALGFLNEDHWFSRENSYSGVEGEGLHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKIIQQMDPEHRQLANAIFKLTYQNKVVKVQRPTPTGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLVRQMEGEGVLTKADLENPHLLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKDIPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRETACLGKAYAQMWSLMYFHRRDLRLASNAICSAVPVHWVPTSRTTWSIHAHHQWMTTEDMLTVWNRVWIEENPWMEDKTPVTTWENVPYLGKREDQWCGSLIGLTSRATWAQNIPTAIQQVRSLIGNEEFLDYM GETLGEKWKKKLNQLSRKEFDLYKKSGITEVDRTEAKEGLKRGETTHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYYCAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGESSPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLSRNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRHVNAEPETPNMDVIGERIKRIKEEHNSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPLPGTRKVMEITAEWLWRTLGRNKRPRLCTREEFTKKVRTNWDSAKAAVEDEEFWKLVDRERELHKLGKCGSCVYNMMSRAIWYMWLGVRYLEFEALGFLNEDHWFSRENSYSGVEGEGLHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKIIQQMDPEHRQLANAIFKLTYQNKVVKVQRPTPTGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLVRQMEGEGVLTKADLENPHLLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKDIPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRETACLGKAYAQMWSLMYFHRRDLRLASNAICSAVPVHWVPTSRTTWSIHAHHQWMTTEDMLTVWNRVWIEENPWMEDKTPVTTWENVPYLGKREDQWCGSLIGLTSRATWAQNIPTAIQQVRSLIGNEEFLDYM 4v12-a1-m1-cA_4v12-a1-m2-cA Crystal structure of the MSMEG_6754 dehydratase from Mycobacterium smegmatis A0R724 A0R724 1.5 X-RAY DIFFRACTION 151 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 337 337 DTSTLESRVGHYYQMEDTYLVGREKVREFARAVQDYHPAHWNLATAADLGHPGLIAPLTFTSAPAMACNQRMFESVVVGYDMYLQTEEVFEQHRPIVEGDELSIDIELTSVRRIAGRDLITVTNTFTDTAGEVVHTLHTTVVGITAEDVDPAIRPAVQGVMMHGINMLGVEETNAPYEKTVRPEGELRIAQGGATRTPTSLNFDDLKVGEELPVHTARLSRGDLVNYAGVAGDANPLHWDENIAKLAGQPDVIAHGMLTMGLGAGFVSSWSGDPGAITRYAVRLSQPAVVPAEGTEIEYSGRIKSLDPETRTGVVIVAAKSGGRKIFGLATATIRFS DTSTLESRVGHYYQMEDTYLVGREKVREFARAVQDYHPAHWNLATAADLGHPGLIAPLTFTSAPAMACNQRMFESVVVGYDMYLQTEEVFEQHRPIVEGDELSIDIELTSVRRIAGRDLITVTNTFTDTAGEVVHTLHTTVVGITAEDVDPAIRPAVQGVMMHGINMLGVEETNAPYEKTVRPEGELRIAQGGATRTPTSLNFDDLKVGEELPVHTARLSRGDLVNYAGVAGDANPLHWDENIAKLAGQPDVIAHGMLTMGLGAGFVSSWSGDPGAITRYAVRLSQPAVVPAEGTEIEYSGRIKSLDPETRTGVVIVAAKSGGRKIFGLATATIRFS 4v15-a1-m1-cB_4v15-a1-m1-cA Crystal structure of D-threonine aldolase from Alcaligenes xylosoxidans A0A0J9X243 A0A0J9X243 1.5 X-RAY DIFFRACTION 209 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 372 373 GIALPPAAQPGDPLARVDTPSLVLDLPAFEANLRAMQAWADRHEVALRPHAKAHKCPEIALRQLALGARGICCQKVSEALPFVAAGIRDIHISNEVVGPAKLALLGQLARAAKISVCVDNAENLAQLSAAMTRAGAEIDVLVEVDVGQGRCGVSDDATVLALAQQARALPGLNFAGLQAYHGSVQHYRTREERAAVCRQAARIAASYAQLLRESGIACDTITGGGTGSVEFDAASGVYTELQAGSYAFMDSDYGANEWNGPLKFQNSLFVLSTVMSTPAPGRVILDAGLKSTTAECGPPAVYGEPGLTYAAINDEHGVVRVEPGAQAPALGAVLRLVPSHVDPTFNLHDGLVVVKDGVVQDVWEIAARGFSR RGIALPPAAQPGDPLARVDTPSLVLDLPAFEANLRAMQAWADRHEVALRPHAKAHKCPEIALRQLALGARGICCQKVSEALPFVAAGIRDIHISNEVVGPAKLALLGQLARAAKISVCVDNAENLAQLSAAMTRAGAEIDVLVEVDVGQGRCGVSDDATVLALAQQARALPGLNFAGLQAYHGSVQHYRTREERAAVCRQAARIAASYAQLLRESGIACDTITGGGTGSVEFDAASGVYTELQAGSYAFMDSDYGANEWNGPLKFQNSLFVLSTVMSTPAPGRVILDAGLKSTTAECGPPAVYGEPGLTYAAINDEHGVVRVEPGAQAPALGAVLRLVPSHVDPTFNLHDGLVVVKDGVVQDVWEIAARGFSR 4v1i-a1-m1-cB_4v1i-a1-m1-cA Structure of a novel carbohydrate binding module from glycoside hydrolase family 5 glucanase from Ruminococcus flavefaciens FD-1 at medium resolution A0A140UH28 A0A140UH28 2.59 X-RAY DIFFRACTION 92 1.0 641112 (Ruminococcus flavefaciens FD-1) 641112 (Ruminococcus flavefaciens FD-1) 150 151 4v17-a1-m1-cB_4v17-a1-m1-cA 4v18-a1-m1-cB_4v18-a1-m1-cA 4v1b-a1-m1-cB_4v1b-a1-m1-cA GLAPLADGEKLYGKKGSEGTVTFTKAIGDNAFVEIKTGADTGFMNGCLGFSESIDGKNYWVAYVWQTKKSDTISIDMSSPVQIAEIIGTETQEVTDADTIKKLTDKIKTEKSALLQVWYASDKTGKQIDPADSASESIEVYIPSASADEA GLAPLADGEKLYGKKGSEGTVTFTKAIGDNAFVEIKTGADTGFMNGCLGFSESIDGKNYWVAYVWQTKKSDTISIDMSSPVQIAEIIGTETQEVTDADTIKKLTDKIKTEKSALLQVWYASDKTGKQIDPADSASESIEVYIPSASADEAL 4v1t-a1-m1-cA_4v1t-a1-m1-cB Heterocyclase in complex with substrate and Cofactor A0YXD2 A0YXD2 2.14 X-RAY DIFFRACTION 230 0.995 118322 (Lyngbya aestuarii) 118322 (Lyngbya aestuarii) 748 753 4v1u-a1-m1-cB_4v1u-a1-m1-cA 4v1v-a1-m1-cA_4v1v-a1-m1-cB LLQIQPHFHVEVIEPKQVYLLGEQANHALTGQLYCQILPLLNGQYTLEQIVEKLDGEVPPEYIDYVLERLAEKGYLTEAAPELSSEVAAFWSELGIAPPVAAEALRQPVTLTPVGNISEVTVAALTTALRDIGISVQTTALNVVLTDDYLQPELAKINKQALESQQTWLLVKPVGSVLWLGPVFVPGKTGCWDCLAHRLRGNREVEASVLRQKQAQQGCLPTARATLPSTLQTGLQFAATEIAKWIVKYHVNATAPGTVFFPTLDGKIITLNHSILDLKSHILIKRSQCPTCGDPKILQHRGFEPLKLESRPKQGHRGTTPEQTVQKYQHLISPVTGVVTELVRITDPANPLVHTYRAGHSFGSATSLRGLRNTLKHKSSGKGKTDSQSKASGLCEAVERYSGIFQGDEPRKRATLAELGDLAIHPEQCLCFSDGQYANRETLNEQATVAHDWIPQRFDASQAIEWTPVWSLTEQTHKYLPTALCYYHYPLPPEHRFARGDSNGNAAGNTLEEAILQGFMELVERDGVALWWYNRLRRPAVDLGSFNEPYFVQLQQFYRENDRDLWVLDLTADLGIPAFAGVSNRKTGSSERLILGFGAHLDPTIAILRAVTEVNQIGLELDKVPDENLKSDATDWLITEKLADHPYLLPDTTQPLKTAQDYPKRWSDDIYTDVMTCVNIAQQAGLETLVIDQTRPDIGLNVVKVTVPGMRHFWSRFGEGRLYDVPVKLGWLDEPLTEAQMNPTPMPF TPLLQIQPHFHVEVIEPKQVYLLGEQANHALTGQLYCQILPLLNGQYTLEQIVEKLDGEVPPEYIDYVLERLAEKGYLTEAAPELSSEVAAFWSELGIAPPVAAEALRQPVTLTPVGNISEVTVAALTTALRDIGISVQTPTEAGSPTALNVVLTDDYLQPELAKINKQALESQQTWLLVKPVGSVLWLGPVFVPGKTGCWDCLAHRLRGNREVEASVLRQKQGCLPTARATLPSTLQTGLQFAATEIAKWIVKYHVNATAPGTVFFPTLDGKIITLNHSILDLKSHILIKRSQCPTCGDPKILQHRGFEPLKLESRPKQHRGTTPEQTVQKYQHLISPVTGVVTELVRITDPANPLVHTYRAGHSFGSATSLRGLRNTLKHKSSGKGKTDSQSKASGLCEAVERYSGIFQGDEPRKRATLAELGDLAIHPEQCLCFSDGQYANRETLNEQATVAHDWIPQRFDASQAIEWTPVWSLTEQTHKYLPTALCYYHYPLPPEHRFARGDSNGNAAGNTLEEAILQGFMELVERDGVALWWYNRLRRPAVDLGSFNEPYFVQLQQFYRENDRDLWVLDLTADLGIPAFAGVSNRKTGSSERLILGFGAHLDPTIAILRAVTEVNQIGLELDKVPDENLKSDATDWLITEKLADHPYLLPDTTQPLKTAQDYPKRWSDDIYTDVMTCVNIAQQAGLETLVIDQTRPDIGLNVVKVTVPGMRHFWSRFGEGRLYDVPVKLGWLDEPLTEAQMNPTPMPF 4v23-a1-m1-cA_4v23-a1-m2-cA RSV Matrix protein P0DOE7 P0DOE7 1.7 X-RAY DIFFRACTION 60 1.0 12814 (Respiratory syncytial virus) 12814 (Respiratory syncytial virus) 255 255 4d4t-a1-m1-cA_4d4t-a1-m2-cA METYVNKLHEGSTYTAAVQYNVLEKDDDPASLTIWVPMFQSSMPADLLIKELANVNILVKQISTPKGPSLRVMINSRSAVLAQMPSKFTICANVSLDERSKLAYDVTTPCEIKACSLTCLKSKNMLTTVKDLTMKTLNPTHDIIALCEFENIVTSKKVIIPTYLRSISVRNKDLNTLENITTTEFKNAITNAKIIPYSGLLLVITVTDNKGAFKYIKPQSQFIVDLGAYLEKESIYYVTTNWKHTATRFAIKPME METYVNKLHEGSTYTAAVQYNVLEKDDDPASLTIWVPMFQSSMPADLLIKELANVNILVKQISTPKGPSLRVMINSRSAVLAQMPSKFTICANVSLDERSKLAYDVTTPCEIKACSLTCLKSKNMLTTVKDLTMKTLNPTHDIIALCEFENIVTSKKVIIPTYLRSISVRNKDLNTLENITTTEFKNAITNAKIIPYSGLLLVITVTDNKGAFKYIKPQSQFIVDLGAYLEKESIYYVTTNWKHTATRFAIKPME 4v29-a1-m1-cA_4v29-a1-m1-cB The crystal structure of Arabidopsis thaliana CAR4 in complex with two calcium ions Q9LVH4 Q9LVH4 1.6 X-RAY DIFFRACTION 23 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 165 165 5a50-a1-m1-cA_5a50-a1-m1-cB MDDLLGLLRIRIKRGVNLAVRDISSSDPYVVVKMGKQKLKTRVINKDVNPEWNEDLTLSVTDSNLTVLLTVYDHDMFSKDDKMGDAEFEIKPYIEALRMQLDGLPSGTIVTTVKPSRRNCLAEESRVTWVDGKLVQDLVLRLRHVECGEVEAQLQWIDLPGSKGL MDDLLGLLRIRIKRGVNLAVRDISSSDPYVVVKMGKQKLKTRVINKDVNPEWNEDLTLSVTDSNLTVLLTVYDHDMFSKDDKMGDAEFEIKPYIEALRMQLDGLPSGTIVTTVKPSRRNCLAEESRVTWVDGKLVQDLVLRLRHVECGEVEAQLQWIDLPGSKGL 4v2i-a1-m1-cA_4v2i-a1-m1-cB Biochemical characterization and structural analysis of a new cold- active and salt tolerant esterase from the marine bacterium Thalassospira sp A0A023T3X2 A0A023T3X2 1.686 X-RAY DIFFRACTION 80 1.0 1485225 (Thalassospira sp. GB04J01) 1485225 (Thalassospira sp. GB04J01) 315 315 PVLEPTTQKFINALSASGGPAIYTLTPAEARDVLSGAQSGEIAKPAVDITDTTFAVGPTGATKVRIIRPQGNTDRLPVIVYFHGAGWVMGDTGTHDRLVRELSVRANAALVFVDYERSPEARYPVAIEQDYAVTKYVAEHSEQLNVDPTRLAIAGDSVGGNMTAVVSLLAQERGGPDITAQVLFYPVTDADFDNGSYTEFANGPWLTKPAMDWFWNQYLPEGIDRTDPKITPIHATSEQLSGQAPALVITAENDVLRDEGEAYARKLSQAGVDVTVTRYNGTIHDFVMLNVLADTPAAKGAIAQAGQYLHTALHG PVLEPTTQKFINALSASGGPAIYTLTPAEARDVLSGAQSGEIAKPAVDITDTTFAVGPTGATKVRIIRPQGNTDRLPVIVYFHGAGWVMGDTGTHDRLVRELSVRANAALVFVDYERSPEARYPVAIEQDYAVTKYVAEHSEQLNVDPTRLAIAGDSVGGNMTAVVSLLAQERGGPDITAQVLFYPVTDADFDNGSYTEFANGPWLTKPAMDWFWNQYLPEGIDRTDPKITPIHATSEQLSGQAPALVITAENDVLRDEGEAYARKLSQAGVDVTVTRYNGTIHDFVMLNVLADTPAAKGAIAQAGQYLHTALHG 4v2k-a1-m1-cA_4v2k-a1-m2-cA Crystal structure of the thiosulfate dehydrogenase TsdA in complex with thiosulfate D3RVD4 D3RVD4 1.29 X-RAY DIFFRACTION 108 1.0 1049 (Allochromatium vinosum) 1049 (Allochromatium vinosum) 234 234 PTVALTVPAAALLPDGALGESIVRGRRYLSDTPAQLPDFVGNGLACRHCHPGRDGEVGTEANAAPFVGVVGRFPQYSARHGRLITLEQRIGDFERSLNGRALALDHPALIDMLAYMSWLSQGVPVGAVVAGHGIPTLTLEREPDGVHGEALYQARCLACHGADGSGTLDADGRYLFPPLWGPRSFNTGAGMNRQATAAGFIKHKMPLGADDSLSDEEAWDVAGFVLTHPRPLFQ PTVALTVPAAALLPDGALGESIVRGRRYLSDTPAQLPDFVGNGLACRHCHPGRDGEVGTEANAAPFVGVVGRFPQYSARHGRLITLEQRIGDFERSLNGRALALDHPALIDMLAYMSWLSQGVPVGAVVAGHGIPTLTLEREPDGVHGEALYQARCLACHGADGSGTLDADGRYLFPPLWGPRSFNTGAGMNRQATAAGFIKHKMPLGADDSLSDEEAWDVAGFVLTHPRPLFQ 4v2p-a1-m1-cA_4v2p-a1-m1-cB Ketosynthase MxnB T1SF45 T1SF45 1.67 X-RAY DIFFRACTION 254 1.0 33 (Myxococcus fulvus) 33 (Myxococcus fulvus) 327 328 SLPFKLAGLGRYVPEDIVLSSELEKKYDLPQGWCLEKQGIRERRWVKGETAAFMGAEAAKEAVRDAGLQLSDIDLIISASGSPQQAVPDGGPLVQRELGLGRSGTPAITVNASLSFFVALEVASNYLNMRRYRRILVVSADIASVSLDFRKPENFTLFGDAAAAAVVTLPEPGEKSCIHASHLRTYGFGAEFSEVRGGGSRKPPNSKDTRPEDNYLHMNGAELLKIGFEYLPKFTESLWKQCPDITVRDVKYIIPHQPSRVVLDYLSLSYPEEKLIRIIERFGNCIGASMPMALYEAVKLRGLQRGDKAVLTGTGSGVSFVGMVFTY FSLPFKLAGLGRYVPEDIVLSSELEKKYDLPQGWCLEKQGIRERRWVKGETAAFMGAEAAKEAVRDAGLQLSDIDLIISASGSPQQAVPDGGPLVQRELGLGRSGTPAITVNASLSFFVALEVASNYLNMRRYRRILVVSADIASVSLDFRKPENFTLFGDAAAAAVVTLPEPGEKSCIHASHLRTYGFGAEFSEVRGGGSRKPPNSKDTRPEDNYLHMNGAELLKIGFEYLPKFTESLWKQCPDITVRDVKYIIPHQPSRVVLDYLSLSYPEEKLIRIIERFGNCIGASMPMALYEAVKLRGLQRGDKAVLTGTGSGVSFVGMVFTY 4v2x-a1-m1-cA_4v2x-a1-m2-cA High resolution structure of the full length tri-modular endo-beta-1, 4-glucanase B (Cel5B) from Bacillus halodurans Q9KF82 Q9KF82 1.64 X-RAY DIFFRACTION 46 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 534 534 KTLDIQSYVRDMQPGWNLGNTFDAVGQDETAWGNPRVTRELIEQIADEGYKSIRIPVTWENRIGGAPDYPIDPQFLNRVDQVVQWALEEDLYVMINLHHDSWLWIYEMEHNYNGVMVKYRSLWEQLSNHFKDYPTKLMFESVNEPKFSQNWGEIRENHHALLDDLNTVFFEIVRQSGGQNDIRPLVLPTMETATSQPLLNNLYQTIDKLDDPNLIATVHYYGFWPFSVNIAGYTRFEENSKQEIIEAFDRVHHTFVARGIPVVLGEFGLLGFDKHTGVIQQGEKLKFFEFLIHHLNERDITHMLWDNGQHFNRHTYEWYDQELFDMMRASWEGRSSVAESNFIYLKQGDRIADATVSLQLHGNELTGLRANGQRLTPGQDYELNGERLTVKAHVLSAIASSGTLGTNGMVTAEFNRGADWHFRVNTYRTPVLQSTQGHVSNFSIPASFNGNSLATMEAVYVDGGNAGPQDWTSFKEFGYAFSPSYDANEMKLTEAFFREVRDGEVRLTFHFWSGETVNYTIIKNGNQVTGIAAQ KTLDIQSYVRDMQPGWNLGNTFDAVGQDETAWGNPRVTRELIEQIADEGYKSIRIPVTWENRIGGAPDYPIDPQFLNRVDQVVQWALEEDLYVMINLHHDSWLWIYEMEHNYNGVMVKYRSLWEQLSNHFKDYPTKLMFESVNEPKFSQNWGEIRENHHALLDDLNTVFFEIVRQSGGQNDIRPLVLPTMETATSQPLLNNLYQTIDKLDDPNLIATVHYYGFWPFSVNIAGYTRFEENSKQEIIEAFDRVHHTFVARGIPVVLGEFGLLGFDKHTGVIQQGEKLKFFEFLIHHLNERDITHMLWDNGQHFNRHTYEWYDQELFDMMRASWEGRSSVAESNFIYLKQGDRIADATVSLQLHGNELTGLRANGQRLTPGQDYELNGERLTVKAHVLSAIASSGTLGTNGMVTAEFNRGADWHFRVNTYRTPVLQSTQGHVSNFSIPASFNGNSLATMEAVYVDGGNAGPQDWTSFKEFGYAFSPSYDANEMKLTEAFFREVRDGEVRLTFHFWSGETVNYTIIKNGNQVTGIAAQ 4v3p-a1-m2-cSa_4v3p-a1-m3-cSa The molecular structure of the left-handed supra-molecular helix of eukaryotic polyribosomes Q8LNY6 Q8LNY6 34.0 ELECTRON MICROSCOPY 13 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 380 380 MASVAELKEKHAAATASVNSLRERLRQRRQTLLDTDVEKYSKAQGRTAVSFNPTDLVCCRTLQGHSGKVYSLDWTPEKNWIVSASQDGRLIVWNALTSQKTHAIKLHCPWVMECAFAPNGQSVACGGLDSACSIFNLSSQADRDGNMPVSRVLTGHKGYASSCQYVPDQETRLITGSGDQTCVLWDVTTGQRISIFGSEFPSGHTADVLSLSINSLNANMFISGSCDTTVRLWDLRITSRAVRTYHGHEGDINSVKFFPDGQRFGTGSDDGTCRLFDMRTGHQLQVYNREPDRNDNELPIVTSVAFSISGRLLFAGYSNGDCYVWDTLLAEMVLNLGTLQNSHEGRISCLGLSSDGSALCTGSWDKNLKIWAFSGHRKIV MASVAELKEKHAAATASVNSLRERLRQRRQTLLDTDVEKYSKAQGRTAVSFNPTDLVCCRTLQGHSGKVYSLDWTPEKNWIVSASQDGRLIVWNALTSQKTHAIKLHCPWVMECAFAPNGQSVACGGLDSACSIFNLSSQADRDGNMPVSRVLTGHKGYASSCQYVPDQETRLITGSGDQTCVLWDVTTGQRISIFGSEFPSGHTADVLSLSINSLNANMFISGSCDTTVRLWDLRITSRAVRTYHGHEGDINSVKFFPDGQRFGTGSDDGTCRLFDMRTGHQLQVYNREPDRNDNELPIVTSVAFSISGRLLFAGYSNGDCYVWDTLLAEMVLNLGTLQNSHEGRISCLGLSSDGSALCTGSWDKNLKIWAFSGHRKIV 4v43-a2-m1-c1_4v43-a2-m1-cU Structural and mechanistic basis for allostery in the bacterial chaperonin GroEL P0A6F5 P0A6F5 3.52 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 525 525 1gr5-a1-m1-cA_1gr5-a1-m1-cL 1gr5-a1-m1-cB_1gr5-a1-m1-cK 1gr5-a1-m1-cC_1gr5-a1-m1-cJ 1gr5-a1-m1-cD_1gr5-a1-m1-cI 1gr5-a1-m1-cE_1gr5-a1-m1-cH 1gr5-a1-m1-cF_1gr5-a1-m1-cN 1gr5-a1-m1-cG_1gr5-a1-m1-cM 1grl-a1-m1-cA_1grl-a1-m2-cA 1grl-a1-m1-cB_1grl-a1-m2-cG 1grl-a1-m1-cC_1grl-a1-m2-cF 1grl-a1-m1-cD_1grl-a1-m2-cE 1grl-a1-m1-cE_1grl-a1-m2-cD 1grl-a1-m1-cF_1grl-a1-m2-cC 1grl-a1-m1-cG_1grl-a1-m2-cB 1kp8-a1-m1-cA_1kp8-a1-m1-cL 1kp8-a1-m1-cC_1kp8-a1-m1-cJ 1kp8-a1-m1-cD_1kp8-a1-m1-cI 1kp8-a1-m1-cE_1kp8-a1-m1-cH 1kp8-a1-m1-cF_1kp8-a1-m1-cN 1mnf-a1-m1-cA_1mnf-a1-m1-cL 1mnf-a1-m1-cB_1mnf-a1-m1-cK 1mnf-a1-m1-cC_1mnf-a1-m1-cJ 1mnf-a1-m1-cD_1mnf-a1-m1-cI 1mnf-a1-m1-cE_1mnf-a1-m1-cH 1mnf-a1-m1-cF_1mnf-a1-m1-cN 1mnf-a1-m1-cG_1mnf-a1-m1-cM 1oel-a1-m1-cA_1oel-a1-m2-cA 1oel-a1-m1-cB_1oel-a1-m2-cG 1oel-a1-m1-cC_1oel-a1-m2-cF 1oel-a1-m1-cD_1oel-a1-m2-cE 1oel-a1-m1-cE_1oel-a1-m2-cD 1oel-a1-m1-cF_1oel-a1-m2-cC 1oel-a1-m1-cG_1oel-a1-m2-cB 1ss8-a1-m1-cA_1ss8-a1-m2-cA 1ss8-a1-m1-cB_1ss8-a1-m2-cG 1ss8-a1-m1-cC_1ss8-a1-m2-cF 1ss8-a1-m1-cD_1ss8-a1-m2-cE 1ss8-a1-m1-cE_1ss8-a1-m2-cD 1ss8-a1-m1-cF_1ss8-a1-m2-cC 1ss8-a1-m1-cG_1ss8-a1-m2-cB 1sx3-a1-m1-cB_1sx3-a1-m1-cK 1sx3-a1-m1-cC_1sx3-a1-m1-cJ 1sx3-a1-m1-cE_1sx3-a1-m1-cH 1sx3-a1-m1-cF_1sx3-a1-m1-cN 1xck-a3-m1-cA_1xck-a3-m1-cL 1xck-a3-m1-cB_1xck-a3-m1-cK 1xck-a3-m1-cC_1xck-a3-m1-cJ 1xck-a3-m1-cD_1xck-a3-m1-cI 1xck-a3-m1-cE_1xck-a3-m1-cH 1xck-a3-m1-cF_1xck-a3-m1-cN 1xck-a3-m1-cG_1xck-a3-m1-cM 2nwc-a1-m1-cA_2nwc-a1-m1-cL 2nwc-a1-m1-cB_2nwc-a1-m1-cK 2nwc-a1-m1-cC_2nwc-a1-m1-cJ 2nwc-a1-m1-cD_2nwc-a1-m1-cI 2nwc-a1-m1-cG_2nwc-a1-m1-cM 2yey-a1-m1-cA_2yey-a1-m1-cH 2yey-a1-m1-cB_2yey-a1-m1-cN 2yey-a1-m1-cC_2yey-a1-m1-cM 2yey-a1-m1-cD_2yey-a1-m1-cL 2yey-a1-m1-cE_2yey-a1-m1-cK 2yey-a1-m1-cF_2yey-a1-m1-cJ 2yey-a1-m1-cG_2yey-a1-m1-cI 2ynj-a1-m1-cA_2ynj-a1-m1-cI 2ynj-a1-m1-cB_2ynj-a1-m1-cG 2ynj-a1-m1-cC_2ynj-a1-m1-cN 2ynj-a1-m1-cD_2ynj-a1-m1-cM 2ynj-a1-m1-cE_2ynj-a1-m1-cL 2ynj-a1-m1-cF_2ynj-a1-m1-cK 2ynj-a1-m1-cH_2ynj-a1-m1-cJ 3e76-a1-m1-cC_3e76-a1-m1-cJ 4hel-a1-m1-cA_4hel-a1-m1-cL 4hel-a1-m1-cB_4hel-a1-m1-cK 4hel-a1-m1-cC_4hel-a1-m1-cJ 4v43-a1-m1-cA_4v43-a1-m1-cL 4v43-a1-m1-cB_4v43-a1-m1-cK 4v43-a1-m1-cC_4v43-a1-m1-cJ 4v43-a1-m1-cD_4v43-a1-m1-cI 4v43-a1-m1-cE_4v43-a1-m1-cH 4v43-a1-m1-cF_4v43-a1-m1-cN 4v43-a1-m1-cG_4v43-a1-m1-cM 4v43-a2-m1-c2_4v43-a2-m1-cT 4v43-a2-m1-cO_4v43-a2-m1-cZ 4v43-a2-m1-cP_4v43-a2-m1-cY 4v43-a2-m1-cQ_4v43-a2-m1-cX 4v43-a2-m1-cR_4v43-a2-m1-cW 4v43-a2-m1-cS_4v43-a2-m1-cV 4wgl-a1-m1-cA_4wgl-a1-m1-cJ 4wgl-a1-m1-cB_4wgl-a1-m1-cI 4wgl-a1-m1-cC_4wgl-a1-m1-cH 4wgl-a1-m1-cD_4wgl-a1-m1-cN 4wgl-a1-m1-cE_4wgl-a1-m1-cM 4wgl-a1-m1-cF_4wgl-a1-m1-cL 4wgl-a1-m1-cG_4wgl-a1-m1-cK 4wsc-a1-m1-cB_4wsc-a1-m1-cK 4wsc-a1-m1-cC_4wsc-a1-m1-cJ 4wsc-a1-m1-cD_4wsc-a1-m1-cI 4wsc-a1-m1-cE_4wsc-a1-m1-cH 4wsc-a1-m1-cF_4wsc-a1-m1-cN 4wsc-a1-m1-cG_4wsc-a1-m1-cM 5opw-a1-m1-cB_5opw-a1-m1-cK 5opw-a1-m1-cC_5opw-a1-m1-cJ 5opw-a1-m1-cD_5opw-a1-m1-cI 5opw-a1-m1-cF_5opw-a1-m1-cN 5w0s-a1-m1-cA_5w0s-a1-m1-cK 5w0s-a1-m1-cB_5w0s-a1-m1-cJ 5w0s-a1-m1-cC_5w0s-a1-m1-cI 5w0s-a1-m1-cD_5w0s-a1-m1-cH 5w0s-a1-m1-cE_5w0s-a1-m1-cN 5w0s-a1-m1-cF_5w0s-a1-m1-cM 5w0s-a1-m1-cG_5w0s-a1-m1-cL 7xoj-a1-m1-cA_7xoj-a1-m1-cL 7xoj-a1-m1-cB_7xoj-a1-m1-cK 7xoj-a1-m1-cC_7xoj-a1-m1-cJ 7xoj-a1-m1-cD_7xoj-a1-m1-cI 7xoj-a1-m1-cE_7xoj-a1-m1-cH 7xoj-a1-m1-cF_7xoj-a1-m1-cN 7xoj-a1-m1-cG_7xoj-a1-m1-cM 7xok-a1-m1-cA_7xok-a1-m1-cL 7xok-a1-m1-cB_7xok-a1-m1-cK 7xok-a1-m1-cC_7xok-a1-m1-cJ 7xok-a1-m1-cD_7xok-a1-m1-cI 7xok-a1-m1-cE_7xok-a1-m1-cH 7xok-a1-m1-cF_7xok-a1-m1-cN 7xok-a1-m1-cG_7xok-a1-m1-cM 7xol-a1-m1-cA_7xol-a1-m1-cL 7xol-a1-m1-cB_7xol-a1-m1-cK 7xol-a1-m1-cC_7xol-a1-m1-cJ 7xol-a1-m1-cD_7xol-a1-m1-cI 7xol-a1-m1-cE_7xol-a1-m1-cH 7xol-a1-m1-cF_7xol-a1-m1-cN 7xol-a1-m1-cG_7xol-a1-m1-cM 7xom-a1-m1-cA_7xom-a1-m1-cL 7xom-a1-m1-cB_7xom-a1-m1-cK 7xom-a1-m1-cC_7xom-a1-m1-cJ 7xom-a1-m1-cD_7xom-a1-m1-cI 7xom-a1-m1-cE_7xom-a1-m1-cH 7xom-a1-m1-cF_7xom-a1-m1-cN 7xom-a1-m1-cG_7xom-a1-m1-cM AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVAAGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEAALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNADQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLPK 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1oqe-a1-m6-cD_1oqe-a1-m6-cE 1oqe-a1-m6-cD_1oqe-a1-m6-cF 1oqe-a1-m6-cE_1oqe-a1-m6-cF 1oqe-a1-m6-cG_1oqe-a1-m6-cH 1oqe-a1-m6-cG_1oqe-a1-m6-cI 1oqe-a1-m6-cH_1oqe-a1-m6-cI 1osg-a1-m1-cA_1osg-a1-m1-cB 1osg-a1-m1-cA_1osg-a1-m1-cC 1osg-a1-m1-cB_1osg-a1-m1-cC 1osg-a2-m1-cD_1osg-a2-m1-cE 1osg-a2-m1-cD_1osg-a2-m1-cF 1osg-a2-m1-cE_1osg-a2-m1-cF 3v56-a1-m1-cA_3v56-a1-m1-cB 3v56-a1-m1-cA_3v56-a1-m1-cC 3v56-a1-m1-cB_3v56-a1-m1-cC 3v56-a2-m1-cD_3v56-a2-m1-cE 3v56-a2-m1-cD_3v56-a2-m1-cF 3v56-a2-m1-cE_3v56-a2-m1-cF 4v46-a1-m1-cA0_4v46-a1-m1-cA6 4v46-a1-m1-cA0_4v46-a1-m1-cAU 4v46-a1-m1-cA1_4v46-a1-m1-cA7 4v46-a1-m1-cA1_4v46-a1-m1-cAV 4v46-a1-m1-cA2_4v46-a1-m1-cA8 4v46-a1-m1-cA2_4v46-a1-m1-cAW 4v46-a1-m1-cA3_4v46-a1-m1-cA9 4v46-a1-m1-cA3_4v46-a1-m1-cAX 4v46-a1-m1-cA4_4v46-a1-m1-cAS 4v46-a1-m1-cA4_4v46-a1-m1-cAY 4v46-a1-m1-cA5_4v46-a1-m1-cAT 4v46-a1-m1-cA5_4v46-a1-m1-cAZ 4v46-a1-m1-cA6_4v46-a1-m1-cAU 4v46-a1-m1-cA7_4v46-a1-m1-cAV 4v46-a1-m1-cA8_4v46-a1-m1-cAW 4v46-a1-m1-cA9_4v46-a1-m1-cAX 4v46-a1-m1-cAa_4v46-a1-m1-cAg 4v46-a1-m1-cAA_4v46-a1-m1-cAG 4v46-a1-m1-cAa_4v46-a1-m1-cAm 4v46-a1-m1-cAA_4v46-a1-m1-cAM 4v46-a1-m1-cAb_4v46-a1-m1-cAh 4v46-a1-m1-cAB_4v46-a1-m1-cAH 4v46-a1-m1-cAb_4v46-a1-m1-cAn 4v46-a1-m1-cAB_4v46-a1-m1-cAN 4v46-a1-m1-cAc_4v46-a1-m1-cAi 4v46-a1-m1-cAC_4v46-a1-m1-cAI 4v46-a1-m1-cAc_4v46-a1-m1-cAo 4v46-a1-m1-cAC_4v46-a1-m1-cAO 4v46-a1-m1-cAd_4v46-a1-m1-cAj 4v46-a1-m1-cAD_4v46-a1-m1-cAJ 4v46-a1-m1-cAd_4v46-a1-m1-cAp 4v46-a1-m1-cAD_4v46-a1-m1-cAP 4v46-a1-m1-cAe_4v46-a1-m1-cAk 4v46-a1-m1-cAE_4v46-a1-m1-cAK 4v46-a1-m1-cAe_4v46-a1-m1-cAq 4v46-a1-m1-cAE_4v46-a1-m1-cAQ 4v46-a1-m1-cAf_4v46-a1-m1-cAl 4v46-a1-m1-cAF_4v46-a1-m1-cAL 4v46-a1-m1-cAf_4v46-a1-m1-cAr 4v46-a1-m1-cAF_4v46-a1-m1-cAR 4v46-a1-m1-cAg_4v46-a1-m1-cAm 4v46-a1-m1-cAG_4v46-a1-m1-cAM 4v46-a1-m1-cAh_4v46-a1-m1-cAn 4v46-a1-m1-cAH_4v46-a1-m1-cAN 4v46-a1-m1-cAi_4v46-a1-m1-cAo 4v46-a1-m1-cAI_4v46-a1-m1-cAO 4v46-a1-m1-cAj_4v46-a1-m1-cAp 4v46-a1-m1-cAJ_4v46-a1-m1-cAP 4v46-a1-m1-cAk_4v46-a1-m1-cAq 4v46-a1-m1-cAK_4v46-a1-m1-cAQ 4v46-a1-m1-cAl_4v46-a1-m1-cAr 4v46-a1-m1-cAL_4v46-a1-m1-cAR 4v46-a1-m1-cAs_4v46-a1-m1-cAu 4v46-a1-m1-cAs_4v46-a1-m1-cAv 4v46-a1-m1-cAS_4v46-a1-m1-cAY 4v46-a1-m1-cAt_4v46-a1-m1-cAw 4v46-a1-m1-cAt_4v46-a1-m1-cAx 4v46-a1-m1-cAT_4v46-a1-m1-cAZ 4v46-a1-m1-cAu_4v46-a1-m1-cAv 6fxn-a1-m1-cA_6fxn-a1-m1-cB 6fxn-a1-m1-cA_6fxn-a1-m1-cC 6fxn-a1-m1-cB_6fxn-a1-m1-cC 6fxn-a2-m1-cJ_6fxn-a2-m1-cK 6fxn-a2-m1-cJ_6fxn-a2-m1-cL 6fxn-a2-m1-cK_6fxn-a2-m1-cL VTQDCLQLIADSETPTIQKGSYTFVPWLLSFKRGSALEEKENKILVKETGYFFIYGQVLYTDKTYAMGHLIQRKKVHVFGDELSLVTLFRCIQNMPETLPNNSCYSAGIAKLEEGDELQLAIPRENAQISLDGDVTFFGALKLL VTQDCLQLIADSETPTIQKGSYTFVPWLLSFKRGSALEEKENKILVKETGYFFIYGQVLYTDKTYAMGHLIQRKKVHVFGDELSLVTLFRCIQNMPETLPNNSCYSAGIAKLEEGDELQLAIPRENAQISLDGDVTFFGALKLL 4v4m-a1-m1-cN_4v4m-a1-m1-cz 1.45 Angstrom Structure of STNV coat protein P03606 P03606 1.45 X-RAY DIFFRACTION 69 1.0 12445 (Satellite tobacco necrosis virus 1) 12445 (Satellite tobacco necrosis virus 1) 184 184 2buk-a1-m10-cA_2buk-a1-m6-cA 2buk-a1-m10-cA_2buk-a1-m9-cA 2buk-a1-m11-cA_2buk-a1-m12-cA 2buk-a1-m11-cA_2buk-a1-m15-cA 2buk-a1-m12-cA_2buk-a1-m13-cA 2buk-a1-m13-cA_2buk-a1-m14-cA 2buk-a1-m14-cA_2buk-a1-m15-cA 2buk-a1-m16-cA_2buk-a1-m17-cA 2buk-a1-m16-cA_2buk-a1-m20-cA 2buk-a1-m17-cA_2buk-a1-m18-cA 2buk-a1-m18-cA_2buk-a1-m19-cA 2buk-a1-m19-cA_2buk-a1-m20-cA 2buk-a1-m1-cA_2buk-a1-m2-cA 2buk-a1-m1-cA_2buk-a1-m5-cA 2buk-a1-m21-cA_2buk-a1-m22-cA 2buk-a1-m21-cA_2buk-a1-m25-cA 2buk-a1-m22-cA_2buk-a1-m23-cA 2buk-a1-m23-cA_2buk-a1-m24-cA 2buk-a1-m24-cA_2buk-a1-m25-cA 2buk-a1-m26-cA_2buk-a1-m27-cA 2buk-a1-m26-cA_2buk-a1-m30-cA 2buk-a1-m27-cA_2buk-a1-m28-cA 2buk-a1-m28-cA_2buk-a1-m29-cA 2buk-a1-m29-cA_2buk-a1-m30-cA 2buk-a1-m2-cA_2buk-a1-m3-cA 2buk-a1-m31-cA_2buk-a1-m32-cA 2buk-a1-m31-cA_2buk-a1-m35-cA 2buk-a1-m32-cA_2buk-a1-m33-cA 2buk-a1-m33-cA_2buk-a1-m34-cA 2buk-a1-m34-cA_2buk-a1-m35-cA 2buk-a1-m36-cA_2buk-a1-m37-cA 2buk-a1-m36-cA_2buk-a1-m40-cA 2buk-a1-m37-cA_2buk-a1-m38-cA 2buk-a1-m38-cA_2buk-a1-m39-cA 2buk-a1-m39-cA_2buk-a1-m40-cA 2buk-a1-m3-cA_2buk-a1-m4-cA 2buk-a1-m41-cA_2buk-a1-m42-cA 2buk-a1-m41-cA_2buk-a1-m45-cA 2buk-a1-m42-cA_2buk-a1-m43-cA 2buk-a1-m43-cA_2buk-a1-m44-cA 2buk-a1-m44-cA_2buk-a1-m45-cA 2buk-a1-m46-cA_2buk-a1-m47-cA 2buk-a1-m46-cA_2buk-a1-m50-cA 2buk-a1-m47-cA_2buk-a1-m48-cA 2buk-a1-m48-cA_2buk-a1-m49-cA 2buk-a1-m49-cA_2buk-a1-m50-cA 2buk-a1-m4-cA_2buk-a1-m5-cA 2buk-a1-m51-cA_2buk-a1-m52-cA 2buk-a1-m51-cA_2buk-a1-m55-cA 2buk-a1-m52-cA_2buk-a1-m53-cA 2buk-a1-m53-cA_2buk-a1-m54-cA 2buk-a1-m54-cA_2buk-a1-m55-cA 2buk-a1-m56-cA_2buk-a1-m57-cA 2buk-a1-m56-cA_2buk-a1-m60-cA 2buk-a1-m57-cA_2buk-a1-m58-cA 2buk-a1-m58-cA_2buk-a1-m59-cA 2buk-a1-m59-cA_2buk-a1-m60-cA 2buk-a1-m6-cA_2buk-a1-m7-cA 2buk-a1-m7-cA_2buk-a1-m8-cA 2buk-a1-m8-cA_2buk-a1-m9-cA 3s4g-a1-m10-cA_3s4g-a1-m2-cA 3s4g-a1-m10-cA_3s4g-a1-m54-cA 3s4g-a1-m11-cA_3s4g-a1-m28-cA 3s4g-a1-m11-cA_3s4g-a1-m39-cA 3s4g-a1-m12-cA_3s4g-a1-m20-cA 3s4g-a1-m12-cA_3s4g-a1-m48-cA 3s4g-a1-m13-cA_3s4g-a1-m37-cA 3s4g-a1-m13-cA_3s4g-a1-m41-cA 3s4g-a1-m14-cA_3s4g-a1-m30-cA 3s4g-a1-m14-cA_3s4g-a1-m46-cA 3s4g-a1-m15-cA_3s4g-a1-m17-cA 3s4g-a1-m15-cA_3s4g-a1-m44-cA 3s4g-a1-m16-cA_3s4g-a1-m29-cA 3s4g-a1-m16-cA_3s4g-a1-m38-cA 3s4g-a1-m17-cA_3s4g-a1-m53-cA 3s4g-a1-m18-cA_3s4g-a1-m27-cA 3s4g-a1-m18-cA_3s4g-a1-m56-cA 3s4g-a1-m19-cA_3s4g-a1-m40-cA 3s4g-a1-m19-cA_3s4g-a1-m51-cA 3s4g-a1-m1-cA_3s4g-a1-m24-cA 3s4g-a1-m1-cA_3s4g-a1-m33-cA 3s4g-a1-m20-cA_3s4g-a1-m59-cA 3s4g-a1-m21-cA_3s4g-a1-m44-cA 3s4g-a1-m21-cA_3s4g-a1-m53-cA 3s4g-a1-m22-cA_3s4g-a1-m30-cA 3s4g-a1-m22-cA_3s4g-a1-m3-cA 3s4g-a1-m23-cA_3s4g-a1-m42-cA 3s4g-a1-m23-cA_3s4g-a1-m6-cA 3s4g-a1-m24-cA_3s4g-a1-m55-cA 3s4g-a1-m25-cA_3s4g-a1-m27-cA 3s4g-a1-m25-cA_3s4g-a1-m9-cA 3s4g-a1-m26-cA_3s4g-a1-m43-cA 3s4g-a1-m26-cA_3s4g-a1-m54-cA 3s4g-a1-m28-cA_3s4g-a1-m52-cA 3s4g-a1-m29-cA_3s4g-a1-m45-cA 3s4g-a1-m2-cA_3s4g-a1-m43-cA 3s4g-a1-m31-cA_3s4g-a1-m48-cA 3s4g-a1-m31-cA_3s4g-a1-m59-cA 3s4g-a1-m32-cA_3s4g-a1-m40-cA 3s4g-a1-m32-cA_3s4g-a1-m8-cA 3s4g-a1-m33-cA_3s4g-a1-m57-cA 3s4g-a1-m34-cA_3s4g-a1-m50-cA 3s4g-a1-m34-cA_3s4g-a1-m6-cA 3s4g-a1-m35-cA_3s4g-a1-m37-cA 3s4g-a1-m35-cA_3s4g-a1-m4-cA 3s4g-a1-m36-cA_3s4g-a1-m49-cA 3s4g-a1-m36-cA_3s4g-a1-m58-cA 3s4g-a1-m38-cA_3s4g-a1-m47-cA 3s4g-a1-m39-cA_3s4g-a1-m60-cA 3s4g-a1-m3-cA_3s4g-a1-m46-cA 3s4g-a1-m42-cA_3s4g-a1-m50-cA 3s4g-a1-m45-cA_3s4g-a1-m47-cA 3s4g-a1-m49-cA_3s4g-a1-m5-cA 3s4g-a1-m4-cA_3s4g-a1-m41-cA 3s4g-a1-m51-cA_3s4g-a1-m8-cA 3s4g-a1-m52-cA_3s4g-a1-m60-cA 3s4g-a1-m55-cA_3s4g-a1-m57-cA 3s4g-a1-m56-cA_3s4g-a1-m9-cA 3s4g-a1-m58-cA_3s4g-a1-m7-cA 3s4g-a1-m5-cA_3s4g-a1-m7-cA 4bcu-a1-m10-cA_4bcu-a1-m6-cA 4bcu-a1-m10-cA_4bcu-a1-m9-cA 4bcu-a1-m11-cA_4bcu-a1-m12-cA 4bcu-a1-m11-cA_4bcu-a1-m15-cA 4bcu-a1-m12-cA_4bcu-a1-m13-cA 4bcu-a1-m13-cA_4bcu-a1-m14-cA 4bcu-a1-m14-cA_4bcu-a1-m15-cA 4bcu-a1-m16-cA_4bcu-a1-m17-cA 4bcu-a1-m16-cA_4bcu-a1-m20-cA 4bcu-a1-m17-cA_4bcu-a1-m18-cA 4bcu-a1-m18-cA_4bcu-a1-m19-cA 4bcu-a1-m19-cA_4bcu-a1-m20-cA 4bcu-a1-m1-cA_4bcu-a1-m2-cA 4bcu-a1-m1-cA_4bcu-a1-m5-cA 4bcu-a1-m21-cA_4bcu-a1-m22-cA 4bcu-a1-m21-cA_4bcu-a1-m25-cA 4bcu-a1-m22-cA_4bcu-a1-m23-cA 4bcu-a1-m23-cA_4bcu-a1-m24-cA 4bcu-a1-m24-cA_4bcu-a1-m25-cA 4bcu-a1-m26-cA_4bcu-a1-m27-cA 4bcu-a1-m26-cA_4bcu-a1-m30-cA 4bcu-a1-m27-cA_4bcu-a1-m28-cA 4bcu-a1-m28-cA_4bcu-a1-m29-cA 4bcu-a1-m29-cA_4bcu-a1-m30-cA 4bcu-a1-m2-cA_4bcu-a1-m3-cA 4bcu-a1-m31-cA_4bcu-a1-m32-cA 4bcu-a1-m31-cA_4bcu-a1-m35-cA 4bcu-a1-m32-cA_4bcu-a1-m33-cA 4bcu-a1-m33-cA_4bcu-a1-m34-cA 4bcu-a1-m34-cA_4bcu-a1-m35-cA 4bcu-a1-m36-cA_4bcu-a1-m37-cA 4bcu-a1-m36-cA_4bcu-a1-m40-cA 4bcu-a1-m37-cA_4bcu-a1-m38-cA 4bcu-a1-m38-cA_4bcu-a1-m39-cA 4bcu-a1-m39-cA_4bcu-a1-m40-cA 4bcu-a1-m3-cA_4bcu-a1-m4-cA 4bcu-a1-m41-cA_4bcu-a1-m42-cA 4bcu-a1-m41-cA_4bcu-a1-m45-cA 4bcu-a1-m42-cA_4bcu-a1-m43-cA 4bcu-a1-m43-cA_4bcu-a1-m44-cA 4bcu-a1-m44-cA_4bcu-a1-m45-cA 4bcu-a1-m46-cA_4bcu-a1-m47-cA 4bcu-a1-m46-cA_4bcu-a1-m50-cA 4bcu-a1-m47-cA_4bcu-a1-m48-cA 4bcu-a1-m48-cA_4bcu-a1-m49-cA 4bcu-a1-m49-cA_4bcu-a1-m50-cA 4bcu-a1-m4-cA_4bcu-a1-m5-cA 4bcu-a1-m51-cA_4bcu-a1-m52-cA 4bcu-a1-m51-cA_4bcu-a1-m55-cA 4bcu-a1-m52-cA_4bcu-a1-m53-cA 4bcu-a1-m53-cA_4bcu-a1-m54-cA 4bcu-a1-m54-cA_4bcu-a1-m55-cA 4bcu-a1-m56-cA_4bcu-a1-m57-cA 4bcu-a1-m56-cA_4bcu-a1-m60-cA 4bcu-a1-m57-cA_4bcu-a1-m58-cA 4bcu-a1-m58-cA_4bcu-a1-m59-cA 4bcu-a1-m59-cA_4bcu-a1-m60-cA 4bcu-a1-m6-cA_4bcu-a1-m7-cA 4bcu-a1-m7-cA_4bcu-a1-m8-cA 4bcu-a1-m8-cA_4bcu-a1-m9-cA 4v4m-a1-m1-c0_4v4m-a1-m1-cq 4v4m-a1-m1-c0_4v4m-a1-m1-cu 4v4m-a1-m1-c1_4v4m-a1-m1-ch 4v4m-a1-m1-c1_4v4m-a1-m1-cS 4v4m-a1-m1-c2_4v4m-a1-m1-cR 4v4m-a1-m1-c2_4v4m-a1-m1-cw 4v4m-a1-m1-c3_4v4m-a1-m1-cp 4v4m-a1-m1-c3_4v4m-a1-m1-cu 4v4m-a1-m1-c4_4v4m-a1-m1-cL 4v4m-a1-m1-c4_4v4m-a1-m1-cv 4v4m-a1-m1-c5_4v4m-a1-m1-c6 4v4m-a1-m1-c5_4v4m-a1-m1-co 4v4m-a1-m1-c6_4v4m-a1-m1-cI 4v4m-a1-m1-c7_4v4m-a1-m1-cH 4v4m-a1-m1-c7_4v4m-a1-m1-cW 4v4m-a1-m1-ca_4v4m-a1-m1-ch 4v4m-a1-m1-cA_4v4m-a1-m1-ci 4v4m-a1-m1-cA_4v4m-a1-m1-cz 4v4m-a1-m1-cb_4v4m-a1-m1-cl 4v4m-a1-m1-cB_4v4m-a1-m1-cL 4v4m-a1-m1-cB_4v4m-a1-m1-cs 4v4m-a1-m1-cC_4v4m-a1-m1-cI 4v4m-a1-m1-cc_4v4m-a1-m1-ck 4v4m-a1-m1-cC_4v4m-a1-m1-co 4v4m-a1-m1-cD_4v4m-a1-m1-cT 4v4m-a1-m1-cD_4v4m-a1-m1-cY 4v4m-a1-m1-cE_4v4m-a1-m1-cg 4v4m-a1-m1-ce_4v4m-a1-m1-cl 4v4m-a1-m1-cE_4v4m-a1-m1-cm 4v4m-a1-m1-cF_4v4m-a1-m1-cf 4v4m-a1-m1-cF_4v4m-a1-m1-cG 4v4m-a1-m1-cg_4v4m-a1-m1-cj 4v4m-a1-m1-cG_4v4m-a1-m1-cQ 4v4m-a1-m1-cH_4v4m-a1-m1-cO 4v4m-a1-m1-cJ_4v4m-a1-m1-cf 4v4m-a1-m1-cJ_4v4m-a1-m1-cQ 4v4m-a1-m1-cj_4v4m-a1-m1-ct 4v4m-a1-m1-cK_4v4m-a1-m1-ce 4v4m-a1-m1-ck_4v4m-a1-m1-cr 4v4m-a1-m1-cK_4v4m-a1-m1-cZ 4v4m-a1-m1-cM_4v4m-a1-m1-ci 4v4m-a1-m1-cM_4v4m-a1-m1-cN 4v4m-a1-m1-cm_4v4m-a1-m1-ct 4v4m-a1-m1-cO_4v4m-a1-m1-cn 4v4m-a1-m1-cP_4v4m-a1-m1-ca 4v4m-a1-m1-cp_4v4m-a1-m1-cq 4v4m-a1-m1-cP_4v4m-a1-m1-cS 4v4m-a1-m1-cR_4v4m-a1-m1-cX 4v4m-a1-m1-cr_4v4m-a1-m1-cy 4v4m-a1-m1-cs_4v4m-a1-m1-cv 4v4m-a1-m1-cT_4v4m-a1-m1-cU 4v4m-a1-m1-cU_4v4m-a1-m1-cd 4v4m-a1-m1-cV_4v4m-a1-m1-cc 4v4m-a1-m1-cV_4v4m-a1-m1-cy 4v4m-a1-m1-cW_4v4m-a1-m1-cn 4v4m-a1-m1-cw_4v4m-a1-m1-cx 4v4m-a1-m1-cX_4v4m-a1-m1-cx 4v4m-a1-m1-cY_4v4m-a1-m1-cd 4v4m-a1-m1-cZ_4v4m-a1-m1-cb TMRAVKRMINTHLEHKRFALINSGNTNATAGTVQNLSNGIIQGDDINQRSGDQVRIVSHKLHVRGTAITVSQTFRFIWFRDNMNRGTTPTVLEVLNTANFMSQYNPITLQQKRFTILKDVTLNCSLTGESIKDRIINLPGQLVNYNGATAVAASNGPGAIFMLQIGDSLVGLWDSSYEAVYTDA TMRAVKRMINTHLEHKRFALINSGNTNATAGTVQNLSNGIIQGDDINQRSGDQVRIVSHKLHVRGTAITVSQTFRFIWFRDNMNRGTTPTVLEVLNTANFMSQYNPITLQQKRFTILKDVTLNCSLTGESIKDRIINLPGQLVNYNGATAVAASNGPGAIFMLQIGDSLVGLWDSSYEAVYTDA 4v4m-a1-m1-cP_4v4m-a1-m1-cz 1.45 Angstrom Structure of STNV coat protein P03606 P03606 1.45 X-RAY DIFFRACTION 39 1.0 12445 (Satellite tobacco necrosis virus 1) 12445 (Satellite tobacco necrosis virus 1) 184 184 2buk-a1-m10-cA_2buk-a1-m24-cA 2buk-a1-m11-cA_2buk-a1-m16-cA 2buk-a1-m12-cA_2buk-a1-m38-cA 2buk-a1-m13-cA_2buk-a1-m47-cA 2buk-a1-m14-cA_2buk-a1-m45-cA 2buk-a1-m15-cA_2buk-a1-m29-cA 2buk-a1-m17-cA_2buk-a1-m28-cA 2buk-a1-m18-cA_2buk-a1-m52-cA 2buk-a1-m19-cA_2buk-a1-m60-cA 2buk-a1-m1-cA_2buk-a1-m6-cA 2buk-a1-m20-cA_2buk-a1-m39-cA 2buk-a1-m21-cA_2buk-a1-m26-cA 2buk-a1-m22-cA_2buk-a1-m43-cA 2buk-a1-m25-cA_2buk-a1-m54-cA 2buk-a1-m27-cA_2buk-a1-m53-cA 2buk-a1-m2-cA_2buk-a1-m23-cA 2buk-a1-m30-cA_2buk-a1-m44-cA 2buk-a1-m31-cA_2buk-a1-m36-cA 2buk-a1-m32-cA_2buk-a1-m58-cA 2buk-a1-m33-cA_2buk-a1-m7-cA 2buk-a1-m34-cA_2buk-a1-m5-cA 2buk-a1-m35-cA_2buk-a1-m49-cA 2buk-a1-m37-cA_2buk-a1-m48-cA 2buk-a1-m3-cA_2buk-a1-m42-cA 2buk-a1-m40-cA_2buk-a1-m59-cA 2buk-a1-m41-cA_2buk-a1-m46-cA 2buk-a1-m4-cA_2buk-a1-m50-cA 2buk-a1-m51-cA_2buk-a1-m56-cA 2buk-a1-m55-cA_2buk-a1-m9-cA 2buk-a1-m57-cA_2buk-a1-m8-cA 3s4g-a1-m10-cA_3s4g-a1-m27-cA 3s4g-a1-m11-cA_3s4g-a1-m53-cA 3s4g-a1-m12-cA_3s4g-a1-m60-cA 3s4g-a1-m13-cA_3s4g-a1-m31-cA 3s4g-a1-m14-cA_3s4g-a1-m4-cA 3s4g-a1-m15-cA_3s4g-a1-m22-cA 3s4g-a1-m16-cA_3s4g-a1-m48-cA 3s4g-a1-m17-cA_3s4g-a1-m45-cA 3s4g-a1-m18-cA_3s4g-a1-m21-cA 3s4g-a1-m19-cA_3s4g-a1-m9-cA 3s4g-a1-m1-cA_3s4g-a1-m58-cA 3s4g-a1-m20-cA_3s4g-a1-m32-cA 3s4g-a1-m23-cA_3s4g-a1-m46-cA 3s4g-a1-m24-cA_3s4g-a1-m34-cA 3s4g-a1-m25-cA_3s4g-a1-m57-cA 3s4g-a1-m26-cA_3s4g-a1-m3-cA 3s4g-a1-m28-cA_3s4g-a1-m56-cA 3s4g-a1-m29-cA_3s4g-a1-m39-cA 3s4g-a1-m2-cA_3s4g-a1-m55-cA 3s4g-a1-m30-cA_3s4g-a1-m47-cA 3s4g-a1-m33-cA_3s4g-a1-m51-cA 3s4g-a1-m35-cA_3s4g-a1-m42-cA 3s4g-a1-m36-cA_3s4g-a1-m8-cA 3s4g-a1-m37-cA_3s4g-a1-m5-cA 3s4g-a1-m38-cA_3s4g-a1-m41-cA 3s4g-a1-m40-cA_3s4g-a1-m52-cA 3s4g-a1-m43-cA_3s4g-a1-m6-cA 3s4g-a1-m44-cA_3s4g-a1-m54-cA 3s4g-a1-m49-cA_3s4g-a1-m59-cA 3s4g-a1-m50-cA_3s4g-a1-m7-cA 4bcu-a1-m10-cA_4bcu-a1-m24-cA 4bcu-a1-m11-cA_4bcu-a1-m16-cA 4bcu-a1-m12-cA_4bcu-a1-m38-cA 4bcu-a1-m13-cA_4bcu-a1-m47-cA 4bcu-a1-m14-cA_4bcu-a1-m45-cA 4bcu-a1-m15-cA_4bcu-a1-m29-cA 4bcu-a1-m17-cA_4bcu-a1-m28-cA 4bcu-a1-m18-cA_4bcu-a1-m52-cA 4bcu-a1-m19-cA_4bcu-a1-m60-cA 4bcu-a1-m1-cA_4bcu-a1-m6-cA 4bcu-a1-m20-cA_4bcu-a1-m39-cA 4bcu-a1-m21-cA_4bcu-a1-m26-cA 4bcu-a1-m22-cA_4bcu-a1-m43-cA 4bcu-a1-m25-cA_4bcu-a1-m54-cA 4bcu-a1-m27-cA_4bcu-a1-m53-cA 4bcu-a1-m2-cA_4bcu-a1-m23-cA 4bcu-a1-m30-cA_4bcu-a1-m44-cA 4bcu-a1-m31-cA_4bcu-a1-m36-cA 4bcu-a1-m32-cA_4bcu-a1-m58-cA 4bcu-a1-m33-cA_4bcu-a1-m7-cA 4bcu-a1-m34-cA_4bcu-a1-m5-cA 4bcu-a1-m35-cA_4bcu-a1-m49-cA 4bcu-a1-m37-cA_4bcu-a1-m48-cA 4bcu-a1-m3-cA_4bcu-a1-m42-cA 4bcu-a1-m40-cA_4bcu-a1-m59-cA 4bcu-a1-m41-cA_4bcu-a1-m46-cA 4bcu-a1-m4-cA_4bcu-a1-m50-cA 4bcu-a1-m51-cA_4bcu-a1-m56-cA 4bcu-a1-m55-cA_4bcu-a1-m9-cA 4bcu-a1-m57-cA_4bcu-a1-m8-cA 4v4m-a1-m1-c0_4v4m-a1-m1-cw 4v4m-a1-m1-c1_4v4m-a1-m1-cR 4v4m-a1-m1-c2_4v4m-a1-m1-cv 4v4m-a1-m1-c3_4v4m-a1-m1-co 4v4m-a1-m1-c4_4v4m-a1-m1-ch 4v4m-a1-m1-c5_4v4m-a1-m1-cB 4v4m-a1-m1-c6_4v4m-a1-m1-cH 4v4m-a1-m1-c7_4v4m-a1-m1-cL 4v4m-a1-m1-cA_4v4m-a1-m1-cY 4v4m-a1-m1-cb_4v4m-a1-m1-ck 4v4m-a1-m1-cC_4v4m-a1-m1-cm 4v4m-a1-m1-cD_4v4m-a1-m1-cS 4v4m-a1-m1-cE_4v4m-a1-m1-cf 4v4m-a1-m1-cF_4v4m-a1-m1-cI 4v4m-a1-m1-cg_4v4m-a1-m1-cl 4v4m-a1-m1-cG_4v4m-a1-m1-cO 4v4m-a1-m1-cJ_4v4m-a1-m1-ce 4v4m-a1-m1-cj_4v4m-a1-m1-cr 4v4m-a1-m1-cK_4v4m-a1-m1-ci 4v4m-a1-m1-cM_4v4m-a1-m1-cQ 4v4m-a1-m1-cN_4v4m-a1-m1-cn 4v4m-a1-m1-cp_4v4m-a1-m1-ct 4v4m-a1-m1-cq_4v4m-a1-m1-cy 4v4m-a1-m1-cs_4v4m-a1-m1-cu 4v4m-a1-m1-cT_4v4m-a1-m1-cX 4v4m-a1-m1-cU_4v4m-a1-m1-cc 4v4m-a1-m1-cV_4v4m-a1-m1-cx 4v4m-a1-m1-cW_4v4m-a1-m1-ca 4v4m-a1-m1-cZ_4v4m-a1-m1-cd TMRAVKRMINTHLEHKRFALINSGNTNATAGTVQNLSNGIIQGDDINQRSGDQVRIVSHKLHVRGTAITVSQTFRFIWFRDNMNRGTTPTVLEVLNTANFMSQYNPITLQQKRFTILKDVTLNCSLTGESIKDRIINLPGQLVNYNGATAVAASNGPGAIFMLQIGDSLVGLWDSSYEAVYTDA TMRAVKRMINTHLEHKRFALINSGNTNATAGTVQNLSNGIIQGDDINQRSGDQVRIVSHKLHVRGTAITVSQTFRFIWFRDNMNRGTTPTVLEVLNTANFMSQYNPITLQQKRFTILKDVTLNCSLTGESIKDRIINLPGQLVNYNGATAVAASNGPGAIFMLQIGDSLVGLWDSSYEAVYTDA 4v4m-a1-m1-cY_4v4m-a1-m1-cz 1.45 Angstrom Structure of STNV coat protein P03606 P03606 1.45 X-RAY DIFFRACTION 41 1.0 12445 (Satellite tobacco necrosis virus 1) 12445 (Satellite tobacco necrosis virus 1) 184 184 2buk-a1-m10-cA_2buk-a1-m25-cA 2buk-a1-m10-cA_2buk-a1-m55-cA 2buk-a1-m11-cA_2buk-a1-m17-cA 2buk-a1-m11-cA_2buk-a1-m29-cA 2buk-a1-m12-cA_2buk-a1-m16-cA 2buk-a1-m12-cA_2buk-a1-m39-cA 2buk-a1-m13-cA_2buk-a1-m38-cA 2buk-a1-m13-cA_2buk-a1-m48-cA 2buk-a1-m14-cA_2buk-a1-m41-cA 2buk-a1-m14-cA_2buk-a1-m47-cA 2buk-a1-m15-cA_2buk-a1-m30-cA 2buk-a1-m15-cA_2buk-a1-m45-cA 2buk-a1-m16-cA_2buk-a1-m39-cA 2buk-a1-m17-cA_2buk-a1-m29-cA 2buk-a1-m18-cA_2buk-a1-m28-cA 2buk-a1-m18-cA_2buk-a1-m53-cA 2buk-a1-m19-cA_2buk-a1-m52-cA 2buk-a1-m19-cA_2buk-a1-m56-cA 2buk-a1-m1-cA_2buk-a1-m34-cA 2buk-a1-m1-cA_2buk-a1-m7-cA 2buk-a1-m20-cA_2buk-a1-m40-cA 2buk-a1-m20-cA_2buk-a1-m60-cA 2buk-a1-m21-cA_2buk-a1-m27-cA 2buk-a1-m21-cA_2buk-a1-m54-cA 2buk-a1-m22-cA_2buk-a1-m26-cA 2buk-a1-m22-cA_2buk-a1-m44-cA 2buk-a1-m23-cA_2buk-a1-m3-cA 2buk-a1-m23-cA_2buk-a1-m43-cA 2buk-a1-m24-cA_2buk-a1-m6-cA 2buk-a1-m25-cA_2buk-a1-m55-cA 2buk-a1-m26-cA_2buk-a1-m44-cA 2buk-a1-m27-cA_2buk-a1-m54-cA 2buk-a1-m28-cA_2buk-a1-m53-cA 2buk-a1-m2-cA_2buk-a1-m24-cA 2buk-a1-m2-cA_2buk-a1-m6-cA 2buk-a1-m30-cA_2buk-a1-m45-cA 2buk-a1-m31-cA_2buk-a1-m37-cA 2buk-a1-m31-cA_2buk-a1-m49-cA 2buk-a1-m32-cA_2buk-a1-m36-cA 2buk-a1-m32-cA_2buk-a1-m59-cA 2buk-a1-m33-cA_2buk-a1-m58-cA 2buk-a1-m33-cA_2buk-a1-m8-cA 2buk-a1-m34-cA_2buk-a1-m7-cA 2buk-a1-m35-cA_2buk-a1-m50-cA 2buk-a1-m35-cA_2buk-a1-m5-cA 2buk-a1-m36-cA_2buk-a1-m59-cA 2buk-a1-m37-cA_2buk-a1-m49-cA 2buk-a1-m38-cA_2buk-a1-m48-cA 2buk-a1-m3-cA_2buk-a1-m43-cA 2buk-a1-m40-cA_2buk-a1-m60-cA 2buk-a1-m41-cA_2buk-a1-m47-cA 2buk-a1-m42-cA_2buk-a1-m46-cA 2buk-a1-m4-cA_2buk-a1-m42-cA 2buk-a1-m4-cA_2buk-a1-m46-cA 2buk-a1-m51-cA_2buk-a1-m57-cA 2buk-a1-m51-cA_2buk-a1-m9-cA 2buk-a1-m52-cA_2buk-a1-m56-cA 2buk-a1-m57-cA_2buk-a1-m9-cA 2buk-a1-m58-cA_2buk-a1-m8-cA 2buk-a1-m5-cA_2buk-a1-m50-cA 3s4g-a1-m10-cA_3s4g-a1-m25-cA 3s4g-a1-m10-cA_3s4g-a1-m55-cA 3s4g-a1-m11-cA_3s4g-a1-m17-cA 3s4g-a1-m11-cA_3s4g-a1-m29-cA 3s4g-a1-m12-cA_3s4g-a1-m16-cA 3s4g-a1-m12-cA_3s4g-a1-m39-cA 3s4g-a1-m13-cA_3s4g-a1-m38-cA 3s4g-a1-m13-cA_3s4g-a1-m48-cA 3s4g-a1-m14-cA_3s4g-a1-m41-cA 3s4g-a1-m14-cA_3s4g-a1-m47-cA 3s4g-a1-m15-cA_3s4g-a1-m30-cA 3s4g-a1-m15-cA_3s4g-a1-m45-cA 3s4g-a1-m16-cA_3s4g-a1-m39-cA 3s4g-a1-m17-cA_3s4g-a1-m29-cA 3s4g-a1-m18-cA_3s4g-a1-m28-cA 3s4g-a1-m18-cA_3s4g-a1-m53-cA 3s4g-a1-m19-cA_3s4g-a1-m52-cA 3s4g-a1-m19-cA_3s4g-a1-m56-cA 3s4g-a1-m1-cA_3s4g-a1-m34-cA 3s4g-a1-m1-cA_3s4g-a1-m7-cA 3s4g-a1-m20-cA_3s4g-a1-m40-cA 3s4g-a1-m20-cA_3s4g-a1-m60-cA 3s4g-a1-m21-cA_3s4g-a1-m27-cA 3s4g-a1-m21-cA_3s4g-a1-m54-cA 3s4g-a1-m22-cA_3s4g-a1-m26-cA 3s4g-a1-m22-cA_3s4g-a1-m44-cA 3s4g-a1-m23-cA_3s4g-a1-m3-cA 3s4g-a1-m23-cA_3s4g-a1-m43-cA 3s4g-a1-m24-cA_3s4g-a1-m6-cA 3s4g-a1-m25-cA_3s4g-a1-m55-cA 3s4g-a1-m26-cA_3s4g-a1-m44-cA 3s4g-a1-m27-cA_3s4g-a1-m54-cA 3s4g-a1-m28-cA_3s4g-a1-m53-cA 3s4g-a1-m2-cA_3s4g-a1-m24-cA 3s4g-a1-m2-cA_3s4g-a1-m6-cA 3s4g-a1-m30-cA_3s4g-a1-m45-cA 3s4g-a1-m31-cA_3s4g-a1-m37-cA 3s4g-a1-m31-cA_3s4g-a1-m49-cA 3s4g-a1-m32-cA_3s4g-a1-m36-cA 3s4g-a1-m32-cA_3s4g-a1-m59-cA 3s4g-a1-m33-cA_3s4g-a1-m58-cA 3s4g-a1-m33-cA_3s4g-a1-m8-cA 3s4g-a1-m34-cA_3s4g-a1-m7-cA 3s4g-a1-m35-cA_3s4g-a1-m50-cA 3s4g-a1-m35-cA_3s4g-a1-m5-cA 3s4g-a1-m36-cA_3s4g-a1-m59-cA 3s4g-a1-m37-cA_3s4g-a1-m49-cA 3s4g-a1-m38-cA_3s4g-a1-m48-cA 3s4g-a1-m3-cA_3s4g-a1-m43-cA 3s4g-a1-m40-cA_3s4g-a1-m60-cA 3s4g-a1-m41-cA_3s4g-a1-m47-cA 3s4g-a1-m42-cA_3s4g-a1-m46-cA 3s4g-a1-m4-cA_3s4g-a1-m42-cA 3s4g-a1-m4-cA_3s4g-a1-m46-cA 3s4g-a1-m51-cA_3s4g-a1-m57-cA 3s4g-a1-m51-cA_3s4g-a1-m9-cA 3s4g-a1-m52-cA_3s4g-a1-m56-cA 3s4g-a1-m57-cA_3s4g-a1-m9-cA 3s4g-a1-m58-cA_3s4g-a1-m8-cA 3s4g-a1-m5-cA_3s4g-a1-m50-cA 4bcu-a1-m10-cA_4bcu-a1-m25-cA 4bcu-a1-m10-cA_4bcu-a1-m55-cA 4bcu-a1-m11-cA_4bcu-a1-m17-cA 4bcu-a1-m11-cA_4bcu-a1-m29-cA 4bcu-a1-m12-cA_4bcu-a1-m16-cA 4bcu-a1-m12-cA_4bcu-a1-m39-cA 4bcu-a1-m13-cA_4bcu-a1-m38-cA 4bcu-a1-m13-cA_4bcu-a1-m48-cA 4bcu-a1-m14-cA_4bcu-a1-m41-cA 4bcu-a1-m14-cA_4bcu-a1-m47-cA 4bcu-a1-m15-cA_4bcu-a1-m30-cA 4bcu-a1-m15-cA_4bcu-a1-m45-cA 4bcu-a1-m16-cA_4bcu-a1-m39-cA 4bcu-a1-m17-cA_4bcu-a1-m29-cA 4bcu-a1-m18-cA_4bcu-a1-m28-cA 4bcu-a1-m18-cA_4bcu-a1-m53-cA 4bcu-a1-m19-cA_4bcu-a1-m52-cA 4bcu-a1-m19-cA_4bcu-a1-m56-cA 4bcu-a1-m1-cA_4bcu-a1-m34-cA 4bcu-a1-m1-cA_4bcu-a1-m7-cA 4bcu-a1-m20-cA_4bcu-a1-m40-cA 4bcu-a1-m20-cA_4bcu-a1-m60-cA 4bcu-a1-m21-cA_4bcu-a1-m27-cA 4bcu-a1-m21-cA_4bcu-a1-m54-cA 4bcu-a1-m22-cA_4bcu-a1-m26-cA 4bcu-a1-m22-cA_4bcu-a1-m44-cA 4bcu-a1-m23-cA_4bcu-a1-m3-cA 4bcu-a1-m23-cA_4bcu-a1-m43-cA 4bcu-a1-m24-cA_4bcu-a1-m6-cA 4bcu-a1-m25-cA_4bcu-a1-m55-cA 4bcu-a1-m26-cA_4bcu-a1-m44-cA 4bcu-a1-m27-cA_4bcu-a1-m54-cA 4bcu-a1-m28-cA_4bcu-a1-m53-cA 4bcu-a1-m2-cA_4bcu-a1-m24-cA 4bcu-a1-m2-cA_4bcu-a1-m6-cA 4bcu-a1-m30-cA_4bcu-a1-m45-cA 4bcu-a1-m31-cA_4bcu-a1-m37-cA 4bcu-a1-m31-cA_4bcu-a1-m49-cA 4bcu-a1-m32-cA_4bcu-a1-m36-cA 4bcu-a1-m32-cA_4bcu-a1-m59-cA 4bcu-a1-m33-cA_4bcu-a1-m58-cA 4bcu-a1-m33-cA_4bcu-a1-m8-cA 4bcu-a1-m34-cA_4bcu-a1-m7-cA 4bcu-a1-m35-cA_4bcu-a1-m50-cA 4bcu-a1-m35-cA_4bcu-a1-m5-cA 4bcu-a1-m36-cA_4bcu-a1-m59-cA 4bcu-a1-m37-cA_4bcu-a1-m49-cA 4bcu-a1-m38-cA_4bcu-a1-m48-cA 4bcu-a1-m3-cA_4bcu-a1-m43-cA 4bcu-a1-m40-cA_4bcu-a1-m60-cA 4bcu-a1-m41-cA_4bcu-a1-m47-cA 4bcu-a1-m42-cA_4bcu-a1-m46-cA 4bcu-a1-m4-cA_4bcu-a1-m42-cA 4bcu-a1-m4-cA_4bcu-a1-m46-cA 4bcu-a1-m51-cA_4bcu-a1-m57-cA 4bcu-a1-m51-cA_4bcu-a1-m9-cA 4bcu-a1-m52-cA_4bcu-a1-m56-cA 4bcu-a1-m57-cA_4bcu-a1-m9-cA 4bcu-a1-m58-cA_4bcu-a1-m8-cA 4bcu-a1-m5-cA_4bcu-a1-m50-cA 4v4m-a1-m1-c0_4v4m-a1-m1-c2 4v4m-a1-m1-c0_4v4m-a1-m1-cs 4v4m-a1-m1-c1_4v4m-a1-m1-cD 4v4m-a1-m1-c1_4v4m-a1-m1-cX 4v4m-a1-m1-c2_4v4m-a1-m1-cs 4v4m-a1-m1-c3_4v4m-a1-m1-cC 4v4m-a1-m1-c3_4v4m-a1-m1-ct 4v4m-a1-m1-c4_4v4m-a1-m1-c7 4v4m-a1-m1-c4_4v4m-a1-m1-ca 4v4m-a1-m1-c5_4v4m-a1-m1-cH 4v4m-a1-m1-c5_4v4m-a1-m1-cL 4v4m-a1-m1-c6_4v4m-a1-m1-cF 4v4m-a1-m1-c6_4v4m-a1-m1-cO 4v4m-a1-m1-c7_4v4m-a1-m1-ca 4v4m-a1-m1-cA_4v4m-a1-m1-cd 4v4m-a1-m1-cA_4v4m-a1-m1-cK 4v4m-a1-m1-cb_4v4m-a1-m1-cg 4v4m-a1-m1-cB_4v4m-a1-m1-co 4v4m-a1-m1-cb_4v4m-a1-m1-cr 4v4m-a1-m1-cB_4v4m-a1-m1-cu 4v4m-a1-m1-cC_4v4m-a1-m1-ct 4v4m-a1-m1-cc_4v4m-a1-m1-cx 4v4m-a1-m1-cD_4v4m-a1-m1-cX 4v4m-a1-m1-ce_4v4m-a1-m1-ci 4v4m-a1-m1-cE_4v4m-a1-m1-cJ 4v4m-a1-m1-cE_4v4m-a1-m1-cl 4v4m-a1-m1-cf_4v4m-a1-m1-cm 4v4m-a1-m1-cF_4v4m-a1-m1-cO 4v4m-a1-m1-cG_4v4m-a1-m1-cM 4v4m-a1-m1-cG_4v4m-a1-m1-cn 4v4m-a1-m1-cg_4v4m-a1-m1-cr 4v4m-a1-m1-cH_4v4m-a1-m1-cL 4v4m-a1-m1-ch_4v4m-a1-m1-cv 4v4m-a1-m1-cI_4v4m-a1-m1-cf 4v4m-a1-m1-cI_4v4m-a1-m1-cm 4v4m-a1-m1-cJ_4v4m-a1-m1-cl 4v4m-a1-m1-cj_4v4m-a1-m1-cp 4v4m-a1-m1-cj_4v4m-a1-m1-cy 4v4m-a1-m1-cK_4v4m-a1-m1-cd 4v4m-a1-m1-cM_4v4m-a1-m1-cn 4v4m-a1-m1-cN_4v4m-a1-m1-cP 4v4m-a1-m1-cN_4v4m-a1-m1-cW 4v4m-a1-m1-co_4v4m-a1-m1-cu 4v4m-a1-m1-cP_4v4m-a1-m1-cW 4v4m-a1-m1-cp_4v4m-a1-m1-cy 4v4m-a1-m1-cQ_4v4m-a1-m1-ce 4v4m-a1-m1-cQ_4v4m-a1-m1-ci 4v4m-a1-m1-cq_4v4m-a1-m1-cw 4v4m-a1-m1-cR_4v4m-a1-m1-ch 4v4m-a1-m1-cR_4v4m-a1-m1-cv 4v4m-a1-m1-cS_4v4m-a1-m1-cY 4v4m-a1-m1-cS_4v4m-a1-m1-cz 4v4m-a1-m1-cT_4v4m-a1-m1-cc 4v4m-a1-m1-cT_4v4m-a1-m1-cx 4v4m-a1-m1-cU_4v4m-a1-m1-ck 4v4m-a1-m1-cU_4v4m-a1-m1-cZ 4v4m-a1-m1-cV_4v4m-a1-m1-cq 4v4m-a1-m1-cV_4v4m-a1-m1-cw 4v4m-a1-m1-cZ_4v4m-a1-m1-ck TMRAVKRMINTHLEHKRFALINSGNTNATAGTVQNLSNGIIQGDDINQRSGDQVRIVSHKLHVRGTAITVSQTFRFIWFRDNMNRGTTPTVLEVLNTANFMSQYNPITLQQKRFTILKDVTLNCSLTGESIKDRIINLPGQLVNYNGATAVAASNGPGAIFMLQIGDSLVGLWDSSYEAVYTDA TMRAVKRMINTHLEHKRFALINSGNTNATAGTVQNLSNGIIQGDDINQRSGDQVRIVSHKLHVRGTAITVSQTFRFIWFRDNMNRGTTPTVLEVLNTANFMSQYNPITLQQKRFTILKDVTLNCSLTGESIKDRIINLPGQLVNYNGATAVAASNGPGAIFMLQIGDSLVGLWDSSYEAVYTDA 4v4v-a1-m1-cB3_4v4v-a1-m1-cB5 Structure of a pre-translocational E. coli ribosome obtained by fitting atomic models for RNA and protein components into cryo-EM map EMD-1056 P0A7K2 P0A7K2 15.0 ELECTRON MICROSCOPY 129 1.0 562 (Escherichia coli) 562 (Escherichia coli) 119 119 ITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK ITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK 4v4w-a1-m1-cB3_4v4w-a1-m1-cB5 Structure of a SecM-stalled E. coli ribosome complex obtained by fitting atomic models for RNA and protein components into cryo-EM map EMD-1143 P0A7K2 P0A7K2 15.0 ELECTRON MICROSCOPY 112 1.0 562 (Escherichia coli) 562 (Escherichia coli) 119 119 ITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK ITKDQIIEAVAAMSVMDVVELISAMEEKFGVSAAAAVAVAAGPVEAAEEKTEFDVILKAAGANKVAVIKAVRGATGLGLKEAKDLVESAPAALKEGVSKDDAEALKKALEEAGAEVEVK 4v5g-a1-m1-cAY_4v5g-a1-m1-cAZ The crystal structure of the 70S ribosome bound to EF-Tu and tRNA Q5SHN6 3.6 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 1 374 T TKPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEQMHRNPKTRRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRRTVVTGVEMHRKTLQEGIAGDNVGVLLRGVSREEVERGQVLAKPGSITPHTKFEASVYVLKKEEGGRHTGFFSGYRPQFYFRTTDVTGVVQLPPGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE 4v5g-a2-m1-cCY_4v5g-a2-m1-cCZ The crystal structure of the 70S ribosome bound to EF-Tu and tRNA Q5SHN6 3.6 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 1 374 T TKPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEQMHRNPKTRRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRRTVVTGVEMHRKTLQEGIAGDNVGVLLRGVSREEVERGQVLAKPGSITPHTKFEASVYVLKKEEGGRHTGFFSGYRPQFYFRTTDVTGVVQLPPGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE 4v5r-a2-m1-cCY_4v5r-a2-m1-cCZ The crystal structure of EF-Tu and Trp-tRNA-Trp bound to a cognate codon on the 70S ribosome. Q5SHN6 3.1 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 1 385 4v5l-a1-m1-cAY_4v5l-a1-m1-cAZ 4v5p-a1-m1-cAY_4v5p-a1-m1-cAZ 4v5p-a2-m1-cCY_4v5p-a2-m1-cCZ 4v5q-a1-m1-cAY_4v5q-a1-m1-cAZ 4v5q-a2-m1-cCY_4v5q-a2-m1-cCZ 4v5r-a1-m1-cAY_4v5r-a1-m1-cAZ 4v5s-a1-m1-cAY_4v5s-a1-m1-cAZ W AKGEFVRTKPHVNVGTIGHVDHGKTTLTAALTYVAAAENPNVINTAHVEYETAKRHYSHVDCPGHADYIKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFMNKVDMVDDPELLDLVEMEVRDLLNQYEFPGDEVPVIRGSALLALEQMHRNPKTRRGENEWVDKIWELLDAIDEYIPTPVRDVDKPFLMPVEDVFTITGRGTVATGRIERGKVKVGDEVEIVGLAPETRRTVVTGVEMHRKTLQEGIAGDNVGVLLRGVSREEVERGQVLAKPGSITPHTKFEASVYVLKKEEGGRHTGFFSGYRPQFYFRTTDVTGVVQLPPGVEMVMPGDNVTFTVELIKPVALEEGLRFAIREGGRTVGAGVVTKILE 4v5z-a1-m1-cB7_4v5z-a1-m1-cBp Structure of a mammalian 80S ribosome obtained by docking homology models of the RNA and proteins into an 8.7 A cryo-EM map 8.7 ELECTRON MICROSCOPY 10 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 13 159 RMRILRRLLRRYR RLASSVLRCGKKKVWLDPNETNEIANANSRQQIRKLIKDGLIIRKPVTVSRARCRKNTLARRKGRHMGTANARMPEKVTWMRRMRILRRLLRRYRESKKIDRHMYHSLYLKVKGNDKARKKLLADQAEARRSKTKEARKRREERLQAKKEEIIKTLSKE 4v5z-a1-m1-cB8_4v5z-a1-m1-cBv Structure of a mammalian 80S ribosome obtained by docking homology models of the RNA and proteins into an 8.7 A cryo-EM map 8.7 ELECTRON MICROSCOPY 13 1.0 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 10 61 ARVLTVINQT IKARDLRGKKKEELLKQLDDLKVELSQLRVAKVTGGAASKLSKIRVVRKSIARVLTVINQT 4v6b-a6-m1-cCd_4v6b-a6-m1-cCi Crystal structure of human ferritin Phe167SerfsX26 mutant. Q6S4P3 Q6S4P3 2.85 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 153 153 2ffx-a1-m10-cJ_2ffx-a1-m23-cJ 2ffx-a1-m11-cJ_2ffx-a1-m22-cJ 2ffx-a1-m12-cJ_2ffx-a1-m24-cJ 2ffx-a1-m13-cJ_2ffx-a1-m6-cJ 2ffx-a1-m14-cJ_2ffx-a1-m8-cJ 2ffx-a1-m15-cJ_2ffx-a1-m5-cJ 2ffx-a1-m16-cJ_2ffx-a1-m7-cJ 2ffx-a1-m17-cJ_2ffx-a1-m3-cJ 2ffx-a1-m19-cJ_2ffx-a1-m4-cJ 2ffx-a1-m1-cJ_2ffx-a1-m18-cJ 2ffx-a1-m21-cJ_2ffx-a1-m9-cJ 2ffx-a1-m2-cJ_2ffx-a1-m20-cJ 2fg4-a1-m10-cA_2fg4-a1-m23-cA 2fg4-a1-m11-cA_2fg4-a1-m22-cA 2fg4-a1-m12-cA_2fg4-a1-m24-cA 2fg4-a1-m13-cA_2fg4-a1-m6-cA 2fg4-a1-m14-cA_2fg4-a1-m8-cA 2fg4-a1-m15-cA_2fg4-a1-m5-cA 2fg4-a1-m16-cA_2fg4-a1-m7-cA 2fg4-a1-m17-cA_2fg4-a1-m3-cA 2fg4-a1-m19-cA_2fg4-a1-m4-cA 2fg4-a1-m1-cA_2fg4-a1-m18-cA 2fg4-a1-m21-cA_2fg4-a1-m9-cA 2fg4-a1-m2-cA_2fg4-a1-m20-cA 2fg8-a1-m1-cA_2fg8-a1-m1-cD 2fg8-a1-m1-cB_2fg8-a1-m1-cH 2fg8-a1-m1-cC_2fg8-a1-m3-cG 2fg8-a1-m1-cE_2fg8-a1-m1-cF 2fg8-a1-m1-cG_2fg8-a1-m2-cC 2fg8-a1-m2-cA_2fg8-a1-m2-cD 2fg8-a1-m2-cB_2fg8-a1-m2-cH 2fg8-a1-m2-cE_2fg8-a1-m2-cF 2fg8-a1-m2-cG_2fg8-a1-m3-cC 2fg8-a1-m3-cA_2fg8-a1-m3-cD 2fg8-a1-m3-cB_2fg8-a1-m3-cH 2fg8-a1-m3-cE_2fg8-a1-m3-cF 3kxu-a1-m10-cA_3kxu-a1-m23-cA 3kxu-a1-m11-cA_3kxu-a1-m22-cA 3kxu-a1-m12-cA_3kxu-a1-m24-cA 3kxu-a1-m13-cA_3kxu-a1-m6-cA 3kxu-a1-m14-cA_3kxu-a1-m8-cA 3kxu-a1-m15-cA_3kxu-a1-m5-cA 3kxu-a1-m16-cA_3kxu-a1-m7-cA 3kxu-a1-m17-cA_3kxu-a1-m3-cA 3kxu-a1-m19-cA_3kxu-a1-m4-cA 3kxu-a1-m1-cA_3kxu-a1-m18-cA 3kxu-a1-m21-cA_3kxu-a1-m9-cA 3kxu-a1-m2-cA_3kxu-a1-m20-cA 4v6b-a1-m1-cAF_4v6b-a1-m1-cAM 4v6b-a1-m1-cAG_4v6b-a1-m1-cAN 4v6b-a1-m1-cAH_4v6b-a1-m1-cAO 4v6b-a1-m1-cAI_4v6b-a1-m1-cAD 4v6b-a1-m1-cAJ_4v6b-a1-m1-cAA 4v6b-a1-m1-cAK_4v6b-a1-m1-cAB 4v6b-a1-m1-cAL_4v6b-a1-m1-cAC 4v6b-a1-m1-cAP_4v6b-a1-m1-cAE 4v6b-a1-m1-cAS_4v6b-a1-m1-cAQ 4v6b-a1-m1-cAT_4v6b-a1-m1-cAX 4v6b-a1-m1-cAU_4v6b-a1-m1-cAV 4v6b-a1-m1-cAW_4v6b-a1-m1-cAR 4v6b-a2-m1-cAa_4v6b-a2-m1-cAj 4v6b-a2-m1-cAb_4v6b-a2-m1-cAk 4v6b-a2-m1-cAc_4v6b-a2-m1-cAl 4v6b-a2-m1-cAe_4v6b-a2-m1-cAp 4v6b-a2-m1-cAf_4v6b-a2-m1-cAm 4v6b-a2-m1-cAg_4v6b-a2-m1-cAn 4v6b-a2-m1-cAh_4v6b-a2-m1-cAo 4v6b-a2-m1-cAi_4v6b-a2-m1-cAd 4v6b-a2-m1-cAq_4v6b-a2-m1-cAs 4v6b-a2-m1-cAu_4v6b-a2-m1-cAv 4v6b-a2-m1-cAw_4v6b-a2-m1-cAr 4v6b-a2-m1-cAx_4v6b-a2-m1-cAt 4v6b-a3-m1-cBC_4v6b-a3-m1-cBL 4v6b-a3-m1-cBE_4v6b-a3-m1-cBP 4v6b-a3-m1-cBG_4v6b-a3-m1-cBN 4v6b-a3-m1-cBH_4v6b-a3-m1-cBO 4v6b-a3-m1-cBI_4v6b-a3-m1-cBD 4v6b-a3-m1-cBJ_4v6b-a3-m1-cBA 4v6b-a3-m1-cBK_4v6b-a3-m1-cBB 4v6b-a3-m1-cBM_4v6b-a3-m1-cBF 4v6b-a3-m1-cBR_4v6b-a3-m1-cBW 4v6b-a3-m1-cBS_4v6b-a3-m1-cBQ 4v6b-a3-m1-cBT_4v6b-a3-m1-cBX 4v6b-a3-m1-cBV_4v6b-a3-m1-cBU 4v6b-a4-m1-cBb_4v6b-a4-m1-cBk 4v6b-a4-m1-cBg_4v6b-a4-m1-cBn 4v6b-a4-m1-cBi_4v6b-a4-m1-cBd 4v6b-a4-m1-cBj_4v6b-a4-m1-cBa 4v6b-a4-m1-cBl_4v6b-a4-m1-cBc 4v6b-a4-m1-cBm_4v6b-a4-m1-cBf 4v6b-a4-m1-cBo_4v6b-a4-m1-cBh 4v6b-a4-m1-cBp_4v6b-a4-m1-cBe 4v6b-a4-m1-cBs_4v6b-a4-m1-cBq 4v6b-a4-m1-cBv_4v6b-a4-m1-cBu 4v6b-a4-m1-cBw_4v6b-a4-m1-cBr 4v6b-a4-m1-cBx_4v6b-a4-m1-cBt 4v6b-a5-m1-cCA_4v6b-a5-m1-cCJ 4v6b-a5-m1-cCC_4v6b-a5-m1-cCL 4v6b-a5-m1-cCG_4v6b-a5-m1-cCN 4v6b-a5-m1-cCH_4v6b-a5-m1-cCO 4v6b-a5-m1-cCI_4v6b-a5-m1-cCD 4v6b-a5-m1-cCK_4v6b-a5-m1-cCB 4v6b-a5-m1-cCM_4v6b-a5-m1-cCF 4v6b-a5-m1-cCP_4v6b-a5-m1-cCE 4v6b-a5-m1-cCS_4v6b-a5-m1-cCQ 4v6b-a5-m1-cCT_4v6b-a5-m1-cCX 4v6b-a5-m1-cCV_4v6b-a5-m1-cCU 4v6b-a5-m1-cCW_4v6b-a5-m1-cCR 4v6b-a6-m1-cCe_4v6b-a6-m1-cCp 4v6b-a6-m1-cCf_4v6b-a6-m1-cCm 4v6b-a6-m1-cCj_4v6b-a6-m1-cCa 4v6b-a6-m1-cCk_4v6b-a6-m1-cCb 4v6b-a6-m1-cCl_4v6b-a6-m1-cCc 4v6b-a6-m1-cCn_4v6b-a6-m1-cCg 4v6b-a6-m1-cCo_4v6b-a6-m1-cCh 4v6b-a6-m1-cCr_4v6b-a6-m1-cCw 4v6b-a6-m1-cCs_4v6b-a6-m1-cCq 4v6b-a6-m1-cCu_4v6b-a6-m1-cCv 4v6b-a6-m1-cCx_4v6b-a6-m1-cCt 5lg8-a1-m10-cA_5lg8-a1-m19-cA 5lg8-a1-m11-cA_5lg8-a1-m17-cA 5lg8-a1-m12-cA_5lg8-a1-m18-cA 5lg8-a1-m14-cA_5lg8-a1-m2-cA 5lg8-a1-m15-cA_5lg8-a1-m4-cA 5lg8-a1-m16-cA_5lg8-a1-m3-cA 5lg8-a1-m1-cA_5lg8-a1-m13-cA 5lg8-a1-m20-cA_5lg8-a1-m9-cA 5lg8-a1-m21-cA_5lg8-a1-m8-cA 5lg8-a1-m22-cA_5lg8-a1-m7-cA 5lg8-a1-m23-cA_5lg8-a1-m5-cA 5lg8-a1-m24-cA_5lg8-a1-m6-cA 6tr9-a1-m10-cAAA_6tr9-a1-m19-cAAA 6tr9-a1-m11-cAAA_6tr9-a1-m17-cAAA 6tr9-a1-m12-cAAA_6tr9-a1-m18-cAAA 6tr9-a1-m14-cAAA_6tr9-a1-m2-cAAA 6tr9-a1-m15-cAAA_6tr9-a1-m4-cAAA 6tr9-a1-m16-cAAA_6tr9-a1-m3-cAAA 6tr9-a1-m1-cAAA_6tr9-a1-m13-cAAA 6tr9-a1-m20-cAAA_6tr9-a1-m9-cAAA 6tr9-a1-m21-cAAA_6tr9-a1-m8-cAAA 6tr9-a1-m22-cAAA_6tr9-a1-m7-cAAA 6tr9-a1-m23-cAAA_6tr9-a1-m5-cAAA 6tr9-a1-m24-cAAA_6tr9-a1-m6-cAAA 6ts0-a1-m10-cAAA_6ts0-a1-m19-cAAA 6ts0-a1-m11-cAAA_6ts0-a1-m17-cAAA 6ts0-a1-m12-cAAA_6ts0-a1-m18-cAAA 6ts0-a1-m14-cAAA_6ts0-a1-m2-cAAA 6ts0-a1-m15-cAAA_6ts0-a1-m4-cAAA 6ts0-a1-m16-cAAA_6ts0-a1-m3-cAAA 6ts0-a1-m1-cAAA_6ts0-a1-m13-cAAA 6ts0-a1-m20-cAAA_6ts0-a1-m9-cAAA 6ts0-a1-m21-cAAA_6ts0-a1-m8-cAAA 6ts0-a1-m22-cAAA_6ts0-a1-m7-cAAA 6ts0-a1-m23-cAAA_6ts0-a1-m5-cAAA 6ts0-a1-m24-cAAA_6ts0-a1-m6-cAAA 6ts1-a1-m10-cAAA_6ts1-a1-m23-cAAA 6ts1-a1-m11-cAAA_6ts1-a1-m22-cAAA 6ts1-a1-m12-cAAA_6ts1-a1-m24-cAAA 6ts1-a1-m13-cAAA_6ts1-a1-m6-cAAA 6ts1-a1-m14-cAAA_6ts1-a1-m8-cAAA 6ts1-a1-m15-cAAA_6ts1-a1-m5-cAAA 6ts1-a1-m16-cAAA_6ts1-a1-m7-cAAA 6ts1-a1-m17-cAAA_6ts1-a1-m3-cAAA 6ts1-a1-m19-cAAA_6ts1-a1-m4-cAAA 6ts1-a1-m1-cAAA_6ts1-a1-m18-cAAA 6ts1-a1-m21-cAAA_6ts1-a1-m9-cAAA 6ts1-a1-m2-cAAA_6ts1-a1-m20-cAAA 6tsa-a1-m10-cAAA_6tsa-a1-m23-cAAA 6tsa-a1-m11-cAAA_6tsa-a1-m22-cAAA 6tsa-a1-m12-cAAA_6tsa-a1-m24-cAAA 6tsa-a1-m13-cAAA_6tsa-a1-m6-cAAA 6tsa-a1-m14-cAAA_6tsa-a1-m8-cAAA 6tsa-a1-m15-cAAA_6tsa-a1-m5-cAAA 6tsa-a1-m16-cAAA_6tsa-a1-m7-cAAA 6tsa-a1-m17-cAAA_6tsa-a1-m3-cAAA 6tsa-a1-m19-cAAA_6tsa-a1-m4-cAAA 6tsa-a1-m1-cAAA_6tsa-a1-m18-cAAA 6tsa-a1-m21-cAAA_6tsa-a1-m9-cAAA 6tsa-a1-m2-cAAA_6tsa-a1-m20-cAAA 6tsf-a1-m10-cAAA_6tsf-a1-m23-cAAA 6tsf-a1-m11-cAAA_6tsf-a1-m22-cAAA 6tsf-a1-m12-cAAA_6tsf-a1-m24-cAAA 6tsf-a1-m13-cAAA_6tsf-a1-m6-cAAA 6tsf-a1-m14-cAAA_6tsf-a1-m8-cAAA 6tsf-a1-m15-cAAA_6tsf-a1-m5-cAAA 6tsf-a1-m16-cAAA_6tsf-a1-m7-cAAA 6tsf-a1-m17-cAAA_6tsf-a1-m3-cAAA 6tsf-a1-m19-cAAA_6tsf-a1-m4-cAAA 6tsf-a1-m1-cAAA_6tsf-a1-m18-cAAA 6tsf-a1-m21-cAAA_6tsf-a1-m9-cAAA 6tsf-a1-m2-cAAA_6tsf-a1-m20-cAAA 6tsj-a1-m10-cAAA_6tsj-a1-m23-cAAA 6tsj-a1-m11-cAAA_6tsj-a1-m22-cAAA 6tsj-a1-m12-cAAA_6tsj-a1-m24-cAAA 6tsj-a1-m13-cAAA_6tsj-a1-m6-cAAA 6tsj-a1-m14-cAAA_6tsj-a1-m8-cAAA 6tsj-a1-m15-cAAA_6tsj-a1-m5-cAAA 6tsj-a1-m16-cAAA_6tsj-a1-m7-cAAA 6tsj-a1-m17-cAAA_6tsj-a1-m3-cAAA 6tsj-a1-m19-cAAA_6tsj-a1-m4-cAAA 6tsj-a1-m1-cAAA_6tsj-a1-m18-cAAA 6tsj-a1-m21-cAAA_6tsj-a1-m9-cAAA 6tsj-a1-m2-cAAA_6tsj-a1-m20-cAAA 6wx6-a1-m1-cA_6wx6-a1-m1-cV 6wx6-a1-m1-cB_6wx6-a1-m1-cW 6wx6-a1-m1-cC_6wx6-a1-m1-cX 6wx6-a1-m1-cD_6wx6-a1-m1-cU 6wx6-a1-m1-cE_6wx6-a1-m1-cQ 6wx6-a1-m1-cF_6wx6-a1-m1-cT 6wx6-a1-m1-cG_6wx6-a1-m1-cS 6wx6-a1-m1-cH_6wx6-a1-m1-cR 6wx6-a1-m1-cI_6wx6-a1-m1-cP 6wx6-a1-m1-cJ_6wx6-a1-m1-cM 6wx6-a1-m1-cK_6wx6-a1-m1-cN 6wx6-a1-m1-cL_6wx6-a1-m1-cO SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRL SQIRQNYSTDVEAAVNSLVNLYLQASYTYLSLGFYFDRDDVALEGVSHFFRELAEEKREGYERLLKMQNQRGGRALFQDIKKPAEDEWGKTPDAMKAAMALEKKLNQALLDLHALGSARTDPHLCDFLETHFLDEEVKLIKKMGDHLTNLHRL 4v6f-a2-m1-cDI_4v6f-a2-m1-cDJ Elongation complex of the 70S ribosome with three tRNAs and mRNA. Q8VVE2 Q8VVE2 3.1 X-RAY DIFFRACTION 16 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 30 30 6gsl-a1-m1-c18_6gsl-a1-m1-c28 MALDIERIKEELSQATVLELKQLIDALKEA MALDIERIKEELSQATVLELKQLIDALKEA 4v6m-a1-m1-cA0_4v6m-a1-m1-cA1 Structure of the ribosome-SecYE complex in the membrane environment P02647 P02647 7.1 ELECTRON MICROSCOPY 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 200 LKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ LKLLDNWDSVTSTFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 4v7e-a1-m1-cCu_4v7e-a1-m1-cCv Model of the small subunit RNA based on a 5.5 A cryo-EM map of Triticum aestivum translating 80S ribosome Q5I7K5 Q5I7K5 5.5 ELECTRON MICROSCOPY 10 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 58 58 VACTLAALILHDDGIPITSEKIATVVKAAGIKVEAYWPALFAKLLEKRSVDDLILSVG VACTLAALILHDDGIPITSEKIATVVKAAGIKVEAYWPALFAKLLEKRSVDDLILSVG 4v7f-a1-m1-cr_4v7f-a1-m1-cs Arx1 pre-60S particle. P40693 P40693 8.7 ELECTRON MICROSCOPY 2077 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 322 322 MSSTQDSKAQTLNSNPEILLRKRRNADRTRIERQELAKKKREEQIKKKRSNKNKFVRAESIVAKTLATSREKERIKRVSILEDKKAKNETQHIASGKDFILKITEKANGAEENSVDLEETEEEEDDGLIREKTTYDGKPALLFIVRVRGPLAVNIPNKAFKILSLLRLVETNTGVFVKLTKNVYPLLKVIAPYVVIGKPSLSSIRSLIQKRGRIIYKGENEAEPHEIVLNDNNIVEEQLGDHGIICVEDIIHEIATMGESFSVCNFFLQPFKLNREVSGFGSLNRLRKIKQREAESRTRQFSNAATAPVIEVDIDSLLAKLN MSSTQDSKAQTLNSNPEILLRKRRNADRTRIERQELAKKKREEQIKKKRSNKNKFVRAESIVAKTLATSREKERIKRVSILEDKKAKNETQHIASGKDFILKITEKANGAEENSVDLEETEEEEDDGLIREKTTYDGKPALLFIVRVRGPLAVNIPNKAFKILSLLRLVETNTGVFVKLTKNVYPLLKVIAPYVVIGKPSLSSIRSLIQKRGRIIYKGENEAEPHEIVLNDNNIVEEQLGDHGIICVEDIIHEIATMGESFSVCNFFLQPFKLNREVSGFGSLNRLRKIKQREAESRTRQFSNAATAPVIEVDIDSLLAKLN 4v7n-a9-m1-cAQ_4v7n-a9-m1-cAR Glycocyamine kinase, beta-beta homodimer from marine worm Namalycastis sp., with transition state analog Mg(II)-ADP-NO3-glycocyamine. Q6AW42 Q6AW42 2.3 X-RAY DIFFRACTION 78 1.0 243920 (Namalycastis sp. ST01) 243920 (Namalycastis sp. ST01) 366 379 3l2d-a1-m1-cA_3l2d-a1-m1-cB 3l2d-a2-m1-cC_3l2d-a2-m1-cD 4v7n-a10-m1-cBA_4v7n-a10-m1-cBB 4v7n-a11-m1-cBC_4v7n-a11-m1-cBD 4v7n-a12-m1-cBE_4v7n-a12-m1-cBF 4v7n-a13-m1-cBG_4v7n-a13-m1-cBH 4v7n-a14-m1-cBI_4v7n-a14-m1-cBJ 4v7n-a15-m1-cBK_4v7n-a15-m1-cBL 4v7n-a16-m1-cBM_4v7n-a16-m1-cBN 4v7n-a17-m1-cBO_4v7n-a17-m1-cBP 4v7n-a18-m1-cBQ_4v7n-a18-m1-cBR 4v7n-a1-m1-cAA_4v7n-a1-m1-cAB 4v7n-a2-m1-cAC_4v7n-a2-m1-cAD 4v7n-a3-m1-cAE_4v7n-a3-m1-cAF 4v7n-a4-m1-cAG_4v7n-a4-m1-cAH 4v7n-a5-m1-cAI_4v7n-a5-m1-cAJ 4v7n-a6-m1-cAK_4v7n-a6-m1-cAL 4v7n-a7-m1-cAM_4v7n-a7-m1-cAN 4v7n-a8-m1-cAO_4v7n-a8-m1-cAP FKAADNFPDLSKHNNVMASQLTKELYEKYWDKVTPNGVTFDKCIQTGVDNPGNKFYGKKTGCVFGDEYSYECYKEFFDKCIEEIHHFKPSDKHPAPDLDHNKLVGGVFEDKYVKSCRIRCGRSVKGVCLPPAMSRAERRLVEKVVSDALGGLKGDLAGKYYPLTTMNEKDQEQLIEDHFLFEKPTGALLTTSGCARDWPDGRGIWHNNEKNFLVWINEEDHIRVISMQKGGDLKAVFSRFARGLLEVERLMKECGHGLMHNDRLGYICTCPTNMGTVVRASVHLRLAFLEKHPRFDEMLGKLRLGKRGTGGESSLATDSTYDISNWARLGKSERELVQVLVDGVNLLIACDKKLEAGQSIDDMIPK NRVGHSKPWESGKFKAADNFPDLSKHNNVMASQLTKELYEKYWDKVTPNGVTFDKCIQTGVDNPGNKFYGKKTGCVFGDEYSYECYKEFFDKCIEEIHHFKPSDKHPAPDLDHNKLVGGVFEDKYVKSCRIRCGRSVKGVCLPPAMSRAERRLVEKVVSDALGGLKGDLAGKYYPLTTMNEKDQEQLIEDHFLFEKPTGALLTTSGCARDWPDGRGIWHNNEKNFLVWINEEDHIRVISMQKGGDLKAVFSRFARGLLEVERLMKECGHGLMHNDRLGYICTCPTNMGTVVRASVHLRLAFLEKHPRFDEMLGKLRLGKRGTGGESSLATDSTYDISNWARLGKSERELVQVLVDGVNLLIACDKKLEAGQSIDDMIPK 4v81-a2-m1-cd_4v81-a2-m1-cl The crystal structure of yeast CCT reveals intrinsic asymmetry of eukaryotic cytosolic chaperonins P39078 P39078 3.8 X-RAY DIFFRACTION 18 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 522 522 4v81-a1-m1-cD_4v81-a1-m1-cL SNATFKNKEKPQEVRKANIIAARSVADAIRTSLGPKGMDKMIKTSRGEIIISNDGHTILKQMAILHPVARMLVEVSAAQDSEAGDGTTSVVILTGALLGAAERLLNKGIHPTIIADSFQSAAKRSVDILLEMCHKVSLSDREQLVRAASTSLSSKIVSQYSSFLAPLAVDSVLKISDENSKNVDLNDIRLVKKVGGTIDDTEMIDGVVLTQTAIKSAGGPTRKEKAKIGLIQFQISPPKPDTENNIIVNDYRQMDKILKEERAYLLNICKKIKKAKCNVLLIQKSILRDAVNDLALHFLSKLNIMVVKDIEREEIEFLSKGLGCKPIADIELFTEDRLDSADLVEEIDSDGSKIVRVTGIRNNNARPTVSVVIRGANNMIIDETERSLHDALCVIRCLVKERGLIAGGGAPEIEISRRLSKEARSMEGVQAFIWQEFASALEVIPTTLAENAGLNSIKVVTELRSKHENGELNDGISVRRSGTTNTYEEHILQPVLVSTSAITLASECVKSILRIDDIAFSR SNATFKNKEKPQEVRKANIIAARSVADAIRTSLGPKGMDKMIKTSRGEIIISNDGHTILKQMAILHPVARMLVEVSAAQDSEAGDGTTSVVILTGALLGAAERLLNKGIHPTIIADSFQSAAKRSVDILLEMCHKVSLSDREQLVRAASTSLSSKIVSQYSSFLAPLAVDSVLKISDENSKNVDLNDIRLVKKVGGTIDDTEMIDGVVLTQTAIKSAGGPTRKEKAKIGLIQFQISPPKPDTENNIIVNDYRQMDKILKEERAYLLNICKKIKKAKCNVLLIQKSILRDAVNDLALHFLSKLNIMVVKDIEREEIEFLSKGLGCKPIADIELFTEDRLDSADLVEEIDSDGSKIVRVTGIRNNNARPTVSVVIRGANNMIIDETERSLHDALCVIRCLVKERGLIAGGGAPEIEISRRLSKEARSMEGVQAFIWQEFASALEVIPTTLAENAGLNSIKVVTELRSKHENGELNDGISVRRSGTTNTYEEHILQPVLVSTSAITLASECVKSILRIDDIAFSR 4v85-a1-m1-cBJ_4v85-a1-m1-cBK Crystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome. P0A7K2 P0A7K2 3.2 X-RAY DIFFRACTION 28 1.0 562 (Escherichia coli) 562 (Escherichia coli) 30 30 4v89-a1-m1-cBJ_4v89-a1-m1-cBK 6lkq-a1-m1-co_6lkq-a1-m1-cp SITKDQIIEAVAAMSVMDVVELISAMEEKF SITKDQIIEAVAAMSVMDVVELISAMEEKF 4v85-a1-m1-cBJ_4v85-a1-m1-cBM Crystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome. P0A7K2 P0A7K2 3.2 X-RAY DIFFRACTION 17 1.0 562 (Escherichia coli) 562 (Escherichia coli) 30 30 4v89-a1-m1-cBJ_4v89-a1-m1-cBM 6lkq-a1-m1-co_6lkq-a1-m1-cr SITKDQIIEAVAAMSVMDVVELISAMEEKF SITKDQIIEAVAAMSVMDVVELISAMEEKF 4v85-a1-m1-cBL_4v85-a1-m1-cBM Crystal Structure of Release Factor RF3 Trapped in the GTP State on a Rotated Conformation of the Ribosome. P0A7K2 P0A7K2 3.2 X-RAY DIFFRACTION 32 1.0 562 (Escherichia coli) 562 (Escherichia coli) 30 30 4v89-a1-m1-cBL_4v89-a1-m1-cBM 6lkq-a1-m1-cq_6lkq-a1-m1-cr SITKDQIIEAVAAMSVMDVVELISAMEEKF SITKDQIIEAVAAMSVMDVVELISAMEEKF 4v8x-a2-m1-cCY_4v8x-a2-m1-cCZ Structure of Thermus thermophilus ribosome P69348 P69348 3.35 X-RAY DIFFRACTION 30 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 84 84 4v8x-a1-m1-cAY_4v8x-a1-m1-cAZ 6ny6-a1-m1-cY_6ny6-a1-m1-cZ 6otr-a1-m1-cQY_6otr-a1-m1-cQZ 6otr-a2-m1-cXY_6otr-a2-m1-cXZ 6oxa-a1-m1-cQY_6oxa-a1-m1-cQZ 6oxa-a2-m1-cXY_6oxa-a2-m1-cXZ 6oxi-a1-m1-cQY_6oxi-a1-m1-cQZ 6oxi-a2-m1-cXY_6oxi-a2-m1-cXZ MKLIWSEESWDDYLYWQETDKRIVKKINELIKDTRRTPFEGKGKPEPLKHNLSGFWSRRITEEHRLVYAVTDDSLLIAACRYHY MKLIWSEESWDDYLYWQETDKRIVKKINELIKDTRRTPFEGKGKPEPLKHNLSGFWSRRITEEHRLVYAVTDDSLLIAACRYHY 4v8y-a1-m1-cBy_4v8y-a1-m1-cCL Cryo-EM reconstruction of the 80S-eIF5B-Met-itRNAMet Eukaryotic Translation Initiation Complex 4.3 ELECTRON MICROSCOPY 2212 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 225 225 KHGKRYRALLEKVDPNKIYTIDEAAHLVKELATAKFDETVEVHAKLGIDPRRSDQNVRGTVSLPHGLGKQVRVLAIAKGEKIKEAEEAGADYVGGEEIIQKILDGWMDFDAVVATPDVGAVGSKGRILGPRGLLPNPKAGTVGFNIGEIIREIKAGRIEFRNDKTGAIHAPVGKASFPPEKLADNIRAFIRALEAHKPEGAKGTFLRSVYVTTTMGPSVRINPHS KHGKRYRALLEKVDPNKIYTIDEAAHLVKELATAKFDETVEVHAKLGIDPRRSDQNVRGTVSLPHGLGKQVRVLAIAKGEKIKEAEEAGADYVGGEEIIQKILDGWMDFDAVVATPDVGAVGSKGRILGPRGLLPNPKAGTVGFNIGEIIREIKAGRIEFRNDKTGAIHAPVGKASFPPEKLADNIRAFIRALEAHKPEGAKGTFLRSVYVTTTMGPSVRINPHS 4v96-a1-m1-cAW_4v96-a1-m1-cAX The structure of a 1.8 MDa viral genome injection device suggests alternative infection mechanisms Q9AZ58 Q9AZ58 3.8 X-RAY DIFFRACTION 83 1.0 35345 (Lactococcus phage TP901-1) 35345 (Lactococcus phage TP901-1) 241 241 4v96-a1-m1-cAS_4v96-a1-m1-cAT 4v96-a1-m1-cAT_4v96-a1-m1-cAU 4v96-a1-m1-cAV_4v96-a1-m1-cAU 4v96-a1-m1-cAV_4v96-a1-m1-cAW 4v96-a1-m1-cAX_4v96-a1-m1-cAS YRNLPFIPTSAMSYDGAWLEELIEGYQTLAVEGREMYSLSFETQDMQVGGVITNVKYPPRELTIKYKLEDRDPRVLQEKFDTLKAFLIRQEDVPIIFNDDLEYTFYGRFKTADNVAGDTNSIISSFTVLCSDPFKHGKIQSVKNKVIEVLPYPVKPDKLSFKLLTEGLLATDGNYRLKSSQAKKGDFLEFDFQTGDTFLNGKVNNNLLDLDSDFKNIRLTTGTDFSSSNYELTIQYRKAVL YRNLPFIPTSAMSYDGAWLEELIEGYQTLAVEGREMYSLSFETQDMQVGGVITNVKYPPRELTIKYKLEDRDPRVLQEKFDTLKAFLIRQEDVPIIFNDDLEYTFYGRFKTADNVAGDTNSIISSFTVLCSDPFKHGKIQSVKNKVIEVLPYPVKPDKLSFKLLTEGLLATDGNYRLKSSQAKKGDFLEFDFQTGDTFLNGKVNNNLLDLDSDFKNIRLTTGTDFSSSNYELTIQYRKAVL 4v9e-a5-m1-cBG_4v9e-a5-m1-cBL Crystal Structure of Rift Valley Fever Virus Nucleocapsid Protein Hexamer Bound to Single-stranded RNA. D3K5I7 D3K5I7 3.4 X-RAY DIFFRACTION 107 1.0 11588 (Rift Valley fever virus) 11588 (Rift Valley fever virus) 241 241 3ouo-a2-m1-cC_3ouo-a2-m7-cC 3ouo-a2-m1-cC_3ouo-a2-m8-cC 3ouo-a2-m4-cC_3ouo-a2-m6-cC 3ouo-a2-m4-cC_3ouo-a2-m8-cC 3ouo-a2-m5-cC_3ouo-a2-m6-cC 3ouo-a2-m5-cC_3ouo-a2-m7-cC 4h5m-a1-m1-cA_4h5m-a1-m1-cB 4h5m-a1-m1-cB_4h5m-a1-m1-cD 4h5m-a1-m1-cC_4h5m-a1-m1-cA 4h5m-a1-m1-cC_4h5m-a1-m1-cF 4h5m-a1-m1-cE_4h5m-a1-m1-cD 4h5m-a1-m1-cE_4h5m-a1-m1-cF 4h5q-a1-m1-cA_4h5q-a1-m1-cB 4h5q-a1-m1-cA_4h5q-a1-m1-cC 4h5q-a1-m1-cB_4h5q-a1-m2-cC 4h5q-a1-m1-cC_4h5q-a1-m2-cB 4h5q-a1-m2-cA_4h5q-a1-m2-cB 4h5q-a1-m2-cA_4h5q-a1-m2-cC 4v9e-a1-m1-cAA_4v9e-a1-m1-cAB 4v9e-a1-m1-cAA_4v9e-a1-m1-cAF 4v9e-a1-m1-cAB_4v9e-a1-m1-cAC 4v9e-a1-m1-cAC_4v9e-a1-m1-cAD 4v9e-a1-m1-cAD_4v9e-a1-m1-cAE 4v9e-a1-m1-cAE_4v9e-a1-m1-cAF 4v9e-a2-m1-cAG_4v9e-a2-m1-cAH 4v9e-a2-m1-cAG_4v9e-a2-m1-cAL 4v9e-a2-m1-cAH_4v9e-a2-m1-cAI 4v9e-a2-m1-cAI_4v9e-a2-m1-cAJ 4v9e-a2-m1-cAJ_4v9e-a2-m1-cAK 4v9e-a2-m1-cAK_4v9e-a2-m1-cAL 4v9e-a3-m1-cAM_4v9e-a3-m1-cAN 4v9e-a3-m1-cAM_4v9e-a3-m1-cAR 4v9e-a3-m1-cAN_4v9e-a3-m1-cAO 4v9e-a3-m1-cAO_4v9e-a3-m1-cAP 4v9e-a3-m1-cAP_4v9e-a3-m1-cAQ 4v9e-a3-m1-cAQ_4v9e-a3-m1-cAR 4v9e-a4-m1-cBA_4v9e-a4-m1-cBB 4v9e-a4-m1-cBA_4v9e-a4-m1-cBF 4v9e-a4-m1-cBB_4v9e-a4-m1-cBC 4v9e-a4-m1-cBC_4v9e-a4-m1-cBD 4v9e-a4-m1-cBD_4v9e-a4-m1-cBE 4v9e-a4-m1-cBE_4v9e-a4-m1-cBF 4v9e-a5-m1-cBG_4v9e-a5-m1-cBH 4v9e-a5-m1-cBH_4v9e-a5-m1-cBI 4v9e-a5-m1-cBI_4v9e-a5-m1-cBJ 4v9e-a5-m1-cBJ_4v9e-a5-m1-cBK 4v9e-a5-m1-cBK_4v9e-a5-m1-cBL 4v9e-a6-m1-cBM_4v9e-a6-m1-cBN 4v9e-a6-m1-cBM_4v9e-a6-m1-cBR 4v9e-a6-m1-cBN_4v9e-a6-m1-cBO 4v9e-a6-m1-cBO_4v9e-a6-m1-cBP 4v9e-a6-m1-cBP_4v9e-a6-m1-cBQ 4v9e-a6-m1-cBQ_4v9e-a6-m1-cBR QELAIQFAAQAVDRNEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGRTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA QELAIQFAAQAVDRNEIEQWVREFAYQGFDARRVIELLKQYGGADWEKDAKKMIVLALTRGNKPRRMMMKMSKEGKATVEALINKYKLKEGNPSRDELTLSRVAAALAGRTCQALVVLSEWLPVTGTTMDGLSPAYPRHMMHPSFAGMVDPSLPGDYLRAILDAHSLYLLQFSRVINPNLRGRTKEEVAATFTQPMNAAVNSNFISHEKRREFLKAFGLVDSNGKPSAAVMAAAQAYKTAA 4v9g-a1-m1-cB8_4v9g-a1-m1-cBE RC-LH1-PufX dimer complex from Rhodobacter sphaeroides Q3J1A3 Q3J1A3 7.78 X-RAY DIFFRACTION 10 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 48 48 4v9g-a1-m1-cA8_4v9g-a1-m1-cAE ADKSDLGYTGLTDEQAQELHSVYMSGLWLFSAVAIVAHLAVYIWRPWF ADKSDLGYTGLTDEQAQELHSVYMSGLWLFSAVAIVAHLAVYIWRPWF 4v9g-a1-m1-cB9_4v9g-a1-m1-cBK RC-LH1-PufX dimer complex from Rhodobacter sphaeroides Q3J1A3 Q3J1A3 7.78 X-RAY DIFFRACTION 17 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 48 48 4v9g-a1-m1-cA9_4v9g-a1-m1-cAK ADKSDLGYTGLTDEQAQELHSVYMSGLWLFSAVAIVAHLAVYIWRPWF ADKSDLGYTGLTDEQAQELHSVYMSGLWLFSAVAIVAHLAVYIWRPWF 4v9g-a1-m1-cB9_4v9g-a1-m1-cBO RC-LH1-PufX dimer complex from Rhodobacter sphaeroides Q3J1A3 Q3J1A3 7.78 X-RAY DIFFRACTION 10 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 48 48 ADKSDLGYTGLTDEQAQELHSVYMSGLWLFSAVAIVAHLAVYIWRPWF ADKSDLGYTGLTDEQAQELHSVYMSGLWLFSAVAIVAHLAVYIWRPWF 4w4r-a1-m1-cA_4w4r-a1-m1-cB Crystal structure of ent-kaurene synthase BJKS from bradyrhizobium japonicum Q45222 Q45222 1.92 X-RAY DIFFRACTION 61 0.989 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 270 276 4w4s-a1-m1-cA_4w4s-a1-m1-cB 4xlx-a1-m1-cB_4xlx-a1-m1-cA 4xlx-a2-m1-cD_4xlx-a2-m1-cC 4xly-a1-m1-cB_4xly-a1-m1-cA MIQTERAVQQVLEWGRSLTGFADEHAVEAVRGGQYILQRIHPSLRGTSARTGRDPQDETLIVTFYRELALLFWLDDCNDLGLISPEQLAAVEQALGQGVPCALPGFEGCAVLRASLATLAYDRRDYAQLLDDTRCYSAALRAGHAQAVAAERWSYAEYLHNGIDSIAYANVFCCLSLLWGLDMATLRARPAFRQVLRLISAIGRLQNDLHDNAVILLLQRYPAMPVVEFLNDELAGHTRMLHRVMAEERFPAPWGPLIEAMAAIRVQYYR QTERAVQQVLEWGRSLTGFADEHAVEAVRGGQYILQRIHPSLRGTSARTGRDPQDETLIVTFYRELALLFWLDDCNDLGLISPEQLAAVEQALGQGVPCALPGFEGCAVLRASLATLAYDRRDYAQLLDDTRCYSAALRAGHAQAVAAERWSYAEYLHNGIDSIAYANVFCCLSLLWGLDMATLRARPAFRQVLRLISAIGRLQNDLHNAVILLLQRYPAMPVVEFLNDELAGHTRMLHRVMAEERFPAPWGPLIEAMAAIRVQYYRTSTSRYRSD 4w4t-a1-m1-cB_4w4t-a1-m1-cA The crystal structure of the terminal R domain from the myxalamid PKS-NRPS biosynthetic pathway Q93TX2 Q93TX2 1.845 X-RAY DIFFRACTION 48 1.0 41 (Stigmatella aurantiaca) 41 (Stigmatella aurantiaca) 380 381 4u7w-a1-m1-cA_4u7w-a1-m1-cB DVTVEEADAVLDAEIALGKALPPVTGALRTILLTGATGFLGAFLLEELCRRTDARIYCLVRSKTEQEGNRIRKNLESYSLWNEALAPRIVPVRGDIGQPLLGLSEKEFQRLSEEIDAIYHNGALVNFLYPYESRAANVLGTREILRLATRTRIKPLHYVSTVSVLPLGRKAPIREDEPLEGPSSLVGGYAQSKWVAEKLVREASRRGLPVTILRPGRVTGHSRTGAWNTDDLVCRTLKGCVRGVAPSVDALLDLTPVDYVSSAIVDLSRPESIGQTYHLVNPQFVRADEWNYRAFGYGLRVLPYDQWLSELGSAASSDSELGDLLFLQQVSVGGPRVVCDSGDTLKALGGTGTSCPSVDASLISTYLSSLVHRGFLKAPE DVTVEEADAVLDAEIALGKALPPVTGALRTILLTGATGFLGAFLLEELCRRTDARIYCLVRSKTEQEGNRIRKNLESYSLWNEALAPRIVPVRGDIGQPLLGLSEKEFQRLSEEIDAIYHNGALVNFLYPYESRAANVLGTREILRLATRTRIKPLHYVSTVSVLPLGRKAPIREDEPLEGPSSLVGGYAQSKWVAEKLVREASRRGLPVTILRPGRVTGHSRTGAWNTDDLVCRTLKGCVRGVAPSVDALLDLTPVDYVSSAIVDLSRPESIGQTYHLVNPQFVRADEWNYRAFGYGLRVLPYDQWLSELGSAASSDSELGDLLFLQQVPSVGGPRVVCDSGDTLKALGGTGTSCPSVDASLISTYLSSLVHRGFLKAPE 4w5k-a1-m1-cA_4w5k-a1-m1-cB Structure of a mitochondrial aspartate aminotransferase from Trypanosoma brucei, K237A mutant Q385Q9 Q385Q9 1.7 X-RAY DIFFRACTION 121 1.0 380 380 4eu1-a1-m1-cB_4eu1-a1-m1-cA GLGQDFRMDPAKRKVNLSIGVYRDDADQPFVLECVKQATLGTNMDYAPVTGIASFVEEAQKLCFGPTCAALRDGRIASCQTLGGTGALRIGGDLLNRFVANCNRIYGPDVGYPNHESIFAKAGMELTPYSYYDPATKGLNLAGMLECLDKAPEGSVILVHACAHNPTGVDPTHDDWRQVCDVIKRRNHIPFVDMAYQGFATGQLDYDAFVPRHLVDMVPNLIVAQSFSANFGLYGHRCGALHISTASAEEAKRLVSQLALLIRPMYSNPPLYGAWVVSSILKDPQLTALWKKELKQMSSRIAEVRKRLVSELKACGSVHDWSHIERQVGMMAYTGLTREQVELLRSEYHIYMTLNGRAAVSGLNSTNVEYVSQAIHNVTK GLGQDFRMDPAKRKVNLSIGVYRDDADQPFVLECVKQATLGTNMDYAPVTGIASFVEEAQKLCFGPTCAALRDGRIASCQTLGGTGALRIGGDLLNRFVANCNRIYGPDVGYPNHESIFAKAGMELTPYSYYDPATKGLNLAGMLECLDKAPEGSVILVHACAHNPTGVDPTHDDWRQVCDVIKRRNHIPFVDMAYQGFATGQLDYDAFVPRHLVDMVPNLIVAQSFSANFGLYGHRCGALHISTASAEEAKRLVSQLALLIRPMYSNPPLYGAWVVSSILKDPQLTALWKKELKQMSSRIAEVRKRLVSELKACGSVHDWSHIERQVGMMAYTGLTREQVELLRSEYHIYMTLNGRAAVSGLNSTNVEYVSQAIHNVTK 4w5l-a1-m5-cB_4w5l-a1-m6-cA Crystal structure of a prp peptide 1 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5l-a1-m1-cA_4w5l-a1-m2-cB 4w5l-a1-m3-cA_4w5l-a1-m4-cB GGYLLGS GGYLLGS 4w5l-a1-m6-cA_4w5l-a1-m6-cB Crystal structure of a prp peptide 1 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5l-a1-m1-cA_4w5l-a1-m1-cB 4w5l-a1-m2-cA_4w5l-a1-m2-cB 4w5l-a1-m3-cA_4w5l-a1-m3-cB 4w5l-a1-m4-cA_4w5l-a1-m4-cB 4w5l-a1-m5-cA_4w5l-a1-m5-cB GGYLLGS GGYLLGS 4w5m-a1-m1-cA_4w5m-a1-m5-cA Prp peptide 1.2 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5m-a1-m1-cA_4w5m-a1-m2-cA GGYMLGS GGYMLGS 4w5m-a1-m1-cB_4w5m-a1-m4-cB Prp peptide 1.2 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5m-a1-m1-cB_4w5m-a1-m3-cB GGYMLGS GGYMLGS 4w5p-a1-m3-cB_4w5p-a1-m4-cA Prp peptide 1.151 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5p-a1-m1-cA_4w5p-a1-m2-cB GGYVLGS GGYVLGS 4w5p-a1-m4-cA_4w5p-a1-m4-cB Prp peptide 1.151 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5p-a1-m1-cA_4w5p-a1-m1-cB 4w5p-a1-m2-cA_4w5p-a1-m2-cB 4w5p-a1-m3-cA_4w5p-a1-m3-cB GGYVLGS GGYVLGS 4w5y-a1-m1-cA_4w5y-a1-m6-cB Crystal structure of Prp pepttide 1.122 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5y-a1-m2-cB_4w5y-a1-m4-cA GYMLGSA GYMLGSA 4w5y-a1-m2-cA_4w5y-a1-m6-cB Crystal structure of Prp pepttide 1.122 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w5y-a1-m1-cA_4w5y-a1-m5-cB 4w5y-a1-m1-cB_4w5y-a1-m4-cA 4w5y-a1-m2-cB_4w5y-a1-m3-cA GYMLGSA GYMLGSA 4w66-a1-m1-cB_4w66-a1-m1-cA Crystal structure of Glutathione S-transferase domain protein from Haliangium ochraceum DSM 14365 D0LNW1 D0LNW1 2.36 X-RAY DIFFRACTION 125 1.0 502025 (Haliangium ochraceum DSM 14365) 502025 (Haliangium ochraceum DSM 14365) 217 232 EPIILRYFPVLGRAQALRHALADAELAFRDLRIPLEYGSLPTLRWHGVEVAETIAIASFLARSLGHYEGRDNGEIARLEAVVSLCYTEVSLQIAQLLWLDLFNPGVDLAAAVPLQFGRLVARLTRLEAHTPEAGWFGGERPVADYFAAEAIEALRYLLGREHDDALRTRLPHLCALARRAQRPALAQAWSTRPQTFTAHPDEAALERLRALPLAATI NEPIILRYFPVLGRAQALRHALADAELAFRDLRIPLEQWSQHKDSDAGGPYGSLPTLRWHGVEVAETIAIASFLARSLGHYEGRDNGEIARLEAVVSLCYTEVSLQIAQLLWLDLFNPGVDLAAAVPLQFGRLVARLTRLEAHTPEAGWFGGERPVADYFAAEAIEALRYLLGREHDDALRTRLPHLCALARRAQRPALAQAWSTRPQTFTAHPDEAALERLRALPLAATIG 4w67-a1-m1-cB_4w67-a1-m4-cA Crystal structure of Prp peptide 1.001 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w67-a1-m2-cB_4w67-a1-m3-cA GYVLGSA GYVLGSA 4w67-a1-m4-cA_4w67-a1-m4-cB Crystal structure of Prp peptide 1.001 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 4w67-a1-m1-cA_4w67-a1-m1-cB 4w67-a1-m2-cA_4w67-a1-m2-cB 4w67-a1-m3-cA_4w67-a1-m3-cB GYVLGSA GYVLGSA 4w68-a1-m1-cA_4w68-a1-m1-cB Cytoplasmically Produced Homodimeric Single Domain Antibody (sdAb) C22A/C99V variant against Staphylococcal enterotoxin B (SEB) 2 X-RAY DIFFRACTION 36 1.0 9844 (Lama glama) 9844 (Lama glama) 130 130 4tyu-a1-m1-cA_4tyu-a1-m1-cB 4tyu-a2-m1-cA_4tyu-a2-m1-cB 4tyu-a2-m2-cA_4tyu-a2-m2-cB 4u05-a1-m1-cA_4u05-a1-m1-cB 4u05-a2-m1-cA_4u05-a2-m1-cB 4u05-a2-m2-cA_4u05-a2-m2-cB 4u7s-a1-m1-cA_4u7s-a1-m1-cB MEVQLVESGGGLVQAGDSLRLSATASGRTFSRAVMGWFRQAPGKEREFVAAISAAPGTAYYAFYADSVRGRFSISADSAKNTVYLQMNSLKPEDTAVYYVAADLKMQVAAYMNQRSVDYWGQGTQVTVSS MEVQLVESGGGLVQAGDSLRLSATASGRTFSRAVMGWFRQAPGKEREFVAAISAAPGTAYYAFYADSVRGRFSISADSAKNTVYLQMNSLKPEDTAVYYVAADLKMQVAAYMNQRSVDYWGQGTQVTVSS 4w6m-a1-m1-cC_4w6m-a1-m1-cA Crystal Structure of Full-Length Split GFP Mutant D117C Disulfide Dimer, P 63 Space Group 2.794 X-RAY DIFFRACTION 11 1.0 32630 (synthetic construct) 32630 (synthetic construct) 214 221 4w6k-a1-m1-cB_4w6k-a1-m1-cA 4w6l-a1-m1-cA_4w6l-a1-m2-cA 4w6m-a2-m1-cD_4w6m-a2-m1-cB 4w6o-a1-m1-cA_4w6o-a1-m2-cA GEELFTGVVPILIELDGDVNGHKFFVRGEGEGDATIGKLSLKFIATTGKLPVPWPTLVTTLVQAFSRYPDHMKRHDFFKSAMPEGYVQERTIYFKDDGTYKTRAEVKFEGCTLVNRIELKGIDFKEDGNILGHKLEYNFNSHKVYITADKQNNGIKANFTIRHNVEDGSVQLADHYQQNTPIGPDDHYLSTQTILSKDLNEKRDHMVLLEYVTA GEELFTGVVPILIELDGDVNGHKFFVRGEGEGDATIGKLSLKFIATTGKLPVPWPTLVTTLVQAFSRYPDHMKRHDFFKSAMPEGYVQERTIYFKDDGTYKTRAEVKFEGCTLVNRIELKGIDFKEDGNILGHKLEYNFNSHKVYITADKQNNGIKANFTIRHNVEDGSVQLADHYQQNTPIGDGPLPDDHYLSTQTILSKDLNEKRDHMVLLEYVTAAGI 4w6q-a1-m1-cA_4w6q-a1-m1-cD Glycosyltransferase C from Streptococcus agalactiae A0A0M3KKZ0 A0A0M3KKZ0 2.7 X-RAY DIFFRACTION 64 1.0 342616 (Streptococcus agalactiae COH1) 342616 (Streptococcus agalactiae COH1) 331 332 4w6q-a1-m1-cB_4w6q-a1-m1-cC ACMRTYITNLNGHSITSTAQIAQNMVTDIAVSLGFRELGIHSYPIDTDSPEEMSKRLDGICSGLRKNDIVIFQTPTWNTTTFDEKLFHKLKIFGVKIVIFIHDVVPLMFDGNFYLMDRTIAYYNEADVLIAPSQAMVDKLQSYGLTVKKILVQGMWDHPTNITLQAVNHKKLVHFPGNPERFNFIKNWRIPTELHVYTDHNMQLPTTVVKEPYQSDEQLIMKMSEGGYGLVWMDDRDKQYQSLYCPYKLGAYIAAGIPVIIQKGIANQDIIEKNNLGFIIEKIDDISNIVESTTEEEYMEIVSDVRRFNPLVRQGYFTRKLLTDAVFSALN ACMRTYITNLNGHSITSTAQIAQNMVTDIAVSLGFRELGIHSYPIDTDSPEEMSKRLDGICSGLRKNDIVIFQTPTWNTTTFDEKLFHKLKIFGVKIVIFIHDVVPLMFDGNFYLMDRTIAYYNEADVLIAPSQAMVDKLQSYGLTVKKILVQGMWDHPTNITLQAVNHKKLVHFPGNPERFNFIKNWRIPTELHVYTDHNMQLPTTVVKEPYQSDEQLIMKMSEGGYGLVWMDDRDKQYQSLYCPYKLGAYIAAGIPVIIQKGIANQDIIEKNNLGFIIEKIDDISNIVESTTEEEYMEIVSDVRRFNPLVRQGYFTRKLLTDAVFSALNS 4w6q-a1-m1-cB_4w6q-a1-m1-cD Glycosyltransferase C from Streptococcus agalactiae A0A0M3KKZ0 A0A0M3KKZ0 2.7 X-RAY DIFFRACTION 19 1.0 342616 (Streptococcus agalactiae COH1) 342616 (Streptococcus agalactiae COH1) 332 332 4w6q-a1-m1-cA_4w6q-a1-m1-cC ACMRTYITNLNGHSITSTAQIAQNMVTDIAVSLGFRELGIHSYPIDTDSPEEMSKRLDGICSGLRKNDIVIFQTPTWNTTTFDEKLFHKLKIFGVKIVIFIHDVVPLMFDGNFYLMDRTIAYYNEADVLIAPSQAMVDKLQSYGLTVKKILVQGMWDHPTNITLQAVNHKKLVHFPGNPERFNFIKNWRIPTELHVYTDHNMQLPTTVVKEPYQSDEQLIMKMSEGGYGLVWMDDRDKQYQSLYCPYKLGAYIAAGIPVIIQKGIANQDIIEKNNLGFIIEKIDDISNIVESTTEEEYMEIVSDVRRFNPLVRQGYFTRKLLTDAVFSALNS ACMRTYITNLNGHSITSTAQIAQNMVTDIAVSLGFRELGIHSYPIDTDSPEEMSKRLDGICSGLRKNDIVIFQTPTWNTTTFDEKLFHKLKIFGVKIVIFIHDVVPLMFDGNFYLMDRTIAYYNEADVLIAPSQAMVDKLQSYGLTVKKILVQGMWDHPTNITLQAVNHKKLVHFPGNPERFNFIKNWRIPTELHVYTDHNMQLPTTVVKEPYQSDEQLIMKMSEGGYGLVWMDDRDKQYQSLYCPYKLGAYIAAGIPVIIQKGIANQDIIEKNNLGFIIEKIDDISNIVESTTEEEYMEIVSDVRRFNPLVRQGYFTRKLLTDAVFSALNS 4w6q-a1-m1-cC_4w6q-a1-m1-cD Glycosyltransferase C from Streptococcus agalactiae A0A0M3KKZ0 A0A0M3KKZ0 2.7 X-RAY DIFFRACTION 66 1.0 342616 (Streptococcus agalactiae COH1) 342616 (Streptococcus agalactiae COH1) 332 332 4w6q-a1-m1-cA_4w6q-a1-m1-cB ACMRTYITNLNGHSITSTAQIAQNMVTDIAVSLGFRELGIHSYPIDTDSPEEMSKRLDGICSGLRKNDIVIFQTPTWNTTTFDEKLFHKLKIFGVKIVIFIHDVVPLMFDGNFYLMDRTIAYYNEADVLIAPSQAMVDKLQSYGLTVKKILVQGMWDHPTNITLQAVNHKKLVHFPGNPERFNFIKNWRIPTELHVYTDHNMQLPTTVVKEPYQSDEQLIMKMSEGGYGLVWMDDRDKQYQSLYCPYKLGAYIAAGIPVIIQKGIANQDIIEKNNLGFIIEKIDDISNIVESTTEEEYMEIVSDVRRFNPLVRQGYFTRKLLTDAVFSALNS ACMRTYITNLNGHSITSTAQIAQNMVTDIAVSLGFRELGIHSYPIDTDSPEEMSKRLDGICSGLRKNDIVIFQTPTWNTTTFDEKLFHKLKIFGVKIVIFIHDVVPLMFDGNFYLMDRTIAYYNEADVLIAPSQAMVDKLQSYGLTVKKILVQGMWDHPTNITLQAVNHKKLVHFPGNPERFNFIKNWRIPTELHVYTDHNMQLPTTVVKEPYQSDEQLIMKMSEGGYGLVWMDDRDKQYQSLYCPYKLGAYIAAGIPVIIQKGIANQDIIEKNNLGFIIEKIDDISNIVESTTEEEYMEIVSDVRRFNPLVRQGYFTRKLLTDAVFSALNS 4w6y-a1-m1-cA_4w6y-a1-m2-cA Co-complex structure of the lectin domain of F18 fimbrial adhesin FedF with inhibitory nanobody NbFedF9 Q47212 Q47212 1.57 X-RAY DIFFRACTION 58 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 146 146 SSASSAQVTGTLLGTGKTNTTQMPALYTWQHQIYNVNFIPSSSGTLTCQAGTILVWKNGRETQYALECRVSIHHSSGSINESQWGQQSQVGFGTACGNKKCRFTGFEISLRIPPNAQTYPLSSGDLKGSFSLTNKEVNWSASIYVP SSASSAQVTGTLLGTGKTNTTQMPALYTWQHQIYNVNFIPSSSGTLTCQAGTILVWKNGRETQYALECRVSIHHSSGSINESQWGQQSQVGFGTACGNKKCRFTGFEISLRIPPNAQTYPLSSGDLKGSFSLTNKEVNWSASIYVP 4w6z-a2-m1-cC_4w6z-a2-m3-cC YEAST ALCOHOL DEHYDROGENASE I, SACCHAROMYCES CEREVISIAE FERMENTATIVE ENZYME P00330 P00330 2.4 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 347 347 4w6z-a1-m1-cA_4w6z-a1-m2-cA 4w6z-a1-m1-cB_4w6z-a1-m2-cB 4w6z-a2-m1-cD_4w6z-a2-m3-cD 5env-a1-m1-cA_5env-a1-m2-cA 5env-a1-m1-cB_5env-a1-m2-cB 7kc2-a1-m1-cA_7kc2-a1-m1-cC 7kc2-a1-m1-cB_7kc2-a1-m1-cD 7kcb-a1-m1-cA_7kcb-a1-m1-cB 7kcb-a1-m1-cC_7kcb-a1-m1-cD 7kcq-a1-m1-cA_7kcq-a1-m1-cD 7kcq-a1-m1-cB_7kcq-a1-m1-cC 7kjy-a1-m1-cA_7kjy-a1-m1-cD 7kjy-a1-m1-cB_7kjy-a1-m1-cC 7ntm-a1-m1-cA_7ntm-a1-m1-cC 7ntm-a1-m1-cB_7ntm-a1-m1-cD SIPETQKGVIFYESHGKLEYKDIPVPKPKANELLINVKYSGVCHTDLHAWHGDWPLPVKLPLVGGHEGAGVVVGMGENVKGWKIGDYAGIKWLNGSCMACEYCELGNESNCPHADLSGYTHDGSFQQYATADAVQAAHIPQGTDLAQVAPILCAGITVYKALKSANLMAGHWVAISGAAGGLGSLAVQYAKAMGYRVLGIDGGEGKEELFRSIGGEVFIDFTKEKDIVGAVLKATDGGAHGVINVSVSEAAIEASTRYVRANGTTVLVGMPAGAKCCSDVFNQVVKSISIVGSYVGNRADTREALDFFARGLVKSPIKVVGLSTLPEIYEKMEKGQIVGRYVVDTSK SIPETQKGVIFYESHGKLEYKDIPVPKPKANELLINVKYSGVCHTDLHAWHGDWPLPVKLPLVGGHEGAGVVVGMGENVKGWKIGDYAGIKWLNGSCMACEYCELGNESNCPHADLSGYTHDGSFQQYATADAVQAAHIPQGTDLAQVAPILCAGITVYKALKSANLMAGHWVAISGAAGGLGSLAVQYAKAMGYRVLGIDGGEGKEELFRSIGGEVFIDFTKEKDIVGAVLKATDGGAHGVINVSVSEAAIEASTRYVRANGTTVLVGMPAGAKCCSDVFNQVVKSISIVGSYVGNRADTREALDFFARGLVKSPIKVVGLSTLPEIYEKMEKGQIVGRYVVDTSK 4w6z-a2-m1-cC_4w6z-a2-m3-cD YEAST ALCOHOL DEHYDROGENASE I, SACCHAROMYCES CEREVISIAE FERMENTATIVE ENZYME P00330 P00330 2.4 X-RAY DIFFRACTION 24 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 347 347 4w6z-a1-m1-cA_4w6z-a1-m2-cB 4w6z-a1-m1-cB_4w6z-a1-m2-cA 4w6z-a2-m1-cD_4w6z-a2-m3-cC 5env-a1-m1-cA_5env-a1-m2-cB 5env-a1-m1-cB_5env-a1-m2-cA 7kc2-a1-m1-cA_7kc2-a1-m1-cB 7kc2-a1-m1-cC_7kc2-a1-m1-cD 7kcb-a1-m1-cA_7kcb-a1-m1-cC 7kcb-a1-m1-cB_7kcb-a1-m1-cD 7kcq-a1-m1-cA_7kcq-a1-m1-cC 7kcq-a1-m1-cB_7kcq-a1-m1-cD 7kjy-a1-m1-cA_7kjy-a1-m1-cC 7kjy-a1-m1-cB_7kjy-a1-m1-cD 7ntm-a1-m1-cA_7ntm-a1-m1-cD 7ntm-a1-m1-cB_7ntm-a1-m1-cC SIPETQKGVIFYESHGKLEYKDIPVPKPKANELLINVKYSGVCHTDLHAWHGDWPLPVKLPLVGGHEGAGVVVGMGENVKGWKIGDYAGIKWLNGSCMACEYCELGNESNCPHADLSGYTHDGSFQQYATADAVQAAHIPQGTDLAQVAPILCAGITVYKALKSANLMAGHWVAISGAAGGLGSLAVQYAKAMGYRVLGIDGGEGKEELFRSIGGEVFIDFTKEKDIVGAVLKATDGGAHGVINVSVSEAAIEASTRYVRANGTTVLVGMPAGAKCCSDVFNQVVKSISIVGSYVGNRADTREALDFFARGLVKSPIKVVGLSTLPEIYEKMEKGQIVGRYVVDTSK SIPETQKGVIFYESHGKLEYKDIPVPKPKANELLINVKYSGVCHTDLHAWHGDWPLPVKLPLVGGHEGAGVVVGMGENVKGWKIGDYAGIKWLNGSCMACEYCELGNESNCPHADLSGYTHDGSFQQYATADAVQAAHIPQGTDLAQVAPILCAGITVYKALKSANLMAGHWVAISGAAGGLGSLAVQYAKAMGYRVLGIDGGEGKEELFRSIGGEVFIDFTKEKDIVGAVLKATDGGAHGVINVSVSEAAIEASTRYVRANGTTVLVGMPAGAKCCSDVFNQVVKSISIVGSYVGNRADTREALDFFARGLVKSPIKVVGLSTLPEIYEKMEKGQIVGRYVVDTSK 4w6z-a2-m3-cC_4w6z-a2-m3-cD YEAST ALCOHOL DEHYDROGENASE I, SACCHAROMYCES CEREVISIAE FERMENTATIVE ENZYME P00330 P00330 2.4 X-RAY DIFFRACTION 124 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 347 347 4w6z-a1-m1-cA_4w6z-a1-m1-cB 4w6z-a1-m2-cA_4w6z-a1-m2-cB 4w6z-a2-m1-cC_4w6z-a2-m1-cD 5env-a1-m1-cA_5env-a1-m1-cB 5env-a1-m2-cA_5env-a1-m2-cB 7kc2-a1-m1-cA_7kc2-a1-m1-cD 7kc2-a1-m1-cB_7kc2-a1-m1-cC 7kcb-a1-m1-cA_7kcb-a1-m1-cD 7kcb-a1-m1-cB_7kcb-a1-m1-cC 7kcq-a1-m1-cA_7kcq-a1-m1-cB 7kcq-a1-m1-cC_7kcq-a1-m1-cD 7kjy-a1-m1-cA_7kjy-a1-m1-cB 7kjy-a1-m1-cC_7kjy-a1-m1-cD 7ntm-a1-m1-cA_7ntm-a1-m1-cB 7ntm-a1-m1-cC_7ntm-a1-m1-cD SIPETQKGVIFYESHGKLEYKDIPVPKPKANELLINVKYSGVCHTDLHAWHGDWPLPVKLPLVGGHEGAGVVVGMGENVKGWKIGDYAGIKWLNGSCMACEYCELGNESNCPHADLSGYTHDGSFQQYATADAVQAAHIPQGTDLAQVAPILCAGITVYKALKSANLMAGHWVAISGAAGGLGSLAVQYAKAMGYRVLGIDGGEGKEELFRSIGGEVFIDFTKEKDIVGAVLKATDGGAHGVINVSVSEAAIEASTRYVRANGTTVLVGMPAGAKCCSDVFNQVVKSISIVGSYVGNRADTREALDFFARGLVKSPIKVVGLSTLPEIYEKMEKGQIVGRYVVDTSK SIPETQKGVIFYESHGKLEYKDIPVPKPKANELLINVKYSGVCHTDLHAWHGDWPLPVKLPLVGGHEGAGVVVGMGENVKGWKIGDYAGIKWLNGSCMACEYCELGNESNCPHADLSGYTHDGSFQQYATADAVQAAHIPQGTDLAQVAPILCAGITVYKALKSANLMAGHWVAISGAAGGLGSLAVQYAKAMGYRVLGIDGGEGKEELFRSIGGEVFIDFTKEKDIVGAVLKATDGGAHGVINVSVSEAAIEASTRYVRANGTTVLVGMPAGAKCCSDVFNQVVKSISIVGSYVGNRADTREALDFFARGLVKSPIKVVGLSTLPEIYEKMEKGQIVGRYVVDTSK 4w71-a1-m1-cA_4w71-a1-m1-cB Crystal structure of a prion peptide 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 GYLLGSA GYLLGSA 4w71-a1-m1-cB_4w71-a1-m2-cA Crystal structure of a prion peptide 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 GYLLGSA GYLLGSA 4w71-a1-m2-cA_4w71-a1-m2-cB Crystal structure of a prion peptide 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 GYLLGSA GYLLGSA 4w71-a1-m3-cA_4w71-a1-m3-cB Crystal structure of a prion peptide 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 GYLLGSA GYLLGSA 4w71-a1-m3-cA_4w71-a1-m4-cB Crystal structure of a prion peptide 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 GYLLGSA GYLLGSA 4w71-a1-m4-cA_4w71-a1-m4-cB Crystal structure of a prion peptide 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 GYLLGSA GYLLGSA 4w78-a3-m1-cD_4w78-a3-m1-cH Crystal structure of the ChsH1-ChsH2 complex from Mycobacterium tuberculosis 1.541 X-RAY DIFFRACTION 36 1.0 675519 (Mycobacterium tuberculosis SUMu008) 675519 (Mycobacterium tuberculosis SUMu008) 126 126 4w78-a1-m1-cB_4w78-a1-m1-cF 4w78-a2-m1-cD_4w78-a2-m1-cH 4w78-a3-m1-cB_4w78-a3-m1-cF 4wnb-a1-m1-cB_4wnb-a1-m2-cB MTVVGAVLPELKLYGDPTFIVSTALATRDFQDVHHDRDKAVAQGSKDIFVNILTDTGLVQRYVTDWAGPSALIKSIGLRLGVPWYAYDTVTFSGEVTAVNDGLITVKVVGRNTLGDHVTATVELSM MTVVGAVLPELKLYGDPTFIVSTALATRDFQDVHHDRDKAVAQGSKDIFVNILTDTGLVQRYVTDWAGPSALIKSIGLRLGVPWYAYDTVTFSGEVTAVNDGLITVKVVGRNTLGDHVTATVELSM 4w78-a3-m1-cG_4w78-a3-m1-cC Crystal structure of the ChsH1-ChsH2 complex from Mycobacterium tuberculosis 1.541 X-RAY DIFFRACTION 23 1.0 443150 (Mycobacterium tuberculosis CCDC5180) 443150 (Mycobacterium tuberculosis CCDC5180) 163 178 4w78-a1-m1-cE_4w78-a1-m1-cA 4w78-a2-m1-cG_4w78-a2-m1-cC 4w78-a3-m1-cE_4w78-a3-m1-cA 4wnb-a1-m1-cA_4wnb-a1-m2-cA IQEAVAQIKAAGPSKPRLARDPVNQPMINNWVEAIGDRNPIYVDDAAARAAGHPGIVAPPAMIQVWTMMGLGGVRPKDDPLGPIIKLFDDAGYIGVVATNCEQTYHRYLLPGEQVSISAELGDVVGPKQTALGEGWFINQHIVWQVGDEDVAEMNWRILKFKP GVSDIQEAVAQIKAAGPSKPRLARDPVNQPMINNWVEAIGDRNPIYVDDAAARAAGHPGIVAPPAMIQVWTMMGLGGVRPKDDPLGPIIKLFDDAGYIGVVATNCEQTYHRYLLPGEQVSISAELGDVVGPKQTALGEGWFINQHIVWQVGDEDVAEMNWRILKFKPAGSPSSVPDDL 4w7a-a1-m1-cA_4w7a-a1-m1-cB Crystal Structure of Full-Length Split GFP Mutant D21H/K26C Disulfide and Metal-Mediated Dimer, P 21 21 21 Space Group, Form 4 3.603 X-RAY DIFFRACTION 23 0.995 32630 (synthetic construct) 32630 (synthetic construct) 219 222 GEELFTGVVPILIELDGHVNGHCFFVRGEGEGDATIGKLSLKFIATTGKLPVPWPTLVTTVQCFSRYPDHMKRHDFFKSAMGYVQERTIYFKDDGTYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNFNSHKVYITADKQNNGIKANFTIRHNVEDGSVQLADHYQQNTPIGDGDLPDDHYLSTQTILSKDLNEKRDHMVLLEYVTAAGIT GEELFTGVVPILIELDGHVNGHCFFVRGEGEGDATIGKLSLKFIATTGKLPVPWPTLVTTLVQCFSRYPDHMKRHDFFKSAMEGYVQERTIYFKDDGTYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNFNSHKVYITADKQNNGIKANFTIRHNVEDGSVQLADHYQQNTPIGDGPVDLPDDHYLSTQTILSKDLNEKRDHMVLLEYVTAAGI 4w7p-a3-m1-cB_4w7p-a3-m1-cD Crystal Structure of ROCK 1 bound to YB-15-QD37 Q13464 Q13464 2.8 X-RAY DIFFRACTION 25 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 387 387 SFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEEEEETFPIPKAFVGNQLPFVGFTYYS SFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEEETFPIPKAFVGNQLPFVGFTYYSNR 4w7p-a3-m1-cC_4w7p-a3-m1-cA Crystal Structure of ROCK 1 bound to YB-15-QD37 Q13464 Q13464 2.8 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 383 388 SFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEETFPIPKAFVGNQLPFVGFTYYS SFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEETFPIPKAFVGNQLPFVGFTYYSNRRY 4w7s-a1-m1-cB_4w7s-a1-m1-cA Crystal structure of the yeast DEAD-box splicing factor Prp28 at 2.54 Angstroms resolution P23394 P23394 2.542 X-RAY DIFFRACTION 66 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 436 443 GKHWTEKSLHENERDWRILKEDYAIVTKGGTVENPLRNWEELNIIPRDLLRVIIQELRFPSPTPIQRITIPNVCNKQYRDFLGVASTGSGKTLAFVIPILIKSRSPPRPPSLKIIDGPKALILAPTRELVQQIQKETQKVTKIWSKESNYDCKVISIVGGHSLEEISFSLSEGCDILVATPGRLIDSLENHLLVKQVETLVLDEADKIDLGFEDQVTNILTKVDINADSAVNRQTLFTATTPVIEKIAAGYQKPVYATIGVETGSEPLIQQVVEYADNDEDKFKKLKPIVAKYDPPIIIFINYKQTADWLAEKFQKETNKVTILHKSQEQREHSLQLFRTNKVQIIATNVAARGLDIPNVSLVVNFQISKKDDYIHRIGRTGRAANEGTAVSFVSAAEDESLIRELYKYVRKHDPLNSNIFSEAVKNKYNVGKQLS GKHWTEKSLHENERDWRILKEDYAIVTKGGTVENPLRNWEELNIIPRDLLRVIIQELRFPSPTPIQRITIPNVCNKQYRDFLGVASTGSGKTLAFVIPILIKSRSPPRPPSLKIIDGPKALILAPTRELVQQIQKETQKVTKIWSKESNYDCKVISIVGGHSLEEISFSLSEGCDILVATPGRLIDSLENHLLVKQVETLVLDEADKIDLGFEDQVTNILTKVDINADSAVNRQTLFTATTPVIEKIAAGYQKPVYATIGVETGSEPLIQQVVEYADNDEDKFKKLKPIVAKYDPPIIIFINYKQTADWLAEKFQKETNKVTILHGSKSQEQREHSLQLFRTNKVQIIATNVAARGLDIPNVSLVVNFQISKKDDYIHRIGRTGRAANEGTAVSFVSAAEDESLIRELYKYVRKHDPLNSNIFSEAVKNKYNVGKQLSNEIIY 4w7w-a2-m1-cA_4w7w-a2-m2-cA High-resolution structure of XacCel5A in complex with cellopentaose Q8PRD3 Q8PRD3 1.05 X-RAY DIFFRACTION 57 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 313 313 HMLKYVGVNLSGAEFNSRKKPGTLFKDYTYPAASDFSYFAGKGMNTIRLPFLWERVQPELNGPLDQAQLGLIKKSLEAAKANKQYLILDLHNYATYSGKRIGTSDVPAGALADLWRRLALEFKDDKAVIFGLMNEPNGISAPDWANAAQGTITAIRKTGAKNLILVPGTAYTGAHSWRSTSYGVSNAKALEILKDPGNNLAFEAHQYLDKDYSGTKPVCTSDSVGQEKLQGFTSWLRENKQKGFLGEFATANNPVCDKALEGMLTYMEKNSDVWLGWTWWAAGAWWKPDYPFTVQPGKDGSDKPQMAILSKYA HMLKYVGVNLSGAEFNSRKKPGTLFKDYTYPAASDFSYFAGKGMNTIRLPFLWERVQPELNGPLDQAQLGLIKKSLEAAKANKQYLILDLHNYATYSGKRIGTSDVPAGALADLWRRLALEFKDDKAVIFGLMNEPNGISAPDWANAAQGTITAIRKTGAKNLILVPGTAYTGAHSWRSTSYGVSNAKALEILKDPGNNLAFEAHQYLDKDYSGTKPVCTSDSVGQEKLQGFTSWLRENKQKGFLGEFATANNPVCDKALEGMLTYMEKNSDVWLGWTWWAAGAWWKPDYPFTVQPGKDGSDKPQMAILSKYA 4w8c-a1-m1-cA_4w8c-a1-m1-cB Crystal structure of the helical domain deleted form MsrA from Clostridium oremlandii A8MI53 A8MI53 1.7568 X-RAY DIFFRACTION 28 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 134 137 LSIAVFALGCFWGPDAQFGSIKGVVSTRVGYAGGTTNNPSYYNLGDHSESIEIQYDANVITYGELLNIFWNLHNPVYETTNRQYMSRIFYLDDGQKSEALEMKRQIEAANGEKIYTEIVPLENFYLAEGYHQKY KLSIAVFALGCFWGPDAQFGSIKGVVSTRVGYAGGTTNNPSYYNLGDHSESIEIQYDANVITYGELLNIFWNLHNPVYETTNRQYMSRIFYLDDGQKSEALEMKRQIEAANGEKIYTEIVPLENFYLAEGYHQKYYL 4w8f-a3-m1-cA_4w8f-a3-m1-cB Crystal structure of the dynein motor domain in the AMPPNP-bound state P36022 P36022 3.541 X-RAY DIFFRACTION 23 0.996 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 2608 2609 FVIEKSLNRIKKFWKEAQYEVIEHSSGLKLVREWDVLEQACKEDLEELVSMKASNYYKIFEQDCLDLESKLTKLSEIQVNWVEVQFYWLDLYGILGENLDIQNFLPLETSKFKSLTSEYKMITTRAFQLDTTIEVIHIPNFDTTLKLTIDSLKMIKSSLSTFLERQRRQFPRFYFLGNDDLLKIIGSGKHHDQVSKFMKKMFGSIESIIFLEDFITGVRSVEGEVLNLNEKIELKDSIQAQEWLNILDTEIKLSVFTQFRDCLGQLKDGTDIEVVVSKYIFQAILLSAQVMWTELVEKCLQTNQFSKYWKEVDMKIKGLLDKLNKSSDNVKKKIEALLVEYLHFNNVIGQLKNCSTKEEARLLWAKVQKFYQKNDTLDDLNSVFISQSGYLLQYKFEYIGIPERLIYTPLLLIGFATLTDSLHQKYGGCFFGPAGTGKTETVKAFGQNLGRVVVVFNCDDSFDYQVLSRLLVGITQIGAWGCFDQFNRLDEKVLSAVSANIQQIQNGLQVGKSHITLLEEETPLSPHTAVFITLNPGYNGRSELPENLKKSFREFSMKSPQSGTIAEMILQIMGFEDSKSLASKIVHFLELLSSKCSSMNHYHFGLRTLKGVLRNCSPLISEFGEGEKTVVESLKRVILPSLGDTDELVFKDELSKIFDSNSKAIVQCLKDAGQRSGFSMSEEFLKKCMQFYYMQKTQQALILVGKAGCGKTATWKTVIDAMAIFDGHANVVYVIDTKVLTKESLYGSMLKATLEWRDGLFTSILRRVNDDITGTFKNSRIWVVFDSDLDPEYVEAMNSVLDDNKILTLPNGERLPIPPNFRILFETDNLDHTTPATITRCGLLWFSTDVCSISSKIDHLLNKSYEALDNKLSMFELDKLKDLISDSFDMASLTNIFTCSNDLVHILGVRTFNKLETAVQLAVHLISSYRQWFQNLDDKSLKDVITLLIKRSLLYALAGDSTGESQRAFIQTINTYFGHDSQELSDYSTIVIANDKLSFSSFCSEIPSVSLEAHEVMRPDIVIPTIDTIKHEKIFYDLLNSKRGIILCGPPGSGKTMIMNNALRNSSLYDVVGINFSKDTTTEHILSALHRHTNYVTTSKGLTLLPKSDIKNLVLFCDEINLPKLDKYGSQNVVLFLRQLMEKQGFWKTPENKWVTIERIHIVGACNPPTDPGRIPMSERFTRHAAILYLGYPSGKSLSQIYEIYYKAIFKLVPEFRSYTEPFARASVHLYNECKARYSTGLQSHYLFSPRELTRLVRGVYTAINTGPRQTLRSLIRLWAYEAWRIFADRLVGVKEKNSFEQLLYETVDKYLPNQDLGNISSTSLLFSGLLSLDFKEVNKTDLVNFIEERFKTFCDEELEVPMVIHESMVDHILRIDRALKQVQGHMMLIGASRTGKTILTRFVAWLNGLKIVQPKIHRHSNLSDFDMILKKAISDCSLKESRTCLIIDESNILETAFLERMNTLLANADIPDLFQGEEYDKLLNNLRNKTRSLGLLLDTEQELYDWFVGEIAKNLHVVFTICDPTNNKSSAMISSPALFNRCIINWMGDWDTKTMSQVANNMVDVIPMEFTDFIVPEVNFTEPIQTIRDAVVNILIHFDRNFYQKMKVGVNPRSPGYFIDGLRALVKLVTAKYQDLQENQRFVNVGLEKLNESVLKVNIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYISLVKSLTFEKERWLNTTKQFSKTSQELIGNCIISSIYETYFGHLNERERADMLVILKRLLGKFAVKYDVNYRFIDYLVTLDEKMKWLECGLDKNDYFLENMSIVMNSQDAVPFLLDPSSHMITVISNYYGNKTVLLSFLEEGFVKRLENAIRFGSVVIIQDGEFFDPIISRLISREFNHAGNRVTVEIGDHEVDVSGDFKLFIHSCDPSGDIPIFLRSRVRLVHFVTNKESIETRIFDITLTEENAEMQRKREDLIKLNTEYKLKLKNLEKRLLEELNNSQGNMLENDELMVTLNNLKKEAMNIEKKLSESEEFFPQFDNLVEEYSIIGKHSVKIFSMLEKFGQFHWFYGISIGQFLSCFKRVFITRVDEILWLLYQEVYCQFSTALDKKFKMIMAMTMFCLYKFDIESEQYKEAVLTMIGVLSESSDGVPKLTVDTNDDLRYLWDYVTTKSYISALNWFKNEFFVDEWNIADVVANSENNYFTMASERDVDGTFKLIELAKASKESLKIIPLGSIENLNYAQEEISKSKIEGGWILLQNIQMSLSWVKTYLHKHVEETKAAEEHEKFKMFMTCHLTGDKLPAPLLQRTDRVVYEDIPGILDTVKDLWGSQFFTGKISGVWSVYCTFLLSWFHALITARTRLVPHGFSKKYYFNDCDFQFASVYLENVLATNSTNNIPWAQVRDHIATIVYGGKIDEEKDLEVVAKLCAHVFCGSDNLQIVPGVRIPQPLLQQSEEEERARLTAILSNTIEPADSLSSWLQLPRESILDYERLQAKEVASSTEQLLQEM FVIEKSLNRIKKFWKEAQYEVIEHSSGLKLVREWDVLEQACKEDLEELVSMKASNYYKIFEQDCLDLESKLTKLSEIQVNWVEVQFYWLDLYGILGENLDIQNFLPLETSKFKSLTSEYKMITTRAFQLDTTIEVIHIPNFDTTLKLTIDSLKMIKSSLSTFLERQRRQFPRFYFLGNDDLLKIIGSGKHHDQVSKFMKKMFGSIESIIFLEDFITGVRSVEGEVLNLNEKIELKDSIQAQEWLNILDTEIKLSVFTQFRDCLGQLKDGTDIEVVVSKYIFQAILLSAQVMWTELVEKCLQTNQFSKYWKEVDMKIKGLLDKLNKSSDNVKKKIEALLVEYLHFNNVIGQLKNCSTKEEARLLWAKVQKFYQKNDTLDDLNSVFISQSGYLLQYKFEYIGIPERLIYTPLLLIGFATLTDSLHQKYGGCFFGPAGTGKTETVKAFGQNLGRVVVVFNCDDSFDYQVLSRLLVGITQIGAWGCFDQFNRLDEKVLSAVSANIQQIQNGLQVGKSHITLLEEETPLSPHTAVFITLNPGYNGRSELPENLKKSFREFSMKSPQSGTIAEMILQIMGFEDSKSLASKIVHFLELLSSKCSSMNHYHFGLRTLKGVLRNCSPLISEFGEGEKTVVESLKRVILPSLGDTDELVFKDELSKIFDNSKAIVQCLKDAGQRSGFSMSEEFLKKCMQFYYMQKTQQALILVGKAGCGKTATWKTVIDAMAIFDGHANVVYVIDTKVLTKESLYGSMLKATLEWRDGLFTSILRRVNDDITGTFKNSRIWVVFDSDLDPEYVEAMNSVLDDNKILTLPNGERLPIPPNFRILFETDNLDHTTPATITRCGLLWFSTDVCSISSKIDHLLNKSYEALDNKLSMFELDKLKDLISDSFDMASLTNIFTCSNDLVHILGVRTFNKLETAVQLAVHLISSYRQWFQNLDDKSLKDVITLLIKRSLLYALAGDSTGESQRAFIQTINTYFGHDSQELSDYSTIVIANDKLSFSSFCSEIPSVSLEAHEVMRPDIVIPTIDTIKHEKIFYDLLNSKRGIILCGPPGSGKTMIMNNALRNSSLYDVVGINFSKDTTTEHILSALHRHTNYVTTSKGLTLLPKSDIKNLVLFCDEINLPKLDKYGSQNVVLFLRQLMEKQGFWKTPENKWVTIERIHIVGACNPPTDPGRIPMSERFTRHAAILYLGYPSGKSLSQIYEIYYKAIFKLVPEFRSYTEPFARASVHLYNECKARYSTGLQSHYLFSPRELTRLVRGVYTAINTGPRQTLRSLIRLWAYEAWRIFADRLVGVKEKNSFEQLLYETVDKYLPNQDLGNISSTSLLFSGLLSLDFKEVNKTDLVNFIEERFKTFCDEELEVPMVIHESMVDHILRIDRALKQVQGHMMLIGASRTGKTILTRFVAWLNGLKIVQPKIHRHSNLSDFDMILKKAISDCSLKESRTCLIIDESNILETAFLERMNTLLANADIPDLFQGEEYDKLLNNLRNKTRSLGLLLDTEQELYDWFVGEIAKNLHVVFTICDPTNNKSSAMISSPALFNRCIINWMGDWDTKTMSQVANNMVDVIPMEFTDFIFTEPIQTIRDAVVNILIHFDRNFYQKMKVGVNPRSPGYFIDGLRALVKLVTAKYQDLQENQRFVNVGLEKLNESVLKVNENIFEMLRIDEGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYGSGSGSSISLVKSLTFEKERWLNTTKQFSKTSQELIGNCIISSIYETYFGHLNERERADMLVILKRLLGKFAVKYDVNYRFIDYLVTLDEKMKWLECGLDKNDYFLENMSIVMNSQDAVPFLLDPSSHMITVISNYYGNKTVLLSFLEEGFVKRLENAIRFGSVVIIQDGEFFDPIISRLISREFNHAGNRVTVEEVDVSGDFKLFIHSCDPSGDIPIFLRSRVRLVHFVTNKESIETRIFDITLTEENAEMQRKREDLIKLNTEYKLKLKNLEKRLLEELNNSQGNMLENDELMVTLNNLKKEAMNIEKKLSESEEFFPQFDNLVEEYSIIGKHSVKIFSMLEKFGQFHWFYGISIGQFLSCFKRVFIKKTRVDEILWLLYQEVYCQFSTALDKKFKMIMAMTMFCLYKFDIESEQYKEAVLTMIGVLSESSDGVPKLTVDTNDDLRYLWDYVTTKSYISALNWFKNEFFVDEWNIADVVANSENNYFTMASERDVDGTFKLIELAKASKESLKIIPLGSIENLNYAQEEISKSKIEGGWILLQNIQMSLSWVKTYLHKHVEETKAAEEHEKFKMFMTCHLTGDKLPAPLLQRTDRVVYEDIPGILDTVKDLWGSQFFTGKISGVWSVYCTFLLSWFHALITARTRLVPHGFSKKYYFNDCDFQFASVYLENVLATNSTNNIPWAQVRDHIATIVYGGKIDEEKDLEVVAKLCAHVFCGSDNLQIVPGVRIPQPLLQQSEEEERARLTAILSNTIEPADSLSSWLQLPRESILDYERLQAKEVASSTEQLLQEM 4w8j-a1-m1-cA_4w8j-a1-m2-cA Structure of the full-length insecticidal protein Cry1Ac reveals intriguing details of toxin packaging into in vivo formed crystals P05068 P05068 2.78 X-RAY DIFFRACTION 169 1.0 1279365 (Bacillus thuringiensis serovar kurstaki str. HD73) 1279365 (Bacillus thuringiensis serovar kurstaki str. HD73) 1017 1017 YTPIDISLSLTQFLLSEFVPGAGFVLGLVDIIWGIFGPSQWDAFLVQIEQLINQRIEEFARNQAISRLEGLSNLYQIYAESFREWEADPTNPALREEMRIQFNDMNSALTTAIPLLAVQNYQVPLLSVYVQAANLHLSVLRDVSVFGQRWGFDAATINSRYNDLTRLIGNYTDYAVRWYNTGLERVWGPDSRDWVRYNQFRRELTLTVLDIVALFPNYDSRRYPIRTVSQLTREIYTNPVLENFDGSFRGSAQGIERSIRSPHLMDILNSITIYTDAHRGYYYWSGHQIMASPVGFSGPEFTFPLYGTMGNAAPQQRIVAQLGQGVYRTLSSTLYRRPFNQQLSVLDGTEFAYGTSSNLPSAVYRKSGTVDSLDEIPPQNNNVPPRQGFSHRLSHVSMFRSGFVSIIRAPMFSWIHRSAEVNNIIASDSITQIPAVKGNFLFNGSVISGPGFTGGDLVRLNSSNIQNRGYIEVPIHFPSTSTRYRVRVRYASVTPIHLNVNWGNSSIFSNTVPATATSLDNLQSSDFGYFESANAFTGNIVGVRNFSGTAGVIIDRFEFIPVTATLEAEYNLERAQKAVNALFTSTNQLGLKTNVTDYHIDQVSNLVTYLSDEFSLDEKRELSEKVKHAKRLSDERNLLQDSNFKDINRERGWGGSTGITIQGGDDVFKENYVTLSGTFDESYPTYLYQKIDESKLKAFTRYQLRGYIEDSQDLEIYLIRYNAKHETVNVPGTGSSAHHSHHFSLDIDVGSTDLNEDLGVWVIFKIKTQDGHARLGNLEFLEEKPLVGEALARVKRAEKKWRDKREKLEWETNIVYKEAKESVDALFVNSQYDQLQADTNIAMIHAADKRVHSIREAYLPELSVIPGVNAAIFEELEGRIFTAFSLYDARNVIKNGDFNNGLSSWNVKGHVDVEEQNNQRSVLVVPEWEAEVSQEVRVSPGRGYILRVTAYKEGYGEGSVTIHEIENNTDELKFSNPVGYVTKELEYFPETDKVWIEIGETEGTFIVDSVELLLMEE YTPIDISLSLTQFLLSEFVPGAGFVLGLVDIIWGIFGPSQWDAFLVQIEQLINQRIEEFARNQAISRLEGLSNLYQIYAESFREWEADPTNPALREEMRIQFNDMNSALTTAIPLLAVQNYQVPLLSVYVQAANLHLSVLRDVSVFGQRWGFDAATINSRYNDLTRLIGNYTDYAVRWYNTGLERVWGPDSRDWVRYNQFRRELTLTVLDIVALFPNYDSRRYPIRTVSQLTREIYTNPVLENFDGSFRGSAQGIERSIRSPHLMDILNSITIYTDAHRGYYYWSGHQIMASPVGFSGPEFTFPLYGTMGNAAPQQRIVAQLGQGVYRTLSSTLYRRPFNQQLSVLDGTEFAYGTSSNLPSAVYRKSGTVDSLDEIPPQNNNVPPRQGFSHRLSHVSMFRSGFVSIIRAPMFSWIHRSAEVNNIIASDSITQIPAVKGNFLFNGSVISGPGFTGGDLVRLNSSNIQNRGYIEVPIHFPSTSTRYRVRVRYASVTPIHLNVNWGNSSIFSNTVPATATSLDNLQSSDFGYFESANAFTGNIVGVRNFSGTAGVIIDRFEFIPVTATLEAEYNLERAQKAVNALFTSTNQLGLKTNVTDYHIDQVSNLVTYLSDEFSLDEKRELSEKVKHAKRLSDERNLLQDSNFKDINRERGWGGSTGITIQGGDDVFKENYVTLSGTFDESYPTYLYQKIDESKLKAFTRYQLRGYIEDSQDLEIYLIRYNAKHETVNVPGTGSSAHHSHHFSLDIDVGSTDLNEDLGVWVIFKIKTQDGHARLGNLEFLEEKPLVGEALARVKRAEKKWRDKREKLEWETNIVYKEAKESVDALFVNSQYDQLQADTNIAMIHAADKRVHSIREAYLPELSVIPGVNAAIFEELEGRIFTAFSLYDARNVIKNGDFNNGLSSWNVKGHVDVEEQNNQRSVLVVPEWEAEVSQEVRVSPGRGYILRVTAYKEGYGEGSVTIHEIENNTDELKFSNPVGYVTKELEYFPETDKVWIEIGETEGTFIVDSVELLLMEE 4w8k-a1-m1-cA_4w8k-a1-m1-cB Crystal structure of a putative Cas1 enzyme from Vibrio phage ICP1 F1D4K1 F1D4K1 2.13 X-RAY DIFFRACTION 146 0.997 979528 (Vibrio phage ICP1_2005_A) 979528 (Vibrio phage ICP1_2005_A) 289 297 QILTSQKRNMYILSRCKVLVKNGQVCHLHEDGNVYTVPYANTVFIGLAEGTSITNEAMSMLAANGVIVFWTKGGGAADIICHLPQADYRPTKYMQNWVRLWLDEEKKLSAAKEILKMRVDSLSTHVHDFGVDVENKRVSSIVNKFDKGVTQATSFESLLGHEGTFVKSLYKEYALEYEIEFKRDHKSADNYNKFLTLGNYYAYGIARSSLWALGIDNSFPLLHGSTRRGGLVFDVADIIKTSIILPLAFHAADQGMSNTEFKRSCVAYFDKNDILAYLINNIKRLCMEN QGMQKQILTSQKRNMYILSRCKVLVKNGQVCHLHEDGNVYTVPYANTVFIGLAEGTSITNEAMSMLAANGVIVFWTKGGGYDMFAADIICHLPQADYRPTKYMQNWVRLWLDEEKKLSAAKEILKMRVDSLSTHVHDFGVDVENKRVSSIVNKFDKGVTQATSFESLLGHEGTFVKSLYKEYALEYEIEFKRDHKSADNYNKFLTLGNYYAYGIARSSLWALGIDNSFPLLHGSTRRGGLVFDVADIIKTSIILPLAFHAADQGMSNTEFKRSCVAYFDKNDILAYLINNIKRLCME 4w8p-a2-m1-cA_4w8p-a2-m2-cA Crystal structure of RIAM TBS1 in complex with talin R7R8 domains P26039 P26039 1.5 X-RAY DIFFRACTION 98 1.0 10090 (Mus musculus) 10090 (Mus musculus) 301 301 APGQKECDNALRQLETVRELLENPVQPINDMSYFGCLDSVMENSKVLGEAMTGISQNAKNGNLPEFGDAIATASKALCGFTEAAAQAAYLVGVSDPNSQAGQQGLVEPTQFARANQAIQMACQSLGEPGCTQAQVLSAATIVAKHTSALCNSCRLASARTANPTAKRQFVQSAKEVANSTANLVKTIKALDGDFTEENRAQCRAATAPLLEAVDNLSAFASNPEFSSVPAQISPEGRAAMEPIVISAKTMLESAGGLIQTARALAVNPRDPPRWSVLAGHSRTVSDSIKKLITSMRDKAPG APGQKECDNALRQLETVRELLENPVQPINDMSYFGCLDSVMENSKVLGEAMTGISQNAKNGNLPEFGDAIATASKALCGFTEAAAQAAYLVGVSDPNSQAGQQGLVEPTQFARANQAIQMACQSLGEPGCTQAQVLSAATIVAKHTSALCNSCRLASARTANPTAKRQFVQSAKEVANSTANLVKTIKALDGDFTEENRAQCRAATAPLLEAVDNLSAFASNPEFSSVPAQISPEGRAAMEPIVISAKTMLESAGGLIQTARALAVNPRDPPRWSVLAGHSRTVSDSIKKLITSMRDKAPG 4w91-a5-m1-cJ_4w91-a5-m1-cI Crystal structure of a cysteine desulfurase SufS from Brucella suis bound to PLP 2.45 X-RAY DIFFRACTION 284 0.992 520488 (Brucella suis bv. 4 str. 40) 520488 (Brucella suis bv. 4 str. 40) 355 397 4w91-a1-m1-cA_4w91-a1-m1-cB 4w91-a2-m1-cC_4w91-a2-m1-cD 4w91-a3-m1-cE_4w91-a3-m1-cF 4w91-a4-m1-cH_4w91-a4-m1-cG YDVEAIRRDFPILSRQVHGKTLVYLDNGASAQKPQSVIDAVTHAYANEYANVHRGLHFLSNAATDAYEKSRETVRRFLNAGSVDEIVFTKNATEAINTVAYGYGMPFDEILLSIMEHHSNIVPWHFIRERQGAKLVFTPVDDNGVFHIEEFEKRLSERTKLVAITHMSNTLGTVVPIKKIVELAHARGIPVLVDGSQGAVHLPVDVQDLGCDWYVFTGHVYGPSGIGVLYGRAQMLEKMRPFQGGGEMIEEVTEENVTYNHPPHRFEAGTPPIVQAIGLGAALEYMEKIGRHAILAHEADLRDYAHDKGAIISFHDVSMVIDRAGVAVRAGTHCAQPLLKRFGVTSTCRASFALY YDVEAIRRDFPILSRQVHGKTLVYLDNGASAQKPQSVIDAVTHAYANEYANVHHFLSNAATDAYEKSRETVRRFLNAGSVDEIVFTKNATEAINTVAYGYGMPFIGEGDEILLSIMEHHSNIVPWHFIRERQGAKLVFTPVDDNGVFHIEEFEKRLSERTKLVAITHMSNTLGTVVPIKKIVELAHARGIPVLVDGSQGAVHLPVDVQDLGCDWYVFTGHVYGPSGIGVLYGRAQMLEKMRPFQGGGEMIEEVTEENVTYNHPPHRFEAGTPPIVQAIGLGAALEYMEKIGRHAILAHEADLRDYAHERLGRINSLRIFGDKGAIISFALEGIHAHDVSMVIDRAGVAVRAGTHCAQPLLKRFGVTSTCRASFALYNTRAEVDALAEALEKARKFFG 4w97-a1-m1-cA_4w97-a1-m2-cA Structure of ketosteroid transcriptional regulator KstR2 of Mycobacterium tuberculosis P9WMB9 P9WMB9 1.6 X-RAY DIFFRACTION 53 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 196 196 4w1u-a1-m1-cA_4w1u-a1-m2-cA RVAGQVNSRRGELLELAAAMFAERGLRATTVRDIADGAGILSGSLYHHFASKEEMVDELLRGFLDWLFARYRDIVDSTANPLERLQGLFMASFEAIEHHHAQVVIYQDEAQRLASQPRFSYIEDRNKQQRKMWVDVLNQGIEEGYFRPDLDVDLVYRFIRDTTWVSVRWYRPGGPLTAQQVGQQYLAIVLGGITKE RVAGQVNSRRGELLELAAAMFAERGLRATTVRDIADGAGILSGSLYHHFASKEEMVDELLRGFLDWLFARYRDIVDSTANPLERLQGLFMASFEAIEHHHAQVVIYQDEAQRLASQPRFSYIEDRNKQQRKMWVDVLNQGIEEGYFRPDLDVDLVYRFIRDTTWVSVRWYRPGGPLTAQQVGQQYLAIVLGGITKE 4w9m-a2-m1-cI_4w9m-a2-m1-cK AMPPNP bound Rad50 in complex with dsDNA Q9X1X1 Q9X1X1 2.7 X-RAY DIFFRACTION 76 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 352 352 3qf7-a3-m1-cB_3qf7-a3-m1-cA 3tho-a2-m1-cA_3tho-a2-m2-cA 3tho-a3-m1-cA_3tho-a3-m2-cA 4w9m-a1-m1-cE_4w9m-a1-m1-cC MRPERLTVRNFLGLKNVDIEFQSGITVVEGPNGAGKSSLFEAISFALFGNGIRYPNSYDYVNRNAVDGTARLVFQFERGGKRYEIIREINALQRKHNAKLSEILENGKKAAIAAKPTSVKQEVEKILGIEHRTFIRTVFLPQGEIDKLLISPPSEITEIISDVFQSKETLEKLEKLLKEKMKKLENEIEKKLKEMSDEYNNLDLLRKYLFDKSNFSRYFTGRVLEAVLKRTKAYLDILTNGRFDIDFDDEKGGFIIKDWGIERPARGLSGGERALISISLAMSLAEVASGRLDAFFIDEGFSSLDTENKEKIASVLKELERLNKVIVFITHDREFSEAFDRKLRITGGVVVN MRPERLTVRNFLGLKNVDIEFQSGITVVEGPNGAGKSSLFEAISFALFGNGIRYPNSYDYVNRNAVDGTARLVFQFERGGKRYEIIREINALQRKHNAKLSEILENGKKAAIAAKPTSVKQEVEKILGIEHRTFIRTVFLPQGEIDKLLISPPSEITEIISDVFQSKETLEKLEKLLKEKMKKLENEISKKLKEMSDEYNNLDLLRKYLFDKSNFSRYFTGRVLEAVLKRTKAYLDILTNGRFDIDFDDEKGGFIIKDWGIERPARGLSGGERALISISLAMSLAEVASGRLDAFFIDEGFSSLDTENKEKIASVLKELERLNKVIVFITHDREFSEAFDRKLRITGGVVVN 4w9n-a3-m1-cD_4w9n-a3-m1-cA Enoyl-acyl carrier protein-reductase domain from human fatty acid synthase complexed with triclosan P49327 P49327 1.84 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 310 323 HAFVSTLTRGDLSSIRWVCCPGAQLCTVYYASLNFRDIMLATGKLSPDAIPGKWTSQDSLLGMEFSGRDASGKRVMGLVPAKGLATSVLLSPDFLWDVPSNWTLEEAASVPVVYSTAYYALVVRGRVRPGETLLIHSGSGGVGQAAIAIALSLGCRVFTTVGSAEKRAYLQARFPQLDSTSFANSSFEQHVLWHTGGKGVDLVLNSLAEEKLQASVRCLATHGRFLEIGKLGMAIFLKNVTFHGVLLDAFFNESSADWREVWALVQAGIRDGVVRPLKCTVFHGAQVEDAFRYMAQHIGKVVVQVLAEEP HAFVSTLTRGDLSSIRWVCSRHAQPTCPGAQLCTVYYASLNFRDIMLATGKLSPDAIPGKWTSQDSLLGMEFSGRDASGKRVMGLVPAKGLATSVLLSPDFLWDVPSNWTLEEAASVPVVYSTAYYALVVRGRVRPGETLLIHSGSGGVGQAAIAIALSLGCRVFTTVGSAEKRAYLQARFPQLDSTSFANSRSFEQHVLWHTGGKGVDLVLNSLAEEKLQASVRCLATHGRFLEIGKFDLGMAIFLKNVTFHGVLLDAFFNESSADWREVWALVQAGIRDGVVRPLKCTVFHGAQVEDAFRYMAQGKHIGKVVVQVLAEEPE 4w9n-a3-m1-cD_4w9n-a3-m1-cB Enoyl-acyl carrier protein-reductase domain from human fatty acid synthase complexed with triclosan P49327 P49327 1.84 X-RAY DIFFRACTION 37 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 310 311 4w9n-a3-m1-cC_4w9n-a3-m1-cA HAFVSTLTRGDLSSIRWVCCPGAQLCTVYYASLNFRDIMLATGKLSPDAIPGKWTSQDSLLGMEFSGRDASGKRVMGLVPAKGLATSVLLSPDFLWDVPSNWTLEEAASVPVVYSTAYYALVVRGRVRPGETLLIHSGSGGVGQAAIAIALSLGCRVFTTVGSAEKRAYLQARFPQLDSTSFANSSFEQHVLWHTGGKGVDLVLNSLAEEKLQASVRCLATHGRFLEIGKLGMAIFLKNVTFHGVLLDAFFNESSADWREVWALVQAGIRDGVVRPLKCTVFHGAQVEDAFRYMAQHIGKVVVQVLAEEP HAFVSTLTRGDLSSIRWVCAQLCTVYYASLNFRDIMLATGKLSPDAIPGKWTSQDSLLGMEFSGRDASGKRVMGLVPAKGLATSVLLSPDFLWDVPSNWTLEEAASVPVVYSTAYYALVVRGRVRPGETLLIHSGSGGVGQAAIAIALSLGCRVFTTVGSAEKRAYLQARFPQLDSTSFANSSFEQHVLWHTGGKGVDLVLNSLAEEKLQASVRCLATHGRFLEIGKFDLLGMAIFLKNVTFHGVLLDAFFNESSADWREVWALVQAGIRDGVVRPLKCTVFHGAQVEDAFRYMAQGKHIGKVVVQVLAEE 4w9r-a1-m1-cA_4w9r-a1-m1-cB Crystal structure of uncharacterised protein Coch_1243 from Capnocytophaga ochracea DSM 7271 C7M590 C7M590 2.703 X-RAY DIFFRACTION 74 1.0 521097 (Capnocytophaga ochracea DSM 7271) 521097 (Capnocytophaga ochracea DSM 7271) 348 349 QVISETFSSGRLNRKQKIGIYKPEKYTDRQAYPLIVVLNAETLEPVVSVRYYEQFGEPKCIVVGVYEPKQEDVTVVEEVGRPINESARFFEFVSAELVPYIQGKYPIADLKGVIASEEAGFLANYYLAEKKPTFNIVSLNPVALPRGEEFSHALAAGVPNRLFYYATADVENKVVYDKAIQFERARSAPVHESVEYHFVDFKGSSVNAAKLQGIAQALDCFDIYKPIGGKEFKTQETLETGIYEYLENKYNTIYKQLGVKKVPILNDVATYTAINSSQDWESLKKLAKYVESNGYLKTAPNFFLAEYYEKIGDDKKALKTYQKAYTEPNIDFITGDLINERITHLQAT AQVISETFSSGRLNRKQKIGIYKPEKYTDRQAYPLIVVLNAETLEPVVSVRYYEQFGEPKCIVVGVYEPKQEDVTVVEEVGRPINESARFFEFVSAELVPYIQGKYPIADLKGVIASEEAGFLANYYLAEKKPTFNIVSLNPVALPRGEEFSHALAAGVPNRLFYYATADVENKVVYDKAIQFERARSAPVHESVEYHFVDFKGSSVNAAKLQGIAQALDCFDIYKPIGGKEFKTQETLETGIYEYLENKYNTIYKQLGVKKVPILNDVATYTAINSSQDWESLKKLAKYVESNGYLKTAPNFFLAEYYEKIGDDKKALKTYQKAYTEPNIDFITGDLINERITHLQAT 4w9u-a1-m1-cA_4w9u-a1-m1-cD Crystal Structure of an Acyl-CoA dehydrogenase from Brucella melitensis Q2YPZ4 Q2YPZ4 2.4 X-RAY DIFFRACTION 37 0.997 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 362 375 4w9u-a1-m1-cC_4w9u-a1-m1-cB RAAFAWEDPFLLEEQLTEDERMIRDSAKAFASDVLLPRVEDPELFHLMGQAGLLGVTLPEDYGAANASYVAYGLVAREVERIDSGYRSMMSVQSSLVMYPIYAYGSDEQRKKYLPGLVSGELIGCFGLTEPMKTRAEKIDGGYRLSGSKMWISNSPIADVFVVWAKSAAHDNAIRGFILEKGMKGLSAPKIASITGEIVMDGVEVSEDAILPNVSGLKGPFGCLNRARYGISWGVLGAAEDCWFRARQYGLDRKQFNKPLAGTQLYQKKLADMQTEIALGIQASLRVGRLFDEGKMAPEMISIVKRNNCGKALDIARQARDMHGYHVMRHAQNLETVNTYEGTHDVHALILGRAQTGIQAFF AAFAWEDPFLLEEQLTEDERMIRDSAKAFASDVLLPRVETDPELFHLMGQAGLLGVTLPEDYGAANASYVAYGLVAREVERIDSGYRSMMSVQSSLVMYPIYAYGSDEQRKKYLPGLVSGELIGCFGLTEPDAGSAGMKTRAEKIDGGYRLSGSKMWISNSPIADVFVVWAKSAAHDNAIRGFILEKGMKGLSAPKIGGKSLRASITGEIVMDGVEVSEDAILPNVSGLKGPFGCLNRARYGISWGVLGAAEDCWFRARQYGLDRKQFNKPLAGTQLYQKKLADMQTEIALGIQASLRVGRLFDEGKMAPEMISIVKRNNCGKALDIARQARDMHGEYHVMRHAQNLETVNTYEGTHDVHALILGRAQTGIQAFF 4w9u-a1-m1-cC_4w9u-a1-m1-cD Crystal Structure of an Acyl-CoA dehydrogenase from Brucella melitensis Q2YPZ4 Q2YPZ4 2.4 X-RAY DIFFRACTION 173 0.995 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 365 375 4w9u-a1-m1-cA_4w9u-a1-m1-cB AAFAWEDPFLLEEQLTEDERMIRDSAKAFASDVLLPRVEKTDPELFHLMGQAGLLGVTLPEDYGAANASYVAYGLVAREVERIDSGYRSMMSVQSSLVMYPIYAYGSDEQRKKYLPGLVSGELIGCFGLTEPMKTRAEKIDGGYRLSGSKMWISNSPIADVFVVWAKSAAHDNAIRGFILEKGMKGLSAPKILRASITGEIVMDGVEVSEDAILPNVSGLKGPFGCLNRARYGISWGVLGAAEDCWFRARQYGLDRKQFNKPLAGTQLYQKKLADMQTEIALGIQASLRVGRLFDEGKMAPEMISIVKRNNCGKALDIARQARDMHGGHVMRHAQNLETVNTYEGTHDVHALILGRAQTGIQAFF AAFAWEDPFLLEEQLTEDERMIRDSAKAFASDVLLPRVETDPELFHLMGQAGLLGVTLPEDYGAANASYVAYGLVAREVERIDSGYRSMMSVQSSLVMYPIYAYGSDEQRKKYLPGLVSGELIGCFGLTEPDAGSAGMKTRAEKIDGGYRLSGSKMWISNSPIADVFVVWAKSAAHDNAIRGFILEKGMKGLSAPKIGGKSLRASITGEIVMDGVEVSEDAILPNVSGLKGPFGCLNRARYGISWGVLGAAEDCWFRARQYGLDRKQFNKPLAGTQLYQKKLADMQTEIALGIQASLRVGRLFDEGKMAPEMISIVKRNNCGKALDIARQARDMHGEYHVMRHAQNLETVNTYEGTHDVHALILGRAQTGIQAFF 4wai-a2-m1-cD_4wai-a2-m1-cC Structural characterization of the late competence protein ComFB from Bacillus subtilis. P39146 P39146 2.427 X-RAY DIFFRACTION 52 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 88 91 4wai-a1-m1-cB_4wai-a1-m1-cA MLVNSKEIVMKELLDRYMDQLHMACTCQVCQNDVLALSLNKVSPSYVTDFKKIAYTKAELVDKQKNTAMLVILAESAAVVSESPSDLC MLVNSKEIVMKELLDRYMDQLHMACTCQVCQNDVLALSLNKVSPSYVTDFKKIAYTKAELVDKQKNTAMLVILAESAAVVSESPSDLCQTK 4wbd-a1-m1-cA_4wbd-a1-m2-cA The crystal structure of BshC from Bacillus subtilis complexed with citrate and ADP P55342 P55342 1.77 X-RAY DIFFRACTION 94 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 540 540 HMQLTELSIKNQNVFVQHYIDGKEEMSSFFDYSIHHKDMWRERLEDLSSRFFAREELAAYLTSYHNKFGSSAMQSAIEKLKDPSSAAVVGGQQAGLLTGPLYTIHKIISIIVLAKQQEKELQVPVIPIFWVAGEDHDLDEINFVHTSEENGPVKKKLPQSYWKKSSAASTSLDQEKCAAWIDDVFAAFEETDHTNTLLDNVKRCLRESVTFTDFFELLIADLFQEEGLVLLNSGDPGIKKLETAMFQKILRENDELARAVSDQQAFMRQAGYKPIIESGKEQANLFYEYEDERFLIEKDNGRFVIKELDLGWTRDELHTHMEEHPERFSNNVVTRPLMQEFLIPTLAFIAGPGEINYWGELKQAFAVMGFKMPPVMPRLNITILERHIEKKLAERNISLQDAIERGTENQRETYFERQIPEEFTAVMDQAKSQIEAIHKTVRQEALKVDQSLEPLLLKNAAFIQDQLQFLERTVMKRIEEKEGYVLKDYERIQNSIKPLLAPQERIWNIMYYLNRYGPKFFTTFKNLPFSFQNQHQVVKL HMQLTELSIKNQNVFVQHYIDGKEEMSSFFDYSIHHKDMWRERLEDLSSRFFAREELAAYLTSYHNKFGSSAMQSAIEKLKDPSSAAVVGGQQAGLLTGPLYTIHKIISIIVLAKQQEKELQVPVIPIFWVAGEDHDLDEINFVHTSEENGPVKKKLPQSYWKKSSAASTSLDQEKCAAWIDDVFAAFEETDHTNTLLDNVKRCLRESVTFTDFFELLIADLFQEEGLVLLNSGDPGIKKLETAMFQKILRENDELARAVSDQQAFMRQAGYKPIIESGKEQANLFYEYEDERFLIEKDNGRFVIKELDLGWTRDELHTHMEEHPERFSNNVVTRPLMQEFLIPTLAFIAGPGEINYWGELKQAFAVMGFKMPPVMPRLNITILERHIEKKLAERNISLQDAIERGTENQRETYFERQIPEEFTAVMDQAKSQIEAIHKTVRQEALKVDQSLEPLLLKNAAFIQDQLQFLERTVMKRIEEKEGYVLKDYERIQNSIKPLLAPQERIWNIMYYLNRYGPKFFTTFKNLPFSFQNQHQVVKL 4wbe-a2-m1-cC_4wbe-a2-m1-cB Crystal structure of the HR-1 domain of human caprin-1 in the C121 space group Q14444 Q14444 2.05 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 120 4wbe-a1-m1-cA_4wbe-a1-m2-cA 4wbp-a1-m1-cB_4wbp-a1-m1-cA REQLMREEAEQKRLKTVLELQYVLDKLGDDEVRTDLKQGLNGVPILSEEELSLLDEFYKLVDPERDMSLRLNEQYEHASIHLWDLLEGKEKPVCGTTYKVLKEIVERVFQSNYFDSTHN RREQLMREEAEQKRLKTVLELQYVLDKLGDDEVRTDLKQGLNGVPILSEEELSLLDEFYKLVDPERDMSLRLNEQYEHASIHLWDLLEGKEKPVCGTTYKVLKEIVERVFQSNYFDSTHN 4wbh-a1-m1-cA_4wbh-a1-m1-cB STRUCTURE OF THE WNT DEACYLASE NOTUM - CRYSTAL FORM I APO - 2.2A Q6P988 Q6P988 2.2 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 347 351 NEDLRLHLLLNTSVTCNDGSPAGYYLKESRGSRRWLLFLEGGWYCFNRENCDSRYDTMRRLMSSRDWPRTRTGTGILSSQPEENPYWWNANMVFIPYCSSDVWSGASSKSEYAFMGALIIQEVVRELLGRGLSGAKVLLLAGSSAGGTGVLLNVDRVAEQLEKLGYPAIQVRGLADSGWFLDNKQYRHTDCVDTITCAPTEAIRRGIRYWNGVVPERCRRQFQEGEEWNCFFGYKVYPTLRCPVFVVQWLFDEAQLTVDNVHLPVQEGLRLYIQNLGRELRHTLKDVPASFAPACLSHEIIIRSHWTDVQVKGTSLPRALHCWDRSLCPVHLVDSCPWPHCNPSCPT NEDLRLHLLLNTSVTCNDGSPAGYYLKESRGSRRWLLFLEGGWYCFNRENCDSRYDTMRRLMSSRDWPRTRTGTGILSSQPEENPYWWNANMVFIPYCSSDVWSGASSKSNEYAFMGALIIQEVVRELLGRGLSGAKVLLLAGSSAGGTGVLLNVDRVAEQLEKLGYPAIQVRGLADSGWFLDNKQYRHTDCVDTITCAPTEAIRRGIRYWNGVVPERCRRQFQEGEEWNCFFGYKVYPTLRCPVFVVQWLFDEAQLTVDNVHLTGQPVQEGLRLYIQNLGRELRHTLKDVPASFAPACLSHEIIIRSHWTDVQVKGTSLPRALHCWDRSLCPVHLVDSCPWPHCNPSCPT 4wbq-a1-m1-cB_4wbq-a1-m1-cA Crystal structure of the exonuclease domain of QIP (QDE-2 interacting protein) solved by native-SAD phasing. A5JQJ3 A5JQJ3 2.693 X-RAY DIFFRACTION 166 0.983 5141 (Neurospora crassa) 5141 (Neurospora crassa) 173 174 EKSVVFVAIDLEAYELDQSIITEVGLAILDTAEITKNWFDFIKARHIRVKEFSWEYFDFGESEFIEVAKIASVLKETIEAKRPVVLVFHDQSQDLKYIRMLGYDVASADNILEVVDTREMYQYLSRSNNASKLSNVCGYLDIPWKNMHNAGNDAVYTLQAMMGLAIDMRQKSL KSVVFVAIDLEAYELDQSIITEVGLAILDTAEITKNWFDFIKARHIRVKEFSWAQEYFDFGESEFIEVAKIASVLKETIEGKRPVVLVFHDQSQDLKYIRMLGYDVASADNILEVVDTREMYQYLSRSNNASKLSNVCGYLDIPWNMHNAGNDAVYTLQAMMGLAIDMRQKSLE 4wbt-a2-m1-cB_4wbt-a2-m3-cB Crystal structure of histidinol-phosphate aminotransferase from Sinorhizobium meliloti in complex with pyridoxal-5'-phosphate Q92R63 Q92R63 1.6 X-RAY DIFFRACTION 259 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 361 361 4wbt-a1-m2-cC_4wbt-a1-m1-cA SSAFSRFTPLIQSLPFVGPEALERQHGRKIAARIGANESGFGPAPSVLLAIRQAAGDTWKYADPENHDLKQALARHLGTSPANIAIGEGIDGLLGQIVRLVVEAGAPVVTSLGGYPTFNYHVAGHGGRLVTVPYADDREDLEGLLAAVGRENAPLVYLANPDNPGSWWPAERVVAFAQALPETTLLVLDEAYETAPRDALPPIESLIDKPNVIRARTFSKAYGLAGARIGYTLSTPGTAQAFDKIRNHFGSRIGVAAAIAALADQDYLKEVTLKIANSRQRIGRIAADSGLAPLPSATNFVAVDCGKDASYARAIVDRLSDHGIFIRPGVAPLNRCIRISTAPDAEDLLAAALPEVIRSLA SSAFSRFTPLIQSLPFVGPEALERQHGRKIAARIGANESGFGPAPSVLLAIRQAAGDTWKYADPENHDLKQALARHLGTSPANIAIGEGIDGLLGQIVRLVVEAGAPVVTSLGGYPTFNYHVAGHGGRLVTVPYADDREDLEGLLAAVGRENAPLVYLANPDNPGSWWPAERVVAFAQALPETTLLVLDEAYETAPRDALPPIESLIDKPNVIRARTFSKAYGLAGARIGYTLSTPGTAQAFDKIRNHFGSRIGVAAAIAALADQDYLKEVTLKIANSRQRIGRIAADSGLAPLPSATNFVAVDCGKDASYARAIVDRLSDHGIFIRPGVAPLNRCIRISTAPDAEDLLAAALPEVIRSLA 4wbx-a1-m1-cC_4wbx-a1-m4-cC Conserved hypothetical protein PF1771 from Pyrococcus furiosus solved by sulfur SAD using Swiss Light Source data Q8U046 Q8U046 2.301 X-RAY DIFFRACTION 105 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 298 298 4wbx-a1-m2-cC_4wbx-a1-m3-cC RFPFPVGEPDFIQGDEAIARAAILAGCRFYAGYPITPASEIFEAMALYMPLVDGVVIQMEDEIASIAAAIGASWAGAKAMTATSGPGFSLMQENIGYAVMTETPVVIVDVQRSGLPAQGDIMQAIWGTHGDHSLIVLSPSTVQEAFDFTIRAFNLSEKYRTPVILLTDAEVGHMRERVYIPNPDEIEIINRLIKRIVEKIEKNKKDIFTYETYELEDAVATGIVARSALLLKIETIWPFDFELIERIAERVDKLYVPEMNLGQLYHLIKEGANGKAEVKLISKIGGEVHTPMEIFEFI RFPFPVGEPDFIQGDEAIARAAILAGCRFYAGYPITPASEIFEAMALYMPLVDGVVIQMEDEIASIAAAIGASWAGAKAMTATSGPGFSLMQENIGYAVMTETPVVIVDVQRSGLPAQGDIMQAIWGTHGDHSLIVLSPSTVQEAFDFTIRAFNLSEKYRTPVILLTDAEVGHMRERVYIPNPDEIEIINRLIKRIVEKIEKNKKDIFTYETYELEDAVATGIVARSALLLKIETIWPFDFELIERIAERVDKLYVPEMNLGQLYHLIKEGANGKAEVKLISKIGGEVHTPMEIFEFI 4wbx-a1-m3-cC_4wbx-a1-m4-cC Conserved hypothetical protein PF1771 from Pyrococcus furiosus solved by sulfur SAD using Swiss Light Source data Q8U046 Q8U046 2.301 X-RAY DIFFRACTION 87 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 298 298 4wbx-a1-m1-cC_4wbx-a1-m2-cC RFPFPVGEPDFIQGDEAIARAAILAGCRFYAGYPITPASEIFEAMALYMPLVDGVVIQMEDEIASIAAAIGASWAGAKAMTATSGPGFSLMQENIGYAVMTETPVVIVDVQRSGLPAQGDIMQAIWGTHGDHSLIVLSPSTVQEAFDFTIRAFNLSEKYRTPVILLTDAEVGHMRERVYIPNPDEIEIINRLIKRIVEKIEKNKKDIFTYETYELEDAVATGIVARSALLLKIETIWPFDFELIERIAERVDKLYVPEMNLGQLYHLIKEGANGKAEVKLISKIGGEVHTPMEIFEFI RFPFPVGEPDFIQGDEAIARAAILAGCRFYAGYPITPASEIFEAMALYMPLVDGVVIQMEDEIASIAAAIGASWAGAKAMTATSGPGFSLMQENIGYAVMTETPVVIVDVQRSGLPAQGDIMQAIWGTHGDHSLIVLSPSTVQEAFDFTIRAFNLSEKYRTPVILLTDAEVGHMRERVYIPNPDEIEIINRLIKRIVEKIEKNKKDIFTYETYELEDAVATGIVARSALLLKIETIWPFDFELIERIAERVDKLYVPEMNLGQLYHLIKEGANGKAEVKLISKIGGEVHTPMEIFEFI 4wc8-a1-m1-cC_4wc8-a1-m1-cK Heterogeneous dodecamer formed from macrocycles containing a sequence from beta-2-microglobulin(63-69). P61769 P61769 1.908 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 YLLYTEKVAAVK YLLYTEKVAAVK 4wc8-a1-m1-cD_4wc8-a1-m1-cI Heterogeneous dodecamer formed from macrocycles containing a sequence from beta-2-microglobulin(63-69). P61769 P61769 1.908 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 YLLYTEKVAAVK YLLYTEKVAAVK 4wc8-a1-m1-cH_4wc8-a1-m1-cL Heterogeneous dodecamer formed from macrocycles containing a sequence from beta-2-microglobulin(63-69). P61769 P61769 1.908 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 YLLYTEKVAAVK YLLYTEKVAAVK 4wcg-a1-m1-cA_4wcg-a1-m1-cB The binding mode of Cyprinid Herpesvirus3 ORF112-Zalpha to Z-DNA A4FTK7 A4FTK7 1.5 X-RAY DIFFRACTION 24 1.0 180230 (Cyprinid herpesvirus 3) 180230 (Cyprinid herpesvirus 3) 61 61 PISEEMNLKILAYLGTKQGAKAVHIAQSLGAQRSEVNRHLYRMSEDGRVRKHPQHPVWYLP PISEEMNLKILAYLGTKQGAKAVHIAQSLGAQRSEVNRHLYRMSEDGRVRKHPQHPVWYLP 4wcw-a2-m1-cC_4wcw-a2-m1-cD Ribosomal silencing factor during starvation or stationary phase (RsfS) from Mycobacterium tuberculosis O86327 O86327 2.1 X-RAY DIFFRACTION 41 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 117 117 4wcw-a1-m1-cB_4wcw-a1-m1-cA TANREAIDMARVAAGAAAAKLADDVVVIDVSGQLVITDCFVIASGSNERQVNAIVDEVEEKMRQAGYRPARREGAREGRWTLLDYRDIVVHIQHQDDRNFAALDRLWGDCPVVPVDL TANREAIDMARVAAGAAAAKLADDVVVIDVSGQLVITDCFVIASGSNERQVNAIVDEVEEKMRQAGYRPARREGAREGRWTLLDYRDIVVHIQHQDDRNFAALDRLWGDCPVVPVDL 4wcz-a2-m1-cE_4wcz-a2-m1-cF Crystal structure of a putative enoyl-CoA hydratase/isomerase from Novosphingobium aromaticivorans A4XEF6 A4XEF6 1.82 X-RAY DIFFRACTION 127 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 244 245 4wcz-a1-m1-cA_4wcz-a1-m1-cB 4wcz-a1-m1-cA_4wcz-a1-m1-cC 4wcz-a1-m1-cB_4wcz-a1-m1-cC 4wcz-a2-m1-cD_4wcz-a2-m1-cE 4wcz-a2-m1-cD_4wcz-a2-m1-cF SLRLERDGAVARLLIDRADRRNAFSLDWQRLPELLAEASGDDALRVLVVKSANGGAFCAGADIAELLANKDDAAFHAANQQAINRAQYELARFRLPTVAVEGDCIGGGCGIALACDRIAAPAARFGITPAKLGLVYPLHDVKLLVDLVGPGQARRLFTGGLIDANEAHRIGLVELLGESEDALVGQLATVSSFSTQAIKSFVRRVLDGQVADDADSLRVFASAFEGADFREGTGAFLEKRPPVF SSLRLERDGAVARLLIDRADRRNAFSLDWQRLPELLAEASGDDALRVLVVKSANGGAFCAGADIAELLANKDDAAFHAANQQAINRAQYELARFRLPTVAVEGDCIGGGCGIALACDRIAAPAARFGITPAKLGLVYPLHDVKLLVDLVGPGQARRLFTGGLIDANEAHRIGLVELLGESEDALVGQLATVSSFSTQAIKSFVRRVLDGQVADDADSLRVFASAFEGADFREGTGAFLEKRPPVF 4wd0-a1-m2-cA_4wd0-a1-m6-cA Crystal structure of HisAp form Arthrobacter aurescens A1R562 A1R562 1.5 X-RAY DIFFRACTION 64 1.0 43663 (Paenarthrobacter aurescens) 43663 (Paenarthrobacter aurescens) 230 230 4wd0-a1-m1-cA_4wd0-a1-m5-cA 4wd0-a1-m1-cA_4wd0-a1-m6-cA 4wd0-a1-m2-cA_4wd0-a1-m4-cA 4wd0-a1-m3-cA_4wd0-a1-m4-cA 4wd0-a1-m3-cA_4wd0-a1-m5-cA QSVLELLPAVDIVDGQAVRLLETSYGTPLEAALNWQNDGAEWVHMVDLDAAFGNNAALISDVVSQLNVKVELSGGLRDDESLERALELGVARVNLGTAALENPEWTRKAIDRFGDKIAVGLDVRGTTLAGRGWTKEGGDLWEVLARLEDAGCARYVVTDVTKDGPNVELLRQMVEKTGKPVVASGGISSLEDLRVLRELVPLGVEGAIVGKALYAGAFTLPEALDVAGRR QSVLELLPAVDIVDGQAVRLLETSYGTPLEAALNWQNDGAEWVHMVDLDAAFGNNAALISDVVSQLNVKVELSGGLRDDESLERALELGVARVNLGTAALENPEWTRKAIDRFGDKIAVGLDVRGTTLAGRGWTKEGGDLWEVLARLEDAGCARYVVTDVTKDGPNVELLRQMVEKTGKPVVASGGISSLEDLRVLRELVPLGVEGAIVGKALYAGAFTLPEALDVAGRR 4wd2-a1-m1-cA_4wd2-a1-m2-cA Crystal structure of an aromatic amino acid aminotransferase from Burkholderia cenocepacia J2315 1.95 X-RAY DIFFRACTION 200 1.0 985076 (Burkholderia cenocepacia K56-2Valvano) 985076 (Burkholderia cenocepacia K56-2Valvano) 397 397 HMFEHIDAYPGDPILTLNENFQKDPRDQKVNLSIGIYFDAEGRIPVMGAVREAETALQRDSGPKPYLPMVGLAAYRDAVQSLVFGADHPARAAGRIATLQTLGGSGALKVGADFLKRYFPDSQVWLSDPSWENHRFIFERAGFTVNTYPYYDEATGGLKFDAMLAAIDALPARSIVLLHACCHNPTGVDLDEGQWEKLIDVIEARELLPFVDMAYQGFGAGLDADAFAVRELARRGVPTLVANSFSNFSLYGERVGGLSVVCEDAAAAERVLGQLAGAVRSNYSNPQTYGAKVVAAVLGTPALRKQWEEELSAMCRRIARMRQSIHDGLRDHVALTRYVKQRGMFTYTGLTESQVDALREVHGVYILRSGRMCVAGLNDSNVGIVADAIGKVLKSGA HMFEHIDAYPGDPILTLNENFQKDPRDQKVNLSIGIYFDAEGRIPVMGAVREAETALQRDSGPKPYLPMVGLAAYRDAVQSLVFGADHPARAAGRIATLQTLGGSGALKVGADFLKRYFPDSQVWLSDPSWENHRFIFERAGFTVNTYPYYDEATGGLKFDAMLAAIDALPARSIVLLHACCHNPTGVDLDEGQWEKLIDVIEARELLPFVDMAYQGFGAGLDADAFAVRELARRGVPTLVANSFSNFSLYGERVGGLSVVCEDAAAAERVLGQLAGAVRSNYSNPQTYGAKVVAAVLGTPALRKQWEEELSAMCRRIARMRQSIHDGLRDHVALTRYVKQRGMFTYTGLTESQVDALREVHGVYILRSGRMCVAGLNDSNVGIVADAIGKVLKSGA 4wd3-a1-m1-cA_4wd3-a1-m1-cB Crystal structure of an L-amino acid ligase RizA B5UAT8 B5UAT8 2.8 X-RAY DIFFRACTION 73 1.0 135461 (Bacillus subtilis subsp. subtilis) 135461 (Bacillus subtilis subsp. subtilis) 378 378 VRILLINSDKPEPIQFFQKDKETNDSINISVITRSCYAPLYSHWADHVYIVDDVTDLTVKSLLEILKVGPIDHIVSTTEKSILTGGFLRSYFGIAGPGFETALYTNKLAKTKLKEGIPVADFLCVSQVEDIPAAGEKLGWPIIVKPALGSGALNTFIIHSLDHYEDLYSTSGGLGELKKNNSLIAEKCIEEEFHCDTLYADGEILFVSISKYTIQGSFILSQNDPVYAEILELQKSVAQAFRITDGPGHLEIYRTHSGELIVGEIARIGGGGISRIEKKFNISLWESSLNISVYRDPNLTVNPIEGTVGYFSLPCRNGTIKEFTPIEEWEKLAGILEVELLYQEGDVVDLARLYFCLENENEVQHLLALVKQTYYLHL VRILLINSDKPEPIQFFQKDKETNDSINISVITRSCYAPLYSHWADHVYIVDDVTDLTVKSLLEILKVGPIDHIVSTTEKSILTGGFLRSYFGIAGPGFETALYTNKLAKTKLKEGIPVADFLCVSQVEDIPAAGEKLGWPIIVKPALGSGALNTFIIHSLDHYEDLYSTSGGLGELKKNNSLIAEKCIEEEFHCDTLYADGEILFVSISKYTIQGSFILSQNDPVYAEILELQKSVAQAFRITDGPGHLEIYRTHSGELIVGEIARIGGGGISRIEKKFNISLWESSLNISVYRDPNLTVNPIEGTVGYFSLPCRNGTIKEFTPIEEWEKLAGILEVELLYQEGDVVDLARLYFCLENENEVQHLLALVKQTYYLHL 4wd9-a1-m1-cB_4wd9-a1-m1-cA Crystal structure of tRNA-dependent lantibiotic dehydratase NisB in complex with NisA leader peptide P20103 P20103 2.9 X-RAY DIFFRACTION 144 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 962 965 SFKAQPFLVRNTILCPNDKRSFTEYTQVIETVSKNKVFLEQLLLANPKLYDVMQKYNAGLLKKKRVKKLFESIYKYYKRSYLRSTPFGLFSETSIGVFSKSSQYKLMGKTTKGIRLDTQWLIRLVHKMEVDFSKKLSFTRNNANYKFGDRVFQVYTINSSELEEVNIKYTNVYQIISEFCENDYQKYEDICETVTLCYGDEYRELSEQYLGSLIVNHYLISNLQKDLLSDFSWNTFLTKVEAIDEDKKYIIPLKKVQKFIQEYSEIEIGEGIEKLKEIYQEMSQILENDNYIQIDLISDSEINFDVKQKQQLEHLAEFLGNTTKSVRRTYLDDYKDKFIEKYGVDQEVQITELFDSTFGIGAPYNYNHPRNDFYESEPSTLYYSEEEREKYLSMYVEAVKNHNVINLDDLESHYQKMDLEKKSELQGLELFLNLAKEYEKDIFILGDIVGNNNLGGASGRFSALSPELTSYHRTIVDSVERENENKEITSCEIVFLPENIRHANVMHTSIMRRKVLPFFTSTSHNEVLLTNIYIGIDEKEKFYARDISTQEVLKFYITSMYNKTLFSNELRFLYEISLDDKFGNLPWELIYRDFDYIPRLVFDEIVISPAKWKIWGRDVNSKMTIRELIQSKEIPKEFYIVNGDNKVYLSQKNPLDMEILESAIKKSSKRKDFIELQEYFEDENIINKGEKGRVADVVVPFIRAFIREKRVSVERREKLPFNEWLYLKLYISINRQNEFLLSYLPDIQKIVANLGGNLFFLRYTDPKPHIRLRIKCSDLFLAYGSILEILKRSRKNRIMSTFDISIYDQEVERYGGFDTLELSEAIFCADSKIIPNLLTLIKDTNNDWKVDDVSILVNYLYLKCFFQNDNKKILNFLNLVIFYDKNFKELKHAIKNLFLKMIAQDFELQKVYSIIDSIIHVHNNRLIGIERDKEKLIYYTLQRLFVSEETKDFNLDLVSVSK SFKAQPFLVRNTILCPNDKRSFTEYTQVIETVSKNKVFLEQLLLANPKLYDVMQKYNAGLLKKKRVKKLFESIYKYYKRSYLRSTPFGLFSETSIGVFSKSSQYKLMGKTTKGIRLDTQWLIRLVHKMEVDFSKKLSFTRNNANYKFGDRVFQVYTINSSELEEVNIKYTNVYQIISEFCENDYQKYEDICETVTLCYGDEYRELSEQYLGSLIVNHYLISNLQKDLLSDFSWNTFLTKVEAIDEDKKYIIPLKKVQKFIQEYSEIEIGEGIEKLKEIYQEMSQILENDNYIQIDLISDSEINFDVKQKQQLEHLAEFLGNTTKSVRRTYLDDYKDKFIEKYGVDQEVQITELFDSTFGIGAPYNYNHPRNDFYESEPSTLYYSEEEREKYLSMYVEAVKNHNVINLDDLESHYQKMDLEKKSELQGLELFLNLAKEYEKDIFILGDIVGNNNLGGASGRFSALSPELTSYHRTIVDSVERENENKEITSCEIVFLPENIRHANVMHTSIMRRKVLPFFTSTSHNEVLLTNIYIGIDEKEKFYARDISTQEVLKFYITSMYNKTLFSNELRFLYEISLDDKFGNLPWELIYRDFDYIPRLVFDEIVISPAKWKIWGRDVNSKMTIRELIQSKEIPKEFYIVNGDNKVYLSQKNPLDMEILESAIKKSSKRKDFIELQEYFEDENIINKGEKGRVADVVVPFIRAFIREKRVSVERREKLPFNEWLYLKLYISINRQNEFLLSYLPDIQKIVANLGGNLFFLRYTDPKPHIRLRIKCSDLFLAYGSILEILKRSRKNRIMSTFDISIYDQEVERYGGFDTLELSEAIFCADSKIIPNLLTLIKDTNNDWKVDDVSILVNYLYLKCFFQNDNKKILNFLNLVGDQIFYDKNFKELKHAIKNLFLKMIAQDFELQKVYSIIDSIIHVHNNRLIGIERDKEKLIYYTLQRLFVSEETKDFNLDLVSVSK 4wec-a1-m1-cB_4wec-a1-m1-cD Crystal structure of a Short chain dehydrogenase from Mycobacterium smegmatis A0QVJ7 A0QVJ7 1.55 X-RAY DIFFRACTION 139 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 254 258 4wec-a1-m1-cC_4wec-a1-m1-cA TQRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL SMDLTQRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL 4wec-a1-m1-cC_4wec-a1-m1-cD Crystal structure of a Short chain dehydrogenase from Mycobacterium smegmatis A0QVJ7 A0QVJ7 1.55 X-RAY DIFFRACTION 130 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 253 258 4wec-a1-m1-cB_4wec-a1-m1-cA QRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL SMDLTQRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL 4wec-a2-m2-cB_4wec-a2-m1-cA Crystal structure of a Short chain dehydrogenase from Mycobacterium smegmatis A0QVJ7 A0QVJ7 1.55 X-RAY DIFFRACTION 35 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 254 258 TQRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL SMDLTQRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL 4wec-a2-m2-cC_4wec-a2-m2-cB Crystal structure of a Short chain dehydrogenase from Mycobacterium smegmatis A0QVJ7 A0QVJ7 1.55 X-RAY DIFFRACTION 49 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 253 254 4wec-a1-m1-cA_4wec-a1-m1-cD 4wec-a1-m1-cC_4wec-a1-m1-cB 4wec-a2-m1-cA_4wec-a2-m1-cD QRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL TQRLAGKVAVITGGASGIGLATGRRLRAEGATVVVGDIDPTTGKAAADELEGLFVPVDVSEQEAVDNLFDTAASTFGRVDIAFNNAGISPPEDDLIENTDLPAWQRVQDINLKSVYLSCRAALRHMVPAGKGSIINTASFVAVMGSATSQISYTASKGGVLAMSRELGVQYARQGIRVNALCPGPVNTPLLQELFAKDPERAARRLVHIPLGRFAEPEELAAAVAFLASDDASFITGSTFLVDGGISSAYVTPL 4weo-a1-m1-cA_4weo-a1-m1-cD Crystal Structure of a Putative acetoin(Diacetyl) Reductase Burkholderia cenocepacia B4EAZ8 B4EAZ8 1.85 X-RAY DIFFRACTION 99 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 238 241 4weo-a1-m1-cB_4weo-a1-m1-cC APLEGQVAIVTGGARGIGRGIALTLAGAGANILLADLLDDALDATAREVRALGRRAAIAKVDVTQAAQVDAMVAQALADLGGLDILVNCAGVISIHPVAELTERDWDFVMNVNAKGTFLGCRAALAHLKAQGRGRIINVASIAGKEGFPNLAHYSASKFAVVGFTNALAKELARDGVTVNAICPGIVREQSWQRHQLTLIPQGRAQTPEDMGRLALFFATMDNVTGQAVNVDGGFTFH APLEGQVAIVTGGARGIGRGIALTLAGAGANILLADLLDDALDATAREVRALGRRAAIAKVDVTQAAQVDAMVAQALADLGGLDILVNCAGVISIHPVAELTERDWDFVMNVNAKGTFLGCRAALAHLKAQGRGRIINVASIAGKEGFPNLAHYSASKFAVVGFTNALAKELARDGVTVNAICPGIVRTSVEQSWQRHQLTLIPQGRAQTPEDMGRLALFFATMDNVTGQAVNVDGGFTFH 4weo-a1-m1-cC_4weo-a1-m1-cD Crystal Structure of a Putative acetoin(Diacetyl) Reductase Burkholderia cenocepacia B4EAZ8 B4EAZ8 1.85 X-RAY DIFFRACTION 129 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 240 241 4weo-a1-m1-cA_4weo-a1-m1-cB APLEGQVAIVTGGARGIGRGIALTLAGAGANILLADLLDDALDATAREVRALGRRAAIAKVDVTQAAQVDAMVAQALADLGGLDILVNCAGVISIHPVAELTERDWDFVMNVNAKGTFLGCRAALAHLKAQGRGRIINVASIAGKEGFPNLAHYSASKFAVVGFTNALAKELARDGVTVNAICPGIVRTVEQSWQRHQLTLIPQGRAQTPEDMGRLALFFATMDNVTGQAVNVDGGFTFH APLEGQVAIVTGGARGIGRGIALTLAGAGANILLADLLDDALDATAREVRALGRRAAIAKVDVTQAAQVDAMVAQALADLGGLDILVNCAGVISIHPVAELTERDWDFVMNVNAKGTFLGCRAALAHLKAQGRGRIINVASIAGKEGFPNLAHYSASKFAVVGFTNALAKELARDGVTVNAICPGIVRTSVEQSWQRHQLTLIPQGRAQTPEDMGRLALFFATMDNVTGQAVNVDGGFTFH 4wer-a1-m1-cA_4wer-a1-m2-cA Crystal structure of diacylglycerol kinase catalytic domain protein from Enterococcus faecalis V583 Q830X4 Q830X4 2.05 X-RAY DIFFRACTION 102 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 281 281 AKKAVLIVNPSSGGEKAKEFETLAEEKLKQLFDEVVVKQTEKGGDAEQFAREAAESHFDSVFVGGDGTVNEGISGLAEQAYRPKFGFFPLGTVNDLARALNLPDPEEAIQQLDLEKTSALDVGKINDDYFNVVAIGTIKLGKLAYFISGAKHLANAQTYPFHLSLDQKEQTIESSTVLVGLTNSIGGFETLLPEAQVDDGKLHLVYLKDQSLWDAVKAVPDLLKGVDQSTDNLVYLTFKEGTISLENQEELTTNVDGDEGAALPITLKILPKHLTVYCGEE AKKAVLIVNPSSGGEKAKEFETLAEEKLKQLFDEVVVKQTEKGGDAEQFAREAAESHFDSVFVGGDGTVNEGISGLAEQAYRPKFGFFPLGTVNDLARALNLPDPEEAIQQLDLEKTSALDVGKINDDYFNVVAIGTIKLGKLAYFISGAKHLANAQTYPFHLSLDQKEQTIESSTVLVGLTNSIGGFETLLPEAQVDDGKLHLVYLKDQSLWDAVKAVPDLLKGVDQSTDNLVYLTFKEGTISLENQEELTTNVDGDEGAALPITLKILPKHLTVYCGEE 4wes-a1-m1-cB_4wes-a1-m1-cD Nitrogenase molybdenum-iron protein from Clostridium pasteurianum at 1.08 A resolution P11347 P11347 1.08 X-RAY DIFFRACTION 130 1.0 1262449 (Clostridium pasteurianum DSM 525 = ATCC 6013) 1262449 (Clostridium pasteurianum DSM 525 = ATCC 6013) 458 458 1mio-a1-m1-cB_1mio-a1-m1-cD 4wn9-a1-m1-cB_4wn9-a1-m1-cD 5vpw-a1-m1-cB_5vpw-a1-m1-cD 5vq3-a1-m1-cB_5vq3-a1-m1-cD MLDATPKEIVERKALRINPAKTCQPVGAMYAALGIHNCLPHSHGSQGCCSYHRTVLSRHFKEPAMASTSSFTEGASVFGGGSNIKTAVKNIFSLYNPDIIAVHTTCLSETLGDDLPTYISQMEDAGSIPEGKLVIHTNTPSYVGSHVTGFANMVQGIVNYLSENTGAKNGKINVIPGFVGPADMREIKRLFEAMDIPYIMFPDTSGVLDGPTTGEYKMYPEGGTKIEDLKDTGNSDLTLSLGSYASDLGAKTLEKKCKVPFKTLRTPIGVSATDEFIMALSEATGKEVPASIEEERGQLIDLMIDAQQYLQGKKVALLGDPDEIIALSKFIIELGAIPKYVVTGTPGMKFQKEIDAMLAEAGIEGSKVKVEGDFFDVHQWIKNEGVDLLISNTYGKFIAREENIPFVRFGFPIMDRYGHYYNPKVGYKGAIRLVEEITNVILDKIERECTEEDFEVVR MLDATPKEIVERKALRINPAKTCQPVGAMYAALGIHNCLPHSHGSQGCCSYHRTVLSRHFKEPAMASTSSFTEGASVFGGGSNIKTAVKNIFSLYNPDIIAVHTTCLSETLGDDLPTYISQMEDAGSIPEGKLVIHTNTPSYVGSHVTGFANMVQGIVNYLSENTGAKNGKINVIPGFVGPADMREIKRLFEAMDIPYIMFPDTSGVLDGPTTGEYKMYPEGGTKIEDLKDTGNSDLTLSLGSYASDLGAKTLEKKCKVPFKTLRTPIGVSATDEFIMALSEATGKEVPASIEEERGQLIDLMIDAQQYLQGKKVALLGDPDEIIALSKFIIELGAIPKYVVTGTPGMKFQKEIDAMLAEAGIEGSKVKVEGDFFDVHQWIKNEGVDLLISNTYGKFIAREENIPFVRFGFPIMDRYGHYYNPKVGYKGAIRLVEEITNVILDKIERECTEEDFEVVR 4wfh-a1-m1-cB_4wfh-a1-m1-cA Human TRAAK K+ channel in a Tl+ bound nonconductive conformation Q9NYG8 Q9NYG8 3.01 X-RAY DIFFRACTION 323 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 243 253 4i9w-a1-m1-cA_4i9w-a1-m1-cB 4ruf-a1-m1-cB_4ruf-a1-m1-cA 4wfe-a1-m1-cA_4wfe-a1-m1-cB 4wff-a1-m1-cA_4wff-a1-m1-cB 4wfg-a1-m1-cA_4wfg-a1-m1-cB 7lj4-a1-m1-cA_7lj4-a1-m1-cB 7lj5-a1-m1-cA_7lj5-a1-m1-cB 7lja-a1-m1-cA_7lja-a1-m1-cB 7ljb-a1-m1-cB_7ljb-a1-m1-cA RSTTLLALLALVLLYLVSGALVFRALEQPHEQQAQRELGEVREKFLRAHPCVSDQELGLLIKEVADALGGGADPETQSSHSAWDLGSAFFFSGTIITTIGYGNVALRTDAGRLFCIFYALVGIPLFGILLAGVGDRLGSSLRHGIGHIEAIFLKWHVPPELVRVLSAMLFLLIGCLLFVLTPTFVFCYMEDWSKLEAIYFVIVTLTTVGFGDYVAGADPRQDSPAYQPLVWFWILLGLAYFAS RSTTLLALLALVLLYLVSGALVFRALEQPHEQQAQRELGEVREKFLRAHPCVSDQELGLLIKEVADALGGGADPETSHSAWDLGSAFFFSGTIITTIGYGNVALRTDAGRLFCIFYALVGIPLFGILLAGVGDRLGSSLRHGIGHIEAIFLKWHVPPELVRVLSAMLFLLIGCLLFVLTPTFVFCYMEDWSKLEAIYFVIVTLTTVGFGDYVAGADPRQDSPAYQPLVWFWILLGLAYFASVLTTIGNWLRVV 4wg0-a1-m1-cH_4wg0-a1-m1-cI Crystal structure of a tridecameric superhelix Q15596 Q15596 1.82 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 12 13 4wg0-a1-m1-cB_4wg0-a1-m1-cC 4wg0-a1-m1-cD_4wg0-a1-m1-cE 4wg0-a1-m1-cF_4wg0-a1-m1-cG 4wg0-a1-m1-cJ_4wg0-a1-m1-cK EKNALLRYLLDK EKNALLRYLLDKD 4wg0-a1-m1-cL_4wg0-a1-m1-cM Crystal structure of a tridecameric superhelix Q15596 Q15596 1.82 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 EKNALLRYLLDKD EKNALLRYLLDKD 4wh5-a1-m1-cA_4wh5-a1-m1-cB Crystal structure of lincosamide antibiotic adenylyltransferase LnuA, lincomycin-bound P06107 P06107 1.82 X-RAY DIFFRACTION 37 1.0 1283 (Staphylococcus haemolyticus) 1283 (Staphylococcus haemolyticus) 155 155 NNVTEKELFYILDLFEHKVTYWLDGGWGVDVLTGKQQREHRDIDIDFDAQHTQKVIQKLEDIGYKIEVHWPSRELKHEEYGYLDIHPINLNDDGSITQANPEGGNYVFQNDWFSETNYKDRKIPCISKEAQLLFHSGYDLTETDHFDIKNLKSIT NNVTEKELFYILDLFEHKVTYWLDGGWGVDVLTGKQQREHRDIDIDFDAQHTQKVIQKLEDIGYKIEVHWPSRELKHEEYGYLDIHPINLNDDGSITQANPEGGNYVFQNDWFSETNYKDRKIPCISKEAQLLFHSGYDLTETDHFDIKNLKSIT 4whb-a2-m1-cF_4whb-a2-m2-cH Crystal structure of phenylurea hydrolase B B8R4K0 B8R4K0 2.958 X-RAY DIFFRACTION 96 1.0 146020 (Mycolicibacterium brisbanense) 146020 (Mycolicibacterium brisbanense) 459 459 4whb-a1-m1-cB_4whb-a1-m2-cE 4whb-a1-m1-cG_4whb-a1-m2-cD 4whb-a2-m1-cA_4whb-a2-m2-cC STIAITNVTLIDGLGGLPRPATTVIVEGDRFATVGPSDSTPVPEGATVVDGNRRWMVPGYVNGNVHLLDAWMFMAGPGTIEYLARWEGRYVEVIEEAAQLALRNGVTTVFDTHNAIEPVLAARDRINAGISQGARIFAAGTIVGMGGPFSADFHFAGRTAATRTFVDRIDSMFEAGVGHQLSLLPRKEVRARVRDYLSRGVDMLKIAVSDHIVFTLVDRSVGFDRSYQTFSRPVLEVMVEEARAAGVPVLTHSVSVEALDTSVELGADVLIHANYTLGQEIPNYLIDKIVASDSWAGLQTVHDQHRQGLEDVGSWAAALAGEPYATNERNLISANAKILLNTDAGCPSKDHLADLSPVEREDRPWTIGNDHFHWTQSMVEKGMSPLEAISAATINVARAYGKADQIGSVETGKLADFVLLDQDPVDDIRNLRSITEVFQAGAAVDRAALPTTPLVTAHP STIAITNVTLIDGLGGLPRPATTVIVEGDRFATVGPSDSTPVPEGATVVDGNRRWMVPGYVNGNVHLLDAWMFMAGPGTIEYLARWEGRYVEVIEEAAQLALRNGVTTVFDTHNAIEPVLAARDRINAGISQGARIFAAGTIVGMGGPFSADFHFAGRTAATRTFVDRIDSMFEAGVGHQLSLLPRKEVRARVRDYLSRGVDMLKIAVSDHIVFTLVDRSVGFDRSYQTFSRPVLEVMVEEARAAGVPVLTHSVSVEALDTSVELGADVLIHANYTLGQEIPNYLIDKIVASDSWAGLQTVHDQHRQGLEDVGSWAAALAGEPYATNERNLISANAKILLNTDAGCPSKDHLADLSPVEREDRPWTIGNDHFHWTQSMVEKGMSPLEAISAATINVARAYGKADQIGSVETGKLADFVLLDQDPVDDIRNLRSITEVFQAGAAVDRAALPTTPLVTAHP 4whb-a2-m2-cC_4whb-a2-m2-cH Crystal structure of phenylurea hydrolase B B8R4K0 B8R4K0 2.958 X-RAY DIFFRACTION 80 1.0 146020 (Mycolicibacterium brisbanense) 146020 (Mycolicibacterium brisbanense) 459 459 4whb-a1-m1-cB_4whb-a1-m1-cG 4whb-a1-m2-cD_4whb-a1-m2-cE 4whb-a2-m1-cA_4whb-a2-m1-cF STIAITNVTLIDGLGGLPRPATTVIVEGDRFATVGPSDSTPVPEGATVVDGNRRWMVPGYVNGNVHLLDAWMFMAGPGTIEYLARWEGRYVEVIEEAAQLALRNGVTTVFDTHNAIEPVLAARDRINAGISQGARIFAAGTIVGMGGPFSADFHFAGRTAATRTFVDRIDSMFEAGVGHQLSLLPRKEVRARVRDYLSRGVDMLKIAVSDHIVFTLVDRSVGFDRSYQTFSRPVLEVMVEEARAAGVPVLTHSVSVEALDTSVELGADVLIHANYTLGQEIPNYLIDKIVASDSWAGLQTVHDQHRQGLEDVGSWAAALAGEPYATNERNLISANAKILLNTDAGCPSKDHLADLSPVEREDRPWTIGNDHFHWTQSMVEKGMSPLEAISAATINVARAYGKADQIGSVETGKLADFVLLDQDPVDDIRNLRSITEVFQAGAAVDRAALPTTPLVTAHP STIAITNVTLIDGLGGLPRPATTVIVEGDRFATVGPSDSTPVPEGATVVDGNRRWMVPGYVNGNVHLLDAWMFMAGPGTIEYLARWEGRYVEVIEEAAQLALRNGVTTVFDTHNAIEPVLAARDRINAGISQGARIFAAGTIVGMGGPFSADFHFAGRTAATRTFVDRIDSMFEAGVGHQLSLLPRKEVRARVRDYLSRGVDMLKIAVSDHIVFTLVDRSVGFDRSYQTFSRPVLEVMVEEARAAGVPVLTHSVSVEALDTSVELGADVLIHANYTLGQEIPNYLIDKIVASDSWAGLQTVHDQHRQGLEDVGSWAAALAGEPYATNERNLISANAKILLNTDAGCPSKDHLADLSPVEREDRPWTIGNDHFHWTQSMVEKGMSPLEAISAATINVARAYGKADQIGSVETGKLADFVLLDQDPVDDIRNLRSITEVFQAGAAVDRAALPTTPLVTAHP 4whn-a2-m1-cD_4whn-a2-m1-cB Structure of toxin-activating acyltransferase (TAAT) P55132 P55132 2.15 X-RAY DIFFRACTION 73 1.0 715 (Actinobacillus pleuropneumoniae) 715 (Actinobacillus pleuropneumoniae) 168 169 4whn-a1-m1-cC_4whn-a1-m1-cA KINGFEVLGEVAWLWASSPLHRKWPLSLLAINVLPAIESNQYVLLKRDGFPIAFCSWANLNLENEIKYLDDVASLVADDWTSGDRRWFIDWIAPFGDSAALYKHMRDNFPNELFRAIRVDPDSRVGKISEFHGGKIDKKLASKIFQQYHFELMSELKNKQNFKFSLVN KINGFEVLGEVAWLWASSPLHRKWPLSLLAINVLPAIESNQYVLLKRDGFPIAFCSWANLNLENEIKYLDDVASLVADDWTSGDRRWFIDWIAPFGDSAALYKHMRDNFPNELFRAIRVDPDSRVGKISEFHGGKIDKKLASKIFQQYHFELMSELKNKQNFKFSLVNS 4whs-a1-m2-cB_4whs-a1-m4-cF 4-fluorocatechol bound to Protocatechuate 3,4-dioxygenase (pseudomonas putida) at pH 8.5 P00437 P00437 1.35 X-RAY DIFFRACTION 23 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 238 238 1ykk-a1-m1-cB_1ykk-a1-m1-cJ 1ykk-a1-m1-cB_1ykk-a1-m2-cL 1ykk-a1-m1-cD_1ykk-a1-m1-cH 1ykk-a1-m1-cD_1ykk-a1-m2-cF 1ykk-a1-m1-cF_1ykk-a1-m2-cD 1ykk-a1-m1-cF_1ykk-a1-m2-cH 1ykk-a1-m1-cH_1ykk-a1-m2-cF 1ykk-a1-m1-cJ_1ykk-a1-m2-cL 1ykk-a1-m1-cL_1ykk-a1-m2-cB 1ykk-a1-m1-cL_1ykk-a1-m2-cJ 1ykk-a1-m2-cB_1ykk-a1-m2-cJ 1ykk-a1-m2-cD_1ykk-a1-m2-cH 1ykl-a1-m1-cB_1ykl-a1-m1-cJ 1ykl-a1-m1-cB_1ykl-a1-m2-cL 1ykl-a1-m1-cD_1ykl-a1-m1-cH 1ykl-a1-m1-cD_1ykl-a1-m2-cF 1ykl-a1-m1-cF_1ykl-a1-m2-cD 1ykl-a1-m1-cF_1ykl-a1-m2-cH 1ykl-a1-m1-cH_1ykl-a1-m2-cF 1ykl-a1-m1-cJ_1ykl-a1-m2-cL 1ykl-a1-m1-cL_1ykl-a1-m2-cB 1ykl-a1-m1-cL_1ykl-a1-m2-cJ 1ykl-a1-m2-cB_1ykl-a1-m2-cJ 1ykl-a1-m2-cD_1ykl-a1-m2-cH 1ykm-a1-m1-cB_1ykm-a1-m1-cJ 1ykm-a1-m1-cB_1ykm-a1-m2-cL 1ykm-a1-m1-cD_1ykm-a1-m1-cH 1ykm-a1-m1-cD_1ykm-a1-m2-cF 1ykm-a1-m1-cF_1ykm-a1-m2-cD 1ykm-a1-m1-cF_1ykm-a1-m2-cH 1ykm-a1-m1-cH_1ykm-a1-m2-cF 1ykm-a1-m1-cJ_1ykm-a1-m2-cL 1ykm-a1-m1-cL_1ykm-a1-m2-cB 1ykm-a1-m1-cL_1ykm-a1-m2-cJ 1ykm-a1-m2-cB_1ykm-a1-m2-cJ 1ykm-a1-m2-cD_1ykm-a1-m2-cH 1ykn-a1-m1-cB_1ykn-a1-m1-cJ 1ykn-a1-m1-cB_1ykn-a1-m2-cL 1ykn-a1-m1-cD_1ykn-a1-m1-cH 1ykn-a1-m1-cD_1ykn-a1-m2-cF 1ykn-a1-m1-cF_1ykn-a1-m2-cD 1ykn-a1-m1-cF_1ykn-a1-m2-cH 1ykn-a1-m1-cH_1ykn-a1-m2-cF 1ykn-a1-m1-cJ_1ykn-a1-m2-cL 1ykn-a1-m1-cL_1ykn-a1-m2-cB 1ykn-a1-m1-cL_1ykn-a1-m2-cJ 1ykn-a1-m2-cB_1ykn-a1-m2-cJ 1ykn-a1-m2-cD_1ykn-a1-m2-cH 1yko-a1-m1-cB_1yko-a1-m1-cJ 1yko-a1-m1-cB_1yko-a1-m2-cL 1yko-a1-m1-cD_1yko-a1-m1-cH 1yko-a1-m1-cD_1yko-a1-m2-cF 1yko-a1-m1-cF_1yko-a1-m2-cD 1yko-a1-m1-cF_1yko-a1-m2-cH 1yko-a1-m1-cH_1yko-a1-m2-cF 1yko-a1-m1-cJ_1yko-a1-m2-cL 1yko-a1-m1-cL_1yko-a1-m2-cB 1yko-a1-m1-cL_1yko-a1-m2-cJ 1yko-a1-m2-cB_1yko-a1-m2-cJ 1yko-a1-m2-cD_1yko-a1-m2-cH 1ykp-a1-m1-cB_1ykp-a1-m1-cJ 1ykp-a1-m1-cB_1ykp-a1-m2-cL 1ykp-a1-m1-cD_1ykp-a1-m1-cH 1ykp-a1-m1-cD_1ykp-a1-m2-cF 1ykp-a1-m1-cF_1ykp-a1-m2-cD 1ykp-a1-m1-cF_1ykp-a1-m2-cH 1ykp-a1-m1-cH_1ykp-a1-m2-cF 1ykp-a1-m1-cJ_1ykp-a1-m2-cL 1ykp-a1-m1-cL_1ykp-a1-m2-cB 1ykp-a1-m1-cL_1ykp-a1-m2-cJ 1ykp-a1-m2-cB_1ykp-a1-m2-cJ 1ykp-a1-m2-cD_1ykp-a1-m2-cH 2pcd-a1-m1-cM_2pcd-a1-m1-cQ 2pcd-a1-m1-cM_2pcd-a1-m2-cR 2pcd-a1-m1-cN_2pcd-a1-m1-cP 2pcd-a1-m1-cN_2pcd-a1-m2-cO 2pcd-a1-m1-cO_2pcd-a1-m2-cN 2pcd-a1-m1-cO_2pcd-a1-m2-cP 2pcd-a1-m1-cP_2pcd-a1-m2-cO 2pcd-a1-m1-cQ_2pcd-a1-m2-cR 2pcd-a1-m1-cR_2pcd-a1-m2-cM 2pcd-a1-m1-cR_2pcd-a1-m2-cQ 2pcd-a1-m2-cM_2pcd-a1-m2-cQ 2pcd-a1-m2-cN_2pcd-a1-m2-cP 3lkt-a1-m1-cM_3lkt-a1-m2-cO 3lkt-a1-m1-cM_3lkt-a1-m2-cQ 3lkt-a1-m1-cN_3lkt-a1-m1-cR 3lkt-a1-m1-cN_3lkt-a1-m2-cP 3lkt-a1-m1-cO_3lkt-a1-m1-cQ 3lkt-a1-m1-cO_3lkt-a1-m2-cM 3lkt-a1-m1-cP_3lkt-a1-m2-cN 3lkt-a1-m1-cP_3lkt-a1-m2-cR 3lkt-a1-m1-cQ_3lkt-a1-m2-cM 3lkt-a1-m1-cR_3lkt-a1-m2-cP 3lkt-a1-m2-cN_3lkt-a1-m2-cR 3lkt-a1-m2-cO_3lkt-a1-m2-cQ 3lmx-a1-m1-cM_3lmx-a1-m2-cO 3lmx-a1-m1-cM_3lmx-a1-m3-cN 3lmx-a1-m1-cN_3lmx-a1-m3-cM 3lmx-a1-m1-cN_3lmx-a1-m4-cO 3lmx-a1-m1-cO_3lmx-a1-m2-cM 3lmx-a1-m1-cO_3lmx-a1-m4-cN 3lmx-a1-m2-cM_3lmx-a1-m4-cN 3lmx-a1-m2-cN_3lmx-a1-m3-cO 3lmx-a1-m2-cN_3lmx-a1-m4-cM 3lmx-a1-m2-cO_3lmx-a1-m3-cN 3lmx-a1-m3-cM_3lmx-a1-m4-cO 3lmx-a1-m3-cO_3lmx-a1-m4-cM 3lxv-a1-m1-cM_3lxv-a1-m2-cN 3lxv-a1-m1-cM_3lxv-a1-m3-cO 3lxv-a1-m1-cN_3lxv-a1-m2-cM 3lxv-a1-m1-cN_3lxv-a1-m4-cO 3lxv-a1-m1-cO_3lxv-a1-m3-cM 3lxv-a1-m1-cO_3lxv-a1-m4-cN 3lxv-a1-m2-cM_3lxv-a1-m4-cO 3lxv-a1-m2-cN_3lxv-a1-m3-cO 3lxv-a1-m2-cO_3lxv-a1-m3-cN 3lxv-a1-m2-cO_3lxv-a1-m4-cM 3lxv-a1-m3-cM_3lxv-a1-m4-cN 3lxv-a1-m3-cN_3lxv-a1-m4-cM 3mfl-a1-m1-cM_3mfl-a1-m2-cN 3mfl-a1-m1-cM_3mfl-a1-m3-cO 3mfl-a1-m1-cN_3mfl-a1-m2-cM 3mfl-a1-m1-cN_3mfl-a1-m4-cO 3mfl-a1-m1-cO_3mfl-a1-m3-cM 3mfl-a1-m1-cO_3mfl-a1-m4-cN 3mfl-a1-m2-cM_3mfl-a1-m4-cO 3mfl-a1-m2-cN_3mfl-a1-m3-cO 3mfl-a1-m2-cO_3mfl-a1-m3-cN 3mfl-a1-m2-cO_3mfl-a1-m4-cM 3mfl-a1-m3-cM_3mfl-a1-m4-cN 3mfl-a1-m3-cN_3mfl-a1-m4-cM 3mi1-a1-m1-cM_3mi1-a1-m2-cN 3mi1-a1-m1-cM_3mi1-a1-m3-cO 3mi1-a1-m1-cN_3mi1-a1-m2-cM 3mi1-a1-m1-cN_3mi1-a1-m4-cO 3mi1-a1-m1-cO_3mi1-a1-m3-cM 3mi1-a1-m1-cO_3mi1-a1-m4-cN 3mi1-a1-m2-cM_3mi1-a1-m4-cO 3mi1-a1-m2-cN_3mi1-a1-m3-cO 3mi1-a1-m2-cO_3mi1-a1-m3-cN 3mi1-a1-m2-cO_3mi1-a1-m4-cM 3mi1-a1-m3-cM_3mi1-a1-m4-cN 3mi1-a1-m3-cN_3mi1-a1-m4-cM 3mi5-a1-m1-cM_3mi5-a1-m2-cO 3mi5-a1-m1-cM_3mi5-a1-m2-cQ 3mi5-a1-m1-cN_3mi5-a1-m1-cR 3mi5-a1-m1-cN_3mi5-a1-m2-cP 3mi5-a1-m1-cO_3mi5-a1-m1-cQ 3mi5-a1-m1-cO_3mi5-a1-m2-cM 3mi5-a1-m1-cP_3mi5-a1-m2-cN 3mi5-a1-m1-cP_3mi5-a1-m2-cR 3mi5-a1-m1-cQ_3mi5-a1-m2-cM 3mi5-a1-m1-cR_3mi5-a1-m2-cP 3mi5-a1-m2-cN_3mi5-a1-m2-cR 3mi5-a1-m2-cO_3mi5-a1-m2-cQ 3mv4-a1-m1-cM_3mv4-a1-m2-cN 3mv4-a1-m1-cM_3mv4-a1-m3-cO 3mv4-a1-m1-cN_3mv4-a1-m2-cM 3mv4-a1-m1-cN_3mv4-a1-m4-cO 3mv4-a1-m1-cO_3mv4-a1-m3-cM 3mv4-a1-m1-cO_3mv4-a1-m4-cN 3mv4-a1-m2-cM_3mv4-a1-m4-cO 3mv4-a1-m2-cN_3mv4-a1-m3-cO 3mv4-a1-m2-cO_3mv4-a1-m3-cN 3mv4-a1-m2-cO_3mv4-a1-m4-cM 3mv4-a1-m3-cM_3mv4-a1-m4-cN 3mv4-a1-m3-cN_3mv4-a1-m4-cM 3mv6-a1-m1-cM_3mv6-a1-m2-cN 3mv6-a1-m1-cM_3mv6-a1-m3-cO 3mv6-a1-m1-cN_3mv6-a1-m2-cM 3mv6-a1-m1-cN_3mv6-a1-m4-cO 3mv6-a1-m1-cO_3mv6-a1-m3-cM 3mv6-a1-m1-cO_3mv6-a1-m4-cN 3mv6-a1-m2-cM_3mv6-a1-m4-cO 3mv6-a1-m2-cN_3mv6-a1-m3-cO 3mv6-a1-m2-cO_3mv6-a1-m3-cN 3mv6-a1-m2-cO_3mv6-a1-m4-cM 3mv6-a1-m3-cM_3mv6-a1-m4-cN 3mv6-a1-m3-cN_3mv6-a1-m4-cM 3pca-a1-m1-cM_3pca-a1-m1-cQ 3pca-a1-m1-cM_3pca-a1-m2-cR 3pca-a1-m1-cN_3pca-a1-m1-cP 3pca-a1-m1-cN_3pca-a1-m2-cO 3pca-a1-m1-cO_3pca-a1-m2-cN 3pca-a1-m1-cO_3pca-a1-m2-cP 3pca-a1-m1-cP_3pca-a1-m2-cO 3pca-a1-m1-cQ_3pca-a1-m2-cR 3pca-a1-m1-cR_3pca-a1-m2-cM 3pca-a1-m1-cR_3pca-a1-m2-cQ 3pca-a1-m2-cM_3pca-a1-m2-cQ 3pca-a1-m2-cN_3pca-a1-m2-cP 3pcb-a1-m1-cM_3pcb-a1-m1-cQ 3pcb-a1-m1-cM_3pcb-a1-m2-cR 3pcb-a1-m1-cN_3pcb-a1-m1-cP 3pcb-a1-m1-cN_3pcb-a1-m2-cO 3pcb-a1-m1-cO_3pcb-a1-m2-cN 3pcb-a1-m1-cO_3pcb-a1-m2-cP 3pcb-a1-m1-cP_3pcb-a1-m2-cO 3pcb-a1-m1-cQ_3pcb-a1-m2-cR 3pcb-a1-m1-cR_3pcb-a1-m2-cM 3pcb-a1-m1-cR_3pcb-a1-m2-cQ 3pcb-a1-m2-cM_3pcb-a1-m2-cQ 3pcb-a1-m2-cN_3pcb-a1-m2-cP 3pcc-a1-m1-cM_3pcc-a1-m1-cQ 3pcc-a1-m1-cM_3pcc-a1-m2-cR 3pcc-a1-m1-cN_3pcc-a1-m1-cP 3pcc-a1-m1-cN_3pcc-a1-m2-cO 3pcc-a1-m1-cO_3pcc-a1-m2-cN 3pcc-a1-m1-cO_3pcc-a1-m2-cP 3pcc-a1-m1-cP_3pcc-a1-m2-cO 3pcc-a1-m1-cQ_3pcc-a1-m2-cR 3pcc-a1-m1-cR_3pcc-a1-m2-cM 3pcc-a1-m1-cR_3pcc-a1-m2-cQ 3pcc-a1-m2-cM_3pcc-a1-m2-cQ 3pcc-a1-m2-cN_3pcc-a1-m2-cP 3pcd-a1-m1-cM_3pcd-a1-m1-cQ 3pcd-a1-m1-cM_3pcd-a1-m2-cR 3pcd-a1-m1-cN_3pcd-a1-m1-cP 3pcd-a1-m1-cN_3pcd-a1-m2-cO 3pcd-a1-m1-cO_3pcd-a1-m2-cN 3pcd-a1-m1-cO_3pcd-a1-m2-cP 3pcd-a1-m1-cP_3pcd-a1-m2-cO 3pcd-a1-m1-cQ_3pcd-a1-m2-cR 3pcd-a1-m1-cR_3pcd-a1-m2-cM 3pcd-a1-m1-cR_3pcd-a1-m2-cQ 3pcd-a1-m2-cM_3pcd-a1-m2-cQ 3pcd-a1-m2-cN_3pcd-a1-m2-cP 3pce-a1-m1-cM_3pce-a1-m1-cQ 3pce-a1-m1-cM_3pce-a1-m2-cR 3pce-a1-m1-cN_3pce-a1-m1-cP 3pce-a1-m1-cN_3pce-a1-m2-cO 3pce-a1-m1-cO_3pce-a1-m2-cN 3pce-a1-m1-cO_3pce-a1-m2-cP 3pce-a1-m1-cP_3pce-a1-m2-cO 3pce-a1-m1-cQ_3pce-a1-m2-cR 3pce-a1-m1-cR_3pce-a1-m2-cM 3pce-a1-m1-cR_3pce-a1-m2-cQ 3pce-a1-m2-cM_3pce-a1-m2-cQ 3pce-a1-m2-cN_3pce-a1-m2-cP 3pcf-a1-m1-cM_3pcf-a1-m1-cQ 3pcf-a1-m1-cM_3pcf-a1-m2-cR 3pcf-a1-m1-cN_3pcf-a1-m1-cP 3pcf-a1-m1-cN_3pcf-a1-m2-cO 3pcf-a1-m1-cO_3pcf-a1-m2-cN 3pcf-a1-m1-cO_3pcf-a1-m2-cP 3pcf-a1-m1-cP_3pcf-a1-m2-cO 3pcf-a1-m1-cQ_3pcf-a1-m2-cR 3pcf-a1-m1-cR_3pcf-a1-m2-cM 3pcf-a1-m1-cR_3pcf-a1-m2-cQ 3pcf-a1-m2-cM_3pcf-a1-m2-cQ 3pcf-a1-m2-cN_3pcf-a1-m2-cP 3pcg-a1-m1-cM_3pcg-a1-m1-cQ 3pcg-a1-m1-cM_3pcg-a1-m2-cR 3pcg-a1-m1-cN_3pcg-a1-m1-cP 3pcg-a1-m1-cN_3pcg-a1-m2-cO 3pcg-a1-m1-cO_3pcg-a1-m2-cN 3pcg-a1-m1-cO_3pcg-a1-m2-cP 3pcg-a1-m1-cP_3pcg-a1-m2-cO 3pcg-a1-m1-cQ_3pcg-a1-m2-cR 3pcg-a1-m1-cR_3pcg-a1-m2-cM 3pcg-a1-m1-cR_3pcg-a1-m2-cQ 3pcg-a1-m2-cM_3pcg-a1-m2-cQ 3pcg-a1-m2-cN_3pcg-a1-m2-cP 3pch-a1-m1-cM_3pch-a1-m1-cQ 3pch-a1-m1-cM_3pch-a1-m2-cR 3pch-a1-m1-cN_3pch-a1-m1-cP 3pch-a1-m1-cN_3pch-a1-m2-cO 3pch-a1-m1-cO_3pch-a1-m2-cN 3pch-a1-m1-cO_3pch-a1-m2-cP 3pch-a1-m1-cP_3pch-a1-m2-cO 3pch-a1-m1-cQ_3pch-a1-m2-cR 3pch-a1-m1-cR_3pch-a1-m2-cM 3pch-a1-m1-cR_3pch-a1-m2-cQ 3pch-a1-m2-cM_3pch-a1-m2-cQ 3pch-a1-m2-cN_3pch-a1-m2-cP 3pci-a1-m1-cM_3pci-a1-m1-cQ 3pci-a1-m1-cN_3pci-a1-m1-cP 3pci-a1-m2-cM_3pci-a1-m2-cQ 3pci-a1-m2-cN_3pci-a1-m2-cP 3pci-a2-m1-cM_3pci-a2-m1-cQ 3pci-a2-m1-cM_3pci-a2-m3-cR 3pci-a2-m1-cN_3pci-a2-m1-cP 3pci-a2-m1-cN_3pci-a2-m3-cO 3pci-a2-m1-cO_3pci-a2-m3-cN 3pci-a2-m1-cO_3pci-a2-m3-cP 3pci-a2-m1-cP_3pci-a2-m3-cO 3pci-a2-m1-cQ_3pci-a2-m3-cR 3pci-a2-m1-cR_3pci-a2-m3-cM 3pci-a2-m1-cR_3pci-a2-m3-cQ 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3t63-a1-m2-cO_3t63-a1-m3-cN 3t63-a1-m2-cO_3t63-a1-m4-cM 3t63-a1-m3-cM_3t63-a1-m4-cN 3t63-a1-m3-cN_3t63-a1-m4-cM 3t67-a1-m1-cM_3t67-a1-m2-cN 3t67-a1-m1-cM_3t67-a1-m3-cO 3t67-a1-m1-cN_3t67-a1-m2-cM 3t67-a1-m1-cN_3t67-a1-m4-cO 3t67-a1-m1-cO_3t67-a1-m3-cM 3t67-a1-m1-cO_3t67-a1-m4-cN 3t67-a1-m2-cM_3t67-a1-m4-cO 3t67-a1-m2-cN_3t67-a1-m3-cO 3t67-a1-m2-cO_3t67-a1-m3-cN 3t67-a1-m2-cO_3t67-a1-m4-cM 3t67-a1-m3-cM_3t67-a1-m4-cN 3t67-a1-m3-cN_3t67-a1-m4-cM 4who-a1-m1-cB_4who-a1-m2-cD 4who-a1-m1-cB_4who-a1-m3-cF 4who-a1-m1-cF_4who-a1-m4-cD 4who-a1-m2-cB_4who-a1-m1-cD 4who-a1-m2-cB_4who-a1-m4-cF 4who-a1-m2-cF_4who-a1-m3-cD 4who-a1-m3-cB_4who-a1-m1-cF 4who-a1-m3-cB_4who-a1-m4-cD 4who-a1-m3-cF_4who-a1-m2-cD 4who-a1-m4-cB_4who-a1-m2-cF 4who-a1-m4-cB_4who-a1-m3-cD 4who-a1-m4-cF_4who-a1-m1-cD 4whp-a1-m1-cB_4whp-a1-m2-cD 4whp-a1-m1-cB_4whp-a1-m3-cF 4whp-a1-m1-cF_4whp-a1-m3-cB 4whp-a1-m1-cF_4whp-a1-m4-cD 4whp-a1-m2-cB_4whp-a1-m1-cD 4whp-a1-m2-cB_4whp-a1-m4-cF 4whp-a1-m2-cF_4whp-a1-m3-cD 4whp-a1-m2-cF_4whp-a1-m4-cB 4whp-a1-m3-cB_4whp-a1-m4-cD 4whp-a1-m3-cF_4whp-a1-m2-cD 4whp-a1-m4-cB_4whp-a1-m3-cD 4whp-a1-m4-cF_4whp-a1-m1-cD 4whq-a1-m1-cB_4whq-a1-m2-cD 4whq-a1-m1-cD_4whq-a1-m2-cB 4whq-a1-m1-cF_4whq-a1-m3-cB 4whq-a1-m1-cF_4whq-a1-m4-cD 4whq-a1-m2-cF_4whq-a1-m3-cD 4whq-a1-m2-cF_4whq-a1-m4-cB 4whq-a1-m3-cB_4whq-a1-m4-cD 4whq-a1-m3-cD_4whq-a1-m4-cB 4whq-a1-m3-cF_4whq-a1-m1-cB 4whq-a1-m3-cF_4whq-a1-m2-cD 4whq-a1-m4-cF_4whq-a1-m1-cD 4whq-a1-m4-cF_4whq-a1-m2-cB 4whr-a1-m1-cD_4whr-a1-m2-cB 4whr-a1-m1-cF_4whr-a1-m3-cB 4whr-a1-m1-cF_4whr-a1-m4-cD 4whr-a1-m2-cD_4whr-a1-m1-cB 4whr-a1-m2-cF_4whr-a1-m3-cD 4whr-a1-m2-cF_4whr-a1-m4-cB 4whr-a1-m3-cD_4whr-a1-m4-cB 4whr-a1-m3-cF_4whr-a1-m1-cB 4whr-a1-m3-cF_4whr-a1-m2-cD 4whr-a1-m4-cD_4whr-a1-m3-cB 4whr-a1-m4-cF_4whr-a1-m1-cD 4whr-a1-m4-cF_4whr-a1-m2-cB 4whs-a1-m1-cB_4whs-a1-m3-cF 4whs-a1-m1-cD_4whs-a1-m2-cB 4whs-a1-m1-cD_4whs-a1-m4-cF 4whs-a1-m1-cF_4whs-a1-m3-cB 4whs-a1-m2-cD_4whs-a1-m1-cB 4whs-a1-m2-cD_4whs-a1-m3-cF 4whs-a1-m2-cF_4whs-a1-m4-cB 4whs-a1-m3-cD_4whs-a1-m2-cF 4whs-a1-m3-cD_4whs-a1-m4-cB 4whs-a1-m4-cD_4whs-a1-m1-cF 4whs-a1-m4-cD_4whs-a1-m3-cB PAQDNSRFVIRDRNWHPKALTPDYKTSIARSPRQALVSIPQSISETTGPNFSHLGFGAHDHDLLLNFNNGGLPIGERIIVAGRVVDQYGKPVPNTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRCLTDSDGYYSFRTIKPGPYPWRNGPNDWRPAHIHFGISGPSIATKLITQLYFEGDPLIPMCPIVKSIANPEAVQQLIAKLDMNNANPMDCLAYRFDIVLRGQRKTHFENC PAQDNSRFVIRDRNWHPKALTPDYKTSIARSPRQALVSIPQSISETTGPNFSHLGFGAHDHDLLLNFNNGGLPIGERIIVAGRVVDQYGKPVPNTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRCLTDSDGYYSFRTIKPGPYPWRNGPNDWRPAHIHFGISGPSIATKLITQLYFEGDPLIPMCPIVKSIANPEAVQQLIAKLDMNNANPMDCLAYRFDIVLRGQRKTHFENC 4whs-a1-m2-cF_4whs-a1-m4-cF 4-fluorocatechol bound to Protocatechuate 3,4-dioxygenase (pseudomonas putida) at pH 8.5 P00437 P00437 1.35 X-RAY DIFFRACTION 102 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 238 238 1ykk-a1-m1-cB_1ykk-a1-m1-cH 1ykk-a1-m1-cD_1ykk-a1-m2-cD 1ykk-a1-m1-cF_1ykk-a1-m2-cL 1ykk-a1-m1-cJ_1ykk-a1-m2-cJ 1ykk-a1-m1-cL_1ykk-a1-m2-cF 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3pci-a2-m3-cM_3pci-a2-m3-cP 3pcj-a1-m1-cM_3pcj-a1-m1-cP 3pcj-a1-m1-cN_3pcj-a1-m2-cN 3pcj-a1-m1-cO_3pcj-a1-m2-cR 3pcj-a1-m1-cQ_3pcj-a1-m2-cQ 3pcj-a1-m1-cR_3pcj-a1-m2-cO 3pcj-a1-m2-cM_3pcj-a1-m2-cP 3pck-a1-m1-cM_3pck-a1-m1-cP 3pck-a1-m1-cN_3pck-a1-m2-cN 3pck-a1-m1-cO_3pck-a1-m2-cR 3pck-a1-m1-cQ_3pck-a1-m2-cQ 3pck-a1-m1-cR_3pck-a1-m2-cO 3pck-a1-m2-cM_3pck-a1-m2-cP 3pcl-a1-m1-cM_3pcl-a1-m1-cP 3pcl-a1-m1-cN_3pcl-a1-m2-cN 3pcl-a1-m1-cO_3pcl-a1-m2-cR 3pcl-a1-m1-cQ_3pcl-a1-m2-cQ 3pcl-a1-m1-cR_3pcl-a1-m2-cO 3pcl-a1-m2-cM_3pcl-a1-m2-cP 3pcm-a1-m1-cM_3pcm-a1-m1-cP 3pcm-a1-m1-cN_3pcm-a1-m2-cN 3pcm-a1-m1-cO_3pcm-a1-m2-cR 3pcm-a1-m1-cQ_3pcm-a1-m2-cQ 3pcm-a1-m1-cR_3pcm-a1-m2-cO 3pcm-a1-m2-cM_3pcm-a1-m2-cP 3pcn-a1-m1-cM_3pcn-a1-m1-cP 3pcn-a1-m1-cN_3pcn-a1-m2-cN 3pcn-a1-m1-cO_3pcn-a1-m2-cR 3pcn-a1-m1-cQ_3pcn-a1-m2-cQ 3pcn-a1-m1-cR_3pcn-a1-m2-cO 3pcn-a1-m2-cM_3pcn-a1-m2-cP 3t63-a1-m1-cM_3t63-a1-m2-cM 3t63-a1-m1-cN_3t63-a1-m4-cN 3t63-a1-m1-cO_3t63-a1-m3-cO 3t63-a1-m2-cN_3t63-a1-m3-cN 3t63-a1-m2-cO_3t63-a1-m4-cO 3t63-a1-m3-cM_3t63-a1-m4-cM 3t67-a1-m1-cM_3t67-a1-m2-cM 3t67-a1-m1-cN_3t67-a1-m4-cN 3t67-a1-m1-cO_3t67-a1-m3-cO 3t67-a1-m2-cN_3t67-a1-m3-cN 3t67-a1-m2-cO_3t67-a1-m4-cO 3t67-a1-m3-cM_3t67-a1-m4-cM 4who-a1-m1-cB_4who-a1-m2-cB 4who-a1-m1-cD_4who-a1-m4-cD 4who-a1-m1-cF_4who-a1-m3-cF 4who-a1-m2-cD_4who-a1-m3-cD 4who-a1-m2-cF_4who-a1-m4-cF 4who-a1-m3-cB_4who-a1-m4-cB 4whp-a1-m1-cB_4whp-a1-m2-cB 4whp-a1-m1-cD_4whp-a1-m4-cD 4whp-a1-m1-cF_4whp-a1-m3-cF 4whp-a1-m2-cD_4whp-a1-m3-cD 4whp-a1-m2-cF_4whp-a1-m4-cF 4whp-a1-m3-cB_4whp-a1-m4-cB 4whq-a1-m1-cB_4whq-a1-m2-cB 4whq-a1-m1-cD_4whq-a1-m4-cD 4whq-a1-m1-cF_4whq-a1-m3-cF 4whq-a1-m2-cD_4whq-a1-m3-cD 4whq-a1-m2-cF_4whq-a1-m4-cF 4whq-a1-m3-cB_4whq-a1-m4-cB 4whr-a1-m1-cB_4whr-a1-m2-cB 4whr-a1-m1-cD_4whr-a1-m4-cD 4whr-a1-m1-cF_4whr-a1-m3-cF 4whr-a1-m2-cD_4whr-a1-m3-cD 4whr-a1-m2-cF_4whr-a1-m4-cF 4whr-a1-m3-cB_4whr-a1-m4-cB 4whs-a1-m1-cB_4whs-a1-m2-cB 4whs-a1-m1-cD_4whs-a1-m4-cD 4whs-a1-m1-cF_4whs-a1-m3-cF 4whs-a1-m2-cD_4whs-a1-m3-cD 4whs-a1-m3-cB_4whs-a1-m4-cB PAQDNSRFVIRDRNWHPKALTPDYKTSIARSPRQALVSIPQSISETTGPNFSHLGFGAHDHDLLLNFNNGGLPIGERIIVAGRVVDQYGKPVPNTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRCLTDSDGYYSFRTIKPGPYPWRNGPNDWRPAHIHFGISGPSIATKLITQLYFEGDPLIPMCPIVKSIANPEAVQQLIAKLDMNNANPMDCLAYRFDIVLRGQRKTHFENC PAQDNSRFVIRDRNWHPKALTPDYKTSIARSPRQALVSIPQSISETTGPNFSHLGFGAHDHDLLLNFNNGGLPIGERIIVAGRVVDQYGKPVPNTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRCLTDSDGYYSFRTIKPGPYPWRNGPNDWRPAHIHFGISGPSIATKLITQLYFEGDPLIPMCPIVKSIANPEAVQQLIAKLDMNNANPMDCLAYRFDIVLRGQRKTHFENC 4whs-a1-m4-cB_4whs-a1-m4-cF 4-fluorocatechol bound to Protocatechuate 3,4-dioxygenase (pseudomonas putida) at pH 8.5 P00437 P00437 1.35 X-RAY DIFFRACTION 20 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 238 238 1ykk-a1-m1-cB_1ykk-a1-m1-cD 1ykk-a1-m1-cB_1ykk-a1-m1-cF 1ykk-a1-m1-cD_1ykk-a1-m1-cF 1ykk-a1-m1-cH_1ykk-a1-m1-cJ 1ykk-a1-m1-cH_1ykk-a1-m1-cL 1ykk-a1-m1-cJ_1ykk-a1-m1-cL 1ykk-a1-m2-cB_1ykk-a1-m2-cD 1ykk-a1-m2-cB_1ykk-a1-m2-cF 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3pck-a1-m2-cQ_3pck-a1-m2-cR 3pcl-a1-m1-cM_3pcl-a1-m1-cN 3pcl-a1-m1-cM_3pcl-a1-m1-cO 3pcl-a1-m1-cN_3pcl-a1-m1-cO 3pcl-a1-m1-cP_3pcl-a1-m1-cQ 3pcl-a1-m1-cP_3pcl-a1-m1-cR 3pcl-a1-m1-cQ_3pcl-a1-m1-cR 3pcl-a1-m2-cM_3pcl-a1-m2-cN 3pcl-a1-m2-cM_3pcl-a1-m2-cO 3pcl-a1-m2-cN_3pcl-a1-m2-cO 3pcl-a1-m2-cP_3pcl-a1-m2-cQ 3pcl-a1-m2-cP_3pcl-a1-m2-cR 3pcl-a1-m2-cQ_3pcl-a1-m2-cR 3pcm-a1-m1-cM_3pcm-a1-m1-cN 3pcm-a1-m1-cM_3pcm-a1-m1-cO 3pcm-a1-m1-cN_3pcm-a1-m1-cO 3pcm-a1-m1-cP_3pcm-a1-m1-cQ 3pcm-a1-m1-cP_3pcm-a1-m1-cR 3pcm-a1-m1-cQ_3pcm-a1-m1-cR 3pcm-a1-m2-cM_3pcm-a1-m2-cN 3pcm-a1-m2-cM_3pcm-a1-m2-cO 3pcm-a1-m2-cN_3pcm-a1-m2-cO 3pcm-a1-m2-cP_3pcm-a1-m2-cQ 3pcm-a1-m2-cP_3pcm-a1-m2-cR 3pcm-a1-m2-cQ_3pcm-a1-m2-cR 3pcn-a1-m1-cM_3pcn-a1-m1-cN 3pcn-a1-m1-cM_3pcn-a1-m1-cO 3pcn-a1-m1-cN_3pcn-a1-m1-cO 3pcn-a1-m1-cP_3pcn-a1-m1-cQ 3pcn-a1-m1-cP_3pcn-a1-m1-cR 3pcn-a1-m1-cQ_3pcn-a1-m1-cR 3pcn-a1-m2-cM_3pcn-a1-m2-cN 3pcn-a1-m2-cM_3pcn-a1-m2-cO 3pcn-a1-m2-cN_3pcn-a1-m2-cO 3pcn-a1-m2-cP_3pcn-a1-m2-cQ 3pcn-a1-m2-cP_3pcn-a1-m2-cR 3pcn-a1-m2-cQ_3pcn-a1-m2-cR 3t63-a1-m1-cM_3t63-a1-m1-cN 3t63-a1-m1-cM_3t63-a1-m1-cO 3t63-a1-m1-cN_3t63-a1-m1-cO 3t63-a1-m2-cM_3t63-a1-m2-cN 3t63-a1-m2-cM_3t63-a1-m2-cO 3t63-a1-m2-cN_3t63-a1-m2-cO 3t63-a1-m3-cM_3t63-a1-m3-cN 3t63-a1-m3-cM_3t63-a1-m3-cO 3t63-a1-m3-cN_3t63-a1-m3-cO 3t63-a1-m4-cM_3t63-a1-m4-cN 3t63-a1-m4-cM_3t63-a1-m4-cO 3t63-a1-m4-cN_3t63-a1-m4-cO 3t67-a1-m1-cM_3t67-a1-m1-cN 3t67-a1-m1-cM_3t67-a1-m1-cO 3t67-a1-m1-cN_3t67-a1-m1-cO 3t67-a1-m2-cM_3t67-a1-m2-cN 3t67-a1-m2-cM_3t67-a1-m2-cO 3t67-a1-m2-cN_3t67-a1-m2-cO 3t67-a1-m3-cM_3t67-a1-m3-cN 3t67-a1-m3-cM_3t67-a1-m3-cO 3t67-a1-m3-cN_3t67-a1-m3-cO 3t67-a1-m4-cM_3t67-a1-m4-cN 3t67-a1-m4-cM_3t67-a1-m4-cO 3t67-a1-m4-cN_3t67-a1-m4-cO 4who-a1-m1-cB_4who-a1-m1-cD 4who-a1-m1-cB_4who-a1-m1-cF 4who-a1-m1-cF_4who-a1-m1-cD 4who-a1-m2-cB_4who-a1-m2-cD 4who-a1-m2-cB_4who-a1-m2-cF 4who-a1-m2-cF_4who-a1-m2-cD 4who-a1-m3-cB_4who-a1-m3-cD 4who-a1-m3-cB_4who-a1-m3-cF 4who-a1-m3-cF_4who-a1-m3-cD 4who-a1-m4-cB_4who-a1-m4-cD 4who-a1-m4-cB_4who-a1-m4-cF 4who-a1-m4-cF_4who-a1-m4-cD 4whp-a1-m1-cB_4whp-a1-m1-cD 4whp-a1-m1-cB_4whp-a1-m1-cF 4whp-a1-m1-cF_4whp-a1-m1-cD 4whp-a1-m2-cB_4whp-a1-m2-cD 4whp-a1-m2-cB_4whp-a1-m2-cF 4whp-a1-m2-cF_4whp-a1-m2-cD 4whp-a1-m3-cB_4whp-a1-m3-cD 4whp-a1-m3-cB_4whp-a1-m3-cF 4whp-a1-m3-cF_4whp-a1-m3-cD 4whp-a1-m4-cB_4whp-a1-m4-cD 4whp-a1-m4-cB_4whp-a1-m4-cF 4whp-a1-m4-cF_4whp-a1-m4-cD 4whq-a1-m1-cB_4whq-a1-m1-cD 4whq-a1-m1-cF_4whq-a1-m1-cB 4whq-a1-m1-cF_4whq-a1-m1-cD 4whq-a1-m2-cB_4whq-a1-m2-cD 4whq-a1-m2-cF_4whq-a1-m2-cB 4whq-a1-m2-cF_4whq-a1-m2-cD 4whq-a1-m3-cB_4whq-a1-m3-cD 4whq-a1-m3-cF_4whq-a1-m3-cB 4whq-a1-m3-cF_4whq-a1-m3-cD 4whq-a1-m4-cB_4whq-a1-m4-cD 4whq-a1-m4-cF_4whq-a1-m4-cB 4whq-a1-m4-cF_4whq-a1-m4-cD 4whr-a1-m1-cD_4whr-a1-m1-cB 4whr-a1-m1-cF_4whr-a1-m1-cB 4whr-a1-m1-cF_4whr-a1-m1-cD 4whr-a1-m2-cD_4whr-a1-m2-cB 4whr-a1-m2-cF_4whr-a1-m2-cB 4whr-a1-m2-cF_4whr-a1-m2-cD 4whr-a1-m3-cD_4whr-a1-m3-cB 4whr-a1-m3-cF_4whr-a1-m3-cB 4whr-a1-m3-cF_4whr-a1-m3-cD 4whr-a1-m4-cD_4whr-a1-m4-cB 4whr-a1-m4-cF_4whr-a1-m4-cB 4whr-a1-m4-cF_4whr-a1-m4-cD 4whs-a1-m1-cB_4whs-a1-m1-cF 4whs-a1-m1-cD_4whs-a1-m1-cB 4whs-a1-m1-cD_4whs-a1-m1-cF 4whs-a1-m2-cB_4whs-a1-m2-cF 4whs-a1-m2-cD_4whs-a1-m2-cB 4whs-a1-m2-cD_4whs-a1-m2-cF 4whs-a1-m3-cB_4whs-a1-m3-cF 4whs-a1-m3-cD_4whs-a1-m3-cB 4whs-a1-m3-cD_4whs-a1-m3-cF 4whs-a1-m4-cD_4whs-a1-m4-cB 4whs-a1-m4-cD_4whs-a1-m4-cF PAQDNSRFVIRDRNWHPKALTPDYKTSIARSPRQALVSIPQSISETTGPNFSHLGFGAHDHDLLLNFNNGGLPIGERIIVAGRVVDQYGKPVPNTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRCLTDSDGYYSFRTIKPGPYPWRNGPNDWRPAHIHFGISGPSIATKLITQLYFEGDPLIPMCPIVKSIANPEAVQQLIAKLDMNNANPMDCLAYRFDIVLRGQRKTHFENC PAQDNSRFVIRDRNWHPKALTPDYKTSIARSPRQALVSIPQSISETTGPNFSHLGFGAHDHDLLLNFNNGGLPIGERIIVAGRVVDQYGKPVPNTLVEMWQANAGGRYRHKNDRYLAPLDPNFGGVGRCLTDSDGYYSFRTIKPGPYPWRNGPNDWRPAHIHFGISGPSIATKLITQLYFEGDPLIPMCPIVKSIANPEAVQQLIAKLDMNNANPMDCLAYRFDIVLRGQRKTHFENC 4whv-a2-m1-cI_4whv-a2-m1-cJ E3 ubiquitin-protein ligase RNF8 in complex with Ubiquitin-conjugating enzyme E2 N and Polyubiquitin-B O76064 O76064 8.3 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 4ayc-a1-m1-cB_4ayc-a1-m1-cA 4ayc-a1-m2-cB_4ayc-a1-m2-cA 4orh-a1-m1-cK_4orh-a1-m1-cL 4orh-a2-m1-cG_4orh-a2-m1-cH 4whv-a1-m1-cC_4whv-a1-m1-cD EKMQAQKEEVLSHMNDVLENELQCIICSEYFIEAVTLNCAHSFCSYCINEWMKRKIECPICRKDIKSKTYSLVLDNCINKMVNNLSSEVKERRIVLIRERK EKMQAQKEEVLSHMNDVLENELQCIICSEYFIEAVTLNCAHSFCSYCINEWMKRKIECPICRKDIKSKTYSLVLDNCINKMVNNLSSEVKERRIVLIRERK 4wi1-a3-m1-cB_4wi1-a3-m2-cB Crystal Structure of Prolyl-tRNA synthetase (ProRS, Proline--tRNA ligase) from Plasmodium falciparum in complex with TCMDC-124506 Q8I5R7 Q8I5R7 1.65 X-RAY DIFFRACTION 23 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 435 435 5ifu-a3-m1-cB_5ifu-a3-m2-cB NILGITSKKIENFSDWYTQVIVKSELIEYYDISGCYILRPAAYYIWECVQAFFNKEIKKLNVENSYFPETIMYSVFPKWIRSYRDLPLKLNQWNTVVRWEFKQPTREFLWQEGHTAHKNEEEAVKLVFDILDLYRRWYEEYLAVPIIKGIKSEGEKFGGANFTSTAEAFISENGRAIQAATSHYLGTNFAKMFKIEFEDENEVKQYVHQTSWGCTTRSIGIMIMTHGDDKGLVLPPNVSKYKVVIVPIFENAIHSYCKDIEKILKNAQINCVYDDRASYSPGYKFNHWELRGIPIRIEVGPKDLQNNSCVIVRRDNNEKCNVKKESVLLETQQMLVDIHKNLFLKAKKKLDDSIVQVTSFSEVMNALNKKKMVLAPWCEDIATEEEIKKETQRLSLSGAMKPLCIPLDQPPMPPNMKCFWSGKPAKRWCLFGRSY NILGITSKKIENFSDWYTQVIVKSELIEYYDISGCYILRPAAYYIWECVQAFFNKEIKKLNVENSYFPETIMYSVFPKWIRSYRDLPLKLNQWNTVVRWEFKQPTREFLWQEGHTAHKNEEEAVKLVFDILDLYRRWYEEYLAVPIIKGIKSEGEKFGGANFTSTAEAFISENGRAIQAATSHYLGTNFAKMFKIEFEDENEVKQYVHQTSWGCTTRSIGIMIMTHGDDKGLVLPPNVSKYKVVIVPIFENAIHSYCKDIEKILKNAQINCVYDDRASYSPGYKFNHWELRGIPIRIEVGPKDLQNNSCVIVRRDNNEKCNVKKESVLLETQQMLVDIHKNLFLKAKKKLDDSIVQVTSFSEVMNALNKKKMVLAPWCEDIATEEEIKKETQRLSLSGAMKPLCIPLDQPPMPPNMKCFWSGKPAKRWCLFGRSY 4wia-a1-m1-cA_4wia-a1-m1-cB Crystal structure of flagellar accessory protein FlaH from Methanocaldococcus jannaschii Q58309 Q58309 2.2 X-RAY DIFFRACTION 39 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 224 224 4wia-a1-m1-cC_4wia-a1-m1-cA 4wia-a1-m1-cC_4wia-a1-m1-cB ELARIDLSRDDLDKRIGGGIPHGSLIIIEGEESTGKSVLCQRLAYGFLQNRYSVTYVSTQLTTLEFIKQNSLNYSINKKLLSGALLYIPVYPLIADNKKKDGFLKKVETRAFYEKDVIIFDSISALIANDASEVNVDDLAFFKRITALKKIIICTVNPKELPESVLTIIRTSATLIRTELFTFGGDLKNLAKILKYNAPGSYQKNIVFRVEPKIGIAVEIASVA ELARIDLSRDDLDKRIGGGIPHGSLIIIEGEESTGKSVLCQRLAYGFLQNRYSVTYVSTQLTTLEFIKQNSLNYSINKKLLSGALLYIPVYPLIADNKKKDGFLKKVETRAFYEKDVIIFDSISALIANDASEVNVDDLAFFKRITALKKIIICTVNPKELPESVLTIIRTSATLIRTELFTFGGDLKNLAKILKYNAPGSYQKNIVFRVEPKIGIAVEIASVA 4wic-a2-m1-cD_4wic-a2-m1-cC Immediate-early 1 protein (IE1) of rhesus macaque cytomegalovirus Q2FAE9 Q2FAE9 2.85 X-RAY DIFFRACTION 150 0.994 47929 (Macacine betaherpesvirus 3) 47929 (Macacine betaherpesvirus 3) 340 349 4wic-a1-m1-cB_4wic-a1-m1-cA DMALQHAVDLLEKMLADEEKKLTPLFEDDPIKTLEEIIQEGDDVVGAHQLVVTQIKLRVQRNRRLADEIIREQLTDIRKVFSDKFEKLEQGIQNSYLLLDKLKTPFQDMRCLFEVANEQFNDTPVPPQYKEKFMVCLKQIVQYAVNSSSKLEKFVMLKIKTKKDDIKDRVTYTCMKYLLMAMQGTGGPKAINNEEHAKLFFKQLSNYDDLTDANHDGLELIKKLDKEQKEVAFHVNNFTHLVTTLGMALYKEGHQKNDEAMLGMHTPITMLSDQVRVLILYLIDEIVHAIHTNSNDELIDGLKPKVRIVINEFHATLMMGIDKMKFYSLNELREIVNDKI DMALQHAVDLLEKMLADEEKKLTEFNLGDPLFESPIKTLEEIIQEGDDVVGAHQLVVTQIKLRVQRNRRLADEIIREQLTDIRKVFSDKFEKLEQGIQNSYLLLDKLKTPFQDMRCLFEVANEQFNDTPVPPQYKEKFMVCLKQIVQYAVNSSSKLEKFVMLKIKTKKDDIKDRVTYTCMKYLLMAMQGTGGPKAINNEEHAKLFFKQLSNYDDLTDANHDGLELIKKLDKEQKEVAFHVNNFTHLVTTLGMALYKEGHQKNDEAMLGMHTPITMLSDQVRVLILYLIDEIVHAIHTNSNQSNDELIDGLKPKVRIVINEFHATLMMGIDKMKFYSLNELREIVNDKIN 4wik-a1-m1-cB_4wik-a1-m1-cA HUMAN SPLICING FACTOR, CONSTRUCT 2 P23246 P23246 3 X-RAY DIFFRACTION 242 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 228 AAALSVRNLSPYVSNELLEEAFSQFGPIERAVVIVDDRGRSTGKGIVEFASKPAARKAFERCSEGVFLLTTTPRPVIVEPLEQLDDEDGLPEKLAQKNPMYQKERETPPRFAQHGTFEYEYSQRWKSLDEMEKQQREQVEKNMKDAKDKLESEMEDAYHEHQANLLRQDLMRRQEELRRMEELHNQEMQKRKEMQLRQEEERRRREEEMMIRQREMEEQMRRQRE AAALSVRNLSPYVSNELLEEAFSQFGPIERAVVIVDDRGRSTGKGIVEFASKPAARKAFERCSEGVFLLTTTPRPVIVEPLEQLDDEDGLPEKLAQKNPMYQKERETPPRFAQHGTFEYEYSQRWKSLDEMEKQQREQVEKNMKDAKDKLESEMEDAYHEHQANLLRQDLMRRQEELRRMEELHNQEMQKRKEMQLRQEEERRRREEEMMIRQREMEEQMRRQREESY 4wil-a1-m1-cB_4wil-a1-m2-cB Crystal structure of DCoH2 S51T Q9CZL5 Q9CZL5 1.36 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 98 98 1ru0-a1-m1-cA_1ru0-a1-m2-cA 1ru0-a1-m1-cB_1ru0-a1-m2-cB 4c45-a1-m1-cA_4c45-a1-m3-cA 4c45-a1-m2-cA_4c45-a1-m4-cA 4wil-a1-m1-cA_4wil-a1-m2-cA DAQWLTAEERDQLIPGLKAAGWSELSERDAIYKEFSFKNFNQAFGFMTRVALQAEKMNHHPEWFNVYNKVQITLTSHDCGGLTKRDVKLAQFIEKAAA DAQWLTAEERDQLIPGLKAAGWSELSERDAIYKEFSFKNFNQAFGFMTRVALQAEKMNHHPEWFNVYNKVQITLTSHDCGGLTKRDVKLAQFIEKAAA 4wil-a1-m2-cB_4wil-a1-m1-cA Crystal structure of DCoH2 S51T Q9CZL5 Q9CZL5 1.36 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 98 100 1ru0-a1-m1-cB_1ru0-a1-m2-cA 1ru0-a1-m2-cB_1ru0-a1-m1-cA 4c45-a1-m1-cA_4c45-a1-m2-cA 4c45-a1-m3-cA_4c45-a1-m4-cA 4wil-a1-m1-cB_4wil-a1-m2-cA DAQWLTAEERDQLIPGLKAAGWSELSERDAIYKEFSFKNFNQAFGFMTRVALQAEKMNHHPEWFNVYNKVQITLTSHDCGGLTKRDVKLAQFIEKAAA DAQWLTAEERDQLIPGLKAAGWSELSERDAIYKEFSFKNFNQAFGFMTRVALQAEKMNHHPEWFNVYNKVQITLTSHDCGGLTKRDVKLAQFIEKAAASL 4wil-a1-m2-cB_4wil-a1-m2-cA Crystal structure of DCoH2 S51T Q9CZL5 Q9CZL5 1.36 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 98 100 1ru0-a1-m1-cB_1ru0-a1-m1-cA 1ru0-a1-m2-cB_1ru0-a1-m2-cA 4c45-a1-m1-cA_4c45-a1-m4-cA 4c45-a1-m2-cA_4c45-a1-m3-cA 4wil-a1-m1-cB_4wil-a1-m1-cA DAQWLTAEERDQLIPGLKAAGWSELSERDAIYKEFSFKNFNQAFGFMTRVALQAEKMNHHPEWFNVYNKVQITLTSHDCGGLTKRDVKLAQFIEKAAA DAQWLTAEERDQLIPGLKAAGWSELSERDAIYKEFSFKNFNQAFGFMTRVALQAEKMNHHPEWFNVYNKVQITLTSHDCGGLTKRDVKLAQFIEKAAASL 4wio-a1-m1-cA_4wio-a1-m2-cA Crystal structure of the C89A GMP synthetase inactive mutant from Plasmodium falciparum in complex with glutamine Q8IJR9 Q8IJR9 3.15 X-RAY DIFFRACTION 67 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 525 525 DKILVLNFGSQYFHLIVKRLNNIKIFSETKDYGVELKDIKDMNIKGVILSGGPYSVTEAGSPHLKKEVFEYFLEKKIPIFGIAYGMQEIAVQMNGEVKKSKTSEYGCTDVNILRNDNINNITYCRNFSSAMDLYSNYKLMNECLFENIKSDITTVWMNHNDEVTKIPENFYLVSSSENCLICSIYNKEYNIYGVQYHPEVYESLDGELMFYNFAYNICKCKKQFDPIRYHELELKNIEKYKHDHYVIAAMSGGIDSTVAAAYTHKIFKERFFGIFIDNGLLRKNEAENVYTFLKSTFPDMNITKIDASENFLSNLQGVTDPEQKRKIIGKLFIEEFEKAVNNIDIDINKTFLLQGTLYPDIIESKCSKNLSDTIKTHHNLKFKLFEPFKYLFKDDVKTLSRELNLPEEITNRHPFPGPGLAIRVIGEINKHKLNILREVDDIFINDLKQYGLYNQISQAFAVLLSYDYVCVLRAVKTSSFMTANWYQIPYDILDKITTRILSEVKGVNRILYDVSSKPPATIEFE DKILVLNFGSQYFHLIVKRLNNIKIFSETKDYGVELKDIKDMNIKGVILSGGPYSVTEAGSPHLKKEVFEYFLEKKIPIFGIAYGMQEIAVQMNGEVKKSKTSEYGCTDVNILRNDNINNITYCRNFSSAMDLYSNYKLMNECLFENIKSDITTVWMNHNDEVTKIPENFYLVSSSENCLICSIYNKEYNIYGVQYHPEVYESLDGELMFYNFAYNICKCKKQFDPIRYHELELKNIEKYKHDHYVIAAMSGGIDSTVAAAYTHKIFKERFFGIFIDNGLLRKNEAENVYTFLKSTFPDMNITKIDASENFLSNLQGVTDPEQKRKIIGKLFIEEFEKAVNNIDIDINKTFLLQGTLYPDIIESKCSKNLSDTIKTHHNLKFKLFEPFKYLFKDDVKTLSRELNLPEEITNRHPFPGPGLAIRVIGEINKHKLNILREVDDIFINDLKQYGLYNQISQAFAVLLSYDYVCVLRAVKTSSFMTANWYQIPYDILDKITTRILSEVKGVNRILYDVSSKPPATIEFE 4wis-a1-m1-cA_4wis-a1-m1-cB Crystal structure of the lipid scramblase nhTMEM16 in crystal form 1 C7Z7K1 C7Z7K1 3.3 X-RAY DIFFRACTION 245 1.0 660122 (Fusarium vanettenii 77-13-4) 660122 (Fusarium vanettenii 77-13-4) 654 654 4wit-a1-m1-cA_4wit-a1-m1-cB 6qm4-a1-m1-cA_6qm4-a1-m1-cB 6qm5-a1-m1-cA_6qm5-a1-m1-cB 6qm6-a1-m1-cA_6qm6-a1-m1-cB 6qm9-a1-m1-cA_6qm9-a1-m1-cB 6qma-a1-m1-cA_6qma-a1-m1-cB 6qmb-a1-m1-cA_6qmb-a1-m1-cB GVDFVIHYKVPAAERDEAEAGFVQLIRALTTVGLATEVRHGENESLLVFVKVASPDLFAKQVYRARLGDWLHGVRVSAPHNDIAQALQDEPVVEAERLRLIYLMITKPHNEWKHVESIFPLHSHSFNKEWIKKWSSKYTLEQTDIDNIRDKFGESVAFYFAFLRSYFRFLVIPSAFGFGAWLLLGQFSYLYALLCGLWSVVFFEYWKKQEVDLAVQWGVRGVSSIQQSRPEFEWEHEAEDPITGEPVKVYPPMKRVKTQLLQIPFALACVVALGALIVTCNSLEVFINEVYSGPGKQYLGFLPTIFLVIGTPTISGVLMGAAEKLNAMENYATVDAHDAALIQKQFVLNFMTSYMALFFTAFVYIPFGHILHPFLNFWRATAQTLTFSEKELPTREFQINPARISNQMFYFTVTAQIVNFATEVVVPYIKQQAFQAEFLQRVREECTLEEYDVSGDYREMVMQFGYVAMFSVAWPLAACCFLVNNWVELRSDALKIAISSRRPIPWRTDSIGPWLTALSFLSWLGSITSSAIVYLCSNASPLKAWGLLLSILFAEHFYLVVQLAVRFVLSKLDSPGLQKERKERFQTKKRLLQENLGQDAAAAPGIEHSEKITREALEEEARQASIEMFWQRQRGMQETIEIGRRMIEQQLAAG GVDFVIHYKVPAAERDEAEAGFVQLIRALTTVGLATEVRHGENESLLVFVKVASPDLFAKQVYRARLGDWLHGVRVSAPHNDIAQALQDEPVVEAERLRLIYLMITKPHNEWKHVESIFPLHSHSFNKEWIKKWSSKYTLEQTDIDNIRDKFGESVAFYFAFLRSYFRFLVIPSAFGFGAWLLLGQFSYLYALLCGLWSVVFFEYWKKQEVDLAVQWGVRGVSSIQQSRPEFEWEHEAEDPITGEPVKVYPPMKRVKTQLLQIPFALACVVALGALIVTCNSLEVFINEVYSGPGKQYLGFLPTIFLVIGTPTISGVLMGAAEKLNAMENYATVDAHDAALIQKQFVLNFMTSYMALFFTAFVYIPFGHILHPFLNFWRATAQTLTFSEKELPTREFQINPARISNQMFYFTVTAQIVNFATEVVVPYIKQQAFQAEFLQRVREECTLEEYDVSGDYREMVMQFGYVAMFSVAWPLAACCFLVNNWVELRSDALKIAISSRRPIPWRTDSIGPWLTALSFLSWLGSITSSAIVYLCSNASPLKAWGLLLSILFAEHFYLVVQLAVRFVLSKLDSPGLQKERKERFQTKKRLLQENLGQDAAAAPGIEHSEKITREALEEEARQASIEMFWQRQRGMQETIEIGRRMIEQQLAAG 4wj0-a1-m1-cB_4wj0-a1-m1-cA Structure of PH1245, a cas1 from Pyrococcus horikoshii O58938 O58938 2.85 X-RAY DIFFRACTION 135 0.99 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 309 315 KPLTIFSDGTLTRRENTLYFESGRKPLAIEGIYDIYIYGHVNITSQALHYIAQKGILIHFFNHYGYYDGTFYPRETLLSGDLIIRQAEHYLNKEKRLFLAKSFVTGGTKNMERNLKNWGIKAKLSDYLDELNDARKITEIMNVEARIRQEYYAKWDENLPEEFKIVKRTRRPPKNEMNALISFLNSRLYATIITEIYNTQLAPTISYLHEPSERRFSLSLDLSEIFKPIIADRVANRLVKKGSLKKEHFREDLNGVLLTEEGMKIVTKAYNEELQKSVVTRQRLIRLEAYKLIKHLVGVEEYKPLVAWF KKPLTIFSDGTLTRRENTLYFESAKGRKPLAIEGIYDIYIYGHVNITSQALHYIAQKGILIHFFNHYGYYDGTFYPRETLLSGDLIIRQAEHYLNKEKRLFLAKSFVTGGTKNMERNLKNWGIKAKLSDYLDELNDARKITEIMNVEARIRQEYYAKWDENLPEEFKIVKRTRRPPKNEMNALISFLNSRLYATIITEIYNTQLAPTISYLHEPSERRFSLSLDLSEIFKPIIADRVANRLVKKGSLKKEHFREDLNGVLLTEEGMKIVTKAYNEELQKSVKHPKIGVTRQRLIRLEAYKLIKHLVGVEEYKPLV 4wj1-a2-m1-cA_4wj1-a2-m2-cA Crystal structure of EspB from the ESX-1 type VII secretion system A0QNK4 A0QNK4 2.415 X-RAY DIFFRACTION 96 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 278 278 EELQYELPGLERKAHECESTRPEGPGDATKPDELATTASVYSKLASAAKLKATFAAGDREGERIAAAIRAAAGAYQKIEEQKAAELSRQNGSDAPPPAAEAVVPDSGIPGPLAIPSEYPSAAAAADEDWEAAARIIHSGDTQALSKYFRDQWRDYQSTLEGHGRHFANPAEGWAGAAAETCAEAQRRLSTWWADGAECGRLAQEATTFVDAHDKLVANHPTLENVREFEETEWASEWDRQNAWALQEQSEDALEAYANGSQIQEIRPGKPPSIGGLPI EELQYELPGLERKAHECESTRPEGPGDATKPDELATTASVYSKLASAAKLKATFAAGDREGERIAAAIRAAAGAYQKIEEQKAAELSRQNGSDAPPPAAEAVVPDSGIPGPLAIPSEYPSAAAAADEDWEAAARIIHSGDTQALSKYFRDQWRDYQSTLEGHGRHFANPAEGWAGAAAETCAEAQRRLSTWWADGAECGRLAQEATTFVDAHDKLVANHPTLENVREFEETEWASEWDRQNAWALQEQSEDALEAYANGSQIQEIRPGKPPSIGGLPI 4wj3-a1-m1-cK_4wj3-a1-m1-cB Crystal structure of the asparagine transamidosome from Pseudomonas aeruginosa Q9HVT7 Q9HVT7 3.705 X-RAY DIFFRACTION 10 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 455 456 WETVIGLEIHAQLATQSKIFSGSSTAFGAAPNTQASLVDLAMPGTLPVLNEEAVRMACLFGLAIDARIDRQNVFARKNYFYPDLPKGYQTSQMDHPIVGKGHLDITLEDGTTKRIGITRAHLEEDAGKSLHEDGMSGIDLNRAGTPLLEIVSEPDIRSAKEAVAYVKAIHALVRYLGICDGNMAEGSLRCDCNVSVRPKGQAEFGTRAEIKNVNSFRFIEKAINHEIQRQIELIEDGGKVVQETRLYDPNKDETRSMRGKEEANDYRYFPCPDLLPVVIEPEYLAKLREQLPELPVQKRERFESQYGLSAYDASVLSASREMADYFEKVQGICGDAKLAANWVMVELGSLLNKDGLEIEQSPVSAEQLGGMILRIKDNTISGKLAKMVFEAMANGEGSAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX WETVIGLEIHAQLATQSKIFSGSSTAFGAAPNTQASLVDLAMPGTLPVLNEEAVRMACLFGLAIDARIDRQNVFARKNYFYPDLPKGYQTSQMDHPIVGKGHLDITLEDGTTKRIGITRAHLEEDAGKSLHEDGMSGIDLNRAGTPLLEIVSEPDIRSAKEAVAYVKAIHALVRYLGICDGNMAEGSLRCDCNVSVRPKGQAEFGTRAEIKNVNSFRFIEKAINHEIQRQIELIEDGGKVVQETRLYDPNKDETRSMRGKEEANDYRYFPCPDLLPVVIEPEYLAKLREQLPELPVQKRERFESQYGLSAYDASVLSASREMADYFEKVQGICGDAKLAANWVMVELGSLLNKDGLEIEQSPVSAEQLGGMILRIKDNTISGKLAKMVFEAMANGEGSAXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 4wj3-a1-m1-cM_4wj3-a1-m1-cN Crystal structure of the asparagine transamidosome from Pseudomonas aeruginosa Q51422 Q51422 3.705 X-RAY DIFFRACTION 343 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 589 589 4wj3-a2-m1-cO_4wj3-a2-m1-cP 4wj4-a1-m1-cA_4wj4-a1-m2-cA MRSHYCGQLNESLDGQEVTLCGWVHRRRDHGGVIFLDVRDREGLAQVVFDPDRAETFAKADRVRSEFVVKITGKVRLRPEGARNPNMASGSIEVLGYELEVLNQAETPPFPLDEYSDVGEETRLRYRFIDLRRPEMAAKLKLRARITSSIRRYLDDNGFLDVETPILGRPTPEGARDYLVPSRTYPGHFFALPQSPQLFKQLLMVAGFDRYYQIAKCFRDEDLRADRQPEFTQIDIETSFLDESDIIGITEKMVRQLFKEVLDVEFDEFPHMPFEEAMRRYGSDKPDLRIPLELVDVADQLKEVEFKVFSGPANDPKGRVAALRVPGAASMPRSQIDDYTKFVGIYGAKGLAYIKVNERAKGVEGLQSPIVKFIPEANLNVILDRVGAVDGDIVFFGADKAKIVCDALGALRIKVGHDLKLLTREWAPMWVVDFPMFEENDDGSLSALHHPFTSPKCTPAELEANPGAALSRAYDMVLNGTELGGGSIRIHDKSMQQAVFRVLGIDEAEQEEKFGFLLDALKYGAPPHGGLAFGLDRLVMLMTGASSIREVIAFPKTQSAGDVMTQAPGSVDGKALRELHIRLREQPKA MRSHYCGQLNESLDGQEVTLCGWVHRRRDHGGVIFLDVRDREGLAQVVFDPDRAETFAKADRVRSEFVVKITGKVRLRPEGARNPNMASGSIEVLGYELEVLNQAETPPFPLDEYSDVGEETRLRYRFIDLRRPEMAAKLKLRARITSSIRRYLDDNGFLDVETPILGRPTPEGARDYLVPSRTYPGHFFALPQSPQLFKQLLMVAGFDRYYQIAKCFRDEDLRADRQPEFTQIDIETSFLDESDIIGITEKMVRQLFKEVLDVEFDEFPHMPFEEAMRRYGSDKPDLRIPLELVDVADQLKEVEFKVFSGPANDPKGRVAALRVPGAASMPRSQIDDYTKFVGIYGAKGLAYIKVNERAKGVEGLQSPIVKFIPEANLNVILDRVGAVDGDIVFFGADKAKIVCDALGALRIKVGHDLKLLTREWAPMWVVDFPMFEENDDGSLSALHHPFTSPKCTPAELEANPGAALSRAYDMVLNGTELGGGSIRIHDKSMQQAVFRVLGIDEAEQEEKFGFLLDALKYGAPPHGGLAFGLDRLVMLMTGASSIREVIAFPKTQSAGDVMTQAPGSVDGKALRELHIRLREQPKA 4wjb-a2-m1-cB_4wjb-a2-m1-cC X-ray crystal structure of a putative amidohydrolase/peptidase from Burkholderia cenocepacia B4EHA1 B4EHA1 1.95 X-RAY DIFFRACTION 160 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 407 407 4wjb-a1-m1-cD_4wjb-a1-m1-cA MPRVDGDRLWASLERMAQIGATPKGGVCRLALTDLDRESRDLFVQWAREAGCTVRVDRMGNVFARRAGRRPDAAPVMTGSHADSQPTGGRYDGIYGVLGGLEVVRALNDAAIETERPVDVVIWTNEEGSRFAPAMVSAGVFSGVYTLEYGLSRTDGAGRTIGEELERIGYAGAEPVGGYPVHAAYELHIEQGAILERAGKTIGVVTAGQGQRWYEVTLTGVDAHAGTTPMAFRRDALVGAARMISFVEVLGRRYAPDARATVGMIEARPNSRNTVPGGCFFTVEFRHPDDAVLDELDAALRAELARVADETGLGAQIEQIFTYAPVPFAPRCIDTVRDAARSLGLSHMDIVSGAGHDACYVARVAPTGMIFVPCVLSHNEAEAITPEWATAGADVLLRAVLQSAQEA MPRVDGDRLWASLERMAQIGATPKGGVCRLALTDLDRESRDLFVQWAREAGCTVRVDRMGNVFARRAGRRPDAAPVMTGSHADSQPTGGRYDGIYGVLGGLEVVRALNDAAIETERPVDVVIWTNEEGSRFAPAMVSAGVFSGVYTLEYGLSRTDGAGRTIGEELERIGYAGAEPVGGYPVHAAYELHIEQGAILERAGKTIGVVTAGQGQRWYEVTLTGVDAHAGTTPMAFRRDALVGAARMISFVEVLGRRYAPDARATVGMIEARPNSRNTVPGGCFFTVEFRHPDDAVLDELDAALRAELARVADETGLGAQIEQIFTYAPVPFAPRCIDTVRDAARSLGLSHMDIVSGAGHDACYVARVAPTGMIFVPCVLSHNEAEAITPEWATAGADVLLRAVLQSAQEA 4wjg-a3-m1-c2_4wjg-a3-m1-cW Structure of T. brucei haptoglobin-hemoglobin receptor binding to human haptoglobin-hemoglobin P00738 P00738 3.1 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 310 310 4wjg-a1-m1-cC_4wjg-a1-m1-cH 4wjg-a2-m1-cM_4wjg-a2-m1-cR CPKPPEIAHGYVEHSVRYQCKNYYKLRTEGDGVYTLNNEKQWINKAVGDKLPECEAVCGKPKNPANILGGHLDAKGSFPWQAKMVSHHNLTTGATLINEQWLLTTAKNLFLNHSENATAKDIAPTLTLYVGKKQLVEIEKVVLHPNYSQVDIGLIKLKQKVSVNERVMPICLPSKDYAEVGRVGYVSGWGRNANFKFTDHLKYVMLPVADQDQCIRHYEGSTVPEKKTPKSPVGVQPILNEHTFCAGMSKYQEDTCYGDAGSAFAVHDLEEDTWYATGILSFDKSCAVAEYGVYVKVTSIQDWVQKTIAE CPKPPEIAHGYVEHSVRYQCKNYYKLRTEGDGVYTLNNEKQWINKAVGDKLPECEAVCGKPKNPANILGGHLDAKGSFPWQAKMVSHHNLTTGATLINEQWLLTTAKNLFLNHSENATAKDIAPTLTLYVGKKQLVEIEKVVLHPNYSQVDIGLIKLKQKVSVNERVMPICLPSKDYAEVGRVGYVSGWGRNANFKFTDHLKYVMLPVADQDQCIRHYEGSTVPEKKTPKSPVGVQPILNEHTFCAGMSKYQEDTCYGDAGSAFAVHDLEEDTWYATGILSFDKSCAVAEYGVYVKVTSIQDWVQKTIAE 4wji-a1-m1-cA_4wji-a1-m2-cA Crystal structure of cyclohexadienyl dehydrogenase from Sinorhizobium meliloti in complex with NADP and tyrosine Q92MG1 Q92MG1 1.4 X-RAY DIFFRACTION 313 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 288 288 AQQFQTIALIGIGLIGSSIARDIREKQLAGTIVVTTRSEATLKRAGELGLGDRYTLSAAEAVEGADLVVVSVPVGASGAVAAEIAAHLKPGAIVTDVGSTKGSVIAQAPHLPKDVHFVPGHPIAGTEHSGPDAGFAGLFRGRWCILTPPAGTDEEAVARLRLFWETLGSVDEDPKHHDKVLAIVSHLPHIIAYNIVGTADDLETVTESEVIKYSASGFRDFTRLAASDPTWRDVCLHNKDAILELARFSEDLASLQRAIRWGDGDKLFDLFTRTRAIRRSIVQAGQDT AQQFQTIALIGIGLIGSSIARDIREKQLAGTIVVTTRSEATLKRAGELGLGDRYTLSAAEAVEGADLVVVSVPVGASGAVAAEIAAHLKPGAIVTDVGSTKGSVIAQAPHLPKDVHFVPGHPIAGTEHSGPDAGFAGLFRGRWCILTPPAGTDEEAVARLRLFWETLGSVDEDPKHHDKVLAIVSHLPHIIAYNIVGTADDLETVTESEVIKYSASGFRDFTRLAASDPTWRDVCLHNKDAILELARFSEDLASLQRAIRWGDGDKLFDLFTRTRAIRRSIVQAGQDT 4wjl-a1-m1-cA_4wjl-a1-m1-cB Structure of human dipeptidyl peptidase 10 (DPPY): a modulator of neuronal Kv4 channels Q8N608 Q8N608 3.4 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 717 719 ETRLSLEDLFRKDFVLHDPEARWINDTDVVYKSENGHVIKLNIETNATTLLLENTTFVTFKASRHSVSPDLKYVLLAYDVKQIFHYSYTASYVIYNIHTREVWELNPPEVEDSVLQYAAWGVQGQQLIYIFENNIYYQPDIKSSSLRLTSSGKEEIIFNGIADWLYEEELLHSHIAHWWSPDGERLAFLMINDSLVPTMVIPRFTGALYPKGKQYPYPKAGQMNPTIKLYVVNLYGPTHTLELMPPDSFKSREYYITMVKWVSNTKTVVRWLNRAQNISILTVCETTTGACSKKYEMTSDTWLSQQNEEPVFSRDGSKFFMTVPVKQGGRGEFHHIAMFLIQSKSEQITVRHLTSGNWEVIKILAYDETTQKIYFLSTESSPRGRQLYSASTEGLLNRQCISCNFMKEQCTYFDASFSPMNQHFLLFCEGPRVPVVSLHSTDNPAKYFILESNSMLKEAILKKKIGKPEIKILHIDDYELPLQLSLPKDFMDRNQYALLLIMDEEPGGQLVTDKFHIDWDSVLIDMDNVIVARFDGRGSGFQGLKILQEIHRRLGSVEVKDQITAVKFLLKLPYIDSKRLSIFGKGYGGYIASMILKSDEKLFKCGSVVAPITDLKLYASAFSERYLGMPSKEESTYQAASVLHNVHGLKEENILIIHGTADTKVHFQHSAELIKHLIKAGVNYTMQVYPDEGHNVSEKSKYHLYSTILKFFSDCLK SETRLSLEDLFRKDFVLHDPEARWINDTDVVYKSENGHVIKLNIETNATTLLLENTTFVTFKASRHSVSPDLKYVLLAYDVKQIFHYSYTASYVIYNIHTREVWELNPPEVEDSVLQYAAWGVQGQQLIYIFENNIYYQPDIKSSSLRLTSSGKEEIIFNGIADWLYEEELLHSHIAHWWSPDGERLAFLMINDSLVPTMVIPRFTGALYPKGKQYPYPKAGQMNPTIKLYVVNLYGPTHTLELMPPDSFKSREYYITMVKWVSNTKTVVRWLNRAQNISILTVCETTTGACSKKYEMTSDTWLSQQNEEPVFSRDGSKFFMTVPVKQGGRGEFHHIAMFLIQSKSEQITVRHLTSGNWEVIKILAYDETTQKIYFLSTESSPRGRQLYSASTEGLLNRQCISCNFMKEQCTYFDASFSPMNQHFLLFCEGPRVPVVSLHSTDNPAKYFILESNSMLKEAILKKKIGKPEIKILHIDDYELPLQLSLPKDFMDRNQYALLLIMDEEPGGQLVTDKFHIDWDSVLIDMDNVIVARFDGRGSGFQGLKILQEIHRRLGSVEVKDQITAVKFLLKLPYIDSKRLSIFGKGYGGYIASMILKSDEKLFKCGSVVAPITDLKLYASAFSERYLGMPSKEESTYQAASVLHNVHGLKEENILIIHGTADTKVHFQHSAELIKHLIKAGVNYTMQVYPDEGHNVSEKSKYHLYSTILKFFSDCLKE 4wjm-a1-m1-cA_4wjm-a1-m2-cA Crystal structure of Fructokinase from Brucella abortus 2308 with bound AMPPNP Q2YNY7 Q2YNY7 1.7 X-RAY DIFFRACTION 72 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 312 312 4u7x-a1-m1-cA_4u7x-a1-m2-cA HHHHHHMILCCGEALIDMLPRETTGGETAFQPFAGGSVFNTAIALGRLGVPTGFFSGISSDFFGDVLRDTLARSNVDYSFAAISNRPTTLAFVRLVDGQARYAFYDENTAGRMLSRNDMPYVDETISAMLFGCISLISEPCGSVYETLLAREAPNRVMFLDPNIRANLITVRKTHLTRMKRMIALADIVKLSDEDLDWFGEKGSHDEIAAEWLKLGPKLVVITKGAHGAVAYTNHATVPVPGVKVDVVDTVGAGDTVNAGILASLHSQGLLTKDALANLSEDQIHSAVALGVRAAAVTVSRAGANPPWAHEM HHHHHHMILCCGEALIDMLPRETTGGETAFQPFAGGSVFNTAIALGRLGVPTGFFSGISSDFFGDVLRDTLARSNVDYSFAAISNRPTTLAFVRLVDGQARYAFYDENTAGRMLSRNDMPYVDETISAMLFGCISLISEPCGSVYETLLAREAPNRVMFLDPNIRANLITVRKTHLTRMKRMIALADIVKLSDEDLDWFGEKGSHDEIAAEWLKLGPKLVVITKGAHGAVAYTNHATVPVPGVKVDVVDTVGAGDTVNAGILASLHSQGLLTKDALANLSEDQIHSAVALGVRAAAVTVSRAGANPPWAHEM 4wjw-a1-m1-cA_4wjw-a1-m2-cA Crystal Structure of the Chs5-Chs6 Exomer Cargo Adaptor Complex Bound to portion of Chs3 Q12114 Q12114 2.59 X-RAY DIFFRACTION 60 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 68 68 VDVLLTVGKALLTTQDHHVIEFPTVLLPENVKAGSIIKMQSQNLEEEKKQRNHFKSIQAKILEKYGTH VDVLLTVGKALLTTQDHHVIEFPTVLLPENVKAGSIIKMQSQNLEEEKKQRNHFKSIQAKILEKYGTH 4wk1-a1-m2-cA_4wk1-a1-m3-cA Crystal structure of Staphylococcus aureus PstA in complex with c-di-AMP A0A0H2WXZ7 A0A0H2WXZ7 1.98 X-RAY DIFFRACTION 67 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 92 92 4d3g-a1-m1-cA_4d3g-a1-m2-cA 4d3g-a1-m1-cA_4d3g-a1-m3-cA 4d3g-a1-m2-cA_4d3g-a1-m3-cA 4wk1-a1-m1-cA_4wk1-a1-m2-cA 4wk1-a1-m1-cA_4wk1-a1-m3-cA 4wk3-a1-m1-cA_4wk3-a1-m2-cA 4wk3-a1-m1-cA_4wk3-a1-m3-cA 4wk3-a1-m2-cA_4wk3-a1-m3-cA GLVPRGSHMKMIIAIVQDQDSQELADQLVKNNFRATKLATTGGFLRAGNTTFLCGVNDDRVDEILSVINQTCGNEVGGATVFVMPVDAFHQF GLVPRGSHMKMIIAIVQDQDSQELADQLVKNNFRATKLATTGGFLRAGNTTFLCGVNDDRVDEILSVINQTCGNEVGGATVFVMPVDAFHQF 4wk5-a1-m1-cA_4wk5-a1-m2-cA Crystal structure of a Isoprenoid Synthase family member from Thermotoga neapolitana DSM 4359, target EFI-509458 B9K6W9 B9K6W9 1.7 X-RAY DIFFRACTION 137 1.0 309803 (Thermotoga neapolitana DSM 4359) 309803 (Thermotoga neapolitana DSM 4359) 256 256 SMKKETIERRIEELVKPHFNLLTESAMQYSVTAGGKRIRPLLVLTVGEDIGVEEERLVDVAVAVELFHTASLVHDDLPPIDNADFRRGKPSCHRAYGEGIALLAGDGLFFLAFSQIAKVREPKLFEEFSETAYKLLLGEAMDVEFERQEKEISVEMVEKMYSFKTGALFAFCFSAPFLLKGLDHTFVKKLGEKFGVAFQIYDDLKDVLGSKVTLVKKMGVQKAKQLADKYYEEVLEALESEGLHRTFDFLRNLKKM SMKKETIERRIEELVKPHFNLLTESAMQYSVTAGGKRIRPLLVLTVGEDIGVEEERLVDVAVAVELFHTASLVHDDLPPIDNADFRRGKPSCHRAYGEGIALLAGDGLFFLAFSQIAKVREPKLFEEFSETAYKLLLGEAMDVEFERQEKEISVEMVEKMYSFKTGALFAFCFSAPFLLKGLDHTFVKKLGEKFGVAFQIYDDLKDVLGSKVTLVKKMGVQKAKQLADKYYEEVLEALESEGLHRTFDFLRNLKKM 4wkb-a1-m1-cA_4wkb-a1-m1-cB Crystal structure of Vibrio cholerae 5'-methylthioadenosine/S-adenosyl homocysteine nucleosidase (MTAN) complexed with methylthio-DADMe-Immucillin-A A5F5R2 A5F5R2 1.37 X-RAY DIFFRACTION 129 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 237 237 3dp9-a1-m1-cA_3dp9-a1-m1-cC 4x24-a1-m1-cA_4x24-a1-m1-cB MKIGIIGAMQQEVAILKDLIEDVQEVNQAGCTFYSGQIQGVDVVLLQSGIGKVSAALGTALLISQYAPDVVINTGSAGGFDASLNVGDVVISSEVRHHDADVTAFGYEIGQMAGQPAAFKADEKLMTVAEQALAQLPNTHAVRGLICTGDAFVCTAERQQFIRQHFPSVVAVEMEASAIAQTCHQFKVPFVVVRAISDVADKESPLSFEEFLPLAAKSSSAMVLKMVELLKENLYFQ MKIGIIGAMQQEVAILKDLIEDVQEVNQAGCTFYSGQIQGVDVVLLQSGIGKVSAALGTALLISQYAPDVVINTGSAGGFDASLNVGDVVISSEVRHHDADVTAFGYEIGQMAGQPAAFKADEKLMTVAEQALAQLPNTHAVRGLICTGDAFVCTAERQQFIRQHFPSVVAVEMEASAIAQTCHQFKVPFVVVRAISDVADKESPLSFEEFLPLAAKSSSAMVLKMVELLKENLYFQ 4wkm-a1-m1-cB_4wkm-a1-m1-cA AmpR effector binding domain from Citrobacter freundii bound to UDP-MurNAc-pentapeptide 2.15 X-RAY DIFFRACTION 78 1.0 1006003 (Citrobacter freundii ATCC 8090 = MTCC 1658 = NBRC 12681) 1006003 (Citrobacter freundii ATCC 8090 = MTCC 1658 = NBRC 12681) 196 197 3kos-a1-m1-cA_3kos-a1-m2-cA 3kot-a1-m1-cA_3kot-a1-m2-cA 4wkm-a2-m1-cC_4wkm-a2-m1-cD 4wkm-a3-m1-cE_4wkm-a3-m1-cF 4wkm-a4-m1-cG_4wkm-a4-m1-cH EKLKIGVVGTFAIGCLFPLLSDFKRSYPHIDLHISTHNNRVDPAAEGLDYTIRYGGGAWHDTDAQYLCSALMSPLCSPTLASQIQTPADILKFPLLRSYRRDEWALWMQTVGEAPPSPTHNVMVFDSSVTMLEAAQAGMGVAIAPVRMFTHLLSSERIVQPFLTQIDLGSYWITRLQSRPETPAMREFSRWLTGVL QEKLKIGVVGTFAIGCLFPLLSDFKRSYPHIDLHISTHNNRVDPAAEGLDYTIRYGGGAWHDTDAQYLCSALMSPLCSPTLASQIQTPADILKFPLLRSYRRDEWALWMQTVGEAPPSPTHNVMVFDSSVTMLEAAQAGMGVAIAPVRMFTHLLSSERIVQPFLTQIDLGSYWITRLQSRPETPAMREFSRWLTGVL 4wky-a1-m1-cB_4wky-a1-m1-cA Streptomcyes albus JA3453 oxazolomycin ketosynthase domain OzmN KS2 B2WW47 B2WW47 2 X-RAY DIFFRACTION 199 0.995 1888 (Streptomyces albus) 1888 (Streptomyces albus) 572 573 VSGNDIAIVGAGRFPGADSVGEFWELLRSGREGITRFSDEELAAAGVPAALRADPAYVRAHGILPDVDLFDTGFFEFTPAEAEVIDPQHRLFLESCHTALEDAGYDPRRYDGLISVYGGAAINTYLQRHVLPSIDQTATSDHFRVVGNDKDFLATRVSYKLDLRGPSYSVQTACSTSLVAIHLACQGLINGECDALAGGVTVKLPQARGYLYEEGAILSPDGRVRTFDAEAGGTVLGNGVGIVVLKLLADALDAGDTIHAVIKGTATNNDGSLKVSYAAPGKEGQAAVVAEAHAVSGTEPESVTYVEAHGTATRLGDPVEVAALTDAFRRGTSDTGFCAIGSLKSNVGHLDAAAGVAGVIKTALLRHRSLVPTLNHERPNPAIDFAATPFYVNTETRPWAGGPLRAGVSSFGIGGTNAHAILQEAPEQGPTEPSPRAEQLLVLSARTRTALDTLTDDLADHLEANPGTDLADAAHTLAVGRRAHRHRRAVICADPARAVRALRERAEPDCATAEATGAFTPGSGRALLEAVRTAWLDGAEVDWARFYAGERRRRVPLPTYPFEGRRVWLEPP SGNDIAIVGAGRFPGADSVGEFWELLRSGREGITRFSDEELAAAGVPAALRADPAYVRAHGILPDVDLFDTGFFEFTPAEAEVIDPQHRLFLESCHTALEDAGYDPRRYDGLISVYGGAAINTYLQRHVLPSIDQTATSDHFRVVGNDKDFLATRVSYKLDLRGPSYSVQTACSTSLVAIHLACQGLINGECDALAGGVTVKLPQARGYLYEEGAILSPDGRVRTFDAEAGGTVLGNGVGIVVLKLLADALDAGDTIHAVIKGTATNNDGSLKVSYAAPGKEGQAAVVAEAHAVSGTEPESVTYVEAHGTATRLGDPVEVAALTDAFRRGTSDTGFCAIGSLKSNVGHLDAAAGVAGVIKTALLRHRSLVPTLNHERPNPAIDFAATPFYVNTETRPWAGEGPLRAGVSSFGIGGTNAHAILQEAPEQGPTEPSPRAEQLLVLSARTRTALDTLTDDLADHLEANPGTDLADAAHTLAVGRRAHRHRRAVICADPARAVRALRERAEPDCATAEATGAFTPGPGLSGRALLEAVRTAWLDGAEVDWARFYAGERRRRVPLPTYPFEGRRVWLE 4wl2-a3-m1-cD_4wl2-a3-m1-cG Structure of penicillin V acylase from Pectobacterium atrosepticum Q6D291 Q6D291 2.5 X-RAY DIFFRACTION 128 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 347 347 4wl2-a1-m1-cA_4wl2-a1-m1-cH 4wl2-a2-m1-cB_4wl2-a2-m1-cC 4wl2-a4-m1-cE_4wl2-a4-m1-cF CTRFVYLDPHNPDYPITARSMDWADDTETNLWIFPQELKRSGGAGQYSLEWTSKYGSVIASAFDGRKGMASTTDGVNEKGLAANVLWLAESEYPKTKPTAKKPGLSVAAWAQYVLDNFATVDEAVKSLQQEKFILVTKQVEGQKRLATLHLSLSDSSGDSAIIEYIDGKQVIHHSKNYQVMTNSPTFDQQLTLNAYWDQIGGNVMLPGTNRAADRFVRASFYVKNVNPNKLIPGVAEKGKIEKDKADLATAFSIIRNASVPYGYSLPDMPNIASTRWRTVVDHKSLQYFFESAVSPNIFWVDLKKINFAPRGGSAAKLDLGPNQSTIYSGQASGHFKPAQPFEFAGL CTRFVYLDPHNPDYPITARSMDWADDTETNLWIFPQELKRSGGAGQYSLEWTSKYGSVIASAFDGRKGMASTTDGVNEKGLAANVLWLAESEYPKTKPTAKKPGLSVAAWAQYVLDNFATVDEAVKSLQQEKFILVTKQVEGQKRLATLHLSLSDSSGDSAIIEYIDGKQVIHHSKNYQVMTNSPTFDQQLTLNAYWDQIGGNVMLPGTNRAADRFVRASFYVKNVNPNKLIPGVAEKGKIEKDKADLATAFSIIRNASVPYGYSLPDMPNIASTRWRTVVDHKSLQYFFESAVSPNIFWVDLKKINFAPRGGSAAKLDLGPNQSTIYSGQASGHFKPAQPFEFAGL 4wle-a1-m1-cA_4wle-a1-m1-cD Crystal structure of citrate bound MDH2 P40926 P40926 1.9 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 314 314 1mld-a3-m1-cA_1mld-a3-m1-cC 1mld-a3-m1-cB_1mld-a3-m1-cD 2dfd-a3-m1-cA_2dfd-a3-m1-cD 2dfd-a3-m1-cB_2dfd-a3-m1-cC 4wle-a1-m1-cB_4wle-a1-m1-cC 4wlf-a1-m1-cA_4wlf-a1-m1-cD 4wlf-a1-m1-cB_4wlf-a1-m1-cC 4wln-a1-m1-cA_4wln-a1-m1-cD 4wln-a1-m1-cB_4wln-a1-m1-cC 4wlo-a1-m1-cA_4wlo-a1-m1-cD 4wlo-a1-m1-cB_4wlo-a1-m1-cC 4wlu-a1-m1-cA_4wlu-a1-m1-cC 4wlu-a1-m1-cB_4wlu-a1-m1-cD 4wlv-a1-m1-cA_4wlv-a1-m1-cC 4wlv-a1-m1-cB_4wlv-a1-m1-cD NAKVAVLGASGGIGQPLSLLLKNSPLVSRLTLYDIAHTPGVAADLSHIETKAAVKGYLGPEQLPDCLKGCDVVVIPAGVPRKPGMTRDDLFNTNATIVATLTAACAQHCPEAMICVIANPVNSTIPITAEVFKKHGVYNPNKIFGVTTLDIVRANTFVAELKGLDPARVNVPVIGGHAGKTIIPLISQCTPKVDFPQDQLTALTGRIQEAGTEVVKAKAGAGSATLSMAYAGARFVFSLVDAMNGKEGVVECSFVKSQETECTYFSTPLLLGKKGIEKNLGIGKVSSFEEKMISDAIPELKASIKKGEDFVKTL NAKVAVLGASGGIGQPLSLLLKNSPLVSRLTLYDIAHTPGVAADLSHIETKAAVKGYLGPEQLPDCLKGCDVVVIPAGVPRKPGMTRDDLFNTNATIVATLTAACAQHCPEAMICVIANPVNSTIPITAEVFKKHGVYNPNKIFGVTTLDIVRANTFVAELKGLDPARVNVPVIGGHAGKTIIPLISQCTPKVDFPQDQLTALTGRIQEAGTEVVKAKAGAGSATLSMAYAGARFVFSLVDAMNGKEGVVECSFVKSQETECTYFSTPLLLGKKGIEKNLGIGKVSSFEEKMISDAIPELKASIKKGEDFVKTL 4wlh-a1-m1-cB_4wlh-a1-m1-cA High resolution crystal structure of human kynurenine aminotransferase-I bound to PLP cofactor Q16773 Q16773 1.28 X-RAY DIFFRACTION 208 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 411 412 1w7l-a1-m1-cA_1w7l-a1-m2-cA 1w7m-a1-m1-cA_1w7m-a1-m2-cA 1w7n-a1-m1-cA_1w7n-a1-m2-cA 3fvs-a1-m1-cA_3fvs-a1-m1-cB 3fvu-a1-m1-cA_3fvu-a1-m1-cB 3fvx-a1-m1-cA_3fvx-a1-m1-cB 4wlj-a1-m1-cA_4wlj-a1-m1-cB 4wp0-a1-m1-cB_4wp0-a1-m1-cA 4wp0-a2-m1-cC_4wp0-a2-m1-cD QLQARRLDGIDYNPWVEFVKLASEHDVVNLGQGFPDFPPPDFAVEAFQHAVSGDFMLNQYTKTFGYPPLTKILASFFGELLGQEIDPLRNVLVTVGGYGALFTAFQALVDEGDEVIIIEPFFDCYEPMTMMAGGRPVFVSLKPLGSSSNWQLDPMELAGKFTSRTKALVLNTPNNPLGKVFSREELELVASLCQQHDVVCITDEVYQWMVYDGHQHISIASLPGMWERTLTIGSAGTFSATGWKVGWVLGPDHIMKHLRTVHQNSVFHCPTQSQAAVAESFEREQLLFRQPSSYFVQFPQAMQRCRDHMIRSLQSVGLKPIIPQGSYFLITDISDFKRKMPDLPGAVDEPYDRRFVKWMIKNKGLVAIPVSIFYSVPHQKHFDHYIRFCFVKDEATLQAMDEKLRKWKVEL QLQARRLDGIDYNPWVEFVKLASEHDVVNLGQGFPDFPPPDFAVEAFQHAVSGDFMLNQYTKTFGYPPLTKILASFFGELLGQEIDPLRNVLVTVGGYGALFTAFQALVDEGDEVIIIEPFFDCYEPMTMMAGGRPVFVSLKPELGSSSNWQLDPMELAGKFTSRTKALVLNTPNNPLGKVFSREELELVASLCQQHDVVCITDEVYQWMVYDGHQHISIASLPGMWERTLTIGSAGTFSATGWKVGWVLGPDHIMKHLRTVHQNSVFHCPTQSQAAVAESFEREQLLFRQPSSYFVQFPQAMQRCRDHMIRSLQSVGLKPIIPQGSYFLITDISDFKRKMPDLPGAVDEPYDRRFVKWMIKNKGLVAIPVSIFYSVPHQKHFDHYIRFCFVKDEATLQAMDEKLRKWKVEL 4wlk-a1-m1-cB_4wlk-a1-m1-cA Stationary Phase Survival Protein YuiC from B.subtilis complexed with reaction product O32108 O32108 2.03 X-RAY DIFFRACTION 270 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 144 145 4wjt-a1-m1-cA_4wjt-a1-m1-cB 4wli-a1-m1-cA_4wli-a1-m2-cA PLEEAFDWDEYPVQRVTATGYTAGAESTGKNPGDPLYGLTYSGVKVKRDLYSTVAADPSVFPIGTILFIPNYGLGVVADTGSAIKGNRLDLYFETVKDVYNEWGKKTLDVYVIKKGTGKITEDELEKLNETKSLQVFRNQYKTV KPLEEAFDWDEYPVQRVTATGYTAGAESTGKNPGDPLYGLTYSGVKVKRDLYSTVAADPSVFPIGTILFIPNYGLGVVADTGSAIKGNRLDLYFETVKDVYNEWGKKTLDVYVIKKGTGKITEDELEKLNETKSLQVFRNQYKTV 4wlm-a3-m2-cA_4wlm-a3-m1-cB Crystal structure of mouse Xyloside xylosyltransferase 1 complexed with manganese Q3U4G3 Q3U4G3 3 X-RAY DIFFRACTION 80 0.997 10090 (Mus musculus) 10090 (Mus musculus) 286 290 4wlg-a3-m2-cA_4wlg-a3-m1-cB 4wlz-a3-m1-cA_4wlz-a3-m2-cB PVDYHLLMMFTKAEHNAPLQAKARVALSSLLRLAKFEAHEVLNLHFVSEEASREVAKALLRELLFKCKVIFHDVAVLTDKLFPVVEAMQKYFSAYYSDSIFFLSVAMHQIMPKEIPRIIQLDLDLKYKTNIRELFEEFDNFLPGAVIGIAREMQPVYRHTFWQFRHENPKTRVGDPPPEGLPGFNSGVMLLNLEAMRQSPLYSHLLEPSWVQQLADKYHFRGHLGDQDFFTMIGMEHPELFHVLDCTWNRQLCTWWRDHGYSDVFQAYFRCEGHVKIYHGNCNTPI VDYHLLMMFTKAEHNAPLQAKARVALSSLLRLAKFEAHEVLNLHFVSEEASREVAKALLRELLFKCKVIFHDVAVLTDKLFPVVEAMQKYFSAGSGTYYSDSIFFLSVAMHQIMPKEIPRIIQLDLDLKYKTNIRELFEEFDNFLPGAVIGIAREMQPVYRHTFWQFRHENPKTRVGDPPPEGLPGFNSGVMLLNLEAMRQSPLYSHLLEPSWVQQLADKYHFRGHLGDQDFFTMIGMEHPELFHVLDCTWNRQLCTWWRDHGYSDVFQAYFRCEGHVKIYHGNCNTPIP 4wlp-a2-m1-cB_4wlp-a2-m2-cB Crystal structure of UCH37-NFRKB Inhibited Deubiquitylating Complex Q6P4R8 Q6P4R8 3.102 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 EDLLEDPEIFFDVVSLSTWQEVLSDSQREHLQQFLPQFPEDSAEQQNELILALFSGENFRFGNPLHIAQKLFRDGHFNPEVVKYRQLCFKSQYKRYLNSQQQYFHRLLKQILAS EDLLEDPEIFFDVVSLSTWQEVLSDSQREHLQQFLPQFPEDSAEQQNELILALFSGENFRFGNPLHIAQKLFRDGHFNPEVVKYRQLCFKSQYKRYLNSQQQYFHRLLKQILAS 4wls-a1-m1-cA_4wls-a1-m1-cB Crystal structure of the metal-free (repressor) form of E. Coli CUER, a copper efflux regulator, bound to COPA promoter DNA P0A9G4 P0A9G4 2.105 X-RAY DIFFRACTION 81 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 108 108 NISDVAKITGLTSKAIRFYEEKGLVTPPRSENGYRTYTQQHLNELTLLRQARQVGFNLEESGELVNLFNDPQRHSADVKRRTLEKVAEIERHIEELQSRDQLLALANA NISDVAKITGLTSKAIRFYEEKGLVTPPRSENGYRTYTQQHLNELTLLRQARQVGFNLEESGELVNLFNDPQRHSADVKRRTLEKVAEIERHIEELQSRDQLLALANA 4wm8-a1-m23-cB_4wm8-a1-m9-cB Crystal Structure of Human Enterovirus D68 Q68T42 Q68T42 2 X-RAY DIFFRACTION 64 1.0 42789 (enterovirus D68) 42789 (enterovirus D68) 238 238 4wm7-a1-m10-cB_4wm7-a1-m5-cB 4wm7-a1-m11-cB_4wm7-a1-m37-cB 4wm7-a1-m12-cB_4wm7-a1-m46-cB 4wm7-a1-m13-cB_4wm7-a1-m44-cB 4wm7-a1-m14-cB_4wm7-a1-m28-cB 4wm7-a1-m15-cB_4wm7-a1-m20-cB 4wm7-a1-m16-cB_4wm7-a1-m27-cB 4wm7-a1-m17-cB_4wm7-a1-m51-cB 4wm7-a1-m18-cB_4wm7-a1-m59-cB 4wm7-a1-m19-cB_4wm7-a1-m38-cB 4wm7-a1-m1-cB_4wm7-a1-m22-cB 4wm7-a1-m21-cB_4wm7-a1-m42-cB 4wm7-a1-m23-cB_4wm7-a1-m9-cB 4wm7-a1-m24-cB_4wm7-a1-m53-cB 4wm7-a1-m25-cB_4wm7-a1-m30-cB 4wm7-a1-m26-cB_4wm7-a1-m52-cB 4wm7-a1-m29-cB_4wm7-a1-m43-cB 4wm7-a1-m2-cB_4wm7-a1-m41-cB 4wm7-a1-m31-cB_4wm7-a1-m57-cB 4wm7-a1-m32-cB_4wm7-a1-m6-cB 4wm7-a1-m33-cB_4wm7-a1-m4-cB 4wm7-a1-m34-cB_4wm7-a1-m48-cB 4wm7-a1-m35-cB_4wm7-a1-m40-cB 4wm7-a1-m36-cB_4wm7-a1-m47-cB 4wm7-a1-m39-cB_4wm7-a1-m58-cB 4wm7-a1-m3-cB_4wm7-a1-m49-cB 4wm7-a1-m45-cB_4wm7-a1-m50-cB 4wm7-a1-m54-cB_4wm7-a1-m8-cB 4wm7-a1-m55-cB_4wm7-a1-m60-cB 4wm7-a1-m56-cB_4wm7-a1-m7-cB 4wm8-a1-m10-cB_4wm8-a1-m5-cB 4wm8-a1-m11-cB_4wm8-a1-m37-cB 4wm8-a1-m12-cB_4wm8-a1-m46-cB 4wm8-a1-m13-cB_4wm8-a1-m44-cB 4wm8-a1-m14-cB_4wm8-a1-m28-cB 4wm8-a1-m15-cB_4wm8-a1-m20-cB 4wm8-a1-m16-cB_4wm8-a1-m27-cB 4wm8-a1-m17-cB_4wm8-a1-m51-cB 4wm8-a1-m18-cB_4wm8-a1-m59-cB 4wm8-a1-m19-cB_4wm8-a1-m38-cB 4wm8-a1-m1-cB_4wm8-a1-m22-cB 4wm8-a1-m21-cB_4wm8-a1-m42-cB 4wm8-a1-m24-cB_4wm8-a1-m53-cB 4wm8-a1-m25-cB_4wm8-a1-m30-cB 4wm8-a1-m26-cB_4wm8-a1-m52-cB 4wm8-a1-m29-cB_4wm8-a1-m43-cB 4wm8-a1-m2-cB_4wm8-a1-m41-cB 4wm8-a1-m31-cB_4wm8-a1-m57-cB 4wm8-a1-m32-cB_4wm8-a1-m6-cB 4wm8-a1-m33-cB_4wm8-a1-m4-cB 4wm8-a1-m34-cB_4wm8-a1-m48-cB 4wm8-a1-m35-cB_4wm8-a1-m40-cB 4wm8-a1-m36-cB_4wm8-a1-m47-cB 4wm8-a1-m39-cB_4wm8-a1-m58-cB 4wm8-a1-m3-cB_4wm8-a1-m49-cB 4wm8-a1-m45-cB_4wm8-a1-m50-cB 4wm8-a1-m54-cB_4wm8-a1-m8-cB 4wm8-a1-m55-cB_4wm8-a1-m60-cB 4wm8-a1-m56-cB_4wm8-a1-m7-cB 5bnn-a1-m10-cB_5bnn-a1-m5-cB 5bnn-a1-m11-cB_5bnn-a1-m37-cB 5bnn-a1-m12-cB_5bnn-a1-m46-cB 5bnn-a1-m13-cB_5bnn-a1-m44-cB 5bnn-a1-m14-cB_5bnn-a1-m28-cB 5bnn-a1-m15-cB_5bnn-a1-m20-cB 5bnn-a1-m16-cB_5bnn-a1-m27-cB 5bnn-a1-m17-cB_5bnn-a1-m51-cB 5bnn-a1-m18-cB_5bnn-a1-m59-cB 5bnn-a1-m19-cB_5bnn-a1-m38-cB 5bnn-a1-m1-cB_5bnn-a1-m22-cB 5bnn-a1-m21-cB_5bnn-a1-m42-cB 5bnn-a1-m23-cB_5bnn-a1-m9-cB 5bnn-a1-m24-cB_5bnn-a1-m53-cB 5bnn-a1-m25-cB_5bnn-a1-m30-cB 5bnn-a1-m26-cB_5bnn-a1-m52-cB 5bnn-a1-m29-cB_5bnn-a1-m43-cB 5bnn-a1-m2-cB_5bnn-a1-m41-cB 5bnn-a1-m31-cB_5bnn-a1-m57-cB 5bnn-a1-m32-cB_5bnn-a1-m6-cB 5bnn-a1-m33-cB_5bnn-a1-m4-cB 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7taf-a1-m34-cB_7taf-a1-m48-cB 7taf-a1-m35-cB_7taf-a1-m40-cB 7taf-a1-m36-cB_7taf-a1-m47-cB 7taf-a1-m39-cB_7taf-a1-m58-cB 7taf-a1-m3-cB_7taf-a1-m49-cB 7taf-a1-m45-cB_7taf-a1-m50-cB 7taf-a1-m54-cB_7taf-a1-m8-cB 7taf-a1-m55-cB_7taf-a1-m60-cB 7taf-a1-m56-cB_7taf-a1-m7-cB 7tag-a1-m10-cB_7tag-a1-m5-cB 7tag-a1-m11-cB_7tag-a1-m37-cB 7tag-a1-m12-cB_7tag-a1-m46-cB 7tag-a1-m13-cB_7tag-a1-m44-cB 7tag-a1-m14-cB_7tag-a1-m28-cB 7tag-a1-m15-cB_7tag-a1-m20-cB 7tag-a1-m16-cB_7tag-a1-m27-cB 7tag-a1-m17-cB_7tag-a1-m51-cB 7tag-a1-m18-cB_7tag-a1-m59-cB 7tag-a1-m19-cB_7tag-a1-m38-cB 7tag-a1-m1-cB_7tag-a1-m22-cB 7tag-a1-m21-cB_7tag-a1-m42-cB 7tag-a1-m23-cB_7tag-a1-m9-cB 7tag-a1-m24-cB_7tag-a1-m53-cB 7tag-a1-m25-cB_7tag-a1-m30-cB 7tag-a1-m26-cB_7tag-a1-m52-cB 7tag-a1-m29-cB_7tag-a1-m43-cB 7tag-a1-m2-cB_7tag-a1-m41-cB 7tag-a1-m31-cB_7tag-a1-m57-cB 7tag-a1-m32-cB_7tag-a1-m6-cB 7tag-a1-m33-cB_7tag-a1-m4-cB 7tag-a1-m34-cB_7tag-a1-m48-cB 7tag-a1-m35-cB_7tag-a1-m40-cB 7tag-a1-m36-cB_7tag-a1-m47-cB 7tag-a1-m39-cB_7tag-a1-m58-cB 7tag-a1-m3-cB_7tag-a1-m49-cB 7tag-a1-m45-cB_7tag-a1-m50-cB 7tag-a1-m54-cB_7tag-a1-m8-cB 7tag-a1-m55-cB_7tag-a1-m60-cB 7tag-a1-m56-cB_7tag-a1-m7-cB 7tah-a1-m10-cB_7tah-a1-m5-cB 7tah-a1-m11-cB_7tah-a1-m37-cB 7tah-a1-m12-cB_7tah-a1-m46-cB 7tah-a1-m13-cB_7tah-a1-m44-cB 7tah-a1-m14-cB_7tah-a1-m28-cB 7tah-a1-m15-cB_7tah-a1-m20-cB 7tah-a1-m16-cB_7tah-a1-m27-cB 7tah-a1-m17-cB_7tah-a1-m51-cB 7tah-a1-m18-cB_7tah-a1-m59-cB 7tah-a1-m19-cB_7tah-a1-m38-cB 7tah-a1-m1-cB_7tah-a1-m22-cB 7tah-a1-m21-cB_7tah-a1-m42-cB 7tah-a1-m23-cB_7tah-a1-m9-cB 7tah-a1-m24-cB_7tah-a1-m53-cB 7tah-a1-m25-cB_7tah-a1-m30-cB 7tah-a1-m26-cB_7tah-a1-m52-cB 7tah-a1-m29-cB_7tah-a1-m43-cB 7tah-a1-m2-cB_7tah-a1-m41-cB 7tah-a1-m31-cB_7tah-a1-m57-cB 7tah-a1-m32-cB_7tah-a1-m6-cB 7tah-a1-m33-cB_7tah-a1-m4-cB 7tah-a1-m34-cB_7tah-a1-m48-cB 7tah-a1-m35-cB_7tah-a1-m40-cB 7tah-a1-m36-cB_7tah-a1-m47-cB 7tah-a1-m39-cB_7tah-a1-m58-cB 7tah-a1-m3-cB_7tah-a1-m49-cB 7tah-a1-m45-cB_7tah-a1-m50-cB 7tah-a1-m54-cB_7tah-a1-m8-cB 7tah-a1-m55-cB_7tah-a1-m60-cB 7tah-a1-m56-cB_7tah-a1-m7-cB 7taj-a1-m10-cB_7taj-a1-m5-cB 7taj-a1-m11-cB_7taj-a1-m37-cB 7taj-a1-m12-cB_7taj-a1-m46-cB 7taj-a1-m13-cB_7taj-a1-m44-cB 7taj-a1-m14-cB_7taj-a1-m28-cB 7taj-a1-m15-cB_7taj-a1-m20-cB 7taj-a1-m16-cB_7taj-a1-m27-cB 7taj-a1-m17-cB_7taj-a1-m51-cB 7taj-a1-m18-cB_7taj-a1-m59-cB 7taj-a1-m19-cB_7taj-a1-m38-cB 7taj-a1-m1-cB_7taj-a1-m22-cB 7taj-a1-m21-cB_7taj-a1-m42-cB 7taj-a1-m23-cB_7taj-a1-m9-cB 7taj-a1-m24-cB_7taj-a1-m53-cB 7taj-a1-m25-cB_7taj-a1-m30-cB 7taj-a1-m26-cB_7taj-a1-m52-cB 7taj-a1-m29-cB_7taj-a1-m43-cB 7taj-a1-m2-cB_7taj-a1-m41-cB 7taj-a1-m31-cB_7taj-a1-m57-cB 7taj-a1-m32-cB_7taj-a1-m6-cB 7taj-a1-m33-cB_7taj-a1-m4-cB 7taj-a1-m34-cB_7taj-a1-m48-cB 7taj-a1-m35-cB_7taj-a1-m40-cB 7taj-a1-m36-cB_7taj-a1-m47-cB 7taj-a1-m39-cB_7taj-a1-m58-cB 7taj-a1-m3-cB_7taj-a1-m49-cB 7taj-a1-m45-cB_7taj-a1-m50-cB 7taj-a1-m54-cB_7taj-a1-m8-cB 7taj-a1-m55-cB_7taj-a1-m60-cB 7taj-a1-m56-cB_7taj-a1-m7-cB SDRVLQLKLGNSAIVTQEAANYCCAYGEWPNYLPDHEAVAIDKPTQPETSTDRFYTLRSVKWESNSTGWWWKLPDALNNIGMFGQNVQYHYLYRSGFLIHVQCNATKFHQGALLVVAIPEHQRGAHDTTTSPGFNDIMKGERGGTFNHPYVLDDGTSIACATIFPHQWINLRTNNSATIVLPWMNVAPMDFPLRHNQWTLAVIPVVPLGTRTMSSVVPITVSIAPMCCEFNGLRHAIT SDRVLQLKLGNSAIVTQEAANYCCAYGEWPNYLPDHEAVAIDKPTQPETSTDRFYTLRSVKWESNSTGWWWKLPDALNNIGMFGQNVQYHYLYRSGFLIHVQCNATKFHQGALLVVAIPEHQRGAHDTTTSPGFNDIMKGERGGTFNHPYVLDDGTSIACATIFPHQWINLRTNNSATIVLPWMNVAPMDFPLRHNQWTLAVIPVVPLGTRTMSSVVPITVSIAPMCCEFNGLRHAIT 4wmj-a2-m1-cD_4wmj-a2-m1-cC Colias eurytheme Phosphoglucose isomerase. Homodimer from 4-5(18) genotype. G9BZJ0 G9BZJ0 1.5 X-RAY DIFFRACTION 495 1.0 42296 (Colias eurytheme) 42296 (Colias eurytheme) 553 554 4wmj-a1-m1-cA_4wmj-a1-m1-cB KVNLKQDPAYQKLQEYYDNNADKINILQLFQQDADRFNKYSLRIPTPNDGEILLDYSKNRIDDTTFSLLLNLAKSRNVEKARDAMFAGEKINFTEDRAVLHVALRNRQNRPIMVNGKDVTPDVNAVLAHMKEFSTQVISGAWKGYTGKPITDVINIGIGGSDLGPLMVTEALKPYANHLKVHFVSNIDGTHLAEVLKRLNPETALFIIASKTFTTQETITNATSAKTWFLEAAKDPAAVSKHFVALSTNGEKVTAFGIDPKNMFGFWDWVGGRYSLWSAIGLSISLYIGFENFEKLLDGANFMDNHFCTAPLEKNAPVILALLGVWYGNFYGAETHALLPYDQYLHRFAAYFQQGDMESNGKYVTRSGATVDYSTGPVVWGEPGTNGQHAFYQLVHQGTRLIPCDFLAPAQTHNPIANGAHHKILLANFLAQTEALMKGKTDAEAKAELEKSGMAPEAIAKILPHKVFKGNRPTNSIVVKKFTPFTLGALIAMYEHKIFTQGVIWDINSFDQWGVELGKQLAKAIEPELQDGKKITSHDASTNGLINFLKENF PKVNLKQDPAYQKLQEYYDNNADKINILQLFQQDADRFNKYSLRIPTPNDGEILLDYSKNRIDDTTFSLLLNLAKSRNVEKARDAMFAGEKINFTEDRAVLHVALRNRQNRPIMVNGKDVTPDVNAVLAHMKEFSTQVISGAWKGYTGKPITDVINIGIGGSDLGPLMVTEALKPYANHLKVHFVSNIDGTHLAEVLKRLNPETALFIIASKTFTTQETITNATSAKTWFLEAAKDPAAVSKHFVALSTNGEKVTAFGIDPKNMFGFWDWVGGRYSLWSAIGLSISLYIGFENFEKLLDGANFMDNHFCTAPLEKNAPVILALLGVWYGNFYGAETHALLPYDQYLHRFAAYFQQGDMESNGKYVTRSGATVDYSTGPVVWGEPGTNGQHAFYQLVHQGTRLIPCDFLAPAQTHNPIANGAHHKILLANFLAQTEALMKGKTDAEAKAELEKSGMAPEAIAKILPHKVFKGNRPTNSIVVKKFTPFTLGALIAMYEHKIFTQGVIWDINSFDQWGVELGKQLAKAIEPELQDGKKITSHDASTNGLINFLKENF 4wn3-a1-m1-cA_4wn3-a1-m2-cA Crystal structure of Saccharomyces cerevisiae OMP synthase in complex with PRP(NH)P P13298 P13298 1.8 X-RAY DIFFRACTION 106 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 220 220 2pry-a1-m1-cA_2pry-a1-m2-cA 2prz-a1-m1-cA_2prz-a1-m1-cB 2prz-a2-m1-cC_2prz-a2-m1-cD 2ps1-a1-m1-cA_2ps1-a1-m1-cB 4wml-a1-m1-cA_4wml-a1-m2-cA IMLEDYQKNFLELAIECQALRFGSFKLKSGRESPYFFNLGLFNTGKLLSNLATAYAIAIIQSDLKFDVIFGPAYKGIPLAAIVCVKLAEIGGSKFQNIQYAFNRKEAKDGGIIVGSALENKRILIIDDVMTAGTAINEAFEIISNAKGQVVGSIIALDRQEVVSTDDKEGLSATQTVSKKYGIPVLSIVSLIHIITYLEGRITAEEKSKIEQYLQTYGAS IMLEDYQKNFLELAIECQALRFGSFKLKSGRESPYFFNLGLFNTGKLLSNLATAYAIAIIQSDLKFDVIFGPAYKGIPLAAIVCVKLAEIGGSKFQNIQYAFNRKEAKDGGIIVGSALENKRILIIDDVMTAGTAINEAFEIISNAKGQVVGSIIALDRQEVVSTDDKEGLSATQTVSKKYGIPVLSIVSLIHIITYLEGRITAEEKSKIEQYLQTYGAS 4wny-a1-m1-cA_4wny-a1-m2-cA Crystal structure of a protein from the universal stress protein family from Burkholderia pseudomallei Q3JFS3 Q3JFS3 2.25 X-RAY DIFFRACTION 74 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 132 132 PGSMYSIILVALDGSQTASHALDAALELAADAHARLVPVYVVDMFDTPGYDPSILVDAFREEGRRVLDDAQARMTRRGVAGAPRLVEVEEDVAERLERAAREIGASLIVMGTHSVAERLLRHARCPVLMIPA PGSMYSIILVALDGSQTASHALDAALELAADAHARLVPVYVVDMFDTPGYDPSILVDAFREEGRRVLDDAQARMTRRGVAGAPRLVEVEEDVAERLERAAREIGASLIVMGTHSVAERLLRHARCPVLMIPA 4wnz-a1-m1-cA_4wnz-a1-m1-cB Crystal structure of Pyrococcus furiosus Cmr4 (Cas7) Q8U1S9 Q8U1S9 2.8 X-RAY DIFFRACTION 64 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 237 237 KAYLVGLYTLTPTHPPIQRERHTGFPVIWGQSLKGVLRSYLKLVEKVDEEKINKIFGGLISVGDAKILFFPVRSLKGVYAYVTSPLVLNRFKRDLELAGVTEIPELTDTAIASEEITVDNKVILEEFAILIQKDDKGILESVVKAIEQAFGNEMAEKIKGRIAIIPDDVFRDLVELSTEYIPSDTLFYSLILVTPRAKDNDMALIKEVLGKINGKYLQIGGNETVGKGFVKVTLKEV KAYLVGLYTLTPTHPPIQRERHTGFPVIWGQSLKGVLRSYLKLVEKVDEEKINKIFGGLISVGDAKILFFPVRSLKGVYAYVTSPLVLNRFKRDLELAGVTEIPELTDTAIASEEITVDNKVILEEFAILIQKDDKGILESVVKAIEQAFGNEMAEKIKGRIAIIPDDVFRDLVELSTEYIPSDTLFYSLILVTPRAKDNDMALIKEVLGKINGKYLQIGGNETVGKGFVKVTLKEV 4wo1-a2-m1-cB_4wo1-a2-m1-cC Crystal structure of the DAP12 transmembrane domain in lipid cubic phase O43914 O43914 2.14 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 4wo1-a1-m1-cA_4wo1-a1-m1-cD STVSPGVLAGIVVGDLVLTVLIALAVYFLGRL STVSPGVLAGIVVGDLVLTVLIALAVYFLGRL 4wo7-a1-m1-cB_4wo7-a1-m1-cA Crystal Structure of PrsA from Bacillus subtilis P24327 P24327 2.63 X-RAY DIFFRACTION 118 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 252 253 GDKEVIAKTDAGDVTKGELYTNKKTAGASVLTQLVQEKVLDKKYKVSDKEIDNKLKEYKTQLGDQYTALEKQYGKDYLKEQVKYELLTQKAAKDNIKVTDADIKEYWEGLKGKIRASHILVADKKTAEEVEKKLKKGEKFEDLAKEYSTDSSASKGGDLGWFAKEGQDETFSKAAFKLKTGEVSDPVKTQYGYHIIKKTEERGKYDDKKELKSEVLEQKLNDNAAVQEAVQKVKKADIEVKDKDLKDTFNTS SGDKEVIAKTDAGDVTKGELYTNKKTAGASVLTQLVQEKVLDKKYKVSDKEIDNKLKEYKTQLGDQYTALEKQYGKDYLKEQVKYELLTQKAAKDNIKVTDADIKEYWEGLKGKIRASHILVADKKTAEEVEKKLKKGEKFEDLAKEYSTDSSASKGGDLGWFAKEGQDETFSKAAFKLKTGEVSDPVKTQYGYHIIKKTEERGKYDDKKELKSEVLEQKLNDNAAVQEAVQKVKKADIEVKDKDLKDTFNTS 4woj-a1-m1-cA_4woj-a1-m1-cB Aspartate Semialdehyde Dehydrogenase from Francisella tularensis Q8G8T7 Q8G8T7 2.45 X-RAY DIFFRACTION 224 1.0 119856 (Francisella tularensis subsp. tularensis) 119856 (Francisella tularensis subsp. tularensis) 364 365 MLKVGFIGWRGMVGSVLMSRMIESKDFDCILPTFFSTSQVGQLPTGFMQQYGALQDAYSIDQLSSMDILLSCQGGEYTKEIHHKLREAGWQGFWIDAASTLRLDKDSTLVLDPLNHDQIINAIDNGKKDFIGSNCTVSLMSLAIAGLLKEDLVEWVNSSTYQAISGAGAAAMQELLQQTSLLSKIDNRDEDILIREKILRELSKDSSKIPQQKTVQTLAYNLLPWIDVGMPSGQTKEEYKAATELNKILDTKKTIPVDGICVRVPSLRSHSQALTVKLRQKLTIEEIKQKISQGNEWVKVIDNNKEDTLKYLTPQANSGTLDIAIGRIKSSLLADDIFHCFTVGDQLLWGAAEPLRRVLNIIKI HMLKVGFIGWRGMVGSVLMSRMIESKDFDCILPTFFSTSQVGQLPTGFMQQYGALQDAYSIDQLSSMDILLSCQGGEYTKEIHHKLREAGWQGFWIDAASTLRLDKDSTLVLDPLNHDQIINAIDNGKKDFIGSNCTVSLMSLAIAGLLKEDLVEWVNSSTYQAISGAGAAAMQELLQQTSLLSKIDNRDEDILIREKILRELSKDSSKIPQQKTVQTLAYNLLPWIDVGMPSGQTKEEYKAATELNKILDTKKTIPVDGICVRVPSLRSHSQALTVKLRQKLTIEEIKQKISQGNEWVKVIDNNKEDTLKYLTPQANSGTLDIAIGRIKSSLLADDIFHCFTVGDQLLWGAAEPLRRVLNIIKI 4wol-a1-m1-cB_4wol-a1-m1-cC Crystal Structure of the DAP12 transmembrane domain in lipidic cubic phase O43914 O43914 1.77 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 4wol-a1-m1-cB_4wol-a1-m1-cA 4wol-a1-m1-cC_4wol-a1-m1-cA VSPGVLAGIVVGDLVLTVLIALAVYFLGRL VSPGVLAGIVVGDLVLTVLIALAVYFLGRL 4wov-a3-m1-cB_4wov-a3-m1-cA CRYSTAL STRUCTURE OF TYROSINE KINASE 2 JH2 (PSEUDO KINASE DOMAIN) COMPLEXED WITH BMS-066 AKA 2-METHOXY-N-({6-[3-METHYL-7-(METHYLAMINO)-3,5,8,10-TETRAAZATRICYCLO[7.3.0.0, 6]DODECA-1(9),2(6),4,7,11-PENTAEN-11-YL]PYRIDIN-2-YL}METHY L)ACETAMIDE P29597 P29597 1.8 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 256 258 5tkd-a3-m1-cB_5tkd-a3-m2-cA SFHRVDQKEITQLSHLGQGTRTNVYEGRLRELRVVLKVLDPSHHDIALAFYETASLMSQVSHTHLAFVHGVCVRGPENIMVTEYVEHGPLDVWLRRERGHVPMAWKMVVAQQLASALSYLENKNLVHGNVCGRNILLARLGLAEGTSPFIKLSDPGVGLGALSREERVERIPWLAPECLPSTAMDKWGFGATLLEICFDGEAPLQSRSPSEKEHFYQRQHRLPEPSCPQLATLTSQCLTYEPTQRPSFRTILRDLT SFHRVDQKEITQLSHLGQGTRTNVYEGRLRELRVVLKVLDPSHHDIALAFYETASLMSQVSHTHLAFVHGVCVRGPENIMVTEYVEHGPLDVWLRRERGHVPMAWKMVVAQQLASALSYLENKNLVHGNVCGRNILLARLGLAEGTSPFIKLSDPGVGLGALSREERVERIPWLAPECLPSTAMDKWGFGATLLEICFDGEAPLQSRSPSEKEHFYQRQHRLPEPSCPQLATLTSQCLTYEPTQRPSFRTILRDLTRL 4woy-a3-m1-cA_4woy-a3-m2-cB Crystal structure and functional analysis of MiD49, a receptor for the mitochondrial fission protein Drp1 Q5NCS9 Q5NCS9 2.4 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 329 329 TFQERLLAFERKHVITPEAHVTLAKQLAGDIALELQAYLRSKFPELPFGALVPGGPLYDGLQAGTAEHVRLLAPLELEPGLWSLVPGVDTVAAEPRCWAVRRTQLEFHPRGCSPWDRFLVGGYLSSRVLLELLRKALSASVNWPAIGSLLGCLIWPDVASEELLLKVQHECLEFTLAVLMVVPGASTDDRLLLAWPLEGLASNLWLQDLYPVETARLRALDDQDAGTRRRLLLLLCGICRGHPALVRLGWSHLTQVVLHLGEEEVAWTEEALGERFLQALEFLVGSLEQASLPCHFNPSVNLLGNFREEEIDDIGYVLYSGLQVPESLF TFQERLLAFERKHVITPEAHVTLAKQLAGDIALELQAYLRSKFPELPFGALVPGGPLYDGLQAGTAEHVRLLAPLELEPGLWSLVPGVDTVAAEPRCWAVRRTQLEFHPRGCSPWDRFLVGGYLSSRVLLELLRKALSASVNWPAIGSLLGCLIWPDVASEELLLKVQHECLEFTLAVLMVVPGASTDDRLLLAWPLEGLASNLWLQDLYPVETARLRALDDQDAGTRRRLLLLLCGICRGHPALVRLGWSHLTQVVLHLGEEEVAWTEEALGERFLQALEFLVGSLEQASLPCHFNPSVNLLGNFREEEIDDIGYVLYSGLQVPESLF 4wp2-a1-m1-cB_4wp2-a1-m1-cA Chaetomium Mex67 UBA domain G0SET4 G0SET4 1.7 X-RAY DIFFRACTION 47 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 57 60 4wp2-a1-m1-cD_4wp2-a1-m1-cC 4wp2-a1-m1-cF_4wp2-a1-m1-cE 4wp2-a1-m1-cH_4wp2-a1-m1-cG ATKAQLIAEVSRRTGMNVEYSQMLTGAANWNLELALQSFEQQKANVPPEAFISQPQV SNAATKAQLIAEVSRRTGMNVEYSQMLTGAANWNLELALQSFEQQKANVPPEAFISQPQV 4wp2-a1-m1-cF_4wp2-a1-m1-cG Chaetomium Mex67 UBA domain G0SET4 G0SET4 1.7 X-RAY DIFFRACTION 40 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 55 60 4wp2-a1-m1-cB_4wp2-a1-m1-cC 4wp2-a1-m1-cD_4wp2-a1-m1-cE ATKAQLIAEVSRRTGMNVEYSQMLTGAANWNLELALQSFEQQKANVPPEAFISQP SNAATKAQLIAEVSRRTGMNVEYSQMLTGAANWNLELALQSFEQQKANVPPEAFISQPQV 4wpa-a1-m1-cA_4wpa-a1-m1-cB Crystal structure of Adenylyl cyclase Ma1120 from Mycobacterium Avium bound to Pyrophosphate and Calcium Q5UFR5 Q5UFR5 1.7 X-RAY DIFFRACTION 84 0.994 1764 (Mycobacterium avium) 1764 (Mycobacterium avium) 157 160 4wp8-a1-m1-cA_4wp8-a1-m1-cB 4wp9-a1-m1-cB_4wp9-a1-m1-cA 5d0e-a1-m1-cA_5d0e-a1-m1-cB 5d0g-a1-m1-cB_5d0g-a1-m1-cA 5d15-a1-m1-cA_5d15-a1-m1-cB MGSRVVILFTDIEESTALNERIGDRAWVKLISSHDKLVSDLVRRQSGHVVKSQGDGFMVAFARPEQAVRCGIELQRALRRNEIRVRIGIHMGRSVRRGDDLFGRNVAMAARVAAQAAGGEILVSQPVRDALSGIRFDDGREVELKGFSGTYRLFAVL AMGSRVVILFTDIEESTALNERIGDRAWVKLISSHDKLVSDLVRRQSGHVVKSQGDGFMVAFARPEQAVRCGIELQRALRRNANEIRVRIGIHMGRSVRRGDDLFGRNVAMAARVAAQAAGGEILVSQPVRDALSRIRFDDGREVELKGFSGTYRLFAVL 4wpc-a1-m1-cA_4wpc-a1-m1-cB Crystal structure of Rgd1p F-BAR domain in complex with inositol phosphate P38339 P38339 3.34 X-RAY DIFFRACTION 258 0.982 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 283 288 FSTPEIKKVLNSDVAINALLSRLKQSLLTCEEFMKFIRKKYAFEEEHVQELSKQYKHFFNIQNSSLKKMIHEVLGFDGKMAQVKQSYITALQKMYSEISSLLLTMTKLRKSVKENSKRLEKDVSDAIHSAEKAQSRYNSLCQDWDKLRKTKLTLRGSKTTKEQEEELLRKIDNADLEYKQKVDHSNSLRNTFITKERPRIVQELKDLILEIDTAMTIQLQKYTIWTENLVLNTGVTISPLDSTKSMKSFAGSVSNERDLYSFLNKYNQLINKNLIPVSYKKHP DLAHLFSTPEIKKVLNSDVAIALLSRLKQSLLTCEEFMKFIRKKYAFEEEHVQELSKQYKHFFNINSSLKKMIHEVLGFDGKMAQVKQSYITALQKMYSEISSLLLTMTKLRKSVKENSKRLEKDVSDAIHSAEKAQSRYNSLCQDWDKLRMTDTKLTLRGSKTTKEQEEELLRKIDNADLEYKQKVDHSNSLRNTFITKERPRIVQELKDLILEIDTAMTIQLQKYTIWTENLVLNTGVTISPLSTKSMKSFAGSVSNERDLYSFLNKYNSLLINKNLIPVSYKKHP 4wpd-a1-m1-cA_4wpd-a1-m1-cB X-ray Crystal Structure of CYP119 complexed with 4-(4-flourophenyl)-1H-imidazole Q55080 Q55080 2.001 X-RAY DIFFRACTION 63 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 367 367 MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRLGKPGEIFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKSN MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDLTGYHERLEDLRNGKIRFDIPTRYTMLTSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFRLGKPGEIFELGKKYLELIGYVKDHLNSGTEVVSRVVNSNLSDIEKLGYIILLLIAGNETTTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLCLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKSN 4wpe-a1-m1-cA_4wpe-a1-m2-cA Crystal Structure of Hof1p F-BAR domain Q05080 Q05080 2.7 X-RAY DIFFRACTION 209 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 267 267 HSYSYEACFWDPNDNGVNILLGHISQGIRSCDSILFFKQRSELEKDYARRLGAITGKLDKDIGTNDYGKLNETFNVVLSVEKARAQSHSKQSEILFRQIYTDTKAFAANLQARYTTLSGKIERLRDKFNKKKGCEVLQKKLQDAQIRFRDLQLNENNIGAKRVEHNKRELLKWESNSQEYKVQLDVLKQEYKASQKFWIHEWAQLSCELQEENARISFLQSKLQQFATSSETYILEQTKDLTNHLNSFTAADEISTFSKENGTGRLK HSYSYEACFWDPNDNGVNILLGHISQGIRSCDSILFFKQRSELEKDYARRLGAITGKLDKDIGTNDYGKLNETFNVVLSVEKARAQSHSKQSEILFRQIYTDTKAFAANLQARYTTLSGKIERLRDKFNKKKGCEVLQKKLQDAQIRFRDLQLNENNIGAKRVEHNKRELLKWESNSQEYKVQLDVLKQEYKASQKFWIHEWAQLSCELQEENARISFLQSKLQQFATSSETYILEQTKDLTNHLNSFTAADEISTFSKENGTGRLK 4wpm-a1-m1-cA_4wpm-a1-m1-cB Structure of the Chaetomium thermophilum Mex67:Mtr2 Complex G0SET4 G0SET4 2.4 X-RAY DIFFRACTION 15 0.988 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 85 85 KTVIKILGLKNSKAASNPDGGLRSLLDFLERKSKEKITLGRGIIDGDYVWLKVNKDDAQHLLRLNGFTYAGATLTIEETNEPMPA NKTVIKILGLKNSKAASNPDGGLRSLLDFLERKSKEKITLGRGIIDGDYVWLKVNKDDAQHLLRLNGFTYAGATLTIEETNEPMP 4wpx-a1-m1-cA_4wpx-a1-m1-cD Chaetomium theromophilum TREX2 CID domain complex G0SAR7 G0SAR7 3.31 X-RAY DIFFRACTION 14 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 171 172 QIQYTIPPREDYNKLSDEQKTRISEAFELFDSNKDGLLSYEEFRFVLRALGFDLPKQQTYDMLVRHGQRPANWPHDQECPPVYRQFNLATAQALAGTLIRQRDPRDELRRAFRLFDVDGKGMITEDDLRKVCQQVGNNIPDADIQAMIEEFDSNGKGGVDEDEFLRLMMSK RQIQYTIPPREDYNKLSDEQKTRISEAFELFDSNKDGLLSYEEFRFVLRALGFDLPKQQTYDMLVRHGQRPANWPHDQECPPVYRQFNLATAQALAGTLIRQRDPRDELRRAFRLFDVDGKGMITEDDLRKVCQQVGNNIPDADIQAMIEEFDSNGKGGVDEDEFLRLMMSK 4wpx-a1-m1-cB_4wpx-a1-m1-cE Chaetomium theromophilum TREX2 CID domain complex G0SGL4 G0SGL4 3.31 X-RAY DIFFRACTION 12 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 81 81 LMADFTKWFVTGDGGIMEEFTEETLRHLLWDVWQRHQREEAERKRKAEEEESWRLAREHLTHRLQVKYFYRWREKARALAT LMADFTKWFVTGDGGIMEEFTEETLRHLLWDVWQRHQREEAERKRKAEEEESWRLAREHLTHRLQVKYFYRWREKARALAT 4wpy-a1-m1-cA_4wpy-a1-m2-cA Racemic crystal structure of Rv1738 from Mycobacterium tuberculosis (Form-II) P9WLS2 P9WLS2 1.5 X-RAY DIFFRACTION 160 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 88 88 DHVLQHWTVDISIDEHEGLTRAKARLRWREKELVGVGLARLNPADRNVPEIGDELSVARALSDLGKRMLKVSTHDIEAVTHQPARLLY DHVLQHWTVDISIDEHEGLTRAKARLRWREKELVGVGLARLNPADRNVPEIGDELSVARALSDLGKRMLKVSTHDIEAVTHQPARLLY 4wr2-a1-m2-cA_4wr2-a1-m4-cA Crystal structure of a putative pyrimidine-specific ribonucleoside hydrolase (RihA) Protein from Shewanella loihica PV-4 (SHEW_0697, Target PSI-029635) with divalent cation and PEG 400 bound at the active site A3QAS1 A3QAS1 1.7 X-RAY DIFFRACTION 80 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 300 300 4wr2-a1-m1-cA_4wr2-a1-m3-cA KAIRPLASATPIILDCDPGHDDAISLILALSSERLNPLAVTTSAGNQTPDKTLNNALRILTLLNRADPVAGGAVKPLARELIIAGPKLPDPSFDPLTQNAIELAEKVRQSAVPVTLVPSGPLTNIALFIANYPELHSKVERIVLGGAAGVGNWTPAAEFNIFVDPEAADVFKSGIPITCGLDVTHEAQIDEDIERIRAIPNPVAQCVAELLDFFIYHRDPKWGFTGAPLHDPCTIAWLLKPELFTAQECWVGVETKGEYTQGTVVDRYQLTGKTANATVLFDLDRQGFVDLIVDCLSAYN KAIRPLASATPIILDCDPGHDDAISLILALSSERLNPLAVTTSAGNQTPDKTLNNALRILTLLNRADPVAGGAVKPLARELIIAGPKLPDPSFDPLTQNAIELAEKVRQSAVPVTLVPSGPLTNIALFIANYPELHSKVERIVLGGAAGVGNWTPAAEFNIFVDPEAADVFKSGIPITCGLDVTHEAQIDEDIERIRAIPNPVAQCVAELLDFFIYHRDPKWGFTGAPLHDPCTIAWLLKPELFTAQECWVGVETKGEYTQGTVVDRYQLTGKTANATVLFDLDRQGFVDLIVDCLSAYN 4wr2-a1-m3-cA_4wr2-a1-m4-cA Crystal structure of a putative pyrimidine-specific ribonucleoside hydrolase (RihA) Protein from Shewanella loihica PV-4 (SHEW_0697, Target PSI-029635) with divalent cation and PEG 400 bound at the active site A3QAS1 A3QAS1 1.7 X-RAY DIFFRACTION 49 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 300 300 4wr2-a1-m1-cA_4wr2-a1-m2-cA KAIRPLASATPIILDCDPGHDDAISLILALSSERLNPLAVTTSAGNQTPDKTLNNALRILTLLNRADPVAGGAVKPLARELIIAGPKLPDPSFDPLTQNAIELAEKVRQSAVPVTLVPSGPLTNIALFIANYPELHSKVERIVLGGAAGVGNWTPAAEFNIFVDPEAADVFKSGIPITCGLDVTHEAQIDEDIERIRAIPNPVAQCVAELLDFFIYHRDPKWGFTGAPLHDPCTIAWLLKPELFTAQECWVGVETKGEYTQGTVVDRYQLTGKTANATVLFDLDRQGFVDLIVDCLSAYN KAIRPLASATPIILDCDPGHDDAISLILALSSERLNPLAVTTSAGNQTPDKTLNNALRILTLLNRADPVAGGAVKPLARELIIAGPKLPDPSFDPLTQNAIELAEKVRQSAVPVTLVPSGPLTNIALFIANYPELHSKVERIVLGGAAGVGNWTPAAEFNIFVDPEAADVFKSGIPITCGLDVTHEAQIDEDIERIRAIPNPVAQCVAELLDFFIYHRDPKWGFTGAPLHDPCTIAWLLKPELFTAQECWVGVETKGEYTQGTVVDRYQLTGKTANATVLFDLDRQGFVDLIVDCLSAYN 4wse-a1-m1-cA_4wse-a1-m1-cB Crystal structure of the Mimivirus polyadenylate synthase Q5UQS6 Q5UQS6 2.84 X-RAY DIFFRACTION 175 0.992 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 495 495 EKYQTYYTTNEYQIVKEKLPDIIRDAEIKASEVLEPTIYEKRAIMEVIKDFIRDHQRKVYGGTALNEALKQVNPKDAIYDNYSFSDIEFYSPTPVQDLVDLCNILYRKGYKFVQGKDAQHEETYSIFVNFQLYCDITYSPTRVFYGIKTIEIDGINYTDPHFMLIDYLRMVNQPLTAAGQRWEKAFERMYRLLKDYPIEDFDKRLDIPEPPEEIQSYISRIKTEFLSDNKLNESFLISGIEAYNFYIRHAASSVNLNNFIANVPFSELISVNYREDVKNTYNFLRMIVEDKEKISVDEYFPLFQFTGYSTVIKYDDHPIIRIYEGDGYCIPNVKTVKTVKYVSFQYVLMILYINKFRAHLDKNKPMYFNYGIAISNLVKARNIYLDQTGKSVLDNTVFKEFRTNCTGNTISFTRMNRLRLLEKRKQGKQTSFVYTPEDFFKKDLETQAKLDPSKARFKNTSGNKIMVPKYLLFKIDNNGNIEDNIHSEEAEISEK EKYQTYYTTNEYQIVKEKLPDIIRDAEIKASEVLEPTIYEKRAIMEVIKDFIRDHQRKVYGGTALNEALKQVNPKDAIYDNYSFSDIEFYSPTPVQDLVDLCNILYRKGYKFVQGKDAQHEETYSIFVNFQLYCDITYSPTRVFYGIKTIEIDGINYTDPHFMLIDYLRMVNQPLTAAGQRWEKAFERMYRLLKDYPIEDFDKRLDIPEPPEEIQSYISRIKTEFLSDNKLNESFLISGIEAYNFYIRHAASSLNNFIANVPFSELISVNYREDVKNTYNFLRMIVEDKEKISVDEYFPLFQFTGYSTVIKYDDHPIIRIYEGDGYCIPNVKTVKTKYEYKYVSFQYVLMILYINKFRAHLDKNKPMYFNYGIAISNLVKARNIYLDQTGKSVLDNTVFKEFRTNCTGNTISFTRMNRLRLLEKRKQGKQTSFVYTPEDFFKKDLETQAKLDPSKARFKNTSGNKIMVPKYLLFKIDNNGNIEDNIHSEEAEISE 4wsh-a1-m1-cB_4wsh-a1-m1-cA Crystal structure of Probable Uroporphyrinogen decarboxylase (UPD) (URO-D) from Pseudomonas aeruginosa P95458 P95458 1.95 X-RAY DIFFRACTION 98 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 347 355 ALKNDRFLRALLKQPVDVTPVWMMRQAGRYLPEYRATRAKAGDFMSLCMNPELACEVTLQPLDRYPQLDAAILFSDILTIPDAMGQGLYPRFRKVVSSLADIEALPVPDPEQDLGYVMDAVRTIRRELNGRVPLIGFSGSPWTLATYMVEGGSSKDFRKSKAMLYDNPKAMHALLDKLAQSVTSYLNGQIHAGAQAVQIFDSWGGSLSAAAYQEFSLAYMRKIVDGLIREHDGRRVPVILFTKGGGLWLESMAEVGAEALGLDWTCDIGSARARVGERVALQGNMDPSVLYANPAAIRAEVARILAAYGKGTGHVFNLGHGITPEVDPAHAGAFFEAVHELSAQYHG MTALKNDRFLRALLKQPVDVTPVWMMRQAGRYLPEYRATRAKAGDFMSLCMNPELACEVTLQPLDRYPQLDAAILFSDILTIPDAMGQGLYFETGEGPRFRKVVSSLADIEALPVPDPEQDLGYVMDAVRTIRRELNGRVPLIGFSGSPWTLATYMVEGGSSKDFRKSKAMLYDNPKAMHALLDKLAQSVTSYLNGQIHAGAQAVQIFDSWGGSLSAAAYQEFSLAYMRKIVDGLIREHDGRRVPVILFTKGGGLWLESMAEVGAEALGLDWTCDIGSARARVGERVALQGNMDPSVLYANPAAIRAEVARILAAYGKGTGHVFNLGHGITPEVDPAHAGAFFEAVHELSAQYHG 4wt4-a1-m1-cA_4wt4-a1-m1-cC The C-terminal domain of Rubisco Accumulation Factor 1 from Arabidopsis thaliana, crystal form I Q9SR19 Q9SR19 2.81 X-RAY DIFFRACTION 100 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 148 150 4wt4-a2-m1-cB_4wt4-a2-m1-cD 4wt5-a1-m1-cA_4wt5-a1-m1-cB IRIPVVRLKFAEATSVVVLPVCKAEEGEKKILEAPMEIIAGGDFKVVEAEKGWKRWVVLPSWNPVAAIGKGGVAVSFRDDRKVLPWDGKEEPLLVVADRVRNVVEADDGYYLVVAENGLKLEKGSDLKAREVKESLGMVVLVVRPPRE RIPVVRLKFGEVAEATSVVVLPVCKAEEGEKKILEAPMEIIAGGDFKVVEAEKGWKRWVVLPSWNPVAAIGKGGVAVSFRDDRKVLPWDGKEEPLLVVADRVRNVVEADDGYYLVVAENGLKLEKGSDLKAREVKESLGMVVLVVRPPRE 4wu3-a2-m1-cC_4wu3-a2-m1-cD Structure of the PTP-like myo-inositol phosphatase from Mitsuokella multacida in complex with myo-inositol-(1,3,4,5)-tetrakisphosphate A3QMF6 A3QMF6 2.2 X-RAY DIFFRACTION 116 1.0 52226 (Mitsuokella multacida) 52226 (Mitsuokella multacida) 590 590 3f41-a1-m1-cA_3f41-a1-m1-cB 4wu3-a1-m1-cA_4wu3-a1-m1-cB PAVVKNPPKLALKIDRADVNQLPRNFRMGSDKYVGVTKTGIMPTRKGMDTMNVSASSCFSEKELEAILKKVPVKPSQFYDVDLRGESHGYLNGTAVSWFANHDWGNDGRTEDIIIPLEKEQLASLKGSTVKSIYRFDDKKNVILSPVYVNYNKVRTEEEMVKQHGANYFRLTLQDHFRPDDPDVDKFLEFYKSLPKDAWLHYHSYAGMGRTTIFMVMHDILKNAKDVSFDDIIQRQKLIGIVDLSEIPDKKKNYGRKAYIERYQFVQHFYDYVKENPDLKTPYSVWAKKNKVNSWEPDYNGYIWRLDTKDRNQLPRNFRTMNSAFRTDVNVKKTGKGFTPTPTRKGLDTLYMSGSAEFSNGELQAMLPVLKQQAKGPIYIMDLRQETHGVFNGNAVSWYGLRDWGNLGKNKAEVLKDENSRLNAARGKSLIVAELDKDKMPIDPKPVKIESVMTEQQLVEKNGLHYYRIAATDHIWPSAANIDEFINFTRTMPANAWLHFHSQAGAGRTTAYMAMYDMMKNPDVSLGDILSRQYLLGGNYVAYEIAKPKPDQWKADYYHQKAHMIEKFYQYVQENHADGFKTSWSQWLAA PAVVKNPPKLALKIDRADVNQLPRNFRMGSDKYVGVTKTGIMPTRKGMDTMNVSASSCFSEKELEAILKKVPVKPSQFYDVDLRGESHGYLNGTAVSWFANHDWGNDGRTEDIIIPLEKEQLASLKGSTVKSIYRFDDKKNVILSPVYVNYNKVRTEEEMVKQHGANYFRLTLQDHFRPDDPDVDKFLEFYKSLPKDAWLHYHSYAGMGRTTIFMVMHDILKNAKDVSFDDIIQRQKLIGIVDLSEIPDKKKNYGRKAYIERYQFVQHFYDYVKENPDLKTPYSVWAKKNKVNSWEPDYNGYIWRLDTKDRNQLPRNFRTMNSAFRTDVNVKKTGKGFTPTPTRKGLDTLYMSGSAEFSNGELQAMLPVLKQQAKGPIYIMDLRQETHGVFNGNAVSWYGLRDWGNLGKNKAEVLKDENSRLNAARGKSLIVAELDKDKMPIDPKPVKIESVMTEQQLVEKNGLHYYRIAATDHIWPSAANIDEFINFTRTMPANAWLHFHSQAGAGRTTAYMAMYDMMKNPDVSLGDILSRQYLLGGNYVAYEIAKPKPDQWKADYYHQKAHMIEKFYQYVQENHADGFKTSWSQWLAA 4wuh-a1-m1-cA_4wuh-a1-m1-cB Crystal structure of E. faecalis DNA binding domain LiaR wild type complexed with 22bp DNA 2.294 X-RAY DIFFRACTION 30 1.0 699185 (Enterococcus faecalis S613) 699185 (Enterococcus faecalis S613) 68 68 4wsz-a1-m1-cA_4wsz-a1-m1-cB 4wt0-a1-m1-cA_4wt0-a1-m1-cB 4wu4-a1-m1-cA_4wu4-a1-m1-cB 4wul-a1-m1-cB_4wul-a1-m1-cA MVLHEDLTNREHEILMLIAQGKSNQEIADELFITLKTVKTHVSNILAKLDVDNRTQAAIYAFQHGLAK MVLHEDLTNREHEILMLIAQGKSNQEIADELFITLKTVKTHVSNILAKLDVDNRTQAAIYAFQHGLAK 4wuj-a3-m1-cA_4wuj-a3-m1-cC Structural Biochemistry of a Fungal LOV Domain Photoreceptor Reveals an Evolutionarily Conserved Pathway Integrating Blue-Light and Oxidative Stress G0RUC2 G0RUC2 2.23 X-RAY DIFFRACTION 18 0.986 431241 (Trichoderma reesei QM6a) 431241 (Trichoderma reesei QM6a) 139 145 GAMDGIYSASGIDVMGILLRIASRPNPTIDLGPLDCSVSLTLCDISLPDAPIVYASPGFYQLTGYSAPEIMGRNCRFLQNSVSDAVQEMRRAIRAHQEVQVRIVNYKKNGTPFTNVVTILPLWADPSGHHFAVGLQAEL AMDGIYSASGIDVMGILLRIASRPNPTIDLGPLDCSVSLTLCDISLPDAPIVYASPGFYQLTGYSAPEIMGRNCRFLQNSPHMPPPGRVSDAVQEMRRAIRAHQEVQVRIVNYKKNGTPFTNVVTILPLWADPSGHHFAVGLQAE 4wuj-a3-m1-cB_4wuj-a3-m1-cC Structural Biochemistry of a Fungal LOV Domain Photoreceptor Reveals an Evolutionarily Conserved Pathway Integrating Blue-Light and Oxidative Stress G0RUC2 G0RUC2 2.23 X-RAY DIFFRACTION 12 0.986 431241 (Trichoderma reesei QM6a) 431241 (Trichoderma reesei QM6a) 144 145 GAMDGIYSASGIDVMGILLRIASRPNPTIDLGPLDCSVSLTLCDISLPDAPIVYASPGFYQLTGYSAPEIMGRNCRFLQNSPHMPPPSDAVQEMRRAIRAHQEVQVRIVNYKKNGTPFTNVVTILPLWADPSGHHFAVGLQAEL AMDGIYSASGIDVMGILLRIASRPNPTIDLGPLDCSVSLTLCDISLPDAPIVYASPGFYQLTGYSAPEIMGRNCRFLQNSPHMPPPGRVSDAVQEMRRAIRAHQEVQVRIVNYKKNGTPFTNVVTILPLWADPSGHHFAVGLQAE 4wuj-a3-m1-cD_4wuj-a3-m1-cB Structural Biochemistry of a Fungal LOV Domain Photoreceptor Reveals an Evolutionarily Conserved Pathway Integrating Blue-Light and Oxidative Stress G0RUC2 G0RUC2 2.23 X-RAY DIFFRACTION 127 1.0 431241 (Trichoderma reesei QM6a) 431241 (Trichoderma reesei QM6a) 138 144 4wuj-a1-m2-cA_4wuj-a1-m1-cC 4wuj-a2-m1-cD_4wuj-a2-m1-cB GAMDGIYSASGIDVMGILLRIASRPNPTIDLGPLDCSVSLTLCDISLPDAPIVYASPGFYQLTGYSAPEIMGRNCRFLQNSSDAVQEMRRAIRAHQEVQVRIVNYKKNGTPFTNVVTILPLWADPSGHHFAVGLQAEL GAMDGIYSASGIDVMGILLRIASRPNPTIDLGPLDCSVSLTLCDISLPDAPIVYASPGFYQLTGYSAPEIMGRNCRFLQNSPHMPPPSDAVQEMRRAIRAHQEVQVRIVNYKKNGTPFTNVVTILPLWADPSGHHFAVGLQAEL 4wum-a2-m1-cC_4wum-a2-m1-cD X-ray crystal structure of Chalcone Synthase from Freesia hybrida G3FJ87 G3FJ87 1.77 X-RAY DIFFRACTION 175 1.0 867926 (Freesia hybrid cultivar) 867926 (Freesia hybrid cultivar) 389 389 4wum-a1-m1-cA_4wum-a1-m1-cB MVNVEEIRKAQRAEGPAAILAIGTATPPNAIEQSEYPDYYFRVTNSEDKVELKEKFKRMCEKSMIKKRYLYLTEDILKENPNVCAYMATSLDARQDMVVVEVPKLGKEAATRAIKEWGQPKSKITHLVFCTTSGVDMPGADYQLTKLLGLRPSVKRLMMYQQGCFAGGTVLRLAKDLAENNRGARVLVVCSEITAVTFRGPSESHLDSLVGQALFGDGAAALIVGSDAIEGIERPIFEMVSAAQTILPDSEGAIDGHLREVGLTFHLLKDVPGIISKNIEKSLEEAFKPLGITDYNSLFWIAHPGGPAILDQVEAKIGLKPEKLRATRHVLSEYGNMSSACVLFILEEMRKKSAEEKNGTTGEGLEWGVLFGFGPGLTVETVVLHSVEA MVNVEEIRKAQRAEGPAAILAIGTATPPNAIEQSEYPDYYFRVTNSEDKVELKEKFKRMCEKSMIKKRYLYLTEDILKENPNVCAYMATSLDARQDMVVVEVPKLGKEAATRAIKEWGQPKSKITHLVFCTTSGVDMPGADYQLTKLLGLRPSVKRLMMYQQGCFAGGTVLRLAKDLAENNRGARVLVVCSEITAVTFRGPSESHLDSLVGQALFGDGAAALIVGSDAIEGIERPIFEMVSAAQTILPDSEGAIDGHLREVGLTFHLLKDVPGIISKNIEKSLEEAFKPLGITDYNSLFWIAHPGGPAILDQVEAKIGLKPEKLRATRHVLSEYGNMSSACVLFILEEMRKKSAEEKNGTTGEGLEWGVLFGFGPGLTVETVVLHSVEA 4wuv-a1-m1-cA_4wuv-a1-m1-cB Crystal Structure of a putative D-Mannonate oxidoreductase from Haemophilus influenza (Avi_5165, TARGET EFI-513796) with bound NAD 1.551 X-RAY DIFFRACTION 109 1.0 656912 (Haemophilus influenzae RdAW) 656912 (Haemophilus influenzae RdAW) 277 277 NIAANHNLENKLIIITGAGGVLCSFLAKQLAYTKANIALLDLNFEAADKVAKEINQSGGKAKAYKTNVLELENIKEVRNQIETDFGTCDILINGAGGNNPKATTDNEFHQFDLNETTRTFFDLDKSGIEFVFNLNYLGSLLPTQVFAKDLGKQGANIINISSNAFTPLTKIPAYSGAKAAISNFTQWLAVYFSKVGIRCNAIAPGFLVSNQNLALLFDTEGKPTDRANKILTNTPGRFGESEELLGALLFLIDENYSAFVNGVVLPVDGGFSAYSGV NIAANHNLENKLIIITGAGGVLCSFLAKQLAYTKANIALLDLNFEAADKVAKEINQSGGKAKAYKTNVLELENIKEVRNQIETDFGTCDILINGAGGNNPKATTDNEFHQFDLNETTRTFFDLDKSGIEFVFNLNYLGSLLPTQVFAKDLGKQGANIINISSNAFTPLTKIPAYSGAKAAISNFTQWLAVYFSKVGIRCNAIAPGFLVSNQNLALLFDTEGKPTDRANKILTNTPGRFGESEELLGALLFLIDENYSAFVNGVVLPVDGGFSAYSGV 4wvr-a2-m1-cB_4wvr-a2-m1-cC Crystal structure of Dscam1 Ig7 domain, isoform 5 Q0E9H6 Q0E9H6 1.948 X-RAY DIFFRACTION 57 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 99 99 4wvr-a1-m1-cA_4wvr-a1-m1-cD GSVPPSIAPFSFGDDPVNTGENAGVQCMVQKGDVPITIKWTLNSRPIINGEEGITILKLSPKTSVLNIAAVEQDHRGVFKCIAENKAGSSFTTSELKVN GSVPPSIAPFSFGDDPVNTGENAGVQCMVQKGDVPITIKWTLNSRPIINGEEGITILKLSPKTSVLNIAAVEQDHRGVFKCIAENKAGSSFTTSELKVN 4ww4-a2-m2-cA_4ww4-a2-m9-cA Double-heterohexameric rings of full-length Rvb1(ADP)/Rvb2(ADP) G0RYI5 G0RYI5 2.94 X-RAY DIFFRACTION 22 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 416 416 4ww4-a2-m1-cA_4ww4-a2-m5-cA 4ww4-a2-m3-cA_4ww4-a2-m7-cA QISEVRGNTRDHRTAAHTHIKGLGLNSSGIAEKQAAGFVGQCAAREACGVVVDLIKAHKMAGRGVLLAGGPGTGKTALALAISQELGTKIPFCPITGSEIYSTEVKKTEVLMENFRRAIGLRVRETKDVYEGEVSTLLIGLKSARGQKLDQKERVQVGDVIYIETNTGACRSDAYATEFDLEAEEYVPIPKGEVHKKKEIVQDVTLHDLDVANARPDIISMMGQLMKPKMTEITDKLRMEINKVVQKYINQGVAELIPGVLFIDEAHMLDIECFTYLNKALESPIAPIVVLASNRGIATIRGADDLKAAHGIPPDFLQRLLIIPTHPYEPDEIRRIVRIRAQTEGVQLTDAAVDRVAEHGVRISLRYCLQLLAPASILARVNGRTQVDVQDIAEAEELFLDARRSANILTSTGGLH QISEVRGNTRDHRTAAHTHIKGLGLNSSGIAEKQAAGFVGQCAAREACGVVVDLIKAHKMAGRGVLLAGGPGTGKTALALAISQELGTKIPFCPITGSEIYSTEVKKTEVLMENFRRAIGLRVRETKDVYEGEVSTLLIGLKSARGQKLDQKERVQVGDVIYIETNTGACRSDAYATEFDLEAEEYVPIPKGEVHKKKEIVQDVTLHDLDVANARPDIISMMGQLMKPKMTEITDKLRMEINKVVQKYINQGVAELIPGVLFIDEAHMLDIECFTYLNKALESPIAPIVVLASNRGIATIRGADDLKAAHGIPPDFLQRLLIIPTHPYEPDEIRRIVRIRAQTEGVQLTDAAVDRVAEHGVRISLRYCLQLLAPASILARVNGRTQVDVQDIAEAEELFLDARRSANILTSTGGLH 4wwc-a1-m1-cA_4wwc-a1-m1-cB Crystal structure of full length YvoA in complex with palindromic operator DNA O34817 O34817 2.903 X-RAY DIFFRACTION 119 0.981 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 213 231 HMNINKQSPIPIYYQIMEQLKTQIKNGELQPDMPLPSEREYAEQFGISRMTVRQALSNLVNEGLLYRLKGRGTFVSKPKMQGLTSFTEDMKSRGMTPGSRLIDYQLIDSTEELAAILGCGHSSIHKITRVRLANDIPMAIESSHIPFEISRAKQELEPSAATTEEANILGIQKGAPVLLIKRTTYLQNGTAFEHAKSVYRGDRYTFVHYMDRL HMNINKQSPIPIYYQIMEQLKTQIKNGELQPDMPLPSEREYAEQFGISRMTVRQALSNLVNEGLLYRLKGRGTFVSKPKMEQGLTSFTEDMKSRGMTPGSRLIDYQLIDSEELAAILGCGPSSIHKITRVRLANDIPMAIESSHIPFELAGELNESIYDHIERYNSIPISRAKQELEPSAATTEEANILGIQKGAPVLLIKRTTYLQNGTAFEHAKSVYRGDRYTFVHYMD 4wwq-a1-m1-cA_4wwq-a1-m1-cB Apo structure of the Grb7 SH2 domain Q14451 Q14451 1.8 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 119 LSAAIHRTQLWFHGRISREESQRLIGQQGLVDGLFLVRESQRNPQGFVLSLCHLQKVKHYLILPSEEEGRLYFSMDDGQTRFTDLLQLVEFHQLNRGILPCLLRHCCTRVAL SPASGTSLSAAIHRTQLWFHGRISREESQRLIGQQGLVDGLFLVRESQRNPQGFVLSLCHLQKVKHYLILPSEEEGRLYFSMDDGQTRFTDLLQLVEFHQLNRGILPCLLRHCCTRVAL 4wwu-a2-m1-cE_4wwu-a2-m1-cH Structure of Mex67:Mtr2 Q99257 Q99257 3.301 X-RAY DIFFRACTION 14 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 349 363 TSDTISFLRGVLLKRYDPQTKLLNLGALHSDPELIQKGVFSKMFPAMMKLASTEKSLIVESVNLADNQLKDISAISTLAQTFPNLKNLCLANNQIFRFRSLEVWKNKFKDLRELLMTNNPITTDKLYRTEMLRLFPKLVVLDNVIVRDEQKLQTVYSLPMKIQQFFFENDALGQSSTDFATNFLNLWDNNREQLLNLYSPQSQFSVSVDSTIPPSTVTDSDQTPAFGYYMSSSRNISKVSSEKSIQQRLSIGQESINSIFKTLPKTKHHLQEQPNEYSMETISYPQINGFVITLHGFFEETGKPELESNNKLSKKSFDRTWVIVPMNNSVIIASDLLTVRAYSTGAWKT TSDTISFLRGVLLKRYDPQTKLLNLGALHSDPELIQKGVFSSISTQSKMFPAMMKLASTEKSLIVESVNLADNQLKDISAISTLAQTFPNLKNLCLANNQIFRFRSLEVWKNKFKDLRELLMTNNPITTDKLYRTEMLRLFPKLVVLDNVIVRDEQKLQTVYSLPMKIQQFFFENDALGQSSTDFATNFLNLWDNNREQLLNLYSPQSQFSVSVDSTIPPSTVTDSDQTPAFGYYMSSSRNISKVSSEKSIQQRLSIGQESINSIFKTLPKTKHHLQEQPNEYSMETISYPQINGFVITLHGFFEETGKPELEYNHGYNSTSNNKLSKKSFDRTWVIVPMNNSVIIASDLLTVRAYSTGAWKT 4wwu-a2-m1-cI_4wwu-a2-m1-cF Structure of Mex67:Mtr2 P34232 P34232 3.301 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 161 164 4wwu-a1-m1-cL_4wwu-a1-m1-cC MVMNDANQAQITATFTKKILAHLDDPDSNKLAQFVQLFNPNNCRIIFNATPFAQATVFLQMWQNQVVQTQHALTGVDYHAIPGSGTLICNVNCKVRFDESGRDKMGQDATVPIPRPLWGPYFGISLQLIIDDRIFRNDFNGVISGFNYNMVYKPEDSLLKI MVMNDANQAQITATFTKKILAHLDDPDSNKLAQFVQLFNPNNCRIIFNATPFAQATVFLQMWQNQVVQTQHALTGVDYHAIPGSGTLICNVNCKVRFDESGRDKMGQDATVPIMNKPRPLWGPYFGISLQLIIDDRIFRNDFNGVISGFNYNMVYKPEDSLLKI 4wx0-a1-m1-cA_4wx0-a1-m2-cA UndA complexed with beta-hydroxydodecanoic acid Q4K8M0 Q4K8M0 1.7 X-RAY DIFFRACTION 52 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 256 256 4wwj-a1-m1-cA_4wwj-a1-m2-cA 4wwj-a2-m1-cB_4wwj-a2-m2-cB 4wwz-a1-m1-cA_4wwz-a1-m2-cA 4wwz-a2-m1-cB_4wwz-a2-m2-cB 4wx0-a2-m1-cB_4wx0-a2-m2-cB 6p5q-a2-m1-cA_6p5q-a2-m2-cA 6p5q-a3-m1-cB_6p5q-a3-m2-cB IDTFSRTGPLMEAASYPAWTQQLIQDCSESKRRVVEHELYQRMRDNKLSAKVMRQYLIGGWPVVEQFALYMAQNLTKTRFARHPGEDMARRWLMRNIRVELNHADYWVHWSRAHGVTLEDLQAQQVPPELHALSHWCWHTSSADSLIVAIAATNYAIEGATGEWSALVCSNGIYAAAFPEEDRKRAMKWLKMHAQYDDAHPWEALEIIVTLAGLNPTKALQAELRQAICKSYDYMYLFLERCMQQEKTAVTRERLA IDTFSRTGPLMEAASYPAWTQQLIQDCSESKRRVVEHELYQRMRDNKLSAKVMRQYLIGGWPVVEQFALYMAQNLTKTRFARHPGEDMARRWLMRNIRVELNHADYWVHWSRAHGVTLEDLQAQQVPPELHALSHWCWHTSSADSLIVAIAATNYAIEGATGEWSALVCSNGIYAAAFPEEDRKRAMKWLKMHAQYDDAHPWEALEIIVTLAGLNPTKALQAELRQAICKSYDYMYLFLERCMQQEKTAVTRERLA 4wx3-a1-m1-cA_4wx3-a1-m1-cD pore-forming thermostable direct hemolysin from Grimontia hollisae P14711 P14711 1.701 X-RAY DIFFRACTION 37 1.0 673 (Grimontia hollisae) 673 (Grimontia hollisae) 154 154 4wx3-a1-m1-cA_4wx3-a1-m1-cC 4wx3-a1-m1-cB_4wx3-a1-m1-cC 4wx3-a1-m1-cB_4wx3-a1-m1-cD 4wx5-a1-m1-cA_4wx5-a1-m1-cD GSDEILFVVRDTTFNTKEPVNVKVSDFWTNRNVKRKPYKDVYGQSVFTTSGSKWLTSYMTVSINNKDYTMAAVSGYKDGFSSVFVKSGQIQLQHYYNSVADFVGGDENSIPSKTYLDETPEYFVNVEAYESGSGNILVMCISNKESYFECESQQ GSDEILFVVRDTTFNTKEPVNVKVSDFWTNRNVKRKPYKDVYGQSVFTTSGSKWLTSYMTVSINNKDYTMAAVSGYKDGFSSVFVKSGQIQLQHYYNSVADFVGGDENSIPSKTYLDETPEYFVNVEAYESGSGNILVMCISNKESYFECESQQ 4wx5-a1-m1-cB_4wx5-a1-m1-cD pore-forming thermostable direct hemolysin from Grimontia hollisae P14711 P14711 2.302 X-RAY DIFFRACTION 25 1.0 673 (Grimontia hollisae) 673 (Grimontia hollisae) 154 154 4wx5-a1-m1-cA_4wx5-a1-m1-cC GSDEILFVVRDTTFNTKEPVNVKVSDFWTNRNVKRKPYKDVYGQSVFTTSGSKWLTSYMTVSINNKDYTMAAVSGYKDGFSSVFVKSGQIQLQHYYNSVADFVGGDENSIPSKTYLDETPEYFVNVEAYESGSGNILVMCISNKESYFECESQQ GSDEILFVVRDTTFNTKEPVNVKVSDFWTNRNVKRKPYKDVYGQSVFTTSGSKWLTSYMTVSINNKDYTMAAVSGYKDGFSSVFVKSGQIQLQHYYNSVADFVGGDENSIPSKTYLDETPEYFVNVEAYESGSGNILVMCISNKESYFECESQQ 4wxl-a1-m1-cA_4wxl-a1-m1-cC Crystal structure of a peptide deformylase from Haemophilus influenzae complex with Actinonin Q4QMV6 Q4QMV6 2.33 X-RAY DIFFRACTION 45 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 164 165 ALNVLIYPDDHLKVVCEPVTEVNDAIRKIVDDMFDTMYQEKGIGLAAPQVDILQRIITIDVEGDKQNQFVLINPEILASEGETGIEEGCLSIPGFRALVPRKEKVTVRALDRDGKEFTLDADGLLAICIQHEIDHLNGILFVDYLSPLKRQRIKEKLIKYKKQI TALNVLIYPDDHLKVVCEPVTEVNDAIRKIVDDMFDTMYQEKGIGLAAPQVDILQRIITIDVEGDKQNQFVLINPEILASEGETGIEEGCLSIPGFRALVPRKEKVTVRALDRDGKEFTLDADGLLAICIQHEIDHLNGILFVDYLSPLKRQRIKEKLIKYKKQI 4wxl-a1-m1-cA_4wxl-a1-m1-cD Crystal structure of a peptide deformylase from Haemophilus influenzae complex with Actinonin Q4QMV6 Q4QMV6 2.33 X-RAY DIFFRACTION 26 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 164 164 4wxl-a1-m1-cB_4wxl-a1-m1-cC ALNVLIYPDDHLKVVCEPVTEVNDAIRKIVDDMFDTMYQEKGIGLAAPQVDILQRIITIDVEGDKQNQFVLINPEILASEGETGIEEGCLSIPGFRALVPRKEKVTVRALDRDGKEFTLDADGLLAICIQHEIDHLNGILFVDYLSPLKRQRIKEKLIKYKKQI ALNVLIYPDDHLKVVCEPVTEVNDAIRKIVDDMFDTMYQEKGIGLAAPQVDILQRIITIDVEGDKQNQFVLINPEILASEGETGIEEGCLSIPGFRALVPRKEKVTVRALDRDGKEFTLDADGLLAICIQHEIDHLNGILFVDYLSPLKRQRIKEKLIKYKKQI 4wxm-a1-m1-cA_4wxm-a1-m1-cB FleQ REC domain from Pseudomonas aeruginosa PAO1 G3XCV0 G3XCV0 2.3 X-RAY DIFFRACTION 21 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 126 129 4wxm-a2-m1-cC_4wxm-a2-m1-cD 4wxm-a3-m1-cE_4wxm-a3-m2-cE ETKLLLIDDNLDRSRDLAVILNFLGEDQLTCNSEDWREVAAGLSNSREALCVLLGSVESKGGAVELLKQLASWDEYLPILLIGEPAPADWPEELRRRVLASLEMPPSYNKLLDSLHRAQVYREMYD MWRETKLLLIDDNLDRSRDLAVILNFLGEDQLTCNSEDWREVAAGLSNSREALCVLLGSVESKGGAVELLKQLASWDEYLPILLIGEPAPADWPEELRRRVLASLEMPPSYNKLLDSLHRAQVYREMYD 4wxo-a1-m1-cA_4wxo-a1-m2-cC SadC (300-487) from Pseudomonas aeruginosa PAO1 Q9HW69 Q9HW69 2.805 X-RAY DIFFRACTION 27 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 177 177 4wxo-a1-m1-cB_4wxo-a1-m2-cB 4wxo-a1-m1-cC_4wxo-a1-m2-cA RYALQAHQDTLRGRQLEDLVATDELTGLFNRRHFRASRALEDLLPNRQHGLALIDLDHFKRINDRHGHAAGDRVLQTFAAVARSCLRDGDVLARYGGEEFVLLLPHADAEQLESCCERLRLAFQQAEPVGVTVDTLSLSVGTLLYADDDLDEALQRADQALYRAKRGGRNRCDATWE RYALQAHQDTLRGRQLEDLVATDELTGLFNRRHFRASRALEDLLPNRQHGLALIDLDHFKRINDRHGHAAGDRVLQTFAAVARSCLRDGDVLARYGGEEFVLLLPHADAEQLESCCERLRLAFQQAEPVGVTVDTLSLSVGTLLYADDDLDEALQRADQALYRAKRGGRNRCDATWE 4wxo-a1-m1-cB_4wxo-a1-m2-cC SadC (300-487) from Pseudomonas aeruginosa PAO1 Q9HW69 Q9HW69 2.805 X-RAY DIFFRACTION 49 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 177 177 4wxo-a1-m1-cA_4wxo-a1-m2-cA 4wxo-a1-m1-cC_4wxo-a1-m2-cB RYALQAHQDTLRGRQLEDLVATDELTGLFNRRHFRASRALEDLLPNRQHGLALIDLDHFKRINDRHGHAAGDRVLQTFAAVARSCLRDGDVLARYGGEEFVLLLPHADAEQLESCCERLRLAFQQAEPVGVTVDTLSLSVGTLLYADDDLDEALQRADQALYRAKRGGRNRCDATWE RYALQAHQDTLRGRQLEDLVATDELTGLFNRRHFRASRALEDLLPNRQHGLALIDLDHFKRINDRHGHAAGDRVLQTFAAVARSCLRDGDVLARYGGEEFVLLLPHADAEQLESCCERLRLAFQQAEPVGVTVDTLSLSVGTLLYADDDLDEALQRADQALYRAKRGGRNRCDATWE 4wy2-a1-m1-cA_4wy2-a1-m2-cA Crystal structure of universal stress protein E from Proteus mirabilis in complex with UDP-3-O-[(3R)-3-hydroxytetradecanoyl]-N-acetyl-alpha-glucosamine B4ETT2 B4ETT2 1.8 X-RAY DIFFRACTION 135 1.0 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 308 308 3olq-a1-m1-cA_3olq-a1-m2-cA EKYQNLLVVIDPNQDDQPALRRAVYIVQRNGGRIKAFLPVYDLSYDMTTLLSPDERNAMRKGVINQKTAWIKQQARYYLEAGIQIDIKVIWHNRPYEAIIEEVITDKHDLLIKMAHQHDKLGSLIFTPLDWQLLRKCPAPVWMVKDKEWPEYGTIVVAANLSNEESYHDALNLKLIELTNDLSHRIQKDPDVHLLSAYPVAPINIAIELPDFDPNLYNNALRGQHLIAMKELRQKFSIPEEKTHVKEGLPEQVIPQVCEELNAGIVVLGILGRTGAAFLGNTAEQLIDHIKCDLLAIKPDGFTCPITV EKYQNLLVVIDPNQDDQPALRRAVYIVQRNGGRIKAFLPVYDLSYDMTTLLSPDERNAMRKGVINQKTAWIKQQARYYLEAGIQIDIKVIWHNRPYEAIIEEVITDKHDLLIKMAHQHDKLGSLIFTPLDWQLLRKCPAPVWMVKDKEWPEYGTIVVAANLSNEESYHDALNLKLIELTNDLSHRIQKDPDVHLLSAYPVAPINIAIELPDFDPNLYNNALRGQHLIAMKELRQKFSIPEEKTHVKEGLPEQVIPQVCEELNAGIVVLGILGRTGAAFLGNTAEQLIDHIKCDLLAIKPDGFTCPITV 4wy5-a1-m1-cA_4wy5-a1-m1-cB Structural analysis of two fungal esterases from Rhizomucor miehei explaining their substrate specificity V5J5W4 V5J5W4 2.43 X-RAY DIFFRACTION 72 1.0 4839 (Rhizomucor miehei) 4839 (Rhizomucor miehei) 320 320 GNPPIHPVYAAAFAAMKERPPIHTLDLKVVRESSEARQLAANIKLPEVIEEDKVVESDGKTLKLTIVRPPGTEDQILPVLIFLHGGGFVFGSKYTHIKPVRDLTVKANVVTVFVDYSLSPEAKFPTAIEEIYAAILWVRENASSLNINAEALAVAGDSAGATLSAAVSIYAKEKGLSAAIKTQVLIYPATAVSHAKYESYKLFGNGDYILSAEDLKFFSNAYLPAPASELNDKLATLELATKADLEGLPPALLFTAESDVLRDEGEKYAQQLAEAGVDVAAVRVLGAVHGFITVPVETPQYRFTINTIVAHLRDIYAKYN GNPPIHPVYAAAFAAMKERPPIHTLDLKVVRESSEARQLAANIKLPEVIEEDKVVESDGKTLKLTIVRPPGTEDQILPVLIFLHGGGFVFGSKYTHIKPVRDLTVKANVVTVFVDYSLSPEAKFPTAIEEIYAAILWVRENASSLNINAEALAVAGDSAGATLSAAVSIYAKEKGLSAAIKTQVLIYPATAVSHAKYESYKLFGNGDYILSAEDLKFFSNAYLPAPASELNDKLATLELATKADLEGLPPALLFTAESDVLRDEGEKYAQQLAEAGVDVAAVRVLGAVHGFITVPVETPQYRFTINTIVAHLRDIYAKYN 4wy8-a2-m1-cD_4wy8-a2-m1-cC Structural analysis of two fungal esterases from Rhizomucor miehei explaining their substrate specificity A0A0M3KKZ9 A0A0M3KKZ9 2.27 X-RAY DIFFRACTION 76 1.0 1031333 (Rhizomucor miehei CAU432) 1031333 (Rhizomucor miehei CAU432) 322 323 4wy8-a1-m1-cB_4wy8-a1-m1-cA PTVKLKPYCQNIADAATIDSTQYPPEVVRKAEAASIIDDPKALEGLPDVYLEEKTINRKNGSKIELTITRPLDTENQVLPPIVFFHGGGWVVGSKLTHRRTVYELTVRARAAVIFVNYSLSPEVRFPTALEECLDAVVWVAKEENAKSINVDPTKLVVAGDSAGGNLSAVVCIRAKQLGLNIIKGQVLIYPVTDDNFETDSYKQFAENYYLTRKLMVWFFDHYIPDKKDRQSIFACPLKASIDDLRVLPRALVITAEADVLREEGEAYARKLIEAGNDVTAVRYLGIIHGIFNLATLSPTGSEILDHIVAWLQKTWKLEHHH PTVKLKPYCQNIADAATIDSTQYPPEVVRKAEAASIIDDPKALEGLPDVYLEEKTINRKNGSKIELTITRPLDTENQVLPPIVFFHGGGWVVGSKLTHRRTVYELTVRARAAVIFVNYSLSPEVRFPTALEECLDAVVWVAKEENAKSINVDPTKLVVAGDSAGGNLSAVVCIRAKQLGLNIIKGQVLIYPVTDDNFETDSYKQFAENYYLTRKLMVWFFDHYIPDKKDRQSIFACPLKASIDDLRVLPRALVITAEADVLREEGEAYARKLIEAGNDVTAVRYLGIIHGIFNLATLSPTGSEILDHIVAWLQKTWKLEHHHH 4wyk-a1-m1-cA_4wyk-a1-m1-cC Structure of the LRR and NTF2-like domains of NXF1 complexed with NXT1 Q9UBU9 Q9UBU9 3.4 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 346 ELKPEQVEQLKLIMSKRYDGSQQALDLKGLRSDPDLVAQNIDVVLNRRSCMAATLRIIEENIPELLSLNLSNNRLYRLDDMSSIVQKAPNLKILNLSGNELKSERELDKIKGLKLEELWLDGNSLCDTFRDQSTYISAIRERFPKLLRLDGHELPPPIAFDVEAPTTLPPCKGSYFGTENLKSLVLHFLQQYYAIYDSGDRQGLLDAYHDGACCSLSIPFIPARSSLAEYFKDSRNVKKLKDPTLRFRLLKHTRLNVVAFLNELPKTQHDVNSFVVDISAQTSTLLCFSVNGVFKEVDGKSRDSLRAFTRTFIAVPASNSGLCIVNDELFVRNASSEEIQRAFA NELKPEQVEQLKLIMSKRYDGSQQALDLKGLRSDPDLVAQNIDVVLNRRSCMAATLRIIEENIPELLSLNLSNNRLYRLDDMSSIVQKAPNLKILNLSGNELKSERELDKIKGLKLEELWLDGNSLCDTFRDQSTYISAIRERFPKLLRLDGHELPPPIAFDVEAPTTLPPCKGSYFGTENLKSLVLHFLQQYYAIYDSGDRQGLLDAYHDGACCSLSIPFIPPARSSLAEYFKDSRNVKKLKDPTLRFRLLKHTRLNVVAFLNELPKTQHDVNSFVVDISAQTSTLLCFSVNGVFKEVDGKSRDSLRAFTRTFIAVPASNSGLCIVNDELFVRNASSEEIQRAFA 4wz9-a1-m1-cA_4wz9-a1-m1-cB APN1 from Anopheles gambiae Q7Q2T8 Q7Q2T8 2.65 X-RAY DIFFRACTION 76 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 882 887 QAVDERYRLPTTSIPIHYDLHLRTEIHRNERTFTGTVGIQLQVVQATDKLVMHNRGLVMSSAKVSSLPNGVTGAPTLIGDVQYSTDTTFEHITFTSPTILQPGTYLLEVAFQGRLATNDDGFYVSSYVADNGERRYLATTQFESTSARMAFPCYDEPGLKATFTVSITHSLSYKAISNMPQKTTTDIETDMRTTFFEKTPAMSTYLLAFVVSDFQLRLSGAQRVYVRPNAFNEATFALEAGVKILKVLDDHLGIPYDTYMPKLDQIAIPDFAAGAMENWGLVTYREQALLFNPAVSTYRGKTNVATTIAHEYAHQWFGNLVSPEWWEYIWLNEGFATLYEFYALDMAYPGQEYWELFNQQVIQYAMGQDGQASTRPMNWNAATPGEISALFDRVAYDKSGSVLNMMRHVLGDDNWKAGLKAYLTDRALQGAVDEQLYAGLQSAIEGKGVLPNGVTVAQIMRTWTNEAGYPVLNVRRSYDTGDVIISQERFYNDRKVPNTNIWMIPYNYVHQAKADFNEFDDFQWLATKAARIETTVPANEWIVFNKQQVGYYRVNYDEHNWELITNALHENWASIHRLNRAQLIDDAYWLARSGRLDLRVALRFMTYLRNEREYAPWTAANVALTYFNNRLRGTAEYHNFLIFVDALIEDIYSLLTIDAVSPDDTLLHKYLVQTISTWACSMGYTDCLMKTAALLKAEASGTGPAVHPDIASVTYCYGMRSALESEFQYLYRKMMNSKNLAERTMLIDSLGCSNNKEFLKAFLTTALGSINYRADERRRVVQAIYSGGRTGVDALIEFLMDPALVNEFVSTLSTSTLNSALSAIASRTNNVEEMNKLNALITALGSRVNSQTAANLRTTAQANLDWVNGFEGLMLSNFLAEA QAVDERYRLPTTSIPIHYDLHLRTEIHRNERTFTGTVGIQLQVVQATDKLVMHNRGLVMSSAKVSSLPNGVTGAPTLIGDVQYSTDTTFEHITFTSPTILQPGTYLLEVAFQGRLATNDDGFYVSSYVADNGERRYLATTQFESTSARMAFPCYDEPGLKATFTVSITHSLSYKAISNMPQKTTTDIETDMRTTFFEKTPAMSTYLLAFVVSDFQLRLSGAQRVYVRPNAFNEATFALEAGVKILKVLDDHLGIPYDTYMPKLDQIAIPDFAAGAMENWGLVTYREQALLFNPAVSTYRGKTNVATTIAHEYAHQWFGNLVSPEWWEYIWLNEGFATLYEFYALDMAYPGQEYWELFNQQVIQYAMGQDGQASTRPMNWNAATPGEISALFDRVAYDKSGSVLNMMRHVLGDDNWKAGLKAYLTDRALQGAVDEQLYAGLQSAIEGKGVLPNGVTVAQIMRTWTNEAGYPVLNVRRSYDTGDVIISQERFYNDRKVPNTNIWMIPYNYVHQAKADFNEFDDFQWLATKAARIETTVPANEWIVFNKQQVGYYRVNYDEHNWELITNALHENWASIHRLNRAQLIDDAYWLARSGRLDLRVALRFMTYLRNEREYAPWTAANVALTYFNNRLRGTAEYHNFLIFVDALIEDIYSLLTIDAVSPDDTLLHKYLVQTISTWACSMGYTDCLMKTAALLKAEASGTGPAVHPDIASVTYCYGMRSALESEFQYLYRKMMNSKNLAERTMLIDSLGCSNNKEFLKAFLTTALGSGTGVEINYRADERRRVVQAIYSGGRTGVDALIEFLMDPALVNEFVSTLSTSTLNSALSAIASRTNNVEEMNKLNALITALGSRVNSQTAANLRTTAQANLDWVNGFEGLMLSNFLAEA 4wzh-a1-m1-cA_4wzh-a1-m1-cB Dihydroorotate dehydrogenase from Leishmania Viannia braziliensis E9AI53 E9AI53 2.12 X-RAY DIFFRACTION 146 1.0 5660 (Leishmania braziliensis) 5660 (Leishmania braziliensis) 304 304 MSLQVGILGNTFANPFMNAAGVMCSTEEELAAMTESTSGSLITKSCTPALREGNPAPRYYTLPLGSINSMGLPNKGFDFYLAYSARHHDYSRKPLFISISGFSAEENAEMCKRLAPVAAEKGVILELNLSQVAYDFDAMRRYLAAISEAYPHPFGVKMPPYFDFAHFDAAAEILNQFPKVQFITCINSIGNGLVIDVETESVVIKPKQGFGGLGGRYVFPTALANVNAFYRRCPGKLIFGCGGVYTGEDAFLHVLAGASMVQVGTALHEEGAAIFERLTAELLDVMAKKGYKALDEFRGKVKAM MSLQVGILGNTFANPFMNAAGVMCSTEEELAAMTESTSGSLITKSCTPALREGNPAPRYYTLPLGSINSMGLPNKGFDFYLAYSARHHDYSRKPLFISISGFSAEENAEMCKRLAPVAAEKGVILELNLSQVAYDFDAMRRYLAAISEAYPHPFGVKMPPYFDFAHFDAAAEILNQFPKVQFITCINSIGNGLVIDVETESVVIKPKQGFGGLGGRYVFPTALANVNAFYRRCPGKLIFGCGGVYTGEDAFLHVLAGASMVQVGTALHEEGAAIFERLTAELLDVMAKKGYKALDEFRGKVKAM 4wzi-a1-m1-cA_4wzi-a1-m1-cB Crystal structure of crosslink stabilized long-form PDE4B Q07343 Q07343 2.58 X-RAY DIFFRACTION 274 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 412 424 4x0f-a1-m1-cA_4x0f-a1-m1-cB VTPFAQVLASLRSVRNNFTIQKLAMETLEELDWALDQLETIQTYRSVSEMASNKFKRMLNRELTHLSEMSRCGNQVSEYISNTFLDKENEDHLAKELEDLNKWGLNIFNVAGYSHNRPLTAIMYAIFQERDLLKTFRISSDTFITYMMTLEDHYHSDVAYHNSLHAADVAQSTHVLLSTPALDAVFTDLEILAAIFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEEHADIFMNLTKKQRQTLRKMVIDMVLATDMSKHMSLLADLKTMVETKKVTSSGVLLLDNYTDRIQVLRNMVHAADLSNPTKSLELYRQWTDRIMEEFFQQGDKERERGMEISPMADKHTACVEKSQVGFIDYIVHPLWETWADLVQPDAQDILDTLEDNRNWYQAMIP VTPFAQVLASLRSVRNNFTILTQEESYQKLAMETLEELDWALDQLETIQTYRSVSEMASNKFKRMLNRELTHLSEMSRCGNQVSEYISNTFLDKFGVNTENEDHLAKELEDLNKWGLNIFNVAGYSHNRPLTAIMYAIFQERDLLKTFRISSDTFITYMMTLEDHYHSDVAYHNSLHAADVAQSTHVLLSTPALDAVFTDLEILAAIFAAAIHDVDHPGVSNQFLINTNSELALMYNDESVLENHHLAVGFKLLQEEHADIFMNLTKKQRQTLRKMVIDMVLATDMSKHMSLLADLKTMVETKKVTSSGVLLLDNYTDRIQVLRNMVHAADLSNPTKSLELYRQWTDRIMEEFFQQGDKERERGMEISPMADKHTACVEKSQVGFIDYIVHPLWETWADLVQPDAQDILDTLEDNRNWYQAMIP 4wzu-a1-m1-cA_4wzu-a1-m2-cA Crystal structure of beta-ketoacyl-(acyl carrier protein) synthase III-2 (FabH2) from Vibrio cholerae Q9KLJ3 Q9KLJ3 1.88 X-RAY DIFFRACTION 244 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 358 358 4x0o-a1-m1-cA_4x0o-a1-m1-cC 4x0o-a2-m1-cB_4x0o-a2-m1-cD 4x0o-a3-m1-cG_4x0o-a3-m1-cE 4x0o-a4-m1-cH_4x0o-a4-m1-cF 4x9k-a1-m1-cA_4x9k-a1-m2-cA 4x9o-a1-m1-cA_4x9o-a1-m1-cB 5kp2-a1-m1-cA_5kp2-a1-m1-cB 5v0p-a1-m1-cA_5v0p-a1-m1-cB QCYAEITGWGKCLPPATLSNHDLSTFLDTSDEWIQSRTGIEQRRISHVNTSDLATVAAQHAIACAGVSVEEIDLIIVATCSPDSLIPNIASRVQQNLGIPSAAAFDLNAACTGFLYGLETATRLMQASHYRHALVIGAERLSFYLDWTKRDTAVLFGDGAGAVVLSKTEQKVGLQDAQIGCDAQGRDILAVPKFGTAMDRFDADNGYWAFDFVGKEIFKRAVRGMGAAAQQVLARSGLSTEEIDVVIPHQANIRIIQTLCDLAGIAQDKAFVNIHRYGNTSAATVPIALCEALEQGKIKPHDDLLVAAFGAGLTWGAGHIRWGERITPLGKSDAQLPSCDHTALDLLSKAIEHCKRHQ QCYAEITGWGKCLPPATLSNHDLSTFLDTSDEWIQSRTGIEQRRISHVNTSDLATVAAQHAIACAGVSVEEIDLIIVATCSPDSLIPNIASRVQQNLGIPSAAAFDLNAACTGFLYGLETATRLMQASHYRHALVIGAERLSFYLDWTKRDTAVLFGDGAGAVVLSKTEQKVGLQDAQIGCDAQGRDILAVPKFGTAMDRFDADNGYWAFDFVGKEIFKRAVRGMGAAAQQVLARSGLSTEEIDVVIPHQANIRIIQTLCDLAGIAQDKAFVNIHRYGNTSAATVPIALCEALEQGKIKPHDDLLVAAFGAGLTWGAGHIRWGERITPLGKSDAQLPSCDHTALDLLSKAIEHCKRHQ 4x01-a1-m1-cD_4x01-a1-m1-cA S. pombe Ctp1 tetramerization domain O74986 O74986 2.201 X-RAY DIFFRACTION 17 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 48 49 SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEMESVKT SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEMESVKTK 4x01-a1-m1-cD_4x01-a1-m1-cC S. pombe Ctp1 tetramerization domain O74986 O74986 2.201 X-RAY DIFFRACTION 51 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 48 50 4x01-a1-m1-cA_4x01-a1-m1-cB 4x01-a2-m1-cE_4x01-a2-m1-cF SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEMESVKT SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEMESVKTKQ 4x01-a2-m1-cG_4x01-a2-m1-cE S. pombe Ctp1 tetramerization domain O74986 O74986 2.201 X-RAY DIFFRACTION 15 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 44 46 4x01-a1-m1-cB_4x01-a1-m1-cC SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEME SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEMESV 4x01-a2-m1-cG_4x01-a2-m1-cF S. pombe Ctp1 tetramerization domain O74986 O74986 2.201 X-RAY DIFFRACTION 12 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 44 47 4x01-a1-m1-cA_4x01-a1-m1-cC SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEME SVHWSIVYRQLGNLLEQYEVEIARLKSQLVLEKKLRIQVEKEMESVK 4x04-a1-m1-cA_4x04-a1-m1-cB CRYSTAL STRUCTURE OF A TRAP PERIPLASMIC SOLUTE BINDING PROTEIN FROM CITROBACTER KOSERI (CKO_04899, TARGET EFI-510094) WITH BOUND D-glucuronate A8AR30 A8AR30 2.5 X-RAY DIFFRACTION 35 1.0 290338 (Citrobacter koseri ATCC BAA-895) 290338 (Citrobacter koseri ATCC BAA-895) 286 286 QVIKAADVHPQGYPNVVAVQKGEKLKQQTDGKLEIKVFPGGVLGDEKQIEQAQIGAIDIRVSAPVAAILPDIEVFTLPYVFRDEDHHKIIDGDIGKSIGDKLTNNPKSRLVFLGWDSGTRNLITKNPVEKPEDLHGKIRVQGSPVALDTLKDGANSVAGVSEVFSGQTGVIDGAENNPPTFVAHNYPVAKNYTLSGHFITPELLYSKVKWDKLTADEQQKILTLAREAQFEQRKLWDAYNQEALAKKAGGVQFHEIDKAYFVKATEPVRAQYGEKHQALKAIADVQ QVIKAADVHPQGYPNVVAVQKGEKLKQQTDGKLEIKVFPGGVLGDEKQIEQAQIGAIDIRVSAPVAAILPDIEVFTLPYVFRDEDHHKIIDGDIGKSIGDKLTNNPKSRLVFLGWDSGTRNLITKNPVEKPEDLHGKIRVQGSPVALDTLKDGANSVAGVSEVFSGQTGVIDGAENNPPTFVAHNYPVAKNYTLSGHFITPELLYSKVKWDKLTADEQQKILTLAREAQFEQRKLWDAYNQEALAKKAGGVQFHEIDKAYFVKATEPVRAQYGEKHQALKAIADVQ 4x04-a1-m1-cA_4x04-a1-m1-cC CRYSTAL STRUCTURE OF A TRAP PERIPLASMIC SOLUTE BINDING PROTEIN FROM CITROBACTER KOSERI (CKO_04899, TARGET EFI-510094) WITH BOUND D-glucuronate A8AR30 A8AR30 2.5 X-RAY DIFFRACTION 36 1.0 290338 (Citrobacter koseri ATCC BAA-895) 290338 (Citrobacter koseri ATCC BAA-895) 286 286 QVIKAADVHPQGYPNVVAVQKGEKLKQQTDGKLEIKVFPGGVLGDEKQIEQAQIGAIDIRVSAPVAAILPDIEVFTLPYVFRDEDHHKIIDGDIGKSIGDKLTNNPKSRLVFLGWDSGTRNLITKNPVEKPEDLHGKIRVQGSPVALDTLKDGANSVAGVSEVFSGQTGVIDGAENNPPTFVAHNYPVAKNYTLSGHFITPELLYSKVKWDKLTADEQQKILTLAREAQFEQRKLWDAYNQEALAKKAGGVQFHEIDKAYFVKATEPVRAQYGEKHQALKAIADVQ QVIKAADVHPQGYPNVVAVQKGEKLKQQTDGKLEIKVFPGGVLGDEKQIEQAQIGAIDIRVSAPVAAILPDIEVFTLPYVFRDEDHHKIIDGDIGKSIGDKLTNNPKSRLVFLGWDSGTRNLITKNPVEKPEDLHGKIRVQGSPVALDTLKDGANSVAGVSEVFSGQTGVIDGAENNPPTFVAHNYPVAKNYTLSGHFITPELLYSKVKWDKLTADEQQKILTLAREAQFEQRKLWDAYNQEALAKKAGGVQFHEIDKAYFVKATEPVRAQYGEKHQALKAIADVQ 4x04-a1-m1-cA_4x04-a1-m1-cD CRYSTAL STRUCTURE OF A TRAP PERIPLASMIC SOLUTE BINDING PROTEIN FROM CITROBACTER KOSERI (CKO_04899, TARGET EFI-510094) WITH BOUND D-glucuronate A8AR30 A8AR30 2.5 X-RAY DIFFRACTION 56 1.0 290338 (Citrobacter koseri ATCC BAA-895) 290338 (Citrobacter koseri ATCC BAA-895) 286 286 QVIKAADVHPQGYPNVVAVQKGEKLKQQTDGKLEIKVFPGGVLGDEKQIEQAQIGAIDIRVSAPVAAILPDIEVFTLPYVFRDEDHHKIIDGDIGKSIGDKLTNNPKSRLVFLGWDSGTRNLITKNPVEKPEDLHGKIRVQGSPVALDTLKDGANSVAGVSEVFSGQTGVIDGAENNPPTFVAHNYPVAKNYTLSGHFITPELLYSKVKWDKLTADEQQKILTLAREAQFEQRKLWDAYNQEALAKKAGGVQFHEIDKAYFVKATEPVRAQYGEKHQALKAIADVQ QVIKAADVHPQGYPNVVAVQKGEKLKQQTDGKLEIKVFPGGVLGDEKQIEQAQIGAIDIRVSAPVAAILPDIEVFTLPYVFRDEDHHKIIDGDIGKSIGDKLTNNPKSRLVFLGWDSGTRNLITKNPVEKPEDLHGKIRVQGSPVALDTLKDGANSVAGVSEVFSGQTGVIDGAENNPPTFVAHNYPVAKNYTLSGHFITPELLYSKVKWDKLTADEQQKILTLAREAQFEQRKLWDAYNQEALAKKAGGVQFHEIDKAYFVKATEPVRAQYGEKHQALKAIADVQ 4x0r-a1-m1-cA_4x0r-a1-m1-cB Crystal structure of human MxB stalk domain P20592 P20592 2.905 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 216 EADKMFFLIEKIKMFNQDIEKLVEGEEVVRENETRLYNKIREDFKNWVGILATNTQKVKNIIHEETFEIIVHQYIQQLVEPALSMLQKAMEIIQQAFINVAKKHFGEFFNLNQTVQSTIEDIKVKHTAKAENMIQLQFRMEQMVFKTEIGIHLNAYFLETSKRLANQIPFIIQYFMLRENGDSLQKAMMQILQEKNRYSWL EADKMFFLIEKIKMFNQDIEKLVEGEEVVRENETRLYNKIREDFKNWVGILATNTQKVKNIIHEEVEKYEKQAAKTFEIIVHQYIQQLVEPALSMLQKAMEIIQQAFINVAKKHFGEFFNLNQTVQSTIEDIKVKHTAKAENMIQLQFRMEQMVFKSVSSFTEIGIHLNAYFLETSKRLANQIPFIIQYFMLRENGDSLQKAMMQILQEKNRYSWL 4x0x-a2-m1-cC_4x0x-a2-m1-cD The structure of AhpE from Mycobacterium tuberculosis revisited P9WIE2 P9WIE2 1.9 X-RAY DIFFRACTION 40 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 154 154 4x0x-a1-m1-cA_4x0x-a1-m1-cB 4xih-a1-m1-cA_4xih-a1-m2-cB 5c04-a1-m1-cA_5c04-a1-m1-cB 5id2-a1-m1-cA_5id2-a1-m1-cB 5id2-a2-m1-cD_5id2-a2-m1-cC HMLNVGATAPDFTLRDQNQQLVTLRGYRGAKNVLLVFFPLAFTGICQGELDQLRDHLPEFENDDSAALAISVGPPPTHKIWATQSGFTFPLLSDFWPHGAVSQAYGVFNEQAGIANRGTFVVDRSGIIRFAEMKQPGEVRDQRLWTDALAALTA HMLNVGATAPDFTLRDQNQQLVTLRGYRGAKNVLLVFFPLAFTGICQGELDQLRDHLPEFENDDSAALAISVGPPPTHKIWATQSGFTFPLLSDFWPHGAVSQAYGVFNEQAGIANRGTFVVDRSGIIRFAEMKQPGEVRDQRLWTDALAALTA 4x1w-a2-m1-cC_4x1w-a2-m1-cD Crystal structure of unbound RHDVb P domain I7FLU3 I7FLU3 1.95 X-RAY DIFFRACTION 125 1.0 11976 (Rabbit hemorrhagic disease virus) 11976 (Rabbit hemorrhagic disease virus) 332 332 4x1w-a1-m1-cA_4x1w-a1-m1-cB 4x1x-a1-m1-cA_4x1x-a1-m1-cB 4x1z-a1-m1-cA_4x1z-a1-m1-cB SPADLLTTPVLTGVGTDNRWNGEIVGLQPVPGGFSTCNRHWNLNGSTFGWSSPRFAAIDHDRGNASYPGSSSSNVLELWYASAGSAADNPISQIAPDGFPDMSFVPFSGTTVPTAGWVGFGGIWNSSNGAPFVTTVQAYELGFATGAPSNPQPTTTTSGAQIVAKSIYGVATGINQATAGLFVMASGVISTPNSSAITYTPQPNRIVNAPGTPAAAPIGKNTPIMFASVVRRTGDINAEAGSTNGTQYGAGSQPLPVTVGLSLNNYSSALMPGQFFVWQLNFASGFMELGLSVDGYFYAGTGASATLIDLSELVDIRPVGPRPSTSTLVYNL SPADLLTTPVLTGVGTDNRWNGEIVGLQPVPGGFSTCNRHWNLNGSTFGWSSPRFAAIDHDRGNASYPGSSSSNVLELWYASAGSAADNPISQIAPDGFPDMSFVPFSGTTVPTAGWVGFGGIWNSSNGAPFVTTVQAYELGFATGAPSNPQPTTTTSGAQIVAKSIYGVATGINQATAGLFVMASGVISTPNSSAITYTPQPNRIVNAPGTPAAAPIGKNTPIMFASVVRRTGDINAEAGSTNGTQYGAGSQPLPVTVGLSLNNYSSALMPGQFFVWQLNFASGFMELGLSVDGYFYAGTGASATLIDLSELVDIRPVGPRPSTSTLVYNL 4x2d-a1-m2-cC_4x2d-a1-m1-cA Clostridium difficile Fic protein_0569 mutant S31A, E35A in complex with ATP 2.5 X-RAY DIFFRACTION 44 0.99 645463 (Clostridioides difficile R20291) 645463 (Clostridioides difficile R20291) 198 227 LDKLIETKELSLYNVLKHNFLYHANKIAGSTFTTEALALLLDKNVVTGRHTLDDVQETVNSSYVFDTVIDSLKEKITHNFLRNLHSSLIFNTTLHSREPKLDELIEWYYSQSEVSIKVIAEFHYRFELIHPFQDGNGRIGRFVMLKQMLENNLPIKIVSWDSEDLYRNSLNSCSLGNYVPLIEYLSSLEDFREVYKML SFLDKLIETKNSLYNVLKHNFLYHANKIAGSTFTTEALALLLDKNVVTGRHTLDDVQETVNSSYVFDTVIDSLKEKITHNFLRNLHSSLIFNTTLHSRGMAGIYKTIPNMILGTDVSIAQPFEVEPKLDELIEWYYSQSEVSIKVIAEFHYRFELIHPFQDGNGRIGRFVMLKQMLENNLPIKIVSWDSEDLYRNSLNSCSLGNYVPLIEYLSSLEDFREVYKMLWK 4x2d-a4-m1-cD_4x2d-a4-m2-cB Clostridium difficile Fic protein_0569 mutant S31A, E35A in complex with ATP 2.5 X-RAY DIFFRACTION 41 0.99 645463 (Clostridioides difficile R20291) 645463 (Clostridioides difficile R20291) 202 204 4x2c-a1-m1-cB_4x2c-a1-m1-cA 4x2d-a2-m1-cC_4x2d-a2-m3-cA 4x2d-a3-m3-cD_4x2d-a3-m1-cB 4x2e-a1-m1-cA_4x2e-a1-m4-cB 4x2e-a2-m5-cA_4x2e-a2-m1-cB 4x2e-a3-m1-cD_4x2e-a3-m2-cC 4x2e-a4-m3-cD_4x2e-a4-m1-cC SFLDKLIETKELKNSLYNVLKHNFLYHANKIAGSTFTTEALALLLDKNVVTGRHTLDDVQETVNSSYVFDTVIDSLKEKITHNFLRNLHSSLIFNTTLHSEPKLDELIEWYYSQSEVSIKVIAEFHYRFELIHPFQDGNGRIGRFVMLKQMLENNLPIKIVSWDSEDLYRNSLNSCSLGNYVPLIEYLSSLEDFREVYKMLW SFLDKLIETKELKNSLYNVLKHNFLYHANKIAGSTFTTEALALLLDKNVVTGRHTLDDVQETVNSSYVFDTVIDSLKEKITHNFLRNLHSSLIFNTTLFEVEPKLDELIEWYYSQSEVSIKVIAEFHYRFELIHPFQDGNGRIGRFVMLKQMLENNLPIKIVSWDSEDLYRNSLNSCSLGNYVPLIEYLSSLEDFREVYKMLWK 4x3l-a1-m1-cA_4x3l-a1-m1-cB Crystal Structure of TTHA0275 from Thermus thermophilus (HB8) in complex with 5'-methylthioadenosine in space group P21212 Q5SLL8 Q5SLL8 1.7 X-RAY DIFFRACTION 98 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 260 260 4x3m-a1-m1-cA_4x3m-a1-m1-cB MRIESPQNPRVKALAALKERKERERTGRFLVEGRREVERALEAGLSLETLLLGPKARPEDRALAGGAEVLELSERALARVSTRENPAQVLGVFRLPRRSLAGVTLGAAPLVLVLLGLEKPGNLGAILRAADGAGADLVLVAEGVDLFSPQVIRNSTGAVFALPVYPVAEGEAARFLEEHNLPLVAATPEGERLYWEGDYRGGVAFLLGAEDKGLPEAWKRRAQVRVRIPMRGRADSLNVAVTAALLLYEALRQRSGGAPL MRIESPQNPRVKALAALKERKERERTGRFLVEGRREVERALEAGLSLETLLLGPKARPEDRALAGGAEVLELSERALARVSTRENPAQVLGVFRLPRRSLAGVTLGAAPLVLVLLGLEKPGNLGAILRAADGAGADLVLVAEGVDLFSPQVIRNSTGAVFALPVYPVAEGEAARFLEEHNLPLVAATPEGERLYWEGDYRGGVAFLLGAEDKGLPEAWKRRAQVRVRIPMRGRADSLNVAVTAALLLYEALRQRSGGAPL 4x3n-a1-m1-cB_4x3n-a1-m1-cC Crystal structure of 34 kDa F-actin bundling protein from Dictyostelium discoideum P24005 P24005 1.89 X-RAY DIFFRACTION 30 0.996 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 255 258 4x3n-a1-m1-cB_4x3n-a1-m1-cA 4x3n-a1-m1-cC_4x3n-a1-m1-cA EKLSAEAMEFFCNVAKLPFSQQAVHFLNAYWAEVSKEAEFIYSVGWETIKYADMHCKGIQLVFKYDEGNDLDFDIALYFYEQLCKFCEDPKNKNYATTYPISQPQMLTALKRKQELREKVDVNFDGRVSFLEYLLYQYKDFANPADFCTRSMNHDEHPEIKKARLALEEVNKRIRAYEEEKARLTEESKIPGVKGLGATNMLAQIDSGPLKEQLNFALISAEAAVRTASKKYGSSAGAIWWMNRDLEEKKKRYGP KLSAEAMEFFCNVAKLPFSQQAVHFLNAYWAEVSKEAEFIYSVGWETIKYADMHCKGIQLVFKYDEGNDLDFDIALYFYEQLCKFCEDPKNKNYATTYPISQPQMLTALKRKQELREKVDVNFDGRVSFLEYLLYQYKDFANPADFCTRSMNHDEHPEIKKARLALEEVNKRIRAYEEEKARLTEESKIPGVKGLGATNMLAQIDSGPLKEQLNFALISAEAAVRTASKKYGGSSAGAIWWMNRDLEEKKKRYGPQKK 4x3t-a2-m1-cF_4x3t-a2-m1-cC Crystal structure of chromobox homolog 7 (CBX7) chromodomain with MS37452 Q8VDS3 Q8VDS3 2.14 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 56 62 4x3t-a1-m1-cB_4x3t-a1-m1-cA HMGEQVFAVESIRKKRVRKGKVEYLVKWKGWPPKYSTWEPEEHILDPRLVMAYEEK HMGEQVFAVESIRKKRVRKGKVEYLVKWKGWPPKYSTWEPEEHILDPRLVMAYEEKEERDRA 4x3t-a3-m1-cE_4x3t-a3-m1-cD Crystal structure of chromobox homolog 7 (CBX7) chromodomain with MS37452 Q8VDS3 Q8VDS3 2.14 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 51 62 HMGEQVFAVESIRKKRVRKGKVEYLVKWKGWPPKYSTWEPEEHILDPRLVM HMGEQVFAVESIRKKRVRKGKVEYLVKWKGWPPKYSTWEPEEHILDPRLVMAYEEKEERDRA 4x4j-a1-m2-cB_4x4j-a1-m1-cA Structural and Functional Studies of BexE: Insights into Oxidation During BE-7585A Biosynthesis D7RFJ3 D7RFJ3 2.65 X-RAY DIFFRACTION 65 0.996 797057 (Amycolatopsis orientalis subsp. vinearia) 797057 (Amycolatopsis orientalis subsp. vinearia) 480 482 MDAPVVIAGAGPAGLMLAGELRLAGIGVVVLERLPARTGESRGLGFTARTMEVFDQRGLLRRFGEVQTSDQGHFGGIPVDFGLLDGAHQAAKTIPQSATEAVLEAWAGELGADIRRGHELTGVRDDGDGVAVTVRGPAGEHVLRAGWLVGCDGGRSAVRKAVGFDFPGTAATREMFLADLRGVELEPRSLPGGMVMVGPLPGGVTRIIVCERDAPPRRRTGPPPFHEVADAWKRITGIDISAAEPVWLSAFGDATRQVTEYRRGRVLLAGDAAHVHLPAGGQGMNAGIQDAVNLGWKLAAVVRGTARADLLDTYHGERHPVGVRLLMNTRAQGLLFLNGAEMQPLRDVLAELTGYPDVARHLAAMVSGLEIAYDVGGGSHPWLGRRLPRLELDRPSSTAELLRPARGLLLDFAGNAALRDRAAPWAGRIDVVTARPAAGRVPGATTAVLVRPDGHVAWAAPGTHADLPMALERWFGPAPR DAPVVIAGAGPAGLMLAGELRLAGIGVVVLERLPARTGESRGLGFTARTMEVFDQRGLLRRFGEVQTSDQGHFGGIPVDFGLLDGAHQAAKTIPQSATEAVLEAWAGELGADIRRGHELTGVRDDGDGVAVTVRGPAGEHVLRAGWLVGCDGGRSAVRKAVGFDFPGTAATREMFLADLRGVELEPRMSLPGGMVMVGPLPGGVTRIIVCERDAPPRRRTGPPPFHEVADAWKRITGIDISAAEPVWLSAFGDATRQVTEYRRGRVLLAGDAAHVHLPAGGQGMNAGIQDAVNLGWKLAAVVRGTARADLLDTYHGERHPVGVRLLMNTRAQGLLFLNGAEMQPLRDVLAELTGYPDVARHLAAMVSGLEIAYDVGGGSHPWLGRRLPRLELDRGGRPSSTAELLRPARGLLLDFAGNAALRDRAAPWAGRIDVVTARPAGRVPGATTAVLVRPDGHVAWAAPGTHADLPMALERWFGPAPR 4x4w-a1-m2-cB_4x4w-a1-m1-cA Crystal structure of the full-length human mitochondrial CCA-adding enzyme Q96Q11 Q96Q11 1.9 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 397 398 MFTMKLQSPEFQSLFTEGLKSLTELFVKENHELRIAGGAVRDLLNGVKPQDIDFATTATPTQMKEMFQSAGIRMINGTITARLHEENFEITTLRIDVTTDAEVEFTTDWQKDAERRDLTINSMFLGFDGTLFDYFNGYEDLKNKKVRFVGHAKQRIQEDYLRILRYFRFYGRIVDKPGDHDPETLEAIAENAKGLAGISGERIWVELKKILVGNHVNHLIHLIYDLDVAPYIGLPANASLEEFDKVSKNVDGFSPKPVTLLASLFKVQDDVTKLDLRLKIAKEEKNLGLFIVKNRKDLIKATDSSDPLKPYQDFIIDSDATTRVCELLKYQGEHCLLKEMQQWSIPPFPVSGHDIRKVGISSGKEIGALLQQLREQWKKSGYQMEKDELLSYIKKTL MFTMKLQSPEFQSLFTEGLKSLTELFVKENHELRIAGGAVRDLLNGVKPQDIDFATTATPTQMKEMFQSAGIRMINGTITARLHEENFEITTLRIDVTTDGAEVEFTTDWQKDAERRDLTINSMFLGFDGTLFDYFNGYEDLKNKKVRFVGHAKQRIQEDYLRILRYFRFYGRIVDKPGDHDPETLEAIAENAKGLAGISGERIWVELKKILVGNHVNHLIHLIYDLDVAPYIGLPANASLEEFDKVSKNVDGFSPKPVTLLASLFKVQDDVTKLDLRLKIAKEEKNLGLFIVKNRKDLIKATDSSDPLKPYQDFIIDSDATTRVCELLKYQGEHCLLKEMQQWSIPPFPVSGHDIRKVGISSGKEIGALLQQLREQWKKSGYQMEKDELLSYIKKTL 4x4x-a1-m1-cC_4x4x-a1-m1-cA Retrofitting antibodies with stabilizing mutations. Herceptin scFv mutant. 2.25 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 118 VQLVESGGGLVQPGGSLRLSCAASGFNIKDTYIHWVRQAPGKGLEWVARIYPTNGYTRYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCSRWAMDVWGQGTLVTVS VQLVESGGGLVQPGGSLRLSCAASGFNIKDTYIHWVRQAPGKGLEWVARIYPTNGYTRYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCSRWGGDGFYAMDVWGQGTLVTVS 4x4z-a1-m1-cA_4x4z-a1-m1-cB Retrofitting antibodies with stabilizing mutations. Herceptin VL mutant F53D. 1.8 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 IQMTQSPSSLSASVGDRVTITCRASQDVNTAVAWYQQKPGKAPKLLIYSASDLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHYTTPPTFGQGTKVEIK IQMTQSPSSLSASVGDRVTITCRASQDVNTAVAWYQQKPGKAPKLLIYSASDLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHYTTPPTFGQGTKVEIK 4x51-a1-m1-cB_4x51-a1-m1-cA X-ray structure of mouse interleukin-10 mutant - S1_E8del, C149Y P18893 P18893 2.05 X-RAY DIFFRACTION 266 1.0 10090 (Mus musculus) 10090 (Mus musculus) 141 142 GQSHMLLELRTAFSQVKTFFQTKDQLDNILLTDSLMQDFKGYLGCQALSEMIQFYLVEVMPQAEKHGPEIKEHLNSLGEKLKTLRMRLRRCHRFLPCENKSKAVEQVKSDFNKLQDQGVYKAMNEFDIFINYIEAYMMIKM GQSHMLLELRTAFSQVKTFFQTKDQLDNILLTDSLMQDFKGYLGCQALSEMIQFYLVEVMPQAEKHGPEIKEHLNSLGEKLKTLRMRLRRCHRFLPCENKSKAVEQVKSDFNKLQDQGVYKAMNEFDIFINYIEAYMMIKMK 4x54-a1-m1-cA_4x54-a1-m2-cA Crystal structure of an oxidoreductase (short chain dehydrogenase/reductase) from Brucella ovis A0A0H3AQ75 A0A0H3AQ75 1.45 X-RAY DIFFRACTION 85 1.0 444178 (Brucella ovis ATCC 25840) 444178 (Brucella ovis ATCC 25840) 214 214 RKTLVLTGASRGIGHATVKRFSLAGWRVITCSRQDGPEDHIKVDLSDPEDIGKAIAEIRRRLEANGSKLHALVNNAGISPKAEGGRRMNSIETPMAVWRDVFQVNFMAPIMLARGLFKELEAAQGSVVNVTSIAGSRVHPFAGTAYATSKAALAALTREMASDFGPYGIRVNAIAPGEIDTAILSGKTSEVAETIYFLCTETSSYVTGSEIHIN RKTLVLTGASRGIGHATVKRFSLAGWRVITCSRQDGPEDHIKVDLSDPEDIGKAIAEIRRRLEANGSKLHALVNNAGISPKAEGGRRMNSIETPMAVWRDVFQVNFMAPIMLARGLFKELEAAQGSVVNVTSIAGSRVHPFAGTAYATSKAALAALTREMASDFGPYGIRVNAIAPGEIDTAILSGKTSEVAETIYFLCTETSSYVTGSEIHIN 4x5l-a2-m1-cB_4x5l-a2-m3-cB Crystal structure of Dscam1 Ig7 domain, isoform 9 Q0E9K7 Q0E9K7 2.374 X-RAY DIFFRACTION 69 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 96 96 4x5l-a1-m1-cA_4x5l-a1-m2-cA 4x5l-a3-m1-cC_4x5l-a3-m2-cC 4x5l-a4-m1-cD_4x5l-a4-m3-cD VPPQVLPFSFGESAADVGDIASANCVVPKGDLPLEIRWSLNSAPIVNGENGFTLVRLNKRTSLLNIDSLNAFHRGVYKCIATNPAGTSEYVAELQV VPPQVLPFSFGESAADVGDIASANCVVPKGDLPLEIRWSLNSAPIVNGENGFTLVRLNKRTSLLNIDSLNAFHRGVYKCIATNPAGTSEYVAELQV 4x5m-a1-m1-cA_4x5m-a1-m2-cA Crystal structure of SemiSWEET in the inward-open conformation P0DMV3 P0DMV3 2 X-RAY DIFFRACTION 83 1.0 1281200 (Escherichia coli UMEA 3162-1) 1281200 (Escherichia coli UMEA 3162-1) 86 86 4x5m-a2-m1-cB_4x5m-a2-m1-cC 4x5n-a1-m1-cA_4x5n-a1-m1-cB DTILLTGLFAAFFTTFAFAPQSIKTIRTRNTEGISVVMYIMFLTGVISWIAYGIMRSDFAVLIANIVTLFLAAPVLVITLINRRKK DTILLTGLFAAFFTTFAFAPQSIKTIRTRNTEGISVVMYIMFLTGVISWIAYGIMRSDFAVLIANIVTLFLAAPVLVITLINRRKK 4x5n-a2-m1-cD_4x5n-a2-m1-cC Crystal structure of SemiSWEET in the inward-open and outward-open conformations P0DMV3 P0DMV3 3 X-RAY DIFFRACTION 116 1.0 1281200 (Escherichia coli UMEA 3162-1) 1281200 (Escherichia coli UMEA 3162-1) 91 92 MDTILLTGLFAAFFTTFAFAPQSIKTIRTRNTEGISVVMYIMFLTGVISWIAYGIMRSDFAVLIANIVTLFLAAPVLVITLINRRKKHVLE MDTILLTGLFAAFFTTFAFAPQSIKTIRTRNTEGISVVMYIMFLTGVISWIAYGIMRSDFAVLIANIVTLFLAAPVLVITLINRRKKHVLES 4x5o-a1-m1-cB_4x5o-a1-m1-cA Human histidine tRNA synthetase P12081 P12081 2.8 X-RAY DIFFRACTION 199 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 350 434 4g84-a1-m1-cA_4g84-a1-m1-cB 4g85-a1-m1-cB_4g85-a1-m1-cA 4phc-a1-m1-cB_4phc-a1-m1-cA 4phc-a2-m1-cC_4phc-a2-m1-cD 5w6m-a1-m1-cB_5w6m-a1-m1-cA FVLKTPKGTRDYSPRQMAVREKVFDVIIRCFKRHGAEVIDTPVFELKETLMGDSKLIYDLKDQGGELLSLRYDLTVPFARYLAMNKLTNIKRYHIAKVYRRDYREFYQCDFDIAGNFDPMIPDAECLKIMCEILSSLQIGDFLVKVNDRRILDQALEGLGDLKLLFEYLTLFGIDDKISFDLSLARGLDYYTGVIYEAVLLQGSVAAGGRYDGLVGMFDPKGRKVPCVGLSIGVERIFSIVEQRLEALEEKIRTTETQVLVASAQKKLLEERLKLVSELWDAGIKAELLYKKNPKLLNQLQYCEEAGIPLVAIIGEQELKDGVIKLRSVTSREEVDVRREDLVEEIKRRT FVLKTPKGTRDYSPRQMAVREKVFDVIIRCFKRHGAEVIDTPVFELKETLMGKSKLIYDLKDQGGELLSLRYDLTVPFARYLAMNKLTNIKRYHIAKVYRRDNPAMTRGRYREFYQCDFDIAGNFDPMIPDAECLKIMCEILSSLQIGDFLVKVNDRRILDGMFAICGVSDSKFRTICSSVDKLDKVSWEEVKNEMVGEKGLAPEVADRIGDYVQQHGGVSLVEQLLQDPKLSQNKQALEGLGDLKLLFEYLTLFGIDDKISFDLSLARGLDYYTGVIYEAVLLVGSVAAGGRYDGLVGMFDPKGRKVPCVGLSIGVERIFSIVEQRLEALEEKIRTTETQVLVASAQKKLLEERLKLVSELWDAGIKAELLYKKNPKLLNQLQYCEEAGIPLVAIIGEQELKDGVIKLRSVTSREEVDVRREDLVEEIKRRTG 4x5s-a1-m1-cA_4x5s-a1-m1-cB The crystal structure of an alpha carbonic anhydrase from the extremophilic bacterium Sulfurihydrogenibium azorense. C1DTU5 C1DTU5 1.95 X-RAY DIFFRACTION 75 1.0 309806 (Sulfurihydrogenibium azorense) 309806 (Sulfurihydrogenibium azorense) 223 223 HWSYEGENGPENWAKLNPEYFWCNLKNQSPVDISDNYKVHAKLEKLHINYNKAVNPEIVNNGHTIQVNVLEDFKLNIKGKEYHLKQFHFHAPSEHTVNGKYYPLEMHLVHKDKDGNIAVIGVFFKEGKANPELDKVFKNALKEEGSKVFDGSININALLPPVKNYYTYSGSLTTPPCTEGVLWIVLKQPITASKQQIELFKSIMKHNNNRPTQPINSRYILES HWSYEGENGPENWAKLNPEYFWCNLKNQSPVDISDNYKVHAKLEKLHINYNKAVNPEIVNNGHTIQVNVLEDFKLNIKGKEYHLKQFHFHAPSEHTVNGKYYPLEMHLVHKDKDGNIAVIGVFFKEGKANPELDKVFKNALKEEGSKVFDGSININALLPPVKNYYTYSGSLTTPPCTEGVLWIVLKQPITASKQQIELFKSIMKHNNNRPTQPINSRYILES 4x5t-a1-m1-cC_4x5t-a1-m1-cD alpha 1 glycine receptor transmembrane structure fused to the extracellular domain of GLIC P23415 P23415 3.5 X-RAY DIFFRACTION 118 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 308 308 4x5t-a1-m1-cA_4x5t-a1-m1-cB 4x5t-a1-m1-cB_4x5t-a1-m1-cC 4x5t-a1-m1-cE_4x5t-a1-m1-cA 4x5t-a1-m1-cE_4x5t-a1-m1-cD VSPPPPIADEPLTVNTGIYLIECYSLDDKAETFKVNAFLSLSWKDRRLAFDPVRSGVRVKTYEPEAIWIPEIRFVNVENARDADVVDISVSPDGTVQYLERFSARVLSPLDFRRFPMDSQTLHIYLIVRSVDTRNIVLAVDLEKVGKNDDVFLTGWDIESFTAVVKPANFALEDRLESKLDYQLRISRQMGYYLIQMYIPSLLIVILSWISFWAPARVGLGITTVLTMTTQSSGSRASLPKVSYVKAIDIWMAVCLLFVFSALLEYAAVNFVSRQSQPQRAKKIDKISRIGFPMAFLIFNMFYWIIYF VSPPPPIADEPLTVNTGIYLIECYSLDDKAETFKVNAFLSLSWKDRRLAFDPVRSGVRVKTYEPEAIWIPEIRFVNVENARDADVVDISVSPDGTVQYLERFSARVLSPLDFRRFPMDSQTLHIYLIVRSVDTRNIVLAVDLEKVGKNDDVFLTGWDIESFTAVVKPANFALEDRLESKLDYQLRISRQMGYYLIQMYIPSLLIVILSWISFWAPARVGLGITTVLTMTTQSSGSRASLPKVSYVKAIDIWMAVCLLFVFSALLEYAAVNFVSRQSQPQRAKKIDKISRIGFPMAFLIFNMFYWIIYF 4x68-a1-m1-cA_4x68-a1-m1-cB Crystal Structure of OP0595 complexed with AmpC P24735 P24735 1.68 X-RAY DIFFRACTION 53 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 357 357 MDRLKALVDAAVQPVMKANDIPGLAVAISLKGEPHYFSYGLASKEDGRRVTPETLFEIGSVSKTFTATLAGYALTQDKMRLDDRASQHWPALQGSRFDGISLLDLATYTAGGLPLQFPDSVQKDQAQIRDYYRQWQPTYAPGSQRLYSNPSIGLFGYLAARSLGQPFERLMEQQVFPALGLEQTHLDVPEAALAQYAQGYGKDDRPLRVGPGPLDAEGYGVKTSAADLLRFVDANLHPERLDRPWAQALDATHRGYYKVGDMTQGLGWEAYDWPISLKRLQAGNSTPMALQPHRIARLPAPQALEGQRLLNKTGSTNGFGAYVAFVPGRDLGLVILANRNYPNAERVKIAYAILSGL MDRLKALVDAAVQPVMKANDIPGLAVAISLKGEPHYFSYGLASKEDGRRVTPETLFEIGSVSKTFTATLAGYALTQDKMRLDDRASQHWPALQGSRFDGISLLDLATYTAGGLPLQFPDSVQKDQAQIRDYYRQWQPTYAPGSQRLYSNPSIGLFGYLAARSLGQPFERLMEQQVFPALGLEQTHLDVPEAALAQYAQGYGKDDRPLRVGPGPLDAEGYGVKTSAADLLRFVDANLHPERLDRPWAQALDATHRGYYKVGDMTQGLGWEAYDWPISLKRLQAGNSTPMALQPHRIARLPAPQALEGQRLLNKTGSTNGFGAYVAFVPGRDLGLVILANRNYPNAERVKIAYAILSGL 4x6g-a2-m1-cH_4x6g-a2-m1-cE Full-length OxyR C199D from pseudomonas aeruginosa Q9HTL4 Q9HTL4 2 X-RAY DIFFRACTION 81 0.983 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 292 307 HMTLTELRYIVTLAQEQHFGRAAERCHVSQPTLSVGVKKLEDELGVLIFERSKSAVRLTPVGEGIVAQAQKVLEQAQGIRELAQAGKNQLAAPLKVGAIYTIGPYLFPHLIPQLHRVAPQMPLYIEENFTHILRDKLRTGELDAIIIALPFQEADVLTKPLFDEPFYVLMPADHPWTAKASIDSELLNDKSLLLLGEGHDFRDQVLEACPHTTVESSSLETIRHMVASGLGVSVLPFSAVDSHHYAPGVIEVRPFSAPVPFRTVAIAWRASFPRPRAIEVLADSIRLCSVAR HHMTLTELRYIVTLAQEQHFGRAAERCHVSQPTLSVGVKKLEDELGVLIFEVRLTPVGEGIVAQAQKVLEQAQGIRELAQAGKNQLAAPLKVGAIYTIGPYLFPHLIPQLHRVAPQMPLYIEENFTHILRDKLRTGELDAIIIALPFQEADVLTKPLFDEPFYVLMPADHPWTAKASIDSELLNDKSLLLLGEGHDFRDQVLEACPTVRKGDENKHTTVESSSLETIRHMVASGLGVSVLPFSAVDSHHYAPGVIEVRPFSAPVPFRTVAIAWRASFPRPRAIEVLADSIRLCSVARPQTQEQPQIA 4x7z-a1-m1-cA_4x7z-a1-m1-cB MycF mycinamicin III 3'-O-methyltransferase (E35Q, M56A, E139A variant) in complex with Mg, SAH and mycinamicin III (substrate) Q49492 Q49492 1.44 X-RAY DIFFRACTION 57 1.0 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 250 251 4x7u-a1-m1-cA_4x7u-a1-m1-cB 4x7v-a1-m1-cA_4x7v-a1-m1-cB 4x7w-a1-m1-cA_4x7w-a1-m1-cB 4x7x-a1-m1-cA_4x7x-a1-m1-cB 4x7y-a1-m1-cA_4x7y-a1-m1-cB 4x81-a1-m1-cA_4x81-a1-m1-cB 4xvy-a1-m1-cA_4xvy-a1-m1-cB STGVELYLDLLKRTVSNFIYQDATHVAGLITQAAFVEEARESGEDYPTVAHTAIGMKRLNNLQHCVESALRDGVPGDVLETGVWRGGACIFARGILKAYDVRDRTVWVADSFQGFPKITDDDHPMDAEMNLHQYNAAVDLPTSLATVQRNFSRYGLLDDQVRFLPGWFKDTMPTAPFERLAVLRMDGDSYGATMDVLTHAYPRLSPGGFAIIDDYCIPACREAVHEYRDRHGISDEIVEIDRQGVYWRRS STGVELYLDLLKRTVSNFIYQDATHVAGLITQAAFVEEARESGEDYPTVAHTAIGMKRLNNLQHCVESALRDGVPGDVLETGVWRGGACIFARGILKAYDVRDRTVWVADSFQGFPKITDDDHPMDAEMNLHQYNAAVDLPTSLATVQRNFSRYGLLDDQVRFLPGWFKDTMPTAPFERLAVLRMDGDSYGATMDVLTHAYPRLSPGGFAIIDDYCIPACREAVHEYRDRHGISDEIVEIDRQGVYWRRSA 4x83-a2-m1-cC_4x83-a2-m1-cD Crystal structure of Dscam1 isoform 7.44, N-terminal four Ig domains Q0E9K9 Q0E9K9 1.902 X-RAY DIFFRACTION 83 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 389 391 4x83-a1-m1-cA_4x83-a1-m1-cB 4x9f-a1-m1-cB_4x9f-a1-m1-cA 4x9g-a1-m1-cA_4x9g-a1-m1-cB 4x9i-a1-m1-cA_4x9i-a1-m1-cB 4xb8-a1-m1-cB_4xb8-a1-m1-cA QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVNQFYEAEIMTEYVIRGNAAVLKCSIPSFVADFVRVESWIDDEGNVLSFSDNYDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPVGSKAPTFATASKISSLLGSSSSDIVLLCQAQAFPVPYTRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSEPVLRIESVKKEDKGMYQCFVRNDQESAEASAELKLG ADQKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVNQFYEAEIMTEYVIRGNAAVLKCSIPSFVADFVRVESWIDDEGNVLSFSDNYDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPVGSKAPTFATASKISSLLGSSSSDIVLLCQAQAFPVPYTRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSEPVLRIESVKKEDKGMYQCFVRNDQESAEASAELKLG 4x84-a2-m1-cC_4x84-a2-m1-cB Crystal structure of Ribose-5-phosphate isomerase A from Pseudomonas aeruginosa Q9I6G1 Q9I6G1 1.25 X-RAY DIFFRACTION 79 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 224 229 4x84-a1-m1-cD_4x84-a1-m1-cA HMNQDQLKQAVAQAAVDHILPHLDSKSIVGVGTGSTANFFIDALARHKAEFDGAVASSEATAKRLKEHGIPVYELNTVSELEFYVDGADESNERLELIKGGGAALTREKIVAAVAKTFICIADASKLVPILGQFPLPVEVIPMARSHVARQLVKLGGDPVYREGVLTDNGNIILDVHNLRIDSPVELEEKINAIVGVVTNGLFAARPADLLLLGTADGVKTLKA HHHHHHMNQDQLKQAVAQAAVDHILPHLDSKSIVGVGTGSTANFFIDALARHKAEFDGAVASSEATAKRLKEHGIPVYELNTVSELEFYVDGADESNERLELIKGGGAALTREKIVAAVAKTFICIADASKLVPILGQFPLPVEVIPMARSHVARQLVKLGGDPVYREGVLTDNGNIILDVHNLRIDSPVELEEKINAIVGVVTNGLFAARPADLLLLGTADGVKTLKA 4x8w-a1-m1-cA_4x8w-a1-m1-cE dsRBD3 of Loquacious Q9VJY9 Q9VJY9 2.647 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 69 72 4x8w-a1-m1-cB_4x8w-a1-m1-cD GIDYILLGEIATENQFEVTYVDIEETFSGQFQCLVQLSTLPVGVCHGSGPTAADAQRHAAQNALEYLIM GGGIDYILLGEIATENQFEVTYVDIEETFSGQFQCLVQLSTLPVGVCHGSGPTAADAQRHAAQNALEYLIMT 4x8w-a1-m1-cB_4x8w-a1-m1-cE dsRBD3 of Loquacious Q9VJY9 Q9VJY9 2.647 X-RAY DIFFRACTION 49 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 69 72 4x8w-a1-m1-cA_4x8w-a1-m1-cD IDYILLGEIATENQFEVTYVDIEETFSGQFQCLVQLSTLPVGVCHGSGPTAADAQRHAAQNALEYLIMT GGGIDYILLGEIATENQFEVTYVDIEETFSGQFQCLVQLSTLPVGVCHGSGPTAADAQRHAAQNALEYLIMT 4x8w-a1-m1-cD_4x8w-a1-m1-cE dsRBD3 of Loquacious Q9VJY9 Q9VJY9 2.647 X-RAY DIFFRACTION 172 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 70 72 GIDYILLGEIATENQFEVTYVDIEETFSGQFQCLVQLSTLPVGVCHGSGPTAADAQRHAAQNALEYLIMT GGGIDYILLGEIATENQFEVTYVDIEETFSGQFQCLVQLSTLPVGVCHGSGPTAADAQRHAAQNALEYLIMT 4x8y-a2-m1-cB_4x8y-a2-m3-cB Crystal structure of human PGRMC1 cytochrome b5-like domain O00264 O00264 1.95 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 4x8y-a1-m1-cA_4x8y-a1-m2-cA GPLGSPEFDFTPAELRRFDGVQDPRILMAINGKVFDVTKGRKFYGPEGPYGVFAGRDASRGLATFCLDKEALKDEYDDLSDLTAAQQETLSDWESQFTFKYHHVGKLLKE GPLGSPEFDFTPAELRRFDGVQDPRILMAINGKVFDVTKGRKFYGPEGPYGVFAGRDASRGLATFCLDKEALKDEYDDLSDLTAAQQETLSDWESQFTFKYHHVGKLLKE 4x9w-a1-m1-cB_4x9w-a1-m1-cA PLK-1 polo-box domain in complex with Bioactive Imidazolium-containing phosphopeptide macrocycle 4C P53350 1.798 X-RAY DIFFRACTION 11 1.0 32630 (synthetic construct) 9606 (Homo sapiens) 2 226 4dfw-a1-m1-cD_4dfw-a1-m1-cA 4x9r-a1-m1-cB_4x9r-a1-m1-cA 4x9v-a1-m1-cB_4x9v-a1-m1-cA 6ax4-a1-m1-cC_6ax4-a1-m1-cA LS CHLSDMLQQLHSVNASKPSERGLVRQEEAEDPACIPIFWVSKWVDYSDKYGLGYQLCDNSVGVLFNDSTRLILYNDGDSLQYIERDGTESYLTVSSHPNSLMKKITLLKYFRNYMSEHLLKAGANITPREGDELARLPYLRTWFRTRSAIILHLSNGSVQINFFQDHTKLILCPLMAAVTYIDEKRDFRTYRLSLLEEYGCCKELASRLRYARTMVDKLLSSRSAS 4x9z-a1-m1-cB_4x9z-a1-m1-cA Dimeric conotoxin alphaD-GeXXA A0A0A0VBX4 A0A0A0VBX4 1.5 X-RAY DIFFRACTION 61 1.0 101304 (Conus generalis) 101304 (Conus generalis) 46 49 HRPCQSVRPGRVWGKCCLTRLCSTMCCARADCTCVYHRGHGCSCVM VHRPCQSVRPGRVWGKCCLTRLCSTMCCARADCTCVYHTWRGHGCSCVM 4xa1-a1-m1-cA_4xa1-a1-m1-cB Crystal Structure of the coiled-coil surrounding Skip 1 of MYH7 Q15691 Q15691 3.2 X-RAY DIFFRACTION 201 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 153 155 PLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSKMRRDLEEATLQHEATAAALRKKHADSVAELGEQIDNLQRVKQKLEKEKSEFKLELDDVTSNMEQIEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYAT PLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSKMRRDLEEATLQHEATAAALRKKHADSVAELGEQIDNLQRVKQKLEKEKSEFKLELDDVTSNMEQIEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDE 4xa3-a1-m1-cA_4xa3-a1-m1-cB Crystal structure of the coiled-coil surrounding Skip 2 of MYH7 Q15691 Q15691 2.548 X-RAY DIFFRACTION 188 0.993 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 142 142 PLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSLSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQEAEEAVEAVNAKCSSLEKTKHRLQNEIDFYFGKLRNIELICQENDPVLQRIVDILY MPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSLSKANSEVAQWRTKYETDAIQRTEELEEAKKKLAQRLQEAEEAVEAVNAKCSSLEKTKHRLQNEIDFYFGKLRNIELICQENDPVLQRIVDIL 4xa4-a1-m1-cB_4xa4-a1-m1-cA Crystal Structure of the coiled-coil surrounding Skip 3 of MYH7 P12883 P12883 2.327 X-RAY DIFFRACTION 138 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 200 GERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSGAGPADVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDTTAENQAKNEHLQKELEHEEGKILRAQLEFNQIKAEIERKLAEKDEEMEQAKRNHLRVVDSLQTSLD GERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSGAGPADVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDTTAENQAKNEHLQKELEHEEGKILRAQLEFNQIKAEIERKLAEKDEEMEQAKRNHLRVVDSLQTSLDA 4xa6-a1-m1-cB_4xa6-a1-m1-cA Crystal Structure of the coiled-coil surrounding Skip 4 of MYH7 Q15691 Q15691 3.42 X-RAY DIFFRACTION 196 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 146 149 LPEEHEDILNLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTSHAHLERNEQTIDLQHRLDEAEQIALGGQLQLEARVRELENELEAEQRNAESVGRSERRIELTYQTEDLEERDFYFGLRNIELICQENEGNDPVLQRIVDILY PLPEEHEDILNLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTSHAHLERNEQTIDLQHRLDEAEQIALGGQLQLEARVRELENELEAEQRNAESVGRSERRIELTYQTEDLEERDFYFGLRNIELICQENEGENDPVLQRIVDILYA 4xa6-a2-m1-cD_4xa6-a2-m1-cC Crystal Structure of the coiled-coil surrounding Skip 4 of MYH7 Q15691 Q15691 3.42 X-RAY DIFFRACTION 127 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 93 100 DLQHRLDEAEQIALGGQLQLEARVRELENELEAEQRNAESVGRSERRIELTYQTEDLEERDFYFGLRNIELICQENEGENDPVLQRIVDILYA RNEQTIDLQHRLDEAEQIALGGQLQLEARVRELENELEAEQRNAESVGRSERRIELTYQTEDLEERDFYFGLRNIELICQENEGENDPVLQRIVDILYAT 4xai-a1-m1-cA_4xai-a1-m1-cB Crystal Structure of red flour beetle NR2E1/TLX Q9NCL0 Q9NCL0 2.6 X-RAY DIFFRACTION 39 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 565 565 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFPSAICESAAQLIFMNVQWVRSIPAFTCLPLSDQLLLLEESWLDLFVLGAAQFLPLMDFSVLVEACGVLQQEPHRRDAFLKEVADFQETLKKISQFQLDAHEFACLRAIVLFKTSFEEKTTTESAKISVIQDDAQMRLNKHVTTTYPKQPLRFGKILLLVSSTFRTISGRTIEDLFFKKVIRDTPIVAIISNMY KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFPSAICESAAQLIFMNVQWVRSIPAFTCLPLSDQLLLLEESWLDLFVLGAAQFLPLMDFSVLVEACGVLQQEPHRRDAFLKEVADFQETLKKISQFQLDAHEFACLRAIVLFKTSFEEKTTTESAKISVIQDDAQMRLNKHVTTTYPKQPLRFGKILLLVSSTFRTISGRTIEDLFFKKVIRDTPIVAIISNMY 4xaj-a2-m1-cD_4xaj-a2-m1-cB Crystal structure of human NR2E1/TLX Q9Y466 Q9Y466 3.551 X-RAY DIFFRACTION 56 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 568 570 4xaj-a1-m1-cA_4xaj-a1-m1-cC KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFTESVCESAARLLFMSIKWAKSVPAFSTLSLQDQLMLLEDAWRELFVLGIAQWAIPVDANTLLAVSGMNGDNTDSQRLTLIISEIQALQEVVARFRQLRLDATEFACLKCIVTFKAVPTLRSFRNAAAIAALQDEAQLTLNSYIHTRYPTQPVRFGKLLLLLPALRSISPSTIEEVFFKKTIGNVPITRLLSDMYKS MAKIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFTESVCESAARLLFMSIKWAKSVPAFSTLSLQDQLMLLEDAWRELFVLGIAQWAIPVDANTLLAVSGMNGDNTDSQRLTLIISEIQALQEVVARFRQLRLDATEFACLKCIVTFKAVPTLRSFRNAAAIAALQDEAQLTLNSYIHTRYPTQPVRFGKLLLLLPALRSISPSTIEEVFFKKTIGNVPITRLLSDMYKS 4xas-a1-m1-cB_4xas-a1-m1-cA mGluR2 ECD ligand complex Q14416 Q14416 2.35 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 438 440 4xaq-a1-m1-cB_4xaq-a1-m1-cA 5cni-a1-m1-cA_5cni-a1-m1-cB 5cnj-a1-m1-cA_5cnj-a1-m1-cB 7e9g-a1-m1-cS_7e9g-a1-m1-cR 7epb-a1-m1-cA_7epb-a1-m1-cB 7mtr-a1-m1-cB_7mtr-a1-m1-cA 7mts-a1-m1-cB_7mts-a1-m1-cA KKVLTLEGDLVLGGLFPVHQKGGPAEDCGPVNEHRGIQRLEAMLFALDRINRDPHLLPGVRLGAHILDSCSKDTHALEQALDFVRASTAITGVIGGSYSDVSIQVANLLRLFQIPQISYASTSAKLSDKSRYDYFARTVPPDFFQAKAMAEILRFFNWTYVSTVASEGDYGETGIEAFELEARARNISVATSEKVGRAMSRAAFEGVVRALLQKPSARVAVLFTRSEDARELLAASQRLNASFTWVASDGWGALEEVVAGSEGAAEGAITIELASYPISDFASYFQSLDPWNNSRNPWFREFWEQRFRCSFRQRDCAAHSLRAVPFEQESKIMFVVNAVYAMAHALHNMHRALCPNTTRLCDAMRPVNGRRLYKDFVLNVKFDAPFRPADTHNEVRFDRFGDGIGRYNIFTYLRGRYRYQKVGYWAEGLTLDTSLIPW KKVLTLEGDLVLGGLFPVHQKGGPAEDCGPVNEHRGIQRLEAMLFALDRINRDPHLLPGVRLGAHILDSCSKDTHALEQALDFVRASTAITGVIGGSYSDVSIQVANLLRLFQIPQISYASTSAKLSDKSRYDYFARTVPPDFFQAKAMAEILRFFNWTYVSTVASEGDYGETGIEAFELEARARNISVATSEKVGRAMSRAAFEGVVRALLQKPSARVAVLFTRSEDARELLAASQRLNASFTWVASDGWGALEEVVAGSEGAAEGAITIELASYPISDFASYFQSLDPWNNSRNPWFREFWEQRFRCSFRQRDCAAHSLRAVPFEQESKIMFVVNAVYAMAHALHNMHRALCPNTTRLCDAMRPVNGRRLYKDFVLNVKFDAPFRPADTHNEVRFDRFGDGIGRYNIFTYLRAGGRYRYQKVGYWAEGLTLDTSLIPW 4xb0-a1-m1-cA_4xb0-a1-m1-cB Structure of the Plk2 polo-box domain Q9NYY3 Q9NYY3 2.701 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 213 GSVADTVARVLRGCLENMPEADCIPKEQLSTSFQWVTKWVDYSNKYGFGYQLSDHTVGVLFNNGAHMSLLPDKKTVHYYAELGQCSVFPATDAPEQFISQVTVLKYFSHYMEENLMDGGDLPSVTDIRRPRLYLLQWLKSDKALMMLFNDGTFQVNFYHDHTKIIICSQNEEYLLTYINEDRISTTFRLTTLLMSGCSSELKNRMEYALNMLL GSVADTVARVLRGCLENMPEADCIPKEQLSTSFQWVTKWVDYSNKYGFGYQLSDHTVGVLFNNGAHMSLLPDKKTVHYYAELGQCSVFPATDAPEQFISQVTVLKYFSHYMEENLMDGGDLPSVTDIRRPRLYLLQWLKSDKALMMLFNDGTFQVNFYHDHTKIIICSQNEEYLLTYINEDRISTTFRLTTLLMSGCSSELKNRMEYALNMLL 4xb1-a1-m1-cA_4xb1-a1-m1-cB Hyperthermophilic archaeal homoserine dehydrogenase in complex with NADPH O58802 O58802 2.3 X-RAY DIFFRACTION 124 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 319 319 4xb2-a1-m1-cA_4xb2-a1-m1-cB MKVNISIFGFGTVGRALAEIIAEKSRIFGVELNVISITDRSGTIWGDFDLLEAKEVKESTGKLSNIGDYEVYNFSPQELVEEVKPNILVDVSSWDEAHEMYKVALGEGISVVTSNKPPIANYYDELMNLAKENNAGIFFESTVMAGTPIIGVLRENLLGENIKRIDAVVNASTTFILTKMSEGKTLDDAIEEAKSLGILEEDPSKDIDGIDAYYKAKILHWVSYGEPPEEEERLGIREVRDARNVRLVAQVSKGKISVKPRKLSSDNPLLVEGVQNAAVIRTNNLGEVILKGPGGGGRVTASGVFTDIIKATLKFPNLR MKVNISIFGFGTVGRALAEIIAEKSRIFGVELNVISITDRSGTIWGDFDLLEAKEVKESTGKLSNIGDYEVYNFSPQELVEEVKPNILVDVSSWDEAHEMYKVALGEGISVVTSNKPPIANYYDELMNLAKENNAGIFFESTVMAGTPIIGVLRENLLGENIKRIDAVVNASTTFILTKMSEGKTLDDAIEEAKSLGILEEDPSKDIDGIDAYYKAKILHWVSYGEPPEEEERLGIREVRDARNVRLVAQVSKGKISVKPRKLSSDNPLLVEGVQNAAVIRTNNLGEVILKGPGGGGRVTASGVFTDIIKATLKFPNLR 4xb6-a1-m1-cC_4xb6-a1-m1-cG Structure of the E. coli C-P lyase core complex P16687 P16687 1.7 X-RAY DIFFRACTION 420 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 353 353 7z15-a1-m1-cC_7z15-a1-m1-cG 7z16-a1-m1-cC_7z16-a1-m1-cG 7z17-a1-m1-cC_7z17-a1-m1-cG 7z18-a1-m1-cC_7z18-a1-m1-cG 7z19-a1-m1-cC_7z19-a1-m1-cG MYVAVKGGEKAIDAAHALQESRRRGDTDLPELSVAQIEQQLNLAVDRVMTEGGIADRELAALALKQASGDNVEAIFLLRAYRTTLAKLAVSEPLDTTGMRLERRISAVYKDIPGGQLLGPTYDYTHRLLDFTLLANGEAPTLTTADSEQQPSPHVFSLLARQGLAKFEEDSGAQPDDITRTPPVYPCSRSSRLQQLMRGDEGYLLALAYSTQRGYGRNHPFAGEIRSGYIDVSIVPEELGFAVNVGELLMTECEMVNGFIDPPGEPPHFTRGYGLVFGMSERKAMAMALVDRALQAPEYGEHATGPAQDEEFVLAHADNVEVAGFVSHLKLPHYVDFQAELELLKRLQQEQNH MYVAVKGGEKAIDAAHALQESRRRGDTDLPELSVAQIEQQLNLAVDRVMTEGGIADRELAALALKQASGDNVEAIFLLRAYRTTLAKLAVSEPLDTTGMRLERRISAVYKDIPGGQLLGPTYDYTHRLLDFTLLANGEAPTLTTADSEQQPSPHVFSLLARQGLAKFEEDSGAQPDDITRTPPVYPCSRSSRLQQLMRGDEGYLLALAYSTQRGYGRNHPFAGEIRSGYIDVSIVPEELGFAVNVGELLMTECEMVNGFIDPPGEPPHFTRGYGLVFGMSERKAMAMALVDRALQAPEYGEHATGPAQDEEFVLAHADNVEVAGFVSHLKLPHYVDFQAELELLKRLQQEQNH 4xb7-a1-m1-cA_4xb7-a1-m1-cB Crystal structure of Dscam1 isoform 4.4, N-terminal four Ig domains Q0E9L0 Q0E9L0 4.004 X-RAY DIFFRACTION 141 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 395 395 4x9b-a1-m1-cB_4x9b-a1-m1-cA 4x9h-a1-m1-cA_4x9h-a1-m1-cB QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVQQFYESEVNNEYVIRGNAAVLKCSIPSFVADFVQVVSWQDEEGQLYGSLGDQQGTDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPVGSVSPQLSGNGNQEHITLTRVPKMGSVTLMCPAQAYPVPFFRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSEPVLRIESVKKEDKGMYQCFVRNDQESAEASAELKLG QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVQQFYESEVNNEYVIRGNAAVLKCSIPSFVADFVQVVSWQDEEGQLYGSLGDQQGTDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPVGSVSPQLSGNGNQEHITLTRVPKMGSVTLMCPAQAYPVPFFRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSEPVLRIESVKKEDKGMYQCFVRNDQESAEASAELKLG 4xba-a1-m1-cB_4xba-a1-m1-cA Hnt3 O74859 O74859 1.5 X-RAY DIFFRACTION 52 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 193 199 SFRDNLKVYIESPESYKNVIYYDDDVVLVRDMFPKSKMHLLLMTRDPHLTHVHPLEIMMKHRSLVEKLVSYVQGDLSGLIFDEARNCLSQQLTNEALCNYIKVGFHAGPSMNNLHLHIMTLDHVSPSLKNSAHYISFTSPFFVKIDTPTSNLPTLFQEDLKCWRCGETFGRHFTKLKAHLQEEYDDWLDKSVS SFRDNLKVYIESPESYKNVIYYDDDVVLVRDMFPKSKMHLLLMTRDPHLTHVHPLEIMMKHRSLVEKLVSYVQGDLSGLIFDEARNCLSQQLTNEALCNYIKVGFHAGPSMNNLHLHIMTLDHVSPSLKNSAHYISFTSPFFVKIDTPTSNLPTRGTLTSLFQEDLKCWRCGETFGRHFTKLKAHLQEEYDDWLDKSVS 4xbf-a1-m2-cA_4xbf-a1-m4-cA Structure of LSD1:CoREST in complex with ssRNA O60341 O60341 2.803 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 666 666 4xbf-a1-m1-cA_4xbf-a1-m3-cA 5l3f-a1-m1-cC_5l3f-a1-m1-cA PSGVEGAAFQSRLPHDRMTSQEAACFPDIISGPQQTQKVFLFIRNRTLQLWLDNPKIQLTFEATLQQLEAPYNSDTVLVHRVHSYLERHGLINFGIYKRIKPLPTKKTGKVIIIGSGVSGLAAARQLQSFGMDVTLLEARDRVGGRVATFRKGNYVADLGAMVVTGLGGNPMAVVSKQVNMELAKIKQKCPLYEANGQAVPKEKDEMVEQEFNRLLEATSYLSHQLDFNVLNNKPVSLGQALEVVIQLQEKHVKDEQIEHWKKIVKTQEELKELLNKMVNLKEKIKELHQQYKEASEVKPPRDITAEFLVKSKHRDLTALCKEYDELAETQGKLEEKLQELEANPPSDVYLSSRDRQILDWHFANLEFANATPLSTLSLKHWDQDDDFEFTGSHLTVRNGYSCVPVALAEGLDIKLNTAVRQVRYTASGCEVIAVNTRSTSQTFIYKCDAVLCTLPLGVLKQQPPAVQFVPPLPEWKTSAVQRMGFGNLNKVVLCFDRVFWDPSVNLFGHVGSTTASRGELFLFWNLYKAPILLALVAGEAAGIMENISDDVIVGRCLAILKGIFGSSAVPQPKETVVSRWRADPWARGSYSYVAAGSSGNDYDLMAQPITPGPSIPGAPQPIPRLFFAGEHTIRNYPATVHGALLSGLREAGRIADQFLGAMYTL PSGVEGAAFQSRLPHDRMTSQEAACFPDIISGPQQTQKVFLFIRNRTLQLWLDNPKIQLTFEATLQQLEAPYNSDTVLVHRVHSYLERHGLINFGIYKRIKPLPTKKTGKVIIIGSGVSGLAAARQLQSFGMDVTLLEARDRVGGRVATFRKGNYVADLGAMVVTGLGGNPMAVVSKQVNMELAKIKQKCPLYEANGQAVPKEKDEMVEQEFNRLLEATSYLSHQLDFNVLNNKPVSLGQALEVVIQLQEKHVKDEQIEHWKKIVKTQEELKELLNKMVNLKEKIKELHQQYKEASEVKPPRDITAEFLVKSKHRDLTALCKEYDELAETQGKLEEKLQELEANPPSDVYLSSRDRQILDWHFANLEFANATPLSTLSLKHWDQDDDFEFTGSHLTVRNGYSCVPVALAEGLDIKLNTAVRQVRYTASGCEVIAVNTRSTSQTFIYKCDAVLCTLPLGVLKQQPPAVQFVPPLPEWKTSAVQRMGFGNLNKVVLCFDRVFWDPSVNLFGHVGSTTASRGELFLFWNLYKAPILLALVAGEAAGIMENISDDVIVGRCLAILKGIFGSSAVPQPKETVVSRWRADPWARGSYSYVAAGSSGNDYDLMAQPITPGPSIPGAPQPIPRLFFAGEHTIRNYPATVHGALLSGLREAGRIADQFLGAMYTL 4xbf-a1-m3-cA_4xbf-a1-m4-cA Structure of LSD1:CoREST in complex with ssRNA O60341 O60341 2.803 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 666 666 4xbf-a1-m1-cA_4xbf-a1-m2-cA 5l3g-a1-m1-cC_5l3g-a1-m1-cA PSGVEGAAFQSRLPHDRMTSQEAACFPDIISGPQQTQKVFLFIRNRTLQLWLDNPKIQLTFEATLQQLEAPYNSDTVLVHRVHSYLERHGLINFGIYKRIKPLPTKKTGKVIIIGSGVSGLAAARQLQSFGMDVTLLEARDRVGGRVATFRKGNYVADLGAMVVTGLGGNPMAVVSKQVNMELAKIKQKCPLYEANGQAVPKEKDEMVEQEFNRLLEATSYLSHQLDFNVLNNKPVSLGQALEVVIQLQEKHVKDEQIEHWKKIVKTQEELKELLNKMVNLKEKIKELHQQYKEASEVKPPRDITAEFLVKSKHRDLTALCKEYDELAETQGKLEEKLQELEANPPSDVYLSSRDRQILDWHFANLEFANATPLSTLSLKHWDQDDDFEFTGSHLTVRNGYSCVPVALAEGLDIKLNTAVRQVRYTASGCEVIAVNTRSTSQTFIYKCDAVLCTLPLGVLKQQPPAVQFVPPLPEWKTSAVQRMGFGNLNKVVLCFDRVFWDPSVNLFGHVGSTTASRGELFLFWNLYKAPILLALVAGEAAGIMENISDDVIVGRCLAILKGIFGSSAVPQPKETVVSRWRADPWARGSYSYVAAGSSGNDYDLMAQPITPGPSIPGAPQPIPRLFFAGEHTIRNYPATVHGALLSGLREAGRIADQFLGAMYTL PSGVEGAAFQSRLPHDRMTSQEAACFPDIISGPQQTQKVFLFIRNRTLQLWLDNPKIQLTFEATLQQLEAPYNSDTVLVHRVHSYLERHGLINFGIYKRIKPLPTKKTGKVIIIGSGVSGLAAARQLQSFGMDVTLLEARDRVGGRVATFRKGNYVADLGAMVVTGLGGNPMAVVSKQVNMELAKIKQKCPLYEANGQAVPKEKDEMVEQEFNRLLEATSYLSHQLDFNVLNNKPVSLGQALEVVIQLQEKHVKDEQIEHWKKIVKTQEELKELLNKMVNLKEKIKELHQQYKEASEVKPPRDITAEFLVKSKHRDLTALCKEYDELAETQGKLEEKLQELEANPPSDVYLSSRDRQILDWHFANLEFANATPLSTLSLKHWDQDDDFEFTGSHLTVRNGYSCVPVALAEGLDIKLNTAVRQVRYTASGCEVIAVNTRSTSQTFIYKCDAVLCTLPLGVLKQQPPAVQFVPPLPEWKTSAVQRMGFGNLNKVVLCFDRVFWDPSVNLFGHVGSTTASRGELFLFWNLYKAPILLALVAGEAAGIMENISDDVIVGRCLAILKGIFGSSAVPQPKETVVSRWRADPWARGSYSYVAAGSSGNDYDLMAQPITPGPSIPGAPQPIPRLFFAGEHTIRNYPATVHGALLSGLREAGRIADQFLGAMYTL 4xbz-a4-m1-cG_4xbz-a4-m1-cH Crystal Structure of EvdO1 from Micromonospora carbonacea var. aurantiaca A0A0M3KL03 A0A0M3KL03 2.3 X-RAY DIFFRACTION 93 0.99 47853 (Micromonospora carbonacea) 47853 (Micromonospora carbonacea) 292 312 4xbz-a1-m1-cB_4xbz-a1-m1-cA 4xbz-a2-m1-cD_4xbz-a2-m1-cC 4xbz-a3-m1-cE_4xbz-a3-m1-cF VVNRIAECDIRRTGLLPEHVTAFRRQGVLVVRGLLTPQELADVQEAGRALIDRAWSTRSMEDTVWTLEPGAAPVRIEYVVDKARPIAMLAGHPLLLRIMEQLVGPNLIPTWDSMVFKTAWHRDAYDNAVGVTGAGRVIDAGIYLDPAPEDNCVWCIPESNYWGDDRLTATADQLNASEWDTTGAVPAVMQPGDLLLHNILTLHGAPAVVGKQRRVIYFEYRPAEVEWQLGPHSAEYIGLKQQVLRSCIQMRANEPQFGDEEPFDYQPAESLRHWVDRPEIDTLRFAHEEYWR SSGLVPRGSHMNRIAECDIRRTGLLPEHVTAFRRQGVLVVRGLLTPQELADVQEAGRALIDRAWSTRSMEDTVWTLEPDQPGAAPVRIEYVVDKARPIAMLAGHPLLLRIMEQLVGPNLIPTWDSMVFKTPAGAPRLAWHRDAGLYDNAVGVTGAGRVIDAGIYLDPAPEDNCVWCIPESNYWGDDRLTATADQLNASWDTTGAVPAVMQPGDLLLHNILTLHGAPAVVGKQRRVIYFEYRPAEVEWQLGPHSAEYIGLKQQVLRSCIQMRANEPQFGDEEPFDYQPAESLRHWVDRPEIDTLRFAHEEYWR 4xc6-a1-m1-cB_4xc6-a1-m1-cA Isobutyryl-CoA mutase fused with bound adenosylcobalamin, GDP, and Mg (holo-IcmF/GDP) Q1LRY0 Q1LRY0 3.35 X-RAY DIFFRACTION 269 0.994 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 1061 1067 4xc7-a1-m1-cA_4xc7-a1-m1-cB 4xc8-a1-m1-cA_4xc8-a1-m1-cB 5cjt-a1-m1-cB_5cjt-a1-m1-cA 5cju-a1-m1-cB_5cju-a1-m1-cA 5cjv-a1-m1-cB_5cjv-a1-m1-cA 5cjw-a1-m1-cB_5cjw-a1-m1-cA GPANKVRFVTAASLFDGHDASINIMRRILQSQGCEVIHLGHNRSVQEVVTAALQEDVQGIAISSYQGGHVEYFKYMIDLLREHGGEHIQVFGGGGGVIVPDEIRELQAYGVARIYSPEDGQRMGLAGMITDMAQRCDIDLTRYAPTTLDTVVAGDRRALAQLITALENGKADPELVSALHAQAKAAAVPVLGITGTGGAGKSSLTDELIRRFRLDQDDALSIAVISIDPSRRKSGGALLGDRIRMNAINHPNIFMRSLATREAGSEISQALPDVIAACKAARFDLVIVETSGIGQGDAAIVPHVDLSLYVMTPEFGAASQLEKIDMLDFADFVAINKFDRKGAQDAWRDVAKQVQRNREQWHSRAEDMPVYGTQASRFNDDGVTMLYQGLVGALGARGMSLKPGTLPNLEGRISTGQNVIVPPARSRYLAELADTVRAYHRRVVAQSKLARERQQLRAAHDMLQGAGHESAALETLASERDVSLGAVERKLLAMWPQMQQAYSGDEYVVKIRDKEIRTGLISTTLSGTKIRKVVLPRFEDEGEILKWLMRENVPGSFPYTAGVFAFKREGDPTRMFAGEGDAFRTNRRFKLVSEGMEAKRLSTAFDSVTLYGEDPHERPDIYGKVGNSGVSIATLEDMKVLYDGFDLTNPSTSVSMTINGPAPTILAMFMNTAIDQQIDRFRADNGRDPTADEEAKIRAWVLQNVRGTVQADILKEDQGQNTCIFSTEFSLKVMGDIQEYFVHHQVRNFYSVSISGYHIAEAGANPISQLAFTLANGFTYVEAYLARGMHIDDFAPNLSFFFSNGMDPEYSVLGRVARRIWAVTMRDKYGANDRSQKLKYHIQTSGRSLHAQEIDFNDIRTTLQALIAIYDNCNSLHTNAYDITTPTAESVRRALAIQLIINREWGVAKCENPNQGSFLIEELTDLVEEAVLQEFERIAERGGVLGAMETGYQRGKIQEESLYYEQLKHDGTLPIIGVNTFRNPNGLARSSEDEKQSQLHRLTEFHGAHQADAEAMLARLRQAVIDNRNVFAVLMDAVRVCSLGQITHALFEVGGQYRRNM RGPANKVRFVTAASLFDGHDASINIMRRILQSQGCEVIHLGHNRSVQEVVTAALQEDVQGIAISSYQGGHVEYFKYMIDLLREHGGEHIQVFGGGGGVIVPDEIRELQAYGVARIYSPEDGQRMGLAGMITDMAQRCDIDLTRYAPTTLDTVVAGDRRALAQLITALENGKADPELVSALHAQAKAAAVPVLGITGTGGAGKSSLTDELIRRFRLDQDDALSIAVISIDPSRRKSGGALLGDRIRMNAINHPNIFMRSLATREAGSEISQALPDVIAACKAARFDLVIVETSGIGQGDAAIVPHVDLSLYVMTPEFGAASQLEKIDMLDFADFVAINKFDRKGAQDAWRDVAKQVQRNREQWHSRAEDMPVYGTQASRFNDDGVTMLYQGLVGALGARGMSLKPGTLPNLEGRISTGQNVIVPPARSRYLAELADTVRAYHRRVVAQSKLARERQQLRAAHDMLQGAGHESAALETLASERDVSLGAVERKLLAMWPQMQQAYSGDEYVVIRTGLISTTLSGTKIRKVVLPRFEDEGEILKWLMRENVPGSFPYTAGVFAFKREGEDPTRMFAGEGDAFRTNRRFKLVSEGMEAKRLSTAFDSVTLYGEDPHERPDIYGKVGNSGVSIATLEDMKVLYDGFDLTNPSTSVSMTINGPAPTILAMFMNTAIDQQIDRFRADNGRDPTADEEAKIRAWVLQNVRGTVQADILKEDQGQNTCIFSTEFSLKVMGDIQEYFVHHQVRNFYSVSISGYHIAEAGANPISQLAFTLANGFTYVEAYLARGMHIDDFAPNLSFFFSNGMDPEYSVLGRVARRIWAVTMRDKYGANDRSQKLKYHIQTSGRSLHAQEIDFNDIRTTLQALIAIYDNCNSLHTNAYDEAITTPTAESVRRALAIQLIINREWGVAKCENPNQGSFLIEELTDLVEEAVLQEFERIAERGGVLGAMETGYQRGKIQEESLYYEQLKHDGTLPIIGVNTFRNPNGDPTPQTLELARSSEDEKQSQLHRLTEFHGAHQADAEAMLARLRQAVIDNRNVFAVLMDAVRVCSLGQITHALFEVGGQYRRNM 4xch-a1-m1-cB_4xch-a1-m1-cD S-ribosylhomocysteinase from Streptococcus suis B2CMA5 B2CMA5 2.2 X-RAY DIFFRACTION 57 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 149 149 4xch-a1-m1-cA_4xch-a1-m1-cC LDHTIVKAPYIRLISEEVGPKGDIITNFDIRLIQPNENAMDTAGLHTIEHLLAKLIRQRIDGLIDCSPFGCRTGFHMIMWGKQDSEKIAQVIKSSLEEIAEGITWEDVPGTTIESCGNYKDHSLHSAKEWAKLILSQGISTDAFERKPI LDHTIVKAPYIRLISEEVGPKGDIITNFDIRLIQPNENAMDTAGLHTIEHLLAKLIRQRIDGLIDCSPFGCRTGFHMIMWGKQDSEKIAQVIKSSLEEIAEGITWEDVPGTTIESCGNYKDHSLHSAKEWAKLILSQGISTDAFERKPI 4xch-a1-m1-cC_4xch-a1-m1-cD S-ribosylhomocysteinase from Streptococcus suis B2CMA5 B2CMA5 2.2 X-RAY DIFFRACTION 125 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 149 149 4xch-a1-m1-cA_4xch-a1-m1-cB LDHTIVKAPYIRLISEEVGPKGDIITNFDIRLIQPNENAMDTAGLHTIEHLLAKLIRQRIDGLIDCSPFGCRTGFHMIMWGKQDSEKIAQVIKSSLEEIAEGITWEDVPGTTIESCGNYKDHSLHSAKEWAKLILSQGISTDAFERKPI LDHTIVKAPYIRLISEEVGPKGDIITNFDIRLIQPNENAMDTAGLHTIEHLLAKLIRQRIDGLIDCSPFGCRTGFHMIMWGKQDSEKIAQVIKSSLEEIAEGITWEDVPGTTIESCGNYKDHSLHSAKEWAKLILSQGISTDAFERKPI 4xcv-a1-m1-cA_4xcv-a1-m2-cA Probable 2-hydroxyacid dehydrogenase from Rhizobium etli CFN 42 in complex with NADPH Q2KDT2 Q2KDT2 1.4 X-RAY DIFFRACTION 108 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 317 317 5bqf-a1-m1-cA_5bqf-a1-m2-cA 5tsd-a1-m1-cA_5tsd-a1-m1-cB VRPPVLVDIKFNPEGVDRVLKTAFADRGSINLADPANRERDFSETEYALLWKPDADLFRRAPNLKVIFSGGAGVDHIIGMAGLPDIPIVRFVDRSLTTRMSEWVVMQCLMHLRGQYGHDSHQRRREWAKLIAPEAAEVTVGVMGLGILGQDAVAKLKVMGFNVIGWSRTRKTIEGVETFDAGELDRFLAKTDILVGLLPLTPETTGFYDSELFKKLRRDGALGQPVFINAGRGKSQIETDIVSAVREGTLGGASLDVFEVEPLATDSPLWELENVFITPHDAAVSEENALFRHVEMQIARFERGEPLQFVIDRAAGY VRPPVLVDIKFNPEGVDRVLKTAFADRGSINLADPANRERDFSETEYALLWKPDADLFRRAPNLKVIFSGGAGVDHIIGMAGLPDIPIVRFVDRSLTTRMSEWVVMQCLMHLRGQYGHDSHQRRREWAKLIAPEAAEVTVGVMGLGILGQDAVAKLKVMGFNVIGWSRTRKTIEGVETFDAGELDRFLAKTDILVGLLPLTPETTGFYDSELFKKLRRDGALGQPVFINAGRGKSQIETDIVSAVREGTLGGASLDVFEVEPLATDSPLWELENVFITPHDAAVSEENALFRHVEMQIARFERGEPLQFVIDRAAGY 4xcw-a2-m1-cF_4xcw-a2-m1-cD Crystal structure of molybdenum cofactor biosynthesis protein MogA from Helicobacter pylori str. J99 Q9ZL45 Q9ZL45 1.8 X-RAY DIFFRACTION 54 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 173 175 4xcw-a1-m1-cA_4xcw-a1-m1-cB 4xcw-a1-m1-cA_4xcw-a1-m1-cC 4xcw-a1-m1-cC_4xcw-a1-m1-cB 4xcw-a2-m1-cD_4xcw-a2-m1-cE 4xcw-a2-m1-cF_4xcw-a2-m1-cE QGMQTIHIGVLSASDRASDLSGKAIQEVLSEYLLNPLEFHYEIVADERDLIEKSLIKMCDEYQCDLVVTTGGTGPALRDITPEATKKVCQKMLPGFGELMRMTSLKYVPTAILSRQSAGIRNKSLIINLPGKPKSIRECLEAVFPAIPYCVDLILGNYMQVNEKNIQAFRPKQ QGMQTIHIGVLSASDRASYEDLSGKAIQEVLSEYLLNPLEFHYEIVADERDLIEKSLIKMCDEYQCDLVVTTGGTGPALRDITPEATKKVCQKMLPGFGELMRMTSLKYVPTAILSRQSAGIRNKSLIINLPGKPKSIRECLEAVFPAIPYCVDLILGNYMQVNEKNIQAFRPKQ 4xd1-a1-m1-cA_4xd1-a1-m2-cA X-ray structure of the N-formyltransferase QdtF from Providencia alcalifaciens, W305A mutant, in the presence of TDP-Qui3N and N5-THF F8RC03 F8RC03 1.5 X-RAY DIFFRACTION 81 1.0 126385 (Providencia alcalifaciens) 126385 (Providencia alcalifaciens) 397 397 4xcz-a1-m1-cA_4xcz-a1-m2-cA 4xd0-a1-m1-cA_4xd0-a1-m2-cA MKLIIAGKNNIAVDVTKWIIKTISDIELYSVCNENDHGNDSFQLSFKKFCIQFNIPIISLEDAYHLEDAIFLSLEFDKIIHPSKFTHNRIFNIHFSYLPAYKGMYTSAWPILNNEQESGVTLHKIDHGIDTGAIIDQQKFPLDIEETAKTLYLKYIKIGTEIVIKNLPALISGNYSIVEQSAIKSSYYSKKSIDYKNLMIDLNKTAHEILQQIRAFTFRDYQLPRIDDIDIFHGEILSSKSLSKPGTILEKNNYHLILSTIDYDIKLYSDNFDEILTACEDKSPEFISKLLKTENILFEKNHLGASPIIIAAYHGNMDVIEWLVSKGVNINDRNYKGTTVAMYFKDYMLRSGNYTGLENLINLGLDLFLKDNEGLSVFDYMRKNKNIELFNFMSTFN MKLIIAGKNNIAVDVTKWIIKTISDIELYSVCNENDHGNDSFQLSFKKFCIQFNIPIISLEDAYHLEDAIFLSLEFDKIIHPSKFTHNRIFNIHFSYLPAYKGMYTSAWPILNNEQESGVTLHKIDHGIDTGAIIDQQKFPLDIEETAKTLYLKYIKIGTEIVIKNLPALISGNYSIVEQSAIKSSYYSKKSIDYKNLMIDLNKTAHEILQQIRAFTFRDYQLPRIDDIDIFHGEILSSKSLSKPGTILEKNNYHLILSTIDYDIKLYSDNFDEILTACEDKSPEFISKLLKTENILFEKNHLGASPIIIAAYHGNMDVIEWLVSKGVNINDRNYKGTTVAMYFKDYMLRSGNYTGLENLINLGLDLFLKDNEGLSVFDYMRKNKNIELFNFMSTFN 4xdl-a1-m1-cB_4xdl-a1-m1-cA Crystal structure of human two pore domain potassium ion channel TREK2 (K2P10.1) in complex with a brominated fluoxetine derivative. P57789 P57789 3.5 X-RAY DIFFRACTION 339 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 261 4bw5-a1-m1-cA_4bw5-a1-m1-cB 4bw5-a2-m1-cC_4bw5-a2-m1-cD 4xdj-a1-m1-cB_4xdj-a1-m1-cA 4xdj-a2-m1-cC_4xdj-a2-m1-cD 4xdl-a2-m1-cC_4xdl-a2-m1-cD KWKTVVAIFVVVVVYLVTGGLVFRALEQPFESSQKNTIALEKAEFLRDHVCVSPQELETLIQHALDADNAGVSPIGNSSNNSSHWDLGSAFFFAGTVITTIGYGNIAPSTEGGKIFCILYAIFGIPLFGFLLAGIGDQLGTIFGKSIARVEKVFRKKQVSQTKIRVISTILFILAGCIVFVTIPAVIFKYIEGWTALESIYFVVVTLTTVGFGDFVAGGNAGINYREWYKPLVWFWILVGLAYFAAVLSMIGDWLRV KWKTVVAIFVVVVVYLVTGGLVFRALEQPFESSQKNTIALEKAEFLRDHVCVSPQELETLIQHALDADNAGVSPIGNSSNNSSHWDLGSAFFFAGTVITTIGYGNIAPSTEGGKIFCILYAIFGIPLFGFLLAGIGDQLGTIFGKSIARVEKVFRKKQVSQTKIRVISTILFILAGCIVFVTIPAVIFKYIEGWTALESIYFVVVTLTTVGFGDFVAGGNAGINYREWYKPLVWFWILVGLAYFAAVLSMIGDWLRVLSKK 4xdv-a2-m1-cE_4xdv-a2-m1-cF Crystal Structure of the L74F/M78V/I80V/L114F mutant of LEH complexed with cyclohexanediol Q9ZAG3 Q9ZAG3 2.25 X-RAY DIFFRACTION 105 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 126 140 QPRWASKDSAAGAASTPDEKIVLEFMDALTSNDAAKLIEYFAEDTMYQNMPLPPAYGRDAVEQTLAAVETFHIGSSNGLVYTERVDVLPTGKSYNFSILGVFQLTEGKITGWRDYFDLREFEEAVD IEQPRWASKDSAAGAASTPDEKIVLEFMDALTSNDAAKLIEYFAEDTMYQNMPLPPAYGRDAVEQTLAGFFTVVSVDAVETFHIGSSNGLVYTERVDVLRALPTGKSYNFSILGVFQLTEGKITGWRDYFDLREFEEAVD 4xdy-a1-m1-cA_4xdy-a1-m1-cB Structure of NADH-preferring ketol-acid reductoisomerase from an uncultured archean Q64BR7 Q64BR7 1.535 X-RAY DIFFRACTION 475 1.0 285389 (uncultured archaeon GZfos26G2) 285389 (uncultured archaeon GZfos26G2) 331 331 MEILHDEDVDDSILRDKTIAVMGYGAQGDAQANCLKDSGINVVIGETEILGGNKNPSWEKAKEDGFEVLPIDKAAEKGDVVHILLPDEVQPAIYENQIKPQLKAGKALCFSHGFNICFKRIVPPEDVDVIMVAPKAPGTEERKAYLEGFGVPGLVAVKQNPSGEAREVALAMTKAMHWTKAGILECTFEQETYEDLFGEQCVLCGGLVELMRNGFEVLVEAGYPPEMAYFECVHEMKLIVDLVWQGGIKRMAEVISNTAEYGMWAVGHQIIGPEVKEKMKEALKRVENGEFANEWVDEYKRGIPFLKASREKMGEHQVETVGAEIRKLFAQ MEILHDEDVDDSILRDKTIAVMGYGAQGDAQANCLKDSGINVVIGETEILGGNKNPSWEKAKEDGFEVLPIDKAAEKGDVVHILLPDEVQPAIYENQIKPQLKAGKALCFSHGFNICFKRIVPPEDVDVIMVAPKAPGTEERKAYLEGFGVPGLVAVKQNPSGEAREVALAMTKAMHWTKAGILECTFEQETYEDLFGEQCVLCGGLVELMRNGFEVLVEAGYPPEMAYFECVHEMKLIVDLVWQGGIKRMAEVISNTAEYGMWAVGHQIIGPEVKEKMKEALKRVENGEFANEWVDEYKRGIPFLKASREKMGEHQVETVGAEIRKLFAQ 4xdz-a1-m1-cA_4xdz-a1-m1-cB Holo structure of ketol-acid reductoisomerase from Ignisphaera aggregans E0SRA9 E0SRA9 1.15 X-RAY DIFFRACTION 452 1.0 583356 (Ignisphaera aggregans DSM 17230) 583356 (Ignisphaera aggregans DSM 17230) 328 329 4xeh-a2-m1-cA_4xeh-a2-m2-cA AKIYKDEDISLEPIKNKTIAILGYGSQGRAWALNLRDSGLNVVVGLERQGDSWRRAIDDGFKPMYTKDAVAIADIIVFLVPDMVQKSLWLNSVKDFMKKGADLVFAHGFNIHFKIIEPPKDSDVYMIAPKSPGPIVRRSYEMGGGVPALVAVYQNVSGEALQKALAIAKGIGCARAGVIESTFKEETETDLFGEQVILVGGIMELIKASFETLVEEGYQPEVAYFETVNELKLIVDLIYEKGLTGMLRAVSDTAKYGGITVGKFIIDKSVRDKMKIVLERIRSGEFAREWIKEYERGMPTVFKELSELEGSTIETVGRKLREMMFRGM AKIYKDEDISLEPIKNKTIAILGYGSQGRAWALNLRDSGLNVVVGLERQGDSWRRAIDDGFKPMYTKDAVAIADIIVFLVPDMVQKSLWLNSVKDFMKKGADLVFAHGFNIHFKIIEPPKDSDVYMIAPKSPGPIVRRSYEMGGGVPALVAVYQNVSGEALQKALAIAKGIGCARAGVIESTFKEETETDLFGEQVILVGGIMELIKASFETLVEEGYQPEVAYFETVNELKLIVDLIYEKGLTGMLRAVSDTAKYGGITVGKFIIDKSVRDKMKIVLERIRSGEFAREWIKEYERGMPTVFKELSELEGSTIETVGRKLREMMFRGMK 4xea-a1-m1-cA_4xea-a1-m2-cA Crystal structure of putative M16-like peptidase from Alicyclobacillus acidocaldarius C8WVD6 C8WVD6 1.95 X-RAY DIFFRACTION 55 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 408 408 VSLELPFETRTWRLQNGLVVTLPRPALHQTYAFATRYGSVDRAFRTDGQVHEPDGIAHFLEHKFEDPEDVFARFAAHGASVDAYTTFDHTAYYFSGTGEIAKHVGTLLDFVQSIHLTDENVEKEKGIIAQEIHVNDHPDRRAYELLRAYHEHPVRIDIAGTVESVRAITKEQLLLCYDTFYHPSNVLVIAGGFDADEIAHVIEENQAKKSFKEPPAIERLYPEEPPTPARSRHWHFPVQQPRLLVGWKEANGAFGSNLIEQDTATILLDALFGPTSAFYQSLLDEGLVDKGFSANYQLSNTFGYTLVGGNAPHPDVLAERIQSHLARVRERGIDEEAFERARKKIGRVLSLDQNAFLVRNWVTYFLRGAEAFAFADVIAVLQTTLERANARFQEHLREDNVVSAVLPS VSLELPFETRTWRLQNGLVVTLPRPALHQTYAFATRYGSVDRAFRTDGQVHEPDGIAHFLEHKFEDPEDVFARFAAHGASVDAYTTFDHTAYYFSGTGEIAKHVGTLLDFVQSIHLTDENVEKEKGIIAQEIHVNDHPDRRAYELLRAYHEHPVRIDIAGTVESVRAITKEQLLLCYDTFYHPSNVLVIAGGFDADEIAHVIEENQAKKSFKEPPAIERLYPEEPPTPARSRHWHFPVQQPRLLVGWKEANGAFGSNLIEQDTATILLDALFGPTSAFYQSLLDEGLVDKGFSANYQLSNTFGYTLVGGNAPHPDVLAERIQSHLARVRERGIDEEAFERARKKIGRVLSLDQNAFLVRNWVTYFLRGAEAFAFADVIAVLQTTLERANARFQEHLREDNVVSAVLPS 4xel-a2-m3-cB_4xel-a2-m5-cB Crystal structure of Inorganic pyrophosphatase (PPase) from Pseudomonas aeruginosa Q9HWZ6 Q9HWZ6 2 X-RAY DIFFRACTION 58 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 170 170 4xel-a1-m1-cA_4xel-a1-m2-cA 4xel-a1-m1-cA_4xel-a1-m4-cA 4xel-a1-m2-cA_4xel-a1-m4-cA 4xel-a2-m1-cB_4xel-a2-m3-cB 4xel-a2-m1-cB_4xel-a2-m5-cB SYSKIPAGKDLPNDIYVAIEIPANHAPIKYEIDKDTDCLFVDRFMATPMFYPANYGFIPNTLADDGDPLDVLVVTPYPVAPGSVIRARPVGVLHMTDEAGGDAKLIAVPHDKLSVLYKDVKEYTDLPALLLEQIKHFFENYKDLEVKVEGWGNADAARAEITKAVAAFQK SYSKIPAGKDLPNDIYVAIEIPANHAPIKYEIDKDTDCLFVDRFMATPMFYPANYGFIPNTLADDGDPLDVLVVTPYPVAPGSVIRARPVGVLHMTDEAGGDAKLIAVPHDKLSVLYKDVKEYTDLPALLLEQIKHFFENYKDLEVKVEGWGNADAARAEITKAVAAFQK 4xeu-a1-m1-cA_4xeu-a1-m2-cA Crystal structure of a transketolase from Pseudomonas aeruginosa Q9I5Y8 Q9I5Y8 1.95 X-RAY DIFFRACTION 277 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 632 632 MPSRRERANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWRDYMQHNPSNPQWANRDRFVLSNGHGSMLIYSLLHLTGYDLGIEDLKNFRQLNSRTPGHPEYGYTAGVETTTGPLGQGIANAVGMALAEKVLAAQFNRDGHAVVDHYTYAFLGDGCMMEGISHEVASLAGTLRLNKLIAFYDDNGGWFTDDTPKRFEAYGWQVIRNVDGHDADEIKTAIDTARKSDQPTLICCKTVIGFADEIAATRAALGWEHAPFEIPAQIYAEWDAKETGAAQEAEWNKRFAAYQAAHPELAAELLRRLKGELPADFAEKAAAYVADVANKGETIASRKASQNALNAFGPLLPELLGGSADTLWKGCKGVSADDAAGNYVFYGVREFGMSAIMNGVALHGGFIPYGATFLIFMEYARNAVRMSALMKQRVLYVFTHDSIGLGEDGPTHQPIEQLASLRLTPNLDTWRPADAVESAVAWKHAIERADGPSALIFSRQNLPHQARDVAQVADIARGGYVLKDCEGEPELILIATGSEVGLAVQAYDKLSEQGRKVRVVSMPCTSVYEQQDESYKQSVLPVEVGARIAIEAAHADYWYKYVGLDGRIIGMTSFGESAPAPALFEHFGFTLDNVLAVAEELL MPSRRERANAIRALSMDAVQKANSGHPGAPMGMADIAEVLWRDYMQHNPSNPQWANRDRFVLSNGHGSMLIYSLLHLTGYDLGIEDLKNFRQLNSRTPGHPEYGYTAGVETTTGPLGQGIANAVGMALAEKVLAAQFNRDGHAVVDHYTYAFLGDGCMMEGISHEVASLAGTLRLNKLIAFYDDNGGWFTDDTPKRFEAYGWQVIRNVDGHDADEIKTAIDTARKSDQPTLICCKTVIGFADEIAATRAALGWEHAPFEIPAQIYAEWDAKETGAAQEAEWNKRFAAYQAAHPELAAELLRRLKGELPADFAEKAAAYVADVANKGETIASRKASQNALNAFGPLLPELLGGSADTLWKGCKGVSADDAAGNYVFYGVREFGMSAIMNGVALHGGFIPYGATFLIFMEYARNAVRMSALMKQRVLYVFTHDSIGLGEDGPTHQPIEQLASLRLTPNLDTWRPADAVESAVAWKHAIERADGPSALIFSRQNLPHQARDVAQVADIARGGYVLKDCEGEPELILIATGSEVGLAVQAYDKLSEQGRKVRVVSMPCTSVYEQQDESYKQSVLPVEVGARIAIEAAHADYWYKYVGLDGRIIGMTSFGESAPAPALFEHFGFTLDNVLAVAEELL 4xfm-a2-m1-cA_4xfm-a2-m2-cA Crystal structure of a domain of unknown function (DUF1537) from Pectobacterium atrosepticum (ECA3761), Target EFI-511609, with bound D-threonate, domain swapped dimer Q6D0N7 Q6D0N7 1.55 X-RAY DIFFRACTION 102 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 400 400 4xgj-a2-m1-cA_4xgj-a2-m2-cA GQVLVVADDFTGANDAGVGLAQHGARVSVVFDVNTLHADLLGDAVVINTDSRAARDDVASQRTAAAVAAWQAVGGKGWIIKKIDSTLRGNLGAEVAAALSAADVPVALIAAASPTLGRVTRQGEVWVNGRRLTDTEFASDPKTPVTSASIAARLAEQTALPVAEIHLDEVRQANLAHRLQQLADEGTRLIILDTDVQDDLTHIVNAARALPFRPLLVGSAGLSDALATAQDFTRKTEKPLLAVVGSMSDIAQKQIAAARLRSDVTLVEIDINALFSPDSSTVMASQCEDALKALTNGHHCIIRTCQQLGETISHYLGELTRSIVQALLPGGLYLSGGDIAIAVATALGATGFQIKGQIASCVPWGYLLNSIVGMTPVMTKAGGFGNETTLLDVLRFIEEK GQVLVVADDFTGANDAGVGLAQHGARVSVVFDVNTLHADLLGDAVVINTDSRAARDDVASQRTAAAVAAWQAVGGKGWIIKKIDSTLRGNLGAEVAAALSAADVPVALIAAASPTLGRVTRQGEVWVNGRRLTDTEFASDPKTPVTSASIAARLAEQTALPVAEIHLDEVRQANLAHRLQQLADEGTRLIILDTDVQDDLTHIVNAARALPFRPLLVGSAGLSDALATAQDFTRKTEKPLLAVVGSMSDIAQKQIAAARLRSDVTLVEIDINALFSPDSSTVMASQCEDALKALTNGHHCIIRTCQQLGETISHYLGELTRSIVQALLPGGLYLSGGDIAIAVATALGATGFQIKGQIASCVPWGYLLNSIVGMTPVMTKAGGFGNETTLLDVLRFIEEK 4xfn-a1-m2-cA_4xfn-a1-m4-cA Structure of an Amyloid forming peptide AEVVFT from Human Transthyretin 1.85 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 4xfn-a1-m1-cA_4xfn-a1-m3-cA 4xfn-a1-m2-cA_4xfn-a1-m3-cA AEVVFT AEVVFT 4xfo-a1-m3-cA_4xfo-a1-m4-cA Structure of an amyloid-forming segment TAVVTN from human Transthyretin 1.35 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 32630 (synthetic construct) 6 6 4xfo-a1-m1-cA_4xfo-a1-m2-cA 4xfo-a1-m2-cA_4xfo-a1-m3-cA TAVVTN TAVVTN 4xfs-a3-m1-cA_4xfs-a3-m1-cB Structure of IL-18 SER Mutant I Q14116 Q14116 1.91 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 157 YFGKLESKLSVIRNLNDQVLFIDQGNRPLFEDMTDSDCRDNAPRTIFIISMYKDSQPRGMAVTISVKCEKISTLSCENKIISFKEMNPPDNIKDTKSDIIFFQRSVPGHDNKMQFESSSYEGYFLACEKERDLFKLILAAADAAGDRSIMFTVQNE YFGKLESKLSVIRNLNDQVLFIDQGNRPLFEDMTDSDCRDNAPRTIFIISMYKDSQPRGMAVTISVKCEKISTLSCENKIISFKEMNPPDNIKDTKSDIIFFQRSVPGHDNKMQFESSSYEGYFLACEKERDLFKLILAAADAAGDRSIMFTVQNED 4xft-a3-m1-cA_4xft-a3-m1-cB Structure of IL-18 SER Mutant III Q14116 Q14116 2 X-RAY DIFFRACTION 48 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 YFGKLESKLSVIRNLNDQVLFIDQGNRPLFEDMTDSDCRDNAPRTIFIISMYKDSQPRGMAVTISVACAAASTLSCENKIISFKEMNPPDNIKDTKSDIIFFQRSVPGHDNKMQFESSSYEGYFLACEKERDLFKLILKKEELGDRSIMFTVQN YFGKLESKLSVIRNLNDQVLFIDQGNRPLFEDMTDSDCRDNAPRTIFIISMYKDSQPRGMAVTISVACAAASTLSCENKIISFKEMNPPDNIKDTKSDIIFFQRSVPGDNKMQFESSSYEGYFLACEKERDLFKLILKKEELGDRSIMFTVQNE 4xfu-a3-m1-cA_4xfu-a3-m1-cB Structure of IL-18 SER Mutant V Q14116 Q14116 2.85 X-RAY DIFFRACTION 29 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 149 150 YFGKLESKLSVIRNLNDQVLFIDQGNRPLFEDMTNAPRTIFIISMYKDSQRRGMAVTISVACAAASTLSCENKIISFKEMNPPDNIKDTKSDIIFFQRRVPGHDNKMQFESSSYEGYFLACEKERDLFKLILKKEELGDRSIMFTVQNE YFGKLESKLSVIRNLNDQVLFIDQGNRPLFEDMTDAPRTIFIISMYKDSQRRGMAVTISVACAAASTLSCENKIISFKEMNPPDNIKDTKSDIIFFQRRVPGHDNKMQFESSSYEGYFLACEKERDLFKLILKKEDELGDRSIMFTVQNE 4xg0-a2-m1-cA_4xg0-a2-m2-cA Crystal structure of a domain of unknown function (DUF1537) from Bordetella bronchiseptica (BB3215), Target EFI-511620, with bound citrate, domain swapped dimer, space group C2221 A0A0H3LX82 A0A0H3LX82 1.7 X-RAY DIFFRACTION 148 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 393 393 4xfr-a3-m1-cA_4xfr-a3-m1-cB GGPYIGIVADDLTGSGDTAVQFVRAGWATQLSVGGAEQALADPAVRQAEVLAVTTHSRPLAAADAAAVVRGEVERLRAAGVQRLYKKVDSTLRGAFKAEIDAARLAWGEDAIAVVCPAFPVTGRTVRQGVLYVGDRPVTETSAATDPVTPVTESHIPTLLGCAQLAAQAGETPAELARRIAAAAPVVVVDALDDADVQRLARAIGVLGQRAVPVGSGGLAAPLARVWAGGQAAGPVLVVVTSQHSAARQQAAALQQAGARTWAPTLAQLADDRNWAAWTAEVDALMLLAPEGRLAGLDADSVARRLGELAARLVLAHGAAGVVATGGDGASAVLAALQASGIALVDEVTGGVPLGTLTGGQAAGLPVVTKAGGFGEQDVLIRAAQAIRERRFT GGPYIGIVADDLTGSGDTAVQFVRAGWATQLSVGGAEQALADPAVRQAEVLAVTTHSRPLAAADAAAVVRGEVERLRAAGVQRLYKKVDSTLRGAFKAEIDAARLAWGEDAIAVVCPAFPVTGRTVRQGVLYVGDRPVTETSAATDPVTPVTESHIPTLLGCAQLAAQAGETPAELARRIAAAAPVVVVDALDDADVQRLARAIGVLGQRAVPVGSGGLAAPLARVWAGGQAAGPVLVVVTSQHSAARQQAAALQQAGARTWAPTLAQLADDRNWAAWTAEVDALMLLAPEGRLAGLDADSVARRLGELAARLVLAHGAAGVVATGGDGASAVLAALQASGIALVDEVTGGVPLGTLTGGQAAGLPVVTKAGGFGEQDVLIRAAQAIRERRFT 4xg1-a2-m1-cD_4xg1-a2-m1-cC Psychromonas ingrahamii diaminopimelate decarboxylase with LLP A1SR00 A1SR00 2.5 X-RAY DIFFRACTION 233 0.995 357804 (Psychromonas ingrahamii 37) 357804 (Psychromonas ingrahamii 37) 403 411 4xg1-a1-m1-cA_4xg1-a1-m1-cB DHFNYQNDGRLFVEGLPVEQVVKKTGTPAYIYSRATIERHWQAFDSAAGHPHLICYAVKANSNLAVLNLMARMGSGFDIVSVGELMRVIQAGGDPKKIVFSGVGKTEIEISAALQANIMCFNVESISELYRINSVAKALNVKAPISIRINPENKFGIEIEQALDVYKIASDLEFLEIKGVDCHIGSQLTEIAPFIEALDKLLILIDLLAEKITISHLDLGGGLGVPYDDETPPEPAEYMTAIINRMGRSLKLIFEPGRAIMANAGVLVTKVEFLKLNDKNFAIVDAAMNDLIRPALYSAWQNIIPLNTDYQDGQDRPVRSYDIVGPICETGDFLGKERQLALAEGDYLVIRSTGAYGSTMSSNYNSRCRAAEILVDGEKAFIVREREELKDLWRGEHILPIHH DHFNYQNDGRLFVEGLPVEQVVKKTGTPAYIYSRATIERHWQAFDSAAGKHPHLICYAVKANSNLAVLNLMARMGSGFDIVSVGELMRVIQAGGDPKKIVFSGVGKTEIEISAALQANIMCFNVESISELYRINSVAKALNVKAPISIRINPNIDAGLKENKFGIEIEQALDVYKIASDLEFLEIKGVDCHIGSQLTEIAPFIEALDKLLILIDLLAEKGITISHLDLGGGLGVPYDDETPPEPAEYMTAIINRMAGRSLKLIFEPGRAIMANAGVLVTKVEFLKLNDKNFAIVDAAMNDLIRPALYSAWQNIIPLNTDYQDGQDRPVRSYDIVGPICETGDFLGKERQLALAEGDYLVIRSTGAYGSTMSSNYNSRCRAAEILVDGEKAFIVREREELKDLWRGEHILPI 4xgn-a2-m1-cE_4xgn-a2-m1-cH Crystal structure of 3-hydroxyacyl-CoA dehydrogenase in complex with NAD from Burkholderia thailandensis Q2T0K5 Q2T0K5 1.65 X-RAY DIFFRACTION 127 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 253 255 4xgn-a1-m1-cB_4xgn-a1-m1-cC 4xgn-a1-m1-cD_4xgn-a1-m1-cA 4xgn-a2-m1-cF_4xgn-a2-m1-cG HMEIRDNVFLITGGASGLGAGTARLLTEAGGKVVLADLNQDAGEALARELGGVFVRCDVAREEDAQAAVAAATKLGTLRGLVNCAGIAPAAKTVGKDGPHPLELFAKTITVNLIGTFNMIRVAAAAMAANEPAPTGERGVIVSTASVAAFDGQIGQAAYAASKAGVAGMTLPIARDLSRNAIRVMTIAPGIFETPMLLGMPQEVQDALGAMVPFPPRLGKPAEYAMLVRQIFENPMLNGEVIRLDGAIRMQPK HHHMEIRDNVFLITGGASGLGAGTARLLTEAGGKVVLADLNQDAGEALARELGGVFVRCDVAREEDAQAAVAAATKLGTLRGLVNCAGIAPAAKTVGKDGPHPLELFAKTITVNLIGTFNMIRVAAAAMAANEPAPTGERGVIVSTASVAAFDGQIGQAAYAASKAGVAGMTLPIARDLSRNAIRVMTIAPGIFETPMLLGMPQEVQDALGAMVPFPPRLGKPAEYAMLVRQIFENPMLNGEVIRLDGAIRMQPK 4xgn-a2-m1-cF_4xgn-a2-m1-cH Crystal structure of 3-hydroxyacyl-CoA dehydrogenase in complex with NAD from Burkholderia thailandensis Q2T0K5 Q2T0K5 1.65 X-RAY DIFFRACTION 160 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 255 255 4xgn-a1-m1-cA_4xgn-a1-m1-cC 4xgn-a1-m1-cD_4xgn-a1-m1-cB 4xgn-a2-m1-cE_4xgn-a2-m1-cG HHHMEIRDNVFLITGGASGLGAGTARLLTEAGGKVVLADLNQDAGEALARELGGVFVRCDVAREEDAQAAVAAATKLGTLRGLVNCAGIAPAAKTVGKDGPHPLELFAKTITVNLIGTFNMIRVAAAAMAANEPAPTGERGVIVSTASVAAFDGQIGQAAYAASKAGVAGMTLPIARDLSRNAIRVMTIAPGIFETPMLLGMPQEVQDALGAMVPFPPRLGKPAEYAMLVRQIFENPMLNGEVIRLDGAIRMQPK HHHMEIRDNVFLITGGASGLGAGTARLLTEAGGKVVLADLNQDAGEALARELGGVFVRCDVAREEDAQAAVAAATKLGTLRGLVNCAGIAPAAKTVGKDGPHPLELFAKTITVNLIGTFNMIRVAAAAMAANEPAPTGERGVIVSTASVAAFDGQIGQAAYAASKAGVAGMTLPIARDLSRNAIRVMTIAPGIFETPMLLGMPQEVQDALGAMVPFPPRLGKPAEYAMLVRQIFENPMLNGEVIRLDGAIRMQPK 4xgo-a1-m1-cB_4xgo-a1-m1-cA Crystal structure of leucine-rich repeat domain of APL1B F2YBL9 F2YBL9 1.74 X-RAY DIFFRACTION 104 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 328 340 SMHLTPFTLSALLASFHKVEVLNLNGLQIEEIDTNAFAYAHTIQKLYMRFNVIRYLPPHVFQNVPLLTVLMLDRNDLSSLPPGIFHNTPKLTMMSMSNNNLERIEDDTFQATTALQNLQLSSNRLTHVDLALIPSLFHVNVSYNLLSTLAIPIAVEELDASHNTINVVRGPVNVELTILKLQHNNLTDTAWLLNYPGLVDVDLSYNQLEKITYQHFVKMQRLERLYVSNNRLVALDFTLKVLDLSHNHLMWVEHNQAQFDKLQYLYLDHNSIVTFKLSTSHTLKNLTLSHNDWDCNSLRALFRNVVHDADQHCKIDYHLEHGLCCKES YKSMHLTPFTLSALLASFHKVEVLNLNGLQIEEIDTNAFAYAHTIQKLYMRFNVIRYLPPHVFQNVPLLTVLMLDRNDLSSLPPGIFHNTPKLTMMSMSNNNLERIEDDTFQATTALQNLQLSSNRLTHVDLALIPSLFHVNVSYNLLSTLAIPIAVEELDASHNTINVVRGPVNVELTILKLQHNNLTDTAWLLNYPGLVDVDLSYNQLEKITYQHFVKMQRLERLYVSNNRLVALDFYGRPIPTLKVLDLSHNHLMWVEHNQAQFDKLQYLYLDHNSIVTFKLSTSHTLKNLTLSHNDWDCNSLRALFRNVAQPAVHDADQHCKIDYHLEHGLCCKES 4xgq-a2-m1-cF_4xgq-a2-m1-cH Crystal structure of addiction module from Mycobacterial species P9WJ35 P9WJ35 2.7 X-RAY DIFFRACTION 11 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 30 30 4xgq-a1-m1-cB_4xgq-a1-m1-cD VPLRDELAAIRHRCAALPVVDNRSAEAILG VPLRDELAAIRHRCAALPVVDNRSAEAILG 4xgr-a2-m1-cE_4xgr-a2-m1-cG Crystal structure of addiction module from Mycobacterial species P9WF77 P9WF77 2.7 X-RAY DIFFRACTION 70 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 124 124 4xgq-a1-m1-cA_4xgq-a1-m1-cC 4xgq-a2-m1-cE_4xgq-a2-m1-cG 4xgr-a1-m1-cC_4xgr-a1-m1-cA VIDTSALVALSDEPDAERFEAAVEADHIRLSTASYLETALVIEARFGEPGGRELDLWLHRAAVDLVAVHADQADAARAAYRTYGKAGLNYGDCFSYGLAKISGQPLLFKGEDFQHTDIATVALP VIDTSALVALSDEPDAERFEAAVEADHIRLSTASYLETALVIEARFGEPGGRELDLWLHRAAVDLVAVHADQADAARAAYRTYGKAGLNYGDCFSYGLAKISGQPLLFKGEDFQHTDIATVALP 4xgu-a2-m1-cD_4xgu-a2-m2-cE Structure of C. elegans PCH-2 Q09535 Q09535 2.301 X-RAY DIFFRACTION 19 0.989 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 377 379 4xgu-a2-m2-cD_4xgu-a2-m1-cE TLKNIHAEIRICQKFPKSTVQKRFSEFEELIKAASKNARNWKPISSSSLNELFEKLVIGTCELRDGELFENVNDLTINPSNIHVYKLHKDGSQLWQLPCVEFDSIWENLIYDSNLKNEVMSYVAALARLSEKHVNTKIINVNRLILLTGPPGTGKTSLCKGLAQHLSIRMNDKYSKSVMLEINSHSLFSKWFSESGKLVQKMFDQIDELAEDEKCMVFVLIDEVESLGIRAVNALLTQIDRIRRRDNVLILCTSNLESTLDKALVDRADIVKNVGQPSDFARYSMLKSSIMELARIGVVIDNEVHTDYWPQDICDTKAPRNEFTEILFKIAQEARGLSGRAISMLPTLVYSKSPEETITLPNCMNLFLEAVKERLSR LKNIHAEIRICQKFPKSTVQKRFSEFEELIKAASKNARNWKPISSLNELFEKLVIGTCELRDGELFENVNDLTINPSNIHVYKLHKDGPLGSQLWQLPCVEFDSIWENLIYDSNLKNEVMSYVAALARLSEKHVNTKIINVNRLILLTGPPGTGKTSLCKGLAQHLSIRMNDKYSKSVMLEINSHSLFSKWFSESGKLVQKMFDQIDELAEDEKCMVFVLIDEVESLSDAIRAVNALLTQIDRIRRRDNVLILCTSNLESTLDKALVDRADIVKNVGQPSDFARYSMLKSSIMELARIGVVIDNEVHTDYWPQDICDTKAPRNEFTEILFKIAQEARGLSGRAISMLPTLVYSKSPEETITLPNCMNLFLEAVKERLSR 4xgu-a2-m2-cD_4xgu-a2-m2-cE Structure of C. elegans PCH-2 Q09535 Q09535 2.301 X-RAY DIFFRACTION 66 0.989 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 377 379 4xgu-a1-m1-cC_4xgu-a1-m1-cB 4xgu-a1-m1-cD_4xgu-a1-m1-cE 4xgu-a2-m1-cC_4xgu-a2-m1-cB 4xgu-a2-m1-cD_4xgu-a2-m1-cE 4xgu-a2-m2-cC_4xgu-a2-m2-cB TLKNIHAEIRICQKFPKSTVQKRFSEFEELIKAASKNARNWKPISSSSLNELFEKLVIGTCELRDGELFENVNDLTINPSNIHVYKLHKDGSQLWQLPCVEFDSIWENLIYDSNLKNEVMSYVAALARLSEKHVNTKIINVNRLILLTGPPGTGKTSLCKGLAQHLSIRMNDKYSKSVMLEINSHSLFSKWFSESGKLVQKMFDQIDELAEDEKCMVFVLIDEVESLGIRAVNALLTQIDRIRRRDNVLILCTSNLESTLDKALVDRADIVKNVGQPSDFARYSMLKSSIMELARIGVVIDNEVHTDYWPQDICDTKAPRNEFTEILFKIAQEARGLSGRAISMLPTLVYSKSPEETITLPNCMNLFLEAVKERLSR LKNIHAEIRICQKFPKSTVQKRFSEFEELIKAASKNARNWKPISSLNELFEKLVIGTCELRDGELFENVNDLTINPSNIHVYKLHKDGPLGSQLWQLPCVEFDSIWENLIYDSNLKNEVMSYVAALARLSEKHVNTKIINVNRLILLTGPPGTGKTSLCKGLAQHLSIRMNDKYSKSVMLEINSHSLFSKWFSESGKLVQKMFDQIDELAEDEKCMVFVLIDEVESLSDAIRAVNALLTQIDRIRRRDNVLILCTSNLESTLDKALVDRADIVKNVGQPSDFARYSMLKSSIMELARIGVVIDNEVHTDYWPQDICDTKAPRNEFTEILFKIAQEARGLSGRAISMLPTLVYSKSPEETITLPNCMNLFLEAVKERLSR 4xgw-a2-m1-cD_4xgw-a2-m1-cB Crystal structure of Escherichia coli Flavin trafficking protein, an FMN transferase, E169K mutant P0AB85 P0AB85 1.747 X-RAY DIFFRACTION 106 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 303 308 2o18-a1-m1-cA_2o18-a1-m1-cC 2o18-a1-m1-cB_2o18-a1-m1-cD 4xgw-a1-m1-cA_4xgw-a1-m1-cC 4xgx-a1-m1-cA_4xgx-a1-m1-c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xhc-a1-m1-cA_4xhc-a1-m1-cB rhamnosidase from Klebsiella oxytoca with rhamnose bound A0A0J9X262 A0A0J9X262 2.7 X-RAY DIFFRACTION 94 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 513 513 VMMTRHPNFLRTAEALRPALSRQAHPPIAVVEAHADAAALFGWRAEPVSTLAAFYQRELSSGDSVIIDFGSHYVGYLHFLCQSAGSPPDAPAHLQLTFGETLSEVCEPFSDYQGWLSSSWLQQQDLWLDVLPAEIDLPRRYCFRYLKVEVKAVSRKFRLQFTQIEVNAVTSASGACPAATTSDPQLRAIDNVAVLTLQNCMQEVFEDGPKRDRRLWLGDLRLQALVNDVTFARHDLVRRCLYLFAGHTREDGMVSANVFVQPDVIADDTFLFDYSLFFVDVLYNYLQSAEDMATARELWPTARRQVELALTRCDASGVVRDSDDWWVFIDWQASLNKQAAAQGVLIYCLQRAIWLAERFEPELAVSYRQRLQQLKSAALDALWDPQQGFYVSGARRQVSWASQIWLVLAEVGTPQQRREIMRNLEKNPPAVAMNTPYLRHHYIAALLQCGLRDEAIAQIKAYWGAMVDYGADTFWEIFDPAHPDFSPYGSKLINSYCHAWSCTPAWFIRQYGL VMMTRHPNFLRTAEALRPALSRQAHPPIAVVEAHADAAALFGWRAEPVSTLAAFYQRELSSGDSVIIDFGSHYVGYLHFLCQSAGSPPDAPAHLQLTFGETLSEVCEPFSDYQGWLSSSWLQQQDLWLDVLPAEIDLPRRYCFRYLKVEVKAVSRKFRLQFTQIEVNAVTSASGACPAATTSDPQLRAIDNVAVLTLQNCMQEVFEDGPKRDRRLWLGDLRLQALVNDVTFARHDLVRRCLYLFAGHTREDGMVSANVFVQPDVIADDTFLFDYSLFFVDVLYNYLQSAEDMATARELWPTARRQVELALTRCDASGVVRDSDDWWVFIDWQASLNKQAAAQGVLIYCLQRAIWLAERFEPELAVSYRQRLQQLKSAALDALWDPQQGFYVSGARRQVSWASQIWLVLAEVGTPQQRREIMRNLEKNPPAVAMNTPYLRHHYIAALLQCGLRDEAIAQIKAYWGAMVDYGADTFWEIFDPAHPDFSPYGSKLINSYCHAWSCTPAWFIRQYGL 4xhq-a1-m1-cA_4xhq-a1-m2-cA Re-refinement the crystal structure of Dscam1 isoform 1.34, N-terminal four Ig domains Q9NBA1 Q9NBA1 1.948 X-RAY DIFFRACTION 119 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 388 388 2v5m-a1-m1-cA_2v5m-a1-m2-cA 2v5s-a1-m1-cA_2v5s-a1-m1-cB 3dmk-a1-m1-cB_3dmk-a1-m1-cA 3dmk-a2-m1-cC_3dmk-a2-m2-cC 4x8x-a1-m1-cA_4x8x-a1-m1-cB QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVAQYYEADVNKEHVIRGNSAVIKCLIPSFVADFVEVVSWHTDEEENYFPGAEYDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPISSSAPRTPALVQKPLELMVAHTISLLCPAQGFPAPSFRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSESVLRIESVKKEDKGMYQCFVRNDRESAEASAELKLG QKGPVFLKEPTNRIDFSNSTGAEIECKASGNPMPEIIWIRSDGTAVGDVPGLRQISSDGKLVFPPFRAEDYRQEVHAQVYACLARNQFGSIISRDVHVRAVVAQYYEADVNKEHVIRGNSAVIKCLIPSFVADFVEVVSWHTDEEENYFPGAEYDGKYLVLPSGELHIREVGPEDGYKSYQCRTKHRLTGETRLSATKGRLVITEPISSSAPRTPALVQKPLELMVAHTISLLCPAQGFPAPSFRWYKFIEGTTRKQAVVLNDRVKQVSGTLIIKDAVVEDSGKYLCVVNNSVGGESVETVLTVTAPLSAKIDPPTQTVDFGRPAVFTCQYTGNPIKTVSWMKDGKAIGHSESVLRIESVKKEDKGMYQCFVRNDRESAEASAELKLG 4xht-a1-m1-cB_4xht-a1-m1-cA Crystal structure of Timeless_PAB domain native form Q9UNS1 Q9UNS1 1.651 X-RAY DIFFRACTION 37 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 92 94 4xht-a2-m1-cD_4xht-a2-m1-cC 4xhw-a1-m1-cA_4xhw-a1-m1-cB 4xhw-a2-m1-cD_4xhw-a2-m1-cC 4xhw-a3-m1-cA_4xhw-a3-m1-cB 4xhw-a3-m1-cD_4xhw-a3-m1-cC ENLGQSLHQEGFSIPLLWLQNCLIRAADDREESQAVPLVPLTEENEEAMENEQFQQLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASL NLGQSLHQEGFSIPLLWLQNCLIRAADDREEDGCSQAVPLVPLTEENEEAMENEQFQQLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASL 4xhw-a3-m1-cA_4xhw-a3-m1-cD Crystal structure of Timeless_PAB domain in SeMet-labelled form Q9UNS1 Q9UNS1 2.85 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 90 NQSLHQEGFSIPLLWLQNCLIRAADDREESQAVPLVPLTEENEEAENEQFQQLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASL NQSLHQEGFSIPLLWLQNCLIRAADDREEDCSQAVPLVPLTEENEEAENEQFQQLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASL 4xhw-a3-m1-cD_4xhw-a3-m1-cB Crystal structure of Timeless_PAB domain in SeMet-labelled form Q9UNS1 Q9UNS1 2.85 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 91 NQSLHQEGFSIPLLWLQNCLIRAADDREEDCSQAVPLVPLTEENEEAENEQFQQLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASL NQSLHQEGFSIPLLWLQNCLIRAADDREEDGCSQAVPLVPLTEENEEAENEQFQQLLRKLGVRPPASGQETFWRIPAKLSPTQLRRAAASL 4xhy-a1-m1-cA_4xhy-a1-m2-cA NADH:FMN oxidoreductase from Paracoccus denitrificans A1B5I2 A1B5I2 1.53 X-RAY DIFFRACTION 231 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 161 161 4xj2-a1-m1-cA_4xj2-a1-m2-cA EITFHPAARLLREALGRFATGVTVVTTAGPQGPLGMTVNSFSSVSLEPPLVLWCPARTSARHAAFAEAGAWSVHVLGSEQLETCLRFTRGGRQFEGLDTVLTPEGVPVIPGVAARFDCAAHAAHEAGDHSVLIGRVLRVTVAGPGDHPLVFAAGRFGQFEP EITFHPAARLLREALGRFATGVTVVTTAGPQGPLGMTVNSFSSVSLEPPLVLWCPARTSARHAAFAEAGAWSVHVLGSEQLETCLRFTRGGRQFEGLDTVLTPEGVPVIPGVAARFDCAAHAAHEAGDHSVLIGRVLRVTVAGPGDHPLVFAAGRFGQFEP 4xi0-a2-m1-cB_4xi0-a2-m1-cC MamA 41-end from Desulfovibrio magneticus RS-1 C4XPQ7 C4XPQ7 2.88 X-RAY DIFFRACTION 18 1.0 573370 (Solidesulfovibrio magneticus RS-1) 573370 (Solidesulfovibrio magneticus RS-1) 175 175 4xi0-a1-m1-cA_4xi0-a1-m1-cE 4xi0-a1-m1-cD_4xi0-a1-m1-cA 4xi0-a1-m1-cD_4xi0-a1-m1-cE 4xi0-a2-m1-cB_4xi0-a2-m1-cF 4xi0-a2-m1-cC_4xi0-a2-m1-cF AMGDKAKLYRNISQRCLRRGSPEEALRYLKEWARHEKNDPEPLYQMGIALANLGDYQRAVTVFDKVLKLRPNHFMASYRKGAVLLKIKQYKLALPVLEAVVAAAPADARAYYLLGLAYDGDEQLEKGIEAMQKAVDLDPEEIKYHQHLGFMNVRKDDHKTAAEHFTKVMELERSQ AMGDKAKLYRNISQRCLRRGSPEEALRYLKEWARHEKNDPEPLYQMGIALANLGDYQRAVTVFDKVLKLRPNHFMASYRKGAVLLKIKQYKLALPVLEAVVAAAPADARAYYLLGLAYDGDEQLEKGIEAMQKAVDLDPEEIKYHQHLGFMNVRKDDHKTAAEHFTKVMELERSQ 4xi1-a4-m1-cA_4xi1-a4-m2-cA Crystal structure of U-box 2 of LubX / LegU2 / Lpp2887 from Legionella pneumophila str. Paris, wild-type Q5X159 Q5X159 2.983 X-RAY DIFFRACTION 10 1.0 297246 (Legionella pneumophila str. Paris) 297246 (Legionella pneumophila str. Paris) 76 76 YTEIPDIFLCPISKTLIKTPVITAQGKVYDQEALSNFLIATGNKDETGKKLSIDDVVVFDELYQQIKVYNFYRKRE YTEIPDIFLCPISKTLIKTPVITAQGKVYDQEALSNFLIATGNKDETGKKLSIDDVVVFDELYQQIKVYNFYRKRE 4xi1-a4-m2-cB_4xi1-a4-m2-cA Crystal structure of U-box 2 of LubX / LegU2 / Lpp2887 from Legionella pneumophila str. Paris, wild-type Q5X159 Q5X159 2.983 X-RAY DIFFRACTION 27 1.0 297246 (Legionella pneumophila str. Paris) 297246 (Legionella pneumophila str. Paris) 75 76 4xi1-a4-m1-cB_4xi1-a4-m1-cA 4xi1-a4-m1-cC_4xi1-a4-m2-cC TEIPDIFLCPISKTLIKTPVITAQGKVYDQEALSNFLIATGNKDETGKKLSIDDVVVFDELYQQIKVYNFYRKRE YTEIPDIFLCPISKTLIKTPVITAQGKVYDQEALSNFLIATGNKDETGKKLSIDDVVVFDELYQQIKVYNFYRKRE 4xi1-a4-m2-cC_4xi1-a4-m2-cA Crystal structure of U-box 2 of LubX / LegU2 / Lpp2887 from Legionella pneumophila str. Paris, wild-type Q5X159 Q5X159 2.983 X-RAY DIFFRACTION 10 1.0 297246 (Legionella pneumophila str. Paris) 297246 (Legionella pneumophila str. Paris) 75 76 4xi1-a4-m1-cB_4xi1-a4-m2-cC 4xi1-a4-m1-cC_4xi1-a4-m1-cA 4xi1-a4-m1-cC_4xi1-a4-m2-cB YTEIPDIFLCPISKTLIKTPVITAQGKVYDQEALSNFLIATGNKDETGKKLSIDDVVVFDELYQQIKVYNFYRKR YTEIPDIFLCPISKTLIKTPVITAQGKVYDQEALSNFLIATGNKDETGKKLSIDDVVVFDELYQQIKVYNFYRKRE 4xi2-a1-m1-cA_4xi2-a1-m2-cA Crystal Structure of an auto-inhibited form of Bruton's Tryrosine Kinase P35991 P35991 2.6 X-RAY DIFFRACTION 255 1.0 10090 (Mus musculus) 10090 (Mus musculus) 421 421 TELKKVVALYDYMPMNANDLQLRKGEEYFILEESNLPWWRARDKNGQEGYIPSNYITEAEDSIEMYEWYSKHMTRSQAEQLLEGGFIVRDYTVSVFAKGVIRHYVVCYYLAEKHLFSTIPELINYHQHNSAGLISRLKYPVSKQNKNAPSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIREGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASERVYTIMYSCWHEKADERPSFKILLSNILDVMDE TELKKVVALYDYMPMNANDLQLRKGEEYFILEESNLPWWRARDKNGQEGYIPSNYITEAEDSIEMYEWYSKHMTRSQAEQLLEGGFIVRDYTVSVFAKGVIRHYVVCYYLAEKHLFSTIPELINYHQHNSAGLISRLKYPVSKQNKNAPSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIREGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASERVYTIMYSCWHEKADERPSFKILLSNILDVMDE 4xi6-a2-m1-cA_4xi6-a2-m2-cA Crystal structure of the MZM-REP domains of Mind bomb 1 Q86YT6 Q86YT6 2.04 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 363 SRVMVEGVGARVVRGPDWKWGKQDGGEGHVGTVRSFESPEEVVVVWDNGTAANYRCSGAYDLRILDSAPTGIKHDGTMCDTCRQQPIIGIRWKCAECTNYDLCTVCYHGDKHHLRHRFYRITTPGSERVLLESRRKSKKITARGIFAGARVVRGVDWQWEDQDGGNGRRGKVTEIQDWSASSPHSAAYVLWDNGAKNLYRVGFEGMSDLKCVQDAKGGSFYRDHCPVLGLVNIDLDLEIVQSLQHGHGGWTDGMFETLTTTGTVCGIDEDHDIVVQYPSGNRWTFNPAVLTKASQFQVGDLVQVCYDLERIKLLQRGHGEWAEAMLPTLGKVGRVQQIYSDSDLKVEVCGTSWTYNPAAVSKV SRVMVEGVGARVVRGPDWKWGKQDGGEGHVGTVRSFESPEEVVVVWDNGTAANYRCSGAYDLRILDSAPTGIKHDGTMCDTCRQQPIIGIRWKCAECTNYDLCTVCYHGDKHHLRHRFYRITTPGSERVLLESRRKSKKITARGIFAGARVVRGVDWQWEDQDGGNGRRGKVTEIQDWSASSPHSAAYVLWDNGAKNLYRVGFEGMSDLKCVQDAKGGSFYRDHCPVLGLVNIDLDLEIVQSLQHGHGGWTDGMFETLTTTGTVCGIDEDHDIVVQYPSGNRWTFNPAVLTKASQFQVGDLVQVCYDLERIKLLQRGHGEWAEAMLPTLGKVGRVQQIYSDSDLKVEVCGTSWTYNPAAVSKV 4xi6-a3-m1-cA_4xi6-a3-m3-cA Crystal structure of the MZM-REP domains of Mind bomb 1 Q86YT6 Q86YT6 2.04 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 363 SRVMVEGVGARVVRGPDWKWGKQDGGEGHVGTVRSFESPEEVVVVWDNGTAANYRCSGAYDLRILDSAPTGIKHDGTMCDTCRQQPIIGIRWKCAECTNYDLCTVCYHGDKHHLRHRFYRITTPGSERVLLESRRKSKKITARGIFAGARVVRGVDWQWEDQDGGNGRRGKVTEIQDWSASSPHSAAYVLWDNGAKNLYRVGFEGMSDLKCVQDAKGGSFYRDHCPVLGLVNIDLDLEIVQSLQHGHGGWTDGMFETLTTTGTVCGIDEDHDIVVQYPSGNRWTFNPAVLTKASQFQVGDLVQVCYDLERIKLLQRGHGEWAEAMLPTLGKVGRVQQIYSDSDLKVEVCGTSWTYNPAAVSKV SRVMVEGVGARVVRGPDWKWGKQDGGEGHVGTVRSFESPEEVVVVWDNGTAANYRCSGAYDLRILDSAPTGIKHDGTMCDTCRQQPIIGIRWKCAECTNYDLCTVCYHGDKHHLRHRFYRITTPGSERVLLESRRKSKKITARGIFAGARVVRGVDWQWEDQDGGNGRRGKVTEIQDWSASSPHSAAYVLWDNGAKNLYRVGFEGMSDLKCVQDAKGGSFYRDHCPVLGLVNIDLDLEIVQSLQHGHGGWTDGMFETLTTTGTVCGIDEDHDIVVQYPSGNRWTFNPAVLTKASQFQVGDLVQVCYDLERIKLLQRGHGEWAEAMLPTLGKVGRVQQIYSDSDLKVEVCGTSWTYNPAAVSKV 4xi8-a1-m1-cB_4xi8-a1-m1-cA Crystal Structure of the FIC domain of Bep5 protein (VirB-translocated Bartonella effector protein) from Bartonella clarridgeiae E6YGF5 E6YGF5 2.95 X-RAY DIFFRACTION 28 0.99 696125 (Bartonella clarridgeiae 73) 696125 (Bartonella clarridgeiae 73) 208 211 4xi8-a1-m1-cC_4xi8-a1-m1-cA 4xi8-a1-m1-cC_4xi8-a1-m1-cB 4xi8-a2-m1-cD_4xi8-a2-m1-cE 4xi8-a2-m1-cF_4xi8-a2-m1-cD 4xi8-a2-m1-cF_4xi8-a2-m1-cE HHMISFYGYTHFDGRTLKNKYGMQGKALQERCAYDLLQAMLNLRKEPLPEKFDSSYLKYLHQRLYEKMFEWAGCTCDTPFTFSDGTVTKVPINNKIKEGLKRIDQILAEKNNFQGLSRKEFIHEVSTVFILLNKIRPFMVGNKYVQRIFFEQIAEAAGHKLDFSVVTEKRMQFAIHAALSRGNITPMLHLFEDISNPEKVGILKEFMI AHHHHHHMISFYGYTHFDGRTLKNKYGMQGKALQERCAYDLLQAMLNLRKEPLPEKFDSSYLKYLHQRLYEKMFEWAGCTCDTPFTFSDGTVTKVPINNKIKEGLKRIDQILAEKNNFQGLSRKEFIHEVSTVFILLNKIRPFMVGNKYVQRIFFEQIAEAAGHKLDFSVVTEKRMQFAIHAALSRGNITPMLHLFEDISNPEKVGILKEF 4xia-a1-m1-cA_4xia-a1-m2-cB STRUCTURES OF D-XYLOSE ISOMERASE FROM ARTHROBACTER STRAIN B3728 CONTAINING THE INHIBITORS XYLITOL AND D-SORBITOL AT 2.5 ANGSTROMS AND 2.3 ANGSTROMS RESOLUTION, RESPECTIVELY P12070 P12070 2.3 X-RAY DIFFRACTION 90 1.0 1669 (Arthrobacter sp. NRRL B3728) 1669 (Arthrobacter sp. NRRL B3728) 393 393 1did-a1-m1-cA_1did-a1-m2-cB 1did-a1-m1-cB_1did-a1-m2-cA 1die-a1-m1-cA_1die-a1-m2-cB 1die-a1-m1-cB_1die-a1-m2-cA 1xla-a1-m1-cA_1xla-a1-m2-cB 1xla-a1-m1-cB_1xla-a1-m2-cA 1xlb-a1-m1-cA_1xlb-a1-m2-cB 1xlb-a1-m1-cB_1xlb-a1-m2-cA 1xlc-a1-m1-cA_1xlc-a1-m2-cB 1xlc-a1-m1-cB_1xlc-a1-m2-cA 1xld-a1-m1-cA_1xld-a1-m2-cB 1xld-a1-m1-cB_1xld-a1-m2-cA 1xle-a1-m1-cA_1xle-a1-m2-cB 1xle-a1-m1-cB_1xle-a1-m2-cA 1xlf-a1-m1-cA_1xlf-a1-m2-cB 1xlf-a1-m1-cB_1xlf-a1-m2-cA 1xlg-a1-m1-cA_1xlg-a1-m2-cB 1xlg-a1-m1-cB_1xlg-a1-m2-cA 1xlh-a1-m1-cA_1xlh-a1-m2-cB 1xlh-a1-m1-cB_1xlh-a1-m2-cA 1xli-a1-m1-cA_1xli-a1-m2-cB 1xli-a1-m1-cB_1xli-a1-m2-cA 1xlj-a1-m1-cA_1xlj-a1-m2-cB 1xlj-a1-m1-cB_1xlj-a1-m2-cA 1xlk-a1-m1-cA_1xlk-a1-m2-cB 1xlk-a1-m1-cB_1xlk-a1-m2-cA 1xll-a1-m1-cA_1xll-a1-m2-cB 1xll-a1-m1-cB_1xll-a1-m2-cA 1xlm-a1-m1-cA_1xlm-a1-m2-cA 1xlm-a1-m1-cB_1xlm-a1-m2-cB 4xia-a1-m1-cB_4xia-a1-m2-cA 5xia-a1-m1-cA_5xia-a1-m2-cB 5xia-a1-m1-cB_5xia-a1-m2-cA VQPTPADHFTFGLWTVGWTGADPFGVATRANLDPVEAVHKLAELGAYGITFHDNDLIPFDATAAEREKILGDFNQALADTGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALAKVLHNIDLAAEMGAETFVMWGGREGSEYDGSKDLAAALDRMREGVDTAAGYIKDKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIEQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAEKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYTGPRHFDYKPSRTDGYDGVWDSAKANMSMYLLLKERALAFRADPEVQEAMKTSGVFELGETTLNAGESAADLMNDSASFAGFDAEAAAERNFAFIRLNQLAIEHLLGSR VQPTPADHFTFGLWTVGWTGADPFGVATRANLDPVEAVHKLAELGAYGITFHDNDLIPFDATAAEREKILGDFNQALADTGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALAKVLHNIDLAAEMGAETFVMWGGREGSEYDGSKDLAAALDRMREGVDTAAGYIKDKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIEQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAEKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYTGPRHFDYKPSRTDGYDGVWDSAKANMSMYLLLKERALAFRADPEVQEAMKTSGVFELGETTLNAGESAADLMNDSASFAGFDAEAAAERNFAFIRLNQLAIEHLLGSR 4xia-a1-m1-cB_4xia-a1-m2-cB STRUCTURES OF D-XYLOSE ISOMERASE FROM ARTHROBACTER STRAIN B3728 CONTAINING THE INHIBITORS XYLITOL AND D-SORBITOL AT 2.5 ANGSTROMS AND 2.3 ANGSTROMS RESOLUTION, RESPECTIVELY P12070 P12070 2.3 X-RAY DIFFRACTION 359 1.0 1669 (Arthrobacter sp. NRRL B3728) 1669 (Arthrobacter sp. NRRL B3728) 393 393 1did-a1-m1-cA_1did-a1-m2-cA 1did-a1-m1-cB_1did-a1-m2-cB 1die-a1-m1-cA_1die-a1-m2-cA 1die-a1-m1-cB_1die-a1-m2-cB 1xla-a1-m1-cA_1xla-a1-m2-cA 1xla-a1-m1-cB_1xla-a1-m2-cB 1xlb-a1-m1-cA_1xlb-a1-m2-cA 1xlb-a1-m1-cB_1xlb-a1-m2-cB 1xlc-a1-m1-cA_1xlc-a1-m2-cA 1xlc-a1-m1-cB_1xlc-a1-m2-cB 1xld-a1-m1-cA_1xld-a1-m2-cA 1xld-a1-m1-cB_1xld-a1-m2-cB 1xle-a1-m1-cA_1xle-a1-m2-cA 1xle-a1-m1-cB_1xle-a1-m2-cB 1xlf-a1-m1-cA_1xlf-a1-m2-cA 1xlf-a1-m1-cB_1xlf-a1-m2-cB 1xlg-a1-m1-cA_1xlg-a1-m2-cA 1xlg-a1-m1-cB_1xlg-a1-m2-cB 1xlh-a1-m1-cA_1xlh-a1-m2-cA 1xlh-a1-m1-cB_1xlh-a1-m2-cB 1xli-a1-m1-cA_1xli-a1-m2-cA 1xli-a1-m1-cB_1xli-a1-m2-cB 1xlj-a1-m1-cA_1xlj-a1-m2-cA 1xlj-a1-m1-cB_1xlj-a1-m2-cB 1xlk-a1-m1-cA_1xlk-a1-m2-cA 1xlk-a1-m1-cB_1xlk-a1-m2-cB 1xll-a1-m1-cA_1xll-a1-m2-cA 1xll-a1-m1-cB_1xll-a1-m2-cB 1xlm-a1-m1-cA_1xlm-a1-m2-cB 1xlm-a1-m1-cB_1xlm-a1-m2-cA 4xia-a1-m1-cA_4xia-a1-m2-cA 5xia-a1-m1-cA_5xia-a1-m2-cA 5xia-a1-m1-cB_5xia-a1-m2-cB VQPTPADHFTFGLWTVGWTGADPFGVATRANLDPVEAVHKLAELGAYGITFHDNDLIPFDATAAEREKILGDFNQALADTGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALAKVLHNIDLAAEMGAETFVMWGGREGSEYDGSKDLAAALDRMREGVDTAAGYIKDKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIEQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAEKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYTGPRHFDYKPSRTDGYDGVWDSAKANMSMYLLLKERALAFRADPEVQEAMKTSGVFELGETTLNAGESAADLMNDSASFAGFDAEAAAERNFAFIRLNQLAIEHLLGSR VQPTPADHFTFGLWTVGWTGADPFGVATRANLDPVEAVHKLAELGAYGITFHDNDLIPFDATAAEREKILGDFNQALADTGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALAKVLHNIDLAAEMGAETFVMWGGREGSEYDGSKDLAAALDRMREGVDTAAGYIKDKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIEQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAEKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYTGPRHFDYKPSRTDGYDGVWDSAKANMSMYLLLKERALAFRADPEVQEAMKTSGVFELGETTLNAGESAADLMNDSASFAGFDAEAAAERNFAFIRLNQLAIEHLLGSR 4xia-a1-m2-cA_4xia-a1-m2-cB STRUCTURES OF D-XYLOSE ISOMERASE FROM ARTHROBACTER STRAIN B3728 CONTAINING THE INHIBITORS XYLITOL AND D-SORBITOL AT 2.5 ANGSTROMS AND 2.3 ANGSTROMS RESOLUTION, RESPECTIVELY P12070 P12070 2.3 X-RAY DIFFRACTION 122 1.0 1669 (Arthrobacter sp. NRRL B3728) 1669 (Arthrobacter sp. NRRL B3728) 393 393 1did-a1-m1-cA_1did-a1-m1-cB 1did-a1-m2-cA_1did-a1-m2-cB 1die-a1-m1-cA_1die-a1-m1-cB 1die-a1-m2-cA_1die-a1-m2-cB 1xla-a1-m1-cA_1xla-a1-m1-cB 1xla-a1-m2-cA_1xla-a1-m2-cB 1xlb-a1-m1-cA_1xlb-a1-m1-cB 1xlb-a1-m2-cA_1xlb-a1-m2-cB 1xlc-a1-m1-cA_1xlc-a1-m1-cB 1xlc-a1-m2-cA_1xlc-a1-m2-cB 1xld-a1-m1-cA_1xld-a1-m1-cB 1xld-a1-m2-cA_1xld-a1-m2-cB 1xle-a1-m1-cA_1xle-a1-m1-cB 1xle-a1-m2-cA_1xle-a1-m2-cB 1xlf-a1-m1-cA_1xlf-a1-m1-cB 1xlf-a1-m2-cA_1xlf-a1-m2-cB 1xlg-a1-m1-cA_1xlg-a1-m1-cB 1xlg-a1-m2-cA_1xlg-a1-m2-cB 1xlh-a1-m1-cA_1xlh-a1-m1-cB 1xlh-a1-m2-cA_1xlh-a1-m2-cB 1xli-a1-m1-cA_1xli-a1-m1-cB 1xli-a1-m2-cA_1xli-a1-m2-cB 1xlj-a1-m1-cA_1xlj-a1-m1-cB 1xlj-a1-m2-cA_1xlj-a1-m2-cB 1xlk-a1-m1-cA_1xlk-a1-m1-cB 1xlk-a1-m2-cA_1xlk-a1-m2-cB 1xll-a1-m1-cA_1xll-a1-m1-cB 1xll-a1-m2-cA_1xll-a1-m2-cB 1xlm-a1-m1-cA_1xlm-a1-m1-cB 1xlm-a1-m2-cA_1xlm-a1-m2-cB 4xia-a1-m1-cA_4xia-a1-m1-cB 5xia-a1-m1-cA_5xia-a1-m1-cB 5xia-a1-m2-cA_5xia-a1-m2-cB VQPTPADHFTFGLWTVGWTGADPFGVATRANLDPVEAVHKLAELGAYGITFHDNDLIPFDATAAEREKILGDFNQALADTGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALAKVLHNIDLAAEMGAETFVMWGGREGSEYDGSKDLAAALDRMREGVDTAAGYIKDKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIEQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAEKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYTGPRHFDYKPSRTDGYDGVWDSAKANMSMYLLLKERALAFRADPEVQEAMKTSGVFELGETTLNAGESAADLMNDSASFAGFDAEAAAERNFAFIRLNQLAIEHLLGSR VQPTPADHFTFGLWTVGWTGADPFGVATRANLDPVEAVHKLAELGAYGITFHDNDLIPFDATAAEREKILGDFNQALADTGLKVPMVTTNLFSHPVFKDGGFTSNDRSIRRFALAKVLHNIDLAAEMGAETFVMWGGREGSEYDGSKDLAAALDRMREGVDTAAGYIKDKGYNLRIALEPKPNEPRGDIFLPTVGHGLAFIEQLEHGDIVGLNPETGHEQMAGLNFTHGIAQALWAEKLFHIDLNGQRGIKYDQDLVFGHGDLTSAFFTVDLLENGFPNGGPKYTGPRHFDYKPSRTDGYDGVWDSAKANMSMYLLLKERALAFRADPEVQEAMKTSGVFELGETTLNAGESAADLMNDSASFAGFDAEAAAERNFAFIRLNQLAIEHLLGSR 4xin-a1-m1-cA_4xin-a1-m1-cB X-ray Crystal Structure of an LpqH orthologue from Mycobacterium avium A0A0J9X263 A0A0J9X263 1.5 X-RAY DIFFRACTION 83 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 114 114 AQLSSTASVTVDGKDRNFHIVTCRQLEWRRMIDIGADFSGAKVAVDENAQPPVVESVHIQNLSGFSGMYSRGGSGSADMSMTGDKFTISGTADGYKTDKPGEPATATFKIVVTC AQLSSTASVTVDGKDRNFHIVTCRQLEWRRMIDIGADFSGAKVAVDENAQPPVVESVHIQNLSGFSGMYSRGGSGSADMSMTGDKFTISGTADGYKTDKPGEPATATFKIVVTC 4xiv-a1-m1-cA_4xiv-a1-m1-cB Kinase and Dimerization (P3P4) of the Thermotoga maritima CheA kinase Q56310 Q56310 3 X-RAY DIFFRACTION 130 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 250 252 VISQTVRVDIEKLDNLMDLMGELVIARSRILETLKKYNIKELDESLSHLSRITLDLQNVVMKIRMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKEKVSEVSGRGVGMDVVKNVVESLNGSISIESEKDKGTKVTIRLPLT KKVISQTVRVDIEKLDNLMDLMGELVIARSRILETLKKYNIKELDESLSHLSRITLDLQNVVMKIRMVPISFVFNRFPRMVRDLAKKMNKEVNFIMRGEDTELDRTFVEEIGEPLLHLLRNAIDHGIEPKEERIAKGKPPIGTLILSARHEGNNVVIEVEDDGRGIDKEKIIRKAIEKGLIDESKAATLSDQEILNFLFVPGFSTKEKVSEVSGRGVGMDVVKNVVESLNGSISIESEKDKGTKVTIRLPLT 4xiw-a1-m1-cA_4xiw-a1-m1-cG Carbonic anhydrase Cah3 from Chlamydomonas reinhardtii in complex with acetazolamide Q39588 Q39588 2.6 X-RAY DIFFRACTION 108 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 237 238 4xiw-a2-m1-cB_4xiw-a2-m1-cH 4xiw-a3-m1-cE_4xiw-a3-m1-cC 4xiw-a4-m1-cD_4xiw-a4-m1-cF 4xix-a1-m1-cA_4xix-a1-m1-cG 4xix-a2-m1-cB_4xix-a2-m1-cH 4xix-a3-m1-cE_4xix-a3-m1-cC 4xix-a4-m1-cD_4xix-a4-m1-cF AWNYGEVAGPPTWKGVCATGKRQSPINIPLNTSAPKVDAEMGEFDFAYGSFEKCDVLNTGHGTMQVNFPAGNLAFIGNMELELLQFHFHAPSEHAMDGRRYAMEAHLVHKNKSTGNLAVLGIMLEPGGLIKNPALSTALEVAPEVPLAKKPSPKGINPVMLLPKKSKAGTRPFVHYPGSLTTPPCSEGVDWFVFMQPIKVPDSQILDFMRFVGDNKTYATNTRPLQLLNSRLVEYEL AAWNYGEVAGPPTWKGVCATGKRQSPINIPLNTSAPKVDAEMGEFDFAYGSFEKCDVLNTGHGTMQVNFPAGNLAFIGNMELELLQFHFHAPSEHAMDGRRYAMEAHLVHKNKSTGNLAVLGIMLEPGGLIKNPALSTALEVAPEVPLAKKPSPKGINPVMLLPKKSKAGTRPFVHYPGSLTTPPCSEGVDWFVFMQPIKVPDSQILDFMRFVGDNKTYATNTRPLQLLNSRLVEYEL 4xjc-a2-m1-cB_4xjc-a2-m1-cD dCTP deaminase-dUTPase from Bacillus halodurans Q9KFV3 Q9KFV3 2.35 X-RAY DIFFRACTION 132 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 177 177 4xjc-a1-m1-cA_4xjc-a1-m1-cC 4xjc-a1-m1-cA_4xjc-a1-m1-cE 4xjc-a1-m1-cC_4xjc-a1-m1-cE 4xjc-a2-m1-cF_4xjc-a2-m1-cB 4xjc-a2-m1-cF_4xjc-a2-m1-cD MILSGKTISEKLTEKELEITPLTEEQIQPASVDLRLGPHFVTIDDSKEAVISFERPIRYREWTTSDETIVLPPHTFLLATTMETVKLPNHLTAFVEGRSSVGRLGLFIQNAGWVDPGFNGQITLELFNANRLPIELPIGRRICQLVFAEVTGEVAPYQGKYLFQKGATMSEIYKDAF MILSGKTISEKLTEKELEITPLTEEQIQPASVDLRLGPHFVTIDDSKEAVISFERPIRYREWTTSDETIVLPPHTFLLATTMETVKLPNHLTAFVEGRSSVGRLGLFIQNAGWVDPGFNGQITLELFNANRLPIELPIGRRICQLVFAEVTGEVAPYQGKYLFQKGATMSEIYKDAF 4xjx-a1-m1-cA_4xjx-a1-m1-cB STRUCTURE OF MUTANT (E165H) OF THE HSDR SUBUNIT OF THE ECOR124I RESTRICTION ENZYME IN COMPLEX WITH ATP P10486 P10486 2.4 X-RAY DIFFRACTION 52 0.993 562 (Escherichia coli) 562 (Escherichia coli) 861 863 NFIVLDKYIKAEPTGDSYQSESDLERELIQDLRNQGYEFISVKSQSAMLANVREQLQNLNGVVFNDSEWRRFTEQYLDNPSDGILDKTRKIHIDYICDFIFDDERLENIYLIDKKNLMRNKVQIIQQFNRYDVTILVNGLPLVQIHLKKRGVAIREAFNQIHRYSKESFNSENSLFKYLQLFVISNGTDTRYFANTTKRDKNSFDFTMNWAKSDNTLIKDLKDFTATCFQKHTLLNVLVNYSVFDSSQTLLVMRPYQIAATERILWKIKSSFTAKNWSKPESGGYIWHTTGSGKTLTSFKAARLATELDFIDKVFFVVDRKDLDYQTMKEYQRFSPDSVNGSENTAGLKRNLDKDDNKIIVTTIQKLNNLMKAESDLPVYNQQVVFIFDECHRSQFGEAQKNLKKKFKRYYQFGFTGTPIFPENALGSETTASVFGRELHSYVITDAIRDEKVLKFKVDYNDVRPQFKSLETETDEKKLSAAENQQAFLHPMRIQEITQYILNNFRQKTHRTFPGSKGFNAMLAVSSVDAAKAYYATFKRLQEEAANKSATYKPLRIATIFSFAANEEQNAIGEISDETFDTSAMDSSAKEFLDAAIREYNSHFKTNFSTDSNGFQNYYRDLAQRVKNQDIDLLIVVGMFLTGFDAPTLNTLFVDKNLRYHGLMQAFSRTNRIYDATKTFGNIVTFRDLERSTIDAITLFGDKNTKNVVLEKSYTEYMEGFTDAATGEAKRGFMTVVSELEQRFPDPTSIESEKEKKDFVKLFGEYLRAENILQNYDEFATLKALQQIDLSDPVAVEKFKAEHYVDDEKFAELQTIRLPADRKIQDYRSAYNDIRDWQTTDWDDVVFEVDLLKSQEINLDY NFIVLDKYIKAEPTGDSYQSESDLERELIQDLRNQGYEFISVKSQSAMLANVREQLQNLNGVVFNDSEWRRFTEQYLDNPSDGILDKTRKIHIDYICDFIFDDERLENIYLIDKKNLMRNKVQIIQQFENRYDVTILVNGLPLVQIHLKKRGVAIREAFNQIHFNSENSLFKYLQLFVISNGTDTRYFANTTKRDKNSFDFTMNWAKSDNTLIKDLKDFTATCFQKHTLLNVLVNYSVFDSSQTLLVMRPYQIAATERILWKIKSSFTAKNWSKPESGGYIWHTTGSGKTLTSFKAARLATELDFIDKVFFVVDRKDLDYQTMKEYQRFSPDSVNGSENTAGLKRNLDKDDNKIIVTTIQKLNNLMKAESDLPVYNQQVVFIFDECHRSQFGEAQKNLKKKFKRYYQFGFTGTPIFPENALGSETTASVFGRELHSYVITDAIRDEKVLKFKVDYNDVRPQFKSLETETDEKKLSAAENQQAFLHPMRIQEITQYILNNFRQKTHRTFPGSKGFNAMLAVSSVDAAKAYYATFKRLQEEAANKSATYKPLRIATIFSFAANEEQNAIGEISDETFDTSAMDSSAKEFLDAAIREYNSHFKTNFSTDSNGFQNYYRDLAQRVKNQDIDLLIVVGMFLTGFDAPTLNTLFVDKNLRYHGLMQAFSRTNRIYDATKTFGNIVTFRDLERSTIDAITLFGDKNTKNVVLEKSYTEYMEGFTDAATGEAKRGFMTVVSELEQRFPDPTSIESEKEKKDFVKLFGEYLRAENILQNYDEFATLKALQQIDLSDPVAVEKFKAEHYVDDEKFAELQTIRLPADRKIQDYRSAYNDIRDWQRRETTDWDDVVFEVDLLKSQEINLDYILGL 4xk1-a1-m1-cB_4xk1-a1-m1-cA Crystal Structure of a Phosphoserine/phosphohydroxythreonine Aminotransferase (PSAT) from Pseudomonas aeruginosa with cofactor Pyridoxal Phosphate and bound Glutamate Q9HZ66 Q9HZ66 2.15 X-RAY DIFFRACTION 176 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 346 354 FNFCAGPAALPDAVLQRAQAELLDWRGKGLSVMEMSHRSDDYVAIASKAEQDLRDLLDIPSDYKVLFLQGGASQQFAEIPLNLLPEDGVADYIDTGIWSKKAIEEARRYGTVNVAASAKEYDYFAIPGQNEWTLTKDAAYVHYASNETIGGLEFDWIPETGDVPLVTDMSSDILSRPLDVSRFGLIYAGAQNIGPSGLVVVIVREDLLGRARSVCPTMLNYKTAADNGSMYNTPATYSWYLSGLVFEWLKEQGGVTAMEQRNRAKKDLLYKTIDASDFYTNPIQPSARSWMNVPFRLADERLDKPFLEGAEARGLLNLKGHRSVGGMRASIYNALGLDAVEALVAY FNFCAGPAALPDAVLQRAQAELLDWRGKGLSVMEMSHRSDDYVAIASKAEQDLRDLLDIPSDYKVLFLQGGASQQFAEIPLNLLPEDGVADYIDTGIWSKKAIEEARRYGTVNVAASAKEYDYFAIPGQNEWTLTKDAAYVHYASNETIGGLEFDWIPETGDVPLVTDMSSDILSRPLDVSRFGLIYAGAQNIGPSGLVVVIVREDLLGRARSVCPTMLNYKTAADNGSMYNTPATYSWYLSGLVFEWLKEQGGVTAMEQRNRAKKDLLYKTIDASDFYTNPIQPSARSWMNVPFRLADERLDKPFLEGAEARGLLNLKGHRSVGGMRASIYNALGLDAVEALVAYMAEFEKEH 4xk4-a1-m1-cA_4xk4-a1-m1-cB E. coli transcriptional regulator RUTR with dihydrouracil P0ACU2 P0ACU2 2.27 X-RAY DIFFRACTION 145 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 196 196 3loc-a1-m1-cA_3loc-a1-m1-cB 3loc-a2-m1-cC_3loc-a2-m1-cD 4jyk-a1-m1-cB_4jyk-a1-m1-cA 4x1e-a1-m1-cB_4x1e-a1-m1-cA 4xk4-a2-m1-cD_4xk4-a2-m1-cC 6z1b-a1-m1-cA_6z1b-a1-m1-cB SAKKKAILSAALDTFSQFGFHGTRLEQIAELAGVSKTNLLYYFPSKEALYIAVLRQILDIWLAPLKAFREDFAPLAAIKEYIRLKLEVSRDYPQASRLFCMEMLAGAPLLMDELTGDLKALIDEKSALIAGWVKSGKLAPIDPQHLIFMIWASTQHYADFAPQVEAVTGATLRDEVFFNQTVENVQRIIIEGIRPR SAKKKAILSAALDTFSQFGFHGTRLEQIAELAGVSKTNLLYYFPSKEALYIAVLRQILDIWLAPLKAFREDFAPLAAIKEYIRLKLEVSRDYPQASRLFCMEMLAGAPLLMDELTGDLKALIDEKSALIAGWVKSGKLAPIDPQHLIFMIWASTQHYADFAPQVEAVTGATLRDEVFFNQTVENVQRIIIEGIRPR 4xkj-a1-m1-cA_4xkj-a1-m1-cB a Novel D-lactate Dehydrogenase from Sporolactobacillus sp A0A0M3KL04 A0A0M3KL04 3.148 X-RAY DIFFRACTION 160 1.0 1069536 (Sporolactobacillus inulinus CASD) 1069536 (Sporolactobacillus inulinus CASD) 332 332 MKIIMFSVRDDEEAAIREWEKKTGVQVDINRLELDAETAQLTKGYDGIVIQQRSHISNPAVYETLQKNGLRQLTSRTAGYDMIDLEQASERGLVVTNVPAYSPNSVAELALTQTMRLIRNLPLFDARGAEQDFRWAGLMAREIRSLTVGIIGAGRIGGTVARLFKALGATVIANDIVERVELKDIVTYVSKEELLQAADVVTLHVPLMDSTTQLIDADALALMKNDAVLINASRGPVVDTDALIAALQNKQIAGAALDTLNGEEHFFNQDLCGKELPSEQLKVLRTLPNVLITPHIGFYTNKAVQNMVEISLNDVLAILKTGTSEHQLNKVA MKIIMFSVRDDEEAAIREWEKKTGVQVDINRLELDAETAQLTKGYDGIVIQQRSHISNPAVYETLQKNGLRQLTSRTAGYDMIDLEQASERGLVVTNVPAYSPNSVAELALTQTMRLIRNLPLFDARGAEQDFRWAGLMAREIRSLTVGIIGAGRIGGTVARLFKALGATVIANDIVERVELKDIVTYVSKEELLQAADVVTLHVPLMDSTTQLIDADALALMKNDAVLINASRGPVVDTDALIAALQNKQIAGAALDTLNGEEHFFNQDLCGKELPSEQLKVLRTLPNVLITPHIGFYTNKAVQNMVEISLNDVLAILKTGTSEHQLNKVA 4xky-a1-m1-cB_4xky-a1-m1-cD Structure of dihydrodipicolinate synthase from the commensal bacterium Bacteroides thetaiotaomicron at 2.1 A resolution Q8A3Z0 Q8A3Z0 2.1 X-RAY DIFFRACTION 86 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 298 300 4xky-a1-m1-cA_4xky-a1-m1-cC MNIPLSGIIPPLVTPLLDDDVLDVEGLQRLIEHLIAGGVHALFVLGTTGESQSLSYKLRMEMIKNTCRIAKGRLPVLVCISDTSIVESVNLACLAADHGADAVVSAPPYYFATGQPELIEFYEHLLPQLPLPLFLYNMPTHTKVNFAPATIQRIAENPGVIGFKDSSANTVYFQSVMYAMKDNPDFSMLVGPEEIMAESVLLGAHGGVNGGANMFPELYVSLYNAAKNADMEEVRRLQEKVMQISATIYTVGQHGSSYLKGLKCALSLLGICSDYVAAPFHKFEQRERGKIWKALQNL MNIPLSGIIPPLVTPLLDDDVLDVEGLQRLIEHLIAGGVHALFVLGTTGESQSLSYKLRMEMIKNTCRIAKGRLPVLVCISDTSIVESVNLACLAADHGADAVVSAPPYYFATGQPELIEFYEHLLPQLPLPLFLYNMPTHTKVNFAPATIQRIAENPGVIGFKDSSANTVYFQSVMYAMKDNPDFSMLVGPEEIMAESVLLGAHGGVNGGANMFPELYVSLYNAAKNADMEEVRRLQEKVMQISATIYTVGQHGSSYLKGLKCALSLLGICSDYVAAPFHKFEQRERGKIWKALQNLGV 4xky-a1-m1-cC_4xky-a1-m1-cD Structure of dihydrodipicolinate synthase from the commensal bacterium Bacteroides thetaiotaomicron at 2.1 A resolution Q8A3Z0 Q8A3Z0 2.1 X-RAY DIFFRACTION 82 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 299 300 4xky-a1-m1-cA_4xky-a1-m1-cB MNIPLSGIIPPLVTPLLDDDVLDVEGLQRLIEHLIAGGVHALFVLGTTGESQSLSYKLRMEMIKNTCRIAKGRLPVLVCISDTSIVESVNLACLAADHGADAVVSAPPYYFATGQPELIEFYEHLLPQLPLPLFLYNMPTHTKVNFAPATIQRIAENPGVIGFKDSSANTVYFQSVMYAMKDNPDFSMLVGPEEIMAESVLLGAHGGVNGGANMFPELYVSLYNAAKNADMEEVRRLQEKVMQISATIYTVGQHGSSYLKGLKCALSLLGICSDYVAAPFHKFEQRERGKIWKALQNLG MNIPLSGIIPPLVTPLLDDDVLDVEGLQRLIEHLIAGGVHALFVLGTTGESQSLSYKLRMEMIKNTCRIAKGRLPVLVCISDTSIVESVNLACLAADHGADAVVSAPPYYFATGQPELIEFYEHLLPQLPLPLFLYNMPTHTKVNFAPATIQRIAENPGVIGFKDSSANTVYFQSVMYAMKDNPDFSMLVGPEEIMAESVLLGAHGGVNGGANMFPELYVSLYNAAKNADMEEVRRLQEKVMQISATIYTVGQHGSSYLKGLKCALSLLGICSDYVAAPFHKFEQRERGKIWKALQNLGV 4xl1-a3-m1-cB_4xl1-a3-m1-cE Complex of Notch1 (EGF11-13) bound to Delta-like 4 (N-EGF1) D3ZHH1 D3ZHH1 2.3 X-RAY DIFFRACTION 84 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 221 223 SSSIFQLRLQEFANERGMLANGRPCEPGCRTFFRICLHYQATFSEGPCTFGNVSTPVLGTNSFVIRDKNSGRNPLQLPLNFTWPGTFSLNIQAWHTPGDDLRPETSPGNSLISQIIIQGSLAVGNWKSDEQNNTLTRLRYSYRVVCSDNYYGDSCSRLCRDDHFGHYECQPDGSPSCLPGWTGYCDQPICLSGCHEQNGYCSPDECNCRPGWQGPLCNEAA GSSSIFQLRLQEFANERGMLANGRPCEPGCRTFFRICLHYQATFSEGPCTFGNVSTPVLGTNSFVIRDKNSGSGRNPLQLPLNFTWPGTFSLNIQAWHTPGDDLRPETSPGNSLISQIIIQGSLAVGNWKSDEQNNTLTRLRYSYRVVCSDNYYGDSCSRLCRDDHFGHYECQPDGSPSCLPGWTGYCDQPICLSGCHEQNGYCSPDECNCRPGWQGPLCNEA 4xl8-a1-m1-cB_4xl8-a1-m1-cA Crystal Structure of Human Adenovirus 52 Short Fiber Knob in Complex with 2-O-Methyl-5-N-Acetylneuraminic Acid A0MK70 A0MK70 1.65 X-RAY DIFFRACTION 79 1.0 332179 (Human adenovirus 52) 332179 (Human adenovirus 52) 161 171 4xl8-a1-m1-cB_4xl8-a1-m1-cC 6g47-a1-m1-cB_6g47-a1-m1-cA IQTLWTPPTSNPNCTVYTESDSLLSLCLTKCGAHVLGSVSLTGVAGTMTNMAETSLAIEFTFDDTGKLLHSPLVNNTFSIRQYNALAFMPNSTLYARGGSGEPRNNYYVQTYLRGNVQRPITLTVTFNSAATGYSLSFKWTAVVREKFAAPATSFCYITEQ GIQTLWTPPTSNPNCTVYTESDSLLSLCLTKCGAHVLGSVSLTGVAGTMTNMAETSLAIEFTFDDTGKLLHSPLVNNTFSIRQGDSPASNPTYNALAFMPNSTLYARGGSGEPRNNYYVQTYLRGNVQRPITLTVTFNSAATGYSLSFKWTAVVREKFAAPATSFCYITEQ 4xll-a1-m1-cA_4xll-a1-m1-cB Toxoplasma gondii DJ-1, oxidized B9PZH8 B9PZH8 2.08 X-RAY DIFFRACTION 95 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 183 183 AVKVLVPVAHDSEEIEAVSIIDTLRRAGAEVVVASVEDTEIVRMSRGVCVKADKLISAVENETYDCIAIPGGMPGAERCRDSAALTAMLKTHKAQGKLIAAIASPAVVLQTHGLLQGEKAVAYPCFMDQFPADMRGEGRVCVSNKIVTSVGPSSAIEFALKLIEVLYNKEQAKKIAAQLLYAY AVKVLVPVAHDSEEIEAVSIIDTLRRAGAEVVVASVEDTEIVRMSRGVCVKADKLISAVENETYDCIAIPGGMPGAERCRDSAALTAMLKTHKAQGKLIAAIASPAVVLQTHGLLQGEKAVAYPCFMDQFPADMRGEGRVCVSNKIVTSVGPSSAIEFALKLIEVLYNKEQAKKIAAQLLYAY 4xln-a2-m1-cG_4xln-a2-m1-cH Crystal structure of T. aquaticus transcription initiation complex containing bubble promoter and RNA Q9KWU8 Q9KWU8 4 X-RAY DIFFRACTION 110 1.0 271 (Thermus aquaticus) 271 (Thermus aquaticus) 227 227 1hqm-a1-m1-cA_1hqm-a1-m1-cB 1i6v-a1-m1-cA_1i6v-a1-m1-cB 1l9u-a1-m1-cB_1l9u-a1-m1-cA 1l9u-a2-m1-cK_1l9u-a2-m1-cJ 1l9z-a1-m1-cB_1l9z-a1-m1-cA 1ynj-a1-m1-cB_1ynj-a1-m1-cA 1ynn-a1-m1-cB_1ynn-a1-m1-cA 2gho-a1-m1-cB_2gho-a1-m1-cA 4xln-a1-m1-cA_4xln-a1-m1-cB 4xlp-a1-m1-cA_4xlp-a1-m1-cB 4xlp-a2-m1-cG_4xlp-a2-m1-cH 4xlq-a1-m1-cA_4xlq-a1-m1-cB 4xlq-a2-m1-cG_4xlq-a2-m1-cH 4xlr-a1-m1-cA_4xlr-a1-m1-cB 4xlr-a2-m1-cG_4xlr-a2-m1-cH 4xls-a1-m1-cA_4xls-a1-m1-cB 4xls-a2-m1-cG_4xls-a2-m1-cH 4xls-a3-m1-cA_4xls-a3-m1-cB 4xls-a4-m1-cG_4xls-a4-m1-cH 5tjg-a1-m1-cA_5tjg-a1-m1-cB KAPVFTATTQGDHYGEFVLEPLERGFGVTLGNPLRRILLSSIPGTAVTSVYIEDVLHEFSTIPGVKEDVVEIILNLKELVVRFLDPKMASTTLILRAEGPKEVRAGDFTPSADVEIMNPDLHIATLEEGGKLYMEVRVDRGVGYVPAERHGIKDRINAIPVDAIFSPVRRVAFQVEDTRLGQRTDLDKLTLRIWTDGSVTPLEALNQAVAILKEHLNYFANPEASLL KAPVFTATTQGDHYGEFVLEPLERGFGVTLGNPLRRILLSSIPGTAVTSVYIEDVLHEFSTIPGVKEDVVEIILNLKELVVRFLDPKMASTTLILRAEGPKEVRAGDFTPSADVEIMNPDLHIATLEEGGKLYMEVRVDRGVGYVPAERHGIKDRINAIPVDAIFSPVRRVAFQVEDTRLGQRTDLDKLTLRIWTDGSVTPLEALNQAVAILKEHLNYFANPEASLL 4xlo-a2-m1-cB_4xlo-a2-m1-cD Crystal Structure of EncM (crystallized with 4 mM NADPH) Q9KHK2 Q9KHK2 1.67 X-RAY DIFFRACTION 148 1.0 115828 (Streptomyces maritimus) 115828 (Streptomyces maritimus) 461 461 3w8w-a1-m1-cA_3w8w-a1-m1-cB 3w8x-a1-m1-cA_3w8x-a1-m1-cB 3w8z-a1-m1-cA_3w8z-a1-m1-cB 4xlo-a1-m1-cA_4xlo-a1-m1-cC 6fow-a1-m1-cA_6fow-a1-m1-cB 6fow-a2-m1-cC_6fow-a2-m1-cD 6fp3-a1-m1-cA_6fp3-a1-m1-cB 6fp3-a2-m1-cC_6fp3-a2-m1-cD 6fya-a1-m1-cA_6fya-a1-m1-cB 6fyb-a1-m1-cA_6fyb-a1-m1-cB 6fyb-a2-m1-cC_6fyb-a2-m1-cD 6fyc-a1-m1-cA_6fyc-a1-m2-cB 6fyd-a1-m1-cA_6fyd-a1-m1-cD 6fyd-a2-m1-cB_6fyd-a2-m1-cC 6fye-a1-m1-cA_6fye-a1-m2-cB QFPQLDPATLAAFSAAFRGELIWPSDADYDEARRIWNGTIDRRPALIARCTSTPDVVAAVSFARKSGLLVAVRGGGHSMAGHSVCDGGIVIDLSLMNSIKVSRRLRRARAQGGCLLGAFDTATQAHMLATPAGVVSHTGLGGLVLGGGFGWLSRKYGLSIDNLTSVEIVTADGGVLTASDTENPDLFWAVRGGGGNFGVVTAFEFDLHRVGPVRFASTYYSLDEGPQVIRAWRDHMATAPDELTWALYLRLAPPLPELPADMHGKPVICAMSCWIGDPHEGERQLESILHAGKPHGLTKATLPYRALQAYSFPGAVVPDRIYTKSGYLNELSDEATDTVLEHAADIASPFTQLELLYLGGAVARVPDDATAYPNRQSPFVTNLAAAWMDPTEDARHTAWAREGYRALAGHLSGGYVNFMNPGEADRTREAYGAAKFERLQGVKAKYDPTNLFRLNQNIPPS QFPQLDPATLAAFSAAFRGELIWPSDADYDEARRIWNGTIDRRPALIARCTSTPDVVAAVSFARKSGLLVAVRGGGHSMAGHSVCDGGIVIDLSLMNSIKVSRRLRRARAQGGCLLGAFDTATQAHMLATPAGVVSHTGLGGLVLGGGFGWLSRKYGLSIDNLTSVEIVTADGGVLTASDTENPDLFWAVRGGGGNFGVVTAFEFDLHRVGPVRFASTYYSLDEGPQVIRAWRDHMATAPDELTWALYLRLAPPLPELPADMHGKPVICAMSCWIGDPHEGERQLESILHAGKPHGLTKATLPYRALQAYSFPGAVVPDRIYTKSGYLNELSDEATDTVLEHAADIASPFTQLELLYLGGAVARVPDDATAYPNRQSPFVTNLAAAWMDPTEDARHTAWAREGYRALAGHLSGGYVNFMNPGEADRTREAYGAAKFERLQGVKAKYDPTNLFRLNQNIPPS 4xlt-a1-m2-cA_4xlt-a1-m3-cA Crystal structure of response regulator receiver protein from Dyadobacter fermentans DSM 18053 C6VVW9 C6VVW9 2.3 X-RAY DIFFRACTION 28 1.0 471854 (Dyadobacter fermentans DSM 18053) 471854 (Dyadobacter fermentans DSM 18053) 124 124 4xlt-a1-m1-cA_4xlt-a1-m2-cA 4xlt-a1-m1-cA_4xlt-a1-m3-cA ADFIIVDDSVFDLFTQEKLLLKSGLTTSVRTFNSAQAAIDHLRSQGADIPDTVILLDLQINGFEFTEHYGLPEAVRARIRLFISSTVDISDIEQAEANPHIIQLLPKPLEIPLLRELLKRWFPS ADFIIVDDSVFDLFTQEKLLLKSGLTTSVRTFNSAQAAIDHLRSQGADIPDTVILLDLQINGFEFTEHYGLPEAVRARIRLFISSTVDISDIEQAEANPHIIQLLPKPLEIPLLRELLKRWFPS 4xm5-a1-m1-cA_4xm5-a1-m2-cA C. glabrata Slx1. Q6FML9 Q6FML9 2.34 X-RAY DIFFRACTION 102 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 267 267 EEFQQIPDFYGCYLLQSISKRQSFYIGSTPNPVRRLRQHNGSLSRRDGTRPWEMVAIVYGFPSRIAALQFQHAWQHGYQTRYVKTRKGGRSIHHKLAMITSLLKNEYFRYMDLTLHFFNQKVEEIWKNDKFNVSQNNYTVSLSQDALTEINNDTIDDIMDVNEKNMELVQNLYSTTLAEKTKTLLLYKEKIDTGINTCQFCNKIINLFAFCRDTSCTFVSHLACAYRYFMSNEDTIIPQSPKCPKCYTLLKWCDVIYYSIKLNKDNT EEFQQIPDFYGCYLLQSISKRQSFYIGSTPNPVRRLRQHNGSLSRRDGTRPWEMVAIVYGFPSRIAALQFQHAWQHGYQTRYVKTRKGGRSIHHKLAMITSLLKNEYFRYMDLTLHFFNQKVEEIWKNDKFNVSQNNYTVSLSQDALTEINNDTIDDIMDVNEKNMELVQNLYSTTLAEKTKTLLLYKEKIDTGINTCQFCNKIINLFAFCRDTSCTFVSHLACAYRYFMSNEDTIIPQSPKCPKCYTLLKWCDVIYYSIKLNKDNT 4xmr-a1-m1-cA_4xmr-a1-m1-cB Crystal structure of the sensory domain of the Campylobacter jejuni chemoreceptor Tlp3 (CcmL) with isoleucine bound. Q0P864 Q0P864 1.3 X-RAY DIFFRACTION 72 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 245 252 4xmq-a1-m1-cA_4xmq-a1-m1-cB 6w3o-a3-m1-cA_6w3o-a3-m1-cB 6w3p-a3-m1-cA_6w3p-a3-m1-cB 6w3r-a3-m1-cA_6w3r-a3-m1-cB 6w3s-a3-m1-cA_6w3s-a3-m1-cB 6w3t-a3-m1-cA_6w3t-a3-m1-cB 6w3v-a3-m1-cA_6w3v-a3-m1-cB 6w3x-a3-m1-cA_6w3x-a3-m1-cB 6w3y-a3-m1-cA_6w3y-a3-m1-cB GIDPFTKTSLYESTLKNQTDLLKVTQSTVEDFRSTNQSFTRALEKDIANLPYQSLITEENIINNVGPILKYYRHSINALNVYLGLNNGKVLLSQKSMPELRDDLDIKTKDWYQEALKTNDIFVTPAYLDTVLKQYVITYSKAIYKDGKIIGVLGVDIPSEDLQNLVAKTPGNTFLFDQKNKIFAATNKELLNPSIDHSPVLNAYKLNGDNNFFSYKLNNEERLGACTKVFAYTACITESADIINK GIDPFTKTSLYESTLKNQTDLLKVTQSTVEDFRSTNQSFTRALEKDIANLPYQSLITEENIINNVGPILKYYRHSINALNVYLGLNNGKVLLSQKSAKMPELRDDLDIKTKDWYQEALKTNDIFVTPAYLDTVLKQYVITYSKAIYKDGKIIGVLGVDIPSEDLQNLVAKTPGNTFLFDQKNKIFAATNKELLNPSIDHSPVLNAYKLNGDNNFFSYKLNNEERLGACTKVFAYTACITESADIINKPIYKA 4xng-a1-m1-cA_4xng-a1-m1-cD Central Domain of Mycoplasma Genitalium Terminal Organelle protein MG491 Q9ZB78 Q9ZB78 3 X-RAY DIFFRACTION 54 1.0 2097 (Mycoplasmoides genitalium) 2097 (Mycoplasmoides genitalium) 139 143 4xng-a1-m1-cB_4xng-a1-m1-cC FHNFSKETLQKQAKRGFLLLERCSLVGLQQLELEYVNLLGRSFDSYQQKTELLNNLKELVDEHFSDTEKIINTLEKIFDVIGGSEYTPVLNSFFNKLLSDPDPQREIGLRQFIITLRQRFKKLSQKIDSSLKQIETEAK ASSFHNFSKETLQKQAKRGFLLLERCSLVGLQQLELEYVNLLGRSFDSYQQKTELLNNLKELVDEHFSDTEKIINTLEKIFDVIGGSEYTPVLNSFFNKLLSDPDPQREIGLRQFIITLRQRFKKLSQKIDSSLKQIETEAKA 4xng-a1-m1-cC_4xng-a1-m1-cA Central Domain of Mycoplasma Genitalium Terminal Organelle protein MG491 Q9ZB78 Q9ZB78 3 X-RAY DIFFRACTION 22 1.0 2097 (Mycoplasmoides genitalium) 2097 (Mycoplasmoides genitalium) 137 139 HNFSKETLQKQAKRGFLLLERCSLVGLQQLELEYVNLLGRSFDSYQQKTELLNNLKELVDEHFSDTEKIINTLEKIFDVIGGSEYTPVLNSFFNKLLSDPDPQREIGLRQFIITLRQRFKKLSQKIDSSLKQIETEA FHNFSKETLQKQAKRGFLLLERCSLVGLQQLELEYVNLLGRSFDSYQQKTELLNNLKELVDEHFSDTEKIINTLEKIFDVIGGSEYTPVLNSFFNKLLSDPDPQREIGLRQFIITLRQRFKKLSQKIDSSLKQIETEAK 4xng-a1-m1-cC_4xng-a1-m1-cD Central Domain of Mycoplasma Genitalium Terminal Organelle protein MG491 Q9ZB78 Q9ZB78 3 X-RAY DIFFRACTION 13 1.0 2097 (Mycoplasmoides genitalium) 2097 (Mycoplasmoides genitalium) 137 143 4xng-a1-m1-cB_4xng-a1-m1-cA HNFSKETLQKQAKRGFLLLERCSLVGLQQLELEYVNLLGRSFDSYQQKTELLNNLKELVDEHFSDTEKIINTLEKIFDVIGGSEYTPVLNSFFNKLLSDPDPQREIGLRQFIITLRQRFKKLSQKIDSSLKQIETEA ASSFHNFSKETLQKQAKRGFLLLERCSLVGLQQLELEYVNLLGRSFDSYQQKTELLNNLKELVDEHFSDTEKIINTLEKIFDVIGGSEYTPVLNSFFNKLLSDPDPQREIGLRQFIITLRQRFKKLSQKIDSSLKQIETEAKA 4xnq-a1-m1-cC_4xnq-a1-m1-cD Antibody hemagglutinin Complexes Q6DQ33 Q6DQ33 2.001 X-RAY DIFFRACTION 34 0.995 11320 (Influenza A virus) 11320 (Influenza A virus) 197 202 4xnm-a1-m1-cC_4xnm-a1-m1-cD KPLILRDCSVAGWLLGNPMCPEWSYIVEKANPVNDLCYPGDFNDYEELKHLLSRINHFEKIQIIPKSSWSSHEASLGVSSACPYQGKSSFFRNVVWLIKKDSTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTKLYQNPTTYISVGTSTLNQRLVPRIASGRMEFFWTILKPNDAINFESNGNFIAPEYAYKIVK KPLILRDCSVAGWLLGNPMCDEFINVPEWSYIVEKANPVNDLCYPGDFNDYEELKHLLSRINHFEKIQIIPKSSWSSHEASLGVSSACPYQGKSSFFRNVVWLIKKDSTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTKLYQNPTTYISVGTSTLNQRLVPRISGRMEFFWTILKPNDAINFESNGNFIAPEYAYKIVK 4xo1-a1-m1-cA_4xo1-a1-m2-cA crystal structure of Se-Met GnsA with double mutations P0AC92 P0AC92 1.802 X-RAY DIFFRACTION 84 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 55 55 NIEELKKQAETEIADFIAQKIAENKNTGKEVSERFTAREKTGLESYDVKIKILEH NIEELKKQAETEIADFIAQKIAENKNTGKEVSERFTAREKTGLESYDVKIKILEH 4xo2-a1-m1-cB_4xo2-a1-m1-cA crystal structure of GnsA from E.coli P0AC92 P0AC92 1.952 X-RAY DIFFRACTION 103 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 59 60 NIEELKKQAETEIADFIAQKIAELNKNTGKEVSEIRFTAREKMTGLESYDVKIKIMLEH MNIEELKKQAETEIADFIAQKIAELNKNTGKEVSEIRFTAREKMTGLESYDVKIKIMLEH 4xo6-a1-m1-cA_4xo6-a1-m1-cB Crystal structure of human 3-alpha hydroxysteroid dehydrogenase type 3 in complex with NADP+, 5alpha-androstan-3,17-dione and (3beta, 5alpha)-3-hydroxyandrostan-17-one P52895 P52895 1.2 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 325 325 1xjb-a1-m1-cB_1xjb-a1-m1-cA 2ipj-a1-m1-cA_2ipj-a1-m1-cB 4xo7-a1-m1-cA_4xo7-a1-m1-cB SVDDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEAVKLAIEAGFHHIDSAHVYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKDENGKILFDTVDLCATWEAMEKCKDAGLAKSIGVSNFNHRLLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSHREEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDIFAGPPNYPFSDEY SVDDSKYQCVKLNDGHFMPVLGFGTYAPAEVPKSKALEAVKLAIEAGFHHIDSAHVYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSNSHRPELVRPALERSLKNLQLDYVDLYLIHFPVSVKPGEEVIPKDENGKILFDTVDLCATWEAMEKCKDAGLAKSIGVSNFNHRLLEMILNKPGLKYKPVCNQVECHPYFNQRKLLDFCKSKDIVLVAYSALGSHREEPWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTSEEMKAIDGLNRNVRYLTLDIFAGPPNYPFSDEY 4xoh-a1-m1-cC_4xoh-a1-m2-cC Mechanistic insights into anchorage of the contractile ring from yeast to humans P78953 P78953 2.801 X-RAY DIFFRACTION 64 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 268 268 GHMAPLPLGRFYIHLNSILNISISEVHSPIKIIVNTPTQNMQLPWQAVNGNNRLDHDFAFHVDDNFKVSFMFLDIPIEIKKVSGTATLNLGNVKDSCFGKAFNVEIPIISRGFRTLGNLTLTCLYIPELSVPEQELPFTLEQATMDLRHVRSNYLYNEGYLYRLIRRRFVVLRSKQLNFYAEKGGQYLDTFQLSKTVVSIPMVNFSEAVSNLGLVAGILATSVDRRHVQLFADSKKVCQKWLQVMNSRSFALDRGTEKLWLQEYVNFM GHMAPLPLGRFYIHLNSILNISISEVHSPIKIIVNTPTQNMQLPWQAVNGNNRLDHDFAFHVDDNFKVSFMFLDIPIEIKKVSGTATLNLGNVKDSCFGKAFNVEIPIISRGFRTLGNLTLTCLYIPELSVPEQELPFTLEQATMDLRHVRSNYLYNEGYLYRLIRRRFVVLRSKQLNFYAEKGGQYLDTFQLSKTVVSIPMVNFSEAVSNLGLVAGILATSVDRRHVQLFADSKKVCQKWLQVMNSRSFALDRGTEKLWLQEYVNFM 4xoh-a2-m1-cA_4xoh-a2-m1-cB Mechanistic insights into anchorage of the contractile ring from yeast to humans P78953 P78953 2.801 X-RAY DIFFRACTION 65 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 266 268 PLPLGRFYIHLNSILNISISEVHSPIKIIVNTPTQNMQLPWQAVNGNNRLDHDFAFHVDDNFKVSFMFLDIPIEDIKKVSGTATLNLGNVKDSCFGKAFNVEIPIISRTLGNLTLTCLYIPELSVPEQELPFTLEQATMDLRHVRSNYLYNEGYLYRLEDSSIRRRFVVLRSKQLNFYAEKGGQYLDTFQLSKTVVSIPMVNFSEAVSNLGLVAGILATSVDRRHVQLFADSKKVCQKWLQVMNSRSFALDRGTEKLWLQEYVNFM PLPLGRFYIHLNSILNISISEVHSPIKIIVNTPTQNMQLPWQAVNGNNRLDHDFAFHVDDNFKVSFMFLDIPIEDVIKKVSGTATLNLGNVKDSCFGKAFNVEIPIISRRTLGNLTLTCLYIPELSVPEQELPFTLEQATMDLRHVRSNYLYNEGYLYRLEDSSIRRRFVVLRSKQLNFYAEKGGQYLDTFQLSKTVVSIPMVNFSEAVSNLGLVAGILATSVDRRHVQLFADSKKVCQKWLQVMNSRSFALDRGTEKLWLQEYVNFM 4xom-a1-m1-cB_4xom-a1-m1-cA Coenzyme F420:L-glutamate ligase (FbiB) from Mycobacterium tuberculosis (C-terminal domain). P9WP79 P9WP79 1.9 X-RAY DIFFRACTION 240 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 205 206 4xom-a2-m1-cD_4xom-a2-m1-cC 4xoo-a1-m1-cA_4xoo-a1-m1-cB 4xoo-a2-m1-cD_4xoo-a2-m1-cC 4xoq-a1-m1-cA_4xoq-a1-m1-cB 4xoq-a2-m1-cC_4xoq-a2-m1-cD MTAEALELGRQQAQLLRRSVRRFSTDPVPGDLVEAAVAEALTAPAPHHTRPTRFVWLQTPAIRARLLDRMKDKWRSDLTSDGLPADAIERRVARGQILYDAPEVVIPMLVPDGAHSYPDAARTDAEHTMFTVAVGAAVQALLVALAVRGLGSCWIGSTIFAADLVRDELDLPVDWEPLGAIAIGYADEPSGLRDPVPAADLLILK AMTAEALELGRQQAQLLRRSVRRFSTDPVPGDLVEAAVAEALTAPAPHHTRPTRFVWLQTPAIRARLLDRMKDKWRSDLTSDGLPADAIERRVARGQILYDAPEVVIPMLVPDGAHSYPDAARTDAEHTMFTVAVGAAVQALLVALAVRGLGSCWIGSTIFAADLVRDELDLPVDWEPLGAIAIGYADEPSGLRDPVPAADLLILK 4xox-a1-m1-cA_4xox-a1-m1-cB Structure of beta-ketoacyl-ACP synthase I (FabB) from Vibrio Cholerae Q7WUU8 Q7WUU8 2.01 X-RAY DIFFRACTION 291 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 404 404 MKRVVITGMGIISSIGNNVEEVLASLKAGKSGITASEQFKEHGLRSQVWGDLKINPEEHIDRKQMRFMGDAAAYAYLSLEQAIADAGLTPEQVSNDRTGIVAGSGGASSENQVIAVDTQREKGVKRVGPYMVPRTMSSTVSACLATPFKIRGVNYSISSACATSAHCIGNAVELIQLGKQDIVFAGGGEELYWSQTMMFDAMGALSTKYNETPEKASRTYDADRDGFVISGGGGMVVVEELEHALARGAKIYGEIVGYGATSDGYDMVAPSGEGAIRCMKMAMQGVDKIDYINTHGTSTPVGDVKELGAIQEVFGGNSPAISATKAMTGHALGAAGVHEAIYSTLMLHHGFIAPSINIDTLDEAAQGLDIVTELREQELTTVMSNSFGFGGTNATLVIKKYQGL MKRVVITGMGIISSIGNNVEEVLASLKAGKSGITASEQFKEHGLRSQVWGDLKINPEEHIDRKQMRFMGDAAAYAYLSLEQAIADAGLTPEQVSNDRTGIVAGSGGASSENQVIAVDTQREKGVKRVGPYMVPRTMSSTVSACLATPFKIRGVNYSISSACATSAHCIGNAVELIQLGKQDIVFAGGGEELYWSQTMMFDAMGALSTKYNETPEKASRTYDADRDGFVISGGGGMVVVEELEHALARGAKIYGEIVGYGATSDGYDMVAPSGEGAIRCMKMAMQGVDKIDYINTHGTSTPVGDVKELGAIQEVFGGNSPAISATKAMTGHALGAAGVHEAIYSTLMLHHGFIAPSINIDTLDEAAQGLDIVTELREQELTTVMSNSFGFGGTNATLVIKKYQGL 4xpq-a1-m1-cA_4xpq-a1-m2-cA Crystal structure of Pedobacter saltans GH31 alpha-galactosidase complexed with L-fucose A0A0F7R6D6 A0A0F7R6D6 1.85 X-RAY DIFFRACTION 161 1.0 151895 (Pseudopedobacter saltans) 151895 (Pseudopedobacter saltans) 670 670 4xpo-a1-m1-cA_4xpo-a1-m2-cA 4xpp-a1-m1-cA_4xpp-a1-m2-cA 4xpr-a1-m1-cA_4xpr-a1-m2-cA 4xps-a1-m1-cA_4xps-a1-m2-cA SHAQTANWTEIYPGVWKATVGKPESYDLLKAAGAQPNKDALSKTEKVSFPFANGGVSLEVSGGKTYLRFPLQKEEQLYGFGLNFQTVHQRGKILELHVDHYGGKDSGRTHAPTPFYVSSNGYGVFINSARYIKVWAGTGVRKDSENFPTPKDRNTDKTWSSRPYSDAVEILVPAEGVEVYVFGGPKPIDAVKRYNLLNGGGYLPPRWGLGFTQRVMTRYTDKDVEKEVNDFKEKGYPLDFVGLEPGWQSKAYPGTFSWDKSRYPDPTSFVKKMKDQGIRLNLWINPYISPDAPFYKEIKPYTGSHTVWLGLVPDFTMAEARKPFFNQLLKDQIERGVSGYKIDEVDGYDYYLWPDAAKFPSGLSAEQMRQTYGLLVQRYSAELYKQRNERTFGLVRASNGGGTSFPYVIYNDYYNHQDFITALINSGFAGVLWTPEVRASKSGEEWLRRFQSNVFSPMAMINAWASGTKPWSYPEVEADVKKFALLRMQMMPYWYSAFARYHFEGMPPFRGMGLSKEIKDQYMAGDDLLVAPMFAGEKSRKVVLPKGKWYDFYTGEYAGDGEVLDVTPGLDKIPVYVRDGGIVPMMPALLNSPKSNQKVDLEIRYYGNKPGEFKLYDDDGETFNYEKGDFSWRTIRVEKDKSGKVKGSISAAVKGKVNTVGKVTFTAMTK SHAQTANWTEIYPGVWKATVGKPESYDLLKAAGAQPNKDALSKTEKVSFPFANGGVSLEVSGGKTYLRFPLQKEEQLYGFGLNFQTVHQRGKILELHVDHYGGKDSGRTHAPTPFYVSSNGYGVFINSARYIKVWAGTGVRKDSENFPTPKDRNTDKTWSSRPYSDAVEILVPAEGVEVYVFGGPKPIDAVKRYNLLNGGGYLPPRWGLGFTQRVMTRYTDKDVEKEVNDFKEKGYPLDFVGLEPGWQSKAYPGTFSWDKSRYPDPTSFVKKMKDQGIRLNLWINPYISPDAPFYKEIKPYTGSHTVWLGLVPDFTMAEARKPFFNQLLKDQIERGVSGYKIDEVDGYDYYLWPDAAKFPSGLSAEQMRQTYGLLVQRYSAELYKQRNERTFGLVRASNGGGTSFPYVIYNDYYNHQDFITALINSGFAGVLWTPEVRASKSGEEWLRRFQSNVFSPMAMINAWASGTKPWSYPEVEADVKKFALLRMQMMPYWYSAFARYHFEGMPPFRGMGLSKEIKDQYMAGDDLLVAPMFAGEKSRKVVLPKGKWYDFYTGEYAGDGEVLDVTPGLDKIPVYVRDGGIVPMMPALLNSPKSNQKVDLEIRYYGNKPGEFKLYDDDGETFNYEKGDFSWRTIRVEKDKSGKVKGSISAAVKGKVNTVGKVTFTAMTK 4xq3-a1-m1-cB_4xq3-a1-m1-cC Crystal structure of Sso-SmAP2 D0KRQ0 D0KRQ0 2.6 X-RAY DIFFRACTION 62 1.0 555311 (Saccharolobus solfataricus 98/2) 555311 (Saccharolobus solfataricus 98/2) 77 77 4xq3-a1-m1-cA_4xq3-a1-m1-cG 4xq3-a1-m1-cB_4xq3-a1-m1-cA 4xq3-a1-m1-cC_4xq3-a1-m1-cD 4xq3-a1-m1-cE_4xq3-a1-m1-cD 4xq3-a1-m1-cE_4xq3-a1-m1-cF 4xq3-a1-m1-cG_4xq3-a1-m1-cF ENPLKSLRTAINRIVLVKLKDGSEYIGKLEQTDGTMNLVLRDCTEIREGTSEPVAKYGRVLIRGSNILFISVDYETV ENPLKSLRTAINRIVLVKLKDGSEYIGKLEQTDGTMNLVLRDCTEIREGTSEPVAKYGRVLIRGSNILFISVDYETV 4xq6-a1-m1-cA_4xq6-a1-m1-cB CRYSTAL STRUCTURE OF DIHYDROOROTATE DEHYDROGENSE from MYCOBACTERIUM TUBERCULOSIS P9WHL1 P9WHL1 2 X-RAY DIFFRACTION 39 0.997 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 317 320 VAPVRRLLRRLLGPTDPVLASTVFGVRFPAPLGLAAGFDKDGTALSSWGAMGFGYAEIGTVTAHPQPLFRLADDRALLNRMGFNNHGARALAIRLARHRPEIPIGVNIGKTKKTPAGDAVNDYRASARMVGPLASYLVVNVSSPNTPGLRDLQAVESLRPILSAVRAETSTPVLVKIAPDLSDSDLDDIADLAVELDLAGIVATNTTVSRDGLTTPGVDRLGPGGISGPPLAQRAVQVLRRLYDRVGDRLALISVGGIETADDAWERITAGASLLQGYTGFIYGGERWAKDIHEGIARRLHDGGFGSLHEAVGSARR GSHMVAPVRRLLRRLLGPTDPVLASTVFGVRFPAPLGLAAGFDKDGTALSSWGAMGFGYAEIGTVTAHPQPLFRLADDRALLNRMGFNNHGARALAIRLARHRPEIPIGVNIGKTKKTPAGDAVNDYRASARMVGPLASYLVVNVSSPNTPGLRDLQAVESLRPILSAVRAETSTPVLVKIAPDLSDSDLDDIADLAVELDLAGIVATNTTVSRDGLTTPGVDRLGPGGISGPPLAQRAVQVLRRLYDRVGDRLALISVGGIETADDAWERITAGASLLQGYTGFIYGGERWAKDIHEGIARRLHDGGFGSLHEAVGSAR 4xqq-a2-m1-cB_4xqq-a2-m1-cC Crystal structure of AgrA LytTR domain in complex with promoters Q5HEG2 Q5HEG2 3.05 X-RAY DIFFRACTION 17 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 98 99 4xqq-a1-m2-cA_4xqq-a1-m3-cD ETIELKRGSNSVYVQYDDIMFFESSTKSHRLIAHLDNRQIEFYGNLKELSQLDDRFFRCHNSFVVNRHNIESIDSKERIVYFKNKEHCYASVRNVKKI VETIELKRGSNSVYVQYDDIMFFESSTKSHRLIAHLDNRQIEFYGNLKELSQLDDRFFRCHNSFVVNRHNIESIDSKERIVYFKNKEHCYASVRNVKKI 4xr7-a3-m1-cE_4xr7-a3-m1-cF Structure of the Saccharomyces cerevisiae PAN2-PAN3 core complex P36102 P36102 3.796 X-RAY DIFFRACTION 211 0.988 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 414 442 4xr7-a2-m1-cK_4xr7-a2-m1-cL SADQLFIPNNIREDLTKKNLSILQVFPSSGKVIPSIVQDYFNLVPLNTTLFKVFSNYDGKAYVLKRLPNIDKSMNPNKISKIYQIWSKINCTNLIKFRDIFQTTKFGDLSICLVFDYYPNSLSLYDYHFVNFPKFPITNNYLWIYLVQLTNVINSIHSQNLSIGNTLNWRKVLITGDPGRIKLSHCNFMDLLFNDDTDTVVTIEGQQQLDYKYLGELLFNLSINIENSNNNTAPKEYRLEEITPQSIDDMRQIDDKFKDVLKYLISDNGDSKKSIHDLTSHFYDKMFMVLESSQTYTEYMESVLSRELENGRLFRLVNKLNCIFGRIESRIDINWSESGTKFPIILFYDYVFHQVDSNGKPIMDLTHVLRCLNKLDAGIQEKLMLVTPDELNCIIISYKELKDLIESTFRSITQ LLQYHLYAPEQPSSLKSLLKPNERSADQLFIPNNIREDLTKKNLSILQVFPSSGKVIPSIVQDYFNLVPLNFNNNDFLNKTTLFKVFSNYDGKAYVLKRLPNIDKSMNPNKISKIYQIWSKINCTNLIKFRDIFQTTKFGDLSICLVFDYYPNSLSLYDYHFVNFPKFPITNNYLWIYLVQLTNVINSIHSQNLSIGNTLNWRKVLITGDPGRIKLSHCNFMDLLFNDDTIEGQQQLDYKYLGELLFNLSINIENSNNNTAPKEYRLEEITPQSIDDMRQIDDKFKDVLKYLISDNGDSKKSIHDLTSHFYDKMFMVLESSQTYTEYMESVLSRELENGRLFRLVNKLNCIFGRIESRIDINWSESGTKFPIILFYDYVFHQVDSNGKPIMDLTHVLRCLNKLDAGIQEKLMLVTPDELNCIIISYKELKDLIESTFRSITQ 4xr9-a1-m1-cB_4xr9-a1-m1-cA Crystal structure of CalS8 from Micromonospora echinospora cocrystallized with NAD and TDP-glucose Q8KNF6 Q8KNF6 1.95 X-RAY DIFFRACTION 205 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 453 456 4xrr-a1-m1-cB_4xrr-a1-m1-cA NAMPFLPDPGEPSPLKVVIAGAGYVGTCLAVTLAGRGAEVVAVDSDPGTVADLRAGRCRLPEPGLAGAVRDLAATGRLTASTSYDPVGAADVVIVTVGTPTDAGHEMVTDQLVAACEQIAPRLRAGQLVILKSTVSPGTTRTLVAPLLESGGLVHERDFGLAFCPERLAEGVALAQVRTLPVVVGGCGPRSAAAAERFWRSALGVDVRQVPSAESAEVVKLATNWWIDANVAIANELARYCAVLGVDVLDVIGAANTLPKGSSMVNLLLPGVGVGCLTKDPWMAWRDGRDRGVSLRTVETARAVNDDMPRHTAAVIADELVKLGRDRNDTTIAVLGAAFKNDTGDVRNTPVRGVVAALRDSGFRVRIFDPLADPAEIVARFGTAPAASLDEAVSGAGCLAFLAGHRQFHELDFGALAERVDEPCLVFDGRMHLPPARIRELHRFGFAYRGIGR SNAMPFLPDPGEPSPLKVVIAGAGYVGTCLAVTLAGRGAEVVAVDSDPGTVADLRAGRCRLPEPGLAGAVRDLAATGRLTASTSYDPVGAADVVIVTVGTPTDAGHEMVTDQLVAACEQIAPRLRAGQLVILKSTVSPGTTRTLVAPLLESGGLVHERDFGLAFCPERLAEGVALAQVRTLPVVVGGCGPRSAAAAERFWRSALGVDVRQVPSAESAEVVKLATNWWIDANVAIANELARYCAVLGVDVLDVIGAANTLPKGSSMVNLLLPGVGVGGSCLTKDPWMAWRDGRDRGVSLRTVETARAVNDDMPRHTAAVIADELVKLGRDRNDTTIAVLGAAFKNDTGDVRNTPVRGVVAALRDSGFRVRIFDPLADPAEIVARFGTAPAASLDEAVSGAGCLAFLAGHRQFHELDFGALAERVDEPCLVFDGRMHLPPARIRELHRFGFAYRGIGR 4xrf-a1-m1-cA_4xrf-a1-m4-cA Crystal structure of MepR like protein complexed with pseudoligands Q81HX3 Q81HX3 2.16 X-RAY DIFFRACTION 148 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 142 142 4xrf-a1-m2-cA_4xrf-a1-m3-cA MTHIDKIQALAFSIGKKMQTELLEQMQATGLTPPQFYILKILDHYGASRATTLAKKMYVKPSAITVMIDRLIDQELVERYHDKDDRRVVIIELTKKGKARVEEAMTARNEHIAKYFSHLELQEREDLLRLFEKLETIICGTQ MTHIDKIQALAFSIGKKMQTELLEQMQATGLTPPQFYILKILDHYGASRATTLAKKMYVKPSAITVMIDRLIDQELVERYHDKDDRRVVIIELTKKGKARVEEAMTARNEHIAKYFSHLELQEREDLLRLFEKLETIICGTQ 4xrf-a1-m2-cA_4xrf-a1-m4-cA Crystal structure of MepR like protein complexed with pseudoligands Q81HX3 Q81HX3 2.16 X-RAY DIFFRACTION 42 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 142 142 4xrf-a1-m1-cA_4xrf-a1-m3-cA MTHIDKIQALAFSIGKKMQTELLEQMQATGLTPPQFYILKILDHYGASRATTLAKKMYVKPSAITVMIDRLIDQELVERYHDKDDRRVVIIELTKKGKARVEEAMTARNEHIAKYFSHLELQEREDLLRLFEKLETIICGTQ MTHIDKIQALAFSIGKKMQTELLEQMQATGLTPPQFYILKILDHYGASRATTLAKKMYVKPSAITVMIDRLIDQELVERYHDKDDRRVVIIELTKKGKARVEEAMTARNEHIAKYFSHLELQEREDLLRLFEKLETIICGTQ 4xrp-a1-m1-cA_4xrp-a1-m1-cD Structure of the Pnkp1/Rnl/Hen1 RNA repair complex C2M8N3 C2M8N3 3.3 X-RAY DIFFRACTION 168 1.0 553178 (Capnocytophaga gingivalis ATCC 33624) 553178 (Capnocytophaga gingivalis ATCC 33624) 311 311 4xru-a1-m1-cD_4xru-a1-m1-cA SAKNNTHHFPKLLILVGAPGSGKSTFARYFIRTEDNWVRVNRDDFRLMQFGDSLMSPFYEERITKMVEASVIALLKNRTNVIIDATNSSLRSLQDMVHTYTEYADISFKVFDLPVEELVKRCDKRCEQTGKFIPKSAIEKHVTQLQYTKEKFDFKPIPRALKETSLTYADQDTSLPKAVICDLDGTLSLLNGRDPYNASTADQDLLNTPVAMVLKMAKQQGYKVILLSGRENAYREPTERFLAKYQIDYDLLLMRDTNDYRKDNIIKKELFLEEIQGKYFVEFLLDDRNQVVDMWRRELALPCFQVNYGDF SAKNNTHHFPKLLILVGAPGSGKSTFARYFIRTEDNWVRVNRDDFRLMQFGDSLMSPFYEERITKMVEASVIALLKNRTNVIIDATNSSLRSLQDMVHTYTEYADISFKVFDLPVEELVKRCDKRCEQTGKFIPKSAIEKHVTQLQYTKEKFDFKPIPRALKETSLTYADQDTSLPKAVICDLDGTLSLLNGRDPYNASTADQDLLNTPVAMVLKMAKQQGYKVILLSGRENAYREPTERFLAKYQIDYDLLLMRDTNDYRKDNIIKKELFLEEIQGKYFVEFLLDDRNQVVDMWRRELALPCFQVNYGDF 4xs7-a1-m1-cB_4xs7-a1-m1-cA Determining the Molecular Basis for Starter Unit Selection During Daunorubicin Biosynthesis Q54816 Q54816 2.4 X-RAY DIFFRACTION 238 1.0 1950 (Streptomyces peucetius) 1950 (Streptomyces peucetius) 338 340 4xs9-a1-m1-cB_4xs9-a1-m1-cA 4xsa-a1-m1-cA_4xsa-a1-m1-cB 4xsb-a1-m1-cA_4xsb-a1-m1-cB 5tt4-a1-m1-cB_5tt4-a1-m1-cA 5wgc-a1-m1-cA_5wgc-a1-m1-cB GDLYVAGCGVWLPPPVTTEQALAAGHCDRRLASSTRMLSVAVADKETPAEMAALAAQTALDRSGVAPAHVDLVLHASLYFQGHHLWAPSSYVQRVAVGNRCPAMEVRQVNGGMAALELARAYLLAAPDRVAALITTGDRMHPPGFDRWSSDPGTVYADGGTALVLSRQGGFARLRSLVTVSEPVLEGMHRGGHPFGPPSPEEQAVDLDAHKRAYVAEAGSSFSVARVSAGQEEALTGALEAAGAGLDDISRVVLPHMGWRRLSAAYFNKWHIQPERTTWEFGRRTGHLGGGDPIAGFDHLVGSGRLAPGELCLLVSVGAGFSWSCAVVELLERPSWAA GDLYVAGCGVWLPPPVTTEQALAAGHCDRRLASSTRMLSVAVADKETPAEMAALAAQTALDRSGVAPAHVDLVLHASLYFQGHHLWAPSSYVQRVAVGNRCPAMEVRQVNGGMAALELARAYLLAAPDRVAALITTGDRMHPPGFDRWSSDPGTVYADGGTALVLSRQGGFARLRSLVTVSEPVLEGMHRGGHPFGPPSPEEQRAVDLDAHKRAYVAEAGSSFSVARVSAGQEEALTGALEAAGAGLDDISRVVLPHMGWRRLSAAYFNKWHIQPERTTWEFGRRTGHLGGGDPIAGFDHLVGSGRLAPGELCLLVSVGAGFSWSCAVVELLERPSWAAA 4xsc-a2-m1-cC_4xsc-a2-m1-cD Complex structure of thymidylate synthase from varicella zoster virus with a phosphorylated BVDU Q4JQW2 Q4JQW2 2.901 X-RAY DIFFRACTION 122 1.0 341980 (Human herpesvirus 3 strain Oka vaccine) 341980 (Human herpesvirus 3 strain Oka vaccine) 264 282 4xsc-a1-m1-cA_4xsc-a1-m1-cB 4xsd-a1-m1-cA_4xsd-a1-m1-cB 4xsd-a2-m1-cC_4xsd-a2-m1-cD 4xse-a1-m1-cC_4xse-a1-m1-cD 4xse-a2-m1-cA_4xse-a2-m1-cB LTGELQYLKQVDDILRYGVRKRDRTGIGTLSLFGMQARYNLRNEFPLLTTKRVFWRAVVEELLWFIRGSTDSKELAAKDIHIWDTGDLGPIYGFQWRHFGAEYKDCQSNYLQQGIDQLQTVIDTIKTNPESRRMIISSWNPKDIPLMVLPPCHTLCQFYVANGELSCQVYQRSGDMGLGVPFNIAGYALLTYIVAHVTGLKTGDLIHTMGDAHIYLNHIDALKVQLARSPKPFPCLKIIRNVTDINDFKWDDFQLDGYNPHPPL TLTGELQYLKQVDDILRYGVRKRDRTGIGTLSLFGMQARYNLRNEFPLLTTKRVFWRAVVEELLWFIRGSTDSKELAAKDIHIWDIYGSSKFLNRNGFHKRHTGDLGPIYGFQWRHFGAEYKDCQSNYLQQGIDQLQTVIDTIKTNPESRRMIISSWNPKDIPLMVLPPCHTLCQFYVANGELSCQVYQRSGDMGLGVPFNIAGYALLTYIVAHVTGLKTGDLIHTMGDAHIYLNHIDALKVQLARSPKPFPCLKIIRNVTDINDFKWDDFQLDGYNPHPPL 4xsp-a1-m1-cB_4xsp-a1-m1-cA Crystal structure of Anabaena Alr3699/HepE in complex with UDP Q8YQW3 Q8YQW3 2.15 X-RAY DIFFRACTION 59 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 364 365 4xso-a1-m1-cA_4xso-a1-m1-cB 4xsr-a1-m1-cB_4xsr-a1-m1-cA 4xsu-a1-m1-cB_4xsu-a1-m1-cA MKILFLDQSGKPGGAELCLIDIAKPYRDRALVGLFADGAFKTLLEQHHIPVEVFTNQPSLGQLAPLVAKVVQTAHEYDLIYANTQKALVVGAIASFIARRPLVYHLHDILSPEHFSQTNLRVAVNLANRFASLVIANSQASQTAFIQAGGRAELTKVIYNGFDINLYKTSPSDISKLRQQLGVANNFVVGHFSRLSPWKGQHILIDALAQCPPQVTAILVGDALFGEQDYVKELHQQITRLGLENRVKFLGFRADIPQLMAACDLVAHTSTAPEPFGRVIVEAMLCGKPVVAAKAGGAMELVEHGVNGFLTTPGESQELANIINTCIEDTQKTATIASNAQAIASQRFDVVTINQQIAETLSSL HMKILFLDQSGKPGGAELCLIDIAKPYRDRALVGLFADGAFKTLLEQHHIPVEVFTNQPSLGQLAPLVAKVVQTAHEYDLIYANTQKALVVGAIASFIARRPLVYHLHDILSPEHFSQTNLRVAVNLANRFASLVIANSQASQTAFIQAGGRAELTKVIYNGFDINLYKTSPSDISKLRQQLGVANNFVVGHFSRLSPWKGQHILIDALAQCPPQVTAILVGDALFGEQDYVKELHQQITRLGLENRVKFLGFRADIPQLMAACDLVAHTSTAPEPFGRVIVEAMLCGKPVVAAKAGGAMELVEHGVNGFLTTPGESQELANIINTCIEDTQKTATIASNAQAIASQRFDVVTINQQIAETLSSL 4xt0-a1-m1-cA_4xt0-a1-m2-cA Crystal Structure of Beta-etherase LigF from Sphingobium sp. strain SYK-6 G2IN92 G2IN92 2.07 X-RAY DIFFRACTION 59 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 243 243 MTLKLYSFGPGANSLKPLATLYEKGLEFEQVFVDPSKFEQHSDWFKKINPRGQVPALWHDGKVVTESTVICEYLEDVFPESGNSLRPADPFKRAEMRVWTKWVDEYFCWCVSTIGWAFGIKAIAQKMSDEEFEEHINKNVPIPEQQLKWRRARNGFPQEMLDEEFRKVGVSVARLEETLSKQDYLVDTGYSLADICNFAIANGLQRPGGFFGDYVNQEKTPGLCAWLDRINARPAIKEMFEKS MTLKLYSFGPGANSLKPLATLYEKGLEFEQVFVDPSKFEQHSDWFKKINPRGQVPALWHDGKVVTESTVICEYLEDVFPESGNSLRPADPFKRAEMRVWTKWVDEYFCWCVSTIGWAFGIKAIAQKMSDEEFEEHINKNVPIPEQQLKWRRARNGFPQEMLDEEFRKVGVSVARLEETLSKQDYLVDTGYSLADICNFAIANGLQRPGGFFGDYVNQEKTPGLCAWLDRINARPAIKEMFEKS 4xt6-a1-m1-cA_4xt6-a1-m2-cA Crystal structure of Rv2671 from Mycobacterium tuberculosis in complex with the tetrahydropteridine ring of tetrahydrofolate (THF) P71968 P71968 1.85 X-RAY DIFFRACTION 230 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 237 237 4xrb-a1-m1-cA_4xrb-a1-m2-cA 4xt4-a1-m1-cA_4xt4-a1-m2-cA 4xt5-a1-m1-cA_4xt5-a1-m2-cA 4xt7-a1-m1-cA_4xt7-a1-m2-cA 4xt8-a1-m1-cA_4xt8-a1-m2-cA PLRLLSSVHYLTGELPQLYDYPDDGTWLRANFISSLDGGATVTSGAMAGPGDRFVFNLLRELADVIVVGVGTVRVRMGVVQRQHRQARGQSEVPQLAIVTRSGRLDRDMAVFTRTEMAPLVLTTTAVADDTRQRLAGLAEVIACSGDDPGTVDEAVLVSQLAARGLRRILTEGGPTLLGTFVERDVLDELCLTIAPYVVGGLARRIVTGPGQVLTRMRCAHVLTDDSGYLYTRYVKT PLRLLSSVHYLTGELPQLYDYPDDGTWLRANFISSLDGGATVTSGAMAGPGDRFVFNLLRELADVIVVGVGTVRVRMGVVQRQHRQARGQSEVPQLAIVTRSGRLDRDMAVFTRTEMAPLVLTTTAVADDTRQRLAGLAEVIACSGDDPGTVDEAVLVSQLAARGLRRILTEGGPTLLGTFVERDVLDELCLTIAPYVVGGLARRIVTGPGQVLTRMRCAHVLTDDSGYLYTRYVKT 4xtk-a4-m1-cH_4xtk-a4-m1-cD Structure of TM1797, a CAS1 protein from Thermotoga maritima Q9X2B7 Q9X2B7 2.7 X-RAY DIFFRACTION 135 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 300 311 SVYLFSSGTLKRICLETESGRKYIPVENVMDIKVFGEVDLNKRFLEFLSQKRIPIHFFNREGYYVGTFYPREYLNSGFLILKQAEHYINQEKRMLIAREIVSRSFQNMVDFLKKRKVRADSLTRYKKKAEEASNVSELMGIEGNAREEYYSMIDSLVSDERFRIEKRTRRPPKNFANTLISFGNSLLYTTVLSLIYQTHLDPRIGYLHETNFRRFSLNLDIAELFKPAVVDRLFLNLVNTRQINEKHFDEIGLMLNDEGKSLFVKNYEQALRETRYVSMRSLIKMELHKLEKHLIGEQVF ESVYLFSSGTLKRKANTICLETESGRKYIPVENVMDIKVFGEVDLNKRFLEFLSQKRIPIHFFNREGYYVGTFYPREYLNSGFLILKQAEHYINQEKRMLIAREIVSRSFQNMVDFLKKRKVRADSLTRYKKKAEEASNVSELMGIEGNAREEYYSMIDSLVSDERFRIEKRTRRPPKNFANTLISFGNSLLYTTVLSLIYQTHLDPRIGYLHETNFRRFSLNLDIAELFKPAVVDRLFLNLVNTRQINEKHFDEISEGLMLNDEGKSLFVKNYEQALRETVYVSMRSLIKMELHKLEKHLIGEQVFGSEE 4xtr-a1-m1-cA_4xtr-a1-m1-cB Structure of Get3 bound to the transmembrane domain of Pep12 Q12154 Q12154 2.05 X-RAY DIFFRACTION 166 0.987 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 305 311 2woj-a1-m1-cC_2woj-a1-m1-cD 3sjd-a1-m1-cB_3sjd-a1-m1-cA 3sjd-a2-m1-cC_3sjd-a2-m2-cC 4pwx-a1-m1-cA_4pwx-a1-m1-cB 4xvu-a1-m1-cA_4xvu-a1-m1-cB 4xwo-a1-m1-cA_4xwo-a1-m1-cB 4xwo-a2-m1-cG_4xwo-a2-m1-cH 4xwo-a3-m1-cN_4xwo-a3-m1-cM 4xwo-a4-m1-cS_4xwo-a4-m1-cT VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTNPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMNDMGALADLTGSIPGIDEALSFMEVMKHIKRQEQGTFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELED TVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTNPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMNDMAVSGGALADLTGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELEDK 4xtt-a1-m1-cA_4xtt-a1-m1-cB Structural Studies of Potassium Transport Protein KtrA Regulator of Conductance of K+ (RCK) C domain in Complex with Cyclic Diadenosine Monophosphate (c-di-AMP) A0A0M3KL06 A0A0M3KL06 2.708 X-RAY DIFFRACTION 82 1.0 1229492 (Staphylococcus aureus 08BA02176) 1229492 (Staphylococcus aureus 08BA02176) 85 85 ASASVLDYLELADEHSIVELKATEKMAGQSIIDLDIRAQYGINIIAIKRGKEFIISPNPNINLEIGDILIMIGHDNDLNRFEKNI ASASVLDYLELADEHSIVELKATEKMAGQSIIDLDIRAQYGINIIAIKRGKEFIISPNPNINLEIGDILIMIGHDNDLNRFEKNI 4xu6-a1-m2-cA_4xu6-a1-m3-cA Crystal structure of cross-linked MvINS R77C trimer at 1.9A resolution A1T557 A1T557 1.898 X-RAY DIFFRACTION 52 1.0 350058 (Mycolicibacterium vanbaalenii PYR-1) 350058 (Mycolicibacterium vanbaalenii PYR-1) 189 189 4xu4-a1-m1-cA_4xu4-a1-m2-cA 4xu4-a1-m1-cA_4xu4-a1-m3-cA 4xu4-a1-m2-cA_4xu4-a1-m3-cA 4xu5-a1-m1-cA_4xu5-a1-m2-cA 4xu5-a1-m1-cA_4xu5-a1-m3-cA 4xu5-a1-m2-cA_4xu5-a1-m3-cA 4xu6-a1-m1-cA_4xu6-a1-m2-cA 4xu6-a1-m1-cA_4xu6-a1-m3-cA MRLRISEAVVLFLLGAVAALIGDHSHVVTGTTVYHTDAVPFVWSSPFWFPILVGAATASLAELRLHLPAPRDGVTACQALGGVAAVVGTYVTTALVHAFPVVPVTALVAAAAAITWCVLGDGPGAAAGVVIAVIGPAVEIALVQLGVFAYHPDSDGLFGVAPFLAPLYFAFGVVAALLGELAVARRPQL MRLRISEAVVLFLLGAVAALIGDHSHVVTGTTVYHTDAVPFVWSSPFWFPILVGAATASLAELRLHLPAPRDGVTACQALGGVAAVVGTYVTTALVHAFPVVPVTALVAAAAAITWCVLGDGPGAAAGVVIAVIGPAVEIALVQLGVFAYHPDSDGLFGVAPFLAPLYFAFGVVAALLGELAVARRPQL 4xuk-a1-m1-cA_4xuk-a1-m1-cB Crystal structure of hydrolase AbOPH in beta lactamase superfamily G7GD18 G7GD18 2 X-RAY DIFFRACTION 91 1.0 1071390 (Acinetobacter sp. NBRC 100985) 1071390 (Acinetobacter sp. NBRC 100985) 291 291 KQVAGYYQYQAGDVQITALLDGTNFMSPNLFKDIPQQQVHEILKKYYADQEKGVQTSINAFLVNIGKSLILIDSGAASCFGSHLGSVLSNLKASGYQPEQVDTILLTHLHPDHVCGISKDGVANFPNATVYVSNDEASFWLDPKQAAKLPKEKQANYLGTVEKIKQAIAPYQAKQRFKTYKLGDDIQGFKVINTAGHTPGHFSYELKTKGESIVFIGDIVHSHTVQFDRPETAIEYDIDPKKAVETRLKQFANFAKNGQTIAAPHLPFPGIGHTYSADGKSYQWIPIHFKD KQVAGYYQYQAGDVQITALLDGTNFMSPNLFKDIPQQQVHEILKKYYADQEKGVQTSINAFLVNIGKSLILIDSGAASCFGSHLGSVLSNLKASGYQPEQVDTILLTHLHPDHVCGISKDGVANFPNATVYVSNDEASFWLDPKQAAKLPKEKQANYLGTVEKIKQAIAPYQAKQRFKTYKLGDDIQGFKVINTAGHTPGHFSYELKTKGESIVFIGDIVHSHTVQFDRPETAIEYDIDPKKAVETRLKQFANFAKNGQTIAAPHLPFPGIGHTYSADGKSYQWIPIHFKD 4xuu-a1-m1-cC_4xuu-a1-m1-cA The hSac2 domain from human phosphoinositide phosphatase Sac2 Q9Y2H2 Q9Y2H2 2.62 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 164 SRSHQELISQLLQSYKLLLPDDEKFHGGWALIDCDPSLRDVDVLLLLSNSAYYVAYYDDEVDKVNQYQRLSLENLEKIEIGPEPTLFGKPKFSCRLHYRYKEASGYFHTLRAVRNPEEDGKDTLQCIAELQITKQAGSDLPIIEKKLEAKASKPHEDII SRSHQELISQLLQSYKLLLPDDEKFHGGWALIDCDPSLIDATHRDVDVLLLLSNSAYYVAYYDDEVDKVNQYQRLSLENLEKIEIGPEPTLFGKPKFSCRLHYRYKEASGYFHTLRAVRNPEEDGKDTLQCIAELQITKQAGSDLPIIEKKLEAKASKPHEDII 4xuu-a1-m1-cC_4xuu-a1-m1-cD The hSac2 domain from human phosphoinositide phosphatase Sac2 Q9Y2H2 Q9Y2H2 2.62 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 164 4xuu-a1-m1-cA_4xuu-a1-m1-cB SRSHQELISQLLQSYKLLLPDDEKFHGGWALIDCDPSLRDVDVLLLLSNSAYYVAYYDDEVDKVNQYQRLSLENLEKIEIGPEPTLFGKPKFSCRLHYRYKEASGYFHTLRAVRNPEEDGKDTLQCIAELQITKQAGSDLPIIEKKLEAKASKPHEDII SRSHQELISQLLQSYKLLLPDDEKFHGGWALIDCDPSLIDATHRDVDVLLLLSNSAYYVAYYDDEVDKVNQYQRLSLENLEKIEIGPEPTLFGKPKFSCRLHYRYKEASGYFHTLRAVRNPEEDGKDTLQCIAELQITKQAGSDLPIIEKKLEAKASKPHEDII 4xuv-a1-m1-cB_4xuv-a1-m1-cA Crystal structure of a glycoside hydrolase family 105 (GH105) enzyme from Thielavia terrestris G2QVG2 G2QVG2 2.0496 X-RAY DIFFRACTION 100 0.997 578455 (Thermothielavioides terrestris NRRL 8126) 578455 (Thermothielavioides terrestris NRRL 8126) 330 332 GTSAEVHAKIKLLINAMVNIWHDWEWTHGIGLYGIWQYYTLTNDAAHLDVIEAWFRDRFAAGGTTKNINTMAVFLTLACVYERTRNPAYLPWLDAWAEWAYHDLARTRRGGMQHVTYLEENAGQLWDDTLMMTVLPLAKIGVVLGRPHYVAEAKRQFLLHVQYLGDVKTGLFFHGWQFAEEGPGGHHFATARWARGNSWVTIAVPEFLELLREAGMADEALEEFLKSTLQAQCEALRPLQVASTGLWRTLLDVPEEEGSYQEASATAGFAFGVLKGQRKRYLGPEFEDMAVKAVKGVLANISEEGELLTSMPYGQAMAIMALVEFARRFI FQGTSAEVHAKIKLLINAMVNIGWHDWEWTHGIGLYGIWQYYTLTNDAAHLDVIEAWFRDRFAAGGTTKNINTMAVFLTLACVYERTRNPAYLPWLDAWAEWAYHDLARTRRGGMQHVTYLEENAGQLWDDTLMMTVLPLAKIGVVLGRPHYVAEAKRQFLLHVQYLGDVKTGLFFHGWQFAEEGPGGHHFATARWARGNSWVTIAVPEFLELLREAGMADEALEEFLKSTLQAQCEALRPLQVASTGLWRTLLDVPEEEGSYQEASATAGFAFGVLKGQRKRYLGPEFEDMAVKAVKGVLANISEEGELLSMPYGQAMAIMALVEFARRFI 4xvg-a1-m1-cA_4xvg-a1-m2-cA Crystal structure of Alkylhydroperoxide Reductase Subunit AhpF from Escherichia coli P35340 P35340 2.2 X-RAY DIFFRACTION 149 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 519 519 MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNSLPVRKPSFLITNPGSNQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRHIDGDFEFETYYSLSCHNCPDVVQALNLMSVLNPRIKHTAIDGGTFQNEITDRNVMGVPAVFVNGKEFGQGRMTLTEIVAKIDTGAEKRAAEELNKRDAYDVLIVGSGPAGAAAAIYSARKGIRTGLMGERFGGQILDTVDIENYISVPKTEGQKLAGALKVHVDEYDVDVIDSQSASKLIPAAVEGGLHQIETASGAVLKARSIIVATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKLRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHNIELAGIFVQIGLLPNTNWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTK MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNSLPVRKPSFLITNPGSNQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRHIDGDFEFETYYSLSCHNCPDVVQALNLMSVLNPRIKHTAIDGGTFQNEITDRNVMGVPAVFVNGKEFGQGRMTLTEIVAKIDTGAEKRAAEELNKRDAYDVLIVGSGPAGAAAAIYSARKGIRTGLMGERFGGQILDTVDIENYISVPKTEGQKLAGALKVHVDEYDVDVIDSQSASKLIPAAVEGGLHQIETASGAVLKARSIIVATGAKWRNMNVPGEDQYRTKGVTYCPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKLRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHNIELAGIFVQIGLLPNTNWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTK 4xvu-a1-m1-cG_4xvu-a1-m1-cH Structure of Get3 bound to the transmembrane domain of Nyv1 Q12154 Q12154 2.35 X-RAY DIFFRACTION 175 0.987 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 307 311 VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTNPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMADLTGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLVDISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELED TVEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTNPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAALKDMNDMGALADLTGSIPGIDEALSFMEVMKHIKRQEQGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELED 4xvv-a1-m1-cB_4xvv-a1-m1-cA Crystal structure of an Acid stress chaperone HdeB (KPN_03484) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 1.70 A resolution A6TE95 A6TE95 1.7 X-RAY DIFFRACTION 77 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 68 72 EETTPQNTCQEFDNPKSTPVAFWVVNRNTDFSGGDYVDWHEVETVSVPKLQECHKNPAAKLGDLSAVI GVEETTPQNTCQEFDNPKSTPVAFWVVNRNTDFSGGDYVDWHEVETVSVPKLQECHKNPAAKLGDLSAVIKK 4xvx-a1-m1-cB_4xvx-a1-m2-cB Crystal structure of an acyl-ACP dehydrogenase P9WQF9 P9WQF9 2.3 X-RAY DIFFRACTION 12 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 372 372 4xvx-a1-m1-cA_4xvx-a1-m2-cA SDLDDFRGLLAKAFDERVVAWTAEAEAQERFPRQLIEHLGVCGVFDAKWATDARPDVGKLVELAFALGQLASAGIGVGVSLHDSAIAILRRFGKSDYLRDICDQAIRGAAVLCIGASEESGGSDLQIVETEIRSRDGGFEVRGVKKFVSLSPIADHIMVVARSVDHDPGNVAVVAVPAAQVSVQTPYRKVGAGPLDTAAVIDTWVPADALVARAGTGLAAISWGLAHERMSIAGQIAASCQRAIGITLARMMSRRQFGQTLFEHQALRLRMADLQARVDLLRYALHGIAEQGRLELRTAAAVKVTAARLGEEVISECMHIFGGAGYLVDETTLGKWWRDMKLARVGGGTDEVLWELVAAGMTPDHDGYAAVV SDLDDFRGLLAKAFDERVVAWTAEAEAQERFPRQLIEHLGVCGVFDAKWATDARPDVGKLVELAFALGQLASAGIGVGVSLHDSAIAILRRFGKSDYLRDICDQAIRGAAVLCIGASEESGGSDLQIVETEIRSRDGGFEVRGVKKFVSLSPIADHIMVVARSVDHDPGNVAVVAVPAAQVSVQTPYRKVGAGPLDTAAVIDTWVPADALVARAGTGLAAISWGLAHERMSIAGQIAASCQRAIGITLARMMSRRQFGQTLFEHQALRLRMADLQARVDLLRYALHGIAEQGRLELRTAAAVKVTAARLGEEVISECMHIFGGAGYLVDETTLGKWWRDMKLARVGGGTDEVLWELVAAGMTPDHDGYAAVV 4xvx-a2-m1-cA_4xvx-a2-m1-cB Crystal structure of an acyl-ACP dehydrogenase P9WQF9 P9WQF9 2.3 X-RAY DIFFRACTION 96 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 371 372 4xvx-a1-m1-cA_4xvx-a1-m1-cB 4xvx-a1-m2-cA_4xvx-a1-m2-cB SDLDDFRGLLAKAFDERVVAWTAEAEAQERFPRQLIEHLGVCGVFDAKWATDARPDVGKLVELAFALGQLASAGIGVGVSLHDSAIAILRRFGKSDYLRDICDQAIRGAAVLCIGASEESGGSDLQIVETEIRSRDGGFEVRGVKKFVSLSPIADHIMVVARSVDHGNVAVVAVPAAQVSVQTPYRKVGAGPLDTAAVCIDTWVPADALVARAGTGLAAISWGLAHERMSIAGQIAASCQRAIGITLARMMSRRQFGQTLFEHQALRLRMADLQARVDLLRYALHGIAEQGRLELRTAAAVKVTAARLGEEVISECMHIFGGAGYLVDETTLGKWWRDMKLARVGGGTDEVLWELVAAGMTPDHDGYAAVV SDLDDFRGLLAKAFDERVVAWTAEAEAQERFPRQLIEHLGVCGVFDAKWATDARPDVGKLVELAFALGQLASAGIGVGVSLHDSAIAILRRFGKSDYLRDICDQAIRGAAVLCIGASEESGGSDLQIVETEIRSRDGGFEVRGVKKFVSLSPIADHIMVVARSVDHDPGNVAVVAVPAAQVSVQTPYRKVGAGPLDTAAVIDTWVPADALVARAGTGLAAISWGLAHERMSIAGQIAASCQRAIGITLARMMSRRQFGQTLFEHQALRLRMADLQARVDLLRYALHGIAEQGRLELRTAAAVKVTAARLGEEVISECMHIFGGAGYLVDETTLGKWWRDMKLARVGGGTDEVLWELVAAGMTPDHDGYAAVV 4xvx-a3-m1-cA_4xvx-a3-m2-cB Crystal structure of an acyl-ACP dehydrogenase P9WQF9 P9WQF9 2.3 X-RAY DIFFRACTION 172 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 371 372 4xvx-a1-m1-cA_4xvx-a1-m2-cB 4xvx-a1-m2-cA_4xvx-a1-m1-cB SDLDDFRGLLAKAFDERVVAWTAEAEAQERFPRQLIEHLGVCGVFDAKWATDARPDVGKLVELAFALGQLASAGIGVGVSLHDSAIAILRRFGKSDYLRDICDQAIRGAAVLCIGASEESGGSDLQIVETEIRSRDGGFEVRGVKKFVSLSPIADHIMVVARSVDHGNVAVVAVPAAQVSVQTPYRKVGAGPLDTAAVCIDTWVPADALVARAGTGLAAISWGLAHERMSIAGQIAASCQRAIGITLARMMSRRQFGQTLFEHQALRLRMADLQARVDLLRYALHGIAEQGRLELRTAAAVKVTAARLGEEVISECMHIFGGAGYLVDETTLGKWWRDMKLARVGGGTDEVLWELVAAGMTPDHDGYAAVV SDLDDFRGLLAKAFDERVVAWTAEAEAQERFPRQLIEHLGVCGVFDAKWATDARPDVGKLVELAFALGQLASAGIGVGVSLHDSAIAILRRFGKSDYLRDICDQAIRGAAVLCIGASEESGGSDLQIVETEIRSRDGGFEVRGVKKFVSLSPIADHIMVVARSVDHDPGNVAVVAVPAAQVSVQTPYRKVGAGPLDTAAVIDTWVPADALVARAGTGLAAISWGLAHERMSIAGQIAASCQRAIGITLARMMSRRQFGQTLFEHQALRLRMADLQARVDLLRYALHGIAEQGRLELRTAAAVKVTAARLGEEVISECMHIFGGAGYLVDETTLGKWWRDMKLARVGGGTDEVLWELVAAGMTPDHDGYAAVV 4xvz-a2-m1-cD_4xvz-a2-m1-cC MycF mycinamicin III 3'-O-methyltransferase in complex with Mg Q49492 Q49492 2.49 X-RAY DIFFRACTION 58 0.99 28040 (Micromonospora griseorubida) 28040 (Micromonospora griseorubida) 194 198 4xvz-a1-m1-cB_4xvz-a1-m1-cA SPSTGVELYLDLLKRTVSNFIYQDAVAHTIGKRLNNLQHCVESALRDGVPGDVLETGVWRGGACIFARGILKAYDVRDRTVWVADSFTSLATVQRNFSRYGLLDDQVRFLPGWFKDTPTAPFERLAVLRDGDSYGATDVLTHAYPRLSPGGFAIIDDYCIPACREAVHEYRDRHGISDEIVEIDRQGVYWRRSA NASPSTGVELYLDLLKRTVSNFIYQVAHTIGKRLNNLQHCVESALRDGVPGDVLETGVWRGGACIFARGILKAYDVRDRTVWVADSFQTSLATVQRNFSRYGLLDDQVRFLPGWFKDTPTAPFERLAVLRDGDSYGATDVLTHAYPRLSPGGFAIIDDYCIPACREAVHEYRDRHGISDEIVEIDRQGVYWRRSACNI 4xwi-a1-m1-cB_4xwi-a1-m1-cA X-ray Crystal structure of CMP-KDO Synthase from Pseudomonas aeruginosa Q9HZM5 Q9HZM5 1.92 X-RAY DIFFRACTION 99 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 227 252 TQAFTVVIPARYKPLQDIAGQPMIQRVWNQARKSAASRVVVATDDERILAACQGFGAEALLTRAEHNSGTDRLEEVASRLGLASDAIVVNVQGDEPLIPPALIDQVAANLAAHPEAAIATLAEPIHEVSALFNPNVVKVATDIDGLALTFSRAPLPWARDAFARDRDSLPEGVPYRRHIGIYAYRVGFLADFVAWGPCWLENAESLEQLRALWHGVRIHVADARENM QAFTVVIPARYASTRLPGKPLQDIAGQPMIQRVWNQARKSAASRVVVATDDERILAACQGFGAEALLTRAEHNSGTDRLEEVASRLGLASDAIVVNVQGDEPLIPPALIDQVAANLAAHPEAAIATLAEPIHEVSALFNPNVVKVATDIDGLALTFSRAPLPWARDAFARDRDSLPEGVPYRRHIGIYAYRVGFLADFVAWGPCWLENAESLEQLRALWHGVRIHVADARENMLPGVDTPEDLERVRRVLGG 4xwu-a1-m2-cA_4xwu-a1-m4-cA Structure of the IMP dehydrogenase from Ashbya gossypii Q756Z6 Q756Z6 1.75 X-RAY DIFFRACTION 118 1.0 284811 (Eremothecium gossypii ATCC 10895) 284811 (Eremothecium gossypii ATCC 10895) 314 314 4xwu-a1-m1-cA_4xwu-a1-m3-cA 4xwu-a1-m1-cA_4xwu-a1-m4-cA 4xwu-a1-m2-cA_4xwu-a1-m3-cA TYRDAATALEHLATYAEKDGLSVEQLMDSKTRGGLTYNDFLVLPGKIDFPSSEVVLSSRLTKKITLNAPFVSSPMDTVTEADMAIHMALLGGIGIIHHNCTAEEQAEMVRRVKKYEPLASKSTKQLLCGAAIGTIDADRQRLAMLVEAGLDVVVLDSSQGNSVFQINMIKWIKETFPDLQVIAGNVVTREQAASLIHAGADGLRIGMACGRPQGTAVYNVTQFANQFGVPCIADGGVQNIGHITKAIALGASTVMMGGMLAGTTESPDKGSIKKYIPYLYNGLQHSCQDIGVRSLVEFREKVDSGSVRFEFRTP TYRDAATALEHLATYAEKDGLSVEQLMDSKTRGGLTYNDFLVLPGKIDFPSSEVVLSSRLTKKITLNAPFVSSPMDTVTEADMAIHMALLGGIGIIHHNCTAEEQAEMVRRVKKYEPLASKSTKQLLCGAAIGTIDADRQRLAMLVEAGLDVVVLDSSQGNSVFQINMIKWIKETFPDLQVIAGNVVTREQAASLIHAGADGLRIGMACGRPQGTAVYNVTQFANQFGVPCIADGGVQNIGHITKAIALGASTVMMGGMLAGTTESPDKGSIKKYIPYLYNGLQHSCQDIGVRSLVEFREKVDSGSVRFEFRTP 4xww-a1-m1-cB_4xww-a1-m1-cA Crystal structure of RNase J complexed with RNA H9CZL7 H9CZL7 1.7 X-RAY DIFFRACTION 151 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 543 545 4xwt-a1-m1-cA_4xwt-a1-m1-cB APTLEVIPLGGMGEIGKNITVFRYGDEIVVVDGGLAFPKAHQMGIDLIVPRIDYLLEHQDKIKGWILTHGHEDHIGGLPYIFARLPRVPVYGLPLTLALVREKLSEFGLQDVDLREVTYGDEVRFGQSFVAEFFCMTHSIPDNAGYILKTPVGDVLHTGDFKIDPDVGTGAGIVSDLERVEQAGKDGVLLLISDSTNAERPGHTPSEAEIARNLEEIIKGCRGRVFLTTFASQVYRIQNILDLAHRQGRRVVMEGRSMIKYAQAAQATGHMNPPEPFLTSEEVGELQDQQVLFVCTGSQGQPMAVLGRLAFGTHAKIALRRGDTVILSSNPIPGNEDAVNLIVNRLYEIGVDVVYPPTYRVHASGHASQEELATILNLTRPKFFLPWHGEPRHQINHAKLAQTLPRPPKRTLIAKNGDIVNLGPDEFRVSGTVAAGAVYVDGLGVGDVNDDVLLDRVNLSQEGLLILTAVLHPTPHVEVVARGFARPNRDLELQIRRVALEAVEQGLREKKRLEDVRDDMYGAVRRFTRKATGRNPVLIPMIV PAPTLEVIPLGGMGEIGKNITVFRYGDEIVVVDGGLAFPKAHQMGIDLIVPRIDYLLEHQDKIKGWILTHGHEDHIGGLPYIFARLPRVPVYGLPLTLALVREKLSEFGLQDVDLREVTYGDEVRFGQSFVAEFFCMTHSIPDNAGYILKTPVGDVLHTGDFKIDPDVGTGAGIVSDLERVEQAGKDGVLLLISDSTNAERPGHTPSEAEIARNLEEIIKGCRGRVFLTTFASQVYRIQNILDLAHRQGRRVVMEGRSMIKYAQAAQATGHMNPPEPFLTSEEVGELQDQQVLFVCTGSQGQPMAVLGRLAFGTHAKIALRRGDTVILSSNPIPGNEDAVNLIVNRLYEIGVDVVYPPTYRVHASGHASQEELATILNLTRPKFFLPWHGEPRHQINHAKLAQTLPRPPKRTLIAKNGDIVNLGPDEFRVSGTVAAGAVYVDGLGVGDVNDDVLLDRVNLSQEGLLILTAVLHPTPHVEVVARGFARPNRDLELQIRRVALEAVEQGLREKKRLEDVRDDMYGAVRRFTRKATGRNPVLIPMIVD 4xwz-a1-m1-cB_4xwz-a1-m1-cA The crystal structure of Fructosyl amine: oxygen oxidoreductase (Amadoriase I) from Aspergillus fumigatus in complex with the substrate fructosyl lysine O42629 O42629 1.9 X-RAY DIFFRACTION 36 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 436 438 STESSIIVIGAGTWGCSTALHLARRGYKDVTVLDPHPVPSPIAAGNDINKIMEHSELKDGSSDPRSAAFSTFTRAALKAWKTDPVFQPYFHETGFIISGHTPALIDHIRKDEVEPSETNFVKLETAEDFRRTMPPGVLTGDFPGWKGWLHKSGAGWIHAKKAMISAFNEAKRLGVRFVTGSPEGNVVSLVYEDGDVVGARTADGRVHKAHRTILSAGAGSDSLLDFKKQLRPTAWTLCHIQMGPEEVKQYRNLPVLFNIAKGFFMEPDEDKHELKICDEHPGYCNFLPDPNRPGQEKSVPFAKHQIPLEAEARARDFLHDTMPHLADRPLSFARICWDADTPDRAFLIDRHPEHPSLLVAVGGSGNGAMQMPTIGGFIADALESKLQKEVKDIVRWRPETAVDRDWRATQNRFGGPDRIMDFQQVGEDQWTKIGES ILSTESSIIVIGAGTWGCSTALHLARRGYKDVTVLDPHPVPSPIAAGNDINKIMEHSELKDGSSDPRSAAFSTFTRAALKAWKTDPVFQPYFHETGFIISGHTPALIDHIRKDEVEPSETNFVKLETAEDFRRTMPPGVLTGDFPGWKGWLHKSGAGWIHAKKAMISAFNEAKRLGVRFVTGSPEGNVVSLVYEDGDVVGARTADGRVHKAHRTILSAGAGSDSLLDFKKQLRPTAWTLCHIQMGPEEVKQYRNLPVLFNIAKGFFMEPDEDKHELKICDEHPGYCNFLPDPNRPGQEKSVPFAKHQIPLEAEARARDFLHDTMPHLADRPLSFARICWDADTPDRAFLIDRHPEHPSLLVAVGGSGNGAMQMPTIGGFIADALESKLQKEVKDIVRWRPETAVDRDWRATQNRFGGPDRIMDFQQVGEDQWTKIGES 4xxe-a1-m1-cA_4xxe-a1-m1-cD Structure of AgrA LytTR domain in complex with promoters Q5HEG2 Q5HEG2 3.2 X-RAY DIFFRACTION 29 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 99 99 VETIELKRGSNSVYVQYDDIMFFESSTKSHRLIAHLDNRQIEFYGNLKELSQLDDRFFRCHNSFVVNRHNIESIDSKERIVYFKNKEHCYASVRNVKKI VETIELKRGSNSVYVQYDDIMFFESSTKSHRLIAHLDNRQIEFYGNLKELSQLDDRFFRCHNSFVVNRHNIESIDSKERIVYFKNKEHCYASVRNVKKI 4xxf-a1-m2-cA_4xxf-a1-m4-cA L-fuculose 1-phosphate aldolase from Glaciozyma antarctica PI12 A0A0J9X279 A0A0J9X279 1.34 X-RAY DIFFRACTION 104 1.0 105987 (Glaciozyma antarctica) 105987 (Glaciozyma antarctica) 249 249 4xxf-a1-m1-cA_4xxf-a1-m3-cA 4xxf-a1-m1-cA_4xxf-a1-m4-cA 4xxf-a1-m2-cA_4xxf-a1-m3-cA GGLAALTKPPTFATVEAERAWLKERLVAAIRIFANEGFDHTVAGHLTVRDPENKHHFWVNPFGLAFRLMTVSDLILVNQEGTVIGGGKEGRRIVNLAGFMIHSAIHKARPEVQAICHSHSTYGKAFSSLGKPLAITTQDSCAFYGDVALLGDESGTIAVALQQKKAIILQNHGLLTVGTTIDSAVAWFIMLEKQCQVQLLADAAGQTIPIDEPQAAFTFKELGHEQAGYFQASPYFQVIEHLQGEEYRK GGLAALTKPPTFATVEAERAWLKERLVAAIRIFANEGFDHTVAGHLTVRDPENKHHFWVNPFGLAFRLMTVSDLILVNQEGTVIGGGKEGRRIVNLAGFMIHSAIHKARPEVQAICHSHSTYGKAFSSLGKPLAITTQDSCAFYGDVALLGDESGTIAVALQQKKAIILQNHGLLTVGTTIDSAVAWFIMLEKQCQVQLLADAAGQTIPIDEPQAAFTFKELGHEQAGYFQASPYFQVIEHLQGEEYRK 4xxh-a1-m1-cA_4xxh-a1-m1-cB TREHALOSE REPRESSOR FROM ESCHERICHIA COLI P36673 P36673 2.4 X-RAY DIFFRACTION 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 255 255 SDKVVAIIVTRLDSLSENLAVQTMLPAFYEQGYDPIMMESQFSPQLVAEHLGVLKRRNIDGVVLFGFTGITEEMLAHWQSSLVLLARDAKGFASVCYDDEGAIKILMQRLYDQGHRNISYLGVPHSDVTTGKRRHEAYLAFCKAHKLHPVAALPGLAMKQGYENVAKVITPETTALLCATDTLALGASKYLQEQRIDTLQLASVGNTPLMKFLHPEIVTVDPGYAEAGRQAACQLIAQVTGRSEPQQIIIPATLS SDKVVAIIVTRLDSLSENLAVQTMLPAFYEQGYDPIMMESQFSPQLVAEHLGVLKRRNIDGVVLFGFTGITEEMLAHWQSSLVLLARDAKGFASVCYDDEGAIKILMQRLYDQGHRNISYLGVPHSDVTTGKRRHEAYLAFCKAHKLHPVAALPGLAMKQGYENVAKVITPETTALLCATDTLALGASKYLQEQRIDTLQLASVGNTPLMKFLHPEIVTVDPGYAEAGRQAACQLIAQVTGRSEPQQIIIPATLS 4xxi-a1-m1-cB_4xxi-a1-m1-cA Crystal structure of the Bilin-binding domain of phycobilisome core-membrane linker ApcE P80559 P80559 2.2 X-RAY DIFFRACTION 87 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 146 147 4xxk-a1-m1-cB_4xxk-a1-m1-cA LAVATITQAEQQDRFLGRGELDELASYFASGAKRLEIAQLLTENSEIIVSRAANRIFQKIENMAKSLRDLSWFLRYATYAIVAGDPNIIVVNTRGLREIIENACSGEATIVALQEIKAASLSYFRKDPEAAEIVSQYMDVLITEFK LAVATITQAEQQDRFLGRGELDELASYFASGAKRLEIAQLLTENSEIIVSRAANRIFQKIENMAKSLRDLSWFLRYATYAIVAGDPNIIVVNTRGLREIIENACSGEATIVALQEIKAASLSYFRKDPEAAEIVSQYMDVLITEFKA 4xxo-a1-m1-cA_4xxo-a1-m1-cB Crystal Structure of Human APOBEC3A P31941 P31941 2.843 X-RAY DIFFRACTION 60 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 186 187 7d3v-a1-m1-cA_7d3v-a1-m1-cB GPRHLMDPHIFTSNFNNGIGRHKTYLCYEVERLDSVKMDQHRGFLHNQAKNLLCGFYGRHAALRFLDLVPSLQLDPAQIYRVTWFISWSPCFSWGCAGEVRAFLQENTHVRLRIFAARIYDYDPLYKEALQMLRDAGAQVSIMTYDEFKHCWDTFVDHQGAPFQPWDGLDEHSQALSGRLRAILQN GPRHLMDPHIFTSNFNNGIGRHKTYLCYEVERLDNTSVKMDQHRGFLHNQAKNLLGFYGRHAALRFLDLVPSLQLDPAQIYRVTWFISWSPCFSWGCAGEVRAFLQENTHVRLRIFAARIYDYDPLYKEALQMLRDAGAQVSIMTYDEFKHCWDTFVDHQGAPFQPWDGLDEHSQALSGRLRAILQN 4xxu-a1-m1-cA_4xxu-a1-m1-cB ModA - chromate bound P37329 P37329 1.43 X-RAY DIFFRACTION 20 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 231 231 GKITVFAAASLTNAMQDIATQFKKEKGVDVVSSFASSSTLARQIEAGAPADLFISADQKWMDYAVDKKAIDTATRQTLLGNSLVVVAPKASVQKDFTIDSKTNWTSLLNGGRLAVGDPEHVPAGIYAKEALQKLGAWDTLSPKLAPAEDVRGALALVERNEAPLGIVYGSDAVASKGVKVVATFPEDSHKKVEYPVAVVEGHNNATVKAFYDYLKGPQAAEIFKRYGFTIK GKITVFAAASLTNAMQDIATQFKKEKGVDVVSSFASSSTLARQIEAGAPADLFISADQKWMDYAVDKKAIDTATRQTLLGNSLVVVAPKASVQKDFTIDSKTNWTSLLNGGRLAVGDPEHVPAGIYAKEALQKLGAWDTLSPKLAPAEDVRGALALVERNEAPLGIVYGSDAVASKGVKVVATFPEDSHKKVEYPVAVVEGHNNATVKAFYDYLKGPQAAEIFKRYGFTIK 4xxv-a1-m1-cB_4xxv-a1-m1-cA Crystal structure of 3-isopropylmalate dehydrogenase from Burkholderia thailandensis in complex with NAD Q2T7H6 Q2T7H6 1.7 X-RAY DIFFRACTION 179 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 355 356 4iwh-a1-m1-cB_4iwh-a1-m1-cA MKIAVLPGDGIGPEIVNEAVKVLNALDEKFELEHAPVGGAGYEASGHPLPDATLALAKEADAILFGAVGDWKYDSLERALRPEQAILGLRKHLELFANFRPAICYPQLVDASPLKPELVAGLDILIVRELNGDIYFGQPRGVRAAPDGPFAGEREGFDTMRYSEPEVRRIAHVAFQAAQKRAKKLLSVDKSNVLETSQFWRDVMIDVSKEYADVELSHMYVDNAAMQLAKAPKQFDVIVTGNMFGDILSDEASMLTGSIGMLPSASLDKNNKGLYEPSHGSAPDIAGKGIANPLATILSAAMLLRYSLNRAEQADRIERAVKTVLEQGYRTGDIATPGCRQVGTAAMGDAVVAAL HMKIAVLPGDGIGPEIVNEAVKVLNALDEKFELEHAPVGGAGYEASGHPLPDATLALAKEADAILFGAVGDWKYDSLERALRPEQAILGLRKHLELFANFRPAICYPQLVDASPLKPELVAGLDILIVRELNGDIYFGQPRGVRAAPDGPFAGEREGFDTMRYSEPEVRRIAHVAFQAAQKRAKKLLSVDKSNVLETSQFWRDVMIDVSKEYADVELSHMYVDNAAMQLAKAPKQFDVIVTGNMFGDILSDEASMLTGSIGMLPSASLDKNNKGLYEPSHGSAPDIAGKGIANPLATILSAAMLLRYSLNRAEQADRIERAVKTVLEQGYRTGDIATPGCRQVGTAAMGDAVVAAL 4xyb-a1-m1-cA_4xyb-a1-m1-cB GRANULICELLA M. FORMATE DEHYDROGENASE (FDH) IN COMPLEX WITH NADP(+) AND NaN3 G8NVB5 G8NVB5 1.38 X-RAY DIFFRACTION 258 1.0 682795 (Granulicella mallensis MP5ACTX8) 682795 (Granulicella mallensis MP5ACTX8) 384 384 4xye-a1-m1-cA_4xye-a1-m1-cB 4xyg-a1-m1-cA_4xyg-a1-m2-cA AKVLCVLYDDPTSGYPPLYARNAIPKIERYPDGQTVPNPKHIDFVPGELLGCVSGELGLRSYLEDLGHTFIVTSDKEGPNSVFEKELPDADIVISQPFWPAYLTAERIAKAKKLKLALTAGIGSDHVDLNAAIKAGITVAEETFSNGICVAEHAVMMILALVRNYLPSHKIAEEGGWNIADCVSRSYDLEGMHVGTVAAGRIGLAVLRRLKPFDVKLHYTARHRSPRAIEDELGLTYHATAEEMAEVCDVISIHAPLYPATEHLFNAKVLNKMRHGSYLVNTARAEICDRDDIVRALESGQLAGYAGDVWFPQPAPANHPWRNMPHNGMTPHMSGSSLSGQARYAAGTREILECWFENRPIRDEYLIVSNGKLAGTGAKSYGVG AKVLCVLYDDPTSGYPPLYARNAIPKIERYPDGQTVPNPKHIDFVPGELLGCVSGELGLRSYLEDLGHTFIVTSDKEGPNSVFEKELPDADIVISQPFWPAYLTAERIAKAKKLKLALTAGIGSDHVDLNAAIKAGITVAEETFSNGICVAEHAVMMILALVRNYLPSHKIAEEGGWNIADCVSRSYDLEGMHVGTVAAGRIGLAVLRRLKPFDVKLHYTARHRSPRAIEDELGLTYHATAEEMAEVCDVISIHAPLYPATEHLFNAKVLNKMRHGSYLVNTARAEICDRDDIVRALESGQLAGYAGDVWFPQPAPANHPWRNMPHNGMTPHMSGSSLSGQARYAAGTREILECWFENRPIRDEYLIVSNGKLAGTGAKSYGVG 4xyp-a1-m2-cA_4xyp-a1-m3-cA Crystal structure of a piscine viral fusion protein C6F339 C6F339 2.1 X-RAY DIFFRACTION 81 1.0 55987 (Isavirus salaris) 55987 (Isavirus salaris) 70 70 4xyp-a1-m1-cA_4xyp-a1-m2-cA 4xyp-a1-m1-cA_4xyp-a1-m3-cA VKEKLNGIIDQINKVNLLLEGEIEAVRRIAYMNQASSLQNQVEIGLIGEYLNISSWLETKTLTKTEEGLM VKEKLNGIIDQINKVNLLLEGEIEAVRRIAYMNQASSLQNQVEIGLIGEYLNISSWLETKTLTKTEEGLM 4xz5-a2-m1-cC_4xz5-a2-m1-cD Structure of the thermostable alpha-Carbonic Anydrase from Thiomicrospira crunogena XCL-2 gammaproteobacterium Q31FD6 Q31FD6 2.596 X-RAY DIFFRACTION 88 1.0 317025 (Hydrogenovibrio crunogenus XCL-2) 317025 (Hydrogenovibrio crunogenus XCL-2) 230 230 4xz5-a1-m1-cA_4xz5-a1-m1-cB PPHWGYFGEEGPQYWGELAPEFSTCKTGKNQSPINLKPQTAVGTTSLPGFDVYYRETALKLINNGHTLQVNIPLGSYIKINGHRYELLQYHFHTPSEHQRDGFNYPMEMHLVHKDGDGNLAVIAILFQEGEENETLAKLMSFLPQTLKKQEIHESVKIHPAKFFPADKKFYKYSGSLTTPPCSEGVYWMVFKQPIQASVTQLEKMHEYLGSNARPVQRQNARTLLKSWPD PPHWGYFGEEGPQYWGELAPEFSTCKTGKNQSPINLKPQTAVGTTSLPGFDVYYRETALKLINNGHTLQVNIPLGSYIKINGHRYELLQYHFHTPSEHQRDGFNYPMEMHLVHKDGDGNLAVIAILFQEGEENETLAKLMSFLPQTLKKQEIHESVKIHPAKFFPADKKFYKYSGSLTTPPCSEGVYWMVFKQPIQASVTQLEKMHEYLGSNARPVQRQNARTLLKSWPD 4xz7-a1-m1-cA_4xz7-a1-m1-cB Crystal structure of a TGase A5JSJ3 A5JSJ3 2.101 X-RAY DIFFRACTION 190 0.987 1307 (Streptococcus suis) 1307 (Streptococcus suis) 378 382 NKIEVLNWEAFSKKLKDYSSDQRQFHVLKLGFENRLGTLSTREELEEFGKNNNFLVINGKVTQNIHDFPHILVMNKGDVIAHNEEDYHNQMRELRFSGNGDLHNSMEPKRIHALFKIELDSNKRQLLNAAGLGTAENSLKNINGMTIYSHGLTVDNKYYEDYSKYTHNSVKNINVTKERFIANDDLIHKLIESSEAMKQSSERDKVKAFVQYVANHTTYDWEAANKAVQNYADINYYLGSDLFAVTERQKAMCVGFSTTAARAFNMLGLPAYVVVGKNAEGVPHATARVYYDKKWHTIDGTGFITKYSEKHFSTIGEDSYDVVEAGQEPKAERNYMIIDSNYESWAMKQKTADLLLFNKEKSLVGLDYIAYVEPTYIT TNKIEVLNWEAFSKKLKDYSSDQRQFHVLKLGFENRLGTLSTREELEEFGKNNNFLVINGKVTQNIHDFPHILVMNKGDVIAHNEEDYHNQMRELRFSGNGDLHNSMEPKRIHALFKIELDSNKRQLLNAAGLGTAENSLKNINGMTIYSHGLTVDNKYYEDYSKYTHNSVKNINVTKERFIANDDLIHKLIESSEAMKQSSERDKVKAFVQYVANHTTYDWEAANKAVQNYADINYYLGSDLFAVTERQKAMCVGFSTTAARAFNMLGLPAYVVVGKNAEGVPHATARVYYDKKWHTIDGTGFITGNKHQRSAKYSEKHFSTIGEDSYDVVEAGQEPKAERNYMIIDSNYESWAMKQKTADLLLFNKEKSLVGLDYIAYVE 4xza-a1-m1-cB_4xza-a1-m1-cA The crystal structure of Erve virus nucleoprotein J3S7E7 J3S7E7 1.8 X-RAY DIFFRACTION 57 0.997 248062 (Erve virus) 248062 (Erve virus) 365 366 MENLIDFSGDGLDRWLRATFPDVILSVGLTNYGSLMTSVPDLSHFEQMARQAKSEQEKDAVYSKALTEATRKAAPIAACALTSSKEMVKKGLQWFEDQIISEDGNFLVWHQNYEQLKKAPPSFEQLMGYQMSALNWRQSVGYGQLEETAVLVSQVIAQFSVPGTLVVTVQEMIKDMIARRKNQIAQIDSVFSSYYWMWRAGITPESFPLLSDFLFELGQNARGSAKIIKTLDRIGLKWSKPLVNLFADSTFKMGRIHMHPAILTTGRLNEMGLCFGIIPASHPESAVNGSGFAKNILNVRTDGMNPSAQLIVQLFDIQRQSRTLSDLDVVSSEHLFHQILVGKRTAYQNAFQVKGNATDTKIVGF MENLIDFSDGLDRWLRATFPDVILSVGLTNYGSLMTSVPDLSHFEQMARQAKSEQEKDAVYSKALTEATRKAAPIAACALTSSKEMVKKGLQWFEDQIISEDGNFLVWHQNYEQLKKAPPSFEQLMGYQMSALNWRQSVGYGQLEETAVLVSQVIAQFSVPGTLVVTVQEMIKDMIARRVFKNQIAQIDSVFSSYYWMWRAGITPESFPLLSDFLFELGQNARGSAKIIKTLDRIGLKWSKPLVNLFADSTFKMGRIHMHPAILTTGRLNEMGLCFGIIPASHPESAVNGSGFAKNILNVRTDGMNPSAQLIVQLFDIQRQSRTLSDLDVVSSEHLFHQILVGKRTAYQNAFQVKGNATDTKIVGF 4xzz-a1-m1-cA_4xzz-a1-m1-cB Structure of Helicobacter pylori Csd6 in the ligand-free state O25255 O25255 2.03 X-RAY DIFFRACTION 55 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 316 316 4y4v-a1-m1-cA_4y4v-a1-m1-cB LNASDRLLEIMRLYQKQGLEMVGQKLDSYLADKSFWAEELQNKDTDFGYYQNKQFLFVANKSKPSLEFYEIENNMLKKINSSKALVGSKKGDKTLEGDLATPIGVYRITQKLERLDQYYGVLAFVTNYPNLYDTLKKRTGHGIWVHGMPLNGDRNELNTKGCIAIENPLLSSYDKVLKGEKAFLITYEDKFFPSTKEELSMILSSLFQWKEAWARGDFERYMRFYNPNFTRYDGMKFNAFKEYKKRVFAKNEKKNIAFSSINVIPYPNSQNKRLFYVVFDQDYKAYQHNKLSYSSNSQKELYIEIENNQVSIIMEK LNASDRLLEIMRLYQKQGLEMVGQKLDSYLADKSFWAEELQNKDTDFGYYQNKQFLFVANKSKPSLEFYEIENNMLKKINSSKALVGSKKGDKTLEGDLATPIGVYRITQKLERLDQYYGVLAFVTNYPNLYDTLKKRTGHGIWVHGMPLNGDRNELNTKGCIAIENPLLSSYDKVLKGEKAFLITYEDKFFPSTKEELSMILSSLFQWKEAWARGDFERYMRFYNPNFTRYDGMKFNAFKEYKKRVFAKNEKKNIAFSSINVIPYPNSQNKRLFYVVFDQDYKAYQHNKLSYSSNSQKELYIEIENNQVSIIMEK 4y0m-a2-m1-cD_4y0m-a2-m1-cC The reduced form of OxyR regulatory domain from Psedomonas aeruginosa Q9HTL4 Q9HTL4 2.3 X-RAY DIFFRACTION 86 0.995 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 200 203 4x6g-a2-m1-cF_4x6g-a2-m1-cE 4xws-a1-m1-cB_4xws-a1-m1-cA 4xws-a2-m1-cC_4xws-a2-m1-cD 4y0m-a1-m1-cA_4y0m-a1-m1-cB 4y0m-a3-m1-cE_4y0m-a3-m1-cF 4y0m-a4-m1-cH_4y0m-a4-m1-cG 4y0m-a5-m1-cI_4y0m-a5-m1-cJ 4y0m-a6-m1-cL_4y0m-a6-m1-cK AQLAAPLKVGAIYTIGPYLFPHLIPQLHRVAPQPLYIEENFTHILRDKLRTGELDAIIIALPFQEADVLTKPLFDEPFYVLPADHPWTAKASIDSELLNDKSLLLLGEGHCFRDQVLEACPKHTTVESSSLETIRHVASGLGVSVLPFSAVDSHHYAPGVIEVRPFSAPVPFRTVAIAWRASFPRPRAIEVLADSIRLCS AQLAAPLKVGAIYTIGPYLFPHLIPQLHRVAPQPLYIEENFTHILRDKLRTGELDAIIIALPFQEADVLTKPLFDEPFYVLPADHPWTAKASIDSELLNDKSLLLLGEGHCFRDQVLEACPHTTVESSSLETIRHVASGLGVSVLPFSAVDSHHYAPGVIEVRPFSAPVPFRTVAIAWRASFPRPRAIEVLADSIRLCSVARP 4y15-a2-m1-cB_4y15-a2-m2-cB SdiA in complex with 3-oxo-C6-homoserine lactone Q8XBD0 Q8XBD0 2.835 X-RAY DIFFRACTION 108 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 237 237 4lfu-a1-m1-cA_4lfu-a1-m2-cA 4lgw-a1-m1-cA_4lgw-a1-m2-cA 4y13-a1-m1-cA_4y13-a1-m2-cA 4y15-a1-m1-cA_4y15-a1-m1-cC 4y17-a1-m1-cA_4y17-a1-m1-cC 4y17-a2-m1-cB_4y17-a2-m2-cB DFFSWRRTMLLRFQRMETAEEVYHEIELQAQQLEYDYYSLCVRHPVPFTRPKVAFYTNYPEAWVSYYQAKNFLAIDPVLNPENFSQGHLMWNDDLFNEAQPLWEAARAHGLRRGVTQYLMLPNRALGFLSFSRCSAREIPILSDELQLKMQLLVRESLMALMRLNDEIVMTPEMNFSKREKEILRWTAEGKTSAEIAMILSISENTVNFHQKNMQKKINAPNKTQVACYAAATGLIH DFFSWRRTMLLRFQRMETAEEVYHEIELQAQQLEYDYYSLCVRHPVPFTRPKVAFYTNYPEAWVSYYQAKNFLAIDPVLNPENFSQGHLMWNDDLFNEAQPLWEAARAHGLRRGVTQYLMLPNRALGFLSFSRCSAREIPILSDELQLKMQLLVRESLMALMRLNDEIVMTPEMNFSKREKEILRWTAEGKTSAEIAMILSISENTVNFHQKNMQKKINAPNKTQVACYAAATGLIH 4y1l-a1-m1-cB_4y1l-a1-m1-cA Ubc9 Homodimer The Missing Link in Poly-SUMO Chain Formation P63279 P63279 2.7 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 158 MSGIALSRLAQERKAWRKDHPFGFVAVPTKNPDGTMNLMNWECAIPGKKGTPWEGGLFKLRMLFKDDYPSSPPKCKFEPPLFHPNVYPSGTVCLSILEEDKDWRPAITIKQILLGIQELLNEPNIQDPAQAEAYTIYCQNRVEYEKRVRAQAKKFAP MSGIALSRLAQERKAWRKDHPFGFVAVPTKNPDGTMNLMNWECAIPGKKGTPWEGGLFKLRMLFKDDYPSSPPKCKFEPPLFHPNVYPSGTVCLSILEEDKDWRPAITIKQILLGIQELLNEPNIQDPAQAEAYTIYCQNRVEYEKRVRAQAKKFAPS 4y1p-a1-m1-cA_4y1p-a1-m2-cB Crystal structure of 3-isopropylmalate dehydrogenase (Saci_0600) from Sulfolobus acidocaldarius complex with 3-isopropylmalate and Mg2+ Q4JB37 Q4JB37 2.2 X-RAY DIFFRACTION 11 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 335 336 4y1p-a1-m2-cA_4y1p-a1-m1-cB GFVVALIQGDGIGPEVVSKSKTILARLNEKFSLPIEYIEVEAGDTTKNKFGDALPKDSLRVIEKADMILKGPVGETAADVVVKLRLMYDLYANLRPAKSLPGLNKFGDVDILVVRENTEDLYKGLEHVISDGVTVGIKVITRAASTRIAQVALNQALRRKKKVVCVHKSNVMRITDGLFAESCRNVLKGKVEYSEMYVDAAAANLVRNPQAFDVIVTENTYGDILSDEAGQIAGSLGISPSANIGDRKSLFEPVHGAAFDIAGKNIANPTAFLLSVGMMLDRMQELSGDIRYNNAAKSLRDAIYSVYSEGKYLTPDVGGSSTTDEMISAIRSKIG GFVVALIQGDGIGPEVVSKSKTILARLNEKFSLPIEYIEVEAGDTTKNKFGDALPKDSLRVIEKADMILKGPVGETAADVVVKLRLMYDLYANLRPAKSLPGLENKFGDVDILVVRENTEDLYKGLEHVISDGVTVGIKVITRAASTRIAQVALNQALRRKKKVVCVHKSNVMRITDGLFAESCRNVLKGKVEYSEMYVDAAAANLVRNPQAFDVIVTENTYGDILSDEAGQIAGSLGISPSANIGDRKSLFEPVHGAAFDIAGKNIANPTAFLLSVGMMLDRMQELSGDIRYNNAAKSLRDAIYSVYSEGKYLTPDVGGSSTTDEMISAIRSKIG 4y1p-a1-m1-cB_4y1p-a1-m2-cB Crystal structure of 3-isopropylmalate dehydrogenase (Saci_0600) from Sulfolobus acidocaldarius complex with 3-isopropylmalate and Mg2+ Q4JB37 Q4JB37 2.2 X-RAY DIFFRACTION 148 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 336 336 4y1p-a1-m1-cA_4y1p-a1-m2-cA GFVVALIQGDGIGPEVVSKSKTILARLNEKFSLPIEYIEVEAGDTTKNKFGDALPKDSLRVIEKADMILKGPVGETAADVVVKLRLMYDLYANLRPAKSLPGLENKFGDVDILVVRENTEDLYKGLEHVISDGVTVGIKVITRAASTRIAQVALNQALRRKKKVVCVHKSNVMRITDGLFAESCRNVLKGKVEYSEMYVDAAAANLVRNPQAFDVIVTENTYGDILSDEAGQIAGSLGISPSANIGDRKSLFEPVHGAAFDIAGKNIANPTAFLLSVGMMLDRMQELSGDIRYNNAAKSLRDAIYSVYSEGKYLTPDVGGSSTTDEMISAIRSKIG GFVVALIQGDGIGPEVVSKSKTILARLNEKFSLPIEYIEVEAGDTTKNKFGDALPKDSLRVIEKADMILKGPVGETAADVVVKLRLMYDLYANLRPAKSLPGLENKFGDVDILVVRENTEDLYKGLEHVISDGVTVGIKVITRAASTRIAQVALNQALRRKKKVVCVHKSNVMRITDGLFAESCRNVLKGKVEYSEMYVDAAAANLVRNPQAFDVIVTENTYGDILSDEAGQIAGSLGISPSANIGDRKSLFEPVHGAAFDIAGKNIANPTAFLLSVGMMLDRMQELSGDIRYNNAAKSLRDAIYSVYSEGKYLTPDVGGSSTTDEMISAIRSKIG 4y1p-a1-m2-cA_4y1p-a1-m2-cB Crystal structure of 3-isopropylmalate dehydrogenase (Saci_0600) from Sulfolobus acidocaldarius complex with 3-isopropylmalate and Mg2+ Q4JB37 Q4JB37 2.2 X-RAY DIFFRACTION 23 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 335 336 4y1p-a1-m1-cA_4y1p-a1-m1-cB GFVVALIQGDGIGPEVVSKSKTILARLNEKFSLPIEYIEVEAGDTTKNKFGDALPKDSLRVIEKADMILKGPVGETAADVVVKLRLMYDLYANLRPAKSLPGLNKFGDVDILVVRENTEDLYKGLEHVISDGVTVGIKVITRAASTRIAQVALNQALRRKKKVVCVHKSNVMRITDGLFAESCRNVLKGKVEYSEMYVDAAAANLVRNPQAFDVIVTENTYGDILSDEAGQIAGSLGISPSANIGDRKSLFEPVHGAAFDIAGKNIANPTAFLLSVGMMLDRMQELSGDIRYNNAAKSLRDAIYSVYSEGKYLTPDVGGSSTTDEMISAIRSKIG GFVVALIQGDGIGPEVVSKSKTILARLNEKFSLPIEYIEVEAGDTTKNKFGDALPKDSLRVIEKADMILKGPVGETAADVVVKLRLMYDLYANLRPAKSLPGLENKFGDVDILVVRENTEDLYKGLEHVISDGVTVGIKVITRAASTRIAQVALNQALRRKKKVVCVHKSNVMRITDGLFAESCRNVLKGKVEYSEMYVDAAAANLVRNPQAFDVIVTENTYGDILSDEAGQIAGSLGISPSANIGDRKSLFEPVHGAAFDIAGKNIANPTAFLLSVGMMLDRMQELSGDIRYNNAAKSLRDAIYSVYSEGKYLTPDVGGSSTTDEMISAIRSKIG 4y1r-a1-m1-cB_4y1r-a1-m1-cA SAV1875-cysteinesulfonic acid P0A0K0 P0A0K0 1.65 X-RAY DIFFRACTION 44 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 168 170 4y0n-a1-m1-cA_4y0n-a1-m1-cB 4y1e-a1-m1-cA_4y1e-a1-m1-cB 4y1f-a1-m1-cB_4y1f-a1-m1-cA 4y1g-a1-m1-cA_4y1g-a1-m1-cB KVAIILANEFEDIEYSSPKEALENAGFNTVVIGDTANSEVVGKHGEKVTVDVGIAEAKPEDYDALLIPGGFSPDHLRGDTEGRYGTFAKYFTKNDVPTFAIHGPQILIDTDDLKGRTLTAVLNVRKDLSNAGAHVVDESVVVDNNIVTSRVPDDLDDFNREIVKQLQL TKKVAIILANEFEDIEYSSPKEALENAGFNTVVIGDTANSEVVGKHGEKVTVDVGIAEAKPEDYDALLIPGGFSPDHLRGDTEGRYGTFAKYFTKNDVPTFAIHGPQILIDTDDLKGRTLTAVLNVRKDLSNAGAHVVDESVVVDNNIVTSRVPDDLDDFNREIVKQLQL 4y2f-a1-m1-cA_4y2f-a1-m2-cA CRYSTAL STRUCTURE OF NATIVE GAF DOMAIN of POTASSIUM SENSOR HISTIDINE KINASE KDPD FROM ESCHERICHIA COLI P21865 P21865 1.396 X-RAY DIFFRACTION 56 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 143 143 4qpr-a1-m1-cA_4qpr-a1-m2-cA GAMDLYEMSKALAVGRSPQDIAATSEQFIASTFHARSQVLLPDDNGKLQPLTHPQGMTPWDDAIAQWSFDKGLPAGAGTDTLPGVPYQILPLKSGEKTYGLVVVEPGNLRQLMIPEQQRLLETFTLLVANALERLTKLAAALE GAMDLYEMSKALAVGRSPQDIAATSEQFIASTFHARSQVLLPDDNGKLQPLTHPQGMTPWDDAIAQWSFDKGLPAGAGTDTLPGVPYQILPLKSGEKTYGLVVVEPGNLRQLMIPEQQRLLETFTLLVANALERLTKLAAALE 4y2n-a2-m5-cC_4y2n-a2-m8-cC Structure of CFA/I pili major subunit CfaB trimer E3PPC4 E3PPC4 2.4 X-RAY DIFFRACTION 35 1.0 316401 (Escherichia coli ETEC H10407) 316401 (Escherichia coli ETEC H10407) 147 147 4y2n-a1-m1-cA_4y2n-a1-m1-cB 4y2n-a1-m2-cA_4y2n-a1-m2-cB 4y2n-a1-m4-cA_4y2n-a1-m4-cB 4y2n-a2-m1-cC_4y2n-a2-m7-cC 4y2n-a2-m3-cC_4y2n-a2-m6-cC HHEKNITVTASVDPVIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG HHEKNITVTASVDPVIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG 4y2n-a2-m7-cC_4y2n-a2-m8-cC Structure of CFA/I pili major subunit CfaB trimer E3PPC4 E3PPC4 2.4 X-RAY DIFFRACTION 129 1.0 316401 (Escherichia coli ETEC H10407) 316401 (Escherichia coli ETEC H10407) 147 147 4y2l-a1-m1-cA_4y2l-a1-m1-cD 4y2l-a1-m1-cA_4y2l-a1-m1-cE 4y2l-a1-m1-cD_4y2l-a1-m1-cE 4y2l-a2-m1-cB_4y2l-a2-m1-cF 4y2l-a2-m1-cC_4y2l-a2-m1-cB 4y2l-a2-m1-cC_4y2l-a2-m1-cF 4y2n-a1-m1-cA_4y2n-a1-m2-cA 4y2n-a1-m1-cA_4y2n-a1-m4-cA 4y2n-a1-m1-cB_4y2n-a1-m2-cB 4y2n-a1-m1-cB_4y2n-a1-m4-cB 4y2n-a1-m2-cA_4y2n-a1-m4-cA 4y2n-a1-m2-cB_4y2n-a1-m4-cB 4y2n-a2-m1-cC_4y2n-a2-m3-cC 4y2n-a2-m1-cC_4y2n-a2-m5-cC 4y2n-a2-m3-cC_4y2n-a2-m5-cC 4y2n-a2-m6-cC_4y2n-a2-m7-cC 4y2n-a2-m6-cC_4y2n-a2-m8-cC 6nrv-a1-m1-cA_6nrv-a1-m1-cB 6nrv-a1-m1-cA_6nrv-a1-m1-cC 6nrv-a1-m1-cB_6nrv-a1-m1-cD 6nrv-a1-m1-cC_6nrv-a1-m1-cE 6nrv-a1-m1-cD_6nrv-a1-m1-cF 6nrv-a1-m1-cE_6nrv-a1-m1-cG 6nrv-a1-m1-cF_6nrv-a1-m1-cH 6nrv-a1-m1-cG_6nrv-a1-m1-cI 6nrv-a1-m1-cH_6nrv-a1-m1-cJ 6nrv-a1-m1-cI_6nrv-a1-m1-cK 6nrv-a1-m1-cJ_6nrv-a1-m1-cL 6nrv-a1-m1-cK_6nrv-a1-m1-cM 8ehr-a1-m1-cA_8ehr-a1-m1-cB 8ehr-a1-m1-cA_8ehr-a1-m1-cF 8ehr-a1-m1-cB_8ehr-a1-m1-cG 8ehr-a1-m1-cC_8ehr-a1-m1-cG 8ehr-a1-m1-cD_8ehr-a1-m1-cE 8ehr-a1-m1-cE_8ehr-a1-m1-cF HHEKNITVTASVDPVIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG HHEKNITVTASVDPVIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG 4y2w-a1-m1-cA_4y2w-a1-m1-cB Crystal structure of a thermostable alanine racemase from Thermoanaerobacter tengcongensis MB4 Q8RAK6 Q8RAK6 2.7 X-RAY DIFFRACTION 221 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 388 388 VKFDGVRPTRVEVYLDAITHNFREIKKIVGKNVKIMAVIKGDAYGHGASYVAKFLEKEGVDYFGVATTEEALELREKGIKTPILIFGYTPPTQLRQIVKHDLTQTVYDIKYAKELEKESLKQNKRAKVHIKIDTGLGRIGYIDFDLAQKEILEMANMRGLILEGIYSHFAAASEDDRDYCKEQFDKFMNLISSLEKKRLKIPLKHIANAAAILNLNYSHLDMVRPGIILFGAYPSKRVERKVELRETLRFTTRVVHLKDVPAGFFIGYGKSFVTKRKSVIATIPVGYADGLDRRLSNNYKLLLKGKYVPIVGRVCMDQCMIDVTDVEGVEIGDEVVIIGTQNNETVSVESMADKIETIPQEVFSRISRRVPRVYFYDGIKIGEVNYLK VKFDGVRPTRVEVYLDAITHNFREIKKIVGKNVKIMAVIKGDAYGHGASYVAKFLEKEGVDYFGVATTEEALELREKGIKTPILIFGYTPPTQLRQIVKHDLTQTVYDIKYAKELEKESLKQNKRAKVHIKIDTGLGRIGYIDFDLAQKEILEMANMRGLILEGIYSHFAAASEDDRDYCKEQFDKFMNLISSLEKKRLKIPLKHIANAAAILNLNYSHLDMVRPGIILFGAYPSKRVERKVELRETLRFTTRVVHLKDVPAGFFIGYGKSFVTKRKSVIATIPVGYADGLDRRLSNNYKLLLKGKYVPIVGRVCMDQCMIDVTDVEGVEIGDEVVIIGTQNNETVSVESMADKIETIPQEVFSRISRRVPRVYFYDGIKIGEVNYLK 4y4l-a2-m3-cC_4y4l-a2-m7-cD Crystal structure of yeast Thi4-C205S P32318 P32318 2 X-RAY DIFFRACTION 107 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 299 303 3fpz-a1-m1-cB_3fpz-a1-m3-cA 3fpz-a1-m2-cB_3fpz-a1-m4-cA 3fpz-a1-m3-cB_3fpz-a1-m2-cA 3fpz-a1-m4-cB_3fpz-a1-m1-cA 4y4l-a1-m1-cB_4y4l-a1-m4-cA 4y4l-a1-m2-cB_4y4l-a1-m6-cA 4y4l-a1-m4-cB_4y4l-a1-m2-cA 4y4l-a1-m6-cB_4y4l-a1-m1-cA 4y4l-a2-m1-cC_4y4l-a2-m5-cD 4y4l-a2-m5-cC_4y4l-a2-m3-cD 4y4l-a2-m7-cC_4y4l-a2-m1-cD THCLSDIVKKEDWSDFKFAPIRESTVSRAMTSRYFKDLDKFAVSDVIIVGAGSSGLSAAYVIAKNRPDLKVCIIESSVAPGGGSWLGGQLFSAMVMRKPAHLFLQELEIPYEDEGDYVVVKHAALFISTVLSKVLQLPNVKLFNATCVEDLVTRPPGEVTVAGVVTNWTLVTQAHGTCSMDPNVIELAGYKNDGTRDLSQKHGVILSTTGHDGPFGAFCAKRIVDIDQNQKLGGMKGLDMNHAEHDVVIHSGAYAGVDNMYFAGMEVAELDGLNRMGPTFGAMALSGVHAAEQILKHFA VTHCLSDIVKKEDWSDFKFAPIRESTVSRAMTSRYFKDLDKFAVSDVIIVGAGSSGLSAAYVIAKNRPDLKVCIIESSVAPGGGSWLGGQLFSAMVMRKPAHLFLQELEIPYEDEGDYVVVKHAALFISTVLSKVLQLPNVKLFNATCVEDLVTRPPTEKGEVTVAGVVTNWTLVTQAHGTCSMDPNVIELAGYKNDGTRDLSQKHGVILSTTGHDGPFGAFCAKRIVDIDQNQKLGGMKGLDMNHAEHDVVIHSGAYAGVDNMYFAGMEVAELDGLNRMGPTFGAMALSGVHAAEQILKHFA 4y4l-a2-m3-cD_4y4l-a2-m7-cD Crystal structure of yeast Thi4-C205S P32318 P32318 2 X-RAY DIFFRACTION 73 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 303 303 3fpz-a1-m1-cA_3fpz-a1-m3-cA 3fpz-a1-m1-cA_3fpz-a1-m4-cA 3fpz-a1-m1-cB_3fpz-a1-m3-cB 3fpz-a1-m1-cB_3fpz-a1-m4-cB 3fpz-a1-m2-cA_3fpz-a1-m3-cA 3fpz-a1-m2-cA_3fpz-a1-m4-cA 3fpz-a1-m2-cB_3fpz-a1-m3-cB 3fpz-a1-m2-cB_3fpz-a1-m4-cB 4y4l-a1-m1-cA_4y4l-a1-m4-cA 4y4l-a1-m1-cA_4y4l-a1-m6-cA 4y4l-a1-m1-cB_4y4l-a1-m4-cB 4y4l-a1-m1-cB_4y4l-a1-m6-cB 4y4l-a1-m2-cA_4y4l-a1-m4-cA 4y4l-a1-m2-cA_4y4l-a1-m6-cA 4y4l-a1-m2-cB_4y4l-a1-m4-cB 4y4l-a1-m2-cB_4y4l-a1-m6-cB 4y4l-a2-m1-cC_4y4l-a2-m5-cC 4y4l-a2-m1-cC_4y4l-a2-m7-cC 4y4l-a2-m1-cD_4y4l-a2-m5-cD 4y4l-a2-m1-cD_4y4l-a2-m7-cD 4y4l-a2-m3-cC_4y4l-a2-m5-cC 4y4l-a2-m3-cC_4y4l-a2-m7-cC 4y4l-a2-m3-cD_4y4l-a2-m5-cD VTHCLSDIVKKEDWSDFKFAPIRESTVSRAMTSRYFKDLDKFAVSDVIIVGAGSSGLSAAYVIAKNRPDLKVCIIESSVAPGGGSWLGGQLFSAMVMRKPAHLFLQELEIPYEDEGDYVVVKHAALFISTVLSKVLQLPNVKLFNATCVEDLVTRPPTEKGEVTVAGVVTNWTLVTQAHGTCSMDPNVIELAGYKNDGTRDLSQKHGVILSTTGHDGPFGAFCAKRIVDIDQNQKLGGMKGLDMNHAEHDVVIHSGAYAGVDNMYFAGMEVAELDGLNRMGPTFGAMALSGVHAAEQILKHFA VTHCLSDIVKKEDWSDFKFAPIRESTVSRAMTSRYFKDLDKFAVSDVIIVGAGSSGLSAAYVIAKNRPDLKVCIIESSVAPGGGSWLGGQLFSAMVMRKPAHLFLQELEIPYEDEGDYVVVKHAALFISTVLSKVLQLPNVKLFNATCVEDLVTRPPTEKGEVTVAGVVTNWTLVTQAHGTCSMDPNVIELAGYKNDGTRDLSQKHGVILSTTGHDGPFGAFCAKRIVDIDQNQKLGGMKGLDMNHAEHDVVIHSGAYAGVDNMYFAGMEVAELDGLNRMGPTFGAMALSGVHAAEQILKHFA 4y4l-a2-m7-cC_4y4l-a2-m7-cD Crystal structure of yeast Thi4-C205S P32318 P32318 2 X-RAY DIFFRACTION 254 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 299 303 3fpz-a1-m1-cB_3fpz-a1-m1-cA 3fpz-a1-m2-cB_3fpz-a1-m2-cA 3fpz-a1-m3-cB_3fpz-a1-m3-cA 3fpz-a1-m4-cB_3fpz-a1-m4-cA 4y4l-a1-m1-cB_4y4l-a1-m1-cA 4y4l-a1-m2-cB_4y4l-a1-m2-cA 4y4l-a1-m4-cB_4y4l-a1-m4-cA 4y4l-a1-m6-cB_4y4l-a1-m6-cA 4y4l-a2-m1-cC_4y4l-a2-m1-cD 4y4l-a2-m3-cC_4y4l-a2-m3-cD 4y4l-a2-m5-cC_4y4l-a2-m5-cD THCLSDIVKKEDWSDFKFAPIRESTVSRAMTSRYFKDLDKFAVSDVIIVGAGSSGLSAAYVIAKNRPDLKVCIIESSVAPGGGSWLGGQLFSAMVMRKPAHLFLQELEIPYEDEGDYVVVKHAALFISTVLSKVLQLPNVKLFNATCVEDLVTRPPGEVTVAGVVTNWTLVTQAHGTCSMDPNVIELAGYKNDGTRDLSQKHGVILSTTGHDGPFGAFCAKRIVDIDQNQKLGGMKGLDMNHAEHDVVIHSGAYAGVDNMYFAGMEVAELDGLNRMGPTFGAMALSGVHAAEQILKHFA VTHCLSDIVKKEDWSDFKFAPIRESTVSRAMTSRYFKDLDKFAVSDVIIVGAGSSGLSAAYVIAKNRPDLKVCIIESSVAPGGGSWLGGQLFSAMVMRKPAHLFLQELEIPYEDEGDYVVVKHAALFISTVLSKVLQLPNVKLFNATCVEDLVTRPPTEKGEVTVAGVVTNWTLVTQAHGTCSMDPNVIELAGYKNDGTRDLSQKHGVILSTTGHDGPFGAFCAKRIVDIDQNQKLGGMKGLDMNHAEHDVVIHSGAYAGVDNMYFAGMEVAELDGLNRMGPTFGAMALSGVHAAEQILKHFA 4y4s-a1-m1-cA_4y4s-a1-m2-cA Crystal Structure of Y75A HasA dimer from Yersinia pseudotuberculosis Q66G68 Q66G68 1.75 X-RAY DIFFRACTION 370 1.0 273123 (Yersinia pseudotuberculosis IP 32953) 273123 (Yersinia pseudotuberculosis IP 32953) 155 155 MSTTIQYNSNYADYSISSYLREWANNFGGSSTLFSGTQYAIGSSHSNPEGMIAEGDLKASFMPQHTFHGQIDTLQFGKDLATNAGGPSAGKHLEKIDITFNELDLSGEFDDMHKSVRGLMKGNPDPMLEVMKAKGINVDTAFKDLSIASQYPDSG MSTTIQYNSNYADYSISSYLREWANNFGGSSTLFSGTQYAIGSSHSNPEGMIAEGDLKASFMPQHTFHGQIDTLQFGKDLATNAGGPSAGKHLEKIDITFNELDLSGEFDDMHKSVRGLMKGNPDPMLEVMKAKGINVDTAFKDLSIASQYPDSG 4y5t-a1-m1-cB_4y5t-a1-m1-cA Structure of FtmOx1 apo with metal Iron Q4WAW9 Q4WAW9 1.949 X-RAY DIFFRACTION 170 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 285 289 4y5s-a1-m1-cB_4y5s-a1-m1-cA 6oxh-a1-m1-cA_6oxh-a1-m1-cB 6oxj-a1-m1-cB_6oxj-a1-m1-cA 7de0-a1-m1-cB_7de0-a1-m1-cC 7de0-a2-m1-cA_7de0-a2-m1-cD 7etk-a1-m1-cA_7etk-a1-m1-cB 7etl-a1-m1-cB_7etl-a1-m1-cA 7wsb-a1-m1-cA_7wsb-a1-m1-cB 7wsb-a2-m1-cC_7wsb-a2-m1-cD 7wsb-a3-m1-cE_7wsb-a3-m1-cF KPQLQRLAADADVDRMCRLLEEDGAFILKGLLPFDVVESFNRELDVQMAIPPPKGERLLADKYPPHFKYVPNVATTCPTFRNTVLINPVIHAICEAYFQRTGDYWLSAAFLREIESGMPAQPFHRDDATHPLMHYQPLEAPPVSLSVIFPLTEFTEENGATEVILGSHRWTEVGTPERDQAVLATMDPGDVLIVRQRVVHAGGGNRTTAGKPRRVVLAYFNSVQLTPFETYRTMPREMVESMTVLGQRMLGWRTMKPSDPNIVGINLIDDKRLENVLQLKAADSP DSKPQLQRLAADADVDRMCRLLEEDGAFILKGLLPFDVVESFNRELDVQMAIPPPKGERLLADKYPPHFKYVPNVATTCPTFRNTVLINPVIHAICEAYFQRTGDYWLSAAFLREIESGMPAQPFHRDDATHPLMHYQPLEAPPVSLSVIFPLTEFTEENGATEVILGSHRWTEVGTPERDQAVLATMDPGDVLIVRQRVVHAGGGNRTTAGKPRRVVLAYFNSVQLTPFETYRTMPREMVESMTVLGQRMLGWRTMKPSDPNIVGINLIDDKRLENVLQLKAADSPAL 4y5u-a1-m1-cB_4y5u-a1-m1-cA Transcription factor P42226 P42226 2.708 X-RAY DIFFRACTION 63 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 437 444 FKTGLRRLQHRVGEIHLLREALAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAPLQERCESLVDIYSQLQQEVASLTGRLDEVLRTLVTSCFLVEKQPPQVLKTQTKFQAGVRFLLGLRFLGAPAKPPLVRADMVTEKQAREEIINNTVPLENSIPGNCCSALFKNLLLKEEKCAVLFSASFTLLPIQLQALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEVGTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISKQYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGQDGSPQIENIQPFSAKDLSIRSLGDRIRDLAQLKNLYPKKPKDEAFRGRGVPATIKMTVE FKTGLRRLQHRVGEIHLLREALKGAELAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAPLQERCESLVDIYSQLQQEVGRASLTGRLDEVLRTLVTSCFLVEKQPPQVLKTQTKFQAGVRFLLGLRFLGAPAKPPLVRADMVTEKQAREEIINNTVPLENSIPGNCCSALFKNLLLKEEKCAVLFSASFTLPIQLQALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEVGTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISKQYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGQDGSPQIENIQPFSAKDLSIRSLGDRIRDLAQLKNLYPKKPKDEAFRDGRGVPATIKMTVE 4y5v-a2-m1-cG_4y5v-a2-m2-cG Diabody 305 complex with EpoR 2.604 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 4y5v-a1-m1-cA_4y5v-a1-m1-cD SEVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKPDGSEKYYVDSVKGRFTISRDNAKNSVYLQMNSLRAEDTAVYYCARVSRGGSYSDWGQGTLVTVSS SEVQLVESGGGLVQPGGSLRLSCAASGFTFSSYWMSWVRQAPGKGLEWVANIKPDGSEKYYVDSVKGRFTISRDNAKNSVYLQMNSLRAEDTAVYYCARVSRGGSYSDWGQGTLVTVSS 4y5x-a2-m1-cF_4y5x-a2-m1-cI Diabody 305 complex with EpoR P19235 P19235 3.15 X-RAY DIFFRACTION 62 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 206 207 4y5x-a1-m1-cC_4y5x-a1-m1-cL FESKAALLAARGPEELLCFTERLEDLVCFWEEAAGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGQGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPS KFESKAALLAARGPEELLCFTERLEDLVCFWEEAPGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGQGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPS 4y5y-a1-m1-cA_4y5y-a1-m1-cD Diabody 330 complex with EpoR 2.85 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 117 EVQLVESGGGLVQPGGSLRLSCAVSGFTFSYWMTWVRQAPGKGLEWVANIPDGSEKYYVESVKGRFTISRDNAKNSVYLQMNSVRAEDTAVYYCARVSRGGSFSDWGQGTLVTVSS EVQLVESGGGLVQPGGSLRLSCAVSGFTFSYWMTWVRQAPGKGLEWVANIPDGSEKYYVESVKGRFTISRDNAKNSVYLQMNSVRAEDTAVYYCARVSRGGSFSDWGQGTLVTVSSG 4y6i-a1-m1-cC_4y6i-a1-m1-cB Crystal structure of E.coli CutA1 E61V/C16A/C39A/C79A mutation P69488 P69488 1.7 X-RAY DIFFRACTION 81 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 103 108 4y65-a1-m1-cB_4y65-a1-m1-cA 4y65-a1-m1-cC_4y65-a1-m1-cA 4y65-a1-m1-cC_4y65-a1-m1-cB ASVVVLATAPDEATAQDLAAKVLAEKLAAAATLIPGATSLYYWEGKLEQEYVVQMILKTTVSHQQALLEALKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR KSSNTASVVVLATAPDEATAQDLAAKVLAEKLAAAATLIPGATSLYYWEGKLEQEYVVQMILKTTVSHQQALLEALKSHHPYQTPELLVLPVTHGDTDYLSWLNASLR 4y6t-a3-m1-cD_4y6t-a3-m1-cE Structure of Tobacco streak virus coat protein dimer at 2.4 Angstroms resolution A7UMQ4 A7UMQ4 2.4 X-RAY DIFFRACTION 72 0.993 12317 (Tobacco streak virus) 12317 (Tobacco streak virus) 143 147 4y6t-a1-m1-cF_4y6t-a1-m1-cA 4y6t-a2-m1-cB_4y6t-a2-m1-cC 4y6x-a3-m1-cC_4y6x-a3-m4-cC LKLPNNQVWVTRKASEWSAKTNDAIPFKTIVEGIPEINSETKFYRLLIGFVAVSDGTFGMVDGVGDVIPDPPVVGRLGFKKNTYRSRDFDLGGKLLNQLDDRAIVWLDERRRDAKRVQLAGYWIAISKPAPLMPPEDFLVNQD SLKLPNNQVWVTRKASEWSAKTIDTNDAIPFKTIVEGIPEINSETKFYRLLIGFVAVSDGTFGMVDGVTDVIPDPPVVGRLGFKKNTYRSRDFDLGGKLLNQLDDRAIVWLDERRRDAKRVQLAGYWIAISKPAPLMPPEDFLVNQD 4y6w-a1-m1-cA_4y6w-a1-m2-cA Crystal structure of Podosopora anserina putative kinesin light chain nearly identical TPR-like repeats A0A090CRQ5 A0A090CRQ5 1.587 X-RAY DIFFRACTION 110 1.0 211 211 4y6c-a1-m1-cA_4y6c-a1-m2-cA MEHPSRLRSQHELARRYQQNGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQRQEAQELLEQVRAIQAKTQRS MEHPSRLRSQHELARRYQQNGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQVQEAVELLEQVVAIQAKTLRSEHPSRLASQHELARAYQANGQRQEAQELLEQVRAIQAKTQRS 4y6x-a2-m1-cB_4y6x-a2-m3-cB Structure of Tobacco streak virus coat protein at 2.1 Angstroms resolution (C2 crystal form) A7UMQ4 A7UMQ4 2.1 X-RAY DIFFRACTION 75 1.0 12317 (Tobacco streak virus) 12317 (Tobacco streak virus) 145 145 4y6x-a1-m1-cA_4y6x-a1-m2-cA SLKLPNNQVWVTRKASEWSAKTITNDAIPFKTIVEGIPEINSETKFYRLLIGFVAVSDGTFGMVDGVVIPDPPVVGRLGFKKNTYRSRDFDLGGKLLNQLDDRAIVWCLDERRRDAKRVQLAGYWIAISKPAPLMPPEDFLVNQD SLKLPNNQVWVTRKASEWSAKTITNDAIPFKTIVEGIPEINSETKFYRLLIGFVAVSDGTFGMVDGVVIPDPPVVGRLGFKKNTYRSRDFDLGGKLLNQLDDRAIVWCLDERRRDAKRVQLAGYWIAISKPAPLMPPEDFLVNQD 4y7d-a3-m2-cB_4y7d-a3-m1-cA Alpha/beta hydrolase fold protein from Nakamurella multipartita C8X7A4 C8X7A4 1.68 X-RAY DIFFRACTION 22 1.0 479431 (Nakamurella multipartita DSM 44233) 479431 (Nakamurella multipartita DSM 44233) 282 283 SVQTVSTARGEVDCVIVGAGPPVLVVHGSPGGHDAGLAARFLVAEGLRAIVVDRPGYFGTPLGSGVTPDEQAELYAALFDALGLAAAGVLCWSGGGPSSYRLAARHPDRVRALVSVAAVSHRYHFDGEKGAEKVLGTGLGRRLQLAAHTPEKLVSATIAAEGHLSKEHVAERVAQIADPDKERFTLELAVSANHSGPRKAGFDNDDQFARIDSLELDRITAPTLVVSGTADSDVDPEFSRFAAAQIAGSELVHLDAGTHLAFWVHPDSGPVRRRAAELLRAG SVQTVSTARGEVDCVIVGAGPPVLVVHGSPGGHDAGLAARFLVAEGLRAIVVDRPGYFGTPLGSGVTPDEQAELYAALFDALGLAAAGVLCWSGGGPSSYRLAARHPDRVRALVSVAAVSHRYHFDGEKGAEKVLGTGLGRRLQLAAHTPEKLVSATIAAEGHLSKEHVAERVAQIADPDKERFTLELAVSANHSGPRKAGFDNDDQFARIDSLELDRITAPTLVVSGTADSDVDPEFSRFAAAQIAGSELVHLDAGTHLAFWVHPDSGPVRRRAAELLRAGG 4y7e-a3-m1-cB_4y7e-a3-m1-cA Crystal structure of beta-mannanase from Streptomyces thermolilacinus with mannohexaose F5HR99 F5HR99 1.5 X-RAY DIFFRACTION 60 1.0 285540 (Streptomyces thermolilacinus) 285540 (Streptomyces thermolilacinus) 298 302 TGLHVQGGRLLEGNGNDFVMRGVNHAHTWYPGQTRSLADIKALGANTVRVVLSDGHRWTRNGPADVAAVIDRCKANRLICVLEVHDTTGYGEEPAAGTLDHAADYWISLMDVLAGQEDYVIVNIGNEPWGNTDPAGWTAPTIAAVKKLRAAGLAHTLMIDAPNWGQDWQGVMRADARSVYEADPTGNLLFSIHMYSVFDTAAEIDDYLEAFVDAGLPLVIGAFGGPPDQWGDPDEDTMLAAAERLRLGYLAWSWSGNTDPVLDLAIGFDPDRLSGWGQRVFHGVHGIGETSREATVFG VTGLHVQGGRLLEGNGNDFVMRGVNHAHTWYPGQTRSLADIKALGANTVRVVLSDGHRWTRNGPADVAAVIDRCKANRLICVLEVHDTTGYGEEPAAGTLDHAADYWISLMDVLAGQEDYVIVNIGNEPWGNTDPAGWTAPTIAAVKKLRAAGLAHTLMIDAPNWGQDWQGVMRADARSVYEADPTGNLLFSIHMYSVFDTAAEIDDYLEAFVDAGLPLVIGAFGGPPDQWGDPDEDTMLAAAERLRLGYLAWSWSGNTDPVLDLAIGFDPDRLSGWGQRVFHGVHGIGETSREATVFGKLA 4y7i-a1-m1-cA_4y7i-a1-m1-cB Crystal Structure of MTMR8 Q96EF0 Q96EF0 2.802 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 379 379 SGWKLIDPISDFGRMGIPNRNWTITDANRNYEICSTYPPEIVVPKSVTLGTVVGSSKFRSKERVPVLSYLYKENNAAICRCSQPLSGFYTRCVDDELLLEAISQTNPGSQFMYVVDTRPKLNAMANRAAGKGYENEDNYANIRFRFMGIENIHVMRSSLQKLLEVCELKTPTMSEFLSGLESSGWLRHIKAIMDAGIFITKAVKVEKASVLVHSSDGWDRTAQVCSVASILLDPFYRTFKGLMILIEKEWISMGHKFSQRCGHLDGDSKEVSPIFTQFLDCIWQLMEQFPCAFEFNENFLLEIHDHVFSCQFGNFLGNCQKDREDLRVYEKTHSVWPFLVQRKPDFRNPLYKGFTMYGVLNPSTVPYNIQFWCGMYNRF SGWKLIDPISDFGRMGIPNRNWTITDANRNYEICSTYPPEIVVPKSVTLGTVVGSSKFRSKERVPVLSYLYKENNAAICRCSQPLSGFYTRCVDDELLLEAISQTNPGSQFMYVVDTRPKLNAMANRAAGKGYENEDNYANIRFRFMGIENIHVMRSSLQKLLEVCELKTPTMSEFLSGLESSGWLRHIKAIMDAGIFITKAVKVEKASVLVHSSDGWDRTAQVCSVASILLDPFYRTFKGLMILIEKEWISMGHKFSQRCGHLDGDSKEVSPIFTQFLDCIWQLMEQFPCAFEFNENFLLEIHDHVFSCQFGNFLGNCQKDREDLRVYEKTHSVWPFLVQRKPDFRNPLYKGFTMYGVLNPSTVPYNIQFWCGMYNRF 4y7s-a1-m1-cA_4y7s-a1-m1-cB Crystal Structure of the CFEM protein Csa2 Q5A0X8 Q5A0X8 2 X-RAY DIFFRACTION 39 1.0 5476 (Candida albicans) 5476 (Candida albicans) 111 111 NPYTIYPPVPKTASINGFADRIYDQIPKCAQECVKQSTSSTPCPYWDTGCLCVIPNFTGAVGNCVASKCRGADVTNFRKLAVGACAAAGVWDPYWIIPASVSSALDAAATA NPYTIYPPVPKTASINGFADRIYDQIPKCAQECVKQSTSSTPCPYWDTGCLCVIPNFTGAVGNCVASKCRGADVTNFRKLAVGACAAAGVWDPYWIIPASVSSALDAAATA 4y7s-a1-m1-cC_4y7s-a1-m1-cA Crystal Structure of the CFEM protein Csa2 Q5A0X8 Q5A0X8 2 X-RAY DIFFRACTION 13 1.0 5476 (Candida albicans) 5476 (Candida albicans) 110 111 NPYTIYPPVPKTASINGFADRIYDQIPKCAQECVKQSTSSTPCPYWDTGCLCVIPNFTGAVGNCVASKCRGADVTNFRKLAVGACAAAGVWDPYWIIPASVSSALDAAAT NPYTIYPPVPKTASINGFADRIYDQIPKCAQECVKQSTSSTPCPYWDTGCLCVIPNFTGAVGNCVASKCRGADVTNFRKLAVGACAAAGVWDPYWIIPASVSSALDAAATA 4y7s-a1-m1-cC_4y7s-a1-m1-cB Crystal Structure of the CFEM protein Csa2 Q5A0X8 Q5A0X8 2 X-RAY DIFFRACTION 34 1.0 5476 (Candida albicans) 5476 (Candida albicans) 110 111 NPYTIYPPVPKTASINGFADRIYDQIPKCAQECVKQSTSSTPCPYWDTGCLCVIPNFTGAVGNCVASKCRGADVTNFRKLAVGACAAAGVWDPYWIIPASVSSALDAAAT NPYTIYPPVPKTASINGFADRIYDQIPKCAQECVKQSTSSTPCPYWDTGCLCVIPNFTGAVGNCVASKCRGADVTNFRKLAVGACAAAGVWDPYWIIPASVSSALDAAATA 4y89-a2-m1-cD_4y89-a2-m1-cB Crystal structure of the N-terminal domain of CEACAM7 Q14002 Q14002 1.47 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 109 4y89-a1-m1-cC_4y89-a1-m1-cA QTNIDVVPFNVAEGKEVLLVVHNESQNLYGYNWYKGERVHANYRIIGYVKNISQENAPGPAHNGRETIYPNGTLLIQNVTHNDAGIYTLHVIKENLVNEEVTRQFYVF AQTNIDVVPFNVAEGKEVLLVVHNESQNLYGYNWYKGERVHANYRIIGYVKNISQENAPGPAHNGRETIYPNGTLLIQNVTHNDAGIYTLHVIKENLVNEEVTRQFYVF 4y8f-a1-m1-cA_4y8f-a1-m2-cA Crystal structure of Triosephosphate Isomerase from Clostridium perfringens Q8XKU1 Q8XKU1 1.54 X-RAY DIFFRACTION 135 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 251 251 GSHMRTPIIAGNWKMHYTIDEAVKLVEELKPLVKDAKCEVVVCPTFVCLDAVKKAVEGTNIKVGAQNMHFEEKGAFTGEIAPRMLEAMNIDYVIIGHSERREYFNETDETCNKKVKAAFAHNLTPILCCGETLEQRENGTTNDVIKAQITADLEGLTKEQAEKVVIAYEPIWAIGTGKTATSDQANETIAAIRAMVAEMFGQEVADKVRIQYGGSVKPNTIAEQMAKSDIDGALVGGASLVAADFAQIVNY GSHMRTPIIAGNWKMHYTIDEAVKLVEELKPLVKDAKCEVVVCPTFVCLDAVKKAVEGTNIKVGAQNMHFEEKGAFTGEIAPRMLEAMNIDYVIIGHSERREYFNETDETCNKKVKAAFAHNLTPILCCGETLEQRENGTTNDVIKAQITADLEGLTKEQAEKVVIAYEPIWAIGTGKTATSDQANETIAAIRAMVAEMFGQEVADKVRIQYGGSVKPNTIAEQMAKSDIDGALVGGASLVAADFAQIVNY 4y90-a2-m1-cC_4y90-a2-m1-cD Crystal structure of Triosephosphate Isomerase from Deinococcus radiodurans Q9RUP5 Q9RUP5 2.1 X-RAY DIFFRACTION 134 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 244 244 4y90-a1-m1-cA_4y90-a1-m1-cB MQTLLALNWKMNKTPTEARSWAEELTTKYAPAEGVDLAVLAPALDLSALAANLPAGIAFGGQDVSAHESGAYTGEISAAMLKDAGASCVVVGHSERREYHDESDATVAAKARQAQANGLLPIVCVGENLDVRERGEHVPQTLAQLRGSLEGVGADVVVAYEPVWAIGTGKTATADDAEELAAAIRGALREQYGARAEGIRVLYGGSVKPENIAEICGKPNVNGALVGGASLKVPDVLGMLDALR MQTLLALNWKMNKTPTEARSWAEELTTKYAPAEGVDLAVLAPALDLSALAANLPAGIAFGGQDVSAHESGAYTGEISAAMLKDAGASCVVVGHSERREYHDESDATVAAKARQAQANGLLPIVCVGENLDVRERGEHVPQTLAQLRGSLEGVGADVVVAYEPVWAIGTGKTATADDAEELAAAIRGALREQYGARAEGIRVLYGGSVKPENIAEICGKPNVNGALVGGASLKVPDVLGMLDALR 4y96-a2-m1-cB_4y96-a2-m2-cB Crystal structure of Triosephosphate Isomerase from Gemmata obscuriglobus A0A0M3KL18 A0A0M3KL18 1.581 X-RAY DIFFRACTION 127 1.0 114 (Gemmata obscuriglobus) 114 (Gemmata obscuriglobus) 250 250 4y96-a1-m1-cA_4y96-a1-m2-cA TRKKFVAGNWKMNTTLAEAKALGAAVAKGVTDDRVTVAVFPPYPWLTAVGEVLKGSPVALGAQDVSSEKKGAFTGEVSPAMLLETGCKYALIGHSERRHIIGESETFINHKVHTALEEGLSVVLCMGETLAERERGLQERVFQRQVYAACAGLTDEQFGRIVIAYEPVWAIGTGKVATPEQAQEAHAFVRSKLRLLYGDKIADSTPIVYGGSVTPDNTVGLMSQPDVDGALVGGASLKADSFLAIVKAAG TRKKFVAGNWKMNTTLAEAKALGAAVAKGVTDDRVTVAVFPPYPWLTAVGEVLKGSPVALGAQDVSSEKKGAFTGEVSPAMLLETGCKYALIGHSERRHIIGESETFINHKVHTALEEGLSVVLCMGETLAERERGLQERVFQRQVYAACAGLTDEQFGRIVIAYEPVWAIGTGKVATPEQAQEAHAFVRSKLRLLYGDKIADSTPIVYGGSVTPDNTVGLMSQPDVDGALVGGASLKADSFLAIVKAAG 4y9a-a2-m1-cC_4y9a-a2-m1-cD Crystal structure of Triosephosphate Isomerase from Streptomyces coelicolor Q9Z520 Q9Z520 2.294 X-RAY DIFFRACTION 128 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 254 255 4y9a-a1-m1-cA_4y9a-a1-m1-cB RTPLMAGNWKMNLNHLEAIAHVQKLAFALADKDYDAVEVAVLAPFTDLRSVQTLVDGDKLKIKYGAQDISAHDGGAYTGEISGPMLAKLKCTYVAVGHSERRQYHAETDEIVNAKVKAAYKHGLTPILCVGEELDVREAGNHVEHTLAQVEGGLKDLAAEQAESVVIAYEPVWAIGTGKVCGADDAQEVCAAIRGKLAELYSQELADKVRIQYGGSVKSGNVAEIMAKPDIDGALVGGASLDSDEFVKIVRFRD TRTPLMAGNWKMNLNHLEAIAHVQKLAFALADKDYDAVEVAVLAPFTDLRSVQTLVDGDKLKIKYGAQDISAHDGGAYTGEISGPMLAKLKCTYVAVGHSERRQYHAETDEIVNAKVKAAYKHGLTPILCVGEELDVREAGNHVEHTLAQVEGGLKDLAAEQAESVVIAYEPVWAIGTGKVCGADDAQEVCAAIRGKLAELYSQELADKVRIQYGGSVKSGNVAEIMAKPDIDGALVGGASLDSDEFVKIVRFRD 4y9d-a1-m1-cA_4y9d-a1-m2-cA Crystal structure of LigD in complex with NADH from Sphingobium sp. strain SYK-6 G2IN91 G2IN91 2.012 X-RAY DIFFRACTION 175 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 235 235 4y98-a1-m1-cA_4y98-a1-m2-cA DFQDQVAFITGGASGAGFGQAKVFGQAGAKIVVADVRAEAVEKAVAELEGLGITAHGIVLDIMDREAYARAADEVEAVFGQAPTLLSNTAGVNSFGPIEKTTYDDFDWIIGVNLNGVINGMVTFVPRMIASGRPGHIVTVSSLGGFMGSALAGPYSAAKAASINLMEGYRQGLEKYGIGVSVCTPANIHGLEPEKLAEAIKKGVEDNALYIIPYPEVREGLEKHFQAIIDSVAPM DFQDQVAFITGGASGAGFGQAKVFGQAGAKIVVADVRAEAVEKAVAELEGLGITAHGIVLDIMDREAYARAADEVEAVFGQAPTLLSNTAGVNSFGPIEKTTYDDFDWIIGVNLNGVINGMVTFVPRMIASGRPGHIVTVSSLGGFMGSALAGPYSAAKAASINLMEGYRQGLEKYGIGVSVCTPANIHGLEPEKLAEAIKKGVEDNALYIIPYPEVREGLEKHFQAIIDSVAPM 4y9v-a1-m2-cA_4y9v-a1-m3-cA Gp54 tailspike of Acinetobacter baumannii bacteriophage AP22 in complex with A. baumannii capsular saccharide I2GUG1 I2GUG1 0.9 X-RAY DIFFRACTION 242 1.0 1187128 (Acinetobacter phage AP22) 1187128 (Acinetobacter phage AP22) 603 603 4y9v-a1-m1-cA_4y9v-a1-m2-cA 4y9v-a1-m1-cA_4y9v-a1-m3-cA ANSASAILDKSGISQQEVNDLTAHLDTYLKKMNILPSEDISTVLNQVKSDGVKKLHVKSREYIVNSLIEFTDDFEFVNETGTVFNFGDTGGFYASGSHTQITTLASDIVKNQSQSFDVADASQIQKGDWLVIYCTDDFSYSPYRNYYRKGEFVEVASVSGNTVKFFGRAYDNYLTSENIVILKVNPINFKFNYLKTVSTDNNPNVPLVIDYARNFETGYFENKGGKFAGLRLRRCFNFNIAINSAKNNAPANTLNYGIQISNCQNYNYFGGSNNSTRHAVAIGGDGDLGCVPCRNGYVSGAILHSETDTSGADMHGNVERTVYDHCTTNYATFGAGDNEYSNCDIYEREGQGCVLIAEPRGGEFKLTNNTYYTKTPLNSWSLVHGIIEKQLHEDLTVKLDGGCINGVGGASAGIVTIRQSNALNEALTKKVNVHITGGVSCDFDALRHWAWVEDGTIGRYTVPIGYIIVDDVVNTKDTANPYLIYPSQSTLATNVKTRQMLQQGVVSVTSAVNNTATRANVINLKYKYSKAPNVIVSVGNLVGSASWDATFFNEDTNVEPLRTPTPVNSLVAIDQVRPAILWNKKVVTPKTFNLYWESGIREI ANSASAILDKSGISQQEVNDLTAHLDTYLKKMNILPSEDISTVLNQVKSDGVKKLHVKSREYIVNSLIEFTDDFEFVNETGTVFNFGDTGGFYASGSHTQITTLASDIVKNQSQSFDVADASQIQKGDWLVIYCTDDFSYSPYRNYYRKGEFVEVASVSGNTVKFFGRAYDNYLTSENIVILKVNPINFKFNYLKTVSTDNNPNVPLVIDYARNFETGYFENKGGKFAGLRLRRCFNFNIAINSAKNNAPANTLNYGIQISNCQNYNYFGGSNNSTRHAVAIGGDGDLGCVPCRNGYVSGAILHSETDTSGADMHGNVERTVYDHCTTNYATFGAGDNEYSNCDIYEREGQGCVLIAEPRGGEFKLTNNTYYTKTPLNSWSLVHGIIEKQLHEDLTVKLDGGCINGVGGASAGIVTIRQSNALNEALTKKVNVHITGGVSCDFDALRHWAWVEDGTIGRYTVPIGYIIVDDVVNTKDTANPYLIYPSQSTLATNVKTRQMLQQGVVSVTSAVNNTATRANVINLKYKYSKAPNVIVSVGNLVGSASWDATFFNEDTNVEPLRTPTPVNSLVAIDQVRPAILWNKKVVTPKTFNLYWESGIREI 4y9x-a1-m1-cA_4y9x-a1-m2-cA Crystal structure of glucosyl-3-phosphoglycerate synthase from Mycobacterium tuberculosis in complex with Mn2+, uridine-diphosphate-glucose (UDP-Glc) and phosphoglyceric acid (PGA) - GpgS Mn2+ UDP-Glc PGA-3 P9WMW9 P9WMW9 2.637 X-RAY DIFFRACTION 106 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 280 280 3e25-a1-m1-cA_3e25-a1-m2-cA 3e26-a1-m1-cA_3e26-a1-m2-cA 4ddz-a1-m1-cA_4ddz-a1-m2-cA 4de7-a1-m1-cA_4de7-a1-m2-cA 4dec-a1-m1-cA_4dec-a1-m2-cA 4y6n-a1-m1-cA_4y6n-a1-m2-cA 4y6u-a1-m1-cA_4y6u-a1-m2-cA 4y7f-a1-m1-cA_4y7f-a1-m2-cA 4y7g-a1-m1-cA_4y7g-a1-m2-cA 5jqq-a1-m1-cA_5jqq-a1-m2-cA 5jqx-a1-m1-cB_5jqx-a1-m1-cA 5jqx-a2-m1-cC_5jqx-a2-m2-cC 5jqx-a3-m1-cD_5jqx-a3-m3-cD 5jsx-a1-m1-cA_5jsx-a1-m2-cA 5jt0-a1-m1-cA_5jt0-a1-m2-cA 5juc-a1-m1-cA_5juc-a1-m2-cA 5jud-a1-m1-cA_5jud-a1-m2-cA ALPLDTTWHRPGWTIGELEAAKAGRTISVVLPALNEEATIESVIDSISPLVDGLVDELIVLDSGSTDDTEIRAIASGARVVSREQALPEVPVRPGKGEALWRSLAATSGDIVVFIDSDLINPHPLFVPWLVGPLLTGEGIQLVKSFYRGGRVTELVARPLLAALRPELGCVLQPLSGEYAASRELLTSLPFAPGYGVEIGLLIDTFDRLGLDAIAQVNLGVRAHRNRPLDELGAMSRQVIATLLSRCGIPDSGVGLTQFLYTRHTWPVSLVDRPPMKVMR ALPLDTTWHRPGWTIGELEAAKAGRTISVVLPALNEEATIESVIDSISPLVDGLVDELIVLDSGSTDDTEIRAIASGARVVSREQALPEVPVRPGKGEALWRSLAATSGDIVVFIDSDLINPHPLFVPWLVGPLLTGEGIQLVKSFYRGGRVTELVARPLLAALRPELGCVLQPLSGEYAASRELLTSLPFAPGYGVEIGLLIDTFDRLGLDAIAQVNLGVRAHRNRPLDELGAMSRQVIATLLSRCGIPDSGVGLTQFLYTRHTWPVSLVDRPPMKVMR 4y9z-a1-m1-c5_4y9z-a1-m1-cY Yeast 20S proteasome beta2-H116E mutant in complex with Ac-LAE-ep P30656 2.8 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 559292 (Saccharomyces cerevisiae S288C) 2 212 4y78-a1-m1-c1_4y78-a1-m1-cH 4y78-a1-m1-c2_4y78-a1-m1-cK 4y78-a1-m1-c4_4y78-a1-m1-cV 4y78-a1-m1-c5_4y78-a1-m1-cY 4y9z-a1-m1-c1_4y9z-a1-m1-cH 4y9z-a1-m1-c2_4y9z-a1-m1-cK 4y9z-a1-m1-c4_4y9z-a1-m1-cV LA TTTLAFRFQGGIIVAVDSRATAGNWVASQTVKKVIEINPFLLGTMAGGAADCQFWETWLGSQCRLHELREKERISVAAASKILSNLVYQYKGAGLSMGTMICGYTRKEGPTIYYVDSDGTRLKGDIFCVGSGQTFAYGVLDSNYKWDLSVEDALYLGKRSILAAAHRDAYSGGSVNLYHVTEDGWIYHGNHDVGELFWKVKEEEGSFNNVIG 4yac-a1-m1-cA_4yac-a1-m2-cA Crystal structure of LigO in complex with NADH from Sphingobium sp. strain SYK-6 C0SUK3 C0SUK3 1.699 X-RAY DIFFRACTION 195 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 270 270 4ya6-a1-m1-cA_4ya6-a1-m2-cA MQDLEGKVAFVTGGGSGVALGQAKVLAEEAQMKVVIADIRQDHLDEAMGYFSQKNVAVHPVRLDLTDRAAYAAAVDEAEQVFGPVDLLCNTAGVSQFGPIEKATFDDWDWQMDVNVNGVINGVMTVMPRMIERGQGGHILITASMSAFVALPTTGIYCTTKYAVRGLAESLRVEMPKYNIGVSLLCPGGEAVFAGLKRVIEHGFDPVDLGRVVLDAVRNDRFWVLPYPEFAEGQKARDQEVIDAMMSYADHPDYARRMKIREQMKRDMPG MQDLEGKVAFVTGGGSGVALGQAKVLAEEAQMKVVIADIRQDHLDEAMGYFSQKNVAVHPVRLDLTDRAAYAAAVDEAEQVFGPVDLLCNTAGVSQFGPIEKATFDDWDWQMDVNVNGVINGVMTVMPRMIERGQGGHILITASMSAFVALPTTGIYCTTKYAVRGLAESLRVEMPKYNIGVSLLCPGGEAVFAGLKRVIEHGFDPVDLGRVVLDAVRNDRFWVLPYPEFAEGQKARDQEVIDAMMSYADHPDYARRMKIREQMKRDMPG 4yae-a1-m1-cA_4yae-a1-m1-cB Crystal structure of LigL-apo form from Sphingobium sp. strain SYK-6 C0SUJ9 C0SUJ9 1.602 X-RAY DIFFRACTION 151 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 234 234 MDIAGTTAFITGGASGIGFGIAQRLLANGARLVLADIRQDHLDEARQFFEERQQGRNVHTIRLDVSDRAQMAEAARECEAVMGGPDILINNAGIDPSGPFKDATYQDWDYGLAINLMGPINGIMAFTPGMRARGRGGHIVNTASLAGLTPMPSFMAIYATAKAAVITLTETIRDSMAEDNIGVTVLMPGPIMEPTEVGDMIVDAIVHNKLYVSTHGNWRETCEARFQALLDSMP MDIAGTTAFITGGASGIGFGIAQRLLANGARLVLADIRQDHLDEARQFFEERQQGRNVHTIRLDVSDRAQMAEAARECEAVMGGPDILINNAGIDPSGPFKDATYQDWDYGLAINLMGPINGIMAFTPGMRARGRGGHIVNTASLAGLTPMPSFMAIYATAKAAVITLTETIRDSMAEDNIGVTVLMPGPIMEPTEVGDMIVDAIVHNKLYVSTHGNWRETCEARFQALLDSMP 4yag-a1-m1-cA_4yag-a1-m1-cB Crystal structure of LigL in complex with NADH from Sphingobium sp. strain SYK-6 C0SUJ9 C0SUJ9 1.5 X-RAY DIFFRACTION 147 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 271 271 4yai-a1-m1-cA_4yai-a1-m1-cB MDIAGTTAFITGGASGIGFGIAQRLLANGARLVLADIRQDHLDEARQFFEERQQGRNVHTIRLDVSDRAQMAEAARECEAVMGGPDILINNAGIDPSGPFKDATYQDWDYGLAINLMGPINGIMAFTPGMRARGRGGHIVNTASLAGLTPMPSFMAIYATAKAAVITLTETIRDSMAEDNIGVTVLMPGPIKSRIHESGQNRPERFRAGSGLAETEQQLAKRVVADNWMEPTEVGDMIVDAIVHNKLYVSTHGNWRETCEARFQALLDSMP MDIAGTTAFITGGASGIGFGIAQRLLANGARLVLADIRQDHLDEARQFFEERQQGRNVHTIRLDVSDRAQMAEAARECEAVMGGPDILINNAGIDPSGPFKDATYQDWDYGLAINLMGPINGIMAFTPGMRARGRGGHIVNTASLAGLTPMPSFMAIYATAKAAVITLTETIRDSMAEDNIGVTVLMPGPIKSRIHESGQNRPERFRAGSGLAETEQQLAKRVVADNWMEPTEVGDMIVDAIVHNKLYVSTHGNWRETCEARFQALLDSMP 4yam-a2-m1-cD_4yam-a2-m1-cC Crystal structure of LigE-apo form from Sphingobium sp. strain SYK-6 G2IN93 G2IN93 1.905 X-RAY DIFFRACTION 89 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 248 249 4yam-a1-m1-cA_4yam-a1-m1-cB 4yan-a1-m1-cB_4yan-a1-m1-cA 4yan-a2-m1-cD_4yan-a2-m1-cC NNTITLYDLQLESGCTISPYVWRTKYALKHKGFDIDIVPGGFTGILERTGGRSERVPVIVDDGEWVLDSWVIAEYLDEKYPDRPLFEGPTQKNLKFLDNWLWSTAVGPWFRCYILDYHDLSLPQDRDYVRWSREQWFLGGQRLEDVQAGREDRLPLVPPTLEPFRRILAETKWLGGDQPNFADYSALAVFLWTASVARTPPLTEDDPLRDWLDRGFDLFDGLGRHPGNPLFGLKLREGDPEPFVRQTG NNTITLYDLQLESGCTISPYVWRTKYALKHKGFDIDIVPGGFTGILERTGGRSERVPVIVDDGEWVLDSWVIAEYLDEKYPDRPLFEGPTQKNLKFLDNWLWSTAVGPWFRCYILDYHDLSLPQDRDYVRWSREQWFLGGQRLEDVQAGREDRLPLVPPTLEPFRRILAETKWLGGDQPNFADYSALAVFLWTASVARTPPLTEDDPLRDWLDRGFDLFDGLGRHPGNPLFGLKLREGDPEPFVRQTGP 4yap-a1-m1-cA_4yap-a1-m2-cA Crystal structure of LigG-apo form from Sphingobium sp. strain SYK-6 G2IN94 G2IN94 1.111 X-RAY DIFFRACTION 84 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 262 262 4g10-a1-m1-cA_4g10-a1-m2-cA 4yav-a1-m1-cA_4yav-a1-m2-cA PQELTIYHIPGCPFSERVEIMLELKGLRMKDVEIDISKPRPDWLLAKTGGTTALPLLDVENGESLKESMVILRYLEQRYPEPAVAHPDPFCHAVEGMLAELAGPFSGAGYRMILNREIGKREEMRAAVDAEFGKVDAFLKRYATGSDFLFDDRFGWAEVAFTPMFKRLWFLDYYEDYEVPANFDRVLRWRAACTAHPAAQYRSKEELLKLYYDYTQGGGNGRIPEGRSISSFSPDVDWRTRPMPPRDKWGHAATDAELGLTR PQELTIYHIPGCPFSERVEIMLELKGLRMKDVEIDISKPRPDWLLAKTGGTTALPLLDVENGESLKESMVILRYLEQRYPEPAVAHPDPFCHAVEGMLAELAGPFSGAGYRMILNREIGKREEMRAAVDAEFGKVDAFLKRYATGSDFLFDDRFGWAEVAFTPMFKRLWFLDYYEDYEVPANFDRVLRWRAACTAHPAAQYRSKEELLKLYYDYTQGGGNGRIPEGRSISSFSPDVDWRTRPMPPRDKWGHAATDAELGLTR 4yb8-a1-m1-cA_4yb8-a1-m1-cC Ca. Korarchaeum cryptofilum dinucleotide forming Acetyl-coenzyme A synthetase 1 in complex with phosphate and ADP B1L3C9 B1L3C9 1.9 X-RAY DIFFRACTION 227 1.0 374847 (Candidatus Korarchaeum cryptofilum OPF8) 374847 (Candidatus Korarchaeum cryptofilum OPF8) 464 464 4xyl-a1-m1-cA_4xyl-a1-m1-cC 4xym-a1-m1-cC_4xym-a1-m1-cA 4xz3-a1-m1-cC_4xz3-a1-m1-cA 4y8v-a1-m1-cA_4y8v-a1-m1-cC 4yaj-a1-m1-cC_4yaj-a1-m1-cA 4yak-a1-m1-cA_4yak-a1-m1-cC 4ybz-a1-m1-cC_4ybz-a1-m1-cA 5hbr-a1-m1-cA_5hbr-a1-m1-cC MNDLERLFNPSAIAVVGASKDPSKIGSQILRNLLSYGFKGKVYPINPTADELMGLKCYPKVSDVPDKVDVAVISVPSDKVLGVIDDCGKAGVKFAVVITSGFKEVGNEELEEELVRRAHSYGMRVLGPNIFGYLYAPARLNATFGPKDVLSGNVAFISQSGALGIALMGYTVVENIGISSIVSVGNKADLDDVDLLDFFDKDPNTGVIMIYLEGIAPGRGRMFIDVASRVSLRKPIIVIKAGRTEVGARAAASHTGSIAGSVAIYESAFKQSGILMAKSVEDAFDWTKALSWNPIPEGERLIVLTNGGGAGVQSTDTFADNGIYLSKPPESLIQEIKKFVPPFASFANPIDITGMAPDDWYYMGTLAALKNPDVDALTVLYCQTAVTTPIGVAKGIVDAIKEAGNSKPVTVGMVGGPEVAEAVSFLNKQRIAAYPTPERASSAMSALYAYARARSYVMKSLAVR MNDLERLFNPSAIAVVGASKDPSKIGSQILRNLLSYGFKGKVYPINPTADELMGLKCYPKVSDVPDKVDVAVISVPSDKVLGVIDDCGKAGVKFAVVITSGFKEVGNEELEEELVRRAHSYGMRVLGPNIFGYLYAPARLNATFGPKDVLSGNVAFISQSGALGIALMGYTVVENIGISSIVSVGNKADLDDVDLLDFFDKDPNTGVIMIYLEGIAPGRGRMFIDVASRVSLRKPIIVIKAGRTEVGARAAASHTGSIAGSVAIYESAFKQSGILMAKSVEDAFDWTKALSWNPIPEGERLIVLTNGGGAGVQSTDTFADNGIYLSKPPESLIQEIKKFVPPFASFANPIDITGMAPDDWYYMGTLAALKNPDVDALTVLYCQTAVTTPIGVAKGIVDAIKEAGNSKPVTVGMVGGPEVAEAVSFLNKQRIAAYPTPERASSAMSALYAYARARSYVMKSLAVR 4yb8-a1-m1-cB_4yb8-a1-m1-cD Ca. Korarchaeum cryptofilum dinucleotide forming Acetyl-coenzyme A synthetase 1 in complex with phosphate and ADP B1L7P8 B1L7P8 1.9 X-RAY DIFFRACTION 29 1.0 374847 (Candidatus Korarchaeum cryptofilum OPF8) 374847 (Candidatus Korarchaeum cryptofilum OPF8) 229 229 4xyl-a1-m1-cB_4xyl-a1-m1-cD 4xym-a1-m1-cB_4xym-a1-m1-cD 4xz3-a1-m1-cD_4xz3-a1-m1-cB 4y8v-a1-m1-cB_4y8v-a1-m1-cD 4yaj-a1-m1-cD_4yaj-a1-m1-cB 4yak-a1-m1-cD_4yak-a1-m1-cB 4ybz-a1-m1-cB_4ybz-a1-m1-cD 5hbr-a1-m1-cB_5hbr-a1-m1-cD SSRDLLLKAKENGRKSLLEHEAKYFISSYGIPVTNIRLAKSEEEAVNFSREIGFPVVLKIVSPQVVHKSDVGGVKVNLRSEEEVRKAYREIIENVKRNVPNAEIEGILVQEFAPPGVELIIGLLRDPQFGPTVMFGLGGVFVELFRDVSFRVAPLSEQDAESMIKEVKAYKLLTGFRGMEPVDIEAIKDALIRAGRIGVENEEIAEMDLNPVIAYPKGIKVVDARIILR SSRDLLLKAKENGRKSLLEHEAKYFISSYGIPVTNIRLAKSEEEAVNFSREIGFPVVLKIVSPQVVHKSDVGGVKVNLRSEEEVRKAYREIIENVKRNVPNAEIEGILVQEFAPPGVELIIGLLRDPQFGPTVMFGLGGVFVELFRDVSFRVAPLSEQDAESMIKEVKAYKLLTGFRGMEPVDIEAIKDALIRAGRIGVENEEIAEMDLNPVIAYPKGIKVVDARIILR 4yba-a1-m1-cA_4yba-a1-m1-cB The structure of the C.Kpn2I controller protein Q93K36 Q93K36 1.7 X-RAY DIFFRACTION 40 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 77 78 HIKNMTPEICKASRALVNLTQKELALMAGIATPTIADFERGARKPHGNNLRSIIIAFENKGLDFVEEGGEIIGIFIR NHIKNMTPEICKASRALVNLTQKELALMAGIATPTIADFERGARKPHGNNLRSIIIAFENKGLDFVEEGGEIIGIFIR 4ybh-a1-m1-cB_4ybh-a1-m2-cB Crystal structure of the human RAGE ectodomain (VC1C2 fragment) in complex with human S100A6 P06703 P06703 2.4 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG ACPLDQAIGLLVAIFHKYSGREGDKHTLSKKELKELIQKELTIGSKLQDAEIARLMEDLDRNKDQEVNFQEYVTFLGALALIYNEALKG 4ybn-a1-m1-cB_4ybn-a1-m1-cA Structure of the FAD and Heme binding protein msmeg_4975 from Mycobacterium smegmatis A0R238 A0R238 1.9 X-RAY DIFFRACTION 258 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 205 214 EKQSTSRERLDDLLDTIPLATVALVRDGHPVAFPIGFGRVGDELVIHGSTGSPWLRALAEGAPAAVSVTALDGVVVARSSFESSFRYRSATLFGTFEVIADDAKRGYLDALTDRFIPGRTAELRASTRKELAATLALALAIGDDNWSLKLSEGWPDDADEDIAAGGWAGVVPLTTQYGAPLTAPDVAAGTPLPPSVRGMTGELRN STRVTRLDEKQSTSRERLDDLLDTIPLATVALVRDGHPVAFPIGFGRVGDELVIHGSTGSPWLRALAEGAPAAVSVTALDGVVVARSSFESSFRYRSATLFGTFEVIADDAKRGYLDALTDRFIPGRTAELRASTRKELAATLALALAIGDDNWSLKLSEGWPDDADEDIAAGGWAGVVPLTTQYGAPLTAPDVAAGTPLPPSVRGMTGELRNT 4yd9-a1-m1-cA_4yd9-a1-m1-cb Crystal structure of squid hemocyanin 3 X-RAY DIFFRACTION 83 1.0 6637 (Todarodes pacificus) 6637 (Todarodes pacificus) 1656 1656 4yd9-a1-m1-cD_4yd9-a1-m1-cG 4yd9-a1-m1-cJ_4yd9-a1-m1-cM 4yd9-a1-m1-cP_4yd9-a1-m1-cS 4yd9-a1-m1-cV_4yd9-a1-m1-cY NLIRKNVDTLTPDEILNLQVSLRAMQDDEGASGYQAISAYHGEPADCKAADGSTIVCCLHGMPTFPMWHRLYLVQFEQALVAHGSTLGIPYWDWTKPMTQLPELVQHPLFIDPTGKKAKKNVFYSGEIKFENKVTARAVDARLYQASQEGQKNFLLEGVLNALEQEDFCHFEVQLEVAHNPIHYLVGGRFTHSMSSLEYTSYDPLFFLHHSNVERHFALWQALQKHRGLPTRPNCGLNLFHSPMEPFGRDTNPFAITKDNSKASSLFDYEHLGYAFDDLSLNGMTIEELEALLKQRRSGARAFANFRLGGIKTSANVRIKLCIPTEDKRQSDNCDNDAGQFFILGGTNEMPWNFAFPYLHEITDTVLSLGLALDSNYYVTAEVTAINGTLMPTQTIPRPIVTYIPPQGFKDVNMVNMDTSSLRFRKDISSLTTEEEYELRVAMERFMSDKSINGYQALAEFHGLPAKCPRPDALNRVACCIHGMATFPHWHRLVVMQFENALFTRGSPIGVPYWDWTKPFTALPSLLADETYVDPYTKETKPNPFFKAPIEFLKAGVHTSRQIDERLFKQPSKGDHGFLYDGLSLAFEQDDFCDFEVQFEVTHNSIHAWTGGSEPYSMSSLHYTSFDPMFWLHHSQVDRLWAIWQALQIQRGKPYKTYCANSEVYRPMKPFAFKSPLNNDEKTREHSVPTDVYDYQAELAYTYDTLFFGGLSIRELQRYVEEAKSKDRVFAGFLLMGIQTSANVDLFVVAGGNEFFVGSIAVLGGSKEMTWRFDRVYKHEITDALGALGVDMFAEYTLRVDIKDVNGTALPPTAIPPPIVIFVPGIADANVKFDEQHRSRKNVDSMTVSEMNALRTAMAAFAADKEVTGYQQVAAFHGSTQWCPSPDAAQKYACCHHGMATFPHWHRLIALNFENGLRRNGWSGGLPYWDWTRPIDALPALVLEAEYTDANGEAKPNPFFSGAIDSIGASTSRAPTEALYEKPDFGKYTHLANEIISALEQEDFCDFEVQYEIAHNHIHALVGGTEAVSMASLEYSAFDPIFMLHHSNVDRIWATWQALQKFRGKAYNSANCAIEILRKPMSPFSLASDINPDAMTREYSVPFDVFNYKKNFHYEYDTLELNGLSIAQLSREINRRKAKNRVAVTFMLEGLKKSLLVEYFIAADGTDQKMKAGEFYVLGSENEMPWKFDRPYKSDITYVMDAMKLHYTDKYHVELRITDMTGAEVTDLKLVTSVIYEPGIGNFGEGRRWISPITSASRIRKNLLDFEDGEMESLRNAFKQMADEGRYEEIASFHGVPAQCPSEDGTMVHTCCLHGMPVFPHWHRLYVSLVEDELLARGSGVAVPYWDWVEPFDELPRLINEATFYNSRTLQIEPNPFFKGKISFENAETDRDTQPELFGNRYLYDHTLFVFEQTDFCEFEVHYEVLHNTIHSWLGGRDVHSMSSLDYAAYDPVFFLHHSNVDRLWAIWQELQRYRKLSYNEANCALPLMNQPMRPFSNSTANNDRLTFTNSRPNDVFDYQNVLHYKYDTLNFAGLSIPQLERILQKNQGRDRIFAGFLLHGIKASADVRIYICVPTGIGEENCGNYAGIFSVLGGETEMPWQFDRLFRYEITDELKKLGLNQNSHFRVEMELTAVNGSKITQKIFPNPTIIFVPSD NLIRKNVDTLTPDEILNLQVSLRAMQDDEGASGYQAISAYHGEPADCKAADGSTIVCCLHGMPTFPMWHRLYLVQFEQALVAHGSTLGIPYWDWTKPMTQLPELVQHPLFIDPTGKKAKKNVFYSGEIKFENKVTARAVDARLYQASQEGQKNFLLEGVLNALEQEDFCHFEVQLEVAHNPIHYLVGGRFTHSMSSLEYTSYDPLFFLHHSNVERHFALWQALQKHRGLPTRPNCGLNLFHSPMEPFGRDTNPFAITKDNSKASSLFDYEHLGYAFDDLSLNGMTIEELEALLKQRRSGARAFANFRLGGIKTSANVRIKLCIPTEDKRQSDNCDNDAGQFFILGGTNEMPWNFAFPYLHEITDTVLSLGLALDSNYYVTAEVTAINGTLMPTQTIPRPIVTYIPPQGFKDVNMVNMDTSSLRFRKDISSLTTEEEYELRVAMERFMSDKSINGYQALAEFHGLPAKCPRPDALNRVACCIHGMATFPHWHRLVVMQFENALFTRGSPIGVPYWDWTKPFTALPSLLADETYVDPYTKETKPNPFFKAPIEFLKAGVHTSRQIDERLFKQPSKGDHGFLYDGLSLAFEQDDFCDFEVQFEVTHNSIHAWTGGSEPYSMSSLHYTSFDPMFWLHHSQVDRLWAIWQALQIQRGKPYKTYCANSEVYRPMKPFAFKSPLNNDEKTREHSVPTDVYDYQAELAYTYDTLFFGGLSIRELQRYVEEAKSKDRVFAGFLLMGIQTSANVDLFVVAGGNEFFVGSIAVLGGSKEMTWRFDRVYKHEITDALGALGVDMFAEYTLRVDIKDVNGTALPPTAIPPPIVIFVPGIADANVKFDEQHRSRKNVDSMTVSEMNALRTAMAAFAADKEVTGYQQVAAFHGSTQWCPSPDAAQKYACCHHGMATFPHWHRLIALNFENGLRRNGWSGGLPYWDWTRPIDALPALVLEAEYTDANGEAKPNPFFSGAIDSIGASTSRAPTEALYEKPDFGKYTHLANEIISALEQEDFCDFEVQYEIAHNHIHALVGGTEAVSMASLEYSAFDPIFMLHHSNVDRIWATWQALQKFRGKAYNSANCAIEILRKPMSPFSLASDINPDAMTREYSVPFDVFNYKKNFHYEYDTLELNGLSIAQLSREINRRKAKNRVAVTFMLEGLKKSLLVEYFIAADGTDQKMKAGEFYVLGSENEMPWKFDRPYKSDITYVMDAMKLHYTDKYHVELRITDMTGAEVTDLKLVTSVIYEPGIGNFGEGRRWISPITSASRIRKNLLDFEDGEMESLRNAFKQMADEGRYEEIASFHGVPAQCPSEDGTMVHTCCLHGMPVFPHWHRLYVSLVEDELLARGSGVAVPYWDWVEPFDELPRLINEATFYNSRTLQIEPNPFFKGKISFENAETDRDTQPELFGNRYLYDHTLFVFEQTDFCEFEVHYEVLHNTIHSWLGGRDVHSMSSLDYAAYDPVFFLHHSNVDRLWAIWQELQRYRKLSYNEANCALPLMNQPMRPFSNSTANNDRLTFTNSRPNDVFDYQNVLHYKYDTLNFAGLSIPQLERILQKNQGRDRIFAGFLLHGIKASADVRIYICVPTGIGEENCGNYAGIFSVLGGETEMPWQFDRLFRYEITDELKKLGLNQNSHFRVEMELTAVNGSKITQKIFPNPTIIFVPSD 4yd9-a1-m1-cZ_4yd9-a1-m1-cc Crystal structure of squid hemocyanin 3 X-RAY DIFFRACTION 176 1.0 6637 (Todarodes pacificus) 6637 (Todarodes pacificus) 825 825 4yd9-a1-m1-cB_4yd9-a1-m1-cE 4yd9-a1-m1-cH_4yd9-a1-m1-cK 4yd9-a1-m1-cN_4yd9-a1-m1-cQ 4yd9-a1-m1-cT_4yd9-a1-m1-cW VRGNLVRKNVDRLSLQEINSLIHALKRMQKDRSSDGFETIASFHALPPLCPNPTAKHRHACCLHGMATFPQWHRLYVVQFEHSLNRHGAIVGVPYWDWTYPMTEVPGLLTSEKYTDPFTGIETFNPFNHGHISFISPETMTTREVSEHLFEQPALGKQTWLFNNIILALEQTDYCDFEVQFEIVHNSIHSWLGGKELYSLNHLHYAAYDPAFFLHHSNVDRLWVVWQELQKFRGLPAYESNCAIELMSQPLKPFSFGAPYNLNPVTTKYSKPSDVFNYKQNFHYEYDMLEMNGMSIAQLESYIRQERQKDRVFAGFLLEGFGSSAYATFQVCPDVGDCYEGSHFSVLGGSTEMPWAFDRLYKMEITDILQAMALKFDSHFTIKTKIVAHNGTELPESLLPEATIVRIPPSAQNLEVAIPLNRIRRNINSLESRDVQNLMSALKRLKEDESDFGFQTIAGYHGSLMCPTPEAPEYACCLHGMPTFMHWHRVYLLHFEESMRRHGASVAVPYWDWTMPSDNLPSLLGDADYYDAWTDSVIENPFLRGHIKYEDTYTVREIQPELFALAEGQKESTLFKDVMLMFEQEDYCDFEVQAEVIHNSIHYLIGGHQKYAMSSLMFSSFDPIFYVHHSMVDRLWAIWQELQKHRKLPHDKAYCALDQMAFPMKPFIWESNPNPTTRAVSTPSKLFDYKSLGYDYDHLNFHGMSIGQLEALIQKQKKADRVFAGFLLHGIKISADVHLKICIEADCQEAGVIFVLGGETEMPWHFDRNYKMDITDVLKKRNIPPEALFEHDSKIRLEVEIKSVDGAVLDPNSLPKPSLIYAPAK VRGNLVRKNVDRLSLQEINSLIHALKRMQKDRSSDGFETIASFHALPPLCPNPTAKHRHACCLHGMATFPQWHRLYVVQFEHSLNRHGAIVGVPYWDWTYPMTEVPGLLTSEKYTDPFTGIETFNPFNHGHISFISPETMTTREVSEHLFEQPALGKQTWLFNNIILALEQTDYCDFEVQFEIVHNSIHSWLGGKELYSLNHLHYAAYDPAFFLHHSNVDRLWVVWQELQKFRGLPAYESNCAIELMSQPLKPFSFGAPYNLNPVTTKYSKPSDVFNYKQNFHYEYDMLEMNGMSIAQLESYIRQERQKDRVFAGFLLEGFGSSAYATFQVCPDVGDCYEGSHFSVLGGSTEMPWAFDRLYKMEITDILQAMALKFDSHFTIKTKIVAHNGTELPESLLPEATIVRIPPSAQNLEVAIPLNRIRRNINSLESRDVQNLMSALKRLKEDESDFGFQTIAGYHGSLMCPTPEAPEYACCLHGMPTFMHWHRVYLLHFEESMRRHGASVAVPYWDWTMPSDNLPSLLGDADYYDAWTDSVIENPFLRGHIKYEDTYTVREIQPELFALAEGQKESTLFKDVMLMFEQEDYCDFEVQAEVIHNSIHYLIGGHQKYAMSSLMFSSFDPIFYVHHSMVDRLWAIWQELQKHRKLPHDKAYCALDQMAFPMKPFIWESNPNPTTRAVSTPSKLFDYKSLGYDYDHLNFHGMSIGQLEALIQKQKKADRVFAGFLLHGIKISADVHLKICIEADCQEAGVIFVLGGETEMPWHFDRNYKMDITDVLKKRNIPPEALFEHDSKIRLEVEIKSVDGAVLDPNSLPKPSLIYAPAK 4ydh-a1-m1-cC_4ydh-a1-m1-cA The structure of human FMNL1 N-terminal domains bound to Cdc42 O95466 O95466 3.8 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 328 330 AAGELEERFNRALNCMNLPPDKVQLLSQYDNEKKWELICDQERFQVKNPPAAYIQKLKSYVDFKRRVQESTQVLRELETSLRTNHIGWVQEFLNEENRGLDVLLEYLAFAQCSVTYDMKALRNSRIVSQKDDVHVCIMCLRAIMNYQSGFSLVMNHPACVNEIALSLNNKNPRTKALVLELLAAVCLVRGGHDIILAAFDNFKEVCGEQHRFEKLMEYFRNEDSNIDFMVACMQFINIVVHSVENMNFRVFLQYEFTHLGLDLYLERLRLTESDKLQVQIQAYLDNIFDVGALLEDTETKNAVLEHMEELQEQVALLTERLRDAENES AAGELEERFNRALNCMNLPPDKVQLLSQYDNEKKWELICDQERFQVKNPPAAYIQKLKSYVDFKRRVQESTQVLRELETSLRTNHIGWVQEFLNEENRGLDVLLEYLAFAQCSVTYDMSRKALRNSRIVSQKDDVHVCIMCLRAIMNYQSGFSLVMNHPACVNEIALSLNNKNPRTKALVLELLAAVCLVRGGHDIILAAFDNFKEVCGEQHRFEKLMEYFRNEDSNIDFMVACMQFINIVVHSVENMNFRVFLQYEFTHLGLDLYLERLRLTESDKLQVQIQAYLDNIFDVGALLEDTETKNAVLEHMEELQEQVALLTERLRDAENES 4ydr-a1-m1-cB_4ydr-a1-m1-cA Crystal structure of oxidized homoserine dehydrogenase of Sulfolobus tokodaii F9VNG5 F9VNG5 1.6 X-RAY DIFFRACTION 118 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 300 304 5avo-a1-m1-cA_5avo-a1-m1-cB 5x9d-a1-m1-cA_5x9d-a1-m2-cA 7f4b-a1-m1-cB_7f4b-a1-m1-cA 7f4c-a1-m1-cB_7f4c-a1-m1-cA MKLLLFGYGNVGKAFRKLLHEKRSPELNDVIIGGIVTRRGIMLQDKEDFTPDLEGDVFKAFEKIKPDIIVDVSSANYNNGEPSLSLYKEAIKDGVNIITTNKAPLALAFNEIFSLARSKGVKIGFQGTVMSGTPSINLYRVLPGSRVIKIRGILNGTTNFILTLMNKGVSFEEALKEAQRRGYAEDPTLDINGFDAAAKITILANFMIGNSVTIKDVKFEGINRDLPKIKLIAYADEKEVWVKPLPISQDDPLYNVDGVENALEITTDIQSILIRGPGAGPVNAAYGALSDLILLKRDCL MKLLLFGYGNVGKAFRKLLHEKRSPELNDVIIGGIVTRRGIMLQDKEDFTPDLEGDVFKAFEKIKPDIIVDVSSANYNNGEPSLSLYKEAIKDGVNIITTNKAPLALAFNEIFSLARSKGVKIGFQGTVMSGTPSINLYRVLPGSRVIKIRGILNGTTNFILTLMNKGVSFEEALKEAQRRGYAEEDPTLDINGFDAAAKITILANFMIGNSVTIKDVKFEGINRDLPKNEKIKLIAYADEKEVWVKPLPISQDDPLYNVDGVENALEITTDIQSILIRGPGAGPVNAAYGALSDLILLKRDCL 4yds-a2-m1-cA_4yds-a2-m2-cA FlaH from Sulfolobus acidocaldarius with ATP and Mg-Ion Q4J9K9 Q4J9K9 2.3 X-RAY DIFFRACTION 90 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 226 226 MIISTGNDDLDRRLGGIPYPASIMIEGDHGTGKSVLSAQFVLGFLLSDKKGYVITTEQTTKDYLIKMKEIKIDLIPYFIRGKLRIAPLNTKKFNWNSSLAEKILDVIVNFIRSKNIDFIVIDSLSILAAFSKEKQLLQFMKDIRVLVNTGKMILFTIHPDTFDEEMKSKITSIVDVYLKLSAATIGGRRVKILERVKTTGGISGSDTISFDVDPALGIKVVPLSLS MIISTGNDDLDRRLGGIPYPASIMIEGDHGTGKSVLSAQFVLGFLLSDKKGYVITTEQTTKDYLIKMKEIKIDLIPYFIRGKLRIAPLNTKKFNWNSSLAEKILDVIVNFIRSKNIDFIVIDSLSILAAFSKEKQLLQFMKDIRVLVNTGKMILFTIHPDTFDEEMKSKITSIVDVYLKLSAATIGGRRVKILERVKTTGGISGSDTISFDVDPALGIKVVPLSLS 4ydt-a2-m1-cB_4ydt-a2-m3-cA Beta1 synthetic solenoid protein 3.31 X-RAY DIFFRACTION 69 1.0 32630 (synthetic construct) 32630 (synthetic construct) 215 215 4yc5-a1-m1-cA_4yc5-a1-m2-cA 4ycq-a1-m1-cA_4ycq-a1-m2-cA 4ydt-a1-m1-cA_4ydt-a1-m2-cB 4yfo-a1-m1-cA_4yfo-a1-m2-cA 5dzb-a1-m1-cA_5dzb-a1-m1-cB 5dzb-a2-m1-cC_5dzb-a2-m1-cD 5dzb-a3-m1-cE_5dzb-a3-m1-cF HMNVGEILRHYAAGKRNFQHINLQEIELTNASLTGADLSYANLHHANLSRANLRSADLRNANLSHANLSGANLEEANLEAANLRGADLHEANLSGADLQEANLTQANLKDANLSDANLEQADLAGADLQGAVLDGANLHGANLNNANLSEAMLTRANLEQADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLA HMNVGEILRHYAAGKRNFQHINLQEIELTNASLTGADLSYANLHHANLSRANLRSADLRNANLSHANLSGANLEEANLEAANLRGADLHEANLSGADLQEANLTQANLKDANLSDANLEQADLAGADLQGAVLDGANLHGANLNNANLSEAMLTRANLEQADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCLA 4yeh-a1-m1-cA_4yeh-a1-m1-cB Crystal structure of Mg2+ ion containing hemopexin fold from Kabuli chana (chickpea white) at 2.45A resolution reveals a structural basis of metal ion transport G1K3R9 G1K3R9 2.45 X-RAY DIFFRACTION 30 1.0 3827 (Cicer arietinum) 3827 (Cicer arietinum) 224 224 3s18-a1-m1-cA_3s18-a1-m1-cB 3v6n-a1-m1-cA_3v6n-a1-m1-cB 4oei-a1-m1-cA_4oei-a1-m1-cB GYINAAFRSSRNNEAYLFINDKYVLLDYAPGTSNDKVLYGPSFVRDGYKSLAKTIFGTYGIDCSFDTEYNEAFIFYENFCARIDYAPHSDKDKIISGPKKIADMFPFFKGTVFENGIDAAFRSTKGKEVYLFKGDKYARIDYLTNRLVQNIKSISDGFPCLRGTIFEAGMDSAFASHKTNEAYLFKGEYYARINFTPGSTNDIMGGVKKTLDYWPSLRGIIPLE GYINAAFRSSRNNEAYLFINDKYVLLDYAPGTSNDKVLYGPSFVRDGYKSLAKTIFGTYGIDCSFDTEYNEAFIFYENFCARIDYAPHSDKDKIISGPKKIADMFPFFKGTVFENGIDAAFRSTKGKEVYLFKGDKYARIDYLTNRLVQNIKSISDGFPCLRGTIFEAGMDSAFASHKTNEAYLFKGEYYARINFTPGSTNDIMGGVKKTLDYWPSLRGIIPLE 4yep-a1-m1-cA_4yep-a1-m1-cB L4b Domain of Human Laminin alpha-2 P24043 P24043 1.19 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 GAFLIRTWVTLKAEQTILPLVDEALQHTTTKGIVFQHPEIVAHMDLMREDLHLEPFYWKLPEQFEGKKLMAYGGKLKYAIYFEAREETGFSTYNPQVIIRGGTPTHARIIVRHMAAPLIGQLTRHEIEMTEKEWKYYGDDPRVHRTVTREDFLDILYDIHYILIKATYGNFMRQSRISEISMEVA GAFLIRTWVTLKAEQTILPLVDEALQHTTTKGIVFQHPEIVAHMDLMREDLHLEPFYWKLPEQFEGKKLMAYGGKLKYAIYFEAREETGFSTYNPQVIIRGGTPTHARIIVRHMAAPLIGQLTRHEIEMTEKEWKYYGDDPRVHRTVTREDFLDILYDIHYILIKATYGNFMRQSRISEISMEVA 4yer-a1-m1-cB_4yer-a1-m1-cA Crystal structure of an ABC transporter ATP-binding protein (TM_1403) from Thermotoga maritima MSB8 at 2.35 A resolution Q9X1C3 Q9X1C3 2.35 X-RAY DIFFRACTION 79 0.996 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 268 276 EDIIVVENLVKKFGDFEAVKGVSFSVKKGEIFAFLGPNGAGKTTTIHLTTLLKPTSGKAWVAGHDVLKEPREVRRKIGIVFQDQSLDRELTAYENYIHGKIYGYGGEKLKKRILELLEFVELLEFKDKPVKTFSGGARRLEIARSLIHEPEVLFLDEPTIGLDPHTRAHWEYISKKKEHNTIFLTTHYDEAEQLADRVAIIDHGKIIALGTPTELKRVGKEIIYVRCRKLPDGRLELKIEEITYHKPTLNDVFLHLTGRELREEGPEN EDIIVVENLVKKFGDFEAVKGVSFSVKKGEIFAFLGPNGAGKTTTIHLTTLLKPTSGKAWVAGHDVLKEPREVRRKIGIVFQDQSLDRELTAYENYIHGKIYGYGGEKLKKRILELLEFVELLEFKDKPVKTFSGGARRLEIARSLIHEPEVLFLDEPTIGLDPHTRAHWEYISKKKEHNTIFLTTHYDEAEQLADRVAIIDHGKIIALGTPTELKRVGKEIIYVRDFIESCRKLPDGRLELNVEDIEEITYHKPTLNDVFLHLTGRELREEGPEN 4yet-a1-m1-cA_4yet-a1-m1-cB X-ray crystal structure of superoxide dismutase from Babesia bovis solved by Sulfur SAD O15904 O15904 1.75 X-RAY DIFFRACTION 46 1.0 5865 (Babesia bovis) 5865 (Babesia bovis) 198 200 AFKLPALPYGMRELIPHISEETLSFHYGKHHAGYVNKLNSLIKGTPMESCTIEELILGQTGAVFNNAAQIWNHTFYWNSMGPNCGGEPTGPIRKKIEEKFGSFSAFKTDFSNLLAGHFGSGWGWLVLKDDGTADIVQTHDAGSPLKENLGRPLLCCDVWEHAYYIDYKNDRLSYINSWWNLVNWDFANKNLEAPFKWS SMAFKLPALPYGMRELIPHISEETLSFHYGKHHAGYVNKLNSLIKGTPMESCTIEELILGQTGAVFNNAAQIWNHTFYWNSMGPNCGGEPTGPIRKKIEEKFGSFSAFKTDFSNLLAGHFGSGWGWLVLKDDGTADIVQTHDAGSPLKENLGRPLLCCDVWEHAYYIDYKNDRLSYINSWWNLVNWDFANKNLEAPFKWS 4yeu-a1-m1-cD_4yeu-a1-m1-cE ELIC-GLIC chimera in the resting conformation Q7NDN8 Q7NDN8 4.6 X-RAY DIFFRACTION 131 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 312 312 4yeu-a1-m1-cA_4yeu-a1-m1-cB 4yeu-a1-m1-cA_4yeu-a1-m1-cE 4yeu-a1-m1-cB_4yeu-a1-m1-cC 4yeu-a1-m1-cC_4yeu-a1-m1-cD PVDVSVSIFINKIYGVNTLEQTYKVDGYIVAQWTGKPRKTPGDKPLIVENTQIERWINNGLWVPALEFINVVGSPDTGNKRLMLFPDGRVIYNARFLGSFSNDMDFRLFPFDRQQFVLELEPFSYNNQQLRFSDIQVYTENIDNEEIDEWWIRGKASTHISDIRYDHLSSVQPNQNEFSRITVRIDAVRNYFSYIPNIILPMLFILFISWTAFWSTSYEANVTLVVSTLIAHIAFNILVETNLPKTPYMTYTGAIIFMIYLFYFVAVIEVTVQHYLKVESQPARAASITRASRIAFPVVFLLANIILAFLFF PVDVSVSIFINKIYGVNTLEQTYKVDGYIVAQWTGKPRKTPGDKPLIVENTQIERWINNGLWVPALEFINVVGSPDTGNKRLMLFPDGRVIYNARFLGSFSNDMDFRLFPFDRQQFVLELEPFSYNNQQLRFSDIQVYTENIDNEEIDEWWIRGKASTHISDIRYDHLSSVQPNQNEFSRITVRIDAVRNYFSYIPNIILPMLFILFISWTAFWSTSYEANVTLVVSTLIAHIAFNILVETNLPKTPYMTYTGAIIFMIYLFYFVAVIEVTVQHYLKVESQPARAASITRASRIAFPVVFLLANIILAFLFF 4yf1-a1-m1-cC_4yf1-a1-m1-cA 1.85 angstrom crystal structure of lmo0812 from Listeria monocytogenes EGD-e Q8Y8T2 Q8Y8T2 1.85 X-RAY DIFFRACTION 58 0.993 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 144 155 SHPLNVARILRRAGFREEVVVAGLLHDAVEDTETDADIRATFGDEVADLVASHTENKTLSWEERKAHTIEQVRTGNLEEKALIVADKLDNLTSVKYALSSFKRGYDLQKWYNQGIKNNEYGLNPSEIPPFFDEYARLVKWIFKK TGEPYFSHPLNVARILRRAGFREEVVVAGLLHDAVEDTETDADIRATFGDEVADLVASHTENKTLSWEERKAHTIEQVRTGNLEEKALIVADKLDNLTSVKYALSSKSVWSYFKRGYDLQKWYNQGIKNNEYGLNPSEIPPFFDEYARLVKWIFK 4yf4-a2-m1-cC_4yf4-a2-m1-cD Crystal structure of Rv1284 in the presence of polycarpine at mildly acidic pH P9WPJ6 P9WPJ6 1.8 X-RAY DIFFRACTION 258 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 163 163 1ylk-a1-m1-cA_1ylk-a1-m1-cB 1ylk-a2-m1-cC_1ylk-a2-m1-cD 4yf4-a1-m1-cA_4yf4-a1-m1-cB 4yf5-a1-m1-cA_4yf5-a1-m1-cB 4yf5-a2-m1-cC_4yf5-a2-m1-cD 4yf6-a1-m1-cA_4yf6-a1-m1-cB 4yf6-a2-m1-cC_4yf6-a2-m1-cD GTVTDDYLANNVDYASGFKGPLPMPPSKHIAIVACMDARLDVYRMLGIKEGEAHVIRNAGCVVTDDVIRSLAISQRLLGTREIILLHHTDCGMLTFTDDDFKRAIQDETGIRPTWSPESYPDAVEDVRQSLRRIEVNPFVTKHTSLRGFVFDVATGKLNEVTP GTVTDDYLANNVDYASGFKGPLPMPPSKHIAIVACMDARLDVYRMLGIKEGEAHVIRNAGCVVTDDVIRSLAISQRLLGTREIILLHHTDCGMLTFTDDDFKRAIQDETGIRPTWSPESYPDAVEDVRQSLRRIEVNPFVTKHTSLRGFVFDVATGKLNEVTP 4yfa-a1-m1-cC_4yfa-a1-m1-cF Structure of N-acylhomoserine lactone acylase MacQ in complex with decanoic acid A0A0A1VBK6 A0A0A1VBK6 2.2 X-RAY DIFFRACTION 20 1.0 1268622 (Acidovorax sp. MR-S7) 1268622 (Acidovorax sp. MR-S7) 574 574 4yf9-a1-m1-cC_4yf9-a1-m1-cF 4yf9-a2-m1-cI_4yf9-a2-m1-cL 4yfa-a2-m1-cI_4yfa-a2-m1-cL 4yfb-a1-m1-cC_4yfb-a1-m1-cF 4yfb-a2-m1-cL_4yfb-a2-m1-cI 5c9i-a1-m1-cD_5c9i-a1-m1-cC 5c9i-a2-m1-cB_5c9i-a2-m1-cA SNMYGFGTAATGEGSGVLFGNPHWYWKGPDRFYQAQLTIDGEANVSGVSFLGLPVIQIGFNDSVAWSHTVSTARRFGFFQLSLVQGEPTSYLRDGVPVKMKPATITVPSRNADGSVSDVTRTLYHSEFGPLVNLAGLNPALAWSQGTAFAIRDINGENFRTLRTWMRWNQAKSLDEFIAIQKEEASIPWVNTVAVGRGSAKAWYADIGAVPNVSPAQTAACTTPFGMAVGQALPNVPFFDGSRSECDWLTDADSVQKGAVGVSRMPSLQRDDYVGNMNDSYWLANVHAPLTGYPAIFGPAGTSAQTLRTRMGHTMALERLAGTDGYAGNKATSAVVREMVLGSRVFSAERFKDEVLDLICTPAQWTVNGAAVDAAQACAVLAAWDNRGRKDSRGSHLWDEFWSRVPTASLFTVPFSAADPLNTPRGINAAAADALRQAMATAIARVGQSGYALDAPRGEVLYATRGGTRLPLYGGCGAMGYFTITCSENDITQGGYSMDGQPNASNSYMQVVSFPASGVQAHTFLTFSLSDDPASPHHGDYTKAYSAGQWLRVPFTEAEITGNADYRTATVKEL SNMYGFGTAATGEGSGVLFGNPHWYWKGPDRFYQAQLTIDGEANVSGVSFLGLPVIQIGFNDSVAWSHTVSTARRFGFFQLSLVQGEPTSYLRDGVPVKMKPATITVPSRNADGSVSDVTRTLYHSEFGPLVNLAGLNPALAWSQGTAFAIRDINGENFRTLRTWMRWNQAKSLDEFIAIQKEEASIPWVNTVAVGRGSAKAWYADIGAVPNVSPAQTAACTTPFGMAVGQALPNVPFFDGSRSECDWLTDADSVQKGAVGVSRMPSLQRDDYVGNMNDSYWLANVHAPLTGYPAIFGPAGTSAQTLRTRMGHTMALERLAGTDGYAGNKATSAVVREMVLGSRVFSAERFKDEVLDLICTPAQWTVNGAAVDAAQACAVLAAWDNRGRKDSRGSHLWDEFWSRVPTASLFTVPFSAADPLNTPRGINAAAADALRQAMATAIARVGQSGYALDAPRGEVLYATRGGTRLPLYGGCGAMGYFTITCSENDITQGGYSMDGQPNASNSYMQVVSFPASGVQAHTFLTFSLSDDPASPHHGDYTKAYSAGQWLRVPFTEAEITGNADYRTATVKEL 4yfg-a1-m1-cA_4yfg-a1-m1-cB Crystal structure of PTP delta meA3/meB minus variant Ig1-Fn1 Q64487 Q64487 3.491 X-RAY DIFFRACTION 94 1.0 10090 (Mus musculus) 10090 (Mus musculus) 481 481 ETPPRFTRTPVDQTGVSGGVASFICQATGDPRPKIVWNKKGKKVSNQRFEVIEFDDGSGSVLRIQPLRTPRDEAIYECVASNNVGEISVSTRLTVLREDQIPRGFPTIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVDTSNNNGRIKQLRSESIGALQIEQSEESDQGKYECVATNSAGTRYSAPANLYVRVRRVPPRFSIPPTNHEIMPGGSVNITCVAVGSPMPYVKWMLGAEDLTPEDDMPIGRNVLELNDVRQSANYTCVAMSTLGVIEAIAQITVKALPKPPGTPVVTESTATSITLTWDSGNPEPVSYYIIQHKPKNSEEPYKEIDGIATTRYSVAGLSPYSDYEFRVVAVNNIGRGPASEPVLTQTSEQAPSSAPRDVQARMLSSTTILVQWKEPEEPNGQIQGYRVYYTMDPTQHVNNWMKHNVADSQITTIGNLVPQKTYSVKVLAFTSIGDGPLSSDIQVIT ETPPRFTRTPVDQTGVSGGVASFICQATGDPRPKIVWNKKGKKVSNQRFEVIEFDDGSGSVLRIQPLRTPRDEAIYECVASNNVGEISVSTRLTVLREDQIPRGFPTIDMGPQLKVVERTRTATMLCAASGNPDPEITWFKDFLPVDTSNNNGRIKQLRSESIGALQIEQSEESDQGKYECVATNSAGTRYSAPANLYVRVRRVPPRFSIPPTNHEIMPGGSVNITCVAVGSPMPYVKWMLGAEDLTPEDDMPIGRNVLELNDVRQSANYTCVAMSTLGVIEAIAQITVKALPKPPGTPVVTESTATSITLTWDSGNPEPVSYYIIQHKPKNSEEPYKEIDGIATTRYSVAGLSPYSDYEFRVVAVNNIGRGPASEPVLTQTSEQAPSSAPRDVQARMLSSTTILVQWKEPEEPNGQIQGYRVYYTMDPTQHVNNWMKHNVADSQITTIGNLVPQKTYSVKVLAFTSIGDGPLSSDIQVIT 4yfi-a1-m1-cB_4yfi-a1-m1-cA TNNI3K complexed with inhibitor 1 Q59H18 Q59H18 2.7 X-RAY DIFFRACTION 132 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 262 268 4yff-a1-m1-cD_4yff-a1-m1-cA 4yff-a2-m1-cC_4yff-a2-m1-cB 4yfi-a2-m1-cD_4yfi-a2-m1-cC GLPSHFHLQLSEIEFHEIIGSGSFGKVYKGRCRNKIVAIKRYRSDVDMFCREVSILCQLNHPCVIQFVGACLNDPSQFAIVTQYISGGSLFSLLHEQKRILDLQSKLIIAVDVAKGMEYLHNLTQPIIHRDLNSHNILLYEDGHAVVADFGESRFLQSGNLRWMAPEVFTQCTRYTIKADVFSYALCLWEILTGEIPFAHLKPAAADMDMAYHHIRPPIGYSIPKPISSLLIRGWNACPEGRPEFSEVVMKLEECLCNIELM EKADILLLRAGLPSHFHLQLSEIEFHEIIGSGSFGKVYKGRCRNKIVAIKRYRSDVDMFCREVSILCQLNHPCVIQFVGACLNDPSQFAIVTQYISGGSLFSLLHEQKRILDLQSKLIIAVDVAKGMEYLHNLTQPIIHRDLNSHNILLYEDGHAVVADFGESRFLQGNLRWMAPEVFTQCTRYTIKADVFSYALCLWEILTGEIPFAHLKPAAADMDMAYHHIRPPIGYSIPKPISSLLIRGWNACPEGRPEFSEVVMKLEECLCNI 4yfj-a1-m1-cA_4yfj-a1-m1-cB Crystal structure of aminoglycoside acetyltransferase AAC(3)-Ib Q51407 Q51407 2.2 X-RAY DIFFRACTION 202 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 153 155 SIIATVKIGPDEISAMRAVLDLFGKEFEDIPTYSDRQPTNEYLANLLHSETFIALAAFDRGTAIGGLAAYVLPKFEQARSEIYIYDLAVASSHRRLGVATALISHLKRVAVELGAYVIYVQADYGDDPAVALYTKLGVREDVMHFDIDPRTAT SMSIIATVKIGPDEISAMRAVLDLFGKEFEDIPTYSDRQPTNEYLANLLHSETFIALAAFDRGTAIGGLAAYVLPKFEQARSEIYIYDLAVASSHRRLGVATALISHLKRVAVELGAYVIYVQADYGDDPAVALYTKLGVREDVMHFDIDPRTAT 4yfv-a1-m1-cB_4yfv-a1-m1-cA X-ray structure of the 4-N-formyltransferase VioF from Providencia alcalifaciens O30 M9P0Q2 M9P0Q2 1.89 X-RAY DIFFRACTION 109 1.0 126385 (Providencia alcalifaciens) 126385 (Providencia alcalifaciens) 238 244 4yfy-a1-m1-cA_4yfy-a1-m1-cB MKKILVISDNYQLVSYIKNLYLSNEEWSKELFIDYSYSSINRNPQSLIELGMTEIDIKNKNLNELNDYHLIISAHCKQIFPAHIVNNKLCINIHPGLNPYNRGWFPQVFSILNKKPIGATIHKMDSGEIYCQEEVSILSHETSIDIYNKVIELEKKLIKNNLLKIINNELQPKLPSGNYNSIQDFNKLCKLNLEDNGSLREHIDLLRALTHGDFKNAYFYDENNTKVFVKIELSLSQE MKKILVISDNYQLVSYIKNLYLSNEEWSKELFIDYSYSSINRNPQSLIELGMTEIDIKNKNLNELNDYHLIISAHCKQIFPAHIVNNKLCINIHPGLNPYNRGWFPQVFSILNKKPIGATIHKMDSEVDHGEIYCQEEVSILSHETSIDIYNKVIELEKKLIKNNLLKIINNELQPKLPSQEGNYNSIQDFNKLCKLNLEDNGSLREHIDLLRALTHGDFKNAYFYDENNTKVFVKIELSLSQE 4yg7-a1-m1-cK_4yg7-a1-m1-cD Structure of FL autorepression promoter complex P23874 P23874 3.77 X-RAY DIFFRACTION 77 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 412 414 PKLVTWMNNQRVGELTKLANGAHTFKYAPEWLASRYARPLSLSLPLQRGNITSDAVFNFFDNLLPDSPIVRDRIVKRYHAKSRQPFDLLSEIGRDSVGAVTLIPEDETVTHPIMAWEKLTEARLEEVLTAYKARISVAGAQEKTALLRIGNDWCIPKGITPTTHIIKLPILSQSVDNEYYCLLLAKELGLNVPDAEIIKAGNVRALAVERFDRRWNAERTVLLRLPQEDMCQTFGLPSSVKYESDGGPGIARIMAFLMGSSEALKDRYDFMKFQVFQWLIGATQGHAKNFSVFIQAGGSYRLTPFYDIISAFPVLGGTGIHISDLKLAMGLNASKGKKTAIDKIYPRHFLATAKVLRFPEVQMHEILSDFARMIPAALDNVKTSLPTDFPENVVTAVESNVLRLHGRLSREY PKLVTWMNNQRVGELTKLANGAHTFKYAPEWLASRYARPLSLSLPLQRGNITSDAVFNFFDNLLPDSPIVRDRIVKRYHAKSRQPFDLLSEIGRDSVGAVTLIPEDETVTHPIMAWEKLTEARLEEVLTAYKADFRISVAGAQEKTALLRIGNDWCIPKGITPTTHIIKLPILSQSVDNEYYCLLLAKELGLNVPDAEIIKAGNVRALAVERFDRRWNAERTVLLRLPQEDMCQTFGLPSSVKYESDGGPGIARIMAFLMGSSEALKDRYDFMKFQVFQWLIGATQGHAKNFSVFIQAGGSYRLTPFYDIISAFPVLGGTGIHISDLKLAMGLNASKGKKTAIDKIYPRHFLATAKVLRFPEVQMHEILSDFARMIPAALDNVKTSLPTDFPENVVTAVESNVLRLHGRLSREY 4yg8-a2-m2-cB_4yg8-a2-m6-cB CRYSTAL STRUCTURE OF THE CHS5-CHS6 EXOMER CARGO ADAPTOR COMPLEX P40955 P40955 2.75 X-RAY DIFFRACTION 55 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 673 673 4yg8-a2-m1-cB_4yg8-a2-m4-cB 4yg8-a2-m3-cB_4yg8-a2-m5-cB GYQFLNRDIFKSCPRIMERQFGECLHNRTHLIKDLISSGNVGLGPIEIVHMSYLNKHEKEEFGEYFYVTGIEVSGPAMPVEFLEVLKSSKRISKNISNNIILTYCCFNFFSNLDIRIRYDADDTFQTTAIDCNKETTDLTMTEKMWEETFASSVIRAIITNTNPELKPPGLVECPFYVGKDTISSCKKIIELLCRFLPRSLNCGWDSTKSMQATIVNNYLMYSLKSFIAITPSLVDFTIDYLKGLTKKDPIHDIYYKTAMITILDHIETKELDMITILNETLDPLLSLLNDLPPRDADSARLMNCMSDLLNIQTNFLLNRGDYELALGVSNTSTELALDSFESWYNLARCHIKKEEYEKALFAINSMPRRFLTSNYYKKPLNGTREHYDLTAMEFTNLSGTLRNWKEDELKRQIFGRIAMINEKKIGYTKEIWDDIAIKLGPICGPQSVNLINYVSPQEVKNIKNINLIARNTIGKQLGWFSGKIYGLLMEIVNKIGWNGLLNIRTEAFMMCEGWLDDLFLDLYQDLKLSKISLSNKDEKHSGLEWELLGLIMLRTWHWEDAVACLRTSIVARFDPVSCQQLLKIYLQPPKNIQEVTLLDTDTIISLLIKKISYDCRYYNYCQIFNLQLLEKLCNELGTHILRNKILLQPSIGDEIMVMIDAMLAWIADLDHT GYQFLNRDIFKSCPRIMERQFGECLHNRTHLIKDLISSGNVGLGPIEIVHMSYLNKHEKEEFGEYFYVTGIEVSGPAMPVEFLEVLKSSKRISKNISNNIILTYCCFNFFSNLDIRIRYDADDTFQTTAIDCNKETTDLTMTEKMWEETFASSVIRAIITNTNPELKPPGLVECPFYVGKDTISSCKKIIELLCRFLPRSLNCGWDSTKSMQATIVNNYLMYSLKSFIAITPSLVDFTIDYLKGLTKKDPIHDIYYKTAMITILDHIETKELDMITILNETLDPLLSLLNDLPPRDADSARLMNCMSDLLNIQTNFLLNRGDYELALGVSNTSTELALDSFESWYNLARCHIKKEEYEKALFAINSMPRRFLTSNYYKKPLNGTREHYDLTAMEFTNLSGTLRNWKEDELKRQIFGRIAMINEKKIGYTKEIWDDIAIKLGPICGPQSVNLINYVSPQEVKNIKNINLIARNTIGKQLGWFSGKIYGLLMEIVNKIGWNGLLNIRTEAFMMCEGWLDDLFLDLYQDLKLSKISLSNKDEKHSGLEWELLGLIMLRTWHWEDAVACLRTSIVARFDPVSCQQLLKIYLQPPKNIQEVTLLDTDTIISLLIKKISYDCRYYNYCQIFNLQLLEKLCNELGTHILRNKILLQPSIGDEIMVMIDAMLAWIADLDHT 4yg8-a2-m3-cA_4yg8-a2-m6-cA CRYSTAL STRUCTURE OF THE CHS5-CHS6 EXOMER CARGO ADAPTOR COMPLEX Q12114 Q12114 2.75 X-RAY DIFFRACTION 53 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 276 276 4yg8-a1-m1-cA_4yg8-a1-m5-cA 4yg8-a2-m1-cA_4yg8-a2-m5-cA 4yg8-a2-m2-cA_4yg8-a2-m4-cA XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSQNLEEEKKQRNHFKSIQAKILEKYGTHKPESPVLKIVNVTQTSCVLAWDPLKLGSAKLKSLILYRKGIRSMVIPNPFKVTTTKISGLSVDTPYEFQLKLITTSGTLWSEKVILRTHKMTDMSGITVCLGPLDPLKEISDLQISQCLSHIGARPLQRHVAIDTTHFVCNDLDNEESNEELIRAKHNNIPIVRPEWVRACEVEKRIVGVRGFYLDADQSILKSYTFPPVNEEELSYS XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSQNLEEEKKQRNHFKSIQAKILEKYGTHKPESPVLKIVNVTQTSCVLAWDPLKLGSAKLKSLILYRKGIRSMVIPNPFKVTTTKISGLSVDTPYEFQLKLITTSGTLWSEKVILRTHKMTDMSGITVCLGPLDPLKEISDLQISQCLSHIGARPLQRHVAIDTTHFVCNDLDNEESNEELIRAKHNNIPIVRPEWVRACEVEKRIVGVRGFYLDADQSILKSYTFPPVNEEELSYS 4yg8-a2-m5-cB_4yg8-a2-m6-cB CRYSTAL STRUCTURE OF THE CHS5-CHS6 EXOMER CARGO ADAPTOR COMPLEX P40955 P40955 2.75 X-RAY DIFFRACTION 29 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 673 673 4yg8-a2-m1-cB_4yg8-a2-m2-cB 4yg8-a2-m1-cB_4yg8-a2-m3-cB 4yg8-a2-m2-cB_4yg8-a2-m3-cB 4yg8-a2-m4-cB_4yg8-a2-m5-cB 4yg8-a2-m4-cB_4yg8-a2-m6-cB GYQFLNRDIFKSCPRIMERQFGECLHNRTHLIKDLISSGNVGLGPIEIVHMSYLNKHEKEEFGEYFYVTGIEVSGPAMPVEFLEVLKSSKRISKNISNNIILTYCCFNFFSNLDIRIRYDADDTFQTTAIDCNKETTDLTMTEKMWEETFASSVIRAIITNTNPELKPPGLVECPFYVGKDTISSCKKIIELLCRFLPRSLNCGWDSTKSMQATIVNNYLMYSLKSFIAITPSLVDFTIDYLKGLTKKDPIHDIYYKTAMITILDHIETKELDMITILNETLDPLLSLLNDLPPRDADSARLMNCMSDLLNIQTNFLLNRGDYELALGVSNTSTELALDSFESWYNLARCHIKKEEYEKALFAINSMPRRFLTSNYYKKPLNGTREHYDLTAMEFTNLSGTLRNWKEDELKRQIFGRIAMINEKKIGYTKEIWDDIAIKLGPICGPQSVNLINYVSPQEVKNIKNINLIARNTIGKQLGWFSGKIYGLLMEIVNKIGWNGLLNIRTEAFMMCEGWLDDLFLDLYQDLKLSKISLSNKDEKHSGLEWELLGLIMLRTWHWEDAVACLRTSIVARFDPVSCQQLLKIYLQPPKNIQEVTLLDTDTIISLLIKKISYDCRYYNYCQIFNLQLLEKLCNELGTHILRNKILLQPSIGDEIMVMIDAMLAWIADLDHT GYQFLNRDIFKSCPRIMERQFGECLHNRTHLIKDLISSGNVGLGPIEIVHMSYLNKHEKEEFGEYFYVTGIEVSGPAMPVEFLEVLKSSKRISKNISNNIILTYCCFNFFSNLDIRIRYDADDTFQTTAIDCNKETTDLTMTEKMWEETFASSVIRAIITNTNPELKPPGLVECPFYVGKDTISSCKKIIELLCRFLPRSLNCGWDSTKSMQATIVNNYLMYSLKSFIAITPSLVDFTIDYLKGLTKKDPIHDIYYKTAMITILDHIETKELDMITILNETLDPLLSLLNDLPPRDADSARLMNCMSDLLNIQTNFLLNRGDYELALGVSNTSTELALDSFESWYNLARCHIKKEEYEKALFAINSMPRRFLTSNYYKKPLNGTREHYDLTAMEFTNLSGTLRNWKEDELKRQIFGRIAMINEKKIGYTKEIWDDIAIKLGPICGPQSVNLINYVSPQEVKNIKNINLIARNTIGKQLGWFSGKIYGLLMEIVNKIGWNGLLNIRTEAFMMCEGWLDDLFLDLYQDLKLSKISLSNKDEKHSGLEWELLGLIMLRTWHWEDAVACLRTSIVARFDPVSCQQLLKIYLQPPKNIQEVTLLDTDTIISLLIKKISYDCRYYNYCQIFNLQLLEKLCNELGTHILRNKILLQPSIGDEIMVMIDAMLAWIADLDHT 4yh2-a1-m1-cC_4yh2-a1-m1-cA Glutathione Transferase E6 from Drosophila melanogaster A1ZB71 A1ZB71 1.72 X-RAY DIFFRACTION 95 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 220 221 4pnf-a1-m1-cA_4pnf-a1-m1-cB 4pnf-a2-m1-cC_4pnf-a2-m1-cD 4pnf-a3-m1-cE_4pnf-a3-m1-cF 4pnf-a4-m1-cG_4pnf-a4-m1-cH 4yh2-a2-m1-cB_4yh2-a2-m1-cD KLTLYGLDPSPPVRAVKLTLAALNLTYEYVNVDIVARAQLSPEYLEKNPQHTVPTLEDDGHYIWDSHAIIAYLVSKYADSDALYPKDPLKRAVVDQRLHFESGVVFANGIRSISKSVLFQGQTKVPKERYDAIIEIYDFVETFLKGQDYIAGNQLTIADFSLVSSVASLEAFVALDTTKYPRIGAWIKKLEQLPYYEEANGKGVRQLVAIFKKTNFTFEA VKLTLYGLDPSPPVRAVKLTLAALNLTYEYVNVDIVARAQLSPEYLEKNPQHTVPTLEDDGHYIWDSHAIIAYLVSKYADSDALYPKDPLKRAVVDQRLHFESGVVFANGIRSISKSVLFQGQTKVPKERYDAIIEIYDFVETFLKGQDYIAGNQLTIADFSLVSSVASLEAFVALDTTKYPRIGAWIKKLEQLPYYEEANGKGVRQLVAIFKKTNFTFEA 4yh6-a1-m1-cB_4yh6-a1-m1-cA Crystal structure of IL1RAPL1 ectodomain P59823 P59823 3 X-RAY DIFFRACTION 122 0.987 10090 (Mus musculus) 10090 (Mus musculus) 305 313 CTDWDIKKYQVLVGEPVRIKCALLAQSAGLSLMWYKSSGPGDFEEPIAFDGSRMSKEEDSIWFRPTLLQDSGLYACVIRNSTYCMKVSISLTVGENDTGLCYNSKMKYFEKAELSKSKEISCRDIEDFLLPTPEILWYKECRTKAWRPSIVFKRDTLLIKEVKEDDIGNYTCELKYGGFVVRRTTELTVTAPLTDKPPKLLYPMESKLTVQETQLGGSANLTCRAFFGYSVSPLIYWMKGEKFIEDLDENRVWESDIRILKEHLGEQEVSISLIVDSVEEGDLGNYSCYVENGNGRRHASVLLHK CTDWSVDIKKYQVLVGEPVRIKCALFYGYIRTNYSLAQSAGLSLMWYKSSGPGDFEEPIAFDGSRMSKEEDSIWFRPTLLQDSGLYACVIRNSTYCMKVSISLTVGENDTGLCYNSKMKYFEKAELSKSKEISCRDIEDFLEILWYKECRTKAWRPSIVFKRDTLLIKEVKEDDIGNYTCELKYGGFVVRRTTELTVTAPLTDKPPKLLYPMESKLTVQETQLGGSANLTCRAFFGYSVSPLIYWMKGEKFIEDLDENRVWESDIRILKEHLGEQEVSISLIVDSVEEGDLGNYSCYVENGNGRRHASVLLHK 4yhj-a1-m1-cB_4yhj-a1-m1-cA Structure and Function of the Hypertension Variant A486V of G Protein-coupled Receptor Kinase 4 (GRK4) P32298 P32298 2.6 X-RAY DIFFRACTION 140 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 490 501 GRSKKWKEILTLPPVSQCSELRHSIEKDYSSLCDKQPIGRRLFRQFCDTKPTLKRHIEFLDAVAEYEVADDEDRSDCGLSILDRFFNDKLAAPLPEIPPDVVTECRLGLKEENPSKKAFEECTRVAHNYLRGEPFEEYQESSYFSQFLQWKWLERQPVTKNTFRHYRVLGKGGFGEVCACQVRATGKMYACKKLQKKRIKKRKGEAMALNEKRILEKVQSRFVVSLAYAYETKDALCLVLTIMNGGDLKFHIYNLGNPGFDEQRAVFYAAELCCGLEDLQRERIVYRDLKPENILLDDRGHIRISDLGLATEIPEGQRVRGRVGTVGYMAPEVVNNEKYTFSPDWWGLGCLIYEMIQGHSPFKKYKEKVKWEEVDQRIKNDTEEYSEKFSEDAKSICRMLLTKNPSKRLGCRGEGAAGVKQHPVFKDINFRRLEANMLEPPFCPDPHAVYCGIYLDTADEDFYARFATGCVSIPWQNEMIESGCFKDINK GRSKKWKEILTLPPVSQCSELRHSIEKDYSSLCDKQPIGRRLFRQFCDTKPTLKRHIEFLDAVAEYEVADDEDRSDCGLSILDRFFNDKLAAPLPEIPPDVVTECRLGLKEENPSKKAFEECTRVAHNYLRGEPFEEYQESSYFSQFLQWKWLERQPVTKNTFRHYRVLGKGGFGEVCACQVRATGKMYACKKLQKKRIKKRKGEAMALNEKRILEKVQSRFVVSLAYAYETKDALCLVLTIMNGGDLKFHIYNLGNPGFDEQRAVFYAAELCCGLEDLQRERIVYRDLKPENILLDDRGHIRISDLGLATEIPEGQRVRGRVGTVGYMAPEVVNNEKYTFSPDWWGLGCLIYEMIQGHSPFKKYKEKVKWEEVDQRIKNDTEEYSEKFSEDAKSICRMLLTKNPSKRLGCRGEGAAGVKQHPVFKDINFRRLEANMLEPPFCPDPHAVYCKDVLDIEQFSVVKGIYLDTADEDFYARFATGCVSIPWQNEMIESGCFKDI 4yhz-a1-m1-cH_4yhz-a1-m2-cH Crystal structure of 304M3-B Fab in complex with H3K4me3 peptide 2.304 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 EVQLVETGGGVVQPGRSLRLSCTASGFTFRDYWMSWVRQAPGKGLEWVADIHQDGQVRYYLDAVKGRFTISRDNAKSSLYLQMNSLGAEDTAVYYCARNFVRGFGWHFDLWGRGTLVTVSSASTKGPSVFPLAPSSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS EVQLVETGGGVVQPGRSLRLSCTASGFTFRDYWMSWVRQAPGKGLEWVADIHQDGQVRYYLDAVKGRFTISRDNAKSSLYLQMNSLGAEDTAVYYCARNFVRGFGWHFDLWGRGTLVTVSSASTKGPSVFPLAPSSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS 4yi7-a1-m1-cA_4yi7-a1-m2-cA Anthranilate bound at active site of anthranilate phosphoribosyl transferase from Acinetobacter (AnPRT; TrpD) P00500 P00500 1.853 X-RAY DIFFRACTION 89 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 331 331 4gtn-a1-m1-cA_4gtn-a1-m2-cA RANIQQALNHITKNIHLTQAQMEDVMRSIMQGEATEAQIGALMMGLRMKGESIDEITAAARVMRELAIKIDVSDIQYLVDIVGTGGDNLFNVSTASSFVIAAAGATIAKHGNRSSDLLEQAGINLDLDMQQTERCIREMGVGFLFAMKYAVGPRRELGIRSIFNLLGPLTNPAGVKRFVIGVFSDELCRPIAEVMKQLGAEHVMVVHSKDGLDEISLASQTYIAELKNGEVTEWVLNPEDVNIPSQTLSGLIVEDSNASLKLIKDALGRKKSDIGEKAANMIALNAGAGIYVSGLATSYKQGVALAHDIIYGGQALEKMSILSEFTKALKE RANIQQALNHITKNIHLTQAQMEDVMRSIMQGEATEAQIGALMMGLRMKGESIDEITAAARVMRELAIKIDVSDIQYLVDIVGTGGDNLFNVSTASSFVIAAAGATIAKHGNRSSDLLEQAGINLDLDMQQTERCIREMGVGFLFAMKYAVGPRRELGIRSIFNLLGPLTNPAGVKRFVIGVFSDELCRPIAEVMKQLGAEHVMVVHSKDGLDEISLASQTYIAELKNGEVTEWVLNPEDVNIPSQTLSGLIVEDSNASLKLIKDALGRKKSDIGEKAANMIALNAGAGIYVSGLATSYKQGVALAHDIIYGGQALEKMSILSEFTKALKE 4yif-a2-m1-cD_4yif-a2-m1-cC Crystal structure of Rv0880 P9WMF1 P9WMF1 2.002 X-RAY DIFFRACTION 163 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 132 139 4yif-a1-m1-cA_4yif-a1-m1-cB DARLASDLSLAVMRLSRQLRFRNPSSPVSLSQLSALTTLANEGAMTPGALAIRERVRPPSMTRVIASLADMGFVDRAQVLVSVSESGAELVKAARRARQEWLAERLATLNRSERDILRSAADLMLALVDESP DARLASDLSLAVMRLSRQLRFRNPSSPVSLSQLSALTTLANEGAMTPGALAIRERVRPPSMTRVIASLADMGFVDRAPHPIDGRQVLVSVSESGAELVKAARRARQEWLAERLATLNRSERDILRSAADLMLALVDESP 4yio-a1-m1-cB_4yio-a1-m1-cA X-ray structure of the iron/manganese cambialistic superoxide dismutase from Streptococcus thermophilus Q5M4Z1 Q5M4Z1 1.6 X-RAY DIFFRACTION 47 1.0 1308 (Streptococcus thermophilus) 1308 (Streptococcus thermophilus) 201 202 AIILPDLPYAYDALEPYIDAETMTLHHDKHHATYVANANAALEKHPEIGEDLEALLADVEKIPADIRQALINNGGGHLNHALFWELLSPEKQEPTAEVAAAINEAFGSFEAFQEVFTTSATTRFGSGWAWLVVNAEGKLEVVSTPNQDTPISDGKKPILALDVWEHAYYLKYRNVRPNYIKAFFEIINWNKVAELYAEALE AIILPDLPYAYDALEPYIDAETMTLHHDKHHATYVANANAALEKHPEIGEDLEALLADVEKIPADIRQALINNGGGHLNHALFWELLSPEKQEPTAEVAAAINEAFGSFEAFQEVFTTSATTRFGSGWAWLVVNAEGKLEVVSTPNQDTPISDGKKPILALDVWEHAYYLKYRNVRPNYIKAFFEIINWNKVAELYAEALEH 4yip-a2-m1-cC_4yip-a2-m1-cD X-ray structure of the iron/manganese cambialistic superoxide dismutase from Streptococcus mutans P09738 P09738 2.15 X-RAY DIFFRACTION 45 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 201 203 4yip-a1-m1-cA_4yip-a1-m1-cB AILLPDLPYAYDALEPYIDAETMTLHHDKHHATYVANANAALEKHPEIGENLEVLLADVEQIPADIRQSLINNGGGHLNHALFWELLSPEKTKVTAEVAAAINEAFGSFDDFKAAFTAAATTRFGSGWAWLVVDKEGKLEVTSTANQDTPISQGLKPILALDVWEHAYYLNYRNVRPNYIKAFFEVINWNTVARLYAEALT AILLPDLPYAYDALEPYIDAETMTLHHDKHHATYVANANAALEKHPEIGENLEVLLADVEQIPADIRQSLINNGGGHLNHALFWELLSPEKTKVTAEVAAAINEAFGSFDDFKAAFTAAATTRFGSGWAWLVVDKEGKLEVTSTANQDTPISQGLKPILALDVWEHAYYLNYRNVRPNYIKAFFEVINWNTVARLYAEALTLE 4yiw-a1-m1-cA_4yiw-a1-m1-cB DIHYDROOROTASE FROM BACILLUS ANTHRACIS WITH SUBSTRATE BOUND Q81WF0 Q81WF0 2.45 X-RAY DIFFRACTION 67 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 424 426 3mpg-a1-m1-cA_3mpg-a1-m1-cB NYLFKNGRYMNEEGKIVATDLLVQDGKIAKVAENITADNAEVIDVNGKLIAPGLVDVHVHLREPGGEHKETIETGTLAAAKGGFTTICAMPNTRPVPDCREHMEDLQNRIKEKAHVNVLPYGAITVRQAGSEMTDFETLKELGAFAFTDDGVGVQDASMMLAAMKRAAKLNMAVVAHCEENTLINKGCVHEGKFSEKHGLNGIPSVCESVHIARDILLAEAADCHYHVCHVSTKGSVRVIRDAKRAGIKVTAEVTPHHLVLCEDDIPSADPNFKMNPPLRGKEDHEALIEGLLDGTIDMIATDHAPHTAEEKAQGIERAPFGITGFETAFPLLYTNLVKKGIITLEQLIQFLTEKPADTFGLEAGRLKEGRTADITIIDLEQEEEIDPTTFLSKGKNTPFAGWKCQGWPVMTIVGGKIAWQKES MNYLFKNGRYMNEEGKIVATDLLVQDGKIAKVAENITADNAEVIDVNGKLIAPGLVDVHVHLREPGGEHKETIETGTLAAAKGGFTTICAMPNTRPVPDCREHMEDLQNRIKEKAHVNVLPYGAITVRQAGSEMTDFETLKELGAFAFTDDGVGVQDASMMLAAMKRAAKLNMAVVAHCEENTLINKGCVHEGKFSEKHGLNGIPSVCESVHIARDILLAEAADCHYHVCHVSTKGSVRVIRDAKRAGIKVTAEVTPHHLVLCEDDIPSADPNFKMNPPLRGKEDHEALIEGLLDGTIDMIATDHAPHTAEEKAQGIERAPFGITGFETAFPLLYTNLVKKGIITLEQLIQFLTEKPADTFGLEAGRLKEGRTADITIIDLEQEEEIDPTTFLSKGKNTPFAGWKCQGWPVMTIVGGKIAWQKESA 4yix-a1-m1-cA_4yix-a1-m2-cA Structure of MRB1590 bound to ADP Q57ZF2 Q57ZF2 2.6 X-RAY DIFFRACTION 232 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 579 579 4yiy-a1-m1-cA_4yiy-a1-m1-cB 4yj1-a1-m1-cA_4yj1-a1-m2-cA SPLMDFFHSVEGRNYGELRSLTNETYQISENVRCTFLSIQSDPFAPGSQVRLVCPCTFSLEKVLQTTDLAAANPCRRVAAEDFILRSFHAGYRNGIPRRTSGAVQVLRPSQHVLERSTVGLVKEIEIFARVKLPGGRRIDGHGAIDIFYNELVPLLEQCVVGLNEEDLHQHVICVHDQEELRSNLLGAGYVAFVANGAILPRDAGNSDKPLRDNAVPFQSPKSLECSFTLPHSGKTITGMGLPPGLTLIAGGGFHGKSTLLRALEVGIYNHVPDDGRTYVVVDPTAVKIRAEDRRSVHGVDISPFINNLPFGKTTNFFVTADASGSTSQAANIMEALELGSQLLLLDEDTCATNLMYRDALMQMLVPRAQEPITPFVERVADLSQNHGVSSIMVIGGSGQYFPQARVVLVMNAYQISDCTKEAKEIASNSSSVFIPDVNRCFDPDGSFTTVRTKVSGIGTESIRFSEETIDLSMVEQIVEEGQVNAIAQCLALLYDGEPRIVPEMTTKGGALTQLPSPGGVCFNSNFSSMIAGCCSHQHDKRLELRTPSCYLPRGFTSATRHIEIGAALNRLRTLRTVT SPLMDFFHSVEGRNYGELRSLTNETYQISENVRCTFLSIQSDPFAPGSQVRLVCPCTFSLEKVLQTTDLAAANPCRRVAAEDFILRSFHAGYRNGIPRRTSGAVQVLRPSQHVLERSTVGLVKEIEIFARVKLPGGRRIDGHGAIDIFYNELVPLLEQCVVGLNEEDLHQHVICVHDQEELRSNLLGAGYVAFVANGAILPRDAGNSDKPLRDNAVPFQSPKSLECSFTLPHSGKTITGMGLPPGLTLIAGGGFHGKSTLLRALEVGIYNHVPDDGRTYVVVDPTAVKIRAEDRRSVHGVDISPFINNLPFGKTTNFFVTADASGSTSQAANIMEALELGSQLLLLDEDTCATNLMYRDALMQMLVPRAQEPITPFVERVADLSQNHGVSSIMVIGGSGQYFPQARVVLVMNAYQISDCTKEAKEIASNSSSVFIPDVNRCFDPDGSFTTVRTKVSGIGTESIRFSEETIDLSMVEQIVEEGQVNAIAQCLALLYDGEPRIVPEMTTKGGALTQLPSPGGVCFNSNFSSMIAGCCSHQHDKRLELRTPSCYLPRGFTSATRHIEIGAALNRLRTLRTVT 4yj0-a1-m1-cA_4yj0-a1-m1-cB Crystal structure of the DM domain of human DMRT1 bound to 25mer target DNA Q9Y5R6 Q9Y5R6 3.814 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 63 SPRLPKCARCRNHGYASPLKGHKRFCMWRDCQCKKCNLIAERQRVMAAQVALRRQQAQEEEL KSPRLPKCARCRNHGYASPLKGHKRFCMWRDCQCKKCNLIAERQRVMAAQVALRRQQAQEEEL 4yjj-a2-m2-cD_4yjj-a2-m3-cD Crystal structure of Phycocyanin from marine cyanobacterium Phormidium rubidum sp. A09DM A0A0B6XLA1 A0A0B6XLA1 2.7 X-RAY DIFFRACTION 10 1.0 1198 (Phormidium) 1198 (Phormidium) 171 171 4yjj-a2-m1-cD_4yjj-a2-m2-cD 4yjj-a2-m1-cD_4yjj-a2-m3-cD MFDAFTKVVSQADARGAYLTTDQIDALTALVSDGNKRMDVVNRITSNSSKIVADAARSLFAEQPQLIAPGGAYTSRRMAACLRDMEIILRYVTYAIFSGDASVLDDRCLNGLRETYIALGTPGASVAVGVEKMKQAALAIAGDTSGITPGDCASIMSEVASYFDRAAAAVA MFDAFTKVVSQADARGAYLTTDQIDALTALVSDGNKRMDVVNRITSNSSKIVADAARSLFAEQPQLIAPGGAYTSRRMAACLRDMEIILRYVTYAIFSGDASVLDDRCLNGLRETYIALGTPGASVAVGVEKMKQAALAIAGDTSGITPGDCASIMSEVASYFDRAAAAVA 4yjm-a5-m1-cB_4yjm-a5-m3-cA The apo structure of Agrobacterium tumefaciens ClpS2 Q8UD95 Q8UD95 1.952 X-RAY DIFFRACTION 58 0.988 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 84 85 4yjm-a5-m2-cC_4yjm-a5-m1-cD RPKLYKVMLLNDDYTPREFVTVVLKAVFRMSEDTGRRVMMTAHRFGSAVVVVCERDIAETKAKEATDLGKEAGFPLMFTTEPEE LERPKLYKVMLLNDDYTPREFVTVVLKAVFRMSEDTGRRVMMTAHRFGSAVVVVCERDIAETKAKEATDLGKEAGFPLMFTTEPE 4yjm-a5-m2-cC_4yjm-a5-m3-cA The apo structure of Agrobacterium tumefaciens ClpS2 Q8UD95 Q8UD95 1.952 X-RAY DIFFRACTION 47 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 83 85 4yjm-a5-m1-cB_4yjm-a5-m1-cD RPKLYKVMLLNDDYTPREFVTVVLKAVFRMSEDTGRRVMMTAHRFGSAVVVVCERDIAETKAKEATDLGKEAGFPLMFTTEPE LERPKLYKVMLLNDDYTPREFVTVVLKAVFRMSEDTGRRVMMTAHRFGSAVVVVCERDIAETKAKEATDLGKEAGFPLMFTTEPE 4yjy-a1-m1-cB_4yjy-a1-m1-cA Crystal structure of Type III polyketide synthase from Oryza sativa A2ZEX7 A2ZEX7 1.86 X-RAY DIFFRACTION 183 1.0 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 389 393 VTVEEVRRAQRAEGPATVLAIGTATPANCVYQADYPDYYFRITKSEHMVELKEKFKRMCDKSQIRKRYMHLTEEILQENPNMCAYMAPSLDARQDIVVVEVPKLGKAAAQKAIKEWGQPRSRITHLVFCTTSGVDMPGADYQLAKMLGLRPNVSRLMMYQQGCFAGGTVLRVAKDLAENNRGARVLAVCSEITAVTFRGPSESHLDSMVGQALFGDGAAAVIVGSDPDEAVERPLFQMVSASQTILPDSEGAIDGHLREVGLTFHLLKDVPGLISKNIERALGDAFTPLGISDWNSIFWVAHPGGPAILDQVEAKVGLDKERMRATRHVLSEYGNMSSACVLFILDEMRKRSAEDGHATTGEGMDWGVLFGFGPGLTVETVVLHSVPIT MAAAVTVEEVRRAQRAEGPATVLAIGTATPANCVYQADYPDYYFRITKSEHMVELKEKFKRMCDKSQIRKRYMHLTEEILQENPNMCAYMAPSLDARQDIVVVEVPKLGKAAAQKAIKEWGQPRSRITHLVFCTTSGVDMPGADYQLAKMLGLRPNVSRLMMYQQGCFAGGTVLRVAKDLAENNRGARVLAVCSEITAVTFRGPSESHLDSMVGQALFGDGAAAVIVGSDPDEAVERPLFQMVSASQTILPDSEGAIDGHLREVGLTFHLLKDVPGLISKNIERALGDAFTPLGISDWNSIFWVAHPGGPAILDQVEAKVGLDKERMRATRHVLSEYGNMSSACVLFILDEMRKRSAEDGHATTGEGMDWGVLFGFGPGLTVETVVLHSVPIT 4yke-a1-m1-cA_4yke-a1-m1-cB Crystal structure of eukaryotic Mre11 catalytic domain from Chaetomium thermophilum G0RYR3 G0RYR3 2.783 X-RAY DIFFRACTION 82 0.995 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 404 405 7zr1-a1-m1-cB_7zr1-a1-m1-cA TAGPDTIRILVSTDNHVGYEERDPIRKDDSWRTFDEIMQLARTKDVDMVLLGGDLFHDNKPSRKAMYQVMRSLRKNCLGMKPCELEFLSDPAEVFEGAFPHVNYYDPDINVSIPVFSIHGNHDDPSGDGHLCSLDLLQVAGLVNYFGRVPEADNIHVKPILLQKGKTKLALYGMSNVRDERIHRTFRDNKVRFYRPTGDWFNLLTLHQNHYAHTPTGYLSENMLPDFLDLVIWGHEHECLIDPKKNPETGFHVMQPGSSIATSLVPGEAVPKHIAILSITGKSFEVEKIPLRTVRPFVIREITLATDKRFKGLEKKQDNRQEVTKRLMQIVEEMIAEANEMWRSLHEDSQDDEEQPLPLIRLKVEYSSPEGTKFEVENPQRFSNRFAGKVANQNDVVHFYRKKT TAGPDTIRILVSTDNHVGYEERDPIRKDDSWRTFDEIMQLARTKDVDMVLLGGDLFHDNKPSRKAMYQVMRSLRKNCLGMKPCELEFLSDPAEVFEGAFPHVNYYDPDINVSIPVFSIHGNHDDPSGDGHLCSLDLLQVAGLVNYFGRVPEADNIHVKPILLQKGKTKLALYGMSNVRDERIHRTFRDNKVRFYRPSQQTGDWFNLLTLHQNHYAHTPTGYLSENMLPDFLDLVIWGHEHECLIDPKKNPETGFHVMQPGSSIATSLVPGEAVPKHIAILSITGKSFEVEKIPLRTVRPFVIREITLATDKRFKGLEKKQDNRQEVTKRLMQIVEEMIAEANEMWRSLHEDSQDDQPLPLIRLKVEYSSPEGTKFEVENPQRFSNRFAGKVANQNDVVHFYRKKT 4ykg-a1-m1-cA_4ykg-a1-m2-cA Crystal Structure of the Alkylhydroperoxide Reductase subunit F (AhpF) with NAD+ from Escherichia coli P35340 P35340 2.4 X-RAY DIFFRACTION 151 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 520 520 1fl2-a2-m1-cA_1fl2-a2-m2-cA 4o5q-a1-m1-cA_4o5q-a1-m2-cA 4o5u-a1-m1-cA_4o5u-a1-m2-cA 4ykf-a1-m1-cA_4ykf-a1-m2-cA MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNSLPVRKPSFLITNPGSNQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRHIDGDFEFETYYSLSCHNCPDVVQALNLMSVLNPRIKHTAIDGGTFQNEITDRNVMGVPAVFVNGKEFGQGRMTLTEIVAKIDTGAEKRAAEELNKRDAYDVLIVGSGPAGAAAAIYSARKGIRTGLMGERFGGQILDTVDIENYISVPKTEGQKLAGALKVHVDEYDVDVIDSQSASKLIPAAVEGGLHQIETASGAVLKARSIIVATGAKWRNMNVPGEDQYRTKGVTYPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKLRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHNIELAGIFVQIGLLPNTNWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTKTA MLDTNMKTQLKAYLEKLTKPVELIATLDDSAKSAEIKELLAEIAELSDKVTFKEDNSLPVRKPSFLITNPGSNQGPRFAGSPLGHEFTSLVLALLWTGGHPSKEAQSLLEQIRHIDGDFEFETYYSLSCHNCPDVVQALNLMSVLNPRIKHTAIDGGTFQNEITDRNVMGVPAVFVNGKEFGQGRMTLTEIVAKIDTGAEKRAAEELNKRDAYDVLIVGSGPAGAAAAIYSARKGIRTGLMGERFGGQILDTVDIENYISVPKTEGQKLAGALKVHVDEYDVDVIDSQSASKLIPAAVEGGLHQIETASGAVLKARSIIVATGAKWRNMNVPGEDQYRTKGVTYPHCDGPLFKGKRVAVIGGGNSGVEAAIDLAGIVEHVTLLEFAPEMKADQVLQDKLRSLKNVDIILNAQTTEVKGDGSKVVGLEYRDRVSGDIHNIELAGIFVQIGLLPNTNWLEGAVERNRMGEIIIDAKCETNVKGVFAAGDCTTVPYKQIIIATGEGAKASLSAFDYLIRTKTA 4ykj-a1-m1-cA_4ykj-a1-m1-cB Mnemiopsis leidyi ML032222a iGluR LBD complex with Alanine A0A0R4I973 A0A0R4I973 1.401 X-RAY DIFFRACTION 51 1.0 27923 (Mnemiopsis leidyi) 27923 (Mnemiopsis leidyi) 247 255 4yki-a1-m1-cA_4yki-a1-m1-cB 4ykk-a1-m1-cA_4ykk-a1-m1-cB 4ykp-a1-m1-cA_4ykp-a1-m1-cB 5cmb-a1-m1-cA_5cmb-a1-m1-cB 5cmc-a1-m1-cA_5cmc-a1-m1-cB LIGRHLRLGSVEEQPFMFFATEGCEGNDCWSGMVNDMVVKLSEDLGFTYEYIQPDDRKFGALNKTTNEWNGMIRDLLDDKTDMIAIDLSTNSARKSAIDYSFPFMDAGIKAVVKGEGTTLNQVLELLDQDKYKWGVIGSRHPETLLKTHRDSRYSRLVDEGVELKDLNHAIETLRGGLFVFIDEGPVLAHNLISDCDVFSVGEEFQSFEYAFGLPKDSPYKSLIDSHLLKFREEGFIDILWEKWSSG GSKNLIGRHLRLGSVEEQPFMFFATEGCEGNDCWSGMVNDMVVKLSEDLGFTYEYIQPDDRKFGALNKTTNEWNGMIRDLLDDKTDMIAIDLSTNSARKSAIDYSFPFMDAGIKAVVKGEGTTLNQVLELLDQDKYKWGVIGSRHPETLLKTHRDSRYSRLVDEGVELKDLNHAIETLRGGLFVFIDEGPVLAHNLISDCDVFSVGEEFQSFEYAFGLPKDSPYKSLIDSHLLKFREEGFIDILWEKWSSGNSVC 4yl5-a1-m1-cA_4yl5-a1-m2-cA Structure of a putative phosphomethylpyrimidine kinase from Acinetobacter baumannii A0A0J9X285 A0A0J9X285 1.7 X-RAY DIFFRACTION 94 1.0 903899 (Acinetobacter baumannii IS-123) 903899 (Acinetobacter baumannii IS-123) 227 227 VRPTVLCFSGLDPSGGAGLQADIEAIGQSGAHAAIACTALTIQNSQQVFGFEATSKELLLAQANAVVGDLPIKCVKSGMLGTTDNIAALAEFLRAHPDYQYVLDPVLVANSGGSLGDQATLVKAFVELIPLATLITPNTVELRALTGVTDLDQATQKLFEMGAKAVLVKGGHEDTPDFIKNSLYIDGELAASSTCPCSLASFIAGRLALGDSLKIAVQHAETWLFGV VRPTVLCFSGLDPSGGAGLQADIEAIGQSGAHAAIACTALTIQNSQQVFGFEATSKELLLAQANAVVGDLPIKCVKSGMLGTTDNIAALAEFLRAHPDYQYVLDPVLVANSGGSLGDQATLVKAFVELIPLATLITPNTVELRALTGVTDLDQATQKLFEMGAKAVLVKGGHEDTPDFIKNSLYIDGELAASSTCPCSLASFIAGRLALGDSLKIAVQHAETWLFGV 4ylg-a1-m1-cB_4ylg-a1-m1-cA Structure of an ADP ribosylation factor from Entamoeba histolytica HM-1:IMSS bound to Mg-GDP C4LXL1 C4LXL1 1.8 X-RAY DIFFRACTION 37 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 161 165 4y0v-a1-m1-cB_4y0v-a1-m1-cA SWLSKLLGKKEMRILMVGLDAAGKTSILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGYYQNTQAIIFVVDSNDRDRIGEAREELMKMLNEDEMRNAILLVFANKHDLPQAMSISEVTEKLGLQTIKNRKWYCQTSCATNGDGLYEGLDWLADNL SWLSKLLGKKEMRILMVGLDAAGKTSILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGLWRHYYQNTQAIIFVVDSNDRDRIGEAREELMKMLNEDEMRNAILLVFANKHDLPQAMSISEVTEKLGLQTIKNRKWYCQTSCATNGDGLYEGLDWLADNL 4ylm-a2-m3-cX_4ylm-a2-m6-cX Structure of PvcB, an Fe, alpha-ketoglutarate dependent oxygenase from an isonitrile synthetic pathway Q9I1L4 Q9I1L4 2.05 X-RAY DIFFRACTION 37 1.0 1009714 (Pseudomonas aeruginosa PAK) 1009714 (Pseudomonas aeruginosa PAK) 274 274 4ylm-a2-m1-cX_4ylm-a2-m5-cX 4ylm-a2-m2-cX_4ylm-a2-m4-cX GHMNAYLSDQPVRLSPLRDEQGNQPRFGLLLEPGRPGMHVGELPAQWLKGLARSHHLLLLRGFAAFADAESLTRYCHDFGEVMLWPFGAVLELVEQEGAEHIFANNYVPLHWDGMYLETVPEFQVFHCVDAPGDSDGGRTTFSSTPAALQLADSSELELWRRASGRYQRSSRSAAPIVERHPRREFPILRFCEPPFHYDGIAPEQRGELLASLRRCLYHPQAHYAHRWRSDDLVIADNLTLLHGREAFAHRAPRHLRRVHIHAEPALRNPHLQR GHMNAYLSDQPVRLSPLRDEQGNQPRFGLLLEPGRPGMHVGELPAQWLKGLARSHHLLLLRGFAAFADAESLTRYCHDFGEVMLWPFGAVLELVEQEGAEHIFANNYVPLHWDGMYLETVPEFQVFHCVDAPGDSDGGRTTFSSTPAALQLADSSELELWRRASGRYQRSSRSAAPIVERHPRREFPILRFCEPPFHYDGIAPEQRGELLASLRRCLYHPQAHYAHRWRSDDLVIADNLTLLHGREAFAHRAPRHLRRVHIHAEPALRNPHLQR 4ylm-a2-m5-cX_4ylm-a2-m6-cX Structure of PvcB, an Fe, alpha-ketoglutarate dependent oxygenase from an isonitrile synthetic pathway Q9I1L4 Q9I1L4 2.05 X-RAY DIFFRACTION 59 1.0 1009714 (Pseudomonas aeruginosa PAK) 1009714 (Pseudomonas aeruginosa PAK) 274 274 3eat-a1-m1-cX_3eat-a1-m2-cX 3eat-a1-m1-cX_3eat-a1-m3-cX 3eat-a1-m2-cX_3eat-a1-m3-cX 4ylm-a1-m1-cX_4ylm-a1-m2-cX 4ylm-a1-m1-cX_4ylm-a1-m3-cX 4ylm-a1-m2-cX_4ylm-a1-m3-cX 4ylm-a2-m1-cX_4ylm-a2-m2-cX 4ylm-a2-m1-cX_4ylm-a2-m3-cX 4ylm-a2-m2-cX_4ylm-a2-m3-cX 4ylm-a2-m4-cX_4ylm-a2-m5-cX 4ylm-a2-m4-cX_4ylm-a2-m6-cX GHMNAYLSDQPVRLSPLRDEQGNQPRFGLLLEPGRPGMHVGELPAQWLKGLARSHHLLLLRGFAAFADAESLTRYCHDFGEVMLWPFGAVLELVEQEGAEHIFANNYVPLHWDGMYLETVPEFQVFHCVDAPGDSDGGRTTFSSTPAALQLADSSELELWRRASGRYQRSSRSAAPIVERHPRREFPILRFCEPPFHYDGIAPEQRGELLASLRRCLYHPQAHYAHRWRSDDLVIADNLTLLHGREAFAHRAPRHLRRVHIHAEPALRNPHLQR GHMNAYLSDQPVRLSPLRDEQGNQPRFGLLLEPGRPGMHVGELPAQWLKGLARSHHLLLLRGFAAFADAESLTRYCHDFGEVMLWPFGAVLELVEQEGAEHIFANNYVPLHWDGMYLETVPEFQVFHCVDAPGDSDGGRTTFSSTPAALQLADSSELELWRRASGRYQRSSRSAAPIVERHPRREFPILRFCEPPFHYDGIAPEQRGELLASLRRCLYHPQAHYAHRWRSDDLVIADNLTLLHGREAFAHRAPRHLRRVHIHAEPALRNPHLQR 4ymh-a2-m1-cD_4ymh-a2-m1-cC Crystal structure of SAH-bound Podospora anserina methyltransferase PaMTH1 Q9HGR1 Q9HGR1 1.876 X-RAY DIFFRACTION 177 1.0 234 235 4qvk-a1-m1-cA_4qvk-a1-m1-cB 4ymg-a1-m1-cA_4ymg-a1-m1-cB 4ymh-a1-m1-cB_4ymh-a1-m1-cA LGSILPFNEETADRVSAYCEKNSHGIPDALVEHWEWTRTRFPDADKMSSRLQGSWMIFTARDRKPKRILEIGCYSGYSALAWYEGTRDTKAEIVTLEYSPKMIAASREAFKKYGVGDRVKLIEGPAENTLKTLEGEFDLIFVDANKDGYAGYVKTILDQGLLSANGIILCDNVFARGLTIGPDCAPWLNDHVRPYWNGCGQALDKFSAGLMEDPRIDVLLLPVFDGVTQIRWKD LGSILPFNEETADRVSAYCEKNSHGIPDALVEHWEWTRTRFPDADKMSSRLQGSWMIFTARDRKPKRILEIGCYSGYSALAWYEGTRDTKAEIVTLEYSPKMIAASREAFKKYGVGDRVKLIEGPAENTLKTLEGEFDLIFVDANKDGYAGYVKTILDQGLLSANGIILCDNVFARGLTIGPDCAPWLNDHVRPYWNGCGQALDKFSAGLMEDPRIDVLLLPVFDGVTQIRWKDG 4ymr-a1-m1-cB_4ymr-a1-m1-cA Crystal structure of the domain swapped PXB/TPR domain of mouse SNX21 Q3UR97 Q3UR97 2.4 X-RAY DIFFRACTION 132 1.0 10090 (Mus musculus) 10090 (Mus musculus) 129 134 VLPELRRAQSLTCTGLYREALALWANAWQLQTQGPDRPLLTLAGLAVCHQELEDPGEARACSEKALQLLGDKRPHPFLAPFLEAHVRLSWRLGLDKRQSEAQLQALQEAGLTSTPPPSLKELLIKEVLD VLPELRRAQSLTCTGLYREALALWANAWQLQTQLGTPSGPDRPLLTLAGLAVCHQELEDPGEARACSEKALQLLGDKRPHPFLAPFLEAHVRLSWRLGLDKRQSEAQLQALQEAGLTSTPPPSLKELLIKEVLD 4ymu-a1-m1-cA_4ymu-a1-m1-cJ Crystal structure of an amino acid ABC transporter complex with arginines and ATPs Q8RCC2 Q8RCC2 2.503 X-RAY DIFFRACTION 31 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 240 240 4yms-a1-m1-cA_4yms-a1-m1-cJ 4ymt-a1-m1-cA_4ymt-a1-m1-cJ 4ymv-a1-m1-cA_4ymv-a1-m1-cJ 4ymw-a1-m1-cA_4ymw-a1-m1-cJ MIFVNDVYKNFGSLEVLKGVTLKVNKGEVVVIIGPSGSGKSTLLRCINLLEEPTKGEVFIDGVKINNGKVNINKVRQKVGMVFQHFNLFPHLTAIENITLAPVKVKKMNKKEAEELAVDLLAKVGLLDKKDQYPIKLSGGQKQRLAIARALAMQPEVMLFDEPTSALDPEMVKEVLNVMKQLANEGMTMVVVTHEMGFAREVGDRVIFMDDGVIVEEGTPEEIFYRAKNERTREFLSKIL MIFVNDVYKNFGSLEVLKGVTLKVNKGEVVVIIGPSGSGKSTLLRCINLLEEPTKGEVFIDGVKINNGKVNINKVRQKVGMVFQHFNLFPHLTAIENITLAPVKVKKMNKKEAEELAVDLLAKVGLLDKKDQYPIKLSGGQKQRLAIARALAMQPEVMLFDEPTSALDPEMVKEVLNVMKQLANEGMTMVVVTHEMGFAREVGDRVIFMDDGVIVEEGTPEEIFYRAKNERTREFLSKIL 4ymu-a1-m1-cC_4ymu-a1-m1-cD Crystal structure of an amino acid ABC transporter complex with arginines and ATPs Q8RCC3 Q8RCC3 2.503 X-RAY DIFFRACTION 115 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 214 215 4yms-a1-m1-cC_4yms-a1-m1-cD 4ymt-a1-m1-cB_4ymt-a1-m1-cC 4ymv-a1-m1-cC_4ymv-a1-m1-cD 4ymw-a1-m1-cC_4ymw-a1-m1-cD MTVDFLSMVKYTPLFISGLIMTLKLTFLAVTIGVLMGLFIALMKMSSIKPIKLVASSYIEVIRGTPLLVQLLLIYNGLMQFGMNIPAFTAGVSALAINSSAYVAEIIRAGIQAVDPGQNEAARSLGMTHAMAMRYVIIPQAIKNILPALGNEFIVMLKESAIVSVIGFADLTRQADIIQSVTYRYFEPYIIIAAIYFVMTLTFSKLLSLFERRL MTVDFLSMVKYTPLFISGLIMTLKLTFLAVTIGVLMGLFIALMKMSSIKPIKLVASSYIEVIRGTPLLVQLLLIYNGLMQFGMNIPAFTAGVSALAINSSAYVAEIIRAGIQAVDPGQNEAARSLGMTHAMAMRYVIIPQAIKNILPALGNEFIVMLKESAIVSVIGFADLTRQADIIQSVTYRYFEPYIIIAAIYFVMTLTFSKLLSLFERRLR 4ymy-a1-m1-cA_4ymy-a1-m2-cA Crystal structure of mutant nitrobindin M75A/H76L/Q96C/M148L/H158A (NB11) from Arabidopsis thaliana O64527 O64527 1 X-RAY DIFFRACTION 91 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 153 153 2a13-a1-m1-cA_2a13-a1-m2-cA 2q4n-a1-m1-cA_2q4n-a1-m2-cA 3emm-a1-m1-cA_3emm-a1-m2-cA 3wjb-a1-m1-cA_3wjb-a1-m1-cB 3wjc-a1-m1-cA_3wjc-a1-m1-cB 3wjd-a1-m1-cA_3wjd-a1-m2-cA 3wje-a1-m1-cA_3wje-a1-m1-cB 3wjf-a1-m1-cA_3wjf-a1-m1-cB 3wjg-a1-m1-cA_3wjg-a1-m2-cA 7bbm-a1-m1-cA_7bbm-a1-m2-cA PPVHPFVAPLSYLLGTWRGQGEGEYPTIPSFRYGEEIRFSHSGKPVIAYTQKTWKLESGAPALAESGYFRPRPDGSIEVVIACSTGLVEVQKGTYNVDEQSIKLKSDLVGNASKVKEISREFELVDGKLSYVVRLSTTTNPLQPALKAILDKL PPVHPFVAPLSYLLGTWRGQGEGEYPTIPSFRYGEEIRFSHSGKPVIAYTQKTWKLESGAPALAESGYFRPRPDGSIEVVIACSTGLVEVQKGTYNVDEQSIKLKSDLVGNASKVKEISREFELVDGKLSYVVRLSTTTNPLQPALKAILDKL 4ymz-a1-m1-cA_4ymz-a1-m1-cB DHAP bound Leptospira Interrogans Triosephosphate Isomerase (LiTIM) Q8F5I5 Q8F5I5 1.87 X-RAY DIFFRACTION 148 1.0 1291351 (Leptospira interrogans serovar Icterohaemorrhagiae str. RGA) 1291351 (Leptospira interrogans serovar Icterohaemorrhagiae str. RGA) 250 250 4x22-a1-m1-cA_4x22-a1-m2-cA ARKTIIAGNWKMNLSLKEAVFLAHSIREKIPSISKDKVSMVFPSTLHLENVSKILEGSSVIVGAQNCYHSGLAAFTGETSPDQLKEIGVKVVMVGHSERRQFLGESNFFCNDKIRFLLKNEFTVLYCVGETLSERESGKTLEVLSSQIREGLKGIDSVFFSNLILAYEPVWAIGTGKVATPSQAQEVHSFIRKEISGLFVGASSISESISILYGGSVKPDNIQDLLKEKDIDGGLVGGASQKISSFAGLF ARKTIIAGNWKMNLSLKEAVFLAHSIREKIPSISKDKVSMVFPSTLHLENVSKILEGSSVIVGAQNCYHSGLAAFTGETSPDQLKEIGVKVVMVGHSERRQFLGESNFFCNDKIRFLLKNEFTVLYCVGETLSERESGKTLEVLSSQIREGLKGIDSVFFSNLILAYEPVWAIGTGKVATPSQAQEVHSFIRKEISGLFVGASSISESISILYGGSVKPDNIQDLLKEKDIDGGLVGGASQKISSFAGLF 4yn1-a2-m1-cA_4yn1-a2-m2-cA THE ATOMIC STRUCTURE OF ANOMALA CUPREA ENTOMOPOXVIRUS (ACEPV) FUSOLIN SPINDLES O70709 O70709 1.9 X-RAY DIFFRACTION 165 1.0 62099 (Anomala cuprea entomopoxvirus) 62099 (Anomala cuprea entomopoxvirus) 261 261 HGYVTFPIARQRRCNVQGGFWWPPEGTNIPDPMCRAAYQYVFNKVLSEGGSTSQAASAAQYMFQQDNEYAALAGPNFRDICWIKEQVVPDYLCAAGADTWRIRPFGDKTGMDIVGSWPPTVIPLENNFVNTIPIELEFCPTAIHEPSYFEVYVTTPEFNVYRDKVTWPLLELVFNSTVPLVNRRADSLCTANARVYRMIVPVPYRQTQFVIYVRWQRIDPVGEGFYNCVDAVFANRPGPDPEDMIPPPIAYAGYTEDHTGL HGYVTFPIARQRRCNVQGGFWWPPEGTNIPDPMCRAAYQYVFNKVLSEGGSTSQAASAAQYMFQQDNEYAALAGPNFRDICWIKEQVVPDYLCAAGADTWRIRPFGDKTGMDIVGSWPPTVIPLENNFVNTIPIELEFCPTAIHEPSYFEVYVTTPEFNVYRDKVTWPLLELVFNSTVPLVNRRADSLCTANARVYRMIVPVPYRQTQFVIYVRWQRIDPVGEGFYNCVDAVFANRPGPDPEDMIPPPIAYAGYTEDHTGL 4yn2-a2-m1-cA_4yn2-a2-m2-cA THE ATOMIC STRUCTURE OF WISEANA SPP ENTOMOPOXVIRUS (WSEPV) FUSOLIN SPINDLES A0A0J9X287 A0A0J9X287 2.02 X-RAY DIFFRACTION 271 1.0 10291 (unidentified entomopoxvirus) 10291 (unidentified entomopoxvirus) 281 281 HGYMSFPIARQRRCSMESFWYPTNGDGITDPMCRAAYQYVYDKVLDETGSTTDAISAAQYEFQQDNEYAALAGPDYWDKCHITQQVVPNYLCAAGAHSWSNPFGDKSGVDISGSWRPTVIPLSDNHQVSVPLELEFCPTAVHEPSYYEVYITKPSFNVFIDRVVWGNLDLIYNDTVPLDPRLPYSICDADLVYRFTVPIPIRQSQAVLYVRWQRLDPVGEGFYNCVDINFDYNNGPDDEDIIVPDVPNQCASTFNYNEGVPGFDTEEYYKYMYESLRFNRY HGYMSFPIARQRRCSMESFWYPTNGDGITDPMCRAAYQYVYDKVLDETGSTTDAISAAQYEFQQDNEYAALAGPDYWDKCHITQQVVPNYLCAAGAHSWSNPFGDKSGVDISGSWRPTVIPLSDNHQVSVPLELEFCPTAVHEPSYYEVYITKPSFNVFIDRVVWGNLDLIYNDTVPLDPRLPYSICDADLVYRFTVPIPIRQSQAVLYVRWQRLDPVGEGFYNCVDINFDYNNGPDDEDIIVPDVPNQCASTFNYNEGVPGFDTEEYYKYMYESLRFNRY 4yn9-a1-m1-cB_4yn9-a1-m1-cA YfiR mutant-C110S Q9I4L4 Q9I4L4 2.45 X-RAY DIFFRACTION 47 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 148 153 4xjy-a2-m1-cD_4xjy-a2-m1-cC 4yn7-a1-m1-cB_4yn7-a1-m1-cA 4yna-a1-m1-cB_4yna-a1-m1-cA 4yna-a2-m1-cD_4yna-a2-m1-cC 5eb2-a1-m1-cB_5eb2-a1-m1-cA 5eb3-a1-m1-cB_5eb3-a1-m1-cA 5y62-a1-m1-cB_5y62-a1-m1-cA RTSIEQRSNAVSQVLLGIFSYVRWPKEPAVLQLCVVGPTEYADGLLRGMVQANGRRVHAERRAVDNPDLGTLSNVIYLGVVDERERQQVFRSLAGHPVLSISERGTECSVGSMFCLNVGGPRITFEANLDSIARSGVRVHPSVLKLAR RTSIEQRSNAVSQVLLGIFSYVRWPKEPAVLQLCVVGPTEYADGLLRGMVQANGRRVHAERRAVDNPDLGTLSNVIYLGVVDERERQQVFRSLAGHPVLSISERGTECSVGSMFCLNVGGPRITFEANLDSIARSGVRVHPSVLKLARRQATP 4ynh-a1-m1-cA_4ynh-a1-m1-cB Structure of the C. elegans SAS-5 Implico dimerization domain Q20010 Q20010 1 X-RAY DIFFRACTION 93 0.983 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 58 58 PLGSKIASAREVIKRDGVIPPEALTIIEQRLRSDPMFRQQIDNVLADAECDANRAAYS GPLGSKIASAREVIKRDGVIPPEALTIIEQRLRSDPMFRQQIDNVLADAECDANRAAY 4ynx-a1-m1-cA_4ynx-a1-m1-cB Structure of YdiE from E. coli P0ACX9 P0ACX9 1.5 X-RAY DIFFRACTION 76 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 40 42 PIRRISSQTLLGPDGKLIIDHDGQEYLLRKTQAGKLLLTK PQPIRRISSQTLLGPDGKLIIDHDGQEYLLRKTQAGKLLLTK 4ynz-a1-m1-cA_4ynz-a1-m1-cB Structure of the N-terminal domain of SAD Q69Z98 Q69Z98 2 X-RAY DIFFRACTION 79 0.997 10090 (Mus musculus) 10090 (Mus musculus) 313 323 GPLGSMQYVGPYRLEKTLGKGQTGLVKLGIHCVTCQKVAIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYLYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIISALDFCHSHSICHRDLKPENLLLDERNNIRIADFGMASLQSPHYACPEVIRGEKYDGRKADVWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGMIEVDAARRLTLEHIQKHIWYIGPRKVQIRSLPSLEDIDPDVLDSMHSLGCFRDRNKLLQDLLSEEENQEKMIYFLLLDRKL GPLGSMQYVGPYRLEKTLGKGQTGLVKLGIHCVTCQKVAIKIVNREKLSESVLMKVEREIAILKLIEHPHVLKLHDVYENKKYLYLVLEHVSGGELFDYLVKKGRLTPKEARKFFRQIISALDFCHSHSICHRDLKPENLLLDERNNIRIADFGMASLSPHYACPEVIRGEKYDGRKADVWSCGVILFALLVGALPFDDDNLRQLLEKVKRGVFHMPHFIPPDCQSLLRGMIEVDAARRLTLEHIQKHIWYIGGKNEPEPEQPIPRKVQIRSLPSLEDIDPDVLDSMHSLGCFRDRNKLLQDLLSEEENQEKMIYFLLLDRKL 4yo3-a6-m1-cJ_4yo3-a6-m1-cK Enteroaggregative Escherichia Coli TssA N-terminal fragment D3GUX1 D3GUX1 3.37 X-RAY DIFFRACTION 84 1.0 216592 (Escherichia coli 042) 216592 (Escherichia coli 042) 153 153 4yo3-a1-m1-cA_4yo3-a1-m2-cA 4yo3-a2-m1-cB_4yo3-a2-m1-cC 4yo3-a3-m1-cD_4yo3-a3-m1-cE 4yo3-a4-m1-cF_4yo3-a4-m1-cG 4yo3-a5-m1-cH_4yo3-a5-m1-cI 4yo3-a7-m1-cL_4yo3-a7-m3-cL SAITSGQELLSQARVLAKYLRDQPEGWLAAHRLKSVRHDTLHQLPPLSADGRTRIAPPGPDRRASLKRLYLQQNWLSLLEQCDDFARGASHLWLDLQWYIHQALLQTGKENYAAIIQYDLKGLLLRLPGLETLAFNDGPFADDVTLSWIQQQV SAITSGQELLSQARVLAKYLRDQPEGWLAAHRLKSVRHDTLHQLPPLSADGRTRIAPPGPDRRASLKRLYLQQNWLSLLEQCDDFARGASHLWLDLQWYIHQALLQTGKENYAAIIQYDLKGLLLRLPGLETLAFNDGPFADDVTLSWIQQQV 4you-a1-m1-cB_4you-a1-m1-cC Crystal structure of a trimeric exonuclease PhoExo I from Pyrococcus horikoshii OT3 at 2.20A resolution. A0A060P168 A0A060P168 2.2 X-RAY DIFFRACTION 53 0.985 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 199 211 MRIVAADTGGAVLDESFQPVGLIATVAVLVEKPYKTSKRFLVKYADPYNAIRDEIELAIELAREVSPDVIHLDSTLGGIEVRKLELSKDLQPLAKKFWEETGIEIIAIGKSSVPVRIAEIYAGIFSVKWALDNVGGLLVGLPRYMEVEIKKDKIIGKSLDPREGGLYGEVKTEVPQGIKWELYPNPLVRRFMVFEITSK MRIVAADTGGAVLDESFQPVGLIATVAVLVEKPYKTSKRFLVKYADPYNYDLSGRQAIRDEIELAIELAREVSPDVIHLDSTLGGIEVRKLDESTIIWKELSKDLQPLAKKFWEETGIEIIAIGKSSVPVRIAEIYAGIFSVKWALDNVGLLVGLPRYMEVEIKKDKIIGKSLDPREGGLYGEVKTEVPQGIKWELYPNPLVRRFMVFEIT 4yp9-a1-m1-cA_4yp9-a1-m1-cB Crystal Structure of LuxP In Complex With a Formose Derived AI-2 Analogue P54300 P54300 2.7 X-RAY DIFFRACTION 32 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 337 342 MVLNGYWGYQEFLDEFPEQRNLTNALSEAVRAQPVPLSKPTQRPIKISVVYPGQQVSDYWVRNIASFEKRLYKLNINYQLNQVFTRPNASLSLMEALKSKSDYLIFTLDTTRHRKFVEHVLDSTNTKLILQNITTPVREWDKHQPFLYVGFDHAEGSRELATEFGKFFPKHTYYSVLYFSEGYISDVRGDTFIHQVNRDNNFELQSAYYTKATKQSGYDAAKASLAKHPDVDFIYACSTDVALGAVDALAELGREDIMINGWGGGSAELDAIQKGDLDITVMRMNDDTGIAMAEAIKWDLEDKPVPTVYSGDFEIVTKADSPERIEALKKRAFRYSD MVLNGYWGYQEFLDEFPEQRNLTNALSEAVRAQPVPLSKPTQRPIKISVVYPGQQVSDYWVRNIASFEKRLYKLNINYQLNQVFTRPNADIKQQSLSLMEALKSKSDYLIFTLDTTRHRKFVEHVLDSTNTKLILQNITTPVREWDKHQPFLYVGFDHAEGSRELATEFGKFFPKHTYYSVLYFSEGYISDVRGDTFIHQVNRDNNFELQSAYYTKATKQSGYDAAKASLAKHPDVDFIYACSTDVALGAVDALAELGREDIMINGWGGGSAELDAIQKGDLDITVMRMNDDTGIAMAEAIKWDLEDKPVPTVYSGDFEIVTKADSPERIEALKKRAFRYSD 4ypc-a1-m2-cA_4ypc-a1-m3-cA Trimeric crystal structure of vimentin coil1B fragment P08670 P08670 1.44 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 83 4ypc-a1-m1-cA_4ypc-a1-m2-cA 4ypc-a1-m1-cA_4ypc-a1-m3-cA 4yv3-a1-m1-cB_4yv3-a1-m1-cA 4yv3-a1-m1-cC_4yv3-a1-m1-cB VDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKLHEEEIQ VDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKLHEEEIQ 4ypl-a1-m1-cA_4ypl-a1-m1-cB Crystal structure of a hexameric LonA protease bound to three ADPs A0A059VAZ3 A0A059VAZ3 3.45 X-RAY DIFFRACTION 85 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 537 537 4ypl-a1-m1-cD_4ypl-a1-m1-cC 4ypl-a1-m1-cE_4ypl-a1-m1-cF 6wqh-a1-m1-cA_6wqh-a1-m1-cB 7fd4-a1-m1-cA_7fd4-a1-m1-cF 7fd5-a1-m1-cA_7fd5-a1-m1-cB 7fid-a1-m1-cA_7fid-a1-m1-cF 7fie-a1-m1-cA_7fie-a1-m1-cB 7fiz-a1-m1-cA_7fiz-a1-m1-cB SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDQIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDQIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 4ypl-a1-m1-cD_4ypl-a1-m1-cE Crystal structure of a hexameric LonA protease bound to three ADPs A0A059VAZ3 A0A059VAZ3 3.45 X-RAY DIFFRACTION 118 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 537 537 4ypl-a1-m1-cA_4ypl-a1-m1-cF 4ypl-a1-m1-cB_4ypl-a1-m1-cC 6wqh-a1-m1-cB_6wqh-a1-m1-cC 7fd4-a1-m1-cB_7fd4-a1-m1-cC 7fd4-a1-m1-cD_7fd4-a1-m1-cE 7fd5-a1-m1-cC_7fd5-a1-m1-cD 7fd5-a1-m1-cE_7fd5-a1-m1-cF 7fid-a1-m1-cB_7fid-a1-m1-cC 7fid-a1-m1-cD_7fid-a1-m1-cE 7fie-a1-m1-cC_7fie-a1-m1-cD 7fie-a1-m1-cE_7fie-a1-m1-cF 7fiz-a1-m1-cC_7fiz-a1-m1-cD 7fiz-a1-m1-cE_7fiz-a1-m1-cF SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDQIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDQIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 4ypl-a1-m1-cD_4ypl-a1-m1-cF Crystal structure of a hexameric LonA protease bound to three ADPs A0A059VAZ3 A0A059VAZ3 3.45 X-RAY DIFFRACTION 10 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 537 538 7fd4-a1-m1-cB_7fd4-a1-m1-cD 7fd4-a1-m1-cB_7fd4-a1-m1-cF 7fd5-a1-m1-cA_7fd5-a1-m1-cC 7fd5-a1-m1-cC_7fd5-a1-m1-cE 7fid-a1-m1-cB_7fid-a1-m1-cD 7fid-a1-m1-cB_7fid-a1-m1-cF 7fie-a1-m1-cA_7fie-a1-m1-cC 7fie-a1-m1-cC_7fie-a1-m1-cE 7fiz-a1-m1-cA_7fiz-a1-m1-cC 7fiz-a1-m1-cC_7fiz-a1-m1-cE SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDQIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDQIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVVQ 4ypm-a1-m2-cA_4ypm-a1-m6-cA Crystal structure of a LonA protease domain in complex with bortezomib A0A059VAZ3 A0A059VAZ3 1.85 X-RAY DIFFRACTION 63 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 290 290 4ypm-a1-m1-cA_4ypm-a1-m5-cA 4ypm-a1-m1-cA_4ypm-a1-m6-cA 4ypm-a1-m2-cA_4ypm-a1-m4-cA 4ypm-a1-m3-cA_4ypm-a1-m4-cA 4ypm-a1-m3-cA_4ypm-a1-m5-cA 5e7s-a1-m1-cA_5e7s-a1-m1-cB 5e7s-a1-m1-cC_5e7s-a1-m1-cB 5e7s-a1-m1-cC_5e7s-a1-m1-cD 5e7s-a1-m1-cE_5e7s-a1-m1-cD 5e7s-a1-m1-cF_5e7s-a1-m1-cA 5e7s-a1-m1-cF_5e7s-a1-m1-cE 5e7s-a1-m2-cA_5e7s-a1-m2-cB 5e7s-a1-m2-cC_5e7s-a1-m2-cB 5e7s-a1-m2-cC_5e7s-a1-m2-cD 5e7s-a1-m2-cE_5e7s-a1-m2-cD 5e7s-a1-m2-cF_5e7s-a1-m2-cA 5e7s-a1-m2-cF_5e7s-a1-m2-cE 5e7s-a2-m1-cH_5e7s-a2-m1-cG 5e7s-a2-m1-cH_5e7s-a2-m1-cI 5e7s-a2-m1-cI_5e7s-a2-m1-cJ 5e7s-a2-m1-cK_5e7s-a2-m1-cJ 5e7s-a2-m1-cL_5e7s-a2-m1-cG 5e7s-a2-m1-cL_5e7s-a2-m1-cK 5e7s-a2-m3-cH_5e7s-a2-m3-cG 5e7s-a2-m3-cH_5e7s-a2-m3-cI 5e7s-a2-m3-cI_5e7s-a2-m3-cJ 5e7s-a2-m3-cK_5e7s-a2-m3-cJ 5e7s-a2-m3-cL_5e7s-a2-m3-cG 5e7s-a2-m3-cL_5e7s-a2-m3-cK PGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV PGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 4ypo-a1-m1-cA_4ypo-a1-m1-cB Crystal structure of Mycobacterium tuberculosis ketol-acid reductoisomerase in complex with Mg2+ P9WKJ7 P9WKJ7 1.001 X-RAY DIFFRACTION 417 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 325 325 MFYDDDADLSIIQGRKVGVIGYGSQGHAHSLSLRDSGVQVRVGLKQGSRSRPKVEEQGLDVDTPAEVAKWADVVMVLAPDTAQAEIFAGDIEPNLKPGDALFFGHGLNVHFGLIKPPADVAVAMVAPKGPGHLVRRQFVDGKGVPCLVAVEQDPRGDGLALALSYAKAIGGTRAGVIKTTFKDETETDLFGEQTVLCGGTEELVKAGFEVMVEAGYPAELAYFEVLHELKLIVDLMYEGGLARMYYSVSDTAEFGGYLSGPRVIDAGTKERMRDILREIQDGSFVHKLVADVEGGNKQLEELRRQNAEHPIEVVGKKLRDLMSWV MFYDDDADLSIIQGRKVGVIGYGSQGHAHSLSLRDSGVQVRVGLKQGSRSRPKVEEQGLDVDTPAEVAKWADVVMVLAPDTAQAEIFAGDIEPNLKPGDALFFGHGLNVHFGLIKPPADVAVAMVAPKGPGHLVRRQFVDGKGVPCLVAVEQDPRGDGLALALSYAKAIGGTRAGVIKTTFKDETETDLFGEQTVLCGGTEELVKAGFEVMVEAGYPAELAYFEVLHELKLIVDLMYEGGLARMYYSVSDTAEFGGYLSGPRVIDAGTKERMRDILREIQDGSFVHKLVADVEGGNKQLEELRRQNAEHPIEVVGKKLRDLMSWV 4ypt-a2-m2-cA_4ypt-a2-m3-cA X-ray structural of three tandemly linked domains of nsp3 from murine hepatitis virus at 2.60 Angstroms resolution P0C6X9 P0C6X9 2.6009 X-RAY DIFFRACTION 76 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 377 377 4ypt-a2-m1-cA_4ypt-a2-m2-cA 4ypt-a2-m1-cA_4ypt-a2-m3-cA IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNYINVACLMLQHLSLKFPKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNL IQLDDDARVFVQANMDCLPTDWRLVNKFDSVDGVRTIKYFECPGGIFVSSQGKKFGYVQNGSFKEASVSQIRALLANKVDVLCTVDGVNFRSCCVAEGEVFGKTLGSVFCDGINVTKVRCSAIYKGKVFFQYSDLSEADLVAVKDAFGFDEPQLLKYYTMLGMCKWPVVVCGNYFAFKQSNNNYINVACLMLQHLSLKFPKWQWQEAWNEFRSGKPLRFVSLVLAKGSFKFNEPSDSIDFMRVVLREADLSGATCNLEFVCKCGVKQEQRKGVDAVMHFGTLDKGDLVRGYNIACTCGSKLVHCTQFNVPFLICSNTPEGRKLPDDVVAANIFTGGSVGHYTHVKCKPKYQLYDACNVNKVSEAKGNFTDCLYLKNL 4yq1-a2-m2-cA_4yq1-a2-m3-cA Crystal structure of TrmD, a M1G37 tRNA Methyltransferase with SAM-competitive compounds P43912 P43912 2 X-RAY DIFFRACTION 58 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 244 244 4yq1-a2-m1-cA_4yq1-a2-m2-cA 4yq1-a2-m1-cA_4yq1-a2-m3-cA GLVPRGSHMWIGVISLFPEMFKAITEFGVTGRAVKHNLLKVECWNPRDFTFDKHKTVDDRPYGGGPGMLMMVQPLRDAIHTAKAAAGEGAKVIYLSPQGRKLDQGGVTELAQNQKLILVCGRYEGIDERLIQTEIDEEWSIGDYVLTGGELPAMTLIDAVARFIPGVLGFADGLLDCPHYTRPEVLEGLTVPPVLMSGHHEEIRKWRLKQSLQRTWLRRPELLEGLALTDEQRKLLKEAQAEHN GLVPRGSHMWIGVISLFPEMFKAITEFGVTGRAVKHNLLKVECWNPRDFTFDKHKTVDDRPYGGGPGMLMMVQPLRDAIHTAKAAAGEGAKVIYLSPQGRKLDQGGVTELAQNQKLILVCGRYEGIDERLIQTEIDEEWSIGDYVLTGGELPAMTLIDAVARFIPGVLGFADGLLDCPHYTRPEVLEGLTVPPVLMSGHHEEIRKWRLKQSLQRTWLRRPELLEGLALTDEQRKLLKEAQAEHN 4yq4-a1-m1-cA_4yq4-a1-m2-cA Crystal structure of TrmD, a M1G37 tRNA Methyltransferase with SAM-competitive compounds P43912 P43912 1.89 X-RAY DIFFRACTION 218 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 242 242 1uaj-a1-m1-cA_1uaj-a1-m2-cA 1uak-a1-m1-cA_1uak-a1-m2-cA 1ual-a1-m1-cA_1ual-a1-m2-cA 1uam-a1-m1-cA_1uam-a1-m2-cA 3axz-a1-m1-cA_3axz-a1-m2-cA 4mcb-a1-m1-cA_4mcb-a1-m1-cB 4mcc-a1-m1-cA_4mcc-a1-m1-cB 4mcd-a2-m1-cA_4mcd-a2-m2-cA 4ypw-a1-m1-cA_4ypw-a1-m2-cA 4ypx-a1-m1-cA_4ypx-a1-m2-cA 4ypy-a1-m1-cA_4ypy-a1-m2-cA 4ypz-a1-m1-cA_4ypz-a1-m2-cA 4yq0-a1-m1-cA_4yq0-a1-m2-cA 4yq1-a1-m1-cA_4yq1-a1-m4-cA 4yq2-a1-m1-cA_4yq2-a1-m2-cA 4yq3-a1-m1-cA_4yq3-a1-m2-cA 4yq5-a1-m1-cA_4yq5-a1-m2-cA 4yq6-a1-m1-cA_4yq6-a1-m2-cA 4yq7-a1-m1-cA_4yq7-a1-m2-cA 4yq8-a1-m1-cA_4yq8-a1-m2-cA 4yq9-a1-m1-cA_4yq9-a1-m2-cA 4yqa-a1-m1-cA_4yqa-a1-m2-cA 4yqb-a1-m1-cA_4yqb-a1-m2-cA 4yqc-a1-m1-cA_4yqc-a1-m2-cA 4yqd-a1-m1-cA_4yqd-a1-m2-cA 4yqg-a1-m1-cA_4yqg-a1-m2-cA 4yqi-a1-m1-cA_4yqi-a1-m2-cA 4yqj-a1-m1-cA_4yqj-a1-m2-cA 4yqk-a1-m1-cA_4yqk-a1-m2-cA 4yql-a1-m1-cA_4yql-a1-m2-cA 4yqn-a1-m1-cA_4yqn-a1-m2-cA 4yqo-a1-m1-cA_4yqo-a1-m2-cA 4yqp-a1-m1-cA_4yqp-a1-m2-cA 4yqq-a1-m1-cA_4yqq-a1-m2-cA 4yqr-a1-m1-cA_4yqr-a1-m2-cA 4yqs-a1-m1-cA_4yqs-a1-m2-cA 4yqt-a1-m1-cA_4yqt-a1-m2-cA 4yvg-a1-m1-cA_4yvg-a1-m2-cA 4yvh-a1-m1-cA_4yvh-a1-m2-cA 4yvi-a1-m1-cA_4yvi-a1-m1-cB 4yvj-a1-m1-cA_4yvj-a1-m1-cB 4yvk-a1-m1-cA_4yvk-a1-m1-cB 5d9f-a1-m1-cA_5d9f-a1-m2-cA GSHMWIGVISLFPEMFKAITEFGVTGRAVKHNLLKVECWNPRDFTFDKHKTVDDRPYGGGPGMLMMVQPLRDAIHTAKAAAGEGAKVIYLSPQGRKLDQGGVTELAQNQKLILVCGRYEGIDERLIQTEIDEEWSIGDYVLTGGELPAMTLIDAVARFIPGVLGDSFADGLLDCPHYTRPEVLEGLTVPPVLMSGHHEEIRKWRLKQSLQRTWLRRPELLEGLALTDEQRKLLKEAQAEHNS GSHMWIGVISLFPEMFKAITEFGVTGRAVKHNLLKVECWNPRDFTFDKHKTVDDRPYGGGPGMLMMVQPLRDAIHTAKAAAGEGAKVIYLSPQGRKLDQGGVTELAQNQKLILVCGRYEGIDERLIQTEIDEEWSIGDYVLTGGELPAMTLIDAVARFIPGVLGDSFADGLLDCPHYTRPEVLEGLTVPPVLMSGHHEEIRKWRLKQSLQRTWLRRPELLEGLALTDEQRKLLKEAQAEHNS 4yqy-a1-m1-cB_4yqy-a1-m2-cB Crystal Structure of a putative Dehydrogenase from Sulfitobacter sp. (COG1028) (TARGET EFI-513936) in its APO form A3T0C9 A3T0C9 1.381 X-RAY DIFFRACTION 101 1.0 314267 (Sulfitobacter sp. NAS-14.1) 314267 (Sulfitobacter sp. NAS-14.1) 222 222 4yqy-a1-m1-cA_4yqy-a1-m2-cA DLKGKTAIVTGGRGDIGRACVLELAARGANVAINYASSEGADSAVAEIKAAGGNAFALQGDTKEADVAALVEKTVKEFGQVDTLVHVTGGLIARVTSETLDHWQSVDVNLTSFVLVRECLPHTEGSSIVGLASQAGRDGGGPGASAYGASKGALTLTRGLAKELGPKIRVNSLCPGIDTANVSPVKREGTSEDVAKLAVFLASDDAAFITGANVDINGGLFS DLKGKTAIVTGGRGDIGRACVLELAARGANVAINYASSEGADSAVAEIKAAGGNAFALQGDTKEADVAALVEKTVKEFGQVDTLVHVTGGLIARVTSETLDHWQSVDVNLTSFVLVRECLPHTEGSSIVGLASQAGRDGGGPGASAYGASKGALTLTRGLAKELGPKIRVNSLCPGIDTANVSPVKREGTSEDVAKLAVFLASDDAAFITGANVDINGGLFS 4yqy-a1-m2-cB_4yqy-a1-m1-cA Crystal Structure of a putative Dehydrogenase from Sulfitobacter sp. (COG1028) (TARGET EFI-513936) in its APO form A3T0C9 A3T0C9 1.381 X-RAY DIFFRACTION 98 1.0 314267 (Sulfitobacter sp. NAS-14.1) 314267 (Sulfitobacter sp. NAS-14.1) 222 240 4yqy-a1-m1-cB_4yqy-a1-m2-cA DLKGKTAIVTGGRGDIGRACVLELAARGANVAINYASSEGADSAVAEIKAAGGNAFALQGDTKEADVAALVEKTVKEFGQVDTLVHVTGGLIARVTSETLDHWQSVDVNLTSFVLVRECLPHTEGSSIVGLASQAGRDGGGPGASAYGASKGALTLTRGLAKELGPKIRVNSLCPGIDTANVSPVKREGTSEDVAKLAVFLASDDAAFITGANVDINGGLFS LGTENLYFQSDLKGKTAIVTGGRGDIGRACVLELAARGANVAINYASSEGADSAVAEIKAAGGNAFALQGDTKEADVAALVEKTVKEFGQVDTLVHVTGGLIARVTSETLDHWQSVDVNLTSFVLVRECLPHTEGSSIVGLASQAGRDGGGPGASAYGASKGALTLTRGLAKELGPKIRVNSLCPGIDTDFHNRTHVANVSPVKREGTSEDVAKLAVFLASDDAAFITGANVDINGGLFS 4yqz-a1-m1-cA_4yqz-a1-m1-cD Crystal Structure of a putative oxidoreductase from Thermus Thermophilus HB27 (TT_P0034, TARGET EFI-513932) in its APO form Q746L9 Q746L9 1.807 X-RAY DIFFRACTION 115 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 229 229 4yqz-a1-m1-cB_4yqz-a1-m1-cC KLKGKKALVIAAGQGIGRAIAEAFQREGAEVLGATLHPEKLQGVVPAVRLDARDKEAVFRLIQGLDRLDVLVNAQGVVPVGGLLEATDQDWEEAFLLNAKSVFWAQAALPKAAQGGGSVINIASVAAFKTVPGRFIYSATKAALVATKAAALEFAPKGVRVNAICPGTVDTPSLRERAGGEEGLRAFAERQLLKRLGRPEEIAALAVYLASDEGAFATGSAFVVDGGSL KLKGKKALVIAAGQGIGRAIAEAFQREGAEVLGATLHPEKLQGVVPAVRLDARDKEAVFRLIQGLDRLDVLVNAQGVVPVGGLLEATDQDWEEAFLLNAKSVFWAQAALPKAAQGGGSVINIASVAAFKTVPGRFIYSATKAALVATKAAALEFAPKGVRVNAICPGTVDTPSLRERAGGEEGLRAFAERQLLKRLGRPEEIAALAVYLASDEGAFATGSAFVVDGGSL 4yqz-a1-m1-cC_4yqz-a1-m1-cD Crystal Structure of a putative oxidoreductase from Thermus Thermophilus HB27 (TT_P0034, TARGET EFI-513932) in its APO form Q746L9 Q746L9 1.807 X-RAY DIFFRACTION 99 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 229 229 4yqz-a1-m1-cB_4yqz-a1-m1-cA KLKGKKALVIAAGQGIGRAIAEAFQREGAEVLGATLHPEKLQGVVPAVRLDARDKEAVFRLIQGLDRLDVLVNAQGVVPVGGLLEATDQDWEEAFLLNAKSVFWAQAALPKAAQGGGSVINIASVAAFKTVPGRFIYSATKAALVATKAAALEFAPKGVRVNAICPGTVDTPSLRERAGGEEGLRAFAERQLLKRLGRPEEIAALAVYLASDEGAFATGSAFVVDGGSL KLKGKKALVIAAGQGIGRAIAEAFQREGAEVLGATLHPEKLQGVVPAVRLDARDKEAVFRLIQGLDRLDVLVNAQGVVPVGGLLEATDQDWEEAFLLNAKSVFWAQAALPKAAQGGGSVINIASVAAFKTVPGRFIYSATKAALVATKAAALEFAPKGVRVNAICPGTVDTPSLRERAGGEEGLRAFAERQLLKRLGRPEEIAALAVYLASDEGAFATGSAFVVDGGSL 4yr9-a2-m1-cB_4yr9-a2-m1-cD mouse TDH with NAD+ bound Q8K3F7 Q8K3F7 2.8 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 307 308 4yr9-a1-m1-cC_4yr9-a1-m1-cA 4yr9-a3-m1-cF_4yr9-a3-m1-cE 4yra-a3-m1-cE_4yra-a3-m1-cC 4yra-a4-m1-cF_4yra-a4-m1-cL 4yra-a5-m1-cK_4yra-a5-m1-cG PPRVLITGGLGQLGVGLANLLRKRFGKDNVILSDIRKPPAHVFHSGPFVYANILDYKSLREIVVNHRISWLFHYSALLSAVGEANVSLARDVNITGLHNVLDVAAEYNVRLFVPSTIGAFGPTSPRNPAPDLCIQRPRTIYGVSKVHTELMGEYYYYRYGLDFRCLRYPGIISADPGGGTTDYAVQIFHAAAKNGTFECNLEAGTRLPMMYISDCLRATLEVMEAPAERLSMRTYNISAMSFTPEELAQALRKHAPDFQITYCVDPLRQAIAESWPMILDDSNARKDWGWKHDFDLPELVATMLNFH PPRVLITGGLGQLGVGLANLLRKRFGKDNVILSDIRKPPAHVFHSGPFVYANILDYKSLREIVVNHRISWLFHYSALLSAVGEANVSLARDVNITGLHNVLDVAAEYNVRLFVPSTIGAFGPTSPRNPAPDLCIQRPRTIYGVSKVHTELMGEYYYYRYGLDFRCLRYPGIISADSPGGGTTDYAVQIFHAAAKNGTFECNLEAGTRLPMMYISDCLRATLEVMEAPAERLSMRTYNISAMSFTPEELAQALRKHAPDFQITYCVDPLRQAIAESWPMILDDSNARKDWGWKHDFDLPELVATMLNFH 4yrb-a2-m1-cD_4yrb-a2-m1-cC mouse TDH mutant R180K with NAD+ bound Q8K3F7 Q8K3F7 3.25 X-RAY DIFFRACTION 47 0.996 10090 (Mus musculus) 10090 (Mus musculus) 232 249 PPRVLITGGLGQLGVGLANLLRKRFGKDNVILSDIRKPPAHVFHSGPFVYANILDYKSLREIVVNHRISWLFHYSALLSAVGEANVSLARDVNITGLHNVLDVAAEYNVRLFVPSTQRPRTIYGVSKVHTELMGEYYYYRYGLDFRCLRYPGIISGTRLPMMYISDCLRATLEVMEAPAERLSMRTYNISAMSFTPEELAQALRLDDSNARKDWGWKHDFDLPELVATMLNF PPRVLITGGLGQLGVGLANLLRKRFGKDNVILSDIRKPPAHVFHSGPFVYANILDYKSLREIVVNHRISWLFHYSALLSAVGEANVSLARDVNITGLHNVLDVAAEYNVRLFVPSTIGAFPDLCIQRPRTIYGVSKVHTELMGEYYYYRYGLDFRCLRYPGIISADGTRLPMMYISDCLRATLEVMEAPAERLSMRTYNISAMSFTPEELAQALRKHAPPMILDDSNARKDWGWKHDFDLPELVATMLN 4yrb-a3-m1-cF_4yrb-a3-m1-cE mouse TDH mutant R180K with NAD+ bound Q8K3F7 Q8K3F7 3.25 X-RAY DIFFRACTION 45 0.986 10090 (Mus musculus) 10090 (Mus musculus) 208 223 4yrb-a1-m1-cA_4yrb-a1-m1-cB PPRVLITGGLGQLGVGLANLLRKRFGKDNVILSDIRKPPAHVFHSGPFVYANILDYKSLREIVVNHRISWLFHYSALLSAVGEANVSLARDVNITGLHNVLDVAAEYNVRLFVPSTIPRTIYGVSKVHTELMGEYYYYRYGLDFRCLRYPGIISMYISDCLRATLEVMEAPAERLSMRTYNISDDSNARKDWGWKHDFDLPELVATML PPRVLITGGLGQLGVGLANLLRKRFGKDNVILSDIRKPPAHVFHSGPFVYANILDYKSLREIVVNHRISWLFHYSALLSAVGEANVSLARDVNITGLHNVLDVAAEYNVRLFVPSTQRPRTIYGVSKVHTELMGEYYYYRYGLDFRCLRYPGIISALPMMYISDCLRATLEVMEAPAERLSMRTYNISAMSFTPEELSNARKDWGWKHDFDLPELVATMLNFH 4yrv-a1-m1-cB_4yrv-a1-m1-cA Crystal structure of Anabaena transcription factor HetR complexed with 21-bp DNA from hetP promoter P27709 P27709 2.8 X-RAY DIFFRACTION 449 0.997 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 286 288 4hri-a1-m1-cA_4hri-a1-m1-cB 4ynl-a1-m1-cB_4ynl-a1-m1-cA 4ynl-a2-m1-cN_4ynl-a2-m1-cM DIDLIKRLGPSAMDQIMLYLAFSAMRTSGHRHGAFLDAAATAAKCAIYMTYLEQGQNLRMTGHLHHLEPKRVKIIVEEVRQALMEGKLLKTLGSQEPRYLIQFPYVWMEQYPWIPGRSRIPGTSLTSEEKRQIEHKLPSNLPDAQLVTSFEFLELIEFLHKRSQEDLPPEHRMELSEALAEHIKRRLLYSGTVTRIDSPWGMPFYALTRPFYERTYIMVEDTARYFRMMKDWAEKRPNAMRALEELDVPPERWDEAMQELDEIIRTWADKYHQVPMILQMVFGRKE NDIDLIKRLGPSAMDQIMLYLAFSAMRTSGHRHGAFLDAAATAAKCAIYMTYLEQGQNLRMTGHLHHLEPKRVKIIVEEVRQALMEGKLLKTLGSQEPRYLIQFPYVWMEQYPWIPGRSRIPGTSLTSEEKRQIEHKLPSNLPDAQLVTSFEFLELIEFLHKRSQEDLPPEHRMELSEALAEHIKRRLLYSGTVTRIDSPWGMPFYALTRPFYQERTYIMVEDTARYFRMMKDWAEKRPNAMRALEELDVPPERWDEAMQELDEIIRTWADKYHQVIPMILQMVFGRK 4ysb-a1-m1-cA_4ysb-a1-m1-cB Crystal structure of ETHE1 from Myxococcus xanthus Q1D4C9 Q1D4C9 2.5015 X-RAY DIFFRACTION 43 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 225 225 MIFRQLFDSESSTYTYLIGDEATRQAVLIDPVLEQVDRDLQMVAELDLTLTHVFDTHVHADHITASGALRERTQATVVGSVNGASCANVQVRHGDEVRVGQLVFQVLATPGHTDDSISYLLGDRVFTGDALLVRGNGRTDFQNGNASQLYDSLTRVLFTLPDETLVYPGHDYKGRTVTSIAEEKRHNPRVAGKSREEFIHIMENLNLPRPKLIDAAVPANRACGH MIFRQLFDSESSTYTYLIGDEATRQAVLIDPVLEQVDRDLQMVAELDLTLTHVFDTHVHADHITASGALRERTQATVVGSVNGASCANVQVRHGDEVRVGQLVFQVLATPGHTDDSISYLLGDRVFTGDALLVRGNGRTDFQNGNASQLYDSLTRVLFTLPDETLVYPGHDYKGRTVTSIAEEKRHNPRVAGKSREEFIHIMENLNLPRPKLIDAAVPANRACGH 4ysh-a1-m1-cB_4ysh-a1-m2-cB Crystal structure of glycine oxidase from Geobacillus kaustophilus Q5L2C2 Q5L2C2 2.2 X-RAY DIFFRACTION 23 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 368 368 4ysh-a1-m1-cA_4ysh-a1-m2-cA THRYDVAIVGGGVIGAAIGFELAKRRHRVAIFEKGTMGSGASSAAAGMLGAQSEFSTSSPLVPLALQSRALMPALAEELRERTGIDIGLVEKGLIKLATTEEEADDLYRHYTFWRGIGEPVQWLTKGEALEMEPRLAEALAGAMYIPGDGQVSAPDLAAALAYAAASAGACLYEYTEVFDIRSDSSGHVLDTTGGTFAAEAVVIASGAWAARLGARVGLSLSVYPVKGECVMVRAPVPLLQTTVFAKNGCYIVPKSGNRLLIGATSTPGTFDRRVSAGGVMNLLHRAAHLVPDIEQAEWVASWSGIRPQTEDGLPYLGEHPERRGLFVAAGHYRNGILLSPLTGLLVADLVERKETAFDLAPFSLTRH THRYDVAIVGGGVIGAAIGFELAKRRHRVAIFEKGTMGSGASSAAAGMLGAQSEFSTSSPLVPLALQSRALMPALAEELRERTGIDIGLVEKGLIKLATTEEEADDLYRHYTFWRGIGEPVQWLTKGEALEMEPRLAEALAGAMYIPGDGQVSAPDLAAALAYAAASAGACLYEYTEVFDIRSDSSGHVLDTTGGTFAAEAVVIASGAWAARLGARVGLSLSVYPVKGECVMVRAPVPLLQTTVFAKNGCYIVPKSGNRLLIGATSTPGTFDRRVSAGGVMNLLHRAAHLVPDIEQAEWVASWSGIRPQTEDGLPYLGEHPERRGLFVAAGHYRNGILLSPLTGLLVADLVERKETAFDLAPFSLTRH 4ysh-a1-m2-cB_4ysh-a1-m1-cA Crystal structure of glycine oxidase from Geobacillus kaustophilus Q5L2C2 Q5L2C2 2.2 X-RAY DIFFRACTION 67 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 368 370 4ysh-a1-m1-cB_4ysh-a1-m2-cA THRYDVAIVGGGVIGAAIGFELAKRRHRVAIFEKGTMGSGASSAAAGMLGAQSEFSTSSPLVPLALQSRALMPALAEELRERTGIDIGLVEKGLIKLATTEEEADDLYRHYTFWRGIGEPVQWLTKGEALEMEPRLAEALAGAMYIPGDGQVSAPDLAAALAYAAASAGACLYEYTEVFDIRSDSSGHVLDTTGGTFAAEAVVIASGAWAARLGARVGLSLSVYPVKGECVMVRAPVPLLQTTVFAKNGCYIVPKSGNRLLIGATSTPGTFDRRVSAGGVMNLLHRAAHLVPDIEQAEWVASWSGIRPQTEDGLPYLGEHPERRGLFVAAGHYRNGILLSPLTGLLVADLVERKETAFDLAPFSLTRH THRYDVAIVGGGVIGAAIGFELAKRRHRVAIFEKGTMGSGASSAAAGMLGAQSEFSTSSPLVPLALQSRALMPALAEELRERTGIDIGLVEKGLIKLATTEEEADDLYRHYTFWRGIGEPVQWLTKGEALEMEPRLAEALAGAMYIPGDGQVSAPDLAAALAYAAASAGACLYEYTEVFDIRSDSSGHVLDTTGGTFAAEAVVIASGAWAARLGARVGLSLSVYPVKGECVMVRAPVPLLQTTVFAKNGCYIVPKSGNRLLIGATSTPGTFDRRVSAGGVMNLLHRAAHLVPDIEQAEWVASWSGIRPQTEDGLPYLGEHPERRGLFVAAGHYRNGILLSPLTGLLVADLVERKETAFDLAPFSLTRHIG 4ysh-a1-m2-cB_4ysh-a1-m2-cA Crystal structure of glycine oxidase from Geobacillus kaustophilus Q5L2C2 Q5L2C2 2.2 X-RAY DIFFRACTION 39 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 368 370 4ysh-a1-m1-cB_4ysh-a1-m1-cA THRYDVAIVGGGVIGAAIGFELAKRRHRVAIFEKGTMGSGASSAAAGMLGAQSEFSTSSPLVPLALQSRALMPALAEELRERTGIDIGLVEKGLIKLATTEEEADDLYRHYTFWRGIGEPVQWLTKGEALEMEPRLAEALAGAMYIPGDGQVSAPDLAAALAYAAASAGACLYEYTEVFDIRSDSSGHVLDTTGGTFAAEAVVIASGAWAARLGARVGLSLSVYPVKGECVMVRAPVPLLQTTVFAKNGCYIVPKSGNRLLIGATSTPGTFDRRVSAGGVMNLLHRAAHLVPDIEQAEWVASWSGIRPQTEDGLPYLGEHPERRGLFVAAGHYRNGILLSPLTGLLVADLVERKETAFDLAPFSLTRH THRYDVAIVGGGVIGAAIGFELAKRRHRVAIFEKGTMGSGASSAAAGMLGAQSEFSTSSPLVPLALQSRALMPALAEELRERTGIDIGLVEKGLIKLATTEEEADDLYRHYTFWRGIGEPVQWLTKGEALEMEPRLAEALAGAMYIPGDGQVSAPDLAAALAYAAASAGACLYEYTEVFDIRSDSSGHVLDTTGGTFAAEAVVIASGAWAARLGARVGLSLSVYPVKGECVMVRAPVPLLQTTVFAKNGCYIVPKSGNRLLIGATSTPGTFDRRVSAGGVMNLLHRAAHLVPDIEQAEWVASWSGIRPQTEDGLPYLGEHPERRGLFVAAGHYRNGILLSPLTGLLVADLVERKETAFDLAPFSLTRHIG 4ysl-a1-m1-cA_4ysl-a1-m1-cB Crystal structure of SdoA from Pseudomonas putida in complex with glutathione A5VWI3 A5VWI3 1.4618 X-RAY DIFFRACTION 103 1.0 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 293 294 4ysk-a1-m1-cA_4ysk-a1-m1-cB MIIGNNLHVDAFYDEATSTISYLVMDRETRQCALIDSVLDYDPKSGRTCSASADRLVERVNELNASVRWVLETHVHADHLSAAAYLKEKLGGHTAIGAHITQVQKVFGALFNAEPGFARDGSQFDVLLEDEEGFRIGNLQARALHTPGHTPACMSFMIDAGEIAVFVGDTLFMPDYGTARCDFPGADARTLYRSIRRLLAFPDQTRLFMCHDYLPGGRDMQYVTTVAEQRASNIHIHQGIDEDSFVAMREARDKTLEMPVLILPSVQVNMRSGQLPPPEANGVSYLKIPLNKL MIIGNNLHVDAFYDEATSTISYLVMDRETRQCALIDSVLDYDPKSGRTCSASADRLVERVNELNASVRWVLETHVHADHLSAAAYLKEKLGGHTAIGAHITQVQKVFGALFNAEPGFARDGSQFDVLLEDEEGFRIGNLQARALHTPGHTPACMSFMIEDAGEIAVFVGDTLFMPDYGTARCDFPGADARTLYRSIRRLLAFPDQTRLFMCHDYLPGGRDMQYVTTVAEQRASNIHIHQGIDEDSFVAMREARDKTLEMPVLILPSVQVNMRSGQLPPPEANGVSYLKIPLNKL 4yt5-a1-m1-cA_4yt5-a1-m1-cB HmdII from Methanocaldococcus jannaschii with bound methylene-tetrahydromethanopterin Q58734 Q58734 1.9 X-RAY DIFFRACTION 436 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 334 334 4yt2-a1-m1-cA_4yt2-a1-m1-cB 4yt4-a1-m1-cA_4yt4-a1-m2-cA 4yt8-a1-m1-cA_4yt8-a1-m1-cB 6hux-a1-m1-cA_6hux-a1-m2-cA DNKVSVYGAGNQNLYINKLNLPEKFGGEPPYGGSRAIEFAEAGHDVVLAEPNKNISDDLWKKVEDAGVKVVSDDVEAAKHGEIHVLFTPFGKATFRIAKTIIEHVPENAVICNTCTVSPVVLYYSLEPILRTKRKDVGISSHPAAVPGTPQHGHYVIGGKTTDGKELATEEQIKKAVELAKSAGKEAYVVPADVSSVVADGSLVTAVALSGVLDYYTVGRKIINAPKKIEQQVITLQTASLVETSGIEGVKALNPELLIRSASSKLLDRQKDLDAALEILQNLDETLKAEVEKAEIKPTTLVAAQSLVKEIKTLIGGAAAEGAIKRSARKLFEH DNKVSVYGAGNQNLYINKLNLPEKFGGEPPYGGSRAIEFAEAGHDVVLAEPNKNISDDLWKKVEDAGVKVVSDDVEAAKHGEIHVLFTPFGKATFRIAKTIIEHVPENAVICNTCTVSPVVLYYSLEPILRTKRKDVGISSHPAAVPGTPQHGHYVIGGKTTDGKELATEEQIKKAVELAKSAGKEAYVVPADVSSVVADGSLVTAVALSGVLDYYTVGRKIINAPKKIEQQVITLQTASLVETSGIEGVKALNPELLIRSASSKLLDRQKDLDAALEILQNLDETLKAEVEKAEIKPTTLVAAQSLVKEIKTLIGGAAAEGAIKRSARKLFEH 4yu3-a1-m1-cA_4yu3-a1-m2-cA The crystal structure of mongoose (Helogale parvula) hemoglobin at pH 8.2 A0A0R4I977 A0A0R4I977 2.45 X-RAY DIFFRACTION 25 1.0 210647 (Helogale parvula) 210647 (Helogale parvula) 141 141 4yu4-a1-m1-cA_4yu4-a1-m1-cC VLSPADKTNIKASWEKIGSHGGEYGAEALERTFLCFPTTKTYFPHFDLSHGSAQVKAHGKKVADALTNAVGHLDDLPGALSALSDLHAYKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFLSSVSTVLTSKYR VLSPADKTNIKASWEKIGSHGGEYGAEALERTFLCFPTTKTYFPHFDLSHGSAQVKAHGKKVADALTNAVGHLDDLPGALSALSDLHAYKLRVDPVNFKLLSHCLLVTLASHHPAEFTPAVHASLDKFLSSVSTVLTSKYR 4yub-a1-m1-cA_4yub-a1-m1-cB Crystal structure of human Nicotinic Acid Phosphoribosyltransferase Q6XQN6 Q6XQN6 2.9 X-RAY DIFFRACTION 81 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 500 501 LLTDLYQATMALGYWRAGRARDAAEFELFFRRCPFGGAFALAAGLRDCVRFLRAFRLRDADVQFLASVLPPDTDPAFFEHLRALDCSEVTVRALPEGSLAFPGVPLLQVSGPLLVVQLLETPLLCLVSYASLVATNAARLRLIAGPEKRLLEMGLRRAQGPDGGLTASTYSYLGGFDSSSNVLAGQLRGVPVAGTLAHSFVTSFSGSEVPPDPMLAPAAGEGPGVDLAAKAQVWLEQVCAHLGLGVQEPHPGERAAFVAYALAFPRAFQGLLDTYSVWRSGLPNFLAVALALGELGYRAVGVRLDSGDLLQQAQEIRKVFRAAAAQFQVPWLESVLIVVSNNIDEEALARLAQEGSEVNVIGISLGGVYKLVAVGGQPRMKLTLPGSKAAFRLLGSDGSPLMDMLQLAEEPVPQAGQELRVWPPGAQEPCTVRPAQVEPLLRLCLQQGQLCEPLPSLAESRALAQLSLSRLSPEHRRLRSPAQYQVVLSERLQALVNSLC LLTDLYQATMALGYWRAGRARDAAEFELFFRRCPFGGAFALAAGLRDCVRFLRAFRLRDADVQFLASVLPPDTDPAFFEHLRALDCSEVTVRALPEGSLAFPGVPLLQVSGPLLVVQLLETPLLCLVSYASLVATNAARLRLIAGPEKRLLEMGLRRAQGPDGGLTASTYSYLGGFDSSSNVLAGQLRGVPVAGTLAHSFVTSFSGSEVPPDPMLAPAAGEGPGVDLAAKAQVWLEQVCAHLGLGVQEPHPGERAAFVAYALAFPRAFQGLLDTYSVWRSGLPNFLAVALALGELGYRAVGVRLDSGDLLQQAQEIRKVFRAAAAQFQVPWLESVLIVVSNNIDEEALARLAQEGSEVNVIGISLGGVYKLVAVGGQPRMKQTLPGSKAAFRLLGSDGSPLMDMLQLAEEPVPQAGQELRVWPPGAQEPCTVRPAQVEPLLRLCLQQGQLCEPLPSLAESRALAQLSLSRLSPEHRRLRSPAQYQVVLSERLQALVNSLCA 4yuc-a1-m1-cA_4yuc-a1-m2-cA Crystal Structure of CorB derivatized with S-(2-acetamidoethyl) 4-methyl-3-oxohexanethioate D7RK32 D7RK32 1.31 X-RAY DIFFRACTION 242 1.0 184914 (Corallococcus coralloides) 184914 (Corallococcus coralloides) 330 330 4yuf-a1-m1-cA_4yuf-a1-m2-cA 5c1j-a1-m1-cA_5c1j-a1-m2-cA VFPLPFKIAGLGRYVPADVVLSSDLEKKYDLPPGWCVEKQGIRERRWVKDETASFMGAEAAKEAVRDAGLKLEDIDLIINASGSPEQAVPDGGPLVQRELGLGRSGVPSITVNASCLSFFVALDVAANYLNMRRYKRILIVSSDISSVALDFRKPENFTLFGDAAAAAVVTLPEPGEKSCIHASQVRTYGYGAEFSMVPGGGSRRHPNGKNTTPEDNYLHMNGAELLKIGFEYLPRFNEALWKQCPDITIKDCRYVIPHQPSRVVLDYLSLTYPDDKLVRIIDRFANCIGASMPMALYEAVKVGGLRRGERGVLTGTGSGVSFVGMVFTY VFPLPFKIAGLGRYVPADVVLSSDLEKKYDLPPGWCVEKQGIRERRWVKDETASFMGAEAAKEAVRDAGLKLEDIDLIINASGSPEQAVPDGGPLVQRELGLGRSGVPSITVNASCLSFFVALDVAANYLNMRRYKRILIVSSDISSVALDFRKPENFTLFGDAAAAAVVTLPEPGEKSCIHASQVRTYGYGAEFSMVPGGGSRRHPNGKNTTPEDNYLHMNGAELLKIGFEYLPRFNEALWKQCPDITIKDCRYVIPHQPSRVVLDYLSLTYPDDKLVRIIDRFANCIGASMPMALYEAVKVGGLRRGERGVLTGTGSGVSFVGMVFTY 4yv3-a1-m1-cC_4yv3-a1-m1-cA Trimeric crystal structure of vimentin coil1B fragment P08670 P08670 2 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 75 DNLAEDIRLREKLQEELQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKLH DQLTNDKARVEVERDNLAEDIRLREKLQEELQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKLH 4yv4-a2-m1-cB_4yv4-a2-m1-cD Structure of the C. elegans SAS-5 coiled coil domain Q20010 Q20010 1.8 X-RAY DIFFRACTION 39 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 51 56 4yv4-a2-m1-cD_4yv4-a2-m1-cC 4yv4-a3-m1-cE_4yv4-a3-m1-cG 4yv4-a3-m1-cG_4yv4-a3-m1-cH AAENWRDAMKTELQTIRTEIQEETARRQEELNAQNLVKMQELMSNFFQKIT PTEEQAAENWRDAMKTELQTIRTEIQEETARRQEELNAQNLVKMQELMSNFFQKIT 4yv4-a3-m1-cE_4yv4-a3-m1-cH Structure of the C. elegans SAS-5 coiled coil domain Q20010 Q20010 1.8 X-RAY DIFFRACTION 20 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 53 57 4yv4-a2-m1-cB_4yv4-a2-m1-cC EQAAENWRDAMKTELQTIRTEIQEETARRQEELNAQNLVKMQELMSNFFQKIT GPTEEQAAENWRDAMKTELQTIRTEIQEETARRQEELNAQNLVKMQELMSNFFQKIT 4yvd-a1-m1-cA_4yvd-a1-m2-cA Crytsal structure of human Pleiotropic Regulator 1 (PRL1) O43660 O43660 1.7 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 WHPPWKLYRVISGHLGWVRCIAVEPGNQWFVTGSADRTIKIWDLASGKLKLSLTGHISTVRGVIVSTRSPYLFSCGEDKQVKCWDLEYNKVIRHYHGHLSAVYGLDLHPTIDVLVTCSRDSTARIWDVRTKASVHTLSGHTNAVATVRCQAAEPQIITGSHDTTIRLWDLVAGKTRVTLTNHKKSVRAVVLHPRHYTFASGSPDNIKQWKFPDGSFIQNLSGHNAIINTLTVNSDGVLVSGADNGTMHLWDWRTGYNFQRVHAESGIFACAFDQSESRLLTAEADKTIKVYRED WHPPWKLYRVISGHLGWVRCIAVEPGNQWFVTGSADRTIKIWDLASGKLKLSLTGHISTVRGVIVSTRSPYLFSCGEDKQVKCWDLEYNKVIRHYHGHLSAVYGLDLHPTIDVLVTCSRDSTARIWDVRTKASVHTLSGHTNAVATVRCQAAEPQIITGSHDTTIRLWDLVAGKTRVTLTNHKKSVRAVVLHPRHYTFASGSPDNIKQWKFPDGSFIQNLSGHNAIINTLTVNSDGVLVSGADNGTMHLWDWRTGYNFQRVHAESGIFACAFDQSESRLLTAEADKTIKVYRED 4ywa-a2-m3-cA_4ywa-a2-m3-cB Structural Insight into Divalent Galactoside Binding to Pseudomonas aeruginosa lectin LecA Q05097 Q05097 1.192 X-RAY DIFFRACTION 55 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 121 121 1l7l-a1-m1-cA_1l7l-a1-m2-cA 1l7l-a1-m3-cA_1l7l-a1-m4-cA 1oko-a1-m1-cA_1oko-a1-m1-cB 1oko-a1-m1-cC_1oko-a1-m1-cD 1uoj-a1-m1-cA_1uoj-a1-m1-cB 1uoj-a1-m1-cC_1uoj-a1-m1-cD 2wyf-a1-m1-cB_2wyf-a1-m1-cA 2wyf-a2-m1-cC_2wyf-a2-m1-cD 2wyf-a3-m1-cE_2wyf-a3-m1-cF 2wyf-a4-m1-cG_2wyf-a4-m1-cH 2wyf-a5-m1-cE_2wyf-a5-m1-cF 2wyf-a5-m1-cG_2wyf-a5-m1-cH 2wyf-a6-m1-cB_2wyf-a6-m1-cA 2wyf-a6-m1-cC_2wyf-a6-m1-cD 3zyf-a1-m1-cA_3zyf-a1-m1-cB 3zyf-a2-m1-cC_3zyf-a2-m1-cD 3zyh-a1-m1-cA_3zyh-a1-m1-cB 4a6s-a1-m1-cA_4a6s-a1-m1-cB 4a6s-a2-m1-cC_4a6s-a2-m1-cD 4al9-a1-m1-cA_4al9-a1-m1-cB 4al9-a1-m1-cC_4al9-a1-m1-cD 4al9-a2-m1-cE_4al9-a2-m1-cF 4al9-a2-m1-cG_4al9-a2-m1-cH 4cp9-a1-m1-cA_4cp9-a1-m1-cB 4cp9-a1-m1-cC_4cp9-a1-m1-cD 4cpb-a1-m1-cA_4cpb-a1-m1-cB 4cpb-a1-m1-cC_4cpb-a1-m1-cD 4cpb-a2-m1-cA_4cpb-a2-m1-cB 4cpb-a3-m1-cC_4cpb-a3-m1-cD 4ljh-a1-m1-cB_4ljh-a1-m1-cC 4lk6-a1-m1-cA_4lk6-a1-m1-cF 4lk6-a1-m1-cB_4lk6-a1-m1-cG 4lk6-a2-m1-cC_4lk6-a2-m1-cK 4lk6-a2-m1-cI_4lk6-a2-m1-cJ 4lk6-a3-m1-cD_4lk6-a3-m1-cE 4lk6-a3-m1-cH_4lk6-a3-m1-cL 4lk7-a1-m1-cA_4lk7-a1-m1-cB 4lk7-a2-m1-cA_4lk7-a2-m1-cB 4lk7-a3-m1-cC_4lk7-a3-m2-cD 4lkd-a1-m1-cA_4lkd-a1-m1-cC 4lkd-a1-m1-cD_4lkd-a1-m1-cE 4lkd-a2-m1-cB_4lkd-a2-m1-cH 4lkd-a2-m1-cF_4lkd-a2-m1-cG 4lke-a1-m1-cA_4lke-a1-m1-cD 4lke-a1-m1-cB_4lke-a1-m1-cC 4lkf-a1-m1-cA_4lkf-a1-m1-cB 4yw6-a1-m1-cA_4yw6-a1-m1-cC 4yw6-a1-m1-cB_4yw6-a1-m1-cD 4ywa-a1-m1-cA_4ywa-a1-m1-cB 4ywa-a1-m2-cC_4ywa-a1-m2-cD 4ywa-a2-m1-cC_4ywa-a2-m1-cD 5d21-a1-m1-cA_5d21-a1-m1-cB 5d21-a1-m1-cC_5d21-a1-m1-cD 5mih-a1-m1-cA_5mih-a1-m1-cB 5mih-a1-m1-cC_5mih-a1-m1-cD 6yo3-a1-m1-cA_6yo3-a1-m1-cB 6yo3-a1-m1-cC_6yo3-a1-m1-cD 6yoh-a1-m1-cA_6yoh-a1-m1-cD 6yoh-a2-m1-cB_6yoh-a2-m1-cC 7fio-a1-m1-cA_7fio-a1-m1-cB 7fio-a1-m1-cC_7fio-a1-m1-cD 7fjh-a1-m1-cA_7fjh-a1-m1-cB 7fjh-a1-m1-cC_7fjh-a1-m1-cD 7z62-a1-m1-cAAA_7z62-a1-m2-cAAA 7z62-a1-m1-cBBB_7z62-a1-m2-cBBB 7z63-a1-m1-cAAA_7z63-a1-m1-cBBB 7z63-a1-m1-cCCC_7z63-a1-m1-cDDD AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS AWKGEVLANNEAGQVTSIIYNPGDVITIVAAGWASYGPTQKWGPQGDREHPDQGLICHDAFCGALVMKIGNSGTIPVNTGLFRWVAPNNVQGAITLIYNDVPGTYGNNSGSFSVNIGKDQS 4ywj-a1-m1-cA_4ywj-a1-m2-cB Crystal structure of 4-hydroxy-tetrahydrodipicolinate reductase (HTPA reductase) from Pseudomonas aeruginosa P38103 P38103 1.8 X-RAY DIFFRACTION 137 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 268 268 4ywj-a1-m1-cB_4ywj-a1-m2-cA MRRIAVVGAAGRMGKNLIEAVQQTGGAAGLTAAVDRPDSTLVGADAGELAGLGRIGVPLSGDLGKVCEEFDVLIDFTHPSVTLKNIEQCRKARRAMVIGTTGFSADEKLLLAEAAKDIPIVFAANFSVGVNLCLKLLDTAARVLGDEVDIEIIEAHHRHKVDAPSGTALRMGEVVAQALGRDLQEVAVYGREGQTGARARETIGFATVRAGDVVGDHTVLFAAEGERVEITHKASSRMTFARGAVRAALWLEGKENGLYDMQDVLGLR MRRIAVVGAAGRMGKNLIEAVQQTGGAAGLTAAVDRPDSTLVGADAGELAGLGRIGVPLSGDLGKVCEEFDVLIDFTHPSVTLKNIEQCRKARRAMVIGTTGFSADEKLLLAEAAKDIPIVFAANFSVGVNLCLKLLDTAARVLGDEVDIEIIEAHHRHKVDAPSGTALRMGEVVAQALGRDLQEVAVYGREGQTGARARETIGFATVRAGDVVGDHTVLFAAEGERVEITHKASSRMTFARGAVRAALWLEGKENGLYDMQDVLGLR 4ywj-a1-m2-cA_4ywj-a1-m2-cB Crystal structure of 4-hydroxy-tetrahydrodipicolinate reductase (HTPA reductase) from Pseudomonas aeruginosa P38103 P38103 1.8 X-RAY DIFFRACTION 113 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 268 268 4ywj-a1-m1-cA_4ywj-a1-m1-cB MRRIAVVGAAGRMGKNLIEAVQQTGGAAGLTAAVDRPDSTLVGADAGELAGLGRIGVPLSGDLGKVCEEFDVLIDFTHPSVTLKNIEQCRKARRAMVIGTTGFSADEKLLLAEAAKDIPIVFAANFSVGVNLCLKLLDTAARVLGDEVDIEIIEAHHRHKVDAPSGTALRMGEVVAQALGRDLQEVAVYGREGQTGARARETIGFATVRAGDVVGDHTVLFAAEGERVEITHKASSRMTFARGAVRAALWLEGKENGLYDMQDVLGLR MRRIAVVGAAGRMGKNLIEAVQQTGGAAGLTAAVDRPDSTLVGADAGELAGLGRIGVPLSGDLGKVCEEFDVLIDFTHPSVTLKNIEQCRKARRAMVIGTTGFSADEKLLLAEAAKDIPIVFAANFSVGVNLCLKLLDTAARVLGDEVDIEIIEAHHRHKVDAPSGTALRMGEVVAQALGRDLQEVAVYGREGQTGARARETIGFATVRAGDVVGDHTVLFAAEGERVEITHKASSRMTFARGAVRAALWLEGKENGLYDMQDVLGLR 4ywk-a3-m1-cA_4ywk-a3-m1-cB Pyrococcus furiosus MCM N-terminal domain with Zinc-binding subdomain B deleted Q8U3I4 Q8U3I4 1.55 X-RAY DIFFRACTION 49 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 184 193 VDREEMIERFANFLREYTDEDGNPVYRGKITDLLTPKRSVAIDWMHLNSFDSELAHEVIENPEEGISAAEDAIQIVLREDFQREDVGKIHARFYNLPETLMVKDIGAEHINKLIQVEGIVTRVGEIKPFQSFRIQDRPETLPRFIDGILLVALPGDRVIVTGILRVVLEKTPIFRKILEVNHIE VDREEMIERFANFLREYTDEDGNPVYRGKITDLLTPKRSVAIDWMHLNSFDSELAHEVIENPEEGISAAEDAIQIVLREDFQREDVGKIHARFYNLPETLMVKDIGAEHINKLIQVEGIVTRVGEIKPFQSFRIQDRPETLKGEMPRFIDGILLDDDVALPGDRVIVTGILRVVLEKRETPIFRKILEVNHIE 4ywo-a1-m1-cA_4ywo-a1-m2-cA Mercuric reductase from Metallosphaera sedula A4YG49 A4YG49 1.62 X-RAY DIFFRACTION 184 1.0 399549 (Metallosphaera sedula DSM 5348) 399549 (Metallosphaera sedula DSM 5348) 444 444 SQDPMHKLAIIGYGAAGFAAMIKANELGVKPVLIGKGEIGGTCVNVGCVPSKRMLYIAEIYKKAREVTGSEVYPPFSSFQEKDGLVQEMRKTKYEDLLSYYDVELIQGEARFISPHAVKVNGQVIEAEKFVIATGSSPLIPRIPGLDKVGFWTNREALSPDRRIDSLAVIGGRALALEFAQMYSRMKVEVAILQRSPVLIPDWEPEASVEARRIMENDGVAVVTGVNVKEVRKGAGKIVITDKGEVEADEILLATGRKPNVDLGLENAGVRLNERGGIKVDDELRTDNPHIYAAGDVLGGKMLEALAGRQGSIATENALTGSHKRVDENAVPQVIFTQPNLARVGLTEAEARAKEGEVEARVLPMSSVAKAEIINSRLGFVKMVTMNGRIVGVHAVGENVAEMIGEAALAIRFGATVHDLIDTVHMFPTIAESLRLVALAFRSD SQDPMHKLAIIGYGAAGFAAMIKANELGVKPVLIGKGEIGGTCVNVGCVPSKRMLYIAEIYKKAREVTGSEVYPPFSSFQEKDGLVQEMRKTKYEDLLSYYDVELIQGEARFISPHAVKVNGQVIEAEKFVIATGSSPLIPRIPGLDKVGFWTNREALSPDRRIDSLAVIGGRALALEFAQMYSRMKVEVAILQRSPVLIPDWEPEASVEARRIMENDGVAVVTGVNVKEVRKGAGKIVITDKGEVEADEILLATGRKPNVDLGLENAGVRLNERGGIKVDDELRTDNPHIYAAGDVLGGKMLEALAGRQGSIATENALTGSHKRVDENAVPQVIFTQPNLARVGLTEAEARAKEGEVEARVLPMSSVAKAEIINSRLGFVKMVTMNGRIVGVHAVGENVAEMIGEAALAIRFGATVHDLIDTVHMFPTIAESLRLVALAFRSD 4ywq-a1-m1-cB_4ywq-a1-m1-cA Crystal structure of the ROQ domain of human Roquin-1 Q5TC82 Q5TC82 1.7 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 148 QLSSNLWAAVRARGCQFLGPAQEEALKLVLLALEDGSALSRKVLVLFVVQRLEPRFPQASKTSIGHVVQLLYRASCFKVTKRDDSSLQLKEEFRTYEALRREHDSQIVQIAEAGLRIAPDQWSSLLYGDQSHKSHQSIIDKLQTPA QQLSSNLWAAVRARGCQFLGPAQEEALKLVLLALEDGSALSRKVLVLFVVQRLEPRFPQASKTSIGHVVQLLYRASCFKVTKRDEDSSLQLKEEFRTYEALRREHDSQIVQIAEAGLRIAPDQWSSLLYGDQSHKSHQSIIDKLQTPA 4yws-a1-m1-cB_4yws-a1-m1-cA Thermostable enolase from Chloroflexus aurantiacus A9WCM4 A9WCM4 2.45 X-RAY DIFFRACTION 80 0.982 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 393 405 4z17-a1-m1-cB_4z17-a1-m1-cA 4z1y-a1-m1-cB_4z1y-a1-m1-cA STLIEAIVAREVLDSRGNPTIEVDVRLESGDVGRAIVPSGLRDGDKSRYNGKGVLKAVQAVNEDIAEALIGFDAADQIALDQELIALDGTPNKSKLGANAILGVSLAAAKAAAAAFGLPLYRYLGGVYAHVLPVPMMNIMNGGQHATDFQEFMIMPVGAESFREGLRWGAEIYHMLKKVIHDREGGFAPSLTNDAPLQLIMEAIEKAGYRPGEQIVIALDPATTEIFYHLKEGRSSAEMVDYWVDLVNRYPIISLEDGLAEDDWEGWALLAKLGDRVQLVGDDFLVTNVQRLQRAIEAKAANSILIKLNQIGSLTETLSAIQLAQRSGWTAVVSHRSGSEDVTIADLVVATNAGQIKTGAPATDRIAKYNQLLRIEEELGSAARYAGRSAFKV STLIEAIVAREVLDSRGNPTIEVDVRLESGDVGRAIVPSGSTGAHEALELRDGDKSRYNGKGVLKAVQAVNEDIAEALIGFDAADQIALDQELIALDGTPNKSKLGANAILGVSLAAAKAAAAAFGLPLYRYLGGVYAHVLPVPMMNIMNGGQHATNFQEFMIMPVGAESFREGLRWGAEIYHMLKKVIHDRGFGGFAPSLTNDAPLQLIMEAIEKAGYRPGEQIVIALDPATTEIFDGYLKREGRSSAEMVDYWVDLVNRYPIISLEDGLAEDDWEGWALLRAKLGDRVQLVGDDFLVTNVQRLQRAIEAKAANSILIKLNQIGSLTETLSAIQLAQRGWTAVVSHRSGESEDVTIADLVVATNAGQIKTGAPATDIAKYNQLLRIEEELGSAARYAGRSAFKV 4ywv-a1-m1-cA_4ywv-a1-m1-cB Structural insight into the substrate inhibition mechanism of NADP+-dependent succinic semialdehyde dehydrogenase from Streptococcus pyogenes A0A0J9X1M8 A0A0J9X1M8 2.4 X-RAY DIFFRACTION 166 1.0 1010840 (Streptococcus pyogenes MGAS1882) 1010840 (Streptococcus pyogenes MGAS1882) 455 455 4ogd-a1-m1-cA_4ogd-a1-m1-cB 4oht-a1-m1-cA_4oht-a1-m1-cB 4ywu-a1-m1-cA_4ywu-a1-m1-cB AYQTIYPYTNEVLHTFDNMTDQGLADVLERAHLLYKKWRKEDHLEERKAQLHQVANILRRDRDKYAEIMTKDMGKLFTEAQGEVDLCADIADYYADKADEFLMSTPLETDSGQAYYLKQSTGVILAVEPWNFPYYQIMRVFAPNFIVGNPMVLKHASICPRSAQSFEELVLEAGAEAGSITNLFISYDQVSQVIADKRVVGVCLTGSERGGASIAEEAGKNLKKTTLELGGDDAFIILDDADWDQLEKVLYFSRLYNAGQVCTSSKRFIVLDKDYDRFKELLTKVFKTAKWGDPMDPETTLAPLSSAQAKADVLDQIKLALDHGAELVYGGEAIDHPGHFVMPTIIAGLTKDNPIYYQEIFGPVGEIYKVSSEEEAIEVANDSNYGLGGTIFSSNQEHAKAVAAKIETGMSFINSGWTSLPELPFGGIKHSGYGRELSELGFTSFVNEHLIYIPN AYQTIYPYTNEVLHTFDNMTDQGLADVLERAHLLYKKWRKEDHLEERKAQLHQVANILRRDRDKYAEIMTKDMGKLFTEAQGEVDLCADIADYYADKADEFLMSTPLETDSGQAYYLKQSTGVILAVEPWNFPYYQIMRVFAPNFIVGNPMVLKHASICPRSAQSFEELVLEAGAEAGSITNLFISYDQVSQVIADKRVVGVCLTGSERGGASIAEEAGKNLKKTTLELGGDDAFIILDDADWDQLEKVLYFSRLYNAGQVCTSSKRFIVLDKDYDRFKELLTKVFKTAKWGDPMDPETTLAPLSSAQAKADVLDQIKLALDHGAELVYGGEAIDHPGHFVMPTIIAGLTKDNPIYYQEIFGPVGEIYKVSSEEEAIEVANDSNYGLGGTIFSSNQEHAKAVAAKIETGMSFINSGWTSLPELPFGGIKHSGYGRELSELGFTSFVNEHLIYIPN 4ywz-a1-m1-cB_4ywz-a1-m1-cA Crystal structure of the extracellular receptor domain of the essential sensor kinase WalK from Staphylococcus aureus A6QD58 A6QD58 1.7 X-RAY DIFFRACTION 48 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 145 146 7dud-a1-m1-cA_7dud-a1-m1-cB NLEKELLDNFKKNITQYAKQLEISIEKVYDEKGSVAQKDIQNLLSEYANQEIGEIRFIDKDQIIIATTKQSNRSLINQKANDSSVQKALSLGQSNDHLILKDYGGGKDRVWVYNIPVKVDKKVIGNIYIESKINDVYNQLNNINQ NLEKELLDNFKKNITQYAKQLEISIEKVYDEKGSVNAQKDIQNLLSEYANQEIGEIRFIDKDQIIIATTKQSNRSLINQKANDSSVQKALSLGQSNDHLILKDYGGGKDRVWVYNIPVKVDKKVIGNIYIESKINDVYNQLNNINQ 4yx1-a1-m1-cB_4yx1-a1-m1-cA SpaO(SPOA2) P40699 P40699 1.35 X-RAY DIFFRACTION 124 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 65 66 PVDVKLEFVLYRKNVTLAELEAGQQQLLSLPTNAELNVEIANGVLLGNGELVQNDTLGVEIHEWL GPVDVKLEFVLYRKNVTLAELEAGQQQLLSLPTNAELNVEIANGVLLGNGELVQNDTLGVEIHEWL 4yx6-a1-m1-cB_4yx6-a1-m1-cA Architectural hierarchy of trans-acting enoyl reductases from polyunsaturated fatty acid and trans-AT polyketide synthases Q8EGK4 Q8EGK4 1.86 X-RAY DIFFRACTION 162 0.996 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 502 518 WPWQVDISFDIESLGKKLKDLNQACYLINHAEKGLGIAQSAEVLHPVSAFAPALGTQSLGDSNFRRVHGVKYAYYAGAMANGIASEELVIALGQAGILCSFGAAGLIPSRVEAAIKRIQAALPNGPYAFNLIHSPSEQALERGSVELFLKHQVRTVEASAFLGLTPQIVYYRAAGLSRDASGEIVIGNKVIAKISRTEVATKFMEPAPVKILQQLVNEGLISEDQMLMAQSVPMADDITAEADSGGHTDNRPLVTLLPTILALKDTIQAKYQYKTPIRVGAGGGIGTPDAALATFNMGAAYIVTGSINQACVEAGASEHTRKLLATTEMADVTMAPAADMFEMGVKLQVVKRGTLFPMRANKLYEIYTRYDSIEAIPAEERQKLEEQVFRASLDEIWAGTVAHFNPKRKMALIFRWYLGLSSRWSNTGEVGREMDYQIWAGPALGAFNAWAKGSYLDDYRERNAVDLAKHLMQGAAYQARINLLLSQGVSIPVSLQRWKPLQ PWPWQVDEAAISFDIESLGKKLKDLNQACYLINHAEKGLGIAQSAEVVLHPVSAFAPALGTQSLGDSNFRRVHGVKYAYYAGAMANGIASEELVIALGQAGILCSFGAAGLIPSRVEAAIKRIQAALPNGPYAFNLIHSPSEQALERGSVELFLKHQVRTVEASAFLGLTPQIVYYRAAGLSRDASGEIVIGNKVIAKISRTEVATKFMEPAPVKILQQLVNEGLISEDQMLMAQSVPMADDITAEADSGGHTDNRPLVTLLPTILALKDTIQAKYQYKTPIRVGAGGGIGTPDAALATFNMGAAYIVTGSINQACVEAGASEHTRKLLATTEMADVTMAPAADMFEMGVKLQVVKRGTLFPMRANKLYEIYTRYDSIEAIPAEERQKLEEQVFRASLDEIWAGTVAHFNERDPKQIERALDNPKRKMALIFRWYLGLSSRWSNTGEVGREMDYQIWAGPALGAFNAWAKGSYLDDYRERNAVDLAKHLMQGAAYQARINLLLSQGVSIPVSLQRWKP 4yxb-a1-m1-cA_4yxb-a1-m1-cB FliM(SPOA)::FliN fusion protein P26419 P26419 2.56 X-RAY DIFFRACTION 58 0.987 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 157 169 ELELVANFADIPLRLSQILKLKPGDVLPIEKPDRIIAHVDGVPVLTSQYGTVNGQYALRVEHLINPILNSLNEAQDIDLIDIPVKLTVELGRTRTIKELLRLTQGSVVALDGLAGEPLDILINGYLIAQGEVVVVADKYGVRITDIITPSERRRLSR DNWRDNLVRQVQHSELELVANFADIPLRLSQILKLKPGDVLPIEKPDRIIAHVDGVPVLTSQYGTVNGQYALRVEHLINPILNSLNEDIDLIDIPVKLTVELGRTRTIKELLRLTQGSVVALDGLAGEPLDILINGYLIAQGEVVVVADKYGVRITDIITPSERRRLSR 4yxf-a1-m1-cB_4yxf-a1-m1-cA MupS, a 3-oxoacyl (ACP) reductase involved in Mupirocin biosynthesis Q8RL53 Q8RL53 2.7 X-RAY DIFFRACTION 131 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 227 230 KGTIIVSGGSQGLGLTTVRCFLEAGYNVATFSRRESPAVTELSERADFHWQALDCTDYSALTAFVQQVEKRFGGLDGLVNNAAVEGILSTMRVADIDSALDINLKGQLYLTKLVTAKLLKRGAGSVVNVSSINALRGHSGLTVYSATKAAMDGLTRSLAKELGPRGIRVNSVSPGYFSSDQTLSRIERRTPLGRLGTQQEVADLILYLVDRGTFVTGQNIAVDGGFT KGTIIVSGGSQGLGLTTVRCFLEAGYNVATFSRRESPAVTELSERADFHWQALDCTDYSALTAFVQQVEKRFGGLDGLVNNAATGVEGILSTMRVADIDSALDINLKGQLYLTKLVTAKLLKRGAGSVVNVSSINALRGHSGLTVYSATKAAMDGLTRSLAKELGPRGIRVNSVSPGYFSSDQTLSRIERRTPLGRLGTQQEVADLILYLVDRGTFVTGQNIAVDGGFTC 4yxq-a2-m1-cD_4yxq-a2-m1-cC PksG, a HMG-CoA Synthase from Bacillus subtilis P40830 P40830 2.47 X-RAY DIFFRACTION 230 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 402 407 4yxq-a1-m1-cB_4yxq-a1-m1-cA 4yxt-a1-m1-cB_4yxt-a1-m1-cA 4yxv-a1-m1-cA_4yxv-a1-m1-cB VSAGIEAMNVFGGTAYLDVMELAKYRHLDENLLMKEKAVALPYEDPVTFGVNAAKPIIDALSEAEKDRIELLITCSESGIDFGKSLSTYIHEYLGLNRNCRLFEVKQACYSGTAGFQMAVNFILSQTSPGAKALVIASDISRFSYAEPSAGAGAVAVLVGENPEVFQIDPGANGYYGYEVMDTCRPIPDSEAGDSDLSLMSYLDCCEQTFLEYQKRVPGANYQDTFQYLAYHTPFGGMVKGAHRTMMRKVAKVKTSGIETDFLTRVKPGLNYCQRVGNIMGAALFLALASTIDQGRFDTPKRIGCFSYGSGCCSEFYSGITTPQGQERQRTFGIEKHLDRRYQLSMEEYELLFKGSGMVRFGTRNVKLDFEMIPGIMQSTQEKPRLFLEEISEFHRKYRWIS VSAGIEAMNVFGGTAYLDVMELAKYRHLDTARFENLLMKEKAVALPYEDPVTFGVNAAKPIIDALSEAEKDRIELLITCSESGIDFGKSLSTYIHEYLGLNRNCRLFEVKQACYSGTAGFQMAVNFILSQTSPGAKALVIASDISRFWSYAEPSAGAGAVAVLVGENPEVFQIDPGANGYYGYEVMDTCRPIPDSEAGDSDLSLMSYLDCCEQTFLEYQKRVPGANYQDTFQYLAYHTPFGGMVKGAHRTMMRKVAKVKTSGIETDFLTRVKPGLNYCQRVGNIMGAALFLALASTIDQGRFDTPKRIGCFSYGSGCCSEFYSGITTPQGQERQRTFGIEKHLDRRYQLSMEEYELLFKGSGMVRFGTRNVKLDFEMIPGIMQSTQEKPRLFLEEISEFHRKYRWIS 4yy5-a3-m1-cA_4yy5-a3-m1-cB Computationally designed left-handed alpha/alpha toroid with 3 repeats in space group P43212 2.78 X-RAY DIFFRACTION 37 1.0 32630 (synthetic construct) 32630 (synthetic construct) 97 99 KSPTEVLLELIAEASGTTREEVKEKFLKELRKGKSPTEVLLELIAEASGTTKEEVKEKFLKELSFGKSPTEVLLELIAEASGTTKEEVKKKFWKELS GKSPTEVLLELIAEASGTTREEVKEKFLKELRKGKSPTEVLLELIAEASGTTKEEVKEKFLKELSFGKSPTEVLLELIAEASGTTKEEVKKKFWKELSL 4yyc-a1-m1-cA_4yyc-a1-m2-cA Crystal structure of trimethylamine methyltransferase from Sinorhizobium meliloti in complex with unknown ligand Q92P20 Q92P20 1.56 X-RAY DIFFRACTION 301 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 464 464 GPGPSLPYIQRRIREYEVLDEEGLQLIERNADVVLEEIGIEFRDDAEALDLWKAAGADVRGQRVHFPKGLCRELLKTAPKDFTWHARNPERNAQIGGKATVFAPVYGPPFVRDLDGNRRYATIEDFRNFVKLAYAPSHSSGGTVCEPVDIAVNKRHLDVYSHIRYSDKPFGSVTAPERAEDTVAAKILFGDDFVENNAVTLNLINANSPVFDETLGAAKVYARHNQACVVSPFILSGASPVTVAGTLTQILAEVLAGAAFTQLIRKGAPVLFGTFAASISQSGAPTFGTPEPSLVSYGAAQLARRLGLPFRTGGSLCGSKVPDAQAAHESANTLNTLLAGTNFVLHAAGWLEGGLVSSYEKFIDQDQLGQKAEGVDLSEDAQALDAIREVGPGSHYLGCAHTYRSPLADNNSFEQWEIEGEKRIEQRANALARSWLEHYEAPYLDPAIDEALKEFIAKRKDSPD GPGPSLPYIQRRIREYEVLDEEGLQLIERNADVVLEEIGIEFRDDAEALDLWKAAGADVRGQRVHFPKGLCRELLKTAPKDFTWHARNPERNAQIGGKATVFAPVYGPPFVRDLDGNRRYATIEDFRNFVKLAYAPSHSSGGTVCEPVDIAVNKRHLDVYSHIRYSDKPFGSVTAPERAEDTVAAKILFGDDFVENNAVTLNLINANSPVFDETLGAAKVYARHNQACVVSPFILSGASPVTVAGTLTQILAEVLAGAAFTQLIRKGAPVLFGTFAASISQSGAPTFGTPEPSLVSYGAAQLARRLGLPFRTGGSLCGSKVPDAQAAHESANTLNTLLAGTNFVLHAAGWLEGGLVSSYEKFIDQDQLGQKAEGVDLSEDAQALDAIREVGPGSHYLGCAHTYRSPLADNNSFEQWEIEGEKRIEQRANALARSWLEHYEAPYLDPAIDEALKEFIAKRKDSPD 4yym-a1-m1-cA_4yym-a1-m1-cB Crystal structure of TAF1 BD2 Bromodomain bound to a butyryllysine peptide P21675 P21675 1.5 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 133 4yyn-a1-m1-cB_4yyn-a1-m1-cA DDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTAKEAALEEAEL DDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTAKEAALEEAELE 4yze-a1-m1-cC_4yze-a1-m1-cA Crystal structure of E.coli NemR reduced form P67430 P67430 2.2 X-RAY DIFFRACTION 107 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 189 193 DTREHLLATGEQLSLQRGFTGMGLSELLKTAEVPKGSFYHYFRSKEAFGVAMLERHYAAYHQRLTELLQSGEGNYRDRILAYYQQTLNQFSGTISGCLTVKLSAEVSDLSEDMRSAMDKGARGVIALLSQALENGRENHSLTFSGEPLQQAQVLYALWLGANLQAKISRSFEPLENALAHVKNIIATPA HDTREHLLATGEQLSLQRGFTGMGLSELLKTAEVPKGSFYHYFRSKEAFGVAMLERHYAAYHQRLTELLQSGEGNYRDRILAYYQQTLNQFSQHGTISGCLTVKLSAEVSDLSEDMRSAMDKGARGVIALLSQALENGRENHSLTFSGEPLQQAQVLYALWLGANLQAKISRSFEPLENALAHVKNIIATPAV 4yzg-a1-m1-cA_4yzg-a1-m1-cB Structure of the Arabidopsis TAP38/PPH1, a state-transition phosphatase responsible for dephosphorylation of LHCII P49599 P49599 1.6 X-RAY DIFFRACTION 31 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 294 294 MRWGYTSVQGFRDEMEDDIVIRSDAVDSFSYAAVFDGHAGSSSVKFLREELYKECVGALQAGSLLNGGDFAAIKEALIKAFESVDRNLLKWLEANGDEEDESGSTATVMIIRNDVSFIAHIGDSCAVLSRSGQIEELTDYHRPYGSSRAAIQEVKRVKEAGGWIVNGRICGDIAVSRAFGDIRFKTKKNDMLKKGVDEGRWSEKFVSRIEFKGDMVVATPDIFQVPLTSDVEFIILASDGLWDYMKSSDVVSYVRDQLRKHGNVQLACESLAQVALDRRSQDNISIIIADLGRT MRWGYTSVQGFRDEMEDDIVIRSDAVDSFSYAAVFDGHAGSSSVKFLREELYKECVGALQAGSLLNGGDFAAIKEALIKAFESVDRNLLKWLEANGDEEDESGSTATVMIIRNDVSFIAHIGDSCAVLSRSGQIEELTDYHRPYGSSRAAIQEVKRVKEAGGWIVNGRICGDIAVSRAFGDIRFKTKKNDMLKKGVDEGRWSEKFVSRIEFKGDMVVATPDIFQVPLTSDVEFIILASDGLWDYMKSSDVVSYVRDQLRKHGNVQLACESLAQVALDRRSQDNISIIIADLGRT 4yzo-a2-m1-cD_4yzo-a2-m1-cB Crystal Structure Analysis of Thiolase-like protein, ST0096 from Sulfolobus Tokodaii Q976U3 Q976U3 1.7 X-RAY DIFFRACTION 161 0.994 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 341 348 4yzo-a1-m1-cC_4yzo-a1-m1-cA VAIVDVGITKFGKRKENIFDLVKEVTEKLLKYDIDYVIVSNSYSTSGLSSLITTYLNLDYVPSLRVDNTSGSGGSAILVAKSLLESKEANTVLVVGVEKSEASLPSLASISAIEYRKFNAPRESIAQVAVKNHYNGSLNPFAHIQKRVTLEEVLNSPVISEPLRLYEYTPISDGAAAVVVRNEDALSYTSKPVYIKGIGSSNYTAYVSEKEDFVTLPAVVEASRKAFKKAKVERIDFAELHDATILEIIQSEDIGLFKKGEGWKAVEGLTSLDGEIPINPSGGLNSKGHPIGASGVAQAVEAFSQIRNEAGNRQVKNARVGLSLSAGYGNSATVIIYGDEP VAIVDVGITKFGKRKENIFDLVKEVTEKLLKYDIDYVIVSNSYSGLSSLITTYLNLDYVPSLRVDNTSGSGGSAILVAKSLLESKEANTVLVVGVEKSEIISSLLPRIASLPSLASISAIEYRKFNAPRESIAQVAVKNHYNGSLNPFAHIQKRVTLEEVLNSPVISEPLRLYEYTPISDGAAAVVVRNEDALSYTSKPVYIKGIGSSNYTAYVSEKEDFVTLPAVVEASRKAFKKAKVERIDFAELHDATILEIIQSEDIGLFKKGEGWKAVEGLTSLDGEIPINPSGGLNSKGHPIGASGVAQAVEAFSQIRNEAGNRQVKNARVGLSLSAGYGNSATVIIYGDEP 4yzs-a1-m1-cA_4yzs-a1-m2-cA Crystal structures reveal transient PERK luminal domain tetramerization in ER stress signaling Q9NZJ5 Q9NZJ5 3.14 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 200 5sv7-a1-m1-cA_5sv7-a1-m1-cC SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSLDGALFQWDRDRESMETVPFTVESLLESVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQLLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYKVSVADWKVMEWEYQFCTPIASAWLLKDGKVIPISIVEAARGATENSVYLGMYRGQLYLQSS SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSLDGALFQWDRDRESMETVPFTVESLLESVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQLLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYKVSVADWKVMEWEYQFCTPIASAWLLKDGKVIPISIVEAARGATENSVYLGMYRGQLYLQSS 4yzs-a1-m1-cB_4yzs-a1-m2-cB Crystal structures reveal transient PERK luminal domain tetramerization in ER stress signaling Q9NZJ5 Q9NZJ5 3.14 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 5sv7-a1-m1-cD_5sv7-a1-m1-cB SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSLDGALFQWDRDRESMETVPFTVESLLESDDVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQWDSILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYIPAAIMDIVIKVSVADWKVMAFSKKGGHLEWEYQFCTPIASAWLLKDGKVIPISLFDDTSEEDIVEAARGATENSVYLGMYRGQLYLQSS SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSLDGALFQWDRDRESMETVPFTVESLLESDDVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQWDSILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYIPAAIMDIVIKVSVADWKVMAFSKKGGHLEWEYQFCTPIASAWLLKDGKVIPISLFDDTSEEDIVEAARGATENSVYLGMYRGQLYLQSS 4yzs-a1-m2-cA_4yzs-a1-m2-cB Crystal structures reveal transient PERK luminal domain tetramerization in ER stress signaling Q9NZJ5 Q9NZJ5 3.14 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 234 4yzs-a1-m1-cA_4yzs-a1-m1-cB 5sv7-a1-m1-cA_5sv7-a1-m1-cB SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSLDGALFQWDRDRESMETVPFTVESLLESVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQLLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYKVSVADWKVMEWEYQFCTPIASAWLLKDGKVIPISIVEAARGATENSVYLGMYRGQLYLQSS SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSLDGALFQWDRDRESMETVPFTVESLLESDDVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQWDSILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYIPAAIMDIVIKVSVADWKVMAFSKKGGHLEWEYQFCTPIASAWLLKDGKVIPISLFDDTSEEDIVEAARGATENSVYLGMYRGQLYLQSS 4yzw-a1-m1-cA_4yzw-a1-m1-cB Crystal structure of AgPPO8 Q8MZM3 Q8MZM3 2.6 X-RAY DIFFRACTION 120 0.991 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 678 682 MATLTQKFHGLLQHPLEPLFLPKNDGTLFYDLPERFLTSRYSPIGQNLANRFGPNSPATGVPPTVVTIKDLDELPDLTFATWIKRRDSFSLFNPEHRKAAGKLTKLFLDQPNADRLVDVAAYARDRLNAPLFQYALSVALLHRPDTKSVSVPSLLHLFPDQFIDPAAQVRMMEEGSIVLDENRMPIPIPMNYTATDAEPEQRMAFFREDIGVNLHHWHWHLVYPASGPPDVVRKDRRGELFYYMHQQLLARYQIDRYAQGLGRIEPLANLREPVREAYYPKLLRTSNNRTFCPRYPGMTISDVARSADRLEVRIADIESWLPRVLEAIDAGFAVSDDGVRVPLDETRGIDVLGNILERSAISINRNLYGDVHNMGHVLLAFIHDPRGTYLESSGVMGGVATAMRDPIFYRWHKFIDNIFLRNKARLAPYTMAELSNSNVTLEALETQLDRAGGAVNSFVTFWQRSQVDLRAGIDFSAAGSAFVSFTHLQCAPFVYRLRINSTARSNRQDTVRIFLLPRQNEQGRPLSFEDRRLLAIELDSFRVNLRPGMNNIVRQSSNSSVTIPFERTFGNVQSRFCGCGWPAHMLLPKGNANGVEFDLFAMVSRFEDDNANVNAGCDDSYAFCGLRDRVYPSRRAMGFPFDRRASNGVRSVADFVAPYKNMRLATVTLRFMNTIIDR TLTQKFHGLLQHPLEPLFLPKNDGTLFYDLPERFLTSRYSPIGQNLANRFGPNSPASSQVSNPPTVVTIKDLDELPDLTFATWIKRRDSFSLFNPEHRKAAGKLTKLFLDQPNADRLVDVAAYARDRLNAPLFQYALSVALLHRPDTKSVSVPSLLHLFPDQFIDPAAQVRMMEEGSIVLDENRMPIPIPMNYTATDAEPEQRMAFFREDIGVNLHHWHWHLVYPASGPPDVVRKDRRGELFYYMHQQLLARYQIDRYAQGLGRIEPLANLREPVREAYYPKLLRTSNNRTFCPRYPGMTISDVARSADRLEVRIADIESWLPRVLEAIDAGFAVSDDGVRVPLDETRGIDVLGNILERSAISINRNLYGDVHNMGHVLLAFIHDPRGTYLESSGVMGGVATAMRDPIFYRWHKFIDNIFLRNKARLAPYTMAELSNSNVTLEALETQLDRAGGAVNSFVTFWQRSQVDLRAGIDFSAAGSAFVSFTHLQCAPFVYRLRINSTARSNRQDTVRIFLLPRQNEQGRPLSFEDRRLLAIELDSFRVNLRPGMNNIVRQSSNSSVTIPFERTFGNQSRFCGCGWPAHMLLPKGNANGVEFDLFAMVSRFEDDNANVNYDENAGCDDSYAFCGLRDRVYPSRRAMGFPFDRRASNGVRSVADFVAPYKNMRLATVTLRFMNTIIDR 4yzy-a1-m1-cA_4yzy-a1-m2-cA Crystal structures reveal transient PERK luminal domain tetramerization in ER stress signaling Q9Z2B5 Q9Z2B5 3.2 X-RAY DIFFRACTION 91 1.0 10090 (Mus musculus) 10090 (Mus musculus) 163 163 ASLVIISTLDGRIAALNDGKKQWDLDVGSGSLVSSSLSDVVLVGGKSLTTYGLSAKLRYICSALGCRRWDSDEEEDILLLQRTQKTVRAVGPRSGSEKWNFSVGHFELRYIPDLDTVIKVSVADWKVMAFSRKGGRLEWEYQFCTPIASAWLVRDGKVIPISL ASLVIISTLDGRIAALNDGKKQWDLDVGSGSLVSSSLSDVVLVGGKSLTTYGLSAKLRYICSALGCRRWDSDEEEDILLLQRTQKTVRAVGPRSGSEKWNFSVGHFELRYIPDLDTVIKVSVADWKVMAFSRKGGRLEWEYQFCTPIASAWLVRDGKVIPISL 4yzz-a1-m1-cA_4yzz-a1-m1-cD Crystal structure of a TRAP transporter solute binding protein (IPR025997) from Bordetella bronchiseptica RB50 (BB0280, TARGET EFI-500035) mixed occupancy dimer, copurified calcium and picolinate bound active site versus apo site A0A0H3LP08 A0A0H3LP08 1.3 X-RAY DIFFRACTION 244 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 336 336 4yic-a1-m1-cB_4yic-a1-m1-cA NPTVRWRMSTSWPKSLDTIYGSADELCKRVGQLTDGKFEIRAFPGGELVPSAQNMDAVSNGTVECNHVLSTMYIGKNTALTFDTGLSFGLNARQHNAWIHYGGGLQQLRELYKKYNIVNHVCGNVGVQMGGWYRKEIKSTADLNGLNMRIGGIGGMVLSKLGVVPQQIPPGDIYPALEKGTIDAAEWIGPYDDEKLGFNKVAPYYYSPGWFEGSASITSMVNDKAWEALPPAYQAAFEAACGEQSMRMLANYDARNPLALRKLIAGGAKVSFFPKEVMDAVYKASQQLWTELSEKNPDFKAIYPGWKKFQEDEAGWFRVAENALDNYTFAAVARAQ NPTVRWRMSTSWPKSLDTIYGSADELCKRVGQLTDGKFEIRAFPGGELVPSAQNMDAVSNGTVECNHVLSTMYIGKNTALTFDTGLSFGLNARQHNAWIHYGGGLQQLRELYKKYNIVNHVCGNVGVQMGGWYRKEIKSTADLNGLNMRIGGIGGMVLSKLGVVPQQIPPGDIYPALEKGTIDAAEWIGPYDDEKLGFNKVAPYYYSPGWFEGSASITSMVNDKAWEALPPAYQAAFEAACGEQSMRMLANYDARNPLALRKLIAGGAKVSFFPKEVMDAVYKASQQLWTELSEKNPDFKAIYPGWKKFQEDEAGWFRVAENALDNYTFAAVARAQ 4z04-a1-m1-cA_4z04-a1-m2-cA Crystal structure of a probable lactoylglutathione lyase from Brucella melitensis in complex with glutathione Q2YLQ3 Q2YLQ3 1.45 X-RAY DIFFRACTION 106 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 124 124 HMLDHIGFNIADMKKSRAFYDAALSPLGIGHAMEFGDWVGYGRNGKPEFWIGAQKGAKLEGVLHVAFSAGTRSEVGRFYEAAIAAGGRDNGKPGLRPHYHPDYYAAFVLDPDGHNIEVVCHLPE HMLDHIGFNIADMKKSRAFYDAALSPLGIGHAMEFGDWVGYGRNGKPEFWIGAQKGAKLEGVLHVAFSAGTRSEVGRFYEAAIAAGGRDNGKPGLRPHYHPDYYAAFVLDPDGHNIEVVCHLPE 4z07-a1-m1-cC_4z07-a1-m1-cA Co-crystal structure of the tandem CNB (CNB-A/B) domains of human PKG I beta with cGMP Q13976 Q13976 2.5 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 260 VTLPFYPKSPQSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGTVNVTREDSPSEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAY SHVTLPFYPKSPQSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGTVNVTREDSPSEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGGLDDVSNKAY 4z0c-a1-m1-cA_4z0c-a1-m1-cD Crystal structure of TLR13-ssRNA13 complex Q6R5N8 Q6R5N8 2.3 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 709 709 YGFNKCTQYEFDIHHVLCIRKKITNLTEAISDIPRYTTHLNLTHNEIQVLPPWSFTNLSALVDLRLEWNSIWKIDEGAFRGLENLTLLNLVENKIQSVNNSFEGLSSLKTLLLSHNQITHIHKDAFTPLIKLKYLSLSRNNISDFSGILEAVQHLPCLERLDLTNNSIMYLDHSPRSLVSLTHLSFEGNKLRELNFSALSLPNLTNLSASRNGNKVIQNVYLKTLPQLKSLNLSGTVIKLENLSAKHLQNLRAMDLSNWELRHGHLDMKTVCHLLGNLPKLETLVFQKNVTNAEGIKQLAKCTRLLFLDLGQNSDLIYLNDSEFNALPSLQKLNLNKCQLSFINNRTWSSLQNLTSLDLSHNKFKSFPDFAFSPLKHLEFLSLSRNPITELNNLAFSGLFALKELNLAACWIVTIDRYSFTQFPNLEVLDLGDNNIRTLNHGTFRPLKKLQSLILSHNCLKILEPNSFSGLTNLRSLDLMYNSLSYFHEHLFSGLEKLLILKLGFNKITYETTRTLQYPPFIKLKSLKQLNLEGQRHGIQVVPSNFFQGLGSLQELLLGKNPSVFLDHHQFDPLINLTKLDISGTKDGDRSLYLNASLFQNLKRLKILRLENNNLESLVPDMFSSLQSLQVFSLRFNNLKVINQSHLKNLKSLMFFDVYGNKLQCTCDNLWFKNWSMNTEEVHIPFLRSYPCQQPGSQSLLIDFDDAMC YGFNKCTQYEFDIHHVLCIRKKITNLTEAISDIPRYTTHLNLTHNEIQVLPPWSFTNLSALVDLRLEWNSIWKIDEGAFRGLENLTLLNLVENKIQSVNNSFEGLSSLKTLLLSHNQITHIHKDAFTPLIKLKYLSLSRNNISDFSGILEAVQHLPCLERLDLTNNSIMYLDHSPRSLVSLTHLSFEGNKLRELNFSALSLPNLTNLSASRNGNKVIQNVYLKTLPQLKSLNLSGTVIKLENLSAKHLQNLRAMDLSNWELRHGHLDMKTVCHLLGNLPKLETLVFQKNVTNAEGIKQLAKCTRLLFLDLGQNSDLIYLNDSEFNALPSLQKLNLNKCQLSFINNRTWSSLQNLTSLDLSHNKFKSFPDFAFSPLKHLEFLSLSRNPITELNNLAFSGLFALKELNLAACWIVTIDRYSFTQFPNLEVLDLGDNNIRTLNHGTFRPLKKLQSLILSHNCLKILEPNSFSGLTNLRSLDLMYNSLSYFHEHLFSGLEKLLILKLGFNKITYETTRTLQYPPFIKLKSLKQLNLEGQRHGIQVVPSNFFQGLGSLQELLLGKNPSVFLDHHQFDPLINLTKLDISGTKDGDRSLYLNASLFQNLKRLKILRLENNNLESLVPDMFSSLQSLQVFSLRFNNLKVINQSHLKNLKSLMFFDVYGNKLQCTCDNLWFKNWSMNTEEVHIPFLRSYPCQQPGSQSLLIDFDDAMC 4z0m-a1-m1-cB_4z0m-a1-m1-cA EchA5 Mycobacterium tuberculosis I6Y4E8 I6Y4E8 1.97 X-RAY DIFFRACTION 123 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 239 241 4z0m-a1-m1-cC_4z0m-a1-m1-cA 4z0m-a1-m1-cC_4z0m-a1-m1-cB DLVRVERKGRVTTVILNRPASRNAVNGPTAAALCAAFEQFDRDDAASVAVLWGAGGTFCAGADLKAFGTPEANSVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEEDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRGVPADEALAMGLANRVVPKGQARQAAEELAAQLAALPQQCLRSDRLSALHQWGLPESAALDLEFASIARVAGEALEGAR DLVRVERKGRVTTVILNRPASRNAVNGPTAAALCAAFEQFDRDDAASVAVLWGAGGTFCAGADLKAFGTPEANSVHRTGPGPMGPSRMMLSKPVIAAVSGYAVAGGLELALWCDLRVAEEDAVFGVFCRRWGVPLIDGGTVRLPRLIGHSRAMDMILTGRGVPADEALAMGLANRVVPKGQARQAAEELAAQLAALPQQCLRSDRLSALHQWGLPESAALDLEFASIARVAGEALEGARRF 4z0o-a1-m1-cA_4z0o-a1-m2-cA CW-type zinc finger of ZCWPW2 with F78D mutation Q504Y3 Q504Y3 1.57 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 NMYVNKVWVQCENENCLKWRLLSSEDSAKVDHDEPWYCFMNTDSRYNNCSISEED NMYVNKVWVQCENENCLKWRLLSSEDSAKVDHDEPWYCFMNTDSRYNNCSISEED 4z0p-a1-m1-cA_4z0p-a1-m2-cA Crystal structure of NADPH-dependent glyoxylate/hydroxypyruvate reductase SMc02828 (SmGhrA) from Sinorhizobium meliloti in complex with NADPH and oxalate Q92T34 Q92T34 1.7 X-RAY DIFFRACTION 115 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 316 316 4weq-a1-m1-cA_4weq-a1-m2-cA KSPVIVDLKFIPEEVEAALAGAFPGREVIDLADPAHQERDLSGIDYAVVWKSAPDLFSRAPDLKVVFSGGAGVDHVLTLPGLPDVPLVRFVDRTLTTRMSEWVMMQCLLHLRQHRAYEALAKKHEWRDLSQPEAADVTVGIMGMGVLGQDAARKLAAMGFKVIGWSRSKRVIEGVETYDAAGLDAFLGRTDFLVGLLPLTPDTRGIFNAALFAKLSRNGPFGAPVFINAGRGGSQVEADILECLDSGVLGGASLDVFEREPLSPESRFWDMPNVYVTPHVAASSDVRALFVHVEHQIARFESGLPLEHVVDKVAGY KSPVIVDLKFIPEEVEAALAGAFPGREVIDLADPAHQERDLSGIDYAVVWKSAPDLFSRAPDLKVVFSGGAGVDHVLTLPGLPDVPLVRFVDRTLTTRMSEWVMMQCLLHLRQHRAYEALAKKHEWRDLSQPEAADVTVGIMGMGVLGQDAARKLAAMGFKVIGWSRSKRVIEGVETYDAAGLDAFLGRTDFLVGLLPLTPDTRGIFNAALFAKLSRNGPFGAPVFINAGRGGSQVEADILECLDSGVLGGASLDVFEREPLSPESRFWDMPNVYVTPHVAASSDVRALFVHVEHQIARFESGLPLEHVVDKVAGY 4z0y-a3-m1-cB_4z0y-a3-m1-cD Active aurone synthase (polyphenol oxidase), copper B : sulfohistidine ~ 1.4 : 1 A0A075DN54 A0A075DN54 1.6 X-RAY DIFFRACTION 30 1.0 13449 (Coreopsis grandiflora) 13449 (Coreopsis grandiflora) 346 346 4z0y-a1-m1-cC_4z0y-a1-m2-cA 4z0y-a2-m1-cA_4z0y-a2-m3-cC 4z0z-a1-m1-cD_4z0z-a1-m2-cA 4z0z-a2-m1-cA_4z0z-a2-m3-cD 4z0z-a3-m1-cB_4z0z-a3-m1-cC 4z10-a1-m1-cA_4z10-a1-m1-cC 4z10-a2-m1-cB_4z10-a2-m1-cD 4z10-a3-m1-cE_4z10-a3-m1-cF APITAPDITSICKDASSGIGNQEGAIRTRKCCPPSLGKKIKDFQFPNDKKVRMRWPAHKGTKKQVDDYRRAIAAMRALPDDDPRSFVSQAKIHCAYCNGGYTQVDSGFPDIDIQIHNSWLFFPFHRWYLYFYERILGSLIDEPNFALPYWKWDEPKGMPISNIFLGDASNPLYDQYRDANHIEDRIVDLDYDGKDKDIPDQQQVACNLSTVYRDLVRNGVDPTSFFGGKYVAGDSPVANGDPSVGSVEAGSTAVHRWVGDPTQPNNEDMGNFYSAGYDPVFYIHHANVDRMWKLWKELRLPGHVDITDPDWLNASYVFYDENKDLVRVYNKDCVNLDKLKYNFIEN APITAPDITSICKDASSGIGNQEGAIRTRKCCPPSLGKKIKDFQFPNDKKVRMRWPAHKGTKKQVDDYRRAIAAMRALPDDDPRSFVSQAKIHCAYCNGGYTQVDSGFPDIDIQIHNSWLFFPFHRWYLYFYERILGSLIDEPNFALPYWKWDEPKGMPISNIFLGDASNPLYDQYRDANHIEDRIVDLDYDGKDKDIPDQQQVACNLSTVYRDLVRNGVDPTSFFGGKYVAGDSPVANGDPSVGSVEAGSTAVHRWVGDPTQPNNEDMGNFYSAGYDPVFYIHHANVDRMWKLWKELRLPGHVDITDPDWLNASYVFYDENKDLVRVYNKDCVNLDKLKYNFIEN 4z19-a1-m1-cA_4z19-a1-m2-cA Crystal structure of beta-ketoacyl-ACP synthase III (FabH) from Yersinia pestis with acetylated active site cysteine Q8ZFT7 Q8ZFT7 1.8 X-RAY DIFFRACTION 197 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 308 308 4ylt-a1-m1-cA_4ylt-a1-m2-cA MYTKILGTGSYLPVQVRSNADLEKMVDTSDEWIVTRTGIRERRIAGLDETVATMGFQAAEKALEMAGIDKDDIGLIIVATTSSSHAFPSSACQVQRMLGIKDAASFDLAAAAGFTYALSVADQYVKSGAVKHAIVIGSDVLSRALDPEDRGTIILFGDGAGAVVLGASEQPGIMSTHLHADGRYGELLALPYPAYVTMAGNEVFKVAVTELAHIVDETLQVNNLDRTALDWLVPHQANLRIISATAKKLGMGMDKVVITLDRHGNTSAASVPSAFDEAVRDGRIQRGQLVLLEAFGGGFTWGSALVRF MYTKILGTGSYLPVQVRSNADLEKMVDTSDEWIVTRTGIRERRIAGLDETVATMGFQAAEKALEMAGIDKDDIGLIIVATTSSSHAFPSSACQVQRMLGIKDAASFDLAAAAGFTYALSVADQYVKSGAVKHAIVIGSDVLSRALDPEDRGTIILFGDGAGAVVLGASEQPGIMSTHLHADGRYGELLALPYPAYVTMAGNEVFKVAVTELAHIVDETLQVNNLDRTALDWLVPHQANLRIISATAKKLGMGMDKVVITLDRHGNTSAASVPSAFDEAVRDGRIQRGQLVLLEAFGGGFTWGSALVRF 4z1d-a1-m1-cA_4z1d-a1-m1-cB Structure of PEP and zinc bound KDO8PS from H.pylori P56060 P56060 1.65 X-RAY DIFFRACTION 72 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 256 256 4z1a-a1-m1-cA_4z1a-a1-m1-cB 4z1b-a1-m1-cA_4z1b-a1-m1-cB 4z1c-a1-m1-cA_4z1c-a1-m1-cB KSVLIAGPCVIESLENLRSIATKLQPLANNERLDFYFKASFDKANRTSLESYRGPGLEKGLEMLQTIKEEFGYKILTDVHESYQASVAAKVADILQIPAFLCRQTDLIVEVSQTNAIVNIKKGQFMNPKDMQYSVLKALKTRDKSIQSPTYETALKNGVWLCERGSSFGYGNLVVDMRSLKIMREFAPVIFDATHSVQMPSFAPILARAAAAVGIDGLFAETHVDPKNALSDGANMLKPDELEQLVTDMLKIQNLF KSVLIAGPCVIESLENLRSIATKLQPLANNERLDFYFKASFDKANRTSLESYRGPGLEKGLEMLQTIKEEFGYKILTDVHESYQASVAAKVADILQIPAFLCRQTDLIVEVSQTNAIVNIKKGQFMNPKDMQYSVLKALKTRDKSIQSPTYETALKNGVWLCERGSSFGYGNLVVDMRSLKIMREFAPVIFDATHSVQMPSFAPILARAAAAVGIDGLFAETHVDPKNALSDGANMLKPDELEQLVTDMLKIQNLF 4z1r-a1-m1-cC_4z1r-a1-m1-cA Crystal structure of collagen-like peptide at 1.27 Angstrom resolution 1.27 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 18 GPGPGPGPAPGPGPGPG PGPGPGPGPAPGPGPGPG 4z1r-a1-m1-cC_4z1r-a1-m1-cB Crystal structure of collagen-like peptide at 1.27 Angstrom resolution 1.27 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 18 GPGPGPGPAPGPGPGPG GPGPGPGPAPGPGPGPGP 4z2y-a1-m1-cA_4z2y-a1-m2-cA Crystal structure of methyltransferase CalO6 Q8KND2 Q8KND2 3.4 X-RAY DIFFRACTION 202 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 299 299 GLRHRMQQLIYGFFTAQTLHVAVRLRIPDLLADGARDVGDLASATGADAPSLRRLLRALVFLEVLDEPAPGTFALTEQGEVLRADVTGSMRELVLLLSGPESWAAWGQLEHSVRAFVPTLLSAYDFGDLRTVVDVGGGSGALLAGVLAAHPHLRGTVFDTPDGVADAARTVAEQGVADRCGVETGDFFVSVPPGADAYVLKSVLHDWDDEQCVEVLRTVRRAVRPDSRVILVESLMPTTVTTAPSVAQVVMNDLNMMVCHGGRERTVAEFRELLRVAGFRLESVTPCPAPSVVGILEAA GLRHRMQQLIYGFFTAQTLHVAVRLRIPDLLADGARDVGDLASATGADAPSLRRLLRALVFLEVLDEPAPGTFALTEQGEVLRADVTGSMRELVLLLSGPESWAAWGQLEHSVRAFVPTLLSAYDFGDLRTVVDVGGGSGALLAGVLAAHPHLRGTVFDTPDGVADAARTVAEQGVADRCGVETGDFFVSVPPGADAYVLKSVLHDWDDEQCVEVLRTVRRAVRPDSRVILVESLMPTTVTTAPSVAQVVMNDLNMMVCHGGRERTVAEFRELLRVAGFRLESVTPCPAPSVVGILEAA 4z2z-a1-m1-cA_4z2z-a1-m1-cB New crystal structure of yeast Ddi1 aspartyl protease reveals substrate engagement mode P40087 P40087 1.8 X-RAY DIFFRACTION 75 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 123 138 2i1a-a1-m1-cA_2i1a-a1-m1-cB NAIEYTPETQVPMLYINIEINNYPVKAFVDTGAQTTIMSTRLAKKTGLSRMIDKRFIIGRIHQAQVKIETQYIPCSFTVLDTDIDVLIGLDMLKRHLACVDLKENVLRIAEVETSFLSEAEIP RNAIEYTPEMFTQVPMLYINIEINNYPVKAFVDTGAQTTIMSTRLAKKTGLSRMIDKRFIGEARGVGTGKIIGRIHQAQVKIETQYIPCSFTVLDTDIDVLIGLDMLKRHLACVDLKENVLRIAEVETSFLSEAEIPK 4z37-a1-m1-cA_4z37-a1-m2-cA Structure of the ketosynthase of module 2 of C0ZGQ5 (trans-AT PKS) from Brevibacillus brevis C0ZGQ5 C0ZGQ5 1.998 X-RAY DIFFRACTION 196 1.0 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 606 606 IAREPIAIIGMSGRYPKARSLNEYWENLKSGKDCITEIPEERWSLDGFFEPDPDKAVAEGKSYGKWGGFVDGFADFDPLFFNMSPWEAMHFDPQERLFMESCWEVLEDAGYTRQQLAEKYNRRVGVFGGITKTGFSLYGPDLWKQGELIYPHTSFSSLTNRVSYFLNLQGPSMPIDTMSASLTAIHEACEHLYNGDCELAIAGGVNLYLHPSSYVFLSALHMLSVDGQCKSFGQGGNGFVPGEGVGTVLLKPLSKAIADGDHIYGLIRGTSVNHGGKTNGYTVPNPTAQGELIRQALDKAGVHAKTVSYIEAHGTGTELGDPIEISGLIQAFRKDTQDTGYCAIGSVKSNIGHLEAAAGIAGVAKILLQMKHQQLVPSLHAKELNPNIPFSKTPFVVQQDLVEWKRPLMEVNGVLREFPRIAGISSFGAGGSNAHVVIEEYIPVSPQNPAIIVLSAKNKERLIEQVQRLLASIEKQSFTDVDLVDIAYTLQVGREAMEERLALMVSSLSELVEKLQSFLAGDDSIADLYRGQAKRSRETADIFAGDEELQEAIEKWMQRKKFAKLLDFWVKGLNMDWNKLYDDKKPRRISLPAYPFAREHYWLPKP IAREPIAIIGMSGRYPKARSLNEYWENLKSGKDCITEIPEERWSLDGFFEPDPDKAVAEGKSYGKWGGFVDGFADFDPLFFNMSPWEAMHFDPQERLFMESCWEVLEDAGYTRQQLAEKYNRRVGVFGGITKTGFSLYGPDLWKQGELIYPHTSFSSLTNRVSYFLNLQGPSMPIDTMSASLTAIHEACEHLYNGDCELAIAGGVNLYLHPSSYVFLSALHMLSVDGQCKSFGQGGNGFVPGEGVGTVLLKPLSKAIADGDHIYGLIRGTSVNHGGKTNGYTVPNPTAQGELIRQALDKAGVHAKTVSYIEAHGTGTELGDPIEISGLIQAFRKDTQDTGYCAIGSVKSNIGHLEAAAGIAGVAKILLQMKHQQLVPSLHAKELNPNIPFSKTPFVVQQDLVEWKRPLMEVNGVLREFPRIAGISSFGAGGSNAHVVIEEYIPVSPQNPAIIVLSAKNKERLIEQVQRLLASIEKQSFTDVDLVDIAYTLQVGREAMEERLALMVSSLSELVEKLQSFLAGDDSIADLYRGQAKRSRETADIFAGDEELQEAIEKWMQRKKFAKLLDFWVKGLNMDWNKLYDDKKPRRISLPAYPFAREHYWLPKP 4z38-a1-m1-cA_4z38-a1-m1-cB Crystal structure of enoyl reductase domain of MlnA from the macrolactin biosynthesis cluster from Bacillus amyloliquefaciens A7Z470 A7Z470 2.8 X-RAY DIFFRACTION 126 0.995 326423 (Bacillus velezensis FZB42) 326423 (Bacillus velezensis FZB42) 437 439 RLGDQSFKEDYGLTYAYLAGAMHRGISSAEMLIRLGKKGMLGFFGTAGLPIREIEQALISIKKTLKNGQPYGMNLRFEPDHQDREKELIDLYIKHEVRVIEASSYFSVSAPLIYYKAHQLKIDKSGRVIPHNRIIAKVSRPEVAAAFLSPPPQSIVKRMCQHGMLTEEQAEWLSRIPAADDIIIEADCTEQSSLTAMLPFFVKLRDEMMETHKYARKIRIGAAGGIGTPESAASAFLMGADFIMTGSINQCTVEAETSGFVKEMLSGTGICDTAYAPSETLFEFGTKVQVLKKGTLFPVRANKLFQIYQQYESLSEIDEKTKIQLENDYFNKTFDEIYESLIEKQPNLAQKAERNQKYKMLLLFKWYLQRGCLLALEGQEEQKVNFQVHCGPSLGAFNHWVKGTDLESWRNRHVDDIGEKLMNETESLLRRRLDTLF PVSRLGDQSFKEDYGLTYAYLAGAMHRGISSAEMLIRLGKKGMLGFFGTAGLPIREIEQALISIKKTLKNGQPYGMNLRFEPDHQDREKELIDLYIKHEVRVIEASSYFSVSAPLIYYKAHQLKIDKSGRVIPHNRIIAKVSRPEVAAAFLSPPPQSIVKRMCQHGMLTEEQAEWLSRIPAADDIIIEADCGEQSSLTAMLPFFVKLRDEMMETHKYARKIRIGAAGGIGTPESAASAFLMGADFIMTGSINQCTVEAETSGFVKEMLSGTGICDTAYAPSETLFEFGTKVQVLKKGTLFPVRANKLFQIYQQYESLSEIDEKTKIQLENDYFNKTFDEIYESLIEKQPNLAQKAERNQKYKMLLLFKWYLQRGCLLALEGQEEQKVNFQVHCGPSLGAFNHWVKGTDLESWRNRHVDDIGEKLMNETESLLRRRLDTL 4z39-a1-m1-cA_4z39-a1-m1-cB Structure of OBP3 from the vetch aphid Megoura viciae A0A0S2E5N6 A0A0S2E5N6 1.3 X-RAY DIFFRACTION 76 1.0 112273 (Megoura viciae) 112273 (Megoura viciae) 121 121 ASMRFTTEQIDYYGKACNASEDDLVVVKSYKVPSSETGKCLMKCMITKLGLLNDDGSYNKTGMEAGLKKYWSEWSTEKIESINNKCYEEALLVSKEVIATCNYSYTVMACLNKQLDLDKST ASMRFTTEQIDYYGKACNASEDDLVVVKSYKVPSSETGKCLMKCMITKLGLLNDDGSYNKTGMEAGLKKYWSEWSTEKIESINNKCYEEALLVSKEVIATCNYSYTVMACLNKQLDLDKST 4z3d-a2-m1-cC_4z3d-a2-m1-cD Human carbonyl reductase 1 with glutathione in a protective configuration P16152 P16152 1.8 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 4z3d-a1-m1-cB_4z3d-a1-m1-cA GIHVALVTGGNKGIGLAIVRDLCRLFSGDVVLTARDVTRGQAAVQQLQAEGLSPRFHQLDIDDLQSIRALRDFLRKEYGGLDVLVNNAGIAFKVADPTPFHIQAEVTMKTNFFGTRDVCTELLPLIKPQGRVVNVSSIMSVRALKSCSPELQQKFRSETITEEELVGLMNKFVEDTKKGVHQKEGWPSSAYGVTKIGVTVLSRIHARKLSEQRKGDKILLNACCPGWVRTDMAGPKATKSPEEGAETPVYLALLPPDAEGPHGQFVSEKRVEQW GIHVALVTGGNKGIGLAIVRDLCRLFSGDVVLTARDVTRGQAAVQQLQAEGLSPRFHQLDIDDLQSIRALRDFLRKEYGGLDVLVNNAGIAFKVADPTPFHIQAEVTMKTNFFGTRDVCTELLPLIKPQGRVVNVSSIMSVRALKSCSPELQQKFRSETITEEELVGLMNKFVEDTKKGVHQKEGWPSSAYGVTKIGVTVLSRIHARKLSEQRKGDKILLNACCPGWVRTDMAGPKATKSPEEGAETPVYLALLPPDAEGPHGQFVSEKRVEQW 4z3w-a1-m1-cB_4z3w-a1-m1-cC Active site complex BamBC of Benzoyl Coenzyme A reductase in complex with 1,5 Dienoyl-CoA Q39TV8 Q39TV8 2.208 X-RAY DIFFRACTION 16 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 652 653 4z3y-a1-m1-cB_4z3y-a1-m1-cC MRYAETGYVLEVDLTKGSIERVATDPRDTELYLGGLGTNAKILWDRVPPEVEPFSPENLLIFAAGLLCGTPATGCNRTIVSTVSPQTKLMAFSMMGGFWAPELKYAGYDKIIFRGKSPELVYLYINNDKVEIRDASHLKGKGAIETAEIIKKELNEPRAQVAAIGKAGENRVFYASIEQGRSSASRGGIGAVMGDKGLKAVVVRGTKDLCVAKPEEYIGLCNEVLDYIKHREENPIPDVMPILAGLGSPQEMKVHDEKWHTENFNWGNARTRRKDFWTDEVSHAWEKTMDKARTRLISCYNCPMKCGATISMEGLPTYMMKCFTKLTYTMAAYSDLDFGLRIAQKATEYGLDGFSAPQVMAFAFELLEKGILKDSDFPGLPEGNEERFFYLLDKIVNRDGIGDILANGTYWAAQEIGNGAEDYAHNNIKKHEQLPLKLSMLNPIYYLMYCTGEKINITQIEGQFPQAPYPKLEQREAFVEDWIQVPDEKFKKIFLEWEPRGEKSMPNFPTVDMCCDIVDWQEMMHYIDDALGQCAGLSSFPLKPPYHIHNYPKFIAAGAGIEMDTEKLKKAAKRYRTLVRAFNIRRGMRRVDEQPPANHWKNRFPELEKELLDSYYKLKGWNDDGIPTKETLDDLGLGYVGDEFIKRGILSA MRYAETGYVLEVDLTKGSIERVATDPRDTELYLGGLGTNAKILWDRVPPEVEPFSPENLLIFAAGLLCGTPATGCNRTIVSTVSPQTKLMAFSMMGGFWAPELKYAGYDKIIFRGKSPELVYLYINNDKVEIRDASHLKGKGAIETAEIIKKELNEPRAQVAAIGKAGENRVFYASIEQGRSSASRGGIGAVMGDKGLKAVVVRGTKDLCVAKPEEYIGLCNEVLDYIKHREENPIPDVMPILAGLGSPQEMKVHDEKWHTENFNWGNARTRRKDFWTDEVSHAWEKTMDKARTRLISCYNCPMKCGATISMEGLPTYMMKCFTKLTYTMAAYSDLDFGLRIAQKATEYGLDGFSAPQVMAFAFELLEKGILKDSDFPGLPEGNEERFFYLLDKIVNRDGIGDILANGTYWAAQEIGNGAEDYAHNNIKKHEQLPLKLSMLNPIYYLMYCTGEKINITQIEGQFPQAPYPKLEQREAFVEDWIQVPDEKFKKIFLEWEPRGEKSMPNFPTVDMCCDIVDWQEMMHYIDDALGQCAGLSSFPLKPPYHIHNYPKFIAAGAGIEMDTEKLKKAAKRYRTLVRAFNIRRGMRRVDEQPPANHWKNRFPELEKELLDSYYKLKGWNDDGIPTKETLDDLGLGYVGDEFIKRGILSAG 4z3x-a1-m1-cE_4z3x-a1-m1-cF Active site complex BamBC of Benzoyl Coenzyme A reductase in complex with 1-Monoenoyl-CoA Q39TV9 Q39TV9 1.85 X-RAY DIFFRACTION 202 0.994 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 166 170 4z3w-a1-m1-cE_4z3w-a1-m1-cF 4z3w-a1-m1-cH_4z3w-a1-m1-cG 4z3x-a2-m1-cH_4z3x-a2-m1-cG 4z3y-a1-m1-cE_4z3y-a1-m1-cF 4z3y-a1-m1-cH_4z3y-a1-m1-cG 4z3z-a1-m1-cE_4z3z-a1-m1-cF 4z3z-a2-m1-cH_4z3z-a2-m1-cG 4z40-a1-m1-cE_4z40-a1-m1-cF 4z40-a2-m1-cH_4z40-a2-m1-cG KKRIVKTINIDADKCNGCRACEVICSAFHAMPPYSSNNPARSRVRVVRDPLRDIYVPLYAGEYTESECIGRDKFIIDGKEYDECGFCRASCPSRDLFREPDSGLPLKCDLCDGEPEPLCVKWCLVGALSVTEREVEEPDKRTEMEIGLESLISRFGADVVADTVEQ KRIVKTINIDADKCNGCRACEVICSAFHAMPPYSSNNPARSRVRVVRDPLRDIYVPLYAGEYTESECIGRDKFIIDGKEYDECGFCRASCPSRDLFREPDSGLPLKCDLCDGEPEPLCVKWCLVGALSVTEREVEEPDESVKRTEMEIGLESLISRFGADVVADTVEQLT 4z43-a1-m1-cA_4z43-a1-m2-cA Crystal structure of Tryptophan 7-halogenase (PrnA) Mutant E450K P95480 P95480 2.29 X-RAY DIFFRACTION 95 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 505 505 2jkc-a1-m1-cA_2jkc-a1-m2-cA 4z44-a1-m1-cA_4z44-a1-m2-cA NKPIKNIVIVGGGTAGWMAASYLVRALQQQANITLIESAAIPRIGVGEATIPSLQKVFFDFLGIPEREWMPQVNGAFKAAIKFVNWRKSPDPSRDDHFYHLFGNVPNCDGVPLTHYWLRKREQGFQQPMEYACYPQPGALDGKLAPCLSDGTRQMSHAWHFDAHLVADFLKRWAVERGVNRVVDEVVDVRLNNRGYISNLLTKEGRTLEADLFIDCSGMRGLLINQALKEPFIDMSDYLLCDSAVASAVPNDDARDGVEPYTSSIAMNSGWTWKIPMLGRFGSGYVFSSHFTSRDQATADFLKLWGLSDNQPLNQIKFRVGRNKRAWVNNCVSIGLSSCFLEPLESTGIYFIYAALYQLVKHFPDTSFDPRLSDAFNAEIVHMFDDCRDFVQAHYFTTSRDDTPFWLANRHDLRLSDAIKEKVQRYKAGLPLTTFDYKFKNFWLNGNYYCIFAGLGMLPDRSLPLLQHRPESIEKAEAMFASIRREAERLRTSLPTNYDYLRSLR NKPIKNIVIVGGGTAGWMAASYLVRALQQQANITLIESAAIPRIGVGEATIPSLQKVFFDFLGIPEREWMPQVNGAFKAAIKFVNWRKSPDPSRDDHFYHLFGNVPNCDGVPLTHYWLRKREQGFQQPMEYACYPQPGALDGKLAPCLSDGTRQMSHAWHFDAHLVADFLKRWAVERGVNRVVDEVVDVRLNNRGYISNLLTKEGRTLEADLFIDCSGMRGLLINQALKEPFIDMSDYLLCDSAVASAVPNDDARDGVEPYTSSIAMNSGWTWKIPMLGRFGSGYVFSSHFTSRDQATADFLKLWGLSDNQPLNQIKFRVGRNKRAWVNNCVSIGLSSCFLEPLESTGIYFIYAALYQLVKHFPDTSFDPRLSDAFNAEIVHMFDDCRDFVQAHYFTTSRDDTPFWLANRHDLRLSDAIKEKVQRYKAGLPLTTFDYKFKNFWLNGNYYCIFAGLGMLPDRSLPLLQHRPESIEKAEAMFASIRREAERLRTSLPTNYDYLRSLR 4z4a-a1-m1-cA_4z4a-a1-m1-cB Avirulence protein 4 (Avr4) from Pseudocercospora fuligena M3AZE0 M3AZE0 1.7 X-RAY DIFFRACTION 37 0.986 685502 (Pseudocercospora fuligena) 685502 (Pseudocercospora fuligena) 74 75 PAFVCPAADIKTTKCLGPKDCLYPSPKTCNGYIQCSPADDSYLTGIIHEMPCPSGLLWNDNKKWCDWPENTTCG AFVCPAADIKTTKCLGPKDCLYPSPKTCNGYIQCSPADDSYLTGIIHEMPCPSGLLWNDNKKWCDWPENTTCGLV 4z5v-a1-m1-cB_4z5v-a1-m1-cA Crystal Structure of MHV ns2 PDE Domain P19738 P19738 3.049 X-RAY DIFFRACTION 23 0.986 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 144 157 KPNHFINFPLAQFSGFGKYLKLQSQLVEGLDCKLQKAPHVSITLLDIKADQYKQVEFAIQEIIDDLAAYEGDIVFDNPHLGRCLVLDVRGFEELHEDIVEILRRRGCTADQSWIPHCTVAQFDEGQFYHKEPFYLAGLELVKIG PNHFINFPLAQFSGFGKYLKLQSQLVEGLDCKLQKAPHVSITLLDIKADQYKQVEFAIQEIIDDLAAYEGDIVFDNPHLGRCLVLDVRGFEELHEDIVEILRRRGCTADQSRHWIPHCTVAQFDEERETKGQFYHKEPFYLKHNNLLTDAGLELVKI 4z6k-a1-m1-cB_4z6k-a1-m1-cD Alcohol dehydrogenase from the antarctic psychrophile Moraxella sp. TAE 123 Q8GIX7 Q8GIX7 1.9 X-RAY DIFFRACTION 102 1.0 191545 (Moraxella sp. TAE123) 191545 (Moraxella sp. TAE123) 340 340 4z6k-a1-m1-cA_4z6k-a1-m1-cC MKAAVLHEFGQSLQIEEVDIPTPGAGEIVVKMQASGVCHTDLHAVEGDWPVKPSPPFIPGHEGVGLITAVGEGVTHVKEGDRVGVAWLYSACGHCTHCLGGWETLCESQQNSGYSVNGSFAEYVLANANYVGIIPESVDSIEIAPVLCAGVTVYKGLKMTDTKPGDWVVISGIGGLGHMAVQYAIAMGLNVAAVDIDDDKLAFAKKLGAKVTVNAKNTDPAEYLQKEIGGAHGALVTAVSAKAFDQALSMLRRGGTLVCNGLPPGDFPVSIFDTVLNGITIRGSIVGTRLDLQESLDMAAAGKVKATVTAEPLENINDIFERMRQGKIEGRIVIDYTMLE MKAAVLHEFGQSLQIEEVDIPTPGAGEIVVKMQASGVCHTDLHAVEGDWPVKPSPPFIPGHEGVGLITAVGEGVTHVKEGDRVGVAWLYSACGHCTHCLGGWETLCESQQNSGYSVNGSFAEYVLANANYVGIIPESVDSIEIAPVLCAGVTVYKGLKMTDTKPGDWVVISGIGGLGHMAVQYAIAMGLNVAAVDIDDDKLAFAKKLGAKVTVNAKNTDPAEYLQKEIGGAHGALVTAVSAKAFDQALSMLRRGGTLVCNGLPPGDFPVSIFDTVLNGITIRGSIVGTRLDLQESLDMAAAGKVKATVTAEPLENINDIFERMRQGKIEGRIVIDYTMLE 4z6k-a1-m1-cD_4z6k-a1-m1-cA Alcohol dehydrogenase from the antarctic psychrophile Moraxella sp. TAE 123 Q8GIX7 Q8GIX7 1.9 X-RAY DIFFRACTION 35 1.0 191545 (Moraxella sp. TAE123) 191545 (Moraxella sp. TAE123) 340 345 4z6k-a1-m1-cB_4z6k-a1-m1-cC MKAAVLHEFGQSLQIEEVDIPTPGAGEIVVKMQASGVCHTDLHAVEGDWPVKPSPPFIPGHEGVGLITAVGEGVTHVKEGDRVGVAWLYSACGHCTHCLGGWETLCESQQNSGYSVNGSFAEYVLANANYVGIIPESVDSIEIAPVLCAGVTVYKGLKMTDTKPGDWVVISGIGGLGHMAVQYAIAMGLNVAAVDIDDDKLAFAKKLGAKVTVNAKNTDPAEYLQKEIGGAHGALVTAVSAKAFDQALSMLRRGGTLVCNGLPPGDFPVSIFDTVLNGITIRGSIVGTRLDLQESLDMAAAGKVKATVTAEPLENINDIFERMRQGKIEGRIVIDYTMLE MKAAVLHEFGQSLQIEEVDIPTPGAGEIVVKMQASGVCHTDLHAVEGDWPVKPSPPFIPGHEGVGLITAVGEGVTHVKEGDRVGVAWLYSACGHCTHCLGGWETLCESQQNSGYSVNGSFAEYVLANANYVGIIPESVDSIEIAPVLCAGVTVYKGLKMTDTKPGDWVVISGIGGLGHMAVQYAIAMGLNVAAVDIDDDKLAFAKKLGAKVTVNAKNTDPAEYLQKEIGGAHGALVTAVSAKAFDQALSMLRRGGTLVCNGLPPGDFPVSIFDTVLNGITIRGSIVGTRLDLQESLDMAAAGKVKATVTAEPLENINDIFERMRQGKIEGRIVIDYTMLEHHHHH 4z6k-a1-m1-cD_4z6k-a1-m1-cC Alcohol dehydrogenase from the antarctic psychrophile Moraxella sp. TAE 123 Q8GIX7 Q8GIX7 1.9 X-RAY DIFFRACTION 24 1.0 191545 (Moraxella sp. TAE123) 191545 (Moraxella sp. TAE123) 340 345 4z6k-a1-m1-cB_4z6k-a1-m1-cA MKAAVLHEFGQSLQIEEVDIPTPGAGEIVVKMQASGVCHTDLHAVEGDWPVKPSPPFIPGHEGVGLITAVGEGVTHVKEGDRVGVAWLYSACGHCTHCLGGWETLCESQQNSGYSVNGSFAEYVLANANYVGIIPESVDSIEIAPVLCAGVTVYKGLKMTDTKPGDWVVISGIGGLGHMAVQYAIAMGLNVAAVDIDDDKLAFAKKLGAKVTVNAKNTDPAEYLQKEIGGAHGALVTAVSAKAFDQALSMLRRGGTLVCNGLPPGDFPVSIFDTVLNGITIRGSIVGTRLDLQESLDMAAAGKVKATVTAEPLENINDIFERMRQGKIEGRIVIDYTMLE MKAAVLHEFGQSLQIEEVDIPTPGAGEIVVKMQASGVCHTDLHAVEGDWPVKPSPPFIPGHEGVGLITAVGEGVTHVKEGDRVGVAWLYSACGHCTHCLGGWETLCESQQNSGYSVNGSFAEYVLANANYVGIIPESVDSIEIAPVLCAGVTVYKGLKMTDTKPGDWVVISGIGGLGHMAVQYAIAMGLNVAAVDIDDDKLAFAKKLGAKVTVNAKNTDPAEYLQKEIGGAHGALVTAVSAKAFDQALSMLRRGGTLVCNGLPPGDFPVSIFDTVLNGITIRGSIVGTRLDLQESLDMAAAGKVKATVTAEPLENINDIFERMRQGKIEGRIVIDYTMLEHHHHH 4z6x-a1-m1-cA_4z6x-a1-m2-cA The 1.68-angstrom crystal structure of acitive-site metal-free PqqB from Pseudomonas putida Q88QV5 Q88QV5 1.68 X-RAY DIFFRACTION 128 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 309 309 1xto-a1-m1-cA_1xto-a1-m2-cA 3jxp-a2-m1-cA_3jxp-a2-m2-cA 4z5y-a1-m1-cA_4z5y-a1-m2-cA 4z5z-a1-m1-cA_4z5z-a1-m2-cA 4z60-a1-m1-cA_4z60-a1-m2-cA 4z67-a1-m1-cA_4z67-a1-m2-cA 6e13-a1-m1-cA_6e13-a1-m2-cA MMYIQVLGSAAGGGFPQWNCNCVNCKGYRDGTLKATARTQSSIALSDDGVHWILCNASPDIRAQLQAFAPMQPARALRDTGINAIVLLDSQIDHTTGLLSLREGCPHQVWCTDMVHQDLTTGFPLFNMLSHWNGGLQWNRIELEGSFVIDACPNLKFTPFPLRSAAPPYSPHRFDPHPGDNLGLMVEDTRTGGKLFYAPGLGQVDEKLLAMMHGADCLLVDGTLWEDDEMQRRGVGTRTGREMGHLAQNGPGGTLEVLDGFPRQRKVLIHINNTNPILDENSPERAEVLRRGVEVAFDGMSIELLEHHH MMYIQVLGSAAGGGFPQWNCNCVNCKGYRDGTLKATARTQSSIALSDDGVHWILCNASPDIRAQLQAFAPMQPARALRDTGINAIVLLDSQIDHTTGLLSLREGCPHQVWCTDMVHQDLTTGFPLFNMLSHWNGGLQWNRIELEGSFVIDACPNLKFTPFPLRSAAPPYSPHRFDPHPGDNLGLMVEDTRTGGKLFYAPGLGQVDEKLLAMMHGADCLLVDGTLWEDDEMQRRGVGTRTGREMGHLAQNGPGGTLEVLDGFPRQRKVLIHINNTNPILDENSPERAEVLRRGVEVAFDGMSIELLEHHH 4z7a-a2-m1-cA_4z7a-a2-m2-cA Structural and biochemical characterization of a non-functionally redundant M. tuberculosis (3,3) L,D-Transpeptidase, LdtMt5. A5TZL1 A5TZL1 1.98 X-RAY DIFFRACTION 62 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 355 355 LAEKRPPPAPRLTFRPADSAADVVPIAPISVEVGDGWFQRVALTNSAGKVVAGAYSRDRTIYTITEPLGYDTTYTWSGSAVGHDGKAVPVAGKFTTVAPVKTINAGFQLADGQTVGIAAPVIIQFDSPISDKAAVERALTVTTDPPVEGGWAWLPDEAQGARVHWRPREYYPAGTTVDVDAKLYGLPFGDGAYGAQDMSLHFQIGRRQVVKAEVSSHRIQVVTDAGVIMDFPCSYGEADLARNVTRNGIHVVTEKYSDFYMSNPAAGYSHIHERWAVRISNNGEFIHANPMNSNVTNGCINLSTENAEQYYRSAVYGDPVEVTGSSIQLSYADGDIWDWAVDWDTWVSMSALPPP LAEKRPPPAPRLTFRPADSAADVVPIAPISVEVGDGWFQRVALTNSAGKVVAGAYSRDRTIYTITEPLGYDTTYTWSGSAVGHDGKAVPVAGKFTTVAPVKTINAGFQLADGQTVGIAAPVIIQFDSPISDKAAVERALTVTTDPPVEGGWAWLPDEAQGARVHWRPREYYPAGTTVDVDAKLYGLPFGDGAYGAQDMSLHFQIGRRQVVKAEVSSHRIQVVTDAGVIMDFPCSYGEADLARNVTRNGIHVVTEKYSDFYMSNPAAGYSHIHERWAVRISNNGEFIHANPMNSNVTNGCINLSTENAEQYYRSAVYGDPVEVTGSSIQLSYADGDIWDWAVDWDTWVSMSALPPP 4z7f-a2-m1-cC_4z7f-a2-m1-cD Crystal structure of FolT bound with folic acid Q837A3 Q837A3 3.194 X-RAY DIFFRACTION 34 0.982 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 166 166 4z7f-a1-m1-cA_4z7f-a1-m1-cB GTKSIALMGVLIAVVVVFSRFFAYETTFLKISFTFIPESLIGMIFGPFWAGIGTAVADVVGMLLFPKAGYFPGFTLNAFLAGAIYGYFYYKKEMTWQRVILATLLVTVLINIILTPLWLSLMYGVNLANFAWWVPRLIKTVIFFPIQVIATYYLGNKFKRLFGKPL FGTKSIALMGVLIAVVVVFSRFFAYETTFLKISFTFIPESLIGMIFGPFWAGIGTAVADVVGMLLFPKAGYFPGFTLNAFLAGAIYGYFYYKKEMTWQRVILATLLVTVLINIILTPLWLSLMYGVNLANFAWWVPRLIKTVIFFPIQVIATYYLGNKFKFGKPSE 4z7k-a1-m1-cB_4z7k-a1-m1-cA Crystal structure of CRISPR RNA processing endoribonuclease Cas6b A4FXZ3 A4FXZ3 3 X-RAY DIFFRACTION 14 1.0 402880 (Methanococcus maripaludis C5) 402880 (Methanococcus maripaludis C5) 195 218 MDLEYMHISYPNILLNMRDGSKLRGYFAKKYIDYKYPQIQFKIIDRSPLIIGIGSLGINFLESKRIFFEKETEVNVHKDMDHFGTTDKILKYQFKTPWMALNAKNSEIYKNSDEIDREEFLKRVLIGNILSMSKSLGYTIEEKLKVKINLKEVPVKFKNQNMVGFRGEFYINFDIPQYLGIGRNVSRGFGTVVKV MDLEYMHISYPNILLNMRDGSKLRGYFAKKYIDEEIVHNHRDNAFVYKYPQIQFKIIDRSPLIIGIGSLGINFLESKRIFFEKELIISNDTNDITEVNVHKDMDHFGTTDKILKYQFKTPWMALNAKNSEIYKNSDEIDREEFLKRVLIGNILSMSKSLGYTIEEKLKVKINLKEVPVKFKNQNMVGFRGEFYINFDIPQYLGIGRNVSRGFGTVVKV 4z7l-a1-m1-cB_4z7l-a1-m1-cA Crystal structure of Cas6b A4FXZ3 A4FXZ3 3.503 X-RAY DIFFRACTION 30 1.0 402880 (Methanococcus maripaludis C5) 402880 (Methanococcus maripaludis C5) 193 218 MDLEYMHISYPNILLNMRDGSKLRGYFAKKYIDEEIVHKYPQIQFKIIDRSPLIIGIGSLGINFLESDITEVNVHKDMDHFGTTDKILKYQFKTPWMALNAKNSEIYKNSDEIDREEFLKRVLIGNILSMSKSLGYTIEEKLKVKINLKEVPVKFKNQNMVGFRGEFYINFDIPQYLGIGRNVSRGFGTVVKV MDLEYMHISYPNILLNMRDGSKLRGYFAKKYIDEEIVHNHRDNAFVYKYPQIQFKIIDRSPLIIGIGSLGINFLESKRIFFEKELIISNDTNDITEVNVHKDMDHFGTTDKILKYQFKTPWMALNAKNSEIYKNSDEIDREEFLKRVLIGNILSMSKSLGYTIEEKLKVKINLKEVPVKFKNQNMVGFRGEFYINFDIPQYLGIGRNVSRGFGTVVKV 4z7l-a3-m1-cH_4z7l-a3-m1-cG Crystal structure of Cas6b A4FXZ3 A4FXZ3 3.503 X-RAY DIFFRACTION 35 1.0 402880 (Methanococcus maripaludis C5) 402880 (Methanococcus maripaludis C5) 174 218 4z7l-a2-m1-cE_4z7l-a2-m1-cD MDLEYMHISYPNILLKYPQIQFKIIDRSPLIIGIGSLGINFLESKRIFFITEVNVHKDMDHFGTTDKILKYQFKTPWMALNAKNSEIYKNSDEIDREEFLKRVLIGNILSMSKSLGYTIEEKLKVKINLKEVPVKFKNQNMVGFRGEFYINFDIPQYLGIGRNVSRGFGTVVKV MDLEYMHISYPNILLNMRDGSKLRGYFAKKYIDEEIVHNHRDNAFVYKYPQIQFKIIDRSPLIIGIGSLGINFLESKRIFFEKELIISNDTNDITEVNVHKDMDHFGTTDKILKYQFKTPWMALNAKNSEIYKNSDEIDREEFLKRVLIGNILSMSKSLGYTIEEKLKVKINLKEVPVKFKNQNMVGFRGEFYINFDIPQYLGIGRNVSRGFGTVVKV 4z7r-a1-m1-cB_4z7r-a1-m1-cA The 1.98-angstrom crystal structure of Zn(2+)-bound PqqB from Methylobacterium extorquens Q49149 Q49149 1.982 X-RAY DIFFRACTION 130 1.0 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 279 299 MHVVILGSAAGGGVPQWNCRCSICSLAWAGDSRVRPRTQSSIAVSPDGERWLLLNASPDIRQQIQANPQMHPREGLRHSPIHAVLLTNGDVDHVAGLLTLREGQPFTLYATPGILASVSDNRVFDVMAADVVKRQTIALNETFEPVPGLSVTLFSVPTVGTMIEAGGKRLAYIPGCARVTEDLKARIAGADALLFDGTVLEDDDMIRAGVGTKTGWRMGHIQMNGETGSIASLADIEIGRRVFVHINNTNPVLIEDSYERASVEARGWTVAHDGLTLDL MHVVILGSAAGGGVPQWNCRCSICSLAWAGDSRVRPRTQSSIAVSPDGERWLLLNASPDIRQQIQANPQMHPREGLRHSPIHAVLLTNGDVDHVAGLLTLREGQPFTLYATPGILASVSDNRVFDVMAADVVKRQTIALNETFEPVPGLSVTLFSVPGKVPLWLEDASMEIGAETETTVGTMIEAGGKRLAYIPGCARVTEDLKARIAGADALLFDGTVLEDDDMIRAGVGTKTGWRMGHIQMNGETGSIASLADIEIGRRVFVHINNTNPVLIEDSYERASVEARGWTVAHDGLTLDL 4z80-a3-m1-cA_4z80-a3-m2-cB Crystal structure of Toxoplasma gondii AMA4 DI-DII-EGF1 in complex with a 33 aa TgRON2L1 peptide S7UIL3 S7UIL3 1.53 X-RAY DIFFRACTION 77 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 466 466 STSTSRATYMDRFNIPKNHVDLIWDKDGTKSHTRGNTTYRWTERKSNVGVYVGYSEMYDSSAQAYCQSSSAKIDTKTTVGAPYMAAGACPNYGKVIAFTKRDGSRSDMTRWKNEIHANVMPHSTTSCASRADPGAAEVAKSIEGFAMYAGYLTHCPYNVNVYRQDMVTDKEFDSTVCNFVTESNPLRFLDTTQRQSTQPYTEYAFHGKGGHKGYDYKGQTSHVGCPPYNPPHVTKGMKDSSWITGPFECSILSRCTTHCWPYKSGGNCFRSLPAMFDMSTGECRLLGYHTQDFRSSTCAELTTDDTNAFYCVRPMKTAASSNMVYVTSHTRPDHETKCPPREPLKNVRWGVVSKGKYCKPMNARASLSNATAEQCGQRLFMLSSADGSSLSSQVRGYHWATFVATDCNMGESCAATARGKCFFYSTVPECLIHSPTTMAFTSLSAVDPSIAIDPDSIAVLPEDKCV STSTSRATYMDRFNIPKNHVDLIWDKDGTKSHTRGNTTYRWTERKSNVGVYVGYSEMYDSSAQAYCQSSSAKIDTKTTVGAPYMAAGACPNYGKVIAFTKRDGSRSDMTRWKNEIHANVMPHSTTSCASRADPGAAEVAKSIEGFAMYAGYLTHCPYNVNVYRQDMVTDKEFDSTVCNFVTESNPLRFLDTTQRQSTQPYTEYAFHGKGGHKGYDYKGQTSHVGCPPYNPPHVTKGMKDSSWITGPFECSILSRCTTHCWPYKSGGNCFRSLPAMFDMSTGECRLLGYHTQDFRSSTCAELTTDDTNAFYCVRPMKTAASSNMVYVTSHTRPDHETKCPPREPLKNVRWGVVSKGKYCKPMNARASLSNATAEQCGQRLFMLSSADGSSLSSQVRGYHWATFVATDCNMGESCAATARGKCFFYSTVPECLIHSPTTMAFTSLSAVDPSIAIDPDSIAVLPEDKCV 4z85-a1-m1-cA_4z85-a1-m2-cA Crystal structur of Pseudomonas fluorescens 2-nitrobenzoate 2-nitroreductase NbaA A4UVY1 A4UVY1 1.7 X-RAY DIFFRACTION 312 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 197 197 THIAMSGLTNMQKYWLITGSVGPRPIALVTSLNSEGLCNAAPYSAFNYMGEDPPLFVIAVDHKDTLKNIIEREQFVVNMVDERIAERMVLCGSDFISEAEAVGFDLTPSTTIDVPRITDAPIAWECKLYKIIDFSKQRSMVFGEIVAMYFREELIDEEKLRVRVDLFQPYGRLGGPNYCRTTDRVRLTVPTFLPSAG THIAMSGLTNMQKYWLITGSVGPRPIALVTSLNSEGLCNAAPYSAFNYMGEDPPLFVIAVDHKDTLKNIIEREQFVVNMVDERIAERMVLCGSDFISEAEAVGFDLTPSTTIDVPRITDAPIAWECKLYKIIDFSKQRSMVFGEIVAMYFREELIDEEKLRVRVDLFQPYGRLGGPNYCRTTDRVRLTVPTFLPSAG 4z8e-a4-m2-cC_4z8e-a4-m1-cB TEAD DBD mutant -deltaL1 P28347 P28347 2.092 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 58 4z8e-a4-m1-cA_4z8e-a4-m2-cA 4z8e-a4-m1-cC_4z8e-a4-m2-cB GVWSPDIEQSFQEALSIYPGKMYGRNELIARYIKLRTGKTRTRKQVSSHIQVLAR DAEGVWSPDIEQSFQEALSIYPGKMYGRNELIARYIKLRTGKTRTRKQVSSHIQVLAR 4z8e-a4-m2-cC_4z8e-a4-m2-cA TEAD DBD mutant -deltaL1 P28347 P28347 2.092 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 59 4z8e-a4-m1-cB_4z8e-a4-m2-cB 4z8e-a4-m1-cC_4z8e-a4-m1-cA GVWSPDIEQSFQEALSIYPGKMYGRNELIARYIKLRTGKTRTRKQVSSHIQVLAR NDAEGVWSPDIEQSFQEALSIYPGKMYGRNELIARYIKLRTGKTRTRKQVSSHIQVLAR 4z8n-a3-m1-cB_4z8n-a3-m1-cA Crystal structure of the erythrocyte-binding domain from Plasmodium vivax reticulocyte-binding protein 2a (PvRBP2a) A5JZ09 A5JZ09 2.124 X-RAY DIFFRACTION 94 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 284 298 DILRYLDFSNSSGQIISTVYPFYVQMNYFAEIKYYITYHYEAKKNYDEAYNQSVNPLMSSIQNQINSCVPKKAALEKTIFVLEYPENHNINLSNYEAKHNEYKQQLDAYKNCVQANMESYTDRMSKFNEKIYSILNSVKCTDACETDTYEIMLEIYVERVKEVNHNNYVNYLSTLKASLQLGVTLMLKVKQEIDNNVTISAINFLQEEMLDIITIGEAHTGKIIHGKENVLKPQVPLSTLKKLYFDSANFYATYKFSLKRADTTTAALKEKGKLLANLYNKLIT GSDILRYLDFSNSSGQIISTVYPFYVQMNYFAEIKYYITYHYEAKKNYDEAYNQSVNPLMSSIQNQINSCVPKKAALEKTIFVLEYPENHNINLSNYEAKHNEYKQQLDAYKNCVQANMESYTDRMSKFNEKIYSILNSVKCTDACETDTYEIMLEIYVERVKEVNHNNYVNYLSTLKASLQLGVTLMLKVKQEIDNNVTISAINFLQEEMLDIITIGEAHTGKIIHGKENVLKLQNNNIPPQVPLSTLKKLYFDSANFYATYKFSLKRADTTTAALKEKGKLLANLYNKLITYVSEK 4z8t-a1-m1-cA_4z8t-a1-m2-cA CRYSTAL STRUCTURE OF AvrRxo1-ORF1:AvrRxo1-ORF2 WITH SULPHATE IONS Q6TKR8 Q6TKR8 1.64 X-RAY DIFFRACTION 26 1.0 129394 (Xanthomonas oryzae pv. oryzicola) 129394 (Xanthomonas oryzae pv. oryzicola) 329 329 4z8q-a1-m1-cA_4z8q-a1-m2-cA 4z8u-a1-m1-cA_4z8u-a1-m2-cA 4z8v-a1-m1-cA_4z8v-a1-m2-cA QRKGTDEIYGLGSLPSAGPGRWEYLANPGNWHPERRKLHEKLLDQARSSALTLAESLESDGCQPTLFALRGNTATGKTRIATKKIPVLAAALKKTAGKGCVNPDVFKSSLAKSETGAKIFSSAQVHSESSFLADRFEGGLRSQKTGSGAIASIVVDKRLSREYEIDSYIQLAKETGRKVELCDIDAPLENSLVGVLQRKPEGEDPRPPYPVVSSGFVAVRSNRYVIDRFIADPSLGNYRLFGTAEDGEKVVASVIGGEFSVENAELYEKITSPQLSVTDLADKVIDKELIDRLENNIADPERAAKTRAALEKYSGKSWSAALAAHSELI QRKGTDEIYGLGSLPSAGPGRWEYLANPGNWHPERRKLHEKLLDQARSSALTLAESLESDGCQPTLFALRGNTATGKTRIATKKIPVLAAALKKTAGKGCVNPDVFKSSLAKSETGAKIFSSAQVHSESSFLADRFEGGLRSQKTGSGAIASIVVDKRLSREYEIDSYIQLAKETGRKVELCDIDAPLENSLVGVLQRKPEGEDPRPPYPVVSSGFVAVRSNRYVIDRFIADPSLGNYRLFGTAEDGEKVVASVIGGEFSVENAELYEKITSPQLSVTDLADKVIDKELIDRLENNIADPERAAKTRAALEKYSGKSWSAALAAHSELI 4z8t-a1-m1-cB_4z8t-a1-m2-cB CRYSTAL STRUCTURE OF AvrRxo1-ORF1:AvrRxo1-ORF2 WITH SULPHATE IONS Q6TKR9 Q6TKR9 1.64 X-RAY DIFFRACTION 58 1.0 129394 (Xanthomonas oryzae pv. oryzicola) 129394 (Xanthomonas oryzae pv. oryzicola) 95 95 4z8q-a1-m1-cB_4z8q-a1-m2-cB 4z8u-a1-m1-cB_4z8u-a1-m2-cB 4z8v-a1-m1-cB_4z8v-a1-m2-cB KTLTGADALEFHKKLKERNKALHASDLELALVHADAVGKERFDLEELEKICDTSDAGRLTDAKERNDIYERYYVEYPNVTLKEFAHIVETLFSWS KTLTGADALEFHKKLKERNKALHASDLELALVHADAVGKERFDLEELEKICDTSDAGRLTDAKERNDIYERYYVEYPNVTLKEFAHIVETLFSWS 4z9c-a1-m1-cD_4z9c-a1-m1-cE EcPltAB Oxidized 2.35 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 115 115 4z9c-a1-m1-cB_4z9c-a1-m1-cC 4z9c-a1-m1-cB_4z9c-a1-m1-cF 4z9c-a1-m1-cC_4z9c-a1-m1-cD 4z9c-a1-m1-cE_4z9c-a1-m1-cF ADYDKYFSNVQINNLSYGVYTSGGKESQFFCIGIKRDNVTLPIHNMCKVDVFGSHKQGFDAMMEMAKYYYATGESIRVYYKENVWSDSEFKKAFSTNELISLSTCSSSDYCMGPQ ADYDKYFSNVQINNLSYGVYTSGGKESQFFCIGIKRDNVTLPIHNMCKVDVFGSHKQGFDAMMEMAKYYYATGESIRVYYKENVWSDSEFKKAFSTNELISLSTCSSSDYCMGPQ 4z9d-a6-m1-cB_4z9d-a6-m1-cC EcPltA A0A0B1KWV6 A0A0B1KWV6 1.8 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 174 175 4z9d-a5-m1-cA_4z9d-a5-m1-cD PGTDFVYRVDSRPPEEIFRDGFRSHGFNRNLQQHLRGDSCAAGSRDSAFIATTTSLIETYNIARQYYSSSGFHGRLYRYRIRANNIFYPIQPSVNYLTQRGITFSGFERIMMREDNDIVAVEHIPGENIVEAVELTYDRFNSQVSDGPGTTNARYVPGSTFVNPGVIPQLVVPT GPGTDFVYRVDSRPPEEIFRDGFRSHGFNRNLQQHLRGDSCAAGSRDSAFIATTTSLIETYNIARQYYSSSGFHGRLYRYRIRANNIFYPIQPSVNYLTQRGITFSGFERIMMREDNDIVAVEHIPGENIVEAVELTYDRFNSQVSDGPGTTNARYVPGSTFVNPGVIPQLVVPT 4z9e-a2-m1-cC_4z9e-a2-m1-cD Alba from Thermoplasma volcanium Q979S5 Q979S5 2.49 X-RAY DIFFRACTION 41 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 85 85 4z9e-a1-m1-cA_4z9e-a1-m1-cB NIIFVGKKPTMNYVLAVVTQFNNNANKIIIKARGKTISKAVDVAEITRHKFIPDAKYEEIRLDTETLQGERGSSNVSSIEITLSR NIIFVGKKPTMNYVLAVVTQFNNNANKIIIKARGKTISKAVDVAEITRHKFIPDAKYEEIRLDTETLQGERGSSNVSSIEITLSR 4z9h-a1-m1-cB_4z9h-a1-m1-cA Asp-Tar from E. coli P07017 P07017 1.452 X-RAY DIFFRACTION 70 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 158 165 2asr-a1-m1-cA_2asr-a1-m2-cA 4z9i-a1-m1-cB_4z9i-a1-m1-cA 4z9j-a1-m1-cA_4z9j-a1-m1-cB LHHSQKSFVVSNQLREQQGELTSTWDLMLQTRINLSRSAVRMMMDSSNQQSNAKVELLDSARKTLAQAATHYKKFKSMAPLPEMVATSRNIDEKYKNYYTALTELIDYLDYGNTGAYFAQPTQGMQNAMGEAFAQYALSSEKLYRDIVTDNADDYRFA SLFFSSLHHSQKSFVVSNQLREQQGELTSTWDLMLQTRINLSRSAVRMMMDSSNQQSNAKVELLDSARKTLAQAATHYKKFKSMAPLPEMVATSRNIDEKYKNYYTALTELIDYLDYGNTGAYFAQPTQGMQNAMGEAFAQYALSSEKLYRDIVTDNADDYRFAQ 4z9n-a3-m1-cC_4z9n-a3-m1-cF ABC transporter / periplasmic binding protein from Brucella ovis with glutathione bound A0A0M3KL33 A0A0M3KL33 1.745 X-RAY DIFFRACTION 131 1.0 444178 (Brucella ovis ATCC 25840) 444178 (Brucella ovis ATCC 25840) 320 321 4z9n-a1-m1-cA_4z9n-a1-m1-cD 4z9n-a2-m1-cE_4z9n-a2-m1-cB ADTLSDVKAKGFLQCGVNTGLLGFASPNDKGEWSGFDVDYCRAVASAIFGDPTKVKFTPLNAKERFTALQSGEVDVLIRNTTWTISRDTSLGLDFAGINYYDGQGFMINSKKLAGINSALQLSGASICVQAGTTTELNMADYFRANKMEYNPVVFEKIEEANAAYDSGRCDAYTTDQSSLYGVRLALANPDDHVILPEIISKEPFGLTVRQGDARWADVVRWTHNALLNAEEYGITQANVEEMKKSDNPDIKRLLGAEADTKIGTDLGLDKDWVVKIIKGVGNYGEIFERNIGSGSPLKIARGLNAQWNKGGLQYGIPVR HADTLSDVKAKGFLQCGVNTGLLGFASPNDKGEWSGFDVDYCRAVASAIFGDPTKVKFTPLNAKERFTALQSGEVDVLIRNTTWTISRDTSLGLDFAGINYYDGQGFMINSKKLAGINSALQLSGASICVQAGTTTELNMADYFRANKMEYNPVVFEKIEEANAAYDSGRCDAYTTDQSSLYGVRLALANPDDHVILPEIISKEPFGLTVRQGDARWADVVRWTHNALLNAEEYGITQANVEEMKKSDNPDIKRLLGAEADTKIGTDLGLDKDWVVKIIKGVGNYGEIFERNIGSGSPLKIARGLNAQWNKGGLQYGIPVR 4z9v-a1-m1-cF_4z9v-a1-m1-cH TCTP contains a BH3-like domain, which instead of inhibiting, activates Bcl-xL P13693 P13693 2.099 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 20 21 4z9v-a1-m1-cE_4z9v-a1-m1-cG DEMFSDIYKIREIADGLCLE DEMFSDIYKIREIADGLCLEV 4z9x-a1-m1-cA_4z9x-a1-m4-cA Crystal structure of 2-keto-3-deoxy-D-gluconate dehydrogenase from Streptococcus pyogenes Q9A0T1 Q9A0T1 1.7 X-RAY DIFFRACTION 143 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 257 257 4z9x-a1-m2-cA_4z9x-a1-m3-cA NMFSLQGKIALITGASYGIGFEIAKAYAQAGATIVFNDIKQELVDKGLAAYRELGIEAHGYVCDVTDEAGIQQMVSQIEDEVGAIDILVNNAGIIRRTPMLEMAAEDFRQVIDIDLNAPFIVSKAVLPSMIAKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEFGEANIQCNGIGPGYIATPQTAPLRERRHPFDQFIIAKTPAARWGTTEDLAGPAVFLASDASNFVNGHILYVDGGILAYIGKQP NMFSLQGKIALITGASYGIGFEIAKAYAQAGATIVFNDIKQELVDKGLAAYRELGIEAHGYVCDVTDEAGIQQMVSQIEDEVGAIDILVNNAGIIRRTPMLEMAAEDFRQVIDIDLNAPFIVSKAVLPSMIAKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEFGEANIQCNGIGPGYIATPQTAPLRERRHPFDQFIIAKTPAARWGTTEDLAGPAVFLASDASNFVNGHILYVDGGILAYIGKQP 4z9x-a1-m2-cA_4z9x-a1-m4-cA Crystal structure of 2-keto-3-deoxy-D-gluconate dehydrogenase from Streptococcus pyogenes Q9A0T1 Q9A0T1 1.7 X-RAY DIFFRACTION 44 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 257 257 4z9x-a1-m1-cA_4z9x-a1-m3-cA NMFSLQGKIALITGASYGIGFEIAKAYAQAGATIVFNDIKQELVDKGLAAYRELGIEAHGYVCDVTDEAGIQQMVSQIEDEVGAIDILVNNAGIIRRTPMLEMAAEDFRQVIDIDLNAPFIVSKAVLPSMIAKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEFGEANIQCNGIGPGYIATPQTAPLRERRHPFDQFIIAKTPAARWGTTEDLAGPAVFLASDASNFVNGHILYVDGGILAYIGKQP NMFSLQGKIALITGASYGIGFEIAKAYAQAGATIVFNDIKQELVDKGLAAYRELGIEAHGYVCDVTDEAGIQQMVSQIEDEVGAIDILVNNAGIIRRTPMLEMAAEDFRQVIDIDLNAPFIVSKAVLPSMIAKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEFGEANIQCNGIGPGYIATPQTAPLRERRHPFDQFIIAKTPAARWGTTEDLAGPAVFLASDASNFVNGHILYVDGGILAYIGKQP 4z9x-a1-m3-cA_4z9x-a1-m4-cA Crystal structure of 2-keto-3-deoxy-D-gluconate dehydrogenase from Streptococcus pyogenes Q9A0T1 Q9A0T1 1.7 X-RAY DIFFRACTION 143 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 257 257 4z9x-a1-m1-cA_4z9x-a1-m2-cA NMFSLQGKIALITGASYGIGFEIAKAYAQAGATIVFNDIKQELVDKGLAAYRELGIEAHGYVCDVTDEAGIQQMVSQIEDEVGAIDILVNNAGIIRRTPMLEMAAEDFRQVIDIDLNAPFIVSKAVLPSMIAKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEFGEANIQCNGIGPGYIATPQTAPLRERRHPFDQFIIAKTPAARWGTTEDLAGPAVFLASDASNFVNGHILYVDGGILAYIGKQP NMFSLQGKIALITGASYGIGFEIAKAYAQAGATIVFNDIKQELVDKGLAAYRELGIEAHGYVCDVTDEAGIQQMVSQIEDEVGAIDILVNNAGIIRRTPMLEMAAEDFRQVIDIDLNAPFIVSKAVLPSMIAKGHGKIINICSMMSELGRETVSAYAAAKGGLKMLTKNIASEFGEANIQCNGIGPGYIATPQTAPLRERRHPFDQFIIAKTPAARWGTTEDLAGPAVFLASDASNFVNGHILYVDGGILAYIGKQP 4za1-a1-m1-cB_4za1-a1-m1-cC Crystal Structure of NosA Involved in Nosiheptide Biosynthesis C6FX40 C6FX40 2.5 X-RAY DIFFRACTION 57 0.989 1885 (Streptomyces actuosus) 1885 (Streptomyces actuosus) 90 92 QLYCTVVLWDLSRSAATVASLRAYLRDHVPGLRQKTWISSTGPEGEQWGAVYLWDSPEAAYGRPPGVSKVVELIGYRPTERRYYSVEAAT AQQLYCTVVLWDLSRSAATVASLRAYLRDHTVPGLRQKTWISSTGPEGEQWGAVYLWDSPEAAYGRPPGVSKVVELIGYRPTERRYYSVEAA 4za1-a1-m1-cC_4za1-a1-m1-cA Crystal Structure of NosA Involved in Nosiheptide Biosynthesis C6FX40 C6FX40 2.5 X-RAY DIFFRACTION 24 0.989 1885 (Streptomyces actuosus) 1885 (Streptomyces actuosus) 92 99 AQQLYCTVVLWDLSRSAATVASLRAYLRDHTVPGLRQKTWISSTGPEGEQWGAVYLWDSPEAAYGRPPGVSKVVELIGYRPTERRYYSVEAA QQLYCTVVLWDLSRSAATVASLRAYLRDHAVDAYTTVPGLRQKTWISSTGPEGEQWGAVYLWDSPEAAYGRPPGVSKVVELIGYRPTERRYYSVEAATE 4zad-a1-m1-cB_4zad-a1-m1-cA Structure of C. dubliensis Fdc1 with the prenylated-flavin cofactor in the iminium form. B9WJ66 B9WJ66 2.46 X-RAY DIFFRACTION 247 1.0 42374 (Candida dubliniensis) 42374 (Candida dubliniensis) 510 511 LNPALKFRDFIQVLKNEGDLIEIDTEVDPNLEVGAITRKAYENKLAAPLFNNLKQDPENIDPKNLFRILGCPGGLRGFGNDHARIALHLGLDSQTPMKEIIDFLVANRNPKKYIPPVLVPNDQSPHKKHHLTKEQIDLTKLPVPLLHHGDGGKFIQTYGMWVLQTPDKSWTNWSIARGMVHDSKSITGLVINPQHVKQVSDAWVAAGKGDKIPFALCFGVPPAAILVSSMPIPDGATEAEYIGGLCNQAVPVVKCETNDLEVPADCEMVFEGYLDRDTLVREGPFGEMHGYCFPKDHHTQPLYRVNHISYRDQAIMPISNPGLCTDETHTLIGGLVSAETKYLISQHPVLSKIVEDVFTPYEAQALWLAVKINTHELVKLKTNAKELSNLVGDFLFRSKECYKVCSILHEIILVGDDIDIFDFKQLIWAYTTRHTPVQDQLYFDDVKPFALAPFASQGPLIKTRQGGKCVTTCIFPKQFTDPDFEFVTCNFNGYPEEVNKISQNWDKYYK LNPALKFRDFIQVLKNEGDLIEIDTEVDPNLEVGAITRKAYENKLAAPLFNNLKQDPENIDPKNLFRILGCPGGLRGFGNDHARIALHLGLDSQTPMKEIIDFLVANRNPKKYIPPVLVPNDQSPHKKHHLTKEQIDLTKLPVPLLHHGDGGKFIQTYGMWVLQTPDKSWTNWSIARGMVHDSKSITGLVINPQHVKQVSDAWVAAGKGDKIPFALCFGVPPAAILVSSMPIPDGATEAEYIGGLCNQAVPVVKCETNDLEVPADCEMVFEGYLDRDTLVREGPFGEMHGYCFPKDHHTQPLYRVNHISYRDQAIMPISNPGLCTDETHTLIGGLVSAETKYLISQHPVLSKIVEDVFTPYEAQALWLAVKINTHELVKLKTNAKELSNLVGDFLFRSKECYKVCSILHEIILVGDDIDIFDFKQLIWAYTTRHTPVQDQLYFDDVKPFALAPFASQGPLIKTRQGGKCVTTCIFPKQFTDPDFEFVTCNFNGYPEEVKNKISQNWDKYYK 4zah-a4-m1-cG_4zah-a4-m1-cH Crystal structure of sugar aminotransferase WecE with External Aldimine VII from Escherichia coli K-12 P27833 P27833 2.24 X-RAY DIFFRACTION 187 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 367 368 4piw-a1-m1-cA_4piw-a1-m1-cB 4piw-a2-m1-cD_4piw-a2-m1-cC 4piw-a3-m1-cF_4piw-a3-m1-cE 4piw-a4-m1-cG_4piw-a4-m1-cH 4zah-a1-m1-cA_4zah-a1-m1-cB 4zah-a2-m1-cC_4zah-a2-m1-cD 4zah-a3-m1-cE_4zah-a3-m1-cF HMIPFNAPPVVGTELDYMQSAMGSGKLCGDGGFTRRCQQWLEQRFGSAKVLLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDVRPDTMNIDETLIEAAITDKTRVIVPVHYAGVACEMDTIMALAKKHNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETKNYTAGGEGGATLINDKALIERAEIIREKGTNRYTWRDIGSSYLMSDLQAAYLWAQLEAADRINQQRLALWQNYYDALAPLAKAGRIELPSIPDGCVQNAHMFYIKLRDIDDRSALINFLKEAEIMAVFHYIPLHGCPAGEHFGEFHGEDRYTTKESERLLRLPLFYNLSPVNQRTVIATLLNYFS HMIPFNAPPVVGTELDYMQSAMGSGKLCGDGGFTRRCQQWLEQRFGSAKVLLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDVRPDTMNIDETLIEAAITDKTRVIVPVHYAGVACEMDTIMALAKKHNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETKNYTAGGEGGATLINDKALIERAEIIREKGTNRSYTWRDIGSSYLMSDLQAAYLWAQLEAADRINQQRLALWQNYYDALAPLAKAGRIELPSIPDGCVQNAHMFYIKLRDIDDRSALINFLKEAEIMAVFHYIPLHGCPAGEHFGEFHGEDRYTTKESERLLRLPLFYNLSPVNQRTVIATLLNYFS 4zas-a3-m1-cE_4zas-a3-m1-cF Crystal structure of sugar aminotransferase CalS13 from Micromonospora echinospora Q8KND8 Q8KND8 2.47 X-RAY DIFFRACTION 188 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 368 368 4zas-a1-m1-cA_4zas-a1-m1-cB 4zas-a2-m1-cC_4zas-a2-m1-cD MIPLSKVAMSPDVSTRVSAVLSSGRLEHGPTVAEYEAAVGSRIGNPRVVSVNCGTAGLHLALSLAARPGAPGEVLTTPLTFEGTNWPILANGLRIRWVDVDPATLNMDLDDLAAKISPATRAIVVVHWLGYPVDLNRLRAVVDRATAGYDRRPLVVEDCAQAWGATYRGAPLGTHGNVCVYSTGAIILTTGSGGFVVLPDDDLYDRLRLRRWLGIERASDRITGDYDVAEWGYRFILNEIGGAIGLSNLERVDELLRRHRENAAFYDKELAGIDGVEQTERADDREPAFWMYPLKVRDRPAFMRRLLDAGIATSVVSRRNDAHSCVASARTTLPGLDRVADRVVHIPVGWWLTEDDRSHVVETIKSGW MIPLSKVAMSPDVSTRVSAVLSSGRLEHGPTVAEYEAAVGSRIGNPRVVSVNCGTAGLHLALSLAARPGAPGEVLTTPLTFEGTNWPILANGLRIRWVDVDPATLNMDLDDLAAKISPATRAIVVVHWLGYPVDLNRLRAVVDRATAGYDRRPLVVEDCAQAWGATYRGAPLGTHGNVCVYSTGAIILTTGSGGFVVLPDDDLYDRLRLRRWLGIERASDRITGDYDVAEWGYRFILNEIGGAIGLSNLERVDELLRRHRENAAFYDKELAGIDGVEQTERADDREPAFWMYPLKVRDRPAFMRRLLDAGIATSVVSRRNDAHSCVASARTTLPGLDRVADRVVHIPVGWWLTEDDRSHVVETIKSGW 4zb1-a1-m1-cA_4zb1-a1-m1-cB Crystal Structure of Blue Chromoprotein sgBP from Stichodactyla Gigantea A0A0M3KL34 A0A0M3KL34 2.25 X-RAY DIFFRACTION 91 1.0 230562 (Stichodactyla gigantea) 230562 (Stichodactyla gigantea) 226 226 AIPENVRIKAFMEGAINNHHFKCEAEGEGKPYEGTQLERIRVTEGGPLPFSFDILSPHFSVAITKYLSGIPDYFKQSFPEGFSWERTTMYEDGGYVTAHQDTSLDGNCLVYKIKVIGSNLPANGPVMQNKTRGWEPCTEMRYVRGGVLCGQSLMALKCADGNHLTCQLRTTYRSKKPAKKLQMPAFHFSDHRPEILKVSENGNLMEQYEMSVGRYCESVPSKLGHN AIPENVRIKAFMEGAINNHHFKCEAEGEGKPYEGTQLERIRVTEGGPLPFSFDILSPHFSVAITKYLSGIPDYFKQSFPEGFSWERTTMYEDGGYVTAHQDTSLDGNCLVYKIKVIGSNLPANGPVMQNKTRGWEPCTEMRYVRGGVLCGQSLMALKCADGNHLTCQLRTTYRSKKPAKKLQMPAFHFSDHRPEILKVSENGNLMEQYEMSVGRYCESVPSKLGHN 4zb3-a1-m1-cA_4zb3-a1-m2-cA Crystal structure of the apo AtNUDT7 Q9SU14 Q9SU14 2.3 X-RAY DIFFRACTION 269 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 262 262 QIPLLEGETDNYDGVTVTMVEPMDSEVFTESLRASLSHWREEGKKGIWIKLPLGLANLVEAAVSEGFRYHHAEPEYLMLVSWISETPDTIPANASHVVGAGALVINKNTKEVLVVQERSGFFKDKNVWKLPTGVINEGEDIWTGVAREVEEETGIIADFVEVLAFRQSHKAILKKKTDMFFLCVLSPRSYDITEQKSEILQAKWMPIQEYVDQPWNKKNEMFKFMANICQKKCEEEYLGFAIVPTTTSSGKESFIYCNADHA QIPLLEGETDNYDGVTVTMVEPMDSEVFTESLRASLSHWREEGKKGIWIKLPLGLANLVEAAVSEGFRYHHAEPEYLMLVSWISETPDTIPANASHVVGAGALVINKNTKEVLVVQERSGFFKDKNVWKLPTGVINEGEDIWTGVAREVEEETGIIADFVEVLAFRQSHKAILKKKTDMFFLCVLSPRSYDITEQKSEILQAKWMPIQEYVDQPWNKKNEMFKFMANICQKKCEEEYLGFAIVPTTTSSGKESFIYCNADHA 4zb6-a2-m1-cC_4zb6-a2-m1-cD Crystal structure of glutathione transferase URE2P4 from Phanerochaete chrysosporium in complex with oxidized glutathione. A0A0R4I980 A0A0R4I980 1.801 X-RAY DIFFRACTION 102 1.0 217 220 4zb6-a1-m1-cB_4zb6-a1-m1-cA GKQFTLYTHNSGPNGWKVAIVLEELGLSYEPVFLDLMKGEHKAPEYLKINPNGRVPALIDHKNNNYTVWESNAVTQYLVDKYDNDRKISVAPGTNEYYTQLQWLYFQASGQGPYYGQAAWFSVYHPEKIPSAIERYRNEIKRVLGVLESTLSKQEWLVGNKATVADFSFLTWNDIAANLLLENFRFEEEFPATAKWNKKLLERPAIAKVWEEKAKAA HGKQFTLYTHNSGPNGWKVAIVLEELGLSYEPVFLDLMKGEHKAPEYLKINPNGRVPALIDHKNNNYTVWESNAVTQYLVDKYDNDRKISVAPGTNEYYTQLQWLYFQASGQGPYYGQAAWFSVYHPEKIPSAIERYRNEIKRVLGVLESTLSKQEWLVGNKATVADFSFLTWNDIAANLLLENFRFEEEFPATAKWNKKLLERPAIAKVWEEKAKAAAH 4zb7-a2-m1-cC_4zb7-a2-m1-cD Phanerochaete chrysosporium URE2P6 in apo form. A0A0R4I981 A0A0R4I981 2.4 X-RAY DIFFRACTION 65 0.987 149 154 4zb7-a1-m1-cB_4zb7-a1-m1-cA GKQFTLYTHKGGPNGWKVTIVLEELGLTYESIFLIPALIDHKNNDYTVWESNAIIQYLVDKYDKDRKVSVAPGTNEYYTQLQWLYFQASGNEIKRVLGVLESVLSKQEFLVDGKATVADFSFLPWEEEFPATAKWHKKLLERPAIAKVW GKQFTLYTHKGGPNGWKVTIVLEELGLTYESIFPNGRIPALIDHKNNDYTVWESNAIIQYLVDKYDKDRKVSVAPGTNEYYTQLQWLYFQASNEIKRVLGVLESVLSKQEFLVDGKATVADFSFLPWNEGEEEFPATAKWHKKLLERPAIAKVW 4zbb-a2-m1-cD_4zbb-a2-m1-cC Crystal structure of the glutathione transferase URE2P8 from Phanerochaete chrysosporium complexed with glutathionyl-S-dinitrobenzene. A0A0R4I985 A0A0R4I985 1.8 X-RAY DIFFRACTION 95 1.0 220 221 4zb9-a1-m1-cA_4zb9-a1-m1-cB 4zb9-a2-m1-cC_4zb9-a2-m1-cD 4zba-a1-m1-cB_4zba-a1-m1-cA 4zba-a2-m1-cD_4zba-a2-m1-cC 4zbb-a1-m1-cA_4zbb-a1-m1-cB SHDKQFSLFLHKASAHGWKVAFVLEELSLSYEIVLVDVAKNEQKSPEFMKLNPNGRTPALIDHGNSDFVIWESNAMVQYVADKYDTERKISMAPGTDDFYIQLQWQYFQGTGQGPYFGQLVWFTLYHEEKIPSAVTRYKEEALRVFSVLERVLSNQEWLVGGKMTIADISFVSWNDMIVHFLDNFDFEKEFPATAAWHYKMLKRPTIKRPWDERRKLMSR SHDKQFSLFLHKASAHGWKVAFVLEELSLSYEIVLVDVAKNEQKSPEFMKLNPNGRTPALIDHGNSDFVIWESNAMVQYVADKYDTERKISMAPGTDDFYIQLQWQYFQGTGQGPYFGQLVWFTLYHEEKIPSAVTRYKEEALRVFSVLERVLSNQEWLVGGKMTIADISFVSWNDMIVHFLDNFDFEKEFPATAAWHYKMLKRPTIKRPWDERRKLMSRQ 4zbd-a1-m1-cA_4zbd-a1-m1-cB Crystal structure of the glutathione transferase URE2P6 from Phanerochaete chrysosporium in complex with glutathione reduced by X-ray irradiation at 100K A0A0R4I981 A0A0R4I981 1.12 X-RAY DIFFRACTION 110 1.0 219 219 4zb8-a1-m1-cA_4zb8-a1-m2-cA SHGKQFTLYTHKGGPNGWKVTIVLEELGLTYESIFLDFQKGEHKAPEYLKVNPNGRIPALIDHKNNDYTVWESNAIIQYLVDKYDKDRKVSVAPGTNEYYTQLQWLYFQASGQGPYYGQAAWFSVYHPEKVPSAIERYRNEIKRVLGVLESVLSKQEFLVDGKATVADFSFLPWNEGAAKFLLEGSQFEEEFPATAKWHKKLLERPAIAKVWEERAKVS SHGKQFTLYTHKGGPNGWKVTIVLEELGLTYESIFLDFQKGEHKAPEYLKVNPNGRIPALIDHKNNDYTVWESNAIIQYLVDKYDKDRKVSVAPGTNEYYTQLQWLYFQASGQGPYYGQAAWFSVYHPEKVPSAIERYRNEIKRVLGVLESVLSKQEFLVDGKATVADFSFLPWNEGAAKFLLEGSQFEEEFPATAKWHKKLLERPAIAKVWEERAKVS 4zbh-a1-m1-cA_4zbh-a1-m2-cA THE CRYSTAL STRUCTURE OF THE SOLUBLE DOMAIN OF SULFOLOBUS ACIDOCALDARIUS FLAF Q4J9K8 Q4J9K8 1.5 X-RAY DIFFRACTION 38 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 119 119 4p94-a1-m1-cA_4p94-a1-m1-cB LEQLETKITVSSVSLTGSTLNVVLENNGSTNLYDFQGFSVIVQYYANISNISTFNLSLYNYTKNSNPSPYYWTINTPLLAPGSQATLTIILPYPPYPNTQATVVIVTNYGPSVIWRGSL LEQLETKITVSSVSLTGSTLNVVLENNGSTNLYDFQGFSVIVQYYANISNISTFNLSLYNYTKNSNPSPYYWTINTPLLAPGSQATLTIILPYPPYPNTQATVVIVTNYGPSVIWRGSL 4zbp-a2-m1-cC_4zbp-a2-m2-cC Crystal structure of the AMPCPR-bound AtNUDT7 Q9SU14 Q9SU14 2.6 X-RAY DIFFRACTION 244 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 262 262 4zbp-a1-m1-cA_4zbp-a1-m1-cB QQIPLLEGETDNYDGVTVTMVEPMDSEVFTESLRASLSHWREEGKKGIWIKLPLGLANLVEAAVSEGFRYHHAEPEYLMLVSWISETPDTIPANASHVVGAGALVINKNTKEVLVVWKLPTGVINEGEDIWTGVAREVEEETGIIADFVEVLAFRQSHKAILKKKTDMFFLCVLSPRSYDITEQKSEILQAKWMPIQEYVDQPWNKKNEMFKFMANICQKKCEEEYLGFAIVPTTTSSGKESFIYCNADHAKRLKVSRDQAS QQIPLLEGETDNYDGVTVTMVEPMDSEVFTESLRASLSHWREEGKKGIWIKLPLGLANLVEAAVSEGFRYHHAEPEYLMLVSWISETPDTIPANASHVVGAGALVINKNTKEVLVVWKLPTGVINEGEDIWTGVAREVEEETGIIADFVEVLAFRQSHKAILKKKTDMFFLCVLSPRSYDITEQKSEILQAKWMPIQEYVDQPWNKKNEMFKFMANICQKKCEEEYLGFAIVPTTTSSGKESFIYCNADHAKRLKVSRDQAS 4zc4-a2-m1-cC_4zc4-a2-m1-cB Crystal structure of LARP1-unique domain DM15 Q6PKG0 Q6PKG0 1.86 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 145 151 4zc4-a1-m1-cD_4zc4-a1-m1-cA 5v4r-a3-m1-cA_5v4r-a3-m1-cB HPSHELLKENGFTQHVYHKYRRRCLNERKRLGIGQSQEMNTLFRFWSFFLRDHFNKKMYEEFKQLALEDAKEGYRYGLECLFRYYSYGLEKKFRLDIFKDFQEETVKDYEAGQLYGLEKFWAFLKYSKAKNLDIDPKLQEYLGKF QHPSHELLKENGFTQHVYHKYRRRCLNERKRLGIGQSQEMNTLFRFWSFFLRDHFNKKMYEEFKQLALEDAKEGYRYGLECLFRYYSYGLEKKFRLDIFKDFQEETVKDYEAGQLYGLEKFWAFLKYSKAKNLDIDPKLQEYLGKFRRLED 4zcc-a2-m1-cB_4zcc-a2-m1-cC Renalase in complex with NADH Q48MT7 Q48MT7 1.997 X-RAY DIFFRACTION 92 0.987 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 319 321 3kkj-a1-m1-cA_3kkj-a1-m1-cB 4zcc-a1-m1-cA_4zcc-a1-m1-cD 4zcd-a1-m1-cA_4zcd-a1-m1-cB 5krq-a1-m1-cB_5krq-a1-m1-cA VPIAIIGTGIAGLSAAQALTSAGHQVHLFDKSRGSGGRMSSKLDMGAQYFTARDRRFATAVKQWQAQGHVSEWTPLLYNFHGGRLSPSPDEQVRWVGEPGMSAITRAMRGDLPVSFSCRITDVFRGEQHWNLLDAESENHGPFSHVIIATPAPQATALLAAAPKLASVVAGVKMDPTWAVALAFETPLQTPMQGCFVQDSPLDWLARNRSKPGRDDTLDSWVLHATSQWSRQNLDASREQVIEHLHGAFAELIDCAMPAPVFSLAHRWLYARPAGSHEWGALSDADLGIYVCGDWCLSGRVEGAWLSGQEAARRLLEHL VPIAIIGTGIAGLSAAQALTSAGHQVHLFDKSRGSGGRMSSKRSSLDMGAQYFTARDRRFATAVKQWQAQGHVSEWTPLLYNFHGGRLSPSPDEQVRWVGEPGMSAITRAMRGDLPVSFSCRITDVFRGEQHWNLLDAESENHGPFSHVIIATPAPQATALLAAAPKLASVVAGVKMDPTWAVALAFETPLQTPMQGCFVQDSPLDWLARNRSKPGLDSWVLHATSQWSRQNLDASREQVIEHLHGAFAELIDCAMPAPVFSLAHRWLYARPAGSHEWGALSDADLGIYVCGDWCLSGRVEGAWLSGQEAARRLLEHLQLE 4zce-a1-m1-cA_4zce-a1-m1-cB Crystal Structure of the dust mite allergen Der p 23 from Dermatophagoides pteronyssinus L7N6F8 L7N6F8 1.55 X-RAY DIFFRACTION 30 1.0 6956 (Dermatophagoides pteronyssinus) 6956 (Dermatophagoides pteronyssinus) 48 48 TKFECPSRFGYFADPKDPHKFYICSNWEAVHKDCPGNTRWNEDEETCT TKFECPSRFGYFADPKDPHKFYICSNWEAVHKDCPGNTRWNEDEETCT 4zda-a1-m1-cA_4zda-a1-m1-cF Crystal structure of isocitrate dehydrogenase in complex with isocitrate and Mn from M. smegmatis A0QSZ3 A0QSZ3 2.8 X-RAY DIFFRACTION 10 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 735 735 4zda-a1-m1-cB_4zda-a1-m1-cD 4zda-a1-m1-cC_4zda-a1-m1-cE PTIIYTLTDEAPLLATYAFLPVVRKFAEAAGIDVKTSDISVAARILAEFGDHLTEEQRVPDNLGELGALTQDPSANIIKLPNISASVPQLLAAIKELQGKGYNVPDYPANPKTDDEKKIKDRYAKILGSAVNPVLREGNSDRRAPKAVKEYARKHPHSMGEWSQASRTHVATMKTGDFYHGEKSMTLDRDRRVKMVLKTKSGEEIVLKPEVKLDAGDIIDSMYMSKKALIAFYEEQIEDAYKTGVMFSLHVKATMMKVSHPIVFGHAVKVFYKDAFAKHEKLFDELGVNVNNGLSDLYDKIEALPASQREEIIEDLHKCHEHRPELAMVDSAKGISNFHSPSDVIVDASMPAMIRLGGKMYGADGRTKDTKAVNPESTFSRMYQEMINFCKTHGQFDPTTMGTVPNVGLMAQKAEEYGSHDKTFEIPEDGVADIVDIDTGEVLLTQNVEEGDIWRMPIVKDAPIRDWVKLAVTRARLSGMPVVFWLDTERPHEVELRKKVKEYLKDHDTEGLKIQIMPQVWAMRYTLERVVRGKDTIAATGNILRDYLTDLFPILELGTSAKMLSIVPLMAGGGLYETGAGGSAPKHVHQLVEENHLRWDSLGEFLALGASLEDMGNKTGNEKAKVLAKALDTATGKLLEENKSPSRRTGELDNRGSQFYLSLFWAQALAEQTEDAELAERFKPLAKALAEQEEAIVSELNSVQGKTVDIGGYYYPDPEKTSEVMRPSKTFNTTL PTIIYTLTDEAPLLATYAFLPVVRKFAEAAGIDVKTSDISVAARILAEFGDHLTEEQRVPDNLGELGALTQDPSANIIKLPNISASVPQLLAAIKELQGKGYNVPDYPANPKTDDEKKIKDRYAKILGSAVNPVLREGNSDRRAPKAVKEYARKHPHSMGEWSQASRTHVATMKTGDFYHGEKSMTLDRDRRVKMVLKTKSGEEIVLKPEVKLDAGDIIDSMYMSKKALIAFYEEQIEDAYKTGVMFSLHVKATMMKVSHPIVFGHAVKVFYKDAFAKHEKLFDELGVNVNNGLSDLYDKIEALPASQREEIIEDLHKCHEHRPELAMVDSAKGISNFHSPSDVIVDASMPAMIRLGGKMYGADGRTKDTKAVNPESTFSRMYQEMINFCKTHGQFDPTTMGTVPNVGLMAQKAEEYGSHDKTFEIPEDGVADIVDIDTGEVLLTQNVEEGDIWRMPIVKDAPIRDWVKLAVTRARLSGMPVVFWLDTERPHEVELRKKVKEYLKDHDTEGLKIQIMPQVWAMRYTLERVVRGKDTIAATGNILRDYLTDLFPILELGTSAKMLSIVPLMAGGGLYETGAGGSAPKHVHQLVEENHLRWDSLGEFLALGASLEDMGNKTGNEKAKVLAKALDTATGKLLEENKSPSRRTGELDNRGSQFYLSLFWAQALAEQTEDAELAERFKPLAKALAEQEEAIVSELNSVQGKTVDIGGYYYPDPEKTSEVMRPSKTFNTTL 4zda-a1-m1-cE_4zda-a1-m1-cF Crystal structure of isocitrate dehydrogenase in complex with isocitrate and Mn from M. smegmatis A0QSZ3 A0QSZ3 2.8 X-RAY DIFFRACTION 49 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 735 735 4zda-a1-m1-cA_4zda-a1-m1-cD 4zda-a1-m1-cB_4zda-a1-m1-cC PTIIYTLTDEAPLLATYAFLPVVRKFAEAAGIDVKTSDISVAARILAEFGDHLTEEQRVPDNLGELGALTQDPSANIIKLPNISASVPQLLAAIKELQGKGYNVPDYPANPKTDDEKKIKDRYAKILGSAVNPVLREGNSDRRAPKAVKEYARKHPHSMGEWSQASRTHVATMKTGDFYHGEKSMTLDRDRRVKMVLKTKSGEEIVLKPEVKLDAGDIIDSMYMSKKALIAFYEEQIEDAYKTGVMFSLHVKATMMKVSHPIVFGHAVKVFYKDAFAKHEKLFDELGVNVNNGLSDLYDKIEALPASQREEIIEDLHKCHEHRPELAMVDSAKGISNFHSPSDVIVDASMPAMIRLGGKMYGADGRTKDTKAVNPESTFSRMYQEMINFCKTHGQFDPTTMGTVPNVGLMAQKAEEYGSHDKTFEIPEDGVADIVDIDTGEVLLTQNVEEGDIWRMPIVKDAPIRDWVKLAVTRARLSGMPVVFWLDTERPHEVELRKKVKEYLKDHDTEGLKIQIMPQVWAMRYTLERVVRGKDTIAATGNILRDYLTDLFPILELGTSAKMLSIVPLMAGGGLYETGAGGSAPKHVHQLVEENHLRWDSLGEFLALGASLEDMGNKTGNEKAKVLAKALDTATGKLLEENKSPSRRTGELDNRGSQFYLSLFWAQALAEQTEDAELAERFKPLAKALAEQEEAIVSELNSVQGKTVDIGGYYYPDPEKTSEVMRPSKTFNTTL PTIIYTLTDEAPLLATYAFLPVVRKFAEAAGIDVKTSDISVAARILAEFGDHLTEEQRVPDNLGELGALTQDPSANIIKLPNISASVPQLLAAIKELQGKGYNVPDYPANPKTDDEKKIKDRYAKILGSAVNPVLREGNSDRRAPKAVKEYARKHPHSMGEWSQASRTHVATMKTGDFYHGEKSMTLDRDRRVKMVLKTKSGEEIVLKPEVKLDAGDIIDSMYMSKKALIAFYEEQIEDAYKTGVMFSLHVKATMMKVSHPIVFGHAVKVFYKDAFAKHEKLFDELGVNVNNGLSDLYDKIEALPASQREEIIEDLHKCHEHRPELAMVDSAKGISNFHSPSDVIVDASMPAMIRLGGKMYGADGRTKDTKAVNPESTFSRMYQEMINFCKTHGQFDPTTMGTVPNVGLMAQKAEEYGSHDKTFEIPEDGVADIVDIDTGEVLLTQNVEEGDIWRMPIVKDAPIRDWVKLAVTRARLSGMPVVFWLDTERPHEVELRKKVKEYLKDHDTEGLKIQIMPQVWAMRYTLERVVRGKDTIAATGNILRDYLTDLFPILELGTSAKMLSIVPLMAGGGLYETGAGGSAPKHVHQLVEENHLRWDSLGEFLALGASLEDMGNKTGNEKAKVLAKALDTATGKLLEENKSPSRRTGELDNRGSQFYLSLFWAQALAEQTEDAELAERFKPLAKALAEQEEAIVSELNSVQGKTVDIGGYYYPDPEKTSEVMRPSKTFNTTL 4zdm-a1-m1-cA_4zdm-a1-m2-cA Pleurobrachia bachei iGluR3 LBD Glycine Complex H6S0J1 H6S0J1 1.5 X-RAY DIFFRACTION 18 1.0 34499 (Pleurobrachia bachei) 34499 (Pleurobrachia bachei) 249 249 SNNLNGMHLRLGIIPEMPFISEPSLGCTNIRDPSCYTGVNVEIVSMMSQDLNFTYNFITPEDLKFGGKEWNGLIRDLLDNKTDMIVVALSNNAVRKADIDFSLSMMDGGLGALVKSDGTDLSHPLELLNQDKYQWGVVDSRNPELLLASNQNADYNRIAEDAVKVGSYGEGLERMRAGGFVFIDEIPGINYATKGECDIVQIGETFQPFELAFGLRKNSPFKNLVDTFMLGIREQGVISELYAKYENQK SNNLNGMHLRLGIIPEMPFISEPSLGCTNIRDPSCYTGVNVEIVSMMSQDLNFTYNFITPEDLKFGGKEWNGLIRDLLDNKTDMIVVALSNNAVRKADIDFSLSMMDGGLGALVKSDGTDLSHPLELLNQDKYQWGVVDSRNPELLLASNQNADYNRIAEDAVKVGSYGEGLERMRAGGFVFIDEIPGINYATKGECDIVQIGETFQPFELAFGLRKNSPFKNLVDTFMLGIREQGVISELYAKYENQK 4zdn-a1-m1-cA_4zdn-a1-m2-cA Streptomyces platensis isomigrastatin ketosynthase domain MgsF KS4 D0U2E4 D0U2E4 2.509 X-RAY DIFFRACTION 146 1.0 684832 (Streptomyces platensis subsp. rosaceus) 684832 (Streptomyces platensis subsp. rosaceus) 583 583 ADEPIALIGLSGRYPDAPTLEAFWENLRAGRESVREVPAERWPLDAFYEPDPQRAVQQGASYSKWGAFLDDFARFDAAFFGIAPRDAADDPQERLFVESAWSVLEDAGYTRQRLAEQHASSVGVFAGITKTGFDRHRPPAPPAPRTSFGSLANRVSYLLDLHGPSPIDTCSSSLTAIHEACEHLRHGACELAIAGGVNLYLHPSSYVELCRSRLATDGHCRSFGAGGDGFLPGEGVGAVLLKPLSAAEADGDPIHAVIVGSAINHGGRTNGYTVPNPRAQAALIRDALDRAGVSAAGIGYIEAHGTGTRLGDPVEIDGLTQAFAPDGACALGSVKSNIGHLEAAAGIAGLTKAVLQLQHGEFAPTLHAEQTNPDIDFAATPFTLQTGGAPWPRPADGGPRRAGISSFGAGGANAHVIVAEYRSATPAPATPAPSARPVLLPLSARTTEDLHARAGQLSDLLRNGAPVDLPAVAATLQTGREEAERVCFVASTPGEWLDQLGAFLADEVPWSRGRVRATRETLAALAEKDELRALVTRWINRGDWHDLAAFWAKGPLDWTRLHTPARVHLPAYPFAGRQFWFGP ADEPIALIGLSGRYPDAPTLEAFWENLRAGRESVREVPAERWPLDAFYEPDPQRAVQQGASYSKWGAFLDDFARFDAAFFGIAPRDAADDPQERLFVESAWSVLEDAGYTRQRLAEQHASSVGVFAGITKTGFDRHRPPAPPAPRTSFGSLANRVSYLLDLHGPSPIDTCSSSLTAIHEACEHLRHGACELAIAGGVNLYLHPSSYVELCRSRLATDGHCRSFGAGGDGFLPGEGVGAVLLKPLSAAEADGDPIHAVIVGSAINHGGRTNGYTVPNPRAQAALIRDALDRAGVSAAGIGYIEAHGTGTRLGDPVEIDGLTQAFAPDGACALGSVKSNIGHLEAAAGIAGLTKAVLQLQHGEFAPTLHAEQTNPDIDFAATPFTLQTGGAPWPRPADGGPRRAGISSFGAGGANAHVIVAEYRSATPAPATPAPSARPVLLPLSARTTEDLHARAGQLSDLLRNGAPVDLPAVAATLQTGREEAERVCFVASTPGEWLDQLGAFLADEVPWSRGRVRATRETLAALAEKDELRALVTRWINRGDWHDLAAFWAKGPLDWTRLHTPARVHLPAYPFAGRQFWFGP 4zdq-a5-m1-cB_4zdq-a5-m1-cA Crystal Structure of 2-C-methyl-D-erythritol 4-phosphate cytidylyltransferase (IspD) from Burkholderia thailandensis complexed with CTP Q2SWT6 Q2SWT6 2.3 X-RAY DIFFRACTION 150 0.987 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 224 230 4ys8-a5-m1-cB_4ys8-a5-m1-cA 4ys8-a6-m1-cD_4ys8-a6-m1-cC 4zdq-a6-m1-cD_4zdq-a6-m1-cC MVTSRLFALIPCALPKQYRTLAGRALLHYTLAAFDACSEFAQTLVVISPDDAHFDARRFAGLRFAVRRCGGASRQASVMNGLIQLAEFGATDADWVLVHDAARPGITPALIRTLIGALKDDPVGGIVALPVADTLKRVPAGGDAIERTESRNGLWQAQTPQMFRIGMLRDAIQRAQLEGRDLTDEASAIEWAGHTPRVVQGSLRNFKVTYPEDFDLAEAILAHP TSRLFALIPCAGTGSRSGSALPKQYRTLAGRALLHYTLAAFDACSEFAQTLVVISPDDAHFDARRFAGLRFAVRRCGGASRQASVMNGLIQLAEFGATDADWVLVHDAARPGITPALIRTLIGALKDDPVGGIVALPVADTLKRVPAGGDAIERTESRNGLWQAQTPQMFRIGMLRDAIQRAQLEGRDLTDEASAIEWAGHTPRVVQGSLRNFKVTYPEDFDLAEAILAH 4zds-a1-m1-cB_4zds-a1-m1-cA Crystal Structure of core DNA binding domain of Arabidopsis Thaliana Transcription Factor Ethylene-Insensitive 3 O24606 O24606 1.78 X-RAY DIFFRACTION 33 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 129 132 STPHTLQELQDTTLGSLLSALMQHCDPPQRRFPLEKGVPPPWWPNGKEDWWPQLGLPKDQGPAPYKKPHDLKKAWKVGVLTAVIKHMFPDIAKIRKLVRQSKCLQDKMTAKESATWLAIINQEESLARE STPHTLQELQDTTLGSLLSALMQHCDPPQRRFPLEKGVPPPWWPNGKEDWWPQLGLPKDQGPAPYKKPHDLKKAWKVGVLTAVIKHMFPDIAKIRKLVRQSKCLQDKMTAKESATWLAIINQEESLARELYP 4zel-a1-m1-cB_4zel-a1-m1-cA Human dopamine beta-hydroxylase P09172 P09172 2.9 X-RAY DIFFRACTION 72 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 544 550 PLPYHIPLDPEGSLELSWNVSYTQEAIHFQLLVRRLKAGVLFGMSDRGELENADLVVLAYFADAWSDQKGQIHLDPQQDYQLLQVQRTPEGLTLLFKRPFGTCDPKDYLIEDGTVHLVYGILEEPFRSLEAINGSGLQMGLQRVQLLKPNIPEPELPSDACTMEVQAPNIQIPSQETTYWCYIKELPKGFSRHHIIKYEPIVTKGNEALVHHMEVFQCAPEVPHFSGPCDSKMLNYCRHVLAAWALGAKAFYYPEEAGLAFGGPGSSRYLRLEVHYHNPLVIEGRNDSSGIRLYYTAKLRRFNAGIMELGLVYTPVMAIPPRETAFILTGYCTDKCTQLALPPSGIHIFASQLHTHLTGRKVVTVLVRDGREWEIVNQDNHYSPHFQEIRMLKKVVSVHPGDVLITSCTYNTEDRELATVGGFGILEEMCVNYVHYYPQTQLELCKSAVDAGFLQKYFHLINRFNNEDVCTCPQASVSQQFTSVPWNSFNRDVLKALYSFAPISMHCNKSSAVRFQGEWNLQPLPKVISTLEEPTPQCVVSIGG PLPYHIPLDPEGSLELSWNVSYTQEAIHFQLLVRRLKAGVLFGMSDRGELENADLVVLWTDGDAYFADAWSDQKGQIHLDPQQDYQLLQVQRTPEGLTLLFKRPFGTCDPKDYLIEDGTVHLVYGILEEPFRSLEAINGSGLQMGLQRVQLLKPNIPEPELPSDACTMEVQAPNIQIPSQETTYWCYIKELPKGFSRHHIIKYEPIVTKGNEALVHHMEVFQCAPEMDSVPHFSGPCDSKMKPDRLNYCRHVLAAWALGAKAFYYPEEAGLAFGGPGSSRYLRLEVHYHNPLVIEGRNDSSGIRLYYTAKLRRFNAGIMELGLVYTPVMAIPPRETAFILTGYCTDKCTQLALPPSGIHIFASQLHTHLTGRKVVTVLVRDGREWEIVNQDNHYSPHFQEIRMLKKVVSVHPGDVLITSCTYNTEDRELATVGGFGILEEMCVNYVHYYPQTQLELCKSAVDAGFLQKYFHLINRFNNEDVCTCPQASVSQQFTSVPWNSFNRDVLKALYSFAPISMHCNKSSAVRFQGEWNLQPLPKVISTLEEPTVVS 4zey-a2-m1-cA_4zey-a2-m2-cA Crystal structure of a nuclear receptor binding factor 2 MIT domain (NRBF2) from Homo sapiens at 1.50 A resolution Q96F24 Q96F24 1.5 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 81 81 GEGPLNLAHQQSRRADRLLAAGKYEEAISCHKKAAAYLSEAKLTQSEQAHLSLELQRDSHKQLLLIQERWKRAQREERLKA GEGPLNLAHQQSRRADRLLAAGKYEEAISCHKKAAAYLSEAKLTQSEQAHLSLELQRDSHKQLLLIQERWKRAQREERLKA 4zfs-a1-m1-cD_4zfs-a1-m1-cA Phototoxic Fluorescent Protein KillerOrange Q2TCH5 Q2TCH5 2.01 X-RAY DIFFRACTION 64 1.0 6074 (Hydrozoa) 6074 (Hydrozoa) 227 233 2wiq-a1-m1-cA_2wiq-a1-m1-cB 2wis-a1-m1-cA_2wis-a1-m1-cB 3a8s-a1-m1-cA_3a8s-a1-m1-cB 3gb3-a1-m1-cA_3gb3-a1-m1-cB 3gl4-a1-m1-cA_3gl4-a1-m1-cB 4b30-a1-m1-cA_4b30-a1-m1-cB 4zfs-a2-m1-cE_4zfs-a2-m1-cB 4zfs-a3-m1-cC_4zfs-a3-m2-cC SECGPALFQSDMTFKIFIDGEVNGQKFTIVADGSSKFPHGDFNVHAVCETGKLPMSWKPICHLIEPFFARYPDGISHFAQECFPEGLSIDRTVRFENDGTMTSHHTYELSDTCVVSRITVNCDGFQPDGPIMRDQLVDILPSETHMFPHGPNAVRQLAFIGFTTADGGLMMGHLDSKMTFNGSRAIEIPGPHFVTIITKQMRDTSDKRDHVCQREVAHAHSVPRITS SECGPALFQSDMTFKIFIDGEVNGQKFTIVADGSSKFPHGDFNVHAVCETGKLPMSWKPICHLIEPFFARYPDGISHFAQECFPEGLSIDRTVRFENDGTMTSHHTYELSDTCVVSRITVNCDGFQPDGPIMRDQLVDILPSETHMFPHGPNAVRQLAFIGFTTADGGLMMGHLDSKMTFNGSRAIEIPGPHFVTIITKQMRDTSDKRDHVCQREVAHAHSVPRITSAIGSDQ 4zfv-a1-m1-cB_4zfv-a1-m1-cA Lipomyces starkeyi levoglucosan kinase bound to ADP and magnesium. B3VI55 B3VI55 1.5 X-RAY DIFFRACTION 186 1.0 29829 (Lipomyces starkeyi) 29829 (Lipomyces starkeyi) 433 436 4yh5-a1-m1-cA_4yh5-a1-m1-cB 4zlu-a1-m1-cA_4zlu-a1-m1-cB 4zxz-a1-m1-cA_4zxz-a1-m1-cB 5bsb-a1-m1-cA_5bsb-a1-m2-cA 5bvc-a1-m1-cA_5bvc-a1-m2-cA 5tkr-a1-m1-cA_5tkr-a1-m2-cA NVLDFTVLGLNSGTSMDGIDCALCHFYQKTPDAPMEFELLEYGEVPLAQPIKQRVMRMILEDTTSPSELSEVNVILGEHFADAVRQFAAERNVDLSTIDAIASHGQTIWLLSMPEEGQVKSALTMAEGAILASRTGITSITDFRISDQAAGRQGAPLIAFFDALLLHHPTKLRACQNIGGIANVCFIPPDVDGRRTDEYYDFDTGPGNVFIDAVVRHFTNGEQEYDKDGAMGKRGKVDQELVDDFLKMPYFQLDPPKTTGREVFRDTLAHDLIRRAEAKGLSPDDIVATTTRITAQAIVDHYRRYAPSQEIDEIFMCGGGAYNPNIVEFIQQSYPNTKIMMLDEAGVPAGAKEAITFAWQGMEALVGRSIPVPTRVETRQHYVLGKVSPGLNYRSVMKKGMAFGGDAQQLPWVSEMIVKKKGKVITNNWAGSH NVLDFTVLGLNSGTSMDGIDCALCHFYQKTPDAPMEFELLEYGEVPLAQPIKQRVMRMILEDTTSPSELSEVNVILGEHFADAVRQFAAERNVDLSTIDAIASHGQTIWLLSMPEEGQVKSALTMAEGAILASRTGITSITDFRISDQAAGRQGAPLIAFFDALLLHHPTKLRACQNIGGIANVCFIPPDVDGRRTDEYYDFDTGPGNVFIDAVVRHFTNGEQEYDKDGAMGKRGKVDQELVDDFLKMPYFQLDPPKTTGREVFRDTLAHDLIRRAEAKGLSPDDIVATTTRITAQAIVDHYRRYAPSQEIDEIFMCGGGAYNPNIVEFIQQSYPNTKIMMLDEAGVPAGAKEAITFAWQGMEALVGRSIPVPTRVETRQHYVLGKVSPGLNYRSVMKKGMAFGGDAQQLPWVSEMIVKKKGKVITNNWAGSHHHH 4zfx-a1-m1-cC_4zfx-a1-m1-cA Siderocalin-mediated recognition and cellular uptake of actinides P80188 P80188 2.55 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 174 SDLIPAPPLSKVPLQQNFQDNQFQGKWYVVGLAGNAILREDKDPQKMYATIYELKEDKSYNVTSVLFRKKKCDYWIRTFVPGSQPGEFTLGNIKSYPGLTSYLVRVVSTNYNQHAMVFFKKVSQNREYFKITLYGRTKELTSELKENFIRFSKSLGLPENHIVFPVPIDQCID TSDLIPAPPLSKVPLQQNFQDNQFQGKWYVVGLAGNAILREDKDPQKMYATIYELKEDKSYNVTSVLFRKKKCDYWIRTFVPGSQPGEFTLGNIKSYPGLTSYLVRVVSTNYNQHAMVFFKKVSQNREYFKITLYGRTKELTSELKENFIRFSKSLGLPENHIVFPVPIDQCID 4zg5-a1-m1-cA_4zg5-a1-m1-cG Structural and functional insights into Survival endonuclease, an important virulence factor of Brucella abortus B2S5B9 B2S5B9 1.9 X-RAY DIFFRACTION 202 0.992 430066 (Brucella abortus S19) 430066 (Brucella abortus S19) 247 247 4zg5-a1-m1-cC_4zg5-a1-m1-cD MRILLTNDDGIHAEGLAVLERIARKLSDDVWVVAPETDQSGLAHSLTLLEPLRLRQIDARHFALRGTPTDCVIMGVRHVLPGAPDLVLSGVNSGANMADDVTYSGTVAGAMEGTLLGVRAIALSQEYEYRRIVPWETAEAHAPELIGRLMEAGWPEGVLLNLNFPNCAPEEVKGVRVTAQGKLSHDARLDERRDGRGFPYFWLHFGRGKAPVADDSDIAAIRSGCISMTPLHLDLTAHKVRAELGAA MRILLTNDDGIHAEGLAVLERIARKLSDDVWVVAPETDQSGLAHSLTLLEPLRLRQIDARHFALRGTPTDCVIMGVRHVLPGAPDLVLSGVNSGANMADDVTYSGTVAGAMEGTLLGVRAIALSQEYERIVPWETAEAHAPELIGRLMEAGWPEGVLLNLNFPNCAPEEVKGVRVTAQGKLSHDARLDERRDGRGFPYFWLHFGRGKAPVADDSDIAAIRSGCISMTPLHLDLTAHKVRAELGAALG 4zg5-a1-m1-cG_4zg5-a1-m1-cD Structural and functional insights into Survival endonuclease, an important virulence factor of Brucella abortus B2S5B9 B2S5B9 1.9 X-RAY DIFFRACTION 21 1.0 430066 (Brucella abortus S19) 430066 (Brucella abortus S19) 247 252 4zg5-a1-m1-cA_4zg5-a1-m1-cC MRILLTNDDGIHAEGLAVLERIARKLSDDVWVVAPETDQSGLAHSLTLLEPLRLRQIDARHFALRGTPTDCVIMGVRHVLPGAPDLVLSGVNSGANMADDVTYSGTVAGAMEGTLLGVRAIALSQEYERIVPWETAEAHAPELIGRLMEAGWPEGVLLNLNFPNCAPEEVKGVRVTAQGKLSHDARLDERRDGRGFPYFWLHFGRGKAPVADDSDIAAIRSGCISMTPLHLDLTAHKVRAELGAALG MRILLTNDDGIHAEGLAVLERIARKLSDDVWVVAPETDQSGLAHSLTLLEPLRLRQIDARHFALRGTPTDCVIMGVRHVLPGAPDLVLSGVNSGANMADDVTYSGTVAGAMEGTLLGVRAIALSQEYEYAGDRRIVPWETAEAHAPELIGRLMEAGWPEGVLLNLNFPNCAPEEVKGVRVTAQGKLSHDARLDERRDGRGFPYFWLHFGRGKAPVADDSDIAAIRSGCISMTPLHLDLTAHKVRAELGAALG 4zgc-a1-m1-cA_4zgc-a1-m1-cB Crystal Structure Analysis of Kelch protein (with disulfide bond) from Plasmodium falciparum Q8IDQ2 Q8IDQ2 2.5 X-RAY DIFFRACTION 94 0.989 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 372 373 TMIDINVGGAIFETSRHTLTQQKDSFIEKLHVTRDKQGRIFLDRDSELFRIILNFLRNPLTIPIPKDLSESEALLKEAEFYGIKFLPFPLVFCIGGFDGVEYLNSMELLDISQQCWRMCTPMSTKKAYFGSAVLNNFLYVFGGNNYDYKALFETEVYDRLRDVWYVSSNLNIPRRNNCGVTSNGRIYCIGGYDGSSIIPNVEAYDHRMKAWVEVAPLNTPRSSAMCVAFDNKIYVIGGTNGERLNSIEVYEEKMNKWEQFPYALLEARSSGAAFNYLNQIYVVGGIDNEHNILDSVEQYQPFNKRWQFLNGVPEKKMNFGAATLSDSYIITGGENGEVLNSCHFFSPDTNEWQLGPSLLVPRFGHSVLIANI MIDINVGGAIFETSRHTLTQQKDSFIEKLLSGRHHVTRDKQGRIFLDRDSELFRIILNFLRNPLTIPIPKDLSESEALLKEAEFYGIKFLPFPLVFCIGGFDGVEYLNSMELLDISQQCWRMCTPMSTKKAYFGSAVLNNFLYVFGGNNYDYKALFETEVYDRLRDVWYVSSNLNIPRRNNCGVTSNGRIYCIGGYDGSSIIPNVEAYDHRMKAWVEVAPLNTPRSSAMCVAFDNKIYVIGGTNGERLNSIEVYEEKMNKWEQFPYALLEARSSGAAFNYLNQIYVVGGIDNEHNILDSVEQYQPFNKRWQFLNGVPEKKMNFGAATLSDSYIITGGENGEVLNSCHFFSNEWQLGPSLLVPRFGHSVLIANI 4zgi-a1-m1-cA_4zgi-a1-m2-cA Structure of Truncated Human TIFA Q96CG3 Q96CG3 2.701 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 135 EETVTCLQTVYHPGQLQCGIFQSISFNREKLPSSEVVKFGRNSNICHYTFQDKQVSRVQFSLQLFKKFNSSVLSFEIKNSKKTNLIVDSRELGYLNKDLPYRCVRFGEYQFLEKEDGESLEFFETQFILSPRSLL EETVTCLQTVYHPGQLQCGIFQSISFNREKLPSSEVVKFGRNSNICHYTFQDKQVSRVQFSLQLFKKFNSSVLSFEIKNSKKTNLIVDSRELGYLNKDLPYRCVRFGEYQFLEKEDGESLEFFETQFILSPRSLL 4zgl-a3-m1-cE_4zgl-a3-m1-cF Hit Like Protein P64382 P64382 2.95 X-RAY DIFFRACTION 77 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 83 102 VFEKIIQGEIPCSKILENERFLSFYDINPKAKVHALVIPKQSIQDFNGITPELMAKGYKLLTNVGKNAGQEVMHLHFHILSGD MNVFEKIIQGEIPCSKILENERFLSFYDINPKAKVHALVIPKQSIQDFNGITPELMAQMTSFIFEVVEKLGIKEKGYKLLTNVGKNAGQEVMHLHFHILSGD 4zgl-a5-m1-cJ_4zgl-a5-m1-cI Hit Like Protein P64382 P64382 2.95 X-RAY DIFFRACTION 80 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 101 102 4zgl-a1-m1-cA_4zgl-a1-m1-cB 4zgl-a2-m1-cC_4zgl-a2-m1-cD 4zgl-a4-m1-cG_4zgl-a4-m1-cH MNVFEKIIQGEIPCSKILENERFLSFYDINPKAKVHALVIPKQSIQDFNGITPELMAQMTSFIFEVVEKLGIKEKGYKLLTNVGKNAGQEVMHLHFHILSG MNVFEKIIQGEIPCSKILENERFLSFYDINPKAKVHALVIPKQSIQDFNGITPELMAQMTSFIFEVVEKLGIKEKGYKLLTNVGKNAGQEVMHLHFHILSGD 4zhj-a1-m1-cB_4zhj-a1-m1-cA Crystal Structure of the Catalytic Subunit of Magnesium Chelatase P73020 P73020 2.502 X-RAY DIFFRACTION 104 0.991 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1233 1258 6ysg-a1-m1-cB_6ysg-a1-m1-cA SHMFTNVKSTIRRVDPEALNGRQLLKVVYVVLESQYQSALSAAVRNINRTNSSLAIQLTGYLIEELRDPENYANFKHDVSEANLFIASLIFIEDLADKVVEAVTPYRDNLDAAIVFPSMPQVMRLNKMGSFSMAQLGQSKSQDAMLKLLRTLPTVLKYLPVEKAQDARNFMLSFQYWLGGSQENLENFLLMLTDKYVYPDLGLDYPDMGIWHPLSMQMFENVKDYLEWYNQRPDISEDLKDPLAPCIGLIMQRTHLVTGDDAHYVGMVQELEAMGARVICVFSGGLDFSKPVNEYFWDEPLPIVDAVVSLTGFALVGGPARQDHPRAIESLKKLNRPYMCALPLVFQHPIQVALQIAIPELDGAIEPIIIALQDRLEAIAQRAMKWANLRKKPKLDKKVAITVFSFPPDKGNVGTAAYLDVFGSIYEVMKGLQGNGYDVQDLPGSAKELMEAVIHDAQAQYNSPELNIAHRMSVEQYERLTPYSVRLEENWGKPPGHLNSDGQNLLIYGKEFGNVFIGVQPTFGYEGDPMRLLFSRSASPHHGFAAYYTYLNHIWKADAVLHFGTHGSLEFLIGTIPNLYYYAANNPSEATIAKRRGYASTISYLTPPAENAGLYKGLQELNELIGSYQTLKIQIVNTIMDQARICNLDQDVNLPDINAEEMDQGQRDTIVGSVYRKLMEIESRLLPCGLHVIGQPPSAEEAIATLVNIASLDREDEGIWALPTLIAESIGRNMEEIYRNSDKGILADVELLQDITLATRAAVAALVQEQINAPWVKSLCDSGYPNVNEEKLKPLFEYLEFCLEQVCADNEFGGLLQALEGEYVLPGPGGDPIRNPNVLPTGKNIHALDPQSIPTLAAVQSAKVVVDRLLERQRAENGGNYPETIASVLWGTDNIKTYGESLAQIMWMVGAKPVPDALGRVNKIELVPLEELGRPRIDVVVNCSGVFRDLFINQMNLLDQAVKLAAEADEPLEMNFVRKHALEQAEEMGIGVREAATRIFSNASGSYSSNVNLAVENSSWEDESELQEMYLKRKSFAFNSDNPGMMDQNRDMFERALKTADATFQNLDSSEISLTDVSHYFDSDPTKLISTLRDDGKAPAAYIADTTTANAQVRTLSETVRLDARTKLLNPKWYEGMLSHGYEGVRELSKRLVNTMGWSATAGAVDNWVYEDANSTFIKDEEMCKRLMDLNPNSFRRMVSTLLEVNGRGYWETSDENLERLQELYQEVEDRIE HMFTNVKSTIRRVDPEALNGRQLLKVVYVVLESQYQSALSAAVRNINRTNSSLAIQLTGYLIEELPENYANFKHDVSEANLFIASLIFIEDLADKVVEAVTPYRDNLDAAIVFPSMPQVMRLNKMGSFSMAQLGFQDAMLKLLRTLPTVLKYLPVEKAQDARNFMLSFQYWLGGSQENLENFLLMLTDKYVYPDLGLDVYPDMGIWHPLSMQMFENVKDYLEWYNQRPDISEDLKDPLAPCIGLIMQRTHLVTGDDAHYVGMVQELEAMGARVICVFSGGLDFSKPVNEYFWDKSEPLPIVDAVVSLTGFALVGQDHPRAIESLKKLNRPYMCALPLVFQHPIQVALQIAIPELDGAIEPIILIALQDRLEAIAQRAMKWANLRKKPKLDKKVAITVFSFPPDKGNVGTAAYLDVFGSIYEVMKGLQGNGYDVQDLPGSAKELMEAVIHDAQAQYNSPELNIAHRMSVEQYERLTPYSVRLEENWGKPPGHLNSDGQNLLIYGKEFGNVFIGVQPTFGYEGDPMRLLFSRSASPHHGFAAYYTYLNHIWKADAVLHFGTHGSLEFMPGDNLIGTIPNLYYYAANNPSEATIAKRRGYASTISYLTPPAENAGLYKGLQELNELIGSYQTLKDSGRGIQIVNTIMDQARICNLDQDVNLPDINAEEMDQGQRDTIVGSVYRKLMEIESRLLPCGLHVIGQPPSAEEAIATLVNIASLDREDEGIWALPTLIAESIGRNMEEIYRNSDKGILADVELLQDITLATRAAVAALVQEQINADGRVSFVSKLNFFKIGKKAPWVKSLCDSGYPNVNEEKLKPLFEYLEFCLEQVCADNEFGGLLQALEGEYVLPGPGGDPIRNPNVLPTGKNIHALDPQSIPTLAAVQSAKVVVDRLLERQRAENGGNYPETIASVLWGTDNIKTYGESLAQIMWMVGAKPVPDALGRVNKIELVPLEELGRPRIDVVVNCSGVFRDLFINQMNLLDQAVKLAAEADEPLEMNFVRKHALEQAEEMGIGVREAATRIFSNASGSYSSNVNLAVENSSWEDESELQEMYLKRKSFAFNSDNPGMMDQNRDMFERALKTADATFQNLDSSEISLTDVSHYFDSDPTKLISTLRDDGKAPAAYIADTTTANAQVRTLSETVRLDARTKLLNPKWYEGMLSHGYEGVRELSKRLVNTMGWSATAGAVDNWVYEDANSTFIKDEEMCKRLMDLNPNSFRRMVSTLLEVNGRGYWETSDENLERLQELYQEVEDRIEGV 4zhv-a1-m1-cB_4zhv-a1-m1-cA Crystal structure of a bacterial signalling protein Q9I4L6 Q9I4L6 1.585 X-RAY DIFFRACTION 33 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 134 139 6iki-a1-m1-cA_6iki-a1-m1-cB GLSAEQIAVLQEQGFELRDEGWEFGMSSKVLFGNNLDRLNPDSRNTLTKIARALLAVDIDKVRLEGHTDNYGDEGYNQKLSERRAESVAAVFREAGMPAANIEVRGLGMSKPVADNKTRAGRSENRRVAIIVPA PPQTGLSAEQIAVLQEQGFELRDEGWEFGMSSKVLFGNNLDRLNPDSRNTLTKIARALLAVDIDKVRLEGHTDNYGDEGYNQKLSERRAESVAAVFREAGMPAANIEVRGLGMSKPVADNKTRAGRSENRRVAIIVPAE 4zi3-a1-m1-cC_4zi3-a1-m1-cD BART-like domain of BARTL1/CCDC104 aa1-133 in complex with Arl3FL bound to GppNHp in P1 21 1 Q8C6E0 Q8C6E0 2 X-RAY DIFFRACTION 49 1.0 10090 (Mus musculus) 10090 (Mus musculus) 123 128 DEVEWVVESIAGFLRGPDWSIPILDFVEQKCEVFDDEEESKLTYTEIHQEYKELVEKLLESYLKEIGINEDQFQEACTSPLAKTRTSQAILQPVLAAEDFTIFKAMMVQKNIEMQLQAIRIIQ AEEEDEVEWVVESIAGFLRGPDWSIPILDFVEQKCEVFDDEEESKLTYTEIHQEYKELVEKLLESYLKEIGINEDQFQEACTSPLAKTRTSQAILQPVLAAEDFTIFKAMMVQKNIEMQLQAIRIIQE 4zi5-a1-m1-cA_4zi5-a1-m1-cB Crystal Structure of Dienelactone Hydrolase-like Promiscuous Phospotriesterase P91 from Metagenomic Libraries 1.702 X-RAY DIFFRACTION 60 1.0 256318 (metagenome) 256318 (metagenome) 239 239 GAMTARKVDYTDGATRCIGEFHWDEGKSGPRPGVVVFPEAFGLNDHAKERARRLADLGFAALAADMHGDAQVFDAASLSSTIQGYYGDRAHWRRRAQAALDALTAQPEVDGSKVAAIGFCFGGATCLELARTGAPLTAIVTFHGGLLPEMAGDAGRIQSSVLVCHGADDPLVQDETMKAVMDEFRRDKVDWQVLYLGNAVHSFTDPLAGSHGIPGLAYDATAEARSWTAMCNLFSELFG GAMTARKVDYTDGATRCIGEFHWDEGKSGPRPGVVVFPEAFGLNDHAKERARRLADLGFAALAADMHGDAQVFDAASLSSTIQGYYGDRAHWRRRAQAALDALTAQPEVDGSKVAAIGFCFGGATCLELARTGAPLTAIVTFHGGLLPEMAGDAGRIQSSVLVCHGADDPLVQDETMKAVMDEFRRDKVDWQVLYLGNAVHSFTDPLAGSHGIPGLAYDATAEARSWTAMCNLFSELFG 4zi8-a1-m1-cA_4zi8-a1-m1-cB Structure of mouse clustered PcdhgC3 EC1-3 Q91XX1 Q91XX1 1.698 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 313 323 IIHYEILEERERGFPVGNVVTDLGLDLGSLSARRLRVVSGASRRFFEVNWETGEMFVNDRLDREELCGTLPSCTVTLELVVENPLELFSAEVVVQDINDNNPSFPTGEMKLEISEALAPGTRFPLESAHDPDVGSNSLQTYELSHNEYFALRVQTREDGTKYAELVLERALDWEREPSVQLVLTALDGGTPARSATLPIRITVLDANDNAPAFNQSLYRARVREDAPPGTRVAQVLATDLDEGLNGEIVYSFGSHNRAGVRELFALDLVTGVLTIKGRLDFEDTKLHEIYIQAKDKGANPEGAHCKVLVEVVD HENLYFQGSTIIHYEILEERERGFPVGNVVTDLGLDLGSLSARRLRVVSGASRRFFEVNWETGEMFVNDRLDREELCGTLPSCTVTLELVVENPLELFSAEVVVQDINDNNPSFPTGEMKLEISEALAPGTRFPLESAHDPDVGSNSLQTYELSHNEYFALRVQTREDGTKYAELVLERALDWEREPSVQLVLTALDGGTPARSATLPIRITVLDANDNAPAFNQSLYRARVREDAPPGTRVAQVLATDLDEGLNGEIVYSFGSHNRAGVRELFALDLVTGVLTIKGRLDFEDTKLHEIYIQAKDKGANPEGAHCKVLVEVVD 4zi9-a1-m1-cA_4zi9-a1-m1-cB Structure of mouse clustered PcdhgA1 EC1-3 Q91XZ0 Q91XZ0 1.7 X-RAY DIFFRACTION 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 309 309 5szl-a1-m1-cB_5szl-a1-m1-cA 5szl-a2-m1-cD_5szl-a2-m1-cC NIRYSVPEETDKGSFVGSIAKDLGLETRELMERGIRIVSRGRSQLFSLNPRSGSLVTAGRIDREELCAQSTPCVVSFNILMEDEMKLLPIEVEIIDINDNTPQFQLEELELKMSEITTPGTRIPLPLGQDLDVGINSLQSYQLSANPHFSLDVQQGPEGPQQPEMVLQRPLDREKDAVHYLVLTASDGGSPIHSGTLQIHVQVVDVNDNPPAFTKAEYHVSVPENVPLGTRLLKVNATDPDEGANGRVTYSFHKVDHSVVRKFQLDAYTGELSNKEPLDFEEYKVYPMEIQAQDGAGLMARAKVLVTVL NIRYSVPEETDKGSFVGSIAKDLGLETRELMERGIRIVSRGRSQLFSLNPRSGSLVTAGRIDREELCAQSTPCVVSFNILMEDEMKLLPIEVEIIDINDNTPQFQLEELELKMSEITTPGTRIPLPLGQDLDVGINSLQSYQLSANPHFSLDVQQGPEGPQQPEMVLQRPLDREKDAVHYLVLTASDGGSPIHSGTLQIHVQVVDVNDNPPAFTKAEYHVSVPENVPLGTRLLKVNATDPDEGANGRVTYSFHKVDHSVVRKFQLDAYTGELSNKEPLDFEEYKVYPMEIQAQDGAGLMARAKVLVTVL 4zia-a1-m1-cA_4zia-a1-m1-cB Crystal Structure of STAT3 N-terminal domain P42227 P42227 2.7 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 124 124 4zia-a2-m1-cC_4zia-a2-m1-cD 4zia-a3-m1-cE_4zia-a3-m2-cE GSQWNQLQQLDTRYLEQLHQLYSDSFPMELRQFLAPWIESQDWAYAASKESHATLVFHNLLGEIDQQYSRFLQESNVLYQHNLRRIKQFLQSRYLEKPMEIARIVARCLWEESRLLQTAATAAQ GSQWNQLQQLDTRYLEQLHQLYSDSFPMELRQFLAPWIESQDWAYAASKESHATLVFHNLLGEIDQQYSRFLQESNVLYQHNLRRIKQFLQSRYLEKPMEIARIVARCLWEESRLLQTAATAAQ 4zid-a1-m1-cA_4zid-a1-m2-cA Dimeric Hydrogenobacter thermophilus cytochrome c552 obtained from Escherichia coli P15452 P15452 1.8 X-RAY DIFFRACTION 83 1.0 608538 (Hydrogenobacter thermophilus TK-6) 608538 (Hydrogenobacter thermophilus TK-6) 80 80 3vym-a1-m1-cA_3vym-a1-m2-cA NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK NEQLAKQKGCMACHDLKAKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK 4zil-a1-m1-cB_4zil-a1-m1-cA Crystal structure of Rv2466c and oxidoreductase from Mycobacterium tuberculosis in its reduced state O53193 O53193 1.507 X-RAY DIFFRACTION 121 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 209 210 4nxi-a1-m1-cA_4nxi-a1-m1-cB 5xur-a2-m1-cC_5xur-a2-m1-cD KSVADFWFDPLCPWCWITSRWILEVAKVRDIEVNFHVMSLAILNENRDDLPEQYREGMARAWGPVRVAIAAEQAHGAKVLDPLYTAMGNRIHNQGNHELDEVITQSLADAGLPAELAKAATSDAYDNALRKSHHAGMDAVVGTPTIHVNGVAFFGPVLSKIPRGEEAGKLWDASVTFASYPHFFELKRTRTEPPQFDKLAAALEHHHHH KSVADFWFDPLCPWCWITSRWILEVAKVRDIEVNFHVMSLAILNENRDDLPEQYREGMARAWGPVRVAIAAEQAHGAKVLDPLYTAMGNRIHNQGNHELDEVITQSLADAGLPAELAKAATSDAYDNALRKSHHAGMDAVVGTPTIHVNGVAFFGPVLSKIPRGEEAGKLWDASVTFASYPHFFELKRTRTEPPQFDKLAAALEHHHHHH 4ziq-a1-m1-cA_4ziq-a1-m2-cA Crystal structure of trypsin activated alpha-2-macroglobulin from Escherichia coli. P76578 P76578 2.55 X-RAY DIFFRACTION 125 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 1450 1450 PSVGFASRGSLLPGKVVEGLPVMALNVNNVDVNFFRVKPESLPAFISQWEYRNSLANWQSDKLLQMADLVYTGRFDLNPARTREKLLLPLGDIKPLQQAGVYLAVMNQAGRYDYSNPATLFTLSDIGVSAHRYHNRLDIFTQSLENGAAQQGIEVSLLNEKGQTLTQATSDAQGHVQLENDKNAALLLARKDGQTTLLDLKLPALDLAEFNIAGAPGYSKQFFMFGPRDLYRPGETVILNGLLRDADGKALPNQPIKLDVIKPDGQVLRSVVSQPENGLYHFTWPLDSNAATGMWHIRANTGDNQYRMWDFHVEDFMPERMALNLTGEKTPLTPKDEVKFSVVGYYLYGAPANGNTLQGQLFLRPLREAVSALPGFEFGDIAAENLSRTLDEVQLTLDDKGRGEVSTESQWKETHSPLQVIFQGSLLESGGRPVTRRAEQAIWPADALPGIRPQFASKSVYDYRTDSTVKQPIVDEGSNAAFDIVYSDAQGVKKAVSGLQVRLIRERRDQKDLIENEQTLDLKADETGKVSFPVEWGAYRLEVKAPNEAVSSVRFWAGYSWQDNSDGSGAVRPDRVTLKLDKASYRPGDTIKLHIAAPTAGKGYAMVESSEGPLWWQEIDVRAQGLDLTIPVDKTWNRHDLYLSTLVVRPGTPKRAVGVLHLPLGDENRRLDLALETPAKMRPNQPLTVKIKASTKNGEKPKQVNVLVSAVDSGVLNITDYVTPDPWQAFFGQKRYGADIYDIYGQVIEGGDGDELKRGGKPPVNHVNIVVQQALPVTLNEQGEGSVTLPIGDFNGELRVMAQAWTADDFGSNESKVIVAAPVIAELNMPRFMASGDTSRLTLDITNLTDKPQKLNVALTASGLLELVSDSPAAVELAPGVRTTLFIPVRALPGYGDGEIQATISGLALPGETVADQHKQWKIGVRPAFPAQTVNYGTALQPGETWAIPADGLQNFSPVTLEGQLLLSGKPPLNIARYIKELKAYPYGCLEQTASGLFPSLYTNAAQLQALGIKGDSDEKRRASVDIGISRLLQMQRDNGGFALWDKNGDEEYWLTAYVMDFLVRAGEQGYSVPTDAINRGNERLLRYLQDPGMMSIPYADNLKASKFAVQSYAALVLARQQKAPLGALREIWEHRADAASGLPLLQLGVALKTMGDATRGEEAIALALKTPRIWLGDYGSSLRDNALMLSLLEENKLLPDEQYTLLNTLSQQAFGERWLSTQESNALFLAARTIQDLPGKWQAQTSFSAEQLTGEKAQNSNLNSDQLVTLQVSNSGDQPLWLRMDASGYPQSAPLPANNVLQIERHILGTDGKSKSLDSLRSGDLVLVWLQVKASNSVPDALVVDLLPAGLELENQNLANGSASLEQSGGEVQNLLNQMQQASIKHIEFRDDRFVAAVAVDEYQPVTLVYLARAVTPGTYQVPQPMVESMYVPQWRATGAAEDLLIVRP PSVGFASRGSLLPGKVVEGLPVMALNVNNVDVNFFRVKPESLPAFISQWEYRNSLANWQSDKLLQMADLVYTGRFDLNPARTREKLLLPLGDIKPLQQAGVYLAVMNQAGRYDYSNPATLFTLSDIGVSAHRYHNRLDIFTQSLENGAAQQGIEVSLLNEKGQTLTQATSDAQGHVQLENDKNAALLLARKDGQTTLLDLKLPALDLAEFNIAGAPGYSKQFFMFGPRDLYRPGETVILNGLLRDADGKALPNQPIKLDVIKPDGQVLRSVVSQPENGLYHFTWPLDSNAATGMWHIRANTGDNQYRMWDFHVEDFMPERMALNLTGEKTPLTPKDEVKFSVVGYYLYGAPANGNTLQGQLFLRPLREAVSALPGFEFGDIAAENLSRTLDEVQLTLDDKGRGEVSTESQWKETHSPLQVIFQGSLLESGGRPVTRRAEQAIWPADALPGIRPQFASKSVYDYRTDSTVKQPIVDEGSNAAFDIVYSDAQGVKKAVSGLQVRLIRERRDQKDLIENEQTLDLKADETGKVSFPVEWGAYRLEVKAPNEAVSSVRFWAGYSWQDNSDGSGAVRPDRVTLKLDKASYRPGDTIKLHIAAPTAGKGYAMVESSEGPLWWQEIDVRAQGLDLTIPVDKTWNRHDLYLSTLVVRPGTPKRAVGVLHLPLGDENRRLDLALETPAKMRPNQPLTVKIKASTKNGEKPKQVNVLVSAVDSGVLNITDYVTPDPWQAFFGQKRYGADIYDIYGQVIEGGDGDELKRGGKPPVNHVNIVVQQALPVTLNEQGEGSVTLPIGDFNGELRVMAQAWTADDFGSNESKVIVAAPVIAELNMPRFMASGDTSRLTLDITNLTDKPQKLNVALTASGLLELVSDSPAAVELAPGVRTTLFIPVRALPGYGDGEIQATISGLALPGETVADQHKQWKIGVRPAFPAQTVNYGTALQPGETWAIPADGLQNFSPVTLEGQLLLSGKPPLNIARYIKELKAYPYGCLEQTASGLFPSLYTNAAQLQALGIKGDSDEKRRASVDIGISRLLQMQRDNGGFALWDKNGDEEYWLTAYVMDFLVRAGEQGYSVPTDAINRGNERLLRYLQDPGMMSIPYADNLKASKFAVQSYAALVLARQQKAPLGALREIWEHRADAASGLPLLQLGVALKTMGDATRGEEAIALALKTPRIWLGDYGSSLRDNALMLSLLEENKLLPDEQYTLLNTLSQQAFGERWLSTQESNALFLAARTIQDLPGKWQAQTSFSAEQLTGEKAQNSNLNSDQLVTLQVSNSGDQPLWLRMDASGYPQSAPLPANNVLQIERHILGTDGKSKSLDSLRSGDLVLVWLQVKASNSVPDALVVDLLPAGLELENQNLANGSASLEQSGGEVQNLLNQMQQASIKHIEFRDDRFVAAVAVDEYQPVTLVYLARAVTPGTYQVPQPMVESMYVPQWRATGAAEDLLIVRP 4zjs-a1-m1-cA_4zjs-a1-m1-cD Crystal structure of a chimeric acetylcholine binding protein from Aplysia Californica (Ac-AChBP) containing the main immunogenic region (MIR) from the human alpha 1 subunit of the muscle nicotinic acetylcholine receptor in complex with anatoxin-A. Q8WSF8 Q8WSF8 2.2301 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 206 4zjs-a1-m1-cC_4zjs-a1-m1-cB 4zjs-a1-m1-cC_4zjs-a1-m1-cD 4zjs-a1-m1-cE_4zjs-a1-m1-cA 4zjs-a1-m1-cE_4zjs-a1-m1-cB EHETRLVAKLFKDYSSVVRPVEDHRQVVEVTLGFTLQDIVKADSSTNEVDLVYYEQQRWVDYNLKWNPDDYGGVKKIHIPAADIWTPDITAYSSTRPVQVLSPQIAVVTHDGSVMFIPAQRLSFMCDPTGVDSEEGATCAVKFGSWVYSGFEIDLKTDTDQVDLSSYYASSKYEILSATQTRQVQHYSCCPEPYIDVNLVVKFRER EHETRLVAKLFKDYSSVVRPVEDHRQVVEVTLGFTLQDIVKADSSTNEVDLVYYEQQRWVDYNLKWNPDDYGGVKKIHIPAADIWTPDITAYSSTRPVQVLSPQIAVVTHDGSVMFIPAQRLSFMCDPTGVDSEEGATCAVKFGSWVYSGFEIDLKTDTDQVDLSSYYASSKYEILSATQTRQVQHYSCCPEPYIDVNLVVKFRER 4zk8-a1-m2-cA_4zk8-a1-m3-cA Copper-containing nitrite reductase from thermophilic bacterium Geobacillus thermodenitrificans (Re-refined) A4IL26 A4IL26 1.15 X-RAY DIFFRACTION 131 1.0 420246 (Geobacillus thermodenitrificans NG80-2) 420246 (Geobacillus thermodenitrificans NG80-2) 294 294 3wi9-a1-m1-cA_3wi9-a1-m2-cA 3wi9-a1-m1-cA_3wi9-a1-m3-cA 3wi9-a1-m2-cA_3wi9-a1-m3-cA 3wia-a1-m1-cA_3wia-a1-m1-cB 3wia-a1-m1-cA_3wia-a1-m1-cC 3wia-a1-m1-cB_3wia-a1-m1-cC 3wia-a2-m1-cD_3wia-a2-m1-cE 3wia-a2-m1-cD_3wia-a2-m1-cF 3wia-a2-m1-cE_3wia-a2-m1-cF 3wia-a3-m1-cG_3wia-a3-m1-cH 3wia-a3-m1-cI_3wia-a3-m1-cG 3wia-a3-m1-cI_3wia-a3-m1-cH 3wkp-a1-m1-cA_3wkp-a1-m2-cA 3wkp-a1-m1-cA_3wkp-a1-m3-cA 3wkp-a1-m2-cA_3wkp-a1-m3-cA 3wkq-a1-m1-cA_3wkq-a1-m2-cA 3wkq-a1-m1-cA_3wkq-a1-m3-cA 3wkq-a1-m2-cA_3wkq-a1-m3-cA 3wni-a1-m1-cA_3wni-a1-m2-cA 3wni-a1-m1-cA_3wni-a1-m3-cA 3wni-a1-m2-cA_3wni-a1-m3-cA 3wnj-a1-m1-cA_3wnj-a1-m2-cA 3wnj-a1-m1-cA_3wnj-a1-m3-cA 3wnj-a1-m2-cA_3wnj-a1-m3-cA 3x1e-a1-m1-cA_3x1e-a1-m2-cA 3x1e-a1-m1-cA_3x1e-a1-m3-cA 3x1e-a1-m2-cA_3x1e-a1-m3-cA 3x1f-a1-m1-cA_3x1f-a1-m2-cA 3x1f-a1-m1-cA_3x1f-a1-m3-cA 3x1f-a1-m2-cA_3x1f-a1-m3-cA 3x1g-a1-m1-cA_3x1g-a1-m2-cA 3x1g-a1-m1-cA_3x1g-a1-m3-cA 3x1g-a1-m2-cA_3x1g-a1-m3-cA 3x1n-a1-m1-cA_3x1n-a1-m2-cA 3x1n-a1-m1-cA_3x1n-a1-m3-cA 3x1n-a1-m2-cA_3x1n-a1-m3-cA 4ysa-a1-m1-cA_4ysa-a1-m2-cA 4ysa-a1-m1-cA_4ysa-a1-m3-cA 4ysa-a1-m2-cA_4ysa-a1-m3-cA 4ysd-a1-m1-cA_4ysd-a1-m2-cA 4ysd-a1-m1-cA_4ysd-a1-m3-cA 4ysd-a1-m2-cA_4ysd-a1-m3-cA 4yso-a1-m1-cA_4yso-a1-m2-cA 4yso-a1-m1-cA_4yso-a1-m3-cA 4yso-a1-m2-cA_4yso-a1-m3-cA 4ysp-a1-m1-cA_4ysp-a1-m2-cA 4ysp-a1-m1-cA_4ysp-a1-m3-cA 4ysp-a1-m2-cA_4ysp-a1-m3-cA 4ysq-a1-m1-cA_4ysq-a1-m2-cA 4ysq-a1-m1-cA_4ysq-a1-m3-cA 4ysq-a1-m2-cA_4ysq-a1-m3-cA 4ysr-a1-m1-cA_4ysr-a1-m2-cA 4ysr-a1-m1-cA_4ysr-a1-m3-cA 4ysr-a1-m2-cA_4ysr-a1-m3-cA 4yss-a1-m1-cA_4yss-a1-m2-cA 4yss-a1-m1-cA_4yss-a1-m3-cA 4yss-a1-m2-cA_4yss-a1-m3-cA 4yst-a1-m1-cA_4yst-a1-m2-cA 4yst-a1-m1-cA_4yst-a1-m3-cA 4yst-a1-m2-cA_4yst-a1-m3-cA 4ysu-a1-m1-cA_4ysu-a1-m2-cA 4ysu-a1-m1-cA_4ysu-a1-m3-cA 4ysu-a1-m2-cA_4ysu-a1-m3-cA 4zk8-a1-m1-cA_4zk8-a1-m2-cA 4zk8-a1-m1-cA_4zk8-a1-m3-cA 5ytl-a1-m1-cA_5ytl-a1-m2-cA 5ytl-a1-m1-cA_5ytl-a1-m3-cA 5ytl-a1-m2-cA_5ytl-a1-m3-cA 5ytm-a1-m1-cA_5ytm-a1-m2-cA 5ytm-a1-m1-cA_5ytm-a1-m3-cA 5ytm-a1-m2-cA_5ytm-a1-m3-cA 5ytn-a1-m1-cA_5ytn-a1-m2-cA 5ytn-a1-m1-cA_5ytn-a1-m3-cA 5ytn-a1-m2-cA_5ytn-a1-m3-cA 6l46-a1-m1-cA_6l46-a1-m2-cA 6l46-a1-m1-cA_6l46-a1-m3-cA 6l46-a1-m2-cA_6l46-a1-m3-cA IAAHKGVNQAPVPLKMERVGPHDVHIEMTAQITDIEIDKGKIYKAWTFNGQAPGPLVVVNEGDTIHFTLKNMDPVVPHSMDFHAVHASPSKDFIDVMPNKSGTFTYPANKPGVFMYHCGTKPVLQHIANGMHGVIIVKPKNGYPTDKEVDREYVLIQNEWYKYNDMNDFQNGVPSYVVFSSKALKPGDPNTNGDTFTLKEKPLLAKVGEKIRLYINNVGPNEVSSFHVVGTVFDDVYLDGNPNNHLQGMQTVMLPASGGAVVEFTVTRPGTYPIVTHQFNHAQKGAVAMLKVTE IAAHKGVNQAPVPLKMERVGPHDVHIEMTAQITDIEIDKGKIYKAWTFNGQAPGPLVVVNEGDTIHFTLKNMDPVVPHSMDFHAVHASPSKDFIDVMPNKSGTFTYPANKPGVFMYHCGTKPVLQHIANGMHGVIIVKPKNGYPTDKEVDREYVLIQNEWYKYNDMNDFQNGVPSYVVFSSKALKPGDPNTNGDTFTLKEKPLLAKVGEKIRLYINNVGPNEVSSFHVVGTVFDDVYLDGNPNNHLQGMQTVMLPASGGAVVEFTVTRPGTYPIVTHQFNHAQKGAVAMLKVTE 4zkj-a1-m1-cA_4zkj-a1-m1-cB Crystal structure of CRISPR-associated protein J7M1H5 J7M1H5 2.25 X-RAY DIFFRACTION 149 1.0 1207470 (Streptococcus pyogenes M1 476) 1207470 (Streptococcus pyogenes M1 476) 275 279 AGWRTVVVNTHSKLSYKNNHLIFKDAYKTELIHLSEIDILLLETTDIVLSTLVKRLVDENVLVIFCDDKRLPTALPFYGSLQLGKQSWSETVKSQVWTTIIAQKILNQSCYLGACSYFEKSQSIDLYHGLENFDPSNREGHAARIYFNTLFGNDFSRDLEHPINAGLDYGYTLLLSFAREVVVSGCTQFGLKHANQFNQFNFASDIEPFRPLVDKIVYENRNQPFPKIKRELFTLFSDTFSYNGKEYLTNIISDYTKKVVKALNNEGKGVPEFRI AGWRTVVVNTHSKLSYKNNHLIFKDAYKTELIHLSEIDILLLETTDIVLSTLVKRLVDENVLVIFCDDKRLPTALPFYGRHDSSLQLGKQSWSETVKSQVWTTIIAQKILNQSCYLGACSYFEKSQSIDLYHGLENFDPSNREGHAARIYFNTLFGNDFSRDLEHPINAGLDYGYTLLLSFAREVVVSGCTQFGLKHANQFNQFNFASDIEPFRPLVDKIVYENRNQPFPKIKRELFTLFSDTFSYNGKEYLTNIISDYTKKVVKALNNEGKGVPEFRI 4zkp-a2-m3-cB_4zkp-a2-m5-cB P22 Tail Needle Gp26 crystallized at pH 7.0 P35837 P35837 2.1 X-RAY DIFFRACTION 260 1.0 10754 (Lederbergvirus P22) 10754 (Lederbergvirus P22) 179 179 2poh-a1-m1-cA_2poh-a1-m1-cB 2poh-a1-m1-cA_2poh-a1-m1-cC 2poh-a1-m1-cB_2poh-a1-m1-cC 2poh-a2-m1-cD_2poh-a2-m1-cE 2poh-a2-m1-cD_2poh-a2-m1-cF 2poh-a2-m1-cE_2poh-a2-m1-cF 3c9i-a1-m1-cA_3c9i-a1-m1-cB 3c9i-a1-m1-cA_3c9i-a1-m1-cC 3c9i-a1-m1-cC_3c9i-a1-m1-cB 3c9i-a2-m1-cD_3c9i-a2-m1-cE 3c9i-a2-m1-cD_3c9i-a2-m1-cF 3c9i-a2-m1-cF_3c9i-a2-m1-cE 4zkp-a1-m1-cA_4zkp-a1-m2-cA 4zkp-a1-m1-cA_4zkp-a1-m4-cA 4zkp-a1-m2-cA_4zkp-a1-m4-cA 4zkp-a2-m1-cB_4zkp-a2-m3-cB 4zkp-a2-m1-cB_4zkp-a2-m5-cB 4zku-a1-m1-cA_4zku-a1-m2-cA 4zku-a1-m1-cA_4zku-a1-m4-cA 4zku-a1-m2-cA_4zku-a1-m4-cA 4zku-a2-m1-cB_4zku-a2-m3-cB 4zku-a2-m1-cB_4zku-a2-m5-cB 4zku-a2-m3-cB_4zku-a2-m5-cB GAYDAQVKNDEQDVELADHEARIKQLRIDVDDHESRITANTKAITALNVRVTTAEGEIASLQTNVSALDGRVTTAENNISALQADYVSKTATTSQSLASPLNVTTSYSVGGKKVLGARQTGWTAATGTANKGVFDADLTFAVSDTYTQSEIQAIANALITERRRTKAMEDALRAHGLID GAYDAQVKNDEQDVELADHEARIKQLRIDVDDHESRITANTKAITALNVRVTTAEGEIASLQTNVSALDGRVTTAENNISALQADYVSKTATTSQSLASPLNVTTSYSVGGKKVLGARQTGWTAATGTANKGVFDADLTFAVSDTYTQSEIQAIANALITERRRTKAMEDALRAHGLID 4zkr-a1-m1-cP_4zkr-a1-m1-cU The crystal structure of upain-1-W3A in complex with uPA at pH9.0 P00749 1.36 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 9606 (Homo sapiens) 1 246 R IIGGEFTTIENQPWFAAIYRRHRGGSVTYVCGGSLISPCWVISATHCFIDYPKKEDYIVYLGRSRLNSNTQGEMKFEVENLILHKDYSADTLAHHNDIALLKIRSKEGRCAQPSRTIQTIALPSMYNDPQFGTSCEITGFGKEQSTDYLYPEQLKMTVVKLISHRECQQPHYYGSEVTTKMLCAADPQWKTDSCQGDSGGPLVCSLQGRMTLTGIVSWGRGCALKDKPGVYTRVSHFLPWIRSHTK 4zlf-a1-m1-cA_4zlf-a1-m2-cA Cellobionic acid phosphorylase - cellobionic acid complex Q21MB1 Q21MB1 1.6 X-RAY DIFFRACTION 148 1.0 203122 (Saccharophagus degradans 2-40) 203122 (Saccharophagus degradans 2-40) 785 785 4zle-a1-m1-cA_4zle-a1-m2-cA 4zlg-a1-m1-cA_4zlg-a1-m2-cA 4zli-a1-m1-cA_4zli-a1-m2-cA GLKAINNGERYQLTSPTAMPQSASFLWNKKMMIQVNCRGYAVAQFMQPEPAKYAYAPNLEAKTFMQPEQPYYAHHPGRFFYIKDEETGEIFSAPYEPVRSQLNNFSFNAGKSDISWHIAALGIEVELCLSLPVDDVVELWELKIKNGGAQPRKLSIYPYFPVGYMSWMNQSGDYSQTAGGIIASCVTPYQKVADYFKNKDFKDKTFFLHETAPAAWEVNQKNFEGEGGLHNPNAIQQETLGCGNALYETPTAVLQYRRELAAQEQQTFRFIFGPAFDESEAIALRNKYLSAEGFAKAKSEYQTYITSGKGCLQINTPDPELNNFVNHWLPRQVFYHGDVNRLTTDPQTRNYIQDNMGMSYIKPNITRQAFLHALSQQEESGAMPDGILLLEGAELKYINQIPHTDHCVWLPVCMQAYLDETNDYALLDEIVPYASGEKRETVEQHMHHAMRWLLQARDERGLSFIAQGDWCDPMNMVGYKGKGVSGWLSVATAYALNLWADVCEQRQQNSCANEFRQGAKDINAAVNKHIWDGEWFGRGITDDGVLFGTSKDKEGRIFLNPQSWAILGGAADEQKIPCLLDAVEQQLETPYGVMMLAPAFTAMRDDVGRVTQKFPGSAENGSVYNHAAVFYIFSLLSIGESERAYKLLRQMLPGPDEADLLQRGQLPVFIPNYYRGAYYQHPRTAGRSSQLFNTGTVSWVYRCLIEGVFGLKGSPQGLVVQPQLPVAWQTAEAVREFRGATFNVSYRKSSDIKEMEIQLNESVISGNTISDITAGATYQLTVLLP GLKAINNGERYQLTSPTAMPQSASFLWNKKMMIQVNCRGYAVAQFMQPEPAKYAYAPNLEAKTFMQPEQPYYAHHPGRFFYIKDEETGEIFSAPYEPVRSQLNNFSFNAGKSDISWHIAALGIEVELCLSLPVDDVVELWELKIKNGGAQPRKLSIYPYFPVGYMSWMNQSGDYSQTAGGIIASCVTPYQKVADYFKNKDFKDKTFFLHETAPAAWEVNQKNFEGEGGLHNPNAIQQETLGCGNALYETPTAVLQYRRELAAQEQQTFRFIFGPAFDESEAIALRNKYLSAEGFAKAKSEYQTYITSGKGCLQINTPDPELNNFVNHWLPRQVFYHGDVNRLTTDPQTRNYIQDNMGMSYIKPNITRQAFLHALSQQEESGAMPDGILLLEGAELKYINQIPHTDHCVWLPVCMQAYLDETNDYALLDEIVPYASGEKRETVEQHMHHAMRWLLQARDERGLSFIAQGDWCDPMNMVGYKGKGVSGWLSVATAYALNLWADVCEQRQQNSCANEFRQGAKDINAAVNKHIWDGEWFGRGITDDGVLFGTSKDKEGRIFLNPQSWAILGGAADEQKIPCLLDAVEQQLETPYGVMMLAPAFTAMRDDVGRVTQKFPGSAENGSVYNHAAVFYIFSLLSIGESERAYKLLRQMLPGPDEADLLQRGQLPVFIPNYYRGAYYQHPRTAGRSSQLFNTGTVSWVYRCLIEGVFGLKGSPQGLVVQPQLPVAWQTAEAVREFRGATFNVSYRKSSDIKEMEIQLNESVISGNTISDITAGATYQLTVLLP 4zlh-a1-m1-cA_4zlh-a1-m1-cB Structure of the LapB cytoplasmic domain at 2 angstroms P0AB60 P0AB60 2 X-RAY DIFFRACTION 69 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 323 338 GTVEAHLTLGNLFRSRGEVDRAIRIHQTLMESASLTYEQRLLAIQQLGRDYMAAGLYDRAEDMFNQLTDETDFRIGALQQLLQIYQATSEWQKAIDVAERLVKLGKDKQRVEIAHFYCELALQHMASDDLDRAMTLLKKGAAADKNSARVSIMMGRVFMAKGEYAKAVESLQRVISQDRELVSETLEMLQTCYQQLGKTAEWAEFLQRAVEENTGADAELMLADIIEARDGSEAAQVYITRQLQRHPTMRVFHKLMDYHLNEAEEGRAKESLMVLRDMVGEKVRSKPRYRCQKCGFTAYTLYWHCPSCRAWSTIKPIRGLDGL DKAVDLFLDMLKEDTGTVEAHLTLGNLFRSRGEVDRAIRIHQTLMESASLTYEQRLLAIQQLGRDYMAAGLYDRAEDMFNQLTDETDFRIGALQQLLQIYQATSEWQKAIDVAERLVKLGKDKQRVEIAHFYCELALQHMASDDLDRAMTLLKKGAAADKNSARVSIMMGRVFMAKGEYAKAVESLQRVISQDRELVSETLEMLQTCYQQLGKTAEWAEFLQRAVEENTGADAELMLADIIEARDGSEAAQVYITRQLQRHPTMRVFHKLMDYHLNEAEEGRAKESLMVLRDMVGEKVRSKPRYRCQKCGFTAYTLYWHCPSCRAWSTIKPIRGLDGL 4zlp-a1-m1-cB_4zlp-a1-m1-cA Crystal Structure of Notch3 Negative Regulatory Region Q9UM47 Q9UM47 2.479 X-RAY DIFFRACTION 33 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 218 241 CGDQRCDRECNSPGCGWDGGDCSLSVGDPWRQCEALQCWRLFNNSRCDPACSSPACLYDNFDCHAGGRERTCNPVYEKYCADHFADGRCDQGCNTEECGWDGLDCASEVPALLARGVLVLTVLLPPEELLRSSADFLQRLSAILRTSLRFRLDAHGQAMVFPYHREVIGSVVMLEIDNRLCLDHCFPDAQSAADYLGALSAVERLDFPYPLRDVRGEP PRCPRAACQAKRGDQRCDRECNSPGCGWDGGDCSLSVGDPWRQCEALQCWRLFNNSRCDPACSSPACLYDNFDCHAGGRERTCNPVYEKYCADHFADGRCDQGCNTEECGWDGLDCASEVPALLARGVLVLTVLLPPEELLRSSADFLQRLSAILRTSLRFRLDAHGQAMVFPYHRPSPEVIGSVVMLEIDNRLCLQSPENDHCFPDAQSAADYLGALSAVERLDFPYPLRDVRGEPLEPP 4zlr-a1-m1-cA_4zlr-a1-m1-cB Structure of the Brat-NHL domain bound to consensus RNA motif Q8MQJ9 Q8MQJ9 2.3 X-RAY DIFFRACTION 31 0.996 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 278 278 QIKRQKMIYHCKFGEFGVMEGQFTEPSGVAVNAQNDIIVADTNNHRIQIFDKEGRFKFQFGECGKRDQLLYPNRVAVVRNSGDIIVTERSPTHQIQIYNQYGQFVRKFGATILQHPRGVTVDNKGRIIVVECKVMRVIIFDQNGNVLHKFGCSKHLEFPNGVVVNDKQEIFISDNRAHCVKVFNYEGQYLRQIGGEGITNYPIGVGINSNGEILIADNHNNFNLTIFTQDGQLISALESKVKHAQCFDVALMDDGSVVLASKDYRLYIYRYVQLAPVG QIKRQKMIYHCKFGEFGVMEGQFTEPSGVAVNAQNDIIVADTNNHRIQIFDKEGRFKFQFGECGKRDSQLLYPNRVAVVRNSGDIIVTERSPTHQIQIYNQYGQFVRKFGATILQHPRGVTVDNKGRIIVVECKVMRVIIFDQNGNVLHKFGCSKHLEFPNGVVVNDKQEIFISDNRAHCVKVFNYEGQYLRQIGGEGITNYPIGVGINSNGEILIADNHNNFNLTIFTQDGQLISALESKVKHAQCFDVALMDDGSVVLASKDYRLYIYRYVQLAPV 4zm4-a3-m1-cF_4zm4-a3-m1-cE Complex structure of PctV K276R mutant with PMP and 3-dehydroshkimate A8R0K5 A8R0K5 2.4 X-RAY DIFFRACTION 392 0.998 68249 (Streptomyces pactum) 68249 (Streptomyces pactum) 418 425 4zm3-a1-m1-cB_4zm3-a1-m1-cA 4zm3-a2-m1-cC_4zm3-a2-m1-cD 4zm4-a1-m1-cA_4zm4-a1-m1-cB 4zm4-a2-m1-cD_4zm4-a2-m1-cC TNAESLDGIKSVIAGGVSSSMRAAAVPLPLVVRSAGGCLLRDVEDGEIIDLNMGYGPHLFGYADREVLDAVADQFAKGHMTGLPHELDARAGALIAELVPGVEQVRFANSGTEAVASALRLARATTGRTLVVTFEGHYHGWSETVLRAGRPTDVVPGALGMIPEALAHTVQLGWNDPDALRELFARDGDRIAAVIVEPVLANAGVIPPAPGFLQLLRELTGRSGAMLVFDEVITGFRVARGGAQERYGVEPDLTVLSRVMGGGFPVAAFGGRRHAMRMLASNEAHHAGVYAGNHAALRAVVAMLGKIRSLPDLYERLEDTGQYMEDTVREVFATEKRPVHINRVGTLMSVALLKEPRDLRQLAALVDFPRHRRLQTLAQKEGVYFHPNALEPWFLSTAHTRDVIDKVAGALQRSLVGL TNAESLDGIKSVIAGGVSSSMRAAAVPLPLVVRSAGGCLLRDVEDGEIIDLNMGYGPHLFGYADREVLDAVADQFAKGHMTGLPHELDARAGALIAELVPGVEQVRFANSGTEAVASALRLARATTGRTLVVTFEGHYHGWSETVLRATRPTDVVPGALGMIPEALAHTVQLGWNDPDALRELFARDGDRIAAVIVEPVLANAGVIPPAPGFLQLLRELTGRSGAMLVFDEVITGFRVARGGAQERYGVEPDLTVLSRVMGGGFPVAAFGGRRHAMRMLASNEAHHAGVYAGNHAALRAVVAMLGKIRSLPDLYERLEDTGQYMEDTVREVFATEKRPVHINRVGTLMSVALLKGSAEPSAEPRDLRQLAALVDFPRHRRLQTLAQKEGVYFHPNALEPWFLSTAHTRDVIDKVAGALQRSLVGL 4zm6-a1-m1-cA_4zm6-a1-m1-cB A unique GCN5-related glucosamine N-acetyltransferase region exist in the fungal multi-domain GH3 beta-N-acetylglucosaminidase V9M3A9 V9M3A9 2.8 X-RAY DIFFRACTION 55 1.0 1031333 (Rhizomucor miehei CAU432) 1031333 (Rhizomucor miehei CAU432) 844 844 NLDKEIGQLLMCGFDGLEPTPGIIDLIENHNLGSIILFSRNIATPKQVQKLTHSLQQIARNAGHKRPLFIAVDQENGVVRRLGDSGTYLPGNMALGALGSSTAARNVAMAISKELLTLGMNWNLAPVLDVNNNPLNPVIGVRSYGQDPELVARMGLAQVEGYQRGKVATSIKHFPGHGDTATDSHLDVPVINKTLEELDKTELVPFKKALEAGGIACPTSVMVGHMLLPHFNKDVVSSIAPEIVRDLLRRRFGYKGVIITDCLEMDAVKETVGTPKGALMALQAGNDMAMISHTLAFQKDAFKVLYSALQEGQLDKDEIRQSLQRVAQLKDQFLNWDDVLQQADLKTMGSEAHATLSKELYDRVPTVVTNRKNTLPIRPAQTDKILFLAAHVPEKEPFNSFHASLLKRHTNLEYIIYNEETPDLSQKIQEADWVIIGTANANLYPFQVRMVQQAQKLAKRLVVAAVMNPYDQMCFPQVDTYLVTYEYTPPAHEAAVRLIFGEIETRSRLPISIPNVDDAIAPATFIVDDYRNDDDLDHVTAMWDDIFGKDWPLRKDKINLGLQRAKLQKHKVARDSQGKIVGFVATQIVVVDNKKHGQLMLLMVSPSYQGKGVGTLLHDAALEHFREQGADCIKLGSTYPRFFPGVPDDDAQSRKAQAFFSKKGWRMDDNLVHDLIGDLQDYKVPDKIQARMLKEKIWFGRIKPSETWELYAFQQRNFPHWLSTYQHHVELGDYQDLIVARQDDENGRVIASLILNTTHVSHEYRSDLIWTDDKLFGERSGGMACVGVAQEERGRGIGIGIVAHANWLLKQRGVTKSYVDWVELLDFYSRVGYKTWRSYRLGHF NLDKEIGQLLMCGFDGLEPTPGIIDLIENHNLGSIILFSRNIATPKQVQKLTHSLQQIARNAGHKRPLFIAVDQENGVVRRLGDSGTYLPGNMALGALGSSTAARNVAMAISKELLTLGMNWNLAPVLDVNNNPLNPVIGVRSYGQDPELVARMGLAQVEGYQRGKVATSIKHFPGHGDTATDSHLDVPVINKTLEELDKTELVPFKKALEAGGIACPTSVMVGHMLLPHFNKDVVSSIAPEIVRDLLRRRFGYKGVIITDCLEMDAVKETVGTPKGALMALQAGNDMAMISHTLAFQKDAFKVLYSALQEGQLDKDEIRQSLQRVAQLKDQFLNWDDVLQQADLKTMGSEAHATLSKELYDRVPTVVTNRKNTLPIRPAQTDKILFLAAHVPEKEPFNSFHASLLKRHTNLEYIIYNEETPDLSQKIQEADWVIIGTANANLYPFQVRMVQQAQKLAKRLVVAAVMNPYDQMCFPQVDTYLVTYEYTPPAHEAAVRLIFGEIETRSRLPISIPNVDDAIAPATFIVDDYRNDDDLDHVTAMWDDIFGKDWPLRKDKINLGLQRAKLQKHKVARDSQGKIVGFVATQIVVVDNKKHGQLMLLMVSPSYQGKGVGTLLHDAALEHFREQGADCIKLGSTYPRFFPGVPDDDAQSRKAQAFFSKKGWRMDDNLVHDLIGDLQDYKVPDKIQARMLKEKIWFGRIKPSETWELYAFQQRNFPHWLSTYQHHVELGDYQDLIVARQDDENGRVIASLILNTTHVSHEYRSDLIWTDDKLFGERSGGMACVGVAQEERGRGIGIGIVAHANWLLKQRGVTKSYVDWVELLDFYSRVGYKTWRSYRLGHF 4zm8-a2-m1-cC_4zm8-a2-m1-cD Crystal Structure of Sialostatin L Q8MVB6 Q8MVB6 2.6762 X-RAY DIFFRACTION 229 0.982 6945 (Ixodes scapularis) 6945 (Ixodes scapularis) 109 109 4zm8-a1-m1-cA_4zm8-a1-m1-cB FGGYSERHQANPEFLNLAHYATSTWSAQQPGKTHFDTVAEVVKVETQVVAGTNYRLTLKVAESTCELTSTYNKDTCLPKADAAHRTCTTVVFENLQGDKSVSPFECEAA FGGYSERANHQANPEFLNLAHYATSTWSAQQPGKTHFDTVAEVVKVETQVVAGTNYRLTLKVAESTCELTSTYNKDTCLPKADAAHRTCTTVVFENLQGDKSVSPFECE 4zmh-a1-m1-cB_4zmh-a1-m1-cA Crystal structure of a five-domain GH115 alpha-Glucuronidase from the Marine Bacterium Saccharophagus degradans 2-40T Q21JW4 Q21JW4 1.93 X-RAY DIFFRACTION 90 1.0 203122 (Saccharophagus degradans 2-40) 203122 (Saccharophagus degradans 2-40) 907 910 GYISFKANGGVRLADEEHLASLLVDTNDYKGLQRAAADLQTDQRVTGKLPTLHSQLKDAGRHAVIIGSVGRSGLIQLLVEQNKLNVADIEGQWEAYKLVVVDKPFPNIEKALVIAGSDRGAIFGVYDLSQQIGVSPWYWWADVPVQPQSKLYVRGDTHIVEQPKVQYRGIFLNDEAPALTNWVHANYGNYNSQFYTQVFELLLRLKANFLWPAWNNSFSVDDPLNPVLANEYGIVSTSHHEPRAHKEWHGGRWDFTTNADALKQFWREGVERNSPYENIITARGDGSEDANVELLEQIVEAQRNIIAEVFEPKGKQVTEVPQVWCLYKEVQDYYEKGRVPDDITLLWADDNWGNIRRLPTAEERKRSGGAGVYYHFDYVGGPRSYRWINTTPLAKIWEQHLAYKYEANKIWIVNVGDLKPEAPIEYFLEAWNPEQWPKERITQFAELWAEREFGPTYAKEIAQLVQDYTQHNGRRKPELQEAKTYSLLNYDEAARIEQQLTDESRAETLFNKIPANQRDAYYQLVHPVLASATVTKYIAQARNRLYAKQGRPIANSYGQQVKELFEKDAALTKRYHSINNGKWNHFSQPHIGYTHWNNPEDNIPVVSVVSKGNNADGVAVEGEPAWPTQDVAFALPTFTPYGKQTKILTVFNKGVKPLKFSVSSGAAWLKVSASSGEITHQEQIQVSIDWAKLPLGIHESNVTIKGPSWVAANIKVTANKPAKVIPLKKLTGFVEADGYISFDAAATTHSKAVDGFEWQEIPAHGRTHSSSVYPIRDASFAAPANASANTAPQHYSITLLTAGEVTVEGLFAPTWPIHPERGLRYAIAFDDQPPQIVDVLAGNSHKVWQESVRTGVRRASSKHTLTAGTHTKVWAIDPAVTVQKWIIDTGELKPSYLGPTPSPRGGK GYISFKANGGVRLADEEHLASLLVDTNDYKGLQRAAADLQTDQRVTGKLPTLHSQLKDAGRHAVIIGSVGRSGLIQLLVEQNKLNVADIEGQWEAYKLVVVDKPFPNIEKALVIAGSDRGAIFGVYDLSQQIGVSPWYWWADVPVQPQSKLYVRGDTHIVEQPKVQYRGIFLNDEAPALTNWVHANYGNYNSQFYTQVFELLLRLKANFLWPAWNNSFSVDDPLNPVLANEYGIVSTSHHEPRAHKEWHGGRWDFTTNADALKQFWREGVERNSPYENIITARGDGDEASEDANVELLEQIVEAQRNIIAEVFEPKGKQVTEVPQVWCLYKEVQDYYEKGRVPDDITLLWADDNWGNIRRLPTAEERKRSGGAGVYYHFDYVGGPRSYRWINTTPLAKIWEQHLAYKYEANKIWIVNVGDLKPEAPIEYFLEAWNPEQWPKERITQFAELWAEREFGPTYAKEIAQLVQDYTQHNGRRKPELQEAKTYSLLNYDEAARIEQQLTDESRAETLFNKIPANQRDAYYQLVHPVLASATVTKYIAQARNRLYAKQGRPIANSYGQQVKELFEKDAALTKRYHSINNGKWNHFSQPHIGYTHWNNPEDNIPVVSVVSKGNNADGVAVEGEPAWPTQDVAFALPTFTPYGKQTKILTVFNKGVKPLKFSVSSGAAWLKVSASSGEITHQEQIQVSIDWAKLPLGIHESNVTIKGPSWVAANIKVTANKPAKVIPLKKLTGFVEADGYISFDAAATTHSKAVDGFEWQEIPAHGRTHSSSVYPIRDASFAAPANASANTAPQHYSITLLTAGEVTVEGLFAPTWPIHPERGLRYAIAFDDQPPQIVDVLAGNSHKVWQESVRTGVRRASSKHTLTAGTHTKVWAIDPAVTVQKWIIDTGELKPSYLGPTPSPRGGK 4zmk-a1-m1-cA_4zmk-a1-m2-cA Crystal structure of the dimerization domain of S. pombe Taz1 P79005 P79005 1.5 X-RAY DIFFRACTION 89 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 71 71 DTFSERTLGLNSIDNTEISEVVSLGLVSSALDKITGLLSADNLSETVSQARDFSHTLSKSLKSRAKSLSQK DTFSERTLGLNSIDNTEISEVVSLGLVSSALDKITGLLSADNLSETVSQARDFSHTLSKSLKSRAKSLSQK 4zms-a1-m1-cB_4zms-a1-m1-cA Structure of the full-length response regulator spr1814 in complex with a phosphate analogue and B3C Q8DNC2 Q8DNC2 1.9 X-RAY DIFFRACTION 57 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 200 207 4e7p-a2-m1-cA_4e7p-a2-m2-cB 4zmr-a1-m1-cB_4zmr-a1-m1-cA HMKVLVAEDQSMLRDAMCQLLTLQPDVESVLQAKNGQEAIQLLEKESVDIAILDVEMPVKTGLEVLEWIRSEKLETKVVVVTTFKRAGYFERAVKAGVDAYVLKERSIADLMQTLHTVLEGRKEYSPELMEMVMTRPNPLTEQEIAVLKGIARGLSNQEIADQLYLSNGTIRNYVTNILSKLDAGNRTEAANIAKESGWL GLVPRGSHMKVLVAEDQSMLRDAMCQLLTLQPDVESVLQAKNGQEAIQLLEKESVDIAILDVEMPVKTGLEVLEWIRSEKLETKVVVVTTFKRAGYFERAVKAGVDAYVLKERSIADLMQTLHTVLEGRKEYSPELMEMVMTRPNPLTEQEIAVLKGIARGLSNQEIADQLYLSNGTIRNYVTNILSKLDAGNRTEAANIAKESGWL 4zmu-a2-m1-cC_4zmu-a2-m1-cD Dcsbis, a diguanylate cyclase from Pseudomonas aeruginosa Q9I072 Q9I072 2.502 X-RAY DIFFRACTION 90 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 338 338 4zmu-a1-m1-cB_4zmu-a1-m1-cA CPLPPDEALRQQALDDMALVDTPAEHYLDALVELARETFGVKTVLISLIDHDRQWFKARIGLDAEQTPRDLSFCGHAILASEPLMVTDASRDPRFHDNPLVTGPPFIRFYAGEPLHASNGQAIGTLCLIDPSPRLLDLREGRQLNRLSILAEGYLQLRSLTEHTRFLRQEIDREQRKSLLDPLTQLWNRAGFHALHQHELELARASDQRIGIIYSDIDHFKRINDTLGHRAGDSVLREAASRLRAALRPEDLLARFGGEEFVAMVRVRETTELTMIANRIRELMEATPIDCAGTSVPVTISAGCTLAGSGEEPERALARADAALYDAKRAGRNRVVSV CPLPPDEALRQQALDDMALVDTPAEHYLDALVELARETFGVKTVLISLIDHDRQWFKARIGLDAEQTPRDLSFCGHAILASEPLMVTDASRDPRFHDNPLVTGPPFIRFYAGEPLHASNGQAIGTLCLIDPSPRLLDLREGRQLNRLSILAEGYLQLRSLTEHTRFLRQEIDREQRKSLLDPLTQLWNRAGFHALHQHELELARASDQRIGIIYSDIDHFKRINDTLGHRAGDSVLREAASRLRAALRPEDLLARFGGEEFVAMVRVRETTELTMIANRIRELMEATPIDCAGTSVPVTISAGCTLAGSGEEPERALARADAALYDAKRAGRNRVVSV 4zn0-a2-m1-cD_4zn0-a2-m1-cB Structure of the NADPH-dependent thioredoxin reductase from Methanosarcina mazei Q8PUI1 Q8PUI1 2.6 X-RAY DIFFRACTION 60 0.996 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 270 279 4zn0-a1-m1-cC_4zn0-a1-m1-cA AYDLIIIGGGPAGLTAGIYAVRYGLDTLILERRTHAQEVGVKTTITEVLSVRSEGTKKIITTDSGDLEAKAVIIATGANPKHLGVPGEKELISKGVSYCAICDGPFFRNKIVAVVGGGNSAVTDALFLSKVAQKVYLVHRRDHLKAARVLQDRVDGTPNIELILNSHVLEIVGTRIKKVEKIILEDVNSRETRELSTNGVFIYVGIHPNTEFVDVEKDEGGFIKTDRWMETSEKGIYAAGDCRDTPIWQLVTAVRDGAIAATAAYEYIEK SMYDLIIIGGGPAGLTAGIYAVRYGLDTLILERNMERFRTHAQEVGVKTTITEVLSVRSEGTKKIITTDSGDLEAKAVIIATGANPKHLGVPGEKELISKGVSYCAICDGPFFRNKIVAVVGGGNSAVTDALFLSKVAQKVYLVHRRDHLKAARVLQDRVDGTPNIELILNSHVLEIVGTREGIKKVEKIILEDVNSRETRELSTNGVFIYVGIHPNTEFVDVEKDEGGFIKTDRWMETSEKGIYAAGDCRDTPIWQLVTAVRDGAIAATAAYEYIEKI 4zn6-a1-m1-cB_4zn6-a1-m1-cA X-ray Crystal Structure of 1-deoxy-D-xylulose 5-phosphate reductoisomerase (IspC) from Acinetobacter baumannii B7H1U5 B7H1U5 2.05 X-RAY DIFFRACTION 140 1.0 557600 (Acinetobacter baumannii AB307-0294) 557600 (Acinetobacter baumannii AB307-0294) 388 392 7s04-a1-m1-cA_7s04-a1-m2-cA TQSVCILGVTGSIGRSTLKILGQHPDKYSVFAVSAHSRISELVEICKQFRPKVVVVPEQKIAELKTLFAQQNISDIDVLAGQEGLVDIASHTDVDIVMAAIVGAAGLLPTLAAVKAGKRVLLANKEALVMSGEIMMQAARDHQALLLPVDSEHNAIFQSLPHNYLQADRTGQPQLGVSKILLTASGGPFLNHSLEQLVHVTPQQAQKISVDSATLMNKGLELIEACHLFSISEHFVTVVVHPQSIIHSMVQYVDGSTLAQMGNPDMCTPIAHALAWPERLQTNVPALDLFEYSQLNFQAPDTQKFPALNLARQAMRAGGLAPTILNAANEIAVEAFLMERIGFTSIPQVVEHTLEKLENAAAESIECILDKDKVARSVAQQYISSIGG TQSVCILGVTGSIGRSTLKILGQHPDKYSVFAVSAHSRISELVEICKQFRPKVVVVPEQKIAELKTLFAQQNISDIDVLAGQEGLVDIASHTDVDIVMAAIVGAAGLLPTLAAVKAGKRVLLANKEALVMSGEIMMQAARDHQALLLPVDSEHNAIFQSLPHNYLQADRTGQPQLGVSKILLTASGGPFLNHSLEQLVHVTPQQACKMGQKISVDSATLMNKGLELIEACHLFSISEHFVTVVVHPQSIIHSMVQYVDGSTLAQMGNPDMCTPIAHALAWPERLQTNVPALDLFEYSQLNFQAPDTQKFPALNLARQAMRAGGLAPTILNAANEIAVEAFLMERIGFTSIPQVVEHTLEKLENAAAESIECILDKDKVARSVAQQYISSIGG 4zn8-a1-m1-cB_4zn8-a1-m1-cA Using molecular dynamics simulations to predict domain swapping of computationally designed protein variants 3 X-RAY DIFFRACTION 45 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 48 50 EFSEEQKRTLDLLFLFDRRTEERRRWLSQRLGLNEEQIERWFRRKEQQ TEFSEEQKRTLDLLFLFDRRTEERRRWLSQRLGLNEEQIERWFRRKEQQI 4zn8-a1-m1-cD_4zn8-a1-m1-cA Using molecular dynamics simulations to predict domain swapping of computationally designed protein variants 3 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 45 50 4zn8-a1-m1-cC_4zn8-a1-m1-cB EFSEEQKRTLDLLFLFDRRTEERRRWLSQRLGLNEEQIERWFRRK TEFSEEQKRTLDLLFLFDRRTEERRRWLSQRLGLNEEQIERWFRRKEQQI 4zo2-a1-m1-cA_4zo2-a1-m1-cB AidC, a Dizinc Quorum-Quenching Lactonase I7HB71 I7HB71 1.09 X-RAY DIFFRACTION 64 1.0 878220 (Chryseobacterium sp. StRB126) 878220 (Chryseobacterium sp. StRB126) 293 294 4zo3-a3-m1-cA_4zo3-a3-m1-cB DLSGFKKIKLGELELFILTDGYIHEENLISFAPRGNVAELKTILKDNFRADHYIDMAINILLVKTKEKLILMDTGMGIFADERTGFLLKSLQKAGFSAHDITDIFLSHAHPDHIGGVVDKQNKLVFPNASIFISKIEHDFWINASIKDFNNSALKAHPERLNQIIPALQNILKAIQPKLKFYDLNKTLYSHFNFQLAPGHTPGLTVTTISSGNEKLMYVADLIHSDVILFPHPDWGFSGDTDLDIATASRKKFLKQLADTKARAFTSHLPWPGLGFTKVKAPGFEWIPESFMN DDLSGFKKIKLGELELFILTDGYIHEENLISFAPRGNVAELKTILKDNFRADHYIDMAINILLVKTKEKLILMDTGMGIFADERTGFLLKSLQKAGFSAHDITDIFLSHAHPDHIGGVVDKQNKLVFPNASIFISKIEHDFWINASIKDFNNSALKAHPERLNQIIPALQNILKAIQPKLKFYDLNKTLYSHFNFQLAPGHTPGLTVTTISSGNEKLMYVADLIHSDVILFPHPDWGFSGDTDLDIATASRKKFLKQLADTKARAFTSHLPWPGLGFTKVKAPGFEWIPESFMN 4zo4-a1-m1-cB_4zo4-a1-m1-cD Dephospho-CoA kinase from Campylobacter jejuni. Q9PMD9 Q9PMD9 2.57 X-RAY DIFFRACTION 15 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 191 191 AKNAFFVTASIACGKSTFIEIANSLGFKSISADKIAHKILDENALELEKIFSPFSLKNLLKKEKKIDRKILGEIVFNNKEAKKILENFTHPKIRAKILEQQILDKENKAFFVEIPLFENLGKVIVIYTPKELSLKRIQRDKLSLEAAKARLDSQIDIEEKLKKADFIIKNTNSYADFRQECVKVIQEISKG AKNAFFVTASIACGKSTFIEIANSLGFKSISADKIAHKILDENALELEKIFSPFSLKNLLKKEKKIDRKILGEIVFNNKEAKKILENFTHPKIRAKILEQQILDKENKAFFVEIPLFENLGKVIVIYTPKELSLKRIQRDKLSLEAAKARLDSQIDIEEKLKKADFIIKNTNSYADFRQECVKVIQEISKG 4zo4-a1-m1-cD_4zo4-a1-m1-cA Dephospho-CoA kinase from Campylobacter jejuni. Q9PMD9 Q9PMD9 2.57 X-RAY DIFFRACTION 32 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 191 198 4zo4-a1-m1-cB_4zo4-a1-m1-cC AKNAFFVTASIACGKSTFIEIANSLGFKSISADKIAHKILDENALELEKIFSPFSLKNLLKKEKKIDRKILGEIVFNNKEAKKILENFTHPKIRAKILEQQILDKENKAFFVEIPLFENLGKVIVIYTPKELSLKRIQRDKLSLEAAKARLDSQIDIEEKLKKADFIIKNTNSYADFRQECVKVIQEISKG AKNAFFVTASIACGKSTFIEIANSLGFKSISADKIAHKILDENALELEKIFSPFSLKNLLKKEKKIDRKILGEIVFNNKEAKKILENFTHPKIRAKILEQQILDKENKAFFVEIPLFFESGAYENLGKVIVIYTPKELSLKRIQRDKLSLEAAKARLDSQIDIEEKLKKADFIIKNTNSYADFRQECVKVIQEISKGN 4zo4-a1-m1-cD_4zo4-a1-m1-cC Dephospho-CoA kinase from Campylobacter jejuni. Q9PMD9 Q9PMD9 2.57 X-RAY DIFFRACTION 118 0.995 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 191 197 4zo4-a1-m1-cB_4zo4-a1-m1-cA AKNAFFVTASIACGKSTFIEIANSLGFKSISADKIAHKILDENALELEKIFSPFSLKNLLKKEKKIDRKILGEIVFNNKEAKKILENFTHPKIRAKILEQQILDKENKAFFVEIPLFENLGKVIVIYTPKELSLKRIQRDKLSLEAAKARLDSQIDIEEKLKKADFIIKNTNSYADFRQECVKVIQEISKG KNAFFVTASIACGKSTFIEIANSLGFKSISADKIAHKILDENALELEKIFSPFSLKNLLKKEKKIDRKILGEIVFNNKEAKKILENFTHPKIRAKILEQQILDKENKAFFVEIPLFFESGAYENLGKVIVIYTPKELSLKRIQRDKLSLEAAKARLDSQIDIEEKLKKADFIIKNTNSYADFRQECVKVIQEISKGN 4zoc-a1-m1-cA_4zoc-a1-m1-cB Crystal Structure of mutant (D270A) beta-glucosidase from Listeria innocua in complex with sophorotriose Q92AS9 Q92AS9 1.79 X-RAY DIFFRACTION 232 1.0 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 724 724 4zo6-a1-m1-cA_4zo6-a1-m1-cB 4zo7-a1-m1-cA_4zo7-a1-m1-cB 4zo8-a1-m1-cA_4zo8-a1-m1-cB 4zo9-a1-m1-cA_4zo9-a1-m1-cB 4zoa-a1-m1-cB_4zoa-a1-m1-cA 4zob-a1-m1-cB_4zob-a1-m1-cA 4zod-a1-m1-cA_4zod-a1-m1-cB 4zoe-a1-m1-cA_4zoe-a1-m1-cB MEQEKVQELVSQMTLDEKIAQCLQLSPFLFKGTNKNAELTGPLLQEMKLTDAHTENAGSVLGSSSALDMIGIQEAYLKTNRLGIPLVFMADVIHGYKTVFPIPLALGCSFDRETVRVMAEVSALEATADGHHVTFSPMLDLVRDPRWGRVMESTGEDPFLNSELGKAMVDGYQGDASKLNENLEQMAACVKHFAAYGAAEAGLEYNTVNMSTRELYQNYLPAYNAAIQAGAKLVMTAFNVVDGIPATMNKWLNRDVLRGEMEFDGVLISAWGAVAEVINHGTARNPKEAAQFSMEAGVDLEMMTTCYIHELKGLIEEGKLSENLLDEAVLRMLNLKNDLGLFEDPYRGLKNNDRTKDILTDESRGKARAAGVESAVLLENKSRLLPLAKEAKIALVGPLATSPDILGGWNVYGEEKDGINVETGLREVFETVEVVSTEYTELSEEDKVAVKAAVQNMDVVVLALGEKNEWGGEAGSLATIRLPEAQYQLAKFVQTLGKPVVITLFNGRPLEVKELAESSDALLELWFPGTEAGRVTADLLSGASNPSGKLSMSFPQTTGQIPVYYNHLRTGRPQTPENKGERYVSHYLDIPNEPFYPFGYGKSYSEFELKTSSLPKELNLGESLHVEVTIKNISDIAGKEVIQVYLQDVTASISRPVKELKAFEKVALQAGEEKTVTFELTSEAFSFYNHQLEKVQEPGLHRVFVGTSSEDVDVFEVEVGGYVL MEQEKVQELVSQMTLDEKIAQCLQLSPFLFKGTNKNAELTGPLLQEMKLTDAHTENAGSVLGSSSALDMIGIQEAYLKTNRLGIPLVFMADVIHGYKTVFPIPLALGCSFDRETVRVMAEVSALEATADGHHVTFSPMLDLVRDPRWGRVMESTGEDPFLNSELGKAMVDGYQGDASKLNENLEQMAACVKHFAAYGAAEAGLEYNTVNMSTRELYQNYLPAYNAAIQAGAKLVMTAFNVVDGIPATMNKWLNRDVLRGEMEFDGVLISAWGAVAEVINHGTARNPKEAAQFSMEAGVDLEMMTTCYIHELKGLIEEGKLSENLLDEAVLRMLNLKNDLGLFEDPYRGLKNNDRTKDILTDESRGKARAAGVESAVLLENKSRLLPLAKEAKIALVGPLATSPDILGGWNVYGEEKDGINVETGLREVFETVEVVSTEYTELSEEDKVAVKAAVQNMDVVVLALGEKNEWGGEAGSLATIRLPEAQYQLAKFVQTLGKPVVITLFNGRPLEVKELAESSDALLELWFPGTEAGRVTADLLSGASNPSGKLSMSFPQTTGQIPVYYNHLRTGRPQTPENKGERYVSHYLDIPNEPFYPFGYGKSYSEFELKTSSLPKELNLGESLHVEVTIKNISDIAGKEVIQVYLQDVTASISRPVKELKAFEKVALQAGEEKTVTFELTSEAFSFYNHQLEKVQEPGLHRVFVGTSSEDVDVFEVEVGGYVL 4zoh-a1-m1-cA_4zoh-a1-m2-cA Crystal structure of glyceraldehyde oxidoreductase Q96Y29 Q96Y29 2.2 X-RAY DIFFRACTION 128 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 701 701 MYIGKPIKRIEDLRLITGKGAYVDDIELPGTLFVAFVRSKYPHARIKVKKEEGIFTGEDINPGKDFPIATKETTYVGQPIAIVIAKDRYEAYDLIESVEVEYEELDYVLDPEKALEDKVKVHSGLSSNIYYHERWKGGDVEKAFKEADLTISDTLINQRVIASPLETRGALAYFDGNKLTFYSSTQSAHYLRRNLVDFLGFENIRVIQPDVGGAFGSKIIAHPEEYALAKLALMLRKPLKWVPTRTEEFISAGHGRDKKLKFEVAVKKDGTILGIRGTLIANLGAPYPDANDDESGNVKSTVRMLPGIYKIIGADIDAYAVHTNITPTQSYRGAGRPEGIYFIERIVNIVADELGIDQYEIRLKNAIDTLPYTNIFGVTYDSGNVKKLLEIGKKYYDELKKEDGCVGVSSYIEITAFGPWEVARISVKYDGKITLVTGTGPHGQGDATAFAQIAADVLELPIEKIEVRWGDTEIIEDGIGTWGSRTVTIGGSAVLLASQKLKDKLIEIGAKILNADEYKEGNVTHKKNGNKVTFNEIVKNAFKMGESLDTTAIYNVKQPPTTPYGVHLALVKVDGTGKVFVKKYVAVDDVGTVINPLLAEGQAIGGIVQGMAQALLEGAFFDENGQLLTTNFQDYPIPTAVEIPEKIDWYYEILGKSPHPTGSKGIGEAGAIAATPTIINAVEQCIKKRITKMPVKFEELV MYIGKPIKRIEDLRLITGKGAYVDDIELPGTLFVAFVRSKYPHARIKVKKEEGIFTGEDINPGKDFPIATKETTYVGQPIAIVIAKDRYEAYDLIESVEVEYEELDYVLDPEKALEDKVKVHSGLSSNIYYHERWKGGDVEKAFKEADLTISDTLINQRVIASPLETRGALAYFDGNKLTFYSSTQSAHYLRRNLVDFLGFENIRVIQPDVGGAFGSKIIAHPEEYALAKLALMLRKPLKWVPTRTEEFISAGHGRDKKLKFEVAVKKDGTILGIRGTLIANLGAPYPDANDDESGNVKSTVRMLPGIYKIIGADIDAYAVHTNITPTQSYRGAGRPEGIYFIERIVNIVADELGIDQYEIRLKNAIDTLPYTNIFGVTYDSGNVKKLLEIGKKYYDELKKEDGCVGVSSYIEITAFGPWEVARISVKYDGKITLVTGTGPHGQGDATAFAQIAADVLELPIEKIEVRWGDTEIIEDGIGTWGSRTVTIGGSAVLLASQKLKDKLIEIGAKILNADEYKEGNVTHKKNGNKVTFNEIVKNAFKMGESLDTTAIYNVKQPPTTPYGVHLALVKVDGTGKVFVKKYVAVDDVGTVINPLLAEGQAIGGIVQGMAQALLEGAFFDENGQLLTTNFQDYPIPTAVEIPEKIDWYYEILGKSPHPTGSKGIGEAGAIAATPTIINAVEQCIKKRITKMPVKFEELV 4zos-a2-m1-cB_4zos-a2-m1-cA 2.20 Angstrom resolution crystal structure of protein YE0340 of unidentified function from Yersinia enterocolitica subsp. enterocolitica 8081] A0A0M3KL35 A0A0M3KL35 2.2 X-RAY DIFFRACTION 71 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 97 105 4zos-a1-m1-cD_4zos-a1-m1-cC SEERHIICELRCEPENRERVKELVLKFVEPARLETGCLYYDLYQKIDEPDTFYIIDGWVNQEAVTSHAENPHVAEVMSDLQPLLTFGPSISLITRVS NAMQKIKSEERHIICELRCEPENRERVKELVLKFVEPARLETGCLYYDLYQKIDEPDTFYIIDGWVNQEAVTSHAENPHVAEVMSDLQPLLTFGPSISLITRVSD 4zpu-a2-m1-cC_4zpu-a2-m1-cD The structure of DLP12 endolysin exhibits likely active and inactive conformations. P78285 P78285 2.4 X-RAY DIFFRACTION 41 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 165 165 4zpu-a1-m1-cA_4zpu-a1-m1-cB MPPSLRKAVAAAIGGGAIAIASVLITGPSGNDGLEGVSYIPYKDIVGVWTVCHGHTGKDIMLGKTYTKAECKALLNKDLATVARQINPYIKVDIPETTRGALYSFVYNVGAGNFRTSTLLRKINQGDIKGACDQLRRWTYAGGKQWKGLMTRREIEREVCLWGQQ MPPSLRKAVAAAIGGGAIAIASVLITGPSGNDGLEGVSYIPYKDIVGVWTVCHGHTGKDIMLGKTYTKAECKALLNKDLATVARQINPYIKVDIPETTRGALYSFVYNVGAGNFRTSTLLRKINQGDIKGACDQLRRWTYAGGKQWKGLMTRREIEREVCLWGQQ 4zpx-a1-m1-cA_4zpx-a1-m1-cB Crystal structure of Lon ATPase domain from Thermococcus onnurineus NA1 B6YU74 B6YU74 2.03 X-RAY DIFFRACTION 23 0.997 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 325 333 SLELGIEFTTTEEIEVPEKLIDQVIGQEHAVEVIKTAANQKRHVLLIGEPGTGKSMLGQAMAELLPTETLEDILVFPNPEDENMPRIKTVPACQGRRIVEKYRLVPKLLVDNCGRTKAPFIDATGAHAGALLGDVRHGGLGTPAHERVEPGMIHRAHKGVLFIDEIATLSLKMQQSLLTAMQEKKFPITGQSMVRTEPVPCDFVLVAAGNLDTVDKMHPALRSRIRGYGYEVYMRTTMPDTIENRRKLVQFVAQEVKRDGKIPHFTKEAVEEIVREAQKRAGRKGHLTLRLRDLGGIVRAAGDIAVKKGKKYVEREDVIEAVKMA SLELGIEFTTTEEIEVPEKLIDQVIGQEHAVEVIKTAANQKRHVLLIGEPGTGKSMLGQAMAELLPTETLEDILVFPNPEDENMPRIKTVPACQGRRIVEKYREKLVPKLLVDNCGRTKAPFIDATGAHAGALLGDVRHDGLGTPAHERVEPGMIHRAHKGVLFIDEIATLSLKMQQSLLTAMQEKKFPITGQSEMSSGAMVRTEPVPCDFVLVAAGNLDTVDKMHPALRSRIRGYGYEVYMRTTMPDTIENRRKLVQFVAQEVKRDGKIPHFTKEAVEEIVREAQKRAGRKGHLTLRLRDLGGIVRAAGDIAVKKGKKYVEREDVIEAVKMA 4zq8-a1-m1-cA_4zq8-a1-m1-cB Crystal structure of a terpene synthase from Streptomyces lydicus, target EFI-540129 A0A0M3KL36 A0A0M3KL36 2 X-RAY DIFFRACTION 212 1.0 47763 (Streptomyces lydicus) 47763 (Streptomyces lydicus) 320 321 GGAVPGLRYRPAAPADPEKVEEIDRRLETWARELDLFGDFAEFQFGRAVVLQHPGAADLERLTAAGKLLLAENIVDNCYCEEDEGRGGAHRGLGGRLIMAQSALDPYHGTPEHEEEWRRGVQADGPLRSYHVALKDYAALATPSQTDRFVHDIARLHLGYLAEAAWAETRHAPKVWEYLVMRQFNNFRPCLSIVDAIDGYELPEALYARPEIQRVTALACNATTIVNDLYSFTRELASDPDHLNLPQVVAANDQRGLKAAYLKSVEIHNQIMEAFETESALLAATSPLIERYLQGLADWVSGNHEWHATNTDRYQLPNYW GGAVPGLRYRPAAPADPEKVEEIDRRLETWARELDLFSGDFAEFQFGRAVVLQHPGAADLERLTAAGKLLLAENIVDNCYCEEDEGRGGAHRGLGGRLIMAQSALDPYHGTPEHEEEWRRGVQADGPLRSYHVALKDYAALATPSQTDRFVHDIARLHLGYLAEAAWAETRHAPKVWEYLVMRQFNNFRPCLSIVDAIDGYELPEALYARPEIQRVTALACNATTIVNDLYSFTRELASDPDHLNLPQVVAANDQRGLKAAYLKSVEIHNQIMEAFETESALLAATSPLIERYLQGLADWVSGNHEWHATNTDRYQLPNYW 4zqa-a1-m1-cA_4zqa-a1-m2-cA Crystal Structure of the Sds3 Dimerization Domain Q8BR65 Q8BR65 1.65 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 86 86 SNAGTLQEYQKRMKKLDQQYRERIRNAELFLQLETEQVERNYIKEKKAAVKEFEDKKVELKENLIAELEEKKKMIENEKLTMELTG SNAGTLQEYQKRMKKLDQQYRERIRNAELFLQLETEQVERNYIKEKKAAVKEFEDKKVELKENLIAELEEKKKMIENEKLTMELTG 4zqb-a1-m1-cA_4zqb-a1-m1-cB Crystal structure of NADP-dependent dehydrogenase from Rhodobactersphaeroides in complex with NADP and sulfate Q3IWN8 Q3IWN8 1.85 X-RAY DIFFRACTION 52 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 313 316 MSRIALVTRLSPEAEAHWAGHLARALPGERIDGFRELSPAERAEVDIAIVANPDPADLAELPNLVWIHSLWAGVERLVAELGHLARPIVRLVDPELARTMAEAALAWTYYLFRDMPAYAAQQRARVWKGLPYKRPERTTVGVLGLGELGAAAALRLRDAGFDVHGWSRSPKEIAGVTCHAGEETLERMLGQVEILVCLLPLTGETRGLLDARRLACLPEGAQIVNFARGPILDSAALIEALDSGRIGHAVLDVFEVEPLPEASPFWGHPKVTVLPHISAATDPETASAIVGAHVADYRATGRIPPSVDLTRGY FQSMSRIALVTRLSPEAEAHWAGHLARALPGERIDGFRELSPAERAEVDIAIVANPDPADLAELPNLVWIHSLWAGVERLVAELGHLARPIVRLVDPELARTMAEAALAWTYYLFRDMPAYAAQQRARVWKGLPYKRPERTTVGVLGLGELGAAAALRLRDAGFDVHGWSRSPKEIAGVTCHAGEETLERMLGQVEILVCLLPLTGETRGLLDARRLACLPEGAQIVNFARGPILDSAALIEALDSGRIGHAVLDVFEVEPLPEASPFWGHPKVTVLPHISAATDPETASAIVGAHVADYRATGRIPPSVDLTRGY 4zqb-a2-m2-cA_4zqb-a2-m1-cB Crystal structure of NADP-dependent dehydrogenase from Rhodobactersphaeroides in complex with NADP and sulfate Q3IWN8 Q3IWN8 1.85 X-RAY DIFFRACTION 89 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 313 316 5c5i-a1-m1-cB_5c5i-a1-m1-cA MSRIALVTRLSPEAEAHWAGHLARALPGERIDGFRELSPAERAEVDIAIVANPDPADLAELPNLVWIHSLWAGVERLVAELGHLARPIVRLVDPELARTMAEAALAWTYYLFRDMPAYAAQQRARVWKGLPYKRPERTTVGVLGLGELGAAAALRLRDAGFDVHGWSRSPKEIAGVTCHAGEETLERMLGQVEILVCLLPLTGETRGLLDARRLACLPEGAQIVNFARGPILDSAALIEALDSGRIGHAVLDVFEVEPLPEASPFWGHPKVTVLPHISAATDPETASAIVGAHVADYRATGRIPPSVDLTRGY FQSMSRIALVTRLSPEAEAHWAGHLARALPGERIDGFRELSPAERAEVDIAIVANPDPADLAELPNLVWIHSLWAGVERLVAELGHLARPIVRLVDPELARTMAEAALAWTYYLFRDMPAYAAQQRARVWKGLPYKRPERTTVGVLGLGELGAAAALRLRDAGFDVHGWSRSPKEIAGVTCHAGEETLERMLGQVEILVCLLPLTGETRGLLDARRLACLPEGAQIVNFARGPILDSAALIEALDSGRIGHAVLDVFEVEPLPEASPFWGHPKVTVLPHISAATDPETASAIVGAHVADYRATGRIPPSVDLTRGY 4zqg-a1-m1-cA_4zqg-a1-m1-cB Crystal structure of the Moraxella catarrhalis DOX-P Reductoisomerase in complex with NADH, fosmidomycin and magnesium D5VAW2 D5VAW2 2.5 X-RAY DIFFRACTION 140 1.0 480 (Moraxella catarrhalis) 480 (Moraxella catarrhalis) 408 408 4zqe-a1-m1-cA_4zqe-a1-m1-cB 4zqf-a1-m1-cA_4zqf-a1-m1-cB 4zqh-a1-m1-cA_4zqh-a1-m1-cB LQSLAILGATGSIGDSTLAIIRQHPNRYRIHALTGFSRVDKLLALAMEFHPVKICTSPDNYAQLSQKVTDAGLDTIILSGDEGLIEIASDEAVDTVVAAIVGAAGLSSTLAAAGAGKRILLANKESLVMAGDLVIKTAKKHGATILPIDSEHNAIYQCLPAAIQADNTAIHHTSYGIKKLWLTASGGSFLDKSIKQMQNASVKEAVNHPNWSMGQKISIDSATMMNKGLELIEACHLFDLKEHQIQVVIHPNSVVHSLVEYVDGSFLAQLGTPDMKTPIAHALAYPERIKSGVMPLDLYQLGSLKFLAPDLDKFACLKLARYAARLGTGACIALNTANEIAVEAFLAEKICLTDIAVIVKACLDDKTIAQDYSQDFGDEVLGLERILTMDKKVRKIATAKIKLLKQGD LQSLAILGATGSIGDSTLAIIRQHPNRYRIHALTGFSRVDKLLALAMEFHPVKICTSPDNYAQLSQKVTDAGLDTIILSGDEGLIEIASDEAVDTVVAAIVGAAGLSSTLAAAGAGKRILLANKESLVMAGDLVIKTAKKHGATILPIDSEHNAIYQCLPAAIQADNTAIHHTSYGIKKLWLTASGGSFLDKSIKQMQNASVKEAVNHPNWSMGQKISIDSATMMNKGLELIEACHLFDLKEHQIQVVIHPNSVVHSLVEYVDGSFLAQLGTPDMKTPIAHALAYPERIKSGVMPLDLYQLGSLKFLAPDLDKFACLKLARYAARLGTGACIALNTANEIAVEAFLAEKICLTDIAVIVKACLDDKTIAQDYSQDFGDEVLGLERILTMDKKVRKIATAKIKLLKQGD 4zqx-a1-m2-cA_4zqx-a1-m3-cA A revised partiality model and post-refinement algorithm for X-ray free-electron laser data Q5EK29 Q5EK29 1.46 X-RAY DIFFRACTION 109 1.0 311554 (Uranotaenia sapphirina cypovirus) 311554 (Uranotaenia sapphirina cypovirus) 236 236 4s1k-a1-m1-cA_4s1k-a1-m2-cA 4s1k-a1-m1-cA_4s1k-a1-m3-cA 4s1k-a1-m2-cA_4s1k-a1-m3-cA 4s1l-a1-m1-cA_4s1l-a1-m2-cA 4s1l-a1-m1-cA_4s1l-a1-m3-cA 4s1l-a1-m2-cA_4s1l-a1-m3-cA 4zqx-a1-m1-cA_4zqx-a1-m2-cA 4zqx-a1-m1-cA_4zqx-a1-m3-cA ADLSLARQRLTDESVNEAPRAYDANMELVIVAEYPEGQCKSFHFANPFVIKGVIKSSELMWDIDNGHQMSEYELQRSINGYAASHSNMRQRSAINRIPKKLSFYLRGNVDWNKASIDIRGPTGLSMRQTEEYSLDRIRPPCSYKRNKFVDLPSCGGRCEKAWYVELDGRPVSIAVIVPRNMHNGINLYAGPLLGNVIEGLDTVPECTQWFDNAPELYAYHASNYGMTMLDQFSVIH ADLSLARQRLTDESVNEAPRAYDANMELVIVAEYPEGQCKSFHFANPFVIKGVIKSSELMWDIDNGHQMSEYELQRSINGYAASHSNMRQRSAINRIPKKLSFYLRGNVDWNKASIDIRGPTGLSMRQTEEYSLDRIRPPCSYKRNKFVDLPSCGGRCEKAWYVELDGRPVSIAVIVPRNMHNGINLYAGPLLGNVIEGLDTVPECTQWFDNAPELYAYHASNYGMTMLDQFSVIH 4zqy-a2-m1-cB_4zqy-a2-m1-cC Ringhalexin from hemachatus haemachatus: A novel inhibitor of extrinsic tenase complex C0HJT5 C0HJT5 2.9515 X-RAY DIFFRACTION 31 1.0 8626 (Hemachatus haemachatus) 8626 (Hemachatus haemachatus) 65 65 4zqy-a1-m1-cA_4zqy-a1-m2-cA RLCLSDYSIFSETIEICPEGHNYCFKKFPKGITRLPWVIRGCAATCPKPEAQVYVDCCARDKCNR RLCLSDYSIFSETIEICPEGHNYCFKKFPKGITRLPWVIRGCAATCPKPEAQVYVDCCARDKCNR 4zr8-a1-m1-cA_4zr8-a1-m1-cB Structure of uroporphyrinogen decarboxylase from Acinetobacter baumannii A0A0M3KL37 A0A0M3KL37 1.5 X-RAY DIFFRACTION 89 0.997 1116234 (Acinetobacter baumannii AB5075) 1116234 (Acinetobacter baumannii AB5075) 353 354 TLKNDRFLRALLREPVDTTPIWMMRQAGRYLPEYRETRSKAGLSLCKNTEFACEVTLQPLRRYDLDAAILFSDILTIPDALGLGLYFETGEGPKFHKTVRTEQDVANLPKLNAKADLDYVMNAVSTIRSALGGQVPLIGFSGSPWTLATYMVEGGSSKEFRFTKQMMYAQPEVLHALLDHLADSVIDYLNAQIDAGAQAIQIFDSWGGALAHREYVEFSLNYMKKIIAGLQREKDGRRIPVIVFTKGGGQWLEPMITTGADALGLDWTTPLNTARTTVAGRVALQGNLDPAVLYGSAASIEKAVKAMLDDAYANGEKTGYVANLGHGITQWVDPAQPKIFVDTVHEYSAKYLG LKNDRFLRALLREPVDTTPIWMMRQAGRYLPEYRETRSKAGDFLSLCKNTEFACEVTLQPLRRYDLDAAILFSDILTIPDALGLGLYFETGEGPKFHKTVRTEQDVANLPKLNAKADLDYVMNAVSTIRSALGGQVPLIGFSGSPWTLATYMVEGGSSKEFRFTKQMMYAQPEVLHALLDHLADSVIDYLNAQIDAGAQAIQIFDSWGGALAHREYVEFSLNYMKKIIAGLQREKDGRRIPVIVFTKGGGQWLEPMITTGADALGLDWTTPLNTARTTVAGRVALQGNLDPAVLYGSAASIEKAVKAMLDDAYANGEKTGYVANLGHGITQWVDPAQPKIFVDTVHEYSAKYLG 4zrm-a1-m1-cA_4zrm-a1-m1-cB Crystal Structure of UDP-Glucose 4-Epimerase (TM0509) from Hyperthermophilic Eubacterium Thermotoga maritima Q9WYX9 Q9WYX9 1.9 X-RAY DIFFRACTION 71 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 308 308 4zrn-a1-m1-cB_4zrn-a1-m1-cA MNILVTGGAGFIGSHVVDKLIENGYGVIVVDNLSSGKVENLNRNALFYEQSIEDEEMMERIFSLHRPEYVFHLAAQASVAISVREPARDAKTNIIGSLVLLEKSIKYGVKKFIFSSTGGAIYGENVKVFPTPETEIPHPISPYGIAKYSTEMYLEFFAREYGLKYTVLRYANVYGPRQDPYGEAGVVAIFTERMLRGEEVHIFGDGEYVRDYVYVDDVVRANLLAMEKGDNEVFNIGTGRGTTVNQLFKLLKEITGYDKEPVYKPPRKGDVRKSILDYTKAKEKLGWEPKVSLEEGLKLTVEYFRKTL HMNILVTGGAGFIGSHVVDKLIENGYGVIVVDNLSSGKVENLNRNALFYEQSIEDEEMMERIFSLHRPEYVFHLAAQASVAISVREPARDAKTNIIGSLVLLEKSIKYGVKKFIFSSTGGAIYGENVKVFPTPETEIPHPISPYGIAKYSTEMYLEFFAREYGLKYTVLRYANVYGPRQDPYGEAGVVAIFTERMLRGEEVHIFGDGEYVRDYVYVDDVVRANLLAMEKGDNEVFNIGTGRGTTVNQLFKLLKEITGYDKEPVYKPPRKGDVRKSILDYTKAKEKLGWEPKVSLEEGLKLTVEYFRKT 4zrs-a1-m1-cA_4zrs-a1-m1-cB Crystal structure of a cloned feruloyl esterase from a soil metagenomic library E7DJY5 E7DJY5 2 X-RAY DIFFRACTION 74 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 291 291 GHMTPELRAKLESLGRDLTPEMLGGTTQIFAAMATGSDPEVEVTRDLEYGEDPRHRLDLFRKADTRDAPVLVFVHGGGFVMGDKRLAETPFYDNIGVFAAQQGFVGVTITYRLAPAHQFPSGPEDLAAVVRWLKANVAQYGGDPDKIVLSGQAGAAHVASYIAHKAHHATEGGGIAGAILMSGIYDTLTATPNEFLIAYYGDDPKGWGPASSMAGLINTEIPLMLTVSEFDPEDFQRQAAQFVCAWGMAHAAYPEMHYLVGHNHLSPAQSIGTEIKAIGRMVAGFVRRVTR GHMTPELRAKLESLGRDLTPEMLGGTTQIFAAMATGSDPEVEVTRDLEYGEDPRHRLDLFRKADTRDAPVLVFVHGGGFVMGDKRLAETPFYDNIGVFAAQQGFVGVTITYRLAPAHQFPSGPEDLAAVVRWLKANVAQYGGDPDKIVLSGQAGAAHVASYIAHKAHHATEGGGIAGAILMSGIYDTLTATPNEFLIAYYGDDPKGWGPASSMAGLINTEIPLMLTVSEFDPEDFQRQAAQFVCAWGMAHAAYPEMHYLVGHNHLSPAQSIGTEIKAIGRMVAGFVRRVTR 4zrv-a4-m1-cB_4zrv-a4-m1-cA Structure of cow mincle CRD complexed with trehalose mono butyrate E1BHM0 E1BHM0 2.095 X-RAY DIFFRACTION 33 1.0 9913 (Bos taurus) 9913 (Bos taurus) 131 132 ACPLKWFHFQSSCYLFSPDTMSWRASLKNCSSMGAHLVVINTQEEQEFLYYTKPRKKEFYIGLTDQVTEGQWQWVDGTPFTKSLSFWDAGEPNNLVTVEDCATIRDSSNPRQNWNDVPCFFNMFRVCEMPE ACPLKWFHFQSSCYLFSPDTMSWRASLKNCSSMGAHLVVINTQEEQEFLYYTKPRKKEFYIGLTDQVTEGQWQWVDGTPFTKSLSFWDAGEPNNLVTVEDCATIRDSSNPRQNWNDVPCFFNMFRVCEMPER 4zrv-a4-m1-cB_4zrv-a4-m1-cC Structure of cow mincle CRD complexed with trehalose mono butyrate E1BHM0 E1BHM0 2.095 X-RAY DIFFRACTION 20 1.0 9913 (Bos taurus) 9913 (Bos taurus) 131 131 ACPLKWFHFQSSCYLFSPDTMSWRASLKNCSSMGAHLVVINTQEEQEFLYYTKPRKKEFYIGLTDQVTEGQWQWVDGTPFTKSLSFWDAGEPNNLVTVEDCATIRDSSNPRQNWNDVPCFFNMFRVCEMPE ACPLKWFHFQSSCYLFSPDTMSWRASLKNCSSMGAHLVVINTQEEQEFLYYTKPRKKEFYIGLTDQVTEGQWQWVDGTPFTKSLSFWDAGEPNNLVTVEDCATIRDSSNPRQNWNDVPCFFNMFRVCEMPE 4zry-a1-m1-cA_4zry-a1-m2-cA Crystal structure of the heterocomplex between coil 2B domains of human intermediate filament proteins keratin 1 (KRT1) and keratin 10 (KRT10) P13645 P13645 3.30013 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 LTTEIDNNIEQISSYKSEITELRRNVQALEIELQSQLALKQSLEASLAETEGRYCVQLSQIQAQISALEEQLQQIRAETECQNTEYQQLLDIKIRLENEIQTYRSLLEGE LTTEIDNNIEQISSYKSEITELRRNVQALEIELQSQLALKQSLEASLAETEGRYCVQLSQIQAQISALEEQLQQIRAETECQNTEYQQLLDIKIRLENEIQTYRSLLEGE 4zsf-a1-m1-cA_4zsf-a1-m2-cA Crystal structure of pre-specific restriction endonuclease BsaWI-DNA complex Q6UQ65 Q6UQ65 1.8 X-RAY DIFFRACTION 155 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 272 272 MNFFEYCISTYAKIFEETMNAVGDERVSQKKAIRDTMISAMREFPNVEAAEIWKAVYSAHMDRKSGIADPDIIQKVISAENSWKKSSGHAFEEMIKLLGNSSLEEYGMRILLQKDLNMMIENQEIANEPRDINWLKEQISSNVFDLYITVRNNDKEYVFGCIQSKTSIRDRVTRDREPSMKAMEAFFWSVAICLDGDFLKMPKFIAMVNGGTSNYRLNGWHGMYVFWDKPTIDRIYPIDINLELFVQHAREAAEDWLHRRQWFNYEWKAGQK MNFFEYCISTYAKIFEETMNAVGDERVSQKKAIRDTMISAMREFPNVEAAEIWKAVYSAHMDRKSGIADPDIIQKVISAENSWKKSSGHAFEEMIKLLGNSSLEEYGMRILLQKDLNMMIENQEIANEPRDINWLKEQISSNVFDLYITVRNNDKEYVFGCIQSKTSIRDRVTRDREPSMKAMEAFFWSVAICLDGDFLKMPKFIAMVNGGTSNYRLNGWHGMYVFWDKPTIDRIYPIDINLELFVQHAREAAEDWLHRRQWFNYEWKAGQK 4zsi-a1-m1-cB_4zsi-a1-m1-cA Crystal structure of the effector-binding domain of DasR (DasR-EBD) in complex with glucosamine-6-phosphate Q9K492 Q9K492 1.652 X-RAY DIFFRACTION 110 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 164 166 4zs8-a1-m1-cA_4zs8-a1-m1-cB 4zsb-a1-m1-cA_4zsb-a1-m2-cA 4zsk-a1-m1-cB_4zsk-a1-m1-cA KVSQALQLTSYTEDMRAQGLEPTSQLLDIGYITADDRLAGLLDITAGGRVLRIERLRMANGEPMAIETTHLSAKRFPALRRSLVKYTSLYTALAEVYDVHLAEAEETIETSLATPREAGLLGTDVGLPMLMLSRHSQDRTGQPVEWVRSVYRGDRYKFVARLKR MKVSQALQLTSYTEDMRAQGLEPTSQLLDIGYITADDRLAGLLDITAGGRVLRIERLRMANGEPMAIETTHLSAKRFPALRRSLVKYTSLYTALAEVYDVHLAEAEETIETSLATPREAGLLGTDVGLPMLMLSRHSQDRTGQPVEWVRSVYRGDRYKFVARLKRP 4zt1-a1-m1-cA_4zt1-a1-m1-cB Crystal structure of human E-Cadherin (residues 3-213) in x-dimer conformation P12830 P12830 1.92 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 4zte-a1-m1-cA_4zte-a1-m1-cB PPISCPENEKGPFPKNLVQIKSNKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRERIATYTLFSHAVSSNGNAVEDPMEILITVTDQNDNKPEFTQEVFKGSVMEGALPGTSVMEVTATDADDDVNTYNAAIAYTILSQDPELPDKNMFTINRNTGVISVVTTGLDRESFPTYTLVVQAADLQGEGLSTTATAVITVTD PPISCPENEKGPFPKNLVQIKSNKDKEGKVFYSITGQGADTPPVGVFIIERETGWLKVTEPLDRERIATYTLFSHAVSSNGNAVEDPMEILITVTDQNDNKPEFTQEVFKGSVMEGALPGTSVMEVTATDADDDVNTYNAAIAYTILSQDPELPDKNMFTINRNTGVISVVTTGLDRESFPTYTLVVQAADLQGEGLSTTATAVITVTD 4ztb-a1-m1-cA_4ztb-a1-m1-cB Crystal structure of nsP2 protease from Chikungunya virus in P212121 space group at 2.59 A (4molecules/ASU). A6MH22 A6MH22 2.59 X-RAY DIFFRACTION 57 1.0 37124 (Chikungunya virus) 37124 (Chikungunya virus) 321 321 FQNKANVCWAKSLVPILETAGIKLNDRQWSQIIQAFKEDKAYSPEVALNEICTRMYGVDLDSGLFSKPLVSVYYADNHWDNRPGGKMFGFNPEAASILERKYPFTKGKWNINKQICVTTRRIEDFNPTTNIIPANRRLPHSLVAEHRPVKGERMEWLVNKINGHHVLLVSGYNLALPTKRVTWVAPLGVRGADYTYNLELGLPATLGRYDLVVINIHTPFRIHHYQQCVDHAMKLQMLGGDSLRLLKPGGSLLIRAYGYADRTSERVICVLGRKFRSSRALKPPCVTSNTEMFFLFSNFDNGRRNFTTHVMNNQLNAAFVG FQNKANVCWAKSLVPILETAGIKLNDRQWSQIIQAFKEDKAYSPEVALNEICTRMYGVDLDSGLFSKPLVSVYYADNHWDNRPGGKMFGFNPEAASILERKYPFTKGKWNINKQICVTTRRIEDFNPTTNIIPANRRLPHSLVAEHRPVKGERMEWLVNKINGHHVLLVSGYNLALPTKRVTWVAPLGVRGADYTYNLELGLPATLGRYDLVVINIHTPFRIHHYQQCVDHAMKLQMLGGDSLRLLKPGGSLLIRAYGYADRTSERVICVLGRKFRSSRALKPPCVTSNTEMFFLFSNFDNGRRNFTTHVMNNQLNAAFVG 4ztb-a1-m1-cA_4ztb-a1-m1-cD Crystal structure of nsP2 protease from Chikungunya virus in P212121 space group at 2.59 A (4molecules/ASU). A6MH22 A6MH22 2.59 X-RAY DIFFRACTION 46 1.0 37124 (Chikungunya virus) 37124 (Chikungunya virus) 321 321 4ztb-a1-m1-cB_4ztb-a1-m1-cC FQNKANVCWAKSLVPILETAGIKLNDRQWSQIIQAFKEDKAYSPEVALNEICTRMYGVDLDSGLFSKPLVSVYYADNHWDNRPGGKMFGFNPEAASILERKYPFTKGKWNINKQICVTTRRIEDFNPTTNIIPANRRLPHSLVAEHRPVKGERMEWLVNKINGHHVLLVSGYNLALPTKRVTWVAPLGVRGADYTYNLELGLPATLGRYDLVVINIHTPFRIHHYQQCVDHAMKLQMLGGDSLRLLKPGGSLLIRAYGYADRTSERVICVLGRKFRSSRALKPPCVTSNTEMFFLFSNFDNGRRNFTTHVMNNQLNAAFVG FQNKANVCWAKSLVPILETAGIKLNDRQWSQIIQAFKEDKAYSPEVALNEICTRMYGVDLDSGLFSKPLVSVYYADNHWDNRPGGKMFGFNPEAASILERKYPFTKGKWNINKQICVTTRRIEDFNPTTNIIPANRRLPHSLVAEHRPVKGERMEWLVNKINGHHVLLVSGYNLALPTKRVTWVAPLGVRGADYTYNLELGLPATLGRYDLVVINIHTPFRIHHYQQCVDHAMKLQMLGGDSLRLLKPGGSLLIRAYGYADRTSERVICVLGRKFRSSRALKPPCVTSNTEMFFLFSNFDNGRRNFTTHVMNNQLNAAFVG 4ztu-a1-m1-cC_4ztu-a1-m1-cB Structural basis for processivity and antiviral drug toxicity in human mitochondrial DNA replicase Q9UHN1 Q9UHN1 3.299 X-RAY DIFFRACTION 103 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 357 363 3ikm-a1-m1-cB_3ikm-a1-m1-cC 3ikm-a2-m1-cE_3ikm-a2-m1-cF 4ztz-a1-m1-cC_4ztz-a1-m1-cB 5c51-a1-m1-cC_5c51-a1-m1-cB 5c52-a1-m1-cC_5c52-a1-m1-cB 5c53-a1-m1-cC_5c53-a1-m1-cB ALLEICQRRHFLSGSKQQLSRDSLLSGCHPGFGPLGVELRKNLAAEWWTSVVVFREQVFPVDALHHKPGPKLRENLLHGALEHYVNCLDLVNKRLPYGLAQIGVCFHPVFGVKSIGEKTEASLVWFTPPRTSNQWLDFWLRHRLQWWRKFAMSPSNFSSSDCQDEEGRKGNKLYYNFPWGKELIETLWNLGDHELLHMYPGNVSKLHGRDGRKNVVPCVLSVNGDLDRGMLAYLYDSFQHRKVLKLHPCLAPIKVALDVGRGPTLELRQVCQGLFNELLENGISVWPGYLETMQSSLEQLYSKYDEMSILFTVLVTETTLENGLIHLRSRDTTMKEMMHISKLKDFLIKYISSAKNV ALLEICQRRHFLSGSKQQLSRDSLLSGCHPGFGPLGVELRKNLAAEWWTSVVVFREQVFPVDALHHKPGGKLRENLLHGALEHYVNCLDLVNKRLPYGLAQIGVCFHPVFDTKSIGEKTEASLVWFTPPRTSNQWLDFWLRHRLQWWRKFAMSPSNFSSSDCQDEEGRKGNKLYYNFPWGKELIETLWNLGDHELLHMYPGNVSKLHGRDGRKNVVPCVLSVNGDLDRGMLAYLYDSFQTRKKNLHRKVLKLHPCLAPIKVALDVGRGPTLELRQVCQGLFNELLENGISVWPGYLETMQSSLEQLYSKYDEMSILFTVLVTETTLENGLIHLRSRDTTMKEMMHISKLKDFLIKYISSAKNV 4zu2-a1-m1-cB_4zu2-a1-m1-cC Pseudomonas aeruginosa AtuE Q9HZV7 Q9HZV7 2.15 X-RAY DIFFRACTION 149 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 258 258 4zu2-a1-m1-cA_4zu2-a1-m1-cB 4zu2-a1-m1-cA_4zu2-a1-m1-cC ETLLLEPIEGVLRITLNRPQSRNAMSLAMVGELRAVLAAVRDDRSVRALVLRGADGHFCAGGDIKDMAGARAAGAEAYRTLNRAFGSLLEEAQAAPQLLVALVEGAVLGGGFGLACVSDVAIAAADAQFGLPETSLGILPAQIAPFVVRRIGLTQARRLALTAARFDGREALRLGLVHFCEADADALEQRLEETLEQLRRCAPNANAATKALLLASESGELGALLDDAARQFAEAVGGAEGSEGTLAFVQKRKPVWAQ ETLLLEPIEGVLRITLNRPQSRNAMSLAMVGELRAVLAAVRDDRSVRALVLRGADGHFCAGGDIKDMAGARAAGAEAYRTLNRAFGSLLEEAQAAPQLLVALVEGAVLGGGFGLACVSDVAIAAADAQFGLPETSLGILPAQIAPFVVRRIGLTQARRLALTAARFDGREALRLGLVHFCEADADALEQRLEETLEQLRRCAPNANAATKALLLASESGELGALLDDAARQFAEAVGGAEGSEGTLAFVQKRKPVWAQ 4zua-a2-m1-cB_4zua-a2-m2-cB Crystal structure of the ExsA regulatory domain P26993 P26993 2.5 X-RAY DIFFRACTION 21 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 151 151 4zua-a1-m1-cA_4zua-a1-m3-cA KQITSCHWNIPTFEYRVNKEEGVYVLLEGELTVQDIDSTFCLAPGELLFVRRGSYVVSTKGKDSRILWIPLSAQFLQGFVQRFGALLEPVPGIIAFAATPLLAGCVKGLKELLVHEHPPMLACLKIEELLMLFAFSPQGPLLMSVLRQLSN KQITSCHWNIPTFEYRVNKEEGVYVLLEGELTVQDIDSTFCLAPGELLFVRRGSYVVSTKGKDSRILWIPLSAQFLQGFVQRFGALLEPVPGIIAFAATPLLAGCVKGLKELLVHEHPPMLACLKIEELLMLFAFSPQGPLLMSVLRQLSN 4zur-a1-m1-cA_4zur-a1-m1-cB Crystal structure of acetylpolyamine amidohydrolase from Mycoplana ramosa in complex with a hydroxamate inhibitor Q48935 Q48935 1.13 X-RAY DIFFRACTION 165 1.0 40837 (Mycoplana ramosa) 40837 (Mycoplana ramosa) 341 341 3q9b-a1-m1-cA_3q9b-a1-m1-cI 3q9b-a2-m1-cB_3q9b-a2-m1-cF 3q9b-a3-m1-cC_3q9b-a3-m1-cK 3q9b-a4-m1-cJ_3q9b-a4-m1-cD 3q9b-a5-m1-cE_3q9b-a5-m1-cH 3q9b-a6-m1-cG_3q9b-a6-m1-cL 3q9c-a1-m1-cA_3q9c-a1-m1-cI 3q9c-a2-m1-cB_3q9c-a2-m1-cF 3q9c-a3-m1-cC_3q9c-a3-m1-cK 3q9c-a4-m1-cD_3q9c-a4-m1-cJ 3q9c-a5-m1-cE_3q9c-a5-m1-cH 3q9c-a6-m1-cG_3q9c-a6-m1-cL 3q9e-a1-m1-cA_3q9e-a1-m1-cI 3q9e-a2-m1-cB_3q9e-a2-m1-cF 3q9e-a3-m1-cC_3q9e-a3-m1-cK 3q9e-a4-m1-cD_3q9e-a4-m1-cJ 3q9e-a5-m1-cE_3q9e-a5-m1-cH 3q9e-a6-m1-cG_3q9e-a6-m1-cL 3q9f-a1-m1-cI_3q9f-a1-m1-cA 3q9f-a2-m1-cB_3q9f-a2-m1-cF 3q9f-a3-m1-cC_3q9f-a3-m1-cK 3q9f-a4-m1-cJ_3q9f-a4-m1-cD 3q9f-a5-m1-cE_3q9f-a5-m1-cH 3q9f-a6-m1-cG_3q9f-a6-m1-cL 4zum-a1-m1-cA_4zum-a1-m1-cB 4zun-a1-m1-cA_4zun-a1-m1-cB 4zuo-a1-m1-cA_4zuo-a1-m1-cB 4zup-a1-m1-cA_4zup-a1-m1-cB 4zuq-a1-m1-cA_4zuq-a1-m1-cB MRVIFSEDHKLRNAKTELYGGELVPPFEAPFRAEWILAAVKEAGFDDVVAPARHGLETVLKVHDAGYLNFLETAWDRWKAAGYKGEAIATSFPVRRTSPRIPTDIEGQIGYYCNAAETAISPGTWEAALSSMASAIDGADLIAAGHKAAFSLCRPPGHHAGIDMFGGYCFINNAAVAAQRLLDKGAKKIAILDVDFHHGNGTQDIFYERGDVFFASLHGDPAEAFPHFLGYAEETGKGAGAGTTANYPMGRGTPYSVWGEALTDSLKRIAAFGAEAIVVSLGVDTFEQDPISFFKLTSPDYITMGRTIAASGVPLLVVMEGGYGVPEIGLNVANVLKGVAG MRVIFSEDHKLRNAKTELYGGELVPPFEAPFRAEWILAAVKEAGFDDVVAPARHGLETVLKVHDAGYLNFLETAWDRWKAAGYKGEAIATSFPVRRTSPRIPTDIEGQIGYYCNAAETAISPGTWEAALSSMASAIDGADLIAAGHKAAFSLCRPPGHHAGIDMFGGYCFINNAAVAAQRLLDKGAKKIAILDVDFHHGNGTQDIFYERGDVFFASLHGDPAEAFPHFLGYAEETGKGAGAGTTANYPMGRGTPYSVWGEALTDSLKRIAAFGAEAIVVSLGVDTFEQDPISFFKLTSPDYITMGRTIAASGVPLLVVMEGGYGVPEIGLNVANVLKGVAG 4zuy-a3-m1-cB_4zuy-a3-m1-cA Structure of Tsi6 from Pseudomonas aeruginosa Q9I740 Q9I740 1.952 X-RAY DIFFRACTION 45 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 84 94 TPIEYIDRALALVVDRLARYPGYEVLLSAEKQLQYRSVLLDRSLDRSALHRLTLGSIAVKEFDETDPELSRALKDAYYVGIRTG TPIEYIDRALALVVDRLARYPGYEVLLSAEKQLQYRSVLLDRSLDRSALHRLTLGSIAVKEFDETDPELSRALKDAYYVGIRTGRGLKVDLPLE 4zv5-a1-m1-cA_4zv5-a1-m1-cB Crystal structure of N-myristoylated mouse mammary tumor virus matrix protein P11284 P11284 1.57 X-RAY DIFFRACTION 47 1.0 11758 (Mouse mammary tumor virus (STRAIN BR6)) 11758 (Mouse mammary tumor virus (STRAIN BR6)) 91 91 5i27-a1-m1-cB_5i27-a1-m1-cA GVSGSKGQKLFVSVLQRLLSERGLHVKESSAIEFYQFLIKVSPWFPEEGGLNLQDWKRVGREMKRYAAEHGTDSIPKQAYPIWLQLREILT GVSGSKGQKLFVSVLQRLLSERGLHVKESSAIEFYQFLIKVSPWFPEEGGLNLQDWKRVGREMKRYAAEHGTDSIPKQAYPIWLQLREILT 4zvb-a2-m1-cD_4zvb-a2-m1-cC Crystal structure of globin domain of the E. coli DosC - form II (ferrous) P0AA89 P0AA89 2.4 X-RAY DIFFRACTION 59 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 149 150 4zva-a1-m1-cA_4zva-a1-m1-cB 4zvb-a1-m1-cB_4zvb-a1-m1-cA KRMKDEWTGLVEQADPPIRAKAAEIAVAHAHYLSIEFYRIVRIDPHAEEFLSNEQVERQLKSAMERWIINVLSAQVDDVERLIQIQHTVAEVHARIGIPVEIVEMGFRVLKKILYPVIFSSDYSAAEKLQVYHFSINSIDIAMEVMTRA FKRMKDEWTGLVEQADPPIRAKAAEIAVAHAHYLSIEFYRIVRIDPHAEEFLSNEQVERQLKSAMERWIINVLSAQVDDVERLIQIQHTVAEVHARIGIPVEIVEMGFRVLKKILYPVIFSSDYSAAEKLQVYHFSINSIDIAMEVMTRA 4zvc-a1-m1-cB_4zvc-a1-m1-cA Crystal structure of MID domain of the E. coli DosC - form I P0AA89 P0AA89 1.5 X-RAY DIFFRACTION 46 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 115 116 4zvd-a1-m1-cA_4zvd-a1-m1-cB NAEEEKERQIASILSWEIDIIYKILLDSDLGSSLPLSQADFGLWFNHKGRHYFSGIAEVGHISRLIQDFDGIFNQTMRNTRNLNNRSLRVKFLLQIRNTVSQIITLLRELFEEVS NAEEEKERQIASILSWEIDIIYKILLDSDLGSSLPLSQADFGLWFNHKGRHYFSGIAEVGHISRLIQDFDGIFNQTMRNTRNLNNRSLRVKFLLQIRNTVSQIITLLRELFEEVSR 4zw0-a1-m1-cC_4zw0-a1-m2-cC Crystal structure of beta-Hydroxyacyl-acyl carrier protein dehydratase (FabZ) from Candidatus asiaticum C6XFU0 C6XFU0 2.9 X-RAY DIFFRACTION 89 1.0 537021 (Candidatus Liberibacter asiaticus str. psy62) 537021 (Candidatus Liberibacter asiaticus str. psy62) 144 144 4zw0-a1-m1-cA_4zw0-a1-m1-cB 4zw0-a1-m2-cA_4zw0-a1-m2-cB LDAKDIVELMRFLPHRYPFLLVDKVVNIQRDESAIGIKNVTFNEPHFMGHFPGRPVMPGVLILEGMAQTAGAICAIHNGFDQYAPPYLMSIDKARFRKPVFPGDRLEYHVNKVRNRVDLWKFQCCAKVENTVVAEAEICAMVMH LDAKDIVELMRFLPHRYPFLLVDKVVNIQRDESAIGIKNVTFNEPHFMGHFPGRPVMPGVLILEGMAQTAGAICAIHNGFDQYAPPYLMSIDKARFRKPVFPGDRLEYHVNKVRNRVDLWKFQCCAKVENTVVAEAEICAMVMH 4zw0-a1-m2-cB_4zw0-a1-m2-cC Crystal structure of beta-Hydroxyacyl-acyl carrier protein dehydratase (FabZ) from Candidatus asiaticum C6XFU0 C6XFU0 2.9 X-RAY DIFFRACTION 99 1.0 537021 (Candidatus Liberibacter asiaticus str. psy62) 537021 (Candidatus Liberibacter asiaticus str. psy62) 142 144 4zw0-a1-m1-cA_4zw0-a1-m2-cA 4zw0-a1-m1-cB_4zw0-a1-m1-cC LDAKDIVELMRFLPHRYPFLLVDKVVNIQRDESAIGIKNVTFNEPHFMGHFPGRPVMPGVLILEGMAQTAGAICAIHNGFDQYAPPYLMSIDKARFRKPVFPGDRLEYHVNKVRNRVDLWKFQCCAKVENTVVAEAEICAMV LDAKDIVELMRFLPHRYPFLLVDKVVNIQRDESAIGIKNVTFNEPHFMGHFPGRPVMPGVLILEGMAQTAGAICAIHNGFDQYAPPYLMSIDKARFRKPVFPGDRLEYHVNKVRNRVDLWKFQCCAKVENTVVAEAEICAMVMH 4zws-a1-m1-cC_4zws-a1-m1-cB Crystal Structure of the Bacteriophage T4 recombination mediator protein UvsY, Lattice Type III P04537 P04537 2.6 X-RAY DIFFRACTION 81 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 99 116 4zwt-a1-m1-cA_4zwt-a1-m1-cB 4zwt-a2-m1-cM_4zwt-a2-m1-cN MRLEDLQEELKKDVFIDSTKLQYEAANNVMLYSKWLNKHSSIKKEMLRIEAQKKVALKARDTSLQYWGILLDFCSGALDAIKSRGFAIKHIQDMRAFEA MRLEDLQEELKKDVFIDSTKLQYEAANNVMLYSKWLNKHSSIKKEMLRIEAQKKVALKARLDYYSGRGDGKDVLKVDTSLQYWGILLDFCSGALDAIKSRGFAIKHIQDMRAFEAG 4zws-a1-m1-cF_4zws-a1-m1-cG Crystal Structure of the Bacteriophage T4 recombination mediator protein UvsY, Lattice Type III P04537 P04537 2.6 X-RAY DIFFRACTION 76 0.989 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 93 96 4zws-a1-m1-cF_4zws-a1-m1-cE MRLEDLQEELKKDVFIDSTKLQYEAANNVMLYSKWLNKHSSIKKEMLRIEAQKKDTSLQYWGILLDFCSGALDAIKSRGFAIKHIQDMRAFEA MRLEDLQEELKKDVFIDSTKLQYEAANNVMLYSKWLNKHSSIKKEMLRIEAQKKVATSLQYWGILLDFCSGALDAIKSRGFAIKHIQDMRAFEAGK 4zwv-a1-m1-cA_4zwv-a1-m1-cB Crystal Structure of Aminotransferase AtmS13 from Actinomadura melliaura Q0H2X1 Q0H2X1 1.503 X-RAY DIFFRACTION 158 1.0 360723 (Actinomadura melliaura) 360723 (Actinomadura melliaura) 361 361 4xau-a1-m1-cA_4xau-a1-m1-cB 4xau-a2-m1-cE_4xau-a2-m1-cC 4xau-a3-m1-cF_4xau-a3-m1-cD 4xau-a4-m1-cG_4xau-a4-m2-cG AIPLFKVAVSPTALDRVAEVFASGYLGQGPRVAEFESALAARLGNPRVVSVHSGTSGLCLALRLLDAPEERDEVLSTPLTFEATNWAILADGRRITWVDVDPATLTDLDDLERKISPATRAIIVVHWTGYPVDLDRLAGILDRAEREHGFRPAVIEDCAHAWGASYRGVPLGSHGNCVFSFQALHLTCGDGGLLTLPGDELHERALRRFYGIDRTADRLRGAYDVAEWGLKWHTDLNAAIGLANLETVDEQLRLHRENAAFYDKELTGVPGLELLQRSPDREGSFYVYDVKVDDRPAFHRKEAAGIAGLVSRRNDEHSCVAHLRTSLPGLDSVYDRVSLPVGWWLTEQDREHVVATIRSGW AIPLFKVAVSPTALDRVAEVFASGYLGQGPRVAEFESALAARLGNPRVVSVHSGTSGLCLALRLLDAPEERDEVLSTPLTFEATNWAILADGRRITWVDVDPATLTDLDDLERKISPATRAIIVVHWTGYPVDLDRLAGILDRAEREHGFRPAVIEDCAHAWGASYRGVPLGSHGNCVFSFQALHLTCGDGGLLTLPGDELHERALRRFYGIDRTADRLRGAYDVAEWGLKWHTDLNAAIGLANLETVDEQLRLHRENAAFYDKELTGVPGLELLQRSPDREGSFYVYDVKVDDRPAFHRKEAAGIAGLVSRRNDEHSCVAHLRTSLPGLDSVYDRVSLPVGWWLTEQDREHVVATIRSGW 4zxa-a1-m1-cW_4zxa-a1-m1-cX Crystal Structure of hydroquinone 1,2-dioxygenase PnpCD in complex with Cd2+ and 4-hydroxybenzonitrile C1I209 C1I209 2.488 X-RAY DIFFRACTION 54 1.0 165468 (Pseudomonas sp. WBC-3) 165468 (Pseudomonas sp. WBC-3) 324 324 4zxa-a2-m1-cY_4zxa-a2-m1-cZ 4zxc-a1-m1-cW_4zxc-a1-m1-cX 4zxc-a2-m1-cY_4zxc-a2-m1-cZ 4zxd-a1-m1-cX_4zxd-a1-m1-cW DDVQASPPHAVTGYRSFQLGAFELSRDEYFARITWPAKGETRSHLIPADIFLRAMMRDVAWGFFYGWVNFDHVIGTRNYYGKVDLYAGTFNGTLKAAGVNYTENFETPLIMATFKAILRDWTNATFDPFAAPEETGSAFGRKNGENLECIERFRIATKRMPGLQDDSPLRNDLPVNRQFADVSQDEPEVHAAEGFEGELHAFSLFKYLSRSDVTWNPSVTSVCKASLFCPTTEEFILPVFHGNDRVEWFIQMSDEIVWDVGDKDDGNPRARITMRAGDVCAMPADIRHQGYSTKRSMLMVWENATPNLPHLYESGELKPYPIEF DDVQASPPHAVTGYRSFQLGAFELSRDEYFARITWPAKGETRSHLIPADIFLRAMMRDVAWGFFYGWVNFDHVIGTRNYYGKVDLYAGTFNGTLKAAGVNYTENFETPLIMATFKAILRDWTNATFDPFAAPEETGSAFGRKNGENLECIERFRIATKRMPGLQDDSPLRNDLPVNRQFADVSQDEPEVHAAEGFEGELHAFSLFKYLSRSDVTWNPSVTSVCKASLFCPTTEEFILPVFHGNDRVEWFIQMSDEIVWDVGDKDDGNPRARITMRAGDVCAMPADIRHQGYSTKRSMLMVWENATPNLPHLYESGELKPYPIEF 4zxb-a1-m1-cE_4zxb-a1-m2-cE Structure of the human insulin receptor ectodomain, IRDeltabeta construct, in complex with four Fab molecules P06213 P06213 3.3 X-RAY DIFFRACTION 149 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 800 800 HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNHIVLNKDDNEECGDICPGTNCPATQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSRKELEESSFRKTFEDYLHEEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLD HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNHIVLNKDDNEECGDICPGTNCPATQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSRKELEESSFRKTFEDYLHEEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLD 4zxp-a3-m1-cA_4zxp-a3-m1-cB Crystal structure of Peptidyl- tRNA Hydrolase from Vibrio cholerae Q9KQ21 Q9KQ21 1.63 X-RAY DIFFRACTION 67 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 195 196 4z86-a1-m1-cA_4z86-a1-m1-cB 5ekt-a3-m1-cA_5ekt-a3-m1-cB 5ike-a1-m1-cA_5ike-a1-m1-cB VSQPIKLLVGLANPGPEYAKTRHNAGAWVVEELARIHNVTLKNEPKFFGLTGRLLINSQELRVLIPTTFMNLSGKAIAALANFYQIKPEEIMVAHDELDLPPGVAKFKQGGGHGGHNGLKDTISKLGNNKEFYRLRLGIGHPGHKDKVAGYVLGKAPAKEQELDAAVDESVRCLEILMKDGLTKAQNRLHTFKAE MVSQPIKLLVGLANPGPEYAKTRHNAGAWVVEELARIHNVTLKNEPKFFGLTGRLLINSQELRVLIPTTFMNLSGKAIAALANFYQIKPEEIMVAHDELDLPPGVAKFKQGGGHGGHNGLKDTISKLGNNKEFYRLRLGIGHPGHKDKVAGYVLGKAPAKEQELDAAVDESVRCLEILMKDGLTKAQNRLHTFKAE 4zxs-a3-m6-cD_4zxs-a3-m6-cB HSV-1 nuclear egress complex P10215 P10215 2.772 X-RAY DIFFRACTION 17 0.992 10299 (Human alphaherpesvirus 1 strain 17) 10299 (Human alphaherpesvirus 1 strain 17) 241 242 4zxs-a3-m1-cD_4zxs-a3-m1-cB 4zxs-a3-m2-cD_4zxs-a3-m2-cB 4zxs-a3-m3-cD_4zxs-a3-m3-cB 4zxs-a3-m4-cD_4zxs-a3-m4-cB 4zxs-a3-m5-cD_4zxs-a3-m5-cB LHERQRYRGLFAALAQTPSEEIAIVRSLSVPLVKTTPVSLPFCLDQTVADNCLTLSGMGYYLGIGGCCPACNAGATSREALILAFVQQINTIFEHRAFLASLVVLADRHNAPLQDLLAGILGQPELFFVHTILRGGGACDPRLLFYPDPTYGGHMLYVIFPGTSAHLHYRLIDRMLTACPGYRFVAHVWQSTFVLVVRRNAEKPTVSAADIYCKMRDISFDGGLMLEYQRLYATFDEFPPP LHERQRYRGLFAALAQTPSEEIAIVRSLSVPLVKTTPVSLPFCLDQTVADNCLTLSGMGYYLGIGGCCPACNAGDGAATSREALILAFVQQINTIFEHRAFLASLVVLADRHNAPLQDLLAGILGQPELFFVHTILRGGGACDPRLLFYPDPTYGGHMLYVIFPGTSAHLHYRLIDRMLTACPGYRFVAHVWQSTFVLVVRRNAPTVSAADIYCKMRDISFDGGLMLEYQRLYATFDEFPPP 4zya-a1-m1-cA_4zya-a1-m1-cB The N-terminal extension domain of human asparaginyl-tRNA synthetase O43776 O43776 1.65 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 72 AELYVSDREGSDATGDGTKEKPFKTGLKALTVGKEPFPTIYVDSRWNVISKSQLKNIKKWHREQK GHAELYVSDREGSDATGDGTKEKPFKTGLKALTVGKEPFPTIYVDSQKENERWNVISKSQLKNIKKWHREQK 4zyl-a1-m1-cA_4zyl-a1-m1-cB Crystal structure of response regulator RPA3017 in red light signaling of R. palustris Q6N5G1 Q6N5G1 1.8 X-RAY DIFFRACTION 89 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 143 144 LPTVLVAEDHDYDKLILTEVFARASISADLRFVSDGEQTLDYIYGRNRFADRGDAPYPAIVLLDLNMPRLDGRKVVRLLRQDETVRHLVVIALSTSESAKHITEAYSIGFNAYLVKPANIADYVEAIRSLWHFWMNTASLPTT TLPTVLVAEDHDYDKLILTEVFARASISADLRFVSDGEQTLDYIYGRNRFADRGDAPYPAIVLLDLNMPRLDGRKVVRLLRQDETVRHLVVIALSTSESAKHITEAYSIGFNAYLVKPANIADYVEAIRSLWHFWMNTASLPTT 4zzi-a1-m1-cA_4zzi-a1-m2-cA SIRT1/Activator/Inhibitor Complex Q96EB6 Q96EB6 2.7346 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 335 335 GPYTFVQQHLMIGTDPRTILKDLLPETIPPPELDDMTLWQIVINILSEPPKRKKRKDINTIEDAVKLLQECKKIIVLTGAGVSVSCGIPDFRSRDGIYARLAVDFPDLPDPQAMFDIEYFRKDPRPFFKFAKEIYPGQFQPSLCHKFIALSDKEGKLLRNYTQNIDTLEQVAGIQRIIQCHGSFATASCLICKYKVDCEAVRGDIFNQVVPRCPRCPADEPLAIMKPEIVFFGENLPEQFHRAMKYDKDEVDLLIVIGSSLKVRPVALIPSSIPHEVPQILINREPLPHLHFDVELLGDCDVIINELCHRLGGEYAKLCCQYLFLPPNRYIFHGA GPYTFVQQHLMIGTDPRTILKDLLPETIPPPELDDMTLWQIVINILSEPPKRKKRKDINTIEDAVKLLQECKKIIVLTGAGVSVSCGIPDFRSRDGIYARLAVDFPDLPDPQAMFDIEYFRKDPRPFFKFAKEIYPGQFQPSLCHKFIALSDKEGKLLRNYTQNIDTLEQVAGIQRIIQCHGSFATASCLICKYKVDCEAVRGDIFNQVVPRCPRCPADEPLAIMKPEIVFFGENLPEQFHRAMKYDKDEVDLLIVIGSSLKVRPVALIPSSIPHEVPQILINREPLPHLHFDVELLGDCDVIINELCHRLGGEYAKLCCQYLFLPPNRYIFHGA 4zzj-a2-m1-cA_4zzj-a2-m2-cA SIRT1/Activator/Substrate Complex Q96EB6 Q96EB6 2.7403 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 344 4zzh-a1-m1-cA_4zzh-a1-m2-cA GPYTFVQQHLMIGTDPRTILKDLLPETIPPPELDDMTLWQIVINILSEPPKRKKRKDINTIEDAVKLLQECKKIIVLTGAGVSVSCGIPDFRSRDGIYARLAVDFPDLPDPQAMFDIEYFRKDPRPFFKFAKEIYPGQFQPSLCHKFIALSDKEGKLLRNYTQNIDTLEQVAGIQRIIQCHGSFATASCLICKYKVDCEAVRGDIFNQVVPRCPRCPADEPLAIMKPEIVFFGENLPEQFHRAMKYDKDEVDLLIVIGSSLKVRPVALIPSSIPHEVPQILINREPLPHLHFDVELLGDCDVIINELCHRLGGEYAKLCCNGGSQYLFLPPNRYIFHGAEVYSD GPYTFVQQHLMIGTDPRTILKDLLPETIPPPELDDMTLWQIVINILSEPPKRKKRKDINTIEDAVKLLQECKKIIVLTGAGVSVSCGIPDFRSRDGIYARLAVDFPDLPDPQAMFDIEYFRKDPRPFFKFAKEIYPGQFQPSLCHKFIALSDKEGKLLRNYTQNIDTLEQVAGIQRIIQCHGSFATASCLICKYKVDCEAVRGDIFNQVVPRCPRCPADEPLAIMKPEIVFFGENLPEQFHRAMKYDKDEVDLLIVIGSSLKVRPVALIPSSIPHEVPQILINREPLPHLHFDVELLGDCDVIINELCHRLGGEYAKLCCNGGSQYLFLPPNRYIFHGAEVYSD 5a0o-a1-m1-cB_5a0o-a1-m1-cS adhiron raised against p300 2.73 X-RAY DIFFRACTION 29 1.0 32630 (synthetic construct) 32630 (synthetic construct) 93 93 ASNSLEIEELARFAVDEHNKKENALLEFVRVVKAKEQANLYLSTPIDTMYYLTLEAKDGGKKKLYEAKVWVKHIMYYPKTANFKELQEFKPVG ASNSLEIEELARFAVDEHNKKENALLEFVRVVKAKEQANLYLSTPIDTMYYLTLEAKDGGKKKLYEAKVWVKHIMYYPKTANFKELQEFKPVG 5a0u-a5-m1-cF_5a0u-a5-m2-cE Structure of CutC choline lyase choline bound form from Klebsiella pneumoniae. A0A0M3KL44 A0A0M3KL44 2.4 X-RAY DIFFRACTION 66 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 793 793 5a0u-a1-m1-cA_5a0u-a1-m2-cG 5a0u-a2-m1-cB_5a0u-a2-m1-cH 5a0u-a3-m1-cC_5a0u-a3-m1-cD 5a0u-a4-m1-cE_5a0u-a4-m3-cF 5a0u-a6-m3-cA_5a0u-a6-m1-cG 5a0z-a1-m1-cB_5a0z-a1-m1-cA 5a0z-a2-m1-cD_5a0z-a2-m1-cC VMEGLTPRMQRLRNHYLTVRPSVSIYRALAFTEVVKANPGMPTILLRAKAFRHACETAPILIQDDELIVGHPCGKPRAGAFSPDIAWRWVRDELDTMSTRPQDPFEISEADKKTIREEIVPFWEGRSLDEICEAQYREAGVWAFSGETFVSDLSYHQINGGGDTCPGYDVLLFTKGMNGIKADAEAHLASLSMENPEDIDRIYYYKAAIETCEGVVNYARRIAAHARELAAKEQNAQRRAELLTIAEVNENVPANPPKTLQEALQSIWTVESLFEIEENQTGLSLGRVDQYCYPMFEADIREGRLTHDTALELLQAFIIKCAELMWMSSELGAKYFAGYQPFINLTVGGQKRSGGDACNDLTYLIMDAVRFVKVYQPSLACRIHNQSPQKYMEKIVDVVKAGMGFPACHFDDSHIKMMLRKGFDFEDARDYCLMGCVEPQKSGRIYQWTSTGYTQWPIAIEFVLNRGRMVLFDSYQGLDTGDLRDLRTFDEFDAAVKQQIAHIVRLSAIGTVISQRVHRDVAPKPLMSLLVEGCMESGKDVAAGGAMVNHGPGLIFSGLATYVDSMAAIRKLVFEEKKYTLEQIRDALLANFEGYEALRRDCLNAPKYGNDDNYVDQYALDITEWTEKECRKYKMLYSTLSHGTLSISNNTPIGELTNATPNGRLAWMPLSDGISPTQGADKQGPTAIIKSVSKMNVETMNIGMVHNFKFLKGLLDTPEGRHGLITLLRTASILGNGQMQFSYVDNEVLKKAQQEPEKYRDLIVRVAGYSAYFVELCKEVQDEIISRTVIEKF VMEGLTPRMQRLRNHYLTVRPSVSIYRALAFTEVVKANPGMPTILLRAKAFRHACETAPILIQDDELIVGHPCGKPRAGAFSPDIAWRWVRDELDTMSTRPQDPFEISEADKKTIREEIVPFWEGRSLDEICEAQYREAGVWAFSGETFVSDLSYHQINGGGDTCPGYDVLLFTKGMNGIKADAEAHLASLSMENPEDIDRIYYYKAAIETCEGVVNYARRIAAHARELAAKEQNAQRRAELLTIAEVNENVPANPPKTLQEALQSIWTVESLFEIEENQTGLSLGRVDQYCYPMFEADIREGRLTHDTALELLQAFIIKCAELMWMSSELGAKYFAGYQPFINLTVGGQKRSGGDACNDLTYLIMDAVRFVKVYQPSLACRIHNQSPQKYMEKIVDVVKAGMGFPACHFDDSHIKMMLRKGFDFEDARDYCLMGCVEPQKSGRIYQWTSTGYTQWPIAIEFVLNRGRMVLFDSYQGLDTGDLRDLRTFDEFDAAVKQQIAHIVRLSAIGTVISQRVHRDVAPKPLMSLLVEGCMESGKDVAAGGAMVNHGPGLIFSGLATYVDSMAAIRKLVFEEKKYTLEQIRDALLANFEGYEALRRDCLNAPKYGNDDNYVDQYALDITEWTEKECRKYKMLYSTLSHGTLSISNNTPIGELTNATPNGRLAWMPLSDGISPTQGADKQGPTAIIKSVSKMNVETMNIGMVHNFKFLKGLLDTPEGRHGLITLLRTASILGNGQMQFSYVDNEVLKKAQQEPEKYRDLIVRVAGYSAYFVELCKEVQDEIISRTVIEKF 5a0y-a1-m1-cA_5a0y-a1-m1-cD METHYL-COENZYME M REDUCTASE FROM METHANOTHERMOBACTER MARBURGENSIS AT 1.1 A RESOLUTION P11558 P11558 1.1 X-RAY DIFFRACTION 354 1.0 145263 (Methanothermobacter marburgensis) 145263 (Methanothermobacter marburgensis) 542 542 1hbm-a1-m1-cA_1hbm-a1-m1-cD 1hbn-a1-m1-cA_1hbn-a1-m1-cD 1hbo-a1-m1-cA_1hbo-a1-m1-cD 1hbu-a1-m1-cA_1hbu-a1-m1-cD 1mro-a1-m1-cA_1mro-a1-m1-cD 3m1v-a1-m1-cA_3m1v-a1-m1-cD 3m2r-a1-m1-cA_3m2r-a1-m1-cD 3m2u-a1-m1-cA_3m2u-a1-m1-cD 3m2v-a1-m1-cA_3m2v-a1-m1-cD 3m30-a1-m1-cA_3m30-a1-m1-cD 3m32-a1-m1-cA_3m32-a1-m1-cD 3pot-a1-m1-cA_3pot-a1-m1-cD 5a8k-a1-m1-cA_5a8k-a1-m1-cD 5g0r-a1-m1-cA_5g0r-a1-m1-cD 7b2h-a1-m1-cA_7b2h-a1-m1-cD 7suc-a1-m1-cA_7suc-a1-m1-ca 7sxm-a1-m1-cA_7sxm-a1-m1-cD ADKLFINALKKKFEESPEEKKTTFYTLGGWKQSERKTEFVNAGKEVAAKRGIPQYNPDIGTPLGQRVLMPYQVSTTDTYVEGDDLHFVNNAAMQQMWDDIRRTVIVGLNHAHAVIEKRLGKEVTPETITHYLETVNHAMPGAAVVQEHMVETHPALVADSYVKVFTGNDEIADEIDPAFVIDINKQFPEDQAETLKAEVGDGIWQVVRIPTIVSRTCDGATTSRWSAMQIGMSMISAYKQAAGEAATGDFAYAAKAEVIHMGTYLPVRARGENEPGGVPFGYLADICQSSRVNYEDPVRVSLDVVATGAMLYDQIWLGSYMSGGVGFTQYATAAYTDNILDDFTYFGKEYVEDKYGLCEAPNNMDTVLDVATEVTFYGLEQYEEYPALLEDQFGGSRAAVVAAAAGCSTAFATGNAQTGLSGWYLSMYLHKEQHSRLGFYYDLQQGASNVFSIRGDEGLPLELRGPNYPNYAMNVGHQGEYAGISQAPHAARGDAFVFNPLVKIAFADDNLVFDFTNVRGEFAKGALREFEPAGERALITPA ADKLFINALKKKFEESPEEKKTTFYTLGGWKQSERKTEFVNAGKEVAAKRGIPQYNPDIGTPLGQRVLMPYQVSTTDTYVEGDDLHFVNNAAMQQMWDDIRRTVIVGLNHAHAVIEKRLGKEVTPETITHYLETVNHAMPGAAVVQEHMVETHPALVADSYVKVFTGNDEIADEIDPAFVIDINKQFPEDQAETLKAEVGDGIWQVVRIPTIVSRTCDGATTSRWSAMQIGMSMISAYKQAAGEAATGDFAYAAKAEVIHMGTYLPVRARGENEPGGVPFGYLADICQSSRVNYEDPVRVSLDVVATGAMLYDQIWLGSYMSGGVGFTQYATAAYTDNILDDFTYFGKEYVEDKYGLCEAPNNMDTVLDVATEVTFYGLEQYEEYPALLEDQFGGSRAAVVAAAAGCSTAFATGNAQTGLSGWYLSMYLHKEQHSRLGFYYDLQQGASNVFSIRGDEGLPLELRGPNYPNYAMNVGHQGEYAGISQAPHAARGDAFVFNPLVKIAFADDNLVFDFTNVRGEFAKGALREFEPAGERALITPA 5a0y-a1-m1-cB_5a0y-a1-m1-cE METHYL-COENZYME M REDUCTASE FROM METHANOTHERMOBACTER MARBURGENSIS AT 1.1 A RESOLUTION P11560 P11560 1.1 X-RAY DIFFRACTION 159 1.0 145263 (Methanothermobacter marburgensis) 145263 (Methanothermobacter marburgensis) 442 442 1hbm-a1-m1-cB_1hbm-a1-m1-cE 1hbn-a1-m1-cB_1hbn-a1-m1-cE 1hbo-a1-m1-cB_1hbo-a1-m1-cE 1hbu-a1-m1-cB_1hbu-a1-m1-cE 1mro-a1-m1-cB_1mro-a1-m1-cE 3m1v-a1-m1-cB_3m1v-a1-m1-cE 3m2r-a1-m1-cB_3m2r-a1-m1-cE 3m2u-a1-m1-cB_3m2u-a1-m1-cE 3m2v-a1-m1-cB_3m2v-a1-m1-cE 3m30-a1-m1-cB_3m30-a1-m1-cE 3m32-a1-m1-cB_3m32-a1-m1-cE 3pot-a1-m1-cB_3pot-a1-m1-cE 5a8k-a1-m1-cB_5a8k-a1-m1-cE 5g0r-a1-m1-cB_5g0r-a1-m1-cE 7b2h-a1-m1-cE_7b2h-a1-m1-cB 7suc-a1-m1-cB_7suc-a1-m1-cb 7sxm-a1-m1-cB_7sxm-a1-m1-cE AKFEDKVDLYDDRGNLVEEQVPLEALSPLRNPAIKSIVQGIKRTVAVNLEGIENALKTAKVGGPACKIMGRELDLDIVGNAESIAAAAKEMIQVTEDDDTNVELLGGGKRALVQVPSARFDVAAEYSAAPLVTATAFVQAIINEFDVSMYDANMVKAAVLGRYPQSVEYMGANIATMLDIPQKLEGPGYALRNIMVNHVVAATLKNTLQAAALSTILEQTAMFEMGDAVGAFERMHLLGLAYQGMNADNLVFDLVKANGKEGTVGSVIADLVERALEDGVIKVEKELTDYKVYGTDDLAMWNAYAAAGLMAATMVNQGAARAAQGVSSTLLYYNDLIEFETGLPSVDFGKVEGTAVGFSFFSHSIYGGGGPGIFNGNHIVTRHSKGFAIPCVAAAMALDAGTQMFSPEATSGLIKEVFSQVDEFREPLKYVVEAAAEIKNEI AKFEDKVDLYDDRGNLVEEQVPLEALSPLRNPAIKSIVQGIKRTVAVNLEGIENALKTAKVGGPACKIMGRELDLDIVGNAESIAAAAKEMIQVTEDDDTNVELLGGGKRALVQVPSARFDVAAEYSAAPLVTATAFVQAIINEFDVSMYDANMVKAAVLGRYPQSVEYMGANIATMLDIPQKLEGPGYALRNIMVNHVVAATLKNTLQAAALSTILEQTAMFEMGDAVGAFERMHLLGLAYQGMNADNLVFDLVKANGKEGTVGSVIADLVERALEDGVIKVEKELTDYKVYGTDDLAMWNAYAAAGLMAATMVNQGAARAAQGVSSTLLYYNDLIEFETGLPSVDFGKVEGTAVGFSFFSHSIYGGGGPGIFNGNHIVTRHSKGFAIPCVAAAMALDAGTQMFSPEATSGLIKEVFSQVDEFREPLKYVVEAAAEIKNEI 5a10-a1-m1-cA_5a10-a1-m2-cA The crystal structure of Ta-TFP, a thiocyanate-forming protein involved in glucosinolate breakdown (space group C2) G1FNI6 G1FNI6 1.423 X-RAY DIFFRACTION 68 1.0 13288 (Thlaspi arvense) 13288 (Thlaspi arvense) 352 352 5a11-a1-m1-cA_5a11-a1-m1-cB SPEFMARTLQGEWMKVEQKGGQVPAPRSSHGIAVIGDKLYCFGGEDPPYESIDNDLYVFDFNTHTWSIAPANGDVPKTRVLGTRMVAVGTKLYVFGGRNKQLEFEDFYSYDTVKEEWKFLTKLDEKGGPEARTFHSMTSDENHVYVFGGVSKGGLNATPFRFRTIEAYNIAEGKWAQLPDPGEDFEKRGMAGFLVVQGKLWVFYGFATANDPKIPTLYGSQDYESNRVHCYDPATQKWTEVETTGFEKPSRRSCFAHAAVGKYIIIFGGEIERDPEAHQGPGTLSREGFALDTETLVWERYEGGPIKPSNRGWVASTTTTINGKKGLLVHGGKLMTNERTDEMYFFAVNSST SPEFMARTLQGEWMKVEQKGGQVPAPRSSHGIAVIGDKLYCFGGEDPPYESIDNDLYVFDFNTHTWSIAPANGDVPKTRVLGTRMVAVGTKLYVFGGRNKQLEFEDFYSYDTVKEEWKFLTKLDEKGGPEARTFHSMTSDENHVYVFGGVSKGGLNATPFRFRTIEAYNIAEGKWAQLPDPGEDFEKRGMAGFLVVQGKLWVFYGFATANDPKIPTLYGSQDYESNRVHCYDPATQKWTEVETTGFEKPSRRSCFAHAAVGKYIIIFGGEIERDPEAHQGPGTLSREGFALDTETLVWERYEGGPIKPSNRGWVASTTTTINGKKGLLVHGGKLMTNERTDEMYFFAVNSST 5a1m-a1-m1-cA_5a1m-a1-m2-cA Crystal structure of calcium-bound human adseverin domain A3 Q9Y6U3 Q9Y6U3 1.81 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 KMAKLYMVSDASGSMRVTVVAEENPFSMAMLLSEECFILDHGAAKQIFVWKGKDANPQERKAAMKTAEEFLQQMNYSKNTQIQVLPEGGETPIFKQFFKDWRDK KMAKLYMVSDASGSMRVTVVAEENPFSMAMLLSEECFILDHGAAKQIFVWKGKDANPQERKAAMKTAEEFLQQMNYSKNTQIQVLPEGGETPIFKQFFKDWRDK 5a1q-a1-m1-cB_5a1q-a1-m1-cA Crystal structure of Archaeoglobus fulgidus Af1502 O28770 O28770 1.6 X-RAY DIFFRACTION 32 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 65 66 HITYKKLLDELKKEIGPIAKIFLNKAESLGYDDVDDSNYKEILSVLKNKELREYVEIVEERLEKE HITYKKLLDELKKEIGPIAKIFLNKAESLGYDDVDDSNYKEILSVLKNKELREYVEIVEERLEKEG 5a1w-a1-m2-cH_5a1w-a1-m3-cH The structure of the COPI coat linkage II Q5XJY5 Q5XJY5 18.0 ELECTRON MICROSCOPY 83 1.0 10090 (Mus musculus) 10090 (Mus musculus) 380 380 5a1w-a1-m1-cH_5a1w-a1-m2-cH 5a1w-a1-m1-cH_5a1w-a1-m3-cH 5a1x-a1-m1-cH_5a1x-a1-m1-cP 5a1x-a1-m1-cQ_5a1x-a1-m1-cH 5a1x-a1-m1-cQ_5a1x-a1-m1-cP MVLLAAAVCTKAGKAIVSRQFVEMTRTRIEGLLAAFPKLMNTGKQHTFVETESVRYVYQPMEKLYMVLITTKNSNILEDLETLRLFSRVIPEYCRALEENEISEHCFDLIFAFDEIVALGYRENVNLAQIRTFTEPPINMESVHMKIEEKITLTCGRDGGLQNMELHGMIMLRISDDKFGRIRLHVENEDKKGVQLQTHPNVDKKLFTAESLIGLKNPEKSFPVNSDVGVLKWRLQTTEESFIPLTINCWPSESGNGCDVNIEYELQEDNLELNDVVITIPLPSGVGAPVIGEIDGEYRHDSRRNTLEWCLPVIDAKNKSGSLEFSIPGQPNDFFPVQVSFISKKNYCNIQVTKVTQVDGNSPVRFSTETTFLVDKYEIL MVLLAAAVCTKAGKAIVSRQFVEMTRTRIEGLLAAFPKLMNTGKQHTFVETESVRYVYQPMEKLYMVLITTKNSNILEDLETLRLFSRVIPEYCRALEENEISEHCFDLIFAFDEIVALGYRENVNLAQIRTFTEPPINMESVHMKIEEKITLTCGRDGGLQNMELHGMIMLRISDDKFGRIRLHVENEDKKGVQLQTHPNVDKKLFTAESLIGLKNPEKSFPVNSDVGVLKWRLQTTEESFIPLTINCWPSESGNGCDVNIEYELQEDNLELNDVVITIPLPSGVGAPVIGEIDGEYRHDSRRNTLEWCLPVIDAKNKSGSLEFSIPGQPNDFFPVQVSFISKKNYCNIQVTKVTQVDGNSPVRFSTETTFLVDKYEIL 5a21-a1-m1-cE_5a21-a1-m1-cF Structure of bacteriophage SPP1 head-to-tail interface without DNA and tape measure protein O48446 O48446 7.2 ELECTRON MICROSCOPY 137 1.0 10724 (Bacillus phage SPP1) 10724 (Bacillus phage SPP1) 109 109 5a20-a1-m1-cE_5a20-a1-m1-cF MYEEFRDVITFQSYVEQSNGEGGKTYKWVDEFTAAAHVQPISQEEYYKAQQLQTPIGYNIYTPYDDRIDKKMRVIYRGKIVTFIGDPVDLSGLQEITRIKGKEDGAYVG MYEEFRDVITFQSYVEQSNGEGGKTYKWVDEFTAAAHVQPISQEEYYKAQQLQTPIGYNIYTPYDDRIDKKMRVIYRGKIVTFIGDPVDLSGLQEITRIKGKEDGAYVG 5a2d-a2-m1-cC_5a2d-a2-m1-cD CRYSTAL STRUCTURE OF BETAINE ALDEHYDE DEHYDROGENASE FROM SPINACH SHOWING A THIOHEMIACETAL WITH BETAINE ALDEHYDE P17202 P17202 1.98 X-RAY DIFFRACTION 234 0.998 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 491 491 4a0m-a1-m1-cC_4a0m-a1-m1-cD 4a0m-a2-m1-cA_4a0m-a2-m1-cB 4v37-a1-m1-cB_4v37-a1-m1-cA 4v37-a2-m1-cD_4v37-a2-m1-cC 4v3f-a1-m1-cB_4v3f-a1-m1-cA 4v3f-a2-m1-cC_4v3f-a2-m1-cD 5a2d-a1-m1-cA_5a2d-a1-m1-cB IPARQLFIDGEWREPIKKNRIPVINPSTEEIIGDIPAATAEDVEVAVVAARRAFRRNNWSATSGAHRATYLRAIAAKITEKKDHFVKLETIDSGKPFDEAVLDIDDVASCFEYFAGQAEALDGKQKAPVTLPMERFKSHVLRQPLGVVGLISPWNYPLLMATWKIAPALAAGCTAVLKPSELASVTCLEFGEVCNEVGLPPGVLNILTGLGPDAGAPLVSHPDVDKIAFTGSSATGSKVMASAAQLVKPVTLELGGKSPIVVFEDVDIDKVVEWTIFGCFWTNGQISATSRLLVHESIAAEFVDKLVKWTKNIKISDPFEEGCRLGPVISKGQYDKIMKFISTAKSEGATILYGGSRPEHLKKGYYIEPTIVTDISTSMQIWKEEVFGPVLCVKTFSSEDEAIALANDTEYGLAAAVFSNDLERCERITKALEVGAVWVNCSQPCFVQAPWGGIKRSGFGRELGEWGIQNYLNIKQVTQDISDEPWGWYKS PIPARQLFIDGEWREPIKKNRIPVINPSTEEIIGDIPAATAEDVEVAVVAARRAFRRNNWSATSGAHRATYLRAIAAKITEKKDHFVKLETIDSGKPFDEAVLDIDDVASCFEYFAGQAEALDGKQKAPVTLPMERFKSHVLRQPLGVVGLISPWNYPLLMATWKIAPALAAGCTAVLKPSELASVTCLEFGEVCNEVGLPPGVLNILTGLGPDAGAPLVSHPDVDKIAFTGSSATGSKVMASAAQLVKPVTLELGGKSPIVVFEDVDIDKVVEWTIFGCFWTNGQISATSRLLVHESIAAEFVDKLVKWTKNIKISDPFEEGCRLGPVISKGQYDKIMKFISTAKSEGATILYGGSRPEHLKKGYYIEPTIVTDISTSMQIWKEEVFGPVLCVKTFSSEDEAIALANDTEYGLAAAVFSNDLERCERITKALEVGAVWVNCSQPFVQAPWGGIKRSGFGRELGEWGIQNYLNIKQVTQDISDEPWGWYKS 5a2g-a2-m1-cC_5a2g-a2-m1-cD An esterase from anaerobic Clostridium hathewayi can hydrolyze aliphatic aromatic polyesters D3AU79 D3AU79 1.899 X-RAY DIFFRACTION 108 1.0 566550 (Hungatella hathewayi DSM 13479) 566550 (Hungatella hathewayi DSM 13479) 501 501 5a2g-a1-m1-cA_5a2g-a1-m1-cB AKQFLYDNLPVVETKAGKLRGYQWEGTYIFKGIRYARANRFQLPEEVEPWEGVKEAASYGFVCPMLTRDHPQGELLVPHRYWPQDEDCLSLNIWSQSLDRSAKKPVMFWIHGGAFSMGSSIEQKAYNGENMSRYGDVVVVTVNHRLNILGYLDLSPYGERYAGSANAGQADLVAALKWVRDNIEAFGGDPDNVTIFGQSGGGMKVSGLMQTPEADGLFHRAMIMSGVAGDVLPYSTGDSRPLIQAMLKELGLAEQEAGRLETVPYYDLAAAYNRVSPAIARAGGYIGCTPRPDDFYKGEGPAVGFTDHAKTIPVMVGTVFGEFAMMPLPFNKETISEAELDEILDKRFQGHGKELKTVFAEAYPGKSPVDLLTLDTIFRGPTKEFVRSLAAAGGSVYSYLFALEFPYQNQKTAWHCSDIPFIFHNTELVPVTNIPEISDKLEKQMFDAVIHFVETGDPNHLGIPQWPVSTEDREATMIFDRVCTVRFNFDDYLLELYKKAL AKQFLYDNLPVVETKAGKLRGYQWEGTYIFKGIRYARANRFQLPEEVEPWEGVKEAASYGFVCPMLTRDHPQGELLVPHRYWPQDEDCLSLNIWSQSLDRSAKKPVMFWIHGGAFSMGSSIEQKAYNGENMSRYGDVVVVTVNHRLNILGYLDLSPYGERYAGSANAGQADLVAALKWVRDNIEAFGGDPDNVTIFGQSGGGMKVSGLMQTPEADGLFHRAMIMSGVAGDVLPYSTGDSRPLIQAMLKELGLAEQEAGRLETVPYYDLAAAYNRVSPAIARAGGYIGCTPRPDDFYKGEGPAVGFTDHAKTIPVMVGTVFGEFAMMPLPFNKETISEAELDEILDKRFQGHGKELKTVFAEAYPGKSPVDLLTLDTIFRGPTKEFVRSLAAAGGSVYSYLFALEFPYQNQKTAWHCSDIPFIFHNTELVPVTNIPEISDKLEKQMFDAVIHFVETGDPNHLGIPQWPVSTEDREATMIFDRVCTVRFNFDDYLLELYKKAL 5a2n-a1-m1-cA_5a2n-a1-m1-cB Crystal structure of the nitrate transporter NRT1.1 from Arabidopsis thaliana. Q05085 Q05085 3.7 X-RAY DIFFRACTION 59 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 470 470 4oh3-a1-m1-cA_4oh3-a1-m1-cB 5a2o-a1-m1-cA_5a2o-a1-m1-cB RPADRSKTGGWASAAMILCIEAVERLTTLGIGVNLVTYLTGTMHLGNATAANTVTNFLGTSFMLCLLGGFIADTFLGRYLTIAIFAAIQATGVSILTLSTIIPSGIQLTVLYLALYLTALGTGGVKASVSGFGSDQFDETEPKERSKMTYFFNRFFFCINVGSLLAVTVLVYVQDDVGRKWGYGICAFAIVLALSVFLAGTNRYRFKKLIGSPMTQVAAVIVAAWRNRKLETLSTLTDVEEVKQIVRMLPIWATCILFWTVHAQLTTLSVAQSETLDRSIGSFEIPPASMAVFYVGGLLLTTAVYDRVAIRLCKKLFNYPHGLRPLQRIGLGLFFGSMAMAVAALVELKRLRTAHAHGFYLLIPQYLIVGIGEALIYTGQLDFFLRECPKGMKGMSTGLLLSTLALGFFFSSVLVTIVEKFTGKAHPWIADDLNKGRLYNFYWLVAVLVALNFLIFLVFSKWYVYKEKRL RPADRSKTGGWASAAMILCIEAVERLTTLGIGVNLVTYLTGTMHLGNATAANTVTNFLGTSFMLCLLGGFIADTFLGRYLTIAIFAAIQATGVSILTLSTIIPSGIQLTVLYLALYLTALGTGGVKASVSGFGSDQFDETEPKERSKMTYFFNRFFFCINVGSLLAVTVLVYVQDDVGRKWGYGICAFAIVLALSVFLAGTNRYRFKKLIGSPMTQVAAVIVAAWRNRKLETLSTLTDVEEVKQIVRMLPIWATCILFWTVHAQLTTLSVAQSETLDRSIGSFEIPPASMAVFYVGGLLLTTAVYDRVAIRLCKKLFNYPHGLRPLQRIGLGLFFGSMAMAVAALVELKRLRTAHAHGFYLLIPQYLIVGIGEALIYTGQLDFFLRECPKGMKGMSTGLLLSTLALGFFFSSVLVTIVEKFTGKAHPWIADDLNKGRLYNFYWLVAVLVALNFLIFLVFSKWYVYKEKRL 5a2x-a1-m1-cB_5a2x-a1-m1-cA Crystal structure of mtPAP in complex with CTP F1NBW0 F1NBW0 3.1 X-RAY DIFFRACTION 200 0.991 9031 (Gallus gallus) 9031 (Gallus gallus) 467 468 5a2v-a1-m1-cA_5a2v-a1-m1-cB 5a2w-a1-m1-cB_5a2w-a1-m1-cA 5a2y-a1-m1-cB_5a2y-a1-m1-cA 5a2z-a1-m1-cB_5a2z-a1-m1-cA 5a30-a1-m1-cA_5a30-a1-m1-cB RKKTFTEVQTERLEQADRSVLIKCPSKLNEKKLLQYLSSHGKIDNYFFFENRGIHALIEFSEKSSVASLQAVTGIPKHVVPYKSRLFTFTLKNPGSQAEERPVKISPQSHIPVNELIPKLCHADSISSQMYILLNEYQLTEENIKLRYLACSLVRDFARAYFPDSTVKPFGSSVNTFGKLGCDVDMFLDFHDMKKGPFEMEYQMKRLPSERLATQKILSIIGDCLDNFGPGYSSVQKILNARCPLVKFSHQPTGFQCDLSVSNSIAIRCSELLYIYGCLDPRVRALVFSLRCWARVHGLTNSVPGTWITNFSLTMMIMFFLQKRSPPIIPTLDQLKELADEKDKHVIGGYDCSFVSDLSKIKPTKNTETLDELLCDFFQYFGNFDFRKNSLNLRKGKEVNKPESSPLYIWNPFEQDLNISKNVNQPQLEKFVAMARESAWILQKEDKTQQMINKEPWGLAAVLIPFG KKTFTEVQTERLEQADRSVLIKCPSKLNEKKLLQYLSSHGKIDNYFFFENRGIHALIEFSEKSSVASLQAVTGIPKAAEHHVVPYKSRLFTFTLKNPGSQAAEERPVKISPQSHIPVNELIPKLCHADSISSQMYILLNEYQLTEENIKLRYLACSLVRDFARAYFPDSTVKPFGSSVNTFGKLGCDVDMFLDFHDKGPFEMEYQMKRLPSERLATQKILSIIGDCLDNFGPGYSSVQKILNARCPLVKFSHQPTGFQCDLSVSNSIAIRCSELLYIYGCLDPRVRALVFSLRCWARVHGLTNSVPGTWITNFSLTMMIMFFLQKRSPPIIPTLDQLKELADEKDKHVIGGYDCSFVSDLSKIKPTKNTETLDELLCDFFQYFGNFDFRKNSLNLRKGKEVNKPESSPLYIWNPFEQDLNISKNVNQPQLEKFVAMARESAWILQKEDKTQQMINKEPWGLAAVLIPF 5a3f-a1-m1-cA_5a3f-a1-m1-cC Crystal structure of the dynamin tetramer Q9UQ16 Q9UQ16 3.7 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 691 700 MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAYKNFKPEDPTRKTKALLQMVQQFAVDFEKRIEGLSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIKNIHGIRTGLFTPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGFVGNQVIRKGWLTISNIGIMKGGSKGYWFVLTAESLSWYKDDEEKEKKYMLPLDNLKVRDVEKSKHIFALFNTEQRNVYKDYRFLELACDSQEDVDSWKASLLRAGVYPDKSVFSMDPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIGDI MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAYKNFKPEDPTRKTKALLQMVQQFAVDFEKRIEGLSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIKNIHGIRTGLFTPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGFANAQQRSSQVGNQVIRKGWLTISNIGIMKGGSKGYWFVLTAESLSWYKDDEEKEKKYMLPLDNLKVRDVEKSKHIFALFNTEQRNVYKDYRFLELACDSQEDVDSWKASLLRAGVYPDKSVFSMDPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIGDI 5a3f-a1-m1-cB_5a3f-a1-m1-cC Crystal structure of the dynamin tetramer Q9UQ16 Q9UQ16 3.7 X-RAY DIFFRACTION 93 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 555 700 MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAYPTRKTKALLQMVQQFAVDFEKRIEGSGDQVDTLELSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIG MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAYKNFKPEDPTRKTKALLQMVQQFAVDFEKRIEGLSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIKNIHGIRTGLFTPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGFANAQQRSSQVGNQVIRKGWLTISNIGIMKGGSKGYWFVLTAESLSWYKDDEEKEKKYMLPLDNLKVRDVEKSKHIFALFNTEQRNVYKDYRFLELACDSQEDVDSWKASLLRAGVYPDKSVFSMDPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIGDI 5a3f-a1-m1-cD_5a3f-a1-m1-cA Crystal structure of the dynamin tetramer Q9UQ16 Q9UQ16 3.7 X-RAY DIFFRACTION 94 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 554 691 MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAPTRKTKALLQMVQQFAVDFEKRIEGSGDQVDTLELSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIG MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAYKNFKPEDPTRKTKALLQMVQQFAVDFEKRIEGLSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIKNIHGIRTGLFTPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGFVGNQVIRKGWLTISNIGIMKGGSKGYWFVLTAESLSWYKDDEEKEKKYMLPLDNLKVRDVEKSKHIFALFNTEQRNVYKDYRFLELACDSQEDVDSWKASLLRAGVYPDKSVFSMDPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIGDI 5a3f-a1-m1-cD_5a3f-a1-m1-cC Crystal structure of the dynamin tetramer Q9UQ16 Q9UQ16 3.7 X-RAY DIFFRACTION 60 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 554 700 5a3f-a1-m1-cB_5a3f-a1-m1-cA MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAPTRKTKALLQMVQQFAVDFEKRIEGSGDQVDTLELSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIG MEELIPLVNRLQDAFSALGQSCLLELPQIAVVGGQSAGKSSVLENFVGRDFLPRGSGIVTRRPLVLQLVTSKAEYAEFLHCKGKKFTDFDEVRLEIEAETDRVTGMNKGISSIPINLRVYSPHVLNLTLIDLPGITKVPVGDQPPDIEYQIREMIMQFITRENCLILAVTPANTDLANSDALKLAKEVDPQGLRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYVGVVNRSQKDIDGKKDIKAAMLAERKFFLSHPAYRHIADRMGTPHLQKVLNQQLTNHIRDTLPNFRNKLQGQLLSIEHEVEAYKNFKPEDPTRKTKALLQMVQQFAVDFEKRIEGLSGGASINRIFHERFPFEIVKMEFNEKELRREISYAIKNIHGIRTGLFTPDMAFEAIVKKQIVKLKGPSLKSVDLVIQELINTVKKCTKKLANFPRLCEETERIVANHIREREGKTKDQVLLLIDIQVSYINTNHEDFIGFANAQQRSSQVGNQVIRKGWLTISNIGIMKGGSKGYWFVLTAESLSWYKDDEEKEKKYMLPLDNLKVRDVEKSKHIFALFNTEQRNVYKDYRFLELACDSQEDVDSWKASLLRAGVYPDKSVFSMDPQLERQVETIRNLVDSYMSIINKCIRDLIPKTIMHLMINNVKDFINSELLAQLYSSEDQNTLMEESAEQAQRRDEMLRMYQALKEALGIIGDI 5a3l-a2-m1-cD_5a3l-a2-m1-cB Structure of Cea1A in complex with N-Acetylglucosamine A0A1A9TAD0 A0A1A9TAD0 1.66 X-RAY DIFFRACTION 68 1.0 638632 (Komagataella pastoris DSMZ 70382) 638632 (Komagataella pastoris DSMZ 70382) 202 209 5a3l-a1-m1-cC_5a3l-a1-m1-cA TAYGCDITTNAVDGFDATIYQYNANDLRLIRDPTFMSTGYLGRNVLNKISGVTVPGFNIWNPSSRTATVYGVKNVNYYNMVLELKGYFKADVSGDYKLTLSHIDDSSMLFFGKETAFKCCDAGSIPLNEAPTDYSLFTIKPSNQVNSEVISATQYLEAGKYYPVRIVFVNALERARFDFKLTIPSGAVLDDFQNYIYQFGDL TAYGCDITTNAVDGFDATIYQYNANDLRLIRDPTFMSTGYLGRNVLNKISGVTVPGFNIWNPSSRTATVYGVKNVNYYNMVLELKGYFKADVSGDYKLTLSHIDDSSMLFFGKETAFKCCDAGSIPLNEAPTDYSLFTIKPSNQVNSEVISATQYLEAGKYYPVRIVFVNALERARFDFKLTIPSGAVLDDFQNYIYQFGDLDENSCHE 5a3u-a1-m1-cB_5a3u-a1-m2-cB HIF prolyl hydroxylase 2 (PHD2/EGLN1) in complex with 6-(5-oxo-4-(1H- 1,2,3-triazol-1-yl)-2,5-dihydro-1H-pyrazol-1-yl)nicotinic acid Q9GZT9 Q9GZT9 3.3 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 202 LPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYL LPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYL 5a3u-a1-m2-cC_5a3u-a1-m1-cA HIF prolyl hydroxylase 2 (PHD2/EGLN1) in complex with 6-(5-oxo-4-(1H- 1,2,3-triazol-1-yl)-2,5-dihydro-1H-pyrazol-1-yl)nicotinic acid Q9GZT9 Q9GZT9 3.3 X-RAY DIFFRACTION 24 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 199 215 LPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTRGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYLT QTKPLPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYLTGEKGVRVELNKPSD 5a3u-a1-m2-cC_5a3u-a1-m1-cB HIF prolyl hydroxylase 2 (PHD2/EGLN1) in complex with 6-(5-oxo-4-(1H- 1,2,3-triazol-1-yl)-2,5-dihydro-1H-pyrazol-1-yl)nicotinic acid Q9GZT9 Q9GZT9 3.3 X-RAY DIFFRACTION 23 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 199 202 5a3u-a1-m1-cC_5a3u-a1-m2-cA 5a3u-a1-m1-cC_5a3u-a1-m2-cB LPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTRGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYLT LPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYL 5a3u-a1-m2-cC_5a3u-a1-m2-cA HIF prolyl hydroxylase 2 (PHD2/EGLN1) in complex with 6-(5-oxo-4-(1H- 1,2,3-triazol-1-yl)-2,5-dihydro-1H-pyrazol-1-yl)nicotinic acid Q9GZT9 Q9GZT9 3.3 X-RAY DIFFRACTION 70 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 199 215 5a3u-a1-m1-cC_5a3u-a1-m1-cA LPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTRGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYLT QTKPLPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADERARAKVKYLTGEKGVRVELNKPSD 5a3v-a1-m1-cA_5a3v-a1-m1-cB Crystal structure of the chloroplastic gamma-ketol reductase from Arabidopsis thaliana Q9SV68 Q9SV68 2.34 X-RAY DIFFRACTION 60 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 326 327 KLMHALQYNSYGGGAAGLEHVQVPVPTPKSNEVCLKLEATSLNPVDWKIQKGMIRPFLPRKFPCIPATDVAGEVVEVGSGVKNFKAGDKVVAVLSHLGGGGLAEFAVATEKLTVKRPQEVGAAEAAALPVAGLTALQALTNPAGLKLDGTGKKANILVTAASGGVGHYAVQLAKLANAHVTATCGARNIEFVKSLGADEVLDYKTPEGAALKSPSGKKYDAVVHCANGIPFSVFEPNLSENGKVIDITPGPNAMWTYAVKKITMSKKQLVPLLLIPKAENLEFMVNLVKEGKVKTVIDSKHPLSKAEDAWAKSIDGHATGKIIVEP GKLMHALQYNSYGGGAAGLEHVQVPVPTPKSNEVCLKLEATSLNPVDWKIQKGMIRPFLPRKFPCIPATDVAGEVVEVGSGVKNFKAGDKVVAVLSHLGGGGLAEFAVATEKLTVKRPQEVGAAEAAALPVAGLTALQALTNPAGLKLDGTGKKANILVTAASGGVGHYAVQLAKLANAHVTATCGARNIEFVKSLGADEVLDYKTPEGAALKSPSGKKYDAVVHCANGIPFSVFEPNLSENGKVIDITPGPNAMWTYAVKKITMSKKQLVPLLLIPKAENLEFMVNLVKEGKVKTVIDSKHPLSKAEDAWAKSIDGHATGKIIVEP 5a4j-a2-m1-cB_5a4j-a2-m1-cA Crystal structure of FTHFS1 from T.acetoxydans Re1 K7SWE7 K7SWE7 2.15 X-RAY DIFFRACTION 229 1.0 1209989 (Tepidanaerobacter acetatoxydans Re1) 1209989 (Tepidanaerobacter acetatoxydans Re1) 556 559 5a4j-a1-m1-cC_5a4j-a1-m1-cD KSDIEIAQEAKIEHIKDVATKIGLCEDDIEYYGKYKAKIDYNLLKRFEDKKDAKLILTTAINPTPAGEGKTTTTVGLGDALRRLGKNAMIALREPSLGPVFGIKGGAAGGGYAQVVPMEDINLHFTGDFHAIGAANNLLAAMIDNHIYQGNELNIDPRRITWKRCVDMNDRQLRFVVDGLGGKANGTPREDGYDITVASEIMAVFCLANDMEDLKNRLARIIIGYTYDGKPVTAGQLKAQGAMAALLKDAFKPNLVQTLEGTPAFVHGGPFANIAHGCNSIIATKMALKLADYVVTEAGFGADLGAEKFLDIKCRMADIRPDAVVIVATIRALKYNGGVKKEDLNQENLDALKKGLPNLLKHVENITEKYGIPTVVAINQFPTDTERELALVQEECNRLGVNAVLSEVWAKGGEGGLELAKEVVRIIEEGKNNFKPIYDLDMGIADKITTIAKEIYGADGVEFAPAALKEINTLEELGFKNVPVCIAKTQYSLTDDPKLLGRPTGFKINVRNVKISAGAGFVVALTGAIMTMPGLPKRPAAEKIDVDVNGKIAGLF MSYKSDIEIAQEAKIEHIKDVATKIGLCEDDIEYYGKYKAKIDYNLLKRFEDKKDAKLILTTAINPTPAGEGKTTTTVGLGDALRRLGKNAMIALREPSLGPVFGIKGGAAGGGYAQVVPMEDINLHFTGDFHAIGAANNLLAAMIDNHIYQGNELNIDPRRITWKRCVDMNDRQLRFVVDGLGGKANGTPREDGYDITVASEIMAVFCLANDMEDLKNRLARIIIGYTYDGKPVTAGQLKAQGAMAALLKDAFKPNLVQTLEGTPAFVHGGPFANIAHGCNSIIATKMALKLADYVVTEAGFGADLGAEKFLDIKCRMADIRPDAVVIVATIRALKYNGGVKKEDLNQENLDALKKGLPNLLKHVENITEKYGIPTVVAINQFPTDTERELALVQEECNRLGVNAVLSEVWAKGGEGGLELAKEVVRIIEEGKNNFKPIYDLDMGIADKITTIAKEIYGADGVEFAPAALKEINTLEELGFKNVPVCIAKTQYSLTDDPKLLGRPTGFKINVRNVKISAGAGFVVALTGAIMTMPGLPKRPAAEKIDVDVNGKIAGLF 5a4k-a2-m1-cA_5a4k-a2-m1-cD Crystal structure of the R139W variant of human NAD(P)H:quinone oxidoreductase P15559 P15559 2.093 X-RAY DIFFRACTION 190 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 271 271 1d4a-a1-m1-cA_1d4a-a1-m1-cC 1d4a-a2-m1-cB_1d4a-a2-m1-cD 1dxo-a1-m1-cB_1dxo-a1-m1-cD 1dxo-a2-m1-cA_1dxo-a2-m1-cC 1gg5-a1-m1-cA_1gg5-a1-m1-cC 1gg5-a2-m1-cB_1gg5-a2-m1-cD 1h66-a1-m1-cA_1h66-a1-m1-cC 1h66-a2-m1-cB_1h66-a2-m1-cD 1h69-a1-m1-cB_1h69-a1-m1-cD 1h69-a2-m1-cA_1h69-a2-m1-cC 1kbo-a1-m1-cA_1kbo-a1-m1-cC 1kbo-a2-m1-cB_1kbo-a2-m1-cD 1kbq-a1-m1-cC_1kbq-a1-m1-cA 1kbq-a2-m1-cB_1kbq-a2-m1-cD 1qbg-a5-m1-cC_1qbg-a5-m1-cD 1qbg-a6-m1-cB_1qbg-a6-m1-cA 2f1o-a1-m1-cA_2f1o-a1-m1-cC 2f1o-a2-m1-cB_2f1o-a2-m1-cD 2f1o-a3-m1-cE_2f1o-a3-m1-cF 2f1o-a4-m1-cG_2f1o-a4-m1-cH 3jsx-a1-m1-cA_3jsx-a1-m1-cB 3jsx-a2-m1-cC_3jsx-a2-m1-cD 3jsx-a3-m1-cE_3jsx-a3-m1-cG 3jsx-a4-m1-cF_3jsx-a4-m1-cH 4cet-a1-m1-cA_4cet-a1-m2-cA 4cf6-a1-m1-cA_4cf6-a1-m1-cB 5a4k-a1-m1-cB_5a4k-a1-m1-cC 5ea2-a1-m1-cA_5ea2-a1-m1-cC 5ea2-a2-m1-cE_5ea2-a2-m1-cG 5eai-a1-m1-cA_5eai-a1-m1-cB 5eai-a2-m1-cD_5eai-a2-m1-cC 5eai-a3-m1-cE_5eai-a3-m1-cF 5eai-a4-m1-cH_5eai-a4-m1-cG 5eai-a5-m1-cJ_5eai-a5-m1-cI 5eai-a6-m1-cK_5eai-a6-m1-cL 5eai-a7-m1-cN_5eai-a7-m1-cM 5fuq-a1-m1-cA_5fuq-a1-m1-cB 6fy4-a1-m1-cA_6fy4-a1-m1-cB 6fy4-a2-m1-cC_6fy4-a2-m1-cD 6llc-a1-m1-cA_6llc-a1-m1-cD 6llc-a2-m1-cB_6llc-a2-m1-cF 6llc-a3-m1-cC_6llc-a3-m2-cE 6llc-a4-m1-cG_6llc-a4-m1-cH 6llc-a5-m1-cI_6llc-a5-m1-cJ 6llc-a6-m1-cK_6llc-a6-m1-cL GRRALIVLAHSERTSFNYAMKEAAAAALKKKGWEVVESDLYAMNFNPIISRKDITGKLKDPANFQYPAESVLAYKEGHLSPDIVAEQKKLEAADLVIFQFPLQWFGVPAILKGWFERVFIGEFAYTYAAMYDKGPFWSKKAVLSITTGGSGSMYSLQGIHGDMNVILWPIQSGILHFCGFQVLEPQLTYSIGHTPADARIQILEGWKKRLENIWDETPLYFAPSSLFDLNFQAGFLMKKEVQDEEKNKKFGLSVGHHLGKSIPTDNQIKAR GRRALIVLAHSERTSFNYAMKEAAAAALKKKGWEVVESDLYAMNFNPIISRKDITGKLKDPANFQYPAESVLAYKEGHLSPDIVAEQKKLEAADLVIFQFPLQWFGVPAILKGWFERVFIGEFAYTYAAMYDKGPFWSKKAVLSITTGGSGSMYSLQGIHGDMNVILWPIQSGILHFCGFQVLEPQLTYSIGHTPADARIQILEGWKKRLENIWDETPLYFAPSSLFDLNFQAGFLMKKEVQDEEKNKKFGLSVGHHLGKSIPTDNQIKAR 5a4o-a1-m1-cA_5a4o-a1-m1-cB Crystal structure of BPSL1147, a PC4 homolog from Burkholderia pseudomallei K96243 (orthorhombic crystal form) Q63VU8 Q63VU8 1.76 X-RAY DIFFRACTION 113 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 74 74 5a4n-a1-m1-cA_5a4n-a1-m1-cB SAYDSGKTIADVQKSATQRIRISHRWYRGRRYVDVRLVVVDRDGDFVPTRQGISIRPELLAQVIQGLLLASREG SAYDSGKTIADVQKSATQRIRISHRWYRGRRYVDVRLVVVDRDGDFVPTRQGISIRPELLAQVIQGLLLASREG 5a4r-a1-m1-cA_5a4r-a1-m2-cA Crystal structure of a vitamin B12 trafficking protein Q99LS1 Q99LS1 2.25 X-RAY DIFFRACTION 82 1.0 10090 (Mus musculus) 10090 (Mus musculus) 148 148 QEINSAETYFESAKVECAIQTCPELLRRVANSKLMILTVTQKTENDMTVWSEEVEVEREVLLEKFISGAKEICYALRAEGYWADFIDPSSGVAFFGPDERYRHLGFSVDDLGCCKVIRHSLWGTHVVVGSIFTNATADSSIMRKLSGN QEINSAETYFESAKVECAIQTCPELLRRVANSKLMILTVTQKTENDMTVWSEEVEVEREVLLEKFISGAKEICYALRAEGYWADFIDPSSGVAFFGPDERYRHLGFSVDDLGCCKVIRHSLWGTHVVVGSIFTNATADSSIMRKLSGN 5a52-a1-m1-cA_5a52-a1-m2-cA The crystal structure of Arabidopsis thaliana CAR1 in complex with one calcium ion Q9FHP6 Q9FHP6 1.65 X-RAY DIFFRACTION 38 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 154 154 VGLLRIHVKRGVNLAIRDISSSDPYIVVHCGKQKLKTRVVKHSVNPEWNDDLTLSVTDPNLPIKLTVYDYDLLSADDKMGEAEFHIGPFIEAIKFAHQLGPGLPNGTIIKKIEPSRKNCLSESSHIVLGKIVQNMFLRLQHVECGEVELQLEWI VGLLRIHVKRGVNLAIRDISSSDPYIVVHCGKQKLKTRVVKHSVNPEWNDDLTLSVTDPNLPIKLTVYDYDLLSADDKMGEAEFHIGPFIEAIKFAHQLGPGLPNGTIIKKIEPSRKNCLSESSHIVLGKIVQNMFLRLQHVECGEVELQLEWI 5a5g-a1-m1-cA_5a5g-a1-m1-cB Crystal structure of FTHFS2 from T.acetoxydans Re1 F4LTH5 F4LTH5 2.3 X-RAY DIFFRACTION 220 0.995 1209989 (Tepidanaerobacter acetatoxydans Re1) 1209989 (Tepidanaerobacter acetatoxydans Re1) 552 555 KSDIEIAQSVKLQDIREIAAKLGLTEDDIDLYGKYKAKVDYNLLNNCNGKKAKLILTTAITPTPAGEGKTTTTIGAADALTRLGKKTIVALREPSLGPVFGIKGGAAGGGYAQVVPMEDINLHFTGDIHAITAANNLLAAMVDNHIFQGNQLNIDTRRVVWRRAVDINDRQLRFVIDGLGGKANGVPREDGFDITVASEVMAIFCLANDIMDLKERLAKIVVAYDREGKPVTAGDLKAQGAMAALLKDALKPNLVQTLEGTPAFVHGGPFANIAHGCNSVIATKMAMHLADYVVTEAGFGADLGAEKFIDIKCRLAGLKPDAVIIVATVRALKYNGGLAKADLEKEDLNALAKGIPNLLKHVENITQVFKLPAVVAINRFPQDTEAELKLVEDRCNELGVNVALSEVWAKGGEGGIALAEELIRLTEDGLAYVYELDMPIEEKIRAISQKIYGADDVMFTDKALKEIANLEKLGFGKMPVCIAKTQYSLTDDPKKLGRPSGFNITVRDVSVSAGAGFIVAVTGDIMKMPGLPKVPAAEKIDVDEKGVISGLF KSDIEIAQSVKLQDIREIAAKLGLTEDDIDLYGKYKAKVDYNLLNNKKAKLILTTAITPTPAGEGKTTTTIGAADALTRLGKKTIVALREPSLGPVFGIKGGAAGGGYAQVVPMEDINLHFTGDIHAITAANNLLAAMVDNHIFQGNQLNIDTRRVVWRRAVDINDRQLRFVIDGLGGKANGVPREDGFDITVASEVMAIFCLANDIMDLKERLAKIVVAYDREGKPVTAGDLKAQGAMAALLKDALKPNLVQTLEGTPAFVHGGPFANIAHGCNSVIATKMAMHLADYVVTEAGFGADLGAEKFIDIKCRLAGLKPDAVIIVATVRALKYNGGLAKADLEKEDLNALAKGIPNLLKHVENITQVFKLPAVVAINRFPQDTEAELKLVEDRCNELGVNVALSEVWAKGGEGGIALAEELIRLTEDNKASNKGLAYVYELDMPIEEKIRAISQKIYGADDVMFTDKALKEIANLEKLGFGKMPVCIAKTQYSLTDDPKKLGRPSGFNITVRDVSVSAGAGFIVAVTGDIMKMPGLPKVPAAEKIDVDEKGVISGLF 5a5l-a1-m1-cA_5a5l-a1-m4-cA Structure of dual function FBPase SBPase from Thermosynechococcus elongatus Q8DJE9 Q8DJE9 2.34 X-RAY DIFFRACTION 54 1.0 146786 (Thermosynechococcus vestitus) 146786 (Thermosynechococcus vestitus) 338 338 5a5l-a1-m2-cA_5a5l-a1-m3-cA SMDNVIGLEIIEVVEQAAIASARWMGKGDKNMADQAAVDAMRNRMNQIHMRGRIVIGEGERDEAPMLYIGEEVGICTRPDAAQYCNPEELIEIDIAVDPCEGTNLCAYGQPGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGKVDIRNSATENLKILSECLDRAIDELVVVVMKRDRHNDLIQEIRDAGARVQLISDGDVSAALACAFSGTNIHALMGIGAAPEGVISAAAMRALGGHFQGQLVYDPAVVMTKEWANRTREGNLEELKKAGITDPDKVYEAEELASGETVLFAACGITPGMLMKGVRFFKGGARTQSLVISTQSKTARFVDTIHMF SMDNVIGLEIIEVVEQAAIASARWMGKGDKNMADQAAVDAMRNRMNQIHMRGRIVIGEGERDEAPMLYIGEEVGICTRPDAAQYCNPEELIEIDIAVDPCEGTNLCAYGQPGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGKVDIRNSATENLKILSECLDRAIDELVVVVMKRDRHNDLIQEIRDAGARVQLISDGDVSAALACAFSGTNIHALMGIGAAPEGVISAAAMRALGGHFQGQLVYDPAVVMTKEWANRTREGNLEELKKAGITDPDKVYEAEELASGETVLFAACGITPGMLMKGVRFFKGGARTQSLVISTQSKTARFVDTIHMF 5a5l-a1-m2-cA_5a5l-a1-m4-cA Structure of dual function FBPase SBPase from Thermosynechococcus elongatus Q8DJE9 Q8DJE9 2.34 X-RAY DIFFRACTION 61 1.0 146786 (Thermosynechococcus vestitus) 146786 (Thermosynechococcus vestitus) 338 338 5a5l-a1-m1-cA_5a5l-a1-m3-cA SMDNVIGLEIIEVVEQAAIASARWMGKGDKNMADQAAVDAMRNRMNQIHMRGRIVIGEGERDEAPMLYIGEEVGICTRPDAAQYCNPEELIEIDIAVDPCEGTNLCAYGQPGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGKVDIRNSATENLKILSECLDRAIDELVVVVMKRDRHNDLIQEIRDAGARVQLISDGDVSAALACAFSGTNIHALMGIGAAPEGVISAAAMRALGGHFQGQLVYDPAVVMTKEWANRTREGNLEELKKAGITDPDKVYEAEELASGETVLFAACGITPGMLMKGVRFFKGGARTQSLVISTQSKTARFVDTIHMF SMDNVIGLEIIEVVEQAAIASARWMGKGDKNMADQAAVDAMRNRMNQIHMRGRIVIGEGERDEAPMLYIGEEVGICTRPDAAQYCNPEELIEIDIAVDPCEGTNLCAYGQPGSMAVLAISEKGGLFAAPDFYMKKLAAPPAAKGKVDIRNSATENLKILSECLDRAIDELVVVVMKRDRHNDLIQEIRDAGARVQLISDGDVSAALACAFSGTNIHALMGIGAAPEGVISAAAMRALGGHFQGQLVYDPAVVMTKEWANRTREGNLEELKKAGITDPDKVYEAEELASGETVLFAACGITPGMLMKGVRFFKGGARTQSLVISTQSKTARFVDTIHMF 5a62-a1-m1-cA_5a62-a1-m2-cA Hydrolytic potential of the ammonia-oxidizing Thaumarchaeon Nitrososphaera gargenis - crystal structure and activity profiles of carboxylesterases linked to their metabolic function K0IM51 K0IM51 1.5 X-RAY DIFFRACTION 78 1.0 497727 (Candidatus Nitrososphaera gargensis) 497727 (Candidatus Nitrososphaera gargensis) 272 272 PFLSSPSNSVSTYYEDHGDARSYPLVLIHPIGGNILIWDYEIQLLLKSGFRVIAYELRGHHRTNMGKTGAYTMQDLIDDLRRLLEHLNIGKCTIIGHSIGGIISSMYAAQHPGKVDAIIMINGSPKKFQEKDLEKHFRTREVAITQGMKALAEHKLVSLDEARDLFADKRHADFFREVFTKTSVEGFVAATVALYTIPGNVVQGLRASGCKVFAIVGSDDDVFMRLIKETKEEIPEMELRVLQGSDHWVVIEKPKEMYDILMGFLAIVTKDV PFLSSPSNSVSTYYEDHGDARSYPLVLIHPIGGNILIWDYEIQLLLKSGFRVIAYELRGHHRTNMGKTGAYTMQDLIDDLRRLLEHLNIGKCTIIGHSIGGIISSMYAAQHPGKVDAIIMINGSPKKFQEKDLEKHFRTREVAITQGMKALAEHKLVSLDEARDLFADKRHADFFREVFTKTSVEGFVAATVALYTIPGNVVQGLRASGCKVFAIVGSDDDVFMRLIKETKEEIPEMELRVLQGSDHWVVIEKPKEMYDILMGFLAIVTKDV 5a6b-a2-m1-cC_5a6b-a2-m1-cD GH20C, Beta-hexosaminidase from Streptococcus pneumoniae in complex with PUGNAc A0A0H2US73 A0A0H2US73 1.77 X-RAY DIFFRACTION 203 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 610 616 5a69-a1-m1-cA_5a69-a1-m2-cA 5a6a-a1-m1-cB_5a6a-a1-m1-cA 5a6b-a1-m1-cA_5a6b-a1-m1-cB 5a6j-a1-m1-cC_5a6j-a1-m1-cA 5a6j-a2-m2-cD_5a6j-a2-m1-cB 5a6j-a3-m1-cD_5a6j-a3-m3-cB 5a6k-a1-m1-cB_5a6k-a1-m1-cA 5ac4-a1-m1-cA_5ac4-a1-m1-cB 5ac5-a1-m1-cB_5ac5-a1-m1-cA SMVRFTGLSLKQTQAIEVLKGHISLPDVEVAVTQSDQASISIEGEEGHYQLTYRKPHQLYRALSLLVTVLAEADKVEIEEQAAYEDLAYMVDCSRNAVLNVASAKQMIEILALMGYSTFELYMEDTYQIEGQPYFGYFRGAYSAEELQEIEAYAQQFDVTFVPCIQTLAHLSAFVKWGVKEVQELRDVEDILLIGEEKVYDLIDGMFATLSKLKTRKVNIGMDEAHLVGLGRYLILNGVVDRSLLMCQHLERVLDIADKYGFHCQMWSDMFEETRVYLDRLKDRVTLVYWDYYQDSEEKYNRNFRNHHKISHDLAFAGGAWKWIGFTPHNHFSRLVAIEANKACRANQIKEVIVTGWGDNGGETAQFSILPSLQIWAELSYRNDLDGLSAHFKTNTGLTVEDFMQIDLANLLPDLPGNLSGINPNRYVFYQDILCPILDQHMTPEQDKPHFAQAAETLANIKEKAGNYAYLFETQAQLNAILSSKVDVGRRIRQAYQADDKESLQQIARQELPELRSQIEDFHALFSHQWLKENKVFGLDTVDIRMGGLLQRIKRAESRIEVYLAGQLDRIDELEVEILPFTDFYADKDFAATTANQWHTIATASTIYTT SMVRFTGLSLKQTQAIEVLKGHISLPDVEVAVTQSDQASISIEGEEGHYQLTYRKPHQLYRALSLLVTVLAEADKVEIEEQAAYEDLAYMVDCSRNAVLNVASAKQMIEILALMGYSTFELYMEDTYQIEGQPYFGYFRGAYSAEELQEIEAYAQQFDVTFVPCIQTLAHLSAFVKWGVKEVQELRDVEDILLIGEEKVYDLIDGMFATLSKLKTRKVNIGMDEAHLVGLGRYLILNGVVDRSLLMCQHLERVLDIADKYGFHCQMWSDMFFKMSIPEETRVYLDRLKDRVTLVYWDYYQDSEEKYNRNFRNHHKISHDLAFAGGAWKWIGFTPHNHFSRLVAIEANKACRANQIKEVIVTGWGDNGGETAQFSILPSLQIWAELSYRNDLDGLSAHFKTNTGLTVEDFMQIDLANLLPDLPGNLSGINPNRYVFYQDILCPILDQHMTPEQDKPHFAQAAETLANIKEKAGNYAYLFETQAQLNAILSSKVDVGRRIRQAYQADDKESLQQIARQELPELRSQIEDFHALFSHQWLKENKVFGLDTVDIRMGGLLQRIKRAESRIEVYLAGQLDRIDELEVEILPFTDFYADKDFAATTANQWHTIATASTIYTT 5a6o-a1-m1-cA_5a6o-a1-m1-cB Crystal structure of the apo form of the unphosphorylated human death associated protein kinase 3 (DAPK3) O43293 O43293 1.6 X-RAY DIFFRACTION 131 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 265 266 3bqr-a1-m1-cA_3bqr-a1-m2-cA 5a6n-a1-m1-cB_5a6n-a1-m1-cA VEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSSSRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMTIAQSLEHSWIKAI SMVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSSSRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMTIAQSLEHSWIKA 5a6s-a1-m1-cA_5a6s-a1-m2-cA Crystal structure of the CTP1L endolysin reveals how its activity is regulated by a secondary translation product D9ZNF3 D9ZNF3 1.9 X-RAY DIFFRACTION 33 1.0 871584 (Clostridium phage phiCTP1) 871584 (Clostridium phage phiCTP1) 273 273 4cu2-a1-m1-cA_4cu2-a1-m2-cA 4cu2-a1-m3-cA_4cu2-a1-m4-cA 5a6s-a1-m1-cB_5a6s-a1-m2-cB MKKIADISNLNGNVDVKLLFNLGYIGIIAKASEGGTFVDKYYKQNYTNTKAQGKITGAYHFANFSTIAKAQQEANFFLNCIAGTTPDFVVLDLEQQCTGDITDACLAFLNIVAKKFKCVVYCNSSFIKEHLNSKICAYPLWIANYGVATPAFTLWTKYAMWQFTEKGQVSGISGYIDFSYITDEFIKYIKGEDEVENLVVYNDGADQRAAEYLADRLACPTINNARKFDYSNVKNVYAVGGNKEQYTSYLTTLIAGSTRYTTMQAVLDYIKNL MKKIADISNLNGNVDVKLLFNLGYIGIIAKASEGGTFVDKYYKQNYTNTKAQGKITGAYHFANFSTIAKAQQEANFFLNCIAGTTPDFVVLDLEQQCTGDITDACLAFLNIVAKKFKCVVYCNSSFIKEHLNSKICAYPLWIANYGVATPAFTLWTKYAMWQFTEKGQVSGISGYIDFSYITDEFIKYIKGEDEVENLVVYNDGADQRAAEYLADRLACPTINNARKFDYSNVKNVYAVGGNKEQYTSYLTTLIAGSTRYTTMQAVLDYIKNL 5a6s-a1-m2-cB_5a6s-a1-m2-cA Crystal structure of the CTP1L endolysin reveals how its activity is regulated by a secondary translation product D9ZNF3 D9ZNF3 1.9 X-RAY DIFFRACTION 58 0.987 871584 (Clostridium phage phiCTP1) 871584 (Clostridium phage phiCTP1) 79 273 4cu2-a1-m1-cA_4cu2-a1-m3-cA 4cu2-a1-m2-cA_4cu2-a1-m4-cA 5a6s-a1-m1-cB_5a6s-a1-m1-cA MENLVVYNDGADQRAAEYLADRLACPTINNARKFDYSNVKNVYAVGGNKEQYTSYLTTLIAGSTRYTTMQAVLDYIKNL MKKIADISNLNGNVDVKLLFNLGYIGIIAKASEGGTFVDKYYKQNYTNTKAQGKITGAYHFANFSTIAKAQQEANFFLNCIAGTTPDFVVLDLEQQCTGDITDACLAFLNIVAKKFKCVVYCNSSFIKEHLNSKICAYPLWIANYGVATPAFTLWTKYAMWQFTEKGQVSGISGYIDFSYITDEFIKYIKGEDEVENLVVYNDGADQRAAEYLADRLACPTINNARKFDYSNVKNVYAVGGNKEQYTSYLTTLIAGSTRYTTMQAVLDYIKNL 5a71-a1-m1-cA_5a71-a1-m1-cB Open and closed conformations and protonation states of Candida antarctica Lipase B: atomic resolution native P41365 P41365 0.91 X-RAY DIFFRACTION 39 1.0 84753 (Moesziomyces antarcticus) 84753 (Moesziomyces antarcticus) 316 316 5a6v-a1-m1-cB_5a6v-a1-m1-cA LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVT LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVT 5a78-a1-m1-cA_5a78-a1-m1-cB Crystal structure of the homing endonuclease I-CvuI in complex with I- CreI target (C1221) in the presence of 2 mM Mg revealing DNA not cleaved P56347 P56347 2.5 X-RAY DIFFRACTION 60 1.0 3077 (Chlorella vulgaris) 3077 (Chlorella vulgaris) 157 158 5a72-a1-m1-cA_5a72-a1-m1-cB 5a74-a1-m1-cA_5a74-a1-m1-cB 5a77-a1-m1-cA_5a77-a1-m1-cB NFHDQLKFAWLAGFVDADGCINAQIVSREDYLLKYQVRVSLTVFQSTTQHFILLDIQKILGCGTVRKRNDGMSEFCVVGGTSLQTTLEKLLPYLQLKRAQAKLVLQIIKKLPNTKDPSVLMEAALLADKVGLLTDGKKRTILAENVRECLKKLGHVV NFHDQLKFAWLAGFVDADGCINAQIVSREDYLLKYQVRVSLTVFQSTTQHFILLDIQKILGCGTVRKRNDGMSEFCVVGGTSLQTTLEKLLPYLQLKRAQAKLVLQIIKKLPNTKDPSVLMEAALLADKVGLLTDGKKRTILAENVRECLKKLGHVVS 5a7d-a3-m1-cF_5a7d-a3-m1-cC Tetrameric assembly of LGN with Inscuteable Q9VB22 Q9VB22 3.4 X-RAY DIFFRACTION 53 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 346 348 5a7d-a1-m1-cH_5a7d-a1-m1-cB 5a7d-a2-m1-cG_5a7d-a2-m1-cE 5a7d-a4-m1-cD_5a7d-a4-m1-cI SMCLELALEGERLCKAGDCRAGVAFFQAAIQAGTEDLRTLSAIYSQLGNAYFYLGDYNKAMQYHKHDLTLAKSMNDRLGEAKSSGNLGNTLKVMGRFDEAAICCERHLTLARQLGDRLSEGRALYNLGNVYHAKGKHLGQRNPGKFGDDVKEALTRAVEFYQENLKLMRDLGDRGAQGRACGNLGNTYYLLGDFQAAIEHHQERLRIAREFGDRAAERRANSNLGNSHIFLGQFEDAAEHYKRTLALAVELGEREVEAQSCYSLGNTYTLLHEFNTAIEYHNRHLAIAQELGDRIGEARACWSLGNAHSAIGGHERALKYAEQHLQLAKELHDPVGESTARVNISD GSSMCLELALEGERLCKAGDCRAGVAFFQAAIQAGTEDLRTLSAIYSQLGNAYFYLGDYNKAMQYHKHDLTLAKSMNDRLGEAKSSGNLGNTLKVMGRFDEAAICCERHLTLARQLGDRLSEGRALYNLGNVYHAKGKHLGQRNPGKFGDDVKEALTRAVEFYQENLKLMRDLGDRGAQGRACGNLGNTYYLLGDFQAAIEHHQERLRIAREFGDRAAERRANSNLGNSHIFLGQFEDAAEHYKRTLALAVELGEREVEAQSCYSLGNTYTLLHEFNTAIEYHNRHLAIAQELGDRIGEARACWSLGNAHSAIGGHERALKYAEQHLQLAKELHDPVGESTARVNISD 5a7d-a3-m1-cM_5a7d-a3-m1-cP Tetrameric assembly of LGN with Inscuteable Q24367 Q24367 3.4 X-RAY DIFFRACTION 37 0.981 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 259 288 5a7d-a1-m1-cL_5a7d-a1-m1-cR HPEPVASWMSEQRWAGEPEVMCTLQHKSIAQEAYKNYTITTSAVCKLVRQLQQQALSLQVHFERSERVLSPEALAGATQLLSHLDDFTATLERRGVFFNDAKIERRRYEQHLEQILESLLDDVQLLKRHTLITLRLIFERLVRVLVISIEQSQCDLLLRANINMVATLMNIDYDGFRSLSDAFVQNEAVRTLLVVVLDHKQSSVRALALRALATLCCAPQAINQLGSCGGIEIVRDILQIERREAVSLLAQITAAWHGS HPEPVASWMSEQRWAGEPEVMCTLQHKSIAQEAYKNYTITTSAVCKLVRQLQQQALSLQVHFERSERVLSGLQASSLPEALAGATQLLSHLDDFTATLERRGVFFNDAKIERRRYEQHLEQIRTVSKDTRYSLERQHYINLESLLDDVQLLKRHTLITLRLIFERLVRVLVISIEQSQCDLLLRANINMVATLMNIDYDGFRSLSDAFVQNEAVRTLLVVVLDHKQSSVRALALRALATLCCAPQAINQLGSCGGIEIVRDILQVESAGERGAIERREAVSLLAQITA 5a7d-a4-m1-cN_5a7d-a4-m1-cS Tetrameric assembly of LGN with Inscuteable Q24367 Q24367 3.4 X-RAY DIFFRACTION 23 0.996 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 283 287 5a7d-a2-m1-cQ_5a7d-a2-m1-cO EPVASWMSEQRWAGEPEVMCTLQHKSIAQEAYKNYTITTSAVCKLVRQLQQQALSLQVHFERSERVLSGLQASSLPEALAGATQLLSHLDDFTATLERRGVFFNDAKIERRRYEQHLEQIRTVSKDTRYSLERQHYINLESLLDDVQLLKRHTLITLRLIFERLVRVLVISIEQSQCDLLLRANINMVATLMNIDYDGFRSLSDAFVQNEAVRTLLVVVLDHKQSSVRALALRALATLCCAPQAINQLGSCGGIEIVRDILQVRGAIERREAVSLLAQITAAW EPVASWMSEQRWAGEPEVMCTLQHKSIAQEAYKNYTITTSAVCKLVRQLQQQALSLQVHFERSERVLSGLQASSLPEALAGATQLLSHLDDFTATLERRGVFFNDAKIERRRYEQHLEQIRTVSKDTRYSLERQHYINLESLLDDVQLLKRHTLITLRLIFERLVRVLVISIEQSQCDLLLRANINMVATLMNIDYDGFRSLSDAFVQNEAVRTLLVVVLDHKQSSVRALALRALATLCCAPQAINQLGSCGGIEIVRDILQVESAGERGAIERREAVSLLAQITAA 5a8b-a2-m1-cD_5a8b-a2-m1-cC Structure of a parallel dimer of the aureochrome 1a LOV domain from Phaeodactylum tricornutum A0A140UHJ0 A0A140UHJ0 2.791 X-RAY DIFFRACTION 67 1.0 2850 (Phaeodactylum tricornutum) 2850 (Phaeodactylum tricornutum) 131 139 5a8b-a1-m1-cB_5a8b-a1-m1-cA SFIKALQTAQQNFVVTDPSLPDNPIVYASQGFLNLTGYSLDQILGRNCRFLQGPETDPKAVERIRKAIEQGNDMSVCLLNYRVDGTTFWNQFFIAALRDAGGNVTNFVGVQCKVSDQYAATVTKQQEEEEE PRGSHMDFSFIKALQTAQQNFVVTDPSLPDNPIVYASQGFLNLTGYSLDQILGRNCRFLQGPETDPKAVERIRKAIEQGNDMSVCLLNYRVDGTTFWNQFFIAALRDAGGNVTNFVGVQCKVSDQYAATVTKQQEEEEE 5a8j-a1-m1-cA_5a8j-a1-m2-cA Crystal structure of the ArnB paralog VWA2 from Sulfolobus acidocaldarius Q4J9H5 Q4J9H5 1.46 X-RAY DIFFRACTION 89 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 365 365 ATVSVSLKSSTNLAFTGKPTQVSLIVRVSPTSFASLSGIHYVVMIDNSPSMKKENKINLALSSASRLVQDIIPGNFISIYLFSNDIETLYEGESGKQIELKSIKMGYTTNLHKAITKVLEKFKSSEIPVKIILLSDGKPTDKRYSRDYESLQVPKNVQLITIGLGEDYNEAIMKILADKGSGVFYHINDPSQLPTTLVEQKSDKVAAYNLTLNFSEGLEVINYEMPVNIPVVDKDVNVYAVGNIPPGETDYTLKVTGNYVDSVSNKNIEIDESLVIKRAPDDEVRSNFDRTVINEVSYYMLLRYYGNLISEGKSEEATRVVQELLTAAERTKRVELIERTKKLVNDPKVDLSEVTKTMRTGSIEG ATVSVSLKSSTNLAFTGKPTQVSLIVRVSPTSFASLSGIHYVVMIDNSPSMKKENKINLALSSASRLVQDIIPGNFISIYLFSNDIETLYEGESGKQIELKSIKMGYTTNLHKAITKVLEKFKSSEIPVKIILLSDGKPTDKRYSRDYESLQVPKNVQLITIGLGEDYNEAIMKILADKGSGVFYHINDPSQLPTTLVEQKSDKVAAYNLTLNFSEGLEVINYEMPVNIPVVDKDVNVYAVGNIPPGETDYTLKVTGNYVDSVSNKNIEIDESLVIKRAPDDEVRSNFDRTVINEVSYYMLLRYYGNLISEGKSEEATRVVQELLTAAERTKRVELIERTKKLVNDPKVDLSEVTKTMRTGSIEG 5a8s-a1-m2-cA_5a8s-a1-m3-cA Crystal structure of Antheraea mylitta CPV4 polyhedra type 1 Q67G25 Q67G25 1.724 X-RAY DIFFRACTION 124 1.0 180167 (Antheraea mylitta cypovirus 4) 180167 (Antheraea mylitta cypovirus 4) 253 253 5a8s-a1-m1-cA_5a8s-a1-m2-cA 5a8s-a1-m1-cA_5a8s-a1-m3-cA STSTYALRAGKRDVRREQQEIITRQINTAPYVQDAMMRVVVFAQYPSGRYKAFDYVFPDYLKVFLNWRELLEDTTTDYDPRTNTHRLMGQGYRQLIHPNHGSGEEPYDTRYPMGVIVSFNGNIDWTRARVEATNMHGLNNTDWREARAWGPHVICGNQLRKAGHLSRAVYVPLDEHNTVKVLATARQDGALNRFNGPQLAQTLTNNIVCPNVIEFNTESDVIDYAKMAHIAYIDQAGLIVASSDAYISGDSQA STSTYALRAGKRDVRREQQEIITRQINTAPYVQDAMMRVVVFAQYPSGRYKAFDYVFPDYLKVFLNWRELLEDTTTDYDPRTNTHRLMGQGYRQLIHPNHGSGEEPYDTRYPMGVIVSFNGNIDWTRARVEATNMHGLNNTDWREARAWGPHVICGNQLRKAGHLSRAVYVPLDEHNTVKVLATARQDGALNRFNGPQLAQTLTNNIVCPNVIEFNTESDVIDYAKMAHIAYIDQAGLIVASSDAYISGDSQA 5a8u-a1-m2-cA_5a8u-a1-m3-cA Crystal structure of Orgyia pseudotsugata CPV5 polyhedra P36701 P36701 1.609 X-RAY DIFFRACTION 143 1.0 31592 (Orgyia pseudotsugata cypovirus 5) 31592 (Orgyia pseudotsugata cypovirus 5) 252 252 5a8u-a1-m1-cA_5a8u-a1-m2-cA 5a8u-a1-m1-cA_5a8u-a1-m3-cA 5a8v-a1-m1-cA_5a8v-a1-m2-cA 5a8v-a1-m1-cA_5a8v-a1-m3-cA 5a8v-a1-m2-cA_5a8v-a1-m3-cA HGLDDAQYLQQKAHNKRISEFRSSSNSGINVTVVLKYTNGVVQVYNWQGTEVIAGSLNRQLMKFPNYMNPDKHGRIEWPGEGVEHQHGLIRSNGGNGSYDIGAGDPYAMQFIVQGSVDWNATRLRFFGPDGSRWMPDDQGGASVRAGLLNAAEDIINSKMQPLYFCDRMAGKSYYVRFDDKYAPRFPTIGFEVYRYRVGATNEMGGESARTAVASLISFPTFSTAYVNEKVAVENFFQPRELVYQNSYGYTV HGLDDAQYLQQKAHNKRISEFRSSSNSGINVTVVLKYTNGVVQVYNWQGTEVIAGSLNRQLMKFPNYMNPDKHGRIEWPGEGVEHQHGLIRSNGGNGSYDIGAGDPYAMQFIVQGSVDWNATRLRFFGPDGSRWMPDDQGGASVRAGLLNAAEDIINSKMQPLYFCDRMAGKSYYVRFDDKYAPRFPTIGFEVYRYRVGATNEMGGESARTAVASLISFPTFSTAYVNEKVAVENFFQPRELVYQNSYGYTV 5a8w-a2-m1-cG_5a8w-a2-m1-cJ METHYL-COENZYME M REDUCTASE II FROM METHANOTHERMOBACTER WOLFEII AT 1. 8 A RESOLUTION H7CHY2 H7CHY2 1.8 X-RAY DIFFRACTION 364 1.0 145261 (Methanothermobacter wolfeii) 145261 (Methanothermobacter wolfeii) 543 543 5a8r-a1-m1-cA_5a8r-a1-m1-cD 5a8r-a2-m1-cG_5a8r-a2-m1-cJ 5a8w-a1-m1-cA_5a8w-a1-m1-cD KKLFLKALKKKFEGEDPEEKSTNFYCFGGWEQSERKREFTEYAKKAAEKRGGIPFYNPDIGVPLGQRKLMAYRVSGTDAYVEGDDLHFVNNAAIQQMVDDIKRTVIVGMDTAHAVLEKRLGVEVTPETINEYMEVINHALPGGAVVQEHMVEVHPGIVEDCYAKVFTGDDNLADELDKRILIDINKEFPEEQAEQLKSYIGNRTYQVNRVPTIVVRACDGGTVSRWSAMQIGMSFISAYKLCAGEAAIADFSFAAKADVIEMGTIMPARARGPNEPGGVAFGTFADIVQASRVSDDPANVSLEVIAGAAALYDQVWLGSYMSGGVGFTQYATAAYTDDILDDFLYYGMEYVEDKFGICGSEPTMDVVRDISTEVTLYSLEQYEEYPTLLEDHFGGSRAAVAAAAAGCSTAFATGNSNAGVNGWYLSQILHKEAHSRLGFYYDLQDQGASNSLSIRSDEGLIHELRGPNYPNYAMNVGHQPEYAGIAQAPHAARGDAFCTNPLIKVAFADKDLSFDFTSPRKSIAKGALREFIPEGERDLIIPA KKLFLKALKKKFEGEDPEEKSTNFYCFGGWEQSERKREFTEYAKKAAEKRGGIPFYNPDIGVPLGQRKLMAYRVSGTDAYVEGDDLHFVNNAAIQQMVDDIKRTVIVGMDTAHAVLEKRLGVEVTPETINEYMEVINHALPGGAVVQEHMVEVHPGIVEDCYAKVFTGDDNLADELDKRILIDINKEFPEEQAEQLKSYIGNRTYQVNRVPTIVVRACDGGTVSRWSAMQIGMSFISAYKLCAGEAAIADFSFAAKADVIEMGTIMPARARGPNEPGGVAFGTFADIVQASRVSDDPANVSLEVIAGAAALYDQVWLGSYMSGGVGFTQYATAAYTDDILDDFLYYGMEYVEDKFGICGSEPTMDVVRDISTEVTLYSLEQYEEYPTLLEDHFGGSRAAVAAAAAGCSTAFATGNSNAGVNGWYLSQILHKEAHSRLGFYYDLQDQGASNSLSIRSDEGLIHELRGPNYPNYAMNVGHQPEYAGIAQAPHAARGDAFCTNPLIKVAFADKDLSFDFTSPRKSIAKGALREFIPEGERDLIIPA 5a8w-a2-m1-cH_5a8w-a2-m1-cK METHYL-COENZYME M REDUCTASE II FROM METHANOTHERMOBACTER WOLFEII AT 1. 8 A RESOLUTION A0A1C7D1E4 A0A1C7D1E4 1.8 X-RAY DIFFRACTION 157 1.0 145261 (Methanothermobacter wolfeii) 145261 (Methanothermobacter wolfeii) 442 442 5a8r-a1-m1-cB_5a8r-a1-m1-cE 5a8r-a2-m1-cH_5a8r-a2-m1-cK 5a8w-a1-m1-cB_5a8w-a1-m1-cE PMYEDRVDLYGADGKLLEEDVPLEAVSPLKNPTIANLVSDVKRSVAVNLAGIEGSLRKAALGGKSNFIPGREVDLPIVENAEAIAEKIKKLVQTSEDDDTNIRLINNGQQILVQVPTTRMGVAADYTVSALVTGAAVVQAIIDEFDVDMFDANAVKTAVMGRYPQTVDFTGANLSTLLGPPVLLEGLGYGLRNIMANHVVAITRKNTLNASALSSILEQTAMFETGDAVGAFERMHLLGLAYQGLNANNLLFDLVKENGKGTVGTVIASLVERAIEDRVIKVAKEMTSGYKMYEPADWALWNAYAATGLLAATIVNVGAARAAQGVASTVLYYNDILEYETGLPGVDFGRAMGTAVGFSFFSHSIYGGGGPGIFHGNHVVTRHSKGFALPCVAAAMCLDAGTQMFSVEKTSGLIGSVYSEIDYFREPIVNVAKGAAEIKDQL PMYEDRVDLYGADGKLLEEDVPLEAVSPLKNPTIANLVSDVKRSVAVNLAGIEGSLRKAALGGKSNFIPGREVDLPIVENAEAIAEKIKKLVQTSEDDDTNIRLINNGQQILVQVPTTRMGVAADYTVSALVTGAAVVQAIIDEFDVDMFDANAVKTAVMGRYPQTVDFTGANLSTLLGPPVLLEGLGYGLRNIMANHVVAITRKNTLNASALSSILEQTAMFETGDAVGAFERMHLLGLAYQGLNANNLLFDLVKENGKGTVGTVIASLVERAIEDRVIKVAKEMTSGYKMYEPADWALWNAYAATGLLAATIVNVGAARAAQGVASTVLYYNDILEYETGLPGVDFGRAMGTAVGFSFFSHSIYGGGGPGIFHGNHVVTRHSKGFALPCVAAAMCLDAGTQMFSVEKTSGLIGSVYSEIDYFREPIVNVAKGAAEIKDQL 5a96-a1-m2-cA_5a96-a1-m3-cA Crystal structure of Lymantria dispar CPV14 polyhedra Q91IE3 Q91IE3 1.914 X-RAY DIFFRACTION 116 1.0 165429 (Lymantria dispar cypovirus 14) 165429 (Lymantria dispar cypovirus 14) 249 249 5a96-a1-m1-cA_5a96-a1-m2-cA 5a96-a1-m1-cA_5a96-a1-m3-cA MENSARQVAQDTRELHLLQHIKSDQSYIYVFVFLYYRDHSVRVWKLTNPVSISETLDYDDLINNVNRCKSAREPAIYYREGITGNDAGDSIIDKAYCEPVSFMIVACGDVDIQTIEVNIQGYDEIEGVGILDSNVTPPYAITATKFERKTSGGYIFYTYCGLFGHGDRGHPTMAVGVEKKNRNAFGRMHPMYVAANYKRRNFWAKKDWWFPTEGQMVEQFIKQQSIPYVTADNVMIAPCVREIRHHAHY MENSARQVAQDTRELHLLQHIKSDQSYIYVFVFLYYRDHSVRVWKLTNPVSISETLDYDDLINNVNRCKSAREPAIYYREGITGNDAGDSIIDKAYCEPVSFMIVACGDVDIQTIEVNIQGYDEIEGVGILDSNVTPPYAITATKFERKTSGGYIFYTYCGLFGHGDRGHPTMAVGVEKKNRNAFGRMHPMYVAANYKRRNFWAKKDWWFPTEGQMVEQFIKQQSIPYVTADNVMIAPCVREIRHHAHY 5a98-a1-m2-cA_5a98-a1-m3-cA Crystal structure of Trichoplusia ni CPV15 polyhedra Q9ELS6 Q9ELS6 1.816 X-RAY DIFFRACTION 98 1.0 134606 (Trichoplusia ni cypovirus 15) 134606 (Trichoplusia ni cypovirus 15) 235 235 5a98-a1-m1-cA_5a98-a1-m2-cA 5a98-a1-m1-cA_5a98-a1-m3-cA MEDYTLREREQEIYNRQVIKRPFDPDSYLTADLHLYLKNGKTLTIHIERNLFFSHEFTWEEICRGKCDTQEYIDGLVADNGGRSTHNSSYLEPVAFQLTLLGNFDLGSIHLRIGDYLGFRDGQRFPCKETIHGRRDTIGPFMQGMSGKWAKEDYIHTYSGRFDCKTSRHPSIFLAFMRANQDGHSSFAPENMRNALLYSGDKSPRYILMDNEHTLINNFIIPRCLPYRDQYGKDY MEDYTLREREQEIYNRQVIKRPFDPDSYLTADLHLYLKNGKTLTIHIERNLFFSHEFTWEEICRGKCDTQEYIDGLVADNGGRSTHNSSYLEPVAFQLTLLGNFDLGSIHLRIGDYLGFRDGQRFPCKETIHGRRDTIGPFMQGMSGKWAKEDYIHTYSGRFDCKTSRHPSIFLAFMRANQDGHSSFAPENMRNALLYSGDKSPRYILMDNEHTLINNFIIPRCLPYRDQYGKDY 5a99-a1-m2-cA_5a99-a1-m3-cA Crystal structure of Operophtera brumata CPV19 polyhedra Q30C66 Q30C66 1.511 X-RAY DIFFRACTION 114 1.0 352246 (Operophtera brumata cypovirus 19) 352246 (Operophtera brumata cypovirus 19) 247 247 5a99-a1-m1-cA_5a99-a1-m2-cA 5a99-a1-m1-cA_5a99-a1-m3-cA AYHGAPHEIRNRYQHDRALEILDRQYSRDSYIYAHLVLYMKDSSLQIIRAQNPRIISRSYNWDQLVLPNYRINDEKYYGRSELRHLRDGLLSDNGGRSQHDKGMNEPVSFQFIVQGDVDLGSVWFRVNKYNNISSSSFAMEAVSERAENYIGPLMRPIRYFDREMAWSYVGKFDGILFPCHPVISFAVQRANRDGAGLYNGENIYKTLIRLNDSPDLYAHYDDEETSVANYWTRFQYLYRTKCDIAV AYHGAPHEIRNRYQHDRALEILDRQYSRDSYIYAHLVLYMKDSSLQIIRAQNPRIISRSYNWDQLVLPNYRINDEKYYGRSELRHLRDGLLSDNGGRSQHDKGMNEPVSFQFIVQGDVDLGSVWFRVNKYNNISSSSFAMEAVSERAENYIGPLMRPIRYFDREMAWSYVGKFDGILFPCHPVISFAVQRANRDGAGLYNGENIYKTLIRLNDSPDLYAHYDDEETSVANYWTRFQYLYRTKCDIAV 5a9a-a1-m2-cA_5a9a-a1-m3-cA Crystal structure of Simulium ubiquitum CPV20 polyhedra Q0MX25 Q0MX25 1.822 X-RAY DIFFRACTION 96 1.0 397545 (Simulium ubiquitum cypovirus) 397545 (Simulium ubiquitum cypovirus) 242 242 5a9a-a1-m1-cA_5a9a-a1-m2-cA 5a9a-a1-m1-cA_5a9a-a1-m3-cA SNQPFNQPNVLQERQHLVNRQLVQGPNVQDAIKRVAIIFIYKNGSYRLIDYNAPEFINGYFNWRDMLYMDKPAHSNRHKEFENQIRRPDHGDSHHPELFEYPVAIMISANGNICWENVRVEVENEDCLNHEDWRRARAWGPRCYKGSQMMKCSALGRFLYIPLRCQNESLKFKFPSRMSGGDNRYSSHSIGQVIQNNIIIRNNPLYLDNEGDLIDYMQAKNLCYIDSAAVVDCNGLAGDSEC SNQPFNQPNVLQERQHLVNRQLVQGPNVQDAIKRVAIIFIYKNGSYRLIDYNAPEFINGYFNWRDMLYMDKPAHSNRHKEFENQIRRPDHGDSHHPELFEYPVAIMISANGNICWENVRVEVENEDCLNHEDWRRARAWGPRCYKGSQMMKCSALGRFLYIPLRCQNESLKFKFPSRMSGGDNRYSSHSIGQVIQNNIIIRNNPLYLDNEGDLIDYMQAKNLCYIDSAAVVDCNGLAGDSEC 5a9b-a1-m2-cA_5a9b-a1-m3-cA Crystal structure of Bombyx mori CPV1 polyhedra base domain deleted mutant P11041 P11041 1.883 X-RAY DIFFRACTION 100 1.0 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 209 209 5a9b-a1-m1-cA_5a9b-a1-m2-cA 5a9b-a1-m1-cA_5a9b-a1-m3-cA 6lee-a1-m1-cA_6lee-a1-m2-cA 6lee-a1-m1-cA_6lee-a1-m3-cA 6lee-a1-m2-cA_6lee-a1-m3-cA SNRDFRGREQRLFNSEQYNYNSSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKVLKEGSGAKPRAIQIIFSPSVNVRTIKMAKGNAVSVPDEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNPSSYNVGSAHNVMDVFQSCDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSN SNRDFRGREQRLFNSEQYNYNSSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKVLKEGSGAKPRAIQIIFSPSVNVRTIKMAKGNAVSVPDEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNPSSYNVGSAHNVMDVFQSCDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSN 5a9c-a1-m2-cA_5a9c-a1-m3-cA Crystal structure of Antheraea mylitta CPV4 polyhedra base domain deleted mutant Q67G25 Q67G25 1.71 X-RAY DIFFRACTION 81 1.0 180167 (Antheraea mylitta cypovirus 4) 180167 (Antheraea mylitta cypovirus 4) 203 203 5a8t-a1-m1-cA_5a8t-a1-m2-cA 5a8t-a1-m1-cA_5a8t-a1-m3-cA 5a8t-a1-m2-cA_5a8t-a1-m3-cA 5a9c-a1-m1-cA_5a9c-a1-m2-cA 5a9c-a1-m1-cA_5a9c-a1-m3-cA RDVRREQQEIITRQINTAPYVQDAMMRVVVFAQYPSGRYKAFDYVFPDYLKVFLNWRELLEGSGRYPMGVIVSFNGNIDWTRARVEATNMHGLNNTDWREARAWGPHVICGNQLRKAGHLSRAVYVPLDEHNTVKVLATARQNRFNGPQLAQTLTNNIVCPNVIEFNTESDVIDYAKMAHIAYIDQAGLIVASSDAYISGDSQ RDVRREQQEIITRQINTAPYVQDAMMRVVVFAQYPSGRYKAFDYVFPDYLKVFLNWRELLEGSGRYPMGVIVSFNGNIDWTRARVEATNMHGLNNTDWREARAWGPHVICGNQLRKAGHLSRAVYVPLDEHNTVKVLATARQNRFNGPQLAQTLTNNIVCPNVIEFNTESDVIDYAKMAHIAYIDQAGLIVASSDAYISGDSQ 5a9d-a1-m1-cA_5a9d-a1-m1-cB Crystal structure of the extracellular domain of PepT1 Q9JIP7 Q9JIP7 2.1 X-RAY DIFFRACTION 97 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 189 GGNQVQIKVLNIGNNNMTVHFPGNSVTLAQMSQTDTFMTFDIDKLTSINISSSGSPGVTTVAHDFEQGHRHTLLVWNPSQYRVVKDGLNQKPEKGENGIRFVNTLNEMVTIKMSGKVYENVTSHNASGYQFFPSGEKQYTINTTAVAPTCLTDFKSSNLDFGSAYTYVIRRASDGCLEVKEFEDIPPNT GGNQVQIKVLNIGNNNMTVHFPGNSVTLAQMSQTDTFMTFDIDKLTSINISSSGSPGVTTVAHDFEQGHRHTLLVWNPSQYRVVKDGLNQKPEKGENGIRFVNTLNEMVTIKMSGKVYENVTSHNASGYQFFPSGEKQYTINTTAVAPTCLTDFKSSNLDFGSAYTYVIRRASDGCLEVKEFEDIPPNT 5a9h-a1-m1-cA_5a9h-a1-m2-cA Crystal structure of the extracellular domain of PepT2 Q63424 Q63424 2.06 X-RAY DIFFRACTION 49 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 189 189 MAASQEIFLQVLNLADGDVKVTVLGSRNNSLLVESVSSFQNTTHYSKLHLEAKSQDLHFHLKYNSLSVHNDHSVEEKNCYQLLIHQDGESISSMLVKDTGIKPANGMAAIRFINTLHKDLNISLDTDAPLSVGKDYGVSAYRTVLRGKYPAVHCETEDKVFSLDLGQLDFGTTYLFVITNLQAWKAEDI MAASQEIFLQVLNLADGDVKVTVLGSRNNSLLVESVSSFQNTTHYSKLHLEAKSQDLHFHLKYNSLSVHNDHSVEEKNCYQLLIHQDGESISSMLVKDTGIKPANGMAAIRFINTLHKDLNISLDTDAPLSVGKDYGVSAYRTVLRGKYPAVHCETEDKVFSLDLGQLDFGTTYLFVITNLQAWKAEDI 5a9s-a1-m1-cA_5a9s-a1-m1-cB NADPH complex of Imine Reductase from Amycolatopsis orientalis R4SNK4 R4SNK4 2.06 X-RAY DIFFRACTION 297 0.986 31958 (Amycolatopsis orientalis) 31958 (Amycolatopsis orientalis) 280 282 5a9r-a1-m1-cA_5a9r-a1-m2-cA 5a9t-a1-m1-cA_5a9t-a1-m2-cA 5fwn-a1-m1-cA_5fwn-a1-m1-cB TDQNLPVTVAGLGPMGSALAAALLDRGHDVTVWNRSPGKAAPLVAKGARQADDIVDAVSASRLLVVCLADLYSALGPAREALRGRVVVNLNSGTPKEANEALRWAERHGTGYLDGAIMVPPAMVGHPGSVFLYSGSAEVFEEYKETLAGLGDPVHLGTEAGLAVLYNTALLSMMYSSMNGFLHAAALVGSAGVPAAEFTKLAVDWFLPAVIGQIIKAEAPTIDDAGSLEMNVTTLKHIIGTSQEQGVDTEIPVRNKELLDRAVAAGFGESSYYSVIELWR NLPVTVAGLGPMGSALAAALLDRGHDVTVWNRSPGKAAPLVAKGARQADDIVDAVSASRLLVVCLADDALYSALGPAREALRGRVVVNLNSGTPKEANEALRWAERHGTGYLDGAIMVPPAMVGHPGSVFLYSGSAEVFEEYKETLAGLGDPVHLGTEAGLAVLYNTALLSMMYSSMNGFLHAAALVGSAGVPAAEFTKLAVDWFLPAVIGQIIKAQAPTIDYPGDAGSLEMNVTTLKHIIGTSQEQGVDTEIPVRNKELLDRAVAAGFGESSYYSVIELWR 5a9y-a1-m1-cA_5a9y-a1-m2-cA Structure of ppGpp BipA P0A3B2 P0A3B2 4 X-RAY DIFFRACTION 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 562 562 MIEKLRNIAIIAHVDHGKTTLVDKLLQQSGTFKERGITILAKNTANDYRINIVDTPGHADFGGEVERVMSMVDSVLLVVDAFDGPMPQTRFVTKKAFAYGLKPIVVINKVDRPGARPDWVVDQVFDLFVNLDATDEQLDFPIVYASALNGLDHEDMAEDMTPLYQAIVDHVPAPDVDLDGPFQMQISQLDYNSYVGVIGIGRIKRGKVKPNQQVTIIDSEGKTRNAKVGKVLGHLGLERIETDLAEAGDIVAITELNISDTVCDTQNVEALPALSVDEPTVSMFFCVNTSPFCGKEGKFVTSRQILDRLNKELVHNVALRVEETEDADAFRVSGRGELHLSVLIENMRREGFELAVSRPKVIFREIDGRKQEPYENVTLDVEEQHQGSVMQALGERKGDLKNMNPDGKGRVRLDYVIPSRGLIGFRSEFMTMTSGTGLLYSTFSHYDDVRPGEVGQRQNGVLISNGQGKAVAFALFGLQDRGKLFLGHGAEVYEGQIIGIHSRSNDLTVNCLTAVVLVPPIRMTLEQALEFIDDDELVEVTPTSIRIRKRHLTENDRRRANR MIEKLRNIAIIAHVDHGKTTLVDKLLQQSGTFKERGITILAKNTANDYRINIVDTPGHADFGGEVERVMSMVDSVLLVVDAFDGPMPQTRFVTKKAFAYGLKPIVVINKVDRPGARPDWVVDQVFDLFVNLDATDEQLDFPIVYASALNGLDHEDMAEDMTPLYQAIVDHVPAPDVDLDGPFQMQISQLDYNSYVGVIGIGRIKRGKVKPNQQVTIIDSEGKTRNAKVGKVLGHLGLERIETDLAEAGDIVAITELNISDTVCDTQNVEALPALSVDEPTVSMFFCVNTSPFCGKEGKFVTSRQILDRLNKELVHNVALRVEETEDADAFRVSGRGELHLSVLIENMRREGFELAVSRPKVIFREIDGRKQEPYENVTLDVEEQHQGSVMQALGERKGDLKNMNPDGKGRVRLDYVIPSRGLIGFRSEFMTMTSGTGLLYSTFSHYDDVRPGEVGQRQNGVLISNGQGKAVAFALFGLQDRGKLFLGHGAEVYEGQIIGIHSRSNDLTVNCLTAVVLVPPIRMTLEQALEFIDDDELVEVTPTSIRIRKRHLTENDRRRANR 5aa5-a1-m1-cD_5aa5-a1-m1-cM Actinobacterial-type NiFe-hydrogenase from Ralstonia eutropha H16 at 2.85 Angstrom resolution Q7WXQ4 Q7WXQ4 2.497 X-RAY DIFFRACTION 19 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 345 345 5aa5-a1-m1-cA_5aa5-a1-m1-cB 5aa5-a1-m1-cF_5aa5-a1-m1-cH AVPYGRKTQHTPALKEVHILWITAGLGCDGDSVSITAASQPSVEDVVLGAIPGLPKVHLHNPVLAYENGDEFMAPFHKAARGEIDNFVLVLEGSIPNERINGEGYWAAMGTDPQTHQPITIPEWLDRLAPKALAVVGAGTCATYGGIHAMEGNPTGCMGLADYLGWQWKSRAGLPIVNVPGCPVQPDNFMETLLYLLYQLAGLAPMIPLDEALRPKWLFTRTVHDGCDRAGSYEQAIFATEYGNPNCIVKLGCWGPVVQCNVPKRGWIAGVGGCPNVGGICIGCTMPGFPDKFMPFMDAPPGAVLSSNLIKSYGPLIRSLRKLTKDTLNDEPKWRHNQPVLTTGY AVPYGRKTQHTPALKEVHILWITAGLGCDGDSVSITAASQPSVEDVVLGAIPGLPKVHLHNPVLAYENGDEFMAPFHKAARGEIDNFVLVLEGSIPNERINGEGYWAAMGTDPQTHQPITIPEWLDRLAPKALAVVGAGTCATYGGIHAMEGNPTGCMGLADYLGWQWKSRAGLPIVNVPGCPVQPDNFMETLLYLLYQLAGLAPMIPLDEALRPKWLFTRTVHDGCDRAGSYEQAIFATEYGNPNCIVKLGCWGPVVQCNVPKRGWIAGVGGCPNVGGICIGCTMPGFPDKFMPFMDAPPGAVLSSNLIKSYGPLIRSLRKLTKDTLNDEPKWRHNQPVLTTGY 5aa5-a1-m1-cF_5aa5-a1-m1-cM Actinobacterial-type NiFe-hydrogenase from Ralstonia eutropha H16 at 2.85 Angstrom resolution Q7WXQ4 Q7WXQ4 2.497 X-RAY DIFFRACTION 11 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 345 345 5aa5-a1-m1-cD_5aa5-a1-m1-cH AVPYGRKTQHTPALKEVHILWITAGLGCDGDSVSITAASQPSVEDVVLGAIPGLPKVHLHNPVLAYENGDEFMAPFHKAARGEIDNFVLVLEGSIPNERINGEGYWAAMGTDPQTHQPITIPEWLDRLAPKALAVVGAGTCATYGGIHAMEGNPTGCMGLADYLGWQWKSRAGLPIVNVPGCPVQPDNFMETLLYLLYQLAGLAPMIPLDEALRPKWLFTRTVHDGCDRAGSYEQAIFATEYGNPNCIVKLGCWGPVVQCNVPKRGWIAGVGGCPNVGGICIGCTMPGFPDKFMPFMDAPPGAVLSSNLIKSYGPLIRSLRKLTKDTLNDEPKWRHNQPVLTTGY AVPYGRKTQHTPALKEVHILWITAGLGCDGDSVSITAASQPSVEDVVLGAIPGLPKVHLHNPVLAYENGDEFMAPFHKAARGEIDNFVLVLEGSIPNERINGEGYWAAMGTDPQTHQPITIPEWLDRLAPKALAVVGAGTCATYGGIHAMEGNPTGCMGLADYLGWQWKSRAGLPIVNVPGCPVQPDNFMETLLYLLYQLAGLAPMIPLDEALRPKWLFTRTVHDGCDRAGSYEQAIFATEYGNPNCIVKLGCWGPVVQCNVPKRGWIAGVGGCPNVGGICIGCTMPGFPDKFMPFMDAPPGAVLSSNLIKSYGPLIRSLRKLTKDTLNDEPKWRHNQPVLTTGY 5aa5-a1-m1-cH_5aa5-a1-m1-cM Actinobacterial-type NiFe-hydrogenase from Ralstonia eutropha H16 at 2.85 Angstrom resolution Q7WXQ4 Q7WXQ4 2.497 X-RAY DIFFRACTION 229 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 345 345 5aa5-a1-m1-cA_5aa5-a1-m1-cF 5aa5-a1-m1-cB_5aa5-a1-m1-cD AVPYGRKTQHTPALKEVHILWITAGLGCDGDSVSITAASQPSVEDVVLGAIPGLPKVHLHNPVLAYENGDEFMAPFHKAARGEIDNFVLVLEGSIPNERINGEGYWAAMGTDPQTHQPITIPEWLDRLAPKALAVVGAGTCATYGGIHAMEGNPTGCMGLADYLGWQWKSRAGLPIVNVPGCPVQPDNFMETLLYLLYQLAGLAPMIPLDEALRPKWLFTRTVHDGCDRAGSYEQAIFATEYGNPNCIVKLGCWGPVVQCNVPKRGWIAGVGGCPNVGGICIGCTMPGFPDKFMPFMDAPPGAVLSSNLIKSYGPLIRSLRKLTKDTLNDEPKWRHNQPVLTTGY AVPYGRKTQHTPALKEVHILWITAGLGCDGDSVSITAASQPSVEDVVLGAIPGLPKVHLHNPVLAYENGDEFMAPFHKAARGEIDNFVLVLEGSIPNERINGEGYWAAMGTDPQTHQPITIPEWLDRLAPKALAVVGAGTCATYGGIHAMEGNPTGCMGLADYLGWQWKSRAGLPIVNVPGCPVQPDNFMETLLYLLYQLAGLAPMIPLDEALRPKWLFTRTVHDGCDRAGSYEQAIFATEYGNPNCIVKLGCWGPVVQCNVPKRGWIAGVGGCPNVGGICIGCTMPGFPDKFMPFMDAPPGAVLSSNLIKSYGPLIRSLRKLTKDTLNDEPKWRHNQPVLTTGY 5aao-a5-m1-cH_5aao-a5-m1-cJ Crystal structure of fluorogen-activating designed ankyrin repeat protein (DARPin) dimer in complex with malachite green 2.6 X-RAY DIFFRACTION 13 1.0 32630 (synthetic construct) 32630 (synthetic construct) 154 157 5aao-a1-m1-cA_5aao-a1-m1-cI 5aao-a2-m1-cB_5aao-a2-m1-cC 5aao-a3-m1-cD_5aao-a3-m1-cE 5aao-a4-m1-cF_5aao-a4-m1-cG 5aao-a6-m1-cK_5aao-a6-m1-cL DLGKKLLEAARAGQDDEVRILMANGADVNAKDSRGKTPLHLAADYGYLEVAEVLLKHGADVNAHDVYGDTPLHLTATWGHLEIVEVLLKNGADANAIDFFGWTPLHLAAYFGHLEIVEVLLKYGADVNAQDKFGKTVFDISVYNGDEDLAEILQ SDLGKKLLEAARAGQDDEVRILMANGADVNAKDSRGKTPLHLAADYGYLEVAEVLLKHGADVNAHDVYGDTPLHLTATWGHLEIVEVLLKNGADANAIDFFGWTPLHLAAYFGHLEIVEVLLKYGADVNAQDKFGKTVFDISVYNGDEDLAEILQKL 5ab4-a1-m1-cA_5ab4-a1-m1-cB Crystal structure of Trypanosoma brucei SCP2-thiolase like protein (TbSLP) form-I. C9ZUV7 C9ZUV7 1.751 X-RAY DIFFRACTION 158 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 400 400 5ab5-a1-m1-cA_5ab5-a1-m1-cB 5ab6-a1-m1-cE_5ab6-a1-m1-cF 5ab6-a2-m1-cB_5ab6-a2-m1-cA 5ab6-a3-m1-cC_5ab6-a3-m1-cD 5ab7-a1-m1-cA_5ab7-a1-m1-cB 5ab7-a2-m1-cC_5ab7-a2-m1-cD 5ab7-a3-m1-cF_5ab7-a3-m1-cE SQVVRIVGVGRTGIGKLHKSVDELAASALKCALVDANMKQCDLQALIAVPSLASPQFMQAHHIATVAGLFPTKGKFIVRTVDTGGAGPITALGMAVDLVRTRCAETVAVIAADAVLSMGSGAFAERSNASLRRSGLPEPCIPHGYDRYAQWYMSRYGLKREQLAMVPVLMSKMAERHPEAMCQKAYTLDEVLHSRCVAPVTNLLECARRADGAVALIVSGEAHYAEHFAHLGGSKPIIASVAEASGPLFPPGSSDDIVPDIFSCRHAARDAFLSANLNVGDIHFFGLYDCFPICLIQAVEAVGLCPEGKGGEFMETAYNEMLNNGGVLDPSKFPINTHGGLQCFGAPWEVPAMYNITEAIAQLSEEAGDRQLTPVPKRALVYGNGGIFSASSVAILISDL SQVVRIVGVGRTGIGKLHKSVDELAASALKCALVDANMKQCDLQALIAVPSLASPQFMQAHHIATVAGLFPTKGKFIVRTVDTGGAGPITALGMAVDLVRTRCAETVAVIAADAVLSMGSGAFAERSNASLRRSGLPEPCIPHGYDRYAQWYMSRYGLKREQLAMVPVLMSKMAERHPEAMCQKAYTLDEVLHSRCVAPVTNLLECARRADGAVALIVSGEAHYAEHFAHLGGSKPIIASVAEASGPLFPPGSSDDIVPDIFSCRHAARDAFLSANLNVGDIHFFGLYDCFPICLIQAVEAVGLCPEGKGGEFMETAYNEMLNNGGVLDPSKFPINTHGGLQCFGAPWEVPAMYNITEAIAQLSEEAGDRQLTPVPKRALVYGNGGIFSASSVAILISDL 5ab8-a1-m1-cA_5ab8-a1-m2-cA High resolution X-ray structure of the N-terminal truncated form (residues 1-11) of Mycobacterium tuberculosis HbN P9WN25 P9WN25 1.53 X-RAY DIFFRACTION 93 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 117 117 PISIYDKIGGHEAIEVVVEDFYVRVLADDQLSAFFSGTNMSRLKGKQVEFFAAALGGPEPYTGAPMKQVHQGRGITMHHFSLVAGHLADALTAAGVPSETITEILGVIAPLAVDVTS PISIYDKIGGHEAIEVVVEDFYVRVLADDQLSAFFSGTNMSRLKGKQVEFFAAALGGPEPYTGAPMKQVHQGRGITMHHFSLVAGHLADALTAAGVPSETITEILGVIAPLAVDVTS 5abr-a1-m1-cA_5abr-a1-m1-cB Structure of FeSI protein from Azotobacter vinelandii P82802 P82802 2.11 X-RAY DIFFRACTION 40 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 104 104 PEFHIFICAQNRPAGHPRGSCGAKGAEGVYNAFAQVLIQKNLTNRIALTTTGCLGPCQAGANVLIYPGAVMYSWVEPADAAIIVEQHLLGGEPYADKLTPAEIW PEFHIFICAQNRPAGHPRGSCGAKGAEGVYNAFAQVLIQKNLTNRIALTTTGCLGPCQAGANVLIYPGAVMYSWVEPADAAIIVEQHLLGGEPYADKLTPAEIW 5abs-a1-m2-cA_5abs-a1-m3-cA CRYSTAL STRUCTURE OF THE C-TERMINAL COILED-COIL DOMAIN OF CIN85 IN SPACE GROUP P321 Q96B97 Q96B97 1.74 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 5abs-a1-m1-cA_5abs-a1-m2-cA 5abs-a1-m1-cA_5abs-a1-m3-cA GHEPAASSQAAVEELRTQVRELRSIIETKDQQKREIKQLLSELDEEKKIRLRLQEVNDIKKAL GHEPAASSQAAVEELRTQVRELRSIIETKDQQKREIKQLLSELDEEKKIRLRLQEVNDIKKAL 5acq-a1-m1-cB_5acq-a1-m1-cA W228A-Investigation of the impact from residues W228 and Y233 in the metallo-beta-lactamase GIM-1 Q704V1 Q704V1 1.7 X-RAY DIFFRACTION 55 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 216 217 2ynt-a1-m1-cB_2ynt-a1-m2-cB 2ynt-a2-m1-cA_2ynt-a2-m1-cC 2ynv-a1-m1-cA_2ynv-a1-m1-cB 2ynw-a1-m1-cA_2ynw-a1-m1-cB 5acp-a1-m1-cB_5acp-a1-m1-cA 5acr-a1-m1-cA_5acr-a1-m1-cB 5acs-a1-m1-cB_5acs-a1-m1-cA 5act-a1-m1-cB_5act-a1-m1-cA KPLEVIKIEDGVYLHTSFKNIEGYGLVDSNGLVVLDNNQAYIIDTPWSEEDTKLLLSWATDRGYQVMASISTHSHEDRTAGIKLLNSKSIPTYTSELTKKLLAREGKPVPTHYFKDDEFTLGNGLIELYYPGAGHTEDNIVAWLPKSKILFGGLVRSHEAEGLGYVGDASISSWADSIKNIVSKKYPIQMVVPGHGKVGSSDILDHTIDLAESASN HKPLEVIKIEDGVYLHTSFKNIEGYGLVDSNGLVVLDNNQAYIIDTPWSEEDTKLLLSWATDRGYQVMASISTHSHEDRTAGIKLLNSKSIPTYTSELTKKLLAREGKPVPTHYFKDDEFTLGNGLIELYYPGAGHTEDNIVAWLPKSKILFGGLVRSHEAEGLGYVGDASISSWADSIKNIVSKKYPIQMVVPGHGKVGSSDILDHTIDLAESASN 5ae6-a1-m1-cA_5ae6-a1-m1-cB The structure of Hypocrea jecorina beta-xylosidase Xyl3A (Bxl1) in complex with 4-thioxylobiose Q92458 Q92458 2.1 X-RAY DIFFRACTION 104 1.0 51453 (Trichoderma reesei) 51453 (Trichoderma reesei) 761 766 NNQTYANYSAQGQPDLYPETLATLTLSFPDCEHGPLKNNLVCDSSAGYVERAQALISLFTLEELILNTQNSGPGVPRLGLPNYQVWNEALHGLDRANFATKGGQFEWATSFPMPILTTAALNRTLIHQIADIISTQARAFSNSGRYGLDVYAPNVNGFRSPLWGRGQETPGEDAFFLSSAYTYEYITGIQGGVDPEHLKVAATVKHFAGYDLENWNNQSRLGFDAIITQQDLSEYYTPQFLAAARYAKSRSLMCAYNSVNGVPSCANSFFLQTLLRESWGFPEWGYVSSDCDAVYNVFNPHDYASNQSSAAASSLRAGTDIDCGQTYPWHLNESFVAGEVSRGEIERSVTRLYANLVRLGYFDKKNQYRSLGWKDVVKTDAWNISYEAAVEGIVLLKNDGTLPLSKKVRSIALIGPWANATTQMQGNYYGPAPYLISPLEAAKKAGYHVNFELGTEIAGNSTTGFAKAIAAAKKSDAIIYLGGIDNTIEQEGADRTDIAWPGNQLDLIKQLSEVGKPLVVLQMGGGQVDSSSLKSNKKVNSLVWGGYPGQSGGVALFDILSGKRAPAGRLVTTQYPAEYVHQFPQNDMNLRPDGKSNPGQTYIWYTGKPVYEFGSGLFYTTFKETLALKFNTSSILSAPHPGYTYSEQIPVFTFEANIKNSGKTESPYTAMLFVRTSNAGPAPYPNKWLVGFDRLADIKPGHSSKLSIPIPVSALARVDSHGNRIVYPGKYELALNTDESVKLEFELVGEEVTIENWPLEE NNQTYANYSAQGQPDLYPETLATLTLSFPDCEHGPLKNNLVCDSSAGYVERAQALISLFTLEELILNTQNSGPGVPRLGLPNYQVWNEALHGLDRANFATKGGQFEWATSFPMPILTTAALNRTLIHQIADIISTQARAFSNSGRYGLDVYAPNVNGFRSPLWGRGQETPGEDAFFLSSAYTYEYITGIQGGVDPEHLKVAATVKHFAGYDLENWNNQSRLGFDAIITQQDLSEYYTPQFLAAARYAKSRSLMCAYNSVNGVPSCANSFFLQTLLRESWGFPEWGYVSSDCDAVYNVFNPHDYASNQSSAAASSLRAGTDIDCGQTYPWHLNESFVAGEVSRGEIERSVTRLYANLVRLGYFDKKNQYRSLGWKDVVKTDAWNISYEAAVEGIVLLKNDGTLPLSKKVRSIALIGPWANATTQMQGNYYGPAPYLISPLEAAKKAGYHVNFELGTEIAGNSTTGFAKAIAAAKKSDAIIYLGGIDNTIEQEGADRTDIAWPGNQLDLIKQLSEVGKPLVVLQMGGGQVDSSSLKSNKKVNSLVWGGYPGQSGGVALFDILSGKRAPAGRLVTTQYPAEYVHQFPQNDMNLRPDGKSNPGQTYIWYTGKPVYEFGSGLFYTTFKETLASHPKSLKFNTSSILSAPHPGYTYSEQIPVFTFEANIKNSGKTESPYTAMLFVRTSNAGPAPYPNKWLVGFDRLADIKPGHSSKLSIPIPVSALARVDSHGNRIVYPGKYELALNTDESVKLEFELVGEEVTIENWPLEE 5aej-a2-m1-cB_5aej-a2-m1-cA Crystal structure of human Gremlin-1 O60565 O60565 1.904 X-RAY DIFFRACTION 155 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 114 5aej-a1-m1-cC_5aej-a1-m1-cD EVLESSQEALHVTERKYLKRDWCKTQPLKQTIHEEGCNSRTIINRFCYGQCNSFYIPRHIRKEEGSFQSCSFCKPKKFTTMMVTLNCPELQPPTKKKRVTRVKQCRCISIDLD SEVLESSQEALHVTERKYLKRDWCKTQPLKQTIHEEGCNSRTIINRFCYGQCNSFYIPRHIRKEEGSFQSCSFCKPKKFTTMMVTLNCPELQPPTKKKRVTRVKQCRCISIDLD 5aer-a1-m1-cB_5aer-a1-m1-cC Neuronal calcium sensor-1 (NCS-1)from Rattus norvegicus complex with D2 dopamine receptor peptide from Homo sapiens P14416 P14416 2.19 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 14 NIEFRKAFLKILHS NIEFRKAFLKILHS 5aex-a2-m1-cE_5aex-a2-m1-cF Crystal structure of Saccharomyces cerevisiae Mep2 P41948 P41948 3.2 X-RAY DIFFRACTION 174 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 456 456 5aex-a1-m1-cA_5aex-a1-m1-cB 5aex-a1-m1-cA_5aex-a1-m1-cC 5aex-a1-m1-cB_5aex-a1-m1-cC 5aex-a2-m1-cD_5aex-a2-m1-cE 5aex-a2-m1-cD_5aex-a2-m1-cF 5aex-a3-m1-cH_5aex-a3-m1-cI 5aex-a3-m1-cJ_5aex-a3-m1-cH 5aex-a3-m1-cJ_5aex-a3-m1-cI SYNFTGTPTGEGTGGNSLTTDLNTQFDLANMGWIGVASAGVWIMVPGIGLLYSGLSRKKHALSLLWASMMASAVCIFQWFFWGYSLAFSHNTRGNGFIGTLEFFGFRNVLGAPSSVSSLPDILFAVYQGMFAAVTGALMLGGACERARLFPMMVFLFLWMTIVYCPIACWVWNAEGWLVKLGSLDYAGGLCVHLTSGHGGLVYALILGKRNDPVTRKGMPKYKPHSVTSVVLGTVFLWFGWMFFNGGSAGNATIRAWYSIMSTNLAAACGGLTWMVIDYFRCGRKWTTVGLCSGIIAGLVGITPAAGFVPIWSAVVIGVVTGAGCNLAVDLKSLLRIDDGLDCYSIHGVGGCIGSVLTGIFAADYVNATAGSYISPIDGGWINHHYKQVGYQLAGICAALAWTVTVTSILLLTMNAIPFLKLRLSADEEELGTDAAQIGEFTYEESTAYIPEPIRS SYNFTGTPTGEGTGGNSLTTDLNTQFDLANMGWIGVASAGVWIMVPGIGLLYSGLSRKKHALSLLWASMMASAVCIFQWFFWGYSLAFSHNTRGNGFIGTLEFFGFRNVLGAPSSVSSLPDILFAVYQGMFAAVTGALMLGGACERARLFPMMVFLFLWMTIVYCPIACWVWNAEGWLVKLGSLDYAGGLCVHLTSGHGGLVYALILGKRNDPVTRKGMPKYKPHSVTSVVLGTVFLWFGWMFFNGGSAGNATIRAWYSIMSTNLAAACGGLTWMVIDYFRCGRKWTTVGLCSGIIAGLVGITPAAGFVPIWSAVVIGVVTGAGCNLAVDLKSLLRIDDGLDCYSIHGVGGCIGSVLTGIFAADYVNATAGSYISPIDGGWINHHYKQVGYQLAGICAALAWTVTVTSILLLTMNAIPFLKLRLSADEEELGTDAAQIGEFTYEESTAYIPEPIRS 5af3-a1-m1-cA_5af3-a1-m1-cB X-RAY CRYSTAL STRUCTURE OF RV2018 FROM MYCOBACTERIUM TUBERCULOSIS O53464 O53464 1.78 X-RAY DIFFRACTION 55 0.995 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 214 214 LRFDVPLYTLAEASRYLVVPRATLATWADQPIITALPHPTGSHARLPFVGIAEAYVLNAFRRAGVPMQRIRPSLDWLIKNVGPHALASQDLCTDGAEVLWRFAERSGEGSPDDLVVRGLIVPRSGQYVFKEIVEHYLQQISFADDNLASMIRLPQYGDANVVLDPRRGYGQPVFDGSGVRVADVLGPLRAGATFQAVADDYGVTPDQLRDALDA LRFDVPLYTLAEASRYLVVPRATLATWADGQPIITALPHPTGSHARLPFVGIAEAYVLNAFRRAGVPMQRIRPSLDWLIKNVGPHALASQDLCTDGAEVLWRFAERSGEGSPDDLVVRGLIVPRSGQYVFKEIVEHYLQQISFADDNLASMIRLPQYGDANVVLDPRRGYGQPVFDGSGVRVADVLGPLRAGATFQAVADDYGVTPDQLRDALD 5af7-a1-m1-cA_5af7-a1-m2-cB 3-Sulfinopropionyl-coenzyme A (3SP-CoA) desulfinase from Advenella mimigardefordensis DPN7T: crystal structure and function of a desulfinase with an acyl-CoA dehydrogenase fold. Native crystal structure K4L7X3 K4L7X3 1.89 X-RAY DIFFRACTION 109 1.0 1247726 (Advenella mimigardefordensis DPN7) 1247726 (Advenella mimigardefordensis DPN7) 390 391 5af7-a1-m2-cA_5af7-a1-m1-cB ELTPEQRTLQTQARELAQSVFASTAVQTDLTEQYPWDNVAQLRDAGFMGMMLPTSVGGRGLSTLDTVIVIEEMAKACATMGRITVDSNLGAIGAITKYGSEEQIKLAADLVLAGDKPAICISEPNAGSAASEMTTRADKNGDHYILNGEKYWITGGGVSKLHLIFARVFDDGVEQGIGAFITVLDDHGPEGLKVGRRLYAMGVRGIPETHLEFHDLKIHKSMMITFPDGLKRGFAALMSAYNAQRVGAGAVALGIAQCAFEEGVAYLKRREQFGRPLAEFQGLQWMVADMSVQLEAARLMLRSAAVSGETFPDINKAAQAKIFAAETANKVTNDALQFFGSSGYGRHNPMERHVRDARMFTIAGGTAQILRTQVASKILDMKLPQTRDGY ELTPEQRTLQTQARELAQSVFASTAVQTDLTEQYPWDNVAQLRDAGFMGMMLPTSVGGRGLSTLDTVIVIEEMAKACATMGRITVDSNLGAIGAITKYGSEEQIKLAADLVLAGDKPAICISEPNAGSAASEMTTRADKNGDHYILNGEKYWITGGGVSKLHLIFARVFDDGVEQGIGAFITVLDDHGPEGLKVGRRLYAMGVRGIPETHLEFHDLKIHKSMMITFPDGLKRGFAALMSAYNAQRVGAGAVALGIAQCAFEEGVAYLKRREQFGRPLAEFQGLQWMVADMSVQLEAARLMLRSAAVSGETFPDINKAAQAKIFAAETANKVTNDALQFFGSSGYGRHNPMERHVRDARMFTIAGGTAQILRTQVASKILDMKLPQTRDGYL 5af7-a1-m1-cB_5af7-a1-m2-cB 3-Sulfinopropionyl-coenzyme A (3SP-CoA) desulfinase from Advenella mimigardefordensis DPN7T: crystal structure and function of a desulfinase with an acyl-CoA dehydrogenase fold. Native crystal structure K4L7X3 K4L7X3 1.89 X-RAY DIFFRACTION 17 1.0 1247726 (Advenella mimigardefordensis DPN7) 1247726 (Advenella mimigardefordensis DPN7) 391 391 5af7-a1-m1-cA_5af7-a1-m2-cA ELTPEQRTLQTQARELAQSVFASTAVQTDLTEQYPWDNVAQLRDAGFMGMMLPTSVGGRGLSTLDTVIVIEEMAKACATMGRITVDSNLGAIGAITKYGSEEQIKLAADLVLAGDKPAICISEPNAGSAASEMTTRADKNGDHYILNGEKYWITGGGVSKLHLIFARVFDDGVEQGIGAFITVLDDHGPEGLKVGRRLYAMGVRGIPETHLEFHDLKIHKSMMITFPDGLKRGFAALMSAYNAQRVGAGAVALGIAQCAFEEGVAYLKRREQFGRPLAEFQGLQWMVADMSVQLEAARLMLRSAAVSGETFPDINKAAQAKIFAAETANKVTNDALQFFGSSGYGRHNPMERHVRDARMFTIAGGTAQILRTQVASKILDMKLPQTRDGYL ELTPEQRTLQTQARELAQSVFASTAVQTDLTEQYPWDNVAQLRDAGFMGMMLPTSVGGRGLSTLDTVIVIEEMAKACATMGRITVDSNLGAIGAITKYGSEEQIKLAADLVLAGDKPAICISEPNAGSAASEMTTRADKNGDHYILNGEKYWITGGGVSKLHLIFARVFDDGVEQGIGAFITVLDDHGPEGLKVGRRLYAMGVRGIPETHLEFHDLKIHKSMMITFPDGLKRGFAALMSAYNAQRVGAGAVALGIAQCAFEEGVAYLKRREQFGRPLAEFQGLQWMVADMSVQLEAARLMLRSAAVSGETFPDINKAAQAKIFAAETANKVTNDALQFFGSSGYGRHNPMERHVRDARMFTIAGGTAQILRTQVASKILDMKLPQTRDGYL 5af7-a1-m2-cA_5af7-a1-m2-cB 3-Sulfinopropionyl-coenzyme A (3SP-CoA) desulfinase from Advenella mimigardefordensis DPN7T: crystal structure and function of a desulfinase with an acyl-CoA dehydrogenase fold. Native crystal structure K4L7X3 K4L7X3 1.89 X-RAY DIFFRACTION 125 1.0 1247726 (Advenella mimigardefordensis DPN7) 1247726 (Advenella mimigardefordensis DPN7) 390 391 5af7-a1-m1-cA_5af7-a1-m1-cB ELTPEQRTLQTQARELAQSVFASTAVQTDLTEQYPWDNVAQLRDAGFMGMMLPTSVGGRGLSTLDTVIVIEEMAKACATMGRITVDSNLGAIGAITKYGSEEQIKLAADLVLAGDKPAICISEPNAGSAASEMTTRADKNGDHYILNGEKYWITGGGVSKLHLIFARVFDDGVEQGIGAFITVLDDHGPEGLKVGRRLYAMGVRGIPETHLEFHDLKIHKSMMITFPDGLKRGFAALMSAYNAQRVGAGAVALGIAQCAFEEGVAYLKRREQFGRPLAEFQGLQWMVADMSVQLEAARLMLRSAAVSGETFPDINKAAQAKIFAAETANKVTNDALQFFGSSGYGRHNPMERHVRDARMFTIAGGTAQILRTQVASKILDMKLPQTRDGY ELTPEQRTLQTQARELAQSVFASTAVQTDLTEQYPWDNVAQLRDAGFMGMMLPTSVGGRGLSTLDTVIVIEEMAKACATMGRITVDSNLGAIGAITKYGSEEQIKLAADLVLAGDKPAICISEPNAGSAASEMTTRADKNGDHYILNGEKYWITGGGVSKLHLIFARVFDDGVEQGIGAFITVLDDHGPEGLKVGRRLYAMGVRGIPETHLEFHDLKIHKSMMITFPDGLKRGFAALMSAYNAQRVGAGAVALGIAQCAFEEGVAYLKRREQFGRPLAEFQGLQWMVADMSVQLEAARLMLRSAAVSGETFPDINKAAQAKIFAAETANKVTNDALQFFGSSGYGRHNPMERHVRDARMFTIAGGTAQILRTQVASKILDMKLPQTRDGYL 5afb-a1-m1-cA_5afb-a1-m4-cA Crystal structure of the Latrophilin3 Lectin and Olfactomedin Domains Q9HAR2 Q9HAR2 2.16 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 347 347 5afb-a1-m2-cA_5afb-a1-m3-cA VVRRELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDNIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDF VVRRELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDNIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDF 5afb-a1-m3-cA_5afb-a1-m4-cA Crystal structure of the Latrophilin3 Lectin and Olfactomedin Domains Q9HAR2 Q9HAR2 2.16 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 347 347 5afb-a1-m1-cA_5afb-a1-m2-cA VVRRELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDNIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDF VVRRELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDNIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDF 5afd-a1-m1-cA_5afd-a1-m4-cA Native structure of N-acetylneuramininate lyase (sialic acid aldolase) from Aliivibrio salmonicida B6EI04 B6EI04 1.65 X-RAY DIFFRACTION 70 1.0 316275 (Aliivibrio salmonicida LFI1238) 316275 (Aliivibrio salmonicida LFI1238) 300 300 5afd-a1-m2-cA_5afd-a1-m3-cA MKKLTGLIAAPHTPFDSSSNVNFEEIDKIAKHLINDGVKGIYVCGTTGEGIHCSVEERKAIAERWVSACNHKLDIIVHTGALSIVDTLELTRHADTLDILATSAIGPCFFKPGSVSDLVEYCATIAAAAPSKGFYYYHSGMSGVNLNMEEFLIQADKRIPNLSGLKFNSGDLYEYQRCLRACDGKFDVPFGVDEFLPGALAVGAKSAVGSTYNYAAPHFNSIIEAFNKGDHDAVFNKMTNVIELIRVLVEFGGVAAGKIAMELHDINAGDPRLPLMPLSAEQKLTVVEKMRAANFLKHHH MKKLTGLIAAPHTPFDSSSNVNFEEIDKIAKHLINDGVKGIYVCGTTGEGIHCSVEERKAIAERWVSACNHKLDIIVHTGALSIVDTLELTRHADTLDILATSAIGPCFFKPGSVSDLVEYCATIAAAAPSKGFYYYHSGMSGVNLNMEEFLIQADKRIPNLSGLKFNSGDLYEYQRCLRACDGKFDVPFGVDEFLPGALAVGAKSAVGSTYNYAAPHFNSIIEAFNKGDHDAVFNKMTNVIELIRVLVEFGGVAAGKIAMELHDINAGDPRLPLMPLSAEQKLTVVEKMRAANFLKHHH 5afd-a1-m3-cA_5afd-a1-m4-cA Native structure of N-acetylneuramininate lyase (sialic acid aldolase) from Aliivibrio salmonicida B6EI04 B6EI04 1.65 X-RAY DIFFRACTION 82 1.0 316275 (Aliivibrio salmonicida LFI1238) 316275 (Aliivibrio salmonicida LFI1238) 300 300 5afd-a1-m1-cA_5afd-a1-m2-cA MKKLTGLIAAPHTPFDSSSNVNFEEIDKIAKHLINDGVKGIYVCGTTGEGIHCSVEERKAIAERWVSACNHKLDIIVHTGALSIVDTLELTRHADTLDILATSAIGPCFFKPGSVSDLVEYCATIAAAAPSKGFYYYHSGMSGVNLNMEEFLIQADKRIPNLSGLKFNSGDLYEYQRCLRACDGKFDVPFGVDEFLPGALAVGAKSAVGSTYNYAAPHFNSIIEAFNKGDHDAVFNKMTNVIELIRVLVEFGGVAAGKIAMELHDINAGDPRLPLMPLSAEQKLTVVEKMRAANFLKHHH MKKLTGLIAAPHTPFDSSSNVNFEEIDKIAKHLINDGVKGIYVCGTTGEGIHCSVEERKAIAERWVSACNHKLDIIVHTGALSIVDTLELTRHADTLDILATSAIGPCFFKPGSVSDLVEYCATIAAAAPSKGFYYYHSGMSGVNLNMEEFLIQADKRIPNLSGLKFNSGDLYEYQRCLRACDGKFDVPFGVDEFLPGALAVGAKSAVGSTYNYAAPHFNSIIEAFNKGDHDAVFNKMTNVIELIRVLVEFGGVAAGKIAMELHDINAGDPRLPLMPLSAEQKLTVVEKMRAANFLKHHH 5afi-a1-m1-cy_5afi-a1-m1-cz 2.9A Structure of E. coli ribosome-EF-TU complex by cs-corrected cryo-EM P0CE48 2.9 ELECTRON MICROSCOPY 12 1.0 562 (Escherichia coli) 1 371 F SKEKFERTKPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGNTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIVRGSALKALEGDAEWEAKILELAGFLDSYIPEPERAIDKPFLLPIEDVFSISGRGTVVTGRVERGIIKVGEEVEIVGIKETQKSTCTGVEMFRKLLDEGRAGENVGVLLRGIKREEIERGQVLAKPGTIKPHTKFESEVYILSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMVVTLIHPIAMDDGLRFAIREGGRTVGAGVVAKVLS 5afr-a1-m1-cB_5afr-a1-m1-cA N-terminal fragment of dynein heavy chain P36022 P36022 5 X-RAY DIFFRACTION 156 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 325 327 RLANELIEFVAATVTGIKNSPKENEQAFIDYLHCQYLERFQFFLGLFVFLFIVTIDIAIYDANLANSTLLIIQISAIYNAGNLASIITHGVSSVFGQLIKSIDKTRRKLDDISKQFQQLHTSIETPDLLAVPSIIKLAVSKGATSHDYANYLPSNDLESRFLNILQSIANKWFLVLKQTFLDEVEFWSNFYEVLKSLIEQTQSQEFQVCLSVLTNAKRFHNLTNLLNEGSLSDKFKLADKYNQFLSSIPIDEDLQELFPVLASSLKKFRYSGYPVQRFVVLDKISQEVDAILSNLSYGSFLGLYEKSAGIEEWDDIVQDVNLLIR LANELIEFVAATVTGIKNSPKENEQAFIDYLHCQYLERFQFFLGLFVFLFIVTIDIAIYDANLANSTLLIIKQISAIYNAGNLASIITHGVSSVFGQLIKSDIDKTRRKLDDISKQFQQLHTSIETPDLLAVPSIIKLAVSKGATSHDYANYLPSNDLESRFLNILQSIANKWFLVLKQTLFLDEVEFWSNFYEVLKSLIEQTQSQEFQVCLSVLTNAKRFHNLTNLLNEGSLSDKFKLADKYNQFLSSIPIDEDLQELFPVLASSLKKFRYSGYPVQRFVVLDKISQEVDAILSNLSYGSFLGLYEKSAGIEEWDDIVQDVNLLIR 5aga-a1-m1-cA_5aga-a1-m4-cA Crystal structure of the Helicase domain of human DNA polymerase theta in complex with AMPPNP O75417 O75417 2.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 785 785 5a9f-a1-m1-cA_5a9f-a1-m4-cA 5a9f-a1-m2-cA_5a9f-a1-m3-cA 5aga-a1-m2-cA_5aga-a1-m3-cA DKLLLANWGLPKAVLEKYHSFGVKKMFEWQAECLLLGQVLEGKNLVYSAPTSAGKTLVAELLILKRVLEMRKKALFILPFVSVAKEKKYYLQSLFQEVGIKVDGYMGSTSPSRHFSSLDIAVCTIERANGLINRLIEENKMDLLGMVVVDELHMLGDSHRGYLLELLLTKICYITRKSASCQADSNAVQIVGMSATLPNLELVASWLNAELYHTDFRPVPLLESVKVGNSIYDSSMKLVREFEPMLQVKGDEDHVVSLCYETICDNHSVLLFCPSKKWCEKLADIIAREFYNLHHQASECPPVILEQKELLEVMDQLRRLPSGLDSVLQKTVPWGVAFHHAGLTFEERDIIEGAFRQGLIRVLAATSTLSSGVNLPARRVIIRTPIFGGRPLDILTYKQMVGRAGRKGVDTVGESILICKNSEKSKGIALLQGSLKPVRSCLQRGEEVTGSMIRAILEIIVGGVASTSQDMHTYAACTFLAASMGAIEACVMWLLENEFIQSTEEGKVYHPTHLGSATLSSSLSPADTLDIFADLQRAMKGFVLENDLHILYLVTPMFEDWTTIDWYRFFCLWEKLPTSMKRVAELVGVEEGFLARCVKGKVVARTERQHRQMAIHKRFFTSLVLLDLISEVPLREINQKYGCNRGQIQSLQQSAAVYAGMITVFSNRLGWHNMELLLSQFQKRLTFGIQRELCDLVRVSLLNAQRARVLYASGFHTVADLARANIVEVEVILKNAVPFKSARKEAVEERRNMRTIWVTGRKGLTEREAAALIVEEARMILQQDL DKLLLANWGLPKAVLEKYHSFGVKKMFEWQAECLLLGQVLEGKNLVYSAPTSAGKTLVAELLILKRVLEMRKKALFILPFVSVAKEKKYYLQSLFQEVGIKVDGYMGSTSPSRHFSSLDIAVCTIERANGLINRLIEENKMDLLGMVVVDELHMLGDSHRGYLLELLLTKICYITRKSASCQADSNAVQIVGMSATLPNLELVASWLNAELYHTDFRPVPLLESVKVGNSIYDSSMKLVREFEPMLQVKGDEDHVVSLCYETICDNHSVLLFCPSKKWCEKLADIIAREFYNLHHQASECPPVILEQKELLEVMDQLRRLPSGLDSVLQKTVPWGVAFHHAGLTFEERDIIEGAFRQGLIRVLAATSTLSSGVNLPARRVIIRTPIFGGRPLDILTYKQMVGRAGRKGVDTVGESILICKNSEKSKGIALLQGSLKPVRSCLQRGEEVTGSMIRAILEIIVGGVASTSQDMHTYAACTFLAASMGAIEACVMWLLENEFIQSTEEGKVYHPTHLGSATLSSSLSPADTLDIFADLQRAMKGFVLENDLHILYLVTPMFEDWTTIDWYRFFCLWEKLPTSMKRVAELVGVEEGFLARCVKGKVVARTERQHRQMAIHKRFFTSLVLLDLISEVPLREINQKYGCNRGQIQSLQQSAAVYAGMITVFSNRLGWHNMELLLSQFQKRLTFGIQRELCDLVRVSLLNAQRARVLYASGFHTVADLARANIVEVEVILKNAVPFKSARKEAVEERRNMRTIWVTGRKGLTEREAAALIVEEARMILQQDL 5aga-a1-m3-cA_5aga-a1-m4-cA Crystal structure of the Helicase domain of human DNA polymerase theta in complex with AMPPNP O75417 O75417 2.9 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 785 785 5a9f-a1-m1-cA_5a9f-a1-m2-cA 5a9f-a1-m3-cA_5a9f-a1-m4-cA 5aga-a1-m1-cA_5aga-a1-m2-cA DKLLLANWGLPKAVLEKYHSFGVKKMFEWQAECLLLGQVLEGKNLVYSAPTSAGKTLVAELLILKRVLEMRKKALFILPFVSVAKEKKYYLQSLFQEVGIKVDGYMGSTSPSRHFSSLDIAVCTIERANGLINRLIEENKMDLLGMVVVDELHMLGDSHRGYLLELLLTKICYITRKSASCQADSNAVQIVGMSATLPNLELVASWLNAELYHTDFRPVPLLESVKVGNSIYDSSMKLVREFEPMLQVKGDEDHVVSLCYETICDNHSVLLFCPSKKWCEKLADIIAREFYNLHHQASECPPVILEQKELLEVMDQLRRLPSGLDSVLQKTVPWGVAFHHAGLTFEERDIIEGAFRQGLIRVLAATSTLSSGVNLPARRVIIRTPIFGGRPLDILTYKQMVGRAGRKGVDTVGESILICKNSEKSKGIALLQGSLKPVRSCLQRGEEVTGSMIRAILEIIVGGVASTSQDMHTYAACTFLAASMGAIEACVMWLLENEFIQSTEEGKVYHPTHLGSATLSSSLSPADTLDIFADLQRAMKGFVLENDLHILYLVTPMFEDWTTIDWYRFFCLWEKLPTSMKRVAELVGVEEGFLARCVKGKVVARTERQHRQMAIHKRFFTSLVLLDLISEVPLREINQKYGCNRGQIQSLQQSAAVYAGMITVFSNRLGWHNMELLLSQFQKRLTFGIQRELCDLVRVSLLNAQRARVLYASGFHTVADLARANIVEVEVILKNAVPFKSARKEAVEERRNMRTIWVTGRKGLTEREAAALIVEEARMILQQDL DKLLLANWGLPKAVLEKYHSFGVKKMFEWQAECLLLGQVLEGKNLVYSAPTSAGKTLVAELLILKRVLEMRKKALFILPFVSVAKEKKYYLQSLFQEVGIKVDGYMGSTSPSRHFSSLDIAVCTIERANGLINRLIEENKMDLLGMVVVDELHMLGDSHRGYLLELLLTKICYITRKSASCQADSNAVQIVGMSATLPNLELVASWLNAELYHTDFRPVPLLESVKVGNSIYDSSMKLVREFEPMLQVKGDEDHVVSLCYETICDNHSVLLFCPSKKWCEKLADIIAREFYNLHHQASECPPVILEQKELLEVMDQLRRLPSGLDSVLQKTVPWGVAFHHAGLTFEERDIIEGAFRQGLIRVLAATSTLSSGVNLPARRVIIRTPIFGGRPLDILTYKQMVGRAGRKGVDTVGESILICKNSEKSKGIALLQGSLKPVRSCLQRGEEVTGSMIRAILEIIVGGVASTSQDMHTYAACTFLAASMGAIEACVMWLLENEFIQSTEEGKVYHPTHLGSATLSSSLSPADTLDIFADLQRAMKGFVLENDLHILYLVTPMFEDWTTIDWYRFFCLWEKLPTSMKRVAELVGVEEGFLARCVKGKVVARTERQHRQMAIHKRFFTSLVLLDLISEVPLREINQKYGCNRGQIQSLQQSAAVYAGMITVFSNRLGWHNMELLLSQFQKRLTFGIQRELCDLVRVSLLNAQRARVLYASGFHTVADLARANIVEVEVILKNAVPFKSARKEAVEERRNMRTIWVTGRKGLTEREAAALIVEEARMILQQDL 5agc-a1-m2-cC_5agc-a1-m2-cD Crystallographic forms of the Vps75 tetramer P53853 P53853 4 X-RAY DIFFRACTION 20 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 216 216 5agc-a1-m1-cC_5agc-a1-m1-cD EHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED EHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED 5agc-a3-m1-cB_5agc-a3-m6-cB Crystallographic forms of the Vps75 tetramer P53853 P53853 4 X-RAY DIFFRACTION 15 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 220 220 5agc-a2-m4-cB_5agc-a2-m5-cB ENENEHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED ENENEHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED 5agc-a3-m8-cA_5agc-a3-m1-cB Crystallographic forms of the Vps75 tetramer P53853 P53853 4 X-RAY DIFFRACTION 29 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 217 220 5agc-a2-m1-cA_5agc-a2-m5-cB 5agc-a2-m3-cA_5agc-a2-m4-cB 5agc-a3-m7-cA_5agc-a3-m6-cB NEHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED ENENEHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED 5agc-a3-m8-cA_5agc-a3-m6-cB Crystallographic forms of the Vps75 tetramer P53853 P53853 4 X-RAY DIFFRACTION 67 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 217 220 2zd7-a1-m1-cB_2zd7-a1-m1-cA 3c9d-a1-m1-cB_3c9d-a1-m1-cA 3dm7-a1-m1-cB_3dm7-a1-m1-cA 3q33-a1-m1-cB_3q33-a1-m2-cB 3q35-a1-m1-cB_3q35-a1-m2-cB 3q66-a1-m1-cB_3q66-a1-m1-cA 5agc-a1-m1-cC_5agc-a1-m2-cC 5agc-a1-m1-cD_5agc-a1-m2-cD 5agc-a2-m1-cA_5agc-a2-m4-cB 5agc-a2-m3-cA_5agc-a2-m5-cB 5agc-a3-m7-cA_5agc-a3-m1-cB 6o22-a1-m1-cB_6o22-a1-m1-cA NEHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED ENENEHAKAFLGLAKCEEEVDAIEREVELYRLNKMKPVYEKRDAYIDEIAEFWKIVLSQHVSFANYIRASDFKYIDTIDKIKVEWLALESEMYDTRDFSITFHFHGIEGDFKEQQVTKVFQIKKGKDDQEDGILTSEPVPIEWPQSYDSINPDLIKDKRSPEGKKKYRQGMKTIFGWFRWTGLKPGKEFPHGDSLASLFSEEIYPFCVKYYAEAQRDLED 5agv-a2-m1-cA_5agv-a2-m3-cB The sliding clamp of Mycobacterium tuberculosis in complex with a natural product. P9WNU1 P9WNU1 1.93 X-RAY DIFFRACTION 73 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 390 393 3p16-a1-m1-cA_3p16-a1-m1-cB 3p16-a2-m1-cD_3p16-a2-m1-cC 3p16-a3-m1-cE_3p16-a3-m1-cF 3rb9-a1-m1-cB_3rb9-a1-m1-cA 5agu-a1-m1-cA_5agu-a1-m1-cB 5agv-a1-m1-cD_5agv-a1-m1-cB 5agv-a1-m2-cA_5agv-a1-m1-cB 5agv-a1-m2-cC_5agv-a1-m2-cA 5agv-a2-m1-cC_5agv-a2-m1-cA 5agv-a2-m3-cD_5agv-a2-m3-cB 6fvn-a1-m1-cB_6fvn-a1-m1-cA 6fvn-a2-m1-cC_6fvn-a2-m1-cD 6fvo-a1-m1-cB_6fvo-a1-m1-cA 6fvo-a2-m1-cD_6fvo-a2-m1-cC LTDLTFRLLRESFADAVSWVAKNLPARPAVPVLSGVLLTGSDNGLTISGFDYEVSAEAQVGAEIVSPGSVLVSGRLLSDITRALPNKPVDVHVEGNRVALTCGNARFSLPTMPVEDYPTLPTLPEETGLLPAELFAEAISQVAIAAGRDDTLPMLTGIRVEILGETVVLAATDRFRLAVRELKWSASSPDIEAAVLVPAKTLAEAAKAGIGGSDVRLSLGTGPGVGKDGLLGISGNGKRSTTRLLDAEFPKFRQLLPTEHTAVATMDVAELIEAIKLVALVADRGAQVRMEFADGSVRLSAGADDVGRAEEDLVVDYAGEPLTIAFNPTYLTDGLSSLRSERVSFGFTTAGKPALLRPVSGDDRPLNGNGPFPAVSTDYVYLLMPVRLPG LTDLTFRLLRESFADAVSWVAKNLPARPAVPVLSGVLLTGSDNGLTISGFDYEVSAEAQVGAEIVSPGSVLVSGRLLSDITRALPNKPVDVHVEGNRVALTCGNARFSLPTMPVEDYPTLPTLPEETGLLPAELFAEAISQVAIAAGRDDTLPMLTGIRVEILGETVVLAATDRFRLAVRELKWSASSPDIEAAVLVPAKTLAEAAKAGIGGSDVRLSLGTGPGVGKDGLLGISGNGKRSTTRLLDAEFPKFRQLLPTEHTAVATMDVAELIEAIKLVALVADRGAQVRMEFADGSVRLSAGADDVGRAEEDLVVDYAGEPLTIAFNPTYLTDGLSSLRSERVSFGFTTAGKPALLRPVSGDDRPVAGLNGNGPFPAVSTDYVYLLMPVRLPG 5ah4-a2-m1-cB_5ah4-a2-m3-cA The sliding clamp of Mycobacterium smegmatis in complex with a natural product. A0QND6 A0QND6 2.313 X-RAY DIFFRACTION 78 0.992 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 380 380 5ah2-a1-m1-cD_5ah2-a1-m1-cC 5ah2-a2-m1-cB_5ah2-a2-m1-cA 5ah4-a1-m1-cA_5ah4-a1-m2-cB 5ah4-a1-m1-cC_5ah4-a1-m1-cA 5ah4-a1-m2-cD_5ah4-a1-m2-cB 5ah4-a2-m1-cD_5ah4-a2-m1-cB 5ah4-a2-m3-cC_5ah4-a2-m3-cA TDLKFRVVREDFADAVAWVARSLPTRIPVLAGVLLTGTDEGLTISGFDYEVSAEVKVSAEIASAGSVLVSGRLLSDITKALPAKPVEVSVEGTRVSLTCGSARFSLPTLAVEDYPALPALPEETGVIASDLFAEAIGQVAVAAGRDDTLPMLTGIRVEISGESVVLAATDRFRLAVRELTWVTTAGDVEAAVLVPAKTLAEAAKAGTNQVHLALGSGASVGKDGLLGIRSEGKRSTTRLLDAEFPKFRQLLPAEHTAVATIGVAELTEAIKRVALVADRGAQIRMEFSDDTLKLSAGADDVGRAEEDLPVDFAGEPLTIAFNPTYLTDGLGSLHSERVTFGFTTPSRPAVLRPAGEDGGSGPFPAAKTDYVYLLMPVRLP TDLKFRVVREDFADAVAWVARSLPTRVLAGVLLTGTDEGLTISGFDYEVSAEVKVSAEIASAGSVLVSGRLLSDITKALPAKPVEVSVEGTRVSLTCGSARFSLPTLAVEDYPALPALPEETGVIASDLFAEAIGQVAVAAGRDDTLPMLTGIRVEISGESVVLAATDRFRLAVRELTWVTTAGDVEAAVLVPAKTLAEAAKAGNQVHLALGSGASVGKDGLLGIRSEGKRSTTRLLDAEFPKFRQLLPAEHTAVATIGVAELTEAIKRVALVADRGAQIRMEFSDDTLKLSAGADDVGRAEEDLPVDFAGEPLTIAFNPTYLTDGLGSLHSERVTFGFTTPSRPAVLRPAGEDDGAGGSGPFPAAKTDYVYLLMPVRLP 5ahk-a1-m1-cB_5ahk-a1-m1-cA Crystal structure of acetohydroxy acid synthase Pf5 from Pseudomonas protegens Q4K6F7 Q4K6F7 1.55 X-RAY DIFFRACTION 219 0.995 380021 (Pseudomonas protegens) 380021 (Pseudomonas protegens) 546 555 MKASDAVAKILADNNVLYGFELIGGMITHLVDSINLLGKTKLVSMHHEQGAAFAASAVSRVTHHKTLGLALATSGPGATNLITGIADCWLDSHPCIFLTGQVNTHELKGKRDIRQQGFQELDSVALVTSITKYAYQIKSADELVPCLRKAIQIAKEGRPGPVLLDIPMDIQRADIDEALLNIAMSDLDFIINKLQNAKKPLLLIGGGAVNSSGFQKWLEQIELRGIPYVASLKGAEKIKASDLYLGMLGAYGTRAANHAVQNCDLLLVLGSRMDVRQTGAQPEDFARNAEIIQIDLQEGQLNNRVIADFSYQIELSEYFSRFSPLQIPVNNDWSVWTALLKEKFRVTFIDEYTTWNLSPFGLFTQLNKLTERVALDYILDVGNNQMWAAHTLRLNAQQAMHHSGGLGSMGFAIPAAIGACYAGKKPIIVITGDGGAQLNIQELDIIARDKLPILTIVMNNHSLGMVRGFSSTYWNGYTSQFKKIGEAYRVESKTIISMQAFSSALESFLESPRPLLLEVSMSDARECRPRLEYGRAIDQQSPRHDG MKASDAVAKILADNNVLYGFELIGGMITHLVDSINLLGKTKLVSMHHEQGAAFAASAVSRVTHHKTLGLALATSGPGATNLITGIADCWLDSHPCIFLTGQVNTHELKGKRDIRQQGFQELDSVALVTSITKYAYQIKSADELVPCLRKAIQIAKEGRPGPVLLDIPMDIQRADIDEALLNNPSIAMSDLDFIINKLQNAKKPLLLIGGGAVNSSGFQKWLEQIELRGIPYVASLKGAEKIKASDLYLGMLGAYGTRAANHAVQNCDLLLVLGSRMDVRQTGAQPEDFARNAEIIQIDLQEGQLNNRVIADFSYQIELSEYFSRFSPLQIPVNNDWSVWTALLKEKFRVTFIDEYTTWNLSPFGLFTQLNKLTERVALDYILDVGNNQMWAAHTLRLNAQQAMHHSGGLGSMGFAIPAAIGACYAGKKPIIVITGDGGAQLNIQELDIIARDKLPILTIVMNNHSLGMVRGFQEMYFEGRNSSTYWNGYTSQFKKIGEAYRVESKTIISMQAFSSALESFLESPRPLLLEVSMSDARECRPRLEYGRAIDQQSPR 5ahr-a1-m1-cA_5ahr-a1-m2-cA Crystal structure of human DNA cross-link repair 1A, crystal form B Q6PJP8 Q6PJP8 2.19 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 SMTCPFYKKIPGTGFTVDAFQYGVVEGCTAYFLTHFHSDHYAGLSKHFTFPVYCSEITGNLLKNKLHVQEQYIHPLPLDTECIVNGVKVVLLDANHCPGAVMILFYLPNGTVILHTGDFRADPSMERSLLADQKVHMLYLDTTYCSPEYTFPSQQEVIRFAINTAFEAVTLNPHALVVCGTYSIGKEKVFLAIADVLGSKVGMSQEKYKTLQCLNIPEINSLITTDMCSSLVHLLPMMQINFKGLQSHLKKCGGKYNQILAFRPTVIPQTKGNISIYGIPYSEHSSYLEMKRFVQWLKPQKIIPTVNVGTWKSRSTMEKYFREWKLEAGY SMTCPFYKKIPGTGFTVDAFQYGVVEGCTAYFLTHFHSDHYAGLSKHFTFPVYCSEITGNLLKNKLHVQEQYIHPLPLDTECIVNGVKVVLLDANHCPGAVMILFYLPNGTVILHTGDFRADPSMERSLLADQKVHMLYLDTTYCSPEYTFPSQQEVIRFAINTAFEAVTLNPHALVVCGTYSIGKEKVFLAIADVLGSKVGMSQEKYKTLQCLNIPEINSLITTDMCSSLVHLLPMMQINFKGLQSHLKKCGGKYNQILAFRPTVIPQTKGNISIYGIPYSEHSSYLEMKRFVQWLKPQKIIPTVNVGTWKSRSTMEKYFREWKLEAGY 5ahw-a2-m1-cD_5ahw-a2-m1-cC Crystal structure of universal stress protein MSMEG_3811 in complex with cAMP A0QYW6 A0QYW6 2.15 X-RAY DIFFRACTION 63 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 126 146 SAYQTVVVGTDGSDSSLRAVDRAGQIAAASNAKLIIATAYFPQAPIYAILREANDRAKAAGATDIEERPVVGAPVDALVELADEVKADLLVVGNVGLSTIAGRLLGSVPANVARRSKTDVLIVHTS SAYQTVVVGTDGSDSSLRAVDRAGQIAAASNAKLIIATAYFPQSEDSRAADVLKDEGYKMAGNAPIYAILREANDRAKAAGATDIEERPVVGAPVDALVELADEVKADLLVVGNVGLSTIAGRLLGSVPANVARRSKTDVLIVHTS 5ahw-a3-m1-cE_5ahw-a3-m1-cF Crystal structure of universal stress protein MSMEG_3811 in complex with cAMP A0QYW6 A0QYW6 2.15 X-RAY DIFFRACTION 56 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 125 125 5ahw-a1-m1-cA_5ahw-a1-m1-cB SAYQTVVVGTDGSDSSLRAVDRAGQIAAASNAKLIIATAYFPAPIYAILREANDRAKAAGATDIEERPVVGAPVDALVELADEVKADLLVVGNVGLSTIAGRLLGSVPANVARRSKTDVLIVHTS SAYQTVVVGTDGSDSSLRAVDRAGQIAAASNAKLIIATAYFPAPIYAILREANDRAKAAGATDIEERPVVGAPVDALVELADEVKADLLVVGNVGLSTIAGRLLGSVPANVARRSKTDVLIVHTS 5ai7-a1-m1-cE_5ai7-a1-m1-cH ParM doublet model P11904 P11904 NOT ELECTRON MICROSCOPY 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 318 318 MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLI MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLI 5ai7-a1-m1-cK_5ai7-a1-m1-cM ParM doublet model P11904 P11904 NOT ELECTRON MICROSCOPY 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 318 318 3iku-a1-m1-cA_3iku-a1-m1-cC 3iku-a1-m1-cB_3iku-a1-m1-cD 3iku-a1-m1-cC_3iku-a1-m1-cE 3iku-a1-m1-cD_3iku-a1-m1-cF 3iku-a1-m1-cE_3iku-a1-m1-cG 3iku-a1-m1-cF_3iku-a1-m1-cH 3iku-a1-m1-cG_3iku-a1-m1-cI 3iku-a1-m1-cH_3iku-a1-m1-cJ 3iku-a1-m1-cI_3iku-a1-m1-cK 3iku-a1-m1-cJ_3iku-a1-m1-cL 3iky-a1-m1-cA_3iky-a1-m1-cC 3iky-a1-m1-cB_3iky-a1-m1-cD 3iky-a1-m1-cC_3iky-a1-m1-cE 3iky-a1-m1-cD_3iky-a1-m1-cF 3iky-a1-m1-cE_3iky-a1-m1-cG 3iky-a1-m1-cF_3iky-a1-m1-cH 3iky-a1-m1-cG_3iky-a1-m1-cI 3iky-a1-m1-cH_3iky-a1-m1-cJ 3iky-a1-m1-cI_3iky-a1-m1-cK 3iky-a1-m1-cJ_3iky-a1-m1-cL 4a6j-a1-m1-cA_4a6j-a1-m1-cC 4a6j-a1-m1-cB_4a6j-a1-m1-cD 4a6j-a1-m1-cC_4a6j-a1-m1-cE 4a6j-a1-m1-cD_4a6j-a1-m1-cF 4a6j-a1-m1-cE_4a6j-a1-m1-cG 4a6j-a1-m1-cF_4a6j-a1-m1-cH 4a6j-a1-m1-cG_4a6j-a1-m1-cI 4a6j-a1-m1-cH_4a6j-a1-m1-cJ 5aey-a1-m1-cA_5aey-a1-m1-cC 5aey-a1-m1-cB_5aey-a1-m1-cD 5aey-a1-m1-cC_5aey-a1-m1-cE 5ai7-a1-m1-cA_5ai7-a1-m1-cC 5ai7-a1-m1-cB_5ai7-a1-m1-cD 5ai7-a1-m1-cC_5ai7-a1-m1-cE 5ai7-a1-m1-cD_5ai7-a1-m1-cF 5ai7-a1-m1-cE_5ai7-a1-m1-cG 5ai7-a1-m1-cH_5ai7-a1-m1-cJ 5ai7-a1-m1-cI_5ai7-a1-m1-cK 5ai7-a1-m1-cJ_5ai7-a1-m1-cL 5ai7-a1-m1-cL_5ai7-a1-m1-cN MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLI MLVFIDDGSTNIKLQWQESDGTIKQHISPNSFKREWAVSFGDKKVFNYTLNGEQYSFDPISPDAVVTTNIAWQYSDVNVVAVHHALLTSGLPVSEVDIVCTLPLTEYYDRNNQPNTENIERKKANFRKKITLNGGDTFTIKDVKVMPESIPAGYEVLQELDELDSLLIIDLGGTTLDISQVMGKLSGISKIYGDSSLGVSLVTSAVKDALSLARTKGSSYLADDIIIHRKDNNYLKQRINDENKISIVTEAMNEALRKLEQRVLNTLNEFSGYTHVMVIGGGAELICDAVKKHTQIRDERFFKTNNSQYDLVNGMYLI 5aif-a1-m1-cA_5aif-a1-m1-cB Discovery and characterization of thermophilic limonene-1,2-epoxide hydrolases from hot spring metagenomic libraries. Tomsk-sample-Native 1.26 X-RAY DIFFRACTION 76 1.0 32644 (unidentified) 32644 (unidentified) 124 124 MTPIETVTAFIAHWNSGDMEAMYDLCAEDVVWHNIPMEPIAGKPAMRAAVEGFMANVSQCDWQVHAIAANGATVLTERTDGFTFTNGRRATIRVMGTFECDAERRIIAWRDYFDMLEFQREFAG MTPIETVTAFIAHWNSGDMEAMYDLCAEDVVWHNIPMEPIAGKPAMRAAVEGFMANVSQCDWQVHAIAANGATVLTERTDGFTFTNGRRATIRVMGTFECDAERRIIAWRDYFDMLEFQREFAG 5aii-a8-m1-cI_5aii-a8-m1-cJ Discovery and characterization of thermophilic limonene-1,2-epoxide hydrolases from hot spring metagenomic libraries. CH55-sample-PEG complex 1.47 X-RAY DIFFRACTION 81 1.0 32644 (unidentified) 32644 (unidentified) 125 125 5aii-a1-m1-cG_5aii-a1-m1-cH 5aii-a2-m1-cF_5aii-a2-m1-cE 5aii-a3-m1-cK_5aii-a3-m1-cL 5aii-a4-m1-cA_5aii-a4-m1-cB 5aii-a5-m1-cO_5aii-a5-m1-cP 5aii-a6-m1-cD_5aii-a6-m1-cC 5aii-a7-m1-cM_5aii-a7-m1-cN MTPLETVQLFLARVNALDLDGACALLAEDVVYDNVPMPTVHGRAAARAFLSQLPATAIDWETHAIAATGDAARGTVLTERTDRFTLADGRTLAIRVMGAFDVADGSITAWRDYFDLGQFMAQMAP MTPLETVQLFLARVNALDLDGACALLAEDVVYDNVPMPTVHGRAAARAFLSQLPATAIDWETHAIAATGDAARGTVLTERTDRFTLADGRTLAIRVMGAFDVADGSITAWRDYFDLGQFMAQMAP 5aiq-a2-m1-cA_5aiq-a2-m1-cB Crystal structure of ligand-free NadR Q7DD70 Q7DD70 2.716 X-RAY DIFFRACTION 151 1.0 491 (Neisseria meningitidis serogroup B) 491 (Neisseria meningitidis serogroup B) 131 132 5aiq-a1-m1-cD_5aiq-a1-m1-cC ASINIGLIQAREALMTQFRPILNQANITDQQWRIIRLLAENGTLDFQDLANQACILRPSLTGILTRLEKAGLVVRLVFLKLTAEGEKLYEEIGEEVDERYDAIEEVLGREKMLLLKDLLAELAKIEDALNS ASINIGLIQAREALMTQFRPILNQANITDQQWRIIRLLAENGTLDFQDLANQACILRPSLTGILTRLEKAGLVVRLRVFLKLTAEGEKLYEEIGEEVDERYDAIEEVLGREKMLLLKDLLAELAKIEDALNS 5aiy-a1-m1-cJ_5aiy-a1-m1-cL R6 HUMAN INSULIN HEXAMER (SYMMETRIC), NMR, 'RED' SUBSTATE, AVERAGE STRUCTURE P01308 P01308 NOT SOLUTION NMR 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 2aiy-a1-m1-cB_2aiy-a1-m1-cD 2aiy-a1-m1-cF_2aiy-a1-m1-cH 2aiy-a1-m1-cJ_2aiy-a1-m1-cL 3aiy-a1-m1-cB_3aiy-a1-m1-cD 3aiy-a1-m1-cF_3aiy-a1-m1-cH 3aiy-a1-m1-cJ_3aiy-a1-m1-cL 4aiy-a1-m1-cB_4aiy-a1-m1-cD 4aiy-a1-m1-cF_4aiy-a1-m1-cH 4aiy-a1-m1-cJ_4aiy-a1-m1-cL 5aiy-a1-m1-cB_5aiy-a1-m1-cD 5aiy-a1-m1-cF_5aiy-a1-m1-cH FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 5ajk-a3-m1-cG_5ajk-a3-m1-cI Crystal structure of variola virus virulence factor F1L in complex with human Bak BH3 domain Q85365 Q85365 2.55 X-RAY DIFFRACTION 166 0.993 10255 (Variola virus) 10255 (Variola virus) 137 137 4d2l-a1-m1-cA_4d2l-a1-m2-cA 4d2m-a1-m1-cA_4d2m-a1-m1-cC 4d2m-a1-m2-cA_4d2m-a1-m2-cC 5ajj-a1-m1-cA_5ajj-a1-m2-cA 5ajk-a1-m1-cC_5ajk-a1-m1-cA 5ajk-a2-m1-cK_5ajk-a2-m1-cE TNILDYLSTERDHVMMAVQYYMSKQRLDDLYRQLPTKTRSYIDIINMYCDKVNNDYNRDMNIMYDMASTESFTVYDINNEVNTILMDNKGLGVRLATISFITELGKRCMNPVETIKMFTLLSHTICDDCFIDYITDI NILDYLSTERDHVMMAVQYYMSKQRLDDLYRQLPTKTRSYIDIINMYCDKVNNDYNRDMNIMYDMASTESFTVYDINNEVNTILMDNKGLGVRLATISFITELGKRCMNPVETIKMFTLLSHTICDDCFIDYITDIS 5ajs-a2-m1-cA_5ajs-a2-m1-cB Crystal structure of a coiled-coil domain from human THAP11 Q96EK4 Q96EK4 2.3 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 64 5ajs-a1-m1-cC_5ajs-a1-m1-cD TTEEELLRKLNEQRDILALMEVKMKEMKGSIRHLRLTEAKLREELREKDRLLAMAVIRKKHGM GTTEEELLRKLNEQRDILALMEVKMKEMKGSIRHLRLTEAKLREELREKDRLLAMAVIRKKHGM 5ajt-a2-m1-cC_5ajt-a2-m1-cD Crystal structure of ligand-free phosphoribohydrolase lonely guy from Claviceps purpurea M1VUY5 M1VUY5 2.43 X-RAY DIFFRACTION 102 1.0 5111 (Claviceps purpurea) 5111 (Claviceps purpurea) 217 217 5ajt-a1-m1-cA_5ajt-a1-m1-cB 5aju-a1-m1-cA_5aju-a1-m2-cA PRAKICVFCGSSGGASPAHMEAARQLGRVMAENNIDLVYGGGTVGLMGEVARTVCSINGPESVHGIIPEALVRYERDGTYQTVKDNKQVVPTETVYGRTTVVKDMHTRKKMMAEEVISGGPGSGFIGLSGGYGTMEEVFEVITWNQLGIHTKGICLLNVEGYWDGILQWINMAAAQGFVQPGNETIVVSAGDAEGAVRALREYKVSEATFKLEWGRQ PRAKICVFCGSSGGASPAHMEAARQLGRVMAENNIDLVYGGGTVGLMGEVARTVCSINGPESVHGIIPEALVRYERDGTYQTVKDNKQVVPTETVYGRTTVVKDMHTRKKMMAEEVISGGPGSGFIGLSGGYGTMEEVFEVITWNQLGIHTKGICLLNVEGYWDGILQWINMAAAQGFVQPGNETIVVSAGDAEGAVRALREYKVSEATFKLEWGRQ 5akb-a2-m1-cE_5akb-a2-m2-cE MutS in complex with the N-terminal domain of MutL - crystal form 1 P23909 P23909 4.71 X-RAY DIFFRACTION 163 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 588 588 RQDNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAEMSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLSAAGALLQYAKCTQRTTLPHIRSITMEREQDSIIMDAATRRNLEITQNLAGGAENTLASVLDSTVTPMGSRMLKRWLHMPVRDTRVLLERQQTIGALQDFTAGLQPVLRQVGDLERILARLALRTARPRDLARMRHAFQQLPELRAQLETVDSAPVQALREKMGEFAELRDLLERAIIDTPPVLVRDGGVIASGYNEELDEWRALADKGKALALEKQLYEELFDLLLPHLEALQQSASALAELDVLVNLAERAYTLNYTSPTFIDKPGIRITEGRHPVVEQVLNEPFIANPLNLSPQRRMLIITGPNMGGKSTYMRQTALIALMAYIGSYVPAQKVEIGPIDRIFTRVGAFMVEMTETANILHNATEYSLVLMDEIGRGTSTYDGLSLAWAVAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESIS RQDNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAEMSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLSAAGALLQYAKCTQRTTLPHIRSITMEREQDSIIMDAATRRNLEITQNLAGGAENTLASVLDSTVTPMGSRMLKRWLHMPVRDTRVLLERQQTIGALQDFTAGLQPVLRQVGDLERILARLALRTARPRDLARMRHAFQQLPELRAQLETVDSAPVQALREKMGEFAELRDLLERAIIDTPPVLVRDGGVIASGYNEELDEWRALADKGKALALEKQLYEELFDLLLPHLEALQQSASALAELDVLVNLAERAYTLNYTSPTFIDKPGIRITEGRHPVVEQVLNEPFIANPLNLSPQRRMLIITGPNMGGKSTYMRQTALIALMAYIGSYVPAQKVEIGPIDRIFTRVGAFMVEMTETANILHNATEYSLVLMDEIGRGTSTYDGLSLAWAVAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESIS 5al6-a1-m3-cA_5al6-a1-m4-cA Central Coiled-Coil Domain (CCCD) of Drosophila melanogaster Ana2. A natural, parallel, tetrameric coiled-coil bundle. Q9XZ31 Q9XZ31 0.8 X-RAY DIFFRACTION 53 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 44 44 5al6-a1-m1-cA_5al6-a1-m2-cA 5al6-a1-m1-cA_5al6-a1-m4-cA 5al6-a1-m2-cA_5al6-a1-m3-cA SDLAALVSLVESVRHEQQQLRNLCEMILEQQQRAKEFGENLYFQ SDLAALVSLVESVRHEQQQLRNLCEMILEQQQRAKEFGENLYFQ 5al7-a1-m1-cA_5al7-a1-m1-cB N-terminal fragment of Drosophila melanogaster Sas-6 (F143D), dimerised via the coiled-coil domain. Q9VAC8 Q9VAC8 2.92 X-RAY DIFFRACTION 80 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 208 208 SYSAKMDYGKSVVNILPSVEMLVNFNGDMTRSSKRSCLLYAERVDFKELLQLRLTEKSDQRRMYITTVDSASFQDLKQDQSLNVSFSGFIDNVVRMLKDCQSGKLELHLTTRDQNLSSGREVHDYYLQFVEIRSDKNLVHLSLPCRSAPLNTVLFYINSMLEASHKKQYILEQSMQQMQAEINAQRAHAERLTTENTNLREALAENTR SYSAKMDYGKSVVNILPSVEMLVNFNGDMTRSSKRSCLLYAERVDFKELLQLRLTEKSDQRRMYITTVDSASFQDLKQDQSLNVSFSGFIDNVVRMLKDCQSGKLELHLTTRDQNLSSGREVHDYYLQFVEIRSDKNLVHLSLPCRSAPLNTVLFYINSMLEASHKKQYILEQSMQQMQAEINAQRAHAERLTTENTNLREALAENTR 5al9-a1-m1-cA_5al9-a1-m2-cA Structure of Leishmania major peroxidase D211R mutant (high res) Q4Q3K2 Q4Q3K2 1.37 X-RAY DIFFRACTION 55 1.0 5664 (Leishmania major) 5664 (Leishmania major) 267 267 SEEPPFDIRALRADIEDMISEKLELGPSLIRLAWHEAASYDCFKKDGSPNSASMRFKPECLYAGNKGLDIPRKALETLKKKYPQISYADLWVLAAYVAIEYMGGPTIPFCWGRVDAKDGSVCGPDGRLPDGSKTQSHVREVFRRLGFNDQETVALIGAHTCGECHIEFSGYHGPWTHRKNGFDNSFFTQLLDEDWVLNPKVEQMQLMDRATTKLMMLPSDVCLLLDPSYRKYVELYAKDNDRFNKDFANAFKKLTELGTRNLHKAPA SEEPPFDIRALRADIEDMISEKLELGPSLIRLAWHEAASYDCFKKDGSPNSASMRFKPECLYAGNKGLDIPRKALETLKKKYPQISYADLWVLAAYVAIEYMGGPTIPFCWGRVDAKDGSVCGPDGRLPDGSKTQSHVREVFRRLGFNDQETVALIGAHTCGECHIEFSGYHGPWTHRKNGFDNSFFTQLLDEDWVLNPKVEQMQLMDRATTKLMMLPSDVCLLLDPSYRKYVELYAKDNDRFNKDFANAFKKLTELGTRNLHKAPA 5amb-a2-m1-cQ_5amb-a2-m1-cB Crystal structure of the Angiotensin-1 converting enzyme N-domain in complex with amyloid-beta 35-42 P05067 P12821 1.55 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2 607 5amb-a1-m1-cP_5amb-a1-m1-cA IA LDPGLQPGQFSADEAGAQLFAQSYQSSAEQVLFQSVAASWAHDTNITAENARRQEEAALLSQEFAEAWGQKAKELYEPIWQQFTDPQLRRIIGAVRTLGSANLPLAKRQQYNALLSQMSRIYSTAKVCLTATCWSLDPDLTNILASSRSYAMLLFAWEGWHNAAGIPLKPLYEDFTALSNEAYKQDGFTDTGAYWRSWYNSPTFEDDLEHLYQQLEPLYLNLHAFVRRALHRRYGDRYINLRGPIPAHLLGDMWAQSWENIYDMVVPFPDKPNLDVTSTMLQQGWQATHMFRVAEEFFTSLELSPMPPEFWEGSMLEKPADGREVVCHASAWDFYNRKDFRIKQCTRVTMDQLSTVHHEMGHIQYYLQYKDLPVSLRRGANPGFHEAIGDVLALSVSTPEHLHKIGLLDRVTNDTESDINYLLKMALEKIAFLPFGYLVDQWRWGVFSGRTPPSRYNFDWWYLRTKYQGICPPVTRNETHFDAGAKFHVPNVTPYIRYFVSFVLQFQFHEALCKEAGYEGPLHQCDIYRSTKAGAKLRKVLRAGSSRPWQEVLKDMVGLDALDAQPLLKYFQLVTQWLQEQNQQNGEVLGWPEYQWHPPLPDNYPEG 5amt-a2-m1-cB_5amt-a2-m3-cB Intracellular growth locus protein E A0Q7H2 A0Q7H2 1.62 X-RAY DIFFRACTION 27 1.0 264 (Francisella tularensis subsp. novicida) 264 (Francisella tularensis subsp. novicida) 103 103 5amt-a1-m1-cA_5amt-a1-m2-cA HMDGLYINNNIPKTKIVLESKPDKNIFYSDNYQSISQRIYDDNVKVLNLKTGKNEFPLDKDIKDYALYFILPENKKTENWKYLISSDSVNEFTIKNDSSIEKD HMDGLYINNNIPKTKIVLESKPDKNIFYSDNYQSISQRIYDDNVKVLNLKTGKNEFPLDKDIKDYALYFILPENKKTENWKYLISSDSVNEFTIKNDSSIEKD 5an3-a1-m1-cA_5an3-a1-m1-cC Structure of an Sgt1-Skp1 Complex Q08446 Q08446 2.82 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 130 135 5an3-a1-m1-cA_5an3-a1-m1-cB VEKDLKTAYKALYDEKEPLKALHLYDEILKGSPTNLTALIFKAACLEKLYFGFSDWHSDATMENAKELLDKALMTAEGDRSKIGLVNFRYFVHFFNIKDYELAQSYFKKAKNLGYVDDTLPLWEDRLETK PVEKDLKTAYKALYDEKEPLKALHLYDEILKGSPTNLTALIFKAACLEKLYFGFSDWHSDATMENAKELLDKALMTAEGRGDRSKIGLVNFRYFVHFFNIKDYELAQSYFKKAKNLGYVDDTLPLWEDRLETKLN 5an5-a1-m1-cB_5an5-a1-m1-cI B. subtilis GpsB C-terminal Domain P0CI74 P0CI74 1.2 X-RAY DIFFRACTION 19 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 21 23 SMATNFDILKRLSNLEKHVFG GSMATNFDILKRLSNLEKHVFGS 5an5-a2-m1-cJ_5an5-a2-m1-cD B. subtilis GpsB C-terminal Domain P0CI74 P0CI74 1.2 X-RAY DIFFRACTION 17 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 24 26 MATNFDILKRLSNLEKHVFGSKLY SMATNFDILKRLSNLEKHVFGSKLYD 5an5-a3-m1-cG_5an5-a3-m1-cE B. subtilis GpsB C-terminal Domain P0CI74 P0CI74 1.2 X-RAY DIFFRACTION 16 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 17 23 NFDILKRLSNLEKHVFG TNFDILKRLSNLEKHVFGSKLYD 5an6-a2-m1-cA_5an6-a2-m2-cA Crystal structure of Thermotoga maritima Csm2 Q9X2D0 Q9X2D0 2.403 X-RAY DIFFRACTION 235 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 123 123 5an6-a1-m1-cB_5an6-a1-m1-cC GVSLKEDLKDLVRKAEEIGRELSGKLKTNQLRKFHGHLTKIWSNYIYKKKDYRDNPEKFNEEILNELHFMKIFLAYQVGRDIEGISELKEILEPLIDEIKTPDEFEKFKKFYDAILAYHKFHS GVSLKEDLKDLVRKAEEIGRELSGKLKTNQLRKFHGHLTKIWSNYIYKKKDYRDNPEKFNEEILNELHFMKIFLAYQVGRDIEGISELKEILEPLIDEIKTPDEFEKFKKFYDAILAYHKFHS 5aoq-a1-m1-cA_5aoq-a1-m1-cB Structural basis of neurohormone perception by the receptor tyrosine kinase Torso D2IYS2 D2IYS2 2.7 X-RAY DIFFRACTION 38 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 233 233 VSQRYPPAPGLLKYLEQDVCYSLYYYLNWTSLADCKTNFEETGISDVPSTVKVRCQSKNSIRFETEPSEHWQLFILMEHDNFDPIPFTLIEPNNVFGELITTANKEYQIWSTYLDEYGTLQDWMEGPIVLYNVTQEFKYIILGNDSYTINGKFVWNTTGDRDLCFDIANICQNTNMKHAKIWPTAHPSFDVENLVLNDECEIHVKGIHGTTKHKYKTPSCFELPECFLNNMEP VSQRYPPAPGLLKYLEQDVCYSLYYYLNWTSLADCKTNFEETGISDVPSTVKVRCQSKNSIRFETEPSEHWQLFILMEHDNFDPIPFTLIEPNNVFGELITTANKEYQIWSTYLDEYGTLQDWMEGPIVLYNVTQEFKYIILGNDSYTINGKFVWNTTGDRDLCFDIANICQNTNMKHAKIWPTAHPSFDVENLVLNDECEIHVKGIHGTTKHKYKTPSCFELPECFLNNMEP 5aov-a1-m1-cA_5aov-a1-m2-cA Ternary Crystal Structure of Pyrococcus furiosus Glyoxylate Hydroxypyruvate Reductase in presence of glyoxylate Q8U3Y2 Q8U3Y2 1.4 X-RAY DIFFRACTION 240 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 334 334 MKPKVFITRAIPENGINMLEEEFEVEVWEEEREIPREKLLEKVKDVDALVTMLSERIDQEVFENAPRLRIVANYAVGYDNIDVEEATRRGIYVTNTPDVLTNATADHAFALLLATARHVVKGDKFVRSGEWKRKGIAWHPKWFLGYELYGKTIGIVGFGRIGQAIARRAKGFNMRILYYSRTRKSQAEKELGAEYRPLEEVLKESDFVILAVPLTKETMYMINEERLKLMKPTAILVNIARGKVVDTKALIKALKEGWIAGAGLDVFEEEPYYNEELFSLDNVVLTPHIGSATFEAREAMAELVARNLIAFKRGEIPPTLVNKEVIKIRKPGFN MKPKVFITRAIPENGINMLEEEFEVEVWEEEREIPREKLLEKVKDVDALVTMLSERIDQEVFENAPRLRIVANYAVGYDNIDVEEATRRGIYVTNTPDVLTNATADHAFALLLATARHVVKGDKFVRSGEWKRKGIAWHPKWFLGYELYGKTIGIVGFGRIGQAIARRAKGFNMRILYYSRTRKSQAEKELGAEYRPLEEVLKESDFVILAVPLTKETMYMINEERLKLMKPTAILVNIARGKVVDTKALIKALKEGWIAGAGLDVFEEEPYYNEELFSLDNVVLTPHIGSATFEAREAMAELVARNLIAFKRGEIPPTLVNKEVIKIRKPGFN 5app-a1-m1-cB_5app-a1-m1-cC Actinobacillus actinomycetemcomitans OMP100 residues 133-198 fused to GCN4 adaptors P03069 P03069 2.3 X-RAY DIFFRACTION 148 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 128 128 5app-a1-m1-cA_5app-a1-m1-cB 5app-a1-m1-cA_5app-a1-m1-cC MKQIEDKIEEILSKIYHIENEIARIKKLIQNVDVRSTENAARSRANEQKIAENKKAIENKADKADVEKNRADIAANSRAIATFRSSSQNIAALTTKMKQIEDKIEEILSKIYHIENEIARIKKLIKLH MKQIEDKIEEILSKIYHIENEIARIKKLIQNVDVRSTENAARSRANEQKIAENKKAIENKADKADVEKNRADIAANSRAIATFRSSSQNIAALTTKMKQIEDKIEEILSKIYHIENEIARIKKLIKLH 5apz-a1-m2-cA_5apz-a1-m3-cA Thermosinus carboxydivorans Nor1 Tcar0761 residues 68-101 and 191-211 fused to GCN4 adaptors P03069 P03069 1.6 X-RAY DIFFRACTION 148 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 112 112 5apz-a1-m1-cA_5apz-a1-m2-cA 5apz-a1-m1-cA_5apz-a1-m3-cA QLEMKVEELLSKVYHLENEVARLKKLITLMQANMATKDDLARMATKDDIANMATKDDIANMATKDDIAKLDVKIENLNTKMKQLEWKVEELLSKVYHLENEVARLKKLVGSG QLEMKVEELLSKVYHLENEVARLKKLITLMQANMATKDDLARMATKDDIANMATKDDIANMATKDDIAKLDVKIENLNTKMKQLEWKVEELLSKVYHLENEVARLKKLVGSG 5aq0-a1-m1-cA_5aq0-a1-m1-cB The structure of the Transthyretin-like domain of the first catalytic domain of the HUMAN Carboxypeptidase D O75976 O75976 0.95 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 81 82 SGVKGFVKDSITGSGLENATISVAGINHNITTGRFGDFYRLLVPGTYNLTVVLTGYMPLTVTNVVVKEGPATEVDFSLRPH SGVKGFVKDSITGSGLENATISVAGINHNITTGRFGDFYRLLVPGTYNLTVVLTGYMPLTVTNVVVKEGPATEVDFSLRPHH 5aq6-a1-m1-cA_5aq6-a1-m2-cA Structure of E. coli ZinT at 1.79 Angstrom P76344 P76344 1.79 X-RAY DIFFRACTION 41 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 190 190 HSHGKPLTEVEQKAANGVFDDANVQNRKLSDWDGVWQSVYPLLQSGKLDPVFQKKADADKTKTFAEIKDYYHKGYATDIEMIGIEDGIVEFHRNNETTSCKYDYDGYKILTYKSGKKGVRYLFECKDPESKAPKYIQFSDHIIAPRKSSHFHIFMGNDSQQSLLNEMENWPTYYPYQLSSEEVVEEMMSH HSHGKPLTEVEQKAANGVFDDANVQNRKLSDWDGVWQSVYPLLQSGKLDPVFQKKADADKTKTFAEIKDYYHKGYATDIEMIGIEDGIVEFHRNNETTSCKYDYDGYKILTYKSGKKGVRYLFECKDPESKAPKYIQFSDHIIAPRKSSHFHIFMGNDSQQSLLNEMENWPTYYPYQLSSEEVVEEMMSH 5aun-a1-m1-cB_5aun-a1-m2-cB Crystal structure of the HypAB-Ni complex Q5JIH4 Q5JIH4 1.63 X-RAY DIFFRACTION 125 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 240 240 3vx3-a1-m1-cA_3vx3-a1-m1-cB 5auo-a1-m1-cB_5auo-a1-m2-cB 5aup-a1-m1-cB_5aup-a1-m1-cI 5auq-a1-m1-cH_5auq-a1-m1-cA 5auq-a2-m1-cE_5auq-a2-m1-cB 5auq-a3-m1-cC_5auq-a3-m1-cG 5auq-a4-m1-cF_5auq-a4-m1-cD MNAIDPREIAINARLEGVKRIIPVVSGKGGVGKSLVSTTLALVLAEKGYRVGLLDLDFHGASDHVILGFEPKEFPEEDRGVVPPTVHGIKFMTIAYYTEDRPTPLRGKEISDALIELLTITRWDELDYLVIDMPPGLGDQLLDVLRFLKRGEFLVVATPSKLSLNVVRKLIELLKEEGHKVIGVVENMKLKDVEKLAEEFGVPYLVGIPFYPDLDAKVGNVEELMKTEFAGKVRELAGRL MNAIDPREIAINARLEGVKRIIPVVSGKGGVGKSLVSTTLALVLAEKGYRVGLLDLDFHGASDHVILGFEPKEFPEEDRGVVPPTVHGIKFMTIAYYTEDRPTPLRGKEISDALIELLTITRWDELDYLVIDMPPGLGDQLLDVLRFLKRGEFLVVATPSKLSLNVVRKLIELLKEEGHKVIGVVENMKLKDVEKLAEEFGVPYLVGIPFYPDLDAKVGNVEELMKTEFAGKVRELAGRL 5aur-a2-m1-cE_5aur-a2-m1-cG Hydrogenobacter thermophilus cytochrome c552 dimer formed by domain swapping at N-terminal region P15452 P15452 1.26 X-RAY DIFFRACTION 96 1.0 608538 (Hydrogenobacter thermophilus TK-6) 608538 (Hydrogenobacter thermophilus TK-6) 83 83 5aur-a1-m1-cA_5aur-a1-m1-cC NEQLAKQKGCMACHDLKAGGGKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK NEQLAKQKGCMACHDLKAGGGKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK 5aus-a1-m1-cA_5aus-a1-m1-cC Hydrogenobacter thermophilus cytochrome c552 dimer formed by domain swapping at C-terminal region P15452 P15452 1.3 X-RAY DIFFRACTION 176 1.0 608538 (Hydrogenobacter thermophilus TK-6) 608538 (Hydrogenobacter thermophilus TK-6) 79 83 NEQLAKQKGCMACHDLKAKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK NEQLAKQKGCMACHDLKAGGGKKVGPAYADVAKKYAGRKDAVDYLAGKIKKGGSGVWGSVPMPPQNVTDAEAKQLAQWILSIK 5ava-a1-m1-cC_5ava-a1-m1-cD Crystal structure of PHA-E lectin in complex with bisected glycan P05088 P05088 3 X-RAY DIFFRACTION 46 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 238 238 3wcr-a1-m1-cA_3wcr-a1-m1-cB 3wcr-a1-m2-cA_3wcr-a1-m2-cB 3wog-a1-m1-cA_3wog-a1-m1-cB 3wog-a1-m2-cA_3wog-a1-m2-cB 5ava-a1-m1-cA_5ava-a1-m1-cB 5ava-a2-m1-cE_5ava-a2-m1-cG 5ava-a2-m1-cF_5ava-a2-m1-cH ASQTSFSFQRFNETNLILQRDATVSSKGQLRLTNVNDNGEPTLSSLGRAFYSAPIQIWDNTTGAVASFATSFTFNIDVPNNSGPADGLAFVLLPVGSQPKDKGGLLGLFNNYKYDSNAHTVAVEFDTLYNVHWDPKPRHIGIDVNSIKSIKTTTWDFVKGENAEVLITYDSSTKLLVASLVYPSLKTSFIVSDTVDLKSVLPEWVIVGFTATTGITKGNVETNDILSWSFASKLSDGT ASQTSFSFQRFNETNLILQRDATVSSKGQLRLTNVNDNGEPTLSSLGRAFYSAPIQIWDNTTGAVASFATSFTFNIDVPNNSGPADGLAFVLLPVGSQPKDKGGLLGLFNNYKYDSNAHTVAVEFDTLYNVHWDPKPRHIGIDVNSIKSIKTTTWDFVKGENAEVLITYDSSTKLLVASLVYPSLKTSFIVSDTVDLKSVLPEWVIVGFTATTGITKGNVETNDILSWSFASKLSDGT 5ava-a2-m1-cG_5ava-a2-m1-cH Crystal structure of PHA-E lectin in complex with bisected glycan P05088 P05088 3 X-RAY DIFFRACTION 65 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 238 238 3wcr-a1-m1-cA_3wcr-a1-m2-cB 3wcr-a1-m2-cA_3wcr-a1-m1-cB 3wcs-a1-m1-cA_3wcs-a1-m2-cA 3wcs-a1-m1-cB_3wcs-a1-m2-cB 3wog-a1-m1-cA_3wog-a1-m2-cA 3wog-a1-m1-cB_3wog-a1-m2-cB 5ava-a1-m1-cA_5ava-a1-m1-cC 5ava-a1-m1-cB_5ava-a1-m1-cD 5ava-a2-m1-cE_5ava-a2-m1-cF ASQTSFSFQRFNETNLILQRDATVSSKGQLRLTNVNDNGEPTLSSLGRAFYSAPIQIWDNTTGAVASFATSFTFNIDVPNNSGPADGLAFVLLPVGSQPKDKGGLLGLFNNYKYDSNAHTVAVEFDTLYNVHWDPKPRHIGIDVNSIKSIKTTTWDFVKGENAEVLITYDSSTKLLVASLVYPSLKTSFIVSDTVDLKSVLPEWVIVGFTATTGITKGNVETNDILSWSFASKLSDGT ASQTSFSFQRFNETNLILQRDATVSSKGQLRLTNVNDNGEPTLSSLGRAFYSAPIQIWDNTTGAVASFATSFTFNIDVPNNSGPADGLAFVLLPVGSQPKDKGGLLGLFNNYKYDSNAHTVAVEFDTLYNVHWDPKPRHIGIDVNSIKSIKTTTWDFVKGENAEVLITYDSSTKLLVASLVYPSLKTSFIVSDTVDLKSVLPEWVIVGFTATTGITKGNVETNDILSWSFASKLSDGT 5avm-a4-m1-cG_5avm-a4-m1-cH Crystal structures of 5-aminoimidazole ribonucleotide (AIR) synthetase, PurM, from Thermus thermophilus Q5SLC6 Q5SLC6 2.2 X-RAY DIFFRACTION 121 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 281 283 5avm-a1-m1-cA_5avm-a1-m1-cB 5avm-a2-m1-cC_5avm-a2-m1-cD 5avm-a3-m1-cE_5avm-a3-m1-cF EPVLVATTDGVGTKTLLALEAGDVSGLGFDLVNHSVNDLLAQGAEPLFFLDYLAASHLDEGVLAALLASLAEACRAHGIPLLGGETAEMPGVYREGAWDIAGTLVGVVERSRILGPERVREGDALLALPSSGPHTNGYSLIRKVVAGQDLSAPVPELGESLKEALLRPHRAYLKEFRLLWEAGVELHAAAHITGGGLPENLPRALPPGLGAEVRRGSWPIPPVFPYLQRLGGIPEEEMYRVFNMGLGMVLVLPQEAAEEALKLVEGFLVGRVVPGEGVRLV LEEPVLVATTDGVGTKTLLALEAGDVSGLGFDLVNHSVNDLLAQGAEPLFFLDYLAASHLDEGVLAALLASLAEACRAHGIPLLGGETAEMPGVYREGAWDIAGTLVGVVERSRILGPERVREGDALLALPSSGPHTNGYSLIRKVVAGQDLSAPVPELGESLKEALLRPHRAYLKEFRLLWEAGVELHAAAHITGGGLPENLPRALPPGLGAEVRRGSWPIPPVFPYLQRLGGIPEEEMYRVFNMGLGMVLVLPQEAAEEALKLVEGFLVGRVVPGEGVRLV 5avp-a1-m1-cA_5avp-a1-m1-cD Crystal structure of Geodermatophilus obscurus L-ribose isomerase D2S5K0 D2S5K0 2.9 X-RAY DIFFRACTION 53 1.0 526225 (Geodermatophilus obscurus DSM 43160) 526225 (Geodermatophilus obscurus DSM 43160) 240 240 5avp-a1-m1-cB_5avp-a1-m1-cC ARTSVTRREYDEWLNEAAALGRALRYPVRPEMVNDSAGIVFGEDQYDAFENGLWSREPYEAMVIFESLNEPAVDGLPAAGAPFAEYSGLCDKLMIVHPGKFCPPHYHQRKTESYEVVLGEMELFYSPKPVQVGEEEVLSFTGMHEGSPWPDGVALPIGREESYAALTSYRRLRVGDPKFVMHRKHLHAFRCPADSDVPLVVREVSTYSHEPAPLPDWAGLHDNSFVAAAANSGRLRTAIQ ARTSVTRREYDEWLNEAAALGRALRYPVRPEMVNDSAGIVFGEDQYDAFENGLWSREPYEAMVIFESLNEPAVDGLPAAGAPFAEYSGLCDKLMIVHPGKFCPPHYHQRKTESYEVVLGEMELFYSPKPVQVGEEEVLSFTGMHEGSPWPDGVALPIGREESYAALTSYRRLRVGDPKFVMHRKHLHAFRCPADSDVPLVVREVSTYSHEPAPLPDWAGLHDNSFVAAAANSGRLRTAIQ 5avp-a1-m1-cC_5avp-a1-m1-cD Crystal structure of Geodermatophilus obscurus L-ribose isomerase D2S5K0 D2S5K0 2.9 X-RAY DIFFRACTION 195 1.0 526225 (Geodermatophilus obscurus DSM 43160) 526225 (Geodermatophilus obscurus DSM 43160) 240 240 5avp-a1-m1-cA_5avp-a1-m1-cB ARTSVTRREYDEWLNEAAALGRALRYPVRPEMVNDSAGIVFGEDQYDAFENGLWSREPYEAMVIFESLNEPAVDGLPAAGAPFAEYSGLCDKLMIVHPGKFCPPHYHQRKTESYEVVLGEMELFYSPKPVQVGEEEVLSFTGMHEGSPWPDGVALPIGREESYAALTSYRRLRVGDPKFVMHRKHLHAFRCPADSDVPLVVREVSTYSHEPAPLPDWAGLHDNSFVAAAANSGRLRTAIQ ARTSVTRREYDEWLNEAAALGRALRYPVRPEMVNDSAGIVFGEDQYDAFENGLWSREPYEAMVIFESLNEPAVDGLPAAGAPFAEYSGLCDKLMIVHPGKFCPPHYHQRKTESYEVVLGEMELFYSPKPVQVGEEEVLSFTGMHEGSPWPDGVALPIGREESYAALTSYRRLRVGDPKFVMHRKHLHAFRCPADSDVPLVVREVSTYSHEPAPLPDWAGLHDNSFVAAAANSGRLRTAIQ 5awe-a1-m1-cA_5awe-a1-m4-cA Crystal structure of a hypothetical protein, TTHA0829 from Thermus thermophilus HB8, composed of cystathionine-beta-synthase (CBS) and aspartate-kinase chorismate-mutase tyrA (ACT) domains Q5SK23 Q5SK23 2.45 X-RAY DIFFRACTION 126 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 195 195 5awe-a1-m2-cA_5awe-a1-m3-cA LVRDWTKDPVVVAPDTPVLEAIRLLKEKGFRRLPVEGGRLVGLVTDKDLKDAPLSVWENYLLAKLTVREVARPVVTVEADAPLEKAALLEERKIGGLPVEGERLVGIITVTDVLRAFIEVLGLKLGGLRITVDIPDVPGALAQAQAVPPANIVSIATAAHLPGYQRLVRVVGEDVEGVPKRLEAAGERVVDVRPG LVRDWTKDPVVVAPDTPVLEAIRLLKEKGFRRLPVEGGRLVGLVTDKDLKDAPLSVWENYLLAKLTVREVARPVVTVEADAPLEKAALLEERKIGGLPVEGERLVGIITVTDVLRAFIEVLGLKLGGLRITVDIPDVPGALAQAQAVPPANIVSIATAAHLPGYQRLVRVVGEDVEGVPKRLEAAGERVVDVRPG 5awe-a1-m2-cA_5awe-a1-m4-cA Crystal structure of a hypothetical protein, TTHA0829 from Thermus thermophilus HB8, composed of cystathionine-beta-synthase (CBS) and aspartate-kinase chorismate-mutase tyrA (ACT) domains Q5SK23 Q5SK23 2.45 X-RAY DIFFRACTION 28 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 195 195 5awe-a1-m1-cA_5awe-a1-m3-cA LVRDWTKDPVVVAPDTPVLEAIRLLKEKGFRRLPVEGGRLVGLVTDKDLKDAPLSVWENYLLAKLTVREVARPVVTVEADAPLEKAALLEERKIGGLPVEGERLVGIITVTDVLRAFIEVLGLKLGGLRITVDIPDVPGALAQAQAVPPANIVSIATAAHLPGYQRLVRVVGEDVEGVPKRLEAAGERVVDVRPG LVRDWTKDPVVVAPDTPVLEAIRLLKEKGFRRLPVEGGRLVGLVTDKDLKDAPLSVWENYLLAKLTVREVARPVVTVEADAPLEKAALLEERKIGGLPVEGERLVGIITVTDVLRAFIEVLGLKLGGLRITVDIPDVPGALAQAQAVPPANIVSIATAAHLPGYQRLVRVVGEDVEGVPKRLEAAGERVVDVRPG 5awe-a1-m3-cA_5awe-a1-m4-cA Crystal structure of a hypothetical protein, TTHA0829 from Thermus thermophilus HB8, composed of cystathionine-beta-synthase (CBS) and aspartate-kinase chorismate-mutase tyrA (ACT) domains Q5SK23 Q5SK23 2.45 X-RAY DIFFRACTION 11 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 195 195 5awe-a1-m1-cA_5awe-a1-m2-cA LVRDWTKDPVVVAPDTPVLEAIRLLKEKGFRRLPVEGGRLVGLVTDKDLKDAPLSVWENYLLAKLTVREVARPVVTVEADAPLEKAALLEERKIGGLPVEGERLVGIITVTDVLRAFIEVLGLKLGGLRITVDIPDVPGALAQAQAVPPANIVSIATAAHLPGYQRLVRVVGEDVEGVPKRLEAAGERVVDVRPG LVRDWTKDPVVVAPDTPVLEAIRLLKEKGFRRLPVEGGRLVGLVTDKDLKDAPLSVWENYLLAKLTVREVARPVVTVEADAPLEKAALLEERKIGGLPVEGERLVGIITVTDVLRAFIEVLGLKLGGLRITVDIPDVPGALAQAQAVPPANIVSIATAAHLPGYQRLVRVVGEDVEGVPKRLEAAGERVVDVRPG 5awv-a1-m1-cA_5awv-a1-m1-cB Crystal structure of glycopeptide hexose oxidase DBV29 complexed with teicoplanin Q7WZ62 Q7WZ62 1.93 X-RAY DIFFRACTION 87 1.0 93944 (Nonomuraea gerenzanensis) 93944 (Nonomuraea gerenzanensis) 498 498 2wdw-a1-m1-cA_2wdw-a1-m1-cB CLPPAGPVKVTPDDPRYLNLKLRGANSRFNGEPDYIHLVGSTQQVADAVEETVRTGKRVAVRSGGHCFEDFVDNPDVKVIIDMSLLTEIAYDPSMNAFLIEPGNTLSEVYEKLYLGWNVTIPGGVCGGVGVGGHICGGGYGPLSRQFGSVVDYLYAVEVVVVNKQGKARVIVATRERDDPHHDLWWAHTGGGGGNFGVVTKYWMRVPEDVGRNPERLLPKPPATLLTSTVTFDWAGMTEAAFSRLLRNHGEWYERNSGPDSPYTGLWSQLMIGNEVPGMGESGFMMPIQVDATRPDARRLLDAHIEAVIDGVPPAEVPEPIEQRWLASTPGRGGRGPASKTKAGYLRKRLTDRQIQAVYENMTHMDGIDYGAVWLIGYGGKVNTVDPAATALPQRDAILKVNYITGWANPGNEAKHLTWVRKLYADVYAETGGVPVPNDVSDGAYINYPDSDLADPGLNTSGVPWHDLYYKGNHPRLRKVKAAYDPRNHFHHALSIRP CLPPAGPVKVTPDDPRYLNLKLRGANSRFNGEPDYIHLVGSTQQVADAVEETVRTGKRVAVRSGGHCFEDFVDNPDVKVIIDMSLLTEIAYDPSMNAFLIEPGNTLSEVYEKLYLGWNVTIPGGVCGGVGVGGHICGGGYGPLSRQFGSVVDYLYAVEVVVVNKQGKARVIVATRERDDPHHDLWWAHTGGGGGNFGVVTKYWMRVPEDVGRNPERLLPKPPATLLTSTVTFDWAGMTEAAFSRLLRNHGEWYERNSGPDSPYTGLWSQLMIGNEVPGMGESGFMMPIQVDATRPDARRLLDAHIEAVIDGVPPAEVPEPIEQRWLASTPGRGGRGPASKTKAGYLRKRLTDRQIQAVYENMTHMDGIDYGAVWLIGYGGKVNTVDPAATALPQRDAILKVNYITGWANPGNEAKHLTWVRKLYADVYAETGGVPVPNDVSDGAYINYPDSDLADPGLNTSGVPWHDLYYKGNHPRLRKVKAAYDPRNHFHHALSIRP 5awv-a1-m1-cA_5awv-a1-m1-cC Crystal structure of glycopeptide hexose oxidase DBV29 complexed with teicoplanin Q7WZ62 Q7WZ62 1.93 X-RAY DIFFRACTION 13 1.0 93944 (Nonomuraea gerenzanensis) 93944 (Nonomuraea gerenzanensis) 498 498 CLPPAGPVKVTPDDPRYLNLKLRGANSRFNGEPDYIHLVGSTQQVADAVEETVRTGKRVAVRSGGHCFEDFVDNPDVKVIIDMSLLTEIAYDPSMNAFLIEPGNTLSEVYEKLYLGWNVTIPGGVCGGVGVGGHICGGGYGPLSRQFGSVVDYLYAVEVVVVNKQGKARVIVATRERDDPHHDLWWAHTGGGGGNFGVVTKYWMRVPEDVGRNPERLLPKPPATLLTSTVTFDWAGMTEAAFSRLLRNHGEWYERNSGPDSPYTGLWSQLMIGNEVPGMGESGFMMPIQVDATRPDARRLLDAHIEAVIDGVPPAEVPEPIEQRWLASTPGRGGRGPASKTKAGYLRKRLTDRQIQAVYENMTHMDGIDYGAVWLIGYGGKVNTVDPAATALPQRDAILKVNYITGWANPGNEAKHLTWVRKLYADVYAETGGVPVPNDVSDGAYINYPDSDLADPGLNTSGVPWHDLYYKGNHPRLRKVKAAYDPRNHFHHALSIRP CLPPAGPVKVTPDDPRYLNLKLRGANSRFNGEPDYIHLVGSTQQVADAVEETVRTGKRVAVRSGGHCFEDFVDNPDVKVIIDMSLLTEIAYDPSMNAFLIEPGNTLSEVYEKLYLGWNVTIPGGVCGGVGVGGHICGGGYGPLSRQFGSVVDYLYAVEVVVVNKQGKARVIVATRERDDPHHDLWWAHTGGGGGNFGVVTKYWMRVPEDVGRNPERLLPKPPATLLTSTVTFDWAGMTEAAFSRLLRNHGEWYERNSGPDSPYTGLWSQLMIGNEVPGMGESGFMMPIQVDATRPDARRLLDAHIEAVIDGVPPAEVPEPIEQRWLASTPGRGGRGPASKTKAGYLRKRLTDRQIQAVYENMTHMDGIDYGAVWLIGYGGKVNTVDPAATALPQRDAILKVNYITGWANPGNEAKHLTWVRKLYADVYAETGGVPVPNDVSDGAYINYPDSDLADPGLNTSGVPWHDLYYKGNHPRLRKVKAAYDPRNHFHHALSIRP 5ax6-a1-m2-cA_5ax6-a1-m3-cA The crystal structure of CofB, the minor pilin subunit of CFA/III from human enterotoxigenic Escherichia coli. Q93I73 Q93I73 1.88 X-RAY DIFFRACTION 349 1.0 562 (Escherichia coli) 562 (Escherichia coli) 481 481 4qs4-a2-m1-cA_4qs4-a2-m2-cA 4qs4-a2-m1-cA_4qs4-a2-m3-cA 4qs4-a2-m2-cA_4qs4-a2-m3-cA 5ax6-a1-m1-cA_5ax6-a1-m2-cA 5ax6-a1-m1-cA_5ax6-a1-m3-cA DEARRQIVSNALISEIAGIVDFVAEEQITVIEQGIEKEITNPLYEQSSGIPYINRTTNKDLNSTMSTNASEFINWGAGTSTRIFFTRKYCISTGTQGNYEFSKDYIPCEEPAILSNSDLKIDRIDFVATDNTVGSAIERVDFILTFDKSNYVSSLEKAAEQHSISFKDIYVVERNSSGAAGWRLTTISGKPLTFSGLSKNIGSLDKTKNYGLRLSIDPNLGKFLRADGRVGADKLCWNIDNKMSGPCLAADDSGNNLVLTKGKGAKSNEPGLCWDLNTGTSKLCLTQIEGKDNNDKDASLIKLKDDNGNPATMLANILVEEKSMTDSTKKELRTIPNTIYAAFSNSNASDLVITNPGNYIGNVTSEKGRIELNVQDCPVSPDGNKLHPRLSASIASIVADTKDSNGKYQADFSSLAGNRNSGGQLGYLSGTAIQVNQSGSKWYITATMGVFDPLTNTTYVYLNPKFLSVNITTWCSTEPQT DEARRQIVSNALISEIAGIVDFVAEEQITVIEQGIEKEITNPLYEQSSGIPYINRTTNKDLNSTMSTNASEFINWGAGTSTRIFFTRKYCISTGTQGNYEFSKDYIPCEEPAILSNSDLKIDRIDFVATDNTVGSAIERVDFILTFDKSNYVSSLEKAAEQHSISFKDIYVVERNSSGAAGWRLTTISGKPLTFSGLSKNIGSLDKTKNYGLRLSIDPNLGKFLRADGRVGADKLCWNIDNKMSGPCLAADDSGNNLVLTKGKGAKSNEPGLCWDLNTGTSKLCLTQIEGKDNNDKDASLIKLKDDNGNPATMLANILVEEKSMTDSTKKELRTIPNTIYAAFSNSNASDLVITNPGNYIGNVTSEKGRIELNVQDCPVSPDGNKLHPRLSASIASIVADTKDSNGKYQADFSSLAGNRNSGGQLGYLSGTAIQVNQSGSKWYITATMGVFDPLTNTTYVYLNPKFLSVNITTWCSTEPQT 5ax7-a1-m1-cB_5ax7-a1-m1-cA yeast pyruvyltransferase Pvg1p Q9UT27 Q9UT27 2.46 X-RAY DIFFRACTION 33 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 329 333 KPLFTKSPRNSASCESTITLQSNLLFTYYKHYFAGIKKVALIGFPDHPNKGDSAIYVAEKKLLDALNIEVVYITAQEADYSASELKSIISDIPRDEFALAFHGGGNFGDLYPDHQHLRELVVRDFPSFTTISFPQSVWYNEQQLLEQASILYAENPNITLVTRDRQSYGFAVDAFGKHNEVLLTPDIVFFMGPIPEIREATPITHDVLILARLNAANLTYSVEDWLLWDPPVAQNPDSSFDDRGQARYEAGAEFLASARVVITDRLHAHILSTLMGIPHIVVENSQMGKITNYHNTWLHGCTLDGVSVVVDSVDKALSLLLEWNEAGYF KKPLFTKSPRNSASCESTITLQSNLLFTYYKHYFAGIKKVALIGFPDHPNKGDSAIYVAEKKLLDALNIEVVYITAQEADYSASELKSIISDIPRDEFALAFHGGGNFGDLYPDHQHLRELVVRDFPSFTTISFPQSVWYNEQQLLEQASILYAENPNITLVTRDRQSYGFAVDAFGKHNEVLLTPDIVFFMGPIPEIREATPITHDVLILARLDTLNAANLTYSVEDWLLWDPPVAQNPDSSFDDRGQARYEAGAEFLASARVVITDRLHAHILSTLMGIPHIVVENSQMGKITNYHNTWLHGCTLDGVSVVVDSVDKALSLLLEWNEAGYF 5axa-a1-m1-cA_5axa-a1-m2-cC Crystal structure of mouse SAHH complexed with adenosine P50247 P50247 1.55 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 429 430 1a7a-a1-m1-cB_1a7a-a1-m2-cA 1a7a-a1-m2-cB_1a7a-a1-m1-cA 1b3r-a1-m1-cA_1b3r-a1-m1-cD 1b3r-a1-m1-cB_1b3r-a1-m1-cC 1d4f-a1-m1-cA_1d4f-a1-m1-cD 1d4f-a1-m1-cB_1d4f-a1-m1-cC 1k0u-a1-m1-cA_1k0u-a1-m1-cD 1k0u-a1-m1-cB_1k0u-a1-m1-cC 1k0u-a2-m1-cE_1k0u-a2-m1-cH 1k0u-a2-m1-cF_1k0u-a2-m1-cG 1ky4-a1-m1-cA_1ky4-a1-m1-cD 1ky4-a1-m1-cB_1ky4-a1-m1-cC 1ky5-a1-m1-cA_1ky5-a1-m1-cD 1ky5-a1-m1-cB_1ky5-a1-m1-cC 1li4-a1-m1-cA_1li4-a1-m4-cA 1li4-a1-m2-cA_1li4-a1-m3-cA 1xwf-a1-m1-cA_1xwf-a1-m1-cD 1xwf-a1-m1-cB_1xwf-a1-m1-cC 2h5l-a1-m1-cA_2h5l-a1-m1-cD 2h5l-a1-m1-cB_2h5l-a1-m1-cC 2h5l-a2-m1-cE_2h5l-a2-m1-cH 2h5l-a2-m1-cF_2h5l-a2-m1-cG 3nj4-a1-m1-cB_3nj4-a1-m1-cC 3nj4-a1-m1-cD_3nj4-a1-m1-cA 4pfj-a1-m1-cB_4pfj-a1-m2-cA 4pfj-a1-m2-cB_4pfj-a1-m1-cA 4pgf-a1-m1-cB_4pgf-a1-m2-cA 4pgf-a1-m2-cB_4pgf-a1-m1-cA 4yvf-a1-m1-cA_4yvf-a1-m2-cA 4yvf-a1-m1-cB_4yvf-a1-m2-cB 5axa-a1-m2-cA_5axa-a1-m1-cC 5axb-a1-m1-cA_5axb-a1-m2-cC 5axb-a1-m2-cA_5axb-a1-m1-cC 5axc-a1-m1-cA_5axc-a1-m2-cC 5axc-a1-m2-cA_5axc-a1-m1-cC 5axd-a1-m1-cA_5axd-a1-m2-cC 5axd-a1-m2-cA_5axd-a1-m1-cC 5w49-a1-m1-cA_5w49-a1-m2-cA 5w49-a1-m1-cB_5w49-a1-m2-cB 5w4b-a1-m1-cA_5w4b-a1-m1-cE 5w4b-a1-m1-cF_5w4b-a1-m1-cB 5w4b-a2-m1-cC_5w4b-a2-m2-cC 5w4b-a2-m1-cD_5w4b-a2-m2-cD KLPYKVADIGLAAWGRKALDIAENEMPGLMRMREMYSASKPLKGARIAGCLHMTVETAVLIETLVALGAEVRWSSCNIFSTQDHAAAAIAKAGIPVFAWKGETDEEYLWCIEQTLHFKDGPLNMILDDGGDLTNLIHTKYPQLLSGIRGISEETTTGVHNLYKMMSNGILKVPAINVNDSVTKSKFDNLYGCRESLIDGIKRATDVMIAGKVAVVAGYGDVGKGCAQALRGFGARVIITEIDPINALQAAMEGYEVTTMDEACKEGNIFVTTTGCVDIILGRHFEQMKDDAIVCNIGHFDVEIDVKWLNENAVEKVNIKPQVDRYWLKNGRRIILLAEGRLVNLGCAMGHPSFVMSNSFTNQVMAQIELWTHPDKYPVGVHFLPKKLDEAVAEAHLGKLNVKLTKLTEKQAQYLGMPINGPFKPDHYRY DKLPYKVADIGLAAWGRKALDIAENEMPGLMRMREMYSASKPLKGARIAGCLHMTVETAVLIETLVALGAEVRWSSCNIFSTQDHAAAAIAKAGIPVFAWKGETDEEYLWCIEQTLHFKDGPLNMILDDGGDLTNLIHTKYPQLLSGIRGISEETTTGVHNLYKMMSNGILKVPAINVNDSVTKSKFDNLYGCRESLIDGIKRATDVMIAGKVAVVAGYGDVGKGCAQALRGFGARVIITEIDPINALQAAMEGYEVTTMDEACKEGNIFVTTTGCVDIILGRHFEQMKDDAIVCNIGHFDVEIDVKWLNENAVEKVNIKPQVDRYWLKNGRRIILLAEGRLVNLGCAMGHPSFVMSNSFTNQVMAQIELWTHPDKYPVGVHFLPKKLDEAVAEAHLGKLNVKLTKLTEKQAQYLGMPINGPFKPDHYRY 5axg-a1-m1-cA_5axg-a1-m1-cB Crystal structure of thermophilic dextranase from Thermoanaerobacter pseudethanolicus B0KBZ7 B0KBZ7 1.85 X-RAY DIFFRACTION 67 1.0 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 340099 (Thermoanaerobacter pseudethanolicus ATCC 33223) 583 584 5axh-a1-m1-cA_5axh-a1-m1-cB FKDDNNIVALTKGKLISDVYTDKARYYPSDKVTVKIELNNELQEDFRGTIYIFYKHLESIVGKAKIQVNIKSGQKKQLNIFWEAPKDDFKGYLVEVYAVKGNKAIDNKNTAVDVSSDWSKFPRYGYIANFPEQSKEKSALIIEDLNKYHLNGLLFYDWQYKHNKPLAGTVENPDPKWKDIANRDIYGQTVKDYIELAHSKNIMVANYNLMYGGYFDYVKDGAKPEWGLYKDPNHEEQDNHPLPHTWATDRLYLFNPANKDWQNYIFNAEKDAFRVYNFDVWHVDTLGPRGMVYDYNGNPVELSFTYADFLNNAKNALGKRIVCNTVNEYGLINVASGADVDFLYVEIWPPARAHYNFLKQTVDNGYNYSDGKKATVVAAYMNYGIADRSAEFNKHSVRLTDAAIFAAGGDHIELGDTGMLSKEYFPSANLKMSESLVKAMRNYYDFLTAYENLLRDGLKESDNKIEIPGIEISNNGSARTVWTYAKQKDGYDVIHMINLLGIEVSNWRDDLGNYSAPPIIKDFKVKYYLENDNIKNVYLASPDINDGKVMKLQFKKKEDSKGKYLEISVPELQYWDMIFIKKL SFKDDNNIVALTKGKLISDVYTDKARYYPSDKVTVKIELNNELQEDFRGTIYIFYKHLESIVGKAKIQVNIKSGQKKQLNIFWEAPKDDFKGYLVEVYAVKGNKAIDNKNTAVDVSSDWSKFPRYGYIANFPEQSKEKSALIIEDLNKYHLNGLLFYDWQYKHNKPLAGTVENPDPKWKDIANRDIYGQTVKDYIELAHSKNIMVANYNLMYGGYFDYVKDGAKPEWGLYKDPNHEEQDNHPLPHTWATDRLYLFNPANKDWQNYIFNAEKDAFRVYNFDVWHVDTLGPRGMVYDYNGNPVELSFTYADFLNNAKNALGKRIVCNTVNEYGLINVASGADVDFLYVEIWPPARAHYNFLKQTVDNGYNYSDGKKATVVAAYMNYGIADRSAEFNKHSVRLTDAAIFAAGGDHIELGDTGMLSKEYFPSANLKMSESLVKAMRNYYDFLTAYENLLRDGLKESDNKIEIPGIEISNNGSARTVWTYAKQKDGYDVIHMINLLGIEVSNWRDDLGNYSAPPIIKDFKVKYYLENDNIKNVYLASPDINDGKVMKLQFKKKEDSKGKYLEISVPELQYWDMIFIKKL 5ay8-a1-m1-cE_5ay8-a1-m1-cA Crystal structure of human nucleosome containing H3.Y P0DPK2 P0DPK2 2.8 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 97 PHRYKPGTLALREIRKYQKSTQLLLRKLPFQRLVREIAQAISPDLRFQSAAIGALQEASEAYLVQLFEDTNLCAIHARRVTIMPRDMQLARRLRRE PHRYKPGTLALREIRKYQKSTQLLLRKLPFQRLVREIAQAISPDLRFQSAAIGALQEASEAYLVQLFEDTNLCAIHARRVTIMPRDMQLARRLRREG 5ayc-a1-m2-cA_5ayc-a1-m3-cA Crystal structure of Ruminococcus albus 4-O-beta-D-mannosyl-D-glucose phosphorylase (RaMP1) in complexes with sulfate and 4-O-beta-D-mannosyl-D-glucose E6UIS7 E6UIS7 1.9 X-RAY DIFFRACTION 155 1.0 697329 (Ruminococcus albus 7 = DSM 20455) 697329 (Ruminococcus albus 7 = DSM 20455) 386 386 5ay9-a1-m1-cA_5ay9-a1-m2-cA 5ay9-a1-m1-cA_5ay9-a1-m3-cA 5ay9-a1-m2-cA_5ay9-a1-m3-cA 5ayc-a1-m1-cA_5ayc-a1-m2-cA 5ayc-a1-m1-cA_5ayc-a1-m3-cA MIHEKYTEMRNEQEALLSRKNTKTSFYNGIYDRYEHPVLTREHIPLHWRYDLNKETNPFFQERLGINAVFNAGAIKLNDRYCLVARVEGNDRKSFFAVAESDKGTEGFRFRQYPVCLPALTDDETNVYDMRLTQHEDGWIYGVFCVEKSAGTADLSEAVASAGIARTKDLTNWERLPDLVTLRSPQQRNVTLLPEFVDGKYAFYTRPMDGFIETGSGGGIGFGLADDITHAVIDEERMTSIRRYHTITESKNGAGATPIKTERGWLNIAHGVRNTAAGLRYVIYCFVTDLSEPWKVIAEPGGYLIAPFKDERVGDVSNVVFTNGAIVDDNGDVYIYYASSDTRLHVAVSSIDKLLDYAFNTPADALRTAECVKQRCDLIKRNIELL MIHEKYTEMRNEQEALLSRKNTKTSFYNGIYDRYEHPVLTREHIPLHWRYDLNKETNPFFQERLGINAVFNAGAIKLNDRYCLVARVEGNDRKSFFAVAESDKGTEGFRFRQYPVCLPALTDDETNVYDMRLTQHEDGWIYGVFCVEKSAGTADLSEAVASAGIARTKDLTNWERLPDLVTLRSPQQRNVTLLPEFVDGKYAFYTRPMDGFIETGSGGGIGFGLADDITHAVIDEERMTSIRRYHTITESKNGAGATPIKTERGWLNIAHGVRNTAAGLRYVIYCFVTDLSEPWKVIAEPGGYLIAPFKDERVGDVSNVVFTNGAIVDDNGDVYIYYASSDTRLHVAVSSIDKLLDYAFNTPADALRTAECVKQRCDLIKRNIELL 5ayq-a1-m1-cA_5ayq-a1-m1-cB Structure-based site-directed photo-crosslinking analyses of multimeric cell-adhesive interactions of VGSC beta subunits Q7M729 Q7M729 1.7 X-RAY DIFFRACTION 106 1.0 10090 (Mus musculus) 10090 (Mus musculus) 118 121 SLEVSVGKATTIYAINGSSILLPCTFSSCYGFENLYFKWSYNNSETSRILIDGIVKNDKSDPKVRVKDDDRITLEGSTKEKTNNISILLSDLEFSDTGRYTCFVRNNSATIFLQVVDK SLEVSVGKATTIYAINGSSILLPCTFSSCYGFENLYFKWSYNNSETSRILIDGIVKNDKSDPKVRVKDDDRITLEGSTKEKTNNISILLSDLEFSDTGRYTCFVRNPLNNSATIFLQVVDK 5azd-a5-m1-cB_5azd-a5-m1-cD Crystal structure of thermophilic rhodopsin. H9ZSC3 H9ZSC3 2.8 X-RAY DIFFRACTION 32 0.996 798128 (Thermus thermophilus JL-18) 798128 (Thermus thermophilus JL-18) 249 249 5azd-a5-m1-cA_5azd-a5-m1-cC MLPELSFGEYWLVFNMLSLTIAGMLAAFVFFLLARSYVAPRYHIALYLSALIVFIAGYHYLRIFESWVGAYQLQDGVYVPTGKPFNDFYRYADWLLTVPLLLLELILVLGLTAARTWNLSIKLVVASVLMLALGYVGEVNTEPGPRTLWGALSSIPFFYILYVLWVELGQAIREAKFGPRVLELLGATRLVLLMSWGFYPIAYALGTWLPGGAAQEVAIQIGYSLADLIAPIYGLLVFAIARAKSLEEG LPELSFGEYWLVFNMLSLTIAGMLAAFVFFLLARSYVAPRYHIALYLSALIVFIAGYHYLRIFESWVGAYQLQDGVYVPTGKPFNDFYRYADWLLTVPLLLLELILVLGLTAARTWNLSIKLVVASVLMLALGYVGEVNTEPGPRTLWGALSSIPFFYILYVLWVELGQAIREAKFGPRVLELLGATRLVLLMSWGFYPIAYALGTWLPGGAAQEVAIQIGYSLADLIAPIYGLLVFAIARAKSLEEGF 5azd-a5-m1-cD_5azd-a5-m1-cC Crystal structure of thermophilic rhodopsin. H9ZSC3 H9ZSC3 2.8 X-RAY DIFFRACTION 33 1.0 798128 (Thermus thermophilus JL-18) 798128 (Thermus thermophilus JL-18) 249 250 5azd-a5-m1-cB_5azd-a5-m1-cA LPELSFGEYWLVFNMLSLTIAGMLAAFVFFLLARSYVAPRYHIALYLSALIVFIAGYHYLRIFESWVGAYQLQDGVYVPTGKPFNDFYRYADWLLTVPLLLLELILVLGLTAARTWNLSIKLVVASVLMLALGYVGEVNTEPGPRTLWGALSSIPFFYILYVLWVELGQAIREAKFGPRVLELLGATRLVLLMSWGFYPIAYALGTWLPGGAAQEVAIQIGYSLADLIAPIYGLLVFAIARAKSLEEGF LPELSFGEYWLVFNMLSLTIAGMLAAFVFFLLARSYVAPRYHIALYLSALIVFIAGYHYLRIFESWVGAYQLQDGVYVPTGKPFNDFYRYADWLLTVPLLLLELILVLGLTAARTWNLSIKLVVASVLMLALGYVGEVNTEPGPRTLWGALSSIPFFYILYVLWVELGQAIREAKFGPRVLELLGATRLVLLMSWGFYPIAYALGTWLPGGAAQEVAIQIGYSLADLIAPIYGLLVFAIARAKSLEEGFG 5azs-a1-m1-cA_5azs-a1-m1-cB Crystal structure of a membrane protein from Pseudomonas aeruginosa Q51397 Q51397 3.1 X-RAY DIFFRACTION 191 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 430 435 5azs-a1-m1-cA_5azs-a1-m1-cC 5azs-a1-m1-cB_5azs-a1-m1-cC CSMAPTYERPAAPVADSWSLDWKSFIVDAELRRLVDMALDNNRSLRQTLLDIEAARAQYRIQRADRVPGLNAAATGNRQRQPADLSAGNRSEVASSYQVGLALPEYELDLFGRVKSLTDAALQQYLASEEAARAARIALVAEVSQAYLSYDGALRRLALTRQTLVSREYSFALIDQRRAAGAATALDYQEALGLVEQARAEQERNLRQKQQAFNALVLLLGSDDAAQAIPRSPGQRPKLLQDIAPGTPSELIERRPDILAAEHRLRARNADIGAARAAFFPRISLTGSFGTSSAEMSGLFDGGSRSWSFLPTLTLPIFDGGRNRANLSLAEARKDSAVAAYEGTIQTAFREVADALAASDTLRREEKALRALANSSNEALKLAKARYESGVDNHLRYLDAQRSSFLNEIAFIDGSTQRQIALVDLFRALG CSMAPTYERPAAPVADSWSGAIDTLDWKSFIVDAELRRLVDMALDNNRSLRQTLLDIEAARAQYRIQRADRVPGLNAAATGNRQRQPADLSAGNRSEVASSYQVGLALPEYELDLFGRVKSLTDAALQQYLASEEAARAARIALVAEVSQAYLSYDGALRRLALTRQTLVSREYSFALIDQRRAAGAATALDYQEALGLVEQARAEQERNLRQKQQAFNALVLLLGSDDAAQAIPRSPGQRPKLLQDIAPGTPSELIERRPDILAAEHRLRARNADIGAARAAFFPRISLTGSFGTSSAEMSGLFDGGSRSWSFLPTLTLPIFDGGRNRANLSLAEARKDSAVAAYEGTIQTAFREVADALAASDTLRREEKALRALANSSNEALKLAKARYESGVDNHLRYLDAQRSSFLNEIAFIDGSTQRQIALVDLFRALG 5azw-a1-m1-cB_5azw-a1-m1-cA Crystal structure of p24beta1 GOLD domain Q15363 Q15363 1.5 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 94 YFVSIDAHAEECFFERVTSGTKMGLIFEVAEGGFLDIDVEITGPDNKGIYKGDRESSGKYTFAAHMDGTYKFCFSNRMSTMTPKIVMFTIDIG GYFVSIDAHAEECFFERVTSGTKMGLIFEVAEGGFLDIDVEITGPDNKGIYKGDRESSGKYTFAAHMDGTYKFCFSNRMSTMTPKIVMFTIDIG 5azy-a3-m1-cA_5azy-a3-m1-cB Crystal structure of p24delta1 GOLD domain (Native 2) Q63584 Q63584 1.8 X-RAY DIFFRACTION 64 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 97 98 GSISFHLPVNSRKCLREEIHKDLLVTGAYEITDQSGGAGGLRTHLKITDSAGHILYAKEDATKGKFAFTTDMFEVCFESKGTGRIPDQLVILDMKHG GSISFHLPVNSRKCLREEIHKDLLVTGAYEITDQSGGAGGLRTHLKITDSAGHILYAKEDATKGKFAFTTEDMFEVCFESKGTGRIPDQLVILDMKHG 5b04-a1-m1-cD_5b04-a1-m1-cC Crystal structure of the eukaryotic translation initiation factor 2B from Schizosaccharomyces pombe Q9UT76 Q9UT76 2.994 X-RAY DIFFRACTION 10 0.997 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 346 349 GPISEFMSTINVEHTYPAVSSLIADLKSRKVQGPFAVAVETALVMRQVISQTRWSTVDQLIDTVRAVGSTLVKAQPTEFSCGNIIRRILRLIREEYQELLKTADYSSMLNLLGRPTTGGMDMRAVIISGIQDVIDELDKINTDIEVQSMDHLHSNEIILTQGCSKTVEAFLRFAAKKRKFSVIVAEGFPNNQKGSHAMAKRLAQAGIDTTVISDATIFAIMSRVNKVILGTHAILGNGGLVTYSGAQLVAQAARHHATPVVVCSGIYKLSPVYPYDLESIIQLSSPDKIMSFNEGDLISRAEILNPYYDYIPPDLVDLFITNLGGYPPSYLYRIMNDTYDASDTIL GPISEFMSTINVEHTYPAVSSLIADLKSRKVQGPFAVAVETALVMRQVISQTRWSTVDQLIDTVRAVGSTLVKAQPTEFSCGNIIRRILRLIREEYQELLKTADEMYSSMLNLLGRPRVTGGMDMRAVIISGIQDVIDELDKINTDIEVQSMDHLHSNEIILTQGCSKTVEAFLRFAAKKRKFSVIVAEGFPNNQKGSHAMAKRLAQAGIDTTVISDATIFAIMSRVNKVILGTHAILGNGGLVTYSGAQLVAQAARHHATPVVVCSGIYKLSPVYPYDLESIIQLSSPDKIMSFNEGDLISRAEILNPYYDYIPPDLVDLFITNLGGYPPSYLYRIMNDTYDASDTIL 5b0h-a1-m1-cA_5b0h-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN LEUKOCYTE CELL-DERIVED CHEMOTAXIN 2 O14960 O14960 1.94 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 GPWANICAGKSSNEIRTCDRHGCGQYSAQRSQRPHQGVDVLCSAGSTVYAPFTGMIVGQEKPYQNKNAINNGVRISGRGFCVKMFYIKPIKYKGPIKKGEKLGTLLPLQKVYPGIQSHVHIENCDSSDPTAYL GPWANICAGKSSNEIRTCDRHGCGQYSAQRSQRPHQGVDVLCSAGSTVYAPFTGMIVGQEKPYQNKNAINNGVRISGRGFCVKMFYIKPIKYKGPIKKGEKLGTLLPLQKVYPGIQSHVHIENCDSSDPTAYL 5b0o-a3-m1-cK_5b0o-a3-m1-cG Structure of the FliH-FliI complex P15934 P15934 3 X-RAY DIFFRACTION 112 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 133 136 5b0o-a1-m1-cI_5b0o-a1-m1-cE 5b0o-a2-m1-cF_5b0o-a2-m1-cJ 5b0o-a4-m1-cL_5b0o-a4-m1-cH PIHARMQQLVSEFQNTLDALDSVIASRLMQMALEAARQVIGQTPAVDNSALIKQIQQLLQQEPLFSGKPQLRVHPDDLQRVEEMLGATLSLHGWRLRGDPTLHHGGCKVSADEGDLDASVATRWQELCRLAAP PIHARMQQLVSEFQNTLDALDSVIASRLMQMALEAARQVIGQTPAVDNSALIKQIQQLLQQEPLFSGKPQLRVHPDDLQRVEEMLGATLSLHGWRLRGDPTLHHGGCKVSADEGDLDASVATRWQELCRLAAPGVL 5b0r-a1-m1-cA_5b0r-a1-m1-cB Beta-1,2-Mannobiose phosphorylase from Listeria innocua - beta-1,2-mannobiose complex Q92DF6 Q92DF6 1.8 X-RAY DIFFRACTION 152 1.0 272626 (Listeria innocua Clip11262) 272626 (Listeria innocua Clip11262) 353 353 5b0p-a1-m1-cA_5b0p-a1-m1-cB 5b0q-a1-m1-cA_5b0q-a1-m1-cB 5b0s-a1-m1-cA_5b0s-a1-m1-cB MNIYRYEENPLITPLDVKPIHEGFEVIGAFNGGVAEYNGEVLLLLRVAEKPVSEDPEIVLAPVYNAKNKELELQSFRLDDENYDFEDPRMIRSKAKLEGFSYLTSLSYIRIARSKDGHHFTLDEKPFLYPFNEYQTFGIEDARVTQIGDTYHVNFSAVSEFGVADALVTTKDFENLEYQGNIFAPENKDVLIFPEKINGKYYALHRPSLKSIGNLDIWIASSPDLRSFGDHRHLLGIRPGEYDSGRVGGGCVPIKTEEGWLILYHGATEENRYVMGAALLDLNDPTIVLKRTKTPILEPVADYEKNGFFGDVVFACGAIQEGDTLHMYYGVADTSMAGCDMKISEILHQLEVE MNIYRYEENPLITPLDVKPIHEGFEVIGAFNGGVAEYNGEVLLLLRVAEKPVSEDPEIVLAPVYNAKNKELELQSFRLDDENYDFEDPRMIRSKAKLEGFSYLTSLSYIRIARSKDGHHFTLDEKPFLYPFNEYQTFGIEDARVTQIGDTYHVNFSAVSEFGVADALVTTKDFENLEYQGNIFAPENKDVLIFPEKINGKYYALHRPSLKSIGNLDIWIASSPDLRSFGDHRHLLGIRPGEYDSGRVGGGCVPIKTEEGWLILYHGATEENRYVMGAALLDLNDPTIVLKRTKTPILEPVADYEKNGFFGDVVFACGAIQEGDTLHMYYGVADTSMAGCDMKISEILHQLEVE 5b13-a1-m1-cA_5b13-a1-m1-cF Crystal structure of phycoerythrin F2ZAL8 F2ZAL8 2.094 X-RAY DIFFRACTION 22 1.0 2822 (Palmaria palmata) 2822 (Palmaria palmata) 164 164 5b13-a1-m1-cB_5b13-a1-m1-cE 5b13-a1-m1-cC_5b13-a1-m1-cD MKSVMTTTISAADAAGRFPSSSDLESVQGNIQRAAARLEAAEKLASNHEAVVKEGGDACFAKYSYLKNPGEAGDSQEKVNKCYRDVDHYMRLVNYSLVVGGTGPLDEWAIAGAREVYRTLNLPSASYVAAFAFTRDRLCVPRDMSAQAGGEYVAALDYIVNALT MKSVMTTTISAADAAGRFPSSSDLESVQGNIQRAAARLEAAEKLASNHEAVVKEGGDACFAKYSYLKNPGEAGDSQEKVNKCYRDVDHYMRLVNYSLVVGGTGPLDEWAIAGAREVYRTLNLPSASYVAAFAFTRDRLCVPRDMSAQAGGEYVAALDYIVNALT 5b13-a1-m1-cE_5b13-a1-m1-cF Crystal structure of phycoerythrin F2ZAL8 F2ZAL8 2.094 X-RAY DIFFRACTION 94 1.0 2822 (Palmaria palmata) 2822 (Palmaria palmata) 164 164 5b13-a1-m1-cA_5b13-a1-m1-cC 5b13-a1-m1-cB_5b13-a1-m1-cD MKSVMTTTISAADAAGRFPSSSDLESVQGNIQRAAARLEAAEKLASNHEAVVKEGGDACFAKYSYLKNPGEAGDSQEKVNKCYRDVDHYMRLVNYSLVVGGTGPLDEWAIAGAREVYRTLNLPSASYVAAFAFTRDRLCVPRDMSAQAGGEYVAALDYIVNALT MKSVMTTTISAADAAGRFPSSSDLESVQGNIQRAAARLEAAEKLASNHEAVVKEGGDACFAKYSYLKNPGEAGDSQEKVNKCYRDVDHYMRLVNYSLVVGGTGPLDEWAIAGAREVYRTLNLPSASYVAAFAFTRDRLCVPRDMSAQAGGEYVAALDYIVNALT 5b18-a2-m1-cC_5b18-a2-m1-cD Crystal Structure of a Darunavir Resistant HIV-1 Protease E5RVX9 E5RVX9 1.8 X-RAY DIFFRACTION 115 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 5b18-a1-m1-cA_5b18-a1-m1-cB PQITLWQRPIITIKIGGQLKEAILNTGADDTIFEEMNLPGRWKPKIVGGVGGLVKVREYEQIPIEICGRKVISTVLIGPTPFNIIGRNVMTQLGCTLNF PQITLWQRPIITIKIGGQLKEAILNTGADDTIFEEMNLPGRWKPKIVGGVGGLVKVREYEQIPIEICGRKVISTVLIGPTPFNIIGRNVMTQLGCTLNF 5b19-a1-m1-cB_5b19-a1-m1-cA Picrophilus torridus aspartate racemase Q6L2R8 Q6L2R8 1.851 X-RAY DIFFRACTION 95 1.0 263820 () 263820 () 147 231 GKIVGIIGGMGPVATVKFIEKLTSMTDAEIDQDHVRYVLYNDPEIPDRIEAYFENMESPVNAINNGIKYLESIGIDTIGMACTAHIWFKEFVYKSNFLNMIDLTASVLKKSGNVLLLPVIDSDEALAAALIKSAGKRLKKEYRLYDL GKIVGIIGGMGPVATVKFIEKLTSMTDAEIDQDHVRYVLYNDPEIPDRIEAYFENMESPVNAINNGIKYLESIGIDTIGMACNTAHIWFKEFVYKSNFLNMIDLTASVLKKSGFKNVLLLSTNATVSSGIYTGKLRDYNINTVIPDQDIVMKSIHYVKVNDTKMARETIEPVINGHRNEVDALLLACTEMPVIISEKTYNIPVIDSDEALAAALIKSAGKRLKKEYRLYDL 5b1c-a1-m1-cB_5b1c-a1-m2-cB Crystal structure of DEN4 ED3 mutant with L387I P09866 P09866 2.003 X-RAY DIFFRACTION 51 1.0 408871 (Dengue virus 4 Dominica/814669/1981) 408871 (Dengue virus 4 Dominica/814669/1981) 97 97 3we1-a1-m1-cA_3we1-a1-m1-cB 4x42-a1-m1-cA_4x42-a1-m1-cB 4x42-a2-m1-cC_4x42-a2-m1-cD 5b1c-a2-m1-cC_5b1c-a2-m1-cA YTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPLAENTNSVTNIELEPPFGDSYIVIGVGNSALTIHWFRKG YTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPLAENTNSVTNIELEPPFGDSYIVIGVGNSALTIHWFRKG 5b1i-a4-m1-cG_5b1i-a4-m1-cH Crystal structure of K42A mutant of cystathionine beta-synthase from Lactobacillus plantarum in a complex with L-methionine F9UT54 F9UT54 3.3 X-RAY DIFFRACTION 121 1.0 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 303 303 5b1h-a1-m1-cA_5b1h-a1-m1-cC 5b1h-a2-m1-cB_5b1h-a2-m2-cB 5b1h-a3-m1-cD_5b1h-a3-m3-cD 5b1i-a1-m1-cA_5b1i-a1-m1-cB 5b1i-a2-m1-cC_5b1i-a2-m1-cD 5b1i-a3-m1-cE_5b1i-a3-m1-cF MLIQHVQELIGHTPLMALPIEVPNHSHIYAKLEMFNPGGSIADRLGAYLIEDGLQRGRVNAKTTIIEPTAGNTGIGLALATQAHHLRTILVVPEKFSMEKQVLMQALGAEIVHTPSEEGIKGAIRKAEALAATISNSYVPMQFKNPANPAAYYHTLAPEILADMPAPITAFVAGAGSGGTFAGVAAYLQAQDSATKAVVVEPEGSILNGGPAHAHRTEGIGVEFIPPFFDQVRIDQTLTIADNDAFAQVRHLARDHGLLIGSSSGAALAASLQLATNLPANSHIVTIFPDSSERYLSQKIYTK MLIQHVQELIGHTPLMALPIEVPNHSHIYAKLEMFNPGGSIADRLGAYLIEDGLQRGRVNAKTTIIEPTAGNTGIGLALATQAHHLRTILVVPEKFSMEKQVLMQALGAEIVHTPSEEGIKGAIRKAEALAATISNSYVPMQFKNPANPAAYYHTLAPEILADMPAPITAFVAGAGSGGTFAGVAAYLQAQDSATKAVVVEPEGSILNGGPAHAHRTEGIGVEFIPPFFDQVRIDQTLTIADNDAFAQVRHLARDHGLLIGSSSGAALAASLQLATNLPANSHIVTIFPDSSERYLSQKIYTK 5b1j-a1-m1-cA_5b1j-a1-m1-cB Crystal structure of the electron-transfer complex of copper nitrite reductase with a cupredoxin O68601 O68601 3 X-RAY DIFFRACTION 21 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 334 334 DADKLPHTKVTLVAPPQVHPHEQATKSGPKVVEFTMTIEEKKMVIDDKGTTLQAMTFNGSMPGPTLVVHEGDYVQLTLVNPATNAMPHNVDFHGATGALGGAKLTNVNPGEQATLRFKADRSGTFVYHCAPEGMVPWHVVSGMSGTLMVLPRDGLKDPQGKPLHYDRAYTIGEFDLYIPKGPDGKYKDYATLAESYGDTVQVMRTLTPSHIVFNGKVGALTGANALTAKVGETVLLIHSQANRDTRPHLIGGHGDWVWETGKFANPPQRDLETWFIRGGSAGAALYTFKQPGVYAYLNHNLIEAFELGAAGHIKVEGKWNDDLMKQIKAPAPIP DADKLPHTKVTLVAPPQVHPHEQATKSGPKVVEFTMTIEEKKMVIDDKGTTLQAMTFNGSMPGPTLVVHEGDYVQLTLVNPATNAMPHNVDFHGATGALGGAKLTNVNPGEQATLRFKADRSGTFVYHCAPEGMVPWHVVSGMSGTLMVLPRDGLKDPQGKPLHYDRAYTIGEFDLYIPKGPDGKYKDYATLAESYGDTVQVMRTLTPSHIVFNGKVGALTGANALTAKVGETVLLIHSQANRDTRPHLIGGHGDWVWETGKFANPPQRDLETWFIRGGSAGAALYTFKQPGVYAYLNHNLIEAFELGAAGHIKVEGKWNDDLMKQIKAPAPIP 5b1q-a1-m1-cA_5b1q-a1-m1-cB Human herpesvirus 6B tegument protein U14 Q9WT50 Q9WT50 1.85 X-RAY DIFFRACTION 261 1.0 32604 (Human betaherpesvirus 6B) 32604 (Human betaherpesvirus 6B) 448 448 NIPTFVLDENCNFIPDVLSRANAKFIKEVLIRDSYNAVCLANSFIPMATQTVEQILIIITKFKFSRSRDLLMSVFRLGVHINRFYAGKNQVKHMITMMKSLFDTEEAMRQLDRALMGLFVDARDNSYMPLIALSLHENGLPDSKFIKAVRLIQTTVNSFHNRPDADIEQYAEKLRAYNYLYKIPKYTLKEAVDIYSDNLKDLTIGVNKKPTLLFTSSDDAYLSHIYNDLLFLTSTWNMIYNCKKEIRRLNTWIKYEINSIMETAVLVGFQLPDLKETILDLAALISNMNLVSPDKELFPHYKLILAKLFEICIFATKANICILPSFIKGHLIEFEDVLKRSNDDEDLNYLLLKSRDSDDEYDEDKPPIQVDPGRVDNVLTDSDFFNVTPENAFSSIAIMPISYDKTIDVEDNEIQVLEVEMQSLSAVVYGAVASKYGLSLEQVIRKLN NIPTFVLDENCNFIPDVLSRANAKFIKEVLIRDSYNAVCLANSFIPMATQTVEQILIIITKFKFSRSRDLLMSVFRLGVHINRFYAGKNQVKHMITMMKSLFDTEEAMRQLDRALMGLFVDARDNSYMPLIALSLHENGLPDSKFIKAVRLIQTTVNSFHNRPDADIEQYAEKLRAYNYLYKIPKYTLKEAVDIYSDNLKDLTIGVNKKPTLLFTSSDDAYLSHIYNDLLFLTSTWNMIYNCKKEIRRLNTWIKYEINSIMETAVLVGFQLPDLKETILDLAALISNMNLVSPDKELFPHYKLILAKLFEICIFATKANICILPSFIKGHLIEFEDVLKRSNDDEDLNYLLLKSRDSDDEYDEDKPPIQVDPGRVDNVLTDSDFFNVTPENAFSSIAIMPISYDKTIDVEDNEIQVLEVEMQSLSAVVYGAVASKYGLSLEQVIRKLN 5b1y-a1-m1-cA_5b1y-a1-m1-cB Crystal structure of NADPH bound carbonyl reductase from Aeropyrum pernix Q9Y8Y1 Q9Y8Y1 2.09 X-RAY DIFFRACTION 120 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 234 243 METTYALVTGGSRGIGRATVLRFAREGWSVVIAYKSRADLAEKTAEEARRLGSPEAYTVRVDVGDPDSVTEMSSRVGELIPHLNVLVNAAGVLQLGGIEETSISEWEETLRVNLTGVYLVTKLLLPLLRKAKWASIVNVASIAGETGNVVAGVAYSASKAGVIGLTKRLAVQLAGYGIRVNAVAPSFVETDMLHPLKIILKPEDVAEAILFLADPRRSRGITGHVLSINAGRRT METTYALVTGGSRGIGRATVLRFAREGWSVVIAYKSRADLAEKTAEEARRLGSPEAYTVRVDVGDPDSVTEMSSRVGELIPHLNVLVNAAGVLQLGGIEETSISEWEETLRVNLTGVYLVTKLLLPLLRKAKWASIVNVASIAGETGNVVAGVAYSASKAGVIGLTKRLAVQLAGYGIRVNAVAPSFVETDMTRSFLRIASLHPLKIILKPEDVAEAILFLADPRRSRGITGHVLSINAGRRT 5b22-a1-m1-cA_5b22-a1-m1-cB Dimer structure of murine Nectin-3 D1D2 Q9JLB9 Q9JLB9 2.58 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 209 211 4fom-a1-m1-cA_4fom-a1-m2-cA PSIIVEPHVTAVWGKNVSLKCLIEVNETITQISWEKIHGKSTQTVAVHHPQYGFSVQGDYQGRVLFKNYSLNDATITLHNIGFSDSGKYICKAVTFPLGNAQSSTTVTVLVEPTVSLIKGPDSLIDGGNETVAAVCVAATGKPVAQIDWEGDLGEMESSTTSFPNETATIVSQYKLFPTRFARGRRITCVVKHPALEKDIRYSFILDIQ PSIIVEPHVTAVWGKNVSLKCLIEVNETITQISWEKIHGKSTQTVAVHHPQYGFSVQGDYQGRVLFKNYSLNDATITLHNIGFSDSGKYICKAVTFPLGNAQSSTTVTVLVEPTVSLIKGPDSLIDGGNETVAAVCVAATGKPVAQIDWEGDLGEMESSTTSFPNETATIVSQYKLFPTRFARGRRITCVVKHPALEKDIRYSFILDIQHH 5b26-a2-m1-cC_5b26-a2-m1-cD Crystal structure of mouse SEL1L Q9Z2G6 Q9Z2G6 2.6 X-RAY DIFFRACTION 74 1.0 10090 (Mus musculus) 10090 (Mus musculus) 171 173 5b26-a1-m1-cB_5b26-a1-m1-cA LEEDLIQYYQFLAEKGDVQAQVGLGQLHLHGGRGVEQNHQRAFDYFNLAANAGNSHAMAFLGKMYSEGIVPQSNETALHYFKKAADMGNPVGQSGLGMAYLYGRGVQVNYDLALKYFQKAAEQGWVDGQLQLGSMYYNGIGVKRDYKQALKYFNLASQGGHILAFYNLAQM LEEDLIQYYQFLAEKGDVQAQVGLGQLHLHGGRGVEQNHQRAFDYFNLAANAGNSHAMAFLGKMYSEGSDIVPQSNETALHYFKKAADMGNPVGQSGLGMAYLYGRGVQVNYDLALKYFQKAAEQGWVDGQLQLGSMYYNGIGVKRDYKQALKYFNLASQGGHILAFYNLAQM 5b2h-a1-m1-cA_5b2h-a1-m1-cB Crystal structure of HA33 from Clostridium botulinum serotype C strain Yoichi Q93HT5 Q93HT5 2.2 X-RAY DIFFRACTION 63 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 283 283 QTNANDLRNNEVFFISPSNNTNKVLDKISQSEVKLWNKLSGANQKWRLIYDTNKQAYKIKVMDNTSLILTWNAPLSSVSVKTDTNGDNQYWYLLQNYISRNVIIRNYMNPNLVLQYNIDDTLMVSTQTSSSNQFFKFSNCIYESFNNSTCKIQTSLTIKFIDKNQNSNNVTIWSWNNGDNQKWKILYNESKMAYTLTCIKNNEYLTWFSSIGNNVGTYRTEGNNDQYWFINYLNNDASMYTISNFSNQSKFLDVVNSGLADGTNVQVWDSNGTSAQKWIITRL QTNANDLRNNEVFFISPSNNTNKVLDKISQSEVKLWNKLSGANQKWRLIYDTNKQAYKIKVMDNTSLILTWNAPLSSVSVKTDTNGDNQYWYLLQNYISRNVIIRNYMNPNLVLQYNIDDTLMVSTQTSSSNQFFKFSNCIYESFNNSTCKIQTSLTIKFIDKNQNSNNVTIWSWNNGDNQKWKILYNESKMAYTLTCIKNNEYLTWFSSIGNNVGTYRTEGNNDQYWFINYLNNDASMYTISNFSNQSKFLDVVNSGLADGTNVQVWDSNGTSAQKWIITRL 5b37-a2-m1-cC_5b37-a2-m3-cF Crystal structure of L-tryptophan dehydrogenase from Nostoc punctiforme W8CV45 W8CV45 3.4 X-RAY DIFFRACTION 61 0.991 1356359 (Nostoc punctiforme NIES-2108) 1356359 (Nostoc punctiforme NIES-2108) 333 334 5b37-a1-m1-cA_5b37-a1-m2-cB 5b37-a3-m1-cD_5b37-a3-m4-cE LLFETVREMGHEQVLFCHSKNPEIKAIIAIHDTTLGPAMGATRILPYINEEAALKDALRLSRGMTYKAACANIPAGGGKAVIIANPENKTDDLLRAYGRFVDSLNGRFITGQDVNITPDDVRTISQETKYVVPAPITSLGVFLGIKAAVESRWQSKRLDGMKVAVQGLGNVGKNLCRHLHEHDVQLFVSPIKAEEVKRLFGATVVEPTEIYSLDVDIFAPCALGGILNSHTIPFLQASIIAGAANNQLENEQLHSQMLAKKGILYSPDYVINAGGLINVYNEMIGYDEEKAFKQVHNIYDTLLAIFEIAKEQGVTTNDAARRLAEDRINNSKR LFETVREMGHEQVLFCHSKNPEIKAIIAIHDTTLGPAMGATRILPYINEEAALKDALRLSRGMTYKAACANIPAGGGKAVIIANNKTDDLLRAYGRFVDSLNGRFITGQDVNITPDDVRTISQETKYVVPAPITSLGVFLGIKAAVESRWQSKRLDGMKVAVQGLGNVGKNLCRHLHEHDVQLFVSDVDPIKAEEVKRLFGATVVEPTEIYSLDVDIFAPCALGGILNSHTIPFLQASIIAGAANNQLENEQLHSQMLAKKGILYSPDYVINAGGLINVYNEMIGYDEEKAFKQVHNIYDTLLAIFEIAKEQGVTTNDAARRLAEDRINNSKRS 5b3d-a6-m1-cD_5b3d-a6-m1-cC Structure of a flagellar type III secretion chaperone, FlgN P0A1J7 P0A1J7 2.3 X-RAY DIFFRACTION 215 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 107 112 TRLSEILDQTTVLNDLKTVDAEQQQLSVGQINGSQLQRITEEKSSLLATLDYLEQQRRLEQNNDDIAERWQAITEKTQHLRDLNQHNGWLLEGQIERNQQALEVLKP TRLSEILDQTTVLNDLKTVDAEQQQLSVGQINGSQLQRITEEKSSLLATLDYLEQQRRLEQNAQRSANDDIAERWQAITEKTQHLRDLNQHNGWLLEGQIERNQQALEVLKP 5b3f-a1-m1-cA_5b3f-a1-m1-cB Crystal structure of phosphoribulokinase from Methanospirillum hungatei Q2FUB5 Q2FUB5 2.5 X-RAY DIFFRACTION 120 0.99 323259 (Methanospirillum hungatei JF-1) 323259 (Methanospirillum hungatei JF-1) 306 306 NFREVIRHSPLVYLIGVAGDSGSGKSTFTRAISDIFGEELVSSITVDDYHLYDRKTRSEMGITPLLHTANNLKLLEENLMDLKAGRTIQKPVYLHDHGTFGEPELFSPTKFIIIEGLHPYATKSLRALYDYTIFVDPERDVKYDWKIRRDNEVLREILQREPDYFQYVFPQREVADAVIQISYSSYGKEEGEKRNVYRVMLSMPAQEYCFEDIELNIDLCDLFKKSSHDFSLSCISHTPDSRNMRALVVDGELMPDTIHKIERQIEFQTGISPINIFRGQEHITGTDLVRLILSWQIINGRIALSN QPENFREVIRHSPLVYLIGVAGDSGSGKSTFTRAISDIFGEELVSSITVDDYHLYDRKTRSEMGITPLLHTANNLKLLEENLMDLKAGRTIQKPVYLGTFGEPELFSPTKFIIIEGLHPYATKSLRALYDYTIFVDPERDVKYDWKIRRDNEVLREILQREPDYFQYVFPQREVADAVIQISYSSYGKEEGEKRNVYRVMLSMPAQEYCFEDIELNIDLCDLFKKSSHDFSLSCISHTPDSRNMRALVVDGELMPDTIHKIERQIEFQTGISPINIFRGQEHITGTDLVRLILSWQIINGRIALSN 5b46-a1-m1-cA_5b46-a1-m2-cA 2-Oxoacid:Ferredoxin Oxidoreductase 2 from Sulfolobus tokodai - ligand free form Q96XT2 Q96XT2 2.1 X-RAY DIFFRACTION 249 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 627 627 5b47-a1-m1-cA_5b47-a1-m2-cA TRIVWMIGGAQGLGVDTSANIFGNAVAKAGYYLFGNREYYSNIKGRHSYFEVVISEKPIRSLSSYVNILASFDAETVFQHFTETKEYLIYNVEYENTTVDLVKSMEPEMAEQVKEALSKERLGFTIKDVLEYLKRRGVKVIGFNYTELIKKIADTFKVPMSVVERAKNMIAVGASYGLLGLKFDYLKDAISSTFKNELFIKFNTMAAELGYNSVPNVYKLQEYKIEKQRIQVDGNTISAMGKLAGGLRFQSYYPITPASDESVYIEANQNLDMIVEGNELRKGGVVVVQAEDELAAINMAVGAALTGVRSATATSGPGFSLMSEGISWAGMNEVPVVITYYMRGAPATGLPTRSGQADLKFALNVGHGEFPRIVIASGDHVEIFWDAIWALNLAEKYQTPVIHIIEKTLANAYSVFEEELITNRPYVIERGKIVKPTSDYFNRFEVTEDGISPRVFLGQASIFYTGDEHNEEGHITENSINRMKMYEKRNKKLETADKEIPEEQRVNIVGDADIVLLTWGSPKGAILDAMEELSKDGIKTMMVQVKMFNPYPKNLMKKILSGKSKIIAVENNYNAQGAEVLAEKTGIFATNYILKWTGRPITREEVIEGIKKILERDEKRVVLYGGA TRIVWMIGGAQGLGVDTSANIFGNAVAKAGYYLFGNREYYSNIKGRHSYFEVVISEKPIRSLSSYVNILASFDAETVFQHFTETKEYLIYNVEYENTTVDLVKSMEPEMAEQVKEALSKERLGFTIKDVLEYLKRRGVKVIGFNYTELIKKIADTFKVPMSVVERAKNMIAVGASYGLLGLKFDYLKDAISSTFKNELFIKFNTMAAELGYNSVPNVYKLQEYKIEKQRIQVDGNTISAMGKLAGGLRFQSYYPITPASDESVYIEANQNLDMIVEGNELRKGGVVVVQAEDELAAINMAVGAALTGVRSATATSGPGFSLMSEGISWAGMNEVPVVITYYMRGAPATGLPTRSGQADLKFALNVGHGEFPRIVIASGDHVEIFWDAIWALNLAEKYQTPVIHIIEKTLANAYSVFEEELITNRPYVIERGKIVKPTSDYFNRFEVTEDGISPRVFLGQASIFYTGDEHNEEGHITENSINRMKMYEKRNKKLETADKEIPEEQRVNIVGDADIVLLTWGSPKGAILDAMEELSKDGIKTMMVQVKMFNPYPKNLMKKILSGKSKIIAVENNYNAQGAEVLAEKTGIFATNYILKWTGRPITREEVIEGIKKILERDEKRVVLYGGA 5b46-a1-m1-cB_5b46-a1-m2-cB 2-Oxoacid:Ferredoxin Oxidoreductase 2 from Sulfolobus tokodai - ligand free form Q96XT4 Q96XT4 2.1 X-RAY DIFFRACTION 82 1.0 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 301 301 5b47-a1-m1-cB_5b47-a1-m2-cB RKPVFVDWCPGCGDFGILRAEEMAIRELGINPKSVVIVSGIGCSGKIPHFMNLPISGVHTLHGRSIAFATGIKLSNPSLEVIVNVGDGDGLGIGMGHFVHLGRRNIDIAVLVHNNGVYGLTKGQASPTLHRGEKTKSLPKPNIMDAVNPLAVALAAGYTFVARGYAYDVMHLKELIKKAILHKGSALVDILQPCPTYNDINTKEWYDKRVYKLDNVPGWDPVVRKEEEAQKKFEQAIMKSYEWGEKIPIGIFYQNELVPTFEDRLTSNIPNYREYYPAKQQIEINGISTTKIDELIKAKRI RKPVFVDWCPGCGDFGILRAEEMAIRELGINPKSVVIVSGIGCSGKIPHFMNLPISGVHTLHGRSIAFATGIKLSNPSLEVIVNVGDGDGLGIGMGHFVHLGRRNIDIAVLVHNNGVYGLTKGQASPTLHRGEKTKSLPKPNIMDAVNPLAVALAAGYTFVARGYAYDVMHLKELIKKAILHKGSALVDILQPCPTYNDINTKEWYDKRVYKLDNVPGWDPVVRKEEEAQKKFEQAIMKSYEWGEKIPIGIFYQNELVPTFEDRLTSNIPNYREYYPAKQQIEINGISTTKIDELIKAKRI 5b48-a1-m1-cD_5b48-a1-m1-cB 2-Oxoacid:Ferredoxin Oxidoreductase 1 from Sulfolobus tokodai Q96Y68 Q96Y68 2.5 X-RAY DIFFRACTION 88 0.991 273063 (Sulfurisphaera tokodaii str. 7) 273063 (Sulfurisphaera tokodaii str. 7) 231 286 NFGILNAEQQAIVELGVDTKNVVVVSGIRTPISGVHTLHGRAIAFATGIKLSNPDLVVIVNGGDGDLLGIGAGHFVAAGRRNVDMVVILHDNDAVNPIALAISSGYTFVARGYAYDVKHLKELIKSAIKHKGLALIDVLQRIYKLDTLPDWDPVVKKPEEVNEKIKRAIDKSLEWRIPIGIFYQNELVPSYEERIKANSPAYLDYTPAKQLIEKEGKLTTIIDPLLKEREV TPQWNDWCPGCGNFGILNAEQQAIVELGVDTKNVVVVSGIGCSGKIPHFTPISGVHTLHGRAIAFATGIKLSNPDLVVIVNGGDGDLLGIGAGHFVAAGRRNVDMVVILHDNGVYGLTKGQASPTLKRGENINDAVNPIALAISSGYTFVARGYAYDVKHLKELIKSAIKHKGLALIDVLQPCPTYNDINTKEWRIYKLDTLPDWDPVVKKPEEVNEKIKRAIDKSLEWGDIPIGIFYQNELVPSYEERIKANSPAYLDYTPAKQLIEKEGKLTTIIDPLLKEREV 5b4n-a1-m1-cA_5b4n-a1-m1-cB Structure analysis of function associated loop mutant of substrate recognition domain of Fbs1 ubiquitin ligase Q80UW2 Q80UW2 2.3 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 174 174 RNLLRNPCGEEDLEGWSLDVNGGDGWKVEELSRDQRKEFPNDQVKKYFVTSYYTCRKAQVIDLQAEGYWEELLDTTQPAIVVKDWYSGRPDCGSKYQLTVRLLSENEDVLAEFQPDPATIQQKSDAKWREISHTFIDYGPGVRFVRFEHGGVDTHYWAGWYGPRVTNSSVWVEP RNLLRNPCGEEDLEGWSLDVNGGDGWKVEELSRDQRKEFPNDQVKKYFVTSYYTCRKAQVIDLQAEGYWEELLDTTQPAIVVKDWYSGRPDCGSKYQLTVRLLSENEDVLAEFQPDPATIQQKSDAKWREISHTFIDYGPGVRFVRFEHGGVDTHYWAGWYGPRVTNSSVWVEP 5b4t-a1-m1-cA_5b4t-a1-m4-cA Crystal structure of D-3-hydroxybutyrate dehydrogenase from Alcaligenes faecalis complexed with NAD+ and a substrate D-3-hydroxybutyrate D0VWQ0 D0VWQ0 1.19 X-RAY DIFFRACTION 10 1.0 511 (Alcaligenes faecalis) 511 (Alcaligenes faecalis) 260 260 2yz7-a1-m1-cA_2yz7-a1-m1-cC 2yz7-a1-m1-cB_2yz7-a1-m1-cD 2yz7-a2-m1-cE_2yz7-a2-m1-cG 2yz7-a2-m1-cF_2yz7-a2-m1-cH 3vdq-a1-m1-cA_3vdq-a1-m1-cC 3vdq-a1-m1-cB_3vdq-a1-m1-cD 3vdr-a1-m1-cA_3vdr-a1-m1-cC 3vdr-a1-m1-cB_3vdr-a1-m1-cD 3w8d-a1-m1-cA_3w8d-a1-m3-cA 3w8d-a1-m2-cA_3w8d-a1-m4-cA 3w8e-a1-m1-cA_3w8e-a1-m4-cA 3w8e-a1-m2-cA_3w8e-a1-m3-cA 3w8f-a1-m1-cA_3w8f-a1-m4-cA 3w8f-a1-m2-cA_3w8f-a1-m3-cA 5b4t-a1-m2-cA_5b4t-a1-m3-cA 5b4u-a1-m1-cA_5b4u-a1-m4-cA 5b4u-a1-m2-cA_5b4u-a1-m3-cA 5b4v-a1-m1-cA_5b4v-a1-m3-cA 5b4v-a1-m2-cA_5b4v-a1-m4-cA MLKGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDIERERSTLESKFGVKAYYLNADLSDAQATRDFIAKAAEALGGLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGVVGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGIDIEAAARELLAEKQPSLQFVTPEQLGGAAVFLSSAAADQMTGTTLSLDGGWTAR MLKGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDIERERSTLESKFGVKAYYLNADLSDAQATRDFIAKAAEALGGLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGVVGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGIDIEAAARELLAEKQPSLQFVTPEQLGGAAVFLSSAAADQMTGTTLSLDGGWTAR 5b4t-a1-m2-cA_5b4t-a1-m4-cA Crystal structure of D-3-hydroxybutyrate dehydrogenase from Alcaligenes faecalis complexed with NAD+ and a substrate D-3-hydroxybutyrate D0VWQ0 D0VWQ0 1.19 X-RAY DIFFRACTION 126 1.0 511 (Alcaligenes faecalis) 511 (Alcaligenes faecalis) 260 260 2yz7-a1-m1-cA_2yz7-a1-m1-cB 2yz7-a1-m1-cC_2yz7-a1-m1-cD 2yz7-a2-m1-cE_2yz7-a2-m1-cF 2yz7-a2-m1-cG_2yz7-a2-m1-cH 3vdq-a1-m1-cA_3vdq-a1-m1-cB 3vdq-a1-m1-cC_3vdq-a1-m1-cD 3vdr-a1-m1-cA_3vdr-a1-m1-cB 3vdr-a1-m1-cC_3vdr-a1-m1-cD 3w8d-a1-m1-cA_3w8d-a1-m4-cA 3w8d-a1-m2-cA_3w8d-a1-m3-cA 3w8e-a1-m1-cA_3w8e-a1-m3-cA 3w8e-a1-m2-cA_3w8e-a1-m4-cA 3w8f-a1-m1-cA_3w8f-a1-m3-cA 3w8f-a1-m2-cA_3w8f-a1-m4-cA 5b4t-a1-m1-cA_5b4t-a1-m3-cA 5b4u-a1-m1-cA_5b4u-a1-m3-cA 5b4u-a1-m2-cA_5b4u-a1-m4-cA 5b4v-a1-m1-cA_5b4v-a1-m4-cA 5b4v-a1-m2-cA_5b4v-a1-m3-cA MLKGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDIERERSTLESKFGVKAYYLNADLSDAQATRDFIAKAAEALGGLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGVVGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGIDIEAAARELLAEKQPSLQFVTPEQLGGAAVFLSSAAADQMTGTTLSLDGGWTAR MLKGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDIERERSTLESKFGVKAYYLNADLSDAQATRDFIAKAAEALGGLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGVVGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGIDIEAAARELLAEKQPSLQFVTPEQLGGAAVFLSSAAADQMTGTTLSLDGGWTAR 5b4t-a1-m3-cA_5b4t-a1-m4-cA Crystal structure of D-3-hydroxybutyrate dehydrogenase from Alcaligenes faecalis complexed with NAD+ and a substrate D-3-hydroxybutyrate D0VWQ0 D0VWQ0 1.19 X-RAY DIFFRACTION 125 1.0 511 (Alcaligenes faecalis) 511 (Alcaligenes faecalis) 260 260 2yz7-a1-m1-cA_2yz7-a1-m1-cD 2yz7-a1-m1-cB_2yz7-a1-m1-cC 2yz7-a2-m1-cE_2yz7-a2-m1-cH 2yz7-a2-m1-cF_2yz7-a2-m1-cG 3vdq-a1-m1-cA_3vdq-a1-m1-cD 3vdq-a1-m1-cB_3vdq-a1-m1-cC 3vdr-a1-m1-cA_3vdr-a1-m1-cD 3vdr-a1-m1-cB_3vdr-a1-m1-cC 3w8d-a1-m1-cA_3w8d-a1-m2-cA 3w8d-a1-m3-cA_3w8d-a1-m4-cA 3w8e-a1-m1-cA_3w8e-a1-m2-cA 3w8e-a1-m3-cA_3w8e-a1-m4-cA 3w8f-a1-m1-cA_3w8f-a1-m2-cA 3w8f-a1-m3-cA_3w8f-a1-m4-cA 5b4t-a1-m1-cA_5b4t-a1-m2-cA 5b4u-a1-m1-cA_5b4u-a1-m2-cA 5b4u-a1-m3-cA_5b4u-a1-m4-cA 5b4v-a1-m1-cA_5b4v-a1-m2-cA 5b4v-a1-m3-cA_5b4v-a1-m4-cA MLKGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDIERERSTLESKFGVKAYYLNADLSDAQATRDFIAKAAEALGGLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGVVGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGIDIEAAARELLAEKQPSLQFVTPEQLGGAAVFLSSAAADQMTGTTLSLDGGWTAR MLKGKKAVVTGSTSGIGLAMATELAKAGADVVINGFGQPEDIERERSTLESKFGVKAYYLNADLSDAQATRDFIAKAAEALGGLDILVNNAGIQHTAPIEEFPVDKWNAIIALNLSAVFHGTAAALPIMQKQGWGRIINIASAHGLVASVNKSAYVAAKHGVVGLTKVTALENAGKGITCNAICPGWVRTPLVEKQIEAISQQKGIDIEAAARELLAEKQPSLQFVTPEQLGGAAVFLSSAAADQMTGTTLSLDGGWTAR 5b52-a1-m1-cA_5b52-a1-m1-cB Crystal structure of the N-terminal domain of H-NS family protein TurB Q88GF9 Q88GF9 2.3 X-RAY DIFFRACTION 44 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 57 60 LAEFAAAEKALQEQMAQLEALKKDAGLKREIEFEQKLVGLMKSYDKSLRDIIAILDP RLAEFAAAEKALQEQMAQLEALKKDAGLKREIEFEQKLVGLMKSYDKSLRDIIAILDPKL 5b53-a1-m1-cA_5b53-a1-m2-cA Crystal structure of hydrogen sulfide-producing enzyme (Fn1055) from Fusobacterium nucleatum Q8REP3 Q8REP3 2.91 X-RAY DIFFRACTION 110 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 334 334 EQKKMKYLENLVGKTPMLELIFDYKGEERRIFVKNESYNLTGSIKDRMAFYTLKKAYEKNEIKKGAPIVEATSGNTGIAFSAMGAILGHPVIIYMPDWMSEERKSLIRSFGAKIILVSRKEGGFLGSIEKTKEFAKNNPDTYLPSQFSNLYNSEAHYYGIGLEIVNEMKSLNLNIDGFVAGVGTGGTVMGIGKRIKENFSNAKICPLEPLNSPTLSTGYKVAKHRIEGISDEFIPDLVKLDKLDNVVSVDDGDAIVMAQKLAKCGLGVGISSGANFIGALMLQNKLGKDSVIVTVFPDDNKKYLSTDLMREEKVKEDFLSKDITLKEIKNVLRV EQKKMKYLENLVGKTPMLELIFDYKGEERRIFVKNESYNLTGSIKDRMAFYTLKKAYEKNEIKKGAPIVEATSGNTGIAFSAMGAILGHPVIIYMPDWMSEERKSLIRSFGAKIILVSRKEGGFLGSIEKTKEFAKNNPDTYLPSQFSNLYNSEAHYYGIGLEIVNEMKSLNLNIDGFVAGVGTGGTVMGIGKRIKENFSNAKICPLEPLNSPTLSTGYKVAKHRIEGISDEFIPDLVKLDKLDNVVSVDDGDAIVMAQKLAKCGLGVGISSGANFIGALMLQNKLGKDSVIVTVFPDDNKKYLSTDLMREEKVKEDFLSKDITLKEIKNVLRV 5b57-a1-m1-cB_5b57-a1-m1-cA Inward-facing conformation of ABC heme importer BhuUV from Burkholderia cenocepacia B4EKB4 B4EKB4 2.8 X-RAY DIFFRACTION 118 0.997 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 328 330 5b58-a1-m1-cA_5b58-a1-m1-cB SRRFAPFVLAALAILMGAMSVVALCVGAYRIPLAEAWAALSGDPAAQQARAVLLDIRAPRVVLALLVGGGFGATGAAMQALFRNPLADPGLVGVSSGAALGATTLIVLGHASAAALPVAAFAGGLAVAALVYRLAASRGRLALPLLLLAGIAINALVGAAIGLLTFVADDAQLRSLTFWSLGSLGGAQWPTLAAVAPCVALGGVLLVRERDALNALQLGETEALHLGVPVQRLKRRVLVAVALAVGALVSCAGIIGFIGLVAPHCVRLACGPDQRIVLPGAALLGALLTLAADLAARTVAAPADIPLGVLTALLGAPFFLALLWKNRG TSRRFAPFVLAALAILMGAMSVVALCVGAYRIPLAEAWAALSGDPAAQQARAVLLDIRAPRVVLALLVGGGFGATGAAMQALFRNPLADPGLVGVSSGAALGATTLIVLGPASAAALPVAAFAGGLAVAALVYRLAASRGRLALPLLLLAGIAINALVGAAIGLLTFVADDAQLRSLTFWSLGSLGGAQWPTLAAVAPCVALGGVLLVRERDALNALQLGETEALHLGVPVQRLKRRVLVAVALAVGALVSCAGIIGFIGLVAPHCVRLACGPDQRIVLPGAALLGALLTLAADLAARTVAAPADIPLGVLTALLGAPFFLALLWKNRGA 5b57-a1-m1-cD_5b57-a1-m1-cC Inward-facing conformation of ABC heme importer BhuUV from Burkholderia cenocepacia B4EKB5 B4EKB5 2.8 X-RAY DIFFRACTION 58 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 252 260 5b58-a1-m1-cD_5b58-a1-m1-cC MLTAHHLDVAGTILRDLSLSIEPGRVTALLGRNGAGKSTLLKTFAGELTGSVGVRVTGDVTLNGEPLARIDAPRLACLRAVLPQAAQPAFPFSVDEIVLLGRYPHASHRDRDIAWRALERAGADALVGRDVTTLSGGELARVQFARVLAQLWPDHPRYLLLDEPTAALDLAHQHRLLDTVRAVAREWQLGVLAIVHDPNLAARHADAIAMLADGTIVAHGAPRDVMTPAHIAQCYGFAVKMVETGPPVMVPA MLTAHHLDVAHGTILRDLSLSIEPGRVTALLGRNGAGKSTLLKTFAGELTGSVAGVRVTGDVTLNGEPLARIDAPRLACLRAVLPQAAQPAFPFSVDEIVLLGRYPHARRSGATSHRDRDIAWRALERAGADALVGRDVTTLSGGELARVQFARVLAQLWPDHPRYLLLDEPTAALDLAHQHRLLDTVRAVAREWQLGVLAIVHDPNLAARHADAIAMLADGTIVAHGAPRDVMTPAHIAQCYGFAVKMVETGPPVMVPA 5b5i-a1-m1-cA_5b5i-a1-m1-cB The crystal structure of a crustacean hyperglycemic hormone precursor from the kuruma prawn O15980 O15980 1.599 X-RAY DIFFRACTION 71 1.0 27405 (Penaeus japonicus) 27405 (Penaeus japonicus) 67 68 SLFDPSCTGVFDRQLLRRLGRVCDDCFNVFREPNVATECRSNCYNNPVFRQCMAYVVPAHLHNEHRE SLFDPSCTGVFDRQLLRRLGRVCDDCFNVFREPNVATECRSNCYNNPVFRQCMAYVVPAHLHNEHREA 5b5x-a1-m1-cA_5b5x-a1-m2-cA Crystal structure of limiting CO2-inducible protein LCIC Q75NZ1 Q75NZ1 2.511 X-RAY DIFFRACTION 98 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 225 225 ILRYFPTALGVDDFMARTEIVLGGFGFTGDNTIAMTNLCRDEVTQVVKDKIEAAFGSSFNTNGLGAVLTCGVTGMKAGLSRERYVFFAFPHIAINACGALQKCLVELKAEGVDAAVRAPGLHDPIEPEYSILKQRLARRIRYEKLDPQLMDLPSLTALAERTISDDLEYLIEKAVNPATSDYAVITGVEIHNMEFIAPTKAYVVVNGVKTHLDLMMVPPMSFRQL ILRYFPTALGVDDFMARTEIVLGGFGFTGDNTIAMTNLCRDEVTQVVKDKIEAAFGSSFNTNGLGAVLTCGVTGMKAGLSRERYVFFAFPHIAINACGALQKCLVELKAEGVDAAVRAPGLHDPIEPEYSILKQRLARRIRYEKLDPQLMDLPSLTALAERTISDDLEYLIEKAVNPATSDYAVITGVEIHNMEFIAPTKAYVVVNGVKTHLDLMMVPPMSFRQL 5b5z-a1-m1-cA_5b5z-a1-m1-cB Crystal structure of PtLCIB4 H88A mutant, a homolog of the limiting CO2-inducible protein LCIB B7FR29 B7FR29 1.6 X-RAY DIFFRACTION 156 1.0 2850 (Phaeodactylum tricornutum) 2850 (Phaeodactylum tricornutum) 240 240 5b5y-a1-m1-cA_5b5y-a1-m1-cB 5b60-a1-m1-cA_5b60-a1-m2-cA NVTLTAVKKAFPDALTNAELVAMVSKRLSQFGYHKYNTLLATSLCSDEVTRPLEQDFGEVYGKHFTMGGLAGFPFGGLTGFGAMAGAIPDGGSCLLIYGSHVGVSWEGKWGTVARRGREKGGACCGSAVAAAQAVTQAYQATPLDAQQGYVRDMLRPYAATLSEAEDVMVTLPVSVYDAQQKLVTRILDEGSNHIDGDGQIAVVGGIQINTPKEMSDFFVVRRFCIRDSSGNMVENFMPL NVTLTAVKKAFPDALTNAELVAMVSKRLSQFGYHKYNTLLATSLCSDEVTRPLEQDFGEVYGKHFTMGGLAGFPFGGLTGFGAMAGAIPDGGSCLLIYGSHVGVSWEGKWGTVARRGREKGGACCGSAVAAAQAVTQAYQATPLDAQQGYVRDMLRPYAATLSEAEDVMVTLPVSVYDAQQKLVTRILDEGSNHIDGDGQIAVVGGIQINTPKEMSDFFVVRRFCIRDSSGNMVENFMPL 5b6a-a1-m1-cA_5b6a-a1-m2-cA Structure of Pyridoxal Kinasefrom Pseudomonas Aeruginosa Q9HT57 Q9HT57 2 X-RAY DIFFRACTION 126 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 288 288 MPRTPHLLAIQSHVVFGHAGNAAAVFPMQRIGINVWPLNTVQFSNHTQYGRWTGQVLPPEQIPALVDGIAGIGELGNCDAVLSGYLGSAAQGRAILDVVARIKQANPRALYLCDPVMGHPEKGCIVAPEVSDFLLEEAAAVADYLCPNQLELDSFCDRQPNSLADCVEMARSLLARGPRAILVKHLNYPGKAGDTFEMLLVAADQAWHLQRPLLAFPRQPVGVGDLASGLFLSRLLLGDDLRNAFEFTGAAVHEVLLETQACGSYELELVRAQDRIAHPRVRFDAVRL MPRTPHLLAIQSHVVFGHAGNAAAVFPMQRIGINVWPLNTVQFSNHTQYGRWTGQVLPPEQIPALVDGIAGIGELGNCDAVLSGYLGSAAQGRAILDVVARIKQANPRALYLCDPVMGHPEKGCIVAPEVSDFLLEEAAAVADYLCPNQLELDSFCDRQPNSLADCVEMARSLLARGPRAILVKHLNYPGKAGDTFEMLLVAADQAWHLQRPLLAFPRQPVGVGDLASGLFLSRLLLGDDLRNAFEFTGAAVHEVLLETQACGSYELELVRAQDRIAHPRVRFDAVRL 5b6b-a2-m1-cE_5b6b-a2-m1-cL Complex of LATS1 and phosphomimetic MOB1b Q8BYR2 Q8BYR2 3.536 X-RAY DIFFRACTION 38 0.986 10090 (Mus musculus) 10090 (Mus musculus) 71 72 5b6b-a1-m1-cC_5b6b-a1-m1-cJ 5b6b-a3-m1-cI_5b6b-a3-m1-cG QSYSPQAFKFFMEQHVENVLKSHQQRLHRKKQLENEMMRVGLSQDAQDQMRKMLCQKESNYIRLKRAKMDK RIQSYSPQAFKFFMEQHVENVLKSHQQRLHRKKQLENEMMRVGLSQDAQDQMRKMLCQKESNYIRLKRAKMD 5b6d-a1-m1-cA_5b6d-a1-m1-cB Crystal Structure of cytidine monophosphate hydroxymethylase MilA with CMP B4Y380 B4Y380 1.65 X-RAY DIFFRACTION 160 1.0 504097 (Streptomyces rimofaciens) 504097 (Streptomyces rimofaciens) 316 317 5b6e-a1-m1-cB_5b6e-a1-m1-cA 5jnh-a1-m1-cB_5jnh-a1-m1-cA 5jp9-a1-m1-cA_5jp9-a1-m1-cB TFGTFQDAYLSQLRDIYHSPEFRNAPRGQASRERIGAGFRLLDPVQRHISVPARRANVVFNFAEALWYLSGSDRLDFIQYYAPGIAAYSADGRTLRGTAYGPRIFRHPAGGVNQWENVVKTLTDDPDSKRAVIQIFDPRELAVADNIDVACTLALQFLIRDGLLCGIGYMRANDAFRGAVSDVFSFTFLQEFTARYLGLGIGTYHHVVGSVHIYDSDARWAERVLDAGFPAMPDGDNWPHVRRVLEWEERLRTNAARLSADALDALDLPAYWKHVVALFEAHRQVRHEDTPDRALLAALPEVYRQSLAVKWPGHFG TFGTFQDAYLSQLRDIYHSPEFRNAPRGQASRERIGAGFRLLDPVQRHISVPARRANVVFNFAEALWYLSGSDRLDFIQYYAPGIAAYSADGRTLRGTAYGPRIFRHPAGGVNQWENVVKTLTDDPDSKRAVIQIFDPRELAVADNIDVACTLALQFLIRDGLLCGIGYMRANDAFRGAVSDVFSFTFLQEFTARYLGLGIGTYHHVVGSVHIYDSDARWAERVLDAPGFPAMPDGDNWPHVRRVLEWEERLRTNAARLSADALDALDLPAYWKHVVALFEAHRQVRHEDTPDRALLAALPEVYRQSLAVKWPGHFG 5b6n-a1-m1-cA_5b6n-a1-m1-cB Crystal structures of human peroxiredoxin 6 in sulfinic acid state P30041 P30041 2.895 X-RAY DIFFRACTION 202 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 1prx-a1-m1-cB_1prx-a1-m1-cA 5b6m-a1-m1-cA_5b6m-a1-m1-cB 5b6m-a3-m1-cE_5b6m-a3-m1-cF 5b6n-a2-m1-cD_5b6n-a2-m1-cC 5b6n-a3-m1-cE_5b6n-a3-m1-cF GLLLGDVAPNFEANTTVGRIRFHDFLGDSWGILFSHPRDFTPVTTELGRAAKLAPEFAKRNVKLIALSIDSVEDHLAWSKDINAYNCEEPTEKLPFPIIDDRNRELAILLGMLDPAEKDEKGMPVTARVVFVFGPDKKLKLSILYPATTGRNFDEILRVVISLQLTAEKRVATPVDWKDGDSVMVLPTIPEEEAKKLFPKGVFTKELPSGKKYLRYTPQP GLLLGDVAPNFEANTTVGRIRFHDFLGDSWGILFSHPRDFTPVTTELGRAAKLAPEFAKRNVKLIALSIDSVEDHLAWSKDINAYNCEEPTEKLPFPIIDDRNRELAILLGMLDPAEKDEKGMPVTARVVFVFGPDKKLKLSILYPATTGRNFDEILRVVISLQLTAEKRVATPVDWKDGDSVMVLPTIPEEEAKKLFPKGVFTKELPSGKKYLRYTPQP 5b7c-a1-m1-cA_5b7c-a1-m2-cA Crystal structure of octopus S-crystallin Q108F mutant in complex with glutathione A0A1C7D1H4 A0A1C7D1H4 2.35 X-RAY DIFFRACTION 96 1.0 6645 (Octopus vulgaris) 6645 (Octopus vulgaris) 206 206 PSYTLHYFNHRGRAEICRMLFAAAGVQYNDRRIESSEWDSMRNKMPCHMMPMLELDNRTQIPQSMAMARYLAREFGFHGRNNMEMARVDFISDCFYDILDDYMRMYFDGNCRMMFSSEKRMRFQETCRRILPFMERTLEMYSGGSQYFMGDQMTMADMMCYCALENPLMEEPSMLSSYPKLMALRNRVMNHSKMSSYLQRRCRTEF PSYTLHYFNHRGRAEICRMLFAAAGVQYNDRRIESSEWDSMRNKMPCHMMPMLELDNRTQIPQSMAMARYLAREFGFHGRNNMEMARVDFISDCFYDILDDYMRMYFDGNCRMMFSSEKRMRFQETCRRILPFMERTLEMYSGGSQYFMGDQMTMADMMCYCALENPLMEEPSMLSSYPKLMALRNRVMNHSKMSSYLQRRCRTEF 5b7n-a1-m1-cA_5b7n-a1-m1-cB Crystal structure of periplasmic 5-methylthioadenosine/S-adenosylhomocysteine nucleosidase from Aeromonas hydrophila A0KGU9 A0KGU9 1.399 X-RAY DIFFRACTION 215 1.0 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 248 248 5b7g-a1-m1-cB_5b7g-a1-m1-cA 5b7p-a1-m1-cB_5b7p-a1-m1-cA 5b7q-a1-m1-cB_5b7q-a1-m1-cA SAPILIQGAMDVEVETLVAALKDKQELTVGSWTYWQGTLSGYPVVVSRTEVGLANAAAATTLAMERFQPRLVINQGTAGGHDPALHRGDIVIGTKSFNMGAYRSDLTPAEQGVDPSKWHNFEVTMRLRDNGKLVEHSSFAGDPELVGRALGMADRYRHGRVVPGIIGTADEWNRQVARINWLHQTYQTAAEEMETSSAALVAEAYKVPFVGIRVLSNTDLHGEEFDPQTAIHCQQFVIDYAKALINGF SAPILIQGAMDVEVETLVAALKDKQELTVGSWTYWQGTLSGYPVVVSRTEVGLANAAAATTLAMERFQPRLVINQGTAGGHDPALHRGDIVIGTKSFNMGAYRSDLTPAEQGVDPSKWHNFEVTMRLRDNGKLVEHSSFAGDPELVGRALGMADRYRHGRVVPGIIGTADEWNRQVARINWLHQTYQTAAEEMETSSAALVAEAYKVPFVGIRVLSNTDLHGEEFDPQTAIHCQQFVIDYAKALINGF 5b7y-a1-m1-cB_5b7y-a1-m1-cA Crystal Structure of Hyperthermophilic Thermotoga maritima L-Ketose-3-Epimerase with Co2+ Q9WYP7 Q9WYP7 1.32 X-RAY DIFFRACTION 15 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 268 269 5b7z-a1-m1-cB_5b7z-a1-m1-cA 5b80-a1-m1-cB_5b80-a1-m1-cA MKLSLVISTSDAAFDALAFKGDLRKGMELAKRVGYQAVEIAVRDPSIVDWNEVKILSEELNLPICAIGTGQAYLADGLSLTHPNDEIRKKAIERVVKHTEVAGMFGALVIIGLVRGRREGRSYEETEELFIESMKRLLELTEHAKFVIEPLNRYETDFINTIDDALRILRKINSNRVGILADTFHMNIEEVNIPESLKRAGEKLYHFHVADSNRWAPGCGHFDFRSVFNTLKEIGYNRYVSVECLPLPGGMEEAAEIAFKTLKELIIK MKLSLVISTSDAAFDALAFKGDLRKGMELAKRVGYQAVEIAVRDPSIVDWNEVKILSEELNLPICAIGTGQAYLADGLSLTHPNDEIRKKAIERVVKHTEVAGMFGALVIIGLVRGRREGRSYEETEELFIESMKRLLELTEHAKFVIEPLNRYETDFINTIDDALRILRKINSNRVGILADTFHMNIEEVNIPESLKRAGEKLYHFHVADSNRWAPGCGHFDFRSVFNTLKEIGYNRYVSVECLPLPGGMEEAAEIAFKTLKELIIKL 5b83-a2-m1-cE_5b83-a2-m1-cF Crystal structure of Optineurin UBAN in complex with linear ubiquitin Q96CV9 Q96CV9 2.694 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 50 59 5wq4-a2-m1-cE_5wq4-a2-m1-cF KQEEDLETMTILRAQMEVYCSDFHAERAAREKIHEEKEQLALQLAVLLKE MKQTIAKQEEDLETMTILRAQMEVYCSDFHAERAAREKIHEEKEQLALQLAVLLKENDA 5b89-a1-m1-cA_5b89-a1-m1-cB Crystal structure of a Cysteine Desulfurase from Thermococcus onnurineus NA1 in complex with alanine at 1.5 Angstrom resolution B6YT87 B6YT87 1.5 X-RAY DIFFRACTION 276 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 399 401 5b7s-a1-m1-cA_5b7s-a1-m1-cB 5b7u-a1-m1-cB_5b7u-a1-m1-cA 5b87-a1-m1-cA_5b87-a1-m1-cB MASMRIPEDVRKDIPLTNEVIYFDNTATSLTPKPVVEAMDEYYLKYRANVHRGVHRLSQMATHKYEESRKIVADFIGAKFEEIVFTKNTSESLNLVALGLGHIFKRGDKIVTTPYEHHSDLLPWQRLATKLGLKLEFIEGDDEGNLDLSDAEKKIKGAKLVAVQHVSNALGVIHEVEELGKIAKDEGAIFVVDAAQSAGHMEVNVKKLHADFLAFSGHKGPMGPTGIGVLYIREEFFDTFEPPLIGGGTIEDVSLDGYKLTEPPERFEAGTPNIGGAIGLAAGIRYIERIGLGRIERQEHKLVKRTTEGLDELEVPWYGPRNLKKHAGVVSFNVPGLHPHDVAAILDDHSIMVRSGHHALPVMKKLGINGTVRASFHVYNSLEEVETFLGVMEELVKGL GHMASMRIPEDVRKDIPLTNEVIYFDNTATSLTPKPVVEAMDEYYLKYRANVHRGVHRLSQMATHKYEESRKIVADFIGAKFEEIVFTKNTSESLNLVALGLGHIFKRGDKIVTTPYEHHSDLLPWQRLATKLGLKLEFIEGDDEGNLDLSDAEKKIKGAKLVAVQHVSNALGVIHEVEELGKIAKDEGAIFVVDAAQSAGHMEVNVKKLHADFLAFSGHKGPMGPTGIGVLYIREEFFDTFEPPLIGGGTIEDVSLDGYKLTEPPERFEAGTPNIGGAIGLAAGIRYIERIGLGRIERQEHKLVKRTTEGLDELEVPWYGPRNLKKHAGVVSFNVPGLHPHDVAAILDDHSIMVRSGHHALPVMKKLGINGTVRASFHVYNSLEEVETFLGVMEELVKGL 5b8f-a1-m1-cB_5b8f-a1-m1-cA X-ray Crystal Structure of a 2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase from Pseudomonas aeruginosa P57708 P57708 1.45 X-RAY DIFFRACTION 77 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 158 159 5b8f-a1-m1-cA_5b8f-a1-m1-cC 5b8f-a1-m1-cB_5b8f-a1-m1-cC HMRIGHGYDVHRFGEGDFITLGGVRIPHKHGLVAHSDGDVLLHALSDALLGAAALGDIGKHFPDTDPRFKGADSRALLRHVVAIVAEKGWKVGNVDATIVAQAPKMAPHIETMRGLIAEDLGVAVDQVNVKATTTERLGFTGREEGIAVHAVALLMAR HHMRIGHGYDVHRFGEGDFITLGGVRIPHKHGLVAHSDGDVLLHALSDALLGAAALGDIGKHFPDTDPRFKGADSRALLRHVVAIVAEKGWKVGNVDATIVAQAPKMAPHIETMRGLIAEDLGVAVDQVNVKATTTERLGFTGREEGIAVHAVALLMAR 5b8h-a1-m1-cB_5b8h-a1-m1-cA Crystal Structure of Type III pantothenate kinase (PanK III) from Burkholderia cenocepacia complexed with pantothenate, imidodiphosphate, and AMP B4E9P3 B4E9P3 2.1999 X-RAY DIFFRACTION 182 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 251 254 PHLLIDAGNSRIKWALADARRTLVDTGAFGHTRDGGADPDWSRLPRPRGAWISNVAGADVAARIDALLDARWPGLPRTTIRSRPAQCGVTNGYTTPEQLGSDRWAGLIGAHAAFPGEHLLIATFGTATTLEALRADGCFTGGLIAPGWALRALGTHTAQLPTLTTDIASGLLAGAQEPFQVDTPRSLSAGCLYAQAGLIERAWRDLVAAWQAPVRLVLAGGAADDVARALTIAHTRHDTLILSGLALIAAD SEPHLLIDAGNSRIKWALADARRTLVDTGAFGHTRDGGADPDWSRLPRPRGAWISNVAGADVAARIDALLDARWPGLPRTTIRSRPAQCGVTNGYTTPEQLGSDRWAGLIGAHAAFPGEHLLIATFGTATTLEALRADGCFTGGLIAPGWALRALGTHTAQLPTLTTDIASGLLAGAQAEPFQVDTPRSLSAGCLYAQAGLIERAWRDLVAAWQAPVRLVLAGGAADDVARALTIAHTRHDTLILSGLALIAAD 5bjr-a2-m1-cB_5bjr-a2-m3-cB Crystal structure of the N-terminal RRM domain from MEC-8 G5ECJ4 G5ECJ4 2.6 X-RAY DIFFRACTION 35 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 84 84 5bjr-a1-m1-cA_5bjr-a1-m2-cA QVRTLFVSGLPMDAKPRELYLLFRGARGYEGALLKMTSKNGKPTSPVGFVTFLSQQDAQDARKMLQGVRFDPEAAQVLRLELAK QVRTLFVSGLPMDAKPRELYLLFRGARGYEGALLKMTSKNGKPTSPVGFVTFLSQQDAQDARKMLQGVRFDPEAAQVLRLELAK 5bjy-a1-m1-cA_5bjy-a1-m1-cB x-ray structure of the PglF 4,5-dehydratase from campylobacter jejuni, variant M405Y, in complex with UDP O86159 O86159 1.6 X-RAY DIFFRACTION 76 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 339 339 5bju-a1-m1-cB_5bju-a1-m1-cA 5bjv-a1-m1-cB_5bjv-a1-m1-cA 5bjw-a1-m1-cB_5bjw-a1-m1-cA 5bjx-a1-m1-cA_5bjx-a1-m1-cB SIEDLLARKPKDLDDSAVAAFLKDKVVLVSGAGGTIGSELCKQCIKFGAKHLIMVDHSEYNLYKINDDLNLYKEKITPILLSILDKQSLDEVLKTYKPELILHAAAYKHVPLCEQNPHSAVINNILGTKILCDSAKENKVAKFVMISTDKAVRPTNIYGCTKRVCELYTLSMSDENFEVACVRFGNVLGSSGSVIPKFKAQIANNEPLTLTHPDIVRYFMLVAEAVQLVLQAGAIAKGGELFVLDMGKPVKIIDLAKKMLLLSNRNDLEIKITGLRKGEKLYEELLIDENDAKTQYESIFVAKNEKVDLDWLNKEIENLQICEDISEALLKIVPEFKHN SIEDLLARKPKDLDDSAVAAFLKDKVVLVSGAGGTIGSELCKQCIKFGAKHLIMVDHSEYNLYKINDDLNLYKEKITPILLSILDKQSLDEVLKTYKPELILHAAAYKHVPLCEQNPHSAVINNILGTKILCDSAKENKVAKFVMISTDKAVRPTNIYGCTKRVCELYTLSMSDENFEVACVRFGNVLGSSGSVIPKFKAQIANNEPLTLTHPDIVRYFMLVAEAVQLVLQAGAIAKGGELFVLDMGKPVKIIDLAKKMLLLSNRNDLEIKITGLRKGEKLYEELLIDENDAKTQYESIFVAKNEKVDLDWLNKEIENLQICEDISEALLKIVPEFKHN 5bka-a2-m1-cD_5bka-a2-m1-cE 2.1 Angstrom structure of ActVI-ORFA from Streptomyces Coelicolor Q7AKI2 Q7AKI2 2.11 X-RAY DIFFRACTION 73 0.992 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 129 135 LPTGLYAEVLSFYGHQQKLDGRDFAGYAATFTEDGEFRHAAHTRAGITAVLEDFHRKFDARKIQRRHWFDHTALSQSITATSYCLVLTVHADVKAPEFGPSCLVHDVLVRGADGELLLRSRHVTHDHVF PTGLYAEVLSFYGHQQKLDGRDFAGYAATFTEDGEFRHSPAAHTRAGITAVLEDFHRKFDARKIQRRHWFDHTALSQASDGSITATSYCLVLTVHADVKAPEFGPSCLVHDVLVRGADGELLLRSRHVTHDHVFP 5bke-a1-m1-cE_5bke-a1-m1-cC Crystal structure of AAD-2 in complex with Mn(II) and N-oxalylglycine Q89UC4 Q89UC4 2.15 X-RAY DIFFRACTION 44 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 255 289 5bke-a1-m1-cD_5bke-a1-m1-cA MTIAIRQLQTHFVGQVSGLDLRKPLTPGEAREVESAMDKYAVLVFHDQDITDEQQMAFALNFGQREGLNDVSNLLGNCLWHSDSSFRPIPAKFSLLSARVVNPTGGNTEFADMRAAYDALDDETKAEIEDLVCEHSLMYSRGSLGFTEYTDEEKQMFKPVLQRLVRTHPVHRRKSLYLSSHAGKIASMSVPEGRLLLRDLNEHATQPEFVYVHKWKLHDLVMWDNRQTMHRVRRYDQSQPRDMRRATVAGTEPTV MTIAIRQLQTHFVGQVSGLDLRKPLTPGEAREVESAMDKYAVLVFHDQDITDEQQMAFALNFGQREDARGGTVTKEKDYRLQSGLNDVSNLGKDGKPLAKDSRTHLFNLGNCLWHSDSSFRPIPAKFSLLSARVVNPTGGNTEFADMRAAYDALDDETKAEIEDLVCEHSLMYSRGSLGFTEYTDEEKQMFKPVLQRLVRTHPVHRRKSLYLSSHAGKIASMSVPEGRLLLRDLNEHATQPEFVYVHKWKLHDLVMWDNRQTMHRVRRYDQSQPRDMRRATVAGTEPTV 5bke-a1-m1-cF_5bke-a1-m1-cA Crystal structure of AAD-2 in complex with Mn(II) and N-oxalylglycine Q89UC4 Q89UC4 2.15 X-RAY DIFFRACTION 33 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 252 275 TIAIRQLQTHFVGQVSGLDLRKPLTPGEAREVESAMDKYAVLVFHDQDITDEQQMAFALNFGQRETHLFNLGNCLWHSDSSFRPIPAKFSLLSARVVNPTGGNTEFADMRAAYDALDDETKAEIEDLVCEHSLMYSRGSLGFTEYTDEEKQMFKPVLQRLVRTHPVHRRKSLYLSSHAGKIASMSVPEGRLLLRDLNEHATQPEFVYVHKWKLHDLVMWDNRQTMHRVRRYDQSQPRDMRRATVAGTEPTVQ MTIAIRQLQTHFVGQVSGLDLRKPLTPGEAREVESAMDKYAVLVFHDQDITDEQQMAFALNFGQREDGLNDVSNLGKDGKPLAKDSRTHLFNLGNCLWHSDSSFRPIPAKFSLLSARVVNPTGGNTEFADMRAAYDALDDETKAEIEDLVCEHSLMYSRGSLGFTEYTDEEKQMFKPVLQRLVRTHPVHRRKSLYLSSHAGKIASMSVPEGRLLLRDLNEHATQPEFVYVHKWKLHDLVMWDNRQTMHRVRRYDQSQPRDMRRATVAGTEPTVQQ 5bke-a1-m1-cF_5bke-a1-m1-cG Crystal structure of AAD-2 in complex with Mn(II) and N-oxalylglycine Q89UC4 Q89UC4 2.15 X-RAY DIFFRACTION 47 0.996 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 252 252 TIAIRQLQTHFVGQVSGLDLRKPLTPGEAREVESAMDKYAVLVFHDQDITDEQQMAFALNFGQRETHLFNLGNCLWHSDSSFRPIPAKFSLLSARVVNPTGGNTEFADMRAAYDALDDETKAEIEDLVCEHSLMYSRGSLGFTEYTDEEKQMFKPVLQRLVRTHPVHRRKSLYLSSHAGKIASMSVPEGRLLLRDLNEHATQPEFVYVHKWKLHDLVMWDNRQTMHRVRRYDQSQPRDMRRATVAGTEPTVQ IAIRQLQTHFVGQVSGLDLRKPLTPGEAREVESAMDKYAVLVFHDQDITDEQQMAFALNFGQREDTHLFNLGNCLWHSDSSFRPIPAKFSLLSARVVNPTGGNTEFADMRAAYDALDDETKAEIEDLVCEHSLMYSRGSLGFTEYTDEEKQMFKPVLQRLVRTHPVHRRKSLYLSSHAGKIASMSVPEGRLLLRDLNEHATQPEFVYVHKWKLHDLVMWDNRQTMHRVRRYDQSQPRDMRRATVAGTEPTVQ 5bkh-a1-m1-cA_5bkh-a1-m6-cA The splicing activity and an alternative domain-swapped structure of the Pyrococcus horikoshii PolII mini-intein O57861 O57861 2.43 X-RAY DIFFRACTION 32 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 170 170 5bkh-a1-m2-cA_5bkh-a1-m5-cA 5bkh-a1-m3-cA_5bkh-a1-m4-cA RRNCFPGDTRILVQINGTPQRVTLKELYELFDEEHYESMVYVRKKPKVDIKVYSFNPEEGKVVLTDIEEVIKAPATDHLIRFELELGSSFETTVDHPVLVYENGKFVEKRAFEVREGNIIIIIDESTLEPLKVAVKKIEFIEPPEDFVFSLNAKKYHTVIINENIVTHQC RRNCFPGDTRILVQINGTPQRVTLKELYELFDEEHYESMVYVRKKPKVDIKVYSFNPEEGKVVLTDIEEVIKAPATDHLIRFELELGSSFETTVDHPVLVYENGKFVEKRAFEVREGNIIIIIDESTLEPLKVAVKKIEFIEPPEDFVFSLNAKKYHTVIINENIVTHQC 5bkh-a1-m3-cA_5bkh-a1-m6-cA The splicing activity and an alternative domain-swapped structure of the Pyrococcus horikoshii PolII mini-intein O57861 O57861 2.43 X-RAY DIFFRACTION 82 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 170 170 5bkh-a1-m1-cA_5bkh-a1-m5-cA 5bkh-a1-m2-cA_5bkh-a1-m4-cA RRNCFPGDTRILVQINGTPQRVTLKELYELFDEEHYESMVYVRKKPKVDIKVYSFNPEEGKVVLTDIEEVIKAPATDHLIRFELELGSSFETTVDHPVLVYENGKFVEKRAFEVREGNIIIIIDESTLEPLKVAVKKIEFIEPPEDFVFSLNAKKYHTVIINENIVTHQC RRNCFPGDTRILVQINGTPQRVTLKELYELFDEEHYESMVYVRKKPKVDIKVYSFNPEEGKVVLTDIEEVIKAPATDHLIRFELELGSSFETTVDHPVLVYENGKFVEKRAFEVREGNIIIIIDESTLEPLKVAVKKIEFIEPPEDFVFSLNAKKYHTVIINENIVTHQC 5bmo-a1-m1-cB_5bmo-a1-m1-cC LnmX protein, a putative GlcNAc-PI de-N-acetylase from Streptomyces atroolivaceus Q8GGM8 Q8GGM8 1.92 X-RAY DIFFRACTION 38 1.0 66869 (Streptomyces atroolivaceus) 66869 (Streptomyces atroolivaceus) 241 242 5bmo-a1-m1-cA_5bmo-a1-m1-cB 5bmo-a1-m1-cA_5bmo-a1-m1-cC ADTLLELPDDFSRVLAIVAHPDDIEFGAGPAVAQWTAQGREVAYLLVTRGEAGISDLEPAQCGPVREAEQRKAAAELGVHEVDFLDHYNDGTIEYGPGLRRDLARAVRRHRPELIVTFNHHDTWASGAWNTPDHRAVGLAALDAVADAANRWIFPELLDEGLEPWRAGKVAIAGSPHATHAVAVDDDSRDRAVRSLAAHDRYLGSLSDDPPQERARFILGHLLAATAPRFGGRDGVAFQIV MADTLLELPDDFSRVLAIVAHPDDIEFGAGPAVAQWTAQGREVAYLLVTRGEAGISDLEPAQCGPVREAEQRKAAAELGVHEVDFLDHYNDGTIEYGPGLRRDLARAVRRHRPELIVTFNHHDTWASGAWNTPDHRAVGLAALDAVADAANRWIFPELLDEGLEPWRAGKVAIAGSPHATHAVAVDDDSRDRAVRSLAAHDRYLGSLSDDPPQERARFILGHLLAATAPRFGGRDGVAFQIV 5bmq-a1-m2-cA_5bmq-a1-m3-cA Crystal structure of L,D-transpeptidase (Yku) from Stackebrandtia nassauensis D3Q1D9 D3Q1D9 2.05 X-RAY DIFFRACTION 15 1.0 446470 (Stackebrandtia nassauensis DSM 44728) 446470 (Stackebrandtia nassauensis DSM 44728) 202 202 5bmq-a1-m1-cA_5bmq-a1-m2-cA 5bmq-a1-m1-cA_5bmq-a1-m3-cA ATPTTDHDCGKAGEYQKDLETTLASLADYGTIFADGKQSKEDCAAIKKFQKRGIQPAEGYAGKLTLDVAQRIAKSSFDKCQEAKKGKTVCVDLTHQTLWVVEDGKRIFEPTVVRTGAGYATQPGAWKIFVKEGTHWSKKYKVWLPYWQNFNNGEGLHTTTTYIHEPWIGSHGCVNLLPSDSKKLYELDFGDTVQVFGNRPGT ATPTTDHDCGKAGEYQKDLETTLASLADYGTIFADGKQSKEDCAAIKKFQKRGIQPAEGYAGKLTLDVAQRIAKSSFDKCQEAKKGKTVCVDLTHQTLWVVEDGKRIFEPTVVRTGAGYATQPGAWKIFVKEGTHWSKKYKVWLPYWQNFNNGEGLHTTTTYIHEPWIGSHGCVNLLPSDSKKLYELDFGDTVQVFGNRPGT 5bnc-a1-m1-cB_5bnc-a1-m1-cA Structure of heme binding protein MSMEG_6519 from Mycobacterium smegmatis A0R6E4 A0R6E4 2.25 X-RAY DIFFRACTION 104 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 242 252 VVRPSAAEEARTIAASTNVGTLATLTTEGDPWASFVTYGLLGGAPVLCVSDMAEHGRNLAHDPRASIAIVAPSAESDPLASARVTLAGVAERPEGDELAAARAAHLDAVAAAKYYIDYSDFSVWVLRVQRVRWVGGYGRMDSTTGEAYAAAEADPVTPRAAGAIAHLNADHADSLLAMARNLGGYPDTGEAVCTGADRYGLDLRVTTERGVAYTRVGYAAPISSFDQLRAATVELAQRAKQS VPPPLTPVADVVRPSAAEEARTIAASTNVGTLATLTTEGDPWASFVTYGLLGGAPVLCVSDMAEHGRNLAHDPRASIAIVAPSAESDPLASARVTLAGVAERPEGDELAAARAAHLDAVAAAKYYIDYSDFSVWVLRVQRVRWVGGYGRMDSTTGEAYAAAEADPVTPRAAGAIAHLNADHADSLLAMARNLGGYPDTGEAVCTGADRYGLDLRVTTERGVAYTRVGYAAPISSFDQLRAATVELAQRAKQS 5bnh-a1-m1-cA_5bnh-a1-m1-cD Crystal structure of the HLTF HIRAN domain with a ssDNA fragment Q14527 Q14527 1.7 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 123 GSVDSVLFGSLRGHVVGLRYYTGVVNNNEMVALQRDPNNPYDKNAIKVNNVNGNQVGHLKKELAGALAYIMDNKLAQIEGVVPFGANNAFTMPLHMTFWGKEENRKAVSDQLKKHGFKLGPAP GSVDSVLFGSLRGHVVGLRYYTGVVNNNEMVALQRDPNNPYDKNAIKVNNVNGNQVGHLKKELAGALAYIMDNKLAQIEGVVPFGANNAFTMPLHMTFWGKEENRKAVSDQLKKHGFKLGPAP 5bnt-a2-m1-cA_5bnt-a2-m1-cD X-ray Crystal Structure of a Aspartate-semialdehyde dehydrogenase bound to NADP from Pseudomonas aeruginosa Q51344 Q51344 2.1 X-RAY DIFFRACTION 256 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 368 371 5bnt-a1-m1-cB_5bnt-a1-m1-cC KRVGLIGWRGMVGSVLMQRMLEERDFDLIEPVFFTTSNVGGQGPEVGKDIAPLKDAYSIDELKTLDVILTCQGGDYTSEVFPKLREAGWQGYWIDAASSLRMEDDAVIVLDPVNRKVIDQALDAGTRNYIGGNCTVSLMLMALGGLFDAGLVEWMSAMTYQAASGAGAQNMRELLKQMGAAHASVADDLANPASAILDIDRKVAETLRSEAFPTEHFGAPLGGSLIPWIDKELPNGQSREEWKAQAETNKILARFKNPIPVDGICVRVGAMRCHSQALTIKLNKDVPLTDIEGLISQHNPWVKLVPNHREVSVRELTPAAVTGTLSVPVGRLRKLNMGSQYLGAFTVGDQLLWGAAEPLRRMLRILLE HMKRVGLIGWRGMVGSVLMQRMLEERDFDLIEPVFFTTSNVGGQGPEVGKDIAPLKDAYSIDELKTLDVILTCQGGDYTSEVFPKLREAGWQGYWIDAASSLRMEDDAVIVLDPVNRKVIDQALDAGTRNYIGGNCTVSLMLMALGGLFDAGLVEWMSAMTYQAASGAGAQNMRELLKQMGAAHASVADDLANPASAILDIDRKVAETLRSEAFPTEHFGAPLGGSLIPWIDKELPNGQSREEWKAQAETNKILARFKNPIPVDGICVRVGAMRCHSQALTIKLNKDVPLTDIEGLISQHNPWVKLVPNHREVSVRELTPAAVTGTLSVPVGRLRKLNMGSQYLGAFTVGDQLLWGAAEPLRRMLRILLER 5bny-a1-m1-cC_5bny-a1-m1-cE Crystal structure of hemagglutinin of A/Chicken/Guangdong/S1311/2010 (H6N6) A0A067YZV9 A0A067YZV9 2.66 X-RAY DIFFRACTION 41 1.0 1454272 (Influenza A virus (A/chicken/Guangdong/S1311/2010(H6N6))) 1454272 (Influenza A virus (A/chicken/Guangdong/S1311/2010(H6N6))) 324 324 5bny-a1-m1-cA_5bny-a1-m1-cC 5bny-a1-m1-cA_5bny-a1-m1-cE 5bqy-a1-m1-cA_5bqy-a1-m1-cC 5bqy-a1-m1-cA_5bqy-a1-m1-cE 5bqy-a1-m1-cC_5bqy-a1-m1-cE 5bqz-a1-m1-cA_5bqz-a1-m1-cC 5bqz-a1-m1-cA_5bqz-a1-m1-cE 5bqz-a1-m1-cC_5bqz-a1-m1-cE DKICIGYHANNSTTKVDTILEKNVTVTHSVELLENQKEERFCKISNKAPLDLRDCTLEGWILGNPRCGILLADQSWSYIVERPNARNGICYPGTLNEAEELKALIGSGERVERFEMFPKSTWTGVNTESGVSSACPLGNGPSFYRNLLWIIKLKSSEYPVIRGTFNNTGDKSILYFWGVHHPPVTTEQNALYGSGDRYVRMGTESMNFARSPEIAARPAVNGQRGRIDYFWSILKPGETLNVESNGNLIAPWYAYRFVNKDSKGAIFRSNLPIENCDATCQTTEGVIRTNKTFQNVSPLWIGECPKYVKSKSLRLATGLRNVPQ DKICIGYHANNSTTKVDTILEKNVTVTHSVELLENQKEERFCKISNKAPLDLRDCTLEGWILGNPRCGILLADQSWSYIVERPNARNGICYPGTLNEAEELKALIGSGERVERFEMFPKSTWTGVNTESGVSSACPLGNGPSFYRNLLWIIKLKSSEYPVIRGTFNNTGDKSILYFWGVHHPPVTTEQNALYGSGDRYVRMGTESMNFARSPEIAARPAVNGQRGRIDYFWSILKPGETLNVESNGNLIAPWYAYRFVNKDSKGAIFRSNLPIENCDATCQTTEGVIRTNKTFQNVSPLWIGECPKYVKSKSLRLATGLRNVPQ 5boh-a2-m2-cA_5boh-a2-m3-cA Crystal Structure of OXA-58 with the Substrate-Binding Cleft in a Closed State Q2TR58 Q2TR58 1.8 X-RAY DIFFRACTION 35 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 236 236 5boh-a2-m1-cA_5boh-a2-m2-cA 5boh-a2-m1-cA_5boh-a2-m3-cA VQALFNEISADAVFVTYDGQNIKKYGTHLDRAKTAYIPASTFIANALIGLENHKATSTEIFKWDGKPRFFKAWDKDFTLGEAMQASTVPVYQELARRIGPSLMQSELQRIGYGNMQIGTEVDQFWLKGPLTITPIQEVKFVYDLAQGQLPFKPEVQQQVKEMLYVERRGENRLYAKSGWGMAVDPQVGWYVGFVEKADGQVVAFALNMQMKAGDDIALRKQLSLDVLDKLGVFHYL VQALFNEISADAVFVTYDGQNIKKYGTHLDRAKTAYIPASTFIANALIGLENHKATSTEIFKWDGKPRFFKAWDKDFTLGEAMQASTVPVYQELARRIGPSLMQSELQRIGYGNMQIGTEVDQFWLKGPLTITPIQEVKFVYDLAQGQLPFKPEVQQQVKEMLYVERRGENRLYAKSGWGMAVDPQVGWYVGFVEKADGQVVAFALNMQMKAGDDIALRKQLSLDVLDKLGVFHYL 5bov-a6-m3-cD_5bov-a6-m1-cB Crystal structure of a putative epoxide hydrolase (KPN_01808) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 at 1.60 A resolution A6T9G8 A6T9G8 1.6 X-RAY DIFFRACTION 80 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 296 300 5bov-a5-m2-cC_5bov-a5-m1-cA AFDKIQQIRAGDLNIGYVDIGPRDGQPVILLHGWPYDIQSYAQVAPALAQKGYRVIVPYLRGYGTTRFLSASTPRNGQPSAAADIVHLDALNIRQADLAGFDWGARTADIVAALWPQRVKSLVSVSGYLISSQQIGEKPLPPQAELSWWYQFYFATPRGEAGYRQNTHDFAKFIWHQASPQWQFSDATFAKTARALDNPDHVAITISNYRWRLGLEKGEAKYAGYEQRLAALPPITVPTITLEGANNGAPHPAPASYRAKFTGKYEHRDLPGAVGHNPPQEDPTAFVQAVVDADRL EDAGAFDKIQQIRAGDLNIGYVDIGPRDGQPVILLHGWPYDIQSYAQVAPALAQKGYRVIVPYLRGYGTTRFLSASTPRNGQPSAAADIVHLDALNIRQADLAGFDWGARTADIVAALWPQRVKSLVSVSGYLISSQQIGEKPLPPQAELSWWYQFYFATPRGEAGYRQNTHDFAKFIWHQASPQWQFSDATFAKTARALDNPDHVAITISNYRWRLGLEKGEAKYAGYEQRLAALPPITVPTITLEGANNGAPHPAPASYRAKFTGKYEHRDLPGAVGHNPPQEDPTAFVQAVVDADRL 5bow-a2-m1-cA_5bow-a2-m2-cA CRYSTAL STRUCTURE OF IL-38 Q8WWZ1 Q8WWZ1 1.31 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 151 SSLPMARYYIIKYADQKALYTRDGQLLVGDPVADNCCAEKICTLPNRGLDRTKVPIFLGIQGGSRCLACVETEEGPSLQLEDVNIEELYKGGEEATRFTFFQSSSGSAFRLEAAAWPGWFLCGPAEPQQPVQLTKESEPSARTKFYFEQSW SSLPMARYYIIKYADQKALYTRDGQLLVGDPVADNCCAEKICTLPNRGLDRTKVPIFLGIQGGSRCLACVETEEGPSLQLEDVNIEELYKGGEEATRFTFFQSSSGSAFRLEAAAWPGWFLCGPAEPQQPVQLTKESEPSARTKFYFEQSW 5bp4-a8-m1-cO_5bp4-a8-m1-cP Modifying region (DH-ER-KR) of a mycocerosic acid synthase-like (MAS-like) PKS A0R1E8 A0R1E8 3.75 X-RAY DIFFRACTION 188 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 633 1089 PSVSVHPLLGSHVVLPQEPEEHLWQGDVGTEAHPWLSDHRVHQVAVLPGAAYCEMALAAVTPVLGDTGEVHDLKFHDMLLLDDATPVWVSAAVTAPGTAEFGVETHQSGDRTQRATAVLRGDVDAERPAAHSIDALLAAHPNRVDGDELRAGFGTVGIGHGAAFAGLSEAYVATAAEPTVVAAVALPGPLRSGQRGYTVHPALLDACFQSVIAHPEVQNIASGMLLPLGVRRLRAYGSTRNVRYCLSRIVKADSFGVEADLELLDADGTVLLSAMGLQLGTGNAERRTAVADNASEGMRLVVRNPGDLESMELVTFERGTPGPGQIEVAVKASSINFADVLVAFGRCPSFDGRLPELGSEFGGVVTAVGPGVTTHRVGDRVGGVSANGCWSNFVTCEADLATKLPEGISEHEAAAVGLAYGTVWLGLTELARMSAGDKILIHSATGGVGQAAIAVARAAGAEIYATAGSEKRRQLLRDWGIEHVYDSRTTAFADQIRTDTDGYGVDIVLNSVTGPAQRAGLELLAFGGRFVEIGKRDIYADTRLGLFPFRRNLSFYAVDLALMTVTHPQKIRDLLATVYRLIADGTLPLPEITHYPLEEAATAIRIMGGAQHTGKLVIDIPDTGQSQVVVPPE PSVSVHPLLGSHVVLPQEPEEHLWQGDVGTEAHPWLSDHRVHQVAVLPGAAYCEMALAAVTPVLGDTGEVHDLKFHDMLLLDDATPVWVSAAVTAPGTAEFGVETHQSGDRTQRATAVLRGDVDAERPAAHSIDALLAAHPNRVDGDELRAGFGTVGIGHGAAFAGLSEAYVATAAEPTVVAAVALPGPLRSGQRGYTVHPALLDACFQSVIAHPEVQNIASGMLLPLGVRRLRAYGSTRNVRYCLSRIVKADSFGVEADLELLDADGTVLLSAMGLQLGTGNSDKAEEERLLDERLLTIEWQQRELPRPGSWLVILAGDDDENPRAAGVVSALIGAGMPTTTMAWSHDADHDAQAAALTARLDEQPLAGVAVIVGDSEHDVGADARRGADHVRHLVRIARTLADAVGEPPRLYVVTHRSQHVLDTDEPYLEHSGLRGLIRVVGMEHPRLRATQIDVDDSTAHEALVRQLLSGSPEDETAWRDGQWYAARLCPSPLRAAERRTAVADNASEGMRLVVRNPGDLESMELVTFERGTPGPGQIEVAVKASSINFADVLVAFGRCPSFDGRLPELGSEFGGVVTAVGPGVTTHRVGDRVGGVSANGCWSNFVTCEADLATKLPEGISEHEAAAVGLAYGTVWLGLTELARMSAGDKILIHSATGGVGQAAIAVARAAGAEIYATAGSEKRRQLLRDWGIEHVYDSRTTAFADQIRTDTDGYGVDIVLNSVTGPAQRAGLELLAFGGRFVEIGKRDIYADTRLGLFPFRRNLSFYAVDLALMTVTHPQKIRDLLATVYRLIADGTLPLPEITHYPLEEAATAIRIMGGAQHTGKLVIDIPDTGQSQVVVPPEQVPVFRGDGAYVITGGLGGLGLFLAERMAAAGCGRIVVNSRSAPSTRSSEIIELIRATGADIVVECGDIAEPDTALRLVAAATQTGLPLRGVLHAAAVVEDATLANITDELVEHDWAPKVYGAWNLHQAVQSGGPATSELDWFCAFSSAAALVGSPGQGAYAAANSWLDAFMQWRRAQGLPATSIAWGAWGENAIAPDEGAYAFEAILRHDRVYNGYAPVLGASWLTAFAQRSPFAELFLA 5bp4-a9-m1-cQ_5bp4-a9-m1-cR Modifying region (DH-ER-KR) of a mycocerosic acid synthase-like (MAS-like) PKS A0R1E8 A0R1E8 3.75 X-RAY DIFFRACTION 181 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 608 637 5bp4-a5-m1-cI_5bp4-a5-m1-cJ PSVSVHPLLGSHVVLPQEPEEHLWQGDVGTEAHPWLSDHRVHQVAVLPGAAYCEMALAAVTPVLGDTGEVHDLKFHDMLLLDDATPVWVSAAVTAPGTAEFGVETHQSGDRTQRATAVLRGDVDAERPAAHSIDALLAAHPNRVDGDELRAGFGTVGIGHGAAFAGLSEAYVATAAEPTVVAAVALPGPLRSGQRGYTVHPALLDACFQSVIAHPEVQNIASGMLLPLGVRRLRAYGSTRNVRYCLSRIVKADSFGVEADLELLDADGTVLLSAMGLQLGTEGMRLVVRNPGDLESMELVTFERGTPGPGQIEVAVKASSINFADVLVAFGRCPSFDGRLPELGSEFGGVVTAVGPGVTTHRVGDRVGGVSANGCWSNFVTCEADLATKLPEGISEHEAAAVGLAYGTVWLGLTELARMSAGDKILIHSATGGVGQAAIAVARAAGAEIYATAGSEKRRQLLRDWGIEHVYDSRTTAFADQIRTDTDGYGVDIVLNSVTGPAQRAGLELLAFGGRFVEIGKRDIYADTRLGLFPFRRNLSFYAVDLALMTVTHPQKIRDLLATVYRLIADGTLPLPEITHYPLEEAATAIRIMGGAQHTGKLVIDIPD PSVSVHPLLGSHVVLPQEPEEHLWQGDVGTEAHPWLSDHRVHQVAVLPGAAYCEMALAAVTPVLGDTGEVHDLKFHDMLLLDDATPVWVSAAVTAPGTAEFGVETHQSGDRTQRATAVLRGDVDAERPAAHSIDALLAAHPNRVDGDELRAGFGTVGIGHGAAFAGLSEAYVATAAEPTVVAAVALPGPLRSGQRGYTVHPALLDACFQSVIAHPEVQNIASGMLLPLGVRRLRAYGSTRNVRYCLSRIVKADSFGVEADLELLDADGTVLLSAMGLQLGTGNSDKAEEERLLDEREGMRLVVRNPGDLESMELVTFERGTPGPGQIEVAVKASSINFADVLVAFGRCPSFDGRLPELGSEFGGVVTAVGPGVTTHRVGDRVGGVSANGCWSNFVTCEADLATKLPEGISEHEAAAVGLAYGTVWLGLTELARMSAGDKILIHSATGGVGQAAIAVARAAGAEIYATAGSEKRRQLLRDWGIEHVYDSRTTAFADQIRTDTDGYGVDIVLNSVTGPAQRAGLELLAFGGRFVEIGKRDIYADTRLGLFPFRRNLSFYAVDLALMTVTHPQKIRDLLATVYRLIADGTLPLPEITHYPLEEAATAIRIMGGAQHTGKLVIDIPDTGQSQVVVPPEQVP 5bp7-a4-m2-cB_5bp7-a4-m3-cC Crystal structure of SAM-dependent methyltransferase from Geobacter sulfurreducens in complex with S-Adenosyl-L-homocysteine Q74AD5 Q74AD5 2.1 X-RAY DIFFRACTION 43 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 242 242 5bp7-a4-m1-cA_5bp7-a4-m2-cB 5bp7-a4-m1-cA_5bp7-a4-m3-cC LDIPRIFTITESAHRIHNPITPEKLTTLGAALRLEPGTRVLDLGSGSGELCTWARDHGIIGTGIDSQLFTAQAKLRAEELGVADRVTFIHGDASGYVSDDKAGVAACVGATWIGGGVAGTIELLARSLRPGGIILIGEPYWRQVPPTEDVARGCLANSTSDFLLPELLASFGRLGYDVVEVLADQDGWDRYEAAKWLTRRWLEANPDDELAKEVRAQLTSEPGRYASYTREYLGWGVFALPR LDIPRIFTITESAHRIHNPITPEKLTTLGAALRLEPGTRVLDLGSGSGELCTWARDHGIIGTGIDSQLFTAQAKLRAEELGVADRVTFIHGDASGYVSDDKAGVAACVGATWIGGGVAGTIELLARSLRPGGIILIGEPYWRQVPPTEDVARGCLANSTSDFLLPELLASFGRLGYDVVEVLADQDGWDRYEAAKWLTRRWLEANPDDELAKEVRAQLTSEPGRYASYTREYLGWGVFALPR 5bp8-a2-m1-cA_5bp8-a2-m2-cA ent-Copalyl diphosphate synthase from Streptomyces platensis A0A023VSF1 A0A023VSF1 1.8 X-RAY DIFFRACTION 50 1.0 58346 (Streptomyces platensis) 58346 (Streptomyces platensis) 509 509 APREAEAAALLAATVADPWGLVAPSVYDTARLVSLAPWLDGHRERLGYLAKEQNQDGSWGAPDGYGLVPTLSAVEALLTELARTDSGAPHLSPDDLAAACADGLGALRDGLLAGPVPDTIGVEFVAPSLLADINTRLAALTEQAPGKLGAWSGTTLTSPAPDLDGALLAGVRETEQAPLPEKLWHTLEAVTRDGTRGARPHEGAPPHNGSVGCSPAATAAWLGAAPDPAAPGVAYLRDVQARFGGPVPSITPIVYFEQAWVLNSLAASGLRYEAPAALLDSLEAGLTDEGIAAAPGLPSDSDDTAAVLFALAQHGRTHRPDSLHFRRDGYFSCFGVERTPSTSTNAHILEALGHHVTVRPDDAGRYGAEIRISDWLLDNQLPDGSWDKWHASPYYATACCALALAEFGGPSARAAVDRAAAWALATQRADGSWGRWQGTTEETAYVQLLRTRTPGSPGTVARSAARGCDALLAHDDPASYPGLWHDKDIYAPVTVIRAARLAALALGGA APREAEAAALLAATVADPWGLVAPSVYDTARLVSLAPWLDGHRERLGYLAKEQNQDGSWGAPDGYGLVPTLSAVEALLTELARTDSGAPHLSPDDLAAACADGLGALRDGLLAGPVPDTIGVEFVAPSLLADINTRLAALTEQAPGKLGAWSGTTLTSPAPDLDGALLAGVRETEQAPLPEKLWHTLEAVTRDGTRGARPHEGAPPHNGSVGCSPAATAAWLGAAPDPAAPGVAYLRDVQARFGGPVPSITPIVYFEQAWVLNSLAASGLRYEAPAALLDSLEAGLTDEGIAAAPGLPSDSDDTAAVLFALAQHGRTHRPDSLHFRRDGYFSCFGVERTPSTSTNAHILEALGHHVTVRPDDAGRYGAEIRISDWLLDNQLPDGSWDKWHASPYYATACCALALAEFGGPSARAAVDRAAAWALATQRADGSWGRWQGTTEETAYVQLLRTRTPGSPGTVARSAARGCDALLAHDDPASYPGLWHDKDIYAPVTVIRAARLAALALGGA 5bpa-a1-m1-cB_5bpa-a1-m1-cA X-RAY Co-structure of MMP-13 with 4-[({5-[2-(ethoxycarbonyl)-1H-indol-5-yl]-1-methyl-1H-pyrazol-3-yl}formamido)methyl]benzoate P45452 P45452 1.79 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 169 1xur-a1-m1-cB_1xur-a1-m1-cA 1xur-a2-m1-cB_1xur-a2-m1-cA 1xur-a2-m2-cB_1xur-a2-m2-cA 1you-a3-m1-cB_1you-a3-m1-cA 1you-a3-m2-cB_1you-a3-m2-cA 2ow9-a3-m1-cB_2ow9-a3-m1-cA 2ow9-a3-m2-cB_2ow9-a3-m2-cA 2ozr-a1-m1-cD_2ozr-a1-m1-cF 2ozr-a1-m1-cE_2ozr-a1-m1-cC 2yig-a1-m1-cB_2yig-a1-m1-cA 3elm-a1-m1-cA_3elm-a1-m1-cB 3elm-a1-m2-cA_3elm-a1-m2-cB 3elm-a2-m1-cA_3elm-a2-m1-cB 3i7g-a1-m1-cB_3i7g-a1-m1-cA 3i7g-a2-m1-cB_3i7g-a2-m1-cA 3i7g-a2-m2-cB_3i7g-a2-m2-cA 3i7i-a1-m1-cB_3i7i-a1-m1-cA 3i7i-a2-m1-cB_3i7i-a2-m1-cA 3i7i-a2-m2-cB_3i7i-a2-m2-cA 3kry-a5-m1-cB_3kry-a5-m2-cC 3kry-a5-m1-cD_3kry-a5-m1-cA 3o2x-a5-m1-cB_3o2x-a5-m2-cC 3o2x-a5-m1-cD_3o2x-a5-m2-cA 3wv1-a3-m1-cB_3wv1-a3-m1-cA 3wv2-a3-m1-cB_3wv2-a3-m1-cA 3wv3-a3-m1-cB_3wv3-a3-m1-cA 3zxh-a1-m1-cA_3zxh-a1-m1-cB 3zxh-a1-m2-cA_3zxh-a1-m2-cB 3zxh-a2-m1-cA_3zxh-a2-m1-cB 4a7b-a1-m1-cB_4a7b-a1-m1-cA 4a7b-a1-m2-cB_4a7b-a1-m2-cA 4jp4-a1-m1-cA_4jp4-a1-m1-cB 4jpa-a1-m1-cA_4jpa-a1-m1-cB 4l19-a3-m1-cA_4l19-a3-m1-cB 4l19-a3-m2-cA_4l19-a3-m2-cB 5bot-a1-m1-cA_5bot-a1-m1-cB 5boy-a1-m1-cA_5boy-a1-m1-cB YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPG YNVFPRTLKWSKMNLTYRIVNYTPDMTHSEVEKAFKKAFKVWSDVTPLNFTRLHDGIADIMISFGIKEHGDFYPFDGPSGLLAHAFPPGPNYGGDAHFDDDETWTSSSKGYNLFLVAAHEFGHSLGLDHSKDPGALMFPIYTYTGKSHFMLPDDDVQGIQSLYGPGDED 5bpo-a1-m1-cA_5bpo-a1-m1-cC Human insulin with intra-chain chemical crosslink between modified B27 and B29 P01308 P01308 1.9 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 1b9e-a2-m1-cA_1b9e-a2-m2-cC GIVEQCCTSICSLYQLENYCN GIVEQCCTSICSLYQLENYCN 5bpx-a1-m1-cA_5bpx-a1-m2-cA Structure of the 2,4'-dihydroxyacetophenone dioxygenase from Alcaligenes sp. 4HAP. Q9REI7 Q9REI7 1.88 X-RAY DIFFRACTION 91 1.0 512 (Alcaligenes sp.) 512 (Alcaligenes sp.) 153 153 4p9g-a1-m1-cA_4p9g-a1-m2-cA LPEAYIPNAATEDERYYVPFTETVASRPLWISPQQNRWCDILLAREAGLVNRHYHPHEVFAYTISGKWGYLEHDWTATRGDFVYETPGEGHTLVAFEHEEPMRVFFIVQGPLIWLDEAGNSIGHFDVHDYIAMCREHYEKVGLGADLVVTLFR LPEAYIPNAATEDERYYVPFTETVASRPLWISPQQNRWCDILLAREAGLVNRHYHPHEVFAYTISGKWGYLEHDWTATRGDFVYETPGEGHTLVAFEHEEPMRVFFIVQGPLIWLDEAGNSIGHFDVHDYIAMCREHYEKVGLGADLVVTLFR 5bq2-a1-m1-cA_5bq2-a1-m1-cD Crystal structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase (UDP-N-acetylglucosamine enolpyruvyl transferase, EPT) from Pseudomonas aeruginosa Q9HVW7 Q9HVW7 1.7 X-RAY DIFFRACTION 44 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 424 424 5bq2-a1-m1-cB_5bq2-a1-m1-cC HHHHMDKLIITGGNRLDGEIRISGAKNSALPILAATLLADTPVTVCNLPHLHDITTMIELFGRMGVQPIIDEKLNVEVDASSIKTLVAPYELVKTMRASILVLGPMLARFGEAEVALPGGAIGSRPVDLHIRGLEAMGAQIEVEGGYIKAKAPAGGLRGGHFFFDTVSVTGTENLMMAAALANGRTVLQNAAREPEVVDLANCLNAMGANVQGAGSDTIVIEGVKRLGGARYDVLPDRIETGTYLVAAAATGGRVKLKDTDPTILEAVLQKLEEAGAHISTGSNWIELDMKGNRPKAVNVRTAPYPAFPTDMQAQFISMNAVAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPKLKGAPVMATDLRASASLVIAGLVAEGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG HHHHMDKLIITGGNRLDGEIRISGAKNSALPILAATLLADTPVTVCNLPHLHDITTMIELFGRMGVQPIIDEKLNVEVDASSIKTLVAPYELVKTMRASILVLGPMLARFGEAEVALPGGAIGSRPVDLHIRGLEAMGAQIEVEGGYIKAKAPAGGLRGGHFFFDTVSVTGTENLMMAAALANGRTVLQNAAREPEVVDLANCLNAMGANVQGAGSDTIVIEGVKRLGGARYDVLPDRIETGTYLVAAAATGGRVKLKDTDPTILEAVLQKLEEAGAHISTGSNWIELDMKGNRPKAVNVRTAPYPAFPTDMQAQFISMNAVAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPKLKGAPVMATDLRASASLVIAGLVAEGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG 5bq2-a1-m1-cB_5bq2-a1-m1-cD Crystal structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase (UDP-N-acetylglucosamine enolpyruvyl transferase, EPT) from Pseudomonas aeruginosa Q9HVW7 Q9HVW7 1.7 X-RAY DIFFRACTION 23 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 424 424 5bq2-a1-m1-cA_5bq2-a1-m1-cC HHHHMDKLIITGGNRLDGEIRISGAKNSALPILAATLLADTPVTVCNLPHLHDITTMIELFGRMGVQPIIDEKLNVEVDASSIKTLVAPYELVKTMRASILVLGPMLARFGEAEVALPGGAIGSRPVDLHIRGLEAMGAQIEVEGGYIKAKAPAGGLRGGHFFFDTVSVTGTENLMMAAALANGRTVLQNAAREPEVVDLANCLNAMGANVQGAGSDTIVIEGVKRLGGARYDVLPDRIETGTYLVAAAATGGRVKLKDTDPTILEAVLQKLEEAGAHISTGSNWIELDMKGNRPKAVNVRTAPYPAFPTDMQAQFISMNAVAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPKLKGAPVMATDLRASASLVIAGLVAEGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG HHHHMDKLIITGGNRLDGEIRISGAKNSALPILAATLLADTPVTVCNLPHLHDITTMIELFGRMGVQPIIDEKLNVEVDASSIKTLVAPYELVKTMRASILVLGPMLARFGEAEVALPGGAIGSRPVDLHIRGLEAMGAQIEVEGGYIKAKAPAGGLRGGHFFFDTVSVTGTENLMMAAALANGRTVLQNAAREPEVVDLANCLNAMGANVQGAGSDTIVIEGVKRLGGARYDVLPDRIETGTYLVAAAATGGRVKLKDTDPTILEAVLQKLEEAGAHISTGSNWIELDMKGNRPKAVNVRTAPYPAFPTDMQAQFISMNAVAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPKLKGAPVMATDLRASASLVIAGLVAEGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG 5bq2-a1-m1-cC_5bq2-a1-m1-cD Crystal structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase (UDP-N-acetylglucosamine enolpyruvyl transferase, EPT) from Pseudomonas aeruginosa Q9HVW7 Q9HVW7 1.7 X-RAY DIFFRACTION 98 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 424 424 5bq2-a1-m1-cA_5bq2-a1-m1-cB HHHHMDKLIITGGNRLDGEIRISGAKNSALPILAATLLADTPVTVCNLPHLHDITTMIELFGRMGVQPIIDEKLNVEVDASSIKTLVAPYELVKTMRASILVLGPMLARFGEAEVALPGGAIGSRPVDLHIRGLEAMGAQIEVEGGYIKAKAPAGGLRGGHFFFDTVSVTGTENLMMAAALANGRTVLQNAAREPEVVDLANCLNAMGANVQGAGSDTIVIEGVKRLGGARYDVLPDRIETGTYLVAAAATGGRVKLKDTDPTILEAVLQKLEEAGAHISTGSNWIELDMKGNRPKAVNVRTAPYPAFPTDMQAQFISMNAVAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPKLKGAPVMATDLRASASLVIAGLVAEGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG HHHHMDKLIITGGNRLDGEIRISGAKNSALPILAATLLADTPVTVCNLPHLHDITTMIELFGRMGVQPIIDEKLNVEVDASSIKTLVAPYELVKTMRASILVLGPMLARFGEAEVALPGGAIGSRPVDLHIRGLEAMGAQIEVEGGYIKAKAPAGGLRGGHFFFDTVSVTGTENLMMAAALANGRTVLQNAAREPEVVDLANCLNAMGANVQGAGSDTIVIEGVKRLGGARYDVLPDRIETGTYLVAAAATGGRVKLKDTDPTILEAVLQKLEEAGAHISTGSNWIELDMKGNRPKAVNVRTAPYPAFPTDMQAQFISMNAVAEGTGAVIETVFENRFMHVYEMNRMGAQILVEGNTAIVTGVPKLKGAPVMATDLRASASLVIAGLVAEGDTLIDRIYHIDRGYECIEEKLQLLGAKIRRVPG 5bqd-a1-m1-cB_5bqd-a1-m1-cA Crystal Structure of TBX5 (1-239) Dimer Q99593 Q99593 2.583 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 197 FTQQGMEGIKVFLHERELWLKFHEVGTEMIITKAGRRMFPSYKVKVTGLNPKTKYILLMDIVPADDHRYKFADNKWSVTGKAEPAMPGRLYVHPDSPATGAHWMRQLVSFQKLKLTNNHLDPFGHIILNSMHKYQPRLHIVKANTAFCTHVFPETAFIAVTSYQNHKITQLKIENN SKSPSSPQAAFTQQGMEGIKVFLHERELWLKFHEVGTEMIITKAGRRMFPSYKVKVTGLNPKTKYILLMDIVPADDHRYKFADNKWSVTGKAEPAMPGRLYVHPDSPATGAHWMRQLVSFQKLKLTNNHLDPFGHIILNSMHKYQPRLHIVKADENNGFGSKNTAFCTHVFPETAFIAVTSYQNHKITQLKIENNPF 5bqk-a2-m1-cB_5bqk-a2-m1-cC CRYSTAL STRUCTURE OF C-TERMINAL DOMAIN OF ICP27 PROTEIN FROM HSV-1 P10238 P10238 2 X-RAY DIFFRACTION 362 1.0 10298 (Human alphaherpesvirus 1) 10298 (Human alphaherpesvirus 1) 261 262 4yxp-a1-m1-cA_4yxp-a1-m1-cB 5bqk-a1-m1-cA_5bqk-a1-m2-cA DTIDATTRLVLRSISERAAVDRISESFGRSAQVHDPFGGQPFPAANSPWAPVLAPFDAETRRVSWETLVAHGPSLYRTFAGNPRAASTAKARDCVLRQENFIEALASADETLAWCKCIHHNLPLRPQDPIIGTAAAVLDNLATRLRPFLQCYLKARGLCGLDELCSRRRLADIKDIASFVFVILARLANRVERGVAEIDYATLGVGVGEKHFYLPGACAGLIEILDTHRQECSSRVCELTASHIVAPPYVHGKYFYCNSLF ADTIDATTRLVLRSISERAAVDRISESFGRSAQVHDPFGGQPFPAANSPWAPVLAPFDAETRRVSWETLVAHGPSLYRTFAGNPRAASTAKARDCVLRQENFIEALASADETLAWCKCIHHNLPLRPQDPIIGTAAAVLDNLATRLRPFLQCYLKARGLCGLDELCSRRRLADIKDIASFVFVILARLANRVERGVAEIDYATLGVGVGEKHFYLPGACAGLIEILDTHRQECSSRVCELTASHIVAPPYVHGKYFYCNSLF 5bql-a1-m1-cD_5bql-a1-m1-cA Fluorescent protein cyOFP A0A182DW87 A0A182DW87 2.39 X-RAY DIFFRACTION 67 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 220 225 5bql-a1-m1-cC_5bql-a1-m1-cB LIKENMHSKLYLEGSVNGHQFKCTHEGEGKPYEGTQTNRIKVVEGGPLPFAFDILATMFSKTFIKYPKGLPDYFKQSFPEGFTWERVMVFEDGGVLTATQDTSLQDGCLIYNVKLRGVNFPANGPVMQKKTLGWEPSTETLYPADGGLEGRCDKALKLVGGGHLHCNFKTTYRSKKPATNLKMPGVHYVDRRLERIKEADNETYVEQHEVAVARYCDLPS GEELIKENMHSKLYLEGSVNGHQFKCTHEGEGKPYEGTQTNRIKVVEGGPLPFAFDILATMFSKTFIKYPKGLPDYFKQSFPEGFTWERVMVFEDGGVLTATQDTSLQDGCLIYNVKLRGVNFPANGPVMQKKTLGWEPSTETLYPADGGLEGRCDKALKLVGGGHLHCNFKTTYRSKKPATNLKMPGVHYVDRRLERIKEADNETYVEQHEVAVARYCDLPSKL 5bql-a1-m1-cD_5bql-a1-m1-cC Fluorescent protein cyOFP A0A182DW87 A0A182DW87 2.39 X-RAY DIFFRACTION 67 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 220 222 5bql-a1-m1-cB_5bql-a1-m1-cA LIKENMHSKLYLEGSVNGHQFKCTHEGEGKPYEGTQTNRIKVVEGGPLPFAFDILATMFSKTFIKYPKGLPDYFKQSFPEGFTWERVMVFEDGGVLTATQDTSLQDGCLIYNVKLRGVNFPANGPVMQKKTLGWEPSTETLYPADGGLEGRCDKALKLVGGGHLHCNFKTTYRSKKPATNLKMPGVHYVDRRLERIKEADNETYVEQHEVAVARYCDLPS ELIKENMHSKLYLEGSVNGHQFKCTHEGEGKPYEGTQTNRIKVVEGGPLPFAFDILATMFSKTFIKYPKGLPDYFKQSFPEGFTWERVMVFEDGGVLTATQDTSLQDGCLIYNVKLRGVNFPANGPVMQKKTLGWEPSTETLYPADGGLEGRCDKALKLVGGGHLHCNFKTTYRSKKPATNLKMPGVHYVDRRLERIKEADNETYVEQHEVAVARYCDLPSK 5bqs-a1-m1-cA_5bqs-a1-m1-cB S. Pneumoniae Fabh with small molecule inhibitor 4 C1CIR8 C1CIR8 1.9 X-RAY DIFFRACTION 270 1.0 488223 (Streptococcus pneumoniae P1031) 488223 (Streptococcus pneumoniae P1031) 323 323 AFAKISQVAHYVPEQVVTNHDLAQIMDTNDEWISSRTGIRQRHISRTESTSDLATEVAKKLMAKAGITGKELDFIILATITPDSMMPSTAARVQANIGANKAFAFDLTAACSGFVFALSTAEKFIASGRFQKGLVIGSETLSKAVDWSDRSTAVLFGDGAGGVLLEASEQEHFLAESLNSDGSRSECLTYGHSGLHSPFSDQESADSFLKMDGRTVFDFAIRDVAKSIKQTIDESPIEVTDLDYLLLHQANDRILDKMARKIGVDRAKLPANMMEYGNTSAASIPILLSECVEQGLIPLDGSQTVLLSGFGGGLTWGTLILTI AFAKISQVAHYVPEQVVTNHDLAQIMDTNDEWISSRTGIRQRHISRTESTSDLATEVAKKLMAKAGITGKELDFIILATITPDSMMPSTAARVQANIGANKAFAFDLTAACSGFVFALSTAEKFIASGRFQKGLVIGSETLSKAVDWSDRSTAVLFGDGAGGVLLEASEQEHFLAESLNSDGSRSECLTYGHSGLHSPFSDQESADSFLKMDGRTVFDFAIRDVAKSIKQTIDESPIEVTDLDYLLLHQANDRILDKMARKIGVDRAKLPANMMEYGNTSAASIPILLSECVEQGLIPLDGSQTVLLSGFGGGLTWGTLILTI 5brd-a1-m1-cA_5brd-a1-m1-cB Crystal structure of Trypanosoma cruzi glucokinase in complex with inhibitor BENZ-GlcN Q4E4E1 Q4E4E1 2.4 X-RAY DIFFRACTION 110 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 367 367 2q2r-a1-m1-cA_2q2r-a1-m1-cB 5bre-a1-m1-cA_5bre-a1-m1-cB 5brf-a1-m1-cA_5brf-a1-m1-cB 5brh-a1-m1-cB_5brh-a1-m1-cA 7s2h-a1-m1-cB_7s2h-a1-m1-cA 7s2n-a1-m1-cB_7s2n-a1-m1-cA 7s2p-a1-m1-cA_7s2p-a1-m1-cB 8stx-a1-m1-cB_8stx-a1-m1-cA MNIKELSLHELCEELKTPAWNVPLTFVGDVGGTSARMGFVREGKNDSVHACVTRYSMKRKDITELIEFFNEIIELMPASVIKRVKAGVINVPGPVTGGAVGGPFNNLKGIARLSDYPKALFPPGRSAILNDLEAGGFGVLAVSDAHVFSEYFGVMWEGTQWRTCEQEPAGSVIGRGRCLVLAPGTGLGSSLIYYNPMNQQHIVVPLELGSQTIPMRKDIDYIQTLHAELKLLPNYENMVSGAGLEFHYRQVVRGSRPPCSAGEIAKLASEGDANACKAMKKYHEYLMRVGSEASMALLPLTIVLVGDNIVNNAFFYRNPQNLKEMHREALNHEMERFGFQSRVTYLRQKKLLNLNLMGCYRCGLDLS MNIKELSLHELCEELKTPAWNVPLTFVGDVGGTSARMGFVREGKNDSVHACVTRYSMKRKDITELIEFFNEIIELMPASVIKRVKAGVINVPGPVTGGAVGGPFNNLKGIARLSDYPKALFPPGRSAILNDLEAGGFGVLAVSDAHVFSEYFGVMWEGTQWRTCEQEPAGSVIGRGRCLVLAPGTGLGSSLIYYNPMNQQHIVVPLELGSQTIPMRKDIDYIQTLHAELKLLPNYENMVSGAGLEFHYRQVVRGSRPPCSAGEIAKLASEGDANACKAMKKYHEYLMRVGSEASMALLPLTIVLVGDNIVNNAFFYRNPQNLKEMHREALNHEMERFGFQSRVTYLRQKKLLNLNLMGCYRCGLDLS 5brj-a1-m1-cA_5brj-a1-m2-cA Structure of the bacteriophytochrome response regulator AtBRR 1.922 X-RAY DIFFRACTION 90 1.0 1082932 (Agrobacterium tumefaciens CCNWGS0286) 1082932 (Agrobacterium tumefaciens CCNWGS0286) 140 140 PELRPILLVEDNPRDLELTLTALEKCQLANEVVVARDGTEALDYLNVTGSYHNRPGGDPAVVLLDLKLPKVDGLEVLQTVKGSDHLRHIPVVMLTSSREEQDLVRSYELGVNAFVVKPVEFNQFFKAIQDLGVFWALLNE PELRPILLVEDNPRDLELTLTALEKCQLANEVVVARDGTEALDYLNVTGSYHNRPGGDPAVVLLDLKLPKVDGLEVLQTVKGSDHLRHIPVVMLTSSREEQDLVRSYELGVNAFVVKPVEFNQFFKAIQDLGVFWALLNE 5bs1-a2-m1-cC_5bs1-a2-m1-cD Crystal structure of RbcX-IIa from Chlamydomonas reinhardtii 1.6 X-RAY DIFFRACTION 120 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 106 112 5bs1-a1-m1-cB_5bs1-a1-m1-cA HIPADSFSGASPERKAAVALRSLFTFVAARVVLEQLQGTYNQQAYLDLDFLGTPKGDGGDEWAAVRKNHALALRLEVREAYLDEFEWGKTEASRETREANTRLRAA HIPADSFSGASPERKAAVALRSLFTFVAARVVLEQLQGPGGPETTYNQQAYLDLDFLGTPKGDGGDEWAAVRKNHALALRLEVREAYLDEFEWGKTEASRETREANTRLRAA 5bs2-a1-m1-cA_5bs2-a1-m1-cB Crystal structure of RbcX-IIa from Chlamydomonas reinhardtii in complex with RbcL C-terminal tail P00877 P00877 1.97 X-RAY DIFFRACTION 115 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 113 113 ASPERKAAVALRSLFTFVAARVVLEQLQGPGGPETTYNQQAYLDLMDFLGTPMKGDGGDEWMAAVMRKNHALALRLMEVREAYLDEFEWGKTMEMASRETREANTRLMRAAAM ASPERKAAVALRSLFTFVAARVVLEQLQGPGGPETTYNQQAYLDLMDFLGTPMKGDGGDEWMAAVMRKNHALALRLMEVREAYLDEFEWGKTMEMASRETREANTRLMRAAAM 5bs3-a1-m1-cB_5bs3-a1-m1-cD Crystal Structure of S.A. gyrase in complex with Compound 7 P20831 P20831 2.65 X-RAY DIFFRACTION 235 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 670 670 2xcr-a1-m1-cB_2xcr-a1-m1-cD 2xcr-a2-m1-cU_2xcr-a2-m1-cS 2xcs-a1-m1-cD_2xcs-a1-m1-cB 2xct-a1-m1-cB_2xct-a1-m1-cD 4bul-a1-m1-cC_4bul-a1-m1-cA 4plb-a1-m1-cD_4plb-a1-m1-cB 5cdm-a1-m1-cC_5cdm-a1-m1-cA 5cdn-a1-m1-cC_5cdn-a1-m1-cA 5cdn-a2-m1-cR_5cdn-a2-m1-cT 5cdo-a2-m1-cR_5cdo-a2-m1-cT 5cdp-a1-m1-cC_5cdp-a1-m1-cA 5cdq-a1-m1-cA_5cdq-a1-m1-cC 5cdq-a2-m1-cR_5cdq-a2-m1-cT 5cdr-a1-m1-cC_5cdr-a1-m1-cA 5iwi-a1-m1-cC_5iwi-a1-m1-cA 5iwm-a1-m1-cC_5iwm-a1-m1-cA 5npk-a1-m1-cB_5npk-a1-m1-cD 5npk-a2-m1-cd_5npk-a2-m1-cb 5npp-a1-m1-cD_5npp-a1-m1-cB 6fm4-a1-m1-cD_6fm4-a1-m1-cB 6fqm-a2-m1-ca_6fqm-a2-m1-cc 6fqs-a1-m1-cC_6fqs-a1-m1-cA 6fqv-a1-m1-cC_6fqv-a1-m1-cA 6fqv-a2-m1-cR_6fqv-a2-m1-cT 6qtk-a1-m1-cC_6qtk-a1-m1-cA 6qtp-a1-m1-cA_6qtp-a1-m1-cC 6qx1-a1-m1-cC_6qx1-a1-m1-cA 6qx2-a1-m1-cA_6qx2-a1-m1-cC 6qx2-a2-m1-cJ_6qx2-a2-m1-cL 6qx2-a3-m1-cT_6qx2-a3-m1-cR 6qx2-a4-m1-ca_6qx2-a4-m1-cc 6qx2-a5-m1-cl_6qx2-a5-m1-cj 6qx2-a6-m1-ct_6qx2-a6-m1-cr 6z1a-a1-m1-cB_6z1a-a1-m1-cD 7mvs-a1-m1-cA_7mvs-a1-m1-cB 8bp2-a1-m1-cCCC_8bp2-a1-m1-cAAA KLADCSSKSPEECEIFLVEGDSAGGSTKSGRDSRTQAILPLRGKILNVEKARLDRILNNNEIRQMITAFGTGIGGDFDLAKARYHKIVIMTDADVDGAHIRTLLLTFFYRFMRPLIEAGYVYIAQPPTGYKGLGEMNADQLWETTMNPEHRALLQVKLEDAIEADQTFEMLMGDVVENRRQFIEDNAVYNERNITSEMRESFLDYAMSVIVARALPDVRDGLKPVHRRILYGLNEQGMTPDKSYKKSARIVGDVMGKYHPHGDSSIYEAMVRMAQDFSYRYPLVDGQGNFGSMDGDGAAAMRFTEARMTKITLELLRDINKDTIDFIDNYDGNEREPSVLPARFPNLLANGASGIAVGMATNIPPHNLTELINGVLSLSKNPDISIAELMEDIEGPDFPTAGLILGKSGIRRAYETGRGSIQMRSRAVIEERGGGRQRIVVTEIPFQVNKARMIEKIAELVRDKKIDGITDLRDETSLRTGVRVVIDVRKDANASVILNNLYKQTPLQTSFGVNMIALVNGRPKLINLKEALVHYLEHQKTVVRRRTQYNLRKAKDRAHILEGLRIALDHIDEIISTIRESDTDKVAMESLQQRFKLSEKQAQAILDMRLRRLTGLERDKIEAEYNELLNYISELETILADEEVLLQLVRDELTEIRDRFGDDRRTEIQL KLADCSSKSPEECEIFLVEGDSAGGSTKSGRDSRTQAILPLRGKILNVEKARLDRILNNNEIRQMITAFGTGIGGDFDLAKARYHKIVIMTDADVDGAHIRTLLLTFFYRFMRPLIEAGYVYIAQPPTGYKGLGEMNADQLWETTMNPEHRALLQVKLEDAIEADQTFEMLMGDVVENRRQFIEDNAVYNERNITSEMRESFLDYAMSVIVARALPDVRDGLKPVHRRILYGLNEQGMTPDKSYKKSARIVGDVMGKYHPHGDSSIYEAMVRMAQDFSYRYPLVDGQGNFGSMDGDGAAAMRFTEARMTKITLELLRDINKDTIDFIDNYDGNEREPSVLPARFPNLLANGASGIAVGMATNIPPHNLTELINGVLSLSKNPDISIAELMEDIEGPDFPTAGLILGKSGIRRAYETGRGSIQMRSRAVIEERGGGRQRIVVTEIPFQVNKARMIEKIAELVRDKKIDGITDLRDETSLRTGVRVVIDVRKDANASVILNNLYKQTPLQTSFGVNMIALVNGRPKLINLKEALVHYLEHQKTVVRRRTQYNLRKAKDRAHILEGLRIALDHIDEIISTIRESDTDKVAMESLQQRFKLSEKQAQAILDMRLRRLTGLERDKIEAEYNELLNYISELETILADEEVLLQLVRDELTEIRDRFGDDRRTEIQL 5bs6-a2-m1-cC_5bs6-a2-m1-cD Apo structure of transcriptional factor AraR from Bacteroides thetaiotaomicron VPI Q8AAV8 Q8AAV8 2.35 X-RAY DIFFRACTION 93 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 217 219 5bs6-a1-m1-cA_5bs6-a1-m1-cB 5dd4-a1-m1-cA_5dd4-a1-m2-cA 5ddg-a1-m1-cB_5ddg-a1-m1-cA 5deq-a1-m1-cA_5deq-a1-m1-cB AKNYYSSNPTFYLGIDCIIFGFNEGEISLLLLKRNFEPAGEWSLGGFVQKDESVDDAAKRVLAELTGLENVYEQVGAFGAIDRDPGERVVSIAYYALININEYDRELVQKHNAYWVNINELPALIFDHPEVDKAREKQKASVEPIGFNLLPKLFTLSQLQSLYEAIYGEPDKRNFRKRVAEDFIEKTDKIDKLGSKRGAALYKFNGKAYRKDPKFKL SNAKNYYSSNPTFYLGIDCIIFGFNEGEISLLLLKRNFEPAGEWSLGGFVQKDESVDDAAKRVLAELTGLENVYEQVGAFGAIDRDPGERVVSIAYYALININEYDRELVQKHNAYWVNINELPALIFDHPEVDKAREKQKASVEPIGFNLLPKLFTLSQLQSLYEAIYGEPDKRNFRKRVAEDFIEKTDKIDKLGSKRGAALYKFNGKAYRKDPKFKL 5bsz-a1-m1-cA_5bsz-a1-m4-cA X-ray structure of the sugar N-methyltransferase KedS8 from Streptoalloteichus sp ATCC 53650 K4P132 K4P132 2 X-RAY DIFFRACTION 76 1.0 756733 (Streptoalloteichus sp. ATCC 53650) 756733 (Streptoalloteichus sp. ATCC 53650) 247 247 5bsz-a1-m2-cA_5bsz-a1-m3-cA GHMAVGSTSVYGDALGEVYDLFYRGRGKDFAAEAEWVRRVVRERRPGARSLLDVACGTGEHLAHLVEHFPDAAGVELSPAMRAAAERKLTATPVHQADMFDFDLGRVFDAVCCLTGSIAYAADTAELARAVRAMARHLPVGGVLVIDPWWSPGTFLDGHIAHDVVEGEGRTVVRLSRSHRIGDVSRHEAHYLAADATGVRHFSQVQDLTLFPAEDYLAALAAAGCEPEHLTDVGQPRRGLFVGVRRE GHMAVGSTSVYGDALGEVYDLFYRGRGKDFAAEAEWVRRVVRERRPGARSLLDVACGTGEHLAHLVEHFPDAAGVELSPAMRAAAERKLTATPVHQADMFDFDLGRVFDAVCCLTGSIAYAADTAELARAVRAMARHLPVGGVLVIDPWWSPGTFLDGHIAHDVVEGEGRTVVRLSRSHRIGDVSRHEAHYLAADATGVRHFSQVQDLTLFPAEDYLAALAAAGCEPEHLTDVGQPRRGLFVGVRRE 5bsz-a1-m2-cA_5bsz-a1-m4-cA X-ray structure of the sugar N-methyltransferase KedS8 from Streptoalloteichus sp ATCC 53650 K4P132 K4P132 2 X-RAY DIFFRACTION 125 1.0 756733 (Streptoalloteichus sp. ATCC 53650) 756733 (Streptoalloteichus sp. ATCC 53650) 247 247 5bsz-a1-m1-cA_5bsz-a1-m3-cA GHMAVGSTSVYGDALGEVYDLFYRGRGKDFAAEAEWVRRVVRERRPGARSLLDVACGTGEHLAHLVEHFPDAAGVELSPAMRAAAERKLTATPVHQADMFDFDLGRVFDAVCCLTGSIAYAADTAELARAVRAMARHLPVGGVLVIDPWWSPGTFLDGHIAHDVVEGEGRTVVRLSRSHRIGDVSRHEAHYLAADATGVRHFSQVQDLTLFPAEDYLAALAAAGCEPEHLTDVGQPRRGLFVGVRRE GHMAVGSTSVYGDALGEVYDLFYRGRGKDFAAEAEWVRRVVRERRPGARSLLDVACGTGEHLAHLVEHFPDAAGVELSPAMRAAAERKLTATPVHQADMFDFDLGRVFDAVCCLTGSIAYAADTAELARAVRAMARHLPVGGVLVIDPWWSPGTFLDGHIAHDVVEGEGRTVVRLSRSHRIGDVSRHEAHYLAADATGVRHFSQVQDLTLFPAEDYLAALAAAGCEPEHLTDVGQPRRGLFVGVRRE 5bsz-a1-m3-cA_5bsz-a1-m4-cA X-ray structure of the sugar N-methyltransferase KedS8 from Streptoalloteichus sp ATCC 53650 K4P132 K4P132 2 X-RAY DIFFRACTION 15 1.0 756733 (Streptoalloteichus sp. ATCC 53650) 756733 (Streptoalloteichus sp. ATCC 53650) 247 247 5bsz-a1-m1-cA_5bsz-a1-m2-cA GHMAVGSTSVYGDALGEVYDLFYRGRGKDFAAEAEWVRRVVRERRPGARSLLDVACGTGEHLAHLVEHFPDAAGVELSPAMRAAAERKLTATPVHQADMFDFDLGRVFDAVCCLTGSIAYAADTAELARAVRAMARHLPVGGVLVIDPWWSPGTFLDGHIAHDVVEGEGRTVVRLSRSHRIGDVSRHEAHYLAADATGVRHFSQVQDLTLFPAEDYLAALAAAGCEPEHLTDVGQPRRGLFVGVRRE GHMAVGSTSVYGDALGEVYDLFYRGRGKDFAAEAEWVRRVVRERRPGARSLLDVACGTGEHLAHLVEHFPDAAGVELSPAMRAAAERKLTATPVHQADMFDFDLGRVFDAVCCLTGSIAYAADTAELARAVRAMARHLPVGGVLVIDPWWSPGTFLDGHIAHDVVEGEGRTVVRLSRSHRIGDVSRHEAHYLAADATGVRHFSQVQDLTLFPAEDYLAALAAAGCEPEHLTDVGQPRRGLFVGVRRE 5btq-a3-m1-cA_5btq-a3-m1-cB Crystal structure of human heme oxygenase 1 H25R with biliverdin bound P09601 P09601 2.08 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 215 1twn-a1-m1-cA_1twn-a1-m1-cB 1twr-a1-m1-cA_1twr-a1-m1-cB 4wd4-a1-m1-cA_4wd4-a1-m1-cB 4wd4-a2-m1-cC_4wd4-a2-m1-cD QDLSEALKEATKEVRTQAENAEFMRNFQKGQVTRDGFKLVMASLYHIYVALEEEIERNKESPVFAPVYFPEELHRKAALEQDLAFWYGPRWQEVIPYTPAMQRYVKRLHEVGRTEPELLVAHAYTRYLGDLSGGQVLKKIAQKALDLPSSGEGLAFFTFPNIASATKFKQLYRSRMNSLEMTPAVRQRVIEEAKTAFLLNIQLFEELQELLTH PQDLSEALKEATKEVRTQAENAEFMRNFQKGQVTRDGFKLVMASLYHIYVALEEEIERNKESPVFAPVYFPEELHRKAALEQDLAFWYGPRWQEVIPYTPAMQRYVKRLHEVGRTEPELLVAHAYTRYLGDLSGGQVLKKIAQKALDLPSSGEGLAFFTFPNIASATKFKQLYRSRMNSLEMTPAVRQRVIEEAKTAFLLNIQLFEELQELLTHD 5bu6-a3-m1-cA_5bu6-a3-m2-cB Structure of BpsB deaceylase domain from Bordetella bronchiseptica 1.951 X-RAY DIFFRACTION 23 1.0 257310 (Bordetella bronchiseptica RB50) 257310 (Bordetella bronchiseptica RB50) 264 264 PDPDDGLTFRVLSMHDVRDNLRASFADMPDQFAIETRTLTDLFEWIRVKGFNPISMQQIIDSRAGVRPLPPRPILLTFDDGYASTYTKVFPLLAAFNYPAVVAVVTSWTDAPAGTKIRLSPKIEVPHDFFMTWAQLREMAQSGLVELASHSHNLHRGVLANPQGNEQPAASSRQYLPASGRYENDAEYRARVRQDLKTSAHLIRHHTGVTIRSIVWPYGAHNRDTDQVAAEVGLNIGLTLQPGPNTPDVALTQIRRSLVDYEVN PDPDDGLTFRVLSMHDVRDNLRASFADMPDQFAIETRTLTDLFEWIRVKGFNPISMQQIIDSRAGVRPLPPRPILLTFDDGYASTYTKVFPLLAAFNYPAVVAVVTSWTDAPAGTKIRLSPKIEVPHDFFMTWAQLREMAQSGLVELASHSHNLHRGVLANPQGNEQPAASSRQYLPASGRYENDAEYRARVRQDLKTSAHLIRHHTGVTIRSIVWPYGAHNRDTDQVAAEVGLNIGLTLQPGPNTPDVALTQIRRSLVDYEVN 5bu7-a1-m1-cA_5bu7-a1-m2-cB Crystal structure of an engineered protein that forms nanotubes with tunable diameters P0ABE7 P0ABE7 2.46 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 106 5bu7-a1-m1-cB_5bu7-a1-m2-cA ADLEDNMETLNDNLKVIEKADNAAQVEKALEKMLAAAADALKATPPKLEDKSPDSPEMHDFRHGFAILMGQIHDAAHLANEGKVKEAQAAAEQLKCTCNACHQKYR ADLEDNMETLNDNLKVIEKADNAAQVEKALEKMLAAAADALKATPPKLEDKSPDSPEMHDFRHGFAILMGQIHDAAHLANEGKVKEAQAAAEQLKCTCNACHQKYR 5bu7-a1-m1-cB_5bu7-a1-m2-cB Crystal structure of an engineered protein that forms nanotubes with tunable diameters P0ABE7 P0ABE7 2.46 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 106 106 5bu7-a1-m1-cA_5bu7-a1-m2-cA ADLEDNMETLNDNLKVIEKADNAAQVEKALEKMLAAAADALKATPPKLEDKSPDSPEMHDFRHGFAILMGQIHDAAHLANEGKVKEAQAAAEQLKCTCNACHQKYR ADLEDNMETLNDNLKVIEKADNAAQVEKALEKMLAAAADALKATPPKLEDKSPDSPEMHDFRHGFAILMGQIHDAAHLANEGKVKEAQAAAEQLKCTCNACHQKYR 5bum-a1-m1-cA_5bum-a1-m1-cB Crystal Structure of LysM domain from Equisetum arvense chitinase A C7G3I3 C7G3I3 2.5 X-RAY DIFFRACTION 27 1.0 3258 (Equisetum arvense) 3258 (Equisetum arvense) 49 49 CTSYYTVKSGDICYNIAQTYGIDVATLQSYNPGLQCDNLQIGQQLCVAD CTSYYTVKSGDICYNIAQTYGIDVATLQSYNPGLQCDNLQIGQQLCVAD 5buv-a2-m1-cB_5buv-a2-m2-cB X-ray structure of WbcA from Yersinia enterocolitica A1JNA0 A1JNA0 1.75 X-RAY DIFFRACTION 115 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 173 173 5buv-a1-m1-cA_5buv-a1-m1-cC SIINITELNISGCYLIESPIFSDERGEFVKTHHQEIFKNFGLEIPSAEEYYSRSKNNVIRGMHFQQYPDDHNKLVFCPEGEVLDVFLDIRKDSNTYGQFMSFILNPHNRRSIFLAKGIAHGFLSMKDNTLIVCKTSTVHSPSRDSGIHWNSFGFKWPVENPIISDKDRNLDCF SIINITELNISGCYLIESPIFSDERGEFVKTHHQEIFKNFGLEIPSAEEYYSRSKNNVIRGMHFQQYPDDHNKLVFCPEGEVLDVFLDIRKDSNTYGQFMSFILNPHNRRSIFLAKGIAHGFLSMKDNTLIVCKTSTVHSPSRDSGIHWNSFGFKWPVENPIISDKDRNLDCF 5buy-a1-m1-cC_5buy-a1-m1-cB Crystal Structure of beta-hydroxyacyl-acyl carrier protein dehydratase (FabZ) from Francisella tularensis Q5NEQ0 Q5NEQ0 2.55 X-RAY DIFFRACTION 83 0.993 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 139 143 5buy-a1-m1-cE_5buy-a1-m1-cA 5buy-a1-m1-cF_5buy-a1-m1-cD NNKQIDVMGIRKILPHRYPFALLDKIVDWSVEDRTIVAQKNVTINEDFFNGHFPDFPVMPGVLIVEAMAQATAILGELMATFMLAGIDKVRVKRPVVPGDVLVIESRMVKQKNIICTAESVAKVDGQIVCSAELMAAYK NKQIDVMGIRKILPHRYPFALLDKIVDWSVEDRTIVAQKNVTINEDFFNGHFPDFPVMPGVLIVEAMAQATAILGELMAETLFTFMLAGIDKVRVKRPVVPGDVLVIESRMVKQKNIICTAESVAKVDGQIVCSAELMAAYKD 5buy-a1-m1-cE_5buy-a1-m1-cF Crystal Structure of beta-hydroxyacyl-acyl carrier protein dehydratase (FabZ) from Francisella tularensis Q5NEQ0 Q5NEQ0 2.55 X-RAY DIFFRACTION 86 0.992 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 130 135 5buy-a1-m1-cB_5buy-a1-m1-cA 5buy-a1-m1-cD_5buy-a1-m1-cC KQIDVMGIRKILPHRYPFALLDKIVDWSVEDRTIVAQKNVTINEDFFNGHFPDFPVMPGVLIVEAMAQATAILGELMATFMLAGIDKVRVKRPVVPGDVLVIESRMVCTAESVAKVDGQIVCSAELMAAY KQIDVMGIRKILPHRYPFALLDKIVDWSVEDRTIVAQKNVTINEDFFNGHFPDFPVMPGVLIVEAMAQATAILGELMTFMLAGIDKVRVKRPVVPGDVLVIESRMVKQKNIICTAESVAKVDGQIVCSAELMAAY 5bv3-a1-m1-cB_5bv3-a1-m1-cA Yeast Scavenger Decapping Enzyme in complex with m7GDP Q06151 Q06151 2.25 X-RAY DIFFRACTION 371 0.991 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 316 329 5bv3-a2-m1-cD_5bv3-a2-m1-cC 6trq-a1-m1-cB_6trq-a1-m1-cA 6trq-a2-m1-cD_6trq-a2-m1-cC GMFASLIKRFQFVSVLDSNPQTKVMSLLGTIDNKDAIITAEKTHFLFDETPVLYNCENEYSCINGIQELKEITSNDIYYWGLSVIKQDMESNPTAKLNLIWPATPIHIKKYEQQNFHLVRETPEMYKRIVQPYIEEMWVNNILYEGAESERVVYKDFSEENKDDGFLILPDMNLDSLYLVAIVYRTDIKTIRDLRYSDRQWLINLNNKIRSIVPGCYNYAVHPDELRILVHYQPSYYHFNIHIVNIKHPGLGNSIAAGKAILLEDIIEMLNYLGPEGYMNKTITYAIGENHDLWKRGLEEELTKQLERDGIPKIPK MFASLIKRFQFVSVLDSNPQTKVMSLLGTIDNKDAIITAEKTHFLFDETDGRSTPVLYNCENEYSCINGIQELKEITSNDIYYWGLSVIKQDMESNPTAKLNLIWPATPIHIKKYEQQNFHLVRETPEMYKRIVQPYIEEMCGRLKWVNNILYEGAESERVVYKDFSEKDDGFLILPDMKWDGMNLDSLYLVAIVYRTDIKTIRDLRYSDRQWLINLNNKIRSIVPGCYNYAVHPDELRILVHYQPSYYHFNIHIVNIKHPGLGNSIAAGKAILLEDIIEMLNYLGPEGYMNKTITYAIGENHDLWKRGLEEELTKQLERDGIPKIPKI 5bv5-a5-m1-cB_5bv5-a5-m1-cD Structure of CYP119 with T213A and C317H mutations Q55080 Q55080 2.7 X-RAY DIFFRACTION 45 0.997 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 288 327 MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIKEKFKEWSDLLGKKYLELIGYVKLSDIEKLGYIILLLIAGNEATTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGILHLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLK MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFIFELGKKYLELIGYVKDHLNSGTEVVSRVVSNLSDIEKLGYIILLLIAGNEATTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLHLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS 5bv5-a6-m2-cC_5bv5-a6-m5-cD Structure of CYP119 with T213A and C317H mutations Q55080 Q55080 2.7 X-RAY DIFFRACTION 14 0.99 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 311 327 MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDLPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPGEIFELGKKYLELIGYVKDHLNSGTEVVSRVVNLSDIEKLGYIILLLIAGNEATTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLHLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRL MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFIFELGKKYLELIGYVKDHLNSGTEVVSRVVSNLSDIEKLGYIILLLIAGNEATTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLHLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS 5bv5-a7-m1-cA_5bv5-a7-m3-cD Structure of CYP119 with T213A and C317H mutations Q55080 Q55080 2.7 X-RAY DIFFRACTION 55 0.994 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 315 327 5bv5-a5-m2-cA_5bv5-a5-m1-cD 5bv5-a6-m4-cA_5bv5-a6-m5-cD MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDLPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSIFELGKKYLELIGYVKDHLSGTEVVSRLSDIEKLGYIILLLIAGNEATTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLGDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSLHLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLK MYDWFSEMRKKDPVYYDGNIWQVFSYRYTKEVLNNFSKFSSDPPLHDELRSMSADIFSPQKLQTLETFIRETTRSLLDSIDPREDDIVKKLAVPLPIIVISKILGLPIEDKEKFKEWSDLVAFIFELGKKYLELIGYVKDHLNSGTEVVSRVVSNLSDIEKLGYIILLLIAGNEATTNLISNSVIDFTRFNLWQRIREENLYLKAIEEALRYSPPVMRTVRKTKERVKLDQTIEEGEYVRVWIASANRDEEVFHDGEKFIPDRNPNPHLSFGSGIHLHLGAPLARLEARIAIEEFSKRFRHIEILDTEKVPNEVLNGYKRLVVRLKS 5bvb-a6-m2-cD_5bvb-a6-m1-cC Engineered Digoxigenin binder DIG5.1a 2.06 X-RAY DIFFRACTION 49 0.984 32630 (synthetic construct) 32630 (synthetic construct) 127 130 5bvb-a5-m1-cB_5bvb-a5-m1-cA GSSMNAKEILVHSLRLLENGDARGWCDLFHPEGVLEYPYAPPGWKTRFEGRETIWAHMRLHPEHVTWRFTDVQFYETADPDLAIGEYHGDGVVTVSGGKYAADYITVLRTRDGQILLLRVFWNPLRI SMNAKEILVHSLRLLENGDARGWCDLFHPEGVLEYPYAPPGWKTRFEGRETIWAHMRLHPEHVTWRFTDVQFYETADPDLAIGEYHGDGVVTVSGGKYAADYITVLRTRDGQILLLRVFWNPLRILEAAG 5bwe-a1-m1-cA_5bwe-a1-m1-cD Benzylsuccinate synthase alpha-beta-gamma complex with bound toluene and fumarate O68395 O68395 3.3 X-RAY DIFFRACTION 119 1.0 59405 (Thauera aromatica) 59405 (Thauera aromatica) 857 857 4pkc-a1-m1-cA_4pkc-a1-m2-cA 4pkf-a1-m1-cA_4pkf-a1-m2-cA KVLEYKGKKLNFTPEDPAEETIPADELHEHLQKPSTARTKRLKERCRWKHASAGEFIEKSVTAGIERMRYLTEAHKASEGKPEAIRRALGLANVLNKSTLVLQEDEFIVGYHAEDPNMFPLYPELSHMAVQDYLRSDYSPQPADEAAAINEYWKPHSLQSKCQPYFDPADLGRMYQVSSMEAPSFASGYNSIVPPYETVLEDGLLARIKLAEKHIAEAQADMSTFPWNGTKGLDNIAKIDNWKAMVIACKAVISWARRQGRLCKIVAENFETDPKRQAELLEIADICQRIPAEPCKGLKDAMQAKFFTFLICHAIERYASGYAQKEDTLLWPYYKASVVDKKFQPMSHMDAVELVEMERLKISEHGAGKSRAYREIFPGSNDLFILTVGGTNAKGEDACNDMTDAILEAAKRIRTAEPSIVFRYSKKNREKTLRWVFECIRDGLGYPSIKHDEIGTEQMKEYAKFSLNGNGATDEEAHNWVNVLCMSPGIHGRRKTQKTRSEGGGSIFPAKLLEISLNDGYDWSYADMQLGPKTGDLSSLKSFEDVWEAFRKQYQYAINLCISTKDVSRYFEQRFLQMPFVSAIDDGCMELGMDACALSEQPNGWHNPITTIVAANSLVAIKKLVFEEKKYTLEQLSQALKANWEGFEEMRVDFKRAPKWGNDDDYADGIITRFYEEIIGGEMRKITNYSGGPVMPTGQAVGLYMEVGSRTGPTPDGRFGGEAADDGGISPYMGTDKKGPTAVLRSVSKVQKNQKGNLLNQRLSVPIMRSKHGFEIWNSYIKTWHDLNIDHVQFNVVSTDEMRAAQREPEKHHDLIVRVSGYSARFVDIPTYGQNTIIARQEQDFSASDLEFLNVEI KVLEYKGKKLNFTPEDPAEETIPADELHEHLQKPSTARTKRLKERCRWKHASAGEFIEKSVTAGIERMRYLTEAHKASEGKPEAIRRALGLANVLNKSTLVLQEDEFIVGYHAEDPNMFPLYPELSHMAVQDYLRSDYSPQPADEAAAINEYWKPHSLQSKCQPYFDPADLGRMYQVSSMEAPSFASGYNSIVPPYETVLEDGLLARIKLAEKHIAEAQADMSTFPWNGTKGLDNIAKIDNWKAMVIACKAVISWARRQGRLCKIVAENFETDPKRQAELLEIADICQRIPAEPCKGLKDAMQAKFFTFLICHAIERYASGYAQKEDTLLWPYYKASVVDKKFQPMSHMDAVELVEMERLKISEHGAGKSRAYREIFPGSNDLFILTVGGTNAKGEDACNDMTDAILEAAKRIRTAEPSIVFRYSKKNREKTLRWVFECIRDGLGYPSIKHDEIGTEQMKEYAKFSLNGNGATDEEAHNWVNVLCMSPGIHGRRKTQKTRSEGGGSIFPAKLLEISLNDGYDWSYADMQLGPKTGDLSSLKSFEDVWEAFRKQYQYAINLCISTKDVSRYFEQRFLQMPFVSAIDDGCMELGMDACALSEQPNGWHNPITTIVAANSLVAIKKLVFEEKKYTLEQLSQALKANWEGFEEMRVDFKRAPKWGNDDDYADGIITRFYEEIIGGEMRKITNYSGGPVMPTGQAVGLYMEVGSRTGPTPDGRFGGEAADDGGISPYMGTDKKGPTAVLRSVSKVQKNQKGNLLNQRLSVPIMRSKHGFEIWNSYIKTWHDLNIDHVQFNVVSTDEMRAAQREPEKHHDLIVRVSGYSARFVDIPTYGQNTIIARQEQDFSASDLEFLNVEI 5bwj-a2-m1-cC_5bwj-a2-m1-cD Structural characterization and modeling of the Borrelia burgdorferi hybrid histidine kinase Hk1 periplasmic sensor O51381 O51381 2.054 X-RAY DIFFRACTION 91 0.995 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 202 203 5bwj-a1-m1-cA_5bwj-a1-m1-cB SKDIFKFKLVDQFFPFYYKNNKGEYEGLIFSILDKWAKDNNADIMVEHIDNLNESEIEDEAIYLGLTYNVKLNDFFYFKSELARSISILFFKNTFLSNFNIGVIKNTIYEDILRLKNVNTIFLADNSQELVLALKNDKVDYIYGDCKTLHYIANNFLSEDLVIFTGDVFYSIKNRVAISRNAPEIVKNLNLDLFSYLMKMPE KDIFKFKLVDQFFPFYYKNNKGEYEGLIFSILDKWAKDNNADIMVEHIDNLNESEIEDEAIYLGLTYNVKLNDFFYFKSELARSISILFFKNHSTFLSNFNIGVIKNTIYEDILRLKNVNTIFLADNSQELVLALKNDKVDYIYGDCKTLHYIANNFLSEDLVIFTGDVFYSIKNRVAISRNAPEIVKNLNLDLFSYLMKMPE 5bwk-a1-m1-cC_5bwk-a1-m1-cM 6.0 A Crystal structure of a Get3-Get4-Get5 intermediate complex from S.cerevisiae Q12154 Q12154 6 X-RAY DIFFRACTION 14 1.0 285006 (Saccharomyces cerevisiae RM11-1a) 285006 (Saccharomyces cerevisiae RM11-1a) 304 304 VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 5bwk-a1-m1-cC_5bwk-a1-m1-cP 6.0 A Crystal structure of a Get3-Get4-Get5 intermediate complex from S.cerevisiae Q12154 Q12154 6 X-RAY DIFFRACTION 11 1.0 285006 (Saccharomyces cerevisiae RM11-1a) 285006 (Saccharomyces cerevisiae RM11-1a) 304 304 VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 5bwk-a1-m1-cM_5bwk-a1-m1-cP 6.0 A Crystal structure of a Get3-Get4-Get5 intermediate complex from S.cerevisiae Q12154 Q12154 6 X-RAY DIFFRACTION 66 1.0 285006 (Saccharomyces cerevisiae RM11-1a) 285006 (Saccharomyces cerevisiae RM11-1a) 304 304 5bwk-a1-m1-cA_5bwk-a1-m1-cD 5bwk-a1-m1-cB_5bwk-a1-m1-cC 5bwk-a1-m1-cN_5bwk-a1-m1-cO VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 5bwk-a1-m1-cO_5bwk-a1-m1-cP 6.0 A Crystal structure of a Get3-Get4-Get5 intermediate complex from S.cerevisiae Q12154 Q12154 6 X-RAY DIFFRACTION 49 1.0 285006 (Saccharomyces cerevisiae RM11-1a) 285006 (Saccharomyces cerevisiae RM11-1a) 304 304 3b2e-a2-m1-cD_3b2e-a2-m1-cC 3sja-a1-m1-cA_3sja-a1-m1-cB 3sja-a2-m1-cE_3sja-a2-m1-cF 3sja-a3-m1-cI_3sja-a3-m2-cI 5bw8-a1-m1-cB_5bw8-a1-m1-cA 5bwk-a1-m1-cA_5bwk-a1-m1-cB 5bwk-a1-m1-cC_5bwk-a1-m1-cD 5bwk-a1-m1-cM_5bwk-a1-m1-cN VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE VEPNLHSLITSTTHKWIFVGGKGGVGKTTSSCSIAIQMALSQPNKQFLLISTDPAHNLSDAFGEKFGKDARKVTGMNNLSCMEIDPSAGSIPGIDEALSFMEVMKHIKRQEQGEGETFDTVIFDTAPTGHTLRFLQLPNTLSKLLEKFGEITNKLGPMLNSFMGISGKLNELKANVETIRQQFTDPDLTTFVCVCISEFLSLYETERLIQELISYDMDVNSIIVNQLLFAENDQEHNCKRCQARWKMQKKYLDQIDELYEDFHVVKMPLCAGEIRGLNNLTKFSQFLNKEYNPITDGKVIYELE 5bxh-a1-m1-cE_5bxh-a1-m1-cC Crystal structure of pentameric KCTD9 BTB domain Q7L273 Q7L273 2.76 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 99 5bxh-a1-m1-cB_5bxh-a1-m1-cA 5bxh-a1-m1-cB_5bxh-a1-m1-cD 5bxh-a1-m1-cC_5bxh-a1-m1-cA 5bxh-a1-m1-cE_5bxh-a1-m1-cD DWLTLNVGGRYFTTTRSTLVNKEPDSMLAHMFKDKQDHRGAFLIDRSPEYFEPILNYLRHGQLIVNDGINLLGVLEEARFFGIDSLIEHLEVAIKNS NADWLTLNVGGRYFTTTRSTLVNKEPDSMLAHMFKDKQDHRGAFLIDRSPEYFEPILNYLRHGQLIVNDGINLLGVLEEARFFGIDSLIEHLEVAIKNS 5bxx-a2-m1-cC_5bxx-a2-m1-cD Crystal structure of the ectoine synthase from the cold-adapted marine bacterium Sphingopyxis alaskensis Q1GNW6 Q1GNW6 2 X-RAY DIFFRACTION 121 1.0 317655 (Sphingopyxis alaskensis RB2256) 317655 (Sphingopyxis alaskensis RB2256) 111 112 5bxx-a1-m1-cB_5bxx-a1-m1-cA 5by5-a1-m1-cA_5by5-a1-m2-cA MIVRNLGDIRKTDRNVRSDGWASARMLLKDDGMGFSFHVTTLFAGSELRMHYQNHLEAVLVLKGTGTIEDLATGEVHALRPGVMYALDDHDRHIVRPETDILTACVFNPPV MIVRNLGDIRKTDRNVRSDGWASARMLLKDDGMGFSFHVTTLFAGSELRMHYQNHLEAVLVLKGTGTIEDLATGEVHALRPGVMYALDDHDRHIVRPETDILTACVFNPPVT 5by2-a1-m1-cA_5by2-a1-m4-cA Sedoheptulose 7-phosphate isomerase from Colwellia psychrerythraea strain 34H Q47VU0 Q47VU0 2.8 X-RAY DIFFRACTION 112 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 194 194 5by2-a1-m2-cA_5by2-a1-m3-cA HMLEQIKNNFTESIQTQIAASELLGPSIEHAGMMMVQCLLGGNKIISCGNGGSAGHAQHFCAQLLNKYETERPSLPAISLNSDISTITSIANDYQYDEVFSKQIRALGHNGDVLLAISTSGNSRNVVKAIESAVSRDIPIIALTGFDGGDISGLLGEGDVEIRVPSARTSRIQEVHLVVLHSLCEIIDTTLFPQ HMLEQIKNNFTESIQTQIAASELLGPSIEHAGMMMVQCLLGGNKIISCGNGGSAGHAQHFCAQLLNKYETERPSLPAISLNSDISTITSIANDYQYDEVFSKQIRALGHNGDVLLAISTSGNSRNVVKAIESAVSRDIPIIALTGFDGGDISGLLGEGDVEIRVPSARTSRIQEVHLVVLHSLCEIIDTTLFPQ 5by2-a1-m2-cA_5by2-a1-m4-cA Sedoheptulose 7-phosphate isomerase from Colwellia psychrerythraea strain 34H Q47VU0 Q47VU0 2.8 X-RAY DIFFRACTION 103 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 194 194 5by2-a1-m1-cA_5by2-a1-m3-cA HMLEQIKNNFTESIQTQIAASELLGPSIEHAGMMMVQCLLGGNKIISCGNGGSAGHAQHFCAQLLNKYETERPSLPAISLNSDISTITSIANDYQYDEVFSKQIRALGHNGDVLLAISTSGNSRNVVKAIESAVSRDIPIIALTGFDGGDISGLLGEGDVEIRVPSARTSRIQEVHLVVLHSLCEIIDTTLFPQ HMLEQIKNNFTESIQTQIAASELLGPSIEHAGMMMVQCLLGGNKIISCGNGGSAGHAQHFCAQLLNKYETERPSLPAISLNSDISTITSIANDYQYDEVFSKQIRALGHNGDVLLAISTSGNSRNVVKAIESAVSRDIPIIALTGFDGGDISGLLGEGDVEIRVPSARTSRIQEVHLVVLHSLCEIIDTTLFPQ 5by2-a1-m3-cA_5by2-a1-m4-cA Sedoheptulose 7-phosphate isomerase from Colwellia psychrerythraea strain 34H Q47VU0 Q47VU0 2.8 X-RAY DIFFRACTION 58 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 194 194 5by2-a1-m1-cA_5by2-a1-m2-cA HMLEQIKNNFTESIQTQIAASELLGPSIEHAGMMMVQCLLGGNKIISCGNGGSAGHAQHFCAQLLNKYETERPSLPAISLNSDISTITSIANDYQYDEVFSKQIRALGHNGDVLLAISTSGNSRNVVKAIESAVSRDIPIIALTGFDGGDISGLLGEGDVEIRVPSARTSRIQEVHLVVLHSLCEIIDTTLFPQ HMLEQIKNNFTESIQTQIAASELLGPSIEHAGMMMVQCLLGGNKIISCGNGGSAGHAQHFCAQLLNKYETERPSLPAISLNSDISTITSIANDYQYDEVFSKQIRALGHNGDVLLAISTSGNSRNVVKAIESAVSRDIPIIALTGFDGGDISGLLGEGDVEIRVPSARTSRIQEVHLVVLHSLCEIIDTTLFPQ 5by4-a1-m1-cA_5by4-a1-m2-cA Structure and function of the Escherichia coli Tol-Pal stator protein TolR P0ABV6 P0ABV6 1.702 X-RAY DIFFRACTION 147 1.0 562 (Escherichia coli) 562 (Escherichia coli) 105 105 PIITQSVEVDLPDATESQAVSSNDNPPVIVEVSGIGQYTVVVEKDRLERLPPEQVVAEVSSRFKANPKTVFLIGGAKDVPYDEIIKALNLLHSAGVKSVGLMTQP PIITQSVEVDLPDATESQAVSSNDNPPVIVEVSGIGQYTVVVEKDRLERLPPEQVVAEVSSRFKANPKTVFLIGGAKDVPYDEIIKALNLLHSAGVKSVGLMTQP 5by6-a2-m1-cD_5by6-a2-m1-cC Crystal structure of Trichinella spiralis thymidylate synthase complexed with dUMP Q9NDD3 Q9NDD3 1.9 X-RAY DIFFRACTION 123 1.0 6334 (Trichinella spiralis) 6334 (Trichinella spiralis) 282 286 5by6-a1-m1-cA_5by6-a1-m1-cB 5m4z-a1-m1-cB_5m4z-a1-m1-cA YVNQEELNYLNQLKDIIDHGVRKNDRTGIGTLSTFGTQSRYCLRDDIFPLLTTKRVFWRGVVEELLWFISGSTNAKQLSEKNVNIWDGNSSREFLDSRGLYNYEEGDLGPVYGFQWRHFGCPYSSMTADYKGKGYDQLQQCIKMIREEPESRRIIMTAWNPCDLEKVALPPCHCFVQFYVADGELSCQMYQRSADMGLGVPFNIASYSLLTRMIAHITSLKPGFFIHTIGDAHVYLTHVDALKVQMERKPRPFPKLKILRNVENIDDFRAEDFELINYKPYP YVNQEELNYLNQLKDIIDHGVRKNDRTGIGTLSTFGTQSRYCLRDDIFPLLTTKRVFWRGVVEELLWFISGSTNAKQLSEKNVNIWDGNSSREFLDSRGLYNYEEGDLGPVYGFQWRHFGCPYSSMTADYKGKGYDQLQQCIKMIREEPESRRIIMTAWNPCDLEKVALPPCHCFVQFYVADGELSCQMYQRSADMGLGVPFNIASYSLLTRMIAHITSLKPGFFIHTIGDAHVYLTHVDALKVQMERKPRPFPKLKILRNVENIDDFRAEDFELINYKPYPKISM 5by7-a2-m1-cC_5by7-a2-m1-cB AbyA1 - tetronic acid condensing enzyme F4F7F9 F4F7F9 1.8 X-RAY DIFFRACTION 199 0.997 263358 (Micromonospora maris AB-18-032) 263358 (Micromonospora maris AB-18-032) 310 321 5by7-a1-m1-cD_5by7-a1-m1-cA VSVLSAASALPGPTVDNATLGRRLIGTRTRHLAVDLDSGEIRHTLADLAHQAGSRALDAAGVTPEEVDLVVLGTATPDRLMPTTATVVADRLGIDGVPAYQLQSGCSGAVQALAVTRSLLLGGTARTALVLGGDVVARFYDVNYVLFGDGVGAAVLRVGEVAGAAALRSVFTRLVGLGREPGATLEWFGPTEDRNRPAATEDYKAIERHVPDLAAEVVEELLGELGWARDDLDYVLPPQLSGRMTALIVERLKLPQATEVSCVAETGNNGNGIVFLQLERALARLAGGQRALGVSIESSKWIKSGFALEG TVSVLSAASALPGPTVDNATLGRRLGMDRLWEQWVDIGTRTRHLAVDLDSGEIRHTLADLAHQAGSRALDAAGVTPEEVDLVVLGTATPDRLMPTTATVVADRLGIDGVPAYQLQSGCSGAVQALAVTRSLLLGGTARTALVLGGDVVARFYVNYVLFGDGVGAAVLRVGEVAGAAALRSVFTRLVGLGREPGATLEWFGPTEDRNRPAATEDYKAIERHVPDLAAEVVEELLGELGWARDDLDYVLPPQLSGRMTALIVERLKLPQATEVSCVAETGNNGNGIVFLQLERALARLAGGQRALGVSIESSKWIKSGFALEG 5bza-a1-m1-cA_5bza-a1-m1-cB Crystal structure of CbsA from Thermotoga neapolitana Q9AG27 Q9AG27 2.002 X-RAY DIFFRACTION 159 1.0 2337 (Thermotoga neapolitana) 2337 (Thermotoga neapolitana) 447 450 5c0q-a1-m1-cA_5c0q-a1-m1-cB 5c0q-a2-m1-cD_5c0q-a2-m1-cC LGKLFFCGFDDFNEEAREVIQKYRPAGVLIYPGVLSKEYLFLDFMNFLSRNGRFIVSSDHEGGQLEVLKYVPSFPGNLAAGKVDPVFTGRYCEMAGRIMNTLGFNMVFAPVLDLLSLRSFGSDPEVVASHGMEACMGYFKGGVIPCIKHFPGHGKTADDSHYLLPTVNASFEELWREDLLPFRRIFQSRVKTAVMTAHVKYPAVDDLPATLSKKLITEVLREKLNFKGLVLSDAMEMKAISENFSVEEAVRFFIEAGGNMILLDNFRDLPVYYESLKKLIEDGSIERGKVERSIKIVDEYLSALENRFNSGLIAEVAERAIECTRMRKELLGREVVLLVPSNTGDDYDLIPEVAKRFFKVRDVIRYDIEAGPDDVDGELIFDFVVNASKNEQVLQAHLSLPSDRTIYFIIRNPFDAKFFPGRSVVITHSTKPISVYKSFQHLLGRCS DVDLGKLFFCGFDDFNEEAREVIQKYRPAGVLIYPGVLSKEYLFLDFMNFLSRNGRFIVSSDHEGGQLEVLKYVPSFPGNLAAGKVDPVFTGRYCEMAGRIMNTLGFNMVFAPVLDLLSLRSFGSDPEVVASHGMEACMGYFKGGVIPCIKHFPGHGKTADDSHYLLPTVNASFEELWREDLLPFRRIFQSRVKTAVMTAHVKYPAVDDLPATLSKKLITEVLREKLNFKGLVLSDAMEMKAISENFSVEEAVRFFIEAGGNMILLDNFRDLPVYYESLKKLIEDGSIERGKVERSIKIVDEYLSALENRFNSGLIAEVAERAIECTRMRKELLGREVVLLVPSNTGDDYDLIPEVAKRFFKVRDVIRYDIEAGPDDVDGELIFDFVVNASKNEQVLQAHLSLPSDRTIYFIIRNPFDAKFFPGRSVVITHSTKPISVYKSFQHLLGRCS 5c05-a1-m1-cA_5c05-a1-m1-cB Crystal Structure of Gamma-terpinene Synthase from Thymus vulgaris A0A0M3Q1Q3 A0A0M3Q1Q3 1.65 X-RAY DIFFRACTION 70 0.998 49992 (Thymus vulgaris) 49992 (Thymus vulgaris) 514 522 VWNNDFIQSFSTDKYKDEKFLKKKEELIAQVKVLLNTKMEAVKQLELIEDLRNLGLTYYFEDEFKKILTSIYNEHKGFKNEQVGDLYFTSLAFRLLRLHGFDVSEDVFNFFKNEDGSDFKASLGENTKDVLELYEASFLIRVGEVTLEQARVFSTKILEKKVEEGIKDEKLLAWIQHSLALPLHWRIQRLEARWFLDAYKARKDMNPIIYELGKIDFHIIQETQLQEVQEVSQWWTNTNLAEKLPFVRDRIVECYFWALGLFEPHEYGYQRKMAAIIITFVTIIDDVYDVYDTLDELQLFTDAIRKWDVESISTLPYYMQVCYLAVFTYASELAYDILKDQGFNSISYLQRSWLSLVEGFFQEAKWYYAGYTPTLAEYLENAKVSISSPTIISQVYFTLPNSTERTVVENVFGYHNILYLSGMILRLADDLGTTQKAIQCYMNDNNATEEEGTEHVKYLLREAWQEMNSAMADPDCPLSEDLVFAAANLGRTSQFIYLDEIHNQMGGLIFEPYV VWNNDFIQSFSTDKYKDEKFLKKKEELIAQVKVLLNTKMEAVKQLELIEDLRNLGLTYYFEDEFKKILTSIYNEHKGFKNEQVGDLYFTSLAFRLLRLHGFDVSEDVFNFFKNEDGSDFKASLGENTKDVLELYEASFLIRVGEVTLEQARVFSTKILEKKVEEGIKDEKLLAWIQHSLALPLHWRIQRLEARWFLDAYKARKDMNPIIYELGKIDFHIIQETQLQEVQEVSQWWTNTNLAEKLPFVRDRIVECYFWALGLFEPHEYGYQRKMAAIIITFVTIIDDVYDVYDTLDELQLFTDAIRKWDVESISTLPYYMQVCYLAVFTYASELAYDILKDQGFNSISYLQRSWLSLVEGFFQEAKWYYAGYTPTLAEYLENAKVSISSPTIISQVYFTLPNSTERTVVENVFGYHNILYLSGMILRLADDLGTTQFELKRGDVQKAIQCYMNDNNATEEEGTEHVKYLLREAWQEMNSAMADPDCPLSEDLVFAAANLGRTSQFIYLDIHNQMGGLIFEPYV 5c13-a2-m1-cC_5c13-a2-m1-cG Crystal Structure of TAF3 PHD finger bound to histone H3C4me3 peptide Q5VWG9 Q5VWG9 2.101 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 5c13-a1-m1-cA_5c13-a1-m1-cE MYVIRDEWGNQIWICPGCNKPDDGSPMIGCDDCDDWYHWPCVGIMTAPPEEMQWFCPKC MYVIRDEWGNQIWICPGCNKPDDGSPMIGCDDCDDWYHWPCVGIMTAPPEEMQWFCPKC 5c14-a3-m1-cA_5c14-a3-m2-cA Crystal structure of PECAM-1 D1D2 domain P16284 P16284 2.8 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 200 SFTINSVDKSLPDWTVQNGKNLTLQCFADVSTTSHVKPQHQMLFYKDDVLFYNISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVNCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTVSR SFTINSVDKSLPDWTVQNGKNLTLQCFADVSTTSHVKPQHQMLFYKDDVLFYNISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVNCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTVSR 5c14-a3-m1-cB_5c14-a3-m2-cB Crystal structure of PECAM-1 D1D2 domain P16284 P16284 2.8 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 201 SFTINSVDMKSLPDWTVQNGKNLTLQCFADVSTTSHVKPQHQMLFYKDDVLFYNISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVNCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTVSR SFTINSVDMKSLPDWTVQNGKNLTLQCFADVSTTSHVKPQHQMLFYKDDVLFYNISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVNCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTVSR 5c14-a3-m2-cA_5c14-a3-m2-cB Crystal structure of PECAM-1 D1D2 domain P16284 P16284 2.8 X-RAY DIFFRACTION 193 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 201 5c14-a3-m1-cA_5c14-a3-m1-cB SFTINSVDKSLPDWTVQNGKNLTLQCFADVSTTSHVKPQHQMLFYKDDVLFYNISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVNCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTVSR SFTINSVDMKSLPDWTVQNGKNLTLQCFADVSTTSHVKPQHQMLFYKDDVLFYNISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVNCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTVSR 5c1f-a1-m1-cA_5c1f-a1-m1-cB Structure of the Imp2 F-BAR domain Q10199 Q10199 2.3551 X-RAY DIFFRACTION 316 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 298 298 MDKSFSNYFWGANDEGYHALLSRFSDVKHINEELRSFYHERANIEEDYAKRMAKLSRTTFSSLETGCLKESVQVMKAEVDNMAKSHLQISQLLQDDVENAFTRYAASLKDKKKMIVSGIEKVHKDKLSKHQALVKAQDKYHYLCKKVNYYVSQQNMLFGKELEKNNAKLNKTQNAITASSSDYQSAVAAVRDSYARWTNEWRSTCDKLQDIEEERRHFLKSVMWTFTLLISRSCFNDDQACERIRKNLEQCSVSQDVLEFIDAKSTGTGIPQPPKFYDYYKGEVPDDSVELVQANFQR MDKSFSNYFWGANDEGYHALLSRFSDVKHINEELRSFYHERANIEEDYAKRMAKLSRTTFSSLETGCLKESVQVMKAEVDNMAKSHLQISQLLQDDVENAFTRYAASLKDKKKMIVSGIEKVHKDKLSKHQALVKAQDKYHYLCKKVNYYVSQQNMLFGKELEKNNAKLNKTQNAITASSSDYQSAVAAVRDSYARWTNEWRSTCDKLQDIEEERRHFLKSVMWTFTLLISRSCFNDDQACERIRKNLEQCSVSQDVLEFIDAKSTGTGIPQPPKFYDYYKGEVPDDSVELVQANFQR 5c21-a1-m1-cB_5c21-a1-m1-cA Crystal structure of native HlyD from E. coli P09986 P09986 2.5 X-RAY DIFFRACTION 68 1.0 562 (Escherichia coli) 562 (Escherichia coli) 261 267 MASKEIKPIENSIVKEIIVKEGESVRKGDVLLKLTALGAEADTLKTQSSLLQTRLEQTRYQILSRSIELNKLPELKLVSEEEVLRLTSLIKEQFSTWQNQKYQKELNLDKKRAERLTILARINRYENLSRVEKSRLDDFRSLLHKQAIAKHAVLEQENKYVEAANELRVYKSQLEQIESEILSAKEEYQLVTQLFKNEILDKLRQTTDNIELLTLELEKNEERQQASVIRAPVSGKVQQLKVHTEGGVVTTAETLMVIVPE MASKEIKPIENSIVKEIIVKEGESVRKGDVLLKLTALGAEADTLKTQSSLLQTRLEQTRYQILSRSIELNKLPELKLPYFQNVSEEEVLRLTSLIKEQFSTWQNQKYQKELNLDKKRAERLTILARINRYENLSRVEKSRLDDFRSLLHKQAIAKHAVLEQENKYVEAANELRVYKSQLEQIESEILSAKEEYQLVTQLFKNEILDKLRQTTDNIELLTLELEKNEERQQASVIRAPVSGKVQQLKVHTEGGVVTTAETLMVIVPED 5c2i-a1-m1-cB_5c2i-a1-m1-cD Crystal structure of Anabaena sp. DyP-type peroxidese (AnaPX) Q8YWM0 Q8YWM0 1.89 X-RAY DIFFRACTION 38 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 460 461 5c2i-a1-m1-cC_5c2i-a1-m1-cA ALTEKDLKNLPEDGIDSENPGKYRNLLNDLQGNILKGHGRDHSVHLFLQFKPEQVEVVKQWIQSFAQTYITSAKKQADEAFKYRQKGVSGDVFANFFLSRHGYEYLEIEPFQIPGDKPFRMGMKNEEIRSSLGDPKIATWELGFQSEIHALVLIADDDIVDLLQIVNQITQKLRQIAEIVHREDGFILRNQAGQIIEHFGFVHGVSQPLFMKRDVVRERVNNCDFDKWDPKAPLDSILVEDPNGNTKDSYGSYLVYRKLEQNVKAFREDQRKLAQKLNIQENLAGALIVGRFADGTPVTLSDIPTYAVTPTNNFNYDGDLAATKCPFHSHTRKTNPRGDTARDEAFKEERGHRITRRAVSYGENNPSKEPVSGSGLLFLCFQSNIENQFNFMQSRWANPQNFVQVNTGPDPLIGQPSGTQKWPKKWGEPETEEYNFQLWINMKGGEYFFAPSISFLKTLA ALTEKDLKNLPEDGIDSENPGKYRNLLNDLQGNILKGHGRDHSVHLFLQFKPEQVEVVKQWIQSFAQTYITSAKKQADEAFKYRQKGVSGDVFANFFLSRHGYEYLEIEPFQIPGDKPFRMGMKNEEIRSSLGDPKIATWELGFQSEIHALVLIADDDIVDLLQIVNQITQKLRQIAEIVHREDGFILRNQAGQIIEHFGFVHGVSQPLFMKRDVVRERVNNCDFDKWDPKAPLDSILVEDPNGNTKDSYGSYLVYRKLEQNVKAFREDQRKLAQKLNIQENLAGALIVGRFADGTPVTLSDIPTYAVTPTNNFNYDGDLAATKCPFHSHTRKTNPRGDTARFDEAFKEERGHRITRRAVSYGENNPSKEPVSGSGLLFLCFQSNIENQFNFMQSRWANPQNFVQVNTGPDPLIGQPSGTQKWPKKWGEPETEEYNFQLWINMKGGEYFFAPSISFLKTLA 5c2i-a1-m1-cC_5c2i-a1-m1-cD Crystal structure of Anabaena sp. DyP-type peroxidese (AnaPX) Q8YWM0 Q8YWM0 1.89 X-RAY DIFFRACTION 66 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 461 461 5c2i-a1-m1-cB_5c2i-a1-m1-cA ALTEKDLKNLPEDGIDSENPGKYRNLLNDLQGNILKGHGRDHSVHLFLQFKPEQVEVVKQWIQSFAQTYITSAKKQADEAFKYRQKGVSGDVFANFFLSRHGYEYLEIEPFQIPGDKPFRMGMKNEEIRSSLGDPKIATWELGFQSEIHALVLIADDDIVDLLQIVNQITQKLRQIAEIVHREDGFILRNQAGQIIEHFGFVHGVSQPLFMKRDVVRERVNNCDFDKWDPKAPLDSILVEDPNGNTKDSYGSYLVYRKLEQNVKAFREDQRKLAQKLNIQENLAGALIVGRFADGTPVTLSDIPTYAVTPTNNFNYDGDLAATKCPFHSHTRKTNPRGDTARFDEAFKEERGHRITRRAVSYGENNPSKEPVSGSGLLFLCFQSNIENQFNFMQSRWANPQNFVQVNTGPDPLIGQPSGTQKWPKKWGEPETEEYNFQLWINMKGGEYFFAPSISFLKTLA ALTEKDLKNLPEDGIDSENPGKYRNLLNDLQGNILKGHGRDHSVHLFLQFKPEQVEVVKQWIQSFAQTYITSAKKQADEAFKYRQKGVSGDVFANFFLSRHGYEYLEIEPFQIPGDKPFRMGMKNEEIRSSLGDPKIATWELGFQSEIHALVLIADDDIVDLLQIVNQITQKLRQIAEIVHREDGFILRNQAGQIIEHFGFVHGVSQPLFMKRDVVRERVNNCDFDKWDPKAPLDSILVEDPNGNTKDSYGSYLVYRKLEQNVKAFREDQRKLAQKLNIQENLAGALIVGRFADGTPVTLSDIPTYAVTPTNNFNYDGDLAATKCPFHSHTRKTNPRGDTARFDEAFKEERGHRITRRAVSYGENNPSKEPVSGSGLLFLCFQSNIENQFNFMQSRWANPQNFVQVNTGPDPLIGQPSGTQKWPKKWGEPETEEYNFQLWINMKGGEYFFAPSISFLKTLA 5c2o-a1-m1-cA_5c2o-a1-m3-cB Crystal structure of Streptococcus mutans Deoxycytidylate Deaminase complexed with dTTP Q8DSE5 Q8DSE5 2.35 X-RAY DIFFRACTION 65 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 144 144 2hvv-a1-m1-cA_2hvv-a1-m3-cB 2hvv-a1-m1-cB_2hvv-a1-m2-cA 2hvv-a1-m2-cB_2hvv-a1-m3-cA 2hvw-a1-m1-cA_2hvw-a1-m2-cA 2hvw-a1-m1-cB_2hvw-a1-m1-cC 2hvw-a1-m2-cB_2hvw-a1-m2-cC 5c2o-a1-m1-cB_5c2o-a1-m2-cA 5c2o-a1-m2-cB_5c2o-a1-m3-cA LSWQDYFMANAELISKRSTCNRAYVGAVLVKNNRIIATGYNGGVADTDNCDDVGHEMEDGHCIRTVHAEMNALIQCAKEGISANNTEIYVTHFPCINCTKALLQAGVKKITYNTAYRIHPFAIELMTQKEVEYVQHDVPRVKLG LSWQDYFMANAELISKRSTCNRAYVGAVLVKNNRIIATGYNGGVADTDNCDDVGHEMEDGHCIRTVHAEMNALIQCAKEGISANNTEIYVTHFPCINCTKALLQAGVKKITYNTAYRIHPFAIELMTQKEVEYVQHDVPRVKLG 5c2o-a1-m3-cA_5c2o-a1-m3-cB Crystal structure of Streptococcus mutans Deoxycytidylate Deaminase complexed with dTTP Q8DSE5 Q8DSE5 2.35 X-RAY DIFFRACTION 106 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 144 144 2hvv-a1-m1-cA_2hvv-a1-m1-cB 2hvv-a1-m2-cA_2hvv-a1-m2-cB 2hvv-a1-m3-cA_2hvv-a1-m3-cB 2hvw-a1-m1-cB_2hvw-a1-m1-cA 2hvw-a1-m1-cC_2hvw-a1-m2-cC 2hvw-a1-m2-cB_2hvw-a1-m2-cA 5c2o-a1-m1-cA_5c2o-a1-m1-cB 5c2o-a1-m2-cA_5c2o-a1-m2-cB LSWQDYFMANAELISKRSTCNRAYVGAVLVKNNRIIATGYNGGVADTDNCDDVGHEMEDGHCIRTVHAEMNALIQCAKEGISANNTEIYVTHFPCINCTKALLQAGVKKITYNTAYRIHPFAIELMTQKEVEYVQHDVPRVKLG LSWQDYFMANAELISKRSTCNRAYVGAVLVKNNRIIATGYNGGVADTDNCDDVGHEMEDGHCIRTVHAEMNALIQCAKEGISANNTEIYVTHFPCINCTKALLQAGVKKITYNTAYRIHPFAIELMTQKEVEYVQHDVPRVKLG 5c2v-a1-m1-cA_5c2v-a1-m1-cD Kuenenia stuttgartiensis Hydrazine Synthase Q1Q0T2 Q1Q0T2 2.7 X-RAY DIFFRACTION 51 0.999 174633 (Candidatus Kuenenia stuttgartiensis) 174633 (Candidatus Kuenenia stuttgartiensis) 768 770 5c2w-a1-m1-cA_5c2w-a1-m1-cD EPVMTGGPVQGKALWTDYSGMSKEVQGPVSQILFTQSPRTAKGDPYQNYPHYIPEGSRIVLFDLNTKELKVLTNDFATAFDPCTYWDGKKFAFAGVHKKGGGCQIWEMNIDGSGLRQMTDLKGTCRSPIYYAAGSIEEGEGRIIWRDREGDWKEHGMVEKTGMIIFSGSPEGVMDEFHNPYAYNLYRLDTQGGKIIQRITGHVLSGIEFPHLNTTIDQITYNLSSNFDPWLTPDGNILFSSVQANGSRAGGEGRVMICVDNWDGAYPRPIYGNCDGEIGGTSGRSQAKITFGDRKIVYVESPYMNWGVGQLAAVSWDAPFNKTYEKLTGKDGGLYRSPYPLPDDRMLVSYAERGDFGIYWFNFSKCAAGDKVYDDPNWNDHQPAPVYVKYKPRWINTFTAGKNFGVTVVTYQPFDQVKVEGYPHSWGTWICFDTTLSDQPVGPYPHQKAKNVSHGDIKAVRIIQGYQCVEPDSTRFRVGAGAHLLGGERSSSNSGTAFQQRGIIGYQYVESDGSTVTSQLSDVPYYMQILDDKGMSVQTALTWAYLRPYHGRICSGCHYGSYRGRAFKNIHAKALYNWWYDDRSHYDSPFAFRYLKFDNDGNYKGVKHGEDVVGTTSQPVEGLTLDKQRTVDFRRDIQPILDAKCAMCHDSNNPPNLGGGLELVSVDGIAAYSRAYNSLLEPQRGKDPNIGGKYVNPSAAINSLLVWRLYEAELSANAPREKIFPIEGRLLHNKFLTQDERYAIVEWIDLGAQWDNIPGPDFYPGYLV EPVMTGGPVQGKALWTDYSGMSKEVQGPVSQILFTQSPRTAKGDPYQNYPHYIPEGSRIVLFDLNTKELKVLTNDFATAFDPCTYWDGKKFAFAGVHKKGGGCQIWEMNIDGSGLRQMTDLKGTCRSPIYYAAGSIEEGEGRIIWRDEGDWKEHGMVEKTGMIIFSGSPEGVMDEFHNPYAYNLYRLDTQGGKIIQRITGHVLSGIEFPHLNTTIDQITYNLSSNFDPWLTPDGNILFSSVQANGSRAGGEGRVMICVDNWDGAYPRPIYGNCDGEIGGTSGRSQAKITFGDRKIVYVESPYMNWGVGQLAAVSWDAPFNKTYEKLTGKDGGLYRSPYPLPDDRMLVSYAERGDFGIYWFNFSKCAAGDKVYDDPNWNDHQPAPVYVKYKPRWINTFTAGKNFGVTVVTYQPFDQVKVEGYPHSWGTWICFDTTLSDQPVGPYPHQKAKNVSHGDIKAVRIIQGYQCVEPDSTRFRVGAGAHLLGGERSSSNSGTAFQQRGIIGYQYVESDGSTVTSQLSDVPYYMQILDDKGMSVQTALTWAYLRPYHGRICSGCHYGSYRGRAFKNIHAKALYNWWYDDRSHYDSPFAFRYLKFDNDGNYKGVKHGEDVVGPSGTTSQPVEGLTLDKQRTVDFRRDIQPILDAKCAMCHDSNNPPNLGGGLELVSVDGIAAYSRAYNSLLEPQRGKDPNIGGKYVNPSAAINSLLVWRLYEAELSANAPREKIFPIEGRLLHNKFLTQDERYAIVEWIDLGAQWDNIPGPDFYPGYLV 5c2y-a3-m1-cB_5c2y-a3-m1-cA Crystal structure of the Saccharomyces cerevisiae Rtr1 (regulator of transcription) P40084 P40084 2.6 X-RAY DIFFRACTION 39 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 168 178 SGMATIEDIKETALIPFQKHRQLSMHEAEVITLEIIGLLCDSECKDEKTLKYLGRFLTPDMYQDLVDERNLNKRCGYPLCGKSPERIRDPFSMNDTTKKFLLENNPYAYLSHYCSKFHFRCSQFYQVQLSDEALFARTGVHLFEDPEQDKHDIDFKVTLFEELLREKA SGMATIEDIKETALIPFQKHRQLSMHEAEVITLEIIGLLCDSECKDEKTLKYLGRFLTPDMYQDLVDERNLNKRCGYPLCGKSPERIRDPFSMNDTTKKFLLENNPYAYLSHYCSKFHFRCSQFYQVQLSDEALFARTGVHLFEDPEQDKHDIDFKVTLFEELLREKASEEDIKSLIS 5c31-a3-m1-cJ_5c31-a3-m1-cI Constitutively active Sin recombinase catalytic domain reveals two rotational intermediates P20384 P20384 3.1 X-RAY DIFFRACTION 35 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 118 119 5c31-a1-m1-cA_5c31-a1-m1-cB 5c31-a1-m1-cC_5c31-a1-m1-cD 5c31-a2-m1-cE_5c31-a2-m1-cF 5c31-a2-m1-cG_5c31-a2-m1-cH 5c31-a3-m1-cL_5c31-a3-m1-cK 5c32-a1-m1-cA_5c32-a1-m1-cB 5c32-a1-m1-cD_5c32-a1-m1-cC IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVIGNPLLDKFKDLVIQILAVSEQER IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVIGNPLLDKFKDLVIQILAVSEQERN 5c31-a3-m1-cJ_5c31-a3-m1-cK Constitutively active Sin recombinase catalytic domain reveals two rotational intermediates P20384 P20384 3.1 X-RAY DIFFRACTION 39 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 118 119 IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVIGNPLLDKFKDLVIQILAVSEQER IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVIGNPLLDKFKDLVIQILAVSEQERN 5c31-a3-m1-cL_5c31-a3-m1-cI Constitutively active Sin recombinase catalytic domain reveals two rotational intermediates P20384 P20384 3.1 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 118 119 IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVIGNPLLDKFKDLVIQILAVSEQER IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVIGNPLLDKFKDLVIQILAVSEQERN 5c34-a1-m1-cB_5c34-a1-m2-cB Constitutively active Sin recombinase cataltyic domain - I100T/Q115R P20384 P20384 2.655 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 108 108 IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVTGNPLLDKFKDLIIRILAVSEQE IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVTGNPLLDKFKDLIIRILAVSEQE 5c34-a1-m2-cB_5c34-a1-m2-cC Constitutively active Sin recombinase cataltyic domain - I100T/Q115R P20384 P20384 2.655 X-RAY DIFFRACTION 18 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 108 117 5c34-a1-m1-cB_5c34-a1-m1-cC IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVTGNPLLDKFKDLIIRILAVSEQE IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHTVNYLKDKEVQLITSLPNEVTGNPLLDKFKDLIIRILAVSEQE 5c35-a1-m1-cA_5c35-a1-m2-cA Constitutively active Sin recombinase cataltyic domain - T77II100T/Q115R P20384 P20384 2.4 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 117 117 3pkz-a1-m1-cA_3pkz-a1-m1-cC 3pkz-a1-m1-cB_3pkz-a1-m1-cD 3pkz-a2-m1-cF_3pkz-a2-m1-cH 3pkz-a2-m1-cG_3pkz-a2-m1-cE 3pkz-a3-m1-cI_3pkz-a3-m1-cK 3pkz-a3-m1-cJ_3pkz-a3-m1-cL 5c34-a1-m1-cC_5c34-a1-m2-cC 5c35-a1-m1-cB_5c35-a1-m2-cB IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHIVNYLKDKEVQLITSLPNEVTGNPLLDKFKDLIIRILAVSEQE IIGYARVSSLDQNLERQLENLKTFGAEKIFTEKQSGKSIENRPILQKALNFVEGDRFIVESIDRLGRNYNEVIHIVNYLKDKEVQLITSLPNEVTGNPLLDKFKDLIIRILAVSEQE 5c39-a1-m1-cA_5c39-a1-m1-cB Crystal structure of a designed Mn binding peptide 1.751 X-RAY DIFFRACTION 50 1.0 32630 (synthetic construct) 32630 (synthetic construct) 51 51 1mft-a1-m1-cA_1mft-a1-m1-cB 1u7m-a1-m1-cA_1u7m-a1-m1-cB DYLRELYKLEQQAMKLYREASEKARNPEKKSVLQKILEDEEKHIEWLETIN DYLRELYKLEQQAMKLYREASEKARNPEKKSVLQKILEDEEKHIEWLETIN 5c3c-a1-m3-cA_5c3c-a1-m3-cB Structural characterization of a newly identified component of alpha-carboxysomes: The AAA+ domain Protein cso-CbbQ D0KZ75 D0KZ75 2.8 X-RAY DIFFRACTION 85 0.983 555778 (Halothiobacillus neapolitanus c2) 555778 (Halothiobacillus neapolitanus c2) 231 235 5c3c-a1-m1-cA_5c3c-a1-m1-cB 5c3c-a1-m1-cA_5c3c-a1-m3-cB 5c3c-a1-m2-cA_5c3c-a1-m1-cB 5c3c-a1-m2-cA_5c3c-a1-m2-cB 5c3c-a1-m3-cA_5c3c-a1-m2-cB RKEPYYRAVQDEIELYRAGYEARIPMMLKGPTGCGKSRFVEHMAWKLNRPLITIACNEDMTASDLVGRDGPLTVAARIGAICYLDEIVEARQDTIVVIHPLTDHRRVLPLEKKGELVEAHPDFQIVISYNPDLKQSTKQRFGALDFDYPKPDIEAEIVSHEAGVDKDTAEKLVQIAQKARNGLSTRLLVYAGKLIAKGVDARAACTMTLVNPITDDVDMRDALDTVVKTFF KEPYYRAVQDEIELYRAGYEARIPMMLKGPTGCGKSRFVEHMAWKLNRPLITIACNEDMTASDLVDGPLTVAARIGAICYLDEIVEARQDTIVVIHPLTDHRRVLPLEKKGELVEAHPDFQIVISYNDLKQSTKQRFGALDFDYPKPDIEAEIVSHEAGVDKDTAEKLVQIAQKARNLKGHGLDEGLSTRLLVYAGKLIAKGVDARAACTMTLVNPITDDVDMRDALDTVVKTFF 5c3m-a2-m1-cB_5c3m-a2-m3-cB Crystal structure of Gan4C, a GH4 6-phospho-glucosidase from Geobacillus stearothermophilus W8R9V4 W8R9V4 3.059 X-RAY DIFFRACTION 68 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 411 411 5c3m-a1-m1-cA_5c3m-a1-m2-cA 5c3m-a1-m1-cC_5c3m-a1-m2-cC 5c3m-a2-m1-cD_5c3m-a2-m3-cD LKMATIGGGSSYTPELVEGLIKRYHELPVGELWLVDIPEGKEKLEIVGALAKRMVEKAGVPIEIHLTLDRRRALEGADFVTTQFRVGGLEARAKDERIPLKYGVIGQETNGPGGLFKGLRTIPVILDIIRDMEELCPDAWLINFTNPAGMVTEAVLRYTKQEKVVGLCNVPIGMRMGVAKLLGVDADRVHIDFAGLNHMVFGLHVYLDGVEVTEKVIDLVAHPLGWEPDFLKGLKVLPCPYHRYYYQTDKMLAEELEAAKTKGTRAEVVQQLEKELFELYKDPRGGAYYSDAACSLISSIYNDKRDIQPVNTRNNGAIASIPPESAVEVNCVITKDGPKPIAVGDLPVAVRGLVQQIKSFERVAAEAAVTGDYQTALVAMTINPLVPSDTIAKQMLDEMLEAHKEHLPQFF LKMATIGGGSSYTPELVEGLIKRYHELPVGELWLVDIPEGKEKLEIVGALAKRMVEKAGVPIEIHLTLDRRRALEGADFVTTQFRVGGLEARAKDERIPLKYGVIGQETNGPGGLFKGLRTIPVILDIIRDMEELCPDAWLINFTNPAGMVTEAVLRYTKQEKVVGLCNVPIGMRMGVAKLLGVDADRVHIDFAGLNHMVFGLHVYLDGVEVTEKVIDLVAHPLGWEPDFLKGLKVLPCPYHRYYYQTDKMLAEELEAAKTKGTRAEVVQQLEKELFELYKDPRGGAYYSDAACSLISSIYNDKRDIQPVNTRNNGAIASIPPESAVEVNCVITKDGPKPIAVGDLPVAVRGLVQQIKSFERVAAEAAVTGDYQTALVAMTINPLVPSDTIAKQMLDEMLEAHKEHLPQFF 5c3m-a2-m3-cD_5c3m-a2-m3-cB Crystal structure of Gan4C, a GH4 6-phospho-glucosidase from Geobacillus stearothermophilus W8R9V4 W8R9V4 3.059 X-RAY DIFFRACTION 129 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 409 411 5c3m-a1-m1-cA_5c3m-a1-m1-cC 5c3m-a1-m2-cA_5c3m-a1-m2-cC 5c3m-a2-m1-cD_5c3m-a2-m1-cB LKMATIGGGSSYTPELVEGLIKRYHELPVGELWLVDIPEGKEKLEIVGALAKRMVEKAGVPIEIHLTLDRRRALEGADFVTTQFRVGGLEARAKDERIPLKYGVIGQETNGPGGLFKGLRTIPVILDIIRDMEELCPDAWLINFTNPAGMVTEAVLRYTKQEKVVGLCNVPIGMRMGVAKLLGVDADRVHIDFAGLNHMVFGLHVYLDGVEVTEKVIDLVALGWEPDFLKGLKVLPCPYHRYYYQTDKMLAEELEAAKTKGTRAEVVQQLEKELFELYKDPRGGAYYSDAACSLISSIYNDKRDIQPVNTRNNGAIASIPPESAVEVNCVITKDGPKPIAVGDLPVAVRGLVQQIKSFERVAAEAAVTGDYQTALVAMTINPLVPSDTIAKQMLDEMLEAHKEHLPQFF LKMATIGGGSSYTPELVEGLIKRYHELPVGELWLVDIPEGKEKLEIVGALAKRMVEKAGVPIEIHLTLDRRRALEGADFVTTQFRVGGLEARAKDERIPLKYGVIGQETNGPGGLFKGLRTIPVILDIIRDMEELCPDAWLINFTNPAGMVTEAVLRYTKQEKVVGLCNVPIGMRMGVAKLLGVDADRVHIDFAGLNHMVFGLHVYLDGVEVTEKVIDLVAHPLGWEPDFLKGLKVLPCPYHRYYYQTDKMLAEELEAAKTKGTRAEVVQQLEKELFELYKDPRGGAYYSDAACSLISSIYNDKRDIQPVNTRNNGAIASIPPESAVEVNCVITKDGPKPIAVGDLPVAVRGLVQQIKSFERVAAEAAVTGDYQTALVAMTINPLVPSDTIAKQMLDEMLEAHKEHLPQFF 5c4q-a3-m1-cB_5c4q-a3-m1-cA Crystal Structure Analysis of bromodomain from Leishmania donovani complexed with bromosporine A0A3Q8IW45 A0A3Q8IW45 1.932 X-RAY DIFFRACTION 40 1.0 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 114 118 DVSKRPREEFHKEQCLSFVKKLWAADTLAMFHYPVSATEVPGYYDVVDTPMDLSTIRKNIEQGKYRTDTEVENDVVLMLSNALDFNEKGSQWHDLAKQLKKRYLTLAQESGLSF MDVSKRPREEFHKEQCLSFVKKLWAADTLAMFHYPVSATEVPGYYDVVDTPMDLSTIRKNIEQGKYRTDTEVENDVVLMLSNALDFNEKGSQWHDLAKQLKKRYLTLAQESGLSFDAD 5c4y-a1-m1-cA_5c4y-a1-m1-cB Crystal structure of putative TetR family transcription factor from Listeria monocytogenes Q8Y8P4 Q8Y8P4 1.77 X-RAY DIFFRACTION 83 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 134 134 FLEVYQDSIQELTELGRVAEREDLVGEEKLQSIFFVATDFSSNPDEKKFFQRAVFYPPKSLFQELKEETKTYEQLTNRILRETLEKIVSEEALVRWHVFYALLDGLSVEHGIYDETEFELRRKSAWAVLASLLK FLEVYQDSIQELTELGRVAEREDLVGEEKLQSIFFVATDFSSNPDEKKFFQRAVFYPPKSLFQELKEETKTYEQLTNRILRETLEKIVSEEALVRWHVFYALLDGLSVEHGIYDETEFELRRKSAWAVLASLLK 5c5v-a1-m1-cB_5c5v-a1-m2-cB Recombinant Inorganic Pyrophosphatase from T brucei brucei Q384W5 Q384W5 2.35 X-RAY DIFFRACTION 138 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 342 342 5c5v-a1-m1-cA_5c5v-a1-m2-cA TQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGKMDWKVVCISHNDPICRFMKDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLLKVNKRGEL TQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGKMDWKVVCISHNDPICRFMKDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLLKVNKRGEL 5c5v-a1-m2-cA_5c5v-a1-m2-cB Recombinant Inorganic Pyrophosphatase from T brucei brucei Q384W5 Q384W5 2.35 X-RAY DIFFRACTION 50 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 342 342 5c5v-a1-m1-cA_5c5v-a1-m1-cB TQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGKMDWKVVCISHNDPICRFMKDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLLKVNKRGEL TQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGKMDWKVVCISHNDPICRFMKDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLLKVNKRGEL 5c5x-a2-m1-cF_5c5x-a2-m1-cH CRYSTAL STRUCTURE OF THE S156E MUTANT OF HUMAN AQUAPORIN 5 P55064 P55064 2.6 X-RAY DIFFRACTION 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 3d9s-a1-m1-cA_3d9s-a1-m1-cD 3d9s-a1-m1-cB_3d9s-a1-m1-cD 3d9s-a1-m1-cC_3d9s-a1-m1-cA 3d9s-a1-m1-cC_3d9s-a1-m1-cB 5c5x-a1-m1-cA_5c5x-a1-m1-cC 5c5x-a1-m1-cA_5c5x-a1-m1-cD 5c5x-a1-m1-cB_5c5x-a1-m1-cC 5c5x-a1-m1-cB_5c5x-a1-m1-cD 5c5x-a2-m1-cE_5c5x-a2-m1-cG 5c5x-a2-m1-cE_5c5x-a2-m1-cH 5c5x-a2-m1-cF_5c5x-a2-m1-cG 5dye-a1-m1-cA_5dye-a1-m1-cD 5dye-a1-m1-cB_5dye-a1-m1-cD 5dye-a1-m1-cC_5dye-a1-m1-cA 5dye-a1-m1-cC_5dye-a1-m1-cB 7stc-a1-m1-cA_7stc-a1-m1-cC 7stc-a1-m1-cA_7stc-a1-m1-cD 7stc-a1-m1-cB_7stc-a1-m1-cC 7stc-a1-m1-cB_7stc-a1-m1-cD KKEVCSVAFLKAVFAEFLATLIFVFFGLGSALKWPSALPTILQIALAFGLAIGTLAQALGPVSGGHINPAITLALLVGNQISLLRAFFYVAAQLVGAIAGAGILYGVAPLNARGNLAVNALNNNTTQGQAMVVELILTFQLALCIFASTDSRRTEPVGSPALSIGLSVTLGHLVGIYFTGCSMNPARSFGPAVVMNRFSPAHWVFWVGPIVGAVLAAILYFYLLFPNSLSLSERVAIIKGTYEP KKEVCSVAFLKAVFAEFLATLIFVFFGLGSALKWPSALPTILQIALAFGLAIGTLAQALGPVSGGHINPAITLALLVGNQISLLRAFFYVAAQLVGAIAGAGILYGVAPLNARGNLAVNALNNNTTQGQAMVVELILTFQLALCIFASTDSRRTEPVGSPALSIGLSVTLGHLVGIYFTGCSMNPARSFGPAVVMNRFSPAHWVFWVGPIVGAVLAAILYFYLLFPNSLSLSERVAIIKGTYEP 5c5y-a2-m1-cC_5c5y-a2-m1-cD Crystal structure of deoxyribose-phosphate aldolase from Colwellia psychrerythraea (hexagonal form) Q483R4 Q483R4 2.1 X-RAY DIFFRACTION 55 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 246 247 5c2x-a1-m1-cA_5c2x-a1-m1-cB 5c5y-a1-m1-cB_5c5y-a1-m1-cA SDIKAVAQRALSLMDLTSLTNTETDQEIIDLCRQAKSPAGETAAICIFPRFIPVAKKALKAQQTPHIKIATVTNFPQGNDDLDIALAETRAAVAYGADEVDLVFPYRALIQGNETIGFDMVKVCKQACSGNAKLKVIIETGELKSEELIRKASEIAINAGADFIKTSTGKVAINATPEAAKVMLTVIKNKNTAVGFKPAGGVRNADDAAIYLDLADNILGNEWADANHFRFGASSLLISLLDTLGH SDIKAVAQRALSLMDLTSLTNTETDQEIIDLCRQAKSPAGETAAICIFPRFIPVAKKALKAQQTPHIKIATVTNFPQGNDDLDIALAETRAAVAYGADEVDLVFPYRALIQGNETIGFDMVKVCKQACSGNAKLKVIIETGELKSEELIRKASEIAINAGADFIKTSTGKVAINATPEAAKVMLTVIKNKNTAVGFKPAGGVRNADDAAIYLDLADNILGNEWADANHFRFGASSLLISLLDTLGHK 5c5z-a1-m1-cB_5c5z-a1-m1-cA Crystal structure analysis of c4763, a uropathogenic E. coli-specific protein E2QI13 E2QI13 1.45 X-RAY DIFFRACTION 80 1.0 562 (Escherichia coli) 562 (Escherichia coli) 122 123 TTTLLAVNGTLRGLELNPNQKAGGIFVREDRTDAHYRLWSINDRHPGIRVNEGGTHVDVEIWQLPLASFAALLSEPAGLAIGKIKLADGSEVLGVLAENWLTEGQREITELGSWRKYTGHFH TTTLLAVNGTLRGLELNPNQKAGGIFVREDRTDAHYRLWSINDRHPGIRVNEGGTHVDVEIWQLPLASFAALLSEPAGLAIGKIKLADGSEVLGVLAENWLTEGQREITELGSWRKYTGHFHT 5c68-a2-m1-cA_5c68-a2-m2-cA Crystal structure of C-As lyase at 1.46 Angstroms resolution D1A230 D1A230 1.4618 X-RAY DIFFRACTION 101 1.0 471852 (Thermomonospora curvata DSM 43183) 471852 (Thermomonospora curvata DSM 43183) 109 109 5c6x-a2-m1-cA_5c6x-a2-m2-cA 5dfg-a2-m1-cA_5dfg-a2-m2-cA 5drh-a2-m1-cA_5drh-a2-m2-cA 5hcw-a5-m1-cA_5hcw-a5-m1-cB 5hcw-a6-m1-cC_5hcw-a6-m1-cD 6xa0-a1-m1-cB_6xa0-a1-m1-cA 6xck-a3-m1-cA_6xck-a3-m1-cB MSRVQLALRVPDLEASIGFYSKLFGTGPAKVRPGYANFAIAEPPLKLVLIEGAGEDATRLDHLGVEVEDSAQVGHAARRLKESGLATVEENDKVWVTGPGGEPWEVYVV MSRVQLALRVPDLEASIGFYSKLFGTGPAKVRPGYANFAIAEPPLKLVLIEGAGEDATRLDHLGVEVEDSAQVGHAARRLKESGLATVEENDKVWVTGPGGEPWEVYVV 5c6f-a2-m7-cI_5c6f-a2-m7-cK Crystal structures of ferritin mutants reveal side-on binding to diiron and end-on cleavage of oxygen Q9ZLI1 Q9ZLI1 2 X-RAY DIFFRACTION 22 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 172 172 3bve-a1-m1-cA_3bve-a1-m1-cD 3bve-a1-m1-cA_3bve-a1-m4-cC 3bve-a1-m1-cB_3bve-a1-m1-cD 3bve-a1-m1-cB_3bve-a1-m4-cC 3bve-a1-m1-cC_3bve-a1-m3-cA 3bve-a1-m1-cC_3bve-a1-m3-cB 3bve-a1-m1-cE_3bve-a1-m3-cE 3bve-a1-m1-cE_3bve-a1-m4-cE 3bve-a1-m1-cF_3bve-a1-m3-cF 3bve-a1-m1-cF_3bve-a1-m4-cF 3bve-a1-m2-cA_3bve-a1-m2-cD 3bve-a1-m2-cA_3bve-a1-m3-cC 3bve-a1-m2-cB_3bve-a1-m2-cD 3bve-a1-m2-cB_3bve-a1-m3-cC 3bve-a1-m2-cC_3bve-a1-m4-cA 3bve-a1-m2-cC_3bve-a1-m4-cB 3bve-a1-m2-cE_3bve-a1-m3-cE 3bve-a1-m2-cE_3bve-a1-m4-cE 3bve-a1-m2-cF_3bve-a1-m3-cF 3bve-a1-m2-cF_3bve-a1-m4-cF 3bve-a1-m3-cA_3bve-a1-m3-cD 3bve-a1-m3-cB_3bve-a1-m3-cD 3bve-a1-m4-cA_3bve-a1-m4-cD 3bve-a1-m4-cB_3bve-a1-m4-cD 3bvf-a1-m1-cA_3bvf-a1-m1-cD 3bvf-a1-m1-cA_3bvf-a1-m3-cC 3bvf-a1-m1-cB_3bvf-a1-m1-cD 3bvf-a1-m1-cB_3bvf-a1-m3-cC 3bvf-a1-m1-cC_3bvf-a1-m4-cA 3bvf-a1-m1-cC_3bvf-a1-m4-cB 3bvf-a1-m1-cE_3bvf-a1-m3-cE 3bvf-a1-m1-cE_3bvf-a1-m4-cE 3bvf-a1-m1-cF_3bvf-a1-m3-cF 3bvf-a1-m1-cF_3bvf-a1-m4-cF 3bvf-a1-m2-cA_3bvf-a1-m2-cD 3bvf-a1-m2-cA_3bvf-a1-m4-cC 3bvf-a1-m2-cB_3bvf-a1-m2-cD 3bvf-a1-m2-cB_3bvf-a1-m4-cC 3bvf-a1-m2-cC_3bvf-a1-m3-cA 3bvf-a1-m2-cC_3bvf-a1-m3-cB 3bvf-a1-m2-cE_3bvf-a1-m3-cE 3bvf-a1-m2-cE_3bvf-a1-m4-cE 3bvf-a1-m2-cF_3bvf-a1-m3-cF 3bvf-a1-m2-cF_3bvf-a1-m4-cF 3bvf-a1-m3-cA_3bvf-a1-m3-cD 3bvf-a1-m3-cB_3bvf-a1-m3-cD 3bvf-a1-m4-cA_3bvf-a1-m4-cD 3bvf-a1-m4-cB_3bvf-a1-m4-cD 3bvi-a1-m1-cA_3bvi-a1-m1-cD 3bvi-a1-m1-cA_3bvi-a1-m3-cC 3bvi-a1-m1-cB_3bvi-a1-m1-cD 3bvi-a1-m1-cB_3bvi-a1-m3-cC 3bvi-a1-m1-cC_3bvi-a1-m4-cA 3bvi-a1-m1-cC_3bvi-a1-m4-cB 3bvi-a1-m1-cE_3bvi-a1-m3-cE 3bvi-a1-m1-cE_3bvi-a1-m4-cE 3bvi-a1-m1-cF_3bvi-a1-m3-cF 3bvi-a1-m1-cF_3bvi-a1-m4-cF 3bvi-a1-m2-cA_3bvi-a1-m2-cD 3bvi-a1-m2-cA_3bvi-a1-m4-cC 3bvi-a1-m2-cB_3bvi-a1-m2-cD 3bvi-a1-m2-cB_3bvi-a1-m4-cC 3bvi-a1-m2-cC_3bvi-a1-m3-cA 3bvi-a1-m2-cC_3bvi-a1-m3-cB 3bvi-a1-m2-cE_3bvi-a1-m3-cE 3bvi-a1-m2-cE_3bvi-a1-m4-cE 3bvi-a1-m2-cF_3bvi-a1-m3-cF 3bvi-a1-m2-cF_3bvi-a1-m4-cF 3bvi-a1-m3-cA_3bvi-a1-m3-cD 3bvi-a1-m3-cB_3bvi-a1-m3-cD 3bvi-a1-m4-cA_3bvi-a1-m4-cD 3bvi-a1-m4-cB_3bvi-a1-m4-cD 3bvk-a1-m1-cA_3bvk-a1-m1-cD 3bvk-a1-m1-cA_3bvk-a1-m3-cC 3bvk-a1-m1-cB_3bvk-a1-m1-cD 3bvk-a1-m1-cB_3bvk-a1-m3-cC 3bvk-a1-m1-cC_3bvk-a1-m4-cA 3bvk-a1-m1-cC_3bvk-a1-m4-cB 3bvk-a1-m1-cE_3bvk-a1-m3-cE 3bvk-a1-m1-cE_3bvk-a1-m4-cE 3bvk-a1-m1-cF_3bvk-a1-m3-cF 3bvk-a1-m1-cF_3bvk-a1-m4-cF 3bvk-a1-m2-cA_3bvk-a1-m2-cD 3bvk-a1-m2-cA_3bvk-a1-m4-cC 3bvk-a1-m2-cB_3bvk-a1-m2-cD 3bvk-a1-m2-cB_3bvk-a1-m4-cC 3bvk-a1-m2-cC_3bvk-a1-m3-cA 3bvk-a1-m2-cC_3bvk-a1-m3-cB 3bvk-a1-m2-cE_3bvk-a1-m3-cE 3bvk-a1-m2-cE_3bvk-a1-m4-cE 3bvk-a1-m2-cF_3bvk-a1-m3-cF 3bvk-a1-m2-cF_3bvk-a1-m4-cF 3bvk-a1-m3-cA_3bvk-a1-m3-cD 3bvk-a1-m3-cB_3bvk-a1-m3-cD 3bvk-a1-m4-cA_3bvk-a1-m4-cD 3bvk-a1-m4-cB_3bvk-a1-m4-cD 3bvl-a1-m1-cA_3bvl-a1-m1-cD 3bvl-a1-m1-cA_3bvl-a1-m3-cC 3bvl-a1-m1-cB_3bvl-a1-m1-cD 3bvl-a1-m1-cB_3bvl-a1-m3-cC 3bvl-a1-m1-cC_3bvl-a1-m4-cA 3bvl-a1-m1-cC_3bvl-a1-m4-cB 3bvl-a1-m1-cE_3bvl-a1-m3-cE 3bvl-a1-m1-cE_3bvl-a1-m4-cE 3bvl-a1-m1-cF_3bvl-a1-m3-cF 3bvl-a1-m1-cF_3bvl-a1-m4-cF 3bvl-a1-m2-cA_3bvl-a1-m2-cD 3bvl-a1-m2-cA_3bvl-a1-m4-cC 3bvl-a1-m2-cB_3bvl-a1-m2-cD 3bvl-a1-m2-cB_3bvl-a1-m4-cC 3bvl-a1-m2-cC_3bvl-a1-m3-cA 3bvl-a1-m2-cC_3bvl-a1-m3-cB 3bvl-a1-m2-cE_3bvl-a1-m3-cE 3bvl-a1-m2-cE_3bvl-a1-m4-cE 3bvl-a1-m2-cF_3bvl-a1-m3-cF 3bvl-a1-m2-cF_3bvl-a1-m4-cF 3bvl-a1-m3-cA_3bvl-a1-m3-cD 3bvl-a1-m3-cB_3bvl-a1-m3-cD 3bvl-a1-m4-cA_3bvl-a1-m4-cD 3bvl-a1-m4-cB_3bvl-a1-m4-cD 3egm-a1-m1-cA_3egm-a1-m1-cD 3egm-a1-m1-cA_3egm-a1-m3-cC 3egm-a1-m1-cB_3egm-a1-m1-cD 3egm-a1-m1-cB_3egm-a1-m3-cC 3egm-a1-m1-cC_3egm-a1-m4-cA 3egm-a1-m1-cC_3egm-a1-m4-cB 3egm-a1-m1-cE_3egm-a1-m3-cE 3egm-a1-m1-cE_3egm-a1-m4-cE 3egm-a1-m1-cF_3egm-a1-m3-cF 3egm-a1-m1-cF_3egm-a1-m4-cF 3egm-a1-m2-cA_3egm-a1-m2-cD 3egm-a1-m2-cA_3egm-a1-m4-cC 3egm-a1-m2-cB_3egm-a1-m2-cD 3egm-a1-m2-cB_3egm-a1-m4-cC 3egm-a1-m2-cC_3egm-a1-m3-cA 3egm-a1-m2-cC_3egm-a1-m3-cB 3egm-a1-m2-cE_3egm-a1-m3-cE 3egm-a1-m2-cE_3egm-a1-m4-cE 3egm-a1-m2-cF_3egm-a1-m3-cF 3egm-a1-m2-cF_3egm-a1-m4-cF 3egm-a1-m3-cA_3egm-a1-m3-cD 3egm-a1-m3-cB_3egm-a1-m3-cD 3egm-a1-m4-cA_3egm-a1-m4-cD 3egm-a1-m4-cB_3egm-a1-m4-cD 5c6f-a1-m1-cA_5c6f-a1-m1-cD 5c6f-a1-m1-cA_5c6f-a1-m4-cC 5c6f-a1-m1-cB_5c6f-a1-m1-cD 5c6f-a1-m1-cB_5c6f-a1-m4-cC 5c6f-a1-m1-cC_5c6f-a1-m6-cA 5c6f-a1-m1-cC_5c6f-a1-m6-cB 5c6f-a1-m1-cE_5c6f-a1-m4-cE 5c6f-a1-m1-cE_5c6f-a1-m6-cE 5c6f-a1-m1-cF_5c6f-a1-m4-cF 5c6f-a1-m1-cF_5c6f-a1-m6-cF 5c6f-a1-m2-cA_5c6f-a1-m2-cD 5c6f-a1-m2-cA_5c6f-a1-m6-cC 5c6f-a1-m2-cB_5c6f-a1-m2-cD 5c6f-a1-m2-cB_5c6f-a1-m6-cC 5c6f-a1-m2-cC_5c6f-a1-m4-cA 5c6f-a1-m2-cC_5c6f-a1-m4-cB 5c6f-a1-m2-cE_5c6f-a1-m4-cE 5c6f-a1-m2-cE_5c6f-a1-m6-cE 5c6f-a1-m2-cF_5c6f-a1-m4-cF 5c6f-a1-m2-cF_5c6f-a1-m6-cF 5c6f-a1-m4-cA_5c6f-a1-m4-cD 5c6f-a1-m4-cB_5c6f-a1-m4-cD 5c6f-a1-m6-cA_5c6f-a1-m6-cD 5c6f-a1-m6-cB_5c6f-a1-m6-cD 5c6f-a2-m1-cG_5c6f-a2-m1-cI 5c6f-a2-m1-cG_5c6f-a2-m5-cJ 5c6f-a2-m1-cH_5c6f-a2-m5-cH 5c6f-a2-m1-cH_5c6f-a2-m7-cH 5c6f-a2-m1-cI_5c6f-a2-m1-cK 5c6f-a2-m1-cJ_5c6f-a2-m7-cG 5c6f-a2-m1-cJ_5c6f-a2-m7-cK 5c6f-a2-m1-cK_5c6f-a2-m5-cJ 5c6f-a2-m1-cL_5c6f-a2-m5-cL 5c6f-a2-m1-cL_5c6f-a2-m7-cL 5c6f-a2-m3-cG_5c6f-a2-m3-cI 5c6f-a2-m3-cG_5c6f-a2-m7-cJ 5c6f-a2-m3-cH_5c6f-a2-m5-cH 5c6f-a2-m3-cH_5c6f-a2-m7-cH 5c6f-a2-m3-cI_5c6f-a2-m3-cK 5c6f-a2-m3-cJ_5c6f-a2-m5-cG 5c6f-a2-m3-cJ_5c6f-a2-m5-cK 5c6f-a2-m3-cK_5c6f-a2-m7-cJ 5c6f-a2-m3-cL_5c6f-a2-m5-cL 5c6f-a2-m3-cL_5c6f-a2-m7-cL 5c6f-a2-m5-cG_5c6f-a2-m5-cI 5c6f-a2-m5-cI_5c6f-a2-m5-cK 5c6f-a2-m7-cG_5c6f-a2-m7-cI 5u1a-a1-m1-cA_5u1a-a1-m1-cD 5u1a-a1-m1-cB_5u1a-a1-m1-cD 5u1a-a1-m1-cB_5u1a-a1-m6-cC 5u1a-a1-m1-cC_5u1a-a1-m4-cA 5u1a-a1-m1-cE_5u1a-a1-m4-cE 5u1a-a1-m1-cE_5u1a-a1-m6-cE 5u1a-a1-m1-cF_5u1a-a1-m4-cF 5u1a-a1-m1-cF_5u1a-a1-m6-cF 5u1a-a1-m2-cA_5u1a-a1-m2-cD 5u1a-a1-m2-cB_5u1a-a1-m2-cD 5u1a-a1-m2-cB_5u1a-a1-m4-cC 5u1a-a1-m2-cC_5u1a-a1-m6-cA 5u1a-a1-m2-cE_5u1a-a1-m4-cE 5u1a-a1-m2-cE_5u1a-a1-m6-cE 5u1a-a1-m2-cF_5u1a-a1-m4-cF 5u1a-a1-m2-cF_5u1a-a1-m6-cF 5u1a-a1-m4-cA_5u1a-a1-m4-cD 5u1a-a1-m4-cB_5u1a-a1-m1-cC 5u1a-a1-m4-cB_5u1a-a1-m4-cD 5u1a-a1-m4-cC_5u1a-a1-m2-cA 5u1a-a1-m6-cA_5u1a-a1-m6-cD 5u1a-a1-m6-cB_5u1a-a1-m2-cC 5u1a-a1-m6-cB_5u1a-a1-m6-cD 5u1a-a1-m6-cC_5u1a-a1-m1-cA 5u1a-a2-m1-cH_5u1a-a2-m1-cJ 5u1a-a2-m1-cH_5u1a-a2-m7-cI 5u1a-a2-m1-cI_5u1a-a2-m5-cG 5u1a-a2-m1-cJ_5u1a-a2-m1-cG 5u1a-a2-m1-cK_5u1a-a2-m5-cK 5u1a-a2-m1-cK_5u1a-a2-m7-cK 5u1a-a2-m1-cL_5u1a-a2-m5-cL 5u1a-a2-m1-cL_5u1a-a2-m7-cL 5u1a-a2-m3-cH_5u1a-a2-m3-cJ 5u1a-a2-m3-cH_5u1a-a2-m5-cI 5u1a-a2-m3-cI_5u1a-a2-m7-cG 5u1a-a2-m3-cJ_5u1a-a2-m3-cG 5u1a-a2-m3-cK_5u1a-a2-m5-cK 5u1a-a2-m3-cK_5u1a-a2-m7-cK 5u1a-a2-m3-cL_5u1a-a2-m5-cL 5u1a-a2-m3-cL_5u1a-a2-m7-cL 5u1a-a2-m5-cH_5u1a-a2-m1-cI 5u1a-a2-m5-cH_5u1a-a2-m5-cJ 5u1a-a2-m5-cI_5u1a-a2-m3-cG 5u1a-a2-m5-cJ_5u1a-a2-m5-cG 5u1a-a2-m7-cH_5u1a-a2-m3-cI 5u1a-a2-m7-cH_5u1a-a2-m7-cJ 5u1a-a2-m7-cI_5u1a-a2-m1-cG 5u1a-a2-m7-cJ_5u1a-a2-m7-cG 5u1b-a1-m1-cB_5u1b-a1-m1-cF 5u1b-a1-m1-cB_5u1b-a1-m2-cH 5u1b-a1-m1-cC_5u1b-a1-m2-cD 5u1b-a1-m1-cC_5u1b-a1-m2-cG 5u1b-a1-m1-cD_5u1b-a1-m1-cA 5u1b-a1-m1-cD_5u1b-a1-m3-cC 5u1b-a1-m1-cE_5u1b-a1-m1-cH 5u1b-a1-m1-cE_5u1b-a1-m3-cF 5u1b-a1-m1-cF_5u1b-a1-m2-cE 5u1b-a1-m1-cG_5u1b-a1-m1-cA 5u1b-a1-m1-cG_5u1b-a1-m3-cC 5u1b-a1-m2-cB_5u1b-a1-m2-cF 5u1b-a1-m2-cB_5u1b-a1-m3-cH 5u1b-a1-m2-cC_5u1b-a1-m3-cD 5u1b-a1-m2-cC_5u1b-a1-m3-cG 5u1b-a1-m2-cD_5u1b-a1-m2-cA 5u1b-a1-m2-cE_5u1b-a1-m2-cH 5u1b-a1-m2-cF_5u1b-a1-m3-cE 5u1b-a1-m2-cG_5u1b-a1-m2-cA 5u1b-a1-m3-cB_5u1b-a1-m1-cH 5u1b-a1-m3-cB_5u1b-a1-m3-cF 5u1b-a1-m3-cD_5u1b-a1-m3-cA 5u1b-a1-m3-cE_5u1b-a1-m3-cH 5u1b-a1-m3-cG_5u1b-a1-m3-cA HHSQDPMLSKDIIKLLNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLFLFDHAAEEYEHAKKLIIFLNENNVPVQLTSISAPEHKFEGLTQIFQKAYELEQHISESINNIVDHAIKSKDHATFNFLQWYVAEQHEEEVLFKDILDKIELIGNENHGLYLADQYVKGIAKSRK HHSQDPMLSKDIIKLLNEQVNKEMNSSNLYMSMSSWCYTHSLDGAGLFLFDHAAEEYEHAKKLIIFLNENNVPVQLTSISAPEHKFEGLTQIFQKAYELEQHISESINNIVDHAIKSKDHATFNFLQWYVAEQHEEEVLFKDILDKIELIGNENHGLYLADQYVKGIAKSRK 5c6m-a2-m1-cC_5c6m-a2-m1-cD Crystal structure of deoxyribose-phosphate aldolase from Shewanella halifaxensis B0TQ91 B0TQ91 1.76 X-RAY DIFFRACTION 50 1.0 271098 (Shewanella halifaxensis) 271098 (Shewanella halifaxensis) 246 248 5c6m-a1-m1-cA_5c6m-a1-m1-cB SDLKKAAQQAISLMDLTTLNDDDTDQKVIELCHKAKTPAGDTAAICIYPRFIPIARKTLNEIGGDDIKIATVTNFPHGNDDIAIAVLETRAAVAYGADEVDVVFPYRALMEGNETVGFELVKACKEACGEDTILKVIIESGVLADPALIRKASELSIDAGADFIKTSTGKVAVNATLEAAEIMMTVISEKNPKVGFKPAGGVKDAAAAAEFLGVAARLLGDDWATPATFRFGASSLLTNLLHTLEL SDLKKAAQQAISLMDLTTLNDDDTDQKVIELCHKAKTPAGDTAAICIYPRFIPIARKTLNEIGGDDIKIATVTNFPHGNDDIAIAVLETRAAVAYGADEVDVVFPYRALMEGNETVGFELVKACKEACGEDTILKVIIESGVLADPALIRKASELSIDAGADFIKTSTGKVAVNATLEAAEIMMTVISEKNPKVGFKPAGGVKDAAAAAEFLGVAARLLGDDWATPATFRFGASSLLTNLLHTLELAD 5c6t-a1-m2-cA_5c6t-a1-m3-cA Crystal structure of HCMV glycoprotein B in complex with 1G2 Fab P13201 P13201 3.6 X-RAY DIFFRACTION 292 1.0 10363 (Human herpesvirus 5 strain Towne) 10363 (Human herpesvirus 5 strain Towne) 566 566 5c6t-a1-m1-cA_5c6t-a1-m2-cA 5c6t-a1-m1-cA_5c6t-a1-m3-cA 5cxf-a1-m1-cA_5cxf-a1-m1-cB 5cxf-a1-m1-cA_5cxf-a1-m1-cC 5cxf-a1-m1-cB_5cxf-a1-m1-cC 7kdd-a1-m1-cA_7kdd-a1-m1-cB 7kdd-a1-m1-cA_7kdd-a1-m1-cC 7kdd-a1-m1-cB_7kdd-a1-m1-cC KYPYRVCSMAQGTDLIRFERNIVCTSMLDEGIMVVYKRNIVAHTFKVRVYQKVLTFRRSYAYHRTTYLLGSNTEYVAPPMWEIHHINSHSQCYSSYSRVIAGTVFVAYHRDSYENKTMQLMPDDYTHSTRYVTVKDQWHSRNLTRETSNLNCMVTITTARSKYPYHFFATSTGDVVDISPFYNGTNRNASYFGENADKFFIFPNYTIVSDFGRPNSALETHRLVAFLERADSVISWDIQDEKNVTCQLTFWEASERTIRSEAEDSYHFSSAKMTATFLSKKQEVNMSDSALDCVRDEAINKLQQIFNTSYNQTYEKYGNVSVFETTGGLVVFWQGIKQHLSNMESVHNLVYAQLQFTYDTLRGYINRALAQIAEAWCVDQRRTLEVFKELSKINPSAILSAIYNKPIAARFMGDVLGLASCVTINQTSVKVLRDMNVKESPGRCYSRPVVIFNFANSSYVQYGQLGEDNEILLGNHRTEECQLPSLKIFIAGNSAYEYVDYLFKRMIDLSSISTVDSMIALDIDPLENTDFRVLELYSQKELRSSNVFDLEEIMREFNSYKQRVKY KYPYRVCSMAQGTDLIRFERNIVCTSMLDEGIMVVYKRNIVAHTFKVRVYQKVLTFRRSYAYHRTTYLLGSNTEYVAPPMWEIHHINSHSQCYSSYSRVIAGTVFVAYHRDSYENKTMQLMPDDYTHSTRYVTVKDQWHSRNLTRETSNLNCMVTITTARSKYPYHFFATSTGDVVDISPFYNGTNRNASYFGENADKFFIFPNYTIVSDFGRPNSALETHRLVAFLERADSVISWDIQDEKNVTCQLTFWEASERTIRSEAEDSYHFSSAKMTATFLSKKQEVNMSDSALDCVRDEAINKLQQIFNTSYNQTYEKYGNVSVFETTGGLVVFWQGIKQHLSNMESVHNLVYAQLQFTYDTLRGYINRALAQIAEAWCVDQRRTLEVFKELSKINPSAILSAIYNKPIAARFMGDVLGLASCVTINQTSVKVLRDMNVKESPGRCYSRPVVIFNFANSSYVQYGQLGEDNEILLGNHRTEECQLPSLKIFIAGNSAYEYVDYLFKRMIDLSSISTVDSMIALDIDPLENTDFRVLELYSQKELRSSNVFDLEEIMREFNSYKQRVKY 5c6w-a1-m1-cH_5c6w-a1-m1-cJ anti-CXCL13 scFv - E10 P01704 P01704 1.54 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 236 238 QVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADESTSTAYMELSSLREDTAVYYCAREPDYYDSSGYYPIDAFDIWGQGTTVTVSSQSALTQPASVSASPGQSITISCTGTSSDVGAYDWVSWYQQHPGKAPKLLIFDVNNRPSGVSHRFSGSKSGNTASLTISGLQAEDEADYYCASATLLDTYVFGTGTKVTVL QVQLVQSGAEVKKPGSSVKVSCKASGGTFSSYAISWVRQAPGQGLEWMGGIIPIFGTANYAQKFQGRVTITADESTSTAYMELSSLRSEDTAVYYCAREPDYYDSSGYYPIDAFDIWGQGTTVTVSSQSALTQPASVSASPGQSITISCTGTSSDVGAYDWVSWYQQHPGKAPKLLIFDVNNRPSGVSHRFSGSKSGNTASLTISGLQAEDEADYYCASATLLDTYVFGTGTKVTVLG 5c73-a1-m1-cC_5c73-a1-m1-cK ATP-driven lipid-linked oligosaccharide flippase PglK in outward-occluded conformation O86150 O86150 5.9 X-RAY DIFFRACTION 338 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 564 564 5c73-a2-m1-cA_5c73-a2-m1-cB 5c73-a3-m1-cF_5c73-a3-m1-cG 6hrc-a1-m1-cA_6hrc-a1-m1-cB 6hrc-a2-m1-cC_6hrc-a2-m1-cD MVKKLFFILSKEDKNFLFFLLVFSVFVSFIETFAISLVMPFITLASDFSYFDRNKYLISLKEYLNIPVFEIIVYFGVGLIVFYVFRALLNAYYFHLLARFSKGRKHAIAYKVFSKFLNINYEKFTQKNQSEILKSITGEVYNLSTMISSFLLLMSEIFVVLLLYALMLLINYKITLFLSIFMVLNAFILVKILSPIIKKAGLRREEAMKNFFEILNTNLNNFKFIKLKTKEDGVLSLFKAQSEAFSKANITNESVAAVPRIYLEGIGFCVLVFIVVFLVLKNESDISGILSTISIFVLALYRLMPSANRIITSYHDLLYYHSSLNIIYQNLRQEEENLGEGKLSFNQELKICNLSFGYEGKKYLFKNLNLNIKKGEKIAFIGESGCGKSTLVDLIIGLLKPKEGQILIDKQELNASNAKNYRQKIGYIPQNIYLFNDSIAKNITFGDAVDEEKLNKVIKQANLEHFIKNLPQGVQTKVGDGGSNLSGGQKQRIAIARALYLEPEILVLDQATSALDTQSEAKIMDEIYKISKDKTMIIIAHRLSTITQCDKVYRLEHGKLKEEK MVKKLFFILSKEDKNFLFFLLVFSVFVSFIETFAISLVMPFITLASDFSYFDRNKYLISLKEYLNIPVFEIIVYFGVGLIVFYVFRALLNAYYFHLLARFSKGRKHAIAYKVFSKFLNINYEKFTQKNQSEILKSITGEVYNLSTMISSFLLLMSEIFVVLLLYALMLLINYKITLFLSIFMVLNAFILVKILSPIIKKAGLRREEAMKNFFEILNTNLNNFKFIKLKTKEDGVLSLFKAQSEAFSKANITNESVAAVPRIYLEGIGFCVLVFIVVFLVLKNESDISGILSTISIFVLALYRLMPSANRIITSYHDLLYYHSSLNIIYQNLRQEEENLGEGKLSFNQELKICNLSFGYEGKKYLFKNLNLNIKKGEKIAFIGESGCGKSTLVDLIIGLLKPKEGQILIDKQELNASNAKNYRQKIGYIPQNIYLFNDSIAKNITFGDAVDEEKLNKVIKQANLEHFIKNLPQGVQTKVGDGGSNLSGGQKQRIAIARALYLEPEILVLDQATSALDTQSEAKIMDEIYKISKDKTMIIIAHRLSTITQCDKVYRLEHGKLKEEK 5c74-a1-m1-cB_5c74-a1-m1-cA Structure of a novel protein arginine methyltransferase Q12314 Q12314 1.9 X-RAY DIFFRACTION 51 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 144 211 MKYIIEHMEEGFSEWVILEYSQILREVGAENLILSSLPESTTEKDIPQRLLKLGLRWTTKDLKGINEDFKDLELLKDGDYFVFGQMTTDTAIRTTQLIIIDYPEFRFNKNEATEMPFRYVLKPILPEGMLDLIKKDSLEHHHHH MKYIIEHMEEGFSEWVILEYSQILREVGAENLILSSLPESTTEKDIPQRLLKLGLRWTTKDLKGINEDFKDLELLKDGRVCLLDPRATIDLQPEDATKFDYFVFGGILGDHPPRDRTKELKTAYPNLLISRRLGDKQMTTDTAIRTTQLIIKDRIAFEDIKFIDYPEFRFNKNEATEMPFRYVLDKEGKPILPEGMLDLIKKDSLEHHHHH 5c77-a1-m1-cB_5c77-a1-m1-cA A novel protein arginine methyltransferase Q12314 Q12314 2.5 X-RAY DIFFRACTION 43 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 199 203 KYIIEHMEEGFSEWVILEYSQILREVGAENLILSSLPESTTEKDIPQRLLKLGLRWTTKDLKGINEDFKDLELLKDGRVCLLDPRATIDLQPEDATKFDYFVFGGILGDHPPRDRTKELKTAYPNLLISRRLGDKQMTTDTAIRTTQLIIKDRIAFEDIKFIDYPEFRFNTEMPFRYVLDKEGKPILPEGMLDLIKKDS KYIIEHMEEGFSEWVILEYSQILREVGAENLILSSLPESTTEKDIPQRLLKLGLRWTTKDLKGINEDFKDLELLKDGRVCLLDPRATIDLQPEDATKFDYFVFGGILGDHPPRDRTKELKTAYPNLLISRRLGDKQMTTDTAIRTTQLIIKDRIAFEDIKFIDYPEFRFNKNEATEMPFRYVLDKEGKPILPEGMLDLIKKDS 5c78-a2-m1-cB_5c78-a2-m1-cC ATP-driven lipid-linked oligosaccharide flippase PglK in apo-inward state (1) O86150 O86150 2.9 X-RAY DIFFRACTION 356 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 564 564 5c76-a1-m1-cA_5c76-a1-m1-cD 5c76-a2-m1-cB_5c76-a2-m1-cC 5c78-a1-m1-cA_5c78-a1-m1-cD MVKKLFFILSKEDKNFLFFLLVFSVFVSFIETFAISLVMPFITLASDFSYFDRNKYLISLKEYLNIPVFEIIVYFGVGLIVFYVFRALLNAYYFHLLARFSKGRKHAIAYKVFSKFLNINYEKFTQKNQSEILKSITGEVYNLSTMISSFLLLMSEIFVVLLLYALMLLINYKITLFLSIFMVLNAFILVKILSPIIKKAGLRREEAMKNFFEILNTNLNNFKFIKLKTKEDGVLSLFKAQSEAFSKANITNESVAAVPRIYLEGIGFCVLVFIVVFLVLKNESDISGILSTISIFVLALYRLMPSANRIITSYHDLLYYHSSLNIIYQNLRQEEENLGEGKLSFNQELKICNLSFGYEGKKYLFKNLNLNIKKGEKIAFIGESGCGKSTLVDLIIGLLKPKEGQILIDKQELNASNAKNYRQKIGYIPQNIYLFNDSIAKNITFGDAVDEEKLNKVIKQANLEHFIKNLPQGVQTKVGDGGSNLSGGQKQRIAIARALYLEPEILVLDQATSALDTQSEAKIMDEIYKISKDKTMIIIAHRLSTITQCDKVYRLEHGKLKEEK MVKKLFFILSKEDKNFLFFLLVFSVFVSFIETFAISLVMPFITLASDFSYFDRNKYLISLKEYLNIPVFEIIVYFGVGLIVFYVFRALLNAYYFHLLARFSKGRKHAIAYKVFSKFLNINYEKFTQKNQSEILKSITGEVYNLSTMISSFLLLMSEIFVVLLLYALMLLINYKITLFLSIFMVLNAFILVKILSPIIKKAGLRREEAMKNFFEILNTNLNNFKFIKLKTKEDGVLSLFKAQSEAFSKANITNESVAAVPRIYLEGIGFCVLVFIVVFLVLKNESDISGILSTISIFVLALYRLMPSANRIITSYHDLLYYHSSLNIIYQNLRQEEENLGEGKLSFNQELKICNLSFGYEGKKYLFKNLNLNIKKGEKIAFIGESGCGKSTLVDLIIGLLKPKEGQILIDKQELNASNAKNYRQKIGYIPQNIYLFNDSIAKNITFGDAVDEEKLNKVIKQANLEHFIKNLPQGVQTKVGDGGSNLSGGQKQRIAIARALYLEPEILVLDQATSALDTQSEAKIMDEIYKISKDKTMIIIAHRLSTITQCDKVYRLEHGKLKEEK 5c7i-a1-m1-cO_5c7i-a1-m2-cR Mouse sperm Glyceraldehyde-3-phosphate dehydrogenase: apo enzyme Q64467 Q64467 2.0098 X-RAY DIFFRACTION 96 1.0 10090 (Mus musculus) 10090 (Mus musculus) 332 332 5c7i-a1-m1-cR_5c7i-a1-m2-cO ELTVGINGFGRIGRLVLRVCMEKGIRVVAVNDPFIDPEYMVYMFKYDSTHGRYKGNVEHKNGQLVVDNLEINTYQCKDPKEIPWSSIGNPYVVECTGVYLSIEAASAHISSGARRVVVTAPSPDAPMFVMGVNEKDYNPGSMTIVSNASTTNCLAPLAKVIHENFGIVEGLMTTVHSYTATQKTVDGPSKKDWRGGRGAHQNIIPSSTGAAKAVGKVIPELKGKLTGMAFRVPTPNVSVVDLTCRLAKPASYSAITEAVKAAAKGPLAGILAYTEDQVVSTDFNGNPHSSIFDAKAGIALNDNFVKLVAWYDNEYGYSNRVVDLLRYMFSRE ELTVGINGFGRIGRLVLRVCMEKGIRVVAVNDPFIDPEYMVYMFKYDSTHGRYKGNVEHKNGQLVVDNLEINTYQCKDPKEIPWSSIGNPYVVECTGVYLSIEAASAHISSGARRVVVTAPSPDAPMFVMGVNEKDYNPGSMTIVSNASTTNCLAPLAKVIHENFGIVEGLMTTVHSYTATQKTVDGPSKKDWRGGRGAHQNIIPSSTGAAKAVGKVIPELKGKLTGMAFRVPTPNVSVVDLTCRLAKPASYSAITEAVKAAAKGPLAGILAYTEDQVVSTDFNGNPHSSIFDAKAGIALNDNFVKLVAWYDNEYGYSNRVVDLLRYMFSRE 5c7i-a1-m1-cR_5c7i-a1-m2-cR Mouse sperm Glyceraldehyde-3-phosphate dehydrogenase: apo enzyme Q64467 Q64467 2.0098 X-RAY DIFFRACTION 139 1.0 10090 (Mus musculus) 10090 (Mus musculus) 332 332 5c7i-a1-m1-cO_5c7i-a1-m2-cO ELTVGINGFGRIGRLVLRVCMEKGIRVVAVNDPFIDPEYMVYMFKYDSTHGRYKGNVEHKNGQLVVDNLEINTYQCKDPKEIPWSSIGNPYVVECTGVYLSIEAASAHISSGARRVVVTAPSPDAPMFVMGVNEKDYNPGSMTIVSNASTTNCLAPLAKVIHENFGIVEGLMTTVHSYTATQKTVDGPSKKDWRGGRGAHQNIIPSSTGAAKAVGKVIPELKGKLTGMAFRVPTPNVSVVDLTCRLAKPASYSAITEAVKAAAKGPLAGILAYTEDQVVSTDFNGNPHSSIFDAKAGIALNDNFVKLVAWYDNEYGYSNRVVDLLRYMFSRE ELTVGINGFGRIGRLVLRVCMEKGIRVVAVNDPFIDPEYMVYMFKYDSTHGRYKGNVEHKNGQLVVDNLEINTYQCKDPKEIPWSSIGNPYVVECTGVYLSIEAASAHISSGARRVVVTAPSPDAPMFVMGVNEKDYNPGSMTIVSNASTTNCLAPLAKVIHENFGIVEGLMTTVHSYTATQKTVDGPSKKDWRGGRGAHQNIIPSSTGAAKAVGKVIPELKGKLTGMAFRVPTPNVSVVDLTCRLAKPASYSAITEAVKAAAKGPLAGILAYTEDQVVSTDFNGNPHSSIFDAKAGIALNDNFVKLVAWYDNEYGYSNRVVDLLRYMFSRE 5c7i-a1-m2-cO_5c7i-a1-m2-cR Mouse sperm Glyceraldehyde-3-phosphate dehydrogenase: apo enzyme Q64467 Q64467 2.0098 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 332 332 5c7i-a1-m1-cO_5c7i-a1-m1-cR ELTVGINGFGRIGRLVLRVCMEKGIRVVAVNDPFIDPEYMVYMFKYDSTHGRYKGNVEHKNGQLVVDNLEINTYQCKDPKEIPWSSIGNPYVVECTGVYLSIEAASAHISSGARRVVVTAPSPDAPMFVMGVNEKDYNPGSMTIVSNASTTNCLAPLAKVIHENFGIVEGLMTTVHSYTATQKTVDGPSKKDWRGGRGAHQNIIPSSTGAAKAVGKVIPELKGKLTGMAFRVPTPNVSVVDLTCRLAKPASYSAITEAVKAAAKGPLAGILAYTEDQVVSTDFNGNPHSSIFDAKAGIALNDNFVKLVAWYDNEYGYSNRVVDLLRYMFSRE ELTVGINGFGRIGRLVLRVCMEKGIRVVAVNDPFIDPEYMVYMFKYDSTHGRYKGNVEHKNGQLVVDNLEINTYQCKDPKEIPWSSIGNPYVVECTGVYLSIEAASAHISSGARRVVVTAPSPDAPMFVMGVNEKDYNPGSMTIVSNASTTNCLAPLAKVIHENFGIVEGLMTTVHSYTATQKTVDGPSKKDWRGGRGAHQNIIPSSTGAAKAVGKVIPELKGKLTGMAFRVPTPNVSVVDLTCRLAKPASYSAITEAVKAAAKGPLAGILAYTEDQVVSTDFNGNPHSSIFDAKAGIALNDNFVKLVAWYDNEYGYSNRVVDLLRYMFSRE 5c7o-a1-m1-cO_5c7o-a1-m2-cP Structure of human testis-specific glyceraldehyde-3-phosphate dehydrogenase holo form with NAD+ O14556 O14556 1.729 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3h9e-a1-m1-cO_3h9e-a1-m2-cP 3h9e-a1-m2-cO_3h9e-a1-m1-cP 3pfw-a1-m1-cO_3pfw-a1-m2-cP 3pfw-a1-m1-cP_3pfw-a1-m2-cO 5c7l-a1-m1-cO_5c7l-a1-m1-cR 5c7l-a1-m2-cO_5c7l-a1-m2-cR 5c7o-a1-m1-cP_5c7o-a1-m2-cO RELTVGINGFGRIGRLVLRACMEKGVKVVAVNDPFIDPEYMVYMFKYDSTHGRYKGSVEFRNGQLVVDNHEISVYQCKEPKQIPWRAVGSPYVVESTGVYLSIQAASDHISAGAQRVVISAPSPDAPMFVMGVNENDYNPGSMNIVSNASTTNCLAPLAKVIHERFGIVEGLMTTVHSYTATQKTVDGPSRKAWRDGRGAHQNIIPASTGAAKAVTKVIPELKGKLTGMAFRVPTPDVSVVDLTCRLAQPAPYSAIKEAVKAAAKGPMAGILAYTEDEVVSTDFLGDTHSSIFDAKAGIALNDNFVKLISWYDNEYGYSHRVVDLLRYMFSRDK RELTVGINGFGRIGRLVLRACMEKGVKVVAVNDPFIDPEYMVYMFKYDSTHGRYKGSVEFRNGQLVVDNHEISVYQCKEPKQIPWRAVGSPYVVESTGVYLSIQAASDHISAGAQRVVISAPSPDAPMFVMGVNENDYNPGSMNIVSNASTTNCLAPLAKVIHERFGIVEGLMTTVHSYTATQKTVDGPSRKAWRDGRGAHQNIIPASTGAAKAVTKVIPELKGKLTGMAFRVPTPDVSVVDLTCRLAQPAPYSAIKEAVKAAAKGPMAGILAYTEDEVVSTDFLGDTHSSIFDAKAGIALNDNFVKLISWYDNEYGYSHRVVDLLRYMFSRDK 5c7o-a1-m1-cP_5c7o-a1-m2-cP Structure of human testis-specific glyceraldehyde-3-phosphate dehydrogenase holo form with NAD+ O14556 O14556 1.729 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3h9e-a1-m1-cO_3h9e-a1-m2-cO 3h9e-a1-m1-cP_3h9e-a1-m2-cP 3pfw-a1-m1-cO_3pfw-a1-m2-cO 3pfw-a1-m1-cP_3pfw-a1-m2-cP 5c7l-a1-m1-cO_5c7l-a1-m2-cR 5c7l-a1-m1-cR_5c7l-a1-m2-cO 5c7o-a1-m1-cO_5c7o-a1-m2-cO RELTVGINGFGRIGRLVLRACMEKGVKVVAVNDPFIDPEYMVYMFKYDSTHGRYKGSVEFRNGQLVVDNHEISVYQCKEPKQIPWRAVGSPYVVESTGVYLSIQAASDHISAGAQRVVISAPSPDAPMFVMGVNENDYNPGSMNIVSNASTTNCLAPLAKVIHERFGIVEGLMTTVHSYTATQKTVDGPSRKAWRDGRGAHQNIIPASTGAAKAVTKVIPELKGKLTGMAFRVPTPDVSVVDLTCRLAQPAPYSAIKEAVKAAAKGPMAGILAYTEDEVVSTDFLGDTHSSIFDAKAGIALNDNFVKLISWYDNEYGYSHRVVDLLRYMFSRDK RELTVGINGFGRIGRLVLRACMEKGVKVVAVNDPFIDPEYMVYMFKYDSTHGRYKGSVEFRNGQLVVDNHEISVYQCKEPKQIPWRAVGSPYVVESTGVYLSIQAASDHISAGAQRVVISAPSPDAPMFVMGVNENDYNPGSMNIVSNASTTNCLAPLAKVIHERFGIVEGLMTTVHSYTATQKTVDGPSRKAWRDGRGAHQNIIPASTGAAKAVTKVIPELKGKLTGMAFRVPTPDVSVVDLTCRLAQPAPYSAIKEAVKAAAKGPMAGILAYTEDEVVSTDFLGDTHSSIFDAKAGIALNDNFVKLISWYDNEYGYSHRVVDLLRYMFSRDK 5c7o-a1-m2-cO_5c7o-a1-m2-cP Structure of human testis-specific glyceraldehyde-3-phosphate dehydrogenase holo form with NAD+ O14556 O14556 1.729 X-RAY DIFFRACTION 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 334 334 3h9e-a1-m1-cO_3h9e-a1-m1-cP 3h9e-a1-m2-cO_3h9e-a1-m2-cP 3pfw-a1-m1-cO_3pfw-a1-m1-cP 3pfw-a1-m2-cO_3pfw-a1-m2-cP 5c7l-a1-m1-cO_5c7l-a1-m2-cO 5c7l-a1-m1-cR_5c7l-a1-m2-cR 5c7o-a1-m1-cO_5c7o-a1-m1-cP RELTVGINGFGRIGRLVLRACMEKGVKVVAVNDPFIDPEYMVYMFKYDSTHGRYKGSVEFRNGQLVVDNHEISVYQCKEPKQIPWRAVGSPYVVESTGVYLSIQAASDHISAGAQRVVISAPSPDAPMFVMGVNENDYNPGSMNIVSNASTTNCLAPLAKVIHERFGIVEGLMTTVHSYTATQKTVDGPSRKAWRDGRGAHQNIIPASTGAAKAVTKVIPELKGKLTGMAFRVPTPDVSVVDLTCRLAQPAPYSAIKEAVKAAAKGPMAGILAYTEDEVVSTDFLGDTHSSIFDAKAGIALNDNFVKLISWYDNEYGYSHRVVDLLRYMFSRDK RELTVGINGFGRIGRLVLRACMEKGVKVVAVNDPFIDPEYMVYMFKYDSTHGRYKGSVEFRNGQLVVDNHEISVYQCKEPKQIPWRAVGSPYVVESTGVYLSIQAASDHISAGAQRVVISAPSPDAPMFVMGVNENDYNPGSMNIVSNASTTNCLAPLAKVIHERFGIVEGLMTTVHSYTATQKTVDGPSRKAWRDGRGAHQNIIPASTGAAKAVTKVIPELKGKLTGMAFRVPTPDVSVVDLTCRLAQPAPYSAIKEAVKAAAKGPMAGILAYTEDEVVSTDFLGDTHSSIFDAKAGIALNDNFVKLISWYDNEYGYSHRVVDLLRYMFSRDK 5c7q-a1-m1-cB_5c7q-a1-m1-cA Crystal Structure of the Bdellovibrio bacteriovorus Nucleoside Diphosphate Sugar Hydrolase Q6MIH8 Q6MIH8 1.52 X-RAY DIFFRACTION 187 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 180 182 5c7t-a1-m1-cB_5c7t-a1-m1-cA 5c8l-a1-m1-cB_5c8l-a1-m1-cA HLEEKTLSTRQIFKGRYLKIEQDQVQAPDGRTYTREYILHPGAAMMIPLLPNGNVVMIHQYRHAVKKVFLEFPAGKRDHNEETLLTAKRELLEETGYEAKDWKFLTTIHPVIGYSNEHIDLYLARDLTHLEQRLDQGEFIEVVEVKPADLMQLVLEGKVSDVKTQIGAFWLDKFLRGEWN MKHLEEKTLSTRQIFKGRYLKIEQDQVQAPDGRTYTREYILHPGAAMMIPLLPNGNVVMIHQYRHAVKKVFLEFPAGKRDHNEETLLTAKRELLEETGYEAKDWKFLTTIHPVIGYSNEHIDLYLARDLTHLEQRLDQGEFIEVVEVKPADLMQLVLEGKVSDVKTQIGAFWLDKFLRGEWN 5c82-a1-m1-cA_5c82-a1-m2-cA Crystal structure of Nourseothricin acetyltransferase Q08414 Q08414 2.2 X-RAY DIFFRACTION 80 1.0 1971 (Streptomyces noursei) 1971 (Streptomyces noursei) 166 166 TAYRYRTSVPGDAEAIEALDGSFTTDTVFRVTATGDGFTLREVPVDPPLTKVFPDDPDSRTFVAYGDDGDLAGFVVVSYSGWNRRLTVEDIEVAPEHRGHGVGRALGLATEFARERGAGHLWLEVTNVNAPAIHAYRRGFTLCGLDTALYDGTASDGEQALYSPCP TAYRYRTSVPGDAEAIEALDGSFTTDTVFRVTATGDGFTLREVPVDPPLTKVFPDDPDSRTFVAYGDDGDLAGFVVVSYSGWNRRLTVEDIEVAPEHRGHGVGRALGLATEFARERGAGHLWLEVTNVNAPAIHAYRRGFTLCGLDTALYDGTASDGEQALYSPCP 5c94-a1-m1-cA_5c94-a1-m2-cA Infectious bronchitis virus nsp9 P0C6Y3 P0C6Y3 2.438 X-RAY DIFFRACTION 98 1.0 11127 (Avian infectious bronchitis virus (strain M41)) 11127 (Avian infectious bronchitis virus (strain M41)) 116 116 GPLGSNNELMPHGVKTKACVAGVDQAHCSVESKCYYTSISGSSVVAAITSSNPNLKVASFLNEAGNQIYVDLDPPCKFGMKVGDKVEVVYLYFIKNTRSIVRGMVLGAISNVVVLQ GPLGSNNELMPHGVKTKACVAGVDQAHCSVESKCYYTSISGSSVVAAITSSNPNLKVASFLNEAGNQIYVDLDPPCKFGMKVGDKVEVVYLYFIKNTRSIVRGMVLGAISNVVVLQ 5c9e-a3-m1-cA_5c9e-a3-m1-cB SepL O52149 O52149 3.21 X-RAY DIFFRACTION 91 0.992 562 (Escherichia coli) 562 (Escherichia coli) 263 263 TIEKLLNEMQELLTLTDSDKIKELSLKNSGLLEDPTLAMFGNMPKGEIVALISSLLQSKFVKIELKKKYAKLLLDLLGEDDWELALLSWLGVGELNQEGIQKIKKLYEKAKDASLLDWFMEIKDLPEREKHLKVIIRALSFDLSYMSSFEDKVRTSSIISDLCRIIIFLSLNNYTDIIAISIKKDKDVILNEMLSIIEHVWLTEDWLLESPSRVSIVEDKHVYYFHLLKEFFASLPDACFIDNEQRSNTLLMIGKVIDYKEDV TIEKLLNEMQELLTLTDSDKIKELSLKNSGLLEQHDPTLAMFGNMPKGEIVALISSLLQSKFVKIELKKKYAKLLLDLLGEDDWELALLSWLGVGELNQEGIQKIKKLYEKAKDASLLDWFMEIKDLPEREKHLKVIIRALSFDLSYMSSFEDKVRTSSIISDLCRIIIFLSLNNYTDIIAISIKKDKDVILNEMLSIIEHVWLTEDWLLESPSRVSIVEDKHVYYFHLLKEFFASLPDACFIDNEQRSNTLLMIGKVIDYKE 5c9n-a1-m1-cB_5c9n-a1-m1-cA Crystal structure of GEMC1 coiled-coil domain A6NCL1 A6NCL1 2.2 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 64 LPDLCSWEEAQLSSQLYRNKQLQDTLVQKEEELARLHEENNHLRQYLNSALVKCEEEKAKK LPDLCSWEEAQLSSQLYRNKQLQDTLVQKEEELARLHEENNHLRQYLNSALVKCEEEKAKKELS 5ca5-a1-m1-cA_5ca5-a1-m1-cB Structure of the C. elegans NONO-1 homodimer B3GWA1 B3GWA1 2.4 X-RAY DIFFRACTION 252 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 248 248 EVPKKKFTGRCRLFVGNLPNEVKETELKELFSPHGDIAECYLSGKGFAFLRLDTRAHAESAKEAIDGRIIHGRQVRVRFAVHGAAIRVKELSPTVSNEMLYHAFSHFGDVERAVHIVDEKGRPTGEGIVEFERKPNCNEAMAAIRDKVFLLTASPKPLICEVLEPRDEDDGLAERMIPRTPGLSKERELGPRFPTPNSFEYVYGMKWKELYVVEQKRRAQLDEELRESRRRLESDMELAYQDYQAQML EVPKKKFTGRCRLFVGNLPNEVKETELKELFSPHGDIAECYLSGKGFAFLRLDTRAHAESAKEAIDGRIIHGRQVRVRFAVHGAAIRVKELSPTVSNEMLYHAFSHFGDVERAVHIVDEKGRPTGEGIVEFERKPNCNEAMAAIRDKVFLLTASPKPLICEVLEPRDEDDGLAERMIPRTPGLSKERELGPRFPTPNSFEYVYGMKWKELYVVEQKRRAQLDEELRESRRRLESDMELAYQDYQAQML 5ca9-a1-m1-cA_5ca9-a1-m2-cA Structures of the candida albicans sey1p GTPase in complex with GDPAlF4- Q9C0L9 Q9C0L9 2.8 X-RAY DIFFRACTION 149 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 656 656 5cb2-a1-m1-cA_5cb2-a1-m2-cA QDAIQIIDENKHFNTGILDYINKTSPADVGNNYHIISVFGSQSTGKSTLLNRLFNTNFDVMDELNRQQTTKGIWLAYSPVVSTTLGHTTSKSNILVMDVEGTDGRERGEDQDFERKAALFALSTSEVLIINIWETQVGLYQGANMGLLKTVFEVNLSLFGKSKLETHNDHKVLLLIVIRDHVGVTPVESLAKTFTLDLQNMWSSLAKPAELEHLQFADFFDVTFHALNHKVLQPKEFGEGINRLGDRLVVSNELFKPEYHHDVPIDGWTMYAERCWEQIETNKDLDLPTQQILVAQFKCDEIVESVFQEFLTKYQHHFKEVDAAPDFEELGALFADLRQDAFEDYDASASRYNKAVYEQKRKKLRWLINDKLKEVFDVHAKNLCNTLLEKFEKDLVALKGKDFAVNVKTLSTKLVEDVNFQVSLMSLQGDLSLDEIILALTKDIDAIVAKQQVVELNSIVNKSVKKLSASLSKSIQFELGDPNEETWDNVLQQFKGVYEKFGGDFGLGTSSTQNQQAIEKFKFKSWCQFYDVTHKLISREKLLALLQDRFDDKFRYDENGLPKLYLNEQDLEKTFAVAKQHALQVLPILTFAKLADGSEIVPDYDIFDSKLREQFLDDEEDHCFAEIITEQEKLEVLAKFKKEVDAKYIETKRSIV QDAIQIIDENKHFNTGILDYINKTSPADVGNNYHIISVFGSQSTGKSTLLNRLFNTNFDVMDELNRQQTTKGIWLAYSPVVSTTLGHTTSKSNILVMDVEGTDGRERGEDQDFERKAALFALSTSEVLIINIWETQVGLYQGANMGLLKTVFEVNLSLFGKSKLETHNDHKVLLLIVIRDHVGVTPVESLAKTFTLDLQNMWSSLAKPAELEHLQFADFFDVTFHALNHKVLQPKEFGEGINRLGDRLVVSNELFKPEYHHDVPIDGWTMYAERCWEQIETNKDLDLPTQQILVAQFKCDEIVESVFQEFLTKYQHHFKEVDAAPDFEELGALFADLRQDAFEDYDASASRYNKAVYEQKRKKLRWLINDKLKEVFDVHAKNLCNTLLEKFEKDLVALKGKDFAVNVKTLSTKLVEDVNFQVSLMSLQGDLSLDEIILALTKDIDAIVAKQQVVELNSIVNKSVKKLSASLSKSIQFELGDPNEETWDNVLQQFKGVYEKFGGDFGLGTSSTQNQQAIEKFKFKSWCQFYDVTHKLISREKLLALLQDRFDDKFRYDENGLPKLYLNEQDLEKTFAVAKQHALQVLPILTFAKLADGSEIVPDYDIFDSKLREQFLDDEEDHCFAEIITEQEKLEVLAKFKKEVDAKYIETKRSIV 5cag-a2-m1-cA_5cag-a2-m2-cA Crystal structure of a putative adhesin (BACOVA_02677) from Bacteroides ovatus ATCC 8483 at 3.00 A resolution (PSI Community Target, Nakayama) A7LXW1 A7LXW1 3 X-RAY DIFFRACTION 55 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 278 278 GLTGCSRRDILDDYPVSGVDIKLDWDGVTDQLPEGVRVIFYPKNGDGRKVDKYLSVRGGEKVPPGRYSVVVYNYNTESIRIRGEESYETIEAYTGNCNGLGIEGTEKVWSPDSLYVLNIDELKIEKSEEVLRLDWKLESVVKKYSFAVEAKGLEYVATVVGSIDGLSDCYCIGKGRGVCSSQPIYFEVKKGDNKVTAFFTAFKQVKETPTRSTSERETSSEKGAIILILKFIKTDNTVQEATIDVTEIIGTLENKPTPPPEIELPPDDKIEVDKPETP GLTGCSRRDILDDYPVSGVDIKLDWDGVTDQLPEGVRVIFYPKNGDGRKVDKYLSVRGGEKVPPGRYSVVVYNYNTESIRIRGEESYETIEAYTGNCNGLGIEGTEKVWSPDSLYVLNIDELKIEKSEEVLRLDWKLESVVKKYSFAVEAKGLEYVATVVGSIDGLSDCYCIGKGRGVCSSQPIYFEVKKGDNKVTAFFTAFKQVKETPTRSTSERETSSEKGAIILILKFIKTDNTVQEATIDVTEIIGTLENKPTPPPEIELPPDDKIEVDKPETP 5cb6-a4-m1-cE_5cb6-a4-m3-cE Structure of adenosine-5'-phosphosulfate kinase P72940 P72940 2.79 X-RAY DIFFRACTION 32 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 173 173 5cb6-a1-m1-cA_5cb6-a1-m1-cD 5cb6-a2-m1-cB_5cb6-a2-m1-cF 5cb6-a3-m1-cC_5cb6-a3-m2-cC 5cb8-a1-m1-cA_5cb8-a1-m1-cB RGVTIWLTGLSGAGKTTITHALEKKLRDSGYRLEVLDGDVVRTNLTKGLGFSKEDRDTNIRRIGFVSHLLTRNGVIVLVSAISPYAAIRQEVKHTIGDFLEVFVNAPLAVCEERDVKGLYAKARSGEIKGFTGIDDPYEPPTNPDVECRTDLEELDESVGKIWQKLVDLKYIE RGVTIWLTGLSGAGKTTITHALEKKLRDSGYRLEVLDGDVVRTNLTKGLGFSKEDRDTNIRRIGFVSHLLTRNGVIVLVSAISPYAAIRQEVKHTIGDFLEVFVNAPLAVCEERDVKGLYAKARSGEIKGFTGIDDPYEPPTNPDVECRTDLEELDESVGKIWQKLVDLKYIE 5cc8-a1-m1-cA_5cc8-a1-m1-cB Structure of thiamine-monophosphate kinase from Acinetobacter baumannii in complex with AMPPNP 1.75 X-RAY DIFFRACTION 183 1.0 525243 (Acinetobacter baumannii 6013150) 525243 (Acinetobacter baumannii 6013150) 296 296 5cm7-a1-m1-cB_5cm7-a1-m1-cA 5dd7-a1-m1-cA_5dd7-a1-m1-cB 6mfm-a1-m1-cA_6mfm-a1-m1-cB EFSIIDQYFNRQSHPDVALGIGDDSALITPPPNQQLVICADTLVAGRHFPLETSPHAIGWKSVAVNLSDIAAMGAKPHSILLAISLPQVDHEWLEGFSQGIYDCCNQFGVALIGGDTTQGPHLTITVTAMGWIETGKAVLRSGAKVGDYVCVSGQIGDAAYGLQHLGHSLQQRLDYPTPRCKLGEELKGLASSMIDVSDGLAQDLGHILKASKVGARLILEKLPVDPVLQQIEEQQRWQYALAGGDDYELCFTITPQNYEKLLQKQLDVKITMIGQIVEQTKLTFEHLGSDYPLQI EFSIIDQYFNRQSHPDVALGIGDDSALITPPPNQQLVICADTLVAGRHFPLETSPHAIGWKSVAVNLSDIAAMGAKPHSILLAISLPQVDHEWLEGFSQGIYDCCNQFGVALIGGDTTQGPHLTITVTAMGWIETGKAVLRSGAKVGDYVCVSGQIGDAAYGLQHLGHSLQQRLDYPTPRCKLGEELKGLASSMIDVSDGLAQDLGHILKASKVGARLILEKLPVDPVLQQIEEQQRWQYALAGGDDYELCFTITPQNYEKLLQKQLDVKITMIGQIVEQTKLTFEHLGSDYPLQI 5cch-a1-m1-cF_5cch-a1-m2-cF Structure of the Ca2+-bound synaptotagmin-1 SNARE complex (short unit cell form) P21707 P21707 3.6 X-RAY DIFFRACTION 42 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 266 266 5ccg-a1-m1-cF_5ccg-a1-m2-cF 5cci-a1-m1-cF_5cci-a1-m2-cF KLGKLQYSLDYDFQNNQLLVGIIQAAELPALDMGGTSDPYVKVFLLPDKKKKFETKVHRKTLNPVFNEQFTFKVPYSELGGKTLVMAVYDFDRFSKHDIIGEFKVPMNTVDFGHVTEEWRDLQSAEKEKLGDICFSLRYVPTAGKLTVVILEAKNLKKSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPYYNESFSFEVPFEQIQKVQVVVTVLDYDNDAIGKVFVGYNSTGAELRHWSDMLANPRRPIAQWHTLQVEEEVDAMLAV KLGKLQYSLDYDFQNNQLLVGIIQAAELPALDMGGTSDPYVKVFLLPDKKKKFETKVHRKTLNPVFNEQFTFKVPYSELGGKTLVMAVYDFDRFSKHDIIGEFKVPMNTVDFGHVTEEWRDLQSAEKEKLGDICFSLRYVPTAGKLTVVILEAKNLKKSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPYYNESFSFEVPFEQIQKVQVVVTVLDYDNDAIGKVFVGYNSTGAELRHWSDMLANPRRPIAQWHTLQVEEEVDAMLAV 5ccj-a5-m1-cB_5ccj-a5-m1-cD Crystal structure of the quintuple mutant of the synaptotagmin-1 C2B domain P21707 P21707 1.65 X-RAY DIFFRACTION 19 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 151 152 EKLGDICFSLAYVPTAGKLTVVILAAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPWYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPAAPIAQWHTLQVEEEVDAMLAVKK SEKLGDICFSLAYVPTAGKLTVVILAAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPWYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPAAPIAQWHTLQVEEEVDAMLAVKK 5ccj-a5-m1-cC_5ccj-a5-m1-cD Crystal structure of the quintuple mutant of the synaptotagmin-1 C2B domain P21707 P21707 1.65 X-RAY DIFFRACTION 41 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 148 152 5ccj-a5-m1-cA_5ccj-a5-m1-cB 5ccj-a5-m1-cC_5ccj-a5-m1-cB EKLGDICFSLAYVPTAGKLTVVILAAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPWYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPAAPIAQWHTLQVEEEVDAMLA SEKLGDICFSLAYVPTAGKLTVVILAAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPWYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPAAPIAQWHTLQVEEEVDAMLAVKK 5ccu-a1-m1-cB_5ccu-a1-m1-cA Crystal structure of endoglycoceramidase I from Rhodococ-cus equi 2.11 X-RAY DIFFRACTION 61 1.0 685727 (Prescottella equi 103S) 685727 (Prescottella equi 103S) 436 449 ATPITTLQADGTHLVDGYGRTVLLHGVNNVDKDAPYLPGETLTPQDIDILVRHGFNTVRLGTSFDALMPQRGQIDEAYLDRLTGVVDALTARGMHVLLDNHQDGLSKAWGGNGFPEWAIESRPREWEPNPGFPLYYLMPSLNAGWDEVWGNTHGALDHLGTALGALAERVEGKPGVMGIELLNEPWPGSRFLSCFPNGCPDFDRTYQAAMQKLTDAVRAQNPTIPVYWEPNVTWNQMMPSNLFAPPVTPALTTADVVFAPHDYCIPSQLARGLCVPQQDLTWSNIDAITERANVPTVITEFGDPTVLKNTLARADERFIGWQYWHFGAGNATDPFLGEVGRQLVRTYPQATAGEPGRMIFDADNGDFAYRFTPRAATRPTEIFVSDLHYPDGYAVQVDGGQVTSAPGARIVTVVADGSGPVTVKINRPGSAGAEVP PATPITTLQADGTHLVDGYGRTVLLHGVNNVDKDAPYLPAGETLTPQDIDILVRHGFNTVRLGTSFDALMPQRGQIDEAYLDRLTGVVDALTARGMHVLLDNHQDGLSKAWGGNGFPEWAIESRPREWEPNPGFPLYYLMPSLNAGWDEVWGNTHGALDHLGTALGALAERVEGKPGVMGIELLNEPWPGSRFLSCFPNGCPDFDRTYQAAMQKLTDAVRAQNPTIPVYWEPNVTWNQMMPSNLFAPPVTPALTTADVVFAPHDYCIPSQLAIYLGLPQALRGLCVPQQDLTWSNIDAITERANVPTVITEFGDGDPTVLKNTLARADERFIGWQYWHFGAGNATDPFLGEVGRQLVRTYPQATAGEPGRMIFDADNGDFAYRFTPRAATRPTEIFVSDLHYPDGYAVQVDGGQVTSAPGARIVTVVADGSGPVTVKINRPGSAGAEVP 5ccv-a9-m1-cA_5ccv-a9-m1-cF Crystal structure of full-length NS5 from dengue virus type 3 P27915 P27915 3.6 X-RAY DIFFRACTION 107 0.999 408870 (Dengue virus 3 Philippines/H87/1956) 408870 (Dengue virus 3 Philippines/H87/1956) 849 850 5ccv-a12-m1-cG_5ccv-a12-m1-cD ETLGEKWKKKLNQLSRKEFDLYKKSGITEVDRTEAKEGLKRGEITHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYYCAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGESSPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLSRNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRHVNAEPETPNMDVIGERIKRIKEEHSSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPMPGTRKVMEITAEWLWRTLGRNKRPRLCTREEFTKKVRTSARAAVEDEEFWKLVDRERELHKLGKCGSCVYNMLGARYLEFEALGFLNEDHWFSRENSYSGVEGEGLHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKITQQMDPEHRQLANAIFKLTYQNKVVKVQRPTPKGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLIRQMEGEGVLSKADLENPHPLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKDIPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRETACLGKAYAQMWALMYFHRRDLRLASNAICSAVPVHWVPTSRTTHQWMTTEDMLTVWNRVWIEDNPWMEDKTPVTTWEDVPYLGKREDQWCGSLIGLTSRATWAQNILTAIQQVRSLIGNEEFLDYMPSMKRFRKEEESEGAIW ETLGEKWKKKLNQLSRKEFDLYKKSGITEVDRTEAKEGLKRGEITHHAVSRGSAKLQWFVERNMVIPEGRVIDLGCGRGGWSYYCAGLKKVTEVRGYTKGGPGHEEPVPMSTYGWNIVKLMSGKDVFYLPPEKCDTLLCDIGESSPSPTVEESRTIRVLKMVEPWLKNNQFCIKVLNPYMPTVIEHLERLQRKHGGMLVRNPLSRNSTHEMYWISNGTGNIVSSVNMVSRLLLNRFTMTHRRPTIEKDVDLGAGTRHVNAEPETPNMDVIGERIKRIKEEHSSTWHYDDENPYKTWAYHGSYEVKATGSASSMINGVVKLLTKPWDVVPMVTQMAMTDTTPFGQQRVFKEKVDTRTPRPMPGTRKVMEITAEWLWRTLGRNKRPRLCTREEFTKKVRTSARAAVEDEEFWKLVDRERELHKLGKCGSCVYNMMWLGARYLEFEALGFLNEDHWFSRENSYSGVEGEGLHKLGYILRDISKIPGGAMYADDTAGWDTRITEDDLHNEEKITQQMDPEHRQLANAIFKLTYQNKVVKVQRPTPKGTVMDIISRKDQRGSGQVGTYGLNTFTNMEAQLIRQMEGEGVLSKADLENPHPLEKKITQWLETKGVERLKRMAISGDDCVVKPIDDRFANALLALNDMGKVRKDIPQWQPSKGWHDWQQVPFCSHHFHELIMKDGRKLVVPCRPQDELIGRARISQGAGWSLRETACLGKAYAQMWALMYFHRRDLRLASNAICSAVPVHWVPTSRTTHQWMTTEDMLTVWNRVWIEDNPWMEDKTPVTTWEDVPYLGKREDQWCGSLIGLTSRATWAQNILTAIQQVRSLIGNEEFLDYMPSMKRFRKEEESEGAI 5cd6-a5-m1-cC_5cd6-a5-m2-cC Crystal structure of a TPR-domain containing protein (BDI_1685) from Parabacteroides distasonis ATCC 8503 at 2.26 A resolution A6LCM3 A6LCM3 2.26 X-RAY DIFFRACTION 116 1.0 435591 (Parabacteroides distasonis ATCC 8503) 435591 (Parabacteroides distasonis ATCC 8503) 568 568 5cd6-a4-m1-cA_5cd6-a4-m1-cB QTTGVVCEEFDQIQLTHVLTPTGPLPTALDPNGVYPYSYSETSNRPVPKRYRISLENEKVKAIICPDLCGKVISLTHKESGKEVLYRPDVIKYTRILPRFYFVAGGIEVSFPISHSPTQNEPVLYQIDHTGDRTYVTCGERESHYGQWSVEYSLGDKDECLTQRVVYYNPGKQAYPWSWSNAALPCAPDTQYDFPNGTVLSHASTLDTIDWKTEGTHHERDIKETGYFWKTKDVNAFGAYTPSLGSGLYHIADESSTPGIKLWSYGVAGDKEWSLSTPDRQPYVEIQGGPISDQSIKLELRPGEKKNHVEYWIPTDHPLDIYSLKVPALRLRPIDRIPLFDWARKNESSIWIALADAYKNKSTLPAAPYPEDGQWAPSGEDLDDAFRWAIQISPRPERDYWQFHYGTWLAGRERVEEAIEQLSIPDIDLAKALLARLYVRRQAWEKARDTYAAIPETSWLNLHPQLVIERDKVLKKFGTEALPEREKWLDKINASSDEWVVERKVQLLIDKKQYQEAKDLLLSTHFQKVHQTYTRTGLWEQINEGLGLSPQPVPEQLGEDRLARFEYE QTTGVVCEEFDQIQLTHVLTPTGPLPTALDPNGVYPYSYSETSNRPVPKRYRISLENEKVKAIICPDLCGKVISLTHKESGKEVLYRPDVIKYTRILPRFYFVAGGIEVSFPISHSPTQNEPVLYQIDHTGDRTYVTCGERESHYGQWSVEYSLGDKDECLTQRVVYYNPGKQAYPWSWSNAALPCAPDTQYDFPNGTVLSHASTLDTIDWKTEGTHHERDIKETGYFWKTKDVNAFGAYTPSLGSGLYHIADESSTPGIKLWSYGVAGDKEWSLSTPDRQPYVEIQGGPISDQSIKLELRPGEKKNHVEYWIPTDHPLDIYSLKVPALRLRPIDRIPLFDWARKNESSIWIALADAYKNKSTLPAAPYPEDGQWAPSGEDLDDAFRWAIQISPRPERDYWQFHYGTWLAGRERVEEAIEQLSIPDIDLAKALLARLYVRRQAWEKARDTYAAIPETSWLNLHPQLVIERDKVLKKFGTEALPEREKWLDKINASSDEWVVERKVQLLIDKKQYQEAKDLLLSTHFQKVHQTYTRTGLWEQINEGLGLSPQPVPEQLGEDRLARFEYE 5cde-a1-m1-cB_5cde-a1-m1-cA R372A mutant of Xaa-Pro dipeptidase from Xanthomonas campestris Q8P839 Q8P839 1.85 X-RAY DIFFRACTION 108 1.0 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 190485 (Xanthomonas campestris pv. campestris str. ATCC 33913) 397 398 4r60-a1-m1-cA_4r60-a1-m1-cB 5cik-a1-m1-cA_5cik-a1-m1-cB 5fcf-a1-m1-cB_5fcf-a1-m1-cA 5fch-a1-m1-cB_5fch-a1-m1-cA TQIGGMSLDQARTQLAPWTQRAAPIGADEYQQRIERARVLMRAQGVDALLIGAGTSLRYFSGVPWGASERLVALLLTTEGDPVLICPAFEEGSLDAVLQLPVRKRLWEEHEDPYALVVQAMDEQHAHALALDPGIAFAVHTGLRAHLGTAIRDAGAIIDGCRMCKSPAELALMQQACDMTLLVQRLAAGIAHEGIGTDQLVRFIDEAHRALGADNGSTFCIVQFGHATAFPHGIPGVQHLRAGELVLIDTGCTVQGYHSDITRTWIYGTPSDAQQRIWELELAAQAAAFAAVRPGVACEAVDQAARAVLQAAGLGPDYRLPGLPHRTGHGCGLAIHEAPYLVRGNRQPLQPGMCASNEPMIVVPGAFGVALEDHFYVTDTGAQWFTPPSVAIDQPFA STQIGGMSLDQARTQLAPWTQRAAPIGADEYQQRIERARVLMRAQGVDALLIGAGTSLRYFSGVPWGASERLVALLLTTEGDPVLICPAFEEGSLDAVLQLPVRKRLWEEHEDPYALVVQAMDEQHAHALALDPGIAFAVHTGLRAHLGTAIRDAGAIIDGCRMCKSPAELALMQQACDMTLLVQRLAAGIAHEGIGTDQLVRFIDEAHRALGADNGSTFCIVQFGHATAFPHGIPGVQHLRAGELVLIDTGCTVQGYHSDITRTWIYGTPSDAQQRIWELELAAQAAAFAAVRPGVACEAVDQAARAVLQAAGLGPDYRLPGLPHRTGHGCGLAIHEAPYLVRGNRQPLQPGMCASNEPMIVVPGAFGVALEDHFYVTDTGAQWFTPPSVAIDQPFA 5cdh-a3-m1-cE_5cdh-a3-m1-cF Structure of Legionella pneumophila Histidine Acid Phosphatase complexed with L(+)-tartrate Q9APF7 Q9APF7 2.001 X-RAY DIFFRACTION 121 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 326 327 5cdh-a1-m1-cB_5cdh-a1-m1-cA 5cdh-a2-m1-cC_5cdh-a2-m1-cD 5cdh-a4-m1-cG_5cdh-a4-m1-cH 7d2f-a1-m1-cB_7d2f-a1-m1-cA 7doq-a1-m1-cB_7doq-a1-m1-cA 7doq-a2-m1-cC_7doq-a2-m1-cD MVFAVDIIRHGDRTPIVALPTVNYQWQEGLGQLTAEGMQQEYKMGVAFRKKYIEELHLLPEHYEYGTIYVRSTDYARTLMSAQSLLMGLYPPGTGPSIPAGTSALPHAFQPIPVFSAPSKYDEVIIQQVDRKERKKLMEQYVFSTREWQQKNNELKDKYPLWSRLTGINIDTLEDLETVGHTLYVHQIHNAPMPEGLASNDIETIINSAEWAFMAQEKPQQIANVYSSKLMTNIADYLNSGSMKKSKLKYVLLSAHDTTIASVLSFLGAPLEKSPPYASNVNFSLYDNGANYYTVKITYNGNPVLIPACGGSVCELQQLVNLVHDS MVFAVDIIRHGDRTPIVALPTVNYQWQEGLGQLTAEGMQQEYKMGVAFRKKYIEELHLLPEHYEYGTIYVRSTDYARTLMSAQSLLMGLYPPGTGPSIPAGTSALPHAFQPIPVFSAPSKYDEVIIQQVDRKERKKLMEQYVFSTREWQQKNNELKDKYPLWSRLTGINIDTLEDLETVGHTLYVHQIHNAPMPEGLASNDIETIINSAEWAFMAQEKPQQIANVYSSKLMTNIADYLNSGSMKKSKLKYVLLSAHDTTIASVLSFLGAPLEKSPPYASNVNFSLYDNGANYYTVKITYNGNPVLIPACGGSVCELQQLVNLVHDSK 5cdv-a1-m1-cA_5cdv-a1-m2-cA Proline dipeptidase from Deinococcus radiodurans R1 Q9RUY4 Q9RUY4 1.45 X-RAY DIFFRACTION 64 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 349 349 5cdl-a1-m1-cA_5cdl-a1-m2-cA 5giq-a1-m1-cA_5giq-a1-m2-cA 5giu-a1-m1-cA_5giu-a1-m2-cA SSKMDQLRPVLGRAGVDALWVSAPANVRWLSGFTSAEDGKVLVSPDGATLYTDARYTVQAQEESSLPQYIARPPATYEHAADTVRGLRVGFEAESLTVAELEDLRQAWPNSTLVALRGTLGGLRAVKTPEEIGAIRAAQDLADRVYTEVRPMIRAGVRELDVAVEIETRLRRAGGESAFELIVASGPNGAKPHGHASKRVIEDGDLVTIDMGARLGGYNSDMTRTVAVGTPSAEMKRVYDAVLEAEEAAIAAIRPGVRAADLDKLARDLLTRHGLGEAFAHSLGHGVGLEVHEGPGLRGTSQDVLEAGMVITIEPGAYLPGVGGVRIEDLILVTEDGYEVLSHSAKESV SSKMDQLRPVLGRAGVDALWVSAPANVRWLSGFTSAEDGKVLVSPDGATLYTDARYTVQAQEESSLPQYIARPPATYEHAADTVRGLRVGFEAESLTVAELEDLRQAWPNSTLVALRGTLGGLRAVKTPEEIGAIRAAQDLADRVYTEVRPMIRAGVRELDVAVEIETRLRRAGGESAFELIVASGPNGAKPHGHASKRVIEDGDLVTIDMGARLGGYNSDMTRTVAVGTPSAEMKRVYDAVLEAEEAAIAAIRPGVRAADLDKLARDLLTRHGLGEAFAHSLGHGVGLEVHEGPGLRGTSQDVLEAGMVITIEPGAYLPGVGGVRIEDLILVTEDGYEVLSHSAKESV 5cdy-a1-m1-cD_5cdy-a1-m1-cA The crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase (FabG) from Yersinia pestis at 2.85A resolution A0A5P8YI04 A0A5P8YI04 2.85 X-RAY DIFFRACTION 99 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 205 213 5cdy-a1-m1-cB_5cdy-a1-m1-cC MSFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFDAKEIASAVAFLASDEASYISGETLHVNGG MSFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFIETNRLGDAKEIASAVAFLASDEASYISGETLHVNGGM 5cdy-a1-m1-cD_5cdy-a1-m1-cC The crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase (FabG) from Yersinia pestis at 2.85A resolution A0A5P8YI04 A0A5P8YI04 2.85 X-RAY DIFFRACTION 70 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 205 209 5cdy-a1-m1-cB_5cdy-a1-m1-cA MSFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFDAKEIASAVAFLASDEASYISGETLHVNGG MSFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFRLGDAKEIASAVAFLASDEASYISGETLHVNGGM 5ce9-a1-m1-cB_5ce9-a1-m1-cA structure of tyrosinase from walnut (Juglans regia) C0LU17 C0LU17 1.8 X-RAY DIFFRACTION 43 1.0 51240 (Juglans regia) 51240 (Juglans regia) 332 339 DPVSAPELTLCSEADLPAGALPVNCCPPTSKKIKDFVLPSQNTPLRVRPAAHLVDNDYIAKYNKGIELMKSLPADDPRSFTQQANVHCAYCDGAYTQVGFPDLSLQIHECWLFFPFHRYYVYFFEKILGKLIGDPTFALPFWNWDSPPGMQLPSLYAVSNSAIYDPLRNANHQPPTIIDLDYGTTTDQVPSNLKIMYRQMVSGAKNPTLFFGSPYRAGDEPDPGAGTIESTPHNNIHLWTGDDTQPNIENMGNFYSAGRDPIFFAHHSNVDRMWTIWKTLGGKRKDITDPDWLNSSFFFYDENADPVRVKVKDCVDNTKLRYVYQDVEIPWL DPVSAPELTLCSEADLPAGALPVNCCPPTSKKIKDFVLPSQNTPLRVRPAAHLVDNDYIAKYNKGIELMKSLPADDPRSFTQQANVHCAYCDGAYTQVGFPDLSLQIHECWLFFPFHRYYVYFFEKILGKLIGDPTFALPFWNWDSPPGMQLPSLYAVSNSAIYDPLRNANHQPPTIIDLDYGETSESTTTTDQVPSNLKIMYRQMVSGAKNPTLFFGSPYRAGDEPDPGAGTIESTPHNNIHLWTGDDTQPNIENMGNFYSAGRDPIFFAHHSNVDRMWTIWKTLGGKRKDITDPDWLNSSFFFYDENADPVRVKVKDCVDNTKLRYVYQDVEIPWLK 5cee-a1-m1-cA_5cee-a1-m2-cA Malic enzyme from Candidatus Phytoplasma AYWB in complex with NAD and Mg2+ Q2NK75 Q2NK75 2.498 X-RAY DIFFRACTION 323 1.0 322098 (Aster yellows witches'-broom phytoplasma AYWB) 322098 (Aster yellows witches'-broom phytoplasma AYWB) 387 387 IKEKALEMHEKNKGKVGVVSKVKVQNLDDLSLVYTPGVAEPCLKIKENPSDVYRYTMKGNMVGVITNGTAVLGLGNIGPKASLPVMEGKAILFKELAGIDSFPICIDSTDSQEIVNIVSKISTVFGAINLEDIKSPQCIEIEDALKAKLDIPVFHDDQHGTAIVVAAGILNALKVVKKSIEDVQVVINGAGSAGMAIAKMLLLLKVNNVVLVDKTGTLYKGVANLNEPQKKLVEVTNKYQEKGTLKEVLKGKDIFIGVSAPGIVTAEMVATMAKDAIVFALANPVPEIMPDEAKKGGARIVATGRSDFPNQVNNCLAFPGVFRGTLDAKATQITEEMKKAATYALKNIIKEQDLNENNILPTSFNKEVVKQIALAVCKVAKETGVVR IKEKALEMHEKNKGKVGVVSKVKVQNLDDLSLVYTPGVAEPCLKIKENPSDVYRYTMKGNMVGVITNGTAVLGLGNIGPKASLPVMEGKAILFKELAGIDSFPICIDSTDSQEIVNIVSKISTVFGAINLEDIKSPQCIEIEDALKAKLDIPVFHDDQHGTAIVVAAGILNALKVVKKSIEDVQVVINGAGSAGMAIAKMLLLLKVNNVVLVDKTGTLYKGVANLNEPQKKLVEVTNKYQEKGTLKEVLKGKDIFIGVSAPGIVTAEMVATMAKDAIVFALANPVPEIMPDEAKKGGARIVATGRSDFPNQVNNCLAFPGVFRGTLDAKATQITEEMKKAATYALKNIIKEQDLNENNILPTSFNKEVVKQIALAVCKVAKETGVVR 5cef-a1-m1-cB_5cef-a1-m1-cD Cystal structure of aspartate semialdehyde dehydrogenase from Cryptococcus neoformans Q5KPK7 Q5KPK7 2.6 X-RAY DIFFRACTION 45 1.0 214684 (Cryptococcus neoformans var. neoformans JEC21) 214684 (Cryptococcus neoformans var. neoformans JEC21) 359 359 5cef-a1-m1-cA_5cef-a1-m1-cC RPQIKVGVLGATGTVGQRFIELLAAHPYFALHALGASSRSAGQQYARVVRWKLPSPIPDAVRHMVVHECRPDAPGFAECGVVFSGLDADVAGDIENAFRAADLVVYSNAKNYRRDPLCPLIVPLVNPSHLSIIPYQREQLGLKKGYIVTNANCSTTGIVVPLAALEKAFGPLDTVIVTTLQAISGAGVSSLDIMDNVVPLISGEEDKIEWETNKILGGVTPDNKAFDLHAPKQINVSATCTRVPVIDGHTGCVSVKFARSPPPSVAEVENAFREYTCDAQHLGVPSAPAQAIVVHDAPDRPQPRLDKNLHNGACVSVGRIRECPVFDIKFVCLIDNVRLGAATSSIINAEIAVEKGLIQ RPQIKVGVLGATGTVGQRFIELLAAHPYFALHALGASSRSAGQQYARVVRWKLPSPIPDAVRHMVVHECRPDAPGFAECGVVFSGLDADVAGDIENAFRAADLVVYSNAKNYRRDPLCPLIVPLVNPSHLSIIPYQREQLGLKKGYIVTNANCSTTGIVVPLAALEKAFGPLDTVIVTTLQAISGAGVSSLDIMDNVVPLISGEEDKIEWETNKILGGVTPDNKAFDLHAPKQINVSATCTRVPVIDGHTGCVSVKFARSPPPSVAEVENAFREYTCDAQHLGVPSAPAQAIVVHDAPDRPQPRLDKNLHNGACVSVGRIRECPVFDIKFVCLIDNVRLGAATSSIINAEIAVEKGLIQ 5cef-a1-m1-cC_5cef-a1-m1-cD Cystal structure of aspartate semialdehyde dehydrogenase from Cryptococcus neoformans Q5KPK7 Q5KPK7 2.6 X-RAY DIFFRACTION 120 1.0 214684 (Cryptococcus neoformans var. neoformans JEC21) 214684 (Cryptococcus neoformans var. neoformans JEC21) 359 359 5cef-a1-m1-cA_5cef-a1-m1-cB RPQIKVGVLGATGTVGQRFIELLAAHPYFALHALGASSRSAGQQYARVVRWKLPSPIPDAVRHMVVHECRPDAPGFAECGVVFSGLDADVAGDIENAFRAADLVVYSNAKNYRRDPLCPLIVPLVNPSHLSIIPYQREQLGLKKGYIVTNANCSTTGIVVPLAALEKAFGPLDTVIVTTLQAISGAGVSSLDIMDNVVPLISGEEDKIEWETNKILGGVTPDNKAFDLHAPKQINVSATCTRVPVIDGHTGCVSVKFARSPPPSVAEVENAFREYTCDAQHLGVPSAPAQAIVVHDAPDRPQPRLDKNLHNGACVSVGRIRECPVFDIKFVCLIDNVRLGAATSSIINAEIAVEKGLIQ RPQIKVGVLGATGTVGQRFIELLAAHPYFALHALGASSRSAGQQYARVVRWKLPSPIPDAVRHMVVHECRPDAPGFAECGVVFSGLDADVAGDIENAFRAADLVVYSNAKNYRRDPLCPLIVPLVNPSHLSIIPYQREQLGLKKGYIVTNANCSTTGIVVPLAALEKAFGPLDTVIVTTLQAISGAGVSSLDIMDNVVPLISGEEDKIEWETNKILGGVTPDNKAFDLHAPKQINVSATCTRVPVIDGHTGCVSVKFARSPPPSVAEVENAFREYTCDAQHLGVPSAPAQAIVVHDAPDRPQPRLDKNLHNGACVSVGRIRECPVFDIKFVCLIDNVRLGAATSSIINAEIAVEKGLIQ 5ceg-a1-m1-cC_5ceg-a1-m2-cC X-ray structure of toxin/anti-toxin complex from Mesorhizobium opportunistum F7YBW8 F7YBW8 1.59 X-RAY DIFFRACTION 101 1.0 536019 (Mesorhizobium opportunistum WSM2075) 536019 (Mesorhizobium opportunistum WSM2075) 85 85 5ceg-a1-m1-cA_5ceg-a1-m2-cA ANVEKMSVAVTPQQAAVMREAVEAGEYATASEIVREAVRDWLAKRELRHDDIRRLRQLWDEGKASGRPEPVDFDALRKEARQKLT ANVEKMSVAVTPQQAAVMREAVEAGEYATASEIVREAVRDWLAKRELRHDDIRRLRQLWDEGKASGRPEPVDFDALRKEARQKLT 5ceg-a1-m2-cD_5ceg-a1-m2-cB X-ray structure of toxin/anti-toxin complex from Mesorhizobium opportunistum F7YBW7 F7YBW7 1.59 X-RAY DIFFRACTION 31 1.0 536019 (Mesorhizobium opportunistum WSM2075) 536019 (Mesorhizobium opportunistum WSM2075) 101 103 5ceg-a1-m1-cD_5ceg-a1-m1-cB VRLVWSPTAKADLIDIYVMIGSENIRAADRYYDQLEARALQLADQPRMGVRRPDIRPSARMLVEAPFVLLYETVPDTDDGPVEWVEIVRVVDGRRDLNRLF MAVRLVWSPTAKADLIDIYVMIGSENIRAADRYYDQLEARALQLADQPRMGVRRPDIRPSARMLVEAPFVLLYETVPDTDDGPVEWVEIVRVVDGRRDLNRLF 5cej-a1-m1-cA_5cej-a1-m4-cA The crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase (FabG) from Yersinia pestis at 2.50A resolution A0A5P8YI04 A0A5P8YI04 2.5 X-RAY DIFFRACTION 96 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 234 234 5cej-a1-m2-cA_5cej-a1-m3-cA SFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSVVGTMGNAGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFIETDMTRAGILAQVPANRLGDAKEIASAVAFLASDEASYISGETLHVNGGMY SFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSVVGTMGNAGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFIETDMTRAGILAQVPANRLGDAKEIASAVAFLASDEASYISGETLHVNGGMY 5cej-a1-m2-cA_5cej-a1-m4-cA The crystal structure of 3-ketoacyl-(acyl-carrier-protein) reductase (FabG) from Yersinia pestis at 2.50A resolution A0A5P8YI04 A0A5P8YI04 2.5 X-RAY DIFFRACTION 135 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 234 234 5cej-a1-m1-cA_5cej-a1-m3-cA SFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSVVGTMGNAGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFIETDMTRAGILAQVPANRLGDAKEIASAVAFLASDEASYISGETLHVNGGMY SFEGKIALVTGASRGIGRAIAELLVERGACVIGTATSEKGAEAISAYLGENGKGLMLNVVDPTSIDTVLATIRAEFGEVDILVNNAGITRDNLLMRMKDDEWQDIIDTNLTSVFRLSKAVMRAMMKKRFGRIITIGSVVGTMGNAGQVNYAAAKAGVIGFSKSLAREVASRGITVNVVAPGFIETDMTRAGILAQVPANRLGDAKEIASAVAFLASDEASYISGETLHVNGGMY 5cff-a2-m1-cB_5cff-a2-m1-cD Crystal structure of Miranda/Staufen dsRBD5 complex Q9VDR7 Q9VDR7 2.5 X-RAY DIFFRACTION 123 0.989 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 87 87 5cff-a1-m1-cA_5cff-a1-m1-cC GPGSEFELRRQASNYQLTLTNTRATVNILERLKKSDADVEQYRAELESVQLAKGALEQSYLVLQADAEQLRQQLTESQDALNALRSS PGSEFELRRQASNYQLTLTNTRATVNILERLKKSDADVEQYRAELESVQLAKGALEQSYLVLQADAEQLRQQLTESQDALNALRSSS 5cfm-a1-m1-cA_5cfm-a1-m1-cB Crystal structure of anemone STING (Nematostella vectensis) in complex with 3', 3' cGAMP, c[G(3', 5')pA(3', 5')p] A7SLZ2 A7SLZ2 1.994 X-RAY DIFFRACTION 90 1.0 45351 (Nematostella vectensis) 45351 (Nematostella vectensis) 187 187 5cfl-a1-m1-cA_5cfl-a1-m1-cB 5cfn-a1-m1-cB_5cfn-a1-m1-cA 5cfo-a1-m1-cA_5cfo-a1-m1-cB 5cfp-a1-m1-cA_5cfp-a1-m1-cB GSNVADGLAWSYYFGYLKFVLPELEKQIEKTSKFRSKEKFVKKMFILIPSNCFWDDKIPGSDYDPQNRITFEGNTEPLEKTRGGVFLRHYKHSVYEIKDGENEPWFCIMEYATPLLTLYDMSVAQPGELSREERDAQVVVFLRKLQDILEGDRACQGKYELVTFSPDRDLADVMLRKLKDSELEIGG GSNVADGLAWSYYFGYLKFVLPELEKQIEKTSKFRSKEKFVKKMFILIPSNCFWDDKIPGSDYDPQNRITFEGNTEPLEKTRGGVFLRHYKHSVYEIKDGENEPWFCIMEYATPLLTLYDMSVAQPGELSREERDAQVVVFLRKLQDILEGDRACQGKYELVTFSPDRDLADVMLRKLKDSELEIGG 5cfq-a1-m1-cB_5cfq-a1-m1-cA Crystal structure of anemone STING (Nematostella vectensis) in complex with 2',3' cGAMP, c[G(2',5')pA(3',5')p] A7SLZ2 A7SLZ2 2.099 X-RAY DIFFRACTION 121 1.0 45351 (Nematostella vectensis) 45351 (Nematostella vectensis) 179 180 5cfr-a1-m1-cA_5cfr-a1-m1-cB NVADGLAWSYYFGYLKFVLPELEKQIEKTSKFRSKEKFVKKMFILIPSNCFWDDKIPGSDYDPQNRITFEGNTEPLEKTRGGVFLRHYKHSVYEIKDGENEPWFCIMEYATPLLTLYDMSVAQPGELSREERDAQVVVFLRKLQDILEGDRACQGKYELVTFSPDRDLADVMLRKLKDS NVADGLAWSYYFGYLKFVLPELEKQIEKTSKFRSKEKFVKKMFILIPSNCFWDDKIPGSDYDPQNRITFEGNTEPLEKTRGGVFLRHYKHSVYEIKDGENEPWFCIMEYATPLLTLYDMSVAQPGELSREERDAQVVVFLRKLQDILEGDRACQGKYELVTFSPDRDLADVMLRKLKDSE 5cg0-a3-m1-cF_5cg0-a3-m1-cE Crystal structure of Spodoptera frugiperda Beta-glycosidase O61594 O61594 2.09 X-RAY DIFFRACTION 74 1.0 7108 (Spodoptera frugiperda) 7108 (Spodoptera frugiperda) 471 485 5cg0-a1-m1-cA_5cg0-a1-m1-cB 5cg0-a2-m1-cD_5cg0-a2-m1-cC RRFPDDFLFGTATASYQIEGAWDEDGKGENIWDYMVHNTPEVIRDLSNGDIAADSYHNYKRDVEMMRELGLDAYRFSLSWARILPTGMANEVNPAGIAFYNNYIDEMLKYNITPLITLYHWDLPQKLQELGGFANPLISDWFEDYARVVFENFGDRVKMFITFNEPREICFEGYGSATKAPILNATAMGAYLCAKNLVTAHAKAYYLYDREFRPVQGGQCGITISVNWFGPATPTPEDEMAAELRRQGEWGIYAHPIFSAEGGFPKELSDKIAEKSAQQGYPWSRLPEFTEEEKAFVRGTSDFFGVNHYTAFLVSATERKGPYPVPSLLDDVDTGSWADDSWLKSASAWLTLAPNSIHTALTHLNNLYNKPVFYITENGWSTDESRENSLIDDDRIQYYRASMESLLNCLDDGINLKGYMAWSLMDNFEWMEGYIERFGLYEVDFSDPARRTPRKAAFVYKHIIKHRVVDY RRFPDDFLFGTATASYQIEGAWDEDGKGENIWDYMVHNTPEVIRDLSNGDIAADSYHNYKRDVEMMRELGLDAYRFSLSWARILPTGMANEVNPAGIAFYNNYIDEMLKYNITPLITLYHWDLPQKLQELGGFANPLISDWFEDYARVVFENFGDRVKMFITFNEPREICFEGYGSATKAPILNATAMGAYLCAKNLVTAHAKAYYLYDREFRPVQGGQCGITISVNWFGPATPTPEDEMAAELRRQGEWGIYAHPIFSAEGGFPKELSDKIAEKSAQQGYPWSRLPEFTEEEKAFVRGTSDFFGVNHYTAFLVSATERKGPYPVPSLLDDVDTGSWADDSWLKSASAWLTLAPNSIHTALTHLNNLYNKPVFYITENGWSTDESRENSLIDDDRIQYYRASMESLLNCLDDGINLKGYMAWSLMDNFEWMEGYIERFGLYEVDFSDPARTRTPRKAAFVYKHIIKHRVVDYEYEPETMVMTIDE 5cg7-a2-m1-cB_5cg7-a2-m3-cB Leishmania siamensis Triosephosphate isomerase I2APN2 I2APN2 1.88 X-RAY DIFFRACTION 133 1.0 438838 (Leishmania sp. 'siamensis') 438838 (Leishmania sp. 'siamensis') 245 245 4gnj-a1-m1-cA_4gnj-a1-m2-cA 4gnj-a2-m1-cB_4gnj-a2-m3-cB 5cg7-a1-m1-cA_5cg7-a1-m2-cA AKPQPIVAANWKCNGTTASIEKLVQVLNEHQIDHDVQCVVAPSFVHIPMVQAKLNPKYAVSAENAIAKSGAFTGEVSMPILKDLGVSWVILGHSERRTYYGETDGVVAQKVADAYNQGFMVIACIGETLQQREANQTAKVVLSQTAAIAAKLPKEAWSQIVLAYEPVWAIKVATPEQAQEVHALLRQWVSEKIGNGVATKLRILYGGSVTAGNAKTLYMKPDINGFLVGGASLKPEFRDIIDATR AKPQPIVAANWKCNGTTASIEKLVQVLNEHQIDHDVQCVVAPSFVHIPMVQAKLNPKYAVSAENAIAKSGAFTGEVSMPILKDLGVSWVILGHSERRTYYGETDGVVAQKVADAYNQGFMVIACIGETLQQREANQTAKVVLSQTAAIAAKLPKEAWSQIVLAYEPVWAIKVATPEQAQEVHALLRQWVSEKIGNGVATKLRILYGGSVTAGNAKTLYMKPDINGFLVGGASLKPEFRDIIDATR 5cgl-a1-m1-cA_5cgl-a1-m1-cB Fic protein from Neisseria meningitidis (NmFic) mutant E102R in dimeric form Q7DDR9 Q7DDR9 2.35 X-RAY DIFFRACTION 30 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 161 163 SIDEQSLHNARRLFESGDIDRIEVGTTAGLQQIHRYLFGGLYDFAGQIRLKEALVKIEQMPERTFEEIIAKYVRMNIAHPFLEGNGRSTRIWLDLVLKKNLKKVVNWQNVSKTLYLQAMERSPVNDLELRFLLKDNLTDDVDNREIIFKGIEQSYYYEGYE KSIDEQSLHNARRLFESGDIDRIEVGTTAGLQQIHRYLFGGLYDFAGQIRYLKEALVKIEQMPERTFEEIIAKYVRMNIAHPFLEGNGRSTRIWLDLVLKKNLKKVVNWQNVSKTLYLQAMERSPVNDLELRFLLKDNLTDDVDNREIIFKGIEQSYYYEGYE 5cgm-a1-m1-cB_5cgm-a1-m1-cA Structure of Mycobacterium thermoresistibile GlgE in complex with maltose at 1.95A resolution G7CL00 G7CL00 1.95 X-RAY DIFFRACTION 154 0.993 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 667 669 5cim-a1-m1-cA_5cim-a1-m1-cB 5cj5-a1-m1-cA_5cj5-a1-m1-cB GSVAGRIVIDDVQPVVSNGRYPAKAVVGEVVPVAATVWREGHDAVAATLVVRYHGTTYPDLADPPKPQRLPMSPGHTPDVFHGHFTPDRVGLWTYRVDGWGDPIASWRHNVTAKLLNNDLLVGARLLERAATGVPRELREALLEAAAALRAPGDPFTRAGAALSAEVSDLLAEYPLREFVTRGEQYGVWVDRPEARFSSWYEMFPRSTGGWDAEGRPVHGTFATAAEALPRIARMGFDVVYLPPIHPIGKVHRKGRNNSVTAAPGDVGSPWAIGSDEGGHDAVHPQLGTIEDFDEFVASARDLGLEVALDLALQCAPDHPWAREHPEWFTVLPDGSIAYAENPPKKYQDIYPLNFDNDPAGIYQEVLRVVRFWISHGVNIFRVDNPHTKPPNFWAWLIGQIKNENPDVLFLSEAFTRPARLYGLAKLGFTQSYTYFTWRTSKWELTEFGQEIAAKADIARPNLFVNTPDILHESLQHGGPGMFAIRAVLAATMGPAWGVYSGYELFENQPVRPGSEEYLNSEKYELRPRDFESALARGESLEPFLTRLNEIRRLHPALRELRTIRFHHVDNDALLAYSKFDPGTGDTVLVVVTLNPFGAEEATLWLDMPELGMEPYDRFWVRDEITGEEYQWGQANYVRLDPAKAVAHVLNMPLIPADKRLQLLRRE GSVAGRIVIDDVQPVVSNGRYPAKAVVGEVVPVAATVWREGHDAVAATLVVRYHGTTYPDLADPPPGPQRLPMSPGHTPDVFHGHFTPDRVGLWTYRVDGWGDPIASWRHNVTAKLQGESELNNDLLVGARLLERAATGVPRELREALLEAAAALRAPGDPFTRAGAALSAEVSDLLAEYPLREFVTRGEQYGVWVDRPEARFSSWYEMFPRSTGGWDAEGRPVHGTFATAAEALPRIARMGFDVVYLPPIHPIGKVHRKGRNNSVTAAPGDVGSPWAIGSDEGGHDAVHPQLGTIEDFDEFVASARDLGLEVALDLALQCAPDHPWAREHPEWFTVLPDGSIAYAEKYQDIYPLNFDNDPAGIYQEVLRVVRFWISHGVNIFRVDNPHTKPPNFWAWLIGQIKNENPDVLFLSEAFTRPARLYGLAKLGFTQSYTYFTWRTSKWELTEFGQEIAAKADIARPNLFVNTPDILHESLQHGGPGMFAIRAVLAATMGPAWGVYSGYELFENQPVRPGSEEYLNSEKYELRPRDFESALARGESLEPFLTRLNEIRRLHPALRELRTIRFHHVDNDALLAYSKFDPGTGDTVLVVVTLNPFGAEEATLWLDMPELGMEPYDRFWVRDEITGEEYQWGQANYVRLDPAKAVAHVLNMPLIPADKRLQLLRRE 5cgn-a2-m2-cG_5cgn-a2-m3-cE Structure of quasiracemic Ala-Magainin 2 with a beta amino acid substitution at position 8 P11006 P11006 2.2 X-RAY DIFFRACTION 13 1.0 32630 (synthetic construct) 32630 (synthetic construct) 21 21 GIGKFLHAKKFAKAFVAEIMN GIGKFLHAKKFAKAFVAEIMN 5cgn-a2-m3-cE_5cgn-a2-m3-cF Structure of quasiracemic Ala-Magainin 2 with a beta amino acid substitution at position 8 P11006 P11006 2.2 X-RAY DIFFRACTION 27 1.0 32630 (synthetic construct) 32630 (synthetic construct) 21 21 5cgn-a1-m1-cE_5cgn-a1-m1-cF 5cgn-a1-m1-cG_5cgn-a1-m1-cH 5cgn-a2-m2-cG_5cgn-a2-m2-cH GIGKFLHAKKFAKAFVAEIMN GIGKFLHAKKFAKAFVAEIMN 5cgo-a1-m1-cA_5cgo-a1-m1-cB Structure of quasiracemic Ala-Magainin 2 with a beta amino acid substitution at position 13 P11006 P11006 1.5 X-RAY DIFFRACTION 44 1.0 32630 (synthetic construct) 32630 (synthetic construct) 22 22 GIGKFLHAAKKFKAFVAEIMNS GIGKFLHAAKKFKAFVAEIMNS 5ch3-a2-m1-cA_5ch3-a2-m2-cA E3 alpha-esterase-7 carboxylesterase Q25252 Q25252 1.71 X-RAY DIFFRACTION 66 1.0 7375 (Lucilia cuprina) 7375 (Lucilia cuprina) 566 566 4fng-a2-m1-cA_4fng-a2-m2-cA 4fnm-a2-m1-cA_4fnm-a2-m2-cA VSLMEKLKWKIKCIENKFLNYRLTTNETVVAETEYGKVKGVKRLTVYDDSYYSFEGIPYAQPPVGELRFKAPQRPTPWAGVRDCCNHKDKSVQVDFITGKVCGSEDCLYLSVYTNNLNPETKRPVLVYIHGGGFIIGENHRDMYGPDYFIKKDVVLINIQYRLGALGFLSLNSEDLNVPGNAGLKDQVMALRWIKNNCANFGGNPDNITVFGESAGAASTHYMMLTEQTRGLFHRGILMSGNAICPWANTQCQHRAFTLAKLAGYKGEDNDKDVLEFLMKAKPQDLIKLEEKVLTLEERTNKVMFPFGPTVEPYQTADCVLPKHPREMVKTAWGNSIPTMMGNTSYEGLFFTSILKQMPLLVKELETCVNFVPSELADAERTAPETLEMGAKIKKAHVTGETPTADNFMDLCSHFYFWFPMHRLLQLRFNHTSGTPVYLYRFDFDSEDLINPYRIMRSGRGVKGVSHTDELTYFFWNQLAKRMPKESREYKTIERMTGIWTQFATTGNPYSNEIEGMENVSWDPIEKSDEVYKCLNISDELKMIDVPEMGKIKQWESMFEKHRDLF VSLMEKLKWKIKCIENKFLNYRLTTNETVVAETEYGKVKGVKRLTVYDDSYYSFEGIPYAQPPVGELRFKAPQRPTPWAGVRDCCNHKDKSVQVDFITGKVCGSEDCLYLSVYTNNLNPETKRPVLVYIHGGGFIIGENHRDMYGPDYFIKKDVVLINIQYRLGALGFLSLNSEDLNVPGNAGLKDQVMALRWIKNNCANFGGNPDNITVFGESAGAASTHYMMLTEQTRGLFHRGILMSGNAICPWANTQCQHRAFTLAKLAGYKGEDNDKDVLEFLMKAKPQDLIKLEEKVLTLEERTNKVMFPFGPTVEPYQTADCVLPKHPREMVKTAWGNSIPTMMGNTSYEGLFFTSILKQMPLLVKELETCVNFVPSELADAERTAPETLEMGAKIKKAHVTGETPTADNFMDLCSHFYFWFPMHRLLQLRFNHTSGTPVYLYRFDFDSEDLINPYRIMRSGRGVKGVSHTDELTYFFWNQLAKRMPKESREYKTIERMTGIWTQFATTGNPYSNEIEGMENVSWDPIEKSDEVYKCLNISDELKMIDVPEMGKIKQWESMFEKHRDLF 5ch6-a1-m1-cC_5ch6-a1-m1-cB Crystal Structure of FRIGIDA Flowering-time Regulator A0A182DWB3 A0A182DWB3 3.26 X-RAY DIFFRACTION 58 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 284 285 5ch6-a1-m1-cB_5ch6-a1-m1-cA 5ch6-a1-m1-cC_5ch6-a1-m1-cA VSELGFLCGMMRSRGLRKYIISHLSDVAKLREEVPAALKGAPKPAKLVLECIGRFFLQGSKAFGKATHMVPSRQASLLILEFFLLSDCTEMEPSVKEEADLAAVTWRKRLINEGGVSNASDIDARGLLLLVASFGIPALFRNEDLRNLIRLSCPKEISDALRRSRFLLARVPDVIQGMIKNQMNVEAVDFAYTFGLEEKFPIWKILTSFLREHKEEWKRTREEDSPIRLKKANENYLSAMKSVTRCLEDHRVDPSKLLSGWHIDEKIIQLEKEMADLDKKMEGK SVSELGFLCGMMRSRGLRKYIISHLSDVAKLREEVPAALKGAPKPAKLVLECIGRFFLQGSKAFGKATHMVPSRQASLLILEFFLLSDCTEMEPSVKEEADLAAVTWRKRLINEGGVSNASDIDARGLLLLVASFGIPALFRNEDLRNLIRLSCPKEISDALRRSRFLLARVPDVIQGMIKNQMNVEAVDFAYTFGLEEKFPIWKILTSFLREHKEEWKRTREEDSPIRLKKANENYLSAMKSVTRCLEDHRVDPSKLLSGWHIDEKIIQLEKEMADLDKKMEGK 5cha-a1-m1-cC_5cha-a1-m1-cG THE REFINEMENT AND THE STRUCTURE OF THE DIMER OF ALPHA-*CHYMOTRYPSIN AT 1.67-*ANGSTROMS RESOLUTION P00766 P00766 1.67 X-RAY DIFFRACTION 12 1.0 9913 (Bos taurus) 9913 (Bos taurus) 97 97 1yph-a1-m1-cE_1yph-a1-m1-cF 2cha-a1-m1-cC_2cha-a1-m1-cG 4cha-a1-m1-cC_4cha-a1-m1-cG 6cha-a1-m1-cC_6cha-a1-m1-cG ANTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN ANTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN 5che-a1-m1-cB_5che-a1-m1-cA Crystal structure of Arabidopsis glutamyl-tRNA reductase in complex with its regulatory proteins P42804 P42804 3.203 X-RAY DIFFRACTION 88 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 423 427 4yvq-a1-m1-cA_4yvq-a1-m2-cA RSSIVVIGLSIHTAPVEMREKLAIPEAEWPRAIAELCGLNHIEEAAVLSTCNRMEIYVLALSQHRGVKEVTEWMSKTSGIPVSEICQHRFLLYNKDATQHIFEVSAGLDSLVLGEGQILAQVKQVVKVGQGFGRNISGLFKHAITVGKRVRTETNIASGAVSVSSAAVELALMKLPQVSARMCVIGAGKMGKLVIKHLMAKGCTKVVVVNRSEERVSAIREEMPGIEIIYRPLDEMLACASEADVVFTSTASTPLFLKEHVENLPQASPEVGGLRHFVDISVPRNVGSCVGEVETARVYNVDDLKEVVAKEDRMRKAMEAQTIITEESTQFEAWRDSLETVPTIKKLRAYAERIRVAELEKCMSKMDINKKTTRAVDDLSRGIVNRFLHGPMQHLRCDGSDSRTLSETLENMHALNRMYGLEK RSSIVVIGLSIHTAPVEMREKLAIPEAEWPRAIAELCGLNHIEEAAVLSTCNRMEIYVLALSQHRGVKEVTEWMSKTSGIPVSEICQHRFLLYNKDATQHIFEVSAGLDSLVLGEGQILAQVKQVVKVGQGVNGFGRNISGLFKHAITVGKRVRTETNIASGAVSVSSAAVELALMKLPQSSNVSARMCVIGAGKMGKLVIKHLMAKGCTKVVVVNRSEERVSAIREEMPGIEIIYRPLDEMLACASEADVVFTSTASETPLFLKEHVENLPQASPEVGGLRHFVDISVPRNVGSCVGEVETARVYNVDDLKEVVEDRMRKAMEAQTIITEESTQFEAWRDSLETVPTIKKLRAYAERIRVAELEKCMSKMINKKTTRAVDDLSRGIVNRFLHGPMQHLRCDGSDSRTLSETLENMHALNRMYGLEK 5cho-a4-m1-cG_5cho-a4-m1-cH Crystal Structure of BorF, the Flavin Reductase Component of a Bacterial Two-Component Tryptophan Halogenase M9QXS1 M9QXS1 2.37 X-RAY DIFFRACTION 152 0.994 77133 (uncultured bacterium) 77133 (uncultured bacterium) 160 160 5cho-a1-m1-cB_5cho-a1-m1-cA 5cho-a2-m1-cD_5cho-a2-m1-cC 5cho-a3-m1-cF_5cho-a3-m1-cE DSRSLRGIFSSFATGVTVVTVGGDSPHAMTANSFTSVSLDPPLILVCVECDAAMHGSLLEVGSFGVSVLAADQQHVALLYANRWRPRDPTQFDRPGWARGARTGAPLARGALAWFECALWRAYDAGDHSIFVGRLLTAERHDRRDALVYHSGQFRGLPDR SRSLRGIFSSFATGVTVVTVGGDSPHAMTANSFTSVSLDPPLILVCVECDAAMHGSLLEVGSFGVSVLAADQQHVALLYANRWRPRDPTQFDRPGWARGARTGAPLARGALAWFECALWRAYDAGDHSIFVGRLLTAERHDRRDALVYHSGQFRGLPDRA 5chx-a2-m1-cB_5chx-a2-m1-cA Crystal Structure of amino acids 1590-1657 of MYH7 P12883 P12883 2.3 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 194 5chx-a1-m1-cB_5chx-a1-m1-cA SGERISRIHLVSEPSITHFLQVSWETLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEGYVGELRALLSGAGVYTFNFSESCYFFFENLDVSFRLGSFNLEVENPAEVIRELICYCLDTTAENQANEHHLRVVDSLQTSLDAETRSRNEALRVMEGDLNEMEIQLSHANRMAAEAQQVSLQSLLDTQIQL SGERISRIHLVSEPSITHFLQVSWETLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEGYVGELRALLSGAGDVYTFNFSESCYFFFENLDVSFRLGSFNLEVENPAEVIRELICYCLDTTAENQANEHHLRVVDSLQTSLDAETRSRNEALRVMEGDLNEMEIQLSHANRMAAEAQQVSLQSLLDTQIQL 5cid-a1-m1-cA_5cid-a1-m1-cC Complex of yeast cytochrome c peroxidase (W191G) bound to o-toluidine with iso-1 cytochrome c P00431 P00431 2.763 X-RAY DIFFRACTION 19 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 294 294 5cib-a1-m1-cA_5cib-a1-m1-cC 5cic-a1-m1-cA_5cic-a1-m1-cC 5cie-a1-m1-cA_5cie-a1-m1-cC TTPLVHVASVEKGRSYEDFQKVYNAIALKLREDDEYDNYIGYGPVLVRLAWHISGTWDKHDNTGGSYGGTYRFKKEFNDPSNAGLQNGFKFLEPIHKEFPWISSGDLFSLGGVTAVQEMQGPKIPWRCGRVDTPEDTTPDNGRLPDADKDAGYVRTFFQRLNMNDREVVALMGAHALGKTHLKNSGYEGPGGAANNVFTNEFYLNLLNEDWKLEKNDANNEQWDSKSGYMMLPTDYSLIQDPKYLSIVKEYANDQDKFFKDFSKAFEKLLENGITFPKDAPSPFIFKTLEEQGL TTPLVHVASVEKGRSYEDFQKVYNAIALKLREDDEYDNYIGYGPVLVRLAWHISGTWDKHDNTGGSYGGTYRFKKEFNDPSNAGLQNGFKFLEPIHKEFPWISSGDLFSLGGVTAVQEMQGPKIPWRCGRVDTPEDTTPDNGRLPDADKDAGYVRTFFQRLNMNDREVVALMGAHALGKTHLKNSGYEGPGGAANNVFTNEFYLNLLNEDWKLEKNDANNEQWDSKSGYMMLPTDYSLIQDPKYLSIVKEYANDQDKFFKDFSKAFEKLLENGITFPKDAPSPFIFKTLEEQGL 5cio-a1-m1-cB_5cio-a1-m1-cA Crystal structure of PqqF A0A1A9TAI5 A0A1A9TAI5 2.5 X-RAY DIFFRACTION 279 1.0 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 766 770 HSSGLVPRGSHMASMTLAASWQLDNGLAVRAISTPGAEAAAALVRIEAGSFQAPAAWPGLAHLLEHMLFRGSANFSAQDGLMGWTQAAGGRLNATTQATQTAFFFEVGADPLAEGLARLSDMLAAPQLAAEAIAQEIEVIDAEYRLLRADGETRCEAAQRQMFSGFDALHRFHIGSRAAFGSDISALQQALRQFHHHYYRAPNMTLWLQGPQSLEQLHALAQRYGGGLPSGETLPPLAAGQDYTLSLPGAPQLRLVFTLPHCRSRGWLRRLERLLLDDAPGGLLARLRAHAWGDAVRLGYARCGENSALLSFIFTVNHGSASEAAHIESALLAWLQALNALTPGQLAHFGQLANRDFHRLAPLDQLRARALGLPPTEQHDDWTRQLAMLMAAPRRRLAVLPEGGGETREIQGLPLTLGPFVGAALTPTVEPFRFFSASAALPIPPLPAGQAPLRHLHPDEAQPVLLLRPSSHGALSEEQACGLQAALRPEAAELAHREGHLSVERHQGVWLLQLAGSHGLICHGLNVVNRALTAQPPAIINEAARNLRHAQLKQQNDIAIRRLLAQLPAALNPYWHATLVGGDGELKRRLSHLLYDFPYAITAEPHPPVTLTESGAEHALLQFYPLQSDEAEGRWALRVLARLYAPRYFQRLRVERNVGYVVQCTFHRCTHVEGLLFALQSPTFTAEQLRQLTDEFLQQMHHELTHVSVGELEQTQQALQQNLQRLSAEPLQRAREIALENRATIAAAAPITLTQLLHWQQRLFVA HSSGLVPRGSHMASMTLAASWQLDNGLAVRAISTPGAEAAAALVRIEAGSFQAPAAWPGLAHLLEHMLFRGSANFSAQDGLMGWTQAAGGRLNATTQATQTAFFFEVGADPLAEGLARLSDMLAAPQLAAEAIAQEIEVIDAEYRLLRADGETRCEAAQRQMFSGFDALHRFHIGSRAAFGSDISALQQALRQFHHHYYRAPNMTLWLQGPQSLEQLHALAQRYGGGLPSGSETLPPLAAGQDYTLSLPGAPQLRLVFTLPHCRSRGWLRRLERLLLDDAPGGLLARLRAHAWGDAVRLGYARCGENSALLSFIFTVNHGSASEAAHIESALLAWLQALNALTPGQLAHFGQLANRDFHRLAPLDQLRARALGLPPTEQHDDWTRQLAMLMAAPRRRLAVLPEGGGETREIQGLPLTLGPFVGAALTPTVEPFRFFSASAALPIPPLPAGQAPLRHLHPDEAQPVLLLRPSSHGALSEEQACGLQAALRPEAAELAHREGHLSVERHQGVWLLQLAGSHGLICHGLNVVNRALTAQPPAIINEAARNLRHAQLKQQNDIAIRRLLAQLPAALNPYWHATLVGGDGELKRRLSHLLYDFPYAITAEPQRLHPPVTLTESGAEHALLQFYPLQSDEAEGRWALRVLARLYAPRYFQRLRVERNVGYVVQCTFHRCTHVEGLLFALQSPTFTAEQLRQLTDEFLQQMHHELTHVSVGELEQTQQALQQNLQRLSAEPLQRAREIALENRATIAAAAPITLTQLLHWQQRLFVA 5cj0-a1-m1-cB_5cj0-a1-m1-cA Crystal Structure of Amino Acids 1631-1692 of MYH7 P12883 P12883 2.3 X-RAY DIFFRACTION 161 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 201 GERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSGPADVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDTTAENQAKNEHANRMAAEAQKQVKSLQSLLKDTQIQLDDAVRANDDLKENIAIVERRNNLLQAELEELR GERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSGAGPADVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDTTAENQAKNEHANRMAAEAQKQVKSLQSLLKDTQIQLDDAVRANDDLKENIAIVERRNNLLQAELEELR 5cj1-a1-m1-cA_5cj1-a1-m1-cB Crystal structure of the coiled coil of MYH7 residues 1526 to 1571 fused to Gp7 P12883 P12883 2.1 X-RAY DIFFRACTION 112 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 98 98 5cj1-a2-m1-cC_5cj1-a2-m1-cD 5cj1-a3-m1-cF_5cj1-a3-m1-cE 5cj1-a4-m1-cH_5cj1-a4-m1-cG GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSHEKLEKVRKQLEAEKMELQSALEEAEASLEHEEGKILRAQLEFNQIKAE GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKSHEKLEKVRKQLEAEKMELQSALEEAEASLEHEEGKILRAQLEFNQIKAE 5cj4-a2-m1-cD_5cj4-a2-m1-cC Crystal Structure of Amino Acids 1562-1622 of MYH7 P12883 P12883 3.102 X-RAY DIFFRACTION 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 180 5cj4-a1-m1-cB_5cj4-a1-m1-cA GERISRIHLVSEPSITHFLQVSWETLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEGYVGELRALLSVYTFNFSESCYFFFENLDVSFRLGSFNLEVENPAEVIRELICYCLDTTAENQANEHLQLEFNQIAEIERLAEDEEMEQARNHLRVVDSLQTSLDAETRSRNEAL GERISRIHLVSEPSITHFLQVSWETLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEGYVGELRALLSDVYTFNFSESCYFFFENLDVSFRLGSFNLEVENPAEVIRELICYCLDTTAENQANEHLQLEFNQIAEIERLAEDEEMEQARNHLRVVDSLQTSLDAETRSRNEALRVME 5cj9-a1-m2-cA_5cj9-a1-m3-cA Bacillus halodurans Arginine repressor, ArgR Q9K973 Q9K973 2.409 X-RAY DIFFRACTION 25 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 146 146 5cj9-a1-m1-cA_5cj9-a1-m2-cA 5cj9-a1-m1-cA_5cj9-a1-m3-cA GSRHIKIREIIANNDVETQDELVEQLKAAGYNVTQATVSRDIKELHLVKVPMMDGRYKYSLPADQRFNPLQKLKRGLVDSFVSIDRTDNLIVMKTLPGNAHAIGALIDNLDWTEIMGTICGDDTILIICKDKQDGPVVTERFLNML GSRHIKIREIIANNDVETQDELVEQLKAAGYNVTQATVSRDIKELHLVKVPMMDGRYKYSLPADQRFNPLQKLKRGLVDSFVSIDRTDNLIVMKTLPGNAHAIGALIDNLDWTEIMGTICGDDTILIICKDKQDGPVVTERFLNML 5cjb-a1-m1-cB_5cjb-a1-m1-cD Human Osteoclast Associated Receptor (OSCAR) in complex with a collagen-like peptide 2.398 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 17 17 5cjb-a1-m1-cC_5cjb-a1-m1-cB GPGPGPGPGPAGFGPGP GPGPGPGPGPAGFGPGP 5cjb-a1-m1-cC_5cjb-a1-m1-cD Human Osteoclast Associated Receptor (OSCAR) in complex with a collagen-like peptide 2.398 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 16 17 GPGPGPGPGPAGFGPG GPGPGPGPGPAGFGPGP 5cjj-a1-m1-cA_5cjj-a1-m1-cB The crystal structure of phosphoribosylglycinamide formyltransferase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q0PBV2 Q0PBV2 2.42 X-RAY DIFFRACTION 31 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 183 186 NALVKLAVLFSGNGSNLENILEKLHKKTIGENTYEIVLCLCNKKDAFGIQRAKKFGLNTVIKAYNTREEFDTILVQKIKESGANLTVLAGFRILSPVFTKNIKAINLHPSLLPLFKGAHAIKESYESDKVAGVSVHWVSEELDGGIIAQKAFEKRNLSFEEFEEKIHSLEHEILPLSVIEIFS NALVKLAVLFSGNGSNLENILEKLHKKTIGENTYEIVLCLCNKKDAFGIQRAKKFGLNTVIIDHKAYNTREEFDTILVQKIKESGANLTVLAGFRILSPVFTKNIKAINLHPSLLPLFKGAHAIKESYESDKVAGVSVHWVSEELDGGIIAQKAFEKRNLSFEEFEEKIHSLEHEILPLSVIEIFS 5cjp-a1-m1-cE_5cjp-a1-m1-cF The Structural Basis for Cdc42-Induced Dimerization of IQGAPs Q13576 Q13576 2.6 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 372 372 SKERRKTLETYQQLFYLLQTNPLYLAKLIFQMPQNKSTKFMDTVIFTLYNYASNQREEYLLLKLFKTALEEEIKSKVDQVQDIVTGNPTVIKMVVSFNRGARGQNTLRQLLAPVVKEIIDDKSLIINTNPVEVYKAWVNQLETQTGEASKLPYDVTTEQALTYPEVKNKLEASIENLRRVTDKVLNSIISSLDLLPYGLRYIAKVLKNSIHEKFPDATEDELLKIVGNLLYYRYMNPAIVAPDGFDIIDMTAGGQINSDQRRNLGSVAKVLQHAASNKLFEGENEHLSSMNNYLSETYQEFRKYFKEACNVPEPEEKFNMDKYTDLVTVSKPVIYISIEEIISTHSLLLEHQDAIAPEKNDLLSELLGSLGE SKERRKTLETYQQLFYLLQTNPLYLAKLIFQMPQNKSTKFMDTVIFTLYNYASNQREEYLLLKLFKTALEEEIKSKVDQVQDIVTGNPTVIKMVVSFNRGARGQNTLRQLLAPVVKEIIDDKSLIINTNPVEVYKAWVNQLETQTGEASKLPYDVTTEQALTYPEVKNKLEASIENLRRVTDKVLNSIISSLDLLPYGLRYIAKVLKNSIHEKFPDATEDELLKIVGNLLYYRYMNPAIVAPDGFDIIDMTAGGQINSDQRRNLGSVAKVLQHAASNKLFEGENEHLSSMNNYLSETYQEFRKYFKEACNVPEPEEKFNMDKYTDLVTVSKPVIYISIEEIISTHSLLLEHQDAIAPEKNDLLSELLGSLGE 5cjq-a1-m2-cB_5cjq-a1-m3-cB Crystal structure of a trimeric influenza hemagglutinin stem in complex with an broadly neutralizing antibody CR9114 3.6 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 154 154 5cjq-a1-m1-cB_5cjq-a1-m2-cB 5cjq-a1-m1-cB_5cjq-a1-m3-cB GAIAGFTEGGWTGMVDGWYGYHHQNEQGSGYAADQKSTQNAINGITNKVNSVIEKMNTMKQIEDKIEEIESKIWCYNAELLVLLENERTLDFHDSNVKNLYEKVKSQLKNNAKEIGNGCFEFYHKCNDECMESVKNGTYDYPKYSEESKLNREK GAIAGFTEGGWTGMVDGWYGYHHQNEQGSGYAADQKSTQNAINGITNKVNSVIEKMNTMKQIEDKIEEIESKIWCYNAELLVLLENERTLDFHDSNVKNLYEKVKSQLKNNAKEIGNGCFEFYHKCNDECMESVKNGTYDYPKYSEESKLNREK 5ckm-a1-m1-cA_5ckm-a1-m2-cA The CUB1-EGF-CUB2 domains of rat MBL-associated serine protease-2 (MASP-2) bound to Ca2+ Q9JJS8 Q9JJS8 2.73 X-RAY DIFFRACTION 61 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 277 277 1nt0-a1-m1-cA_1nt0-a1-m1-cG 5cis-a1-m1-cA_5cis-a1-m2-cA KWPEPVFGRLVSPGFPEKYGNHQDRSWTLTAPPGFRLRLYFTHFNLELSYRCEYDFVKLTSGTKVLATLCGQESTDTERAPGNDTFYSLGPSLKVTFHSDYSNEKPFTGFEAFYAAEDVDECRTSLGDSVPCDHYCHNYLGGYYCSCRVGYILHQNKHTCSALCSGQVFTGRSGFLSSPEYPQPYPKLSSCAYNIRLEEGFSITLDFVESFDVEMHPEAQCPYDSLKIQTDKREYGPFCGKTLPPRIETDSNKVTITFTTDESGNHTGWKIHYTSTA KWPEPVFGRLVSPGFPEKYGNHQDRSWTLTAPPGFRLRLYFTHFNLELSYRCEYDFVKLTSGTKVLATLCGQESTDTERAPGNDTFYSLGPSLKVTFHSDYSNEKPFTGFEAFYAAEDVDECRTSLGDSVPCDHYCHNYLGGYYCSCRVGYILHQNKHTCSALCSGQVFTGRSGFLSSPEYPQPYPKLSSCAYNIRLEEGFSITLDFVESFDVEMHPEAQCPYDSLKIQTDKREYGPFCGKTLPPRIETDSNKVTITFTTDESGNHTGWKIHYTSTA 5ckn-a1-m1-cA_5ckn-a1-m1-cD The CUB1-EGF-CUB2 domains of rat MBL-associated serine protease-2 (MASP-2) bound to Ca2+ Q9JJS8 Q9JJS8 2.6 X-RAY DIFFRACTION 55 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 278 278 SKWPEPVFGRLVSPGFPEKYGNHQDRSWTLTAPPGFRLRLYFTHFNLELSYRCEYDFVKLTSGTKVLATLCGQESTDTERAPGNDTFYSLGPSLKVTFHSDYSNEKPFTGFEAFYAAEDVDECRTSLGDSVPCDHYCHNYLGGYYCSCRVGYILHQNKHTCSALCSGQVFTGRSGFLSSPEYPQPYPKLSSCAYNIRLEEGFSITLDFVESFDVEMHPEAQCPYDSLKIQTDKREYGPFCGKTLPPRIETDSNKVTITFTTDESGNHTGWKIHYTSTA SKWPEPVFGRLVSPGFPEKYGNHQDRSWTLTAPPGFRLRLYFTHFNLELSYRCEYDFVKLTSGTKVLATLCGQESTDTERAPGNDTFYSLGPSLKVTFHSDYSNEKPFTGFEAFYAAEDVDECRTSLGDSVPCDHYCHNYLGGYYCSCRVGYILHQNKHTCSALCSGQVFTGRSGFLSSPEYPQPYPKLSSCAYNIRLEEGFSITLDFVESFDVEMHPEAQCPYDSLKIQTDKREYGPFCGKTLPPRIETDSNKVTITFTTDESGNHTGWKIHYTSTA 5ckr-a1-m1-cA_5ckr-a1-m2-cA Crystal Structure of MraY in complex with Muraymycin D2 O66465 O66465 2.95 X-RAY DIFFRACTION 62 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 329 329 4j72-a1-m1-cB_4j72-a1-m1-cA KYITFRSFTAVLIAFFLTLVLSPSFINRLRKIQRLFGGVKKYTPTMGGIVILIVVTLSTLLLMRWDIKYTWVVLLSFLSFGTIGFWDDYVKLKNKKGISIKTKFLLQVLSASLISVLIYYWADIDTILYFPFFKELYVDLGVLYLPFAVFVIVGSANAVNLTDGLDGLAIGPAMTTATALGVVAYAVGHSKIAQYLNIPYVPYAGELTVFCFALVGAGLGFLWFNSFPAQMFMGDVGSLSIGASLATVALLTKSEFIFAVAAGVFVFETISVILQIIYFRWTGGKRLFKRAPFHHHLELNGLPEPKIVVRMWIISILLAIIAISMLKLR KYITFRSFTAVLIAFFLTLVLSPSFINRLRKIQRLFGGVKKYTPTMGGIVILIVVTLSTLLLMRWDIKYTWVVLLSFLSFGTIGFWDDYVKLKNKKGISIKTKFLLQVLSASLISVLIYYWADIDTILYFPFFKELYVDLGVLYLPFAVFVIVGSANAVNLTDGLDGLAIGPAMTTATALGVVAYAVGHSKIAQYLNIPYVPYAGELTVFCFALVGAGLGFLWFNSFPAQMFMGDVGSLSIGASLATVALLTKSEFIFAVAAGVFVFETISVILQIIYFRWTGGKRLFKRAPFHHHLELNGLPEPKIVVRMWIISILLAIIAISMLKLR 5ckt-a2-m1-cB_5ckt-a2-m1-cC Crystal Structure of KorA, a plasmid-encoded, global transcription regulator P03052 P03052 2 X-RAY DIFFRACTION 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 99 99 MKKRLTESQFQEAIQGLEVGQQTIEIARGVLVDGKPQATFATSLGLTRGAVSQAVHRVWAAFEDKNLPEGYARVTAVLPEHQAYIVRKWEADAKKKQET MKKRLTESQFQEAIQGLEVGQQTIEIARGVLVDGKPQATFATSLGLTRGAVSQAVHRVWAAFEDKNLPEGYARVTAVLPEHQAYIVRKWEADAKKKQET 5ckw-a1-m1-cA_5ckw-a1-m1-cB Crystal structure of LegK4_AMPPNP Kinase Q5WZW9 Q5WZW9 2.49 X-RAY DIFFRACTION 48 1.0 297245 (Legionella pneumophila str. Lens) 297245 (Legionella pneumophila str. Lens) 378 400 5clr-a1-m1-cB_5clr-a1-m1-cA MDEKALELLIKVLGNKGIRKLIKSADGKPISREIMICQILFITTESLKPIIVPTENKISYCEQFKVYALDDGKTYFLKSVKIDAESLTEFTNEKDTLSKLGRLVGTFFNEQTQVHYILTTFIKGIDLSRYKNALPLNVNLKHFWEVLGIMISVCHQVKQFHELGLIHRDLKPGNIMLDADMQCHLVDFGSSSSDKEPKPASWGTASYLAPELNAQEDFIAFSQVSDLFALAYSLDELFNPFRQVKFAKVDIGIKNKHLVLLHAEIEACITGLMSNETSVRTLYFSRILQLQRVPESFKSRPEAFTYLIMLLTQWKSCYEAPEMNKELDEIIAEIKVAYENHEQDAVKIITLLEQLSKADGLLNSHKALLSVLIKSLAN TMKLLRFHELKSLPGMDEKALELLIKVLGNKGIRKLIKSADGKPISREIMIHEFGIDCQILFITTEASLKPIIVPTENKISYCEQFKVYALDDGKTYFLKSVKIDAESLTEFTNEKDTLSKLGRLVGTFFNEQTQVHYILTTFIKGIDLSRYKNALPLNVNLKHFWEVLGIMISVCHQVKQFHELGLIHRDLKPGNIMLDADMQCHLVDFGSSSSDKEPKPASWGTASYLAPELNAQEDFIAFSQVSDLFALAYSLDELFNPFRQVKFAKVDIGIKNKHLVLLHAEIEACITGLMSNETSVRTLYFSRILQLQRVPESFKSRPEAFTYLIMLLTQWKSCYEAPEMNKELDEIIAEIKVAYENHEQDAVKIITLLEQLSKADGLLNSHKALLSVLIKSLAN 5cl1-a1-m1-cB_5cl1-a1-m1-cA Complex structure of Norrin with human Frizzled 4 Q00604 Q00604 3.8 X-RAY DIFFRACTION 136 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 470 472 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAASDPRRCMRHHYVDSISHPLYKCSSKMVLLARCEGHCSQASRSEPLVSFSTVLKQPFRSSCHCCRPQTSKLKALRLRCSGGMRLTATYRYILSCHCEECNS KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAMDSDPRRCMRHHYVDSISHPLYKCSSKMVLLARCEGHCSQASRSEPLVSFSTVLKQPFRSSCHCCRPQTSKLKALRLRCSGGMRLTATYRYILSCHCEECNS 5cl2-a1-m1-cB_5cl2-a1-m1-cA Crystal structure of Spo0M, sporulation control protein, from Bacillus subtilis. P71088 P71088 2.3 X-RAY DIFFRACTION 44 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 245 246 IGAAKVDTILEKDAYFPGEEVQGTVHVKGGKIAQDIRYIDLQLSTRYVIVKDDEEHRKYATIHSFRVTGSFTIQPGEEHQFPFTFTLPLDTPITVGKVEVAVVTDLDIQGGIDKSDHDRIFVEAHPWIENVLEAIENLGFRLNEADCEQAPYFQRRLPFVQEFEFVPTSGYYRQMLDELELIFLLDEDGLEIIFEVDRRARGLRGWLEEMYNDGEQLVRVRFSQSELEDTEELEEVLEEILDQYA IGAAKVDTILEKDAYFPGEEVQGTVHVKGGKIAQDIRYIDLQLSTRYVIVKDDEEHRKYATIHSFRVTGSFTIQPGEEHQFPFTFTLPLDTPITVGKVEVAVVTDLDIQGGIDKSDHDRIFVEAHPWIENVLEAIENLGFRLNEADCEQAPYFQRRLPFVQEFEFVPTSGYYRQMLDELELIFLLDEDGLEIIFEVDRRARGLRGWLEEMYNDGEQLVRVRFSQSELEDTEELEEVLEEILDQYAE 5cm6-a1-m1-cB_5cm6-a1-m1-cA CRYSTAL STRUCTURE OF A TRAP PERIPLASMIC SOLUTE BINDING PROTEIN FROM PSEUDOALTEROMONAS ATLANTICA T6c(Patl_2292, TARGET EFI-510180) WITH BOUND SODIUM AND PYRUVATE 1.83 X-RAY DIFFRACTION 159 1.0 342610 () 342610 () 314 316 KKYRWRLAETWGPNFPIFGDASKNAKVKESDGRLTIRIDSANKHKSALGIFDFVKSGQYQGHSASYYWKGKDFNTFFTTVPFGTAPEQYAWFYYGGGELKETYDQYGILSFPGGNTGVQGGWFRKEINTVEDLKGLKRIPGFAGEVLAKLGASPTNIPSAELYTALERNTIDALEWVGPSLDLRGFHKIAPYYYTGWQEPATELQFVNQKAYDSLPADLQKILTVAKTAAYDYSQSTHENGVNLKALQSEYPNVKIRTFPQPVNAIRDANDELLAEFAAKDKETAKILKSIKTYQEQVRAWTKFADQAYLESFE KKYRWRLAETWGPNFPIFGDASKNAKVKESDGRLTIRIDSANKHKSALGIFDFVKSGQYQGHSASYYWKGKDFNTFFTTVPFGTAPEQYAWFYYGGGELKETYDQYGILSFPGGNTGVQGGWFRKEINTVEDLKGLKRIPGFAGEVLAKLGASPTNIPSAELYTALERNTIDALEWVGPSLDLRGFHKIAPYYYTGWQEPATELQFVNQKAYDSLPADLQKILTVAKTAAYDYSQSTHENGVNLKALQSEYPNVKIRTFPQPVNAIRDANDELLAEFAAKDKETAKILKSIKTYQEQVRAWTKFADQAYLESFESN 5cmo-a1-m1-cB_5cmo-a1-m1-cC Crystal structure of holo-[acyl-carrier-protein] synthase (AcpS) from Neisseria meningitidis A1KVH5 A1KVH5 2 X-RAY DIFFRACTION 47 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 125 125 5cmo-a1-m1-cA_5cmo-a1-m1-cB 5cmo-a1-m1-cA_5cmo-a1-m1-cC 5suv-a1-m1-cA_5suv-a1-m1-cB 5suv-a1-m1-cC_5suv-a1-m1-cA 5suv-a1-m1-cC_5suv-a1-m1-cB MIYGIGTDIVSLKRIIRLNKKFGQAFAGRILTPEELLEFPQAGKPVNYLAKRFAAKEAFAKAVGTGIRGAVSFRNIGIGHDALGKPEFFYGPALSKWLEEQGISRVSLSMSDEEDTVLAFVVAEK MIYGIGTDIVSLKRIIRLNKKFGQAFAGRILTPEELLEFPQAGKPVNYLAKRFAAKEAFAKAVGTGIRGAVSFRNIGIGHDALGKPEFFYGPALSKWLEEQGISRVSLSMSDEEDTVLAFVVAEK 5cn0-a1-m2-cA_5cn0-a1-m3-cA Artificial HIV fusion inhibitor AP2 fused to the C-terminus of gp41 NHR P04578 P04578 1.901 X-RAY DIFFRACTION 62 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 70 70 5cmu-a1-m1-cB_5cmu-a1-m1-cA 5cmu-a1-m1-cB_5cmu-a1-m1-cC 5cmu-a1-m1-cC_5cmu-a1-m1-cA 5cn0-a1-m1-cA_5cn0-a1-m2-cA 5cn0-a1-m1-cA_5cn0-a1-m3-cA IVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARILSGGRGGWEEWDKKIEELIKKSEELIKKIEEQIKKQE IVQQQNNLLRAIEAQQHLLQLTVWGIKQLQARILSGGRGGWEEWDKKIEELIKKSEELIKKIEEQIKKQE 5cnl-a3-m1-cA_5cnl-a3-m2-cA Crystal structure of an IcmL-like type IV secretion system protein (lpg0120) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 2.65 A resolution Q5ZZ91 Q5ZZ91 2.65 X-RAY DIFFRACTION 41 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 137 137 GGPDRAQLAVWANEAIIATYTFDYKNYQQQKEIAKYFSADGWIAYSKALNQSKLPEVVQKNAYFVNAVATEPPKLITLDPTHWQAIPILVVYKNPQYEQKQNLKVVLGFTVASPGQGVRGFSVTSLQSTPISPPCQC GGPDRAQLAVWANEAIIATYTFDYKNYQQQKEIAKYFSADGWIAYSKALNQSKLPEVVQKNAYFVNAVATEPPKLITLDPTHWQAIPILVVYKNPQYEQKQNLKVVLGFTVASPGQGVRGFSVTSLQSTPISPPCQC 5cnl-a3-m2-cA_5cnl-a3-m2-cB Crystal structure of an IcmL-like type IV secretion system protein (lpg0120) from Legionella pneumophila subsp. pneumophila str. Philadelphia 1 at 2.65 A resolution Q5ZZ91 Q5ZZ91 2.65 X-RAY DIFFRACTION 50 0.993 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 137 137 5cnl-a3-m1-cA_5cnl-a3-m1-cB GGPDRAQLAVWANEAIIATYTFDYKNYQQQKEIAKYFSADGWIAYSKALNQSKLPEVVQKNAYFVNAVATEPPKLITLDPTHWQAIPILVVYKNPQYEQKQNLKVVLGFTVASPGQGVRGFSVTSLQSTPISPPCQC GPDRAQLAVWANEAIIATYTFDYKNYQQQKEIAKYFSADGWIAYSKALNQSKLPEVVQKNAYFVNAVATEPPKLITLDPTHWQAIPILVVYKNPQYEQKQNLKVVLGFTVASPGQGVRGFSVTSLQSTPISPPCQCK 5cnx-a2-m1-cB_5cnx-a2-m2-cB Crystal structure of Xaa-Pro aminopeptidase from Escherichia coli K12 P76524 P76524 2.6 X-RAY DIFFRACTION 64 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 360 360 5cnx-a1-m1-cA_5cnx-a1-m1-cC STLLASLRDWLKAQQLDAVLLSSRQNKQPHLGISTGSGYVVISRESAHILVDSRYYVEVEARAQGYQLHLLDATNTLTTIVNQIIADEQLQTLGFEGQQVSWETAHRWQSELNAKLVSATPDVLRQIKTPEEVEKIRLACGIADRGAEHIRRFIQAGMSEREIAAELEWFMRQQGAEKASFDTIVASGWRGALPHGKASDKIVAAGEFVTLDFGALYQGYCSDMTRTLLVNGEGVSAESHLLFNVYQIVLQAQLAAISAIRPGVRCQQVDDAARRVITEAGYGDYFGHNTGHAIGIEVHEDPRFSPRDTTTLQPGMLLTVEPGIYLPGQGGVRIEDVVLVTPQGAEVLYAMPKTVLLTGE STLLASLRDWLKAQQLDAVLLSSRQNKQPHLGISTGSGYVVISRESAHILVDSRYYVEVEARAQGYQLHLLDATNTLTTIVNQIIADEQLQTLGFEGQQVSWETAHRWQSELNAKLVSATPDVLRQIKTPEEVEKIRLACGIADRGAEHIRRFIQAGMSEREIAAELEWFMRQQGAEKASFDTIVASGWRGALPHGKASDKIVAAGEFVTLDFGALYQGYCSDMTRTLLVNGEGVSAESHLLFNVYQIVLQAQLAAISAIRPGVRCQQVDDAARRVITEAGYGDYFGHNTGHAIGIEVHEDPRFSPRDTTTLQPGMLLTVEPGIYLPGQGGVRIEDVVLVTPQGAEVLYAMPKTVLLTGE 5co4-a1-m1-cA_5co4-a1-m1-cB Structural insights into the 2-OH methylation of C/U34 on tRNA Q72G96 Q72G96 1.7 X-RAY DIFFRACTION 101 0.993 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 152 161 GPHMLHLVLYQPEIPQNAGNVARTAAALGWPLHLIRPLGFLLSSPKLKRAGLDYWPHVDLRLHDSFAAFLEALPRGARVFAFSARGEASLYEARFREGDYLLFGPESRGLPEEVLARFPTLKIPMPGPVRSLNLAVAVGVAAYEAYRQLTGR HHHHLEVLFQGPHMLHLVLYQPEIPQNAGNVARTAAALGWPLHLIRPLGFLLSSPKLKRAGLDYWPHVDLRLHDSFAAFLEALPRGARVFAFSARGEASLYEARFREGDYLLFGPESRGLPEEVLARFPTLKIPMPGPVRSLNLAVAVGVAAYEAYRQLTG 5cos-a1-m1-cC_5cos-a1-m1-cD Crystal Structure of the Cytoplasmic Domain of the Pseudomonas putida Anti-sigma Factor PupR 2.019 X-RAY DIFFRACTION 51 1.0 1495066 (Pseudomonas capeferrum) 1495066 (Pseudomonas capeferrum) 58 61 5cam-a1-m1-cC_5cam-a1-m1-cD SIPGEVAEQAMHWHLELQEPAVSAATLAACMSWRQAHPLHEHAWQRTQVFAQRLREMR GATSIPGEVAEQAMHWHLELQEPAVSAATLAACMSWRQAHPLHEHAWQRTQVFAQRLREMR 5cos-a2-m1-cB_5cos-a2-m1-cA Crystal Structure of the Cytoplasmic Domain of the Pseudomonas putida Anti-sigma Factor PupR 2.019 X-RAY DIFFRACTION 40 1.0 1495066 (Pseudomonas capeferrum) 1495066 (Pseudomonas capeferrum) 55 56 5cam-a2-m1-cB_5cam-a2-m1-cA GEVAEQAMHWHLELQEPAVSAATLAACMSWRQAHPLHEHAWQRTQVFAQRLREMR PGEVAEQAMHWHLELQEPAVSAATLAACMSWRQAHPLHEHAWQRTQVFAQRLREMR 5cow-a1-m1-cA_5cow-a1-m3-cA C. remanei PGL-1 Dimerization Domain E3M3V1 E3M3V1 1.6 X-RAY DIFFRACTION 61 1.0 31234 (Caenorhabditis remanei) 31234 (Caenorhabditis remanei) 234 234 5cv3-a1-m1-cA_5cv3-a1-m2-cA DKFTYLLLQPLTEATLSDAVNFIVEKYSAELPDEGDASLVVRSQLGCQFFFLVTRTLAHDQRELAKLVQTLIPRPVRLEVFPGLQRSVFKSSVFLGHHIIQIFMGAKKPFQDWSFVGLAQDFECPWRRLAIAELLKKFSVSVVEKVFDNPVALIPQHESDNEALIELVTNALRFALWIVEFYETETNEKSIKELAFLDHSSKTLLIESFTKFLQGKDVKDQDHLKRIIDALEKS DKFTYLLLQPLTEATLSDAVNFIVEKYSAELPDEGDASLVVRSQLGCQFFFLVTRTLAHDQRELAKLVQTLIPRPVRLEVFPGLQRSVFKSSVFLGHHIIQIFMGAKKPFQDWSFVGLAQDFECPWRRLAIAELLKKFSVSVVEKVFDNPVALIPQHESDNEALIELVTNALRFALWIVEFYETETNEKSIKELAFLDHSSKTLLIESFTKFLQGKDVKDQDHLKRIIDALEKS 5cow-a2-m1-cA_5cow-a2-m2-cA C. remanei PGL-1 Dimerization Domain E3M3V1 E3M3V1 1.6 X-RAY DIFFRACTION 74 1.0 31234 (Caenorhabditis remanei) 31234 (Caenorhabditis remanei) 234 234 DKFTYLLLQPLTEATLSDAVNFIVEKYSAELPDEGDASLVVRSQLGCQFFFLVTRTLAHDQRELAKLVQTLIPRPVRLEVFPGLQRSVFKSSVFLGHHIIQIFMGAKKPFQDWSFVGLAQDFECPWRRLAIAELLKKFSVSVVEKVFDNPVALIPQHESDNEALIELVTNALRFALWIVEFYETETNEKSIKELAFLDHSSKTLLIESFTKFLQGKDVKDQDHLKRIIDALEKS DKFTYLLLQPLTEATLSDAVNFIVEKYSAELPDEGDASLVVRSQLGCQFFFLVTRTLAHDQRELAKLVQTLIPRPVRLEVFPGLQRSVFKSSVFLGHHIIQIFMGAKKPFQDWSFVGLAQDFECPWRRLAIAELLKKFSVSVVEKVFDNPVALIPQHESDNEALIELVTNALRFALWIVEFYETETNEKSIKELAFLDHSSKTLLIESFTKFLQGKDVKDQDHLKRIIDALEKS 5cp1-a1-m1-cA_5cp1-a1-m2-cA Crystal structure of C239S mutant of a novel disulfide oxidoreductase from Deinococcus radiodurans Q9RWK7 Q9RWK7 1.801 X-RAY DIFFRACTION 43 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 245 245 LAPANSEKIRVDIWSDIACPWCYIGKRRFESALGQFPQRDQVEVVWHSFELDPSARPLNPIAMRDGLAMKYSISPAQAQGSLDHMTQTAAQEGLEYHFDRVKLANTFLAHQLIHYAAEQGQGDAMKERLLRAYMSEGQNVNDLDTLQKLAAEVGLDAGAARAALEAGTYAQAVRYDEAQAQQLGITGVPFFVLGGKYGVSGAQAPETLLGALSQVWAEQHPAPLTMLGQDAPAEGSEDGQCAVPQ LAPANSEKIRVDIWSDIACPWCYIGKRRFESALGQFPQRDQVEVVWHSFELDPSARPLNPIAMRDGLAMKYSISPAQAQGSLDHMTQTAAQEGLEYHFDRVKLANTFLAHQLIHYAAEQGQGDAMKERLLRAYMSEGQNVNDLDTLQKLAAEVGLDAGAARAALEAGTYAQAVRYDEAQAQQLGITGVPFFVLGGKYGVSGAQAPETLLGALSQVWAEQHPAPLTMLGQDAPAEGSEDGQCAVPQ 5cp9-a1-m1-cA_5cp9-a1-m1-cB The structure of the NK1 fragment of HGF/SF complexed with MB605 P14210 P14210 1.9 X-RAY DIFFRACTION 83 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 1bht-a1-m1-cB_1bht-a1-m1-cA 1gmn-a1-m1-cB_1gmn-a1-m1-cA 1gmo-a1-m1-cA_1gmo-a1-m1-cB 1gmo-a2-m1-cC_1gmo-a2-m1-cD 1gmo-a3-m1-cE_1gmo-a3-m1-cF 1gmo-a4-m1-cG_1gmo-a4-m1-cH 1gp9-a1-m1-cA_1gp9-a1-m1-cB 1gp9-a2-m1-cD_1gp9-a2-m1-cC 1nk1-a1-m1-cA_1nk1-a1-m1-cB 2qj2-a1-m1-cA_2qj2-a1-m1-cB 3mkp-a1-m1-cA_3mkp-a1-m1-cB 3mkp-a2-m1-cD_3mkp-a2-m1-cC 5coe-a1-m1-cA_5coe-a1-m1-cB 5cs1-a1-m1-cA_5cs1-a1-m1-cB 5cs3-a1-m1-cA_5cs3-a1-m1-cB 5cs5-a1-m1-cA_5cs5-a1-m1-cB 5cs9-a1-m1-cA_5cs9-a1-m1-cB 5csq-a1-m1-cA_5csq-a1-m1-cB 5ct1-a1-m1-cA_5ct1-a1-m1-cB 5ct2-a1-m1-cA_5ct2-a1-m1-cB 5ct3-a1-m1-cA_5ct3-a1-m1-cB 7mob-a1-m1-cA_7mob-a1-m1-cB TIHEFKKSAKTTLIKIDPALKIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIRNCIIGKGRSYKGTVSITKSGIKCQPWSSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVE NTIHEFKKSAKTTLIKIDPALKIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIRNCIIGKGRSYKGTVSITKSGIKCQPWSSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEV 5cpg-a1-m1-cA_5cpg-a1-m1-cB R-Hydratase PhaJ1 from Pseudomonas aeruginosa in the unliganded form Q9LBK2 Q9LBK2 1.694 X-RAY DIFFRACTION 167 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 155 155 SQVQNIPYAELEVGQKAEYTSSIAERDLQLFAAVSGDRNPVHLDAAYAATTQFKERIAHGMLSGALISAAIATVLPGPGTIYLGQTLRFTRPVKLGDDLKVELEVLEKLPKNRVRMATRVFNQAGKQVVDGEAEIMAPEEKLSVELAELPPISIG SQVQNIPYAELEVGQKAEYTSSIAERDLQLFAAVSGDRNPVHLDAAYAATTQFKERIAHGMLSGALISAAIATVLPGPGTIYLGQTLRFTRPVKLGDDLKVELEVLEKLPKNRVRMATRVFNQAGKQVVDGEAEIMAPEEKLSVELAELPPISIG 5cps-a1-m1-cB_5cps-a1-m1-cA Disproportionating enzyme 1 from Arabidopsis - maltotriose soak Q9LV91 Q9LV91 1.8 X-RAY DIFFRACTION 124 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 512 517 5cpq-a1-m1-cA_5cpq-a1-m1-cB 5cpt-a1-m1-cB_5cpt-a1-m1-cA 5cq1-a1-m1-cB_5cq1-a1-m1-cA 5csu-a1-m1-cA_5csu-a1-m1-cB 5csy-a1-m1-cA_5csy-a1-m1-cB SVGEDFPSEYEQWLPVPDPESRRRAGVLLHPTSFRGPHGIGDLGEEAFRFIDWLHSTGCSVWQVLPLVPPDEGGSPYAGQDANCGNTLLISLDELVKDGLLIKDELPQPIDADSVNYQTANKLKSPLITKAAKRLIDGNGELKSKLLDFRNDPSISCWLEDAAYFAAIDNTLNAYSWFEWPEPLKNRHLSALEAIYESQKEFIDLFIAKQFLFQRQWQKVREYARRQGVDIMGDMPIYVGYHSADVWANKKHFLLNKKGFPLLVSGVPPTGQLWGSPLYDWKAMESDQYSWWVNRIRRAQDLYDECRIDHFRGFAGFWAVPSEAKVAMVGRWKVGPGKSLFDAISKGVGKIKIIAEDLGVITKDVVELRKSIGAPGMAVLQFAFGGGADNPHLPHNHEVNQVVYSGTHDNDTIRGWWDTLDQEEKSKAMKYLSIAGEDDISWSVIQAAFSSTAQTAIIPMQDILGLGSSARMNTPATEVGNWGWRIPSSTSFDNLETESDRLRDLLSLYGRL SVGEDFPSEYEQWLPVPDPESRRRAGVLLHPTSFRGPHGIGDLGEEAFRFIDWLHSTGCSVWQVLPLVPPDEGGSPYAGQDANCGNTLLISLDELVKDGLLIKDELPQPIDADSVNYQTANKLKSPLITKAAKRLIDGNGELKSKLLDFRNDPSISCWLEDAAYFAAIDNTLNAYSWFEWPEPLKNRHLSALEAIYESQKEFIDLFIAKQFLFQRQWQKVREYARRQGVDIMGDMPIYVGYHSADVWANKKHFLLNKKGFPLLVSGVPPDLFSETGQLWGSPLYDWKAMESDQYSWWVNRIRRAQDLYDECRIDHFRGFAGFWAVPSEAKVAMVGRWKVGPGKSLFDAISKGVGKIKIIAEDLGVITKDVVELRKSIGAPGMAVLQFAFGGGADNPHLPHNHEVNQVVYSGTHDNDTIRGWWDTLDQEEKSKAMKYLSIAGEDDISWSVIQAAFSSTAQTAIIPMQDILGLGSSARMNTPATEVGNWGWRIPSSTSFDNLETESDRLRDLLSLYGRL 5cpv-a1-m1-cA_5cpv-a1-m2-cA RESTRAINED LEAST SQUARES REFINEMENT OF NATIVE (CALCIUM) AND CADMIUM-SUBSTITUTED CARP PARVALBUMIN USING X-RAY CRYSTALLOGRAPHIC DATA AT 1.6-ANGSTROMS RESOLUTION P02618 P02618 1.6 X-RAY DIFFRACTION 39 1.0 7962 (Cyprinus carpio) 7962 (Cyprinus carpio) 108 108 1b8c-a1-m1-cA_1b8c-a1-m1-cB 1cdp-a1-m1-cA_1cdp-a1-m2-cA AFAGVLNDADIAAALEACKAADSFNHKAFFAKVGLTSKSADDVKKAFAIIDQDKSGFIEEDELKLFLQNFKADARALTDGETKTFLKAGDSDGDGKIGVDEFTALVKA AFAGVLNDADIAAALEACKAADSFNHKAFFAKVGLTSKSADDVKKAFAIIDQDKSGFIEEDELKLFLQNFKADARALTDGETKTFLKAGDSDGDGKIGVDEFTALVKA 5cq2-a1-m1-cA_5cq2-a1-m4-cA Crystal Structure of tandem WW domains of ITCH in complex with TXNIP peptide Q96J02 Q96J02 1.4 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 5cq2-a1-m2-cA_5cq2-a1-m3-cA GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQEKPLPEGWEMRFTVDGIPYFVDHNRRTTTYIDPRTGKSALD GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQEKPLPEGWEMRFTVDGIPYFVDHNRRTTTYIDPRTGKSALD 5cq2-a1-m2-cA_5cq2-a1-m4-cA Crystal Structure of tandem WW domains of ITCH in complex with TXNIP peptide Q96J02 Q96J02 1.4 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 5cq2-a1-m1-cA_5cq2-a1-m3-cA GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQEKPLPEGWEMRFTVDGIPYFVDHNRRTTTYIDPRTGKSALD GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQEKPLPEGWEMRFTVDGIPYFVDHNRRTTTYIDPRTGKSALD 5cq2-a1-m3-cA_5cq2-a1-m4-cA Crystal Structure of tandem WW domains of ITCH in complex with TXNIP peptide Q96J02 Q96J02 1.4 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 5cq2-a1-m1-cA_5cq2-a1-m2-cA 5dzd-a1-m1-cA_5dzd-a1-m1-cB GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQEKPLPEGWEMRFTVDGIPYFVDHNRRTTTYIDPRTGKSALD GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQEKPLPEGWEMRFTVDGIPYFVDHNRRTTTYIDPRTGKSALD 5cq2-a1-m3-cB_5cq2-a1-m4-cC Crystal Structure of tandem WW domains of ITCH in complex with TXNIP peptide Q9H3M7 Q9H3M7 1.4 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 12 12 5cq2-a1-m1-cB_5cq2-a1-m2-cC 5cq2-a1-m1-cC_5cq2-a1-m2-cB 5cq2-a1-m3-cC_5cq2-a1-m4-cB TPEAPPCYMDVI TPEAPPCYMDVI 5cqf-a1-m1-cA_5cqf-a1-m4-cA Crystal structure of L-lysine 6-monooxygenase from Pseudomonas syringae Q881D3 Q881D3 2.28 X-RAY DIFFRACTION 40 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 416 416 5cqf-a1-m2-cA_5cqf-a1-m3-cA HSDAICIGFGPAGIALACAFEDAREASQPLGDLSIGYLEAAPDTQWHRELLLAGTDINHHVFRDLVTPRNPRSRFSFAYLKDQGRFDFGLLGRPASRHEWSDYLGWVSRQVDGHTRFDTPVTEIDPVIRNGRLQEVRVRTPQGSFATRNLVLSSGSAPRIPQAFEALLGPTLFHTSRFLTRLQAFGKQLPKRWLVLGSGQSASESVLELVSRDPAIEVHSVHRCAGFKLTQLGQFPNRVFAPDHVDYFHSLNPAARQRFLDWSRSTNYAGIDPDERQKLFSLIYEDSIAGRTRLHTYAYSVISAIEHTADGYRVELTDTFSQRTRVLEVDAVVLGTGYQQYLIPPLLSGLQPWLAADVDGGLLIDRDYRVATQGACDVNIWVNGLSERSHGISDSQSFSLALRAGRIASALERAVE HSDAICIGFGPAGIALACAFEDAREASQPLGDLSIGYLEAAPDTQWHRELLLAGTDINHHVFRDLVTPRNPRSRFSFAYLKDQGRFDFGLLGRPASRHEWSDYLGWVSRQVDGHTRFDTPVTEIDPVIRNGRLQEVRVRTPQGSFATRNLVLSSGSAPRIPQAFEALLGPTLFHTSRFLTRLQAFGKQLPKRWLVLGSGQSASESVLELVSRDPAIEVHSVHRCAGFKLTQLGQFPNRVFAPDHVDYFHSLNPAARQRFLDWSRSTNYAGIDPDERQKLFSLIYEDSIAGRTRLHTYAYSVISAIEHTADGYRVELTDTFSQRTRVLEVDAVVLGTGYQQYLIPPLLSGLQPWLAADVDGGLLIDRDYRVATQGACDVNIWVNGLSERSHGISDSQSFSLALRAGRIASALERAVE 5cqf-a1-m2-cA_5cqf-a1-m4-cA Crystal structure of L-lysine 6-monooxygenase from Pseudomonas syringae Q881D3 Q881D3 2.28 X-RAY DIFFRACTION 40 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 416 416 5cqf-a1-m1-cA_5cqf-a1-m3-cA HSDAICIGFGPAGIALACAFEDAREASQPLGDLSIGYLEAAPDTQWHRELLLAGTDINHHVFRDLVTPRNPRSRFSFAYLKDQGRFDFGLLGRPASRHEWSDYLGWVSRQVDGHTRFDTPVTEIDPVIRNGRLQEVRVRTPQGSFATRNLVLSSGSAPRIPQAFEALLGPTLFHTSRFLTRLQAFGKQLPKRWLVLGSGQSASESVLELVSRDPAIEVHSVHRCAGFKLTQLGQFPNRVFAPDHVDYFHSLNPAARQRFLDWSRSTNYAGIDPDERQKLFSLIYEDSIAGRTRLHTYAYSVISAIEHTADGYRVELTDTFSQRTRVLEVDAVVLGTGYQQYLIPPLLSGLQPWLAADVDGGLLIDRDYRVATQGACDVNIWVNGLSERSHGISDSQSFSLALRAGRIASALERAVE HSDAICIGFGPAGIALACAFEDAREASQPLGDLSIGYLEAAPDTQWHRELLLAGTDINHHVFRDLVTPRNPRSRFSFAYLKDQGRFDFGLLGRPASRHEWSDYLGWVSRQVDGHTRFDTPVTEIDPVIRNGRLQEVRVRTPQGSFATRNLVLSSGSAPRIPQAFEALLGPTLFHTSRFLTRLQAFGKQLPKRWLVLGSGQSASESVLELVSRDPAIEVHSVHRCAGFKLTQLGQFPNRVFAPDHVDYFHSLNPAARQRFLDWSRSTNYAGIDPDERQKLFSLIYEDSIAGRTRLHTYAYSVISAIEHTADGYRVELTDTFSQRTRVLEVDAVVLGTGYQQYLIPPLLSGLQPWLAADVDGGLLIDRDYRVATQGACDVNIWVNGLSERSHGISDSQSFSLALRAGRIASALERAVE 5cqf-a1-m3-cA_5cqf-a1-m4-cA Crystal structure of L-lysine 6-monooxygenase from Pseudomonas syringae Q881D3 Q881D3 2.28 X-RAY DIFFRACTION 53 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 416 416 5cqf-a1-m1-cA_5cqf-a1-m2-cA HSDAICIGFGPAGIALACAFEDAREASQPLGDLSIGYLEAAPDTQWHRELLLAGTDINHHVFRDLVTPRNPRSRFSFAYLKDQGRFDFGLLGRPASRHEWSDYLGWVSRQVDGHTRFDTPVTEIDPVIRNGRLQEVRVRTPQGSFATRNLVLSSGSAPRIPQAFEALLGPTLFHTSRFLTRLQAFGKQLPKRWLVLGSGQSASESVLELVSRDPAIEVHSVHRCAGFKLTQLGQFPNRVFAPDHVDYFHSLNPAARQRFLDWSRSTNYAGIDPDERQKLFSLIYEDSIAGRTRLHTYAYSVISAIEHTADGYRVELTDTFSQRTRVLEVDAVVLGTGYQQYLIPPLLSGLQPWLAADVDGGLLIDRDYRVATQGACDVNIWVNGLSERSHGISDSQSFSLALRAGRIASALERAVE HSDAICIGFGPAGIALACAFEDAREASQPLGDLSIGYLEAAPDTQWHRELLLAGTDINHHVFRDLVTPRNPRSRFSFAYLKDQGRFDFGLLGRPASRHEWSDYLGWVSRQVDGHTRFDTPVTEIDPVIRNGRLQEVRVRTPQGSFATRNLVLSSGSAPRIPQAFEALLGPTLFHTSRFLTRLQAFGKQLPKRWLVLGSGQSASESVLELVSRDPAIEVHSVHRCAGFKLTQLGQFPNRVFAPDHVDYFHSLNPAARQRFLDWSRSTNYAGIDPDERQKLFSLIYEDSIAGRTRLHTYAYSVISAIEHTADGYRVELTDTFSQRTRVLEVDAVVLGTGYQQYLIPPLLSGLQPWLAADVDGGLLIDRDYRVATQGACDVNIWVNGLSERSHGISDSQSFSLALRAGRIASALERAVE 5cqg-a3-m1-cA_5cqg-a3-m1-cB Structure of Tribolium telomerase in complex with the highly specific inhibitor BIBR1532 Q0QHL8 Q0QHL8 2.3 X-RAY DIFFRACTION 27 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 596 596 MVHYYRLSLKSRQKAPKIVNSKYNSILNIALKNFRLCKKHKTKKPVQILALLQEIIPKSYFGTTTNLKRFYKVVEKILTQSSFECIHLSVLHKCYDYDAIPWLQNVEPNLRPKLLLKHNLFLLDNIVKPIIAFYYKPIKTLNGHEIKFIRKEEYISFESKVFHKLKKMKYLVEVQDEVKPRGVLNIIPKQDNFRAIVSIFPDSARKPFFKLLTSKIYKVLEEKYKTSGSLYTCWSEFTQKTQGQIYGIKVDIRDAYGNVKIPVLCKLIQSIPTHLLDSEKKNFIVDHISNQFVAFRRKIYKWNHGLLQGDPLSGCLCELYMAFMDRLYFSNLDKDAFIHRTVDDYFFCSPHPHKVYDFELLIKGVYQVNPTKTRTNLPTHRHPQDEIPYCGKIFNLTTRQVRTLYKLPPNYEIRHKFKLWNFNNQISDDNPARFLQKAMDFPFICNSFTKFEFNTVFNDQRTVFANFYDAMICVAYKFDAAMMALRTSFLVNDFGFIWLVLSSTVRAYASRAFKKIVTYKGGKYRKVTFQCLKSIAWRAFLAVLKRRTEIYKGLIDRIKSREKLTMKFHDGEVDASYFCKLPEKFRFVKINRKASI MVHYYRLSLKSRQKAPKIVNSKYNSILNIALKNFRLCKKHKTKKPVQILALLQEIIPKSYFGTTTNLKRFYKVVEKILTQSSFECIHLSVLHKCYDYDAIPWLQNVEPNLRPKLLLKHNLFLLDNIVKPIIAFYYKPIKTLNGHEIKFIRKEEYISFESKVFHKLKKMKYLVEVQDEVKPRGVLNIIPKQDNFRAIVSIFPDSARKPFFKLLTSKIYKVLEEKYKTSGSLYTCWSEFTQKTQGQIYGIKVDIRDAYGNVKIPVLCKLIQSIPTHLLDSEKKNFIVDHISNQFVAFRRKIYKWNHGLLQGDPLSGCLCELYMAFMDRLYFSNLDKDAFIHRTVDDYFFCSPHPHKVYDFELLIKGVYQVNPTKTRTNLPTHRHPQDEIPYCGKIFNLTTRQVRTLYKLPPNYEIRHKFKLWNFNNQISDDNPARFLQKAMDFPFICNSFTKFEFNTVFNDQRTVFANFYDAMICVAYKFDAAMMALRTSFLVNDFGFIWLVLSSTVRAYASRAFKKIVTYKGGKYRKVTFQCLKSIAWRAFLAVLKRRTEIYKGLIDRIKSREKLTMKFHDGEVDASYFCKLPEKFRFVKINRKASI 5cqr-a1-m1-cA_5cqr-a1-m2-cA Dimerization of Elp1 is essential for Elongator complex assembly O95163 O95163 3.015 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 455 455 HHRALVLAQIRKWLDKLMFKEAFECMRKLRINLNLIYDHNPKVFLGNVETFIKQIDSVNHINLFFTELKEEDVTKTMYPAPPDGNKIDLVCDAMRAVMESINPHKYCLSILTSHVKKTTPELEIVLQKVHELQGNAPSDPDAVSAEEALKYLLHLVDVNELYDHSLGTYDFDLVLMVAEKSQKEYLPFLNTLKKMETNYQRFTIDKYLKRYEKAIGHLSKCGPEYFPECLNLIKDKNLYNEALKLYSPSSQQYQDISIAYGEHLMQEHMYEPAGLMFARCGAHEKALSAFLTCGNWKQALCVAAQLNFTKDQLVGLGRTLAGKLVEQRKHIDAAMVLEECAQDYEEAVLLLLEGAAWEEALRLVYKYNRLDIIETNVKPSILEAQKNYMAFLDSQTATFVVQNTENLKDEVYHILKVLFLFEFDEQGRELQKAFEDTLQLMERSNRRTQWKLSLL HHRALVLAQIRKWLDKLMFKEAFECMRKLRINLNLIYDHNPKVFLGNVETFIKQIDSVNHINLFFTELKEEDVTKTMYPAPPDGNKIDLVCDAMRAVMESINPHKYCLSILTSHVKKTTPELEIVLQKVHELQGNAPSDPDAVSAEEALKYLLHLVDVNELYDHSLGTYDFDLVLMVAEKSQKEYLPFLNTLKKMETNYQRFTIDKYLKRYEKAIGHLSKCGPEYFPECLNLIKDKNLYNEALKLYSPSSQQYQDISIAYGEHLMQEHMYEPAGLMFARCGAHEKALSAFLTCGNWKQALCVAAQLNFTKDQLVGLGRTLAGKLVEQRKHIDAAMVLEECAQDYEEAVLLLLEGAAWEEALRLVYKYNRLDIIETNVKPSILEAQKNYMAFLDSQTATFVVQNTENLKDEVYHILKVLFLFEFDEQGRELQKAFEDTLQLMERSNRRTQWKLSLL 5cqs-a2-m1-cC_5cqs-a2-m1-cB Dimerization of Elp1 is essential for Elongator complex assembly Q06706 Q06706 2.7 X-RAY DIFFRACTION 64 0.997 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 307 317 5cqs-a1-m1-cD_5cqs-a1-m1-cA 6qk7-a1-m1-cD_6qk7-a1-m1-cA QDVNVVYKSALSLYDVSLALLVAQKSQDPREYLPFLQELQDNEPLRRKFLIDDYLGNYEKALEHLSEIDKDGNVSEEVIDYVESHDLYKHGLALYRYDSEKQNVIYNIYAKHLSSNQYTDAAVAYELGKLKEAGAYQSAKRWREASIAVQKFPEEVESVAEELISSLTFEHRYVDAADIQLEYLDNVKEAVALYCKAYRYDIASLVAIKAKKDELLEEVVDPGLGEGFGIIAELLADCKGQIYLVQSVGRLIERLNQTKPDAVRVVEGLCRRNREQAHQIQKNFVEVLDLLKANEIHDFPKSHIVDF DVNVVYKSALSLYDVSLALLVAQKSQDPREYLPFLQELQDNEPLRRKFLIDDYLGNYEKALEHLSEIDKDGNVSEEVIDYVESHDLYKHGLALYRYDSEKQNVIYNIYAKHLSSNQYTDAAVAYELGKLKEAGAYQSAKRWREASIAVQKFPEEVESVAEELISSLTFEHRYVDAADIQLEYLDNVKEAVALYCKAYRYDIASLVAIKAKKDELLEEVVDPGLGEGFGIIAELLADCKGQINSQLRRLEYLVQSVGRLIERLNQTKPDAVRVVEGLCRRNREQAHQIQKNFVEVLDLLKANVKEEIHDFPKSHIVDF 5cqv-a1-m1-cA_5cqv-a1-m1-cB Crystal structure of uncharacterized protein Q8DWV2 from Streptococcus agalactiae Q8DWV2 Q8DWV2 1.9 X-RAY DIFFRACTION 230 1.0 208435 (Streptococcus agalactiae 2603V/R) 208435 (Streptococcus agalactiae 2603V/R) 170 170 RTYSDKNELKEEVLKSYKKYIAEFNDIPEKLKDLRIDEVDRTPAENLAYQVGWTTLILKWESDEQSGLEVKTPTETFKWNQLGELYQHFTETYASLTIKELTAQLNDNVDAIGNMIDSMSDEVLFKPHMRNWADSATKVWEVYKFIHINTVAPFGTFRTKIRKWKKVALK RTYSDKNELKEEVLKSYKKYIAEFNDIPEKLKDLRIDEVDRTPAENLAYQVGWTTLILKWESDEQSGLEVKTPTETFKWNQLGELYQHFTETYASLTIKELTAQLNDNVDAIGNMIDSMSDEVLFKPHMRNWADSATKVWEVYKFIHINTVAPFGTFRTKIRKWKKVALK 5cr4-a1-m1-cA_5cr4-a1-m1-cB Crystal structure of the Sleeping Beauty transposase catalytic domain 1.4 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 224 226 ARKKPLLQNRHKKARLRFATAHGDKDRTFWRNVLWSDETKIELFGHNDHRYVWRKKGEACKPKNTIPTVKHGGGSIMLWGCFAAGGTGALHKIDGIMDAVQYVDILKQHLKTSVRKLKLGRKWVFQHDNDPKHTSKVVAKWLKDNKVKVLEWPSQSPDLNPIENLWAELKKRVRARRPTNLTQLHQLCQEEWAKIHPNYCGKLVEGYPKRLTQVKQFKGNATKY HSARKKPLLQNRHKKARLRFATAHGDKDRTFWRNVLWSDETKIELFGHNDHRYVWRKKGEACKPKNTIPTVKHGGGSIMLWGCFAAGGTGALHKIDGIMDAVQYVDILKQHLKTSVRKLKLGRKWVFQHDNDPKHTSKVVAKWLKDNKVKVLEWPSQSPDLNPIENLWAELKKRVRARRPTNLTQLHQLCQEEWAKIHPNYCGKLVEGYPKRLTQVKQFKGNATKY 5crb-a3-m1-cB_5crb-a3-m1-cA Crystal Structure of SdeA DUB Q6RCR0 Q6RCR0 2 X-RAY DIFFRACTION 72 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 191 192 KYVEGVELTQEGMHAIFARMGYGDITSGSIYNGVPTIDTGALNRQGFMPVLTGVGPHRDSGHWIMLIKGPGNQYYLFDPLGKTSGEGYQNILAAQLPMGSTLSVIPNGSGLNMGLCGYWVASAGLRAHQALNQHNPPTLLNVGQTITNEMRNELDHDGYRKITGWLRAVADEFPEGDPQLDGKALRENTEK PKYVEGVELTQEGMHAIFARMGYGDITSGSIYNGVPTIDTGALNRQGFMPVLTGVGPHRDSGHWIMLIKGPGNQYYLFDPLGKTSGEGYQNILAAQLPMGSTLSVIPNGSGLNMGLCGYWVASAGLRAHQALNQHNPPTLLNVGQTITNEMRNELDHDGYRKITGWLRAVADEFPEGDPQLDGKALRENTEK 5crc-a3-m1-cA_5crc-a3-m1-cB Structure of the SdeA DUB Domain Q6RCR0 Q6RCR0 2.853 X-RAY DIFFRACTION 220 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 145 148 VEGVELTQEGHAIFARGYGDITSGSIYNGVPTIDTGALNRQGFPVLTGVGPHRDSGHWILIKGPGNQYYLFDPLGKTSGEGYQNILAAQLPGSTLSVIPNGSGLNGLCGYWVASAGLRAHQALNQHNPPTLLNVGQTITNERNEL PKYVEGVELTQEGHAIFARGYGDITSGSIYNGVPTIDTGALNRQGFPVLTGVGPHRDSGHWILIKGPGNQYYLFDPLGKTSGEGYQNILAAQLPGSTLSVIPNGSGLNGLCGYWVASAGLRAHQALNQHNPPTLLNVGQTITNERNEL 5crf-a5-m1-cC_5crf-a5-m1-cA Structure of the penicillin-binding protein PonA1 from Mycobacterium Tuberculosis P71707 P71707 1.8 X-RAY DIFFRACTION 38 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 375 379 5crf-a5-m1-cD_5crf-a5-m1-cB 5crf-a6-m1-cD_5crf-a6-m2-cB 5crf-a6-m2-cC_5crf-a6-m1-cA GPNGLIERQVTRELLELFNITLNTGLVVTTTIDPQAQRAAEKAVAKYLDGQDPDRAAVVSIDPHNGAVRAYYGGDNANGFDFAQAGLQTGSSFKVFALVAALEQGIGLGYQVDSSPLTVDGIKITNVEGEGCGTCNIAEALKSLNTSYYRLLKLNGGPQAVADAAHQAGIASSFPGVAHTLSEDGKGGPPNNGIVLGQYQTRVIDASAYATLAASGIYHPPHFVQKVVSANGQVLFDASTADNTGDQRIPKAVADNVTAAEPIAGYSRGHNLAGGRDSAAKTGTTQFGDTTANKDAWVGYTPSLSTAVWVGTVKGDEPLVTASGAAIYGSGLPSDIWKATDGALKGTSNETFPKPTEVGGYAGVPPPPETVIQPT KGPNGLIERQVTRELLELFNIDEQTLNTQGLVVTTTIDPQAQRAAEKAVAKYLDGQDPDRAAVVSIDPHNGAVRAYYGGDNANGFDFAQAGLQTGSSFKVFALVAALEQGIGLGYQVDSSPLTVDGIKITNVEGEGCGTCNIAEALKSLNTSYYRLLKLNGGPQAVADAAHQAGIASSFPGVAHTLSEDGKGGPPNNGIVLGQYQTRVIDASAYATLAASGIYHPPHFVQKVVSANGQVLFDASTADNTGDQRIPKAVADNVTAAEPIAGYSRGHNLAGGRDSAAKTGTTQFGDTTANKDAWVGYTPSLSTAVWVGTVKGDEPLVTASGAAIYGSGLPSDIWKATDGALKGTSNETFPKPTEVGGYAGVPPPETVIQPT 5crf-a6-m1-cD_5crf-a6-m2-cC Structure of the penicillin-binding protein PonA1 from Mycobacterium Tuberculosis P71707 P71707 1.8 X-RAY DIFFRACTION 32 0.989 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 373 375 5crf-a5-m1-cA_5crf-a5-m1-cB GPNGLIERQVTRELLELFNIDEQTLNTQGLVVTTTIDPQAQRAAEKAVAKYLDGQDPDRAAVVSIDPHNGAVRAYYGGDNANGFDFAQAGLQTGSSFKVFALVAALEQGIGLGYQVDSSPLTVDGIKITNVEEGCGTCNIAEALKSLNTSYYRLLKLNGGPQAVADAAHQAGIASSFPGVAHTLSEDGKGGPPNNGIVLGQYQTRVIDASAYATLAASGIYHPPHFVQKVVSANGQVLFDASTATGDQRIPKAVADNVTAAEPIAGYSRGHNLAGGRDSAAKTGTTQFGDTTANKDAWVGYTPSLSTAVWVGTVKGDEPLVTASGAAIYGSGLPSDIWKATDGALKGTSNETFPKPTEVGGYAGVPPTVIQPT GPNGLIERQVTRELLELFNITLNTGLVVTTTIDPQAQRAAEKAVAKYLDGQDPDRAAVVSIDPHNGAVRAYYGGDNANGFDFAQAGLQTGSSFKVFALVAALEQGIGLGYQVDSSPLTVDGIKITNVEGEGCGTCNIAEALKSLNTSYYRLLKLNGGPQAVADAAHQAGIASSFPGVAHTLSEDGKGGPPNNGIVLGQYQTRVIDASAYATLAASGIYHPPHFVQKVVSANGQVLFDASTADNTGDQRIPKAVADNVTAAEPIAGYSRGHNLAGGRDSAAKTGTTQFGDTTANKDAWVGYTPSLSTAVWVGTVKGDEPLVTASGAAIYGSGLPSDIWKATDGALKGTSNETFPKPTEVGGYAGVPPPPETVIQPT 5crf-a6-m2-cC_5crf-a6-m2-cB Structure of the penicillin-binding protein PonA1 from Mycobacterium Tuberculosis P71707 P71707 1.8 X-RAY DIFFRACTION 63 0.989 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 375 381 5crf-a5-m1-cC_5crf-a5-m1-cB 5crf-a5-m1-cD_5crf-a5-m1-cA 5crf-a6-m1-cD_5crf-a6-m1-cA GPNGLIERQVTRELLELFNITLNTGLVVTTTIDPQAQRAAEKAVAKYLDGQDPDRAAVVSIDPHNGAVRAYYGGDNANGFDFAQAGLQTGSSFKVFALVAALEQGIGLGYQVDSSPLTVDGIKITNVEGEGCGTCNIAEALKSLNTSYYRLLKLNGGPQAVADAAHQAGIASSFPGVAHTLSEDGKGGPPNNGIVLGQYQTRVIDASAYATLAASGIYHPPHFVQKVVSANGQVLFDASTADNTGDQRIPKAVADNVTAAEPIAGYSRGHNLAGGRDSAAKTGTTQFGDTTANKDAWVGYTPSLSTAVWVGTVKGDEPLVTASGAAIYGSGLPSDIWKATDGALKGTSNETFPKPTEVGGYAGVPPPPETVIQPT GLIERQVTRELLELFNIDEQTLNTQGLVVTTTIDPQAQRAAEKAVAKYLDGQDPDRAAVVSIDPHNGAVRAYYGGDNANGFDFAQAGLQTGSSFKVFALVAALEQGIGLGYQVDSSPLTVDGIKITNVEEGCGTCNIAEALKSLNTSYYRLLKLNGGPQAVADAAHQAGIASSFPGVAHTLSEDGKGGPPNNGIVLGQYQTRVIDASAYATLAASGIYHPPHFVQKVVSANGQVLFDASTADNTGDQRIPKAVADNVTAAEPIAGYSRGHNLAGGRDSAAKTGTTQFGDTTANKDAWVGYTPSLSTAVWVGTVKGDEPLVTASGAAIYGSGLPSDIWKATDGALKGTSNETFPKPTEVGGYAGVPPPPPPVPPSETVIQPT 5crl-a1-m1-cA_5crl-a1-m1-cB Crystal Structure of the Transcription Activator Tn501 MerR in Complex with Mercury (II) P0A183 P0A183 2.8 X-RAY DIFFRACTION 118 0.991 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 114 119 ENLTIGVFAKAAGVNVETIRFYQRKGLLLRRYGEADVTRVRFVKSAQRLGFSLDEIAELLRLEDGTHCEEASSLAEHKLKDVREKMADLARMEAVLSELVCACHARCPLIASLQ NLTIGVFAKAAGVNVETIRFYQRKGLLLRRYGEADVTRVRFVKSAQRLGFSLDEIAELLRLEDGTHCEEASSLAEHKLKDVREKMADLARMEAVLSELVCACHARRGNVSCPLIASLQG 5cs2-a1-m1-cA_5cs2-a1-m2-cA Crystal structure of Plasmodium falciparum diadenosine triphosphate hydrolase in complex with Cyclomarin A Q8IL97 Q8IL97 1.65 X-RAY DIFFRACTION 99 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 147 147 EKYKNILEKLEWYKNKSSEKYEFGIYEIDKREVFITTKYSYGFVNNKPLLPGHILLTTLKKKKHYNDLDIEEIIDINLLCNFMCYIMGNLFNTTDFSIAIQDGKEAGQTVDHVHIHIIPRKINDIRSIEQMEEEANLIKSYINEKFS EKYKNILEKLEWYKNKSSEKYEFGIYEIDKREVFITTKYSYGFVNNKPLLPGHILLTTLKKKKHYNDLDIEEIIDINLLCNFMCYIMGNLFNTTDFSIAIQDGKEAGQTVDHVHIHIIPRKINDIRSIEQMEEEANLIKSYINEKFS 5csr-a2-m1-cB_5csr-a2-m1-cC Crystal structure of triosephosphate isomerase from Thermoplasma acidophilium Q9HLB6 Q9HLB6 1.94 X-RAY DIFFRACTION 127 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 215 220 5csr-a1-m1-cA_5csr-a1-m1-cD 5css-a1-m1-cA_5css-a1-m1-cD 5css-a2-m1-cB_5css-a2-m1-cC MYTAIVNLKTYREATGANFTRFMEKFEPVQGKFELIFSPSLLDLEKAAKCGKFRFFAQHVDAEPYGAYTGHVPMDMMIDLGITGSILNHSERRLPRDTIINTLKKASKLDFTIVLCVENAEEAKYFREYEPDFIAYEPRDLIGGDVSVSTAKPEIIEDIVKIYEGTGTSVLVGAGIKTGEDVRRSIGLGARGILVASGVVKSADPTKSLNSLIEL MYTAIVNLKTYREATGANFTRFMEKFEPVQGKFELIFSPSLLDLEKAAKCGKFRFFAQHVDAEPYGAYTGHVPMDMMIDLGITGSILNHSERRLPRDTIINTLKKASKLDFTIVLCVENAEEAKYFREYEPDFIAYEPRDLIGGDVSVSTAKPEIIEDIVKIYEGTGTSVLVGAGIKTGEDVRRSIGLGARGILVASGVVKSADPTKSLNSLIELKLEHH 5ctg-a1-m1-cC_5ctg-a1-m1-cB The 3.1 A resolution structure of a eukaryotic SWEET transporter Q5N8J1 Q5N8J1 3.103 X-RAY DIFFRACTION 34 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 215 220 5ctg-a1-m1-cA_5ctg-a1-m1-cB 5ctg-a1-m1-cA_5ctg-a1-m1-cC 5cth-a1-m1-cA_5cth-a1-m1-cB 5cth-a1-m1-cA_5cth-a1-m1-cC 5cth-a1-m1-cC_5cth-a1-m1-cB SLYDISCFAAGLAGNIFALALFLSPVTTFKRILKAKSTERFDGLPYLFSLLNCLICLWYGLPWVADGRLLVATVNGIGAVFQLAYICLFIFYADSRKTRMKIIGLLVLVVCGFALVSHASVFFFDQPLRQQFVGAVSMASLISMFASPLAVMGVVIRSESVEFMPFYLSLSTFLMSASFALYGLLLRDFFIYFPNGLGLILGAMQLALYAYYSSN DSLYDISCFAAGLAGNIFALALFLSPVTTFKRILKAKSTERFDGLPYLFSLLNCLICLWYGLPWVADGRLLVATVNGIGAVFQLAYICLFIFYADSRKTRMKIIGLLVLVVCGFALVSHASVFFFDQPLRQQFVGAVSMASLISMFASPLAVMGVVIRSESVEFMPFYLSLSTFLMSASFALYGLLLRDFFIYFPNGLGLILGAMQLALYAYYSSNSLEV 5ctq-a2-m1-cC_5ctq-a2-m1-cD Crystal structure of human SART3/TIP110 half-a TPR (HAT) domain Q15020 Q15020 2.6 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 495 502 5ctq-a1-m1-cB_5ctq-a1-m1-cA 5jpz-a1-m1-cA_5jpz-a1-m1-cB NQLEIERLEEQLSINVYDYNCHVDLIRLLRLEGELTKVRMARQKMSEIFPLTEELWLEWLHDEISMAQDGLDREHVYDLFEKAVKDYICPNIWLEYGQYSVGGIGQKGGLEKVRSVFERALSSVGLHMTKGLALWEAYREFESAIVEAARLEKVHSLFRRQLAIPLYDMEATFAEYEEWSEDPIPESVIQNYNKALQQLEKYKPYEEALLQAEAPRLAEYQAYIDFEMKIGDPARIQLIFERALVENCLVPDLWIRYSQYLDRQLKVKDLVLSVHNRAIRNCPWTVALWSRYLLAMERHGVDHQVISVTFEKALNAGFIQATDYVEIWQAYLDYLRRRVDFKQDSSKELEELRAAFTRALEYLKQEVEERFNESGDPSCVIMQNWARIEARLCNNMQKARELWDSIMTRGNAKYANMWLEYYNLERAHGDTQHCRKALHRAVQCTSDYPEHVCEVLLTMERTEGSLEDWDIAVQKTETRLARVNEQRMKAAEKEA NQLEIERLEEQLSINVYDYNCHVDLIRLLRLEGELTKVRMARQKMSEIFPLTEELWLEWLHDEISMAQDGLDREHVYDLFEKAVKDYICPNIWLEYGQYSVGGIGQKGGLEKVRSVFERALSSVGLHMTKGLALWEAYREFESAIVEAARLEKVHSLFRRQLAIPLYDMEATFAEYEEWSEDPIPESVIQNYNKALQQLEKYKPYEEALLQAEAPRLAEYQAYIDFEMKIGDPARIQLIFERALVENCLVPDLWIRYSQYLDRQLKVKDLVLSVHNRAIRNCPWTVALWSRYLLAMERHGVDHQVISVTFEKALNAGFIQATDYVEIWQAYLDYLRRRVDFKQDSSKELEELRAAFTRALEYLKQEVEERFNESGDPSCVIMQNWARIEARLCNNMQKARELWDSIMTRGNAKYANMWLEYYNLERAHGDTQHCRKALHRAVQCTSDYPEHVCEVLLTMERTEGSLEDWDIAVQKTETRLARVNEQRMKAAEKEAALVQQEE 5cui-a3-m1-cB_5cui-a3-m1-cC Crystal structure of Human Defensin-5 R28A mutant. Q01523 Q01523 2.403 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 ATCYCRTGRCATRESLSGVCEISGRLYALCCR ATCYCRTGRCATRESLSGVCEISGRLYALCCR 5cui-a3-m1-cD_5cui-a3-m1-cF Crystal structure of Human Defensin-5 R28A mutant. Q01523 Q01523 2.403 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 5cui-a2-m1-cC_5cui-a2-m1-cE 5cui-a2-m1-cD_5cui-a2-m1-cF 5cui-a3-m1-cC_5cui-a3-m1-cE ATCYCRTGRCATRESLSGVCEISGRLYALCCR ATCYCRTGRCATRESLSGVCEISGRLYALCCR 5cui-a3-m1-cE_5cui-a3-m1-cF Crystal structure of Human Defensin-5 R28A mutant. Q01523 Q01523 2.403 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 5cui-a1-m1-cA_5cui-a1-m1-cB 5cui-a2-m1-cC_5cui-a2-m1-cD 5cui-a2-m1-cE_5cui-a2-m1-cF 5cui-a3-m1-cA_5cui-a3-m1-cB 5cui-a3-m1-cC_5cui-a3-m1-cD 5cuj-a1-m1-cA_5cuj-a1-m1-cB 5cuj-a1-m1-cC_5cuj-a1-m1-cF 5cuj-a1-m1-cD_5cuj-a1-m1-cE ATCYCRTGRCATRESLSGVCEISGRLYALCCR ATCYCRTGRCATRESLSGVCEISGRLYALCCR 5cuo-a1-m1-cA_5cuo-a1-m1-cB Structure of Rhodopseudomonas palustris PduL - CoA bound form Q21A54 Q21A54 1.544 X-RAY DIFFRACTION 57 1.0 316056 (Rhodopseudomonas palustris BisB18) 316056 (Rhodopseudomonas palustris BisB18) 188 189 5cup-a1-m1-cA_5cup-a1-m1-cB PFQVAVGVSNRHIHLSRTDMDTLFGPGAELQRKKAMKQPGQFAAEETVTLKGPKGSLSKVRVLGPLRRETQVEVSVADGFALGITPPLRQSGQLDDTPGLTIIGPQGSVTKDHGVIVAQRHIHMHPSTAAKLGLRNGDEVDVEAGGERGGVMHRVLIRVAEASADEMHIDVEEANALCLKNDDVVRIC DPFQVAVGVSNRHIHLSRTDMDTLFGPGAELQRKKAMKQPGQFAAEETVTLKGPKGSLSKVRVLGPLRRETQVEVSVADGFALGITPPLRQSGQLDDTPGLTIIGPQGSVTKDHGVIVAQRHIHMHPSTAAKLGLRNGDEVDVEAGGERGGVMHRVLIRVAEASADEMHIDVEEANALCLKNDDVVRIC 5cuy-a1-m1-cA_5cuy-a1-m1-cD Crystal structure of Trypanosoma brucei Vacuolar Soluble Pyrophosphatases in apo form Q384W3 Q384W3 2.5 X-RAY DIFFRACTION 54 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 392 396 5cuy-a1-m1-cB_5cuy-a1-m1-cC DLASAEVAGLPVSALHGTNISTGRGSEADVAEPIQEAVDRKVSELDLAAYDKDDFTQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGEMDWKVVCISHSDPICHFLRDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLRKVN QDLASAEVAGLPVSALHGTNISTGRGSEADVAEPIQEAVDRKVSELDLAAYDKDDFTQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGEMDWKVVCISHSDPICHFLRDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLRKVNKRG 5cuy-a1-m1-cB_5cuy-a1-m1-cD Crystal structure of Trypanosoma brucei Vacuolar Soluble Pyrophosphatases in apo form Q384W3 Q384W3 2.5 X-RAY DIFFRACTION 133 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 388 396 5cuy-a1-m1-cA_5cuy-a1-m1-cC ASAEVAGLPVSALHGTNISTGRGSEADVAEPIQEAVDRKVSELDLAAYDKDDFTQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGEMDWKVVCISHSDPICHFLRDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLRKVNK QDLASAEVAGLPVSALHGTNISTGRGSEADVAEPIQEAVDRKVSELDLAAYDKDDFTQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGEMDWKVVCISHSDPICHFLRDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLRKVNKRG 5cuy-a1-m1-cC_5cuy-a1-m1-cD Crystal structure of Trypanosoma brucei Vacuolar Soluble Pyrophosphatases in apo form Q384W3 Q384W3 2.5 X-RAY DIFFRACTION 263 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 392 396 5cuy-a1-m1-cB_5cuy-a1-m1-cA ASAEVAGLPVSALHGTNISTGRGSEADVAEPIQEAVDRKVSELDLAAYDKDDFTQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGEMDWKVVCISHSDPICHFLRDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLRKVNKR QDLASAEVAGLPVSALHGTNISTGRGSEADVAEPIQEAVDRKVSELDLAAYDKDDFTQPMIKKIMSRLFSAFDVTHLGYLTPDKVEEVCRYLGRNMSDGDVKAMKAEINAIDGHVTFEKFWAWWCSHPVHSRTKCFSMVSADFSMPYHQQQLVVHEKGEMYTPSYRVLYFFRDLETGRERQVSPWHDIPLYVRDLVRTKPEATPMNRYNFICEIPKWTRAKFEIATGESFNPIKQDIKNGVPRFYKHGDMMWNYGAFPQTWESTEVLFEAGVTGDNDPVDAVEIGMTQFKVGQVSAVKVLGVLGMIDEGEMDWKVVCISHSDPICHFLRDIHDVPKFLPGCLDAIREWFRVYKICQGGEASHFAFDGEFKDKEYAMKVIDESHNMWHNLRKVNKRG 5cv0-a1-m1-cB_5cv0-a1-m1-cA Crystal structure of N-terminal truncated human B12-chaperone CblD (108-296) Q9H3L0 Q9H3L0 1.9 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 170 5cuz-a1-m1-cA_5cuz-a1-m2-cA EINSAETYFESARVECAIQTCPELLRKDFESLFPEVGKLMILTVTQKTKNDMTVWSEEVEIEREVLLEKFINGAKEICYALRAEGYWADFIDPSSGLAFFGPYTNNTLFETDERYRHLGFSVDDLGCCKVIRHSLWGTHVVVGSIFTNATPDSHIMKKLSGN QYVNEQEINSAETYFESARVECAIQTCPELLRKDFESLFPEVANGKLMILTVTQKTKNDMTVWSEEVEIEREVLLEKFINGAKEICYALRAEGYWADFIDPSSGLAFFGPYTNNTLFETDERYRHLGFSVDDLGCCKVIRHSLWGTHVVVGSIFTNATPDSHIMKKLSGN 5cv1-a1-m1-cA_5cv1-a1-m2-cA C. elegans PGL-1 Dimerization Domain Q9TZQ3 Q9TZQ3 3.599 X-RAY DIFFRACTION 56 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 218 218 EPADPFISLLMDPLEESVGKVVNHIAQLFEEASKNEGDESLVLRSQLGYQLFFLIVRSLADGKREVSKKILSGIPTSVRAEVFPGLQRSVYKSAVFLGNHIIQVLLGEDWDVVGVAKDLESAWKRRAIAELIKKFQVSILEQCFDKPVPLIPQSPLNNDAVIDNVNKALQFALWLTEFYNETEALGELRFLDSTSKNLLVDSFKKFTHVTRIVESLEK EPADPFISLLMDPLEESVGKVVNHIAQLFEEASKNEGDESLVLRSQLGYQLFFLIVRSLADGKREVSKKILSGIPTSVRAEVFPGLQRSVYKSAVFLGNHIIQVLLGEDWDVVGVAKDLESAWKRRAIAELIKKFQVSILEQCFDKPVPLIPQSPLNNDAVIDNVNKALQFALWLTEFYNETEALGELRFLDSTSKNLLVDSFKKFTHVTRIVESLEK 5cvc-a2-m1-cB_5cvc-a2-m2-cB Structure of maize serine racemase F5CAQ9 F5CAQ9 2.09 X-RAY DIFFRACTION 73 1.0 4577 (Zea mays) 4577 (Zea mays) 318 318 5cvc-a1-m1-cC_5cvc-a1-m1-cA YAADIDSIREAQARIAPYVHRTPVMSSTSIDAMVGKKLFFKCECFQKAGAFKIRGASNSIFALDDEQVSKGVVTHSSGNHAAAVALAAKLRGIPAHIVIPRASKVENVKCYGGHIIWSDASIESREYVSKRVQEETGAVLIHPINSKYTISGQGTVSLELLEQVPEIDTIIVPISGGGLISGVALAAKAINPSIRILAAEPKGADDSAQSKAAGKIITLPSTNTIADGLRAFLGDLTWPVVRDLVDDVIVVDDTAIVDAMKMCYEILKVAVEPSGAIGLAAALSDEFKAWHESSKIGIIVSGGNVDLGTLWQSMYKHL YAADIDSIREAQARIAPYVHRTPVMSSTSIDAMVGKKLFFKCECFQKAGAFKIRGASNSIFALDDEQVSKGVVTHSSGNHAAAVALAAKLRGIPAHIVIPRASKVENVKCYGGHIIWSDASIESREYVSKRVQEETGAVLIHPINSKYTISGQGTVSLELLEQVPEIDTIIVPISGGGLISGVALAAKAINPSIRILAAEPKGADDSAQSKAAGKIITLPSTNTIADGLRAFLGDLTWPVVRDLVDDVIVVDDTAIVDAMKMCYEILKVAVEPSGAIGLAAALSDEFKAWHESSKIGIIVSGGNVDLGTLWQSMYKHL 5cvi-a1-m1-cA_5cvi-a1-m1-cB Structure of the manganese regulator SloR Q9KIJ2 Q9KIJ2 2.804 X-RAY DIFFRACTION 39 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 207 209 PNKEDYLKIIYELSERDEKISNKQIAEKSVSAPAVSEVKKLLLEDLVLKDKQAGYLLTKKGQILASSLYRKHRLIEVFLNHLNYTADEIHEEAEVLEHTVSDVFVERLDKFLNYPKVCPHGGTIPQHGQPLVERYRTTLKGVTEGVYLLKRVQDNFQLLKYEQHHLKIGDELRLLEYDAFAGAYTIEKDGEQLQVTSAVASQIYIEK TPNKEDYLKIIYELSERDEKISNKQIAEKSVSAPAVSEVKKLLLEDLVLKDKQAGYLLTKKGQILASSLYRKHRLIEVFLNHLNYTADEIHEEAEVLEHTVSDVFVERLDKFLNYPKVCPHGGTIPQHGQPLVERYRTTLKGVTEGVYLLKRVQDNFQLLKYEQHHLKIGDELRLLEYDAFAGAYTIEKDGEQLQVTSAVASQIYIEKK 5cvr-a1-m1-cA_5cvr-a1-m2-cA Crystal structure of FNR of A. fischeri in a partially degraded form Q70ET4 Q70ET4 2.6 X-RAY DIFFRACTION 141 1.0 668 (Aliivibrio fischeri) 668 (Aliivibrio fischeri) 206 206 5e44-a1-m1-cA_5e44-a1-m2-cA DEIIERKKPIQKGQELFKAGDELKCLYAIRSGTIKSYTITEQGDEQITAFHLAGDLVGFDAITEAQHPSFAQALETSMVCEIPYEILDDLSGKMPKLRQQIMRLMSNEIKGDQEMILLLSKKNAEERLAAFLYNLSTRFHQRGFSPREFRLTMTRGDIGNYLGLTVETISRLLGRFQKTEMLTVKGKYITINDHDALAELAGSAKE DEIIERKKPIQKGQELFKAGDELKCLYAIRSGTIKSYTITEQGDEQITAFHLAGDLVGFDAITEAQHPSFAQALETSMVCEIPYEILDDLSGKMPKLRQQIMRLMSNEIKGDQEMILLLSKKNAEERLAAFLYNLSTRFHQRGFSPREFRLTMTRGDIGNYLGLTVETISRLLGRFQKTEMLTVKGKYITINDHDALAELAGSAKE 5cw4-a1-m1-cC_5cw4-a1-m1-cA Structure of CfBRCC36-CfKIAA0157 complex (Selenium Edge) E2AXC7 E2AXC7 2.543 X-RAY DIFFRACTION 35 0.996 104421 (Camponotus floridanus) 104421 (Camponotus floridanus) 226 240 5cw3-a1-m1-cC_5cw3-a1-m1-cA LQKVELQTDVYVCLQHALSTENFEVGLLIGNFACGIAKISAVIILRRSSEQLLKAAAEAERLTVELNRPRVLGWYHSHPHITVCPSHVDVRTQATYQTDHSFVGLIFSVFSEGKESKEHEIFLNCFQSEATEIPLEIVHTPDISDRCLRTTDLSKILVQEEEDAEACKDHPDVLASIHNNAVRTRALIHITDIITKPLVQTFEKRIALNKLRATHLQRQLQELQKC SSLQKVELQTDVYVCLQHALSTENFEVGLLIGNFACGIAKISAVIILRRLDKKKDRVEISSEQLLKAAAEAERLTVELNRPRVLGWYHSHPHITVCPSHVDVRTQATYQTDHSFVGLIFSVFSEGKESKEHEIFLNCFQSDNGEATEIPLEIVHTPDISDRCLRTTDLSKILVQEEEDAEACKDHPDVLASIHNNAVRTRALIHITDIITKPLVQTFEKRIALNKLRATHLQRQLQELQK 5cw5-a2-m1-cC_5cw5-a2-m1-cA Structure of CfBRCC36-CfKIAA0157 complex (QSQ mutant) E2AXC7 E2AXC7 2.736 X-RAY DIFFRACTION 33 1.0 104421 (Camponotus floridanus) 104421 (Camponotus floridanus) 214 217 SSLQKVELQTDVYMVCLQHALSTENFEVMGLLIGNFACGIAKISAVIILRRISSEQLLKAAAEAERLTVELNRPMRVLGWYQSQPHSFVGLIFSVFSEGKESKEHEIFLNCFQSDNGEATEIPLEIVHTPDISDRCLRTMTDLSKILVQEEEDMAEACKDHPDVLASIHNNAVRTRALIHITDIITKPLVQTFEKRIALNKLRATHLQRQLQEL SSLQKVELQTDVYMVCLQHALSTENFEVMGLLIGNFACGIAKISAVIILRRISSEQLLKAAAEAERLTVELNRPMRVLGWYQSQPHISFVGLIFSVFSEGKESKEHEIFLNCFQSDNGEATEIPLEIVHTPDISDRCLRTMTDLSKILVQEEEDMAEACKDHPDVLASIHNNAVRTRALIHITDIITKPLVQTFEKRIALNKLRATHLQRQLQELQK 5cw6-a1-m1-cA_5cw6-a1-m3-cA Structure of metal dependent enzyme DrBRCC36 A0A8M3B525 A0A8M3B525 3.193 X-RAY DIFFRACTION 79 1.0 7955 (Danio rerio) 7955 (Danio rerio) 151 151 MAVNAVHLESDAFLVCMNHALSTEEVMGLCIGEVDTNRIVHIHSVIILRRVEISPEQLSAASTEAERLAEMTGRPMRVVGWYHSHPHITVWPSHVDVRTQAMYQMMDQGFVGLIFSCFIEDKNTKTGRVLYTCFQSVGSEYERIEIPIHVV MAVNAVHLESDAFLVCMNHALSTEEVMGLCIGEVDTNRIVHIHSVIILRRVEISPEQLSAASTEAERLAEMTGRPMRVVGWYHSHPHITVWPSHVDVRTQAMYQMMDQGFVGLIFSCFIEDKNTKTGRVLYTCFQSVGSEYERIEIPIHVV 5cw6-a2-m1-cA_5cw6-a2-m2-cA Structure of metal dependent enzyme DrBRCC36 A0A8M3B525 A0A8M3B525 3.193 X-RAY DIFFRACTION 52 1.0 7955 (Danio rerio) 7955 (Danio rerio) 151 151 MAVNAVHLESDAFLVCMNHALSTEEVMGLCIGEVDTNRIVHIHSVIILRRVEISPEQLSAASTEAERLAEMTGRPMRVVGWYHSHPHITVWPSHVDVRTQAMYQMMDQGFVGLIFSCFIEDKNTKTGRVLYTCFQSVGSEYERIEIPIHVV MAVNAVHLESDAFLVCMNHALSTEEVMGLCIGEVDTNRIVHIHSVIILRRVEISPEQLSAASTEAERLAEMTGRPMRVVGWYHSHPHITVWPSHVDVRTQAMYQMMDQGFVGLIFSCFIEDKNTKTGRVLYTCFQSVGSEYERIEIPIHVV 5cwa-a1-m1-cA_5cwa-a1-m4-cA Structure of Anthranilate Synthase Component I (TrpE) from Mycobacterium tuberculosis with inhibitor bound P9WFX2 P9WFX2 2.1 X-RAY DIFFRACTION 32 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 505 505 5cwa-a1-m2-cA_5cwa-a1-m3-cA ADLAATTSREDFRLLAAEHRVVPVTRKVLADSETPLSAYRKLAANRPGTFLLESAENGRSWSRWSFIGAGAPTALTVREGQAVWLGAVPKDAPTGGDPLRALQVTLELLATADPGLPPLSGGMVGFFAYDMVRRLERLPERAVDDLCLPDMLLLLATDVAAVDHHEGTITLIANAVNWNGTDERVDWAYDDAVARLDVMTAALGQPLPSTVATFSRPEPRHRAQRTVEEYGAIVEYLVDQIAAGEAFQVVPSQRFEMDTDVDPIDVYRILRVTNPSPYMYLLQVPNSDGAVDFSIVGSSPEALVTVHEGWATTHPIAGTRWRGRTDDEDVLLEKELLADDKERAEHLMLVDLGRNDLGRVCTPGTVRVEDYSHIERYSHVMHLVSTVTGKLGEGRTALDAVTACFPAGTLSGAPKVRAMELIEEVEKTRRGLYGGVVGYLDFAGNADFAIAIRTALMRNGTAYVQAGGGVVADSNGSYEYNEARNKARAVLNAIAAAETLAAPGA ADLAATTSREDFRLLAAEHRVVPVTRKVLADSETPLSAYRKLAANRPGTFLLESAENGRSWSRWSFIGAGAPTALTVREGQAVWLGAVPKDAPTGGDPLRALQVTLELLATADPGLPPLSGGMVGFFAYDMVRRLERLPERAVDDLCLPDMLLLLATDVAAVDHHEGTITLIANAVNWNGTDERVDWAYDDAVARLDVMTAALGQPLPSTVATFSRPEPRHRAQRTVEEYGAIVEYLVDQIAAGEAFQVVPSQRFEMDTDVDPIDVYRILRVTNPSPYMYLLQVPNSDGAVDFSIVGSSPEALVTVHEGWATTHPIAGTRWRGRTDDEDVLLEKELLADDKERAEHLMLVDLGRNDLGRVCTPGTVRVEDYSHIERYSHVMHLVSTVTGKLGEGRTALDAVTACFPAGTLSGAPKVRAMELIEEVEKTRRGLYGGVVGYLDFAGNADFAIAIRTALMRNGTAYVQAGGGVVADSNGSYEYNEARNKARAVLNAIAAAETLAAPGA 5cwa-a1-m3-cA_5cwa-a1-m4-cA Structure of Anthranilate Synthase Component I (TrpE) from Mycobacterium tuberculosis with inhibitor bound P9WFX2 P9WFX2 2.1 X-RAY DIFFRACTION 142 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 505 505 5cwa-a1-m1-cA_5cwa-a1-m2-cA ADLAATTSREDFRLLAAEHRVVPVTRKVLADSETPLSAYRKLAANRPGTFLLESAENGRSWSRWSFIGAGAPTALTVREGQAVWLGAVPKDAPTGGDPLRALQVTLELLATADPGLPPLSGGMVGFFAYDMVRRLERLPERAVDDLCLPDMLLLLATDVAAVDHHEGTITLIANAVNWNGTDERVDWAYDDAVARLDVMTAALGQPLPSTVATFSRPEPRHRAQRTVEEYGAIVEYLVDQIAAGEAFQVVPSQRFEMDTDVDPIDVYRILRVTNPSPYMYLLQVPNSDGAVDFSIVGSSPEALVTVHEGWATTHPIAGTRWRGRTDDEDVLLEKELLADDKERAEHLMLVDLGRNDLGRVCTPGTVRVEDYSHIERYSHVMHLVSTVTGKLGEGRTALDAVTACFPAGTLSGAPKVRAMELIEEVEKTRRGLYGGVVGYLDFAGNADFAIAIRTALMRNGTAYVQAGGGVVADSNGSYEYNEARNKARAVLNAIAAAETLAAPGA ADLAATTSREDFRLLAAEHRVVPVTRKVLADSETPLSAYRKLAANRPGTFLLESAENGRSWSRWSFIGAGAPTALTVREGQAVWLGAVPKDAPTGGDPLRALQVTLELLATADPGLPPLSGGMVGFFAYDMVRRLERLPERAVDDLCLPDMLLLLATDVAAVDHHEGTITLIANAVNWNGTDERVDWAYDDAVARLDVMTAALGQPLPSTVATFSRPEPRHRAQRTVEEYGAIVEYLVDQIAAGEAFQVVPSQRFEMDTDVDPIDVYRILRVTNPSPYMYLLQVPNSDGAVDFSIVGSSPEALVTVHEGWATTHPIAGTRWRGRTDDEDVLLEKELLADDKERAEHLMLVDLGRNDLGRVCTPGTVRVEDYSHIERYSHVMHLVSTVTGKLGEGRTALDAVTACFPAGTLSGAPKVRAMELIEEVEKTRRGLYGGVVGYLDFAGNADFAIAIRTALMRNGTAYVQAGGGVVADSNGSYEYNEARNKARAVLNAIAAAETLAAPGA 5cwe-a1-m1-cA_5cwe-a1-m1-cB Structure of CYP107L2 from Streptomyces avermitilis with lauric acid Q82LM3 Q82LM3 2.39 X-RAY DIFFRACTION 81 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 393 393 MGNVIDLGEYGARFTEDPYPVYAELRERGPVHWVRTPPPEAFEGWLVVGHEEARAALADPRLSKDGTKKGLTSLDVELMGPYLLVVDPPEHTRLRSLVARAFTMRRVEALRPRIQEITDGLLDEMLPRGRADLVDSFAYPLPITVICELLGVPDIDRVTFRALSNEIVAPTGGDAELAAYERLAAYLDELIDDKRSTAPADDLLGDLIRTRAEDDDRLSGEELRAMAFILLVAGHETTVNLITNGVHTLLTHPDQLAALRADMTLLDGAVEEVLRFEGPVETATYRYAAESMEIGGTAIAEGDPVMIGLDAAGRDPARHPDPHVFDIHRAPQGHLAFGHGIHYCLGAPLARLEARVALRSLLERCPDLALDGPPGARPPGMLIRGVRRLPVRW MGNVIDLGEYGARFTEDPYPVYAELRERGPVHWVRTPPPEAFEGWLVVGHEEARAALADPRLSKDGTKKGLTSLDVELMGPYLLVVDPPEHTRLRSLVARAFTMRRVEALRPRIQEITDGLLDEMLPRGRADLVDSFAYPLPITVICELLGVPDIDRVTFRALSNEIVAPTGGDAELAAYERLAAYLDELIDDKRSTAPADDLLGDLIRTRAEDDDRLSGEELRAMAFILLVAGHETTVNLITNGVHTLLTHPDQLAALRADMTLLDGAVEEVLRFEGPVETATYRYAAESMEIGGTAIAEGDPVMIGLDAAGRDPARHPDPHVFDIHRAPQGHLAFGHGIHYCLGAPLARLEARVALRSLLERCPDLALDGPPGARPPGMLIRGVRRLPVRW 5cwt-a2-m1-cD_5cwt-a2-m1-cC Crystal structure of Chaetomium thermophilum Nup57 G0S0R2 G0S0R2 2.5 X-RAY DIFFRACTION 40 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 35 40 5cwt-a1-m1-cB_5cwt-a1-m1-cA IEAKAKKILEDYDKQLQHLKKQVEEAKKDFEEWEK GLGEEIEAKAKKILEDYDKQLQHLKKQVEEAKKDFEEWEK 5cx3-a3-m1-cB_5cx3-a3-m1-cA Crystal structure of FYCO1 LIR in complex with LC3A Q9H492 Q9H492 2.3 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 119 DRPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF SDRPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF 5cx3-a3-m1-cD_5cx3-a3-m1-cB Crystal structure of FYCO1 LIR in complex with LC3A Q9H492 Q9H492 2.3 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 118 5cx3-a1-m1-cA_5cx3-a1-m1-cC 5cx3-a2-m1-cD_5cx3-a2-m1-cB 5cx3-a3-m1-cA_5cx3-a3-m1-cC RPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF DRPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF 5cx3-a3-m1-cD_5cx3-a3-m1-cC Crystal structure of FYCO1 LIR in complex with LC3A Q9H492 Q9H492 2.3 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 119 RPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF SDRPFKQRRSFADRCKEVQQIRDQHPSKIPVIIERYKGEKQLPVLDKTKFLVPDHVNMSELVKIIRRRLQLNPTQAFFLLVNQHSMVSVSTPIADIYEQEKDEDGFLYMVYASQETFGF 5cx8-a1-m1-cA_5cx8-a1-m1-cB Structure of RagB, a major immunodominant virulence factor of Porphyromonas gingivalis. F5H948 F5H948 2.4 X-RAY DIFFRACTION 30 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 466 466 DFQQPYTSFVQTKQNRDGLYALLRNTENPRHFYQELQSDYCTTITDGNSLAPFVNWDLGILNDHGRADEDEVSGIAGYYFVYNRLNQQANAFVNNTEAALQNQVYKNSTEIANAKSFLAEGKVLQALAIWRLDRFSFHESVTEVNSGAKDLGVILLKEYNPGYIGPRATKAQCYDYILSRLSEAIEVLPENRESVLYVSRDYAYALRARIYLALGEYGKAAADAKVVDKYPLIGAADASEFENIYRSDANNPEIIFRGFASATLGSFTATTLNGAAPAGKDIKYNPSAVPFQWVVDLYENEDFRKSVYIAKVVKKDKGYLVNKFLEDKAYRDVQDKPNLKVGARYFSVAEVYLILVESALQTGDTPTAEKYLKALSKARGAEVSVVNEALQAERTRELIGEGSRLRDVRWSIPNNHDAFETQPGLEGFANTTPLKAQAPVGFYAYTWEFPQRDRQTNPQLIKNWPI DFQQPYTSFVQTKQNRDGLYALLRNTENPRHFYQELQSDYCTTITDGNSLAPFVNWDLGILNDHGRADEDEVSGIAGYYFVYNRLNQQANAFVNNTEAALQNQVYKNSTEIANAKSFLAEGKVLQALAIWRLDRFSFHESVTEVNSGAKDLGVILLKEYNPGYIGPRATKAQCYDYILSRLSEAIEVLPENRESVLYVSRDYAYALRARIYLALGEYGKAAADAKVVDKYPLIGAADASEFENIYRSDANNPEIIFRGFASATLGSFTATTLNGAAPAGKDIKYNPSAVPFQWVVDLYENEDFRKSVYIAKVVKKDKGYLVNKFLEDKAYRDVQDKPNLKVGARYFSVAEVYLILVESALQTGDTPTAEKYLKALSKARGAEVSVVNEALQAERTRELIGEGSRLRDVRWSIPNNHDAFETQPGLEGFANTTPLKAQAPVGFYAYTWEFPQRDRQTNPQLIKNWPI 5cxo-a1-m1-cA_5cxo-a1-m1-cB Intriguing role of epoxide hydrolase/cyclase-like enzyme SalBIII in pyran ring formation in polyether salinomycin H6D578 H6D578 1.8 X-RAY DIFFRACTION 112 1.0 1888 (Streptomyces albus) 1888 (Streptomyces albus) 129 134 MQDEQKRKEIVAEYFRKVNEGDVDAIVEMFTENATIEDPVGKDVREGRAAQREYFNSNVTAEVTIEPGHLSAGQDGKSVAVALAAEMTNILDPNRTRVKINAVDVFTLTPEGKIDSMRVFWGMTDIGVW MQDEQKRKEIVAEYFRKVNEGDVDAIVEMFTENATIEDPVGKDVREGRAAQREYFNSNVTAEVTIEPGHLSAGQDGKSVAVALAAEMTNILDPNRTRVKINAVDVFTLTPEGKIDSMRVFWGMTDIGVWNSSSV 5cxp-a1-m1-cA_5cxp-a1-m2-cA X-ray crystallographic protein structure of the glycoside hydrolase family 30 subfamily 8 xylanase, Xyn30A, from Clostridium acetobutylicum Q97TI2 Q97TI2 1.77 X-RAY DIFFRACTION 78 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 387 387 SNDATINVAAKHQTIRGFGASSAWCGALSDTCMDTLYKNAGLDILRVRIAPNEGWNRGDYRAWADELSNAKKVRARGGIVFATPWTPPASMKTNNTTTGANKGSLKPSSYAAYAAYLKTFVKYMSDNGAPLYALSLQNEPDWAPDYDACTWTAQQFHDFLKQYGASLSSTIKIIMPESLGFNPAMSDPTLNDPTTAQYVSIIGGHLYGSPIRDYPLARNKGKDIWMTEHYLEGNDPGTCVKLAKEIHDCMTIGNMNAYVYWWISGDQNGLYNTRTNETYKKTYVMGQFSKFIGNGYSRVDATNSPQSNVYVSAYTGNNKVVIVAINQGTYPVNQSFNVQNSTVSNVSSWVSSGTLNMAKTNSNISAANGRFNASLPAQSVTTFVADA SNDATINVAAKHQTIRGFGASSAWCGALSDTCMDTLYKNAGLDILRVRIAPNEGWNRGDYRAWADELSNAKKVRARGGIVFATPWTPPASMKTNNTTTGANKGSLKPSSYAAYAAYLKTFVKYMSDNGAPLYALSLQNEPDWAPDYDACTWTAQQFHDFLKQYGASLSSTIKIIMPESLGFNPAMSDPTLNDPTTAQYVSIIGGHLYGSPIRDYPLARNKGKDIWMTEHYLEGNDPGTCVKLAKEIHDCMTIGNMNAYVYWWISGDQNGLYNTRTNETYKKTYVMGQFSKFIGNGYSRVDATNSPQSNVYVSAYTGNNKVVIVAINQGTYPVNQSFNVQNSTVSNVSSWVSSGTLNMAKTNSNISAANGRFNASLPAQSVTTFVADA 5cxy-a1-m1-cA_5cxy-a1-m1-cB Structure of a Glycosyltransferase in Complex with Inhibitor O43173 O43173 2.15 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 292 292 5bo6-a1-m1-cB_5bo6-a1-m1-cA 5bo7-a1-m1-cB_5bo7-a1-m1-cA 5bo8-a1-m1-cB_5bo8-a1-m1-cA 5bo9-a1-m1-cB_5bo9-a1-m1-cA KWKFNRTAFLHQRQEILQHVDVIKNFSLTKNSVRIGQLMHYDYSSHKYVFSISNNFRSLLPDVSPIMNKHYNICAVVGNSGILTGSQCGQEIDKSDFVFRCNFAPTEAFQRDVGRKTNLTTFNPSILEKYYNNLLTIQDRNNFFLSLKKLDGAILWIPAFFFHTSATVTRTLVDFFVEHRGQLKVQLAWPGNIMQHVNRYWKNKHLSPKRLSTGILMYTLASAICEEIHLYGFWPFGFDPNTREDLPYHYYDKKGTKFTTKWQESHQLPAEFQLLYRMHGEGLTKLTLSHCA KWKFNRTAFLHQRQEILQHVDVIKNFSLTKNSVRIGQLMHYDYSSHKYVFSISNNFRSLLPDVSPIMNKHYNICAVVGNSGILTGSQCGQEIDKSDFVFRCNFAPTEAFQRDVGRKTNLTTFNPSILEKYYNNLLTIQDRNNFFLSLKKLDGAILWIPAFFFHTSATVTRTLVDFFVEHRGQLKVQLAWPGNIMQHVNRYWKNKHLSPKRLSTGILMYTLASAICEEIHLYGFWPFGFDPNTREDLPYHYYDKKGTKFTTKWQESHQLPAEFQLLYRMHGEGLTKLTLSHCA 5cy1-a1-m1-cB_5cy1-a1-m1-cA Tn3 resolvase - site III complex crystal form I P0ADI2 P0ADI2 3.4 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 180 183 MRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKADREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS MRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKASTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERASA 5cy2-a2-m1-cE_5cy2-a2-m1-cF Tn3 resolvase - site III complex crystal form II P0ADI2 P0ADI2 4 X-RAY DIFFRACTION 83 0.983 562 (Escherichia coli) 562 (Escherichia coli) 176 180 5cy2-a1-m1-cA_5cy2-a1-m1-cB MRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKASTDREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERASA MRIFGYARVSTSQQSLDIQIRALKDAGVKANRIFTDKADREGLDLLRMKVEEGDVILVKKLDRLGRDTADMIQLIKEFDAQGVAVRFIDDGISTDGDMGQMVVTILSAVAQAERRRILERTNEGRQEAKLKGIKFGRRRTVDRNVVLTLHQKGTGATEIAHQLSIARSTVYKILEDERAS 5cy4-a3-m1-cE_5cy4-a3-m1-cF Crystal structure of an oligoribonuclease from Acinetobacter baumannii V5VGJ9 V5VGJ9 2.25 X-RAY DIFFRACTION 74 0.989 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 180 182 5cy4-a1-m1-cB_5cy4-a1-m1-cA 5cy4-a2-m1-cC_5cy4-a2-m1-cD HMSSTLNTRLIWIDLEMTGLDTDNDQIIEIATIITDDHLNVLAEGPVLAIHQPDRILNAMDEWNTRQHGQSGLIERVRRSKLTARDAELQTLEFLKKWVNPKVSPMCGNSICQDRRFLHRLMPELEQYFHYRNLDVSTVKELSKRWRPEIMSGLKHLAMDDIRDSISELKYYREYFFIMN SSTLNTRLIWIDLEMTGLDTDNDQIIEIATIITDDHLNVLAEGPVLAIHQPDRILNAMDEWNTRQHGQSGLIERVRRSKLTARDAELQTLEFLKKWVNPKVSPMCGNSICQDRRFLHRLMPELEQYFHYRNLDVSTVKELSKRWRPEIMSGLKKNASHLAMDDIRDSISELKYYREYFFIMN 5cyb-a1-m1-cA_5cyb-a1-m2-cA Structure of a lipocalin lipoprotein affecting virulence in Streptococcus pneumoniae 2.1 X-RAY DIFFRACTION 27 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 89 89 QPVAQPTDIDGTYTGQDDGDRITLVVTGTTGTWTELESDGDQKVKQVTLDSANQRMIIGDDVKIYTVNGNQIVVDDMDRDPSDQIVLTK QPVAQPTDIDGTYTGQDDGDRITLVVTGTTGTWTELESDGDQKVKQVTLDSANQRMIIGDDVKIYTVNGNQIVVDDMDRDPSDQIVLTK 5cyj-a1-m1-cA_5cyj-a1-m1-cB X-ray structure of human RBPMS Q93062 Q93062 1.79 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 EEVRTLFVSGLPLDIKPRELYLLFRPFKGYEGSLIKLTSKQPVGFVSFDSRSEAEAAKNANGIRFDPEIPQTLRLEFAKANTKAKNKLV EEVRTLFVSGLPLDIKPRELYLLFRPFKGYEGSLIKLTSKQPVGFVSFDSRSEAEAAKNANGIRFDPEIPQTLRLEFAKANTKAKNKLV 5cyw-a2-m2-cB_5cyw-a2-m3-cB Crystal Structure of Vaccinia Virus C7 P68598 P68598 2 X-RAY DIFFRACTION 17 1.0 126794 (Vaccinia virus Ankara) 126794 (Vaccinia virus Ankara) 149 149 5cyw-a2-m1-cB_5cyw-a2-m2-cB 5cyw-a2-m1-cB_5cyw-a2-m3-cB MGIQHEFDIIINGDIALRNLQLHKGDNYGCKLKIISNDYKKLKFRFIIRPDWSEIDEVKGLTVFANNYAVKVNKVDDTFYYVIYEAVIHLYNKKTEILIYSDDENELFKHYYPYISLNMISKKYKVKEENYSSPYIEHPLIPYRDYESM MGIQHEFDIIINGDIALRNLQLHKGDNYGCKLKIISNDYKKLKFRFIIRPDWSEIDEVKGLTVFANNYAVKVNKVDDTFYYVIYEAVIHLYNKKTEILIYSDDENELFKHYYPYISLNMISKKYKVKEENYSSPYIEHPLIPYRDYESM 5cyx-a1-m2-cA_5cyx-a1-m3-cA Crystal Structure of Mouse Protocadherin-24 EC1-3 E9Q7P9 E9Q7P9 2.1 X-RAY DIFFRACTION 95 1.0 10090 (Mus musculus) 10090 (Mus musculus) 318 318 5cyx-a1-m1-cA_5cyx-a1-m2-cA 5cyx-a1-m1-cA_5cyx-a1-m3-cA NSPPSFGVNMTLVTLPEDLPVGAVAFWLVATLTYGISGPNASYFSVNANTGEVKLASPLDFETVPFFKITISTSDGLNIRTAEMQVIVEDRNDNIPVFLNTEFSTSINETLPVGSVVFSVLAEDKDTGTAGLVQYFIEKVIPSTANSNNLFRILENGSIVLNDTLSYNNKSAFYQLELKACDSGGILDNKPKTQCSQPVFVSISVIDEPDLDPRFIREFYSASVAEDATLGTSVLTVEAVDSDKGINDIVTYSVSNSTRPGWFDIREDGVIFVNGSLDREQLLLENEEVQIQVTATEKNLNIYGQEAKASMWVTIRVT NSPPSFGVNMTLVTLPEDLPVGAVAFWLVATLTYGISGPNASYFSVNANTGEVKLASPLDFETVPFFKITISTSDGLNIRTAEMQVIVEDRNDNIPVFLNTEFSTSINETLPVGSVVFSVLAEDKDTGTAGLVQYFIEKVIPSTANSNNLFRILENGSIVLNDTLSYNNKSAFYQLELKACDSGGILDNKPKTQCSQPVFVSISVIDEPDLDPRFIREFYSASVAEDATLGTSVLTVEAVDSDKGINDIVTYSVSNSTRPGWFDIREDGVIFVNGSLDREQLLLENEEVQIQVTATEKNLNIYGQEAKASMWVTIRVT 5d01-a1-m1-cA_5d01-a1-m1-cB Crystal structure of BshA from B. subtilis complexed with N-acetylglucosaminyl-malate P42982 P42982 2.02 X-RAY DIFFRACTION 107 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 357 360 5d00-a1-m1-cA_5d00-a1-m1-cB RKLKIGITCYPSVGGSGIIATELGKQLAEKGHEIHFITSSYHPNIHFHEVEVNQYAVFKYPPYDLTLASKIAEVAERENLDIIHAHYALPHAVCAYLAKQMLKRNIGIVTTLHGTDITVLGYDPSLKDLIRFAIESSDRVTAVSSALAAETYDLIKPEKKIETIYNFIKNTAAIKEKHGILPDEKVVIHVSNFRKVKRVQDVIRVFRNIAGKTKAKLLLVGDGPEKSTACELIRKYGLEDQVLMLGNQVEDLYSISDLKLLLSEKESFGLVLLEAMACGVPCIGTNIGGIPEVIKNNVSGFLVDVGDVTAATARAMSILEDEQLSNRFTKAAIEMLENEFSSKKIVSQYEQIYADLA RKLKIGITCYPSVGGSGIIATELGKQLAEKGHEIHFITSSYHPNIHFHEVEVNQYAVFKYPPYDLTLASKIAEVAERENLDIIHAHYALPHAVCAYLAKQMLKRNIGIVTTLHGTDITVLGYDPSLKDLIRFAIESSDRVTAVSSALAAETYDLIKPEKKIETIYNFIDKNTAAIKEKHGILPDEKVVIHVSNFRKVKRVQDVIRVFRNIAGKTKAKLLLVGDGPEKSTACELIRKYGLEDQVLMLGNQDRVEDLYSISDLKLLLSEKESFGLVLLEAMACGVPCIGTNIGGIPEVIKNNVSGFLVDVGDVTAATARAMSILEDEQLSNRFTKAAIEMLENEFSSKKIVSQYEQIYADLA 5d0n-a1-m1-cA_5d0n-a1-m2-cA Crystal structure of maize PDRP bound with AMP Q195N6 Q195N6 3.2 X-RAY DIFFRACTION 271 1.0 4577 (Zea mays) 4577 (Zea mays) 274 274 5d1f-a1-m1-cA_5d1f-a1-m2-cA DVCEAAGKAIYIVSDGTGWTAEHSVNAALGQFENCLADRGCAVNTHLFSLIDDMDRLIEVIKQAAKEGALVLYTLADPSMAEATKKACDFWGVPCTDVLRPTVEAIASHIGVAPSGIPRSSPSRNGRLSEDYFQRIDAIDFTIKQDDGALPQNLYRADIVLAGVSRTGKTPLSIYLAQKGYKVANVPIVMGVDLPKSLFEINQDKVFGLTINPAIEMDHVRQELVHANQIFAQNPSWPVIAVTGKAIEETAAVILGILHDRKQKCSMPRISKRY DVCEAAGKAIYIVSDGTGWTAEHSVNAALGQFENCLADRGCAVNTHLFSLIDDMDRLIEVIKQAAKEGALVLYTLADPSMAEATKKACDFWGVPCTDVLRPTVEAIASHIGVAPSGIPRSSPSRNGRLSEDYFQRIDAIDFTIKQDDGALPQNLYRADIVLAGVSRTGKTPLSIYLAQKGYKVANVPIVMGVDLPKSLFEINQDKVFGLTINPAIEMDHVRQELVHANQIFAQNPSWPVIAVTGKAIEETAAVILGILHDRKQKCSMPRISKRY 5d1i-a1-m1-cB_5d1i-a1-m1-cA Structure of Cyclic nucleotide-binding-like protein from Brucella abortus bv. 1 str. 9-941 Q57AQ0 Q57AQ0 2 X-RAY DIFFRACTION 69 0.991 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 115 116 DDDIRILGTVGLFESFTPEQLRLLAFGAERLVLRAGRELFREGQSADCAYIIVTGTITLFHEGDEGRVTIRPVGPGAILGEALIAQTTRLTGAVADVETEVIRISRSIFRRILEE ALDDDIRILGTVGLFESFTPEQLRLLAFGAERLVLRAGRELFREGQSADCAYIIVTGTITLFHEGDEGRVTIRPVGPGAILGEALIAQTTRLTGAVADVETEVIRISRSIFRRILE 5d1p-a1-m1-cA_5d1p-a1-m1-cB Archaeal ATP-dependent RNA ligase - form 2 O27289 O27289 2.199 X-RAY DIFFRACTION 148 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 374 374 5d1o-a1-m1-cB_5d1o-a1-m1-cA DIPFDLIQERTGVPSSRLKVAFARGSLRLLESAGMQALLFKKPLGDLEAGTVIYLGDETEVIRGFPKIRRTLLLSPTIQEHFRDRVAVEEMNGYNVRIACLSSGETVALTRGGHVCPFTTRKAQELLDLSEFFREHPDLVICGEMIGRDNPYVSQDYPEVGPLGFRVFDLREKNTNRPLPVEERRALLDSYGLPNVRLFGVYPIEEAASEVADIIRALGMAGREGVVMKDPSMEVPPLKYTSSQAHARELAYAFSYPFDFGRPFFFSRVIREGFQAYELDESDDETRERARRLGEAIIYPMLERIKSISAGEAAYEDTVIDVEDREAAEEFIRHLVRLGVSATLADYRDGRATIRRFYQSTTDRINNYLKGGLY DIPFDLIQERTGVPSSRLKVAFARGSLRLLESAGMQALLFKKPLGDLEAGTVIYLGDETEVIRGFPKIRRTLLLSPTIQEHFRDRVAVEEMNGYNVRIACLSSGETVALTRGGHVCPFTTRKAQELLDLSEFFREHPDLVICGEMIGRDNPYVSQDYPEVGPLGFRVFDLREKNTNRPLPVEERRALLDSYGLPNVRLFGVYPIEEAASEVADIIRALGMAGREGVVMKDPSMEVPPLKYTSSQAHARELAYAFSYPFDFGRPFFFSRVIREGFQAYELDESDDETRERARRLGEAIIYPMLERIKSISAGEAAYEDTVIDVEDREAAEEFIRHLVRLGVSATLADYRDGRATIRRFYQSTTDRINNYLKGGLY 5d1r-a1-m1-cB_5d1r-a1-m1-cA Crystal structure of Mycobacterium tuberculosis Rv1816 transcriptional regulator. P9WMC9 P9WMC9 2 X-RAY DIFFRACTION 157 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 226 227 REQIEAKIVELGRRQLLDHGAAGLSLRAIARNLGMVSSAVYRYVSSRDELLTLLLVDAYSDLADTVDRARDDTVADSWSDDVIAIARAVRGWAVTNPARWALLYGSPVPGYHAPPDRTAGVATRVVGAFFDAIAAGIATGDIRLTDDVAPQPMSSDFEKIRQEFGFPGDDRVVTKCFLLWAGVVGAISLEVFGQYGADMLTDPGVVFDAQTRLLVAVLAEHHHHHH AREQIEAKIVELGRRQLLDHGAAGLSLRAIARNLGMVSSAVYRYVSSRDELLTLLLVDAYSDLADTVDRARDDTVADSWSDDVIAIARAVRGWAVTNPARWALLYGSPVPGYHAPPDRTAGVATRVVGAFFDAIAAGIATGDIRLTDDVAPQPMSSDFEKIRQEFGFPGDDRVVTKCFLLWAGVVGAISLEVFGQYGADMLTDPGVVFDAQTRLLVAVLAEHHHHHH 5d1v-a1-m1-cA_5d1v-a1-m1-cB Crystal Structure and Thermal Stability of Hemoglobin from Thermophilic Phototrophic Bacterium Chloroflexus aurantiacus A9WBH0 A9WBH0 1.74 X-RAY DIFFRACTION 11 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 121 121 EPTIYEQIGGEATFRRIVDIFYARVEADPRLRHLFPADLEPGKEHQRLFLMQYFGGPRTYSERRGHPRLRMRHAPFPIGPRERDAWLEHMLAALNEAGVPEPARSVMENYFRHAAQAMMNR EPTIYEQIGGEATFRRIVDIFYARVEADPRLRHLFPADLEPGKEHQRLFLMQYFGGPRTYSERRGHPRLRMRHAPFPIGPRERDAWLEHMLAALNEAGVPEPARSVMENYFRHAAQAMMNR 5d1w-a1-m1-cA_5d1w-a1-m1-cB Crystal structure of Mycobacterium tuberculosis Rv3249c transcriptional regulator. O05892 O05892 3.59 X-RAY DIFFRACTION 97 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 195 195 5d1w-a2-m1-cC_5d1w-a2-m1-cD 5d1w-a3-m1-cF_5d1w-a3-m1-cE RIPYAEASRALLRDSVLDAMRDLLLTRDWSAITLSDVARAAGISRQTIYNEFGSRQGLAQGYALRLADRLVDNVHASLDANVGNFYEAFLQGFRSFFAESAADPLVISLLTGVAKPDLLQLITTDSAPIITRASARLAPAFTDTWVATTDNDANVLSRAIVRLCLSYVSMPPEADHDVAADLARLITPFAERHGV RIPYAEASRALLRDSVLDAMRDLLLTRDWSAITLSDVARAAGISRQTIYNEFGSRQGLAQGYALRLADRLVDNVHASLDANVGNFYEAFLQGFRSFFAESAADPLVISLLTGVAKPDLLQLITTDSAPIITRASARLAPAFTDTWVATTDNDANVLSRAIVRLCLSYVSMPPEADHDVAADLARLITPFAERHGV 5d28-a1-m1-cD_5d28-a1-m1-cA Complex of GM-CSF/IL-2 inhibition factor with Granulocyte-macrophage colony-stimulating factor Q9J5U5 Q9J5U5 2.845 X-RAY DIFFRACTION 86 1.0 10258 (Orf virus) 10258 (Orf virus) 226 231 QWIGERDFCTAHAQDVFARLQVWMRIDRNVTAADNSSACALAIETPPSNFDADVYVAAAGINVSVSAINCGFFNMRQVETTYNTARRQMYVYMDSWDPWVIDDPQPLFSQEYENETLPYLLEVLELARLYIRVGCTVPGEQPFEVIPGIDYPHTGMEVLRPNRRFAPAKLHMDLEVDHRCVSAVHVKAFLQDACSARKARTPLYFAGHGCNHPDPISRKCSMQTAR QWIGERDFCTAHAQDVFARLQVWMRIDRNVTAADNSSACALAIETPPSNFDADVYVAAAGINVSVSAINCGFFNMRQVETTYNTARRQMYVYMDSWDPWVIDDPQPLFSQEYENETLPYLLEVLELARLYIRVGCTVPGEQPFEVIPGIDYPHTGMEFLQHVLRPNRRFAPAKLHMDLEVDHRCVSAVHVKAFLQDACSARKARTPLYFAGHGCNHPDSPISRKCSMQTAR 5d33-a1-m1-cA_5d33-a1-m1-cB Directed evolutionary changes in Kemp Eliminase KE07 - Crystal 12 round 7 1.59 X-RAY DIFFRACTION 29 1.0 32630 (synthetic construct) 32630 (synthetic construct) 252 262 5d32-a1-m1-cA_5d32-a1-m1-cB 5d37-a1-m1-cA_5d37-a1-m1-cB 5d38-a1-m1-cA_5d38-a1-m1-cB LAKRIDAALILKDGRVVKGSNFENLRDSGDPVELGKFYSEIGIDELSFWDITASVEKRKTMLELVEKVAEQIDIPITVGGGIYDFETASELILRGADKVEINTAAVENPSLITQIAQTFGSQAVVVYIAAKRVDGEFMVFTYSGTKNTGILLRDWVVEVEKRGAGEIVLGSIDRLGTKSGYDTEMIRFVRPLTTLPIIAHRGAGKTEHFLEAFLAGADAAKADSVFHSREIDVRELKEYLKKHGVNVRLEGL LAKRIDAALILKDGRVVKGSNFENLRDSGDPVELGKFYSEIGIDELSFWDITASVEKRKTMLELVEKVAEQIDIPITVGGGIYDFETASELILRGADKVEINTAAVENPSLITQIAQTFGSQAVVVYIAAKRVDGEFMVFTYSGTKNTGILLRDWVVEVEKRGAGEIVLGSIDRLGTKSGYDTEMIRFVRPLTTLPIIAHRGAGKTEHFLEAFLAGADAAKADSVFHSREIDVRELKEYLKKHGVNVRLEGLGSLEHHHHHH 5d39-a1-m1-cB_5d39-a1-m1-cA Transcription factor-DNA complex P42226 P42226 3.2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 483 488 QEELKFKTGLRRLQHRVGEIHLLREALAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAPLQERCESLVDIYSQLQQEVGAAGGELEPKTRASLTGRLDEVLRTLVTSCFLVEKQPPQVLKTQTKFQAGVRFLLGLRFPAKPPLVRADMVTEKQARELESTGEIINNTVPLENSIPGNCCSALFKNLLLKKIKRCEGTESVTEEKCAVLFSASFTLGPGKLPIQLQALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEVGTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISKQYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGQDGSPQIENIQPFSAKDLSIRSLGDRIRDLAQLKNLYPKKPKDEAFRSHYKPEQMGKDGRGVPATIKMTVE QEELKFKTGLRRLQHRVGEIHLLREALALAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAPLQERCESLVDIYSQLQQEVGAAGGELEPKTRASLTGRLDEVLRTLVTSCFLVEKQPPQVLKTQTKFQAGVRFLLGLRFLPAKPPLVRADMVTEKQARELESTGEIINNTVPLENSIPGNCCSALFKNLLLKKIKRCERKGTESVTEEKCAVLFSASFTLGPGKLPIQLQALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEVGTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISKQYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGQDGSPQIENIQPFSAKDLSIRSLGDRIRDLAQLKNLYPKKPKDEAFRSHYKPEQMGKDGRGVPATIKMTVE 5d39-a2-m1-cC_5d39-a2-m1-cA Transcription factor-DNA complex P42226 P42226 3.2 X-RAY DIFFRACTION 54 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 483 488 4y5w-a1-m1-cC_4y5w-a1-m1-cA 4y5w-a2-m1-cD_4y5w-a2-m1-cB 5d39-a1-m1-cB_5d39-a1-m1-cD 5d39-a1-m1-cC_5d39-a1-m1-cA 5d39-a3-m1-cB_5d39-a3-m1-cD QEELKFKTGLRRLQHRVGEIHLLREALEALAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAPLQERCESLVDIYSQLQQEVGAAGGELEPKTRASLTGRLDEVLRTLVTSCFLVEKQPPQVLKTQTKFQAGVRFLLGLRFPAKPPLVRADMVTEKQARELESTGEIINNTVPLENSIPGNCCSALFKNLLLKKIKRCETESVTEEKCAVLFSASFTLGPGKLPIQLQALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEVGTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISKQYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGGSPQIENIQPFSAKDLSIRSLGDRIRDLAQLKNLYPKKPKDEAFRSHYKPEQMGKDGRGVPATIKMTVE QEELKFKTGLRRLQHRVGEIHLLREALALAMLLQETTGELEAAKALVLKRIQIWKRQQQLAGNGAPFEESLAPLQERCESLVDIYSQLQQEVGAAGGELEPKTRASLTGRLDEVLRTLVTSCFLVEKQPPQVLKTQTKFQAGVRFLLGLRFLPAKPPLVRADMVTEKQARELESTGEIINNTVPLENSIPGNCCSALFKNLLLKKIKRCERKGTESVTEEKCAVLFSASFTLGPGKLPIQLQALSLPLVVIVHGNQDNNAKATILWDNAFSEMDRVPFVVAERVPWEKMCETLNLKFMAEVGTNRGLLPEHFLFLAQKIFNDNSLSMEAFQHRSVSWSQFNKEILLGRGFTFWQWFDGVLDLTKRCLRSYWSDRLIIGFISKQYVTSLLLNEPDGTFLLRFSDSEIGGITIAHVIRGQDGSPQIENIQPFSAKDLSIRSLGDRIRDLAQLKNLYPKKPKDEAFRSHYKPEQMGKDGRGVPATIKMTVE 5d3a-a1-m1-cA_5d3a-a1-m1-cB KIF21A regulatory coiled coil Q7Z4S6 Q7Z4S6 2.495 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 82 GSMTISNMEADMNRLLKQREELTKRREKLSKRREKIVKENGEGDKNVANINEEMESLTANIDYINDSISDCQANIMQMEEAK GSMTISNMEADMNRLLKQREELTKRREKLSKRREKIVKENGEGDKNVANINEEMESLTANIDYINDSISDCQANIMQMEEAK 5d50-a1-m1-cB_5d50-a1-m1-cA Crystal structure of Rep-Ant complex from Salmonella-temperate phage T1S9Z0 T1S9Z0 2.49 X-RAY DIFFRACTION 123 0.99 1327941 (Salmonella phage SPC32H) 1327941 (Salmonella phage SPC32H) 105 171 5d50-a1-m1-cD_5d50-a1-m1-cC 5d50-a2-m1-cJ_5d50-a2-m1-cI 5d50-a2-m1-cL_5d50-a2-m1-cK LDVDHELDAVWTVEKQAAATLNAWMRKAAGIGPATVNRIMKAEVSTTIGVLSSLARAFGHEAYEMIIPVGAPGIIDYDHRMYAALPQEEKNKITSFINFVFEQNK AMKSIYDIRRKNLNEIILRDFDDTQLRFAERVKRSQNLVNRWCTGIKNIGPNAARIIEEAARKEKFWLDVDHELDAVWTVEKQAAATLNAWMRKAGIGPATVNRIMKAEVSTTIGVLSSLARAFGHEAYEMIIPVGAPGIIDYDHRMYAALPQEEKNKITSFINFVFEQNK 5d55-a1-m1-cA_5d55-a1-m1-cB Crystal structure of the E. coli Hda pilus minor tip subunit, HdaB Q08JP6 Q08JP6 2 X-RAY DIFFRACTION 176 0.986 562 (Escherichia coli) 562 (Escherichia coli) 143 147 GSADITLMNHKYMGNLLHDGVKLATGRIICQDTHSGFRVWINARQEGGGAGKYIVQSTEGPQHNLRIRIGGNGWSSFVEKGIQGVFNTIKEDASIFYIEVDGNQQVHPGKYLFSVSGECYIHMQIPLCQAATITAQHTVEKLN SADITLMNHKYMGNLLHDGVKLATGRIICQDTHSGFRVWINARQEGGGAGKYIVQSTEGPQHNLRIRIGGNGWSSFVEKGIQGVFNTIKEDASIFYIEVDGNQQVHPGKYLFSVSGECYIHMDNKQEFIPLCQAATITAQHTVEKLN 5d5p-a2-m1-cB_5d5p-a2-m1-cD HcgB from Methanococcus maripaludis Q6LX55 Q6LX55 1.7 X-RAY DIFFRACTION 153 1.0 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 156 157 5d5p-a1-m1-cA_5d5p-a1-m1-cC NIENTIKSAYEESLNNARFGDKIEEIDAIQSTIKSAKNVTVATSNEKKFKVVSDIISRITDANISMLEIPTNSADLTRMPALNKGLIAVDSSDADLIITRGRLGIPGSGSLLLIMDKKGRILTGSVSPSSIIHKNPIDKTVELELITALERIGIVV MNIENTIKSAYEESLNNARFGDKIEEIDAIQSTIKSAKNVTVATSNEKKFKVVSDIISRITDANISMLEIPTNSADLTRMPALNKGLIAVDSSDADLIITRGRLGIPGSGSLLLIMDKKGRILTGSVSPSSIIHKNPIDKTVELELITALERIGIVV 5d5u-a1-m1-cB_5d5u-a1-m2-cB Crystal structure of human Hsf1 with HSE DNA Q00613 Q00613 2.91 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 SNVPAFLTKLWTLVSDPDTDALICWSPSGNSFHVFDQGQFAKEVLPKYFKHNNMASFVRQLNMYGFRKVVHIEERDDTEFQHPCFLRGQEQLLENIKRKV SNVPAFLTKLWTLVSDPDTDALICWSPSGNSFHVFDQGQFAKEVLPKYFKHNNMASFVRQLNMYGFRKVVHIEERDDTEFQHPCFLRGQEQLLENIKRKV 5d5x-a1-m1-cE_5d5x-a1-m1-cB Crystal structure of Chaetomium thermophilum Skn7 with SSRE DNA G0SB31 G0SB31 2.4 X-RAY DIFFRACTION 13 0.99 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 98 99 SDFVRKLYKMLEDPSYHSVVRWSDDGDSFVVLENEKFTKTILPKHFKHSNFASFVRQLNKYDFHKVRHNSPYGRDAWEFKHPEFRADRKDNLDNIRRK SDFVRKLYKMLEDPSYHSVVRWSDDGDSFVVLENEKFTKTILPKHFKHSNFASFVRQLNKYDFHKVRHNDEPYGRDAWEFKHPEFRADRKDNLDNIRRK 5d6a-a1-m1-cA_5d6a-a1-m2-cA 2.7 Angstrom Crystal Structure of ABC transporter ATPase from Vibrio vulnificus in Complex with Adenylyl-imidodiphosphate (AMP-PNP) Q7MEA1 Q7MEA1 2.7 X-RAY DIFFRACTION 209 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 536 536 SNADQLIAKLKKLEKQNYRAYQQIKGQYNFTDFDLFIDHIQSDPYASASRFRAFRAWSLTGLSWLKEESAAFQLGARDFIARSFAEFAKQENAIAISLHGQTVLDSTSVLFTEEGIELRFRVNLPAEGRDILAKKAINIITFHLPKFIRRSTIERELDKEALLTHCQVVEDQEALREQLEVNGLVSFVANGSILPRVAGNCDLPKDAVEFTAPESLQVTLHAPNRGYVTGLGIPKGITLIVGGGFHGKSTLLNAIERSIYNHIPGDGREYIVTDGSAKIRAEEGRCVHHLNLSNYINHLPGKDTADFTTQDASGSTSQAAWLQESVEAGASTLLIDEDTSATNFIRDERQALVAKGDEPITPLVDRIGQLRDELEISTIIVGGSGDYLDVADNVIQHDYQALDVTEKAKEVIQLHPTEAPLVTFPPRALHCSALNILTDGKFRVSAKGKDSLRFGKEFTDLSALEQLESSDEVNAIGWVWYQLAQHAGWNSNPAKQISELLGDAWFQNPQHGDLAKPRPIDVAALNRRKSQFRNNH SNADQLIAKLKKLEKQNYRAYQQIKGQYNFTDFDLFIDHIQSDPYASASRFRAFRAWSLTGLSWLKEESAAFQLGARDFIARSFAEFAKQENAIAISLHGQTVLDSTSVLFTEEGIELRFRVNLPAEGRDILAKKAINIITFHLPKFIRRSTIERELDKEALLTHCQVVEDQEALREQLEVNGLVSFVANGSILPRVAGNCDLPKDAVEFTAPESLQVTLHAPNRGYVTGLGIPKGITLIVGGGFHGKSTLLNAIERSIYNHIPGDGREYIVTDGSAKIRAEEGRCVHHLNLSNYINHLPGKDTADFTTQDASGSTSQAAWLQESVEAGASTLLIDEDTSATNFIRDERQALVAKGDEPITPLVDRIGQLRDELEISTIIVGGSGDYLDVADNVIQHDYQALDVTEKAKEVIQLHPTEAPLVTFPPRALHCSALNILTDGKFRVSAKGKDSLRFGKEFTDLSALEQLESSDEVNAIGWVWYQLAQHAGWNSNPAKQISELLGDAWFQNPQHGDLAKPRPIDVAALNRRKSQFRNNH 5d6o-a2-m1-cC_5d6o-a2-m1-cD Orthorhombic Crystal Structure of an acetylester hydrolase from Corynebacterium glutamicum Q8NS43 Q8NS43 1.8 X-RAY DIFFRACTION 91 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 349 349 5d6o-a1-m1-cA_5d6o-a1-m1-cB 5d7b-a1-m1-cA_5d7b-a1-m1-cB MLDNSFYTAEVQGPYETASIGRLELEEGGVIEDCWLAYATAGTLNEDKSNAILIPTWYSGTHQTWFQQYIGTDHALDPSKYFIISINQIGNGLSVSPANTADDSISMSKFPNVRIGDDVVAQDRLLRQEFGITELFAVVGGSMGAQQTYEWIVRFPDQVHRAAPIAGTAKNTPHDFIFTQTLNETVEADPGFNGGEYSSHEEVADGLRRQSHLWAAMGFSTEFWKQEAWRRLGLESKESVLADFLDPLFMSMDPNTLLNNAWKWQHGDVSRHTGGDLAAALGRVKAKTFVMPISEDMFFPVRDCAAEQALIPGSELRVIEDIAGHLGLFNVSENYIPQIDKNLKELFES MLDNSFYTAEVQGPYETASIGRLELEEGGVIEDCWLAYATAGTLNEDKSNAILIPTWYSGTHQTWFQQYIGTDHALDPSKYFIISINQIGNGLSVSPANTADDSISMSKFPNVRIGDDVVAQDRLLRQEFGITELFAVVGGSMGAQQTYEWIVRFPDQVHRAAPIAGTAKNTPHDFIFTQTLNETVEADPGFNGGEYSSHEEVADGLRRQSHLWAAMGFSTEFWKQEAWRRLGLESKESVLADFLDPLFMSMDPNTLLNNAWKWQHGDVSRHTGGDLAAALGRVKAKTFVMPISEDMFFPVRDCAAEQALIPGSELRVIEDIAGHLGLFNVSENYIPQIDKNLKELFES 5d6v-a1-m2-cA_5d6v-a1-m6-cA PduJ K25A mutant, from Salmonella enterica serovar Typhimurium LT2, PduJ mutant H9L478 H9L478 1.5 X-RAY DIFFRACTION 73 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 90 90 5d6v-a1-m1-cA_5d6v-a1-m5-cA 5d6v-a1-m1-cA_5d6v-a1-m6-cA 5d6v-a1-m2-cA_5d6v-a1-m4-cA 5d6v-a1-m3-cA_5d6v-a1-m4-cA 5d6v-a1-m3-cA_5d6v-a1-m5-cA NNALGLVETKGLVGAIEAADAMVASANVQLVGYEKIGSGLVTVMVRGDVGAVKAAVDAGSAAASVVGEVKSCHVIPRPHSDVEAILPKSA NNALGLVETKGLVGAIEAADAMVASANVQLVGYEKIGSGLVTVMVRGDVGAVKAAVDAGSAAASVVGEVKSCHVIPRPHSDVEAILPKSA 5d73-a1-m1-cA_5d73-a1-m1-cB Structure of Wuchereria bancrofti pi-class glutathione S-transferase Q86LL8 Q86LL8 2.33 X-RAY DIFFRACTION 65 1.0 6293 (Wuchereria bancrofti) 6293 (Wuchereria bancrofti) 207 207 SYKLTYFPIRGLAEPIRLVLVDQGIKFTDDRINASDWPSMKSHFHFGQLPCLYDGDHQIVQSGAILRHLARKHNLNGGNELETTHIDMFCEGVRDLHTKYTKMIYQAYDTEKDSYIKDILPVELAKFEKLLATRDDGKNFILGEKISYVDFVLFEELDIHQILDPHCLDKFPLLKAYHQRMEDRPGLKEYCKQRNRAKIPVNGNGKQ SYKLTYFPIRGLAEPIRLVLVDQGIKFTDDRINASDWPSMKSHFHFGQLPCLYDGDHQIVQSGAILRHLARKHNLNGGNELETTHIDMFCEGVRDLHTKYTKMIYQAYDTEKDSYIKDILPVELAKFEKLLATRDDGKNFILGEKISYVDFVLFEELDIHQILDPHCLDKFPLLKAYHQRMEDRPGLKEYCKQRNRAKIPVNGNGKQ 5d84-a1-m1-cA_5d84-a1-m2-cA Staphyloferrin B precursor biosynthetic enzyme SbnA bound to PLP A6QDA0 A6QDA0 1.45 X-RAY DIFFRACTION 116 1.0 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 318 318 5d85-a1-m1-cA_5d85-a1-m2-cA 5d86-a1-m1-cA_5d86-a1-m2-cA 5d87-a1-m1-cA_5d87-a1-m2-cA ACHDSLLDSVGQTPMVQLHQLFPKHEVFAKLEYMNPGGSMKDRPAKYIIEHGIKHGLITENTHLIESTSGNLGIALAMIAKIKGLKLTCVVDPKISPTNLKIIKSYGANVEMVEEPDAHGGYLMTRIAKVQELLATIDDAYWINQYANELNWQSHYHGAGTEIVETIKQPIDYFVAPVSTTGSIMGMSRKIKEVHPNAQIVAVDAKGSVIFGDKPINRELPGIGASRVPEILNRSEINQVIHVDDYQSALGCRKLIDYEGIFAGGSTGSIIAAIEQLITSIEEGATIVTILPDRGDRYLDLVYSDTWLEKMKSRQGVK ACHDSLLDSVGQTPMVQLHQLFPKHEVFAKLEYMNPGGSMKDRPAKYIIEHGIKHGLITENTHLIESTSGNLGIALAMIAKIKGLKLTCVVDPKISPTNLKIIKSYGANVEMVEEPDAHGGYLMTRIAKVQELLATIDDAYWINQYANELNWQSHYHGAGTEIVETIKQPIDYFVAPVSTTGSIMGMSRKIKEVHPNAQIVAVDAKGSVIFGDKPINRELPGIGASRVPEILNRSEINQVIHVDDYQSALGCRKLIDYEGIFAGGSTGSIIAAIEQLITSIEEGATIVTILPDRGDRYLDLVYSDTWLEKMKSRQGVK 5d88-a1-m1-cA_5d88-a1-m2-cA The Structure of the U32 Peptidase Mk0906 Q8TWX5 Q8TWX5 1.66 X-RAY DIFFRACTION 112 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 247 247 GSWSHPQFEKSGSMTRRWYLCCSRHHLDTVPEDSDGIVVPVTEHGVATLLPRYPETYEVEDIVDVAKDRGLSVQALMDFTCAGCEHLSPDGYPSLRSTLDYLASDLEVDGVVVADPYLVEVLATEYDLTVVVSHTAAVDTPEKAWHFERLGADVITVDPALNSNEEEVSAIRERVSVELRTAVGAITFRDPVAFFERNLFSHATAEGIEVDPYRNNPYEPMRERVVVWEVREELFDEVFILASGEPP GSWSHPQFEKSGSMTRRWYLCCSRHHLDTVPEDSDGIVVPVTEHGVATLLPRYPETYEVEDIVDVAKDRGLSVQALMDFTCAGCEHLSPDGYPSLRSTLDYLASDLEVDGVVVADPYLVEVLATEYDLTVVVSHTAAVDTPEKAWHFERLGADVITVDPALNSNEEEVSAIRERVSVELRTAVGAITFRDPVAFFERNLFSHATAEGIEVDPYRNNPYEPMRERVVVWEVREELFDEVFILASGEPP 5d8d-a1-m1-cC_5d8d-a1-m1-cA Crystal structure of D-alanine-D-alanine ligase from Acinetobacter baumannii B2I1J3 B2I1J3 2.19 X-RAY DIFFRACTION 86 1.0 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 274 282 5d8d-a2-m1-cE_5d8d-a2-m1-cB 5d8d-a3-m1-cF_5d8d-a3-m1-cD SNATKFGKVAVLLGGKSAERAVSLDSGQAVLDALLRSGVQAEAFDPQDRSVTELVNYDRAFIVLHGRGGEDGQIQGVLEWLNIPYTGTGVQGSAIGMDKVKTKQIWQGSDLPTAPYRIITKETDLDSVIAELGLPVIIKPVHEVGMSKFAAAIEKATQHDAVVMAEKWITGREFTISFLNGQPLPVIRLQYGIPCGLSETEEKKLQALCLRAFQAVGAEGWGRIDAMQDEQGNFWLLEVNTVPGMTSHSLVPKAAKAVGYSFDELCVAILEQTL SNATKFGKVAVLLGGKSAERAVSLDSGQAVLDALLRSGVQAEAFDPQDRSVTELVNYDRAFIVLHGRGGEDGQIQGVLEWLNIPYTGTGVQGSAIGMDKVKTKQIWQGSDLPTAPYRIITKETDLDSVIAELGLPVIIKPVHEGSVGMSKVEKAEDFAAAIEKATQHDAVVMAEKWITGREFTISFLNGQPLPVIRLQYGIPCGLSETEEKKLQALCLRAFQAVGAEGWGRIDAMQDEQGNFWLLEVNTVPGMTSHSLVPKAAKAVGYSFDELCVAILEQTL 5d8e-a2-m1-cB_5d8e-a2-m1-cC crystal structure of SSB from homo sapiens Q9BQ15 Q9BQ15 3 X-RAY DIFFRACTION 38 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 101 103 5d8e-a1-m1-cD_5d8e-a1-m1-cA TETFVKDIKPGLKNLNLIFIVLETGRVTKTKDGHEVRTCKVADKTGSINISVWDDIQPGDIIRTKGYASVFKGCLTLYTGRGGDLQKIGEFCVYSEVPNFS ETFVKDIKPGLKNLNLIFIVLETGRVTKTKDGHEVRTCKVADKTGSINISVWDDVGNLIQPGDIIRTKGYASVFKGCLTLYTGRGGDLQKIGEFCVYSEVPNF 5d8f-a1-m1-cB_5d8f-a1-m1-cA crystal structure of SSB and ssDNA complex from homo sapiens Q9BQ15 Q9BQ15 2.35 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 109 ETFVKDIKPGLKNLNLIFIVLETGRVTKTKDGHEVRTCKVADKTGSINISVWDDVGNLIQPGDIIRLTKGYASVFKGCLTLYTGRGGDLQKIGEFCMVYSEVPNFSHH ETFVKDIKPGLKNLNLIFIVLETGRVTKTKDGHEVRTCKVADKTGSINISVWDDVGNLIQPGDIIRLTKGYASVFKGCLTLYTGRGGDLQKIGEFCMVYSEVPNFSHHH 5d8g-a1-m1-cA_5d8g-a1-m4-cA A structural view on the dissociation of E. coli Tryptophanase P0A853 P0A853 1.89 X-RAY DIFFRACTION 22 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 463 463 2c44-a1-m1-cA_2c44-a1-m1-cD 2c44-a1-m1-cB_2c44-a1-m1-cC 2oqx-a1-m1-cA_2oqx-a1-m2-cA 2oqx-a1-m3-cA_2oqx-a1-m4-cA 2v0y-a1-m1-cA_2v0y-a1-m2-cA 2v0y-a1-m3-cA_2v0y-a1-m4-cA 2v1p-a1-m1-cA_2v1p-a1-m2-cA 2v1p-a1-m3-cA_2v1p-a1-m4-cA 4w4h-a1-m1-cA_4w4h-a1-m2-cB 4w4h-a1-m2-cA_4w4h-a1-m1-cB 5d8g-a1-m2-cA_5d8g-a1-m3-cA KHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAMTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV KHLPEPFRIRVIEPVKRTTRAYREEAIIKSGMNPFLLDSEDVFIDLLTDSGTGAMTQSMQAAMMRGDEAYSGSRSYYALAESVKNIFGYQYTIPTHRGAEQIYIPVLIKKREQEKGLDRSKMVAFSNYFFDTTQGHSQINGCTVRNVYIKEAFDTGVRYDFKGNFDLEGLERGIEEVGPNNVPYIVATITSNSAGGQPVSLANLKAMYSIAKKYDIPVVMDSARFAENAYFIKQREAEYKDWTIEQITRETYKYADMLAMSAKKDAMVPMGGLLCMKDDSFFDVYTECRTLVVQEGFPTYGGLEGGAMERLAVGLYDGMNLDWLAYRIAQVQYLVDGLEEIGVVQQAGGHAAFVDAGKLLPHIPADQFPAQALACELYKVAGIRAVEIGSFLLGRDPKTGKQLPCPAELLRLTIPRATYTQTHMDFIIEAFKHVKENAANIKGLTFTYEPKVLRHFTAKLKEV 5d8l-a2-m1-cF_5d8l-a2-m1-cH Human HSF2 DNA Binding Domain in complex with 3-site HSE DNA at 2.1 Angstroms Resolution Q03933 Q03933 2.069 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 106 HMPAFLSKLWTLVEETHTNEFITWSQNGQSFLVLDEQRFAKEILPKYFKHNNMASFVRQLNMYGFRKVVHIDDGPVEFQHPYFKQGQDDLLENIKRKV HMPAFLSKLWTLVEETHTNEFITWSQNGQSFLVLDEQRFAKEILPKYFKHNNMASFVRQLNMYGFRKVVHIDSGIVKQERDGPVEFQHPYFKQGQDDLLENIKRKV 5d8m-a2-m1-cA_5d8m-a2-m2-cA Crystal structure of the metagenomic carboxyl esterase MGS0156 A0A0G3FEJ8 A0A0G3FEJ8 1.95 X-RAY DIFFRACTION 175 1.0 155900 (uncultured organism) 155900 (uncultured organism) 327 327 RPVAPLAHASPSVLVPAGLAGIQDGRGRFREITAIADHGAFLPGDRSSDGDGILWRLAGEPGPTGRPVPLGVSTAGIRLVLVPGLLAECVSESSLLFDDARPDVERYGYATTLVRTGGRWGSARNAAIIHEVVAKLPENDTIVFVTHSKGAVDVLEALVSYPDLAARTAAVVSVAGAIDGSPLAETFSDGLLRFAESPLSSCPPGEGTEALDSLKRAYRLRFLAEHRLPARVRYYSLAAFASREETSAILRPFYDILAKTDALNDGLVIAADAIIPGGTLLGYPNADHLAVAPFSKKPSLLTSVISKNSYPRPALLEAIARYVEEDL RPVAPLAHASPSVLVPAGLAGIQDGRGRFREITAIADHGAFLPGDRSSDGDGILWRLAGEPGPTGRPVPLGVSTAGIRLVLVPGLLAECVSESSLLFDDARPDVERYGYATTLVRTGGRWGSARNAAIIHEVVAKLPENDTIVFVTHSKGAVDVLEALVSYPDLAARTAAVVSVAGAIDGSPLAETFSDGLLRFAESPLSSCPPGEGTEALDSLKRAYRLRFLAEHRLPARVRYYSLAAFASREETSAILRPFYDILAKTDALNDGLVIAADAIIPGGTLLGYPNADHLAVAPFSKKPSLLTSVISKNSYPRPALLEAIARYVEEDL 5d92-a2-m1-cC_5d92-a2-m1-cB Structure of a phosphatidylinositolphosphate (PIP) synthase from Renibacterium Salmoninarum A9WSF5 A9WSF5 3.62 X-RAY DIFFRACTION 116 1.0 288705 (Renibacterium salmoninarum ATCC 33209) 288705 (Renibacterium salmoninarum ATCC 33209) 334 342 5d92-a1-m1-cA_5d92-a1-m1-cD MRLAYVKNHEIYGEKLLGLTLRERIEKTLQRAGFDVRFFDELSLEEAEDYLIILEPVLILERDLLLEGRKILVSDGFTVGYFFGGDFRTVFDGNLQSSIEKYLSLNNLESYEIWAIKLSNDNLKTAEKLLLSSLIGRGLFAAIFLPIARLLADWGVSPDAVTVVGTLGVMAGALIFYPMGQLFWGTVVITVFVFSDIIDGLMARLLFREGPWGAFLDSYLDRVGDSSVFTGIVIWFFLGGANPTIAILALICLVLSSLVSYSKARAEGLGLTANVGIAERSERLVVVLVATGLVGLGIPSWVLLVVLIVLAIASVVTIFQRVLTVREQAKAWTA MRLAYVKNHEIYGEKLLGLTLRERIEKTLQRAGFDVRFFDELSLEEAEDYLIILEPVLILERDLLLEGRKILVSDGFTVGYFFGGDFRTVFDGNLQSSIEKYLSLNNLESYEIWAIKLSNDNLKTAEKLLLSSLIGSGSLNKYARGLFAAIFLPIARLLADWGVSPDAVTVVGTLGVMAGALIFYPMGQLFWGTVVITVFVFSDIIDGLMARLLFREGPWGAFLDSYLDRVGDSSVFTGIVIWFFLGGANPTIAILALICLVLSSLVSYSKARAEGLGLTANVGIAERSERLVVVLVATGLVGLGIPSWVLLVVLIVLAIASVVTIFQRVLTVREQAKAWTA 5d9h-a1-m1-cA_5d9h-a1-m1-cB Crystal structure of SPAK (STK39) dimer in the basal activity state Q9Z1W9 Q9Z1W9 3.1 X-RAY DIFFRACTION 152 0.997 10090 (Mus musculus) 10090 (Mus musculus) 290 293 AVGWPICRDAYELQEVIGSGATAVVQAALCKPRQERVAIKRINLEKCQTSMDELLKEIQAMSQCSHPNVVTYYTSFVVKDELWLVMKLLSGGSMLDIIKYIVNRGEHKNGVLEEAIIATILKEVLEGLDYLHRNGQIHRDLKAGNILLGEDGSVQIADFGVSAFLATGGDVTRVGTPCWMAPEVMEQVRGYDFKADMWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPTLETGVKEMMKKYGKSFRKLLSLCLQKDPSKRPTAAELLKCKFFQKAKNREYLIEKLL AVGWPICRDAYELQEVIGSGATAVVQAALCKPRQERVAIKRINLEKCQTSMDELLKEIQAMSQCSHPNVVTYYTSFVVKDELWLVMKLLSGGSMLDIIKYIVNRGEHKNGVLEEAIIATILKEVLEGLDYLHRNGQIHRDLKAGNILLGEDGSVQIADFGVSAFLATGGDVTRNGTPCWMAPEVMEQVRGYDFKADMWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPTLETGVEDKEMMKKYGKSFRKLLSLCLQKDPSKRPTAAELLKCKFFQKAKNREYLIEKLLT 5da1-a1-m1-cB_5da1-a1-m1-cA A Dimerization-Dependent Mechanism Drives PRRSV NSP11 Functions As a Beta Interferon Antagonist and Endoribonuclease E3V2B6 E3V2B6 2.75 X-RAY DIFFRACTION 58 0.995 28344 (Porcine reproductive and respiratory syndrome virus) 28344 (Porcine reproductive and respiratory syndrome virus) 205 222 GSSSPLPKVAHNLGFYFSPDLTQFAKLPAELAPHWPVVTTQNNERWPDRLVASLRPIHKYSRACIGAGYMVGPSVFLGTPGVVSYYLTKFVRGEAQVLPETVFSTGRIEVDCREYLDDRERVVAESLPHAFIGGCHHVTSKYLPRFLPKESVAVVGVAVCTLTDVYLPDLEAYLHPETQSRCWKVMLDFKEVRLMVWKDKTAYFQ SSSPLPKVAHNLGFYFSPDLTQFAKLPAELAPHWPVVTTQNNERWPDRLVASLRPIHKYSRACIGAGYMVGPSVFLGTPGVVSYYLTKFVRGEAQVLPETVFSTGRIEVDCREYLDDRERVVAESLPHAFIGDVKGTTVGGCHHVTSKYLPRFLPKESVAVVGVSSPGKAAKAVCTLTDVYLPDLEAYLHPETQSRCWKVMLDFKEVRLMVWKDKTAYFQLE 5da8-a1-m1-cC_5da8-a1-m1-cI Crystal structure of chaperonin GroEL from Q8KF02 Q8KF02 3 X-RAY DIFFRACTION 14 0.981 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 478 512 TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTAELDEALLIHDKKLPILEKAAQSRPLLIIAEDVAAVKAGDRRKAMLEDIAILTGGTVIKGYKLENATMAYLGQAARITIDKDNTTIVEGKGKQEEIKARINEIKSDYDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTNSETMEAELDEALILIHDKKISNMKELLPILEKAAQSGRPLLIIAEDIEEALATLVVNKLRGTLKVAAVKAPGFGDRRKAMLEDIAILTGGTVIKLENATMAYLGQAARITIDKDNTTIVEGKGKQEEIKARINEIKGQIEKSTDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK 5da8-a1-m1-cC_5da8-a1-m1-cJ Crystal structure of chaperonin GroEL from Q8KF02 Q8KF02 3 X-RAY DIFFRACTION 14 0.985 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 478 507 TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTAELDEALLIHDKKLPILEKAAQSRPLLIIAEDVAAVKAGDRRKAMLEDIAILTGGTVIKGYKLENATMAYLGQAARITIDKDNTTIVEGKGKQEEIKARINEIKSDYDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTNSETMEAELDEALILIHDKKIKELLPILEKAAQSRPLLIIAEDIALATLVVNKLRGTLKVAAVKAPGFGDRRKAMLEDIAILTGGTVIKGYKLMAYLGQAARITIDKDNTTIVEGKGKQEEIKARINEIKGQIEKSDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK 5da8-a1-m1-cK_5da8-a1-m1-cL Crystal structure of chaperonin GroEL from Q8KF02 Q8KF02 3 X-RAY DIFFRACTION 86 0.993 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 433 484 TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTNELDELILDKKISVAAVKAKAMLEDIAIGQAARITIDKDNTTIVEGQEEIKARINEIKGQIETEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVKE TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTNSETMEAELDEALILIHDKKISPLLIIAEALATLVVNKLRGTLKVAAVKAGDRRKAMLEDIAILTGGTVISEAYLGQAARITIDKDNTTIVEKGKQEEIKARINEIKGQIEKYDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK 5da8-a1-m1-cM_5da8-a1-m1-cN Crystal structure of chaperonin GroEL from Q8KF02 Q8KF02 3 X-RAY DIFFRACTION 93 0.994 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 463 511 5da8-a1-m1-cC_5da8-a1-m1-cD TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFAELDEALILIHDKKISNMKELLPILEKAAQSGRPLLIIAAVKARRKAMLEDIAILTGGTVIENATMAYLGQAARITIDKDNTTIVEGKKARINEIKGQIEKDYDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK TAKDILFDAEARTKLKVGVDKLANAVKVTLGPAGRNVLIDKKFGAPTSTKDGVTVAKEIELVDPVENMGAQMVREVASKTSDVAGDGTTTATVLAQAIYREGLKNVTAGARPIDLKRGIDRAVKEVVAELRNISRSISGKKEIAQVGTISANNDPEIGELIAEAMDKVGKDGVITVEEAKGMETELKVVEGMQFDRGYLSPYFVTNSETMEAELDEALILIHDKKISNMKELLPILEKAAQRPLLIIAEDEALATLVVNKLGTLKVAAVKAPGFGDRRKAMLEDIAILTGGTVIYKLENATMAYLGQAARITIDKDNTTIVEGKGKQEEIKARINEIKGQIEKSYDTEKLQERLAKLSGGVAVLKIGASTEVEMKEKKARVEDALHATRAAVQEGIVVGGGVALIRAAKGLAKAVADNEDQKTGIEIIRRALEEPLRQIVANTGTTDGAVVLEKVKNAEGDYGFNARTEQYENLIEAGVVDPTKVTRSALENAASVASILLTTEAAITDVK 5dac-a1-m1-cA_5dac-a1-m1-cB ATP-gamma-S bound Rad50 from Chaetomium thermophilum in complex with DNA G0SHW7 G0SHW7 2.503 X-RAY DIFFRACTION 118 0.998 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 432 432 5da9-a1-m1-cB_5da9-a1-m1-cA SKIEKLSILGVRSFGPHHPETIAFNTPLTLIVGYNGSGKTTVIECLKYATTGELPPNSTRNGAFIHDPDLVGEKEVRAQVKLSFRSTIGESYVVTRNIQLLVQRNNKRTQKTLEGSLLLRNNGERTVISTRVAELDKLVSEKLGVPPAILDAVIFCHQDDSLWPMSEPAALKKRFDEIFEAQKYTKVIENIRLLKKKKGDELKILKEREVQDKANKERAEDLKDAKAKYKETHIKVETTKAAIEDLGRGMAAVDHAIMQYHSKMMEQINRTIAELWQSTYQGTDIDTIQIRSDVESTTSSDSGTRRNYNYRVSMVKGDTEMDMRGRCSAGQKVLASIIIRLALAESFCANCGLIALDQPTTNLDSDNIRSLAESLHGIIKARQAQGNLQLIVITHDEEFLKYMQCSDFCDDFYRVKRDEKQNSVIVRESITR SKIEKLSILGVRSFGPHHPETIAFNTPLTLIVGYNGSGKTTVIECLKYATTGELPPNSTRNGAFIHDPDLVGEKEVRAQVKLSFRSTIGESYVVTRNIQLLVQRNNKRTQKTLEGSLLLRNNGERTVISTRVAELDKLVSEKLGVPPAILDAVIFCHQDDSLWPMSEPAALKKRFDEIFEAQKYTKVIENIRLLKKKKGDELKILKEREVQDKANKERAELDLKDAKAKYKETHIKVETTKAAIEDLGRGMAAVDHAIMQYHSKMMEQINRTIAELWQSTYQGTDIDTIQIRSDVESTTSSDSGTRRNYNYRVSMVKGDTEMDMRGRCSAGQKVLASIIIRLALAESFCANCGLIALDQPTTNLDSDNIRSLAESLHGIIKARQAQGNLQLIVITHDEEFLKYMQCSDFCDDFYRVKRDEKQNSVIVRESIT 5dah-a3-m1-cA_5dah-a3-m1-cB Crystal structure of PZP domain of human AF10 protein fused with Histone H3 peptide P55197 P55197 2.611 X-RAY DIFFRACTION 52 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 179 181 MIGGCCVCSDERGWAENPLVYCDGHGCSVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVSTMEPIVLQSVPHDRYNKTCYICDEQGRESKAATGACMTCNKHGCRQAFHVTCAQFAGLLCEEEGNGADNVQYCGYCKYHFS EMIGGCCVCSDERGWAENPLVYCDGHGCSVAVHQACYGIVQVPTGPWFCRKCESQERAARVRCELCPHKDGALKRTDNGGWAHVVCALYIPEVQFANVSTMEPIVLQSVPHDRYNKTCYICDEQGRESKAATGACMTCNKHGCRQAFHVTCAQFAGLLCEEEADNVQYCGYCKYHFSKLKK 5daj-a3-m1-cE_5daj-a3-m1-cF Crystal structure of NalD, the secondary repressor of MexAB-OprM multidrug efflux pump in Pseudomonas aeruginosa Q9HY46 Q9HY46 2.65 X-RAY DIFFRACTION 125 0.995 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 188 188 5daj-a1-m1-cB_5daj-a1-m1-cA 5daj-a2-m1-cD_5daj-a2-m1-cC 5daj-a4-m1-cH_5daj-a4-m1-cG 5h9t-a1-m1-cB_5h9t-a1-m1-cA 5h9t-a2-m1-cD_5h9t-a2-m1-cC 5h9t-a3-m1-cE_5h9t-a3-m1-cF 5h9t-a4-m1-cG_5h9t-a4-m1-cH SEKTRTAILLAAEELFLEKGVSHTSLEQIARAAGVTRGAVYWHFQNKAHLFNELNQVRLPPEQLTERLSDPLRSLYDLCLEAVQSLLTQEKKRRILTILQRCEFTEELREAQERNNAFVQFIELCEQLFARDECRVRLHPGTPRIASRALHALILGLFNDWLRDPRLFDPDTDAEHLLEPFRGLVRDW DSEKTRTAILLAAEELFLEKGVSHTSLEQIARAAGVTRGAVYWHFQNKAHLFNELNQVRLPPEQLTERLDPLRSLYDLCLEAVQSLLTQEKKRRILTILQRCEFTEELREAQERNNAFVQFIELCEQLFARDECRVRLHPGTPRIASRALHALILGLFNDWLRDPRLFDPDTDAEHLLEPFRGLVRDW 5day-a1-m1-cA_5day-a1-m1-cB The structure of NAP1-Related Protein(NRP1) in Arabidopsis Q9CA59 Q9CA59 2.329 X-RAY DIFFRACTION 97 0.983 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 172 173 7c7x-a1-m1-cF_7c7x-a1-m1-cE SNLEQIDAELVLSIEKLQEIQDDLEKINEKASDEVLEVEQKYNVIRKPVYDKRNEVIQSIPGFWMTAFLSHPALGDLLTEEDQKIFKYLNSLEVEDAKDVKSGYSITFHFTSNPFFEDAKLTKTFTFLEGTTKITATPIKWKEGSFFTWFTHDEVADIIKEDLWSNPLTYFN SNLEQIDAELVLSIEKLQEIQDDLEKINEKASDEVLEVEQKYNVIRKPVYDKRNEVIQSIPGFWMTAFLSHPALGDLLTEEDQKIFKYLNSLEVEDAKDVKSGYSITFHFTSNPFFEDAKLTKTFTFLEEGTTKITATPIKWKSFFTWFTDADEVADIIKEDLWSNPLTYFNN 5dbj-a3-m1-cD_5dbj-a3-m1-cC Crystal structure of halogenase PltA Q4KCZ0 Q4KCZ0 2.75 X-RAY DIFFRACTION 63 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 433 437 5dbj-a1-m1-cE_5dbj-a1-m2-cE 5dbj-a2-m1-cA_5dbj-a2-m1-cB SDHDYDVVIIGGGPAGSTMASYLAKAGVKCAVFEKELFEREHVGESLVPATTPVLLEIGVMEKIEKANFPKKFGAAWTSADSGPEDKMGFQGLDHDFRSAEILFNERKQEGVDRDFTFHVDRGKFDRILLEHAGSLGAKVFQGVEIADVEFLSPGNVIVNAKLGKRSVEIKAKMVVDASGRNVLLGRRLGLREKDPVFNQFAIHSWFDNFDRKSATQSPDKVDYIFIHFLPMTNTWVWQIPITETITSVGVVTQKQNYTNSDLTYEEFFWEAVKTRENLHDALKASEQVRPFKKEADYSYGMKEVCGDSFVLIGDAARFVDPIFSSGVSVALNSARIASGDIIEAVKNNDFSKSSFTHYEGMIRNGIKNWYEFITLYYRLNILFTAFVQDPRYRLDILQLLQGDVYLEVLDKMREIIAAVESDPEHLWHKYLG SDHDYDVVIIGGGPAGSTMASYLAKAGVKCAVFEKELFEREHVGESLVPATTPVLLEIGVMEKIEKANFPKKFGAAWTSADSGPEDKMGFQGLDHDFRSAEILFNERKQEGVDRDFTFHVDRGKFDRILLEHAGSLGAKVFQGVEIADVEFLSPGNVIVNAKLGKRSVEIKAKMVVDASGRNVLLGRRLGLREKDPVFNQFAIHSWFDNFDRKSATQSPDKVDYIFIHFLPMTNTWVWQIPITETITSVGVVTQKQNYTNSDLTYEEFFWEAVKTRENLHDALKASEQVRPFKKEADYSYGMKEVCGDSFVLIGDAARFVDPIFSSGVSVALNSARIASGDIIEAVKNNDFSKSSFTHYEGMIRNGIKNWYEFITLYYRLNILFTAFVQDPRYRLDILQLLQGDVYSGKRLEVLDKMREIIAAVESDPEHLWHKYLG 5dbn-a2-m1-cE_5dbn-a2-m1-cG Crystal structure of AtoDA complex P76458 P76458 2.549 X-RAY DIFFRACTION 54 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 213 215 1k6d-a1-m1-cA_1k6d-a1-m1-cB 5dbn-a1-m1-cA_5dbn-a1-m1-cC TKLMTLQDATGFFRDGMTIMVGGFMGIGTPSRLVEALLESGVRDLTLIANDTAFVDTGIGPLIVNGRVRKVIASHIGTNPETGRRMISGEMDVVLVPQGTLIEQIRCGGAGLGGFLTPTGVGTVVEEGKQTLTLDGKTWLLERPLRADLALIRAHRCDTLGNLTYQLSARNFNPLIALAADITLVEPDELVETGELQPDHIVTPGAVIDHIIV TKLMTLQDATGFFRDGMTIMVGGFMGIGTPSRLVEALLESGVRDLTLIANDTAFVDTGIGPLIVNGRVRKVIASHIGTNPETGRRMISGEMDVVLVPQGTLIEQIRCGGAGLGGFLTPTGVGTVVEEGKQTLTLDGKTWLLERPLRADLALIRAHRCDTLGNLTYQLSARNFNPLIALAADITLVEPDELVETGELQPDHIVTPGAVIDHIIVSQ 5dbo-a1-m1-cD_5dbo-a1-m1-cB Crystal structure of the tetrameric eIF2B-beta2-delta2 complex from C. thermophilum G0SEE6 G0SEE6 3 X-RAY DIFFRACTION 12 0.993 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 296 303 PSLATWTKSLRDQSLEASIESLIFLLKRRQVTGDECAGAIAQLLRQVVAKSKWHDVDQLLYRVQTAGARLARAAPHEPVIGNIVRRVLGLIRDEASENSVHALRSEVMDGIEEILDEINQADDQIASFAEIQIHPGDYVLAYQPSKTVERFLVKAASKRRFTVILASLNPPAQPYAALRKKLNAAGVSTINLASNGLMAYIPRVNKVIFGAKAVYQNGGLLVDSGACIAAQAAHEYLKPVIALCGVYKFCPEDPSDEVSRGETTTDYIPPDLVDVYLTNLGPQTRHHLGGIYADHY PSLATWTKSLRDQSLEASIESLIFLLKRRQVTGDECAGAIAQLLRQVVAKSKWHDVDQLLYRVQTAGARLARAAPHEPVIGNIVRRVLGLIRDEASPFSVHALRSEVMDGIEEILDEINQADDQIASFAEIQIHPGDYVLAYQPSKTVERFLVKAASKRRFTVILASLNPPAPGEEEQPYAALRKKLNAAGVSTINLASNGLMAYIPRVNKVIFGAKAVYQNGGLLVDSGACIAAQAAHEYLKPVIALCGVYKFCPEDPSDEVSRGELGTTTDYIPPDLVDVYLTNLGPQTRHHLGGIYADHY 5dbx-a1-m1-cB_5dbx-a1-m1-cA Crystal structure of murine SPAK(T243D) in complex with AMPPNP Q9Z1W9 Q9Z1W9 2.5 X-RAY DIFFRACTION 109 0.989 10090 (Mus musculus) 10090 (Mus musculus) 282 284 AVGWPIRDAYELQEVIGSGATAVVQAALCKPRQERVAIKRINLEKMDELLKEIQAMSQSHPNVVTYYTSFVVKDELWLVMKLLSGGSMLDIIKYIVNRGEHKNGVLEEAIIATILKEVLEGLDYLHRNGQIHRDLKAGNILLGEDGSVQIADFGVSAFLATGGFVGTPWMAPEVMEQVRGYDFKADMWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPTLETGVEDKEMMKKYGKSFRKLLSLCLQKDPSKRPTAAELLKKFFQKAKNREYLIEKLLT AVGWPIRDAYELQEVIGSGATAVVQAALCKPRQERVAIKRINLEKCQTSMDELLKEIQAMSQSHPNVVTYYTSFVVKDELWLVMKLLSGGSMLDIIKYIVNRGEHKNGVLEEAIIATILKEVLEGLDYLHRNGQIHRDLKAGNILLGEDGSVQIADFGVSAFLAFVGTPWMAPEVMEQVRGYDFKADMWSFGITAIELATGAAPYHKYPPMKVLMLTLQNDPPTLETGVEDKEMMKKYGKSFRKLLSLCLQKDPSKRPTAAELLKKFFQKAKNREYLIEKLLTR 5dck-a1-m1-cA_5dck-a1-m1-cB Crystal Structure of FIV Capsid C-Terminal Domain P16087 P16087 2.29 X-RAY DIFFRACTION 32 1.0 11674 (Feline immunodeficiency virus (isolate Petaluma)) 11674 (Feline immunodeficiency virus (isolate Petaluma)) 71 72 HMVQLRQGAKEDYSSFIDRLFAQIDQEQNTAEVKLYLKQSLSIANANADCKKAMSHLKPESTLEEKLRACQ HMVQLRQGAKEDYSSFIDRLFAQIDQEQNTAEVKLYLKQSLSIANANADCKKAMSHLKPESTLEEKLRACQE 5dcl-a1-m1-cA_5dcl-a1-m1-cB Structure of a lantibiotic response regulator: N terminal domain of the nisin resistance regulator NsrR X5JZS1 X5JZS1 1.41 X-RAY DIFFRACTION 48 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 117 117 EQGKIYIVEDDMTIVSLLKDHLSASYHVSSVSNFRDVKQEIIAFQPDLILMDITLPYFNGFYWTAELRKFLTIPIIFISSSNDEMDMVMALNMGGDDFISKPFSLAVLDAKLTAILR EQGKIYIVEDDMTIVSLLKDHLSASYHVSSVSNFRDVKQEIIAFQPDLILMDITLPYFNGFYWTAELRKFLTIPIIFISSSNDEMDMVMALNMGGDDFISKPFSLAVLDAKLTAILR 5dcm-a1-m1-cA_5dcm-a1-m1-cB Structure of a lantibiotic response regulator: C-terminal domain of the nisin resistance regulator NsrR X5JZS1 X5JZS1 1.6 X-RAY DIFFRACTION 27 0.99 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 97 98 ELTFGGFTLTREGLLSSQDKEVILSPTENKILSILLMHPKQVVSKESLLEKLWENDSFIDQNTLNVNMTRLRKKIVPIGFDYIHTVRGVGYLLQDPN QELTFGGFTLTREGLLSSQDKEVILSPTENKILSILLMHPKQVVSKESLLEKLWENDSFIDQNTLNVNMTRLRKKIVPIGFDYIHTVRGVGYLLQNDP 5dd8-a1-m1-cA_5dd8-a1-m1-cB The Crystal structure of HucR mutant (HucR-E48Q) from Deinococcus radiodurans Q9RV71 Q9RV71 2.05 X-RAY DIFFRACTION 174 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 156 156 2fbk-a1-m1-cA_2fbk-a1-m1-cB 7xl9-a1-m1-cA_7xl9-a1-m2-cA DTAALLERIRSDWARLNHGPSAGPMLTLLLLQRLHAALGREIERTYAASGLNAAGWDLLLTLYRSAPPEGLRPTELSALAAISGPSTSNRIVRLLEKGLIERREASIRLTPQGRALVTHLLPAHLATTQRVLAPLSAQEQRTLEELAGRMLAGLEQ DTAALLERIRSDWARLNHGPSAGPMLTLLLLQRLHAALGREIERTYAASGLNAAGWDLLLTLYRSAPPEGLRPTELSALAAISGPSTSNRIVRLLEKGLIERREASIRLTPQGRALVTHLLPAHLATTQRVLAPLSAQEQRTLEELAGRMLAGLEQ 5ddj-a1-m8-c1_5ddj-a1-m9-c1 Crystal structure of recombinant foot-and-mouth-disease virus O1M-S2093Y empty capsid Q6PMW3 Q6PMW3 3.5 X-RAY DIFFRACTION 53 1.0 12118 (Foot-and-mouth disease virus O) 12118 (Foot-and-mouth disease virus O) 184 184 5ddj-a1-m10-c1_5ddj-a1-m6-c1 5ddj-a1-m10-c1_5ddj-a1-m9-c1 5ddj-a1-m11-c1_5ddj-a1-m12-c1 5ddj-a1-m11-c1_5ddj-a1-m15-c1 5ddj-a1-m12-c1_5ddj-a1-m13-c1 5ddj-a1-m13-c1_5ddj-a1-m14-c1 5ddj-a1-m14-c1_5ddj-a1-m15-c1 5ddj-a1-m16-c1_5ddj-a1-m17-c1 5ddj-a1-m16-c1_5ddj-a1-m20-c1 5ddj-a1-m17-c1_5ddj-a1-m18-c1 5ddj-a1-m18-c1_5ddj-a1-m19-c1 5ddj-a1-m19-c1_5ddj-a1-m20-c1 5ddj-a1-m1-c1_5ddj-a1-m2-c1 5ddj-a1-m1-c1_5ddj-a1-m5-c1 5ddj-a1-m21-c1_5ddj-a1-m22-c1 5ddj-a1-m21-c1_5ddj-a1-m25-c1 5ddj-a1-m22-c1_5ddj-a1-m23-c1 5ddj-a1-m23-c1_5ddj-a1-m24-c1 5ddj-a1-m24-c1_5ddj-a1-m25-c1 5ddj-a1-m26-c1_5ddj-a1-m27-c1 5ddj-a1-m26-c1_5ddj-a1-m30-c1 5ddj-a1-m27-c1_5ddj-a1-m28-c1 5ddj-a1-m28-c1_5ddj-a1-m29-c1 5ddj-a1-m29-c1_5ddj-a1-m30-c1 5ddj-a1-m2-c1_5ddj-a1-m3-c1 5ddj-a1-m31-c1_5ddj-a1-m32-c1 5ddj-a1-m31-c1_5ddj-a1-m35-c1 5ddj-a1-m32-c1_5ddj-a1-m33-c1 5ddj-a1-m33-c1_5ddj-a1-m34-c1 5ddj-a1-m34-c1_5ddj-a1-m35-c1 5ddj-a1-m36-c1_5ddj-a1-m37-c1 5ddj-a1-m36-c1_5ddj-a1-m40-c1 5ddj-a1-m37-c1_5ddj-a1-m38-c1 5ddj-a1-m38-c1_5ddj-a1-m39-c1 5ddj-a1-m39-c1_5ddj-a1-m40-c1 5ddj-a1-m3-c1_5ddj-a1-m4-c1 5ddj-a1-m41-c1_5ddj-a1-m42-c1 5ddj-a1-m41-c1_5ddj-a1-m45-c1 5ddj-a1-m42-c1_5ddj-a1-m43-c1 5ddj-a1-m43-c1_5ddj-a1-m44-c1 5ddj-a1-m44-c1_5ddj-a1-m45-c1 5ddj-a1-m46-c1_5ddj-a1-m47-c1 5ddj-a1-m46-c1_5ddj-a1-m50-c1 5ddj-a1-m47-c1_5ddj-a1-m48-c1 5ddj-a1-m48-c1_5ddj-a1-m49-c1 5ddj-a1-m49-c1_5ddj-a1-m50-c1 5ddj-a1-m4-c1_5ddj-a1-m5-c1 5ddj-a1-m51-c1_5ddj-a1-m52-c1 5ddj-a1-m51-c1_5ddj-a1-m55-c1 5ddj-a1-m52-c1_5ddj-a1-m53-c1 5ddj-a1-m53-c1_5ddj-a1-m54-c1 5ddj-a1-m54-c1_5ddj-a1-m55-c1 5ddj-a1-m56-c1_5ddj-a1-m57-c1 5ddj-a1-m56-c1_5ddj-a1-m60-c1 5ddj-a1-m57-c1_5ddj-a1-m58-c1 5ddj-a1-m58-c1_5ddj-a1-m59-c1 5ddj-a1-m59-c1_5ddj-a1-m60-c1 5ddj-a1-m6-c1_5ddj-a1-m7-c1 5ddj-a1-m7-c1_5ddj-a1-m8-c1 7dss-a1-m10-c1_7dss-a1-m6-c1 7dss-a1-m10-c1_7dss-a1-m9-c1 7dss-a1-m11-c1_7dss-a1-m12-c1 7dss-a1-m11-c1_7dss-a1-m15-c1 7dss-a1-m12-c1_7dss-a1-m13-c1 7dss-a1-m13-c1_7dss-a1-m14-c1 7dss-a1-m14-c1_7dss-a1-m15-c1 7dss-a1-m16-c1_7dss-a1-m17-c1 7dss-a1-m16-c1_7dss-a1-m20-c1 7dss-a1-m17-c1_7dss-a1-m18-c1 7dss-a1-m18-c1_7dss-a1-m19-c1 7dss-a1-m19-c1_7dss-a1-m20-c1 7dss-a1-m1-c1_7dss-a1-m2-c1 7dss-a1-m1-c1_7dss-a1-m5-c1 7dss-a1-m21-c1_7dss-a1-m22-c1 7dss-a1-m21-c1_7dss-a1-m25-c1 7dss-a1-m22-c1_7dss-a1-m23-c1 7dss-a1-m23-c1_7dss-a1-m24-c1 7dss-a1-m24-c1_7dss-a1-m25-c1 7dss-a1-m26-c1_7dss-a1-m27-c1 7dss-a1-m26-c1_7dss-a1-m30-c1 7dss-a1-m27-c1_7dss-a1-m28-c1 7dss-a1-m28-c1_7dss-a1-m29-c1 7dss-a1-m29-c1_7dss-a1-m30-c1 7dss-a1-m2-c1_7dss-a1-m3-c1 7dss-a1-m31-c1_7dss-a1-m32-c1 7dss-a1-m31-c1_7dss-a1-m35-c1 7dss-a1-m32-c1_7dss-a1-m33-c1 7dss-a1-m33-c1_7dss-a1-m34-c1 7dss-a1-m34-c1_7dss-a1-m35-c1 7dss-a1-m36-c1_7dss-a1-m37-c1 7dss-a1-m36-c1_7dss-a1-m40-c1 7dss-a1-m37-c1_7dss-a1-m38-c1 7dss-a1-m38-c1_7dss-a1-m39-c1 7dss-a1-m39-c1_7dss-a1-m40-c1 7dss-a1-m3-c1_7dss-a1-m4-c1 7dss-a1-m41-c1_7dss-a1-m42-c1 7dss-a1-m41-c1_7dss-a1-m45-c1 7dss-a1-m42-c1_7dss-a1-m43-c1 7dss-a1-m43-c1_7dss-a1-m44-c1 7dss-a1-m44-c1_7dss-a1-m45-c1 7dss-a1-m46-c1_7dss-a1-m47-c1 7dss-a1-m46-c1_7dss-a1-m50-c1 7dss-a1-m47-c1_7dss-a1-m48-c1 7dss-a1-m48-c1_7dss-a1-m49-c1 7dss-a1-m49-c1_7dss-a1-m50-c1 7dss-a1-m4-c1_7dss-a1-m5-c1 7dss-a1-m51-c1_7dss-a1-m52-c1 7dss-a1-m51-c1_7dss-a1-m55-c1 7dss-a1-m52-c1_7dss-a1-m53-c1 7dss-a1-m53-c1_7dss-a1-m54-c1 7dss-a1-m54-c1_7dss-a1-m55-c1 7dss-a1-m56-c1_7dss-a1-m57-c1 7dss-a1-m56-c1_7dss-a1-m60-c1 7dss-a1-m57-c1_7dss-a1-m58-c1 7dss-a1-m58-c1_7dss-a1-m59-c1 7dss-a1-m59-c1_7dss-a1-m60-c1 7dss-a1-m6-c1_7dss-a1-m7-c1 7dss-a1-m7-c1_7dss-a1-m8-c1 7dss-a1-m8-c1_7dss-a1-m9-c1 7dst-a1-m10-cA_7dst-a1-m6-cA 7dst-a1-m10-cA_7dst-a1-m9-cA 7dst-a1-m11-cA_7dst-a1-m12-cA 7dst-a1-m11-cA_7dst-a1-m15-cA 7dst-a1-m12-cA_7dst-a1-m13-cA 7dst-a1-m13-cA_7dst-a1-m14-cA 7dst-a1-m14-cA_7dst-a1-m15-cA 7dst-a1-m16-cA_7dst-a1-m17-cA 7dst-a1-m16-cA_7dst-a1-m20-cA 7dst-a1-m17-cA_7dst-a1-m18-cA 7dst-a1-m18-cA_7dst-a1-m19-cA 7dst-a1-m19-cA_7dst-a1-m20-cA 7dst-a1-m1-cA_7dst-a1-m2-cA 7dst-a1-m1-cA_7dst-a1-m5-cA 7dst-a1-m21-cA_7dst-a1-m22-cA 7dst-a1-m21-cA_7dst-a1-m25-cA 7dst-a1-m22-cA_7dst-a1-m23-cA 7dst-a1-m23-cA_7dst-a1-m24-cA 7dst-a1-m24-cA_7dst-a1-m25-cA 7dst-a1-m26-cA_7dst-a1-m27-cA 7dst-a1-m26-cA_7dst-a1-m30-cA 7dst-a1-m27-cA_7dst-a1-m28-cA 7dst-a1-m28-cA_7dst-a1-m29-cA 7dst-a1-m29-cA_7dst-a1-m30-cA 7dst-a1-m2-cA_7dst-a1-m3-cA 7dst-a1-m31-cA_7dst-a1-m32-cA 7dst-a1-m31-cA_7dst-a1-m35-cA 7dst-a1-m32-cA_7dst-a1-m33-cA 7dst-a1-m33-cA_7dst-a1-m34-cA 7dst-a1-m34-cA_7dst-a1-m35-cA 7dst-a1-m36-cA_7dst-a1-m37-cA 7dst-a1-m36-cA_7dst-a1-m40-cA 7dst-a1-m37-cA_7dst-a1-m38-cA 7dst-a1-m38-cA_7dst-a1-m39-cA 7dst-a1-m39-cA_7dst-a1-m40-cA 7dst-a1-m3-cA_7dst-a1-m4-cA 7dst-a1-m41-cA_7dst-a1-m42-cA 7dst-a1-m41-cA_7dst-a1-m45-cA 7dst-a1-m42-cA_7dst-a1-m43-cA 7dst-a1-m43-cA_7dst-a1-m44-cA 7dst-a1-m44-cA_7dst-a1-m45-cA 7dst-a1-m46-cA_7dst-a1-m47-cA 7dst-a1-m46-cA_7dst-a1-m50-cA 7dst-a1-m47-cA_7dst-a1-m48-cA 7dst-a1-m48-cA_7dst-a1-m49-cA 7dst-a1-m49-cA_7dst-a1-m50-cA 7dst-a1-m4-cA_7dst-a1-m5-cA 7dst-a1-m51-cA_7dst-a1-m52-cA 7dst-a1-m51-cA_7dst-a1-m55-cA 7dst-a1-m52-cA_7dst-a1-m53-cA 7dst-a1-m53-cA_7dst-a1-m54-cA 7dst-a1-m54-cA_7dst-a1-m55-cA 7dst-a1-m56-cA_7dst-a1-m57-cA 7dst-a1-m56-cA_7dst-a1-m60-cA 7dst-a1-m57-cA_7dst-a1-m58-cA 7dst-a1-m58-cA_7dst-a1-m59-cA 7dst-a1-m59-cA_7dst-a1-m60-cA 7dst-a1-m6-cA_7dst-a1-m7-cA 7dst-a1-m7-cA_7dst-a1-m8-cA 7dst-a1-m8-cA_7dst-a1-m9-cA 7eno-a1-m10-c1_7eno-a1-m6-c1 7eno-a1-m10-c1_7eno-a1-m9-c1 7eno-a1-m11-c1_7eno-a1-m12-c1 7eno-a1-m11-c1_7eno-a1-m15-c1 7eno-a1-m12-c1_7eno-a1-m13-c1 7eno-a1-m13-c1_7eno-a1-m14-c1 7eno-a1-m14-c1_7eno-a1-m15-c1 7eno-a1-m16-c1_7eno-a1-m17-c1 7eno-a1-m16-c1_7eno-a1-m20-c1 7eno-a1-m17-c1_7eno-a1-m18-c1 7eno-a1-m18-c1_7eno-a1-m19-c1 7eno-a1-m19-c1_7eno-a1-m20-c1 7eno-a1-m1-c1_7eno-a1-m2-c1 7eno-a1-m1-c1_7eno-a1-m5-c1 7eno-a1-m21-c1_7eno-a1-m22-c1 7eno-a1-m21-c1_7eno-a1-m25-c1 7eno-a1-m22-c1_7eno-a1-m23-c1 7eno-a1-m23-c1_7eno-a1-m24-c1 7eno-a1-m24-c1_7eno-a1-m25-c1 7eno-a1-m26-c1_7eno-a1-m27-c1 7eno-a1-m26-c1_7eno-a1-m30-c1 7eno-a1-m27-c1_7eno-a1-m28-c1 7eno-a1-m28-c1_7eno-a1-m29-c1 7eno-a1-m29-c1_7eno-a1-m30-c1 7eno-a1-m2-c1_7eno-a1-m3-c1 7eno-a1-m31-c1_7eno-a1-m32-c1 7eno-a1-m31-c1_7eno-a1-m35-c1 7eno-a1-m32-c1_7eno-a1-m33-c1 7eno-a1-m33-c1_7eno-a1-m34-c1 7eno-a1-m34-c1_7eno-a1-m35-c1 7eno-a1-m36-c1_7eno-a1-m37-c1 7eno-a1-m36-c1_7eno-a1-m40-c1 7eno-a1-m37-c1_7eno-a1-m38-c1 7eno-a1-m38-c1_7eno-a1-m39-c1 7eno-a1-m39-c1_7eno-a1-m40-c1 7eno-a1-m3-c1_7eno-a1-m4-c1 7eno-a1-m41-c1_7eno-a1-m42-c1 7eno-a1-m41-c1_7eno-a1-m45-c1 7eno-a1-m42-c1_7eno-a1-m43-c1 7eno-a1-m43-c1_7eno-a1-m44-c1 7eno-a1-m44-c1_7eno-a1-m45-c1 7eno-a1-m46-c1_7eno-a1-m47-c1 7eno-a1-m46-c1_7eno-a1-m50-c1 7eno-a1-m47-c1_7eno-a1-m48-c1 7eno-a1-m48-c1_7eno-a1-m49-c1 7eno-a1-m49-c1_7eno-a1-m50-c1 7eno-a1-m4-c1_7eno-a1-m5-c1 7eno-a1-m51-c1_7eno-a1-m52-c1 7eno-a1-m51-c1_7eno-a1-m55-c1 7eno-a1-m52-c1_7eno-a1-m53-c1 7eno-a1-m53-c1_7eno-a1-m54-c1 7eno-a1-m54-c1_7eno-a1-m55-c1 7eno-a1-m56-c1_7eno-a1-m57-c1 7eno-a1-m56-c1_7eno-a1-m60-c1 7eno-a1-m57-c1_7eno-a1-m58-c1 7eno-a1-m58-c1_7eno-a1-m59-c1 7eno-a1-m59-c1_7eno-a1-m60-c1 7eno-a1-m6-c1_7eno-a1-m7-c1 7eno-a1-m7-c1_7eno-a1-m8-c1 7eno-a1-m8-c1_7eno-a1-m9-c1 7enp-a1-m10-c1_7enp-a1-m6-c1 7enp-a1-m10-c1_7enp-a1-m9-c1 7enp-a1-m11-c1_7enp-a1-m12-c1 7enp-a1-m11-c1_7enp-a1-m15-c1 7enp-a1-m12-c1_7enp-a1-m13-c1 7enp-a1-m13-c1_7enp-a1-m14-c1 7enp-a1-m14-c1_7enp-a1-m15-c1 7enp-a1-m16-c1_7enp-a1-m17-c1 7enp-a1-m16-c1_7enp-a1-m20-c1 7enp-a1-m17-c1_7enp-a1-m18-c1 7enp-a1-m18-c1_7enp-a1-m19-c1 7enp-a1-m19-c1_7enp-a1-m20-c1 7enp-a1-m1-c1_7enp-a1-m2-c1 7enp-a1-m1-c1_7enp-a1-m5-c1 7enp-a1-m21-c1_7enp-a1-m22-c1 7enp-a1-m21-c1_7enp-a1-m25-c1 7enp-a1-m22-c1_7enp-a1-m23-c1 7enp-a1-m23-c1_7enp-a1-m24-c1 7enp-a1-m24-c1_7enp-a1-m25-c1 7enp-a1-m26-c1_7enp-a1-m27-c1 7enp-a1-m26-c1_7enp-a1-m30-c1 7enp-a1-m27-c1_7enp-a1-m28-c1 7enp-a1-m28-c1_7enp-a1-m29-c1 7enp-a1-m29-c1_7enp-a1-m30-c1 7enp-a1-m2-c1_7enp-a1-m3-c1 7enp-a1-m31-c1_7enp-a1-m32-c1 7enp-a1-m31-c1_7enp-a1-m35-c1 7enp-a1-m32-c1_7enp-a1-m33-c1 7enp-a1-m33-c1_7enp-a1-m34-c1 7enp-a1-m34-c1_7enp-a1-m35-c1 7enp-a1-m36-c1_7enp-a1-m37-c1 7enp-a1-m36-c1_7enp-a1-m40-c1 7enp-a1-m37-c1_7enp-a1-m38-c1 7enp-a1-m38-c1_7enp-a1-m39-c1 7enp-a1-m39-c1_7enp-a1-m40-c1 7enp-a1-m3-c1_7enp-a1-m4-c1 7enp-a1-m41-c1_7enp-a1-m42-c1 7enp-a1-m41-c1_7enp-a1-m45-c1 7enp-a1-m42-c1_7enp-a1-m43-c1 7enp-a1-m43-c1_7enp-a1-m44-c1 7enp-a1-m44-c1_7enp-a1-m45-c1 7enp-a1-m46-c1_7enp-a1-m47-c1 7enp-a1-m46-c1_7enp-a1-m50-c1 7enp-a1-m47-c1_7enp-a1-m48-c1 7enp-a1-m48-c1_7enp-a1-m49-c1 7enp-a1-m49-c1_7enp-a1-m50-c1 7enp-a1-m4-c1_7enp-a1-m5-c1 7enp-a1-m51-c1_7enp-a1-m52-c1 7enp-a1-m51-c1_7enp-a1-m55-c1 7enp-a1-m52-c1_7enp-a1-m53-c1 7enp-a1-m53-c1_7enp-a1-m54-c1 7enp-a1-m54-c1_7enp-a1-m55-c1 7enp-a1-m56-c1_7enp-a1-m57-c1 7enp-a1-m56-c1_7enp-a1-m60-c1 7enp-a1-m57-c1_7enp-a1-m58-c1 7enp-a1-m58-c1_7enp-a1-m59-c1 7enp-a1-m59-c1_7enp-a1-m60-c1 7enp-a1-m6-c1_7enp-a1-m7-c1 7enp-a1-m7-c1_7enp-a1-m8-c1 7enp-a1-m8-c1_7enp-a1-m9-c1 TTSAGESADPVTATVENYGGETQVQRRQHTDVSFILDRFVKVTPKDQINVLDLMQTPAHTLVGALLRTATYYFADLEVAVKHEGNLTWVPNGAPEAALDNTTNPTAYHKAPLTRLALPYTAPHRVLATVYNGRALPTSFNYGAIKATRVTELLYRMKRAETYCPRPLLAIHPDQARHKQKIVAP TTSAGESADPVTATVENYGGETQVQRRQHTDVSFILDRFVKVTPKDQINVLDLMQTPAHTLVGALLRTATYYFADLEVAVKHEGNLTWVPNGAPEAALDNTTNPTAYHKAPLTRLALPYTAPHRVLATVYNGRALPTSFNYGAIKATRVTELLYRMKRAETYCPRPLLAIHPDQARHKQKIVAP 5ddt-a1-m1-cA_5ddt-a1-m1-cB Crystal structure of IspD from Bacillus subtilis at 1.80 Angstroms resolution, crystal form I Q06755 Q06755 1.8 X-RAY DIFFRACTION 149 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 232 232 5ddv-a1-m1-cA_5ddv-a1-m2-cA 5hs2-a1-m1-cB_5hs2-a1-m1-cA MSYDVVIPAAGQGKRMKAGRNKLFIELKGDPVIIHTLRVFDSHRQCDKIILVINEQEREHFQQLLSDYPFQTSIELVAGGDERQHSVYKGLKAVKQEKIVLVHDGARPFIKHEQIDELIAEAEQTGAAILAVPVKDTIKRVQDLQVSETIERSSLWAVQTPQAFRLSLLMKAHAEAERKGFLGTDDASLVEQMEGGSVRVVEGSYTNIKLTTPDDLTSAEAIMESESGNKHV MSYDVVIPAAGQGKRMKAGRNKLFIELKGDPVIIHTLRVFDSHRQCDKIILVINEQEREHFQQLLSDYPFQTSIELVAGGDERQHSVYKGLKAVKQEKIVLVHDGARPFIKHEQIDELIAEAEQTGAAILAVPVKDTIKRVQDLQVSETIERSSLWAVQTPQAFRLSLLMKAHAEAERKGFLGTDDASLVEQMEGGSVRVVEGSYTNIKLTTPDDLTSAEAIMESESGNKHV 5de0-a2-m1-cD_5de0-a2-m1-cC Dye-decolorizing protein from V. cholerae Q9KQ59 Q9KQ59 2.24 X-RAY DIFFRACTION 57 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 296 297 5de0-a1-m1-cA_5de0-a1-m1-cB SQTAILPEAGPFALYTLLKVRQNHAHVLQALKALPALVEEINQNQPGAELTVSVAFSKGFWSHFEMASPPELIDFPELGEGETHAPSTDVDVLIHCHATRHDLLFYTLRKGISDIAQDIEIVDETYGFRYLDARDMTGFIDGTENPKAEKRAEVALVADGDFAGGSYVMVQRFVHNLPAWNRLNLAAQEKVIGRTKPDSVELENVPAASHVGRVDIKEEGKGLKIVRHSLPYGSVSGDHGLLFIAYCHTLHNFKTMLESMYGVTDGKTDQLLRFTKAVTGAYFFAPSQVMLQELTL KSQTAILPEAGPFALYTLLKVRQNHAHVLQALKALPALVEEINQNQPGAELTVSVAFSKGFWSHFEMASPPELIDFPELGEGETHAPSTDVDVLIHCHATRHDLLFYTLRKGISDIAQDIEIVDETYGFRYLDARDMTGFIDGTENPKAEKRAEVALVADGDFAGGSYVMVQRFVHNLPAWNRLNLAAQEKVIGRTKPDSVELENVPAASHVGRVDIKEEGKGLKIVRHSLPYGSVSGDHGLLFIAYCHTLHNFKTMLESMYGVTDGKTDQLLRFTKAVTGAYFFAPSQVMLQELTL 5det-a1-m1-cA_5det-a1-m1-cB X-ray structure of human RBPMS in complex with the RNA Q93062 Q93062 1.95 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 94 2m9k-a1-m1-cA_2m9k-a1-m1-cB EEVRTLFVSGLPLDIKPRELYLLFRPFKGYEGSLIKLTSKQPVGFVSFDSRSEAEAAKNALNGIRFDPEIPQTLRLEFAKANTKMAKNKLV NLEEEVRTLFVSGLPLDIKPRELYLLFRPFKGYEGSLIKLTSKQPVGFVSFDSRSEAEAAKNALNGIRFDPEIPQTLRLEFAKANTKMAKNKLV 5dfm-a3-m2-cA_5dfm-a3-m3-cA Structure of Tetrahymena telomerase p19 fused to MBP P0AEX9 P0AEX9 2.301 X-RAY DIFFRACTION 48 1.0 562 (Escherichia coli) 562 (Escherichia coli) 509 509 5dfm-a3-m1-cA_5dfm-a3-m2-cA 5dfm-a3-m1-cA_5dfm-a3-m3-cA KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMQQPKRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKIKNLKELAKNKIFKFLSEYNYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQMQKPTLQLLQA KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMQQPKRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKIKNLKELAKNKIFKFLSEYNYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQMQKPTLQLLQA 5dfm-a3-m3-cB_5dfm-a3-m2-cA Structure of Tetrahymena telomerase p19 fused to MBP P0AEX9 P0AEX9 2.301 X-RAY DIFFRACTION 31 0.988 562 (Escherichia coli) 562 (Escherichia coli) 506 509 5dfm-a3-m1-cB_5dfm-a3-m3-cA 5dfm-a3-m2-cB_5dfm-a3-m1-cA KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMQQPKRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKSKELAKNKIFKFLSEYNDYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQMQKPTL KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMQQPKRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKIKNLKELAKNKIFKFLSEYNYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQMQKPTLQLLQA 5dfm-a3-m3-cB_5dfm-a3-m3-cA Structure of Tetrahymena telomerase p19 fused to MBP P0AEX9 P0AEX9 2.301 X-RAY DIFFRACTION 124 0.988 562 (Escherichia coli) 562 (Escherichia coli) 506 509 5dfm-a3-m1-cB_5dfm-a3-m1-cA 5dfm-a3-m2-cB_5dfm-a3-m2-cA KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMQQPKRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKSKELAKNKIFKFLSEYNDYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQMQKPTL KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMQQPKRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKIKNLKELAKNKIFKFLSEYNYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQMQKPTLQLLQA 5dfw-a1-m1-cA_5dfw-a1-m2-cA CRYSTAL STRUCTURE OF HUMAN CD81 LARGE EXTRACELLULAR LOOP IN COMPLEX WITH SINGLE CHAIN FV FRAGMENT K13 P60033 P60033 2.33 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 FVNKDQIAKDVKQFYDQALQQAVVDDDANNAKAVVKTFHETLDCCGSSTLTALTTSVLKNNLCPSGSNIISNLFKEDCHQKIDDLFSGKH FVNKDQIAKDVKQFYDQALQQAVVDDDANNAKAVVKTFHETLDCCGSSTLTALTTSVLKNNLCPSGSNIISNLFKEDCHQKIDDLFSGKH 5dfy-a1-m1-cA_5dfy-a1-m2-cA Structure of the parental state of GAF3 from Slr1393 of Synechocystis sp. PCC6803 (in vitro assembled protein/chromophore) P73184 P73184 1.6 X-RAY DIFFRACTION 30 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 158 158 5dfx-a1-m1-cA_5dfx-a1-m2-cA GSLQNIFRATSDEVRHLLSCDRVLVYRFNPDWSGEFIHESVAQMWEPLKDLQNNFPLWQDTYLQENEGGRYRNHESLAVGDVETAGFTDCHLDNLRRFEIRAFLTVPVFVGEQLWGLLGAYQNGAPRHWQAREIHLLHQIANQLGVAVYQAQLLARFQ GSLQNIFRATSDEVRHLLSCDRVLVYRFNPDWSGEFIHESVAQMWEPLKDLQNNFPLWQDTYLQENEGGRYRNHESLAVGDVETAGFTDCHLDNLRRFEIRAFLTVPVFVGEQLWGLLGAYQNGAPRHWQAREIHLLHQIANQLGVAVYQAQLLARFQ 5dg5-a1-m1-cA_5dg5-a1-m1-cB CRYSTAL STRUCTURE OF THE TYROSINE KINASE DOMAIN OF THE HEPATOCYTE GROWTH FACTOR RECEPTOR C-MET IN COMPLEX WITH ALTIRATINIB ANALOG DP-4157 P08581 P08581 2.6 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 TVHIDLSALNPELVQAVQHVVIGPSSLIVHFNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGLARDMYDKEYYSVHNKTGAKLPVKWMALESLQTQKFTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKAEMRPSFSELVSRISAIFSTFIG TVHIDLSALNPELVQAVQHVVIGPSSLIVHFNEVIGRGHFGCVYHGTLLDNDGKKIHCAVKSLNRITDIGEVSQFLTEGIIMKDFSHPNVLSLLGICLRSEGSPLVVLPYMKHGDLRNFIRNETHNPTVKDLIGFGLQVAKGMKYLASKKFVHRDLAARNCMLDEKFTVKVADFGLARDMYDKEYYSVHNKTGAKLPVKWMALESLQTQKFTTKSDVWSFGVLLWELMTRGAPPYPDVNTFDITVYLLQGRRLLQPEYCPDPLYEVMLKCWHPKAEMRPSFSELVSRISAIFSTFIG 5dgf-a2-m1-cp2_5dgf-a2-m1-cp1 Complex of yeast 80S ribosome with hypusine-containing/non-modified eIF5A and/or a peptidyl-tRNA analog P05318 P05318 3.3 X-RAY DIFFRACTION 28 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 46 47 5dge-a1-m1-cp2_5dge-a1-m1-cp1 MSTESALSYAALILADSEIEISSEKLLTLTNAANVPVENIWADIFA MSTESALSYAALILADSEIEISSEKLLTLTNAANVPVENIWADIFAK 5dgk-a1-m3-cB_5dgk-a1-m3-cA SCCmec type IV Cch - active helicase Q0WXP6 Q0WXP6 2.895 X-RAY DIFFRACTION 182 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 505 513 5dgk-a1-m1-cB_5dgk-a1-m1-cA 5dgk-a1-m1-cB_5dgk-a1-m3-cA 5dgk-a1-m2-cB_5dgk-a1-m1-cA 5dgk-a1-m2-cB_5dgk-a1-m2-cA 5dgk-a1-m3-cB_5dgk-a1-m2-cA TLFEIGPFALDSFGWKETIPKVVRASPIIVNARFSDPITGVEKLIITNNNGKKDIFESDILTTRNLPSLIKYGYSINEKYIRSLSYALQLRDRLPLSELYEGVGILETPFGYLISLDKVLKSIQFNQSSPSYPIVDSAYDLTPKGTFDNWFNYIDEVKGHLLLELAVIFGISALVTSFLKHKHEIEFAGILFSFTGQSSTGKSTAAALAVSVAGNPTKGNETLFRSWNATRNALEGYLSNNYGIPIVFDELSSTDTTGLLYSIAEGQGRQTPKNWGTSVISTSEYSIFNDSAQNDGLRVRTIEINEQFTTNATNADNIKKAVALNYGHVLPLVAKYLINREDEVIQWFYKEVDWFEAKLKDETNNTGIRFKRYAVITTSAKILGRVLSTDIDIANIRDYFIDYHTHTVSERSLADKAIDVIIQFVAQNRGKFSDEGALKNFENYGLISLKDDHIEVKIIANVFKQLNNHQFQDVNNVVNALRDKGFILVFYHLKLDVEFASILGL TLFEIGPFALDSFGWKETIPKVVRASPIIVNARFSDPITGVEKLIITNNNGKKDIFESDILTTRNLPSLIKYGYSINEKYIRSLSYALQLRDRLPLSELYEGVGILETPFGYLISLDKVLKSIQFNQSSPSYPIVDSAYDLTPKGTFDNWFNYIDEVKGHLLLELAVIFGISALVTSFLKHKHEIEFAGILFSFTGQSSTGKSTAAALAVSVAGNPTKGNETLFRSWNATRNALEGYLSNNYGIPIVFDELSSTDTTGLLYSIAEGQGRQTPKNWGTSVISTSEYSIFNDSAQNDGLRVRTIEINEQFTTNATNADNIKKAVALNYGHVLPLVAKYLINREDEVIQWFYKEVDWFEAKLKDETNNTGIRFKRYAVITTSAKILGRVLSTDIDIANIRDYFIDYHTHTVSERSLADKAIDVIIQFVAQNRGKFSDEGALKNFENYGLISLKDDHIEVKIIANVFKQLNNHQFQDVNNVVNALRDKGFILADRGRQTTVFYHLKLDVEFASILGL 5dgr-a1-m1-cB_5dgr-a1-m1-cA Crystal structure of GH9 exo-beta-D-glucosaminidase PBPRA0520, glucosamine complex Q6LUT2 Q6LUT2 1.9 X-RAY DIFFRACTION 103 1.0 74109 (Photobacterium profundum) 74109 (Photobacterium profundum) 571 573 5dgq-a1-m1-cB_5dgq-a1-m1-cA MQLLTNHLGYERLGAKQAILQAQHHADIICCQSGQSIMQLPLQACGPVAQWHIGDTYSIDFTALNICGDYRIRVGDTESASFCVAEGLLMQNTFSDVLHYFKSQRCSGIYECADKKVPLFGTNETVDVHGGWYDASGDVSKYFSHLSYGNYLNPQQTPMVVWNMLTAYEVLEDEESIADFTRVRLVEEALYGADFLLRMQHPQGYFYMTVFDKWSKSTEQREVCAFSTQDGHKSADYQAGFRQGAGVAIAALAAASRLSNLASTSRIPQCGKADTYLEAAKKGYWHLKEMNHQYLDNGKENIIDEYCALLASVELYRSTQENNFLAEARMWADKLMARQMSDHNFAHYWAANDDGSRPYFHAAEAGLPAIALMQYLQIETHAQRAEQCQSVLLNALNFELSITHEVNNPFGYPRQYTKAVNGDKQSAFFMPHDNETGYWWQGENARIASLITMAYMAQNTINDNEIKSQLMIYAHRLTDWILGLNPFDMCMLDGHGRNNPDYLPELGFSNAKGGVCNGITSGFENEQGIAFKPEKQKDDMLQNWRWGEQWIPHGAWYLLAITMQFKERNHV MQLLTNHLGYERLGAKQAILQAQHHADIICCQSGQSIMQLPLQACGPVAQWHIGDTYSIDFTALNICGDYRIRVGDTESASFCVAEGLLMQNTFSDVLHYFKSQRCSGIYECADKKVPLFGTNETVDVHGGWYDASGDVSKYFSHLSYGNYLNPQQTPMVVWNMLTAYEVLEDEESIADFTRVRLVEEALYGADFLLRMQHPQGYFYMTVFDKWSKSTEQREVCAFSTQDGHKSADYQAGFRQGAGVAIAALAAASRLSNLASTSRIPQCGDIKADTYLEAAKKGYWHLKEMNHQYLDNGKENIIDEYCALLASVELYRSTQENNFLAEARMWADKLMARQMSDHNFAHYWAANDDGSRPYFHAAEAGLPAIALMQYLQIETHAQRAEQCQSVLLNALNFELSITHEVNNPFGYPRQYTKAVNGDKQSAFFMPHDNETGYWWQGENARIASLITMAYMAQNTINDNEIKSQLMIYAHRLTDWILGLNPFDMCMLDGHGRNNPDYLPELGFSNAKGGVCNGITSGFENEQGIAFKPEKQKDDMLQNWRWGEQWIPHGAWYLLAITMQFKERNHV 5dh0-a1-m1-cA_5dh0-a1-m1-cB Structure of the siderophore periplasmic binding protein from the fuscachelin gene cluster of Thermobifida fusca in P41 Q47NS2 Q47NS2 2.444 X-RAY DIFFRACTION 18 0.996 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 278 279 HHHHSSIPADPQRIVALEFGTEVVLEAGIEPVGVIEPVATLYTAEEFEQLSTYPVVQSASLEINMEAIAEAQPDLIIGGVRVESHDEYVGIREDLEKIAPTVFFDFDGAGSGLRNMTLELSRVVGDGERAEAEQQRFEERVEEISTAYADQLADTTFALVFGVDGEFAVVNTNAWGGEILHTLGAKQSKAQQPAGENFAAFYSYEEIDELSDADVIFYETDAQENPDPFTEALLEQKLWQSLPAVEAGQVHPLRYSAARTYAQANIVLDQIEEVLKGL HHHHHSEIPADPQRIVALEFGTEVVLEAGIEPVGVIEPVATLYTAEEFEQLSTYPVVQSASLEINMEAIAEAQPDLIIGGVRVESHDEYVGIREDLEKIAPTVFFDFDGAGSGLRNMTLELSRVVGDGERAEAEQQRFEERVEEISTAYADQLADTTFALVFGVDGEFAVVNTNAWGGEILHTLGAKQSKAQQPAGENFAAFYSYEEIDELSDADVIFYETDAQENPDPFTEALLEQKLWQSLPAVEAGQVHPLRYSAARTYAQANIVLDQIEEVLKGL 5dh1-a1-m1-cB_5dh1-a1-m1-cD Structure of the siderophore periplasmic binding protein from the fuscachelin gene cluster of Thermobifida fusca in P21 Q47NS2 Q47NS2 2.842 X-RAY DIFFRACTION 44 0.993 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 276 276 5dh1-a1-m1-cC_5dh1-a1-m1-cA 5dh2-a1-m1-cA_5dh2-a1-m1-cB HHHHSPADPQRIVALEFGTEVVLEAGIEPVGVIEPVATLYTAEEFEQLSTYPVVQSASLEINMEAIAEAQPDLIIGGVRVESHDEYVGIREDLEKIAPTVFFDFDGAGSGLRNMTLELSRVVGDGERAEAEQQRFEERVEEISTAYADQLADTTFALVFGVDGEFAVVNTNAWGGEILHTLGAKQSKAQQPAGENFAAFYSYEEIDELSDADVIFYETDAQENPDPFTEALLEQKLWQSLPAVEAGQVHPLRYSAARTYAQANIVLDQIEEVLKGL HHHSIPADPQRIVALEFGTEVVLEAGIEPVGVIEPVATLYTAEEFEQLSTYPVVQSASLEINMEAIAEAQPDLIIGGVRVESHDEYVGIREDLEKIAPTVFFDFDGAGSGLRNMTLELSRVVGDGERAEAEQQRFEERVEEISTAYADQLADTTFALVFGVDGEFAVVNTNAWGGEILHTLGAKQSKAQQPAGENFAAFYSYEEIDELSDADVIFYETDAQENPDPFTEALLEQKLWQSLPAVEAGQVHPLRYSAARTYAQANIVLDQIEEVLKGL 5di0-a1-m1-cA_5di0-a1-m1-cB Crystal structure of Dln1 Q5CZR5 Q5CZR5 1.7 X-RAY DIFFRACTION 117 1.0 7955 (Danio rerio) 7955 (Danio rerio) 318 318 4zno-a1-m1-cA_4zno-a1-m1-cB 4znq-a1-m1-cA_4znq-a1-m1-cB 4znr-a1-m1-cA_4znr-a1-m1-cB GSHMTYPTNLEIIGGQGGSSFSFTGENNGASLEKIWVWVGGWQIKAVRAWLSDGRDETFGVPSGSHQEYVFTPGECFTSLSLWGNGAGTRLGAIKFKTNKGGEFFAHMTSWGLKTEYPMDVGSGYCLGIVGRGGSDIDCMGFMFLNAVQSTVLTNVNYPTINQLIPKVATEEIKSVSFENKTSVKQEQKVETSKKVIKTSSWSMTKSFSSTFSVEVSAGIPEIAEVSTGFSISFGVESTHSLEQTDEKNETLTTTVEVPPKKKVDVHITIGRASFDLPYTGTVKITCKNGSVLQYETKGQYKGVAYTDIKVNTVEKDL GSHMTYPTNLEIIGGQGGSSFSFTGENNGASLEKIWVWVGGWQIKAVRAWLSDGRDETFGVPSGSHQEYVFTPGECFTSLSLWGNGAGTRLGAIKFKTNKGGEFFAHMTSWGLKTEYPMDVGSGYCLGIVGRGGSDIDCMGFMFLNAVQSTVLTNVNYPTINQLIPKVATEEIKSVSFENKTSVKQEQKVETSKKVIKTSSWSMTKSFSSTFSVEVSAGIPEIAEVSTGFSISFGVESTHSLEQTDEKNETLTTTVEVPPKKKVDVHITIGRASFDLPYTGTVKITCKNGSVLQYETKGQYKGVAYTDIKVNTVEKDL 5din-a1-m1-cA_5din-a1-m1-cB Structural Basis for the Indispensable Role of a Unique Zinc Finger Motif in LNX2 Ubiquitination Q8N448 Q8N448 1.864 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 124 PLCFECGQQHWTRENHLYNYQNEVDDDLVCHICLQPLLQPLDTPCGHTFCYKCLRNFLQEKDFCPLDRKRLHFKLCKKSSILVHKLLDKLLVLCPFSSVCKDVMQRCDLEAHLKNRCPGA EFNPLCFECGQQHWTRENHLYNYQNEVDDDLVCHICLQPLLQPLDTPCGHTFCYKCLRNFLQEKDFCPLDRKRLHFKLCKKSSILVHKLLDKLLVLCPFSSVCKDVMQRCDLEAHLKNRCPGAS 5dir-a1-m1-cE_5dir-a1-m1-cA membrane protein at 2.8 Angstroms Q9HVM5 2.8 X-RAY DIFFRACTION 11 1.0 32630 (synthetic construct) 208964 (Pseudomonas aeruginosa PAO1) 1 157 5dir-a2-m1-cH_5dir-a2-m1-cB 5dir-a3-m1-cF_5dir-a3-m1-cC 5dir-a4-m1-cG_5dir-a4-m1-cD 6fms-a1-m1-cE_6fms-a1-m1-cA 6fms-a2-m1-cF_6fms-a2-m1-cB 6fms-a3-m1-cG_6fms-a3-m1-cC 6fms-a4-m1-cH_6fms-a4-m1-cD S PDVDRFGRLPWLWITVLVFVLDQVSKAFFQAELSMYQQIVVIPDLFSWTLAYNTGAAFSFLADSSGWQRWLFALIAIVVSASLVVWLKRLKKGETWLAIALALVLGGALGNLYDRMVLGHVVDFILVHWQNRWYFPAFNLADSAITVGAVMLALDMF 5dj4-a8-m1-cC_5dj4-a8-m6-cE Leucine-bound Sestrin2 from Homo sapiens P58004 P58004 2.697 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 365 5dj4-a6-m1-cA_5dj4-a6-m4-cA 5dj4-a6-m1-cA_5dj4-a6-m6-cA 5dj4-a6-m4-cA_5dj4-a6-m6-cA 5dj4-a7-m1-cB_5dj4-a7-m3-cB 5dj4-a7-m1-cB_5dj4-a7-m5-cB 5dj4-a7-m3-cB_5dj4-a7-m5-cB 5dj4-a8-m1-cC_5dj4-a8-m2-cD 5dj4-a8-m2-cD_5dj4-a8-m6-cE GLEALMSSGRVDNLAVVMGLHPDYFTSFWRLHYLLLHTDGPLASSWRHYIAIMAAARHQCSYLVGSHMAEFLQTGGDPEWLLGLHRAPEKLRKLSEINKLLAHRPWLITKEHIQALLKTGEHTWSLAELIQALVLLTHCHSLSSFVFGCGILPEGPPSEQSSPRDVEALMERMQQLQEEEMESRFELEKSESLPDMLCFVEDPTFGYEDFTRRGAQAPPTFRAQDYTWEDHGYSLIQRLYPEGGQLLDEKFQAAYSLTYNTIAMHSGVDTSVLRRAIWNYIHCVFGIRYDDYDYGEVNQLLERNLKVYIKTVACYPEKTTRRMYNLFWRHFRHSEKVHVNLLLLEARMQAALLYALRAITRYMT GLEALMSSGRVDNLAVVMGLHPDYFTSFWRLHYLLLHTDGPLASSWRHYIAIMAAARHQCSYLVGSHMAEFLQTGGDPEWLLGLHRAPEKLRKLSEINKLLAHRPWLITKEHIQALLKTGEHTWSLAELIQALVLLTHCHSLSSFVFGCGILPEGDPPSEQSSPRDVEALMERMQQLQEEEMESRFELEKSESLPDMLCFVEDPTFGYEDFTRRGAQAPPTFRAQDYTWEDHGYSLIQRLYPEGGQLLDEKFQAAYSLTYNTIAMHSGVDTSVLRRAIWNYIHCVFGIRYDDYDYGEVNQLLERNLKVYIKTVACYPEKTTRRMYNLFWRHFRHSEKVHVNLLLLEARMQAALLYALRAITRYMT 5djn-a1-m1-cA_5djn-a1-m1-cC Crystal structure of the Kinesin-3 KIF13A NC-CC1 mutant - Deletion of P390 F8VQ75 F8VQ75 2.82 X-RAY DIFFRACTION 92 1.0 10090 (Mus musculus) 10090 (Mus musculus) 77 81 PNAKVIRELREEVEKLREQLSQAEAMKAELKEKLEESEKLIKELTVTWEEKLRKTEAIAQERQRQLESMGISLETSG EDPNAKVIRELREEVEKLREQLSQAEAMKAELKEKLEESEKLIKELTVTWEEKLRKTEAIAQERQRQLESMGISLETSGIK 5djo-a1-m1-cA_5djo-a1-m1-cB Crystal structure of the CC1-FHA tandem of Kinesin-3 KIF13A Q9EQW7 Q9EQW7 1.74 X-RAY DIFFRACTION 127 1.0 10090 (Mus musculus) 10090 (Mus musculus) 158 160 MKAPELKEKLEESEKLIKELTVTWEEKLRKTEAIAQERQRQLESMGISLETSGIKVGDDKCYLVNLNADPALNELLVYYLKDHTRVGADTSQDIQLFGIGIQPEHCEIDIAADGDITLTPKENARSCVNGTLVCSTTQLWHGDRILWGNNHFFRINLP SAMKAPELKEKLEESEKLIKELTVTWEEKLRKTEAIAQERQRQLESMGISLETSGIKVGDDKCYLVNLNADPALNELLVYYLKDHTRVGADTSQDIQLFGIGIQPEHCEIDIAADGDITLTPKENARSCVNGTLVCSTTQLWHGDRILWGNNHFFRINLP 5dk3-a1-m1-cG_5dk3-a1-m1-cB Crystal Structure of Pembrolizumab, a full length IgG4 antibody 2.28 X-RAY DIFFRACTION 149 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 438 441 QVQLVQSGVEVKKPGASVKVSCKASGYTFTNYYMYWVRQAPGQGLEWMGGINPSNGGTNFNEKFKNRVTLTTDSSTTTAYMELKSLQFDDTAVYYCARRDYRFDMGFDYWGQGTTVTVSSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKYGPPCPPCGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAKTKPREEQFNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKGLPSSIEKTISKAKGQPREPQVYTLPPSQEEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSRLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS QVQLVQSGVEVKKPGASVKVSCKASGYTFTNYYMYWVRQAPGQGLEWMGGINPSNGGTNFNEKFKNRVTLTTDSSTTTAYMELKSLQFDDTAVYYCARRDYRFDMGFDYWGQGTTVTVSSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKYGPPCPPCEFLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAKTKPREEQFNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKGLPSSIEKTISKAKGQPREPQVYTLPPSQEEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSRLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS 5dk6-a2-m1-cA_5dk6-a2-m2-cA CRYSTAL STRUCTURE OF A 5'-METHYLTHIOADENOSINE/S-ADENOSYLHOMOCYSTEINE (MTA/SAH) NUCLEOSIDASE (MTAN) FROM COLWELLIA PSYCHRERYTHRAEA 34H (CPS_4743, TARGET PSI-029300) IN COMPLEX WITH ADENINE AT 2.27 A RESOLUTION Q47UY5 Q47UY5 2.27 X-RAY DIFFRACTION 101 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 235 235 LYFQSKAGIIGAEPEVAILKEKLTDAKSTEHAGYTFHQGQLDGSDVVIVQSGIGKVAAALATAILIDRFQVDYVVNTGSAGGFDASLKVGDIVVSSEVRYHDVDLTAFGYEIGQLPANPAAFPHDDLVAAAKKGIEQLSQNIKAVTGLITTGDTFTKEEDVAKARANFPTAAVEEGAAIAQACLQLKTPFVVIRSLSDIAGKESPHTFEEYLETAAVNSSQLVLNLGQLKGKVLS LYFQSKAGIIGAEPEVAILKEKLTDAKSTEHAGYTFHQGQLDGSDVVIVQSGIGKVAAALATAILIDRFQVDYVVNTGSAGGFDASLKVGDIVVSSEVRYHDVDLTAFGYEIGQLPANPAAFPHDDLVAAAKKGIEQLSQNIKAVTGLITTGDTFTKEEDVAKARANFPTAAVEEGAAIAQACLQLKTPFVVIRSLSDIAGKESPHTFEEYLETAAVNSSQLVLNLGQLKGKVLS 5dkl-a1-m1-cA_5dkl-a1-m1-cB Structure of the light-state dimer of the blue light photoreceptor Aureochrome 1a LOV from P. tricornutum B7G9J2 B7G9J2 2.7 X-RAY DIFFRACTION 113 1.0 2850 (Phaeodactylum tricornutum) 2850 (Phaeodactylum tricornutum) 133 137 GAMGDFSFIKALQTAQQNFVVTDPSLPDNPIVYASQGFLNLTGYSLDQILGRNCRFLQGPETDPKAVERIRKAIEQGNDMSVCLLNYRVDGTTFWNQFFIAALRDAGGNVTNFVGVQCKVSDQYAATVTKQQE GAMGDFSFIKALQTAQQNFVVTDPSLPDNPIVYASQGFLNLTGYSLDQILGRNCRFLQGPETDPKAVERIRKAIEQGNDMSVCLLNYRVDGTTFWNQFFIAALRDAGGNVTNFVGVQCKVSDQYAATVTKQQEEEEE 5dko-a1-m1-cA_5dko-a1-m2-cA The structure of Escherichia coli ZapD P36680 P36680 2.4 X-RAY DIFFRACTION 107 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 245 245 5imj-a1-m1-cA_5imj-a1-m1-cB 5koa-a1-m1-cA_5koa-a1-m1-cB TQVLFEHPLNEKMRTWLRIEFLIQQLTVNLPIVDHAGALHFFRNVSELLDVFERGEVRTELLKELDRQQRKLQTWIGVPGVDQSRIEALIQQLKAAGSVLISAPRIGQFLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHLPQAQRDSQVETWIASLNPLTQALTMVLDLIRQSAPFRKQTSLNGFYQDNGGDADLLRLNLSLDSQLYPQISGHKSRFAIRFMPLDTENGQVPERLDFELACC TQVLFEHPLNEKMRTWLRIEFLIQQLTVNLPIVDHAGALHFFRNVSELLDVFERGEVRTELLKELDRQQRKLQTWIGVPGVDQSRIEALIQQLKAAGSVLISAPRIGQFLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHLPQAQRDSQVETWIASLNPLTQALTMVLDLIRQSAPFRKQTSLNGFYQDNGGDADLLRLNLSLDSQLYPQISGHKSRFAIRFMPLDTENGQVPERLDFELACC 5dkt-a2-m1-cA_5dkt-a2-m2-cA N-terminal His tagged apPOL exonuclease mutant Q8ILY1 Q8ILY1 2.9 X-RAY DIFFRACTION 17 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 577 577 DEITKKYIKDNIINVDDNIIKKKDIFKLKNENNEITECAFEYFESKKKFDDDIESRFFIINDNNYNENINLIYKDIKYCGLNIQTTGLEVFDENIRLIQIAVENYPVIIYDMFNINKKDILDGLRKVLENKNIIKIIQNGKFDAKFLLHNNFKIENIFDTYIASKLLDKNKNMYGFKLNNIVEKYLNVILDKQQQNSVWNNSLLNNNQLFYAARDSSCLLKLYKKLKEEIKKENLHIVNDIENKCILPICDMELNGIKVDLENLQKSTNEILNELNIEKDNEEIISLRNYRRLYKLYSAFYLKLPLHINTKTNKIHTTFNQLKTFSGRFSSEKPNLQQIPRQKNIREIFIPNDNNIFIIADFKQIELKIAAEITNDEIMLKAYNNNIDLHTLTASIITKKNIPDINKEDRHIAKAINFGLIYGMNYVNLKNYANTYYGLNMSLDQCLYFYNSFFEHYKGIYKWHNQVKQKRALQYSTLSNRKVIFPYFSFTKALNYPVQGTCADILKLALVDLYDNLKDINGKIILCVHDEIIIEVNKKFQEEALKILVQSMENSASYFLKKVKCEVSVKIAENWGS DEITKKYIKDNIINVDDNIIKKKDIFKLKNENNEITECAFEYFESKKKFDDDIESRFFIINDNNYNENINLIYKDIKYCGLNIQTTGLEVFDENIRLIQIAVENYPVIIYDMFNINKKDILDGLRKVLENKNIIKIIQNGKFDAKFLLHNNFKIENIFDTYIASKLLDKNKNMYGFKLNNIVEKYLNVILDKQQQNSVWNNSLLNNNQLFYAARDSSCLLKLYKKLKEEIKKENLHIVNDIENKCILPICDMELNGIKVDLENLQKSTNEILNELNIEKDNEEIISLRNYRRLYKLYSAFYLKLPLHINTKTNKIHTTFNQLKTFSGRFSSEKPNLQQIPRQKNIREIFIPNDNNIFIIADFKQIELKIAAEITNDEIMLKAYNNNIDLHTLTASIITKKNIPDINKEDRHIAKAINFGLIYGMNYVNLKNYANTYYGLNMSLDQCLYFYNSFFEHYKGIYKWHNQVKQKRALQYSTLSNRKVIFPYFSFTKALNYPVQGTCADILKLALVDLYDNLKDINGKIILCVHDEIIIEVNKKFQEEALKILVQSMENSASYFLKKVKCEVSVKIAENWGS 5dkx-a2-m2-cA_5dkx-a2-m3-cA Crystal structure of glucosidase II alpha subunit (Tris-bound from) G0SG42 G0SG42 1.4 X-RAY DIFFRACTION 61 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 925 925 5dkx-a2-m1-cA_5dkx-a2-m2-cA 5dkx-a2-m1-cA_5dkx-a2-m3-cA EFVKEHDWKKCDQSGFCRRNRAYADHALSAISWESPYKIAPETGSFKDGQYQAIILKTINDHGETVRLPLTVSFLESGTARVTIDEEKRQKGEIELRHDSKARKERYNEAEQWVIVGGMTLDKGAKVDYEDKTQMTVKYGPSSKFEATIKFAPFSIDFKRDGASHIKFNDQGLLNIEHWRPKIDPPDDSTWWEESFGGNTDSKPRGPESVGLDISFVGYEHVFGIPSHASPLSLKQTRGGEGNYNEPYRMYNADVFEYILDSPMTLYGSIPFMQAHRKDSSVGIFWLNAAETWVDITKGKDSKNPLALGVKSKITTRTHWFSESGLLDVFVFLGPTPKDIISKYAELTGTTAMPQEFSLGYHQCRWNYVSDEDVKDVDRKMDKFNMPYDVIWLDIEYTDEKKYFTWDKHSFKDPIGMGKQLEAHGRKLVTIIDPHIKNTNNYPVVDELKSKDLAVKTKDGSIFEGWCWPGSSHWIDAFNPAAREWWKGLFKYDKFKGTMENTFIWNDMNEPSVFNGPEVTMPKDNLHHGNWEHRDVHNLNGMTFQNATYHALLSRKPGEHRRPFVLTRAFFAGSQRLGAMWTGDNTADWGYLKASIPMVLSQGIAGFPFAGADVGGFFGNPDKDLLTRWYQTGIFYPFFRAHAHIDARRREPYLTGEPYNTIIAAALRLRYSLLPSWYTAFRHAHLDGTPIIKPMFYTHPSEEAGLPIDDQFFIGNTGLLAKPVTDKDRTSVDIWIPDSEVYYDYFTYDIISAAKSKTATLDAPLEKIPLLMRGGHVFARRDIPRRSSALMKWDPYTLVVVLGNDRKAEGDLYVDDGDSFDYEKGQYIHRRFIFDANTLTSADYEGRDDKEGEWLKKMRTVNVEKIIVVGAPAAWKGKKTVTVESEGKTWAAAIEYNPAEKSRAAFAVVKKVGVRVGADFKIVFG EFVKEHDWKKCDQSGFCRRNRAYADHALSAISWESPYKIAPETGSFKDGQYQAIILKTINDHGETVRLPLTVSFLESGTARVTIDEEKRQKGEIELRHDSKARKERYNEAEQWVIVGGMTLDKGAKVDYEDKTQMTVKYGPSSKFEATIKFAPFSIDFKRDGASHIKFNDQGLLNIEHWRPKIDPPDDSTWWEESFGGNTDSKPRGPESVGLDISFVGYEHVFGIPSHASPLSLKQTRGGEGNYNEPYRMYNADVFEYILDSPMTLYGSIPFMQAHRKDSSVGIFWLNAAETWVDITKGKDSKNPLALGVKSKITTRTHWFSESGLLDVFVFLGPTPKDIISKYAELTGTTAMPQEFSLGYHQCRWNYVSDEDVKDVDRKMDKFNMPYDVIWLDIEYTDEKKYFTWDKHSFKDPIGMGKQLEAHGRKLVTIIDPHIKNTNNYPVVDELKSKDLAVKTKDGSIFEGWCWPGSSHWIDAFNPAAREWWKGLFKYDKFKGTMENTFIWNDMNEPSVFNGPEVTMPKDNLHHGNWEHRDVHNLNGMTFQNATYHALLSRKPGEHRRPFVLTRAFFAGSQRLGAMWTGDNTADWGYLKASIPMVLSQGIAGFPFAGADVGGFFGNPDKDLLTRWYQTGIFYPFFRAHAHIDARRREPYLTGEPYNTIIAAALRLRYSLLPSWYTAFRHAHLDGTPIIKPMFYTHPSEEAGLPIDDQFFIGNTGLLAKPVTDKDRTSVDIWIPDSEVYYDYFTYDIISAAKSKTATLDAPLEKIPLLMRGGHVFARRDIPRRSSALMKWDPYTLVVVLGNDRKAEGDLYVDDGDSFDYEKGQYIHRRFIFDANTLTSADYEGRDDKEGEWLKKMRTVNVEKIIVVGAPAAWKGKKTVTVESEGKTWAAAIEYNPAEKSRAAFAVVKKVGVRVGADFKIVFG 5dl2-a2-m3-cA_5dl2-a2-m3-cB Crystal Structure of RopB D3KVD8 D3KVD8 3.5 X-RAY DIFFRACTION 41 1.0 530008 (Streptococcus pyogenes MGAS10870) 530008 (Streptococcus pyogenes MGAS10870) 222 222 5dl2-a1-m1-cA_5dl2-a1-m1-cB 5dl2-a2-m1-cA_5dl2-a2-m1-cB DEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLS DEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLS 5dl2-a3-m1-cA_5dl2-a3-m2-cB Crystal Structure of RopB D3KVD8 D3KVD8 3.5 X-RAY DIFFRACTION 32 1.0 530008 (Streptococcus pyogenes MGAS10870) 530008 (Streptococcus pyogenes MGAS10870) 222 222 DEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLS DEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLS 5dl2-a5-m1-cB_5dl2-a5-m3-cB Crystal Structure of RopB D3KVD8 D3KVD8 3.5 X-RAY DIFFRACTION 58 1.0 530008 (Streptococcus pyogenes MGAS10870) 530008 (Streptococcus pyogenes MGAS10870) 222 222 5dl2-a2-m1-cA_5dl2-a2-m3-cA 5dl2-a2-m1-cB_5dl2-a2-m3-cB 5dl2-a4-m1-cA_5dl2-a4-m3-cA DEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLS DEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLS 5dlc-a2-m1-cC_5dlc-a2-m1-cD X-ray Crystal Structure of a Pyridoxine 5-prime-phosphate synthase from Pseudomonas aeruginosa Q02HS5 Q02HS5 2.65 X-RAY DIFFRACTION 83 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 242 242 5dlc-a1-m1-cA_5dlc-a1-m1-cB TRILLGVNIDHVATLRQARGTRYPDPVKAALDAEEAGADGITVHLREDRRHIQERDVRVLKEVLQTRMNFEMGVTEEMLAFAEEIRPAHSCLVPERREELTTEGGLDVAGQEQRIRDAVRRLAAVGSEVSLFIDPDPRQIEASARVGAPAIELHTGRYADAEDPEEQARELQRVREGVALGRSLGLIVNAGHGLHYHNVEPVAAIDGINELNIGHAIVAHALFVGFRQAVAEMKALMLAAAT TRILLGVNIDHVATLRQARGTRYPDPVKAALDAEEAGADGITVHLREDRRHIQERDVRVLKEVLQTRMNFEMGVTEEMLAFAEEIRPAHSCLVPERREELTTEGGLDVAGQEQRIRDAVRRLAAVGSEVSLFIDPDPRQIEASARVGAPAIELHTGRYADAEDPEEQARELQRVREGVALGRSLGLIVNAGHGLHYHNVEPVAAIDGINELNIGHAIVAHALFVGFRQAVAEMKALMLAAAT 5dld-a2-m1-cA_5dld-a2-m2-cA Crystal Structure of a UDP-N-acetylglucosamine 2-epimerase from Burkholderia vietnamiensis complexed with UDP-GlcNAc and UDP A4JLG9 A4JLG9 1.45 X-RAY DIFFRACTION 48 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 379 379 HMKKILLVFGTRPEAIKMAPLVRALKARADVDAKVCVTAQHRQMLDQVLSLFDIEPDYDLDLMRQGQTLSDVTTGILHAIGAVFDDLRPDIVLVHGDTTTTLAVSLAAFYRYLPIGHVEAGLRSGDIWSPWPEELNRRVTDAVSSWHFAPTGQARDNLLSEGVPVGSVVMTGNTVIDALHDVKHMLERDDALSREVAARFPFLDPTARMVLITGHRRESFGEPFRNFCEALRTLAHRYRDAQFVYPLHLNPNVREPALALLGGEANIYLIEPQEYLAFVYLMSRSHFIITDSGGIQEEGPALGKPVLVTRDTTERPEAIRAGTARLVGTDPELIVREASRLFDSASAYDEMARASNPYGDGHASERIVHALMHAELPLN HMKKILLVFGTRPEAIKMAPLVRALKARADVDAKVCVTAQHRQMLDQVLSLFDIEPDYDLDLMRQGQTLSDVTTGILHAIGAVFDDLRPDIVLVHGDTTTTLAVSLAAFYRYLPIGHVEAGLRSGDIWSPWPEELNRRVTDAVSSWHFAPTGQARDNLLSEGVPVGSVVMTGNTVIDALHDVKHMLERDDALSREVAARFPFLDPTARMVLITGHRRESFGEPFRNFCEALRTLAHRYRDAQFVYPLHLNPNVREPALALLGGEANIYLIEPQEYLAFVYLMSRSHFIITDSGGIQEEGPALGKPVLVTRDTTERPEAIRAGTARLVGTDPELIVREASRLFDSASAYDEMARASNPYGDGHASERIVHALMHAELPLN 5dle-a1-m1-cA_5dle-a1-m1-cB Crystal structure from a domain (Thr161-F265) from fructose-specific iiabc component (Pts system) from Borrelia burgdorferi O51369 O51369 1.55 X-RAY DIFFRACTION 14 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 104 104 KAEKIVAVTACPVGVAHTYIAAKKIENEAKKQGYSIRVETQGSIGIENALTEEEIKNASVVILAVDKDIDEKRFEGKRVYKVSTVKAINNTENIIKESFNAPVF KAEKIVAVTACPVGVAHTYIAAKKIENEAKKQGYSIRVETQGSIGIENALTEEEIKNASVVILAVDKDIDEKRFEGKRVYKVSTVKAINNTENIIKESFNAPVF 5dle-a1-m1-cA_5dle-a1-m1-cD Crystal structure from a domain (Thr161-F265) from fructose-specific iiabc component (Pts system) from Borrelia burgdorferi O51369 O51369 1.55 X-RAY DIFFRACTION 25 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 104 104 5dle-a1-m1-cB_5dle-a1-m1-cC KAEKIVAVTACPVGVAHTYIAAKKIENEAKKQGYSIRVETQGSIGIENALTEEEIKNASVVILAVDKDIDEKRFEGKRVYKVSTVKAINNTENIIKESFNAPVF KAEKIVAVTACPVGVAHTYIAAKKIENEAKKQGYSIRVETQGSIGIENALTEEEIKNASVVILAVDKDIDEKRFEGKRVYKVSTVKAINNTENIIKESFNAPVF 5dle-a1-m1-cB_5dle-a1-m1-cD Crystal structure from a domain (Thr161-F265) from fructose-specific iiabc component (Pts system) from Borrelia burgdorferi O51369 O51369 1.55 X-RAY DIFFRACTION 27 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 104 104 5dle-a1-m1-cA_5dle-a1-m1-cC KAEKIVAVTACPVGVAHTYIAAKKIENEAKKQGYSIRVETQGSIGIENALTEEEIKNASVVILAVDKDIDEKRFEGKRVYKVSTVKAINNTENIIKESFNAPVF KAEKIVAVTACPVGVAHTYIAAKKIENEAKKQGYSIRVETQGSIGIENALTEEEIKNASVVILAVDKDIDEKRFEGKRVYKVSTVKAINNTENIIKESFNAPVF 5dm5-a1-m1-cC_5dm5-a1-m1-cD Crystal structure of the hexameric thioesterase y2039 from Yersinia pestis A0A5P8YGN6 A0A5P8YGN6 2.7 X-RAY DIFFRACTION 73 0.992 632 (Yersinia pestis) 632 (Yersinia pestis) 121 121 5dm5-a1-m1-cA_5dm5-a1-m1-cB 5dm5-a1-m1-cE_5dm5-a1-m1-cF LPNGELVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIQAKEIAQGRVVTVRVDGMTFLKPVAVGDVVCCYARCIKTGHSSITINIEVWVKKVSQRYRATEAVFTYVAVDDAGKPRGLPSG SLPNGELVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIQAKEIAQGRVVTVRVDGMTFLKPVAVGDVVCCYARCIKTGHSSITINIEVWVKKVSQRYRATEAVFTYVAVDDAGKPRGLPS 5dm5-a1-m1-cC_5dm5-a1-m1-cF Crystal structure of the hexameric thioesterase y2039 from Yersinia pestis A0A5P8YGN6 A0A5P8YGN6 2.7 X-RAY DIFFRACTION 39 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 121 122 5dm5-a1-m1-cE_5dm5-a1-m1-cB LPNGELVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIQAKEIAQGRVVTVRVDGMTFLKPVAVGDVVCCYARCIKTGHSSITINIEVWVKKVSQRYRATEAVFTYVAVDDAGKPRGLPSG LPNGELVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIQAKEIAQGRVVTVRVDGMTFLKPVAVGDVVCCYARCIKTGHSSITINIEVWVKKVSGQRYRATEAVFTYVAVDDAGKPRGLPSG 5dm5-a1-m1-cD_5dm5-a1-m1-cF Crystal structure of the hexameric thioesterase y2039 from Yersinia pestis A0A5P8YGN6 A0A5P8YGN6 2.7 X-RAY DIFFRACTION 10 0.992 632 (Yersinia pestis) 632 (Yersinia pestis) 121 122 5dm5-a1-m1-cE_5dm5-a1-m1-cC SLPNGELVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIQAKEIAQGRVVTVRVDGMTFLKPVAVGDVVCCYARCIKTGHSSITINIEVWVKKVSQRYRATEAVFTYVAVDDAGKPRGLPS LPNGELVLRTLAMPADTNANGDIFGGWLMSQMDIGGAIQAKEIAQGRVVTVRVDGMTFLKPVAVGDVVCCYARCIKTGHSSITINIEVWVKKVSGQRYRATEAVFTYVAVDDAGKPRGLPSG 5dmn-a1-m1-cB_5dmn-a1-m1-cA Crystal Structure of the Homocysteine Methyltransferase MmuM from Escherichia coli, Apo form Q47690 Q47690 2.892 X-RAY DIFFRACTION 44 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 259 263 NPLRALLDKQDILLLDGAMATELEARGCNSAKVLVENPELIREVHLDYYRAGAQCAIAARGLDEAQSKALIGKSVELARKAREAYLAENPQAGTLLVAGSVGPYGYHCSVEAFQAFHRPRVEALLDAGADLLACETLPNFSEIEALAELLTAYPRARAWFSFTLRDSEHLSDGTPLRDVVALLAGYPQVVALGINCIALENTTAALQHLHGLTVLPLVVYPNSGQLADYLPQWQAAGARLIGGCCRTTPADIAALKARS NPLRALLDKQDILLLDGAMATELEARGCNSAKVLVENPELIREVHLDYYRAGAQCAITASYAARGLDEAQSKALIGKSVELARKAREAYLAENPQAGTLLVAGSVGPYGYHCSVEAFQAFHRPRVEALLDAGADLLACETLPNFSEIEALAELLTAYPRARAWFSFTLRDSEHLSDGTPLRDVVALLAGYPQVVALGINCIALENTTAALQHLHGLTVLPLVVYPNSGQLADYLPQWQAAGARLIGGCCRTTPADIAALKARS 5dmx-a1-m1-cA_5dmx-a1-m1-cB Crystal structure of D-alanine-D-alanine ligase from Acinetobacter baumannii, space group p212121 B2I1J3 B2I1J3 2.81 X-RAY DIFFRACTION 89 0.996 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 234 259 MSNATKFGKVAVLLGGKSAERAVSLDSGQAVLDALLRSGVQAEAFDPQDRSVTELVNYDRAFIVLHGRGGEDGQIQGVLEWLNIPYTGTGVQGSAIGMDKVKTKQIWQGSDLPTAPYRIIVVMAEKWITGREFTISFLNGQPLPVIRLQYGIPCGLSETEEKKLQALCLRAFQAVGAEGWGRIDAMQDEQGNFWLLEVNTVPGMTSHSLVPKAAKAVGYSFDELCVAILEQTLE SNATKFGKVAVLLGGKSAERAVSLDSGQAVLDALLRSGVQAEAFDPQDRSVTELVNYDRAFIVLHGRGGEDGQIQGVLEWLNIPYTGTGVQGSAIGMDKVKTKQIWQGSDLPTAPYRIITKETDLDSVIAELGLPVIIKPVHEGAVVMAEKWITGREFTISFLNGQPLPVIRLQYGIPCGLSETEEKKLQALCLRAFQAVGAEGWGRIDAMQDEQGNFWLLEVNTVPGMTSHSLVPKAAKAVGYSFDELCVAILEQTLE 5dmx-a3-m1-cE_5dmx-a3-m1-cF Crystal structure of D-alanine-D-alanine ligase from Acinetobacter baumannii, space group p212121 B2I1J3 B2I1J3 2.81 X-RAY DIFFRACTION 90 0.98 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 197 241 ATKFGKVAVLLGGKSAERAVSLDSGQAVLDALLRSGVQAEAFDPQDRSVTELVNYDRAFIVLHGRGGEDGQIQGVLEWLNIPYTGTGVQGSAIGMDKVKTKQIWQGSDLPTAPYFTISFLNGQPLPVIRLQYGIPCLSEKKLQALCLRAFQAVGAEGRIEVNTVPGMTSHSLVPKAAKAVGYSFDELCVAILEQTLE MSNATKFGKVAVLLGGKSAERAVSLDSGQAVLDALLRSGVQAEAFDPQDRSVTELVNYDRAFIVLHGRGGEDGQIQGVLEWLNIPYTGTGVQGSAIGMDKVKTKQIWQGSDLPTAPYRILDSVIAELGLPAEKWITGREFTISFLNGQPLPVIRLQYGIPCGLSETEEKKLQALCLRAFQAVGAEGWGRIDAMQDEQGNFWLLEVNTVPGMTSHSLVPKAAKAVGYSFDELCVAILEQTLE 5dmy-a1-m1-cA_5dmy-a1-m1-cB Beta-galactosidase - construct 33-930 D4QAP3 D4QAP3 1.95 X-RAY DIFFRACTION 27 0.999 1681 (Bifidobacterium bifidum) 1681 (Bifidobacterium bifidum) 855 858 SSAVDSKQNRTSDFDANWKFMLSDSVQAQDPAFDDSAWQQVDLPHDYSITQKYSQSNEAESAYLPGGTGWYRKSFTIDRDLAGKRIAINFDGVYMNATVWFNGVKLGTHPYGYSPFSFDLTGNAKFGGENTIVVKVENRLPSSRWYSGSGIYRDVTLTVTDGVHVGNNGVAIKTPSLATQNGGNVTMNLTTKVANDTEAAANITLKQTVFPKGGKTDAAIGTVTTASKSIAAGASADVTSTITAASPKLWSIKNPNLYTVRTEVLNGDTVLDTYDTEYGFRWTGFDATSGFSLNGEKVKLKGVSMHHDQGSLGAVANRRAIERQVEILQKMGVNSIRTTHNPAAKALIDVCNEKGVLVVEEVFDMWNRSKNGNTEDYGKWFGQTIAGDNAVLGGDKDETWAKFDLTSTINRDRNAPSVIMWSLGNEMMEGISGSVSDFPATSAKLVAWTKAADSTRPMTYGDNKIKANWNESNTMGDNLTANGGVVGTNYSDGANYDKIRTTHPSWAIYGSETASAINSRGIYNRTTGSDKQLTSYDNSAVGWGAVASSAWYDVVQRDFVAGTYVWTGFDYLGEPTPWNGTGSGAVGSWPSPKNSYFGIVDTAGFPKDTYYFYQSQWNDDVHTLHILPAWNENVVAKGSGNKVPVVVYTDAAKVKLYFTPKGSTEKRLIGEKSFTKKTTAAGYTYQVYEGTDKDSTAHKNMYLTWNVPWAEGTISAEAYDENNRLIPEGSTEGNASVTTTGKAAKLKADADRKTITADGKDLSYIEVDVTDANGHIVPDAANRVTFDVKGAGKLVGVDNGSSPDHDSYQADNRKAFSGKVLAIVQSTKEAGEITVTAKADGLQSSTVKIATTAVP SAVDSKQNRTSDFDANWKFMLSDSVQAQDPAFDDSAWQQVDLPHDYSITQKYSQSNEAESAYLPGGTGWYRKSFTIDRDLAGKRIAINFDGVYMNATVWFNGVKLGTHPYGYSPFSFDLTGNAKFGGENTIVVKVENRLPSSRWYSGSGIYRDVTLTVTDGVHVGNNGVAIKTPSLATQNGGNVTMNLTTKVANDTEAAANITLKQTVFPKGGKTDAAIGTVTTASKSIAAGASADVTSTITAASPKLWSIKNPNLYTVRTEVLNGDTVLDTYDTEYGFRWTGFDATSGFSLNGEKVKLKGVSMHHDQGSLGAVANRRAIERQVEILQKMGVNSIRTTHNPAAKALIDVCNEKGVLVVEEVFDMWNRSKNGNTEDYGKWFGQTIAGDNAVLGGDKDETWAKFDLTSTINRDRNAPSVIMWSLGNEMMEGISGSVSDFPATSAKLVAWTKAADSTRPMTYGDNKIKANWNESNTMGDNLTANGGVVGTNYSDGANYDKIRTTHPSWAIYGSETASAINSRGIYNRTTGGAQSSDKQLTSYDNSAVGWGAVASSAWYDVVQRDFVAGTYVWTGFDYLGEPTPWNGTGSGAVGSWPSPKNSYFGIVDTAGFPKDTYYFYQSQWNDDVHTLHILPAWNENVVAKGSGNKVPVVVYTDAAKVKLYFTPKGSTEKRLIGEKSFTKKTTAAGYTYQVYEGTDKDSTAHKNMYLTWNVPWAEGTISAEAYDENNRLIPEGSTEGNASVTTTGKAAKLKADADRKTITADGKDLSYIEVDVTDANGHIVPDAANRVTFDVKGAGKLVGVDNGSSPDHDSYQADNRKAFSGKVLAIVQSTKEAGEITVTAKADGLQSSTVKIATTAVP 5dmy-a1-m1-cA_5dmy-a1-m1-cC Beta-galactosidase - construct 33-930 D4QAP3 D4QAP3 1.95 X-RAY DIFFRACTION 15 1.0 1681 (Bifidobacterium bifidum) 1681 (Bifidobacterium bifidum) 855 855 SSAVDSKQNRTSDFDANWKFMLSDSVQAQDPAFDDSAWQQVDLPHDYSITQKYSQSNEAESAYLPGGTGWYRKSFTIDRDLAGKRIAINFDGVYMNATVWFNGVKLGTHPYGYSPFSFDLTGNAKFGGENTIVVKVENRLPSSRWYSGSGIYRDVTLTVTDGVHVGNNGVAIKTPSLATQNGGNVTMNLTTKVANDTEAAANITLKQTVFPKGGKTDAAIGTVTTASKSIAAGASADVTSTITAASPKLWSIKNPNLYTVRTEVLNGDTVLDTYDTEYGFRWTGFDATSGFSLNGEKVKLKGVSMHHDQGSLGAVANRRAIERQVEILQKMGVNSIRTTHNPAAKALIDVCNEKGVLVVEEVFDMWNRSKNGNTEDYGKWFGQTIAGDNAVLGGDKDETWAKFDLTSTINRDRNAPSVIMWSLGNEMMEGISGSVSDFPATSAKLVAWTKAADSTRPMTYGDNKIKANWNESNTMGDNLTANGGVVGTNYSDGANYDKIRTTHPSWAIYGSETASAINSRGIYNRTTGSDKQLTSYDNSAVGWGAVASSAWYDVVQRDFVAGTYVWTGFDYLGEPTPWNGTGSGAVGSWPSPKNSYFGIVDTAGFPKDTYYFYQSQWNDDVHTLHILPAWNENVVAKGSGNKVPVVVYTDAAKVKLYFTPKGSTEKRLIGEKSFTKKTTAAGYTYQVYEGTDKDSTAHKNMYLTWNVPWAEGTISAEAYDENNRLIPEGSTEGNASVTTTGKAAKLKADADRKTITADGKDLSYIEVDVTDANGHIVPDAANRVTFDVKGAGKLVGVDNGSSPDHDSYQADNRKAFSGKVLAIVQSTKEAGEITVTAKADGLQSSTVKIATTAVP SSAVDSKQNRTSDFDANWKFMLSDSVQAQDPAFDDSAWQQVDLPHDYSITQKYSQSNEAESAYLPGGTGWYRKSFTIDRDLAGKRIAINFDGVYMNATVWFNGVKLGTHPYGYSPFSFDLTGNAKFGGENTIVVKVENRLPSSRWYSGSGIYRDVTLTVTDGVHVGNNGVAIKTPSLATQNGGNVTMNLTTKVANDTEAAANITLKQTVFPKGGKTDAAIGTVTTASKSIAAGASADVTSTITAASPKLWSIKNPNLYTVRTEVLNGDTVLDTYDTEYGFRWTGFDATSGFSLNGEKVKLKGVSMHHDQGSLGAVANRRAIERQVEILQKMGVNSIRTTHNPAAKALIDVCNEKGVLVVEEVFDMWNRSKNGNTEDYGKWFGQTIAGDNAVLGGDKDETWAKFDLTSTINRDRNAPSVIMWSLGNEMMEGISGSVSDFPATSAKLVAWTKAADSTRPMTYGDNKIKANWNESNTMGDNLTANGGVVGTNYSDGANYDKIRTTHPSWAIYGSETASAINSRGIYNRTTGSDKQLTSYDNSAVGWGAVASSAWYDVVQRDFVAGTYVWTGFDYLGEPTPWNGTGSGAVGSWPSPKNSYFGIVDTAGFPKDTYYFYQSQWNDDVHTLHILPAWNENVVAKGSGNKVPVVVYTDAAKVKLYFTPKGSTEKRLIGEKSFTKKTTAAGYTYQVYEGTDKDSTAHKNMYLTWNVPWAEGTISAEAYDENNRLIPEGSTEGNASVTTTGKAAKLKADADRKTITADGKDLSYIEVDVTDANGHIVPDAANRVTFDVKGAGKLVGVDNGSSPDHDSYQADNRKAFSGKVLAIVQSTKEAGEITVTAKADGLQSSTVKIATTAVP 5dmy-a1-m1-cC_5dmy-a1-m1-cB Beta-galactosidase - construct 33-930 D4QAP3 D4QAP3 1.95 X-RAY DIFFRACTION 36 0.999 1681 (Bifidobacterium bifidum) 1681 (Bifidobacterium bifidum) 855 858 SSAVDSKQNRTSDFDANWKFMLSDSVQAQDPAFDDSAWQQVDLPHDYSITQKYSQSNEAESAYLPGGTGWYRKSFTIDRDLAGKRIAINFDGVYMNATVWFNGVKLGTHPYGYSPFSFDLTGNAKFGGENTIVVKVENRLPSSRWYSGSGIYRDVTLTVTDGVHVGNNGVAIKTPSLATQNGGNVTMNLTTKVANDTEAAANITLKQTVFPKGGKTDAAIGTVTTASKSIAAGASADVTSTITAASPKLWSIKNPNLYTVRTEVLNGDTVLDTYDTEYGFRWTGFDATSGFSLNGEKVKLKGVSMHHDQGSLGAVANRRAIERQVEILQKMGVNSIRTTHNPAAKALIDVCNEKGVLVVEEVFDMWNRSKNGNTEDYGKWFGQTIAGDNAVLGGDKDETWAKFDLTSTINRDRNAPSVIMWSLGNEMMEGISGSVSDFPATSAKLVAWTKAADSTRPMTYGDNKIKANWNESNTMGDNLTANGGVVGTNYSDGANYDKIRTTHPSWAIYGSETASAINSRGIYNRTTGSDKQLTSYDNSAVGWGAVASSAWYDVVQRDFVAGTYVWTGFDYLGEPTPWNGTGSGAVGSWPSPKNSYFGIVDTAGFPKDTYYFYQSQWNDDVHTLHILPAWNENVVAKGSGNKVPVVVYTDAAKVKLYFTPKGSTEKRLIGEKSFTKKTTAAGYTYQVYEGTDKDSTAHKNMYLTWNVPWAEGTISAEAYDENNRLIPEGSTEGNASVTTTGKAAKLKADADRKTITADGKDLSYIEVDVTDANGHIVPDAANRVTFDVKGAGKLVGVDNGSSPDHDSYQADNRKAFSGKVLAIVQSTKEAGEITVTAKADGLQSSTVKIATTAVP SAVDSKQNRTSDFDANWKFMLSDSVQAQDPAFDDSAWQQVDLPHDYSITQKYSQSNEAESAYLPGGTGWYRKSFTIDRDLAGKRIAINFDGVYMNATVWFNGVKLGTHPYGYSPFSFDLTGNAKFGGENTIVVKVENRLPSSRWYSGSGIYRDVTLTVTDGVHVGNNGVAIKTPSLATQNGGNVTMNLTTKVANDTEAAANITLKQTVFPKGGKTDAAIGTVTTASKSIAAGASADVTSTITAASPKLWSIKNPNLYTVRTEVLNGDTVLDTYDTEYGFRWTGFDATSGFSLNGEKVKLKGVSMHHDQGSLGAVANRRAIERQVEILQKMGVNSIRTTHNPAAKALIDVCNEKGVLVVEEVFDMWNRSKNGNTEDYGKWFGQTIAGDNAVLGGDKDETWAKFDLTSTINRDRNAPSVIMWSLGNEMMEGISGSVSDFPATSAKLVAWTKAADSTRPMTYGDNKIKANWNESNTMGDNLTANGGVVGTNYSDGANYDKIRTTHPSWAIYGSETASAINSRGIYNRTTGGAQSSDKQLTSYDNSAVGWGAVASSAWYDVVQRDFVAGTYVWTGFDYLGEPTPWNGTGSGAVGSWPSPKNSYFGIVDTAGFPKDTYYFYQSQWNDDVHTLHILPAWNENVVAKGSGNKVPVVVYTDAAKVKLYFTPKGSTEKRLIGEKSFTKKTTAAGYTYQVYEGTDKDSTAHKNMYLTWNVPWAEGTISAEAYDENNRLIPEGSTEGNASVTTTGKAAKLKADADRKTITADGKDLSYIEVDVTDANGHIVPDAANRVTFDVKGAGKLVGVDNGSSPDHDSYQADNRKAFSGKVLAIVQSTKEAGEITVTAKADGLQSSTVKIATTAVP 5dnf-a1-m1-cA_5dnf-a1-m1-cD Crystal structure of CC chemokine 5 (CCL5) oligomer in complex with heparin P13501 P13501 2.549 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 5cmd-a1-m1-cB_5cmd-a1-m1-cC 5cmd-a1-m1-cD_5cmd-a1-m1-cE 5dnf-a1-m1-cC_5dnf-a1-m1-cF 5dnf-a1-m1-cH_5dnf-a1-m1-cI 5l2u-a1-m1-cB_5l2u-a1-m1-cC 5l2u-a1-m1-cD_5l2u-a1-m1-cE 5l2u-a2-m1-cH_5l2u-a2-m1-cI 5l2u-a2-m2-cH_5l2u-a2-m2-cI 6c6d-a1-m1-cA_6c6d-a1-m1-cM 6c6d-a1-m1-cF_6c6d-a1-m1-cG 6c6d-a1-m1-cH_6c6d-a1-m1-cI 6c6d-a1-m1-cL_6c6d-a1-m1-cS SSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS SSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 5dnf-a1-m1-cE_5dnf-a1-m1-cG Crystal structure of CC chemokine 5 (CCL5) oligomer in complex with heparin P13501 P13501 2.549 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 SSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS SSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 5do8-a1-m1-cA_5do8-a1-m1-cB 1.8 Angstrom crystal structure of Listeria monocytogenes Lmo0184 alpha-1,6-glucosidase Q8YAE6 Q8YAE6 1.8 X-RAY DIFFRACTION 43 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 552 553 EKDWWKKSVVYQIYPKSFNDSNGDGVGDIQGIIEKLDYLKELGVDVIWLSPVYDSPQDDNGYDIRDYQKIYEEYGDMATFDQLLQGLHDRDMKLVMDLVVNHTSDEHKWFEESRKSKDNPYRDYYFWREENEINNWGSIFSGPAWELDEKTGEYYLHLFSKKQPDLNWENPKLRQDVYNMMKFWLDKGIDGFRMDVINFISKNTDFPDGPVPDGQIYGDAGNDFCNGPRIHEFLQEMNQEVTSKYDVMTVGEMPGASTTDAQIYTNPANNEVDMIFTFEHMNLDSDSDNKWDLKPIYLPDLKENMSEWQVALQENGWNSLYWNNHDQPRIVSRFGNDNRFRVRSAKMLATCLHMMKGTPYIYQGEEIGMTNVHFETLDDYRDIETLNMYKERKEQGHSHESIMQSIYTKGRDNARTPYQWDNSENAGFTTGTPWLKVNPRYTEINNEEALKNPDSIFYYYQNLIKLRKTTEIITTGNYRLLLPKDEAIFAYERYTENEKLVVLCNFTEEEQVISDETILNEIQKGSVLVNNVPNIIEGTLRPYEAIVYQIKG EKDWWKKSVVYQIYPKSFNDSNGDGVGDIQGIIEKLDYLKELGVDVIWLSPVYDSPQDDNGYDIRDYQKIYEEYGDMATFDQLLQGLHDRDMKLVMDLVVNHTSDEHKWFEESRKSKDNPYRDYYFWREENEINNWGSIFSGPAWELDEKTGEYYLHLFSKKQPDLNWENPKLRQDVYNMMKFWLDKGIDGFRMDVINFISKNTDFPDGPVPDGQIYGDAGNDFCNGPRIHEFLQEMNQEVTSKYDVMTVGEMPGASTTDAQIYTNPANNEVDMIFTFEHMNLDSDSDNKWDLKPIYLPDLKENMSEWQVALQENGWNSLYWNNHDQPRIVSRFGNDNRFRVRSAKMLATCLHMMKGTPYIYQGEEIGMTNVHFETLDDYRDIETLNMYKERKEQGHSHESIMQSIYTKGRDNARTPYQWDNSENAGFTTGTPWLKVNPRYTEINNEEALKNPDSIFYYYQNLIKLRKTTEIITTGNYRLLLPKDEAIFAYERYTENEKLVVLCNFTEEEQVISDETILNEIQKGSVLVNNVPNIIEGTLRPYEAIVYQIKGA 5do8-a1-m1-cC_5do8-a1-m1-cA 1.8 Angstrom crystal structure of Listeria monocytogenes Lmo0184 alpha-1,6-glucosidase Q8YAE6 Q8YAE6 1.8 X-RAY DIFFRACTION 11 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 551 552 KDWWKKSVVYQIYPKSFNDSNGDGVGDIQGIIEKLDYLKELGVDVIWLSPVYDSPQDDNGYDIRDYQKIYEEYGDMATFDQLLQGLHDRDMKLVMDLVVNHTSDEHKWFEESRKSKDNPYRDYYFWREENEINNWGSIFSGPAWELDEKTGEYYLHLFSKKQPDLNWENPKLRQDVYNMMKFWLDKGIDGFRMDVINFISKNTDFPDGPVPDGQIYGDAGNDFCNGPRIHEFLQEMNQEVTSKYDVMTVGEMPGASTTDAQIYTNPANNEVDMIFTFEHMNLDSDSDNKWDLKPIYLPDLKENMSEWQVALQENGWNSLYWNNHDQPRIVSRFGNDNRFRVRSAKMLATCLHMMKGTPYIYQGEEIGMTNVHFETLDDYRDIETLNMYKERKEQGHSHESIMQSIYTKGRDNARTPYQWDNSENAGFTTGTPWLKVNPRYTEINNEEALKNPDSIFYYYQNLIKLRKTTEIITTGNYRLLLPKDEAIFAYERYTENEKLVVLCNFTEEEQVISDETILNEIQKGSVLVNNVPNIIEGTLRPYEAIVYQIKG EKDWWKKSVVYQIYPKSFNDSNGDGVGDIQGIIEKLDYLKELGVDVIWLSPVYDSPQDDNGYDIRDYQKIYEEYGDMATFDQLLQGLHDRDMKLVMDLVVNHTSDEHKWFEESRKSKDNPYRDYYFWREENEINNWGSIFSGPAWELDEKTGEYYLHLFSKKQPDLNWENPKLRQDVYNMMKFWLDKGIDGFRMDVINFISKNTDFPDGPVPDGQIYGDAGNDFCNGPRIHEFLQEMNQEVTSKYDVMTVGEMPGASTTDAQIYTNPANNEVDMIFTFEHMNLDSDSDNKWDLKPIYLPDLKENMSEWQVALQENGWNSLYWNNHDQPRIVSRFGNDNRFRVRSAKMLATCLHMMKGTPYIYQGEEIGMTNVHFETLDDYRDIETLNMYKERKEQGHSHESIMQSIYTKGRDNARTPYQWDNSENAGFTTGTPWLKVNPRYTEINNEEALKNPDSIFYYYQNLIKLRKTTEIITTGNYRLLLPKDEAIFAYERYTENEKLVVLCNFTEEEQVISDETILNEIQKGSVLVNNVPNIIEGTLRPYEAIVYQIKG 5doc-a1-m1-cA_5doc-a1-m1-cB Crystal structure of the Human Cytomegalovirus UL53 subunit of the NEC P16794 P16794 1.94 X-RAY DIFFRACTION 62 0.995 10360 (Human herpesvirus 5 strain AD169) 10360 (Human herpesvirus 5 strain AD169) 197 202 GKESICLPFNFHSHRQHTCLDISPYGNEQVSRIACTSCLPTASDAMVAFINQTSNIMKNRNFYYGFCKSSELLKLSTNQPPIFQIYYLLHAANHDIVPFMHAEDGRLHMHVIFENPDVHIPCDCITQMLTAAREDYSVTLNIVRDHVVISVLCHAVSASSVKIDVTILQRKIDEMDIPNDVSESFERYKELIQELCQ KESICLPFNFHSHRQHTCLDISPYGNEQVSRIACTSCEDNRILPTASDAMVAFINQTSNIMKNRNFYYGFCKSSELLKLSTNQPPIFQIYYLLHAANHDIVPFMHAEDGRLHMHVIFENPDVHIPCDCITQMLTAAREDYSVTLNIVRDHVVISVLCHAVSASSVKIDVTILQRKIDEMDIPNDVSESFERYKELIQELCQS 5dof-a5-m1-cB_5dof-a5-m1-cA Crystal structure of Tetrahymena p19 D2CVN7 D2CVN7 1.7 X-RAY DIFFRACTION 33 0.98 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 150 153 KRNFDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKIKNLSSKELAKNKIFKFLSEYNKSHDYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQQKPTLQLLQAASEINQ FDLYKLITDKQIDFQVADLIQDEQSSFVSVRIYGQFKCFVPKSTIQEQLDKIKNLSSKELAKNKIFKFLSEYNKNNQDELSHDYYGYFKVQQHQFILNLENAQREASLAVDDFYFINGRIYKTNHDILILQAHHVYQQKPTLQLLQAASEINQ 5dol-a1-m1-cA_5dol-a1-m2-cB Crystal structure of YabA amino-terminal domain from Bacillus subtilis P37542 P37542 2.7 X-RAY DIFFRACTION 42 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 61 62 5dol-a1-m2-cA_5dol-a1-m1-cB DKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTQQIEKF MDKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTQQIEKF 5dol-a1-m1-cB_5dol-a1-m2-cB Crystal structure of YabA amino-terminal domain from Bacillus subtilis P37542 P37542 2.7 X-RAY DIFFRACTION 46 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 62 62 5dol-a1-m1-cA_5dol-a1-m2-cA MDKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTQQIEKF MDKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTQQIEKF 5dol-a1-m2-cA_5dol-a1-m2-cB Crystal structure of YabA amino-terminal domain from Bacillus subtilis P37542 P37542 2.7 X-RAY DIFFRACTION 50 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 61 62 5dol-a1-m1-cA_5dol-a1-m1-cB DKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTQQIEKF MDKKELFDTVINLEEQIGSLYRQLGDLKQHIGEMIEENHHLQLENKHLRKRLDDTTQQIEKF 5doo-a1-m1-cA_5doo-a1-m1-cB The structure of PKMT2 from Rickettsia typhi Q68XQ5 Q68XQ5 3.133 X-RAY DIFFRACTION 79 0.996 257363 (Rickettsia typhi str. Wilmington) 257363 (Rickettsia typhi str. Wilmington) 510 513 5dpl-a1-m1-cB_5dpl-a1-m1-cA PYPPFTFSYTYPPYLRTIGKLFGLNPPLLETAKVLDIGCGIGVNLLNFAETYPKSQSLGVDLSKTQIELGKKTISDAKINNVELKALSILDLDESYGKFDYIVCHGVYSWVSQEVQDKILEVLNKLLNPNGIAFVSYNTLPGWNMQNTIREMMMFHSESKLQQARLLLKFINDSLGNSTTPYANFLRDEAKLISTYDDSYVLHEYLGEINTGTYFHQFIEKAQKNHLNYLGDTSIAAMFIGNLPTKAASKLQAINDIVCTEQYMDFITNRKFRSTLLCHQNIPINRKIEFDNLKDFYTTFNIRPISPENKIDLNNEQENISFYYENLPEPFISTTSAIMKAILYVYAENISNPIRLEQVAKEAFKKLGKYRLQDFLATLEQHFITLIFQGYLKIFETKPHAIATITEKPKTSQFARYQAKHAHFNNVTNMFSITNRLNDMIGIPIHEKYILEMLDGTHNIDDIKKSIIEKINSKLLTACDVTDPKLLKEFVDYVVAVSLEKFRINYLLVG YPPFTFSYTYPPYLRTIGKLFGLNPPLLETAKVLDIGCGIGVNLLNFAETYPKSQSLGVDLSKTQIELGKKTISDAKINNVELKALSILDLDESYGKFDYIVCHGVYSWVSQEVQDKILEVLNKLLNPNGIAFVSYNTLPGWNMQNTIREMMMFHSEKLQQARLLLKFINDSLGNSTTPYANFLRDEAKLISTYDDSYVLHEYLGEINTGTYFHQFIEKAQKNHLNYLGDTSIAAMFIGNLPTKAASKLQAINDIVCTEQYMDFITNRKFRSTLLCHQNIPINRKIEFDNLKDFYTTFNIRPISPENKIDLNNEQENISFYYENLPEPFISTTSAIMKAILYVYAENISNPIRLEQVAKEAFKKLGKYRLQDFLATLEQHFITLIFQGYLKIFETKPHAIATITEKPKTSQFARYQAKHAHFNNVTNMFSITNRLNDMIGIPIHEKYILEMLDGTHNIDDIKKSIIEKINSKLLTACDNKGQVVTDPKLLKEFVDYVVAVSLEKFRINYLLVG 5dor-a2-m1-cD_5dor-a2-m1-cC P2 Integrase catalytic domain in space group P21 P36932 P36932 2.5 X-RAY DIFFRACTION 161 0.981 10679 (Peduovirus P2) 10679 (Peduovirus P2) 157 158 5c6k-a1-m1-cA_5c6k-a1-m1-cB 5dor-a1-m1-cB_5dor-a1-m1-cA GYLTQEEIALLLAALDGDNKKIAILCLSTGARWGEAARLKAENIIHNRVTFVPRTVPISEAVAKMIADGFLFPDADYPRFRRTMKAIKPDLPMGQATHALRHSFATHFMINGGSIITLQRILGHTRIEQTMVYAHFAPEYLQDAISLNPLRGGTEAE GYLTQEEIALLLAALDGDNKKIAILCLSTGARWGEAARLKAENIIHNRVTFVKTNKPRTVPISEAVAKMIAGFLFPDADYPRFRRTMKAIKPDLPMGQATHALRHSFATHFMINGGSIITLQRILGHTRIEQTMVYAHFAPEYLQDAISLNPLRGGTE 5dou-a2-m1-cC_5dou-a2-m1-cD Crystal Structure of Human Carbamoyl phosphate synthetase I (CPS1), ligand-bound form P31327 P31327 2.6 X-RAY DIFFRACTION 84 0.999 9606 (Homo sapiens) 9606 (Homo sapiens) 1421 1430 5dot-a1-m1-cB_5dot-a1-m1-cA 5dou-a1-m1-cA_5dou-a1-m1-cB AQTAHIVLEDGTKMKGYSFGHPSSVAGEVVFNTGLGGYPEAITDPAYKGQILTMANPIIGNGGAPDTTALDELGLSKYLESNGIKVSGLLVLDYSKDYNHWLATKSLGQWLQEEKVPAIYGVDTRMLTKIIRDKGTMLGKIEFEGQPVDFVDPNKQNLIAEVSTKDVKVYGKGNPTKVVAVDCGIKNNVIRLLVKRGAEVHLVPWNHDFTKMEYDGILIAGGPGNPALAEPLIQNVRKILESDRKEPLFGISTGNLITGLAAGAKTYKMSMANRGQNQPVLNITNKQAFITAQNHGYALDNTLPAGWKPLFVNVNDQTNEGIMHESKPFFAVQFHPEVTPGPIDTEYLFDSFFSLIKKGKATTITSVLPKPASRVEVSKVLILGSGGLSIGQAGEFDYSGSQAVKAMKEENVKTVLMNPNIASVQTNEVGLKQADTVYFLPITPQFVTEVIKAEQPDGLILGMGGQTALNCGVELFKRGVLKEYGVKVLGTSVESIMATEDRQLFSDKLNEINEKIAPSFAVESIEDALKAADTIGYPVMIRSAYALGGLGSGICPNRETLMDLSTKAFAMTNQILVEKSVTGWKEIEYEVVRDADDNCVTVCNMENVDAMGVHTGDSVVVAPAQTLSNAEFQMLRRTSINVVRHLGIVGECNIQFALHPTSMEYCIIEVNARLSRSSALASKATGYPLAFIAAKIALGIPLPEIKNVVSGKTSACFEPSLDYMVTKIPRWDLDRFHGTSSRIGSSMKSVGEVMAIGRTFEESFQKALRMCHPSIEGFTPRLPMNKEWPSNLDLRKELSEPSSTRIYAIAKAIDDNMSLDEIEKLTYIDKWFLYKMRDILNMEKTLKGLNSESMTEETLKRAKEIGFSDKQISKCLGLTEAQTRELRLKKNIHPWVKQIDTLAAEYPSVTNYLYVTYNGQEHDVNFDDHGMMVLGCGPYHIGSSVEFDWCAVSSIRTLRQLGKKTVVVNCNPETVSTDFDECDKLYFEELSLERILDIYHQEACGGCIISVGGQIPNNLAVPLYKNGVKIMGTSPLQIDRAEDRSIFSAVLDELKVAQAPWKAVNTLNEALEFAKSVDYPCLLRPAMNVVFSEDPVVLTKFVEGAREVEMDAVGKDGRVISHAISEHVEDAGVHSGDATLMLPTQTISQGAIEKVKDATRKIAKAFAISGPFNVQFLVKGNDVLVIECNLRASRSFPFVSKTLGVDFIDVATKVMIGENVDEKHLPTLDHPIIPADYVAIKAPMFSWPRLRDADPILRCEMASTGEVACFGEGIHTAFLKAMLSTGFKIPQKGILIGIQQSFRPRFLGVAEQLHNEGFKLFATEATSDWLNANNVPATPVAWPSQEGQNPSLSSIRKLIRDGSIDLVINLPNNNTKFVHDNYVIRRTAVDSGIPLLTNFQVTKLFAEAVQKDSKSLFHYRQ AQTAHIVLEDGTKMKGYSFGHPSSVAGEVVFNTGLGGYPEAITDPAYKGQILTMANPIIGNGGAPDTTALDELGLSKYLESNGIKVSGLLVLDYSKDYNHWLATKSLGQWLQEEKVPAIYGVDTRMLTKIIRDKGTMLGKIEFEGQPVDFVDPNKQNLIAEVSTKDVKVYGKGNPTKVVAVDCGIKNNVIRLLVKRGAEVHLVPWNHDFTKMEYDGILIAGGPGNPALAEPLIQNVRKILESDRKEPLFGISTGNLITGLAAGAKTYKMSMANRGQNQPVLNITNKQAFITAQNHGYALDNTLPAGWKPLFVNVNDQTNEGIMHESKPFFAVQFHPEVTPGPIDTEYLFDSFFSLIKKGKATTITSVLPKPALVASRVEVSKVLILGSGGLSIGQAGEFDYSGSQAVKAMKEENVKTVLMNPNIASVQTNEVGLKQADTVYFLPITPQFVTEVIKAEQPDGLILGMGGQTALNCGVELFKRGVLKEYGVKVLGTSVESIMATEDRQLFSDKLNEINEKIAPSFAVESIEDALKAADTIGYPVMIRSAYALGGLGSGICPNRETLMDLSTKAFAMTNQILVEKSVTGWKEIEYEVVRDADDNCVTVCNMENVDAMGVHTGDSVVVAPAQTLSNAEFQMLRRTSINVVRHLGIVGECNIQFALHPTSMEYCIIEVNARLSRSSALASKATGYPLAFIAAKIALGIPLPEIKNVVSGKTSACFEPSLDYMVTKIPRWDLDRFHGTSSRIGSSMKSVGEVMAIGRTFEESFQKALRMCHPSIEGFTPRLPMNKEWPSNLDLRKELSEPSSTRIYAIAKAIDDNMSLDEIEKLTYIDKWFLYKMRDILNMEKTLKGLNSESMTEETLKRAKEIGFSDKQISKCLGLTEAQTRELRLKKNIHPWVKQIDTLAAEYPSVTNYLYVTYNGQEHDVNFDDHGMMVLGCGPYHIGSSVEFDWCAVSSIRTLRQLGKKTVVVNCNPETVSTDFDECDKLYFEELSLERILDIYHQEACGGCIISVGGQIPNNLAVPLYKNGVKIMGTSPLQIDRAEDRSIFSAVLDELKVAQAPWKAVNTLNEALEFAKSVDYPCLLRMNVVFSEDEMKKFLEHPVVLTKFVEGAREVEMDAVGKDGRVISHAISEHVEDAGVHSGDATLMLPTQTISQGAIEKVKDATRKIAKAFAISGPFNVQFLVKGNDVLVIECNLRASRSFPFVSKTLGVDFIDVATKVMIGENVDEKHLPTLDHPIIPADYVAIKAPMFSWPRLRDADPILRCEMASTGEVACFGEGIHTAFLKAMLSTGFKIPQKGILIGIQQSFRPRFLGVAEQLHNEGFKLFATEATSDWLNANNVPATPVAWPSQEGQNPSLSSIRKLIRDGSIDLVINLPNNNTKFVHDNYVIRRTAVDSGIPLLTNFQVTKLFAEAVQKDSKSLFHYRQ 5dpd-a1-m1-cA_5dpd-a1-m1-cB The structure of PKMT1 from Rickettsia prowazekii in complex with AdoMet O05979 O05979 3 X-RAY DIFFRACTION 75 1.0 272947 (Rickettsia prowazekii str. Madrid E) 272947 (Rickettsia prowazekii str. Madrid E) 511 511 5dnk-a1-m1-cB_5dnk-a1-m1-cA 5do0-a1-m1-cA_5do0-a1-m1-cB YESYPYAITNPYHLSTLATLFGINAPEVENSKILELGCAAGGNLIPHAVLYPNAHFVGVDLSKVQIDEANKNVRALGLKNIEFHHCSITDIDDSFGKFDYIICHGVISWVPKIVRDKIFKVCNRNLSTNGIAYISYNTLPGWNMVRTIRDMMLYHSSSFTNIRDRIAQSRLLLEFVKDSLEHSKTPYAEVLKTEAGLLAKQTDHYLRHDHLEEENAQFYFHEFMNEARKHNLQYLADCNISTMYLGNMPPKVVEQLKAVNDIVRTEQYMDFITNRRFRTTLLCHNDLKINRNINNDDIKKFNIIFNVIPEKPLKEVDLNNATENLQFFLNGNKESNLSTTSPYMKAILYTFSENLNNPLSFKQVTSEANTKLNNTKLNEIKNELLNNAMKLVLQGYISITNQKHRSKPVLDKPKTTQMVIYQAKYTPSMWVTNLKHEPIGVNFFEKFALRYMDGRNDKKAIIEAILGHVEKGELTLSREGQKIENKEEIRKELESLFTPMIEKFCSNALLV YESYPYAITNPYHLSTLATLFGINAPEVENSKILELGCAAGGNLIPHAVLYPNAHFVGVDLSKVQIDEANKNVRALGLKNIEFHHCSITDIDDSFGKFDYIICHGVISWVPKIVRDKIFKVCNRNLSTNGIAYISYNTLPGWNMVRTIRDMMLYHSSSFTNIRDRIAQSRLLLEFVKDSLEHSKTPYAEVLKTEAGLLAKQTDHYLRHDHLEEENAQFYFHEFMNEARKHNLQYLADCNISTMYLGNMPPKVVEQLKAVNDIVRTEQYMDFITNRRFRTTLLCHNDLKINRNINNDDIKKFNIIFNVIPEKPLKEVDLNNATENLQFFLNGNKESNLSTTSPYMKAILYTFSENLNNPLSFKQVTSEANTKLNNTKLNEIKNELLNNAMKLVLQGYISITNQKHRSKPVLDKPKTTQMVIYQAKYTPSMWVTNLKHEPIGVNFFEKFALRYMDGRNDKKAIIEAILGHVEKGELTLSREGQKIENKEEIRKELESLFTPMIEKFCSNALLV 5dpo-a1-m1-cA_5dpo-a1-m2-cA The crystal structure of uncharacterized protein (LPG2149) from Legionella pneumophila 1.644 X-RAY DIFFRACTION 137 1.0 297246 (Legionella pneumophila str. Paris) 297246 (Legionella pneumophila str. Paris) 101 101 FFKDYQKKNVRLLQDSLEKIINEWLKTDDESHTKLKSLQELSEDINATSFAEHSPLPDFVTRLWLDPHKALDADKNISKNEIRKLIKETAREIELVFTHQK FFKDYQKKNVRLLQDSLEKIINEWLKTDDESHTKLKSLQELSEDINATSFAEHSPLPDFVTRLWLDPHKALDADKNISKNEIRKLIKETAREIELVFTHQK 5dqa-a3-m2-cC_5dqa-a3-m1-cB t3284 loop variant of beta1 3.27 X-RAY DIFFRACTION 71 1.0 32630 (synthetic construct) 32630 (synthetic construct) 215 216 5di5-a1-m1-cA_5di5-a1-m2-cA 5dn0-a1-m1-cA_5dn0-a1-m2-cA 5dns-a1-m1-cB_5dns-a1-m2-cA 5dns-a2-m3-cB_5dns-a2-m1-cA 5dqa-a1-m1-cC_5dqa-a1-m2-cB 5dqa-a2-m1-cA_5dqa-a2-m2-cA MNVGEILRHYAAGKRNFQHINLQEIELTNASLTGADLSYANLHHANLSRANLRSADLRNANLSHANLEGANLEEANLEAANLRGARLAGANLSGADLQEANLTQANLGGPGADLSDANLEQADLAGANLAGAVLDGANLHGANLNNANLDNAMLTRANLEQADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCL MNVGEILRHYAAGKRNFQHINLQEIELTNASLTGADLSYANLHHANLSRANLRSADLRNANLSHANLEGANLEEANLEAANLRGARLAGANLSGADLQEANLTQANLGGPPGADLSDANLEQADLAGANLAGAVLDGANLHGANLNNANLDNAMLTRANLEQADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCL 5dqp-a1-m1-cB_5dqp-a1-m1-cA EDTA monooxygenase (EmoA) from Chelativorans sp. BNC1 Q9F9T3 Q9F9T3 2.146 X-RAY DIFFRACTION 194 1.0 85561 (EDTA-degrading bacterium BNC1) 85561 (EDTA-degrading bacterium BNC1) 411 427 RRMYLVSWLNSSGVLPNSWNEGRGNRARIFDLENYIRSAEIARRGRIDAFFLADQPQLTPNPKVRPEYPFDPIVLAAAITGRVPDIGGIVTASTSFSLPYTLARQIASVNLLSGGRIGWNAVTTANPAVAANYGAAIATHDNRYERAEEFLEVVHGLWNSWKFPWDEAIGPNPNPFGEVMPINHEGKYFKVAGPLNVPLPPYGPPVVVQAGGSDQGKRLASRFGEIIYAFLGSKPAGRRFVAEARAAARAQGRPEGSTLVLPSFVPLIGSTEAEVKRLVAEYEAGLDPAQRIEALSKQLVLQEKDFNLPKTPIGILKSMVDVALDELSLRQLALRMRLIAGTPDQVADRLIDWWQDEAADGFVINAPLLPDALEIFVDQVVPILQSRGVFPRSYTESTLRERLGLPRNPLG RRMYLVSWLNSSGVLPNSWNEGRGNRARIFDLENYIRSAEIARRGRIDAFFLADQPQLTPNPKVRPEYPFDPIVLAAAITGRVPDIGGIVTASTSFSLPYTLARQIASVNLLSGGRIGWNAVTTANPAVAANYGAAIATHDNRYERAEEFLEVVHGLWNSWKFPWDEAIGPNPNPFGEVMPINHEGKYFKVAGPLNVPLPPYGPPVVVQAGGSDQGKRLASRFGEIIYAFLGSKPAGRRFVAEARAAARAQGRPEGSTLVLPSFVPLIGSTEAEVKRLVAEYEAGLDPAEQRIEALSKQLGIDLERINVDQVLQEKDFNLPKESATPIGILKSMVDVALDEKLSLRQLALRMRLIAGTPDQVADRLIDWWQDEAADGFVINAPLLPDALEIFVDQVVPILQSRGVFPRSYTESTLRERLGLPRNPLG 5dqr-a1-m1-cA_5dqr-a1-m1-cC The crystal structure of Arabidopsis 7-hydroxymethyl chlorophyll a reductase (HCAR) Q8GS60 Q8GS60 2.7 X-RAY DIFFRACTION 23 0.998 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 414 421 5dqr-a1-m1-cB_5dqr-a1-m1-cA 5dqr-a1-m1-cB_5dqr-a1-m1-cC 5dqr-a2-m1-cD_5dqr-a2-m1-cF 5dqr-a2-m1-cE_5dqr-a2-m1-cF EDWREKSRPIPPGGTYPAKDHCSQCGLCDTYYIAHVKEACAFLGDGMSRIESLEPVVHGRGRKADSLQDTYFGVHQEQLYARKLKPVEGAQWTGIVTTIAIEMLKSNMVEAVVCVQSDPEDRLSPRPVLARTPEEVLAARGVKPTLSPNLNTLELIEASGVKRLLFCGVGCQVQALRSVEQHLNLEKLYVLGTNCVDNGTRDGLDKFLKAASKEPETVLHYEFMQDYKVQLKHLDGHIEEVPYFSLPANDLVDVIAPSCYSCFDYTNALADLVIGYMGVPKYSGLNMTDHPQYITVRNERGKEMLSLVENLLEITPTISSGDRRPFVTETVKADDAAQPAPLFVGNIIAFILNLVGPKGLEFARYSLDYHTIRNYLYVNRKWGKQRANTHMPSYAKKIVEMYNKNGQIDKMLSK REDWREKSRPIPPGGTYPAKDHCSQCGLCDTYYIAHVKEACAFLGDGMSRIESLEPVVHGRGRKADSLQDTYFGVHQEQLYARKLKPVEGAQWTGIVTTIAIEMLKSNMVEAVVCVQSDPEDRLSPRPVLARTPEEVLAARGVKPTLSPNLNTLELIEASGVKRLLFCGVGCQVQALRSVEQHLNLEKLYVLGTNCVDNGTRDGLDKFLKAASKEPETVLHYEFMQDYKVQLKHLDGHIEEVPYFSLPANDLVDVIAPSCYSCFDYTNALADLVIGYMGVPKYSGLNMTDHPQYITVRNERGKEMLSLVENLLEITPTISSGDRRPFVTETVKADDAAKFGQGPAQPAPLFVGNIIAFILNLVGPKGLEFARYSLDYHTIRNYLYVNRKWGKQRANTHMPSYAKKIVEMYNKNGQIDKMLS 5dra-a1-m1-cA_5dra-a1-m2-cA t3284 loop variant of beta1 3 X-RAY DIFFRACTION 69 1.0 32630 (synthetic construct) 32630 (synthetic construct) 190 190 GEILRHYAAGKRNFQHINLQEIELTNASLTGADLSYANLHHANLSRANLRSADLRNANLSHANLSGANLEEANLEAANLRGADLHEANLSGADLQEANLTQANLKDANLSDANLEQANLNNANLSEAMLTRANLEQADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCL GEILRHYAAGKRNFQHINLQEIELTNASLTGADLSYANLHHANLSRANLRSADLRNANLSHANLSGANLEEANLEAANLRGADLHEANLSGADLQEANLTQANLKDANLSDANLEQANLNNANLSEAMLTRANLEQADLSGARTTGARLDDADLRGATVDPVLWRTASLVGARVDVDQAVAFAAAHGLCL 5drv-a1-m1-cA_5drv-a1-m2-cA Crystal structure of the G3BP2 NTF2-like domain in complex with a peptide Q9UN86 Q9UN86 2.75 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 SHMVMEKPSPLLVGREFVRQYYTLLNKAPEYLHRFYGRNSSYVHGGVYGQNDIHHKVLSLNFSECHTKIRHVDAHATLSDGVVVQVMGLLSNSGQPERKFMQTFVLAPEGSVPNKFYVHNDMFRYEDEVFG SHMVMEKPSPLLVGREFVRQYYTLLNKAPEYLHRFYGRNSSYVHGGVYGQNDIHHKVLSLNFSECHTKIRHVDAHATLSDGVVVQVMGLLSNSGQPERKFMQTFVLAPEGSVPNKFYVHNDMFRYEDEVFG 5ds1-a2-m1-cB_5ds1-a2-m1-cC Core domain of the class II small heat-shock protein HSP 17.7 from Pisum sativum P19242 P19242 2.63 X-RAY DIFFRACTION 94 0.989 3888 (Pisum sativum) 3888 (Pisum sativum) 90 90 5ds1-a1-m1-cA_5ds1-a1-m2-cA STPADVKEHPNSYVFMVDMPGVKSGDIKVQVEDENVLLISGERKREKEGVKYLKMERRIGKLMRKFVLPENNIEAISAISQDGVLTVTVN STPADVKEHPNSYVFMVDMPGVKSGDIKVQVEDENVLLISGERKREKEGVKYLKMERRIGKLMRKFVLPENIEAISAISQDGVLTVTVNK 5ds2-a2-m1-cC_5ds2-a2-m1-cD Core domain of the class I small heat-shock protein HSP 18.1 from Pisum sativum P19243 P19243 1.85 X-RAY DIFFRACTION 91 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 94 94 5ds2-a1-m1-cA_5ds2-a1-m1-cB 5ds2-a3-m1-cE_5ds2-a3-m1-cF STRVDWKETPEAHVFKADLPGLKKEEVKVEVEDDRVLQISGERSVEKEDKNDEWHRVERSSGKFLRRFRLPENAKMDKVKASMENGVLTVTVPK STRVDWKETPEAHVFKADLPGLKKEEVKVEVEDDRVLQISGERSVEKEDKNDEWHRVERSSGKFLRRFRLPENAKMDKVKASMENGVLTVTVPK 5dsd-a2-m1-cA_5dsd-a2-m3-cA The crystal structure of the C-terminal domain of Ebola (Bundibugyo) nucleoprotein B8XCM7 B8XCM7 2.31 X-RAY DIFFRACTION 66 1.0 565995 (Bundibugyo ebolavirus) 565995 (Bundibugyo ebolavirus) 103 103 GAMANAQSEQSIAEMYQHILKTQGPFDAILYYHMMKEEPIIFSTSDGKEYTYPDSLEDEYPPWLSEKEAMNEDNRFITMDGQQFYWPVMNHRNKFMAILQHHR GAMANAQSEQSIAEMYQHILKTQGPFDAILYYHMMKEEPIIFSTSDGKEYTYPDSLEDEYPPWLSEKEAMNEDNRFITMDGQQFYWPVMNHRNKFMAILQHHR 5dsd-a3-m1-cA_5dsd-a3-m2-cA The crystal structure of the C-terminal domain of Ebola (Bundibugyo) nucleoprotein B8XCM7 B8XCM7 2.31 X-RAY DIFFRACTION 27 1.0 565995 (Bundibugyo ebolavirus) 565995 (Bundibugyo ebolavirus) 103 103 GAMANAQSEQSIAEMYQHILKTQGPFDAILYYHMMKEEPIIFSTSDGKEYTYPDSLEDEYPPWLSEKEAMNEDNRFITMDGQQFYWPVMNHRNKFMAILQHHR GAMANAQSEQSIAEMYQHILKTQGPFDAILYYHMMKEEPIIFSTSDGKEYTYPDSLEDEYPPWLSEKEAMNEDNRFITMDGQQFYWPVMNHRNKFMAILQHHR 5dsg-a3-m1-cA_5dsg-a3-m1-cB Structure of the M4 muscarinic acetylcholine receptor (M4-mT4L) bound to tiotropium P08173 P08173 2.6 X-RAY DIFFRACTION 50 0.99 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 392 399 GPSSHNRYETVEMVFIATVTGSLSLVTVVGNILVMLSIKVNRQLQTVNNYFLFSLACADLIIGAFSMNLYTVYIIKGYWPLGAVVCDLWLALDYVVSNASVMNLLIISFDRYFCVTKPLTYPARRTTKMAGLMIAAAWVLSFVLWAPAILFWQFVVGKRTVPDNQCFIQFLSNPAVTFGTAIAAFYLPVVIMTVLYIHISLASRSRVNIFEMLRIDEEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYRKVTRTIFAILLAFILTWTPYNVMVLVNTFCQSCIPDTVWSIGYWLCYVNSTINPACYALCNATFKKTFRHLLLC HNRYETVEMVFIATVTGSLSLVTVVGNILVMLSIKVNRQLQTVNNYFLFSLACADLIIGAFSMNLYTVYIIKGYWPLGAVVCDLWLALDYVVSNASVMNLLIISFDRYFCVTKPLTYPARRTTKMAGLMIAAAWVLSFVLWAPAILFWQFVVGKRTVPDNQCFIQFLSNPAVTFGTAIAAFYLPVVIMTVLYIHISLASRSRVNIFEMLRIDEGDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYQMAARERKVTRTIFAILLAFILTWTPYNVMVLVNTFCQSCIPDTVWSIGYWLCYVNSTINPACYALCNATFKKTFRHLLLCQYR 5dt9-a1-m1-cA_5dt9-a1-m2-cA Crystal structure of a putative D-Erythronate-4-Phosphate Dehydrogenase from Vibrio cholerae Q9KQ92 Q9KQ92 2.663 X-RAY DIFFRACTION 74 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 379 379 IPTMKILIDENMPYAQALFSQLGEVILKPGRTLTADDLIDVDALMIRSVTKVNDALLAKANRLKFVGTATAGMDHVDQALLRERGIFFTAAPGCNKVGVAEYVFSVLMVLAQQQGFSVFDKTVGIIGAGQVGSYLAKCLSGIGMKVLLNDPPKQAQGDEREFTELETLLKQADVITLHTPITRGGEWPTHHLIDAAILEQLRSDQILINAARGPVVDNAALKARLQQGDGFTAVLDVFEFEPQVDMELLPLLAFATPHIAGYGLEGKARGTTMIFNSYCEFLGSAHCANPASLLPKAPVPKVYLERAWDEETLRTLTQIIYDVRKDDAQFRREIHQPGAFDLMRKHYWDRREYSAVTLAGGADCHLAPLAKLGFQVEVC IPTMKILIDENMPYAQALFSQLGEVILKPGRTLTADDLIDVDALMIRSVTKVNDALLAKANRLKFVGTATAGMDHVDQALLRERGIFFTAAPGCNKVGVAEYVFSVLMVLAQQQGFSVFDKTVGIIGAGQVGSYLAKCLSGIGMKVLLNDPPKQAQGDEREFTELETLLKQADVITLHTPITRGGEWPTHHLIDAAILEQLRSDQILINAARGPVVDNAALKARLQQGDGFTAVLDVFEFEPQVDMELLPLLAFATPHIAGYGLEGKARGTTMIFNSYCEFLGSAHCANPASLLPKAPVPKVYLERAWDEETLRTLTQIIYDVRKDDAQFRREIHQPGAFDLMRKHYWDRREYSAVTLAGGADCHLAPLAKLGFQVEVC 5duk-a1-m1-cA_5duk-a1-m1-cB N-terminal structure of putative DNA binding transcription factor from Thermoplasmatales archaeon SCGC AB-539-N05 M7T6A0 M7T6A0 2.352 X-RAY DIFFRACTION 89 1.0 1198116 (Thermoplasmatales archaeon SCGC AB-539-N05) 1198116 (Thermoplasmatales archaeon SCGC AB-539-N05) 58 65 DTRREIYKHIVKSPGLHERQLAKELDVPLSTLVYHLHYLERRELIKSDERYARYYATK NADALELDTRREIYKHIVKSPGLHERQLAKELDVPLSTLVYHLHYLERRELIKSDERYARYYATK 5duq-a1-m1-cA_5duq-a1-m1-cB Active human c1-inhibitor in complex with dextran sulfate P05155 P05155 2.9 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 362 365 STEAVLGDALVDFSLKLYHAFSAMKKVETNMAFSPFSIASLLTQVLLGAGENTKTNLESILSYPKDFTCVHQALKGFTTKGVTSVSQIFHSPDLAIRDTFVNASRTLYSSSPRVLSNNSDANLELINTWVAKNTNNKISRLLDSLPSDTRLVLLNAIYLSAKWKTTFDPKKTRMEPFHFKNSVIKVPMMNSKKYPVAHFIDQTLKAKVGQLQLSHNLSLVILVPQNLKHRLEDMEQALSPSVFKAIMEKLEMSKFQPTLLTLPRIKVTTSQDMLSIMEKLEFFDFSYDLNLCGLTEDPDLQVSAMQHQTVLELTETGVEAAAASAISVARTLLVFEVQQPFLFMLWDQQHKFPVFMGRVYDP ESHSTEAVLGDALVDFSLKLYHAFSAMKKVETNMAFSPFSIASLLTQVLLGAGENTKTNLESILSYPKDFTCVHQALKGFTTKGVTSVSQIFHSPDLAIRDTFVNASRTLYSSSPRVLSNNSDANLELINTWVAKNTNNKISRLLDSLPSDTRLVLLNAIYLSAKWKTTFDPKKTRMEPFHFKNSVIKVPMMNSKKYPVAHFIDQTLKAKVGQLQLSHNLSLVILVPQNLKHRLEDMEQALSPSVFKAIMEKLEMSKFQPTLLTLPRIKVTTSQDMLSIMEKLEFFDFSYDLNLCGLTEDPDLQVSAMQHQTVLELTETGVEAAAASAISVARTLLVFEVQQPFLFMLWDQQHKFPVFMGRVYDP 5dur-a1-m1-cB_5dur-a1-m1-cH Influenza A virus H5 hemagglutinin globular head in complex with antibody 100F4 2.82 X-RAY DIFFRACTION 44 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 213 214 QLQLQESGLGLVKPSETLSLTCTVSGDSVSSGSYYWSWLRQPPGKGLEWIGNMHGSGHTNYNPSLKSRVTITPDTSKNHFSLRLSSVTAADTAVYYCARALLTTVTTFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP LQLQESGLGLVKPSETLSLTCTVSGDSVSSGSYYWSWLRQPPGKGLEWIGNMHGSGHTNYNPSLKSRVTITPDTSKNHFSLRLSSVTAADTAVYYCARALLTTVTTFEYWGQGTLVTVSSASTKGPSVFPLAPTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS 5dur-a1-m1-cD_5dur-a1-m1-cL Influenza A virus H5 hemagglutinin globular head in complex with antibody 100F4 2.82 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 ALTQPPSVSGAPGQRVTIPCTGGSSNIGAGYSVHWYQQLPGTAPKLLIYGSNSRPSGVPDRFSGSKSGTSASLAITGLRPEDEADYYCQSYDSSLSGSQVFGAGTRVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP ALTQPPSVSGAPGQRVTIPCTGGSSNIGAGYSVHWYQQLPGTAPKLLIYGSNSRPSGVPDRFSGSKSGTSASLAITGLRPEDEADYYCQSYDSSLSGSQVFGAGTRVTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP 5dv5-a1-m1-cA_5dv5-a1-m1-cB The fatty acid-responsive FadR repressor of Vibrio alginolyticus complex with Palmitoyl-CoA 2.4 X-RAY DIFFRACTION 60 1.0 663 (Vibrio alginolyticus) 663 (Vibrio alginolyticus) 267 267 KSPAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDVDNATNIVEDLLAARTNISPIFMRYAFKANKENSERTIKNVIESCEALMNAASWDDFIASSPYAEKVLQNVKEDNEKDEAKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPASRELALKFYHQLLETCESGQREQLPVVIRHYGMESALIWNEMKKQLPT KSPAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDVDNATNIVEDLLAARTNISPIFMRYAFKANKENSERTIKNVIESCEALMNAASWDDFIASSPYAEKVLQNVKEDNEKDEAKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPASRELALKFYHQLLETCESGQREQLPVVIRHYGMESALIWNEMKKQLPT 5dvk-a1-m1-cA_5dvk-a1-m2-cA Fc Design 7.7 B chain homodimer T366V/K409I P01857 P01857 2.6 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 4nqt-a1-m1-cA_4nqt-a1-m2-cA 4nqu-a1-m1-cA_4nqu-a1-m2-cA 5dvl-a1-m1-cA_5dvl-a1-m2-cA 5dvm-a1-m1-cA_5dvm-a1-m2-cA 5dvn-a1-m1-cA_5dvn-a1-m2-cA 5dvo-a1-m1-cA_5dvo-a1-m1-cB GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLVCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSILTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLVCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSILTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS 5dvy-a1-m1-cA_5dvy-a1-m2-cA 2.95 Angstrom Crystal Structure of the Dimeric Form of Penicillin Binding Protein 2 Prime from Enterococcus faecium Q3XZN6 Q3XZN6 2.95 X-RAY DIFFRACTION 47 1.0 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 628 628 ETQAVEAGEKTVEQFVQALNKGDYNKAAETSKKAANKSALSEKEILDKYQNIYGAADVKGLQISNLKVDKKDDSTYSFSYKAKNTSLGELKDLSYKGTLDRNDGQTTINWQPNLVFPEEGNDKVSLTTQEAARGNIIDRNGEPLATTGKLKQLGVVPSKLGDGGEKTANIKAIASSFDLTEDAINQAISQSWVQPDYFVPLKIIDGATPELPAGATIQEVDGRYYPLGEAAAQLIGYVGDITAEDIDKNPELSSNGKIGRSGLEAFDKDLRGTTGGKLSITDADGVEKKVLIEHEVQNGKDIKLTIDAKAQKTAFDSLGGKAGSTVATTPKTGDLLALASSPSYDPNKTNGISQEDYKAYEENPEQPFISRFATGYAPGSTFKITAAIGLDNGTIDPNEVLTINGLKWQKDSSWGSYQVTRVSDVSQVDLKTALIYSDNIYAQETLKGEKKFRTGLDKFIFGEDLDLPISNPAQISNEDSFNSDILLADTGYGQGELLINPIQQAAYSVFANNGTLVYPKLIADKETKDKKNVIGETAVQTIVPDLREVVQDVNGTAHSLSALGIPLAAKTGTAEIKEKQDEKGKENSFLFAFNPDNQGYVSLENKEDDDSATKRASELLQYLNQNYQ ETQAVEAGEKTVEQFVQALNKGDYNKAAETSKKAANKSALSEKEILDKYQNIYGAADVKGLQISNLKVDKKDDSTYSFSYKAKNTSLGELKDLSYKGTLDRNDGQTTINWQPNLVFPEEGNDKVSLTTQEAARGNIIDRNGEPLATTGKLKQLGVVPSKLGDGGEKTANIKAIASSFDLTEDAINQAISQSWVQPDYFVPLKIIDGATPELPAGATIQEVDGRYYPLGEAAAQLIGYVGDITAEDIDKNPELSSNGKIGRSGLEAFDKDLRGTTGGKLSITDADGVEKKVLIEHEVQNGKDIKLTIDAKAQKTAFDSLGGKAGSTVATTPKTGDLLALASSPSYDPNKTNGISQEDYKAYEENPEQPFISRFATGYAPGSTFKITAAIGLDNGTIDPNEVLTINGLKWQKDSSWGSYQVTRVSDVSQVDLKTALIYSDNIYAQETLKGEKKFRTGLDKFIFGEDLDLPISNPAQISNEDSFNSDILLADTGYGQGELLINPIQQAAYSVFANNGTLVYPKLIADKETKDKKNVIGETAVQTIVPDLREVVQDVNGTAHSLSALGIPLAAKTGTAEIKEKQDEKGKENSFLFAFNPDNQGYVSLENKEDDDSATKRASELLQYLNQNYQ 5dwa-a1-m1-cA_5dwa-a1-m1-cB Crystal structure of pre-specific restriction endonuclease AgeI-DNA complex Q9KHV6 Q9KHV6 1.5 X-RAY DIFFRACTION 23 1.0 53501 (Thalassobius gelatinovorus) 53501 (Thalassobius gelatinovorus) 278 278 5dwb-a1-m1-cA_5dwb-a1-m1-cB MRLDLDFGRGLVAHVMLDNVSEEQYQQISDYFVPLVNKPKLKSRDAIGQAFVMATEVCPDANPSDLWHHVLYRIYIREKIGTDPSQSWVRTSGEAFEVALVERYNPVLARHGIRLTALFKGQKGLALTRMGVADRVGSRKVDVMIEKQGGGRSPDAEGFGVVGGIHAKVSLAERVSDDIPASRIMMGEGLLSVLSTLDVKSFPPPHGDLVNRGELGTPDRPSDKRNYIEGHGDFSACFSYNLRTSPSNATTPSGRHIYVSGFSGQDDEFTDYLVAQLA MRLDLDFGRGLVAHVMLDNVSEEQYQQISDYFVPLVNKPKLKSRDAIGQAFVMATEVCPDANPSDLWHHVLYRIYIREKIGTDPSQSWVRTSGEAFEVALVERYNPVLARHGIRLTALFKGQKGLALTRMGVADRVGSRKVDVMIEKQGGGRSPDAEGFGVVGGIHAKVSLAERVSDDIPASRIMMGEGLLSVLSTLDVKSFPPPHGDLVNRGELGTPDRPSDKRNYIEGHGDFSACFSYNLRTSPSNATTPSGRHIYVSGFSGQDDEFTDYLVAQLA 5dwd-a1-m1-cA_5dwd-a1-m1-cB Crystal structure of esterase PE8 G4RFI7 G4RFI7 1.66 X-RAY DIFFRACTION 15 1.0 1082931 (Pelagibacterium halotolerans B2) 1082931 (Pelagibacterium halotolerans B2) 215 223 VKLSGPMLPAVSGAAKSLVVLLHGYGSDGRDLIALGQFWRDSFPDTMFVAPNAPHVCGGNPFGYEWFPLDLERDRTLARLAGAETAHPVLDAFLADLWAQTGLGPADTILVGFSQGAMMALYTGLRLPEPLKAIIAFSGLIVAPEKLEAEIASKPPVLLIHGDLDDVVPVIGSETALPKLIDLGIDARLHISQGSGHTIAQDGLDTATAFLREIL GLVPRTEPVKLSGPMLPAVSGAAKSLVVLLHGYGSDGRDLIALGQFWRDSFPDTMFVAPNAPHVCGGNPFGYEWFPLDLERDRTLARLAGAETAHPVLDAFLADLWAQTGLGPADTILVGFSQGAMMALYTGLRLPEPLKAIIAFSGLIVAPEKLEAEIASKPPVLLIHGDLDDVVPVIGSETALPKLIDLGIDARLHISQGSGHTIAQDGLDTATAFLREIL 5dwk-a2-m1-cE_5dwk-a2-m1-cC Diacylglycerol Kinase solved by multi crystal multi orientation native SAD P0ABN1 P0ABN1 2.601 X-RAY DIFFRACTION 82 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 84 106 3ze3-a1-m1-cE_3ze3-a1-m1-cD 3ze3-a1-m1-cF_3ze3-a1-m1-cD 3ze3-a2-m1-cB_3ze3-a2-m1-cA 3ze3-a2-m1-cC_3ze3-a2-m1-cA 3ze3-a2-m1-cC_3ze3-a2-m1-cB 3ze4-a1-m1-cA_3ze4-a1-m1-cB 3ze4-a1-m1-cC_3ze4-a1-m1-cA 3ze4-a1-m1-cC_3ze4-a1-m1-cB 3ze5-a1-m1-cA_3ze5-a1-m1-cB 3ze5-a1-m1-cC_3ze5-a1-m1-cA 3ze5-a1-m1-cC_3ze5-a1-m1-cB 4bpd-a1-m1-cB_4bpd-a1-m1-cA 4bpd-a1-m1-cC_4bpd-a1-m1-cA 4bpd-a1-m1-cC_4bpd-a1-m1-cB 4bpd-a2-m1-cE_4bpd-a2-m1-cD 4bpd-a2-m1-cE_4bpd-a2-m1-cF 4bpd-a2-m1-cF_4bpd-a2-m1-cD 4brb-a1-m1-cB_4brb-a1-m1-cA 4brb-a1-m1-cC_4brb-a1-m1-cA 4brb-a1-m1-cC_4brb-a1-m1-cB 4brb-a2-m1-cE_4brb-a2-m1-cD 4brb-a2-m1-cE_4brb-a2-m1-cF 4brb-a2-m1-cF_4brb-a2-m1-cD 4brr-a1-m1-cB_4brr-a1-m1-cA 4brr-a1-m1-cC_4brr-a1-m1-cA 4brr-a1-m1-cC_4brr-a1-m1-cB 4brr-a2-m1-cE_4brr-a2-m1-cD 4brr-a2-m1-cE_4brr-a2-m1-cF 4brr-a2-m1-cF_4brr-a2-m1-cD 4cjz-a1-m1-cA_4cjz-a1-m1-cB 4cjz-a1-m1-cC_4cjz-a1-m1-cA 4cjz-a1-m1-cC_4cjz-a1-m1-cB 4ck0-a1-m1-cA_4ck0-a1-m1-cB 4ck0-a1-m1-cC_4ck0-a1-m1-cA 4ck0-a1-m1-cC_4ck0-a1-m1-cB 4d2e-a1-m1-cB_4d2e-a1-m1-cA 4d2e-a1-m1-cC_4d2e-a1-m1-cA 4d2e-a1-m1-cC_4d2e-a1-m1-cB 4d2e-a2-m1-cE_4d2e-a2-m1-cD 4d2e-a2-m1-cF_4d2e-a2-m1-cD 4up6-a1-m1-cA_4up6-a1-m1-cB 4up6-a1-m1-cC_4up6-a1-m1-cA 4up6-a1-m1-cC_4up6-a1-m1-cB 4uxw-a1-m1-cA_4uxw-a1-m1-cB 4uxw-a1-m1-cC_4uxw-a1-m1-cA 4uxw-a1-m1-cC_4uxw-a1-m1-cB 4uxx-a1-m1-cA_4uxx-a1-m1-cB 4uxx-a1-m1-cC_4uxx-a1-m1-cA 4uxx-a1-m1-cC_4uxx-a1-m1-cB 4uxz-a1-m1-cB_4uxz-a1-m1-cA 4uxz-a1-m1-cC_4uxz-a1-m1-cA 4uxz-a1-m1-cC_4uxz-a1-m1-cB 4uxz-a2-m1-cE_4uxz-a2-m1-cD 4uxz-a2-m1-cF_4uxz-a2-m1-cD 4uyo-a1-m1-cB_4uyo-a1-m1-cA 4uyo-a1-m1-cC_4uyo-a1-m1-cA 4uyo-a1-m1-cC_4uyo-a1-m1-cB 4uyo-a2-m1-cE_4uyo-a2-m1-cD 4uyo-a2-m1-cF_4uyo-a2-m1-cD 5d56-a1-m1-cB_5d56-a1-m1-cA 5d56-a1-m1-cC_5d56-a1-m1-cA 5d56-a1-m1-cC_5d56-a1-m1-cB 5d56-a2-m1-cE_5d56-a2-m1-cD 5d56-a2-m1-cF_5d56-a2-m1-cD 5d56-a2-m1-cF_5d56-a2-m1-cE 5d57-a1-m1-cB_5d57-a1-m1-cA 5d57-a1-m1-cC_5d57-a1-m1-cA 5d57-a1-m1-cC_5d57-a1-m1-cB 5d57-a2-m1-cE_5d57-a2-m1-cD 5d57-a2-m1-cF_5d57-a2-m1-cD 5d57-a2-m1-cF_5d57-a2-m1-cE 5d6i-a1-m1-cA_5d6i-a1-m1-cB 5d6i-a1-m1-cC_5d6i-a1-m1-cA 5d6i-a1-m1-cC_5d6i-a1-m1-cB 5dwk-a1-m1-cD_5dwk-a1-m1-cA 5dwk-a2-m1-cF_5dwk-a2-m1-cC 5dwk-a2-m1-cF_5dwk-a2-m1-cE VAVLLCVVIAAWLDVDAVTRVLLISSVMLVMIVELLNSAIEAVVDRIGSEYHELSGRAKDLGSAAVLIAIIDAVITWAILLWSH GYSWKGLRAAWINEAAFRQEGVAVLLCVVIAAWLDVDAVTRVLLISSVMLVMIVELLNSAIEAVVDRIGSEYHELSGRAKDLGSAAVLIAIIDAVITWAILLWSHF 5dwm-a2-m1-cC_5dwm-a2-m1-cD Crystal structure of Phosphinothricin N-acetyltransferase from Brucella ovis A0A0H3AQB6 A0A0H3AQB6 1.45 X-RAY DIFFRACTION 108 1.0 444178 (Brucella ovis ATCC 25840) 444178 (Brucella ovis ATCC 25840) 179 179 5dwm-a1-m1-cB_5dwm-a1-m1-cA 5dwn-a1-m1-cD_5dwn-a1-m1-cA 5dwn-a2-m1-cC_5dwn-a2-m1-cB MPVIRDFQPADIETITAIYTQAVLTGTGSYEIEPPTMDEMAKRFAAFADQGFPILVAEADGRVLGYAYASYFRVRPAYRWLAEDSIYIAPDAKGQGIGKLLLRELIARISALGFRQLLAVIGDGEHNIGSVKLHESLGFTHCGRIEGSGFKHGRWLDTVLMQLPLNGGRSTEPGPSPLS MPVIRDFQPADIETITAIYTQAVLTGTGSYEIEPPTMDEMAKRFAAFADQGFPILVAEADGRVLGYAYASYFRVRPAYRWLAEDSIYIAPDAKGQGIGKLLLRELIARISALGFRQLLAVIGDGEHNIGSVKLHESLGFTHCGRIEGSGFKHGRWLDTVLMQLPLNGGRSTEPGPSPLS 5dws-a1-m1-cB_5dws-a1-m1-cD Crystal Structure of ITCH WW3 domain in complex with TXNIP peptide Q9H3M7 Q9H3M7 1.65 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 EAPPCYMDVI EAPPCYMDVI 5dws-a1-m1-cE_5dws-a1-m1-cA Crystal Structure of ITCH WW3 domain in complex with TXNIP peptide Q96J02 Q96J02 1.65 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 35 37 GPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQ LGPLPPGWEKRTDSNGRVYFVNHNTRITQWEDPRSQG 5dws-a1-m1-cF_5dws-a1-m1-cH Crystal Structure of ITCH WW3 domain in complex with TXNIP peptide Q9H3M7 Q9H3M7 1.65 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 11 EAPPCYMDVI PEAPPCYMDVI 5dwz-a2-m1-cD_5dwz-a2-m1-cH Structural and functional characterization of PqsBC, a condensing enzyme in the biosynthesis of the Pseudomonas aeruginosa quinolone signal Q9I4X1 Q9I4X1 2.04 X-RAY DIFFRACTION 60 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 340 341 5dwz-a1-m1-cC_5dwz-a1-m1-cF GHKVKLAAITCELPARSYENDDPVFAAVPDLSESWWQFWGVNRRGYFDPRNGENEFSLVVRAAERLLRSSDTAPDSVDMLICSASSPIMTDAGDVLPDLRGRLYPRMANVLSKQLGLSRALPLDSQMEAASFLLNLRLAASMIRQGKAEKVLVVCSEYISNLLDFTSRTSTLFADGCAVALLTRGDDDSCDLLASAEHSDATFYEVATGRWRLPEKPRLYFSLFSQNKMASFVPTNVPIAMRRALEKAGLGSDDIDYFVFHQPAPFLVKAWAEGIGARPEQYQLTMGDTGVMISVSIPYTLMTGLREGKIRPGDRIVMAGAATGWGFAAQVWQLGEVLVC GHKVKLAAITCELPARSYENDDPVFAAVPDLSESWWQFWGVNRRGYFDPRNGENEFSLVVRAAERLLRSSDTAPDSVDMLICSASSPIMTDAGDVLPDLRGRLYPRMANVLSKQLGLSRALPLDSQMEAASFLLNLRLAASMIRQGKAEKVLVVCSEYISNLLDFTSRTSTLFADGCAVALLTRGDDDSCDLLASAEHSDATFYEVATGRWRLPKPRLYFSLFSDGQNKMASFVPTNVPIAMRRALEKAGLGSDDIDYFVFHQPAPFLVKAWAEGIGARPEQYQLTMGDTGVMISVSIPYTLMTGLREGKIRPGDRIVMAGAATGWGFAAQVWQLGEVLVC 5dx5-a1-m1-cB_5dx5-a1-m2-cB Crystal structure of methionine gamma-lyase from Clostridium sporogenes J7TA22 J7TA22 2.37 X-RAY DIFFRACTION 97 1.0 1509 (Clostridium sporogenes) 1509 (Clostridium sporogenes) 398 398 5dx5-a1-m1-cA_5dx5-a1-m2-cA ENIKKMGFATKAIHGGHIGDKQFGSLATPIYQTSTFIFDSAEQGGRRFAGEESGYIYSRLGNPTSTEVENKLALLEGGEAAVVAASGMGAIAASLWSALKSGDHVVASDTLYGCTFALLNHGLTRYGVEVTFVDVSNLDEVKNALKPNTKVVYLETPANPTLKVTDIRKISNMVHESNKECFVFVDNTFCTPYIQRPLELGADVVVHSATKYLNGHGDVIAGFAVGKEEFINQVKLFGIKDMTGSVTGPFESFLIIRGMKTLQLRMEKHCKNAMEVAKFLESHPAVEKVYYPGLESFKYYQLAREQMKLPGAMISFELKGGVEEGKIVMNNVKLATLAVSLGDSETLIQHPASMTHSPYTAEERKAAGISDGLVRLSVGLEDAEDIIDDLKQALDLIV ENIKKMGFATKAIHGGHIGDKQFGSLATPIYQTSTFIFDSAEQGGRRFAGEESGYIYSRLGNPTSTEVENKLALLEGGEAAVVAASGMGAIAASLWSALKSGDHVVASDTLYGCTFALLNHGLTRYGVEVTFVDVSNLDEVKNALKPNTKVVYLETPANPTLKVTDIRKISNMVHESNKECFVFVDNTFCTPYIQRPLELGADVVVHSATKYLNGHGDVIAGFAVGKEEFINQVKLFGIKDMTGSVTGPFESFLIIRGMKTLQLRMEKHCKNAMEVAKFLESHPAVEKVYYPGLESFKYYQLAREQMKLPGAMISFELKGGVEEGKIVMNNVKLATLAVSLGDSETLIQHPASMTHSPYTAEERKAAGISDGLVRLSVGLEDAEDIIDDLKQALDLIV 5dx5-a1-m2-cB_5dx5-a1-m1-cA Crystal structure of methionine gamma-lyase from Clostridium sporogenes J7TA22 J7TA22 2.37 X-RAY DIFFRACTION 74 1.0 1509 (Clostridium sporogenes) 1509 (Clostridium sporogenes) 398 399 5dx5-a1-m1-cB_5dx5-a1-m2-cA ENIKKMGFATKAIHGGHIGDKQFGSLATPIYQTSTFIFDSAEQGGRRFAGEESGYIYSRLGNPTSTEVENKLALLEGGEAAVVAASGMGAIAASLWSALKSGDHVVASDTLYGCTFALLNHGLTRYGVEVTFVDVSNLDEVKNALKPNTKVVYLETPANPTLKVTDIRKISNMVHESNKECFVFVDNTFCTPYIQRPLELGADVVVHSATKYLNGHGDVIAGFAVGKEEFINQVKLFGIKDMTGSVTGPFESFLIIRGMKTLQLRMEKHCKNAMEVAKFLESHPAVEKVYYPGLESFKYYQLAREQMKLPGAMISFELKGGVEEGKIVMNNVKLATLAVSLGDSETLIQHPASMTHSPYTAEERKAAGISDGLVRLSVGLEDAEDIIDDLKQALDLIV ENIKKMGFATKAIHGGHIGDKQFGSLATPIYQTSTFIFDSAEQGGRRFAGEESGYIYSRLGNPTSTEVENKLALLEGGEAAVVAASGMGAIAASLWSALKSGDHVVASDTLYGCTFALLNHGLTRYGVEVTFVDVSNLDEVKNALKPNTKVVYLETPANPTLKVTDIRKISNMVHESNKECFVFVDNTFCTPYIQRPLELGADVVVHSATKYLNGHGDVIAGFAVGKEEFINQVKLFGIKDMTGSVTGPFESFLIIRGMKTLQLRMEKHCKNAMEVAKFLESHPAVEKVYYPGLESFKYYQLAREQMKLPGAMISFELKGGVEEGKIVMNNVKLATLAVSLGDSETLIQHPASMTHSPYTAEERKAAGISDGLVRLSVGLEDAEDIIDDLKQALDLIVK 5dx5-a1-m2-cB_5dx5-a1-m2-cA Crystal structure of methionine gamma-lyase from Clostridium sporogenes J7TA22 J7TA22 2.37 X-RAY DIFFRACTION 233 1.0 1509 (Clostridium sporogenes) 1509 (Clostridium sporogenes) 398 399 5dx5-a1-m1-cB_5dx5-a1-m1-cA ENIKKMGFATKAIHGGHIGDKQFGSLATPIYQTSTFIFDSAEQGGRRFAGEESGYIYSRLGNPTSTEVENKLALLEGGEAAVVAASGMGAIAASLWSALKSGDHVVASDTLYGCTFALLNHGLTRYGVEVTFVDVSNLDEVKNALKPNTKVVYLETPANPTLKVTDIRKISNMVHESNKECFVFVDNTFCTPYIQRPLELGADVVVHSATKYLNGHGDVIAGFAVGKEEFINQVKLFGIKDMTGSVTGPFESFLIIRGMKTLQLRMEKHCKNAMEVAKFLESHPAVEKVYYPGLESFKYYQLAREQMKLPGAMISFELKGGVEEGKIVMNNVKLATLAVSLGDSETLIQHPASMTHSPYTAEERKAAGISDGLVRLSVGLEDAEDIIDDLKQALDLIV ENIKKMGFATKAIHGGHIGDKQFGSLATPIYQTSTFIFDSAEQGGRRFAGEESGYIYSRLGNPTSTEVENKLALLEGGEAAVVAASGMGAIAASLWSALKSGDHVVASDTLYGCTFALLNHGLTRYGVEVTFVDVSNLDEVKNALKPNTKVVYLETPANPTLKVTDIRKISNMVHESNKECFVFVDNTFCTPYIQRPLELGADVVVHSATKYLNGHGDVIAGFAVGKEEFINQVKLFGIKDMTGSVTGPFESFLIIRGMKTLQLRMEKHCKNAMEVAKFLESHPAVEKVYYPGLESFKYYQLAREQMKLPGAMISFELKGGVEEGKIVMNNVKLATLAVSLGDSETLIQHPASMTHSPYTAEERKAAGISDGLVRLSVGLEDAEDIIDDLKQALDLIVK 5dxw-a3-m1-cA_5dxw-a3-m2-cA Crystal structure of mouse PD-L1 nanobody 1.441 X-RAY DIFFRACTION 50 1.0 9835 (Camelidae) 9835 (Camelidae) 114 114 QVQLVETGGGLVQPGGSLRLSCTASGFTFSMHAMTWYRQAPGKQRELVAVITSHGDRANYTDSVRGRFTISRDNTKNMVYLQMNSLKPEDTAVYYCNVPRYDSWGQGTQVTVSS QVQLVETGGGLVQPGGSLRLSCTASGFTFSMHAMTWYRQAPGKQRELVAVITSHGDRANYTDSVRGRFTISRDNTKNMVYLQMNSLKPEDTAVYYCNVPRYDSWGQGTQVTVSS 5dyk-a2-m1-cA_5dyk-a2-m2-cA Crystal structure of the cGMP-dependent protein kinase PKG from Plasmodium falciparum - Apo form Q8I719 Q8I719 2.45 X-RAY DIFFRACTION 82 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 809 809 KKKAIFDDFTGEDSLMEDHLELREKLSEDIDMIKTSLKNNLVCSTLNDNEILTLSNYMQFFVFKSGNLVIKQGEKGSYFFIINSGKFDVYVNDKVKTMGKGSSFGEAALIHNTQRSATIIAETDGTLWGVQRSTFRATLKQLSNRNFNENRTFIDSVSVFDMLTEAQKNMITNACVIQNFKSGETIVKQGDYGDVLYILKEGKATVYINDEEIRVLEKGSYFGERALLYDEPRSATIIAKEPTACASICRKLLNIVLGNLQVVLFRNIMTEALQQSEIFKQFSGDQLNDLADTAIVRDYPANYNILHKDKVKSVKYIIVLEGKVELFLDDTSIGILSRGMSFGDQYVLNQKQPFKHTIKSLEVCKIALITETCLADCLGNNNIDASIDYNNKKSIIKKMYIFRYLTDKQCNLLIEAFRTTRYEEGDYIIQEGEVGSRFYIIKNGEVEIVKNKKRLRTLGKNDYFGERALLYDEPRTASVISKVNNVECWFVDKSVFLQIIQGPMLAHLEERIKMQDTKVEMDELETERIIGRFGTVKLVHHKPTKIRYALKCVSKRSIINLNQQNNIKLEREITAENDHPFIIRLVRTFKDSKYFYFLTELVTGGELYDAIRKLGLLSKSQAQFYLGSIILAIEYLHERNIVYRDLKPENILLDKQGYVKLIDFGCAKKVQGRAYTLVGTPHYMAPEVILGKGYGCTVDIWALGICLYEFICGPLPFGNDEEDQLEIFRDILTGQLTFPDYVTDTDSINLMKRLLCRLPQGRIGCSINGFKDIKDHPFFSNFNWDKLAGRLLDPPLVSKSETYAEDIDF KKKAIFDDFTGEDSLMEDHLELREKLSEDIDMIKTSLKNNLVCSTLNDNEILTLSNYMQFFVFKSGNLVIKQGEKGSYFFIINSGKFDVYVNDKVKTMGKGSSFGEAALIHNTQRSATIIAETDGTLWGVQRSTFRATLKQLSNRNFNENRTFIDSVSVFDMLTEAQKNMITNACVIQNFKSGETIVKQGDYGDVLYILKEGKATVYINDEEIRVLEKGSYFGERALLYDEPRSATIIAKEPTACASICRKLLNIVLGNLQVVLFRNIMTEALQQSEIFKQFSGDQLNDLADTAIVRDYPANYNILHKDKVKSVKYIIVLEGKVELFLDDTSIGILSRGMSFGDQYVLNQKQPFKHTIKSLEVCKIALITETCLADCLGNNNIDASIDYNNKKSIIKKMYIFRYLTDKQCNLLIEAFRTTRYEEGDYIIQEGEVGSRFYIIKNGEVEIVKNKKRLRTLGKNDYFGERALLYDEPRTASVISKVNNVECWFVDKSVFLQIIQGPMLAHLEERIKMQDTKVEMDELETERIIGRFGTVKLVHHKPTKIRYALKCVSKRSIINLNQQNNIKLEREITAENDHPFIIRLVRTFKDSKYFYFLTELVTGGELYDAIRKLGLLSKSQAQFYLGSIILAIEYLHERNIVYRDLKPENILLDKQGYVKLIDFGCAKKVQGRAYTLVGTPHYMAPEVILGKGYGCTVDIWALGICLYEFICGPLPFGNDEEDQLEIFRDILTGQLTFPDYVTDTDSINLMKRLLCRLPQGRIGCSINGFKDIKDHPFFSNFNWDKLAGRLLDPPLVSKSETYAEDIDF 5dym-a1-m1-cA_5dym-a1-m2-cA Crystal structure of a PadR family transcription regulator from hypervirulent Clostridium difficile R20291 - CdPadR_0991 to 1.89 Angstrom resolution 1.894 X-RAY DIFFRACTION 59 1.0 645463 (Clostridioides difficile R20291) 645463 (Clostridioides difficile R20291) 96 96 GYIDILIVSILEKKDCYGYEIAKQVRERSEFLKEGTMYLALKRMESKNLIKSYYSNEQSSGGRRKYYNLTNEGKDFLEIKKQEWRFIKKVMNQFLG GYIDILIVSILEKKDCYGYEIAKQVRERSEFLKEGTMYLALKRMESKNLIKSYYSNEQSSGGRRKYYNLTNEGKDFLEIKKQEWRFIKKVMNQFLG 5dz8-a1-m1-cB_5dz8-a1-m1-cA Streptococcus agalactiae AgI/II polypeptide BspA variable (V) domain Q8E589 Q8E589 2.41 X-RAY DIFFRACTION 223 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 154 165 GPNVAFDIKAQASITAKTKPDGSFEFNHDIDGVKTIGYGKLTGKVNHHYVANKDGSVTAFVDSVTLYKYEYRNVAQNNQNIVFRVLTKDGRPIFEKAHNGNKTFAETLNKTLQLNLKYELKPHASSGNVEVFKIHDDWVHDTHGSALVSYVNNN GPNVAFDIKAQAKGVAEYGNSITAKTKPDGSFEFNHDIDGVKTIGYGKLTGKVNHHYVANKDGSVTAFVDSVTLYKYEYRNVAQNAAVNQNIVFRVLTKDGRPIFEKAHNGNKTFAETLNKTLQLNLKYELKPHASSGNVEVFKIHDDWVHDTHGSALVSYVNNN 5dzc-a1-m1-cA_5dzc-a1-m2-cA Crystal structure of the cGMP-dependent protein kinase PKG from Plasmodium Vivax - AMPPNP bound A5K0N4 A5K0N4 2.3 X-RAY DIFFRACTION 121 1.0 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 816 816 4rz7-a1-m1-cA_4rz7-a1-m2-cA 5dyl-a2-m1-cA_5dyl-a2-m2-cA GMRCNEKKKAIFSNSGEDTLMEDHLQLREKLSEDIEMIKASLKNNLVCSTLNDNEILTLSNYMQFFVFKGGDLVIKQGEKGSYFFIINSGKFDVYVNDKKVKSMGKGSSFGEAALIHNTQRSATIMAETDGTLWGVQRSTFRATLKQLSNRNFNENRSFIDSVSVFDMLTEAQKNMITNACVIQMFKPGETIVKQGDYGDVLFILKEGKATVFINDKEIRVLNKGSYFGERALLYDEPRSATIIAKEPTACASICRKLLNIVLGNLQVVLFRNIMTEALQQSEIFRQFSAEQLNDLADTAIVRDYPANYHILHKKSVKYLIVLEGKVELFLDDESIGILTRGKSFGDQYVLNQKQKFRHTVKSLDVCKIALITESCLADCLGDNNIDASIDHNNKKSIIKKMYIFRYLSEQQCNLLIEAFRTTRYEEGDYIIQEGEVGSRFYIIKNGEVEVTKNGKRLRTLGKNDYFGERALLYDEPRTASIISKATSVECWFVDKSVFLQIIQGPMLTHLEERIKMQDTKVEMHELETERIIGRGTFGTVKLVHHKPTQIRYALKCVSKRSIISLNQQNNIKLEREITAENDHPFIIRLVRTFKDSNCFYFLTELVTGGELYDAIRKLGLLSKPQAQFYLGSIILAIEYLHERNIVYRDLKPENILLDKQGYVKLIDFGCAKKIQGRAYTLVGTPHYMAPEVILGKGYGCTVDIWALGVCLYEFICGPLPFGNDQEDQLEIFRDILTGQLTFPDYVSDQDSINLMKRLLCRLPQGRIGCSINGFKDIKEHAFFGNFNWDKLAGRLLEPPLVSKGETYAEDIDSWD GMRCNEKKKAIFSNSGEDTLMEDHLQLREKLSEDIEMIKASLKNNLVCSTLNDNEILTLSNYMQFFVFKGGDLVIKQGEKGSYFFIINSGKFDVYVNDKKVKSMGKGSSFGEAALIHNTQRSATIMAETDGTLWGVQRSTFRATLKQLSNRNFNENRSFIDSVSVFDMLTEAQKNMITNACVIQMFKPGETIVKQGDYGDVLFILKEGKATVFINDKEIRVLNKGSYFGERALLYDEPRSATIIAKEPTACASICRKLLNIVLGNLQVVLFRNIMTEALQQSEIFRQFSAEQLNDLADTAIVRDYPANYHILHKKSVKYLIVLEGKVELFLDDESIGILTRGKSFGDQYVLNQKQKFRHTVKSLDVCKIALITESCLADCLGDNNIDASIDHNNKKSIIKKMYIFRYLSEQQCNLLIEAFRTTRYEEGDYIIQEGEVGSRFYIIKNGEVEVTKNGKRLRTLGKNDYFGERALLYDEPRTASIISKATSVECWFVDKSVFLQIIQGPMLTHLEERIKMQDTKVEMHELETERIIGRGTFGTVKLVHHKPTQIRYALKCVSKRSIISLNQQNNIKLEREITAENDHPFIIRLVRTFKDSNCFYFLTELVTGGELYDAIRKLGLLSKPQAQFYLGSIILAIEYLHERNIVYRDLKPENILLDKQGYVKLIDFGCAKKIQGRAYTLVGTPHYMAPEVILGKGYGCTVDIWALGVCLYEFICGPLPFGNDQEDQLEIFRDILTGQLTFPDYVSDQDSINLMKRLLCRLPQGRIGCSINGFKDIKEHAFFGNFNWDKLAGRLLEPPLVSKGETYAEDIDSWD 5dzd-a1-m1-cD_5dzd-a1-m1-cC Crystal Structure of WW4 domain of ITCH in complex with TXNIP peptide Q9H3M7 Q9H3M7 1.57 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 12 EAPPCYMDVI TPEAPPCYMDVI 5dzk-a2-m1-c3_5dzk-a2-m1-cm Crystal structure of the active form of the proteolytic complex clpP1 and clpP2 P9WPC5 3.07 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 83331 (Mycobacterium tuberculosis CDC1551) 2 178 5dzk-a1-m1-c1_5dzk-a1-m1-cM 5dzk-a1-m1-c2_5dzk-a1-m1-cN 5dzk-a2-m1-c4_5dzk-a2-m1-cn 7x8x-a2-m1-c0_7x8x-a2-m1-cT 7x8x-a2-m1-c1_7x8x-a2-m1-cb 7x8x-a2-m1-c2_7x8x-a2-m1-ca 7x8x-a2-m1-c3_7x8x-a2-m1-cZ 7x8x-a2-m1-c4_7x8x-a2-m1-cX LL SLTDSVYERLLSERIIFLGSEVNDEIANRLCAQILLLAAEDASKDISLYINSPGGSISAGMAIYDTMVLAPCDIATYAMGMAASMGEFLLAAGTKGKRYALPHARILMHQPLGGVTGSAADIAIQAEQFAVIKKEMFRLNAEFTGQPIERIEADSDRDRWFTAAEALEYGFVDHIITR 5dzm-a7-m1-cB_5dzm-a7-m1-cD HIV-1 Reverse Transcriptase RH domain Q7LYY8 Q7LYY8 2.05 X-RAY DIFFRACTION 39 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 112 112 5dzm-a7-m1-cA_5dzm-a7-m1-cC YQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPA YQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPA 5dzm-a7-m1-cD_5dzm-a7-m1-cA HIV-1 Reverse Transcriptase RH domain Q7LYY8 Q7LYY8 2.05 X-RAY DIFFRACTION 31 0.991 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 112 115 5dzm-a7-m1-cB_5dzm-a7-m1-cC YQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPA MNELYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVP 5dzm-a7-m1-cD_5dzm-a7-m1-cC HIV-1 Reverse Transcriptase RH domain Q7LYY8 Q7LYY8 2.05 X-RAY DIFFRACTION 183 0.991 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 112 115 5dzm-a5-m1-cB_5dzm-a5-m1-cA 5dzm-a6-m1-cD_5dzm-a6-m1-cC 5dzm-a7-m1-cB_5dzm-a7-m1-cA YQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVPA MNELYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNRGRQKVVTLTDTTNQKTELQAIYLALQDSGLEVNIVTDSQYALGIIQAQPDQSESELVNQIIEQLIKKEKVYLAWVP 5dzn-a1-m1-cC_5dzn-a1-m1-cD human T-cell immunoglobulin and mucin domain protein 4 Q96H15 Q96H15 2.3 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 MVTSETVVTEVLGHRVTLPCLYSSWSHNSNSMCWGKDQCPYSGCKEALIRTDGMRVTSRKSAKYRLQGTIPRGDVSLTILNPSESDSGVYCCRIEVPGWFNDVKINVRLNLQRA MVTSETVVTEVLGHRVTLPCLYSSWSHNSNSMCWGKDQCPYSGCKEALIRTDGMRVTSRKSAKYRLQGTIPRGDVSLTILNPSESDSGVYCCRIEVPGWFNDVKINVRLNLQRA 5dzn-a1-m1-cG_5dzn-a1-m1-cD human T-cell immunoglobulin and mucin domain protein 4 Q96H15 Q96H15 2.3 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 114 5dzn-a1-m1-cA_5dzn-a1-m1-cE 5dzn-a1-m1-cB_5dzn-a1-m1-cF 5dzn-a1-m1-cC_5dzn-a1-m1-cH MVTSETVVTEVLGHRVTLPCLYSSWSHNSNSMCWGKDQCPYSGCKEALIRTDGMRVTSRKSAKYRLQGTIPRGDVSLTILNPSESDSGVYCCRIEVPGWFNDVKINVRLNLQR MVTSETVVTEVLGHRVTLPCLYSSWSHNSNSMCWGKDQCPYSGCKEALIRTDGMRVTSRKSAKYRLQGTIPRGDVSLTILNPSESDSGVYCCRIEVPGWFNDVKINVRLNLQRA 5dzq-a1-m1-cA_5dzq-a1-m1-cO C3larvin toxin, an ADP-ribosyltransferase from Paenibacillus larvae, Orthorhombic Form W2E3J5 W2E3J5 1.892 X-RAY DIFFRACTION 57 0.994 392917 (Paenibacillus larvae subsp. larvae BRL-230010) 392917 (Paenibacillus larvae subsp. larvae BRL-230010) 176 184 AWEKKLRANEKELVKEYTANAKPFNTYLRANEGKLGFKPEIDKKILKLDEALKKSKLSETVQVYRGDDTSIFGKEFQNSIYQGNKVNRELFRKLRDEYQGKIRTEYGYLSTSIVSNQQFAMRPVLTTLKVPKGAHAGYVDQYELLLPRNTKYKIDKMYIIVNKGSETIKIEATVQP EYKAWEKKLRANEKELVKEYTANAKPFNTYLRANEGKLGFKPEIDKKILKLDEALKKSKLSETVQVYRGDDTSIFGKEFQNSIYQGNKVNRELFRKLRDEYQGKIRTEYGYLSTSIVSNQQFAMRPVLTTLKVPKGAHAGYVDKISQKGQYELLLPRNTKYKIDKMYIIVNKGSETIKIEATVQ 5dzs-a1-m1-cA_5dzs-a1-m1-cB 1.5 Angstrom Crystal Structure of Shikimate Dehydrogenase 1 from Peptoclostridium difficile. Q187E7 Q187E7 1.5 X-RAY DIFFRACTION 37 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 263 270 MNFFGLVGEKLSHSVSPQIHKRVFEILNIESAYKNFEISKEDISKLDGAIKLLGIQGVNVTVPYKERIMKYLDFISPEAKRIGAVNTILLRENMLYGYNTDYFGLDSMFKMANIDVQGKVAVILGTGGASKAALTYFIDSGIEKLYVSTRKKSKAILIDYEELKHIKGDIILNATPVGMYPNVGISPVSKSIIQNFDILIDLIYNPGETEFLRIGNSMGKKTCDGLYMLVGQAIKSQEIWQDTKIDNSILDVIYNELKLEFLG MNFFGLVGEKLSHSVSPQIHKRVFEILNIESAYKNFEISKEDISKLDGAIKLLGIQGVNVTVPYKERIMKYLDFISPEAKRIGAVNTILLRENMLYGYNTDYFGLDSMFKMANIDVQGKVAVILGTGGASKAALTYFIDSGIEKLYVSTRKKDDKKLLNSKAILIDYEELKHIKGDIILNATPVGMYPNVGISPVSKSIIQNFDILIDLIYNPGETEFLRIGNSMGKKTCDGLYMLVGQAIKSQEIWQDTKIDNSILDVIYNELKLEFLG 5dzs-a2-m1-cA_5dzs-a2-m2-cB 1.5 Angstrom Crystal Structure of Shikimate Dehydrogenase 1 from Peptoclostridium difficile. Q187E7 Q187E7 1.5 X-RAY DIFFRACTION 45 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 263 270 MNFFGLVGEKLSHSVSPQIHKRVFEILNIESAYKNFEISKEDISKLDGAIKLLGIQGVNVTVPYKERIMKYLDFISPEAKRIGAVNTILLRENMLYGYNTDYFGLDSMFKMANIDVQGKVAVILGTGGASKAALTYFIDSGIEKLYVSTRKKSKAILIDYEELKHIKGDIILNATPVGMYPNVGISPVSKSIIQNFDILIDLIYNPGETEFLRIGNSMGKKTCDGLYMLVGQAIKSQEIWQDTKIDNSILDVIYNELKLEFLG MNFFGLVGEKLSHSVSPQIHKRVFEILNIESAYKNFEISKEDISKLDGAIKLLGIQGVNVTVPYKERIMKYLDFISPEAKRIGAVNTILLRENMLYGYNTDYFGLDSMFKMANIDVQGKVAVILGTGGASKAALTYFIDSGIEKLYVSTRKKDDKKLLNSKAILIDYEELKHIKGDIILNATPVGMYPNVGISPVSKSIIQNFDILIDLIYNPGETEFLRIGNSMGKKTCDGLYMLVGQAIKSQEIWQDTKIDNSILDVIYNELKLEFLG 5dzu-a1-m1-cB_5dzu-a1-m1-cA Structure of potato cathepsin D inhibitor P16348 P16348 2.12 X-RAY DIFFRACTION 35 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 176 187 SPLPKPVLDTNGKELNPNSSYRIISIGRGALGGDVYLGKSPNSDAPCPDGVFRYNSDVGPSGTPVRFIPLSGGIFEDQLLNIQFNIATVKLCVSYTIWKVGNLNAYFRTMLLETGGTIGQADSSYFKIVKLSNFGYNLLYCPIDNFCAKVGVVIQNGKRRLALVNENPLDVLFQEV SPLPKPVLDTNGKELNPNSSYRIISIGRGALGGDVYLGKSPNSDAPCPDGVFRYNSDVGPSGTPVRFIPLSGGIFEDQLLNIQFNIATVKLCVSYTIWKVGNLNAYFRTMLLETGGTIGQADSSYFKIVKLSNFGYNLLYCPITPPFLCPFCRDDNFCAKVGVVIQNGKRRLALVNENPLDVLFQEV 5dzv-a1-m1-cA_5dzv-a1-m1-cB Protocadherin alpha 7 extracellular cadherin domains 1-5 Q91Y13 Q91Y13 3.6 X-RAY DIFFRACTION 103 0.994 10090 (Mus musculus) 10090 (Mus musculus) 521 522 QLHYSVPEEAKHGTFVGRIAQDLGLELTELVPRLFRVASKDRGDLLEVNLQNGILFVNSRIDREELCGRSAECSIHLEVIVDRPLQVFHVEVEVKDINDNPPMFPATQKALFILESRLLDSRFPLEGASDADVGSNALLTYRLSTNEHFSLDVPPNHEQVKPLGLVLRKPLDREEAAEIRLLLTATDGGKPELTGTVQLLITVLDVNDNAPVFDRSLYTVKLPENVPNGTLVIKVNASDLDEGVNGDVMYSFSSDVSSDIKSKFHMDTVSGEITVIGIIDFEESKAYKIPLEARDKGFPQLPGHCTILVEVVDANDNAPQLTVSSLSLPVSEDSQPGRVVTLISVFDRDSGANGQVTCSLTPHIPFKLVSTFKNYYSLVLDSALDRETIANYDVIVTARDGGSPSLWATASVSVEVADVNDNAPLFAQPEYTVFVKENNPPGAHIFTVSAMDADAQENALVSYSLVERRVGERLLSSYVSVHAESGKVFALQPLLQFQVSARDAGVPALGSNVTLQVFVLD QLHYSVPEEAKHGTFVGRIAQDLGLELTELVPRLFRVASKDRGDLLEVNLQNGILFVNSRIDREELCGRSAECSIHLEVIVDRPLQVFHVEVEVKDINDNPPMFPATQKALFILESRLLDSRFPLEGASDADVGSNALLTYRLSTNEHFSLDVPPNVKPLGLVLRKPLDREEAAEIRLLLTATDGGKPELTGTVQLLITVLDVNDNAPVFDRSLYTVKLPENVPNGTLVIKVNASDLDEGVNGDVMYSFSSDVSSDIKSKFHMDTVSGEITVIGIIDFEESKAYKIPLEARDKGFPQLPGHCTILVEVVDANDNAPQLTVSSLSLPVSEDSQPGRVVTLISVFDRDSGANGQVTCSLTPHIPFKLVSTFKNYYSLVLDSALDRETIANYDVIVTARDGGSPSLWATASVSVEVADVNDNAPLFAQPEYTVFVKENNPPGAHIFTVSAMDADAQENALVSYSLVERRVGERLLSSYVSVHAESGKVFALQPLDHELLQFQVSARDAGVPALGSNVTLQVFVLD 5dzw-a1-m1-cA_5dzw-a1-m2-cA Protocadherin alpha 4 extracellular cadherin domains 1-4 O88689 O88689 2.43 X-RAY DIFFRACTION 136 1.0 10090 (Mus musculus) 10090 (Mus musculus) 417 417 QIHYSIPEEAKHGTFVGRIAQDLGLELTELVPRLFRVASKDRGDLLEVNLQNGILFVNSRIDREELCGRSAECSIHLEVIVDRPLQVFHVEVEVRDINDNPPRFPTTQKNLFIAESRPLDTWFPLEGASDADIGINAVLTYRLSPNDYFSLEKPSNDERVKGLGLVLRKSLDREETPEIILVLTVTDGGKPELTGSVQLLITVLDANDNAPVFDRSLYTVKLPENVPNGTLVVKVNASDLDEGVNGDIMYSFSTDISPNVKYKFHIDPVSGEIIVKGYIDFEECKSYEILIEGIDKGQLPLSGHCKVIVQVEDINDNVPELEFKSLSLPIRENSPVGTVIALISVSDRDTGVNGQVTCSLTSHVPFKLVSTFKNYYSLVLDSALDRETTADYKVVVTARDGGSPSLWATASVSVEVA QIHYSIPEEAKHGTFVGRIAQDLGLELTELVPRLFRVASKDRGDLLEVNLQNGILFVNSRIDREELCGRSAECSIHLEVIVDRPLQVFHVEVEVRDINDNPPRFPTTQKNLFIAESRPLDTWFPLEGASDADIGINAVLTYRLSPNDYFSLEKPSNDERVKGLGLVLRKSLDREETPEIILVLTVTDGGKPELTGSVQLLITVLDANDNAPVFDRSLYTVKLPENVPNGTLVVKVNASDLDEGVNGDIMYSFSTDISPNVKYKFHIDPVSGEIIVKGYIDFEECKSYEILIEGIDKGQLPLSGHCKVIVQVEDINDNVPELEFKSLSLPIRENSPVGTVIALISVSDRDTGVNGQVTCSLTSHVPFKLVSTFKNYYSLVLDSALDRETTADYKVVVTARDGGSPSLWATASVSVEVA 5dzy-a1-m1-cA_5dzy-a1-m1-cB Protocadherin beta 8 extracellular cadherin domains 1-4 Q91XZ2 Q91XZ2 2.9 X-RAY DIFFRACTION 167 0.998 10090 (Mus musculus) 10090 (Mus musculus) 414 415 5dzx-a1-m1-cB_5dzx-a1-m1-cA 5dzy-a2-m1-cD_5dzy-a2-m1-cC 5dzy-a3-m1-cE_5dzy-a3-m1-cF ISYSMPEETESGYLVANLAQDLGLRVGELTTRGARIHHNGNKELLQLDAERGNLLLKEKPDREALCGATEPCVLHFQIILENPVQFFQTDLQFTDINDHFPEFPDTEMLLKIQEIAQPGTVFPLKAAQDPDIGSNAVQNYTVSPNLHFHVVTLSRSDDRKYPELVLDRALDREEQPELTLILTALDGGAPPKSGTTTVRIEVVDINDNAPQFLQSLYAVEVPENSPLNALVVTVSARDLDAGIHGNVAYSLFQGGGGPQPFVIDEITGEIRLKGALDFEATSYYTMEIVATDSGGLSGKCTVAIQVLDVNDNAPKLTISSLTSSIPENAPEAVVAVFSVSDPDSGDNGRMVCSIQNGLPFLLKPTFKNFYTLVTERPLDRESNAEYNITITVSDLGTPRLTTQHTITVQVSDIN EAISYSMPEETESGYLVANLAQDLGLRVGELTTRGARIHHNGNKELLQLDAERGNLLLKEKPDREALCGATEPCVLHFQIILENPVQFFQTDLQFTDINDHFPEFPDTEMLLKIQEIAQPGTVFPLKAAQDPDIGSNAVQNYTVSPNLHFHVVTLSRSDDRKYPELVLDRALDREEQPELTLILTALDGGAPPKSGTTTVRIEVVDINDNAPQFLQSLYAVEVPENSPLNALVVTVSARDLDAGIHGNVAYSLFQGGGGPQPFVIDEITGEIRLKGALDFEATSYYTMEIVATDSGGLSGKCTVAIQVLDVNDNAPKLTISSLTSSIPENAPEAVVAVFSVSDPDSGDNGRMVCSIQNGLPFLLKPTFKNFYTLVTERPLDRESNAEYNITITVSDLGTPRLTTQHTITVQVSDI 5e01-a1-m1-cA_5e01-a1-m1-cB Crystal structure of HiNmlR, a MerR family regulator lacking the sensor domain, bound to palyndromic promoter DNA P44558 P44558 2.3 X-RAY DIFFRACTION 102 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 126 127 5d8c-a1-m1-cA_5d8c-a1-m1-cB 5d90-a1-m1-cB_5d90-a1-m1-cD 5d90-a2-m1-cA_5d90-a2-m1-cC MTYTTAKAAEKIGISAYTLRFYDKEGLLPNVGRDEYGNRRFTDKDLQWLSLLQCLKNTGMSLKDIKRFAECTIIGDDTIEERLSLFENQTKNVKCQIAELKRYLDLLEYKLAFYQKAKALGSVKAV AMTYTTAKAAEKIGISAYTLRFYDKEGLLPNVGRDEYGNRRFTDKDLQWLSLLQCLKNTGMSLKDIKRFAECTIIGDDTIEERLSLFENQTKNVKCQIAELKRYLDLLEYKLAFYQKAKALGSVKAV 5e03-a1-m1-cA_5e03-a1-m2-cA Crystal structure of mouse CTLA-4 nanobody 1.685 X-RAY DIFFRACTION 58 1.0 9835 (Camelidae) 9835 (Camelidae) 113 113 VQLVESGGGLAQPGGSLRLSCAASGSTISSVAVGWYRQTPGNQREWVATSSTSSTTATYADSVKGRFTISRDNAKNTIYLQMNSLKPEDTAVYYCKTGLTNWGRGTQVTVSSG VQLVESGGGLAQPGGSLRLSCAASGSTISSVAVGWYRQTPGNQREWVATSSTSSTTATYADSVKGRFTISRDNAKNTIYLQMNSLKPEDTAVYYCKTGLTNWGRGTQVTVSSG 5e0n-a1-m2-cX_5e0n-a1-m3-cX Crystal Structure of MSMEG_3139, a monofunctional enoyl CoA isomerase from M.smegmatis A0QX16 A0QX16 2.061 X-RAY DIFFRACTION 93 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 209 209 5e0n-a1-m1-cX_5e0n-a1-m2-cX 5e0n-a1-m1-cX_5e0n-a1-m3-cX TRFVLLDRSRPGVALVTLNRPERMNSMAFDVMVPLLELLGDLRHDNSVRVVILTGAGRGFSSGMEVLDNVILALRRLHQPVIAAVNGAAIGGGLCLALACDVRIAAHNAYFRAAGGLTASELGLSYLLPRAIGTSRAFEIMLTGRDVDAAEAERIGLVSRTVPDDDLLETCFEMAQRMRGFSRPGIELTKRTLWSGLDAASLEGHMQAE TRFVLLDRSRPGVALVTLNRPERMNSMAFDVMVPLLELLGDLRHDNSVRVVILTGAGRGFSSGMEVLDNVILALRRLHQPVIAAVNGAAIGGGLCLALACDVRIAAHNAYFRAAGGLTASELGLSYLLPRAIGTSRAFEIMLTGRDVDAAEAERIGLVSRTVPDDDLLETCFEMAQRMRGFSRPGIELTKRTLWSGLDAASLEGHMQAE 5e0o-a1-m1-cA_5e0o-a1-m2-cA Brugia malayi Trehalose-6 Phosphate Phosphatase in complex with PEG at the active site. A8NS89 A8NS89 3 X-RAY DIFFRACTION 46 1.0 6279 (Brugia malayi) 6279 (Brugia malayi) 418 418 4ofz-a2-m1-cA_4ofz-a2-m2-cA QTVDDFKNLMYKMQETRRAIVFALLNEKDLTKDDVEILKRAYEKLTDNFQREMCTLTTKLSVNIGDETRGLEKDLKYLDALMNIRREEPNLLWPIIMSRVDLFSILANYHPKGKETFLKEYEDTVKFLKTFISSEAITGKKPIFITDWDGTMKDYCSQYATNLQPVYSAVGMTRFAASFTRISAVLTAGPLRGPGILDLTAMPIDGPVMFSGSWGREWWLSGKRVVHQDGITDEGFNALQRLDDEMKDLLHTSPFALVGSGVQRKVDRLTLGVQTVCHHVTSELSNRYQMAVKERMHNSQILVFDPSTELEVEVVAHNSGIIWNKGNGVERLIKSLGDSLQSPGKILICGDTLSDIPMVRQAVKQNPDGVLAIFVGAKMSLREEVKQVIGDESRCCFVSCPDVIHAAMSQILNEHCIG QTVDDFKNLMYKMQETRRAIVFALLNEKDLTKDDVEILKRAYEKLTDNFQREMCTLTTKLSVNIGDETRGLEKDLKYLDALMNIRREEPNLLWPIIMSRVDLFSILANYHPKGKETFLKEYEDTVKFLKTFISSEAITGKKPIFITDWDGTMKDYCSQYATNLQPVYSAVGMTRFAASFTRISAVLTAGPLRGPGILDLTAMPIDGPVMFSGSWGREWWLSGKRVVHQDGITDEGFNALQRLDDEMKDLLHTSPFALVGSGVQRKVDRLTLGVQTVCHHVTSELSNRYQMAVKERMHNSQILVFDPSTELEVEVVAHNSGIIWNKGNGVERLIKSLGDSLQSPGKILICGDTLSDIPMVRQAVKQNPDGVLAIFVGAKMSLREEVKQVIGDESRCCFVSCPDVIHAAMSQILNEHCIG 5e0t-a2-m1-cC_5e0t-a2-m2-cC Human PCNA mutant - S228I P12004 P12004 2.6653 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 MFEARLVQGSILKKVLEALKDLINEACWDISSSGVNLQSMDSSHVSLVQLTLRSEGFDTYRCDRNLAMGVNLTSMSKILKCAGNEDIITLRAEDNADTLALVFEAPNQEKVSDYEMKLMDLDVEQLGIPEQEYSCVVKMPSGEFARICRDLSHIGDAVVISCAKDGVKFSASGELGNGNIKLSQTSEEEAVTIEMNEPVQLTFALRYLNFFTKATPLSSTVTLIMSADVPLVVEYKIADMGHLKYYLAPKIE MFEARLVQGSILKKVLEALKDLINEACWDISSSGVNLQSMDSSHVSLVQLTLRSEGFDTYRCDRNLAMGVNLTSMSKILKCAGNEDIITLRAEDNADTLALVFEAPNQEKVSDYEMKLMDLDVEQLGIPEQEYSCVVKMPSGEFARICRDLSHIGDAVVISCAKDGVKFSASGELGNGNIKLSQTSEEEAVTIEMNEPVQLTFALRYLNFFTKATPLSSTVTLIMSADVPLVVEYKIADMGHLKYYLAPKIE 5e1r-a1-m1-cA_5e1r-a1-m1-cC Crystal structure of pecan (carya illinoinensis) vicilin, a new food allergen B3STU4 B3STU4 2.651 X-RAY DIFFRACTION 169 0.997 32201 (Carya illinoinensis) 32201 (Carya illinoinensis) 357 358 5e1r-a1-m1-cB_5e1r-a1-m1-cA 5e1r-a1-m1-cB_5e1r-a1-m1-cC 5e1r-a2-m1-cD_5e1r-a2-m1-cE 5e1r-a2-m1-cD_5e1r-a2-m1-cF 5e1r-a2-m1-cE_5e1r-a2-m1-cF HNPYYFHSQGLRSRHESGEGEVKYLERFTERTELLRGIENYRVVILEANPNTFVLPYHKDAESVIVVTRGRATLTFVSQERRESFNLEYGDVIRVPAGATEYVINQDSNERLEMVKLLQPVNNPGQFREYYAAGAQSTESYLRVFSNDILVAALNTPRDRLERFFDQQEQREGVIIRASQEKLRALSGPISLKSQRSSYSNQFGQFFEACPEEHRQLQEMDVLVNYAEIKRGAMMVPHYNSKATVVVYVVEGTGRFEMACPHDQFQKVTARLARGDIFVIPAGHPIAITASQNENLRLVGFGINGKNNQRNFLAGQNNIINQLEREAKELSFNMPREEIEEIFERQVESYFVPMERQ RHNPYYFHSQGLRSRHESGEGEVKYLERFTERTELLRGIENYRVVILEANPNTFVLPYHKDAESVIVVTRGRATLTFVSQERRESFNLEYGDVIRVPAGATEYVINQDSNERLEMVKLLQPVNNPGQFREYYAAGAQSTESYLRVFSNDILVAALNTPRDRLERFFDQQEQREGVIIRASQEKLRALSGGPISLKSQRSSYSNQFGQFFEACPEEHRQLQEMDVLVNYAEIKRGAMMVPHYNSKATVVVYVVEGTGRFEMACPHQFQKVTARLARGDIFVIPAGHPIAITASQNENLRLVGFGINGKNNQRNFLAGQNNIINQLEREAKELSFNMPREEIEEIFERQVESYFVPMERQ 5e20-a1-m1-cA_5e20-a1-m2-cA Crystal structure of the organohalide sensing RdhR-CbdbA1625 transcriptional regulator in the 2,3-dichlorophenol bound form A0A1I9GEQ5 A0A1I9GEQ5 1.97 X-RAY DIFFRACTION 228 1.0 255470 (Dehalococcoides mccartyi CBDB1) 255470 (Dehalococcoides mccartyi CBDB1) 169 169 5e1w-a1-m1-cA_5e1w-a1-m2-cA 5e1x-a1-m1-cA_5e1x-a1-m2-cA 5e1z-a1-m1-cB_5e1z-a1-m2-cB LEVLFQGPNEFETLELEHLLWVNITQVKHSIERAWTRELKSLNLSTEKFAILHELMCLGGESTPHTLARRIVFEPHSVSAIVSRMEKDGLIIKTKDLDKKHMVRIKLSEKAIDTFYQALEISNRVYKQMMASITREEKVELSKTLTKLRNHTLPLTHKHTKTLTPFKYI LEVLFQGPNEFETLELEHLLWVNITQVKHSIERAWTRELKSLNLSTEKFAILHELMCLGGESTPHTLARRIVFEPHSVSAIVSRMEKDGLIIKTKDLDKKHMVRIKLSEKAIDTFYQALEISNRVYKQMMASITREEKVELSKTLTKLRNHTLPLTHKHTKTLTPFKYI 5e24-a3-m1-cF_5e24-a3-m1-cE Structure of the Su(H)-Hairless-DNA Repressor Complex P28159 P28159 2.14 X-RAY DIFFRACTION 28 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 422 424 EEKKLTRDAMEKYMRERNDMVIVILHAKVAQKSYGNEKRFFCPPPCIYLFGSGWTRRYEEMLQQGEGEQGAQLCAFIGIGSSDQDMQQLDLNGKQYCAAKTLFISDSDKRKHFMLSVKMFYGNGHDIGVFNSKRIKVISKPSKKKQSLKNADLCIASGTNVALFNRLRSQTVSTRYLHVEGGHFHASSTQWGAFTIHLLDDNESESEEFQVRDGYIHYGATVKLVCSVTGMALPRLIIRKVDKQMALLEADDPVSQLHKCAFYMKDTDRMYLCLSQEKIIQFQATPCPKEPNKEMINDGACWTIISTDKAEYQFYEGMGPVASPVTPVPIVNSLNLNGGGDVAMLELSGDNFTPHLQVWFGDVEAETMYRCTETLLCVVPEISQFRGEWLWVRQPTQVPISLVRNDGIIYATGLTFTYTPEP HIEEKKLTRDAMEKYMRERNDMVIVILHAKVAQKSYGNEKRFFCPPPCIYLFGSGWTRRYEEMLQQGEGEQGAQLCAFIGIGSSDQDMQQLDLNGKQYCAAKTLFISDSDKRKHFMLSVKMFYGNGHDIGVFNSKRIKVISKPSKKKQSLKNADLCIASGTNVALFNRLRSQTVSTRYLHVEGGHFHASSTQWGAFTIHLLDDNESESEEFQVRDGYIHYGATVKLVCSVTGMALPRLIIRKVDKQMALLEADDPVSQLHKCAFYMKDTDRMYLCLSQEKIIQFQATPCPKEPNKEMINDGACWTIISTDKAEYQFYEGMGPVASPVTPVPIVNSLNLNGGGDVAMLELSGDNFTPHLQVWFGDVEAETMYRCTETLLCVVPEISQFRGEWLWVRQPTQVPISLVRNDGIIYATGLTFTYTPEP 5e26-a2-m1-cD_5e26-a2-m1-cC Crystal structure of human PANK2: the catalytic core domain in complex with pantothenate and adenosine diphosphate Q9BZ23 Q9BZ23 2.14 X-RAY DIFFRACTION 190 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 360 361 5e26-a1-m1-cA_5e26-a1-m1-cB RPLFPWFGLDIGGTLVKLVYFEPKDITAEEEEEEVESLKSIRKYLTSNVAYGSTGIRDVHLELKDLTLCGRKGNLHFIRFPTHDMPAFIQMGRDKNFSSLHTVFCATGGGAYKFEQDFLTIGDLQLCKLDELDCLIKGILYIDSVGFNGRSQCYYFENPADSEKCQKLPFDLKNPYPLLLVNIGSGVSILAVYSKDNYKRVTGTSLGGGTFFGLCCLLTGCTTFEEALEMASRGDSTKVDKLVRDIYGGDYERFGLPGWAVASSFGNMMSKEKREAVSKEDLARATLITITNNIGSIARMCALNENINQVVFVGNFLRINTIAMRLLAYALDYWSKGQLKALFSEHEGYFGAVGALLELL KRPLFPWFGLDIGGTLVKLVYFEPKDITAEEEEEEVESLKSIRKYLTSNVAYGSTGIRDVHLELKDLTLCGRKGNLHFIRFPTHDMPAFIQMGRDKNFSSLHTVFCATGGGAYKFEQDFLTIGDLQLCKLDELDCLIKGILYIDSVGFNGRSQCYYFENPADSEKCQKLPFDLKNPYPLLLVNIGSGVSILAVYSKDNYKRVTGTSLGGGTFFGLCCLLTGCTTFEEALEMASRGDSTKVDKLVRDIYGGDYERFGLPGWAVASSFGNMMSKEKREAVSKEDLARATLITITNNIGSIARMCALNENINQVVFVGNFLRINTIAMRLLAYALDYWSKGQLKALFSEHEGYFGAVGALLELL 5e2c-a1-m1-cA_5e2c-a1-m1-cB Crystal structure of N-terminal domain of cytoplasmic peptidase PepQ from Mycobacterium tuberculosis H37Rv A5U5N4 A5U5N4 1.7 X-RAY DIFFRACTION 33 0.992 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 129 129 NARRDKLKAQIAASGLDALISDLINVRYLSGFSGSNGALLVFADERDAVLATDGRYRTQAASQAPDLEVAIERAVGRYLAGRAGEAGVGKLGFESHVVTVDGLDALAGALEGKNTELVRASGTVESLRE SNARRDKLKAQIAASGLDALISDLINVRYLSGFSGSNGALLVFADERDAVLATDGRYRTQAASQAPDLEVAIERAVGRYLAGRAGEAGVGKLGFESHVVTVDGLDALAGALEGKNTELVRASGTVESLR 5e2x-a10-m1-cF_5e2x-a10-m5-cH The crystal structure of the C-terminal domain of Ebola (Tai Forest) nucleoprotein B8XCN6 B8XCN6 2.1 X-RAY DIFFRACTION 25 1.0 186541 (Tai Forest ebolavirus) 186541 (Tai Forest ebolavirus) 94 101 5e2x-a10-m4-cE_5e2x-a10-m1-cG 5e2x-a9-m1-cB_5e2x-a9-m1-cD 5e2x-a9-m2-cA_5e2x-a9-m3-cC QSVEEMYRHILQTQGPFDAILYYYMMTEEPIVFSTSDGKEYVYPDSLEGEHPPWLSEKEALNEDNRFITMDDQQFYWPVMNHRNKFMAILQHHK MAKPHSEQSVEEMYRHILQTQGPFDAILYYYMMTEEPIVFSTSDGKEYVYPDSLEGEHPPWLSEKEALNEDNRFITMDDQQFYWPVMNHRNKFMAILQHHK 5e2x-a9-m1-cB_5e2x-a9-m2-cA The crystal structure of the C-terminal domain of Ebola (Tai Forest) nucleoprotein B8XCN6 B8XCN6 2.1 X-RAY DIFFRACTION 71 1.0 186541 (Tai Forest ebolavirus) 186541 (Tai Forest ebolavirus) 101 101 5e2x-a10-m1-cG_5e2x-a10-m5-cH MAKPHSEQSVEEMYRHILQTQGPFDAILYYYMMTEEPIVFSTSDGKEYVYPDSLEGEHPPWLSEKEALNEDNRFITMDDQQFYWPVMNHRNKFMAILQHHK MAKPHSEQSVEEMYRHILQTQGPFDAILYYYMMTEEPIVFSTSDGKEYVYPDSLEGEHPPWLSEKEALNEDNRFITMDDQQFYWPVMNHRNKFMAILQHHK 5e35-a1-m3-cA_5e35-a1-m2-cA Crystal structure of H5 hemagglutinin mutant (N224K, Q226L, N158D and L133a deletion) from the influenza virus A/chicken/Vietnam/NCVD-093/2008 (H5N1) with LSTc C4P282 C4P282 2.7 X-RAY DIFFRACTION 39 1.0 581024 (Influenza A virus (A/chicken/Vietnam/NCVD-093/2008(H5N1))) 581024 (Influenza A virus (A/chicken/Vietnam/NCVD-093/2008(H5N1))) 323 323 5e32-a1-m1-cA_5e32-a1-m2-cA 5e32-a1-m3-cA_5e32-a1-m1-cA 5e32-a1-m3-cA_5e32-a1-m2-cA 5e34-a1-m1-cA_5e34-a1-m2-cA 5e34-a1-m3-cA_5e34-a1-m1-cA 5e34-a1-m3-cA_5e34-a1-m2-cA 5e35-a1-m1-cA_5e35-a1-m2-cA 5e35-a1-m3-cA_5e35-a1-m1-cA DPGDQICVGYHANNSTEQVDTIMEKNITVTHAQDILEKTHNGKLCNLNGVKPLILKDCSVAGWLLGNPMCDEFLNVSEWSYIVEKASPANGLCYPGDFNDYEELKHLLSRINHFEKIKIIPKSYWSNHETSGVSSACSYLENPSFFRNVVWLTKKDNTYPPIKVNYTNANQKDLLVLWGIHHPNNEAEQKMIYQNLNTYVSVGTSTLNQRLVPKIATRSKVKGLSGRMDFFWTILKPNDTINFDSNGNFIAPEYAYKIVKKGDSAIMKSELEYGNCNTKCQTPIGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNAP DPGDQICVGYHANNSTEQVDTIMEKNITVTHAQDILEKTHNGKLCNLNGVKPLILKDCSVAGWLLGNPMCDEFLNVSEWSYIVEKASPANGLCYPGDFNDYEELKHLLSRINHFEKIKIIPKSYWSNHETSGVSSACSYLENPSFFRNVVWLTKKDNTYPPIKVNYTNANQKDLLVLWGIHHPNNEAEQKMIYQNLNTYVSVGTSTLNQRLVPKIATRSKVKGLSGRMDFFWTILKPNDTINFDSNGNFIAPEYAYKIVKKGDSAIMKSELEYGNCNTKCQTPIGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNAP 5e38-a1-m1-cA_5e38-a1-m1-cD Structural basis of mapping the spontaneous mutations with 5-flourouracil in uracil phosphoribosyltransferase from Mycobacterium tuberculosis P9WFF3 P9WFF3 3 X-RAY DIFFRACTION 44 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 209 213 GVAFQGQVHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVGVARDEQTHQPVPYLDSLPDDLTDVPVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF AAGVAFQGAVQVHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVGVARDEQTHQPVPYLDSLPDDLTDVPVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF 5e38-a1-m1-cB_5e38-a1-m1-cC Structural basis of mapping the spontaneous mutations with 5-flourouracil in uracil phosphoribosyltransferase from Mycobacterium tuberculosis P9WFF3 P9WFF3 3 X-RAY DIFFRACTION 31 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 175 205 VHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF AVQVHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVGVARDEQTHQPVPYLDSLPDDLTDVPVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF 5e38-a1-m1-cB_5e38-a1-m1-cD Structural basis of mapping the spontaneous mutations with 5-flourouracil in uracil phosphoribosyltransferase from Mycobacterium tuberculosis P9WFF3 P9WFF3 3 X-RAY DIFFRACTION 122 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 175 213 VHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF AAGVAFQGAVQVHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVGVARDEQTHQPVPYLDSLPDDLTDVPVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF 5e38-a1-m1-cC_5e38-a1-m1-cA Structural basis of mapping the spontaneous mutations with 5-flourouracil in uracil phosphoribosyltransferase from Mycobacterium tuberculosis P9WFF3 P9WFF3 3 X-RAY DIFFRACTION 153 0.99 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 205 209 AVQVHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVGVARDEQTHQPVPYLDSLPDDLTDVPVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF GVAFQGQVHVVDHPLAAARLTTLRDERTDNAGFRAALRELTLLLIYEATRDAPCEPVPIRTPLAETVGSRLTKPPLLVPVLRAGLGMVDEAHAALPEAHVGFVGVARDEQTHQPVPYLDSLPDDLTDVPVMVLDPMVATGGSMTHTLGLLISRGAADITVLCVVAAPEGIAALQKAAPNVRLFTAAIDEGLNEVAYIVPGLGDAGDRQF 5e3i-a1-m1-cA_5e3i-a1-m1-cB Crystal Structure of a Histidyl-tRNA synthetase from Acinetobacter baumannii with bound L-Histidine and ATP B0VKR7 B0VKR7 2.2 X-RAY DIFFRACTION 240 0.995 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 388 398 SSIVAIKGFNDVLPTQTAAWRRLEQHLASLMDAYGYQQIRLPIVEQTGLFKRAIGDATDIVEKEMYTFFDKGNPPESLTLRPEGTAGCVRALVEHNLLRGATPRVWYMGPMFRYEKPQKGRYRQFHQFGVETFGVATPDIDAELIMLTARLWKRMGVDHMVQLELNTLGETDERTEYRNAAPKLHDFLKEDSLSHFQQLQDYLTAAGIKFVINQKLVRGLDYYNKTVFEWTTTALGSQGTVCAGGRYDGLVGQLKGKADQSVPAVGFAMGMERLLLLLEQVEQAEIVRDCEAFLVAEPAYQSKALVLAEQLRDQLEAANSNIRIKTGSQGSMKSQMKKADQAGAVYAIILGEREWEAQQLAVKELATAEQSQVALAELVPFLIEKFTK SIVAIKGFNDVLPTQTAAWRRLEQHLASLMDAYGYQQIRLPIVEQTGLFKRAIGDATDIVEKEMYTFFDKGNPPESLTLRPEGTAGCVRALVEHNLLRGATPRVWYMGPMFRYEKPQKGRYRQFHQFGVETFGVATPDIDAELIMLTARLWKRMGVDHMVQLELNTLGETDERTEYRNALVAFLNEKILENAPKLHDFLKEDSLSHFQQLQDYLTAAGIKFVINQKLVRGLDYYNKTVFEWTTTALGSQGTVCAGGRYDGLVGQLKGKADQSVPAVGFAMGMERLLLLLEQVEQAEIVRDCEAFLVAEPAYQSKALVLAEQLRDQLEAANSNIRIKTGSQGSMKSQMKKADQAGAVYAIILGEREWEAQQLAVKELATAEQSQVALAELVPFLIEKFT 5e3q-a1-m2-cA_5e3q-a1-m3-cA Crystal structure of DapD in complex with succinyl-CoA from Corynebacterium glutamicum Q8NRE3 Q8NRE3 1.8 X-RAY DIFFRACTION 105 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 278 278 5e3p-a1-m1-cA_5e3p-a1-m2-cA 5e3p-a1-m1-cA_5e3p-a1-m3-cA 5e3p-a1-m2-cA_5e3p-a1-m3-cA 5e3q-a1-m1-cA_5e3q-a1-m2-cA 5e3q-a1-m1-cA_5e3q-a1-m3-cA 5e3r-a1-m1-cA_5e3r-a1-m2-cA 5e3r-a1-m1-cA_5e3r-a1-m3-cA 5e3r-a1-m2-cA_5e3r-a1-m3-cA TTASATGIATLTSTGDVLDVWYPEIGSTDQSALTPLEGVDEDRNVTRKIVTTTIDIDAAPTDTYDAWLRLHLLSHRVFRPHTINLDGIFGLLNNVVWTNFGPCAVDGFALTRARLSRRGQVTVYSVDKFPRMVDYVVPSGVRIGDADRVRLGAYLADGTTVMHEGFVNFNAGTLGASMVEGRISAGVTVDDGTDVGGGASIMGVISLGKRCLLGANSGCGIPLGDDCIIEAGLYITAGTKVLFDGSLHKASTLAGSNGLIFRRDSVSGQVVAVPNTKV TTASATGIATLTSTGDVLDVWYPEIGSTDQSALTPLEGVDEDRNVTRKIVTTTIDIDAAPTDTYDAWLRLHLLSHRVFRPHTINLDGIFGLLNNVVWTNFGPCAVDGFALTRARLSRRGQVTVYSVDKFPRMVDYVVPSGVRIGDADRVRLGAYLADGTTVMHEGFVNFNAGTLGASMVEGRISAGVTVDDGTDVGGGASIMGVISLGKRCLLGANSGCGIPLGDDCIIEAGLYITAGTKVLFDGSLHKASTLAGSNGLIFRRDSVSGQVVAVPNTKV 5e3v-a1-m1-cA_5e3v-a1-m4-cA Truncated X-ray crystal structure of Adenylosuccinate Lyase from Salmonella typhimurium A0A0F6B070 A0A0F6B070 2.72 X-RAY DIFFRACTION 62 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 310 310 5e3v-a1-m2-cA_5e3v-a1-m3-cA MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHLDTLVANFNEEDAARIKTIERTTNHDVKAVEYFLKEKVAFIHFACTSEDINNLSHALMLKTARDEVILPYWRQVINAVKDLATQYRDIPLLSRTHGQPATPSTLGKEMANVAYRMERQFRQLNQVEILGKINNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQVNPIDFENSEGNLGLSNAVLHHLANKLTDSTVLRNLGVGIGYALIAYQSTLKGVSK MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHLDTLVANFNEEDAARIKTIERTTNHDVKAVEYFLKEKVAFIHFACTSEDINNLSHALMLKTARDEVILPYWRQVINAVKDLATQYRDIPLLSRTHGQPATPSTLGKEMANVAYRMERQFRQLNQVEILGKINNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQVNPIDFENSEGNLGLSNAVLHHLANKLTDSTVLRNLGVGIGYALIAYQSTLKGVSK 5e3v-a1-m2-cA_5e3v-a1-m4-cA Truncated X-ray crystal structure of Adenylosuccinate Lyase from Salmonella typhimurium A0A0F6B070 A0A0F6B070 2.72 X-RAY DIFFRACTION 147 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 310 310 5e3v-a1-m1-cA_5e3v-a1-m3-cA MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHLDTLVANFNEEDAARIKTIERTTNHDVKAVEYFLKEKVAFIHFACTSEDINNLSHALMLKTARDEVILPYWRQVINAVKDLATQYRDIPLLSRTHGQPATPSTLGKEMANVAYRMERQFRQLNQVEILGKINNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQVNPIDFENSEGNLGLSNAVLHHLANKLTDSTVLRNLGVGIGYALIAYQSTLKGVSK MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHLDTLVANFNEEDAARIKTIERTTNHDVKAVEYFLKEKVAFIHFACTSEDINNLSHALMLKTARDEVILPYWRQVINAVKDLATQYRDIPLLSRTHGQPATPSTLGKEMANVAYRMERQFRQLNQVEILGKINNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQVNPIDFENSEGNLGLSNAVLHHLANKLTDSTVLRNLGVGIGYALIAYQSTLKGVSK 5e3v-a1-m3-cA_5e3v-a1-m4-cA Truncated X-ray crystal structure of Adenylosuccinate Lyase from Salmonella typhimurium A0A0F6B070 A0A0F6B070 2.72 X-RAY DIFFRACTION 17 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 310 310 5e3v-a1-m1-cA_5e3v-a1-m2-cA MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHLDTLVANFNEEDAARIKTIERTTNHDVKAVEYFLKEKVAFIHFACTSEDINNLSHALMLKTARDEVILPYWRQVINAVKDLATQYRDIPLLSRTHGQPATPSTLGKEMANVAYRMERQFRQLNQVEILGKINNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQVNPIDFENSEGNLGLSNAVLHHLANKLTDSTVLRNLGVGIGYALIAYQSTLKGVSK MELSSLTAVSPVDGRYGDKVSALRGIFSEYGLLKFRVQVEVRWLQKLAAHLDTLVANFNEEDAARIKTIERTTNHDVKAVEYFLKEKVAFIHFACTSEDINNLSHALMLKTARDEVILPYWRQVINAVKDLATQYRDIPLLSRTHGQPATPSTLGKEMANVAYRMERQFRQLNQVEILGKINNAHIAAYPEVDWHQFSEEFVTSLGIQWNPYTTQIEPHDYIAELFDCIARFNTILIDFDRDVWGYIALNHFKQVNPIDFENSEGNLGLSNAVLHHLANKLTDSTVLRNLGVGIGYALIAYQSTLKGVSK 5e3x-a1-m1-cA_5e3x-a1-m2-cA Crystal structure of thermostable Carboxypeptidase (FisCP) from Fervidobacterium Islandicum AW-1 A0A140UHP3 A0A140UHP3 2.197 X-RAY DIFFRACTION 102 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 489 489 MEELKSYYKRVAKYYSAAALLYWDMQTYMPKDAGPYRAEVLSEIGTYAFKQITDDALGKLLETAQPQSEIDEKLVYVGKKEYYKYKKVPPELFQEIMITSTMLEQKWEIAKPRGDFEEVRPLLEKIVDLSRKYADILGYEGEPYNALLDLYEPGMKAEEVDQIFSKVRDFIVEVLEKIERLPKSEDPFNREIGVDKQKEFSNWLLHYLKYDFTKGRLDVSAHPFTNPIGLNDVRITTRYIVNDIRNSIYSTIHEFGHALYALSIPTEFYGLPIGSSASYGFDESQSRFWENVVGRSLAFWKGIYSKFIEIVPEMRGYSVEELWRAVNRVQRSFIRTEADEVTYNLHIIIRFEIERELINGELSVKDVPDKWNELYKKYLGLDVPNNTLGCMQDPHWFGGNFGYFPTYALGNLYAAQIFEKLKEEINFEEVVSAGNFEIIKNFLKEKIHSKGKMYEPSDLIKIVTGKPLSYESFVRYIKDKYSKVYEIEL MEELKSYYKRVAKYYSAAALLYWDMQTYMPKDAGPYRAEVLSEIGTYAFKQITDDALGKLLETAQPQSEIDEKLVYVGKKEYYKYKKVPPELFQEIMITSTMLEQKWEIAKPRGDFEEVRPLLEKIVDLSRKYADILGYEGEPYNALLDLYEPGMKAEEVDQIFSKVRDFIVEVLEKIERLPKSEDPFNREIGVDKQKEFSNWLLHYLKYDFTKGRLDVSAHPFTNPIGLNDVRITTRYIVNDIRNSIYSTIHEFGHALYALSIPTEFYGLPIGSSASYGFDESQSRFWENVVGRSLAFWKGIYSKFIEIVPEMRGYSVEELWRAVNRVQRSFIRTEADEVTYNLHIIIRFEIERELINGELSVKDVPDKWNELYKKYLGLDVPNNTLGCMQDPHWFGGNFGYFPTYALGNLYAAQIFEKLKEEINFEEVVSAGNFEIIKNFLKEKIHSKGKMYEPSDLIKIVTGKPLSYESFVRYIKDKYSKVYEIEL 5e4b-a1-m1-cA_5e4b-a1-m1-cB Hydroxynitrile lyase from the fern Davallia tyermanii in complex with (R)-mandelonitrile / benzaldehyde A0A1C9V3S9 A0A1C9V3S9 1.5 X-RAY DIFFRACTION 145 1.0 328207 (Davallia tyermanii) 328207 (Davallia tyermanii) 176 176 5e46-a1-m1-cB_5e46-a1-m1-cA 5e4d-a1-m1-cA_5e4d-a1-m1-cB 5e4m-a1-m1-cA_5e4m-a1-m1-cB EQFQLRGVLWGKAYSWKITGTTIDKVWSIVGDYVRVDNWVSSVVKSSHVVSGEANQTGCVRRFVCYPASEGESETVDYSELIHMNAAAHQYMYMIVGGNITGFSLMKNYVSNISLSSLPEEDGGGVIFYWSFTAEPASNLTEQKCIEIVFPLYTTALKDLCTHLSIPESSVTLLDD EQFQLRGVLWGKAYSWKITGTTIDKVWSIVGDYVRVDNWVSSVVKSSHVVSGEANQTGCVRRFVCYPASEGESETVDYSELIHMNAAAHQYMYMIVGGNITGFSLMKNYVSNISLSSLPEEDGGGVIFYWSFTAEPASNLTEQKCIEIVFPLYTTALKDLCTHLSIPESSVTLLDD 5e4g-a1-m1-cA_5e4g-a1-m2-cA Crystal structure of human growth differentiation factor 11 (GDF-11) O95390 O95390 1.5 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 3hh2-a1-m1-cA_3hh2-a1-m1-cB 3sek-a1-m1-cB_3sek-a1-m2-cB 6mac-a1-m1-cA_6mac-a1-m2-cA 7mrz-a1-m1-cA_7mrz-a1-m2-cA LGLDCDEHSSESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGQCEYMFMQKYPHTHLVQQANPRGSAGPCCTPTKMSPINMLYFNDKQQIIYGKIPGMVVDRCGCS LGLDCDEHSSESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGQCEYMFMQKYPHTHLVQQANPRGSAGPCCTPTKMSPINMLYFNDKQQIIYGKIPGMVVDRCGCS 5e4x-a1-m2-cA_5e4x-a1-m8-cA Crystal structure of cpSRP43 chromodomain 3 O22265 O22265 2.75 X-RAY DIFFRACTION 53 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 50 50 5e4x-a1-m1-cA_5e4x-a1-m7-cA 5e4x-a1-m1-cA_5e4x-a1-m8-cA 5e4x-a1-m2-cA_5e4x-a1-m7-cA 5e4x-a1-m3-cA_5e4x-a1-m5-cA 5e4x-a1-m3-cA_5e4x-a1-m6-cA 5e4x-a1-m4-cA_5e4x-a1-m5-cA 5e4x-a1-m4-cA_5e4x-a1-m6-cA YAVAESVIGKRVGDDGKTIEYLVKWTDMSDATWEPQDNVDSTLVLLYQQQ YAVAESVIGKRVGDDGKTIEYLVKWTDMSDATWEPQDNVDSTLVLLYQQQ 5e57-a2-m1-cB_5e57-a2-m2-cB Crystal structure of Mycobacterium smegmatis AmtR A0R089 A0R089 1.98 X-RAY DIFFRACTION 95 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 200 200 TAREEILDAAAELFTTHGYGSTSTRRIADEVGVRQASLYHHFATKDDILDALLAGTVDEPLELAHGLLGESGPAAPRLHALVIYDASQLCAGRWNLGALYLLPELRTDRFAPFRRRRAELRSAYRSLAAAVIAECGGPPEADDLPFRLVESVINSRSDDAVVPPEQPWVIGEGALRVLGFDGDFAELAAATASRLGVRPP TAREEILDAAAELFTTHGYGSTSTRRIADEVGVRQASLYHHFATKDDILDALLAGTVDEPLELAHGLLGESGPAAPRLHALVIYDASQLCAGRWNLGALYLLPELRTDRFAPFRRRRAELRSAYRSLAAAVIAECGGPPEADDLPFRLVESVINSRSDDAVVPPEQPWVIGEGALRVLGFDGDFAELAAATASRLGVRPP 5e5x-a1-m8-cA_5e5x-a1-m9-cA Structure of the amyloid forming peptide ANFLVH (residues 13-18) from islet amyloid polypeptide 1.61 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5e5x-a1-m10-cA_5e5x-a1-m9-cA 5e5x-a1-m1-cA_5e5x-a1-m4-cA 5e5x-a1-m1-cA_5e5x-a1-m5-cA 5e5x-a1-m2-cA_5e5x-a1-m3-cA 5e5x-a1-m3-cA_5e5x-a1-m4-cA 5e5x-a1-m6-cA_5e5x-a1-m7-cA 5e5x-a1-m7-cA_5e5x-a1-m8-cA ANFLVH ANFLVH 5e5z-a1-m5-cA_5e5z-a1-m9-cA Structure of the amyloid forming peptide LVHSSN (residues 1.664 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5e5z-a1-m10-cA_5e5z-a1-m4-cA 5e5z-a1-m10-cA_5e5z-a1-m6-cA 5e5z-a1-m1-cA_5e5z-a1-m7-cA 5e5z-a1-m1-cA_5e5z-a1-m8-cA 5e5z-a1-m2-cA_5e5z-a1-m7-cA 5e5z-a1-m3-cA_5e5z-a1-m8-cA 5e5z-a1-m4-cA_5e5z-a1-m9-cA LVHSSN LVHSSN 5e61-a1-m4-cA_5e61-a1-m6-cB Structure of amyloid-forming peptide FGAILSS (residues 23-29) from islet amyloid polypeptide 1.79 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 5e61-a1-m1-cA_5e61-a1-m3-cB 5e61-a1-m1-cB_5e61-a1-m2-cA 5e61-a1-m4-cB_5e61-a1-m5-cA FGAILSS FGAILSS 5e61-a1-m5-cA_5e61-a1-m5-cB Structure of amyloid-forming peptide FGAILSS (residues 23-29) from islet amyloid polypeptide 1.79 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 5e61-a1-m1-cA_5e61-a1-m1-cB 5e61-a1-m2-cA_5e61-a1-m2-cB 5e61-a1-m3-cA_5e61-a1-m3-cB 5e61-a1-m4-cA_5e61-a1-m4-cB FGAILSS FGAILSS 5e68-a1-m1-cA_5e68-a1-m1-cB High resolution crystal structure of LuxS - Quorum sensor molecular complex from Salmonella typhi at 1.58 Angstroms Q8Z4D7 Q8Z4D7 1.58 X-RAY DIFFRACTION 162 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 166 171 5v2w-a1-m1-cA_5v2w-a1-m1-cB LLDSFAVDHTRMQAPAVRTAKTMNTPHGDAITVFDLRFCIPNKEVMPEKGIHTLEHLFAGFMRDHLNGNGVEIIDISPMGRTGFYMSLIGTPDEQRVADAWKAAMADVLKVQDQNQIPELNVYQCGTYQMHSLSEAQDIARHILERDVRVNSNKELALPKEKLQEL LLDSFAVDHTRMQAPAVRTAKTMNTPHGDAITVFDLRFCIPNKEVMPEKGIHTLEHLFAGFMRDHLNGNGVEIIDISPMGRTGFYMSLIGTPDEQRVADAWKAAMADVLKVQDQNQIPELNVYQCGTYQMHSLSEAQDIARHILERDVRVNSNKELALPKEKLQELHILEH 5e6f-a1-m1-cA_5e6f-a1-m1-cB Canarypox virus resolvase Q6VZ86 Q6VZ86 2.6 X-RAY DIFFRACTION 45 1.0 44088 (Canarypox virus) 44088 (Canarypox virus) 130 130 TIICSVDIGIKNPAYTIFRYEDSKVSLIAIEKSDWSDNWEYNVTKDLTKYNPDIIVLEKQGYRSPNAKIIYFIKGFFYNTNTSVIVRNPTFQGGSYSDRKKQSVITFMDKLSKLDDIADSFNLGIAYIES TIICSVDIGIKNPAYTIFRYEDSKVSLIAIEKSDWSDNWEYNVTKDLTKYNPDIIVLEKQGYRSPNAKIIYFIKGFFYNTNTSVIVRNPTFQGGSYSDRKKQSVITFMDKLSKLDDIADSFNLGIAYIES 5e6s-a4-m1-cA_5e6s-a4-m3-cC Structures of leukocyte integrin aLB2: The aI domain, the headpiece, and the pocket for the internal ligand P20701 P20701 2.15 X-RAY DIFFRACTION 10 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 578 578 YNLDVRGARSFSPPRAGRHFGYRVLQVGNGVIVGAPGEGNSTGSLYQCQSGTGHCLPVTLRGSNYTSKYLGMTLATDPTDGSILACDPGLSRTCDQNTYLSGLCYLFRQNLQGPMLQGRPGFQECIKGNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKWKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKKILTSFNMELSSSGISADLSRGHAVVGAVGAKDWAGGFLDLKADLQDDTFIGNEPLTPEVRAGYLGYTVTWLPSRQKTSLLASGAPRYQHMGRVLLFQEPQGGGHWSQVQTIHGTQIGSYFGGELCGVDVDQDGETELLLIGAPLFYGEQRGGRVFIYQRRQLGFEEVSELQGDPGYPLGRFGEAITALTDINGDGLVDVAVGAPLEEQGAVYIFNGHGGLSPQPSQRIEGTQVLSGIQWFGRSIHGVKDLEGDGLADVAVGAESQMIVLSSRP YNLDVRGARSFSPPRAGRHFGYRVLQVGNGVIVGAPGEGNSTGSLYQCQSGTGHCLPVTLRGSNYTSKYLGMTLATDPTDGSILACDPGLSRTCDQNTYLSGLCYLFRQNLQGPMLQGRPGFQECIKGNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKWKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKLTSFNMELSSSGISADLSRGHAVVGAVGAKDWAGGFLDLKADLQDDTFIGNEPLTPEVRAGYLGYTVTWLPSRQKTSLLASGAPRYQHMGRVLLFQEPQGGGHWSQVQTIHGTQIGSYFGGELCGVDVDQDGETELLLIGAPLFYGEQRGGRVFIYQRRQLGFEEVSELQGDPGYPLGRFGEAITALTDINGDGLVDVAVGAPLEEQGAVYIFNGRHGGLSPQPSQRIEGTQVLSGIQWFGRSIHGVKDLEGDGLADVAVGAESQMIVLSSRPV 5e6s-a4-m3-cC_5e6s-a4-m2-cE Structures of leukocyte integrin aLB2: The aI domain, the headpiece, and the pocket for the internal ligand P20701 P20701 2.15 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 578 580 5e6s-a4-m1-cA_5e6s-a4-m2-cE YNLDVRGARSFSPPRAGRHFGYRVLQVGNGVIVGAPGEGNSTGSLYQCQSGTGHCLPVTLRGSNYTSKYLGMTLATDPTDGSILACDPGLSRTCDQNTYLSGLCYLFRQNLQGPMLQGRPGFQECIKGNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKWKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKLTSFNMELSSSGISADLSRGHAVVGAVGAKDWAGGFLDLKADLQDDTFIGNEPLTPEVRAGYLGYTVTWLPSRQKTSLLASGAPRYQHMGRVLLFQEPQGGGHWSQVQTIHGTQIGSYFGGELCGVDVDQDGETELLLIGAPLFYGEQRGGRVFIYQRRQLGFEEVSELQGDPGYPLGRFGEAITALTDINGDGLVDVAVGAPLEEQGAVYIFNGRHGGLSPQPSQRIEGTQVLSGIQWFGRSIHGVKDLEGDGLADVAVGAESQMIVLSSRPV YNLDVRGARSFSPPRAGRHFGYRVLQVGNGVIVGAPGEGNSTGSLYQCQSGTGHCLPVTLRGSNYTSKYLGMTLATDPTDGSILACDPGLSRTCDQNTYLSGLCYLFRQNLQGPMLQGRPGFQECIKGNVDLVFLFDGSMSLQPDEFQKILDFMKDVMKKLSNTSYQFAAVQFSTSYKTEFDFSDYVKWKDPDALLKHVKHMLLLTNTFGAINYVATEVFREELGARPDATKVLIIITDGEATDSGNIDAAKDIIRYIIGIGKHFQTKESQETLHKFASKPASEFVKILDTFEKLKDLFTELQKKILTSFNMELSSSGISADLSRGHAVVGAVGAKDWAGGFLDLKADLQDDTFIGNEPLTPEVRAGYLGYTVTWLPSRQKTSLLASGAPRYQHMGRVLLFQEPQGGGHWSQVQTIHGTQIGSYFGGELCGVDVDQDGETELLLIGAPLFYGEQRGGRVFIYQRRQLGFEEVSELQGDPGYPLGRFGEAITALTDINGDGLVDVAVGAPLEEQGAVYIFNGRHGGLSPQPSQRIEGTQVLSGIQWFGRSIHGVKDLEGDGLADVAVGAESQMIVLSSRPV 5e6t-a1-m1-cB_5e6t-a1-m1-cA Crystal structure of bovine norovirus P domain E6Y5B1 E6Y5B1 2.27 X-RAY DIFFRACTION 87 1.0 571217 (Norovirus Bo/GIII/B309/2003/BEL) 571217 (Norovirus Bo/GIII/B309/2003/BEL) 284 288 FTLPNLPVNNLSHSRVMEPIAQMMSSRNFPASVQFQNGRCTLSGDLLGTTPSSPSDLGAFVGLIAEPGSRVVELSQPNQEDFHAGSAPAPFGFPDFSDCSLTFVVASATTVGERTVNARSPQNFTPALGHITFDEEAPADLFRAHLRNLWDPTEHSFWRIPDYRADVLGSEFAPSVSAPGVGETLLFFMCNVPRLNGANPNPCPCLLPQEWITHFVSERAALQSDVALLNYVNPNTGRVLFEAKLYANGFLTVNLGASDQATLPVDGIFKFVSWVSFYYQLRPV GSPPFTLPNLPVNNLSHSRVMEPIAQMMSSRNFPASVQFQNGRCTLSGDLLGTTPSSPSDLGAFVGLIAEPGSRVVELSQPNQEDFHAGSAPAPFGFPDFSDCSLTFVVASATTVGERTVNARSPQNFTPALGHITFDEEAPADLFRAHLRNLWDPTEHSFWRIPDYRADVLGSEFAPSVSAPGVGETLLFFMCNVPRLNGANPNPCPCLLPQEWITHFVSERAALQSDVALLNYVNPNTGRVLFEAKLYANGFLTVNLGASDQATLPVDGIFKFVSWVSFYYQLRPV 5e7s-a1-m1-cC_5e7s-a1-m2-cE Hexameric structure of a LonA protease domain in active state A0A059VAZ3 A0A059VAZ3 3.03 X-RAY DIFFRACTION 15 0.997 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 287 288 5e7s-a1-m1-cA_5e7s-a1-m2-cA 5e7s-a1-m1-cD_5e7s-a1-m2-cD 5e7s-a1-m1-cF_5e7s-a1-m2-cB 5e7s-a1-m2-cC_5e7s-a1-m1-cE 5e7s-a1-m2-cF_5e7s-a1-m1-cB 5e7s-a2-m1-cH_5e7s-a2-m3-cG 5e7s-a2-m1-cK_5e7s-a2-m3-cJ 5e7s-a2-m3-cH_5e7s-a2-m1-cG 5e7s-a2-m3-cK_5e7s-a2-m1-cJ GYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPP YTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 5e7s-a2-m3-cI_5e7s-a2-m1-cG Hexameric structure of a LonA protease domain in active state A0A059VAZ3 A0A059VAZ3 3.03 X-RAY DIFFRACTION 15 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 287 289 5e7s-a1-m1-cA_5e7s-a1-m2-cB 5e7s-a1-m1-cB_5e7s-a1-m2-cA 5e7s-a1-m1-cC_5e7s-a1-m2-cF 5e7s-a1-m1-cE_5e7s-a1-m2-cD 5e7s-a1-m1-cF_5e7s-a1-m2-cC 5e7s-a1-m2-cE_5e7s-a1-m1-cD 5e7s-a2-m1-cH_5e7s-a2-m3-cH 5e7s-a2-m1-cI_5e7s-a2-m3-cG 5e7s-a2-m1-cK_5e7s-a2-m3-cK GYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPP PGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPV 5e7t-a1-m2-cA_5e7t-a1-m3-cA Structure of the tripod (BppUct-A-L) from the baseplate of bacteriophage Tuc2009 Q9AYV5 Q9AYV5 2.9 X-RAY DIFFRACTION 16 1.0 35241 (Lactococcus phage Tuc2009) 35241 (Lactococcus phage Tuc2009) 129 129 5e7t-a1-m1-cA_5e7t-a1-m2-cA 5e7t-a1-m1-cA_5e7t-a1-m3-cA PSGFNVVIEHDSEYQPDVKVTYYKNSIGTEANGFDTGPVFGGERIYNLASSLSYIRNKINVELPSVYAMAGEVVNNGNELLLINGTEIMRFVIEGATITKGYVEKVKPPTNLIVSDVTSTSAKISWENG PSGFNVVIEHDSEYQPDVKVTYYKNSIGTEANGFDTGPVFGGERIYNLASSLSYIRNKINVELPSVYAMAGEVVNNGNELLLINGTEIMRFVIEGATITKGYVEKVKPPTNLIVSDVTSTSAKISWENG 5e8h-a1-m1-cB_5e8h-a1-m1-cA Crystal structure of geranylfarnesyl pyrophosphate synthases 2 from Arabidopsis thaliana Q9LUD9 Q9LUD9 2.3 X-RAY DIFFRACTION 142 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 270 278 HNSAFDFKLYMIRKAESVNAALDVSVPLREPVQEAVRYSLLAGGKRVRPLLCIAVCELVGGDEATAMSAACAVEMIHTSSLIHDDLPCMDNADLRRGKPTNHKVYGEDMAVLAGDALLALAFEHMTVVSSGLVAPERMIRAVVELARAIGTTGLVAGQMIDLAVGLEHLEFIHLHKTAALLEAAAVLGVIMGGGTEEEIEKLRKYARCIGLLFQVVDDILDVLTYPRLIGLERSKEVAEKLRREAEEQLLGFDPSKAAPLVALASYIACR CNDHNSAFDFKLYMIRKAESVNAALDVSVPLREPLTVQEAVRYSLLAGGKRVRPLLCIAVCELVGGDEATAMSAACAVEMIHTSSLIHDDLPCMDNADLRRGKPTNHKVYGEDMAVLAGDALLALAFEHMTVVSSGLVAPERMIRAVVELARAIGTTGLVAGQMIDLGLEHLEFIHLHKTAALLEAAAVLGVIMGGGTEEEIEKLRKYARCIGLLFQVVDDILDVTKSTEELTYPRLIGLERSKEVAEKLRREAEEQLLGFDPSKAAPLVALASYIAC 5e8i-a2-m1-cD_5e8i-a2-m1-cJ Crystal structure of the DNA binding domain of human transcription factor FLI1 in complex with a 10-mer DNA ACCGGAAGTG Q01543 Q01543 3.45 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 4irg-a1-m1-cA_4irg-a1-m2-cA 4irh-a1-m1-cA_4irh-a1-m2-cA 5e8g-a1-m1-cA_5e8g-a1-m1-cC 5e8g-a2-m1-cB_5e8g-a2-m1-cD 5e8i-a1-m1-cA_5e8i-a1-m1-cG GQIQLWQFLLELLSDSANASCITWEGTNGEFKMTDPDEVARRWGERKSKPNMNYDKLSRALRYYYDKNIMTKVHGKRYAYKFDFHGIAQALQP GQIQLWQFLLELLSDSANASCITWEGTNGEFKMTDPDEVARRWGERKSKPNMNYDKLSRALRYYYDKNIMTKVHGKRYAYKFDFHGIAQALQP 5e8l-a1-m1-cA_5e8l-a1-m1-cB Crystal structure of geranylgeranyl pyrophosphate synthase 11 from Arabidopsis thaliana P34802 P34802 2.807 X-RAY DIFFRACTION 146 0.982 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 278 281 SFDFMSYIITKAELVNKALDSAVPLREPLKIHEAMRYSLLAGGKRVRPVLCIAACELVGGEESTAMPAACAVEMIHTMSLIHDDLPCMDNDDLRRGKPTNHKVFGEDVAVLAGDALLSFAFEHLASATSSDVVSPVRVVRAVGELAKAIGTEGLVAGQVVDISVGLEHLEFIHLHKTAALLEASAVLGAIVGGGSDDEIERLRKFARCIGLLFQVVDDILDVTKLIADKLTYPKIMGLEKSREFAEKLNREARDQLLGFDSDKVAPLLALANYIAYRQ SFDFMSYIITKAELVNKALDSAVPLREPLKIHEAMRYSLLAGGKRVRPVLCIAACELVGGEESTAMPAACAVEMIHTMSLIHDDLPCMDNDDLRRGKPTNHKVFGEDVAVLAGDALLSFAFEHLASATSSDVVSPVRVVRAVGELAKAIGTEGLVAGQVVDISSEGLDLNDVGLEHLEFIHLHKTAALLEASAVLGAIVGGGSDDEIERLRKFARCIGLLFQVVDDILDVTKLTYPKIMGLEKSREFAEKLNREARDQLLGFDSDKVAPLLALANYIAYRQ 5e96-a1-m1-cA_5e96-a1-m2-cA Crystal structure of aminoglycoside 6'-acetyltransferase type Ii Q47764 Q47764 2.1 X-RAY DIFFRACTION 82 1.0 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 155 155 MIISEFDRNNPVLKDQLSDLLRLTWPEEYGDSSAEEVEEMMNPERIAVAAVDQDELVGFIGAIPQYGITGWELHPLVVESSRRKNQIGTRLVNYLEKEVASRGGITIYLGTDDLDHEHPYEFYEKLGYKIVGVLPNANGWDKPDIWMAKTIIPRP MIISEFDRNNPVLKDQLSDLLRLTWPEEYGDSSAEEVEEMMNPERIAVAAVDQDELVGFIGAIPQYGITGWELHPLVVESSRRKNQIGTRLVNYLEKEVASRGGITIYLGTDDLDHEHPYEFYEKLGYKIVGVLPNANGWDKPDIWMAKTIIPRP 5e9a-a2-m1-cE_5e9a-a2-m1-cF Crystal structure analysis of the cold-adamped beta-galactosidase from Rahnella sp. R3 A0A0B4U8I5 A0A0B4U8I5 2.561 X-RAY DIFFRACTION 165 1.0 1591056 (Rahnella sp. R3) 1591056 (Rahnella sp. R3) 684 684 5e9a-a1-m1-cA_5e9a-a1-m1-cB 5e9a-a1-m1-cA_5e9a-a1-m1-cC 5e9a-a1-m1-cB_5e9a-a1-m1-cC 5e9a-a2-m1-cD_5e9a-a2-m1-cE 5e9a-a2-m1-cD_5e9a-a2-m1-cF TKFPLLSSKISGLLHGADYNPEQWLDHPDVLVRDVEMMKEARCNVMSVGIFSWSALEPEEGRYTFDWMDQVLNRLHENGISVFLATPSGARPAWMSQKYPQVLRVGRDRVPALHGGRHNHCMSSPVYREKVQLMNGQLAKRYAHHPAVIGWHISNEYGGECHCDTCQGQFRDWLKARYVTLDALNKAWWSTFWSHTYTDWSQLESPSPQGENGVHGLNLDWRRFNTDQVTRFCSEEIRPLKAENPALPATTNFMEYFNDYDYWKLAGVLDFISWDSYPMWHTRQDDIGLAAYTAMYHDLMRTLKQGKPFVLMESTPSFTNWQPTSKLKKPGMHILSSLQAVAHGADSVQYFQWRKSRGSCEKFHGAVVDHVGHIDTRVGREVAELGSILSALAPVAGSRVEAKVAIIFDWESRWAMDDAMGPRNAGLHYENTVADHYRALWAQGIAVDVINADCDLQGYDLVIAPMLYMVREGVGERISAFVQAGGRFVATYWSGIVNETDLCFLNGFPGPLRPVLGIWAEEIDSLTDEQHNSVAGVEGNALGLSGPYRASQLCEVIHLEGAAALATYGDDFYAGNPAVTVNLYGKGQAYYVASRNDQQFHADFFTALAKEMKLPRAINTPLPEGVTAARRTDGESEFIFLQNYNADNQTVALPQDYQDIVHGGNLPRKLTLPAFGCQILTRKI TKFPLLSSKISGLLHGADYNPEQWLDHPDVLVRDVEMMKEARCNVMSVGIFSWSALEPEEGRYTFDWMDQVLNRLHENGISVFLATPSGARPAWMSQKYPQVLRVGRDRVPALHGGRHNHCMSSPVYREKVQLMNGQLAKRYAHHPAVIGWHISNEYGGECHCDTCQGQFRDWLKARYVTLDALNKAWWSTFWSHTYTDWSQLESPSPQGENGVHGLNLDWRRFNTDQVTRFCSEEIRPLKAENPALPATTNFMEYFNDYDYWKLAGVLDFISWDSYPMWHTRQDDIGLAAYTAMYHDLMRTLKQGKPFVLMESTPSFTNWQPTSKLKKPGMHILSSLQAVAHGADSVQYFQWRKSRGSCEKFHGAVVDHVGHIDTRVGREVAELGSILSALAPVAGSRVEAKVAIIFDWESRWAMDDAMGPRNAGLHYENTVADHYRALWAQGIAVDVINADCDLQGYDLVIAPMLYMVREGVGERISAFVQAGGRFVATYWSGIVNETDLCFLNGFPGPLRPVLGIWAEEIDSLTDEQHNSVAGVEGNALGLSGPYRASQLCEVIHLEGAAALATYGDDFYAGNPAVTVNLYGKGQAYYVASRNDQQFHADFFTALAKEMKLPRAINTPLPEGVTAARRTDGESEFIFLQNYNADNQTVALPQDYQDIVHGGNLPRKLTLPAFGCQILTRKI 5e9h-a1-m1-cA_5e9h-a1-m1-cB Structural insights of isocitrate lyases from Fusarium graminearum Q4HYR2 Q4HYR2 2.3 X-RAY DIFFRACTION 351 0.985 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 518 528 INPDIEDELFQKEVEAVKTWWSDSRWRQTKRPFTAEQIVSKRGYLPIDYASNTQAKKLWKILEHRFENRDASYTYGCLEPTMVTQMAKYLDTVYVSGWQSSSTASASDEPGPDLADYPYTTVPNKVGHLFMAQLFHDRKQRQERLSVPKEQRANLLNIDYLRPIVADADTGHGGLTAVMKLTKLFIEKGAAGIHIEDQAPGTKKCGHMAGKVLVPIQEHINRLVAIRAQADIMGSDLLAIARTDAEAATLLSTNIDPRDHAFILGSTNSTLKPLNDLMIAAEATGKSGAELQRIEDEWLAKANLSSFDDAVAAAIDAGSFSDKAGIKQEYTSRAKGKSNFEARAVARQLLGRDIFFDWDAPRTREGYFRLKGGCDCAVNRAIAYAPYCDAIWMESKLPDFAQAEQFAQGVHAVWPEKKLAYNLSPSFNWKTAMPRDEQETYIRRLAKLGYCWQFITLAGLHTTALISDQFAKAYSTVGMRAYGELVQEPEMDQKVDVVKHQKWSGATYVDELQKMVTG NPDIEDELFQKEVEAVKTWWSDSRWRQTKRPFTAEQIVSKRGYLPIDYASNTQAKKLWKILEHRFENRDASYTYGCLEPTMVTQMAKYLDTVYVSGWQSSSTASASDEPGPDLADYPYTTVPNKVGHLFMAQLFHDRKQRQERLSVPKEQRANLLNIDYLRPIVADADTGHGGLTAVMKLTKLFIEKGAAGIHIEDQAPGTGKVLVPIQEHINRLVAIRAQADIMGSDLLAIARTDAEAATLLSTNIDPRDHAFILGSTNSTLKPLNDLMIAAEATGKSGAELQRIEDEWLAKANLSSFDDAVAAAIDAGSFSDKAGIKQEYTSRAKGKSNFEARAVARQLLGRDIFFDWDAPRTREGYFRLKGGCDCAVNRAIAYAPYCDAIWMESKLPDFAQAEQFAQGVHAVWPEKKLAYNLSPSFNWKTAMPRDEQETYIRRLAKLGYCWQFITLAGLHTTALISDQFAKAYSTVGMRAYGELVQEPEMDQKVDVVKHQKWSGATYVDELQKMVTGGISSTAAMGAGVTEDQFK 5e9v-a1-m1-cA_5e9v-a1-m1-cB Crystal structure of BRD9 bromodomain in complex with an indolizine ligand Q9H8M2 Q9H8M2 1.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 STPIQQLLEHFLRQLQRKDPHGFFAFPVTDAIAPGYSMIIKHPMDFGTMKDKIVANEYKSVTEFKADFKLMCDNAMTYNRPDTVYYKLAKKILHAGFKMMSKERLLALKRSMS STPIQQLLEHFLRQLQRKDPHGFFAFPVTDAIAPGYSMIIKHPMDFGTMKDKIVANEYKSVTEFKADFKLMCDNAMTYNRPDTVYYKLAKKILHAGFKMMSKERLLALKRSMS 5ean-a1-m1-cA_5ean-a1-m2-cA Crystal structure of Dna2 in complex with a 5' overhang DNA Q6ZQJ5 Q6ZQJ5 2.36 X-RAY DIFFRACTION 99 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1051 1051 GGHMEPLDELDLLLLEAVPRVELLRKKADALFPETVLSRGVDNRYLVLAVETSQNERGAEEKRLHVTASQDREHEVLCILRNGWSSVPVEPGDIVHLEGDCTSEPWIIDDDFGYFILYPDMMISGTSVASSIRCLRRAVLSETFRGSDPATRQMLIGTILHEVFQKAISESFAPERLQELALQTLREVRHLKEMYRLNLSQDEILCEVEEYLPSFSKWAEDFMRKGPSSEFPQMQLSLPSDGRSSPCNIEVVKSLDIEESIWSPRFGLKGKIDVTVGVKIHRDCKMKYKVMPLELKTGKESNSIEHRSQVVLYTLLSQERREDPEAGWLLYLKTGQMYPVPANHLDKRELLKLRNWLAASLLHRVSRAAPGEEARLSALPQIIEEEKTCKYCSQIGNCALYSRAVEEQGDDASIPEAMLSKIQEETRHLQLAHLKYFSLWCLMLTLESQSKDNRKTHQSIWLTPASELEESGNCVGNLVRTEPVSRVCDGQYLHNFQRKNGPMPATNLMAGDRIILSGEERKLFALSKGYVKKMNKAAVTCLLDRNLSTLPATTVFRLDREERHGDISTPLGNLSKLMESTDPSKRLRELIIDFREPQFIAYLSSVLPHDAKDTVANILKGLNKPQRQAMKRVLLSKDYTLIVGMPGTGKTTTICALVRILSACGFSVLLTSYTHSAVDNILLKLAKFKVGFLRLGQSHKVHPDIQKFTEEEICRSRSIASLAHLEELYNSHPIVATTCMGINHPIFSRKTFDFCIVDEASQISQPVCLGPLFFSRRFVLVGDHQQLPPLVVNREARALGMSESLFKRLERNESAVVQLTVQYRMNRKIMSLSNKLTYAGKLECGSDRVANAVLALPNLKDARLSLQLYADYSDSPWLAGVLEPDNPVCFLNTDKVPAPEQVENGGVSNVTEARLIVFLTSTFIKAGCSPSDIGVIAPYRQQLRIISDLLARSSVGMVEVNTVDKYQGRDKSLILVSFVRSNEDGTLGELLKDWRRLNVALTRAKHKLILLGSVSSLKRFPPLGTLFDHLNAEQLILDLPSREHESLSHIL GGHMEPLDELDLLLLEAVPRVELLRKKADALFPETVLSRGVDNRYLVLAVETSQNERGAEEKRLHVTASQDREHEVLCILRNGWSSVPVEPGDIVHLEGDCTSEPWIIDDDFGYFILYPDMMISGTSVASSIRCLRRAVLSETFRGSDPATRQMLIGTILHEVFQKAISESFAPERLQELALQTLREVRHLKEMYRLNLSQDEILCEVEEYLPSFSKWAEDFMRKGPSSEFPQMQLSLPSDGRSSPCNIEVVKSLDIEESIWSPRFGLKGKIDVTVGVKIHRDCKMKYKVMPLELKTGKESNSIEHRSQVVLYTLLSQERREDPEAGWLLYLKTGQMYPVPANHLDKRELLKLRNWLAASLLHRVSRAAPGEEARLSALPQIIEEEKTCKYCSQIGNCALYSRAVEEQGDDASIPEAMLSKIQEETRHLQLAHLKYFSLWCLMLTLESQSKDNRKTHQSIWLTPASELEESGNCVGNLVRTEPVSRVCDGQYLHNFQRKNGPMPATNLMAGDRIILSGEERKLFALSKGYVKKMNKAAVTCLLDRNLSTLPATTVFRLDREERHGDISTPLGNLSKLMESTDPSKRLRELIIDFREPQFIAYLSSVLPHDAKDTVANILKGLNKPQRQAMKRVLLSKDYTLIVGMPGTGKTTTICALVRILSACGFSVLLTSYTHSAVDNILLKLAKFKVGFLRLGQSHKVHPDIQKFTEEEICRSRSIASLAHLEELYNSHPIVATTCMGINHPIFSRKTFDFCIVDEASQISQPVCLGPLFFSRRFVLVGDHQQLPPLVVNREARALGMSESLFKRLERNESAVVQLTVQYRMNRKIMSLSNKLTYAGKLECGSDRVANAVLALPNLKDARLSLQLYADYSDSPWLAGVLEPDNPVCFLNTDKVPAPEQVENGGVSNVTEARLIVFLTSTFIKAGCSPSDIGVIAPYRQQLRIISDLLARSSVGMVEVNTVDKYQGRDKSLILVSFVRSNEDGTLGELLKDWRRLNVALTRAKHKLILLGSVSSLKRFPPLGTLFDHLNAEQLILDLPSREHESLSHIL 5eay-a1-m1-cA_5eay-a1-m1-cB Crystal structure of a Dna2 peptide in complex with Rpa 70N P27694 P27694 1.55 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 GQLSEGAIAAIMQKGDTNIKPILQVINIRPITSPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYNE GQLSEGAIAAIMQKGDTNIKPILQVINIRPITSPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYNE 5eay-a1-m1-cD_5eay-a1-m1-cB Crystal structure of a Dna2 peptide in complex with Rpa 70N P27694 P27694 1.55 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 115 5eay-a1-m1-cC_5eay-a1-m1-cA QLSEGAIAAIMQKGDTNIKPILQVINIRPITPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYN GQLSEGAIAAIMQKGDTNIKPILQVINIRPITSPPRYRLLMSDGLNTLSSFMLATQLNPLVEEEQLSSNCVCQIHRFIVNTLKDGRRVVILMELEVLKSAEAVGVKIGNPVPYNE 5eaz-a2-m1-cC_5eaz-a2-m1-cD crystal form I of YfiB belonging to space groups P21 Q9I4L6 Q9I4L6 2.151 X-RAY DIFFRACTION 18 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 135 135 5eaz-a1-m1-cA_5eaz-a1-m1-cB 5eb0-a1-m1-cA_5eb0-a1-m1-cB GLSAEQIAVLQEQGFELRDEGWEFGMSSKVLFGNNLDRLNPDSRNTLTKIARALLAVDIDKVRLEGHTDNYGDEGYNQKLSERRAESVAAVFREAGMPAANIEVRGLGMSKPVADNKTRAGRSENRRVAIIVPAE GLSAEQIAVLQEQGFELRDEGWEFGMSSKVLFGNNLDRLNPDSRNTLTKIARALLAVDIDKVRLEGHTDNYGDEGYNQKLSERRAESVAAVFREAGMPAANIEVRGLGMSKPVADNKTRAGRSENRRVAIIVPAE 5ebg-a1-m1-cA_5ebg-a1-m1-cB Crystal structure of bovine CD8aa homodimer P31783 P31783 1.8 X-RAY DIFFRACTION 19 1.0 9913 (Bos taurus) 9913 (Bos taurus) 114 114 LSFRMSPTQKETRLGEKVELQCELLQSGMATGCSWLRHIPGDDPRPTFLMYLSAQRVKLAEGLDPRHISGAKVSGTKFQLTLSSFLQEDQGYYFCSVVSNSILYFSNFVPVFLP LSFRMSPTQKETRLGEKVELQCELLQSGMATGCSWLRHIPGDDPRPTFLMYLSAQRVKLAEGLDPRHISGAKVSGTKFQLTLSSFLQEDQGYYFCSVVSNSILYFSNFVPVFLP 5ecc-a2-m1-cB_5ecc-a2-m2-cB Klebsiella pneumoniae DfrA1 complexed with NADPH and 6-ethyl-5-(3-(2-methoxy-5-(pyridin-4-yl)phenyl)prop-1-yn-1-yl)pyrimidine-2,4-diamine A4GRC7 A4GRC7 1.87 X-RAY DIFFRACTION 22 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 157 157 MKLSLMVAISKNGVIGNGPDIPWSAKGEQLLFKAITYNQWLLVGRKTFESMGALPNRKYAVVTRSSFTSDNENVLIFPSIKDALTNLKKITDHVIVSGGGEIYKSLIDQVDTLHISTIDIEPEGDVYFPEIPSNFRPVFTQDFASNINYSYQIWQKG MKLSLMVAISKNGVIGNGPDIPWSAKGEQLLFKAITYNQWLLVGRKTFESMGALPNRKYAVVTRSSFTSDNENVLIFPSIKDALTNLKKITDHVIVSGGGEIYKSLIDQVDTLHISTIDIEPEGDVYFPEIPSNFRPVFTQDFASNINYSYQIWQKG 5ed1-a1-m1-cA_5ed1-a1-m2-cD Human Adenosine Deaminase Acting on dsRNA (ADAR2) mutant E488Q bound to dsRNA sequence derived from S. cerevisiae BDF2 gene P78563 P78563 2.77 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 396 397 5hp2-a1-m1-cA_5hp2-a1-m2-cD 5hp3-a1-m1-cA_5hp3-a1-m2-cD 7kfn-a1-m1-cD_7kfn-a1-m1-cA PSRQPIPSEGLQLHLPQVLADAVSRLVLGKFGDLTDNFSSPHARRKVLAGVVMTTGTDVKDAKVISVSTGTKCINGEYMSDRGLALNDCHAEIISRRSLLRFLYTQLELYLNNKDDQKRSIFQKSERGGFRLKENVQFHLYISTSPCGDARIFSPHEPILEEPADRHPNRKARGQLRTKIESGQGTIPVRSNASIQTWDGVLQGERLLTMSCSDKIARWNVVGIQGSLLSIFVEPIYFSSIILGSLYHGDHLSRAMYQRISNIEDLPPLYTLNKPLLSGISNAEARQPGKAPNFSVNWTVGDSAIEVINATTGKDELGRASRLCKHALYCRWMRVHGKVPSHLLRSKITKPNVYHESKLAAKEYQAAKARLFTAFIKAGLGAWVEKPTEQDQFSLT TPSRQPIPSEGLQLHLPQVLADAVSRLVLGKFGDLTDNFSSPHARRKVLAGVVMTTGTDVKDAKVISVSTGTKCINGEYMSDRGLALNDCHAEIISRRSLLRFLYTQLELYLNNKDDQKRSIFQKSERGGFRLKENVQFHLYISTSPCGDARIFSPHEPILEEPADRHPNRKARGQLRTKIESGQGTIPVRSNASIQTWDGVLQGERLLTMSCSDKIARWNVVGIQGSLLSIFVEPIYFSSIILGSLYHGDHLSRAMYQRISNIEDLPPLYTLNKPLLSGISNAEARQPGKAPNFSVNWTVGDSAIEVINATTGKDELGRASRLCKHALYCRWMRVHGKVPSHLLRSKITKPNVYHESKLAAKEYQAAKARLFTAFIKAGLGAWVEKPTEQDQFSLT 5ed4-a2-m1-cF_5ed4-a2-m1-cE Structure of a PhoP-DNA complex P71814 P71814 2.4 X-RAY DIFFRACTION 43 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 214 224 5ed4-a1-m1-cB_5ed4-a1-m1-cA PEARVLVVDDEANIVELLSVSLKFQGFEVYTATNGAQALDRARETRPDAVILDVMMPGMDGFGVLRRLRADGIDAPALFLTARAGLTLGGDDYVTKPFSLEEVVARLRVILRRAGVRLTFADIELDEETHEVWKAGQPVSLSPTEFTLLRYFVINAGTVLSKPKILDHVWRYDFGGDVNVVESYVSYLRRKIDTGEKRLLHTLRGVGYVLREPR TPEARVLVVDDEANIVELLSVSLKFQGFEVYTATNGAQALDRARETRPDAVILDVMMPGMDGFGVLRRLRADGIDAPALFLTARDSLQDKIAGLTLGGDDYVTKPFSLEEVVARLRVILRRAGRNVRLTFADIELDEETHEVWKAGQPVSLSPTEFTLLRYFVINAGTVLSKPKILDHVWRYDFGGDVNVVESYVSYLRRKIDTGEKRLLHTLRGVGYVLREPR 5ed9-a1-m1-cA_5ed9-a1-m1-cB Crystal structure of CC1 of mouse SUN2 Q8BJS4 Q8BJS4 2.009 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 71 72 5ed9-a1-m1-cC_5ed9-a1-m1-cA 5ed9-a1-m1-cC_5ed9-a1-m1-cB FKSMTQEAFQESSVKELGRLEAQLASLRQELAALTLKQNSVADEVGLLPQKIQAARADVESQFPDWIRQFL FKSMTQEAFQESSVKELGRLEAQLASLRQELAALTLKQNSVADEVGLLPQKIQAARADVESQFPDWIRQFLL 5edv-a2-m1-cA_5edv-a2-m1-cB Structure of the HOIP-RBR/UbcH5B~ubiquitin transfer complex Q96EP0 Q96EP0 3.48 X-RAY DIFFRACTION 20 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 286 333 CAVCGWALPMQALTSCECTICPDCFRQHFTIALKEKHITDMVCPACGRPDLTDDTQLLSYFSTLDIQLRESLEPDAYALFHKKLTEGVLMRDPKFLWCAQCSFGFIYEREQLEATCPQCHQTFCVRCKRQWEEQHRGRSCEDFQNWKRMNDPEYQAQGLAMYLQENGIDCPKCKFSYALARGGCMHFHCTQCRHQFCSGCYNAFYAKNKCPEPNCRVKKSLHGHHPRDCLFYLRDWTALRLQKLLQDCRVIEQKEVPNGLRDEACGKETPGLCQAHYKEYLVSLIN CAVCGWALPHNRMQALTSCECTICPDCFRQHFTIALKEKHITDMVCPACGRPDLTDSYFSTLDIQLRESLEPDAYALFHKKLTEGVLMRDPKFLWCAQCSFGFIYEREQLEATCPQCHQTFCVRCKRQWEEQHRGRSCEDFQNWKRMNDPEYQAQGLAMYLQENGIDCPKCKFSYALARGGCMHFHCTQCRHQFCSGCYNAFYAKNKCPEPNCRVKKSLHGHHPRDCLFYLRDWTALRLQKLLQDNNVMFNTEPGGCRVIEQKEVPNGLRDEACGKETPAGYAGLCQAHYKEYLVSLINAHSLTLYEVEELETATERYLHLQKLTEEVPLGQS 5edx-a1-m1-cA_5edx-a1-m1-cB Crystal structure of swine CD8aa homodimer A0MNZ3 A0MNZ3 1.801 X-RAY DIFFRACTION 63 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 114 114 SLFRTSPEMVQASLGETVKLRCEVMHSNTLTSCSWLYQKPGAASKPIFLMYLSKTRNKTAEGLDTRYISGYKANDNFYLILHRFREEDQGYYFCSFLSNSVLYFSNFMSVFLPA SLFRTSPEMVQASLGETVKLRCEVMHSNTLTSCSWLYQKPGAASKPIFLMYLSKTRNKTAEGLDTRYISGYKANDNFYLILHRFREEDQGYYFCSFLSNSVLYFSNFMSVFLPA 5ees-a1-m1-cA_5ees-a1-m4-cA Crystal structure of DapB in complex with NADP+ from Corynebacterium glutamicum P40110 P40110 2.15 X-RAY DIFFRACTION 12 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 247 247 5ees-a1-m2-cA_5ees-a1-m3-cA GIKVGVLGAKGRVGQTIVAAVNESDDLELVAEIGVDDDLSLLVDNGAEVVVDFTTPNAVMGNLEFCINNGISAVVGTTGFDDARLEQVRDWLEGKDNVGVLIAPNFAISAVLTMVFSKQAARFFESAEVIELHHPNKLDAPSGTAIHTAQGIAAARKEAGMDAQPDATEQALEGSRGASVDGIPVHAVRMSGMVAHEQVIFGTQGQTLTIKQDSYDRNSFAPGVLVGVRNIAQHPGLVVGLEHYLGL GIKVGVLGAKGRVGQTIVAAVNESDDLELVAEIGVDDDLSLLVDNGAEVVVDFTTPNAVMGNLEFCINNGISAVVGTTGFDDARLEQVRDWLEGKDNVGVLIAPNFAISAVLTMVFSKQAARFFESAEVIELHHPNKLDAPSGTAIHTAQGIAAARKEAGMDAQPDATEQALEGSRGASVDGIPVHAVRMSGMVAHEQVIFGTQGQTLTIKQDSYDRNSFAPGVLVGVRNIAQHPGLVVGLEHYLGL 5ees-a1-m2-cA_5ees-a1-m4-cA Crystal structure of DapB in complex with NADP+ from Corynebacterium glutamicum P40110 P40110 2.15 X-RAY DIFFRACTION 157 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 247 247 5eer-a1-m1-cA_5eer-a1-m3-cA 5eer-a1-m2-cA_5eer-a1-m4-cA 5ees-a1-m1-cA_5ees-a1-m3-cA GIKVGVLGAKGRVGQTIVAAVNESDDLELVAEIGVDDDLSLLVDNGAEVVVDFTTPNAVMGNLEFCINNGISAVVGTTGFDDARLEQVRDWLEGKDNVGVLIAPNFAISAVLTMVFSKQAARFFESAEVIELHHPNKLDAPSGTAIHTAQGIAAARKEAGMDAQPDATEQALEGSRGASVDGIPVHAVRMSGMVAHEQVIFGTQGQTLTIKQDSYDRNSFAPGVLVGVRNIAQHPGLVVGLEHYLGL GIKVGVLGAKGRVGQTIVAAVNESDDLELVAEIGVDDDLSLLVDNGAEVVVDFTTPNAVMGNLEFCINNGISAVVGTTGFDDARLEQVRDWLEGKDNVGVLIAPNFAISAVLTMVFSKQAARFFESAEVIELHHPNKLDAPSGTAIHTAQGIAAARKEAGMDAQPDATEQALEGSRGASVDGIPVHAVRMSGMVAHEQVIFGTQGQTLTIKQDSYDRNSFAPGVLVGVRNIAQHPGLVVGLEHYLGL 5ees-a1-m3-cA_5ees-a1-m4-cA Crystal structure of DapB in complex with NADP+ from Corynebacterium glutamicum P40110 P40110 2.15 X-RAY DIFFRACTION 112 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 247 247 5eer-a1-m1-cA_5eer-a1-m2-cA 5eer-a1-m3-cA_5eer-a1-m4-cA 5ees-a1-m1-cA_5ees-a1-m2-cA GIKVGVLGAKGRVGQTIVAAVNESDDLELVAEIGVDDDLSLLVDNGAEVVVDFTTPNAVMGNLEFCINNGISAVVGTTGFDDARLEQVRDWLEGKDNVGVLIAPNFAISAVLTMVFSKQAARFFESAEVIELHHPNKLDAPSGTAIHTAQGIAAARKEAGMDAQPDATEQALEGSRGASVDGIPVHAVRMSGMVAHEQVIFGTQGQTLTIKQDSYDRNSFAPGVLVGVRNIAQHPGLVVGLEHYLGL GIKVGVLGAKGRVGQTIVAAVNESDDLELVAEIGVDDDLSLLVDNGAEVVVDFTTPNAVMGNLEFCINNGISAVVGTTGFDDARLEQVRDWLEGKDNVGVLIAPNFAISAVLTMVFSKQAARFFESAEVIELHHPNKLDAPSGTAIHTAQGIAAARKEAGMDAQPDATEQALEGSRGASVDGIPVHAVRMSGMVAHEQVIFGTQGQTLTIKQDSYDRNSFAPGVLVGVRNIAQHPGLVVGLEHYLGL 5eew-a1-m1-cG_5eew-a1-m1-cH RADIATION DAMAGE TO THE TRAP-RNA COMPLEX: DOSE (DWD) 6.45 MGy Q9X6J6 Q9X6J6 1.98 X-RAY DIFFRACTION 69 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 68 68 1c9s-a1-m1-cA_1c9s-a1-m1-cK 1c9s-a1-m1-cB_1c9s-a1-m1-cA 1c9s-a1-m1-cB_1c9s-a1-m1-cC 1c9s-a1-m1-cC_1c9s-a1-m1-cD 1c9s-a1-m1-cE_1c9s-a1-m1-cD 1c9s-a1-m1-cE_1c9s-a1-m1-cF 1c9s-a1-m1-cF_1c9s-a1-m1-cG 1c9s-a1-m1-cH_1c9s-a1-m1-cG 1c9s-a1-m1-cH_1c9s-a1-m1-cI 1c9s-a1-m1-cJ_1c9s-a1-m1-cI 1c9s-a1-m1-cJ_1c9s-a1-m1-cK 1c9s-a2-m1-cL_1c9s-a2-m1-cM 1c9s-a2-m1-cL_1c9s-a2-m1-cV 1c9s-a2-m1-cN_1c9s-a2-m1-cM 1c9s-a2-m1-cN_1c9s-a2-m1-cO 1c9s-a2-m1-cP_1c9s-a2-m1-cO 1c9s-a2-m1-cP_1c9s-a2-m1-cQ 1c9s-a2-m1-cQ_1c9s-a2-m1-cR 1c9s-a2-m1-cR_1c9s-a2-m1-cS 1c9s-a2-m1-cS_1c9s-a2-m1-cT 1c9s-a2-m1-cT_1c9s-a2-m1-cU 1c9s-a2-m1-cU_1c9s-a2-m1-cV 1gtf-a1-m1-cA_1gtf-a1-m1-cK 1gtf-a1-m1-cB_1gtf-a1-m1-cA 1gtf-a1-m1-cB_1gtf-a1-m1-cC 1gtf-a1-m1-cD_1gtf-a1-m1-cC 1gtf-a1-m1-cE_1gtf-a1-m1-cD 1gtf-a1-m1-cE_1gtf-a1-m1-cF 1gtf-a1-m1-cF_1gtf-a1-m1-cG 1gtf-a1-m1-cH_1gtf-a1-m1-cG 1gtf-a1-m1-cH_1gtf-a1-m1-cI 1gtf-a1-m1-cJ_1gtf-a1-m1-cI 1gtf-a1-m1-cJ_1gtf-a1-m1-cK 1gtf-a2-m1-cL_1gtf-a2-m1-cM 1gtf-a2-m1-cL_1gtf-a2-m1-cV 1gtf-a2-m1-cN_1gtf-a2-m1-cM 1gtf-a2-m1-cN_1gtf-a2-m1-cO 1gtf-a2-m1-cO_1gtf-a2-m1-cP 1gtf-a2-m1-cP_1gtf-a2-m1-cQ 1gtf-a2-m1-cQ_1gtf-a2-m1-cR 1gtf-a2-m1-cR_1gtf-a2-m1-cS 1gtf-a2-m1-cS_1gtf-a2-m1-cT 1gtf-a2-m1-cT_1gtf-a2-m1-cU 1gtf-a2-m1-cU_1gtf-a2-m1-cV 1gtn-a1-m1-cA_1gtn-a1-m1-cB 1gtn-a1-m1-cA_1gtn-a1-m1-cK 1gtn-a1-m1-cB_1gtn-a1-m1-cC 1gtn-a1-m1-cC_1gtn-a1-m1-cD 1gtn-a1-m1-cE_1gtn-a1-m1-cD 1gtn-a1-m1-cE_1gtn-a1-m1-cF 1gtn-a1-m1-cF_1gtn-a1-m1-cG 1gtn-a1-m1-cH_1gtn-a1-m1-cG 1gtn-a1-m1-cH_1gtn-a1-m1-cI 1gtn-a1-m1-cJ_1gtn-a1-m1-cI 1gtn-a1-m1-cJ_1gtn-a1-m1-cK 1gtn-a2-m1-cL_1gtn-a2-m1-cM 1gtn-a2-m1-cL_1gtn-a2-m1-cV 1gtn-a2-m1-cN_1gtn-a2-m1-cM 1gtn-a2-m1-cN_1gtn-a2-m1-cO 1gtn-a2-m1-cP_1gtn-a2-m1-cO 1gtn-a2-m1-cP_1gtn-a2-m1-cQ 1gtn-a2-m1-cQ_1gtn-a2-m1-cR 1gtn-a2-m1-cR_1gtn-a2-m1-cS 1gtn-a2-m1-cS_1gtn-a2-m1-cT 1gtn-a2-m1-cT_1gtn-a2-m1-cU 1gtn-a2-m1-cU_1gtn-a2-m1-cV 1qaw-a1-m1-cA_1qaw-a1-m1-cB 1qaw-a1-m1-cA_1qaw-a1-m1-cK 1qaw-a1-m1-cC_1qaw-a1-m1-cB 1qaw-a1-m1-cC_1qaw-a1-m1-cD 1qaw-a1-m1-cD_1qaw-a1-m1-cE 1qaw-a1-m1-cF_1qaw-a1-m1-cE 1qaw-a1-m1-cG_1qaw-a1-m1-cF 1qaw-a1-m1-cG_1qaw-a1-m1-cH 1qaw-a1-m1-cI_1qaw-a1-m1-cH 1qaw-a1-m1-cI_1qaw-a1-m1-cJ 1qaw-a1-m1-cJ_1qaw-a1-m1-cK 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5ef1-a2-m1-cP_5ef1-a2-m1-cQ 5ef1-a2-m1-cQ_5ef1-a2-m1-cR 5ef1-a2-m1-cR_5ef1-a2-m1-cS 5ef1-a2-m1-cS_5ef1-a2-m1-cT 5ef1-a2-m1-cT_5ef1-a2-m1-cU 5ef1-a2-m1-cU_5ef1-a2-m1-cV 5ef2-a1-m1-cB_5ef2-a1-m1-cA 5ef2-a1-m1-cB_5ef2-a1-m1-cC 5ef2-a1-m1-cC_5ef2-a1-m1-cD 5ef2-a1-m1-cE_5ef2-a1-m1-cD 5ef2-a1-m1-cE_5ef2-a1-m1-cF 5ef2-a1-m1-cG_5ef2-a1-m1-cF 5ef2-a1-m1-cG_5ef2-a1-m1-cH 5ef2-a1-m1-cH_5ef2-a1-m1-cI 5ef2-a1-m1-cJ_5ef2-a1-m1-cI 5ef2-a1-m1-cJ_5ef2-a1-m1-cK 5ef2-a1-m1-cK_5ef2-a1-m1-cA 5ef2-a2-m1-cL_5ef2-a2-m1-cM 5ef2-a2-m1-cL_5ef2-a2-m1-cV 5ef2-a2-m1-cM_5ef2-a2-m1-cN 5ef2-a2-m1-cN_5ef2-a2-m1-cO 5ef2-a2-m1-cO_5ef2-a2-m1-cP 5ef2-a2-m1-cP_5ef2-a2-m1-cQ 5ef2-a2-m1-cQ_5ef2-a2-m1-cR 5ef2-a2-m1-cR_5ef2-a2-m1-cS 5ef2-a2-m1-cS_5ef2-a2-m1-cT 5ef2-a2-m1-cT_5ef2-a2-m1-cU 5ef2-a2-m1-cU_5ef2-a2-m1-cV 5ef3-a1-m1-cB_5ef3-a1-m1-cA 5ef3-a1-m1-cB_5ef3-a1-m1-cC 5ef3-a1-m1-cC_5ef3-a1-m1-cD 5ef3-a1-m1-cE_5ef3-a1-m1-cD 5ef3-a1-m1-cE_5ef3-a1-m1-cF 5ef3-a1-m1-cG_5ef3-a1-m1-cF 5ef3-a1-m1-cG_5ef3-a1-m1-cH 5ef3-a1-m1-cH_5ef3-a1-m1-cI 5ef3-a1-m1-cJ_5ef3-a1-m1-cI 5ef3-a1-m1-cJ_5ef3-a1-m1-cK 5ef3-a1-m1-cK_5ef3-a1-m1-cA 5ef3-a2-m1-cL_5ef3-a2-m1-cM 5ef3-a2-m1-cL_5ef3-a2-m1-cV 5ef3-a2-m1-cM_5ef3-a2-m1-cN 5ef3-a2-m1-cN_5ef3-a2-m1-cO 5ef3-a2-m1-cO_5ef3-a2-m1-cP 5ef3-a2-m1-cP_5ef3-a2-m1-cQ 5ef3-a2-m1-cQ_5ef3-a2-m1-cR 5ef3-a2-m1-cR_5ef3-a2-m1-cS 5ef3-a2-m1-cS_5ef3-a2-m1-cT 5ef3-a2-m1-cT_5ef3-a2-m1-cU 5ef3-a2-m1-cU_5ef3-a2-m1-cV SDFVVIKALEDGVNVIGLTRGADTRFHHSEKLDKGEVLIAQFTEHTSAIKVRGKAYIQTRHGVIESEG SDFVVIKALEDGVNVIGLTRGADTRFHHSEKLDKGEVLIAQFTEHTSAIKVRGKAYIQTRHGVIESEG 5efm-a1-m2-cA_5efm-a1-m3-cA Beclin 1 Flexible-helical Domian (FHD) (141-171) Q14457 Q14457 1.95 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 5efm-a1-m1-cA_5efm-a1-m2-cA 5efm-a1-m1-cA_5efm-a1-m3-cA NECQNYKRCLEILEQ NECQNYKRCLEILEQ 5eft-a1-m1-cB_5eft-a1-m1-cF Structural Basis for Specific Recognition of ssDNA by SRBSDV P9-1 Octamers B6SCH3 B6SCH3 2.5 X-RAY DIFFRACTION 17 1.0 566568 (Rice black-streaked dwarf virus 2) 566568 (Rice black-streaked dwarf virus 2) 255 255 LERRTFGSYKIEELTIKKIPLLDDGIFELLNYLIDGTNFNKTCYCGFNYSHLPNLERDFNIASLYVRENFEICTDQLDLANYVRQPNISIKSPDFTVCLEYVLKTVVQETKFVEMSLLPLLNREEESLTEEILEGEGAVVNVLKLFIKGFLMHLGENPNSYDRQLTVEKYRPLLVSIVGYEYLVGKINHIYYQLATFDNYPFDLLRFQLSSLISTPTSILERITKEGLFKIITTVLFRGINGSESFLNIKRYRRF LERRTFGSYKIEELTIKKIPLLDDGIFELLNYLIDGTNFNKTCYCGFNYSHLPNLERDFNIASLYVRENFEICTDQLDLANYVRQPNISIKSPDFTVCLEYVLKTVVQETKFVEMSLLPLLNREEESLTEEILEGEGAVVNVLKLFIKGFLMHLGENPNSYDRQLTVEKYRPLLVSIVGYEYLVGKINHIYYQLATFDNYPFDLLRFQLSSLISTPTSILERITKEGLFKIITTVLFRGINGSESFLNIKRYRRF 5eft-a1-m1-cD_5eft-a1-m1-cH Structural Basis for Specific Recognition of ssDNA by SRBSDV P9-1 Octamers B6SCH3 B6SCH3 2.5 X-RAY DIFFRACTION 51 1.0 566568 (Rice black-streaked dwarf virus 2) 566568 (Rice black-streaked dwarf virus 2) 255 255 LERRTFGSYKIEELTIKKIPLLDDGIFELLNYLIDGTNFNKTCYCGFNYSHLPNLERDFNIASLYVRENFEICTDQLDLANYVRQPNISIKSPDFTVCLEYVLKTVVQETKFVEMSLLPLLNREEESLTEEILEGEGAVVNVLKLFIKGFLMHLGENPNSYDRQLTVEKYRPLLVSIVGYEYLVGKINHIYYQLATFDNYPFDLLRFQLSSLISTPTSILERITKEGLFKIITTVLFRGINGSESFLNIKRYRRF LERRTFGSYKIEELTIKKIPLLDDGIFELLNYLIDGTNFNKTCYCGFNYSHLPNLERDFNIASLYVRENFEICTDQLDLANYVRQPNISIKSPDFTVCLEYVLKTVVQETKFVEMSLLPLLNREEESLTEEILEGEGAVVNVLKLFIKGFLMHLGENPNSYDRQLTVEKYRPLLVSIVGYEYLVGKINHIYYQLATFDNYPFDLLRFQLSSLISTPTSILERITKEGLFKIITTVLFRGINGSESFLNIKRYRRF 5efw-a1-m1-cC_5efw-a1-m1-cB Crystal structure of LOV2-Zdk1 - the complex of oat LOV2 and the affibody protein Zdark1 2.1 X-RAY DIFFRACTION 46 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 49 55 TRAGAEIHSLPNLNVEQKFAFIVSLFDDPSQSANLLAEAKKLNDAQAPK KFNKEKTRAGAEIHSLPNLNVEQKFAFIVSLFDDPSQSANLLAEAKKLNDAQAPK 5efz-a3-m1-cD_5efz-a3-m1-cF Monoclinic structure of the acetyl esterase MekB Q0MRG5 Q0MRG5 1.82 X-RAY DIFFRACTION 78 0.997 76761 (Pseudomonas veronii) 76761 (Pseudomonas veronii) 345 347 5e4y-a1-m1-cB_5e4y-a1-m1-cA 5efz-a1-m1-cB_5efz-a1-m1-cA 5efz-a2-m1-cC_5efz-a2-m1-cE NSYYTEENHGPFELINIGPLPLEEGRCMPECLLAVAVHGALNADKSNAILVPTWYSGTSKAMEQIYIGEGRALDPSKYCIIVVNQIGNGLSSSASNTGGSLAGPGFANVRIGDDVSAQHTLLTEYFGIESLALVVGGSMGAQQTYEWAVRYPDFVKRAAAIAGTARNSEHDFLFTEILIEAITTDPAFQAGLYRSSSAVAAGLERHAKLWTLMGWSPEFFRTGRHKALGFESMQMFVDGFMKRYFAPMDPNNLLTMAWKWQRGDVSRHTGGDLAKALGRIKAKTYVMPISHDQFFTVDDCLSEQKMIPNSEFRPLRSIDGHLGLFGTDAQMLDQLDAHLAELLSS SYYTEENHGPFELINIGPLPLEEGRCMPECLLAVAVHGALNADKSNAILVPTWYSGTSKAMEQIYIGEGRALDPSKYCIIVVNQIGNGLSSSASNTGGSLAGPGFANVRIGDDVSAQHTLLTEYFGIESLALVVGGSMGAQQTYEWAVRYPDFVKRAAAIAGTARNSEHDFLFTEILIEAITTDPAFQAGLYRSSSAVAAGLERHAKLWTLMGWSPEFFRTGRHKALGFESMQMFVDGFMKRYFAPMDPNNLLTMAWKWQRGDVSRHTGGDLAKALGRIKAKTYVMPISHDQFFTVDDCLSEQKMIPNSEFRPLRSIDGHLGLFGTDAQMLDQLDAHLAELLSSPAY 5egf-a1-m1-cA_5egf-a1-m1-cD The crystal structure of SeMet-CT F1CWE4 F1CWE4 2.29 X-RAY DIFFRACTION 54 1.0 36650 (Penicillium aethiopicum) 36650 (Penicillium aethiopicum) 436 436 5egf-a1-m1-cB_5egf-a1-m1-cC WEPFSLSPIKDPQALHAALCSKNVIPVTSTLEDLLPATQAQHVFIKRGTFHSYNWTIKGRSLNDRLRETCQSLVDRHSILRTSFVEHEGHPIQLVLANLDVKVREVQCWPGEDPEVCKALWDGKDWPTLNVLGGSLPVRFTLVSCPGNEHVVLTIQISHSQWDGVSIPKLFSDFAAIYNQTPLPPTSDFAHYLYHRVSSAREDVQQDPTFQFWRHYLDGAKAVPFAPGQTLWTFKGIVPPTLPSGITATLVKAATALFLSYHLGSRDVVFGHTVNGRNLPDNIESLLGCTLNFVPLRVTFPEDSTDWTVDLLHHTQTQYTRALSHEHVELRDIFQHSTNWPAETPLSLIVQHQNIDLSFSLPLRGSLDVQYSKFARFDPLDEVWIFTEPHADRLEVQVCANSRVLGQEQATELANNISAIITKFSTDPTARLLDIT WEPFSLSPIKDPQALHAALCSKNVIPVTSTLEDLLPATQAQHVFIKRGTFHSYNWTIKGRSLNDRLRETCQSLVDRHSILRTSFVEHEGHPIQLVLANLDVKVREVQCWPGEDPEVCKALWDGKDWPTLNVLGGSLPVRFTLVSCPGNEHVVLTIQISHSQWDGVSIPKLFSDFAAIYNQTPLPPTSDFAHYLYHRVSSAREDVQQDPTFQFWRHYLDGAKAVPFAPGQTLWTFKGIVPPTLPSGITATLVKAATALFLSYHLGSRDVVFGHTVNGRNLPDNIESLLGCTLNFVPLRVTFPEDSTDWTVDLLHHTQTQYTRALSHEHVELRDIFQHSTNWPAETPLSLIVQHQNIDLSFSLPLRGSLDVQYSKFARFDPLDEVWIFTEPHADRLEVQVCANSRVLGQEQATELANNISAIITKFSTDPTARLLDIT 5egf-a1-m1-cD_5egf-a1-m1-cC The crystal structure of SeMet-CT F1CWE4 F1CWE4 2.29 X-RAY DIFFRACTION 57 0.998 36650 (Penicillium aethiopicum) 36650 (Penicillium aethiopicum) 436 438 5egf-a1-m1-cA_5egf-a1-m1-cB WEPFSLSPIKDPQALHAALCSKNVIPVTSTLEDLLPATQAQHVFIKRGTFHSYNWTIKGRSLNDRLRETCQSLVDRHSILRTSFVEHEGHPIQLVLANLDVKVREVQCWPGEDPEVCKALWDGKDWPTLNVLGGSLPVRFTLVSCPGNEHVVLTIQISHSQWDGVSIPKLFSDFAAIYNQTPLPPTSDFAHYLYHRVSSAREDVQQDPTFQFWRHYLDGAKAVPFAPGQTLWTFKGIVPPTLPSGITATLVKAATALFLSYHLGSRDVVFGHTVNGRNLPDNIESLLGCTLNFVPLRVTFPEDSTDWTVDLLHHTQTQYTRALSHEHVELRDIFQHSTNWPAETPLSLIVQHQNIDLSFSLPLRGSLDVQYSKFARFDPLDEVWIFTEPHADRLEVQVCANSRVLGQEQATELANNISAIITKFSTDPTARLLDIT EPFSLSPIKDPQALHAALCSKNVIPVTSTLEDLLPATQAQHVFIKRGTFHSYNWTIKGRSLNDRLRETCQSLVDRHSILRTSFVEHEGHPIQLVLANLDVKVREVQCWPGEDPEVCKALWDGKDWPTLNVLGGSLPVRFTLVSCPGNEHVVLTIQISHSQWDGVSIPKLFSDFAAIYNQTPLPPTSDFAHYLYHRVSSAREDVQQDPTFQFWRHYLDGAKAVPFAPGQTLWTFKGIVPPTLPSGITATLVKAATALFLSYHLGSRDVVFGHTVNGRNLPDNIESLLGCTLNFVPLRVTFPEDSTDWTVDLLHHTQTQYTRALSHEHVELRDIFQHSTNWPAETPLSLIVQHQNIDLSFSLPLRGSSSLDVQYSKFARFDPLDEVWIFTEPHADRLEVQVCANSRVLGQEQATELANNISAIITKFSTDPTARLLDITF 5egi-a1-m1-cC_5egi-a1-m1-cB Structure of a Trimeric Intracellular Cation channel from C. elegans with bound Ca2+ Q9NA75 Q9NA75 3.3 X-RAY DIFFRACTION 37 0.991 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 232 233 5egi-a1-m1-cA_5egi-a1-m1-cB 5egi-a1-m1-cA_5egi-a1-m1-cC QLDQEILLDAGAQLHRLKMYPYFDVAHYLLMIIEVRDDLGSAASIFSRKHPLSCWLSSMLMCFADAFLANFLLGEPVIAPFKRHDDIILATIIWYLVFYAPFDGIYKIAKITPVKCVLAVMKEVKRAYKVSHGVSHAAKLYPNSYIVQVLVGTAKGAGSGIVRTLEQLVRGVWLPTHNELLRPSFATKACVVAASVLALEKSGTYLTAPHDLVYLVIVGFFVYFKLSAVILH DQEILLDAGAQLHRLKMYPYFDVAHYLLMIIEVRDDLGSAASIFSRKHPLSCWLSSMLMCFADAFLANFLLGEPVIAPFKRHDDIILATIIWYLVFYAPFDGIYKIAKITPVKCVLAVMKEVKRAYKVSHGVSHAAKLYPNSYIVQVLVGTAKGAGSGIVRTLEQLVRGVWLPTHNELLRPSFATKACVVAASVLALEKSGTYLTAPHDLVYLVIVGFFVYFKLSAVILHVTD 5egn-a4-m1-cH_5egn-a4-m1-cG Est816 as an N-Acyl homoserine lactone degrading enzyme I6YRG4 I6YRG4 2.636 X-RAY DIFFRACTION 81 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 258 259 5egn-a1-m1-cA_5egn-a1-m1-cF 5egn-a2-m1-cD_5egn-a2-m1-cB 5egn-a3-m1-cC_5egn-a3-m1-cE PHVENDGVKIYYDSYGEGVPIVFLHPFSTNGGIWYFQTFPFAQTNHVIVIDHRGHGRSDKPATGYSIMEHADDVVAVLDALKVDRAVFVGNSIGGMIAMQLNLDHPQRVIGNLILSSGTGLGEGMPPEAGAAFQNDYIGAFGGLLEGAVSARSKRERPEILAVMKAHFSVPSNFPKHVFDAATADPNGVFAWNIKDRLSSIQAPTLVVAGEEDLVTTVANNQLLADNIPGAELRVINDVGHFYQLERPSEFNELLRGF PHVENDGVKIYYDSYGEGVPIVFLHPFSTNGGIWYFQTFPFAQTNHVIVIDHRGHGRSDKPATGYSIMEHADDVVAVLDALKVDRAVFVGNSIGGMIAMQLNLDHPQRVIGNLILSSGTGLGEGMPPEAGAAFQNDYIGAFGGLLEGAVSARSKRERPEILAVMKAHFSVPSNFPKHVFDAATADPNGVFAWNIKDRLSSIQAPTLVVAGEEDLVTTVANNQLLADNIPGAELRVINDVGHFYQLERPSEFNELLRGFV 5egw-a1-m1-cB_5egw-a1-m1-cA 2.70 A crystal structure of the Amb a 11 cysteine protease, a major ragweed pollen allergen, in its proform V5LU01 V5LU01 2.7 X-RAY DIFFRACTION 101 0.997 4212 (Ambrosia artemisiifolia) 4212 (Ambrosia artemisiifolia) 325 363 HMFHYHERELESEEGFMGMYDRWREQHNIEMRSPERFNVFKYNVRRIHESNKMDKPYKLKVNEFADMTNLEFVNTYANSKISHFQALRGSAPGSNKDFIYANVTKIPDKVDWREKNAVTDVKGQGGCGSCWAFAAVVALEGINAIRTGKLVKFSEQQLVDCDMTNAGCDGGLMEPAFTYVIKHGGIAPEASYPYVGKRETCDKAKIKDVLKIDGRQNVPGLDEEALRKAVAHQPVATGIQLSGHGLQFYSEGVYTGDCGTEPNHGVGIVGYGENEKGIKFWTVKNSWGPTWGEKGYIHLQRGARKEGLCGVAMHSSFPIMNDPNP MFHYHERELESEEGFMGMYDRWREQHNIEMRSPERFNVFKYNVRRIHESNKMDKPYKLKVNEFADMTNLEFVNTYANSKISHFQALRGSAPGSIDTDPNKDFIYANVTKIPDKVDWREKNAVTDVKGQGGCGSCWAFAAVVALEGINAIRTGKLVKFSEQQLVDCDMTNAGCDGGLMEPAFTYVIKHGGIAPEASYPYVGKRETCDKAKIKDVLKIDGRQNVPGLDEEALRKAVAHQPVATGIQLSGHGLQFYSEGVYTGDCGTEPNHGVGIVGYGENEKGIKFWTVKNSWGPTWGEKGYIHLQRGARKEGLCGVAMHSSFPIMNDPNPPKPNGPKDDPDAPKDPKFKTTQRLQGIRTKLLEL 5eh4-a2-m1-cC_5eh4-a2-m1-cD Crystal Structure of the Glycophorin A Transmembrane Dimer in Lipidic Cubic Phase P02724 P02724 2.81 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 29 29 2kpe-a1-m1-cA_2kpe-a1-m1-cB 2kpf-a1-m1-cA_2kpf-a1-m1-cB 5eh4-a1-m1-cA_5eh4-a1-m1-cB EPEITLIIFGVIAGVIGTILLISYGIRRL EPEITLIIFGVIAGVIGTILLISYGIRRL 5ehb-a1-m1-cA_5ehb-a1-m3-cB A de novo designed hexameric coiled-coil peptide with iodotyrosine 3.19 X-RAY DIFFRACTION 29 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 5ehb-a1-m1-cB_5ehb-a1-m2-cA 5ehb-a1-m2-cB_5ehb-a1-m3-cA TDKIDALEKLAEIQKEIAEFLRELIEA TDKIDALEKLAEIQKEIAEFLRELIEA 5ehb-a1-m2-cA_5ehb-a1-m3-cA A de novo designed hexameric coiled-coil peptide with iodotyrosine 3.19 X-RAY DIFFRACTION 17 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 5ehb-a1-m1-cA_5ehb-a1-m2-cA 5ehb-a1-m1-cA_5ehb-a1-m3-cA TDKIDALEKLAEIQKEIAEFLRELIEA TDKIDALEKLAEIQKEIAEFLRELIEA 5ehb-a1-m3-cA_5ehb-a1-m3-cB A de novo designed hexameric coiled-coil peptide with iodotyrosine 3.19 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 5ehb-a1-m1-cA_5ehb-a1-m1-cB 5ehb-a1-m2-cA_5ehb-a1-m2-cB TDKIDALEKLAEIQKEIAEFLRELIEA TDKIDALEKLAEIQKEIAEFLRELIEA 5ehk-a1-m1-cA_5ehk-a1-m1-cB Crystal structure of tRNA dependent lantibiotic dehydratase MibB from Microbispora sp. 107891 E2IHB7 E2IHB7 2.708 X-RAY DIFFRACTION 223 1.0 83302 (Microbispora corallina) 83302 (Microbispora corallina) 1036 1036 DSPFRAWDVFMVRTPVHLSLLRAACEDGLMEAVELASPSLAGLLARVARGDTGGLKDKRLRRAALALLRYDIRMRTRPTPFGLFAGVSGGRFDTSAKWLAGTGHRTRTRADMEWLLSAVHRLERDRVLLAGVTVQAHQTLTVRGDRIVLDCPSALGKSTVSARRSPVVAEILGAARRPVLAGRLAQSVAQRFELPADRVTGLLADMAAQELLITALRPPLDGDDPLQHVLDVVAAAEARAGSPAEAMSSESAALVAALREVDARCHAYDRTAVGQGRRELAELIQSTRRVHPHDTPLHVDLRIDLEVRLPEVVRTEIERAAEALWRLSPPRRGMRALRRYHEAFLERYGADRAVPLLELLDDTRGLGPPAGYKWPPSETPAGPQEEPRRSAALARLVAKAARRGEREIVIDEETIAELAYDEAAPADLPNSLELGVHVVAPSLDELSAGTFRVVLAPGPGSHHAGATLGRFTGLLPDVDAESAARQAGRPLHIQDAVAADVAFIPRSGRAANLAHTPSYSGRRISVGLPDSGRAQEIPLDELGVGANLERLCLVHLPTGREVVPALPNMVSAFAQAPNPARLLFELGLEGQRLWEPWDWGALSEMPFLPGVRYGRTLLAAPLWRMDQLRGPADDSGPAADWDAALDRWRAEWNVPRRVLAVSMDQRLLLDLDDAWHRVLLRDELRRTPELIAQQVAGDEEGWLDFPGHLAEIVVPLERRDRHAARPPHIRATVSPTGAGGPWLYLRLRVPRRNQDDFLRDQVPVLVRAGIEHGADRWFFIRYSDTAGQHLRVRFRGEREKLWAGLLPEIGARLVEWQRQGLLAGHELGQYDPEYERYGGDALAEFTETAFQHDSAAAISLLRLTRRAGFRYTLDEVTAISAAALADAFGPPAPVVEPVPLVGGLQWAPDLFDGDPAAAWMSSTGGRRELPPDYRRDPARWQKLIDPTGGWPLLRADEDGCQVLAALESRDEAVRRFGTAYREAFRPTDSPSTQLRLVGSLLHMTCNRLIGGSAERERSVLGLARGAVQDNLNRRRH DSPFRAWDVFMVRTPVHLSLLRAACEDGLMEAVELASPSLAGLLARVARGDTGGLKDKRLRRAALALLRYDIRMRTRPTPFGLFAGVSGGRFDTSAKWLAGTGHRTRTRADMEWLLSAVHRLERDRVLLAGVTVQAHQTLTVRGDRIVLDCPSALGKSTVSARRSPVVAEILGAARRPVLAGRLAQSVAQRFELPADRVTGLLADMAAQELLITALRPPLDGDDPLQHVLDVVAAAEARAGSPAEAMSSESAALVAALREVDARCHAYDRTAVGQGRRELAELIQSTRRVHPHDTPLHVDLRIDLEVRLPEVVRTEIERAAEALWRLSPPRRGMRALRRYHEAFLERYGADRAVPLLELLDDTRGLGPPAGYKWPPSETPAGPQEEPRRSAALARLVAKAARRGEREIVIDEETIAELAYDEAAPADLPNSLELGVHVVAPSLDELSAGTFRVVLAPGPGSHHAGATLGRFTGLLPDVDAESAARQAGRPLHIQDAVAADVAFIPRSGRAANLAHTPSYSGRRISVGLPDSGRAQEIPLDELGVGANLERLCLVHLPTGREVVPALPNMVSAFAQAPNPARLLFELGLEGQRLWEPWDWGALSEMPFLPGVRYGRTLLAAPLWRMDQLRGPADDSGPAADWDAALDRWRAEWNVPRRVLAVSMDQRLLLDLDDAWHRVLLRDELRRTPELIAQQVAGDEEGWLDFPGHLAEIVVPLERRDRHAARPPHIRATVSPTGAGGPWLYLRLRVPRRNQDDFLRDQVPVLVRAGIEHGADRWFFIRYSDTAGQHLRVRFRGEREKLWAGLLPEIGARLVEWQRQGLLAGHELGQYDPEYERYGGDALAEFTETAFQHDSAAAISLLRLTRRAGFRYTLDEVTAISAAALADAFGPPAPVVEPVPLVGGLQWAPDLFDGDPAAAWMSSTGGRRELPPDYRRDPARWQKLIDPTGGWPLLRADEDGCQVLAALESRDEAVRRFGTAYREAFRPTDSPSTQLRLVGSLLHMTCNRLIGGSAERERSVLGLARGAVQDNLNRRRH 5ehm-a1-m1-cB_5ehm-a1-m1-cA Crystal structure of the Drosophila CG3822 KaiR1D ligand binding domain complex with NMDA Q9VDH5 Q9VDH5 1.281 X-RAY DIFFRACTION 60 0.996 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 257 261 5dtb-a1-m1-cA_5dtb-a1-m1-cB 5ehs-a1-m1-cB_5ehs-a1-m1-cA KTLVVTTILSNPYCMRKESAIPLSGNDQFEGYAVDLIHEISKSLGFNYKIQLVPDGSYGSLNKLTGEWNGMIRELLEQRADLAIADLTITFEREQAVDFTTPFMNLGVSILYRKGTPIESAEDLAKQTRIKYGALKGGSTAAFFRDSKISTYQRMWSFMESARPSVFTASNGEGVERVAKGKGSYAFLMESTSIEYVTERNCELTQVGGMLDTKSYGIATPPNSPYRTAINSVILKLQEEGKLHILKTKWWKEKRGG ANLKNKTLVVTTILSNPYCMRKESAIPLSGNDQFEGYAVDLIHEISKSLGFNYKIQLVPDGSYGSLNKLTGEWNGMIRELLEQRADLAIADLTITFEREQAVDFTTPFMNLGVSILYRKGTPIESAEDLAKQTRIKYGALKGGSTAAFFRDSKISTYQRMWSFMESARPSVFTASNGEGVERVAKGKGSYAFLMESTSIEYVTERNCELTQVGGMLDTKSYGIATPPNSPYRTAINSVILKLQEEGKLHILKTKWWKEKRG 5eid-a1-m1-cA_5eid-a1-m2-cA AKR2A ankyrin repeat domain Q9SAR5 Q9SAR5 2 X-RAY DIFFRACTION 42 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 123 123 SIVHQTASLGDVEGLKAALASGGNKDEEDSEGRTALHFACGYGELKCAQVLIDAGASVNAVDKNKNTPLHYAAGYGRKECVSLLLENGAAVTLQNLDEKTPIDVAKLNSQLEVVKLLEKDAFL SIVHQTASLGDVEGLKAALASGGNKDEEDSEGRTALHFACGYGELKCAQVLIDAGASVNAVDKNKNTPLHYAAGYGRKECVSLLLENGAAVTLQNLDEKTPIDVAKLNSQLEVVKLLEKDAFL 5eig-a2-m1-cF_5eig-a2-m1-cE Engineered human cystathionine gamma lyase (E59T, E339V) to deplet cysteine P32929 P32929 2.7 X-RAY DIFFRACTION 167 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 381 384 2nmp-a1-m1-cC_2nmp-a1-m1-cD 3cog-a1-m1-cC_3cog-a1-m1-cD 5eig-a1-m1-cA_5eig-a1-m1-cB 5eig-a1-m1-cD_5eig-a1-m1-cC 5eig-a2-m1-cH_5eig-a2-m1-cG 5tsu-a1-m1-cA_5tsu-a1-m1-cB 5tsu-a1-m1-cD_5tsu-a1-m1-cC 5tsu-a2-m1-cF_5tsu-a2-m1-cE 5tsu-a2-m1-cG_5tsu-a2-m1-cH 6nba-a1-m1-cA_6nba-a1-m1-cB 6nba-a1-m1-cD_6nba-a1-m1-cC 6ovg-a1-m1-cA_6ovg-a1-m1-cB 6ovg-a1-m1-cD_6ovg-a1-m1-cC 6ovg-a2-m1-cF_6ovg-a2-m1-cE 6ovg-a2-m1-cH_6ovg-a2-m1-cG GFLPHFQHFATQAIHVGQDPEQWTSRAVVPPISLSTTFKQGHSGFTYSRSGNPTRNCLEKAVAALDGAKYCLAFASGLAATVTITHLLKAGDQIICMDDVYGGTNRYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMEKHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCTGMVTFYIKGTLQHAEIFLKNLKLFTLAVSLGGFESLAELPAIMTHKNDRDVLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP GFLPHFQHFATQAIHVGQDPEQWTSRAVVPPISLSTTFKQGGFTYSRSGNPTRNCLEKAVAALDGAKYCLAFASGLAATVTITHLLKAGDQIICMDDVYGGTNRYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMEKHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCTGMVTFYIKGTLQHAEIFLKNLKLFTLAVSLGGFESLAELPAIMTHASVLKNDRDVLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHPP 5eik-a1-m2-cA_5eik-a1-m3-cA Structure of a Trimeric Intracellular Cation channel from C. elegans in the absence of Ca2+ Q9NA73 Q9NA73 2.3 X-RAY DIFFRACTION 41 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 234 234 5eik-a1-m1-cA_5eik-a1-m2-cA 5eik-a1-m1-cA_5eik-a1-m3-cA IDHDTLIDAGGYVQKLKLYPYFDAAHYVLTCLSVRHDLGPDAISFSRKHPFSCWLSCMLMSFAGSFLSCFLLGEPIISPLKQHADILLGSIVWYLVFYSPFDVVFRLATWFPVKLGLSVLKEVQRTHKIAAGVKHAVRIYPESYLVQILVGVAKGAGSGVVKIVEQLARGTWHPTNHEILRPSFTTKACVIASIVFTLERHSMYVTAPHDLVYLCVVGFFIYFKLASLCLSVHD IDHDTLIDAGGYVQKLKLYPYFDAAHYVLTCLSVRHDLGPDAISFSRKHPFSCWLSCMLMSFAGSFLSCFLLGEPIISPLKQHADILLGSIVWYLVFYSPFDVVFRLATWFPVKLGLSVLKEVQRTHKIAAGVKHAVRIYPESYLVQILVGVAKGAGSGVVKIVEQLARGTWHPTNHEILRPSFTTKACVIASIVFTLERHSMYVTAPHDLVYLCVVGFFIYFKLASLCLSVHD 5eil-a1-m1-cB_5eil-a1-m1-cC Computational design of a high-affinity metalloprotein homotrimer containing a metal chelating non-canonical amino acid 2.25 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 158 158 5eil-a1-m1-cA_5eil-a1-m1-cB 5eil-a1-m1-cA_5eil-a1-m1-cC MSKLGEMLIAVLIGSKEAVKVLLDLGADPNASDEDGLTPLHAAAMAGHKEIVKLLLSKGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEKQG MSKLGEMLIAVLIGSKEAVKVLLDLGADPNASDEDGLTPLHAAAMAGHKEIVKLLLSKGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEKQG 5eiv-a1-m1-cD_5eiv-a1-m1-cC Crystal structure of complex of osteoclast-associated immunoglobulin-like receptor (OSCAR) and a synthetic collagen consensus peptide 2.414 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 15 PGPGPGPAGFGPGP GPGPGPGPAGFGPGP 5eiv-a1-m1-cD_5eiv-a1-m1-cE Crystal structure of complex of osteoclast-associated immunoglobulin-like receptor (OSCAR) and a synthetic collagen consensus peptide 2.414 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 15 PGPGPGPAGFGPGP GPGPGPGPAGFGPGP 5eiv-a1-m1-cF_5eiv-a1-m1-cH Crystal structure of complex of osteoclast-associated immunoglobulin-like receptor (OSCAR) and a synthetic collagen consensus peptide 2.414 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 GPGPGPGPAGFGPGP GPGPGPGPAGFGPGP 5eiv-a1-m1-cG_5eiv-a1-m1-cF Crystal structure of complex of osteoclast-associated immunoglobulin-like receptor (OSCAR) and a synthetic collagen consensus peptide 2.414 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 15 5eiv-a1-m1-cC_5eiv-a1-m1-cE PGPGPGPAGFGPGP GPGPGPGPAGFGPGP 5eiv-a1-m1-cG_5eiv-a1-m1-cH Crystal structure of complex of osteoclast-associated immunoglobulin-like receptor (OSCAR) and a synthetic collagen consensus peptide 2.414 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 15 PGPGPGPAGFGPGP GPGPGPGPAGFGPGP 5ej2-a2-m1-cC_5ej2-a2-m3-cD Crystal structure of Carveol dehydrogenase from Mycobacterium avium in complex with NAD A0A0H2ZYS9 A0A0H2ZYS9 2.15 X-RAY DIFFRACTION 99 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 277 277 5ej2-a1-m1-cA_5ej2-a1-m2-cB 5ej2-a1-m1-cB_5ej2-a1-m2-cA 5ej2-a2-m1-cD_5ej2-a2-m3-cC TGRVAGKVAFISGAARGQGRSHAVRLAQEGADIIAIDICGPIENLAYPHSTPEDLAETADLVKDLDRRIVTAQVDVRDFEALKSAVDSGVEQLGRLDIIVANAGVGTDGRKLHKIRDNVWQDMIDINLTGVWHTVKAGVPHVLSGGRGGSIVLTSSVGGRKAYPNTGHYIAAKHGVIGLMRAFAVELGPHMIRVNAVLPTQVSTTMVMNDQTFRLFRPDLENPGPDDFAPISQMMHTLPVPWVDASDISNAVLFLASDESRYVTGVSLPVDAGSLLK TGRVAGKVAFISGAARGQGRSHAVRLAQEGADIIAIDICGPIENLAYPHSTPEDLAETADLVKDLDRRIVTAQVDVRDFEALKSAVDSGVEQLGRLDIIVANAGVGTDGRKLHKIRDNVWQDMIDINLTGVWHTVKAGVPHVLSGGRGGSIVLTSSVGGRKAYPNTGHYIAAKHGVIGLMRAFAVELGPHMIRVNAVLPTQVSTTMVMNDQTFRLFRPDLENPGPDDFAPISQMMHTLPVPWVDASDISNAVLFLASDESRYVTGVSLPVDAGSLLK 5ej2-a2-m3-cC_5ej2-a2-m3-cD Crystal structure of Carveol dehydrogenase from Mycobacterium avium in complex with NAD A0A0H2ZYS9 A0A0H2ZYS9 2.15 X-RAY DIFFRACTION 112 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 277 277 5ej2-a1-m1-cA_5ej2-a1-m1-cB 5ej2-a1-m2-cA_5ej2-a1-m2-cB 5ej2-a2-m1-cC_5ej2-a2-m1-cD TGRVAGKVAFISGAARGQGRSHAVRLAQEGADIIAIDICGPIENLAYPHSTPEDLAETADLVKDLDRRIVTAQVDVRDFEALKSAVDSGVEQLGRLDIIVANAGVGTDGRKLHKIRDNVWQDMIDINLTGVWHTVKAGVPHVLSGGRGGSIVLTSSVGGRKAYPNTGHYIAAKHGVIGLMRAFAVELGPHMIRVNAVLPTQVSTTMVMNDQTFRLFRPDLENPGPDDFAPISQMMHTLPVPWVDASDISNAVLFLASDESRYVTGVSLPVDAGSLLK TGRVAGKVAFISGAARGQGRSHAVRLAQEGADIIAIDICGPIENLAYPHSTPEDLAETADLVKDLDRRIVTAQVDVRDFEALKSAVDSGVEQLGRLDIIVANAGVGTDGRKLHKIRDNVWQDMIDINLTGVWHTVKAGVPHVLSGGRGGSIVLTSSVGGRKAYPNTGHYIAAKHGVIGLMRAFAVELGPHMIRVNAVLPTQVSTTMVMNDQTFRLFRPDLENPGPDDFAPISQMMHTLPVPWVDASDISNAVLFLASDESRYVTGVSLPVDAGSLLK 5ej8-a4-m1-cG_5ej8-a4-m1-cH EcMenD-ThDP-Mn2+ complex structure soaked with 2-ketoglutarate for 2 min P17109 P17109 1.34 X-RAY DIFFRACTION 244 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 556 556 2jla-a1-m1-cA_2jla-a1-m1-cB 2jla-a2-m1-cC_2jla-a2-m1-cD 2jla-a3-m1-cA_2jla-a3-m1-cB 2jla-a3-m1-cC_2jla-a3-m1-cD 2jlc-a1-m1-cA_2jlc-a1-m1-cB 2jlc-a2-m1-cA_2jlc-a2-m1-cB 2jlc-a2-m2-cA_2jlc-a2-m2-cB 3flm-a1-m1-cB_3flm-a1-m1-cA 3hww-a1-m1-cD_3hww-a1-m1-cA 3hwx-a1-m1-cA_3hwx-a1-m1-cB 3hwx-a2-m1-cI_3hwx-a2-m1-cJ 3hwx-a3-m1-cR_3hwx-a3-m1-cS 3hwx-a4-m1-cZ_3hwx-a4-m1-c1 3hwx-a5-m1-cA_3hwx-a5-m1-cB 3hwx-a5-m1-cI_3hwx-a5-m1-cJ 3hwx-a6-m1-cR_3hwx-a6-m1-cS 3hwx-a6-m1-cZ_3hwx-a6-m1-c1 5ej4-a1-m1-cA_5ej4-a1-m1-cB 5ej4-a2-m1-cC_5ej4-a2-m1-cD 5ej4-a3-m1-cE_5ej4-a3-m1-cF 5ej4-a4-m1-cG_5ej4-a4-m1-cH 5ej5-a1-m1-cA_5ej5-a1-m1-cB 5ej5-a2-m1-cC_5ej5-a2-m1-cD 5ej5-a3-m1-cE_5ej5-a3-m1-cF 5ej5-a4-m1-cG_5ej5-a4-m1-cH 5ej6-a1-m1-cA_5ej6-a1-m1-cB 5ej6-a2-m1-cC_5ej6-a2-m1-cD 5ej6-a3-m1-cE_5ej6-a3-m1-cF 5ej6-a4-m1-cG_5ej6-a4-m1-cH 5ej7-a1-m1-cA_5ej7-a1-m1-cB 5ej7-a2-m1-cC_5ej7-a2-m1-cD 5ej7-a3-m1-cE_5ej7-a3-m1-cF 5ej7-a4-m1-cG_5ej7-a4-m1-cH 5ej8-a1-m1-cA_5ej8-a1-m1-cB 5ej8-a2-m1-cC_5ej8-a2-m1-cD 5ej8-a3-m1-cE_5ej8-a3-m1-cF 5ej9-a1-m1-cA_5ej9-a1-m1-cB 5ej9-a2-m1-cC_5ej9-a2-m1-cD 5ej9-a3-m1-cE_5ej9-a3-m1-cF 5ej9-a4-m1-cG_5ej9-a4-m1-cH 5eja-a1-m1-cA_5eja-a1-m1-cB 5eja-a2-m1-cC_5eja-a2-m1-cD 5eja-a3-m1-cE_5eja-a3-m1-cF 5eja-a4-m1-cG_5eja-a4-m1-cH 5ejm-a1-m1-cA_5ejm-a1-m1-cB 5ejm-a2-m1-cC_5ejm-a2-m1-cD 5ejm-a3-m1-cE_5ejm-a3-m1-cF 5ejm-a4-m1-cG_5ejm-a4-m1-cH 5z2p-a1-m1-cA_5z2p-a1-m1-cB 5z2p-a1-m1-cF_5z2p-a1-m1-cH 5z2p-a2-m1-cC_5z2p-a2-m1-cD 5z2p-a2-m1-cE_5z2p-a2-m1-cG 5z2r-a1-m1-cA_5z2r-a1-m1-cB 5z2r-a1-m1-cC_5z2r-a1-m1-cD 5z2r-a2-m1-cE_5z2r-a2-m1-cF 5z2r-a2-m1-cG_5z2r-a2-m1-cH 5z2u-a1-m1-cA_5z2u-a1-m1-cH 5z2u-a1-m1-cB_5z2u-a1-m1-cG 5z2u-a2-m1-cC_5z2u-a2-m1-cD 5z2u-a2-m1-cE_5z2u-a2-m1-cF MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVRLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVRLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL 5ejc-a2-m1-cC_5ejc-a2-m1-cD Crystal structural of the TSC1-TBC1D7 complex Q92574 Q92574 3.1 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 34 4z6y-a1-m1-cC_4z6y-a1-m1-cF 4z6y-a2-m1-cD_4z6y-a2-m1-cH 5ejc-a1-m1-cE_5ejc-a1-m1-cF GQLQAAESRYEAQKRITQVFELEILDLYGRL GGQLQAAESRYEAQKRITQVFELEILDLYGRLEK 5ejg-a1-m1-cC_5ejg-a1-m1-cD Crystal structure of NAD kinase P252D mutant from Listeria monocytogenes Q8Y8D7 Q8Y8D7 2.877 X-RAY DIFFRACTION 107 0.991 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 218 252 SDLLRLNMIAGFMEYDDEPEIVISIGGDGTFLSAFHIAFIGIHTFYADWADKLVKLLYQKVSYPLLKTTVKKEATYLALNESTVKSSGGPFVVDVVINDIHFERFRGDGLCMSTPSGTTAYNKSLGGALMHPSIEAMQLTEMASINNRVYRTIGSPLVFPKHHVVSLQPVNDKDFQISVDHLSILHRDVQEIRYEVSAKKIHFARFFDFWRRVHDSFI KYMITSKGDEKSDLLRLNMIAGFGEYDMEYDDVEPEIVISIGGDGTFLSAFHQYEERLDEIAFIGIHTGGFYADWRPAEADKLVKLLAKVSYPLLKTTVKYKKEATYLALNESTVKSSGGPFVVDVVINDIHFERFRGDGLCMSTPSGTTAYNKSLGGALMHPSIEAMQLTEMASINNRVYRTIGSPLVFPKHHVVSLQPVNDKDFQISVDHLSILHRDVQEIRYEVSAKKIHFARFRSFDFWRRVHDSFIE 5ejk-a1-m1-cA_5ejk-a1-m1-cE Crystal structure of the Rous sarcoma virus intasome P03354 P03354 3.8 X-RAY DIFFRACTION 59 1.0 11888 (Rous sarcoma virus - Prague C) 11888 (Rous sarcoma virus - Prague C) 258 258 PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCNSAPALEAGVNPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCNSAPALEAGVNPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI 5ejk-a1-m1-cF_5ejk-a1-m1-cE Crystal structure of the Rous sarcoma virus intasome P03354 P03354 3.8 X-RAY DIFFRACTION 95 1.0 11888 (Rous sarcoma virus - Prague C) 11888 (Rous sarcoma virus - Prague C) 243 258 5ejk-a1-m1-cB_5ejk-a1-m1-cA PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCNSAPALEAGVNPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI 5ejk-a1-m1-cG_5ejk-a1-m1-cA Crystal structure of the Rous sarcoma virus intasome P03354 P03354 3.8 X-RAY DIFFRACTION 47 1.0 11888 (Rous sarcoma virus - Prague C) 11888 (Rous sarcoma virus - Prague C) 239 258 PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCNSAPALEAGVNPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI 5ejk-a1-m1-cH_5ejk-a1-m1-cA Crystal structure of the Rous sarcoma virus intasome P03354 P03354 3.8 X-RAY DIFFRACTION 17 1.0 11888 (Rous sarcoma virus - Prague C) 11888 (Rous sarcoma virus - Prague C) 252 258 5ejk-a1-m1-cD_5ejk-a1-m1-cE PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCNSAPALEAPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI PLREAKDLHTALHIGPRALSKASNISQQAREVVQTCPHCNSAPALEAGVNPRGLGPLQIWQTDFTLEPRAPRSWLAVTVDTASSAIVVTQHGRVTSVAVQHHWATAIAVGRPKAIKTDNGSCFTSKSTREWARWGIAHTTGIPGNSQGQAVERANRKDKIRVLAEGDGFKRIPTSKQGEAKAYALNHFERGENTKTPIQKHWRPTVLTEGPPVKIRIETGEWEKGWNVLVWGRGYAAVKNRDTDKVIWVPSRKVKPDI 5ejl-a2-m1-cA_5ejl-a2-m2-cA MrkH, A novel c-di-GMP dependence transcription regulatory factor. G3FT00 G3FT00 2.3 X-RAY DIFFRACTION 40 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 235 235 SSGLVPRGSHMTEGTIKTSKYEIIAIFREELRKRTEIEIFFNNTSIITQLTRVDFAEFHIQTHRKIPSGHKIRFLLHSDSGKIEFNAALTKHDNDKGIRYAFSLPECLQVVQRRRDPRFRLRHEHDFYCRGRHKNGENYLFDIKDISDGGCALMTKTPNLKFLSHNALLKNAVLMLAEYGEITIDLVVKNVIVITLDNANEESESYYQISCQFKFRHLDDQRRIEKILLDLILEA SSGLVPRGSHMTEGTIKTSKYEIIAIFREELRKRTEIEIFFNNTSIITQLTRVDFAEFHIQTHRKIPSGHKIRFLLHSDSGKIEFNAALTKHDNDKGIRYAFSLPECLQVVQRRRDPRFRLRHEHDFYCRGRHKNGENYLFDIKDISDGGCALMTKTPNLKFLSHNALLKNAVLMLAEYGEITIDLVVKNVIVITLDNANEESESYYQISCQFKFRHLDDQRRIEKILLDLILEA 5ejs-a1-m1-cB_5ejs-a1-m1-cA Structure of Dictyostelium Discoideum Myosin VII MyTH4-FERM MF2 domain, mutant 1 Q9U1M8 Q9U1M8 2.7 X-RAY DIFFRACTION 34 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 485 496 QLAQWASTRFRSFKRASNTAFYFNKDPIKESLIEMEAELSEEAIKNFSEIMMWMGDYPIPKGQTASLVIQSIISRGIENHELRDEIYCQAYRQTNKNPKVESAKKGFELIYFLSITFSPSDSLLQPFMEQLMSRNIAIQSSSPQLASLIAVCIEKLESHPIPSYQQRKMGPSATEIQSFRSNLENGDISTCKIRFIDQSTKLAKINTYTTIREITDTVCRQYGISQQSIKMFGISAVNETAGISKVVSETDMIYDVLARWEQSEEKGEFYFQVRRRFFLDDVNKILDQEHLWTDDDICFELTYCQIRDEWMKGLYTNVNEKDSSIIAAILIQLLYPNQSKLVLTKEVVRQVLPDQILNSQNIKVWISMIESQIFELVSQTPEYLKLMFINLIGSKSPLFGCTLFNIQQKENPPKAWLAINKKGVSIFDPHTKESKNFWTFQSISNVAFTDDTFCIMTGNKPIKQTFTTDEHSSIASVYQFYSSQL SQLAQWASTRFRSFKRASTLNQDPNTAFYFNKDPIKESLIEMEAELSEEAIKNFSEIMMWMGDYPIPKGQTASLVIQSIISRGIENHELRDEIYCQAYRQTNKNPKVESAKKGFELIYFLSITFSPSDSLLQPFMEQLMSRNIAIQSSSPQLASLIAVCIEKLESHPIPSYQQRKMGPSATEIQSFRSNLENGDISTCKIRFIDQSTKLAKINTYTTIREITDTVCRQYGISQQSIKMFGISAVNETAGISKVVSETDMIYDVLARWEQSEEKGEFYFQVRRRFFLDDVNKILDQEHLWTDDDICFELTYCQIRDEWMKGLYTNVNEKDSSIIAAILIQLLYPNQSKLVLTKEVVRQVLPDQILNSQNIKVWISMIESQIFELVSQTPEYLKLMFINLIGSKSPLFGCTLFNIQQKENPPKAWLAINKKGVSIFDPHTKESKNFWTFQSISNVAFTDDTFCIMTGNLMKPIKQTFTTDEHSSIASVYQFYSSQLEH 5ejw-a2-m1-cA_5ejw-a2-m2-cA Crystal structure of chromobox homolog 7 (CBX7) chromodomain with MS351 Q8VDS3 Q8VDS3 2.6 X-RAY DIFFRACTION 118 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 80 HHSSGLVPRGSHMELSAIGEQVFAVESIRKKRVRKGKVEYLVKWKGWPPKYSTWEPEEHILDPRLVMAYEEKEERDRASG HHSSGLVPRGSHMELSAIGEQVFAVESIRKKRVRKGKVEYLVKWKGWPPKYSTWEPEEHILDPRLVMAYEEKEERDRASG 5ek0-a1-m1-cC_5ek0-a1-m1-cD Human Nav1.7-VSD4-NavAb in complex with GX-936. A8EVM5 A8EVM5 3.53 X-RAY DIFFRACTION 105 1.0 367737 (Aliarcobacter butzleri RM4018) 367737 (Aliarcobacter butzleri RM4018) 242 242 5ek0-a1-m1-cB_5ek0-a1-m1-cA 5ek0-a1-m1-cC_5ek0-a1-m1-cB 5ek0-a1-m1-cD_5ek0-a1-m1-cA MYLRITNIVESSFFTKFIIYLIVLNMVTMMVEKEGQSQHMTEVLYWINVVFIILFTIEIILRIYVHRISFFKDPWSLFDFVVVIISIVGMFLADLIETYPTLFRVIRLARIGRILRLVTAVPQMRKIVSALISVIPGMLSVIALMTLFFYIFAIMATQLFGERFPEWFGTLGESFYTLFQVMTLESWSMGIVRPLMEVYPYAWVFFIPFIFVVTFVMINLVVAIIVDAMAILNQKEEQHIID MYLRITNIVESSFFTKFIIYLIVLNMVTMMVEKEGQSQHMTEVLYWINVVFIILFTIEIILRIYVHRISFFKDPWSLFDFVVVIISIVGMFLADLIETYPTLFRVIRLARIGRILRLVTAVPQMRKIVSALISVIPGMLSVIALMTLFFYIFAIMATQLFGERFPEWFGTLGESFYTLFQVMTLESWSMGIVRPLMEVYPYAWVFFIPFIFVVTFVMINLVVAIIVDAMAILNQKEEQHIID 5ek5-a1-m1-cA_5ek5-a1-m1-cB STRUCTURAL CHARACTERIZATION OF IRMA FROM ESCHERICHIA COLI A0A0H2VAX3 A0A0H2VAX3 2.26 X-RAY DIFFRACTION 98 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 118 120 QRYISIRNTDTIWLPGNICAYQFRLDNGGNDEGFGPLTITLQLKDKYGQTLVTRKMETEAFGDSNATRTTDAFLETECVENVATTEIIKATEESNGHRVSLPLSVFDPQDYHPLLITV QRYISIRNTDTIWLPGNICAYQFRLDNGGNDEGFGPLTITLQLKDKYGQTLVTRKMETEAFGDSNATRTTDAFLETECVENVATTEIIKATEESNGHRVSLPLSVFDPQDYHPLLITVSG 5ek7-a1-m1-cA_5ek7-a1-m1-cB Structure of the autoinhibited Epha2 JMS-KD P29317 P29317 1.901 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 286 286 KTYVDPHTYEDPNQAVLKFTTEIHPSCVTRQKVIGAGEFGEVYKGMLKTKEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSHHNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLANMNYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEATYTTSGGKIPIRWTAPEAISYRKFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQCWQQERARRPKFADIVSILDKLI KTYVDPHTYEDPNQAVLKFTTEIHPSCVTRQKVIGAGEFGEVYKGMLKTKEVPVAIKTLKAGYTEKQRVDFLGEAGIMGQFSHHNIIRLEGVISKYKPMMIITEYMENGALDKFLREKDGEFSVLQLVGMLRGIAAGMKYLANMNYVHRDLAARNILVNSNLVCKVSDFGLSRVLEDDPEATYTTSGGKIPIRWTAPEAISYRKFTSASDVWSFGIVMWEVMTYGERPYWELSNHEVMKAINDGFRLPTPMDCPSAIYQLMMQCWQQERARRPKFADIVSILDKLI 5eka-a1-m1-cA_5eka-a1-m2-cA HU DNA-binding protein from Thermus thermophilus P19436 P19436 1.69 X-RAY DIFFRACTION 172 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 85 85 AAKKTVTKADLVDQVAQATGLKKKDVKAMVDALLAKVEEALANGSKVQLTGFGTFEVRKRKARTIPATQYPAFKPGKALKDKVKK AAKKTVTKADLVDQVAQATGLKKKDVKAMVDALLAKVEEALANGSKVQLTGFGTFEVRKRKARTIPATQYPAFKPGKALKDKVKK 5ekd-a1-m1-cA_5ekd-a1-m1-cB Human mitochondrial tryptophanyl-tRNA synthetase bound by indolmycin and Mn*ATP. Q9UGM6 Q9UGM6 1.82 X-RAY DIFFRACTION 124 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 327 327 KKRVFSGIQPTGILHLGNYLGAIESWVRLQDEYDSVLYSIVDLHSITVPQDPAVLRQSILDMTAVLLACGINPEKSILFQQSQVSEHTQLSWILSCMVRLPRLQHLHQWKAKTTKQKHDGTVGLLTYPVLQAADILLYKSTHVPVGEDQVQHMELVQDLAQGFNKKYGEFFPVPESILTSMKKVKSLRDPSAKMSKSDPDKLATVRITDSPEEIVQKFRKAVTDFTSEVTYDPAGRAGVSNIVAVHAAVTGLSVEEVVRRSAGMNTARYKLAVADAVIEKFAPIKREIEKLKLDKDHLEKVLQIGSAKAKELAYTVCQEVKKLVGFL LQKDSKKRVFSGIQPTGILHLGNYLGAIESWVRLQDEYDSVLYSIVDLHSITVPQDPAVLRQSILDMTAVLLACGINPEKSILFQQSQVSEHTQLSWILSCMVRLPRLQHLHQWKAKTTGTVGLLTYPVLQAADILLYKSTHVPVGEDQVQHMELVQDLAQGFNKKYGEFFPVPESILTSMKKVKSLRDPSAKMSKSDPDKLATVRITDSPEEIVQKFRKAVTDFTSEVTYDPAGRAGVSNIVAVHAAVTGLSVEEVVRRSAGMNTARYKLAVADAVIEKFAPIKREIEKLKLDKDHLEKVLQIGSAKAKELAYTVCQEVKKLVGFL 5eke-a1-m1-cD_5eke-a1-m1-cC Structure of the polyisoprenyl-phosphate glycosyltransferase GtrB (F215A mutant) Q55487 Q55487 3.001 X-RAY DIFFRACTION 108 0.997 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 296 307 5eke-a1-m1-cA_5eke-a1-m1-cC 5eke-a1-m1-cD_5eke-a1-m1-cB 5ekp-a1-m1-cA_5ekp-a1-m1-cC 5ekp-a1-m1-cD_5ekp-a1-m1-cB 5ekp-a1-m1-cD_5ekp-a1-m1-cC FQSNATIELSIVIPMYNEEDNLEHLFARLLEVLTPLKITYEIICVNDGSKDKTLKQLIDCYQSNRQIKIVNLSRNFGKEIALSAGIDYAQGNAVIPIDADLQDPPELIHELVDKWREGYDIVYATRRTWVKQFTAKMFYKVIGRMTEIKIPPNTGDFRLMDRKVVNAIKQLPERTRFMKGLFAWVGYRQTFVLFWNYWKLWNAALDGIFSFSLLPLKVWTYLGSIISLLSLAYASFLILKDVPGYASLMVAILFLGGVQLISLGVIGEYLGRVYEEVKARPLYLVSDLWGLEYLPL FQSNATIELSIVIPMYNEEDNLEHLFARLLEVLTPLKITYEIICVNDGSKDKTLKQLIDCYQSNRQIKIVNLSRNFGKEIALSAGIDYAQGNAVIPIDADLQDPPELIHELVDKWREGYDIVYATRRSRQGETWVKQFTAKMFYKVIGRMTEIKIPPNTGDFRLMDRKVVNAIKQLPERTRFMKGLFAWVGYRQTFVLFDRNYWKLWNAALDGIFSFSLLPLKVWTYLGSIISLLSLAYASFLILKTITLVDVPGYASLMVAILFLGGVQLISLGVIGEYLGRVYEEVKARPLYLVSDLWGLEYLPL 5eki-a7-m1-cF_5eki-a7-m1-cA Crystal Structure of Truncated CCL21 O00585 O00585 1.9 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 72 5eki-a7-m1-cB_5eki-a7-m1-cE 5eki-a7-m1-cC_5eki-a7-m1-cB 5eki-a7-m1-cC_5eki-a7-m1-cF 5eki-a7-m1-cD_5eki-a7-m1-cA 5eki-a7-m1-cD_5eki-a7-m1-cE DCCLKYSQRKIPAKVVRSYRKQEPSLGCSIPAILFLPRKRSQAELCADPKELWVQQLMQHLDKTPSPQKP QDCCLKYSQRKIPAKVVRSYRKQEPSLGCSIPAILFLPRKRSQAELCADPKELWVQQLMQHLDKTPSPQKPA 5eks-a3-m2-cB_5eks-a3-m1-cA Structure of 3-dehydroquinate synthase from Acinetobacter baumannii in complex with NAD V5V8R5 V5V8R5 1.85 X-RAY DIFFRACTION 61 0.994 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 354 355 HHMQTLHVELRRYPIFIGSQLDPKQLLEPYIHGQQVMIVSNVTVAPLYLSHYQEALESLGKTVATCILPDGEKYKDIQHLNLIFDALLEAGFNRDCTVLALGGGVIGDMAGFASACFQRGVYFVQVPTTLLSQVDSSVGGKTGINHPLGKNMLGAFQQPQVVLADMAQLNTLPERELSAGLAEVIKYALLGDEDFLVWLEENMDGLVARDADLLAEAVYRSCAHKARIVANDEERALLNLGHTFGHAIESYLGYGTWLHGEAVATGMVMAADLSQRLGWISNEDVARTKKIIQRANLPISCPQIPLDDFLGYMAHDKKVGQLRLVLLKQLGQAVITKDFDVELMKQAILANQHG HMQTLHVELGERRYPIFIGSQLDPKQLLEPYIHGQQVMIVSNVTVAPLYLSHYQEALESLGKTVATCILPDGEKYKDIQHLNLIFDALLEAGFNRDCTVLALGGGVIGDMAGFASACFQRGVYFVQVPTTLLSQVDSSVGGKTGINHPLGKNMLGAFQQPQVVLADMAQLNTLPERELSAGLAEVIKYALLGDEDFLVWLEENMDGLVARDADLLAEAVYRSCAHKARIVANDEKERALLNLGHTFGHAIESYLGYGTWLHGEAVATGMVMAADLSQRLGWISNEDVARTKKIIQRANLPISCPQIPLDDFLGYMAHDKKVQLRLVLLKQLGQAVITKDFDVELMKQAILANQHG 5eku-a1-m1-cA_5eku-a1-m1-cB Crystal Structure of Trypanosoma Brucei Protein Arginine Methyltransferase PRMT7 in complex with S-Adenosyl-L-homocysteine D6XJ80 D6XJ80 2.801 X-RAY DIFFRACTION 240 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 343 347 4m36-a1-m1-cA_4m36-a1-m2-cA 4m37-a1-m1-cA_4m37-a1-m2-cA 4m38-a1-m1-cA_4m38-a1-m1-cB RPPDAFVNRIDRNIPVPARLRHTPVSLIEAVNDFHYAMMNDEERNNFYYEVLKKHVTPETGVLEIGAGSGLLSLMAAKLGAKWVVAVEGSEELAKLARENIRANNMEHQVKVLHMMSTELKPKHLPEPPDVLLSEIFGTMMLGESALDYVVDVRNRLLKPTTKIIPQFGTQYAVPIECDALHRISSVSGWRDLDLKHMMTLQDTVSIVFAKHYGIRMNSVNFRRLSDPIELFRVDFSSSNRNDISRRKHFDVVAKESGTAHAMLFYWKVTDDEFVMSTDPEDTVNNFPRDMQWGQALQLLDASNGPLPTPVVFTEGKNYNFECNFSGDRVILHMQLCPEMTEC GYRPPDAFVNRIDRNIPVPARLRHTPVSLIEAVNDFHYAMMNDEERNNFYYEVLKKHVTPETGVLEIGAGSGLLSLMAAKLGAKWVVAVEGSEELAKLARENIRANNMEHQVKVLHMMSTELKPKHLPEPPDVLLSEIFGTMMLGESALDYVVDVRNRLLKPTTKIIPQFGTQYAVPIECDALHRISSVSGWRDLDLKHMMTLQDTVSIVFAKHYGIRMNSVNFRRLSDPIELFRVDFSSSNRNDISRRKHFDVVAKESGTAHAMLFYWKVTDDEFVMSTDPEDTVNNFPRDMQWGQALQLLDASNGPLPTPVVFTEGKNYNFECNFSGDRVILHMQLCPEEMTECE 5elp-a1-m1-cD_5elp-a1-m1-cC Ketosynthase from module 1 of the bacillaene synthase from Bacillus amyloliquefaciens FZB42 Q1RS73 Q1RS73 2.93 X-RAY DIFFRACTION 13 0.99 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 523 557 PDYYEDSLAVIGISCEFPGAKDHYEFWNNIKEGKESITFFSKPGFVPAKSVLEGKEMFDPGFFGFSPKDAEYMDPQLRMLLLHSWKAIEDAGYISKEIPETSVYMSASTNSYRSLLPEEPDGYVSWVLAQSGTIPTMISHKLGLKGPSYFVHANCSSSLIGLHSAFQSLQSGEAKYALVGGATLHTEVHQPGLNFSSDGHIKAFDADADGMIGGEGAGAVLLKKASDAVKDGDHIYALLRGIGVNNDGADKVGFYAPSVKGQAEVIQKVIDQTGIHPETIAYVEAHGTGTKLGDPIELSALQSVYGRYTDKKQYCGIGSVKTNLGHLDTAAGMAGCIKVVMSLYHQEIAPSINYKEPNPNLHLEDSPFFVAEEKKELTREAHRMALSSFGLGGTNTHAIFEQYPDAGPFIIPLSARKKDRLKEYAKQLLAFLERKTDTDLADLAYTFQVGREAMEERAAFITSGTAELKRQLADFINDFRGAKGKGPKLCEMWSKGVAINWHKHPKRISLPVYPFAKEPYWPK YYEDSLAVIGISCEFPGAKDHYEFWNNIKEGKESITFFSKEELHPGFVPAKSVLEGKEMFDPGFFGFSPKDAEYMDPQLRMLLLHSWKAIEDAGYISKEIPETSVYMSASTNSYRSLLPEDGYVSWVLAQSGTIPTMISHKLGLKGPSYFVHANCSSSLIGLHSAFQSLQSGEAKYALVGGATLHTESSVHQPGLNFSSDGHIKAFDADADGMIGGEGAGAVLLKKASDAVKDGDHIYALLRGIGVNNDGADKVGFYAPSVKGQAEVIQKVIDQTGIHPETIAYVEAHGTGTKLGDPIELSALQSVYGRYTDKKQYCGIGSVKTNLGHLDTAAGMAGCIKVVMSLYHQEIAPSINYKEPNPNLHLEDSPFFVAEEKKELTRAHRMALSSFGLGGTNTHAIFEQYPDAGPFIIPLSARKKDRLKEYAKQLLAFLERKTDTDLADLAYTFQVGREAMEERAAFITSGTAELKRQLADFINDKPAVTGCFRGEKQQAKDIAWLSDDDDSAELIEKWLAKGKGPKLCEMWSKGVAINWHKKHPKRISLPVYPFAKEPYWPK 5els-a2-m1-cF_5els-a2-m1-cB Structure of the KH domain of T-STAR in complex with AAAUAA RNA O75525 O75525 2.873 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 113 GAINKNMKLGQKVLIPVKQFPKFNFVGKLLGPRGNSLKRLQEETLTKMSILGKGSMRDKAKEEELRKSGEAKYFHLNDDLHVLIEVFAPPAEAYARMGHALEEIKKFLIPDY GAINKNMKLGQKVLIPVKQFPKFNFVGKLLGPRGNSLKRLQEETLTKMSILGKGSMRDKAKEEELRKSGEAKYFHLNDDLHVLIEVFAPPAEAYARMGHALEEIKKFLIPDYN 5els-a3-m1-cE_5els-a3-m1-cD Structure of the KH domain of T-STAR in complex with AAAUAA RNA O75525 O75525 2.873 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 111 5el3-a1-m1-cA_5el3-a1-m1-cB 5el3-a2-m1-cC_5el3-a2-m1-cD 5elr-a1-m1-cC_5elr-a1-m1-cD 5elt-a1-m1-cA_5elt-a1-m1-cB GAINKNMKLGQKVLIPVKQFPKFNFVGKLLGPRGNSLKRLQEETLTKMSILGKGSMRDKAKEEELRKSGEAKYFHLNDDLHVLIEVFAPPAEAYARMGHALEEIKKFLIP GAINKNMKLGQKVLIPVKQFPKFNFVGKLLGPRGNSLKRLQEETLTKMSILGKGSMRDKAKEEELRKSGEAKYFHLNDDLHVLIEVFAPPAEAYARMGHALEEIKKFLIPD 5en6-a1-m1-cA_5en6-a1-m2-cA Crystal structure of the Smu1-RED complex (SeMet) of Caenorhabditis elegans G5EEG7 G5EEG7 3.103 X-RAY DIFFRACTION 71 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 175 175 5en6-a2-m1-cB_5en6-a2-m3-cB 5en7-a1-m1-cA_5en7-a1-m1-cC 5en7-a2-m1-cE_5en7-a2-m1-cG EIESSDVIRLIEQFLKESNLHRTLAILQEETNVSLNTVDSIDGFCNEITSGNWDNVLKTVQSLKLPAKKLIDLYEHVIIELVELRELATARLVARQTDPILLKQIDPDRFARLESLINRPYFDGQEVYGDVSKEKRRSVIAQTLSSEVHVVAPSRLLSLLGQSLKWQLHQGLLPP EIESSDVIRLIEQFLKESNLHRTLAILQEETNVSLNTVDSIDGFCNEITSGNWDNVLKTVQSLKLPAKKLIDLYEHVIIELVELRELATARLVARQTDPILLKQIDPDRFARLESLINRPYFDGQEVYGDVSKEKRRSVIAQTLSSEVHVVAPSRLLSLLGQSLKWQLHQGLLPP 5en8-a1-m1-cA_5en8-a1-m1-cB Crystal structure of the N-terminal region of Smu1 G5EEG7 G5EEG7 2.23 X-RAY DIFFRACTION 66 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 172 173 IESSDVIRLIEQFLKESNLHRTLAILQEETNVSLNTVDSIDGFCNEITSGNWDNVLKTVQSLKLPAKKLIDLYEHVIIELVELRELATARLVARQTDPMILLKQIDPDRFARLESLINRPYFDGQEVYGDVSKEKRRSVIAQTLSSEVHVVAPSRLLSLLGQSLKWQLHQGL IESSDVIRLIEQFLKESNLHRTLAILQEETNVSLNTVDSIDGFCNEITSGNWDNVLKTVQSLKLPAKKLIDLYEHVIIELVELRELATARLVARQTDPMILLKQIDPDRFARLESLINRPYFDGQEVYGDVSKEKRRSVIAQTLSSEVHVVAPSRLLSLLGQSLKWQLHQGLL 5enz-a1-m1-cA_5enz-a1-m1-cB S. aureus MnaA-UDP co-structure Q9REV4 Q9REV4 1.91 X-RAY DIFFRACTION 66 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 365 373 MKKIMTIFGTRPEAIKMAPLVKALEQEKMLEPIVVVTALDSVLSTFEIKPKYDLNTLSEITSKSITQLEQVIQLEKPDMVLVHGDTMTTFAGGLAAFYNQVPIGHVEAGLRSYDKYSPFPEEVNRQLVGVLADLHFAPTKNAASHLLSEGKYSESVVVTGNTAIDAMKYTVDDNYKSNIMDKYHDKKFILMTAHRRENIGKPMENIFKAVRRLIDEYTDLALVYPMHKNPKVREVAQKILGSHDRIELIEPLDVVDFHNFAKKSYFILTDSGGIQEEAPSFNKPVLVLRSVTERPEGVEAGTLKVIGTNKQNVYQAAKELIDDERLYHQMSEASNPYGDGFASERIVNHIKYYLNLITEKPSDFG MKKIMTIFGTRPEAIKMAPLVKALEQEKMLEPIVVVTAQHREMLDSVLSTFEIKPKYDLNIMQTLSEITSKSITQLEQVIQLEKPDMVLVHGDTMTTFAGGLAAFYNQVPIGHVEAGLRSYDKYSPFPEEVNRQLVGVLADLHFAPTKNAASHLLSEGKYSESVVVTGNTAIDAMKYTVDDNYKSNIMDKYHDKKFILMTAHRRENIGKPMENIFKAVRRLIDEYTDLALVYPMHKNPKVREVAQKILGSHDRIELIEPLDVVDFHNFAKKSYFILTDSGGIQEEAPSFNKPVLVLRSVTERPEGVEAGTLKVIGTNKQNVYQAAKELIDDERLYHQMSEASNPYGDGFASERIVNHIKYYLNLITEKPSDFG 5eo3-a3-m1-cB_5eo3-a3-m1-cA Crystal Structure of Pelota C terminal domain from human Q9BRX2 Q9BRX2 2.6 X-RAY DIFFRACTION 32 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 100 101 AAGEVKALDDFYKMLQHEPDRAFYGLKQVEKANEAMAIDTLLISDELFRDVATRSRYVRLVDSVKENAGTVRIFSSLHVSGEQLSQLTGVAAILRFPVPE AGEVKALDDFYKMLQHEPDRAFYGLKQVEKANEAMAIDTLLISDELFRHDVATRSRYVRLVDSVKENAGTVRIFSSLHVSGEQLSQLTGVAAILRFPVPEL 5eo4-a3-m2-cA_5eo4-a3-m2-cB Structural and biochemical characterization of the hypothetical protein SAV2348 from Staphylococcus aureus. A0A0H3JSY9 A0A0H3JSY9 2 X-RAY DIFFRACTION 55 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 155 155 5eo4-a3-m1-cA_5eo4-a3-m1-cB MIKQLFTHTQTVTSEFIDHNNHMHDANYNIIFSDVVNRFNYSHGLSLKERENLAYTLFTLEEHTTYLSELSLGDVFTVTLYIYDYDYKRLHLFLTLTKEDGTLASTNEVMMMGINQHTRRSDAFPESFSTQIAHYYKNQPTITWPEQLGHKIAIP MIKQLFTHTQTVTSEFIDHNNHMHDANYNIIFSDVVNRFNYSHGLSLKERENLAYTLFTLEEHTTYLSELSLGDVFTVTLYIYDYDYKRLHLFLTLTKEDGTLASTNEVMMMGINQHTRRSDAFPESFSTQIAHYYKNQPTITWPEQLGHKIAIP 5eo4-a3-m2-cC_5eo4-a3-m2-cB Structural and biochemical characterization of the hypothetical protein SAV2348 from Staphylococcus aureus. A0A0H3JSY9 A0A0H3JSY9 2 X-RAY DIFFRACTION 104 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 152 155 5eo2-a2-m1-cB_5eo2-a2-m1-cC 5eo2-a3-m1-cE_5eo2-a3-m1-cF 5eo4-a1-m1-cA_5eo4-a1-m2-cA 5eo4-a2-m1-cC_5eo4-a2-m1-cB 5eo4-a3-m1-cA_5eo4-a3-m2-cA 5eo4-a3-m1-cC_5eo4-a3-m1-cB QLFTHTQTVTSEFIDHNNHMHDANYNIIFSDVVNRFNYSHGLSLKERENLAYTLFTLEEHTTYLSELSLGDVFTVTLYIYDYDYKRLHLFLTLTKEDGTLASTNEVMMMGINQHTRRSDAFPESFSTQIAHYYKNQPTITWPEQLGHKIAIP MIKQLFTHTQTVTSEFIDHNNHMHDANYNIIFSDVVNRFNYSHGLSLKERENLAYTLFTLEEHTTYLSELSLGDVFTVTLYIYDYDYKRLHLFLTLTKEDGTLASTNEVMMMGINQHTRRSDAFPESFSTQIAHYYKNQPTITWPEQLGHKIAIP 5eo6-a1-m1-cB_5eo6-a1-m1-cA Coproporphyrinogen III oxidase (HemF) from Acinetobacter baumannii A0A0D5YE19 A0A0D5YE19 1.45 X-RAY DIFFRACTION 74 0.997 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 307 312 QHPTSTDIQRVREFLLDLQARICAGLEQQEKAGGGTAEFIIDDWERPEGGGGRSRVLQNGTVIEKGGVMFSHINISKLPASATERHPQIAGAKAQALGVSLVIHPKNPNIPTSHANVRLFVAEPIWWFGGGFDLTPFYPDDQDVLNWHQAAYDLCKPFGDNVYAEHKKWCDDYFYLKHRDEQRGVGGLFFDDLNCWDFETCFKYIQAVGNGYLNAILPIFEKHREQPYTEAQREFQLYRRGRYVEYNLVYDRGTLFGLQTGGRIESILVSLPNLAAWSYRPEWDEDSPEKRLTDYYLKPRDWLGLEE MQHPTSTDIQRVREFLLDLQARICAGLEQQEKAGGGTAEFIIDDWERPEGGGGRSRVLQNGTVIEKGGVMFSHINISKLPASATERHPQIAGAKAQALGVSLVIHPKNPNIPTSHANVRLFVAEREDQDPIWWFGGGFDLTPFYPDDQDVLNWHQAAYDLCKPFGDNVYAEHKKWCDDYFYLKHRDEQRGVGGLFFDDLNCWDFETCFKYIQAVGNGYLNAILPIFEKHREQPYTEAQREFQLYRRGRYVEYNLVYDRGTLFGLQTGGRIESILVSLPNLAAWSYRPEWDEDSPEKRLTDYYLKPRDWLGLE 5eo8-a1-m1-cA_5eo8-a1-m2-cA Crystal structure of AOL(868) Q2UNX8 Q2UNX8 1.6 X-RAY DIFFRACTION 76 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 311 311 5eo7-a1-m1-cA_5eo7-a1-m2-cA 5eo7-a2-m1-cB_5eo7-a2-m1-cC MSTPGAQEVLFRTGIAAVNSTNHLRVYFQDSHGSIRESLYESGWANGTAKNVIAKAKLGTPLAATSKELKNIRVYSLTEDNVLQEAAYDSGSGWYNGALAGAKFTVAPYSRIGSVFLAGTNALQLRIYAQKTDNTIQEYMWNGDGWKEGTNLGVALPGTGIGVTCWRYTDYDGPSIRVWFQTDNLKLVQRAYDPHTGWYKELTTIFDKAPPRCAIAATNFNPGKSSIYMRIYFVNSDNTIWQVCWDHGQGYHDKRTITPVIQGSEIAIISWEGPELRLYFQNGTYVSAISEWTWGKAHGSQLGRRALPPAE MSTPGAQEVLFRTGIAAVNSTNHLRVYFQDSHGSIRESLYESGWANGTAKNVIAKAKLGTPLAATSKELKNIRVYSLTEDNVLQEAAYDSGSGWYNGALAGAKFTVAPYSRIGSVFLAGTNALQLRIYAQKTDNTIQEYMWNGDGWKEGTNLGVALPGTGIGVTCWRYTDYDGPSIRVWFQTDNLKLVQRAYDPHTGWYKELTTIFDKAPPRCAIAATNFNPGKSSIYMRIYFVNSDNTIWQVCWDHGQGYHDKRTITPVIQGSEIAIISWEGPELRLYFQNGTYVSAISEWTWGKAHGSQLGRRALPPAE 5eof-a1-m1-cA_5eof-a1-m1-cB Crystal structure of OPTN NTD and TBK1 CTD complex Q96CV9 Q96CV9 2.05 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 5eoa-a1-m1-cA_5eoa-a1-m1-cB HPNLDTFTPEELLQQMKELLTENHQLKEAMKLNNQAMKGRFEELSAWTEKQKEERQFFEIQSKEAKERLMALSH HPNLDTFTPEELLQQMKELLTENHQLKEAMKLNNQAMKGRFEELSAWTEKQKEERQFFEIQSKEAKERLMALSH 5eon-a1-m2-cA_5eon-a1-m2-cB Crystal structure of a de novo antiparallel coiled-coil hexamer - ACC-Hex 1.696 X-RAY DIFFRACTION 61 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 5eon-a1-m1-cA_5eon-a1-m1-cB 5eon-a1-m1-cC_5eon-a1-m2-cC ELKAIAQEFKAIAKEFKAIAWEFKAIAQK ELKAIAQEFKAIAKEFKAIAWEFKAIAQK 5eon-a1-m2-cA_5eon-a1-m2-cC Crystal structure of a de novo antiparallel coiled-coil hexamer - ACC-Hex 1.696 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 5eon-a1-m1-cA_5eon-a1-m1-cC 5eon-a1-m1-cB_5eon-a1-m2-cB ELKAIAQEFKAIAKEFKAIAWEFKAIAQK ELKAIAQEFKAIAKEFKAIAWEFKAIAQK 5eox-a1-m1-cA_5eox-a1-m1-cB Pseudomonas aeruginosa PilM bound to ADP G3XD28 G3XD28 2.4 X-RAY DIFFRACTION 108 0.997 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 351 353 5eoy-a1-m1-cB_5eoy-a1-m1-cA 5eq6-a1-m1-cB_5eq6-a1-m1-cA SHMLGLIKKNTLLGIDISSTSVKLLELSRSGGRYKVEAYAVEPLPPNAVVEKNIVELEGVGQALSRVLVKAKTNLKSAVVAVAGSAVITKTIEMEAGLSEDELENQLKIEADQYIPYPLEEVAIDFEVQGLSARNPERVDVLLAACRKENVEVREAALALAGLTAKVVDVEAYALERSYALLSSQLGADTLTVAVVDIGATMTTLSVLHNGRTIYTREQLFGGRQLTEEIQRRYGLSVEEAGLAKKQGLPDDYDSEVLRPFKDAVVQQVSRSLQFFFAAGQFNDVDYIVLAGGTASIQDLDRLIQQKIGTPTLVANPFADMALNGKVNAGALASDAPALMIACGLALRSFD HMLGLIKKNTLLGIDISSTSVKLLELSRSGGRYKVEAYAVEPLPPNAVVEKNIVELEGVGQALSRVLVKAKTNLKSAVVAVAGSAVITKTIEMEAGLSEDELENQLKIEADQYIPYPLEEVAIDFEVQGLSARNPERVDVLLAACRKENVEVREAALALAGLTAKVVDVEAYALERSYALLSSQLGADTDQLTVAVVDIGATMTTLSVLHNGRTIYTREQLFGGRQLTEEIQRRYGLSVEEAGLAKKQGGLPDDYDSEVLRPFKDAVVQQVSRSLQFFFAAGQFNDVDYIVLAGGTASIQDLDRLIQQKIGTPTLVANPFADMALNGKVNAGALASDAPALMIACGLALRSFD 5ep8-a1-m1-cA_5ep8-a1-m1-cB X-Ray Structure of the Complex Pyrimidine-nucleoside phosphorylase from Bacillus subtilis with Sulfate Ion P39142 P39142 2.66 X-RAY DIFFRACTION 63 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 433 433 MRMVDIIIKKQNGKELTTEEIQFFVNGYTDGSIPDYQASALAMAIFFRDMSDRERADLTMAMVNSGETIDLSAIEGIKVDKHSTGGVGDTTTLVLAPLVAALDVPVAKMSGRGLGHTGGTIDKLEAIDGFHVELTKREFIKLVNRDKVAVIGQSGNLTPADKKLYALRDVTGTVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKTEEDAAELAKAMVRIGNNVGRQTMAVISDMSQPLGFAIGNALEVKEAIDTLKGEGPEDLHELVLTLGSQMVVLAKKADTLDEARAKLEEVMKNGKALEKFKDFLKNQGGDSSIVDDPSKLPQAAYQIDVPAKEAGVVSEIVADEIGVAAMLLGAGRATKEDEIDLAVGIMLRKKVGDKVEKGEPLVTLYANRENVDEVIAKVYDNIRIAAEAKAPKLIHTLITE MRMVDIIIKKQNGKELTTEEIQFFVNGYTDGSIPDYQASALAMAIFFRDMSDRERADLTMAMVNSGETIDLSAIEGIKVDKHSTGGVGDTTTLVLAPLVAALDVPVAKMSGRGLGHTGGTIDKLEAIDGFHVELTKREFIKLVNRDKVAVIGQSGNLTPADKKLYALRDVTGTVNSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKTEEDAAELAKAMVRIGNNVGRQTMAVISDMSQPLGFAIGNALEVKEAIDTLKGEGPEDLHELVLTLGSQMVVLAKKADTLDEARAKLEEVMKNGKALEKFKDFLKNQGGDSSIVDDPSKLPQAAYQIDVPAKEAGVVSEIVADEIGVAAMLLGAGRATKEDEIDLAVGIMLRKKVGDKVEKGEPLVTLYANRENVDEVIAKVYDNIRIAAEAKAPKLIHTLITE 5epo-a1-m1-cA_5epo-a1-m1-cD The three-dimensional structure of Clostridium absonum 7alpha-hydroxysteroid dehydrogenase G9FRD7 G9FRD7 2 X-RAY DIFFRACTION 113 0.996 29369 (Clostridium sardiniense) 29369 (Clostridium sardiniense) 261 261 5epo-a1-m1-cB_5epo-a1-m1-cC KRLEGKVAIVTSSTRGIGRASAEALAKEGALVYLAARSEELANEVIADIKKQGGVAKFVYFNAREEETYTSMVEKVAEAEGRIDILVNNYGGTNVNLDKNLTAGDTDEFFRILKDNVQSVYLPAKAAIPHMEKVGGGSIVNISTIGSVVPDISRIAYCVSKSAINSLTQNIALQYARKNIRCNAVLPGLIGTRAALENMTDEFRDSFLGHVPLNRVGRPEDIANAVLYYASDDSGYVTGMIHEVAGGFALGTPQYSEYCPR MKRLEGKVAIVTSSTRGIGRASAEALAKEGALVYLAARSEELANEVIADIKKQGGVAKFVYFNAREEETYTSMVEKVAEAEGRIDILVNNYGGTNVNLDKNLTAGDTDEFFRILKDNVQSVYLPAKAAIPHMEKVGGGSIVNISTIGSVVPDISRIAYCVSKSAINSLTQNIALQYARKNIRCNAVLPGLIGTRAALENMTDEFRDSFLGHVPLNRVGRPEDIANAVLYYASDDSGYVTGMIHEVAGGFALGTPQYSEYCP 5epo-a1-m1-cB_5epo-a1-m1-cD The three-dimensional structure of Clostridium absonum 7alpha-hydroxysteroid dehydrogenase G9FRD7 G9FRD7 2 X-RAY DIFFRACTION 102 0.996 29369 (Clostridium sardiniense) 29369 (Clostridium sardiniense) 261 261 5epo-a1-m1-cA_5epo-a1-m1-cC KRLEGKVAIVTSSTRGIGRASAEALAKEGALVYLAARSEELANEVIADIKKQGGVAKFVYFNAREEETYTSMVEKVAEAEGRIDILVNNYGGTNVNLDKNLTAGDTDEFFRILKDNVQSVYLPAKAAIPHMEKVGGGSIVNISTIGSVVPDISRIAYCVSKSAINSLTQNIALQYARKNIRCNAVLPGLIGTRAALENMTDEFRDSFLGHVPLNRVGRPEDIANAVLYYASDDSGYVTGMIHEVAGGFALGTPQYSEYCPR MKRLEGKVAIVTSSTRGIGRASAEALAKEGALVYLAARSEELANEVIADIKKQGGVAKFVYFNAREEETYTSMVEKVAEAEGRIDILVNNYGGTNVNLDKNLTAGDTDEFFRILKDNVQSVYLPAKAAIPHMEKVGGGSIVNISTIGSVVPDISRIAYCVSKSAINSLTQNIALQYARKNIRCNAVLPGLIGTRAALENMTDEFRDSFLGHVPLNRVGRPEDIANAVLYYASDDSGYVTGMIHEVAGGFALGTPQYSEYCP 5epo-a1-m1-cC_5epo-a1-m1-cD The three-dimensional structure of Clostridium absonum 7alpha-hydroxysteroid dehydrogenase G9FRD7 G9FRD7 2 X-RAY DIFFRACTION 54 0.996 29369 (Clostridium sardiniense) 29369 (Clostridium sardiniense) 261 261 5epo-a1-m1-cA_5epo-a1-m1-cB KRLEGKVAIVTSSTRGIGRASAEALAKEGALVYLAARSEELANEVIADIKKQGGVAKFVYFNAREEETYTSMVEKVAEAEGRIDILVNNYGGTNVNLDKNLTAGDTDEFFRILKDNVQSVYLPAKAAIPHMEKVGGGSIVNISTIGSVVPDISRIAYCVSKSAINSLTQNIALQYARKNIRCNAVLPGLIGTRAALENMTDEFRDSFLGHVPLNRVGRPEDIANAVLYYASDDSGYVTGMIHEVAGGFALGTPQYSEYCPR MKRLEGKVAIVTSSTRGIGRASAEALAKEGALVYLAARSEELANEVIADIKKQGGVAKFVYFNAREEETYTSMVEKVAEAEGRIDILVNNYGGTNVNLDKNLTAGDTDEFFRILKDNVQSVYLPAKAAIPHMEKVGGGSIVNISTIGSVVPDISRIAYCVSKSAINSLTQNIALQYARKNIRCNAVLPGLIGTRAALENMTDEFRDSFLGHVPLNRVGRPEDIANAVLYYASDDSGYVTGMIHEVAGGFALGTPQYSEYCP 5epv-a3-m1-cB_5epv-a3-m1-cA Histidine kinase domain from the LOV-HK blue-light receptor from Brucella abortus Q2YKK7 Q2YKK7 2.51 X-RAY DIFFRACTION 89 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 197 216 NKALVSREIAHRFKNSMAMVQSIANQTLRDPEQANRLFSERLRALSQAHDMLLKENWAGATIQQICATALAPFNSTFANRIHMSGPHLLVSDRVTVALSLAFYELATNAVKYGALSNEKGVINITWAIMEDEKKFHMRWAESRGPEVMQPARRGFGQRLLHSVLAEELKAKCDVEFAASGLLIDVLAPITPEVFPGM ASVQDVTERKKAEANKALVSREIAHRFKNSMAMVQSIANQTLRNTYDPEQANRLFSERLRALSQAHDMLLKENWAGATIQQICATALAPFNSTFANRIHMSGPHLLVSDRVTVALSLAFYELATNAVKYGALSNEKGVINITWAIMEDKGEKKFHMRWAESRGPEVMQPARRGFGQRLLHSVLAEELKAKCDVEFAASGLLIDVLAPITPEVFPGM 5epw-a1-m1-cA_5epw-a1-m1-cB C-Terminal Domain Of Human Coronavirus Nl63 Nucleocapsid Protein Q6Q1R8 Q6Q1R8 1.5 X-RAY DIFFRACTION 183 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 104 110 PSQLKKPRWKRVPTREENVIQCFGPRDFNHNMGDSDLVQNGVDAKGFPQLAELIPNQAALFFDSEVSTDEVGDNVQITYTYKMLVAKDNKNLPKFIEQISAFTK PSQLKKPRWKRVPTREENVIQCFGPRDFNHNMGDSDLVQNGVDAKGFPQLAELIPNQAALFFDSEVSTDEVGDNVQITYTYKMLVAKDNKNLPKFIEQISAFTKPSSIKE 5eqa-a2-m1-cD_5eqa-a2-m1-cC Crystal structure of Medicago truncatula Histidinol-Phosphate Phosphatase (MtHPP) with intermolecular cross-link between Lys158 and Cys245 G7J7Q5 G7J7Q5 1.32 X-RAY DIFFRACTION 52 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 253 255 5eq7-a1-m1-cA_5eq7-a1-m2-cA 5eq8-a1-m1-cA_5eq8-a1-m2-cA 5eq9-a1-m1-cA_5eq9-a1-m1-cB 5eq9-a2-m1-cD_5eq9-a2-m1-cC 5eqa-a1-m1-cB_5eqa-a1-m1-cA 5t3j-a2-m1-cA_5t3j-a2-m2-cA QLNHFSDVANKAANAAGDVIRKYFRKSPVTIADQSAEEAMVSVILDNFPSHAVYGEEKGWRCKQDSADYVWVLDPIDGTKSFITGPLFGTLIALLQNGTPILGIIDQPVLKERWIGITGKRTTLNGQEVSTRTCADLSQAYLYTTSPHLFSGDAEEAFIRVRDKVKIPLYGCDCYAYALLSSGFVDLVVESGLKPYDFLALIPVIEGSGGVITDWKGHQLRWEASPLSIATSFNVVAAGDKQIHQQALDSLQW QLNHFSDVANKAANAAGDVIRKYFRKNLSPVTIADQSAEEAMVSVILDNFPSHAVYGEEKGWRCKQDSADYVWVLDPIDGTKSFITGPLFGTLIALLQNGTPILGIIDQPVLKERWIGITGKRTTLNGQEVSTRTCADLSQAYLYTTSPHLFSGDAEEAFIRVRDKVKIPLYGCDCYAYALLSSGFVDLVVESGLKPYDFLALIPVIEGSGGVITDWKGHQLRWEASPLSIATSFNVVAAGDKQIHQQALDSLQW 5eqn-a1-m1-cB_5eqn-a1-m1-cA Structure of phosphonate hydroxylase Q0ZQ39 Q0ZQ39 2.3 X-RAY DIFFRACTION 59 0.996 359131 (Streptomyces rubellomurinus) 359131 (Streptomyces rubellomurinus) 263 264 EILKKPVTGRSVWQRAQVEDASQWTYVLDEGRAEILEAAERINEQGLTVWDLDRKAVPLERAGKLVAQCVEQLEHGFGLALRGVPTEGLTVAESQVVGVVGLHLGTAVAQNGHGDRVVSIPWHSDAPDIAALLCLTFHVASAHIYNTLLQEAPELLGLYYAGVFFDYRGEEPPGEPPAYRNAIFGYHNGQLSCRYFLRNFADSGTAKLGFEQPEVEKLALDTFEEIASRPENHVSRLEPGDQLVDDNVTVHRRHLLRLWINVE EILKKPVTGRSVWQRAQVEDASQWTYVLDEGRAEILEAAERINEQGLTVWDLDRKAVPLERAGKLVAQCVEQLEHGFGLALRGVPTEGLTVAESQVVGVVGLHLGTAVAQNGHGDRVVSIPWHSDAPDIAALLCLTQEFHVASAHIYNTLLQEAPELLGLYYAGVFFDYRGEEPPGEPPAYRNAIFGYHNGQLSCRYFLRNFADSGTAKLGFEQPEVEKLALDTFEEIASRPENHVSRLEPGDQLVDDNVTVHRRHLLRLWINV 5er3-a2-m1-cA_5er3-a2-m2-cA Crystal structure of ABC transporter system solute-binding protein from Rhodopirellula baltica SH 1 Q7UK26 Q7UK26 2.105 X-RAY DIFFRACTION 102 1.0 243090 (Rhodopirellula baltica SH 1) 243090 (Rhodopirellula baltica SH 1) 310 310 GFPRQCGDYTVLGILTDNQDNSKAKENAETTLLRHPNVACLVGLWSQNTPILAGLRSSDAIGKVAVVGFDEHPDTLAGIRDQSVYGTIVQQPYAFGYRSVQWLTTAKGGEVEVPESGIIIPHRSITGANVNEFAADIDAIKSGKGPILSGEQQIDGSGVRVAYITNSLDPFWTLADAGCKRAAEQFGCEVDVQPSSGSIEEQKRFLESNVAAKVDGIAISPIDPENQVAINDACKVTPVICQDSDAPASRRKFYLGTSNYLAGRAAGKLIQEAIPEGGEVLFVGKEVLNAQERSQGIDELAGKPIPAILQ GFPRQCGDYTVLGILTDNQDNSKAKENAETTLLRHPNVACLVGLWSQNTPILAGLRSSDAIGKVAVVGFDEHPDTLAGIRDQSVYGTIVQQPYAFGYRSVQWLTTAKGGEVEVPESGIIIPHRSITGANVNEFAADIDAIKSGKGPILSGEQQIDGSGVRVAYITNSLDPFWTLADAGCKRAAEQFGCEVDVQPSSGSIEEQKRFLESNVAAKVDGIAISPIDPENQVAINDACKVTPVICQDSDAPASRRKFYLGTSNYLAGRAAGKLIQEAIPEGGEVLFVGKEVLNAQERSQGIDELAGKPIPAILQ 5er7-a1-m1-cB_5er7-a1-m6-cB Connexin-26 Bound to Calcium P29033 P29033 3.286 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 2zw3-a1-m1-cA_2zw3-a1-m2-cD 2zw3-a1-m1-cB_2zw3-a1-m2-cC 2zw3-a1-m1-cC_2zw3-a1-m2-cB 2zw3-a1-m1-cD_2zw3-a1-m2-cA 2zw3-a1-m1-cE_2zw3-a1-m2-cF 2zw3-a1-m1-cF_2zw3-a1-m2-cE 5er7-a1-m1-cA_5er7-a1-m4-cA 5er7-a1-m2-cA_5er7-a1-m6-cA 5er7-a1-m2-cB_5er7-a1-m5-cB 5er7-a1-m3-cA_5er7-a1-m5-cA 5er7-a1-m3-cB_5er7-a1-m4-cB 5era-a1-m1-cA_5era-a1-m4-cA 5era-a1-m1-cB_5era-a1-m6-cB 5era-a1-m2-cA_5era-a1-m6-cA 5era-a1-m2-cB_5era-a1-m5-cB 5era-a1-m3-cA_5era-a1-m5-cA 5era-a1-m3-cB_5era-a1-m4-cB 6uvr-a1-m1-cA_6uvr-a1-m1-cE 6uvr-a1-m1-cB_6uvr-a1-m1-cL 6uvr-a1-m1-cC_6uvr-a1-m1-cG 6uvr-a1-m1-cD_6uvr-a1-m1-cF 6uvr-a1-m1-cH_6uvr-a1-m1-cK 6uvr-a1-m1-cI_6uvr-a1-m1-cJ 6uvs-a1-m1-cA_6uvs-a1-m1-cE 6uvs-a1-m1-cB_6uvs-a1-m1-cL 6uvs-a1-m1-cC_6uvs-a1-m1-cG 6uvs-a1-m1-cD_6uvs-a1-m1-cF 6uvs-a1-m1-cH_6uvs-a1-m1-cK 6uvs-a1-m1-cI_6uvs-a1-m1-cJ 6uvt-a1-m1-cA_6uvt-a1-m1-cE 6uvt-a1-m1-cB_6uvt-a1-m1-cL 6uvt-a1-m1-cC_6uvt-a1-m1-cG 6uvt-a1-m1-cD_6uvt-a1-m1-cF 6uvt-a1-m1-cH_6uvt-a1-m1-cK 6uvt-a1-m1-cI_6uvt-a1-m1-cJ 7qeq-a1-m1-cA_7qeq-a1-m1-cJ 7qeq-a1-m1-cB_7qeq-a1-m1-cI 7qeq-a1-m1-cC_7qeq-a1-m1-cH 7qeq-a1-m1-cD_7qeq-a1-m1-cG 7qeq-a1-m1-cE_7qeq-a1-m1-cL 7qeq-a1-m1-cF_7qeq-a1-m1-cK 7qer-a1-m1-cA_7qer-a1-m1-cJ 7qer-a1-m1-cB_7qer-a1-m1-cI 7qer-a1-m1-cC_7qer-a1-m1-cH 7qer-a1-m1-cD_7qer-a1-m1-cG 7qer-a1-m1-cE_7qer-a1-m1-cL 7qer-a1-m1-cF_7qer-a1-m1-cK 7qet-a1-m1-cA_7qet-a1-m1-cJ 7qet-a1-m1-cB_7qet-a1-m1-cI 7qet-a1-m1-cC_7qet-a1-m1-cH 7qet-a1-m1-cD_7qet-a1-m1-cG 7qet-a1-m1-cE_7qet-a1-m1-cL 7qet-a1-m1-cF_7qet-a1-m1-cK SIGKIWLTVLFIFRIMILVVAAKEVWGDEQADFVCNTLQPGCKNVCYDHYFPISHIRLWALQLIFVSTPALLVAMHVTYTSSIFFRVIFEAAFMYVFYVMYDGFSMQRLVKCNAWPCPNTVDCFVSRPTEKTVFTVFMIAVSGICILLNVTELSYL SIGKIWLTVLFIFRIMILVVAAKEVWGDEQADFVCNTLQPGCKNVCYDHYFPISHIRLWALQLIFVSTPALLVAMHVTYTSSIFFRVIFEAAFMYVFYVMYDGFSMQRLVKCNAWPCPNTVDCFVSRPTEKTVFTVFMIAVSGICILLNVTELSYL 5er9-a1-m1-cB_5er9-a1-m1-cA Structure of oxidized UDP-galactopyranose mutase from Mycobacterium smegmatis in complex with UDP in mixed conformation and closed form A0R629 A0R629 1.689 X-RAY DIFFRACTION 76 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 393 394 5eqd-a1-m1-cB_5eqd-a1-m1-cA TGNFDLFVVGSGFFGLTIAERAATQLGKRVLVIERRPHIGGNAYSEPEPETGIEVHKYGAHLFHTSNKRVWDYVRQFTDFTGYQHRVFAMHNGQAYQFPMGLGLVSQFFGRYFSPDEARALIAEQASEIDTKDAKNFEEKAISLVGRPLYEAFIKHYTAKQWQTDPKDLPASNITRLPVRYTFDNRYFNDTYEGLPVEGYTKWLENMAADERIEVRLDTDWFDVRDDLRAANPDAPVVYTGPLDRYFDYAEGRLGWRTLDFELEVLETGDFQGTPVMNYNDLDVPYTRIHEFRHFHPERTYPTDKTVIMREYSRFADNDDEPYYPINTEADRAVLAAYRARAKAETASAKVLFGGRLGTYQYLDMHMAIASALSMFDNVLAPHLSEGASLVTE STGNFDLFVVGSGFFGLTIAERAATQLGKRVLVIERRPHIGGNAYSEPEPETGIEVHKYGAHLFHTSNKRVWDYVRQFTDFTGYQHRVFAMHNGQAYQFPMGLGLVSQFFGRYFSPDEARALIAEQASEIDTKDAKNFEEKAISLVGRPLYEAFIKHYTAKQWQTDPKDLPASNITRLPVRYTFDNRYFNDTYEGLPVEGYTKWLENMAADERIEVRLDTDWFDVRDDLRAANPDAPVVYTGPLDRYFDYAEGRLGWRTLDFELEVLETGDFQGTPVMNYNDLDVPYTRIHEFRHFHPERTYPTDKTVIMREYSRFADNDDEPYYPINTEADRAVLAAYRARAKAETASAKVLFGGRLGTYQYLDMHMAIASALSMFDNVLAPHLSEGASLVTE 5erb-a2-m1-cC_5erb-a2-m1-cD Ketosynthase from module 5 of the bacillaene synthase from Bacillus amyloliquefaciens FZB42 Q1RS72 Q1RS72 4.2 X-RAY DIFFRACTION 213 0.981 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 586 590 5erb-a1-m1-cA_5erb-a1-m1-cB REDIAIIGISGRYPQAENLQEFWKNLSEGTDCITEIPNDRWDHSLYYDADKDKEGKTYGKWGGFLKDVDKFDPQFFSISPRDAKLMDPQERLFLQCVYETMEDAGYTRKKLTNVGVYVGVMYEEYQLYGAEEQARKSLALTGNPSSIANRASYVFGFNGPSMALDTMCSSSLTAIHLACQSLRNGECEAAFAGGVNVSVHPNKYLMLGQNRFLSSKGRCESFGEGGDGYVPGEGVGAVLLKPLSKAKADGDHIYGLIKGTAVNHDGKTNGYSVPNPNAQAAVIKQALKDAGTDPRAVSYIEAHGTGTSLGDPIEITGLTKAFSEQTQDKQFCAIGSAKSNIGHCESAAGIAGLTKVLLQMKHKQLAPSLHSRTLNPNIDFLATPFKVQQTLEEWKRPVINENGVNKELPRTAGLSSFGAGGVNAHIVIEEYSAPHPSMIVLSAKNEQRLQKRAKRLLDALRSGRYREADLSRIAYTLQVGREPMEERLGMIVSNLRELEEKLDEFTGGKESIDQLYRGQQNKDTMALFTADEDMEKTIEAWLEKGKAAKVLELWVKGLPLNWDKLYQPQKISLPAYPFAKDRYWID EREDIAIIGISGRYPQAENLQEFWKNLSEGTDCITEIPNDRWDHSLYYDADKDKEGKTYGKWGGFLKDVDKFDPQFFSISPRDAKLMDPQERLFLQCVYETMEDAGYTRKKLTEKSGDLNVGVYVGVMYEEYQLYGAEEQARGNPSSIANRASYVFGFNGPSMALDTMCSSSLTAIHLACQSLRNGECEAAFAGGVNVSVHPNKYLMLGQNRFLSSKGRCESFGEGGDGYVPGEGVGAVLLKPLSKAKADGDHIYGLIKGTAVNHDGKTNGYSVPNPNAQAAVIKQALKDAGTDPRAVSYIEAHGTGTSLGDPIEITGLTKAFSEQTQDQFCAIGSAKSNIGHCESAAGIAGLTKVLLQMKHKQLAPSLHSRTLNPNIDFLATPFKVQQTLEEWKRPVINENELPRTAGLSSFGAGGVNAHIVIEEYSADAAPHPSMIVLSAKNEQRLQKRAKRLLDALRSGRYREADLSRIAYTLQVGREPMEERLGMIVSNLRELEEKLDEFTGGKESIDQLYRGQVKQNKDTMALFTADEDMEKTIEAWLEKGKAAKVLELWVKGLPLNWDKLYQMGRPQKISLPAYPFAKDRYWID 5eri-a1-m1-cA_5eri-a1-m2-cA MarR Protein from Peptoclostridium difficile DA00132 A0A031WDA8 A0A031WDA8 2.3 X-RAY DIFFRACTION 188 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 153 153 RGSHMLIKTLDSNILREVGTLSRAVNSINDIKYKELKLQKGQFTFLTRICENPGINLVELSNMLKVDKATTTKAIQKLIKAGYVDKKQDKFDKRGYNLTPTDKSLEVYELIIEEENRSIEICFDNFTDEEKQVVTKLLEKMSKNVENEWFKVK RGSHMLIKTLDSNILREVGTLSRAVNSINDIKYKELKLQKGQFTFLTRICENPGINLVELSNMLKVDKATTTKAIQKLIKAGYVDKKQDKFDKRGYNLTPTDKSLEVYELIIEEENRSIEICFDNFTDEEKQVVTKLLEKMSKNVENEWFKVK 5esc-a2-m1-cC_5esc-a2-m1-cD Crystal structure of Group A Streptococcus HupZ Q1JHG0 Q1JHG0 2 X-RAY DIFFRACTION 70 1.0 36470 (Streptococcus sp. 'group A') 36470 (Streptococcus sp. 'group A') 119 119 5esc-a1-m1-cA_5esc-a1-m1-cB 7kpz-a1-m1-cA_7kpz-a1-m1-cB 7kq2-a1-m1-cA_7kq2-a1-m1-cB MITQEMKDLINNQLAMVATVDAKGQPNIGPKRSMRLWDDKTFIYNENTDGQTRINIEDNGKIEIAFVDRERLLGYRFVGTAEIQTEGAYYEAAKKWAQGRMGVPKAVGIIHVERIFNLQ MITQEMKDLINNQLAMVATVDAKGQPNIGPKRSMRLWDDKTFIYNENTDGQTRINIEDNGKIEIAFVDRERLLGYRFVGTAEIQTEGAYYEAAKKWAQGRMGVPKAVGIIHVERIFNLQ 5esr-a1-m1-cA_5esr-a1-m2-cA Crystal structure of haloalkane dehalogenase (DccA) from Caulobacter crescentus Q9A919 Q9A919 1.476 X-RAY DIFFRACTION 45 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 308 308 MDVLRTPDERFEGLADWSFAPHYTEVTDADGTALRIHHVDEGPKDQRPILLMHGEPSWAYLYRKVIAELVAKGHRVVAPDLVGFGRSDKPAKRTDYTYERHVAWMSAWLEQNDLKDIVLFCQDWGGLIGLRLVAAFPERFSAVVVSNTGLPIGVGKSEGFEAWLNFSQNTPELPVGFILNGGTARDLSDAERSAYDAPFPDESYKEGARIFPALVPITPEHASVEENKAAWAVLETFDKPFVTAFSDADPITRGGEAMFLARVPGTKNVAHTTLKGGHFVQEDSPVEIAALLDGLVAGLPQAHHHHHH MDVLRTPDERFEGLADWSFAPHYTEVTDADGTALRIHHVDEGPKDQRPILLMHGEPSWAYLYRKVIAELVAKGHRVVAPDLVGFGRSDKPAKRTDYTYERHVAWMSAWLEQNDLKDIVLFCQDWGGLIGLRLVAAFPERFSAVVVSNTGLPIGVGKSEGFEAWLNFSQNTPELPVGFILNGGTARDLSDAERSAYDAPFPDESYKEGARIFPALVPITPEHASVEENKAAWAVLETFDKPFVTAFSDADPITRGGEAMFLARVPGTKNVAHTTLKGGHFVQEDSPVEIAALLDGLVAGLPQAHHHHHH 5esv-a1-m1-cE_5esv-a1-m1-cG Crystal Structure of Broadly Neutralizing Antibody CH03, Isolated from Donor CH0219, in Complex with Scaffolded Trimeric HIV-1 Env V1V2 Domain from the Clade C Superinfecting Strain of Donor CAP256. P44815 P44815 3.105 X-RAY DIFFRACTION 93 0.994 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 176 187 SLIRIGHGFDVHAFGCVTLNCSDAKVNINREEIKNCSFNATTELRDKKKKEYALFYRLDIVPLNNSEYRLINCNGGDVALHALTDAILGAAALGDIGNADSRGLLREAFRQVQEKGYKIGNVDITIIAQAPPHIDAMRAKIAEDLQCDIEQVNVKATTTEIACEAVALLIRQGLEV SLIRIGHGFDVHAFGCVTLNCSDAKVNINTREEIKNCSFNATTELRDKKKKEYALFYRLDIVPLNSEYRLINCNSGGDVALHALTDAILGAAALGDIGKNADSRGLLREAFRQVQEKGYKIGNVDITIIAQAPRPHIDAMRAKIAEDLQCDIEQVNVKATTTEKLGFTQEGIACEAVALLIRQGLEV 5esv-a1-m1-cH_5esv-a1-m1-cC Crystal Structure of Broadly Neutralizing Antibody CH03, Isolated from Donor CH0219, in Complex with Scaffolded Trimeric HIV-1 Env V1V2 Domain from the Clade C Superinfecting Strain of Donor CAP256. S6BGE0 S6BGE0 3.105 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 230 5esv-a1-m1-cA_5esv-a1-m1-cC 5esv-a1-m1-cH_5esv-a1-m1-cA EVQLVESGGGVVRPGGSLRLSCAASGFIFENYGLTWVRQVPGKGLHWVSGMNWNGGDTRYADSVRGRFSMSRDNSNNIAYLQMKNLRVDDTALYYCARGTDYTIDDQGIFYKGSGTFWYFDLWGRGTLVTVSSASTKGPSVFPLAPSSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP EVQLVESGGGVVRPGGSLRLSCAASGFIFENYGLTWVRQVPGKGLHWVSGMNWNGGDTRYADSVRGRFSMSRDNSNNIAYLQMKNLRVDDTALYYCARGTDYTIDDQGIFYKGSGTFWYFDLWGRGTLVTVSSASTKGPSVFPLAPSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP 5esw-a1-m1-cB_5esw-a1-m1-cA Crystal structure of Apo hypoxanthine-guanine phosphoribosyltransferase from Legionella pneumophila Q5ZVC1 Q5ZVC1 2.4 X-RAY DIFFRACTION 98 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 189 190 5esx-a1-m1-cB_5esx-a1-m1-cA HMTIPDKIKAVYEKSTCLYTSNEVEAALDRMAIKIHETLQDKNPVIICVMVGGLVPLGNLLHRLDFPLEVDYVHATRYRGDLTGGDILWKVRPSSNLAGRTVLVVDDILDGGITLAAIINEIKAMGAAEVYSAVLVDKYRKRVPNGLQKADFVGLQVEDHYIFGYGMDYHEYLRNAPGIFIVHPDHEAS HHMTIPDKIKAVYEKSTCLYTSNEVEAALDRMAIKIHETLQDKNPVIICVMVGGLVPLGNLLHRLDFPLEVDYVHATRYRGDLTGGDILWKVRPSSNLAGRTVLVVDDILDGGITLAAIINEIKAMGAAEVYSAVLVDKYRKRVPNGLQKADFVGLQVEDHYIFGYGMDYHEYLRNAPGIFIVHPDHEAS 5esz-a2-m2-cG_5esz-a2-m4-cG Crystal Structure of Broadly Neutralizing Antibody CH04, Isolated from Donor CH0219, in Complex with Scaffolded Trimeric HIV-1 Env V1V2 Domain from the Clade AE Strain A244 P44815 P44815 4.191 X-RAY DIFFRACTION 51 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 142 142 5esz-a2-m1-cG_5esz-a2-m2-cG 5esz-a2-m1-cG_5esz-a2-m4-cG SLIRIGHGFDVHCVTLHCTNEVRNCSFNMTTELRDKKQKVHALFYKLDIVPIENSKYRLIGGDVALHALTDAILGAAALGKNADSRGLLREAFRQVQEKGYKIGNVDITHIDAMRAKIAEDLQCDIEQVNIACEAVALLIRQ SLIRIGHGFDVHCVTLHCTNEVRNCSFNMTTELRDKKQKVHALFYKLDIVPIENSKYRLIGGDVALHALTDAILGAAALGKNADSRGLLREAFRQVQEKGYKIGNVDITHIDAMRAKIAEDLQCDIEQVNIACEAVALLIRQ 5esz-a4-m3-cC_5esz-a4-m5-cC Crystal Structure of Broadly Neutralizing Antibody CH04, Isolated from Donor CH0219, in Complex with Scaffolded Trimeric HIV-1 Env V1V2 Domain from the Clade AE Strain A244 P44815 P44815 4.191 X-RAY DIFFRACTION 61 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 163 163 5esz-a4-m1-cC_5esz-a4-m3-cC 5esz-a4-m1-cC_5esz-a4-m5-cC SLIRIGHGFDVHCVTLHCTNNCSFNMTTELRDKKQKVHALFYKLDIVPINSKYRLIGGSGGDVALHALTDAILGAAALGDIGKLFPKNADSRGLLREAFRQVQEKGYKIGNVDITIIAQAPKMRPHIDAMRAKIAEDLQCDIEQVNVKATGIACEAVALLIRQ SLIRIGHGFDVHCVTLHCTNNCSFNMTTELRDKKQKVHALFYKLDIVPINSKYRLIGGSGGDVALHALTDAILGAAALGDIGKLFPKNADSRGLLREAFRQVQEKGYKIGNVDITIIAQAPKMRPHIDAMRAKIAEDLQCDIEQVNVKATGIACEAVALLIRQ 5euc-a1-m1-cC_5euc-a1-m1-cB The role of the C-terminal region on the oligomeric state and enzymatic activity of Trypanosoma cruzi hypoxanthine phosphoribosyl transferase Q4DRC4 Q4DRC4 2.65 X-RAY DIFFRACTION 58 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 193 195 1p17-a3-m1-cC_1p17-a3-m1-cA 1p17-a3-m1-cD_1p17-a3-m1-cB 1p19-a3-m1-cB_1p19-a3-m2-cD 1p19-a3-m2-cC_1p19-a3-m1-cA 5euc-a1-m1-cD_5euc-a1-m1-cA EYEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLKGSFMFTADLCRALCDFNVPVRMEFICVSSYGEGLTSSGQVRMLLDTRHSIEGHHVLIVEDIVDTALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYAEREAA PREYEFAEKILFTEEEIRTRIKEVAKRIADDYKGKGLRPYVNPLVLISVLKGSFMFTADLCRALCDFNVPVRMEFICVSSYGEGLTSSGQVRMLLDTRHSIEGHHVLIVEDIVDTALTLNYLYHMYFTRRPASLKTVVLLDKREGRRVPFSADYVVANIPNAFVIGYGLDYDDTYRELRDIVVLRPEVYAEREAA 5euf-a1-m1-cA_5euf-a1-m1-cB The crystal structure of a protease from Helicobacter pylori I9VHL9 I9VHL9 2.8 X-RAY DIFFRACTION 57 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 406 409 LPKHESVTLKNGLQVVSVPLKTGVIEVDVLYKVGSRNEVGKSGIAHLEHLNFKSTKNLKAGEFDKIVKRFGGVSNASTSFDITRYFIKTSEANLDKSLELFAETGSLNLKEDEFLPERQVVAEERRWRTDNSPIGLYFRFFNTAYVYHPYHWTPIGFDDIQNWTLKDIKKFHSLYYQPKNAIVLVVGDVNSQKVFELTKKHFESLKNLDEKAIPTPYKEPKQDGARTAVVHKDGVHLEWVALGYKVPAFKHKDQVALDALSKLLGEGKSSWLQSELVDKKRLASQAFSHNQLQDESVFLFIAGGNPNIKAEALQKEIVALLEKLKKGEITQAELDKIKINQKADFISNLESSSDVAGLFADYLVQNDLQGLTDYQQQFLDLKVSDLVRVANEYFKDTQSTTVFLKP YLPKHESVTLKNGLQVVSVPLENKTGVIEVDVLYKVGSRNEVGKSGIAHLEHLNFKSTKNLKAGEFDKIVKRFGGVSNASTSFDITRYFIKTSEANLDKSLELFAETGSLNLKEDEFLPERQVVAEERRWRTDNSPIGLYFRFFNTAYVYHPYHWTPIGFDDIQNWTLKDIKKFHSLYYQPKNAIVLVVGDVNSQKVFELTKKHFESLKNLDEKAIPTPYKEPKQDGARTAVVHKDGVHLEWVALGYKVPAFKHKDQVALDALSKLLGEGKSSWLQSELVDKKRLASQAFSHNQLQDESVFLFIAGGNPNIKAEALQKEIVALLEKLKKGEITQAELDKIKINQKADFISNLESSSDVAGLFADYLVQNDLQGLTDYQQQFLDLKVSDLVRVANEYFKDTQSTTVFLKP 5eum-a1-m1-cB_5eum-a1-m1-cA 1.8 Angstrom Crystal Structure of ATP-binding Component of Fused Lipid Transporter Subunits of ABC superfamily from Haemophilus influenzae. A0A0E1SLC7 A0A0E1SLC7 1.8 X-RAY DIFFRACTION 83 1.0 374933 (Haemophilus influenzae PittII) 374933 (Haemophilus influenzae PittII) 247 250 KDDGAYKAEPAKGELEFKNVSFAYQGEELALNNISFSVPAGKTVALVGRSGSGKSTIANLVTRFYDIEQGEILLDGVNIQDYRLSNLRENCAVVSQQVHLFNDTIANNIAYDKYSREEIIAAAKAAYALEFIEKLPQGFDTVIGENGASLSGGQRQRLAIARALLRNSPVLILDEATTESERAIQSALEELKKDRTVVVIAHRLSTIENADEILVIDHGEIRERGNHKTLLEQNGAYKQLHSMQFTG KDDGAYKAEPAKGELEFKNVSFAYQGEELALNNISFSVPAGKTVALVGRSGSGKSTIANLVTRFYDIEQGEILLDGVNIQDYRLSNLRENCAVVSQQVHLFNDTIANNIAYAAQDKYSREEIIAAAKAAYALEFIEKLPQGFDTVIGENGASLSGGQRQRLAIARALLRNSPVLILDEATTESERAIQSALEELKKDRTVVVIAHRLSTIENADEILVIDHGEIRERGNHKTLLEQNGAYKQLHSMQFTG 5eur-a1-m1-cC_5eur-a1-m1-cB Hypothetical protein SF216 from shigella flexneri 5a M90T 1.698 X-RAY DIFFRACTION 59 0.991 1086030 (Shigella flexneri 5a str. M90T) 1086030 (Shigella flexneri 5a str. M90T) 110 111 5eur-a1-m1-cB_5eur-a1-m1-cA 5eur-a1-m1-cC_5eur-a1-m1-cA SISYRKLDIALSADKETVLVFGQELSTKYFTEIVVTTMLNSTGSDMANSNRILNDIHAAGLDAGDYGKYSRWWAQSNAQERQEAERRRKEAKAHQERMAREEALIKRFGN SISYRKLDIALSADKETVLVFGQELSTKYFTEIVVTTMLNSTGSDMANSNRILNDIHAAGLDAGDYGKYSRWWAQSNAQERQEAERRRKEAKAHQERMAAIREEALIKRFG 5euv-a1-m1-cA_5euv-a1-m1-cB Crystal structure of a cold-adapted dimeric beta-D-galactosidase from Paracoccus sp. 32d strain D1LZK0 D1LZK0 2.4 X-RAY DIFFRACTION 185 1.0 687527 (Paracoccus sp. 32d) 687527 (Paracoccus sp. 32d) 731 731 5ldr-a1-m1-cA_5ldr-a1-m1-cB MRVTQKLNHGWIFAEGAADPATPLAGETVTLPHNAVDLPLSYFDETSYQRAFTYQRVIAWDDAWQGRRVQLRFDGAMADNVVWVNGVQVVAHPDGYTPFVADLTDHLRPGDNLVTVRIDGSENPAIPPFGAQIDYLTYAGIYRDVWLMVLPERHLTNARILTPDALSDAKTVVIRPEVTAPGPVRARLLDGDREIAATEGEGELTLAGLTGLSLWSTDNPQLYTVELTLPDSGDVTTHRFGFRTAEWTPQGFLLNGQPMKLRGLNRHQSWAHQGYAAGRHAQERDAEIVRHDLCCNMVRTSHYPQSTWFLDRCDEIGLLVFEEIPGWQHIGDQAWQDRSVDNVRAMITRDWNHPSIVIWGVRINESPDNHDFYVRTNALARELDPTRAIGGVRCITDSEMLEDVYTMNDFILDESELPLINRPRTALRPTEEVTGIKKPVPYLVTEYNGHMFPTKAQDPELRQMEHVIRHLEVLNAAHGDPAISGCIGWCMFDYNTHKDFGAGDRICHHGVMDIWREPKFAAHAYGSQKPPSEGIVMEPVTFWARGERNIGGVLPLIVLTNCDEVEFECAGVTRRVGPDRERFPHLPRPPVIIDHRHISAEELGQWGMSWHPGRITGWLNGEQVALREYVADPLPTTLQIAPDRDTLPADGDIDLRVMLRALDQVGNRLPFLDAGIAVTVDGPARLIGPDLRMLQGGTTGMLLRLTGDAGTIRITARHPQFPEAVATVTVG MRVTQKLNHGWIFAEGAADPATPLAGETVTLPHNAVDLPLSYFDETSYQRAFTYQRVIAWDDAWQGRRVQLRFDGAMADNVVWVNGVQVVAHPDGYTPFVADLTDHLRPGDNLVTVRIDGSENPAIPPFGAQIDYLTYAGIYRDVWLMVLPERHLTNARILTPDALSDAKTVVIRPEVTAPGPVRARLLDGDREIAATEGEGELTLAGLTGLSLWSTDNPQLYTVELTLPDSGDVTTHRFGFRTAEWTPQGFLLNGQPMKLRGLNRHQSWAHQGYAAGRHAQERDAEIVRHDLCCNMVRTSHYPQSTWFLDRCDEIGLLVFEEIPGWQHIGDQAWQDRSVDNVRAMITRDWNHPSIVIWGVRINESPDNHDFYVRTNALARELDPTRAIGGVRCITDSEMLEDVYTMNDFILDESELPLINRPRTALRPTEEVTGIKKPVPYLVTEYNGHMFPTKAQDPELRQMEHVIRHLEVLNAAHGDPAISGCIGWCMFDYNTHKDFGAGDRICHHGVMDIWREPKFAAHAYGSQKPPSEGIVMEPVTFWARGERNIGGVLPLIVLTNCDEVEFECAGVTRRVGPDRERFPHLPRPPVIIDHRHISAEELGQWGMSWHPGRITGWLNGEQVALREYVADPLPTTLQIAPDRDTLPADGDIDLRVMLRALDQVGNRLPFLDAGIAVTVDGPARLIGPDLRMLQGGTTGMLLRLTGDAGTIRITARHPQFPEAVATVTVG 5evh-a1-m1-cA_5evh-a1-m2-cA Crystal structure of known function protein from Kribbella flavida DSM 17836 D2Q084 D2Q084 1.852 X-RAY DIFFRACTION 57 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 118 118 STAALDTALAYHRAWTGRDFDTARHVAGGIVCHAPAGRIDGADAFRAFEPFSRILVGSAVLSAFGDATTALLYDTETVPVPHAPAAEHLTVHDGRITQLRIIFDRTPFEQARTARDEG STAALDTALAYHRAWTGRDFDTARHVAGGIVCHAPAGRIDGADAFRAFEPFSRILVGSAVLSAFGDATTALLYDTETVPVPHAPAAEHLTVHDGRITQLRIIFDRTPFEQARTARDEG 5evo-a1-m1-cA_5evo-a1-m2-cA Structure of Dehydroascrobate Reductase from Pennisetum Americanum in complex with two non-native ligands, Acetate in the G-site and Glycerol in the H-site U5XYA0 U5XYA0 2.51 X-RAY DIFFRACTION 53 1.0 4543 (Cenchrus americanus) 4543 (Cenchrus americanus) 213 213 HMAVEVCVKAAVGAPDILGDCPFSQRVLLTLEEKKITYEMKLVDLSNKPEWFLKISPEGKVPVFNSGDGKWIADSDVITQVIEEKFPTPSLVTPPEYASVGSKIFPSFVKFLKSKDASDGSEKALLDELQALDEHLKAHGPYISGENVSAADLSLGPKLFHLQVALEHFKGWKIPENLTSVHAYTKALFSRESFVKTKPANQYLIAGWAPKVN HMAVEVCVKAAVGAPDILGDCPFSQRVLLTLEEKKITYEMKLVDLSNKPEWFLKISPEGKVPVFNSGDGKWIADSDVITQVIEEKFPTPSLVTPPEYASVGSKIFPSFVKFLKSKDASDGSEKALLDELQALDEHLKAHGPYISGENVSAADLSLGPKLFHLQVALEHFKGWKIPENLTSVHAYTKALFSRESFVKTKPANQYLIAGWAPKVN 5ewo-a1-m1-cA_5ewo-a1-m2-cA Crystal structure of the human astrovirus 1 capsid protein spike domain at 0.95-A resolution Q82452 Q82452 0.95 X-RAY DIFFRACTION 119 1.0 12456 (Human astrovirus 1) 12456 (Human astrovirus 1) 213 213 EYKVVLTFGSPMSPNANNKQTWVNKPLDAPSGHYNVKIAKDVDHYLTMQGFTSIASVDWYTIDFQPSEAPAPIKGLQVLVNISKKADVYAVKQFVTAQTNNKHQVTSLFLVKVTTGFQVNNYLSYFYRASATGDATTNLLVRGDTYTAGISFTQGGWYLLTNTSIVDGAMPPGWVWNNVELKTNTAYHMDKGLVHLIMPLPESTQCYEMLTSI EYKVVLTFGSPMSPNANNKQTWVNKPLDAPSGHYNVKIAKDVDHYLTMQGFTSIASVDWYTIDFQPSEAPAPIKGLQVLVNISKKADVYAVKQFVTAQTNNKHQVTSLFLVKVTTGFQVNNYLSYFYRASATGDATTNLLVRGDTYTAGISFTQGGWYLLTNTSIVDGAMPPGWVWNNVELKTNTAYHMDKGLVHLIMPLPESTQCYEMLTSI 5ewu-a1-m1-cB_5ewu-a1-m1-cA Crystal structure of the Arabidopsis thaliana C-terminal Chlh at 1.25A Q9FNB0 Q9FNB0 1.25 X-RAY DIFFRACTION 53 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 377 383 AIPTTAAMASAKIVVERLVERQKLENEGKYPETIALVLWGTDNIKTYGESLGQVLWMIGVRPIADTFGRVNRVEPVSLEELGRPRIDVVVNCSGVFRDLFINQMNLLDRAIKMVAELDEPVEQNFVRKHALEQAEALGIDIREAATRVFSNASGSYSANISLAVENSSWNDEKQLQDMYLSRKSFAFDSDAGAGMAEKKQVFEMALSTAEVTFQNLDSSEISLTDVSHYFDSDPTNLVQSLRKDKKKPSSYIADTTTANAQVRTLSETVRLDARTKLLNPKWYEGMMSSGYEGVREIEKRLSNTVGWSATSGQVDNWVYEEANSTFIQDEEMLNRLMNTNPNSFRKMLQTFLEANGRGYWDTSAENIEKLKELYSQV QAIPTTAAMASAKIVVERLVERQKLENEGKYPETIALVLWGTDNIKTYGESLGQVLWMIGVRPIADTFGRVNRVEPVSLEELGRPRIDVVVNCSGVFRDLFINQMNLLDRAIKMVAELDEPVEQNFVRKHALEQAEALGIDIREAATRVFSNASGSYSANISLAVENSSWNDEKQLQDMYLSRKSFAFDSDAPGAGMAEKKQVFEMALSTAEVTFQNLDSSEISLTDVSHYFDSDPTNLVQSLRKDKKKPSSYIADTTTANAQVRTLSETVRLDARTKLLNPKWYEGMMSSGYEGVREIEKRLSNTVGWSATSGQVDNWVYEEANSTFIQDEEMLNRLMNTNPNSFRKMLQTFLEANGRGYWDTSAENIEKLKELYSQVEDKI 5ex1-a3-m1-cC_5ex1-a3-m1-cF Crystal structure of cyclophilin AquaCyp300 from Hirschia baltica C6XII3 C6XII3 2.053 X-RAY DIFFRACTION 86 0.996 582402 (Hirschia baltica ATCC 49814) 582402 (Hirschia baltica ATCC 49814) 272 272 5ex1-a1-m2-cA_5ex1-a1-m1-cE 5ex1-a2-m1-cB_5ex1-a2-m1-cD IIPKPTPTPLSLESGMKGENWRKIEPENIVVITTKYGDILIELNPEFAPGHVARFQDMVKARAYNGKEFYRVIDGFVAQGGIDAEDKKWPPLEIEHEQPLLEADQIQLLDNDDLFAEKVGFLNGFPVGFDAEKKWLLHCPGMLAMARDSDPNTGGTDFYITLDAQRYLDRNMTVFGRVISGMQYVQKLQRGDKNIEGGVIQSPNKGDEMISVKLASELPENQQPNYEVMRTETAGFMNSINSKRVRSDPFFFNTPPQVVDVCDVEVPTELVD KIIPKPTPTPLSLESGMKGENWRKIEPENIVVITTKYGDILIELNPEFAPGHVARFQDMVKARAYNGKEFYRVIDGFVAQGGIDAEDKKWPPLEIEHEQPLLEADQIQLLDNDDLFAEKVGFLNGFPVGFDAEKKWLLHCPGMLAMARDSDPNTGGTDFYITLDAQRYLDRNMTVFGRVISGMQYVQKLQRGDKNIEGGVIQSPNKGDEMISVKLASELPENQQPNYEVMRTETAGFMNSINSKRVRSDPFFFNTPPQVVDVCDVEVPTELV 5ex4-a1-m1-cA_5ex4-a1-m2-cA 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase from Mycobacterium tuberculosis complexed with tryptophan in all three allosteric binding sites O53512 O53512 2.25 X-RAY DIFFRACTION 86 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 462 462 2w19-a1-m1-cA_2w19-a1-m2-cA 2w19-a1-m1-cB_2w19-a1-m2-cB 2w1a-a1-m1-cA_2w1a-a1-m2-cA 2w1a-a1-m1-cB_2w1a-a1-m2-cB 2ypo-a1-m1-cA_2ypo-a1-m2-cA 2ypo-a1-m1-cB_2ypo-a1-m2-cB 2ypp-a1-m1-cA_2ypp-a1-m2-cA 2ypp-a1-m1-cB_2ypp-a1-m2-cB 2ypq-a1-m1-cA_2ypq-a1-m2-cA 2ypq-a1-m1-cB_2ypq-a1-m2-cB 3kgf-a1-m1-cA_3kgf-a1-m2-cA 3kgf-a1-m1-cB_3kgf-a1-m2-cB 3nud-a1-m1-cA_3nud-a1-m2-cA 3nud-a1-m1-cB_3nud-a1-m2-cB 3nue-a1-m1-cA_3nue-a1-m2-cA 3nue-a1-m1-cB_3nue-a1-m2-cB 3nv8-a1-m1-cA_3nv8-a1-m2-cA 3nv8-a1-m1-cB_3nv8-a1-m2-cB 3pfp-a1-m1-cA_3pfp-a1-m2-cA 3pfp-a1-m1-cB_3pfp-a1-m2-cB 3rzi-a1-m1-cA_3rzi-a1-m2-cA 3rzi-a1-m1-cB_3rzi-a1-m2-cB 5ckv-a1-m1-cA_5ckv-a1-m2-cA 5ckv-a1-m1-cB_5ckv-a1-m2-cB 5ckx-a1-m1-cA_5ckx-a1-m2-cA 5ckx-a1-m1-cB_5ckx-a1-m2-cB 5e2l-a1-m1-cA_5e2l-a1-m2-cA 5e2l-a1-m1-cB_5e2l-a1-m2-cB 5e40-a1-m1-cA_5e40-a1-m2-cA 5e40-a1-m1-cB_5e40-a1-m2-cB 5e4n-a1-m1-cA_5e4n-a1-m2-cA 5e4n-a1-m1-cB_5e4n-a1-m2-cB 5e5g-a1-m1-cA_5e5g-a1-m2-cA 5e5g-a1-m1-cB_5e5g-a1-m2-cB 5e7z-a1-m1-cA_5e7z-a1-m2-cA 5e7z-a1-m1-cB_5e7z-a1-m2-cB 5ex4-a1-m1-cB_5ex4-a1-m2-cB 6pbj-a1-m1-cA_6pbj-a1-m2-cA MNWTVDIPIDQLPSLPPLPTDLRTRLDAALAKPAAQQPTWPADQALAMRTVLESVPPVTVPSEIVRLQEQLAQVAKGEAFLLQGGDCAETFMDNTEPHIRGNVRALLQMAVVLTYGASMPVVKVARIAGQYAKPRSADIDALGLRSYRGDMINGFAPDAAAREHDPSRLVRAYANASAAMNLVRALTSSGLASLHLVHDWNREFVRTSPAGARYEALATEIDRGLRFMSACGVADRNLQTAEIYASHEALVLDYERAMLRLSDGDDGEPQLFDLSAHTVWIGERTRQIDGAHIAFAQVIANPVGVKLGPNMTPELAVEYVERLDPHNKPGRLTLVSRMGNHKVRDLLPPIVEKVQATGHQVIWQCDPMHGNTHESSTGFKTRHFDRIVDEVQGFFEVHRALGTHPGGIHVEITGENVTECLGGAQDISETDLAGRYETACDPRLNTQQSLELAFLVAEMLRD MNWTVDIPIDQLPSLPPLPTDLRTRLDAALAKPAAQQPTWPADQALAMRTVLESVPPVTVPSEIVRLQEQLAQVAKGEAFLLQGGDCAETFMDNTEPHIRGNVRALLQMAVVLTYGASMPVVKVARIAGQYAKPRSADIDALGLRSYRGDMINGFAPDAAAREHDPSRLVRAYANASAAMNLVRALTSSGLASLHLVHDWNREFVRTSPAGARYEALATEIDRGLRFMSACGVADRNLQTAEIYASHEALVLDYERAMLRLSDGDDGEPQLFDLSAHTVWIGERTRQIDGAHIAFAQVIANPVGVKLGPNMTPELAVEYVERLDPHNKPGRLTLVSRMGNHKVRDLLPPIVEKVQATGHQVIWQCDPMHGNTHESSTGFKTRHFDRIVDEVQGFFEVHRALGTHPGGIHVEITGENVTECLGGAQDISETDLAGRYETACDPRLNTQQSLELAFLVAEMLRD 5exe-a1-m1-cA_5exe-a1-m1-cD Crystal structure of oxalate oxidoreductase from Moorella thermoacetica bound with carboxy-TPP adduct Q2RI41 Q2RI41 1.88 X-RAY DIFFRACTION 248 1.0 264732 (Moorella thermoacetica ATCC 39073) 264732 (Moorella thermoacetica ATCC 39073) 394 394 5c4i-a1-m1-cD_5c4i-a1-m1-cA 5exd-a1-m1-cA_5exd-a1-m1-cD 5exd-a2-m1-cG_5exd-a2-m1-cJ GKVRNISGCVAVAHGVRLADVDVICSYPIRPYTGIMSELARMVADGELDAEFVHGEGEHAQLSVVYGASAAGARVFTGSSGVGVTYAMEVYSPISGERLPVQMAIADRTLDPPGDFGEEHTDAECCRDQGWIQGWASTPQEALDNTLIYYRVGEDQRVLLPQYACLDGYFVSHILGPVDIPDEAQVKEFLPPYKNHHVLDPRKPQIIGPQIEPAMGPPLQYQRYQAVKGVHKVLEEACDEFARIFGRKYDPYLDEYLTDDAEVIIFGQGAHMETAKAVARRLRNLGEKVGVARLRTFRPFPTEQIKERLSKFKAIGVLDVSANFGISCSGGVLLSELRAALYDYGDKVKTVGFVAGLGGEVVTHDEFYRMFQKLKEIAKTGKVEQTSYWIPFEL GKVRNISGCVAVAHGVRLADVDVICSYPIRPYTGIMSELARMVADGELDAEFVHGEGEHAQLSVVYGASAAGARVFTGSSGVGVTYAMEVYSPISGERLPVQMAIADRTLDPPGDFGEEHTDAECCRDQGWIQGWASTPQEALDNTLIYYRVGEDQRVLLPQYACLDGYFVSHILGPVDIPDEAQVKEFLPPYKNHHVLDPRKPQIIGPQIEPAMGPPLQYQRYQAVKGVHKVLEEACDEFARIFGRKYDPYLDEYLTDDAEVIIFGQGAHMETAKAVARRLRNLGEKVGVARLRTFRPFPTEQIKERLSKFKAIGVLDVSANFGISCSGGVLLSELRAALYDYGDKVKTVGFVAGLGGEVVTHDEFYRMFQKLKEIAKTGKVEQTSYWIPFEL 5exe-a1-m1-cF_5exe-a1-m1-cC Crystal structure of oxalate oxidoreductase from Moorella thermoacetica bound with carboxy-TPP adduct Q2RI42 Q2RI42 1.88 X-RAY DIFFRACTION 71 1.0 264732 (Moorella thermoacetica ATCC 39073) 264732 (Moorella thermoacetica ATCC 39073) 313 314 5c4i-a1-m1-cC_5c4i-a1-m1-cF 5exd-a1-m1-cF_5exd-a1-m1-cC 5exd-a2-m1-cI_5exd-a2-m1-cL MLDRIASIKKAPDEEYYVPGHRTCAGCGPALTYRLVAKAAGPNTIFIGPTGCMYVANTSYGCGPWRVPWIHAQITNGGAVASGIEAAYKAMIRKKKTDAEFPNIIVMAGDGGAVDIGLQALSAMLYRGHDVLFICYDNESYANTGIQTSPTTPYGANTTFTPPGEVVPEGKKLFPKDNPKVIAHGHPELKYVATASIGWPVDLMNKVRKGLNQEGPAYIHIHAPCPKGWQFPADKTIEMAKLAVQTGMFQLYEYENGEYKLSVKVDKRKPVSEYMKLQKRFAHLKPEHIAKMQAFVDARCAEVGITVPVVASN MLDRIASIKKAPDEEYYVPGHRTCAGCGPALTYRLVAKAAGPNTIFIGPTGCMYVANTSYGCGPWRVPWIHAQITNGGAVASGIEAAYKAMIRKKKTDAEFPNIIVMAGDGGAVDIGLQALSAMLYRGHDVLFICYDNESYANTGIQTSPTTPYGANTTFTPPGEVVPEGKKLFPKDNPKVIAHGHPELKYVATASIGWPVDLMNKVRKGLNQEGPAYIHIHAPCPKGWQFPADKTIEMAKLAVQTGMFQLYEYENGEYKLSVKVDKRKPVSEYMKLQKRFAHLKPEHIAKMQAFVDARCAEVGITVPVVASNA 5exv-a3-m1-cE_5exv-a3-m1-cF Crystal structure of heme binding protein HutX from Vibrio cholerae Q9KL40 Q9KL40 2.901 X-RAY DIFFRACTION 90 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 167 167 5exv-a1-m1-cA_5exv-a1-m1-cB 5exv-a2-m1-cC_5exv-a2-m1-cD MESLQQQVAQLLEQQPTLLPAAMAEQLNVTEFDIVHALPEEMVAVVDGSHAQTILESLPEWGPVTTIMTIAGSIFEVKAPFPKGKVARGYYNLMGRDGELHGHLKLENISHVALVSKPFMGRESHYFGFFTAQGENAFKIYLGRDEKRELIPEQVARFKAMQQQHKQ MESLQQQVAQLLEQQPTLLPAAMAEQLNVTEFDIVHALPEEMVAVVDGSHAQTILESLPEWGPVTTIMTIAGSIFEVKAPFPKGKVARGYYNLMGRDGELHGHLKLENISHVALVSKPFMGRESHYFGFFTAQGENAFKIYLGRDEKRELIPEQVARFKAMQQQHKQ 5exy-a1-m10-cA_5exy-a1-m9-cA Crystal structure of in cellulo recombinant CPV1 Polyhedra P11041 P11041 1.55 X-RAY DIFFRACTION 43 1.0 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 247 247 2oh5-a1-m10-cA_2oh5-a1-m9-cA 2oh5-a1-m11-cA_2oh5-a1-m12-cA 2oh5-a1-m1-cA_2oh5-a1-m2-cA 2oh5-a1-m3-cA_2oh5-a1-m4-cA 2oh5-a1-m5-cA_2oh5-a1-m6-cA 2oh5-a1-m7-cA_2oh5-a1-m8-cA 2oh5-a2-m1-cA_2oh5-a2-m2-cA 2oh6-a1-m10-cA_2oh6-a1-m7-cA 2oh6-a1-m11-cA_2oh6-a1-m5-cA 2oh6-a1-m12-cA_2oh6-a1-m3-cA 2oh6-a1-m1-cA_2oh6-a1-m4-cA 2oh6-a1-m2-cA_2oh6-a1-m8-cA 2oh6-a1-m6-cA_2oh6-a1-m9-cA 2oh7-a1-m10-cA_2oh7-a1-m7-cA 2oh7-a1-m11-cA_2oh7-a1-m5-cA 2oh7-a1-m12-cA_2oh7-a1-m3-cA 2oh7-a1-m1-cA_2oh7-a1-m4-cA 2oh7-a1-m2-cA_2oh7-a1-m8-cA 2oh7-a1-m6-cA_2oh7-a1-m9-cA 5axu-a1-m10-cA_5axu-a1-m9-cA 5axu-a1-m11-cA_5axu-a1-m12-cA 5axu-a1-m1-cA_5axu-a1-m2-cA 5axu-a1-m3-cA_5axu-a1-m4-cA 5axu-a1-m5-cA_5axu-a1-m6-cA 5axu-a1-m7-cA_5axu-a1-m8-cA 5axv-a1-m10-cA_5axv-a1-m9-cA 5axv-a1-m11-cA_5axv-a1-m12-cA 5axv-a1-m1-cA_5axv-a1-m2-cA 5axv-a1-m3-cA_5axv-a1-m4-cA 5axv-a1-m5-cA_5axv-a1-m6-cA 5axv-a1-m7-cA_5axv-a1-m8-cA 5exy-a1-m11-cA_5exy-a1-m12-cA 5exy-a1-m1-cA_5exy-a1-m2-cA 5exy-a1-m3-cA_5exy-a1-m4-cA 5exy-a1-m5-cA_5exy-a1-m6-cA 5exy-a1-m7-cA_5exy-a1-m8-cA 5exz-a1-m10-cA_5exz-a1-m9-cA 5exz-a1-m11-cA_5exz-a1-m12-cA 5exz-a1-m1-cA_5exz-a1-m2-cA 5exz-a1-m3-cA_5exz-a1-m4-cA 5exz-a1-m5-cA_5exz-a1-m6-cA 5exz-a1-m7-cA_5exz-a1-m8-cA 5gqi-a1-m10-cA_5gqi-a1-m9-cA 5gqi-a1-m11-cA_5gqi-a1-m12-cA 5gqi-a1-m1-cA_5gqi-a1-m2-cA 5gqi-a1-m3-cA_5gqi-a1-m4-cA 5gqi-a1-m5-cA_5gqi-a1-m6-cA 5gqi-a1-m7-cA_5gqi-a1-m8-cA 5gqj-a1-m10-cA_5gqj-a1-m12-cA 5gqj-a1-m11-cA_5gqj-a1-m9-cA 5gqj-a1-m1-cA_5gqj-a1-m3-cA 5gqj-a1-m2-cA_5gqj-a1-m4-cA 5gqj-a1-m5-cA_5gqj-a1-m7-cA 5gqj-a1-m6-cA_5gqj-a1-m8-cA 5gqk-a1-m10-cA_5gqk-a1-m9-cA 5gqk-a1-m11-cA_5gqk-a1-m12-cA 5gqk-a1-m1-cA_5gqk-a1-m2-cA 5gqk-a1-m3-cA_5gqk-a1-m4-cA 5gqk-a1-m5-cA_5gqk-a1-m6-cA 5gqk-a1-m7-cA_5gqk-a1-m8-cA 5gql-a1-m10-cA_5gql-a1-m9-cA 5gql-a1-m11-cA_5gql-a1-m12-cA 5gql-a1-m1-cA_5gql-a1-m2-cA 5gql-a1-m3-cA_5gql-a1-m4-cA 5gql-a1-m5-cA_5gql-a1-m6-cA 5gql-a1-m7-cA_5gql-a1-m8-cA 5gqm-a1-m10-cA_5gqm-a1-m9-cA 5gqm-a1-m11-cA_5gqm-a1-m12-cA 5gqm-a1-m1-cA_5gqm-a1-m2-cA 5gqm-a1-m3-cA_5gqm-a1-m4-cA 5gqm-a1-m5-cA_5gqm-a1-m6-cA 5gqm-a1-m7-cA_5gqm-a1-m8-cA 5gqn-a1-m10-cA_5gqn-a1-m9-cA 5gqn-a1-m11-cA_5gqn-a1-m12-cA 5gqn-a1-m1-cA_5gqn-a1-m2-cA 5gqn-a1-m3-cA_5gqn-a1-m4-cA 5gqn-a1-m5-cA_5gqn-a1-m6-cA 5gqn-a1-m7-cA_5gqn-a1-m8-cA 5yr1-a1-m10-cA_5yr1-a1-m9-cA 5yr1-a1-m11-cA_5yr1-a1-m12-cA 5yr1-a1-m1-cA_5yr1-a1-m2-cA 5yr1-a1-m3-cA_5yr1-a1-m4-cA 5yr1-a1-m5-cA_5yr1-a1-m6-cA 5yr1-a1-m7-cA_5yr1-a1-m8-cA 5yr9-a1-m10-cA_5yr9-a1-m9-cA 5yr9-a1-m11-cA_5yr9-a1-m12-cA 5yr9-a1-m1-cA_5yr9-a1-m2-cA 5yr9-a1-m3-cA_5yr9-a1-m4-cA 5yr9-a1-m5-cA_5yr9-a1-m6-cA 5yr9-a1-m7-cA_5yr9-a1-m8-cA 5yra-a1-m10-cA_5yra-a1-m9-cA 5yra-a1-m11-cA_5yra-a1-m12-cA 5yra-a1-m1-cA_5yra-a1-m2-cA 5yra-a1-m3-cA_5yra-a1-m4-cA 5yra-a1-m5-cA_5yra-a1-m6-cA 5yra-a1-m7-cA_5yra-a1-m8-cA 5yrb-a1-m10-cA_5yrb-a1-m9-cA 5yrb-a1-m11-cA_5yrb-a1-m12-cA 5yrb-a1-m1-cA_5yrb-a1-m2-cA 5yrb-a1-m3-cA_5yrb-a1-m4-cA 5yrb-a1-m5-cA_5yrb-a1-m6-cA 5yrb-a1-m7-cA_5yrb-a1-m8-cA 5yrc-a1-m10-cA_5yrc-a1-m9-cA 5yrc-a1-m11-cA_5yrc-a1-m12-cA 5yrc-a1-m1-cA_5yrc-a1-m2-cA 5yrc-a1-m3-cA_5yrc-a1-m4-cA 5yrc-a1-m5-cA_5yrc-a1-m6-cA 5yrc-a1-m7-cA_5yrc-a1-m8-cA 5yrd-a1-m10-cA_5yrd-a1-m9-cA 5yrd-a1-m11-cA_5yrd-a1-m12-cA 5yrd-a1-m1-cA_5yrd-a1-m2-cA 5yrd-a1-m3-cA_5yrd-a1-m4-cA 5yrd-a1-m5-cA_5yrd-a1-m6-cA 5yrd-a1-m7-cA_5yrd-a1-m8-cA 7xhr-a1-m10-cA_7xhr-a1-m9-cA 7xhr-a1-m11-cA_7xhr-a1-m12-cA 7xhr-a1-m1-cA_7xhr-a1-m2-cA 7xhr-a1-m3-cA_7xhr-a1-m4-cA 7xhr-a1-m5-cA_7xhr-a1-m6-cA 7xhr-a1-m7-cA_7xhr-a1-m8-cA 7xws-a1-m10-cA_7xws-a1-m9-cA 7xws-a1-m11-cA_7xws-a1-m12-cA 7xws-a1-m1-cA_7xws-a1-m2-cA 7xws-a1-m3-cA_7xws-a1-m4-cA 7xws-a1-m5-cA_7xws-a1-m6-cA 7xws-a1-m7-cA_7xws-a1-m8-cA ADVAGTSNRDFRGREQRLFNSEQYNYNNSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKALKEYREGQHNDSYDEYEVNQSIYYPNGGDARKFHSNAKPRAIQIIFSPSVNVRTIKMAKGNAVSVPDEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNPSSYNVGSAHNVMDVFQSCDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSNRQ ADVAGTSNRDFRGREQRLFNSEQYNYNNSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKALKEYREGQHNDSYDEYEVNQSIYYPNGGDARKFHSNAKPRAIQIIFSPSVNVRTIKMAKGNAVSVPDEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNPSSYNVGSAHNVMDVFQSCDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSNRQ 5exy-a1-m5-cA_5exy-a1-m9-cA Crystal structure of in cellulo recombinant CPV1 Polyhedra P11041 P11041 1.55 X-RAY DIFFRACTION 132 1.0 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 247 247 2oh5-a1-m10-cA_2oh5-a1-m3-cA 2oh5-a1-m10-cA_2oh5-a1-m8-cA 2oh5-a1-m11-cA_2oh5-a1-m4-cA 2oh5-a1-m11-cA_2oh5-a1-m6-cA 2oh5-a1-m12-cA_2oh5-a1-m2-cA 2oh5-a1-m12-cA_2oh5-a1-m7-cA 2oh5-a1-m1-cA_2oh5-a1-m5-cA 2oh5-a1-m1-cA_2oh5-a1-m9-cA 2oh5-a1-m2-cA_2oh5-a1-m7-cA 2oh5-a1-m3-cA_2oh5-a1-m8-cA 2oh5-a1-m4-cA_2oh5-a1-m6-cA 2oh5-a1-m5-cA_2oh5-a1-m9-cA 2oh5-a3-m1-cA_2oh5-a3-m5-cA 2oh5-a3-m1-cA_2oh5-a3-m9-cA 2oh5-a3-m5-cA_2oh5-a3-m9-cA 2oh6-a1-m10-cA_2oh6-a1-m11-cA 2oh6-a1-m10-cA_2oh6-a1-m12-cA 2oh6-a1-m11-cA_2oh6-a1-m12-cA 2oh6-a1-m1-cA_2oh6-a1-m2-cA 2oh6-a1-m1-cA_2oh6-a1-m3-cA 2oh6-a1-m2-cA_2oh6-a1-m3-cA 2oh6-a1-m4-cA_2oh6-a1-m5-cA 2oh6-a1-m4-cA_2oh6-a1-m6-cA 2oh6-a1-m5-cA_2oh6-a1-m6-cA 2oh6-a1-m7-cA_2oh6-a1-m8-cA 2oh6-a1-m7-cA_2oh6-a1-m9-cA 2oh6-a1-m8-cA_2oh6-a1-m9-cA 2oh7-a1-m10-cA_2oh7-a1-m11-cA 2oh7-a1-m10-cA_2oh7-a1-m12-cA 2oh7-a1-m11-cA_2oh7-a1-m12-cA 2oh7-a1-m1-cA_2oh7-a1-m2-cA 2oh7-a1-m1-cA_2oh7-a1-m3-cA 2oh7-a1-m2-cA_2oh7-a1-m3-cA 2oh7-a1-m4-cA_2oh7-a1-m5-cA 2oh7-a1-m4-cA_2oh7-a1-m6-cA 2oh7-a1-m5-cA_2oh7-a1-m6-cA 2oh7-a1-m7-cA_2oh7-a1-m8-cA 2oh7-a1-m7-cA_2oh7-a1-m9-cA 2oh7-a1-m8-cA_2oh7-a1-m9-cA 5axu-a1-m10-cA_5axu-a1-m3-cA 5axu-a1-m10-cA_5axu-a1-m8-cA 5axu-a1-m11-cA_5axu-a1-m4-cA 5axu-a1-m11-cA_5axu-a1-m6-cA 5axu-a1-m12-cA_5axu-a1-m2-cA 5axu-a1-m12-cA_5axu-a1-m7-cA 5axu-a1-m1-cA_5axu-a1-m5-cA 5axu-a1-m1-cA_5axu-a1-m9-cA 5axu-a1-m2-cA_5axu-a1-m7-cA 5axu-a1-m3-cA_5axu-a1-m8-cA 5axu-a1-m4-cA_5axu-a1-m6-cA 5axu-a1-m5-cA_5axu-a1-m9-cA 5axv-a1-m10-cA_5axv-a1-m4-cA 5axv-a1-m10-cA_5axv-a1-m5-cA 5axv-a1-m11-cA_5axv-a1-m3-cA 5axv-a1-m11-cA_5axv-a1-m7-cA 5axv-a1-m12-cA_5axv-a1-m6-cA 5axv-a1-m1-cA_5axv-a1-m12-cA 5axv-a1-m1-cA_5axv-a1-m6-cA 5axv-a1-m2-cA_5axv-a1-m8-cA 5axv-a1-m2-cA_5axv-a1-m9-cA 5axv-a1-m3-cA_5axv-a1-m7-cA 5axv-a1-m4-cA_5axv-a1-m5-cA 5axv-a1-m8-cA_5axv-a1-m9-cA 5exy-a1-m10-cA_5exy-a1-m3-cA 5exy-a1-m10-cA_5exy-a1-m8-cA 5exy-a1-m11-cA_5exy-a1-m4-cA 5exy-a1-m11-cA_5exy-a1-m6-cA 5exy-a1-m12-cA_5exy-a1-m2-cA 5exy-a1-m12-cA_5exy-a1-m7-cA 5exy-a1-m1-cA_5exy-a1-m5-cA 5exy-a1-m1-cA_5exy-a1-m9-cA 5exy-a1-m2-cA_5exy-a1-m7-cA 5exy-a1-m3-cA_5exy-a1-m8-cA 5exy-a1-m4-cA_5exy-a1-m6-cA 5exz-a1-m10-cA_5exz-a1-m3-cA 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5gqk-a1-m10-cA_5gqk-a1-m3-cA 5gqk-a1-m10-cA_5gqk-a1-m8-cA 5gqk-a1-m11-cA_5gqk-a1-m4-cA 5gqk-a1-m11-cA_5gqk-a1-m6-cA 5gqk-a1-m12-cA_5gqk-a1-m2-cA 5gqk-a1-m12-cA_5gqk-a1-m7-cA 5gqk-a1-m1-cA_5gqk-a1-m5-cA 5gqk-a1-m1-cA_5gqk-a1-m9-cA 5gqk-a1-m2-cA_5gqk-a1-m7-cA 5gqk-a1-m3-cA_5gqk-a1-m8-cA 5gqk-a1-m4-cA_5gqk-a1-m6-cA 5gqk-a1-m5-cA_5gqk-a1-m9-cA 5gql-a1-m10-cA_5gql-a1-m3-cA 5gql-a1-m10-cA_5gql-a1-m8-cA 5gql-a1-m11-cA_5gql-a1-m4-cA 5gql-a1-m11-cA_5gql-a1-m6-cA 5gql-a1-m12-cA_5gql-a1-m2-cA 5gql-a1-m12-cA_5gql-a1-m7-cA 5gql-a1-m1-cA_5gql-a1-m5-cA 5gql-a1-m1-cA_5gql-a1-m9-cA 5gql-a1-m2-cA_5gql-a1-m7-cA 5gql-a1-m3-cA_5gql-a1-m8-cA 5gql-a1-m4-cA_5gql-a1-m6-cA 5gql-a1-m5-cA_5gql-a1-m9-cA 5gqm-a1-m10-cA_5gqm-a1-m3-cA 5gqm-a1-m10-cA_5gqm-a1-m8-cA 5gqm-a1-m11-cA_5gqm-a1-m4-cA 5gqm-a1-m11-cA_5gqm-a1-m6-cA 5gqm-a1-m12-cA_5gqm-a1-m2-cA 5gqm-a1-m12-cA_5gqm-a1-m7-cA 5gqm-a1-m1-cA_5gqm-a1-m5-cA 5gqm-a1-m1-cA_5gqm-a1-m9-cA 5gqm-a1-m2-cA_5gqm-a1-m7-cA 5gqm-a1-m3-cA_5gqm-a1-m8-cA 5gqm-a1-m4-cA_5gqm-a1-m6-cA 5gqm-a1-m5-cA_5gqm-a1-m9-cA 5gqn-a1-m10-cA_5gqn-a1-m3-cA 5gqn-a1-m10-cA_5gqn-a1-m8-cA 5gqn-a1-m11-cA_5gqn-a1-m4-cA 5gqn-a1-m11-cA_5gqn-a1-m6-cA 5gqn-a1-m12-cA_5gqn-a1-m2-cA 5gqn-a1-m12-cA_5gqn-a1-m7-cA 5gqn-a1-m1-cA_5gqn-a1-m5-cA 5gqn-a1-m1-cA_5gqn-a1-m9-cA 5gqn-a1-m2-cA_5gqn-a1-m7-cA 5gqn-a1-m3-cA_5gqn-a1-m8-cA 5gqn-a1-m4-cA_5gqn-a1-m6-cA 5gqn-a1-m5-cA_5gqn-a1-m9-cA 5yha-a1-m1-cA_5yha-a1-m2-cA 5yha-a1-m1-cA_5yha-a1-m3-cA 5yha-a1-m2-cA_5yha-a1-m3-cA 5yr1-a1-m10-cA_5yr1-a1-m3-cA 5yr1-a1-m10-cA_5yr1-a1-m8-cA 5yr1-a1-m11-cA_5yr1-a1-m4-cA 5yr1-a1-m11-cA_5yr1-a1-m6-cA 5yr1-a1-m12-cA_5yr1-a1-m2-cA 5yr1-a1-m12-cA_5yr1-a1-m7-cA 5yr1-a1-m1-cA_5yr1-a1-m5-cA 5yr1-a1-m1-cA_5yr1-a1-m9-cA 5yr1-a1-m2-cA_5yr1-a1-m7-cA 5yr1-a1-m3-cA_5yr1-a1-m8-cA 5yr1-a1-m4-cA_5yr1-a1-m6-cA 5yr1-a1-m5-cA_5yr1-a1-m9-cA 5yr9-a1-m10-cA_5yr9-a1-m7-cA 5yr9-a1-m11-cA_5yr9-a1-m2-cA 5yr9-a1-m11-cA_5yr9-a1-m5-cA 5yr9-a1-m12-cA_5yr9-a1-m4-cA 5yr9-a1-m12-cA_5yr9-a1-m8-cA 5yr9-a1-m1-cA_5yr9-a1-m10-cA 5yr9-a1-m1-cA_5yr9-a1-m7-cA 5yr9-a1-m2-cA_5yr9-a1-m5-cA 5yr9-a1-m3-cA_5yr9-a1-m6-cA 5yr9-a1-m3-cA_5yr9-a1-m9-cA 5yr9-a1-m4-cA_5yr9-a1-m8-cA 5yr9-a1-m6-cA_5yr9-a1-m9-cA 5yra-a1-m10-cA_5yra-a1-m3-cA 5yra-a1-m10-cA_5yra-a1-m8-cA 5yra-a1-m11-cA_5yra-a1-m4-cA 5yra-a1-m11-cA_5yra-a1-m6-cA 5yra-a1-m12-cA_5yra-a1-m2-cA 5yra-a1-m12-cA_5yra-a1-m7-cA 5yra-a1-m1-cA_5yra-a1-m5-cA 5yra-a1-m1-cA_5yra-a1-m9-cA 5yra-a1-m2-cA_5yra-a1-m7-cA 5yra-a1-m3-cA_5yra-a1-m8-cA 5yra-a1-m4-cA_5yra-a1-m6-cA 5yra-a1-m5-cA_5yra-a1-m9-cA 5yrb-a1-m10-cA_5yrb-a1-m3-cA 5yrb-a1-m10-cA_5yrb-a1-m8-cA 5yrb-a1-m11-cA_5yrb-a1-m4-cA 5yrb-a1-m11-cA_5yrb-a1-m6-cA 5yrb-a1-m12-cA_5yrb-a1-m2-cA 5yrb-a1-m12-cA_5yrb-a1-m7-cA 5yrb-a1-m1-cA_5yrb-a1-m5-cA 5yrb-a1-m1-cA_5yrb-a1-m9-cA 5yrb-a1-m2-cA_5yrb-a1-m7-cA 5yrb-a1-m3-cA_5yrb-a1-m8-cA 5yrb-a1-m4-cA_5yrb-a1-m6-cA 5yrb-a1-m5-cA_5yrb-a1-m9-cA 5yrc-a1-m10-cA_5yrc-a1-m3-cA 5yrc-a1-m10-cA_5yrc-a1-m8-cA 5yrc-a1-m11-cA_5yrc-a1-m4-cA 5yrc-a1-m11-cA_5yrc-a1-m6-cA 5yrc-a1-m12-cA_5yrc-a1-m2-cA 5yrc-a1-m12-cA_5yrc-a1-m7-cA 5yrc-a1-m1-cA_5yrc-a1-m5-cA 5yrc-a1-m1-cA_5yrc-a1-m9-cA 5yrc-a1-m2-cA_5yrc-a1-m7-cA 5yrc-a1-m3-cA_5yrc-a1-m8-cA 5yrc-a1-m4-cA_5yrc-a1-m6-cA 5yrc-a1-m5-cA_5yrc-a1-m9-cA 5yrd-a1-m10-cA_5yrd-a1-m3-cA 5yrd-a1-m10-cA_5yrd-a1-m8-cA 5yrd-a1-m11-cA_5yrd-a1-m4-cA 5yrd-a1-m11-cA_5yrd-a1-m6-cA 5yrd-a1-m12-cA_5yrd-a1-m2-cA 5yrd-a1-m12-cA_5yrd-a1-m7-cA 5yrd-a1-m1-cA_5yrd-a1-m5-cA 5yrd-a1-m1-cA_5yrd-a1-m9-cA 5yrd-a1-m2-cA_5yrd-a1-m7-cA 5yrd-a1-m3-cA_5yrd-a1-m8-cA 5yrd-a1-m4-cA_5yrd-a1-m6-cA 5yrd-a1-m5-cA_5yrd-a1-m9-cA 7xhr-a1-m10-cA_7xhr-a1-m3-cA 7xhr-a1-m10-cA_7xhr-a1-m8-cA 7xhr-a1-m11-cA_7xhr-a1-m4-cA 7xhr-a1-m11-cA_7xhr-a1-m6-cA 7xhr-a1-m12-cA_7xhr-a1-m2-cA 7xhr-a1-m12-cA_7xhr-a1-m7-cA 7xhr-a1-m1-cA_7xhr-a1-m5-cA 7xhr-a1-m1-cA_7xhr-a1-m9-cA 7xhr-a1-m2-cA_7xhr-a1-m7-cA 7xhr-a1-m3-cA_7xhr-a1-m8-cA 7xhr-a1-m4-cA_7xhr-a1-m6-cA 7xhr-a1-m5-cA_7xhr-a1-m9-cA 7xws-a1-m10-cA_7xws-a1-m3-cA 7xws-a1-m10-cA_7xws-a1-m8-cA 7xws-a1-m11-cA_7xws-a1-m4-cA 7xws-a1-m11-cA_7xws-a1-m6-cA 7xws-a1-m12-cA_7xws-a1-m2-cA 7xws-a1-m12-cA_7xws-a1-m7-cA 7xws-a1-m1-cA_7xws-a1-m5-cA 7xws-a1-m1-cA_7xws-a1-m9-cA 7xws-a1-m2-cA_7xws-a1-m7-cA 7xws-a1-m3-cA_7xws-a1-m8-cA 7xws-a1-m4-cA_7xws-a1-m6-cA 7xws-a1-m5-cA_7xws-a1-m9-cA ADVAGTSNRDFRGREQRLFNSEQYNYNNSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKALKEYREGQHNDSYDEYEVNQSIYYPNGGDARKFHSNAKPRAIQIIFSPSVNVRTIKMAKGNAVSVPDEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNPSSYNVGSAHNVMDVFQSCDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSNRQ ADVAGTSNRDFRGREQRLFNSEQYNYNNSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKALKEYREGQHNDSYDEYEVNQSIYYPNGGDARKFHSNAKPRAIQIIFSPSVNVRTIKMAKGNAVSVPDEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNPSSYNVGSAHNVMDVFQSCDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSNRQ 5ey0-a1-m1-cA_5ey0-a1-m1-cB Crystal structure of CodY from Staphylococcus aureus with GTP and Ile Q2FZ27 Q2FZ27 1.6 X-RAY DIFFRACTION 99 1.0 418127 (Staphylococcus aureus subsp. aureus Mu3) 418127 (Staphylococcus aureus subsp. aureus Mu3) 252 253 5ey1-a1-m1-cB_5ey1-a1-m1-cA MSLLSKTRELNTLLQKHKGIAVDFKDVAQTISSVTVTNVFIVSRRGKILGSSLNELLKSQRIIQMLEERHIPSEYTERLMEVKQTESNIDIDNVLTVFPPENRELFIDSRTTIFPILGGGERLGTLVLGRVHDDFNENDLVLGEYAATVIGMEILREKHSEVEKEARDKAAITMAINSLSYSEKEAIEHIFEELGGTEGLLIASKVADRVGITRSVIVNALRKLESAGVIESRSKGTFIKVKKEKFLDELEK MSLLSKTRELNTLLQKHKGIAVDFKDVAQTISSVTVTNVFIVSRRGKILGSSLNELLKSQRIIQMLEERHIPSEYTERLMEVKQTESNIDIDNVLTVFPPENRELFIDSRTTIFPILGGGERLGTLVLGRVHDDFNENDLVLGEYAATVIGMEILREKHSEVEKEARDKAAITMAINSLSYSEKEAIEHIFEELGGTEGLLIASKVADRVGITRSVIVNALRKLESAGVIESRSLKGTFIKVKKEKFLDELEK 5ey2-a1-m1-cA_5ey2-a1-m1-cB Crystal structure of CodY from Bacillus cereus Q819X8 Q819X8 3 X-RAY DIFFRACTION 77 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 246 246 ELLAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENERKQLAERQFPEEYTQSLFNITETSSNLDVNSAYTAFPVENRELFGQGLTTIVPIVGGGERLGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGTYIKVLNDKFLQELAKL ELLAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENERKQLAERQFPEEYTQSLFNITETSSNLDVNSAYTAFPVENRELFGQGLTTIVPIVGGGERLGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGTYIKVLNDKFLQELAKL 5ey2-a1-m1-cD_5ey2-a1-m1-cA Crystal structure of CodY from Bacillus cereus Q819X8 Q819X8 3 X-RAY DIFFRACTION 61 0.991 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 220 246 5ey2-a1-m1-cC_5ey2-a1-m1-cB LAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENLAERQFPEEYTQSLFNITETSSNLDVGLTTIVPIVGGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGKGTYIKVLNDKFLQELAKL ELLAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENERKQLAERQFPEEYTQSLFNITETSSNLDVNSAYTAFPVENRELFGQGLTTIVPIVGGGERLGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGTYIKVLNDKFLQELAKL 5ey2-a1-m1-cD_5ey2-a1-m1-cB Crystal structure of CodY from Bacillus cereus Q819X8 Q819X8 3 X-RAY DIFFRACTION 39 0.991 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 220 246 5ey2-a1-m1-cC_5ey2-a1-m1-cA LAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENLAERQFPEEYTQSLFNITETSSNLDVGLTTIVPIVGGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGKGTYIKVLNDKFLQELAKL ELLAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENERKQLAERQFPEEYTQSLFNITETSSNLDVNSAYTAFPVENRELFGQGLTTIVPIVGGGERLGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGTYIKVLNDKFLQELAKL 5ey2-a1-m1-cD_5ey2-a1-m1-cC Crystal structure of CodY from Bacillus cereus Q819X8 Q819X8 3 X-RAY DIFFRACTION 70 0.982 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 220 224 LAKTRKLNALLQSAAGKPVNFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENLAERQFPEEYTQSLFNITETSSNLDVGLTTIVPIVGGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGKGTYIKVLNDKFLQELAKL ELLAKTRKLNALLQSAAGKPFRESDTCEVIEANVFVVSRRGKLLGYAIHQQIENERKLAERQFPEEYQSLFNITETSSNLDGQGLTTIVPIVGGGTLVLARLGQEFLDDDLILAEYSSTVVGEILREKAEEIEEEARSKAVVQAISSLSYSELEAIEHIFEELNGTEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGKGTYIKVLNDKFLQELAKL 5ey5-a1-m1-cB_5ey5-a1-m1-cD LBCATS 1.972 X-RAY DIFFRACTION 98 1.0 32630 (synthetic construct) 32630 (synthetic construct) 383 383 GRFGKYGGQYVPETLMPALEELEEAYERAKNDPEFQAELEYYLRDYVGRPTPLYFAENLTKDLGGAKIYLKREDLNHTGAHKINNALGQALLAKRMGKKRVIAETGAGQHGVATATVAAMFGLECVVYMGAEDIERQALNVFRMKLLGAKVRPVTSGSRTLKDAINEAMRDWVTNVEDTFYIIGSVVGPHPYPMMVRDFQSVIGEEARQQILEKEGRLPDAIVACVGGGSNAMGIFHPFIDDESVRLIGVEAAGKGIETGKHAATLSAGRPGVLHGAMTYLLQDEDGQIIEAHSISAGLDYPGVGPEHAYLKDTGRAEYVSVTDDEALEAFQLLSRTEGIIPALESSHAVAYAMKLAPELSKDQIIVVNLSGRGDKDVNTVAR GRFGKYGGQYVPETLMPALEELEEAYERAKNDPEFQAELEYYLRDYVGRPTPLYFAENLTKDLGGAKIYLKREDLNHTGAHKINNALGQALLAKRMGKKRVIAETGAGQHGVATATVAAMFGLECVVYMGAEDIERQALNVFRMKLLGAKVRPVTSGSRTLKDAINEAMRDWVTNVEDTFYIIGSVVGPHPYPMMVRDFQSVIGEEARQQILEKEGRLPDAIVACVGGGSNAMGIFHPFIDDESVRLIGVEAAGKGIETGKHAATLSAGRPGVLHGAMTYLLQDEDGQIIEAHSISAGLDYPGVGPEHAYLKDTGRAEYVSVTDDEALEAFQLLSRTEGIIPALESSHAVAYAMKLAPELSKDQIIVVNLSGRGDKDVNTVAR 5ey6-a1-m1-cA_5ey6-a1-m1-cB CRYSTAL STRUCTURE OF GLUTATHIONE TRANSFERASE F2 FROM POPULUS TRICHOCARPA B9GQ64 B9GQ64 1.9 X-RAY DIFFRACTION 82 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 215 217 PVKVYGPPLSTAVSRVLVTLLEKDVPFQIIPVDMSKGEHKKPDYLKIQPFGQVPAFQDESISLFESRSICRYVCEKYADRGDKGLYGTNPLERASIDQWVEAEGQSFGPSSGALVFQLAFAPRMNIPQDQGVIKQNEEKLGKVLDIYEQRLGESRFLAGDEFTFADLSHLPNGDYLVNATDKGHLFTSRENVGRWWNEISDRESWKKVIEMRKSG ATPVKVYGPPLSTAVSRVLVTLLEKDVPFQIIPVDMSKGEHKKPDYLKIQPFGQVPAFQDESISLFESRSICRYVCEKYADRGDKGLYGTNPLERASIDQWVEAEGQSFGPSSGALVFQLAFAPRMNIPQDQGVIKQNEEKLGKVLDIYEQRLGESRFLAGDEFTFADLSHLPNGDYLVNATDKGHLFTSRENVGRWWNEISDRESWKKVIEMRKSG 5eya-a1-m1-cF_5eya-a1-m1-cG TRIM25 RING domain in complex with Ubc13-Ub conjugate Q14258 Q14258 2.4 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 86 PLAEELSCSICLEPFKEPVTTPCGHNFCGSCLNETWAVQGSPYLCPQCRAVYQARPQLHKNTVLCNVVEQFLQADL GSHMAELCPLAEELSCSICLEPFKEPVTTPCGHNFCGSCLNETWAVQGSPYLCPQCRAVYQARPQLHKNTVLCNVVEQFLQADLAR 5eyf-a1-m1-cA_5eyf-a1-m1-cB Crystal Structure of Solute-binding Protein from Enterococcus faecium with Bound Glutamate Q3XZW5 Q3XZW5 1.52 X-RAY DIFFRACTION 62 1.0 333849 (Enterococcus faecium DO) 333849 (Enterococcus faecium DO) 236 238 EDILERSKSTNEIIWGVKYDTRLFGDIESRTVQGFDVDIAKAITKKILGDNGKTEFVEVTSKTRIPLLKNGNIDAIIATTITDERKKQVDFSDVYFDAGQALLVKKGSQIKSVDDLNASTTVLAVKGSTSAANIRQHAPDAKILELENYAEAFTALQSGQGDATTDNAILLGIADENPEYELVGGTFTNEPYGIAINKGQENFLKAVNQALEEHADGTYDKIYQKWFPNETEGKVE ANEDILERSKSTNEIIWGVKYDTRLFGDIESRTVQGFDVDIAKAITKKILGDNGKTEFVEVTSKTRIPLLKNGNIDAIIATTITDERKKQVDFSDVYFDAGQALLVKKGSQIKSVDDLNASTTVLAVKGSTSAANIRQHAPDAKILELENYAEAFTALQSGQGDATTDNAILLGIADENPEYELVGGTFTNEPYGIAINKGQENFLKAVNQALEEHADGTYDKIYQKWFPNETEGKVE 5eyi-a1-m1-cB_5eyi-a1-m1-cA Structure of PRRSV apo-NSP11 at 2.16A Q9YN02 Q9YN02 2.16 X-RAY DIFFRACTION 38 0.995 300561 (PRRSV 16244B) 300561 (PRRSV 16244B) 210 223 GSGSSSPLPKVAHNLGFYFSPDLTQFAKLPVELAPHWPVVTTQNNEKWPDRLVASLRPIHKYSRACIGAGYMVGPSVFLGTPGVVSYYLTKFVKGEAQLLPETVFSTGRIEVDCREYLDDREREVAASLPHAFIGDVKGCHHVTSRYLPRVLPKESVAVVGVALCTLTDVYLPDLEAYLHPETQSKCWKMMLDFKEVRLMVWRDKTAYFQ SGSSSPLPKVAHNLGFYFSPDLTQFAKLPVELAPHWPVVTTQNNEKWPDRLVASLRPIHKYSRACIGAGYMVGPSVFLGTPGVVSYYLTKFVKGEAQLLPETVFSTGRIEVDCREYLDDREREVAASLPHAFIGDVKGTTVGGCHHVTSRYLPRVLPKESVAVVGVSSPGKAAAALCTLTDVYLPDLEAYLHPETQSKCWKMMLDFKEVRLMVWRDKTAYFQL 5eyo-a2-m1-cC_5eyo-a2-m2-cC The crystal structure of the Max bHLH domain in complex with 5-carboxyl cytosine DNA P61244 P61244 2.39 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 1an2-a1-m1-cA_1an2-a1-m2-cA 1hlo-a1-m1-cB_1hlo-a1-m1-cA 5eyo-a1-m1-cA_5eyo-a1-m2-cA HMADKRAHHNALERKRRDHIKDSFHSLRDSVPSLQGEKASRAQILDKATEYIQYMRRKNHTHQQDIDDLKRQNALLEQQVRALEKARS HMADKRAHHNALERKRRDHIKDSFHSLRDSVPSLQGEKASRAQILDKATEYIQYMRRKNHTHQQDIDDLKRQNALLEQQVRALEKARS 5eyt-a1-m2-cA_5eyt-a1-m4-cA Crystal Structure of Adenylosuccinate Lyase from Schistosoma mansoni in complex with AMP G4VQX9 G4VQX9 2.3649 X-RAY DIFFRACTION 165 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 472 472 5eyt-a1-m1-cA_5eyt-a1-m3-cA 5eyv-a1-m2-cB_5eyv-a1-m1-cA EFEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFETKMPYKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAANRQECHERLRKHSHEAAAEIKLKGLKNSLMDKLLNDYYFAPIHSLLPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNITI EFEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFETKMPYKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAANRQECHERLRKHSHEAAAEIKLKGLKNSLMDKLLNDYYFAPIHSLLPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNITI 5eyt-a1-m3-cA_5eyt-a1-m4-cA Crystal Structure of Adenylosuccinate Lyase from Schistosoma mansoni in complex with AMP G4VQX9 G4VQX9 2.3649 X-RAY DIFFRACTION 97 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 472 472 5eyt-a1-m1-cA_5eyt-a1-m2-cA 5eyv-a1-m1-cA_5eyv-a1-m2-cA EFEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFETKMPYKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAANRQECHERLRKHSHEAAAEIKLKGLKNSLMDKLLNDYYFAPIHSLLPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNITI EFEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFETKMPYKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAANRQECHERLRKHSHEAAAEIKLKGLKNSLMDKLLNDYYFAPIHSLLPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNITI 5eyv-a1-m1-cB_5eyv-a1-m2-cA Crystal Structure of Adenylosuccinate lyase from Schistosoma mansoni in APO form. G4VQX9 G4VQX9 2.14 X-RAY DIFFRACTION 150 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 420 466 FEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFEKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAALPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNIT FEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFETKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAANRQECHERLRKHSHEAAAEIKLKGLKNSLMDKLLNDYYFAPIHSLLPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNIT 5eyv-a1-m1-cB_5eyv-a1-m2-cB Crystal Structure of Adenylosuccinate lyase from Schistosoma mansoni in APO form. G4VQX9 G4VQX9 2.14 X-RAY DIFFRACTION 44 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 420 420 FEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFEKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAALPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNIT FEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFEKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAALPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNIT 5eyv-a1-m2-cB_5eyv-a1-m2-cA Crystal Structure of Adenylosuccinate lyase from Schistosoma mansoni in APO form. G4VQX9 G4VQX9 2.14 X-RAY DIFFRACTION 231 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 420 466 5eyt-a1-m1-cA_5eyt-a1-m4-cA 5eyt-a1-m2-cA_5eyt-a1-m3-cA 5eyv-a1-m1-cB_5eyv-a1-m1-cA FEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFEKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAALPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNIT FEEYRNPLTKRYASREMVCNFGEKRKVILWRQLWIWLAETQKELGFDITDEQINEMKSQRDSVDFGTAAAEEKARRHDVMAHVYTFALACPKAAPIIHLGATSCFVGDNADLIMLKDGLNILLPKVARCIDRLAKKAMLHKSLICLARTHLQPAQPTTMGRRICMWIQDLLLDLENLERLKNHTIRFRGAKGAVGTQASFMDLFQGDHQKVIKLDEILTKKSGFQRSWCVTGQTYPRKVDIEITNALSNIGATVHKICTDIRLLSSFHEVEEPFETKRNPIRSERACSLARYLMHISTSMVSTVSVQWLERSLDDSAIRRIVLPEAFLAADACLTLLQNIAEGLIVYPMVMEANLNSELPFLVVERILVKMVSEGAANRQECHERLRKHSHEAAAEIKLKGLKNSLMDKLLNDYYFAPIHSLLPTVLDPSYMIGRAVEQVEVFLNTEVDPAIHSYKDCLALNSNIT 5eyw-a1-m1-cA_5eyw-a1-m1-cB Crystal structure of Litopenaeus vannamei triosephosphate isomerase complexed with 2-Phosphoglycolic acid K0E682 K0E682 1.7 X-RAY DIFFRACTION 129 1.0 6689 (Penaeus vannamei) 6689 (Penaeus vannamei) 244 244 RKFFVGGNWKMNGDKAAIDGIISFMKTGPLSPNTEVVVGCPQCYLMYTREHMPANIGIAAQNCYKVAKGAFTGEISPAMVKDCGCEWVILGHSERRNVFGEPDQLISEKVGHALEAGLKVIPCIGEKLEDREGNRTQEVVFAQMKALLPNISDWSRVVLAYEPVWAIGTGKTASPEQAQEVHADLRQWLRDNVNAEVAESTRIIYGGSVSAGNCQELAKKGDIDGFLVGGAALKPDFVQIINAR RKFFVGGNWKMNGDKAAIDGIISFMKTGPLSPNTEVVVGCPQCYLMYTREHMPANIGIAAQNCYKVAKGAFTGEISPAMVKDCGCEWVILGHSERRNVFGEPDQLISEKVGHALEAGLKVIPCIGEKLEDREGNRTQEVVFAQMKALLPNISDWSRVVLAYEPVWAIGTGKTASPEQAQEVHADLRQWLRDNVNAEVAESTRIIYGGSVSAGNCQELAKKGDIDGFLVGGAALKPDFVQIINAR 5eyy-a1-m1-cA_5eyy-a1-m2-cA Tetragonal Form of Centrolobium tomentosum seed lectin (CTL) complexed with Man1-3Man-OMe. C0HJX1 C0HJX1 1.902 X-RAY DIFFRACTION 53 1.0 500182 (Centrolobium tomentosum) 500182 (Centrolobium tomentosum) 239 239 5eyx-a1-m1-cA_5eyx-a1-m1-cB SDSLSFSFINFDQDERNVIAQGDARISGNNILQLTRTDSDGTPVRSTVGRILYSAQVRLWEKSTNRVANFQSQFSFFLESPLSNPADGIAFFIAPPDTAIPSGSAGGLLGLFSPKTAQNESANQVLAVEFDTFYAQNSNTWDPNYPHIGIDVNSIKSAKTVRWERREGVTLNVLVTYNPSTKTLDVVATYPDGQRYQISVVVDVTTVLPEWVRVGFSAASGEQFQTHNLESWSFTSTLL SDSLSFSFINFDQDERNVIAQGDARISGNNILQLTRTDSDGTPVRSTVGRILYSAQVRLWEKSTNRVANFQSQFSFFLESPLSNPADGIAFFIAPPDTAIPSGSAGGLLGLFSPKTAQNESANQVLAVEFDTFYAQNSNTWDPNYPHIGIDVNSIKSAKTVRWERREGVTLNVLVTYNPSTKTLDVVATYPDGQRYQISVVVDVTTVLPEWVRVGFSAASGEQFQTHNLESWSFTSTLL 5ez1-a1-m1-cA_5ez1-a1-m1-cB Crystal Structure of Cell Binding Factor 2 from Helicobacter pylori in complex with I2CA P56112 P56112 2.4 X-RAY DIFFRACTION 118 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 231 232 TKSDFDMIKEKEKEALIDQAIRTALVENEAKTEKLDSTPEFKAMMEAVKKQALVEFWAKKQAEEVKKVQIPEKEMQDFYNANKDQLFVKQEAHARHILVKTEDEAKRIISEIDKQPKAKKEAKFIELANRDTIDPNSKNAQNGGDLGKFQKNQMAPDFSKAAFALTPGDYTKTPVKTEFGYHIIYLISKDSPVTYTYEQAKPTIKGMLQEKLFQERMNQRIEELRKHAKIV TKSDFDMIKEKEKEALIDQAIRTALVENEAKTEKLDSTPEFKAMMEAVKKQALVEFWAKKQAEEVKKVQIPEKEMQDFYNANKDQLFVKQEAHARHILVKTEDEAKRIISEIDKQPKAKKEAKFIELANRDTIDPNSKNAQNGGDLGKFQKNQMAPDFSKAAFALTPGDYTKTPVKTEFGYHIIYLISKDSPVTYTYEQAKPTIKGMLQEKLFQERMNQRIEELRKHAKIVI 5ez3-a2-m1-cC_5ez3-a2-m1-cD Crystal structure Acyl-CoA dehydrogenase from Brucella melitensis in complex with FAD Q8YC61 Q8YC61 2.15 X-RAY DIFFRACTION 262 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 541 541 5ez3-a1-m1-cA_5ez3-a1-m1-cB KTHEVTNQTPPITGTNAYLGDPLLMQIAARFPKELHTELEQAGRFVLSAEAQDLARLANTELPKLRTHDRQGRRIDLVEYHPAYHALMRRSVAQGLHSSIWEDNPLESGRRHQARAARFYLTAQLEAGHLCPLTMTSASLAALMASPEVYKQWSPAVLSRKYDFSQKPAFRKQGVTLGMGMTEKQGGTDVRANATRAEPAIGGAWRLTGHKWFMSAPMSDAFLTLAQTKEGLSCFLLPRLGEKGESNGFFFQRLKDKLGNRSNASSEVEFDGALGQMIGSPGEGVKTIMDMVTLTRLDCAVASAGLMRSGLAEAVHHSRHRHVFGKPLVEQPLMQRVLADMALDVAGATALSMRLARAFDMAASDRAEAAFARSMTPVVKYWVCKIAPALLYEAMECLGGNGYIEDGNLARAYREAPVNAIWEGSGNVMALDVARVLSRAPALFDGVLDWISGQLGPRGQGTIDVLRAALQLTETDQGVARLLTEQLAFAAAAAELRQLGADDIADAFIETRLGGLWRTTYGMLDARHNAMRIIDQLYPAS KTHEVTNQTPPITGTNAYLGDPLLMQIAARFPKELHTELEQAGRFVLSAEAQDLARLANTELPKLRTHDRQGRRIDLVEYHPAYHALMRRSVAQGLHSSIWEDNPLESGRRHQARAARFYLTAQLEAGHLCPLTMTSASLAALMASPEVYKQWSPAVLSRKYDFSQKPAFRKQGVTLGMGMTEKQGGTDVRANATRAEPAIGGAWRLTGHKWFMSAPMSDAFLTLAQTKEGLSCFLLPRLGEKGESNGFFFQRLKDKLGNRSNASSEVEFDGALGQMIGSPGEGVKTIMDMVTLTRLDCAVASAGLMRSGLAEAVHHSRHRHVFGKPLVEQPLMQRVLADMALDVAGATALSMRLARAFDMAASDRAEAAFARSMTPVVKYWVCKIAPALLYEAMECLGGNGYIEDGNLARAYREAPVNAIWEGSGNVMALDVARVLSRAPALFDGVLDWISGQLGPRGQGTIDVLRAALQLTETDQGVARLLTEQLAFAAAAAELRQLGADDIADAFIETRLGGLWRTTYGMLDARHNAMRIIDQLYPAS 5ez5-a1-m1-cA_5ez5-a1-m1-cB Crystal structure of active Rab11A (S20V) in complex with GTP P62491 P62491 2.4 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 168 YDYLFKVVLIGDVGVGKSNLLSRFTRNEFNLESKSTIGVEFATRSIQVDGKTIKAQIWDTAGQERYRAITSAYYRGAVGALLVYDIAKHLTYENVERWLKELRDHADSNIVIMLVGNKSDLRHLRAVPTDEARAFAEKNGLSFIETSALDSTNVEAAFQTILTEIYRI YDYLFKVVLIGDVGVGKSNLLSRFTRNEFNLESKSTIGVEFATRSIQVDGKTIKAQIWDTAGQERYRAITSAYYRGAVGALLVYDIAKHLTYENVERWLKELRDHADSNIVIMLVGNKSDLRHLRAVPTDEARAFAEKNGLSFIETSALDSTNVEAAFQTILTEIYRI 5ez5-a2-m1-cA_5ez5-a2-m2-cB Crystal structure of active Rab11A (S20V) in complex with GTP P62491 P62491 2.4 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 168 YDYLFKVVLIGDVGVGKSNLLSRFTRNEFNLESKSTIGVEFATRSIQVDGKTIKAQIWDTAGQERYRAITSAYYRGAVGALLVYDIAKHLTYENVERWLKELRDHADSNIVIMLVGNKSDLRHLRAVPTDEARAFAEKNGLSFIETSALDSTNVEAAFQTILTEIYRI YDYLFKVVLIGDVGVGKSNLLSRFTRNEFNLESKSTIGVEFATRSIQVDGKTIKAQIWDTAGQERYRAITSAYYRGAVGALLVYDIAKHLTYENVERWLKELRDHADSNIVIMLVGNKSDLRHLRAVPTDEARAFAEKNGLSFIETSALDSTNVEAAFQTILTEIYRI 5ezu-a1-m1-cB_5ezu-a1-m2-cB Crystal structure of the N-terminal domain of vaccinia virus immunomodulator A46 in complex with myristic acid. P26672 P26672 1.55 X-RAY DIFFRACTION 61 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 67 67 MAFDISVNASKTINALVYFSTQQNKLVIRNEVNDTHYTVEFDRDKVVDTFISYNRHNDTIEIRGVLP MAFDISVNASKTINALVYFSTQQNKLVIRNEVNDTHYTVEFDRDKVVDTFISYNRHNDTIEIRGVLP 5ezu-a1-m2-cB_5ezu-a1-m2-cA Crystal structure of the N-terminal domain of vaccinia virus immunomodulator A46 in complex with myristic acid. P26672 P26672 1.55 X-RAY DIFFRACTION 90 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 67 76 5ezu-a1-m1-cB_5ezu-a1-m1-cA MAFDISVNASKTINALVYFSTQQNKLVIRNEVNDTHYTVEFDRDKVVDTFISYNRHNDTIEIRGVLP MAFDISVNASKTINALVYFSTQQNKLVIRNEVNDTHYTVEFDRDKVVDTFISYNRHNDTIEIRGVLPEETNIGCAV 5f05-a2-m1-cC_5f05-a2-m1-cD Crystal structure of glutathione transferase F5 from Populus trichocarpa D2WL63 D2WL63 1.7 X-RAY DIFFRACTION 76 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 211 211 5f05-a1-m1-cA_5f05-a1-m1-cB PLKLHGSVLSTNTQRVLATLYEKEVEFELVNVNLGAGEHKQEPHISLNPFGQVPAAVDGDLKLFESRAISQYVAHQYASKGTQLGAAGNGYATILVWQEVESHQFDPSASKLVWEQVFKPVFGLPTDAALVAETEVTLGKVLDVYEARLSQSKYLASDSFTLADLHHLPNIQALLGTPSKKLFDSRPHVSAWVASITGRPAWGKVLALLPK PLKLHGSVLSTNTQRVLATLYEKEVEFELVNVNLGAGEHKQEPHISLNPFGQVPAAVDGDLKLFESRAISQYVAHQYASKGTQLGAAGNGYATILVWQEVESHQFDPSASKLVWEQVFKPVFGLPTDAALVAETEVTLGKVLDVYEARLSQSKYLASDSFTLADLHHLPNIQALLGTPSKKLFDSRPHVSAWVASITGRPAWGKVLALLPK 5f06-a1-m1-cA_5f06-a1-m1-cB Crystal structure of glutathione transferase F7 from Populus trichocarpa U5GTL0 U5GTL0 1.8 X-RAY DIFFRACTION 72 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 213 213 VLKLYGAPMSTCTSRVLTCLHEKNLDFELVPVDLFAGEHKQPPFLAKNPFGQIPALEEDDLTLFESRAITSYIAEKFKGTGYDLIRHENLKEAASVKVWTEVESHRYNPAIAPIVFQFMVAPLRGNSPDQTIIDDNVEKLGKVLDIYEAKLSSTKYLAGDFYSLADLHHLPYTYYLMKTPAASVVNERPHVKAWWEDISSRPAFKKVAEGMNF VLKLYGAPMSTCTSRVLTCLHEKNLDFELVPVDLFAGEHKQPPFLAKNPFGQIPALEEDDLTLFESRAITSYIAEKFKGTGYDLIRHENLKEAASVKVWTEVESHRYNPAIAPIVFQFMVAPLRGNSPDQTIIDDNVEKLGKVLDIYEAKLSSTKYLAGDFYSLADLHHLPYTYYLMKTPAASVVNERPHVKAWWEDISSRPAFKKVAEGMNF 5f07-a1-m1-cA_5f07-a1-m2-cA Crystal structure of glutathione transferase F8 from Populus trichocarpa B9MWW0 B9MWW0 1.5 X-RAY DIFFRACTION 75 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 212 212 VVKVYGPAVAVCPQRVMACLLEKGVEFDLVHVDLDSGEQKLPEFLLKQPFGQVPVVEDGDFKLFESRAIIRYYAAKYEDRGPNLLGNTLEEKALVDQWLEIEAHNFNDLVFNIVFQVVILPRIGQQGDSELVRTYEEKLEKVLDVYEKRLSKSKYLAGDSFTLADLSHLPATRYLVNEAGLGHLVKDRKKLNAWWEDISSRPAWKKLMNLAG VVKVYGPAVAVCPQRVMACLLEKGVEFDLVHVDLDSGEQKLPEFLLKQPFGQVPVVEDGDFKLFESRAIIRYYAAKYEDRGPNLLGNTLEEKALVDQWLEIEAHNFNDLVFNIVFQVVILPRIGQQGDSELVRTYEEKLEKVLDVYEKRLSKSKYLAGDSFTLADLSHLPATRYLVNEAGLGHLVKDRKKLNAWWEDISSRPAWKKLMNLAG 5f0g-a1-m1-cB_5f0g-a1-m1-cA Structure of the glutathione transferase delta 2 from Drosophila melanogaster Q9VG98 Q9VG98 1.6 X-RAY DIFFRACTION 82 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 202 207 MDFYYMPGGGGCRTVIMVAKALGLELNKKLLNTMEGEQLKPEFVKLNPQHTIPTLVDNGFSIWESRAIAVYLVEKYGKDDYLLPNDPKKRAVINQRLYFDMGTLYESFAKYYYPLGSDEDLKRIETAFGFLDTFLEGQEYVAGDQLTVADIAILSTVSTFEVSEFDFSKYSNVSRWYDNAKKVTPGWDENWEGLMAMKALFD MDFYYMPGGGGCRTVIMVAKALGLELNKKLLNTMEGEQLKPEFVKLNPQHTIPTLVDNGFSIWESRAIAVYLVEKYGKDDYLLPNDPKKRAVINQRLYFDMGTLYESFAKYYYPLPGSDEDLKRIETAFGFLDTFLEGQEYVAGDQLTVADIAILSTVSTFEVSEFDFSKYSNVSRWYDNAKKVTPGWDENWEGLMAMKALFDARKL 5f0u-a1-m1-cA_5f0u-a1-m2-cA Crystal structure of Gold binding protein 1.68 X-RAY DIFFRACTION 27 1.0 913072 (Salmonella enterica subsp. enterica serovar Give str. S5-487) 913072 (Salmonella enterica subsp. enterica serovar Give str. S5-487) 65 65 GMQFHIDDMTCGGCASTVKKTILTLDANATVRTDPATRLVDVETSLSAEQIAAALQKAGFPPRER GMQFHIDDMTCGGCASTVKKTILTLDANATVRTDPATRLVDVETSLSAEQIAAALQKAGFPPRER 5f19-a1-m1-cB_5f19-a1-m1-cA The Crystal Structure of Aspirin Acetylated Human Cyclooxygenase-2 P35354 P35354 2.04 X-RAY DIFFRACTION 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 551 551 5f1a-a1-m1-cB_5f1a-a1-m1-cA 5ikq-a1-m1-cA_5ikq-a1-m1-cB 5ikr-a1-m1-cB_5ikr-a1-m1-cA 5ikt-a1-m1-cB_5ikt-a1-m1-cA 5ikv-a1-m1-cB_5ikv-a1-m1-cA 5kir-a1-m1-cB_5kir-a1-m1-cA KNPCCSHPCQNRGVCMSVGFDQYKCDCTRTGFYGENCSTPEFLTRIKLFLKPTPNTVHYILTHFKGFWNVVNNIPFLRNAIMSYVLTSRSHLIDSPPTYNADYGYKSWEAFSNLSYYTRALPPVPDDCPTPLGVKGKKQLPDSNEIVEKLLLRRKFIPDPQGSNMMFAFFAQHFTHQFFKTDHKRGPAFTNGLGHGVDLNHIYGETLARQRKLRLFKDGKMKYQIIDGEMYPPTVKDTQAEMIYPPQVPEHLRFAVGQEVFGLVPGLMMYATIWLREHNRVCDVLKQEHPEWGDEQLFQTSRLILIGETIKIVIEDYVQHLSGYHFKLKFDPELLFNKQFQYQNRIAAEFNTLYHWHPLLPDTFQIHDQKYNYQQFIYNNSILLEHGITQFVESFTRQIAGRVAGGRNVPPAVQKVSQASIDQSRQMKYQSFNEYRKRFMLKPYESFEELTGEKEMSAELEALYGDIDAVELYPALLVEKPRPDAIFGETMVEVGAPFLKGLMGNVICSPAYWKPSTFGGEVGFQIINTASIQSLICNNVKGCPFTSFSVP KNPCCSHPCQNRGVCMSVGFDQYKCDCTRTGFYGENCSTPEFLTRIKLFLKPTPNTVHYILTHFKGFWNVVNNIPFLRNAIMSYVLTSRSHLIDSPPTYNADYGYKSWEAFSNLSYYTRALPPVPDDCPTPLGVKGKKQLPDSNEIVEKLLLRRKFIPDPQGSNMMFAFFAQHFTHQFFKTDHKRGPAFTNGLGHGVDLNHIYGETLARQRKLRLFKDGKMKYQIIDGEMYPPTVKDTQAEMIYPPQVPEHLRFAVGQEVFGLVPGLMMYATIWLREHNRVCDVLKQEHPEWGDEQLFQTSRLILIGETIKIVIEDYVQHLSGYHFKLKFDPELLFNKQFQYQNRIAAEFNTLYHWHPLLPDTFQIHDQKYNYQQFIYNNSILLEHGITQFVESFTRQIAGRVAGGRNVPPAVQKVSQASIDQSRQMKYQSFNEYRKRFMLKPYESFEELTGEKEMSAELEALYGDIDAVELYPALLVEKPRPDAIFGETMVEVGAPFLKGLMGNVICSPAYWKPSTFGGEVGFQIINTASIQSLICNNVKGCPFTSFSVP 5f1c-a1-m1-cA_5f1c-a1-m1-cC Crystal structure of an invertebrate P2X receptor from the Gulf Coast tick in the presence of ATP and Zn2+ ion at 2.9 Angstroms G3MM57 G3MM57 2.9 X-RAY DIFFRACTION 119 1.0 34609 (Amblyomma maculatum) 34609 (Amblyomma maculatum) 343 344 5f1c-a1-m1-cA_5f1c-a1-m1-cB 5f1c-a1-m1-cC_5f1c-a1-m1-cB LNRLIQLLILGYIIGYVIIYQKGYQQFSTFNAATTTKVKGVVSTKNLSDDAFYPFLSDKTVYKRVWDIADIVVPPEESNQFFVTTNLIITPSQEIKTCPEDPSIKEAHCKSENDTTSCTAGKSIMIGNGVMTGRCVQAAKPQETLHVCEISGWCPVEQDYGPLKDGTPLLSDVQNFTVLIKNYIEFSLFHVRRSNLHDIENSTYLKYCRYHPEKDPHCPVFRIGDMVDAAGEDFDDVAAKGGVIQVLISWDCNLDYDVKYCIPNYSFLRLDDPKTVLAKGWNFRYPKYYNEKERSLVKAYGITFVILVQGRAGKLSPIPIAINIGSGLGLMVVATVLCDLVVL VLNRLIQLLILGYIIGYVIIYQKGYQQFSTFNAATTTKVKGVVSTKNLSDDAFYPFLSDKTVYKRVWDIADIVVPPEESNQFFVTTNLIITPSQEIKTCPEDPSIKEAHCKSENDTTSCTAGKSIMIGNGVMTGRCVQAAKPQETLHVCEISGWCPVEQDYGPLKDGTPLLSDVQNFTVLIKNYIEFSLFHVRRSNLHDIENSTYLKYCRYHPEKDPHCPVFRIGDMVDAAGEDFDDVAAKGGVIQVLISWDCNLDYDVKYCIPNYSFLRLDDPKTVLAKGWNFRYPKYYNEKERSLVKAYGITFVILVQGRAGKLSPIPIAINIGSGLGLMVVATVLCDLVVL 5f1p-a1-m1-cB_5f1p-a1-m2-cB Crystal Structure of Dehydrogenase from Streptomyces platensis A0A0A0UVL0 A0A0A0UVL0 2.099 X-RAY DIFFRACTION 101 1.0 684832 (Streptomyces platensis subsp. rosaceus) 684832 (Streptomyces platensis subsp. rosaceus) 238 238 5f1p-a1-m1-cA_5f1p-a1-m2-cA VGRLEGKIAIVTGAASGIGAVTAERLAAEGARVALADLDAVGVQTLAEKIRGADGTHAIGIEVDLADPASVRAVAAAVEEFGGLDILHNNATALASSLDVPVADADPEVWDRTRVNLSGAVATQAALPHLIARGGGCVINTSSAASGDLSHPAYAASKAALISLTRSVATQAGRSGVRCNAIAPGLIITREAAYRVLPHHLTTRLGRPEDVASAVVFLASDEASFITGQTLVVDGGLL VGRLEGKIAIVTGAASGIGAVTAERLAAEGARVALADLDAVGVQTLAEKIRGADGTHAIGIEVDLADPASVRAVAAAVEEFGGLDILHNNATALASSLDVPVADADPEVWDRTRVNLSGAVATQAALPHLIARGGGCVINTSSAASGDLSHPAYAASKAALISLTRSVATQAGRSGVRCNAIAPGLIITREAAYRVLPHHLTTRLGRPEDVASAVVFLASDEASFITGQTLVVDGGLL 5f1p-a1-m2-cA_5f1p-a1-m2-cB Crystal Structure of Dehydrogenase from Streptomyces platensis A0A0A0UVL0 A0A0A0UVL0 2.099 X-RAY DIFFRACTION 88 1.0 684832 (Streptomyces platensis subsp. rosaceus) 684832 (Streptomyces platensis subsp. rosaceus) 238 238 5f1p-a1-m1-cA_5f1p-a1-m1-cB VGRLEGKIAIVTGAASGIGAVTAERLAAEGARVALADLDAVGVQTLAEKIRGADGTHAIGIEVDLADPASVRAVAAAVEEFGGLDILHNNATALASSLDVPVADADPEVWDRTRVNLSGAVATQAALPHLIARGGGCVINTSSAASGDLSHPAYAASKAALISLTRSVATQAGRSGVRCNAIAPGLIITREAAYRVLPHHLTTRLGRPEDVASAVVFLASDEASFITGQTLVVDGGLL VGRLEGKIAIVTGAASGIGAVTAERLAAEGARVALADLDAVGVQTLAEKIRGADGTHAIGIEVDLADPASVRAVAAAVEEFGGLDILHNNATALASSLDVPVADADPEVWDRTRVNLSGAVATQAALPHLIARGGGCVINTSSAASGDLSHPAYAASKAALISLTRSVATQAGRSGVRCNAIAPGLIITREAAYRVLPHHLTTRLGRPEDVASAVVFLASDEASFITGQTLVVDGGLL 5f1t-a1-m3-cA_5f1t-a1-m3-cF Crystal structure of a macrocyclic peptide containing fragments from alpha-synuclein 36-55. 1.971 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 5f1t-a1-m1-cA_5f1t-a1-m1-cF 5f1t-a1-m2-cA_5f1t-a1-m2-cF AVLVGSVHGATV AVLVGSVHGATV 5f1t-a1-m3-cB_5f1t-a1-m3-cC Crystal structure of a macrocyclic peptide containing fragments from alpha-synuclein 36-55. 1.971 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 5f1t-a1-m1-cB_5f1t-a1-m1-cC 5f1t-a1-m2-cB_5f1t-a1-m2-cC AVLVGSVHGATV AVLVGSVHGATV 5f23-a1-m1-cA_5f23-a1-m2-cA Crystal structure of NH(3)-dependent NAD(+) synthetase Pseudomonas aeruginosa in complex with NAD Q9HUP3 Q9HUP3 1.5 X-RAY DIFFRACTION 184 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 263 263 HHHHHMQQIQRDIAQALQVQPPFQSEADVQAQIARRIAFIQQCLKDSGLKTLVLGISGGVDSLTAGLLAQRAVEQLREQTGDQAYRFIAVRLPYQVQQDEADAQASLATIRADEEQTVNIGPSVKALAEQLEALEGLEPAKSDFVIGNIKARIRMVAQYAIAGARGGLVIGTDHAAEAVMGFFTKFGDGACDLAPLSGLAKHQVRALARALGAPENLVEKIHGVTYAEIDAFLHGQPLREEAARVIVDTYHKTQHKRELPKAP HHHHHMQQIQRDIAQALQVQPPFQSEADVQAQIARRIAFIQQCLKDSGLKTLVLGISGGVDSLTAGLLAQRAVEQLREQTGDQAYRFIAVRLPYQVQQDEADAQASLATIRADEEQTVNIGPSVKALAEQLEALEGLEPAKSDFVIGNIKARIRMVAQYAIAGARGGLVIGTDHAAEAVMGFFTKFGDGACDLAPLSGLAKHQVRALARALGAPENLVEKIHGVTYAEIDAFLHGQPLREEAARVIVDTYHKTQHKRELPKAP 5f28-a3-m2-cC_5f28-a3-m2-cD Crystal structure of FAT domain of Focal Adhesion Kinase (FAK) bound to the transcription factor MEF2C Q8CFN5 Q8CFN5 2.9 X-RAY DIFFRACTION 145 1.0 10090 (Mus musculus) 10090 (Mus musculus) 72 72 3kov-a1-m1-cA_3kov-a1-m1-cB 3kov-a2-m1-cI_3kov-a2-m1-cJ 3p57-a1-m1-cA_3p57-a1-m1-cB 3p57-a1-m1-cC_3p57-a1-m1-cD 3p57-a1-m1-cI_3p57-a1-m1-cJ 5f28-a1-m1-cA_5f28-a1-m1-cB 5f28-a2-m1-cC_5f28-a2-m1-cD 5f28-a3-m1-cA_5f28-a3-m1-cB 5f28-a3-m1-cC_5f28-a3-m1-cD 5f28-a3-m2-cA_5f28-a3-m2-cB 7x1n-a1-m1-cA_7x1n-a1-m1-cD 7x1n-a2-m1-cB_7x1n-a2-m1-cC TFTKRKFGLMKKAYELSVLCDCEIALIIFNSTNKLFQYASTDMDKVLLKYTEYNEPHESRTNSDIVEALNKK TFTKRKFGLMKKAYELSVLCDCEIALIIFNSTNKLFQYASTDMDKVLLKYTEYNEPHESRTNSDIVEALNKK 5f29-a1-m1-cA_5f29-a1-m1-cB Structure of RCK domain with cda Q2FZQ4 Q2FZQ4 1.821 X-RAY DIFFRACTION 32 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 69 70 4ys2-a1-m1-cA_4ys2-a1-m1-cB TSLYEIQLNYKYENIQLRNFPFGGDIIFVRIIRNNESIVPHGDTQLRYGDRLIVTGAKEYVDELKQELE TSLYEIQLNYKYENIQLRNFPFGGDIIFVRIIRNNESIVPHGDTQLRYGDRLIVTGAKEYVDELKQELEF 5f2h-a1-m1-cA_5f2h-a1-m1-cB 2.75 Angstrom resolution crystal structure of uncharacterized protein from Bacillus cereus ATCC 10987 Q739P5 Q739P5 2.75 X-RAY DIFFRACTION 179 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 297 301 TYIQLLNETLHCYASKGSLEAYTYIEHAKGIVGNEAQIYNFKYALASAAGLEEEAHVKEAIIEKGFWYGNEYLISDDDLKPLHKFEEFHQVQLCKEREELAKKTERADVKYIDSKEKLFIAHGDQENIAIVEPYWKSVLDQDYTLALPQSSQIQFSDGFVWDDIQRGKEELKEHYVKFIENHRGESVIIGGFSAGARVALYTILHKDIDVDGFIFAPWLPEIDEWNELLEVLQDKNIKGYVVCGDQDEDCFECTQQFVQVLKDKNIEHEFKVVPNLKHDYPEDFDELLKEAIKYIED TYIQLLNETLHCYASKGSLEAYTYIEHAKGIVGNEAQIYNFKYALASAAGLEEEAHVKEAIIEKGFWYGNEYLISDDDLKPLHKFEEFHQVQLCKEREELAKKTERADVKYIDSKKKEKLFIAHGDQENIAIVEPYWKSVLDQDYTLALPQSSQIQFSDGFVWDDIQRGKEELKEHYVKFIENHRGESVIIGGFSAGARVALYTILHKDIDVDGFIFAPWLPEIDEWNELLEVLQDKNIKGYVVCGDQDEDCFECTQQFVQVLKDKNIEHEFKVVPNLKHDYPEDFDELLKEAIKYIEDKS 5f2k-a1-m1-cB_5f2k-a1-m1-cA Crystal structure of mycobacterial fatty acid O-methyltransferase in complex with SAH and octanoate B2HHT4 B2HHT4 1.6 X-RAY DIFFRACTION 79 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 356 358 5f2n-a1-m1-cB_5f2n-a1-m1-cA 5f2o-a1-m1-cB_5f2o-a1-m1-cA VVVRPAPMESATYSQSSRLQAAGLSPAITLFEKAAQTVPLPDAPQPVVIADYGVATGHNSLKPMMAAINALRRRIREDRAIMVAHTDVPDNDFTALFRTLADDPDSYLHHDSASFASAVGRSFYTQILPSNTVSLGWSSWAIQWLSRIPAGAPELTDHVQVAYSKDERARAAYAHQAATDWQDFLAFRGRELCPGGRLVVLTMALDEHGHFGYRPMNDALVAALNDQVRDGLLRPEELRRMAIPVVARAEKDLRAPFAPRGWFEGLTIEQLDVFNAEDRFWAAFQSDGDAESFGAQWAGFARAALFPTLAAALDCGTGDPRATAFIEQLEASVADRLASQPEPMRIPLASLVLAKR SVVVRPAPMESATYSQSSRLQAAGLSPAITLFEKAAQTVPLPDAPQPVVIADYGVATGHNSLKPMMAAINALRRRIREDRAIMVAHTDVPDNDFTALFRTLADDPDSYLHHDSASFASAVGRSFYTQILPSNTVSLGWSSWAIQWLSRIPAGAPELTDHVQVAYSKDERARAAYAHQAATDWQDFLAFRGRELCPGGRLVVLTMALDEHGHFGYRPMNDALVAALNDQVRDGLLRPEELRRMAIPVVARAEKDLRAPFAPRGWFEGLTIEQLDVFNAEDRFWAAFQSDGDAESFGAQWAGFARAALFPTLAAALDCGTGDPRATAFIEQLEASVADRLASQPEPMRIPLASLVLAKRA 5f3h-a2-m1-cL_5f3h-a2-m1-cK Structure of myostatin in complex with humanized RK35 antibody O14793 O14793 2.7 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 105 5f3b-a1-m1-cD_5f3b-a1-m1-cC 5f3h-a1-m1-cI_5f3h-a1-m1-cJ FGLDCDESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGECEFVFLQKYPHTHLVHQANPRGSAGPCCTPTKMSPINMLYFNGKEQIIYGKIPAMVVDRCGCS FGLDCDEESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGECEFVFLQKYPHTHLVHQANPRGSAGPCCTPTKMSPINMLYFNGKEQIIYGKIPAMVVDRCGCS 5f3k-a1-m1-cB_5f3k-a1-m1-cA X-Ray Crystallographic Structure of hTrap1 N-terminal Domain-apo Q12931 Q12931 1.82 X-RAY DIFFRACTION 110 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 203 205 QGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNT QGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNT 5f3p-a1-m1-cB_5f3p-a1-m1-cA Crystal structure of a noncanonical Dicer protein from Entamoeba histolytica C4LU64 C4LU64 1.904 X-RAY DIFFRACTION 68 0.989 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 188 193 5f3o-a1-m1-cB_5f3o-a1-m1-cA 5f3q-a1-m1-cB_5f3q-a1-m1-cA MSSTTLHNAMQYTAFDVLSSILNLMKADPLYDLLQLNQAYSSQDQEYEKNEFYGDSYLEERASSLVLKFLRKYEQIPFEMYSGLRIHTVKNQTLGEIFDLLHLGEKKKKGDLVESLIGGCVLLSQRENATLFLLFAHALIDYIFYHSSYIYFNANPPKLVKEEIITDIQNWFKDKLFYYRSSLEKYQT SSTTLHNAMQYTAFDVLSSILNLMKADPLYDLLQLNQAYSSDQEYEKNEFYGDSYLEERASSLVLKFLRKYEQIPFEMYSGLRIHTVKNQTLGEIFDLLHLGDTKTFEKKKKGDLVESLIGGCVLLSQRENATLFLLFAHALIDYIFYHSSYIYFNANPPKLVKEEIITDIQNWFKDKLFYYRSSLEKYQTDP 5f3w-a1-m1-cD_5f3w-a1-m1-cB Structure of the ATPrS-Mre11/Rad50-DNA complex Q58718 Q58718 3.11 X-RAY DIFFRACTION 98 0.992 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 358 359 5dny-a1-m1-cD_5dny-a1-m1-cB MSMILKEIRMNNFKSHVNSRIKFEKGIVAIIGENGSGKSSIFEAVFFALFGAGSNFNYDTIITKGKKSVYVELDFEVNGNNYKIIREYDSGRGGAKLYKNGKPYATTISAVNKAVNEILGVDRNMFLNSIYIKQGEIAKFLSLKPSEKLETVAKLLGIDEFEKCYQKMGEIVKEYEKRLERIEGELNYNLEKEKEKLTKFVEYLDKVRRIFGRNGFQAYLREKYVPLIQKYLNEAFSEFDLPYSFVELTKDFEVRVHAPNGVLTIDNLSGGEQIAVALSLRLAIANALIGNRVECIILDEPTVYLDENRRAKLAEIFRKVKSIPQMIIITHHRELEDVADVIINVKKDGNVSKVKING MSMILKEIRMNNFKSHVNSRIKFEKGIVAIIGENGSGKSSIFEAVFFALFGAGSNFNYDTIITKGKKSVYVELDFEVNGNNYKIIREYDSGRGGAKLYKNGKPYATTISAVNKAVNEILGVDRNMFLNSIYIKQGEIAKFLSLKPSEKLETVAKLLGIDEFEKCYQKMGEIVKEYEKRLERIEGEKEMSNLEKEKEKLTKFVEYLDKVRRIFGRNGFQAYLREKYVPLIQKYLNEAFSEFDLPYSFVELTKDFEVRVHAPNGVLTIDNLSGGEQIAVALSLRLAIANALIGNRVECIILDEPTVYLDENRRAKLAEIFRKVKSIPQMIIITHHRELEDVADVIINVKKDGNVSKVKING 5f42-a2-m2-cB_5f42-a2-m3-cB Activity and Crystal Structure of Francisella novicida UDP-N-Acetylglucosamine Acyltransferase A0Q7Y0 A0Q7Y0 2.06 X-RAY DIFFRACTION 67 1.0 401614 (Francisella tularensis subsp. novicida U112) 401614 (Francisella tularensis subsp. novicida U112) 276 276 5f42-a1-m1-cA_5f42-a1-m2-cA 5f42-a1-m1-cA_5f42-a1-m3-cA 5f42-a1-m2-cA_5f42-a1-m3-cA 5f42-a2-m1-cB_5f42-a2-m2-cB 5f42-a2-m1-cB_5f42-a2-m3-cB MIHSLAVVHESAKIADSAIIGPFCVIGKNVVIGENTELKSHVTIGDNAVIGKNNRIFQYASIGDDPIDYTYKKGDFSQVVIGDNNIIRECATIHGGTAKEIGVTSVGNNNIIMCYVHIGHDCKIGSYINLVNGVGLAGHVHIDDYAILSSNVGVHQFCRVGKHAFIAHAALVGKDVPPYLMVTAVNAGSTPCGINTEGLKRRGFTPEEMKKIKEVYKVLYRKGLMMKEAFEIIKEMAKEDKVLEPFVDVIGTSRRGILRDPNSSSVDKLAAALEHH MIHSLAVVHESAKIADSAIIGPFCVIGKNVVIGENTELKSHVTIGDNAVIGKNNRIFQYASIGDDPIDYTYKKGDFSQVVIGDNNIIRECATIHGGTAKEIGVTSVGNNNIIMCYVHIGHDCKIGSYINLVNGVGLAGHVHIDDYAILSSNVGVHQFCRVGKHAFIAHAALVGKDVPPYLMVTAVNAGSTPCGINTEGLKRRGFTPEEMKKIKEVYKVLYRKGLMMKEAFEIIKEMAKEDKVLEPFVDVIGTSRRGILRDPNSSSVDKLAAALEHH 5f4b-a1-m1-cB_5f4b-a1-m2-cB Structure of B. abortus WrbA-related protein A (WrpA) Q2YQ23 Q2YQ23 2.498 X-RAY DIFFRACTION 15 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 172 172 5f4b-a1-m1-cA_5f4b-a1-m2-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYAYREQMGNDVVRGGAPYGRQPSAQELDGARFQGRRVAEITAKLHG MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYAYREQMGNDVVRGGAPYGRQPSAQELDGARFQGRRVAEITAKLHG 5f4b-a1-m2-cB_5f4b-a1-m1-cA Structure of B. abortus WrbA-related protein A (WrpA) Q2YQ23 Q2YQ23 2.498 X-RAY DIFFRACTION 66 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 172 173 5f4b-a1-m1-cB_5f4b-a1-m2-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYAYREQMGNDVVRGGAPYGRQPSAQELDGARFQGRRVAEITAKLHG MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTAGAELALISTQWQMQHHGMIIVPLSYAYREQMGNDVVRGGAPYGRQPSAQELDGARFQGRRVAEITAKLHG 5f4b-a1-m2-cB_5f4b-a1-m2-cA Structure of B. abortus WrbA-related protein A (WrpA) Q2YQ23 Q2YQ23 2.498 X-RAY DIFFRACTION 28 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 172 173 5f4b-a1-m1-cB_5f4b-a1-m1-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYAYREQMGNDVVRGGAPYGRQPSAQELDGARFQGRRVAEITAKLHG MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTAGAELALISTQWQMQHHGMIIVPLSYAYREQMGNDVVRGGAPYGRQPSAQELDGARFQGRRVAEITAKLHG 5f4h-a1-m1-cB_5f4h-a1-m1-cC Archael RuvB-like Holiday junction helicase C3MQK6 C3MQK6 2.699 X-RAY DIFFRACTION 140 1.0 429572 (Sulfolobus islandicus L.S.2.15) 429572 (Sulfolobus islandicus L.S.2.15) 435 436 5f4h-a1-m1-cB_5f4h-a1-m1-cA 5f4h-a1-m1-cC_5f4h-a1-m1-cD 5f4h-a1-m1-cD_5f4h-a1-m1-cE 5f4h-a1-m1-cE_5f4h-a1-m1-cF 5f4h-a1-m1-cF_5f4h-a1-m1-cA MNDLMLDKSALLFGVSKYLEKGIITGNVLIHKSLLAELERESNDGLVSAEIALDEVKKLKDITERILVNFEIVGDDSKKGEANELSREYCLEKGCIIVTADETQKKICDAMGIQYNFLQPLKQGLSFESFFDDETMSLHIKEDTVPRAKKGKPGNWKFVNLSDKPMLSTDVRMIANEIINAVRLIKGSFVEIERRGSLIIQLGNYRVVITRPPLSDGWEITITRPVVRKRLEDYNLDERLIKRLEERAEGIIIAGAPGMGATTFAQALAEYYMRLGKIVKTIESPRDMHLPPEITQYSKNYAEIGELHDILLLSRPDYTVYDEMRNDEDFKLYVDLRLAGVGMVGVVHATSPIDAIHRFVNRVDIGTIPNILDTIIFINSGNVSKVYTLEMTVKVPAGLKEADLARPVVEIKDLATGNTEYEIYVFGEQTMIVPV MNDLMLDKSALLFGVSKYLEKGIITGNVLIHKSLLAELERESNDGLVSAEIALDEVKKLKDITERILVNFEIVGDDSKKGEANELSREYCLEKGCIIVTADETQKKICDAMGIQYNFLQPLKQGLSFESFFDDETMSLHIKEDTVPRAKKGKPGNWKFVNLSDKPMLSTDVRMIANEIINAVRLIKGSFVEIERRGSLIIQLGNYRVVITRPPLSDGWEITITRPVVRKRLEDYNLDERLIKRLEERAEGIIIAGAPGMGATTFAQALAEYYMRLGKIVKTIESPRDMHLPPEITQYSKNYAEIGELHDILLLSRPDYTVYDEMRNDEDFKLYVDLRLAGVGMVGVVHATSPIDAIHRFVNRVDIGTIPNILDTIIFINSGNVSKVYTLEMTVKVPAGLKEADLARPVVEIKDLATGNTEYEIYVFGEQTMIVPVN 5f4j-a1-m1-cA_5f4j-a1-m2-cA Protruding domain of GII.17 norovirus Saitama/T87 A0A076JB57 A0A076JB57 1.933 X-RAY DIFFRACTION 138 1.0 1529916 (Norovirus GII/Hu/JP/2002/GII.P16_GII.17/Saitama/T87) 1529916 (Norovirus GII/Hu/JP/2002/GII.P16_GII.17/Saitama/T87) 306 306 5zuq-a1-m1-cA_5zuq-a1-m2-cA KPFSLPILTISELTNSRFPAPIDSLFTAQNNNLNVQCQNGRCTLDGELQGTTQLLPSGICAFRGRLTADVDGSHDDRWHMQLTNLNGTPFDPTEDVPAPLGTPDFTGLLFGVASQRNVGSNPNTTRAHEAVISTTSSQFVPKLGSVNFGSTSTDFQLQQPTKFTPVGIKIESGHEFDQWALPRYSGHLTLNMNLAPPIAPNFPGEQLLFFRSNVPCAGGVSDGVIDCLLPQEWIQHFYQESAPSQSDVALIRYVNPDTGRTLFEAKLHRTGYITVAHSGDYPLVVPSNGYFRFDSWVNQFYSLAPM KPFSLPILTISELTNSRFPAPIDSLFTAQNNNLNVQCQNGRCTLDGELQGTTQLLPSGICAFRGRLTADVDGSHDDRWHMQLTNLNGTPFDPTEDVPAPLGTPDFTGLLFGVASQRNVGSNPNTTRAHEAVISTTSSQFVPKLGSVNFGSTSTDFQLQQPTKFTPVGIKIESGHEFDQWALPRYSGHLTLNMNLAPPIAPNFPGEQLLFFRSNVPCAGGVSDGVIDCLLPQEWIQHFYQESAPSQSDVALIRYVNPDTGRTLFEAKLHRTGYITVAHSGDYPLVVPSNGYFRFDSWVNQFYSLAPM 5f4l-a1-m1-cB_5f4l-a1-m1-cA HIV-1 gp120 complex with JP-III-048 C6G099 C6G099 2.7 X-RAY DIFFRACTION 17 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 335 336 3tgs-a1-m1-cA_3tgs-a1-m1-cB 3tgs-a2-m1-cA_3tgs-a2-m1-cB 5f4r-a1-m1-cA_5f4r-a1-m1-cC 5f4u-a1-m1-cA_5f4u-a1-m1-cB KTTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEMVLANVTENFNMWKNDMVEQMHEDIISLWDESLKPCVKLTGGSAITQACPKVSFDPIPLHYCAPAGFAILKCNNKTFNGTGPCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENLTNNAKTIIVHLNESVNIVCTRPNNIRQAHCNINESKWNNTLQKVGEELAKHFPSKTIKFEPSSGGDLEITTHSFNCRGEFFYCNTSDLFNGTYRNGTYNHTGRSSNGTITLQCKIKQIINMWQEVGRAIYAPPIEGEITCNSNITGLLLLRDDTETFRPGGGDMRDNWRSELYKYKVVE KTTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEMVLANVTENFNMWKNDMVEQMHEDIISLWDESLKPCVKLTGGSAITQACPKVSFDPIPLHYCAPAGFAILKCNNKTFNGTGPCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENLTNNAKTIIVHLNESVNIVCTRPNNIRQAHCNINESKWNNTLQKVGEELAKHFPSKTIKFEPSSGGDLEITTHSFNCRGEFFYCNTSDLFNGTYRNGTYNHTGRSSNGTITLQCKIKQIINMWQEVGRAIYAPPIEGEITCNSNITGLLLLRDDTETFRPGGGDMRDNWRSELYKYKVVEI 5f4z-a3-m1-cE_5f4z-a3-m2-cE The crystal structure of an epoxide hydrolase from Streptomyces carzinostaticus subsp. neocarzinostaticus Q84HB1 Q84HB1 1.82 X-RAY DIFFRACTION 198 1.0 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 167636 (Streptomyces carzinostaticus subsp. neocarzinostaticus) 381 381 5f4z-a1-m1-cA_5f4z-a1-m1-cB 5f4z-a2-m1-cC_5f4z-a2-m1-cD EPFRIVIPQADLDDLHRRLDATRWPSEIPGTGWSRGVPLDYLKELVGYWRDGYDWRAAEDRLNTVPQFTTEIDGTNVHFHIRSAEPDALPIITHGWPGSVAEFLDVIDPLTNPRAHGGDPADAFHLVIPSLPGFGFSGPTPEPGWNLPRVASAWAELRRLGYSRYAVQGGDLGAWTSLTLSGVDHEHVVGTHVNFLITPPSGDPADLAGLGEQDLARLQLLAEFGAEGSGYKIQSTRPQTLSYSLTDSPVGQLAWVVEKFEWGDTDKSPEDAVDRDRLLTNVIYWLTATAGSSAHFYYEISDVLPTAPTPPPPAPPLPTPLGVAVYPADSAKPVRRFAERAFPNIVHWAELERGGHFAALEQPGLFVSDLRAFARALRTSH EPFRIVIPQADLDDLHRRLDATRWPSEIPGTGWSRGVPLDYLKELVGYWRDGYDWRAAEDRLNTVPQFTTEIDGTNVHFHIRSAEPDALPIITHGWPGSVAEFLDVIDPLTNPRAHGGDPADAFHLVIPSLPGFGFSGPTPEPGWNLPRVASAWAELRRLGYSRYAVQGGDLGAWTSLTLSGVDHEHVVGTHVNFLITPPSGDPADLAGLGEQDLARLQLLAEFGAEGSGYKIQSTRPQTLSYSLTDSPVGQLAWVVEKFEWGDTDKSPEDAVDRDRLLTNVIYWLTATAGSSAHFYYEISDVLPTAPTPPPPAPPLPTPLGVAVYPADSAKPVRRFAERAFPNIVHWAELERGGHFAALEQPGLFVSDLRAFARALRTSH 5f51-a1-m1-cA_5f51-a1-m6-cA Structure of B. abortus WrbA-related protein A (apo) Q2YQ23 Q2YQ23 2.53 X-RAY DIFFRACTION 12 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 165 165 5f51-a1-m2-cA_5f51-a1-m5-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH 5f51-a1-m2-cA_5f51-a1-m6-cA Structure of B. abortus WrbA-related protein A (apo) Q2YQ23 Q2YQ23 2.53 X-RAY DIFFRACTION 43 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 165 165 5f51-a1-m1-cA_5f51-a1-m5-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH 5f51-a2-m1-cA_5f51-a2-m4-cA Structure of B. abortus WrbA-related protein A (apo) Q2YQ23 Q2YQ23 2.53 X-RAY DIFFRACTION 36 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 165 165 5f51-a2-m2-cA_5f51-a2-m3-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH 5f51-a2-m3-cA_5f51-a2-m4-cA Structure of B. abortus WrbA-related protein A (apo) Q2YQ23 Q2YQ23 2.53 X-RAY DIFFRACTION 58 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 165 165 5f51-a1-m1-cA_5f51-a1-m2-cA 5f51-a1-m5-cA_5f51-a1-m6-cA 5f51-a2-m1-cA_5f51-a2-m2-cA MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH MVKMLVLYYSAYGYMEQMAKAAAEGAREGGAEVTLKRVPELVPEEVAKASHYKIDQEVPIATPGELADYDAIIIGTATRYGMMASQMKNFLDQTGGLWAKGALINKVGSVMVSTGAELALISTQWQMQHHGMIIVPLSYRQPSAQELDGARFQGRRVAEITAKLH 5f5m-a1-m3-cB_5f5m-a1-m1-cA Crystal structure of Marburg virus nucleoprotein core domain Q6UY69 Q6UY69 2.902 X-RAY DIFFRACTION 19 0.982 482820 (Lake Victoria marburgvirus - Ozolin) 482820 (Lake Victoria marburgvirus - Ozolin) 334 341 5f5m-a1-m1-cB_5f5m-a1-m2-cA 5f5m-a1-m2-cB_5f5m-a1-m3-cA KKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPYSPLILALKTSTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIHQGVNLGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQVTLHPLVRTSVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSNVGEQYQQLREAAHDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITH KKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLSTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIHQGVNLVTHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLVNEQYQQLREAAHDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTE 5f5m-a1-m3-cB_5f5m-a1-m2-cA Crystal structure of Marburg virus nucleoprotein core domain Q6UY69 Q6UY69 2.902 X-RAY DIFFRACTION 69 0.982 482820 (Lake Victoria marburgvirus - Ozolin) 482820 (Lake Victoria marburgvirus - Ozolin) 334 341 5f5m-a1-m1-cB_5f5m-a1-m3-cA 5f5m-a1-m2-cB_5f5m-a1-m1-cA KKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPYSPLILALKTSTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIHQGVNLGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQVTLHPLVRTSVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSNVGEQYQQLREAAHDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITH KKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLSTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIHQGVNLVTHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLVNEQYQQLREAAHDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTE 5f5m-a1-m3-cB_5f5m-a1-m3-cA Crystal structure of Marburg virus nucleoprotein core domain Q6UY69 Q6UY69 2.902 X-RAY DIFFRACTION 77 0.982 482820 (Lake Victoria marburgvirus - Ozolin) 482820 (Lake Victoria marburgvirus - Ozolin) 334 341 5f5m-a1-m1-cB_5f5m-a1-m1-cA 5f5m-a1-m2-cB_5f5m-a1-m2-cA KKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPYSPLILALKTSTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIHQGVNLGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQVTLHPLVRTSVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSNVGEQYQQLREAAHDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITH KKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLSTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIHQGVNLVTHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLVNEQYQQLREAAHDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTE 5f5n-a1-m1-cA_5f5n-a1-m1-cB The structure of monooxygenase KstA11 in complex with NAD and its substrate A0A023GUL3 A0A023GUL3 1.304 X-RAY DIFFRACTION 68 1.0 1182970 (Micromonospora sp. TP-A0468) 1182970 (Micromonospora sp. TP-A0468) 289 289 5f5l-a1-m1-cA_5f5l-a1-m2-cA NRTILVTGATGTQGGATVRALLARGRPVRALVRDPGTDAARALAAAGVSLVTGDLNDQASLRAAMADVHGVFSVQTFMTPGGLGAELRQGRAVADAAAATGVRHVVYSSVGGADRASGVPHFETKWTIERHLRSLGVPTTVLRPTFFMDNFAAWGPQAVDGTLVVRLPLKPQTRVQLIAAEDIGVFAATAFDDPDTYVGAALELAGDELTGPELAARFGELAGMPARFEERSLDEAAADPWIPYSHEIAVMFEWFQTDGYAADIAALRARHPGLRTFADWLRAIGWRVP NRTILVTGATGTQGGATVRALLARGRPVRALVRDPGTDAARALAAAGVSLVTGDLNDQASLRAAMADVHGVFSVQTFMTPGGLGAELRQGRAVADAAAATGVRHVVYSSVGGADRASGVPHFETKWTIERHLRSLGVPTTVLRPTFFMDNFAAWGPQAVDGTLVVRLPLKPQTRVQLIAAEDIGVFAATAFDDPDTYVGAALELAGDELTGPELAARFGELAGMPARFEERSLDEAAADPWIPYSHEIAVMFEWFQTDGYAADIAALRARHPGLRTFADWLRAIGWRVP 5f5p-a2-m1-cE_5f5p-a2-m1-cF Molecular Basis for Shroom2 Recognition by Rock1 Q13464 Q13464 3.568 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 58 4l2w-a2-m1-cA_4l2w-a2-m1-cB 5f5p-a1-m1-cC_5f5p-a1-m1-cD MRELQDQLEAEQYFSTLYKTQVKELKEEIEEKNRENLKKIQELQNEKETLATQLDLA QMRELQDQLEAEQYFSTLYKTQVKELKEEIEEKNRENLKKIQELQNEKETLATQLDLA 5f5r-a2-m1-cB_5f5r-a2-m1-cA TRAP1N-ADPNP Q12931 Q12931 1.85 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 222 225 5f5r-a1-m1-cB_5f5r-a1-m1-cA PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNT PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNT 5f5w-a3-m1-cD_5f5w-a3-m1-cE Crystal structure of the alpha subunit of glycyl tRNA synthetase (GlyRS) from Aquifex aeolicus in complex with an analog of glycyl adenylate (Gly-SA) O67081 O67081 2.81 X-RAY DIFFRACTION 128 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 278 278 5f5w-a1-m1-cA_5f5w-a1-m2-cA 5f5w-a2-m1-cB_5f5w-a2-m1-cC FQDIIMTLHKFWAEKGCLIWQPYDVEVGAGTMNPATFLKVLGKKPWNVAYVEPSRRPQDGRYGENPNRLQHYYQFQVILKPAPRNPQEIYLESLERLGINPLEHDIRFVEDDWESPTLGAWGLGWEVWLDGMEITQFTYFQQAGGLDLDEISVEITYGLERIAMYIQDKDSVFDIEWKEGITYGEIFKRSEWEWSKYNFELADTDMLFQVYEMFEKESKRMVEEGLIFPAYDYLLKCSHVFNILDARGAISVQERARYIRRMNNLAREIAKLYLQVFE FQDIIMTLHKFWAEKGCLIWQPYDVEVGAGTMNPATFLKVLGKKPWNVAYVEPSRRPQDGRYGENPNRLQHYYQFQVILKPAPRNPQEIYLESLERLGINPLEHDIRFVEDDWESPTLGAWGLGWEVWLDGMEITQFTYFQQAGGLDLDEISVEITYGLERIAMYIQDKDSVFDIEWKEGITYGEIFKRSEWEWSKYNFELADTDMLFQVYEMFEKESKRMVEEGLIFPAYDYLLKCSHVFNILDARGAISVQERARYIRRMNNLAREIAKLYLQVFE 5f7c-a6-m1-cB_5f7c-a6-m1-cD Crystal structure of Family 31 alpha-glucosidase (BT_0339) from Bacteroides thetaiotaomicron Q8AAX3 Q8AAX3 2.6 X-RAY DIFFRACTION 197 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 611 623 LWKACKPTAVYEKDGDICVTVPFQKQLLANDMVADTAVPREEYTLIIRQYNIGITRLFLQFSERIRRVPLSVEKQGGKWILFTQDGTKRAVINVEEPALDRWSELLPDPQETLDITLYPDGKREIRLAAYDHFSPPRYDGLPIAFCKRTGKKERATLSFESRPDECFAGTGERFFKMDLSGQTLFLKNQDGQGVNNRRTYKNIPFYLSSRMYGTFYHTCAHSKLSLAGHSTRSVQFLSDQAMLDAFVIAGDTMEEILRGYRDLTGYPSMPPLWSFGVWMSRMTYFSADEVNEICDRMRAEHYPCDVIHLDTGWFRTDWAGTIDFTYPKATEWYKGLLKQLLDMGVTCIKTDFGENIHMDAVYKGMKPELLNNLYALLYQKAAYEITKEVTGDGIVWARAAWAGCQRYPLHWGGDSCSSWDGMAGSLKGGLHFGLSGFAFWSHDVPGFHTLPNFMNSIVAEDVYMRWTQFGVFTSHIRYHGTNKREPWHYPAIAPLVKKWWKLRYSLIPYIIEQSKLAVESGWPLLQALILHHPEDKLCWHIDDEYYFGNDFLVAPVMNSENRRDIYLPEGQWVNFFTGERLQGGRWLKEVYVPLEEMPVYVRENAVIPIYP SLWKACKPTAVYEKDGDICVTVPFQKQLLANDMVADTAVPREEYTLIIRQYNIGITRLFLMLQFSERIRRVPLSVEKQGGKWILFTQDGTKRAVINVEEPALDRWSELLPDPQETLDITLYPDGKREIRLAAYDHFSPPRYDGLPIAFCKRTGKKERATLSFESRPDECFAGTGERFFKMDLSGQTLFLKNQDGQGVNNRRTYKNIPFYLSSRMYGTFYHTCAHSKLSLAGHSTRSVQFLSDQAMLDAFVIAGDTMEEILRGYRDLTGYPSMPPLWSFGVWMSRMTYFSADEVNEICDRMRAEHYPCDVIHLDTGWFRTDWLCEWKFNEEAGTIDFTYPKATEWYKGLLKQLLDMGVTCIKTDFGENIHMDAVYKGMKPELLNNLYALLYQKAAYEITKEVTGDGIVWARAAWAGCQRYPLHWGGDSCSSWDGMAGSLKGGLHFGLSGFAFWSHDVPGFHTLPNFMNSIVAEDVYMRWTQFGVFTSHIRYHGTNKREPWHYPAIAPLVKKWWKLRYSLIPYIIEQSKLAVESGWPLLQALILHHPEDKLCWHIDDEYYFGNDFLVAPVMNSENRRDIYLPEGQWVNFFTGERLQGGRWLKEVYVPLEEMPVYVRENAVIPIYP 5f7q-a1-m1-cC_5f7q-a1-m1-cE ROK repressor Lmo0178 from Listeria monocytogenes bound to operator Q8YAF1 Q8YAF1 2.4 X-RAY DIFFRACTION 146 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 385 396 5f7q-a1-m1-cL_5f7q-a1-m1-cJ 5f7r-a1-m1-cE_5f7r-a1-m1-cA ILRKGNKDLIKDINRYTVLNLIREKGEITRTEIAKKCDFGMSTLTYILDDLQQEGIILEGAETSSTGGRRAKLVRFNKDYGFVVSVKVEEEQLLFALTDLNAEIIENTSIPFSSEKKPEEAIELIAKNVKKMCGNRDMNHLLGVGIAISGLVNRKKGTVIRSTMLGWENVALEAMLHAHFPDIPVYVDKNINCYTLAELWLGEGKQSNNFATVSVGAGLGLSVVINRQIYYGAQGGAGEFGHTTIQPGGYKCHCGQKGCLEMYASEFYFRNRGEELDFHFDKVAKSARAGDEMATELMGKMGEYLGYGIRNIINTFNPEKVIIVGEGLHHRDLFLTKIDEIASQNFFSGAGFETEITTTSLEDPAWLQGAALLVIHQLFQVPIYE DILRKGNKDLIKDINRYTVLNLIREKGEITRTEIAKKCDFGMSTLTYILDDLQQEGIILEGAETSSTGGRRAKLVRFNKDYGFVVSVKVEEEQLLFALTDLNAEIIENTSIPFSSEKKPEEAIELIAKNVKKMCGNRDMNHLLGVGIAISGLVNRKKGTVIRSTMLGWENVALEAMLHAHFPDIPVYVDKNINCYTLAELWLGEGKQSNNFATVSVGAGLGLSVVINRQIYYGAQGGAGEFGHTTIQPGGYKCHCGQKGCLEMYASEFYFRNRGEELKEAYPTSELNDFHFDKVAKSARAGDEMATELMGKMGEYLGYGIRNIINTFNPEKVIIVGEGLHHRDLFLTKIDEIASQNFFSGAGFETEITTTSLEDPAWLQGAALLVIHQLFQVPIYE 5f8c-a2-m1-cC_5f8c-a2-m1-cB Rv2258c-unbound O53532 O53532 1.83 X-RAY DIFFRACTION 291 0.994 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 353 362 5f8c-a1-m1-cA_5f8c-a1-m2-cA 5f8e-a1-m1-cB_5f8e-a1-m1-cA 5f8e-a2-m1-cC_5f8e-a2-m2-cC 5f8f-a1-m1-cA_5f8f-a1-m1-cB 5f8f-a2-m1-cC_5f8f-a2-m2-cC METTEEFGNRFVAAIDSAGLAILVSVGHQTGLLDTMAGLPPATSMEIAEAAGLEERYVREWLGGMTTGQIVEYDAGSSTYSLPAHRAGMLTRAAGPDNLAVIAQFVSLLGEVEQKVIRCFREGGGVPYSEYPRFHKLMAEMSGMVFDAALIDVVLPLVDGLPDRLRSGADVADFGCGSGRAVKLMAQAFGASRFTGIDFSDEAVAAGTEEAARLGLANATFERHDLAELDKVGAYDVITVFDAIHDQAQPARVLQNIYRALRPGGVLLMVDIKASSQLEDNVGVPLSTYLYTTSLMHMTVSLALDGAGLGTVWGRQLATSMLADAGFTDVTVAEIESDVLNNYYIARKLEHHH HSSGLVPRGSHMETTEEFGNRFVAAIDSAGLAILVSVGHQTGLLDTMAGLPPATSMEIAEAAGLEERYVREWLGGMTTGQIVEYDAGSSTYSLPAHRAGMLTRAAGPDNLAVIAQFVSLLGEVEQKVIRCFREGGGVPYSEYPRFHKLMAEMSGMVFDAALIDVVLPLVDGLPDRLRSGADVADFGCGSGRAVKLMAQAFGASRFTGIDFSDEAVAAGTEEAARLGLANATFERHDLAELDKVGAYDVITVFDAIHDQAQPARVLQNIYRALRPGGVLLMVDIKASSQLEDNVGVPLSTYLYTTSLMHMTVSLALDGAGLGTVWGRQLATSMLADAGFTDVTVAEIESDVLNNYYIARKLEH 5f8s-a1-m1-cA_5f8s-a1-m1-cB Crystal structure of a Crenomytilus grayanus lectin H2FH31 H2FH31 1.08 X-RAY DIFFRACTION 32 1.0 151218 (Crenomytilus grayanus) 151218 (Crenomytilus grayanus) 149 149 5f8w-a1-m1-cA_5f8w-a1-m1-cB 5f8y-a1-m1-cA_5f8y-a1-m1-cB 5f90-a1-m1-cB_5f90-a1-m1-cA TTFLIKHKASGKFLHPYGGSSNPANNTKLVLHSDIHERMYFQFDVVDERWGYIKHVASGKIVHPYGGQANPPNETNMVLHQDRHDRALFAMDFFNDNIMHKGGKYIHPKGGSPNPPNNTETVIHGDKHAAMEFIFVSPKNKDKRVLVYA TTFLIKHKASGKFLHPYGGSSNPANNTKLVLHSDIHERMYFQFDVVDERWGYIKHVASGKIVHPYGGQANPPNETNMVLHQDRHDRALFAMDFFNDNIMHKGGKYIHPKGGSPNPPNNTETVIHGDKHAAMEFIFVSPKNKDKRVLVYA 5f8v-a4-m1-cH_5f8v-a4-m1-cG Crystal structure of PLP bound phosphoserine aminotransferase (PSAT) from Trichomonas vaginalis A2DW27 A2DW27 2.14 X-RAY DIFFRACTION 213 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 365 366 5f8v-a1-m1-cE_5f8v-a1-m1-cA 5f8v-a2-m1-cC_5f8v-a2-m1-cB 5f8v-a3-m1-cF_5f8v-a3-m1-cD RAYNFSAGPAAVPLECLERAAAEMTNWRNSGMSVIEVSHRGKHWMEEQKEATERLRTLLQVPENFNILFVAGGASLQFSAIPFNFIGEHKAVDYLCTGTWSKKAFDECKRLAFPGVTVNSVAGNPPANPVEVPARDTWKLSEDAAYFYYCDNETIQGIEFQQFPDVPAPLIIDMSSNFLSRPITQWEKVGCIFACAQNFGLAGMSVVIIRKDMLERPVKPFCPITMDYRIQVKNNCMYNTPPTFAIYFANHIFKWIEEKGGLAAMDALNKEKAKKVYEAIDSNPNFVNRIKPEWRSRMNMPFFRPDGYENKDLDADAKFVNFCTQRKLLTLKGHVSVGGFRASCYNACPMEAVDALVQAMKEWPG RAYNFSAGPAAVPLECLERAAAEMTNWRNSGMSVIEVSHRGKHWMEEQKEATERLRTLLQVPENFNILFVAGGASLQFSAIPFNFIGEHKAVDYLCTGTWSKKAFDECKRLAFPGVTVNSVAGNPPANPVEVPARDTWKLSEDAAYFYYCDNETIQGIEFQQFPDVPAPLIIDMSSNFLSRPITQWEKVGCIFACAQNFGLAGMSVVIIRKDMLERPVKPFCPITMDYRIQVKNNCMYNTPPTFAIYFANHIFKWIEEKGGLAAMDALNKEKAKKVYEAIDSNPNFVNRIKPEWRSRMNMPFFRPDGYENKDLDADAKFVNFCTQRKLLTLKGHVSVGGFRASCYNACPMEAVDALVQAMKEWPGF 5f9k-a1-m1-cC_5f9k-a1-m1-cB Dictyostelium discoideum dUTPase at 2.2 Angstrom Q54BW5 Q54BW5 2.179 X-RAY DIFFRACTION 111 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 128 130 5f9k-a1-m1-cA_5f9k-a1-m1-cB 5f9k-a1-m1-cA_5f9k-a1-m1-cC GSHMFKVKKLSDKAIIPQRGSKGAAGYDLSSAHELVVPAHGKALAMTDLQIAIPDGTYGRIAPRSGLAWKNFIDCGAGVIDSDYRGNVGVVLFNHSDVDFKVAVGDRVAQLIFERIVTPEPLEVDEID GSHMFKVKKLSDKAIIPQRGSKGAAGYDLSSAHELVVPAHGKALAMTDLQIAIPDGTYGRIAPRSGLAWKNFIDCGAGVIDSDYRGNVGVVLFNHSDVDFKVAVGDRVAQLIFERIVTPEPLEVDEIDET 5f9z-a3-m1-cB_5f9z-a3-m1-cA Crystal Structure of Prolyl-tRNA Synthetase from Cryptosporidium parvum complexed with Halofuginone and AMPPNP 2.4 X-RAY DIFFRACTION 146 0.986 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 488 493 5f9y-a3-m1-cB_5f9y-a3-m1-cA 5xio-a1-m1-cB_5xio-a1-m1-cA SLLGITADKITSFADWYSQVIVKSEMIEYYDISGCYILRPWSYFIWETIQSVFDQKIKQHDVQNAYFPIFVTQKKLETEKDHVEGFSPEVAWVTKSGKSDLAEPIAIRPTSETIMYPYFAKWIRSHRDLPLKINQWTSIVRWEFKHPTPFIRTREFLWQEGHTAHSTRKEALEMVDIILNEYASIYEDLLATPVVKGTKSENEKFPGGDITKSIEGFIPEIGRAVQAATSHLLGQNFSKMFGVEFEDEKGNKEYAHQTSWGLTTRAIGVMIMTHGDNKGLVLPPKVAPVQVIIIPIIFKTVITEEQKKICNEVECILKKAGVRVKIDDRSNYTPGWKYNHWEVKGVCLRFEVGPRDIEKRSVRVVVRDNMEKMDIPISELESKIPKLLEEFQNRLLFKAKQRQNESIIRVDTFDKVMDTLNQKKMVIAPWCEDVSCEEEIKKETARLSGAMKSLCIPNDQIFKIEEGKTKCFFCDKLAKKFTLFGRSY AHHHHHHSKENESLLGITADKITSFADWYSQVIVKSEMIEYYDISGCYILRPWSYFIWETIQSVFDQKIKQHDVQNAYFPIFVTQKKLETEGFSPEVAWVTKSGKSDLAEPIAIRPTSETIMYPYFAKWIRSHRDLPLKINQWTSIVRWEFKHPTPFIRTREFLWQEGHTAHSTRKEALEMVDIILNEYASIYEDLLATPVVKGTKSENEKFPGGDITKSIEGFIPEIGRAVQAATSHLLGQNFSKMFGVEFEDEKGNKEYAHQTSWGLTTRAIGVMIMTHGDNKGLVLPPKVAPVQVIIIPIIFKTVITEEQKKICNEVECILKKAGVRVKIDDRSNYTPGWKYNHWEVKGVCLRFEVGPRDIEKRSVRVVVRDNMEKMDIPISELESKIPKLLEEFQNRLLFKAKQRQNESIIRVDTFDKVMDTLNQKKMVIAPWCEDVSCEEEIKKETARLAMKSLCIPNDQIFKIEEGKTKCFFCDKLAKKFTLFGRSY 5fa8-a2-m1-cA_5fa8-a2-m2-cA SAM complex with aKMT from the hyperthermophilic archaeon Sulfolobus islandicu C3MWA1 C3MWA1 1.3 X-RAY DIFFRACTION 38 1.0 427317 (Sulfolobus islandicus M.14.25) 427317 (Sulfolobus islandicus M.14.25) 152 152 YVPHVPYVPTPEKVVRRLEIAKVSQDDIVYDLGCGDGRIIITAAKDFNVKKAVGVEINDERIREALANIEKNGVTGRASIVKGNFFEVDISEATVVTFLLTNVNELKPKLEKELKPGTRVVSHEFEIRGWNPKEVIKVEDGNNHTVYLYVIG YVPHVPYVPTPEKVVRRLEIAKVSQDDIVYDLGCGDGRIIITAAKDFNVKKAVGVEINDERIREALANIEKNGVTGRASIVKGNFFEVDISEATVVTFLLTNVNELKPKLEKELKPGTRVVSHEFEIRGWNPKEVIKVEDGNNHTVYLYVIG 5fa9-a1-m1-cA_5fa9-a1-m1-cB Bifunctional Methionine Sulfoxide Reductase AB (MsrAB) from Treponema denticola Q73PT7 Q73PT7 2.302 X-RAY DIFFRACTION 56 1.0 243275 (Treponema denticola ATCC 35405) 243275 (Treponema denticola ATCC 35405) 303 304 MIKEIYLAGGSFWGVEGYFRQIPGVKETDTGYANSDHAETVKIVYDSSVVSLQELLAHYFRIIDPTSLNKQGNDAGRQYRTGIYYVDDSMIKEINSFVKFMQKKYSRPIVVEVEKLKHFILAEDYHQDYLQKNPGGYCHIDLTLALKPLYDESKFKVPSKEELKKSLKPIQFSVTQEKATERPFTSEYDKFDAEGIYVDITTGKPLFSSLNKYDAGCGWPSFTKAITTQALQYLEDKSLGMNRTEVVSKTGGAHLGHVFDDGPADAGGLRYSINGAALRFIPYDKMEKEGYGDYLPYVKPTGN MIKEIYLAGGSFWGVEGYFRQIPGVKETDTGYANSDHAETVKIVYDSSVVSLQELLAHYFRIIDPTSLNKQGNDAGRQYRTGIYYVDDSMIKEINSFVKFMQKKYSRPIVVEVEKLKHFILAEDYHQDYLQKNPGGYCHIDLTLALKPLYDESKFKVPSKEELKKSLKPIQFSVTQEKATERPFTSEYDKFDAEGIYVDITTGKPLFSSLNKYDAGCGWPSFTKAITTQALQYLEDKSLGMNRTEVVSKTGGAHLGHVFDDGPADAGGLRYSINGAALRFIPYDKMEKEGYGDYLPYVKPTGNF 5fag-a2-m1-cC_5fag-a2-m1-cD Alanine Racemase from Streptomyces coelicolor A3(2) with Bound Propionate Inhibitor O86786 O86786 1.51 X-RAY DIFFRACTION 230 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 381 381 5fac-a1-m1-cB_5fac-a1-m1-cA 5fac-a2-m1-cD_5fac-a2-m1-cC 5fag-a1-m1-cB_5fag-a1-m1-cA 5faj-a1-m1-cB_5faj-a1-m1-cA 5faj-a2-m1-cC_5faj-a2-m1-cD ADAVLRARAEIDLAALRANVRALRERAPGAALMAVVKADAYGHGAIPCARAAVAAGATWLGTATPQEALALRAAEPGLPDDVRIMCWLWTPGGPWREAVEARLDVSVSAMWAMEEVTGAARAAGVPARVQLADTGLGRGGCQPGADWERLVGAALRAEEEGLLRVTGLWSHFACADEPGHPSIAAQLTRFREMTAYAEQRGLRPEVRHIANSPATLTLPDAHFDLVRPGIAMYGVSPSPEIGTPADFGLRPVMTLAASLALVKQVPGGHGVSYGHHYTTPGETTLGLVPLGYADGIPRHASSSGPVLVDGKWRTVAGRIAMDQFVVDLGGDRPEPGAEAVLFGPGDRGEPTAEDWAQAAGTIAYEIVTRIGSRVPRVYVNE ADAVLRARAEIDLAALRANVRALRERAPGAALMAVVKADAYGHGAIPCARAAVAAGATWLGTATPQEALALRAAEPGLPDDVRIMCWLWTPGGPWREAVEARLDVSVSAMWAMEEVTGAARAAGVPARVQLADTGLGRGGCQPGADWERLVGAALRAEEEGLLRVTGLWSHFACADEPGHPSIAAQLTRFREMTAYAEQRGLRPEVRHIANSPATLTLPDAHFDLVRPGIAMYGVSPSPEIGTPADFGLRPVMTLAASLALVKQVPGGHGVSYGHHYTTPGETTLGLVPLGYADGIPRHASSSGPVLVDGKWRTVAGRIAMDQFVVDLGGDRPEPGAEAVLFGPGDRGEPTAEDWAQAAGTIAYEIVTRIGSRVPRVYVNE 5fai-a1-m1-cA_5fai-a1-m2-cA EMG1 N1-Specific Pseudouridine Methyltransferase Q92979 Q92979 1.8 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 7mq8-a1-m1-cSJ_7mq8-a1-m1-cSK 7mq9-a1-m1-cSJ_7mq9-a1-m1-cSK 7mqa-a1-m1-cSJ_7mqa-a1-m1-cSK NKIGGRRLIVVLEGASLETVKVGKTYELLNCDKHKSILLKNGRDPGEARPDITHQSLLMLMDSPLNRAGLLQVYIHTQKNVLIEVNPQTRIPRTFDRFCGLMVQLLHKLSVRAADGPQKLLKVIKNPVSDHFPVGCMKVGTSFSIPVVSDVRELVPSSDPIVFVVGAFAHGKVSVEYTEKMVSISNYPLSAALTCAKLTTAFEEVWGVI NKIGGRRLIVVLEGASLETVKVGKTYELLNCDKHKSILLKNGRDPGEARPDITHQSLLMLMDSPLNRAGLLQVYIHTQKNVLIEVNPQTRIPRTFDRFCGLMVQLLHKLSVRAADGPQKLLKVIKNPVSDHFPVGCMKVGTSFSIPVVSDVRELVPSSDPIVFVVGAFAHGKVSVEYTEKMVSISNYPLSAALTCAKLTTAFEEVWGVI 5fb3-a1-m1-cC_5fb3-a1-m1-cD Structure of glycerophosphate dehydrogenase in complex with NADPH A3MTM6 A3MTM6 2.45 X-RAY DIFFRACTION 84 1.0 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 336 336 5fb3-a1-m1-cB_5fb3-a1-m1-cA 5fb3-a1-m1-cE_5fb3-a1-m1-cF KVERFEVPRTIIFGPGALEKTPEVIPPSGRVLIITGKSSTRKYAERVAELLKQNCEIISYDQVELEKPGFDLVIGIGGGRPLDMAKVYSYIHKKPFVAIPTSASHDGIASPYVSFSLTQRFSKYGKISSSPVAIIADTSIILSAPSRLLKAGIGDLLGKIIAVRDWQLAHRLKGEEYSEYAAHLSLTSYKIAVGNAQKIKNFIREEDVRVLVKALIGCGVAMGIAGSSRPCSGSEHLFAHAIEVRVEKEDEVVHGELVALGTIIMAYLHGINWRRIKRIADIIGLPTSLRQANIDVDLALEALTTAHTLRPDRYTILGDGLSREAAKRALEDVELI KVERFEVPRTIIFGPGALEKTPEVIPPSGRVLIITGKSSTRKYAERVAELLKQNCEIISYDQVELEKPGFDLVIGIGGGRPLDMAKVYSYIHKKPFVAIPTSASHDGIASPYVSFSLTQRFSKYGKISSSPVAIIADTSIILSAPSRLLKAGIGDLLGKIIAVRDWQLAHRLKGEEYSEYAAHLSLTSYKIAVGNAQKIKNFIREEDVRVLVKALIGCGVAMGIAGSSRPCSGSEHLFAHAIEVRVEKEDEVVHGELVALGTIIMAYLHGINWRRIKRIADIIGLPTSLRQANIDVDLALEALTTAHTLRPDRYTILGDGLSREAAKRALEDVELI 5fb3-a1-m1-cE_5fb3-a1-m1-cA Structure of glycerophosphate dehydrogenase in complex with NADPH A3MTM6 A3MTM6 2.45 X-RAY DIFFRACTION 51 0.997 410359 (Pyrobaculum calidifontis JCM 11548) 410359 (Pyrobaculum calidifontis JCM 11548) 334 336 5fb3-a1-m1-cB_5fb3-a1-m1-cD 5fb3-a1-m1-cC_5fb3-a1-m1-cF KKVERFEVPRTIIFGPGALEKTPEVIPPSGRVLIITGKSSTRKYAERVAELLKQNCEIISYDQVELEKPGFDLVIGIGGGRPLDMAKVYSYIHKKPFVAIPTSASHDGIASPYVSFSLTQRFSKYGKISSSPVAIIADTSIILSAPSRLLKAGIGDLLGKIIAVRDWQLAHRLKGEEYSEYAAHLSLTSYKIAVGNAQKIKNFIREEDVRVLVKALIGCGVAMGIAGSSRPCSGSEHLFAHAIEVRVDEVVHGELVALGTIIMAYLHGINWRRIKRIADIIGLPTSLRQANIDVDLALEALTTAHTLRPDRYTILGDGLSREAAKRALEDVELI KVERFEVPRTIIFGPGALEKTPEVIPPSGRVLIITGKSSTRKYAERVAELLKQNCEIISYDQVELEKPGFDLVIGIGGGRPLDMAKVYSYIHKKPFVAIPTSASHDGIASPYVSFSLTQRFSKYGKISSSPVAIIADTSIILSAPSRLLKAGIGDLLGKIIAVRDWQLAHRLKGEEYSEYAAHLSLTSYKIAVGNAQKIKNFIREEDVRVLVKALIGCGVAMGIAGSSRPCSGSEHLFAHAIEVRVEKEDEVVHGELVALGTIIMAYLHGINWRRIKRIADIIGLPTSLRQANIDVDLALEALTTAHTLRPDRYTILGDGLSREAAKRALEDVELI 5fb5-a1-m3-cA_5fb5-a1-m3-cB Crystal structure of the bacteriophage phi29 tail knob protein gp9 P04331 P04331 3.5 X-RAY DIFFRACTION 290 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 564 576 5fb5-a1-m1-cA_5fb5-a1-m1-cB 5fb5-a1-m1-cA_5fb5-a1-m3-cB 5fb5-a1-m2-cA_5fb5-a1-m1-cB 5fb5-a1-m2-cA_5fb5-a1-m2-cB 5fb5-a1-m3-cA_5fb5-a1-m2-cB SGTNVRILADVPFSNDYKNTRWFTSSSNQYNWFNSKSRVYEMSKVTFMGFRENKPYVSVSLPIDKLYSASYIMFQNADYGNKWFYAFVTELEFKNSAVTYVHFEIDVLQTWMFDIKFQESFIVREHVKLWNDDGTPTINTIDEGLSYGSEYDIVSVENHKPYDDMMFLVIISKSIMHGTPGEEESRLNDINASLNGMPQPLCYYIHPFYKDGKVPKTYIGDNNANLSPIVNMLTNIFSQKSAVNDIVNMYVTDYIGLKLDYKNGDKELKLDKDMFEQAGIADDKHGNVDTIFVKKIPDYEALEIDTGDKWGGFTKDQESKLMMYPYCVTEITDFKGNHMNLKTEYINNSKLKIQVRGSLGVSNKVAYSVQDYNADSALSGGNRLTASLDSSLINNNPNDIAILNDYLSAYLQGNKNSLENQKSSILFNGIMSTAGNAVLQMQAMQAKQADIANIPPQLTKMGGNTAFDYGNGYRGVYVIKKQLKAEYRRSLSSFFHKYGYKINRVKKPNLRTRKAFNYVQTKDCFISGDINNNDLQEIRTIFDNGITLWHTDNIGNYSVENELR PLSGTNVRILADVPFSNDYKNTRWFTSSSNQYNWFNSKSRVYEMSKVTFMGFRENKPYVSVSLPIDKLYSASYIMFQNADYGNKWFYAFVTELEFKNSAVTYVHFEIDVLQTWMFDIKFQESFIVREHVKLWNDDGTPTINTIDEGLSYGSEYDIVSVENHKPYDDMMFLVIISKSIMHGTPGEEESRLNDINASLNGMPQPLCYYIHPFYKDGKVPKTYIGDNNANLSPIVNMLTNIFSQKSAVNDIVNMYVTDYIGLKLDYKNGDKELKLDKDMFEQAGIADDKHGNVDTIFVKKIPDYEALEIDTGDKWGGFTKDQESKLMMYPYCVTEITDFKGNHMNLKTEYINNSKLKIQVRGSLGVSNKVAYSVQDYNADSALSGGNRLTASLDSSLINNNPNDIAILNDYLSAYLQGNKNSLENQKSSILFNGIMGMASSVTGMTSTAGNAVLQMQAMQAKQADIANIPPQLTKMGGNTAFDYGNGYRGVYVIKKQLKAEYRRSLSSFFHKYGYKINRVKKPNLRTRKAFNYVQTKDCFISGDINNNDLQEIRTIFDNGITLWHTDNIGNYSVENELR 5fb7-a1-m1-cA_5fb7-a1-m1-cB Ligand binding domain 2 of Penicillium marneffei MP1 protein complexed with multiple arachidonic acids A0A093VKV7 A0A093VKV7 1.5 X-RAY DIFFRACTION 19 1.0 1077442 (Talaromyces marneffei PM1) 1077442 (Talaromyces marneffei PM1) 151 151 DISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT DISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT 5fb7-a1-m1-cB_5fb7-a1-m1-cD Ligand binding domain 2 of Penicillium marneffei MP1 protein complexed with multiple arachidonic acids A0A093VKV7 A0A093VKV7 1.5 X-RAY DIFFRACTION 36 1.0 1077442 (Talaromyces marneffei PM1) 1077442 (Talaromyces marneffei PM1) 151 155 5fb7-a1-m1-cA_5fb7-a1-m1-cC DISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT KVKRDISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT 5fb7-a1-m1-cC_5fb7-a1-m1-cD Ligand binding domain 2 of Penicillium marneffei MP1 protein complexed with multiple arachidonic acids A0A093VKV7 A0A093VKV7 1.5 X-RAY DIFFRACTION 41 1.0 1077442 (Talaromyces marneffei PM1) 1077442 (Talaromyces marneffei PM1) 155 155 KVKRDISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT KVKRDISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT 5fbm-a1-m1-cA_5fbm-a1-m1-cB Crystal Structure of Histone Like Protein (HLP) from Streptococcus mutans Refined to 1.9 A Resolution Q9XB21 Q9XB21 1.9 X-RAY DIFFRACTION 152 0.988 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 83 83 ANKQDLIAKVAEATELTKKDSAAAVDAVFSAVSSYLAKGEKVQLIGFGNFEVRERAARKEIKIKASKVPAFKAGKALKDAVKH ANKQDLIAKVAEATELTKKDSAAAVDAVFSAVSSYLAKGEKVQLIGFGNFEVRERAARKEEIKIKASKVPAFKAGKALKDAVK 5fc9-a1-m1-cA_5fc9-a1-m1-cD Novel Purple Cupredoxin from Nitrosopumilus maritimus A9A2G4 A9A2G4 1.6 X-RAY DIFFRACTION 58 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 95 95 5fc9-a1-m1-cB_5fc9-a1-m1-cC DAQIIIPNGNYDVTGAGFYSPLNLEIPVGTTVTWTNDDSVPHNIQSIDVNGKVIQLFNSPPLNTGDRFEHVFEEEGVYKYYCSFHPWRVGLVTVS DAQIIIPNGNYDVTGAGFYSPLNLEIPVGTTVTWTNDDSVPHNIQSIDVNGKVIQLFNSPPLNTGDRFEHVFEEEGVYKYYCSFHPWRVGLVTVS 5fc9-a1-m1-cB_5fc9-a1-m1-cD Novel Purple Cupredoxin from Nitrosopumilus maritimus A9A2G4 A9A2G4 1.6 X-RAY DIFFRACTION 11 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 95 95 DAQIIIPNGNYDVTGAGFYSPLNLEIPVGTTVTWTNDDSVPHNIQSIDVNGKVIQLFNSPPLNTGDRFEHVFEEEGVYKYYCSFHPWRVGLVTVS DAQIIIPNGNYDVTGAGFYSPLNLEIPVGTTVTWTNDDSVPHNIQSIDVNGKVIQLFNSPPLNTGDRFEHVFEEEGVYKYYCSFHPWRVGLVTVS 5fc9-a1-m1-cC_5fc9-a1-m1-cD Novel Purple Cupredoxin from Nitrosopumilus maritimus A9A2G4 A9A2G4 1.6 X-RAY DIFFRACTION 18 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 95 95 5fc9-a1-m1-cA_5fc9-a1-m1-cB DAQIIIPNGNYDVTGAGFYSPLNLEIPVGTTVTWTNDDSVPHNIQSIDVNGKVIQLFNSPPLNTGDRFEHVFEEEGVYKYYCSFHPWRVGLVTVS DAQIIIPNGNYDVTGAGFYSPLNLEIPVGTTVTWTNDDSVPHNIQSIDVNGKVIQLFNSPPLNTGDRFEHVFEEEGVYKYYCSFHPWRVGLVTVS 5fcd-a3-m2-cB_5fcd-a3-m3-cB Crystal structure of MccD protein Q83Y56 Q83Y56 2.1 X-RAY DIFFRACTION 15 1.0 562 (Escherichia coli) 562 (Escherichia coli) 224 224 5fcd-a3-m1-cA_5fcd-a3-m2-cA 5fcd-a3-m1-cA_5fcd-a3-m3-cA 5fcd-a3-m1-cB_5fcd-a3-m2-cB 5fcd-a3-m1-cB_5fcd-a3-m3-cB 5fcd-a3-m2-cA_5fcd-a3-m3-cA NTPPGAEYTIDYWIKHGCINKKSHLLDLACSTGFSSRECFKKEGASAEGIDISESAVVANEKAKKLKANNLLKYYVADACDLPFEDNTFTHVLGGCNFAFIQNRLIALNETHRCLNHGSCISNFYYRRKISDKLINDVYNAINFRPNPLWTLEYWHQFFSERFTLVSEENHEESQSEDELKADIYDYIFNRNQNVFFERFLKIRRPLNIQRDYQGVTLQIWRKK NTPPGAEYTIDYWIKHGCINKKSHLLDLACSTGFSSRECFKKEGASAEGIDISESAVVANEKAKKLKANNLLKYYVADACDLPFEDNTFTHVLGGCNFAFIQNRLIALNETHRCLNHGSCISNFYYRRKISDKLINDVYNAINFRPNPLWTLEYWHQFFSERFTLVSEENHEESQSEDELKADIYDYIFNRNQNVFFERFLKIRRPLNIQRDYQGVTLQIWRKK 5fcd-a3-m3-cA_5fcd-a3-m3-cB Crystal structure of MccD protein Q83Y56 Q83Y56 2.1 X-RAY DIFFRACTION 19 0.996 562 (Escherichia coli) 562 (Escherichia coli) 224 224 5fcd-a3-m1-cA_5fcd-a3-m1-cB 5fcd-a3-m2-cA_5fcd-a3-m2-cB DNTPPGAEYTIDYWIKHGCINKKSHLLDLACSTGFSSRECFKKEGASAEGIDISESAVVANEKAKKLKANNLLKYYVADACDLPFEDNTFTHVLGGCNFAFIQNRLIALNETHRCLNHGSCISNFYYRRKISDKLINDVYNAINFRPNPLWTLEYWHQFFSERFTLVSEENHEESQSEDELKADIYDYIFNRQNVFFERFLKIRRPLNIQRDYQGVTLQIWRKK NTPPGAEYTIDYWIKHGCINKKSHLLDLACSTGFSSRECFKKEGASAEGIDISESAVVANEKAKKLKANNLLKYYVADACDLPFEDNTFTHVLGGCNFAFIQNRLIALNETHRCLNHGSCISNFYYRRKISDKLINDVYNAINFRPNPLWTLEYWHQFFSERFTLVSEENHEESQSEDELKADIYDYIFNRNQNVFFERFLKIRRPLNIQRDYQGVTLQIWRKK 5fcl-a3-m1-cE_5fcl-a3-m1-cF Crystal structure of Cas1 from Pectobacterium atrosepticum Q6D0X0 Q6D0X0 2.7 X-RAY DIFFRACTION 145 0.983 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 301 309 5fcl-a1-m1-cA_5fcl-a1-m1-cB 5fcl-a2-m1-cC_5fcl-a2-m1-cD TILHSKRANVYYLQHCRILVNGGRVEYVTEEGNQSLYWNIPIANTSVVMLGTGTSVTQAAMREFARAGVMIGFCGGGGTPLFAANEAEPTEYLQDWVSFWFDDEKRLAAAIAFQQVRITQIRQHWLGSRLSRESRFTFKSEHLQALLDRYQKGLTDCRTSNDVLVQEAMMTKALYRLAANAVSYGDFTRAKRGGGTDLANRFLDHGNYLAYGLAAVSTWVLGLPHGLAVLHGKTRRGGLVFDVADLIKDALVLPQAFIAAMEGEDEQEFRQRCLTAFQQSEALDVMIGSLQDVASKLSQVV ILHSKRANVYYLQHCRILVNGGRVEYVTEEGNQSLYWNIPIANTSVVMLGTGTSVTQAAMREFARAGVMIGFCGGGGTPLFAEVAVSWLSPQSEYRPTEYLQDWVSFWFDDEKRLAAAIAFQQVRITQIRQHWLGSRLSRESRFTFKSEHLQALLDRYQKGLTDCRTSNDVLVQEAMMTKALYRLAANAVSYGDFTRAKRGGGTDLANRFLDHGNYLAYGLAAVSTWVLGLPHGLAVLHGKTRRGGLVFDVADLIKDALVLPQAFIAAMEGEDEQEFRQRCLTAFQQSEALDVMIGSLQDVASKLSQVV 5fcm-a1-m1-cB_5fcm-a1-m1-cA CrBld10-N 1-70 A8ID55 A8ID55 2.229 X-RAY DIFFRACTION 71 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 63 68 DVDRTLAVLRRKLEALGYSDPLEPASLQLVQKLVEDLVHTTDSYTAVKQQCAKQAQEIAAFDT MAIDVDRTLAVLRRKLEALGYSDPLEPASLQLVQKLVEDLVHTTDSYTAVKQQCAKQAQEIAAFDTRL 5fcm-a2-m1-cD_5fcm-a2-m1-cC CrBld10-N 1-70 A8ID55 A8ID55 2.229 X-RAY DIFFRACTION 54 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 66 70 AIDVDRTLAVLRRKLEALGYSDPLEPASLQLVQKLVEDLVHTTDSYTAVKQQCAKQAQEIAAFDTR MAIDVDRTLAVLRRKLEALGYSDPLEPASLQLVQKLVEDLVHTTDSYTAVKQQCAKQAQEIAAFDTRLES 5fcn-a1-m1-cB_5fcn-a1-m1-cA microtubule binding domain of human CEP135 Q66GS9 Q66GS9 1.8 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 54 GSNNELYLELMKLREHSDQHVKELKTSLKKCARETADLKFLNNQYAHKLKLLE GSNNELYLELMKLREHSDQHVKELKTSLKKCARETADLKFLNNQYAHKLKLLEK 5fcx-a3-m1-cA_5fcx-a3-m1-cB Structure of Anabaena (Nostoc) sp. PCC 7120 Red Carotenoid Protein binding canthaxanthin Q8YXT8 Q8YXT8 3.206 X-RAY DIFFRACTION 58 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 139 139 PTIRKYVQSWQKLDVDEQLALFWFIYKEMGGSTVSPAIAEGLFNQVKELNHEQQLQLQRDLIRRVDNQLSREYGSLGDTTKLLFWYLLSQGMDNATIVPFPADYKLSSESQELLEGIKGLGFEQQITLFRDYVSPMGAE PTIRKYVQSWQKLDVDEQLALFWFIYKEMGGSTVSPAIAEGLFNQVKELNHEQQLQLQRDLIRRVDNQLSREYGSLGDTTKLLFWYLLSQGMDNATIVPFPADYKLSSESQELLEGIKGLGFEQQITLFRDYVSPMGAE 5fd0-a2-m1-cA_5fd0-a2-m2-cA Streptomyces plicatus N-acetyl-beta-hexosaminidase in complex with NAGlucal O85361 O85361 2 X-RAY DIFFRACTION 50 1.0 1922 (Streptomyces plicatus) 1922 (Streptomyces plicatus) 499 499 1hp4-a3-m1-cA_1hp4-a3-m3-cA DRKAPVRPTPLDRVIPAPASVDPGGAPYRITRGTHIRVDDSREARRVGDYLADLLRPATGYRLPVTAHGHGGIRLRLAGGPYGDEGYRLDSGPAGVTITARKAAGLFHGVQTLRQLLPPAVEKDSAQPGPWLVAGGTIEDTPRYAWRSAMLDVSRHFFGVDEVKRYIDRVARYKYNKLHLHLSDDQGWRIAIDSWPRLATYGGSTEVGGGPGGYYTKAEYKEIVRYAASRHLEVVPEIDMPGHTNAALASYAELNCDGVAPPLYTGTKVGFSSLCVDKDVTYDFVDDVIGELAALTPGRYLHIGGDEAHSTPKADFVAFMKRVQPIVAKYGKTVVGWHQLAGAEPVEGALVQYWGLDRTGDAEKAEVAEAARNGTGLILSPADRTYLDMKYTKDTPLGLSWAGYVEVQRSYDWDPAGYLPGAPADAVRGVEAPLWTETLSDPDQLDYMAFPRLPGVAELGWSPASTHDWDTYKVRLAAQAPYWEAAGIDFYRSPQVPWT DRKAPVRPTPLDRVIPAPASVDPGGAPYRITRGTHIRVDDSREARRVGDYLADLLRPATGYRLPVTAHGHGGIRLRLAGGPYGDEGYRLDSGPAGVTITARKAAGLFHGVQTLRQLLPPAVEKDSAQPGPWLVAGGTIEDTPRYAWRSAMLDVSRHFFGVDEVKRYIDRVARYKYNKLHLHLSDDQGWRIAIDSWPRLATYGGSTEVGGGPGGYYTKAEYKEIVRYAASRHLEVVPEIDMPGHTNAALASYAELNCDGVAPPLYTGTKVGFSSLCVDKDVTYDFVDDVIGELAALTPGRYLHIGGDEAHSTPKADFVAFMKRVQPIVAKYGKTVVGWHQLAGAEPVEGALVQYWGLDRTGDAEKAEVAEAARNGTGLILSPADRTYLDMKYTKDTPLGLSWAGYVEVQRSYDWDPAGYLPGAPADAVRGVEAPLWTETLSDPDQLDYMAFPRLPGVAELGWSPASTHDWDTYKVRLAAQAPYWEAAGIDFYRSPQVPWT 5fd5-a3-m1-cE_5fd5-a3-m1-cC manganese uptake regulator O07315 O07315 1.91 X-RAY DIFFRACTION 105 1.0 387 (Rhizobium leguminosarum bv. viciae) 387 (Rhizobium leguminosarum bv. viciae) 132 135 5fd5-a1-m1-cD_5fd5-a1-m1-cA 5fd5-a2-m1-cB_5fd5-a2-m2-cB TLEELATERGMRMTEQRRVIARILEDSEDHPDVEELYRRSVKVDAKISISTVYRTVKLFEDAGIIARHDFRDGRSRYETVPEEHHDHLIDLKTGTVIEFRSPEIEALQERIAREHGFRLVDHRLELYGVPLK VAKTLEELATERGMRMTEQRRVIARILEDSEDHPDVEELYRRSVKVDAKISISTVYRTVKLFEDAGIIARHDFRDGRSRYETVPEEHHDHLIDLKTGTVIEFRSPEIEALQERIAREHGFRLVDHRLELYGVPLK 5fd6-a2-m1-cC_5fd6-a2-m1-cD zinc-bound manganese uptake regulator O07315 O07315 2.48 X-RAY DIFFRACTION 103 1.0 387 (Rhizobium leguminosarum bv. viciae) 387 (Rhizobium leguminosarum bv. viciae) 132 133 5fd6-a1-m1-cB_5fd6-a1-m1-cA KTLEELATERGMRMTEQRRVIARILEDSEDHPDVEELYRRSVKVDAKISISTVYRTVKLFEDAGIIARHDFRDGRSRYETVPEEHHDHLIDLKTGTVIEFRSPEIEALQERIAREHGFRLVDHRLELYGVPL KTLEELATERGMRMTEQRRVIARILEDSEDHPDVEELYRRSVKVDAKISISTVYRTVKLFEDAGIIARHDFRDGRSRYETVPEEHHDHLIDLKTGTVIEFRSPEIEALQERIAREHGFRLVDHRLELYGVPLK 5fda-a2-m1-cA_5fda-a2-m2-cA The high resolution structure of apo form dihydrofolate reductase from Yersinia pestis at 1.55 A A0A3N4BLI0 A0A3N4BLI0 1.549 X-RAY DIFFRACTION 34 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 154 154 AIISLIAALAADRVIGENAPWHLPADLAWFKRNTLNKPVIGRKTFESIGRPLPGRLNIVISSQPGTDERVTWAASIEEALAFAGNAEEVVGGGRVYKQFLDRANRYLTHIDAEVGGDTHFPDYEPDEWESVFSEFHDADEANSHSYCFEILERR AIISLIAALAADRVIGENAPWHLPADLAWFKRNTLNKPVIGRKTFESIGRPLPGRLNIVISSQPGTDERVTWAASIEEALAFAGNAEEVVGGGRVYKQFLDRANRYLTHIDAEVGGDTHFPDYEPDEWESVFSEFHDADEANSHSYCFEILERR 5fe9-a1-m1-cA_5fe9-a1-m1-cB Crystal structure of human PCAF bromodomain in complex with compound SL1122 (compound 13) Q92831 Q92831 2.35 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 5fdz-a1-m1-cB_5fdz-a1-m1-cA 5lvr-a1-m1-cA_5lvr-a1-m1-cB RDPDQLYSTLKSILQQVKSHQSAWPFMEPVKRTEAPGYYEVIRFPMDLKTMSERLKNRYYVSKKLFMADLQRVFTNCKEYNPPESEYYKCANILEKFFFSKIKEAGLID RDPDQLYSTLKSILQQVKSHQSAWPFMEPVKRTEAPGYYEVIRFPMDLKTMSERLKNRYYVSKKLFMADLQRVFTNCKEYNPPESEYYKCANILEKFFFSKIKEAGLID 5fec-a2-m1-cD_5fec-a2-m2-cC Crystal structure of 3BNC60 Fab germline precursor in complex with 426c.TM4deltaV1-3 gp120 A0A0K1H6P9 A0A0K1H6P9 3.17 X-RAY DIFFRACTION 33 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 337 338 5fec-a1-m1-cI_5fec-a1-m1-cG VWKEAKTTLFCASDAKAYEKECHNVWATHACVPTDPNPQEVVLENVTENFNMWKNDMVDQMQEDVISIWDQCLKPCVKLTGGSTLTQACPKVTFDPIPIHYCAPAGYAILKCNQKTFNGKGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIVIRSKNLRDNAKIIIVQLNKSVEIVCTRPNNDIRQAYCQISGRQWSEAVNQVKKKLKEHFPHKQISFQSSSGGDLEITTHSFNCGGEFFYCNTSGLFNDTISNATIMLPCRIKQIINMWQEVGKAIYAPPIKGQITCKSDITGLLLLRDGGDTTDNTEIFRPSGGDMRDNWRSELYKYKVVEI VWKEAKTTLFCASDAKAYEKECHNVWATHACVPTDPNPQEVVLENVTENFNMWKNDMVDQMQEDVISIWDQCLKPCVKLTGGSTLTQACPKVTFDPIPIHYCAPAGYAILKCNQKTFNGKGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIVIRSKNLRDNAKIIIVQLNKSVEIVCTRPNNGDIRQAYCQISGRQWSEAVNQVKKKLKEHFPHKQISFQSSSGGDLEITTHSFNCGGEFFYCNTSGLFNDTISNATIMLPCRIKQIINMWQEVGKAIYAPPIKGQITCKSDITGLLLLRDGGDTTDNTEIFRPSGGDMRDNWRSELYKYKVVEI 5feg-a1-m1-cA_5feg-a1-m1-cB Crystal structure of the dimeric allergen profilin (Hev b 8) Q9STB6 Q9STB6 2.802 X-RAY DIFFRACTION 32 1.0 3981 (Hevea brasiliensis) 3981 (Hevea brasiliensis) 130 130 SWQAYVDDHLMCEIEGNHLSAAAIIGQDGSVWAQSANFPQFKSEEITGIMSDFHEPGTLAPTGLYIGGTKYMVIQGEPGAVIRGKKGPGGVTVKKTNQALIIGIYDEPMTPGQCNMIVERLGDYLIDQGY SWQAYVDDHLMCEIEGNHLSAAAIIGQDGSVWAQSANFPQFKSEEITGIMSDFHEPGTLAPTGLYIGGTKYMVIQGEPGAVIRGKKGPGGVTVKKTNQALIIGIYDEPMTPGQCNMIVERLGDYLIDQGY 5ffp-a1-m1-cA_5ffp-a1-m1-cB Crystal structure of CdiI from Burkholderia dolosa AUO158 2.5 X-RAY DIFFRACTION 35 1.0 350701 (Burkholderia dolosa AU0158) 350701 (Burkholderia dolosa AU0158) 150 150 LSGNPHTFAIWCDAVESWSTPAFANGCLGYFGGKLVWSSNSTLGVDLSLSRLHCRNTVEDAELFHISPEDAYRELCNRAFPSDSGAESNDFTHLVSAESLSDEGYYIFLVEYDESAKLIYGFKENSREAGEVVLVRGEFQSVVRDVLAKS LSGNPHTFAIWCDAVESWSTPAFANGCLGYFGGKLVWSSNSTLGVDLSLSRLHCRNTVEDAELFHISPEDAYRELCNRAFPSDSGAESNDFTHLVSAESLSDEGYYIFLVEYDESAKLIYGFKENSREAGEVVLVRGEFQSVVRDVLAKS 5ffq-a1-m1-cA_5ffq-a1-m1-cB ChuY: An Anaerobillin Reductase from Escherichia coli O157:H7 Q8X5N4 Q8X5N4 2 X-RAY DIFFRACTION 28 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 206 206 TPWLLFGAGGKGVGARTLELALAEQRPVVAVIRHADAATKLAQQGVQVFTGDACDASVVAAACRAAGPDALIISTMGGAQDYLAHRTVIDEAEKAGISRMILVTSLGCGDSWPFLSERAKAAFGQAVREKTLAESWLQTSQLDYAILRPGGLLDGAATGKAQRIQNQECHGFVRRADVAAHIHELANAPALNQQVYSLIEPDLKPA TPWLLFGAGGKGVGARTLELALAEQRPVVAVIRHADAATKLAQQGVQVFTGDACDASVVAAACRAAGPDALIISTMGGAQDYLAHRTVIDEAEKAGISRMILVTSLGCGDSWPFLSERAKAAFGQAVREKTLAESWLQTSQLDYAILRPGGLLDGAATGKAQRIQNQECHGFVRRADVAAHIHELANAPALNQQVYSLIEPDLKPA 5ffw-a1-m1-cA_5ffw-a1-m1-cB Crystal structure of the bromodomain of human BRPF1 in complex with H4K5acK8ac histone peptide P55201 P55201 1.5 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 111 LTPFLILLRKTLEQLQEKDTGNIFSEPVPLSEVPDYLDHIKKPMDFFTMKQNLEAYRYLNFDDFEEDFNLIVSNCLKYNAKDTIFYRAAVRLREQGGAVLRQARRQAEKM QLTPFLILLRKTLEQLQEKDTGNIFSEPVPLSEVPDYLDHIKKPMDFFTMKQNLEAYRYLNFDDFEEDFNLIVSNCLKYNAKDTIFYRAAVRLREQGGAVLRQARRQAEKM 5fgm-a2-m1-cA_5fgm-a2-m2-cA Streptomyces coelicolor SigR region 4 Q7AKG9 Q7AKG9 2.6 X-RAY DIFFRACTION 31 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 62 62 LPDSDVKQALQAIPEEFRIAVYLADVEGFAYKEIADIGTPIGTVSRLHRGRRQLRGLEDYAR LPDSDVKQALQAIPEEFRIAVYLADVEGFAYKEIADIGTPIGTVSRLHRGRRQLRGLEDYAR 5fgo-a3-m1-cF_5fgo-a3-m1-cE Crystal structure of D. melanogaster Pur-alpha repeat III. Q95RR6 Q95RR6 2.6 X-RAY DIFFRACTION 59 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 60 61 5fgo-a1-m1-cA_5fgo-a1-m1-cB 5fgo-a2-m1-cC_5fgo-a2-m1-cD DLPEERHKVDNKNFYFDIGQNNRGVYRISEVKNNFRTSITIPEKCWIRFRDIFNDYCEKK DLPEERHKVDNKNFYFDIGQNNRGVYRISEVKNNFRTSITIPEKCWIRFRDIFNDYCEKKK 5fgs-a1-m1-cA_5fgs-a1-m1-cB Crystal structure of C-terminal domain of shaft pilin spaA from Lactobacillus rhamnosus GG - P21212 space group 2 X-RAY DIFFRACTION 44 1.0 568703 (Lacticaseibacillus rhamnosus GG) 568703 (Lacticaseibacillus rhamnosus GG) 123 123 5fgs-a1-m1-cA_5fgs-a1-m1-cC 5fgs-a1-m1-cB_5fgs-a1-m1-cD 5fgs-a1-m1-cD_5fgs-a1-m1-cC TTYERTFVKKDAETKEVLEGAGFKISNSDGKFLKLTDKDGQSVSIGEGFIDVLANNYRLTWVAESDATVFTSDKSGKFGLNGFADNTTTYTAVETNVPDGYDAAANTDFKADNSSSDILDAPS TTYERTFVKKDAETKEVLEGAGFKISNSDGKFLKLTDKDGQSVSIGEGFIDVLANNYRLTWVAESDATVFTSDKSGKFGLNGFADNTTTYTAVETNVPDGYDAAANTDFKADNSSSDILDAPS 5fhi-a1-m1-cA_5fhi-a1-m2-cA Crystallographic structure of PsoE without Co Q4WB03 Q4WB03 2.41 X-RAY DIFFRACTION 85 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 215 215 5f8b-a1-m1-cA_5f8b-a1-m2-cA MVFGTLYTFPGDQCRTIAIKAVAKANGLDLDIRETPRTPDHLSISKLGKVPAFQGADSFKLFECMAIALYITSQNEQTTLLGKDKKEYAEIIKWMSFFNTEIVILMTQQLLPQLGVIPYDRDQVEFFANMTQRSVDVVEEYLQDRTFLVGDQLSLADLFCAGNISLGFQFFYGKAWRQQNPNVSRWYEMVCHQPIYAAVTDKFQLLDEPKLTNNP MVFGTLYTFPGDQCRTIAIKAVAKANGLDLDIRETPRTPDHLSISKLGKVPAFQGADSFKLFECMAIALYITSQNEQTTLLGKDKKEYAEIIKWMSFFNTEIVILMTQQLLPQLGVIPYDRDQVEFFANMTQRSVDVVEEYLQDRTFLVGDQLSLADLFCAGNISLGFQFFYGKAWRQQNPNVSRWYEMVCHQPIYAAVTDKFQLLDEPKLTNNP 5fhk-a3-m1-cE_5fhk-a3-m1-cD Regulatory domain of AphB in Vibrio vulnificus A0A087IWB4 A0A087IWB4 1.905 X-RAY DIFFRACTION 91 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 200 203 5fhk-a1-m1-cB_5fhk-a1-m1-cA 5fhk-a2-m1-cC_5fhk-a2-m1-cF 5x0n-a1-m1-cA_5x0n-a1-m1-cD 5x0n-a2-m1-cB_5x0n-a2-m1-cC 5x0n-a3-m1-cF_5x0n-a3-m1-cE 5x0o-a1-m1-cB_5x0o-a1-m1-cA 5x0o-a2-m1-cF_5x0o-a2-m1-cC 5x0o-a3-m1-cD_5x0o-a3-m1-cE ASGKIKISTPYNLTKRMMMPMLNGFMSQYPEINIELTTESNADQLDPTEWDVIFRVGPQRDSSLIARKIGSVKDILVASPEYVNAHPMPTHAEDLHDHFLLKGHPLLKWTLINSKGETVVNVDRGRFQANALNVVRSACSEGLGITLMPDVMIKEYIADGSLVRILPDWSANPRDIYMLYNHKDHLPEKVRLFIDYVIAY MGASGKIKISTPYNLTKRMMMPMLNGFMSQYPEINIELTTESNADQLDPTEWDVIFRVGPQRDSSLIARKIGSVKDILVASPEYVNAHPMPTHAEDLHDHFLLKGHPLLKWTLINSKGETVVNVDRGRFQANALNVVRSACSEGLGITLMPDVMIKEYIADGSLVRILPDWSANPRDIYMLYNHKDHLPEKVRLFIDYVIAYN 5fhp-a2-m1-cF_5fhp-a2-m1-cB SeMet regulator of nicotine degradation A0A0B4KIF6 A0A0B4KIF6 2.65 X-RAY DIFFRACTION 123 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 192 197 5fgl-a1-m1-cA_5fgl-a1-m1-cB 5fgl-a2-m1-cD_5fgl-a2-m1-cC 5fgl-a3-m1-cF_5fgl-a3-m1-cE 5fhp-a1-m1-cD_5fhp-a1-m1-cA 5fhp-a3-m1-cE_5fhp-a3-m1-cC ELILNEAEKVFAHGFLGATLKQIAQNSNVTQALITYYYGTKQNLFEVYRRGLSDIDKKRQNYLDELKSRPEGYNTYDIVRTYLRPQFEHREAWHFARLQSRLASEPEEVAVPLRKELYDHTLKAFIHEIECEGEDDAAAVSWGAVFVSILYLRGVDRIGELTDGHLHAESEDDIVERTIFITGGINSLKQAT ELILNEAEKVFAHGFLGATLKQIAQNSNVTQALITYYYGTKQNLFEVYRRGLSDIDKKRQNYLDELKSRPEGYNTYDIVRTYLRPQFEHREGGQAWHFARLQSRLASEPEEVAVPLRKELYDHTLKAFIHEIECEGEDDAAAVSWGAVFVSILYLRGVDRIGELTDGHLHAESEDDIVERTIFITGGINSLKQATQD 5fi3-a1-m1-cA_5fi3-a1-m1-cB HETEROYOHIMBINE SYNTHASE THAS1 FROM CATHARANTHUS ROSEUS - COMPLEX WITH NADP+ A0A0F6SD02 A0A0F6SD02 1.05 X-RAY DIFFRACTION 102 1.0 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 344 344 5fi5-a1-m1-cA_5fi5-a1-m1-cB VYPVKAFGLAAKDSSGLFSPFNFSRRATGEHDVQLKVLYCGTCQYDREMSKNKFGFTSYPYVLGHEIVGEVTEVGSKVQKFKVGDKVGVASIIETCGKCEMCTNEVENYCPEAGSIDSNYGACSNIAVINENFVIRWPENLPLDSGVPLLCAGITAYSPMKRYGLDKPGKRIGIAGLGGLGHVALRFAKAFGAKVTVISSSLKKKREAFEKFGADSFLVSSNPEEMQGAAGTLDGIIDTIPGNHSLEPLLALLKPLGKLIILGAPEMPFEVPAPSLLMGGKVMAASTAGSMKEIQEMIEFAAEHNIVADVEVISIDYVNTAMERLDNSDVRYRFVIDIGNTLKS VYPVKAFGLAAKDSSGLFSPFNFSRRATGEHDVQLKVLYCGTCQYDREMSKNKFGFTSYPYVLGHEIVGEVTEVGSKVQKFKVGDKVGVASIIETCGKCEMCTNEVENYCPEAGSIDSNYGACSNIAVINENFVIRWPENLPLDSGVPLLCAGITAYSPMKRYGLDKPGKRIGIAGLGGLGHVALRFAKAFGAKVTVISSSLKKKREAFEKFGADSFLVSSNPEEMQGAAGTLDGIIDTIPGNHSLEPLLALLKPLGKLIILGAPEMPFEVPAPSLLMGGKVMAASTAGSMKEIQEMIEFAAEHNIVADVEVISIDYVNTAMERLDNSDVRYRFVIDIGNTLKS 5fid-a1-m1-cA_5fid-a1-m1-cB Crystal structure of the protein elicitor MoHrip2 from Magnaporthe oryzae I3RTU7 I3RTU7 1.809 X-RAY DIFFRACTION 71 1.0 318829 (Pyricularia oryzae) 318829 (Pyricularia oryzae) 133 133 AQQAIVHNNCQDTVYVQSFPYDGSATGPLTTLQAGQTFSEDFRKSGSTVKVSKTKTLTSPFIGYSFSSNPDYGYYELSSEWGNPFADKRVTLSPGAGCQDFNCAPNDAGCYSRPDKKVYGCPLPINVEATLCA AQQAIVHNNCQDTVYVQSFPYDGSATGPLTTLQAGQTFSEDFRKSGSTVKVSKTKTLTSPFIGYSFSSNPDYGYYELSSEWGNPFADKRVTLSPGAGCQDFNCAPNDAGCYSRPDKKVYGCPLPINVEATLCA 5fif-a1-m1-cE_5fif-a1-m1-cF Carboxyltransferase domain of a single-chain bacterial carboxylase Q9RYK2 Q9RYK2 2.494 X-RAY DIFFRACTION 73 0.998 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 503 506 5fif-a1-m1-cA_5fif-a1-m1-cB 5fif-a1-m1-cA_5fif-a1-m1-cD 5fif-a1-m1-cB_5fif-a1-m1-cD 5fif-a1-m1-cE_5fif-a1-m1-cC 5fif-a1-m1-cF_5fif-a1-m1-cC ALPASYADWQRRLRATTDEARPAAVEKRHAAGKLTARENVAALLDAGSFNEHGALALAAQRGRRSEEELLALSPADGLITGVGTVNAGQFPDTAACAVAAYDYTVLAGTQGYFNHHKLDRLIALAGQWKWPLVLFAEGGGGRPGDTDMPVAAALVTPTFLNFAALSGQVPLVGVAAGACFAGNAALLGCCDVVIATRDSSIGLGGPAMIEGGGLGVVAAGDIGPAEVLAQKGVVDLLAENDAEANELARRYLTYFQGDVTGWEAADQRELRWVIPQVRKRAYDVRALLHLLADTGSVLELRRAFAPGLLTALVRIGGKAFGVIANDPAVLGGAIDAAGADKAARFLNLCDTHRLPVLSLVDTPGFMVGPASEAEGAVRHVSRLFVRAAKLTVPFFAVVTRRAYGLGAQAMAAGSLHAPALTVSWPGGEFGPMGLEGAVRLGYEALYQKLVAQAYAQGEAVNVAAHLEVDAVIDPAETRNWLLRALRVSPYSAQRREGGLVDPW DLDALPASYADWQRRLRATTDEARPAAVEKRHAAGKLTARENVAALLDAGSFNEHGALALAAQRGRRSEEELLALSPADGLITGVGTVNAGQFPDTAACAVAAYDYTVLAGTQGYFNHHKLDRLIALAGQWKWPLVLFAEGGGGRPGDTDMPVAAALVTPTFLNFAALSGQVPLVGVAAGACFAGNAALLGCCDVVIATRDSSIGLGGPAMIEGGGLGVVAAGDIGPAEVLAQKGVVDLLAENDAEANELARRYLTYFQGDVTGWEAADQRELRWVIPQVRKRAYDVRALLHLLADTGSVLELRRAFAPGLLTALVRIGGKAFGVIANDPAVLGGAIDAAGADKAARFLNLCDTHRLPVLSLVDTPGFMVGPASEAEGAVRHVSRLFVRAAKLTVPFFAVVTRRAYGLGAQAMAAGSLHAPALTVSWPGGEFGPMGLEGAVRLGYRALYQKLVAQAYAQGEAVNVAAHLEVDAVIDPAETRNWLLRALRVSPYSAQRREGGLVDPW 5fif-a1-m1-cF_5fif-a1-m1-cA Carboxyltransferase domain of a single-chain bacterial carboxylase Q9RYK2 Q9RYK2 2.494 X-RAY DIFFRACTION 341 0.986 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 506 507 5fif-a1-m1-cC_5fif-a1-m1-cD 5fif-a1-m1-cE_5fif-a1-m1-cB DLDALPASYADWQRRLRATTDEARPAAVEKRHAAGKLTARENVAALLDAGSFNEHGALALAAQRGRRSEEELLALSPADGLITGVGTVNAGQFPDTAACAVAAYDYTVLAGTQGYFNHHKLDRLIALAGQWKWPLVLFAEGGGGRPGDTDMPVAAALVTPTFLNFAALSGQVPLVGVAAGACFAGNAALLGCCDVVIATRDSSIGLGGPAMIEGGGLGVVAAGDIGPAEVLAQKGVVDLLAENDAEANELARRYLTYFQGDVTGWEAADQRELRWVIPQVRKRAYDVRALLHLLADTGSVLELRRAFAPGLLTALVRIGGKAFGVIANDPAVLGGAIDAAGADKAARFLNLCDTHRLPVLSLVDTPGFMVGPASEAEGAVRHVSRLFVRAAKLTVPFFAVVTRRAYGLGAQAMAAGSLHAPALTVSWPGGEFGPMGLEGAVRLGYRALYQKLVAQAYAQGEAVNVAAHLEVDAVIDPAETRNWLLRALRVSPYSAQRREGGLVDPW LDALPASYADWQRRLRATTDEARPAAVEKRHAAGKLTARENVAALLDAGSFNEHGALALAAQRGRRSEEELLALSPADGLITGVGTVNAGQFPDTAACAVAAYDYTVLAGTQGYFNHHKLDRLIALAGQWKWPLVLFAEGGGGRPGDTDMPVAAALVTPTFLNFAALSGQVPLVGVAAGACFAGNAALLGCCDVVIATRDSSIGLGGPAMIEGGGLGVVAAGDIGPAEVLAQKGVVDLLAENDAEANELARRYLTYFQGDVTGWEAADQRELRWVIPQVRKRAYDVRALLHLLADTGSVLELRRAFAPGLLTALVRIGGKAFGVIANDPAVLGGAIDAAGADKAARFLNLCDTHRLPVLSLVDTPGFMVGPASEAEGAVRHVSRLFVRAAKLTVPFFAVVTRRAYGLGAQAMAAGSLHAPALTVSWPGGEFGPMGLEAAVSDPQEREALYQKLVAQAYAQGEAVNVAAHLEVDAVIDPAETRNWLLRALRVSPYSAQRREGGLVDPW 5fif-a1-m1-cF_5fif-a1-m1-cB Carboxyltransferase domain of a single-chain bacterial carboxylase Q9RYK2 Q9RYK2 2.494 X-RAY DIFFRACTION 10 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 506 519 DLDALPASYADWQRRLRATTDEARPAAVEKRHAAGKLTARENVAALLDAGSFNEHGALALAAQRGRRSEEELLALSPADGLITGVGTVNAGQFPDTAACAVAAYDYTVLAGTQGYFNHHKLDRLIALAGQWKWPLVLFAEGGGGRPGDTDMPVAAALVTPTFLNFAALSGQVPLVGVAAGACFAGNAALLGCCDVVIATRDSSIGLGGPAMIEGGGLGVVAAGDIGPAEVLAQKGVVDLLAENDAEANELARRYLTYFQGDVTGWEAADQRELRWVIPQVRKRAYDVRALLHLLADTGSVLELRRAFAPGLLTALVRIGGKAFGVIANDPAVLGGAIDAAGADKAARFLNLCDTHRLPVLSLVDTPGFMVGPASEAEGAVRHVSRLFVRAAKLTVPFFAVVTRRAYGLGAQAMAAGSLHAPALTVSWPGGEFGPMGLEGAVRLGYRALYQKLVAQAYAQGEAVNVAAHLEVDAVIDPAETRNWLLRALRVSPYSAQRREGGLVDPW DLDALPASYADWQRRLRATTDEARPAAVEKRHAAGKLTARENVAALLDAGSFNEHGALALAAQRGRRSEEELLALSPADGLITGVGTVNAGQFPDTAACAVAAYDYTVLAGTQGYFNHHKLDRLIALAGQWKWPLVLFAEGGGGRPGDTDMPVAAALVTPTFLNFAALSGQVPLVGVAAGACFAGNAALLGCCDVVIATRDSSIGLGGPAMIEGGGLGVVAAGDIGPAEVLAQKGVVDLLAENDAEANELARRYLTYFQGDVTGWEAADQRELRWVIPQVRKRAYDVRALLHLLADTGSVLELRRAFAPGLLTALVRIGGKAFGVIANDPAVLGGAIDAAGADKAARFLNLCDTHRLPVLSLVDTPGFMVGPASEAEGAVRHVSRLFVRAAKLTVPFFAVVTRRAYGLGAQAMAAGSLHAPALTVSWPGGEFGPMGLEGAVRLGYRRELAAVSDPQEREALYQKLVAQAYAQGEAVNVAAHLEVDAVIDPAETRNWLLRALRVSPYSAQRREGGLVDPW 5fiq-a3-m1-cG_5fiq-a3-m1-cI Exonuclease domain-containing 1 (Exd1) in the native conformation H9IUR0 H9IUR0 2.4 X-RAY DIFFRACTION 150 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 240 240 5fiq-a1-m1-cA_5fiq-a1-m2-cA 5fiq-a2-m1-cC_5fiq-a2-m1-cE LKISQTKYEEILKISKKYIFINQVDKSFHEAVDDLNQQDFIAVSGDGANMGRKCKMPFLVLSTDHQIYIFDIQVMQYHAFESGLKKILEGDSPKKIAHDCRKLSDCLYHKHNVKLKSVFDTQVGDLIITKNKKVTLPNKVKSLGECLTNYLGLQQNTIDEKLDIVQSTERPLSVKIKDSLARNIAFLHHLSEVINEEMQLPFYRGVECYIENIRSSDDFKAWELCGKLNQIPKEFRNAID LKISQTKYEEILKISKKYIFINQVDKSFHEAVDDLNQQDFIAVSGDGANMGRKCKMPFLVLSTDHQIYIFDIQVMQYHAFESGLKKILEGDSPKKIAHDCRKLSDCLYHKHNVKLKSVFDTQVGDLIITKNKKVTLPNKVKSLGECLTNYLGLQQNTIDEKLDIVQSTERPLSVKIKDSLARNIAFLHHLSEVINEEMQLPFYRGVECYIENIRSSDDFKAWELCGKLNQIPKEFRNAID 5fis-a1-m1-cA_5fis-a1-m1-cB Exonuclease domain-containing 1 (Exd1) in the Gd bound conformation H9IUR0 H9IUR0 1.6 X-RAY DIFFRACTION 163 0.996 7091 (Bombyx mori) 7091 (Bombyx mori) 240 240 LKISQTKYEEILKISKKYIFINQVDKSFHEAVDDLNQQDFIAVSGDGANMGRKKMPFLVLSTDHQIYIFDIQVMQYHAFESGLKKILEGDSPKKIAHDCRKLSDCLYHKHNVKLKSVFDTQVGDLIITKNKKVTLPNKVKSLGECLTNYLGLQQNTIDEKLDIVQSTERPLSVKIKDSLARNIAFLHHLSEVINEEMQLPFYRGVECYIENIRSSDDFKAWELCGKLNQIPKEFRNAIDY LKISQTKYEEILKISKKYIFINQVDKSFHEAVDDLNQQDFIAVSGDGANMGRKKMPFLVLSTDHQIYIFDIQVMQYHAFESGLKKILEGDSPRKIAHDCRKLSDCLYHKHNVKLKSVFDTQVGDLIITKNKKVTLPNKVKSLGECLTNYLGLQQNTIDEKLDIVQSTERPLSVKIKDSLARNIAFLHHLSEVINEEMQLPFYRGVECYIENIRSSDDFKAWELCGKLNQIPKEFRNAIDY 5fiu-a1-m1-cB_5fiu-a1-m2-cC Binding and structural studies of a 5,5-difluoromethyl adenosine nucleoside with the fluorinase enzyme Q70GK9 Q70GK9 1.84 X-RAY DIFFRACTION 28 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 291 291 1rqp-a2-m1-cA_1rqp-a2-m3-cA 1rqp-a2-m1-cB_1rqp-a2-m3-cC 1rqp-a2-m1-cC_1rqp-a2-m3-cB 1rqr-a2-m1-cA_1rqr-a2-m3-cA 1rqr-a2-m1-cB_1rqr-a2-m3-cC 1rqr-a2-m1-cC_1rqr-a2-m3-cB 2c2w-a1-m1-cA_2c2w-a1-m2-cA 2c2w-a1-m1-cB_2c2w-a1-m2-cC 2c2w-a1-m1-cC_2c2w-a1-m2-cB 2c4t-a1-m1-cA_2c4t-a1-m2-cA 2c4t-a1-m1-cB_2c4t-a1-m2-cC 2c4t-a1-m1-cC_2c4t-a1-m2-cB 2c5b-a1-m1-cA_2c5b-a1-m2-cA 2c5b-a1-m1-cB_2c5b-a1-m2-cC 2c5b-a1-m1-cC_2c5b-a1-m2-cB 2c5h-a1-m1-cA_2c5h-a1-m2-cA 2c5h-a1-m1-cB_2c5h-a1-m2-cC 2c5h-a1-m1-cC_2c5h-a1-m2-cB 2cbx-a1-m1-cA_2cbx-a1-m2-cA 2cbx-a1-m1-cB_2cbx-a1-m2-cC 2cbx-a1-m1-cC_2cbx-a1-m2-cB 2cc2-a1-m1-cA_2cc2-a1-m2-cA 2cc2-a1-m1-cC_2cc2-a1-m2-cB 2cc2-a1-m2-cC_2cc2-a1-m1-cB 2v7t-a1-m1-cA_2v7t-a1-m2-cA 2v7t-a1-m1-cB_2v7t-a1-m2-cC 2v7t-a1-m1-cC_2v7t-a1-m2-cB 2v7u-a1-m1-cA_2v7u-a1-m2-cA 2v7u-a1-m1-cB_2v7u-a1-m2-cC 2v7u-a1-m1-cC_2v7u-a1-m2-cB 2v7v-a1-m1-cA_2v7v-a1-m2-cA 2v7v-a1-m1-cB_2v7v-a1-m2-cC 2v7v-a1-m1-cC_2v7v-a1-m2-cB 2v7w-a1-m1-cA_2v7w-a1-m2-cA 2v7w-a1-m1-cB_2v7w-a1-m2-cC 2v7w-a1-m1-cC_2v7w-a1-m2-cB 2v7x-a1-m1-cA_2v7x-a1-m2-cA 2v7x-a1-m1-cB_2v7x-a1-m2-cC 2v7x-a1-m1-cC_2v7x-a1-m2-cB 5fiu-a1-m1-cA_5fiu-a1-m2-cA 5fiu-a1-m1-cC_5fiu-a1-m2-cB RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYSREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA RPIIAFMSDLGTTDDSVAQCKGLMYSICPDVTVVDVCHSMTPWDVEEGARYIVDLPRFFPEGTVFATTTYPATGTTTRSVAVRIKQAAKGGARGQWAGSGAGFERAEGSYIYIAPNNGLLTTVLEEHGYLEAYEVTSPKVIPEQPEPTFYSREMVAIPSAHLAAGFPLSEVGRPLEDHEIVRFNRPAVEQDGEALVGVVSAIDHPFGNVWTNIHRTDLEKAGIGYGARLRLTLDGVLPFEAPLTPTFADAGEIGNIAIYLNSRGYLSIARNAASLAYPYHLKEGMSARVEA 5fiy-a1-m1-cA_5fiy-a1-m1-cB crystal structure of coiled coil domain of PAWR Q62627 Q62627 3 X-RAY DIFFRACTION 97 0.987 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 75 75 5fiy-a2-m1-cD_5fiy-a2-m1-cC 5fiy-a3-m1-cF_5fiy-a3-m1-cG 5fiy-a4-m1-cE_5fiy-a4-m2-cE FASSSTLEKRIEDLEKEVLRERQENLRLTRLQDKEEIGKLKEEIDLLNRDLDDEDENEQLKQENKTLLKVVGQLT ASSSTLEKRIEDLEKEVLRERQENLRLTRLQDKEEIGKLKEEIDLLNRDLDDEDENEQLKQENKTLLKVVGQLTR 5fji-a1-m1-cA_5fji-a1-m1-cB Three-dimensional structures of two heavily N-glycosylated Aspergillus sp. Family GH3 beta-D-glucosidases Q4WJJ3 Q4WJJ3 1.95 X-RAY DIFFRACTION 105 1.0 840 840 ELAFSPPFYPSPWADGQGEWADAHRRAVEIVSQMTLAEKVNLTTGTGWEMDRCVGQTGSVPRLGINWGLCGQDSPLGIRFSDLNSAFPAGTNVAATWDKTLAYLRGKAMGEEFNDKGVDILLGPAAGPLGKYPDGGRIWEGFSPDPVLTGVLFAETIKGIQDAGVIATAKHYILNEQEHFRQVGEAQGYGYNITETISSNVDDKTMHELYLWPFADAVRAGVGAVMCSYNQINNSYGCQNSQTLNKLLKAELGFQGFVMSDWSAHHSGVGAALAGLDMSMPGDISFDDGLSFWGTNLTVSVLNGTVPAWRVDDMAVRIMTAYYKVGRDRLRIPPNFSSWTRDEYGWEHSAVSEGAWTKVNDFVNVQRSHSQIIREIGAASTVLLKNTGALPLTGKEVKVGVLGEDAGSNPWGANGCPDRGCDNGTLAMAWGSGTANFPYLVTPEQAIQREVISNGGNVFAVTDNGALSQMADVASQSSVSLVFVNADSGEGFISVDGNEGDRKNLTLWKNGEAVIDTVVSHCNNTIVVIHSVGPVLIDRWYDNPNVTAIIWAGLPGQESGNSLVDVLYGRVNPSAKTPFTWGKTRESYGAPLLTEPNNGNGAPQDDFNEGVFIDYRHFDKRNETPIYEFGHGLSYTTFGYSHLRVQALNSAYVPTSGETKPAPTYGEIGSAADYLYPEGLKRITKFIYPWLNSTDLEDSSDDPNYGWEDSEYIPEGARDGSPQPLLKAGGAPGGNPTLYQDLVRVSATITNTGNVAGYEVPQLYVSLGGPNEPRVVLRKFDRIFLAPGEQKVWTTTLNRRDLANWDVEAQDWVITKYPKKVHVGSSSRKLPLRAPLPRVY ELAFSPPFYPSPWADGQGEWADAHRRAVEIVSQMTLAEKVNLTTGTGWEMDRCVGQTGSVPRLGINWGLCGQDSPLGIRFSDLNSAFPAGTNVAATWDKTLAYLRGKAMGEEFNDKGVDILLGPAAGPLGKYPDGGRIWEGFSPDPVLTGVLFAETIKGIQDAGVIATAKHYILNEQEHFRQVGEAQGYGYNITETISSNVDDKTMHELYLWPFADAVRAGVGAVMCSYNQINNSYGCQNSQTLNKLLKAELGFQGFVMSDWSAHHSGVGAALAGLDMSMPGDISFDDGLSFWGTNLTVSVLNGTVPAWRVDDMAVRIMTAYYKVGRDRLRIPPNFSSWTRDEYGWEHSAVSEGAWTKVNDFVNVQRSHSQIIREIGAASTVLLKNTGALPLTGKEVKVGVLGEDAGSNPWGANGCPDRGCDNGTLAMAWGSGTANFPYLVTPEQAIQREVISNGGNVFAVTDNGALSQMADVASQSSVSLVFVNADSGEGFISVDGNEGDRKNLTLWKNGEAVIDTVVSHCNNTIVVIHSVGPVLIDRWYDNPNVTAIIWAGLPGQESGNSLVDVLYGRVNPSAKTPFTWGKTRESYGAPLLTEPNNGNGAPQDDFNEGVFIDYRHFDKRNETPIYEFGHGLSYTTFGYSHLRVQALNSAYVPTSGETKPAPTYGEIGSAADYLYPEGLKRITKFIYPWLNSTDLEDSSDDPNYGWEDSEYIPEGARDGSPQPLLKAGGAPGGNPTLYQDLVRVSATITNTGNVAGYEVPQLYVSLGGPNEPRVVLRKFDRIFLAPGEQKVWTTTLNRRDLANWDVEAQDWVITKYPKKVHVGSSSRKLPLRAPLPRVY 5fjj-a2-m1-cD_5fjj-a2-m1-cC Three-dimensional structures of two heavily N-glycosylated Aspergillus sp. Family GH3 beta-D-glucosidases Q2UUD6 Q2UUD6 1.95 X-RAY DIFFRACTION 108 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 838 839 5fjj-a1-m1-cB_5fjj-a1-m1-cA LAYSPPFYPSPWADGQGEWAEVYKRAVDIVSQMTLTEKVNLTTGTGWQLERCVGQTGSVPRLNIPSLCLQDSPLGIRFSDYNSAFPAGVNVAATWDKTLAYLRGQAMGEEFSDKGIDVQLGPAAGPLGAHPDGGRNWEGFSPDPALTGVLFAETIKGIQDAGVIATAKHYIMNEQEHFRQQPEAAGYGFNVSDSLSSNVDDKTMHELYLWPFADAVRAGVGAVMCSYNQINNSYGCENSETLNKLLKAELGFQGFVMSDWTAHHSGVGAALAGLDMSMPGDVTFDSGTSFWGANLTVGVLNGTIPQWRVDDMAVRIMAAYYKVGRDTKYTPPNFSSWTRDEYGFAHNHVSEGAYERVNEFVDVQRDHADLIRRIGAQSTVLLKNKGALPLSRKEKLVALLGEDAGSNSWGANGCDDRGCDNGTLAMAWGSGTANFPYLVTPEQAIQNEVLQGRGNVFAVTDSWALDKIAAAARQASVSLVFVNSDSGEGYLSVDGNEGDRNNITLWKNGDNVVKTAANNCNNTVVIIHSVGPVLIDEWYDHPNVTGILWAGLPGQESGNSIADVLYGRVNPGAKSPFTWGKTRESYGSPLVKDANNGNGAPQSDFTQGVFIDYRHFDKFNETPIYEFGYGLSYTTFELSDLHVQPLNASRYTPTSGMTEAAKNFGEIGDASEYVYPEGLERIHEFIYPWINSTDLKASSDDSNYGWEDSKYIPEGATDGSAQPRLPASGGAGGNPGLYEDLFRVSVKVKNTGNVAGDEVPQLYVSLGGPNEPKVVLRKFERIHLAPSQEAVWTTTLTRRDLANWDVSAQDWTVTPYPKTIYVGNSSRKLPLQASLPKA LAYSPPFYPSPWADGQGEWAEVYKRAVDIVSQMTLTEKVNLTTGTGWQLERCVGQTGSVPRLNIPSLCLQDSPLGIRFSDYNSAFPAGVNVAATWDKTLAYLRGQAMGEEFSDKGIDVQLGPAAGPLGAHPDGGRNWEGFSPDPALTGVLFAETIKGIQDAGVIATAKHYIMNEQEHFRQQPEAAGYGFNVSDSLSSNVDDKTMHELYLWPFADAVRAGVGAVMCSYNQINNSYGCENSETLNKLLKAELGFQGFVMSDWTAHHSGVGAALAGLDMSMPGDVTFDSGTSFWGANLTVGVLNGTIPQWRVDDMAVRIMAAYYKVGRDTKYTPPNFSSWTRDEYGFAHNHVSEGAYERVNEFVDVQRDHADLIRRIGAQSTVLLKNKGALPLSRKEKLVALLGEDAGSNSWGANGCDDRGCDNGTLAMAWGSGTANFPYLVTPEQAIQNEVLQGRGNVFAVTDSWALDKIAAAARQASVSLVFVNSDSGEGYLSVDGNEGDRNNITLWKNGDNVVKTAANNCNNTVVIIHSVGPVLIDEWYDHPNVTGILWAGLPGQESGNSIADVLYGRVNPGAKSPFTWGKTRESYGSPLVKDANNGNGAPQSDFTQGVFIDYRHFDKFNETPIYEFGYGLSYTTFELSDLHVQPLNASRYTPTSGMTEAAKNFGEIGDASEYVYPEGLERIHEFIYPWINSTDLKASSDDSNYGWEDSKYIPEGATDGSAQPRLPASGGAGGNPGLYEDLFRVSVKVKNTGNVAGDEVPQLYVSLGGPNEPKVVLRKFERIHLAPSQEAVWTTTLTRRDLANWDVSAQDWTVTPYPKTIYVGNSSRKLPLQASLPKAQ 5fjl-a1-m2-cA_5fjl-a1-m3-cA Crystal structure of raptor adenovirus 1 fibre head, wild-type form F4MI11 F4MI11 1.47 X-RAY DIFFRACTION 77 1.0 691961 (Raptor siadenovirus A) 691961 (Raptor siadenovirus A) 136 136 5fjl-a1-m1-cA_5fjl-a1-m2-cA 5fjl-a1-m1-cA_5fjl-a1-m3-cA VSYSDGHFLTKSGGVINFRKTRVTSITITILGNYGLRVVNGELQNTPLTFKGADFKSSTLKDELLIPLEGAVQLNTAPSTALCIFITTDHVYRELCMMQFLTDVDKTPFLVVLRSESKHETIQYMHIVTVHPFLSL VSYSDGHFLTKSGGVINFRKTRVTSITITILGNYGLRVVNGELQNTPLTFKGADFKSSTLKDELLIPLEGAVQLNTAPSTALCIFITTDHVYRELCMMQFLTDVDKTPFLVVLRSESKHETIQYMHIVTVHPFLSL 5fjs-a1-m1-cB_5fjs-a1-m1-cA Bacterial beta-glucosidase reveals the structural and functional basis of genetic defects in human glucocerebrosidase 2 (GBA2) F6BL85 F6BL85 2.6 X-RAY DIFFRACTION 40 0.984 858215 (Thermoanaerobacterium xylanolyticum LX-11) 858215 (Thermoanaerobacterium xylanolyticum LX-11) 702 733 SHKIDIPDSAWTIGIGEKFKNAGHPNVKYPMIDDSYVQGAPLGGFGAGTIGRTYNGGFSRWHLEIGKNKYTTVYANQFSVQVLYAGGYLSSWKWDYPKESGMYYALYPNSWYTYTNVQLAVKQFSPIIPYNYKETSYPVAVFKWTAYSIMFTWQNMIGFNSGNFDSEIVVMGNISNWNGEYSIGVKKVPGKAKFVTDGSDLWEFSKNDNKDDEPTKQGIGSAIAVNFKLQPGQTIEVPFALSWDLPIMKFGGGDKWYKMYTKYFGKNGKNSFAILKEALNNYQKWEKMIDDWQKPILSNKSKPDWYKTALFNELYYLADGGTAWENGKVGETNNMFGLLECFDYNYYETLDVRFYGSFPLVMLWPDIEKQVMRQFADTINVQDSSEFKVGSNGAMAVKKVQGMIPHDLGSSYALPWIKINAYDWQNPNIWKDLNSKYVLLVYRDYVLTGKTDKEFLKYTWKSVKTALDKLKEMDKDNDGIPDNEGIPDQTYDTWSMKGTSAYCGSLWLAALKAAQEIGKVLKDNEAYIKYNEWYKIAQQNFEKELWNGEYYNFDTESDHKDSIMADQLAGQWYADILRLGDILPKDHVQKALKKIYEFNVMKFENGKMGAVNGMRPDGIVDESDIQAQEVWTGVTYALASFMKYRGMTEEAYNTAYGVYKMTYDKSGKGYWFRTPEAWTKDGNYRASMYMRPLSIWSMEVNY HKIDIPDSAWTIGIGEKFKNAGHPNVKYPMIDDSYVQGAPLGGFGAGTIGRTYNGGFSRWHLEIGKNKYTTVYANQFSVFVAQVLYAGEPNGYLSSWKWDYPKESGMYYALYPNSWYTYTNKDLPVQLAVKQFSPIIPYNYKETSYPVAVFKWTAYNVDVSMFTWQNMIGFFVNSGNFNKIIKDDSEIVAAVMGNSNDNEEWNGEYSIGVKKVPGVDISYKAKFVTTGDGSDLWHEFDNKDDETPTKQDGIGSAIAVNFKLQPQTIEVPFALSWDLPIMKFGGGDKWYKMYTKYFGKNGKNSFAILKEALNNYQKWEKMIDDWQKPILSNKSKPDWYKTALFNELYYLADGGTAWENGKVGRTNNMFGLLECFDYNYYETLDVRFYGSFPLVMLWPDIEKQVMRQFADTINVQDSSEFKVGSNGAMAVKKVQGMIPHDLGSSYALPWIKINAYDWQNPNIWKDLNSKYVLLVYRDYVLTGKTDKEFLKYTWKSVKTALDKLKEMDKDNDGIPDNEGIPDQTYDTWSMKGTSAYCGSLWLAALKAAQEIGKVLKDNEAYIKYNEWYKIAQQNFEKELWNGEYYNFDTESDHKDSIMADQLAGQWYADILRLGDILPKDHVQKALKKIYEFNVMKFENGKMGAVNGMRPDGIVDESDIQAQEVWTGVTYALASFMKYRGMTEEAYNTAYGVYKMTYDKSGKGYWFRTPEAWTKDGNYRASMYMRPLSIWSMEVNY 5fjt-a1-m1-cB_5fjt-a1-m2-cC N-acyl amino acid racemase from Amycolatopsis sp. Ts-1-60: G291D F323 mutant in complex with N-acetyl phenylalanine Q44244 Q44244 2.11 X-RAY DIFFRACTION 11 1.0 37632 (Amycolatopsis sp.) 37632 (Amycolatopsis sp.) 367 367 1sja-a1-m1-cB_1sja-a1-m2-cD 1sja-a1-m1-cD_1sja-a1-m2-cB 1sjb-a1-m1-cB_1sjb-a1-m2-cD 1sjb-a1-m1-cD_1sjb-a1-m2-cB 1sjc-a1-m1-cB_1sjc-a1-m2-cD 1sjc-a1-m1-cD_1sjc-a1-m2-cB 1sjd-a1-m1-cD_1sjd-a1-m2-cB 1sjd-a1-m2-cD_1sjd-a1-m1-cB 5fjr-a1-m1-cD_5fjr-a1-m2-cA 5fjr-a1-m2-cD_5fjr-a1-m1-cA 5fjt-a1-m1-cC_5fjt-a1-m2-cB 5fju-a1-m1-cB_5fju-a1-m2-cC 5fju-a1-m1-cC_5fju-a1-m2-cB 5fju-a1-m1-cD_5fju-a1-m2-cA 5fju-a1-m2-cD_5fju-a1-m1-cA 7s8w-a1-m1-cA_7s8w-a1-m1-cC 7s8w-a1-m1-cA_7s8w-a1-m2-cC 7s8w-a1-m1-cB_7s8w-a1-m1-cD 7s8w-a1-m1-cB_7s8w-a1-m2-cD 7s8w-a1-m1-cD_7s8w-a1-m2-cB 7s8w-a1-m2-cA_7s8w-a1-m1-cC 7s8w-a1-m2-cA_7s8w-a1-m2-cC 7s8w-a1-m2-cB_7s8w-a1-m2-cD MKLSGVELRRVQMPLVAPFRTSFGTQSVRELLLLRAVTPAGEGWGECVTMAGPLYSSEYNDGAEHVLRHYLIPALLAAEDITAAKVTPLLAKFKGHRMAKGALEMAVLDAELRAHERSFAAELGSVRDSVPCGVSVGIMDTIPQLLDVVGGYLDEGYVRIKLKIEPGWDVEPVRAVRERFGDDVLLQVDANTAYTLGDAPQLARLDPFGLLLIEQPLEEEDVLGHAELARRIQTPICLDESIVSARAAADAIKLGAVQIVNIKPGRVGGYLEARRVHDVCAAHGIPVWCGDMIETGLGRAANVALASLPNFTLPGDTSASDRYYKTDITEPFVLSGGHLPVPTGPGLGVAPIPELLDEVTTAKVWIG MKLSGVELRRVQMPLVAPFRTSFGTQSVRELLLLRAVTPAGEGWGECVTMAGPLYSSEYNDGAEHVLRHYLIPALLAAEDITAAKVTPLLAKFKGHRMAKGALEMAVLDAELRAHERSFAAELGSVRDSVPCGVSVGIMDTIPQLLDVVGGYLDEGYVRIKLKIEPGWDVEPVRAVRERFGDDVLLQVDANTAYTLGDAPQLARLDPFGLLLIEQPLEEEDVLGHAELARRIQTPICLDESIVSARAAADAIKLGAVQIVNIKPGRVGGYLEARRVHDVCAAHGIPVWCGDMIETGLGRAANVALASLPNFTLPGDTSASDRYYKTDITEPFVLSGGHLPVPTGPGLGVAPIPELLDEVTTAKVWIG 5fjv-a1-m1-cD_5fjv-a1-m1-cE Crystal structure of the extracellular domain of alpha2 nicotinic acetylcholine receptor in pentameric assembly Q15822 Q15822 3.2 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 207 5fjv-a1-m1-cA_5fjv-a1-m1-cB 5fjv-a1-m1-cA_5fjv-a1-m1-cE 5fjv-a1-m1-cB_5fjv-a1-m1-cC 5fjv-a1-m1-cD_5fjv-a1-m1-cC EDRLFKHLFRGYNRWARPVPNTSDVVIVRFGLSIAQLIDVDEKNQMMTTNVWLKQEWSDYKLRWNPTDFGNITSLRVPSEMIWIPDIVLYNNADGEFAVTHMTKAHLFSTGTVHWVPPAIYKSSCSIDVTFDQQNCKMKFGSWTYDKAKIDLEQMEQTVDLKDYWESGEWAIVNATGTYNSKKYDCCAEIYPDVTYAFVIRRLP EDRLFKHLFRGYNRWARPVPNTSDVVIVRFGLSIAQLIDVDEKNQMMTTNVWLKQEWSDYKLRWNPTDFGNITSLRVPSEMIWIPDIVLYNNADGEFAVTHMTKAHLFSTGTVHWVPPAIYKSSCSIDVTFFPFDQQNCKMKFGSWTYDKAKIDLEQMEQTVDLKDYWESGEWAIVNATGTYNSKKYDCCAEIYPDVTYAFVIRRLP 5fjy-a2-m1-cC_5fjy-a2-m2-cC Crystal structure of mouse kinesin light chain 2 (residues 161-480) O88448 O88448 4 X-RAY DIFFRACTION 48 1.0 10090 (Mus musculus) 10090 (Mus musculus) 267 267 5fjy-a1-m1-cA_5fjy-a1-m1-cB PALRLTLHNLVIQYASQGRYEVAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKDAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLSNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSVNGENKPIWMHAEEREESACKVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRSR PALRLTLHNLVIQYASQGRYEVAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKDAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLSNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSVNGENKPIWMHAEEREESACKVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRSR 5fjz-a1-m1-cB_5fjz-a1-m1-cD Yeast delta-COP-I mu-homology domain complexed with Dsl1 WxWxV peptide P43621 P43621 1.9 X-RAY DIFFRACTION 68 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 260 262 5fjz-a1-m1-cA_5fjz-a1-m1-cC VPENNGILISIKEVINAEFSRDGTIHSSELKGVLELRINDHDLSHSNLKLADSIDVRDKSFQFKTHPNIDKQSFLSTKLISLRDKSKAFPANDQSLGVLRWRKVAPAEDDSLIPLTLTTAVSPSESQQGFDVIIEYESVLETELADVIFTIPVFPQEPVDINTESSSDAEVVNMDQEMGTSIKISKIAANDAGALAFTIEAPYEDALYPMTVSFQESTRDKLAKSFTGMAIQSVVMANDHDQELPYDVITSLKSDEYLVQ VPENNGILISIKEVINAEFSRDGTIHSSELKGVLELRINDHDLSHSNLKLADSIDVRDKSFQFKTHPNIDKQSFLSTKLISLRDKSKAFPANDQSLGVLRWRKVAPAEDDSLIPLTLTTAVSPSESQQGFDVIIEYESVLETELADVIFTIPVFPQEPVDINTESSTCSDAEVVNMDQEMGTSIKISKIAANDAGALAFTIEAPYEDALYPMTVSFQESTRDKLAKSFTGMAIQSVVMANDHDQELPYDVITSLKSDEYLVQ 5fjz-a1-m1-cC_5fjz-a1-m1-cD Yeast delta-COP-I mu-homology domain complexed with Dsl1 WxWxV peptide P43621 P43621 1.9 X-RAY DIFFRACTION 58 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 262 262 5fjz-a1-m1-cB_5fjz-a1-m1-cA VPENNGILISIKEVINAEFSRDGTIHSSELKGVLELRINDHDLSHSNLKLADSIDVRDKSFQFKTHPNIDKQSFLSTKLISLRDKSKAFPANDQSLGVLRWRKVAPAEDDSLIPLTLTTAVSPSESQQGFDVIIEYESVLETELADVIFTIPVFPQEPVDINTESSTCSDAEVVNMDQEMGTSIKISKIAANDAGALAFTIEAPYEDALYPMTVSFQESTRDKLAKSFTGMAIQSVVMANDHDQELPYDVITSLKSDEYLVQ VPENNGILISIKEVINAEFSRDGTIHSSELKGVLELRINDHDLSHSNLKLADSIDVRDKSFQFKTHPNIDKQSFLSTKLISLRDKSKAFPANDQSLGVLRWRKVAPAEDDSLIPLTLTTAVSPSESQQGFDVIIEYESVLETELADVIFTIPVFPQEPVDINTESSTCSDAEVVNMDQEMGTSIKISKIAANDAGALAFTIEAPYEDALYPMTVSFQESTRDKLAKSFTGMAIQSVVMANDHDQELPYDVITSLKSDEYLVQ 5fl7-a1-m1-cP_5fl7-a1-m1-cQ Structure of the F1c10 complex from Yarrowia lipolytica ATP synthase Q37695 Q37695 3.5 X-RAY DIFFRACTION 154 1.0 4952 (Yarrowia lipolytica) 4952 (Yarrowia lipolytica) 75 76 5fl7-a1-m1-cK_5fl7-a1-m1-cT 5fl7-a1-m1-cL_5fl7-a1-m1-cK 5fl7-a1-m1-cL_5fl7-a1-m1-cM 5fl7-a1-m1-cM_5fl7-a1-m1-cN 5fl7-a1-m1-cN_5fl7-a1-m1-cO 5fl7-a1-m1-cO_5fl7-a1-m1-cP 5fl7-a1-m1-cR_5fl7-a1-m1-cQ 5fl7-a1-m1-cR_5fl7-a1-m1-cS 5fl7-a1-m1-cS_5fl7-a1-m1-cT MQLVLAGKYIGAGLASIGLVGAGIGIAIVFAALINGVSRNPALKGQLFTYSILGFALSEATGLFALMIAFLLLYA MQLVLAGKYIGAGLASIGLVGAGIGIAIVFAALINGVSRNPALKGQLFTYSILGFALSEATGLFALMIAFLLLYAV 5fld-a1-m2-cA_5fld-a1-m3-cA Crystal structure of raptor adenovirus 1 fibre head, beta-hairpin deleted form F4MI11 F4MI11 1.7 X-RAY DIFFRACTION 45 1.0 691961 (Raptor siadenovirus A) 691961 (Raptor siadenovirus A) 124 124 5fld-a1-m1-cA_5fld-a1-m2-cA 5fld-a1-m1-cA_5fld-a1-m3-cA VSYSDGHFLTKSGGVINFRKTRVTSITITILGEFLTFKGADFKSSTLKDELLIPLEGAVQLNTAPSTALCIFITTDHVYRELCMMQFLTDVDKTPFLVVLRSESKHETIQYMHIVTVHPFLSLT VSYSDGHFLTKSGGVINFRKTRVTSITITILGEFLTFKGADFKSSTLKDELLIPLEGAVQLNTAPSTALCIFITTDHVYRELCMMQFLTDVDKTPFLVVLRSESKHETIQYMHIVTVHPFLSLT 5flg-a1-m1-cB_5flg-a1-m1-cA Crystal structure of the 6-carboxyhexanoate-CoA ligase (BioW)from Bacillus subtilis in complex with AMPPNP P53559 P53559 2.04 X-RAY DIFFRACTION 50 0.992 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 252 253 5fll-a1-m1-cA_5fll-a1-m1-cB 5fm0-a1-m1-cA_5fm0-a1-m1-cB ETFYSVRMRASMNGSHEDGGKHISGGERLIPFHEMKHTVNALLEKGLSHSRGKPDFMQIQFEEVHESIKTIQPLPVHTNEVSCPEEGQKLARLLLEKEGVSRDVIEKAYEQIPEWSDVRGAVLFDIHTGKRMDQTKEKGVRVSRMDWPDANFEKWALHSHVPAHSRIKEALALASKVSRHPAVVAELCWSDDPDYITGYVAGKKMGYQRITAMKEYGTEEGCRVFFIDGSNDVNTYIHDLEKQPILIEWEED EETFYSVRMRASMNGSDGGKHISGGERLIPFHEMKHTVNALLEKGLSHSRGKPDFMQIQFEEVHESIKTIQPLPVHTNEVSCPEEGQKLARLLLEKEGVSRDVIEKAYEQIPEWSDVRGAVLFDIHTGKRMDQTKEKGVRVSRMDWPDANFEKWALHSHVPAHSRIKEALALASKVSRHPAVVAELCWSDDPDYITGYVAGKKMGYQRITAMKEYGTEEGCRVFFIDGSNDVNTYIHDLEKQPILIEWEEDHD 5fm9-a1-m1-cA_5fm9-a1-m2-cA human Notch 1, EGF 4-7 P46531 P46531 2.92 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 ADPCASNPCANGGQCLPFEASYICHCPPSFHGPTCRQDVNECGQKPGLCRHGGTCHNEVGSYRCVCRATHTGPNCERPYVPCSPSPCQNGGTCRPTGDVTHECACLPGFTGQNCEENIDDCPGNNCKNGGACVDGVNTYNCRCPPEWTGQYCTE ADPCASNPCANGGQCLPFEASYICHCPPSFHGPTCRQDVNECGQKPGLCRHGGTCHNEVGSYRCVCRATHTGPNCERPYVPCSPSPCQNGGTCRPTGDVTHECACLPGFTGQNCEENIDDCPGNNCKNGGACVDGVNTYNCRCPPEWTGQYCTE 5fmn-a1-m1-cA_5fmn-a1-m2-cB The nickel-responsive transcriptional regulator InrS Q55554 Q55554 2.4 X-RAY DIFFRACTION 44 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 86 89 5fmn-a1-m2-cA_5fmn-a1-m1-cB SQESLQKLVNRLSRIEGHIRGVKTMVQENRPCPEVLIQVAAVRGALDRVARLILDDHMNECITRAAAEGNIEQELAELKEALDRFL HVHSQESLQKLVNRLSRIEGHIRGVKTMVQENRPCPEVLIQVAAVRGALDRVARLILDDHMNECITRAAAEGNIEQELAELKEALDRFL 5fmn-a1-m2-cA_5fmn-a1-m2-cB The nickel-responsive transcriptional regulator InrS Q55554 Q55554 2.4 X-RAY DIFFRACTION 93 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 86 89 5fmn-a1-m1-cA_5fmn-a1-m1-cB SQESLQKLVNRLSRIEGHIRGVKTMVQENRPCPEVLIQVAAVRGALDRVARLILDDHMNECITRAAAEGNIEQELAELKEALDRFL HVHSQESLQKLVNRLSRIEGHIRGVKTMVQENRPCPEVLIQVAAVRGALDRVARLILDDHMNECITRAAAEGNIEQELAELKEALDRFL 5fn8-a2-m1-cA_5fn8-a2-m3-cA Crystal structure of rat CD45 extracellular region, domains d3-d4 P04157 P04157 2.45 X-RAY DIFFRACTION 325 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 178 178 5fn8-a1-m1-cB_5fn8-a1-m2-cB DFGTPEMLPHVQCKNSTNSTTLVSWAEPASKHHGYILCYKKTPSEKCENLANDVNSFEVKNLRPYTEYTVSLFAYVIPAKDCNFRTKAARPGKVNGMKTSRASDNSINVTCNSPYEINGPEARYILEVKSGGSLVKTFNQSTCKFVVDNLYYSTDYEFLVYFYNGEYLGDPEIKPQST DFGTPEMLPHVQCKNSTNSTTLVSWAEPASKHHGYILCYKKTPSEKCENLANDVNSFEVKNLRPYTEYTVSLFAYVIPAKDCNFRTKAARPGKVNGMKTSRASDNSINVTCNSPYEINGPEARYILEVKSGGSLVKTFNQSTCKFVVDNLYYSTDYEFLVYFYNGEYLGDPEIKPQST 5fna-a1-m1-cD_5fna-a1-m1-cH Cryo-EM reconstruction of caspase-1 CARD P29466 P29466 4.8 ELECTRON MICROSCOPY 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 5fna-a1-m1-cA_5fna-a1-m1-cE 5fna-a1-m1-cB_5fna-a1-m1-cF 5fna-a1-m1-cC_5fna-a1-m1-cG ADKVLKEKRKLFIRSMGEGTINGLLDELLQTRVLNKEEMEKVKRENATVMDKTRALIDSVIPKGAQACQICITYICEEDSYLAGT ADKVLKEKRKLFIRSMGEGTINGLLDELLQTRVLNKEEMEKVKRENATVMDKTRALIDSVIPKGAQACQICITYICEEDSYLAGT 5fna-a1-m1-cG_5fna-a1-m1-cH Cryo-EM reconstruction of caspase-1 CARD P29466 P29466 4.8 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 5fna-a1-m1-cA_5fna-a1-m1-cB 5fna-a1-m1-cB_5fna-a1-m1-cC 5fna-a1-m1-cC_5fna-a1-m1-cD 5fna-a1-m1-cD_5fna-a1-m1-cE 5fna-a1-m1-cE_5fna-a1-m1-cF 5fna-a1-m1-cF_5fna-a1-m1-cG 7keu-a1-m1-cE_7keu-a1-m1-cF 7keu-a1-m1-cF_7keu-a1-m1-cG 7keu-a1-m1-cG_7keu-a1-m1-cH ADKVLKEKRKLFIRSMGEGTINGLLDELLQTRVLNKEEMEKVKRENATVMDKTRALIDSVIPKGAQACQICITYICEEDSYLAGT ADKVLKEKRKLFIRSMGEGTINGLLDELLQTRVLNKEEMEKVKRENATVMDKTRALIDSVIPKGAQACQICITYICEEDSYLAGT 5fo3-a1-m1-cA_5fo3-a1-m1-cB ZapC cell division regulator from E. coli P75862 P75862 2.9 X-RAY DIFFRACTION 30 1.0 562 (Escherichia coli) 562 (Escherichia coli) 158 158 RIKPDDNWRWYYDEEHDRLDLANGLFRSRFARKLTPDAFSPAGFCVDDAALYFSFEEKCRDFNLSKEQKAELVLNALVAIRYLKPQPKSWHFVSHGEWVPPGDAACVWLSDTHEQVNLLVVESGENAALCLLAQPCVVIAGRAQLGDAIKINDRLKPQ RIKPDDNWRWYYDEEHDRLDLANGLFRSRFARKLTPDAFSPAGFCVDDAALYFSFEEKCRDFNLSKEQKAELVLNALVAIRYLKPQPKSWHFVSHGEWVPPGDAACVWLSDTHEQVNLLVVESGENAALCLLAQPCVVIAGRAQLGDAIKINDRLKPQ 5fo5-a1-m1-cA_5fo5-a1-m2-cA Structure of the DNA-binding domain of Escherichia coli methionine biosynthesis regulator MetR P0A9F9 P0A9F9 2.16 X-RAY DIFFRACTION 59 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 88 88 MIEVKHLKTLQALRNCGSLAAAAATLHQTQSALSHQFSDLEQRLGFRLFVRKSQPLRFTPQGEILLQLANQVLPQISQALQACNEPQQ MIEVKHLKTLQALRNCGSLAAAAATLHQTQSALSHQFSDLEQRLGFRLFVRKSQPLRFTPQGEILLQLANQVLPQISQALQACNEPQQ 5fog-a4-m2-cC_5fog-a4-m1-cB Crystal structure of hte Cryptosporidium muris cytosolic leucyl-tRNA synthetase editing domain complex with a post-transfer editing analogue of norvaline (Nv2AA) B6AA20 B6AA20 2.3 X-RAY DIFFRACTION 52 0.989 441375 (Cryptosporidium muris RN66) 441375 (Cryptosporidium muris RN66) 274 281 5fog-a1-m1-cA_5fog-a1-m2-cD 5fog-a2-m1-cC_5fog-a2-m2-cB 5fog-a3-m2-cA_5fog-a3-m1-cD GPQEYTLIKLKIHLIPEFLGSIVKGREVFVVCATLRPETMYGQTNCWILPDGEYDLVLAFDQVIPTSDGVLCKIFDKYEDTMKECNTVYICSERSAYNMAYQGIVPLIHLPRIVSLGKVYGEQLIGTPLSAPMTPYSLIFILPMFSISMEKGTGIVTSVPSDSPDDYAALRDIKTKPLLREKYSIKDEWILDPLEIIEVPGFGFMTAELLCNQYKIQSQNDSAKLKQAKEEIYKKEFYEGILIRGKYSGMKICDAKELIRESLIKDGYALIYLE GPQEYTLIKLKIHLIPEFLGSIVKGREVFVVCATLRPETMYGQTNCWILPDGEYDLVLAFDQVIPGVLCKIFDKYEDTMKECNTVYICSERSAYNMAYQGIVPLIHGREQGVSDKLLPRIVSLGKVYGEQLIGTPLSAPMTPYSLIFILPMFSISMEKGTGIVTSVPSDSPDDYAALRDIKTKPLLREKYSIKDEWILDPLEIIEVPGFGFMTAELLCNQYKIQSQNDSAKLKQAKEEIYKKEFYEGILIRGKYSGMKICDAKELIRESLIKDGYALIYLE 5fol-a1-m1-cA_5fol-a1-m2-cA Crystal structure of the Cryptosporidium muris cytosolic leucyl-tRNA synthetase editing domain complex with a post-transfer editing analogue of isoeucine (Ile2AA) B6AA20 B6AA20 1.77 X-RAY DIFFRACTION 68 1.0 441375 (Cryptosporidium muris RN66) 441375 (Cryptosporidium muris RN66) 274 274 5fom-a1-m1-cA_5fom-a1-m2-cA GPQEYTLIKLKIHLIPEFLGSIVKGREVFVVCATLRPETMYGQTNCWILPDGEYDLVLAFDQKIFDKYEDTMKECNTVYICSERSAYNMAYQGIVPLIHGREQGVSDKLLPRIVSLGKVYGEQLIGTPLSAPMTPYSLIFILPMFSISMEKGTGIVTSVPSDSPDDYAALRDIKTKPLLREKYSIKDEWILDPLEIIEVPGFGFMTAELLCNQYKIQSQNDSAKLKQAKEEIYKKEFYEGILIRGKYSGMKICDAKELIRESLIKDGYALIYLE GPQEYTLIKLKIHLIPEFLGSIVKGREVFVVCATLRPETMYGQTNCWILPDGEYDLVLAFDQKIFDKYEDTMKECNTVYICSERSAYNMAYQGIVPLIHGREQGVSDKLLPRIVSLGKVYGEQLIGTPLSAPMTPYSLIFILPMFSISMEKGTGIVTSVPSDSPDDYAALRDIKTKPLLREKYSIKDEWILDPLEIIEVPGFGFMTAELLCNQYKIQSQNDSAKLKQAKEEIYKKEFYEGILIRGKYSGMKICDAKELIRESLIKDGYALIYLE 5fp4-a1-m1-cA_5fp4-a1-m2-cA Crystal structure of human KDM4D in complex with 3-(4- phenylbutanamido)pyridine-4-carboxylic acid Q6B0I6 Q6B0I6 2 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 AQNPNCNIMIFHPTKEEFNDFDKYIAYMESQGAHRAGLAKIIPPKEWKARETYDNISEILIATPLQQVASGRAGVFTQYHKKKKAMTVGEYRHLANSKKYQTPPHQNFEDLERKYWKNRIYNSPIYGADISGSLFDENTKQWNLGHLGTIQDLLEKECGVVIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHLGEPKTWYVVPPEHGQRLERLARELFPGSSRGCGAFLRHKVALISPTVLKENGIPFNRITQEAGEFMVTFPYGYHAGFNHGFNCAEAINFATPRWIDYGKMASQCSCGEARVTFSMDAFVRILQPERYDLWKRGQ AQNPNCNIMIFHPTKEEFNDFDKYIAYMESQGAHRAGLAKIIPPKEWKARETYDNISEILIATPLQQVASGRAGVFTQYHKKKKAMTVGEYRHLANSKKYQTPPHQNFEDLERKYWKNRIYNSPIYGADISGSLFDENTKQWNLGHLGTIQDLLEKECGVVIEGVNTPYLYFGMWKTTFAWHTEDMDLYSINYLHLGEPKTWYVVPPEHGQRLERLARELFPGSSRGCGAFLRHKVALISPTVLKENGIPFNRITQEAGEFMVTFPYGYHAGFNHGFNCAEAINFATPRWIDYGKMASQCSCGEARVTFSMDAFVRILQPERYDLWKRGQ 5fph-a1-m1-cA_5fph-a1-m2-cA The GTPase domains of the immunity-related Irga6 dimerize in a parallel head-to-head fashion Q9QZ85 Q9QZ85 3.2 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 385 385 DLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVEVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGKPQTEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDETIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN DLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVEVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGKPQTEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDETIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN 5fph-a4-m1-cC_5fph-a4-m1-cD The GTPase domains of the immunity-related Irga6 dimerize in a parallel head-to-head fashion Q9QZ85 Q9QZ85 3.2 X-RAY DIFFRACTION 26 0.997 10090 (Mus musculus) 10090 (Mus musculus) 379 386 DLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVEVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADFDKEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLAREIEVDQVEAIKSPAVFKPTTIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN NDLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVEVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGKDKEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDEETIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN 5fph-a6-m1-cF_5fph-a6-m1-cD The GTPase domains of the immunity-related Irga6 dimerize in a parallel head-to-head fashion Q9QZ85 Q9QZ85 3.2 X-RAY DIFFRACTION 18 0.992 10090 (Mus musculus) 10090 (Mus musculus) 384 386 NNDLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGTFDKEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDTIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN NDLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVEVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGKDKEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDEETIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN 5fph-a7-m1-cF_5fph-a7-m1-cG The GTPase domains of the immunity-related Irga6 dimerize in a parallel head-to-head fashion Q9QZ85 Q9QZ85 3.2 X-RAY DIFFRACTION 23 0.995 10090 (Mus musculus) 10090 (Mus musculus) 384 389 5fph-a3-m1-cC_5fph-a3-m1-cB NNDLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGTFDKEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDTIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLRN NDLPSSFTGYFKKFNTGEEIISQEILNLIELRRKGNIQLTNSAISDALKEIDSSVLNVAVTGETGSGKSSFINTLRGIGNEEEGAAKTGVVEVTERHPYKHPNIPNVVFWDLPGIGSTNFPPNTYLEKKFYEYDFFIIISATRFKKNDIDIAKAISKEEFYFVRTKVDSDITNEADGKPQTFDKEKVLQDIRLNCVNTFRENGIAEPPIFLLSNKNVCHYDFPVLDELISDLPIYKRHNFVSLPNITDSVIEKKRQFLKQRIWLEGFAADLVNIIPSLTFLLDSDLETLKKSKFYRTVFGVDETSLQRLARDWEIEVDQVEAIKSPAVFKPTDEETIQERLSRYIQEFCLANGYLLPKNSFLKEIFYLKYYFLDVTEDAKTLLKEICLR 5fpz-a1-m1-cA_5fpz-a1-m2-cA The structure of KdgF from Yersinia enterocolitica with malonate bound in the active site. A1JMF7 A1JMF7 1.5 X-RAY DIFFRACTION 121 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 110 110 5fpx-a1-m1-cA_5fpx-a1-m1-cB SKMFFINDETPWEELGNGIKRKVMTWSDDLMMVCVHFDKGAIGVAHKHDIHDQIAYVAAGSFEVEIEGQKRILKAGDAYRAVKNEMHGAVSLEDNSILIDTFNPKRDDFL SKMFFINDETPWEELGNGIKRKVMTWSDDLMMVCVHFDKGAIGVAHKHDIHDQIAYVAAGSFEVEIEGQKRILKAGDAYRAVKNEMHGAVSLEDNSILIDTFNPKRDDFL 5fq0-a2-m1-cD_5fq0-a2-m1-cC The structure of KdgF from Halomonas sp. A0A182DWD2 A0A182DWD2 2 X-RAY DIFFRACTION 114 1.0 1486246 (Halomonas sp.) 1486246 (Halomonas sp.) 108 109 5fq0-a1-m1-cB_5fq0-a1-m1-cA SFFINDEHDWQDVEPGIQRKIVAHTPDLMAVCVKFDRGAVGTPHQHERHDQIGYVVQGAFEVELEGEKRRLSPGDAFVAPHHTMHGAVALEPDSLVIDLFSPRRDDML SFFINDEHDWQDVEPGIQRKIVAHTPDLMAVCVKFDRGAVGTPHQHERHDQIGYVVQGAFEVELEGEKRRLSPGDAFVAPHHTMHGAVALEPDSLVIDLFSPRRDDMLK 5fq1-a1-m1-cA_5fq1-a1-m1-cB Structure of the cytoplasmic PAS domain of the Geobacillus thermodenitrificans histidine kinase CitA A4IPE6 A4IPE6 1.76 X-RAY DIFFRACTION 92 1.0 33940 (Geobacillus thermodenitrificans) 33940 (Geobacillus thermodenitrificans) 108 108 SPEEIGLLYQEKQAILEAIREGIVAINQEGTITVNQTALKLLGYDNERNVLGTPILQLIPHSRLPEVIRTGQAEYDDEVLGGETVIANRIPIKNKQGRVIGAVSTFRN SPEEIGLLYQEKQAILEAIREGIVAINQEGTITVNQTALKLLGYDNERNVLGTPILQLIPHSRLPEVIRTGQAEYDDEVLGGETVIANRIPIKNKQGRVIGAVSTFRN 5fq8-a1-m1-cD_5fq8-a1-m1-cB Crystal structure of the SusCD complex BT2261-2264 from Bacteroides thetaiotaomicron Q8A5H5 Q8A5H5 2.75 X-RAY DIFFRACTION 158 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 941 945 5fq6-a1-m1-cD_5fq6-a1-m1-cM 5fq6-a2-m1-cB_5fq6-a2-m1-cI 5fq7-a1-m1-cB_5fq7-a1-m1-cD EKALGYAATSVGGEKIAESRTSDVMSSLAGKIAGVQISSTSSDPGASNSVIIRGVSSLSGTNQPLYVVDGVPLNNSTVYSTDGLNSGYDFGNGANAINPDDVANMTILKGAAATALYGSRAANGVVMITTKSGRKEKGVGIEYNGGVQWSTVLRLPEFQNEFGMGWNGNHTELENGSWGPRFDGSMQLWGNVYNNSQKLKPYVAMPDNIKDFFDAGFRYSNSLSFNGATDKSDYYVSFSQISDDGMIPTDADSYDKYTFSARGSHKAGALTFSSSLNYAYQKNNFATTGQGLSMLNSLYQTPRDISIIGLEDQNDPFNTPGYYYTPYGVMNPYYILNNYLNEYESERFYGKFQLDYEFLKYFKFTYRMGLDTTTGQSDKGKPNLYALYYEGTPNGEGQGSSSPFSGETGQYSEQITRRREINQDIMVNFNMPVNDFNINALVGFNGNERKVSYQYSEVNDLTIPTWFNLKNSGKTPIVEQHMELRRLMGVFGQFEGSWKNMLYLTVTARNDWSSTLPKENRSFFYPGITGSFIFSELLDVITFGKIRASWGKTGNDADVYMVNPVYAQSSNRIPFGSLTFPLGGVNAYSAGNVLGSNTLSPEMTTESEVGLNMAFFKNRLSFDVSYYNRNTDKQIFSLAMDPASGYTAQNMNLGKIRNRGIELLISGTPIRTKDFSWELTWNFTKNWSKVISLPEELGGITTIYGLNGGTSMYAITGMPVGVFKAQVAERDPQGRIVVNSSTGLPVEASEFGICGDMNNKYQMGVSTNLKYKGISLGIDFDIRQGGVMYSRTKDINYFTGNAIQTAYNDRNPLIVPNSVNKIGENVTYVENTTPITSSNIYKYWGDGGSDMGSCFLVDKSYVKLRSVVLGWDLPKRWLAKTPFQAVKVSAYGNNLFVWTPSSNTFIDPEMTSFGNDLEGNYGEYTANPSSRRFGFNLMVKF EKALGYAATSVGGEKIAESRTSDVMSSLAGKIAGVQISSTSSDPGASNSVIIRGVSSLSGTNQPLYVVDGVPLNNSTVYSTDGLNSGYDFGNGANAINPDDVANMTILKGAAATALYGSRAANGVVMITTKSGRKEKGVGIEYNGGVQWSTVLRLPEFQNEFGMGWNGNHTELENGSWGPRFDGSMQLWGNVYNNSQKLKPYVAMPDNIKDFFDAGFRYSNSLSFNGATDKSDYYVSFSQISDDGMIPTDADSYDKYTFSARGSHKAGALTFSSSLNYAYQKNNFATTGQGLSMLNSLYQTPRDISIIGLEDQNDPFNTPGYYYTPYGVMNPYYILNNYLNEYESERFYGKFQLDYEFLKYFKFTYRMGLDTTTGQSDKGKPNLYALYYEGTPNGEGQGSSSPFSGETGQYSEQITRRREINQDIMVNFNMPVNDFNINALVGFNGNERKVSYQYSEVNDLTIPTWFNLKNSGKTPIVEQHMELRRLMGVFGQFEGSWKNMLYLTVTARNDWSSTLPKENRSFFYPGITGSFIFSELLLQDVITFGKIRASWGKTGNDADVYMVNPVYAQSSNRIPFGSLTFPLGGVNAYSAGNVLGSNTLSPEMTTESEVGLNMAFFKNRLSFDVSYYNRNTDKQIFSLAMDPASGYTAQNMNLGKIRNRGIELLISGTPIRTKDFSWELTWNFTKNWSKVISLPEELGGITTIYGLNGGTSMYAITGMPVGVFKAQVAERDPQGRIVVNSSTGLPVEASEFGICGDMNNKYQMGVSTNLKYKGISLGIDFDIRQGGVMYSRTKDINYFTGNAIQTAYNDRNPLIVPNSVNKIVNGENVTYVENTTPITSSNIYKYWGDGGSDMGSCFLVDKSYVKLRSVVLGWDLPKRWLAKTPFQAVKVSAYGNNLFVWTPSSNTFIDPEMTSFGNDLEGNYGEYTANPSSRRFGFNLMVKF 5fql-a1-m1-cA_5fql-a1-m2-cA Insights into Hunter syndrome from the structure of iduronate-2- sulfatase P22304 P22304 2.3 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 506 506 TDALNVLLIIVDDLRPSLGCYGDKLVRSPNIDQLASHSLLFQNAFAQQAVAPSRVSFLTGRRPDTTRLYDFNSYWRVHAGNFSTIPQYFKENGYVTMSVGKVFHPGISSNHTDDSPYSWSFPPYHPSSEKYENTKTCRGPDGELHANLLCPVDVLDVPEGTLPDKQSTEQAIQLLEKMKTSASPFFLAVGYHKPHIPFRYPKEFQKLYPLENITLAPDPEVPDGLPPVAYNPWMDIRQREDVQALNISVPYGPIPVDFQRKIRQSYFASVSYLDTQVGRLLSALDDLQLANSTIIAFTSDHGWALGEHGEWAKYSNFDVATHVPLIFYVPGRTASLPEAGEKLFPYLDPFDSASQLMEPGRQSMDLVELVSLFPTLAGLAGLQVPPRCPVPSFHVELCREGKNLLKHFRPGNPRELIAYSQYPRPSDIPQWNSDKPSLKDIKIMGYSIRTIDYRYTVWVGFNPDEFLANFSDIHAGELYFVDSDPLQDHNMYNDSQGGDLFQLLMP TDALNVLLIIVDDLRPSLGCYGDKLVRSPNIDQLASHSLLFQNAFAQQAVAPSRVSFLTGRRPDTTRLYDFNSYWRVHAGNFSTIPQYFKENGYVTMSVGKVFHPGISSNHTDDSPYSWSFPPYHPSSEKYENTKTCRGPDGELHANLLCPVDVLDVPEGTLPDKQSTEQAIQLLEKMKTSASPFFLAVGYHKPHIPFRYPKEFQKLYPLENITLAPDPEVPDGLPPVAYNPWMDIRQREDVQALNISVPYGPIPVDFQRKIRQSYFASVSYLDTQVGRLLSALDDLQLANSTIIAFTSDHGWALGEHGEWAKYSNFDVATHVPLIFYVPGRTASLPEAGEKLFPYLDPFDSASQLMEPGRQSMDLVELVSLFPTLAGLAGLQVPPRCPVPSFHVELCREGKNLLKHFRPGNPRELIAYSQYPRPSDIPQWNSDKPSLKDIKIMGYSIRTIDYRYTVWVGFNPDEFLANFSDIHAGELYFVDSDPLQDHNMYNDSQGGDLFQLLMP 5fr6-a1-m1-cA_5fr6-a1-m2-cA The structure of polycomb ULD complex P35226 P35226 2.51 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 83 83 DDEIISLSIEFFKRYLRCPAAMTVMHLRKFLRSKMDIPNTFQIDVMYEEEPLKDYYTLMDIAYIYTWRRNGPLPLKYRVRPTC DDEIISLSIEFFKRYLRCPAAMTVMHLRKFLRSKMDIPNTFQIDVMYEEEPLKDYYTLMDIAYIYTWRRNGPLPLKYRVRPTC 5fr7-a1-m1-cB_5fr7-a1-m2-cB Erwinia amylovora AmyR amylovoran repressor, a member of the YbjN protein family D4I047 D4I047 1.95 X-RAY DIFFRACTION 28 1.0 665029 (Erwinia amylovora CFBP1430) 665029 (Erwinia amylovora CFBP1430) 146 146 5fr7-a1-m1-cA_5fr7-a1-m2-cA AMGMVSLVVPDLDVLRRWLDQQSITWFECDSCQALHLPHMQNFDGVFDAKIDLMDGVILFSALAEVKPTALIPLAGDLSQINASSLTVKAFLDIQDDNLPKLIVCQSLSAAAGLTYGQFVHFMKESEEQISMIVMEAFANHLLMIA AMGMVSLVVPDLDVLRRWLDQQSITWFECDSCQALHLPHMQNFDGVFDAKIDLMDGVILFSALAEVKPTALIPLAGDLSQINASSLTVKAFLDIQDDNLPKLIVCQSLSAAAGLTYGQFVHFMKESEEQISMIVMEAFANHLLMIA 5fr7-a2-m1-cA_5fr7-a2-m1-cB Erwinia amylovora AmyR amylovoran repressor, a member of the YbjN protein family D4I047 D4I047 1.95 X-RAY DIFFRACTION 106 1.0 665029 (Erwinia amylovora CFBP1430) 665029 (Erwinia amylovora CFBP1430) 145 146 5fr7-a1-m1-cA_5fr7-a1-m1-cB 5fr7-a1-m2-cA_5fr7-a1-m2-cB 5frk-a1-m1-cA_5frk-a1-m1-cB AMGMVSLVVPDLDVLRRWLDQQSITWFECDSCQALHLPHMQNFDGVFDAKIDLMDGVILFSALAEVKPTALIPLAGDLSQINASSLTVKAFLDIQDDNLPKLIVCQSLSAAAGLTYGQFVHFMKESEEQISMIVMEAFANHLLMI AMGMVSLVVPDLDVLRRWLDQQSITWFECDSCQALHLPHMQNFDGVFDAKIDLMDGVILFSALAEVKPTALIPLAGDLSQINASSLTVKAFLDIQDDNLPKLIVCQSLSAAAGLTYGQFVHFMKESEEQISMIVMEAFANHLLMIA 5fr9-a3-m1-cA_5fr9-a3-m1-cH Structure of transaminase ATA-117 arRmut11 from Arthrobacter sp. KNK168 inhibited with 1-(4-Bromophenyl)-2-fluoroethylamine F7J696 F7J696 2.81 X-RAY DIFFRACTION 32 1.0 1667 (Arthrobacter sp.) 1667 (Arthrobacter sp.) 319 321 5fr9-a1-m1-cJ_5fr9-a1-m1-cD 5fr9-a1-m1-cL_5fr9-a1-m1-cF 5fr9-a2-m1-cI_5fr9-a2-m1-cC 5fr9-a2-m1-cK_5fr9-a2-m1-cE 5fr9-a3-m1-cB_5fr9-a3-m1-cG YTHDTGLDYITYSDYELDPANPLAGGAAWIEGAFVPPSEARISIFDQGFYTSDATYTTFHVWNGNAFRLGDHIERLFSNAESIRLIPPLTQDEVKEIALELVAKTELREAMVTVTITRGYSSTPFERDITKHRPQVYMSACPYQWIVPFDRIRDGVHLMVAQSVRRTPRSSIDPQVKNFQWGDLIRAIQETHDRGFELPLLLDCDNLLAEGPGFNVVVIKDGVVRSPGRAALPGITRKTVLEIAESLGHEAILADITPAELYDADEVLGCSTGGGVWPFVSVDGNSISDGVPGPVTQSIIRRYWELNVEPSSLLTPVQY IVYTHDTGLDYITYSDYELDPANPLAGGAAWIEGAFVPPSEARISIFDQGFYTSDATYTTFHVWNGNAFRLGDHIERLFSNAESIRLIPPLTQDEVKEIALELVAKTELREAMVTVTITRGYSSTPFERDITKHRPQVYMSACPYQWIVPFDRIRDGVHLMVAQSVRRTPRSSIDPQVKNFQWGDLIRAIQETHDRGFELPLLLDCDNLLAEGPGFNVVVIKDGVVRSPGRAALPGITRKTVLEIAESLGHEAILADITPAELYDADEVLGCSTGGGVWPFVSVDGNSISDGVPGPVTQSIIRRYWELNVEPSSLLTPVQY 5fr9-a3-m1-cB_5fr9-a3-m1-cH Structure of transaminase ATA-117 arRmut11 from Arthrobacter sp. KNK168 inhibited with 1-(4-Bromophenyl)-2-fluoroethylamine F7J696 F7J696 2.81 X-RAY DIFFRACTION 10 1.0 1667 (Arthrobacter sp.) 1667 (Arthrobacter sp.) 320 321 5fr9-a2-m1-cK_5fr9-a2-m1-cC VYTHDTGLDYITYSDYELDPANPLAGGAAWIEGAFVPPSEARISIFDQGFYTSDATYTTFHVWNGNAFRLGDHIERLFSNAESIRLIPPLTQDEVKEIALELVAKTELREAMVTVTITRGYSSTPFERDITKHRPQVYMSACPYQWIVPFDRIRDGVHLMVAQSVRRTPRSSIDPQVKNFQWGDLIRAIQETHDRGFELPLLLDCDNLLAEGPGFNVVVIKDGVVRSPGRAALPGITRKTVLEIAESLGHEAILADITPAELYDADEVLGCSTGGGVWPFVSVDGNSISDGVPGPVTQSIIRRYWELNVEPSSLLTPVQY IVYTHDTGLDYITYSDYELDPANPLAGGAAWIEGAFVPPSEARISIFDQGFYTSDATYTTFHVWNGNAFRLGDHIERLFSNAESIRLIPPLTQDEVKEIALELVAKTELREAMVTVTITRGYSSTPFERDITKHRPQVYMSACPYQWIVPFDRIRDGVHLMVAQSVRRTPRSSIDPQVKNFQWGDLIRAIQETHDRGFELPLLLDCDNLLAEGPGFNVVVIKDGVVRSPGRAALPGITRKTVLEIAESLGHEAILADITPAELYDADEVLGCSTGGGVWPFVSVDGNSISDGVPGPVTQSIIRRYWELNVEPSSLLTPVQY 5frp-a1-m1-cB_5frp-a1-m1-cA Structure of the Pds5-Scc1 complex and implications for cohesin function Q04264 Q04264 2.895 X-RAY DIFFRACTION 138 0.991 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 660 677 KGAVTKLKFNSPIISTSDQLISTNELLDRLKALHEELASLDQDNTDLTGLDKYRDALVSRKLLKHKDVGIRAFTACCLSDILRLYAPDAPYTDAQLTDIFKLVLSQFEQLGDQENGYHIQQTYLITKLLEYRSIVLLADLPSSNNLLIELFHIFYDPNKSFPARLFNVIGGILGEVISEFDSVPLEVLRLIFNKFLTYNPNEIPEGLNVTSDCGYEVSLILCDTYSNRMSRHLTKYYSEIIHEATNDDNNSRLLTVVVKLHKLVLRLWETVPELINAVIGFIYHELSSENELFRKEATKLIGQILTSYSDLNFVSTHSDTFKAWISKIADISPDVRVEWTESIPQIIATREDISKELNQALAKTFIDSDPRVRRTSVMIFNKVPVTEIWKNITNKAIYTSLLHLAREKHKEVRELCINTMAKFYSNSLNEIERTYQNKEIWEIIDTIPSTLYNLYYINDLNINEQVDSVIFEYLLPFEPDNDKRVHRLLTVLSHFDKKAFTSFFAFNARQIKISFAISKYIDFSKFIVMNKYNQTLQWLASGLSDSTKAIDALETIKQFNRIFYLLNACVTNDIPFLTFKNCYNELVSKLQTDIAKVIQILLFRASPIIYNVSNISVLLNLSSDAKQLDLKRRILDDISKVNPTLFKDQIRTLKTIIKDL KGAVTKLKFNSPIISTSDQLISTNELLDRLKALHEELASLDQDNTDLTGLDKYRDALVSRKLLKHKDVGIRAFTACCLSDILRLYAPDAPYTDAQLTDIFKLVLSQFEQLGDQENGYHIQQTYLITKLLEYRSIVLLADLPSSNNLLIELFHIFYDPNKSFPARLFNVIGGILGEVISEFDSVPLEVLRLIFNKFLTYNPNEIPEGLNVTSDCGYEVSLILCDTYSNRMSRHLTKYYSEIIHEATNDDNNSRLLTVVVKLHKLVLRLWETVPELINAVIGFIYHELSSENELFRKEATKLIGQILTSYSDLNFVSTHSDTFKAWISKIADISPDVRVEWTESIPQIIATREDISKELNQALAKTFIDSDPRVRRTSVMIFNKVPVTEIWKNITNKAIYTSLLHLAREKHKEVRELCINTMAKFYSNSLNEIERTYQNKEIWEIIDTIPSTLYNLYYINDLNINEQVDSVIFEYLLPFEPDNDKRVHRLLTVLSHFDKKAFTSFFAFNARQIKISFAISKYIDFSKFLNNQESMSSSQGPIVMNKYNQTLQWLASGLSDSTKAIDALETIKQFNDERIFYLLNACVTNDIPFLTFKNCYNELVSKLQTPSIMPRDIAKVIQILLFRASPIIYNVSNISVLLNLSNNSDAKQLDLKRRILDDISKVNPTLFKDQIRTLK 5fry-a1-m1-cA_5fry-a1-m1-cB crystal structure of the phenol-responsive sensory domain of the transcription activator PoxR with 3,5-dimethylphenol O84957 O84957 1.792 X-RAY DIFFRACTION 154 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 194 194 5fru-a1-m1-cA_5fru-a1-m1-cB 5frv-a1-m1-cA_5frv-a1-m1-cB 5frw-a1-m1-cB_5frw-a1-m1-cA 5frx-a1-m1-cA_5frx-a1-m1-cB 5frz-a1-m1-cA_5frz-a1-m1-cB 5fs0-a1-m1-cA_5fs0-a1-m1-cB DGLSNLARRLRFAMKEGSIWLGEQRMILLHTAALGALRKELVDTLGMERARGLFMRMGFHSGVRDAELAKTMRSGHSDFGMLEMGPCLHTIEGVVRVTPLTVDINIAAGVYHGEFLWEDSFEGDVHRQMFGVAQAPVCWMQIGYATGYTSALMGKTILYRELECVGCGHPHCRILGKPLEQWEDGEAELALYQP DGLSNLARRLRFAMKEGSIWLGEQRMILLHTAALGALRKELVDTLGMERARGLFMRMGFHSGVRDAELAKTMRSGHSDFGMLEMGPCLHTIEGVVRVTPLTVDINIAAGVYHGEFLWEDSFEGDVHRQMFGVAQAPVCWMQIGYATGYTSALMGKTILYRELECVGCGHPHCRILGKPLEQWEDGEAELALYQP 5fsh-a1-m1-cB_5fsh-a1-m1-cA Crystal structure of Thermus thermophilus Csm6 Q53W17 Q53W17 2.301 X-RAY DIFFRACTION 159 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 448 459 AMEDLDALWERYREAVQALYQEMVWPALLALWREKPRVYPFPQAFAVSVHTLGTSPEATALAILGAGAERVYVLHTPESARFLPRLRQDTGKDLYPVEIGKSDVEAIYREVKRLLEKHPEVPVALDLTSGTKAMSAGLAAAGFFFQRFYPKVRVVYVDNLRRPRAGTEKLRILPNPHEALAEVDALFAKELYGKGEFGQAAAYFRGMVGRTGNQAYALYALLAEMYRAWRALDFGEALKAGRKLLGQLSQNVWLNHPLNARREALEAQVALLEAVDRFLKARDFALKEGVYGLARTLLHLAQEAKEEAAVLAALYAYRALELLLQERLALLGRRAPGLSPEEAEALRKALAELLPEEVRLPAKLGLLDLLAFLRLKGDEALGRLSLAELRGLAGALKGRNSALLVHGFDVPSPKAVEGIARLAQGLLQDLEARTALGPLSPEPVPLGF SNAMEDLDALWERYREAVRAGGNPQALYQEMVWPALLALWREKPRVYPFPQAFAVSVHTLGTSPEATALAILGAGAERVYVLHTPESARFLPRLRQDTGKDLYPVEIGKSDVEAIYREVKRLLEKHPEVPVALDLTSGTKAMSAGLAAAGFFFQRFYPKVRVVYVDNEDYELRRPRAGTEKLRILPNPHEALAEVDALFAKELYGKGEFGQAAAYFRGMVGRTGNQAYALYALLAEMYRAWRALDFGEALKAGRKLLGQLSQNVWLNHPLNARREALEAQVALLEAVDRFLKARDFALKEGVYGLARTLLHLAQEAKEEAAVLAALYAYRALELLLQERLALLGRRPGLSPEEAEALRKALAELLPEEVRLPAKLGLLDLLAFLRLKGDEALGRLSLAELRGLAGALKGRNSALLVHGFDVPSPKAVEGIARLAQGLLQDLEARTALGPLSPEPVPLGF 5fsw-a2-m1-cC_5fsw-a2-m1-cD RNA dependent RNA polymerase QDE-1 from Thielavia terrestris G2R911 G2R911 3.19 X-RAY DIFFRACTION 272 1.0 922 922 5fsw-a1-m1-cB_5fsw-a1-m1-cA QSMEVYARLQNIWPKFPRWLHAAPLALAWELTRICLHCKVDLEDPTLRYDPSWATSDMAALWRSLTQLDVFRGKSFPERPSAEAFAAALTGNFESRGNTVVLSASLEFNPSKTGPLFLLDMKPLRFDEGCRLTRRFGPDRFLEVLVPSPTALNAPSILKDGGAAQVIRWLTEKPHSLVGRQWQAFYTKDAGAKATFKERVHFFAERGHDFRPAPLTRAQLPVSEMLDWLLQLEQNEYQPHLKLFSRIQLGLSKTFPTVTFEPNQIRHRTDDILSPAGKIMNDGIGRMSRSVARKIRDALGLSDIPSAIQGRMGSAKGMWLMDVADAGDDDWIETYPSQRKWKCDDADALHRTLEIRSVSTELKPAALNLQFLPVLEDRAKDKARMRRAIAARLMNDLKKQFDSQKAAVERPLQFRQWVNECTNSRSERVRHGQVPFLGGLPENKGEVLSFLLNSGFDRRQKYIQDLAFDLQKQRCEVLRTKLNIHVGRSAYMFMVVDFWGVLEENEVHVGFSSKFRDDDTTYMLLTDCDVLVARSPAHFPSDIQKVRAVFKPQLHALKDVIVFPAKGDIPLADKLSGGDYDGDMAWVCWDPDIVENFTNADMPKEPDLSAYLGKDKTTFGELVRDTGTGAAARHEAVYDMINKSFQFAMQPNYLGICTNYKERVCYHNNSVSDGVALLLSTLVGKLVDQSKQGILFDAASWDRLRRERLGGRMSVEDPAYKGDVWAGAGEPRHIVDYLKFAVAKPTIDRELEELHKVMQASRDDDAAAHSWDPDLAVYFENFKALTAESRSLRAVLEALQNALGAVEHEWKVLTYPEKVRQLHAKWCAIEPAKTAALLEQPFLADRGTSYWALLRASTAFKAYYKTNPKFVWQMAGAQLAFIKAQMSSGGSDGMPLLVTPLMYAGLAPDGRFVKQYLARLEC QSMEVYARLQNIWPKFPRWLHAAPLALAWELTRICLHCKVDLEDPTLRYDPSWATSDMAALWRSLTQLDVFRGKSFPERPSAEAFAAALTGNFESRGNTVVLSASLEFNPSKTGPLFLLDMKPLRFDEGCRLTRRFGPDRFLEVLVPSPTALNAPSILKDGGAAQVIRWLTEKPHSLVGRQWQAFYTKDAGAKATFKERVHFFAERGHDFRPAPLTRAQLPVSEMLDWLLQLEQNEYQPHLKLFSRIQLGLSKTFPTVTFEPNQIRHRTDDILSPAGKIMNDGIGRMSRSVARKIRDALGLSDIPSAIQGRMGSAKGMWLMDVADAGDDDWIETYPSQRKWKCDDADALHRTLEIRSVSTELKPAALNLQFLPVLEDRAKDKARMRRAIAARLMNDLKKQFDSQKAAVERPLQFRQWVNECTNSRSERVRHGQVPFLGGLPENKGEVLSFLLNSGFDRRQKYIQDLAFDLQKQRCEVLRTKLNIHVGRSAYMFMVVDFWGVLEENEVHVGFSSKFRDDDTTYMLLTDCDVLVARSPAHFPSDIQKVRAVFKPQLHALKDVIVFPAKGDIPLADKLSGGDYDGDMAWVCWDPDIVENFTNADMPKEPDLSAYLGKDKTTFGELVRDTGTGAAARHEAVYDMINKSFQFAMQPNYLGICTNYKERVCYHNNSVSDGVALLLSTLVGKLVDQSKQGILFDAASWDRLRRERLGGRMSVEDPAYKGDVWAGAGEPRHIVDYLKFAVAKPTIDRELEELHKVMQASRDDDAAAHSWDPDLAVYFENFKALTAESRSLRAVLEALQNALGAVEHEWKVLTYPEKVRQLHAKWCAIEPAKTAALLEQPFLADRGTSYWALLRASTAFKAYYKTNPKFVWQMAGAQLAFIKAQMSSGGSDGMPLLVTPLMYAGLAPDGRFVKQYLARLEC 5fsz-a1-m1-cA_5fsz-a1-m2-cA Crystal structure of Trypanosoma cruzi macrodomain Q4DQ03 Q4DQ03 2 X-RAY DIFFRACTION 150 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 245 245 FVTYSTSEPAKLFGEAGRRSHFRARVLEATLSPLEKAIFDVPIEEWLTVDRSKFSGWRCAVPHPVTADELKPVDSSHDILRHIALYNGPVTDLQLDAIVNAANKTCLGGKGVDGAIHAAAGPLLVRECATFKGCDTGQCRLTKGYNLPARYVLHTVGPIGERPEELRSCYRSILSLAHRNRLRSIGFCCVSTGVYGYPLIPATRIAVDETIEYLKQHFSAFDLCCFACFKLEEYNAYTDCLRAWL FVTYSTSEPAKLFGEAGRRSHFRARVLEATLSPLEKAIFDVPIEEWLTVDRSKFSGWRCAVPHPVTADELKPVDSSHDILRHIALYNGPVTDLQLDAIVNAANKTCLGGKGVDGAIHAAAGPLLVRECATFKGCDTGQCRLTKGYNLPARYVLHTVGPIGERPEELRSCYRSILSLAHRNRLRSIGFCCVSTGVYGYPLIPATRIAVDETIEYLKQHFSAFDLCCFACFKLEEYNAYTDCLRAWL 5ft1-a2-m1-cB_5ft1-a2-m1-cG Crystal structure of gp37(Dip) from bacteriophage phiKZ bound to RNase E of Pseudomonas aeruginosa Q8SDC5 Q8SDC5 2.75 X-RAY DIFFRACTION 74 0.988 169683 (Phikzvirus phiKZ) 169683 (Phikzvirus phiKZ) 243 249 5ft0-a1-m1-cB_5ft0-a1-m1-cA 5ft1-a3-m1-cK_5ft1-a3-m1-cI FNITWEEQLQALSKLDGLHHPHKLEDISVHWVFNPVDISVFVTCATMSSHNTHYTFKPQSSPDDAMVREYVLSRIIADNLKYVDNLYLAAGAVICGNDEYISDGNVVGIHIALILPVIEFMPGVHVDDISDKLIKSSSYQGIFKTDNLEEFEFLVDKKNANNVKELILAYTDYFANKLAFKDPAEPAVEMYQFIDRTEVYFSFEGCHPDVEEVLFTIKIVRYNQPMQVFLKNPLLSHIRTVVR QFNITWEEQLQALSKLDGLHHPHKLEDISVHWVFNPVDIVFVTCATMSSHNTHYFKPQSSPDDAMVREYVLSRIIADNLKYVDNLYLAAGAVICGNDEYISDGNVVGIHIADGNKLILPVIEFMPGVHVDDISDKLIKSSSYQGIFKTDNLEEFEFLVDKKNANNVKELILAYTDYFANKLAFKDPAEPAVEMYQFIDRTEVYFSFEGCHPDVEEVLFTIKIVRYNQPLNSTMQVFLKNPLLSHIRTVV 5ft3-a1-m1-cA_5ft3-a1-m1-cB Aedes aegypti GSTe2 Q5PY77 Q5PY77 1.431 X-RAY DIFFRACTION 102 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 218 221 KLILYTLHVSPPCRAVELCAKALGLELEQKTVNLLTKEHLTPEFMKMNPQHTVPVLDDNGTIVCESHAIMIYLVSKYGKDDSLYSKELVKQAKLNAALHFESGVLFARLRFVCEPILFAGGSEIPADRAEYVQKAYQLLEDTLVDDYIVGNSLTIADFSCVSSVSSIMGVIPMDKEKFPKIYGWLDRLKALPYYEAANGSGAEQVAQFVLSQKEKNAQ MTKLILYTLHVSPPCRAVELCAKALGLELEQKTVNLLTKEHLTPEFMKMNPQHTVPVLDDNGTIVCESHAIMIYLVSKYGKDDSLYSKELVKQAKLNAALHFESGVLFARLRFVCEPILFAGGSEIPADRAEYVQKAYQLLEDTLVDDYIVGNSLTIADFSCVSSVSSIMGVIPMDKEKFPKIYGWLDRLKALPYYEAANGSGAEQVAQFVLSQKEKNAQK 5fta-a1-m1-cC_5fta-a1-m1-cD Crystal structure of the N-terminal BTB domain of human KCTD10 Q9H3F6 Q9H3F6 2.64 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 99 5fta-a1-m1-cA_5fta-a1-m1-cB KYVKLNVGGALYYTTMQTLTKQDTMLKAMLSGRMEVLTDSEGWILIDRCGKHFGTILNYLRDGAVPLPESRREIEELLAEAKYYLVQGLVEECQAAL KYVKLNVGGALYYTTMQTLTKQDTMLKAMLSGRMEVLTDSEGWILIDRCGKHFGTILNYLRDGAVPLPESRREIEELLAEAKYYLVQGLVEECQAALQN 5fta-a1-m1-cD_5fta-a1-m1-cA Crystal structure of the N-terminal BTB domain of human KCTD10 Q9H3F6 Q9H3F6 2.64 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 101 5fta-a1-m1-cC_5fta-a1-m1-cB KYVKLNVGGALYYTTMQTLTKQDTMLKAMLSGRMEVLTDSEGWILIDRCGKHFGTILNYLRDGAVPLPESRREIEELLAEAKYYLVQGLVEECQAALQN SSKYVKLNVGGALYYTTMQTLTKQDTMLKAMLSGRMEVLTDSEGWILIDRCGKHFGTILNYLRDGAVPLPESRREIEELLAEAKYYLVQGLVEECQAALQN 5fta-a1-m1-cD_5fta-a1-m1-cB Crystal structure of the N-terminal BTB domain of human KCTD10 Q9H3F6 Q9H3F6 2.64 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 101 KYVKLNVGGALYYTTMQTLTKQDTMLKAMLSGRMEVLTDSEGWILIDRCGKHFGTILNYLRDGAVPLPESRREIEELLAEAKYYLVQGLVEECQAALQN SSKYVKLNVGGALYYTTMQTLTKQDTMLKAMLSGRMEVLTDSEGWILIDRCGKHFGTILNYLRDGAVPLPESRREIEELLAEAKYYLVQGLVEECQAALQN 5ftt-a1-m1-cC_5ftt-a1-m1-cG Octameric complex of Latrophilin 3 (Lec, Olf) , Unc5D (Ig, Ig2, TSP1) and FLRT2 (LRR) Q80TS3 Q80TS3 3.4 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 365 368 RELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDPAQMENIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSVYEDDDNEATGNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDFGPLDG VVRRELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDPAQMENIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSVYEDDDNEATGNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDFGPLDG 5ftt-a1-m1-cD_5ftt-a1-m1-cC Octameric complex of Latrophilin 3 (Lec, Olf) , Unc5D (Ig, Ig2, TSP1) and FLRT2 (LRR) Q80TS3 Q80TS3 3.4 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 263 365 5ftt-a1-m1-cH_5ftt-a1-m1-cG 5ftu-a1-m1-cD_5ftu-a1-m1-cC 5ftu-a2-m1-cH_5ftu-a2-m1-cG 5ftu-a3-m1-cL_5ftu-a3-m1-cK LCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSVYEDDDNEATGNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDFGPLDG RELSCESYPIELRCPGTDVIMIESANYGRTDDKICDSDPAQMENIRCYLPDAYKIMSQRCNNRTQCAVVAGPDVFPDPCPGTYKYLEVQYECVPYKVEQKVFLCPGLLKGVYQSEHLFESDHQSGAWCKDPLQASDKIYYMPWTPYRTDTLTEYSSKDDFIAGRPTTTYKLPHRVDGTGFVVYDGALFFNKERTRNIVKFDLRTRIKSGEAIIANANYHDTSPYRWGGKSDIDLAVDENGLWVIYATEQNNGKIVISQLNPYTLRIEGTWDTAYDKRSASNAFMICGILYVVKSVYEDDDNEATGNKIDYIYNTDQSKDSLVDVPFPNSYQYIAAVDYNPRDNLLYVWNNYHVVKYSLDFGPLDG 5ftt-a1-m1-cE_5ftt-a1-m1-cA Octameric complex of Latrophilin 3 (Lec, Olf) , Unc5D (Ig, Ig2, TSP1) and FLRT2 (LRR) F1LW30 F1LW30 3.4 X-RAY DIFFRACTION 74 0.996 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 259 262 PSAPGTLPHFIEEPEDAYIIKSNPIALRCKARPAMQIFFKCNGEWVHQNEHVSEESLDESSGLKVREVFINVTRQQVEDFHGPEDYWCQCVAWSHLGTSKSRKASVRIAYLRKNFEQDPQGREVPIEGMIVLHCRPPEGVPAAEVEWLKNEEPIDSEQDENIDTRADHNLIIRQARLSDSGNYTCMAANIVAKRRSLSATVVVYVNGGWSSWTEWSACNVRCGRGWQKRSRTCTNPAPLNGGAFCEGMSVQKITCTALC SAPGTLPHFIEEPEDAYIIKSNPIALRCKARPAMQIFFKCNGEWVHQNEHVSEESLDESSGLKVREVFINVTRQQVEDFHGPEDYWCQCVAWSHLGTSKSRKASVRIAYLRKNFEQDPQGREVPIEGMIVLHCRPPEGVPAAEVEWLKNEEPIDSEQDENIDTRADHNLIIRQARLSDSGNYTCMAANIVAKRRSLSATVVVYVNGGWSSWTEWSACNVRCGRGWQKRSRTCTNPAPLNGGAFCEGMSVQKITCTALCPVDG 5fub-a1-m1-cA_5fub-a1-m2-cA Crystal Structure of zebrafish Protein Arginine Methyltransferase 2 catalytic domain with SAH A1L1Q4 A1L1Q4 1.997 X-RAY DIFFRACTION 82 1.0 7955 (Danio rerio) 7955 (Danio rerio) 337 337 5g02-a1-m1-cA_5g02-a1-m3-cA 5g02-a1-m2-cA_5g02-a1-m6-cA 5g02-a1-m4-cA_5g02-a1-m5-cA GDAWQDDEYFGNYGTLRLHLEMLSDKPRTETYRQVILSNSAALREKVVLDLGCGTGVISLFCALLAKPAGVYAVEASSMAEHTEELVKQNGCDGVVTVFQERAENLTLPTKVDVLVSEWMGNCLLFEYMLESVLLARDRWLKKGGMMWPSSACLTIVPCQAFSDYRQKVEFWENPYGLNFSYLQSLAQKEFLSKPKFSHHLQPEDCLSTPADVITLDMVTIQVSDLERLKGEFTFTVEKSGMFHGFTVWFSAHFQCLEEDGPSIELNTGPYSEITHWKQTLFMLDAPVSVEEGDIIAGSIRLQRNPIWRRHLSITFLWNINSTEVSTVKTKCFPMWR GDAWQDDEYFGNYGTLRLHLEMLSDKPRTETYRQVILSNSAALREKVVLDLGCGTGVISLFCALLAKPAGVYAVEASSMAEHTEELVKQNGCDGVVTVFQERAENLTLPTKVDVLVSEWMGNCLLFEYMLESVLLARDRWLKKGGMMWPSSACLTIVPCQAFSDYRQKVEFWENPYGLNFSYLQSLAQKEFLSKPKFSHHLQPEDCLSTPADVITLDMVTIQVSDLERLKGEFTFTVEKSGMFHGFTVWFSAHFQCLEEDGPSIELNTGPYSEITHWKQTLFMLDAPVSVEEGDIIAGSIRLQRNPIWRRHLSITFLWNINSTEVSTVKTKCFPMWR 5fus-a1-m1-cA_5fus-a1-m1-cC Crystal structure of B. cenocepacia DfsA B4EKM5 B4EKM5 1.87 X-RAY DIFFRACTION 60 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 269 270 5fus-a1-m1-cA_5fus-a1-m1-cB 5fus-a1-m1-cC_5fus-a1-m1-cB 6dgn-a1-m1-cA_6dgn-a1-m2-cA 6dgn-a1-m1-cA_6dgn-a1-m3-cA 6dgn-a1-m2-cA_6dgn-a1-m3-cA CRPFYEAGELSQLTAFYEEGRNVMWMMLRSEPRPCFNQQLVTDIIHLARVARDSGLTFDFWVTGSLVPELFNVGGDLSFFVDAIRSGRRDQLMAYARSCIDGVYEIYTGFGTGAISIAMVEGSALGGGFEAALAHHYVLAQKGVKLGFPEIAFNLFPGMGGYSLVARKANRGLAESLIATGEAHAAEWYEDCGLIDETFDAGDAYLATRTFIDVTKPKLNGIRAMLRARERVFQLSRSELMDITEAWVHAAFTIEPKDLAYMERLVMLQ CRPFYEAGELSQLTAFYEEGRNVMWMMLRSEPRPCFNQQLVTDIIHLARVARDSGLTFDFWVTGSLVPELFNVGGDLSFFVDAIRSGRRDQLMAYARSCIDGVYEIYTGFGTGAISIAMVEGSALGGGFEAALAHHYVLAQKGVKLGFPEIAFNLFPGMGGYSLVARKANRGLAESLIATGEAHAAEWYEDCGLIDETFDAGDAYLATRTFIDVTKPKLNGIRAMLRARERVFQLSRSELMDITEAWVHAAFTIEPKDLAYMERLVMLQN 5fva-a3-m2-cD_5fva-a3-m6-cD Toscana Virus Nucleocapsid Protein P21701 P21701 3.7 X-RAY DIFFRACTION 63 1.0 11590 (Toscana virus) 11590 (Toscana virus) 241 241 4csg-a1-m1-cA_4csg-a1-m1-cB 4csg-a1-m1-cA_4csg-a1-m1-cF 4csg-a1-m1-cC_4csg-a1-m1-cB 4csg-a1-m1-cE_4csg-a1-m1-cD 4csg-a2-m1-cG_4csg-a2-m1-cH 4csg-a2-m1-cI_4csg-a2-m1-cJ 4csg-a2-m1-cL_4csg-a2-m1-cK 4h5l-a1-m1-cA_4h5l-a1-m1-cF 4h5l-a1-m1-cB_4h5l-a1-m1-cC 4h5l-a1-m1-cC_4h5l-a1-m1-cD 4h5l-a1-m1-cE_4h5l-a1-m1-cF 5fva-a1-m1-cC_5fva-a1-m3-cC 5fva-a1-m1-cC_5fva-a1-m6-cC 5fva-a1-m2-cC_5fva-a1-m4-cC 5fva-a1-m2-cC_5fva-a1-m6-cC 5fva-a1-m3-cC_5fva-a1-m5-cC 5fva-a1-m4-cC_5fva-a1-m5-cC 5fva-a2-m1-cB_5fva-a2-m1-cA 5fva-a2-m7-cB_5fva-a2-m7-cA 5fva-a2-m8-cB_5fva-a2-m8-cA 5fva-a3-m1-cD_5fva-a3-m3-cD 5fva-a3-m1-cD_5fva-a3-m6-cD 5fva-a3-m2-cD_5fva-a3-m4-cD 5fva-a3-m3-cD_5fva-a3-m5-cD 5fva-a3-m4-cD_5fva-a3-m5-cD 5fva-a4-m1-cE_5fva-a4-m1-cF 5fva-a4-m7-cE_5fva-a4-m7-cF 5fva-a4-m8-cE_5fva-a4-m8-cF LAFLDESADSGTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKV LAFLDESADSGTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKV 5fva-a4-m1-cE_5fva-a4-m8-cF Toscana Virus Nucleocapsid Protein P21701 P21701 3.7 X-RAY DIFFRACTION 87 1.0 11590 (Toscana virus) 11590 (Toscana virus) 227 248 4csg-a1-m1-cC_4csg-a1-m1-cD 4csg-a1-m1-cF_4csg-a1-m1-cE 4csg-a2-m1-cI_4csg-a2-m1-cH 4csg-a2-m1-cJ_4csg-a2-m1-cK 4csg-a2-m1-cL_4csg-a2-m1-cG 5fva-a2-m1-cB_5fva-a2-m8-cA 5fva-a2-m7-cB_5fva-a2-m1-cA 5fva-a2-m8-cB_5fva-a2-m7-cA 5fva-a4-m7-cE_5fva-a4-m1-cF 5fva-a4-m8-cE_5fva-a4-m7-cF AWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKV ENYRDIALAFLDESADSGTINAWVNEFAYQGFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKV 5fvc-a1-m1-cH_5fvc-a1-m1-cG Structure of RNA-bound decameric HMPV nucleoprotein Q91F57 Q91F57 4.17 X-RAY DIFFRACTION 181 1.0 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 351 368 5fvc-a1-m1-cA_5fvc-a1-m1-cB 5fvc-a1-m1-cA_5fvc-a1-m1-cJ 5fvc-a1-m1-cC_5fvc-a1-m1-cB 5fvc-a1-m1-cC_5fvc-a1-m1-cD 5fvc-a1-m1-cE_5fvc-a1-m1-cD 5fvc-a1-m1-cE_5fvc-a1-m1-cF 5fvc-a1-m1-cF_5fvc-a1-m1-cG 5fvc-a1-m1-cH_5fvc-a1-m1-cI 5fvc-a1-m1-cJ_5fvc-a1-m1-cI SLQGIHLSDLSYKHAILKESQYTIKRDVGTTTAVTPSSLQQEITLLCGEILYAKHADYKYAAEIGIQYISTALGSERVQQILRNSGSEVQVVLTRTYSQMLDIHGVEKSWVEEIDKEARKTMATLLKESSGNIPQNQRPSAPDTPIILLCVGALIFTKLASTIEVGLETTVRRANRVLSDALKRYPRMDIPKIARSFYDLFEQKVYHRSLFIEYGKALGSSSTGSKAESLFVNIFMQAYGAGQTMLRWGVIARSSNNIMLGHVSVQAELKQVTEVYDLVREMGPESGLLHLRQSPKAGLLSLANCPNFASVVLGNASGLGIIGMYRGRVPNTELFSAAESYAKSLKESNKI SLQGIHLSDLSYKHAILKESQYTIKRDVGTTTAVTPSSLQQEITLLCGEILYAKHADYKYAAEIGIQYISTALGSERVQQILRNSGSEVQVVLTRTYSQMLDIHGVEKSWVEEIDKEARKTMATLLKESSGNIPQNQRPSAPDTPIILLCVGALIFTKLASTIEVGLETTVRRANRVLSDALKRYPRMDIPKIARSFYDLFEQKVYHRSLFIEYGKALGSSSTGSKAESLFVNIFMQAYGAGQTMLRWGVIARSSNNIMLGHVSVQAELKQVTEVYDLVREMGPESGLLHLRQSPKAGLLSLANCPNFASVVLGNASGLGIIGMYRGRVPNTELFSAAESYAKSLKESNKINFSSLGLTDEEKEAAEH 5fvm-a1-m1-cA_5fvm-a1-m1-cB Cryo electron microscopy of a complex of Tor and Lst8 6.7 ELECTRON MICROSCOPY 94 1.0 4911 (Kluyveromyces marxianus) 4911 (Kluyveromyces marxianus) 2117 2117 NVKAFDLIFTKLNQLERVAASYELKSCLISLVSTEYFQRFSNDINNKVFELIHDSNEKLGGVLAVDTLIDELPNQTSRLANYLRVLIDIEVMRAAATTLGKLAVLTSEFVEFEVKTCIEWLTQEYRKHASLLIISSYPFVNSILDNIWRALRKLVIRTDAAVTLGKCLTSSLTKKWVQRLFNGCIHGTLLVYRQLVSLELKDKYEEIYETTMKHRDNIIIRKEIYAIIPVLAADPKLFTQKYLDATMIHYLTLLLSDKGPILVSIGDIAYHIGPYLDAIVENLRDGLETKFKTRKEKDIFYCVSKLACAVRPLLAKYLNRGLLDASDHMQETLLVICEKISMEVTVNEKLLNIICLVLSGEKFRPPGSPTPMKSLSSETARAYRDQSLLRKTGTLDAMILRKALRMLSDIKPKYSLTEFIRRVIISYMEHDNMQVRKLAALTSCDLFVKSLYALNVVSEVLSKLLTVAITDPVAEIRLEILKHLDRLSQPDNTKLLFMALNDEVFAIQMEAMKICGRLAVIPSLRKTLIQLLTELKHSKMTRKKEECASLLCTLISSSSDVTKPYLEPVIEILLPSAVASTALKALGEISVVGGEDMLPFLDELMPLIIDTFQDQSNSFKRGAALKALGQLAASSYPELLGVLINILSQNIRRETVRLIGILGALDPYKHREVDVALLMQGEEYYPTVVIGVLMKILKDSIHHSTVIQAIMHIFQTMFLKQIIPGFILVMHPPSLLELYFQQLSVLISIVKQHIRPHVTEIVDVISLTIISVIESLSRALEGEFNPHLPTILSLFLDVLENKKVVSVRILKSLVVFGPHLEEYVHLVLPTIIKLSSGNLKKAAIITIGRLSKNNALEMSSRIVQALVRVLNETEYVKATMNTLSLLLLQLNIDFTVFIPVINKTLTIYDRLVAKLLNNEPLPTKIIIDKDFDLPNKEMDDVKVASKKLPVNQMVLKNAWDCSQQRTKEDWQEWIRRLSIESSSHALRACSGLAGIYYPLARELFNASFAQYQEDLIQSLCAALSSTLLNLVEFMEHDDKPLPISISTLGEYAQRCHAYAKALHYKELEFIEEPSTSTIESLITINNQLHQTDAAIGILKHAQQHHDLQLKETWYEKLQRWDDALNAYNKREAEVTIGKMRSLHALGEWDQLSELAADKWASSEVKRAIAPLAAGAAWGLAQWDRVEQYIEVMKPQSPDKAFFDAILCLHRNNFEKAAEHIFSARDLLVTEMSALYNRAYGVVVRTQMVAELEEIIQYKKLPQGSERRAMIRKTWNKRLLGCQNVDVWQRVLKVRSLVIKPKQDMKVWIKFANLCRKSGRLGLAQKTLNTLLEAPPPVVYAQLKYMWATGSQKEALNHLISFTSRMAHDLGLQHHIEDYTKLLARCFLKQGEWRVSLQPNWRLENPDAILGSYLLATHFDKTWYKAWHNWALANFEVTSSLTQRIKDDKVPPTLNANDNFPPELVQRHVVPAIKGFFHSIALSQSSLQDTLRLLTLWFKFGGIPEAAQAMHEGFGLIKIDNWLEVIPQLISRIHQPNQTVSRSLLSLLADLGKAHPQALVYPLTVAIKSDSVSRQRAALSIIDKMRMHSPKLVNQAELVSDELIRVAVLWHELWYEGLEDASRQFFGEHNTEKMFATLEPLHEMLKRGPETLREISFQNSFGRDLNDAYEWVLNYKRTKDINNLNQAWDIYYNVFRRISRKLPQLQTLDLQHVSPKLSAAKDLELAVPGTYHAGKPIVRITHFEPVFTVISSKQRPRRVIIKGSDGKDYQYLLKSHEDIRQDNLVMQLFGLVNTLLQNDPESFQRHLNIQQYPAIPLSPKTGLLGWVPNSDTFHVLIREHREASKIPLNIEHRIMLQMAPDYDNLTLLQKVEVFTYALDNTKGQDLYKVLWLKSRSSESWLDRRTTYTRSLAVMSMVGYILGLGDRHPSNLMLDRITGKVVHIDFGDCFEAAILREKYPEKVPFRLTRMLTYAMEVSGIEGSFRITCENVMMVLRDNKESLMAILEAFAYDPLINWGFDLPTHAVMEQTGIDLPLANPSELLRKGVISVEDAAKMELQQKAEVRNARATLVLKRIADKLTGNDFPRCQELSVPDQVDKLIQQATSVENLCQHYIGWCS NVKAFDLIFTKLNQLERVAASYELKSCLISLVSTEYFQRFSNDINNKVFELIHDSNEKLGGVLAVDTLIDELPNQTSRLANYLRVLIDIEVMRAAATTLGKLAVLTSEFVEFEVKTCIEWLTQEYRKHASLLIISSYPFVNSILDNIWRALRKLVIRTDAAVTLGKCLTSSLTKKWVQRLFNGCIHGTLLVYRQLVSLELKDKYEEIYETTMKHRDNIIIRKEIYAIIPVLAADPKLFTQKYLDATMIHYLTLLLSDKGPILVSIGDIAYHIGPYLDAIVENLRDGLETKFKTRKEKDIFYCVSKLACAVRPLLAKYLNRGLLDASDHMQETLLVICEKISMEVTVNEKLLNIICLVLSGEKFRPPGSPTPMKSLSSETARAYRDQSLLRKTGTLDAMILRKALRMLSDIKPKYSLTEFIRRVIISYMEHDNMQVRKLAALTSCDLFVKSLYALNVVSEVLSKLLTVAITDPVAEIRLEILKHLDRLSQPDNTKLLFMALNDEVFAIQMEAMKICGRLAVIPSLRKTLIQLLTELKHSKMTRKKEECASLLCTLISSSSDVTKPYLEPVIEILLPSAVASTALKALGEISVVGGEDMLPFLDELMPLIIDTFQDQSNSFKRGAALKALGQLAASSYPELLGVLINILSQNIRRETVRLIGILGALDPYKHREVDVALLMQGEEYYPTVVIGVLMKILKDSIHHSTVIQAIMHIFQTMFLKQIIPGFILVMHPPSLLELYFQQLSVLISIVKQHIRPHVTEIVDVISLTIISVIESLSRALEGEFNPHLPTILSLFLDVLENKKVVSVRILKSLVVFGPHLEEYVHLVLPTIIKLSSGNLKKAAIITIGRLSKNNALEMSSRIVQALVRVLNETEYVKATMNTLSLLLLQLNIDFTVFIPVINKTLTIYDRLVAKLLNNEPLPTKIIIDKDFDLPNKEMDDVKVASKKLPVNQMVLKNAWDCSQQRTKEDWQEWIRRLSIESSSHALRACSGLAGIYYPLARELFNASFAQYQEDLIQSLCAALSSTLLNLVEFMEHDDKPLPISISTLGEYAQRCHAYAKALHYKELEFIEEPSTSTIESLITINNQLHQTDAAIGILKHAQQHHDLQLKETWYEKLQRWDDALNAYNKREAEVTIGKMRSLHALGEWDQLSELAADKWASSEVKRAIAPLAAGAAWGLAQWDRVEQYIEVMKPQSPDKAFFDAILCLHRNNFEKAAEHIFSARDLLVTEMSALYNRAYGVVVRTQMVAELEEIIQYKKLPQGSERRAMIRKTWNKRLLGCQNVDVWQRVLKVRSLVIKPKQDMKVWIKFANLCRKSGRLGLAQKTLNTLLEAPPPVVYAQLKYMWATGSQKEALNHLISFTSRMAHDLGLQHHIEDYTKLLARCFLKQGEWRVSLQPNWRLENPDAILGSYLLATHFDKTWYKAWHNWALANFEVTSSLTQRIKDDKVPPTLNANDNFPPELVQRHVVPAIKGFFHSIALSQSSLQDTLRLLTLWFKFGGIPEAAQAMHEGFGLIKIDNWLEVIPQLISRIHQPNQTVSRSLLSLLADLGKAHPQALVYPLTVAIKSDSVSRQRAALSIIDKMRMHSPKLVNQAELVSDELIRVAVLWHELWYEGLEDASRQFFGEHNTEKMFATLEPLHEMLKRGPETLREISFQNSFGRDLNDAYEWVLNYKRTKDINNLNQAWDIYYNVFRRISRKLPQLQTLDLQHVSPKLSAAKDLELAVPGTYHAGKPIVRITHFEPVFTVISSKQRPRRVIIKGSDGKDYQYLLKSHEDIRQDNLVMQLFGLVNTLLQNDPESFQRHLNIQQYPAIPLSPKTGLLGWVPNSDTFHVLIREHREASKIPLNIEHRIMLQMAPDYDNLTLLQKVEVFTYALDNTKGQDLYKVLWLKSRSSESWLDRRTTYTRSLAVMSMVGYILGLGDRHPSNLMLDRITGKVVHIDFGDCFEAAILREKYPEKVPFRLTRMLTYAMEVSGIEGSFRITCENVMMVLRDNKESLMAILEAFAYDPLINWGFDLPTHAVMEQTGIDLPLANPSELLRKGVISVEDAAKMELQQKAEVRNARATLVLKRIADKLTGNDFPRCQELSVPDQVDKLIQQATSVENLCQHYIGWCS 5fvn-a2-m1-cE_5fvn-a2-m1-cF X-ray crystal structure of Enterobacter cloacae OmpE36 porin. Q93K99 Q93K99 1.45 X-RAY DIFFRACTION 147 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 342 342 5fvn-a1-m1-cA_5fvn-a1-m1-cB 5fvn-a1-m1-cA_5fvn-a1-m1-cC 5fvn-a1-m1-cB_5fvn-a1-m1-cC 5fvn-a2-m1-cD_5fvn-a2-m1-cE 5fvn-a2-m1-cD_5fvn-a2-m1-cF AEIYNKDGNKLDLYGKVDGLHYFSDDDSQDGDQTYMRLGFKGETQVNDQLTGYGQWEYQIQGNSGENENNSWTRVAFAGLKFGDAGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNSDFFGLVDGLNFAVQYQGKNGSASGEDQTNNGRTELRQNGDGVGGSITYNLGEGFGIGTAVSSSKRTSSQNDLTYGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGNLGWANKAQNFEVVAQYQFDFGLRPSVAYLQSKGKDLENGYGDQDLLKYVDVGATYYFNKNMSTYVDYKINLLDDKEFTRNAGISTDDIVALGLVYQF AEIYNKDGNKLDLYGKVDGLHYFSDDDSQDGDQTYMRLGFKGETQVNDQLTGYGQWEYQIQGNSGENENNSWTRVAFAGLKFGDAGSFDYGRNYGVVYDVTSWTDVLPEFGGDTYGSDNFMQQRGNGFATYRNSDFFGLVDGLNFAVQYQGKNGSASGEDQTNNGRTELRQNGDGVGGSITYNLGEGFGIGTAVSSSKRTSSQNDLTYGNGDRAETYTGGLKYDANNIYLAAQYTQTYNATRVGNLGWANKAQNFEVVAQYQFDFGLRPSVAYLQSKGKDLENGYGDQDLLKYVDVGATYYFNKNMSTYVDYKINLLDDKEFTRNAGISTDDIVALGLVYQF 5fw4-a2-m1-cB_5fw4-a2-m3-cB Structure of Thermobifida fusca DyP-type Peroxidase and Activity towards Kraft Lignin and Lignin Model Compounds Q47KB1 Q47KB1 1.8 X-RAY DIFFRACTION 180 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 368 368 5fw4-a1-m1-cA_5fw4-a1-m2-cA ASPKAEQRLRMAAQRADATAAPQPGISGPAPAFVHVIALDLAEEARKNPDTARDSAAAALRSWTELAARLHEESPHDIAEGAASAGLLPASLMVTVGIGGSLLSAIDAEDRRPDALADLPEFSTDDLHPRWCGGDFMLQVGAEDPMVLTAAVEELVAAAADATAVRWSLRGFRRTAAAARDPDATPRNLMGQIDGTANPAQDHPLFDRTITARPADNPAHAWMDGGSYLVVRRIRMLLTEWRKLDVAARERVIGRRLDTGAPLGSRNETLIPENAHVRLASPENNLGARMFRRGYSYDQGWRDDGVRDAGLLFMAWQGDPATGFIPVQRSLADQGDALNRYIRHEGSALFAVPAAREGRYLGQDLIEG ASPKAEQRLRMAAQRADATAAPQPGISGPAPAFVHVIALDLAEEARKNPDTARDSAAAALRSWTELAARLHEESPHDIAEGAASAGLLPASLMVTVGIGGSLLSAIDAEDRRPDALADLPEFSTDDLHPRWCGGDFMLQVGAEDPMVLTAAVEELVAAAADATAVRWSLRGFRRTAAAARDPDATPRNLMGQIDGTANPAQDHPLFDRTITARPADNPAHAWMDGGSYLVVRRIRMLLTEWRKLDVAARERVIGRRLDTGAPLGSRNETLIPENAHVRLASPENNLGARMFRRGYSYDQGWRDDGVRDAGLLFMAWQGDPATGFIPVQRSLADQGDALNRYIRHEGSALFAVPAAREGRYLGQDLIEG 5fw5-a1-m2-cB_5fw5-a1-m2-cA Crystal structure of human G3BP1 in complex with Semliki Forest Virus nsP3-25 comprising two FGDF motives Q13283 Q13283 1.92 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 139 4iia-a1-m1-cA_4iia-a1-m2-cA 5fw5-a1-m1-cB_5fw5-a1-m1-cA 7s17-a1-m1-cB_7s17-a1-m1-cA 7suo-a1-m1-cA_7suo-a1-m1-cB 7xhf-a1-m1-cA_7xhf-a1-m1-cB 7xhg-a1-m1-cA_7xhg-a1-m1-cD 7xhg-a2-m1-cC_7xhg-a2-m1-cB KPSPLLVGREFVRQYYTLLNQAPDMLHRFYGKNSSYVHGGLDSNGKPADAVYGQKEIHRKVMSQNFTNCHTKIRHVDAHATLNDGVVVQVMGLLSNNNQALRRFMQTFVLAPEGSVANKFYVHNDIFRYQD SMVMEKPSPLLVGREFVRQYYTLLNQAPDMLHRFYGKNSSYVHGGLDSNGKPADAVYGQKEIHRKVMSQNFTNCHTKIRHVDAHATLNDGVVVQVMGLLSNNNQALRRFMQTFVLAPEGSVANKFYVHNDIFRYQDEVF 5fws-a1-m1-cA_5fws-a1-m2-cA Wnt modulator Kremen crystal form I at 1.90A Q96MU8 Q96MU8 1.9 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 5fwt-a1-m1-cA_5fwt-a1-m2-cA PECFTANGADYRGTQNWTALQGGKPCLFWNETFQHPYNTLKYPNGEGGLGEHNYCRNPDGDVSPWCYVGVYWKYCEIPACQMPGNLGCYKDHGNPPPLTGTSKTSNKLTIQTCISFCRSQRFKFAGMESGYACFCGNNPDYWKYGEAASTECNSVCFGDHTQPCGGDGRIILFDTLVGACGGNYSAMSSVVYSPDFPDTYATGRVCYWTIRVPGASHIHFSFPLFDIRDSADMVELLDGYTHRVLARFHGRSRPPLSFNVSLDFVILYFFSDRINQAQGFAVLYQAVK PECFTANGADYRGTQNWTALQGGKPCLFWNETFQHPYNTLKYPNGEGGLGEHNYCRNPDGDVSPWCYVGVYWKYCEIPACQMPGNLGCYKDHGNPPPLTGTSKTSNKLTIQTCISFCRSQRFKFAGMESGYACFCGNNPDYWKYGEAASTECNSVCFGDHTQPCGGDGRIILFDTLVGACGGNYSAMSSVVYSPDFPDTYATGRVCYWTIRVPGASHIHFSFPLFDIRDSADMVELLDGYTHRVLARFHGRSRPPLSFNVSLDFVILYFFSDRINQAQGFAVLYQAVK 5fwv-a1-m1-cA_5fwv-a1-m2-cA Wnt modulator Kremen crystal form III at 3.2A Q96MU8 Q96MU8 3.2 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 GPECFTANGADYRGTQNWTALQGGKPCLFWNETFQHPYNTLKYPNGEGGLGEHNYCRNPDGDVSPWCYVAEHEDGVYWKYCEIPACQMPGNLGCYKDHGNPPPLTGTSKTSNKLTIQTCISFCRSQRFKFAGMESGYACFCGNNPDYWKYGEAASTECNSVCFGDHTQPCGGDGRIILFDTLVGACGGNYSAMSSVVYSPDFPDTYATGRVCYWTIRVPGASHIHFSFPLFDIRDSADMVELLDGYTHRVLARFHGRSRPPLSFNVSLDFVILYFFSDRINQAQGFAVLYQAVK GPECFTANGADYRGTQNWTALQGGKPCLFWNETFQHPYNTLKYPNGEGGLGEHNYCRNPDGDVSPWCYVAEHEDGVYWKYCEIPACQMPGNLGCYKDHGNPPPLTGTSKTSNKLTIQTCISFCRSQRFKFAGMESGYACFCGNNPDYWKYGEAASTECNSVCFGDHTQPCGGDGRIILFDTLVGACGGNYSAMSSVVYSPDFPDTYATGRVCYWTIRVPGASHIHFSFPLFDIRDSADMVELLDGYTHRVLARFHGRSRPPLSFNVSLDFVILYFFSDRINQAQGFAVLYQAVK 5fx0-a1-m1-cA_5fx0-a1-m2-cA Fasciola hepatica calcium binding protein FhCaBP2: Structure of the dynein light chain-like domain. P6422 native. A0A0B5GUS3 A0A0B5GUS3 2.3 X-RAY DIFFRACTION 83 1.0 6192 (Fasciola hepatica) 6192 (Fasciola hepatica) 98 98 5fwz-a1-m1-cA_5fwz-a1-m2-cA HHVDDDDKMIEMIATTMSVPRQVEVTEKFKSLVTAHNGKDEEMKDVAQDMKNYMDEKYGRVWQCVILTGSYWMHFSHEPFLSIQFRYGRHICLAWRTP HHVDDDDKMIEMIATTMSVPRQVEVTEKFKSLVTAHNGKDEEMKDVAQDMKNYMDEKYGRVWQCVILTGSYWMHFSHEPFLSIQFRYGRHICLAWRTP 5fx8-a1-m1-cB_5fx8-a1-m1-cA Complete structure of manganese lipoxygenase of Gaeumannomyces graminis and partial structure of zonadhesin of Komagataella pastoris Q8X151 Q8X151 2.6 X-RAY DIFFRACTION 59 1.0 36778 (Gaeumannomyces avenae) 36778 (Gaeumannomyces avenae) 556 563 YTLPNNDPNQGARNASIARKRELFLYGPSTLGQTTFYPTGELGNNISARDVLLWRQDAANQTATAYREANETFADITSRGGFKTLDDFALLYNGHWKESVPEGISKGMLSNCTSDLLFSMERLSSNPYVLKRLHPTKDKLPFSVESKVVKKLTATTLEALHKGGRLFLVDHSYQKKYTPQPGRYAAACQGLFYLDARSNQFLPLAIKTNVGVDLTYTPLDDKDDWLLAKIMFNNNDLFYSQMYHVLFHTIPEIVHEAAFRTLSDRHPVMGVLNRLMYQAYAIRPVGGAVLFNPGGFWDQNFGLPASAAIDFPGSVYAQGGGGFQAGYLEKDLRSRGLIGEDSGPRLPHFPFYEDAHRLIGAIRRFMQAFVDSTYGGALLRDYELQNWIAEANGPAQVRDFPAAPLRRRAQLVDVLTHVAWITGGAHHVMNQGSPVKFSGVLPLHPAALYAPIPTAKLLAWLPNERQAVEQVSLLARFNRAQVGDRKQTVRDAFAAPDLLAGNGPGYAAANARFVEDTGRISREIAGRGFDGKGLSQGMPFVWTALNPAVNPFFLSV QYTLPNNDPNQGARNASIARKRELFLYGPSTLGQTTFYPTGELGNNISARDVLLWRQDAANQTATAYREANETFADITSRGGFKTLDDFALLYNGHWKESVPEGISKGMLSNCTSDLLFSMERLSSNPYVLKRLHPTKDKLPFSVESKVVKKLTATTLEALHKGGRLFLVDHSYQKKYTPQPGRYAAACQGLFYLDARSNQFLPLAIKTNVGVDLTYTPLDDKDDWLLAKIMFNNNDLFYSQMYHVLFHTIPEIVHEAAFRTLSDRHPVMGVLNRLMYQAYAIRPVGGAVLFNPGGFWDQNFGLPASAAIDFPGSVYAQGGGGFQAGYLEKDLRSRGLIGEDSGPRLPHFPFYEDAHRLIGAIRRFMQAFVDSTYGADDDGALLRDYELQNWIAEANGPAQVRDFPAAPLRRRAQLVDVLTHVAWITGGAHHVMNQGSPVKFSGVLPLHPAALYAPIPTAKGALLAWLPNERQAVEQVSLLARFNRAQVGDRKQTVRDAFAAPDLLAGNGPGYAAANARFVEDTGRISREIAGRGFDGKGLSQGMPFVWTALNPAVNPFFLSV 5fxg-a1-m1-cB_5fxg-a1-m1-cD GLUN1B-GLUN2B NMDA RECEPTOR IN ACTIVE CONFORMATION Q00960 Q00960 6.8 ELECTRON MICROSCOPY 13 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 634 634 PPSIGIAVILVGTSDEVAIKDAHEKDDFHHLSVVPRVELVAMNETDPKSIITRICDLMSDRKIQGVVFADDTDQEAIAQILDFISAQTLTPILGIHGGSSMIMADKDESSMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFVNKIRSTIENSFVGWELEEVLLLDMSLDDGDSKIQNQLKKLQSPIILLYCTKEEATYIFEVANSVGLTGYGYTWIVPSLVAGDTDTVPSEFPTGLISVSYDEWDYGLPARVRDGIAIITTAASDMLSEHSFIPEPKSSCYNTHEKRIYQSNMLNRYLINVTFEGRDLSFSEDGYQMHPKLVIILLNKERKWERVGKWKDKSLQMKYYVWPRMCDHLSIVTLEEAPFVIVESVDPLSGTCMRNTVPCQKRYIKKCCKGFCIDILKKISKSVKFTYDLYLVTNGKHGKKINGTWNGMIGEVVMKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSREYVDQVSGLSDKKFQRPNDFSPPFRFGTVPNGSTERNIRNNYAEMHAYMGKFNQRGVDDALLSLKTGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFASTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICH PPSIGIAVILVGTSDEVAIKDAHEKDDFHHLSVVPRVELVAMNETDPKSIITRICDLMSDRKIQGVVFADDTDQEAIAQILDFISAQTLTPILGIHGGSSMIMADKDESSMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFVNKIRSTIENSFVGWELEEVLLLDMSLDDGDSKIQNQLKKLQSPIILLYCTKEEATYIFEVANSVGLTGYGYTWIVPSLVAGDTDTVPSEFPTGLISVSYDEWDYGLPARVRDGIAIITTAASDMLSEHSFIPEPKSSCYNTHEKRIYQSNMLNRYLINVTFEGRDLSFSEDGYQMHPKLVIILLNKERKWERVGKWKDKSLQMKYYVWPRMCDHLSIVTLEEAPFVIVESVDPLSGTCMRNTVPCQKRYIKKCCKGFCIDILKKISKSVKFTYDLYLVTNGKHGKKINGTWNGMIGEVVMKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSREYVDQVSGLSDKKFQRPNDFSPPFRFGTVPNGSTERNIRNNYAEMHAYMGKFNQRGVDDALLSLKTGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFASTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICH 5fya-a1-m1-cA_5fya-a1-m1-cB Cubic crystal of the native PlpD Q9HYQ6 Q9HYQ6 2.141 X-RAY DIFFRACTION 93 0.988 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 253 255 5fqu-a1-m1-cB_5fqu-a1-m1-cA PKIGLVLSGGAARGLAHIGVLKALDEQGIQIDAIAGTSMGAVVGGLYASGYTPAELERIALEMDWQQALPLGVIQGQNLAMVLESLLVHTSDNRDFDKLAIPFRAVSTDIATGEKVVFRKGHLPQAIRASMSIPAVFAPVEIDGRLLVDGGMVDNIPVDVARDMGVDVVIVVDIGNPLRDRKDLSTVLDVMNQSITLMTRKNSEAQLATLKPGDVLIQPPLSGYGTTDFGRVPQLIDAGYRATTVLAARLAEL RPKIGLVLSGGAARGLAHIGVLKALDEQGIQIDAIAGTSMGAVVGGLYASGYTPAELERIALEMDWQQDGTLGVIQGQNLAMVLESLLVHTSDNRDFDKLAIPFRAVSTDIATGEKVVFRKGHLPQAIRASMSIPAVFAPVEIDGRLLVDGGMVDNIPVDVARDMGVDVVIVVDIGNPLRDRKDLSTVLDVMNQSITLMTRKNSEAQLATLKPGDVLIQPPLSGYGTTDFGRVPQLIDAGYRATTVLAARLAELR 5fyd-a1-m1-cB_5fyd-a1-m1-cA Structural and biochemical insights into 7beta-hydroxysteroid dehydrogenase stereoselectivity A4ECA9 A4ECA9 1.6 X-RAY DIFFRACTION 90 1.0 74426 (Collinsella aerofaciens) 74426 (Collinsella aerofaciens) 252 259 MNLREKYGEWGLILGATEGVGKAFCEKIAAGGMNVVMVGRREEKLNVLAGEIRETYGVETKVVRADFSQPGAAETVFAATEGLDMGFMSYVACLHSFGKIQDTPWEKHEAMINVNVVTFLKCFHHYMRIFAAQDRGAVINVSSMTGISSSPWNGQYGAGKAFILKMTEAVACECEGTGVDVEVITLGTTLTPSLLSNLPGGPQALTPEECVDEAFEKLGKELSVIAGQRNKDSVHDWKANHTEDEYIRYMGS MNLREKYGEWGLILGATEGVGKAFCEKIAAGGMNVVMVGRREEKLNVLAGEIRETYGVETKVVRADFSQPGAAETVFAATEGLDMGFMSYVACLHSFGKIQDTPWEKHEAMINVNVVTFLKCFHHYMRIFAAQDRGAVINVSSMTGISSSPWNGQYGAGKAFILKMTEAVACECEGTGVDVEVITLGTTLTPSLLSNLPGGPQGEAVMKIALTPEECVDEAFEKLGKELSVIAGQRNKDSVHDWKANHTEDEYIRYMGS 5fyj-a1-m2-cB_5fyj-a1-m3-cB Crystal Structure at 3.4 A Resolution of Fully Glycosylated HIV-1 Clade G X1193.c1 SOSIP.664 Prefusion Env Trimer in Complex with Broadly Neutralizing Antibodies PGT122, 35O22 and VRC01 C6ZIG9 C6ZIG9 3.11 X-RAY DIFFRACTION 77 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 154 154 5fyj-a1-m1-cB_5fyj-a1-m2-cB 5fyj-a1-m1-cB_5fyj-a1-m3-cB AVGMGAVLLGFLGAAGSTMGAASITLTVQVRQLLSGIVQQQSNLLRAPEAQQHLLQLTVWGIKQLQARVLAVERYLQDQQLLGIWGCSGRLICCTNVPWNASWSNKSYSEIWDNLTWVEWEREISNYTQHIYNLLQESQNQQEKNEQDLLALDK AVGMGAVLLGFLGAAGSTMGAASITLTVQVRQLLSGIVQQQSNLLRAPEAQQHLLQLTVWGIKQLQARVLAVERYLQDQQLLGIWGCSGRLICCTNVPWNASWSNKSYSEIWDNLTWVEWEREISNYTQHIYNLLQESQNQQEKNEQDLLALDK 5fyj-a1-m3-cG_5fyj-a1-m2-cG Crystal Structure at 3.4 A Resolution of Fully Glycosylated HIV-1 Clade G X1193.c1 SOSIP.664 Prefusion Env Trimer in Complex with Broadly Neutralizing Antibodies PGT122, 35O22 and VRC01 C6ZIG9 C6ZIG9 3.11 X-RAY DIFFRACTION 33 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 479 479 5fyj-a1-m1-cG_5fyj-a1-m2-cG 5fyj-a1-m3-cG_5fyj-a1-m1-cG AGDLWVTVYYGVPVWEDADTTLFCASDAKAYSTESHNVWATHACVPTDPNPQEIPLKNVTENFNMWKNNMVEQMHEDIISLWDESLKPCVKLTPLCVTLICTNVTSNSTNSTNGVTNNSTVDYREQLKNCSFNITTEIRDKQRKEYALFYRLDIVPINDNEKNDTYRLINCNVSTIKQACPKVTFDPIPIHYCAPAGFAILKCRDKKFNGTGPCKNVSTVQCTHGIKPVISTQLLLNGSLAEGDIMIRSENITDNAKTIIVQLKTAVNITCTRPSNNTRKSIRFGPGQAFYATDEIIGDIRQAHCNISKTEWEDMKRNVSDKLKALFNNKTIIFKSSSGGDLEITTHSFNCRGEFFYCNTSGLFNTSGLFNNNSNDSSGNITLPCKIKQIVRMWQRVGQAMYAPPIAGNITCRSRITGLLLVRDGCKSNETNGTETFRPAGGDMRDNWRSELYKYKVVKIKPLGVAPTRCRRRVVGRRR AGDLWVTVYYGVPVWEDADTTLFCASDAKAYSTESHNVWATHACVPTDPNPQEIPLKNVTENFNMWKNNMVEQMHEDIISLWDESLKPCVKLTPLCVTLICTNVTSNSTNSTNGVTNNSTVDYREQLKNCSFNITTEIRDKQRKEYALFYRLDIVPINDNEKNDTYRLINCNVSTIKQACPKVTFDPIPIHYCAPAGFAILKCRDKKFNGTGPCKNVSTVQCTHGIKPVISTQLLLNGSLAEGDIMIRSENITDNAKTIIVQLKTAVNITCTRPSNNTRKSIRFGPGQAFYATDEIIGDIRQAHCNISKTEWEDMKRNVSDKLKALFNNKTIIFKSSSGGDLEITTHSFNCRGEFFYCNTSGLFNTSGLFNNNSNDSSGNITLPCKIKQIVRMWQRVGQAMYAPPIAGNITCRSRITGLLLVRDGCKSNETNGTETFRPAGGDMRDNWRSELYKYKVVKIKPLGVAPTRCRRRVVGRRR 5fzp-a1-m1-cB_5fzp-a1-m1-cA Structure of the dispase autolysis inducing protein from Streptomyces mobaraensis P84908 P84908 1.7 X-RAY DIFFRACTION 67 0.997 35621 (Streptomyces mobaraensis) 35621 (Streptomyces mobaraensis) 341 344 GWRAPSCTKVTGDGAVTFTTDDGATLAPTTGTLQSVSYTHGLVALDTPNTLLATHNDELQRSTDAGCTWTKVATLGSGSTWLTAATGGRAFAWEKNGGYLARVDGRTVTKLSSPSADIVGVGTDKARRDHVRLAGSDGQLYDSTDAGATWKPLGKLAFGPGASVYTVSFDPADLDHAVAGGMTTGGAVTTDGGATWTAATGLSATAGGKSNLFAASVSPADRNVVYALGIDLVEAAPNSGAEGRHLYRSTDGGRTYTRIVDDTPDTELTNSTLLAPSPVDPNVLYFEYGTYFQAYGTDLYRYDARTGKVGKTHNAHDGISAIAFNPARPSVMYLGLEEVQI DSTSGWRAPSCTKVTGDGAVTFTTDDGATLAPTTGTLQSVSYTHGLVALDTPNTLLATHNDELQRSTDAGCTWTKVATLGSGSTWLTAATGGRAFAWEKNGGYLARVDGRTVTKLSSPSADIVGVGTDKARRDHVRLAGSDGQLYDSTDAGATWKPLGKLAFGPGASVYTVSFDPADLDHAVAGGMTTGGAVTTDGGATWTAATGLSATAGGKSNLFAASVSPADRNVVYALGIDLVEAAPNSGAEGRHLYRSTDGGRTYTRIVDDTPDTELTNSTLLAPSPVDPNVLYFEYGTYFQAYGTDLYRYDARTGKVGKTHNAHDGISAIAFNPARPSVMYLGLEEVQ 5fzq-a1-m1-cA_5fzq-a1-m1-cC Designed TPR Protein M4N 2.148 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 106 106 NSIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLAVLLAQEGKAEEAIKYMRKAVSLIDKAAK NSIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLAVLLAQEGKAEEAIKYMRKAVSLIDKAAK 5fzq-a1-m1-cB_5fzq-a1-m1-cC Designed TPR Protein M4N 2.148 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 105 106 NSIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLAVLLAQEGKAEEAIKYMRKAVSLIDKAA NSIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLAVLLAQEGKAEEAIKYMRKAVSLIDKAAK 5fzr-a1-m1-cB_5fzr-a1-m1-cA Designed TPR Protein M4N delta C (CF I) 2.045 X-RAY DIFFRACTION 58 1.0 32630 (synthetic construct) 32630 (synthetic construct) 105 107 5fzq-a1-m1-cB_5fzq-a1-m1-cA 5fzr-a2-m1-cD_5fzr-a2-m1-cC 5fzs-a1-m1-cA_5fzs-a1-m2-cA NSIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLAVLLAQEGKAEEAIKYMRKAVSLIDKAA NSIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLANLLAQEGKAEEAIKYMRKAVSLDPNNIKTLSNLAVLLAQEGKAEEAIKYMRKAVSLIDKAAKG 5fzu-a1-m1-cA_5fzu-a1-m2-cA CRYSTAL STRUCTURE OF N19D POTATO STI-KUNITZ BI-FUNCTIONAL INHIBITOR OF SERINE AND ASPARTIC PROTEASES IN SPACE GROUP P4322 AND PH 7.2 M1AKE5 M1AKE5 2.43 X-RAY DIFFRACTION 74 1.0 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 185 185 5fnw-a1-m1-cA_5fnw-a1-m2-cA 5fnx-a1-m1-cA_5fnx-a1-m2-cA 5fzy-a1-m1-cA_5fzy-a1-m2-cA 5fzy-a2-m1-cB_5fzy-a2-m3-cB 5fzz-a1-m1-cA_5fzz-a1-m2-cA 5g00-a1-m1-cA_5g00-a1-m2-cA PLPKPVLDTNGKELNPDSSYRIISIGRGALGGDVYLGKSPNSDAPCPDGVFRYNSDVGPSGTPVRFIPLSTNIFEDQLLNIQFNIPTVKLCVSYTIWKVGNLNAYFRTMLLETGGTIGQADNSYFKIVKSSKIGYNLLSCPFTSIICLRCPEDQFCAKVGVVIQNGKRRLALVNENPLDVLFQEV PLPKPVLDTNGKELNPDSSYRIISIGRGALGGDVYLGKSPNSDAPCPDGVFRYNSDVGPSGTPVRFIPLSTNIFEDQLLNIQFNIPTVKLCVSYTIWKVGNLNAYFRTMLLETGGTIGQADNSYFKIVKSSKIGYNLLSCPFTSIICLRCPEDQFCAKVGVVIQNGKRRLALVNENPLDVLFQEV 5g02-a1-m4-cA_5g02-a1-m6-cA Crystal Structure of zebrafish Protein Arginine Methyltransferase 2 with SFG A1L1Q4 A1L1Q4 2.451 X-RAY DIFFRACTION 34 1.0 7955 (Danio rerio) 7955 (Danio rerio) 337 337 5g02-a1-m1-cA_5g02-a1-m2-cA 5g02-a1-m1-cA_5g02-a1-m5-cA 5g02-a1-m2-cA_5g02-a1-m5-cA 5g02-a1-m3-cA_5g02-a1-m4-cA 5g02-a1-m3-cA_5g02-a1-m6-cA EDAWQDDEYFGNYGTLRLHLEMLSDKPRTETYRQVILSNSAALREKVVLDLGCGTGVISLFCALLAKPAGVYAVEASSMAEHTEELVKQNGCDGVVTVFQERAENLTLPTKVDVLVSEWMGNCLLFEYMLESVLLARDRWLKKGGMMWPSSACLTIVPCQAFSDYRQKVEFWENPYGLNFSYLQSLAQKEFLSKPKFSHHLQPEDCLSTPADVITLDMVTIQVSDLERLKGEFTFTVEKSGMFHGFTVWFSAHFQCLEEDGPSIELNTGPYSEITHWKQTLFMLDAPVSVEEGDIIAGSIRLQRNPIWRRHLSITFLWNINSTEVSTVKTKCFPMWR EDAWQDDEYFGNYGTLRLHLEMLSDKPRTETYRQVILSNSAALREKVVLDLGCGTGVISLFCALLAKPAGVYAVEASSMAEHTEELVKQNGCDGVVTVFQERAENLTLPTKVDVLVSEWMGNCLLFEYMLESVLLARDRWLKKGGMMWPSSACLTIVPCQAFSDYRQKVEFWENPYGLNFSYLQSLAQKEFLSKPKFSHHLQPEDCLSTPADVITLDMVTIQVSDLERLKGEFTFTVEKSGMFHGFTVWFSAHFQCLEEDGPSIELNTGPYSEITHWKQTLFMLDAPVSVEEGDIIAGSIRLQRNPIWRRHLSITFLWNINSTEVSTVKTKCFPMWR 5g1l-a1-m2-cA_5g1l-a1-m2-cB A double mutant of DsbG engineered for denitrosylation P77202 P77202 1.7 X-RAY DIFFRACTION 102 1.0 562 (Escherichia coli) 562 (Escherichia coli) 228 228 2h0g-a3-m1-cA_2h0g-a3-m1-cB 2h0g-a3-m2-cA_2h0g-a3-m2-cB 2h0i-a3-m1-cA_2h0i-a3-m1-cB 2h0i-a3-m2-cA_2h0i-a3-m2-cB 5g1k-a1-m1-cA_5g1k-a1-m1-cB 5g1l-a1-m1-cA_5g1l-a1-m1-cB LPAPVKAIEKQGITIIKTFDAPGGMKGYLGKYQDMGVTIYLTPDGKHAISGYMYNEKGENLSNTLIEKEIYAPAGREMWQRMEQSHWLLDGKKDAPVIVYVFADPFCGPCKQFWQQARPWVDSGKVQLRTLLVGVIKPESPATAAAILASKDPAKTWQQYEASGGKLKLNVPANVSTEQMKVLSDNEKLMDDLGANVTPAIYYMSKENTLQQAVGLPDQKTLNIIMGN LPAPVKAIEKQGITIIKTFDAPGGMKGYLGKYQDMGVTIYLTPDGKHAISGYMYNEKGENLSNTLIEKEIYAPAGREMWQRMEQSHWLLDGKKDAPVIVYVFADPFCGPCKQFWQQARPWVDSGKVQLRTLLVGVIKPESPATAAAILASKDPAKTWQQYEASGGKLKLNVPANVSTEQMKVLSDNEKLMDDLGANVTPAIYYMSKENTLQQAVGLPDQKTLNIIMGN 5g23-a1-m1-cA_5g23-a1-m1-cB Type IV-like pilin TTHA1219 from Thermus thermophilus Q5SIZ5 Q5SIZ5 1.85 X-RAY DIFFRACTION 78 0.995 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 191 194 5g23-a2-m1-cC_5g23-a2-m1-cD 5g24-a1-m1-cB_5g24-a1-m1-cA GRLADELSLTATVLARELYTVGYRLTGQALVLSPSSQGDGVQGWFLCEAGMEEICMGEVRGTGYEVNQGALRWGACKGEGCAPLPNNPVLGGDEVQVEAFRVAYLEGGTWKRQAQAVNLRPEGASPKVSALALYLLASVPVRGGAPAFTPGSTLSYPPGLTSSLLELPGAPNDGRLRAEKLWIVQTPNLAR RGRLADELSLTATVLARELYTVGYRLTGQALVLSPSSQGDGVQGWFLCEAGMEEICGESMGEVRGTGYEVNQGALRWGACKGEGCAPLPNNPVLGGDEVQVEAFRVAYLEGGTWKRQAQAVNLRPEGASPKVSALALYLLASVPVRGGAPAFTPGSTLSYPPGLTSSLLELPGAPNDGRLRAEKLWIVQTPNLA 5g2e-a5-m1-cV_5g2e-a5-m1-cU Structure of the Nap1 H2A H2B complex P25293 P25293 6.7 X-RAY DIFFRACTION 217 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 245 252 2ayu-a1-m1-cA_2ayu-a1-m2-cA 2z2r-a1-m1-cB_2z2r-a1-m1-cA 5g2e-a1-m1-cJ_5g2e-a1-m1-cI 5g2e-a2-m1-cF_5g2e-a2-m1-cE 5g2e-a3-m1-cB_5g2e-a3-m1-cA 5g2e-a4-m1-cR_5g2e-a4-m1-cQ 5g2e-a6-m1-cN_5g2e-a6-m1-cM GYVGGLPKNVKEKLLSLKTLQSELFEVEKEFQVEMFELENKFLQKYKPIWEQRSRIISGQEQPKPEQIAKGQEIVESLNETELLVDEQVKGIPSFWLTALENLPIVCDTITDRDAEVLEYLQDIGLEYLTDGRPGFKLLFRFDSSANPFFTNDILCKTYFYQKELGYSGDFIYDHAEGCEISWKDNAHNVTPIESFFNFFDPPKIQNEELEEDLEERLALDYSIGEQLKDKLIPRAVDWFTGAAL SGYVGGLPKNVKEKLLSLKTLQSELFEVEKEFQVEMFELENKFLQKYKPIWEQRSRIISGQEQPKPEQIAKGQEIVESLNETELLVDEEEQVKGIPSFWLTALENLPIVCDTITDRDAEVLEYLQDIGLEYLTDGRPGFKLLFRFDSSANPFFTNDILCKTYFYQKELGYSGDFIYDHAEGCEISWKDNAHNVTPIESFFNFFDPPKIQNEDQDEELEEDLEERLALDYSIGEQLKDKLIPRAVDWFTGAAL 5g2f-a1-m1-cA_5g2f-a1-m1-cB Type IV-like competence pilin TTHA1222 from Thermus thermophilus Q5SIZ2 Q5SIZ2 1.85 X-RAY DIFFRACTION 64 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 86 86 ANLAAGQSYVRNVALALEAQRDPSTGALPTHLTDCLSGFGQRPKTVTACTITYLNALDYVIEASLDGAALKKVVYKSSDGTLTSLP ANLAAGQSYVRNVALALEAQRDPSTGALPTHLTDCLSGFGQRPKTVTACTITYLNALDYVIEASLDGAALKKVVYKSSDGTLTSLP 5g2f-a1-m1-cC_5g2f-a1-m1-cB Type IV-like competence pilin TTHA1222 from Thermus thermophilus Q5SIZ2 Q5SIZ2 1.85 X-RAY DIFFRACTION 29 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 74 86 AAGQSYVRNVALALEAQRDPSTGALPTHLTDCLSGFGQRPKTVTACTITYLNALDYVIEASLKVVYKSSDGTLT ANLAAGQSYVRNVALALEAQRDPSTGALPTHLTDCLSGFGQRPKTVTACTITYLNALDYVIEASLDGAALKKVVYKSSDGTLTSLP 5g2h-a1-m1-cA_5g2h-a1-m2-cA S. enterica HisA with mutation L169R P10372 P10372 1.9 X-RAY DIFFRACTION 20 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 231 231 MIIPALDLIDGTVVRLQRDYGNDPLPRLQDYAAQGAGVLHLVDLTGAKDPAKRQIPLIKTLVAGVNVPVQVGGGVRTEEDVAALLKAGVARVVIGSTAVKSPDVVKGWFERFGAQALVLALDVRIDEHGTKQVAVSGWQENSGVSLEQLVETYLPVGLKHVRCTDISRTLAVSLYEEVCARYPQIAFQSSGGIGDIDDIAALRGTGVRGVIVGRALLEGKFTVKEAIQWQN MIIPALDLIDGTVVRLQRDYGNDPLPRLQDYAAQGAGVLHLVDLTGAKDPAKRQIPLIKTLVAGVNVPVQVGGGVRTEEDVAALLKAGVARVVIGSTAVKSPDVVKGWFERFGAQALVLALDVRIDEHGTKQVAVSGWQENSGVSLEQLVETYLPVGLKHVRCTDISRTLAVSLYEEVCARYPQIAFQSSGGIGDIDDIAALRGTGVRGVIVGRALLEGKFTVKEAIQWQN 5g3c-a1-m1-cA_5g3c-a1-m2-cA Preserving Metallic sites affected by radiation damage the CuT2 case in thermus termophilus multicopper oxidase I7AL37 I7AL37 1.75 X-RAY DIFFRACTION 27 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 435 435 5g3g-a1-m1-cA_5g3g-a1-m2-cA GPSFPEPKVVRSQGGLLSLKLSATPLAIAGRATLLTYGGSFPGPTLRVRPRDTVRLTLENRLPEPTNLHWHGLPISPKVDDPFLEIPPGESWTYEFTVPKELAGTFWYHPHLHGRVAPQLFAGLLGALVVESSLDAIPELREAEEHLLVLKDLALQGGRPAPHTPMDWMNGKEGDLVLVNGALRPTLVAQKATLRLRLLNASNARYYRLALQDHPLYLIAADGGFLEEPLEVSELLLAPGERAEVLVRLRKEGRFLLQALPYDRGAMGMMDMGGMAHAMPQGPSRPETLLYLIAPKNPKPLPLPKALSPFPTLPAPVVTRRLVLTEDMMAARFFINGQVFDHRRVDLKGQAQTVEVWEVENQGDMDHPFHLHVHPFQVLSVGGRPFPYRAWKDVVNLKAGEVARLLVPLREKGTVFHCHIVEHEDRGMMGVLEVG GPSFPEPKVVRSQGGLLSLKLSATPLAIAGRATLLTYGGSFPGPTLRVRPRDTVRLTLENRLPEPTNLHWHGLPISPKVDDPFLEIPPGESWTYEFTVPKELAGTFWYHPHLHGRVAPQLFAGLLGALVVESSLDAIPELREAEEHLLVLKDLALQGGRPAPHTPMDWMNGKEGDLVLVNGALRPTLVAQKATLRLRLLNASNARYYRLALQDHPLYLIAADGGFLEEPLEVSELLLAPGERAEVLVRLRKEGRFLLQALPYDRGAMGMMDMGGMAHAMPQGPSRPETLLYLIAPKNPKPLPLPKALSPFPTLPAPVVTRRLVLTEDMMAARFFINGQVFDHRRVDLKGQAQTVEVWEVENQGDMDHPFHLHVHPFQVLSVGGRPFPYRAWKDVVNLKAGEVARLLVPLREKGTVFHCHIVEHEDRGMMGVLEVG 5g47-a1-m1-cB_5g47-a1-m1-cC Structure of Gc glycoprotein from severe fever with thrombocytopenia syndrome virus in the trimeric postfusion conformation R4V2Q5 R4V2Q5 2.45 X-RAY DIFFRACTION 196 1.0 1003835 (Severe fever with thrombocytopenia syndrome virus) 1003835 (Severe fever with thrombocytopenia syndrome virus) 428 428 5g47-a1-m1-cA_5g47-a1-m1-cB 5g47-a1-m1-cA_5g47-a1-m1-cC CDEMVHADSKLVSCRKECVTTGRALLPAVNPGQEACLHFTAPGSPDSKCLKIKVKRINLKCKKSSSYFVPDARSRCTSVRRCRWAGDCQSGCPPHFTSNSFSDDWAGKMDRAGLGFSGCSDGCGGAACGCFNAAPSCIFWRKWVENPHGIIWKVSPCAAWVPSAVIELTMPSGEVRTFHPMSGIPTQVFKGVSVTYLGSDMEVSGLTDLCEIEELKSKKLALAPCNQAGMGVVGKVGEIQCSSEESARTIKKDGCIWNADLVGIELRVDDAVCYSKITSVEAVANYSAIPTTIGGLRFERSHDSQGKISGSPLDITAIRGSFSVNYRGLRLSLSEITATCTGEVTNVSGCYSCMTGAKVSIKLHSSKNSTAHVRCKGDETAFSVLEGVHSYTVSLSFDHAVVDEQCQLNCGGHESQVTLKGNLIFLDV CDEMVHADSKLVSCRKECVTTGRALLPAVNPGQEACLHFTAPGSPDSKCLKIKVKRINLKCKKSSSYFVPDARSRCTSVRRCRWAGDCQSGCPPHFTSNSFSDDWAGKMDRAGLGFSGCSDGCGGAACGCFNAAPSCIFWRKWVENPHGIIWKVSPCAAWVPSAVIELTMPSGEVRTFHPMSGIPTQVFKGVSVTYLGSDMEVSGLTDLCEIEELKSKKLALAPCNQAGMGVVGKVGEIQCSSEESARTIKKDGCIWNADLVGIELRVDDAVCYSKITSVEAVANYSAIPTTIGGLRFERSHDSQGKISGSPLDITAIRGSFSVNYRGLRLSLSEITATCTGEVTNVSGCYSCMTGAKVSIKLHSSKNSTAHVRCKGDETAFSVLEGVHSYTVSLSFDHAVVDEQCQLNCGGHESQVTLKGNLIFLDV 5g4d-a1-m1-cA_5g4d-a1-m2-cA Crystal structure of the Cas2 in T.onnurineus B6YTB8 B6YTB8 1.701 X-RAY DIFFRACTION 100 1.0 342948 (Thermococcus onnurineus) 342948 (Thermococcus onnurineus) 79 79 AMDMYVVIVYDVAVERVNRVKKFLRRHLHWVQNSVFEGEVTLAEFERIKAGLLDLIDEDEDSVVIYKLRSMPKREVLGM AMDMYVVIVYDVAVERVNRVKKFLRRHLHWVQNSVFEGEVTLAEFERIKAGLLDLIDEDEDSVVIYKLRSMPKREVLGM 5g4i-a1-m1-cB_5g4i-a1-m1-cA PLP-dependent phospholyase A1RDF1 from Arthrobacter aurescens TC1 A1RDF1 A1RDF1 1.5 X-RAY DIFFRACTION 291 1.0 290340 (Paenarthrobacter aurescens TC1) 290340 (Paenarthrobacter aurescens TC1) 422 423 5g4j-a1-m1-cB_5g4j-a1-m1-cA DLLARRYATIGPHSPLFYRQPLELVSGSGVWLTDAQGKVYLDGYNNVPHVGHANPAVADAIYQQLLTVNLHTRYLNSRVVEYAEALLSKFDGALERLFLTNSGSEANELALRIARQHTGNTGVLVSDFSYHGNTTSLAEITTGLTVHEPLGAHVRALRIPDVSGIAEVDVPVLLEQSLADVDAAIASLQAAGHGVSVFLFDPLFSTEGLLQLPSGYIEGVATRVRAAGGLVISDEVQSGFGRTGSGMWGYQMFNVEPELVTMGKPMGNGHPIGAVVTTAELLDEFGRHNMFFNTFAGNPVSSAAGLAVLRYMDQEDLMAKADQLGKYIRKRLENIAQRSGNVGSVRGRGLFFGIDIIESDGSRNPAPALTKILIEDMRERGVLISRVGPHDNVLKMRPPLVFGREHADILLGQLELSLASLP DLLARRYATIGPHSPLFYRQPLELVSGSGVWLTDAQGKVYLDGYNNVPHVGHANPAVADAIYQQLLTVNLHTRYLNSRVVEYAEALLSKFDGALERLFLTNSGSEANELALRIARQHTGNTGVLVSDFSYHGNTTSLAEITTGLTVHEPLGAHVRALRIPDVSGIAEVDVPVLLEQSLADVDAAIASLQAAGHGVSVFLFDPLFSTEGLLQLPSGYIEGVATRVRAAGGLVISDEVQSGFGRTGSGMWGYQMFNVEPELVTMGKPMGNGHPIGAVVTTAELLDEFGRHNMFFNTFAGNPVSSAAGLAVLRYMDQEDLMAKADQLGKYIRKRLENIAQRSGNVGSVRGRGLFFGIDIIESDGSRNPAPALTKILIEDMRERGVLISRVGPHDNVLKMRPPLVFGREHADILLGQLELSLASLPQ 5g5a-a2-m1-cD_5g5a-a2-m1-cC Glutathione transferase U25 from Arabidopsis thaliana in complex with glutathione disulfide Q9SHH7 Q9SHH7 1.95 X-RAY DIFFRACTION 50 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 218 219 5g5a-a1-m1-cA_5g5a-a1-m1-cB DEVILLDFWPSMFGMRTRIALEEKNVKFDYREQDLWNKSPILLEMNPVHKKIPVLIHNGNPVCESLIQIEYIDEVWPSKTPLLPSDPYQRAQAKFWGDFIDKKVYASARLIWGAKGEEHEAGKKEFIEILKTLESELGDKTYFGGETFGYVDIALIGFYSWFEAYEKFGSFSIEAECPKLIAWGKRCVERESVAKSLPDSEKIIKFVPELRKKLGIEI ADEVILLDFWPSMFGMRTRIALEEKNVKFDYREQDLWNKSPILLEMNPVHKKIPVLIHNGNPVCESLIQIEYIDEVWPSKTPLLPSDPYQRAQAKFWGDFIDKKVYASARLIWGAKGEEHEAGKKEFIEILKTLESELGDKTYFGGETFGYVDIALIGFYSWFEAYEKFGSFSIEAECPKLIAWGKRCVERESVAKSLPDSEKIIKFVPELRKKLGIEI 5g5e-a1-m1-cA_5g5e-a1-m2-cA Crystallographic structure of the Tau class glutathione S-transferase MiGSTU from mango Mangifera indica L. A0A1P8NWC2 A0A1P8NWC2 1.8 X-RAY DIFFRACTION 64 1.0 29780 (Mangifera indica) 29780 (Mangifera indica) 220 220 5g5f-a1-m1-cA_5g5f-a1-m2-cA 5kej-a1-m1-cA_5kej-a1-m1-cB AKSDVKLLGAWPSPYVMRARITLNVKSVDYELLEETLGSKSDLLLKSNPVHKKIPVLIHNDKPICESLIIVHYIDEFWSSGPSILPSDPYDRAIARFWAAYLDEKWYPSLKGIASAQGEEAKKAAVDQVGESLALIEDTYVKLSKGKPFFGGEKIGYLDIAFGCFLGWLRVTEKTSGVKFLNEAKTPHLAKWAVRFCADPAVKDVMPETEKLAEFAKLLA AKSDVKLLGAWPSPYVMRARITLNVKSVDYELLEETLGSKSDLLLKSNPVHKKIPVLIHNDKPICESLIIVHYIDEFWSSGPSILPSDPYDRAIARFWAAYLDEKWYPSLKGIASAQGEEAKKAAVDQVGESLALIEDTYVKLSKGKPFFGGEKIGYLDIAFGCFLGWLRVTEKTSGVKFLNEAKTPHLAKWAVRFCADPAVKDVMPETEKLAEFAKLLA 5g5m-a1-m1-cA_5g5m-a1-m1-cB Structure of the Pyrococcus Furiosus Esterase Pf2001 with space group P21 Q8TZJ1 Q8TZJ1 2.07 X-RAY DIFFRACTION 66 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 253 257 NPPRVVGNWTPKDLSFEYKDVEITTEDNVKLSGWWIDNGSDKTVIPLHGYTSSRWAEHYMRPVIEFLLKEGYNVLAFDFRAHGKSGGKYTTVGDKEILDLKAGVKWLKDNYPEKSKRIGVIGFSMGALVAIRGLSEVKEICCGVADSPPIYLDKTGARGMKYFAKLPEWLYSFVKPFSVLNYTNSIKKPLFLIIGRRDTLVKVEEVQEFYERNKHVNPNVELWVTDAPHVRTIQVFPEEWKSRVGEFLKRWMG VNPPRVVGNWTPKDLSFEYKDVEITTEDNVKLSGWWIDNGSDKTVIPLHGYTSSRWAEHYMRPVIEFLLKEGYNVLAFDFRAHGKSGGKYTTVGDKEILDLKAGVKWLKDNYPEKSKRIGVIGFSMGALVAIRGLSEVKEICCGVADSPPIYLDKTGARGMKYFAKLPEWLYSFVKPFSEINVLNYTNSIKKPLFLIIGRRDTLVKVEEVQEFYERNKHVNPNVELWVTDAPHVRTIQVFPEEWKSRVGEFLKRWMG 5g5o-a1-m1-cD_5g5o-a1-m1-cF Structure of the snake adenovirus 1 hexon-interlacing LH3 protein, native A9CB85 A9CB85 2 X-RAY DIFFRACTION 134 1.0 189830 (Snake adenovirus 1) 189830 (Snake adenovirus 1) 338 338 5g5n-a1-m1-cA_5g5n-a1-m1-cB 5g5n-a1-m1-cA_5g5n-a1-m1-cC 5g5n-a1-m1-cB_5g5n-a1-m1-cC 5g5o-a1-m1-cD_5g5o-a1-m1-cE 5g5o-a1-m1-cF_5g5o-a1-m1-cE 5g5o-a2-m1-cA_5g5o-a2-m1-cB 5g5o-a2-m1-cA_5g5o-a2-m1-cC 5g5o-a2-m1-cC_5g5o-a2-m1-cB GTLLPGQSPDEAFARNSVVFLVPGAEYNWKNVVIRKPVWIYGNGATVKTSGLGPIIHIMGDLDNPMDVRIQDLTFIGGDSPDRLVPFSAVLTNQMALWCIDPRITIRGCSFYNFGGAAIYLERSERDGQVMITDCRFRGCRIGIANGGSVEYGLASQNNFSDCQICFNVVGGNWTRSGNVASNCRCMYLHTQGMWYEGAAGNFNPAHGSFTSNTLNHCDYGGNLWPTEFQLPDRVINLAGFYFDNAAARLPNFSGNSQWYGDMKLINFLPDSTFVINGGALYGGPGDTGVIAVATALAAKVFVIGCQGNAGQQIVNVPAANIIPEVGTRKDDATQPAA GTLLPGQSPDEAFARNSVVFLVPGAEYNWKNVVIRKPVWIYGNGATVKTSGLGPIIHIMGDLDNPMDVRIQDLTFIGGDSPDRLVPFSAVLTNQMALWCIDPRITIRGCSFYNFGGAAIYLERSERDGQVMITDCRFRGCRIGIANGGSVEYGLASQNNFSDCQICFNVVGGNWTRSGNVASNCRCMYLHTQGMWYEGAAGNFNPAHGSFTSNTLNHCDYGGNLWPTEFQLPDRVINLAGFYFDNAAARLPNFSGNSQWYGDMKLINFLPDSTFVINGGALYGGPGDTGVIAVATALAAKVFVIGCQGNAGQQIVNVPAANIIPEVGTRKDDATQPAA 5g5r-a1-m1-cA_5g5r-a1-m2-cA CBS domain tandem of site-2 protease from Archaeoglobus fulgidus in complex with llama Nanobody - apo form O29915 O29915 2.4 X-RAY DIFFRACTION 51 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 122 122 MDVMNTEVVTVTPEMTVSEVIDLILKTKHLGFPVVEGERLVGIITLHDIIGVEPEERVGNIMSREVVAVSPNQSAFEAFKIMSEMGIGRLPVVEHGRVVGIVSRSDLMRIKEILEALEVMGW MDVMNTEVVTVTPEMTVSEVIDLILKTKHLGFPVVEGERLVGIITLHDIIGVEPEERVGNIMSREVVAVSPNQSAFEAFKIMSEMGIGRLPVVEHGRVVGIVSRSDLMRIKEILEALEVMGW 5g5x-a1-m1-cA_5g5x-a1-m2-cA CBS domain tandem of site-2 protease from Archaeoglobus fulgidus in complex with llama Nanobody - nucleotide-bound form O29915 O29915 2.8 X-RAY DIFFRACTION 30 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 119 119 MDVMNTEVVTVTPEMTVSEVIDLILKTKHLGFPVVEGERLVGIITLHDIIGVEPEERVGNIMSREVVAVSPNQSAFEAFKIMSEMGIGRLPVVEHGRVVGIVSRSDLMRIKEILEALEV MDVMNTEVVTVTPEMTVSEVIDLILKTKHLGFPVVEGERLVGIITLHDIIGVEPEERVGNIMSREVVAVSPNQSAFEAFKIMSEMGIGRLPVVEHGRVVGIVSRSDLMRIKEILEALEV 5g5x-a1-m1-cB_5g5x-a1-m2-cB CBS domain tandem of site-2 protease from Archaeoglobus fulgidus in complex with llama Nanobody - nucleotide-bound form 2.8 X-RAY DIFFRACTION 17 1.0 9844 (Lama glama) 9844 (Lama glama) 118 118 QVQLQESGGGLVQPGGSLRLSCAASGSGFNNNAMGWYRQAPGKQRELVAAITSFGSTNYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCTAGWGATPRSYWGQGTQVTVSSH QVQLQESGGGLVQPGGSLRLSCAASGSGFNNNAMGWYRQAPGKQRELVAAITSFGSTNYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCTAGWGATPRSYWGQGTQVTVSSH 5g5z-a3-m1-cA_5g5z-a3-m3-cD S.pneumoniae ABC-transporter substrate binding protein FusA in complex with kestose A0A0H2URD6 A0A0H2URD6 2.01 X-RAY DIFFRACTION 91 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 491 491 5g5z-a1-m1-cB_5g5z-a1-m1-cC 5g5z-a2-m1-cD_5g5z-a2-m2-cA KTLKFMTASSPLSPKDPNEKLILQRLEKETGVHIDWTNYQSDFAEKRNLDISSGDLPDAIHNDGASDVDLMNWAKKGVIIPVEDLIDKYMPNLKKILDEKPEYKALMTAPDGHIYSFPWIEELGDGKESIHSVNDMAWINKDWLKKLGLEMPKTTDDLIKVLEAFKNGDPNGNGEADEIPFSFISGNGNEDFKFLFAAFGIGDNDDHLVVGNDGKVDFTADNDNYKEGVKFIRQLQEKGLIDKEAFEHDWNSYIAKGHDQKFGVYFTWDKNNVTGSNESYDVLPVLAGPSGQKHVARTNGMGFARDKMVITSVNKNLELTAKWIDAQYAPLQSVQNNWGTYGDDKQQNIFELDQASNSLKHLPLNGTAPAELRQKTEVGGPLAILDSYYGKVTTMPDDAKWRLDLIKEYYVPYMSNVNNYPRVFMTQEDLDKIAHIEADMNDYIYRKRAEWIVNGNIDTEWDDYKKELEKYGLSDYLAIKQKYYDQYQANK KTLKFMTASSPLSPKDPNEKLILQRLEKETGVHIDWTNYQSDFAEKRNLDISSGDLPDAIHNDGASDVDLMNWAKKGVIIPVEDLIDKYMPNLKKILDEKPEYKALMTAPDGHIYSFPWIEELGDGKESIHSVNDMAWINKDWLKKLGLEMPKTTDDLIKVLEAFKNGDPNGNGEADEIPFSFISGNGNEDFKFLFAAFGIGDNDDHLVVGNDGKVDFTADNDNYKEGVKFIRQLQEKGLIDKEAFEHDWNSYIAKGHDQKFGVYFTWDKNNVTGSNESYDVLPVLAGPSGQKHVARTNGMGFARDKMVITSVNKNLELTAKWIDAQYAPLQSVQNNWGTYGDDKQQNIFELDQASNSLKHLPLNGTAPAELRQKTEVGGPLAILDSYYGKVTTMPDDAKWRLDLIKEYYVPYMSNVNNYPRVFMTQEDLDKIAHIEADMNDYIYRKRAEWIVNGNIDTEWDDYKKELEKYGLSDYLAIKQKYYDQYQANK 5g6m-a1-m1-cA_5g6m-a1-m2-cA Structure of Bacillus subtilis Nitric Oxide Synthase in complex with 7-((3-Aminomethyl)phenoxy)methyl)quinolin-2-amine O34453 O34453 1.77 X-RAY DIFFRACTION 92 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 362 362 1m7v-a1-m1-cA_1m7v-a1-m2-cA 1m7z-a1-m1-cA_1m7z-a1-m2-cA 2amo-a1-m1-cA_2amo-a1-m2-cA 2amo-a2-m1-cB_2amo-a2-m2-cB 2an0-a1-m1-cA_2an0-a1-m2-cA 2an2-a1-m1-cA_2an2-a1-m2-cA 2fbz-a1-m1-cX_2fbz-a1-m2-cX 2fc1-a1-m1-cA_2fc1-a1-m2-cA 2fc2-a1-m1-cA_2fc2-a1-m2-cA 2fc2-a2-m1-cB_2fc2-a2-m2-cB 4d3i-a1-m1-cA_4d3i-a1-m2-cA 4d3j-a1-m1-cA_4d3j-a1-m2-cA 4d3k-a1-m1-cB_4d3k-a1-m1-cA 4d3m-a1-m1-cA_4d3m-a1-m2-cA 4d3n-a1-m1-cA_4d3n-a1-m2-cA 4d3o-a1-m1-cA_4d3o-a1-m2-cA 4d3t-a1-m1-cA_4d3t-a1-m2-cA 4d3u-a1-m1-cA_4d3u-a1-m2-cA 4d3v-a1-m1-cA_4d3v-a1-m2-cA 4d7h-a1-m1-cA_4d7h-a1-m2-cA 4d7i-a1-m1-cA_4d7i-a1-m2-cA 4d7j-a1-m1-cA_4d7j-a1-m2-cA 4lwa-a2-m1-cA_4lwa-a2-m2-cA 4lwb-a2-m1-cA_4lwb-a2-m2-cA 4ug5-a1-m1-cA_4ug5-a1-m2-cA 4ug6-a1-m1-cA_4ug6-a1-m2-cA 4ug7-a1-m1-cA_4ug7-a1-m2-cA 4ug8-a1-m1-cA_4ug8-a1-m2-cA 4ug9-a1-m1-cA_4ug9-a1-m2-cA 4uga-a1-m1-cA_4uga-a1-m2-cA 4ugb-a1-m1-cA_4ugb-a1-m2-cA 4ugc-a1-m1-cA_4ugc-a1-m2-cA 4ugd-a1-m1-cA_4ugd-a1-m2-cA 4uge-a1-m1-cA_4uge-a1-m2-cA 4ugf-a1-m1-cA_4ugf-a1-m2-cA 4ugg-a1-m1-cA_4ugg-a1-m2-cA 4ugh-a1-m1-cA_4ugh-a1-m2-cA 4ugi-a1-m1-cA_4ugi-a1-m2-cA 4ugj-a1-m1-cA_4ugj-a1-m2-cA 4ugk-a1-m1-cA_4ugk-a1-m2-cA 4ugl-a1-m1-cA_4ugl-a1-m2-cA 4ugm-a1-m1-cA_4ugm-a1-m2-cA 4ugn-a1-m1-cA_4ugn-a1-m2-cA 4ugo-a1-m1-cA_4ugo-a1-m2-cA 4ugp-a1-m1-cA_4ugp-a1-m2-cA 4ugq-a1-m1-cA_4ugq-a1-m2-cA 4ugr-a1-m1-cA_4ugr-a1-m2-cA 4ugs-a1-m1-cA_4ugs-a1-m2-cA 4ugt-a1-m1-cA_4ugt-a1-m2-cA 4ugu-a1-m1-cA_4ugu-a1-m2-cA 4ugv-a1-m1-cA_4ugv-a1-m2-cA 4ugw-a1-m1-cA_4ugw-a1-m2-cA 4ugx-a1-m1-cA_4ugx-a1-m2-cA 4ugy-a1-m1-cA_4ugy-a1-m2-cA 4uqr-a1-m1-cA_4uqr-a1-m2-cA 4uqs-a1-m1-cA_4uqs-a1-m2-cA 5g65-a1-m1-cA_5g65-a1-m2-cA 5g66-a1-m1-cA_5g66-a1-m2-cA 5g67-a1-m1-cA_5g67-a1-m2-cA 5g68-a1-m1-cA_5g68-a1-m2-cA 5g69-a1-m1-cA_5g69-a1-m2-cA 5g6a-a1-m1-cA_5g6a-a1-m2-cA 5g6b-a1-m1-cA_5g6b-a1-m2-cA 5g6c-a1-m1-cA_5g6c-a1-m2-cA 5g6d-a1-m1-cA_5g6d-a1-m2-cA 5g6e-a1-m1-cA_5g6e-a1-m2-cA 5g6f-a1-m1-cA_5g6f-a1-m2-cA 5g6g-a1-m1-cA_5g6g-a1-m2-cA 5g6h-a1-m1-cA_5g6h-a1-m2-cA 5g6i-a1-m1-cA_5g6i-a1-m2-cA 5g6j-a1-m1-cA_5g6j-a1-m2-cA 5g6k-a1-m1-cA_5g6k-a1-m2-cA 5g6l-a1-m1-cA_5g6l-a1-m2-cA 5g6n-a1-m1-cA_5g6n-a1-m2-cA 5g6o-a1-m1-cA_5g6o-a1-m2-cA 5g6p-a1-m1-cA_5g6p-a1-m2-cA 5g6q-a1-m1-cA_5g6q-a1-m2-cA 6xcx-a1-m1-cA_6xcx-a1-m2-cA 6xk4-a1-m1-cA_6xk4-a1-m2-cA 6xk6-a1-m1-cA_6xk6-a1-m2-cA 6xk7-a1-m1-cA_6xk7-a1-m2-cA 6xk8-a1-m1-cA_6xk8-a1-m2-cA 6xmc-a1-m1-cA_6xmc-a1-m2-cA EEKEILWNEAKAFIAACYQELGKAAEVKDRLADIKSEIDLTGSYVHTKEELEHGAKMAWRNSNRCIGRLFWNSLNVIDRRDVRTKEEVRDALFHHIETATNNGKIRPTITIFPPEEKGEKQVEIWNHQLIRYAGYESDGERIGDPASCSLTAACEELGWRGERTDFDLLPLIFRMKGDEQPVWYELPRSLVIEVPITHPDIEAFSDLELKWYGVPIISDMKLEVGGIHYNAAPFNGWYMGTEIGARNLADEKRYDKLKKVASVIGIAADYNTDLWKDQALVELNKAVLHSYKKQGVSIVDHHTAASQFKRFEEQAEEAGRKLTGDWTWLIPPISPAATHIFHRSYDNSIVKPNYFYQDKPYE EEKEILWNEAKAFIAACYQELGKAAEVKDRLADIKSEIDLTGSYVHTKEELEHGAKMAWRNSNRCIGRLFWNSLNVIDRRDVRTKEEVRDALFHHIETATNNGKIRPTITIFPPEEKGEKQVEIWNHQLIRYAGYESDGERIGDPASCSLTAACEELGWRGERTDFDLLPLIFRMKGDEQPVWYELPRSLVIEVPITHPDIEAFSDLELKWYGVPIISDMKLEVGGIHYNAAPFNGWYMGTEIGARNLADEKRYDKLKKVASVIGIAADYNTDLWKDQALVELNKAVLHSYKKQGVSIVDHHTAASQFKRFEEQAEEAGRKLTGDWTWLIPPISPAATHIFHRSYDNSIVKPNYFYQDKPYE 5g6s-a4-m1-cC_5g6s-a4-m1-cB Imine reductase from Aspergillus oryzae in complex with NADP(H) and (R)-rasagiline Q2TW47 Q2TW47 2.35 X-RAY DIFFRACTION 367 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 288 289 5g6r-a1-m1-cA_5g6r-a1-m1-cB 5g6s-a1-m1-cA_5g6s-a1-m1-cG 5g6s-a2-m1-cD_5g6s-a2-m1-cF 5g6s-a3-m1-cE_5g6s-a3-m1-cH KHIGIFGLGAMGTALAAKYLEHGYKTSVWNRTTAKAIPLVEQGAKLASTISEGVNANDLIIICLLNNQVVEDALRDALQTLPSKTIVNLTNGTPNQARKLADFVTSHGARYIHGGIMAVPTMIGSPHAVLLYSGESLELFQSIESHLSLLGMSKYLGTDAGSASLHDLALLSGMYGLFSGFLHAVALIKSGQDTSTTATGLLPLLTPWLSAMTGYLSSIAKQIDDGDYATQGSNLGMQLAGVENIIRAGEEQRVSSQMILPIKALIEQAVGEGHGGEDLSALIEYFKV SKHIGIFGLGAMGTALAAKYLEHGYKTSVWNRTTAKAIPLVEQGAKLASTISEGVNANDLIIICLLNNQVVEDALRDALQTLPSKTIVNLTNGTPNQARKLADFVTSHGARYIHGGIMAVPTMIGSPHAVLLYSGESLELFQSIESHLSLLGMSKYLGTDAGSASLHDLALLSGMYGLFSGFLHAVALIKSGQDTSTTATGLLPLLTPWLSAMTGYLSSIAKQIDDGDYATQGSNLGMQLAGVENIIRAGEEQRVSSQMILPIKALIEQAVGEGHGGEDLSALIEYFKV 5gg4-a1-m1-cA_5gg4-a1-m1-cB Crystal structure of USP7 with RNF169 peptide Q93009 Q93009 3.11 X-RAY DIFFRACTION 14 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 313 317 HLYMQVQIVAEDQFCGHQGNDMYDEEKVKYTVFKVLKNSSLAEFVQSLSQTMGFPQDQIRLWPMQARSNGTKRPAMLDNEADGNKTMIELSDNENPWTIFLETVDPTLPKFDKDHDVMLFLKMYDPKTRSLNYCGHIYTPISCKIRDLLPVMCDRAGFIQDTSLILYEEVKPNLTERIQDYDVSLDKALDELMDGDIIVFQKDDPENDNSELPTAKEYFRDLYHRVDVIFCDKTIPNDPGFVVTLSNRMNYFQVAKTVAQRLNTDPMLLQFFKSQGYRDGPGNPLRHNYEGTLRDLLQFFKPRQPKKLYYQQL HLYMQVQIVAEDQFCGHQGNDMYDEEKVKYTVFKVLKNSSLAEFVQSLSQTMGFPQDQIRLWPMQARSNGTKRPAMLDNEADGNKTMIELSDNENPWTIFLETVDPATLPKFDDHDVMLFLKMYDPKTRSLNYCGHIYTPISCKIRDLLPVMCDRAGFIQDTSLILYEEVKPNLTERIQDYDVSLDKALDELMDGDIIVFQKDDPENDNSELPTAKEYFRDLYHRVDVIFCDKTIPNDPGFVVTLSNRMNYFQVAKTVAQRLNTDPMLLQFFKSQGYRDGPGNPLRHNYEGTLRDLLQFFKPRQPKKLYYQQLKMKI 5gg4-a2-m1-cD_5gg4-a2-m1-cC Crystal structure of USP7 with RNF169 peptide Q93009 Q93009 3.11 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 231 HLYMQVQIVAEDQFCGHQGNDMYDEEKVKYTVFKVLKNSSLAEFVQSLSQTMGFPQDQIRLWPMQARSNGTKRPAMLDNEADGNKTMIELSDNENPWTIFLETVDPATLPKFDKDHDVMLFLKMYDPKTRSLNYCGHIYTPISCKIRDLLPVMCDRAGFIQDTSLILYEEVKPNLTERIQDYDVSLDKALDELMDGDIIVFQKDDPENDNSELPTAKEYFRDLYHRVD HLYMQVQIVAEDQFCGHQGNDMYDEEKVKYTVFKVLKNSSLAEFVQSLSQTMGFPQDQIRLWPMQARSNGTKRPAMLDNEADGNKTMIELSDNENPWTIFLETVDPELATLPKFDKDHDVMLFLKMYDPKTRSLNYCGHIYTPISCKIRDLLPVMCDRAGFIQDTSLILYEEVKPNLTERIQDYDVSLDKALDELMDGDIIVFQKDDPENDNSELPTAKEYFRDLYHRVDV 5ggx-a1-m1-cA_5ggx-a1-m1-cB Crystal Structure of Fe3+ - Desferal bound siderophore binding protein FhuD from Vibrio cholerae A0A0H3AJ03 A0A0H3AJ03 3.4 X-RAY DIFFRACTION 28 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 265 266 HMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP SHMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP 5ggx-a1-m1-cA_5ggx-a1-m1-cC Crystal Structure of Fe3+ - Desferal bound siderophore binding protein FhuD from Vibrio cholerae A0A0H3AJ03 A0A0H3AJ03 3.4 X-RAY DIFFRACTION 23 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 265 266 HMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP SHMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP 5ggx-a1-m1-cB_5ggx-a1-m1-cD Crystal Structure of Fe3+ - Desferal bound siderophore binding protein FhuD from Vibrio cholerae A0A0H3AJ03 A0A0H3AJ03 3.4 X-RAY DIFFRACTION 62 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 266 267 SHMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP GSHMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP 5ggx-a1-m1-cC_5ggx-a1-m1-cD Crystal Structure of Fe3+ - Desferal bound siderophore binding protein FhuD from Vibrio cholerae A0A0H3AJ03 A0A0H3AJ03 3.4 X-RAY DIFFRACTION 44 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 266 267 SHMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP GSHMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAP 5ggy-a1-m1-cN_5ggy-a1-m1-cA X-ray crystal structure of Periplasmic Desferal binding protein FhuD from Vibrio cholerae A0A0H3AJ03 A0A0H3AJ03 2.5 X-RAY DIFFRACTION 15 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 266 267 HMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAPQ HMRVVVLNWDLLEQVLELGIQPVGAPELSSYVQWVVQPEVPSSVQDIGTRTEPNLEKIAALKPDVILAAGPQQDLLATLGRIAPVVYLPNFSEQDNAAQVAISHFKTLATLFGKEAVAQQKLEAMYARFSELKASLQHAFGDTLPAVVTLRFANPTSVFLYTENSTPQYVLEQLGLSSALPQPPKEWGIVQKRLSELQHVEQGYVLYFLPFAEEKKVQKSVLWRAMPFVQAGRVNSVRPVWSYGGAMSLRYSAEAITESLLAVAPQS 5gha-a2-m1-cC_5gha-a2-m1-cD Sulfur Transferase TtuA in complex with Sulfur Carrier TtuB Q72LF3 Q72LF3 2.502 X-RAY DIFFRACTION 65 0.993 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 302 310 5b4e-a1-m1-cA_5b4e-a1-m2-cA 5b4f-a1-m1-cA_5b4f-a1-m2-cA 5gha-a1-m1-cA_5gha-a1-m1-cB VCKVCGQKAQVEMRSRGLALCREHYLDWFVKETERAIRRHRMLLPGERVLVAVSGGKDSLALWDVLSRLGYQAVGLHIELGIGEYSKRSLEVTQAFARERGLELLVVDLKEAYGFGVPELARLSGRVACSACGLSKRYIINQVAVEEGFRVVATGHNLDDEAAVLFGNLLNPQGPVLPEKPGLAARVKPFYRFSEREVLSYTLLRGIRYLHEECAKSLLYKEALNLVERSMPGAKLRFLDGFLEKIRPRLDALRECERCGYPTTGAVCAFCRMWDAVYRRAKKRKLLPEEVSFRPRVKPLRA VCKVCGQKAQVEMRSRGLALCREHYLDWFVKETERAIRRHRMLLPGERVLVAVSGGKDSLALWDVLSRLGYQAVGLHIELGIGEYSKRSLEVTQAFARERGLELLVVDLKEAYGFGVPELARLSGRVACSACGLSKRYIINQVAVEEGFRVVATGHNLDDEAAVLFGNLLNPGPVLPEKPGLAARVKPFYRFSEREVLSYTLLRGIRYLHEECPNAKGAKSLLYKEALNLVERSMPGAKLRFLDGFLEKIRPRLDVGEEVALRECERCGYPTTGAVCAFCRMWDAVYRRAKKRKLLPEEVSFRPRVKPLR 5gi4-a1-m1-cA_5gi4-a1-m1-cB DEAD-box RNA helicase P0A9P6 P0A9P6 2.244 X-RAY DIFFRACTION 120 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 218 227 PDISQSYWTVWGMRKNEALVRFLEAEDFDAAIIFVRTKNATLEVAEALERNGYNSAALNGDMNQALREQTLERLKDGRLDILIATDVAARGLDVERISLVVNYDIPMDSESYVHRIGRTGRAGRAGRALLFVENRERRLLRNIERTMKLTIPEVELPNAELLGKRRLEKFAAKVQQQLESSDLDQYRALLSKIQDLETLAAALLKMAQGERTLIVPPD PDISQSYWTVWGMRKNEALVRFLEAEDFDAAIIFVRTKNATLEVAEALERNGYNSAALNGDMNQALREQTLERLKDGRLDILIATDVAARGLDVERISLVVNYDIPMDSESYVHRIGRTGRAGRAGRALLFVENRERRLLRNIERTMKLTIPEVELPNAELLGKRRLEKFAAKVQQQLESSDLDQYRALLSKIQPTAEGEELDLETLAAALLKMAQGERTLIVPPDA 5giv-a2-m1-cB_5giv-a2-m1-cF Crystal structure of M32 carboxypeptidase from Deinococcus radiodurans R1 Q9RRR3 Q9RRR3 2.4 X-RAY DIFFRACTION 91 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 501 501 5giv-a1-m1-cA_5giv-a1-m1-cD 5giv-a3-m1-cC_5giv-a3-m1-cE TTRQDTQWQQLTEHWQELADFGGIEALLGWDQSTFLPAGAAEDRARQQSLLAGLRHARATDAGYGKLLDAASSRSDLSPEQARMVQVARQDFEKATRIPAEFVREFSGHVGQSYSAWTEARPANDFGRMVPYLEKTLDLSLQAASYFPEFGDPLDYYINESDEGMTAEQVGQVFAELRAALVPLADAVIAAGAPRTDFLGRGFAQERQLAFGERVIRDYGYDFRRGRQDLTHHPFMTRLGGHDVRITTRVKEQDPTDALYSTLHEAGHALYEQGVDAAFLGTPLGGGVSAGVHESQSRLWENLVGRSRAFWAAYFGDWRDTFPEQLAGVTEEEMYRAVNTVSRSLIRTDADELTYNLHVITRFELEREMLAGKLAVRDLADAWHAAYEQNLGLRAPSDVDGALQDVHWYFGPIGGSFQGYTIGNVLSAQFYAAAEAANPGLEADFARKDFSRLHGWLRENVYRHGRRWTPGELIERATGQALTAGPYLKYLRGKYGELYGV TTRQDTQWQQLTEHWQELADFGGIEALLGWDQSTFLPAGAAEDRARQQSLLAGLRHARATDAGYGKLLDAASSRSDLSPEQARMVQVARQDFEKATRIPAEFVREFSGHVGQSYSAWTEARPANDFGRMVPYLEKTLDLSLQAASYFPEFGDPLDYYINESDEGMTAEQVGQVFAELRAALVPLADAVIAAGAPRTDFLGRGFAQERQLAFGERVIRDYGYDFRRGRQDLTHHPFMTRLGGHDVRITTRVKEQDPTDALYSTLHEAGHALYEQGVDAAFLGTPLGGGVSAGVHESQSRLWENLVGRSRAFWAAYFGDWRDTFPEQLAGVTEEEMYRAVNTVSRSLIRTDADELTYNLHVITRFELEREMLAGKLAVRDLADAWHAAYEQNLGLRAPSDVDGALQDVHWYFGPIGGSFQGYTIGNVLSAQFYAAAEAANPGLEADFARKDFSRLHGWLRENVYRHGRRWTPGELIERATGQALTAGPYLKYLRGKYGELYGV 5gj4-a2-m1-cD_5gj4-a2-m1-cH Structure of NS2B-NS3 Protease from Zika Virus caught after self-cleavage Q32ZE1 Q32ZE1 1.839 X-RAY DIFFRACTION 28 1.0 64320 (Zika virus) 64320 (Zika virus) 152 153 5gj4-a1-m1-cF_5gj4-a1-m1-cB 8aqa-a1-m1-cC_8aqa-a1-m1-cB 8aqk-a1-m1-cC_8aqk-a1-m1-cB TDGVYRVMTRRLLGSTQVGVGVMQEGVFHTMWHVTKGAALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGLSEVQLLAVPPGERAKNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKCGRVIGLYGNGVVIKNGSYVSAITQGKR TDGVYRVMTRRLLGSTQVGVGVMQEGVFHTMWHVTKGAALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGLSEVQLLAVPPGERAKNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKCGRVIGLYGNGVVIKNGSYVSAITQGKRE 5gja-a1-m1-cB_5gja-a1-m1-cD Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 62 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 298 299 5gja-a1-m1-cC_5gja-a1-m1-cA KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK MKFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gja-a1-m1-cE_5gja-a1-m1-cB Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 16 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 288 298 KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gja-a1-m1-cF_5gja-a1-m1-cA Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 18 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 298 299 KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK MKFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gja-a1-m1-cG_5gja-a1-m1-cD Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 10 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 298 299 KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK MKFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gja-a1-m1-cH_5gja-a1-m1-cB Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 15 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 287 298 5gja-a1-m1-cE_5gja-a1-m1-cC KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gja-a1-m1-cH_5gja-a1-m1-cC Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 287 298 KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gja-a1-m1-cH_5gja-a1-m1-cF Crystal structure of Arabidopsis thaliana ACO2 in complex with 2-PA Q41931 Q41931 2.1 X-RAY DIFFRACTION 10 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 287 298 KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK KFPVVDLSKLNGEERDQTMALINEACENWGFFEIVNHGLPHDLMDKIEKMTKDHYKTCQEQKFNDMLKSKGLDNLETEVEDVDWESTFYVRHLPQSNLNDISDVSDEYRTAMKDFGKRLENLAEDLLDLLCENLGLEKGYLKKVFHGTKGPTFGTKVSNYPPCPKPEMIKGLRAHTDAGGIILLFQDDKVSGLQLLKDGDWIDVPPLNHSIVINLGDQLEVITNGKYKSVLHRVVTQQEGNRMSVASFYNPGSDAEISPATSLVEKDSEYPSFVFDDYMKLYAGVKFQPKEPRFAAMK 5gjk-a1-m1-cA_5gjk-a1-m2-cA Crystal Structure of BAF47 and BAF155 Complex Q92922 Q92922 2.052 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 NHIIIPSYASWFDYNCIHVIERRALPEFFNGKNKSKTPEIYLAYRNFMIDTYRLNPQEYLTSTACRRNLTGDVCAVMRVHAFLEQWGLVNYQVD NHIIIPSYASWFDYNCIHVIERRALPEFFNGKNKSKTPEIYLAYRNFMIDTYRLNPQEYLTSTACRRNLTGDVCAVMRVHAFLEQWGLVNYQVD 5gjo-a1-m1-cB_5gjo-a1-m1-cA Crystal structure of SrLDC mutant (A225C/T302C) in complex with PLP O50657 O50657 1.8 X-RAY DIFFRACTION 166 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 384 385 5gjm-a1-m1-cB_5gjm-a1-m1-cA 5gjn-a1-m1-cA_5gjn-a1-m2-cA 5gjp-a1-m1-cA_5gjp-a1-m2-cA MKNFRLSEKEVKTLAKRIPTPFLVASLDKVEENYQFMRRHLPRAGVFYAMKANPTPEILSLLAGLGSHFDVASAGEMEILHELGVDGSQMIYANPVKDARGLKAAADYNVRRFTFDDPSEIDKMAKAVPGADVLVRIAVRNNKALVDLNTKFGAPVEEALDLLKAAQDAGLHAMGICFHVGSQSLSTAAYEEALLVARRLFDEAEEMGMHLTDLDIGGGFPVPDCKGLNVDLAAMMEAINKQIDRLFPDTAVWTEPGRYMCGTAVNLVTSVIGTKTRGEQPWYILDEGIYGCFSGIMYDHWCYPLHCFGKGNKKPSTFGGPSCDGIDVLYRDFMAPELKIGDKVLVTEMGSYTSVSATRFNGFYLAPTIIFEDQPEYAARLTED AMKNFRLSEKEVKTLAKRIPTPFLVASLDKVEENYQFMRRHLPRAGVFYAMKANPTPEILSLLAGLGSHFDVASAGEMEILHELGVDGSQMIYANPVKDARGLKAAADYNVRRFTFDDPSEIDKMAKAVPGADVLVRIAVRNNKALVDLNTKFGAPVEEALDLLKAAQDAGLHAMGICFHVGSQSLSTAAYEEALLVARRLFDEAEEMGMHLTDLDIGGGFPVPDCKGLNVDLAAMMEAINKQIDRLFPDTAVWTEPGRYMCGTAVNLVTSVIGTKTRGEQPWYILDEGIYGCFSGIMYDHWCYPLHCFGKGNKKPSTFGGPSCDGIDVLYRDFMAPELKIGDKVLVTEMGSYTSVSATRFNGFYLAPTIIFEDQPEYAARLTED 5gk2-a1-m1-cB_5gk2-a1-m1-cA The structure of the H302A mutant of StlD Q7N4Z6 Q7N4Z6 2.201 X-RAY DIFFRACTION 249 1.0 243265 (Photorhabdus laumondii subsp. laumondii TTO1) 243265 (Photorhabdus laumondii subsp. laumondii TTO1) 379 380 5gk0-a1-m1-cA_5gk0-a1-m1-cD 5gk0-a2-m1-cB_5gk0-a2-m1-cC 5gk1-a1-m1-cA_5gk1-a1-m1-cB 5gk1-a2-m1-cC_5gk1-a2-m1-cD 5gk2-a2-m1-cD_5gk2-a2-m1-cC NVYITKVSAFMPGNPIDNNTMESVLGFVGGRPSRSRHIVLRNNGIKYRHYALDPETGEATYTSAQLAAEAVKGLVDEHFSLDDMQSLAASSGTSDQIIPGHGVMVHGELKNKPCEVISTSGACAAGMTAMKYAYLSVLSGATSNAVSTTSEVPSTVLHARNFQSENEARVAELERRPEIAFEKDFLRWMLSDGAGAALLENKPRPDGVSLRIDWIDIYSFANEQETCMYSGGEKLADGSLKGWAQMSQADWLAYSVFCIKQDVRYLNERVVKFTLTEPLRRIVADRNLSSESIDWFLPAYSSEYFRMKFSEGLDDINFSIEQERWFTNLTVKGNTGSASIYIMLDELMKSGKLKKDQRLLCFIPESARFTGAFMHLTVV NNVYITKVSAFMPGNPIDNNTMESVLGFVGGRPSRSRHIVLRNNGIKYRHYALDPETGEATYTSAQLAAEAVKGLVDEHFSLDDMQSLAASSGTSDQIIPGHGVMVHGELKNKPCEVISTSGACAAGMTAMKYAYLSVLSGATSNAVSTTSEVPSTVLHARNFQSENEARVAELERRPEIAFEKDFLRWMLSDGAGAALLENKPRPDGVSLRIDWIDIYSFANEQETCMYSGGEKLADGSLKGWAQMSQADWLAYSVFCIKQDVRYLNERVVKFTLTEPLRRIVADRNLSSESIDWFLPAYSSEYFRMKFSEGLDDINFSIEQERWFTNLTVKGNTGSASIYIMLDELMKSGKLKKDQRLLCFIPESARFTGAFMHLTVV 5gkd-a1-m1-cA_5gkd-a1-m1-cD Structure of PL6 family alginate lyase AlyGC A0A1S4NYD7 A0A1S4NYD7 2.194 X-RAY DIFFRACTION 43 1.0 368405 (Paraglaciecola chathamensis) 368405 (Paraglaciecola chathamensis) 726 726 5gkq-a1-m1-cA_5gkq-a1-m1-cB ADLLVKTPEAYDQALKKAKPGDDIILANGTWRDFEVLFEAKGNENKPITLRGQTPGKVFLTGQSNLRLAGEHLIVSGLVFKDGYTPTGEVIAFRRNKDVLASHSRVTQVVIDNFSNPEKFEQDSWVMVYGRHNRFDHNHLVGKRNKGVTMAVRLTTESSQQNHHRIDHNYFGPRPILGSNGGETLRIGTSHHSLTDSFTLVENNYFDRCNGEVEIISNKSGKNSIRNNVFFESRGTLTLRHGNGNIVENNVFFGNGVDHTGGIRVINRDQIIRNNYLEGLTGYRFGSGLTVMNGVPNSKINRYHQVDNALIENNTLVNVEHIQFAAGSDKERSAAPINSNMNNNLIVNDQGTDGITAFDDISGIKFKDNLLNQDAKPSINKGFEQADITMQRHDNGLLYPEAKTQQKYGVSTQLEPIGKDEVGVSWYPKVEPDVAFGSGKHIAVSPGDNTLFDAIASAETGDVLVLQAGEYWVSKILSLDKTLTIRAQEKGSAVIFPQRSTLIEINNKGNLTLDGVYVDATNAPDAAGNTLIRTTRLPMQRNYRLAIKNSTFENLDINHSYHFFDAGNRSFADYIEVQDSQFKHITGDLFRLNKETDDLGIYNVEYLTIENSNVSDLQGAIAKVYRGGTDESTFGPHVVMNNNIFNEVGKGKRNKSAASLILHGTQVNKMTTNEFNNSAPIIFELTVGEPKTWVTGNVFEGTPEPVVRDLFPLSGATTTISGNTVL ADLLVKTPEAYDQALKKAKPGDDIILANGTWRDFEVLFEAKGNENKPITLRGQTPGKVFLTGQSNLRLAGEHLIVSGLVFKDGYTPTGEVIAFRRNKDVLASHSRVTQVVIDNFSNPEKFEQDSWVMVYGRHNRFDHNHLVGKRNKGVTMAVRLTTESSQQNHHRIDHNYFGPRPILGSNGGETLRIGTSHHSLTDSFTLVENNYFDRCNGEVEIISNKSGKNSIRNNVFFESRGTLTLRHGNGNIVENNVFFGNGVDHTGGIRVINRDQIIRNNYLEGLTGYRFGSGLTVMNGVPNSKINRYHQVDNALIENNTLVNVEHIQFAAGSDKERSAAPINSNMNNNLIVNDQGTDGITAFDDISGIKFKDNLLNQDAKPSINKGFEQADITMQRHDNGLLYPEAKTQQKYGVSTQLEPIGKDEVGVSWYPKVEPDVAFGSGKHIAVSPGDNTLFDAIASAETGDVLVLQAGEYWVSKILSLDKTLTIRAQEKGSAVIFPQRSTLIEINNKGNLTLDGVYVDATNAPDAAGNTLIRTTRLPMQRNYRLAIKNSTFENLDINHSYHFFDAGNRSFADYIEVQDSQFKHITGDLFRLNKETDDLGIYNVEYLTIENSNVSDLQGAIAKVYRGGTDESTFGPHVVMNNNIFNEVGKGKRNKSAASLILHGTQVNKMTTNEFNNSAPIIFELTVGEPKTWVTGNVFEGTPEPVVRDLFPLSGATTTISGNTVL 5gke-a1-m1-cA_5gke-a1-m1-cB Structure of EndoMS-dsDNA1 complex Q5JER9 Q5JER9 2.4 X-RAY DIFFRACTION 200 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 239 239 5gkf-a1-m1-cA_5gkf-a1-m1-cB 5gkg-a1-m1-cA_5gkg-a1-m1-cB 5gkh-a1-m1-cA_5gkh-a1-m1-cB 5gki-a1-m1-cA_5gki-a1-m1-cB SKDKVTVITSPSTEELVSLVNSALLEEAMLTIFARCKVHYDGRAKSELGSGDRVIIVKPDGSFLIHQSKKREPVNWQPPGSRVRLELRENPVLVSIRRKPRETLEVELEEVYMVSVFRAEDYEELALTGSEAEMAELIFENPEVIEPGFKPLFREKAIGTGIVAVLGRDSDGNIVVLELKRRRAELHAVRQLKSYVEILREEYGDKVRGILVAPSLTSGAKRLLEKEGLEFRKLEPPKR SKDKVTVITSPSTEELVSLVNSALLEEAMLTIFARCKVHYDGRAKSELGSGDRVIIVKPDGSFLIHQSKKREPVNWQPPGSRVRLELRENPVLVSIRRKPRETLEVELEEVYMVSVFRAEDYEELALTGSEAEMAELIFENPEVIEPGFKPLFREKAIGTGIVAVLGRDSDGNIVVLELKRRRAELHAVRQLKSYVEILREEYGDKVRGILVAPSLTSGAKRLLEKEGLEFRKLEPPKR 5gkj-a1-m1-cA_5gkj-a1-m1-cB Structure of EndoMS in apo form Q5JER9 Q5JER9 3.2 X-RAY DIFFRACTION 141 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 213 229 KVTVITSPSTEELVSLVNSALLEEAMLTIFARCKVHYDGRAKSELGSGDRVIIVKPDGSFLIHQSKKREPVNWQPPGSRVRLELRENPVLVSIRRKPRETLEVELEEVYMVSVFRAEDYEMAELIFENPEVIEPGFKPLFAVLGRDSDGNIVVLELKRRRAELHAVRQLKSYVEILREEYGDKVRGILVAPSLTSGAKRLLEKEGLEFRKLEP DKVTVITSPSTEELVSLVNSALLEEAMLTIFARCKVHYDGRAKSELGSGDRVIIVKPDGSFLIHQSKKREPVNWQPPGSRVRLELRENPVLVSIRRKPRETLEVELEEVYMVSVFRAEDYSEAEMAELIFENPEVIEPGFKPLFREKAIGTGIVAVLGRDSDGNIVVLELKRRRAELHAVRQLKSYVEILREEYGDKVRGILVAPSLTSGAKRLLEKEGLEFRKLEPPK 5gkk-a1-m1-cB_5gkk-a1-m1-cA Crystal structure of a homing endonuclease, I-TnaI Q70PR2 Q70PR2 2.001 X-RAY DIFFRACTION 60 1.0 2337 (Thermotoga neapolitana) 2337 (Thermotoga neapolitana) 144 147 MDLKPDWVVGFVDGEGCFYVGVSRNRTMKTGYQVLPEFRIVQHKRDIQVLYALRKFFGCGVVRKNRYELRIRKRSCLKKVVEFFEKHPLKTKKNVDFKKFRRILIMMERGEHLTKEGLIKILEIAMEMNTGNHERLKRTLEEIR MDLKPDWVVGFVDGEGCFYVGVSRNRTMKTGYQVLPEFRIVQHKRDIQVLYALRKFFGCGVVRKNHDDRYELRIRKRSCLKKVVEFFEKHPLKTKKNVDFKKFRRILIMMERGEHLTKEGLIKILEIAMEMNTGNHERLKRTLEEIR 5gko-a1-m1-cA_5gko-a1-m1-cB Crystal structure of tripartite-type ABC transporter, MacB from Acinetobacter baumannii A0A0D8G707 A0A0D8G707 3.393 X-RAY DIFFRACTION 152 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 630 630 5ws4-a1-m1-cA_5ws4-a1-m1-cB KQALLEVSNLVREFPAGESTIQILKGIDLTIYEGELVAIVGQSGSGKSTLNILGCLDRPTSGSYKVNGQETGKLEPDQLAQLRREYFGFIFQRYHLLGDLSAEGNVEVPAVYAGVTPADRKQRATALLTELGLGTKTQNRPSQLSGGQQQRVSIARALNGGDVILADEPTGALDSHSGVEVRILRELNAAGHTIILVTHDQVAKNATRIIEISDGEIISDRPNVPDQSLEEVKSDPDAAPAAWRSTLDRLSEAFQALLSNAHRRTFLTLGIIIGIASVVTVVALGNGSQQQILSNISSLGTNTITVFQGRGFGDNSKTANFKTLVPADADALTQPYVSAVSPVSTSKTRYQQNEANATINGVSNDYFDVKGLVFKDGQTFDQRSVRDRSQDVVIDTNTQKQFFSDGTNPIGQVVLLGSVPARIIGIVEPQTSGGSDDTLNVYPYTTVSRLGQAHVRNIVVRINDKYSTSAAENAIVNLLTQRHGAQDIFTNSDSIRQTIEKTTSTTLLVSAIAVISLVVGGIGVNILVSVTERTQEIGVRAVGARQSDILQQFLIEAILVCLIGGVLGVLLSLGLGQLINKFAGGNFAVAYSTTSIVAAFVCSTLIGVVFGFLPAKNAAKLDPVAALSRE KQALLEVSNLVREFPAGESTIQILKGIDLTIYEGELVAIVGQSGSGKSTLNILGCLDRPTSGSYKVNGQETGKLEPDQLAQLRREYFGFIFQRYHLLGDLSAEGNVEVPAVYAGVTPADRKQRATALLTELGLGTKTQNRPSQLSGGQQQRVSIARALNGGDVILADEPTGALDSHSGVEVRILRELNAAGHTIILVTHDQVAKNATRIIEISDGEIISDRPNVPDQSLEEVKSDPDAAPAAWRSTLDRLSEAFQALLSNAHRRTFLTLGIIIGIASVVTVVALGNGSQQQILSNISSLGTNTITVFQGRGFGDNSKTANFKTLVPADADALTQPYVSAVSPVSTSKTRYQQNEANATINGVSNDYFDVKGLVFKDGQTFDQRSVRDRSQDVVIDTNTQKQFFSDGTNPIGQVVLLGSVPARIIGIVEPQTSGGSDDTLNVYPYTTVSRLGQAHVRNIVVRINDKYSTSAAENAIVNLLTQRHGAQDIFTNSDSIRQTIEKTTSTTLLVSAIAVISLVVGGIGVNILVSVTERTQEIGVRAVGARQSDILQQFLIEAILVCLIGGVLGVLLSLGLGQLINKFAGGNFAVAYSTTSIVAAFVCSTLIGVVFGFLPAKNAAKLDPVAALSRE 5gkw-a4-m1-cB_5gkw-a4-m2-cB crystal structure of SZ529 complex with (R,R)-cyclopentanediol Q9ZAG3 Q9ZAG3 2.01 X-RAY DIFFRACTION 72 1.0 1833 (Rhodococcus erythropolis) 1833 (Rhodococcus erythropolis) 115 115 EQPRWASKDSAAGAASTPDEKIVLEFVDALTSNDAAKLIEYFAEDTMYQNMPLPPAYGRDAVEQTLAGLFTVVSVVETFHIGSSNGLVYTERVDVLSILGVFQLTEGKITGWRDY EQPRWASKDSAAGAASTPDEKIVLEFVDALTSNDAAKLIEYFAEDTMYQNMPLPPAYGRDAVEQTLAGLFTVVSVVETFHIGSSNGLVYTERVDVLSILGVFQLTEGKITGWRDY 5gkx-a1-m1-cB_5gkx-a1-m1-cA Crystal structure of TON_0340, apo form B6YTD8 B6YTD8 2.01 X-RAY DIFFRACTION 16 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 257 259 NRGVLKVYLDYRRKNFNFLHNSTKMFLDNLERVLIVTGFPIPPMMVAETDGPPGALAIYRAVEMLGGKAEILTYSEVEKALEPFGVSLARTPEPEDYSLIISVETPGRAADGRYYSMSALEIKRDPLDGIFLKARALGIPTIGVGDGGNEIGMGKIRELVVGHVPHGEKIASVVETDELIVSAVSNWGAYGLVAQASIEVGRNLLEGWDERRVIEAISSAGLIDGVSKAPSVDGIRLMVHEGIVELLKAVVDEAIKL NRGVLKVYLDYRRKNFNFLHNSTKMFLDNLERVLIVTGFPIPPMMVAETDGPPGALAIYRAVEMLGGKAEILTYSEVEKALEPFGVSLARTPEPEDYSLIISVETPGRAADGRYYSMSALEIKRDPLDGIFLKARALGIPTIGVGDGGNEIGMGKIRELVVGHVPHGEKIASVVETDELIVSAVSNWGAYGLVAQASIEVGRNLLEGWDERRVIEAISSAGLIDGVSKTLAPSVDGIRLMVHEGIVELLKAVVDEAIKL 5gl2-a1-m1-cB_5gl2-a1-m1-cA Crystal structure of TON_0340 in complex with Ca B6YTD8 B6YTD8 2.03 X-RAY DIFFRACTION 72 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 265 269 4dwz-a7-m1-cA_4dwz-a7-m1-cF 4dwz-a8-m1-cB_4dwz-a8-m1-cD 4dwz-a9-m1-cE_4dwz-a9-m1-cC 4fc5-a7-m1-cA_4fc5-a7-m1-cF 4fc5-a8-m1-cB_4fc5-a8-m1-cD 4fc5-a9-m1-cE_4fc5-a9-m1-cC 5gl2-a2-m1-cC_5gl2-a2-m1-cF 5gl2-a3-m1-cE_5gl2-a3-m1-cD 5gl3-a1-m1-cB_5gl3-a1-m1-cA 5gl3-a2-m1-cC_5gl3-a2-m1-cF 5gl3-a3-m1-cD_5gl3-a3-m1-cE 5gl4-a1-m1-cB_5gl4-a1-m1-cA 5gl4-a2-m1-cC_5gl4-a2-m1-cF 5gl4-a3-m1-cD_5gl4-a3-m1-cE IAHLINTNRGVLKVYLDYRRKNFNFLHNSTKMFLDNLERVLIVTGFPIPPMMVAETDGPPGALAIYRAVEMLGGKAEILTYSEVEKALEPFGVSLARTPEPEDYSLIISVETPGRAADGRYYSMSALEIKRDPLDGIFLKARALGIPTIGVGDGGNEIGMGKIRELVVGHVPHGEKIASVVETDELIVSAVSNWGAYGLVAQASIEVGRNLLEGWDERRVIEAISSAGLIDGVSKTLAPSVDGIRLMVHEGIVELLKAVVDEAIL MIAHLINTDIGNRGVLKVYLDYRRKNFNFLHNSTKMFLDNLERVLIVTGFPIPPMMVAETDGPPGALAIYRAVEMLGGKAEILTYSEVEKALEPFGVSLARTPEPEDYSLIISVETPGRAADGRYYSMSALEIKRDPLDGIFLKARALGIPTIGVGDGGNEIGMGKIRELVVGHVPHGEKIASVVETDELIVSAVSNWGAYGLVAQASIEVGRNLLEGWDERRVIEAISSAGLIDGVSKTLAPSVDGIRLMVHEGIVELLKAVVDEAIL 5gl5-a1-m1-cA_5gl5-a1-m1-cB Sterol 3-beta-glucosyltransferase (ugt51) from Saccharomyces cerevisiae (strain ATCC 204508 / S288c): UDPG complex Q06321 Q06321 1.9 X-RAY DIFFRACTION 64 0.986 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 431 431 NKSYKFGLLTIGSRGDVQPYIALGKGLIKEGHQVVIITHSEFRDFVESHGIQFEEIAGNPVELMSLMVENESMNVKMLREASSKFRGWIDALLQTSWEVCNRRKFDILIESPSAMVGIHITEALQIPYFRAFTMPWTRTRAYPHAFIVPDQKRGGNYNYLTHVLFENVFWKGISGQVNKWRVETLGLGKTNLFLLQQNNVPFLYNVSPTIFPPSIDFSEWVRVTGYWFLDDKSTFKPPAELQEFISEARSKGKKLVYIGFGSIVVSNAKEMTEALVEAVMEADVYCILNKGWSERLGKKTEVDLPRNILNIGNVPHDWLFPQVDAAVHHGGSGTTGASLRAGLPTVIKPFFGDQFFYAGRVEDIGVGIALKKLNAQTLADALKVATTNKIMKDRAGLIKKKISKEDGIKTAISAIYNELEYARSVTLSRVK SYKFGLLTIGSRGDVQPYIALGKGLIKEGHQVVIITHSEFRDFVESHGIQFEEIAGNPVELMSLMVENESMNVKMLREASSKFRGWIDALLQTSWEVCNRRKFDILIESPSAMVGIHITEALQIPYFRAFTMPWTRTRAYPHAFIVPDQKRGGNYNYLTHVLFENVFWKGISGQVNKWRVETLGLGKTNLFLLQQNNVPFLYNVSPTIFPPSIDFSEWVRVTGYWFLDDKSTFKPPAELQEFISEARSKGKKLVYIGFGSIVVSNAKEMTEALVEAVMEADVYCILNKGWSERLGDKAAKDLPRNILNIGNVPHDWLFPQVDAAVHHGGSGTTGASLRAGLPTVIKPFFGDQFFYAGRVEDIGVGIALKKLNAQTLADALKVATTNKIMKDRAGLIKKKISKEDGIKTAISAIYNELEYARSVTLSRVKTP 5glj-a1-m1-cA_5glj-a1-m1-cD Crystal Structure of PDZ1 Domain of Human Protein Tyrosine Phosphatase PTP-Bas Q12923 Q12923 1.6 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 GHMSPEREITLVNLKKDAKYGLGFQIIGGEKMGRLDLGIFISSVAPGGPADLDGCLKPGDRLISVNSVSLEGVSHHAAIEILQNAPEDVTLVISQP GHMSPEREITLVNLKKDAKYGLGFQIIGGEKMGRLDLGIFISSVAPGGPADLDGCLKPGDRLISVNSVSLEGVSHHAAIEILQNAPEDVTLVISQP 5glj-a1-m1-cB_5glj-a1-m1-cA Crystal Structure of PDZ1 Domain of Human Protein Tyrosine Phosphatase PTP-Bas Q12923 Q12923 1.6 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 96 SPEREITLVNLKKDAKYGLGFQIIGGEKMGRLDLGIFISSVAPGGPADLDGCLKPGDRLISVNSVSLEGVSHHAAIEILQNAPEDVTLVISQP GHMSPEREITLVNLKKDAKYGLGFQIIGGEKMGRLDLGIFISSVAPGGPADLDGCLKPGDRLISVNSVSLEGVSHHAAIEILQNAPEDVTLVISQP 5glj-a1-m1-cB_5glj-a1-m1-cD Crystal Structure of PDZ1 Domain of Human Protein Tyrosine Phosphatase PTP-Bas Q12923 Q12923 1.6 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 96 5glj-a1-m1-cC_5glj-a1-m1-cA SPEREITLVNLKKDAKYGLGFQIIGGEKMGRLDLGIFISSVAPGGPADLDGCLKPGDRLISVNSVSLEGVSHHAAIEILQNAPEDVTLVISQP GHMSPEREITLVNLKKDAKYGLGFQIIGGEKMGRLDLGIFISSVAPGGPADLDGCLKPGDRLISVNSVSLEGVSHHAAIEILQNAPEDVTLVISQP 5gm8-a2-m1-cC_5gm8-a2-m1-cD Methylation at position 32 of tRNA catalyzed by TrmJ alters oxidative stress response in Pseudomonas aeruiginosa A0A072ZPM2 A0A072ZPM2 2.2 X-RAY DIFFRACTION 85 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 170 171 5gm8-a1-m1-cA_5gm8-a1-m1-cB 5gmb-a1-m1-cA_5gmb-a1-m2-cA 5gmc-a1-m1-cB_5gmc-a1-m1-cA 5gmc-a2-m1-cC_5gmc-a2-m1-cD QSMMLDRIRVVLVNTSHPGNIGGAARAMKNMGLSQLVLVQPESFPHGDAVARASGATDILDAARVVDTLEEALSGCSVVLGTSARDRRIPWPLLDPRECATTCLEHLEANGEVALVFGREYAGLTNEELQRCQFHVHIPSDPEFGSLNLAAAVQVLTYEVRMAWLAAQGK FQSMMLDRIRVVLVNTSHPGNIGGAARAMKNMGLSQLVLVQPESFPHGDAVARASGATDILDAARVVDTLEEALSGCSVVLGTSARDRRIPWPLLDPRECATTCLEHLEANGEVALVFGREYAGLTNEELQRCQFHVHIPSDPEFGSLNLAAAVQVLTYEVRMAWLAAQGK 5gn2-a2-m1-cC_5gn2-a2-m1-cD Crystal structure of Uracil DNA glycosylase (BdiUNG) from Bradyrhizobium diazoefficiens Q89XR0 Q89XR0 1.952 X-RAY DIFFRACTION 120 1.0 224911 (Bradyrhizobium diazoefficiens USDA 110) 224911 (Bradyrhizobium diazoefficiens USDA 110) 272 272 5gn2-a1-m1-cA_5gn2-a1-m1-cB 5gn3-a1-m1-cA_5gn3-a1-m1-cB 5gn3-a2-m1-cC_5gn3-a2-m1-cD 5gnw-a1-m1-cC_5gnw-a1-m1-cD 5gnw-a2-m1-cE_5gnw-a2-m1-cF 5gnw-a3-m1-cA_5gnw-a3-m1-cB 5gnw-a4-m1-cG_5gnw-a4-m1-cH 5grk-a1-m1-cA_5grk-a1-m1-cB 5grk-a2-m1-cC_5grk-a2-m1-cD MLTEFDAGYGEQPFRDLCANYPGAEAYDPHDFRIEWGPIFHRGRLDGSARVLIVGQDPAQHETIVRRILVGTAGRRTQGFLAKLGIVQSYVMVNTFLYSVYGQSGGSKHKNEPGIVDYRNKWFKAVLGPGNIEAVVSLGGLADEAWKAWLKSSDGAAYKTLAYQHITHPTWPESSAHDSATQAANTKIMLAKWNAALAALAPEVKHPDVPTTLVPYGDAFKPSELVDIIAKDLPAGLPAWMRGDTPWAVRQGVDAAAKRRTIMITIPDGVIP MLTEFDAGYGEQPFRDLCANYPGAEAYDPHDFRIEWGPIFHRGRLDGSARVLIVGQDPAQHETIVRRILVGTAGRRTQGFLAKLGIVQSYVMVNTFLYSVYGQSGGSKHKNEPGIVDYRNKWFKAVLGPGNIEAVVSLGGLADEAWKAWLKSSDGAAYKTLAYQHITHPTWPESSAHDSATQAANTKIMLAKWNAALAALAPEVKHPDVPTTLVPYGDAFKPSELVDIIAKDLPAGLPAWMRGDTPWAVRQGVDAAAKRRTIMITIPDGVIP 5gnf-a1-m1-cB_5gnf-a1-m1-cA Crystal structure of anti-CRISPR protein AcrF3 L7P7R7 L7P7R7 1.5 X-RAY DIFFRACTION 70 1.0 1223261 (Pseudomonas phage JBD5) 1223261 (Pseudomonas phage JBD5) 135 137 5b7i-a1-m1-cB_5b7i-a1-m1-cC 5gqh-a1-m1-cB_5gqh-a1-m1-cC SMSNTISDRIVARSVIEAARFIQSWEDADPDSLTEDQVLAAAGFAARLHEGLQATVLQRLVDESNHEEYREFKAWEEALLNADVASSPFADWGWWYRIANVMLATASQNVGVTWGSRVHGRLMAIFQDKFKQRYE SMSNTISDRIVARSVIEAARFIQSWEDADPDSLTEDQVLAAAGFAARLHEGLQATVLQRLVDESNHEEYREFKAWEEALLNADGRVASSPFADWGWWYRIANVMLATASQNVGVTWGSRVHGRLMAIFQDKFKQRYE 5gnh-a1-m1-cA_5gnh-a1-m1-cB Myotubularin-related protein 2 Q13614 Q13614 2.6 X-RAY DIFFRACTION 38 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 506 506 1m7r-a1-m1-cA_1m7r-a1-m1-cB EPPLLPGENIKDMAKDVTYICPFTGAVRGTLTVTNYRLYFKSMERDPPFVLDASLGVINRVEKIGENSYGLETVCKDIRNLRFAHKPEGRTRRSIFENLMKYAFPVSNNLPLFAFEYKEVFPENGWKLYDPLLEYRRQGIPNESWRITKINERYELCDTYPALLVVPANIPDEELKRVASFRSRGRIPVLSWIHPESQATITRCSQPMVGVSGKRSKEDEKYLQAIMDSNAQSHKIFIFDARPSVNAVANKAKGGGYESEDAYQNAELVFLDIHNIHVMRESLRKLKEIVYPNIEETHWLSNLESTHWLEHIKLILAGALRIADKVESGKTSVVVHSSDGWDRTAQLTSLAMLMLDGYYRTIRGFEVLVEKEWLSFGHRFQLRVGHGDKNHADADRSPVFLQFIDCVWQMTRQFPTAFEFNEYFLITILDHLYSCLFGTFLCNSEQQRGKENLPKRTVSLWSYINSQLEDFTNPLYGSYSNHVLYPVASMRHLELWVGYYIRWNPR EPPLLPGENIKDMAKDVTYICPFTGAVRGTLTVTNYRLYFKSMERDPPFVLDASLGVINRVEKIGGNSYGLETVCKDIRNLRFAHKPEGRTRRSIFENLMKYAFPVSNNLPLFAFEYKEVFPENGWKLYDPLLEYRRQGIPNESWRITKINERYELCDTYPALLVVPANIPDEELKRVASFRSRGRIPVLSWIHPESQATITRCSQPMVGVSGKRSKEDEKYLQAIMDSNAQSHKIFIFDARPSVNAVANKAKGGGYESEDAYQNAELVFLDIHNIHVMRESLRKLKEIVYPNIEETHWLSNLESTHWLEHIKLILAGALRIADKVESGKTSVVVHSSDGWDRTAQLTSLAMLMLDGYYRTIRGFEVLVEKEWLSFGHRFQLRVGHGDKNHADADRSPVFLQFIDCVWQMTRQFPTAFEFNEYFLITILDHLYSCLFGTFLCNSEQQRGKENLPKRTVSLWSYINSQLEDFTNPLYGSYSNHVLYPVASMRHLELWVGYYIRWNPR 5gni-a1-m1-cA_5gni-a1-m1-cB The crystal structure of PECAM-1 IgL1-2 trans-homophilic dimer P16284 P16284 3.008 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 198 SFTINSVDMKSLPDWTVQNGKQLTLQCFADVSTTSKPQHQMLFYKDDVLFYQISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVQCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVT SFTINSVDMKSLPDWTVQNGKQLTLQCFADVSTTSVKPQHQMLFYKDDVLFYQISSMKSTESYFIPEVRIYDSGTYKCTVIVNNKEKTTAEYQLLVEGVPSPRVTLDKKEAIQGGIVRVQCSVPEEKAPIHFTIEKLELNEKMVKLKREKNSRDQNFVILEFPVEEQDRVLSFRCQARIISGIHMQTSESTKSELVTV 5gnj-a2-m1-cA_5gnj-a2-m1-cB Structure of a transcription factor and DNA complex Q39204 Q39204 2.7 X-RAY DIFFRACTION 88 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 74 77 5gnj-a1-m1-cG_5gnj-a1-m1-cI 5gnj-a3-m1-cE_5gnj-a3-m1-cF 5gnj-a4-m1-cM_5gnj-a4-m1-cN NHVEAERQRREKLNQRFYALRAVVPNVSKMDKASLLGDAIAYINELKSKVVKTESEKLQIKNQLEEVKLELAGR EPLNHVEAERQRREKLNQRFYALRAVVPNVSKMDKASLLGDAIAYINELKSKVVKTESEKLQIKNQLEEVKLELAGR 5gnp-a1-m1-cA_5gnp-a1-m2-cA Crystal structure of a Z-ring associated protein from Salmonella typhimurium P67693 P67693 2.8 X-RAY DIFFRACTION 106 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 245 245 TQVLFEHPLNEKMRTWLRIEFLIQQLSINLPIADHAGALHFFRNISDLLDVFERGEVRTELLKELERQQRKLQAWVEVPGVDQDRIEALRQQLKSAGSVLISAPRIGQQLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHLQQAQRDAQIESWLASLNPLTQALTLVLDLIRNSAPFRKQTSLNGFYQDNGDDADLLRLMLTLDSQLYPQISGHKSRFAIRFMPLDSENGLVPERLDFELACC TQVLFEHPLNEKMRTWLRIEFLIQQLSINLPIADHAGALHFFRNISDLLDVFERGEVRTELLKELERQQRKLQAWVEVPGVDQDRIEALRQQLKSAGSVLISAPRIGQQLREDRLIALVRQRLSIPGGCCSFDLPTLHIWLHLQQAQRDAQIESWLASLNPLTQALTLVLDLIRNSAPFRKQTSLNGFYQDNGDDADLLRLMLTLDSQLYPQISGHKSRFAIRFMPLDSENGLVPERLDFELACC 5go1-a1-m1-cA_5go1-a1-m6-cA Structural, Functional characterization and discovery of novel inhibitors of Leishmania amazonensis Nucleoside Diphosphatase Kinase (NDK) A0A1Y0DDB3 A0A1Y0DDB3 2.5 X-RAY DIFFRACTION 51 1.0 5659 (Leishmania amazonensis) 5659 (Leishmania amazonensis) 112 112 3ngr-a1-m1-cA_3ngr-a1-m5-cA 3ngr-a1-m2-cA_3ngr-a1-m4-cA 3ngr-a1-m3-cA_3ngr-a1-m6-cA 5go1-a1-m2-cA_5go1-a1-m5-cA 5go1-a1-m3-cA_5go1-a1-m4-cA SERTFIAVKPDGVQRGLAGEVICRFERKGYKLVALKMLQPSGPIVCMVWEGKNVVKGGRMLLGATNPADSHPGTIRGDFAVDMGRNVCHGSDSVESAEREIAFWFKADELAC SERTFIAVKPDGVQRGLAGEVICRFERKGYKLVALKMLQPSGPIVCMVWEGKNVVKGGRMLLGATNPADSHPGTIRGDFAVDMGRNVCHGSDSVESAEREIAFWFKADELAC 5go1-a1-m5-cA_5go1-a1-m6-cA Structural, Functional characterization and discovery of novel inhibitors of Leishmania amazonensis Nucleoside Diphosphatase Kinase (NDK) A0A1Y0DDB3 A0A1Y0DDB3 2.5 X-RAY DIFFRACTION 33 1.0 5659 (Leishmania amazonensis) 5659 (Leishmania amazonensis) 112 112 3ngr-a1-m1-cA_3ngr-a1-m2-cA 3ngr-a1-m1-cA_3ngr-a1-m3-cA 3ngr-a1-m2-cA_3ngr-a1-m3-cA 3ngr-a1-m4-cA_3ngr-a1-m5-cA 3ngr-a1-m4-cA_3ngr-a1-m6-cA 3ngr-a1-m5-cA_3ngr-a1-m6-cA 5go1-a1-m1-cA_5go1-a1-m2-cA 5go1-a1-m1-cA_5go1-a1-m3-cA 5go1-a1-m2-cA_5go1-a1-m3-cA 5go1-a1-m4-cA_5go1-a1-m5-cA 5go1-a1-m4-cA_5go1-a1-m6-cA SERTFIAVKPDGVQRGLAGEVICRFERKGYKLVALKMLQPSGPIVCMVWEGKNVVKGGRMLLGATNPADSHPGTIRGDFAVDMGRNVCHGSDSVESAEREIAFWFKADELAC SERTFIAVKPDGVQRGLAGEVICRFERKGYKLVALKMLQPSGPIVCMVWEGKNVVKGGRMLLGATNPADSHPGTIRGDFAVDMGRNVCHGSDSVESAEREIAFWFKADELAC 5goa-a1-m1-cC_5goa-a1-m1-cD Cryo-EM structure of RyR2 in open state 4.2 ELECTRON MICROSCOPY 115 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3423 3423 5go9-a1-m1-cA_5go9-a1-m1-cB 5go9-a1-m1-cA_5go9-a1-m1-cD 5go9-a1-m1-cB_5go9-a1-m1-cC 5go9-a1-m1-cC_5go9-a1-m1-cD 5goa-a1-m1-cA_5goa-a1-m1-cB 5goa-a1-m1-cA_5goa-a1-m1-cD 5goa-a1-m1-cB_5goa-a1-m1-cC QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKLRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSFVSYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLPLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDVDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKREPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKLRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSFVSYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLPLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDVDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKREPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 5gol-a1-m1-cA_5gol-a1-m1-cB Structure of acetyl-Coenzyme A synthase Alpha subunit C-terminal domain F598H mutant P27988 P27988 2.11 X-RAY DIFFRACTION 17 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 135 135 SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI 5gol-a1-m1-cA_5gol-a1-m1-cC Structure of acetyl-Coenzyme A synthase Alpha subunit C-terminal domain F598H mutant P27988 P27988 2.11 X-RAY DIFFRACTION 57 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 135 135 SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI 5gol-a1-m1-cA_5gol-a1-m1-cD Structure of acetyl-Coenzyme A synthase Alpha subunit C-terminal domain F598H mutant P27988 P27988 2.11 X-RAY DIFFRACTION 67 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 135 135 SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI 5gol-a1-m1-cB_5gol-a1-m1-cD Structure of acetyl-Coenzyme A synthase Alpha subunit C-terminal domain F598H mutant P27988 P27988 2.11 X-RAY DIFFRACTION 65 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 135 135 SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI SCGCHEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGGGTQTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI 5gom-a1-m1-cB_5gom-a1-m1-cA Truncated mitofusin-1, transition-like state Q8IWA4 Q8IWA4 2.802 X-RAY DIFFRACTION 67 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 404 407 VSPLKHFVLAKKAITAIFDQLLEFVTEGSHFVEATYKNPELDRIATEDDLVEMQGYKDKLSIIGEVLSRRHMKVAFFGRTSSGKSSVINAMLWDKVLPSGIGHITNCFLSVEGTDGDKAYLMTEGSDEKKSVKTVNQLAHALHMDKDLKAGCLVRVFWPKAKCALLRDDLVLVDSPGTDTELDSWIDKFCLDADVFVLVANSESTLMNTEKHFFHKVNERLSKPNIFILNNRWDASASEPEYMEDVRRQHMERCLHFLVEELKVVNALEAQNRIFFVSAKEVLSARKQKAQGMPESGVALAEGFHARLQEFQNFEQIFEECISQSAVKTKFEQHTIRAKQILATVKNIMDSVNLAAEDKRHYSARLPKEIDQLEKIQNNSKLLRNKAVQLENELENFTKQFLPS EPVSPLKHFVLAKKAITAIFDQLLEFVTEGSHFVEATYKNPELDRIATEDDLVEMQGYKDKLSIIGEVLSRRHMKVAFFGRTSSGKSSVINAMLWDKVLPSGIGHITNCFLSVEGTDGDKAYLMTEGSDEKKSVKTVNQLAHALHMDKDLKAGCLVRVFWPKAKCALLRDDLVLVDSPGTDVTTELDSWIDKFCLDADVFVLVANSESTLMNTEKHFFHKVNERLSKPNIFILNNRWDASASEPEYMEDVRRQHMERCLHFLVEELKVVNALEAQNRIFFVSAKEVLSARKQKAQGMPESGVALAEGFHARLQEFQNFEQIFEECISQSAVKTKFEQHTIRAKQILATVKNIMDSVNLAAEDKRHYSARLPKEIDQLEKIQNNSKLLRNKAVQLENELENFTKQFLP 5gou-a1-m1-cJ_5gou-a1-m1-cL Structure of a 16-mer protein nanocage fabricated from its 24-mer analogue by subunit interface redesign P02794 P02794 2.91 X-RAY DIFFRACTION 32 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 5gou-a1-m1-cA_5gou-a1-m1-cC 5gou-a1-m1-cA_5gou-a1-m1-cH 5gou-a1-m1-cC_5gou-a1-m1-cF 5gou-a1-m1-cH_5gou-a1-m1-cF 5gou-a1-m1-cN_5gou-a1-m1-cL 5gou-a1-m1-cP_5gou-a1-m1-cJ 5gou-a1-m1-cP_5gou-a1-m1-cN DSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEEREHAEKLMKLQNQRGGRIFLQDIKKPDCDDWESGLNAMECALHLEKNVNQSLLELHKLANEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTLGD QDSEAAINRQINLELYASYVYLSMSYYFDRDDVALKNFAKYFLHQSHEEREHAEKLMKLQNQRGGRIFLQDIKKPDCDDWESGLNAMECALHLEKNVNQSLLELHKLNEQVKAIKELGDHVTNLRKMGAPESGLAEYLFDKHTLGD 5gox-a1-m1-cA_5gox-a1-m1-cB Eukaryotic Rad50 Functions as A Rod-shaped Dimer Q92878 Q92878 2.405 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 178 178 KEINQTRDRLAKLNKELASSEQNKNHINNELKRKEEQLSSYEDKLFDVCGSQDFESDLDRLKEEIEKSSKQRALAGATAVYSQFITQLTDENQSCCPVCQRVFQTEAELQEVISDLQSKLRLAPDKLKSTESELKKKEKRRDELGLVPRQSIIDLKEKEIPELRNKLQNVNRDIQRLK KEINQTRDRLAKLNKELASSEQNKNHINNELKRKEEQLSSYEDKLFDVCGSQDFESDLDRLKEEIEKSSKQRALAGATAVYSQFITQLTDENQSCCPVCQRVFQTEAELQEVISDLQSKLRLAPDKLKSTESELKKKEKRRDELGLVPRQSIIDLKEKEIPELRNKLQNVNRDIQRLK 5gp0-a3-m1-cA_5gp0-a3-m1-cI Crystal structure of geraniol-NUDX1 complex Q9CA40 Q9CA40 1.702 X-RAY DIFFRACTION 54 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 138 139 5gp0-a1-m1-cA_5gp0-a1-m1-cI 5gp0-a1-m1-cE_5gp0-a1-m1-cF 5gp0-a2-m1-cE_5gp0-a2-m1-cF 5wwd-a1-m1-cB_5wwd-a1-m1-cA 6dby-a1-m1-cB_6dby-a1-m1-cA 6dbz-a1-m1-cA_6dbz-a1-m1-cB 6fl4-a1-m1-cA_6fl4-a1-m1-cB AIPRVAVVVFILNGNSILLGRRRSSIGNSTFALPGGHLEFGESFEECAAREVMEETGLKIEKMKLLTVTNNVFKEAPTPSHYVSVSIRAVLVDPSQEPKNMEPEKCEGWDWYDWENLPKPLFWPLEKLFGSGFNPFTH AIPRVAVVVFILNGNSILLGRRRSSIGNSTFALPGGHLEFGESFEECAAREVMEETGLKIEKMKLLTVTNNVFKEAPTPSHYVSVSIRAVLVDPSQEPKNMEPEKCEGWDWYDWENLPKPLFWPLEKLFGSGFNPFTHG 5gp4-a2-m2-cB_5gp4-a2-m2-cA Lactobacillus brevis CGMCC 1306 Glutamate decarboxylase D6PXK5 D6PXK5 2.16 X-RAY DIFFRACTION 93 1.0 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 424 441 5gp4-a1-m1-cB_5gp4-a1-m1-cA 5gp4-a2-m1-cB_5gp4-a2-m1-cA 5gp4-a2-m1-cC_5gp4-a2-m2-cC DLPKYKLAKHALEPREADRLVRDQLLDEGNSRLNLATFCQTYMEPEAVELMKDTLEKNAIDKSEYPRTAEIENRCVNIIANLWHAPEAESFTGTSTIGSSEACMLAGLAMKFAWRKRAKANGLDLTAHQPNIVISAGYQVCWEKFCVYWDIDMHVVPMDDDHMSLNVDHVLDYVDDYTIGIVGIMGITYTGQYDDLARLDAVVERYNRTTKFPVYIHVDAASGGFYTPFIEPELKWDFRLNNVISINASGHKYGLVYPGVGWVIWRDQQYLPKELVFKVSYLGGELPTMAINFSHSASQLIGQYYNFIRFGFDGYREIQEKTHDVARYLAKSLTKLGGFSLINDGHELPLICYELTADSDREWTLYDLSDRLLMKGWQVPTYPLPKNMTDRVIQRIVVRADFGMSMAHDFIDDLTQAIHDLDQA ETLKPIFGASAERHDLPKYKLAKHALEPREADRLVRDQLLDEGNSRLNLATFCQTYMEPEAVELMKDTLEKNAIDKSEYPRTAEIENRCVNIIANLWHAPEAESFTGTSTIGSSEACMLAGLAMKFAWRKRAKANGLDLTAHQPNIVISAGYQVCWEKFCVYWDIDMHVVPMDDDHMSLNVDHVLDYVDDYTIGIVGIMGITYTGQYDDLARLDAVVERYNRTTKFPVYIHVDAASGGFYTPFIEPELKWDFRLNNVISINASGHKYGLVYPGVGWVIWRDQQYLPKELVFKVSYLGGELPTMAINFSHSASQLIGQYYNFIRFGFDGYREIQEKTHDVARYLAKSLTKLGGFSLINDGHELPLICYELTADSDREWTLYDLSDRLLMKGWQVPTYPLPKNMTDRVIQRIVVRADFGMSMAHDFIDDLTQAIHDLDQAHIV 5gp4-a2-m2-cC_5gp4-a2-m1-cA Lactobacillus brevis CGMCC 1306 Glutamate decarboxylase D6PXK5 D6PXK5 2.16 X-RAY DIFFRACTION 12 1.0 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 439 441 5gp4-a2-m1-cC_5gp4-a2-m2-cA ETLKPIFGASAERHDLPKYKLAKHALEPREADRLVRDQLLDEGNSRLNLATFCQTYMEPEAVELMKDTLEKNAIDKSEYPRTAEIENRCVNIIANLWHAPEAESFTGTSTIGSSEACMLAGLAMKFAWRKRAKANGLDLTAHQPNIVISAGYQVCWEKFCVYWDIDMHVVPMDDDHMSLNVDHVLDYVDDYTIGIVGIMGITYTGQYDDLARLDAVVERYNRTTKFPVYIHVDAASGGFYTPFIEPELKWDFRLNNVISINASGHKYGLVYPGVGWVIWRDQQYLPKELVFKVSYLGGELPTMAINFSHSASQLIGQYYNFIRFGFDGYREIQEKTHDVARYLAKSLTKLGGFSLINDGHELPLICYELTADSDREWTLYDLSDRLLMKGWQVPTYPLPKNMTDRVIQRIVVRADFGMSMAHDFIDDLTQAIHDLDQAH ETLKPIFGASAERHDLPKYKLAKHALEPREADRLVRDQLLDEGNSRLNLATFCQTYMEPEAVELMKDTLEKNAIDKSEYPRTAEIENRCVNIIANLWHAPEAESFTGTSTIGSSEACMLAGLAMKFAWRKRAKANGLDLTAHQPNIVISAGYQVCWEKFCVYWDIDMHVVPMDDDHMSLNVDHVLDYVDDYTIGIVGIMGITYTGQYDDLARLDAVVERYNRTTKFPVYIHVDAASGGFYTPFIEPELKWDFRLNNVISINASGHKYGLVYPGVGWVIWRDQQYLPKELVFKVSYLGGELPTMAINFSHSASQLIGQYYNFIRFGFDGYREIQEKTHDVARYLAKSLTKLGGFSLINDGHELPLICYELTADSDREWTLYDLSDRLLMKGWQVPTYPLPKNMTDRVIQRIVVRADFGMSMAHDFIDDLTQAIHDLDQAHIV 5gp4-a2-m2-cC_5gp4-a2-m2-cA Lactobacillus brevis CGMCC 1306 Glutamate decarboxylase D6PXK5 D6PXK5 2.16 X-RAY DIFFRACTION 314 1.0 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 439 441 5gp4-a1-m1-cC_5gp4-a1-m1-cA 5gp4-a2-m1-cB_5gp4-a2-m2-cB 5gp4-a2-m1-cC_5gp4-a2-m1-cA ETLKPIFGASAERHDLPKYKLAKHALEPREADRLVRDQLLDEGNSRLNLATFCQTYMEPEAVELMKDTLEKNAIDKSEYPRTAEIENRCVNIIANLWHAPEAESFTGTSTIGSSEACMLAGLAMKFAWRKRAKANGLDLTAHQPNIVISAGYQVCWEKFCVYWDIDMHVVPMDDDHMSLNVDHVLDYVDDYTIGIVGIMGITYTGQYDDLARLDAVVERYNRTTKFPVYIHVDAASGGFYTPFIEPELKWDFRLNNVISINASGHKYGLVYPGVGWVIWRDQQYLPKELVFKVSYLGGELPTMAINFSHSASQLIGQYYNFIRFGFDGYREIQEKTHDVARYLAKSLTKLGGFSLINDGHELPLICYELTADSDREWTLYDLSDRLLMKGWQVPTYPLPKNMTDRVIQRIVVRADFGMSMAHDFIDDLTQAIHDLDQAH ETLKPIFGASAERHDLPKYKLAKHALEPREADRLVRDQLLDEGNSRLNLATFCQTYMEPEAVELMKDTLEKNAIDKSEYPRTAEIENRCVNIIANLWHAPEAESFTGTSTIGSSEACMLAGLAMKFAWRKRAKANGLDLTAHQPNIVISAGYQVCWEKFCVYWDIDMHVVPMDDDHMSLNVDHVLDYVDDYTIGIVGIMGITYTGQYDDLARLDAVVERYNRTTKFPVYIHVDAASGGFYTPFIEPELKWDFRLNNVISINASGHKYGLVYPGVGWVIWRDQQYLPKELVFKVSYLGGELPTMAINFSHSASQLIGQYYNFIRFGFDGYREIQEKTHDVARYLAKSLTKLGGFSLINDGHELPLICYELTADSDREWTLYDLSDRLLMKGWQVPTYPLPKNMTDRVIQRIVVRADFGMSMAHDFIDDLTQAIHDLDQAHIV 5gpc-a1-m1-cC_5gpc-a1-m1-cD Structural analysis of fatty acid degradation regulator FadR from Bacillus halodurans Q9K8A4 Q9K8A4 2.8 X-RAY DIFFRACTION 116 0.995 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 190 190 5gp9-a1-m1-cB_5gp9-a1-m1-cA 5gpc-a1-m1-cA_5gpc-a1-m1-cB KKGPKYDQIIDAAVQVIAEHGYHQAQVSKIAKAAGVADGTIYLYFNNKEDVLISLFQEKMGRFVDKIRSQMNEATDVEEKLKILVNMHFKQLAADHKLAIVTQLELRQSNTELRLKINEVLKGYLNLLDELLMEGKEKGYFFQELDTRLARQMIFGTLDEVVTNWVMKDCKYDLTALVKPVHQLLLGGLR KGPKYDQIIDAAVQVIAEHGYHQAQVSKIAKAAGVADGTIYLYFNNKEDVLISLFQEKMGRFVDKIRSQMNEATDVEEKLKILVNMHFKQLAADHKLAIVTQLELRQSNTELRLKINEVLKGYLNLLDELLMEGKEKGYFFQELDTRLARQMIFGTLDEVVTNWVMKDCKYDLTALVKPVHQLLLGGLRH 5gpe-a4-m1-cH_5gpe-a4-m1-cG Crystal structure of the transcription regulator PbrR691 from Ralstonia metallidurans CH34 in complex with Lead(II) Q1LKZ5 Q1LKZ5 2.01 X-RAY DIFFRACTION 145 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 128 129 5gpe-a1-m1-cA_5gpe-a1-m1-cB 5gpe-a2-m1-cC_5gpe-a2-m1-cD 5gpe-a3-m1-cE_5gpe-a3-m1-cF MMRIGELGKKADCLVQTVRFYESEGLLPEPARSEGNFRLYDEVHLQRLLFIRRCRAKDMTLDEIRQLLNLRDRPELGCGEVNALVDAHIAQVRTKMKELRALERELMDLRRSCDARTSRECGILNSLA MMRIGELGKKADCLVQTVRFYESEGLLPEPARSEGNFRLYDEVHLQRLLFIRRCRAKDMTLDEIRQLLNLRDRPELGCGEVNALVDAHIAQVRTKMKELRALERELMDLRRSCDSARTSRECGILNSLA 5gpl-a1-m1-cA_5gpl-a1-m1-cB Crystal structure of Ccp1 Q9HGN2 Q9HGN2 2.1 X-RAY DIFFRACTION 71 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 206 206 5gpk-a1-m1-cA_5gpk-a1-m1-cB EAAQAFENLANLEQEFGKAEIEILKKQNELFQPLFEQRRDILKTINNFWVVVLEAAGDEISQYITPEDSVLLEKLENIYVERFNEKEPRDVRISLTFQPNEYLQDDNLTLVKEVRIKEEKAKDDEGLEKKITKYTSQPVDIHWKPGKSLFRKNKKLPPNFFDYFQWTGEEEDDDFDGATLTIFLAEDLFPNAVKYFTEAMTEEASD EAAQAFENLANLEQEFGKAEIEILKKQNELFQPLFEQRRDILKTINNFWVVVLEAAGDEISQYITPEDSVLLEKLENIYVERFNEKEPRDVRISLTFQPNEYLQDDNLTLVKEVRIKEEKAKDDEGLEKKITKYTSQPVDIHWKPGKSLFRKNKKLPPNFFDYFQWTGEEEDDDFDGATLTIFLAEDLFPNAVKYFTEAMTEEASD 5gpo-a1-m1-cA_5gpo-a1-m1-cB The sensor domain structure of the zinc-responsive histidine kinase CzcS from Pseudomonas Aeruginosa Q9I0V9 Q9I0V9 1.701 X-RAY DIFFRACTION 144 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 121 124 ASARERENLQLKLEQIRHSLEDDLDLRSDPAVQAHALQDQLVAHSGLHLSILDSRSGQPLMSFGDQAAASVAANRALLARLQADARQPVFQSWSTQRLLSIGASMRMKNGTPVQVLLSSER HMASARERENLQLKLEQIRHSLEDDLDLRSDPAVQAHALQDQLVAHSGLHLSILDSRSGQPLMSFGDQAAASVAANRALLARLQADARQPVFQSWSTGQRLLSIGASMRMKNGTPVQVLLSSER 5gq0-a1-m1-cB_5gq0-a1-m1-cA Crystal structure of the Epithiospecifier Protein, ESP from Arabidopsis thaliana Q8RY71 Q8RY71 2.31 X-RAY DIFFRACTION 59 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 330 338 TLQGQWIKVGQKGGTGPGPRSSHGIAAVGDKLYSFGGELTPNKHIDKDLYVFDFNTQTWSIAQPKGDAPTVSCLGVRMVAVGTKIYIFGGRDENRNFENFRSYDTVTSEWTFLTKLDEVGGPEARTFHSMASDENHVYVFGGVSKGGTMNTPTRFRTIEAYNIADGKWAQLPDPGDNFEKRGGAGFAVVQGKIWVVYGFATSDDYESNAVQFYDPASKKWTEVETTGAKPSARSVFAHAVVGKYIIIFAGEVWPDLNGHYGPGTLSNEGYALDTETLVWEKLGEEGAPAIPRGWTAYTAATVDGKNGLLMHGGKLPTNERTDDLYFYAVN TLQGQWIKVGQKGGTGPGPRSSHGIAAVGDKLYSFGGELTPNKHIDKDLYVFDFNTQTWSIAQPKGDAPTVSCLGVRMVAVGTKIYIFGGRDENRNFENFRSYDTVTSEWTFLTKLDEVGGPEARTFHSMASDENHVYVFGGVSKGGTMNTPTRFRTIEAYNIADGKWAQLPDPGDNFEKRGGAGFAVVQGKIWVVYGFATSIVPGGKDDYESNAVQFYDPASKKWTEVETTGAKPSARSVFAHAVVGKYIIIFAGEVWPDLNGHYGPGTLSNEGYALDTETLVWEKLGEEGAPAIPRGWTAYTAATVDGKNGLLMHGGKLPTNERTDDLYFYAVNSA 5gq1-a1-m1-cD_5gq1-a1-m1-cA Crystal structure of 2C helicase from enterovirus 71 (EV71) B9VUU3 B9VUU3 2.493 X-RAY DIFFRACTION 46 0.985 39054 (Enterovirus A71) 39054 (Enterovirus A71) 197 207 5grb-a1-m1-cC_5grb-a1-m1-cA HRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPDHFDGYKQQVVTVMDDLCGKDMSLFCQMVSTVDFIPPMASLAEAGVSFTSKFVIASTNATDAIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIEALF KHRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPDHFDGYKQQVVTVMDDLCQNPDGKDMSLFCQMVSTVDFIPPMASLAEAGVSFTSKFVIASTNATNIIVPSDSDAIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIE 5gq1-a1-m1-cE_5gq1-a1-m1-cA Crystal structure of 2C helicase from enterovirus 71 (EV71) B9VUU3 B9VUU3 2.493 X-RAY DIFFRACTION 29 0.984 39054 (Enterovirus A71) 39054 (Enterovirus A71) 185 207 HRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPHFDGYKQQVVTVMDDLCGKDMSLFCQMVSTVDFIPPSFTSKFVIASTNATIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIEALF KHRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPDHFDGYKQQVVTVMDDLCQNPDGKDMSLFCQMVSTVDFIPPMASLAEAGVSFTSKFVIASTNATNIIVPSDSDAIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIE 5gq1-a1-m1-cE_5gq1-a1-m1-cB Crystal structure of 2C helicase from enterovirus 71 (EV71) B9VUU3 B9VUU3 2.493 X-RAY DIFFRACTION 26 0.989 39054 (Enterovirus A71) 39054 (Enterovirus A71) 185 198 5grb-a1-m1-cC_5grb-a1-m1-cE HRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPHFDGYKQQVVTVMDDLCGKDMSLFCQMVSTVDFIPPSFTSKFVIASTNATIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIEALF RIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPDHFDGYKQQVVTVMDDLCKDMSLFCQMVSTVDFIPPMASLAEAGVSFTSKFVIASTNATDSDAIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIEALFQ 5gq9-a1-m1-cA_5gq9-a1-m1-cB Crystal structure of Thermus thermophilus Argonaute in complex with g1C siDNA and DNA target Q746M7 Q746M7 2.7 X-RAY DIFFRACTION 100 0.987 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 638 673 3dlb-a1-m1-cB_3dlb-a1-m1-cA 5xq2-a1-m1-cA_5xq2-a1-m1-cB HLGKTEVFLNRFALRPLNPEELRPWRLEVVLDPPPGREEVYPLLAQVARRAGGVTVRMGDGLASWSPPEVLVLEGTLARMGQTYAYRLYPKGRRPLDPKDPGERSVLSALARRLLQERLRRLEGVWVEGLAVYRREHARGPGWRVLGGAVLDLWVSDSGAFLLEVDPAYRILCEMSLEAWLAQGHPLPKRVRNAYDRRTWELLDYHASKGRLTGLLVPVLTLEDLHEESLALSLPWEERRRRTREIASWIGRRLGLGTPEAVRAQAYRLSIPKLMGRRAVSKPADALRVGFYRAQETALALLRLDGAQGWPEFLRRALLRAFGASGASLRLHTLHAHPSQGLAFREALRKAKEEGVQAVLVLTPPMAWEDRNRLKALLLREGLPSQILNVPLREEERHRWENALLGLLAKAGLQVVALSGAYPAELAVGFDAGGRESFRFGGAACAVGGDGGHLLWTLPEAQAGERIPQEVVWDLLEETLWAFRRKAGRLPSRVLLLRDGRVPQDEFALALEALAREGIAYDLVSVRKSGGGRVYPVQGRLADGLYVPLEDKTFLLLTVHRDFRGTPRPLKLVHEAGDTPLEALAHQIFHLTRLYPASGFAFPRLPAPLHLADRLVKEVGRLGIRHLKEVDREKLFFV HLGKTEVFLNRFALRPLNPEELRPWRLEVVLDPPPGREEVYPLLAQVARRAGGVTVRMGDGLASWSPPEVLVLEGTLTYAYRLYPKGRRPLDPKDPGERSVLSALARRLLQERLRRLEGVWVEGLAVYRREHARGPGWRVLGGAVLDLWVSDSGAFLLEVDPAYRILCEMSLEAWLAQGHPLPKRVRNAYDRRTWELLRLGEEDPKELPLPGGLSLLDYHASKGRLQGREGGRVAWVADPKDPRKPIPHLTGLLVPVLTLEDLSLALSLPWEERRRRTREIASWIGRRLGLGTPEAVRAQAYRLSIPKLMGRRAVSKPADALRVGFYRAQETALALLRLDGAQGWPEFLRRALLRAFGASGASLRLHTLHAHPSQGLAFREALRKAKEEGVQAVLVLTPPMAWEDRNRLKALLLREGLPSQILNVPLREEERHRWENALLGLLAKAGLQVVALSGAYPAELAVGFDAGGRESFRFGGAACAVGGDGGHLLWTLPEAQAGERIPQEVVWDLLEETLWAFRRKAGRLPSRVLLLRDGRVPQDEFALALEALAREGIAYDLVSVRKSGGGRVYPVQGRLADGLYVPLEDKTFLLLTVHRDFRGTPRPLKLVHEAGDTPLEALAHQIFHLTRLYPASGFAFPRLPAPLHLADRLVKEVGRLGIRHLKEVDREKLFFV 5gqo-a1-m1-cB_5gqo-a1-m2-cB Structure of the second Single Stranded DNA Binding protein (SSBb) from Mycobacterium smegmatis A0R1C4 A0R1C4 2.5 X-RAY DIFFRACTION 52 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 98 98 5gqo-a1-m1-cA_5gqo-a1-m2-cA FETPFTVVGNIITNPVRLRFGDQELYKFRVASNSRRRNSLYVTVNCWGNLARGVSASLGKGDSVVVVGHLYTNEYSSVEVRATAVGPDLSRCIARVEK FETPFTVVGNIITNPVRLRFGDQELYKFRVASNSRRRNSLYVTVNCWGNLARGVSASLGKGDSVVVVGHLYTNEYSSVEVRATAVGPDLSRCIARVEK 5gqz-a2-m1-cA_5gqz-a2-m2-cA Crystal structure of branching enzyme Y500A mutant from Cyanothece sp. ATCC 51142 B1WPM8 B1WPM8 1.85 X-RAY DIFFRACTION 10 1.0 43989 (Crocosphaera subtropica ATCC 51142) 43989 (Crocosphaera subtropica ATCC 51142) 755 755 ISADQVNQIIYNLHHDPFEILGCHLLEEGKNTKKWVVRAYLPKAEAAWVIRPTERKEDPMNSVHHPNFFECIIETPELNHYQLKVKEGEHEKVIYDPYAFSSPYLTDEDIYLFSEGNHHRIYEKLGAHVGEINGVKGVYFAVWAPNARNVSVIGDFNNWDGREHQMRKRNYTIWELFVPEIGSGTVYKYEIKNSEGHIYEKSDPYGFYREVRPNTASIVVDIDNIYQWHDEEWLEKRRNSDPLKQPVSVYEVHLGSWLHGSSAEKMPLLNGEADPVIVSEWNPGARFLSYYELAEKLIPYVKDMGYTHIELLPIAEHPFDGSWGYQVTGFYSPTSRFGRPEDFMYFVDKCHENGIGVILDWVPGHFPKDSHGLAYFDGTHLYEHADPRIGEHKEWGTLVFNYGRHEVRNFLVANVLFWFDKYHVDGIRVDAVASMLYRNYLRKEGEWIANEYGGDEHIEAVSFIREVNTLLFEYFPGILSIAEESTEWEKVSRPVADGGLGFNLKWDMGWMHDMLDYFNIDPYFRQYHQNNVTFSMLYYYNENFMLALSHDEIVHGKSNMLGKMPGDEWQKYANVRALFTYMYTHPGKKTMFMSMEFGQWSEWNVWGDLEWHLLQYEPHQQLKQFFTDLNALYQQEPALYTHDFEYHGFEWIDCNDNTHSVVSFLRRSDDPNDSLVVVCNFTPQPHSHYRIGVPEAGYYVELFNSDAKQYGGSNMGNLGGKWADEWSFHNKPYSLDLCLPPLAVLILKLDPTKVP ISADQVNQIIYNLHHDPFEILGCHLLEEGKNTKKWVVRAYLPKAEAAWVIRPTERKEDPMNSVHHPNFFECIIETPELNHYQLKVKEGEHEKVIYDPYAFSSPYLTDEDIYLFSEGNHHRIYEKLGAHVGEINGVKGVYFAVWAPNARNVSVIGDFNNWDGREHQMRKRNYTIWELFVPEIGSGTVYKYEIKNSEGHIYEKSDPYGFYREVRPNTASIVVDIDNIYQWHDEEWLEKRRNSDPLKQPVSVYEVHLGSWLHGSSAEKMPLLNGEADPVIVSEWNPGARFLSYYELAEKLIPYVKDMGYTHIELLPIAEHPFDGSWGYQVTGFYSPTSRFGRPEDFMYFVDKCHENGIGVILDWVPGHFPKDSHGLAYFDGTHLYEHADPRIGEHKEWGTLVFNYGRHEVRNFLVANVLFWFDKYHVDGIRVDAVASMLYRNYLRKEGEWIANEYGGDEHIEAVSFIREVNTLLFEYFPGILSIAEESTEWEKVSRPVADGGLGFNLKWDMGWMHDMLDYFNIDPYFRQYHQNNVTFSMLYYYNENFMLALSHDEIVHGKSNMLGKMPGDEWQKYANVRALFTYMYTHPGKKTMFMSMEFGQWSEWNVWGDLEWHLLQYEPHQQLKQFFTDLNALYQQEPALYTHDFEYHGFEWIDCNDNTHSVVSFLRRSDDPNDSLVVVCNFTPQPHSHYRIGVPEAGYYVELFNSDAKQYGGSNMGNLGGKWADEWSFHNKPYSLDLCLPPLAVLILKLDPTKVP 5gra-a1-m1-cB_5gra-a1-m1-cA Crystal structure of TrmJ from Z. mobilis ZM4 Q5NN83 Q5NN83 3.005 X-RAY DIFFRACTION 119 0.996 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 223 224 AVPAIILVRPQLGENIGKAARAMLNFGLDDLRLVAPRDGWPNPSAGPAASGADRVLQQARVFPTVAEAVADCAHVYATTVRKRGVTKPVMTPEQAAQTIHEQEGGVGILFGPERAGLETDDVALARTIITVPVNPEFSSLNLAQAVILVAYEWSKGQTEPPAPQEELEAMIGHLENMLDKNGYFFPIPRIPTIKRTLRTLLTKPSWNSMEIRTLRGVLSTLEK AVPAIILVRPQLGENIGKAARAMLNFGLDDLRLVAPRDGWPNPSAGPAASGADRVLQQARVFPTVAEAVADCAHVYATTVRKRGVTKPVMTPEQAAQTIHEQEGGVGILFGPERAGLETDDVALARTIITVPVNPEFSSLNLAQAVILVAYEWSKGQDMEPPAPQEELEAMIGHLENMLDKNGYFFPIPRIPTIKRTLRTLLTKPSWNSMEIRTLRGVLSTLEK 5grb-a1-m1-cF_5grb-a1-m1-cA Crystal structure of 2C helicase from enterovirus 71 (EV71) bound with ATPgammaS B9VUU3 B9VUU3 2.803 X-RAY DIFFRACTION 39 0.995 12059 (Enterovirus) 12059 (Enterovirus) 208 211 KHRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPDHFDGYKQQVVTVMDDLCQNPDGKDMSLFCQMVSTVDFIPPMASLAEAGVSFTSKFVIASTNATNIISDSDAIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIEALF HRIEPVCLIIRGSPGTGKSLATGIIARAIADKYHSSVYSLPPDPDHFDGYKQQVVTVMDDLCQNPDGKDMSLFCQMVSTVDFIPPMASLAEAGVSFTSKFVIASTNATNIIVPTVSDSDAIRRRFYMDCDIEVTDSYKTDLGRLDAGRAAKLCSENNTANFKRCSPLVCGKAIQLRDRKSKVRYSVDTVVSELIREYSNRSAIGNTIEALF 5gro-a1-m1-cA_5gro-a1-m1-cB Crystal structure of the N-terminal anticodon-binding domain of non-discriminating aspartyl-tRNA synthetase from Helicobacter pylori P56459 P56459 2 X-RAY DIFFRACTION 59 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 103 103 RSHFCTEISEKDVGKIVKVAGWCNTYRDHGGVVFIDLRDKSGLVQLVCDPSSKAYEKALEVRSEFVLVAKGKVRLRGAGLENPKLKTGKIEIVLEELIIENKS RSHFCTEISEKDVGKIVKVAGWCNTYRDHGGVVFIDLRDKSGLVQLVCDPSSKAYEKALEVRSEFVLVAKGKVRLRGAGLENPKLKTGKIEIVLEELIIENKS 5grq-a1-m1-cB_5grq-a1-m1-cA Crystal Structure of DHB domain of Daxx in complex with an ATRX peptide Q9UER7 Q9UER7 1.584 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 90 GKKCYKLENEKLFEEFLELCKMQTADHPEVVPFLYNRQQRAHSLFLASAEFCNILSRVLSRARSRPAKLYVYINELCTVLKAHSA GKKCYKLENEKLFEEFLELCKMQTADHPEVVPFLYNRQQRAHSLFLASAEFCNILSRVLSRARSRPAKLYVYINELCTVLKAHSAKKKLN 5grs-a1-m1-cG_5grs-a1-m1-cH Complex structure of the fission yeast SREBP-SCAP binding domains Q9UUD1 Q9UUD1 5.4 ELECTRON MICROSCOPY 33 0.989 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 187 191 5grs-a1-m1-cE_5grs-a1-m1-cF PLEVLASWYAADLLDALLMESLSRKVEISEIEEIISLCPKNSSIIRHALLAKLVLFPENTADSLNEVLAAYKNTLDLCSQDSVLKINLSKLFTLHSCLSLALQRLGYGDVSKRMYQEIFVPDSDADITPLSFIISWTALNTFAPICTSENDVVEKMAMYVRTAIGTLKIQDLKLSRKLINSCIDIGS VLSPLEVLASWYAADLLDALLMESLSRKVEISEIEEIISLCPKNSSIIRHALLAKLVLFPENTADSLNEVLAAYKNTLDLCSQVLKINLSKLFTLHSCLSLALQRLGYGDVSKRMYQEIFVPDSDADITPLSFIISWTALNTFAPICTSPKENDVVEKMAMYVRTAIGTLKIQDLKLSRKLINSCIDIGSR 5gs3-a1-m1-cA_5gs3-a1-m1-cH Crystal structure of diabody 1.698 X-RAY DIFFRACTION 173 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 VQLVESGGGLVQPGGSLRLSCAASGFTFRNSAMHWVRQAPGKGLEWVSSIWYSNTYYADSVKGRFTISRDNSKNTLYLQMNSLTAEDTAVYYCARFAGGWGAYDVWGQGTLVTVSSDIQMTQSPSSLSASVGDRVTITCRASQSIGLYLAWYQQKPGKAPKLLIYAASSLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQGNTLSYTFGQGTKVEIK VQLVESGGGLVQPGGSLRLSCAASGFTFRNSAMHWVRQAPGKGLEWVSSIWYSNTYYADSVKGRFTISRDNSKNTLYLQMNSLTAEDTAVYYCARFAGGWGAYDVWGQGTLVTVSSDIQMTQSPSSLSASVGDRVTITCRASQSIGLYLAWYQQKPGKAPKLLIYAASSLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQGNTLSYTFGQGTKVEIK 5gsl-a1-m1-cA_5gsl-a1-m1-cB Glycoside hydrolase A O58247 O58247 2.6 X-RAY DIFFRACTION 177 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 775 775 MKVQHDGRLYSLDDERIVVYGGTLQYFRVPRNYWEDRLRKMKSHGLNTVETYIAWNWHEPQEGVFDFTGETHPQRDLIGFLELAQKLGLYVIIRPGPYICGEWKNGGIPDWLINSHPEILAKSPNGSFPRDVYYPPITYLHPTYLEYAMKWYEEVLPIIRDYLYSNGGSIISVTIDDEPSYWETIFQPFLTDYNEIIVRENGIWHSWLKENYSLGDLEERYGERFSDYTEIAPPKSFSEPLPKVLDWHHFKIWMINEYVRRLYEKIREYVDVPISLLDPYLLLAAWKEFYLYVTRHKLDIHLWTEFWYSFYRTFDFKEDKLGHLYFKTGIYRYYVSKLKTPPLSIETQASLANVIEKDEAELLYALLPALGIHNLNYYLYVGGENPRGYESHNGVTWDVYSPIGLDGRERQHVEPIKWIGEFLKSNIDFVDSQFKARVAFGMYEPYEALNLWGYKPESFEESVNLNEYLFGERGLLTLLAMSNVPFDVIDLEISTLEEMLQYEQIWVYSLDFMSREVQEKLIKYVEEGGNLVILPTLPYLDENMKPCTRLRDFLGVEVERAKARDNMRLIPYLSVDAEGIDRMVVRNVAREVKGGEAIAWIGDKVVGTIVRKGKGSAVILGFRLQYYSSYHDMHRKFVDKILQLQGVKREVEVSNRDIIAIPRIHYLVLVNPRDEEVAGKVKYRGVEFEIKMKGRGVLFIPVDVEINGVKLVYATATPIGGGNRRIKFRNHLSDTSEIAIRDGRIRGVKGGYVLQEKGERVYVIRHERETFEIEF MKVQHDGRLYSLDDERIVVYGGTLQYFRVPRNYWEDRLRKMKSHGLNTVETYIAWNWHEPQEGVFDFTGETHPQRDLIGFLELAQKLGLYVIIRPGPYICGEWKNGGIPDWLINSHPEILAKSPNGSFPRDVYYPPITYLHPTYLEYAMKWYEEVLPIIRDYLYSNGGSIISVTIDDEPSYWETIFQPFLTDYNEIIVRENGIWHSWLKENYSLGDLEERYGERFSDYTEIAPPKSFSEPLPKVLDWHHFKIWMINEYVRRLYEKIREYVDVPISLLDPYLLLAAWKEFYLYVTRHKLDIHLWTEFWYSFYRTFDFKEDKLGHLYFKTGIYRYYVSKLKTPPLSIETQASLANVIEKDEAELLYALLPALGIHNLNYYLYVGGENPRGYESHNGVTWDVYSPIGLDGRERQHVEPIKWIGEFLKSNIDFVDSQFKARVAFGMYEPYEALNLWGYKPESFEESVNLNEYLFGERGLLTLLAMSNVPFDVIDLEISTLEEMLQYEQIWVYSLDFMSREVQEKLIKYVEEGGNLVILPTLPYLDENMKPCTRLRDFLGVEVERAKARDNMRLIPYLSVDAEGIDRMVVRNVAREVKGGEAIAWIGDKVVGTIVRKGKGSAVILGFRLQYYSSYHDMHRKFVDKILQLQGVKREVEVSNRDIIAIPRIHYLVLVNPRDEEVAGKVKYRGVEFEIKMKGRGVLFIPVDVEINGVKLVYATATPIGGGNRRIKFRNHLSDTSEIAIRDGRIRGVKGGYVLQEKGERVYVIRHERETFEIEF 5gsm-a1-m1-cA_5gsm-a1-m1-cB Glycoside hydrolase B with product Q76HN4 Q76HN4 1.27 X-RAY DIFFRACTION 165 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 786 786 MGKVEFSGKRYVIDGEPVTIAGGTLQFFRVPADAWKDRLLKMREAGLNTVDTYVAWNWHEPEKGSFDFKGETHPQRNLVGFLELADELGFYVIIRPGPYICGEWRNGGIPDWLIDEHPEILAKGPNGPLPRDIYYPPITYLHPTYLEAVGEWYNAVFPVIRKYLYTNGGPIISVSIDDEPSYWETIFQPFLTDYNEIITKPGGLWEKWLEQNYTLEDLRRRYKGDFKDYSEIKVPTSFSEPLPKLIDWHHFKLWMINEYVRWIYERMAREFDVPISILDPYLLQVAWRHFFTYMREHNLKIHVWTEFWYSFYRSSDFKEDKLGHIYYKTGIYRYHVRKAGTPPLSIETQSSLAHTIDPTEAELLYSILPPLGIPNINYYLFVGGENPEGYESHNGITWDVYSPVGLDGSERPHFGVIKALSETMTSAEGLADAELRPKVAVGLYEPYEALNLWGYEGLEESTDLNEYLLGERGLFTLLAMSNTPFDAVDLEDVTLDELLSYDQLWVYSLDFMSREVQDKLVEFVARGGNLVILPMLPRYDENLEPYSSLKDFLGVEVEREKARRNPRLIQFLSVSAEGIDRMLVRNTVRGVRGGEPIAFLGEKPVGAFVRKGGGSAVVLGFRLQYYTSHHDLHRKFVWKLKELQGVREDFEVTNPDMIVLPMEGKGYAYLAVTNPRGHPIKGRISYRGLEVPVLLDGIELKRRGTLYLPFGVRKGDVEVAYATATLVMWEGDVLTFRNHLSGHSEIALKGVESVKVSGGKIVDGSDGEVLRIVIEHPGEYFEVELL MGKVEFSGKRYVIDGEPVTIAGGTLQFFRVPADAWKDRLLKMREAGLNTVDTYVAWNWHEPEKGSFDFKGETHPQRNLVGFLELADELGFYVIIRPGPYICGEWRNGGIPDWLIDEHPEILAKGPNGPLPRDIYYPPITYLHPTYLEAVGEWYNAVFPVIRKYLYTNGGPIISVSIDDEPSYWETIFQPFLTDYNEIITKPGGLWEKWLEQNYTLEDLRRRYKGDFKDYSEIKVPTSFSEPLPKLIDWHHFKLWMINEYVRWIYERMAREFDVPISILDPYLLQVAWRHFFTYMREHNLKIHVWTEFWYSFYRSSDFKEDKLGHIYYKTGIYRYHVRKAGTPPLSIETQSSLAHTIDPTEAELLYSILPPLGIPNINYYLFVGGENPEGYESHNGITWDVYSPVGLDGSERPHFGVIKALSETMTSAEGLADAELRPKVAVGLYEPYEALNLWGYEGLEESTDLNEYLLGERGLFTLLAMSNTPFDAVDLEDVTLDELLSYDQLWVYSLDFMSREVQDKLVEFVARGGNLVILPMLPRYDENLEPYSSLKDFLGVEVEREKARRNPRLIQFLSVSAEGIDRMLVRNTVRGVRGGEPIAFLGEKPVGAFVRKGGGSAVVLGFRLQYYTSHHDLHRKFVWKLKELQGVREDFEVTNPDMIVLPMEGKGYAYLAVTNPRGHPIKGRISYRGLEVPVLLDGIELKRRGTLYLPFGVRKGDVEVAYATATLVMWEGDVLTFRNHLSGHSEIALKGVESVKVSGGKIVDGSDGEVLRIVIEHPGEYFEVELL 5gt5-a1-m1-cA_5gt5-a1-m1-cB Structural basis of the specific activity and thermostability of pectate lyase (pelN) from Paenibacillus sp. 0602 W8CR80 W8CR80 1.449 X-RAY DIFFRACTION 57 1.0 1336177 (Paenibacillus sp. 0602) 1336177 (Paenibacillus sp. 0602) 444 444 GNADYNLTGFSQGNTGGGVISESNTAVYKKVYNATDLALALKKNSGVKVVEIMNDLNLGWNEIPSAAQTSPFAKHNDALTHPVLKQTGVSKITVDGFNGLTIFSANGSKIKHAAISVKRSSNVIIRNLEFDELWEWDESTKGDYDKNDWDYITLEESSGVWIDHCVFNKAYDGLVDSKKGTSGVTISWSTFKGDDGSPNSWVTRQINEMEANKASYPMYNYLRSSAVGLSKEDIIAISGSQKKGHLVGATSDESANANLSITLHHNVYKDIQDRMPRLRGGNAHAYNIIMDATDARAAQTRITSGMAAAIASKGYKFGITSNGAISTESNAVLVEKSVIKDVQYPVRNNQTDPTNATYTGKIRVADTIYSLDGSSFRGSRDTAGSPLAPVPAAIKPFSWNGFSILPYSYQLDDPSTLNARLTASNGAGAGKLSWSKDNWLKTSY GNADYNLTGFSQGNTGGGVISESNTAVYKKVYNATDLALALKKNSGVKVVEIMNDLNLGWNEIPSAAQTSPFAKHNDALTHPVLKQTGVSKITVDGFNGLTIFSANGSKIKHAAISVKRSSNVIIRNLEFDELWEWDESTKGDYDKNDWDYITLEESSGVWIDHCVFNKAYDGLVDSKKGTSGVTISWSTFKGDDGSPNSWVTRQINEMEANKASYPMYNYLRSSAVGLSKEDIIAISGSQKKGHLVGATSDESANANLSITLHHNVYKDIQDRMPRLRGGNAHAYNIIMDATDARAAQTRITSGMAAAIASKGYKFGITSNGAISTESNAVLVEKSVIKDVQYPVRNNQTDPTNATYTGKIRVADTIYSLDGSSFRGSRDTAGSPLAPVPAAIKPFSWNGFSILPYSYQLDDPSTLNARLTASNGAGAGKLSWSKDNWLKTSY 5gt7-a1-m1-cB_5gt7-a1-m1-cA Crystal Structure of Arg-bound CASTOR1 Q8WTX7 Q8WTX7 2.048 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 305 5gt8-a1-m1-cC_5gt8-a1-m1-cA MELHILEHRVRVLSVARPGLWLYTHPLIKLLFLPRRSRCKFFSLTETPEDYTLMVDEEGFKELPPSEFLQVAEATWLVLNVSSHSGAAVQAAGVTKIARSVIAPLAEHHVSVLMLSTYQTDFILVREQDLSVVIHTLAQEFDIYREVGGEPVPGPSPTVHPIQSPQNRFCVLTLDPETLPAIATTLIDVLFYSHPSSITFFAFSLIEGYISIVMDAETQKKFPSDLLLTSSSGELWRMVRIGGQPLGFDECGIVAQIAGPLAAADISAYYISTFNFDHALVPEDGIGSVIEVLQRR MMELHILEHRVRVLSVARPGLWLYTHPLIKLLFLPRRSRCKFFSLTETPEDYTLMVDEEGFKELPPSEFLQVAEATWLVLNVSSHSGAAVQAAGVTKIARSVIAPLAEHHVSVLMLSTYQTDFILVREQDLSVVIHTLAQEFDIYREVGGEPVPVFPRTQHGPSPTVHPIQSPQNRFCVLTLDPETLPAIATTLIDVLFYSHEPSSITFFAFSLIEGYISIVMDAETQKKFPSDLLLTSSSGELWRMVRIGGQPLGFDECGIVAQIAGPLAAADISAYYISTFNFDHALVPEDGIGSVIEVLQRR 5gt7-a2-m1-cD_5gt7-a2-m1-cC Crystal Structure of Arg-bound CASTOR1 Q8WTX7 Q8WTX7 2.048 X-RAY DIFFRACTION 55 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 300 318 5gs9-a1-m1-cB_5gs9-a1-m1-cA 5gs9-a2-m1-cD_5gs9-a2-m1-cC MMELHILEHRVRVLSVARPGLWLYTHPLIKLLFLPRRSRCKFFSLTETPEDYTLMVDEEGFKELPPSEFLQVAEATWLVLNVSSHSAVQAAGVTKIARSVIAPLAEHHVSVLMLSTYQTDFILVREQDLSVVIHTLAQEFDIYREVGGEPVPVTRDDSSNGPTVHPIQSPQNRFCVLTLDPETLPAIATTLIDVLFYSHSSITFFAFSLIEGYISIVMDAETQKKFPSDLLLTSSSGELWRMVRIGGQPLGFDECGIVAQIAGPLAAADISAYYISTFNFDHALVPEDGIGSVIEVLQRR MMELHILEHRVRVLSVARPGLWLYTHPLIKLLFLPRRSRCKFFSLTETPEDYTLMVDEEGFKELPPSEFLQVAEATWLVLNVSSHSAVQAAGVTKIARSVIAPLAEHHVSVLMLSTYQTDFILVREQDLSVVIHTLAQEFDIYREVGGEPVPVTRDDSRTQHGPSPTVHPIQSPQNRFCVLTLDPETLPAIATTLIDVLFYSHSTPKEAASSSPEPSSITFFAFSLIEGYISIVMDAETQKKFPSDLLLTSSSGELWRMVRIGGQPLGFDECGIVAQIAGPLAAADISAYYISTFNFDHALVPEDGIGSVIEVLQRRQ 5gt9-a1-m1-cA_5gt9-a1-m1-cB The X-ray structure of 7beta-hydroxysteroid dehydrogenase A4ECA9 A4ECA9 1.7 X-RAY DIFFRACTION 114 1.0 411903 (Collinsella aerofaciens ATCC 25986) 411903 (Collinsella aerofaciens ATCC 25986) 262 263 MNLREKYGEWGLILGATEGVGKAFCEKIAAGGMNVVMVGRREEKLNVLAGEIRETYGVETKVVRADFSQPGAAETVFAATEGLDMGFMSYVACLHSFGKIQDTPWEKHEAMINVNVVTFLKCFHHYMRIFAAQDRGAVINVSSMTGISSSPWNGQYGAGKAFILKMTEAVACECEGTGVDVEVITLGTTLTPSLLSNLPGGPQGEAVMKIALTPEECVDEAFEKLGKELSVIAGQRNKDSVHDWKANHTEDEYIRYMGSFYR MNLREKYGEWGLILGATEGVGKAFCEKIAAGGMNVVMVGRREEKLNVLAGEIRETYGVETKVVRADFSQPGAAETVFAATEGLDMGFMSYVACLHSFGKIQDTPWEKHEAMINVNVVTFLKCFHHYMRIFAAQDRGAVINVSSMTGISSSPWNGQYGAGKAFILKMTEAVACECEGTGVDVEVITLGTTLTPSLLSNLPGGPQGEAVMKIALTPEECVDEAFEKLGKELSVIAGQRNKDSVHDWKANHTEDEYIRYMGSFYRD 5gtj-a2-m1-cC_5gtj-a2-m1-cD CRYSTAL STRUCTURE OF CATALYTICALLY ACTIVE FORM OF HUMAN DUSP26 Q9BV47 Q9BV47 2 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 168 5gtj-a1-m1-cA_5gtj-a1-m1-cB FLNVFELERLLYTGKTACNHADEVWPGLYLGDQDMANNRRELRRLGITHVLNASHSRWRGTPEAYEGLGIRYLGVEAHDSPAFDMSIHFQTAADFIHRALSQPGGKILVHSAVGVSRSATLVLAYLMLYHHLTLVEAIKKVKDHRGIIPNRGFLRQLLALDRRLRQ HPFLNVFELERLLYTGKTACNHADEVWPGLYLGDQDMANNRRELRRLGITHVLNASHSRWRGTPEAYEGLGIRYLGVEAHDSPAFDMSIHFQTAADFIHRALSQPGGKILVHSAVGVSRSATLVLAYLMLYHHLTLVEAIKKVKDHRGIIPNRGFLRQLLALDRRLRQ 5gtw-a2-m1-cB_5gtw-a2-m1-cC The N253R mutant structures of trehalose synthase from Deinococcus radiodurans display two different active-site conformations I3NX86 I3NX86 2.93 X-RAY DIFFRACTION 96 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 548 548 4tvu-a1-m1-cA_4tvu-a1-m1-cB 4tvu-a2-m1-cC_4tvu-a2-m1-cD 4tvu-a3-m1-cG_4tvu-a3-m1-cH 4tvu-a4-m1-cE_4tvu-a4-m1-cF 4wf7-a1-m1-cA_4wf7-a1-m1-cD 4wf7-a2-m1-cB_4wf7-a2-m1-cC 5gtw-a1-m1-cA_5gtw-a1-m1-cD 5ykb-a1-m1-cD_5ykb-a1-m1-cA 5ykb-a2-m1-cB_5ykb-a2-m1-cC PEWYKSAVFYELSVRTFQDGNGDGKGDFPGLTSRLDYLKNLGVDCLWLLPWFPSPLRDDGYDVADYRGIHPDLGTLDDFKVFLREAHARGLWVIGDLVTNHTSSDHPWFQAARRGPTLPDGSPNEYHDYYVWSDEGKEYADTRIIFTDTEVSNWTLDEQAGKYYWHRFFASQPDLNYDNPKVVEELHGAARFWLDLGLDGFRVDAVPYLIEREGTSCENLPETHEILKGFRAMVDREYPGRLLLAEARQWPEEVVEYFGTEAEPEFHMCFNFPVMPRLYMSLKREDTSSIREIMGRLPKIPSFGQWCIFLRNHDELTLEMVTDDERAFMYAAYAPDARMKINVGIRRRLAPLLDNDRRRIELLNTVLLALPGSPVLYYGDEIGMGDDLGLPDRNGVRTPMQWNAGTSGGFSTAQPSDCFFPPIQDPVYGFGRVNVQSQLQDPSSLLKWTARQLELRRAHPAFAHGDLTFIETGNPAILAFTRQYDGETLLIVSNFAGNAQAGLLDLAPFVGRAPVTLSGASPLPVVTGNGQYPVVMGKYDYYWLRLNS PEWYKSAVFYELSVRTFQDGNGDGKGDFPGLTSRLDYLKNLGVDCLWLLPWFPSPLRDDGYDVADYRGIHPDLGTLDDFKVFLREAHARGLWVIGDLVTNHTSSDHPWFQAARRGPTLPDGSPNEYHDYYVWSDEGKEYADTRIIFTDTEVSNWTLDEQAGKYYWHRFFASQPDLNYDNPKVVEELHGAARFWLDLGLDGFRVDAVPYLIEREGTSCENLPETHEILKGFRAMVDREYPGRLLLAEARQWPEEVVEYFGTEAEPEFHMCFNFPVMPRLYMSLKREDTSSIREIMGRLPKIPSFGQWCIFLRNHDELTLEMVTDDERAFMYAAYAPDARMKINVGIRRRLAPLLDNDRRRIELLNTVLLALPGSPVLYYGDEIGMGDDLGLPDRNGVRTPMQWNAGTSGGFSTAQPSDCFFPPIQDPVYGFGRVNVQSQLQDPSSLLKWTARQLELRRAHPAFAHGDLTFIETGNPAILAFTRQYDGETLLIVSNFAGNAQAGLLDLAPFVGRAPVTLSGASPLPVVTGNGQYPVVMGKYDYYWLRLNS 5gu5-a2-m1-cA_5gu5-a2-m2-cA Crystal structure of p24gamma2 GOLD domain determined by sulfur-SAD Q9CXE7 Q9CXE7 2.8 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 108 108 GSDSDFTFTLPAGRKECFYQPMPLKASLEIEYQVLDGGELDIDFHLTSPEGRTLVFEQRKSDGVHTIETEDGDYMFCFDNTFSTISEKVIFFELILDNMGQGQEDWKK GSDSDFTFTLPAGRKECFYQPMPLKASLEIEYQVLDGGELDIDFHLTSPEGRTLVFEQRKSDGVHTIETEDGDYMFCFDNTFSTISEKVIFFELILDNMGQGQEDWKK 5gu6-a2-m1-cA_5gu6-a2-m2-cA Crystal structure of Human ERp44 form I Q9BS26 Q9BS26 2 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 377 377 5gu7-a2-m1-cC_5gu7-a2-m2-cC SHMASEITSLDTENIDEILNNADVALVNFYADWCRFSQMLHPIFEEASDVIKEEFPNENQVVFARVDCDQHSDIAQRYRISKYPTLKLFRNGMMMKREYRGQRSVKALADYIRQQKSDPIQEIRDLAEITTLDRSKRNIIGYFEQKDSDNYRVFERVANILHDDCAFLSAFGDVSKPERYSGDNIIYKPPGHSAPDMVYLGAMTNFDVTYNWIQDKCVPLVREITFENGEELTEEGLPFLILFHMKEDTESLEIFQNEVARQLISEKGTINFLHADCDKFRHPLLHIQKTPADCPVIAIDSFRHMYVFGDFKDVLIPGKLKQFVFDLHSGKLHREFHHGPDPTDTAPEQAQDVASSPPESSFQKLAPSEYRYTLLRD SHMASEITSLDTENIDEILNNADVALVNFYADWCRFSQMLHPIFEEASDVIKEEFPNENQVVFARVDCDQHSDIAQRYRISKYPTLKLFRNGMMMKREYRGQRSVKALADYIRQQKSDPIQEIRDLAEITTLDRSKRNIIGYFEQKDSDNYRVFERVANILHDDCAFLSAFGDVSKPERYSGDNIIYKPPGHSAPDMVYLGAMTNFDVTYNWIQDKCVPLVREITFENGEELTEEGLPFLILFHMKEDTESLEIFQNEVARQLISEKGTINFLHADCDKFRHPLLHIQKTPADCPVIAIDSFRHMYVFGDFKDVLIPGKLKQFVFDLHSGKLHREFHHGPDPTDTAPEQAQDVASSPPESSFQKLAPSEYRYTLLRD 5guf-a1-m1-cA_5guf-a1-m2-cA Structural insight into an intramembrane enzyme for archaeal membrane lipids biosynthesis Q9YF05 Q9YF05 2.397 X-RAY DIFFRACTION 43 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 158 158 AVDWRIDNILEAIILMLPAMIANATPVVAGGRRPVDMGVVLPDGRRLLGDGKTIEGLLAGFAAGSAAGVLAALASGNMLLAVHSPAIALGALAGDMAGSFVKRRLGIERGRPAPLLDQLDFYLGALAVSIALGYTWTPRVAVEAAAAVLLLHLAANIT AVDWRIDNILEAIILMLPAMIANATPVVAGGRRPVDMGVVLPDGRRLLGDGKTIEGLLAGFAAGSAAGVLAALASGNMLLAVHSPAIALGALAGDMAGSFVKRRLGIERGRPAPLLDQLDFYLGALAVSIALGYTWTPRVAVEAAAAVLLLHLAANIT 5gv2-a1-m1-cA_5gv2-a1-m1-cC Crystal structure of Arginine-bound CASTOR1 from Homo sapiens Q8WTX7 Q8WTX7 2.06 X-RAY DIFFRACTION 52 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 304 307 5gt8-a2-m2-cD_5gt8-a2-m1-cB GLVPRGSHMELHILEHRVRVLSVARPGLWLYTHPLIKLLFLPRRSRCKFFSLTETPEDYTLMVDEEGFKELPPSEFLQVAEATWLVLNVSSHSGAAVQAAGVTKIARSVIAPLAEHHVSVLMLSTYQTDFILVREQDLSVVIHTLAQEFDIYREVGGEPVPVTRDDTVHPIQSPQNRFCVLTLDPETLPAIATTLIDVLFYSHPSSITFFAFSLIEGYISIVMDAETQKKFPSDLLLTSGELWRMVRIGGQPLGFDECGIVAQIAGPLAAADISAYYISTFNFDHALVPEDGIGSVIEVLQRRQ SGLVPRGSHMELHILEHRVRVLSVARPGLWLYTHPLIKLLFLPRRSRCKFFSLTETPEDYTLMVDEEGFKELPPSEFLQVAEATWLVLNVSSHSGAAVQAAGVTKIARSVIAPLAEHHVSVLMLSTYQTDFILVREQDLSVVIHTLAQEFDIYREVGGEPVPVTRDDSPTVHPIQSPQNRFCVLTLDPETLPAIATTLIDVLFYSPSSITFFAFSLIEGYISIVMDAETQKKFPSDLLLTSGELWRMVRIGGQPLGFDECGIVAQIAGPLAAADISAYYISTFNFDHALVPEDGIGSVIEVLQRRQR 5gvh-a1-m1-cA_5gvh-a1-m2-cA Structure of FabK from Thermotoga maritima R4NR95 R4NR95 2.294 X-RAY DIFFRACTION 142 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 311 311 3bo9-a1-m1-cA_3bo9-a1-m1-cB 5gvj-a1-m1-cA_5gvj-a1-m2-cA 5gvj-a2-m1-cB_5gvj-a2-m3-cB TVRTRVTDLLEIEHPILMGGMAWAGTPTLAAAVSEAGGLGIIGSGAMKPDDLRKAISELRQKTDKPFGVNIILVSPWADDLVKVCIEEKVPVVTFGAGNPTKYIRELKENGTKVIPVVASDSLARMVERAGADAVIAEGMESGGHIGEVTTFVLVNKVSRSVNIPVIAAGGIADGRGMAAAFALGAEAVQMGTRFVASVESDVHPVYKEKIVKASIRDTVVTGAKLGHPARVLRTPFARKIQEMEFENPMQAEEMLVGSLRRAVVEGDLERGSFMVGQSAGLIDEIKPVKQIIEDILKEFKETVEKLRGYI TVRTRVTDLLEIEHPILMGGMAWAGTPTLAAAVSEAGGLGIIGSGAMKPDDLRKAISELRQKTDKPFGVNIILVSPWADDLVKVCIEEKVPVVTFGAGNPTKYIRELKENGTKVIPVVASDSLARMVERAGADAVIAEGMESGGHIGEVTTFVLVNKVSRSVNIPVIAAGGIADGRGMAAAFALGAEAVQMGTRFVASVESDVHPVYKEKIVKASIRDTVVTGAKLGHPARVLRTPFARKIQEMEFENPMQAEEMLVGSLRRAVVEGDLERGSFMVGQSAGLIDEIKPVKQIIEDILKEFKETVEKLRGYI 5gvt-a1-m1-cB_5gvt-a1-m1-cA Crystal structures of the serine protease domain of murine plasma kallikrein P26262 P26262 2.61 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 225 236 IVGGTNASLGEWPWQVSLQVKLVSQTHLCGGSIIGRQWVLTAAHCFDGIPYPDVWRIYGGILSLSEITKETPSSRIKELIIHQEYKVSEGNYDIALIKLQTPLNYTEFQKPISLPSNTIYTNCWVTGWGYTKEETQNILQKATIPLVPNEECQKVINKQMICAGYKEGGTDACKGDSGGPLVCKHSGRWQLVGITSWGEGCARKDQPGVYTKVSEYMDWILEKTQ IVGGTNASLGEWPWQVSLQVKLVSQTHLCGGSIIGRQWVLTAAHCFDGIPYPDVWRIYGGILSLSEITKETPSSRIKELIIHQEYKVSEGNYDIALIKLQTPLNYTEFQKPISLPSKADTNTIYTNCWVTGWGYTKEQGETQNILQKATIPLVPNEECQKKYRDYVINKQMICAGYKEGGTDACKGDSGGPLVCKHSGRWQLVGITSWGEGCARKDQPGVYTKVSEYMDWILEKTQ 5gvw-a2-m1-cB_5gvw-a2-m1-cA Crystal structure of the apo-form glycosyltransferase GlyE in Streptococcus pneumoniae TIGR4 2.4 X-RAY DIFFRACTION 99 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 389 390 5gvv-a1-m1-cF_5gvv-a1-m1-cA 5gvw-a1-m1-cD_5gvw-a1-m1-cC KRAVVFAGDYAYIRQIETAMKSLCRHNSHLKIYLLNQDIPQEWFSQIRIYLQEMGGDLIDCKLIGSQFMTFARYFIPDFVTEDKVLYLDSDLIVTGDLTDLFELDLGENYLAAARSCFGAGVGFNAGVLLINNKKWGSETIRQKLIDLTEKEHENVEEGDQSILNMLFKDQYSSLEDQYNFQIGYDYGAATFKHQFIFDIPLEPLPLILHYISQDKPWNQFSVGRLREVWWEYSLMDWSVILNEWFSKSVKYPSKSQIFKLQCVNLTNSWCVEKIDYLAEQLPEVHFHIVAYTNMANELLALTRFPNVTVYPNSLPMLLEQIVIASDLYLDLNHDRKLEDAYEFVLKYKKPMIAFDNTCSENLSEISYEGIYPSSIPKKMVAAIRSYMR TKRAVVFAGDYAYIRQIETAMKSLCRHNSHLKIYLLNQDIPQEWFSQIRIYLQEMGGDLIDCKLIGSQFMTFARYFIPDFVTEDKVLYLDSDLIVTGDLTDLFELDLGENYLAAARSCFGAGVGFNAGVLLINNKKWGSETIRQKLIDLTEKEHENVEEGDQSILNMLFKDQYSSLEDQYNFQIGYDYGAATFKHQFIFDIPLEPLPLILHYISQDKPWNQFSVGRLREVWWEYSLMDWSVILNEWFSKSVKYPSKSQIFKLQCVNLTNSWCVEKIDYLAEQLPEVHFHIVAYTNMANELLALTRFPNVTVYPNSLPMLLEQIVIASDLYLDLNHDRKLEDAYEFVLKYKKPMIAFDNTCSENLSEISYEGIYPSSIPKKMVAAIRSYMR 5gvy-a1-m1-cA_5gvy-a1-m1-cB Crystal structure of SALT protein from Oryza sativa A2WPN7 A2WPN7 1.662 X-RAY DIFFRACTION 63 1.0 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 145 145 MTLVKIGLWGGNGGSAQDISVPPKKLLGVTIYSSDAIRSIAFNYIGVDGQEYAIGPWGGGEGTSTEIKLGSSEHIKEISGTHGPVYDLADIVTYLKIVTSANNTYEAGVPNGKEFSIPLQDSGHVVGFFGRSGTLIDAIGIYVHP MTLVKIGLWGGNGGSAQDISVPPKKLLGVTIYSSDAIRSIAFNYIGVDGQEYAIGPWGGGEGTSTEIKLGSSEHIKEISGTHGPVYDLADIVTYLKIVTSANNTYEAGVPNGKEFSIPLQDSGHVVGFFGRSGTLIDAIGIYVHP 5gw1-a1-m1-cB_5gw1-a1-m1-cA Crystal structure of SNX16 PX-Coiled coil in space group P212121 P57768 P57768 3.35 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 170 172 5gw0-a1-m1-cF_5gw0-a1-m1-cA 5gw0-a2-m1-cB_5gw0-a2-m1-cD 5gw0-a3-m1-cE_5gw0-a3-m1-cC 5gw1-a2-m1-cD_5gw1-a2-m1-cC 5gw1-a3-m1-cF_5gw1-a3-m1-cE 5gw1-a4-m1-cG_5gw1-a4-m1-cH DRPSTPTILGYEVEERAKFTVYKILVKKTPEESWVVFRRYTDFSRLNDKLKEFPGFRLALPPKRWFKDNYNADFLEDRQLGLQAFLQNLVAHKDIANCLAVREFLCLDDPPGPFDSLEESRAFCETLEETNYRLQKELLEKQKEESLKKLLSEKQLHIDTLENRIRTLSL EDRPSTPTILGYEVEERAKFTVYKILVKKTPEESWVVFRRYTDFSRLNDKLKEFPGFRLALPPKRWFKDNYNADFLEDRQLGLQAFLQNLVAHKDIANCLAVREFLCLDDPPGPFDSLEESRAFCETLEETNYRLQKELLEKQKEESLKKLLSEKQLHIDTLENRIRTLSLE 5gw8-a1-m1-cA_5gw8-a1-m1-cB Crystal structure of a putative DAG-like lipase (MgMDL2) from Malassezia globosa A8PUY5 A8PUY5 2 X-RAY DIFFRACTION 71 1.0 425265 (Malassezia globosa CBS 7966) 425265 (Malassezia globosa CBS 7966) 284 286 LIEHHAASSTDQPVDVPYNLDMFSQAAVLAQETYCGEQAHDYGLKLGDATLLWTAGDGNVRQRVNLYQSDSLGIAVAIQGTNTSSLRSDLHDAQLRPVDPDSRYRRFLPQGTKVMNGFQKGYTDLVDDIFDHVKKFKQEKNESRVTVIGHSLGAAIGLLASLDINLRLEDGLFKSYLFGLPRVGNPIFANFVDRKIGDKLHWVVNGRDWVPTVPPRALGYQHPSNYVWIYPANSTNWKLYPGQENVHGMLTVAREFNFDDHEGIYFHTQIGASLGKCPAVLGGY GALIEHHAASSTDQPVDVPYNLDMFSQAAVLAQETYCGEQAHDYGLKLGDATLLWTAGDGNVRQRVNLYQSDSLGIAVAIQGTNTSSLRSDLHDAQLRPVDPDSRYRRFLPQGTKVMNGFQKGYTDLVDDIFDHVKKFKQEKNESRVTVIGHSLGAAIGLLASLDINLRLEDGLFKSYLFGLPRVGNPIFANFVDRKIGDKLHWVVNGRDWVPTVPPRALGYQHPSNYVWIYPANSTNWKLYPGQENVHGMLTVAREFNFDDHEGIYFHTQIGASLGKCPAVLGGY 5gw9-a6-m1-cB_5gw9-a6-m2-cD Crystal structure of C163, a backbone circularized G-CSF P09919 P09919 1.65 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 5gw9-a5-m1-cA_5gw9-a5-m1-cC SQSFLLKSLEQVRKIQGDGAALQEKLCATYKLCHPEELVLLGHSLGIPWAPLSSCPSQALQLAGCLSQLHSGLFLYQGLLQALEGISPELGPTLDTLQLDVADFATTIWQQMEELGMAPALQPTQGAMPAFASAFQRRAGGVLVASHLQSFLEVSYRVLRHLG SQSFLLKSLEQVRKIQGDGAALQEKLCATYKLCHPEELVLLGHSLGIPWAPLSSCPSQALQLAGCLSQLHSGLFLYQGLLQALEGISPELGPTLDTLQLDVADFATTIWQQMEELGMAPALQPTQGAMPAFASAFQRRAGGVLVASHLQSFLEVSYRVLRHLG 5gwa-a1-m1-cA_5gwa-a1-m2-cA Crystal structure of TLA-3 extended-spectrum beta-lactamase in a complex with avibactam A0A0B6VPP7 A0A0B6VPP7 1.59 X-RAY DIFFRACTION 77 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 275 275 5gs8-a1-m1-cA_5gs8-a1-m2-cA 5x5g-a1-m1-cA_5x5g-a1-m2-cA GTDSLKNSIEKYLKDKKAKVGVAVLGIEDNFKLNVNEKHHYPMQSTYKFHLALAVLDKLDKENISVDKKLFVKKSDLQPNTWSPLKDKYPNGNLELSFSEIIKSTVSHSDNNGCDILFRFVGGTNKVHNFISKLGVKNISIKATEEEMHKAWNVQYTNWTTPDATVQLLKKFYKNEILSKNSYDFLLNTMIETTTGPKRLKGLLPDGTVVAHKTGSSDTNNKGITAATNDIGIITLPNGKHFAIAVYVSDSSEKSDVNEKIIAEICKSVWDYLVK GTDSLKNSIEKYLKDKKAKVGVAVLGIEDNFKLNVNEKHHYPMQSTYKFHLALAVLDKLDKENISVDKKLFVKKSDLQPNTWSPLKDKYPNGNLELSFSEIIKSTVSHSDNNGCDILFRFVGGTNKVHNFISKLGVKNISIKATEEEMHKAWNVQYTNWTTPDATVQLLKKFYKNEILSKNSYDFLLNTMIETTTGPKRLKGLLPDGTVVAHKTGSSDTNNKGITAATNDIGIITLPNGKHFAIAVYVSDSSEKSDVNEKIIAEICKSVWDYLVK 5gwg-a1-m1-cA_5gwg-a1-m1-cB Solution structure of rattusin Q4JEI2 Q4JEI2 NOT SOLUTION NMR 58 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 31 31 LRVRRTLQCSCRRVCRNTCSCIRLSRSTYAS LRVRRTLQCSCRRVCRNTCSCIRLSRSTYAS 5gx8-a3-m1-cA_5gx8-a3-m1-cB Crystal structure of solute-binding protein related to glycosaminoglycans D1AWE0 D1AWE0 1.778 X-RAY DIFFRACTION 94 1.0 519441 (Streptobacillus moniliformis DSM 12112) 519441 (Streptobacillus moniliformis DSM 12112) 473 473 KETTIFAMHLGKALDPNLPVFVKAEKDTNIKLVNVASQNQTDQIQAYNLMLTEGKLPDIVSYELSADLENLGIEGGLIPLEDLINQHAPNLKKFFEENPRYKKDAVAVDGHIYMIPNYYDYFNIKVSQGYFIRQDWLEKLGLKEPRTVDELYTTLKAFREKDPNGNGKKDEVPFFVRANNVRKVLTSLVDLFKASPIWYEENGMVKYGPAQKEFKHAIKELSKWYKEGLIDEEIFTRGLESRDYLLSNNLGGATDDWIASTSSYNRNLADKIPGFNLKLVLPYELNGNAKTRHARTTYLGGWGISKDAKDPVSLIKYFDYWYSVEGRRLWNFGIEGSEYTLVDGKPVFTDKVLKNPDGKTPLAVLREVGAQYRLGAFQDAQYELGWASESAKAGYKYYMDNDVVLDELPILKYTKEKSKEFVSIDTAMRAVVEEKAQQWILGSGDIDKEWDAYIKRLENLGLSKAEQIQNEAF KETTIFAMHLGKALDPNLPVFVKAEKDTNIKLVNVASQNQTDQIQAYNLMLTEGKLPDIVSYELSADLENLGIEGGLIPLEDLINQHAPNLKKFFEENPRYKKDAVAVDGHIYMIPNYYDYFNIKVSQGYFIRQDWLEKLGLKEPRTVDELYTTLKAFREKDPNGNGKKDEVPFFVRANNVRKVLTSLVDLFKASPIWYEENGMVKYGPAQKEFKHAIKELSKWYKEGLIDEEIFTRGLESRDYLLSNNLGGATDDWIASTSSYNRNLADKIPGFNLKLVLPYELNGNAKTRHARTTYLGGWGISKDAKDPVSLIKYFDYWYSVEGRRLWNFGIEGSEYTLVDGKPVFTDKVLKNPDGKTPLAVLREVGAQYRLGAFQDAQYELGWASESAKAGYKYYMDNDVVLDELPILKYTKEKSKEFVSIDTAMRAVVEEKAQQWILGSGDIDKEWDAYIKRLENLGLSKAEQIQNEAF 5gxe-a1-m1-cA_5gxe-a1-m1-cB Crystal structure of Acryloyl-CoA reductase AcuI in complex with NADPH Q5LS56 Q5LS56 1.696 X-RAY DIFFRACTION 92 1.0 246200 (Ruegeria pomeroyi DSS-3) 246200 (Ruegeria pomeroyi DSS-3) 331 331 5gxf-a1-m1-cA_5gxf-a1-m1-cB MFNALVVDKDEESGKTQAAVKQLSLTDLPVGEVTVAVEYSTVNYKDGLCIGPGGGLVRKYPHVPGIDFAGTVENSSDERYKPGDKVVLTGWRVGEAHWGGYSQKANVRADWLVPLPEGLDTRQAMAVGTAGFTAMLAVMALEDHGLTPGHGPVLVTGAAGGVGSVATAILAHLGYEVAAVTGRPETADYLTSLGATQIVARDEINETVKRPLESEIWAGCVDAVGGAMLARVLGQMKYGASVAAVGLAGGAGLPATVIPFLLRGVNLLGIDSVMQPYANRLRAWERIARDLPMDKLEAMIRPATLSDLPGLGADILKGQVQGRVVVDVNAH MFNALVVDKDEESGKTQAAVKQLSLTDLPVGEVTVAVEYSTVNYKDGLCIGPGGGLVRKYPHVPGIDFAGTVENSSDERYKPGDKVVLTGWRVGEAHWGGYSQKANVRADWLVPLPEGLDTRQAMAVGTAGFTAMLAVMALEDHGLTPGHGPVLVTGAAGGVGSVATAILAHLGYEVAAVTGRPETADYLTSLGATQIVARDEINETVKRPLESEIWAGCVDAVGGAMLARVLGQMKYGASVAAVGLAGGAGLPATVIPFLLRGVNLLGIDSVMQPYANRLRAWERIARDLPMDKLEAMIRPATLSDLPGLGADILKGQVQGRVVVDVNAH 5gxg-a2-m1-cB_5gxg-a2-m2-cB High-resolution crystal structure of the electron transfer complex of cytochrome p450cam with putidaredoxin P00259 P00259 1.7 X-RAY DIFFRACTION 23 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 106 106 SKVVYVSHDGTRRELDVADGVSLMQAAVSNGIYDIVGDCGGSASCATCHVYVNEAFTDKVPAANEREIGMLECVTAELKPNSRLCCQIIMTPELDGIVVDVPDRQW SKVVYVSHDGTRRELDVADGVSLMQAAVSNGIYDIVGDCGGSASCATCHVYVNEAFTDKVPAANEREIGMLECVTAELKPNSRLCCQIIMTPELDGIVVDVPDRQW 5gxx-a1-m1-cB_5gxx-a1-m1-cA Crystal structure of endoglucanase CelQ from Clostridium thermocellum complexed with Tris Q9AJF8 Q9AJF8 1.5 X-RAY DIFFRACTION 49 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 599 600 5gxy-a1-m1-cA_5gxy-a1-m1-cB 5gxz-a1-m1-cA_5gxz-a1-m1-cB 5gy0-a1-m1-cA_5gy0-a1-m1-cB 5gy1-a1-m1-cA_5gy1-a1-m1-cB SYNYAEALQKAIYFYECQQAGPLPEWNRVEWRGDATMNDEVLGGWYDAGDHVKFNLPMAYSAAMLGWALYEYGDDIEASGQRLHLERNLAFALDYLVACDRGDSVVYQIGDGAADHKWWGSAEVIEKEMTRPYFVGKGSAVVGQMAAALAVGSIVLKNDTYLRYAKKYFELADATRSDSTYTAANGFYSSHSGFWDELLWASTWLYLATGDRNYLDKAESYTPKLNRQNQTTDIEYQWAHCWDDCHYGAMILLARATGKEEYHKFAQMHLDWWTPQGYNGKRVAYTPGGLAHLDTWGPLRYATTEAFLAFVYADSINDPALKQKYYNFAKSQIDYALGSNPDNRSYVVGFGNNPPQRPHHRTAHGTWLDKRDIPEKHRHVLYGALVGGPGRDDSYEDNIEDYVKNEVACDYNAGFVGALCRLTAEYGGTPLANFPPPEQRDDEFFVEAAINQASDHFTEIKALLNNRSSWPARLIKDLSYNYYMDLTEVFEAGYSVDDIKVTIGYCESGMDVEISPITHLYDNIYYIKISYIDGTNICPIGQEQYAAELQFRIAAPQGTKFWDPTNDFSYQGLTRELAKTKYMPVFDGATKIFGEVPGG SYNYAEALQKAIYFYECQQAGPLPEWNRVEWRGDATMNDEVLGGWYDAGDHVKFNLPMAYSAAMLGWALYEYGDDIEASGQRLHLERNLAFALDYLVACDRGDSVVYQIGDGAADHKWWGSAEVIEKEMTRPYFVGKGSAVVGQMAAALAVGSIVLKNDTYLRYAKKYFELADATRSDSTYTAANGFYSSHSGFWDELLWASTWLYLATGDRNYLDKAESYTPKLNRQNQTTDIEYQWAHCWDDCHYGAMILLARATGKEEYHKFAQMHLDWWTPQGYNGKRVAYTPGGLAHLDTWGPLRYATTEAFLAFVYADSINDPALKQKYYNFAKSQIDYALGSNPDNRSYVVGFGNNPPQRPHHRTAHGTWLDKRDIPEKHRHVLYGALVGGPGRDDSYEDNIEDYVKNEVACDYNAGFVGALCRLTAEYGGTPLANFPPPEQRDDEFFVEAAINQASDHFTEIKALLNNRSSWPARLIKDLSYNYYMDLTEVFEAGYSVDDIKVTIGYCESGMDVEISPITHLYDNIYYIKISYIDGTNICPIGQEQYAAELQFRIAAPQGTKFWDPTNDFSYQGLTRELAKTKYMPVFDGATKIFGEVPGGL 5gyk-a1-m1-cB_5gyk-a1-m1-cA Crystal Structure of Mdm12-deletion mutant Q92328 Q92328 3.596 X-RAY DIFFRACTION 101 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 223 227 5gyd-a1-m1-cB_5gyd-a1-m1-cA 5gyd-a2-m1-cD_5gyd-a2-m1-cC 5gyk-a2-m1-cC_5gyk-a2-m1-cD 5gyk-a3-m1-cF_5gyk-a3-m1-cE GMSFDINWSTLESDNRLNDLIRKHLNSYLQNTQLPSYVSNLRVLDFDLGKVGPAITLKEITDPLDEFYDSIRESPNDIQFLLEVEYKGDLLVTIGADLVLNYPVEKFMTLPVKLSISDIGLHSLCIVACLSKQLFLSFLCDVSDPALDDNQTVLDPKGPILAATKPLERISIVRSMKIETEIGEQYQGQGSVLRSVGELEQFLFTIFKDFLRKELAWPSWINL GMSFDINWSTLESDNRLNDLIRKHLNSYLQNTQLPSYVSNLRVLDFDLGKVGPAITLKEITDPLDEFYDSIREESPNDIQFLLEVEYKGDLLVTIGADLVLNYPVEKFMTLPVKLSISDIGLHSLCIVACLSKQLFLSFLCDVSDPALDDNQTVLDPKGPILAATKPLERISIVRSMKIETEIGEQYQGQGSVLRSVGELEQFLFTIFKDFLRKELAWPSWINLDFN 5gyl-a1-m1-cB_5gyl-a1-m1-cC Structure of Cicer arietinum 11S gloubulin 2.2 X-RAY DIFFRACTION 182 1.0 3827 (Cicer arietinum) 3827 (Cicer arietinum) 381 381 5gyl-a1-m1-cA_5gyl-a1-m1-cB 5gyl-a1-m1-cA_5gyl-a1-m1-cC NECQLEHLNALEPDNRIKSEGGLIETWNPSNKQFRCAGVALSRATLQPNSLRRPFYTNAPQEIFIQQGNGYFGMVFPGCVETFEEPRKFRDSHQKVNRFREGDIIAVPTGVVFWMFNDQDTPVIAVSLIDTSSFQNQLDQMPRRFYLAGNHEQEFLRGGNIFSGFKRDFLEDALNVNRRIVNKLQGRNEDEEKGAIVKVKGGLSIITPPICTARLHQNIGSSSSPDIYNPQAGRIKTVTSFDLPALRFLKLSAEFGSLHKNAMFVPHYNLNANSILYALKGRARLQIVNCKGNSVFDGELEAGRALIVPQNFAIAAKSLSDRFSYVAFKTNDRAAIGRLLGASSLINGMPEEVVAAAFNMERNEARQLKFNSPFSFLVPPR NECQLEHLNALEPDNRIKSEGGLIETWNPSNKQFRCAGVALSRATLQPNSLRRPFYTNAPQEIFIQQGNGYFGMVFPGCVETFEEPRKFRDSHQKVNRFREGDIIAVPTGVVFWMFNDQDTPVIAVSLIDTSSFQNQLDQMPRRFYLAGNHEQEFLRGGNIFSGFKRDFLEDALNVNRRIVNKLQGRNEDEEKGAIVKVKGGLSIITPPICTARLHQNIGSSSSPDIYNPQAGRIKTVTSFDLPALRFLKLSAEFGSLHKNAMFVPHYNLNANSILYALKGRARLQIVNCKGNSVFDGELEAGRALIVPQNFAIAAKSLSDRFSYVAFKTNDRAAIGRLLGASSLINGMPEEVVAAAFNMERNEARQLKFNSPFSFLVPPR 5gyr-a2-m1-cE_5gyr-a2-m1-cJ Tetrameric Allochromatium vinosum cytochrome c' P00154 P00154 1.6 X-RAY DIFFRACTION 204 1.0 572477 (Allochromatium vinosum DSM 180) 572477 (Allochromatium vinosum DSM 180) 131 131 5gyr-a1-m1-cA_5gyr-a1-m1-cN AGLSPEEQIETRQAGYEFMGWNMGKIKANLEGEYNAAQVEAAANVIAAIANSGMGALYGPGTDKNVGDVKTRVKPEFFQNMEDVGKIAREFVGAANTLAEVAATGEAEAVKTAFGDVGAACKSCHEKYRAK AGLSPEEQIETRQAGYEFMGWNMGKIKANLEGEYNAAQVEAAANVIAAIANSGMGALYGPGTDKNVGDVKTRVKPEFFQNMEDVGKIAREFVGAANTLAEVAATGEAEAVKTAFGDVGAACKSCHEKYRAK 5gyr-a2-m1-cI_5gyr-a2-m1-cJ Tetrameric Allochromatium vinosum cytochrome c' P00154 P00154 1.6 X-RAY DIFFRACTION 69 1.0 572477 (Allochromatium vinosum DSM 180) 572477 (Allochromatium vinosum DSM 180) 131 131 1bbh-a1-m1-cA_1bbh-a1-m1-cB 5gyr-a1-m1-cA_5gyr-a1-m1-cB 5gyr-a1-m1-cM_5gyr-a1-m1-cN 5gyr-a2-m1-cE_5gyr-a2-m1-cF AGLSPEEQIETRQAGYEFMGWNMGKIKANLEGEYNAAQVEAAANVIAAIANSGMGALYGPGTDKNVGDVKTRVKPEFFQNMEDVGKIAREFVGAANTLAEVAATGEAEAVKTAFGDVGAACKSCHEKYRAK AGLSPEEQIETRQAGYEFMGWNMGKIKANLEGEYNAAQVEAAANVIAAIANSGMGALYGPGTDKNVGDVKTRVKPEFFQNMEDVGKIAREFVGAANTLAEVAATGEAEAVKTAFGDVGAACKSCHEKYRAK 5gyy-a1-m1-cA_5gyy-a1-m1-cB Plant receptor complex Q7DN95 Q7DN95 2.351 X-RAY DIFFRACTION 55 1.0 3711 (Brassica rapa) 3711 (Brassica rapa) 400 405 AALSTLSSTESLTISSNRTLVSPGNIFELGFFRTNSRWYLGMWYKKLSGRTYVWVANRDNPLSNSIGTLKISNMNLVLLDHSNKSVWSTNLTRENVRSPVVAELLANGNFVVRDPSGFLWQSFDYPTDTLLPEMKLGYDLKTGLNRFLVSWRSSDDPSSGDFSYKLDIQRGLPEFYTFKDNTLVHRTGPWNGIRFSGIPEEQQLSYMVYNFTENSEEVAYTFLVTNNSIYSRLTINFSGFFERLTWTPSLVIWNPIWSSPASFQCDPYMICGPGSYCDVNTLPLCNCIQGFKPLNVQEWDMRDHTRGCIRRTRLSCRGDGFTRMKNMKLPETTMATVDRSIGVKECEKKCLSDCNCTAFANADIRDGGTGCVIWTGRLDDMRNYAVSGQDLYVRLAAADV AAAAALSTLSSTESLTISSNRTLVSPGNIFELGFFRTNSRWYLGMWYKKLSGRTYVWVANRDNPLSNSIGTLKISNMNLVLLDHSNKSVWSTNLTRENVRSPVVAELLANGNFVVRDPSGFLWQSFDYPTDTLLPEMKLGYDLKTGLNRFLVSWRSSDDPSSGDFSYKLDIQRGLPEFYTFKDNTLVHRTGPWNGIRFSGIPEEQQLSYMVYNFTENSEEVAYTFLVTNNSIYSRLTINFSGFFERLTWTPSLVIWNPIWSSPASFQCDPYMICGPGSYCDVNTLPLCNCIQGFKPLNVQEWDMRDHTRGCIRRTRLSCRGDGFTRMKNMKLPETTMATVDRSIGVKECEKKCLSDCNCTAFANADIRDGGTGCVIWTGRLDDMRNYAVSGQDLYVRLAAADVVE 5gzs-a1-m1-cA_5gzs-a1-m2-cA Structure of VC protein Q9KT38 Q9KT38 2.601 X-RAY DIFFRACTION 98 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 426 426 STTYKVATEADDVVTRVLFDSIAHHFNLEIEYVNYPSFNDILVAIETGNADFAANITYTDLRAQRFDFSRPTNIEYTYLYSYGGLRLPELRLVGIPKGTTYGTLLKEHYPYIQQVEYEGHLEALTLLESGRVDGVVDAINQLKPLLKGLDVQLLNDQLPIQPVSIVTPKGKHSALLGKIEKYAHSAHVQRLLRESIQKYQLDIRKQALRQSVVESGLNVQRVLRVKLENNPQYALRGISADVVFQACELLLKCELVSNGQETWESFDDLQDKSIDILAPITVSQQRKNLAYFSESYYHPQAILVKREHYKDDVYSNVSELVAERIGVIKDDFFEELLQQLPNKILFSYASQEEKVQALLNKEVDYIVLNRANFNLLLREPIVEDTIGSFYQYDIAIGFAKNPLGATLAPLFSRAIKLNTEQIIHTY STTYKVATEADDVVTRVLFDSIAHHFNLEIEYVNYPSFNDILVAIETGNADFAANITYTDLRAQRFDFSRPTNIEYTYLYSYGGLRLPELRLVGIPKGTTYGTLLKEHYPYIQQVEYEGHLEALTLLESGRVDGVVDAINQLKPLLKGLDVQLLNDQLPIQPVSIVTPKGKHSALLGKIEKYAHSAHVQRLLRESIQKYQLDIRKQALRQSVVESGLNVQRVLRVKLENNPQYALRGISADVVFQACELLLKCELVSNGQETWESFDDLQDKSIDILAPITVSQQRKNLAYFSESYYHPQAILVKREHYKDDVYSNVSELVAERIGVIKDDFFEELLQQLPNKILFSYASQEEKVQALLNKEVDYIVLNRANFNLLLREPIVEDTIGSFYQYDIAIGFAKNPLGATLAPLFSRAIKLNTEQIIHTY 5h07-a1-m1-cC_5h07-a1-m1-cD TNIP2-Ub complex, C2 form Q8NFZ5 Q8NFZ5 2.586 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 78 DCAEVKQELAASRTARDAALERVQMLEQQILAYKDDFMSERADRERAQSRIQELEEKVASLLHQVS SRLNRQLEEKINDCAEVKQELAASRTARDAALERVQMLEQQILAYKDDFMSERADRERAQSRIQELEEKVASLLHQVS 5h0i-a1-m1-cA_5h0i-a1-m1-cB Structure of OaAEP1 asparaginyl peptide ligase in its proenzyme form A0A0N9JZ32 A0A0N9JZ32 2.56 X-RAY DIFFRACTION 48 0.995 60225 (Oldenlandia affinis) 60225 (Oldenlandia affinis) 400 400 GTRWAVLIAGSKGYANYRHQAGVCHAYQILKRGGLKDENIVVFMYDDIAYNESNPRPGVIINSPHGSDVYAGVPKDYTGEEVNAKNFLAAILGNKSAITGGSGKVVDSGPNDHIFIYYTDHGAAGVIGMPSKPYLYADELNDALKKKHASGTYKSLVFYLEACESGSMFEGILPEDLNIYALTSTNTTESSWCYYCPAQENPPPPEYNVCLGDLFSVAWLEDSDVQNSWYETLNQQYHHVDKRISHASHATQYGNLKLGEEGLFVYMGSNPVVNQRDADLLHLWEKFRKAPEGSARKEEAQTQIFKAMSHRVHIDSSIKLIGKLLFGIEKCTEILNAVRPAGQPLVDDWACLRSLVGTFETHCGSLSEYGMRHTRTIANICNAGISEEQMAEAASQACAS VGTRWAVLIAGSKGYANYRHQAGVCHAYQILKRGGLKDENIVVFMYDDIAYNESNPRPGVIINSPHGSDVYAGVPKDYTGEEVNAKNFLAAILGNKSAITGGSGKVVDSGPNDHIFIYYTDHGAAGVIGMPSKPYLYADELNDALKKKHASGTYKSLVFYLEACESGSMFEGILPEDLNIYALTSTNTTESSWCYYCPAQENPPPPEYNVCLGDLFSVAWLEDSDVQNSWYETLNQQYHHVDKRISHASHATQYGNLKLGEEGLFVYMGSIVVNQRDADLLHLWEKFRKAPEGSARKEEAQTQIFKAMSHRVHIDSSIKLIGKLLFGIEKCTEILNAVRPAGQPLVDDWACLRSLVGTFETHCGSLSEYGMRHTRTIANICNAGISEEQMAEAASQACAS 5h10-a1-m1-cA_5h10-a1-m1-cC TRAF1-TANk complex Q13077 Q13077 3.205 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 195 5e1t-a1-m1-cB_5e1t-a1-m1-cA 5e1t-a1-m1-cC_5e1t-a1-m1-cA 5e1t-a1-m1-cC_5e1t-a1-m1-cB 5h10-a1-m1-cB_5h10-a1-m1-cA 5h10-a1-m1-cB_5h10-a1-m1-cC LDRERILSLEQRVVELQQTLAQKDQALGKLEQSLRLMEEASFDGTFLWKITNVTRRCHESACGRTVSLFSPAFYTAKYGYKLCLRLYLNGDGTGKRTHLSLFIVIMRGEYDALLPWPFRNKVTFMLLDQNNREHAIDAFRPDLSSASFQRPQSETNVASGCPLFFPLSKLQSPKHAYVKDDTMFLKCIVETS QSQLDRERILSLEQRVVELQQTLAQKDQALGKLEQSLRLMEEASFDGTFLWKITNVTRRCHESACGRTVSLFSPAFYTAKYGYKLCLRLYLNGDGTGKRTHLSLFIVIMRGEYDALLPWPFRNKVTFMLLDQNNREHAIDAFRPDLSSASFQRPQSETNVASGCPLFFPLSKLQSPKHAYVKDDTMFLKCIVETS 5h1a-a1-m1-cC_5h1a-a1-m1-cB Crystal structure of an IclR homolog from Microbacterium sp. strain HM58-2 2.1 X-RAY DIFFRACTION 23 1.0 51671 (Microbacterium sp.) 51671 (Microbacterium sp.) 241 243 DSMLARVVRVLETFNVDRTAQTASDIGRRAALPSSTAHRVVDEMVLVGILERGIDGKVRLGMRLWELALRGSMALRLRQVALPHMERVQQRVREHTQLAVLEHNEVLFLERLSHHEAVSNLARVAGRLPVHASSSGLMLLAHAGPEVREEVLSKPLPRVGPGTVTDPEALRRLLANAYRAGYVAAPGYIEAVATGIAVPIRSEGVVIAALSAVQPLQNAVEPTVEILREAAVGIETDLRAS DSMLARVVRVLETFNVDRTAQTASDIGRRAALPSSTAHRVVDEMVLVGILERGIDGKVRLGMRLWELALRGSMALRLRQVALPHMERVQQRVREHTQLAVLEHNEVLFLERLSHHEAVSNLARVAGRLPVHASSSGLMLLAHAGPEVREEVLSKPLPRVGPGTVTDPEALRRLLANAYRAGYVAAPGYIEAVATGIAVPIRSEGVVIAALSAVQPLQNAVEPTVEILREAAVGIETDLRASRW 5h1a-a3-m1-cD_5h1a-a3-m1-cC Crystal structure of an IclR homolog from Microbacterium sp. strain HM58-2 2.1 X-RAY DIFFRACTION 140 0.992 51671 (Microbacterium sp.) 51671 (Microbacterium sp.) 240 241 5h1a-a1-m1-cA_5h1a-a1-m1-cB 5h1a-a1-m1-cD_5h1a-a1-m1-cC 5h1a-a2-m1-cA_5h1a-a2-m1-cB SGDSMLARVVRVLETFNVDRTAQTASDIGRRAALPSSTAHRVVDEMVLVGILERGIDGKVRLGMRLWELALRGSMALRLRQVALPHMERVQQRVREHTQLAVLEHNEVLFLERLSHHEAVSNLARVAGRLPVHASSSGLMLLAHAGPEVREEVLSKPLPRVGPGTVTDPEALRRLLANAYRAGYVAAPGYIEAVATGIAVPIRSEGVVIAALSAVQPLQNAVEPTVEILREAAVGIETDL DSMLARVVRVLETFNVDRTAQTASDIGRRAALPSSTAHRVVDEMVLVGILERGIDGKVRLGMRLWELALRGSMALRLRQVALPHMERVQQRVREHTQLAVLEHNEVLFLERLSHHEAVSNLARVAGRLPVHASSSGLMLLAHAGPEVREEVLSKPLPRVGPGTVTDPEALRRLLANAYRAGYVAAPGYIEAVATGIAVPIRSEGVVIAALSAVQPLQNAVEPTVEILREAAVGIETDLRAS 5h1n-a1-m1-cA_5h1n-a1-m1-cB Crystal structure of SF173 from Shigella flexneri P0A8K7 P0A8K7 1.47 X-RAY DIFFRACTION 147 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 68 68 EKYCELIRKRYAEIASGDLGYVPDALGCVLKVLNEAADDALSEAVREKAAYAAANLLVSDYVNELEHH EKYCELIRKRYAEIASGDLGYVPDALGCVLKVLNEAADDALSEAVREKAAYAAANLLVSDYVNELEHH 5h1o-a1-m1-cB_5h1o-a1-m1-cA CRISPR-associated protein D2UG58 D2UG58 1.65 X-RAY DIFFRACTION 104 1.0 380358 (Xanthomonas albilineans GPE PC73) 380358 (Xanthomonas albilineans GPE PC73) 83 86 5h1p-a1-m1-cB_5h1p-a1-m1-cA MMVLVSYDVSTPGGDKRLRKVAKACRDLGQRVQFSVFEIEVDPAQWTALRQRLCDLIDPDIDSLRFYHLGAKWEARVEHVGAK MMVLVSYDVSTSSPGGDKRLRKVAKACRDLGQRVQFSVFEIEVDPAQWTALRQRLCDLIDPDIDSLRFYHLGAKWEARVEHVGAKP 5h20-a1-m1-cA_5h20-a1-m2-cA X-ray structure of PadR-like Transcription factor from bacteroid fragilis Q5LC36 Q5LC36 2.5 X-RAY DIFFRACTION 89 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 103 103 DNVKSQMRKGMLEYCIMLLLHKEPAYASDIIQKLKEARLIVVEGTLYPLLTRLKNDDLLSYEWVESTQGPPRKYYKLTGKGESFLGELEASWKELNETVNHIA DNVKSQMRKGMLEYCIMLLLHKEPAYASDIIQKLKEARLIVVEGTLYPLLTRLKNDDLLSYEWVESTQGPPRKYYKLTGKGESFLGELEASWKELNETVNHIA 5h2a-a3-m1-cB_5h2a-a3-m1-cA Crystal structure of Osh1 ANK domain from Kluyveromyces lactis Q6CUK7 Q6CUK7 1.9 X-RAY DIFFRACTION 55 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 257 271 GSAMGSTVSVSKPLLKLKLLDCLRQSNFQQLCHLIANEFQPFDEPTVRSVFELILHYAVQVSPASLIKDIVQNWTTKGSSNSQLFIDVNKQDQDGNTPLHLAAFQSRGDVVTVLMNHPDINDCILNDAHLQPIEMCKNLNIAQMMQVARANYVAEIAQEFRQAFNNRDIDHLNSILSNPRNQELLDINGMEPETGDTVLHEFVKKRDILLCRWILDHGGDPFKRDSRGKLPIDLLKKVKNAIDLELKKMLEKAAREQ GSAMGSTVSVSKPLLKLKLLDCLRQSNFQQLCHLIANEFQPFDEPTVRSVFELILHYAVQVSPASLIKDIVQNWTTKGSSNSQLFIDVNKQDQDGNTPLHLAAFQSRGDVVTVLMNHPDINDCILNDAHLQPIEMCKNLNIAQMMQVARANYVAEIAQEFRQAFNNRDIDHLNSILSNPRNQELLDINGMEPETGDTVLHEFVKKRDILLCRWILDHGGDPFKRDSRGKLPIDLLKKVSSKEQNDKKNAIDLELKKMLEKAAREQSVIDVT 5h2t-a2-m1-cB_5h2t-a2-m1-cG Structure of trehalose synthase D1ABU6 D1ABU6 2.796 X-RAY DIFFRACTION 25 1.0 471852 (Thermomonospora curvata DSM 43183) 471852 (Thermomonospora curvata DSM 43183) 544 544 5h2t-a1-m1-cA_5h2t-a1-m1-cC 5h2t-a1-m1-cH_5h2t-a1-m1-cE 5h2t-a2-m1-cD_5h2t-a2-m1-cF PRDPYWYKHAVFYEVLVRGFSDSNDDGTGDLRGLINRLDYLQWLGIDCIWLLPIYQSPLRDGGYDISDYTKILPEFGDLGDFVELVDEAHRRGIRVIADLVMNHTSDQHPWFQASRTDPDGPYGDFYMWSDTDDKYPDARIIFVDTEVSNWTYDPVRGQYYWHRFFSHQPDLNYDNPAVQEAMLEVLRFWLDLGIDGFRLDAVPYLYAREGTNCENLPETHAYLKRVRAEVDRLYPDRVLLAEANQWPADVVEYFGDPATGGDECHMAFHFPVMPRIFMAVRREQRYPISEIMAQTPKIPENCQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANIGIRRRLAPLLDNDRNQLELFTALLLSLPGSPVLYYGDEIGMGDNIWLGDRDSVRTPMQWTPDRNAGFSRCDPARLYLPVIMDPIYGYQAVNVEAQQRNPGSLLNWTRKMIEIRKRHPVFGLGSYVELPASNPSVLAFVREYGDDRVLCVNNLSRFPQPVELDLRRFEGCTPVECMGGVQFPAIGELPYLLTLPGHGFYWFVL PRDPYWYKHAVFYEVLVRGFSDSNDDGTGDLRGLINRLDYLQWLGIDCIWLLPIYQSPLRDGGYDISDYTKILPEFGDLGDFVELVDEAHRRGIRVIADLVMNHTSDQHPWFQASRTDPDGPYGDFYMWSDTDDKYPDARIIFVDTEVSNWTYDPVRGQYYWHRFFSHQPDLNYDNPAVQEAMLEVLRFWLDLGIDGFRLDAVPYLYAREGTNCENLPETHAYLKRVRAEVDRLYPDRVLLAEANQWPADVVEYFGDPATGGDECHMAFHFPVMPRIFMAVRREQRYPISEIMAQTPKIPENCQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANIGIRRRLAPLLDNDRNQLELFTALLLSLPGSPVLYYGDEIGMGDNIWLGDRDSVRTPMQWTPDRNAGFSRCDPARLYLPVIMDPIYGYQAVNVEAQQRNPGSLLNWTRKMIEIRKRHPVFGLGSYVELPASNPSVLAFVREYGDDRVLCVNNLSRFPQPVELDLRRFEGCTPVECMGGVQFPAIGELPYLLTLPGHGFYWFVL 5h2t-a2-m1-cF_5h2t-a2-m1-cG Structure of trehalose synthase D1ABU6 D1ABU6 2.796 X-RAY DIFFRACTION 72 1.0 471852 (Thermomonospora curvata DSM 43183) 471852 (Thermomonospora curvata DSM 43183) 544 544 5h2t-a1-m1-cC_5h2t-a1-m1-cE 5h2t-a1-m1-cH_5h2t-a1-m1-cA 5h2t-a2-m1-cB_5h2t-a2-m1-cD PRDPYWYKHAVFYEVLVRGFSDSNDDGTGDLRGLINRLDYLQWLGIDCIWLLPIYQSPLRDGGYDISDYTKILPEFGDLGDFVELVDEAHRRGIRVIADLVMNHTSDQHPWFQASRTDPDGPYGDFYMWSDTDDKYPDARIIFVDTEVSNWTYDPVRGQYYWHRFFSHQPDLNYDNPAVQEAMLEVLRFWLDLGIDGFRLDAVPYLYAREGTNCENLPETHAYLKRVRAEVDRLYPDRVLLAEANQWPADVVEYFGDPATGGDECHMAFHFPVMPRIFMAVRREQRYPISEIMAQTPKIPENCQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANIGIRRRLAPLLDNDRNQLELFTALLLSLPGSPVLYYGDEIGMGDNIWLGDRDSVRTPMQWTPDRNAGFSRCDPARLYLPVIMDPIYGYQAVNVEAQQRNPGSLLNWTRKMIEIRKRHPVFGLGSYVELPASNPSVLAFVREYGDDRVLCVNNLSRFPQPVELDLRRFEGCTPVECMGGVQFPAIGELPYLLTLPGHGFYWFVL PRDPYWYKHAVFYEVLVRGFSDSNDDGTGDLRGLINRLDYLQWLGIDCIWLLPIYQSPLRDGGYDISDYTKILPEFGDLGDFVELVDEAHRRGIRVIADLVMNHTSDQHPWFQASRTDPDGPYGDFYMWSDTDDKYPDARIIFVDTEVSNWTYDPVRGQYYWHRFFSHQPDLNYDNPAVQEAMLEVLRFWLDLGIDGFRLDAVPYLYAREGTNCENLPETHAYLKRVRAEVDRLYPDRVLLAEANQWPADVVEYFGDPATGGDECHMAFHFPVMPRIFMAVRREQRYPISEIMAQTPKIPENCQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANIGIRRRLAPLLDNDRNQLELFTALLLSLPGSPVLYYGDEIGMGDNIWLGDRDSVRTPMQWTPDRNAGFSRCDPARLYLPVIMDPIYGYQAVNVEAQQRNPGSLLNWTRKMIEIRKRHPVFGLGSYVELPASNPSVLAFVREYGDDRVLCVNNLSRFPQPVELDLRRFEGCTPVECMGGVQFPAIGELPYLLTLPGHGFYWFVL 5h2y-a1-m1-cB_5h2y-a1-m1-cA Crystal structure of reduced DapF from Corynebacterium glutamicum Q8NP73 Q8NP73 2 X-RAY DIFFRACTION 74 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 276 278 5h2g-a1-m1-cA_5h2g-a1-m1-cB 5m47-a1-m1-cA_5m47-a1-m2-cA NLTIPFAKGHATENDFIIIPDEDARLDLTPEMVVTLCDRRAGIGADGILRVVKAADVEGSTVDPSLWFMDYRNADGSLAEMCGNGVRLFAHWLYSRGLVDNTSFDIGTRAGVRHVDILQADQHSAQVRVDMGIPDVTGLSTCDINGQVFAGLGVDMGNPHLACVVPGLSASALADMELRAPTFDQEFFPHGVNVEIVTELEDDAVSMRVWERGVGETRSCGTGTVAAACAALADAGLGEGTVKVCVPGGEVEVQIFDDGSTLTGPSAIIALGEVQI MNLTIPFAKGHATENDFIIIPDEDARLDLTPEMVVTLCDRRAGIGADGILRVVKAADVEGSTVDPSLWFMDYRNADGSLAEMCGNGVRLFAHWLYSRGLVDNTSFDIGTRAGVRHVDILQADQHSAQVRVDMGIPDVTGLSTCDINGQVFAGLGVDMGNPHLACVVPGLSASALADMELRAPTFDQEFFPHGVNVEIVTELEDDAVSMRVWERGVGETRSCGTGTVAAACAALADAGLGEGTVKVCVPGGEVEVQIFDDGSTLTGPSAIIALGEVQIH 5h34-a1-m1-cA_5h34-a1-m1-cB Crystal structure of the C-terminal domain of methionyl-tRNA synthetase (MetRS-C) in Nanoarchaeum equitans Q74MZ1 Q74MZ1 1.748 X-RAY DIFFRACTION 146 1.0 228908 (Nanoarchaeum equitans Kin4-M) 228908 (Nanoarchaeum equitans Kin4-M) 111 112 EEEYGLVSYLDFAKLDMRVGKIIDVQDHPNADKLYIIKVSLGNKQKTLVGGLKQYYKKEELIGKYVVLINNLKPKQLRGITSEGMLLAADDGKEVALLMPDKPISLGSKVR AEEEYGLVSYLDFAKLDMRVGKIIDVQDHPNADKLYIIKVSLGNKQKTLVGGLKQYYKKEELIGKYVVLINNLKPKQLRGITSEGMLLAADDGKEVALLMPDKPISLGSKVR 5h36-a2-m2-cA_5h36-a2-m3-cA Crystal structures of the TRIC trimeric intracellular cation channel orthologue from Rhodobacter sphaeroides Q3HKN0 Q3HKN0 3.409 X-RAY DIFFRACTION 59 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 193 193 5h36-a1-m1-cE_5h36-a1-m2-cE 5h36-a1-m1-cE_5h36-a1-m3-cE 5h36-a1-m2-cE_5h36-a1-m3-cE 5h36-a2-m1-cA_5h36-a2-m2-cA 5h36-a2-m1-cA_5h36-a2-m3-cA TVTILLDWFGLCIFTVTGALVASRKEMDIAGFVLLGAVTGVGGGTIRDLVLGRTPVFWVEEPAYVLACLGVAVFTFFFAHIPQSRYRFLLWLDAVGLSLFAVTGAERALQTGAGPVIAIAMGVATATFGGILRDLLGGESPVILRREIYITAALLGAAAFVALDAFGAPRELALGAGFAAAFLSRAAGLVWGL TVTILLDWFGLCIFTVTGALVASRKEMDIAGFVLLGAVTGVGGGTIRDLVLGRTPVFWVEEPAYVLACLGVAVFTFFFAHIPQSRYRFLLWLDAVGLSLFAVTGAERALQTGAGPVIAIAMGVATATFGGILRDLLGGESPVILRREIYITAALLGAAAFVALDAFGAPRELALGAGFAAAFLSRAAGLVWGL 5h38-a1-m1-cA_5h38-a1-m1-cB Structural analysis of KSHV thymidylate synthase P90463 P90463 1.7 X-RAY DIFFRACTION 125 1.0 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 283 284 5h39-a1-m1-cB_5h39-a1-m1-cA 5h3a-a1-m1-cA_5h3a-a1-m1-cB PHEELQYLRQLREILCRGSDRLDRTGIGTLSLFGMQARYSLRDHFPLLTTKRVFWRGVVQELLWFLKGSTDSRELSRTGVKIWDKNGSREFLAGRGLAHRREGDLGPVYGFQWRHFGAAYVDADADYTGQGFDQLSYIVDLIKNNPHDRRIIMCAWNPADLSLMALPPCHLLCQFYVADGELSCQLYQRSGDMGLGVPFNIASYSLLTYMLAHVTGLRPGEFIHTLGDAHIYKTHIEPLRLQLTRTPRPFPRLEILRSVSSMEEFTPDDFRLVDYCPHPTIRM PHEELQYLRQLREILCRGSDRLDRTGIGTLSLFGMQARYSLRDHFPLLTTKRVFWRGVVQELLWFLKGSTDSRELSRTGVKIWDKNGSREFLAGRGLAHRREGDLGPVYGFQWRHFGAAYVDADADYTGQGFDQLSYIVDLIKNNPHDRRIIMCAWNPADLSLMALPPCHLLCQFYVADGELSCQLYQRSGDMGLGVPFNIASYSLLTYMLAHVTGLRPGEFIHTLGDAHIYKTHIEPLRLQLTRTPRPFPRLEILRSVSSMEEFTPDDFRLVDYCPHPTIRME 5h3c-a1-m1-cB_5h3c-a1-m1-cA Crystal structure of Arabidopsis SNC1 TIR domain O23530 O23530 2.596 X-RAY DIFFRACTION 19 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 141 154 RYDVFPSFRGEDVRDSFLSHLLKELRGKAITFIDDLSAIKESRIAIVIFSKNYASSTWCLNELVEIHKCYTNLNQVIPIFFHVDASEVKKQTGEFGKVFEETEKQSWKQALAAVAVAGYDLRKWPSEAAIEELAEDVLRKT GSRRYDVFPSFRGEDVRDSFLSHLLKELRGKAITFIDDLLSAIKESRIAIVIFSKNYASSTWCLNELVEIHKCYTNLNQVIPIFFHVDASEVKKQTGEFGKVFEETCKAKSEDEKQSWKQALAAVAVAGYDLRKWPSEAAIEELAEDVLRKTTP 5h3h-a1-m1-cA_5h3h-a1-m1-cB Esterase (EaEST) from Exiguobacterium antarcticum K0ACL0 K0ACL0 1.9 X-RAY DIFFRACTION 12 1.0 1087448 (Exiguobacterium antarcticum B7) 1087448 (Exiguobacterium antarcticum B7) 268 269 MGTFIQAVDGTKIYVEDIGSGQPVVMLHGWPANNNMFEYQKNRLLEEGYRYIGVDYRGYGKSDAPATGYDYTTMASDINEVIQQLKLTNVTLLGFSMGGGIALKYLLNHGESNVSKLILAGAAAPVFTQRDGYPYGMTKDEVDALIEDTKQDRPSMLKGFGEIFFAKEHPEPLQQWFHNLSVDASSHGTIQSAIALRDEDLRDGLPKITVDTLIMHGKKDQVCPFEFAEVMHENIAGSRLEVFEESGHGMFLDEREKFTETLVSYVKS MGTFIQAVDGTKIYVEDIGSGQPVVMLHGWPANNNMFEYQKNRLLEEGYRYIGVDYRGYGKSDAPATGYDYTTMASDINEVIQQLKLTNVTLLGFSMGGGIALKYLLNHGESNVSKLILAGAAAPVFTQRDGYPYGMTKDEVDALIEDTKQDRPSMLKGFGEIFFAKEHPEPLQQWFHNLSVDASSHGTIQSAIALRDEDLRDGLPKITVDTLIMHGKKDQVCPFEFAEVMHENIAGSRLEVFEESGHGMFLDEREKFTETLVSYVKSS 5h3r-a1-m1-cB_5h3r-a1-m1-cA Crystal Structure of mutant MarR C80S from E.coli complexed with operator DNA P27245 P27245 2.67 X-RAY DIFFRACTION 151 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 140 141 SDLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLCSIRCAACITPVELKKVLSVDLGALTRMLDRLVSKGWVERLPNPNDKRGVLVKLTTGGAAICEQCHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP TSDLFNEIIPLGRLIHMVNQKKDRLLNEYLSPLDITAAQFKVLCSIRCAACITPVELKKVLSVDLGALTRMLDRLVSKGWVERLPNPNDKRGVLVKLTTGGAAICEQCHQLVGQDLHQELTKNLTADEVATLEYLLKKVLP 5h3w-a1-m1-cA_5h3w-a1-m1-cB The structure of the C-terminal of the fibronectin/fibrinogen-binding protein from Streptococcus suis (FBPS) A4VWG9 A4VWG9 2.6 X-RAY DIFFRACTION 51 0.996 1307 (Streptococcus suis) 1307 (Streptococcus suis) 246 249 DRVAQQANELIKRVASELEKNRKKLIKQEQELADTETAELVRQKGELLSQNAQRYFKKYQKLKEAVKHLTNLIEETKSTIVYLESVDTMLGQASLAEIDEIREELIETGYLKRRHREKIHKRQKPERYLATDGKTIILVGKNNLQNDELTFKMAKKGELWFHAKDIPGSHVVITDNLDPSDEVKTDAAELAAYFSKARHSNLVQVDMIEAKKLHKPTGGKPGFVTYRGQKTLRVTPTEDKIKSMKI RDRVAQQANELIKRVASELEKNRKKLIKQEQELADTETAELVRQKGEILTTSQNAQRYFKKYQKLKEAVKHLTNLIEETKSTIVYLESVDTMLGQASLAEIDEIREELIETGYLKRRHREKIHKRQKPERYLATDGKTIILVGKNNLQNDELTFKMAKKGELWFHAKDIPGSHVVITDNLDPSDEVKTDAAELAAYFSKARHSNLVQVDMIEAKKLHKPTGGKPGFVTYRGQKTLRVTPTEDKIKSMKI 5h3z-a3-m1-cA_5h3z-a3-m1-cB Crystal Structure of 1,2-beta-oligoglucan phosphorylase from Lachnoclostridium phytofermentans A9KJS6 A9KJS6 2 X-RAY DIFFRACTION 40 1.0 357809 (Lachnoclostridium phytofermentans ISDg) 357809 (Lachnoclostridium phytofermentans ISDg) 1095 1095 GILKTLSAPIILENSNSTFTFLPGGDNFEWIHESIINAFQGNTLDGSTNNLYLRIYKDNSLAFYPLIGNSKSTIKSGTSTLIFEGTAEDISYTVTFRLTPYGIWFWDISLSGNCNKADIIYSQDIGVGTKGSVNSNELYLAQYLGHSIFQGDYGYVICSRQNAQGDLFPYLQQGSLGIRSIAYSTDGTQFFGLSYKKTNIPEALYGDLPSKNKQYELAHTALQTEAFSLSGTKQFSFYGICKTNHPEVIREIEYIQELEKAYAYHESGEILPVNVPTLQNIGAPYASSRWDAKQVEHYFPKRLLEEKEEEALLSFFTPEKSHVVLQDKELTTERPHGHILTNFDVTKVPQGVVSSTNYYGAFNCQFVVGNTTYNKLLSNHRGLLNIQKDSGQRIFIKIGDCYRQLTLPAAYENVAGSTWYYQLDEDVLIITSFAYNRPEIVLKVQSLGHKKYDFIVTHQLTVGPNEYENEIKLTREGNILQLSPTDPVVTNHFYPELSFRRIPEDCTLSDDSIFFHNNTTINPSLLSIEILQKSSFDIVQGFDTGNVIPFLDQYDYKEQLEAYRIYYDQLVCNFKLSAPDKIPLSAEKLNAIIHWYAHDALIHFASPHGLEQSGGAAWGTRDVCQGPIEFFLTTGHFDLVRHILITLYSHQIEGGFEWPQWFFDHYPIHQEDCHGDVVFWPLKAISDYIQATGDTSILNELVDYRTAKDALPTNQPETILIHIKRAVTTIKNRYLSGTALISYAGGDWDDTLQPANSELKENLVSAWTQALAEQTLELLCSAIKGIDHDFSKELSHANDIRTSFYQYLIKDGVIAGFLYRESEEHKYLHPDDTESSIHYRLLPLTRSIIAQLADFKLATRNLEIIDEHLACPDGVRLDHPASYSGGISKIFLRAEQAANVGREISLQYVHAHIRYIEALATGLSKKAWDALRINPILLTDYVPNALTRQSNVYFSSSEGCFDDRYEYAKNFDKLRTGDINVKGGWRLYSSGPGIYIRRIIADLLGIRFGHNVIHIDPVVTKELDGVTLQFTCFGKTVFFTYHVDDTDKHICVKSNNNILPGDNLNNIYRDGGIQIAKDVFLSAASDNNFHIYVKN GILKTLSAPIILENSNSTFTFLPGGDNFEWIHESIINAFQGNTLDGSTNNLYLRIYKDNSLAFYPLIGNSKSTIKSGTSTLIFEGTAEDISYTVTFRLTPYGIWFWDISLSGNCNKADIIYSQDIGVGTKGSVNSNELYLAQYLGHSIFQGDYGYVICSRQNAQGDLFPYLQQGSLGIRSIAYSTDGTQFFGLSYKKTNIPEALYGDLPSKNKQYELAHTALQTEAFSLSGTKQFSFYGICKTNHPEVIREIEYIQELEKAYAYHESGEILPVNVPTLQNIGAPYASSRWDAKQVEHYFPKRLLEEKEEEALLSFFTPEKSHVVLQDKELTTERPHGHILTNFDVTKVPQGVVSSTNYYGAFNCQFVVGNTTYNKLLSNHRGLLNIQKDSGQRIFIKIGDCYRQLTLPAAYENVAGSTWYYQLDEDVLIITSFAYNRPEIVLKVQSLGHKKYDFIVTHQLTVGPNEYENEIKLTREGNILQLSPTDPVVTNHFYPELSFRRIPEDCTLSDDSIFFHNNTTINPSLLSIEILQKSSFDIVQGFDTGNVIPFLDQYDYKEQLEAYRIYYDQLVCNFKLSAPDKIPLSAEKLNAIIHWYAHDALIHFASPHGLEQSGGAAWGTRDVCQGPIEFFLTTGHFDLVRHILITLYSHQIEGGFEWPQWFFDHYPIHQEDCHGDVVFWPLKAISDYIQATGDTSILNELVDYRTAKDALPTNQPETILIHIKRAVTTIKNRYLSGTALISYAGGDWDDTLQPANSELKENLVSAWTQALAEQTLELLCSAIKGIDHDFSKELSHANDIRTSFYQYLIKDGVIAGFLYRESEEHKYLHPDDTESSIHYRLLPLTRSIIAQLADFKLATRNLEIIDEHLACPDGVRLDHPASYSGGISKIFLRAEQAANVGREISLQYVHAHIRYIEALATGLSKKAWDALRINPILLTDYVPNALTRQSNVYFSSSEGCFDDRYEYAKNFDKLRTGDINVKGGWRLYSSGPGIYIRRIIADLLGIRFGHNVIHIDPVVTKELDGVTLQFTCFGKTVFFTYHVDDTDKHICVKSNNNILPGDNLNNIYRDGGIQIAKDVFLSAASDNNFHIYVKN 5h45-a1-m3-cA_5h45-a1-m3-cB Crystal structure of the C-terminal Lon protease-like domain of Thermus thermophilus RadA/Sms Q5SKV2 Q5SKV2 2.7 X-RAY DIFFRACTION 44 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 152 157 5h45-a1-m1-cA_5h45-a1-m1-cB 5h45-a1-m1-cA_5h45-a1-m2-cB 5h45-a1-m2-cA_5h45-a1-m2-cB 5h45-a1-m2-cA_5h45-a1-m3-cB 5h45-a1-m3-cA_5h45-a1-m1-cB GVPGSAVALALAGERALALEVQALAAKTPFPAPRRVVQGLDGRRVDVVLAVLERRLGLPLANLDVYVNLAGGLKVQDPGLDLAVALAVYSAVVGRPLPADLALVGEVGLAGEVRRVAGLERRLREGERAGFGRFLHPGNLKRLQEAVEAYLA KERPLGVPGSAVALALAGERALALEVQALAAKTPFPAPRRVVQGLDGRRVDVVLAVLERRLGLPLANLDVYVNLAGGLKVQDPGLDLAVALAVYSAVVGRPLPADLALVGEVGLAGEVRRVAGLERRLREGERAGFGRFLHPGNLKRLQEAVEAYLA 5h4b-a1-m2-cA_5h4b-a1-m3-cA Crystal structure of Cbln4 Q8BME9 Q8BME9 2.8 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 136 5h4b-a1-m1-cA_5h4b-a1-m2-cA 5h4b-a1-m1-cA_5h4b-a1-m3-cA 5h4c-a1-m1-cA_5h4c-a1-m1-cB 5h4c-a1-m1-cC_5h4c-a1-m1-cA 5h4c-a1-m1-cC_5h4c-a1-m1-cB AANSKVAFSAVRSTNHEPSEMSNKTRIIYFDQILVNVGNFFTLESVFVAPRKGIYSFSFHVIKVYQSQTIQVNLMLNGKPVISAFAGDKDVTREAATNGVLLYLDKEDKVYLKLEKGNLLGGWQYSTFSGFLVFPL AANSKVAFSAVRSTNHEPSEMSNKTRIIYFDQILVNVGNFFTLESVFVAPRKGIYSFSFHVIKVYQSQTIQVNLMLNGKPVISAFAGDKDVTREAATNGVLLYLDKEDKVYLKLEKGNLLGGWQYSTFSGFLVFPL 5h4h-a1-m1-cA_5h4h-a1-m1-cB Structure of PIN-domain protein (VapC4 toxin) from Pyrococcus horikoshii determined at 2.2 A resolution O58236 O58236 2.23 X-RAY DIFFRACTION 81 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 144 145 1v96-a1-m1-cB_1v96-a1-m1-cA 1ye5-a1-m1-cA_1ye5-a1-m1-cB 5h4g-a1-m1-cB_5h4g-a1-m1-cA PLPPDITFDSLALIKMHSQNMKRILEVTLAKFTVNLSIVTVYRYLTARAYLKKNIEAEFEILKDIYNIVPLLDDIAIKAAQIEANLIKKEITLDMEDIITATTAIYTNSLLVTDDPKRYEPIRRFGLDTMPLDKFIKEVELMVE PLPPDITFDSLALIKMHSQNMKRILEVTLAKFTVNLSIVTVYRYLTARAYLKKNIEAEFEILKDIYNIVPLLDDIAIKAAQIEANLIKKEITLDMEDIITATTAIYTNSLLVTDDPKRYEPIRRFGLDTMPLDKFIKEVELMVEK 5h4s-a1-m1-cA_5h4s-a1-m2-cA Crystal structure of a rhamnose-binding lectin SUL-I from the toxopneustid sea urchin Toxopneustes pileolus A0A090BWT0 A0A090BWT0 1.8 X-RAY DIFFRACTION 91 1.0 39971 (Toxopneustes pileolus) 39971 (Toxopneustes pileolus) 284 284 AVGRTCEGKSLDLECPEGYIISVNYANYGRNSPGICPHKSSNAPPCSASSSLRIINEHCDGRSSCSVHATNDVFGDPCRGVYKYLEVDYSCRRDPDCQRELDCEGNSINMLCPYAETPAIHICYAMYGRQTSEPVCPSKSISTTNCAASSSLSTARSVCEGRSECSIAASNDVFGDPCIGTYKYLEIDYICARRGRSCEGSSLTLSCSSGQTISVLDAFYGRTAGPEICKGNAQDQNCRAESSLNIVQSACNGRSSCSVNANNNVFGDPCVGTYKYLEVLYKCA AVGRTCEGKSLDLECPEGYIISVNYANYGRNSPGICPHKSSNAPPCSASSSLRIINEHCDGRSSCSVHATNDVFGDPCRGVYKYLEVDYSCRRDPDCQRELDCEGNSINMLCPYAETPAIHICYAMYGRQTSEPVCPSKSISTTNCAASSSLSTARSVCEGRSECSIAASNDVFGDPCIGTYKYLEIDYICARRGRSCEGSSLTLSCSSGQTISVLDAFYGRTAGPEICKGNAQDQNCRAESSLNIVQSACNGRSSCSVNANNNVFGDPCVGTYKYLEVLYKCA 5h5c-a2-m1-cA_5h5c-a2-m2-cA Mdm12 from K. lactis (1-239), uniformly Lys dimethyl modified, crystallized in FOS-MEA-10 Q6CUC3 Q6CUC3 3.31 X-RAY DIFFRACTION 64 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 194 194 HMSVEIDWDNIRGDLSVNQGVKDFLNSRLQEFELPSYVNNLKVTNFDLGTMPPNVILKQMDDPLDEFYSDVQLLVELDYKGDMSIELSADLLPVKLRISDIGMHCLCLLAYLKKQLFISFLCDVSDPLLENDKLQVDPSNFMGKRALERISLIRNIKIHTELLRSVGKLEEFLVDLFRNLIRKEAAWPSWIDLD HMSVEIDWDNIRGDLSVNQGVKDFLNSRLQEFELPSYVNNLKVTNFDLGTMPPNVILKQMDDPLDEFYSDVQLLVELDYKGDMSIELSADLLPVKLRISDIGMHCLCLLAYLKKQLFISFLCDVSDPLLENDKLQVDPSNFMGKRALERISLIRNIKIHTELLRSVGKLEEFLVDLFRNLIRKEAAWPSWIDLD 5h5l-a1-m1-cA_5h5l-a1-m1-cB Structure of prostaglandin synthase D of Nilaparvata lugens J9Q529 J9Q529 1.999 X-RAY DIFFRACTION 72 1.0 108931 (Nilaparvata lugens) 108931 (Nilaparvata lugens) 196 199 PTYKLTYFNFAGLGEPIRWMLSYLDVPFEDNRIEREQWPTIKSTTPYGQVPVLEVDGKQVCQSTAIARYLGKKAGLAGSNEWEDLMIDTMIDTFNDFRSSISKWFRDEATKKKLEETLLNETVPFYFNKFNDHIKNNGGYLANGKLSWGDIYFISILEFMTTIWSDIIDKYEHIKALNDKVVNLPKIKAWIEKRPV PTYKLTYFNFAGLGEPIRWMLSYLDVPFEDNRIEREQWPTIKSTTPYGQVPVLEVDGKQVCQSTAIARYLGKKAGLAGSNEWEDLMIDTMIDTFNDFRSSISKWFRESDEATKKKLEETLLNETVPFYFNKFNDHIKNNGGYLANGKLSWGDIYFISILEFMTTIWSDIIDKYEHIKALNDKVVNLPKIKAWIEKRPVP 5h5n-a1-m1-cA_5h5n-a1-m1-cB The crystal structure of the NS1 (H17N10) RNA-binding domain H6QM99 H6QM99 2 X-RAY DIFFRACTION 62 1.0 1129347 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/060/2010(H17N10))) 1129347 (Influenza A virus (A/little yellow-shouldered bat/Guatemala/060/2010(H17N10))) 71 71 5bxz-a1-m1-cA_5bxz-a1-m1-cB EPNPTTIAFQVDCYLWHLKKTLSMMGEVDAPFEDRLRREQKALKGRSMTLGIDIQSATQEGYYKIKSITEE EPNPTTIAFQVDCYLWHLKKTLSMMGEVDAPFEDRLRREQKALKGRSMTLGIDIQSATQEGYYKIKSITEE 5h5o-a1-m1-cB_5h5o-a1-m1-cA A cyclic-GMP-dependent signalling pathway regulates bacterial phytopathogenesis B0RM05 B0RM05 2.122 X-RAY DIFFRACTION 52 1.0 509169 (Xanthomonas campestris pv. campestris str. B100) 509169 (Xanthomonas campestris pv. campestris str. B100) 118 120 HALTAEELAFFARFGRREIAAGQALFERGAVGTQFIVVTGQIDLDFGEDLLKHLGPGEFFGELGLLIGDHARSAGASASVDSRLIELAHDDFQRLVDHDPSVAHFLRRSIVRVVNNEQ GLHALTAEELAFFARFGRREIAAGQALFERGAVGTQFIVVTGQIDLDFGEDLLKHLGPGEFFGELGLLIGDHARSAGASASVDSRLIELAHDDFQRLVDHDPSVAHFLRRSIVRVVNNEQ 5h5t-a1-m1-cD_5h5t-a1-m1-cE Crystal structure of the flagellar cap protein FliD D2-D3 domains from Salmonella Typhimurium P16328 P16328 2.5 X-RAY DIFFRACTION 54 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 193 196 5h5t-a1-m1-cA_5h5t-a1-m1-cE 5h5t-a1-m1-cB_5h5t-a1-m1-cA 5h5t-a1-m1-cB_5h5t-a1-m1-cC 5h5t-a1-m1-cD_5h5t-a1-m1-cC VASSTTEDLKVSTTAGAAAGTYKINVTQLAAAQSLATKTTFATTKEQLGDTSVTSRTIKIEQPGRKEPLEIKLDKGDTSMEAIRDAINDADSGIAASIVKVKENEFQLVLTANSGTDNTMKITVEGDTKLNDLLAYDSTTNTGNMQELVKAENAKLNVNGIDIERQSNTVTDAPQGITLTLTKKVTDATVTVT STVASSTTEDLKVSTTAGAAAGTYKINVTQLAAAQSLATKTTFATTKEQLGDTSVTSRTIKIEQPGRKEPLEIKLDKGDTSMEAIRDAINDADSGIAASIVKVKENEFQLVLTANSGTDNTMKITVEGDTKLNDLLAYDSTTNTGNMQELVKAENAKLNVNGIDIERQSNTVTDAPQGITLTLTKKVTDATVTVTK 5h5v-a1-m1-cE_5h5v-a1-m1-cF Crystal structure of the flagellar cap protein FliD D1-D2-D3 domains from Escherichia coli P24216 P24216 3 X-RAY DIFFRACTION 38 0.983 562 (Escherichia coli) 562 (Escherichia coli) 295 326 LTTFQTANTALSKADLFSATSTTSSTTAFSATTAGNAIAGKYTISVTHLAQAQTLTTRTTRDDTKTAIATSDSKLTIQQGGDKDPITIDISAANSSLSGIRDAINNAKAGVSASIINVGNGEYRLSVTSNDTGLDNATLSVSGDDALQSFGYDASASSNGEVSVAAQNAQLTVNNVAIENSSNTISDALENITLNLNDVTTGNQTLTITQDTSKAQTAIKDWVNAYNSLIDTFSSLDSTLRTIQTQLKSLSTAALKKDASGVGALIVGDGKKTGITTTIGSNLTSWLSTTGIIKA LKSALTTFQTANTALSKADLFSATSTTSSTTAFSATTAGNAIAGKYTISVTHLAQAQTLTTRTTRDDTKTAIATSDSKLTIQQGGDKDPITIDISAANSSLSGIRDAINNAKAGVSASIINVGNGEYRLSVTSNDTGLDNATLSVSGDDALQSFGYDASASSNGEVSVAAQNAQLTVNNVAIENSSNTISDALENITLNLNDVTTGNQTLTITQDTSKAQTAIKDWVNAYNSLIDTFSSLDSTLRTIQTQLKSLSNTVSSSSYKTLAQIGITTDPSDGKLELDADKLTAALKKDASGVGALIVGDGKKTGITTTIGSNLTSWLSTT 5h63-a6-m1-cC_5h63-a6-m1-cB Structure of Transferase mutant-C23S,C199S Q8ZNP4 Q8ZNP4 1.92 X-RAY DIFFRACTION 37 1.0 562 (Escherichia coli) 562 (Escherichia coli) 302 309 5h63-a5-m1-cD_5h63-a5-m1-cA GHVSFAGIDYPLLPLNHQTPLVFQWFERNPDRFGQNEIPIINTQKNPYLNNIINAAIIEKERIIGIFVDGDFSKGQRKALGKLEQNYRNIKVIYNSDLNYSMYDKKLTTIYLENITKLEAQSASERDEVLLNGVKKSLEDVLKNNPEETLISSHNKDKGHLWFDFYRNLFLLKGSDAFLEAGKPGCHHLQPGGGCIYLDADMLLTDKLGTLYLPDGIAIHVSRKDNHVSLENGIIAVNRSEHPALIKGLEIMHSKPYGDPYNDWLSKGLRHYFDGSHIQDYDAFCDFIEFKHENIIMNTSSL SGHVSFAGIDYPLLPLNHQTPLVFQWFERNPDRFGQNEIPIINTQKNPYLNNIINAAIIEKERIIGIFVDGDFSKGQRKALGKLEQNYRNIKVIYNSDLNYSMYDKKLTTIYLENITKLEAQSASERDEVLLNGVKKSLEDVLKNNPEETLISSHNKDKGHLWFDFYRNLFLLKGSDAFLEAGKPGCHHLQPGGGCIYLDADMLLTDKLGTLYLPDGIAIHVSRKDNHVSLENGIIAVNRSEHPALIKGLEIMHSKPYGDPYNDWLSKGLRHYFDGSHIQDYDAFCDFIEFKHENIIMNTSSLTASSWR 5h64-a1-m1-cA_5h64-a1-m1-ca Cryo-EM structure of mTORC1 P42345 P42345 4.4 ELECTRON MICROSCOPY 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2101 2101 VAALRACLILTTQREPKEMQKPQWYRHTFEEAEKGFDETLAKEKGMNRDDRIHGALLILNELVRISSMEGERLREEMEEITQQQLVHDKYCKDLMGFGTKPRHITPFTSFQAVQPQQSNALVGLLGYSSHQGLMGFGTSPSPAKSTLVESRCCRDLMEEKFDQVCQWVLKCRNSKNSLIQMTILNLLPRLAAFRPSAFTDTQYLQDTMNHVLSCVKVLYDLSRQIPQLKKDIQDGLLKMLSLVLMHKPLRHPGMPKGLAHQLASPGLTTLPEASDVGSITLALRTLGSFEFEGHSLTQFVRHCADHFLNSEHKEIRMEAARTCSRLLTPSIHLISGHAHVVSQTAVQVVADVLSKLLVVGITDPDPDIRYCVLASLDERFDAHLAQAENLQALFVALNDQVFEIRELAICTVGRLSSMNPAFVMPFLRKMLIQILTELEHSGIGRIKEQSARMLGHLVSNAPRLIRPYMEPILKALILKLKDPDPDPNPGVINNVLATIGELAQVSGLEMRKWVDELFIIIMDMLQDSSLLAKRQVALWTLGQLVASTGYVVEPYRKYPTLLEVLLNFLKTEQNQGTRREAIRVLGLLGALDPYKHKVNIGMIDQSRDASAVSLSESKSSQDSSMLVNMGNLPLDEFYPAVSMVALMRIFRDQSLSHHHTMVVQAITFIFKSLGLKCVQFLPQVMPTFLNVIRVCDGAIREFLFQQLGMLVSFVKSHIRPYMDEIVTLMREFWVMNTSIQSTIILLIEQIVVALGGEFKLYLPQLIPHMLRVFMHDNSPGRIVSIKLLAAIQLFGANLDDYLHLLLPPIVKLFDAPEAPLPSRKAALETVDRLTESLDFTDYASRIIHPIVRTLDQSPELRSTAMDTLSSLVFQLGKKYQIFIPMVNKVLVRHRINHQRYDVLICRIVKGYTLMKKLHVSTINLQKAWGAARRVSKDDWLEWLRRLSLELLKDSSSPSLRSCWALAQAYNPMARDLFNAAFVSCWSELNEDQQDELIRSIELALTSQDIAEVTQTLLNLAEFMEHSDKGPLPLRDDNGIVLLGERAAKCRAYAKALHYKELEFQKGPTPAILESLISINNKLQQPEAAAGVLEYAMKHFGELEIQATWYEKLHEWEDALVAYDKKMDTNKDDPELMLGRMRCLEALGEWGQLHQQCCEKWTLVNDETQAKMARMAAAAAWGLGQWDSMEEYTCMIPRDTHDGAFYRAVLALHQDLFSLAQQCIDKARDLLDAELTAMAGESYSRAYGAMVSCHMLSELEEVIQYKLVPERREIIRQIWWERLQGCQRIVEDWQKILMVRSLVVSPHEDMRTWLKYASLCGKSGRLALAHKTLVLLLGVDPSRQLDHPLPTVHPQVTYAYMKNMWKSARKIDAFQHMQHFVQTMQQQAQHAIATEDQQHKQELHKLMARCFLKLGEWQLNLQGINESTIPKVLQYYSAATEHDRSWYKAWHAWAVMNFEAVLHYKHQNQARDEKKKVTEDLSKTLLMYTVPAVQGFFRSISLSRGNNLQDTLRVLTLWFDYGHWPDVNEALVEGVKAIQIDTWLQVIPQLIARIDTPRPLVGRLIHQLLTDIGRYHPQALIYPLTVASKSTTTARHNAANKILKNMCEHSNTLVQQAMMVSEELIRVAILWHEMWHEGLEEASRLYFGERNVKGMFEVLEPLHAMMERGPQTLKETSFNQAYGRDLMEAQEWCRKYMKSGNVKDLTQAWDLYYHVFRRISKQLPQLTSLELQYVSPKLLMCRDLELAVPGTYDPNQPIIRIQSIAPSLQVITSKQRPRKLTLMGSNGHEFVFLLKGHEDLRQDERVMQLFGLVNTLLANDPTSLRKNLSIQRYAVIPLSTNSGLIGWVPHCDTLHALIRDYREKKKILLNIEHRIMLRMAPDYDHLTLMQKVEVFEHAVNNTAGDDLAKLLWLKSPSSEVWFDRRTNYTRSLAVMSMVGYILGLGDRHPSNLMLDRLSGKILHIDFGDCFEVAMTREKFPEKIPFRLTRMLTNAMEVTGLDGNYRITCHTVMEVLREHKDSVMAVLEAFVYDPLLNWRLMDTNTALNKKAIQIINRVRDKLTGRDFSHDDTLDVPTQVELLIKQATSHENLCQCYIGWCPFW VAALRACLILTTQREPKEMQKPQWYRHTFEEAEKGFDETLAKEKGMNRDDRIHGALLILNELVRISSMEGERLREEMEEITQQQLVHDKYCKDLMGFGTKPRHITPFTSFQAVQPQQSNALVGLLGYSSHQGLMGFGTSPSPAKSTLVESRCCRDLMEEKFDQVCQWVLKCRNSKNSLIQMTILNLLPRLAAFRPSAFTDTQYLQDTMNHVLSCVKVLYDLSRQIPQLKKDIQDGLLKMLSLVLMHKPLRHPGMPKGLAHQLASPGLTTLPEASDVGSITLALRTLGSFEFEGHSLTQFVRHCADHFLNSEHKEIRMEAARTCSRLLTPSIHLISGHAHVVSQTAVQVVADVLSKLLVVGITDPDPDIRYCVLASLDERFDAHLAQAENLQALFVALNDQVFEIRELAICTVGRLSSMNPAFVMPFLRKMLIQILTELEHSGIGRIKEQSARMLGHLVSNAPRLIRPYMEPILKALILKLKDPDPDPNPGVINNVLATIGELAQVSGLEMRKWVDELFIIIMDMLQDSSLLAKRQVALWTLGQLVASTGYVVEPYRKYPTLLEVLLNFLKTEQNQGTRREAIRVLGLLGALDPYKHKVNIGMIDQSRDASAVSLSESKSSQDSSMLVNMGNLPLDEFYPAVSMVALMRIFRDQSLSHHHTMVVQAITFIFKSLGLKCVQFLPQVMPTFLNVIRVCDGAIREFLFQQLGMLVSFVKSHIRPYMDEIVTLMREFWVMNTSIQSTIILLIEQIVVALGGEFKLYLPQLIPHMLRVFMHDNSPGRIVSIKLLAAIQLFGANLDDYLHLLLPPIVKLFDAPEAPLPSRKAALETVDRLTESLDFTDYASRIIHPIVRTLDQSPELRSTAMDTLSSLVFQLGKKYQIFIPMVNKVLVRHRINHQRYDVLICRIVKGYTLMKKLHVSTINLQKAWGAARRVSKDDWLEWLRRLSLELLKDSSSPSLRSCWALAQAYNPMARDLFNAAFVSCWSELNEDQQDELIRSIELALTSQDIAEVTQTLLNLAEFMEHSDKGPLPLRDDNGIVLLGERAAKCRAYAKALHYKELEFQKGPTPAILESLISINNKLQQPEAAAGVLEYAMKHFGELEIQATWYEKLHEWEDALVAYDKKMDTNKDDPELMLGRMRCLEALGEWGQLHQQCCEKWTLVNDETQAKMARMAAAAAWGLGQWDSMEEYTCMIPRDTHDGAFYRAVLALHQDLFSLAQQCIDKARDLLDAELTAMAGESYSRAYGAMVSCHMLSELEEVIQYKLVPERREIIRQIWWERLQGCQRIVEDWQKILMVRSLVVSPHEDMRTWLKYASLCGKSGRLALAHKTLVLLLGVDPSRQLDHPLPTVHPQVTYAYMKNMWKSARKIDAFQHMQHFVQTMQQQAQHAIATEDQQHKQELHKLMARCFLKLGEWQLNLQGINESTIPKVLQYYSAATEHDRSWYKAWHAWAVMNFEAVLHYKHQNQARDEKKKVTEDLSKTLLMYTVPAVQGFFRSISLSRGNNLQDTLRVLTLWFDYGHWPDVNEALVEGVKAIQIDTWLQVIPQLIARIDTPRPLVGRLIHQLLTDIGRYHPQALIYPLTVASKSTTTARHNAANKILKNMCEHSNTLVQQAMMVSEELIRVAILWHEMWHEGLEEASRLYFGERNVKGMFEVLEPLHAMMERGPQTLKETSFNQAYGRDLMEAQEWCRKYMKSGNVKDLTQAWDLYYHVFRRISKQLPQLTSLELQYVSPKLLMCRDLELAVPGTYDPNQPIIRIQSIAPSLQVITSKQRPRKLTLMGSNGHEFVFLLKGHEDLRQDERVMQLFGLVNTLLANDPTSLRKNLSIQRYAVIPLSTNSGLIGWVPHCDTLHALIRDYREKKKILLNIEHRIMLRMAPDYDHLTLMQKVEVFEHAVNNTAGDDLAKLLWLKSPSSEVWFDRRTNYTRSLAVMSMVGYILGLGDRHPSNLMLDRLSGKILHIDFGDCFEVAMTREKFPEKIPFRLTRMLTNAMEVTGLDGNYRITCHTVMEVLREHKDSVMAVLEAFVYDPLLNWRLMDTNTALNKKAIQIINRVRDKLTGRDFSHDDTLDVPTQVELLIKQATSHENLCQCYIGWCPFW 5h68-a1-m1-cA_5h68-a1-m1-cB Crystal structure of an engaged dimer of the Geobacillus stearothermophilus SMC head domain 1.975 X-RAY DIFFRACTION 136 0.997 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 325 332 MFLKRLDVIGFKSFADRVSIEFVPGVTAVVGPNGSGKSNITDAIRWVLGEQSAKSLRGAKMEDVIFAGSESRKPLNVAEVTITLDNEDGFLPLEYQEVSVTRRVYRSGESEFFINRQPCRLKDIVDLFLDSGLGKEAFSIIGQGRVEEILSSKPEERRTIFEEAAGVKKRFLTTFEQIRAHFGEVFGELFGGGRADLRLTDPNDLLETGIDIVAQPPGKKLQHLSLLSGGERALTAIALLFSILKVRPVPFCVLDQVEAALDEANVQRYAQYLKRFSRDTQFIVITHRKGTMEEADVLYGVTMQESGVSKLVSVRLEDSKELVRS MFLKRLDVIGFKSFADRVSIEFVPGVTAVVGPNGSGKSNITDAIRWVLGEQSAKSLRGAKMEDVIFAGSESRKPLNVAEVTITLDNEDGFLPLEYQEVSVTRRVYRSGESEFFINRQPCRLKDIVDLFLDSGLGKEAFSIIGQGRVEEILSSKPEERRTIFEEAAGVGGGSGEEMKKRFLTTFEQIRAHFGEVFGELFGGGRADLRLTDPNDLLETGIDIVAQPPGKKLQHLSLLSGGERALTAIALLFSILKVRPVPFCVLDQVEAALDEANVQRYAQYLKRFSRDTQFIVITHRKGTMEEADVLYGVTMQESGVSKLVSVRLEDSKELVR 5h69-a1-m1-cB_5h69-a1-m1-cA Crystal structure of an asymmetric dimer of the Geobacillus stearothermophilus SMC hinge domain 2.2004 X-RAY DIFFRACTION 99 1.0 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 245 252 HMAAQKTELEQHEALLHQARQYRQQTKARQQWLEEMQHDYSGFVQGVKEVLKARDLLPGIHGAIVELIRVPDRYETAIETALGGAMQHIVVDSEQAARQAIHYLKTNGYGRATFLPLDVIKARALSERERAAIDRHPAFVGIASELVEYDRAYRAAIAHLLGHVIVTADLKGANELAKLLHYRYRLVTLDGDVVSPGGAMTGGGAASLLSRNRELEMLSAKLQEMDETIARLERAVAAKRHELAE HMAAQKTELEQHEALLHQARQYRQQTKARQQWLEEMQHDYSGFVQGVKEVLKARDLLPGIHGAIVELIRVPDRYETAIETALGGAMQHIVVDSEQAARQAIHYLKTNGYGRATFLPLDVIKARALSERERAAIDRHPAFVGIASELVEYDRAYRAAIAHLLGHVIVTADLKGANELAKLLHYRYRLVTLDGDVVSPGGAMTGGGAAKKTASLLSRNRELEMLSAKLQEMDETIARLERAVAAKRHELAEQEA 5h6b-a2-m1-cA_5h6b-a2-m2-cA Crystal structure of a thermostable lipase from Marine Streptomyces H0B8D4 H0B8D4 2.3 X-RAY DIFFRACTION 60 1.0 1055352 (Streptomyces sp. W007) 1055352 (Streptomyces sp. W007) 252 252 TSRGWNDYSCKPSAAHPRPVVLVHGTFGNSIDNWLVLAPYLVNRGYCVFSLDYGQLPGVPFFHGLGPIDKSAEQLDVFVDKVLDATGAPKADLVGHSQGGMMPNYYLKFLGGADKVNALVGIAPDNHGTTLLGLTKLLPFFPGVEKFISDNTPGLADQVAGSPFITKLTAGGDTVPGVRYTVIATKYDQVVTPYRTQYLDGPNVRNVLLQDLCPVDLSEHVAIGTIDRIAFHEVANALDPARATPTTCASVI TSRGWNDYSCKPSAAHPRPVVLVHGTFGNSIDNWLVLAPYLVNRGYCVFSLDYGQLPGVPFFHGLGPIDKSAEQLDVFVDKVLDATGAPKADLVGHSQGGMMPNYYLKFLGGADKVNALVGIAPDNHGTTLLGLTKLLPFFPGVEKFISDNTPGLADQVAGSPFITKLTAGGDTVPGVRYTVIATKYDQVVTPYRTQYLDGPNVRNVLLQDLCPVDLSEHVAIGTIDRIAFHEVANALDPARATPTTCASVI 5h6t-a1-m1-cA_5h6t-a1-m1-cB Crystal structure of Hydrazidase from Microbacterium sp. strain HM58-2 1.6 X-RAY DIFFRACTION 111 1.0 1778770 (Microbacterium sp. HM58-2) 1778770 (Microbacterium sp. HM58-2) 456 479 5h6s-a1-m1-cA_5h6s-a1-m1-cC 5h6s-a2-m1-cB_5h6s-a2-m1-cD ETTRLTATEIRARISEGAASREEVVHEHLDRIDEFNALTNSFVELRADQVLEEARAADREFGSTLGGPLDGVPLSIKDSYSVAGLHRTDGLPVNADVLDAQDDVATARLRAAGGLVLGHAGIPDLCIRWNSVSGLYGAVRNPRDLSRTAGGSSGGDAANVAAGFATIGLGGDLGGSIRVPASWCGVYGFRTGPGRIPDVNPNGGRSRNVVMELMAQIGPIARSIDDIELAFRIMTGVDRRDTMSSPLGLIEPIEAPRVAVLRHETGAVLDSSVEEQLDATIEMLRAEGYVVEENVLPDLHRAPEVWAEIVGTELIHRVLPEVAELVIASERMHIVDMFGAYELGADVGAYLTALEERSSIQMTVAALMERYQLILAPVAGMPAPPLDFDDHIGREASIALFDQMRCVPWVNLLGLPSLALPNGIQLVGRKHDELTILAAGRAYERRAPRVEIATPA SSHHHHHHSSGLVPRGSHMASAQETTRLTATEIRARISEGAASREEVVHEHLDRIDEFNALTNSFVELRADQVLEEARAADREFGSTLGGPLDGVPLSIKDSYSVAGLHRTDGLPVNADVLDAQDDVATARLRAAGGLVLGHAGIPDLCIRWNSVSGLYGAVRNPRDLSRTAGGSSGGDAANVAAGFATIGLGGDLGGSIRVPASWCGVYGFRTGPGRIPDVNPNGGRSRNVVMELMAQIGPIARSIDDIELAFRIMTGVDRRDTMSSPLGLIEPIEAPRVAVLRHETGAVLDSSVEEQLDATIEMLRAEGYVVEENVLPDLHRAPEVWAEIVGTELIHRVLPEVAELVIASERMHIVDMFGAYELGADVGAYLTALEERSSIQMTVAALMERYQLILAPVAGMPAPPLDFDDHIGREASIALFDQMRCVPWVNLLGLPSLALPNGIQLVGRKHDELTILAAGRAYERRAPRVEIATPA 5h6w-a2-m1-cC_5h6w-a2-m1-cD Structure of acetyl-Coenzyme A synthase Alpha subunit C-terminal domain F598H mutant P27988 P27988 2.2 X-RAY DIFFRACTION 45 1.0 1525 (Moorella thermoacetica) 1525 (Moorella thermoacetica) 125 127 5h6w-a1-m1-cA_5h6w-a1-m1-cB HEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI HEAIMAILPECNGIMITTRDHAGMTPSGMTFSTLAGMIGTPGFMGIGRTYIVSKKFISADGGIARIVWMPKSLKDFLHDEFVRRSVEEGLGEDFIDKIADETIGTTVDEILPYLEEKGHPALTMDPI 5h72-a1-m1-cA_5h72-a1-m1-cB Structure of the periplasmic domain of FliP Q9WZG2 Q9WZG2 2.4 X-RAY DIFFRACTION 21 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 67 67 5h72-a1-m1-cC_5h72-a1-m1-cD 5h72-a2-m1-cE_5h72-a2-m1-cF 5h72-a2-m1-cG_5h72-a2-m1-cH TGYQEMFQRVNTRIREFMINELKNHHNEDNVFMLAKNSGIEIAKIEEAPNAVLIPAFVLGELEVAFK TGYQEMFQRVNTRIREFMINELKNHHNEDNVFMLAKNSGIEIAKIEEAPNAVLIPAFVLGELEVAFK 5h72-a2-m1-cF_5h72-a2-m1-cH Structure of the periplasmic domain of FliP Q9WZG2 Q9WZG2 2.4 X-RAY DIFFRACTION 26 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 67 67 5h72-a1-m1-cA_5h72-a1-m1-cC 5h72-a1-m1-cB_5h72-a1-m1-cD 5h72-a2-m1-cE_5h72-a2-m1-cG TGYQEMFQRVNTRIREFMINELKNHHNEDNVFMLAKNSGIEIAKIEEAPNAVLIPAFVLGELEVAFK TGYQEMFQRVNTRIREFMINELKNHHNEDNVFMLAKNSGIEIAKIEEAPNAVLIPAFVLGELEVAFK 5h7r-a1-m1-cD_5h7r-a1-m2-cD Structural basis of the flanking zinc-finger motifs crucial for the E3 ligase activity of the LNX1 RING domain Q8TBB1 Q8TBB1 1.7 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 5h7s-a1-m1-cB_5h7s-a1-m1-cD PLCAVCGQAHSLEENHFYSYPEEVDDDLICHICLQALLDPLDTPCGHTYCTLCLTNFLVEKDFCPMDRKPLVLQHCKKSSILVNKLLNKLLVTCPFREHCTQVLQRCDLEHHFQTSCKGASHYG PLCAVCGQAHSLEENHFYSYPEEVDDDLICHICLQALLDPLDTPCGHTYCTLCLTNFLVEKDFCPMDRKPLVLQHCKKSSILVNKLLNKLLVTCPFREHCTQVLQRCDLEHHFQTSCKGASHYG 5h7w-a1-m1-cA_5h7w-a1-m1-cB Crystal structure of 5'-nucleotidase from venom of Naja atra A0A2I4HXH5 A0A2I4HXH5 1.9 X-RAY DIFFRACTION 86 1.0 8656 (Naja atra) 8656 (Naja atra) 528 529 7d0v-a1-m1-cA_7d0v-a1-m1-cB GSFELTILHTNDVHARLEQTSRDSGKCTGEDCYGGVARRATKIRQIRASHRNVLLLDAGDQYQGTIWFNYYKGREVVHFMNSLRYDAMALGNHEFDNGLNGLLDPLLKNVKFPILSANIRPKGPIASNISGYILPYKIINVGSEKVGIIGYTTKETPVLSNPGPYLEFRDEVEELQKHADKLTTLGVNKIIALGHSGFMEDCRIAQKVKGVDVVVGGHTNTFLYTGSPPSNEVAAGNYPFMQLSDDGRQVPVVQAYAFGKYLGYLNVTFDDKGKVIKASGNPILLNKSIQEDPAVKAEISRMKVQLQNYSSQEIGRTIVYLNGTTHACRFHECNLGNLICDAVVYNNLRHPDDNEWNHVSMCIVNGGGIRSPIDEQANNGIITLEELTAVLPFGGTFDLLQIKGSTLRQAFEHSVHRHGQGTGELLQVSGIKVVYDLSQKPGKRVVSLNVLCTECRVPTYVPLEMEKTYKVLLPSFLAAGGDGYYMLKGDSSNHSSGDLDISIVGDYIKRMGKVFPAMEGRMVFSAGS GSFELTILHTNDVHARLEQTSRDSGKCTGEDCYGGVARRATKIRQIRASHRNVLLLDAGDQYQGTIWFNYYKGREVVHFMNSLRYDAMALGNHEFDNGLNGLLDPLLKNVKFPILSANIRPKGPIASNISGYILPYKIINVGSEKVGIIGYTTKETPVLSNPGPYLEFRDEVEELQKHADKLTTLGVNKIIALGHSGFMEDCRIAQKVKGVDVVVGGHTNTFLYTGSPPSNEVAAGNYPFMQLSDDGRQVPVVQAYAFGKYLGYLNVTFDDKGKVIKASGNPILLNKSIQEDPAVKAEISRMKVQLQNYSSQEIGRTIVYLNGTTHACRFHECNLGNLICDAVVYNNLRHPDDNEWNHVSMCIVNGGGIRSPIDEQANNGIITLEELTAVLPFGGTFDLLQIKGSTLRQAFEHSVHRHGQGTGELLQVSGIKVVYDLSQKPGKRVVSLNVLCTECRVPTYVPLEMEKTYKVLLPSFLAAGGDGYYMLKGDSSNHSSGDLDISIVGDYIKRMGKVFPAMEGRMVFSAGSL 5h80-a1-m1-cB_5h80-a1-m1-cA Biotin Carboxylase domain of single-chain bacterial carboxylase Q9RYK2 Q9RYK2 1.7 X-RAY DIFFRACTION 73 0.993 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 426 430 TPRVLIANRGEVAVRIERAVSALGWQSVAVYAPDDAGSLHVRRADEAVALSGRGAAAYLDGAALLRVAQEHAATHVHPGYGFLSENADFARACAQAGLVFVGPDPDTLDLFGDKSRARGLAQRLGVPVIPGTATTLEEAAAFMQAQGGAPVMLKAVVRQAGDLAAAFEQLYAERLIERARHIEVQVAGDGQSVTHLWERDCTVQRRHQKLLEFAPAPHLPQAVRTALIGAALQLAQEVKYRCLGTFEFLVTPGGDFYFIEANPRLQVEHTVTEEWCGTDLVTAQLRLAAGETLTAVGLATQPADAAPPPGQAVQARVNMEGQVQTFTPPGGPGVRVDTFVTTGLTPSPQYDALLAKVVVHRRDAALPGLLRQAATALSEFQIAGVSTNLAFLQALLHHPDVQHYELSTHWLDERLPELVTQAAEYD TPRVLIANRGEVAVRIERAVSALGWQSVAVYAPDDAGSLHVRRADEAVALSGRGAAAYLDGAALLRVAQEHAATHVHPGYGFLSENADFARACAQAGLVFVGPDPDTLDLFGDKSRARGLAQRLGVPVIPGTDGATTLEEAAAFMQAQGGAPVMLRVVRQAGDLAAAFEQAYAERLIERARHIEVQVAGDGQSVTHLWERDCTVQRRHQKLLEFAPAPHLPQAVRTALIGAALQLAQEVKYRCLGTFEFLVTPGGDFYFIEANPRLQVEHTVTEEWCGTDLVTAQLRLAAGETLTAVGLATQPADAAPPPGQAVQARVNMEVGGGQVQTFTPPGGPGVRVDTFVTTGLTPSPQYDALLAKVVVHRRDAALPGLLRQAATALSEFQIAGVSTNLAFLQALLHHPDVQHYELSTHWLDERLPELVTQAAEYD 5h82-a1-m1-cB_5h82-a1-m1-cA HETEROYOHIMBINE SYNTHASE THAS2 FROM CATHARANTHUS ROSEUS - APO FORM A0A1C7D193 A0A1C7D193 2.05 X-RAY DIFFRACTION 56 0.994 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 337 338 5h81-a1-m1-cA_5h81-a1-m1-cB PVEAYGWAAKDTSGLLSPFKFLRRTTGEHDVQFKVLYCGLCDWDVITTKNTYGTTKYPFVPGHEIMGIVTEIGNKVKKFKVGDKVGVGNFIGSCGKCERCNEGLEPYCPKVIYTDGTADRIYGGYSNIMVANEYVVFRWPENLPLAAGVPILCGGIVPYSPMRHFGLDKPGLSIGVVGFGRIGKLAVKFAKAFGANVTVISTSISKKQEAIEKYGVDRFLISKEPEEMKAAESTLDGIFDCVPHPLHPLLNLLKFEGTFVMLGPVSPLLMGRRKFVGSISGTMKETQEMLDFAAKHNIVSDIELIPMDYVNTALERIAKGNHKDAFVIDIENTLKSA AKPVEAYGWAAKDTSGLLSPFKFLRRTTGEHDVQFKVLYCGLCDWDVITTKNTYGTTKYPFVPGHEIMGIVTEIGNKVKKFKVGDKVGVGNFIGSCGKCERCNEGLEPYCPKVIYTDGTAFDRIYGGYSNIMVANEYVVFRWPENLPLAAGVPILCGGIVPYSPMRHFGLDKPGLSIGVVGFGRIGKLAVKFAKAFGANVTVISTSISKKQEAIEKYGVDRFLISKEPEEMKAAESTLDGIFDCVPHPLHPLLNLLKFEGTFVMLGVSPLLMGRRKFVGSISGTMKETQEMLDFAAKHNIVSDIELIPMDYVNTALERIAKGNHKDAFVIDIENTLKS 5h83-a1-m1-cB_5h83-a1-m1-cA HETEROYOHIMBINE SYNTHASE HYS FROM CATHARANTHUS ROSEUS - APO FORM A0A1C7D195 A0A1C7D195 2.25 X-RAY DIFFRACTION 97 0.994 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 350 354 YPVKTFGFAAKDSSGFFSPFNFSRRATGENDVQFKVLYCGTCNYDLEMSTNKFGMTKYPFVIGHEIVGVVTEIGSKVQKFKVGDKVGVGGFVGACEKCEMCVNGVENNCSKVESTDGHFGNNFGGCCNIMVVNEKYAVVWPENLPLHSGVPLLCAGITTYSPLRRYGLDKPGLNIGIAGLGGLGHLAIRFAKAFGAKVTLISSSVKKKREALEKFGVDSFLLNSNPEEMQGAYGTLDGIIDTMPVAHSIVPFLALLKPLGKLIILGVPEEPFEVPAPALLMGGKLIAGSAAGSMKETQEMIDFAAKHNIVADVEVIPIDYLNTAMERIKNSDVKYRFVIDVGNTLKSPSF KSPENVYPVKTFGFAAKDSSGFFSPFNFSRRATGENDVQFKVLYCGTCNYDLEMSTNKFGMTKYPFVIGHEIVGVVTEIGSKVQKFKVGDKVGVGGFVGACEKCEMCVNGVENNCSKVESTDGHFGNNFGGCCNIMVVNEKYAVVWPENLPLHSGVPLLCAGITTYSPLRRYGLDKPGLNIGIAGLGGLGHLAIRFAKAFGAKVTLISSSVKKKREALEKFGVDSFLLNSNPEEMQGAYGTLDGIIDTMPVAHSIVPFLALLKPLGKLIILGVPEEPFEVPAPALLMGGKLIAGSAAGSMKETQEMIDFAAKHNIVADVEVIPIDYLNTAMERIKNSDVKYRFVIDVGNTLKSP 5h8y-a2-m1-cC_5h8y-a2-m1-cB Crystal structure of the complex between maize sulfite reductase and ferredoxin in the form-2 crystal O23813 O23813 2.2 X-RAY DIFFRACTION 18 1.0 4577 (Zea mays) 4577 (Zea mays) 563 565 5h8y-a1-m1-cD_5h8y-a1-m1-cA RSKVEIIKEKSNFLRYPLNEELVSEAPNINESAVQLIKFHGSYQQTDRDVRGQKNYSFMLRTKNPCGKVPNQLYLAMDTLADEFGIGTLRLTTRQTFQLHGVLKKNLKTVLSTVIKNMGSTLGACGDLNRNVLAPAAPYVKKDILFAQQTAENIAALLTPQSGAYYDLWVEKIMSAEEPPEVTKARNDNSHGTNFPDSPEPIYGTQYLPRKFKVAVTAAGDNSVDILTNDIGVVVVSDDAGEPIGFNIYVGGGMGRTHRVETTFPRLADPLGYVPKEDILYAIKAIVVTQRENGRRDDRKYSRMKYMIDRWGIDRFRAEVEKYYGKKFESFRPLPEWQFNSYLGWQEQGDGKLFYGVHVDNGRVGGQAKKTLREIIEKYNLDVSITPNQNLILCGIDQAWREPITTALAQAGLLEPKDVDPLNLTAMACPALPLCPLAQTEAERGILPILKRIRAVFNKVGIKDSESVVVRITGCPNGCARPYMAELGFVGDGPKSYQIWLGGTPNQSTLAESFMDKVKLDDIEKVLEPLFTYWNGTRQEGESFGSFTNRTGFDKLKEVVNKW KRSKVEIIKEKSNFLRYPLNEELVSEAPNINESAVQLIKFHGSYQQTDRDVRGQKNYSFMLRTKNPCGKVPNQLYLAMDTLADEFGIGTLRLTTRQTFQLHGVLKKNLKTVLSTVIKNMGSTLGACGDLNRNVLAPAAPYVKKDILFAQQTAENIAALLTPQSGAYYDLWVDEKIMSAEEPPEVTKARNDNSHGTNFPDSPEPIYGTQYLPRKFKVAVTAAGDNSVDILTNDIGVVVVSDDAGEPIGFNIYVGGGMGRTHRVETTFPRLADPLGYVPKEDILYAIKAIVVTQRENGRRDDRKYSRMKYMIDRWGIDRFRAEVEKYYGKKFESFRPLPEWQFNSYLGWQEQGDGKLFYGVHVDNGRVGGQAKKTLREIIEKYNLDVSITPNQNLILCGIDQAWREPITTALAQAGLLEPKDVDPLNLTAMACPALPLCPLAQTEAERGILPILKRIRAVFNKVGIKDSESVVVRITGCPNGCARPYMAELGFVGDGPKSYQIWLGGTPNQSTLAESFMDKVKLDDIEKVLEPLFTYWNGTRQEGESFGSFTNRTGFDKLKEVVNKW 5h91-a1-m1-cA_5h91-a1-m1-cB LbDERA mutant-T29L/F163Y Q03Q50 Q03Q50 1.77 X-RAY DIFFRACTION 125 1.0 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 217 217 4xbk-a1-m1-cA_4xbk-a1-m1-cB 4xbs-a1-m1-cA_4xbs-a1-m1-cB LTTEQLAKYIDHTNLKADATEADIKQLCDEAKKFNTASVCVNSYWIPFVTEQLKGTDVNPIAVVGFPLGAMATESEIFEATTAIDQGAEEIDMVLNVGELKGGNDEKVLADIQGLADAVHAKGKILKVILENALLTKDEIVRACQLSEKAGADFVKTSTGYSTSGAKVEDVKLMRETVGDRLGVKASGGIHSREEALAMIDAGASRMGVSATVAILT LTTEQLAKYIDHTNLKADATEADIKQLCDEAKKFNTASVCVNSYWIPFVTEQLKGTDVNPIAVVGFPLGAMATESEIFEATTAIDQGAEEIDMVLNVGELKGGNDEKVLADIQGLADAVHAKGKILKVILENALLTKDEIVRACQLSEKAGADFVKTSTGYSTSGAKVEDVKLMRETVGDRLGVKASGGIHSREEALAMIDAGASRMGVSATVAILT 5h9c-a1-m2-cA_5h9c-a1-m3-cA Crystal structure of the ASLV fusion protein core P03397 P03397 1.783 X-RAY DIFFRACTION 76 1.0 269446 (Rous sarcoma virus (strain Schmidt-Ruppin A)) 269446 (Rous sarcoma virus (strain Schmidt-Ruppin A)) 78 78 4jpr-a1-m1-cA_4jpr-a1-m2-cA 4jpr-a1-m1-cA_4jpr-a1-m3-cA 4jpr-a1-m2-cA_4jpr-a1-m3-cA 5h9c-a1-m1-cA_5h9c-a1-m2-cA 5h9c-a1-m1-cA_5h9c-a1-m3-cA NLYFQGTANLTTSLLGDLLDDVTSIRHAVLQNRAAIDFLLLAHGHGCEDVAGMCSFNLSDQSESIQKKFQLMKEHVNK NLYFQGTANLTTSLLGDLLDDVTSIRHAVLQNRAAIDFLLLAHGHGCEDVAGMCSFNLSDQSESIQKKFQLMKEHVNK 5h9f-a1-m1-cD_5h9f-a1-m1-cE Crystal structure of E. coli Cascade bound to a PAM-containing dsDNA target at 2.45 angstrom resolution. Q46899 Q46899 2.45 X-RAY DIFFRACTION 145 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 318 354 5h9e-a1-m1-cD_5h9e-a1-m1-cE SNFINIHVLISHSPSCLNRDDMNMQKDAIFGGKRRVRISSQSLKRAMRKSGYYAQNIGESSLRTIHLAQLRDVLRQKLGERFDQKIIDKTLALLSGKSVDEAEKISADAVTPWVVGEIAWFCEQVAKAEADNLDDKKLLKVLKEDIAAIRVNLQQGVDIALSGRMATSGMMTELGKVDGAMSIAHAITTHQVDQEFSSGVFYRYANINLAQLQENLGGASREQALEIATHVVHMLATEVPGDMVMVNFSDMPLSMANAFEKAVKAKDGFLQPSIQAFNQYWDRVANGYGLNGAAAQFSLSVKQMPTLEQLKSWVRNNG SNFINIHVLISHSPSCLNRDDMNMQKDAIFGGKRRVRISSQSLKRAMRKSGYYAQNIGESSLRTIHLAQLRDVLRQKLGERFDQKIIDKTLALLSGKSVDEAEKISADAVTPWVVGEIAWFCEQVAKAEADNLDDKKLLKVLKEDIAAIRVNLQQGVDIALSGRMATSGMMTELGKVDGAMSIAHAITTHQVDSDIDWFTAVDDLQEQGSAHLGTQEFSSGVFYRYANINLAQLQENLGGASREQALEIATHVVHMLATEVPGAKQRTYAAFNPADMVMVNFSDMPLSMANAFEKAVKAKDGFLQPSIQAFNQYWDRVANGYGLNGAAAQFSLTAQVKQMPTLEQLKSWVRNNG 5h9m-a1-m1-cB_5h9m-a1-m1-cA Crystal structure of siah2 SBD domain O43255 O43255 1.761 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 190 AVLFPCKYATTGCSLTLHHTEKPEHEDICEYRPYSCPCPGASCKWQGSLEAVMSHLMHAHKSITTLQGEDIVFLATDINLPGAVDWVMMQSCFGHHFMLVLEKQEKYEGHQQFFAIVLLIGTRKQAENFAYRLELNGNRRRLTWEATPRSIHDGVAAAIMNSDCLVFDTAIAHLFADNGNLGINVTIST SAVLFPCKYATTGCSLTLHHTEKPEHEDICEYRPYSCPCPGASCKWQGSLEAVMSHLMHAHKSITTLQGEDIVFLATDINLPGAVDWVMMQSCFGHHFMLVLEKQEKYEGHQQFFAIVLLIGTRKQAENFAYRLELNGNRRRLTWEATPRSIHDGVAAAIMNSDCLVFDTAIAHLFADNGNLGINVTIST 5h9u-a1-m1-cA_5h9u-a1-m1-cD Crystal structure of a thermostable methionine adenosyltransferase Q72I53 Q72I53 2.667 X-RAY DIFFRACTION 25 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 394 394 5h9u-a1-m1-cB_5h9u-a1-m1-cC MRALRLVTSESVTEGHPDKLADRISDAILDALIAQDKKARVAAETLVTTGLVFVAGEITTEGYVDIPNLVRKTVREVGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVNLSYEWRVLKSTDPLDRVGAGDQGLMFGYATDETPELMPLPITLAHRLTMRLAEVRKTGLLPYLRPDGKAQVTVVYEGDKPLYVKTVVVSAQHSPEVEQEQLREDLIREVVRQAIPPEYLKDGETEYLINPSGRFILGGPHADTGLTGRKIIVDTYGGAVPHGGGAFSGKDPTKVDRSASYYARYMAKNIVAAGLARRALVELAYAIGKARPVSLRVETFGTGVLPDEKLTEIAKKVFDPRPLAIIEELDLLRPIYTPTSAYGHFGRPGFPWEETDRVEALRREAG MRALRLVTSESVTEGHPDKLADRISDAILDALIAQDKKARVAAETLVTTGLVFVAGEITTEGYVDIPNLVRKTVREVGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVNLSYEWRVLKSTDPLDRVGAGDQGLMFGYATDETPELMPLPITLAHRLTMRLAEVRKTGLLPYLRPDGKAQVTVVYEGDKPLYVKTVVVSAQHSPEVEQEQLREDLIREVVRQAIPPEYLKDGETEYLINPSGRFILGGPHADTGLTGRKIIVDTYGGAVPHGGGAFSGKDPTKVDRSASYYARYMAKNIVAAGLARRALVELAYAIGKARPVSLRVETFGTGVLPDEKLTEIAKKVFDPRPLAIIEELDLLRPIYTPTSAYGHFGRPGFPWEETDRVEALRREAG 5h9u-a1-m1-cB_5h9u-a1-m1-cD Crystal structure of a thermostable methionine adenosyltransferase Q72I53 Q72I53 2.667 X-RAY DIFFRACTION 203 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 394 394 5h9u-a1-m1-cA_5h9u-a1-m1-cC MRALRLVTSESVTEGHPDKLADRISDAILDALIAQDKKARVAAETLVTTGLVFVAGEITTEGYVDIPNLVRKTVREVGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVNLSYEWRVLKSTDPLDRVGAGDQGLMFGYATDETPELMPLPITLAHRLTMRLAEVRKTGLLPYLRPDGKAQVTVVYEGDKPLYVKTVVVSAQHSPEVEQEQLREDLIREVVRQAIPPEYLKDGETEYLINPSGRFILGGPHADTGLTGRKIIVDTYGGAVPHGGGAFSGKDPTKVDRSASYYARYMAKNIVAAGLARRALVELAYAIGKARPVSLRVETFGTGVLPDEKLTEIAKKVFDPRPLAIIEELDLLRPIYTPTSAYGHFGRPGFPWEETDRVEALRREAG MRALRLVTSESVTEGHPDKLADRISDAILDALIAQDKKARVAAETLVTTGLVFVAGEITTEGYVDIPNLVRKTVREVGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVNLSYEWRVLKSTDPLDRVGAGDQGLMFGYATDETPELMPLPITLAHRLTMRLAEVRKTGLLPYLRPDGKAQVTVVYEGDKPLYVKTVVVSAQHSPEVEQEQLREDLIREVVRQAIPPEYLKDGETEYLINPSGRFILGGPHADTGLTGRKIIVDTYGGAVPHGGGAFSGKDPTKVDRSASYYARYMAKNIVAAGLARRALVELAYAIGKARPVSLRVETFGTGVLPDEKLTEIAKKVFDPRPLAIIEELDLLRPIYTPTSAYGHFGRPGFPWEETDRVEALRREAG 5h9u-a1-m1-cC_5h9u-a1-m1-cD Crystal structure of a thermostable methionine adenosyltransferase Q72I53 Q72I53 2.667 X-RAY DIFFRACTION 46 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 394 394 5h9u-a1-m1-cA_5h9u-a1-m1-cB MRALRLVTSESVTEGHPDKLADRISDAILDALIAQDKKARVAAETLVTTGLVFVAGEITTEGYVDIPNLVRKTVREVGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVNLSYEWRVLKSTDPLDRVGAGDQGLMFGYATDETPELMPLPITLAHRLTMRLAEVRKTGLLPYLRPDGKAQVTVVYEGDKPLYVKTVVVSAQHSPEVEQEQLREDLIREVVRQAIPPEYLKDGETEYLINPSGRFILGGPHADTGLTGRKIIVDTYGGAVPHGGGAFSGKDPTKVDRSASYYARYMAKNIVAAGLARRALVELAYAIGKARPVSLRVETFGTGVLPDEKLTEIAKKVFDPRPLAIIEELDLLRPIYTPTSAYGHFGRPGFPWEETDRVEALRREAG MRALRLVTSESVTEGHPDKLADRISDAILDALIAQDKKARVAAETLVTTGLVFVAGEITTEGYVDIPNLVRKTVREVGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVNLSYEWRVLKSTDPLDRVGAGDQGLMFGYATDETPELMPLPITLAHRLTMRLAEVRKTGLLPYLRPDGKAQVTVVYEGDKPLYVKTVVVSAQHSPEVEQEQLREDLIREVVRQAIPPEYLKDGETEYLINPSGRFILGGPHADTGLTGRKIIVDTYGGAVPHGGGAFSGKDPTKVDRSASYYARYMAKNIVAAGLARRALVELAYAIGKARPVSLRVETFGTGVLPDEKLTEIAKKVFDPRPLAIIEELDLLRPIYTPTSAYGHFGRPGFPWEETDRVEALRREAG 5ha6-a1-m2-cA_5ha6-a1-m4-cA Crystal structure of human syncytin-1 fusion subunit Q9UQF0 Q9UQF0 2.0006 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 5ha6-a1-m1-cA_5ha6-a1-m2-cA 5ha6-a1-m1-cA_5ha6-a1-m4-cA 6rx1-a1-m1-cA_6rx1-a1-m2-cA 6rx1-a1-m1-cA_6rx1-a1-m3-cA 6rx1-a1-m2-cA_6rx1-a1-m3-cA GSTQFYYKLSQELNGDMERVADSLVTLQDQLNSLAAVVLQNRRALDLLTAERGGTCLFLGEECSYYVNQSGIVTEKVKEIRDRIQRRAEELRN GSTQFYYKLSQELNGDMERVADSLVTLQDQLNSLAAVVLQNRRALDLLTAERGGTCLFLGEECSYYVNQSGIVTEKVKEIRDRIQRRAEELRN 5ha6-a2-m3-cB_5ha6-a2-m5-cB Crystal structure of human syncytin-1 fusion subunit Q9UQF0 Q9UQF0 2.0006 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 5ha6-a2-m1-cB_5ha6-a2-m3-cB 5ha6-a2-m1-cB_5ha6-a2-m5-cB GSTQFYYKLSQELNGDMERVADSLVTLQDQLNSLAAVVLQNRRALDLLTSYYVNQSGIVTEKVKEIRDRIQRRAEELRN GSTQFYYKLSQELNGDMERVADSLVTLQDQLNSLAAVVLQNRRALDLLTSYYVNQSGIVTEKVKEIRDRIQRRAEELRN 5has-a3-m1-cD_5has-a3-m1-cA Crystal structure of the N-terminal DCB-HUS domain of T. terrestris Sec7 A0A140UHP8 A0A140UHP8 2.653 X-RAY DIFFRACTION 39 0.997 341 381 5has-a1-m1-cD_5has-a1-m1-cA 5has-a2-m1-cC_5has-a2-m1-cB 5has-a3-m1-cC_5has-a3-m1-cB VVSSLDIAELAEKALAAIKPDPEVVFAPLQLATKSGTIPLTTTALDCIGKLISYSYFSAPLIERAIDTICDCFQGETTLVEIQLQIVKSLLAAVLNDKIIVHGAGLLKAVRQVYNIFLLSRSTANQQVAQGTLTQMVGTVFERVKTRLHMKEARANKLTLKDLEHRKSFDDSHMGDGPTMVSQTPESLDAEDEAYIRDAYLVFRSFCNLSTKILDLRGQPMRSKLISLHLIHTLLNNHITVFTSPLCTIRNTKNNEPTNFLQAIKYYLCLSITRNGASSVDRVFDICCEIFWLMLKYMRSSFKNEIEVFLNEIYLALLARRNAPLSQKLTFVGILKRLCED LKFVVSSLDIIAAQAGRNKQLAELAEKALAAIKENLPDPEVVFAPLQLATKSGTIPLTTTALDCIGKLISYSYFSAPSSSATQDGTEQTPLIERAIDTICDCFQGETTLVEIQLQIVKSLLAAVLNDKIIVHGAGLLKAVRQVYNIFLLSRSTANQQVAQGTLTQMVGTVFERVKTRLHMKEARANLGRLKALTLKDLEHRKSFDDSHMGDGPTMVSQVETPESLDAEDEAYIRDAYLVFRSFCNLSTKILPPDLRGQPMRSKLISLHLIHTLLNNHITVFTSPLCTIRNTKNNEPTNFLQAIKYYLCLSITRNGASSVDRVFDICCEIFWLMLKYMRSSFKNEIEVFLNEIYLALLARRNAPLSQKLTFVGILKRLCEDP 5has-a3-m1-cD_5has-a3-m1-cB Crystal structure of the N-terminal DCB-HUS domain of T. terrestris Sec7 A0A140UHP8 A0A140UHP8 2.653 X-RAY DIFFRACTION 17 1.0 341 381 5has-a3-m1-cC_5has-a3-m1-cA VVSSLDIAELAEKALAAIKPDPEVVFAPLQLATKSGTIPLTTTALDCIGKLISYSYFSAPLIERAIDTICDCFQGETTLVEIQLQIVKSLLAAVLNDKIIVHGAGLLKAVRQVYNIFLLSRSTANQQVAQGTLTQMVGTVFERVKTRLHMKEARANKLTLKDLEHRKSFDDSHMGDGPTMVSQTPESLDAEDEAYIRDAYLVFRSFCNLSTKILDLRGQPMRSKLISLHLIHTLLNNHITVFTSPLCTIRNTKNNEPTNFLQAIKYYLCLSITRNGASSVDRVFDICCEIFWLMLKYMRSSFKNEIEVFLNEIYLALLARRNAPLSQKLTFVGILKRLCED KFVVSSLDIIAAQAGRNKQLAELAEKALAAIKENPDPEVVFAPLQLATKSGTIPLTTTALDCIGKLISYSYFSAPSSTEQTPLIERAIDTICDCFQGETTLVEIQLQIVKSLLAAVLNDKIIVHGAGLLKAVRQVYNIFLLSRSTANQQVAQGTLTQMVGTVFERVKTRLHMKEARANLGRLKASRKLTLKDLEHRKSFDDSHMGDGPTMVSQVKETPESLDAEDEAYIRDAYLVFRSFCNLSTKILPPDQLYDLRGQPMRSKLISLHLIHTLLNNHITVFTSPLCTIRNTKNNEPTNFLQAIKYYLCLSITRNGASSVDRVFDICCEIFWLMLKYMRSSFKNEIEVFLNEIYLALLARRNAPLSQKLTFVGILKRLCEDP 5haw-a1-m2-cA_5haw-a1-m2-cB structures of the NO factor SlmA bound to DNA and the cytoskeletal cell division protein FtsZ Q9KVD2 Q9KVD2 1.89 X-RAY DIFFRACTION 99 0.995 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 186 189 4gct-a1-m1-cA_4gct-a1-m1-cB 4gct-a1-m1-cD_4gct-a1-m1-cC 4gfk-a1-m1-cA_4gfk-a1-m1-cB 5haw-a1-m1-cA_5haw-a1-m1-cB INRREEILQALAEMLESNEGASRITTAKLAKQVGVSEAALYRHFPSKTRMFEGLIEFIEESLMSRINRIFDEEKDTLNRIRLVMQLLLAFAERNPGLTRILSGHALMFENERLRDRINQLFERIETSLRQILRERKKSFPVDENILAAQLLGQVEGSLNRFVRSDFKYLPTANFDEYWALLSAQIK NRREEILQALAEMLESNEGASRITTAKLAKQVGVSEAALYRHFPSKTRMFEGLIEFIEESLMSRINRIFDEEKDTLNRIRLVMQLLLAFAERNPGLTRILSGHALMFENERLRDRINQLFERIETSLRQILRERKLREGKSFPVDENILAAQLLGQVEGSLNRFVRSDFKYLPTANFDEYWALLSAQIK 5hb6-a3-m2-cA_5hb6-a3-m1-cB Crystal structure of Chaetomium thermophilum Nup145N APD T994A mutant fused to Nup145C N G0SAK3 G0SAK3 1.3 X-RAY DIFFRACTION 50 0.993 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 138 142 SGAYWMSPTADDIRAMNRMQRQRVVGFTVGRENVGSVQFKVPVDLSNINLDDLFGTIVILEPRSATVYPNAAKKPPMGKGLNVPALISLEHSWPRGGPTIKGRRLERHIERLKSIPDTTFESYDPETGVWAFSVEHFA SGAYWMSPTADDIRAMNRMQRQRVVGFTVGRENVGSVQFKVPVDLSNINLDDLFGTIVILEPRSATVYPNAAKKPPMGKGLNVPALISLEHSWPRGGPTIGRRLERHIERLKSIPDTTFESYDPETGVWAFSVEHFATYGLG 5hba-a1-m1-cC_5hba-a1-m1-cB Globular Domain of Zebrafish Complement 1qA protein F1QFM5 F1QFM5 2.05 X-RAY DIFFRACTION 66 1.0 7955 (Danio rerio) 7955 (Danio rerio) 126 127 5hba-a1-m1-cB_5hba-a1-m1-cA 5hba-a1-m1-cC_5hba-a1-m1-cA KPAFSVLRNETSQAQYKQPVTFNDKLSDANDDFQIKTGYFTCKVPGVYYFVFHASSEGRLCLRLKSTSAPPVSLSFCDFNSKSVSLVVSGGAVLTLLKGDKVWIEPFAGMPKRLYAVFNGFLIYRN EKPAFSVLRNETSQAQYKQPVTFNDKLSDANDDFQIKTGYFTCKVPGVYYFVFHASSEGRLCLRLKSTSAPPVSLSFCDFNSKSVSLVVSGGAVLTLLKGDKVWIEPFAGMPKRLYAVFNGFLIYRN 5hbf-a3-m1-cA_5hbf-a3-m1-cB Crystal structure of human full-length chitotriosidase (CHIT1) Q13231 Q13231 1.95 X-RAY DIFFRACTION 83 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 424 425 1waw-a1-m1-cB_1waw-a1-m1-cA AKLVCYFTNWAQYRQGEARFLPKDLDPSLCTHLIYAFAGMTNHQLSTTEWNDETLYQEFNGLKKMNPKLKTLLAIGGWNFGTQKFTDMVATANNRQTFVNSAIRFLRKYSFDGLDLDWEYPGSQGSPAVDKERFTTLVQDLANAFQQEAQTSGKERLLLSAAVPAGQTYVDAGYEVDKIAQNLDFVNLMAYDFHGSWEKVTGHNSPLYKRQEESGAAASLNVDAAVQQWLQKGTPASKLILGMPTYGRSFTLASSSDTRVGAPATGSGTPGPFTKEGGMLAYYEVCSWKGATKQRIQDQKVPYIFRDNQWVGFDDVESFKTKVSYLKQKGLGGAMVWALDLDDFAGFSCNQGRYPLIQTLRQELSLQDTFCQGKADGLYPNPRERSSFYSCAAGRLFQQSCPTGLVFSNSCKCCTWNLVPRGSL AKLVCYFTNWAQYRQGEARFLPKDLDPSLCTHLIYAFAGMTNHQLSTTEWNDETLYQEFNGLKKMNPKLKTLLAIGGWNFGTQKFTDMVATANNRQTFVNSAIRFLRKYSFDGLDLDWEYPGSQGSPAVDKERFTTLVQDLANAFQQEAQTSGKERLLLSAAVPAGQTYVDAGYEVDKIAQNLDFVNLMAYDFHGSWEKVTGHNSPLYKRQEESGAAASLNVDAAVQQWLQKGTPASKLILGMPTYGRSFTLASSSDTRVGAPATGSGTPGPFTKEGGMLAYYEVCSWKGATKQRIQDQKVPYIFRDNQWVGFDDVESFKTKVSYLKQKGLGGAMVWALDLDDFAGFSCNQGRYPLIQTLRQELSFCQGKADGLYPNPRERSSFYSCAAGRLFQQSCPTGLVFSNSCKCCTWNLVPRGSLEHHHH 5hbz-a3-m1-cE_5hbz-a3-m1-cC Structure of EAV NSP11 K170A mutant at 3.10A P19811 P19811 3.1 X-RAY DIFFRACTION 38 1.0 299386 (Equine arteritis virus Bucyrus) 299386 (Equine arteritis virus Bucyrus) 209 219 5f17-a2-m1-cF_5f17-a2-m1-cB 5f17-a3-m1-cE_5f17-a3-m1-cC 5hbz-a1-m1-cD_5hbz-a1-m1-cA 5hbz-a2-m1-cF_5hbz-a2-m1-cB SNKISCLPRVAQNLGYHYSPDLPGFCPIPKELAEHWPVVSNDRYPNCLQITLQQVCELSKPCSAGYMVGQSVFVQTPGVTSYWLTEWVDGKARALPDSLFSSGRFETNSRAFLDEAEEKFAAAHPHACLGEINKSTVGGSHFIFSQYLPPLLPADAVALVGACSVVDVYAPSFEPYLHPETLSRVYKIMIDFKPCRLMVWRNATFYVQE SNKISCLPRVAQNLGYHYSPDLPGFCPIPKELAEHWPVVSNDRYPNCLQITLQQVCELSKPCSAGYMVGQSVFVQTPGVTSYWLTEWVDGKARALPDSLFSSGRFETNSRAFLDEAEEKFAAAHPHACLGEINKSTVGGSHFIFSQYLPPLLPADAVALVGASLAGKAAAAACSVVDVYAPSFEPYLHPETLSRVYKIMIDFKPCRLMVWRNATFYVQE 5hc1-a2-m1-cC_5hc1-a2-m1-cB Structure of EAV NSP11 H141A mutant at 3.10A P19811 P19811 3.1 X-RAY DIFFRACTION 51 0.991 299386 (Equine arteritis virus Bucyrus) 299386 (Equine arteritis virus Bucyrus) 218 219 5f17-a1-m1-cD_5f17-a1-m1-cA 5hc1-a1-m1-cA_5hc1-a1-m1-cD GSNKISCLPRVAQNLGYHYSPDLPGFCPIPKELAEHWPVVSNDRYPNCLQITLQQVCELSKPCSAGYMVGQSVFVQTPGVTSYWLTEWVDGKARALPDSLFSSGRFETNSRAFLDEAEEKFAAAHPHACLGEINKSTVGAFIFSQYLPPLLPADAVALVGASLAGKAAKAACSVVDVYAPSFEPYLHPETLSRVYKIMIDFKPCRLMVWRNATFYVQE AGSNKISCLPRVAQNLGYHYSPDLPGFCPIPKELAEHWPVVSNDRYPNCLQITLQQVCELSKPCSAGYMVGQSVFVQTPGVTSYWLTEWVDGKARALPDSLFSSGRFETNSRAFLDEAEEKFAAAHPHACLGEINKSTGSAFIFSQYLPPLLPADAVALVGASLAGKAAKAACSVVDVYAPSFEPYLHPETLSRVYKIMIDFKPCRLMVWRNATFYVQE 5hc2-a2-m1-cC_5hc2-a2-m1-cD Structure of esterase Est22 mutant-S188A with p-nitrophenol H6BDX1 H6BDX1 1.986 X-RAY DIFFRACTION 75 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 343 343 5hc0-a1-m1-cA_5hc0-a1-m2-cA 5hc2-a1-m1-cB_5hc2-a1-m1-cA 5hc3-a1-m1-cB_5hc3-a1-m1-cA 5hc3-a2-m1-cC_5hc3-a2-m1-cD 5hc4-a1-m1-cA_5hc4-a1-m1-cB 5hc4-a2-m1-cC_5hc4-a2-m1-cD 5hc5-a1-m1-cA_5hc5-a1-m1-cB 5hc5-a2-m1-cC_5hc5-a2-m1-cD TNKIAEDPRIDPRIKAIFSGMDLGGGGDVESREAMLEAASSEEATAVRDGLRVFLDACDNEEIAPSAGLKIEDYEFTSEPDGNIAKIQYIRPDSTDKLPCVYYIHGGGMQSLSCYYGNYRAWGKIIASNGVAVAMVEFRNALVPSALPEVAPYPAGLNDCVSGVKWVASHADELGIDASRIIIAGEAGGGNLTLAAGLRLKQEGSQDLIQGLYALCPYIAGSWPSEDSPSSTENNGILLDLHNNQGAMGYGIEAYEMRDPLAWPGFATEEDVSGLVPTFISVNECDPLRDEGINFYRLLLRAGVSAKCRQVMGTIHGTEIFPIACPDVSRDTAASIANFCKGG TNKIAEDPRIDPRIKAIFSGMDLGGGGDVESREAMLEAASSEEATAVRDGLRVFLDACDNEEIAPSAGLKIEDYEFTSEPDGNIAKIQYIRPDSTDKLPCVYYIHGGGMQSLSCYYGNYRAWGKIIASNGVAVAMVEFRNALVPSALPEVAPYPAGLNDCVSGVKWVASHADELGIDASRIIIAGEAGGGNLTLAAGLRLKQEGSQDLIQGLYALCPYIAGSWPSEDSPSSTENNGILLDLHNNQGAMGYGIEAYEMRDPLAWPGFATEEDVSGLVPTFISVNECDPLRDEGINFYRLLLRAGVSAKCRQVMGTIHGTEIFPIACPDVSRDTAASIANFCKGG 5hc8-a1-m1-cA_5hc8-a1-m2-cA Crystal structure of lavandulyl diphosphate synthase from Lavandula x intermedia in complex with dimethylallyl diphosphate A0A140UHQ1 A0A140UHQ1 1.87 X-RAY DIFFRACTION 130 1.0 39330 (Lavandula lanata) 39330 (Lavandula lanata) 236 236 5hc6-a1-m1-cA_5hc6-a1-m2-cA 5hc7-a1-m1-cA_5hc7-a1-m2-cA DEVTPNHVAIIIDGHRKWAKSRGVTVQEGHQTGVNNWKHIISRASQLGIKLLTIWALSPQNFNRSKMEVDFLMRIYEDFLRSDVKELVTSQQDIQFSAIGDKSRLPEYLQDAISYAEGLSQANKGMHFILAVAYGGREDIVEAARKIAAKVEHGILRPDDIDEATFEQHLMTNITKFPSPDLLIRAAGEQRLSNFFLWQLPFTEFYFTPKLFPDFGEADLLDALASYRCRYRGFGE DEVTPNHVAIIIDGHRKWAKSRGVTVQEGHQTGVNNWKHIISRASQLGIKLLTIWALSPQNFNRSKMEVDFLMRIYEDFLRSDVKELVTSQQDIQFSAIGDKSRLPEYLQDAISYAEGLSQANKGMHFILAVAYGGREDIVEAARKIAAKVEHGILRPDDIDEATFEQHLMTNITKFPSPDLLIRAAGEQRLSNFFLWQLPFTEFYFTPKLFPDFGEADLLDALASYRCRYRGFGE 5hcb-a1-m1-cA_5hcb-a1-m1-cB Globular Domain of the Entamoeba histolytica calreticulin in complex with glucose P83003 P83003 2.9 X-RAY DIFFRACTION 131 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 265 265 SAKVYFHETFENRDKWIDSTSSGKALGPFKIVSGKWYGDANNKGLQTSEDNKFYIAAAKLDEEFSNKDKNLIVQYNLKFEQGIDCGGGYIKLLPKKSIESEEKFTPESEYNIMFGPDVCGGSKRTHVIMNYKGKNNLIRKEIKCESDDISHLYTLIIRPNNTYVVKIDGVEKQEGKFDEDWDMLAPKEIDDGSGIANPDYVYDPELYKYDSFAYIGIDVWQVKAGTIYDDILITDDIEEAEKEAKVILERNAAEKKMRDEIKEAE SAKVYFHETFENRDKWIDSTSSGKALGPFKIVSGKWYGDANNKGLQTSEDNKFYIAAAKLDEEFSNKDKNLIVQYNLKFEQGIDCGGGYIKLLPKKSIESEEKFTPESEYNIMFGPDVCGGSKRTHVIMNYKGKNNLIRKEIKCESDDISHLYTLIIRPNNTYVVKIDGVEKQEGKFDEDWDMLAPKEIDDGSGIANPDYVYDPELYKYDSFAYIGIDVWQVKAGTIYDDILITDDIEEAEKEAKVILERNAAEKKMRDEIKEAE 5hci-a3-m4-cC_5hci-a3-m1-cB GPN-loop GTPase Npa3 in complex with GDP P47122 P47122 2.3 X-RAY DIFFRACTION 110 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 246 258 5hci-a2-m1-cC_5hci-a2-m3-cB SLSTIICIGMAGSGKTTFMQRLNSHLRAEKTPPYVINLDPAVLRVPYGANIDIRDSIKPNGAIVTSLNLFSTKIDQVIRLVEQKKDKFQNCIIDTPGQIECFVWSASGAIITESFASSFPTVIAYIVDTPRNSSPTTFMSNMLYACSILYKTKLPMIVVFNKTDVCKADFAKEWMTDFESFQAAIKEDQDGYMSSLVNSMSLMLEEFYSQLDVVGVSSFTGDGFDEFMQCVDKKVDEYDQYYKKHH SLSTIICIGMAGSGKTTFMQRLNSHLRAEKTPPYVINLDPAVLRVPYGANIDIRDSIKYKKVMENYQLGPNGAIVTSLNLFSTKIDQVIRLVEQKKDKFQNCIIDTPGQIECFVWSASGAIITESFASSFPTVIAYIVDTPRNSSPTTFMSNMLYACSILYKTKLPMIVVFNKTDVCKADFAKEWMTDFESFQAAIKEDQDGYMSSLVNSMSLMLEEFYSQLDVVGVSSFTGDGFDEFMQCVDKKVDEYDQYYKKHHH 5hci-a5-m1-cD_5hci-a5-m1-cE GPN-loop GTPase Npa3 in complex with GDP P47122 P47122 2.3 X-RAY DIFFRACTION 82 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 258 259 5hci-a1-m1-cF_5hci-a1-m2-cA 5hci-a4-m5-cF_5hci-a4-m1-cA SLSTIICIGMAGSGKTTFMQRLNSHLRAEKTPPYVINLDPAVLRVPYGANIDIRDSIKYKKVMENYQLGPNGAIVTSLNLFSTKIDQVIRLVEQKKDKFQNCIIDTPGQIECFVWSASGAIITESFASSFPTVIAYIVDTPRNSSPTTFMSNMLYACSILYKTKLPMIVVFNKTDVCKADFAKEWMTDFESFQAAIKEDQDGYMSSLVNSMSLMLEEFYSQLDVVGVSSFTGDGFDEFMQCVDKKVDEYDQYYKKHHH SLSTIICIGMAGSGKTTFMQRLNSHLRAEKTPPYVINLDPAVLRVPYGANIDIRDSIKYKKVMENYQLGPNGAIVTSLNLFSTKIDQVIRLVEQKKDKFQNCIIDTPGQIECFVWSASGAIITESFASSFPTVIAYIVDTPRNSSPTTFMSNMLYACSILYKTKLPMIVVFNKTDVCKADFAKEWMTDFESFQAAIKEDQDGYMSSLVNSMSLMLEEFYSQLDVVGVSSFTGDGFDEFMQCVDKKVDEYDQYYKKHHHH 5hd6-a4-m1-cH_5hd6-a4-m1-cD High resolution structure of 3-hydroxydecanoyl-(acyl carrier protein) dehydratase from Yersinia pestis at 1.35 A Q8ZG80 Q8ZG80 1.35 X-RAY DIFFRACTION 119 0.994 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 163 166 3q62-a1-m1-cA_3q62-a1-m1-cB 5f6r-a1-m1-cB_5f6r-a1-m1-cA 5hd6-a1-m1-cG_5hd6-a1-m1-cA 5hd6-a2-m1-cF_5hd6-a2-m1-cB 5hd6-a3-m1-cE_5hd6-a3-m1-cC AVDKRESYTKEDLEASGRGELFGAGGPPLPAGNLDRIVKIEDGGSHNKGYVEAELDINPDLWFFGCHFIGDPVPGCLGLDAWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPDAKKVTYRINFKRVIRKLIGVADGEVLVDGKVIYTATDLKVGLFKDTNF SNAVDKRESYTKEDLEASGRGELFGAGGPPLPAGNLDRIVKIEDGGSHNKGYVEAELDINPDLWFFGCHFIGDPVPGCLGLDAWQLVGFYLGWLGGEGKGRALGVGEVKFTGQVLPDAKKVTYRINFKRVIRKLIGVADGEVLVDGKVIYTATDLKVGLFKDTNAF 5hda-a1-m1-cC_5hda-a1-m1-cA Crystal Structure of the BS69 coiled coil-MYND domains bound to an EBNA2 PXLXP motif Q15326 Q15326 2.3899 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 121 DHKRETERVVREALEKLRSEMEEEKRQAVNKAVANMQGEMDRKCKQVKEKCKEEFVEEIKKLATQHKQLISQTKKKQWCYNCEEEAMYHCCWNTSYCSIKCQQEHWHAEHKRTCRRK RMKSDHKRETERVVREALEKLRSEMEEEKRQAVNKAVANMQGEMDRKCKQVKEKCKEEFVEEIKKLATQHKQLISQTKKKQWCYNCEEEAMYHCCWNTSYCSIKCQQEHWHAEHKRTCRRK 5hdg-a2-m1-cA_5hdg-a2-m2-cA crystal structure of heat shock factor 1-DBD Q00613 Q00613 1.7 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 5hdn-a1-m1-cB_5hdn-a1-m1-cA 5hdn-a2-m1-cD_5hdn-a2-m1-cC HVPAFLTKLWTLVSDPDTDALICWSPSGNSFHVFDQGQFAKEVLPKYFKHNNMASFVRQLNMYGFRKVVHIEDTEFQHPCFLRGQEQLLENIKR HVPAFLTKLWTLVSDPDTDALICWSPSGNSFHVFDQGQFAKEVLPKYFKHNNMASFVRQLNMYGFRKVVHIEDTEFQHPCFLRGQEQLLENIKR 5hdj-a1-m1-cA_5hdj-a1-m1-cB Structure of B. megaterium NfrA1 A0A0K0VJM9 A0A0K0VJM9 1.89 X-RAY DIFFRACTION 339 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 247 248 NSVIETILNHRSIRKYEDKPLSEEQIQTIVESAQAASTSSYIQAYSIIGVKDKETKRKLAQLAGNQPYVETNGHFFVFCADFHRHDVIAEMEKKDLSTALESTEQFMVAIIDVALAAQNATLAAESMGLGACYIGGLRNELEEVSKLLKLPHHVIPLFGLTVGHPAGITDKKPRLPFKHVYHEETYEPNDEQTKKELTAYNEEISAYYNERTNGKRQDTWTGQMAEMLSNPKRMYMKEFVEKQGFNK MNSVIETILNHRSIRKYEDKPLSEEQIQTIVESAQAASTSSYIQAYSIIGVKDKETKRKLAQLAGNQPYVETNGHFFVFCADFHRHDVIAEMEKKDLSTALESTEQFMVAIIDVALAAQNATLAAESMGLGACYIGGLRNELEEVSKLLKLPHHVIPLFGLTVGHPAGITDKKPRLPFKHVYHEETYEPNDEQTKKELTAYNEEISAYYNERTNGKRQDTWTGQMAEMLSNPKRMYMKEFVEKQGFNK 5hdm-a1-m1-cA_5hdm-a1-m1-cB Crystal structure of Arabidopsis thaliana glutamate-1-semialdehyde-2,1-aminomutase P42799 P42799 1.25 X-RAY DIFFRACTION 395 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 428 428 SFSLQKSEEAFNAAKNLMPGGVNSPVRAFKSVGGQPVLIDSVKGSKMWDIDGNEYIDYVGSWGPAIIGHADDEVLAALAETMKKGTSFGAPCLLENVLAEMVISAVPSIEMVRFVNSGTEACMGVLRLARAFTNKEKFIKFEGCYHGHANAFLVKAGSGVATLGLPDSPGVPKAATSDTLTAPYNDLEAVEKLFAAHKGEISAVILEPVVGNSGFIPPTPEFINGLRQLTKDNGVLLIFDEVMTGFRLAYGGAQEYFGITPDLTTLGKIIGGGLPVGAYGGRRDIMEMVAPAGPMYQAGTLSGNPLAMTAGIHTLKRLKQAGTYEYLDKITKELTNGILEAGKKTGHPMCGGYISGMFGFFFAEGPVYNFADSKKSDTEKFGRFFRGMLEEGVYFAPSQFEAGFTSLAHTPEDIQLTIAAAERVLSRI SFSLQKSEEAFNAAKNLMPGGVNSPVRAFKSVGGQPVLIDSVKGSKMWDIDGNEYIDYVGSWGPAIIGHADDEVLAALAETMKKGTSFGAPCLLENVLAEMVISAVPSIEMVRFVNSGTEACMGVLRLARAFTNKEKFIKFEGCYHGHANAFLVKAGSGVATLGLPDSPGVPKAATSDTLTAPYNDLEAVEKLFAAHKGEISAVILEPVVGNSGFIPPTPEFINGLRQLTKDNGVLLIFDEVMTGFRLAYGGAQEYFGITPDLTTLGKIIGGGLPVGAYGGRRDIMEMVAPAGPMYQAGTLSGNPLAMTAGIHTLKRLKQAGTYEYLDKITKELTNGILEAGKKTGHPMCGGYISGMFGFFFAEGPVYNFADSKKSDTEKFGRFFRGMLEEGVYFAPSQFEAGFTSLAHTPEDIQLTIAAAERVLSRI 5he8-a6-m1-cJ_5he8-a6-m1-cL Bacterial initiation protein Q2FXP5 Q2FXP5 2.6 X-RAY DIFFRACTION 71 0.994 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 163 163 5he8-a1-m1-cA_5he8-a1-m1-cF 5he8-a2-m1-cB_5he8-a2-m1-cE 5he8-a3-m1-cH_5he8-a3-m1-cC 5he8-a4-m1-cG_5he8-a4-m1-cD 5he8-a5-m1-cK_5he8-a5-m1-cI LDVAMAADDICTAITNGEQVKGLYLYGPFGTGKSFILGAIANQLKSKKVRSTIIYLPEFIRTLKGGFKDGSFEKKLHRVREANILMLDDIGAEEVTPWVRDEVIGPLLHYRMVHELPTFFSSNFDYSELEHHLAMTRDGEEKTKAARIIERVKSLSTPYFLSG DVAMAADDICTAITNGEQVKGLYLYGPFGTGKSFILGAIANQLKSKKVRSTIIYLPEFIRTLKGGFKDGSFEKKLHRVREANILMLDDIGAEEVTPWVRDEVIGPLLHYRMVHELPTFFSSNFDYSELEHHLAMTRDGEEKTKAARIIERVKSLSTPYFLSGE 5hea-a1-m2-cA_5hea-a1-m2-cC CgT structure in hexamer I1ZPA1 I1ZPA1 2.003 X-RAY DIFFRACTION 24 1.0 1114965 (Streptococcus parasanguinis FW213) 1114965 (Streptococcus parasanguinis FW213) 276 276 5hea-a1-m1-cA_5hea-a1-m1-cC 5hea-a1-m1-cA_5hea-a1-m2-cB 5hea-a1-m1-cB_5hea-a1-m2-cA 5hea-a1-m1-cB_5hea-a1-m2-cC 5hea-a1-m1-cC_5hea-a1-m2-cB GELISIIVPVYNVEKYLKRCLDSLLRQTYKNFEIILINDGSTDNSSIICEEYAKIDNRIQILHQTNAGPSAARNAGITYASGKYITFVDSDDFVEEFYLEHLYRALVDNGSDISVCNFNSFNEDRQSFLFSITKEKYFCKNYTIAEWMDLNLFLTFTFSPTKLFKAELFEGIRFPLGRLREDDATIYRLYLKASQITFINEGSYYYSQRDDISSMISNAEERIALLASMGYDLTEQIKSYKGRLKKCCEDALRNGQIELYQQCCNKLDLIENYPKE GELISIIVPVYNVEKYLKRCLDSLLRQTYKNFEIILINDGSTDNSSIICEEYAKIDNRIQILHQTNAGPSAARNAGITYASGKYITFVDSDDFVEEFYLEHLYRALVDNGSDISVCNFNSFNEDRQSFLFSITKEKYFCKNYTIAEWMDLNLFLTFTFSPTKLFKAELFEGIRFPLGRLREDDATIYRLYLKASQITFINEGSYYYSQRDDISSMISNAEERIALLASMGYDLTEQIKSYKGRLKKCCEDALRNGQIELYQQCCNKLDLIENYPKE 5hea-a1-m2-cB_5hea-a1-m2-cC CgT structure in hexamer I1ZPA1 I1ZPA1 2.003 X-RAY DIFFRACTION 101 1.0 1114965 (Streptococcus parasanguinis FW213) 1114965 (Streptococcus parasanguinis FW213) 276 276 5hea-a1-m1-cA_5hea-a1-m2-cA 5hea-a1-m1-cB_5hea-a1-m1-cC 5hec-a1-m1-cA_5hec-a1-m1-cB GELISIIVPVYNVEKYLKRCLDSLLRQTYKNFEIILINDGSTDNSSIICEEYAKIDNRIQILHQTNAGPSAARNAGITYASGKYITFVDSDDFVEEFYLEHLYRALVDNGSDISVCNFNSFNEDRQSFLFSITKEKYFCKNYTIAEWMDLNLFLTFTFSPTKLFKAELFEGIRFPLGRLREDDATIYRLYLKASQITFINEGSYYYSQRDDISSMISNAEERIALLASMGYDLTEQIKSYKGRLKKCCEDALRNGQIELYQQCCNKLDLIENYPKE GELISIIVPVYNVEKYLKRCLDSLLRQTYKNFEIILINDGSTDNSSIICEEYAKIDNRIQILHQTNAGPSAARNAGITYASGKYITFVDSDDFVEEFYLEHLYRALVDNGSDISVCNFNSFNEDRQSFLFSITKEKYFCKNYTIAEWMDLNLFLTFTFSPTKLFKAELFEGIRFPLGRLREDDATIYRLYLKASQITFINEGSYYYSQRDDISSMISNAEERIALLASMGYDLTEQIKSYKGRLKKCCEDALRNGQIELYQQCCNKLDLIENYPKE 5hee-a1-m1-cA_5hee-a1-m1-cB Crystal structure of the TK2203 protein Q5JHM2 Q5JHM2 1.41 X-RAY DIFFRACTION 63 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 262 262 MLFGIGLMPHGNPALSPEDKETEKLAGVLKDIGKAFSDADSYVLISPHNVRISDHLGVIMAQHLISWLGFEGVELPGEWETDRGLAEEVYNAWKGAEIPTVDLHFASRSGRYSRWPLTWGELIPLQFLEKKPLVLLTPARRLSRETLIKAGEVLGEVLEGSEKKIALIVSADHGHAHDENGPYGYRKESEEYDRLIMELINESRLEELPEIPDELIEKALPDSYWQMLIMLGAMHRVPVKLVESAYACPTYFGMAGALWVRE MLFGIGLMPHGNPALSPEDKETEKLAGVLKDIGKAFSDADSYVLISPHNVRISDHLGVIMAQHLISWLGFEGVELPGEWETDRGLAEEVYNAWKGAEIPTVDLHFASRSGRYSRWPLTWGELIPLQFLEKKPLVLLTPARRLSRETLIKAGEVLGEVLEGSEKKIALIVSADHGHAHDENGPYGYRKESEEYDRLIMELINESRLEELPEIPDELIEKALPDSYWQMLIMLGAMHRVPVKLVESAYACPTYFGMAGALWVRE 5hei-a4-m1-cG_5hei-a4-m1-cH Structure of B. megaterium NfrA2 A0A0K0VJM8 A0A0K0VJM8 2.84 X-RAY DIFFRACTION 380 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 246 246 5hei-a1-m1-cA_5hei-a1-m1-cB 5hei-a2-m1-cC_5hei-a2-m1-cD 5hei-a3-m1-cE_5hei-a3-m1-cF MNEAIRTIQDHRSIRQYTDEAVSDEHLDTIIQSAQSAASSINGQQVTIISVQDKEKKKKLSELAGNQAWIDQAPLFLIFCADFNRAKIAAELNDAPLGVTDGLESILVGATDAGISLEAATVAAESLGLGTVPIGGIRRKPLEVIELLDLPEYVFPVSGLVVGHPSDHSAKKPRLPQAAVHHRESYNHDLKSLIQDYDAEMAEYMKKRTNGADDRNWSQTVSAIYKTIYYPEVRAMLEKQGFKFEK MNEAIRTIQDHRSIRQYTDEAVSDEHLDTIIQSAQSAASSINGQQVTIISVQDKEKKKKLSELAGNQAWIDQAPLFLIFCADFNRAKIAAELNDAPLGVTDGLESILVGATDAGISLEAATVAAESLGLGTVPIGGIRRKPLEVIELLDLPEYVFPVSGLVVGHPSDHSAKKPRLPQAAVHHRESYNHDLKSLIQDYDAEMAEYMKKRTNGADDRNWSQTVSAIYKTIYYPEVRAMLEKQGFKFEK 5hek-a1-m1-cB_5hek-a1-m1-cA crystal structure of M1.HpyAVI O24891 O24891 3 X-RAY DIFFRACTION 21 0.995 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 185 197 MIQIYHADAFEIIKDFYQQNLKVDAIITDPPNFKLLEWIARYAPLVNPNGCMVIFCSYRFISYIADFLEENGFVVKDFIQWVKNNPMPNIHRRYVQDTEFALWAVKKKAKWVFNKPKNEKYLRPLLSLALMEKIISIHTNPNDIVLDPFMGSGTTGLACKNLERNFIGIESEKEYFQTAKKRLNL MIQIYHADAFEIIKDFYQQNLKVDAIITDPPYNKNFKLLEWIARYAPLVNPNGCMVIFCSYRFISYIADFLEENGFVVKDFIQWVKNNPMPRNIHRRYVQDTEFALWAVKKKAKWVFNKPKNEKYLRPLILKSPVQKSLALMEKIISIHTNPNDIVLDPFMGSGTTGLACKNLERNFIGIESEKEYFQTAKKRLNLF 5hek-a2-m1-cC_5hek-a2-m1-cA crystal structure of M1.HpyAVI O24891 O24891 3 X-RAY DIFFRACTION 88 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 185 197 5hek-a1-m1-cC_5hek-a1-m1-cA 5hfj-a2-m1-cE_5hfj-a2-m1-cC 5hfj-a3-m1-cD_5hfj-a3-m1-cH 5hfj-a4-m1-cF_5hfj-a4-m1-cG MIQIYHADAFEIIKDFYQQNLKVDAIITDPPLLEWIARYAPLVNPNGCMVIFCSYRFISYIADFLEENGFVVKDFIQWVKNNPPRNIHRRYVQDTEFALWAVKKKAKWVFNKPKNEKYLRPLILKKSLALMEKIISIHTNPNDIVLDPFMGSGTTGLACKNLERNFIGIESEKEYFQTAKKRLNL MIQIYHADAFEIIKDFYQQNLKVDAIITDPPYNKNFKLLEWIARYAPLVNPNGCMVIFCSYRFISYIADFLEENGFVVKDFIQWVKNNPMPRNIHRRYVQDTEFALWAVKKKAKWVFNKPKNEKYLRPLILKSPVQKSLALMEKIISIHTNPNDIVLDPFMGSGTTGLACKNLERNFIGIESEKEYFQTAKKRLNLF 5hev-a2-m1-cB_5hev-a2-m1-cC Crystal Structure of the beryllofluoride-activated LiaR from Enterococcus faecium S4FAU8 S4FAU8 3.192 X-RAY DIFFRACTION 54 1.0 1244155 (Enterococcus faecium SD3B-2) 1244155 (Enterococcus faecium SD3B-2) 209 210 5hev-a1-m1-cA_5hev-a1-m1-cF MIKVLLVDDHEMVRLGVSSYLSIQEDIEVIGEAENGRQGYEKAMALRPDVILMDLVMEEMDGIESTKAILKDWPKAKIIIVTSFIDDEKVYPAIEAGAAGYLLKTSTAHEIADAIRATQRGERVLEPEVTTKMMEKMSRRNDPVLHEELTNRENEILMLISEGKSNQEIADELFITLKTVKTHVSNILAKLEVEDRTQAAIYAFKHGLV MIKVLLVDDHEMVRLGVSSYLSIQEDIEVIGEAENGRQGYEKAMALRPDVILMDLVMEEMDGIESTKAILKDWPKAKIIIVTSFIDDEKVYPAIEAGAAGYLLKTSTAHEIADAIRATQRGERVLEPEVTTKMMEKMSRRNDPVLHEELTNRENEILMLISEGKSNQEIADELFITLKTVKTHVSNILAKLEVEDRTQAAIYAFKHGLVK 5hfk-a1-m1-cB_5hfk-a1-m1-cA CRYSTAL STRUCTURE OF A GLUTATHIONE S-TRANSFERASE PROTEIN FROM ESCHERICHIA COLI OCh 157:H7 STR. SAKAI (ECs3186, TARGET EFI-507414) WITH BOUND GLUTATHIONE P77526 P77526 1.551 X-RAY DIFFRACTION 106 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 205 207 3gx0-a1-m1-cA_3gx0-a1-m2-cA MIDLYFAPTPNGHKITLFLEEAGLDYRLIKVDLGKGGQFRPEFLLISPNNKIPAIVDHSPADGGEPLSLFESGAILLYLAEKTGLFLSHETRERAATLQWLFWQVGGLGPMLGQNHHFNHAAPQTIPYAIERYQVETQRLYHVLNKRLENSPWLGGENYSIADIACWPWVNAWTRQRIDLAMYPAVKNWHERIRSRPATGQALLK MIDLYFAPTPNGHKITLFLEEAGLDYRLIKVDLGKGGQFRPEFLLISPNNKIPAIVDHSPADGGEPLSLFESGAILLYLAEKTGLFLSHETRERAATLQWLFWQVGGLGPMLGQNHHFNHAAPQTIPYAIERYQVETQRLYHVLNKRLENSPWLGGENYSIADIACWPWVNAWTRQRIDLAMYPAVKNWHERIRSRPATGQALLKAQ 5hfn-a1-m1-cB_5hfn-a1-m1-cC Crystal structure of a loop truncation variant of Thermotoga maritima Acetyl Esterase TM0077 (apo structure) at 2.75 Angstrom resolution Q9WXT2 Q9WXT2 2.75 X-RAY DIFFRACTION 20 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 278 279 5hfn-a1-m1-cB_5hfn-a1-m1-cA 5hfn-a1-m1-cC_5hfn-a1-m1-cA 5hfn-a1-m1-cE_5hfn-a1-m1-cD 5hfn-a1-m1-cE_5hfn-a1-m1-cF 5hfn-a1-m1-cF_5hfn-a1-m1-cD FDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIRGFPHDWLFWPSMGYICFVMDTRYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGSQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFE FFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIRGFPHDWLFWPSMGYICFVMDTRYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGSQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFE 5hfn-a1-m1-cF_5hfn-a1-m1-cA Crystal structure of a loop truncation variant of Thermotoga maritima Acetyl Esterase TM0077 (apo structure) at 2.75 Angstrom resolution Q9WXT2 Q9WXT2 2.75 X-RAY DIFFRACTION 72 0.996 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 279 280 5hfn-a1-m1-cB_5hfn-a1-m1-cD 5hfn-a1-m1-cC_5hfn-a1-m1-cE FDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGRGFPHDWLFWPSMGYICFVMDTRYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGSQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFE AFFDLPLEELKKYRPERYEEKDFDEFWEETLAESEKFPLDPVFERMESHLKTVEAYDVTFSGYRGQRIKGWLLVPKLEEEKLPCVVQYIGRGFPHDWLFWPSMGYICFVMDTYYRRVFTDAVRAVEAAASFPQVDQERIVIAGGSQGGGIALAVSALSKKAKALLCDVPFLCHFRRAVQLVDTHPYAEITNFLKTHRDKEEIVFRTLSYFDGVNFAARAKIPALFSVGLMDNICPPSTVFAAYNYYAGPKEIRIYPYNNHEGGGSFQAVEQVKFLKKLFE 5hfs-a1-m1-cA_5hfs-a1-m1-cB CRYSTAL STRUCTURE OF C-TERMINAL DOMAIN OF CARGO PROTEINS OF TYPE IX SECRETION SYSTEM P95493 P95493 1.97 X-RAY DIFFRACTION 124 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 65 65 KPYTVAVSGKTITVESPAAGLTIFDMNGRRVATAKNRMVFEAQNGVYAVRIATEGKTYTEKVIVK KPYTVAVSGKTITVESPAAGLTIFDMNGRRVATAKNRMVFEAQNGVYAVRIATEGKTYTEKVIVK 5hgc-a2-m2-cA_5hgc-a2-m3-cA A Serpin structure H0ZQY2 H0ZQY2 2.43 X-RAY DIFFRACTION 38 1.0 59729 (Taeniopygia guttata) 59729 (Taeniopygia guttata) 373 373 5hgc-a2-m1-cA_5hgc-a2-m2-cA 5hgc-a2-m1-cA_5hgc-a2-m3-cA SNAEAMAALKLVPNNADFAFQFFREVTQEAPNKNIFYSPVSISTAFAMLALGARSATQSQILEGLAFNLTEIQEKEIHEGFHNLIHMLNHPEGGVQLNMMNAIFVTAALALLRKFLDDAKALYQLEAFTTDFNKPTEAEKQINDYIERKTHGKITNLVKDMDPQTVMLLASFVYFKGSWEKPFEAEHTEEREFFVDAETTVKVPMMYQMGRFDFYFDEELSCTVVRLHYNGSATAFLVLPAKGKMKQLEQTLDKETIQKWSDHLFQRFMNLYFPKFSISGSYEISNTLRKMGIVDVFTNQADLSGITGSPDLKVSKVVHKASLDVDEKGTTAVEIMPISFPPTIEFSHPFLMLIFDRDTNSTLFIGKIVNPTI SNAEAMAALKLVPNNADFAFQFFREVTQEAPNKNIFYSPVSISTAFAMLALGARSATQSQILEGLAFNLTEIQEKEIHEGFHNLIHMLNHPEGGVQLNMMNAIFVTAALALLRKFLDDAKALYQLEAFTTDFNKPTEAEKQINDYIERKTHGKITNLVKDMDPQTVMLLASFVYFKGSWEKPFEAEHTEEREFFVDAETTVKVPMMYQMGRFDFYFDEELSCTVVRLHYNGSATAFLVLPAKGKMKQLEQTLDKETIQKWSDHLFQRFMNLYFPKFSISGSYEISNTLRKMGIVDVFTNQADLSGITGSPDLKVSKVVHKASLDVDEKGTTAVEIMPISFPPTIEFSHPFLMLIFDRDTNSTLFIGKIVNPTI 5hgq-a2-m1-cD_5hgq-a2-m1-cC Loa loa Lysyl-tRNA synthetase in complex with Cladosporin. 3.283 X-RAY DIFFRACTION 257 0.987 7209 (Loa loa) 7209 (Loa loa) 470 473 5hgq-a1-m1-cA_5hgq-a1-m1-cB QEYFKLRTALINERRSKGINPYPHKFHVSISLADFIAKYNSLEKDVILNDIVQSVAGRVFSKRESKLIFYDLHGEGTRLQVLANARFHSGDEAFDNLHDRIKRGDIIGVNGYPARSKSGELSIIPYEIIQLTPCLHMLPHTQETRYRMRYLDLIMNPDVKNRFVTRSRMISFLRRYLDNLGFLEVETPMMNLIAGGATAKPFITHHNDLDMDLYLRVAPELYLKMLVVGGIDRVYEIGRVFRNEGIDQTHNPEFTSCEFYMAYADYEDLMKITEDMLARMVYYMHGTYKIQYHPNGIVENPVYEVDFTPPFRKVNIYDGLQEKLGIQFPPADTLDTDEANKFFDKLAVENAPRTTARLLDKLIGEFLEPTFISPTFLTGHPQIMSPLAKWHRSIPGLTERFELFVVTKEIVNAYTELNDPLTQRLRFDENYCTALEYGLPPTAGWGMGIDRLAMILTDSNNIKEVLFFPA EYFKLRTALINERRSKGINPYPHKFHVSISLADFIAKYNSLEKDVILNDIVQSVAGRVFSKRESGGKLIFYDLHGEGTRLQVLANARFHSGDEAFDNLHDRIKRGDIIGVNGYPARSKSGELSIIPYEIIQLTPCLHMLPHTHFGLNQETRYRMRYLDLIMNPDVKNRFVTRSRMISFLRRYLDNLGFLEVETPMMNLIAGGATAKPFITHHNDLDMDLYLRVAPELYLKMLVVGGIDRVYEIGRVFRNEGIDQTHNPEFTSCEFYMAYADYEDLMKITEDMLARMVYYMHGTYKIQYHPNGIVENPVYEVDFTPPFRKVNIYDGLQEKLGIQFPPADTDTDEANKFFDKLAPRTTARLLDKLIGEFLEPTFISPTFLTGHPQIMSPLAKWHRSIPGLTERFELFVVTKEIVNAYTELNDPLTQRLRFDEQENYCTALEYGLPPTAGWGMGIDRLAMILTDSNNIKEVLFFPA 5hgw-a1-m1-cA_5hgw-a1-m1-cB Crystal structure of a peptide deformylase from Burkholderia ambifaria B1YSH1 B1YSH1 1.6 X-RAY DIFFRACTION 45 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 174 174 5i2b-a1-m1-cA_5i2b-a1-m2-cA HHHMIREILKMGDPRLLEVAKPVAQFDTPELHEIVADMFETMHHANGAGLAAPQIGIGLQIIIFGFGSNNRYPDAPPVPETVLINPKLEYMPPDMEEGWEGCLSVPGMRGVVSRYAKVRYSGYDQFGAKIDRVAEGFHARVVQHEYDHLIGKLYPMRITDFTRFGFTEVLFPGL HHHMIREILKMGDPRLLEVAKPVAQFDTPELHEIVADMFETMHHANGAGLAAPQIGIGLQIIIFGFGSNNRYPDAPPVPETVLINPKLEYMPPDMEEGWEGCLSVPGMRGVVSRYAKVRYSGYDQFGAKIDRVAEGFHARVVQHEYDHLIGKLYPMRITDFTRFGFTEVLFPGL 5hh0-a1-m1-cA_5hh0-a1-m2-cA Crystal structure of human Naa60 in complex with CoA Q9H7X0 Q9H7X0 1.6 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 5hh1-a1-m1-cA_5hh1-a1-m2-cA ERSSALSEVSLRLLCHDDIDTVKHLCGDWFPIEYPDSWYRDITSNKKFFSLAATYRGAIVGMIVAEIKNRTKIHKEDGDILASNFSVDTQVAYILSLGVVKEFRKHGIGSLLLESLKDHISTTAQDHCKAIYLHVLTTNNTAINFYENRDFKQHHYLPYYYSIRGVLKDGFTYVLYINGGHPPWTILDYIQHLGS ERSSALSEVSLRLLCHDDIDTVKHLCGDWFPIEYPDSWYRDITSNKKFFSLAATYRGAIVGMIVAEIKNRTKIHKEDGDILASNFSVDTQVAYILSLGVVKEFRKHGIGSLLLESLKDHISTTAQDHCKAIYLHVLTTNNTAINFYENRDFKQHHYLPYYYSIRGVLKDGFTYVLYINGGHPPWTILDYIQHLGS 5hh3-a1-m1-cA_5hh3-a1-m1-cC OxyA from Actinoplanes teichomyceticus Q6ZZI8 Q6ZZI8 2.1 X-RAY DIFFRACTION 113 0.99 1867 (Actinoplanes teichomyceticus) 1867 (Actinoplanes teichomyceticus) 381 393 EEINVVRAAELHRRDRFDPVPQLRSLMAEGPLTTLGTGRTAWLATGYDEIRQVLSSDDFSARLLTAAGITWPGFLTQYDPPEHTRLRRMVAPAFAVRRMQKFQPQVERVVQDSLDAIEALGGPVDFVPRFGWSVATTATCDFLGIPRDDQADLARSLHASRTERSGKRRTAAGNKFMTYMNKMTARTRRDPGDDMFGVVVREYGDEITDAELTGVAAFVMGAGADQVARFLAAGAWLMADDPEQFALLREKPDTVPDWLDEVIRYLTTDEKTHPRVATDDVRIGDHLIKAGDTVTCSLLAANRRNFPRPEDRFDITRVRPEHLAFGHGIHHCLGRSLAELVFRTAIPALAHRFPTLRLAEPHREIRLGPPPFDVEALLLDW GIDPFTMFEEINVVRAAELHRRDRFDPVPQLRSLMAEGPLTTLGTEESPGGRTAWLATGYDEIRQVLSSDDFSARLLYGGTAAGIFLTQYDPPEHTRLRRMVAPAFAVRRMQKFQPQVERVVQDSLDAIEALGGPVDFVPRFGWSVATTATCDFLGIPRDDQADLARSLHASRTERSGKRRTAAGNKFMTYMNKMTARTRRDPGDDMFGVVVREYGDEITDAELTGVAAFVMGAGADQVARFLAAGAWLMADDPEQFALLREKPDTVPDWLDEVIRYLTTDEKTHPRVATDDVRIGDHLIKAGDTVTCSLLAANRRNFPRPEDRFDITRVRPEHLAFGHGIHHCLGRSLAELVFRTAIPALAHRFPTLRLAEPHREIRLGPPPFDVEALLLDW 5hhe-a1-m1-cD_5hhe-a1-m2-cD Human Beclin 1 coiled-coil domain Q14457 Q14457 1.46 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 3q8t-a1-m1-cA_3q8t-a1-m1-cB 5hhe-a2-m1-cA_5hhe-a2-m2-cA DDSEQLQMELKELALEEERLIQELEDVEKNRKIVAENLEKVQAEAERLDQEEAQYQREYSEFKRQQLELDDELKSVENQMRYAQTQLDKLKLE DDSEQLQMELKELALEEERLIQELEDVEKNRKIVAENLEKVQAEAERLDQEEAQYQREYSEFKRQQLELDDELKSVENQMRYAQTQLDKLKLE 5hhl-a1-m1-cB_5hhl-a1-m1-cA Reverse transcriptase domain of group II intron maturase from Eubacterium rectale in P21 space group D4JMT6 D4JMT6 2.1 X-RAY DIFFRACTION 102 1.0 657317 ([Eubacterium] rectale M104/1) 657317 ([Eubacterium] rectale M104/1) 290 292 5hhj-a1-m1-cB_5hhj-a1-m1-cA 5hhk-a1-m1-cB_5hhk-a1-m1-cA 5hhl-a2-m1-cH_5hhl-a2-m1-cC 5hhl-a3-m1-cD_5hhl-a3-m1-cE 5hhl-a4-m1-cF_5hhl-a4-m1-cG 5irf-a1-m1-cC_5irf-a1-m1-cA 5irf-a2-m1-cB_5irf-a2-m1-cD 5irg-a1-m1-cA_5irg-a1-m1-cD 5irg-a2-m1-cC_5irg-a2-m1-cB TSNLMEQILSSDNLNRAYLQVVRNKGAEGVDGMKYTELKEHLAKNGETIKGQLRTRKYKPQPARRVEIPKPDGGVRNLGVPTVTDRFIQQAIAQVLTPIYEEQFHDHSYGFRPNRCAQQAILTALNIMNDGNDWIVDIDLEKFFDTVNHDKLMTLIGRTIKDGDVISIVRKYLVSGIMIDDEYEDSIVGTPQGGNLSPLLANIMLNELDKEMEKRGLNFVRYADDCIIMVGSEMSANRVMRNISRFIEEKLGLKVNMTKSKVDRPSGLKYLGFGFYFDPRAHQFKAKPHA MDTSNLMEQILSSDNLNRAYLQVVRNKGAEGVDGMKYTELKEHLAKNGETIKGQLRTRKYKPQPARRVEIPKPDGGVRNLGVPTVTDRFIQQAIAQVLTPIYEEQFHDHSYGFRPNRCAQQAILTALNIMNDGNDWIVDIDLEKFFDTVNHDKLMTLIGRTIKDGDVISIVRKYLVSGIMIDDEYEDSIVGTPQGGNLSPLLANIMLNELDKEMEKRGLNFVRYADDCIIMVGSEMSANRVMRNISRFIEEKLGLKVNMTKSKVDRPSGLKYLGFGFYFDPRAHQFKAKPHA 5hhv-a1-m1-cB_5hhv-a1-m2-cB Inhibiting complex IL-17A and IL-17RA interactions with a linear peptide Q16552 Q16552 2.2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 TVMVNLNIHN TVMVNLNIHN 5hhx-a1-m1-cB_5hhx-a1-m2-cB Inhibiting complex IL-17A and IL-17RA interactions with a linear peptide Q16552 Q16552 3 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 TVMVNLNIHN TVMVNLNIHN 5hi8-a1-m1-cA_5hi8-a1-m1-cB Structure of T-type Phycobiliprotein Lyase CpeT from Prochlorococcus phage P-HM1 E3SMK9 E3SMK9 1.8 X-RAY DIFFRACTION 46 1.0 445700 (Prochlorococcus phage P-HM1) 445700 (Prochlorococcus phage P-HM1) 136 136 NSMIDKFCDWFEGEFDNWTQAASNPTKWAHIIVKHEKISEYKYHTSSRYSYMDKPYREQTVDIEYVCPELIIVHNPACDIIFKWTGIYFEGESEPDCQWNGQPLDSKARLYADEYHTWDVGYWEGSEGFFHFKKNV NSMIDKFCDWFEGEFDNWTQAASNPTKWAHIIVKHEKISEYKYHTSSRYSYMDKPYREQTVDIEYVCPELIIVHNPACDIIFKWTGIYFEGESEPDCQWNGQPLDSKARLYADEYHTWDVGYWEGSEGFFHFKKNV 5hif-a1-m1-cA_5hif-a1-m1-cB Crystal structure of a reconstructed lactonase ancestor, Anc1-MPH, of the bacterial methyl parathion hydrolase, MPH. 1.6 X-RAY DIFFRACTION 137 1.0 32630 (synthetic construct) 32630 (synthetic construct) 299 299 GTIGSMAAAPQVKTQAPGFYRMMLGDFEVTALSDGTVDLPVDKLLNQPPAKTQSALAKSFLKAPLETSVNAYLVNTGSKLVLVDTGAAGLFGPTLGKLAANLKAAGYQPEQVDEIYITHMHPDHVGGLMANEQAAFPNAVVRADQKDADFWLSQANLDKAPDDEKGFFQGAMASLNPYVKAGKFKPFSGNTDLVPGIKALASHGHTPGHTTYVVESKGQKLVLLGDLIHVAAVQFDDPSVTIQFDSDSKAAAAERKKAFADAAKGGYLIGAAHLSFPGIGHIRADGKGYRFVPVNYSVA GTIGSMAAAPQVKTQAPGFYRMMLGDFEVTALSDGTVDLPVDKLLNQPPAKTQSALAKSFLKAPLETSVNAYLVNTGSKLVLVDTGAAGLFGPTLGKLAANLKAAGYQPEQVDEIYITHMHPDHVGGLMANEQAAFPNAVVRADQKDADFWLSQANLDKAPDDEKGFFQGAMASLNPYVKAGKFKPFSGNTDLVPGIKALASHGHTPGHTTYVVESKGQKLVLLGDLIHVAAVQFDDPSVTIQFDSDSKAAAAERKKAFADAAKGGYLIGAAHLSFPGIGHIRADGKGYRFVPVNYSVA 5hiz-a1-m1-cA_5hiz-a1-m1-cB The structure of PEDV NSP9 P0C6Y4 P0C6Y4 2.9 X-RAY DIFFRACTION 61 1.0 229032 (Porcine epidemic diarrhea virus CV777) 229032 (Porcine epidemic diarrhea virus CV777) 96 96 5hiy-a2-m1-cC_5hiy-a2-m2-cC GKLKQRSIKAEGDGIVGEGKALYNNEGGRTFMYAFISDKPDLRVVKWGGCNTIELEPPRKFLVDSPNGAQIKYLYFVRNLNTLRRGAVLGYIGATV GKLKQRSIKAEGDGIVGEGKALYNNEGGRTFMYAFISDKPDLRVVKWGGCNTIELEPPRKFLVDSPNGAQIKYLYFVRNLNTLRRGAVLGYIGATV 5hj7-a1-m1-cA_5hj7-a1-m1-cB Glutamate Racemase Mycobacterium tuberculosis (MurI) with bound D-glutamate, 2.3 Angstrom resolution, X-ray diffraction P9WPW9 P9WPW9 2.3 X-RAY DIFFRACTION 102 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 254 260 NSPLAPVGVFDSGVGGLTVARAIIDQLPDEDIVYVGDTGNGPYGPLTIPEIRAHALAIGDDLVGRGVKALVIACNSASSACLRDARERYQVPVVEVILPAVRRAVAATRNGRIGVIGTRATITSHAYQDAFAAARDTEITAVACPRFVDFVERGVTSGRQVLGLAQGYLEPLQRAEVDTLVLGCTHYPLLSGLIQLAMGENVTLVSSAEETAKEVVRVLTEIDLLRPHDAPPATRIFEATGDPEAFTKLAARFL SHMNSPLAPVGVFDSGVGGLTVARAIIDQLPDEDIVYVGDTGNGPYGPLTIPEIRAHALAIGDDLVGRGVKALVIACNSASSACLRDARERYQVPVVEVILPAVRRAVAATRNGRIGVIGTRATITSHAYQDAFAAARDTEITAVACPRFVDFVERGVTSGRQVLGLAQGYLEPLQRAEVDTLVLGCTHYPLLSGLIQLAMGENVTLVSSAEETAKEVVRVLTEIDLLRPHDAPPATRIFEATGDPEAFTKLAARFLGPV 5hjd-a2-m1-cK_5hjd-a2-m1-cT AF9 YEATS in complex with histone H3 Crotonylation at K18 P42568 P42568 2.806 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 5hjd-a1-m1-cA_5hjd-a1-m1-cG 5hjd-a1-m1-cC_5hjd-a1-m1-cE 5hjd-a2-m1-cN_5hjd-a2-m1-cQ MASSCAVQVKLELGHRAQVRKKPTVEGFTHDWMVFVRGPEHSNIQHFVEKVVFHLHESFPRPKRVCKDPPYKVEESGYAGFILPIEVYFKNKEEPRKVRFDYDLFLHLEGHPPVNHLRCEKLTFNNPTEDFRRKLLKA MASSCAVQVKLELGHRAQVRKKPTVEGFTHDWMVFVRGPEHSNIQHFVEKVVFHLHESFPRPKRVCKDPPYKVEESGYAGFILPIEVYFKNKEEPRKVRFDYDLFLHLEGHPPVNHLRCEKLTFNNPTEDFRRKLLKA 5hjd-a2-m1-cQ_5hjd-a2-m1-cT AF9 YEATS in complex with histone H3 Crotonylation at K18 P42568 P42568 2.806 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 5hjd-a1-m1-cA_5hjd-a1-m1-cC 5hjd-a1-m1-cE_5hjd-a1-m1-cG 5hjd-a2-m1-cN_5hjd-a2-m1-cK MASSCAVQVKLELGHRAQVRKKPTVEGFTHDWMVFVRGPEHSNIQHFVEKVVFHLHESFPRPKRVCKDPPYKVEESGYAGFILPIEVYFKNKEEPRKVRFDYDLFLHLEGHPPVNHLRCEKLTFNNPTEDFRRKLLKA MASSCAVQVKLELGHRAQVRKKPTVEGFTHDWMVFVRGPEHSNIQHFVEKVVFHLHESFPRPKRVCKDPPYKVEESGYAGFILPIEVYFKNKEEPRKVRFDYDLFLHLEGHPPVNHLRCEKLTFNNPTEDFRRKLLKA 5hjl-a1-m1-cA_5hjl-a1-m1-cB Crystal structure of class I tagatose 1,6-bisphosphate aldolase LacD from Streptococcus porcinus 3 X-RAY DIFFRACTION 59 1.0 873448 (Streptococcus porcinus str. Jelinkova 176) 873448 (Streptococcus porcinus str. Jelinkova 176) 322 322 SNKKAYLEKVSRDGIISALAFDQRGALKRMMASHQKEEPTTEQIVSLKRLVSEELTPYASSILLDPEYGLPAIEVKDQKAGLLLAYEKTGYDAKTSSRLPDCLEDWSVKGLKAAGADAIRFLLYYDVDGNEAVNHQKKAYIERIGSECQAEDLPFFLEILTYDEKISDNSSIAFAKVKAHKVNEAMRVFSAKRFGIDVLKVEVPLNMAYVEGFTEGPILYSKADAALAFKEQEAASHLPYIYLSAGVSAQLFQETLIFAAQSGATFNGVLCGRATWADVVSVYIKEGEAAARQWLRQEGVKNIESLNDVLAKTASPWTNKVL SNKKAYLEKVSRDGIISALAFDQRGALKRMMASHQKEEPTTEQIVSLKRLVSEELTPYASSILLDPEYGLPAIEVKDQKAGLLLAYEKTGYDAKTSSRLPDCLEDWSVKGLKAAGADAIRFLLYYDVDGNEAVNHQKKAYIERIGSECQAEDLPFFLEILTYDEKISDNSSIAFAKVKAHKVNEAMRVFSAKRFGIDVLKVEVPLNMAYVEGFTEGPILYSKADAALAFKEQEAASHLPYIYLSAGVSAQLFQETLIFAAQSGATFNGVLCGRATWADVVSVYIKEGEAAARQWLRQEGVKNIESLNDVLAKTASPWTNKVL 5hjs-a1-m1-cA_5hjs-a1-m1-cB Identification of LXRbeta selective agonists for the treatment of Alzheimer's Disease Q13133 Q13133 1.72 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 226 3ipq-a1-m1-cA_3ipq-a1-m2-cA 3ips-a1-m1-cA_3ips-a1-m1-cB 3ipu-a1-m1-cB_3ipu-a1-m1-cA 5avi-a1-m1-cC_5avi-a1-m1-cA 5avl-a1-m1-cA_5avl-a1-m2-cA QLSPEQLGMIEKLVAAQQLRVTPWPSREARQQRFAHFTELAIVSVQEIVDFAKQLPGFLQLSREDQIALLKTSAIEVMLLETSRRYNPGSESITFLKDFSYNREDFAKAGLQVEFINPIFEFSRAMNELQLNDAEFALLIAISIFSADRPNVQDQLQVERLQHTYVEALHAYVSIHHPHDRLMFPRMLMKLVSLRTLSSVHSEQVFALRLQDKKLPPLLSEIWDVH QLSPEQLGMIEKLVAAQQLRVTPWPSREARQQRFAHFTELAIVSVQEIVDFAKQLPGFLQLSREDQIALLKTSAIEVMLLETSRRYNPGSESITFLKDFSYNREDFAKAGLQVEFINPIFEFSRAMNELQLNDAEFALLIAISIFSADRPNVQDQLQVERLQHTYVEALHAYVSIHHPHDRLMFPRMLMKLVSLRTLSSVHSEQVFALRLQDKKLPPLLSEIWDVH 5hk5-a4-m1-cH_5hk5-a4-m1-cG Structure of the Grem2-GDF5 Inhibitory Complex O88273 O88273 2.9 X-RAY DIFFRACTION 142 1.0 10090 (Mus musculus) 10090 (Mus musculus) 119 129 5hk5-a2-m1-cE_5hk5-a2-m1-cF WHHQIKEVLASSQEALVVTERKYLKSDWCKTQPLRQTVSEEGCRSRTILNRFCYGQCNSFYIPRHVKKEEDSFQSCAFCKPQRVTSVIVELECPGLDPPFRIKKIQKVKHCRCMSVNLS PAGAIPSPYKWHHQIKEVLASSQEALVVTERKYLKSDWCKTQPLRQTVSEEGCRSRTILNRFCYGQCNSFYIPRHVKKEEDSFQSCAFCKPQRVTSVIVELECPGLDPPFRIKKIQKVKHCRCMSVNLS 5hk8-a1-m1-cA_5hk8-a1-m1-cD Crystal structure of a methylesterase protein MES16 from Arabidopsis O23512 O23512 2.8 X-RAY DIFFRACTION 31 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 236 236 5hk8-a1-m1-cB_5hk8-a1-m1-cC 5hk8-a2-m1-cE_5hk8-a2-m2-cE 5hk8-a2-m1-cF_5hk8-a2-m2-cF VIHFVFVHGASHGAWCWYKLTTLLDAAGFKSTSVDLTGAGISLIDSNIVFDSDQYNRPLFSLLSDLPPHHKVILVGHSIGGGSVTEALCKFTDKISMAIYLAASMVQPGSIWEYTYGEGTDKPPTGVLMKPEFIRHYYYSQSPLEDVTLSSKLLRPAPMRAFQDLDKLPPNPEAEKVPRVYIKTAKDNLFDSVRQDLLVENWPPSQLYVLEDSDHSAFFSVPTTLFAYLLRAVSFL VIHFVFVHGASHGAWCWYKLTTLLDAAGFKSTSVDLTGAGISLIDSNIVFDSDQYNRPLFSLLSDLPPHHKVILVGHSIGGGSVTEALCKFTDKISMAIYLAASMVQPGSIWEYTYGEGTDKPPTGVLMKPEFIRHYYYSQSPLEDVTLSSKLLRPAPMRAFQDLDKLPPNPEAEKVPRVYIKTAKDNLFDSVRQDLLVENWPPSQLYVLEDSDHSAFFSVPTTLFAYLLRAVSFL 5hk8-a2-m2-cE_5hk8-a2-m2-cF Crystal structure of a methylesterase protein MES16 from Arabidopsis O23512 O23512 2.8 X-RAY DIFFRACTION 63 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 236 236 5hk8-a1-m1-cA_5hk8-a1-m1-cB 5hk8-a1-m1-cC_5hk8-a1-m1-cD 5hk8-a2-m1-cE_5hk8-a2-m1-cF VIHFVFVHGASHGAWCWYKLTTLLDAAGFKSTSVDLTGAGISLIDSNIVFDSDQYNRPLFSLLSDLPPHHKVILVGHSIGGGSVTEALCKFTDKISMAIYLAASMVQPGSIWEYTYGEGTDKPPTGVLMKPEFIRHYYYSQSPLEDVTLSSKLLRPAPMRAFQDLDKLPPNPEAEKVPRVYIKTAKDNLFDSVRQDLLVENWPPSQLYVLEDSDHSAFFSVPTTLFAYLLRAVSFL VIHFVFVHGASHGAWCWYKLTTLLDAAGFKSTSVDLTGAGISLIDSNIVFDSDQYNRPLFSLLSDLPPHHKVILVGHSIGGGSVTEALCKFTDKISMAIYLAASMVQPGSIWEYTYGEGTDKPPTGVLMKPEFIRHYYYSQSPLEDVTLSSKLLRPAPMRAFQDLDKLPPNPEAEKVPRVYIKTAKDNLFDSVRQDLLVENWPPSQLYVLEDSDHSAFFSVPTTLFAYLLRAVSFL 5hkc-a1-m1-cB_5hkc-a1-m1-cA Crystal structure of M. tuberculosis MazF-mt3 T52D-F62D mutant in complex with 8-mer RNA P9WII3 P9WII3 1.68 X-RAY DIFFRACTION 84 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 112 114 5hk0-a1-m1-cB_5hk0-a1-m1-cA 5hk0-a2-m1-cD_5hk0-a2-m1-cC 5hk3-a1-m1-cB_5hk3-a1-m1-cA VISRAEIYWADLPPSGSQPAKRRPVLVIQSDPYNASRLATVIAAVITSNDALAAMPGNVDLPATTTRLPRDSVVNVTAIVTLNKTDLTDRVGEVPASLMHEVDRGLRRVLDL MVISRAEIYWADLGPPSGSQPAKRRPVLVIQSDPYNASRLATVIAAVITSNDALAAMPGNVDLPATTTRLPRDSVVNVTAIVTLNKTDLTDRVGEVPASLMHEVDRGLRRVLDL 5hkd-a1-m1-cA_5hkd-a1-m1-cD Bacterial sodium channel neck 7G mutant Q0ABW0 Q0ABW0 3.8 X-RAY DIFFRACTION 59 1.0 351052 (Alkalilimnicola ehrlichii) 351052 (Alkalilimnicola ehrlichii) 121 123 5hk6-a1-m1-cD_5hk6-a1-m1-cA IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVDRLERR IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVDRLERRSG 5hkd-a1-m1-cB_5hkd-a1-m1-cA Bacterial sodium channel neck 7G mutant Q0ABW0 Q0ABW0 3.8 X-RAY DIFFRACTION 59 1.0 351052 (Alkalilimnicola ehrlichii) 351052 (Alkalilimnicola ehrlichii) 116 121 5hk6-a1-m1-cB_5hk6-a1-m1-cA IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVD IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVDRLERR 5hkd-a1-m1-cB_5hkd-a1-m1-cC Bacterial sodium channel neck 7G mutant Q0ABW0 Q0ABW0 3.8 X-RAY DIFFRACTION 58 1.0 351052 (Alkalilimnicola ehrlichii) 351052 (Alkalilimnicola ehrlichii) 116 123 IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVD IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVDRLERRSG 5hkd-a1-m1-cC_5hkd-a1-m1-cD Bacterial sodium channel neck 7G mutant Q0ABW0 Q0ABW0 3.8 X-RAY DIFFRACTION 71 1.0 351052 (Alkalilimnicola ehrlichii) 351052 (Alkalilimnicola ehrlichii) 123 123 5hk6-a1-m1-cC_5hk6-a1-m1-cD IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVDRLERRSG IAWIALLLLVIFYVFAVMGTKLFAQSFPEWFGTLGASMYTLFQVMTLESWSMGIARPVIEAYPWAWIYFVSFILVSSFTVLNLFIGIIIESMQEQRAHDERLEMLQLIRDLSSKVDRLERRSG 5hkh-a1-m1-cC_5hkh-a1-m1-cA Crystal structure of Ufm1 in complex with UBA5 P61960 P61960 2.55 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 86 SKVSFKITLTSDPRLPYKVLSVPESTPFTAVLKFAAEEFKVPAATSAIITNDGIGINPAQTAGNVFLKHGSELRIIPRD GAMESKVSFKITLTSDPRLPYKVLSVPESTPFTAVLKFAAEEFKVPAATSAIITNDGIGINPAQTAGNVFLKHGSELRIIPRDRVG 5hki-a2-m1-cC_5hki-a2-m1-cD Crystal structure of Mycobacterium tuberculosis H37Rv orotate phosphoribosyltransferase in complex with Fe(III) dicitrate P9WHK9 P9WHK9 2.4 X-RAY DIFFRACTION 107 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 168 175 5hki-a1-m1-cB_5hki-a1-m1-cA PDRAELAELVRRLSVVHGRVTLSSGREADYYVDLRRATLHHRASALIGRLMRELTADWDYSVVGGLTLGADPVATAIMHAPGRPIDAFVVRKSRLIEGSEVTGQRVLVVEDTSTTGNSALTAVHAVQDVGGEVVGVATVVDRATGAAEAIEAEGLRYRSVLGLADLGL PDRAELAELVRRLSVVHGRVTLSSGREADYYVDLRRATLHHRASALIGRLMRELTADWDYSVVGGLTLGADPVATAIMHAPGRPIDAFVVRKSAKAHGMQRLIEGSEVTGQRVLVVEDTSTTGNSALTAVHAVQDVGGEVVGVATVVDRATGAAEAIEAEGLRYRSVLGLADLGL 5hl8-a1-m1-cD_5hl8-a1-m1-cA 1.93 Angstrom resolution crystal structure of a pullulanase-specific type II secretion system integral cytoplasmic membrane protein GspL (C-terminal fragment; residues 309-397) from Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044 1.93 X-RAY DIFFRACTION 45 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 68 80 PLVDRLSALQNILSETPGIRLRALSWDAAGNRLQLDIAAVSSRALEQFTQRAQPRFRVRPGEGQLTLE HAPLVDRLSALQNILSETPGIRLRALSWDAAGNRLQLDIAAVSSRALEQFTQRAQPRFRVRPGDITKPDGIEGQLTLEEN 5hla-a1-m1-cA_5hla-a1-m2-cA E. coli PBP1b in complex with acyl-cephalexin and moenomycin P02919 P02919 2.36 X-RAY DIFFRACTION 20 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 697 697 5hlb-a1-m1-cA_5hlb-a1-m2-cA WLLLKLAIVFAVLIAIYGVYLDQKIRSRIDGKVWQLPAAVYGRMVNLEPDMTISKNEMVKLLEATQYRQVSKMTRPGEFTVQANSIEMIRRPFDFPDSKEGQVRARLTFDGDHLATIVNMENNRQFGFFRLDPRLITMISSPNGEQRLFVPRSGFPDLLVDTLLATEDRHFYETLTQQLVKNLFLSKANEAYMALIMDARYSKDRILELYMNEVYLGQSGDNEIRGFPLASLYYFGRPVEELSLDQQALLVGMVKGASIYNPWRNPKLALERRNLVLRLLQQQQIIDQELYDMLSARPLQPRGGVISPQPAFMQLVRQELQAKLGDKVKDLSGVKIFTTFDSVAQDAAEKAAVEGIPALKKQRKLSDLETAIVVVDRFSGEVRAMVGGSEPQFAGYNRAMQARRSIGSLAKPATYLTALSQPKIYRLNTWIADAPIALRQPNGQVWSPQNDDRRYSESGRVMLVDALTRSMNVPTVNLGMALGLPAVTETWIKLGVPKDQLHPVPAMLLGALNLTPIEVAQAFQTIASGGNRAPLSALRSVIAEDGKVLYQSFPQAERAVPAQAAYLTLWTMQQVVQRGTGRQLGAKYPNLHLAGKTGTTNNNVDTWFAGIDGSTVTITWVGRDNNQPTKLYGASGAMSIYQRYLANQTPTPLNLVPPEDIADMGVDYDGNFVCSGGMRILPVWTSDPQSLCQQSEM WLLLKLAIVFAVLIAIYGVYLDQKIRSRIDGKVWQLPAAVYGRMVNLEPDMTISKNEMVKLLEATQYRQVSKMTRPGEFTVQANSIEMIRRPFDFPDSKEGQVRARLTFDGDHLATIVNMENNRQFGFFRLDPRLITMISSPNGEQRLFVPRSGFPDLLVDTLLATEDRHFYETLTQQLVKNLFLSKANEAYMALIMDARYSKDRILELYMNEVYLGQSGDNEIRGFPLASLYYFGRPVEELSLDQQALLVGMVKGASIYNPWRNPKLALERRNLVLRLLQQQQIIDQELYDMLSARPLQPRGGVISPQPAFMQLVRQELQAKLGDKVKDLSGVKIFTTFDSVAQDAAEKAAVEGIPALKKQRKLSDLETAIVVVDRFSGEVRAMVGGSEPQFAGYNRAMQARRSIGSLAKPATYLTALSQPKIYRLNTWIADAPIALRQPNGQVWSPQNDDRRYSESGRVMLVDALTRSMNVPTVNLGMALGLPAVTETWIKLGVPKDQLHPVPAMLLGALNLTPIEVAQAFQTIASGGNRAPLSALRSVIAEDGKVLYQSFPQAERAVPAQAAYLTLWTMQQVVQRGTGRQLGAKYPNLHLAGKTGTTNNNVDTWFAGIDGSTVTITWVGRDNNQPTKLYGASGAMSIYQRYLANQTPTPLNLVPPEDIADMGVDYDGNFVCSGGMRILPVWTSDPQSLCQQSEM 5hlj-a1-m2-cA_5hlj-a1-m3-cA Crystal Structure of Major Envelope Protein VP24 from White Spot Syndrome Virus Q80BF2 Q80BF2 2.406 X-RAY DIFFRACTION 75 1.0 342409 (White spot syndrome virus) 342409 (White spot syndrome virus) 169 169 5hlj-a1-m1-cA_5hlj-a1-m2-cA 5hlj-a1-m1-cA_5hlj-a1-m3-cA DAYPVESEIINLTINGVARGNHFNFVNGTLQTRNYGKVYVAGQGTSDSELVKKKGDIILTSLLGDGDHTLNVNKAESKELELYARVYNNTKRDITVDSVSLSPGLNATGREFSANKFVLYFKPTVLKKNRINTLVFGATFDEDIDDTNRHYLLSMRFSPGNDLFKVGEK DAYPVESEIINLTINGVARGNHFNFVNGTLQTRNYGKVYVAGQGTSDSELVKKKGDIILTSLLGDGDHTLNVNKAESKELELYARVYNNTKRDITVDSVSLSPGLNATGREFSANKFVLYFKPTVLKKNRINTLVFGATFDEDIDDTNRHYLLSMRFSPGNDLFKVGEK 5hlz-a2-m1-cE_5hlz-a2-m1-cG Structure of Pro-Activin A Complex at 2.85 A resolution P08476 P08476 2.851 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 5hly-a1-m1-cA_5hly-a1-m2-cA 5hlz-a1-m1-cA_5hlz-a1-m1-cC QPEMVEAVKKHILNMLHLKKRPDVTQPVPKAALLNAIRKLHVGKVGENGYVEIEDDIGRRAEMNELMEQTSEIITFAESGTARKTLHFEISKEGSDLSVVERAEVWLFLKVPKANRTRTKVTIRLFQQQKSELLLSEKVVDARKSTWHVFPVSSSIQRLLDQGKSSLDVRIACEQCQESGASLVLLGEEKEQSHRPFLMLQARQ QPEMVEAVKKHILNMLHLKKRPDVTQPVPKAALLNAIRKLHVGKVGENGYVEIEDDIGRRAEMNELMEQTSEIITFAESGTARKTLHFEISKEGSDLSVVERAEVWLFLKVPKANRTRTKVTIRLFQQQKSELLLSEKVVDARKSTWHVFPVSSSIQRLLDQGKSSLDVRIACEQCQESGASLVLLGEEKEQSHRPFLMLQARQ 5hlz-a2-m1-cH_5hlz-a2-m1-cF Structure of Pro-Activin A Complex at 2.85 A resolution P08476 P08476 2.851 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 86 5hlz-a1-m1-cD_5hlz-a1-m1-cB GLECDGKVNICCKKQFFVSFKDIGWNDWIIAPSGYHANYCEGECPSSCCVPTKLRPMSMLYYDDGQNIIKKDIQNMIVEECGCS GLECDGKVNICCKKQFFVSFKDIGWNDWIIAPSGYHANYCEGECPSLKSCCVPTKLRPMSMLYYDDGQNIIKKDIQNMIVEECGCS 5hm4-a1-m1-cB_5hm4-a1-m2-cB Crystal structure of oligopeptide ABC transporter, periplasmic oligopeptide-binding protein (TM1226) from THERMOTOGA MARITIMA at 2.0 A resolution Q9X0V3 Q9X0V3 2 X-RAY DIFFRACTION 40 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 540 540 VLERNETMYYGGSLWSPPSNWNPFTPWNAVPGTTGLVYETMFFYDPLTGNFDPWLAEKGEWLDSKTYRVVLREGIYWHDNVPLTSEDVRFTFEIAKKYKGIHYSSVWEWLDHIETPDNRTVIFVFKDPRYHEWNELLYTLPIVPKHIWEEKDETTILQSSNEYPLGSGPYVAHSWDQNKMIFERFENWWGTKVMGVKPAPKYVVIVRVLSNNVALGMLMKGELDFSNFMLPGVPILKKVYNLNTWYDEPPYHLSSTVVGLFLNARKYPLSLPEFRRAIAMSINADPIVQRVYEGAVLKADPLGFLPNSVWMKYYPKEVVEKHGFKYDPEEAKSILDKLGFRDVNGDGFRETPDGKPIKLTIECPYGWTDWMQAIQVIVDQLKVVGINAEPYFPDSSKYYENMYKGEFDIEMNANGTGISSTPWTYFNTIFYPDALESEFSYTGNYGRYQNPEVESLLEELNRTPLDNVEKVTELCGKLGEILLKDLPFIPLWYGAMAFITQDNVWTNWPNEHNPYAWPCGWANWWQTGALKILFNLKPAK VLERNETMYYGGSLWSPPSNWNPFTPWNAVPGTTGLVYETMFFYDPLTGNFDPWLAEKGEWLDSKTYRVVLREGIYWHDNVPLTSEDVRFTFEIAKKYKGIHYSSVWEWLDHIETPDNRTVIFVFKDPRYHEWNELLYTLPIVPKHIWEEKDETTILQSSNEYPLGSGPYVAHSWDQNKMIFERFENWWGTKVMGVKPAPKYVVIVRVLSNNVALGMLMKGELDFSNFMLPGVPILKKVYNLNTWYDEPPYHLSSTVVGLFLNARKYPLSLPEFRRAIAMSINADPIVQRVYEGAVLKADPLGFLPNSVWMKYYPKEVVEKHGFKYDPEEAKSILDKLGFRDVNGDGFRETPDGKPIKLTIECPYGWTDWMQAIQVIVDQLKVVGINAEPYFPDSSKYYENMYKGEFDIEMNANGTGISSTPWTYFNTIFYPDALESEFSYTGNYGRYQNPEVESLLEELNRTPLDNVEKVTELCGKLGEILLKDLPFIPLWYGAMAFITQDNVWTNWPNEHNPYAWPCGWANWWQTGALKILFNLKPAK 5hmb-a1-m1-cA_5hmb-a1-m4-cA Crystal structure of S. sahachiroi AziG B4XYA6 B4XYA6 2.151 X-RAY DIFFRACTION 26 1.0 285525 (Streptomyces sahachiroi) 285525 (Streptomyces sahachiroi) 125 125 5hmb-a1-m2-cA_5hmb-a1-m3-cA 5hmc-a1-m1-cA_5hmc-a1-m4-cA 5hmc-a1-m2-cA_5hmc-a1-m3-cA RLGPYVEHLGLQFERIDPDRAVAYWSVRADLLQPHGILHGGVHCAVVESVASAAADRWLGDRGTVVGVSNSTDFFAPATVADGRLTSTALPVHRGATQQVWSVETVDAAGRLVARGQVRLHNLRL RLGPYVEHLGLQFERIDPDRAVAYWSVRADLLQPHGILHGGVHCAVVESVASAAADRWLGDRGTVVGVSNSTDFFAPATVADGRLTSTALPVHRGATQQVWSVETVDAAGRLVARGQVRLHNLRL 5hmb-a1-m3-cA_5hmb-a1-m4-cA Crystal structure of S. sahachiroi AziG B4XYA6 B4XYA6 2.151 X-RAY DIFFRACTION 108 1.0 285525 (Streptomyces sahachiroi) 285525 (Streptomyces sahachiroi) 125 125 5hmb-a1-m1-cA_5hmb-a1-m2-cA 5hmc-a1-m1-cA_5hmc-a1-m2-cA 5hmc-a1-m3-cA_5hmc-a1-m4-cA RLGPYVEHLGLQFERIDPDRAVAYWSVRADLLQPHGILHGGVHCAVVESVASAAADRWLGDRGTVVGVSNSTDFFAPATVADGRLTSTALPVHRGATQQVWSVETVDAAGRLVARGQVRLHNLRL RLGPYVEHLGLQFERIDPDRAVAYWSVRADLLQPHGILHGGVHCAVVESVASAAADRWLGDRGTVVGVSNSTDFFAPATVADGRLTSTALPVHRGATQQVWSVETVDAAGRLVARGQVRLHNLRL 5hmn-a3-m1-cA_5hmn-a3-m1-cB Crystal structure of an aminoglycoside acetyltransferase HMB0005 from an uncultured soil metagenomic sample, unknown active site density modeled as polyethylene glycol A0A059WV44 A0A059WV44 2.018 X-RAY DIFFRACTION 196 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 151 159 5hmn-a1-m1-cE_5hmn-a1-m1-cC 5hmn-a2-m1-cF_5hmn-a2-m1-cD SLDVHQLSPNEVALMETLLATFGEAFNDMETYTGNRPRGAYSRRLLESDYFIALAALEYGEIVGGLAAYELKKFEQERSEIYIYDLAVAKAHRRRGIATALIEKLKELGAARGAYVIFVQADTAIEDEPAIALYSKLGVREEVLHFDIPVS QSMSLDVHQLSPNEVALMETLLATFGEAFNDMETYTGNRPRGAYSRRLLESDYFIALAALEYGEIVGGLAAYELKKFEQERSEIYIYDLAVAKAHRRRGIATALIEKLKELGAARGAYVIFVQADTAIEDEPAIALYSKLGVREEVLHFDIPVSQNNVD 5hmq-a3-m1-cE_5hmq-a3-m1-cD xylose isomerase-like TIM barrel/4-hydroxyphenylpyruvate dioxygenase fusion protein Q88JU3 Q88JU3 2.371 X-RAY DIFFRACTION 209 0.997 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 612 615 5hmq-a1-m1-cA_5hmq-a1-m1-cC 5hmq-a2-m1-cB_5hmq-a2-m1-cF AKQRSIATVSLSGTLPEKLEAIAAAGFDGVEIFENDLLYYAGSPRQVRQCADLGIAITLFQPFRDFEGCRRDRLQKNLDRAERKFDLQELGTDLVLVCSNVQADALGDEQLLVDDLRLLGEHAGKRGLRIGYEALAWGRHVNTYQQVWNLVRQADHPALGVILDSFHTLSLKGDPSAIRDIPGDKIFFVQADAPILADVLEWSRHFRCFPGQGEDAGFLAPILATGYRGPLSLEIFNDGFAAPTRQNAADGLRSLLYLEEQTRLRLEQENTPIEPGVLFSPPPASAYDGVEFLEFAVDEAVGARLGNWLKRLGFAEAGKHRSKEVQLLRQGDINIVLNAEPYSFGHNFFEAHGPSLCATALRVKDQQAALKRATAFRGQPFRGLVGPNECEVPAVRAPDGSLLYLVEQGTLYDTDFSLDNNATATGGLRRIDHALALPAESLDSWVLFYKSLFDFAADDEVVGLVKSRALRSQCGTLRLPLNISENRNTAIAHALSSYRGSGVHHIAFDCDDIFREVARAKLAGVPLLEIPLNYYDDLAARFDFDDEFLSELAYYNVLYDRDAQGGELFHVYTEPFEERFFFEIIQRKAGYAGYGAANVAVRLAAAKARSGA AKQRSIATVSLSGTLPEKLEAIAAAGFDGVEIFENDLLYYAGSPRQVRQCADLGIAITLFQPFRDFEGCRRDRLQKNLDRAERKFDLQELGTDLVLVCSNVQADALGDEQLLVDDLRLLGEHAGKRGLRIGYEALAWGRHVNTYQQVWNLVRQADHPALGVILDSFHTLSLKGDPSAIRDIPGDKIFFVQADAPILADVLEWSRHFRCFPGQGEDAGFLAPILATGYRGPLSLEIFNDGFRAAPTRQNAADGLRSLLYLEEQTRLRLEQENTPIEPGVLFSPPPASAYDGVEFLEFAVDEAVGARLGNWLKRLGFAEAGKHRSKEVQLLRQGDINIVLNAEPYSFGHNFFEAHGPSLCATALRVKDQQAALKRATAFRGQPFRGLVGPNECEVPAVRAPDGSLLYLVEQGTHTLYDTDFSLDNNATATGGLRRIDHALALPAESLDSWVLFYKSLFDFAADDEVVLPGLVKSRALRSQCGTLRLPLNISENRNTAIAHALSSYRGSGVHHIAFDCDDIFREVARAKLAGVPLLEIPLNYYDDLAARFDFDDEFLSELAYYNVLYDRDAQGGELFHVYTEPFEERFFFEIIQRKAGYAGYGAANVAVRLAAAKARS 5hn1-a1-m1-cB_5hn1-a1-m1-cA Crystal structure of Interleukin-37 Q9NZH6 Q9NZH6 2.25 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 157 PKVKNLNPKKFSIHDQDHKVLVLDSGNLIAVPDKNYIRPEIFFALASSLSSASAEKGSPILLGVSKGEFCLYCDKSHPSLQLKKEKLMKLAAQKESARRPFIFYRAQGSWNMLESAAHPGWFICTSCNCNEPVGVTDKFKHIEFSFQPV SPKVKNLNPKKFSIHDQDHKVLVLDSGNLIAVPDKNYIRPEIFFALASSLSSASAEKGSPILLGVSKGEFCLYCDKDGQSHPSLQLKKEKLMKLAAQKESARRPFIFYRAQVGSWNMLESAAHPGWFICTSCNCNEPVGVTDKFENRKHIEFSFQPV 5hn3-a1-m1-cA_5hn3-a1-m4-cA Crystal structure of beta-decarboxylating dehydrogenase (TK0280) from Thermococcus kodakarensis (apo form) Q5JFV8 Q5JFV8 1.7 X-RAY DIFFRACTION 25 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 332 332 5hn3-a1-m2-cA_5hn3-a1-m3-cA MYRVAVIPGDGIGPEVIDGAVRVLKAVTGRVRFEYYEGGVDVFQECGSPIREEDLEEIRRSDAVLFGATTTPFDLPGYRSLILTLRKELGLYANLRIIPDLRTGREIVIVRENSEGLYFGIGAVVNGRAVDVRLITREGAERIARFAVEQAKARGSFITFVHKANVLTGDKFFRRIVREVAGEEGVEVRDAIIDSFTIKLVRNPWEHGVILSENLFGDILSDLATVHAGSIGIVPSGNYGDGIALFEPVHGSAPDIAGKGIANPIGAILSGAMLLDYLGLDGSLIRAAVRGYVVNGELTPDMGGRARTEDVVRGIIGEIEDLLSMDEVWRDE MYRVAVIPGDGIGPEVIDGAVRVLKAVTGRVRFEYYEGGVDVFQECGSPIREEDLEEIRRSDAVLFGATTTPFDLPGYRSLILTLRKELGLYANLRIIPDLRTGREIVIVRENSEGLYFGIGAVVNGRAVDVRLITREGAERIARFAVEQAKARGSFITFVHKANVLTGDKFFRRIVREVAGEEGVEVRDAIIDSFTIKLVRNPWEHGVILSENLFGDILSDLATVHAGSIGIVPSGNYGDGIALFEPVHGSAPDIAGKGIANPIGAILSGAMLLDYLGLDGSLIRAAVRGYVVNGELTPDMGGRARTEDVVRGIIGEIEDLLSMDEVWRDE 5hn4-a1-m1-cA_5hn4-a1-m2-cA Crystal structure of beta-decarboxylating dehydrogenase (TK0280) from Thermococcus kodakarensis complexed with Mn and homoisocitrate Q5JFV8 Q5JFV8 2.64 X-RAY DIFFRACTION 140 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 329 329 5hn3-a1-m1-cA_5hn3-a1-m2-cA 5hn3-a1-m3-cA_5hn3-a1-m4-cA 5hn5-a1-m1-cA_5hn5-a1-m2-cA 5hn6-a1-m1-cA_5hn6-a1-m2-cA MYRVAVIPGDGIGPEVIDGAVRVLKAVTGRVRFEYYEGGVDVFQECGSPIREEDLEEIRRSDAVLFGATTTPFDLPGYRSLILTLRKELGLYANLRIIPDLRTGREIVIVRENSEGLYFGIGAVVNGRAVDVRLITREGAERIARFAVEQAKARGSFITFVHKANVLTGDKFFRRIVREVAGEEGVEVRDAIIDSFTIKLVRNPWEHGVILSENLFGDILSDLATVHAGSIGIVPSGNYGDGIALFEPVHGSAPDIAGKGIANPIGAILSGAMLLDYLGLDGSLIRAAVRGYVVNGELTPDMGGRARTEDVVRGIIGEIEDLLSMDEVW MYRVAVIPGDGIGPEVIDGAVRVLKAVTGRVRFEYYEGGVDVFQECGSPIREEDLEEIRRSDAVLFGATTTPFDLPGYRSLILTLRKELGLYANLRIIPDLRTGREIVIVRENSEGLYFGIGAVVNGRAVDVRLITREGAERIARFAVEQAKARGSFITFVHKANVLTGDKFFRRIVREVAGEEGVEVRDAIIDSFTIKLVRNPWEHGVILSENLFGDILSDLATVHAGSIGIVPSGNYGDGIALFEPVHGSAPDIAGKGIANPIGAILSGAMLLDYLGLDGSLIRAAVRGYVVNGELTPDMGGRARTEDVVRGIIGEIEDLLSMDEVW 5hn9-a2-m1-cC_5hn9-a2-m1-cD Crystal structure of Plasmodium vivax geranylgeranylpyrophosphate synthase complexed with BPH-1186 A5K4U6 A5K4U6 2.12 X-RAY DIFFRACTION 185 0.994 126793 (Plasmodium vivax Sal-1) 126793 (Plasmodium vivax Sal-1) 334 347 3cc9-a1-m1-cA_3cc9-a1-m1-cB 3ez3-a1-m1-cB_3ez3-a1-m1-cA 3ez3-a2-m1-cD_3ez3-a2-m1-cC 3ldw-a1-m1-cB_3ldw-a1-m1-cA 3ldw-a2-m1-cD_3ldw-a2-m1-cC 3mav-a1-m1-cB_3mav-a1-m1-cA 3mav-a2-m1-cC_3mav-a2-m1-cD 3ph7-a1-m1-cA_3ph7-a1-m1-cB 3ph7-a2-m1-cC_3ph7-a2-m1-cD 3rbm-a1-m1-cA_3rbm-a1-m1-cB 3rbm-a2-m1-cC_3rbm-a2-m1-cD 3ryw-a1-m1-cA_3ryw-a1-m1-cD 3ryw-a2-m1-cC_3ryw-a2-m1-cB 3ryw-a3-m1-cA_3ryw-a3-m1-cD 3ryw-a3-m2-cC_3ryw-a3-m2-cB 5hn7-a1-m1-cA_5hn7-a1-m1-cE 5hn7-a2-m1-cB_5hn7-a2-m1-cC 5hn7-a3-m1-cG_5hn7-a3-m1-cD 5hn7-a4-m1-cF_5hn7-a4-m1-cH 5hn8-a2-m1-cB_5hn8-a2-m1-cD 5hn9-a1-m1-cA_5hn9-a1-m1-cB 5hna-a1-m1-cA_5hna-a1-m1-cB 5hna-a2-m1-cC_5hna-a2-m1-cD FRNMYDKYRDAFLSHLNEYSLEEEIKEHISKYYKLLFDYNCLGGKNNRGILVILIYEYVINSSEWEKAACLAWCIEILQAAFLVADDIMDKGEMRRNKYCWYLLKDVETKNAVNDVLLLYNSIYKLIEIYLRNESCYVDVIATFRDATLKTIIGQHLDTNIFSDKYSIDVNNIQPVIDINMINFGVYKNIVIHKTAYYSFFLPIVCGMLLAGIDNLIYKKIEDISMLMGEYFQIHDDYLDITGKVSDIQNNKLTWPLIKTFELCSEPDKIKIVKNYGKNNLACVKVIDSLYEQYKIRKHYESYEKAQKAKILSAINELHHEGIEYVLKYLLEIL AFFRNMYDKYRDAFLSHLNEYSLEEEIKEHISKYYKLLFDYNCLGGKNNRGILVILIYEYVKNRINSSEWEKAACLAWCIEILQAAFLVADDIMDKGEMRRNKYCWYLLKDVETKNAVNDVLLLYNSIYKLIEIYLRNESCYVDVIATFRDATLKTIIGQHLDTNIFSDKYIDVNNINPVIDINMINFGVYKNIVIHKTAYYSFFLPIVCGMLLAGIDNLIYKKIEDISMLMGEYFQIHDDYLDIFGDSTKTGKVSDIQNNKLTWPLIKTFELCSEPDKIKIVKNYGKNNLACVKVIDSLYEQYKIRKHYESYEKAQKAKILSAINELHHEGIEYVLKYLLEILFTG 5hno-a2-m1-cC_5hno-a2-m2-cC The structure of the kdo-capped saccharide binding subunit of the O-12 specific ABC transporter, Wzt Q6U8B1 Q6U8B1 1.7 X-RAY DIFFRACTION 131 1.0 577 (Raoultella terrigena) 577 (Raoultella terrigena) 166 166 5hno-a1-m1-cA_5hno-a1-m1-cB 5hnp-a1-m1-cA_5hnp-a1-m1-cB EEVSVEELKAIQLRTTNEATGEKRFGSARAIIEDLTIYKSDGTTLAEKPLIKSGEEVTFDFTILASEEIKDIALGISMSKAQGGDIWGDSNIGAGSAITLRPGRQRIVYKATLPINSGDYLIHCGLAKVGNGDREELDQRRPMMKVKFWSARELGGVIHAPLKIIS EEVSVEELKAIQLRTTNEATGEKRFGSARAIIEDLTIYKSDGTTLAEKPLIKSGEEVTFDFTILASEEIKDIALGISMSKAQGGDIWGDSNIGAGSAITLRPGRQRIVYKATLPINSGDYLIHCGLAKVGNGDREELDQRRPMMKVKFWSARELGGVIHAPLKIIS 5hnu-a1-m1-cA_5hnu-a1-m1-cC Crystal Structure of AKR1C3 complexed with octyl gallate P42330 P42330 2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 315 5hnt-a1-m1-cC_5hnt-a1-m1-cA QCVKLNDGHFMPVLGFGTYAPPEVPRSKALEVTKLAIEAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSTFHRPELVRPALENSLKKAQLDYVDLYLIHSPMSLKPGEELSPTDENGKVIFDIVDLCTTWEAMEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNRSKLLDFCKSKDIVLVAYSALGSQRDKRWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTAEDMKAIDGLDRNLHYFNSDSFASHPNYPYS QCVKLNDGHFMPVLGFGTYAPPEVPRSKALEVTKLAIEAGFRHIDSAHLYNNEEQVGLAIRSKIADGSVKREDIFYTSKLWSTFHRPELVRPALENSLKKAQLDYVDLYLIHSPMSLKPGEELSPTDENGKVIFDIVDLCTTWEAMEKCKDAGLAKSIGVSNFNRRQLEMILNKPGLKYKPVCNQVECHPYFNRSKLLDFCKSKDIVLVAYSALGSQRDKRWVDPNSPVLLEDPVLCALAKKHKRTPALIALRYQLQRGVVVLAKSYNEQRIRQNVQVFEFQLTAEDMKAIDGLDRNLHYFNSDSFASHPNYPYS 5hob-a1-m1-cB_5hob-a1-m1-cC p73 homo-tetramerization domain mutant I O15350 O15350 1.22001 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 46 2kby-a1-m1-cA_2kby-a1-m1-cD 2kby-a1-m1-cB_2kby-a1-m1-cC 2wqi-a1-m1-cB_2wqi-a1-m1-cC DTYYLQVRGRKNFEILMELKRSLELMELVPQPLVDSYEQQQQLLQ EDTYYLQVRGRKNFEILMELKRSLELMELVPQPLVDSYEQQQQLLQ 5hok-a2-m3-cA_5hok-a2-m1-cD MamB-CTD mutant - D247A W6KHH6 W6KHH6 1.7 X-RAY DIFFRACTION 49 1.0 1288970 (Magnetospira sp. QH-2) 1288970 (Magnetospira sp. QH-2) 83 84 5ho1-a1-m1-cB_5ho1-a1-m1-cA 5ho3-a1-m1-cA_5ho3-a1-m1-cB 5ho5-a1-m1-cC_5ho5-a1-m1-cB 5ho5-a2-m2-cA_5ho5-a2-m1-cD 5ho5-a3-m1-cA_5ho5-a3-m3-cD 5hok-a1-m1-cA_5hok-a1-m2-cD 5hok-a3-m1-cC_5hok-a3-m1-cB SHMNDVLVDAYNIAKDSQHVHGVHYIRGRNVGEDVHLAINIYVDADLKVFESDLVADAIRRKIEAEVDHVRDVHVGVTPVRIA GSHMNDVLVDAYNIAKDSQHVHGVHYIRGRNVGEDVHLAINIYVDADLKVFESDLVADAIRRKIEAEVDHVRDVHVGVTPVRIA 5hot-a1-m1-cA_5hot-a1-m2-cB Structural Basis for Inhibitor-Induced Aggregation of HIV-1 Integrase Q72498 Q72498 4.4 X-RAY DIFFRACTION 22 0.99 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 209 213 CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQEFQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRKYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQM CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQENPQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRIGGYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA 5hot-a1-m1-cB_5hot-a1-m2-cB Structural Basis for Inhibitor-Induced Aggregation of HIV-1 Integrase Q72498 Q72498 4.4 X-RAY DIFFRACTION 50 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 213 213 CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQENPQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRIGGYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQENPQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRIGGYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA 5hot-a1-m2-cA_5hot-a1-m1-cB Structural Basis for Inhibitor-Induced Aggregation of HIV-1 Integrase Q72498 Q72498 4.4 X-RAY DIFFRACTION 22 0.99 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 209 213 CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQEFQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRKYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQM CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQENPQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRIGGYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA 5hot-a2-m1-cA_5hot-a2-m1-cB Structural Basis for Inhibitor-Induced Aggregation of HIV-1 Integrase Q72498 Q72498 4.4 X-RAY DIFFRACTION 66 0.99 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 209 213 5hot-a1-m1-cA_5hot-a1-m1-cB 5hot-a1-m2-cA_5hot-a1-m2-cB 6nuj-a1-m1-cA_6nuj-a1-m2-cA CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQEFQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRKYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQM CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTVHTDNGSNFTSTTVKAACWWAGIKQENPQSQGVIESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNHKRIGGYSAGERIVDIIATDIQTKELQKQITKIQNFRVYYRDSRDPVWKGPAKLLWKGEGAVVIQDNSDIKVVPRRKAKIIRDYGKQMA 5hp7-a1-m2-cA_5hp7-a1-m3-cA Crystal structures of RidA in the apo form Q94JQ4 Q94JQ4 2 X-RAY DIFFRACTION 54 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 108 108 5hp7-a1-m1-cA_5hp7-a1-m2-cA 5hp7-a1-m1-cA_5hp7-a1-m3-cA 5hp8-a1-m1-cA_5hp8-a1-m1-cB 5hp8-a1-m1-cA_5hp8-a1-m1-cC 5hp8-a1-m1-cB_5hp8-a1-m1-cC SQAIKANNLVFLSGVLGLIPETGKFVSESVEDQTEQVLKNMGEILKASGADYSSVVKTTIMLADLADFKTVNEIYAKYFPAPSPARSTYQVAALPLNAKIEIECIATL SQAIKANNLVFLSGVLGLIPETGKFVSESVEDQTEQVLKNMGEILKASGADYSSVVKTTIMLADLADFKTVNEIYAKYFPAPSPARSTYQVAALPLNAKIEIECIATL 5hpg-a1-m1-cA_5hpg-a1-m1-cB STRUCTURE AND LIGAND DETERMINANTS OF THE RECOMBINANT KRINGLE 5 DOMAIN OF HUMAN PLASMINOGEN P00747 P00747 1.66 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 84 DCMFGNGKGYRGKRVTTVTGTPCQDWAAQEPHRHSIFTPETNPRAGLEKNYCRNPDGDVGGPWCYTTNPRKLYDYCDVPQCAAP DCMFGNGKGYRGKRVTTVTGTPCQDWAAQEPHRHSIFTPETNPRAGLEKNYCRNPDGDVGGPWCYTTNPRKLYDYCDVPQCAAP 5hph-a1-m1-cA_5hph-a1-m1-cB Structure of TRAP1 fragment Q12931 Q12931 2.429 X-RAY DIFFRACTION 261 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 482 483 4z1i-a1-m1-cA_4z1i-a1-m1-cC 4z1i-a2-m1-cD_4z1i-a2-m1-cB 6xg6-a1-m1-cA_6xg6-a1-m1-cB 7kck-a1-m1-cA_7kck-a1-m1-cB 7kcl-a1-m1-cA_7kcl-a1-m1-cB 7kcm-a1-m1-cA_7kcm-a1-m1-cB 7klu-a1-m1-cA_7klu-a1-m1-cB 7klu-a1-m1-cD_7klu-a1-m1-cC 7klv-a1-m1-cA_7klv-a1-m1-cB PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNTLQAIWMMDPKDVREWQHEEFYRYVAQAHDKPRYTLHYKTDAPLNIRSIFYVPDMKPSMFDVSRELGSSVALYSRKVLIQTKATDILPKWLRFIRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRLIKFFIDQSKKDAEKYAKFFEDYGLFMREGIVTATEQEVKEDIAKLLRYESSALPSGQLTSLSEYASRMRAGTRNIYYLCAPNRHLAEHSPYYEAMKKKDTEVLFCFEQFDELTLLHLREFDKKKLISVE PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNTLQAIWMMDPKDVREWQHEEFYRYVAQAHDKPRYTLHYKTDAPLNIRSIFYVPDMKPSMFDVSRELGSSVALYSRKVLIQTKATDILPKWLRFIRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRLIKFFIDQSKKDAEKYAKFFEDYGLFMREGIVTATEQEVKEDIAKLLRYESSALPSGQLTSLSEYASRMRAGTRNIYYLCAPNRHLAEHSPYYEAMKKKDTEVLFCFEQFDELTLLHLREFDKKKLISVET 5hpj-a1-m1-cA_5hpj-a1-m2-cA Photobacterium profundum alpha-carbonic anhydrase Q6LM17 Q6LM17 1.5 X-RAY DIFFRACTION 63 1.0 298386 (Photobacterium profundum SS9) 298386 (Photobacterium profundum SS9) 217 217 EWSYTGEHGTEHWGDSFATCAEGVNQTPIDINQTTQAELAPLHLDYEGQVTELVNNGHTIQANLTGKNTLTVDGKTFELKQFHFHTPSENYLKGKQYPLEAHFVHATDKGELAVVAVMFDFGPRSNNELTTLLASIPSKGQTVELKEALNPADLLPRDREYYRFNGSLTTPPCSEGVRWFVMQEPQTSSKAQTEKLQAVMGNNARPLQPLNARLILE EWSYTGEHGTEHWGDSFATCAEGVNQTPIDINQTTQAELAPLHLDYEGQVTELVNNGHTIQANLTGKNTLTVDGKTFELKQFHFHTPSENYLKGKQYPLEAHFVHATDKGELAVVAVMFDFGPRSNNELTTLLASIPSKGQTVELKEALNPADLLPRDREYYRFNGSLTTPPCSEGVRWFVMQEPQTSSKAQTEKLQAVMGNNARPLQPLNARLILE 5hpz-a1-m1-cA_5hpz-a1-m2-cB type II water soluble Chl binding proteins Q8H0F0 Q8H0F0 1.96 X-RAY DIFFRACTION 17 1.0 3700 (Brassicaceae) 3700 (Brassicaceae) 175 175 5hpz-a1-m1-cB_5hpz-a1-m2-cA 6s2z-a1-m1-cA_6s2z-a1-m3-cA 6s2z-a1-m2-cA_6s2z-a1-m4-cA REQVKDSNGNPVKRGAKYFIQPAKSNGGGLVPAAINILPFCPLGITQTLLPYQPGLPVSFGYEPVIAGTDYIYTSTTINIEFRSEIWPVCNELSKLWAVDVSSSAAKEPAIIIGGERTAPNSLFKIEEATGAHTYKLTTSSGTVGTIPGPWLGAPQLIATNDDAKTLFVKFVKVD REQVKDSNGNPVKRGAKYFIQPAKSNGGGLVPAAINILPFCPLGITQTLLPYQPGLPVSFGYEPVIAGTDYIYTSTTINIEFRSEIWPVCNELSKLWAVDVSSSAAKEPAIIIGGERTAPNSLFKIEEATGAHTYKLTTSSGTVGTIPGPWLGAPQLIATNDDAKTLFVKFVKVD 5hpz-a1-m2-cA_5hpz-a1-m2-cB type II water soluble Chl binding proteins Q8H0F0 Q8H0F0 1.96 X-RAY DIFFRACTION 30 1.0 3700 (Brassicaceae) 3700 (Brassicaceae) 175 175 5hpz-a1-m1-cA_5hpz-a1-m1-cB 6s2z-a1-m1-cA_6s2z-a1-m4-cA 6s2z-a1-m2-cA_6s2z-a1-m3-cA REQVKDSNGNPVKRGAKYFIQPAKSNGGGLVPAAINILPFCPLGITQTLLPYQPGLPVSFGYEPVIAGTDYIYTSTTINIEFRSEIWPVCNELSKLWAVDVSSSAAKEPAIIIGGERTAPNSLFKIEEATGAHTYKLTTSSGTVGTIPGPWLGAPQLIATNDDAKTLFVKFVKVD REQVKDSNGNPVKRGAKYFIQPAKSNGGGLVPAAINILPFCPLGITQTLLPYQPGLPVSFGYEPVIAGTDYIYTSTTINIEFRSEIWPVCNELSKLWAVDVSSSAAKEPAIIIGGERTAPNSLFKIEEATGAHTYKLTTSSGTVGTIPGPWLGAPQLIATNDDAKTLFVKFVKVD 5hqw-a1-m1-cB_5hqw-a1-m1-cA Crystal structure of a trans-AT PKS dehydratase domain of C0ZGQ6 from Brevibacillus brevis C0ZGQ6 C0ZGQ6 2.39 X-RAY DIFFRACTION 38 1.0 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 271 287 PAYLHPLLHQNTSTLSEQRYSSTFTGQEFFLRDHVVNGQKVLPGVAYLEMARVAVDMAAGVRTDNHSAIQLKNIVWAKPVIVEDAPIQVHKGLYPEENGEITFEIYSHPREAEESLVVHSQGRAVLRSAMEAPALDLSAIQAQCTESSYSFSQCYETFHRIGLAYGPSHQGIEKLFVGPDQVLAKLVLPSSVTGTAEKFVLHPSVMDAALQASLSLPFALEELNIYSASTAAAWALVRYSDGNATTQKVQKLDIDLCDEQGTICVSMKGFT PAYLHPLLHQNTSTLSEQRYSSTFTGQEFFLRDHVVNGQKVLPGVAYLEMARVAVDMAAGVRTDNHSAIQLKNIVWAKPVIVEDAPIQVHKGLYPEENGEITFEIYSHPREAEESLVVHSQGRAVLRSAMEAPALDLSAIQAQCTESSYSFSQCYETFHRIGLAYGPSHQGIEKLFVGPDQVLAKLVLPSSVTGTAEKFVLHPSVMDAALQASLGFMMGTSDLQPSLPFALEELNIYSASTAAAWALVRYSDGNATTQKVQKLDIDLCDEQGTICVSMKGFTTRVLE 5hra-a1-m1-cB_5hra-a1-m1-cA Crystal structure of an aspartate/glutamate racemase in complex with D-aspartate 1.597 X-RAY DIFFRACTION 113 1.0 1330457 (Escherichia coli O157:H7 str. SS52) 1330457 (Escherichia coli O157:H7 str. SS52) 232 233 5ell-a1-m1-cA_5ell-a1-m1-cB 5elm-a1-m1-cA_5elm-a1-m1-cB 5elm-a2-m1-cC_5elm-a2-m1-cD 5hqt-a1-m1-cA_5hqt-a1-m2-cA 5hrc-a1-m1-cB_5hrc-a1-m1-cA MKTIGLLGGMSWESTIPYYRLINEGIKQRLGGLHSAQVLLHSVDFHEIEECQRRGEWDKTGDILAEAALGLQRAGAEGIVLCTNTMHKVADAIESRCTLPFLHIADATGRAITGAGMTRVALLGTRYTMEQDFYRGRLTEQFSINCLIPEADERAKINQIIFEELCLGQFTEASRAYYAQVIARLAEQGAQGVIFGCTEIGLLVPEERSVLPVFDTAAIHAEDAVAFMLSLE MKTIGLLGGMSWESTIPYYRLINEGIKQRLGGLHSAQVLLHSVDFHEIEECQRRGEWDKTGDILAEAALGLQRAGAEGIVLCTNTMHKVADAIESRCTLPFLHIADATGRAITGAGMTRVALLGTRYTMEQDFYRGRLTEQFSINCLIPEADERAKINQIIFEELCLGQFTEASRAYYAQVIARLAEQGAQGVIFGCTEIGLLVPEERSVLPVFDTAAIHAEDAVAFMLSLEH 5hrp-a1-m1-cA_5hrp-a1-m2-cA HIV Integrase Catalytic Domain containing F185K + A124T mutations complexed with GSK0002 P04585 P04585 1.81 X-RAY DIFFRACTION 61 1.0 11706 (HIV-1 M:B_HXB2R) 11706 (HIV-1 M:B_HXB2R) 139 139 4ojr-a1-m1-cA_4ojr-a1-m2-cA 5hrs-a1-m1-cA_5hrs-a1-m2-cA 6we7-a1-m1-cA_6we7-a1-m2-cA 7rq0-a1-m1-cA_7rq0-a1-m1-cB CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTIHTDNGSNFTSTTVKAACWWAGIKQGVVESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNKKRKGYSAGERIVDIIATDIQ CSPGIWQLDCTHLEGKVILVAVHVASGYIEAEVIPAETGQETAYFLLKLAGRWPVKTIHTDNGSNFTSTTVKAACWWAGIKQGVVESMNKELKKIIGQVRDQAEHLKTAVQMAVFIHNKKRKGYSAGERIVDIIATDIQ 5hry-a2-m1-cE_5hry-a2-m1-cB Computationally Designed Cyclic Dimer ank3C2_1 2 X-RAY DIFFRACTION 49 1.0 32630 (synthetic construct) 32630 (synthetic construct) 152 156 5hry-a1-m1-cA_5hry-a1-m1-cF 5hry-a4-m1-cG_5hry-a4-m1-cH KRLIEAAENGNKDRVKDLLENGADVNASGKTPLHLAAENGHAKVVLLLLEQGADPNAKDSDGKTPLHLAAENGHAVVVALLLMHGADPNAKDSDGKTPLHLAAENGHEEVVILLLAMGADPNTSDSDGRTPLDLAREHGNEEVVKVLEDHGG GKRLIEAAENGNKDRVKDLLENGADVNASDSDGKTPLHLAAENGHAKVVLLLLEQGADPNAKDSDGKTPLHLAAENGHAVVVALLLMHGADPNAKDSDGKTPLHLAAENGHEEVVILLLAMGADPNTSDSDGRTPLDLAREHGNEEVVKVLEDHGG 5hs0-a1-m2-cB_5hs0-a1-m2-cA Computationally Designed Cyclic Tetramer ank1C4_7 2.4 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 158 160 5hs0-a1-m1-cB_5hs0-a1-m1-cA 5hs0-a1-m1-cB_5hs0-a1-m2-cA 5hs0-a1-m2-cB_5hs0-a1-m1-cA MSEDGELLILAAELGIAEAVRMLIEQGADVNASDDDGRTPLHHAAENGHLAVVLLLLLKGADVNAKDSDGRTPLHHAAENGHKTVVLLLILMGADVNAKDSDGRTPLHHAAENGHKEVVKLLIRKGADVNTSDSDGRTPLDLAREHGNEEVVKLLEKQ MSEDGELLILAAELGIAEAVRMLIEQGADVNASDDDGRTPLHHAAENGHLAVVLLLLLKGADVNAKDSDGRTPLHHAAENGHKTVVLLLILMGADVNAKDSDGRTPLHHAAENGHKEVVKLLIRKGADVNTSDSDGRTPLDLAREHGNEEVVKLLEKQLE 5hs3-a3-m1-cC_5hs3-a3-m1-cE Human thymidylate synthase complexed with dUMP and 3-amino-2-benzoyl-4-methylthieno[2,3-b]pyridin-6-ol P04818 P04818 3.103 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 281 282 5hs3-a2-m1-cF_5hs3-a2-m1-cB 6ojv-a1-m1-cB_6ojv-a1-m1-cC MPPHGELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWDANGSRDFLDSLGFSTREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPCHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHP MPPHGELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWDANGSRDFLDSLGFSTREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPCHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPT 5hs4-a1-m1-cA_5hs4-a1-m4-cA Plasmdoium Vivax Lactate dehydrogenase Q4PRK9 Q4PRK9 1.339 X-RAY DIFFRACTION 153 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 301 301 1oc4-a1-m1-cA_1oc4-a1-m2-cA 1oc4-a1-m2-cB_1oc4-a1-m1-cB 1t24-a1-m1-cA_1t24-a1-m3-cA 1t24-a1-m4-cA_1t24-a1-m2-cA 1t25-a1-m1-cA_1t25-a1-m3-cA 1t25-a1-m4-cA_1t25-a1-m2-cA 1t26-a1-m1-cA_1t26-a1-m3-cA 1t26-a1-m4-cA_1t26-a1-m2-cA 1t2c-a1-m1-cA_1t2c-a1-m3-cA 1t2c-a1-m4-cA_1t2c-a1-m2-cA 1t2d-a1-m1-cA_1t2d-a1-m3-cA 1t2d-a1-m2-cA_1t2d-a1-m4-cA 2a92-a1-m1-cA_2a92-a1-m1-cC 2a92-a1-m1-cD_2a92-a1-m1-cB 2a94-a1-m1-cA_2a94-a1-m3-cA 2a94-a1-m4-cA_2a94-a1-m2-cA 2aa3-a1-m1-cA_2aa3-a1-m1-cC 2aa3-a1-m1-cD_2aa3-a1-m1-cB 3zh2-a1-m1-cB_3zh2-a1-m1-cA 3zh2-a1-m1-cD_3zh2-a1-m1-cC 4b7u-a1-m1-cB_4b7u-a1-m1-cA 5hru-a1-m1-cA_5hru-a1-m1-cB 5hru-a1-m2-cA_5hru-a1-m2-cB 5hs4-a1-m2-cA_5hs4-a1-m3-cA 5hto-a1-m1-cA_5hto-a1-m1-cB 5hto-a1-m1-cD_5hto-a1-m1-cE 6txr-a1-m1-cB_6txr-a1-m1-cA 6txr-a1-m1-cC_6txr-a1-m1-cD KPKIVLVGSGMIGGVMATLIVQKNLGDVVMFDVVKNMPQGKALDTSHSNVMAYSNCKVTGSNSYDDLKGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKNLCPNAFIIVVTNPVDVMVQLLFEHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNALIVGAHGNKMVLLKRYITVGGIPLQEFINNKKITDEEVEGIFDRTVNTALEIVNLLASPYVAPAAAIIEMAESYLKDIKKVLVCSTLLEGQYGHSNIFGGTPLVIGGTGVEQVIELQLNAEEKTKFDEAVAETKRMKALI KPKIVLVGSGMIGGVMATLIVQKNLGDVVMFDVVKNMPQGKALDTSHSNVMAYSNCKVTGSNSYDDLKGADVVIVTAGFRDDLLPLNNKIMIEIGGHIKNLCPNAFIIVVTNPVDVMVQLLFEHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNALIVGAHGNKMVLLKRYITVGGIPLQEFINNKKITDEEVEGIFDRTVNTALEIVNLLASPYVAPAAAIIEMAESYLKDIKKVLVCSTLLEGQYGHSNIFGGTPLVIGGTGVEQVIELQLNAEEKTKFDEAVAETKRMKALI 5hs7-a1-m1-cB_5hs7-a1-m1-cA Reduced form of the transcriptional regulator YodB from B. subtilis O34844 O34844 1.7 X-RAY DIFFRACTION 106 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 98 102 5hs9-a1-m1-cA_5hs9-a1-m1-cB MMCPKMESAFSLLGKRWNGLIIHVLMDGPKRFKEITETIPMISQKMLAERLKELEQNEIVERQVLPETPVKVIYTLTEKGTALQAVFQEMQAWADQFC MMCPKMESAFSLLGKRWNGLIIHVLMDGPKRFKEITETIPMISQKMLAERLKELEQNEIVERQVLPETPVKVIYTLTEKGTALQAVFQEMQAWADQFCEPGD 5hs8-a1-m1-cA_5hs8-a1-m2-cA Crystal structure of the diamide-treated YodB from B. subtilis O34844 O34844 2 X-RAY DIFFRACTION 61 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 101 101 HMMCPKMESAFSLLGKRWNGLIIHVLMDGPKRFKEITETIPMISQKMLAERLKELEQNEIVERQVLPETPVKVIYTLTEKGTALQAVFQEMQAWADQFCEP HMMCPKMESAFSLLGKRWNGLIIHVLMDGPKRFKEITETIPMISQKMLAERLKELEQNEIVERQVLPETPVKVIYTLTEKGTALQAVFQEMQAWADQFCEP 5hsi-a1-m1-cB_5hsi-a1-m1-cA Crystal structure of tyrosine decarboxylase at 1.73 Angstroms resolution J7GQ11 J7GQ11 1.732 X-RAY DIFFRACTION 423 0.998 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 597 602 5hsj-a1-m1-cB_5hsj-a1-m1-cA RSLKDLDLNALFIGDKAENGQLYKDLLNKLVDEHLGWRKNSDPNMIGPEDQNSPAFKKTVGHMKTVLDQLSERIRTESVPWHSAGRYWGHMNSETLMPALLAYNYAMLWNGNNVAYESSPATSQMEEEVGQEFARLMGYDYGWGHIVADGSLANLEGLWYARNIKSLPFAMKEVNPELVAGKSDWELLNMPTKEIMDLLENAGSQIDEVKKRSARSGKNLQRLGKWLVPQTKHYSWMKAADIIGIGLDQVVPVPIDSNYRMDIQALESIIRKYAAEKTPILGVVGVAGSTEEGAVDGIDKIVALRQKLQKEGIYFYLHVDAAYGGYARALFLDEDDQFIPYKNLQKVHAENHVFTEDKEYIKPEVYAAYKAFDQAESITIDPHKMGYVPYSAGGIVIQDIRMRDTISYFLLGAYILEGSKAGATAASVWAAHHTLPLNVTGYGKLEGASIEGAHRYYDFLKNLKFEVAGKRISVHPLISPDFNMVDYVLKEDGNDDLIEMNRLNHAFYEQASYVKGSLYGKEYIVSHTDFAIPDYGDSPLAFVESLGFSEVEWRHAGKVTIIRASVMTPYMNQRENFDYFAPRIKKAIQADLEKVYA SLKDLDLNALFIGDKAENGQLYKDLLNKLVDEHLGWRKNYIPSDPNMIGPEDQNSPAFKKTVGHMKTVLDQLSERIRTESVPWHSAGRYWGHMNSETLMPALLAYNYAMLWNGNNVAYESSPATSQMEEEVGQEFARLMGYDYGWGHIVADGSLANLEGLWYARNIKSLPFAMKEVNPELVAGKSDWELLNMPTKEIMDLLENAGSQIDEVKKRSARSGKNLQRLGKWLVPQTKHYSWMKAADIIGIGLDQVVPVPIDSNYRMDIQALESIIRKYAAEKTPILGVVGVAGSTEEGAVDGIDKIVALRQKLQKEGIYFYLHVDAAYGGYARALFLDEDDQFIPYKNLQKVHAENHVFTEDKEYIKPEVYAAYKAFDQAESITIDPHKMGYVPYSAGGIVIQDIRMRDTISYFALLGAYILEGSKAGATAASVWAAHHTLPLNVTGYGKLEGASIEGAHRYYDFLKNLKFEVAGKRISVHPLISPDFNMVDYVLKEDGNDDLIEMNRLNHAFYEQASYVKGSLYGKEYIVSHTDFAIPDYGDSPLAFVESLGFSEVEWRHAGKVTIIRASVMTPYMNQRENFDYFAPRIKKAIQADLEKVYASV 5hsm-a1-m1-cA_5hsm-a1-m2-cA CRYSTAL STRUCTURE OF MYCOBACTERIUM TUBERCULOSIS MARR FAMILY PROTEIN RV2887 P9WME9 P9WME9 1.9 X-RAY DIFFRACTION 141 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 131 131 MGLADDAPLGYLLYRVGAVLRPEVSAALSPLGLTLPEFVCLRMLSQSPGLSSAELARHASVTPQAMNTVLRKLEDAGAVARPSLPATLTARGRALAKRAEAVVRAADARVLARLTAPQQREFKRMLEKLGS MGLADDAPLGYLLYRVGAVLRPEVSAALSPLGLTLPEFVCLRMLSQSPGLSSAELARHASVTPQAMNTVLRKLEDAGAVARPSLPATLTARGRALAKRAEAVVRAADARVLARLTAPQQREFKRMLEKLGS 5hso-a1-m1-cD_5hso-a1-m1-cC Crystal structure of MYCOBACTERIUM TUBERCULOSIS MARR FAMILY PROTEIN Rv2887 complex with DNA P9WME9 P9WME9 2.5 X-RAY DIFFRACTION 97 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 122 125 5hso-a1-m1-cA_5hso-a1-m1-cB 5x7z-a1-m1-cA_5x7z-a1-m2-cA 5x80-a1-m1-cB_5x80-a1-m1-cA 5x80-a2-m1-cC_5x80-a2-m1-cD DAPLGYLLYRVGAVLRPEVSAALSPLGLTLPEFVCLRMLSQSPGLSSAELARHASVTPQAMNTVLRKLEDAGAVAPATLTARGRALAKRAEAVVRAADARVLARLTAPQQREFKRMLEKLGS DAPLGYLLYRVGAVLRPEVSAALSPLGLTLPEFVCLRMLSQSPGLSSAELARHASVTPQAMNTVLRKLEDAGAVARPLPATLTARGRALAKRAEAVVRAADARVLARLTAPQQREFKRMLEKLGS 5hsp-a2-m1-cD_5hsp-a2-m2-cD MamM CTD M250L V6F235 V6F235 1.79 X-RAY DIFFRACTION 10 1.0 55518 (Magnetospirillum gryphiswaldense) 55518 (Magnetospirillum gryphiswaldense) 8 8 SFDEVMLS SFDEVMLS 5hsq-a1-m1-cA_5hsq-a1-m2-cA The surface engineered photosensory module (PAS-GAF-PHY) of the bacterial phytochrome Agp1 (AtBphP1) in the Pr form, chromophore modelled with an endocyclic double bond in pyrrole ring A. Q7CY45 Q7CY45 1.85 X-RAY DIFFRACTION 131 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 488 488 LDSCGAEPIHIPGAIQEHGALLVLSAREFSVVQASDNLANYIGVDLPIGAVATEANLPFISVLSAWYSGAASNFRYAWAEKKLDVSAHRSGTLVILEVEKAGVGESAEKLMGELTSLAKYLNSAPSLEDALFRTAQLVSSISGHDRTLIYDFGLDWSGHVVAEAGSGALPSYLGLRFPAGDIPPQARQLYTINRLRMIPDVDYKPVPIRPEVNAETGAVLDMSFSQLRSVSPVHLEYMRNMGTAASMSVSIVVNGALWGLIACHHATPHSVSLAVREACDFAAQLLSMRIAMEQSSQDASRRVELGHIQARLLKGMAAAAAWVDGLLGGEGEREDLLKQVGADGAALVLGDDYELVGNTPSREQVEELILWLGEREIADVFATDNLAGNYPTAAAYASVASGIIAMRVSELHGSWLIWFRPEVIKTVRWGGDPHKTVQESGRIHPRKSFEIWKEQLRNTSFPWSEPELAAARELRGAIIGIVLRKTEE LDSCGAEPIHIPGAIQEHGALLVLSAREFSVVQASDNLANYIGVDLPIGAVATEANLPFISVLSAWYSGAASNFRYAWAEKKLDVSAHRSGTLVILEVEKAGVGESAEKLMGELTSLAKYLNSAPSLEDALFRTAQLVSSISGHDRTLIYDFGLDWSGHVVAEAGSGALPSYLGLRFPAGDIPPQARQLYTINRLRMIPDVDYKPVPIRPEVNAETGAVLDMSFSQLRSVSPVHLEYMRNMGTAASMSVSIVVNGALWGLIACHHATPHSVSLAVREACDFAAQLLSMRIAMEQSSQDASRRVELGHIQARLLKGMAAAAAWVDGLLGGEGEREDLLKQVGADGAALVLGDDYELVGNTPSREQVEELILWLGEREIADVFATDNLAGNYPTAAAYASVASGIIAMRVSELHGSWLIWFRPEVIKTVRWGGDPHKTVQESGRIHPRKSFEIWKEQLRNTSFPWSEPELAAARELRGAIIGIVLRKTEE 5hst-a2-m3-cB_5hst-a2-m1-cA Crystal structure of the dehydratase domain of MlnB from Bacillus amyloliquefaciens Q1RS66 Q1RS66 2.1 X-RAY DIFFRACTION 87 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 265 270 5hst-a1-m1-cB_5hst-a1-m2-cA PLFDFSAGECRFYKTLSDSEYYVKDHVVHEKTVLPGAAIIEAAREAGERLYGKSVIKLSQVVWAVPITVEKEKTIMIDLLPNQKDGRFVVKTDMQPEAAVHCQGNIITCGDQDASHTERFQLDSWLTGQKRLISSAECYRDFRQSGLEYGASFQVIKQLFIHENAVLARISLPESIHKKSGTLLEPCLLDGIFQSTTGFTSGQEDDHTAYLPFELGELEILHAPSANGYAYITAADDDVKRFHILFMDENGSVSLKIKNLALKAL APLFDFSAGECRFYKTLSDSEYYVKDHVVHEKTVLPGAAIIEAAREAGERLYGKSVIKLSQVVWAVPITVEKEKTIMIDLLPNQKDGRFVVKTDMQPEAAVHCQGNIITCGDQDASHTERFQLDSWLTGQKRLISSAECYRDFRQSGLEYGASFQVIKQLFIHENAVLARISLPESIHKKSGTLLEPCLLDGIFQSTTGFTSGQEDDHTAYLPFELGELEILHAPSANGYAYITAADEDDVKRFHILFMDENGSVSLKIKNLALKALRAA 5hsx-a1-m1-cA_5hsx-a1-m1-cB Crystal Structure of a Putative Alpha-ketoglutarate-dependent Taurine Dioxygenase from Burkholderia xenovorans Q13YM5 Q13YM5 1.8 X-RAY DIFFRACTION 54 0.989 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 270 279 SIEVTPLSAHIGAEIHGVDLTQKLEARQIAEIRAALLKWRVVFFREQFLTHEQHVAFSAQFGELTLGVFGHVEGHPEVYSISKYQTLQRPWTGWHTDVTAAVNPPWASILRGVTIPPYGGDTQWTNLVAAYQKLSAPLRSFVDGLRGIHRFTPRILVTEHPLVRVHPETGERALYVSPSFLKSIVGVSPRESQVLLELLWEHVTRPEFTVRFKWQAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGTQSVAIEGSPV SIEVTPLSAHIGAEIHGVDLTQKLEARQIAEIRAALLKWRVVFFREQFLTHEQHVAFSAQFGELTLGHPVFGHVEGHPEVYSISQTLQRPWTGWHTDVTAAVNPPWASILRGVTIPPYGGDTQWTNLVAAYQKLSAPLRSFVDGLRGIHRFTPPILVTEHPLVRVHPETGERALYVSPSFLKSIVGVSPRESQVLLELLWEHVTRPEFTVRFKWQAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGTQSVAIEGSPVSAAAAVALN 5hsx-a3-m1-cB_5hsx-a3-m2-cB Crystal Structure of a Putative Alpha-ketoglutarate-dependent Taurine Dioxygenase from Burkholderia xenovorans Q13YM5 Q13YM5 1.8 X-RAY DIFFRACTION 44 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 279 279 5hsx-a2-m1-cA_5hsx-a2-m2-cA SIEVTPLSAHIGAEIHGVDLTQKLEARQIAEIRAALLKWRVVFFREQFLTHEQHVAFSAQFGELTLGHPVFGHVEGHPEVYSISQTLQRPWTGWHTDVTAAVNPPWASILRGVTIPPYGGDTQWTNLVAAYQKLSAPLRSFVDGLRGIHRFTPPILVTEHPLVRVHPETGERALYVSPSFLKSIVGVSPRESQVLLELLWEHVTRPEFTVRFKWQAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGTQSVAIEGSPVSAAAAVALN SIEVTPLSAHIGAEIHGVDLTQKLEARQIAEIRAALLKWRVVFFREQFLTHEQHVAFSAQFGELTLGHPVFGHVEGHPEVYSISQTLQRPWTGWHTDVTAAVNPPWASILRGVTIPPYGGDTQWTNLVAAYQKLSAPLRSFVDGLRGIHRFTPPILVTEHPLVRVHPETGERALYVSPSFLKSIVGVSPRESQVLLELLWEHVTRPEFTVRFKWQAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGTQSVAIEGSPVSAAAAVALN 5ht7-a1-m1-cB_5ht7-a1-m1-cC Crystal structure of a transition-metal-ion-binding betagamma-crystallin from Methanosaeta thermophila A0B567 A0B567 1.862 X-RAY DIFFRACTION 22 1.0 349307 (Methanothrix thermoacetophila PT) 349307 (Methanothrix thermoacetophila PT) 82 82 5ht7-a1-m1-cA_5ht7-a1-m1-cB 5ht7-a1-m1-cA_5ht7-a1-m1-cC AVLFADANQRGVHKHIFESDADVGADIAFNATPRSMVVLSGVWRLYREPNFQSPYEAEFGPGIYPSIADYGINVIGSMKRIS AVLFADANQRGVHKHIFESDADVGADIAFNATPRSMVVLSGVWRLYREPNFQSPYEAEFGPGIYPSIADYGINVIGSMKRIS 5htk-a1-m1-cB_5htk-a1-m1-cA Human Heart 6-Phosphofructo-2-Kinase/Fructose-2,6-Bisphosphatase (PFKFB2) O60825 O60825 2.01 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 419 424 ASYMTNSPTLIVMIGLPARGKTYVSKKLTRYLNWIGVPTKVFNLGVYRREAVKSYKSYDFFRHDNEEAMKIRKQCALVALEDVKAYLTEENGQIAVFDATNTTRERRDMILNFAEQNSFKVFFVESVCDDPDVIAANILEVKVSSPDYPERNRENVMEDFLKRIECYKVTYRPLDPDNYDKDLSFIKVINVGQRFLVNRVQDYIQSKIVYYLMNIHVQPRTIYLCRGESEFNLLGKIGGDSGLSVRGKQFAQALRKFLEEQEITDLKVWTSQLKRTIQTAESLGVPYEQWKILNEIDAGVCEEMTYAEIEKRYPEEFALRDQEKYLYRYPGGESYQDLVQRLEPVIMELERQGNVLVISHQAVMRCLLAYFLDKGADELPYLRCPLHTIFKLTPVAYGCKVETIKLNVEAVNTHRDKPT ASYMTNSPTLIVMIGLPARGKTYVSKKLTRYLNWIGVPTKVFNLGVYRREAVKSYKSYDFFRHDNEEAMKIRKQCALVALEDVKAYLTEENGQIAVFDATNTTRERRDMILNFAEQNSFKVFFVESVCDDPDVIAANILEVKVSSPDYPERNRENVMEDFLKRIECYKVTYRPLDPDNYDKDLSFIKVINVGQRFLVNRVQDYIQSKIVYYLMNIHVQPRTIYLCRGESEFNLLGKIGGDSGLSVRGKQFAQALRKFLEEQEITDLKVWTSQLKRTIQTAESLGVPYEQWKILNEIDAGVCEEMTYAEIEKRYPEEFALRDQEKYLYRYPGGESYQDLVQRLEPVIMELERQGNVLVISHQAVMRCLLAYFLDKGADELPYLRCPLHTIFKLTPVAYGCKVETIKLNVEAVNTHRDKPTNNFPK 5htl-a1-m1-cB_5htl-a1-m1-cA Structure of MshE with cdg Q9KUV7 Q9KUV7 1.371 X-RAY DIFFRACTION 37 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 138 140 RKRLGDLLVEEGIVSEAQLEQALNAQKNTGRRLGDTLISLGFLSETQLLNFLAQQLSLPVIDLSRAHVDIDAVPLLPEVHARRLRALVIGRSGDTLRIASDPADLFAQEALLNQLPDYGFEFVIAPEKQLVDGFDRYY KLRKRLGDLLVEEGIVSEAQLEQALNAQKNTGRRLGDTLISLGFLSETQLLNFLAQQLSLPVIDLSRAHVDIDAVPLLPEVHARRLRALVIGRSGDTLRIASDPADLFAQEALLNQLPDYGFEFVIAPEKQLVDGFDRYY 5hto-a1-m1-cB_5hto-a1-m1-cD Crystal structure of Plasmodium Vivax LDH in complex with a DNA aptamer called pL1 (tetrameric LDH in an asymmetric unit) Q4PRK9 Q4PRK9 1.9 X-RAY DIFFRACTION 78 0.997 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 303 304 1oc4-a1-m1-cA_1oc4-a1-m1-cB 1oc4-a1-m2-cB_1oc4-a1-m2-cA 1t24-a1-m2-cA_1t24-a1-m3-cA 1t24-a1-m4-cA_1t24-a1-m1-cA 1t25-a1-m2-cA_1t25-a1-m3-cA 1t25-a1-m4-cA_1t25-a1-m1-cA 1t26-a1-m2-cA_1t26-a1-m3-cA 1t26-a1-m4-cA_1t26-a1-m1-cA 1t2c-a1-m2-cA_1t2c-a1-m3-cA 1t2c-a1-m4-cA_1t2c-a1-m1-cA 1t2d-a1-m1-cA_1t2d-a1-m4-cA 1t2d-a1-m2-cA_1t2d-a1-m3-cA 2a92-a1-m1-cB_2a92-a1-m1-cA 2a92-a1-m1-cD_2a92-a1-m1-cC 2a94-a1-m2-cA_2a94-a1-m3-cA 2a94-a1-m4-cA_2a94-a1-m1-cA 2aa3-a1-m1-cB_2aa3-a1-m1-cA 2aa3-a1-m1-cD_2aa3-a1-m1-cC 3zh2-a1-m1-cA_3zh2-a1-m1-cC 4b7u-a1-m1-cD_4b7u-a1-m1-cA 5hru-a1-m1-cA_5hru-a1-m2-cB 5hru-a1-m2-cA_5hru-a1-m1-cB 5hs4-a1-m1-cA_5hs4-a1-m3-cA 5hs4-a1-m2-cA_5hs4-a1-m4-cA 5hto-a1-m1-cA_5hto-a1-m1-cE 6txr-a1-m1-cB_6txr-a1-m1-cD 6txr-a1-m1-cC_6txr-a1-m1-cA KPKIVLVGSGMIGGVMATLIVQKNLGDVVMFDVVKNMPQGKALDTSHSNVMAYSNCKVTGSNSYDDLKGADVVIVTAGFTKRDDLLPLNNKIMIEIGGHIKNLCPNAFIIVVTNPVDVMVQLLFEHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNALIVGAHGNKMVLLKRYITVGGIPLQEFINNKKITDEEVEGIFDRTVNTALEIVNLLASPYVAPAAAIIEMAESYLKDIKKVLVCSTLLEGQYGHSNIFGGTPLVIGGTGVEQVIELQLNAEEKTKFDEAVAETKRMKALI KPKIVLVGSGMIGGVMATLIVQKNLGDVVMFDVVKNMPQGKALDTSHSNVMAYSNCKVTGSNSYDDLKGADVVIVTAGFTKAPDDLLPLNNKIMIEIGGHIKNLCPNAFIIVVTNPVDVMVQLLFEHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNALIVGAHGNKMVLLKRYITVGGIPLQEFINNKKITDEEVEGIFDRTVNTALEIVNLLASPYVAPAAAIIEMAESYLKDIKKVLVCSTLLEGQYGHSNIFGGTPLVIGGTGVEQVIELQLNAEEKTKFDEAVAETKRMKALI 5hto-a1-m1-cB_5hto-a1-m1-cE Crystal structure of Plasmodium Vivax LDH in complex with a DNA aptamer called pL1 (tetrameric LDH in an asymmetric unit) Q4PRK9 Q4PRK9 1.9 X-RAY DIFFRACTION 20 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 303 305 1oc4-a1-m1-cB_1oc4-a1-m2-cA 1oc4-a1-m2-cB_1oc4-a1-m1-cA 1t24-a1-m1-cA_1t24-a1-m2-cA 1t24-a1-m4-cA_1t24-a1-m3-cA 1t25-a1-m1-cA_1t25-a1-m2-cA 1t25-a1-m4-cA_1t25-a1-m3-cA 1t26-a1-m1-cA_1t26-a1-m2-cA 1t26-a1-m4-cA_1t26-a1-m3-cA 1t2c-a1-m1-cA_1t2c-a1-m2-cA 1t2c-a1-m4-cA_1t2c-a1-m3-cA 1t2d-a1-m1-cA_1t2d-a1-m2-cA 1t2d-a1-m3-cA_1t2d-a1-m4-cA 2a92-a1-m1-cB_2a92-a1-m1-cC 2a92-a1-m1-cD_2a92-a1-m1-cA 2a94-a1-m1-cA_2a94-a1-m2-cA 2a94-a1-m4-cA_2a94-a1-m3-cA 2aa3-a1-m1-cB_2aa3-a1-m1-cC 2aa3-a1-m1-cD_2aa3-a1-m1-cA 3zh2-a1-m1-cD_3zh2-a1-m1-cA 4b7u-a1-m1-cC_4b7u-a1-m1-cA 5hru-a1-m1-cA_5hru-a1-m2-cA 5hru-a1-m1-cB_5hru-a1-m2-cB 5hs4-a1-m1-cA_5hs4-a1-m2-cA 5hs4-a1-m3-cA_5hs4-a1-m4-cA 5hto-a1-m1-cA_5hto-a1-m1-cD 6txr-a1-m1-cA_6txr-a1-m1-cD 6txr-a1-m1-cB_6txr-a1-m1-cC KPKIVLVGSGMIGGVMATLIVQKNLGDVVMFDVVKNMPQGKALDTSHSNVMAYSNCKVTGSNSYDDLKGADVVIVTAGFTKRDDLLPLNNKIMIEIGGHIKNLCPNAFIIVVTNPVDVMVQLLFEHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNALIVGAHGNKMVLLKRYITVGGIPLQEFINNKKITDEEVEGIFDRTVNTALEIVNLLASPYVAPAAAIIEMAESYLKDIKKVLVCSTLLEGQYGHSNIFGGTPLVIGGTGVEQVIELQLNAEEKTKFDEAVAETKRMKALI KPKIVLVGSGMIGGVMATLIVQKNLGDVVMFDVVKNMPQGKALDTSHSNVMAYSNCKVTGSNSYDDLKGADVVIVTAGFTKAPRDDLLPLNNKIMIEIGGHIKNLCPNAFIIVVTNPVDVMVQLLFEHSGVPKNKIIGLGGVLDTSRLKYYISQKLNVCPRDVNALIVGAHGNKMVLLKRYITVGGIPLQEFINNKKITDEEVEGIFDRTVNTALEIVNLLASPYVAPAAAIIEMAESYLKDIKKVLVCSTLLEGQYGHSNIFGGTPLVIGGTGVEQVIELQLNAEEKTKFDEAVAETKRMKALI 5hud-a1-m1-cG_5hud-a1-m1-cH Non-covalent complex of and DAHP synthase and chorismate mutase from Corynebacterium glutamicum with bound transition state analog Q8NS29 Q8NS29 2.15 X-RAY DIFFRACTION 103 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 83 83 5hub-a1-m1-cA_5hub-a1-m2-cA 5hud-a1-m1-cF_5hud-a1-m1-cE PLSDAEIQKYREEINRLDREILDAVKRRTKISQTIGKTRMSSGGTRLVHTREVAIINQFREEIGEEGPALAGILLRMGRGKLG PLSDAEIQKYREEINRLDREILDAVKRRTKISQTIGKTRMSSGGTRLVHTREVAIINQFREEIGEEGPALAGILLRMGRGKLG 5huj-a1-m1-cA_5huj-a1-m1-cB Crystal Structure of NadE from Streptococcus pyogenes A0A0H3BZ89 A0A0H3BZ89 2.1 X-RAY DIFFRACTION 181 1.0 471876 (Streptococcus pyogenes NZ131) 471876 (Streptococcus pyogenes NZ131) 260 260 5huh-a1-m1-cB_5huh-a1-m1-cA MTLQEEIIRQLGVKASIDPQEEIRKTVDFLKAYLRKHSFLKTYVLGISGGQDSTLAGKLAQMAIAELREETSDQAYQFIAVRLPYGVQDEADAQKALAFIAPDQTLTINIKAAVDGQVEALQAAGVEISDFNKGNIKARQRMISQYAIAGQMAGAVIGTDHAAENITGFFTKFGDGGADILPLFRLNKRQGKALLKVLGADAALYELADEVALGVTYQDIDDYLEGKLISKVAQATIEKWWHKGQHKRHLPITIFADFWK MTLQEEIIRQLGVKASIDPQEEIRKTVDFLKAYLRKHSFLKTYVLGISGGQDSTLAGKLAQMAIAELREETSDQAYQFIAVRLPYGVQDEADAQKALAFIAPDQTLTINIKAAVDGQVEALQAAGVEISDFNKGNIKARQRMISQYAIAGQMAGAVIGTDHAAENITGFFTKFGDGGADILPLFRLNKRQGKALLKVLGADAALYELADEVALGVTYQDIDDYLEGKLISKVAQATIEKWWHKGQHKRHLPITIFADFWK 5huq-a3-m1-cB_5huq-a3-m1-cA A tethered niacin-derived pincer complex with a nickel-carbon bond in lactate racemase F9USS9 F9USS9 3 X-RAY DIFFRACTION 45 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 432 433 SVAIDLPYDKRTITAQIDDENYAGKLVSQAATYHNKLSEQETVEKSLDNPIGSDKLEELARGKHNIVIISSDHTRPVPSHIITPILLRRLRSVAPDARIRILVATGFHRPSTHEELVNKYGEDIVNNEEIVMHVSTDDSSMVKIGQLPSGGDCIINKVAAEADLLISEGFIESHFFAGFSGGRKSVLPGIASYKTIMANHSGEFINSPKARTGNLMHNSIHKDMVYAARTAKLAFIINVVLDEDKKIIGSFAGDMEAAHKVGCDFVKELSSVPAIDCDIAISTNGGYPLDQNIYQAVKGMTAAEATNKEGGTIIMVAGARDGHGGEGFYHNLADVDDPKEFLDQAINTPRLKTIPDQWTAQIFARILVHHHVIFVSDLVDPDLITNMHMELAKTLDEAMEKAYAREGQAAKVTVIPDGLGVIVKASWSHPQF SVAIDLPYDKRTITAQIDDENYAGKLVSQAATYHNKLSEQETVEKSLDNPIGSDKLEELARGKHNIVIISSDHTRPVPSHIITPILLRRLRSVAPDARIRILVATGFHRPSTHEELVNKYGEDIVNNEEIVMHVSTDDSSMVKIGQLPSGGDCIINKVAAEADLLISEGFIESHFFAGFSGGRKSVLPGIASYKTIMANHSGEFINSPKARTGNLMHNSIHKDMVYAARTAKLAFIINVVLDEDKKIIGSFAGDMEAAHKVGCDFVKELSSVPAIDCDIAISTNGGYPLDQNIYQAVKGMTAAEATNKEGGTIIMVAGARDGHGGEGFYHNLADVDDPKEFLDQAINTPRLKTIPDQWTAQIFARILVHHHVIFVSDLVDPDLITNMHMELAKTLDEAMEKAYAREGQAAKVTVIPDGLGVIVKASWSHPQFE 5huz-a1-m1-cA_5huz-a1-m1-cB Solution structure of coiled coil domain of myosin binding subunit of myosin light chain phosphatase O14974 O14974 NOT SOLUTION NMR 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 DFKKLYEQILAENEKLKAQLHDTNMELTDLKLQLEKATQRQERF DFKKLYEQILAENEKLKAQLHDTNMELTDLKLQLEKATQRQERF 5hvm-a2-m1-cB_5hvm-a2-m2-cB Structure of Aspergillus fumigatus trehalose-6-phosphate synthase A in complex with UDP and validoxylamine A Q4WLM9 Q4WLM9 2.815 X-RAY DIFFRACTION 61 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 452 452 5hvm-a2-m1-cA_5hvm-a2-m2-cA ARLLLVSNRLPITIKRSEDGKYDGGLVSGTFQWYGWPGLEVPEPVVKQRLKDEYGAIPVFIDDELADRHYNGFSNSILWPLFHYHPGEITFDESAWEAYKEANRLFAKAVAKEVQDGDLIWVHDYHLMLLPEMLREEIGDSKENVKIGFFLHTPFPSSEIYRILPVRNELLLGVLHCDLIGFHTYDYTRHFLSACSRLLGLATTPNGIEFQGKVIACGAFPIGIDPEKFQEGLKKEKVQKRIAQLEQKFQGVKLMVGVDRLDYIKGVPQKLHALEVFLSDHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVEFMPIHFLHKSVNFDELIALYAVSDACIVSSTRDGMNLVAYEYIASQQKRHGVLVLSEFAGAAQSLNGSIIINPWNTEELAGAYQEAVTMSDEQRALNFSKLDKYVNKYTSAFWGQSFVTELNRISA ARLLLVSNRLPITIKRSEDGKYDGGLVSGTFQWYGWPGLEVPEPVVKQRLKDEYGAIPVFIDDELADRHYNGFSNSILWPLFHYHPGEITFDESAWEAYKEANRLFAKAVAKEVQDGDLIWVHDYHLMLLPEMLREEIGDSKENVKIGFFLHTPFPSSEIYRILPVRNELLLGVLHCDLIGFHTYDYTRHFLSACSRLLGLATTPNGIEFQGKVIACGAFPIGIDPEKFQEGLKKEKVQKRIAQLEQKFQGVKLMVGVDRLDYIKGVPQKLHALEVFLSDHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVEFMPIHFLHKSVNFDELIALYAVSDACIVSSTRDGMNLVAYEYIASQQKRHGVLVLSEFAGAAQSLNGSIIINPWNTEELAGAYQEAVTMSDEQRALNFSKLDKYVNKYTSAFWGQSFVTELNRISA 5hvm-a2-m2-cA_5hvm-a2-m2-cB Structure of Aspergillus fumigatus trehalose-6-phosphate synthase A in complex with UDP and validoxylamine A Q4WLM9 Q4WLM9 2.815 X-RAY DIFFRACTION 77 0.989 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 446 452 5hvm-a1-m1-cA_5hvm-a1-m1-cB 5hvm-a2-m1-cA_5hvm-a2-m1-cB ARLLLVSNRLPIYDFSMSGGLVSGFQWYGWPGLEVPEPVVKQRLKDEYGAIPVFIDDELADRHYNGFSNSILWPLFHYHPGEITFDESAWEAYKEANRLFAKAVAKEVQDGDLIWVHDYHLMLLPEMLREEIGDSKENVKIGFFLHTPFPSSEIYRILPVRNELLLGVLHCDLIGFHTYDYTRHFLSACSRLLGLATTPNGIEFQGKVIACGAFPIGIDPEKFQEGLKKEKVQKRIAQLEQKFQGVKLMVGVDRLDYIKGVPQKLHALEVFLSDHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVEFMPIHFLHKSVNFDELIALYAVSDACIVSSTRDGMNLVAYEYIASQQKRHGVLVLSEFAGAAQSLNGSIIINPWNTEELAGAYQEAVTMSDEQRALNFSKLDKYVNKYTSAFWGQSFVTELNRISA ARLLLVSNRLPITIKRSEDGKYDGGLVSGTFQWYGWPGLEVPEPVVKQRLKDEYGAIPVFIDDELADRHYNGFSNSILWPLFHYHPGEITFDESAWEAYKEANRLFAKAVAKEVQDGDLIWVHDYHLMLLPEMLREEIGDSKENVKIGFFLHTPFPSSEIYRILPVRNELLLGVLHCDLIGFHTYDYTRHFLSACSRLLGLATTPNGIEFQGKVIACGAFPIGIDPEKFQEGLKKEKVQKRIAQLEQKFQGVKLMVGVDRLDYIKGVPQKLHALEVFLSDHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVEFMPIHFLHKSVNFDELIALYAVSDACIVSSTRDGMNLVAYEYIASQQKRHGVLVLSEFAGAAQSLNGSIIINPWNTEELAGAYQEAVTMSDEQRALNFSKLDKYVNKYTSAFWGQSFVTELNRISA 5hvn-a1-m1-cA_5hvn-a1-m2-cA 3.0 Angstrom Crystal Structure of 3-dehydroquinate Synthase (AroB) from Francisella tularensis in Complex with NAD. Q5NFS1 Q5NFS1 3 X-RAY DIFFRACTION 58 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 354 354 SNAMISKLSVNPTFSPSYNIIVDSVLDFSHILEYVTNKQVLVVTNTTVAKLYLTKFLAALVDDLDVRTCILEDGEQYKSQQSLDKILSTLLENHFTRNSTVLVALGGGVIGDITGFAAAIYQRGIDFIQIPTTLLSQVDSSVGGKTAINHQLGKNMIGAFYQPKVVYTSIEFYKTLPQREYIAGMAEVVKYAFISKDFYLWLDSNRDKILAKDSVTLIEMVKRSCQIKAQVVAMDTGARAILNFGHTFGHAIEKCQNYRGLKHGEAVGVGMAQAIDFSHYLGLISQQQAKDFNDFIVSFGISIDFPNDICQKEFLEAMLLDNKELKFILIENIGSLSLQKQSKNELEQFLDISR SNAMISKLSVNPTFSPSYNIIVDSVLDFSHILEYVTNKQVLVVTNTTVAKLYLTKFLAALVDDLDVRTCILEDGEQYKSQQSLDKILSTLLENHFTRNSTVLVALGGGVIGDITGFAAAIYQRGIDFIQIPTTLLSQVDSSVGGKTAINHQLGKNMIGAFYQPKVVYTSIEFYKTLPQREYIAGMAEVVKYAFISKDFYLWLDSNRDKILAKDSVTLIEMVKRSCQIKAQVVAMDTGARAILNFGHTFGHAIEKCQNYRGLKHGEAVGVGMAQAIDFSHYLGLISQQQAKDFNDFIVSFGISIDFPNDICQKEFLEAMLLDNKELKFILIENIGSLSLQKQSKNELEQFLDISR 5hvo-a4-m1-cC_5hvo-a4-m3-cD Structure of Aspergillus fumigatus trehalose-6-phosphate synthase B in complex with UDP and validoxylamine A Q4WHW0 Q4WHW0 2.467 X-RAY DIFFRACTION 74 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 454 456 5hvo-a3-m1-cA_5hvo-a3-m2-cA 5hvo-a3-m1-cB_5hvo-a3-m2-cB 5hvo-a4-m3-cC_5hvo-a4-m1-cD HRLLIVSNRLPITIYEFSMGLSGLSKTTTFQWYGWPGLEVPEDELGSVKKRLKDEFNATPVFMDDKLADRHYNGFSNSILWPLLHYHPGEIVFDEGAWDAYREANLLFAKTIVKEAQDGDLIWVQDYHLMLLPELLRAELRAAGKKANKIGFFLHTPFPSSEIYRILPVRGQLLRGVLHCDLIGFHTYDYARHFLSSCSHLLGLVTTPSSVKYEGRSVAVGAFPIGIDPDKFTDGLKSPKVQNRIASLENKFQGTKLMVSVDRLDYIKGIPQKLHALEVFLQNHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVDYMPIHFMHKSVSFDELIALYAASDACVVSSTRDGMNLVSFEYIATQQKRKGVLILSEFAGAAQSLNGSLVVNPWNTEELARAYHEAVSMSDEQRARKFEKLYKYISKYTSAFWGKSFVAELLQCS HRLLIVSNRLPITIRYEFSMSGLSGLSKTTTFQWYGWPGLEVPEDELGSVKKRLKDEFNATPVFMDDKLADRHYNGFSNSILWPLLHYHPGEIVFDEGAWDAYREANLLFAKTIVKEAQDGDLIWVQDYHLMLLPELLRAELRAAGKKANKIGFFLHTPFPSSEIYRILPVRGQLLRGVLHCDLIGFHTYDYARHFLSSCSHLLGLVTTPSSVKYEGRSVAVGAFPIGIDPDKFTDGLKSPKVQNRIASLENKFQGTKLMVSVDRLDYIKGIPQKLHALEVFLQNHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVDYMPIHFMHKSVSFDELIALYAASDACVVSSTRDGMNLVSFEYIATQQKRKGVLILSEFAGAAQSLNGSLVVNPWNTEELARAYHEAVSMSDEQRARKFEKLYKYISKYTSAFWGKSFVAELLQCS 5hvo-a4-m3-cC_5hvo-a4-m3-cD Structure of Aspergillus fumigatus trehalose-6-phosphate synthase B in complex with UDP and validoxylamine A Q4WHW0 Q4WHW0 2.467 X-RAY DIFFRACTION 70 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 454 456 5hvo-a1-m1-cB_5hvo-a1-m1-cA 5hvo-a2-m1-cC_5hvo-a2-m1-cD 5hvo-a3-m1-cB_5hvo-a3-m1-cA 5hvo-a3-m2-cB_5hvo-a3-m2-cA 5hvo-a4-m1-cC_5hvo-a4-m1-cD HRLLIVSNRLPITIYEFSMGLSGLSKTTTFQWYGWPGLEVPEDELGSVKKRLKDEFNATPVFMDDKLADRHYNGFSNSILWPLLHYHPGEIVFDEGAWDAYREANLLFAKTIVKEAQDGDLIWVQDYHLMLLPELLRAELRAAGKKANKIGFFLHTPFPSSEIYRILPVRGQLLRGVLHCDLIGFHTYDYARHFLSSCSHLLGLVTTPSSVKYEGRSVAVGAFPIGIDPDKFTDGLKSPKVQNRIASLENKFQGTKLMVSVDRLDYIKGIPQKLHALEVFLQNHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVDYMPIHFMHKSVSFDELIALYAASDACVVSSTRDGMNLVSFEYIATQQKRKGVLILSEFAGAAQSLNGSLVVNPWNTEELARAYHEAVSMSDEQRARKFEKLYKYISKYTSAFWGKSFVAELLQCS HRLLIVSNRLPITIRYEFSMSGLSGLSKTTTFQWYGWPGLEVPEDELGSVKKRLKDEFNATPVFMDDKLADRHYNGFSNSILWPLLHYHPGEIVFDEGAWDAYREANLLFAKTIVKEAQDGDLIWVQDYHLMLLPELLRAELRAAGKKANKIGFFLHTPFPSSEIYRILPVRGQLLRGVLHCDLIGFHTYDYARHFLSSCSHLLGLVTTPSSVKYEGRSVAVGAFPIGIDPDKFTDGLKSPKVQNRIASLENKFQGTKLMVSVDRLDYIKGIPQKLHALEVFLQNHPEWVGKVVLVQVAVPSRQDVEEYQNLRAVVNELVGRINGKFGTVDYMPIHFMHKSVSFDELIALYAASDACVVSSTRDGMNLVSFEYIATQQKRKGVLILSEFAGAAQSLNGSLVVNPWNTEELARAYHEAVSMSDEQRARKFEKLYKYISKYTSAFWGKSFVAELLQCS 5hvw-a1-m2-cA_5hvw-a1-m6-cA Monomeric IgG4 Fc P01861 P01861 1.95 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 5hvw-a1-m1-cA_5hvw-a1-m4-cA 5hvw-a1-m3-cA_5hvw-a1-m5-cA LGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAKTKPREEQFNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKGLPSSIEKTISKAKGQPREPQVYTFPPSQEEMTKNQVSLRCLVKGFYPSDIAVEWESNGQPENNYKTTKPVLDSDGSFRLESRLTVDKSRWQEGNVFSCSVMHEALHNHYTQKSLSLS LGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAKTKPREEQFNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKGLPSSIEKTISKAKGQPREPQVYTFPPSQEEMTKNQVSLRCLVKGFYPSDIAVEWESNGQPENNYKTTKPVLDSDGSFRLESRLTVDKSRWQEGNVFSCSVMHEALHNHYTQKSLSLS 5hw4-a2-m1-cC_5hw4-a2-m2-cC Crystal structure of Escherichia coli 16S rRNA methyltransferase RsmI in complex with AdoMet P67087 P67087 2.211 X-RAY DIFFRACTION 173 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 222 222 5hw4-a1-m1-cB_5hw4-a1-m1-cA MGQLYIVPTPIGNLADITQRALEVLQAVDLIAAEDTRHTGLLLQHFGINARLFALHQQKAETLLAKLQEGQNIALVSDAGTPLINDPGYHLVRTCREAGIRVVPLPGPCAAITALSAAGLPSDRFCYEGFLPAKSKGRRDALKAIEAEPRTLIFYESTHRLLDSLEDIVAVLGESRYVVLARELTKTWETIHGAPVGELLAWVKEDENRRKGEMVLIVEGHK MGQLYIVPTPIGNLADITQRALEVLQAVDLIAAEDTRHTGLLLQHFGINARLFALHQQKAETLLAKLQEGQNIALVSDAGTPLINDPGYHLVRTCREAGIRVVPLPGPCAAITALSAAGLPSDRFCYEGFLPAKSKGRRDALKAIEAEPRTLIFYESTHRLLDSLEDIVAVLGESRYVVLARELTKTWETIHGAPVGELLAWVKEDENRRKGEMVLIVEGHK 5hw7-a1-m1-cB_5hw7-a1-m1-cA Candida albicans FKBP12 apo protein in P21212 space group P28870 P28870 2.291 X-RAY DIFFRACTION 30 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 119 122 ELPQIEIVQEGDNTTFAKPGDTVTIHYDGKLTNGKEFDSSRKRGKPFTCTVGVGQVIKGWDISLTNNYGKGGANLPKISKGTKAILTIPPNLAYGPRGIPPIIGPNETLVFEVELLGVN EELPQIEIVQEGDNTTFAKPGDTVTIHYDGKLTNGKEFDSSRKRGKPFTCTVGVGQVIKGWDISLTNNYGKGGANLPKISKGTKAILTIPPNLAYGPRGIPPIIGPNETLVFEVELLGVNGQ 5hwb-a1-m1-cA_5hwb-a1-m1-cB Aspergillus fumigatus FKBP12 apo protein in P212121 space group Q4WLV6 Q4WLV6 2.306 X-RAY DIFFRACTION 49 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 111 115 MGVTKELKSPGNGVDFPKKGDFVTIHYTGRLTDGSKFDSSVDRNEPFQTQIGTGRVIKGWDEGVPQMSLGEKAVLTITPDYGYGARGFPPVIPGNSTLIFEVELLGINNKR GSHMGVTKELKSPGNGVDFPKKGDFVTIHYTGRLTDGSKFDSSVDRNEPFQTQIGTGRVIKGWDEGVPQMSLGEKAVLTITPDYGYGARGFPPVIPGNSTLIFEVELLGINNKRA 5hwh-a1-m1-cA_5hwh-a1-m2-cA Structure of a cysteine hydrolase with a positive substrate A0A0K0XHU0 A0A0K0XHU0 1.79 X-RAY DIFFRACTION 93 1.0 273678 (Microbacterium hydrocarbonoxydans) 273678 (Microbacterium hydrocarbonoxydans) 175 175 5ha8-a1-m1-cA_5ha8-a1-m2-cA 5hwg-a1-m1-cA_5hwg-a1-m2-cA PRRTVVLAIDLQAGVTPGCFDEEGVLSRAAALVERARAGGVPVVWVHHDPVGVGTPEWELAAPLHRAEGEPLVRKNYRDSFADTTLRETLDELGATHLVITGAQSDFAVRTTMQRAAAEGYDVTLVSDAHTTVDTEWEGVRISGEQIVAHTNMYFSGLRYPGQEFVIATHDHVAL PRRTVVLAIDLQAGVTPGCFDEEGVLSRAAALVERARAGGVPVVWVHHDPVGVGTPEWELAAPLHRAEGEPLVRKNYRDSFADTTLRETLDELGATHLVITGAQSDFAVRTTMQRAAAEGYDVTLVSDAHTTVDTEWEGVRISGEQIVAHTNMYFSGLRYPGQEFVIATHDHVAL 5hwo-a1-m1-cA_5hwo-a1-m2-cA MvaS in complex with 3-hydroxy-3-methylglutaryl coenzyme A Q1D4I1 Q1D4I1 1.48 X-RAY DIFFRACTION 237 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 418 418 5hwp-a1-m1-cA_5hwp-a1-m2-cA 5hwq-a1-m1-cA_5hwq-a1-m2-cA 5hwr-a1-m1-cA_5hwr-a1-m2-cA MKKRVGIEALAVAVPSRYVDIEDLARARGVDPAKYTAGLGAREMAVTDPGEDTVALAATAAARLIRQQDVDPSRIGMLVVGTETGIDHSKPVASHVQGLLKLPRTMRTYDTQHACYGGTAGLMAAVEWIASGAGAGKVAVVVCSDIARYGLNTAGEPTQGGGAVALLVSEQPDLLAMDVGLNGVCSMDVYDFWRPVGRREALVDGHYSITCYLEALSGAYRGWREKALAAGLVRWSDALPGEQLARIAYHVPFCKMARKAHTQLRLCDLEDAADAAASTPESREAQAKSAASYDAQVATSLGLNSRIGNVYTASLYLALAGLLQHEAGALAGQRIGLLSYGSGCAAEFYSGTVGEKAAERMAKADLEAVLARRERVSIEEYERLMKLPADAPEAVAPSPGAFRLTEIRDHRRQYAEGN MKKRVGIEALAVAVPSRYVDIEDLARARGVDPAKYTAGLGAREMAVTDPGEDTVALAATAAARLIRQQDVDPSRIGMLVVGTETGIDHSKPVASHVQGLLKLPRTMRTYDTQHACYGGTAGLMAAVEWIASGAGAGKVAVVVCSDIARYGLNTAGEPTQGGGAVALLVSEQPDLLAMDVGLNGVCSMDVYDFWRPVGRREALVDGHYSITCYLEALSGAYRGWREKALAAGLVRWSDALPGEQLARIAYHVPFCKMARKAHTQLRLCDLEDAADAAASTPESREAQAKSAASYDAQVATSLGLNSRIGNVYTASLYLALAGLLQHEAGALAGQRIGLLSYGSGCAAEFYSGTVGEKAAERMAKADLEAVLARRERVSIEEYERLMKLPADAPEAVAPSPGAFRLTEIRDHRRQYAEGN 5hws-a1-m1-cD_5hws-a1-m1-cA Crystal structure of ketopantoate reductase from Thermococcus kodakarensis complexed with NADP+ Q5JGC2 Q5JGC2 2.3 X-RAY DIFFRACTION 58 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 297 298 5ayv-a1-m1-cA_5ayv-a1-m1-cB 5hws-a2-m1-cB_5hws-a2-m1-cC MRIYVLGAGSIGSLFGALLARAGNDVTLIGRREQVDAINKNGLHVFGAEEFTVKPKATIYAPEEPPDLLILAVKSYSTKTALEAARQCIGRNTWVLSIQNGLGNEELALKYTPNVMGGVTTNGAMLVEWGKVLWAGKGITVIGRYPTGRDDFVDEVASVFNEAGIDTSVTENAIGWKWAKAIVNSVINGLGTVLEVKNGHLKDDPHLEGISVDIAREGCMVAQQLGIEFEIHPLELLWDTIERTRENYNSTLQDIWRGRETEVDYIHGKIVEYARSVGMEAPRNELLWVLVKAKERI MRIYVLGAGSIGSLFGALLARAGNDVTLIGRREQVDAINKNGLHVFGAEEFTVKPKATIYAPEEPPDLLILAVKSYSTKTALEAARQCIGRNTWVLSIQNGLGNEELALKYTPNVMGGVTTNGAMLVEWGKVLWAGKGITVIGRYPTGRDDFVDEVASVFNEAGIDTSVTENAIGWKWAKAIVNSVINGLGTVLEVKNGHLKDDPHLEGISVDIAREGCMVAQQLGIEFEIHPLELLWDTIERTRENYNSTLQDIWRGRETEVDYIHGKIVEYARSVGMEAPRNELLWVLVKAKERIN 5hww-a1-m1-cB_5hww-a1-m1-cA Crystal structure of PAS1 complexed with 1,2,4-TMB A5W4E3 A5W4E3 2 X-RAY DIFFRACTION 38 1.0 351746 (Pseudomonas putida F1) 351746 (Pseudomonas putida F1) 114 128 5hwt-a1-m1-cB_5hwt-a1-m1-cA 5hwv-a1-m1-cA_5hwv-a1-m1-cB MALYEFVGLLDAHGNVLEVNQVALEGGGITLEEIRGKPFWKARWWQISKKTEATQKRLVETASSGEFVRCDVEILGKSGGREVIAVDFSLLPICNEEGSIVYLLAEGRNITDKK GAMALYEFVGLLDAHGNVLEVNQVALEGGGITLEEIRGKPFWKARWWQISKKTEATQKRLVETASSGEFVRCDVEILGKSGGREVIAVDFSLLPICNEEGSIVYLLAEGRNITDKKKAEAMLALKNQE 5hx0-a1-m1-cB_5hx0-a1-m1-cA Crystal structure of unknown function protein Dfer_1899 fromDyadobacter fermentans DSM 18053 C6VW01 C6VW01 1.851 X-RAY DIFFRACTION 70 1.0 471854 (Dyadobacter fermentans DSM 18053) 471854 (Dyadobacter fermentans DSM 18053) 359 360 IPGVRKVEDVVIYRNEKFHAAFPSVIKKKNGEIVLAFRRAPDRKVFGEKGTNHVDPNSYLVSVKSKDGKTWTPEPELIYSHPFGGSQDPCLLQLKDGTILCASYGWAFLRPDGENLKKPYFLAGGAVFLGGYVLRSTDGGKSWQGPLYPPHIEPEINYTAGEKLPAYNRGAYEGKNGRILWVVAATDRQSPNKTSNHLLISDDKGLTWKYSAPVAVDEKVSFNEASVYETPKGDVVAFLRTAGLGDQACIARSVDGGKTFTAWEKGFQGHPHALRLPDNRVLLSYGYRHKPLGIRARILNAECTDFATAPEIVLRTDGGTTDLGYPWAVQLDKNRVLVSYYFNVPGGPQHIAGSILEIR SIPGVRKVEDVVIYRNEKFHAAFPSVIKKKNGEIVLAFRRAPDRKVFGEKGTNHVDPNSYLVSVKSKDGKTWTPEPELIYSHPFGGSQDPCLLQLKDGTILCASYGWAFLRPDGENLKKPYFLAGGAVFLGGYVLRSTDGGKSWQGPLYPPHIEPEINYTAGEKLPAYNRGAYEGKNGRILWVVAATDRQSPNKTSNHLLISDDKGLTWKYSAPVAVDEKVSFNEASVYETPKGDVVAFLRTAGLGDQACIARSVDGGKTFTAWEKGFQGHPHALRLPDNRVLLSYGYRHKPLGIRARILNAECTDFATAPEIVLRTDGGTTDLGYPWAVQLDKNRVLVSYYFNVPGGPQHIAGSILEIR 5hx2-a1-m6-cG_5hx2-a1-m6-cH In vitro assembled star-shaped hubless T4 baseplate P10928 P10928 3.8 ELECTRON MICROSCOPY 408 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 340 340 5hx2-a1-m1-cG_5hx2-a1-m1-cH 5hx2-a1-m2-cG_5hx2-a1-m2-cH 5hx2-a1-m3-cG_5hx2-a1-m3-cH 5hx2-a1-m4-cG_5hx2-a1-m4-cH 5hx2-a1-m5-cG_5hx2-a1-m5-cH MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQRAFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENANLPATETDEEVLIVDENGSVIVGGCQYDPDESGPIYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQRAFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENANLPATETDEEVLIVDENGSVIVGGCQYDPDESGPIYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 5hx2-a1-m6-cG_5hx2-a1-m6-cI In vitro assembled star-shaped hubless T4 baseplate P10928 P10928 3.8 ELECTRON MICROSCOPY 461 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 340 340 5hx2-a1-m1-cG_5hx2-a1-m1-cI 5hx2-a1-m2-cG_5hx2-a1-m2-cI 5hx2-a1-m3-cG_5hx2-a1-m3-cI 5hx2-a1-m4-cG_5hx2-a1-m4-cI 5hx2-a1-m5-cG_5hx2-a1-m5-cI MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQRAFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENANLPATETDEEVLIVDENGSVIVGGCQYDPDESGPIYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQRAFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENANLPATETDEEVLIVDENGSVIVGGCQYDPDESGPIYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 5hx2-a1-m6-cH_5hx2-a1-m6-cI In vitro assembled star-shaped hubless T4 baseplate P10928 P10928 3.8 ELECTRON MICROSCOPY 417 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 340 340 5hx2-a1-m1-cH_5hx2-a1-m1-cI 5hx2-a1-m2-cH_5hx2-a1-m2-cI 5hx2-a1-m3-cH_5hx2-a1-m3-cI 5hx2-a1-m4-cH_5hx2-a1-m4-cI 5hx2-a1-m5-cH_5hx2-a1-m5-cI MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQRAFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENANLPATETDEEVLIVDENGSVIVGGCQYDPDESGPIYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA MKQNINIGNVVDDGTGDYLRKGGIKINENFDELYYELGDGDVPYSAGAWKTYNASSGQTLTAEWGKSYAINTSSGRVTINLPKGTVNDYNKVIRARDVFATWNVNPVTLVAASGDTIKGSAVPVEINVRFSDLELVYCAPGRWLYVSQGPGVDISGDVNLTDFDKIGWPNVEAVQSYQRAFNAVSNIFDTIYPIGTIYENAVNPNNPVTYMGFGSWKLFGQGKVLVGWNEDISDPNFALNNNDLDSGGNPSHTAGGTGGSTSVTLENANLPATETDEEVLIVDENGSVIVGGCQYDPDESGPIYTKYREAKASTNSTHTPPTSITNIQPYITVYRWIRIA 5hxa-a1-m1-cA_5hxa-a1-m2-cA Crystal structure of an UDP-forming alpha, alpha-terhalose-phosphate synthase from Burkholderia xenovorans Q142X8 Q142X8 2 X-RAY DIFFRACTION 57 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 448 448 MSRLIVVSNRVGGLAIGVLDALKETGGVWFGWSGETVSEPSAPVIEKQGNVTYATVGLTKRDYDQYYRGFSNATLWPTFHYRNDLSRYDRQEYAGYQRVNATLAKQLKELLKPDDIIWVHDYHLLPFARCLRELGVKNPIGFFLHIPFPVPEVLRTIPPHEELVKAMCSYDVIGFQTDADRQSFVDFIERGQHGTSSEDGMVHAYNRFLKVGAYPIGIYPDAIAKAAEQFTDRKPVRSLRDGMRGRKLIMSVDRLDYSKGLVERFQAFERLLLNAPGWHGRVSLVQIAPPTRADVQTYQRIRQTLEGEAGRINGRFAQLDWTPIQYLNRKYERNLLMALFRQSQVGYVTPLRDGMNLVAKEYVASQDPADPGVLVLSQFAGAAEQLPGALVVNPFDLSQMAEALERALSMPLAERQARHADMMAPMRENNLSVWRDTFLADLRNVATA MSRLIVVSNRVGGLAIGVLDALKETGGVWFGWSGETVSEPSAPVIEKQGNVTYATVGLTKRDYDQYYRGFSNATLWPTFHYRNDLSRYDRQEYAGYQRVNATLAKQLKELLKPDDIIWVHDYHLLPFARCLRELGVKNPIGFFLHIPFPVPEVLRTIPPHEELVKAMCSYDVIGFQTDADRQSFVDFIERGQHGTSSEDGMVHAYNRFLKVGAYPIGIYPDAIAKAAEQFTDRKPVRSLRDGMRGRKLIMSVDRLDYSKGLVERFQAFERLLLNAPGWHGRVSLVQIAPPTRADVQTYQRIRQTLEGEAGRINGRFAQLDWTPIQYLNRKYERNLLMALFRQSQVGYVTPLRDGMNLVAKEYVASQDPADPGVLVLSQFAGAAEQLPGALVVNPFDLSQMAEALERALSMPLAERQARHADMMAPMRENNLSVWRDTFLADLRNVATA 5hxd-a1-m1-cB_5hxd-a1-m1-cA Crystal structure of murein-tripeptide amidase MpaA from Escherichia coli O157 P0ACV7 P0ACV7 2.6 X-RAY DIFFRACTION 169 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 234 237 MTVTRPRAERGAFPPGTEHYGRSLLGAPLIWFPAPAASRESGLILAGTHGDENSSVVTLSCALRTLTPSLRRHHVVLCVNPDGCQLGLRANANGVDLNRNFPAANWKEGETVYRWNSAAEERDVVLLTGDKPGSEPETQALCQLIHRIQPAWVVSFHDPLACIEDPRHSELGEWLAQAFELPLVTYETPGSFGSWCADLNLHCITAEFPPISSDEASEKYLFAMANLLRWHPKD MTVTRPRAERGAFPPGTEHYGRSLLGAPLIWFPAPAASRESGLILAGTHGDENSSVVTLSCALRTLTPSLRRHHVVLCVNPDGCQLGLRANANGVDLNRNFPAANWKEGETVYRWNSAAEERDVVLLTGDKPGSEPETQALCQLIHRIQPAWVVSFHDPLACIEDPRHSELGEWLAQAFELPLVTSVGYETPGSFGSWCADLNLHCITAEFPPISSDEASEKYLFAMANLLRWHPKD 5hxk-a2-m1-cB_5hxk-a2-m1-cC Structure of TTHA1265 Q5SIU9 Q5SIU9 2 X-RAY DIFFRACTION 176 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 402 402 5hxk-a1-m1-cA_5hxk-a1-m2-cA HMSRVERLPNGLVVALEERDFPGVAFQLLVPAGAVNDPEGMEGAAALLEGWLWKGAGDLDARALAQALDALGVRRSSGAGLEYTAFAAAFLPEVLDEVFRLYALLLTRPRLPEEGLEAVRSVALQALLSLEDQPARKLLSELRRKVFRSPHGREPLGREEGLKGARAEALKADYRRRYTPKGAILAVAGGVSWERLRAALEPFLAWEGEEALYPAPELSEPHRFVLRRPTAQVQIGLAYPDVGPEDPGFYAARLALEVLSGGMSSRLFTEVREKRGLVYAVSAFPAGVKGQGLLMAYAGTTKERAGETLEVLRAEVERLAEGVTEEELSRAKVGLKTALVMADESIRSRAASMARDLYMLGRVRSLSEIEAAIEGTSLEAVNAFLRAHPYRDPWVGLLGEVE HMSRVERLPNGLVVALEERDFPGVAFQLLVPAGAVNDPEGMEGAAALLEGWLWKGAGDLDARALAQALDALGVRRSSGAGLEYTAFAAAFLPEVLDEVFRLYALLLTRPRLPEEGLEAVRSVALQALLSLEDQPARKLLSELRRKVFRSPHGREPLGREEGLKGARAEALKADYRRRYTPKGAILAVAGGVSWERLRAALEPFLAWEGEEALYPAPELSEPHRFVLRRPTAQVQIGLAYPDVGPEDPGFYAARLALEVLSGGMSSRLFTEVREKRGLVYAVSAFPAGVKGQGLLMAYAGTTKERAGETLEVLRAEVERLAEGVTEEELSRAKVGLKTALVMADESIRSRAASMARDLYMLGRVRSLSEIEAAIEGTSLEAVNAFLRAHPYRDPWVGLLGEVE 5hxl-a1-m1-cA_5hxl-a1-m2-cA Structure based function annotation of a hypothetical protein MGG_01005 related to the development of rice blast fungus G4NCW2 G4NCW2 1.97 X-RAY DIFFRACTION 135 1.0 242507 (Pyricularia oryzae 70-15) 242507 (Pyricularia oryzae 70-15) 123 123 HHSMAAQGPSPIPTNRLKQIAADACNDAIGSAEFYDHAKTEQWNHQIINTILKAVIAESQPSDSTTPPQFKFAVNSTIVQHLGMHSATGAFWNDKTDGMWTYKHEGDESKGMDVVVMLIWIAV HHSMAAQGPSPIPTNRLKQIAADACNDAIGSAEFYDHAKTEQWNHQIINTILKAVIAESQPSDSTTPPQFKFAVNSTIVQHLGMHSATGAFWNDKTDGMWTYKHEGDESKGMDVVVMLIWIAV 5hxq-a1-m1-cA_5hxq-a1-m1-cC Crystal Structure of Z,Z-Farnesyl Diphosphate Synthase (D71M, E75A and H103Y Mutants) Complexed with DMSPP B8XA40 B8XA40 1.95 X-RAY DIFFRACTION 98 0.996 62890 (Solanum habrochaites) 62890 (Solanum habrochaites) 223 227 5hxn-a1-m1-cA_5hxn-a1-m2-cA 5hxo-a1-m1-cA_5hxo-a1-m2-cA 5hxt-a1-m1-cA_5hxt-a1-m1-cB LMPKHIALIMDGNRRWAKDKGLDVSEGYKHLFPKLKEICDISSKLGIQVITAFAFSTENWKRAKGEVDFLMQMFEELYDEFSRSGVRVSIIGCKTDLPMTLQKCIALTEETTKGNKGLHLVIALNYGGYYDILQATKSIVNKAMNGLLDVEDINKNLFDQELESKCPNPDLLIRTGGDQRVSNFLLWQLAYTEFYFTKTLFPDFGEEDLKEAIINFQQRHRRF MLDEALMPKHIALIMDGNRRWAKDKGLDVSEGYKHLFPKLKEICDISSKLGIQVITAFAFSTENWKRAKGEVDFLMQMFEELYDEFSRSGVRVSIIGCKTDLPMTLQKCIALTEETTKGNKGLHLVIALNYGGYYDILQATKSIVNKAMNGLLDVEDINKNLFDQELESKCPNPDLLIRTGGDQRVSNFLLWQLAYTEFYFTKTLFPDFGEEDLKEAIINFQQRHRR 5hy5-a1-m1-cB_5hy5-a1-m1-cA Crystal Structure of a Tryptophan 6-halogenase (SttH) from Streptomyces toxytricini E9P162 E9P162 2.68 X-RAY DIFFRACTION 106 1.0 67369 (Streptomyces toxytricini) 67369 (Streptomyces toxytricini) 490 511 PDKVVIVGGGTAGWMTASYLKKAFGERVSVTLVESGTIGTVGVGEATFSDIRHFFEFLDLREEEWMPACNATYKLAVRFQDWQRPGHHFYHPFEQMRSVDGFPLTDWWLQNGPTDRFDRDCFVMASLCDAGRSPRYLNGSLQFPYAYHFEAALLAEFLSGYSKDRGVKHVVDEVLEVKLDDRGWISHVVTKEHGDIGGDLFVDCTGFRGVLLNQALGVPFVSYQDTLPNDSAVALQVPLDMEARGIPPYTRATAKEAGWIWTIPLIGRIGTGYVYAKDYCSPEEAERTLREFVGPEAADVEANHIRMRIGRSEQSWKNNCVAIGLSSGFVEPLESTGIFFIHHAIEQLVKHFPAGDWHPQLRAGYNSAVANVMDGVREFLVLHYLGAARNDTRYWKDTKTRAVPDALAERIERWKVQLPDSENVFPYYHGLPPYSYMAILLGTGAIGLRPSPALALADPAAAEKEFTAIRDRARFLVDTLPSQYEYFAAM RNPDKVVIVGGGTAGWMTASYLKKAFGERVSVTLVESGTIGTVGVGEATFSDIRHFFEFLDLREEEWMPACNATYKLAVRFQDWQRPGHHFYHPFEQMRSVDGFPLTDWWLQNGPTDRFDRDCFVMASLCDAGRSPRYLNGSLLQQEFDPAGLTMSEHQGKTQFPYAYHFEAALLAEFLSGYSKDRGVKHVVDEVLEVKLDDRGWISHVVTKEHGDIGGDLFVDCTGFRGVLLNQALGVPFVSYQDTLPNDSAVALQVPLDMEARGIPPYTRATAKEAGWIWTIPLIGRIGTGYVYAKDYCSPEEAERTLREFVGPEAADVEANHIRMRIGRSEQSWKNNCVAIGLSSGFVEPLESTGIFFIHHAIEQLVKHFPAGDWHPQLRAGYNSAVANVMDGVREFLVLHYLGAARNDTRYWKDTKTRAVPDALAERIERWKVQLPDSENVFPYYHGLPPYSYMAILLGTGAIGLRPSPALALADPAAAEKEFTAIRDRARFLVDTLPSQYEYFAAM 5hyb-a2-m1-cA_5hyb-a2-m3-cB Crystal structure of myristoylated Y81A mutant MMTV matrix protein P10258 P10258 1.94 X-RAY DIFFRACTION 52 1.0 11758 (Mouse mammary tumor virus (STRAIN BR6)) 11758 (Mouse mammary tumor virus (STRAIN BR6)) 91 91 5hyb-a1-m1-cB_5hyb-a1-m2-cA GVSGSKGQKLFVSVLQRLLSERGLHVKESSAIEFYQFLIKVSPWFPEEGGLNLQDWKRVGREMKRYAAEHGTDSIPKQAAPIWLQLREILT GVSGSKGQKLFVSVLQRLLSERGLHVKESSAIEFYQFLIKVSPWFPEEGGLNLQDWKRVGREMKRYAAEHGTDSIPKQAAPIWLQLREILT 5hyc-a1-m1-cB_5hyc-a1-m1-cA Structure based function annotation of a hypothetical protein MGG_01005 related to the development of rice blast fungus G4NCW2 G4NCW2 2.4 X-RAY DIFFRACTION 129 0.983 242507 (Pyricularia oryzae 70-15) 242507 (Pyricularia oryzae 70-15) 118 130 AQGPSPIPTNRLKQIAADACNDAIGSAEFYDHAKTEQWNHQIINTILKAVIAESQPTPPQFKFAVNSTIVQHLVPSRGMHSATGAFWNDKTDGMWTYKHEGDESKGMDVVVMLIWIAV GPSPIPTNRLKQIAADACNDAIGSAEFYDHAKTEQWNHQIINTILKAVIAESQPSDSTTPPQFKFAVNSTIVQHLVPSSKDGKPHVGRRGMHSATGAFWNDKTDGMWTYKHEGDESKGMDVVVMLIWIAV 5hyd-a2-m1-cC_5hyd-a2-m1-cD Crystal structure of calcium-free human S100Z Q8WXG8 Q8WXG8 2.3 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 96 5hyd-a1-m1-cB_5hyd-a1-m1-cA PTQLEMAMDTMIRIFHRYSGKERKRFKLSKGELKLLLQRELTEFLSCQKETQLVDKIVQDLDANKDNEVDFNEFVVMVAALTVACNDYFVEQLK PTQLEMAMDTMIRIFHRYSGKERKRFKLSKGELKLLLQRELTEFLSCQKETQLVDKIVQDLDANKDNEVDFNEFVVMVAALTVACNDYFVEQLKKK 5hyf-a1-m1-cA_5hyf-a1-m2-cA Glycosylated Knob-Knob Fc fragment (P6122) P01857 P01857 1.8 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 LGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPCRDELTKNQVSLWCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL LGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPCRDELTKNQVSLWCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 5hyh-a1-m1-cA_5hyh-a1-m2-cA CmlI (chemically reduced state), arylamine oxygenase of chloramphenicol biosynthetic pathway F2RB83 F2RB83 2.03 X-RAY DIFFRACTION 52 1.0 953739 (Streptomyces venezuelae ATCC 10712) 953739 (Streptomyces venezuelae ATCC 10712) 287 287 NAVINRLVGNWHRRAAVKFDPGRPDFREDMIPFRGHPIWERLSDETRSRLLSWGWVAYNRNTVLIEQRIANPAFELVIGGAYPGLGGQQLELAVAQAMVDEQYHTLMHINGSAVTRRMRRSDFSDRVLPDSHITTIHQEHLDRCEEPWQRSLTTLGFATVAEISINAYLDLLADDQEIQVVNSTTVKLHNRDEYCHASISGEMMKQVYEALPADRRRFLLEKVVAGLEAFVAPDFTTWESIVAFEGVPGWEKAAAEVREAQGGTHLVQDHSGIHTLLTEMDVLDQVE NAVINRLVGNWHRRAAVKFDPGRPDFREDMIPFRGHPIWERLSDETRSRLLSWGWVAYNRNTVLIEQRIANPAFELVIGGAYPGLGGQQLELAVAQAMVDEQYHTLMHINGSAVTRRMRRSDFSDRVLPDSHITTIHQEHLDRCEEPWQRSLTTLGFATVAEISINAYLDLLADDQEIQVVNSTTVKLHNRDEYCHASISGEMMKQVYEALPADRRRFLLEKVVAGLEAFVAPDFTTWESIVAFEGVPGWEKAAAEVREAQGGTHLVQDHSGIHTLLTEMDVLDQVE 5hyi-a2-m1-cC_5hyi-a2-m1-cD Glycosylated, disulfide-linked Hole-Hole Fc fragment P01857 P01857 2.9 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 209 5hyi-a1-m1-cA_5hyi-a1-m1-cB GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVCTLPPSRDELTKNQVSLSCAVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLVSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS GGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVCTLPPSRDELTKNQVSLSCAVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLVSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS 5hyt-a2-m1-cE_5hyt-a2-m1-cG Structure of human C4b-binidng protein alpha chain CCP domains 1 and 2 in complex with the hypervariable region of group A Streptococcus M22 protein Q54901 Q54901 2.54 X-RAY DIFFRACTION 34 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 28 29 5hyt-a1-m1-cC_5hyt-a1-m1-cA ISQESKLINTLTDENEKLREELQQYYAL ISQESKLINTLTDENEKLREELQQYYALS 5hyu-a1-m1-cB_5hyu-a1-m2-cB Structure of human C4b-binding protein alpha chain CCP domains 1 and 2 in complex with the hypervariable region of group A Streptococcus M2 protein P04003 P04003 2.561 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 SNCGPPPTLSFAAPMDITLTETRFKTGTTLKYTCLPGYVRSHSTQTLTCNSDGEWVYNTFCIYKRCRHPGELRNGQVEIKTDLSFGSQIEFSCSEGFFLIGSTTSRCEVQDRGVGWSHPLPQCEI SNCGPPPTLSFAAPMDITLTETRFKTGTTLKYTCLPGYVRSHSTQTLTCNSDGEWVYNTFCIYKRCRHPGELRNGQVEIKTDLSFGSQIEFSCSEGFFLIGSTTSRCEVQDRGVGWSHPLPQCEI 5hyz-a1-m1-cA_5hyz-a1-m2-cA Crystal Structure of SCL7 in Oryza sativa Q53K16 Q53K16 1.822 X-RAY DIFFRACTION 63 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 357 357 SAPILQSLLSCSRAAATDPGLAAAELASVRAAATDAGDPSERLAFYFADALSRRLACGASDELTLCYKTLNDACPYSKFAHLTANQAILEATGAATKIHIVDFGIVQGIQWAALLQALATRPEGKPTRIRITGVPSPLLGPQPAASLAATNTRLRDFAKLLGVDFEFVPLLRPVHELNKSDFLVEPDEAVAVNFLQLYHLLGDSDELVRRVLRLAKSLSPAVVTLGEYEVSLNRAGFVDRFANALSYYRSLFESLDVATRDSPERVRVERWFGERIQRAVGPEEGADRTERAGSSEWQTLEWCGFEPVPLSNYARSQADLLLWNYDSKYKYSLVELPPAFLSLAWEKRPLLTVSAWR SAPILQSLLSCSRAAATDPGLAAAELASVRAAATDAGDPSERLAFYFADALSRRLACGASDELTLCYKTLNDACPYSKFAHLTANQAILEATGAATKIHIVDFGIVQGIQWAALLQALATRPEGKPTRIRITGVPSPLLGPQPAASLAATNTRLRDFAKLLGVDFEFVPLLRPVHELNKSDFLVEPDEAVAVNFLQLYHLLGDSDELVRRVLRLAKSLSPAVVTLGEYEVSLNRAGFVDRFANALSYYRSLFESLDVATRDSPERVRVERWFGERIQRAVGPEEGADRTERAGSSEWQTLEWCGFEPVPLSNYARSQADLLLWNYDSKYKYSLVELPPAFLSLAWEKRPLLTVSAWR 5hzp-a1-m1-cA_5hzp-a1-m1-cC Structure of human C4b-binding protein alpha chain CCP domains 1 and 2 in complex with the hypervariable region of group A Streptococcus M49 protein. P16947 P16947 2.74 X-RAY DIFFRACTION 49 1.0 301452 (Streptococcus pyogenes serotype M49) 301452 (Streptococcus pyogenes serotype M49) 71 71 NVSSVARREKELYDQIADLTDKNGEYLERIGELEERQKNLEKLEHQSQVAADKHYQEQAKKHQEYKQEQEE NVSSVARREKELYDQIADLTDKNGEYLERIGELEERQKNLEKLEHQSQVAADKHYQEQAKKHQEYKQEQEE 5i01-a1-m1-cA_5i01-a1-m1-cD Structure of phosphoheptose isomerase GmhA from Neisseria gonorrhoeae Q5F5E3 Q5F5E3 2.37 X-RAY DIFFRACTION 113 0.995 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 184 184 5i01-a1-m1-cC_5i01-a1-m1-cB TLQERVAAHFAESIRAKQEAEKILVEPTVQAAELMLQCLMNDGKILACGNGGSAADAQHFAAEMTGMELAAVALTTDTSALTAIGNDYGFDHVFSKQVRALGRAGDVLVGISTSGNSANVIEAVKAAHERDMHVIALTGRDGGKIAAMLKDTDVLLNVPHPRTARIQENHILLIHAMCDCIDSV TLQERVAAHFAESIRAKQEAEKILVEPTVQAAELMLQCLMNDGKILACGNGGSAADAQHFAAEMTGELAAVALTTDTSALTAIGNDYGFDHVFSKQVRALGRAGDVLVGISTSGNSANVIEAVKAAHERDMHVIALTGRDGGKIAAMLKDTDVLLNVPHPRTARIQENHILLIHAMCDCIDSVL 5i01-a1-m1-cB_5i01-a1-m1-cD Structure of phosphoheptose isomerase GmhA from Neisseria gonorrhoeae Q5F5E3 Q5F5E3 2.37 X-RAY DIFFRACTION 69 0.995 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 184 184 5i01-a1-m1-cC_5i01-a1-m1-cA TLQERVAAHFAESIRAKQEAEKILVEPTVQAAELMLQCLMNDGKILACGNGGSAADAQHFAAEMTGMELAAVALTTDTSALTAIGNDYGFDHVFSKQVRALGRAGDVLVGISTSGNSANVIEAVKAAHERDMHVIALTGRDGGKIAAMLKDTDVLLNVPHPRTARIQENHILLIHAMCDCIDSV TLQERVAAHFAESIRAKQEAEKILVEPTVQAAELMLQCLMNDGKILACGNGGSAADAQHFAAEMTGELAAVALTTDTSALTAIGNDYGFDHVFSKQVRALGRAGDVLVGISTSGNSANVIEAVKAAHERDMHVIALTGRDGGKIAAMLKDTDVLLNVPHPRTARIQENHILLIHAMCDCIDSVL 5i01-a1-m1-cC_5i01-a1-m1-cD Structure of phosphoheptose isomerase GmhA from Neisseria gonorrhoeae Q5F5E3 Q5F5E3 2.37 X-RAY DIFFRACTION 82 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 181 184 5i01-a1-m1-cA_5i01-a1-m1-cB TLQERVAAHFAESIRAKQEAEKILVEPTVQAAELMLQCLMNDGKILACGNGGSAADAQHFAAEMTGELAAVALTTDTSALTAIGNDYGFDHVFSKQVRALGRAGDVLVGISTSGNSANVIEAVKAAHERDMHVIALTGRDGGKIAAMLKDTDVLLNVPHPRTARIQENHILLIHAMCDCID TLQERVAAHFAESIRAKQEAEKILVEPTVQAAELMLQCLMNDGKILACGNGGSAADAQHFAAEMTGELAAVALTTDTSALTAIGNDYGFDHVFSKQVRALGRAGDVLVGISTSGNSANVIEAVKAAHERDMHVIALTGRDGGKIAAMLKDTDVLLNVPHPRTARIQENHILLIHAMCDCIDSVL 5i08-a1-m1-cB_5i08-a1-m1-cC Prefusion structure of a human coronavirus spike protein M1E1E4 M1E1E4 4.04 ELECTRON MICROSCOPY 213 1.0 443241 (Human coronavirus HKU1 (isolate N5)) 443241 (Human coronavirus HKU1 (isolate N5)) 958 958 5i08-a1-m1-cA_5i08-a1-m1-cB 5i08-a1-m1-cA_5i08-a1-m1-cC IGDFNCTNSFINDYNKTIPRISEDVVDVSLGLGTYYVLNRVYLNTTLLFTGYFPKSGANFRDLALKGSIYLSTLWYKPPFLSDFNNGIFSKVKNTKLYVNNTLYSEFSTIVIGSVFVNTSYTIVVQPHNGILEITACQYTMCEYPHTVCKSKGSIRNESWHIDSSEPLCLFKKNFTYNVSADWLYFHFYQERGVFYAYYADVGMPTTFLFSLYLGTILSHYYVMPLTCNAISSNTDNETLEYWVTPLSRRQYLLNFDEHGVITNAVDCSSSFLSEIQCKTQSFAPNTGVYDLSTVYRRIPNLPDCDIDNWLNNVSVPSPLNWERRIFSNCNFNLSTLLRLVHVDSFSCNNLDKSKIFGSCFNSITVDKFAIPNRRRDDLQLGSSGFLQSSNYKIDISSSSCQLYYSLPLVNVTINNFNPSSWNRRYGFGSFNLSSYDVVYSDHCFSVNSDFCPCFLGWSFDSCISNNRCNIFSNFIFNGINSGTTCSNDLLYSNTEISTGVCVNYDLYGITGQGIFKEVSAAYYNNWQNLLYDSNGNIIGFKDFLTNKTYTILPCYSGRVSAAFYQNPALLYRNLKCSYVLNNIFYFDSYLGCVLNAVNLTSYSVSSCDLRMGSGFCIDYPYRFVTFEPFNNFTIAGHEEFIQTSSPKVTIDCSAFVCSNYAACHDLLSEYGTFCDNINSILNEVNDLLDITQLQVANALMQGVTLSSNLNTLLEDLLFNKVKLSDVGFVEAYNNCTGGSEIRDLLCVQSFNGIKVLPPILSETQISGYTTAATVAAMFPPWSAAAGVPFSLNVQYRINGLGVTMDVLNKNQKLIANAFNKALLSIQNGFTATNSALAKIQSVVNANAQALNSLLQQLFNKFGAISSSLQEILSRLDNLEAQVQIDRLINGRLTALNAYVSQQLSDITLIKAGASRAIEKVNECVKSQSPRINFCGNGNHILSLVQNAPYGLLFIHFS IGDFNCTNSFINDYNKTIPRISEDVVDVSLGLGTYYVLNRVYLNTTLLFTGYFPKSGANFRDLALKGSIYLSTLWYKPPFLSDFNNGIFSKVKNTKLYVNNTLYSEFSTIVIGSVFVNTSYTIVVQPHNGILEITACQYTMCEYPHTVCKSKGSIRNESWHIDSSEPLCLFKKNFTYNVSADWLYFHFYQERGVFYAYYADVGMPTTFLFSLYLGTILSHYYVMPLTCNAISSNTDNETLEYWVTPLSRRQYLLNFDEHGVITNAVDCSSSFLSEIQCKTQSFAPNTGVYDLSTVYRRIPNLPDCDIDNWLNNVSVPSPLNWERRIFSNCNFNLSTLLRLVHVDSFSCNNLDKSKIFGSCFNSITVDKFAIPNRRRDDLQLGSSGFLQSSNYKIDISSSSCQLYYSLPLVNVTINNFNPSSWNRRYGFGSFNLSSYDVVYSDHCFSVNSDFCPCFLGWSFDSCISNNRCNIFSNFIFNGINSGTTCSNDLLYSNTEISTGVCVNYDLYGITGQGIFKEVSAAYYNNWQNLLYDSNGNIIGFKDFLTNKTYTILPCYSGRVSAAFYQNPALLYRNLKCSYVLNNIFYFDSYLGCVLNAVNLTSYSVSSCDLRMGSGFCIDYPYRFVTFEPFNNFTIAGHEEFIQTSSPKVTIDCSAFVCSNYAACHDLLSEYGTFCDNINSILNEVNDLLDITQLQVANALMQGVTLSSNLNTLLEDLLFNKVKLSDVGFVEAYNNCTGGSEIRDLLCVQSFNGIKVLPPILSETQISGYTTAATVAAMFPPWSAAAGVPFSLNVQYRINGLGVTMDVLNKNQKLIANAFNKALLSIQNGFTATNSALAKIQSVVNANAQALNSLLQQLFNKFGAISSSLQEILSRLDNLEAQVQIDRLINGRLTALNAYVSQQLSDITLIKAGASRAIEKVNECVKSQSPRINFCGNGNHILSLVQNAPYGLLFIHFS 5i0m-a2-m1-cC_5i0m-a2-m1-cB Crystal structure of DR2231_E79A mutant in complex with dUMP Q9RS96 Q9RS96 2.15 X-RAY DIFFRACTION 209 0.992 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 118 137 2yeu-a1-m1-cB_2yeu-a1-m1-cA 2yeu-a2-m1-cC_2yeu-a2-m1-cD 2yeu-a3-m1-cF_2yeu-a3-m1-cE 2yf3-a1-m1-cB_2yf3-a1-m1-cA 2yf3-a2-m1-cC_2yf3-a2-m1-cD 2yf3-a3-m1-cF_2yf3-a3-m1-cE 2yf4-a1-m1-cB_2yf4-a1-m1-cA 2yf4-a2-m1-cC_2yf4-a2-m1-cD 2yf4-a3-m1-cF_2yf4-a3-m1-cE 2yf9-a1-m1-cA_2yf9-a1-m2-cA 2yfc-a1-m1-cB_2yfc-a1-m1-cA 2yfc-a2-m1-cD_2yfc-a2-m1-cC 2yfd-a1-m1-cD_2yfd-a1-m1-cC 2yfd-a2-m1-cB_2yfd-a2-m1-cA 5hva-a1-m1-cC_5hva-a1-m1-cA 5hva-a2-m1-cD_5hva-a2-m1-cB 5hwu-a1-m1-cB_5hwu-a1-m1-cA 5hx1-a1-m1-cC_5hx1-a1-m1-cA 5hx1-a2-m1-cD_5hx1-a2-m1-cB 5i0j-a1-m1-cD_5i0j-a1-m1-cA 5i0j-a2-m1-cC_5i0j-a2-m1-cB 5i0m-a1-m1-cD_5i0m-a1-m1-cA PPTNAERLHEFHRAIGAATPERPTPPPPELLRLRQTLLDEESAEVRAEIDHLLARQAAGEALSAGDLAPLAHALADLLYVTYGALDQLGIDADAVFAEVHRANLSPADVRGVIERLQH PPTNAERLHEFHRAIGATPERPTPPPPELLRLRQTLLDEESAEVRAEIDHLLARQAAGEALSAGDLAPLAHALADLLYVTYGALDQLGIDADAVFAEVHRANLSKASGPRRADGKQLKPEGWRPADVRGVIERLQHA 5i0q-a1-m1-cA_5i0q-a1-m2-cA Structure of human C4b-binding protein alpha chain CCP domains 1 and 2 in complex with the hypervariable region of mutant group A Streptococcus M2 (K65A, N66A) protein P50468 P50468 2.293 X-RAY DIFFRACTION 47 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 34 34 AKLSEAELHDKIAALEEEKAELFEKLDKVEEEHK AKLSEAELHDKIAALEEEKAELFEKLDKVEEEHK 5i10-a2-m1-cA_5i10-a2-m2-cA Crystal structure of spinosyn rhamnosyl 4'-O-methyltransferase spnh mutant T242Q from Saccharopolyspora Spinosa Q9ALM9 Q9ALM9 2 X-RAY DIFFRACTION 36 1.0 60894 (Saccharopolyspora spinosa) 60894 (Saccharopolyspora spinosa) 192 192 PSQNALYLDLLKKVLTNTIYAHTMIGLERLDNLQHCVEAVLADGVPGDFAETGVWRGGACIFMRAVLQAFGDTGRTVWVVDSFSLETVRQNFARYGLLDEQVRFLPGWFRDTLPTAPIQELAVLRLDGDLYESTMDSLRNLYPKLSPGGFVIIDDYFLPSCQDAVKGFRAELGITEPIHDIDGQGAYWRRSW PSQNALYLDLLKKVLTNTIYAHTMIGLERLDNLQHCVEAVLADGVPGDFAETGVWRGGACIFMRAVLQAFGDTGRTVWVVDSFSLETVRQNFARYGLLDEQVRFLPGWFRDTLPTAPIQELAVLRLDGDLYESTMDSLRNLYPKLSPGGFVIIDDYFLPSCQDAVKGFRAELGITEPIHDIDGQGAYWRRSW 5i1f-a1-m1-cA_5i1f-a1-m2-cA Crystal structure of UTP-glucose-1-phosphate uridylyltransferase from Burkholderia vietnamiensis in complex with Uridine-5'-diphosphate-glucose A4JT02 A4JT02 2.15 X-RAY DIFFRACTION 150 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 290 290 HMLKVTKAVFPVAGLGTRFLPATKASPKEMLPVVDKPLIQYAVEEAIEAGITEMIFVTGRSKRAIEDHFDKSYEIEAELEARGKEKLLSLVRSIKPSHVDCFYVRQAEALGLGHAVLCAEKLVGDNPFAVILADDLLDGPTPVLRQMIDVFDHYHASVIGVEEIAPADSKSYGVIDGKRWEDDLFKLSGIVEKPEPAQAPSNFGVVGRYVLKPKIFKHLRGLKPGAGGELQLTDAIQSLLTDEQVLAYRYDGTRFDCGSKLGYLKATVEFALRHPEVAADFERYLLARMS HMLKVTKAVFPVAGLGTRFLPATKASPKEMLPVVDKPLIQYAVEEAIEAGITEMIFVTGRSKRAIEDHFDKSYEIEAELEARGKEKLLSLVRSIKPSHVDCFYVRQAEALGLGHAVLCAEKLVGDNPFAVILADDLLDGPTPVLRQMIDVFDHYHASVIGVEEIAPADSKSYGVIDGKRWEDDLFKLSGIVEKPEPAQAPSNFGVVGRYVLKPKIFKHLRGLKPGAGGELQLTDAIQSLLTDEQVLAYRYDGTRFDCGSKLGYLKATVEFALRHPEVAADFERYLLARMS 5i1n-a1-m1-cB_5i1n-a1-m1-cD Villin headpiece subdomain with a Gln26 to beta-3-homoglutamine substitution P02640 P02640 1.3 X-RAY DIFFRACTION 13 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 34 34 5i1o-a1-m1-cB_5i1o-a1-m1-cC LSDEDFKAVFGMTRSAFANLPLWKQHLKKEKGLF LSDEDFKAVFGMTRSAFANLPLWKQHLKKEKGLF 5i1s-a1-m1-cA_5i1s-a1-m1-cB Villin headpiece subdomain with a Lys30 to APC substitution P02640 P02640 1.12 X-RAY DIFFRACTION 12 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 34 34 LSDEDFKAVFGMTRSAFANLPLWKQQHLKEKGLF LSDEDFKAVFGMTRSAFANLPLWKQQHLKEKGLF 5i1u-a1-m1-cB_5i1u-a1-m1-cA Crystal structure of germacradien-4-ol synthase from Streptomyces citricolor G5EKM9 G5EKM9 1.5 X-RAY DIFFRACTION 130 0.99 212427 (Streptomyces citricolor) 212427 (Streptomyces citricolor) 294 300 SLELPFTHRRNPHQTEAADRHLEWLQRHRELAAVVSGSTYTGWDITELASLVYPESSAEDLALAADLMGFYFLFDDQFDSPLGRRPEQVALICERLSAIAHGTLTAVTSPSERAFADLWRRITLGMTDRWRARAACNWEYYFACHPAEAAGRTIPPDREGYLTLRRGTAAMESIFDMIERLGHFEVPQHVMHHPLFRQLRQLAADIPSFTNDVRSFVANLVMIVRRDRCCSTAEACAVVWDEAQRMADRFCDLRDQLPDACRSMSLDPAQRLAAERYADGMALWLAGYLHWESH MSDDTSLELPFTHRRNPHQTEAADRHLEWLQRHRELAAVVSGSTYTGWDITELASLVYPESSAEDLALAADLMGFYFLFDDQFDSPLGRRPEQVALICERLSAIAHGTLTAVTSPSERAFADLWRRITLGMTDRWRARAACNWEYYFACHPAEAAGRPPDREGYLTLRRGTAAMESIFDMIERLGHFEVPQHVMHHPLFRQLRQLAADIPSFTNDVRSFAQEANLVMIVRRDRCCSTAEACAVVWDEAQRMADRFCDLRDQLPDACRSMSLDPAQRLAAERYADGMALWLAGYLHWESHT 5i1v-a2-m1-cC_5i1v-a2-m1-cD Crystal structure of CrmK, a flavoenzyme involved in the shunt product recycling mechanism in caerulomycin biosynthesis H8Y6P5 H8Y6P5 1.84 X-RAY DIFFRACTION 110 1.0 1074250 (Actinoalloteichus sp. WH1-2216-6) 1074250 (Actinoalloteichus sp. WH1-2216-6) 497 498 5i1v-a1-m1-cA_5i1v-a1-m1-cB 5i1w-a1-m1-cA_5i1w-a1-m1-cB 5i1w-a2-m1-cC_5i1w-a2-m1-cD RAAVTVKPDDHRYDLLARADNYRFVAQPEYFRLPYSTAQVVEAVSEAVAAGKRLTVRSGGHCGEAFVASPDVDVIVDLSSMSHVGYDEERGAFEVEAGATVGQIYRVLYKNYGVTFPGGFCMGVGAGGHISGGGYGPLSRLLGLTVDYLHAVEVVVVDAEGVVSTVVATREEDDPNRDLWWAHTGGGGGNFGVITRYWLRSPDAVGDAPEEALPRPPASFHVARVSWSWAELTEADYVRLVSNFLDWQLRNCTVDSPNIGLYALLECFHRSAGHLAMHAQIPVDVPDAEERMSWFLAELNEGVAVAPSLTRRRLPWLATSQLLAIPDVGPGAIGVRRKVKSADLRGPHTREQLAAAYRHLSRADYHCPSAAMEYIAYGGRVNTVDPAATAVPRGASLKTFYMVAWTDPDEDEEHLRWIREIYRDIHSATGGVPTPDEVNTGAYINYPDIDLADPEWNTSGVPWHTIYYGDNYPRLQEIKSRWDPRNVFRHAFSIRPR TRAAVTVKPDDHRYDLLARADNYRFVAQPEYFRLPYSTAQVVEAVSEAVAAGKRLTVRSGGHCGEAFVASPDVDVIVDLSSMSHVGYDEERGAFEVEAGATVGQIYRVLYKNYGVTFPGGFCMGVGAGGHISGGGYGPLSRLLGLTVDYLHAVEVVVVDAEGVVSTVVATREEDDPNRDLWWAHTGGGGGNFGVITRYWLRSPDAVGDAPEEALPRPPASFHVARVSWSWAELTEADYVRLVSNFLDWQLRNCTVDSPNIGLYALLECFHRSAGHLAMHAQIPVDVPDAEERMSWFLAELNEGVAVAPSLTRRRLPWLATSQLLAIPDVGPGAIGVRRKVKSADLRGPHTREQLAAAYRHLSRADYHCPSAAMEYIAYGGRVNTVDPAATAVPRGASLKTFYMVAWTDPDEDEEHLRWIREIYRDIHSATGGVPTPDEVNTGAYINYPDIDLADPEWNTSGVPWHTIYYGDNYPRLQEIKSRWDPRNVFRHAFSIRPR 5i2d-a2-m1-cR_5i2d-a2-m1-cS Crystal structure of T. thermophilus TTHB099 class II transcription activation complex: TAP-RPo Q53W63 Q53W63 4.405 X-RAY DIFFRACTION 107 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 195 195 3b02-a1-m1-cA_3b02-a1-m2-cA 5i2d-a1-m1-cG_5i2d-a1-m1-cH MKRFARKETIYLRGEEARTLYRLEEGLVRVVELLPDGRLITLRHVLPGDYFGEEALEGKAYRYTAEAMTEAVVQGLEPRAMDHEALHRVARNLARQMRRVQAYEAHLQTGELRARIARYLLFLADTPLSARDRQGIYVTVSHEEIADATASIRESVSKVLADLRREGLIATAYRRVYLLDLAALEREAGSALEAA MKRFARKETIYLRGEEARTLYRLEEGLVRVVELLPDGRLITLRHVLPGDYFGEEALEGKAYRYTAEAMTEAVVQGLEPRAMDHEALHRVARNLARQMRRVQAYEAHLQTGELRARIARYLLFLADTPLSARDRQGIYVTVSHEEIADATASIRESVSKVLADLRREGLIATAYRRVYLLDLAALEREAGSALEAA 5i2g-a1-m1-cA_5i2g-a1-m2-cB 1,2-propanediol Dehydration in Roseburia inulinivorans; Structural Basis for Substrate and Enantiomer Selectivity Q1A666 Q1A666 2.352 X-RAY DIFFRACTION 107 0.999 360807 (Roseburia inulinivorans) 360807 (Roseburia inulinivorans) 796 796 5i2a-a1-m1-cA_5i2a-a1-m2-cA 5i2a-a2-m1-cB_5i2a-a2-m2-cB NYDSTPIAKSDRIKRLVDHLYAKMPEIEAARAELITESFKATEGQPVVMRKARAFEHILKNLPIIIRPEELIVGSTTIAPRGCQTYPEFSYEWLEAEFETVETRSADPFYISEETKKRLLAADAYWKGKTTSELATSYMAPETLRAMKHNFFTPGNYFYNGVGHVTVQYETVLAIGLNGVKEKVRKEMENCHFGDADYSTKMCFLESILISCDAVITYANRYAKMAEEMAEKETDAARRQELLTIARVCKNVPEFPAESFQEACQSFWFIQQVLQIESSGHSISPGRFDQYMYPYYEKDLKEGSLTREYAQELIDCIWVKLNDLNKCRDAASAEGFAGYSLFQNLIVGGQTVQGRDATNDLSFMCITASEHVFLPMPSLSIRVWHGSSKALLMRAAELTRTGIGLPAYYNDEVIIPALVHRGATMDEARNYNIIGCVEPQVPGKTDGWHDAAFFNMCRPLEMVFSNGYDNGEIASIQTGNVESFQSFDEFMEAYRKQMLYNIELMVNADNAIDYAHAKLAPLPFESCLVDDCIKRGMSAQEGGAIYNFTGPQGFGIANVADSLYTIKKLVFEEKRITMGELKKALEMNYGKGPEDVRKRYEEIHEMILELPKYGNDIDEVDELAREAAYFYTRPLETFKNPRGGMYQAGLYPVSANVPLGAQTGATPDGRLAHTPVADGVGPTSGFDISGPTASCNSVAKLDHAIASNGTLFNMKMHPTAMAGEKGLESFISLIRGYFDQQGMHMQFNVVDRATLLDAQAHPEKYSGLIVRVAGYSALFTTLSKSLQDDIIKRTEQ YDSTPIAKSDRIKRLVDHLYAKMPEIEAARAELITESFKATEGQPVVMRKARAFEHILKNLPIIIRPEELIVGSTTIAPRGCQTYPEFSYEWLEAEFETVETRSADPFYISEETKKRLLAADAYWKGKTTSELATSYMAPETLRAMKHNFFTPGNYFYNGVGHVTVQYETVLAIGLNGVKEKVRKEMENCHFGDADYSTKMCFLESILISCDAVITYANRYAKMAEEMAEKETDAARRQELLTIARVCKNVPEFPAESFQEACQSFWFIQQVLQIESSGHSISPGRFDQYMYPYYEKDLKEGSLTREYAQELIDCIWVKLNDLNKCRDAASAEGFAGYSLFQNLIVGGQTVQGRDATNDLSFMCITASEHVFLPMPSLSIRVWHGSSKALLMRAAELTRTGIGLPAYYNDEVIIPALVHRGATMDEARNYNIIGCVEPQVPGKTDGWHDAAFFNMCRPLEMVFSNGYDNGEIASIQTGNVESFQSFDEFMEAYRKQMLYNIELMVNADNAIDYAHAKLAPLPFESCLVDDCIKRGMSAQEGGAIYNFTGPQGFGIANVADSLYTIKKLVFEEKRITMGELKKALEMNYGKGLPEDVRKRYEEIHEMILELPKYGNDIDEVDELAREAAYFYTRPLETFKNPRGGMYQAGLYPVSANVPLGAQTGATPDGRLAHTPVADGVGPTSGFDISGPTASCNSVAKLDHAIASNGTLFNMKMHPTAMAGEKGLESFISLIRGYFDQQGMHMQFNVVDRATLLDAQAHPEKYSGLIVRVAGYSALFTTLSKSLQDDIIKRTEQ 5i2h-a1-m1-cB_5i2h-a1-m1-cA Crystal structure of O-methyltransferase family 2 protein Plim_1147 from Planctomyces limnophilus DSM 3776 complex with Apigenin D5STZ7 D5STZ7 1.551 X-RAY DIFFRACTION 145 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 324 330 AVKDALRFPPTDVTPIFDLFRGNFATELLAASVAHLHVFDILNESPLSLDELQRRLVLSERATQVLVTGLCAQLLTKRAGEIDLTPLARNHLVTTSPFSVGGYISLAAQSAGTLALVERLKSDSARFLTLSLAGRAWNVAPRFADVLPAGQPGKILKSGRVLLDVAGGSGIYTAVLQKYPTWRGIIFDRPEVLKIAAELAEQTGVRDRLELHAGDWVDPFPPADDILLSNVLHDWDRPQCARLVAKATSGLPEGGRLLIHDVLLNSDLTGPLEIALYSLALFSLTEGRAYSLEEYRGWIAGADLKYVDCIPTSAHGHLILSEKV AVKDALRFPPTDVTPIFDLFRGNFATELLAASVAHLHVFDILNESPLSLDELQRRLVLSERATQVLVTGLCAQLLTKRAGEIDLTPLARNHLVTTSPFSVGGYISLAAQSAGTLALVERLKSDADREDSARFLTLSLAGRAWNVAPRFADVLPAGQPGKILKSSGRVLLDVAGGSGIYTAVLQKYPTWRGIIFDRPEVLKIAAELAEQTGVRDRLELHAGDWVDPFPPADDILLSNVLHDWDRPQCARLVAKATSGLPEGGRLLIHDVLLNSDLTGPLEIALYSLALFSLTEGRAYSLEEYRGWIAGADLKYVDCIPTSAHGHLILSEKV 5i2m-a1-m1-cC_5i2m-a1-m1-cB CRYSTAL STRUCTURE OF VSV-INDIANA (MUDD-SUMMERS STRAIN) GLYCOPROTEIN UNDER ITS ACIDIC CONFORMATION P0C2X0 P0C2X0 2.4 X-RAY DIFFRACTION 127 1.0 11279 (Vesicular stomatitis Indiana virus strain Mudd-Summers) 11279 (Vesicular stomatitis Indiana virus strain Mudd-Summers) 408 410 5i2m-a1-m1-cA_5i2m-a1-m1-cB 5i2m-a1-m1-cC_5i2m-a1-m1-cA KFTIVFPHNQKGNWKNVPSNYHYCPSSSDLNWHNDLIGTALQVKMPKSHKAIQADGWMCHASKWVTTCDFRWYGPKYITHSIRSFTPSVEQCKESIEQTKQGTWLNPGFPPQSCGYATVTDAEAVIVQVTPHHVLVDEYTGEWVDSQFINGKCSNYICPTVHNSTTWHSDYKVKGLCDSNLISMDITFFSEDGELSSLGKEGTGFRSNYFAYETGGKACKMQYCKHWGVRLPSGVWFEMADKDLFAAARFPECPEGSSISAPSQTSVDVSLIQDVERILDYSLCQETWSKIRAGLPISPVDLSYLAPKNPGTGPAFTIINGTLKYFETRYIRVDIAAPILSRMVGMISGTTTERELWDDWAPYEDVEIGPNGVLRTSSGYKFPLYMIGHGMLDSDLHLSSKAQVFEHP KFTIVFPHNQKGNWKNVPSNYHYCPSSSDLNWHNDLIGTALQVKMPKSHKAIQADGWMCHASKWVTTCDFRWYGPKYITHSIRSFTPSVEQCKESIEQTKQGTWLNPGFPPQSCGYATVTDAEAVIVQVTPHHVLVDEYTGEWVDSQFINGKCSNYICPTVHNSTTWHSDYKVKGLCDSNLISMDITFFSEDGELSSLGKEGTGFRSNYFAYETGGKACKMQYCKHWGVRLPSGVWFEMADKDLFAAARFPECPEGSSISAPSQTSVDVSLIQDVERILDYSLCQETWSKIRAGLPISPVDLSYLAPKNPGTGPAFTIINGTLKYFETRYIRVDIAAPILSRMVGMISGTTTERELWDDWAPYEDVEIGPNGVLRTSSGYKFPLYMIGHGMLDSDLHLSSKAQVFEHPHI 5i2s-a1-m2-cA_5i2s-a1-m3-cA PREFUSION FORM OF THE VESICULAR STOMATITIS VIRUS GLYCOPROTEIN G ECTODOMAIN P0C2X0 P0C2X0 3 X-RAY DIFFRACTION 51 1.0 11279 (Vesicular stomatitis Indiana virus strain Mudd-Summers) 11279 (Vesicular stomatitis Indiana virus strain Mudd-Summers) 413 413 5i2s-a1-m1-cA_5i2s-a1-m2-cA 5i2s-a1-m1-cA_5i2s-a1-m3-cA KFTIVFPHNQKGNWKNVPSNYHYCPSSSDLNWHNDLIGTALQVKMPKSHKAIQADGWMCHASKWVTTCDFRWYGPKYITHSIRSFTPSVEQCKESIEQTKQGTWLNPGFPPQSCGYATVTDAEAVIVQVTPHHVLVDEYTGEWVDSQFINGKCSNYICPTVHNSTTWHSDYKVKGLCDSNLISMDITFFSEDGELSSLGKEGTGFRSNYFAYETGGKACKMQYCKHWGVRLPSGVWFEMADKDLFAAARFPECPEGSSISAPSQTSVDVSLIQDVERILDYSLCQETWSKIRAGLPISPVDLSYLAPKNPGTGPAFTIINGTLKYFETRYIRVDIAAPILSRMVGMISGTTTERELWDDWAPYEDVEIGPNGVLRTSSGYKFPLYMIGHGMLDSDLHLSSKAQVFEHPHIQDA KFTIVFPHNQKGNWKNVPSNYHYCPSSSDLNWHNDLIGTALQVKMPKSHKAIQADGWMCHASKWVTTCDFRWYGPKYITHSIRSFTPSVEQCKESIEQTKQGTWLNPGFPPQSCGYATVTDAEAVIVQVTPHHVLVDEYTGEWVDSQFINGKCSNYICPTVHNSTTWHSDYKVKGLCDSNLISMDITFFSEDGELSSLGKEGTGFRSNYFAYETGGKACKMQYCKHWGVRLPSGVWFEMADKDLFAAARFPECPEGSSISAPSQTSVDVSLIQDVERILDYSLCQETWSKIRAGLPISPVDLSYLAPKNPGTGPAFTIINGTLKYFETRYIRVDIAAPILSRMVGMISGTTTERELWDDWAPYEDVEIGPNGVLRTSSGYKFPLYMIGHGMLDSDLHLSSKAQVFEHPHIQDA 5i32-a1-m2-cA_5i32-a1-m4-cA Ammonia permeable aquaporin AtTIP2;1 Q41951 Q41951 1.18 X-RAY DIFFRACTION 140 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 238 238 5i32-a1-m1-cA_5i32-a1-m3-cA 5i32-a1-m1-cA_5i32-a1-m4-cA 5i32-a1-m2-cA_5i32-a1-m3-cA GAGVAFGSFDDSFSLASLRAYLAEFISTLLFVFAGVGSAIAYAKLTSDAALDTPGLVAIAVCHGFALFVAVAIGANISGGHVNPAVTFGLAVGGQITVITGVFYWIAQLLGSTAACFLLKYVTGGLAVPTHSVAAGLGSIEGVVMEIIITFALVYTVYATAADPKKGSLGTIAPLAIGLIVGANILAAGPFSGGSMNPARSFGPAVAAGDFSGHWVYWVGPLIGGGLAGLIYGNVFMG GAGVAFGSFDDSFSLASLRAYLAEFISTLLFVFAGVGSAIAYAKLTSDAALDTPGLVAIAVCHGFALFVAVAIGANISGGHVNPAVTFGLAVGGQITVITGVFYWIAQLLGSTAACFLLKYVTGGLAVPTHSVAAGLGSIEGVVMEIIITFALVYTVYATAADPKKGSLGTIAPLAIGLIVGANILAAGPFSGGSMNPARSFGPAVAAGDFSGHWVYWVGPLIGGGLAGLIYGNVFMG 5i34-a1-m1-cB_5i34-a1-m1-cA Adenylosuccinate synthetase from Cryptococcus neoformans complexed with GDP and IMP J9VI09 J9VI09 1.53 X-RAY DIFFRACTION 181 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 413 429 5i33-a1-m1-cB_5i33-a1-m1-cA SPEGVTVVLGAQWGDEGKGKLVDILAAEADICARCAGGNNAGHAFNLLPSGLINPECTAFIGSGVVVHVPSLFNELDTLERKGLKVAGRLLVSDRAHLVMGFHQIVDGLKEVELGGSSIGTTRKGIGPAYSSKASRSGLRVHHLFDPTFPAKFRKLVEGRFKRYGHFEFDTEGEIEMYLAFAERLRPFIVDGPTFMHNALSSGKRVLVEGANALMLDLDYGTYPFVTSSSTSIGGVVSGLGISPFAIKRVVGVIKAYTTRVGGGPFPTEDLATVGETLQEVGAEYGTVTGRRRRCGWLDLVVMKYSTMINGYTSLNLTKLDVLDGFEEIKVATGYKIDGVEVEGFPADLDRLAKVEVQYATLPGWKTDISNCKTYEEFPENAKAYIKFIEDYLGVKVQYVGVGPGRDQNVIIF APSPEGVTVVLGAQWGDEGKGKLVDILAAEADICARCAGGNNAGHTIVVRNDKGEKTSYAFNLLPSGLINPECTAFIGSGVVVHVPSLFNELDTLERKGLKVAGRLLVSDRAHLVMGFHQIVDGLKEVELGGSSIGTTRKGIGPAYSSKASRSGLRVHHLFDPTFPAKFRKLVEGRFKRYGHFEFDTEGEIEMYLAFAERLRPFIVDGPTFMHNALSSGKRVLVEGANALMLDLDYGTYPFVTSSSTSIGGVVSGLGISPFAIKRVVGVIKAYTTRVGGGPFPTEDLATVGETLQEVGAEYGTVTGRRRRCGWLDLVVMKYSTMINGYTSLNLTKLDVLDGFEEIKVATGYKIDGVEVEGFPADLDRLAKVEVQYATLPGWKTDISNCKTYEEFPENAKAYIKFIEDYLGVKVQYVGVGPGRDQNVIIF 5i3e-a1-m1-cA_5i3e-a1-m1-cB Crystal structure of putative Putative deoxyribonuclease-2 from Burkholderia thailandensis, E264 Q2T8B0 Q2T8B0 1.65 X-RAY DIFFRACTION 115 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 346 348 5unb-a1-m1-cB_5unb-a1-m1-cA MAISPRDEQNRSVDLWFAYKVPKLTKDADSDSASGYEYVYYDRQVGAVQKSPNLMNDPKGALFYTLDSVFGDPGDTTGWILYNDEMPADANRSNNATLGHTKGVIAFDIASSSALWLLHSWPKYASPSVVPTPLYGQTFLCLSLDLATAGKLAAQMALHQQPQVYLPRTGGLDHTSPLYALTQPLNASAPGDSDSLDFKTRGGVPFKVIAKNRKWGKDFWNDLVGPTLKADMYVETWIRGKIPPVLDSDGVHKTYDIKFIDLRKLGAPWAWPETQDHAKWGITTTDNWVCVGDINRMVTQEKRGGGTIAFQDPKLWKALCETDLIIPPPGKTDAQARAMIRKTHEP MAISPRDEQNRSVDLWFAYKVPKLTKDADSDSASGYEYVYYDRQVGAVQKSPNLMNDPKGALFYTLDSVFGDPGDTTGWILYNDEMPADANRSNNATLGHTKGVIAFDIASSSALWLLHSWPKYASPSVPGVPTPLYGQTFLCLSLDLATAGKLAAQMALHQQPQVYLPRTGGLDHTSPLYALTQPLNASAPGDSDSLDFKTRGGVPFKVIAKNRKWGKDFWNDLVGPTLKADMYVETWIRGKIPPVLDSDGVHKTYDIKFIDLRKLGAPWAWPETQDHAKWGITTTDNWVCVGDINRMVTQEKRGGGTIAFQDPKLWKALCETDLIIPPPGKTDAQARAMIRKTHEP 5i3s-a1-m1-cB_5i3s-a1-m1-cA Crystal structure of Staphylococcal IMPase-II A0A1I9GET0 A0A1I9GET0 2.2 X-RAY DIFFRACTION 75 0.992 282459 (Staphylococcus aureus subsp. aureus MSSA476) 282459 (Staphylococcus aureus subsp. aureus MSSA476) 258 262 3t0j-a1-m1-cB_3t0j-a1-m1-cA 3t0j-a1-m1-cD_3t0j-a1-m1-cC 5dw8-a1-m1-cB_5dw8-a1-m1-cA 5i3s-a2-m1-cD_5i3s-a2-m1-cC 5j16-a1-m1-cD_5j16-a1-m1-cA 5j16-a2-m1-cC_5j16-a2-m1-cB ALYGFAQGLIQEAGIRIKQLMEQNLNDLVTNVDKATEDFIFDTILETYPNHQVLGEEGHGHDIDTSKGTVWVVDPIDGTLNFVHQQENFAISIGIYIDGKPYAGFVYDVMADVLYHAKVGEGAYRGSQPLKPLNDSNLRQSIIGINPNWLTKPILGEIFKEIVNDSRSARAYGSAALEIVSVATGNLEAYMTPRLQPWDFAGGLVILYEVNGQASNLLGEPLTISGPNSILVGNRGLHQEISNDYLEPHHDALIQLHE MALYGFAQGLIQEAGIRIKQLMEQNLNDLVTNVDKATEDFIFDTILETYPNHQVLGEEGHDIDTSKGTVWVVDPIDGTLNFVHQQENFAISIGIYIDGKPYAGFVYDVMADVLYHAKVGEGAYRGSQPLKPLNDSNLRQSIIGINPNWLTKPILGEIFKEIVNDSRSARAYGSAALEIVSVATGNLEAYMTPRLQPWDFAGGLVILYEVNGQASNLLGEPLTISGPNSILVGNRGLHQEISNDYLEPHHDALIQLHEQRFKR 5i47-a1-m1-cA_5i47-a1-m1-cB Crystal structure of RimK domain protein ATP-grasp from Sphaerobacter thermophilus DSM 20745 D1C6B4 D1C6B4 2.35 X-RAY DIFFRACTION 115 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 255 261 ARVALLADRLRVEERLLIEAFAARGHEAVLVQPAKLALSPAAPSAGDFVAALDRGEATAERAVLAALLASGGTPVVNRAATARLLADRALLRHLILADIPVPETRVCFGEEAIFAAIAEIGYPVVLKSLTVDPGFPVALVEDQDAAEAIVEHRIERAVLVQQFIPARGQSVRLVVAGRSLAGIEQRTYEAYTGDPAPLTALAERIIERLGTGTYAVEVVETGDGPVVVGVANLVDFRSLSGRGVDVAGIADFVLG ARVALLADRLRVEERLLIEAFAARGHEAVLVQPAKLALSPAAPSAGDFVAALDRGEATAERAVLAALLASGGTPVVNRAATARLLADRALLRHLILADIPVPETRVCFGEEAIFAAIAEIGYPVVLKSLTVDPGFPVALVEDQDAAEAIVEHRILGGERAVLVQQFIPARAGQSVRLVVAGRSLAGIEQRTHTYEAYTGDPAPLTALAERIIERLGTGTYAVEVVETGDGPVVVGVANLVDFRSLSGRGVDVAGIADFVLG 5i4q-a1-m1-cB_5i4q-a1-m2-cB Contact-dependent inhibition system from Escherichia coli NC101 - ternary CdiA/CdiI/EF-Tu complex (domains 2 and 3) P0DSM8 P0DSM8 2.35 X-RAY DIFFRACTION 54 1.0 753642 (Escherichia coli NC101) 753642 (Escherichia coli NC101) 103 103 5i4r-a1-m1-cF_5i4r-a1-m1-cB DIWPEFQRDLEYRDVVLSIKRNLRLYEECIESLVHQIGSTNFDNAQPLFDDLFRQSELATLYKYEYKPGKRIQDLIYHLDRDDFYSRKYWHKKFSDGLAWPEA DIWPEFQRDLEYRDVVLSIKRNLRLYEECIESLVHQIGSTNFDNAQPLFDDLFRQSELATLYKYEYKPGKRIQDLIYHLDRDDFYSRKYWHKKFSDGLAWPEA 5i4z-a1-m1-cA_5i4z-a1-m1-cB Structure of apo OmoMYC P01106 P01106 1.95 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 5i50-a1-m1-cA_5i50-a1-m1-cB RRNELKRSFFALRDQIPELENNEKAPKVVILKKATAYILSVQAETQKLISEIDLLRKQNEQLKHKLEQLRNSCA RRNELKRSFFALRDQIPELENNEKAPKVVILKKATAYILSVQAETQKLISEIDLLRKQNEQLKHKLEQLRNSCA 5i5a-a3-m1-cA_5i5a-a3-m2-cA quasi racemic structure of allo-Ile7-ShK and D-ShK P29187 P29187 1.2 X-RAY DIFFRACTION 20 1.0 6123 (Stichodactyla helianthus) 6123 (Stichodactyla helianthus) 35 35 RSCIDTIPKSRCTAFQCKHSMKYRLSFCRKTCGTC RSCIDTIPKSRCTAFQCKHSMKYRLSFCRKTCGTC 5i5c-a1-m1-cC_5i5c-a1-m1-cA X-ray crystal structure of allo-Thr31-ShK P29187 P29187 1.3 X-RAY DIFFRACTION 20 1.0 6123 (Stichodactyla helianthus) 6123 (Stichodactyla helianthus) 33 34 5i5c-a1-m1-cA_5i5c-a1-m1-cB RSCIDTIPKSRCTAFCKHSMKYRLSFCRKCGTC RSCIDTIPKSRCTAFQCKHSMKYRLSFCRKCGTC 5i5l-a1-m1-cA_5i5l-a1-m2-cA The photosensory module (PAS-GAF-PHY) of the bacterial phytochrome Agp1 (AtBphP1) in the Pr form, chromophore modelled with an endocyclic double bond in pyrrole ring A Q7CY45 Q7CY45 2.7 X-RAY DIFFRACTION 66 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 480 480 SCGAEPIHIPGAIQEHGALLVLSAREFSVVQASDNLANYIGVDLPIGAVATEANLPFISVLSAWYSGEESNFRYAWAEKKLDVSAHRSGTLVILEVEKAGVGESAEKLMGELTSLAKYLNSAPSLEDALFRTAQLVSSISGHDRTLIYDFGLDWSGHVVAEAGSGALPSYLGLRFPAGDIPPQARQLYTINRLRMIPDVDYKPVPIRPEVNAETGAVLDMSFSQLRSVSPVHLEYMRNMGTAASMSVSIVVNGALWGLIACHHATPHSVSLAVREACDFAAQLLSMRIAMEQSSQDASRRVELGHIQARLLKGMAAAEKWVDGLLGGEGEREDLLKQVGADGAALVLGDDYELVGNTPSREQVEELILWLGEREIADVFATDNLAGNYPTAAAYASVASGIIAMRVSEGSWLIWFRPEVIKTVRWGGDPHKTVQERIHPRKSFEIWKEQLRNTSFPWSEPELAAARELRGAIIGIVLRKT SCGAEPIHIPGAIQEHGALLVLSAREFSVVQASDNLANYIGVDLPIGAVATEANLPFISVLSAWYSGEESNFRYAWAEKKLDVSAHRSGTLVILEVEKAGVGESAEKLMGELTSLAKYLNSAPSLEDALFRTAQLVSSISGHDRTLIYDFGLDWSGHVVAEAGSGALPSYLGLRFPAGDIPPQARQLYTINRLRMIPDVDYKPVPIRPEVNAETGAVLDMSFSQLRSVSPVHLEYMRNMGTAASMSVSIVVNGALWGLIACHHATPHSVSLAVREACDFAAQLLSMRIAMEQSSQDASRRVELGHIQARLLKGMAAAEKWVDGLLGGEGEREDLLKQVGADGAALVLGDDYELVGNTPSREQVEELILWLGEREIADVFATDNLAGNYPTAAAYASVASGIIAMRVSEGSWLIWFRPEVIKTVRWGGDPHKTVQERIHPRKSFEIWKEQLRNTSFPWSEPELAAARELRGAIIGIVLRKT 5i5m-a1-m1-cA_5i5m-a1-m1-cB Shewanella denitrificans nitrous oxide reductase, Ca2+-reconstituted form Q12M27 Q12M27 1.37 X-RAY DIFFRACTION 403 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 575 576 5i5i-a1-m1-cB_5i5i-a1-m1-cA 5i5j-a1-m1-cB_5i5j-a1-m1-cA SAVVHPGELDEYYGFWSGGHSGEVRILGIPSMRELMRIPVFNIDSATGWGITNESKRIKGDSAHLMTGDSHHPHMSMTDGSYNGKYVFINDKANSRVARIRCDVMKTDKMITIPNVQAIHGLRVQKVPYTKYVICNGEFEIPMNNDGKASLEDVSTYRSLFNVIDAEKMEVAFQVMVDGNLDNTDADYDGKYFFSTCYNSEMGMNLGEMITAERDHVVVFSLERCLAALKAGKFTNYNGNKVPVLDGRKGSDLTRYIPVPKSPHGINTAPDGKYFVANGKLSPTVSVVEIARLDDVFSGKIQPRDAIVAEPELGLGPLHTAFDNKGNAFTTLFLDSQIAKWNIQDAIKAYNGEKVNYLRQKLDVHYQPGHNHTSQGETRDTDGKWLVVLCKFSKDRFLPVGPLRPENDQLIDISGDEMKLVHDGPTFAEPHDCMIVHRSKVKPQKLWTRDDPMFADTVAMAKQDGVTLEMDNKVIRDGNKVRVYMTSIAPNFGMNEFKVKLGDEVTVVVTNLDQVEDVTHGFCMTNHGVQMEVAPQATASVTFIANKPGVQWYYCNWFCHALHMEMRGRMLVEAL ASAVVHPGELDEYYGFWSGGHSGEVRILGIPSMRELMRIPVFNIDSATGWGITNESKRIKGDSAHLMTGDSHHPHMSMTDGSYNGKYVFINDKANSRVARIRCDVMKTDKMITIPNVQAIHGLRVQKVPYTKYVICNGEFEIPMNNDGKASLEDVSTYRSLFNVIDAEKMEVAFQVMVDGNLDNTDADYDGKYFFSTCYNSEMGMNLGEMITAERDHVVVFSLERCLAALKAGKFTNYNGNKVPVLDGRKGSDLTRYIPVPKSPHGINTAPDGKYFVANGKLSPTVSVVEIARLDDVFSGKIQPRDAIVAEPELGLGPLHTAFDNKGNAFTTLFLDSQIAKWNIQDAIKAYNGEKVNYLRQKLDVHYQPGHNHTSQGETRDTDGKWLVVLCKFSKDRFLPVGPLRPENDQLIDISGDEMKLVHDGPTFAEPHDCMIVHRSKVKPQKLWTRDDPMFADTVAMAKQDGVTLEMDNKVIRDGNKVRVYMTSIAPNFGMNEFKVKLGDEVTVVVTNLDQVEDVTHGFCMTNHGVQMEVAPQATASVTFIANKPGVQWYYCNWFCHALHMEMRGRMLVEAL 5i6c-a1-m1-cB_5i6c-a1-m1-cA The structure of the eukaryotic purine/H+ symporter, UapA, in complex with Xanthine Q07307 Q07307 3.7 X-RAY DIFFRACTION 86 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 468 480 PFFGLNEKIPVLLAFILGLQHALAMLAGVVTPPLIISSSLSLPSDLQQYLVSTSLIVCGLLSMVQITSGVLSVMGVSFSIISVASGAFNQMYSNGFCQLDEAGNRLPCPEAYGALIGTSACCALVEILLAFVPPKVIQKIFPPIVTGPTVMLIGISLIGTGFKDWAGGSACMDDGMLCPSATAPRPLPWGSPEFIGLGFLVFVSIILCERFGAPIMKSCSVVIGLLVGCIVAAACGYFSHADIDAAPAASFIWVKTFPLSVYGPMVLPIIAVFIICACECIGDVTATCDVSRLEVRGGTFESRIQGAVLADGINSVVAALATMTPMTTFAQNNVVIALTRCANRWAGYCCCLILIVAGIFAKFAAAIVAIPNSVMGGMKTFLFASVVISGQAIVAKAPFTRRNRFILTASMALGYGATLVPTWFGNVFPQTENRDLEGFENAIELVLETGFAVTAFVAMLLNAIMPAE PFFGLNEKIPVLLAFILGLQHALAMLAGVVTPPLIISSSLSLPSDLQQYLVSTSLIVCGLLSMVQITRFHIYKTPYYIGSGVLSVMGVSFSIISVASGAFNQMYSNGFCQLDEAGNRLPCPEAYGALIGTSACCALVEILLAFVPPKVIQKIFPPIVTGPTVMLIGISLIGTGFKDWAGGSACMDDGMLCPSATAPRPLPWGSPEFIGLGFLVFVSIILCERFGAPIMKSCSVVIGLLVGCIVAAACGYFSHADIDAAPAASFIWVKTFPLSVYGPMVLPIIAVFIICACECIGDVTATCDVSRLEVRGGTFESRIQGAVLADGINSVVAALATMTPMTTFAQNNVVIALTRCANRWAGYCCCLILIVAGIFAKFAAAIVAIPNSVMGGMKTFLFASVVISGQAIVAKAPFTRRNRFILTASMALGYGATLVPTWFGNVFPQTENRDLEGFENAIELVLETGFAVTAFVAMLLNAIMPAE 5i6g-a1-m1-cA_5i6g-a1-m1-cB Crystal structure of C-terminal variant 2 of Chaetomium thermophilum acetyl-CoA carboxylase G0S3L5 G0S3L5 4.5 X-RAY DIFFRACTION 422 0.998 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 1028 1030 5i6f-a1-m1-cA_5i6f-a1-m1-cB 5i6h-a1-m1-cA_5i6h-a1-m1-cB 5i6i-a1-m1-cB_5i6i-a1-m1-cA IRKGVIVPCKDLLDAEEALSRALEVLPAVVNVAVRDAEGKNDEEILALIKPWVQNSKADLLARRVRRLTFICGRNDGSYPSYYTFRGPDYAEDDSIRHIEPSLAFQLELGRLSKFKLTPVFTQNKNIHVYEAVGRGVETDRRYFTRAVVRPGRLAEYLISEADRVVNDIFDALEIIGTNKTDLNHMFINFSHTFQVTADEVAESLQGFLDRFGPRGWRLRVHQVEIRINCMRSENDTMPLRVIITNTSGFVIQIELYEEKLSEKGEWVYYYVSGNAKIGSMHLLPVSTPYPTKNWLQPKRYKAHILGTQYVYDFPELFRQAIQNSWTEAVKKIPSLAAKQPAIGECIDYNELVLGDQDNLAEVSREPGMNSTGMVGWLINARTPEYPDGRKFIVVANDITFKIGSFGPKEDTFFFKCTELARKMGIPRIYLSANSGARLGLAEELMPHFNVAWNDPAKPEAGFKYLYLSDEAKRRFENEVITEEIVEDGEKRHKIITIVGAEEGLGVECLRGSGLIAGATSRAYNDIFTCTLVTCRSVGIGAYLVRLGQRAVQVEGQPIILTGAPALNSLLGREVYTSNLQLGGTQIMYRNGVSHLTAKDDFDGVTKIVQWLSFIPDQRNNPLPILSPSPDPWDRDVVYTPPYKQTYDVRWMIAGKEDEDGFQPGLFDKDSFVETLGGWARTVVVGRARLGGIPMGVIAVETRTIENITPADPANPDSIEQVTNEAGGVWYPNSAFKTAQAINDFNYGEQLPLMILANWRGFSGGQRDMYNEVLKYGSFIVDALTRFEKPIFIYIPPHGELRGGSWVVVDPTINPASMEMYADEEARGGVLEPEGIIPIKYKKDKQLETMARLDPVYRSLKKEMAKEGLSKEESDNIKKKMQQREELLLPIYHQICVQFADLHDRAGRMKAKGVIRQSLQWRQSRRFFYWRVRRRLIEDDILRRIEEAINPANTSLAASPETRSPHLVQLESWVGIPGFKTNDREVVEWYEQNQDRINEKLEKLKKESIADQMRELXXXXXXXXXXXX IRKGVIVPCKDLLDAEEALSRALEVLPAVVNVAVRDAEGKNDEEILALIKPWVQNSKADLLARRVRRLTFICGRNDGSYPSYYTFRGPDYAEDDSIRHIEPSLAFQLELGRLSKFKLTPVFTQNKNIHVYEAVGRGVETDRRYFTRAVVRPGRLAEYLISEADRVVNDIFDALEIIGTNKTDLNHMFINFSHTFQVTADEVAESLQGFLDRFGPRGWRLRVHQVEIRINCMRSENDTMPLRVIITNTSGFVIQIELYEEKLSEKGEWVYYYVSGNAKIGSMHLLPVSTPYPTKNWLQPKRYKAHILGTQYVYDFPELFRQAIQNSWTEAVKKIPSLAAKQPAIGECIDYNELVLGDQDNLAEVSREPGMNSTGMVGWLINARTPEYPDGRKFIVVANDITFKIGSFGPKEDTFFFKCTELARKMGIPRIYLSANSGARLGLAEELMPHFNVAWNDPAKPEAGFKYLYLSDEAKRRFENEVITEEIVEDGEKRHKIITIVGAEEGLGVECLRGSGLIAGATSRAYNDIFTCTLVTCRSVGIGAYLVRLGQRAVQVEGQPIILTGAPALNSLLGREVYTSNLQLGGTQIMYRNGVSHLTAKDDFDGVTKIVQWLSFIPDQRNNPLPILSPSPDPWDRDVVYTPPYKQTYDVRWMIAGKEDEDGFQPGLFDKDSFVETLGGWARTVVVGRARLGGIPMGVIAVETRTIENITPADPANPDSIEQVTNEAGGVWYPNSAFKTAQAINDFNYGEQLPLMILANWRGFSGGQRDMYNEVLKYGSFIVDALTRFEKPIFIYIPPHGELRGGSWVVVDPTINPASMEMYADEEARGGVLEPEGIIPIKYKKDKQLETMARLDPVYRSLKKEMAKEGLSKEESDNIKKKMQQREELLLPIYHQICVQFADLHDRAGRMKAKGVIRQSLQWRQSRRFFYWRVRRRLIEDDILRRIEEAINPANTSLAASPETRSPHLVQLESWVGIPGFKTNDREVVEWYEQNQDRINEKLEKLKKESIADQMRELLRXXXXXXXXXXXX 5i6j-a1-m1-cA_5i6j-a1-m2-cA Crystal Structure of SRGAP2 F-BARx O75044 O75044 2.7 X-RAY DIFFRACTION 447 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 410 410 5i6r-a1-m1-cA_5i6r-a1-m2-cA 5i7d-a1-m1-cA_5i7d-a1-m2-cA 5i7d-a2-m1-cB_5i7d-a2-m3-cB KKDKEIIAEYDTQVKEIRAQLTEQMKCLDQQCELRVQLLQDLQDFFRKKAEIEMDYSRNLEKLAERFLAKTQNVLSPVNCWNLLLNQVKRESRDHTTLSDIYLNNIIPRFVQVSEDSGRLFKKSKEVGQQLQDDLMKVLNELYSVMKTYHMYNADSISAQSKLKEAEKQEVKKIEKMKEKRQAKYTENKLKAIKARNEYLLALEATNASVFKYYIHDLSDLIDQCCDLGYHASLNRALRTFLSAELNLEQSKHEGLDAIENAVENLDATSDKQRLMEMYNNVFCPPMKFEFQPHMGDMASQLCAQQPVQSELVQRCQQLQSRLSTLKIENEEVKKTMEATLQTIQDIVTVEDFDVSDCFQYKPSIAKRRANQQETEQFYFTKMKEYLEGRNLITKLQAKHDLLQKTLGES KKDKEIIAEYDTQVKEIRAQLTEQMKCLDQQCELRVQLLQDLQDFFRKKAEIEMDYSRNLEKLAERFLAKTQNVLSPVNCWNLLLNQVKRESRDHTTLSDIYLNNIIPRFVQVSEDSGRLFKKSKEVGQQLQDDLMKVLNELYSVMKTYHMYNADSISAQSKLKEAEKQEVKKIEKMKEKRQAKYTENKLKAIKARNEYLLALEATNASVFKYYIHDLSDLIDQCCDLGYHASLNRALRTFLSAELNLEQSKHEGLDAIENAVENLDATSDKQRLMEMYNNVFCPPMKFEFQPHMGDMASQLCAQQPVQSELVQRCQQLQSRLSTLKIENEEVKKTMEATLQTIQDIVTVEDFDVSDCFQYKPSIAKRRANQQETEQFYFTKMKEYLEGRNLITKLQAKHDLLQKTLGES 5i7a-a1-m1-cA_5i7a-a1-m1-cB Mycobacterium tuberculosis CysM in complex with the Urea-scaffold inhibitor 1 [3-(3-(3,4-Dichlorophenyl)ureido)benzoic acid] P9WP53 P9WP53 2.08 X-RAY DIFFRACTION 111 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 281 292 3dki-a1-m1-cB_3dki-a1-m1-cA 3dwg-a1-m1-cB_3dwg-a1-m1-cA 3dwi-a1-m1-cA_3dwi-a1-m1-cB 3fgp-a1-m1-cA_3fgp-a1-m1-cB 5i6d-a1-m1-cA_5i6d-a1-m1-cB 5i7a-a2-m1-cC_5i7a-a2-m1-cD 5i7h-a1-m1-cA_5i7h-a1-m1-cB 5i7h-a2-m1-cC_5i7h-a2-m1-cD 5i7o-a1-m1-cA_5i7o-a1-m1-cB 5i7o-a2-m1-cC_5i7o-a2-m1-cD 5i7r-a1-m1-cA_5i7r-a1-m1-cB 5iw8-a1-m1-cA_5iw8-a1-m1-cB 5iwc-a1-m1-cB_5iwc-a1-m1-cA RYDSLLQALGNTPLVGLQRLSPRWDDGRDGPHVRLWAKLEDRNPTGSIKDRPAVRMIEQAEADGLLRPGATILEPTSGNTGISLAMAARLKGYRLICVMPENTSVERRQLLELYGAQIIFSAVATAKELAATNPSWVMLYQYGNPANTDSHYCGTGPELLADLPEITHFVAGLGTTGTLMGTGRFLREHVANVKIVAAEPRVPELYDPEILTARYSVGAVDAVRRTRELVHTEGIFAGISTGAVLHAALGVGAGALAAGERADIALVVADAGWKYLSTGAY RYDSLLQALGNTPLVGLQRLSPRWDDGRDGPHVRLWAKLEDRNPTGSIKDRPAVRMIEQAEADGLLRPGATILEPTSGNTGISLAMAARLKGYRLICVMPENTSVERRQLLELYGAQIIFSAAEGGSNTAVATAKELAATNPSWVMLYQYGNPANTDSHYCGTGPELLADLPEITHFVAGLGTTGTLMGTGRFLREHVANVKIVAAEPRGFVPELYDPEILTARYSVGAVDAVRRTRELVHTEGIFAGISTGAVLHAALGVGAGALAAGERADIALVVADAGWKYLSTGAYA 5i7c-a2-m1-cD_5i7c-a2-m1-cC Centrosomin-motif 2 (CM2) domain of Drosophila melanogaster Centrosomin (Cnn) P54623 P54623 2.804 X-RAY DIFFRACTION 29 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 58 59 5i7c-a1-m1-cA_5i7c-a1-m1-cB HDCAKVDLENAELRRKLIRTKRAFEDTYEKLRMANKAKAQVEKDIKNQILKTHNVLRN HDCAKVDLENAELRRKLIRTKRAFEDTYEKLRMANKAKAQVEKDIKNQILKTHNVLRNV 5i7k-a3-m1-cA_5i7k-a3-m1-cB Crystal Structure of Human SPLUNC1 Dolphin Mutant D1 (G58A, S61A, G62E, G63D, G66D, I67T) Q9NP55 Q9NP55 2.552 X-RAY DIFFRACTION 92 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 199 204 5i7l-a3-m1-cA_5i7l-a3-m1-cB SPTGLAGSLTNALSNALLAEDLLDTLENLPLLDILLGGLLGKVTSVIPGLNNIIDIKVTDPQLLELGLVQSPDGHRLYVTIPLGIKLQVNTPLVGASLLRLAVKLDITAEILAVRDKQERIHLVLGDCTHSPGSLQISLLPLPIQGLLDSLTGILNKVLPELVQGNVCPLVNEVLRGLDITLVHDIVNMLIHGLQFVIK SPTGLAGSLTNALSNALLAEDLLDTLENLPLLDILGLLGGLLGKVTSVIPGLNNIIDIKVTDPQLLELGLVQSPDGHRLYVTIPLGIKLQVNTPLVGASLLRLAVKLDITAEILAVRDKQERIHLVLGDCTHSPGSLQISLLDGLGPLPIQGLLDSLTGILNKVLPELVQGNVCPLVNEVLRGLDITLVHDIVNMLIHGLQFVI 5i7n-a1-m1-cA_5i7n-a1-m2-cA MaoC-like dehydratase B1MM63 B1MM63 1.65 X-RAY DIFFRACTION 111 1.0 36809 (Mycobacteroides abscessus) 36809 (Mycobacteroides abscessus) 325 325 ALEARVGHYYQMDNPYLVGREKVREYARAVQDYHPSHWDAAAAADLGYSGVVAPLTFTSTPAMACNRRMFESVVVGYDTYLQTEEVFEQHRPIVAGDELHIDVELTSIRRVAGRDLITVTNTFTDMAGERVHTLHTTVVGITADEISPGTMAAVQKAMMHDVDSYIKTVRPAGEVRVAQDTARNPGTPSFDDVKVGDELPVHHTRLSRGDLVNYAGVAGDANPIHWDEEIAKLAGLPDVIAHGMLTMGLGAGFFSAWSGDPGAVTRYAVRLSAPAIVSAAEGADIEFGGKIKSLDPQTRTGIVVVTAKASGKKIFGLATMSVRFS ALEARVGHYYQMDNPYLVGREKVREYARAVQDYHPSHWDAAAAADLGYSGVVAPLTFTSTPAMACNRRMFESVVVGYDTYLQTEEVFEQHRPIVAGDELHIDVELTSIRRVAGRDLITVTNTFTDMAGERVHTLHTTVVGITADEISPGTMAAVQKAMMHDVDSYIKTVRPAGEVRVAQDTARNPGTPSFDDVKVGDELPVHHTRLSRGDLVNYAGVAGDANPIHWDEEIAKLAGLPDVIAHGMLTMGLGAGFFSAWSGDPGAVTRYAVRLSAPAIVSAAEGADIEFGGKIKSLDPQTRTGIVVVTAKASGKKIFGLATMSVRFS 5i81-a2-m1-cA_5i81-a2-m2-cA aSMase with zinc P17405 P17405 2.25 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 528 528 5jg8-a1-m1-cA_5jg8-a1-m1-cB WGNLTCPICKGLFTAINLGLKKEPNVARVGSVAIKLCNLLKIAPPAVCQSIVHLFEDDMVEVWRRSVLSPSEACGLLLGSTCGHWDIFSSWNISLPTVPKPPPKPPSPPAPGAPVSRILFLTDLHWDHDYLEGTDPDCADPLCCRRGSGLPPASRPGAGYWGEYSKCDLPLRTLESLLSGLGPAGPFDMVYWTGDIPAHDVWHQTRQDQLRALTTVTALVRKFLGPVPVYPAVGNHESTPVNSFPPPFIEGNHSSRWLYEAMAKAWEPWLPAEALRTLRIGGFYALSPYPGLRLISLNMNFCSRENFWLLINSTDPAGQLQWLVGELQAAEDRGDKVHIIGHIPPGHCLKSWSWNYYRIVARYENTLAAQFFGHTHVDEFEVFYDEETLSRPLAVAFLAPSATTYIGLNPGYRVYQIDGNYSGSSHVVLDHETYILNLTQANIPGAIPHWQLLYRARETYGLPNTLPTAWHNLVYRMRGDMQLFQTFWFLYHKGHPPSEPCGTPCRLATLCAQLSARADSPALCRHLM WGNLTCPICKGLFTAINLGLKKEPNVARVGSVAIKLCNLLKIAPPAVCQSIVHLFEDDMVEVWRRSVLSPSEACGLLLGSTCGHWDIFSSWNISLPTVPKPPPKPPSPPAPGAPVSRILFLTDLHWDHDYLEGTDPDCADPLCCRRGSGLPPASRPGAGYWGEYSKCDLPLRTLESLLSGLGPAGPFDMVYWTGDIPAHDVWHQTRQDQLRALTTVTALVRKFLGPVPVYPAVGNHESTPVNSFPPPFIEGNHSSRWLYEAMAKAWEPWLPAEALRTLRIGGFYALSPYPGLRLISLNMNFCSRENFWLLINSTDPAGQLQWLVGELQAAEDRGDKVHIIGHIPPGHCLKSWSWNYYRIVARYENTLAAQFFGHTHVDEFEVFYDEETLSRPLAVAFLAPSATTYIGLNPGYRVYQIDGNYSGSSHVVLDHETYILNLTQANIPGAIPHWQLLYRARETYGLPNTLPTAWHNLVYRMRGDMQLFQTFWFLYHKGHPPSEPCGTPCRLATLCAQLSARADSPALCRHLM 5i85-a2-m1-cA_5i85-a2-m4-cA aSMase with zinc and phosphocholine P17405 P17405 2.5 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 528 528 5i85-a2-m2-cA_5i85-a2-m3-cA WGNLTCPICKGLFTAINLGLKKEPNVARVGSVAIKLCNLLKIAPPAVCQSIVHLFEDDMVEVWRRSVLSPSEACGLLLGSTCGHWDIFSSWNISLPTVPKPPPKPPSPPAPGAPVSRILFLTDLHWDHDYLEGTDPDCADPLCCRRGSGLPPASRPGAGYWGEYSKCDLPLRTLESLLSGLGPAGPFDMVYWTGDIPAHDVWHQTRQDQLRALTTVTALVRKFLGPVPVYPAVGNHESTPVNSFPPPFIEGNHSSRWLYEAMAKAWEPWLPAEALRTLRIGGFYALSPYPGLRLISLNMNFCSRENFWLLINSTDPAGQLQWLVGELQAAEDRGDKVHIIGHIPPGHCLKSWSWNYYRIVARYENTLAAQFFGHTHVDEFEVFYDEETLSRPLAVAFLAPSATTYIGLNPGYRVYQIDGNYSGSSHVVLDHETYILNLTQANIPGAIPHWQLLYRARETYGLPNTLPTAWHNLVYRMRGDMQLFQTFWFLYHKGHPPSEPCGTPCRLATLCAQLSARADSPALCRHLM WGNLTCPICKGLFTAINLGLKKEPNVARVGSVAIKLCNLLKIAPPAVCQSIVHLFEDDMVEVWRRSVLSPSEACGLLLGSTCGHWDIFSSWNISLPTVPKPPPKPPSPPAPGAPVSRILFLTDLHWDHDYLEGTDPDCADPLCCRRGSGLPPASRPGAGYWGEYSKCDLPLRTLESLLSGLGPAGPFDMVYWTGDIPAHDVWHQTRQDQLRALTTVTALVRKFLGPVPVYPAVGNHESTPVNSFPPPFIEGNHSSRWLYEAMAKAWEPWLPAEALRTLRIGGFYALSPYPGLRLISLNMNFCSRENFWLLINSTDPAGQLQWLVGELQAAEDRGDKVHIIGHIPPGHCLKSWSWNYYRIVARYENTLAAQFFGHTHVDEFEVFYDEETLSRPLAVAFLAPSATTYIGLNPGYRVYQIDGNYSGSSHVVLDHETYILNLTQANIPGAIPHWQLLYRARETYGLPNTLPTAWHNLVYRMRGDMQLFQTFWFLYHKGHPPSEPCGTPCRLATLCAQLSARADSPALCRHLM 5i85-a2-m2-cA_5i85-a2-m4-cA aSMase with zinc and phosphocholine P17405 P17405 2.5 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 528 528 5i85-a2-m1-cA_5i85-a2-m3-cA WGNLTCPICKGLFTAINLGLKKEPNVARVGSVAIKLCNLLKIAPPAVCQSIVHLFEDDMVEVWRRSVLSPSEACGLLLGSTCGHWDIFSSWNISLPTVPKPPPKPPSPPAPGAPVSRILFLTDLHWDHDYLEGTDPDCADPLCCRRGSGLPPASRPGAGYWGEYSKCDLPLRTLESLLSGLGPAGPFDMVYWTGDIPAHDVWHQTRQDQLRALTTVTALVRKFLGPVPVYPAVGNHESTPVNSFPPPFIEGNHSSRWLYEAMAKAWEPWLPAEALRTLRIGGFYALSPYPGLRLISLNMNFCSRENFWLLINSTDPAGQLQWLVGELQAAEDRGDKVHIIGHIPPGHCLKSWSWNYYRIVARYENTLAAQFFGHTHVDEFEVFYDEETLSRPLAVAFLAPSATTYIGLNPGYRVYQIDGNYSGSSHVVLDHETYILNLTQANIPGAIPHWQLLYRARETYGLPNTLPTAWHNLVYRMRGDMQLFQTFWFLYHKGHPPSEPCGTPCRLATLCAQLSARADSPALCRHLM WGNLTCPICKGLFTAINLGLKKEPNVARVGSVAIKLCNLLKIAPPAVCQSIVHLFEDDMVEVWRRSVLSPSEACGLLLGSTCGHWDIFSSWNISLPTVPKPPPKPPSPPAPGAPVSRILFLTDLHWDHDYLEGTDPDCADPLCCRRGSGLPPASRPGAGYWGEYSKCDLPLRTLESLLSGLGPAGPFDMVYWTGDIPAHDVWHQTRQDQLRALTTVTALVRKFLGPVPVYPAVGNHESTPVNSFPPPFIEGNHSSRWLYEAMAKAWEPWLPAEALRTLRIGGFYALSPYPGLRLISLNMNFCSRENFWLLINSTDPAGQLQWLVGELQAAEDRGDKVHIIGHIPPGHCLKSWSWNYYRIVARYENTLAAQFFGHTHVDEFEVFYDEETLSRPLAVAFLAPSATTYIGLNPGYRVYQIDGNYSGSSHVVLDHETYILNLTQANIPGAIPHWQLLYRARETYGLPNTLPTAWHNLVYRMRGDMQLFQTFWFLYHKGHPPSEPCGTPCRLATLCAQLSARADSPALCRHLM 5i8i-a2-m1-cD_5i8i-a2-m1-cC Crystal Structure of the K. lactis Urea Amidolyase Q6CP22 Q6CP22 6.5 X-RAY DIFFRACTION 249 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 1658 1660 4iss-a1-m1-cB_4iss-a1-m1-cA 4ist-a1-m1-cA_4ist-a1-m1-cB 5i8i-a1-m1-cB_5i8i-a1-m1-cA STLGWSVQDWLSFHSKSTPTKSLELLENLLKSQKPAPEDPAWISLIPVEDLHHQWNILQSKSNKEELPLYGVPIAVKDNIDYKGLPTTAACPSYLYQPTRDSYVVELLRDAGAVVIGKTNLDQFATGLVGTRSPYGKTPCVFNDKYVSGGSSAGSASVVGRGIVPLSLGTDTAGSGRVPAALNNLIGLKPTKGAFSCRGVVPACKSLDCVSVFALNLSDAEIAFKVMNKPDLLEDEYSREFPKNPISQYPKDLTIAIPKEVPWFGETENPKLYTKAVASLKNTGAKIVVVDFEPLLELARCLYEGAWVAERYCATRDFLATNPPESSLDETVVNIIKGAVKFDAADAFKFEYKRQGILQKVNLLLKDIDVLCVPTCPLNPKLEEVAQEPVLVNSRQGTWTNFVNLADLAALAVPSGFRSDGLPNGITLIGKKFSDYALLDLAKRFFSVAFPNNSRTYGKFVDRRITVEDELDGPSKDTLNGVKLAVVGAHLKGLPLHWQLQKCNATYLSSPKTSNNYKLYALPKVGPVLKPGLRRVNDGTGSQIQLEVYSVPYDRFGDFIAMVPEPLGIGSVELESGEWVKSFICEEFGYTQQGTVDITKFGGFKPYIEHIQKKPFETVLIANRGEIAVRIMKTLKRMGIKSVAVYSDPDKYSQHVTDADFSVALHGRTAAETYLDIDKIINAAKKTGAQAIIPGYGFLSENADFSDRCSQENIVFVGPSGDAIRKLGLKHSAREIAERAKVPLVPNARHVEIQMMGDGFGKAIAIGERDCSLQRRNQKVIEETPAPNLPEATRAKMRAASERLGSLLKYKCAGTVEFIYDEQRDEFYFLEVNARLQVEHPITEMVTGLDLVEWMLRIAANDSPDFDNTKIEVSGASIEARLYAENPVKDFRPSPGQLTSVSFPSWARVDTWVKKGTNVSAEYDPTLAKIIVHGKDRNDAIMKLNQALNETAVYGCITNIDYLRSIASSKMFKEAKVATKVLDSFDYKPCAFEVLAPGANTSVQDYPGRTGYWRIGVPPSGPMDSYSFRLANRVVGNNSKSPALEITLNGPKLLFHTETVIAVSGGTVSCTLNDAQIAQNEPIEVKRGDILSVGKVTVGCRAYLSIRGGIDVPEYLGSRSTFAMGNMGGYNGRILKLGDVLFLNQPELSVSSLPAPDFEPQAAPKSLLPTLSTNKDWKIGVTCGPHGSIDLFKEEYIEQFFNDKWKVHYNSNRFGVRLIGPKPKWARSDGGEAGLHPSNAHDYVYSLGAINFTGDEPVIITCDGPSLGGFVCQAVVAEAELWKVGQLTPGDTIQFVPLSYGVARQLKESQDKSIDNFEEGSLLELSDDKILPKYENPILAVLPKKSDLSPKVTYRQAGDRYILVEYGELEFDLNICYRINRLIHQVERHQTVGIVEMSQGVRSVLIEFDGSKINQKALLKCLIAYESEIQFDKNWNVKSKIFKLPMAFEDSKTLDCVTRYRETIRSEAPWLPNNVDFIADVNDIDRNDVKNMLYSAKFMVLGLGDVFLGSPCAVPLDPRHRYLGTKYNPSRTYTARGVVGIGGMYMCIYNAEGSPGGYQLVGRTITAWDKLVIGDHPIDHPWLLTPFDQVEFYPVTEEELEVIIEDNDNGKFKIDVEESIFDHKEYLAWINENIDSIVAFQEAQGGEKADEFARLIQV MESTLGWSVQDWLSFHSKSTPTKSLELLENLLKSQKPAPEDPAWISLIPVEDLHHQWNILQSKSNKEELPLYGVPIAVKDNIDYKGLPTTAACPSYLYQPTRDSYVVELLRDAGAVVIGKTNLDQFATGLVGTRSPYGKTPCVFNDKYVSGGSSAGSASVVGRGIVPLSLGTDTAGSGRVPAALNNLIGLKPTKGAFSCRGVVPACKSLDCVSVFALNLSDAEIAFKVMNKPDLLEDEYSREFPKNPISQYPKDLTIAIPKEVPWFGETENPKLYTKAVASLKNTGAKIVVVDFEPLLELARCLYEGAWVAERYCATRDFLATNPPESSLDETVVNIIKGAVKFDAADAFKFEYKRQGILQKVNLLLKDIDVLCVPTCPLNPKLEEVAQEPVLVNSRQGTWTNFVNLADLAALAVPSGFRSDGLPNGITLIGKKFSDYALLDLAKRFFSVAFPNNSRTYGKFVDRRITVEDELDGPSKDTLNGVKLAVVGAHLKGLPLHWQLQKCNATYLSSPKTSNNYKLYALPKVGPVLKPGLRRVNDGTGSQIQLEVYSVPYDRFGDFIAMVPEPLGIGSVELESGEWVKSFICEEFGYTQQGTVDITKFGGFKPYIEHIQKKPFETVLIANRGEIAVRIMKTLKRMGIKSVAVYSDPDKYSQHVTDADFSVALHGRTAAETYLDIDKIINAAKKTGAQAIIPGYGFLSENADFSDRCSQENIVFVGPSGDAIRKLGLKHSAREIAERAKVPLVPNARHVEIQMMGDGFGKAIAIGERDCSLQRRNQKVIEETPAPNLPEATRAKMRAASERLGSLLKYKCAGTVEFIYDEQRDEFYFLEVNARLQVEHPITEMVTGLDLVEWMLRIAANDSPDFDNTKIEVSGASIEARLYAENPVKDFRPSPGQLTSVSFPSWARVDTWVKKGTNVSAEYDPTLAKIIVHGKDRNDAIMKLNQALNETAVYGCITNIDYLRSIASSKMFKEAKVATKVLDSFDYKPCAFEVLAPGANTSVQDYPGRTGYWRIGVPPSGPMDSYSFRLANRVVGNNSKSPALEITLNGPKLLFHTETVIAVSGGTVSCTLNDAQIAQNEPIEVKRGDILSVGKVTVGCRAYLSIRGGIDVPEYLGSRSTFAMGNMGGYNGRILKLGDVLFLNQPELSVSSLPAPDFEPQAAPKSLLPTLSTNKDWKIGVTCGPHGSIDLFKEEYIEQFFNDKWKVHYNSNRFGVRLIGPKPKWARSDGGEAGLHPSNAHDYVYSLGAINFTGDEPVIITCDGPSLGGFVCQAVVAEAELWKVGQLTPGDTIQFVPLSYGVARQLKESQDKSIDNFEEGSLLELSDDKILPKYENPILAVLPKKSDLSPKVTYRQAGDRYILVEYGELEFDLNICYRINRLIHQVERHQTVGIVEMSQGVRSVLIEFDGSKINQKALLKCLIAYESEIQFDKNWNVKSKIFKLPMAFEDSKTLDCVTRYRETIRSEAPWLPNNVDFIADVNDIDRNDVKNMLYSAKFMVLGLGDVFLGSPCAVPLDPRHRYLGTKYNPSRTYTARGVVGIGGMYMCIYNAEGSPGGYQLVGRTITAWDKLVIGDHPIDHPWLLTPFDQVEFYPVTEEELEVIIEDNDNGKFKIDVEESIFDHKEYLAWINENIDSIVAFQEAQGGEKADEFARLIQV 5i8j-a1-m1-cB_5i8j-a1-m1-cA Crystal structure of Dmd from phage RB69 Q7Y599 Q7Y599 1.75 X-RAY DIFFRACTION 23 1.0 12353 (Escherichia phage RB69) 12353 (Escherichia phage RB69) 62 64 MSKLTKVTFIGWFKSGEMFTKDIMLSGDREEIEWVTVQLAEVNNALVKAFINDEKVFEADFR SMSKLTKVTFIGWFKSGEMFTKDIMLSGDREEIEWVTVQLAEVNNALVKAFINDEKVFEADFRG 5i90-a1-m1-cA_5i90-a1-m1-cB Crystal Structure of PvdN from Pseudomonas Aeruginosa G3XCY5 G3XCY5 1.219 X-RAY DIFFRACTION 181 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 390 390 5hh9-a1-m1-cA_5hh9-a1-m1-cB NKWKALRQQFDLDPQYLHFANFLLTSHPRPVREAIERLRVRFDRNPGEAVDWHREEIWKYEDEARAWAGRYFAVQPGQVALTGSTTDGLAAIYGGLLVQPGKEILTSSHEHYSTYTTLEYRHKRMGTQVREFPLFKDPHRVSADEILSSIAAQIRPQTRVLGMTWVQSGSGVKLPIREIGKLVRELNQKRDEQDRIIYVVDGVHGFGVEDVSFADFDCDYFIAGTHKWLFGPRGTGVIIARSEQLQEHLVPSIPTFSRADNFGTLMTPGGYHAFEHRLALGTAFELHLQLGKAEVQARIHQLNAYLKQRLGEHPKVRLVTPTSPELSSGFTFFRVEGRDCEAVAKHLMAHRVISDAVDRDVGPVVRLAPSLLNDEAEIDRVLEILAPQLA NKWKALRQQFDLDPQYLHFANFLLTSHPRPVREAIERLRVRFDRNPGEAVDWHREEIWKYEDEARAWAGRYFAVQPGQVALTGSTTDGLAAIYGGLLVQPGKEILTSSHEHYSTYTTLEYRHKRMGTQVREFPLFKDPHRVSADEILSSIAAQIRPQTRVLGMTWVQSGSGVKLPIREIGKLVRELNQKRDEQDRIIYVVDGVHGFGVEDVSFADFDCDYFIAGTHKWLFGPRGTGVIIARSEQLQEHLVPSIPTFSRADNFGTLMTPGGYHAFEHRLALGTAFELHLQLGKAEVQARIHQLNAYLKQRLGEHPKVRLVTPTSPELSSGFTFFRVEGRDCEAVAKHLMAHRVISDAVDRDVGPVVRLAPSLLNDEAEIDRVLEILAPQLA 5i92-a3-m1-cF_5i92-a3-m1-cE Crystal structure of Glutamate-1-semialdehyde 2,1- aminomutase (GSA) from Pseudomonas aeruginosa P48247 P48247 1.75 X-RAY DIFFRACTION 369 0.998 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 420 421 5i92-a1-m1-cB_5i92-a1-m1-cA 5i92-a2-m1-cC_5i92-a2-m1-cD MSRSETLFNNAQKHIPGGVNSPVRAFKSVGGTPLFFKHAEGAYVLDEDDKRYVDYVGSWGPMILGHSHPDVLDAVRRQLDHGLSYGAPTALEVEMADLVCSMVPSMEMVRMVSSGTEATMSAIRLARGYTGRDSIIKFEGCYHGHSDSLLVKAGSTFGVPNSPGVPAAFAKHTLTLPFNDIEAVRKTLGEVGKEVACIIVEPVAGNMNCVPPAPGFLEGLREACDEHGVVLIFDEVMTGFRVALGGAQAYYGVTPDLSTFGKIIGGGMPVGAFGGKREIMQQISPLGPVYQAGTGNPLAMAAGLTTLRLISRPGFHDELTAYTTRMLDGLQQRADAAGIPFVTTQAGGMFGLYFSGADAIVTFEDVMASDVERFKRFFHLMLDGGVYLAPSAFEAGFTSIAHGDKELEITLNAAEKAFAA MSRSETLFNNAQKHIPGGVNSPVRAFKSVGGTPLFFKHAEGAYVLDEDDKRYVDYVGSWGPMILGHSHPDVLDAVRRQLDHGLSYGAPTALEVEMADLVCSMVPSMEMVRMVSSGTEATMSAIRLARGYTGRDSIIKFEGCYHGHSDSLLVKAGSTFGVPNSPGVPAAFAKHTLTLPFNDIEAVRKTLGEVGKEVACIIVEPVAGNMNCVPPAPGFLEGLREACDEHGVVLIFDEVMTGFRVALGGAQAYYGVTPDLSTFGKIIGGGMPVGAFGGKREIMQQISPLGPVYQAGTLNPLAMAAGLTTLRLISRPGFHDELTAYTTRMLDGLQQRADAAGIPFVTTQAGGMFGLYFSGADAIVTFEDVMASDVERFKRFFHLMLDGGVYLAPSAFEAGFTSIAHGDKELEITLNAAEKAFAAL 5ia9-a1-m2-cA_5ia9-a1-m3-cA The structure of microsomal glutathione transferase 1 in complex with Meisenheimer complex P08011 P08011 3.5 ELECTRON CRYSTALLOGRAPHY 41 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 123 123 2h8a-a1-m1-cA_2h8a-a1-m2-cA 2h8a-a1-m1-cA_2h8a-a1-m3-cA 2h8a-a1-m2-cA_2h8a-a1-m3-cA 5i9k-a1-m1-cA_5i9k-a1-m2-cA 5i9k-a1-m1-cA_5i9k-a1-m3-cA 5i9k-a1-m2-cA_5i9k-a1-m3-cA 5ia9-a1-m1-cA_5ia9-a1-m2-cA 5ia9-a1-m1-cA_5ia9-a1-m3-cA NEVLMAFTSYATIILAKMMFLSSATAFQRLTNKDEKVERVRRAHLNDLENIVPFLGIGLLYSLSGPDLSTALIHFRIFVGARIYHTIAYLTPLPQPNRGLAFFVGYGVTLSMAYRLLRSRLYL NEVLMAFTSYATIILAKMMFLSSATAFQRLTNKDEKVERVRRAHLNDLENIVPFLGIGLLYSLSGPDLSTALIHFRIFVGARIYHTIAYLTPLPQPNRGLAFFVGYGVTLSMAYRLLRSRLYL 5iao-a1-m1-cB_5iao-a1-m1-cD Structure and mapping of spontaneous mutational sites of PyrR from Mycobacterium tuberculosis P9WHK3 P9WHK3 2.598 X-RAY DIFFRACTION 52 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 171 171 5iao-a1-m1-cB_5iao-a1-m1-cE 5iao-a1-m1-cD_5iao-a1-m1-cE ESRELMSAADVGRTISRIAHQIIEKTALDDPVGPDAPRVVLLGIPTRGVTLANRLAGNITEYSGIHVGHGALDITLYRDSTSIPAGGIDDALVILVDDVLYSGRSVRSALDALRDVGRPRAVQLAVLVDRGHRELPLRADYVGKNVPTSRSESVHVRLREHDGRDGVVISR ESRELMSAADVGRTISRIAHQIIEKTALDDPVGPDAPRVVLLGIPTRGVTLANRLAGNITEYSGIHVGHGALDITLYRDSTSIPAGGIDDALVILVDDVLYSGRSVRSALDALRDVGRPRAVQLAVLVDRGHRELPLRADYVGKNVPTSRSESVHVRLREHDGRDGVVISR 5iao-a1-m1-cC_5iao-a1-m1-cD Structure and mapping of spontaneous mutational sites of PyrR from Mycobacterium tuberculosis P9WHK3 P9WHK3 2.598 X-RAY DIFFRACTION 42 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 171 171 1w30-a1-m1-cA_1w30-a1-m1-cB 1w30-a1-m2-cA_1w30-a1-m2-cB 5iao-a1-m1-cA_5iao-a1-m1-cB 5iao-a1-m1-cE_5iao-a1-m1-cF ESRELMSAADVGRTISRIAHQIIEKTALDDPVGPDAPRVVLLGIPTRGVTLANRLAGNITEYSGIHVGHGALDITLYRDSTSIPAGGIDDALVILVDDVLYSGRSVRSALDALRDVGRPRAVQLAVLVDRGHRELPLRADYVGKNVPTSRSESVHVRLREHDGRDGVVISR ESRELMSAADVGRTISRIAHQIIEKTALDDPVGPDAPRVVLLGIPTRGVTLANRLAGNITEYSGIHVGHGALDITLYRDSTSIPAGGIDDALVILVDDVLYSGRSVRSALDALRDVGRPRAVQLAVLVDRGHRELPLRADYVGKNVPTSRSESVHVRLREHDGRDGVVISR 5ib9-a1-m1-cA_5ib9-a1-m2-cA Crystal structure of aminopeptidase equipped with PAD from Aneurinibacillus sp. AM-1 A2V759 A2V759 1.4 X-RAY DIFFRACTION 49 1.0 400761 (Aneurinibacillus sp. AM-1) 400761 (Aneurinibacillus sp. AM-1) 412 412 2ek8-a2-m1-cA_2ek8-a2-m2-cA 2ek9-a2-m1-cA_2ek9-a2-m2-cA ADHQITKRTDAENMYNTIQFLSQAPRVAGSPEELKAVRYIEQQFKSYGYHVEVQPFQFEGYTAPSEVTLKIGTEKKEGEAFTYSPNSDVTAELVYVGLGTTADVAGKDLNGKIALIQRGNISFADKVRNAAKQGAKAVIIYNNTDGKLNGTLGGSDASFVAAVGITKQEGDALAANLRAGEKITATVKVAGAEVKTLTSHNVIATKKPDANKKNTNDIIIIGSHHDSVEKAPGANDDASGVAVTLELARVMSKLKTDTELRFITFGAEENGLIGSKKYAASLSEDEIKRTIGMFQLDMVGSKDAGDLIMYTIDGKKNRVTDLGAAASSRLSGVLPYGQEGRSDHESFHALGIPAALFIHAPVEPWYHTPNDTLDKISKEKLDNVADIVGSAVYQAARPGELVIEPIDYPRRN ADHQITKRTDAENMYNTIQFLSQAPRVAGSPEELKAVRYIEQQFKSYGYHVEVQPFQFEGYTAPSEVTLKIGTEKKEGEAFTYSPNSDVTAELVYVGLGTTADVAGKDLNGKIALIQRGNISFADKVRNAAKQGAKAVIIYNNTDGKLNGTLGGSDASFVAAVGITKQEGDALAANLRAGEKITATVKVAGAEVKTLTSHNVIATKKPDANKKNTNDIIIIGSHHDSVEKAPGANDDASGVAVTLELARVMSKLKTDTELRFITFGAEENGLIGSKKYAASLSEDEIKRTIGMFQLDMVGSKDAGDLIMYTIDGKKNRVTDLGAAASSRLSGVLPYGQEGRSDHESFHALGIPAALFIHAPVEPWYHTPNDTLDKISKEKLDNVADIVGSAVYQAARPGELVIEPIDYPRRN 5ibx-a4-m1-cE_5ibx-a4-m1-cF 1.65 Angstrom Crystal Structure of Triosephosphate Isomerase (TIM) from Streptococcus pneumoniae Q04JH4 Q04JH4 1.65 X-RAY DIFFRACTION 132 0.996 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 250 250 5ibx-a1-m1-cA_5ibx-a1-m1-cC 5ibx-a2-m1-cB_5ibx-a2-m1-cH 5ibx-a3-m1-cD_5ibx-a3-m1-cG MSRKPFIAGNWKMNKNPEEAKAFVEAVASKLPSSDLVEAGIAAPALDLTTVLAVAKGSNLKVAAQNCYFENAGAFTGETSPQVLKEIGTDYVVIGHSERRDYFHETDEDINKKAKAIFANGMLPIICCGESLETYEAGKAAEFVGAQVSAALAGLTAEQVAASVIAYEPIWAIGTGKSASQDDAQKMCKVVRDVVAADFGQEVADKVRVQYGGSVKPENVASYMAPDVDGALVGGASLEAESFLALLDFV SRKPFIAGNWKMNKNPEEAKAFVEAVASKLPSSDLVEAGIAAPALDLTTVLAVAKGSNLKVAAQNCYFENAGAFTGETSPQVLKEIGTDYVVIGHSERRDYFHETDEDINKKAKAIFANGMLPIICCGESLETYEAGKAAEFVGAQVSAALAGLTAEQVAASVIAYEPIWAIGTGKSASQDDAQKMCKVVRDVVAADFGQEVADKVRVQYGGSVKPENVASYMACPDVDGALVGGASLEAESFLALLDFV 5ibz-a1-m1-cD_5ibz-a1-m1-cA Crystal structure of a novel cyclase (pfam04199). A0A0G3FEK2 A0A0G3FEK2 1.611 X-RAY DIFFRACTION 33 0.997 155900 (uncultured organism) 155900 (uncultured organism) 297 303 5ibz-a1-m1-cC_5ibz-a1-m1-cB KLNNWGKWGDDDQRGAANYITPERIVAAARLIQTGKTFSLAIPIDSNGPVFPPRLPPHHTEITGADYVADPGASPFSPIRFADDYIYPLQGSTQWDALSHGWYGESLYNGVPEAAIRSSGAGGATKLGIENVKTSFLGRGVLVDIVRFKGGSLPEGYTITRADLEGALAKQKSKLLPGDILVIRTGLVESWYDLDPVGRASFFLNPTGIGSDTVPWIHEQRLAGVAADNIALERVPHALPVHGNLLRDLGVYIGEIWWLEELAKDCAQDGRYEFFLAAQPLYIPGAVGSPLNPIAVK ALHPHEKLNNWGKWGDDDQRGAANYITPERIVAAARLIQTGKTFSLAIPIDSNGPVFPPRLPPHHTEITGADYVADPGASPSPIRFADDYIYPLQGSTQWDALSHGWYGESLYNGVPEAAIRSSGAGGATKLGIENVKTSFLGRGVLVDIVRFKGGSLPEGYTITRADLEGALAKQKSKLLPGDILVIRTGLVESWYDLDPVGRASFFLNPTGIGSDTVPWIHEQRLAGVAADNIALERVPHLALPVHGNLLRDLGVYIGEIWWLEELAKDCAQDGRYEFFLAAQPLYIPGAVGSPLNPIAVK 5ibz-a1-m1-cD_5ibz-a1-m1-cB Crystal structure of a novel cyclase (pfam04199). A0A0G3FEK2 A0A0G3FEK2 1.611 X-RAY DIFFRACTION 270 1.0 155900 (uncultured organism) 155900 (uncultured organism) 297 305 5ibz-a1-m1-cC_5ibz-a1-m1-cA KLNNWGKWGDDDQRGAANYITPERIVAAARLIQTGKTFSLAIPIDSNGPVFPPRLPPHHTEITGADYVADPGASPFSPIRFADDYIYPLQGSTQWDALSHGWYGESLYNGVPEAAIRSSGAGGATKLGIENVKTSFLGRGVLVDIVRFKGGSLPEGYTITRADLEGALAKQKSKLLPGDILVIRTGLVESWYDLDPVGRASFFLNPTGIGSDTVPWIHEQRLAGVAADNIALERVPHALPVHGNLLRDLGVYIGEIWWLEELAKDCAQDGRYEFFLAAQPLYIPGAVGSPLNPIAVK ALHPHEKLNNWGKWGDDDQRGAANYITPERIVAAARLIQTGKTFSLAIPIDSNGPVFPPRLPPHHTEITGADYVADPGASPFGKSPIRFADDYIYPLQGSTQWDALSHGWYGESLYNGVPEAAIRSSGAGGATKLGIENVKTSFLGRGVLVDIVRFKGGSLPEGYTITRADLEGALAKQKSKLLPGDILVIRTGLVESWYDLDPVGRASFFLNPTGIGSDTVPWIHEQRLAGVAADNIALERVPHALPVHGNLLRDLGVYIGEIWWLEELAKDCAQDGRYEFFLAAQPLYIPGAVGSPLNPIAVK 5ibz-a1-m1-cD_5ibz-a1-m1-cC Crystal structure of a novel cyclase (pfam04199). A0A0G3FEK2 A0A0G3FEK2 1.611 X-RAY DIFFRACTION 88 0.997 155900 (uncultured organism) 155900 (uncultured organism) 297 298 5ibz-a1-m1-cA_5ibz-a1-m1-cB KLNNWGKWGDDDQRGAANYITPERIVAAARLIQTGKTFSLAIPIDSNGPVFPPRLPPHHTEITGADYVADPGASPFSPIRFADDYIYPLQGSTQWDALSHGWYGESLYNGVPEAAIRSSGAGGATKLGIENVKTSFLGRGVLVDIVRFKGGSLPEGYTITRADLEGALAKQKSKLLPGDILVIRTGLVESWYDLDPVGRASFFLNPTGIGSDTVPWIHEQRLAGVAADNIALERVPHALPVHGNLLRDLGVYIGEIWWLEELAKDCAQDGRYEFFLAAQPLYIPGAVGSPLNPIAVK KLNNWGKWGDDDQRGAANYITPERIVAAARLIQTGKTFSLAIPIDSNGPVFPPRLPPHHTEITGADYVADPGASPFGKSPIRFADDYIYPLQGSTQWDALSHGWYGESLYNGVPEAAIRSSGAGGATKLGIENVKTSFLGRGVLVDIVRFKGGSLPEGYTITRADLEGALAKQKSKLLPGDILVIRTGLVESWYDLDPVGRASFFLNPTGIGSDTVPWIHEQRLAGVAADNIALERVPHLPVHGNLLRDLGVYIGEIWWLEELAKDCAQDGRYEFFLAAQPLYIPGAVGSPLNPIAVK 5ic5-a1-m1-cA_5ic5-a1-m2-cA Bacteriophytochrome response regulator RtBRR F5Y2U8 F5Y2U8 1.9 X-RAY DIFFRACTION 83 1.0 365046 (Ramlibacter tataouinensis TTB310) 365046 (Ramlibacter tataouinensis TTB310) 166 166 MLKPILLVEDDKRDLELTLVALERSKLSNEVIVVRDGAQALDYLNREGDFRAREEGNPAVILLDLKLPKVNGLEVLQQVRSSTQLRSIPVVMLTSSQEESDVVKSYELGVNAYVVKPVEFKQFVAAIADLGIFWAVLNEPPPGSMKAMRRYEAKLAAALEHHHHHH MLKPILLVEDDKRDLELTLVALERSKLSNEVIVVRDGAQALDYLNREGDFRAREEGNPAVILLDLKLPKVNGLEVLQQVRSSTQLRSIPVVMLTSSQEESDVVKSYELGVNAYVVKPVEFKQFVAAIADLGIFWAVLNEPPPGSMKAMRRYEAKLAAALEHHHHHH 5ic7-a2-m1-cA_5ic7-a2-m2-cA Structure of the WD domain of UTP18 G0SBN9 G0SBN9 2.331 X-RAY DIFFRACTION 82 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 340 340 RKLRPETIDIQRTRDIPDTHKAAISSLAFHPRYPILLSSSTSSIMYLHKLDASAYPTPNPLLTSVHVKRTDLRRAAFVGPDGGEIIFAGRRRYFHCWNLSSGLVKKVSKIQGHQKEQRTMERFRVSPCGRYMALVASDKKGGGMLNIINVGTMQWIAQARIDGRHGVADFAWWSDGNGLTIAGRDGQVTEWSMITRRTVGIWRDEGTVMALGGRNGPAELGGDRWVAIGSNSGILNVYDRNDLIEIRIKKYPTPTRVFEQLTTSISVVAFSPDGQLLAFGSQHKKDALRLVHLPSCTVYRNWPTEQTPLGRVTAIAFSSKSDVLAVGNDVGRVRLWEIRG RKLRPETIDIQRTRDIPDTHKAAISSLAFHPRYPILLSSSTSSIMYLHKLDASAYPTPNPLLTSVHVKRTDLRRAAFVGPDGGEIIFAGRRRYFHCWNLSSGLVKKVSKIQGHQKEQRTMERFRVSPCGRYMALVASDKKGGGMLNIINVGTMQWIAQARIDGRHGVADFAWWSDGNGLTIAGRDGQVTEWSMITRRTVGIWRDEGTVMALGGRNGPAELGGDRWVAIGSNSGILNVYDRNDLIEIRIKKYPTPTRVFEQLTTSISVVAFSPDGQLLAFGSQHKKDALRLVHLPSCTVYRNWPTEQTPLGRVTAIAFSSKSDVLAVGNDVGRVRLWEIRG 5ic8-a6-m1-cC_5ic8-a6-m1-cB Structure of UTP6 G0S387 G0S387 3.3 X-RAY DIFFRACTION 45 0.996 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 252 282 5ic8-a5-m2-cD_5ic8-a5-m1-cA HASQARTFGIFERAVLKHPGSIELWLAYLEFAAQVKATKRWRRIMTRALRLHPMNASLWTLAGRRAAQNGDMQRARAHFLRGCRFCTREPTLWLEYARCEMDWLARMEADGLILPDPDAKKAAKPVFDAEQTKKLEQSPALSGAIPIAVFDVARKQPFWGPAAAEKFFDVFAKFCHERIISHVVTTMQELFPCTWSVHIRQPLVGAFPKALRESLARLKAALQLATKMVAWMDGILAIAAIRTVLEHTKRSL HASQARTFGIFERAVLKHPGSIELWLAYLEFAAQVKATKRWRRIMTRALRLHPMNASLWTLAGRRAAQNGDMQRARAHFLRGCRFCTREPTLWLEYARCEMDWLARMEAKKEDGLILPDPDAEGTDGTKKAAKPVFDAEQTKKLEQSPALSGAIPIAVFDVARKQPFWGPAAAEKFFDVFAKFGHLSCHERIISHVVTTMQELFPNHPCTWSVHIRQPLVGVDVLTPAFPKALRESLARLKAALQSTTDRKALATKMVAWMDGILALDAAIRTVLEHTKRSL 5ice-a1-m1-cA_5ice-a1-m2-cA Crystal structure of (S)-norcoclaurine 6-O-methyltransferase with S-adenosyl-L-homocysteine and norlaudanosoline Q5C9L7 Q5C9L7 1.6 X-RAY DIFFRACTION 232 1.0 150095 (Thalictrum flavum subsp. glaucum) 150095 (Thalictrum flavum subsp. glaucum) 351 351 5icc-a1-m1-cA_5icc-a1-m2-cA 5icg-a1-m1-cA_5icg-a1-m2-cA GAMVMINKENLSQAKLWNFIYGFADSLVLKSAVQLDLANIIHNHGSPMTLSELSLHLPSQPVNQDALYRVLRYLVHMKLFTKSSIDGELRYGLAPPAKFLVKGWDKCMLGAILTITDKDFMAPWHYLKEGILNDGSTSTAFEKALGTNIWDYMAEHPEKNQLFNEGMANDTRLIMSALVKECSSMFDGITTIVDVGGGTGTAVRNIAKAFPHIKCTVYDLPHVIADSPGYTEINSIQGDMFKYIPNADAIMMKCILHDWDDKECIEILKRCKDAVPRDGGKVIIIDIILDVKSEHPYTKMRLTLDLDMMLNTGGKERTEEEWKKLIHDAGYKGYKITHISAVQSVIEAYPY GAMVMINKENLSQAKLWNFIYGFADSLVLKSAVQLDLANIIHNHGSPMTLSELSLHLPSQPVNQDALYRVLRYLVHMKLFTKSSIDGELRYGLAPPAKFLVKGWDKCMLGAILTITDKDFMAPWHYLKEGILNDGSTSTAFEKALGTNIWDYMAEHPEKNQLFNEGMANDTRLIMSALVKECSSMFDGITTIVDVGGGTGTAVRNIAKAFPHIKCTVYDLPHVIADSPGYTEINSIQGDMFKYIPNADAIMMKCILHDWDDKECIEILKRCKDAVPRDGGKVIIIDIILDVKSEHPYTKMRLTLDLDMMLNTGGKERTEEEWKKLIHDAGYKGYKITHISAVQSVIEAYPY 5icw-a3-m1-cD_5icw-a3-m3-cC Crystal structure of human NatF (hNaa60) homodimer bound to Coenzyme A Q9H7X0 Q9H7X0 1.951 X-RAY DIFFRACTION 58 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 176 176 5icw-a1-m1-cA_5icw-a1-m1-cB 5icw-a2-m1-cC_5icw-a2-m2-cD VPSSALSEVSLRLLCHDDIDTVKHLCGDWFPIEYPDSWYRDITSNKKFFSLAATYRGAIVGMIVAEIKNRTKIHKEDGDILASVDTQVAYILSLGVVKEFRKHGIGSLLLESLKDHISTTAQDHCKAIYLHVLTTNNTAINFYENRDFKQHHYLPYYYSIRGVLKDGFTYVLYING EVVPSSALSEVSLRLLCHDDIDTVKHLCGDWFPIEYPDSWYRDITSNKKFFSLAATYRGAIVGMIVAEIKNRTKIHKEDGDILSVDTQVAYILSLGVVKEFRKHGIGSLLLESLKDHISTTAQDHCKAIYLHVLTTNNTAINFYENRDFKQHHYLPYYYSIRGVLKDGFTYVLYIN 5id3-a1-m1-cC_5id3-a1-m1-cD Solution structure of the pore-forming region of C. elegans Mitochondrial Calcium Uniporter (MCU) Q21121 Q21121 NOT SOLUTION NMR 79 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 153 153 5id3-a1-m1-cA_5id3-a1-m1-cB 5id3-a1-m1-cA_5id3-a1-m1-cE 5id3-a1-m1-cB_5id3-a1-m1-cC 5id3-a1-m1-cD_5id3-a1-m1-cE MAALSVDEYKLSREKKLLLQLENAETLLAPLHDAKRKIEQEAEAHTDRVAWAGFAASGVQTGLFARLTWWEYSWDIVEPVTYFATYSTVAATFGYYLYTQQSFEYPSARERVYTKQFYRRAQKQNFDIEKYNRLVTEVDELRNQLKRLRDPLE MAALSVDEYKLSREKKLLLQLENAETLLAPLHDAKRKIEQEAEAHTDRVAWAGFAASGVQTGLFARLTWWEYSWDIVEPVTYFATYSTVAATFGYYLYTQQSFEYPSARERVYTKQFYRRAQKQNFDIEKYNRLVTEVDELRNQLKRLRDPLE 5idj-a1-m1-cA_5idj-a1-m2-cA Bifunctional histidine kinase CckA (domains DHp-CA) in complex with ADP/Mg2+ Q9X688 Q9X688 3.02 X-RAY DIFFRACTION 115 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 242 242 LSQAQKMQAIGQLAGGVAHDFNNLLTAIQLRLDELLHRHPVGDPSYEGLNEIRQTGVRAADLVRKLLAFSRKQTVQREVLDLGELISEFEVLLRRLLREDVKLITDYGRDLPQVRADKSQLETAVMNLAVNARDAVRAAKGGGVVRIRTARLTRDEAIQLGFPAADGDTAFIEVSDDGPGIPPDVMGKIFDPFFTTKPVGEGTGLGLATVYGIVKQSDGWIHVHSRPNEGAAFRIFLPVYEA LSQAQKMQAIGQLAGGVAHDFNNLLTAIQLRLDELLHRHPVGDPSYEGLNEIRQTGVRAADLVRKLLAFSRKQTVQREVLDLGELISEFEVLLRRLLREDVKLITDYGRDLPQVRADKSQLETAVMNLAVNARDAVRAAKGGGVVRIRTARLTRDEAIQLGFPAADGDTAFIEVSDDGPGIPPDVMGKIFDPFFTTKPVGEGTGLGLATVYGIVKQSDGWIHVHSRPNEGAAFRIFLPVYEA 5idq-a1-m1-cB_5idq-a1-m1-cA Crystal structure of a Short-chain dehydrogenase/reductase (SDR)from Burkholderia vietnamiensis at 1.55 A resolution A4JIB1 A4JIB1 1.55 X-RAY DIFFRACTION 139 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 216 218 MKTVLIVGASRGLGREFVRQYRRDGWNVIATARDDASLAALRAAGAHAHALDIAQPEQIAALGWKLDGERLDAAVLVSGVYGPRTEGVETIGNEDFDAVMHTNVRGPMQLLPIVLPLVEDARGVLAVVSSRMGSIADATGTTGWLYRASKAALNDVLRIASLQTRHAACISLHPGWVAIDPETSVTGMRRVIAEAGADVSRANGRFLQYDGVELSW HMKTVLIVGASRGLGREFVRQYRRDGWNVIATARDDASLAALRAAGAHAHALDIAQPEQIAALGWKLDGERLDAAVLVSGVYGPRTEGVETIGNEDFDAVMHTNVRGPMQLLPIVLPLVEDARGVLAVVSSRMGSIADATGTTGWLYRASKAALNDVLRIASLQTRHAACISLHPGWVRAIDPETSVTGMRRVIAEAGADVSRANGRFLQYDGVELSW 5ids-a2-m1-cC_5ids-a2-m1-cD Crystal Structure of a Glucose-1-phosphate Thymidylyltransferase from Burkholderia vietnamiensis A4JIV2 A4JIV2 2.3 X-RAY DIFFRACTION 107 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 286 289 5ids-a1-m1-cB_5ids-a1-m1-cA 5idt-a1-m1-cA_5idt-a1-m1-cB 5idt-a2-m1-cC_5idt-a2-m1-cD TQRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGMRDVLVISTPQDTPRFQQLLGDGSQWGMNLQYAVQPSPDGLAQAFIIGEQFIGNAPSALVLGDNIYYGHDFQPLLKAADAQSSGATVFAYHVHDPERYGVVQFNAQGQAVSIEEKPKAPKSNYAVTGLYFYDQQVVDIAKAVKPSELEITSVNQAYMQQGQLNVQTMGRGYAWLDTGTHDSLLDASQFIATLENRQGLKVACPEEIAWRSGWINASQLEALVQPLTKNGYGQYLMQILK TQRKGIILAGGSGTRLHPATLAISKQLLPVYDKPMIYYPLSTLMLAGMRDVLVISTPQDTPRFQQLLGDGSQWGMNLQYAVQPSPDGLAQAFIIGEQFIGNAPSALVLGDNIYYGHDFQPLLKAADAQSSGATVFAYHVHDPERYGVVQFNAQGQAVSIEEKPKAPKSNYAVTGLYFYDQQVVDIAKAVKPSARGELEITSVNQAYMQQGQLNVQTMGRGYAWLDTGTHDSLLDASQFIATLENRQGLKVACPEEIAWRSGWINASQLEALVQPLTKNGYGQYLMQILK 5idu-a1-m1-cA_5idu-a1-m1-cD Crystal structure of an acyl-CoA dehydrogenase domain protein from Burkholderia phymatum bound to FAD B2JPK4 B2JPK4 1.95 X-RAY DIFFRACTION 127 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 392 392 5idu-a1-m1-cB_5idu-a1-m1-cC IDPHGALAWPFFEARHRELAAGIEAWATQHLACVQHDDTDTTCRKLVRALGEAGWLKYGVGGAQYGGHGDTIDTRAVCLLRETLANHDGLADFALAMQGLGSGAITLAGTHEQKIRYLPRVSKGEAIAAFALSEPDAGSDVAAMSLQARAEGDCYVIDGDKTWISNGGIADFYVVFARTGEAPGARGISAFIVDADTPGLQIAERIDVIAPHPLARLHFDSARVPRSQMLGAPGEGFKIAMRTLDVFRTSVAAASLGFARRALQEGLARAASRKMFGQTLGDFQLTQTKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLWGGMGVQSGTTVERLYREIRALRIYEGATEVQQLIVGRDLLKAHAAQRQQ IDPHGALAWPFFEARHRELAAGIEAWATQHLACVQHDDTDTTCRKLVRALGEAGWLKYGVGGAQYGGHGDTIDTRAVCLLRETLANHDGLADFALAMQGLGSGAITLAGTHEQKIRYLPRVSKGEAIAAFALSEPDAGSDVAAMSLQARAEGDCYVIDGDKTWISNGGIADFYVVFARTGEAPGARGISAFIVDADTPGLQIAERIDVIAPHPLARLHFDSARVPRSQMLGAPGEGFKIAMRTLDVFRTSVAAASLGFARRALQEGLARAASRKMFGQTLGDFQLTQTKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLWGGMGVQSGTTVERLYREIRALRIYEGATEVQQLIVGRDLLKAHAAQRQQ 5idu-a1-m1-cD_5idu-a1-m1-cC Crystal structure of an acyl-CoA dehydrogenase domain protein from Burkholderia phymatum bound to FAD B2JPK4 B2JPK4 1.95 X-RAY DIFFRACTION 89 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 392 405 5idu-a1-m1-cB_5idu-a1-m1-cA IDPHGALAWPFFEARHRELAAGIEAWATQHLACVQHDDTDTTCRKLVRALGEAGWLKYGVGGAQYGGHGDTIDTRAVCLLRETLANHDGLADFALAMQGLGSGAITLAGTHEQKIRYLPRVSKGEAIAAFALSEPDAGSDVAAMSLQARAEGDCYVIDGDKTWISNGGIADFYVVFARTGEAPGARGISAFIVDADTPGLQIAERIDVIAPHPLARLHFDSARVPRSQMLGAPGEGFKIAMRTLDVFRTSVAAASLGFARRALQEGLARAASRKMFGQTLGDFQLTQTKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLWGGMGVQSGTTVERLYREIRALRIYEGATEVQQLIVGRDLLKAHAAQRQQ AHHHHHHMLAANLIDPHGALAWPFFEARHRELAAGIEAWATQHLACVQHDDTDTTCRKLVRALGEAGWLKYGVGGAQYGGHGDTIDTRAVCLLRETLANHDGLADFALAMQGLGSGAITLAGTHEQKIRYLPRVSKGEAIAAFALSEPDAGSDVAAMSLQARAEGDCYVIDGDKTWISNGGIADFYVVFARTGEAPGARGISAFIVDADTPGLQIAERIDVIAPHPLARLHFDSARVPRSQMLGAPGEGFKIAMRTLDVFRTSVAAASLGFARRALQEGLARAASRKMFGQTLGDFQLTQTKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLWGGMGVQSGTTVERLYREIRALRIYEGATEVQQLIVGRDLLKAHAAQRQQ 5idv-a2-m1-cA_5idv-a2-m2-cA Structure of the nucleotide binding domain of an ABC transporter MsbA from Acinetobacter baumannii 1.45 X-RAY DIFFRACTION 209 1.0 1116234 (Acinetobacter baumannii AB5075) 1116234 (Acinetobacter baumannii AB5075) 262 262 FELLDLPEEQNSGELKPQLQGAIRFDHVVLNYADGTQAIKDFSLDIRPGETVALVGRSGAGKTSLVNLVRFQEVSSGQIYLDDLPIRDIELSSLRTQIAMVNQQVVLFNRTVRENIAYGQLHNASDEDVIAAAKAAYAHDFIMNLPNGYDTVLGAQGLNLSGGQRQRIAIARAILKNAPILILDEATSALDNESEHFIQQAFDEAMQDRTTIVIAHRLSTIENADRIVVMDRGQIVEQGTHQELLAKHGAYYQLHQRNFEDH FELLDLPEEQNSGELKPQLQGAIRFDHVVLNYADGTQAIKDFSLDIRPGETVALVGRSGAGKTSLVNLVRFQEVSSGQIYLDDLPIRDIELSSLRTQIAMVNQQVVLFNRTVRENIAYGQLHNASDEDVIAAAKAAYAHDFIMNLPNGYDTVLGAQGLNLSGGQRQRIAIARAILKNAPILILDEATSALDNESEHFIQQAFDEAMQDRTTIVIAHRLSTIENADRIVVMDRGQIVEQGTHQELLAKHGAYYQLHQRNFEDH 5idw-a1-m1-cA_5idw-a1-m1-cB Crystal structure of an oxidoreductase from Burkholderia vietnamiensis in complex with NADP A4JIB1 A4JIB1 2 X-RAY DIFFRACTION 139 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 225 225 5tqv-a1-m1-cB_5tqv-a1-m1-cA 5u1p-a1-m1-cA_5u1p-a1-m2-cA MKTVLIVGASRGLGREFVRQYRRDGWNVIATARDDASLAALRAAGAHAHALDIAQPEQIAALGWKLDGERLDAAVLVSGVYGPRTEGVETIGNEDFDAVMHTNVRGPMQLLPIVLPLVEDARGVLAVVSSRMGSIADATGTTGWLYRASKAALNDVLRIASLQTRHAACISLHPGWVRTDMGGAEAAIDPETSVTGMRRVIAEAGADVSRANGRFLQYDGVELSW MKTVLIVGASRGLGREFVRQYRRDGWNVIATARDDASLAALRAAGAHAHALDIAQPEQIAALGWKLDGERLDAAVLVSGVYGPRTEGVETIGNEDFDAVMHTNVRGPMQLLPIVLPLVEDARGVLAVVSSRMGSIADATGTTGWLYRASKAALNDVLRIASLQTRHAACISLHPGWVRTDMGGAEAAIDPETSVTGMRRVIAEAGADVSRANGRFLQYDGVELSW 5ie4-a2-m1-cC_5ie4-a2-m2-cC Crystal structure of a lactonase mutant in complex with substrate a Q8NKB0 Q8NKB0 2.8 X-RAY DIFFRACTION 34 1.0 29856 (Clonostachys rosea) 29856 (Clonostachys rosea) 151 151 MRWYYEQEGTGPDVVLVPDGCQMAQGFRVTDMAPPETYTEVTAASYVISVLLDIKHATVWGCASGASTVVALLLGYPDRIRNAMCHEPPSAPVKDLEALRGKPLDATPTFFDNIVTATKAGVNLLPGMHFPYVSHPDVFAKYVVETTQKHL MRWYYEQEGTGPDVVLVPDGCQMAQGFRVTDMAPPETYTEVTAASYVISVLLDIKHATVWGCASGASTVVALLLGYPDRIRNAMCHEPPSAPVKDLEALRGKPLDATPTFFDNIVTATKAGVNLLPGMHFPYVSHPDVFAKYVVETTQKHL 5ie9-a1-m1-cD_5ie9-a1-m1-cA Crystal structure of the Bacillus-conserved MazG protein, a nucleotide pyrophosphohydrolase Q813T0 Q813T0 2.8 X-RAY DIFFRACTION 42 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 92 94 5ie9-a1-m1-cB_5ie9-a1-m1-cC MEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDR MEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGERSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDR 5ie9-a1-m1-cD_5ie9-a1-m1-cB Crystal structure of the Bacillus-conserved MazG protein, a nucleotide pyrophosphohydrolase Q813T0 Q813T0 2.8 X-RAY DIFFRACTION 15 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 92 94 5ie9-a1-m1-cA_5ie9-a1-m1-cC MEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDR MEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGERSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDR 5ie9-a1-m1-cD_5ie9-a1-m1-cC Crystal structure of the Bacillus-conserved MazG protein, a nucleotide pyrophosphohydrolase Q813T0 Q813T0 2.8 X-RAY DIFFRACTION 142 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 92 95 5ie9-a1-m1-cA_5ie9-a1-m1-cB MEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDR MEAKTMKDMQKEVDAYIGQFKEGYFSPLAMMARLTEEMGELAREVNHYYGEERSIEEELGDVLFVMICMANSLNIDLETAHNIVMNKFNTRDKDR 5iea-a1-m1-cB_5iea-a1-m1-cD TRIM5 B-box2 and coiled-coil chimera Q0PF16 Q0PF16 3.258 X-RAY DIFFRACTION 10 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 118 118 DHCARHGEKLLLFCQEDSKVICWLCERSQEHRGHHTFLMEEVAQEYHVKLQTALEMLRQKQQEAETERNQVAALIARGKALGEQTQYMRELISELEHRLQGSMMDLLQGVDGIIKRIE DHCARHGEKLLLFCQEDSKVICWLCERSQEHRGHHTFLMEEVAQEYHVKLQTALEMLRQKQQEAETERNQVAALIARGKALGEQTQYMRELISELEHRLQGSMMDLLQGVDGIIKRIE 5ieq-a2-m1-cA_5ieq-a2-m2-cA Crystal structure of polymerase acid protein (PA) from Influenza A virus, WILSON-SMITH/1933 (H1N1) bound to fragment hit EBSI-747 1-(4-chlorophenyl)-1H-imidazole P15659 P15659 2.2 X-RAY DIFFRACTION 97 1.0 381518 (Influenza A virus (A/Wilson-Smith/1933(H1N1))) 381518 (Influenza A virus (A/Wilson-Smith/1933(H1N1))) 408 408 4iuj-a1-m1-cA_4iuj-a1-m2-cA 5if2-a2-m1-cA_5if2-a2-m2-cA 5if5-a2-m1-cA_5if5-a2-m2-cA 5if7-a2-m1-cA_5if7-a2-m2-cA 5if8-a2-m1-cA_5if8-a2-m2-cA 5ifb-a2-m1-cA_5ifb-a2-m2-cA 5ifc-a2-m1-cA_5ifc-a2-m2-cA 5ifd-a2-m1-cA_5ifd-a2-m2-cA PRPLRLPDGPPCSQRSKFLLMDALKLSIEDPSHEGEGIPLYDAIKCMRTFFGWKEPNVVKPHEKGINPNYLLSWKQVLAELQDIENEEKIPRTKNMKKTSQLKWALGEELRSLASWIQNEFNKACELTDSSWIELDEIGEDAAPIEHIASMRRNYFTAEVSHCRATEYIMKGVYINTALLNASCAAMDDFQLIPMISKCRTKEGRRKTNLYGFIIKGRSHLRNDTDVVNFVSMEFSLTDPRLEPHKWEKYCVLEVGDMLLRSAIGHVSRPMFLYVRTNGTSKIKMKWGMEMRRCLLQSLQQIESMIEAESSVKEKDMTKEFFENKSPKGVEEGSIGKVCRTLLAKSVFNSLYASPQLEGFSAESRKLLLIVQALRDNLGGLYEAIEECLINDPWVLLNASWFNSFLTH PRPLRLPDGPPCSQRSKFLLMDALKLSIEDPSHEGEGIPLYDAIKCMRTFFGWKEPNVVKPHEKGINPNYLLSWKQVLAELQDIENEEKIPRTKNMKKTSQLKWALGEELRSLASWIQNEFNKACELTDSSWIELDEIGEDAAPIEHIASMRRNYFTAEVSHCRATEYIMKGVYINTALLNASCAAMDDFQLIPMISKCRTKEGRRKTNLYGFIIKGRSHLRNDTDVVNFVSMEFSLTDPRLEPHKWEKYCVLEVGDMLLRSAIGHVSRPMFLYVRTNGTSKIKMKWGMEMRRCLLQSLQQIESMIEAESSVKEKDMTKEFFENKSPKGVEEGSIGKVCRTLLAKSVFNSLYASPQLEGFSAESRKLLLIVQALRDNLGGLYEAIEECLINDPWVLLNASWFNSFLTH 5if3-a1-m1-cB_5if3-a1-m1-cA Crystal structure of a Short-chain dehydrogenase/reductase SDR from Burkholderia vietnamiensis A4JKB1 A4JKB1 1.65 X-RAY DIFFRACTION 356 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 209 216 PRVRAIVTGHTRGLGASLAEQLLQQDIAVLGVSRSRHPSLAATAGDRLVETELDLSDTAAVAAWLAGGALRSFVDGASLVLLFNNAGVVDPIGPLAAQDPALVARAVALNVAAPLMLSAALVQAAAAPTECRVLHVSSGAARNAYAGWSVYCATKAALDHHARAVALDALRICSVAPGVSTPDEAARHLIRYALSDAFGAEPTADVRNL CAPRVRAIVTGHTRGLGASLAEQLLQQDIAVLGVSRSRHPSLAATAGDRLVETELDLSDTAAVAAWLAGGALRSFVDGASLVLLFNNAGVVDPIGPLAAQDPALVARAVALNVAAPLMLSAALVQAAAAPTECRVLHVSSGAARNAYAGWSVYCATKAALDHHARAVALDANRALRICSVAPGVVSTPDEAARHLIRYALSDAFGAEPTADVRNLP 5ifg-a1-m1-cB_5ifg-a1-m1-cD Crystal structure of HigA-HigB complex from E. Coli P67701 P67701 2.702 X-RAY DIFFRACTION 76 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 114 115 5ycl-a1-m1-cC_5ycl-a1-m1-cA 6kml-a1-m1-cB_6kml-a1-m1-cD AIADILQAGEKLTAVAPFLAGIQNEEQYTQALELVDHLLLNDPENPLLDLVCAKITAWEESAPEFAEFNAAQAPGGIAVIRTLDQYGLTSVSRVLSGKRKLTLEHAKKLATRFG IAIADILQAGEKLTAVAPFLAGIQNEEQYTQALELVDHLLLNDPENPLLDLVCAKITAWEESAPEFAEFNAAQAPGGIAVIRTLDQYGLTSVSRVLSGKRKLTLEHAKKLATRFG 5ifk-a1-m1-cC_5ifk-a1-m1-cB Purine nucleoside phosphorylase Q6CSZ6 Q6CSZ6 1.967 X-RAY DIFFRACTION 131 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 292 293 5ifk-a1-m1-cB_5ifk-a1-m1-cA 5ifk-a1-m1-cC_5ifk-a1-m1-cA INEQRALIKSAHRYISEKLEDHFSSEFLPKALVICGSGLSGISTKIADEPKPLILSYSTIPGFGELIFGYMNGAPVVLMNGRLHSYEGHSLAETVHPIRALHLLGSINVLIVTNAAGGINASFKAGDLMCVYDHINFPGLCGFHPLRGANFDEFGPRFLATSDAYDLELRKLLFSKKKELNIERKIHEGTYSYVHGPTFESRAESRFLRLAGTDAVGMSTVPEVVTARHCGWRVLALSLITNECVVDPPASAHDENPVPIQEGKATHEEVLENSAKASKDVQELIFSVVAEI DINEQRALIKSAHRYISEKLEDHFSSEFLPKALVICGSGLSGISTKIADEPKPLILSYSTIPGFGELIFGYMNGAPVVLMNGRLHSYEGHSLAETVHPIRALHLLGSINVLIVTNAAGGINASFKAGDLMCVYDHINFPGLCGFHPLRGANFDEFGPRFLATSDAYDLELRKLLFSKKKELNIERKIHEGTYSYVHGPTFESRAESRFLRLAGTDAVGMSTVPEVVTARHCGWRVLALSLITNECVVDPPASAHDENPVPIQEGKATHEEVLENSAKASKDVQELIFSVVAEI 5ifm-a1-m1-cA_5ifm-a1-m1-cB Human NONO (p54nrb) Homodimer Q15233 Q15233 2.6 X-RAY DIFFRACTION 314 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 254 259 5ifm-a2-m1-cC_5ifm-a2-m1-cD 5ifm-a3-m1-cF_5ifm-a3-m1-cE 5ifm-a4-m1-cG_5ifm-a4-m1-cH 5ifm-a5-m1-cI_5ifm-a5-m1-cJ 5ifm-a6-m1-cL_5ifm-a6-m1-cK EGLTIDLKNFRKPGEKTFTQRSRLFVGNLPPDITEEEMRKLFEKYGKAGEVFIHKDKGFGFIRLETRTLAEIAKVELDNMPLRGKQLRVRFACHSASLTVRNLPQYVSNELLEEAFSVFGQVERAVVIVDDRGRPSGKGIVEFSGKPAARKALDRCSEGSFLLTTFPRPVTVEPMDQLDDEEGLPEKLVIKNQQFHKEREQPPRFAQPGSFEYEYAMRWKALIEMEKQQQDQVDRNIKEAREKLEMEMEAARHE GLTIDLKNFRKPGEKTFTQRSRLFVGNLPPDITEEEMRKLFEKYGKAGEVFIHKDKGFGFIRLETRTLAEIAKVELDNMPLRGKQLRVRFACHSASLTVRNLPQYVSNELLEEAFSVFGQVERAVVIVDDRGRPSGKGIVEFSGKPAARKALDRCSEGSFLLTTFPRPVTVEPMDQLDDEEGLPEKLVIKNQQFHKEREQPPRFAQPGSFEYEYAMRWKALIEMEKQQQDQVDRNIKEAREKLEMEMEAARHEHQVMLM 5ifn-a1-m1-cB_5ifn-a1-m1-cA Human PSPC1 Homodimer Q8WXF1 Q8WXF1 3.17 X-RAY DIFFRACTION 294 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 257 TIDIKSFLKPGEKTYTQRCRLFVGNLPTDITEEDFKRLFERYGEPSEVFINRDRGFGFIRLESRTLAEIAKAELDGTILKSRPLRIRFATHGAALTVKNLSPVVSNELLEQAFSQFGPVEKAVVVVDDRGRATGKGFVEFAAKPPARKALERCGDGAFLLTTTPRPVIVEPMEQFDDEDGLPEKLMQKTQQYHKEREQPPRFAQPGTFEFEYASRWKALDEMEKQQREQVDRNIREAKEKLEAEMEAARHEH TIDIKSFLKPGEKTYTQRCRLFVGNLPTDITEEDFKRLFERYGEPSEVFINRDRGFGFIRLESRTLAEIAKAELDGTILKSRPLRIRFATHGAALTVKNLSPVVSNELLEQAFSQFGPVEKAVVVVDDRGRATGKGFVEFAAKPPARKALERCGDGAFLLTTTPRPVIVEPMEQFDDEDGLPEKLMQKTQQYHKEREQPPRFAQPGTFEFEYASRWKALDEMEKQQREQVDRNIREAKEKLEAEMEAARHEHQLMLM 5ifu-a3-m1-cA_5ifu-a3-m2-cB Crystal Structure of Prolyl-tRNA synthetase (ProRS, Proline--tRNA ligase) from Plasmodium falciparum in complex with Glyburide Q8I5R7 Q8I5R7 2.45 X-RAY DIFFRACTION 37 0.982 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 438 445 5ifu-a3-m2-cA_5ifu-a3-m1-cB ILGITSKKIENFSDWYTQVIVKSELIEYYDISGCYILRPAAYYIWECVQAFFNKEIKKLNVENSYFPLFVTSETIMYSVFPKWIRSYRDLPLKLNQWNTVTREFLWQEGHTAHKNEEEAVKLVFDILDLYRRWYEEYLAVPIIKGIKSEGEKFGGANFTSTAEAFISENGRAIQAATSHYLGTNFAKMFKIEFEDENEVKQYVHQTSWGCTTRSIGIMIMTHGDDKGLVLPPNVSKYKVVIVPIFYKTTDENAIHSYCKDIEKILKNAQINCVYDDRASYSPGYKFNHWELRGIPIRIEVGPKDLQNNSCVIVRRDNNEKCNVKKESVLLETQQMLVDIHKNLFLKAKKKLDDSIVQVTSFSEVMNALNKKKMVLAPWCEDIATEEEIKKETQRLSLNLSGAMKPLCIPLDQPPMPPNMKCFWSGKPAKRWCLFGRSY HHHHSNILGITSKKIENFSDWYTQVIVKSELIEYYDISGCYILRPAAYYIWECVQAFFNKEIKKLNVENSYFPLFVSETIMYSVFPKWIRSYRDLPLKLNQWNTVVRWEFKQPTTREFLWQEGHTAHKNEEEAVKLVFDILDLYRRWYEEYLAVPIIKGIKSEGEKFGGANFTSTAEAFISENGRAIQAATSHYLGTNFAKMFKIEFEDENEVKQYVHQTSWGCTTRSIGIMIMTHGDDKGLVLPPNVSKYKVVIVPIFYENAIHSYCKDIEKILKNAQINCVYDDRASYSPGYKFNHWELRGIPIRIEVGPKDLQNNSCVIVRRDNNEKCNVKKESVLLETQQMLVDIHKNLFLKAKKKLDDSIVQVTSFSEVMNALNKKKMVLAPWCEDIATEEEIKKETQRLSSGAMKPLCIPLDQPPMPPNMKCFWSGKPAKRWCLFGRSY 5ifu-a3-m2-cA_5ifu-a3-m2-cB Crystal Structure of Prolyl-tRNA synthetase (ProRS, Proline--tRNA ligase) from Plasmodium falciparum in complex with Glyburide Q8I5R7 Q8I5R7 2.45 X-RAY DIFFRACTION 98 0.982 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 438 445 5ifu-a3-m1-cA_5ifu-a3-m1-cB ILGITSKKIENFSDWYTQVIVKSELIEYYDISGCYILRPAAYYIWECVQAFFNKEIKKLNVENSYFPLFVTSETIMYSVFPKWIRSYRDLPLKLNQWNTVTREFLWQEGHTAHKNEEEAVKLVFDILDLYRRWYEEYLAVPIIKGIKSEGEKFGGANFTSTAEAFISENGRAIQAATSHYLGTNFAKMFKIEFEDENEVKQYVHQTSWGCTTRSIGIMIMTHGDDKGLVLPPNVSKYKVVIVPIFYKTTDENAIHSYCKDIEKILKNAQINCVYDDRASYSPGYKFNHWELRGIPIRIEVGPKDLQNNSCVIVRRDNNEKCNVKKESVLLETQQMLVDIHKNLFLKAKKKLDDSIVQVTSFSEVMNALNKKKMVLAPWCEDIATEEEIKKETQRLSLNLSGAMKPLCIPLDQPPMPPNMKCFWSGKPAKRWCLFGRSY HHHHSNILGITSKKIENFSDWYTQVIVKSELIEYYDISGCYILRPAAYYIWECVQAFFNKEIKKLNVENSYFPLFVSETIMYSVFPKWIRSYRDLPLKLNQWNTVVRWEFKQPTTREFLWQEGHTAHKNEEEAVKLVFDILDLYRRWYEEYLAVPIIKGIKSEGEKFGGANFTSTAEAFISENGRAIQAATSHYLGTNFAKMFKIEFEDENEVKQYVHQTSWGCTTRSIGIMIMTHGDDKGLVLPPNVSKYKVVIVPIFYENAIHSYCKDIEKILKNAQINCVYDDRASYSPGYKFNHWELRGIPIRIEVGPKDLQNNSCVIVRRDNNEKCNVKKESVLLETQQMLVDIHKNLFLKAKKKLDDSIVQVTSFSEVMNALNKKKMVLAPWCEDIATEEEIKKETQRLSSGAMKPLCIPLDQPPMPPNMKCFWSGKPAKRWCLFGRSY 5ify-a2-m1-cF_5ify-a2-m2-cF Crystal structure of Glucose-1-phosphate thymidylyltransferase from Burkholderia vietnamiensis in complex with 2 -Deoxyuridine-5'-monophosphate and 2'-Deoxy-Thymidine-B-L-Rhamnose A4JC15 A4JC15 2.25 X-RAY DIFFRACTION 111 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 292 292 5ify-a1-m1-cA_5ify-a1-m1-cB 5ify-a1-m1-cC_5ify-a1-m1-cD 5ify-a2-m1-cE_5ify-a2-m2-cE ARKGIILAGGSGTRLYPITHAVSKQLLPVYDKPMIYYPLSTLMIAGIRDVLIISTPQDTPRFESMLGDGSQWGMNIQYATQPSPDGLAQAFVIGRDFVGNEPSALILGDNIFYGHDLAKQLERASAKDTGATVFAYHVQDPERYGVVEFDREFRAISIEEKPAKPRSSYAVTGLYFYDRQVCDIAADIKPSARGELEITDVNSRYLAAGQLDVELMGRGYAWLDTGTHDSLIEAGTFIATLQKRQGLMVACPEEIAYRRNWIDAEQVLKLAQPLAKNAYGQYLRNLLTHQVA ARKGIILAGGSGTRLYPITHAVSKQLLPVYDKPMIYYPLSTLMIAGIRDVLIISTPQDTPRFESMLGDGSQWGMNIQYATQPSPDGLAQAFVIGRDFVGNEPSALILGDNIFYGHDLAKQLERASAKDTGATVFAYHVQDPERYGVVEFDREFRAISIEEKPAKPRSSYAVTGLYFYDRQVCDIAADIKPSARGELEITDVNSRYLAAGQLDVELMGRGYAWLDTGTHDSLIEAGTFIATLQKRQGLMVACPEEIAYRRNWIDAEQVLKLAQPLAKNAYGQYLRNLLTHQVA 5ify-a2-m2-cF_5ify-a2-m2-cE Crystal structure of Glucose-1-phosphate thymidylyltransferase from Burkholderia vietnamiensis in complex with 2 -Deoxyuridine-5'-monophosphate and 2'-Deoxy-Thymidine-B-L-Rhamnose A4JC15 A4JC15 2.25 X-RAY DIFFRACTION 93 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 292 293 5ify-a1-m1-cB_5ify-a1-m1-cD 5ify-a1-m1-cC_5ify-a1-m1-cA 5ify-a2-m1-cF_5ify-a2-m1-cE ARKGIILAGGSGTRLYPITHAVSKQLLPVYDKPMIYYPLSTLMIAGIRDVLIISTPQDTPRFESMLGDGSQWGMNIQYATQPSPDGLAQAFVIGRDFVGNEPSALILGDNIFYGHDLAKQLERASAKDTGATVFAYHVQDPERYGVVEFDREFRAISIEEKPAKPRSSYAVTGLYFYDRQVCDIAADIKPSARGELEITDVNSRYLAAGQLDVELMGRGYAWLDTGTHDSLIEAGTFIATLQKRQGLMVACPEEIAYRRNWIDAEQVLKLAQPLAKNAYGQYLRNLLTHQVA ARKGIILAGGSGTRLYPITHAVSKQLLPVYDKPMIYYPLSTLMIAGIRDVLIISTPQDTPRFESMLGDGSQWGMNIQYATQPSPDGLAQAFVIGRDFVGNEPSALILGDNIFYGHDLAKQLERASAKDTGATVFAYHVQDPERYGVVEFDREFRAISIEEKPAKPRSSYAVTGLYFYDRQVCDIAADIKPSARGELEITDVNSRYLAAGQLDVELMGRGYAWLDTGTHDSLIEAGTFIATLQKRQGLMVACPEEIAYRRNWIDAEQVLKLAQPLAKNAYGQYLRNLLTHQVAW 5ifz-a1-m1-cB_5ifz-a1-m1-cA Crystal Structure of Ribose-5-phosphate Isomerase from Brucella melitensis 16M Q8YCV4 Q8YCV4 1.6 X-RAY DIFFRACTION 71 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 117 118 MKVAVAGDSAGEGLAKVLADHLKDRFEVSEISNLSDRVASAVLDGTYDRAILVCGTGIGVCIAANKVPGIRAALTHDTYSAERAALSNNAQIITMGARVIGAEVAKTIADAFLAQTF MKVAVAGDSAGEGLAKVLADHLKDRFEVSEISNLSDRVASAVLDGTYDRAILVCGTGIGVCIAANKVPGIRAALTHDTYSAERAALSNNAQIITMGARVIGAEVAKTIADAFLAQTFD 5ig0-a1-m1-cA_5ig0-a1-m2-cA Crystal structure of S. rosetta CaMKII hub F2UPG5 F2UPG5 1.75 X-RAY DIFFRACTION 87 1.0 946362 (Salpingoeca rosetta) 946362 (Salpingoeca rosetta) 131 131 VPAGPAKAVLEVNDELLKAVASGDWDAYTTMVDPNVTCFEPEAAGVLAKGLAFHKFFFDNRSPNADKMKTTLHDPAVQMFGDTAIVTALRVVQFVADDGPKTTRYEETRVWVKDAAFKFGWKLVHFHRSGA VPAGPAKAVLEVNDELLKAVASGDWDAYTTMVDPNVTCFEPEAAGVLAKGLAFHKFFFDNRSPNADKMKTTLHDPAVQMFGDTAIVTALRVVQFVADDGPKTTRYEETRVWVKDAAFKFGWKLVHFHRSGA 5ig2-a1-m2-cA_5ig2-a1-m2-cB Crystal structure of a short chain dehydrogenase/reductase SDR from Burkholderia phymatum in complex with NAD B2JGP2 B2JGP2 1.8 X-RAY DIFFRACTION 41 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 278 281 5ig2-a1-m1-cA_5ig2-a1-m1-cB MFEFDGKVAVITGAGSGFGRAFAEKGASLGMKLVLADVDEGALARTVDTLRAAGAEVIGVRTDVSNGAQVQALADAALEAFGKVHLLFNNAGVGAGGFLWESSANDWAWVFGVNVMGVAHGVRVFAPIMLGQNEAAHIVNTASVAGLLSPPSMGIYNASKHAVVSLTETLYHDLRNAGGEVGCSLLCPAFVPTGIADAERVRPEALRNEAQPTRSQLAADRQLQRAVRSGKLGATDVATLTFEAIAERRFYILTHPAILATVRLRHEDIELQRNPTDP MFEFDGKVAVITGAGSGFGRAFAEKGASLGMKLVLADVDEGALARTVDTLRAAGAEVIGVRTDVSNGAQVQALADAALEAFGKVHLLFNNAGVGAGGFLWESSANDWAWVFGVNVMGVAHGVRVFAPIMLGQNEAAHIVNTASVAGLLSPPSMGIYNASKHAVVSLTETLYHDLRNAGGEVGCSLLCPAFVPTGIADAERVRPEALRNEAQPTRSQLAADRQLQRAVRSGKLGATDVATLTFEAIAERRFYILTHPAILATVRLRHEDIELQRNPTDPLSL 5ig2-a3-m1-cC_5ig2-a3-m1-cB Crystal structure of a short chain dehydrogenase/reductase SDR from Burkholderia phymatum in complex with NAD B2JGP2 B2JGP2 1.8 X-RAY DIFFRACTION 203 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 279 281 5ig2-a1-m1-cA_5ig2-a1-m2-cA 5ig2-a1-m1-cC_5ig2-a1-m1-cB 5ig2-a1-m2-cC_5ig2-a1-m2-cB 5ig2-a2-m1-cA_5ig2-a2-m2-cA MFEFDGKVAVITGAGSGFGRAFAEKGASLGMKLVLADVDEGALARTVDTLRAAGAEVIGVRTDVSNGAQVQALADAALEAFGKVHLLFNNAGVGAGGFLWESSANDWAWVFGVNVMGVAHGVRVFAPIMLGQNEAAHIVNTASVAGLLSPPSMGIYNASKHAVVSLTETLYHDLRNAGGEVGCSLLCPAFVPTGIADAERVRPEALRNEAQPTRSQLAADRQLQRAVRSGKLGATDVATLTFEAIAERRFYILTHPAILATVRLRHEDIELQRNPTDPL MFEFDGKVAVITGAGSGFGRAFAEKGASLGMKLVLADVDEGALARTVDTLRAAGAEVIGVRTDVSNGAQVQALADAALEAFGKVHLLFNNAGVGAGGFLWESSANDWAWVFGVNVMGVAHGVRVFAPIMLGQNEAAHIVNTASVAGLLSPPSMGIYNASKHAVVSLTETLYHDLRNAGGEVGCSLLCPAFVPTGIADAERVRPEALRNEAQPTRSQLAADRQLQRAVRSGKLGATDVATLTFEAIAERRFYILTHPAILATVRLRHEDIELQRNPTDPLSL 5ig8-a1-m1-cA_5ig8-a1-m2-cA Crystal structure of macrocyclase MdnB from Microcystis aeruginosa MRC B2G3C9 B2G3C9 2.278 X-RAY DIFFRACTION 175 1.0 507735 (Microcystis aeruginosa MRC) 507735 (Microcystis aeruginosa MRC) 307 307 PKVVLLLTHSGDFFTIDRVAEAIEKKGATPFRLDTDKFPLEVQLTAQFNGKKSFYQLSYNHQSIDSEQVQSVWTRRIWQPELTGDLDPQFREVCVRESQTTLAGFWDSLRSARWLDNLAQIEKAKNKLLQLRLASEVGLIIPPTLVTNNPDAAREFFSQVQGRMVSKLLTAIARSMESPEFFLYTSRVKAEDLEEAESLRYCPMVFQAEIPKQLELRVVVVNGQTFVGALESSQGAWQHHTLPDSLLQQLQIFMANLGLNFGAFDFILTPGGEYVFLEVNPGGEWGMLERDLDLPISQAIADFLVFG PKVVLLLTHSGDFFTIDRVAEAIEKKGATPFRLDTDKFPLEVQLTAQFNGKKSFYQLSYNHQSIDSEQVQSVWTRRIWQPELTGDLDPQFREVCVRESQTTLAGFWDSLRSARWLDNLAQIEKAKNKLLQLRLASEVGLIIPPTLVTNNPDAAREFFSQVQGRMVSKLLTAIARSMESPEFFLYTSRVKAEDLEEAESLRYCPMVFQAEIPKQLELRVVVVNGQTFVGALESSQGAWQHHTLPDSLLQQLQIFMANLGLNFGAFDFILTPGGEYVFLEVNPGGEWGMLERDLDLPISQAIADFLVFG 5ig8-a2-m1-cB_5ig8-a2-m3-cB Crystal structure of macrocyclase MdnB from Microcystis aeruginosa MRC B2G3C9 B2G3C9 2.278 X-RAY DIFFRACTION 136 1.0 507735 (Microcystis aeruginosa MRC) 507735 (Microcystis aeruginosa MRC) 243 243 KVVLLLTHSGDFFTIDRVAEAIEKKGATPFRLDTDKFPLEVQLTAQFNGKKSFYQLSYNHQSIDSEQVQSVWTRRICVRESQTTLAGFWDSLRSARWLDNLAQIEKAKNKLLQLRLASEVGLIIPPTLVTNNPDAAREFFSQMVFQAEIPKQLELRVVVVNGQTFVGALESAWQHHTLPDSLLQQLQIFMANLGLNFGAFDFILTPGGEYVFLEVNPGGEWGMLERDLDLPISQAIADFLVFG KVVLLLTHSGDFFTIDRVAEAIEKKGATPFRLDTDKFPLEVQLTAQFNGKKSFYQLSYNHQSIDSEQVQSVWTRRICVRESQTTLAGFWDSLRSARWLDNLAQIEKAKNKLLQLRLASEVGLIIPPTLVTNNPDAAREFFSQMVFQAEIPKQLELRVVVVNGQTFVGALESAWQHHTLPDSLLQQLQIFMANLGLNFGAFDFILTPGGEYVFLEVNPGGEWGMLERDLDLPISQAIADFLVFG 5ig9-a4-m1-cF_5ig9-a4-m1-cG Crystal structure of macrocyclase MdnC bound with precursor peptide MdnA from Microcystis aeruginosa MRC B2G3D0 B2G3D0 2.665 X-RAY DIFFRACTION 214 0.993 507735 (Microcystis aeruginosa MRC) 507735 (Microcystis aeruginosa MRC) 302 313 5ig9-a1-m1-cB_5ig9-a1-m1-cA 5ig9-a2-m1-cD_5ig9-a2-m1-cC MTVLIVTFSRDNESIPLVIKAIEAMGKKAFRFDTDRFPTEVKVDLYSGGQKGGIITDGDQKLELKEVSAVWYRRMRYGLKLPDGMDSQFREASLKECRLSIRGMIASLSGFHLDPIAKVDHANHKQLQLQVARQLGLLIPGTLTSNNPEAVKQFAQEFEATGIVTKMLSQFAIYGEEMVVFTSPVTKEDLDNLEGLQFCPMTFQENIPKALELRITIVGEQIFTAAINSQWQPYDLPKTIEKQLLELMKYFGLNYGAIDMIVTPDERYIFLEINPVGEFFWLELYPPYFPISQAIAEILVNS MTVLIVTFSRDNESIPLVIKAIEAMGKKAFRFDTDRFPTEVKVDLYSGGQKGGIITDGDQKLELKEVSAVWYRRMRYGLKLPDGMDSQFREASLKECRLSIRGMIASLSGFHLDPIAKVDHANHKQLQLQVARQLGLLIPGTLTSNNPEAVKQFAQEFEATGIVTKMLSQFAIYEMVVFTSPVTKEDLDNLEGLQFCPMTFQENIPKALELRITIVGEQIFTAAINSQQLDGAIYDWRHQQWQPYDLPKTIEKQLLELMKYFGLNYGAIDMIVTPDERYIFLEINPVGEFFWLELYPPYFPISQAIAEILVNS 5igh-a2-m1-cA_5igh-a2-m2-cA Macrolide 2'-phosphotransferase type I Q47396 Q47396 1.55 X-RAY DIFFRACTION 167 1.0 562 (Escherichia coli) 562 (Escherichia coli) 293 293 TVVTTADTSQLYALAARHGLKLHGPLTVNELGLDYRIVIATVDDGRRWVLRIPRRAEVSAKVEPEARVLALKNRLPFAVPDWRVANAELVAYPLEDSTAVIQPGSSTPDWVVPQDSEVFAESFATALAALHAVPISAAVDAGLIRTPTQARQKVADDVDRVRREFVVNDKRLHRWQRWLDDDSSWPDFSVVVHGDLYVGHVLIDNTERVSGIDWSEARVDDPAIDAAHLVFGEEGLAKLLLTYEAAGGRVWPRLAHHIAERLAFGAVTYALFALDSGNEEYLAAAKAQLAAAE TVVTTADTSQLYALAARHGLKLHGPLTVNELGLDYRIVIATVDDGRRWVLRIPRRAEVSAKVEPEARVLALKNRLPFAVPDWRVANAELVAYPLEDSTAVIQPGSSTPDWVVPQDSEVFAESFATALAALHAVPISAAVDAGLIRTPTQARQKVADDVDRVRREFVVNDKRLHRWQRWLDDDSSWPDFSVVVHGDLYVGHVLIDNTERVSGIDWSEARVDDPAIDAAHLVFGEEGLAKLLLTYEAAGGRVWPRLAHHIAERLAFGAVTYALFALDSGNEEYLAAAKAQLAAAE 5igi-a2-m1-cA_5igi-a2-m2-cA Macrolide 2'-phosphotransferase type I - complex with guanosine and azithromycin Q47396 Q47396 1.2 X-RAY DIFFRACTION 95 1.0 562 (Escherichia coli) 562 (Escherichia coli) 299 299 5igj-a2-m1-cA_5igj-a2-m2-cA 5igp-a2-m1-cA_5igp-a2-m2-cA 5igr-a2-m1-cA_5igr-a2-m2-cA 5igs-a2-m1-cA_5igs-a2-m2-cA 5igt-a2-m1-cA_5igt-a2-m2-cA TVVTTADTSQLYALAARHGLKLHGPLTVNELGLDYRIVIATVDDGRRWVLRIPRRAEVSAKVEPEARVLAMLKNRLPFAVPDWRVANAELVAYPMLEDSTAVIQPGSSTPDWVVPQDSEVFAESFATALAALHAVPISAAVDAGMLIRTPTQARQKVADDVDRVRREFVVNDKRLHRWQRWLDDDSSWPDFSVVVHGDLYVGHVLIDNTERVSGMIDWSEARVDDPAIDMAAHLMVFGEEGLAKLLLTYEAAGGRVWPRLAHHIAERLAFGAVTYALFALDSGNEEYLAAAKAQLAAAE TVVTTADTSQLYALAARHGLKLHGPLTVNELGLDYRIVIATVDDGRRWVLRIPRRAEVSAKVEPEARVLAMLKNRLPFAVPDWRVANAELVAYPMLEDSTAVIQPGSSTPDWVVPQDSEVFAESFATALAALHAVPISAAVDAGMLIRTPTQARQKVADDVDRVRREFVVNDKRLHRWQRWLDDDSSWPDFSVVVHGDLYVGHVLIDNTERVSGMIDWSEARVDDPAIDMAAHLMVFGEEGLAKLLLTYEAAGGRVWPRLAHHIAERLAFGAVTYALFALDSGNEEYLAAAKAQLAAAE 5igm-a1-m1-cB_5igm-a1-m1-cA Crystal structure of the bromodomain of human BRD9 in complex with bromosporine (BSP) Q9H8M2 Q9H8M2 1.6 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 113 3hme-a1-m1-cA_3hme-a1-m1-cB 5ign-a1-m1-cA_5ign-a1-m1-cB 5twx-a5-m1-cB_5twx-a5-m1-cA 5twx-a5-m1-cC_5twx-a5-m1-cD 6v0s-a1-m1-cA_6v0s-a1-m2-cB 6v1b-a3-m2-cB_6v1b-a3-m1-cA STPIQQLLEHFLRQLQRKDPHGFFAFPVTDAIAPGYSMIIKHPMDFGTMKDKIVANEYKSVTEFKADFKLMCDNAMTYNRPDTVYYKLAKKILHAGFKMMSKERLLALKRSM STPIQQLLEHFLRQLQRKDPHGFFAFPVTDAIAPGYSMIIKHPMDFGTMKDKIVANEYKSVTEFKADFKLMCDNAMTYNRPDTVYYKLAKKILHAGFKMMSKERLLALKRSMS 5ihf-a1-m1-cA_5ihf-a1-m1-cB Salmonella Typhimurium VirG-like (STV) protein A0A0H3ND95 A0A0H3ND95 1.576 X-RAY DIFFRACTION 81 0.99 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 105 109 5io8-a1-m1-cB_5io8-a1-m1-cA AVPNPPLPAQDPIVQHLKLTNDQITRIKKLHQQLETDVSQISMGALIEVIKSGKWDDAAVKQQLAAFSNIEQQARYYRVKYYFDLSKVLTPEQRQQVQQDLAQAL AVPNPPLPAQDPIVQHLKLTNDQITRIKKLHQQLETDVSQISMKGIKDGALIEVIKSGKWDDAAVKQQLAAFSNIEQQARYYRVKYYFDLSKVLTPEQRQQVQQDLAQA 5ihx-a1-m2-cB_5ihx-a1-m1-cA Crystal Structure of a C-terminally truncated Aspergillus nidulans mitochondrial tyrosyl-tRNA synthetase Q5BCM1 Q5BCM1 2.298 X-RAY DIFFRACTION 95 0.994 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 339 360 QRIEEGKKEWAQFAQEIKEGKRKSFVEHLEERGLIHDVVGDRDLLHRVFTEKRVGIYAGVDPTAPSMHVGHMLPFMVLAWGYVWGLPVTFLLGGATSHSSVRKANMASMHMQLKKLGASIERYGEKHGYKRQMIWRRTLTNNNVWWNKTPLLEVLRDLGAYIRIGPMLGRDTVKNRGMSFAEFTYPLMQAWDWWMLFKNGCQVQVGGSDQYGNILFGVGAVKTISKNTVLQEDNNPLSDDLDKPIGFTTPLLNAIWLDKDMTSTFELYQFFVRTPDDAVERYLKMFTFLPIPEISKIMEEQNQDPSRRVAQHALAYEFVELIHGKDEADAVSMQHRQLF IEEGKKEWAQFAQEIKEGKRKSFVEHLEERGLIHDVVGDRDLLHRVFTEKRVGIYAGVDPTAPSMHVGHMLPFMVLAWGYVWGLPVTFLLGGATSRVGDPTGRLKGREQVHSSVRKANMASMHMQLKKLGASIERYGEKHGYKRQMIWRRTLTNNNVWWNKTPLLEVLRDLGAYIRIGPMLGRDTVKNRMERGDGMSFAEFTYPLMQAWDWWMLFKNGCQVQVGGSDQYGNILFGVGAVKTISKNTVLQEDNNPLSDDLDKPIGFTTPLLTTSNAIWLDKDMTSTFELYQFFVRTPDDAVERYLKMFTFLPIPEISKIMEEQNQDPSRRVAQHALAYEFVELIHGKDEADAVSMQHRQLF 5iip-a1-m1-cA_5iip-a1-m1-cD Staphylococcus aureus OpuCA A0A160MQL0 A0A160MQL0 2.5 X-RAY DIFFRACTION 31 0.991 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 116 117 EGVMIKPITIQAEATLNDAVHIMRQKRVDTIFVVDSNNHLLGFLDIEDINQGIRGHKSLRDTMQQHIYTVQIDSKLQSVRTILKRNVRNVPVVDDQQRLVGLITRANVVDIVYDTI GVMIKPITIQAEATLNDAVHIMRQKRVDTIFVVDSNNHLLGFLDIEDINQGIRGHKSLRDTMQQHIYTVQIDSKLQDSVRTILKRNVRNVPVVDDQQRLVGLITRANVVDIVYDTIW 5ijg-a1-m1-cB_5ijg-a1-m2-cB Crystal structure of O-acetylhomoserine sulfhydrolase from Brucella melitensis at 2.0 A resolution Q8YJI0 Q8YJI0 2 X-RAY DIFFRACTION 42 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 403 403 SKIRLGNHLLHPETQMLNYGYDSELSEGAVKPPVFLTSTFVFKTAEDGRDFFDFVSGRKEPLVYSRFNHPNSEIVEDRLAVYEGAESAALFSSGMSAIATTLFAFVRPGDVILHSQPLYGGTETLLAKTFFNFGVEAVAFADGVHEATIEKAAEEALAKGRVSVILIETPANPTNSIVDVAAVRRVAEKIEARQGSRPVIACDNTLLGPVFQKPLDHGADLSVYSLTKYVGGHSDLIAGAVLGAKSVVRQVKALRGAIGTQLDPHSCWMLGRSLETLGLRMERADSNARAIAEFLRNHPKVEKLHYLPFADERSDIAALFKRQCTGAGSTFSFDIKGGQAAAFRFLNALQILKLAVGTESLASHPAAVDVRERIGVLESTIRLSIGIEHPDDLIADLAQALDA SKIRLGNHLLHPETQMLNYGYDSELSEGAVKPPVFLTSTFVFKTAEDGRDFFDFVSGRKEPLVYSRFNHPNSEIVEDRLAVYEGAESAALFSSGMSAIATTLFAFVRPGDVILHSQPLYGGTETLLAKTFFNFGVEAVAFADGVHEATIEKAAEEALAKGRVSVILIETPANPTNSIVDVAAVRRVAEKIEARQGSRPVIACDNTLLGPVFQKPLDHGADLSVYSLTKYVGGHSDLIAGAVLGAKSVVRQVKALRGAIGTQLDPHSCWMLGRSLETLGLRMERADSNARAIAEFLRNHPKVEKLHYLPFADERSDIAALFKRQCTGAGSTFSFDIKGGQAAAFRFLNALQILKLAVGTESLASHPAAVDVRERIGVLESTIRLSIGIEHPDDLIADLAQALDA 5ijw-a1-m1-cA_5ijw-a1-m1-cB Glutamate Racemase (MurI) from Mycobacterium smegmatis with bound D-glutamate, 1.8 Angstrom resolution, X-ray diffraction A0R1X0 A0R1X0 1.76 X-RAY DIFFRACTION 150 0.989 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 272 276 SHMSDRLAPIGIFDSGVGGLTVARAIIDQLPDEDIVYVGDTGNGPYGPLTIPQIRAHSLAIGDDLVSRGVKALVIACNTASSACLRDARERYSPVPVVEVILPAVRRAVAATRNGRIGVIGTQATIASGAYQDAFAAARDTEVFTVACPRFVDFVERGVTSGRQVLGLAEGYLEPLQLAEVDTLVLGCTHYPMLSGLIQLAMGDNVTLVSSAEETAKDLLRVLTELDLLRPHPDDPSVTAVRRFEATGDPEAFTALAARFLGPTLDGVRPVR SHMSDRLAPIGIFDSGVGGLTVARAIIDQLPDEDIVYVGDTGNGPYGPLTIPQIRAHSLAIGDDLVSRGVKALVIACNTASSACLRDARERYSPVPVVEVILPAVRRAVAATRNGRIGVIGTQATIASGAYQDAFAAARDTEVFTVACPRFVDFVERGVTSGRQVLGLAEGYLEPLQLAEVDTLVLGCTHYPMLSGLIQLAMGDNVTLVSSAEETAKDLLRVLTELDLLRPHPDDPSVTAVRRFEATGDPEAFTALAARFLGPTLDPVRRHAGAGR 5ijx-a1-m1-cA_5ijx-a1-m2-cA Crystal Structure of a C-terminally truncated Coccidioides posadasii mitochondrial tyrosyl-tRNA synthetase C5P455 C5P455 2.63 X-RAY DIFFRACTION 88 1.0 222929 (Coccidioides posadasii C735 delta SOWgp) 222929 (Coccidioides posadasii C735 delta SOWgp) 354 354 RHITQQHLRRTAEAEEQWKLQAKEIEAGRKQSFLSFLEERGLVNSVVGQRDALDKLITRKRVGFYAGVDPTAPSLHIGHLPFILGWAYVHGLKAVFLIGGSTAKIGDPTGRDGATRRANIANIHLQLKRLGFSFEKYGRKHGFEWEWAWRRALENNNTWWNKQSLKEVEVLGTSLRLGPLGRDYVKSRLASGEGSIAEFCYPIQGWDFWYLFQRKVQVQVGGSDQYGNILFGDAIKGILKANPESEWAPKKDEDPDLANPYGITTPLLTTASGEKAVWLDKDTSCYDLYQYFVRVADSDVERYLKFTFVPTPAIKELEEHAKDPSKRVAQHKLAREFVELIHGSLSAEQAAKDH RHITQQHLRRTAEAEEQWKLQAKEIEAGRKQSFLSFLEERGLVNSVVGQRDALDKLITRKRVGFYAGVDPTAPSLHIGHLPFILGWAYVHGLKAVFLIGGSTAKIGDPTGRDGATRRANIANIHLQLKRLGFSFEKYGRKHGFEWEWAWRRALENNNTWWNKQSLKEVEVLGTSLRLGPLGRDYVKSRLASGEGSIAEFCYPIQGWDFWYLFQRKVQVQVGGSDQYGNILFGDAIKGILKANPESEWAPKKDEDPDLANPYGITTPLLTTASGEKAVWLDKDTSCYDLYQYFVRVADSDVERYLKFTFVPTPAIKELEEHAKDPSKRVAQHKLAREFVELIHGSLSAEQAAKDH 5ijz-a1-m1-cK_5ijz-a1-m1-cL Crystal structure of glutamate dehydrogenase(GDH) from Corynebacterium glutamicum P31026 P31026 2.29 X-RAY DIFFRACTION 59 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 304 447 MTVDEQVSNYYDMLLKRNAGEPEFHQAVAEVLESLKIVLEKDPHYADYGLIQRLCEPERQLIFRVPWVDDQGQVHVNRGFRVQFNSALGPYKGGLRFHPSVNLGIVKFLGFEQIFKNSLTGLPIGGGKGGSDFDPKGKSDLEIMRFCQSFMTELHRHIGEYRDVPAGDIGVGGREIGYLFGHYRRMANQHESGVLTGKGLTWGGSLVRTEATGYGCVYFVSEMIKAKGPGKAANAGGVATSALEMQQNASRDSWSFEYTDERLQVIMKNIFKTCAETAAEYGVVGANIAGFKKVADAMLAQGVI MTVDEQVSNYYDMLLKRNAGEPEFHQAVAEVLESLKIVLEKDPHYADYGLIQRLCEPERQLIFRVPWVDDQGQVHVNRGFRVQFNSALGPYKGGLRFHPSVNLGIVKFLGFEQIFKNSLTGLPIGGGKGGSDFDPKGKSDLEIMRFCQSFMTELHRHIGEYRDVPAGDIGVGGREIGYLFGHYRRMANQHESGVLTGKGLTWGGSLVRTEATGYGCVYFVSEMIKAKGESISGQKIIVSGSGNVATYAIEKAQELGATVIGFSDSSGWVHTPNGVDVAKLREIKEVRRARVSVYADEVEGATYHTDGSIWDLKCDIALPCATQNELNGENAKTLADNGCRFVAEGANMPSTPEAVEVFRERDIRFGPGKAANAGGVATSALEMQQNASRDSWSFEYTDERLQVIMKNIFKTCAETAAEYGHENDYVVGANIAGFKKVADAMLAQGVI 5ikk-a1-m1-cA_5ikk-a1-m2-cA Structure of the histone deacetylase Clr3 P56523 P56523 2.4 X-RAY DIFFRACTION 205 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 594 594 LKKSGLCYDPRMRFHATLSEHPEDPRRVLRVFEAIKKAGYVSNVPSPSDVFLRIPAREATLEELLQVHSQEMYDKMSHEDLANLEKISDSLYYNNESAFCARLACGSAIETCTAVVTGQVKNAFAVVRPPGHHALFNNVSVTARSMLQRFPDKIKRVLIVDWDIHHGNGTQMAFYDDPNVLYVSLHRYENGRFYPGTNYGCAENCGEGPGLGRTVNIPWSCAGMGDGDYIYAFQRVVMPVAYEFDPDLVIVSCGFDAAAGDHIGQFLLTPAAYAHMTQMLMGLADGKVFISLEGGYNLDSISTSALAVAQSLLGIPPGRLHTTYACPQAVATINHVTKIQSQYWRCMRPKHFDANPKDAHVDRLHDVIRTYQAKKLFEDWKITNMPILRDNNQVLCSSNFFQKDNLLVIVHESPRVLGNGTSETNVLNLNDSLLVDPVSLYVEWAMQQDWGLIDINIPEVDILSEVKELCLYVWDNYVELSISKNIFFIGGGKAVHGLVNLASSRNVSDRVKCMVNFLGTEPLVGLKTASEEDLPTWYYRHSLVFVSSSNECWKKAKRAKRRYGRLMQSEHTETSDMMEQHYRAVTQYLLHLLQ LKKSGLCYDPRMRFHATLSEHPEDPRRVLRVFEAIKKAGYVSNVPSPSDVFLRIPAREATLEELLQVHSQEMYDKMSHEDLANLEKISDSLYYNNESAFCARLACGSAIETCTAVVTGQVKNAFAVVRPPGHHALFNNVSVTARSMLQRFPDKIKRVLIVDWDIHHGNGTQMAFYDDPNVLYVSLHRYENGRFYPGTNYGCAENCGEGPGLGRTVNIPWSCAGMGDGDYIYAFQRVVMPVAYEFDPDLVIVSCGFDAAAGDHIGQFLLTPAAYAHMTQMLMGLADGKVFISLEGGYNLDSISTSALAVAQSLLGIPPGRLHTTYACPQAVATINHVTKIQSQYWRCMRPKHFDANPKDAHVDRLHDVIRTYQAKKLFEDWKITNMPILRDNNQVLCSSNFFQKDNLLVIVHESPRVLGNGTSETNVLNLNDSLLVDPVSLYVEWAMQQDWGLIDINIPEVDILSEVKELCLYVWDNYVELSISKNIFFIGGGKAVHGLVNLASSRNVSDRVKCMVNFLGTEPLVGLKTASEEDLPTWYYRHSLVFVSSSNECWKKAKRAKRRYGRLMQSEHTETSDMMEQHYRAVTQYLLHLLQ 5iko-a1-m1-cA_5iko-a1-m4-cA Crystal structure of human brain glycogen phosphorylase P11216 P11216 2.5 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 807 807 5iko-a1-m2-cA_5iko-a1-m3-cA LGDVAEVRKSFNRHLHFTLVKDRNVATPRDYFFALAHTVRDHLVGRWIRTQQHYYERDPKRIYYLSLEFYMGRTLQNTMVNLGLQNACDEAIYQLGLDLEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKIVNGWQVEEADDWLRYGNPWEKARPEYMLPVHFYGRVEHTPDGVKWLDTQVVLAMPYDTPVPGYKNNTVNTMRLWSAKAPNDDFNVGDYIEAVLDRNLAENISRVLYPNDFEGKELRLKQEYFVVAATLQDIIRRFKSSKFGTCFETFPDKVAIQLNDTHPALSIPELMRILVDVEKVDWDKAWEITKKTCAYTNHTVLPEALERWPVSMFEKLLPRHLEIIYAINQRHLDHVAALFPGDVDRLRRMSVIEEGDCKRINMAHLCVIGSHAVNGVARIHSEIVKQSVFKDFYELEPEKFQNKTNGITPRRWLLLCNPGLADTIVEKIGEEFLTDLSQLKKLLPLVSDEVFIRDVAKVKQENKLKFSAFLEKEYKVKINPSSMFDVHVKRIHEYKRQLLNCLHVVTLYNRIKRDPAKAFVPRTVMIGGKAAPGYHMAKLIIKLVTSIGDVVNHDPVVGDRLKVIFLENYRVSLAEKVIPAADLSQQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGAENLFIFGLRVEDVEALDRKGYNAREYYDHLPELKQAVDQISSGFFSPKEPDCFKDIVNMLMHHDRFKVFADYEAYMQCQAQVDQLYRNPKEWTKKVIRNIACSGKFSSDRTITEYAREIWGVEPSDLQIPPPNI LGDVAEVRKSFNRHLHFTLVKDRNVATPRDYFFALAHTVRDHLVGRWIRTQQHYYERDPKRIYYLSLEFYMGRTLQNTMVNLGLQNACDEAIYQLGLDLEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKIVNGWQVEEADDWLRYGNPWEKARPEYMLPVHFYGRVEHTPDGVKWLDTQVVLAMPYDTPVPGYKNNTVNTMRLWSAKAPNDDFNVGDYIEAVLDRNLAENISRVLYPNDFEGKELRLKQEYFVVAATLQDIIRRFKSSKFGTCFETFPDKVAIQLNDTHPALSIPELMRILVDVEKVDWDKAWEITKKTCAYTNHTVLPEALERWPVSMFEKLLPRHLEIIYAINQRHLDHVAALFPGDVDRLRRMSVIEEGDCKRINMAHLCVIGSHAVNGVARIHSEIVKQSVFKDFYELEPEKFQNKTNGITPRRWLLLCNPGLADTIVEKIGEEFLTDLSQLKKLLPLVSDEVFIRDVAKVKQENKLKFSAFLEKEYKVKINPSSMFDVHVKRIHEYKRQLLNCLHVVTLYNRIKRDPAKAFVPRTVMIGGKAAPGYHMAKLIIKLVTSIGDVVNHDPVVGDRLKVIFLENYRVSLAEKVIPAADLSQQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGAENLFIFGLRVEDVEALDRKGYNAREYYDHLPELKQAVDQISSGFFSPKEPDCFKDIVNMLMHHDRFKVFADYEAYMQCQAQVDQLYRNPKEWTKKVIRNIACSGKFSSDRTITEYAREIWGVEPSDLQIPPPNI 5iko-a1-m2-cA_5iko-a1-m4-cA Crystal structure of human brain glycogen phosphorylase P11216 P11216 2.5 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 807 807 5iko-a1-m1-cA_5iko-a1-m3-cA LGDVAEVRKSFNRHLHFTLVKDRNVATPRDYFFALAHTVRDHLVGRWIRTQQHYYERDPKRIYYLSLEFYMGRTLQNTMVNLGLQNACDEAIYQLGLDLEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKIVNGWQVEEADDWLRYGNPWEKARPEYMLPVHFYGRVEHTPDGVKWLDTQVVLAMPYDTPVPGYKNNTVNTMRLWSAKAPNDDFNVGDYIEAVLDRNLAENISRVLYPNDFEGKELRLKQEYFVVAATLQDIIRRFKSSKFGTCFETFPDKVAIQLNDTHPALSIPELMRILVDVEKVDWDKAWEITKKTCAYTNHTVLPEALERWPVSMFEKLLPRHLEIIYAINQRHLDHVAALFPGDVDRLRRMSVIEEGDCKRINMAHLCVIGSHAVNGVARIHSEIVKQSVFKDFYELEPEKFQNKTNGITPRRWLLLCNPGLADTIVEKIGEEFLTDLSQLKKLLPLVSDEVFIRDVAKVKQENKLKFSAFLEKEYKVKINPSSMFDVHVKRIHEYKRQLLNCLHVVTLYNRIKRDPAKAFVPRTVMIGGKAAPGYHMAKLIIKLVTSIGDVVNHDPVVGDRLKVIFLENYRVSLAEKVIPAADLSQQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGAENLFIFGLRVEDVEALDRKGYNAREYYDHLPELKQAVDQISSGFFSPKEPDCFKDIVNMLMHHDRFKVFADYEAYMQCQAQVDQLYRNPKEWTKKVIRNIACSGKFSSDRTITEYAREIWGVEPSDLQIPPPNI LGDVAEVRKSFNRHLHFTLVKDRNVATPRDYFFALAHTVRDHLVGRWIRTQQHYYERDPKRIYYLSLEFYMGRTLQNTMVNLGLQNACDEAIYQLGLDLEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKIVNGWQVEEADDWLRYGNPWEKARPEYMLPVHFYGRVEHTPDGVKWLDTQVVLAMPYDTPVPGYKNNTVNTMRLWSAKAPNDDFNVGDYIEAVLDRNLAENISRVLYPNDFEGKELRLKQEYFVVAATLQDIIRRFKSSKFGTCFETFPDKVAIQLNDTHPALSIPELMRILVDVEKVDWDKAWEITKKTCAYTNHTVLPEALERWPVSMFEKLLPRHLEIIYAINQRHLDHVAALFPGDVDRLRRMSVIEEGDCKRINMAHLCVIGSHAVNGVARIHSEIVKQSVFKDFYELEPEKFQNKTNGITPRRWLLLCNPGLADTIVEKIGEEFLTDLSQLKKLLPLVSDEVFIRDVAKVKQENKLKFSAFLEKEYKVKINPSSMFDVHVKRIHEYKRQLLNCLHVVTLYNRIKRDPAKAFVPRTVMIGGKAAPGYHMAKLIIKLVTSIGDVVNHDPVVGDRLKVIFLENYRVSLAEKVIPAADLSQQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGAENLFIFGLRVEDVEALDRKGYNAREYYDHLPELKQAVDQISSGFFSPKEPDCFKDIVNMLMHHDRFKVFADYEAYMQCQAQVDQLYRNPKEWTKKVIRNIACSGKFSSDRTITEYAREIWGVEPSDLQIPPPNI 5iko-a1-m3-cA_5iko-a1-m4-cA Crystal structure of human brain glycogen phosphorylase P11216 P11216 2.5 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 807 807 5iko-a1-m1-cA_5iko-a1-m2-cA LGDVAEVRKSFNRHLHFTLVKDRNVATPRDYFFALAHTVRDHLVGRWIRTQQHYYERDPKRIYYLSLEFYMGRTLQNTMVNLGLQNACDEAIYQLGLDLEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKIVNGWQVEEADDWLRYGNPWEKARPEYMLPVHFYGRVEHTPDGVKWLDTQVVLAMPYDTPVPGYKNNTVNTMRLWSAKAPNDDFNVGDYIEAVLDRNLAENISRVLYPNDFEGKELRLKQEYFVVAATLQDIIRRFKSSKFGTCFETFPDKVAIQLNDTHPALSIPELMRILVDVEKVDWDKAWEITKKTCAYTNHTVLPEALERWPVSMFEKLLPRHLEIIYAINQRHLDHVAALFPGDVDRLRRMSVIEEGDCKRINMAHLCVIGSHAVNGVARIHSEIVKQSVFKDFYELEPEKFQNKTNGITPRRWLLLCNPGLADTIVEKIGEEFLTDLSQLKKLLPLVSDEVFIRDVAKVKQENKLKFSAFLEKEYKVKINPSSMFDVHVKRIHEYKRQLLNCLHVVTLYNRIKRDPAKAFVPRTVMIGGKAAPGYHMAKLIIKLVTSIGDVVNHDPVVGDRLKVIFLENYRVSLAEKVIPAADLSQQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGAENLFIFGLRVEDVEALDRKGYNAREYYDHLPELKQAVDQISSGFFSPKEPDCFKDIVNMLMHHDRFKVFADYEAYMQCQAQVDQLYRNPKEWTKKVIRNIACSGKFSSDRTITEYAREIWGVEPSDLQIPPPNI LGDVAEVRKSFNRHLHFTLVKDRNVATPRDYFFALAHTVRDHLVGRWIRTQQHYYERDPKRIYYLSLEFYMGRTLQNTMVNLGLQNACDEAIYQLGLDLEELEEIEEDAGLGNGGLGRLAACFLDSMATLGLAAYGYGIRYEFGIFNQKIVNGWQVEEADDWLRYGNPWEKARPEYMLPVHFYGRVEHTPDGVKWLDTQVVLAMPYDTPVPGYKNNTVNTMRLWSAKAPNDDFNVGDYIEAVLDRNLAENISRVLYPNDFEGKELRLKQEYFVVAATLQDIIRRFKSSKFGTCFETFPDKVAIQLNDTHPALSIPELMRILVDVEKVDWDKAWEITKKTCAYTNHTVLPEALERWPVSMFEKLLPRHLEIIYAINQRHLDHVAALFPGDVDRLRRMSVIEEGDCKRINMAHLCVIGSHAVNGVARIHSEIVKQSVFKDFYELEPEKFQNKTNGITPRRWLLLCNPGLADTIVEKIGEEFLTDLSQLKKLLPLVSDEVFIRDVAKVKQENKLKFSAFLEKEYKVKINPSSMFDVHVKRIHEYKRQLLNCLHVVTLYNRIKRDPAKAFVPRTVMIGGKAAPGYHMAKLIIKLVTSIGDVVNHDPVVGDRLKVIFLENYRVSLAEKVIPAADLSQQISTAGTEASGTGNMKFMLNGALTIGTMDGANVEMAEEAGAENLFIFGLRVEDVEALDRKGYNAREYYDHLPELKQAVDQISSGFFSPKEPDCFKDIVNMLMHHDRFKVFADYEAYMQCQAQVDQLYRNPKEWTKKVIRNIACSGKFSSDRTITEYAREIWGVEPSDLQIPPPNI 5ikx-a1-m1-cA_5ikx-a1-m1-cB Crystal structure of the alpha-esterase-7 carboxyl esterase (dimer), E3, from Lucilia cuprina Q25252 Q25252 2.19 X-RAY DIFFRACTION 24 1.0 7375 (Lucilia cuprina) 7375 (Lucilia cuprina) 569 569 NFNVSLMEKLKWKIKCIENKFLNYRLTTNETVVAETEYGKVKGVKRLTVYDDSYYSFEGIPYAQPPVGELRFKAPQRPTPWAGVRDCCNHKDKSVQVDFITGKVCGSEDCLYLSVYTNNLNPETKRPVLVYIHGGGFIIGENHRDMYGPDYFIKKDVVLINIQYRLGALGFLSLNSEDLNVPGNAGLKDQVMALRWIKNNCANFGGNPDNITVFGESAGAASTHYMMLTEQTRGLFHRGILMSGNAICPWANTQCQHRAFTLAKLAGYKGEDNDKDVLEFLMKAKPQDLIKLEEKVLTLEERTNKVMFPFGPTVEPYQTADCVLPKHPREMVKTAWGNSIPTMMGNTSYEGLFFTSILKQMPLLVKELETCVNFVPSELADAERTAPETLEMGAKIKKAHVTGETPTADNFMDLCSHFYFWFPMHRLLQLRFNHTSGTPVYLYRFDFDSEDLINPYRIMRSGRGVKGVSHTDELTYFFWNQLAKRMPKESREYKTIERMTGIWTQFATTGNPYSNEIEGMENVSWDPIEKSDEVYKCLNISDELKMIDVPEMGKIKQWESMFEKHRDLF NFNVSLMEKLKWKIKCIENKFLNYRLTTNETVVAETEYGKVKGVKRLTVYDDSYYSFEGIPYAQPPVGELRFKAPQRPTPWAGVRDCCNHKDKSVQVDFITGKVCGSEDCLYLSVYTNNLNPETKRPVLVYIHGGGFIIGENHRDMYGPDYFIKKDVVLINIQYRLGALGFLSLNSEDLNVPGNAGLKDQVMALRWIKNNCANFGGNPDNITVFGESAGAASTHYMMLTEQTRGLFHRGILMSGNAICPWANTQCQHRAFTLAKLAGYKGEDNDKDVLEFLMKAKPQDLIKLEEKVLTLEERTNKVMFPFGPTVEPYQTADCVLPKHPREMVKTAWGNSIPTMMGNTSYEGLFFTSILKQMPLLVKELETCVNFVPSELADAERTAPETLEMGAKIKKAHVTGETPTADNFMDLCSHFYFWFPMHRLLQLRFNHTSGTPVYLYRFDFDSEDLINPYRIMRSGRGVKGVSHTDELTYFFWNQLAKRMPKESREYKTIERMTGIWTQFATTGNPYSNEIEGMENVSWDPIEKSDEVYKCLNISDELKMIDVPEMGKIKQWESMFEKHRDLF 5il5-a2-m1-cB_5il5-a2-m3-cB Crystal structure of the dehydratase domain of MlnD from Bacillus amyloliquefaciens A7Z473 A7Z473 2.91 X-RAY DIFFRACTION 36 1.0 326423 (Bacillus velezensis FZB42) 326423 (Bacillus velezensis FZB42) 257 257 5il5-a1-m1-cA_5il5-a1-m2-cA NDLHPYISCNISDFKAQKFLINVSDTGLYIKTKYQDREMFPFLSQIEMARAAGAMASGNPIIKLTELSFREPMLQSGSNEQIRIVLTPDNQGASYSIEKQSDSSIYSSGRLELEGGAYENGNIHLEPFLSQRADRIPHEAFYQRLAEFGYSCSDSLKAAEHCVSRNGQVLLKIKAKAGPKGCIIKPEVIESVYQAVIYLAGENAGELPENIKECTIFDHETEPVYVYAEQTGSAYDVYVLDNAGGILMELSGLVFGE NDLHPYISCNISDFKAQKFLINVSDTGLYIKTKYQDREMFPFLSQIEMARAAGAMASGNPIIKLTELSFREPMLQSGSNEQIRIVLTPDNQGASYSIEKQSDSSIYSSGRLELEGGAYENGNIHLEPFLSQRADRIPHEAFYQRLAEFGYSCSDSLKAAEHCVSRNGQVLLKIKAKAGPKGCIIKPEVIESVYQAVIYLAGENAGELPENIKECTIFDHETEPVYVYAEQTGSAYDVYVLDNAGGILMELSGLVFGE 5il7-a1-m1-cA_5il7-a1-m1-cB Leucine rich repeat domain of the Chlorobium tepidum Roco protein Q8KC98 Q8KC98 2.3 X-RAY DIFFRACTION 104 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 440 440 SDLDVIRQIEQELGMQLEPVDKLKWYSKGYKLDKDQRVTAIGLYDCGSDTLDRIIQPLESLKSLSELSLSSNQITDISPLASLNSLSMLWLDRNQITDIAPLASLNSLSMLWLFGNKISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELSLSGNNISDIAPLESLKSLTELSLSSNQITDIAPLASLKSLTELSLSSNQISDIAPLESLKSLTELQLSRNQISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELQLSRNQISDIAPLESLNSLSKLWLNGNQITDIAPLASLNSLTELELSSNQITDIAPLASLKSLSTLWLSSNQISDIAPLASLESLSELSLSSNQISDISPLASLNSLTGFDVRRNPIKRLPETITGFDMEILWNDFSSSGFITFFDNPLESPPPEIVKQGKEAVRQYFQSIEEAR SDLDVIRQIEQELGMQLEPVDKLKWYSKGYKLDKDQRVTAIGLYDCGSDTLDRIIQPLESLKSLSELSLSSNQITDISPLASLNSLSMLWLDRNQITDIAPLASLNSLSMLWLFGNKISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELSLSGNNISDIAPLESLKSLTELSLSSNQITDIAPLASLKSLTELSLSSNQISDIAPLESLKSLTELQLSRNQISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELQLSRNQISDIAPLESLNSLSKLWLNGNQITDIAPLASLNSLTELELSSNQITDIAPLASLKSLSTLWLSSNQISDIAPLASLESLSELSLSSNQISDISPLASLNSLTGFDVRRNPIKRLPETITGFDMEILWNDFSSSGFITFFDNPLESPPPEIVKQGKEAVRQYFQSIEEAR 5ilg-a1-m1-cB_5ilg-a1-m1-cA Crystal structure of photoreceptor dehydrogenase from Drosophila melanogaster Q9VV42 Q9VV42 2.4 X-RAY DIFFRACTION 164 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 258 265 5ilo-a1-m1-cA_5ilo-a1-m1-cB SFRGKNAVVTGGAGGIGLQVSKQLLAAGAAKVAIIDLQDNLEEFVKLRAAHPTQSVMIIKMDVANKKGVEATYEEIAKTFGNIDIVVNVAGIFNDKDVQRTLLVNLGGIINSTLSALPYMGKDNGGKGGIVVNMSSVVGLDPMFIIPVYGATKAGIINFTRCLANEKYYQRSGIKFVTVCPGATMTDMFTNFTEKIIFPETSDETYRILDRLNKQSAADVSRCILNVLEKDKNGAVYVIEGKRVYPLEIKPQWTGKEQ HHVGTSFRGKNAVVTGGAGGIGLQVSKQLLAAGAAKVAIIDLQDNLEEFVKLRAAHPTQSVMIIKMDVANKKGVEATYEEIAKTFGNIDIVVNVAGIFNDKDVQRTLLVNLGGIINSTLSALPYMGKDNGGKGGIVVNMSSVVGLDPMFIIPVYGATKAGIINFTRCLANEKYYQRSGIKFVTVCPGATMTDMFTNFTEKIIFPETSDETYRILDRLNKQSAADVSRCILNVLEKDKNGAVYVIEGKRVYPLEIKPQWTGKEQAL 5ilv-a2-m1-cA_5ilv-a2-m2-cA Uninhibited ETV5 P41161 P41161 1.8 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 GSLQLWQFLVTLLDDPANAHFIAWTGRGMEFKLIEPEEVARRWGIQKNRPAMNYDKLSRSLRYYYEKGIMQKVAGERYVYKFVCDPDALFSM GSLQLWQFLVTLLDDPANAHFIAWTGRGMEFKLIEPEEVARRWGIQKNRPAMNYDKLSRSLRYYYEKGIMQKVAGERYVYKFVCDPDALFSM 5im3-a1-m2-cB_5im3-a1-m1-cA Crystal structure of the class I ribonucleotide reductase from Pseudomonas aeruginosa in complex with dATP Q9I4I1 Q9I4I1 2.298 X-RAY DIFFRACTION 75 0.998 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 860 874 5im3-a1-m1-cB_5im3-a1-m2-cA GQLRVIKRNGTVVPYTDDKITVAITKAFLAVEAAASSRIHDTVRRLTEQVTATFKRRMPSGGTIHIEEIQDQVELALMRAGEQKVARDYVIYREARAAERKNASIRITRADGSLSPLDMGRLNTIISEACEGLAEVDGALIERETLKNLYDGVAEKDVNTALVMTARTLVEREPNYSYVTARLLMDTLRAEALGFLGVAESATHHEMAELYAKALPAYIEKGAEFELVDAKLKEFDLEKLGKAIDHERDQQFTYLGLQTLYDRYFIHKDGIRFELPQIFFMRVAMGLAIEEKDREARAIEFYNLLSSFDYMSSTPTLFNAGTLRPQLSSCYLTTVPDDLSGIYGAIHDNAMLSKFAGGLGNDWTPVRALGSYIKGTNGKSQGVVPFLKVVNDTAVAVNAVCAYLETWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVFDDGSWTLFSPSDVPDLHDLYGKAFEERYEYYEALASYGKLKLHKVVQAKDLWRKMLSMLFETGHPWLTFKDPCNLRSPQQHVGVVHSSNLCTEITLNTNKDEIAVCNLGSINLVNHIVDGKLDTAKLEKTVKTAVRMLDNVIDINYYSVPQAQNSNFKHRPVGLGIMGFQDALYLQHIPYGSDAAIAFADQSMEAISYYAIQASCDLADERGAYQTFQGSLWSQGILPIDSEKKLIEERGAKYIEVDLSETLDWAPLRERVQKGIRNSNIMAIAPTATIANITGVSQSIEPTYQNLYVKSNLSGEFTVINPYLVRDLKARGLWDPVMVNDLKYYDGSVQQIERIPQDLKDLYATAFEVETRWIVEAASRRQKWIDQAQSLNLYIAGASGKKLDVTYRMAWFRGLKTTYYLRALA LRVIKRNGTVVPYTDDKITVAITKAFLAVEGGTAAASSRIHDTVRRLTEQVTATFKRRMPSGGTIHIEEIQDQVELALMRAGEQKVARDYVIYREARAAERKNAGAASDVAQPHPSIRITRADGSLSPLDMGRLNTIISEACEGLAEVDGALIERETLKNLYDGVAEKDVNTALVMTARTLVEREPNYSYVTARLLMDTLRAEALGFLGVAESATHHEMAELYAKALPAYIEKGAEFELVDAKLKEFDLEKLGKAIDHERDQQFTYLGLQTLYDRYFIHKDGIRFELPQIFFMRVAMGLAIEEKDREARAIEFYNLLSSFDYMSSTPTLFNAGTLRPQLSSCYLTTVPDDLSGIYGAIHDNAMLSKFAGGLGNDWTPVRALGSYIKGTNGKSQGVVPFLKVVNDTAVAVNAVCAYLETWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVFDDGSWTLFSPSDVPDLHDLYGKAFEERYEYYEALASYGKLKLHKVVQAKDLWRKMLSMLFETGHPWLTFKDPCNLRSPQQHVGVVHSSNLCTEITLNTNKDEIAVCNLGSINLVNHIVDGKLDTAKLEKTVKTAVRMLDNVIDINYYSVPQAQNSNFKHRPVGLGIMGFQDALYLQHIPYGSDAAIAFADQSMEAISYYAIQASCDLADERGAYQTFQGSLWSQGILPIDSEKKLIEERGAKYIEVDLSETLDWAPLRERVQKGIRNSNIMAIAPTATIANITGVSQSIEPTYQNLYVKSNLSGEFTVINPYLVRDLKARGLWDPVMVNDLKYYDGSVQQIERIPQDLKDLYATAFEVETRWIVEAASRRQKWIDQAQSLNLYIAGASGKKLDVTYRMAWFRGLKTTYYLRALAAT 5im3-a1-m2-cB_5im3-a1-m2-cA Crystal structure of the class I ribonucleotide reductase from Pseudomonas aeruginosa in complex with dATP Q9I4I1 Q9I4I1 2.298 X-RAY DIFFRACTION 70 0.998 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 860 874 5im3-a1-m1-cB_5im3-a1-m1-cA GQLRVIKRNGTVVPYTDDKITVAITKAFLAVEAAASSRIHDTVRRLTEQVTATFKRRMPSGGTIHIEEIQDQVELALMRAGEQKVARDYVIYREARAAERKNASIRITRADGSLSPLDMGRLNTIISEACEGLAEVDGALIERETLKNLYDGVAEKDVNTALVMTARTLVEREPNYSYVTARLLMDTLRAEALGFLGVAESATHHEMAELYAKALPAYIEKGAEFELVDAKLKEFDLEKLGKAIDHERDQQFTYLGLQTLYDRYFIHKDGIRFELPQIFFMRVAMGLAIEEKDREARAIEFYNLLSSFDYMSSTPTLFNAGTLRPQLSSCYLTTVPDDLSGIYGAIHDNAMLSKFAGGLGNDWTPVRALGSYIKGTNGKSQGVVPFLKVVNDTAVAVNAVCAYLETWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVFDDGSWTLFSPSDVPDLHDLYGKAFEERYEYYEALASYGKLKLHKVVQAKDLWRKMLSMLFETGHPWLTFKDPCNLRSPQQHVGVVHSSNLCTEITLNTNKDEIAVCNLGSINLVNHIVDGKLDTAKLEKTVKTAVRMLDNVIDINYYSVPQAQNSNFKHRPVGLGIMGFQDALYLQHIPYGSDAAIAFADQSMEAISYYAIQASCDLADERGAYQTFQGSLWSQGILPIDSEKKLIEERGAKYIEVDLSETLDWAPLRERVQKGIRNSNIMAIAPTATIANITGVSQSIEPTYQNLYVKSNLSGEFTVINPYLVRDLKARGLWDPVMVNDLKYYDGSVQQIERIPQDLKDLYATAFEVETRWIVEAASRRQKWIDQAQSLNLYIAGASGKKLDVTYRMAWFRGLKTTYYLRALA LRVIKRNGTVVPYTDDKITVAITKAFLAVEGGTAAASSRIHDTVRRLTEQVTATFKRRMPSGGTIHIEEIQDQVELALMRAGEQKVARDYVIYREARAAERKNAGAASDVAQPHPSIRITRADGSLSPLDMGRLNTIISEACEGLAEVDGALIERETLKNLYDGVAEKDVNTALVMTARTLVEREPNYSYVTARLLMDTLRAEALGFLGVAESATHHEMAELYAKALPAYIEKGAEFELVDAKLKEFDLEKLGKAIDHERDQQFTYLGLQTLYDRYFIHKDGIRFELPQIFFMRVAMGLAIEEKDREARAIEFYNLLSSFDYMSSTPTLFNAGTLRPQLSSCYLTTVPDDLSGIYGAIHDNAMLSKFAGGLGNDWTPVRALGSYIKGTNGKSQGVVPFLKVVNDTAVAVNAVCAYLETWHLDIEEFLELRKNTGDDRRRTHDMNTANWIPDLFMKRVFDDGSWTLFSPSDVPDLHDLYGKAFEERYEYYEALASYGKLKLHKVVQAKDLWRKMLSMLFETGHPWLTFKDPCNLRSPQQHVGVVHSSNLCTEITLNTNKDEIAVCNLGSINLVNHIVDGKLDTAKLEKTVKTAVRMLDNVIDINYYSVPQAQNSNFKHRPVGLGIMGFQDALYLQHIPYGSDAAIAFADQSMEAISYYAIQASCDLADERGAYQTFQGSLWSQGILPIDSEKKLIEERGAKYIEVDLSETLDWAPLRERVQKGIRNSNIMAIAPTATIANITGVSQSIEPTYQNLYVKSNLSGEFTVINPYLVRDLKARGLWDPVMVNDLKYYDGSVQQIERIPQDLKDLYATAFEVETRWIVEAASRRQKWIDQAQSLNLYIAGASGKKLDVTYRMAWFRGLKTTYYLRALAAT 5im4-a1-m2-cT_5im4-a1-m3-cn Crystal structure of designed two-component self-assembling icosahedral cage I52-32 Q8RD55 Q8RD55 3.5 X-RAY DIFFRACTION 152 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 131 131 3lfh-a1-m1-cA_3lfh-a1-m1-cB 3lfh-a2-m1-cD_3lfh-a2-m1-cC 3lfh-a3-m1-cF_3lfh-a3-m1-cE 5im4-a1-m1-ca_5im4-a1-m3-cm 5im4-a1-m1-cb_5im4-a1-m2-cc 5im4-a1-m1-cc_5im4-a1-m3-cb 5im4-a1-m1-cd_5im4-a1-m2-cl 5im4-a1-m1-cF_5im4-a1-m1-cS 5im4-a1-m1-cG_5im4-a1-m3-cH 5im4-a1-m1-cH_5im4-a1-m2-cG 5im4-a1-m1-cI_5im4-a1-m2-cR 5im4-a1-m1-cJ_5im4-a1-m2-cj 5im4-a1-m1-cj_5im4-a1-m3-cJ 5im4-a1-m1-cl_5im4-a1-m3-cd 5im4-a1-m1-cm_5im4-a1-m2-ca 5im4-a1-m1-cn_5im4-a1-m3-cT 5im4-a1-m1-cP_5im4-a1-m3-cZ 5im4-a1-m1-cQ_5im4-a1-m1-ck 5im4-a1-m1-cR_5im4-a1-m3-cI 5im4-a1-m1-cT_5im4-a1-m2-cn 5im4-a1-m1-cZ_5im4-a1-m2-cP 5im4-a1-m2-cb_5im4-a1-m3-cc 5im4-a1-m2-cd_5im4-a1-m3-cl 5im4-a1-m2-cF_5im4-a1-m2-cS 5im4-a1-m2-cH_5im4-a1-m3-cG 5im4-a1-m2-cI_5im4-a1-m3-cR 5im4-a1-m2-cJ_5im4-a1-m3-cj 5im4-a1-m2-cm_5im4-a1-m3-ca 5im4-a1-m2-cQ_5im4-a1-m2-ck 5im4-a1-m2-cZ_5im4-a1-m3-cP 5im4-a1-m3-cF_5im4-a1-m3-cS 5im4-a1-m3-cQ_5im4-a1-m3-ck MKEKFVLIITHGDFGKGLLSGAEVIIGKQENVHTVGLNLGDNIEKVAKEVMRIIIAKLAEDKEIIIVVDLFGGSPFNIALEMMKTFDVKVITGINMPMLVELLTSINVYDTTELLENISKIGKDGIKVIEK MKEKFVLIITHGDFGKGLLSGAEVIIGKQENVHTVGLNLGDNIEKVAKEVMRIIIAKLAEDKEIIIVVDLFGGSPFNIALEMMKTFDVKVITGINMPMLVELLTSINVYDTTELLENISKIGKDGIKVIEK 5im6-a1-m3-cS_5im6-a1-m3-cT Crystal structure of designed two-component self-assembling icosahedral cage I32-28 Q2SZ09 Q2SZ09 5.588 X-RAY DIFFRACTION 57 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 152 152 2zhy-a1-m1-cA_2zhy-a1-m1-cB 2zhy-a1-m1-cC_2zhy-a1-m1-cB 2zhz-a1-m1-cA_2zhz-a1-m1-cB 2zhz-a1-m1-cA_2zhz-a1-m1-cC 2zhz-a1-m1-cC_2zhz-a1-m1-cB 5im6-a1-m1-cA_5im6-a1-m1-cB 5im6-a1-m1-cA_5im6-a1-m1-cC 5im6-a1-m1-cB_5im6-a1-m1-cC 5im6-a1-m1-cD_5im6-a1-m1-cE 5im6-a1-m1-cD_5im6-a1-m1-cF 5im6-a1-m1-cE_5im6-a1-m1-cF 5im6-a1-m1-cG_5im6-a1-m3-cI 5im6-a1-m1-cG_5im6-a1-m3-cJ 5im6-a1-m1-cH_5im6-a1-m2-cH 5im6-a1-m1-cH_5im6-a1-m3-cH 5im6-a1-m1-cI_5im6-a1-m1-cJ 5im6-a1-m1-cI_5im6-a1-m2-cG 5im6-a1-m1-cJ_5im6-a1-m2-cG 5im6-a1-m1-cK_5im6-a1-m1-cL 5im6-a1-m1-cK_5im6-a1-m1-cM 5im6-a1-m1-cL_5im6-a1-m1-cM 5im6-a1-m1-cN_5im6-a1-m1-cO 5im6-a1-m1-cN_5im6-a1-m1-cP 5im6-a1-m1-cO_5im6-a1-m1-cP 5im6-a1-m1-cQ_5im6-a1-m2-cS 5im6-a1-m1-cQ_5im6-a1-m2-cT 5im6-a1-m1-cR_5im6-a1-m2-cR 5im6-a1-m1-cR_5im6-a1-m3-cR 5im6-a1-m1-cS_5im6-a1-m1-cT 5im6-a1-m1-cS_5im6-a1-m3-cQ 5im6-a1-m1-cT_5im6-a1-m3-cQ 5im6-a1-m2-cA_5im6-a1-m2-cB 5im6-a1-m2-cA_5im6-a1-m2-cC 5im6-a1-m2-cB_5im6-a1-m2-cC 5im6-a1-m2-cD_5im6-a1-m2-cE 5im6-a1-m2-cD_5im6-a1-m2-cF 5im6-a1-m2-cE_5im6-a1-m2-cF 5im6-a1-m2-cH_5im6-a1-m3-cH 5im6-a1-m2-cI_5im6-a1-m2-cJ 5im6-a1-m2-cI_5im6-a1-m3-cG 5im6-a1-m2-cJ_5im6-a1-m3-cG 5im6-a1-m2-cK_5im6-a1-m2-cL 5im6-a1-m2-cK_5im6-a1-m2-cM 5im6-a1-m2-cL_5im6-a1-m2-cM 5im6-a1-m2-cN_5im6-a1-m2-cO 5im6-a1-m2-cN_5im6-a1-m2-cP 5im6-a1-m2-cO_5im6-a1-m2-cP 5im6-a1-m2-cQ_5im6-a1-m3-cS 5im6-a1-m2-cQ_5im6-a1-m3-cT 5im6-a1-m2-cR_5im6-a1-m3-cR 5im6-a1-m2-cS_5im6-a1-m2-cT 5im6-a1-m3-cA_5im6-a1-m3-cB 5im6-a1-m3-cA_5im6-a1-m3-cC 5im6-a1-m3-cB_5im6-a1-m3-cC 5im6-a1-m3-cD_5im6-a1-m3-cE 5im6-a1-m3-cD_5im6-a1-m3-cF 5im6-a1-m3-cE_5im6-a1-m3-cF 5im6-a1-m3-cI_5im6-a1-m3-cJ 5im6-a1-m3-cK_5im6-a1-m3-cL 5im6-a1-m3-cK_5im6-a1-m3-cM 5im6-a1-m3-cL_5im6-a1-m3-cM 5im6-a1-m3-cN_5im6-a1-m3-cO 5im6-a1-m3-cN_5im6-a1-m3-cP 5im6-a1-m3-cO_5im6-a1-m3-cP MGDDARIAAIGDVDELNSQIGVLLAEPLPDDVRAALSAIQHDLFDLGGELCIPGHAAITEDHLLRLALWLVHYNGQLPPLEEFILPGGARGAALAHVCRTVCRRAERSIKALGASEPLNIAPAAYVNLLSDLLFVLARVLNRAAGGADVLWD MGDDARIAAIGDVDELNSQIGVLLAEPLPDDVRAALSAIQHDLFDLGGELCIPGHAAITEDHLLRLALWLVHYNGQLPPLEEFILPGGARGAALAHVCRTVCRRAERSIKALGASEPLNIAPAAYVNLLSDLLFVLARVLNRAAGGADVLWD 5im6-a1-m3-cg_5im6-a1-m3-ci Crystal structure of designed two-component self-assembling icosahedral cage I32-28 Q9RSW5 Q9RSW5 5.588 X-RAY DIFFRACTION 89 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 148 148 3nqn-a1-m1-cB_3nqn-a1-m1-cA 5im6-a1-m1-cb_5im6-a1-m3-cc 5im6-a1-m1-cc_5im6-a1-m2-cb 5im6-a1-m1-ce_5im6-a1-m2-cU 5im6-a1-m1-cf_5im6-a1-m1-cn 5im6-a1-m1-cg_5im6-a1-m1-ci 5im6-a1-m1-ch_5im6-a1-m3-cX 5im6-a1-m1-cj_5im6-a1-m1-ck 5im6-a1-m1-cl_5im6-a1-m2-cm 5im6-a1-m1-cm_5im6-a1-m3-cl 5im6-a1-m1-cU_5im6-a1-m3-ce 5im6-a1-m1-cV_5im6-a1-m1-cd 5im6-a1-m1-cW_5im6-a1-m1-cY 5im6-a1-m1-cX_5im6-a1-m2-ch 5im6-a1-m1-cZ_5im6-a1-m1-ca 5im6-a1-m2-cc_5im6-a1-m3-cb 5im6-a1-m2-ce_5im6-a1-m3-cU 5im6-a1-m2-cf_5im6-a1-m2-cn 5im6-a1-m2-cg_5im6-a1-m2-ci 5im6-a1-m2-cj_5im6-a1-m2-ck 5im6-a1-m2-cl_5im6-a1-m3-cm 5im6-a1-m2-cV_5im6-a1-m2-cd 5im6-a1-m2-cW_5im6-a1-m2-cY 5im6-a1-m2-cX_5im6-a1-m3-ch 5im6-a1-m2-cZ_5im6-a1-m2-ca 5im6-a1-m3-cf_5im6-a1-m3-cn 5im6-a1-m3-cj_5im6-a1-m3-ck 5im6-a1-m3-cV_5im6-a1-m3-cd 5im6-a1-m3-cW_5im6-a1-m3-cY 5im6-a1-m3-cZ_5im6-a1-m3-ca LSAEQSFTLRHPHGQAAALAFVREPAAALAGVQRLRGLDSDGEQVWGELLVRVPLLGEVDLPFRSEIVRTPQGAELRPLTLTGERAWVAVSGQATAAEGGEMAFAFQFQAHLATGAAFEVMVQAAAGVTLLLVAMALPQGLAAGLPPA LSAEQSFTLRHPHGQAAALAFVREPAAALAGVQRLRGLDSDGEQVWGELLVRVPLLGEVDLPFRSEIVRTPQGAELRPLTLTGERAWVAVSGQATAAEGGEMAFAFQFQAHLATGAAFEVMVQAAAGVTLLLVAMALPQGLAAGLPPA 5imt-a1-m1-cA_5imt-a1-m2-cA Toxin receptor complex Q9LCB8 Q9LCB8 2.7001 X-RAY DIFFRACTION 88 1.0 1338 (Streptococcus intermedius) 1338 (Streptococcus intermedius) 460 460 NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKILKNTKICAVVLGGNPGEASKVCTGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDAEGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVV NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVIEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKGEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKILKNTKICAVVLGGNPGEASKVCTGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDAEGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVV 5imy-a1-m1-cB_5imy-a1-m1-cA Trapped Toxin B2YGA4 B2YGA4 2.4 X-RAY DIFFRACTION 72 1.0 2702 (Gardnerella vaginalis) 2702 (Gardnerella vaginalis) 472 474 CAAKKDSLNNYLWDLQYDKTNILARHGETIENKFSSDSFNKNGEFVVVEHQKKNITNTTSNLSVTSANDDRVYPGALFRADKNLMDNMPSLISANRAPITLSVDLPGFHGGESAVTVQRPTKSSVTSAVNGLVSKWNAQYGASHHVAARMQYDSASAQSMNQLKAKFGADFAKIGVPLKIDFDAVHKGEKQTQIVNFKQTYYTVSVDAPDSPADFFAPCTTPDSLKNRGVDNKRPPVYVSNVAYGRSMYVKFDTTSKSTDFQAAVEAAIKGVEIKPNTEFHRILQNTSVCAVILGGSANGAAKVCTGNIDTLKALIQEGANLSTSSPAVPIAYTTSFVKDNEVATLQSNSDYIETKVSSYRNGYLTLDHRGAYVARYYIYWDEYGTEIDGTPYVRSRAWEGNGKYRTAHFNTTIQFKGNVRNLRIKLVEKTGLVWEPWRTVYDRSDLPLVRQRTISNWGTTLWPRVAETVKN TSCAAKKDSLNNYLWDLQYDKTNILARHGETIENKFSSDSFNKNGEFVVVEHQKKNITNTTSNLSVTSANDDRVYPGALFRADKNLMDNMPSLISANRAPITLSVDLPGFHGGESAVTVQRPTKSSVTSAVNGLVSKWNAQYGASHHVAARMQYDSASAQSMNQLKAKFGADFAKIGVPLKIDFDAVHKGEKQTQIVNFKQTYYTVSVDAPDSPADFFAPCTTPDSLKNRGVDNKRPPVYVSNVAYGRSMYVKFDTTSKSTDFQAAVEAAIKGVEIKPNTEFHRILQNTSVCAVILGGSANGAAKVCTGNIDTLKALIQEGANLSTSSPAVPIAYTTSFVKDNEVATLQSNSDYIETKVSSYRNGYLTLDHRGAYVARYYIYWDEYGTEIDGTPYVRSRAWEGNGKYRTAHFNTTIQFKGNVRNLRIKLVEKTGLVWEPWRTVYDRSDLPLVRQRTISNWGTTLWPRVAETVKN 5in1-a1-m1-cA_5in1-a1-m1-cB Crystal Structure of the MRG701 chromodomain Q2R2X7 Q2R2X7 1.4 X-RAY DIFFRACTION 17 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 71 71 SFKEGERVLAYHGPLLYEAKVQKSENKEDEWRYHVHYLGWSKSWDEWVTNDRLLKLTDENIRKQQELEKSQ SFKEGERVLAYHGPLLYEAKVQKSENKEDEWRYHVHYLGWSKSWDEWVTNDRLLKLTDENIRKQQELEKSQ 5in2-a1-m1-cA_5in2-a1-m2-cA Crystal structure of extra cellular Cu/Zn Superoxide Dismutase from Onchocerca volvulus at 1.5 Angstrom; Insight into novel binding site and new inhibitors Q07449 Q07449 1.55 X-RAY DIFFRACTION 69 1.0 6282 (Onchocerca volvulus) 6282 (Onchocerca volvulus) 156 156 ARRAVAVLRGDAGVSGIIYFQQGSGGSITTISGSVSGLTPGLHGFHVHQYGDQTNGCTSAGDHYNPFGKTHGGPNDRIKHIGDLGNIVAGANGVAEVYINSYDIKLRGPLSVIGHSLVVHANTDDLGQGTGNMREESLKTGNAGSRLACGVIGIAA ARRAVAVLRGDAGVSGIIYFQQGSGGSITTISGSVSGLTPGLHGFHVHQYGDQTNGCTSAGDHYNPFGKTHGGPNDRIKHIGDLGNIVAGANGVAEVYINSYDIKLRGPLSVIGHSLVVHANTDDLGQGTGNMREESLKTGNAGSRLACGVIGIAA 5inz-a1-m1-cA_5inz-a1-m1-cB Racemic structure of baboon theta defensin-2 1.447 X-RAY DIFFRACTION 34 1.0 9555 (Papio anubis) 9555 (Papio anubis) 18 18 GVCRCVCRRGVCRCVCRR GVCRCVCRRGVCRCVCRR 5inz-a1-m1-cA_5inz-a1-m1-cC Racemic structure of baboon theta defensin-2 1.447 X-RAY DIFFRACTION 34 1.0 9555 (Papio anubis) 9555 (Papio anubis) 18 18 GVCRCVCRRGVCRCVCRR GVCRCVCRRGVCRCVCRR 5iob-a2-m1-cD_5iob-a2-m1-cC Crystal structure of beta-N-acetylglucosaminidase-like protein from Corynebacterium glutamicum Q8NLT5 Q8NLT5 2.252 X-RAY DIFFRACTION 72 0.994 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 308 313 5iob-a1-m1-cB_5iob-a1-m1-cA 5iob-a3-m1-cE_5iob-a3-m1-cF 5iob-a4-m1-cH_5iob-a4-m1-cG STPPAPTAEDLARAQIPEQQRDQVASLVGVANYDQALDALNQGVGGIFIGSWTDENLLTEPGRNIEALREAVGRDFSVSIDFEGGRVQRATNILGDFPSPRVAQTTPEQVEDLAEILGTGLAAHGVTVNFAPVVDVDAWGLPFSNDPAVAATYATAFAKGLSKVGITPVFKHFPGHGTPALDELKTYDLIPYGQALSETDGAVVGHIVPGLGTDGVPSSIDPATYQLLRSGDYPGGVPFDGVIYTDDLSGHSPAEAVLASLKAGADQALWIDYGSLGSAIDRVDAAVSSGEYPQEQLASALRVQLLYI TPPAPTAEDLARAQIPEQQRDQVASLVGVANYDQALDALNQGVGGIFIGSWTDENLLTEPGRNIEALREAVGRDFSVSIDFEGGRVQRATNILGDFPSPRVAQTTPEQVEDLAEILGTGLAAHGVTVNFAPVVDVDAWGLPVFSNDPAVAATYATAFAKGLSKVGITPVFKHFPGHTPALDELKTYDLIPYGQALSETDGAVVGHIVPGLGTDGVPSSIDPATYQLLRSGDYPGGVPFDGVIYTDDLSGSAISATHSPAEAVLASLKAGADQALWIDYGSLGSAIDRVDAAVSSGEYPQEQLASALRVQLLYI 5ioj-a1-m1-cA_5ioj-a1-m1-cB Crystal structure of the Sphingobium sp. TCM1 phosphotriesterase without the binuclear manganese center A0A077JBW9 A0A077JBW9 1.76 X-RAY DIFFRACTION 140 1.0 453246 (Sphingobium sp. TCM1) 453246 (Sphingobium sp. TCM1) 494 495 5hrm-a1-m1-cA_5hrm-a1-m1-cB 5hrm-a2-m1-cC_5hrm-a2-m1-cD QVVIGPGDRPETGLQGQTTIEDVVSGRSKLPYHAGVRLVGRTDIWNRGGNLQLSWVDQCAYVSTFKQAGPITANSRSALFLREPAGVAVIDVRDPRAPKPVRLLRDRGSIDAVETMHAIAAPGRKVLVAGAYSGGIAGRGEEDAAWLSIYDASNCLNPKLQSEFKWPANIHMVTISPNGRRVYGTEVVPGLGSGKGGLHVLDISDMKRPRYLGRFGVTRPNGLTAGFTPHEVSISHDERRIYAAVLASETGDVPVGASILASDGDVPVENGSVYILDNSDIVDGRSQPKMRLVGEAKQGGFHSVVPASINGVPHLVGAAELGACPGTWPRIINIADEKNPKIVGEFKLQMNIKENCDAIRFTPRKEDPYASFIPIPDITARLGAVGSHFNDVDDARNTRLGLFPFFAGGVRIVDLRDPTKPVEVGYYKPGANPDTPLSGNGLNWTGLNDQVTDGCMSHVRYVPESGHIWFACVTTGFHVVELNPDLRARLGFPT QVVIGPGDRPETGLQGQTTIEDVVSGRSKLPYHAGVRLVGRTDIWNRGGNLQLSWVDQCAYVSTFKQAGPITANSRSALFLREPAGVAVIDVRDPRAPKPVRLLRDRGSIDAVETMHAIAAPGRKVLVAGAYSGGIAGRGEEDAAWLSIYDASNCLNPKLQSEFKWPANIHMVTISPNGRRVYGTEVVPGLGSGKGGLHVLDISDMKRPRYLGRFGVTRPNGLTAGFTPHEVSISHDERRIYAAVLASETGDVPVGASILASDGDVPVENGSVYILDNSDIVDGRSQPKMRLVGEAKQGGFHSVVPASINGVPHLVGAAELGACPGTWPRIINIADEKNPKIVGEFKLQMNIKENCDAIRFTPRKEDPYASFIPIPDITARLGAVGSHFNDVDDARNTRLGLFPFFAGGVRIVDLRDPTKPVEVGYYKPGANPDTPLSGNGLNWTGLNDQVTDGCMSHVRYVPESGHIWFACVTTGFHVVELNPDLRARLGFPTV 5ip0-a3-m1-cJ_5ip0-a3-m1-cL PHA Binding Protein PhaP (Phasin) O32470 O32470 3 X-RAY DIFFRACTION 95 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 88 108 5ip0-a1-m1-cB_5ip0-a1-m1-cD 5ip0-a2-m1-cF_5ip0-a2-m1-cH 5ip0-a4-m1-cN_5ip0-a4-m1-cP FTEQMQGFAAPLTRYNQLLASNIEQLTRLQLASANAYAELGLNTQSLAALGTVQLETASQLSRQMLDDIQKLSALGQQFKEELDVLTA MDVIKSFTEQMQGFAAPLTRYNQLLASNIEQLTRLQLASANAYAELGLNQLQAVSKVQDTQSLAALGTVQLETASQLSRQMLDDIQKLSALGQQFKEELDVLTADGIK 5ip0-a4-m1-cM_5ip0-a4-m1-cP PHA Binding Protein PhaP (Phasin) O32470 O32470 3 X-RAY DIFFRACTION 64 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 107 108 5ip0-a1-m1-cA_5ip0-a1-m1-cD 5ip0-a2-m1-cE_5ip0-a2-m1-cH 5ip0-a3-m1-cI_5ip0-a3-m1-cL MDVIKSFTEQMQGFAAPLTRYNQLLASNIEQLTRLQLASANAYAELGLNQLQAVSKVQDTQSLAALGTVQLETASQLSRQMLDDIQKLSALGQQFKEELDVLTADGI MDVIKSFTEQMQGFAAPLTRYNQLLASNIEQLTRLQLASANAYAELGLNQLQAVSKVQDTQSLAALGTVQLETASQLSRQMLDDIQKLSALGQQFKEELDVLTADGIK 5ip0-a4-m1-cN_5ip0-a4-m1-cM PHA Binding Protein PhaP (Phasin) O32470 O32470 3 X-RAY DIFFRACTION 56 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 88 107 5ip0-a1-m1-cB_5ip0-a1-m1-cA 5ip0-a2-m1-cF_5ip0-a2-m1-cE 5ip0-a3-m1-cJ_5ip0-a3-m1-cI FTEQMQGFAAPLTRYNQLLASNIEQLTRLQLASANAYAELGLNTQSLAALGTVQLETASQLSRQMLDDIQKLSALGQQFKEELDVLTA MDVIKSFTEQMQGFAAPLTRYNQLLASNIEQLTRLQLASANAYAELGLNQLQAVSKVQDTQSLAALGTVQLETASQLSRQMLDDIQKLSALGQQFKEELDVLTADGI 5ip1-a1-m1-cA_5ip1-a1-m1-cC Tomato spotted wilt tospovirus nucleocapsid protein F4ZD19 F4ZD19 2.703 X-RAY DIFFRACTION 90 1.0 238 249 5ip2-a1-m1-cA_5ip2-a1-m1-cC SKVKLTKENIVALLTQGKDLEFEENQNLVAFNFKTFCLENLDQIKKSIISCLTFLKNRQSIKVIKQSDFTFGKITIKKTSDRIGATDTFRRLDSLIRVRLVEETGNSENLNTIKSKIASHPLIQAYGLPLDDAKSVRLAILGGSLPLIASVDSFEISVVLAIYQDAKYKDLGIDPKKYDTKEALGKVCTVLKSKAFENEDQVKKGKEYAAILSSSNPNAKGSVAEHYSETLNKFYEFG SKVKLTKENIVALLTQGKDLEFEENQNLVAFNFKTFCLENLDQIKKSIISCLTFLKNRQSIKVIKQSDFTFGKITIKKTSDRIGATDTFRRLDSLIRVRLVEETGNSENLNTIKSKIASHPLIQAYGLPLDDAKSVRLAILGGSLPLIASVDSFEISVVLAIYQDAKYKDLGIDPKKYDTKEALGKVCTVLKSKAFENEDQVKKGKEYAAILSSSNPNAKGSVAEHYSETLNKFYEFGVKKQAKLAELA 5ip1-a1-m1-cB_5ip1-a1-m1-cC Tomato spotted wilt tospovirus nucleocapsid protein F4ZD19 F4ZD19 2.703 X-RAY DIFFRACTION 109 1.0 249 249 SKVKLTKENIVALLTQGKDLEFEENQNLVAFNFKTFCLENLDQIKKSIISCLTFLKNRQSIKVIKQSDFTFGKITIKKTSDRIGATDTFRRLDSLIRVRLVEETGNSENLNTIKSKIASHPLIQAYGLPLDDAKSVRLAILGGSLPLIASVDSFEISVVLAIYQDAKYKDLGIDPKKYDTKEALGKVCTVLKSKAFENEDQVKKGKEYAAILSSSNPNAKGSVAEHYSETLNKFYEFGVKKQAKLAELA SKVKLTKENIVALLTQGKDLEFEENQNLVAFNFKTFCLENLDQIKKSIISCLTFLKNRQSIKVIKQSDFTFGKITIKKTSDRIGATDTFRRLDSLIRVRLVEETGNSENLNTIKSKIASHPLIQAYGLPLDDAKSVRLAILGGSLPLIASVDSFEISVVLAIYQDAKYKDLGIDPKKYDTKEALGKVCTVLKSKAFENEDQVKKGKEYAAILSSSNPNAKGSVAEHYSETLNKFYEFGVKKQAKLAELA 5ip2-a1-m1-cC_5ip2-a1-m1-cB Tomato spotted wilt tospovirus nucleocapsid protein-ssRNA complex F4ZD19 F4ZD19 3.3 X-RAY DIFFRACTION 103 1.0 229 233 5ip1-a1-m1-cA_5ip1-a1-m1-cB 5ip2-a1-m1-cA_5ip2-a1-m1-cB 5ip3-a1-m1-cA_5ip3-a1-m1-cB SKVKLTKENIVALLTQGKDLEFNFKTFCLENLDQIKKMSIISCLTFLKNRQSIMKVIKQSDFTFGKITIKKTSDRIGATDMTFRRLDSLIRVRLVEETGNSENLNTIKSKIASHPLIQAYGLPLDDAKSVRLAIMLGGSLPLIASVDSFEMISVVLAIYQDAKYKDLGIDPKKYDTKEALGKVCTVLKSKAFEMNEDQVKKGKEYAAILSSSNSVAMEHYSETLNKFYE SKVKLTKENIVALLTQGKDLEFNFKTFCLENLDQIKKMSIISCLTFLKNRQSIMKVIKQSDFTFGKITIKKTSDRIGATDMTFRRLDSLIRVRLVEETGNSENLNTIKSKIASHPLIQAYGLPLDDAKSVRLAIMLGGSLPLIASVDSFEMISVVLAIYQDAKYKDLGIDPKKYDTKEALGKVCTVLKSKAFEMNEDQVKKGKEYAAILSSSNSVAMEHYSETLNKFYEMFGV 5ipf-a1-m1-cB_5ipf-a1-m1-cA Crystal structure of Hypoxanthine-guanine phosphoribosyltransferase from Schistosoma mansoni in complex with IMP P09383 P09383 2.8 X-RAY DIFFRACTION 62 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 192 201 ADCVVIEDSFRGFPTEYFCTSPRYDECLDYVLIPNGMIKDRLEKMSMNIVDYYEACNATSITLMCVLKGGFKFLADLVDGLERTVRARGIVLPMSVEFVRKDKNVLVVEDIIDTGKTITKLISHLDSLSTKSVKVASLLVKRTSPRNDYRPDFVGFEVPNRFVVGYALDYNDNFRDLHHICVINEVGQKKFS ADCVVIEDSFRGFPTEYFCTSPRYDECLDYVLIPNGMIKDRLEKMSMNIVDYYEACNATSITLMCVLKGGFKFLADLVDGLERTVRARGIVLPMSVEFVRGLGDPSEYKDKNVLVVEDIIDTGKTITKLISHLDSLSTKSVKVASLLVKRTSPRNDYRPDFVGFEVPNRFVVGYALDYNDNFRDLHHICVINEVGQKKFSV 5ipf-a1-m1-cD_5ipf-a1-m1-cA Crystal structure of Hypoxanthine-guanine phosphoribosyltransferase from Schistosoma mansoni in complex with IMP P09383 P09383 2.8 X-RAY DIFFRACTION 10 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 189 201 ADCVVIEDSFRGFPTEYFCTSPRYDECLDYVLIPNGMIKDRLEKMSMNIVDYYEACNATSITLMCVLKGGFKFLADLVDGLERTVRARGIVLPMSVEFVRDKNVLVVEDIIDTGKTITKLISHLDSSTKSVKVASLLVKRTRNDYRPDFVGFEVPNRFVVGYALDYNDNFRDLHHICVINEVGQKKFSV ADCVVIEDSFRGFPTEYFCTSPRYDECLDYVLIPNGMIKDRLEKMSMNIVDYYEACNATSITLMCVLKGGFKFLADLVDGLERTVRARGIVLPMSVEFVRGLGDPSEYKDKNVLVVEDIIDTGKTITKLISHLDSLSTKSVKVASLLVKRTSPRNDYRPDFVGFEVPNRFVVGYALDYNDNFRDLHHICVINEVGQKKFSV 5ipf-a1-m1-cD_5ipf-a1-m1-cB Crystal structure of Hypoxanthine-guanine phosphoribosyltransferase from Schistosoma mansoni in complex with IMP P09383 P09383 2.8 X-RAY DIFFRACTION 70 0.995 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 189 192 5ipf-a1-m1-cC_5ipf-a1-m1-cA ADCVVIEDSFRGFPTEYFCTSPRYDECLDYVLIPNGMIKDRLEKMSMNIVDYYEACNATSITLMCVLKGGFKFLADLVDGLERTVRARGIVLPMSVEFVRDKNVLVVEDIIDTGKTITKLISHLDSSTKSVKVASLLVKRTRNDYRPDFVGFEVPNRFVVGYALDYNDNFRDLHHICVINEVGQKKFSV ADCVVIEDSFRGFPTEYFCTSPRYDECLDYVLIPNGMIKDRLEKMSMNIVDYYEACNATSITLMCVLKGGFKFLADLVDGLERTVRARGIVLPMSVEFVRKDKNVLVVEDIIDTGKTITKLISHLDSLSTKSVKVASLLVKRTSPRNDYRPDFVGFEVPNRFVVGYALDYNDNFRDLHHICVINEVGQKKFS 5ipv-a1-m1-cD_5ipv-a1-m1-cB Cryo-EM structure of GluN1/GluN2B NMDA receptor in the DCKA/D-APV-bound conformation, state 1 A7XY94 A7XY94 9.25 ELECTRON MICROSCOPY 11 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 622 623 MDIAVILVGTTEEVAIKDVHEKDDFHHLPVTPRVELVTMQESDPKSIITRICDLMSDKKVQGVVFGDDTDQEAIAQILDFISVQTLTPILGIHGGSSMIMADKEEASMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFENKVRSTIENSFVGWELEEVIHLDMSLDDIDSKIQNQLKKLQSPVILLYCTKEEATYIFEVAHSVGLTGYGFTWIVPSLVAGDTDTVPDEFPTGLISVSYDEWDYDLPARVRDGIAIITTAASTMLSEHNSIPQSKSSCNNIQESRVYEAHMLKRYLINVTFEGRDLSFSEDGYQMHPKLVIILLNQERKWERVGKYKDRSLKMWEHLSIVTLEEAPFVIVEDVDPLSGTCMRNTVPCRKQIIKRCCKGFCIDILKKIAKTVKFTYDLYLVTNGKHGKKINGVWNGMIGEVVTKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSRQVSGLSDKKFQRPNDFSPAFRFGTVPNGSTERNIRNNYLEMHSYMVKFNQRSVQDALLSLKSGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFATTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEK MDIAVILVGTTEEVAIKDVHEKDDFHHLPVTPRVELVTMQESDPKSIITRICDLMSDKKVQGVVFGDDTDQEAIAQILDFISVQTLTPILGIHGGSSMIMADKEEASMFFQFGPSIEQQASVMLNIMEEYDWYIFSIVTTYFPGYQDFENKVRSTIENSFVGWELEEVIHLDMSLDDIDSKIQNQLKKLQSPVILLYCTKEEATYIFEVAHSVGLTGYGFTWIVPSLVAGDTDTVPDEFPTGLISVSYDEWDYDLPARVRDGIAIITTAASTMLSEHNSIPQSKSSCNNIQESRVYEAHMLKRYLINVTFEGRDLSFSEDGYQMHPKLVIILLNQERKWERVGKYKDRSLKMWEHLSIVTLEEAPFVIVEDVDPLSGTCMRNTVPCRKQIIKRCCKGFCIDILKKIAKTVKFTYDLYLVTNGKHGKKINGVWNGMIGEVVTKRAYMAVGSLTINEERSEVVDFSVPFIETGISVMVSRSQVSGLSDKKFQRPNDFSPAFRFGTVPNGSTERNIRNNYLEMHSYMVKFNQRSVQDALLSLKSGKLDAFIYDAAVLNYMAGRDEGCKLVTIGSGKVFATTGYGIAIQKDSGWKRQVDLAILQLFGDGEMEELEALWLTGICHNEK 5iq4-a1-m1-cA_5iq4-a1-m1-cB Crystal structure of RnTmm mutant Y207S soaking A3SLM3 A3SLM3 1.5 X-RAY DIFFRACTION 84 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 445 445 5gsn-a1-m1-cA_5gsn-a1-m2-cC 5gsn-a2-m1-cB_5gsn-a2-m3-cD 5ipy-a1-m1-cA_5ipy-a1-m1-cB 5iq1-a1-m1-cA_5iq1-a1-m1-cB TKRVAVIGAGPSGLAQLRAFQSAADQGAEIPEIVCFEKQANWGGLWNYTWRTGLDENGEPVHCSMYRYLWSNGPKEGLEFADYSFEEHFGKQIASYPPRAVLFDYIEGRVHKADVRKWIRFNSPVRWVSYDAETAKFTVTAHNHETDSTYSEDFDHVICASGHFSTPNVPFYEGFDTFNGRIVHAHDFRDAREFEGKDVLVMGASSSAEDIGSQCWKYGAKSITSCYRSAPMGYAWPDNWEEKPALEKLTGKTAHFADGSTRDVDAIILCTGYKHFFSFLPDDLRLKTANRLATADLYKGVAYVHNPAMFYLGMQDQWFTFNMFDAQAWWVRDAILGRITLPKDKAAMLADVAERETREEASDDVKYAIRYQADYVKELVAETDYPSFDIDGACDAFFEWKKHKAKDIMAFRDNSYKSVITGTMAPVHHTPWKEALDDSMEAYLQ TKRVAVIGAGPSGLAQLRAFQSAADQGAEIPEIVCFEKQANWGGLWNYTWRTGLDENGEPVHCSMYRYLWSNGPKEGLEFADYSFEEHFGKQIASYPPRAVLFDYIEGRVHKADVRKWIRFNSPVRWVSYDAETAKFTVTAHNHETDSTYSEDFDHVICASGHFSTPNVPFYEGFDTFNGRIVHAHDFRDAREFEGKDVLVMGASSSAEDIGSQCWKYGAKSITSCYRSAPMGYAWPDNWEEKPALEKLTGKTAHFADGSTRDVDAIILCTGYKHFFSFLPDDLRLKTANRLATADLYKGVAYVHNPAMFYLGMQDQWFTFNMFDAQAWWVRDAILGRITLPKDKAAMLADVAERETREEASDDVKYAIRYQADYVKELVAETDYPSFDIDGACDAFFEWKKHKAKDIMAFRDNSYKSVITGTMAPVHHTPWKEALDDSMEAYLQ 5iqq-a1-m1-cD_5iqq-a1-m1-cC Crystal structure of the human RBM7 RRM domain Q9Y580 Q9Y580 2.52 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 81 83 5iqq-a1-m1-cB_5iqq-a1-m1-cA 5iqq-a1-m1-cB_5iqq-a1-m1-cC 5iqq-a1-m1-cE_5iqq-a1-m1-cA 5iqq-a1-m1-cE_5iqq-a1-m1-cD AAEADRTLFVGNLETKVTEELLFELFHQAGPVIKVKIPKDKDGKPKQFAFVNFKHEVSVPYAMNLLNGIKLYGRPIKIQFR AAAAEADRTLFVGNLETKVTEELLFELFHQAGPVIKVKIPKDKDGKPKQFAFVNFKHEVSVPYAMNLLNGIKLYGRPIKIQFR 5irb-a3-m1-cA_5irb-a3-m1-cB Structural insight into host cell surface retention of a 1.5-MDa bacterial ice-binding adhesin A1YIY2 A1YIY2 2 X-RAY DIFFRACTION 66 0.997 178399 (Marinomonas primoryensis) 178399 (Marinomonas primoryensis) 313 314 LNQSPLLINLDIDPVTGDSVINAAEAGGTVTLTGVVNGDVFSSGVVTLVINGVTYSTNVNPNGTWSVSVAGSDLSADSDRIVDASVVVTNGAGQQGTADSTESFIVKTSSRATIRVNSITSDDVVNAEESNSTITVSGRVGLDASAGDTVSMTINGTLYTTVVLANKTWSVGVSGSDLAQDNSFQVSVTGQDSAGNPYAGTTTSTHTVDTSADAGTVTVNAITSDDVINASEAAGTVAVSGTATGGDIAEGDTVTLEINGETYTTTVDANGEWSVDVAGSDLAADTAFDAVVTSSDAAGNTVDTTGSSTHTVD NQSPLLINLDIDPVTGDSVINAAEAGGTVTLTGVVNGDVFSSGVVTLVINGVTYSTNVNPNGTWSVSVAGSDLSADSDRIVDASVVVTNGAGQQGTADSTESFIVKTSSRATIRVNSITSDDVVNAEESNSTITVSGRVGLDASAGDTVSMTINGTLYTTVVLANKTWSVGVSGSDLAQDNSFQVSVTGQDSAGNPYAGTTTSTHTVDTSADAGTVTVNAITSDDVINASEAAGTVAVSGTATGGDIAEGDTVTLEINGETYTTTVDANGEWSVDVAGSDLAADTAFDAVVTSSDAAGNTVDTTGSSTHTVDLE 5irc-a3-m2-cB_5irc-a3-m1-cA p190A GAP domain complex with RhoA P81128 P81128 1.72 X-RAY DIFFRACTION 27 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 195 200 ESNYFGVPLTTVVTPEKPIPIFIERCIEYIEATGLSTEGIYRVSGNKSEMESLQRQFDQDHNLDLAEKDFTVNTVAGAMKSFFSELPDPLVPYSMQIDLVEAHKINDREQKLHALKEVLKKFPKENHEVFKYVISHLNRVSHNNKVNLMTSENLSICFWPTLMRPDFSSMDALTATRSYQTIIELFIQQPFFFYN AGSWESNYFGVPLTTVVTPEKPIPIFIERCIEYIEATGLSTEGIYRVSGNKSEMESLQRQFDQDHNLDLAEKDFTVNTVAGAMKSFFSELPDPLVPYSMQIDLVEAHKINDREQKLHALKEVLKKFPKENHEVFKYVISHLNRVSHNNKVNLMTSENLSICFWPTLMRPDFSSMDALTATRSYQTIIELFIQQPFFFYNR 5irm-a1-m1-cA_5irm-a1-m1-cC Crystal structure of rabbit NOD2 in an ADP-bound state (Crystal form2) G1T469 G1T469 3.31 X-RAY DIFFRACTION 39 0.996 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 767 770 EFEAAACKKYMSKLRTIVAAQSRFLSTLCLEDIYTENTLEVRTPAALGLEELFSPNGHLNEDADTVLVVGEAGSGKSTLLQQVHLLWATGQDFQEFLFVFPFSCRQLQCVARPLSVMTLLFEHCCWPDVGQQDVFQFLLDHPDRILLTFDGFDEFKFKFTDHERHCSPTDPTSVQTLLFNLLQGNLLKNARKVLTSRPDAVSAFLRKYVRTEFNLKGFSEEGIELYLRKCHREPGVADRLIHLLQTTSALHGLCHLPVFSWMVSKCHQELLLQDGGSPKTTTDMYLLILQHFLRHALGPSLLQGRLPTLLRLGQLALWGLGMCCYVFSAQQLQAAQVDPDDISLGFLVQAQGVVPGSTAPLEFLHITFQCFLAAFYLVLSTDVPTASLRYLFNCESTVAALLQKTEPHNLQITAAFLAGLLSREHRDLLAACQASERSLLRRRACARWCLARSLHKHFRSIAMPGFLWLIRSLYEMQEERLAQEAVRGLNVEHLKLTFCGVGPAECAALAFVLRHLRRPVALQLDHNSVGDIGVEQLLPCLGACKALYLRDNNISDRGICKLIEHALHCEQLQKLALFNNKLTDGCAHSVAQLLACKQNFLALRLGNNHITAEGAQVLAEGLRDNSSLQFLGFWGNKVGDKGAQALAEALSDHQSLKWLSLVGNNIGSVGAQALASMLEKNVALEELCLEENHLQDAGVCSLAEGLKRNSSLKVLKLSNNCITFVGAEALLQALASNDTILEVWLRGNPFSPEEMEALSHRDSRLLL EFEAAACKKYMSKLRTIVAAQSRFLENLCLEDIYTENTLEVRTEVGSPAALGLEELFSPNGHLNEDADTVLVVGEAGSGKSTLLQQVHLLWATGQDFQEFLFVFPFSCRQLQCVARPLSVMTLLFEHCCWPDVGQQDVFQFLLDHPDRILLTFDGFDEFKFKFTDHERHCSPTDPTSVQTLLFNLLQGNLLKNARKVLTSRPDAVSAFLRKYVRTEFNLKGFSEEGIELYLRKCHREPGVADRLIHLLQTTSALHGLCHLPVFSWMVSKCHQELLLQDGGSPKTTTDMYLLILQHFLRHAGPSLLQGRLPTLLRLGQLALWGLGMCCYVFSAQQLQAAQVDPDDISLGFLVQAQGVVPGSTAPLEFLHITFQCFLAAFYLVLSTDVPTASLRYLFNCESTVAALLQKTEPHNLQITAAFLAGLLSREHRDLLAACQASERSLLRRRACARWCLARSLHKHFRSIAMPGFLWLIRSLYEMQEERLAQEAVRGLNVEHLKLTFCGVGPAECAALAFVLRHLRRPVALQLDHNSVGDIGVEQLLPCLGACKALYLRDNNISDRGICKLIEHALHCEQLQKLALFNNKLTDGCAHSVAQLLACKQNFLALRLGNNHITAEGAQVLAEGLRDNSSLQFLGFWGNKVGDKGAQALAEALSDHQSLKWLSLVGNNIGSVGAQALASMLEKNVALEELCLEENHLQDAGVCSLAEGLKRNSSLKVLKLSNNCITFVGAEALLQALASNDTILEVWLRGNPFSPEEMEALSHRDSRLLL 5irt-a1-m1-cA_5irt-a1-m1-cB Dimerization interface of the noncrystalline HIV-1 capsid protein lattice from solid state NMR spectroscopy of tubular assemblies P12493 P12493 NOT SOLID-STATE NMR 13 1.0 11698 (Human immunodeficiency virus type 1 (NEW YORK-5 ISOLATE)) 11698 (Human immunodeficiency virus type 1 (NEW YORK-5 ISOLATE)) 19 19 EQASQEVKNWMTETLLVQN EQASQEVKNWMTETLLVQN 5iry-a1-m1-cA_5iry-a1-m1-cB Crystal structure of human Desmocollin-1 ectodomain Q08554 Q08554 3.095 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 539 539 RWAPIPASLMENSLGPFPQHVQQIQSDAAQNYTIFYSISGPGVDKEPFNLFYIEKDTGDIFCTRSIDREKYEQFALYGYATTADGYAPEYPLPLIIKIEDDNDNAPYFEHRVTIFTVPENCRSGTSVGKVTATDLDEPDTLHTRLKYKILQQIPDHPKHFSIHPDTGVITTTTPFLDREKCDTYQLIMEVRDMGGQPFGLFNTGTITISLEDENDNPPSFTETSYVTEVEENRIDVEILRMKVQDQDLPNTPHSKAVYKILQGNENGNFIISTDPNTNEGVLCVVKPLNYEVNRQVILQVGVINEAQFSKAASSQTPTMCTTTVTVKIIDSDEGPECHPPVKVIQSQDGFPAGQELLGYKALDPEISSGEGLRYQKLGDEDNWFEINQHTGDLRTLKVLDRESKFVKNNQYNISVVAVDAVGRSCTGTLVVHLDDYNDHAPQIDKEVTICQNNEDFAVLKPVDPDGPENGPPFQFFLDNSASKNWNIEEKDGKTAILRQRQNLDYNYYSVPIQIKDRHGLVATHMLTVRVCDCSTPSEC RWAPIPASLMENSLGPFPQHVQQIQSDAAQNYTIFYSISGPGVDKEPFNLFYIEKDTGDIFCTRSIDREKYEQFALYGYATTADGYAPEYPLPLIIKIEDDNDNAPYFEHRVTIFTVPENCRSGTSVGKVTATDLDEPDTLHTRLKYKILQQIPDHPKHFSIHPDTGVITTTTPFLDREKCDTYQLIMEVRDMGGQPFGLFNTGTITISLEDENDNPPSFTETSYVTEVEENRIDVEILRMKVQDQDLPNTPHSKAVYKILQGNENGNFIISTDPNTNEGVLCVVKPLNYEVNRQVILQVGVINEAQFSKAASSQTPTMCTTTVTVKIIDSDEGPECHPPVKVIQSQDGFPAGQELLGYKALDPEISSGEGLRYQKLGDEDNWFEINQHTGDLRTLKVLDRESKFVKNNQYNISVVAVDAVGRSCTGTLVVHLDDYNDHAPQIDKEVTICQNNEDFAVLKPVDPDGPENGPPFQFFLDNSASKNWNIEEKDGKTAILRQRQNLDYNYYSVPIQIKDRHGLVATHMLTVRVCDCSTPSEC 5is2-a1-m1-cA_5is2-a1-m2-cA Crystal structure of Mycobacterium avium SerB2 at pH 6.6 A0QJI1 A0QJI1 1.881 X-RAY DIFFRACTION 239 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 395 395 3p96-a1-m1-cA_3p96-a1-m2-cA 5it0-a1-m1-cA_5it0-a1-m2-cA 5it4-a1-m1-cA_5it4-a1-m2-cA 5jjb-a1-m1-cA_5jjb-a1-m2-cA 5jlp-a1-m1-cA_5jlp-a1-m2-cA 5jlr-a1-m1-cA_5jlr-a1-m2-cA 5jma-a1-m1-cA_5jma-a1-m2-cA 8a1z-a1-m1-cA_8a1z-a1-m2-cA 8a21-a1-m1-cA_8a21-a1-m2-cA PKVSVLITVTGVDQPGVTATLFEVLSRHGVELLNVEQVVIRHRLTLGVLVCCPADVADGPALRHDVEAAIRKVGLDVSIERSDDVPIIREPSTHTIFVLGRPITAAAFGAVAREVAALGVNIDLIRGVSDYPVIGLELRVSVPPGADGALRTALNRVSSEEHVDVAVEDYTLERRAKRLIVFDVDSTLVQGEVIEMLAAKAGAEGQVAITDAAMRGELDFAQSLQQRVATLAGLPATVIDEVAGQLELMPGARTTLRTLRRLGYACGVVSGGFRRIIEPLAEELMLDYVAANELEIVDGTLTGRVVGPIIDRAGKATALREFAQRAGVPMAQTVAVGDGANDIDMLAAAGLGIAFNAKPALREVADASLSHPYLDTVLFLLGVTRGEIEAADAID PKVSVLITVTGVDQPGVTATLFEVLSRHGVELLNVEQVVIRHRLTLGVLVCCPADVADGPALRHDVEAAIRKVGLDVSIERSDDVPIIREPSTHTIFVLGRPITAAAFGAVAREVAALGVNIDLIRGVSDYPVIGLELRVSVPPGADGALRTALNRVSSEEHVDVAVEDYTLERRAKRLIVFDVDSTLVQGEVIEMLAAKAGAEGQVAITDAAMRGELDFAQSLQQRVATLAGLPATVIDEVAGQLELMPGARTTLRTLRRLGYACGVVSGGFRRIIEPLAEELMLDYVAANELEIVDGTLTGRVVGPIIDRAGKATALREFAQRAGVPMAQTVAVGDGANDIDMLAAAGLGIAFNAKPALREVADASLSHPYLDTVLFLLGVTRGEIEAADAID 5it3-a1-m1-cA_5it3-a1-m2-cA Swirm domain of human Lsd1 O60341 O60341 1.4 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 LPHDRMTSQEAACFPDIISGPQQTQKVFLFIRNRTLQLWLDNPKIQLTFEATLQQLEAPYNSDTVLVHRVHSYLERHGLINFGIY LPHDRMTSQEAACFPDIISGPQQTQKVFLFIRNRTLQLWLDNPKIQLTFEATLQQLEAPYNSDTVLVHRVHSYLERHGLINFGIY 5itm-a1-m1-cF_5itm-a1-m1-cB The structure of truncated histone-like protein A0A0E3K9N8 A0A0E3K9N8 1.4 X-RAY DIFFRACTION 10 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 46 47 VEEIVKVSRNYQVTIPAKVRQKFQIKEGDLVKVTFDESEGVVKIQL AVEEIVKVSRNYQVTIPAKVRQKFQIKEGDLVKVTFDESEGVVKIQL 5itm-a3-m1-cC_5itm-a3-m1-cD The structure of truncated histone-like protein A0A0E3K9N8 A0A0E3K9N8 1.4 X-RAY DIFFRACTION 148 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 47 47 2l66-a1-m1-cA_2l66-a1-m1-cB 5itj-a1-m1-cA_5itj-a1-m1-cB 5itm-a1-m1-cA_5itm-a1-m1-cB 5itm-a1-m1-cC_5itm-a1-m1-cD 5itm-a2-m1-cA_5itm-a2-m1-cB AVEEIVKVSRNYQVTIPAKVRQKFQIKEGDLVKVTFDESEGVVKIQL AVEEIVKVSRNYQVTIPAKVRQKFQIKEGDLVKVTFDESEGVVKIQL 5its-a2-m1-cC_5its-a2-m1-cD Crystal structure of LOG from Corynebacterium glutamicum Q8NN34 Q8NN34 2.3 X-RAY DIFFRACTION 98 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 188 196 5its-a1-m1-cA_5its-a1-m1-cB 5zbl-a2-m1-cC_5zbl-a2-m1-cD SLFDAPTLQRVTVFTGSALGSSSLYTQAAQTLAKTAVDRGIDLVYGGGKVGLMGIVADAFLESGGEAFGVITESLMKGELGHEKLTELEIVPDMHIRKRRMAELGDGFIAMPGGAGTLEELFEVWTWQQLGIHQKPVALYDVDGFWQPLLEMLEQMTQRGFIKRDFFECLIVESDPHALLKAMQTWTP TSLFDAPTLQRVTVFTGSALGSSSLYTQAAQTLAKTAVDRGIDLVYGGGKVGLMGIVADAFLESGGEAFGVITESLMKGELGHEKLTELEIVPDMHIRKRRMAELGDGFIAMPGGAGTLEELFEVWTWQQLGIHQKPVALYDVDGFWQPLLEMLEQMTQRGFIKRDFFECLIVESDPHALLKAMQTWTPPAPKWLE 5iu1-a1-m1-cA_5iu1-a1-m1-cB N-terminal PAS domain homodimer of PpANR MAP3K from Physcomitrella patens. A0A0S1VWZ1 A0A0S1VWZ1 1.7 X-RAY DIFFRACTION 54 0.981 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 106 112 FESQPCVSIDLRGNITSWNRAAEQLYQFKEGEVMGRNLVDLIVPPNAKTAALDTIMRVGQGEVWIGQFSCVRRDNAILNTVVTQKPILDDDQKISGISVCTEPYSM SQPCVSIDLRGNITSWNRAAEQLYQFKEGEVMGRNLVDLIVPPNAKTAALDTIMRVGQGEVWIGQFSCVRRDNAILNTVVTQKPILDDDQKISGISVCTEPYSMPELMARNY 5iu6-a1-m1-cA_5iu6-a1-m2-cB Crystal structure of E.coli purine nucleoside phosphorylase with 7-deazahypoxanthine P0ABP8 P0ABP8 2.51 X-RAY DIFFRACTION 102 1.0 562 (Escherichia coli) 562 (Escherichia coli) 237 237 1a69-a1-m1-cA_1a69-a1-m2-cA 1a69-a1-m1-cC_1a69-a1-m1-cB 1a69-a1-m2-cC_1a69-a1-m2-cB 1ecp-a1-m1-cA_1ecp-a1-m1-cE 1ecp-a1-m1-cB_1ecp-a1-m1-cD 1ecp-a1-m1-cC_1ecp-a1-m1-cF 1k9s-a1-m1-cA_1k9s-a1-m1-cF 1k9s-a1-m1-cB_1k9s-a1-m1-cD 1k9s-a1-m1-cC_1k9s-a1-m1-cE 1otx-a1-m1-cA_1otx-a1-m2-cB 1otx-a1-m1-cB_1otx-a1-m2-cA 1otx-a1-m1-cC_1otx-a1-m2-cC 1oty-a1-m1-cA_1oty-a1-m2-cB 1oty-a1-m1-cB_1oty-a1-m2-cA 1oty-a1-m1-cC_1oty-a1-m2-cC 1ou4-a1-m1-cA_1ou4-a1-m2-cB 1ou4-a1-m1-cB_1ou4-a1-m2-cA 1ou4-a1-m1-cC_1ou4-a1-m2-cC 1oum-a1-m1-cA_1oum-a1-m2-cB 1oum-a1-m1-cB_1oum-a1-m2-cA 1oum-a1-m1-cC_1oum-a1-m2-cC 1ov6-a1-m1-cA_1ov6-a1-m2-cB 1ov6-a1-m1-cB_1ov6-a1-m2-cA 1ov6-a1-m1-cC_1ov6-a1-m2-cC 1ovg-a1-m1-cA_1ovg-a1-m2-cB 1ovg-a1-m1-cB_1ovg-a1-m2-cA 1ovg-a1-m1-cC_1ovg-a1-m2-cC 1pk7-a1-m1-cA_1pk7-a1-m2-cB 1pk7-a1-m1-cB_1pk7-a1-m2-cA 1pk7-a1-m1-cC_1pk7-a1-m2-cC 1pk9-a1-m1-cA_1pk9-a1-m2-cB 1pk9-a1-m1-cB_1pk9-a1-m2-cA 1pk9-a1-m1-cC_1pk9-a1-m2-cC 1pke-a1-m1-cA_1pke-a1-m2-cB 1pke-a1-m1-cB_1pke-a1-m2-cA 1pke-a1-m1-cC_1pke-a1-m2-cC 1pr0-a1-m1-cA_1pr0-a1-m2-cB 1pr0-a1-m1-cB_1pr0-a1-m2-cA 1pr0-a1-m1-cC_1pr0-a1-m2-cC 1pr1-a1-m1-cA_1pr1-a1-m2-cB 1pr1-a1-m1-cC_1pr1-a1-m2-cC 1pr1-a1-m2-cA_1pr1-a1-m1-cB 1pr2-a1-m1-cA_1pr2-a1-m2-cB 1pr2-a1-m1-cB_1pr2-a1-m2-cA 1pr2-a1-m1-cC_1pr2-a1-m2-cC 1pr4-a1-m1-cA_1pr4-a1-m2-cB 1pr4-a1-m1-cC_1pr4-a1-m2-cC 1pr4-a1-m2-cA_1pr4-a1-m1-cB 1pr5-a1-m1-cA_1pr5-a1-m2-cB 1pr5-a1-m1-cC_1pr5-a1-m2-cC 1pr5-a1-m2-cA_1pr5-a1-m1-cB 1pr6-a1-m1-cB_1pr6-a1-m2-cA 1pr6-a1-m1-cC_1pr6-a1-m2-cC 1pr6-a1-m2-cB_1pr6-a1-m1-cA 1pw7-a1-m1-cA_1pw7-a1-m2-cB 1pw7-a1-m1-cB_1pw7-a1-m2-cA 1pw7-a1-m1-cC_1pw7-a1-m2-cC 3occ-a1-m1-cA_3occ-a1-m1-cB 3occ-a1-m1-cC_3occ-a1-m1-cD 3occ-a1-m1-cE_3occ-a1-m1-cF 3onv-a1-m1-cA_3onv-a1-m2-cA 3onv-a1-m1-cB_3onv-a1-m1-cC 3onv-a1-m2-cB_3onv-a1-m2-cC 3ooe-a1-m1-cA_3ooe-a1-m1-cF 3ooe-a1-m1-cC_3ooe-a1-m1-cE 3ooe-a1-m1-cD_3ooe-a1-m1-cB 3ooh-a1-m1-cA_3ooh-a1-m1-cF 3ooh-a1-m1-cB_3ooh-a1-m1-cD 3ooh-a1-m1-cC_3ooh-a1-m1-cE 3ooh-a2-m1-cG_3ooh-a2-m1-cL 3ooh-a2-m1-cH_3ooh-a2-m1-cJ 3ooh-a2-m1-cI_3ooh-a2-m1-cK 3ooh-a3-m1-cM_3ooh-a3-m1-cR 3ooh-a3-m1-cN_3ooh-a3-m1-cP 3ooh-a3-m1-cO_3ooh-a3-m1-cQ 3opv-a1-m1-cA_3opv-a1-m1-cF 3opv-a1-m1-cB_3opv-a1-m1-cD 3opv-a1-m1-cE_3opv-a1-m1-cC 3opv-a2-m1-cG_3opv-a2-m1-cL 3opv-a2-m1-cI_3opv-a2-m1-cK 3opv-a2-m1-cJ_3opv-a2-m1-cH 3ut6-a1-m1-cA_3ut6-a1-m2-cA 3ut6-a1-m1-cB_3ut6-a1-m1-cC 3ut6-a1-m2-cB_3ut6-a1-m2-cC 4rj2-a1-m1-cA_4rj2-a1-m1-cE 4rj2-a1-m1-cB_4rj2-a1-m1-cD 4rj2-a1-m1-cC_4rj2-a1-m1-cF 4ts3-a1-m1-cA_4ts3-a1-m1-cF 4ts3-a1-m1-cB_4ts3-a1-m1-cD 4ts3-a1-m1-cC_4ts3-a1-m1-cE 4ts9-a1-m1-cA_4ts9-a1-m2-cA 4ts9-a1-m1-cB_4ts9-a1-m1-cC 4ts9-a1-m2-cB_4ts9-a1-m2-cC 4tta-a1-m1-cA_4tta-a1-m1-cF 4tta-a1-m1-cB_4tta-a1-m1-cD 4tta-a1-m1-cC_4tta-a1-m1-cE 4tti-a1-m1-cA_4tti-a1-m1-cF 4tti-a1-m1-cB_4tti-a1-m1-cD 4tti-a1-m1-cC_4tti-a1-m1-cE 4ttj-a1-m1-cA_4ttj-a1-m2-cA 4ttj-a1-m1-cB_4ttj-a1-m1-cD 4ttj-a1-m2-cB_4ttj-a1-m2-cD 5i3c-a1-m1-cA_5i3c-a1-m2-cC 5i3c-a1-m1-cB_5i3c-a1-m2-cB 5i3c-a1-m1-cC_5i3c-a1-m2-cA 5iu6-a1-m1-cB_5iu6-a1-m2-cA 5iu6-a1-m1-cC_5iu6-a1-m2-cC 6xz2-a1-m1-cA_6xz2-a1-m1-cC 6xz2-a1-m1-cB_6xz2-a1-m2-cB 6xz2-a1-m2-cA_6xz2-a1-m2-cC 6xz2-a2-m1-cA_6xz2-a2-m1-cC ATPHINAEMGDFADVVLMPGDPLRAKYIAETFLEDAREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVLPHVKLRDVVIGMGACTDSKVNRIRFKDHDFAAIADFDMVRNAVDAAKALGIDARVGNLFSADLFYSPDGEMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDK ATPHINAEMGDFADVVLMPGDPLRAKYIAETFLEDAREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVLPHVKLRDVVIGMGACTDSKVNRIRFKDHDFAAIADFDMVRNAVDAAKALGIDARVGNLFSADLFYSPDGEMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDK 5iu6-a1-m1-cB_5iu6-a1-m2-cC Crystal structure of E.coli purine nucleoside phosphorylase with 7-deazahypoxanthine P0ABP8 P0ABP8 2.51 X-RAY DIFFRACTION 101 1.0 562 (Escherichia coli) 562 (Escherichia coli) 237 237 1a69-a1-m1-cB_1a69-a1-m2-cB 1a69-a1-m1-cC_1a69-a1-m1-cA 1a69-a1-m2-cC_1a69-a1-m2-cA 1ecp-a1-m1-cA_1ecp-a1-m1-cD 1ecp-a1-m1-cB_1ecp-a1-m1-cF 1ecp-a1-m1-cC_1ecp-a1-m1-cE 1k9s-a1-m1-cA_1k9s-a1-m1-cD 1k9s-a1-m1-cB_1k9s-a1-m1-cE 1k9s-a1-m1-cC_1k9s-a1-m1-cF 1otx-a1-m1-cA_1otx-a1-m2-cA 1otx-a1-m1-cB_1otx-a1-m2-cC 1otx-a1-m1-cC_1otx-a1-m2-cB 1oty-a1-m1-cA_1oty-a1-m2-cA 1oty-a1-m1-cB_1oty-a1-m2-cC 1oty-a1-m1-cC_1oty-a1-m2-cB 1ou4-a1-m1-cA_1ou4-a1-m2-cA 1ou4-a1-m1-cB_1ou4-a1-m2-cC 1ou4-a1-m1-cC_1ou4-a1-m2-cB 1oum-a1-m1-cA_1oum-a1-m2-cA 1oum-a1-m1-cB_1oum-a1-m2-cC 1oum-a1-m1-cC_1oum-a1-m2-cB 1ov6-a1-m1-cA_1ov6-a1-m2-cA 1ov6-a1-m1-cB_1ov6-a1-m2-cC 1ov6-a1-m1-cC_1ov6-a1-m2-cB 1ovg-a1-m1-cA_1ovg-a1-m2-cA 1ovg-a1-m1-cB_1ovg-a1-m2-cC 1ovg-a1-m1-cC_1ovg-a1-m2-cB 1pk7-a1-m1-cA_1pk7-a1-m2-cA 1pk7-a1-m1-cB_1pk7-a1-m2-cC 1pk7-a1-m1-cC_1pk7-a1-m2-cB 1pk9-a1-m1-cA_1pk9-a1-m2-cA 1pk9-a1-m1-cB_1pk9-a1-m2-cC 1pk9-a1-m1-cC_1pk9-a1-m2-cB 1pke-a1-m1-cA_1pke-a1-m2-cA 1pke-a1-m1-cC_1pke-a1-m2-cB 1pke-a1-m2-cC_1pke-a1-m1-cB 1pr0-a1-m1-cA_1pr0-a1-m2-cA 1pr0-a1-m1-cB_1pr0-a1-m2-cC 1pr0-a1-m1-cC_1pr0-a1-m2-cB 1pr1-a1-m1-cA_1pr1-a1-m2-cA 1pr1-a1-m1-cB_1pr1-a1-m2-cC 1pr1-a1-m1-cC_1pr1-a1-m2-cB 1pr2-a1-m1-cA_1pr2-a1-m2-cA 1pr2-a1-m1-cB_1pr2-a1-m2-cC 1pr2-a1-m1-cC_1pr2-a1-m2-cB 1pr4-a1-m1-cA_1pr4-a1-m2-cA 1pr4-a1-m1-cC_1pr4-a1-m2-cB 1pr4-a1-m2-cC_1pr4-a1-m1-cB 1pr5-a1-m1-cA_1pr5-a1-m2-cA 1pr5-a1-m1-cB_1pr5-a1-m2-cC 1pr5-a1-m2-cB_1pr5-a1-m1-cC 1pr6-a1-m1-cA_1pr6-a1-m2-cA 1pw7-a1-m1-cA_1pw7-a1-m2-cA 1pw7-a1-m1-cB_1pw7-a1-m2-cC 1pw7-a1-m1-cC_1pw7-a1-m2-cB 3occ-a1-m1-cA_3occ-a1-m1-cF 3occ-a1-m1-cC_3occ-a1-m1-cB 3occ-a1-m1-cD_3occ-a1-m1-cE 3onv-a1-m1-cA_3onv-a1-m1-cC 3onv-a1-m1-cB_3onv-a1-m2-cB 3onv-a1-m2-cA_3onv-a1-m2-cC 3ooe-a1-m1-cC_3ooe-a1-m1-cF 3ooe-a1-m1-cD_3ooe-a1-m1-cA 3ooe-a1-m1-cE_3ooe-a1-m1-cB 3ooh-a1-m1-cA_3ooh-a1-m1-cD 3ooh-a1-m1-cB_3ooh-a1-m1-cE 3ooh-a1-m1-cC_3ooh-a1-m1-cF 3ooh-a2-m1-cG_3ooh-a2-m1-cJ 3ooh-a2-m1-cH_3ooh-a2-m1-cK 3ooh-a2-m1-cI_3ooh-a2-m1-cL 3ooh-a3-m1-cM_3ooh-a3-m1-cP 3ooh-a3-m1-cN_3ooh-a3-m1-cQ 3ooh-a3-m1-cO_3ooh-a3-m1-cR 3opv-a1-m1-cA_3opv-a1-m1-cD 3opv-a1-m1-cC_3opv-a1-m1-cF 3opv-a1-m1-cE_3opv-a1-m1-cB 3opv-a2-m1-cH_3opv-a2-m1-cK 3opv-a2-m1-cI_3opv-a2-m1-cL 3opv-a2-m1-cJ_3opv-a2-m1-cG 3ut6-a1-m1-cA_3ut6-a1-m1-cC 3ut6-a1-m1-cB_3ut6-a1-m2-cB 3ut6-a1-m2-cA_3ut6-a1-m2-cC 4rj2-a1-m1-cA_4rj2-a1-m1-cD 4rj2-a1-m1-cB_4rj2-a1-m1-cF 4rj2-a1-m1-cC_4rj2-a1-m1-cE 4ts3-a1-m1-cA_4ts3-a1-m1-cD 4ts3-a1-m1-cB_4ts3-a1-m1-cE 4ts3-a1-m1-cC_4ts3-a1-m1-cF 4ts9-a1-m1-cA_4ts9-a1-m1-cC 4ts9-a1-m1-cB_4ts9-a1-m2-cB 4ts9-a1-m2-cA_4ts9-a1-m2-cC 4tta-a1-m1-cA_4tta-a1-m1-cD 4tta-a1-m1-cB_4tta-a1-m1-cE 4tta-a1-m1-cC_4tta-a1-m1-cF 4tti-a1-m1-cA_4tti-a1-m1-cD 4tti-a1-m1-cB_4tti-a1-m1-cE 4tti-a1-m1-cC_4tti-a1-m1-cF 4ttj-a1-m1-cA_4ttj-a1-m1-cD 4ttj-a1-m1-cB_4ttj-a1-m2-cB 4ttj-a1-m2-cA_4ttj-a1-m2-cD 5i3c-a1-m1-cA_5i3c-a1-m2-cB 5i3c-a1-m1-cB_5i3c-a1-m2-cA 5i3c-a1-m1-cC_5i3c-a1-m2-cC 5iu6-a1-m1-cA_5iu6-a1-m2-cA 5iu6-a1-m1-cC_5iu6-a1-m2-cB 6xz2-a1-m1-cA_6xz2-a1-m2-cA 6xz2-a1-m1-cB_6xz2-a1-m1-cC 6xz2-a1-m2-cB_6xz2-a1-m2-cC 6xz2-a2-m1-cB_6xz2-a2-m1-cC ATPHINAEMGDFADVVLMPGDPLRAKYIAETFLEDAREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVLPHVKLRDVVIGMGACTDSKVNRIRFKDHDFAAIADFDMVRNAVDAAKALGIDARVGNLFSADLFYSPDGEMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDK ATPHINAEMGDFADVVLMPGDPLRAKYIAETFLEDAREVNNVRGMLGFTGTYKGRKISVMGHGMGIPSCSIYTKELITDFGVKKIIRVGSCGAVLPHVKLRDVVIGMGACTDSKVNRIRFKDHDFAAIADFDMVRNAVDAAKALGIDARVGNLFSADLFYSPDGEMFDVMEKYGILGVEMEAAGIYGVAAEFGAKALTICTVSDHIRTHEQTTAAERQTTFNDMIKIALESVLLGDK 5iu9-a1-m1-cA_5iu9-a1-m1-cB Crystal Structure of Zebrafish Protocadherin-19 EC1-4 F8W3X3 F8W3X3 3.59 X-RAY DIFFRACTION 87 0.998 7955 (Danio rerio) 7955 (Danio rerio) 417 422 VFNLKYTVEEELRAGTKIANVTADAKVAGFAPYLRVISNSEPRWVNLSPAGLLITKQKIDRDAVCRQTPKCFISLEVMSNSMEICVIKIEIIDVNDNAPRFPTNHIDIEISENAAPGTRFPLEGASDPDSGSNGIQTYTITPNDIFGLEIKTRGDGSKIAELVVEKTLDRETQSRYTFELTAEDGGDPPKSGTVQLNIKVIDSNDNNPVFDEPVYTVNVLENSPINTLVIDLNATDPDEGTNGEVVYSFINFVSNLTKQMFKIDPKTGVITVNGVLDHEELHIHEIDVQAKDLGPNSIPAHCKVIVNVIDINDNAPEIKLLSENSEMVEVSENAPLGYVIALVRVSDNDSGANGKVQCRLQGNVPFRLNEFESFSTLLVDGRLDREQRDMYNLTILAEDSGYPPLRSSKSFAVKVTD FNLKYTVEEELRAGTKIANVTADAKVAGFALGNRQPYLRVISNSEPRWVNLSPAGLLITKQKIDRDAVCRQTPKCFISLEVMSNSMEICVIKIEIIDVNDNAPRFPTNHIDIEISENAAPGTRFPLEGASDPDSGSNGIQTYTITPNDIFGLEIKTRGDGSKIAELVVEKTLDRETQSRYTFELTAEDGGDPPKSGTVQLNIKVIDSNDNNPVFDEPVYTVNVLENSPINTLVIDLNATDPDEGTNGEVVYSFINFVSNLTKQMFKIDPKTGVITVNGVLDHEELHIHEIDVQAKDLGPNSIPAHCKVIVNVIDINDNAPEIKLLSENSEMVEVSENAPLGYVIALVRVSDNDSGANGKVQCRLQGNVPFRLNEFESFSTLLVDGRLDREQRDMYNLTILAEDSGYPPLRSSKSFAVKVTDL 5iuu-a1-m1-cB_5iuu-a1-m2-cB Crystal Structure of Indole-3-acetaldehyde Dehydrogenase in Apo form Q88BC5 Q88BC5 2.09 X-RAY DIFFRACTION 40 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 423 423 5iuu-a1-m1-cA_5iuu-a1-m2-cA TLTRADWEQRAQNLKIEGRAFIQGEYTAAASGETFDCISPVDGRLLAKVASCDAADAQRAVESARSAFDSGAWSRLAPAKRKATMIRFAGLLEQNAEELALLETLDMGKPISDSLGVDIPGGARALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVAAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTVVFTGSTKIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAADSAASASRLLVERSIKDRFLPMVIEALGTWKPGNPLDPATNVGALVVLSVLTFDTAEEAIQIANDTPYGLAAAVWTANLSKAHLTARALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKSTWIKL TLTRADWEQRAQNLKIEGRAFIQGEYTAAASGETFDCISPVDGRLLAKVASCDAADAQRAVESARSAFDSGAWSRLAPAKRKATMIRFAGLLEQNAEELALLETLDMGKPISDSLGVDIPGGARALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVAAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTVVFTGSTKIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAADSAASASRLLVERSIKDRFLPMVIEALGTWKPGNPLDPATNVGALVVLSVLTFDTAEEAIQIANDTPYGLAAAVWTANLSKAHLTARALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKSTWIKL 5iuu-a1-m2-cB_5iuu-a1-m1-cA Crystal Structure of Indole-3-acetaldehyde Dehydrogenase in Apo form Q88BC5 Q88BC5 2.09 X-RAY DIFFRACTION 68 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 423 436 5iuu-a1-m1-cB_5iuu-a1-m2-cA TLTRADWEQRAQNLKIEGRAFIQGEYTAAASGETFDCISPVDGRLLAKVASCDAADAQRAVESARSAFDSGAWSRLAPAKRKATMIRFAGLLEQNAEELALLETLDMGKPISDSLGVDIPGGARALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVAAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTVVFTGSTKIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAADSAASASRLLVERSIKDRFLPMVIEALGTWKPGNPLDPATNVGALVVLSVLTFDTAEEAIQIANDTPYGLAAAVWTANLSKAHLTARALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKSTWIKL TLTRADWEQRAQNLKIEGRAFIQGEYTAAASGETFDCISPVDGRLLAKVASCDAADAQRAVESARSAFDSGAWSRLAPAKRKATMIRFAGLLEQNAEELALLETLDMGKPISDSLGVDIPGGARALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVAAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTVVFTGSTKIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAADSAASAIAFSRLLVERSIKDRFLPMVIEALGTWKPGNPLDPATNVGALVDTAQEEIFGPVLSVLTFDTAEEAIQIANDTPYGLAAAVWTANLSKAHLTARALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKSTWIKL 5iuu-a1-m2-cB_5iuu-a1-m2-cA Crystal Structure of Indole-3-acetaldehyde Dehydrogenase in Apo form Q88BC5 Q88BC5 2.09 X-RAY DIFFRACTION 173 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 423 436 5iuu-a1-m1-cB_5iuu-a1-m1-cA TLTRADWEQRAQNLKIEGRAFIQGEYTAAASGETFDCISPVDGRLLAKVASCDAADAQRAVESARSAFDSGAWSRLAPAKRKATMIRFAGLLEQNAEELALLETLDMGKPISDSLGVDIPGGARALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVAAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTVVFTGSTKIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAADSAASASRLLVERSIKDRFLPMVIEALGTWKPGNPLDPATNVGALVVLSVLTFDTAEEAIQIANDTPYGLAAAVWTANLSKAHLTARALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKSTWIKL TLTRADWEQRAQNLKIEGRAFIQGEYTAAASGETFDCISPVDGRLLAKVASCDAADAQRAVESARSAFDSGAWSRLAPAKRKATMIRFAGLLEQNAEELALLETLDMGKPISDSLGVDIPGGARALSWSGEAIDKLYDEVAATPHDQLGLVTREPVGVVAAIVPWNFPLMMACWKLGPALSTGNSVVLKPSEKSPLTAIRIAQLAIEAGIPAGVLNVLPGYGHTVGKALALHMDVDTVVFTGSTKIAKQLMIYAGESNMKRVWLEAGGKSPNIVFADAPDLQAAADSAASAIAFSRLLVERSIKDRFLPMVIEALGTWKPGNPLDPATNVGALVDTAQEEIFGPVLSVLTFDTAEEAIQIANDTPYGLAAAVWTANLSKAHLTARALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKSTWIKL 5iv5-a1-m1-cU_5iv5-a1-m1-cr Cryo-electron microscopy structure of the hexagonal pre-attachment T4 baseplate-tail tube complex P13339 P13339 4.11 ELECTRON MICROSCOPY 78 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 165 165 5iv5-a1-m1-cBE_5iv5-a1-m1-cDH 5iv5-a1-m1-cBE_5iv5-a1-m1-cr 5iv5-a1-m1-cDH_5iv5-a1-m1-cGA 5iv5-a1-m1-cGA_5iv5-a1-m1-cID 5iv5-a1-m1-cID_5iv5-a1-m1-cU KTYTAQFPTGRDLYKNGLLFTAYNMISKSPIANILLPRSKSDVDTSSHRFYGGAENRTKVFTWDLTPRSTEDLMAIINIYQYFNYFSYGETLVVSNPTVWMVKNFGATSKFDGKTEIFGPCQIQSIRFDKTPNGNFNGLAIAPNLPSTFTLEITMREIITLNRAS KTYTAQFPTGRDLYKNGLLFTAYNMISKSPIANILLPRSKSDVDTSSHRFYGGAENRTKVFTWDLTPRSTEDLMAIINIYQYFNYFSYGETLVVSNPTVWMVKNFGATSKFDGKTEIFGPCQIQSIRFDKTPNGNFNGLAIAPNLPSTFTLEITMREIITLNRAS 5iv5-a1-m1-cW_5iv5-a1-m1-ct Cryo-electron microscopy structure of the hexagonal pre-attachment T4 baseplate-tail tube complex P13341 P13341 4.11 ELECTRON MICROSCOPY 173 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 192 192 5iv5-a1-m1-cBG_5iv5-a1-m1-cDJ 5iv5-a1-m1-cBG_5iv5-a1-m1-ct 5iv5-a1-m1-cDJ_5iv5-a1-m1-cGC 5iv5-a1-m1-cGC_5iv5-a1-m1-cIF 5iv5-a1-m1-cIF_5iv5-a1-m1-cW YSLEEFNNQAINADFQRNNMFSCVFATTPSTQRTVQSLLGSFTVGTYLIDFFNMAYNSSGLMIYSVKMPENRLSYETDWNYNSPNIRITGRELDPLVISFRMDSEACNYRAMQDWVNSVQDPVTGLRALPQDVEADIQVNLHSRNGLPHTAVMFTMHSISVSAPELSYDGDNQITTFDVTFAYRVMQAGAVD YSLEEFNNQAINADFQRNNMFSCVFATTPSTQRTVQSLLGSFTVGTYLIDFFNMAYNSSGLMIYSVKMPENRLSYETDWNYNSPNIRITGRELDPLVISFRMDSEACNYRAMQDWVNSVQDPVTGLRALPQDVEADIQVNLHSRNGLPHTAVMFTMHSISVSAPELSYDGDNQITTFDVTFAYRVMQAGAVD 5iv5-a1-m1-cZ_5iv5-a1-m1-cw Cryo-electron microscopy structure of the hexagonal pre-attachment T4 baseplate-tail tube complex P19061 P19061 4.11 ELECTRON MICROSCOPY 17 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 1004 1004 5iv5-a1-m1-cBJ_5iv5-a1-m1-cEC 5iv5-a1-m1-cBJ_5iv5-a1-m1-cw 5iv5-a1-m1-cC_5iv5-a1-m1-cGF 5iv5-a1-m1-cC_5iv5-a1-m1-cZ 5iv5-a1-m1-cEC_5iv5-a1-m1-cGF TVKAPSVTSLRISKLSANQVQVRWDDVGANFYYFVEIAETKTNSGENLPSNQYRWINLGYTANNSFFFDDADPLTTYIIRVATAAQDFEQSDWIYTEEFETFATNAYTFQNMIEMQLANKFIQEKFTLNNSDYVNFNNDTIMAALMNESFQFSPSYVDVSSISNFIIGENEYHEIQGSIQQVCKDINRVYLMESEGILYLFERYQPVVKVSNDKGQTWKAVKLFNDRVGYPLSKTVYYQSANTTYVLGYDKIFYGRKLHLGFDVEIFATYATLPANVYRIAEAITCTDDYIYVVARDKVRYIKTSNALIDFDPLSPTYSERLFEPDTMTITGNPKAVCYKMDSICDKVFALIIGEVETLNANPRTSKIIDSADKGIYVLNHDEKTWKRVFGNTEEERRRIQPGYANMSTDGKLVSLSSSNFKFLSDNVVNDPETAAKYQLIGAVKYEFPREWLADKHYHMMAFIADETSDWETFTPQPMKYYAEPFFNWSKKSNTRCWINNSDRAVVVYADLKYTKVIENIPETSPDRLVHEYWDDGDCTIVMPNVKFTGFKKYASGMLFYKASGEIISYYDFNYRVRDTVEIIWKPTEVFLKAFLQNQEHETPWSPEEERGLADPDLRPLIGTMMPDSYLLQDSNFEAFCEAYIQYLSDGYGTQYNNLRNLIRNQYPREEHAWEYLWSEIYKRNIYLNADKRDAVARFFESRSYDFYSTKGIEASYKFLFKVLYNEEVEIEIESGAGTEYDIIVQSDSLTEDLVGQTIYTATGRCNVTYIERSYSNGKLQWTVTIHNLLGRLIAGQEVKAERLPSFEGEIIRGVKGKDLLQNNIDYINRSRSYYVMKIKSNLPSSRWKSDVIRFVHPVGFGFIAITLLTMFINVGLTLKHTETIINKYKNYKWDSGLPTEYADRIAKLTPTGEIEHDSVTGEAIYEPGPMAGVKYPLPDDYNAENNNSIFQGQLPSERRKLMSPLFDASGTTFAQFRDLVNKRLKDNIGNPRDPENPTQVKID TVKAPSVTSLRISKLSANQVQVRWDDVGANFYYFVEIAETKTNSGENLPSNQYRWINLGYTANNSFFFDDADPLTTYIIRVATAAQDFEQSDWIYTEEFETFATNAYTFQNMIEMQLANKFIQEKFTLNNSDYVNFNNDTIMAALMNESFQFSPSYVDVSSISNFIIGENEYHEIQGSIQQVCKDINRVYLMESEGILYLFERYQPVVKVSNDKGQTWKAVKLFNDRVGYPLSKTVYYQSANTTYVLGYDKIFYGRKLHLGFDVEIFATYATLPANVYRIAEAITCTDDYIYVVARDKVRYIKTSNALIDFDPLSPTYSERLFEPDTMTITGNPKAVCYKMDSICDKVFALIIGEVETLNANPRTSKIIDSADKGIYVLNHDEKTWKRVFGNTEEERRRIQPGYANMSTDGKLVSLSSSNFKFLSDNVVNDPETAAKYQLIGAVKYEFPREWLADKHYHMMAFIADETSDWETFTPQPMKYYAEPFFNWSKKSNTRCWINNSDRAVVVYADLKYTKVIENIPETSPDRLVHEYWDDGDCTIVMPNVKFTGFKKYASGMLFYKASGEIISYYDFNYRVRDTVEIIWKPTEVFLKAFLQNQEHETPWSPEEERGLADPDLRPLIGTMMPDSYLLQDSNFEAFCEAYIQYLSDGYGTQYNNLRNLIRNQYPREEHAWEYLWSEIYKRNIYLNADKRDAVARFFESRSYDFYSTKGIEASYKFLFKVLYNEEVEIEIESGAGTEYDIIVQSDSLTEDLVGQTIYTATGRCNVTYIERSYSNGKLQWTVTIHNLLGRLIAGQEVKAERLPSFEGEIIRGVKGKDLLQNNIDYINRSRSYYVMKIKSNLPSSRWKSDVIRFVHPVGFGFIAITLLTMFINVGLTLKHTETIINKYKNYKWDSGLPTEYADRIAKLTPTGEIEHDSVTGEAIYEPGPMAGVKYPLPDDYNAENNNSIFQGQLPSERRKLMSPLFDASGTTFAQFRDLVNKRLKDNIGNPRDPENPTQVKID 5ivl-a1-m1-cA_5ivl-a1-m1-cB CshA Helicase 2.3 X-RAY DIFFRACTION 107 0.988 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 404 413 SQEVMKAIERMGFEETTPIQAKTIPLSLQNKDVIGQAQTGTGKTAAFGIPIVEKVDVKNGAIQALVVAPTRELAIQVSEELYKIGAVKRVRVLPIYGGQDIERQIRALKKHPHVIVGTPGRIIDHINRGTLRLEHVHTVVLDEADEMLNMGFIEDIEAILSHVPAERQTLLFSATMPDPIRRIAERFMNEPELVKVKPNIQQYYLEVHEKKKFDILTRLLDIQAPELAIVFGRTKRRVDELAEALNLRGYAAEGIHGDLSQAKRLSVLRKFKEGAIEILVATDVAARGLDISGVTHVYNFDIPQDPESYVHRIGRTGRGVAMTFVTPREIGQLHHIERTTKRKMERMKPPTLDEALEGQQRIAIEKLLNVVETENLSFYKRAAEELLEEDSVTIVAACLKMLEH FQELGLSQEVMKAIERMGFEETTPIQAKTIPLSLQNKDVIGQAQTGTGKTAAFGIPIVEKVDVKNGAIQALVVAPTRELAIQVSEELYKIGAVKRVRVLPIYGGQDIERQIRALKKHPHVIVGTPGRIIDHINRGTLRLEHVHTVVLDEADEMLGFIEDIEAILSHVPAERQTLLFSATMPDPIRRIAERFMNEPELVKVKAVPNIQQYYLEVHEKKKFDILTRLLDIQAPELAIVFGRTKRRVDELAEALNLRGYAAEGIHGDLSQAKRLSVLRKFKEGAIEILVATDVAARGLDISGVTHVYNFDIPQDPESYVHRIGRTGRAGKTGVAMTFVTPREIGQLHHIERTTKRKMERMKPPTLDEALEGQQRIAIEKLLNVVETEFYKRAAEELLEEHDSVTIVAACLKMLEHH 5iw4-a1-m1-cA_5iw4-a1-m1-cB Crystal structure of E. coli NudC in complex with NAD P32664 P32664 2.6 X-RAY DIFFRACTION 119 1.0 550677 (Escherichia coli B354) 550677 (Escherichia coli B354) 257 258 1vk6-a1-m1-cA_1vk6-a1-m2-cA 2gb5-a1-m1-cB_2gb5-a1-m1-cA 5isy-a1-m1-cC_5isy-a1-m1-cA 5iw5-a1-m1-cB_5iw5-a1-m2-cB 5iw5-a2-m1-cA_5iw5-a2-m3-cA 7e44-a1-m1-cB_7e44-a1-m1-cA 7e44-a2-m1-cF_7e44-a2-m1-cE SMDRIIEKLDHGWWVVSHEQKLWLPKGELPYGEAANFDLVGQRALQIGEWQGEPVWLVQQQRRHDMGSVRQVIDLDVGLFQLAGRGVQLAEFYRSHKYCGYCGHEMYPSKTEWAMLCSHCRERYYPQIAPCIIVAIRRDDSILLAQHTRHRNGVHTVLAGFVEVGETLEQAVAREVMEESGIKVKNLRYVTSQPWPFPQSLMTAFMAEYDSGDIVIDPKELLEANWYRYDDLPLLPPPGTVARRLIEDTVAMCRAEY SMDRIIEKLDHGWWVVSHEQKLWLPKGELPYGEAANFDLVGQRALQIGEWQGEPVWLVQQQRRHDMGSVRQVIDLDVGLFQLAGRGVQLAEFYRSHKYCGYCGHEMYPSKTEWAMLCSHCRERYYPQIAPCIIVAIRRDDSILLAQHTRHRNGVHTVLAGFVEVGETLEQAVAREVMEESGIKVKNLRYVTSQPWPFPQSLMTAFMAEYDSGDIVIDPKELLEANWYRYDDLPLLPPPGTVARRLIEDTVAMCRAEYE 5iw9-a1-m1-cB_5iw9-a1-m1-cA Structure of bacteriophage T4 gp25, sheath polymerization initiator P09425 P09425 2.47 X-RAY DIFFRACTION 45 0.992 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 122 123 NKLYSDIDPEKDWNKDVSRSLGLRSIKNSLLGIITTRKGSRPFDPEFGCDLSDQLFENTPLTADTVERNIESAVRNYEPRIDKLAVNVIPVYDDYTLIVEIRFSVIDNPDDIEQIKLQLASS NINKLYSDIDPEKDWNKDVSRSLGLRSIKNSLLGIITTRKGSRPFDPEFGCDLSDQLFENTPLTADTVERNIESAVRNYEPRIDKLAVNVIPVYDDYTLIVEIRFSVIDNPDDIEQIKLQLAS 5iwd-a1-m1-cA_5iwd-a1-m2-cA HCMV DNA polymerase subunit UL44 complex with a small molecule P16790 P16790 2.56 X-RAY DIFFRACTION 57 1.0 10360 (Human herpesvirus 5 strain AD169) 10360 (Human herpesvirus 5 strain AD169) 261 261 1t6l-a1-m1-cA_1t6l-a1-m2-cA 1yyp-a1-m1-cA_1yyp-a1-m2-cA 5ixa-a1-m1-cA_5ixa-a1-m1-cB RKDRLSEPPTLALRLKPYKTAIQQLRSVIRALKENTTVTFLPTPSLILQTVRSHCVSKITFNSSCLYITDKSFQPKTINNSTPLLGNFMYLTSSKDLTKFYVQDISDLSAKISMCAPDFNMEFSSACVHGQDIVRESENSAVHVDLDFGVVADLLKWIGPPTGTVQILVHAGPPAIKFILTNGSELEFTSNNRVSFHGVKNMRINVQLKNFYQTLLNCAVTKLPCTLRIVTEHDTLLYVASRNGLFAVENFLTEEPFQRGD RKDRLSEPPTLALRLKPYKTAIQQLRSVIRALKENTTVTFLPTPSLILQTVRSHCVSKITFNSSCLYITDKSFQPKTINNSTPLLGNFMYLTSSKDLTKFYVQDISDLSAKISMCAPDFNMEFSSACVHGQDIVRESENSAVHVDLDFGVVADLLKWIGPPTGTVQILVHAGPPAIKFILTNGSELEFTSNNRVSFHGVKNMRINVQLKNFYQTLLNCAVTKLPCTLRIVTEHDTLLYVASRNGLFAVENFLTEEPFQRGD 5iwl-a1-m1-cA_5iwl-a1-m1-cB CD47-diabody complex 2.8 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 VQLVQSGAEVKKPGASVKVSCKASGYTFTNYNMHWVRQAPGQRLEWMGTIYPGNDDTSYNQKFKDRVTITADTSASTAYMELSSLRSEDTAVYYCARGGYRAMDYWGQGTLVTVSSGGSGGDIVMTQSPLSLPVTPGEPASISCRSSQSIVYSNGNTYLGWYLQKPGQSPQLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDVGVYYCFQGSHVPYTFGQGTKLEI VQLVQSGAEVKKPGASVKVSCKASGYTFTNYNMHWVRQAPGQRLEWMGTIYPGNDDTSYNQKFKDRVTITADTSASTAYMELSSLRSEDTAVYYCARGGYRAMDYWGQGTLVTVSSGGSGGDIVMTQSPLSLPVTPGEPASISCRSSQSIVYSNGNTYLGWYLQKPGQSPQLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDVGVYYCFQGSHVPYTFGQGTKLEI 5iws-a1-m1-cA_5iws-a1-m2-cA Crystal structure of the transporter MalT, the EIIC domain from the maltose-specific phosphotransferase system Q63GK8 Q63GK8 2.551 X-RAY DIFFRACTION 215 1.0 288681 (Bacillus cereus E33L) 288681 (Bacillus cereus E33L) 427 427 6bvg-a1-m1-cA_6bvg-a1-m1-cB FWQKFGKALLVVVAVPAAGLISIGKLIGSAGDINAVHTIARVEDIGWAIITNLHILFAVAIGGSWAKDRAGGAFAALLAFVLTNRITGAIFGVNAELADSKAKVSSVLAGDLIVKDYFTSVLGAPALNGVFVGIITGFLGATLYNKYYNYNKLPQALAFFNGKRFVPFVVIVWSTVTAIVLSLLWPFIQSGLNEFGRWIAASKDSAPIVAPFVYGTLERLLLPFGLHHLTIPNYTELGGTYTLTGSKVGQVVAGQDPLWLAWITDLNNLLANGDTKAYNDLLNNVVPARFKAGQVIGSTAALGIAFAFRNVDKEKRAKYKPFLSAALAVFLTGVTEPIEFFFIAPVLYVVYAITTGLAFALADLINLRVHAFGFIELITRTPVNAGLTRDLINFVIVSLVFFGLNFTLFNFLIKKFNLPTPGRAGNY FWQKFGKALLVVVAVPAAGLISIGKLIGSAGDINAVHTIARVEDIGWAIITNLHILFAVAIGGSWAKDRAGGAFAALLAFVLTNRITGAIFGVNAELADSKAKVSSVLAGDLIVKDYFTSVLGAPALNGVFVGIITGFLGATLYNKYYNYNKLPQALAFFNGKRFVPFVVIVWSTVTAIVLSLLWPFIQSGLNEFGRWIAASKDSAPIVAPFVYGTLERLLLPFGLHHLTIPNYTELGGTYTLTGSKVGQVVAGQDPLWLAWITDLNNLLANGDTKAYNDLLNNVVPARFKAGQVIGSTAALGIAFAFRNVDKEKRAKYKPFLSAALAVFLTGVTEPIEFFFIAPVLYVVYAITTGLAFALADLINLRVHAFGFIELITRTPVNAGLTRDLINFVIVSLVFFGLNFTLFNFLIKKFNLPTPGRAGNY 5ix0-a2-m1-cB_5ix0-a2-m1-cA HDAC2 WITH LIGAND BRD7232 Q92769 Q92769 1.72 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 366 369 KKVCYYYDGDIGNYYYGQGHPMKPHRIRMTHNLLLNYGLYRKMEIYRPHKATAEEMTKYHSDEYIKFLRSIRPDNMSEYSKQMQRFNVGEDCPVFDGLFEFCQLSTGGSVAGAVKLNRQQTDMAVNWAGGLHHAKKSEASGFCYVNDIVLAILELLKYHQRVLYIDIDIHHGDGVEEAFYTTDRVMTVSFHKYGEYFPGTGDLRDIGAGKGKYYAVNFPMRDGIDDESYGQIFKPIISKVMEMYQPSAVVLQCGADSLSGDRLGCFNLTVKGHAKCVEVVKTFNLPLLMLGGGGYTIRNVARCWTYETAVALDCEIPNELPYNDYFEYFGPDFKLHISPSNMTNQNTPEYMEKIKQRLFENLRMLP GGKKKVCYYYDGDIGNYYYGQGHPMKPHRIRMTHNLLLNYGLYRKMEIYRPHKATAEEMTKYHSDEYIKFLRSIRPDNMSEYSKQMQRFNVGEDCPVFDGLFEFCQLSTGGSVAGAVKLNRQQTDMAVNWAGGLHHAKKSEASGFCYVNDIVLAILELLKYHQRVLYIDIDIHHGDGVEEAFYTTDRVMTVSFHKYGEYFPGTGDLRDIGAGKGKYYAVNFPMRDGIDDESYGQIFKPIISKVMEMYQPSAVVLQCGADSLSGDRLGCFNLTVKGHAKCVEVVKTFNLPLLMLGGGGYTIRNVARCWTYETAVALDCEIPNELPYNDYFEYFGPDFKLHISPSNMTNQNTPEYMEKIKQRLFENLRMLP 5ix0-a2-m1-cB_5ix0-a2-m1-cC HDAC2 WITH LIGAND BRD7232 Q92769 Q92769 1.72 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 366 366 KKVCYYYDGDIGNYYYGQGHPMKPHRIRMTHNLLLNYGLYRKMEIYRPHKATAEEMTKYHSDEYIKFLRSIRPDNMSEYSKQMQRFNVGEDCPVFDGLFEFCQLSTGGSVAGAVKLNRQQTDMAVNWAGGLHHAKKSEASGFCYVNDIVLAILELLKYHQRVLYIDIDIHHGDGVEEAFYTTDRVMTVSFHKYGEYFPGTGDLRDIGAGKGKYYAVNFPMRDGIDDESYGQIFKPIISKVMEMYQPSAVVLQCGADSLSGDRLGCFNLTVKGHAKCVEVVKTFNLPLLMLGGGGYTIRNVARCWTYETAVALDCEIPNELPYNDYFEYFGPDFKLHISPSNMTNQNTPEYMEKIKQRLFENLRMLP KKVCYYYDGDIGNYYYGQGHPMKPHRIRMTHNLLLNYGLYRKMEIYRPHKATAEEMTKYHSDEYIKFLRSIRPDNMSEYSKQMQRFNVGEDCPVFDGLFEFCQLSTGGSVAGAVKLNRQQTDMAVNWAGGLHHAKKSEASGFCYVNDIVLAILELLKYHQRVLYIDIDIHHGDGVEEAFYTTDRVMTVSFHKYGEYFPGTGDLRDIGAGKGKYYAVNFPMRDGIDDESYGQIFKPIISKVMEMYQPSAVVLQCGADSLSGDRLGCFNLTVKGHAKCVEVVKTFNLPLLMLGGGGYTIRNVARCWTYETAVALDCEIPNELPYNDYFEYFGPDFKLHISPSNMTNQNTPEYMEKIKQRLFENLRMLP 5ix0-a2-m1-cC_5ix0-a2-m1-cA HDAC2 WITH LIGAND BRD7232 Q92769 Q92769 1.72 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 366 369 KKVCYYYDGDIGNYYYGQGHPMKPHRIRMTHNLLLNYGLYRKMEIYRPHKATAEEMTKYHSDEYIKFLRSIRPDNMSEYSKQMQRFNVGEDCPVFDGLFEFCQLSTGGSVAGAVKLNRQQTDMAVNWAGGLHHAKKSEASGFCYVNDIVLAILELLKYHQRVLYIDIDIHHGDGVEEAFYTTDRVMTVSFHKYGEYFPGTGDLRDIGAGKGKYYAVNFPMRDGIDDESYGQIFKPIISKVMEMYQPSAVVLQCGADSLSGDRLGCFNLTVKGHAKCVEVVKTFNLPLLMLGGGGYTIRNVARCWTYETAVALDCEIPNELPYNDYFEYFGPDFKLHISPSNMTNQNTPEYMEKIKQRLFENLRMLP GGKKKVCYYYDGDIGNYYYGQGHPMKPHRIRMTHNLLLNYGLYRKMEIYRPHKATAEEMTKYHSDEYIKFLRSIRPDNMSEYSKQMQRFNVGEDCPVFDGLFEFCQLSTGGSVAGAVKLNRQQTDMAVNWAGGLHHAKKSEASGFCYVNDIVLAILELLKYHQRVLYIDIDIHHGDGVEEAFYTTDRVMTVSFHKYGEYFPGTGDLRDIGAGKGKYYAVNFPMRDGIDDESYGQIFKPIISKVMEMYQPSAVVLQCGADSLSGDRLGCFNLTVKGHAKCVEVVKTFNLPLLMLGGGGYTIRNVARCWTYETAVALDCEIPNELPYNDYFEYFGPDFKLHISPSNMTNQNTPEYMEKIKQRLFENLRMLP 5ix1-a1-m1-cA_5ix1-a1-m1-cB Crystal structure of mouse Morc3 ATPase-CW cassette in complex with AMPPNP and H3K4me3 peptide F7BJB9 F7BJB9 2.6 X-RAY DIFFRACTION 165 0.998 10090 (Mus musculus) 10090 (Mus musculus) 414 419 5ix2-a1-m1-cA_5ix2-a1-m1-cB 6o1e-a1-m1-cA_6o1e-a1-m2-cA GIRLSALCPKFLHTNSTSHTWPFSAVAELIDNAYDPDVNAKQIWIDKTVISDHICLTFTDNGNGMTADKLHKMLSFGFSDKVTMNGHVPVGLYGNGFKSGSMRLGKDAMVFTKNGETMSVGFLSQTYLEVIKAEHVVVPIVTFNKHRQMINLTESKASLAAILEHSLFSTEQKLLAELNAIMGKKGTRIIIWNLRSYKNATEFDFEKDKYDIRIPEDYKKQEIAPESDYSLRAYCSILYLKPRMQIIIRGQKVKTQLVSKSLAYIERDVYRPKFLTRTVRITFGFNCRNKDHYGIMMYHKNRLIKAYEKVGCQNMGVGVVGIIECNFLKPTHNKQDFDYTNEYRLTILALGEKLNDYWNEMKKRPDQTWVQCDACLKWRKLPDGIDQLPEKWYCSNNPDPQFRNCEVPEEPEDE GIRLSALCPKFLHTNSTSHTWPFSAVAELIDNAYDPDVNAKQIWIDKTVISDHICLTFTDNGNGMTADKLHKMLSFGFSDKVTMNGHVPVGLYGNGFKSGSMRLGKDAMVFTKNGETMSVGFLSQTYLEVIKAEHVVVPIVTFNKHRQMINLTESKASLAAILEHSLFSTEQKLLAELNAIMGKKGTRIIIWNLRSYKNATEFDFEKDKYDIRIPEDYKKQERQIAPESDYSLRAYCSILYLKPRMQIIIRGQKVKTQLVSKSLAYIERDVYRPKFLTRTVRITFGFNCRNKDHYGIMMYHKNRLIKAYEKVGCQLKANNMGVGVVGIIECNFLKPTHNKQDFDYTNEYRLTILALGEKLNDYWNEMKKRPDQTWVQCDACLKWRKLPDGIDQLPEKWYCSNNPDPQFRNCEVPEEPED 5ixg-a2-m1-cC_5ixg-a2-m1-cD Crystal Structure of Burkholderia cenocepacia BcnB A2VST2 A2VST2 1.6 X-RAY DIFFRACTION 85 1.0 350702 (Burkholderia cenocepacia PC184) 350702 (Burkholderia cenocepacia PC184) 169 169 5ixg-a1-m1-cA_5ixg-a1-m1-cB SATYQFDPSHTYPSFEADHFGGLSVWRGKFDKSSGTVTLDRAAKTGTVDVTTDIASIHTGSAKLDEHLQTAEFFDAAKFPQANYKGTIKFDGDKPVSVVGNLTLHGVTKPLTLKIDSFKCMPHPMLKREVCGVDAVGEFSRDDFGLDYGKQYGFKMKTKLLITAEAVKQ SATYQFDPSHTYPSFEADHFGGLSVWRGKFDKSSGTVTLDRAAKTGTVDVTTDIASIHTGSAKLDEHLQTAEFFDAAKFPQANYKGTIKFDGDKPVSVVGNLTLHGVTKPLTLKIDSFKCMPHPMLKREVCGVDAVGEFSRDDFGLDYGKQYGFKMKTKLLITAEAVKQ 5iz1-a1-m1-cA_5iz1-a1-m1-cD Physcomitrella patens FBPase A9T230 A9T230 3 X-RAY DIFFRACTION 59 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 321 321 5iz1-a1-m1-cB_5iz1-a1-m1-cC ITTFTTWLLKQEQAGVIDGELTIVLSSISLACKQIASLVQRAGISNLTGEDQKKLDVISNEVFSSCLRSSGRTGIIASEEEDTPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYKPNEECLTIDEVAQNCVVNVCQPGSNLLSAGYCMYSSSVILVLSVGHGVYGFTLDPLYGEFVLSHEEIKIPKSGKIYSFNEGNYALWDDKLKKYVDSLKDPGPSGKPYSARYIGSLVGDFHRTMLYGGIYGYPRDSKSKNGKLRLLYECAPMSYLAEQAGGKGSDGHQRILDIQPEQVHQRVPLYVGSTEEVEKLEKFLA ITTFTTWLLKQEQAGVIDGELTIVLSSISLACKQIASLVQRAGISNLTGEDQKKLDVISNEVFSSCLRSSGRTGIIASEEEDTPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYKPNEECLTIDEVAQNCVVNVCQPGSNLLSAGYCMYSSSVILVLSVGHGVYGFTLDPLYGEFVLSHEEIKIPKSGKIYSFNEGNYALWDDKLKKYVDSLKDPGPSGKPYSARYIGSLVGDFHRTMLYGGIYGYPRDSKSKNGKLRLLYECAPMSYLAEQAGGKGSDGHQRILDIQPEQVHQRVPLYVGSTEEVEKLEKFLA 5iz1-a1-m1-cC_5iz1-a1-m1-cD Physcomitrella patens FBPase A9T230 A9T230 3 X-RAY DIFFRACTION 158 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 321 321 5iz1-a1-m1-cA_5iz1-a1-m1-cB ITTFTTWLLKQEQAGVIDGELTIVLSSISLACKQIASLVQRAGISNLTGEDQKKLDVISNEVFSSCLRSSGRTGIIASEEEDTPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYKPNEECLTIDEVAQNCVVNVCQPGSNLLSAGYCMYSSSVILVLSVGHGVYGFTLDPLYGEFVLSHEEIKIPKSGKIYSFNEGNYALWDDKLKKYVDSLKDPGPSGKPYSARYIGSLVGDFHRTMLYGGIYGYPRDSKSKNGKLRLLYECAPMSYLAEQAGGKGSDGHQRILDIQPEQVHQRVPLYVGSTEEVEKLEKFLA ITTFTTWLLKQEQAGVIDGELTIVLSSISLACKQIASLVQRAGISNLTGEDQKKLDVISNEVFSSCLRSSGRTGIIASEEEDTPVAVEESYSGNYIVVFDPLDGSSNIDAAVSTGSIFGIYKPNEECLTIDEVAQNCVVNVCQPGSNLLSAGYCMYSSSVILVLSVGHGVYGFTLDPLYGEFVLSHEEIKIPKSGKIYSFNEGNYALWDDKLKKYVDSLKDPGPSGKPYSARYIGSLVGDFHRTMLYGGIYGYPRDSKSKNGKLRLLYECAPMSYLAEQAGGKGSDGHQRILDIQPEQVHQRVPLYVGSTEEVEKLEKFLA 5iz2-a1-m1-cA_5iz2-a1-m1-cB Crystal structure of the N. clavipes spidroin NTD at pH 6.5 B5SYS5 B5SYS5 2.02 X-RAY DIFFRACTION 87 1.0 119 126 QNTPWSSTELADAFINAFMNEAGRTGAFTADQLDDMSTIGDTIKTAMDKMARSNKSSKGKLQALNMAFASSMAEIAAGLSVDAKTNAIADSLNSAFYQTTGAANPQFVNEIRSLINMFA QNTPWSSTELADAFINAFMNEAGRTGAFTADQLDDMSTIGDTIKTAMDKMARSNKSSKGKLQALNMAFASSMAEIAAVEQGGLSVDAKTNAIADSLNSAFYQTTGAANPQFVNEIRSLINMFAQSS 5iz3-a1-m1-cB_5iz3-a1-m1-cA P. patens sedoheptulose-1,7-bisphosphatase 1.3 X-RAY DIFFRACTION 140 0.99 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 315 316 ELGDSLEEFLAKATTDKNLARLLVCMGEALRTIAFKVRTASCGATACTNTFGDEQLAVDMLADKLLFEALRHSHVCKYACSEEEPILQDMEGEGFSVAFDPLDGSSIVDTNFTVGTIFGVWPGDKLTGITGRDQAASAMGIYGPRTTYVVAINGFPGTHEFLLMDDGKWQHVKETTEIKEGKLFSPGNLRATFDNADYEKLINYYVSEKYTLRYTGGMVPDVNQIIVKERGIFTNVTSPTTKAKLRLLFEVAPLGLLIENAGGYSSDGKQSVLDKVVVNTDDRTQVAYGSRDEIIRFEETLYGDSRLKAELAATV ELGDSLEEFLAKATTDKNLARLLVCMGEALRTIAFKVRTASCGATACVNTFGDEQLAVDMLADKLLFEALRHSHVCKYACSEEEPILQDMEGEGFSVAFDPLDGSSIVDTNFTVGTIFGVWPGDKLTGITGRDQAASAMGIYGPRTTYVVAINGFPGTHEFLLMDDGKWQHVKETTEIKEGKLFSPGNLRATFDNADYEKLINYYVSEKYTLRYTGGMVPDVNQIIVKERGIFTNVTSPTTKAKLRLLFEVAPLGLLIENAGGYSSDGKQSVLDKVVVNTDDRTQVAYGSRDEIIRFEETLYGDSRLKAELAAATV 5iz4-a1-m2-cA_5iz4-a1-m4-cA Crystal structure of a putative short-chain dehydrogenase/reductase from Burkholderia xenovorans Q13GL4 Q13GL4 1.75 X-RAY DIFFRACTION 112 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 247 247 5iz4-a1-m1-cA_5iz4-a1-m3-cA QSSTPVCVITGSASGIGAATALRFAQAGWSVAIGNFDDSTRDAASTVEALCRDAGAQTLIFDADVGKDADCRHAVDMVASRWQRIDALINCAGTTRVIPHNAFDQIDDFEFERVYRVNLIGLYQMTRAAVPLLRESASATRSTSVVNVSSLAGLNGTGSSIAYAASKGAVNTLTLSLARNLAPHIRVNALAPGMVDDGGVLSRMTESAPLKRVSRPAEIAELAWFLTAHAPAITGQVIAAENGLLLG QSSTPVCVITGSASGIGAATALRFAQAGWSVAIGNFDDSTRDAASTVEALCRDAGAQTLIFDADVGKDADCRHAVDMVASRWQRIDALINCAGTTRVIPHNAFDQIDDFEFERVYRVNLIGLYQMTRAAVPLLRESASATRSTSVVNVSSLAGLNGTGSSIAYAASKGAVNTLTLSLARNLAPHIRVNALAPGMVDDGGVLSRMTESAPLKRVSRPAEIAELAWFLTAHAPAITGQVIAAENGLLLG 5iz4-a1-m3-cA_5iz4-a1-m4-cA Crystal structure of a putative short-chain dehydrogenase/reductase from Burkholderia xenovorans Q13GL4 Q13GL4 1.75 X-RAY DIFFRACTION 114 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 247 247 5iz4-a1-m1-cA_5iz4-a1-m2-cA QSSTPVCVITGSASGIGAATALRFAQAGWSVAIGNFDDSTRDAASTVEALCRDAGAQTLIFDADVGKDADCRHAVDMVASRWQRIDALINCAGTTRVIPHNAFDQIDDFEFERVYRVNLIGLYQMTRAAVPLLRESASATRSTSVVNVSSLAGLNGTGSSIAYAASKGAVNTLTLSLARNLAPHIRVNALAPGMVDDGGVLSRMTESAPLKRVSRPAEIAELAWFLTAHAPAITGQVIAAENGLLLG QSSTPVCVITGSASGIGAATALRFAQAGWSVAIGNFDDSTRDAASTVEALCRDAGAQTLIFDADVGKDADCRHAVDMVASRWQRIDALINCAGTTRVIPHNAFDQIDDFEFERVYRVNLIGLYQMTRAAVPLLRESASATRSTSVVNVSSLAGLNGTGSSIAYAASKGAVNTLTLSLARNLAPHIRVNALAPGMVDDGGVLSRMTESAPLKRVSRPAEIAELAWFLTAHAPAITGQVIAAENGLLLG 5izn-a1-m1-cD_5izn-a1-m1-cA The crystal structure of 50S ribosomal protein L25 from Vibrio vulnificus CMCP6 Q8D8W6 Q8D8W6 2.35 X-RAY DIFFRACTION 29 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 89 91 5izn-a1-m1-cC_5izn-a1-m1-cB 5izn-a2-m1-cE_5izn-a2-m1-cG 5izn-a2-m1-cF_5izn-a2-m1-cH KFEAVVRTELGKGASRRLRLAGQFPAVVYGGEAAPVAVALNHDDIVNQDKPEFYEAITLVIGGEEVKVKPQDVQRHAFKPKVEHDFIRI NAKFEAVVRTELGKGASRRLRLAGQFPAVVYGGEAAPVAVALNHDDIVNQDKPEFYEAITLVIGGEEVKVKPQDVQRHAFKPKVEHDFIRI 5izn-a1-m1-cD_5izn-a1-m1-cB The crystal structure of 50S ribosomal protein L25 from Vibrio vulnificus CMCP6 Q8D8W6 Q8D8W6 2.35 X-RAY DIFFRACTION 30 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 89 91 5izn-a1-m1-cC_5izn-a1-m1-cA 5izn-a2-m1-cF_5izn-a2-m1-cG 5izn-a2-m1-cH_5izn-a2-m1-cE KFEAVVRTELGKGASRRLRLAGQFPAVVYGGEAAPVAVALNHDDIVNQDKPEFYEAITLVIGGEEVKVKPQDVQRHAFKPKVEHDFIRI NAKFEAVVRTELGKGASRRLRLAGQFPAVVYGGEAAPVAVALNHDDIVNQDKPEFYEAITLVIGGEEVKVKPQDVQRHAFKPKVEHDFIRI 5izn-a2-m1-cF_5izn-a2-m1-cE The crystal structure of 50S ribosomal protein L25 from Vibrio vulnificus CMCP6 Q8D8W6 Q8D8W6 2.35 X-RAY DIFFRACTION 111 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 88 90 5izn-a1-m1-cA_5izn-a1-m1-cB KFEAVVRTELGKGASRRLRLAGQFPAVVYGGEAAPVAVALNHDDIVNQDKPEFYEAITLVIGGEEVKVKPQDVQHAFKPKVEHDFIRI AKFEAVVRTELGKGASRRLRLAGQFPAVVYGGEAAPVAVALNHDDIVNQDKPEFYEAITLVIGGEEVKVKPQDVQRHAFKPKVEHDFIRI 5izs-a1-m1-cA_5izs-a1-m1-cB De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 2.36 X-RAY DIFFRACTION 62 1.0 32630 (synthetic construct) 32630 (synthetic construct) 77 77 5izs-a1-m1-cA_5izs-a1-m1-cC 5izs-a1-m1-cB_5izs-a1-m1-cC 5izs-a2-m1-cE_5izs-a2-m1-cD 5izs-a2-m1-cF_5izs-a2-m1-cD 5izs-a2-m1-cF_5izs-a2-m1-cE AVADLQRLNIELARKLLEAVARLQELNIDLVRKTSELTDEKTIREEIRKVKEESKRIVEEAEEEIRRAKEESRYIAD AVADLQRLNIELARKLLEAVARLQELNIDLVRKTSELTDEKTIREEIRKVKEESKRIVEEAEEEIRRAKEESRYIAD 5izu-a1-m1-cA_5izu-a1-m1-cC A new binding site outside the canonical PDZ domain determines the specific interaction between Shank and SAPAP and their function Q4ACU6 Q4ACU6 2.494 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 124 124 RTKRLFRHYTVGSYDSLTSHSDYVIDDKVAILQKRDHEGFGFVLRGAKAETPIEEFTPTPAFPALQYLESVDVEGVAWRAGLRTGDFLIEVNGVNVVKVGHKQVVGLIRQGGNRLVMKVVSVTR RTKRLFRHYTVGSYDSLTSHSDYVIDDKVAILQKRDHEGFGFVLRGAKAETPIEEFTPTPAFPALQYLESVDVEGVAWRAGLRTGDFLIEVNGVNVVKVGHKQVVGLIRQGGNRLVMKVVSVTR 5izv-a3-m1-cA_5izv-a3-m3-cA Crystal structure of the legionella pneumophila effector protein RavZ - F222 Q5ZUV9 Q5ZUV9 2.814 X-RAY DIFFRACTION 118 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 376 376 5hzy-a2-m1-cA_5hzy-a2-m2-cA 5izv-a4-m1-cB_5izv-a4-m2-cB 5ms7-a1-m1-cA_5ms7-a1-m2-cA 5ms8-a1-m1-cA_5ms8-a1-m2-cA SIYPPETSWEVNKGMNSSRLHKLYSLFFDKSSAFYLGDDVSVLEDKPLTGAYGFQSKKNDQQIFLFRPDSDYVAGYHVDAKSDAGWVNDKLDRRLSEISEFCSKATQPATFILPFVEMPTDITKGVQHQVLLTISYDPKSKQLTPTVYDSIGRDTYSESLSSYFKGKYRTTCDEILTQSIEKAIKSTDFTLGKFTRAAYNHQNRLTEGNSGSYTFRTIKEVISSSAQGTEVKIPGSGYITSNSYLTSQHVQDIESCIKYRNLGVVDIESALTEGKTLPVQLSEFIVALEDYGKLRSQQSEIGYSKTAKLTAVELLIGILNDIKGKNEISESQYDKLVKEVDCLMDSSLGKLVQFHLKNLGAESLQKLVLPCVKFDD SIYPPETSWEVNKGMNSSRLHKLYSLFFDKSSAFYLGDDVSVLEDKPLTGAYGFQSKKNDQQIFLFRPDSDYVAGYHVDAKSDAGWVNDKLDRRLSEISEFCSKATQPATFILPFVEMPTDITKGVQHQVLLTISYDPKSKQLTPTVYDSIGRDTYSESLSSYFKGKYRTTCDEILTQSIEKAIKSTDFTLGKFTRAAYNHQNRLTEGNSGSYTFRTIKEVISSSAQGTEVKIPGSGYITSNSYLTSQHVQDIESCIKYRNLGVVDIESALTEGKTLPVQLSEFIVALEDYGKLRSQQSEIGYSKTAKLTAVELLIGILNDIKGKNEISESQYDKLVKEVDCLMDSSLGKLVQFHLKNLGAESLQKLVLPCVKFDD 5j0a-a1-m1-cA_5j0a-a1-m1-cB Crystal structure of PDZ-binding kinase Q96KB5 Q96KB5 2.74 X-RAY DIFFRACTION 300 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 299 303 STPTINIPASPFMQKLGFGTGVNVYLMKRSPRGLSHSPWAVKKINPICNDHYRSVYQKRLMDEAKILKSLHHPNIVGYRAFTEANDGSLCLAMEYGGEKSLNDLIEERYKASQDPFPAAIILKVALNMARGLKYLHQEKKLLHGDIKSSNVVIKGDFETIKICDVGVSLPLDENMEVTDPEACYIGTEPWKPKEAVEENGVITDKADIFAFGLTLWEMMTLSIPHINLSNDDDDEDKTFDESDFDDEAYYAALGTRPPINMEELDESYQKVIELFSVCTNEDPKDRPSAAHIVEALETA SVLCSTPTINIPASPFMQKLGFGTGVNVYLMKRSPRGLSHSPWAVKKINPICNDHYRSVYQKRLMDEAKILKSLHHPNIVGYRAFTEANDGSLCLAMEYGGEKSLNDLIEERYKASQDPFPAAIILKVALNMARGLKYLHQEKKLLHGDIKSSNVVIKGDFETIKICDVGVSLPLDENMEVTDPEACYIGTEPWKPKEAVEENGVITDKADIFAFGLTLWEMMTLSIPHINLSNDDDDEDKTFDESDFDDEAYYAALGTRPPINMEELDESYQKVIELFSVCTNEDPKDRPSAAHIVEALEAA 5j0b-a1-m1-cD_5j0b-a1-m1-cA Structure of the immune receptor CD33 in complex with 6'-sialyllactose P20138 P20138 2.48 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 213 5ihb-a1-m1-cD_5ihb-a1-m1-cA 5ihb-a2-m1-cC_5ihb-a2-m2-cB 5j06-a1-m1-cD_5j06-a1-m1-cA 5j06-a2-m1-cC_5j06-a2-m2-cB 5j0b-a2-m1-cC_5j0b-a2-m2-cB LQVQESVTVQEGLCVLVPCTFFHPIPYYDKNSPVHGYWFREGAIISGDSPVATNKLDQEVQEETQGRFRLLGDPSRNNCSLSIVDARRRDNGSYFFRMERGSTKYSYKSPQLSVHVTDLTHRPKILIPGTLEPGHSKNLTCSVSWACEQGTPPIFSWLSAAPTSLGPRTTHSSVLIITPRPQDHGTNLTCQVKFAGAGVTTERTIQLNV GFWLQVQESVTVQEGLCVLVPCTFFHPIPYYDKNSPVHGYWFREGAIISGDSPVATNKLDQEVQEETQGRFRLLGDPSRNNCSLSIVDARRRDNGSYFFRMERGSTKYSYKSPQLSVHVTDLTHRPKILIPGTLEPGHSKNLTCSVSWACEQGTPPIFSWLSAAPTSLGPRTTHSSVLIITPRPQDHGTNLTCQVKFAGAGVTTERTIQLNVT 5j0h-a2-m3-cB_5j0h-a2-m5-cB De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 1.64 X-RAY DIFFRACTION 59 1.0 32630 (synthetic construct) 32630 (synthetic construct) 72 72 5j0h-a1-m1-cA_5j0h-a1-m2-cA 5j0h-a1-m1-cA_5j0h-a1-m4-cA 5j0h-a1-m2-cA_5j0h-a1-m4-cA 5j0h-a2-m1-cB_5j0h-a2-m3-cB 5j0h-a2-m1-cB_5j0h-a2-m5-cB KYELRRALEELEKALRELKKSLDELERSLEELEKNPSEDALVENNRLNVENNKIIVEVLRIIAEVLKINAKS KYELRRALEELEKALRELKKSLDELERSLEELEKNPSEDALVENNRLNVENNKIIVEVLRIIAEVLKINAKS 5j0i-a1-m2-cA_5j0i-a1-m3-cA De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 2.202 X-RAY DIFFRACTION 58 1.0 32630 (synthetic construct) 32630 (synthetic construct) 73 73 5j0i-a1-m1-cA_5j0i-a1-m2-cA 5j0i-a1-m1-cA_5j0i-a1-m3-cA MGTKYELRRALEELEKALQELREMLRKLKESLEELKKNPSEDALVRNNELIVEVLRVIVEVLSIIARVLEINA MGTKYELRRALEELEKALQELREMLRKLKESLEELKKNPSEDALVRNNELIVEVLRVIVEVLSIIARVLEINA 5j0j-a1-m1-cB_5j0j-a1-m1-cC De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 2.256 X-RAY DIFFRACTION 60 1.0 32630 (synthetic construct) 32630 (synthetic construct) 69 71 5j0j-a1-m1-cA_5j0j-a1-m1-cC 5j0j-a1-m1-cB_5j0j-a1-m1-cA YKIKETLKRLEDSLRELRRILEELKEMLERLEKNPDKDVIVEVLKVIVKAIEASVENQRISAENQKALA TKYKIKETLKRLEDSLRELRRILEELKEMLERLEKNPDKDVIVEVLKVIVKAIEASVENQRISAENQKALA 5j0k-a1-m1-cB_5j0k-a1-m1-cA De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 1.54 X-RAY DIFFRACTION 76 1.0 32630 (synthetic construct) 32630 (synthetic construct) 73 74 TRTEIIRELERSLREQEELAKRLKELLRELERLQREGSSDEDVRELLREIKELVEEIEKLAREQKYLVEELKR TRTEIIRELERSLREQEELAKRLKELLRELERLQREGSSDEDVRELLREIKELVEEIEKLAREQKYLVEELKRQ 5j0l-a1-m1-cB_5j0l-a1-m1-cA De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 2.63 X-RAY DIFFRACTION 126 1.0 32630 (synthetic construct) 32630 (synthetic construct) 120 130 EKAARAAKELSRESARAAKELADSNAKAAEDLMREIARLLELMAEAIRELQKQAAESIADSQRLVVEAIIRLAEAVKQGASEKEIDEIVEEAKKRLEELAERSRQENKKIIDRAKYEMDE LMEKAARAAKELSRESARAAKELADSNAKAAEDLMREIARSSSSERLLELMAEAIRELQKQAAESIADSQRLVVEAIIRLAEAVKQGASEKEIDEIVEEAKKRLEELAERSRQENKKIIDRAKYEMDEES 5j10-a1-m1-cA_5j10-a1-m1-cB De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 2.02 X-RAY DIFFRACTION 92 1.0 32630 (synthetic construct) 32630 (synthetic construct) 70 70 TDELLRLAKEQAELLKEIKKLVEEIARLVKEIQEDPSDELLKTLAELVRKLKELVEDMERSMKEQLYIIK TDELLRLAKEQAELLKEIKKLVEEIARLVKEIQEDPSDELLKTLAELVRKLKELVEDMERSMKEQLYIIK 5j1j-a1-m1-cB_5j1j-a1-m1-cA Structure of FleN-AMPPNP complex G3XD64 G3XD64 1.55 X-RAY DIFFRACTION 112 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 248 273 7ejw-a1-m1-cB_7ejw-a1-m1-cA HPVQVIAVTGGKGGVGKTNVSVNLALALADLGRRVMLLDADLGLANVDVLLGLTPKRTLADVIEGRCELRDVLLLGPGGVRIVPAASGTQSMVHLSPMQHAGLIQAFSDISDNLDVLVVDTAAGIGDSVVSFVRAAQEVLLVVCDEPTSITDAYALIKLLNRDHGMTRFRVLANMAHSPQEGRNLFAKLTKVTDRFLDVALQYVGVIPYDESVRKAVQKQRAVYEAFPRSKASLAFKAVAQKVDSWPL GSMHPVQVIAVTGGKGGVGKTNVSVNLALALADLGRRVMLLDADLGLANVDVLLGLTPKRTLADVIEGRCELRDVLLLGPGGVRIVPAASGTQSMVHLSPMQHAGLIQAFSDISDNLDVLVVDTAAGIGDSVVSFVRAAQEVLLVVCDEPTSITDAYALIKLLNRDHGMTRFRVLANMAHSPQEGRNLFAKLTKVTDRFLDVALQYVGVIPYDESVRKAVQKQRAVYEAFPRSKASLAFKAVAQKVDSWPLPANPRGHLEFFVERLVQHPATG 5j1k-a1-m1-cA_5j1k-a1-m2-cA Crystal structure of Csd2-Csd2 dimer O26069 O26069 1.81 X-RAY DIFFRACTION 104 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 182 182 HLDNLNLAQKHLALMLIPNGMPIKTYSAIKPTKERNHPIKKIKGVESGIDFIAPLNTPVYASADGIVDFVKTNSNVGYGNLVRIEHAFGFSSIYTHLDHVNVQPKSFIQKGQLIGYSGKSGNSGGEKLHYEVRFLGKILDAQKFLAWDLDHFQSALEENKFIEWKNLFWVLEDIVQLQEHVD HLDNLNLAQKHLALMLIPNGMPIKTYSAIKPTKERNHPIKKIKGVESGIDFIAPLNTPVYASADGIVDFVKTNSNVGYGNLVRIEHAFGFSSIYTHLDHVNVQPKSFIQKGQLIGYSGKSGNSGGEKLHYEVRFLGKILDAQKFLAWDLDHFQSALEENKFIEWKNLFWVLEDIVQLQEHVD 5j2l-a1-m1-cA_5j2l-a1-m1-cB De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 1.96 X-RAY DIFFRACTION 102 1.0 32630 (synthetic construct) 32630 (synthetic construct) 76 76 SEDYKLREAQRELDKQRKDTEEIRKRLKEIQRLTDERTSTADELIKELREIIRRLQEQSEKLREIIEELEKIIRKR SEDYKLREAQRELDKQRKDTEEIRKRLKEIQRLTDERTSTADELIKELREIIRRLQEQSEKLREIIEELEKIIRKR 5j2s-a1-m1-cA_5j2s-a1-m1-cB NKR-P1B from Rattus norvegicus A4KWA1 A4KWA1 2 X-RAY DIFFRACTION 56 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 121 121 7odu-a2-m1-cC_7odu-a2-m2-cC KCPKDWHSHQDKCFHVSQTSITWKGSLADCGGKGATLLLVQDQEELRFLRNLTKRISSSFWIGLSYTLSDEKWKWINGSTLNSDALNITGDTEKDSCASVSQDKVLSESCDSDNIWICQEL KCPKDWHSHQDKCFHVSQTSITWKGSLADCGGKGATLLLVQDQEELRFLRNLTKRISSSFWIGLSYTLSDEKWKWINGSTLNSDALNITGDTEKDSCASVSQDKVLSESCDSDNIWICQEL 5j2z-a2-m1-cA_5j2z-a2-m2-cA PRV UL37 N-terminal half (R2 mutant) Q911W0 Q911W0 2.5 X-RAY DIFFRACTION 80 1.0 10345 (Suid alphaherpesvirus 1) 10345 (Suid alphaherpesvirus 1) 479 479 GSMEALVRALEEADHAVATVVQSRILEFFMAAGRETPAGVRGLWARALRLACRAYVETGTCEAAVLAENLAGLALWRLRHDWDEGTAPLLELLGVVNGDDTTAALTEAGLRTSAEFGPDAMFRLVSEWCAAFDEALAGARSADDVLAAPRVVPPEQTARALVQPRFATLYDMDFVQDGLRYVAQHTNWALPLALAVRQMQNEGLKPLTRALFALTIADEFFHDRQNPTLREQFAEAARAVDEAALVPVGEVNATPRTAVEVRVSAALAHGDAYVRELRPGTVARRLRTDQGVLALLDPGAQAVHVAAAADLDHTQVDATGVWEAVAASASPLQVVEALVTAGFTRRHCDLLERAVLDRAPRLTAAQAAVGCTAVVGGVVHRLLDDYGPGLDYVRAYTDVADTLEPLYGDVTAALGLPEKGVEAVVRACMAPRPPTEHVGAARAALLREVAAAERRAGLAHSAAREALNTWLAFRAQSRW GSMEALVRALEEADHAVATVVQSRILEFFMAAGRETPAGVRGLWARALRLACRAYVETGTCEAAVLAENLAGLALWRLRHDWDEGTAPLLELLGVVNGDDTTAALTEAGLRTSAEFGPDAMFRLVSEWCAAFDEALAGARSADDVLAAPRVVPPEQTARALVQPRFATLYDMDFVQDGLRYVAQHTNWALPLALAVRQMQNEGLKPLTRALFALTIADEFFHDRQNPTLREQFAEAARAVDEAALVPVGEVNATPRTAVEVRVSAALAHGDAYVRELRPGTVARRLRTDQGVLALLDPGAQAVHVAAAADLDHTQVDATGVWEAVAASASPLQVVEALVTAGFTRRHCDLLERAVLDRAPRLTAAQAAVGCTAVVGGVVHRLLDDYGPGLDYVRAYTDVADTLEPLYGDVTAALGLPEKGVEAVVRACMAPRPPTEHVGAARAALLREVAAAERRAGLAHSAAREALNTWLAFRAQSRW 5j33-a3-m1-cD_5j33-a3-m1-cF Isopropylmalate dehydrogenase in complex with NAD+ P93832 P93832 3.492 X-RAY DIFFRACTION 171 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 358 359 3r8w-a1-m1-cA_3r8w-a1-m1-cB 3r8w-a2-m1-cD_3r8w-a2-m1-cC 5j32-a1-m1-cB_5j32-a1-m1-cA 5j32-a2-m1-cC_5j32-a2-m1-cD 5j33-a1-m1-cB_5j33-a1-m1-cA 5j33-a2-m1-cH_5j33-a2-m1-cC 5j33-a4-m1-cE_5j33-a4-m1-cG 5j34-a1-m1-cA_5j34-a1-m1-cC 5j34-a2-m1-cB_5j34-a2-m1-cD RYTITLLPGDGIGPEVVSIAKNVLQQAGSLEGVEFNFREMPIGGAALDLVGVPLPEETISAAKESDAVLLGAIGGYKWDNNEKHLRPEKGLLQIRAALKVFANLRPATVLPQLVDASTLKREVAEGVDLMVVRELTGGIYFGEPRGIKTNENGEEVGFNTEVYAAHEIDRIARVAFETARKRRGKLCSVDKANVLEASILWRKRVTALASEYPDVELSHMYVDNAAMQLVRDPKQFDTIVTNNIFGDILSDEASMITGSIGMLPSASLSDSGPGLFEPIHGSAPDIAGQDKANPLATILSAAMLLKYGLGEEKAAKRIEDAVLVALNNGFRTGDIYSAGTKLVGCKEMGEEVLKSVDS KRYTITLLPGDGIGPEVVSIAKNVLQQAGSLEGVEFNFREMPIGGAALDLVGVPLPEETISAAKESDAVLLGAIGGYKWDNNEKHLRPEKGLLQIRAALKVFANLRPATVLPQLVDASTLKREVAEGVDLMVVRELTGGIYFGEPRGIKTNENGEEVGFNTEVYAAHEIDRIARVAFETARKRRGKLCSVDKANVLEASILWRKRVTALASEYPDVELSHMYVDNAAMQLVRDPKQFDTIVTNNIFGDILSDEASMITGSIGMLPSASLSDSGPGLFEPIHGSAPDIAGQDKANPLATILSAAMLLKYGLGEEKAAKRIEDAVLVALNNGFRTGDIYSAGTKLVGCKEMGEEVLKSVDS 5j3n-a2-m1-cA_5j3n-a2-m2-cA C-terminal domain of EcoR124I HsdR subunit fused with the pH-sensitive GFP variant ratiometric pHluorin P10486 P10486 2.45 X-RAY DIFFRACTION 96 1.0 6100 (Aequorea victoria) 6100 (Aequorea victoria) 385 385 HHSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKRHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKDDGNILGHKLEYNYNEHLVYIMADKQKNGTKAIFQVHHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLHTQSALSKDPNEKRDHMVLLEFVTAAGITHGMDELYKEFEINLDYILGLIFEHNRGEMIEEVKRLIRSSLGNRAKEGLVVDFIQQTNLDDLPDKASIIDAFFTFAQREQQREAEALIKEENLNEDAAKRYIRTSLKREYATENGTELNETLPKLSPLNPQYKTKKQAVFQKIVSFIEKFKGVGGKI HHSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKRHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKDDGNILGHKLEYNYNEHLVYIMADKQKNGTKAIFQVHHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLHTQSALSKDPNEKRDHMVLLEFVTAAGITHGMDELYKEFEINLDYILGLIFEHNRGEMIEEVKRLIRSSLGNRAKEGLVVDFIQQTNLDDLPDKASIIDAFFTFAQREQQREAEALIKEENLNEDAAKRYIRTSLKREYATENGTELNETLPKLSPLNPQYKTKKQAVFQKIVSFIEKFKGVGGKI 5j3n-a2-m2-cB_5j3n-a2-m1-cA C-terminal domain of EcoR124I HsdR subunit fused with the pH-sensitive GFP variant ratiometric pHluorin P10486 P10486 2.45 X-RAY DIFFRACTION 19 1.0 6100 (Aequorea victoria) 6100 (Aequorea victoria) 229 385 HSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKRHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKDDGNILGHKLEYNYNEHLVYIMADKQKNGTKAIFQVHHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLHTQSALSKDPNEKRDHMVLLEFVTAAGITHG HHSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKRHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKDDGNILGHKLEYNYNEHLVYIMADKQKNGTKAIFQVHHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLHTQSALSKDPNEKRDHMVLLEFVTAAGITHGMDELYKEFEINLDYILGLIFEHNRGEMIEEVKRLIRSSLGNRAKEGLVVDFIQQTNLDDLPDKASIIDAFFTFAQREQQREAEALIKEENLNEDAAKRYIRTSLKREYATENGTELNETLPKLSPLNPQYKTKKQAVFQKIVSFIEKFKGVGGKI 5j3n-a2-m2-cB_5j3n-a2-m2-cA C-terminal domain of EcoR124I HsdR subunit fused with the pH-sensitive GFP variant ratiometric pHluorin P10486 P10486 2.45 X-RAY DIFFRACTION 62 1.0 6100 (Aequorea victoria) 6100 (Aequorea victoria) 229 385 5j3n-a1-m1-cB_5j3n-a1-m1-cA 5j3n-a2-m1-cB_5j3n-a2-m1-cA HSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKRHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKDDGNILGHKLEYNYNEHLVYIMADKQKNGTKAIFQVHHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLHTQSALSKDPNEKRDHMVLLEFVTAAGITHG HHSKGEELFTGVVPILVELDGDVNGHKFSVSGEGEGDATYGKLTLKFICTTGKLPVPWPTLVTTFVQCFSRYPDHMKRHDFFKSAMPEGYVQERTIFFKDDGNYKTRAEVKFEGDTLVNRIELKGIDFKDDGNILGHKLEYNYNEHLVYIMADKQKNGTKAIFQVHHNIEDGGVQLADHYQQNTPIGDGPVLLPDNHYLHTQSALSKDPNEKRDHMVLLEFVTAAGITHGMDELYKEFEINLDYILGLIFEHNRGEMIEEVKRLIRSSLGNRAKEGLVVDFIQQTNLDDLPDKASIIDAFFTFAQREQQREAEALIKEENLNEDAAKRYIRTSLKREYATENGTELNETLPKLSPLNPQYKTKKQAVFQKIVSFIEKFKGVGGKI 5j49-a1-m1-cB_5j49-a1-m2-cB Crystal structure of UDP-glucose pyrophosporylase / UTP-glucose-1-phosphate uridylyltransferase from Burkholderia xenovorans Q13WC0 Q13WC0 1.8 X-RAY DIFFRACTION 191 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 292 292 5j49-a1-m1-cA_5j49-a1-m2-cA LKVTKAVFPVAGLGTRFLPATKASPKEMLPIVDKPLIQYAVEEAMAAGITEMIFVTGRSKRAIEDHFDKSYEIEAELQARGKDKLLELVRSIKPSHVDCFYVRQPEALGLGHAVLCAEKLVGDNPFAVILADDLLYGTPPVMAQMIEVFDHYHSSVIGVEEIPAQETKSYGIVDGKEWEDSIIKMSGIVEKPEPNVAPSNLGVVGRYVLKPRIFEHLRALKPGAGGELQLTDAIQSLLADEQVLAYKYHGTRFDCGSKLGYLKATVEFALRHPEVAADFEEYLRTRSPVLEG LKVTKAVFPVAGLGTRFLPATKASPKEMLPIVDKPLIQYAVEEAMAAGITEMIFVTGRSKRAIEDHFDKSYEIEAELQARGKDKLLELVRSIKPSHVDCFYVRQPEALGLGHAVLCAEKLVGDNPFAVILADDLLYGTPPVMAQMIEVFDHYHSSVIGVEEIPAQETKSYGIVDGKEWEDSIIKMSGIVEKPEPNVAPSNLGVVGRYVLKPRIFEHLRALKPGAGGELQLTDAIQSLLADEQVLAYKYHGTRFDCGSKLGYLKATVEFALRHPEVAADFEEYLRTRSPVLEG 5j49-a1-m2-cA_5j49-a1-m2-cB Crystal structure of UDP-glucose pyrophosporylase / UTP-glucose-1-phosphate uridylyltransferase from Burkholderia xenovorans Q13WC0 Q13WC0 1.8 X-RAY DIFFRACTION 43 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 292 292 5j49-a1-m1-cA_5j49-a1-m1-cB LKVTKAVFPVAGLGTRFLPATKASPKEMLPIVDKPLIQYAVEEAMAAGITEMIFVTGRSKRAIEDHFDKSYEIEAELQARGKDKLLELVRSIKPSHVDCFYVRQPEALGLGHAVLCAEKLVGDNPFAVILADDLLYGTPPVMAQMIEVFDHYHSSVIGVEEIPAQETKSYGIVDGKEWEDSIIKMSGIVEKPEPNVAPSNLGVVGRYVLKPRIFEHLRALKPGAGGELQLTDAIQSLLADEQVLAYKYHGTRFDCGSKLGYLKATVEFALRHPEVAADFEEYLRTRSPVLEG LKVTKAVFPVAGLGTRFLPATKASPKEMLPIVDKPLIQYAVEEAMAAGITEMIFVTGRSKRAIEDHFDKSYEIEAELQARGKDKLLELVRSIKPSHVDCFYVRQPEALGLGHAVLCAEKLVGDNPFAVILADDLLYGTPPVMAQMIEVFDHYHSSVIGVEEIPAQETKSYGIVDGKEWEDSIIKMSGIVEKPEPNVAPSNLGVVGRYVLKPRIFEHLRALKPGAGGELQLTDAIQSLLADEQVLAYKYHGTRFDCGSKLGYLKATVEFALRHPEVAADFEEYLRTRSPVLEG 5j4f-a1-m1-cB_5j4f-a1-m1-cA Crystal structure of the N-terminally His6-tagged HP0902, an uncharacterized protein from Helicobacter pylori 26695 O25562 O25562 1.4 X-RAY DIFFRACTION 82 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 97 98 5j4g-a1-m1-cB_5j4g-a1-m1-cA EVVHFLEGVCFEKLHIEVLNENSSHKEIRICMPKGAVMDKHKAPGAISVQVLEGKIVFEVGDEKIEMPKGALISLEAQVLHRLDALENSVIRLSLSK EVVHFLEGVCFEKLHIEVLNENSSHKEIRICMPKGAVMDKHKAPGAISVQVLEGKIVFEVGDEKIEMPKGALISLEAQVLHRLDALENSVIRLSLSKK 5j4u-a1-m1-cA_5j4u-a1-m2-cA Crystal structure of a glutathione S-transferase PtGSTU30 from Populus trichocarpa in complex with GSH B9I0G5 B9I0G5 1.249 X-RAY DIFFRACTION 52 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 218 218 5j5n-a1-m1-cA_5j5n-a1-m1-cB SDQVTLLDFWPSPFGMRVRLALAEKGVKYEYSEEDLRNKSALLLQMNPVNKQIPVLVHNGKPVCESLIIVQYIDEVWKDSAPLLPSDPYQRAQSRFWADFVDKKIYDLGRKIWTKKGEEQEAAKKDFIDSLKLMEGELGDKPYFGGETIGYVDIALVPFYSWFYAYETIGNFNIEAECPKMIAYCKRCLQKETVSKALEDPQKVYDFVLMLMKKFGIE SDQVTLLDFWPSPFGMRVRLALAEKGVKYEYSEEDLRNKSALLLQMNPVNKQIPVLVHNGKPVCESLIIVQYIDEVWKDSAPLLPSDPYQRAQSRFWADFVDKKIYDLGRKIWTKKGEEQEAAKKDFIDSLKLMEGELGDKPYFGGETIGYVDIALVPFYSWFYAYETIGNFNIEAECPKMIAYCKRCLQKETVSKALEDPQKVYDFVLMLMKKFGIE 5j5t-a1-m1-cA_5j5t-a1-m2-cA GLK co-crystal structure with aminopyrrolopyrimidine inhibitor Q8IVH8 Q8IVH8 2.85 X-RAY DIFFRACTION 161 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 SQEDFELIQRIGSGTYGDVYKARNVNTGELAAIKVIKLEPGEDFAVVQQEIIMMKDCKHPNIVAYFGSYLRRDKLWICMEFCGGGSLQDIYHVTGPLSELQIAYVSRETLQGLYYLHSKGKMHRDIKGANILLDNGHVKLADFGVSAQITATIAAFIGTPYWMAPEVAAVERKGGYNQLCDLWAVGITAIELAELQPPMFDLHPMRALFLMTKSNFQPPKLKDKMKWSNSFHHFVKMALTKNPKKRPTAEKLLQHPFVTQHLTRSLAIELLDKVNNPSTYHDFDDDDPEPLVAVPHR SQEDFELIQRIGSGTYGDVYKARNVNTGELAAIKVIKLEPGEDFAVVQQEIIMMKDCKHPNIVAYFGSYLRRDKLWICMEFCGGGSLQDIYHVTGPLSELQIAYVSRETLQGLYYLHSKGKMHRDIKGANILLDNGHVKLADFGVSAQITATIAAFIGTPYWMAPEVAAVERKGGYNQLCDLWAVGITAIELAELQPPMFDLHPMRALFLMTKSNFQPPKLKDKMKWSNSFHHFVKMALTKNPKKRPTAEKLLQHPFVTQHLTRSLAIELLDKVNNPSTYHDFDDDDPEPLVAVPHR 5j60-a3-m3-cC_5j60-a3-m1-cB Structure of a thioredoxin reductase from Gloeobacter violaceus Q7NMP6 Q7NMP6 1.9 X-RAY DIFFRACTION 115 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 296 316 5j60-a1-m1-cC_5j60-a1-m2-cB 5j60-a2-m1-cD_5j60-a2-m1-cA EQFDFDVVIVGGGPAGCTCALYTARSELKTVILDKNPAAGALAITHKIANYPGVPGEMSGDHLLEVMRDQAVEFGTVYRRAQVYGLDLSEPVKKVYTPEGIFTGRALVLATGAMGRIAPGEAEYLGRGVSYCATCDGAFYRNREVVVVGLNPEAVEEAQVLTKFASTVHWITPKDPHHADELLAHPSVKLWEKTRLIRIKGEEAVTAVLLAEGVFVYLQGSKPITDFVAGQVEMKPDGGVWVDEMMQTSVPGVWGIGDIRNTPFKQAVVAAGDGCIAAMAIDRFLNSRKAIKPDWA SHMEQFDFDVVIVGGGPAGCTCALYTARSELKTVILDKNPAAGALAITHKIANYPGVPGEMSGDHLLEVMRDQAVEFGTVYRRAQVYGLDLSEPVKKVYTPEGIFTGRALVLATGAMGRIASIPGEAEYLGRGVSYCATCDGAFYRNREVVVVGLNPEAVEEAQVLTKFASTVHWITPKDPHTGHADELLAHPSVKLWEKTRLIRIKGEEAGVTAVEVRHPESDSQELLAEGVFVYLQGSKPITDFVAGQVEMKPDGGVWVDEMMQTSVPGVWGIGDIRNTPFKQAVVAAGDGCIAAMAIDRFLNSRKAIKPDWAH 5j62-a1-m1-cA_5j62-a1-m1-cB FMN-dependent Nitroreductase (CDR20291_0684) from Clostridium difficile R20291 2.15 X-RAY DIFFRACTION 193 0.995 645463 (Clostridioides difficile R20291) 645463 (Clostridioides difficile R20291) 208 209 QDNQTINLIQSRRSIRKFTTEQISDEQVNTLLHCAFAAPSGCNKQPWHITVVQDQKLLKEISDDTLSRIHEVSNVEINKNFKLFYGAPTVLFISYDESSSWAPYDIGILTGNITTAAQALGLGSCIIGMVRGLFTPVEQGDIEGLVSVLDKEDVKESESIKMKFDTNKKYRELLDIPEGYSVPFGIAVGIPDGNLPNAREVVYKVSRV DNQTINLIQSRRSIRKFTTEQISDEQVNTLLHCAFAAPSGCNKQPWHITVVQDQKLLKEISDDTLSRIHEVSNVEINKNFKLFYGAPTVLFISYDESSSWAPYDIGILTGNITTAAQALGLGSCIIGMVRGLFTPVEQGDIEGLVSVLDKEDVKESESIKMKFDTNKKYRELLDIPEGYSVPFGIAVGIPDGNLPNAREVVYKVSRVAE 5j69-a2-m1-cB_5j69-a2-m3-cB Structure of Astrotactin-2, a conserved vertebrate-specific and perforin-like membrane protein involved in neuronal development O75129 O75129 3.63 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 255 255 5j69-a1-m1-cA_5j69-a1-m2-cA NDTLFGEMLHGYNNRTQHVNQGQVFQMTFRENNFIKDFPQLADGLLVIPLPVEEQCRGVLSEPLPDLQLLTGDIRYDEAMGYPMVQQWRVRSNLYRVKLSTITLAAGFTNVLKILTKESSREELLSFIQHYGSHYIAEALYGSELTCIIHFPSKKVQQQLWLQYQKETTSMPFITYLSGLLTAQMLSDDQLISGVEIRCEEKGRCPSTCHLCRRPGKEQLSPTPVLLEINRVVPLYTLIQDNGTKEAFKSALMSS NDTLFGEMLHGYNNRTQHVNQGQVFQMTFRENNFIKDFPQLADGLLVIPLPVEEQCRGVLSEPLPDLQLLTGDIRYDEAMGYPMVQQWRVRSNLYRVKLSTITLAAGFTNVLKILTKESSREELLSFIQHYGSHYIAEALYGSELTCIIHFPSKKVQQQLWLQYQKETTSMPFITYLSGLLTAQMLSDDQLISGVEIRCEEKGRCPSTCHLCRRPGKEQLSPTPVLLEINRVVPLYTLIQDNGTKEAFKSALMSS 5j6b-a1-m1-cB_5j6b-a1-m1-cD Crystal structure of Aldehyde dehydrogenase from Burkholderia thailandensis in covelent complex with NADPH Q2T801 Q2T801 1.95 X-RAY DIFFRACTION 69 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 476 477 5j6b-a1-m1-cC_5j6b-a1-m1-cA LKETYPYYLANEAVYANAELEVTDKYTGKVATRVALADASAIDAAIAAAVGAQKPLRALPAFRRQAILEHCVARFRERFDELAQALCIEAGKPINDSKGEVTRLIDTFRVAAEESVRIEGGLVNLEISPRAQGYSGYYKRVPIGPCSFISPFNFPLNLAAHKVAPALAAGCPFVLKPASRTPIGALIIGEVLAETDLPKGAFSILPAHRDGADLFTTDERFKLLSFTGSPTVGWELKKKAGKKKVVLELGGNAAAIVDADQREVLDYVVERLAFGAYYQSGQSCIGVQRIIAHADVYDALREKLIAKTRSLKMGDPKDPATFVGPMISESEARRLAGWMEAAVAAGAKIVAGGKVDGAMFEATLLEGVGRDQDLYRKEAFGPVALLERFSDFDDALARVNDSDFGLQAGVFTDSLSHAQRAWDELEVGGVVINDVPSFRVDNMPYGGVKDSGLGREGIRYAIEDMTELRLMVVRRR MLKETYPYYLANEAVYANAELEVTDKYTGKVATRVALADASAIDAAIAAAVGAQKPLRALPAFRRQAILEHCVARFRERFDELAQALCIEAGKPINDSKGEVTRLIDTFRVAAEESVRIEGGLVNLEISPRAQGYSGYYKRVPIGPCSFISPFNFPLNLAAHKVAPALAAGCPFVLKPASRTPIGALIIGEVLAETDLPKGAFSILPAHRDGADLFTTDERFKLLSFTGSPTVGWELKKKAGKKKVVLELGGNAAAIVDADQREVLDYVVERLAFGAYYQSGQSCIGVQRIIAHADVYDALREKLIAKTRSLKMGDPKDPATFVGPMISESEARRLAGWMEAAVAAGAKIVAGGKVDGAMFEATLLEGVGRDQDLYRKEAFGPVALLERFSDFDDALARVNDSDFGLQAGVFTDSLSHAQRAWDELEVGGVVINDVPSFRVDNMPYGGVKDSGLGREGIRYAIEDMTELRLMVVRRR 5j6b-a1-m1-cC_5j6b-a1-m1-cD Crystal structure of Aldehyde dehydrogenase from Burkholderia thailandensis in covelent complex with NADPH Q2T801 Q2T801 1.95 X-RAY DIFFRACTION 150 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 476 477 5j6b-a1-m1-cB_5j6b-a1-m1-cA LKETYPYYLANEAVYANAELEVTDKYTGKVATRVALADASAIDAAIAAAVGAQKPLRALPAFRRQAILEHCVARFRERFDELAQALCIEAGKPINDSKGEVTRLIDTFRVAAEESVRIEGGLVNLEISPRAQGYSGYYKRVPIGPCSFISPFNFPLNLAAHKVAPALAAGCPFVLKPASRTPIGALIIGEVLAETDLPKGAFSILPAHRDGADLFTTDERFKLLSFTGSPTVGWELKKKAGKKKVVLELGGNAAAIVDADQREVLDYVVERLAFGAYYQSGQSCIGVQRIIAHADVYDALREKLIAKTRSLKMGDPKDPATFVGPMISESEARRLAGWMEAAVAAGAKIVAGGKVDGAMFEATLLEGVGRDQDLYRKEAFGPVALLERFSDFDDALARVNDSDFGLQAGVFTDSLSHAQRAWDELEVGGVVINDVPSFRVDNMPYGGVKDSGLGREGIRYAIEDMTELRLMVVRRR MLKETYPYYLANEAVYANAELEVTDKYTGKVATRVALADASAIDAAIAAAVGAQKPLRALPAFRRQAILEHCVARFRERFDELAQALCIEAGKPINDSKGEVTRLIDTFRVAAEESVRIEGGLVNLEISPRAQGYSGYYKRVPIGPCSFISPFNFPLNLAAHKVAPALAAGCPFVLKPASRTPIGALIIGEVLAETDLPKGAFSILPAHRDGADLFTTDERFKLLSFTGSPTVGWELKKKAGKKKVVLELGGNAAAIVDADQREVLDYVVERLAFGAYYQSGQSCIGVQRIIAHADVYDALREKLIAKTRSLKMGDPKDPATFVGPMISESEARRLAGWMEAAVAAGAKIVAGGKVDGAMFEATLLEGVGRDQDLYRKEAFGPVALLERFSDFDDALARVNDSDFGLQAGVFTDSLSHAQRAWDELEVGGVVINDVPSFRVDNMPYGGVKDSGLGREGIRYAIEDMTELRLMVVRRR 5j6b-a1-m1-cD_5j6b-a1-m1-cA Crystal structure of Aldehyde dehydrogenase from Burkholderia thailandensis in covelent complex with NADPH Q2T801 Q2T801 1.95 X-RAY DIFFRACTION 13 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 477 481 5j6b-a1-m1-cB_5j6b-a1-m1-cC MLKETYPYYLANEAVYANAELEVTDKYTGKVATRVALADASAIDAAIAAAVGAQKPLRALPAFRRQAILEHCVARFRERFDELAQALCIEAGKPINDSKGEVTRLIDTFRVAAEESVRIEGGLVNLEISPRAQGYSGYYKRVPIGPCSFISPFNFPLNLAAHKVAPALAAGCPFVLKPASRTPIGALIIGEVLAETDLPKGAFSILPAHRDGADLFTTDERFKLLSFTGSPTVGWELKKKAGKKKVVLELGGNAAAIVDADQREVLDYVVERLAFGAYYQSGQSCIGVQRIIAHADVYDALREKLIAKTRSLKMGDPKDPATFVGPMISESEARRLAGWMEAAVAAGAKIVAGGKVDGAMFEATLLEGVGRDQDLYRKEAFGPVALLERFSDFDDALARVNDSDFGLQAGVFTDSLSHAQRAWDELEVGGVVINDVPSFRVDNMPYGGVKDSGLGREGIRYAIEDMTELRLMVVRRR HHHHMLKETYPYYLANEAVYANAELEVTDKYTGKVATRVALADASAIDAAIAAAVGAQKPLRALPAFRRQAILEHCVARFRERFDELAQALCIEAGKPINDSKGEVTRLIDTFRVAAEESVRIEGGLVNLEISPRAQGYSGYYKRVPIGPCSFISPFNFPLNLAAHKVAPALAAGCPFVLKPASRTPIGALIIGEVLAETDLPKGAFSILPAHRDGADLFTTDERFKLLSFTGSPTVGWELKKKAGKKKVVLELGGNAAAIVDADQREVLDYVVERLAFGAYYQSGQSCIGVQRIIAHADVYDALREKLIAKTRSLKMGDPKDPATFVGPMISESEARRLAGWMEAAVAAGAKIVAGGKVDGAMFEATLLEGVGRDQDLYRKEAFGPVALLERFSDFDDALARVNDSDFGLQAGVFTDSLSHAQRAWDELEVGGVVINDVPSFRVDNMPYGGVKDSGLGREGIRYAIEDMTELRLMVVRRR 5j6c-a1-m1-cA_5j6c-a1-m1-cB FMN-dependent Nitroreductase (CDR20291_0767) from Clostridium difficile R20291 2.096 X-RAY DIFFRACTION 166 1.0 645463 (Clostridioides difficile R20291) 645463 (Clostridioides difficile R20291) 173 173 MIGFLKKRRSIRKYKDVEVEKEKLDKILKAALLAPSSKGLRTWEFIVVDDKEKLINLSQCRTKGGGFFLKNAPLAIVIIADKEKNDVWIEDASIAASYIQLQAHELGLGSCWIQVRNRMYDDNIEADKYIREELKVPSKYSVECIISIGYSDEEKKAYNDSDLDYKKVHFNNF MIGFLKKRRSIRKYKDVEVEKEKLDKILKAALLAPSSKGLRTWEFIVVDDKEKLINLSQCRTKGGGFFLKNAPLAIVIIADKEKNDVWIEDASIAASYIQLQAHELGLGSCWIQVRNRMYDDNIEADKYIREELKVPSKYSVECIISIGYSDEEKKAYNDSDLDYKKVHFNNF 5j6d-a3-m1-cB_5j6d-a3-m1-cA Discovery of acyl guanidine tryptophan hydroxylase-1 inhibitors P17752 P17752 1.9 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 292 METVPWFPKKISDLDHCANRVLMYGSELDDNVYRKRRKYFADLAMNYKHPIPKVKTWGTVFQELNKLYPTHACREYLKNLPLLLEDVSNFLKERTGFSIRPVAGYLSPRDFLSGLAFRVFHCTQYVRHSSDPFYTPEPDTCHELLGHVPLLAEPSFAQFSQEIGLASLGASEEAVQKLATCYFFTVEFGLCRVFGAGLLSSISELKHALSKVKPFDPKITCKQECLITTFQDVYFFEDAKEKMREFTK METVPWFPKKISDLDHCANRVLMYGSELDADHPGFKDNVYRKRRKYFADLAMNYKHGDPIPKVEFTEEEIKTWGTVFQELNKLYPTHACREYLKNLPLLSKYCGYREDNIPQLEDVSNFLKERTGFSIRPVAGYLSPRDFLSGLAFRVFHCTQYVRHSSDPFYTPEPDTCHELLGHVPLLAEPSFAQFSQEIGLASLGASEEAVQKLATCYFFTVEFGLCKQDGQLRVFGAGLLSSISELKHALSGHAKVKPFDPKITCKQECLITTFQDVYFVSESFEDAKEKMREFTKTI 5j6e-a1-m1-cA_5j6e-a1-m1-cB Structure of disulfide crosslinked A. fumigatus FKBP12(V91C) Q4WLV6 Q4WLV6 3.2 X-RAY DIFFRACTION 29 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 111 111 MGVTKELKSPGNGVDFPKKGDFVTIHYTGRLTDGSKFDSSVDRNEPFQTQIGTGRVIKGWDEGVPQMSLGEKAVLTITPDYGYGARGFPPCIPGNSTLIFEVELLGINNKR MGVTKELKSPGNGVDFPKKGDFVTIHYTGRLTDGSKFDSSVDRNEPFQTQIGTGRVIKGWDEGVPQMSLGEKAVLTITPDYGYGARGFPPCIPGNSTLIFEVELLGINNKR 5j6f-a1-m1-cB_5j6f-a1-m2-cB Crystal structure of DAH7PS-CM complex from Geobacillus sp. with prephenate L8A208 L8A208 2.75 X-RAY DIFFRACTION 101 1.0 1233873 (Geobacillus sp. GHH01) 1233873 (Geobacillus sp. GHH01) 340 340 5j6f-a1-m1-cA_5j6f-a1-m2-cA MGNERLDELRARVDEINLQLLKLINERGRLVQEIGKIKEAQGTHRYDPVRERKMLDLISEHNDGPFETSTLQHIFKEIFKAALELQEPENTIVEVKGERIGDGNQYFVMGPCAVESYEQVAAVAEAVKKQGIKLLRGGAYKPRTSPYDFQGLGVEGLKILKRIADEFDLAVISEIVTPADIEIALDYIDVIQIGARNMQNFELLKAAGQVNKPILLKRGLAATIEEFINAAEYIMSQGNGQIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGRRDLLIPCAKAALAIGADGVMAEVHPDPAVALSDSAQQMDIAQFNEFMEEVRAFQ MGNERLDELRARVDEINLQLLKLINERGRLVQEIGKIKEAQGTHRYDPVRERKMLDLISEHNDGPFETSTLQHIFKEIFKAALELQEPENTIVEVKGERIGDGNQYFVMGPCAVESYEQVAAVAEAVKKQGIKLLRGGAYKPRTSPYDFQGLGVEGLKILKRIADEFDLAVISEIVTPADIEIALDYIDVIQIGARNMQNFELLKAAGQVNKPILLKRGLAATIEEFINAAEYIMSQGNGQIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGRRDLLIPCAKAALAIGADGVMAEVHPDPAVALSDSAQQMDIAQFNEFMEEVRAFQ 5j6f-a1-m2-cB_5j6f-a1-m1-cA Crystal structure of DAH7PS-CM complex from Geobacillus sp. with prephenate L8A208 L8A208 2.75 X-RAY DIFFRACTION 143 0.994 1233873 (Geobacillus sp. GHH01) 1233873 (Geobacillus sp. GHH01) 340 352 5j6f-a1-m1-cB_5j6f-a1-m2-cA MGNERLDELRARVDEINLQLLKLINERGRLVQEIGKIKEAQGTHRYDPVRERKMLDLISEHNDGPFETSTLQHIFKEIFKAALELQEPENTIVEVKGERIGDGNQYFVMGPCAVESYEQVAAVAEAVKKQGIKLLRGGAYKPRTSPYDFQGLGVEGLKILKRIADEFDLAVISEIVTPADIEIALDYIDVIQIGARNMQNFELLKAAGQVNKPILLKRGLAATIEEFINAAEYIMSQGNGQIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGRRDLLIPCAKAALAIGADGVMAEVHPDPAVALSDSAQQMDIAQFNEFMEEVRAFQ NERLDELRARVDEINLQLLKLINERGRLVQEIGKIKEAQGTHRYDPVRERKMLDLISEHNDGPFETSTLQHIFKEIFKAALELQEDDHRKALLVSRKKHPENTIVEVKGERIGDGNQYFVMGPCAVESYEQVAAVAEAVKKQGIKLLRGGAYKPRTSPYDFQGLGVEGLKILKRIADEFDLAVISEIVTPADIEIALDYIDVIQIGARNMQNFELLKAAGQVNKPILLKRGLAATIEEFINAAEYIMSQGNGQIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGRRDLLIPCAKAALAIGADGVMAEVHPDPAVALSDSAQQMDIAQFNEFMEEVRAFQ 5j6f-a1-m2-cB_5j6f-a1-m2-cA Crystal structure of DAH7PS-CM complex from Geobacillus sp. with prephenate L8A208 L8A208 2.75 X-RAY DIFFRACTION 117 0.994 1233873 (Geobacillus sp. GHH01) 1233873 (Geobacillus sp. GHH01) 340 352 5j6f-a1-m1-cB_5j6f-a1-m1-cA MGNERLDELRARVDEINLQLLKLINERGRLVQEIGKIKEAQGTHRYDPVRERKMLDLISEHNDGPFETSTLQHIFKEIFKAALELQEPENTIVEVKGERIGDGNQYFVMGPCAVESYEQVAAVAEAVKKQGIKLLRGGAYKPRTSPYDFQGLGVEGLKILKRIADEFDLAVISEIVTPADIEIALDYIDVIQIGARNMQNFELLKAAGQVNKPILLKRGLAATIEEFINAAEYIMSQGNGQIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGRRDLLIPCAKAALAIGADGVMAEVHPDPAVALSDSAQQMDIAQFNEFMEEVRAFQ NERLDELRARVDEINLQLLKLINERGRLVQEIGKIKEAQGTHRYDPVRERKMLDLISEHNDGPFETSTLQHIFKEIFKAALELQEDDHRKALLVSRKKHPENTIVEVKGERIGDGNQYFVMGPCAVESYEQVAAVAEAVKKQGIKLLRGGAYKPRTSPYDFQGLGVEGLKILKRIADEFDLAVISEIVTPADIEIALDYIDVIQIGARNMQNFELLKAAGQVNKPILLKRGLAATIEEFINAAEYIMSQGNGQIILCERGIRTYERATRNTLDISAVPILKKETHLPVFVDVTHSTGRRDLLIPCAKAALAIGADGVMAEVHPDPAVALSDSAQQMDIAQFNEFMEEVRAFQ 5j6o-a1-m1-cA_5j6o-a1-m2-cA Crystal structure of a trans-AT PKS dehydratase domain of C0ZGQ7 from Brevibacillus brevis C0ZGQ7 C0ZGQ7 3.195 X-RAY DIFFRACTION 37 1.0 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 278 278 IHPMLHQNTSTFSEQRFSSTFTGEEFFLADHVVKGQRVLPGVAYLEMARSAMEHAVGEDVHGNTSMKLQNVIWARPIVVGDQPVRVHTGLVLEEDGEVSYQIYSEAEGSDAEIVVHSQGNAVLTPRSELHMLDLPVLQEQCSEQVISSEEFYEFFSAIQIDYGSGHKGIDKVYVGPGQVLAKLILPLSVTGSVDQFVLHPSLMDSALQASVELTKPVMPFALEEMEIIRPCTSEMWAYVRYSDGSQAGNKVEKYDIDLCDDIGTICVRMKGFTSRVLE IHPMLHQNTSTFSEQRFSSTFTGEEFFLADHVVKGQRVLPGVAYLEMARSAMEHAVGEDVHGNTSMKLQNVIWARPIVVGDQPVRVHTGLVLEEDGEVSYQIYSEAEGSDAEIVVHSQGNAVLTPRSELHMLDLPVLQEQCSEQVISSEEFYEFFSAIQIDYGSGHKGIDKVYVGPGQVLAKLILPLSVTGSVDQFVLHPSLMDSALQASVELTKPVMPFALEEMEIIRPCTSEMWAYVRYSDGSQAGNKVEKYDIDLCDDIGTICVRMKGFTSRVLE 5j6p-a2-m1-cC_5j6p-a2-m2-cC Crystal Structure of Mis18(17-118) from Schizosaccharomyces pombe Q9P802 Q9P802 2.6 X-RAY DIFFRACTION 41 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 100 100 5hj0-a1-m1-cA_5hj0-a1-m1-cB 5hj0-a2-m1-cC_5hj0-a2-m2-cC 5j6p-a1-m1-cA_5j6p-a1-m1-cB QPSVFQCKKCFQIVGDSNAWVISHREYLSFTLSDAVENSVRVEDTFKRSDDGLCVYSELSCTRCNEVIGKVYNSTPIYLDDIRDMYTFSMDKLQAYQLGN QPSVFQCKKCFQIVGDSNAWVISHREYLSFTLSDAVENSVRVEDTFKRSDDGLCVYSELSCTRCNEVIGKVYNSTPIYLDDIRDMYTFSMDKLQAYQLGN 5j73-a2-m1-cD_5j73-a2-m1-cC De novo design of protein homo-oligomers with modular hydrogen bond network-mediated specificity 2.56 X-RAY DIFFRACTION 96 1.0 32630 (synthetic construct) 32630 (synthetic construct) 73 74 5j73-a1-m1-cA_5j73-a1-m1-cB SDYIIEQIQRDQEEARKKVEEAEERLERVKEASKRGVSSDQLLDLIRELAEIIEELIRIIRRSNEAIKELIKN TSDYIIEQIQRDQEEARKKVEEAEERLERVKEASKRGVSSDQLLDLIRELAEIIEELIRIIRRSNEAIKELIKN 5j78-a1-m1-cD_5j78-a1-m1-cB Crystal structure of an Acetylating Aldehyde Dehydrogenase from Geobacillus thermoglucosidasius 2.1 X-RAY DIFFRACTION 17 1.0 1426 (Parageobacillus thermoglucosidasius) 1426 (Parageobacillus thermoglucosidasius) 451 452 5j78-a1-m1-cA_5j78-a1-m1-cC 5j7i-a1-m1-cA_5j7i-a1-m1-cC 5j7i-a1-m1-cD_5j7i-a1-m1-cB LRDIDLQSIQEVRNYLEEAKAAQKILEKMTQSEIDKIVESMANAAREEAGRLAAMAVEETGFGNVEDKTLKNLFAANDVYNSIKDVKTVGIIRRDEENRVWEIAQPVGIVAGIIPSTNPTSTVIFKALIAVKARNAIVFSPHPSAAKCTAEAARIMQEAAERAGAPKGLISCITQPTMAATNELMKHKLTDVILATGGPGLVKAAYSSGKPAYGVGPGNVPVYIHESANIAKAVQLIIQSKTFDYGTIASEQALLVDESIKEKVVAELKQQGAYFLNEEEKQKVASIIMVNGSLNAKIVGKAPQVIAEMAGIEIPSDVKLLVAEETEVGKEYPFSIEKLSPILAFYIVKGMEEASELAQKLLEVGGLGHTVGIHAEDEKVIEAYTIDKPAGRIVVNAGTTFGGIGATVNVKPSLTLGCGAIGNNITSDNVTVTHLFNIKRVAFGVREMPKK LRDIDLQSIQEVRNYLEEAKAAQKILEKMTQSEIDKIVESMANAAREEAGRLAAMAVEETGFGNVEDKTLKNLFAANDVYNSIKDVKTVGIIRRDEENRVWEIAQPVGIVAGIIPSTNPTSTVIFKALIAVKARNAIVFSPHPSAAKCTAEAARIMQEAAERAGAPKGLISCITQPTMAATNELMKHKLTDVILATGGPGLVKAAYSSGKPAYGVGPGNVPVYIHESANIAKAVQLIIQSKTFDYGTIASEQALLVDESIKEKVVAELKQQGAYFLNEEEKQKVASIIMVNGSLNAKIVGKAPQVIAEMAGIEIPSDVKLLVAEETEVGKEYPFSIEKLSPILAFYIVKGMEEASELAQKLLEVGGLGHTVGIHAEDEKVIEAYTIDKPAGRIVVNAGTTFGGIGATVNVKPSLTLGCGAIGNNITSDNVTVTHLFNIKRVAFGVREMPKKV 5j78-a1-m1-cD_5j78-a1-m1-cC Crystal structure of an Acetylating Aldehyde Dehydrogenase from Geobacillus thermoglucosidasius 2.1 X-RAY DIFFRACTION 212 1.0 1426 (Parageobacillus thermoglucosidasius) 1426 (Parageobacillus thermoglucosidasius) 451 452 5j78-a1-m1-cA_5j78-a1-m1-cB 5j7i-a1-m1-cA_5j7i-a1-m1-cB 5j7i-a1-m1-cD_5j7i-a1-m1-cC LRDIDLQSIQEVRNYLEEAKAAQKILEKMTQSEIDKIVESMANAAREEAGRLAAMAVEETGFGNVEDKTLKNLFAANDVYNSIKDVKTVGIIRRDEENRVWEIAQPVGIVAGIIPSTNPTSTVIFKALIAVKARNAIVFSPHPSAAKCTAEAARIMQEAAERAGAPKGLISCITQPTMAATNELMKHKLTDVILATGGPGLVKAAYSSGKPAYGVGPGNVPVYIHESANIAKAVQLIIQSKTFDYGTIASEQALLVDESIKEKVVAELKQQGAYFLNEEEKQKVASIIMVNGSLNAKIVGKAPQVIAEMAGIEIPSDVKLLVAEETEVGKEYPFSIEKLSPILAFYIVKGMEEASELAQKLLEVGGLGHTVGIHAEDEKVIEAYTIDKPAGRIVVNAGTTFGGIGATVNVKPSLTLGCGAIGNNITSDNVTVTHLFNIKRVAFGVREMPKK LRDIDLQSIQEVRNYLEEAKAAQKILEKMTQSEIDKIVESMANAAREEAGRLAAMAVEETGFGNVEDKTLKNLFAANDVYNSIKDVKTVGIIRRDEENRVWEIAQPVGIVAGIIPSTNPTSTVIFKALIAVKARNAIVFSPHPSAAKCTAEAARIMQEAAERAGAPKGLISCITQPTMAATNELMKHKLTDVILATGGPGLVKAAYSSGKPAYGVGPGNVPVYIHESANIAKAVQLIIQSKTFDYGTIASEQALLVDESIKEKVVAELKQQGAYFLNEEEKQKVASIIMVNGSLNAKIVGKAPQVIAEMAGIEIPSDVKLLVAEETEVGKEYPFSIEKLSPILAFYIVKGMEEASELAQKLLEVGGLGHTVGIHAEDEKVIEAYTIDKPAGRIVVNAGTTFGGIGATVNVKPSLTLGCGAIGNNITSDNVTVTHLFNIKRVAFGVREMPKKV 5j79-a1-m1-cB_5j79-a1-m1-cA The identification and pharmacological characterization of 6-(tert-butylsulfonyl)-N-(5-fluoro-1H-indazol-3-yl)quinolin-4-amine (GSK583), a highly potent and selective inhibitor of RIP2 Kinase, Compound 3 complex O43353 O43353 2.69 X-RAY DIFFRACTION 106 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 277 283 5w5j-a1-m1-cA_5w5j-a1-m1-cB AICSALPTIPYHKLADLRYLSRGASGTVSSARHADWRVQVAVKHLRKDVLREAEILHKARFSYILPILGICNEPEFLGIVTEYMPNGSLNELLHRKTEYPDVAWPLRFRILHEIALGVNYLHNMTPPLLHHDLKTQNILLDNEFHVKIADFGLSKWRMGTIIYMPPENYEPGQSIKHDIYSYAVITWEVLSRKQPFEDVTNPLQIMYSVSQGHRPVINEESLPYDIPHRARMISLIESGWAQNPDERPSFLKCLIELEPVLRTFEEITFLEAVIQLK NGEAICSALPTIPYHKLADLRYLSRGASGTVSSARHADWRVQVAVKHLRKDVLREAEILHKARFSYILPILGICNEPEFLGIVTEYMPNGSLNELLHRKTEYPDVAWPLRFRILHEIALGVNYLHNMTPPLLHHDLKTQNILLDNEFHVKIADFGLSKWRMSAPEGGTIIYMPPENYEPSIKHDIYSYAVITWEVLSRKQPFEDVTNPLQIMYSVSQGHRPVINEESLPYDIPHRARMISLIESGWAQNPDERPSFLKCLIELEPVLRTFEEITFLEAVIQLK 5j7k-a1-m1-cC_5j7k-a1-m1-cA Loop grafting onto a highly stable FN3 scaffold 2.46 X-RAY DIFFRACTION 60 1.0 32630 (synthetic construct) 32630 (synthetic construct) 78 84 GNLRVTDVTSTSVTLSWRGYPWATGYRVEYREAGGEWKEVTVPHRYTVTGLKPGTEYEFRVRAVNRSVSVTTGHHHHH GNLRVTDVTSTSVTLSWRGYPWATGYRVEYREAGGEWKEVTVPGDLSHRYTVTGLKPGTEYEFRVRAVNRPSSVSVTTGHHHHH 5j7k-a2-m1-cD_5j7k-a2-m1-cG Loop grafting onto a highly stable FN3 scaffold 2.46 X-RAY DIFFRACTION 10 0.981 32630 (synthetic construct) 32630 (synthetic construct) 54 85 LRVTDVTSTSVTLSWRVEYREARYTVTGLKPGTEYEFRVRAVVSVTTGHHHHHH NLRVTDVTSTSVTLSWRGYPWATGYRVEYREAGGWKEVTVPGDLSHRYTVTGLKPGTEYEFRVRAVNRVGRPSSVSVTTGHHHHH 5j7k-a2-m1-cF_5j7k-a2-m1-cB Loop grafting onto a highly stable FN3 scaffold 2.46 X-RAY DIFFRACTION 24 0.987 32630 (synthetic construct) 32630 (synthetic construct) 79 90 5j7k-a1-m1-cE_5j7k-a1-m1-cA NLRVTDVTSTSVTLSWRGYPWATGYRVEYREAGGEWKEVTVPGDLSHRYTVTGLKPGTEYEFRVRAVSSVSVTTGHHHH PPGNLRVTDVTSTSVTLSWRGYPWATGYRVEYREAGGEWKEVTVPGDLSHRYTVTGLKPGTEYEFRVRAVNRVGRTFSVSVTTGHHHHHH 5j7m-a1-m1-cA_5j7m-a1-m1-cB Crystal structure of Cupin 2 conserved barrel domain protein from Kribbella flavida DSM 17836 D2Q1L0 D2Q1L0 2.07 X-RAY DIFFRACTION 130 1.0 479435 (Kribbella flavida DSM 17836) 479435 (Kribbella flavida DSM 17836) 119 119 NARTFDLVTGESLFVNDLRVVRWEQYGLGTAPFQAWYSVPPGDESPIDQHPELELSIVVAGTAHVTVGDTVHEVPHGNAFLLNSLEAHVVQNRSADEVLTVFSAYWYPEAATAAAEALA NARTFDLVTGESLFVNDLRVVRWEQYGLGTAPFQAWYSVPPGDESPIDQHPELELSIVVAGTAHVTVGDTVHEVPHGNAFLLNSLEAHVVQNRSADEVLTVFSAYWYPEAATAAAEALA 5j7n-a2-m1-cA_5j7n-a2-m2-cA Crystal structure of a small heat-shock protein from Xylella fastidiosa reveals a distinct high order structure Q9PBB0 Q9PBB0 2.9 X-RAY DIFFRACTION 93 1.0 160492 (Xylella fastidiosa 9a5c) 160492 (Xylella fastidiosa 9a5c) 109 109 AQWVPRVDIKEEPNQFVLYADLPGIDPADIEVQMDKGILSIKGERKTESSSQTEHFSRIERRYGSFHRRFALPDSADADGITASGSHGVLSIFIPKRAATTPRRIQVGN AQWVPRVDIKEEPNQFVLYADLPGIDPADIEVQMDKGILSIKGERKTESSSQTEHFSRIERRYGSFHRRFALPDSADADGITASGSHGVLSIFIPKRAATTPRRIQVGN 5j7n-a3-m1-cA_5j7n-a3-m3-cA Crystal structure of a small heat-shock protein from Xylella fastidiosa reveals a distinct high order structure Q9PBB0 Q9PBB0 2.9 X-RAY DIFFRACTION 91 1.0 160492 (Xylella fastidiosa 9a5c) 160492 (Xylella fastidiosa 9a5c) 109 109 AQWVPRVDIKEEPNQFVLYADLPGIDPADIEVQMDKGILSIKGERKTESSSQTEHFSRIERRYGSFHRRFALPDSADADGITASGSHGVLSIFIPKRAATTPRRIQVGN AQWVPRVDIKEEPNQFVLYADLPGIDPADIEVQMDKGILSIKGERKTESSSQTEHFSRIERRYGSFHRRFALPDSADADGITASGSHGVLSIFIPKRAATTPRRIQVGN 5j81-a1-m2-cA_5j81-a1-m3-cA Crystal structure of Glycoprotein C from Puumala virus in the post-fusion conformation (pH 6.0) P41266 P41266 1.8 X-RAY DIFFRACTION 176 1.0 39001 (Puumala virus p360) 39001 (Puumala virus p360) 411 411 5j81-a1-m1-cA_5j81-a1-m2-cA 5j81-a1-m1-cA_5j81-a1-m3-cA 5j9h-a1-m1-cA_5j9h-a1-m2-cA 5j9h-a1-m1-cA_5j9h-a1-m3-cA 5j9h-a1-m2-cA_5j9h-a1-m3-cA GWTDTAHGSGIIPMKTDLELDFSLPSSASYTYRRQLQNPANEQEKIPFHLQLSKQVIHAEIQHLGHWMDATFNLKTAFHCYGSCEKYAYPWQTAGCFIEKDYEYETGWGCNPPDCPGVGTGCTACGVYLDKLKSVGKVFKIVSLRYTRKVCIQLGTEQTCKTVDSNDCLITTSVKVCLIGTISKFQPSDTLLFLGPLQQGGLIFKQWCTTTCQFGDPGDIMSTPTGMKCPELNGSFRKKCAFATTPVCQFDGNTISGYKRMIATKDSFQSFNVTEPHISTSALEWIDPDSSLRDHINVIVSRDLSFQDLSETPCQIDLATASIDGAWGSGVGFNLVCTVSLTECSAFLTSIKACDAAMCYGSTTANLVRGQNTIHIVGKGGHSGSKFMCCHDTKCSSTGLVAAAPHLDRVT GWTDTAHGSGIIPMKTDLELDFSLPSSASYTYRRQLQNPANEQEKIPFHLQLSKQVIHAEIQHLGHWMDATFNLKTAFHCYGSCEKYAYPWQTAGCFIEKDYEYETGWGCNPPDCPGVGTGCTACGVYLDKLKSVGKVFKIVSLRYTRKVCIQLGTEQTCKTVDSNDCLITTSVKVCLIGTISKFQPSDTLLFLGPLQQGGLIFKQWCTTTCQFGDPGDIMSTPTGMKCPELNGSFRKKCAFATTPVCQFDGNTISGYKRMIATKDSFQSFNVTEPHISTSALEWIDPDSSLRDHINVIVSRDLSFQDLSETPCQIDLATASIDGAWGSGVGFNLVCTVSLTECSAFLTSIKACDAAMCYGSTTANLVRGQNTIHIVGKGGHSGSKFMCCHDTKCSSTGLVAAAPHLDRVT 5j87-a1-m1-cA_5j87-a1-m1-cB Discovery of N-(3-(5-((3-acrylamido-4-(morpholine-4-carbonyl)phenyl)amino)-1-methyl-6-oxo-1,6-dihydropyridin-3-yl)-2-methylphenyl)-4-(tert-butyl)benzamide (CHMFL-BTK-01) as a Highly Selective Irreversible BTK Kinase Inhibitor Q06187 Q06187 1.59 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 263 274 EIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEE PSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEE 5j87-a1-m1-cC_5j87-a1-m1-cB Discovery of N-(3-(5-((3-acrylamido-4-(morpholine-4-carbonyl)phenyl)amino)-1-methyl-6-oxo-1,6-dihydropyridin-3-yl)-2-methylphenyl)-4-(tert-butyl)benzamide (CHMFL-BTK-01) as a Highly Selective Irreversible BTK Kinase Inhibitor Q06187 Q06187 1.59 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 274 5jrs-a1-m1-cB_5jrs-a1-m1-cA EIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMD PSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEE 5j87-a1-m1-cC_5j87-a1-m1-cD Discovery of N-(3-(5-((3-acrylamido-4-(morpholine-4-carbonyl)phenyl)amino)-1-methyl-6-oxo-1,6-dihydropyridin-3-yl)-2-methylphenyl)-4-(tert-butyl)benzamide (CHMFL-BTK-01) as a Highly Selective Irreversible BTK Kinase Inhibitor Q06187 Q06187 1.59 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 261 263 EIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMD EIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEE 5j87-a1-m1-cD_5j87-a1-m1-cB Discovery of N-(3-(5-((3-acrylamido-4-(morpholine-4-carbonyl)phenyl)amino)-1-methyl-6-oxo-1,6-dihydropyridin-3-yl)-2-methylphenyl)-4-(tert-butyl)benzamide (CHMFL-BTK-01) as a Highly Selective Irreversible BTK Kinase Inhibitor Q06187 Q06187 1.59 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 263 274 EIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEE PSTAGLGYGSWEIDPKDLTFLKELGTGQFGVVKYGKWRGQYDVAIKMIKEGSMSEDEFIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRYVLDDEYTSSVGSKFPVRWSPPEVLMYSKFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMDEE 5j8e-a3-m1-cA_5j8e-a3-m1-cB Crystal structure of human Hook3's conserved Hook domain Q86VS8 Q86VS8 1.7 X-RAY DIFFRACTION 103 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 153 RAELCESLLTWIQTFNVDAPCQTVEDLTNGVVMAQVLQKIDPAYFDENWLNRIKTEVGDNWRLKISNLKKILKGILDYNHEILGQQINDFTLPDVNLIGEHSDAAELGRMLQLILGCAVNCEQKQEYIQAIMMMEESVQHVVMTAIQELM SLERAELCESLLTWIQTFNVDAPCQTVEDLTNGVVMAQVLQKIDPAYFDENWLNRIKTEVGDNWRLKISNLKKILKGILDYNHEILGQQINDFTLPDVNLIGEHSDAAELGRMLQLILGCAVNCEQKQEYIQAIMMMEESVQHVVMTAIQELM 5j8r-a1-m1-cB_5j8r-a1-m1-cA Crystal Structure of the Catalytic Domain of Human Protein Tyrosine Phosphatase non-receptor Type 12 - K61R mutant Q05209 Q05209 2.043 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 296 EQVEILRKFIQRVQAMKSPDHNGEDNFARDFMRLRRLSTKYRTEKIYPTATGEKEENVKRNRYKDILPFDHSRVKLTLKTPSQDSDYINANFIKGVYGPKAYVATQGPLANTVIDFWRMIWEYNVVIIVMACREFEMGRKKCERYWPLYGEDPITFAPFKISCEDEQARTDYFIRTLLLEFQNESRRLYQFHYVNWPDSFDSILDMISLMRKYQEHEDVPICIHCSAGCGRTGAICAIDYTWNLLKAGKIPEEFNVFNLIQEMRTQRHSAVQTKEQYELVHRAIAQLFEKQLQ EQVEILRKFIQRVQAMKSPDHNGEDNFARDFMRLRRLSTKYRTEKIYPTATGEKEENVKRNRYKDILPFDHSRVKLTLKTPSQDSDYINANFIKGVYGPKAYVATQGPLANTVIDFWRMIWEYNVVIIVMACREFEMGRKKCERYWPLYGEDPITFAPFKISCEDEQARTDYFIRTLLLEFQNESRRLYQFHYVNWPDHDSSFDSILDMISLMRKYQEHEDVPICIHCSAGCGRTGAICAIDYTWNLLKAGKIPEEFNVFNLIQEMRTQRHSAVQTKEQYELVHRAIAQLFEKQLQ 5j8r-a1-m1-cD_5j8r-a1-m1-cB Crystal Structure of the Catalytic Domain of Human Protein Tyrosine Phosphatase non-receptor Type 12 - K61R mutant Q05209 Q05209 2.043 X-RAY DIFFRACTION 28 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 284 293 5j8r-a1-m1-cC_5j8r-a1-m1-cA MEQVEILRKFIQRVQAMDNFARDFMRLRRLSTKYRTEKIYPTATGEKEENVKRNRYKDILPFDHSRVKLTLTPSDSDYINANFIKGVYGPKAYVATQGPLANTVIDFWRMIWEYNVVIIVMACREFEMGRKKCERYWPLYGEDPITFAPFKISCEDEQARTDYFIRTLLLEFQNESRRLYQFHYVNWPDHFDSILDMISLMRKYQEHEDVPICIHCSAGCGRTGAICAIDYTWNLLKAGKIPEEFNVFNLIQEMRTQRHSAVQTKEQYELVHRAIAQLFEKQLQ EQVEILRKFIQRVQAMKSPDHNGEDNFARDFMRLRRLSTKYRTEKIYPTATGEKEENVKRNRYKDILPFDHSRVKLTLKTPSQDSDYINANFIKGVYGPKAYVATQGPLANTVIDFWRMIWEYNVVIIVMACREFEMGRKKCERYWPLYGEDPITFAPFKISCEDEQARTDYFIRTLLLEFQNESRRLYQFHYVNWPDSFDSILDMISLMRKYQEHEDVPICIHCSAGCGRTGAICAIDYTWNLLKAGKIPEEFNVFNLIQEMRTQRHSAVQTKEQYELVHRAIAQLFEKQLQ 5j8v-a1-m1-cC_5j8v-a1-m1-cD Structure of rabbit ryanodine receptor RyR1 open state activated by calcium ion P11716 P11716 4.9 ELECTRON MICROSCOPY 147 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 3453 3453 5j8v-a1-m1-cA_5j8v-a1-m1-cB 5j8v-a1-m1-cA_5j8v-a1-m1-cD 5j8v-a1-m1-cB_5j8v-a1-m1-cC QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTMQTLWNMNPICSCCEEGYVTGGHVLGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLAQGLVVVDACKAHTKATSFCFRVGPPEIKYGESLCFVQHVASGLWLTYAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPLPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGPIKEYRREGPRGPHLVGPSRCPPHLERIREKLAENIHELWALTRIPERNYNLQMSGETLKTLLALGTPAQTTLVDRLAENGHNVWARDRVAQVPYRLLDEATKRSNRDSLCQAVRTLLGYGRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMDLTENTIIFTLNGEVLAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYLAHRTWGSQNSLVEMLFLRLSLPVQFYSVRVFACVWVGWVTPDYHQHDMNFDLSKVTDLVIGCLVGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFEAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGVTTSLRPPHHFIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRDFHQDLLAHCGIQLEPEEETSLSSRLRSLLETVRLSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGLDVAAASVIDNNELALALQEQDLEKVVSYLAGCPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPGLLAAIEEAIRIFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIVPDHKASMVLFLDRVYFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLIPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMARPSMLQHLLRRLVFDVPILNKMPLKLLTNHYERCWKYYCLPTTSEEELHLTRKLFWGIFDSLYDQELYRMAMPCLCAIAGALNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGYFLSTPAKVLGSGGHASNKEKEMIFCKLAALVRHRVSLFGTDAPAVILARSLDARTVMKSGPEIVKASASEDIEKMVENLRLGKTTVALLPVLTTLFQHIAQHQFLDDVQVSCYRTLCSIYSLGTTVEKLRPALGECLARLAAAAFLEPQLNEYNACSTLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNRIIVNNLGIDEATWMKRLAVSRARPELLHSHFIPTIGKRAGKVVAEEEQLRLEAKAEAEELYALYPLLIRYVDNNRAHWLTEPNANAEELMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSFLKSKMAKAGDAQSGGTLKKMLPIGLNMCAPFLQNNLHLQGKVEGSPSLRWQPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEEKMELFVSFCEDTIFEMQIAAQISFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYE QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTMQTLWNMNPICSCCEEGYVTGGHVLGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLAQGLVVVDACKAHTKATSFCFRVGPPEIKYGESLCFVQHVASGLWLTYAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPLPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGPIKEYRREGPRGPHLVGPSRCPPHLERIREKLAENIHELWALTRIPERNYNLQMSGETLKTLLALGTPAQTTLVDRLAENGHNVWARDRVAQVPYRLLDEATKRSNRDSLCQAVRTLLGYGRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMDLTENTIIFTLNGEVLAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYLAHRTWGSQNSLVEMLFLRLSLPVQFYSVRVFACVWVGWVTPDYHQHDMNFDLSKVTDLVIGCLVGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFEAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGVTTSLRPPHHFIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRDFHQDLLAHCGIQLEPEEETSLSSRLRSLLETVRLSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGLDVAAASVIDNNELALALQEQDLEKVVSYLAGCPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPGLLAAIEEAIRIFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIVPDHKASMVLFLDRVYFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLIPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMARPSMLQHLLRRLVFDVPILNKMPLKLLTNHYERCWKYYCLPTTSEEELHLTRKLFWGIFDSLYDQELYRMAMPCLCAIAGALNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGYFLSTPAKVLGSGGHASNKEKEMIFCKLAALVRHRVSLFGTDAPAVILARSLDARTVMKSGPEIVKASASEDIEKMVENLRLGKTTVALLPVLTTLFQHIAQHQFLDDVQVSCYRTLCSIYSLGTTVEKLRPALGECLARLAAAAFLEPQLNEYNACSTLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNRIIVNNLGIDEATWMKRLAVSRARPELLHSHFIPTIGKRAGKVVAEEEQLRLEAKAEAEELYALYPLLIRYVDNNRAHWLTEPNANAEELMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSFLKSKMAKAGDAQSGGTLKKMLPIGLNMCAPFLQNNLHLQGKVEGSPSLRWQPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEEKMELFVSFCEDTIFEMQIAAQISFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYE 5j8w-a1-m15-cA_5j8w-a1-m9-cA One minute iron loaded Rana Catesbeiana H' ferritin variant E57A/E136A/D140A P07798 P07798 1.11 X-RAY DIFFRACTION 31 1.0 8400 (Lithobates catesbeianus) 8400 (Lithobates catesbeianus) 174 174 1mfr-a1-m1-cA_1mfr-a1-m1-cJ 1mfr-a1-m1-cA_1mfr-a1-m1-cO 1mfr-a1-m1-cB_1mfr-a1-m1-cG 1mfr-a1-m1-cB_1mfr-a1-m1-cI 1mfr-a1-m1-cC_1mfr-a1-m1-cF 1mfr-a1-m1-cC_1mfr-a1-m1-cM 1mfr-a1-m1-cD_1mfr-a1-m1-cK 1mfr-a1-m1-cD_1mfr-a1-m1-cX 1mfr-a1-m1-cE_1mfr-a1-m1-cL 1mfr-a1-m1-cE_1mfr-a1-m1-cW 1mfr-a1-m1-cF_1mfr-a1-m1-cV 1mfr-a1-m1-cG_1mfr-a1-m1-cH 1mfr-a1-m1-cH_1mfr-a1-m1-cI 1mfr-a1-m1-cJ_1mfr-a1-m1-cR 1mfr-a1-m1-cK_1mfr-a1-m1-cQ 1mfr-a1-m1-cL_1mfr-a1-m1-cP 1mfr-a1-m1-cM_1mfr-a1-m1-cV 1mfr-a1-m1-cN_1mfr-a1-m1-cS 1mfr-a1-m1-cN_1mfr-a1-m1-cU 1mfr-a1-m1-cO_1mfr-a1-m1-cR 1mfr-a1-m1-cP_1mfr-a1-m1-cW 1mfr-a1-m1-cQ_1mfr-a1-m1-cX 1mfr-a1-m1-cS_1mfr-a1-m1-cT 1mfr-a1-m1-cT_1mfr-a1-m1-cU 3ka3-a1-m10-cA_3ka3-a1-m17-cA 3ka3-a1-m10-cA_3ka3-a1-m18-cA 3ka3-a1-m11-cA_3ka3-a1-m19-cA 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6i9p-a1-m16-cA_6i9p-a1-m23-cA 6i9p-a1-m17-cA_6i9p-a1-m21-cA 6i9p-a1-m18-cA_6i9p-a1-m23-cA 6i9p-a1-m19-cA_6i9p-a1-m24-cA 6i9p-a1-m1-cA_6i9p-a1-m5-cA 6i9p-a1-m1-cA_6i9p-a1-m9-cA 6i9p-a1-m20-cA_6i9p-a1-m22-cA 6i9p-a1-m2-cA_6i9p-a1-m7-cA 6i9p-a1-m3-cA_6i9p-a1-m8-cA 6i9p-a1-m4-cA_6i9p-a1-m6-cA 6i9p-a1-m5-cA_6i9p-a1-m9-cA 6i9t-a1-m10-cA_6i9t-a1-m19-cA 6i9t-a1-m11-cA_6i9t-a1-m17-cA 6i9t-a1-m11-cA_6i9t-a1-m2-cA 6i9t-a1-m12-cA_6i9t-a1-m20-cA 6i9t-a1-m12-cA_6i9t-a1-m4-cA 6i9t-a1-m13-cA_6i9t-a1-m23-cA 6i9t-a1-m13-cA_6i9t-a1-m6-cA 6i9t-a1-m14-cA_6i9t-a1-m21-cA 6i9t-a1-m14-cA_6i9t-a1-m7-cA 6i9t-a1-m15-cA_6i9t-a1-m22-cA 6i9t-a1-m15-cA_6i9t-a1-m5-cA 6i9t-a1-m16-cA_6i9t-a1-m24-cA 6i9t-a1-m16-cA_6i9t-a1-m8-cA 6i9t-a1-m17-cA_6i9t-a1-m2-cA 6i9t-a1-m18-cA_6i9t-a1-m3-cA 6i9t-a1-m18-cA_6i9t-a1-m9-cA 6i9t-a1-m1-cA_6i9t-a1-m10-cA 6i9t-a1-m1-cA_6i9t-a1-m19-cA 6i9t-a1-m20-cA_6i9t-a1-m4-cA 6i9t-a1-m21-cA_6i9t-a1-m7-cA 6i9t-a1-m22-cA_6i9t-a1-m5-cA 6i9t-a1-m23-cA_6i9t-a1-m6-cA 6i9t-a1-m24-cA_6i9t-a1-m8-cA 6i9t-a1-m3-cA_6i9t-a1-m9-cA 6iaf-a1-m10-cA_6iaf-a1-m18-cA 6iaf-a1-m10-cA_6iaf-a1-m2-cA 6iaf-a1-m11-cA_6iaf-a1-m20-cA 6iaf-a1-m12-cA_6iaf-a1-m17-cA 6iaf-a1-m12-cA_6iaf-a1-m3-cA 6iaf-a1-m13-cA_6iaf-a1-m24-cA 6iaf-a1-m13-cA_6iaf-a1-m7-cA 6iaf-a1-m14-cA_6iaf-a1-m22-cA 6iaf-a1-m14-cA_6iaf-a1-m6-cA 6iaf-a1-m15-cA_6iaf-a1-m21-cA 6iaf-a1-m15-cA_6iaf-a1-m8-cA 6iaf-a1-m16-cA_6iaf-a1-m23-cA 6iaf-a1-m16-cA_6iaf-a1-m5-cA 6iaf-a1-m17-cA_6iaf-a1-m3-cA 6iaf-a1-m18-cA_6iaf-a1-m2-cA 6iaf-a1-m19-cA_6iaf-a1-m4-cA 6iaf-a1-m19-cA_6iaf-a1-m9-cA 6iaf-a1-m1-cA_6iaf-a1-m11-cA 6iaf-a1-m1-cA_6iaf-a1-m20-cA 6iaf-a1-m21-cA_6iaf-a1-m8-cA 6iaf-a1-m22-cA_6iaf-a1-m6-cA 6iaf-a1-m23-cA_6iaf-a1-m5-cA 6iaf-a1-m24-cA_6iaf-a1-m7-cA 6iaf-a1-m4-cA_6iaf-a1-m9-cA 6iaj-a1-m10-cA_6iaj-a1-m18-cA 6iaj-a1-m10-cA_6iaj-a1-m2-cA 6iaj-a1-m11-cA_6iaj-a1-m20-cA 6iaj-a1-m12-cA_6iaj-a1-m17-cA 6iaj-a1-m12-cA_6iaj-a1-m3-cA 6iaj-a1-m13-cA_6iaj-a1-m24-cA 6iaj-a1-m13-cA_6iaj-a1-m7-cA 6iaj-a1-m14-cA_6iaj-a1-m22-cA 6iaj-a1-m14-cA_6iaj-a1-m6-cA 6iaj-a1-m15-cA_6iaj-a1-m21-cA 6iaj-a1-m15-cA_6iaj-a1-m8-cA 6iaj-a1-m16-cA_6iaj-a1-m23-cA 6iaj-a1-m16-cA_6iaj-a1-m5-cA 6iaj-a1-m17-cA_6iaj-a1-m3-cA 6iaj-a1-m18-cA_6iaj-a1-m2-cA 6iaj-a1-m19-cA_6iaj-a1-m4-cA 6iaj-a1-m19-cA_6iaj-a1-m9-cA 6iaj-a1-m1-cA_6iaj-a1-m11-cA 6iaj-a1-m1-cA_6iaj-a1-m20-cA 6iaj-a1-m21-cA_6iaj-a1-m8-cA 6iaj-a1-m22-cA_6iaj-a1-m6-cA 6iaj-a1-m23-cA_6iaj-a1-m5-cA 6iaj-a1-m24-cA_6iaj-a1-m7-cA 6iaj-a1-m4-cA_6iaj-a1-m9-cA VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHAEREHAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALLDLHKLATDKVDPHLCDFLESEYLEAQVKAIKRIGDFITNLKRLGLPENGMGEYLFDKHSVKES VSQVRQNYHSDCEAAVNRMLNLELYASYTYSSMYAFFDRDDVALHNVAEFFKEHSHAEREHAEKFMKYQNKRGGRVVLQDIKKPERDEWGNTLEAMQAALQLEKTVNQALLDLHKLATDKVDPHLCDFLESEYLEAQVKAIKRIGDFITNLKRLGLPENGMGEYLFDKHSVKES 5j90-a1-m1-cA_5j90-a1-m1-cB Structure of Fjoh_4558, a chitin-binding SusD homolog from Flavobacterium johnsoniae A5FB66 A5FB66 1.3932 X-RAY DIFFRACTION 68 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 482 482 NHIKGGFAPMFNNIQVLTPEWVYQLQQGLNSDIWSGYMATPTGFESGVNNTTYALLDNWNGFIWDYGYKNVMFNAYDIANKSKGKYDQFYALSLILKVEGMHRMTDTFGPIIYSKFGSNDATIAYDSQEEVYTQMFAELDTAVAELTKRIDAGEASTFESTDMTGYKGKYESWVRFANTLRLRLAMRIVKVKPALAKTEAEKAVAQKFGVMLVNDDSFKIVSPVYTNPIATISSSWLDIRMSADMESIMKGYQDPRIASYFDTSKQFPNEYKGVRTGIAISGKSDHQDFSGIGAVVRSKEIYLMNAAEAYFLRAEGALRGWNMGGTAQELYEAGIKASFDQRGVSGAAGYIADNTKTAAAYVDPNFPENNSDPVNNVTVAWDAAATNEVKLQKIITQKWIAGFPEGQEAWSDYRRTGYPKLFPVLKNYSGGAITTEFGVRRINFVQSEKAGNSGGVATGVSKLGGPDNGGTRVWWDVNAPNF NHIKGGFAPMFNNIQVLTPEWVYQLQQGLNSDIWSGYMATPTGFESGVNNTTYALLDNWNGFIWDYGYKNVMFNAYDIANKSKGKYDQFYALSLILKVEGMHRMTDTFGPIIYSKFGSNDATIAYDSQEEVYTQMFAELDTAVAELTKRIDAGEASTFESTDMTGYKGKYESWVRFANTLRLRLAMRIVKVKPALAKTEAEKAVAQKFGVMLVNDDSFKIVSPVYTNPIATISSSWLDIRMSADMESIMKGYQDPRIASYFDTSKQFPNEYKGVRTGIAISGKSDHQDFSGIGAVVRSKEIYLMNAAEAYFLRAEGALRGWNMGGTAQELYEAGIKASFDQRGVSGAAGYIADNTKTAAAYVDPNFPENNSDPVNNVTVAWDAAATNEVKLQKIITQKWIAGFPEGQEAWSDYRRTGYPKLFPVLKNYSGGAITTEFGVRRINFVQSEKAGNSGGVATGVSKLGGPDNGGTRVWWDVNAPNF 5j92-a2-m1-cC_5j92-a2-m1-cB Crystal structure of a putative alpha-ketoglutarate dependent 2,4-D dioxygenase from Burkholderia xenovorans Q13Q05 Q13Q05 1.95 X-RAY DIFFRACTION 47 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 258 259 5j92-a1-m1-cD_5j92-a1-m1-cA SLNVEAAHPFIAARIHGLDLSKPLSDERIVEIEQASGQYPVLIFPRQYIDDDQLLAFAAGFGPLQVAVDRRRMNNLTSRRWHSDASYLPLPARYSFLLSYIVPAVGGQTQFADMRAAYDKLPDHLRKVVEGLSCHYDIMASRAAAGFYDASDEERKALAPCIHELVRTHPISGRKSLYLSSHATHVVGWPEPEGRDLLRELTEFATQPQFVYSHEWSVRDLVMWDNRALMHRGRPHIPETDVREMHRATTLDDRTWTR SLNVEAAHPFIAARIHGLDLSKPLSDERIVEIEQASGQYPVLIFPRQYIDDDQLLAFAAGFGPLQVAVDRRRMNNLTSRRWHSDASYLPLPARYSFLLSYIVPAVGGQTQFADMRAAYDKLPDHLRKVVEGLSCHYDIMASRAAAGFYDASDEERKALAPCIHELVRTHPISGRKSLYLSSHATHVVGWPEPEGRDLLRELTEFATQPQFVYSHEWSVRDLVMWDNRALMHRGRPHIPETDVREMHRATTLDDRTWTRG 5j97-a1-m1-cB_5j97-a1-m1-cA Dimerization domain of cytoplasmic activation/proliferation-associated protein-2 (caprin-2) Q6IMN6 Q6IMN6 2.55 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 123 QRREHLKLEAEKKKLRTILQVQYVLQNLTQEHVQKDFKGGLNGAVYLPSKELDYLIKFSKLTCPERNESLSVEDQEQSSLYFWDLLEGSEKAVVGTTYKHLKDLLSKLLNSGYFESIPVP SPSQRREHLKLEAEKKKLRTILQVQYVLQNLTQEHVQKDFKGGLNGAVYLPSKELDYLIKFSKLTCPERNESLSVEDQEQSSLYFWDLLEGSEKAVVGTTYKHLKDLLSKLLNSGYFESIPVP 5j9c-a1-m1-cA_5j9c-a1-m1-cB Crystal structure of peroxiredoxin Asp f3 C31S/C61S variant O43099 O43099 1.956 X-RAY DIFFRACTION 65 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 167 170 5j9b-a1-m1-cA_5j9b-a1-m1-cB GLKAGDSFPSDVVFSYIPWSEDKGEITASGIPINYNASKEWADKKVILFALPGAFTPVSSARHVPEYIEKLPEIRAKGVDVVAVLAYNDAYVMSAWGKANQVTGDDILFLSDPDARFSKSIGWADEEGRTKRYALVIDHGKITYAALEPAKNHLEFSSAETVLKHLH GSGLKAGDSFPSDVVFSYIPWSEDKGEITASGIPINYNASKEWADKKVILFALPGAFTPVSSARHVPEYIEKLPEIRAKGVDVVAVLAYNDAYVMSAWGKANQVTGDDILFLSDPDARFSKSIGWADEEGRTKRYALVIDHGKITYAALEPAKNHLEFSSAETVLKHLHH 5j9i-a4-m1-cG_5j9i-a4-m1-cH Crystal structure of the HigA2 antitoxin C-terminal domain Q9KMA5 Q9KMA5 1.797 X-RAY DIFFRACTION 62 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 65 68 5j9i-a1-m1-cA_5j9i-a1-m1-cB 5j9i-a2-m1-cD_5j9i-a2-m1-cC 5j9i-a3-m1-cE_5j9i-a3-m1-cF 5jaa-a1-m1-cB_5jaa-a1-m1-cA ISPDEIVSIREQFNMSRGVFARLLHTSSRTLENWEQGRSVPNGQAVTLLKLVQRHPETLSHIAEL ELNISPDEIVSIREQFNMSRGVFARLLHTSSRTLENWEQGRSVPNGQAVTLLKLVQRHPETLSHIAEL 5j9r-a1-m1-cA_5j9r-a1-m1-cD Structure of Penicillin V acylase from Agrobacterium tumefaciens A0A083ZJN8 A0A083ZJN8 2.8 X-RAY DIFFRACTION 28 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 317 317 5j9r-a1-m1-cB_5j9r-a1-m1-cC CTRFVYIGENNQVMTARSMDWKTDVGTNLWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDVSTTDGMNEAGLAANVLWLVESSYPDYDGKSPGLSIAAWAQYVLDNFATVEEAVRVLEKNPFIIVTATLHLSLSDASGDSAIVEYIDGKQVIHHGRQYQVMTNSPTFDEQLALNAYWTQIGGTVMLPGTNRASDRFVRASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNVFWIDMTKLDLSKETGAVKKLDLGANQIHIYSGMANESLKDTKPFKFLGL CTRFVYIGENNQVMTARSMDWKTDVGTNLWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDVSTTDGMNEAGLAANVLWLVESSYPDYDGKSPGLSIAAWAQYVLDNFATVEEAVRVLEKNPFIIVTATLHLSLSDASGDSAIVEYIDGKQVIHHGRQYQVMTNSPTFDEQLALNAYWTQIGGTVMLPGTNRASDRFVRASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNVFWIDMTKLDLSKETGAVKKLDLGANQIHIYSGMANESLKDTKPFKFLGL 5j9r-a1-m1-cB_5j9r-a1-m1-cD Structure of Penicillin V acylase from Agrobacterium tumefaciens A0A083ZJN8 A0A083ZJN8 2.8 X-RAY DIFFRACTION 10 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 317 317 5j9r-a1-m1-cA_5j9r-a1-m1-cC CTRFVYIGENNQVMTARSMDWKTDVGTNLWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDVSTTDGMNEAGLAANVLWLVESSYPDYDGKSPGLSIAAWAQYVLDNFATVEEAVRVLEKNPFIIVTATLHLSLSDASGDSAIVEYIDGKQVIHHGRQYQVMTNSPTFDEQLALNAYWTQIGGTVMLPGTNRASDRFVRASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNVFWIDMTKLDLSKETGAVKKLDLGANQIHIYSGMANESLKDTKPFKFLGL CTRFVYIGENNQVMTARSMDWKTDVGTNLWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDVSTTDGMNEAGLAANVLWLVESSYPDYDGKSPGLSIAAWAQYVLDNFATVEEAVRVLEKNPFIIVTATLHLSLSDASGDSAIVEYIDGKQVIHHGRQYQVMTNSPTFDEQLALNAYWTQIGGTVMLPGTNRASDRFVRASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNVFWIDMTKLDLSKETGAVKKLDLGANQIHIYSGMANESLKDTKPFKFLGL 5j9r-a1-m1-cC_5j9r-a1-m1-cD Structure of Penicillin V acylase from Agrobacterium tumefaciens A0A083ZJN8 A0A083ZJN8 2.8 X-RAY DIFFRACTION 135 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 317 317 5j9r-a1-m1-cA_5j9r-a1-m1-cB CTRFVYIGENNQVMTARSMDWKTDVGTNLWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDVSTTDGMNEAGLAANVLWLVESSYPDYDGKSPGLSIAAWAQYVLDNFATVEEAVRVLEKNPFIIVTATLHLSLSDASGDSAIVEYIDGKQVIHHGRQYQVMTNSPTFDEQLALNAYWTQIGGTVMLPGTNRASDRFVRASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNVFWIDMTKLDLSKETGAVKKLDLGANQIHIYSGMANESLKDTKPFKFLGL CTRFVYIGENNQVMTARSMDWKTDVGTNLWVFPRGMERSGEAGPNSVKWTSKYGSVIASGYDVSTTDGMNEAGLAANVLWLVESSYPDYDGKSPGLSIAAWAQYVLDNFATVEEAVRVLEKNPFIIVTATLHLSLSDASGDSAIVEYIDGKQVIHHGRQYQVMTNSPTFDEQLALNAYWTQIGGTVMLPGTNRASDRFVRASFYANAIPKSENPVEAIASVFSVIRNVSVPYGITTPDQPNISSTRWRTVIDHKRKLYFFESALTPNVFWIDMTKLDLSKETGAVKKLDLGANQIHIYSGMANESLKDTKPFKFLGL 5jab-a2-m1-cC_5jab-a2-m1-cD Structure of the biliverdin reductase Rv2074 from Mycobacterium tuberculosis in complex with F420 P9WLL7 P9WLL7 1.65 X-RAY DIFFRACTION 75 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 127 134 2asf-a1-m1-cA_2asf-a1-m2-cA 5jab-a1-m1-cB_5jab-a1-m1-cA RLSDDALAFLSERHLAMLTTLRADNSPHVVAVGFTFDPKTHIARVITTGGSQKAVNADRSGLAVLSQVDGARWLSLEGRAAVNSDIDAVRDAELRYAQRYRTPRPNPRRVVIEVQIERVLGSADLLD AMVNTTTRLSDDALAFLSERHLAMLTTLRADNSPHVVAVGFTFDPKTHIARVITTGGSQKAVNADRSGLAVLSQVDGARWLSLEGRAAVNSDIDAVRDAELRYAQRYRTPRPNPRRVVIEVQIERVLGSADLLD 5jaw-a2-m3-cH_5jaw-a2-m3-cG Structure of a beta galactosidase with inhibitor B3PBE0 B3PBE0 1.6 X-RAY DIFFRACTION 78 0.996 498211 (Cellvibrio japonicus Ueda107) 498211 (Cellvibrio japonicus Ueda107) 527 531 4d1i-a1-m1-cA_4d1i-a1-m1-cB 4d1i-a1-m1-cA_4d1i-a1-m1-cC 4d1i-a1-m1-cB_4d1i-a1-m1-cH 4d1i-a1-m1-cC_4d1i-a1-m1-cH 4d1i-a2-m1-cD_4d1i-a2-m1-cE 4d1i-a2-m1-cD_4d1i-a2-m1-cF 4d1i-a2-m1-cE_4d1i-a2-m1-cG 4d1i-a2-m1-cF_4d1i-a2-m1-cG 4d1j-a1-m1-cA_4d1j-a1-m1-cB 4d1j-a1-m1-cA_4d1j-a1-m1-cC 4d1j-a1-m1-cB_4d1j-a1-m1-cH 4d1j-a1-m1-cC_4d1j-a1-m1-cH 4d1j-a2-m1-cE_4d1j-a2-m1-cD 4d1j-a2-m1-cE_4d1j-a2-m1-cG 4d1j-a2-m1-cF_4d1j-a2-m1-cD 4d1j-a2-m1-cF_4d1j-a2-m1-cG 5jaw-a1-m1-cC_5jaw-a1-m2-cA 5jaw-a1-m1-cE_5jaw-a1-m1-cC 5jaw-a1-m2-cD_5jaw-a1-m1-cE 5jaw-a1-m2-cD_5jaw-a1-m2-cA 5jaw-a2-m1-cF_5jaw-a2-m1-cB 5jaw-a2-m1-cF_5jaw-a2-m3-cG 5jaw-a2-m3-cH_5jaw-a2-m1-cB APLPELLSNNGKHALMVDGAPYIILGSQTNNSSNYPDALKDVWPSMEKMGANTLSIPVAWEQIEPVEGQFDFSFVDVLLKEARQRKVRLVLLWFATWKNNAPHYAPAWVKLDNARFPRVVKEDGDTLNSLSPLGQNTLAADKKAFVELMKYLAKRDKDHTVIMVQVQNEVGTYGAVRDYSPMAQAVFNAAVPDDLIQKLQLKPGTWSQVFGRDADEFFHAYQIARYCDEVTVAGKAIKNLPMYVNVALRNPFNPGLPGQYSSGGGTDNVLHIWKAAAPNIDLIAPDIYFRDYKTVSKVLELYTRPDNALFVAEIGNDQPFARYLFPTLGKGGIGFSPFGMDDTDYTNYPLGAKVYNDETIEQFAQVYRLVNPMMREWARLSYQGQVWGVAEPLDSTTEATEQHKKDRASALTQQLDLGLWDAEVTYGRPMFWVTPPEGNTPAAGGALIAQLDDNEYLVTAYKARVEFKPSQELAGKKFMIERVEEGRFEKGKWVMERVWNGDQTDWGLNFTDRPHLLRVKMASYSVQ APLPELLSNNGKHALMVDGAPYIILGSQTNNSSNYPDALKDVWPSMEKMGANTLSIPVAWEQIEPVEGQFDFSFVDVLLKEARQRKVRLVLLWFATWKNNAPHYAPAWVKLDNARFPRVVKEDGDTLNSLSPLGQNTLAADKKAFVELMKYLAKRDKDHTVIMVQVQNEVGTYGAVRDYSPMAQAVFNAAVPDDLIQKLQLKPGTWSQVFGRDADEFFHAYQIARYCDEVTVAGKAIKNLPMYVNVALRNPFNPGLPGQYSSGGGTDNVLHIWKAAAPNIDLIAPDIYFRDYKTVSKVLELYTRPDNALFVAEIGNDQPFARYLFPTLGKGGIGFSPFGMDDTDYTNYPLGAKVYNDETIEQFAQVYRLVNPMMREWARLSYQGQVWGVAEPLDSTTETQKIWKEQHKKDRASALTQQLDLGLWDAEVTYGRPMFWVTPPEGNTPAAGGALIAQLDDNEYLVTAYKARVEFKPSQELAGKKFMIERVEEGRFEKGKWVMERVWNGDQTDWGLNFTDRPHLLRVKMASYSVQ 5jay-a3-m1-cB_5jay-a3-m2-cB Crystal Structure of an 8-amino-7-oxononanoate Synthase from Burkholderia xenovorans Q146K3 Q146K3 1.75 X-RAY DIFFRACTION 42 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 364 364 5jay-a3-m1-cA_5jay-a3-m2-cA LLDTLAEGLKEIDAAAHMTVDGRAIIGFASNDYLGLAAHPQLIAAIAEGAQRYGAGSGGSGGHSRAHAQLEDDLAEFVGGFVENARALYFSTGYMANLATLTALAGRGTTLFSDALNHASLIDGARLSRADVQIYPHCDTDALSAMLEASDADVKVIVSDTVFSMDGDIAPLPRLLELAEQHGAWLIVDDAHGFGVLGPQGRGAIAQAALRSPNLISIGTLDKAAGVSGAFVAAHETVIEWLVQRARTASVPAAAHAVSASLRIIGGEEGDARRAHLQQLIGRTRAMLKATPWLPVDSHTAVQPLIIGANDATLEIAATLDRAGLWVPAIRPPTVPTGTSRLRISLSAAHSQADLDRLEAGLQQ LLDTLAEGLKEIDAAAHMTVDGRAIIGFASNDYLGLAAHPQLIAAIAEGAQRYGAGSGGSGGHSRAHAQLEDDLAEFVGGFVENARALYFSTGYMANLATLTALAGRGTTLFSDALNHASLIDGARLSRADVQIYPHCDTDALSAMLEASDADVKVIVSDTVFSMDGDIAPLPRLLELAEQHGAWLIVDDAHGFGVLGPQGRGAIAQAALRSPNLISIGTLDKAAGVSGAFVAAHETVIEWLVQRARTASVPAAAHAVSASLRIIGGEEGDARRAHLQQLIGRTRAMLKATPWLPVDSHTAVQPLIIGANDATLEIAATLDRAGLWVPAIRPPTVPTGTSRLRISLSAAHSQADLDRLEAGLQQ 5jay-a3-m2-cB_5jay-a3-m2-cA Crystal Structure of an 8-amino-7-oxononanoate Synthase from Burkholderia xenovorans Q146K3 Q146K3 1.75 X-RAY DIFFRACTION 235 0.989 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 364 385 5jay-a3-m1-cB_5jay-a3-m1-cA LLDTLAEGLKEIDAAAHMTVDGRAIIGFASNDYLGLAAHPQLIAAIAEGAQRYGAGSGGSGGHSRAHAQLEDDLAEFVGGFVENARALYFSTGYMANLATLTALAGRGTTLFSDALNHASLIDGARLSRADVQIYPHCDTDALSAMLEASDADVKVIVSDTVFSMDGDIAPLPRLLELAEQHGAWLIVDDAHGFGVLGPQGRGAIAQAALRSPNLISIGTLDKAAGVSGAFVAAHETVIEWLVQRARTASVPAAAHAVSASLRIIGGEEGDARRAHLQQLIGRTRAMLKATPWLPVDSHTAVQPLIIGANDATLEIAATLDRAGLWVPAIRPPTVPTGTSRLRISLSAAHSQADLDRLEAGLQQ HHHMHLLDTLAEGLKEIDARGLRRRRRTADTPCAAHMTVDGRAIIGFASNDYLGLAAHPQLIAAIAEGAQRYGAGSGHSRAHAQLEDDLAEFVGGFVENARALYFSTGYMANLATLTALAGRGTTLFSDALNHASLIDGARLSRADVQIYPHCDTDALSAMLEASDADVKVIVSDTVFSMDGDIAPLPRLLELAEQHGAWLIVDDAHGFGVLGPQGRGAIAQAALRSPNLISIGTLDKAAGVSGAFVAAHETVIEWLVQRARPYIFTTASVPAAAHAVSASLRIIGGEEGDARRAHLQQLIGRTRAMLKATPWLPVDSHTAVQPLIIGANDATLEIAATLDRAGLWVPAIRPPTVPTGTSRLRISLSAAHSQADLDRLEAGLQQL 5jbk-a2-m1-cA_5jbk-a2-m1-cB Trichoderma harzianum GH1 beta-glucosidase ThBgl1 A0A0F9ZQA8 A0A0F9ZQA8 2.593 X-RAY DIFFRACTION 59 1.0 5544 (Trichoderma harzianum) 5544 (Trichoderma harzianum) 465 465 5bwf-a3-m1-cA_5bwf-a3-m1-cB 5jbk-a1-m1-cA_5jbk-a1-m1-cB MMLPKDFQWGFATAAYQIEGAIDKDGRGPSIWDTFCAIPGKIADGTSGVTACDSYNRTAEDIALLKSLGAKSYRFSISWSRIIPKGGRDDPVNQLGIDHYAQFVDDLLEAGITPFITLFHWDLPEELHQRYGGLLNRTEFPLDFENYARVMFKALPKVRNWITFNEPLCSAIPGYGSGTFAPGRQSTTEPWIVGHNLLVAHGRAVKVYRDEFKDLNDGQIGIVLNGDFTYPWDSSDPLDREAAERRLEFFTAWYADPIYLGDYPASMRKQLGDRLPEFTPEEKAFVLGSNDFYGMNHYTSNYIRHRTSPATADDTVGNVDVLFYNKEGQCIGPETESSWLRPCPAGFRDFLVWISKRYNYPKIYVTENGTSLKGENDLPKEKILEDDFRVNYYNEYIRAMFTAATLDGVNVKGYFAWSLMDNFEWADGYVTRFGVTYVDYENGQQRFPKKSAKSLKPLFDELIAK MMLPKDFQWGFATAAYQIEGAIDKDGRGPSIWDTFCAIPGKIADGTSGVTACDSYNRTAEDIALLKSLGAKSYRFSISWSRIIPKGGRDDPVNQLGIDHYAQFVDDLLEAGITPFITLFHWDLPEELHQRYGGLLNRTEFPLDFENYARVMFKALPKVRNWITFNEPLCSAIPGYGSGTFAPGRQSTTEPWIVGHNLLVAHGRAVKVYRDEFKDLNDGQIGIVLNGDFTYPWDSSDPLDREAAERRLEFFTAWYADPIYLGDYPASMRKQLGDRLPEFTPEEKAFVLGSNDFYGMNHYTSNYIRHRTSPATADDTVGNVDVLFYNKEGQCIGPETESSWLRPCPAGFRDFLVWISKRYNYPKIYVTENGTSLKGENDLPKEKILEDDFRVNYYNEYIRAMFTAATLDGVNVKGYFAWSLMDNFEWADGYVTRFGVTYVDYENGQQRFPKKSAKSLKPLFDELIAK 5jbl-a1-m1-cD_5jbl-a1-m1-cE Structure of the bacteriophage T4 capsid assembly protease, gp21. P06807 P06807 1.943 X-RAY DIFFRACTION 60 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 166 166 5jbl-a1-m1-cA_5jbl-a1-m1-cE 5jbl-a1-m1-cB_5jbl-a1-m1-cA 5jbl-a1-m1-cB_5jbl-a1-m1-cC 5jbl-a1-m1-cC_5jbl-a1-m1-cD NEPQLLIETWGQPGEIIDGVPMLESGLKPGLYIEGIFLQAEVVNRNKRLYPKRILEKAVKDYINEQVLTKQALGELNAPPRANVDPMQAAIIIEDMWWKGNDVYGRARVIEGDHGPGDKLAANIRAGWIPGVASRGLGSLTDTNEGYRIVNEGFKLTVGVDAVWGP NEPQLLIETWGQPGEIIDGVPMLESGLKPGLYIEGIFLQAEVVNRNKRLYPKRILEKAVKDYINEQVLTKQALGELNAPPRANVDPMQAAIIIEDMWWKGNDVYGRARVIEGDHGPGDKLAANIRAGWIPGVASRGLGSLTDTNEGYRIVNEGFKLTVGVDAVWGP 5jbr-a1-m1-cB_5jbr-a1-m1-cA Crystal structure of uncharacterized protein Bcav_2135 from Beutenbergia cavernae C5C6I1 C5C6I1 1.65 X-RAY DIFFRACTION 85 1.0 471853 (Beutenbergia cavernae DSM 12333) 471853 (Beutenbergia cavernae DSM 12333) 139 146 NAVTEEQLTFSQAGDLATWQLPRTTGRTYGYLLLQSEATSFQEIGADLGLSPGAVSTSVRELVAWGLARTIPQPGSRRLLVEAAGGFEQLLAASHERSRAFIRTLRSGQALADDDRVATRLVDLTDLFEAYVEAGEQLR NAVTEEQLTFSQAGDLATWQLPRTTGRTYGYLLLQSEATSFQEIGADLGLSPGAVSTSVRELVAWGLARTIPQPGSRRLLVEAAGGFEQLLAASHERSRAFIRTLRSGQALADDDRVATRLVDLTDLFEAYVEAGEQLRRRHEAGG 5jbs-a1-m1-cB_5jbs-a1-m1-cD Conformational changes during monomer-to-dimer transition of Brucella suis VirB8 Q7CEG3 Q7CEG3 1.95 X-RAY DIFFRACTION 25 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 126 136 SYDTVRDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFNVRTSVTIVSIVPNGKGIGTVRFAKTTKRTNETGDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPE SYDTVRDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFQLDKQYGSNVRTSVTIVSIVPNGKGIGTVRFAKTTKRTNETGDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPEMG 5jbs-a1-m1-cC_5jbs-a1-m1-cB Conformational changes during monomer-to-dimer transition of Brucella suis VirB8 Q7CEG3 Q7CEG3 1.95 X-RAY DIFFRACTION 25 0.992 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 121 126 SYDTVRDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFQVRTSVTIVSIVPNGKGIGTVRFAKTTKGDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPE SYDTVRDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFNVRTSVTIVSIVPNGKGIGTVRFAKTTKRTNETGDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPE 5jbs-a1-m1-cC_5jbs-a1-m1-cD Conformational changes during monomer-to-dimer transition of Brucella suis VirB8 Q7CEG3 Q7CEG3 1.95 X-RAY DIFFRACTION 34 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 121 136 SYDTVRDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFQVRTSVTIVSIVPNGKGIGTVRFAKTTKGDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPE SYDTVRDKYWLSQYVIARETYDWYTLQKDYETVGMLSSPSEGQSYASQFQLDKQYGSNVRTSVTIVSIVPNGKGIGTVRFAKTTKRTNETGDGETTHWIATIGYQYVNPSLMSESARLTNPLGFNVTSYRVDPEMG 5jbw-a1-m2-cA_5jbw-a1-m3-cA Crystal structure of LiuC Q1D5Y4 Q1D5Y4 2.05 X-RAY DIFFRACTION 129 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 259 259 5jbw-a1-m1-cA_5jbw-a1-m2-cA 5jbw-a1-m1-cA_5jbw-a1-m3-cA 5jbx-a1-m1-cA_5jbx-a1-m1-cB 5jbx-a1-m1-cA_5jbx-a1-m1-cC 5jbx-a1-m1-cB_5jbx-a1-m1-cC HMPEFKVDARGPIEIWTIDGESRRNAISRAMLKELGELVTRVSSSRDVRAVVITGAGDKAFCAGADLKERATMAEDEVRAFLDGLRRTFRAIEKSDCVFIAAINGAALGGGTELALACDLRVAAPAAELGLTEVKLGIIPGGGGTQRLARLVGPGRAKDLILTARRINAAEAFSVGLANRLAPEGHLLAVAYGLAESVVENAPIAVATAKHAIDEGTGLELDDALALELRKYEEILKTEDRLEGLRAFAEKRAPVYKGR HMPEFKVDARGPIEIWTIDGESRRNAISRAMLKELGELVTRVSSSRDVRAVVITGAGDKAFCAGADLKERATMAEDEVRAFLDGLRRTFRAIEKSDCVFIAAINGAALGGGTELALACDLRVAAPAAELGLTEVKLGIIPGGGGTQRLARLVGPGRAKDLILTARRINAAEAFSVGLANRLAPEGHLLAVAYGLAESVVENAPIAVATAKHAIDEGTGLELDDALALELRKYEEILKTEDRLEGLRAFAEKRAPVYKGR 5jc7-a1-m1-cA_5jc7-a1-m1-cB Crystal structure of chicken MDA5 with 5'p 24-mer dsRNA and ADP-Mg2+ at 2.75 A resolution. D9N195 D9N195 2.75 X-RAY DIFFRACTION 54 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 641 647 DLTLRDYQMEVAKPALNGENIIICLPTGSGKTRVAVYITKDHLDKKRKASEQGKVIVLVNKVPLVEQHLRKEFNPFLKHWYQVIGLSGDSELKISFPEVVKRYDVIICTAQILENSLLNESVRLSDFSLIIIDQCHHTQKEGVYNNIMRRYLKEKIKNRPQPQILGLTASPGVGGARSNSKAEEHILKICANLDACRIMTVKEHASQLKNQVKEPFKKTVIADDKRRDPFRERIIEIMQDIQKYCQLYPKSEFGSQPYEQWVIREERRAAKEEKRKERVCAEHLKKYNDALQINDTIRMVDAYNHLNNFYKELKRRKTAESSKQDETDEFLMRLFHAKKKQLKELARKPEYDNEKLMKLRNTLMEEFTKTEEPRGIIFTKTRQSALALYHWIMDNPKFEEVGIKAHFLIGAGHNSETKPMTQNEQREVIDKFRGGSINLLIATTVAEEGLDIKECNIVIRYGLVTNEIAMVQARGRARADESTYALVASSGSGAVEREDVNIFRENMMYKAIRRVQEMPPEEYLNKIQDFQLQSIVEKQMKAKRDQRITFLCKNCHKLICSGEDIQVIENMHHVSVKKDFQHLYHKREEIICKDCGQVWGNMMVYRGLDLPCLKIRNFVVAFETKEIFKKWGELPIIFPDF DLTLRDYQMEVAKPALNGENIIICLPTGSGKTRVAVYITKDHLDKKRKASEQGKVIVLVNKVPLVEQHLRKEFNPFLKHWYQVIGLSGDSELKISFPEVVKRYDVIICTAQILENSLLNESVRLSDFSLIIIDQCHHTQKEGVYNNIMRRYLKEKIKNRPQPQILGLTASPGVGGARSNSKAEEHILKICANLDACRIMTVKEHASQLKNQVKEPFKKTVIADDKRRDPFRERIIEIMQDIQKYCQLYPKSEFGSQPYEQWVIREERRAAKEEKRKERVCAEHLKKYNDALQINDTIRMVDAYNHLNNFYKELKRRKTAESPLVSKQDETDEFLMRLFHAKKKQLKELARKPEYDNEKLMKLRNTLMEEFTKTEEPRGIIFTKTRQSALALYHWIMDNPKFEEVGIKAHFLIGAGHNSETKPMTQNEQREVIDKFRGGSINLLIATTVAEEGLDIKECNIVIRYGLVTNEIAMVQARGRARADESTYALVASSGSGAVEREDVNIFRENMMYKAIRRVQEMPPEEYLNKIQDFQLQSIVEKQMKAKRDQRITFLCKNCHKLICSGEDIQVIENMHHVSVKKDFQHLYHKREEIICKDCGQVWGNMMVYRGLDLPCLKIRNFVVAFETTKEIFKKWGELPIIFPDFDY 5jc8-a1-m1-cB_5jc8-a1-m1-cD Crystal structure of a putative short-chain dehydrogenase/reductase from Burkholderia xenovorans Q13GE3 Q13GE3 1.45 X-RAY DIFFRACTION 117 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 253 262 5jc8-a1-m1-cC_5jc8-a1-m1-cA AGRLQGKVALVTGAGCIGPGWGNGRAIAVRFAEEGAHVIAVDRDLASMDATLELVRAAGGSVTPCLCDVTDSASVERLVADSVARCGRVDILVNNVGAPSPGGPVALDEAQWAMQLELNLTTAFLMCKYVLPVMEQQGGGAIVNIASTSGIRWTGAAQVGYAAAKAGMIQMGRVVAVEYAAKNVRVNSVVPGLLHTPMVDTKLLRKRQARIPMPFMGDGRDTANAALFLASDEARFVTGTEIVVDGGMSARCD AGRLQGKVALVTGAGCIGPGWGNGRAIAVRFAEEGAHVIAVDRDLASMDATLELVRAAGGSVTPCLCDVTDSASVERLVADSVARCGRVDILVNNVGAPSPGGPVALDEAQWAMQLELNLTTAFLMCKYVLPVMEQQGGGAIVNIASTSGIRWTGAAQVGYAAAKAGMIQMGRVVAVEYAAKNVRVNSVVPGLLHTPMVDTKIAHNGDVELLLRKRQARIPMPFMGDGRDTANAALFLASDEARFVTGTEIVVDGGMSARCD 5jc8-a1-m1-cC_5jc8-a1-m1-cD Crystal structure of a putative short-chain dehydrogenase/reductase from Burkholderia xenovorans Q13GE3 Q13GE3 1.45 X-RAY DIFFRACTION 120 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 252 262 5jc8-a1-m1-cB_5jc8-a1-m1-cA AGRLQGKVALVTGAGCIGPGWGNGRAIAVRFAEEGAHVIAVDRDLASMDATLELVRAAGGSVTPCLCDVTDSASVERLVADSVARCGRVDILVNNVGAPSPGGPVALDEAQWAMQLELNLTTAFLMCKYVLPVMEQQGGGAIVNIASTSGIRWTGAAQVGYAAAKAGMIQMGRVVAVEYAAKNVRVNSVVPGLLHTPMVDTLLRKRQARIPMPFMGDGRDTANAALFLASDEARFVTGTEIVVDGGMSARCD AGRLQGKVALVTGAGCIGPGWGNGRAIAVRFAEEGAHVIAVDRDLASMDATLELVRAAGGSVTPCLCDVTDSASVERLVADSVARCGRVDILVNNVGAPSPGGPVALDEAQWAMQLELNLTTAFLMCKYVLPVMEQQGGGAIVNIASTSGIRWTGAAQVGYAAAKAGMIQMGRVVAVEYAAKNVRVNSVVPGLLHTPMVDTKIAHNGDVELLLRKRQARIPMPFMGDGRDTANAALFLASDEARFVTGTEIVVDGGMSARCD 5jc8-a1-m1-cD_5jc8-a1-m1-cA Crystal structure of a putative short-chain dehydrogenase/reductase from Burkholderia xenovorans Q13GE3 Q13GE3 1.45 X-RAY DIFFRACTION 39 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 262 263 5jc8-a1-m1-cC_5jc8-a1-m1-cB AGRLQGKVALVTGAGCIGPGWGNGRAIAVRFAEEGAHVIAVDRDLASMDATLELVRAAGGSVTPCLCDVTDSASVERLVADSVARCGRVDILVNNVGAPSPGGPVALDEAQWAMQLELNLTTAFLMCKYVLPVMEQQGGGAIVNIASTSGIRWTGAAQVGYAAAKAGMIQMGRVVAVEYAAKNVRVNSVVPGLLHTPMVDTKIAHNGDVELLLRKRQARIPMPFMGDGRDTANAALFLASDEARFVTGTEIVVDGGMSARCD AGRLQGKVALVTGAGCIGPGWGNGRAIAVRFAEEGAHVIAVDRDLASMDATLELVRAAGGSVTPCLCDVTDSASVERLVADSVARCGRVDILVNNVGAPSPGGPVALDEAQWAMQLELNLTTAFLMCKYVLPVMEQQGGGAIVNIASTSGIRWTGAAQVGYAAAKAGMIQMGRVVAVEYAAKNVRVNSVVPGLLHTPMVDTKIAHNGGDVELLLRKRQARIPMPFMGDGRDTANAALFLASDEARFVTGTEIVVDGGMSARCD 5jca-a2-m1-cS_5jca-a2-m2-cS NADP(H) bound NADH-dependent Ferredoxin:NADP Oxidoreductase (NfnI) from Pyrococcus furiosus Q8U194 Q8U194 1.5 X-RAY DIFFRACTION 65 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 279 279 5jfc-a2-m1-cS_5jfc-a2-m2-cS MMFKILRKERLAPGINLFEIESPRIAKHAKPGQFVMIRLHEKGERIPLTIADVDISKGSITIVAQEVGKTTRELGTYEAGDYILDVLGPLGKPSHIDYFGTVVMIGGGVGVAEIYPVAKAMKEKGNYVISILGFRTKDLVFWEDKLRSVSDEVIVTTNDGSYGMKGFTTHALQKLIEEGRKIDLVHAVGPAIMMKAVAELTKPYGIKTVASLNPIMVDGTGMCGACRVTVGGEVKFACVDGPEFDAHLVDWDQLMNRLAYYRDLEKISLEKWERERRMV MMFKILRKERLAPGINLFEIESPRIAKHAKPGQFVMIRLHEKGERIPLTIADVDISKGSITIVAQEVGKTTRELGTYEAGDYILDVLGPLGKPSHIDYFGTVVMIGGGVGVAEIYPVAKAMKEKGNYVISILGFRTKDLVFWEDKLRSVSDEVIVTTNDGSYGMKGFTTHALQKLIEEGRKIDLVHAVGPAIMMKAVAELTKPYGIKTVASLNPIMVDGTGMCGACRVTVGGEVKFACVDGPEFDAHLVDWDQLMNRLAYYRDLEKISLEKWERERRMV 5jcv-a1-m1-cA_5jcv-a1-m2-cA Sortase B from Listeria monocytogenes. Q8Y588 Q8Y588 2.23 X-RAY DIFFRACTION 28 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 171 171 ALRDLQKLNKDVGWLTIIDTEIDYPILQSKDNDYYLHHNYKNEKARAGSIFKDYRNTNEFLDKNTIIYGHNKDGSFADLRKYLDKDFLVAHPTFSYESGLTNYEVEIFAVYETTTDFYYIETEFPETTDFEDYLQKVKQQSVYTSNVKVSGKDRIITLSTCDKGRVIQGKL ALRDLQKLNKDVGWLTIIDTEIDYPILQSKDNDYYLHHNYKNEKARAGSIFKDYRNTNEFLDKNTIIYGHNKDGSFADLRKYLDKDFLVAHPTFSYESGLTNYEVEIFAVYETTTDFYYIETEFPETTDFEDYLQKVKQQSVYTSNVKVSGKDRIITLSTCDKGRVIQGKL 5jd3-a9-m1-cA_5jd3-a9-m1-cD Crystal structure of LAE5, an alpha/beta hydrolase enzyme from the metagenome of Lake Arreo, Spain 2.3 X-RAY DIFFRACTION 71 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 218 218 5jd3-a10-m1-cB_5jd3-a10-m1-cC 5jd3-a11-m1-cE_5jd3-a11-m1-cH 5jd3-a12-m2-cG_5jd3-a12-m1-cF GMYFAAGSKLVIIGDSITDAGRDKGIGGEGLFNAHGSGYVALLNAHLFARFPERRLRLVNQGNSGNTVRDLAARWQNDVFGLKPDYVAMMIGINDVWRQFDLPLMTDRHVCPEEYEKTLDELVARTAPTVKGMILLTPYFIEPNREDAMRARMDVYGDLMRRVAERHGCLLVDVQGAFDRYLQHYHPAQLAWDRIHPNLAGHQVIANAFLAATGCLNS GMYFAAGSKLVIIGDSITDAGRDKGIGGEGLFNAHGSGYVALLNAHLFARFPERRLRLVNQGNSGNTVRDLAARWQNDVFGLKPDYVAMMIGINDVWRQFDLPLMTDRHVCPEEYEKTLDELVARTAPTVKGMILLTPYFIEPNREDAMRARMDVYGDLMRRVAERHGCLLVDVQGAFDRYLQHYHPAQLAWDRIHPNLAGHQVIANAFLAATGCLNS 5jd5-a6-m1-cD_5jd5-a6-m1-cB Crystal structure of MGS-MilE3, an alpha/beta hydrolase enzyme from the metagenome of pyrene-phenanthrene enrichment culture with sediment sample of Milazzo Harbor, Italy 1.95 X-RAY DIFFRACTION 74 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 316 317 5jd5-a5-m1-cC_5jd5-a5-m1-cA NPFDPELYKDAAVSAETRALNTALIDLLETSDDNWDIGVEEARARRDRGEGPFPAVPKSPRARTIQIPGKGGDIALRIIAPETPKGVYLHFHGGGWVFGSADGQDPMLERISDTTGLVCVSVEYRLAPEHPYPAGPDDCESAALWLVENAKREFGTDLLTIGGEAGGHLAAVTLLRMRDRHGFTGFAGANLVFGAFDLRWTPSARSYGNDRYLILRTLDLEKFDACFLPENVDRADPDISPLMANLHDMPPALFTVGTDDALLDDSLFMHARWAAAGNEAELAVYPGGAHGFVAFPGALAASAVQRMDAFLKRFTD DNPFDPELYKDAAVSAETRALNTALIDLLETSDDNWDIGVEEARARRDRGEGPFPAVPKSPRARTIQIPGKGGDIALRIIAPETPKGVYLHFHGGGWVFGSADGQDPMLERISDTTGLVCVSVEYRLAPEHPYPAGPDDCESAALWLVENAKREFGTDLLTIGGEAGGHLAAVTLLRMRDRHGFTGFAGANLVFGAFDLRWTPSARSYGNDRYLILRTLDLEKFDACFLPENVDRADPDISPLMANLHDMPPALFTVGTDDALLDDSLFMHARWAAAGNEAELAVYPGGAHGFVAFPGALAASAVQRMDAFLKRFTD 5jd8-a1-m2-cA_5jd8-a1-m3-cA Crystal structure of the serine endoprotease from Yersinia pestis A0A5P8YL96 A0A5P8YL96 1.85 X-RAY DIFFRACTION 81 1.0 214092 (Yersinia pestis CO92) 214092 (Yersinia pestis CO92) 272 272 5jd8-a1-m1-cA_5jd8-a1-m2-cA 5jd8-a1-m1-cA_5jd8-a1-m3-cA EVPTSYNQAVRRAAPAVVNVYNRSLAIRTLGSGVIMSDKGYILTNKHVINDAEQIIVAMQNGRISEALLVGSDNLTDLAVLKIDATNLPVIPININRTPHIGDVVLAIGNPYNLGQTVTQGIISATGRINFLQTDASINQGNSGGALVNTLGELMGINTLSFETPEGIGFAIPTALATKVMEKLIRDGRVIRGYIGITGEGIKVKKVSPDGPAAQAGIHVGDIILNVNNKPATSVIETMDQVAEVRPGTTIPVLLLRNGQQIAVQITITELD EVPTSYNQAVRRAAPAVVNVYNRSLAIRTLGSGVIMSDKGYILTNKHVINDAEQIIVAMQNGRISEALLVGSDNLTDLAVLKIDATNLPVIPININRTPHIGDVVLAIGNPYNLGQTVTQGIISATGRINFLQTDASINQGNSGGALVNTLGELMGINTLSFETPEGIGFAIPTALATKVMEKLIRDGRVIRGYIGITGEGIKVKKVSPDGPAAQAGIHVGDIILNVNNKPATSVIETMDQVAEVRPGTTIPVLLLRNGQQIAVQITITELD 5jdc-a1-m1-cB_5jdc-a1-m1-cD Trypanosoma brucei PTR1 in complex with inhibitor NP-13 (Hesperetin) O76290 O76290 1.78 X-RAY DIFFRACTION 125 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 245 247 2c7v-a1-m1-cB_2c7v-a1-m1-cD EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVKTVETQVAELIGTNAIAPFLLTMSFAQRQNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 5jdc-a1-m1-cC_5jdc-a1-m1-cB Trypanosoma brucei PTR1 in complex with inhibitor NP-13 (Hesperetin) O76290 O76290 1.78 X-RAY DIFFRACTION 30 0.996 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 237 245 2c7v-a1-m1-cB_2c7v-a1-m1-cC EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVKTVETQVAELIGTNAIAPFLLTMSFAQRQNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLPEEKDKWRRKVPLGRRSAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVKTVETQVAELIGTNAIAPFLLTMSFAQRQNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 5jdj-a1-m1-cL_5jdj-a1-m1-cA Crystal structure of domain I10 from titin in space group P212121 Q8WZ42 Q8WZ42 1.738 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 91 5jdj-a2-m1-cP_5jdj-a2-m1-cB 5jdj-a3-m1-cM_5jdj-a3-m1-cC 5jdj-a4-m1-cE_5jdj-a4-m1-cD 5jdj-a5-m1-cN_5jdj-a5-m1-cF 5jdj-a6-m1-cJ_5jdj-a6-m1-cG 5jdj-a7-m1-cH_5jdj-a7-m1-cI 5jdj-a8-m1-cO_5jdj-a8-m1-cK AMETLHITKTMKNIEVPETKTASFECEVSHFNVPSMWLKNGVEIEMSEKFKIVVQGKLHQLIIMNTSTEDSAEYTFVCGNDQVSATLTVT GAMETLHITKTMKNIEVPETKTASFECEVSHFNVPSMWLKNGVEIEMSEKFKIVVQGKLHQLIIMNTSTEDSAEYTFVCGNDQVSATLTVT 5jdz-a1-m1-cB_5jdz-a1-m2-cA Crystal structure of Burkholderia glumae ToxA with bound S-adenosylhomocysteine (SAH) Q9LBJ0 Q9LBJ0 1.6 X-RAY DIFFRACTION 19 1.0 337 (Burkholderia glumae) 337 (Burkholderia glumae) 220 239 QRAIEVRTIFHMIGDVSGKSVLDLACGFGFFGREIYRRGAAKVVGVDISEKMIELAREESRKYGDPLEFHVRDVANMEPLGQFDLVNAAWLFNYADSVENLRKMFKVVRASLKPDGKLVAYTVDPDFSLAKGNFAKYGVNVLNERAWGPGYRHDAEFVPSQFSFYRWSRADYESAIADAGFSHFEWQKPLLEADDIATHPPGFWDVFQNNCLQTGLVCKP YDSIGGLFEDFTQSAAQRAIEVRTIFHMIGDVSGKSVLDLACGFGFFGREIYRRGAAKVVGVDISEKMIELAREESRKYGDPLEFHVRDVANMEPLGQFDLVNAAWLFNYADSVENLRKMFKVVRASLKPDGKLVAYTVDPDFSLAKGNFAKYGVNVLNERAWGPGYRHDAEFVTDPPSQFSFYRWSRADYESAIADAGFSHFEWQKPLLEADDIATHPPGFWDVFQNNCLQTGLVCKP 5jdz-a1-m2-cB_5jdz-a1-m2-cA Crystal structure of Burkholderia glumae ToxA with bound S-adenosylhomocysteine (SAH) Q9LBJ0 Q9LBJ0 1.6 X-RAY DIFFRACTION 33 1.0 337 (Burkholderia glumae) 337 (Burkholderia glumae) 220 239 5jdz-a1-m1-cB_5jdz-a1-m1-cA QRAIEVRTIFHMIGDVSGKSVLDLACGFGFFGREIYRRGAAKVVGVDISEKMIELAREESRKYGDPLEFHVRDVANMEPLGQFDLVNAAWLFNYADSVENLRKMFKVVRASLKPDGKLVAYTVDPDFSLAKGNFAKYGVNVLNERAWGPGYRHDAEFVPSQFSFYRWSRADYESAIADAGFSHFEWQKPLLEADDIATHPPGFWDVFQNNCLQTGLVCKP YDSIGGLFEDFTQSAAQRAIEVRTIFHMIGDVSGKSVLDLACGFGFFGREIYRRGAAKVVGVDISEKMIELAREESRKYGDPLEFHVRDVANMEPLGQFDLVNAAWLFNYADSVENLRKMFKVVRASLKPDGKLVAYTVDPDFSLAKGNFAKYGVNVLNERAWGPGYRHDAEFVTDPPSQFSFYRWSRADYESAIADAGFSHFEWQKPLLEADDIATHPPGFWDVFQNNCLQTGLVCKP 5je6-a1-m1-cA_5je6-a1-m1-cB Crystal structure of Burkholderia glumae ToxA Q9LBJ0 Q9LBJ0 1.571 X-RAY DIFFRACTION 118 1.0 337 (Burkholderia glumae) 337 (Burkholderia glumae) 234 234 GLFEDFTQSAAQRAIEVRTIFHMIGDVSGKSVLDLACGFGFFGREIYRRGAAKVVGVDISEKMIELAREESRKYGDPLEFHVRDVANMEPLGQFDLVNAAWLFNYADSVENLRKMFKVVRASLKPDGKLVAYTVDPDFSLAKGNFAKYGVNVLNERAWGPGYRHDAEFVTDPPSQFSFYRWSRADYESAIADAGFSHFEWQKPLLEADDIATHPPGFWDVFQNNCLQTGLVCKP GLFEDFTQSAAQRAIEVRTIFHMIGDVSGKSVLDLACGFGFFGREIYRRGAAKVVGVDISEKMIELAREESRKYGDPLEFHVRDVANMEPLGQFDLVNAAWLFNYADSVENLRKMFKVVRASLKPDGKLVAYTVDPDFSLAKGNFAKYGVNVLNERAWGPGYRHDAEFVTDPPSQFSFYRWSRADYESAIADAGFSHFEWQKPLLEADDIATHPPGFWDVFQNNCLQTGLVCKP 5je8-a2-m1-cC_5je8-a2-m1-cD The crystal structure of Bacillus cereus 3-hydroxyisobutyrate dehydrogenase in complex with NAD Q81DR6 Q81DR6 2.1 X-RAY DIFFRACTION 200 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 289 292 5je8-a1-m1-cA_5je8-a1-m1-cB KKIGFIGLGNMGLPMSKNLVKSGYTVYGVDLNKEAEASFEKEGGIIGLSISKLAETCDVVFTSLPSPRAVEAVYFGAEGLFENGHSNVVFIDTSTVSPQLNKQLEEAAKEKKVDFLAAPVSGGVIGAENRTLTFMVGGSKDVYEKTESIMGVLGANIFHVSEQIDSGTTVKLINNLLIGFYTAGVSEALTLAKKNNMDLDKMFDILNVSYGQSRIYERNYKSFIAPENYEPGFTVNLLKKDLGFAVDLAKESELHLPVSEMLLNVYDEASQAGYGENDMAALYKKVSEQ MKKIGFIGLGNMGLPMSKNLVKSGYTVYGVDLNKEAEASFEKEGGIIGLSISKLAETCDVVFTSLPSPRAVEAVYFGAEGLFENGHSNVVFIDTSTVSPQLNKQLEEAAKEKKVDFLAAPVSGGVIGAENRTLTFMVGGSKDVYEKTESIMGVLGANIFHVSEQIDSGTTVKLINNLLIGFYTAGVSEALTLAKKNNMDLDKMFDILNVSYGQSRIYERNYKSFIAPENYEPGFTVNLLKKDLGFAVDLAKESELHLPVSEMLLNVYDEASQAGYGENDMAALYKKVSEQLI 5jel-a2-m1-cA_5jel-a2-m2-cA Phosphorylated TRIF in complex with IRF-3 Q14653 Q14653 1.6 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 5jej-a1-m1-cB_5jej-a1-m1-cA 5jem-a1-m1-cA_5jem-a1-m1-cB 5jem-a2-m1-cG_5jem-a2-m1-cE 5jeo-a2-m1-cA_5jeo-a2-m2-cA 5jer-a5-m1-cA_5jer-a5-m1-cE 5jer-a5-m1-cC_5jer-a5-m1-cG 7jfl-a1-m1-cA_7jfl-a1-m1-cB ENPLKRLLVPGEEWEFEVTAFYRGRQVFQQTISCPEGLRLVGSEVGDRTLPGWPVTLPDPGMSLTDRGVMSYVRHVLSCLGGGLALWRAGQWLWAQRLGHCHTYWAVSEELLPNSGHGPDGEVPKDKEGGVFDLGPFIVDLITFTEGSGRSPRYALWFCVGESWPQDQPWTKRLVMVKVVPTCLRALVEMARVGGASSLENTVDLHISNSHPLSLTSDQYKAYLQDLVEGMDFQ ENPLKRLLVPGEEWEFEVTAFYRGRQVFQQTISCPEGLRLVGSEVGDRTLPGWPVTLPDPGMSLTDRGVMSYVRHVLSCLGGGLALWRAGQWLWAQRLGHCHTYWAVSEELLPNSGHGPDGEVPKDKEGGVFDLGPFIVDLITFTEGSGRSPRYALWFCVGESWPQDQPWTKRLVMVKVVPTCLRALVEMARVGGASSLENTVDLHISNSHPLSLTSDQYKAYLQDLVEGMDFQ 5jer-a5-m1-cE_5jer-a5-m1-cG Structure of Rotavirus NSP1 bound to IRF-3 Q14653 Q14653 2.913 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 234 5jer-a5-m1-cA_5jer-a5-m1-cC ENPLKRLLVPGEEWEFEVTAFYRGRQVFQQTISCPEGLRLVGSEVGDRTLPGWPVTLPDPGMSLTDRGVMSYVRHVLSCLGGGLALWRAGQWLWAQRLGHCHTYWAVSEELLPNSGHGPDGEVPKDKEGGVFDLGPFIVDLITFTEGSGRSPRYALWFCVGESWPQDQPWTKRLVMVKVVPTCLRALVEMARVGGASSLENTVDLHISNSHPLSLTSDQYKAYLQDLVEGMDFQ ENPLKRLLVPGEEWEFEVTAFYRGRQVFQQTISCPEGLRLVGSEVGDRTLPGWPVTLPDPGMSLTDRGVMSYVRHVLSCLGGGLALWRAGQWLWAQRLGHCHTYWAVSEELLPNSGHGPDGEVPKDKEGGVFDLGPFIVDLITFTEGSGRSPRYALWFCVGESWPQDQPWTKRLVMVKVVPTCLRALVEMARVGGASSLENTVDLHISNSHPLSLTSDQYKAYLQDLVEGMDFQ 5jg7-a1-m1-cB_5jg7-a1-m1-cA Crystal structure of putative periplasmic binding protein from Salmonella typhimurium LT2 Q7CPX8 Q7CPX8 1.7 X-RAY DIFFRACTION 190 0.993 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 138 144 EKFKVITTFTVIADAKNVAGDAAEVSSITKPGAYQPTPGDIKRAQGAQLILANGLNLERWFARFYQHLSGVPEVVVSTGVKPAWSAENALIYVDNIRDALVKYDPDNAQIYKQNAERYKAKIRQADPLRAELEKIPAD EKFKVITTFTVIADAKNVAGDAAEVSSITKPGEIHEYQPTPGDIKRAQGAQLILANGLNLERWFARFYQHLSGVPEVVVSTGVKPGIHAWSAENALIYVDNIRDALVKYDPDNAQIYKQNAERYKAKIRQADPLRAELEKIPAD 5jge-a2-m1-cD_5jge-a2-m1-cE Crystal structure of Atg19 coiled-coil complexed with Ape1 propeptide P35193 P35193 1.91 X-RAY DIFFRACTION 23 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 30 30 GPHMLDNFMKQLLKLEESLNKLELEQKVTN GPHMLDNFMKQLLKLEESLNKLELEQKVTN 5jhe-a1-m1-cA_5jhe-a1-m2-cA The Crystal Structure of the Saccharomyces cerevisiae Co-Chaperone Cpr7 P47103 P47103 1.8 X-RAY DIFFRACTION 56 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 388 388 HHHMMIQDPLVYLDISIDKKPIGRIVCKLFREKAPKTTENFYKLCAGDVKSPLKDQQYLSYKGNGFHRVVKNFMIQAGDIVFGTQKDSSSVGKGGCSIYADKEEVKTDDESFCYGNFEDENLGEFVEPFTLGMANLGSPNTNNSQFFITTYAAPHLNGKHSIFGQVVHGKSVVRTIENCRVDSDGVPESDVRISDCGVWEKTMGVPLYNASNDQIGGDVYEEYPDDDTHFGDDDFGKALEAANIIKESGTLLFKKKDYSNAFFKYRKSLNYINEYMPEPDVDKERNIQFINLKMKIYLNLSLVLFNLERYDDAIMYATYLLEMDNVPNRDQAKAYYRRGNSYLKKKRLDEALQDYIFCKEKNPDDEVIEQRIEYVNRLIEENKEKTRK HHHMMIQDPLVYLDISIDKKPIGRIVCKLFREKAPKTTENFYKLCAGDVKSPLKDQQYLSYKGNGFHRVVKNFMIQAGDIVFGTQKDSSSVGKGGCSIYADKEEVKTDDESFCYGNFEDENLGEFVEPFTLGMANLGSPNTNNSQFFITTYAAPHLNGKHSIFGQVVHGKSVVRTIENCRVDSDGVPESDVRISDCGVWEKTMGVPLYNASNDQIGGDVYEEYPDDDTHFGDDDFGKALEAANIIKESGTLLFKKKDYSNAFFKYRKSLNYINEYMPEPDVDKERNIQFINLKMKIYLNLSLVLFNLERYDDAIMYATYLLEMDNVPNRDQAKAYYRRGNSYLKKKRLDEALQDYIFCKEKNPDDEVIEQRIEYVNRLIEENKEKTRK 5jhf-a1-m1-cC_5jhf-a1-m1-cF Crystal structure of Atg13(17BR)-Atg13(17LR)-Atg17-Atg29-Atg31 complex C5DFJ6 C5DFJ6 3.21 X-RAY DIFFRACTION 141 0.993 559295 (Lachancea thermotolerans CBS 6340) 559295 (Lachancea thermotolerans CBS 6340) 404 405 4hpq-a1-m1-cC_4hpq-a1-m1-cF 4p1w-a1-m1-cF_4p1w-a1-m1-cC MNEAVIEKLLENSRKFLTGAKLICQESNDHLTTTKLRIREWQKFQSKLHFVLDCIQQQTKFLSEILLREGIGRNLIEEEWSQTVLVRLVNDMKFWQNEITKMMNKLDNITNEIDQQHNSKLGDFISRDSSHILDSKLNEIPTIRKQVENITRQYQTMLAKVQSQLVESRMKGLRDCRENLKLNEEFTNEADQLEQELADFLKSFTDHFDKCSALSSRSVSPEDAQNLFEIVERDDKDLAAINSLLQDAAIDVASFVRKVNMLLDERDADKAKMQATLSKLLTELRKHEEYISVFEGISALIQKFKASCLEDIRQTRNLLDFYANFERSYHNLLKEVKRRKETAAKLSQILKSCETQLEQINTADLRERQMFLLENGNYLPETIWPDEIGSLSPLYTLNYEVRKV MNEAVIEKLLENSRKFLTGAKLICQESNDHLTTTKLRIREWQKFQSKLHFVLDCIQQQTKFLSEILLREGIGRNLIEEEWSQTVLVRLVNDMKFWQNEITKMMNKLDNITNEIDQQHNSKLGDFISRDSSHILDSKLNEIPTIRKQVENITRQYQTMLAKVQSQLVESRMKGLRDEFSSNLKLNEEFTNEADQLEQELADFLKSFTDHFDKCSALSSRSVSPEDAQNLFEIVERDDKDLAAINSLLQDAAIDVASFVRKVNMLLDERDADKAKMQATLSKLLTELRKHEEYISVFEGISALIQKFKASCLEDIRQTRNLLDFYANFERSYHNLLKEVKRRKETAAKLSQILKSCETQLEQINTADLRERQMFLLENGNYLPETIWPDEIGSLSPLYTLNYEVRKV 5jho-a1-m1-cB_5jho-a1-m1-cA Crystal structure of the regulatory domain of the sodium driven chloride bicarbonate exchanger. Q2Y0W8 Q2Y0W8 2.801 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 245 SQRVQFILGTEEDEEHVPHELFTELDEICMAEWKETARWLKFEEDVEDGGERWSKPYVATLSLHSLFELRSCLINGTVLLDMHANSIEEISDLILDQQELSSDLNDSMRVKVREALLKKHHHQNIPTGAEASNVLVGEVDILDRPIVAFVRLSPAVLLSGLTEVPIPTRFLFILLGPVGKGQQYHEIGRSMATIMTDEIFHDVAYKAKERDDLLAGIDEFLDQVTVLP PSQRVQFILGTEEDEEHVPHELFTELDEICMKEGEDAEWKETARWLKFEEDVEDGGERWSKPYVATLSLHSLFELRSCLINGTVLLDMHANSIEEISDLILDQQELSSDLNDSMRVKVREALLKKHHHQNEKKVDLHFMKKIPTGAEASNVLVGEVDILDRPIVAFVRLSPAVLLSGLTEVPIPTRFLFILLGPVGKGQQYHEIGRSMATIMTDEIFHDVAYKAKERDDLLAGIDEFLDQVTVLP 5jhw-a1-m1-cA_5jhw-a1-m1-cB Crystal Structure of the GDF11:Follistatin 288 complex O95390 O95390 2.35 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 NLGLDCDEHSSESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGQCEYMFMQKYPHTHLVQQANPRGSAGPCCTPTKMSPINMLYFNDKQQIIYGKIPGMVVDRCGCS NLGLDCDEHSSESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGQCEYMFMQKYPHTHLVQQANPRGSAGPCCTPTKMSPINMLYFNDKQQIIYGKIPGMVVDRCGCS 5jhy-a1-m1-cB_5jhy-a1-m1-cA Crystal Structure of Fungal MagKatG2 at pH 5.5 A4QUT2 A4QUT2 1.4 X-RAY DIFFRACTION 345 1.0 242507 (Pyricularia oryzae 70-15) 242507 (Pyricularia oryzae 70-15) 734 735 3ut2-a1-m1-cB_3ut2-a1-m1-cA 5cjh-a1-m1-cB_5cjh-a1-m1-cA 5jhx-a1-m1-cB_5jhx-a1-m1-cA 5jhz-a1-m1-cA_5jhz-a1-m1-cB TFGRCAVKSNQAGGGTRSHDWWPCQLRLDVLRQFQPSQNPLGGDFDYAEAFQSLDYEAVKKDIAALMTESQDWWPADFGNYGGLFVRMAWHSAGTYRAMDGRGGGGMGQQRFAPLNSWPDNQNLDKARRLIWPIKQKYGNKISWADLMLLTGNVALENMGFKTLGFGGGRADTWQSDEAVYWGAETTFVPQGNDVRYNNSVDINARADKLEKPLAATHMGLIYVNPEGPNGTPDPAASAKDIREAFGRMGMNDTETVALIAGGHAFGKTHGAVKGSNIGPAPEAADLGMQGLGWHNSVGDGNGPNQMTSGLEVIWTKTPTKWSNGYLESLINNNWTLVESPAGAHQWEAVNGTVDYPDPFDKTKFRKATMLTSDLALINDPEYLKISQRWLEHPEELADAFAKAWFKLLHRDLGPTTRYLGPEVPKESFIWQDPLPAREGDLIDDADVDKLKAAILSTDGLDVSKLASTAMACATTYRNSDKRGGCNGARIALEPQRNWVSNNPTQLSAVLDALKKVQSDFNGSNGNKKVSLADLIVLGGTAAVEKAAKDAGVDIKVPFSAGRVDATQEQTDVTQFSYLEPQADGFRNYGRGTARARTEEIMVDKASQLTLTPPELTVLVGGMRALGANYDGSDVGVFTANKGKLTPDFFVNLVDMNIAWTASGADGESWVGTDRKSRSEKYKGSRADLVFGSHAELRAIAEVYAENGNQEKFVKDFVAAWTKVMNLDRFDLKV TTFGRCAVKSNQAGGGTRSHDWWPCQLRLDVLRQFQPSQNPLGGDFDYAEAFQSLDYEAVKKDIAALMTESQDWWPADFGNYGGLFVRMAWHSAGTYRAMDGRGGGGMGQQRFAPLNSWPDNQNLDKARRLIWPIKQKYGNKISWADLMLLTGNVALENMGFKTLGFGGGRADTWQSDEAVYWGAETTFVPQGNDVRYNNSVDINARADKLEKPLAATHMGLIYVNPEGPNGTPDPAASAKDIREAFGRMGMNDTETVALIAGGHAFGKTHGAVKGSNIGPAPEAADLGMQGLGWHNSVGDGNGPNQMTSGLEVIWTKTPTKWSNGYLESLINNNWTLVESPAGAHQWEAVNGTVDYPDPFDKTKFRKATMLTSDLALINDPEYLKISQRWLEHPEELADAFAKAWFKLLHRDLGPTTRYLGPEVPKESFIWQDPLPAREGDLIDDADVDKLKAAILSTDGLDVSKLASTAMACATTYRNSDKRGGCNGARIALEPQRNWVSNNPTQLSAVLDALKKVQSDFNGSNGNKKVSLADLIVLGGTAAVEKAAKDAGVDIKVPFSAGRVDATQEQTDVTQFSYLEPQADGFRNYGRGTARARTEEIMVDKASQLTLTPPELTVLVGGMRALGANYDGSDVGVFTANKGKLTPDFFVNLVDMNIAWTASGADGESWVGTDRKSRSEKYKGSRADLVFGSHAELRAIAEVYAENGNQEKFVKDFVAAWTKVMNLDRFDLKV 5ji1-a1-m1-cB_5ji1-a1-m1-cA Crystal Structure of GDF8 O08689 O08689 2.25 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 92 95 DFGLDCDEHSTESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGECEPRGSAGPCCTPTKMSPINMLYFNGKEQIIYGKIPAMVVDRCGCS DFGLDCDEHSTESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGECEFVNPRGSAGPCCTPTKMSPINMLYFNGKEQIIYGKIPAMVVDRCGCS 5ji3-a1-m2-cF_5ji3-a1-m3-cE HslUV complex P0A6H5 P0A6H5 3 X-RAY DIFFRACTION 118 0.994 562 (Escherichia coli) 562 (Escherichia coli) 353 375 5ji3-a1-m1-cF_5ji3-a1-m2-cE 5txv-a4-m1-cS_5txv-a4-m1-cX 5txv-a4-m1-cU_5txv-a4-m1-cV 6pxl-a2-m1-cJ_6pxl-a2-m1-cK MSEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEPSAARQAFRKKLREGQLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKRGSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL MSEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEELAEERILDVLIPPAEPSAARQAFRKKLREGQKIKDAMKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 5jif-a1-m1-cB_5jif-a1-m1-cA Crystal structure of mouse hepatitis virus strain DVIM Hemagglutinin-Esterase O92367 O92367 2 X-RAY DIFFRACTION 91 1.0 231423 (Murine coronavirus strain DVIM) 231423 (Murine coronavirus strain DVIM) 355 363 FNEPLNVVSHLNDDWFLFGDSRSDCNHINNLSQQNYNYMDINPELCKSGKISAKAGNSLFKSFHFTDFYNYTGEGSQIIFYEGVNFTPYVGFKCLNNGDNNRWMGNKARFYTQLYQKMAHYRSLSVINITYTYNGSAGPVSMCKHIANGVTLTLNNPTFIGKYESEANFTLQGCDEFIVPLCVFNGQYLSSKLYYDDSQYYYNVDTGVLYGFNSTLNITSGLDLTCIYLALTPGNYISISNELLLTVPSKAICLRKPKAFTPVQVVDSRWHSNRQSDNMTAIACQLPYCYFRNTTSDYNGVYDSHHGDAGFTSILAGLMYNVSCLAQQGAFVYNNVSSSWPQYPYGHCPTAANIV FNEPLNVVSHLNDDWFLFGDSRSDCNHINNLSQQNYNYMDINPELCKSGKISAKAGNSLFKSFHFTDFYNYTGEGSQIIFYEGVNFTPYVGFKCLNNGDNNRWMGNKARFYTQLYQKMAHYRSLSVINITYTYNGSAGPVSMCKHIANGVTLTLNNPTFIGKEVSKPDYYYESEANFTLQGCDEFIVPLCVFNGQYLSSKLYYDDSQYYYNVDTGVLYGFNSTLNITSGLDLTCIYLALTPGNYISISNELLLTVPSKAICLRKPKAFTPVQVVDSRWHSNRQSDNMTAIACQLPYCYFRNTTSDYNGVYDSHHGDAGFTSILAGLMYNVSCLAQQGAFVYNNVSSSWPQYPYGHCPTAANIV 5jil-a1-m1-cA_5jil-a1-m2-cA Crystal structure of rat coronavirus strain New-Jersey Hemagglutinin-Esterase in complex with 4N-acetyl sialic acid Q3HS77 Q3HS77 1.85 X-RAY DIFFRACTION 87 1.0 31632 (Rat coronavirus) 31632 (Rat coronavirus) 369 369 4zxn-a1-m1-cA_4zxn-a1-m2-cA FNEPLNIVSHLNDDWFLFGDARSDCTYVENNGHPKLDWLDLDPKLCNSGRISAKSGNSLFRSFHFTDFYNYSGEGDQVIFYEGVNFSPSHGFKCLANGDNKIWMGNKARFYARLYEKMAQYRSLSIVTVSYAYGGNAKPTSICKDNKLTLNNPTFISKESNYADYYYVSEANFTLQGCDEFIVPLCVFNGHSRGSSSDPANTYYMDSQMYYNTVTGVFYGFNSTLDVGTTVQNPGLDLTCSYLALSPGNYKAVSLEFLLSLPSKAICLLKPKRFMPVQVVDSRWNSTRQSDNMTAVACQLPYCFFRNTSADYSGDTHDVHHGDLYFRQLLSGLLYNVSCIAQQGAFLYNNVSSIWPVYGYGHCPTAANI FNEPLNIVSHLNDDWFLFGDARSDCTYVENNGHPKLDWLDLDPKLCNSGRISAKSGNSLFRSFHFTDFYNYSGEGDQVIFYEGVNFSPSHGFKCLANGDNKIWMGNKARFYARLYEKMAQYRSLSIVTVSYAYGGNAKPTSICKDNKLTLNNPTFISKESNYADYYYVSEANFTLQGCDEFIVPLCVFNGHSRGSSSDPANTYYMDSQMYYNTVTGVFYGFNSTLDVGTTVQNPGLDLTCSYLALSPGNYKAVSLEFLLSLPSKAICLLKPKRFMPVQVVDSRWNSTRQSDNMTAVACQLPYCFFRNTSADYSGDTHDVHHGDLYFRQLLSGLLYNVSCIAQQGAFLYNNVSSIWPVYGYGHCPTAANI 5jip-a1-m1-cB_5jip-a1-m1-cA Crystal structure of the Clostridium perfringens spore cortex lytic enzyme SleM O06496 O06496 1.8 X-RAY DIFFRACTION 55 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 314 317 QDKNPLSTFGPDLNEFSRDVNFLTLAKNSDFIYLRASGSGTGKLRIDNKFLEFAKECRRLGIPCGAYHFAKPSKDLDSAVIQADQFIDVLQQGFGDGDYGDLFPVLDVETPTDKSLTTTELVNWIDRFRDRFEEKTRRRLMLYTGLFFIGLYDDFKVPGKGYPLSDMPLWIAMYTRIPSNPRIPPNVGGWKRWTMWQFTDEGKLDGVGSPVDLNWGPNSIDSLMPPSAVTGLNAYISGNKIFVNWTANKEDDLNGYNVFVNDNYAGTLPRKATKIVIDKSRFYLPKGKPIKISIEAFDITGDFSKERTEYILDN GFAQDKNPLSTFGPDLNEFSRDVNFLTLAKNSDFIYLRASGSGTGKLRIDNKFLEFAKECRRLGIPCGAYHFAKPSKDLDSAVIQADQFIDVLQQGFGDGDYGDLFPVLDVETPTDKSLTTTELVNWIDRFRDRFEEKTRRRLMLYTGLFFIGLYDDFKVPGKGYPLSDMPLWIAMYTRIPSNPRIPPNVGGWKRWTMWQFTDEGKLDGVGSPVDLNWGPNSIDSLMPPSAVTGLNAYISGNKIFVNWTANKEDDLNGYNVFVNDNYAGTLPRKATKIVIDKSRFYLPKGKPIKISIEAFDITGDFSKERTEYILDN 5jir-a3-m1-cB_5jir-a3-m1-cA Crystal structure of Treponema pallidum protein Tp0624 O83632 O83632 1.7 X-RAY DIFFRACTION 74 0.998 243276 (Treponema pallidum subsp. pallidum str. Nichols) 243276 (Treponema pallidum subsp. pallidum str. Nichols) 405 413 DAVHTDAVQDWKNGTINAQLTLDLARARMRLPADRTAASQFLRYKAPAQLKDVYLSVLVDSQNRVGDCLAHEKIRLADITALVDAGHHAVTTLSPSVRSLQLSHQTPLTALARLFVTHETAYVSRPYTGILIDARGSLPVHGEYVSEPLSACLFPKIWSTDMDLIYEKNMVHPDRAKAWGVVRYGSVWDEKMYRDRIGTTPLKIIARGVFGQQRTDPIIASKDAAQILARPENLRLLAEGNVIILCDEAALRVHVPYPLVDEHFYFAYHDVKRFLTDERSPGVGVRSGINTLKITVYDVRFVANSPEILASEKDRVDVIATALKKMGPYTRFLIEGHTADLHRPQEEAALSVARAQRMAQELSRRGIEMTRITTAGHGATKPIAPSDTHANKAKNRRVEITILRD AVHTDAVQDWKNGTINAQLTLDLARARMRLPADRTAASQFLRYKAPAQLKDVYLSVLVDSQNRVGDCLAHEKIRLADITALVDAGHHAVTTLSPSVRSLQLSHQTPLTALARLFVTHETAYVPAIPPTSAVSRPYTGILIDARGSLPVHGEYVSEPLSACLFPKIWSTDMDLIYEKNMVHPDRAKAWGVVRYGSVWDEKMYRDRIGTTPLKIIARGVFGQQRTDPIIASKDAAQILARPENLRLLAEGNVIILCDEAALRVHVPYPLVDEHFYFAYHDVKRFLTDERSPGVGVRSGINTLKITVYDVRFVANSPEILASEKDRVDVIATALKKMGPYTRFLIEGHTADLHRPQEEAALSVARAQRMAQELSRRGIEMTRITTAGHGATKPIAPSDTHANKAKNRRVEITILRD 5jiu-a1-m1-cA_5jiu-a1-m1-cB The crystal structure of RanBPM/9 IUS-SPRY domain in complex with DDX-4 peptide Q96S59 Q96S59 2.054 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 NEQEKELQRRLKRLYPAVDEQETPLPRSWSPKDKFSYIGLSQNNLRVHYKGHGKTPKDAASVRATHPIPAACGIYYFEVKIVSKGRDGYMGIGLSAQGVNMNRLPGWDKHSYGYHGDDGHSFCSSGTGQPYGPTFTTGDVIGCCVNLINNTCFYTKNGHSLGIAFTDLPPNLYPTVGLQTPGEVVDANFGQHPFVFDIEDYMREWRTKI NEQEKELQRRLKRLYPAVDEQETPLPRSWSPKDKFSYIGLSQNNLRVHYKGHGKTPKDAASVRATHPIPAACGIYYFEVKIVSKGRDGYMGIGLSAQGVNMNRLPGWDKHSYGYHGDDGHSFCSSGTGQPYGPTFTTGDVIGCCVNLINNTCFYTKNGHSLGIAFTDLPPNLYPTVGLQTPGEVVDANFGQHPFVFDIEDYMREWRTKI 5jjc-a2-m1-cB_5jjc-a2-m1-cD Crystal Structure of double mutant (Q96A-Y125A) O-Acetyl Serine Sulfhydralase from Brucella abortus A0A0F6AQU1 A0A0F6AQU1 2.01 X-RAY DIFFRACTION 120 1.0 430066 (Brucella abortus S19) 430066 (Brucella abortus S19) 330 330 5jis-a1-m1-cA_5jis-a1-m1-cD 5jis-a2-m1-cB_5jis-a2-m1-cC 5jjc-a1-m1-cA_5jjc-a1-m1-cC MFNSVLDTIGNTPLIRLSKASELTGCDIYGKAEFLNPGQSVDRAALYIIRDAEKRGLLRPGGVIVEGTAGNTGIGLTMVAKALGYRTAIVIPETASQEKKDALRLLGAELIEVPAAPYRNPNNAVRLSGRLAEQLAKTEPNGAIWANQFDNTVNRQAHIETTAQEIWRDTSDQIDGFVAAVGSGGTLAGTAIGLKERNHNIKIALADPHGAALHAFYTTGELKAEGDSITEGIGQGRITANLEGFTPDFSYQIPDAEALDILFALVEEEGLCLGGSSGINIAGAIRLAKDLGPGHTIVTVLCDYGNRYQSKLFNPAFLRGKSLPVPRWLE MFNSVLDTIGNTPLIRLSKASELTGCDIYGKAEFLNPGQSVDRAALYIIRDAEKRGLLRPGGVIVEGTAGNTGIGLTMVAKALGYRTAIVIPETASQEKKDALRLLGAELIEVPAAPYRNPNNAVRLSGRLAEQLAKTEPNGAIWANQFDNTVNRQAHIETTAQEIWRDTSDQIDGFVAAVGSGGTLAGTAIGLKERNHNIKIALADPHGAALHAFYTTGELKAEGDSITEGIGQGRITANLEGFTPDFSYQIPDAEALDILFALVEEEGLCLGGSSGINIAGAIRLAKDLGPGHTIVTVLCDYGNRYQSKLFNPAFLRGKSLPVPRWLE 5jjm-a3-m1-cD_5jjm-a3-m3-cD Crystal Structure of Homodimeric Androgen Receptor Ligand-Binding Domain bound to DHT and LxxLL peptide P10275 P10275 2.15 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 249 249 5jjm-a1-m1-cA_5jjm-a1-m2-cA 5jjm-a2-m1-cB_5jjm-a2-m1-cC CQPIFLNVLEAIEPGVVCAGHDNNQPDSFAALLSSLNELGERQLVHVVKWAKALPGFRNLHVDDQMAVIQYSWMGLMVFAMGWRSFTNVNSRMLYFAPDLVFNEYRMHKSRMYSQCVRMRHLSQEFGWLQITPQEFLCMKALLLFSIIPVDGLKNQKFFDELRMNYIKELDRIIACKRKNPTSCSRRFYQLTKLLDSVQPIARELHQFTFDLLIKSHMVSVDFPEMMAEIISVQVPKILSGKVKPIYFH CQPIFLNVLEAIEPGVVCAGHDNNQPDSFAALLSSLNELGERQLVHVVKWAKALPGFRNLHVDDQMAVIQYSWMGLMVFAMGWRSFTNVNSRMLYFAPDLVFNEYRMHKSRMYSQCVRMRHLSQEFGWLQITPQEFLCMKALLLFSIIPVDGLKNQKFFDELRMNYIKELDRIIACKRKNPTSCSRRFYQLTKLLDSVQPIARELHQFTFDLLIKSHMVSVDFPEMMAEIISVQVPKILSGKVKPIYFH 5jjp-a6-m1-cC_5jjp-a6-m1-cB Crystal structure of CmiS6 X5IJ97 X5IJ97 2.3 X-RAY DIFFRACTION 170 0.997 1321967 (Streptomyces sp. MJ635-86F5) 1321967 (Streptomyces sp. MJ635-86F5) 392 418 5jjp-a5-m1-cA_5jjp-a5-m1-cD SPYAAPVRDHAGNLRDYLLAAGKATPDKPAIVEPAEDGGLRFVSYRQLEAQADAYAAELDALGLDVGDRVVLESPATADAVAAFLACFSLGLPFIPTIPETPVQRLRTIIGMAAPALFLQAADGSREGLPPGLGMARFGPKGVTTEQLPAPRVRRRRQVVETDPAYLIFTKGVVMSHRANIAFHRGIRAHGLIGPDDRVAVTSPFSFDFCLGGIALTLASGATAVPVPRDRLRRFLAFLHEAAITQVHGVPSLWRPEPDLVAGLDPLRSILFSGDLRELQGLLPGRRIFNLYGATESMAASVTDVPRLTIGYAHHGAEMDVYDAEGAPVPGVVGEIYLRSPALFSGYWADPEATRAALVPDPLLPESGQVVFRTGDLAYRDADGRLYFCGRI PYAAPVRDHAGNLRDYLLAAGKATPDKPAIVEPAEDGGLRFVSYRQLEAQADAYAAELDALGLDVGDRVVLESPATADAVAAFLACFSLGLPFIPTIPETPVQRLRTIIGMAAPALFLQAADGSREGLPPGLGMARFGPKGVTTEQLPAPRVRRRRQVVETDPAYLIFTGRPKGVVMSHRANIAFHRGIRAHGLIGPDDRVAVTSPFSFDFCLGGIALTLASGATAVPVPRDRLDFPRRFLAFLHEAAITQVHGVPSLWRPLIRHEPDLVAGLDPLRSILFSGEDFPLGDLRELQGLLPGRRIFNLYGATESMAASVTDVPDPLPADLERLTIGYAHHGAEMDVYDAEGAPVGEPGVVGEIYLRSPALFSGYWADPEATRAALVPDPLLPESGQVVFRTGDLAYRDADGRLYFCGRID 5jju-a1-m1-cA_5jju-a1-m1-cB Crystal structure of Rv2837c complexed with 5'-pApA and 5'-AMP A5U6I9 A5U6I9 2.312 X-RAY DIFFRACTION 148 1.0 419947 (Mycobacterium tuberculosis H37Ra) 419947 (Mycobacterium tuberculosis H37Ra) 325 325 GARVDAVGAAALLSAAARVGVVCHVHPDADTIGAGLALALVLDGCGKRVEVSFAAPATLPESLRSLPGCHLLVRPEVMRRDVDLVVTVDIPSVDRLGALGDLTDSGRELLVIDHHASNDLFGTANFIDPSADSTTTMVAEILDAWGKPIDPRVAHCIYAGLATDTGSFRWASVRGYRLAARLVEIGVDNATVSRTLMDSHPFTWLPLLSRVLGSAQLVSEAVGGRGLVYVVVDNREWVAARSEEVESIVDIVRTTQQAEVAAVFKEVEPHRWSVSMRAKTVNLAAVASGFGGGGHRLAAGYTTTGSIDDAVASLRAALGLTRAPP GARVDAVGAAALLSAAARVGVVCHVHPDADTIGAGLALALVLDGCGKRVEVSFAAPATLPESLRSLPGCHLLVRPEVMRRDVDLVVTVDIPSVDRLGALGDLTDSGRELLVIDHHASNDLFGTANFIDPSADSTTTMVAEILDAWGKPIDPRVAHCIYAGLATDTGSFRWASVRGYRLAARLVEIGVDNATVSRTLMDSHPFTWLPLLSRVLGSAQLVSEAVGGRGLVYVVVDNREWVAARSEEVESIVDIVRTTQQAEVAAVFKEVEPHRWSVSMRAKTVNLAAVASGFGGGGHRLAAGYTTTGSIDDAVASLRAALGLTRAPP 5jjv-a1-m1-cA_5jjv-a1-m2-cB Crystal structure of XerH site-specific recombinase bound to palindromic difH substrate: post-cleavage complex O25386 O25386 2.4 X-RAY DIFFRACTION 75 0.983 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 353 356 5jjv-a1-m2-cA_5jjv-a1-m1-cB 5jk0-a1-m1-cA_5jk0-a1-m1-cC 5jk0-a1-m1-cB_5jk0-a1-m1-cD MKHPLEELKDPTENLLLWIGRFLRYKCTSLSNSQVKDQNKVFECLNELNQACSSSQLEKVCKKARNAGLLGINTYALPLLKFHEYFSKAFNSLKNIDEVMLAEFLSVYTGGLSLATKKNYRIALLGLFSYIDKQNQDENEKSYIYNITLKNISGVNQSAGNKLPTHLNNEELEKFLESIDKIEMSAKVRARNRLLIKIIVFTGMRSNEALQLKIKDFTLENGCYTILIKGKGDKYRAVMLKAFHIESLLKEWLIERELYPVKNDLLFCNQKGSALTQAYLYKQVERIINFAGLRREKNGAHMLRHSFATLLYQKRHDLILVQEALGHASLNTSRIYTHFDKQRLEEAASIWEE SMKHPLEELKDPTENLLLWIGRFLRYKCTSLSNSQVKDQNKVFECLNELNQACSSSQLEKVCKKARNAGLLGINTYALPLLKFHEYFSKARLITERLAFNSLKNIDEVMLAEFLSVYTGGLSLATKKNYRIALLGLFSYIDKQNQDENEKSYIYNITLKNISGNKLPTHLNNEELEKFLESIDKIEMSAKVRARNRLLIKIIVFTGMRSNEALQLKIKDFTLENGCYTILIKGKGDKYRAVMLKAFHIESLLKEWLIERELYPVKNDLLFCNQKGSALTQAYLYKQVERIINFAGLRREKNGAHMLRHSFATLLYQKRHDLILVQEALGHASLNTSRIYTHFDKQRLEEAASIWEE 5jjv-a1-m2-cA_5jjv-a1-m2-cB Crystal structure of XerH site-specific recombinase bound to palindromic difH substrate: post-cleavage complex O25386 O25386 2.4 X-RAY DIFFRACTION 114 0.983 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 353 356 5jjv-a1-m1-cA_5jjv-a1-m1-cB 5jk0-a1-m1-cA_5jk0-a1-m1-cD 5jk0-a1-m1-cB_5jk0-a1-m1-cC MKHPLEELKDPTENLLLWIGRFLRYKCTSLSNSQVKDQNKVFECLNELNQACSSSQLEKVCKKARNAGLLGINTYALPLLKFHEYFSKAFNSLKNIDEVMLAEFLSVYTGGLSLATKKNYRIALLGLFSYIDKQNQDENEKSYIYNITLKNISGVNQSAGNKLPTHLNNEELEKFLESIDKIEMSAKVRARNRLLIKIIVFTGMRSNEALQLKIKDFTLENGCYTILIKGKGDKYRAVMLKAFHIESLLKEWLIERELYPVKNDLLFCNQKGSALTQAYLYKQVERIINFAGLRREKNGAHMLRHSFATLLYQKRHDLILVQEALGHASLNTSRIYTHFDKQRLEEAASIWEE SMKHPLEELKDPTENLLLWIGRFLRYKCTSLSNSQVKDQNKVFECLNELNQACSSSQLEKVCKKARNAGLLGINTYALPLLKFHEYFSKARLITERLAFNSLKNIDEVMLAEFLSVYTGGLSLATKKNYRIALLGLFSYIDKQNQDENEKSYIYNITLKNISGNKLPTHLNNEELEKFLESIDKIEMSAKVRARNRLLIKIIVFTGMRSNEALQLKIKDFTLENGCYTILIKGKGDKYRAVMLKAFHIESLLKEWLIERELYPVKNDLLFCNQKGSALTQAYLYKQVERIINFAGLRREKNGAHMLRHSFATLLYQKRHDLILVQEALGHASLNTSRIYTHFDKQRLEEAASIWEE 5jjx-a2-m2-cA_5jjx-a2-m3-cA Crystal structure of the HAT domain of sart3 Q15020 Q15020 2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 299 299 5jjx-a2-m1-cA_5jjx-a2-m2-cA 5jjx-a2-m1-cA_5jjx-a2-m3-cA EEEKNQLEIERLEEQLSINVYDYNCHVDLIRLLRLEGELTKVRMARQKMSEIFPLTEELWLEWLHDEISMAQDGLDREHVYDLFEKAVKDYICPNIWLEYGQYSVGGIGQKGGLEKVRSVFERALSSVGLHMTKGLALWEAYREFESAIVLEKVHSLFRRQLAIPLYDMEATFAEYEEWSEDPIPESVIQNYNKALQQLEKYKPYEEALLQAEAPRLAEYQAYIDFEMKIGDPARIQLIFERALVENCLVPDLWIRYSQYLDRQKVKDLVLSVHNRAIRNCPWTVALWSRYLLAMERHG EEEKNQLEIERLEEQLSINVYDYNCHVDLIRLLRLEGELTKVRMARQKMSEIFPLTEELWLEWLHDEISMAQDGLDREHVYDLFEKAVKDYICPNIWLEYGQYSVGGIGQKGGLEKVRSVFERALSSVGLHMTKGLALWEAYREFESAIVLEKVHSLFRRQLAIPLYDMEATFAEYEEWSEDPIPESVIQNYNKALQQLEKYKPYEEALLQAEAPRLAEYQAYIDFEMKIGDPARIQLIFERALVENCLVPDLWIRYSQYLDRQKVKDLVLSVHNRAIRNCPWTVALWSRYLLAMERHG 5jjz-a2-m1-cA_5jjz-a2-m2-cA Chromo domain of human Chromodomain Protein, Y-Like 2 Q8N8U2 Q8N8U2 2 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 NLYFQGASGDLYEVERIVDKRKNKKGKWEYLIRWKGYGSTEDTWEPEHHLLHCEEFIDE NLYFQGASGDLYEVERIVDKRKNKKGKWEYLIRWKGYGSTEDTWEPEHHLLHCEEFIDE 5jk5-a1-m1-cB_5jk5-a1-m1-cA Phenylalanine hydroxylase from dictyostelium - BH2 complex Q54XS1 Q54XS1 2.071 X-RAY DIFFRACTION 73 0.997 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 391 400 5jk6-a1-m1-cB_5jk6-a1-m1-cA 5jk8-a1-m1-cB_5jk8-a1-m1-cA QSYHSSIFFSISKGSDKIGGLLEYLEIIKKHNINITRIESRPSKTEKKDYDFFLDLEYPTENNKEVEKVIKDLEEKGVKATTLQESSNQTYAPWFPRKISDLDLFANKVHPGASDPVYRERRREIAKIASTYKHGDEIPRIDYTEEEIKTWGVVYNRLKELFPTNACHQHAYIFPLLEQNCGYSPDNIPQLQDISNFLQECTGWRIRPVQGLLSARDFLNGLAFRVFHATQYIRHPSVPLYTPEPDCCHELLGHVPLLADPDFADFSQEIGLASIGASDEDIQLLSTCYWFTVEFGLCKEGDTIRAYGAGILSSTGEMEHFLTDKAKKLPFNPFDACNTEYPITTFQPLYYVAESFQKAKEQMRQFADSFKKPFSIRYNPYTQSIEILDNK QSYHSSIFFSISKGSDKIGGLLEYLEIIKKHNINITRIESRPSKTEKKDYDFFLDLEYPTENNKEVEKVIKDLEEKGVKATTLQESSNQTYAPWFPRKISDLDLFANKVLEMGSDLTSDHPGASDPVYRERRREIAKIASTYKHGDEIPRIDYTEEEIKTWGVVYNRLKELFPTNACHQHAYIFPLLEQNCGYSPDNIPQLQDISNFLQECTGWRIRPVQGLLSARDFLNGLAFRVFHATQYIRHPSVPLYTPEPDCCHELLGHVPLLADPDFADFSQEIGLASIGASDEDIQLLSTCYWFTVEFGLCKEGDTIRAYGAGILSSTGEMEHFLTDKAKKLPFNPFDACNTEYPITTFQPLYYVAESFQKAKEQMRQFADSFKKPFSIRYNPYTQSIEILDN 5jkj-a1-m1-cB_5jkj-a1-m1-cA Crystal structure of esterase E22 L374D mutant A0A1B1H1K0 A0A1B1H1K0 1.55 X-RAY DIFFRACTION 181 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 369 370 5jkf-a1-m1-cB_5jkf-a1-m1-cA MVEKRVFEMPHFTTFGGKQIKNVKVGWEAYGTLNDAKSNVILITHYFSGSSHAAGKYDENDPAPGYWDSIIGPGKAIDTDRFYVISVDTLANLNAYDPHVITTGPTSINPDTGKPYGLDFPVVTIRDFVNVQKALLESLGISKLYAVIGPSMGSMQAIDWASAYPGWVERMISVIGAGQSDAWTTAALEHWATPITLDKNWNNGAYSKEQAPLNGLAASLMLITQNALTPSFFNQTGNTLGYKNVESAPLNDIRQSHSIVNWLRERAKTRAKSMDANHLLYLVRACQLFVAGHQGNLEQGLASIKAKTLFIPAQTDLLLMPYLSQSAHQGLTSMNNDSTLVTLNGKLGHDEGVTNVSAQAQAIRQFLEN MVEKRVFEMPHFTTFGGKQIKNVKVGWEAYGTLNDAKSNVILITHYFSGSSHAAGKYDENDPAPGYWDSIIGPGKAIDTDRFYVISVDTLANLNAYDPHVITTGPTSINPDTGKPYGLDFPVVTIRDFVNVQKALLESLGISKLYAVIGPSMGSMQAIDWASAYPGWVERMISVIGAGQSDAWTTAALEHWATPITLDKNWNNGAYSKEQAPLNGLAASLMLITQNALTPSFFNQTGNTLGYKNVESAPLNDIRQSHSIVNWLRERAKTRAKSMDANHLLYLVRACQLFVAGHQGNLEQGLASIKAKTLFIPAQTDLLLMPYLSQSAHQGLTSMNNDSTLVTLNGKLGHDEGVTNVSAQAQAIRQFLEND 5jkq-a5-m4-cA_5jkq-a5-m4-cB Crystal structure of Plasmodium falciparum Pf3D7_0606800 (PfVFT1) C6KSR6 C6KSR6 2.35 X-RAY DIFFRACTION 109 0.996 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 278 278 5jkq-a5-m1-cA_5jkq-a5-m1-cB GVEEVVNNKAKRLIDIYHAAVKELIQNEELIDLIDKHNVDYSVIESIENLPNLADINVKDDIDDVLSEIIKKKEVKIGALKNKNWGIIGNYEQNPPVGFWPDVYIIWETISKHIFNDEDAINIAYNYYDNVFVALNDKDIHTDNYFLSNSRLVDQSGNNLPKLTSGLPIIKHSNKIILKEYNINNLEDLKSYISKNEGLKIACLTEANCNALKNIFLDKVTYDYKSFSSYIDLSKSVLSKSHIIGVISGIPFNFNEHKINVFDSFLKTGHSAYFKAAA SGVEEVVNNKAKRLIDIYHAAVKELIQNEELIDLIDKHNVDYSVIESIENLPNLADINVKDDIDDVLSEIIKKKEVKIGALKNKNWGIIGNYEQNPPVGFWPDVYIIWETISKHIFNDEDAINIAYNYYDNVFVALNDKDIHTDNYFLSNSRLVDSGNNLPKLTSGLPIIKHSNKIILKEYNINNLEDLKSYISKNEGLKIACLTEANCNALKNIFLDKVTYDYKSFSSYIDLSKSVLSKSHIIGVISGIPFNFNEHKINVFDSFLKTGHSAYFKAAA 5jkq-a5-m5-cD_5jkq-a5-m4-cB Crystal structure of Plasmodium falciparum Pf3D7_0606800 (PfVFT1) C6KSR6 C6KSR6 2.35 X-RAY DIFFRACTION 25 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 260 278 5jkq-a5-m2-cD_5jkq-a5-m1-cB KAKRLIDIYHAAVKELIQNEELIDLIDKHNVDYSVIESIENLPNLADINVKDDIDDVLSEIIKKKEVKIGALKNKNWGIIGNYEQNPPVGFWPDVYIIWETISKHIFNDEDAINIAYNYYDNVFVALNDKDIHTDNYFLSNSLPKLTSGLPIIKHSNKIILKEYNINNLEDLKSYISKNEGLKIACLTEANCNALKNIFLDKVTYDYKSFSSYIDLSKSVLSKSHIIGVISGIPFNFNEHKINVFDSFLKTGHSAYFKAA SGVEEVVNNKAKRLIDIYHAAVKELIQNEELIDLIDKHNVDYSVIESIENLPNLADINVKDDIDDVLSEIIKKKEVKIGALKNKNWGIIGNYEQNPPVGFWPDVYIIWETISKHIFNDEDAINIAYNYYDNVFVALNDKDIHTDNYFLSNSRLVDSGNNLPKLTSGLPIIKHSNKIILKEYNINNLEDLKSYISKNEGLKIACLTEANCNALKNIFLDKVTYDYKSFSSYIDLSKSVLSKSHIIGVISGIPFNFNEHKINVFDSFLKTGHSAYFKAAA 5jkq-a5-m6-cC_5jkq-a5-m4-cA Crystal structure of Plasmodium falciparum Pf3D7_0606800 (PfVFT1) C6KSR6 C6KSR6 2.35 X-RAY DIFFRACTION 101 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 270 278 5jkq-a5-m2-cD_5jkq-a5-m4-cB 5jkq-a5-m3-cC_5jkq-a5-m1-cA 5jkq-a5-m5-cD_5jkq-a5-m1-cB GVEEVVNNKAKRLIDIYHAAVKELIQNEELIDLIDKHNVDYSVIESIENLPNLADINVKDDIDDVLSEIIKKKEVKIGALKNKNWGIIGNYEQNPPVGFWPDVYIIWETISKHIFNDEDAINIAYNYYDNVFVALNDKDIHTDNYFLSNNNLPKLTSGLPIIKHSNKIILKEYNINNLEDLKSYISKNEGLKIACLTEANCNALKNIFLDKVTYDYKSFSSYIDLSKSVLSKSHIIGVISGIPFNFNEHKINVFDSFLKTGHSAYFKAAA GVEEVVNNKAKRLIDIYHAAVKELIQNEELIDLIDKHNVDYSVIESIENLPNLADINVKDDIDDVLSEIIKKKEVKIGALKNKNWGIIGNYEQNPPVGFWPDVYIIWETISKHIFNDEDAINIAYNYYDNVFVALNDKDIHTDNYFLSNSRLVDQSGNNLPKLTSGLPIIKHSNKIILKEYNINNLEDLKSYISKNEGLKIACLTEANCNALKNIFLDKVTYDYKSFSSYIDLSKSVLSKSHIIGVISGIPFNFNEHKINVFDSFLKTGHSAYFKAAA 5jla-a1-m1-cA_5jla-a1-m1-cD Crystal Structure of Ribose-5-phosphate Isomerase from Brucella melitensis 16M Q13GR0 Q13GR0 1.45 X-RAY DIFFRACTION 119 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 257 259 5jla-a1-m1-cB_5jla-a1-m1-cC ASAEFNGAIAVVTGAGSGIGRACAELLSRSGANVIVADRDIEAATRVARATGGKTLVLDVGEDASVTAAANEVRARYGVADVLVNCAGVLQRTLPPGELAQREWDVVSRIDLRGTYLCCAAFGAPMADRRRGSIVNIASVAGMRSGPLHAYGPAKAGVISLTETLAGEWGPKGVRVNCVSPGFTQTPALERGFTTLKADVLRDAAALGHIVSANEIAEAVVFLASERASAITGVNLPVDAGYLIAGSWAAYGGLRRE ASAEFNGAIAVVTGAGSGIGRACAELLSRSGANVIVADRDIEAATRVARATGGKTLVLDVGEDASVTAAANEVRARYGVADVLVNCAGVLQRTLPPGELAQREWDVVSRIDLRGTYLCCAAFGAPMADRRRGSIVNIASVAGMRSGPLHAYGPAKAGVISLTETLAGEWGPKGVRVNCVSPGFTQTPALERGFTTHTLKADVLRDAAALGHIVSANEIAEAVVFLASERASAITGVNLPVDAGYLIAGSWAAYGGLRRE 5jla-a1-m1-cB_5jla-a1-m1-cD Crystal Structure of Ribose-5-phosphate Isomerase from Brucella melitensis 16M Q13GR0 Q13GR0 1.45 X-RAY DIFFRACTION 72 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 258 259 5jla-a1-m1-cA_5jla-a1-m1-cC ASAEFNGAIAVVTGAGSGIGRACAELLSRSGANVIVADRDIEAATRVARATGGKTLVLDVGEDASVTAAANEVRARYGVADVLVNCAGVLQRTLPPGELAQREWDVVSRIDLRGTYLCCAAFGAPMADRRRGSIVNIASVAGMRSGPLHAYGPAKAGVISLTETLAGEWGPKGVRVNCVSPGFTQTPALERGFTTHTLKADVLRDAAALGHIVSANEIAEAVVFLASERASAITGVNLPVDAGYLIAGSWAAYGGLRR ASAEFNGAIAVVTGAGSGIGRACAELLSRSGANVIVADRDIEAATRVARATGGKTLVLDVGEDASVTAAANEVRARYGVADVLVNCAGVLQRTLPPGELAQREWDVVSRIDLRGTYLCCAAFGAPMADRRRGSIVNIASVAGMRSGPLHAYGPAKAGVISLTETLAGEWGPKGVRVNCVSPGFTQTPALERGFTTHTLKADVLRDAAALGHIVSANEIAEAVVFLASERASAITGVNLPVDAGYLIAGSWAAYGGLRRE 5jla-a1-m1-cC_5jla-a1-m1-cD Crystal Structure of Ribose-5-phosphate Isomerase from Brucella melitensis 16M Q13GR0 Q13GR0 1.45 X-RAY DIFFRACTION 120 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 258 259 5jla-a1-m1-cA_5jla-a1-m1-cB ASAEFNGAIAVVTGAGSGIGRACAELLSRSGANVIVADRDIEAATRVARATGGKTLVLDVGEDASVTAAANEVRARYGVADVLVNCAGVLQRTLPPGELAQREWDVVSRIDLRGTYLCCAAFGAPMADRRRGSIVNIASVAGMRSGPLHAYGPAKAGVISLTETLAGEWGPKGVRVNCVSPGFTQTPALERGFTTHTLKADVLRDAAALGHIVSANEIAEAVVFLASERASAITGVNLPVDAGYLIAGSWAAYGGLRR ASAEFNGAIAVVTGAGSGIGRACAELLSRSGANVIVADRDIEAATRVARATGGKTLVLDVGEDASVTAAANEVRARYGVADVLVNCAGVLQRTLPPGELAQREWDVVSRIDLRGTYLCCAAFGAPMADRRRGSIVNIASVAGMRSGPLHAYGPAKAGVISLTETLAGEWGPKGVRVNCVSPGFTQTPALERGFTTHTLKADVLRDAAALGHIVSANEIAEAVVFLASERASAITGVNLPVDAGYLIAGSWAAYGGLRRE 5jlu-a1-m1-cA_5jlu-a1-m2-cA Crystal Structure of Adhesin competence repressor (AdcR) from Streptococcus pyogenes A0A0H2USX5 A0A0H2USX5 2.2 X-RAY DIFFRACTION 143 1.0 301448 (Streptococcus pyogenes serotype M3) 301448 (Streptococcus pyogenes serotype M3) 137 137 5jls-a1-m1-cA_5jls-a1-m2-cA GTLEKKLDNLVNTILLKAENQHDVKLTNTQEHILMLLSQQRLTNTDLAKALNISQAAVTKAIKSLVKQDMLAGTKDTVDARVTYFELTELAKPIASEHTHHHDETLNVYNRLLQKFSAKELEIVDKFVTVFAEELEG GTLEKKLDNLVNTILLKAENQHDVKLTNTQEHILMLLSQQRLTNTDLAKALNISQAAVTKAIKSLVKQDMLAGTKDTVDARVTYFELTELAKPIASEHTHHHDETLNVYNRLLQKFSAKELEIVDKFVTVFAEELEG 5jm0-a1-m1-cA_5jm0-a1-m4-cA Structure of the S. cerevisiae alpha-mannosidase 1 P22855 P22855 6.3 ELECTRON MICROSCOPY 60 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 940 940 5jm0-a1-m2-cA_5jm0-a1-m3-cA XXXXXXXXXXXXXKRISLDHDHVKVWWYQVSFSWKSIIERDKKGELEFREANINQPFGPSWSTTWFKVKISLPEDWVKSNEQLLFQWDCSNEGIVIDPKTLIPVTAFSGGERTEYVLPKTSDGKHFFYIEAGNNDDNRFFHLRKADLDARALYIDFWMLGDAARELPGDSWQKHQARQLGNAVMNLFDPNDRSSVRKCRELLQREYFDVLTNVYGIGNCHIDTAWLWPFAETRRKIVRSWSSQCTLMDRFPEYKFVASQAQQFKWLLEDHPEFFNKVLIPKIQQSQFFAVGGTWVENDTNIPSGESLARQFFFGQRFFLKHFGLKSKIFWLPDTFGYSSQMPQLCRLSGIDKFLTQKLSWNNINSFPHSTFNWAGIDGSQLLTHMPPGNTYTADSHFGDVLRTAKQNKTPEYYGSGLMLYGKGDGGGGPTEEMLQKMRRIRSMNNRNGNVIPKLQVGITVDEFYDDILKRTNQGHDLPTWSGELYFEFHRGTYTSQAQTKKLMRLSEIKLHDLEWIAAKTSVLYPDSYKYPSKQINELWENVLLCQFHDVLPGSCIEMVYKYEAVPMLHNVVKECTSLIDKTVQFLQSQSKADLVEMRTLGYDDYIVLANGKLKVIICKKTGVITSITDETLGVEYLDFVIYDDKPLGWQAWDTELYSVNQYKYVTKPKKVQVSCNTKEKCAVEVIFQISEKCKIKSVISLNATADAKLSKVDISTTVENWDARNKFLKVEFPVNIRNDFASYETQFGITKRPTHYNTSWDVAKFEVCHHKFADYSEYSKGVSILNDCKYGFSTHGNLMRLSLLRSPKAPDAHADMGTHEIKYAIYPHRGALSSDTVKLAHEFNYCFKYKLPKDIGMNFDDIISISGDENVILSNIKRGEDEQSIVVRVYESLGGESFASLNTTLNLKRIEKVDNLEMKVYNRIPIKLRPFEIASFRLYF XXXXXXXXXXXXXKRISLDHDHVKVWWYQVSFSWKSIIERDKKGELEFREANINQPFGPSWSTTWFKVKISLPEDWVKSNEQLLFQWDCSNEGIVIDPKTLIPVTAFSGGERTEYVLPKTSDGKHFFYIEAGNNDDNRFFHLRKADLDARALYIDFWMLGDAARELPGDSWQKHQARQLGNAVMNLFDPNDRSSVRKCRELLQREYFDVLTNVYGIGNCHIDTAWLWPFAETRRKIVRSWSSQCTLMDRFPEYKFVASQAQQFKWLLEDHPEFFNKVLIPKIQQSQFFAVGGTWVENDTNIPSGESLARQFFFGQRFFLKHFGLKSKIFWLPDTFGYSSQMPQLCRLSGIDKFLTQKLSWNNINSFPHSTFNWAGIDGSQLLTHMPPGNTYTADSHFGDVLRTAKQNKTPEYYGSGLMLYGKGDGGGGPTEEMLQKMRRIRSMNNRNGNVIPKLQVGITVDEFYDDILKRTNQGHDLPTWSGELYFEFHRGTYTSQAQTKKLMRLSEIKLHDLEWIAAKTSVLYPDSYKYPSKQINELWENVLLCQFHDVLPGSCIEMVYKYEAVPMLHNVVKECTSLIDKTVQFLQSQSKADLVEMRTLGYDDYIVLANGKLKVIICKKTGVITSITDETLGVEYLDFVIYDDKPLGWQAWDTELYSVNQYKYVTKPKKVQVSCNTKEKCAVEVIFQISEKCKIKSVISLNATADAKLSKVDISTTVENWDARNKFLKVEFPVNIRNDFASYETQFGITKRPTHYNTSWDVAKFEVCHHKFADYSEYSKGVSILNDCKYGFSTHGNLMRLSLLRSPKAPDAHADMGTHEIKYAIYPHRGALSSDTVKLAHEFNYCFKYKLPKDIGMNFDDIISISGDENVILSNIKRGEDEQSIVVRVYESLGGESFASLNTTLNLKRIEKVDNLEMKVYNRIPIKLRPFEIASFRLYF 5jm0-a1-m2-cA_5jm0-a1-m4-cA Structure of the S. cerevisiae alpha-mannosidase 1 P22855 P22855 6.3 ELECTRON MICROSCOPY 153 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 940 940 5jm0-a1-m1-cA_5jm0-a1-m3-cA XXXXXXXXXXXXXKRISLDHDHVKVWWYQVSFSWKSIIERDKKGELEFREANINQPFGPSWSTTWFKVKISLPEDWVKSNEQLLFQWDCSNEGIVIDPKTLIPVTAFSGGERTEYVLPKTSDGKHFFYIEAGNNDDNRFFHLRKADLDARALYIDFWMLGDAARELPGDSWQKHQARQLGNAVMNLFDPNDRSSVRKCRELLQREYFDVLTNVYGIGNCHIDTAWLWPFAETRRKIVRSWSSQCTLMDRFPEYKFVASQAQQFKWLLEDHPEFFNKVLIPKIQQSQFFAVGGTWVENDTNIPSGESLARQFFFGQRFFLKHFGLKSKIFWLPDTFGYSSQMPQLCRLSGIDKFLTQKLSWNNINSFPHSTFNWAGIDGSQLLTHMPPGNTYTADSHFGDVLRTAKQNKTPEYYGSGLMLYGKGDGGGGPTEEMLQKMRRIRSMNNRNGNVIPKLQVGITVDEFYDDILKRTNQGHDLPTWSGELYFEFHRGTYTSQAQTKKLMRLSEIKLHDLEWIAAKTSVLYPDSYKYPSKQINELWENVLLCQFHDVLPGSCIEMVYKYEAVPMLHNVVKECTSLIDKTVQFLQSQSKADLVEMRTLGYDDYIVLANGKLKVIICKKTGVITSITDETLGVEYLDFVIYDDKPLGWQAWDTELYSVNQYKYVTKPKKVQVSCNTKEKCAVEVIFQISEKCKIKSVISLNATADAKLSKVDISTTVENWDARNKFLKVEFPVNIRNDFASYETQFGITKRPTHYNTSWDVAKFEVCHHKFADYSEYSKGVSILNDCKYGFSTHGNLMRLSLLRSPKAPDAHADMGTHEIKYAIYPHRGALSSDTVKLAHEFNYCFKYKLPKDIGMNFDDIISISGDENVILSNIKRGEDEQSIVVRVYESLGGESFASLNTTLNLKRIEKVDNLEMKVYNRIPIKLRPFEIASFRLYF XXXXXXXXXXXXXKRISLDHDHVKVWWYQVSFSWKSIIERDKKGELEFREANINQPFGPSWSTTWFKVKISLPEDWVKSNEQLLFQWDCSNEGIVIDPKTLIPVTAFSGGERTEYVLPKTSDGKHFFYIEAGNNDDNRFFHLRKADLDARALYIDFWMLGDAARELPGDSWQKHQARQLGNAVMNLFDPNDRSSVRKCRELLQREYFDVLTNVYGIGNCHIDTAWLWPFAETRRKIVRSWSSQCTLMDRFPEYKFVASQAQQFKWLLEDHPEFFNKVLIPKIQQSQFFAVGGTWVENDTNIPSGESLARQFFFGQRFFLKHFGLKSKIFWLPDTFGYSSQMPQLCRLSGIDKFLTQKLSWNNINSFPHSTFNWAGIDGSQLLTHMPPGNTYTADSHFGDVLRTAKQNKTPEYYGSGLMLYGKGDGGGGPTEEMLQKMRRIRSMNNRNGNVIPKLQVGITVDEFYDDILKRTNQGHDLPTWSGELYFEFHRGTYTSQAQTKKLMRLSEIKLHDLEWIAAKTSVLYPDSYKYPSKQINELWENVLLCQFHDVLPGSCIEMVYKYEAVPMLHNVVKECTSLIDKTVQFLQSQSKADLVEMRTLGYDDYIVLANGKLKVIICKKTGVITSITDETLGVEYLDFVIYDDKPLGWQAWDTELYSVNQYKYVTKPKKVQVSCNTKEKCAVEVIFQISEKCKIKSVISLNATADAKLSKVDISTTVENWDARNKFLKVEFPVNIRNDFASYETQFGITKRPTHYNTSWDVAKFEVCHHKFADYSEYSKGVSILNDCKYGFSTHGNLMRLSLLRSPKAPDAHADMGTHEIKYAIYPHRGALSSDTVKLAHEFNYCFKYKLPKDIGMNFDDIISISGDENVILSNIKRGEDEQSIVVRVYESLGGESFASLNTTLNLKRIEKVDNLEMKVYNRIPIKLRPFEIASFRLYF 5jm0-a1-m3-cA_5jm0-a1-m4-cA Structure of the S. cerevisiae alpha-mannosidase 1 P22855 P22855 6.3 ELECTRON MICROSCOPY 70 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 940 940 5jm0-a1-m1-cA_5jm0-a1-m2-cA XXXXXXXXXXXXXKRISLDHDHVKVWWYQVSFSWKSIIERDKKGELEFREANINQPFGPSWSTTWFKVKISLPEDWVKSNEQLLFQWDCSNEGIVIDPKTLIPVTAFSGGERTEYVLPKTSDGKHFFYIEAGNNDDNRFFHLRKADLDARALYIDFWMLGDAARELPGDSWQKHQARQLGNAVMNLFDPNDRSSVRKCRELLQREYFDVLTNVYGIGNCHIDTAWLWPFAETRRKIVRSWSSQCTLMDRFPEYKFVASQAQQFKWLLEDHPEFFNKVLIPKIQQSQFFAVGGTWVENDTNIPSGESLARQFFFGQRFFLKHFGLKSKIFWLPDTFGYSSQMPQLCRLSGIDKFLTQKLSWNNINSFPHSTFNWAGIDGSQLLTHMPPGNTYTADSHFGDVLRTAKQNKTPEYYGSGLMLYGKGDGGGGPTEEMLQKMRRIRSMNNRNGNVIPKLQVGITVDEFYDDILKRTNQGHDLPTWSGELYFEFHRGTYTSQAQTKKLMRLSEIKLHDLEWIAAKTSVLYPDSYKYPSKQINELWENVLLCQFHDVLPGSCIEMVYKYEAVPMLHNVVKECTSLIDKTVQFLQSQSKADLVEMRTLGYDDYIVLANGKLKVIICKKTGVITSITDETLGVEYLDFVIYDDKPLGWQAWDTELYSVNQYKYVTKPKKVQVSCNTKEKCAVEVIFQISEKCKIKSVISLNATADAKLSKVDISTTVENWDARNKFLKVEFPVNIRNDFASYETQFGITKRPTHYNTSWDVAKFEVCHHKFADYSEYSKGVSILNDCKYGFSTHGNLMRLSLLRSPKAPDAHADMGTHEIKYAIYPHRGALSSDTVKLAHEFNYCFKYKLPKDIGMNFDDIISISGDENVILSNIKRGEDEQSIVVRVYESLGGESFASLNTTLNLKRIEKVDNLEMKVYNRIPIKLRPFEIASFRLYF XXXXXXXXXXXXXKRISLDHDHVKVWWYQVSFSWKSIIERDKKGELEFREANINQPFGPSWSTTWFKVKISLPEDWVKSNEQLLFQWDCSNEGIVIDPKTLIPVTAFSGGERTEYVLPKTSDGKHFFYIEAGNNDDNRFFHLRKADLDARALYIDFWMLGDAARELPGDSWQKHQARQLGNAVMNLFDPNDRSSVRKCRELLQREYFDVLTNVYGIGNCHIDTAWLWPFAETRRKIVRSWSSQCTLMDRFPEYKFVASQAQQFKWLLEDHPEFFNKVLIPKIQQSQFFAVGGTWVENDTNIPSGESLARQFFFGQRFFLKHFGLKSKIFWLPDTFGYSSQMPQLCRLSGIDKFLTQKLSWNNINSFPHSTFNWAGIDGSQLLTHMPPGNTYTADSHFGDVLRTAKQNKTPEYYGSGLMLYGKGDGGGGPTEEMLQKMRRIRSMNNRNGNVIPKLQVGITVDEFYDDILKRTNQGHDLPTWSGELYFEFHRGTYTSQAQTKKLMRLSEIKLHDLEWIAAKTSVLYPDSYKYPSKQINELWENVLLCQFHDVLPGSCIEMVYKYEAVPMLHNVVKECTSLIDKTVQFLQSQSKADLVEMRTLGYDDYIVLANGKLKVIICKKTGVITSITDETLGVEYLDFVIYDDKPLGWQAWDTELYSVNQYKYVTKPKKVQVSCNTKEKCAVEVIFQISEKCKIKSVISLNATADAKLSKVDISTTVENWDARNKFLKVEFPVNIRNDFASYETQFGITKRPTHYNTSWDVAKFEVCHHKFADYSEYSKGVSILNDCKYGFSTHGNLMRLSLLRSPKAPDAHADMGTHEIKYAIYPHRGALSSDTVKLAHEFNYCFKYKLPKDIGMNFDDIISISGDENVILSNIKRGEDEQSIVVRVYESLGGESFASLNTTLNLKRIEKVDNLEMKVYNRIPIKLRPFEIASFRLYF 5jmp-a1-m1-cA_5jmp-a1-m1-cB Structure of Plasmodium falciparum DXR in complex with a beta-substituted fosmidomycin analogue, LC57 and manganese Q8IKG4 Q8IKG4 1.7 X-RAY DIFFRACTION 143 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 410 410 3au8-a1-m1-cA_3au8-a1-m1-cB 3au9-a1-m1-cA_3au9-a1-m1-cB 3aua-a1-m1-cA_3aua-a1-m1-cB 3wqq-a1-m1-cA_3wqq-a1-m1-cB 3wqr-a1-m1-cA_3wqr-a1-m1-cB 3wqs-a1-m1-cB_3wqs-a1-m2-cB 4gae-a1-m1-cB_4gae-a1-m1-cA 4kp7-a1-m1-cB_4kp7-a1-m1-cA 4y67-a1-m1-cA_4y67-a1-m1-cB 4y6p-a1-m1-cA_4y6p-a1-m1-cB 4y6r-a1-m1-cA_4y6r-a1-m1-cB 4y6s-a1-m1-cA_4y6s-a1-m1-cB 5jaz-a1-m1-cA_5jaz-a1-m1-cB 5jbi-a1-m1-cA_5jbi-a1-m1-cB 5jc1-a1-m1-cA_5jc1-a1-m1-cB 5jmw-a1-m1-cA_5jmw-a1-m1-cB 5jnl-a1-m1-cA_5jnl-a1-m1-cB 5jo0-a1-m1-cA_5jo0-a1-m1-cB PINVAIFGSTGSIGTNALNIIRECNKIENVFNVKALYVNKSVNELYEQAREFLPEYLCIHDKSVYEELKELVKNIKDYKPIILCGDEGMKEICSSNSIDKIVIGIDSFQGLYSTMYAIMNNKIVALANKESIVSAGFFLKKLLNIHKNAKIIPVDSEHSAIFQCLDNNKVLKTKCLQDNFSKINNINKIFLCSSGGPFQNLTMDELKNVTSENALKHPKWKMGKKITIDSATMMNKGLEVIETHFLFDVDYNDIEVIVHKECIIHSCVEFIDKSVISQMYYPDMQIPILYSLTWPDRIKTNLKPLDLAQVSTLTFHKPSLEHFPCIKLAYQAGIKGNFYPTVLNASNEIANNLFLNNKIKYFDISSIISQVLESFNSQKVSENSEDLMKQILQIHSWAKDKATDIYNKHN PINVAIFGSTGSIGTNALNIIRECNKIENVFNVKALYVNKSVNELYEQAREFLPEYLCIHDKSVYEELKELVKNIKDYKPIILCGDEGMKEICSSNSIDKIVIGIDSFQGLYSTMYAIMNNKIVALANKESIVSAGFFLKKLLNIHKNAKIIPVDSEHSAIFQCLDNNKVLKTKCLQDNFSKINNINKIFLCSSGGPFQNLTMDELKNVTSENALKHPKWKMGKKITIDSATMMNKGLEVIETHFLFDVDYNDIEVIVHKECIIHSCVEFIDKSVISQMYYPDMQIPILYSLTWPDRIKTNLKPLDLAQVSTLTFHKPSLEHFPCIKLAYQAGIKGNFYPTVLNASNEIANNLFLNNKIKYFDISSIISQVLESFNSQKVSENSEDLMKQILQIHSWAKDKATDIYNKHN 5jmq-a1-m1-cA_5jmq-a1-m2-cA Crystal Structure of Mus musculus Protein Arginine Methyltransferase 2 with CP3 Q3UKX1 Q3UKX1 1.795 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 339 339 5ful-a1-m1-cA_5ful-a1-m2-cA 5fwa-a1-m1-cA_5fwa-a1-m2-cA 5fwd-a1-m1-cA_5fwd-a1-m2-cA DTWQDEEYFDSYGTLKLHLEMLADQPRTTKYHSVILQNKESLKDKVILDVGCGTGIISLFCAHHARPKAVYAVEASDMAQHTSQLVLQNGFADTITVFQQKVEDVVLPEKVDVLVSEWMGTCLLFEFMIESILYARDTWLKGDGIIWPTTAALHLVPCSAEKDYHSKVLFWDNAYEFNLSALKSLAIKEFFSRPKSNHILKPEDCLSEPCTILQLDMRTVQVPDLETMRGELRFDIQKAGTLHGFTAWFSVYFQSLEEGQPQQVLSTGPLHPTTHWKQTLFMMDDPVPVHTGDVVTGSVVLQRNPVWRRHMSVSLSWVVTSALDPTSQRVGEKVFPIWW DTWQDEEYFDSYGTLKLHLEMLADQPRTTKYHSVILQNKESLKDKVILDVGCGTGIISLFCAHHARPKAVYAVEASDMAQHTSQLVLQNGFADTITVFQQKVEDVVLPEKVDVLVSEWMGTCLLFEFMIESILYARDTWLKGDGIIWPTTAALHLVPCSAEKDYHSKVLFWDNAYEFNLSALKSLAIKEFFSRPKSNHILKPEDCLSEPCTILQLDMRTVQVPDLETMRGELRFDIQKAGTLHGFTAWFSVYFQSLEEGQPQQVLSTGPLHPTTHWKQTLFMMDDPVPVHTGDVVTGSVVLQRNPVWRRHMSVSLSWVVTSALDPTSQRVGEKVFPIWW 5jmv-a1-m1-cB_5jmv-a1-m1-cA Crystal structure of mjKae1-pfuPcc1 complex Q58530 Q58530 3.38647 X-RAY DIFFRACTION 22 0.997 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 321 323 MDPMICLGLEGTAEKTGVGIVTSDGEVLFNKTIMINPREAADHHAETFPKLIKEAFEVVDKNEIDLIAFSQGPGLGPSLRVTATVARTLSLTLKKPIIGVNHCIAHIEIGKLTTEAEDPLTLYVSGGNTQVIAYVSKKYRVFGETLDIAVGNCLDQFARYVNLPHPGGPYIEELARKGKKLVDLPYTVKGMDIAFSGLLTAAMRAYDAGERLEDICYSLQEYAFSMLTEITERALAHTNKGEVMLVGGVAANNRLREMLKAMCEGQNVDFYVPPKEFCGDNGAMIAWLGLLMHKNGRWMSLDETKIIPNYRTDMVEVNWIK MDPMICLGLEGTAEKTGVGIVTSDGEVLFNKTIMYKPNPREAADHHAETFPKLIKEAFEVVDKNEIDLIAFSQGPGLGPSLRVTATVARTLSLTLKKPIIGVNHCIAHIEIGKLTTEAEDPLTLYVSGGNTQVIAYVSKKYRVFGETLDIAVGNCLDQFARYVNLPHPGGPYIEELARKGKKLVDLPYTVKGMDIAFSGLLTAAMRAYDAGERLEDICYSLQEYAFSMLTEITERALAHTNKGEVMLVGGVAANNRLREMLKAMCEGQNVDFYVPPKEFCGDNGAMIAWLGLLMHKNGRWMSLDETKIIPNYRTDMVEVNWIK 5jmv-a2-m1-cH_5jmv-a2-m2-cH Crystal structure of mjKae1-pfuPcc1 complex Q8TZI1 Q8TZI1 3.38647 X-RAY DIFFRACTION 57 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 65 65 RVQAKIEIEFPSEDVAKVVYEAVLYEHLEIDFKIILDIKATDSSALRGTVNSYLRWIKAAIDVIE RVQAKIEIEFPSEDVAKVVYEAVLYEHLEIDFKIILDIKATDSSALRGTVNSYLRWIKAAIDVIE 5jnb-a1-m1-cB_5jnb-a1-m1-cA structure of GLD-2/RNP-8 complex O17087 O17087 2.486 X-RAY DIFFRACTION 48 0.997 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 324 329 GAMDVLSEKIWDYHNKVSQTDEMLQRKLHLRDMLYTAISPVFPLSGLYVVGSSLNGFGNNSSDMDLCLMITNKDLDQKNDAVVVLNLILSTLQYEKFVESQKLILAKVPILRINFAAPFDDITVALNANNSVAIRNTHLLCYYSSYDWRVRPLVSVVKEWAKRKGINDANKSSFTSYSLVLMVIHFLQCGPTKVLPNLQQSYPNRFSNKVDVRTLNVTMALEEDQSLSEKTTLGELLIGFLDYYANEFNYDRDAISIRQGRRVERASPHFWRSQWRCVCIEEPFTAHSIYDEMVFEAIKKAFREAHGELQHNHDLDKLMECEPI GAMDVLSEKIWDYHNKVSQTDEMLQRKLHLRDMLYTAISPVFPLSGLYVVGSSLNGFGNNSSDMDLCLMITNKDLDQKNDAVVVLNLILSTLQYEKFVESQKLILAKVPILRINFAAPFDDITVALNANNSVAIRNTHLLCYYSSYDWRVRPLVSVVKEWAKRKGINDANKSSFTSYSLVLMVIHFLQCGPTKVLPNLQQSYPNRFSNKVDVRTLNVTMALEEVADDIDQSLSEKTTLGELLIGFLDYYANEFNYDRDAISIRQGRRVERAPHFWRSQWRCVCIEEPFTAHSIYDEMVFEAIKKAFREAHGELQHNHDLDKLMECEPIK 5jnb-a1-m1-cD_5jnb-a1-m1-cA structure of GLD-2/RNP-8 complex O17087 O17087 2.486 X-RAY DIFFRACTION 18 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 263 329 5jnb-a1-m1-cC_5jnb-a1-m1-cB LSEKIWDYHNKVSQTDEMLQRKLHLRDMLYTAISPVFPLSGLYVVGSSLNGFGNNSSDMDLCLMITNKDLDQKNDAVVVLNLILSTLQYEKFVESQKLILAKVPILRINFAAPFDDITVALNANNSVAIRNTHLLCYYSSYDWRVRPLVSVVKEWAKRTSYSLVLMVIHFLQCGPTKVLPNLQQSYPNRFSNKVDVRTLNVTMALEETLGELLIGFLDYYANEFNYDRDAISIRQGRRVERVCIEEPFTFEAIKKAFREAHGE GAMDVLSEKIWDYHNKVSQTDEMLQRKLHLRDMLYTAISPVFPLSGLYVVGSSLNGFGNNSSDMDLCLMITNKDLDQKNDAVVVLNLILSTLQYEKFVESQKLILAKVPILRINFAAPFDDITVALNANNSVAIRNTHLLCYYSSYDWRVRPLVSVVKEWAKRKGINDANKSSFTSYSLVLMVIHFLQCGPTKVLPNLQQSYPNRFSNKVDVRTLNVTMALEEVADDIDQSLSEKTTLGELLIGFLDYYANEFNYDRDAISIRQGRRVERAPHFWRSQWRCVCIEEPFTAHSIYDEMVFEAIKKAFREAHGELQHNHDLDKLMECEPIK 5jnb-a1-m1-cD_5jnb-a1-m1-cB structure of GLD-2/RNP-8 complex O17087 O17087 2.486 X-RAY DIFFRACTION 12 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 263 324 5jnb-a1-m1-cC_5jnb-a1-m1-cA LSEKIWDYHNKVSQTDEMLQRKLHLRDMLYTAISPVFPLSGLYVVGSSLNGFGNNSSDMDLCLMITNKDLDQKNDAVVVLNLILSTLQYEKFVESQKLILAKVPILRINFAAPFDDITVALNANNSVAIRNTHLLCYYSSYDWRVRPLVSVVKEWAKRTSYSLVLMVIHFLQCGPTKVLPNLQQSYPNRFSNKVDVRTLNVTMALEETLGELLIGFLDYYANEFNYDRDAISIRQGRRVERVCIEEPFTFEAIKKAFREAHGE GAMDVLSEKIWDYHNKVSQTDEMLQRKLHLRDMLYTAISPVFPLSGLYVVGSSLNGFGNNSSDMDLCLMITNKDLDQKNDAVVVLNLILSTLQYEKFVESQKLILAKVPILRINFAAPFDDITVALNANNSVAIRNTHLLCYYSSYDWRVRPLVSVVKEWAKRKGINDANKSSFTSYSLVLMVIHFLQCGPTKVLPNLQQSYPNRFSNKVDVRTLNVTMALEEDQSLSEKTTLGELLIGFLDYYANEFNYDRDAISIRQGRRVERASPHFWRSQWRCVCIEEPFTAHSIYDEMVFEAIKKAFREAHGELQHNHDLDKLMECEPI 5jnp-a3-m1-cA_5jnp-a3-m1-cB Crystal structure of a rice (Oryza Sativa) cellulose synthase plant conserved region (P-CR) Q84ZN6 Q84ZN6 2.404 X-RAY DIFFRACTION 51 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 75 75 ALTFDALAETSEFARKWVPFVKKYNIEPRAPEWYFSQKIDYLKDKVHPSFVKDRRAKREYEEFKVRINGLVAKAQ ALTFDALAETSEFARKWVPFVKKYNIEPRAPEWYFSQKIDYLKDKVHPSFVKDRRAKREYEEFKVRINGLVAKAQ 5jnq-a1-m1-cA_5jnq-a1-m2-cA MraY tunicamycin complex R0BTE9 R0BTE9 2.6 X-RAY DIFFRACTION 69 1.0 997894 (Enterocloster bolteae 90A9) 997894 (Enterocloster bolteae 90A9) 307 307 ENLYFQSMIHETILAIIIAFAISALLCPIIIPFLHKLKFGTPTMGGLIILSSIIITSVFYIPSYPKIIPVLFVTVGFGIIGFLDDYIKIVKPMQKLVGQFIITGIFAWYLLNSGEVGTDMLIPFTGGFDGGSFLSLGIFFVPALFFIMLGTDNGVNFTDGLDGLCTSVTILVATFLTIVAIGEDMGISPITGAVVGSLLGFLLFNVYPAKVFMGDTGSLALGGFVAASCYMMRMPLFIPVIGLIYLVEVLSVIIQVTYFKRTGGKRIFKMAPIHHHFELCGWSETRVVAVFAIVTAILCMVAYLGLG ENLYFQSMIHETILAIIIAFAISALLCPIIIPFLHKLKFGTPTMGGLIILSSIIITSVFYIPSYPKIIPVLFVTVGFGIIGFLDDYIKIVKPMQKLVGQFIITGIFAWYLLNSGEVGTDMLIPFTGGFDGGSFLSLGIFFVPALFFIMLGTDNGVNFTDGLDGLCTSVTILVATFLTIVAIGEDMGISPITGAVVGSLLGFLLFNVYPAKVFMGDTGSLALGGFVAASCYMMRMPLFIPVIGLIYLVEVLSVIIQVTYFKRTGGKRIFKMAPIHHHFELCGWSETRVVAVFAIVTAILCMVAYLGLG 5jnu-a1-m1-cA_5jnu-a1-m1-cB Crystal structure of mouse Low-Molecular Weight Protein Tyrosine Phosphatase type A (LMPTP-A) complexed with phosphate Q9D358 Q9D358 2.535 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 153 153 GSKSVLFVCLGNICRSPIAEAVFRKLVTDEKVSDNWRIDSAATSTYEVGNPPDYRGQNCMRKHGIHMQHIARQITKEDFATFDYILCMDESNLRDLNRKSNQVKNCKAKIELLGSYDPQKQLIIEDPYYGNDSDFEVVYQQCLRCCKAFLEKT GSKSVLFVCLGNICRSPIAEAVFRKLVTDEKVSDNWRIDSAATSTYEVGNPPDYRGQNCMRKHGIHMQHIARQITKEDFATFDYILCMDESNLRDLNRKSNQVKNCKAKIELLGSYDPQKQLIIEDPYYGNDSDFEVVYQQCLRCCKAFLEKT 5jo9-a1-m2-cA_5jo9-a1-m4-cA Structural characterization of the thermostable Bradyrhizobium japonicum d-sorbitol dehydrogenase Q89FN7 Q89FN7 2.894 X-RAY DIFFRACTION 79 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 239 239 5jo9-a1-m1-cA_5jo9-a1-m3-cA ELEGKVAAVTGAASGIGLASAEAMLAAGARVVMVDRDEAALKALCNKHGDTVIPLVVDLLDPEDCATLLPRVLEKACQLDILHANAGTYVGGDLVDADTMAIDRMLNLNVNVVMKNVHDVLPHMIERRTGDIIVTSSLAAHFPTPWEPVYASSKWAINCFVQTVRRQVFKHGIRVGSISPGPVVSALLADWPPEKLKEARDSGSLLEASDVAEVVMFMLTRPRGMTIRDVLMLPTNFDL ELEGKVAAVTGAASGIGLASAEAMLAAGARVVMVDRDEAALKALCNKHGDTVIPLVVDLLDPEDCATLLPRVLEKACQLDILHANAGTYVGGDLVDADTMAIDRMLNLNVNVVMKNVHDVLPHMIERRTGDIIVTSSLAAHFPTPWEPVYASSKWAINCFVQTVRRQVFKHGIRVGSISPGPVVSALLADWPPEKLKEARDSGSLLEASDVAEVVMFMLTRPRGMTIRDVLMLPTNFDL 5jo9-a1-m3-cA_5jo9-a1-m4-cA Structural characterization of the thermostable Bradyrhizobium japonicum d-sorbitol dehydrogenase Q89FN7 Q89FN7 2.894 X-RAY DIFFRACTION 131 1.0 375 (Bradyrhizobium japonicum) 375 (Bradyrhizobium japonicum) 239 239 5jo9-a1-m1-cA_5jo9-a1-m2-cA ELEGKVAAVTGAASGIGLASAEAMLAAGARVVMVDRDEAALKALCNKHGDTVIPLVVDLLDPEDCATLLPRVLEKACQLDILHANAGTYVGGDLVDADTMAIDRMLNLNVNVVMKNVHDVLPHMIERRTGDIIVTSSLAAHFPTPWEPVYASSKWAINCFVQTVRRQVFKHGIRVGSISPGPVVSALLADWPPEKLKEARDSGSLLEASDVAEVVMFMLTRPRGMTIRDVLMLPTNFDL ELEGKVAAVTGAASGIGLASAEAMLAAGARVVMVDRDEAALKALCNKHGDTVIPLVVDLLDPEDCATLLPRVLEKACQLDILHANAGTYVGGDLVDADTMAIDRMLNLNVNVVMKNVHDVLPHMIERRTGDIIVTSSLAAHFPTPWEPVYASSKWAINCFVQTVRRQVFKHGIRVGSISPGPVVSALLADWPPEKLKEARDSGSLLEASDVAEVVMFMLTRPRGMTIRDVLMLPTNFDL 5jod-a2-m3-cB_5jod-a2-m1-cA Structure of proplasmepsin IV from Plasmodium falciparum W7FF86 W7FF86 1.528 X-RAY DIFFRACTION 60 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 375 375 5jod-a1-m2-cA_5jod-a1-m1-cB KHTTIGFKIDRPHDKVLSSVLKNKLSTYVKESFKFFKSGYAQKGYLGSENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL KHTTIGFKIDRPHDKVLSSVLKNKLSTYVKESFKFFKSGYAQKGYLGSENDSIELDDVANLMFYGEGQIGTNKQPFMFIFDTGSANLWVPSVNCDSIGCSTKHLYDASASKSYEKDGTKVEISYGSGTVRGYFSKDVISLGDLSLPYKFIEVTDADDLEPIYSGSEFDGILGLGWKDLSIGSIDPVVVELKKQNKIDNALFTFYLPVHDKHVGYLTIGGIESDFYEGPLTYEKLNHDLYWQIDLDIHFGKYVMQKANAVVDSGTSTITAPTSFLNKFFRDMNVIKVPFLPLYVTTCDNDDLPTLEFHSRNNKYTLEPEFYMDPLSDIDPALCMLYILPVDIDDNTFILGDPFMRKYFTVFDYEKESVGFAVAKNL 5joq-a1-m2-cA_5joq-a1-m3-cA Crystal Structure of an ABC Transporter Substrate-Binding Protein from Listeria monocytogenes EGD-e Q7AP55 Q7AP55 1.99 X-RAY DIFFRACTION 60 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 258 258 5joq-a1-m1-cA_5joq-a1-m2-cA 5joq-a1-m1-cA_5joq-a1-m3-cA KEPKIVATTVAITEIMDKLDLPLVGIPSSSKKLPKRYADVKETGSPMGPDLEIIRMLKPDMVLSTKTLEADLKSGFEGADLEADFLDFTSIASMQTEIKNLGAKFDRIEEATKLNKDLTSDIDQVKSNVAKKKKPTVLILMGVPGSYLVVTEHAYIGDLVKLAGGENVIKDQKVEYLASNTEYLQSANPDIILRAAHGMPAEVVKMFDEEFKTNDIWKHFDAVKNNRVYDLDENLFGMTASLNAPEALKEMEKMLYDN KEPKIVATTVAITEIMDKLDLPLVGIPSSSKKLPKRYADVKETGSPMGPDLEIIRMLKPDMVLSTKTLEADLKSGFEGADLEADFLDFTSIASMQTEIKNLGAKFDRIEEATKLNKDLTSDIDQVKSNVAKKKKPTVLILMGVPGSYLVVTEHAYIGDLVKLAGGENVIKDQKVEYLASNTEYLQSANPDIILRAAHGMPAEVVKMFDEEFKTNDIWKHFDAVKNNRVYDLDENLFGMTASLNAPEALKEMEKMLYDN 5jph-a1-m1-cA_5jph-a1-m1-cB Structure of a GNAT acetyltransferase SACOL1063 from Staphylococcus aureus in complex with CoA Q5HH30 Q5HH30 1.46 X-RAY DIFFRACTION 23 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 133 135 AFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT 5jph-a1-m1-cB_5jph-a1-m1-cC Structure of a GNAT acetyltransferase SACOL1063 from Staphylococcus aureus in complex with CoA Q5HH30 Q5HH30 1.46 X-RAY DIFFRACTION 29 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 135 135 SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT 5jph-a3-m1-cB_5jph-a3-m2-cC Structure of a GNAT acetyltransferase SACOL1063 from Staphylococcus aureus in complex with CoA Q5HH30 Q5HH30 1.46 X-RAY DIFFRACTION 29 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 135 135 SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT 5jpw-a1-m1-cA_5jpw-a1-m1-cB Molecular basis for protein recognition specificity of the DYNLT1/Tctex1 canonical binding groove. Characterization of the interaction with activin receptor IIB Q13409 Q13409 NOT SOLUTION NMR 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 143 GSMEDYQAAEETAFVVDEVSNIVKEAIESAIGGNAYQHSKVNQWTTNVVEQTLSQLTKLGKPFKYIVTCVIMQKNGAGLHTASSCFWDSSTDGSCTVRWENKTMYCIVSAFGLSIGGGSGQSGPIKLGMAKITQVDFPPREIV GSMEDYQAAEETAFVVDEVSNIVKEAIESAIGGNAYQHSKVNQWTTNVVEQTLSQLTKLGKPFKYIVTCVIMQKNGAGLHTASSCFWDSSTDGSCTVRWENKTMYCIVSAFGLSIGGGSGQSGPIKLGMAKITQVDFPPREIV 5jq1-a1-m1-cB_5jq1-a1-m1-cA Efficient targeting of the asialoglycoprotein receptor by polyvalent display of a compact galactosamine mimic P07306 P07306 1.83 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 130 5jpv-a1-m1-cA_5jpv-a1-m1-cB CCPVNWVEHERSCYWFSRSGKAWADADNYCRLEDAHLVVVTSWEEQKFVQHHIGPVNTWMGLHDQNGPWKWVDGTDYETGFKNWRPEQPDDWYGHGLGGGEDCAHFTDDGRWNDDVCQRPYRWVCETEL TCCPVNWVEHERSCYWFSRSGKAWADADNYCRLEDAHLVVVTSWEEQKFVQHHIGPVNTWMGLHDQNGPWKWVDGTDYETGFKNWRPEQPDDWYGHGLGGGEDCAHFTDDGRWNDDVCQRPYRWVCETEL 5jq4-a3-m1-cA_5jq4-a3-m2-cB Structure of a GNAT acetyltransferase SACOL1063 from Staphylococcus aureus Q5HH30 Q5HH30 1.8 X-RAY DIFFRACTION 40 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 133 137 5jq4-a3-m2-cA_5jq4-a3-m1-cB AFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLTSL 5jq4-a3-m2-cA_5jq4-a3-m2-cB Structure of a GNAT acetyltransferase SACOL1063 from Staphylococcus aureus Q5HH30 Q5HH30 1.8 X-RAY DIFFRACTION 49 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 133 137 5jq4-a3-m1-cA_5jq4-a3-m1-cB AFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLT SNAFSKVNNQKLEDCFYIRKKVFVEEQGIPEESEIDEYESESIHLIGYDNGQPVATARIRPINETTVKIERVAVKSHRGQGGRLQAVESLAKDEGFYVATNAQCHAIPFYESLNFKRGNIFLEEGIEHIETKKLTSL 5jqz-a1-m1-cA_5jqz-a1-m1-cB Designed two-ring homotetramer at 3.8A resolution 3.83 X-RAY DIFFRACTION 53 1.0 32630 (synthetic construct) 32630 (synthetic construct) 75 75 TAIEANSRMLKALIEIAKAIWKALWANSLLLEATSRGDTERMRQWAEEARKIYKEAEKIIDRADEIVEEAKKRHD TAIEANSRMLKALIEIAKAIWKALWANSLLLEATSRGDTERMRQWAEEARKIYKEAEKIIDRADEIVEEAKKRHD 5jr6-a1-m1-cB_5jr6-a1-m1-cA The Xray Crystal Structure of P. falciparum Aminopeptidase P in Complex With Apstatin A0A144A2H0 A0A144A2H0 2.3 X-RAY DIFFRACTION 89 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 545 628 5jqk-a1-m1-cB_5jqk-a1-m1-cA VYILINSDEHNSEIINEKDKKIADGILIVRISRIDNRDEIFETIIAFDGKNTSVVFYEKLRKALLNAYPKIVEKIFLVLEKSLVYPVNNKTLYIHDRKYNGACAGEKIDKLKQSLMYDIKNVDNLLLSELDEIAYLLNLRGYDYQYSPLFYSYLLFQFDRQDFSKIVFFTTVKNLPADVKNLLEINKVIVKEYEEIVPYLRDVVIPSIDFKKYDISLSPYINLMIYKLFDRKNVLLQNSPVVKMKAVKNDVEIDNMKQAHILDGLALLQFFHWCEQKRKTKELFNETEMSLRHKVDYFRSTKKNFIFPSFSTISASGPNAAVIHYECDKTNATIKPAIYLLDSGGQYLHGTTDVTRTTHFGEPTAEEKRIYTLVLKGHLRLRKVIFASYTNSSALDFIARENLFNNFMDYNHGTGHGVGLTLNVHEGGCSIGPVGGAPLKKNMVLSNEPGYYMKDKFGVRIENMQYVISKEITDTTEYLSFDDLTMYPYEKKLLDFSLLTNQEIKELNEYHTTIRNTLLPLVKQSPQEYGESVEKYLIEITEPIA DNNPAARLEELRTIMKKNKIDVYILINSDEHNSEIINEKDKKIVKITNYSGADGILIVTKDKPILYVNALYELQAMNELDQNLFTLRISRIDNRDEIFETISSLFNTIAFDGKNTSVVFYEKLRKALLNAYPKKKIVEKIIYNNNFDDVLNFLVLEKSLVEIYPVNNKTLYIHDRKYNGACAGEKIDKLKQSLMYDIKNVDNLLLSELDEIAYLLNLRGYDYQYSPLFYSYLLFQFDREQDFSKIVFFTTVKNLPADVKNLLEINKVIVKEYEEIVPYLRDVVIPSIPKDFKKYDISLSPYINLMIYKLFDRKNVLLQNSPVVKMKAVKNDVEIDNMKQAHILDGLALLQFFHWCEQKRKTKELFNETEMSLRHKVDYFRSTKKNFIFPSFSTISASGPNAAVIHYECTDKTNATIKPAIYLLDSGGQYLHGTTDVTRTTHFGEPTAEEKRIYTLVLKGHLRLRKVIFASYTNSSALDFIARENLFNNFMDYNHGTGHGVGLTLNVHEGGCSIGPVGGAPLKKNMVLSNEPGYYMKDKFGVRIENMQYVISKEITDTTEYLSFDDLTMYPYEKKLLDFSLLTNQEIKELNEYHTTIRNTLLPLVKQSPQEYGESVEKYLIEITEPIAI 5jr8-a4-m1-cB_5jr8-a4-m2-cB Disposal of Iron by a Mutant form of Siderocalin NGAL P80188 P80188 2.65 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 SDLIPAPPLSSVPLQQNFQDNQFQGKWYVVGLAGNAILREDEDPQKMYATIYELKEDKSYNVTSVLFRDDGCDYWIRTFVPGCQPGEFTLGNIQSYPGLTSYLVRVVSTNYNQFAMVFFKKVSQNQEYFKITLYGRTKELTSELQENFIRFSKSLGLPENNIVFPVPIDQCID SDLIPAPPLSSVPLQQNFQDNQFQGKWYVVGLAGNAILREDEDPQKMYATIYELKEDKSYNVTSVLFRDDGCDYWIRTFVPGCQPGEFTLGNIQSYPGLTSYLVRVVSTNYNQFAMVFFKKVSQNQEYFKITLYGRTKELTSELQENFIRFSKSLGLPENNIVFPVPIDQCID 5jrl-a3-m3-cB_5jrl-a3-m1-cD Crystal Structure of the Sphingopyxin I Lasso Peptide Isopeptidase SpI-IsoP (Native) Q1GQ33 Q1GQ33 3.2 X-RAY DIFFRACTION 144 0.992 317655 (Sphingopyxis alaskensis RB2256) 317655 (Sphingopyxis alaskensis RB2256) 666 669 5jrk-a1-m1-cB_5jrk-a1-m1-cA 5jrl-a1-m1-cC_5jrl-a1-m1-cA 5jrl-a2-m1-cB_5jrl-a2-m2-cD KGRPWTLEDILTVPEVNEIALSDNGRLAIYAAEIADLDAGKPRSHIRIVDVETGRTKELLTVDTIKSLRSVPGTQDWSALVDLGEGQQLYRIDTEGKLLPLIVNPNPVPVGKADMSFPLIRPSHIGILDYDWSPDGKWLWYSQLRAKSDGPRVRFDEEVTALLGRRRSTIDVEVDFFLRNPEGDTTRIMARPSTDRVATRVLWRGNEVQFRIETSEFVAWNRVNRTVRTMSILVGPRGGQLSTSGLGSDRELIETSRPHSYGRVAFDIGDSRSAGWKRSRDGKRVVIGTRGLGDARYGLALIDKTGVRELRADASLTRCGFDGMLRSAICVEEGMSRPPRLVRVDLGTDKITDLGPISPRHEEIEPLQTIARTFVSRDGYWSSGYVLLPRGHRAADRHPAVVVTHGTDADDRFAEPANQWNYPVQLLAERGYVVLLLNDPSPGQSKDLMDAMHAWLRGKGPPDPETVQQKLWLTGVHSFEDAVTELAAEGLIDPARVGIAGYSRGSQMVNVTVTNSKMFRAASSGDGGFLEPAGYATGRSSYDAVYGGAPLSDNIERWRRFAPSLNADKVCAAVLQQVASASPSQIELFEALRAAGVATQISYYPGATAASDETHVFYLTTNRLRAMRENIAWFDYWLLDKRDADAPFPDHVVKWDRLKKNLPDRC GRPWTLEDILTVPEVNEIALSDNGRLAIYAAEIADLDAGKPRSHIRIVDVETGRTKELLTVDTIKSLRSVPGTQDWSALVDLGEGQQLYRIDTEGKLLPLIVNPNPVPVGKADMSFPLGIRPSHIGILDYDWSPDGKWLWYSQLRAKSDGPRVRFDEEVTALLGRRRSTIDVEVDFFLRNPEGDTTRIMARPSTDRVATRGGGRVLWRGNEVQFRIETSAFEFVAWNRVNRTVRTLILVGPRGGQLSTSGLDRELIETSRPHSYGRVAFDIGDSRSAGWKRSRDGKRVVIGTRGLGDARYGLALIDKTGVRELRADASLTRCGFDGMLRSAICVEEGMSRPPRLVRVDLGTDKITDLGPISPRHEEIEPLQTIARTFVSRDGYWSSGYVLLPRGHRAADRHPAVVVTHGTDADDRFAEPANQWNYPVQLLAERGYVVLLLNDPSPGQSKDLMDAMHAWLRGKGPPDPETVQQKLWLTGVHSFEDAVTELAAEGLIDPARVGIAGYSRGSQMVNVTVTNSKMFRAASSGDGGFLEPAGYATGRSSYDAVYGGAPLSDNIERWRRFAPSLNADKVCAAVLQQVASASPSQIELFEALRAAGVATQISYYPGATAASDETHVFYLTTNRLRAMRENIAWFDYWLLDKRDADAPFPDHVVKWDRLKKNLPDRC 5jru-a2-m1-cC_5jru-a2-m1-cE Crystal structure of Fe(II) unliganded H-NOX protein from C. subterraneus Q8RBX6 Q8RBX6 2.305 X-RAY DIFFRACTION 49 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 184 186 5jru-a1-m1-cA_5jru-a1-m1-cF 5jru-a1-m1-cB_5jru-a1-m1-cA 5jru-a1-m1-cB_5jru-a1-m1-cF 5jru-a2-m1-cC_5jru-a2-m1-cD 5jru-a2-m1-cE_5jru-a2-m1-cD MKGTIVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPPRLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFE MKGTIVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPPRLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFEYK 5jsc-a4-m2-cB_5jsc-a4-m1-cC Crystal structure of a Putative acyl-CoA dehydrogenase from Burkholderia xenovorans Q13JS1 Q13JS1 1.5 X-RAY DIFFRACTION 128 0.997 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 387 388 5jsc-a1-m1-cD_5jsc-a1-m2-cA 5jsc-a1-m2-cB_5jsc-a1-m1-cC 5jsc-a2-m1-cD_5jsc-a2-m2-cA ELDLHSALAWPFFEPRHRELAAGIEAWCRANLADVDATCRRLVRELGAAGWLKYGVGGVAYGGHGDTIDTRAVCLLRETLAKHSGLADFALAMQGLGSGAISLGGTHEQKTRYLPRVANGTAIAAFALSEPEAGSDVAAMTLSAREDGDAYVLDGDKTWISNGGIADFYVVFARTGEAPGARGISAFVVDADTPGLEIAERIDVIAPHPLARLHFAGARVPRSQMLGAPGEGFKLAMRTLDIFRTSVAAASLGFARHAMAEGVARAASRKMFGQTLGDFQLTQAKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLYGGMGVQSGTAVEMLYREIRALRIYEGATEVQQLIVGRDLLKAHAAATA ELDLHSALAWPFFEPRHRELAAGIEAWCRANLEDVDATCRRLVRELGAAGWLKYGVGGVAYGGHGDTIDTRAVCLLRETLAKHSGLADFALAMQGLGSGAISLGGTHEQKTRYLPRVANGTAIAAFALSEPEAGSDVAAMTLSAREDGDAYVLDGDKTWISNGGIADFYVVFARTGEAPGARGISAFVVDADTPGLEIAERIDVIAPHPLARLHFAGARVPRSQMLGAPGEGFKLAMRTLDIFRTSVAAASLGFARHAMAEGVARAASRKMFGQTLGDFQLTQAKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLYGGMGVQSGTAVEMLYREIRALRIYEGATEVQQLIVGRDLLKAHAAATAG 5jsc-a5-m1-cC_5jsc-a5-m1-cD Crystal structure of a Putative acyl-CoA dehydrogenase from Burkholderia xenovorans Q13JS1 Q13JS1 1.5 X-RAY DIFFRACTION 94 0.997 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 388 388 5jsc-a1-m1-cC_5jsc-a1-m1-cD 5jsc-a1-m2-cB_5jsc-a1-m2-cA 5jsc-a3-m1-cB_5jsc-a3-m1-cA ELDLHSALAWPFFEPRHRELAAGIEAWCRANLEDVDATCRRLVRELGAAGWLKYGVGGVAYGGHGDTIDTRAVCLLRETLAKHSGLADFALAMQGLGSGAISLGGTHEQKTRYLPRVANGTAIAAFALSEPEAGSDVAAMTLSAREDGDAYVLDGDKTWISNGGIADFYVVFARTGEAPGARGISAFVVDADTPGLEIAERIDVIAPHPLARLHFAGARVPRSQMLGAPGEGFKLAMRTLDIFRTSVAAASLGFARHAMAEGVARAASRKMFGQTLGDFQLTQAKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLYGGMGVQSGTAVEMLYREIRALRIYEGATEVQQLIVGRDLLKAHAAATAG ELDLHSALAWPFFEPRHRELAAGIEAWCRANLADVDATCRRLVRELGAAGWLKYGVGGVAYGGHGDTIDTRAVCLLRETLAKHSGLADFALAMQGLGSGAISLGGTHEQKTRYLPRVANGTAIAAFALSEPEAGSDVAAMTLSAREDGDAYVLDGDKTWISNGGIADFYVVFARTGEAPGARGISAFVVDADTPGLEIAERIDVIAPHPLARLHFAGARVPRSQMLGAPGEGFKLAMRTLDIFRTSVAAASLGFARHAMAEGVARAASRKMFGQTLGDFQLTQAKLAQMALTIDSSALLVYRAAWLRDQGENVTREAAMAKWHASEGAQQVIDAAVQLYGGMGVQSGTAVEMLYREIRALRIYEGATEVQQLIVGRDLLKAHAAATAG 5jsd-a1-m1-cB_5jsd-a1-m1-cC Crystal structure of phiAB6 tailspike in complex with five-repeated oligosaccharides of Acinetobacter baumannii surface polysaccharide A0A159BDB5 A0A159BDB5 1.48 X-RAY DIFFRACTION 412 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 548 548 5js4-a1-m1-cA_5js4-a1-m1-cB 5js4-a1-m1-cA_5js4-a1-m1-cC 5js4-a1-m1-cB_5js4-a1-m1-cC 5jsd-a1-m1-cA_5jsd-a1-m1-cB 5jsd-a1-m1-cA_5jsd-a1-m1-cC 5jse-a1-m1-cA_5jse-a1-m1-cB 5jse-a1-m1-cA_5jse-a1-m1-cC 5jse-a1-m1-cB_5jse-a1-m1-cC QTQYYLKYFNPEIVYPKNARIMLDNGDIVRSTVVNNTSNPNVDMTGWVKVSSVSQIFDETYNITQSVINGNLITVDNFGAKGDGVTDDSAAFQAYCDSALTGQNLYLGAKGRYILKNQVDLKGKGLVGNGCGKVSEFYYNLGCIDVDGSSPDLQGKTAFINCGPTIQNLTARCSNGAGKQVSFIEIDGYLANIDHITLINFYNQIVVKQALVGFNFTNAWLYYSQNAGIYCEDPLNRVSTTGTFHNIYFQLGDGHAMIFDRDVHGCDFDNIIFESMNGGIKARTVAHCGFGKFWCENLKTATSKDWLEVTGANSCYGNSFTGYVKLLGGWTSKTSPTLDSLPTNNYGGVSVSAEGISIVNAGNKAKMLMLPSGFKTGNATIDETHISSSTVTPLVKRRVIGADSSGAQYLASDTYTKLSRKWGTYNHGSNNAGAFYAPMMLTYDQSFSTPQNNNGWKIVKESTGVYRVERVSGNTSVITNGHIVVGSPLMGSRLGTGTGATHGIQMIETYAGSWTSYTEAAGFKVFWRDSSNALVDPHRFTVAFTATS QTQYYLKYFNPEIVYPKNARIMLDNGDIVRSTVVNNTSNPNVDMTGWVKVSSVSQIFDETYNITQSVINGNLITVDNFGAKGDGVTDDSAAFQAYCDSALTGQNLYLGAKGRYILKNQVDLKGKGLVGNGCGKVSEFYYNLGCIDVDGSSPDLQGKTAFINCGPTIQNLTARCSNGAGKQVSFIEIDGYLANIDHITLINFYNQIVVKQALVGFNFTNAWLYYSQNAGIYCEDPLNRVSTTGTFHNIYFQLGDGHAMIFDRDVHGCDFDNIIFESMNGGIKARTVAHCGFGKFWCENLKTATSKDWLEVTGANSCYGNSFTGYVKLLGGWTSKTSPTLDSLPTNNYGGVSVSAEGISIVNAGNKAKMLMLPSGFKTGNATIDETHISSSTVTPLVKRRVIGADSSGAQYLASDTYTKLSRKWGTYNHGSNNAGAFYAPMMLTYDQSFSTPQNNNGWKIVKESTGVYRVERVSGNTSVITNGHIVVGSPLMGSRLGTGTGATHGIQMIETYAGSWTSYTEAAGFKVFWRDSSNALVDPHRFTVAFTATS 5jtr-a1-m1-cE_5jtr-a1-m1-cF The structure of chaperone SecB in complex with unstructured MBP binding site e P0AEY0 P0AEY0 NOT SOLUTION NMR 32 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 40 40 KGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDV KGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDV 5jtr-a1-m1-cG_5jtr-a1-m1-cH The structure of chaperone SecB in complex with unstructured MBP binding site e P0AEY0 P0AEY0 NOT SOLUTION NMR 39 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 40 40 KGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDV KGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDV 5ju6-a1-m1-cA_5ju6-a1-m1-cC Structural and Functional Studies of Glycoside Hydrolase Family 3 beta-Glucosidase Cel3A from the Moderately Thermophilic Fungus Rasamsonia emersonii Q8TGI8 Q8TGI8 2.2 X-RAY DIFFRACTION 17 1.0 68825 (Rasamsonia emersonii) 68825 (Rasamsonia emersonii) 835 835 NLAYSPPFYPSPWANGQGDWAEAYQKAVQFVSQLTLAEKVNLTTGTGWEQDRCVGQVGSIPRLGFPGLCMQDSPLGVRDTDYNSAFPAGVNVAATWDRNLAYRRGVAMGEEHRGKGVDVQLGPVAGPLGRSPDAGRNWEGFAPDPVLTGNMMASTIQGIQDAGVIACAKHFILYEQEHFRQGAQDGYDISDSISANADDKTMHELYLWPFADAVRAGVGSVMCSYNQVNNSYACSNSYTMNKLLKSELGFQGFVMTDWGGHHSGVGSALAGLDMSMPGDIAFDSGTSFWGTNLTVAVLNGSIPEWRVDDMAVRIMSAYYKVGRDRYSVPINFDSWTLDTYGPEHYAVGQGQTKINEHVDVRGNHAEIIHEIGAASAVLLKNKGGLPLTGTERFVGVFGKDAGSNPWGVNGCSDRGCDNGTLAMGWGSGTANFPYLVTPEQAIQREVLSRNGTFTGITDNGALAEMAAAASQADTCLVFANADSGEGYITVDGNEGDRKNLTLWQGADQVIHNVSANCNNTVVVLHTVGPVLIDDWYDHPNVTAILWAGLPGQESGNSLVDVLYGRVNPGKTPFTWGRARDDYGAPLIVKPNNGKGAPQQDFTEGIFIDYRRFDKYNITPIYEFGFGLSYTTFEFSQLNVQPINAPPYTPASGFTKAAQSFGQPSNASDNLYPSDIERVPLYIYPWLNSTDLKASANDPDYGLPTEKYVPPNATNGDPQPIDPAGGAPGGNPSLYEPVARVTTIITNTGKVTGDEVPQLYVSLGGPDDAPKVLRGFDRITLAPGQQYLWTTTLTRRDISNWDPVTQNWVVTNYTKTIYVGNSSRNLPLQAPLKPYP NLAYSPPFYPSPWANGQGDWAEAYQKAVQFVSQLTLAEKVNLTTGTGWEQDRCVGQVGSIPRLGFPGLCMQDSPLGVRDTDYNSAFPAGVNVAATWDRNLAYRRGVAMGEEHRGKGVDVQLGPVAGPLGRSPDAGRNWEGFAPDPVLTGNMMASTIQGIQDAGVIACAKHFILYEQEHFRQGAQDGYDISDSISANADDKTMHELYLWPFADAVRAGVGSVMCSYNQVNNSYACSNSYTMNKLLKSELGFQGFVMTDWGGHHSGVGSALAGLDMSMPGDIAFDSGTSFWGTNLTVAVLNGSIPEWRVDDMAVRIMSAYYKVGRDRYSVPINFDSWTLDTYGPEHYAVGQGQTKINEHVDVRGNHAEIIHEIGAASAVLLKNKGGLPLTGTERFVGVFGKDAGSNPWGVNGCSDRGCDNGTLAMGWGSGTANFPYLVTPEQAIQREVLSRNGTFTGITDNGALAEMAAAASQADTCLVFANADSGEGYITVDGNEGDRKNLTLWQGADQVIHNVSANCNNTVVVLHTVGPVLIDDWYDHPNVTAILWAGLPGQESGNSLVDVLYGRVNPGKTPFTWGRARDDYGAPLIVKPNNGKGAPQQDFTEGIFIDYRRFDKYNITPIYEFGFGLSYTTFEFSQLNVQPINAPPYTPASGFTKAAQSFGQPSNASDNLYPSDIERVPLYIYPWLNSTDLKASANDPDYGLPTEKYVPPNATNGDPQPIDPAGGAPGGNPSLYEPVARVTTIITNTGKVTGDEVPQLYVSLGGPDDAPKVLRGFDRITLAPGQQYLWTTTLTRRDISNWDPVTQNWVVTNYTKTIYVGNSSRNLPLQAPLKPYP 5ju6-a1-m1-cA_5ju6-a1-m1-cD Structural and Functional Studies of Glycoside Hydrolase Family 3 beta-Glucosidase Cel3A from the Moderately Thermophilic Fungus Rasamsonia emersonii Q8TGI8 Q8TGI8 2.2 X-RAY DIFFRACTION 39 1.0 68825 (Rasamsonia emersonii) 68825 (Rasamsonia emersonii) 835 835 5ju6-a1-m1-cB_5ju6-a1-m1-cC NLAYSPPFYPSPWANGQGDWAEAYQKAVQFVSQLTLAEKVNLTTGTGWEQDRCVGQVGSIPRLGFPGLCMQDSPLGVRDTDYNSAFPAGVNVAATWDRNLAYRRGVAMGEEHRGKGVDVQLGPVAGPLGRSPDAGRNWEGFAPDPVLTGNMMASTIQGIQDAGVIACAKHFILYEQEHFRQGAQDGYDISDSISANADDKTMHELYLWPFADAVRAGVGSVMCSYNQVNNSYACSNSYTMNKLLKSELGFQGFVMTDWGGHHSGVGSALAGLDMSMPGDIAFDSGTSFWGTNLTVAVLNGSIPEWRVDDMAVRIMSAYYKVGRDRYSVPINFDSWTLDTYGPEHYAVGQGQTKINEHVDVRGNHAEIIHEIGAASAVLLKNKGGLPLTGTERFVGVFGKDAGSNPWGVNGCSDRGCDNGTLAMGWGSGTANFPYLVTPEQAIQREVLSRNGTFTGITDNGALAEMAAAASQADTCLVFANADSGEGYITVDGNEGDRKNLTLWQGADQVIHNVSANCNNTVVVLHTVGPVLIDDWYDHPNVTAILWAGLPGQESGNSLVDVLYGRVNPGKTPFTWGRARDDYGAPLIVKPNNGKGAPQQDFTEGIFIDYRRFDKYNITPIYEFGFGLSYTTFEFSQLNVQPINAPPYTPASGFTKAAQSFGQPSNASDNLYPSDIERVPLYIYPWLNSTDLKASANDPDYGLPTEKYVPPNATNGDPQPIDPAGGAPGGNPSLYEPVARVTTIITNTGKVTGDEVPQLYVSLGGPDDAPKVLRGFDRITLAPGQQYLWTTTLTRRDISNWDPVTQNWVVTNYTKTIYVGNSSRNLPLQAPLKPYP NLAYSPPFYPSPWANGQGDWAEAYQKAVQFVSQLTLAEKVNLTTGTGWEQDRCVGQVGSIPRLGFPGLCMQDSPLGVRDTDYNSAFPAGVNVAATWDRNLAYRRGVAMGEEHRGKGVDVQLGPVAGPLGRSPDAGRNWEGFAPDPVLTGNMMASTIQGIQDAGVIACAKHFILYEQEHFRQGAQDGYDISDSISANADDKTMHELYLWPFADAVRAGVGSVMCSYNQVNNSYACSNSYTMNKLLKSELGFQGFVMTDWGGHHSGVGSALAGLDMSMPGDIAFDSGTSFWGTNLTVAVLNGSIPEWRVDDMAVRIMSAYYKVGRDRYSVPINFDSWTLDTYGPEHYAVGQGQTKINEHVDVRGNHAEIIHEIGAASAVLLKNKGGLPLTGTERFVGVFGKDAGSNPWGVNGCSDRGCDNGTLAMGWGSGTANFPYLVTPEQAIQREVLSRNGTFTGITDNGALAEMAAAASQADTCLVFANADSGEGYITVDGNEGDRKNLTLWQGADQVIHNVSANCNNTVVVLHTVGPVLIDDWYDHPNVTAILWAGLPGQESGNSLVDVLYGRVNPGKTPFTWGRARDDYGAPLIVKPNNGKGAPQQDFTEGIFIDYRRFDKYNITPIYEFGFGLSYTTFEFSQLNVQPINAPPYTPASGFTKAAQSFGQPSNASDNLYPSDIERVPLYIYPWLNSTDLKASANDPDYGLPTEKYVPPNATNGDPQPIDPAGGAPGGNPSLYEPVARVTTIITNTGKVTGDEVPQLYVSLGGPDDAPKVLRGFDRITLAPGQQYLWTTTLTRRDISNWDPVTQNWVVTNYTKTIYVGNSSRNLPLQAPLKPYP 5ju6-a1-m1-cC_5ju6-a1-m1-cD Structural and Functional Studies of Glycoside Hydrolase Family 3 beta-Glucosidase Cel3A from the Moderately Thermophilic Fungus Rasamsonia emersonii Q8TGI8 Q8TGI8 2.2 X-RAY DIFFRACTION 102 1.0 68825 (Rasamsonia emersonii) 68825 (Rasamsonia emersonii) 835 835 5ju6-a1-m1-cA_5ju6-a1-m1-cB NLAYSPPFYPSPWANGQGDWAEAYQKAVQFVSQLTLAEKVNLTTGTGWEQDRCVGQVGSIPRLGFPGLCMQDSPLGVRDTDYNSAFPAGVNVAATWDRNLAYRRGVAMGEEHRGKGVDVQLGPVAGPLGRSPDAGRNWEGFAPDPVLTGNMMASTIQGIQDAGVIACAKHFILYEQEHFRQGAQDGYDISDSISANADDKTMHELYLWPFADAVRAGVGSVMCSYNQVNNSYACSNSYTMNKLLKSELGFQGFVMTDWGGHHSGVGSALAGLDMSMPGDIAFDSGTSFWGTNLTVAVLNGSIPEWRVDDMAVRIMSAYYKVGRDRYSVPINFDSWTLDTYGPEHYAVGQGQTKINEHVDVRGNHAEIIHEIGAASAVLLKNKGGLPLTGTERFVGVFGKDAGSNPWGVNGCSDRGCDNGTLAMGWGSGTANFPYLVTPEQAIQREVLSRNGTFTGITDNGALAEMAAAASQADTCLVFANADSGEGYITVDGNEGDRKNLTLWQGADQVIHNVSANCNNTVVVLHTVGPVLIDDWYDHPNVTAILWAGLPGQESGNSLVDVLYGRVNPGKTPFTWGRARDDYGAPLIVKPNNGKGAPQQDFTEGIFIDYRRFDKYNITPIYEFGFGLSYTTFEFSQLNVQPINAPPYTPASGFTKAAQSFGQPSNASDNLYPSDIERVPLYIYPWLNSTDLKASANDPDYGLPTEKYVPPNATNGDPQPIDPAGGAPGGNPSLYEPVARVTTIITNTGKVTGDEVPQLYVSLGGPDDAPKVLRGFDRITLAPGQQYLWTTTLTRRDISNWDPVTQNWVVTNYTKTIYVGNSSRNLPLQAPLKPYP NLAYSPPFYPSPWANGQGDWAEAYQKAVQFVSQLTLAEKVNLTTGTGWEQDRCVGQVGSIPRLGFPGLCMQDSPLGVRDTDYNSAFPAGVNVAATWDRNLAYRRGVAMGEEHRGKGVDVQLGPVAGPLGRSPDAGRNWEGFAPDPVLTGNMMASTIQGIQDAGVIACAKHFILYEQEHFRQGAQDGYDISDSISANADDKTMHELYLWPFADAVRAGVGSVMCSYNQVNNSYACSNSYTMNKLLKSELGFQGFVMTDWGGHHSGVGSALAGLDMSMPGDIAFDSGTSFWGTNLTVAVLNGSIPEWRVDDMAVRIMSAYYKVGRDRYSVPINFDSWTLDTYGPEHYAVGQGQTKINEHVDVRGNHAEIIHEIGAASAVLLKNKGGLPLTGTERFVGVFGKDAGSNPWGVNGCSDRGCDNGTLAMGWGSGTANFPYLVTPEQAIQREVLSRNGTFTGITDNGALAEMAAAASQADTCLVFANADSGEGYITVDGNEGDRKNLTLWQGADQVIHNVSANCNNTVVVLHTVGPVLIDDWYDHPNVTAILWAGLPGQESGNSLVDVLYGRVNPGKTPFTWGRARDDYGAPLIVKPNNGKGAPQQDFTEGIFIDYRRFDKYNITPIYEFGFGLSYTTFEFSQLNVQPINAPPYTPASGFTKAAQSFGQPSNASDNLYPSDIERVPLYIYPWLNSTDLKASANDPDYGLPTEKYVPPNATNGDPQPIDPAGGAPGGNPSLYEPVARVTTIITNTGKVTGDEVPQLYVSLGGPDDAPKVLRGFDRITLAPGQQYLWTTTLTRRDISNWDPVTQNWVVTNYTKTIYVGNSSRNLPLQAPLKPYP 5jub-a1-m1-cB_5jub-a1-m1-cA Crystal structure of ComR from S.thermophilus in complex with DNA and its signalling peptide ComS. A0A1L1QK15 A0A1L1QK15 2.57 X-RAY DIFFRACTION 104 1.0 322159 (Streptococcus thermophilus LMD-9) 322159 (Streptococcus thermophilus LMD-9) 294 298 SIGLRIKTERERQQMSREVLCLDGAELTVRQLIRIEKGESLPSLDRLSYIAKRLGKSMTELLDQDNITIPDEYYEMKNRLIKFPTYRNPDRIKSKLTLIEEVYEKFFDILPEEELLTLDILENILSFTSWEESPKVEEIYEDLFEQVKRKRKFSTNDLLVIDYYFFHLYGRKQYDKKLFERIIKRVLNQEIWTDDVYNIVLFNDLMAIAALKIFHNSFSDFLTVVDKALAVIEKSQLYSYKPSVFVLKAKYELLHKENKKEAAENYDKAIVFASVLEDSVLEESIKAGKLADGL LKDSIGLRIKTERERQQMSREVLCLDGAELTVRQLIRIEKGESLPSLDRLSYIAKRLGKSMTELLDQDNITIPDEYYEMKNRLIKFPTYRNPDRIKSKLTLIEEVYEKFFDILPEEELLTLDILENILSFTSWEESPKVEEIYEDLFEQVKRKRKFSTNDLLVIDYYFFHLYGRKQYDKKLFERIIKRVLNQEIWTDDVYNIVLFNDLMAIAALKIFHNSFSDFLTVVDKALAVIEKSQLYSYKPSVFVLKAKYELLHKENKKEAAENYDKAIVFASVLEDSVLEESIKAGKLADGLG 5jui-a2-m1-cC_5jui-a2-m1-cB domain-swapped dimer of the the KRT10-binding region (BR) of PsrP A0A0H2URK1 A0A0H2URK1 2.1 X-RAY DIFFRACTION 594 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 174 175 5jui-a1-m1-cA_5jui-a1-m2-cA NIAKSETKVYTGEGVDSVYRVPIYYKLKVTNDGSKLTFTYTVTYVNPKTNDLGNISSMRPGYSIYNSGTSTQTMLTLGSDLGKPSGVKNYITDKNGRQVLSYNTSTMTTQGSGYTWGNGAQMNGFFAKKGYGLTSSWTVPITGTDTSFTFTPYAARTDRIGINYFNGGGKVVES NIAKSETKVYTGEGVDSVYRVPIYYKLKVTNDGSKLTFTYTVTYVNPKTNDLGNISSMRPGYSIYNSGTSTQTMLTLGSDLGKPSGVKNYITDKNGRQVLSYNTSTMTTQGSGYTWGNGAQMNGFFAKKGYGLTSSWTVPITGTDTSFTFTPYAARTDRIGINYFNGGGKVVESS 5jv3-a2-m1-cC_5jv3-a2-m1-cD The neck-linker and alpha 7 helix of Homo sapiens Eg5 fused to EB1 Q15691 Q15691 2.006 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 68 5jv3-a1-m1-cA_5jv3-a1-m1-cB NQKLTKKALIKEYTEEIERLKRDLAALEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILY LSNQKLTKKALIKEYTEEIERLKRDLAALEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYAT 5jv4-a3-m1-cC_5jv4-a3-m1-cF Structure of F420 binding protein, MSMEG_6526, from Mycobacterium smegmatis with F420 bound A0R6F1 A0R6F1 1.7 X-RAY DIFFRACTION 82 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 138 138 4zky-a1-m1-cA_4zky-a1-m1-cB 5jv4-a1-m1-cD_5jv4-a1-m1-cA 5jv4-a2-m1-cE_5jv4-a2-m1-cB DAVTAFADAPAAVLSTLNADGAPHLVPVVFAVHVPHVEGQPARIYTAVDAKRKTTRNLRRLANIDRDSRVSLLVDHYSDDWTQLWWVRADGVATTHHSGDEVATGYALLRAKYHQYERVSLDGPVISVEVSRWASWQA DAVTAFADAPAAVLSTLNADGAPHLVPVVFAVHVPHVEGQPARIYTAVDAKRKTTRNLRRLANIDRDSRVSLLVDHYSDDWTQLWWVRADGVATTHHSGDEVATGYALLRAKYHQYERVSLDGPVISVEVSRWASWQA 5jva-a1-m1-cB_5jva-a1-m1-cA 1.95 angstrom crystal structure of TAGRFP-T 1.95 X-RAY DIFFRACTION 86 1.0 32630 (synthetic construct) 32630 (synthetic construct) 224 225 3bx9-a3-m1-cB_3bx9-a3-m2-cA 3bxa-a3-m1-cA_3bxa-a3-m1-cB 3m22-a5-m1-cA_3m22-a5-m1-cB 3m22-a6-m1-cC_3m22-a6-m1-cD 3pib-a1-m1-cA_3pib-a1-m1-cD 3pib-a1-m1-cC_3pib-a1-m1-cB 3pib-a2-m1-cA_3pib-a2-m1-cD 3pib-a3-m1-cC_3pib-a3-m1-cB 3pj5-a2-m1-cA_3pj5-a2-m2-cB 3pj5-a2-m1-cB_3pj5-a2-m2-cA 3pj7-a1-m1-cB_3pj7-a1-m1-cC 3pj7-a1-m1-cD_3pj7-a1-m1-cA 3pjb-a1-m1-cA_3pjb-a1-m1-cB 3svs-a10-m1-cC_3svs-a10-m1-cD 3svs-a11-m1-cE_3svs-a11-m1-cF 3svs-a12-m1-cG_3svs-a12-m2-cH 3svs-a9-m1-cA_3svs-a9-m1-cB 3svu-a5-m1-cA_3svu-a5-m1-cB 4edo-a3-m1-cA_4edo-a3-m1-cB 4edo-a3-m2-cA_4edo-a3-m2-cB 4eds-a3-m1-cA_4eds-a3-m1-cB 4eds-a3-m2-cA_4eds-a3-m2-cB 4kge-a1-m1-cB_4kge-a1-m1-cA 4kge-a2-m1-cB_4kge-a2-m1-cA 4kge-a2-m2-cB_4kge-a2-m2-cA 4kgf-a1-m1-cB_4kgf-a1-m1-cA 5jva-a1-m1-cD_5jva-a1-m1-cC EELIKENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSRTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEANTEMLYPADGGLEGRTDMALKLVGGGHLICNFKTTYRSKKPAKNLKMPGVYYVDHRLERIKEADKETYVEQHEVAVARYCDLPSKL GEELIKENMHMKLYMEGTVNNHHFKCTSEGEGKPYEGTQTMRIKVVEGGPLPFAFDILATSFSRTFINHTQGIPDFFKQSFPEGFTWERVTTYEDGGVLTATQDTSLQDGCLIYNVKIRGVNFPSNGPVMQKKTLGWEANTEMLYPADGGLEGRTDMALKLVGGGHLICNFKTTYRSKKPAKNLKMPGVYYVDHRLERIKEADKETYVEQHEVAVARYCDLPSKL 5jvl-a2-m1-cB_5jvl-a2-m1-cC C4-type pyruvate phospate dikinase: nucleotide binding domain with bound ATP analogue P22221 P22221 2.9 X-RAY DIFFRACTION 152 1.0 4227 (Flaveria trinervia) 4227 (Flaveria trinervia) 520 859 FTRNPSTGEKKLYLVENCEILERHYKDMMDIRTGKRTGKGAVRIAVDMVNEGLIDTRTAIKRVETQHLDQLLHPQFEDPSAYKSHVVATGLPASPGAAVGQVCFSAEDAETWHAQGKSAILMTSHAAVVARGWGKCCVEGDWLSLNGTTGEVILGKQLLAPPAMSNDLEIFMSWADQARRLKVMANADTPNDALTARNNGAQGIGLCRTEHMFFASDERIKAVRKMIMAVTPEQRKVALDLLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLPEGDLEHIVNELAVDTGMSADEIYSKIENLSEVNPMLGFRGCRLGISYPELTEMQVRAIFQAAVSMTNQGVTVIPEIMVPLVGTPQELRHQISVIRGVAANVFAEMGVTLEYKVGTMIEIPRAALIAEEIGKEADFFSFGTNDLTQMTFGYSRDDVGKFLQIYLAQGILQHDPFEVIDQKGVGQLIKMATEKGRAANPSLKVGICGEHGGEPSSVAFFDGVGLDYVSCSPFRVPIARLAAAQVIV KKRVFTFGKGRSEGNRDMKSLLGGKGANLAEMSSIGLSVPPGLTISTEACEEYQQNGKSLPPGLWDEISEGLDYVQKEMSASLGDPSKPLLLSVRSGAAISMPGMMDTVLNLGLNDEVVAGLAGKSGARFAYDSYRRFLDMFGNVVMGIPHSLFDEKLEQMKAEKGIHLDTDLTAADLKDLVEKYKNVYVEAKGEKFPTDPKKQLELAVNAVFDSWDLKGTAVNIQSMVFGNMGNTSGTGVLFTRNPSTGEKKLYGEFLINAQGEDVVAGIRTPEDLGTMETCMPEAYKELVENCEILERHYKDMMDIEFTVQENRLWMLQCRTGKRTGKGAVRIAVDMVNEGLIDTRTAIKRVETQHLDQLLHPQFEDPSAYKSHVVATGLPASPGAAVGQVCFSAEDAETWHAQGKSAILVRTETSPEDVGGMHAAAGILTARGGMTSHAAVVARGWGKCCVSGCADIRVNDDMKIFTIGDRVIKEGDWLSLNGTTGEVILGKQLLAPPAMSNDLEIFMSWADQARRLKVMANADTPNDALTARNNGAQGIGLCRTEHMFFASDERIKAVRKMIMAVTPEQRKVALDLLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLPEGDLEHIVNELAVDTGMSADEIYSKIENLSEVNPMLGFRGCRLGISYPELTEMQVRAIFQAAVSMTNQGVTVIPEIMVPLVGTPQELRHQISVIRGVAANVFAEMGVTLEYKVGTMIEIPRAALIAEEIGKEADFFSFGTNDLTQMTFGYSRDDVGKFLQIYLAQGILQHDPFEVIDQKGVGQLIKMATEKGRAANPSLKVGICGEHGGEPSSVAFFDGVGLDYVSCSPFRVPIARLAAAQVIV 5jvm-a1-m1-cB_5jvm-a1-m1-cA The neck-linker and alpha 7 helix of Mus musculus KIF3C Q15691 Q15691 1.567 X-RAY DIFFRACTION 117 1.0 10090 (Mus musculus) 10090 (Mus musculus) 79 82 LSNEDPKDTLLREFQEEIARLKAQLEKKGMLVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFV LSNEDPKDTLLREFQEEIARLKAQLEKKGMLVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFVIPD 5jvp-a2-m1-cB_5jvp-a2-m3-cB The neck-linker and alpha 7 helix of Homo sapiens CENP-E Q15691 Q15691 2.1 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 5jvp-a1-m1-cA_5jvp-a1-m2-cA 5jvp-a3-m1-cD_5jvp-a3-m1-cC 5jvp-a4-m1-cF_5jvp-a4-m1-cE LSNEVSTDEALLKRYRKEIDLKKQLEEVSLETRAQAEKDQLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFVIPD LSNEVSTDEALLKRYRKEIDLKKQLEEVSLETRAQAEKDQLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFVIPD 5jvu-a1-m1-cB_5jvu-a1-m1-cA The neck-linker and alpha 7 helix of Drosophila melanogaster kinesin-1 fused to EB1 Q15691 Q15691 1.948 X-RAY DIFFRACTION 101 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 69 76 5jvr-a2-m1-cC_5jvr-a2-m1-cD 5jvr-a3-m1-cE_5jvr-a3-m1-cF 5jvs-a1-m1-cA_5jvs-a1-m2-cA NEELTAEEWKRRYEKEKEKNARLKGKVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYAT EELTAEEWKRRYEKEKEKNARLKGKVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFVIPD 5jw6-a1-m1-cA_5jw6-a1-m2-cB Cystal structure of aspartate semialdehyde dehydrogenase from Aspergillus fumigatus Q4WWR8 Q4WWR8 2.39 X-RAY DIFFRACTION 49 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 358 358 5jw6-a1-m1-cB_5jw6-a1-m2-cA YPKKKCGVLGATGSVGQRFILLLADHPFLELHAIGASNRSAGKKYKDAVRWKQTTAMSERLSNLVLRDCRADQFSDCDLVFSGLNSDVAGEIEMEFIKAEIPVFSNAKNYRKHPLVPLVVPTVNPQHLDLIPHQRKEFGLKKGFLVCNSNCAVIGVVIPFAALQAKFGPVEEVEVFTEQAVSGAGGVPSMDIMDNVIPYISGEEDKLENEAQKILGSLNADATAFDEQKGLTVGATCTRVGVTDGHMAFVSLRFKNRPGPSAEEVKQAMREYQSEAQKLGCPSAPREAIKVFDEPDRPQPRLDRDISKGYTVSVGRVREAAPGSYFDLRFAALSHNTVIGAAGSSILNAEVAVIKGYI YPKKKCGVLGATGSVGQRFILLLADHPFLELHAIGASNRSAGKKYKDAVRWKQTTAMSERLSNLVLRDCRADQFSDCDLVFSGLNSDVAGEIEMEFIKAEIPVFSNAKNYRKHPLVPLVVPTVNPQHLDLIPHQRKEFGLKKGFLVCNSNCAVIGVVIPFAALQAKFGPVEEVEVFTEQAVSGAGGVPSMDIMDNVIPYISGEEDKLENEAQKILGSLNADATAFDEQKGLTVGATCTRVGVTDGHMAFVSLRFKNRPGPSAEEVKQAMREYQSEAQKLGCPSAPREAIKVFDEPDRPQPRLDRDISKGYTVSVGRVREAAPGSYFDLRFAALSHNTVIGAAGSSILNAEVAVIKGYI 5jw6-a1-m1-cB_5jw6-a1-m2-cB Cystal structure of aspartate semialdehyde dehydrogenase from Aspergillus fumigatus Q4WWR8 Q4WWR8 2.39 X-RAY DIFFRACTION 15 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 358 358 5jw6-a1-m1-cA_5jw6-a1-m2-cA YPKKKCGVLGATGSVGQRFILLLADHPFLELHAIGASNRSAGKKYKDAVRWKQTTAMSERLSNLVLRDCRADQFSDCDLVFSGLNSDVAGEIEMEFIKAEIPVFSNAKNYRKHPLVPLVVPTVNPQHLDLIPHQRKEFGLKKGFLVCNSNCAVIGVVIPFAALQAKFGPVEEVEVFTEQAVSGAGGVPSMDIMDNVIPYISGEEDKLENEAQKILGSLNADATAFDEQKGLTVGATCTRVGVTDGHMAFVSLRFKNRPGPSAEEVKQAMREYQSEAQKLGCPSAPREAIKVFDEPDRPQPRLDRDISKGYTVSVGRVREAAPGSYFDLRFAALSHNTVIGAAGSSILNAEVAVIKGYI YPKKKCGVLGATGSVGQRFILLLADHPFLELHAIGASNRSAGKKYKDAVRWKQTTAMSERLSNLVLRDCRADQFSDCDLVFSGLNSDVAGEIEMEFIKAEIPVFSNAKNYRKHPLVPLVVPTVNPQHLDLIPHQRKEFGLKKGFLVCNSNCAVIGVVIPFAALQAKFGPVEEVEVFTEQAVSGAGGVPSMDIMDNVIPYISGEEDKLENEAQKILGSLNADATAFDEQKGLTVGATCTRVGVTDGHMAFVSLRFKNRPGPSAEEVKQAMREYQSEAQKLGCPSAPREAIKVFDEPDRPQPRLDRDISKGYTVSVGRVREAAPGSYFDLRFAALSHNTVIGAAGSSILNAEVAVIKGYI 5jw6-a1-m2-cA_5jw6-a1-m2-cB Cystal structure of aspartate semialdehyde dehydrogenase from Aspergillus fumigatus Q4WWR8 Q4WWR8 2.39 X-RAY DIFFRACTION 117 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 358 358 5jw6-a1-m1-cA_5jw6-a1-m1-cB YPKKKCGVLGATGSVGQRFILLLADHPFLELHAIGASNRSAGKKYKDAVRWKQTTAMSERLSNLVLRDCRADQFSDCDLVFSGLNSDVAGEIEMEFIKAEIPVFSNAKNYRKHPLVPLVVPTVNPQHLDLIPHQRKEFGLKKGFLVCNSNCAVIGVVIPFAALQAKFGPVEEVEVFTEQAVSGAGGVPSMDIMDNVIPYISGEEDKLENEAQKILGSLNADATAFDEQKGLTVGATCTRVGVTDGHMAFVSLRFKNRPGPSAEEVKQAMREYQSEAQKLGCPSAPREAIKVFDEPDRPQPRLDRDISKGYTVSVGRVREAAPGSYFDLRFAALSHNTVIGAAGSSILNAEVAVIKGYI YPKKKCGVLGATGSVGQRFILLLADHPFLELHAIGASNRSAGKKYKDAVRWKQTTAMSERLSNLVLRDCRADQFSDCDLVFSGLNSDVAGEIEMEFIKAEIPVFSNAKNYRKHPLVPLVVPTVNPQHLDLIPHQRKEFGLKKGFLVCNSNCAVIGVVIPFAALQAKFGPVEEVEVFTEQAVSGAGGVPSMDIMDNVIPYISGEEDKLENEAQKILGSLNADATAFDEQKGLTVGATCTRVGVTDGHMAFVSLRFKNRPGPSAEEVKQAMREYQSEAQKLGCPSAPREAIKVFDEPDRPQPRLDRDISKGYTVSVGRVREAAPGSYFDLRFAALSHNTVIGAAGSSILNAEVAVIKGYI 5jwc-a1-m1-cA_5jwc-a1-m1-cH Structure of NDH2 from plasmodium falciparum in complex with RYL-552 Q8I302 Q8I302 2.051 X-RAY DIFFRACTION 92 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 495 495 5jwa-a1-m1-cA_5jwa-a1-m1-cH 5jwb-a1-m1-cH_5jwb-a1-m1-cA RKEKIIILGSGWGGFNFLLNIDFKKYDVTLISPRNYFTFTPLLPCLCSGTLSVNVCTESIRNFLRKKNGYCGNYLQLECTDVFYEDKYINCIDIENNKVKLFYDYLIIAVGAKTNTFNINGVDKYAYFVKDIDDALKIRKKFLDILEKCTLPNISNEEKKKMLHVAVVGGGPTGVEVTAEFADFINKEVKINYKDIFNFISISIIEGGNNLLPTFTQNISDFTKENFHNLNINVLTNYYVIDVDKHSFHIQSSLNKNEKKKLSYGLLIWASGLAQTTLIQKFLKTIPVQANNAILKVDEKLRVIGIPSNNIYAIGDCKKIQPKLLHEHTNEIIKILTGNKLTSEALKLKQSELTKTFPQLSISKWDYEKNKKGEMTPQQFHDYLFEIDKNYKSPTPTAQNAKQEAYYLSNVFNNFIHTNQKFNIPSFIEKWKGSLAYIGNHQVVADLPYYELKGGRFSSTFWKVVYIQLLLSWKSRFHFFIDFIKTKWYGRPFIK RKEKIIILGSGWGGFNFLLNIDFKKYDVTLISPRNYFTFTPLLPCLCSGTLSVNVCTESIRNFLRKKNGYCGNYLQLECTDVFYEDKYINCIDIENNKVKLFYDYLIIAVGAKTNTFNINGVDKYAYFVKDIDDALKIRKKFLDILEKCTLPNISNEEKKKMLHVAVVGGGPTGVEVTAEFADFINKEVKINYKDIFNFISISIIEGGNNLLPTFTQNISDFTKENFHNLNINVLTNYYVIDVDKHSFHIQSSLNKNEKKKLSYGLLIWASGLAQTTLIQKFLKTIPVQANNAILKVDEKLRVIGIPSNNIYAIGDCKKIQPKLLHEHTNEIIKILTGNKLTSEALKLKQSELTKTFPQLSISKWDYEKNKKGEMTPQQFHDYLFEIDKNYKSPTPTAQNAKQEAYYLSNVFNNFIHTNQKFNIPSFIEKWKGSLAYIGNHQVVADLPYYELKGGRFSSTFWKVVYIQLLLSWKSRFHFFIDFIKTKWYGRPFIK 5jwi-a1-m1-cB_5jwi-a1-m1-cA Crystal structure of Porphyromonas endodontalis DPP11 in complex with dipeptide Arg-Glu F8WQK8 F8WQK8 2.1 X-RAY DIFFRACTION 48 1.0 28124 (Porphyromonas endodontalis) 28124 (Porphyromonas endodontalis) 677 697 5jwg-a1-m1-cB_5jwg-a1-m1-cA 5jxk-a1-m1-cB_5jxk-a1-m1-cA 5jxp-a1-m1-cA_5jxp-a1-m2-cA DGGMWLMQQINGQVARMKSLGMQLEAADIYNPNGSSLKDAVVMFDGGCTGVLVSNQGLLLTNHHCGYDQIQKHSSVQHNYLKDGFWSYSLAEELVNPGLEVEIVDEITDVTAAVKKELERIKKPSGLEFLSPRYLSSLAPEIVGKKAASRPGYRYEIKAFYGGNRYYMFTKKVFRDVRLVAAPPSSIGKFGSDTDNWAWPRHTGDFSIFRLYADKNGNPAEYSKDNVPYRPKRWVKVNAQGVKEGDFALIMGYPGTTYKFFTADEVTEWSEIDNNIRIEMRGILQDVMLREMLADPNIMYAAKYASSQNGYKRAQGANWAIRRRSLREIKLAQQQEVLAWAKQKGIATTEEAVRAISKAIEGRQDLRMRQRYLLEGILMGIEMSNAPAADSDLQSIRKQFEAFFNKDYSPEVEKDQLAIALLTRYAERIPAEKQPIEGIAEYGSAKAYVEMIFDKSIYASRERFEEFMKNPDRDRLLRDPMSRFAASVAYEHQKLAKEVAAFDAPLAAAQRSYVASVLDMKGQPNLAPDANLTLRFTYGEIKGYQPRDVVTYGAKSTLEGVMEKEDPNNWEYVVDPKLKALYEAKNYGRYANSDGSMPVNFCATTHTTGGNAGSPVMNARGELIGLNFDRNWEGVGGDIEYLPNYQRSIILDIRYLLFIIDKFAGCQRLIDEIQPQF MDGGMWLMQQINGQVARMKSLGMQLEAADIYNPNGSSLKDAVVMFDGGCTGVLVSNQGLLLTNHHCGYDQIQKHSSVQHNYLKDGFWSYSLAEELVNPGLEVEIVDEITDVTAAVKKELERIKKPSGLEFLSPRYLSSLAPEIVGKKAASRPGYRYEIKAFYGGNRYYMFTKKVFRDVRLVAAPPSSIGKFGSDTDNWAWPRHTGDFSIFRLYADKNGNPAEYSKDNVPYRPKRWVKVNAQGVKEGDFALIMGYPGTTYKFFTADEVTEWSEIDNNIRIEMRGILQDVMLREMLADPKINIMYAAKYASSQNGYKRAQGANWAIRRRSLREIKLAQQQEVLAWAKQKGIATTEEAVRAISKAIEGRQDLRMRQRYLLEGILMGIEMSNAPAADSDIADHWDDPARREAGLQSIRKQFEAFFNKDYSPEVEKDQLAIALLTRYAERIPAEKQPISIREGIAEYGSAKAYVEMIFDKSIYASRERFEEFMKNPDRDRLLRDPMSRFAASVAYEHQKLAKEVAAFDAPLAAAQRSYVASVLDMKGQPNLAPDANLTLRFTYGEIKGYQPRDVVTYGAKSTLEGVMEKEDPNNWEYVVDPKLKALYEAKNYGRYANSDGSMPVNFCATTHTTGGNAGSPVMNARGELIGLNFDRNWEGVGGDIEYLPNYQRSIILDIRYLLFIIDKFAGCQRLIDEIQPQF 5jwq-a1-m3-cB_5jwq-a1-m3-cD Crystal structure of KaiC S431E in complex with foldswitch-stabilized KaiB from Thermosynechococcus elongatus Q79V61 Q79V61 3.871 X-RAY DIFFRACTION 15 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 88 89 5jwq-a1-m1-cB_5jwq-a1-m1-cD 5jwq-a1-m1-cB_5jwq-a1-m2-cD 5jwq-a1-m2-cB_5jwq-a1-m2-cD 5jwq-a1-m2-cB_5jwq-a1-m3-cD 5jwq-a1-m3-cB_5jwq-a1-m1-cD 5n8y-a1-m1-cG_5n8y-a1-m1-cH 5n8y-a1-m1-cG_5n8y-a1-m1-cL 5n8y-a1-m1-cH_5n8y-a1-m1-cI 5n8y-a1-m1-cI_5n8y-a1-m1-cJ 5n8y-a1-m1-cK_5n8y-a1-m1-cL TAVLKLYVAGNTPNSVRALKTLNNILEKEFKGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPPPVRRIIGDLSNREKVLAGLDLLA KTAVLKLYVAGNTPNSVRALKTLNNILEKEFKGVYALKVIDVLKNPQLAEEDKILATPTLAKVLPPPVRRIIGDLSNREKVLAGLDLLA 5jwr-a2-m1-cG_5jwr-a2-m1-cH Crystal structure of foldswitch-stabilized KaiB in complex with the N-terminal CI domain of KaiC and a dimer of KaiA C-terminal domains from Thermosynechococcus elongatus Q79V62 Q79V62 2.61 X-RAY DIFFRACTION 94 0.985 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 133 133 1v2z-a1-m1-cA_1v2z-a1-m2-cA 5jwr-a1-m1-cE_5jwr-a1-m1-cF VDPQHRLSQKLKERLGYLGVYYKRDTAFFFRRMSPADKRKLLDELRSIYRTIVLEYFNTDAKVNERIDEFVSKAFFADISVSQVLEIHVELMDTFSKQLKLEGRSEDILLDYRLTLIDVIAHLSEMYRRSIPR NVDPQHRLSQKLKERLGYLGVYYKRDTAFFFRRMSPADKRKLLDELRSIYRTIVLEYFNTKVNERIDEFVSKAFFADISVSQVLEIHVELMDTFSKQLKLEGRSEDILLDYRLTLIDVIAHLSEMYRRSIPRE 5jx1-a1-m1-cA_5jx1-a1-m2-cA The neck-linker and alpha 7 helix of Mus musculus KIF3A fused to EB1 Q15691 Q15691 1.67 X-RAY DIFFRACTION 97 1.0 10090 (Mus musculus) 10090 (Mus musculus) 64 64 DPKDALLRQFQKEIEELKKKLEELEKERDFYFGKLRNIELICQDPVLQRIVDILYATDEGFVIP DPKDALLRQFQKEIEELKKKLEELEKERDFYFGKLRNIELICQDPVLQRIVDILYATDEGFVIP 5jx4-a1-m1-cA_5jx4-a1-m1-cB Crystal structure of E36-G37del mutant of the Bacillus caldolyticus cold shock protein. P41016 P41016 1.8 X-RAY DIFFRACTION 13 1.0 1394 ([Bacillus] caldolyticus) 1394 ([Bacillus] caldolyticus) 65 66 HMQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGFKTLEEGQEVSFEIVQGNRGPQAANVVKL GHMQRGKVKWFNNEKGYGFIEVEGGSDVFVHFTAIQGFKTLEEGQEVSFEIVQGNRGPQAANVVKL 5jxb-a1-m1-cA_5jxb-a1-m1-cC PSD-95 extended PDZ3 in complex with SynGAP PBM J3QQ18 J3QQ18 2.9 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 117 119 FREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEAKIHDLREQLMNSFPPWVQQTRV EFREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEAKIHDLREQLMNGSFPPWVQQTRV 5jxc-a1-m1-cC_5jxc-a1-m1-cA SynGAP Coiled-coil trimer F6SEU4 F6SEU4 2.5 X-RAY DIFFRACTION 63 1.0 10090 (Mus musculus) 10090 (Mus musculus) 78 86 5jxc-a2-m1-cD_5jxc-a2-m1-cE 5jxc-a2-m1-cD_5jxc-a2-m1-cF EYEEEIHSLKERLHMSNRKLEEYERRLLSQEEQTSKILMQYQARLEQSEKRLRQQQVEKDSQIKSIIGRLMLVEEELR SRLDREYEEEIHSLKERLHMSNRKLEEYERRLLSQEEQTSKILMQYQARLEQSEKRLRQQQVEKDSQIKSIIGRLMLVEEELRRDH 5jxc-a2-m1-cF_5jxc-a2-m1-cE SynGAP Coiled-coil trimer F6SEU4 F6SEU4 2.5 X-RAY DIFFRACTION 61 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 84 5jxc-a1-m1-cB_5jxc-a1-m1-cA 5jxc-a1-m1-cB_5jxc-a1-m1-cC REYEEEIHSLKERLHMSNRKLEEYERRLLSQEEQTSKILMQYQARLEQSEKRLRQQQVEKDSQIKSIIGRLMLVEEELRR SRLDREYEEEIHSLKERLHMSNRKLEEYERRLLSQEEQTSKILMQYQARLEQSEKRLRQQQVEKDSQIKSIIGRLMLVEEELRR 5jxf-a4-m1-cC_5jxf-a4-m5-cB Crystal structure of Flavobacterium psychrophilum DPP11 in complex with dipeptide Arg-Asp A6GWM2 A6GWM2 2.1 X-RAY DIFFRACTION 53 0.999 96345 (Flavobacterium psychrophilum) 96345 (Flavobacterium psychrophilum) 682 692 5jxf-a1-m2-cD_5jxf-a1-m1-cA 5jxf-a2-m1-cD_5jxf-a2-m3-cA 5jxf-a3-m4-cC_5jxf-a3-m1-cB QQGGMWIPSLLSGMNETEMKNLGMKISADDIYSVNHSSLKDAVPHFNGGCTSEVISPKGLILTNHHCGFDAIQNHSSVDHDYLTNGFWAMKMEDELPNENLVVTFIVSINDVTAQILDGVASTEKQNKIQENITKVTASFAKEAWQENKVRTFFEGNQYILFVTEVFKDVRLVGAPPSLIGKFGSDTDNWVWPRHTGDFSMFRVYANKNNHPAAYSKDNVPYIPKHFLPVSLDGVQEDDFTMVMGYPGKTQEYLPSFAVAQIVNETNPAKIEIREAALKVQDGFMRKDNAIKIQYASKYAGVANYWKKWIGESQGLKKSNAIGLKQNFEKDFQQKVIAAGKQNEYGNLLADFQKYYTEITPYAVSRDYFNEVVVKNTELLSLGYKLYQLEQVFQAFNDRKENLIKSQADFFKDFNSTVDEKVFEQLVALYATKAPKEFLPLLNVEYKKFAPSIYSKSKLVDYANFKALLSGKAVLKKISLDKGYAFVKSLADNYSKNIAPRYDEINLKINALQRIYMKAQLELYPNSRIFPDANSTLRVTYGKVKGYSPKDAIYYNPTTYLDGAIEKYIPGDYEFDVPKKLIDLYNNKDYGQYGENGKLPVCFIGTNHTTGGNSGSPAVDAQGNLIGLNFDRVWEGTMSDIHYDPSICRNVMVDMRYVLFIVDKFAGAKHLINEMKLVHPKK QQGGMWIPSLLSGMNETEMKNLGMKISADDIYSVNHSSLKDAVPHFNGGCTSEVISPKGLILTNHHCGFDAIQNHSSVDHDYLTNGFWAMKMEDELPNENLVVTFIVSINDVTAQILDGVASITSETEKQNKIQENITKVTASFAKEAWQENKVRTFFEGNQYILFVTEVFKDVRLVGAPPSLIGKFGSDTDNWVWPRHTGDFSMFRVYANKNNHPAAYSKDNVPYIPKHFLPVSLDGVQEDDFTMVMGYPGKTQEYLPSFAVAQIVNETNPAKIEIREAALKVQDGFMRKDNAIKIQYASKYAGVANYWKKWIGESQGLKKSNAIGLKQNFEKDFQQKVIAAGKQNEYGNLLADFQKYYTEITPYAVSRDYFNEVVVKNTELLSLGYKLYQLEQVFITKGEQAFNDRKENLIKSQADFFKDFNSTVDEKVFEQLVALYATKAPKEFLPLNVEYKKFAPSIYSKSKLVDYANFKALLSGDAKAVLKKISLDKGYAFVKSLADNYSKNIAPRYDEINLKINALQRIYMKAQLELYPNSRIFPDANSTLRVTYGKVKGYSPKDAIYYNPTTYLDGAIEKYIPGDYEFDVPKKLIDLYNNKDYGQYGENGKLPVCFIGTNHTTGGNSGSPAVDAQGNLIGLNFDRVWEGTMSDIHYDPSICRNVMVDMRYVLFIVDKFAGAKHLINEMKLVHPKK 5jxl-a1-m1-cA_5jxl-a1-m11-cA Cryo-EM structure of the flagellar hook of Campylobacter jejuni A0A1L1QK18 A0A1L1QK18 3.5 ELECTRON MICROSCOPY 33 1.0 407148 (Campylobacter jejuni subsp. jejuni 81116) 407148 (Campylobacter jejuni subsp. jejuni 81116) 851 851 MRSLWSGVSGLQAHQVAMDVEGNNISNVNTTGFKYSRADFGTMFSQTVKIATAPTDGRGGSNPLQIGLGVSVSSTTRIHSQGSVQTTDKNTDVAINGDGFFMVSDDGGLTNYLTRSGDFKLDAYGNFVNNAGFVVQGWNINWDDQTIDSSRTPQNIFIDPGMHIPAAKSTEVAIKANLNSGLNIGTSSRNLYALDSVHGWNTKTQRAEDENDTGTTQFYTTSKNSVEVTEKGVDAGALFNANGTGLNLRDGQGIWVSYADAKFTTDRANGANVFDPNLTVAQQNNVIFWGNKDIAVTLDINLNGVRIQNDNIRSLDEAIAYINTFTAPTDTRDGTGVKAVKKADGSGIEFVNNNADGTTDNMKNIDLTVNVGNSAGERNTINYNANTGVFSPQGGNLTTAQNDTDWIAGAAQAGQPQNVKVVTAHKYIYSSNPVTIPPMINPDGGPAFQPNNGNRPTDPASANYWDAIQGSLKNTTERTFRTTEDLRELLQRDARYGVDYNGSGIIDNATPTFDANDINQAVKVVVTENGNFAISNANETSTIPANAGAGAGAATTNPKNMSFNITAYSNKQGTVSTNDAFTKIFKAFDGPLVIGNQIKESEQLKLSAFSAGLEIYDSLGSKHTLEVQFVKQSTTQDGGNEWQMIIRVPEPAEINTTGEGPTNIIVGTARFNNDGSLANYTPKTINFSPNNGAAPNQQIKLSFGTSGSNDGLVSSNSASTLTGQATDGYTSGNLKPDAIRVDDKGNILGEFTNGKTFAVAKIAMASVANNSGLEEIGGNLFKVTANSGNIVVGEAGTGGRGEMKTSALEMSNVDLSRSLTELIIIQRGYQANSKTISTSDQMLQTLIQLKQ MRSLWSGVSGLQAHQVAMDVEGNNISNVNTTGFKYSRADFGTMFSQTVKIATAPTDGRGGSNPLQIGLGVSVSSTTRIHSQGSVQTTDKNTDVAINGDGFFMVSDDGGLTNYLTRSGDFKLDAYGNFVNNAGFVVQGWNINWDDQTIDSSRTPQNIFIDPGMHIPAAKSTEVAIKANLNSGLNIGTSSRNLYALDSVHGWNTKTQRAEDENDTGTTQFYTTSKNSVEVTEKGVDAGALFNANGTGLNLRDGQGIWVSYADAKFTTDRANGANVFDPNLTVAQQNNVIFWGNKDIAVTLDINLNGVRIQNDNIRSLDEAIAYINTFTAPTDTRDGTGVKAVKKADGSGIEFVNNNADGTTDNMKNIDLTVNVGNSAGERNTINYNANTGVFSPQGGNLTTAQNDTDWIAGAAQAGQPQNVKVVTAHKYIYSSNPVTIPPMINPDGGPAFQPNNGNRPTDPASANYWDAIQGSLKNTTERTFRTTEDLRELLQRDARYGVDYNGSGIIDNATPTFDANDINQAVKVVVTENGNFAISNANETSTIPANAGAGAGAATTNPKNMSFNITAYSNKQGTVSTNDAFTKIFKAFDGPLVIGNQIKESEQLKLSAFSAGLEIYDSLGSKHTLEVQFVKQSTTQDGGNEWQMIIRVPEPAEINTTGEGPTNIIVGTARFNNDGSLANYTPKTINFSPNNGAAPNQQIKLSFGTSGSNDGLVSSNSASTLTGQATDGYTSGNLKPDAIRVDDKGNILGEFTNGKTFAVAKIAMASVANNSGLEEIGGNLFKVTANSGNIVVGEAGTGGRGEMKTSALEMSNVDLSRSLTELIIIQRGYQANSKTISTSDQMLQTLIQLKQ 5jxl-a1-m3-cA_5jxl-a1-m9-cA Cryo-EM structure of the flagellar hook of Campylobacter jejuni A0A1L1QK18 A0A1L1QK18 3.5 ELECTRON MICROSCOPY 73 1.0 407148 (Campylobacter jejuni subsp. jejuni 81116) 407148 (Campylobacter jejuni subsp. jejuni 81116) 851 851 5jxl-a1-m10-cA_5jxl-a1-m4-cA 5jxl-a1-m11-cA_5jxl-a1-m5-cA 5jxl-a1-m1-cA_5jxl-a1-m7-cA 5jxl-a1-m2-cA_5jxl-a1-m8-cA MRSLWSGVSGLQAHQVAMDVEGNNISNVNTTGFKYSRADFGTMFSQTVKIATAPTDGRGGSNPLQIGLGVSVSSTTRIHSQGSVQTTDKNTDVAINGDGFFMVSDDGGLTNYLTRSGDFKLDAYGNFVNNAGFVVQGWNINWDDQTIDSSRTPQNIFIDPGMHIPAAKSTEVAIKANLNSGLNIGTSSRNLYALDSVHGWNTKTQRAEDENDTGTTQFYTTSKNSVEVTEKGVDAGALFNANGTGLNLRDGQGIWVSYADAKFTTDRANGANVFDPNLTVAQQNNVIFWGNKDIAVTLDINLNGVRIQNDNIRSLDEAIAYINTFTAPTDTRDGTGVKAVKKADGSGIEFVNNNADGTTDNMKNIDLTVNVGNSAGERNTINYNANTGVFSPQGGNLTTAQNDTDWIAGAAQAGQPQNVKVVTAHKYIYSSNPVTIPPMINPDGGPAFQPNNGNRPTDPASANYWDAIQGSLKNTTERTFRTTEDLRELLQRDARYGVDYNGSGIIDNATPTFDANDINQAVKVVVTENGNFAISNANETSTIPANAGAGAGAATTNPKNMSFNITAYSNKQGTVSTNDAFTKIFKAFDGPLVIGNQIKESEQLKLSAFSAGLEIYDSLGSKHTLEVQFVKQSTTQDGGNEWQMIIRVPEPAEINTTGEGPTNIIVGTARFNNDGSLANYTPKTINFSPNNGAAPNQQIKLSFGTSGSNDGLVSSNSASTLTGQATDGYTSGNLKPDAIRVDDKGNILGEFTNGKTFAVAKIAMASVANNSGLEEIGGNLFKVTANSGNIVVGEAGTGGRGEMKTSALEMSNVDLSRSLTELIIIQRGYQANSKTISTSDQMLQTLIQLKQ MRSLWSGVSGLQAHQVAMDVEGNNISNVNTTGFKYSRADFGTMFSQTVKIATAPTDGRGGSNPLQIGLGVSVSSTTRIHSQGSVQTTDKNTDVAINGDGFFMVSDDGGLTNYLTRSGDFKLDAYGNFVNNAGFVVQGWNINWDDQTIDSSRTPQNIFIDPGMHIPAAKSTEVAIKANLNSGLNIGTSSRNLYALDSVHGWNTKTQRAEDENDTGTTQFYTTSKNSVEVTEKGVDAGALFNANGTGLNLRDGQGIWVSYADAKFTTDRANGANVFDPNLTVAQQNNVIFWGNKDIAVTLDINLNGVRIQNDNIRSLDEAIAYINTFTAPTDTRDGTGVKAVKKADGSGIEFVNNNADGTTDNMKNIDLTVNVGNSAGERNTINYNANTGVFSPQGGNLTTAQNDTDWIAGAAQAGQPQNVKVVTAHKYIYSSNPVTIPPMINPDGGPAFQPNNGNRPTDPASANYWDAIQGSLKNTTERTFRTTEDLRELLQRDARYGVDYNGSGIIDNATPTFDANDINQAVKVVVTENGNFAISNANETSTIPANAGAGAGAATTNPKNMSFNITAYSNKQGTVSTNDAFTKIFKAFDGPLVIGNQIKESEQLKLSAFSAGLEIYDSLGSKHTLEVQFVKQSTTQDGGNEWQMIIRVPEPAEINTTGEGPTNIIVGTARFNNDGSLANYTPKTINFSPNNGAAPNQQIKLSFGTSGSNDGLVSSNSASTLTGQATDGYTSGNLKPDAIRVDDKGNILGEFTNGKTFAVAKIAMASVANNSGLEEIGGNLFKVTANSGNIVVGEAGTGGRGEMKTSALEMSNVDLSRSLTELIIIQRGYQANSKTISTSDQMLQTLIQLKQ 5jxl-a1-m4-cA_5jxl-a1-m9-cA Cryo-EM structure of the flagellar hook of Campylobacter jejuni A0A1L1QK18 A0A1L1QK18 3.5 ELECTRON MICROSCOPY 175 1.0 407148 (Campylobacter jejuni subsp. jejuni 81116) 407148 (Campylobacter jejuni subsp. jejuni 81116) 851 851 5jxl-a1-m10-cA_5jxl-a1-m5-cA 5jxl-a1-m2-cA_5jxl-a1-m7-cA 5jxl-a1-m3-cA_5jxl-a1-m8-cA MRSLWSGVSGLQAHQVAMDVEGNNISNVNTTGFKYSRADFGTMFSQTVKIATAPTDGRGGSNPLQIGLGVSVSSTTRIHSQGSVQTTDKNTDVAINGDGFFMVSDDGGLTNYLTRSGDFKLDAYGNFVNNAGFVVQGWNINWDDQTIDSSRTPQNIFIDPGMHIPAAKSTEVAIKANLNSGLNIGTSSRNLYALDSVHGWNTKTQRAEDENDTGTTQFYTTSKNSVEVTEKGVDAGALFNANGTGLNLRDGQGIWVSYADAKFTTDRANGANVFDPNLTVAQQNNVIFWGNKDIAVTLDINLNGVRIQNDNIRSLDEAIAYINTFTAPTDTRDGTGVKAVKKADGSGIEFVNNNADGTTDNMKNIDLTVNVGNSAGERNTINYNANTGVFSPQGGNLTTAQNDTDWIAGAAQAGQPQNVKVVTAHKYIYSSNPVTIPPMINPDGGPAFQPNNGNRPTDPASANYWDAIQGSLKNTTERTFRTTEDLRELLQRDARYGVDYNGSGIIDNATPTFDANDINQAVKVVVTENGNFAISNANETSTIPANAGAGAGAATTNPKNMSFNITAYSNKQGTVSTNDAFTKIFKAFDGPLVIGNQIKESEQLKLSAFSAGLEIYDSLGSKHTLEVQFVKQSTTQDGGNEWQMIIRVPEPAEINTTGEGPTNIIVGTARFNNDGSLANYTPKTINFSPNNGAAPNQQIKLSFGTSGSNDGLVSSNSASTLTGQATDGYTSGNLKPDAIRVDDKGNILGEFTNGKTFAVAKIAMASVANNSGLEEIGGNLFKVTANSGNIVVGEAGTGGRGEMKTSALEMSNVDLSRSLTELIIIQRGYQANSKTISTSDQMLQTLIQLKQ MRSLWSGVSGLQAHQVAMDVEGNNISNVNTTGFKYSRADFGTMFSQTVKIATAPTDGRGGSNPLQIGLGVSVSSTTRIHSQGSVQTTDKNTDVAINGDGFFMVSDDGGLTNYLTRSGDFKLDAYGNFVNNAGFVVQGWNINWDDQTIDSSRTPQNIFIDPGMHIPAAKSTEVAIKANLNSGLNIGTSSRNLYALDSVHGWNTKTQRAEDENDTGTTQFYTTSKNSVEVTEKGVDAGALFNANGTGLNLRDGQGIWVSYADAKFTTDRANGANVFDPNLTVAQQNNVIFWGNKDIAVTLDINLNGVRIQNDNIRSLDEAIAYINTFTAPTDTRDGTGVKAVKKADGSGIEFVNNNADGTTDNMKNIDLTVNVGNSAGERNTINYNANTGVFSPQGGNLTTAQNDTDWIAGAAQAGQPQNVKVVTAHKYIYSSNPVTIPPMINPDGGPAFQPNNGNRPTDPASANYWDAIQGSLKNTTERTFRTTEDLRELLQRDARYGVDYNGSGIIDNATPTFDANDINQAVKVVVTENGNFAISNANETSTIPANAGAGAGAATTNPKNMSFNITAYSNKQGTVSTNDAFTKIFKAFDGPLVIGNQIKESEQLKLSAFSAGLEIYDSLGSKHTLEVQFVKQSTTQDGGNEWQMIIRVPEPAEINTTGEGPTNIIVGTARFNNDGSLANYTPKTINFSPNNGAAPNQQIKLSFGTSGSNDGLVSSNSASTLTGQATDGYTSGNLKPDAIRVDDKGNILGEFTNGKTFAVAKIAMASVANNSGLEEIGGNLFKVTANSGNIVVGEAGTGGRGEMKTSALEMSNVDLSRSLTELIIIQRGYQANSKTISTSDQMLQTLIQLKQ 5jxu-a1-m1-cA_5jxu-a1-m1-cB Structural basis for the catalytic activity of Thermomonospora curvata heme-containing DyP-type peroxidase. D1A807 D1A807 1.751 X-RAY DIFFRACTION 160 1.0 2020 (Thermomonospora curvata) 2020 (Thermomonospora curvata) 360 360 7rmu-a1-m1-cA_7rmu-a1-m2-cA TTGTATEPFHGPHQAGIATPPQAHAVFLGLDLRKGTGRKELGRLMRLLTDDARRLTQGRPALADPEPDLAPLPSRLTFTFGFGPGLFKAAGLEKQRPEGLRPLPPFKVDRLEDRWSGGDLLVQICCDDPITLAHALRMTVKDARAFTRVRWVQRGFRRSPGVQSSGATQRNLMGQLDGTVNPVPGTADFDQAVWVQDGPEWLRGGTTLVLRRIRMELEKWDEADPAGKEFAVGRRLTSGAPLTGRHEHDEPDFDAVDSAGFPVIAENAHIRLAHVDSPRLRMLRRPYNYDEGLTADGRSDAGLLFAAYQADIDRQFIPVQRRLDEGGDLLNLWTTPIGSAVFAIPPGCDENGWIGQGLLG TTGTATEPFHGPHQAGIATPPQAHAVFLGLDLRKGTGRKELGRLMRLLTDDARRLTQGRPALADPEPDLAPLPSRLTFTFGFGPGLFKAAGLEKQRPEGLRPLPPFKVDRLEDRWSGGDLLVQICCDDPITLAHALRMTVKDARAFTRVRWVQRGFRRSPGVQSSGATQRNLMGQLDGTVNPVPGTADFDQAVWVQDGPEWLRGGTTLVLRRIRMELEKWDEADPAGKEFAVGRRLTSGAPLTGRHEHDEPDFDAVDSAGFPVIAENAHIRLAHVDSPRLRMLRRPYNYDEGLTADGRSDAGLLFAAYQADIDRQFIPVQRRLDEGGDLLNLWTTPIGSAVFAIPPGCDENGWIGQGLLG 5jxx-a1-m1-cA_5jxx-a1-m1-cC Crystal structure of UDP-N-acetylglucosamine O-acyltransferase (LpxA) from Moraxella catarrhalis RH4. D5VAW8 D5VAW8 3.001 X-RAY DIFFRACTION 64 1.0 1236608 (Moraxella catarrhalis BBH18) 1236608 (Moraxella catarrhalis BBH18) 257 257 5jxx-a1-m1-cE_5jxx-a1-m1-cA 5jxx-a1-m1-cE_5jxx-a1-m1-cC 5jxx-a2-m1-cB_5jxx-a2-m1-cD 5jxx-a2-m1-cB_5jxx-a2-m1-cF 5jxx-a2-m1-cF_5jxx-a2-m1-cD MTIHPTAIIDKSAMIADSAIIGPYCIVGKNSQIGAHTVLRSHVIIGENTKIGVHNDIYQFASIGENPQDLKYAGEQTYLEIGDHNRIREACTIHRGTVQDRGITRIGNQNLLMVNVHIAHDCVVGDDNVLANNVGVAGHAHIGNHVIIGGQSGVHQFCRIDDYSMVGGASLIVKDVAAYVMASGNPAKAHGLNKEGMRRKGWSKDTIKALDEAYRLVFRSGLLRDEALDELTKLVEKEPKIQLLIDSINNSKRGLVR MTIHPTAIIDKSAMIADSAIIGPYCIVGKNSQIGAHTVLRSHVIIGENTKIGVHNDIYQFASIGENPQDLKYAGEQTYLEIGDHNRIREACTIHRGTVQDRGITRIGNQNLLMVNVHIAHDCVVGDDNVLANNVGVAGHAHIGNHVIIGGQSGVHQFCRIDDYSMVGGASLIVKDVAAYVMASGNPAKAHGLNKEGMRRKGWSKDTIKALDEAYRLVFRSGLLRDEALDELTKLVEKEPKIQLLIDSINNSKRGLVR 5jy1-a1-m1-cA_5jy1-a1-m1-cD Crystal Structure of putative short-chain dehydrogenase/reductase from Burkholderia xenovorans LB400 bound to NAD Q13HF0 Q13HF0 1.65 X-RAY DIFFRACTION 45 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 266 266 5jy1-a1-m1-cB_5jy1-a1-m1-cC MGLLEQRVALVTGAGGGIGRGVARSFGNEGAAVIIAEINESTGRQVEQEIREMGGRSLFVKTDVTSKASIEAAVRSAVEQFGSLDILVNNAFVPTPNVLLEEKTDEMLEQTLTTSLWATWWAMRAAFVPMRERRWGRIVNFYSIDTETGAWLHGDYNTAKAGIVGLTRSAASEWGRFNITVNAIAPTAMGATFFELAAKNPEFAERSAAARPLGRSGDPEQDIGPAAVFFASEMSRFVTGETLHVDGGLHLPGYNSRPAGIKPREY MGLLEQRVALVTGAGGGIGRGVARSFGNEGAAVIIAEINESTGRQVEQEIREMGGRSLFVKTDVTSKASIEAAVRSAVEQFGSLDILVNNAFVPTPNVLLEEKTDEMLEQTLTTSLWATWWAMRAAFVPMRERRWGRIVNFYSIDTETGAWLHGDYNTAKAGIVGLTRSAASEWGRFNITVNAIAPTAMGATFFELAAKNPEFAERSAAARPLGRSGDPEQDIGPAAVFFASEMSRFVTGETLHVDGGLHLPGYNSRPAGIKPREY 5jy1-a1-m1-cB_5jy1-a1-m1-cD Crystal Structure of putative short-chain dehydrogenase/reductase from Burkholderia xenovorans LB400 bound to NAD Q13HF0 Q13HF0 1.65 X-RAY DIFFRACTION 134 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 266 266 5jy1-a1-m1-cA_5jy1-a1-m1-cC MGLLEQRVALVTGAGGGIGRGVARSFGNEGAAVIIAEINESTGRQVEQEIREMGGRSLFVKTDVTSKASIEAAVRSAVEQFGSLDILVNNAFVPTPNVLLEEKTDEMLEQTLTTSLWATWWAMRAAFVPMRERRWGRIVNFYSIDTETGAWLHGDYNTAKAGIVGLTRSAASEWGRFNITVNAIAPTAMGATFFELAAKNPEFAERSAAARPLGRSGDPEQDIGPAAVFFASEMSRFVTGETLHVDGGLHLPGYNSRPAGIKPREY MGLLEQRVALVTGAGGGIGRGVARSFGNEGAAVIIAEINESTGRQVEQEIREMGGRSLFVKTDVTSKASIEAAVRSAVEQFGSLDILVNNAFVPTPNVLLEEKTDEMLEQTLTTSLWATWWAMRAAFVPMRERRWGRIVNFYSIDTETGAWLHGDYNTAKAGIVGLTRSAASEWGRFNITVNAIAPTAMGATFFELAAKNPEFAERSAAARPLGRSGDPEQDIGPAAVFFASEMSRFVTGETLHVDGGLHLPGYNSRPAGIKPREY 5jy1-a1-m1-cC_5jy1-a1-m1-cD Crystal Structure of putative short-chain dehydrogenase/reductase from Burkholderia xenovorans LB400 bound to NAD Q13HF0 Q13HF0 1.65 X-RAY DIFFRACTION 111 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 266 266 5jy1-a1-m1-cA_5jy1-a1-m1-cB MGLLEQRVALVTGAGGGIGRGVARSFGNEGAAVIIAEINESTGRQVEQEIREMGGRSLFVKTDVTSKASIEAAVRSAVEQFGSLDILVNNAFVPTPNVLLEEKTDEMLEQTLTTSLWATWWAMRAAFVPMRERRWGRIVNFYSIDTETGAWLHGDYNTAKAGIVGLTRSAASEWGRFNITVNAIAPTAMGATFFELAAKNPEFAERSAAARPLGRSGDPEQDIGPAAVFFASEMSRFVTGETLHVDGGLHLPGYNSRPAGIKPREY MGLLEQRVALVTGAGGGIGRGVARSFGNEGAAVIIAEINESTGRQVEQEIREMGGRSLFVKTDVTSKASIEAAVRSAVEQFGSLDILVNNAFVPTPNVLLEEKTDEMLEQTLTTSLWATWWAMRAAFVPMRERRWGRIVNFYSIDTETGAWLHGDYNTAKAGIVGLTRSAASEWGRFNITVNAIAPTAMGATFFELAAKNPEFAERSAAARPLGRSGDPEQDIGPAAVFFASEMSRFVTGETLHVDGGLHLPGYNSRPAGIKPREY 5jy5-a3-m1-cA_5jy5-a3-m2-cA Crystal structure of Thioredoxin 1 from Cryptococcus neoformans at 1.8 Angstroms resolution J9VKF2 J9VKF2 1.8 X-RAY DIFFRACTION 13 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 105 105 VKAIESYDEWKTLTSGSDVVVVDYWATWCGPCKMISPHFAKLEGKFPNVKFAKVDVEEQEDIAKEAQIKAMPTFVAYKDGKVIETVTGAVPAKINALLDKVAAHH VKAIESYDEWKTLTSGSDVVVVDYWATWCGPCKMISPHFAKLEGKFPNVKFAKVDVEEQEDIAKEAQIKAMPTFVAYKDGKVIETVTGAVPAKINALLDKVAAHH 5jy5-a3-m1-cA_5jy5-a3-m2-cB Crystal structure of Thioredoxin 1 from Cryptococcus neoformans at 1.8 Angstroms resolution J9VKF2 J9VKF2 1.8 X-RAY DIFFRACTION 24 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 105 105 5jy5-a3-m1-cB_5jy5-a3-m2-cA VKAIESYDEWKTLTSGSDVVVVDYWATWCGPCKMISPHFAKLEGKFPNVKFAKVDVEEQEDIAKEAQIKAMPTFVAYKDGKVIETVTGAVPAKINALLDKVAAHH VKAIESYDEWKTLTSGSDVVVVDYWATWCGPCKMISPHFAKLEGKFPNVKFAKVDVEEQEDIAKEAQIKAMPTFVAYKDGKVIETVTGAVPAKINALLDKVAAHH 5jy5-a3-m2-cA_5jy5-a3-m2-cB Crystal structure of Thioredoxin 1 from Cryptococcus neoformans at 1.8 Angstroms resolution J9VKF2 J9VKF2 1.8 X-RAY DIFFRACTION 42 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 105 105 5jy5-a3-m1-cA_5jy5-a3-m1-cB VKAIESYDEWKTLTSGSDVVVVDYWATWCGPCKMISPHFAKLEGKFPNVKFAKVDVEEQEDIAKEAQIKAMPTFVAYKDGKVIETVTGAVPAKINALLDKVAAHH VKAIESYDEWKTLTSGSDVVVVDYWATWCGPCKMISPHFAKLEGKFPNVKFAKVDVEEQEDIAKEAQIKAMPTFVAYKDGKVIETVTGAVPAKINALLDKVAAHH 5jy7-a1-m1-cA_5jy7-a1-m1-cB Complex of Mycobacterium smegmatis trehalose synthase with maltokinase A0R6E0 A0R6E0 3.6 X-RAY DIFFRACTION 62 0.993 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 565 571 3zo9-a1-m1-cA_3zo9-a1-m1-cB 3zo9-a1-m2-cA_3zo9-a1-m2-cB 3zoa-a1-m1-cA_3zoa-a1-m1-cB 5jy7-a1-m1-cC_5jy7-a1-m1-cD 5jy7-a2-m1-cE_5jy7-a2-m1-cF 5jy7-a2-m1-cH_5jy7-a2-m1-cG GIVEHPNAEDFGHARTLPTDTNWFKHAVFYEVLVRAFYDSNADGIGDLRGLTEKLDYIKWLGVDCLWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVTLLDAAHRRGIRIITDLVMNHTSDQHEWFQESRHNPDGPYGDFYVWSDTSDRYPDARIIFVDTEESNWTFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMLDVLRFWLDLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRCRKAIDDEYPGRVLLAEANQWPADVVAYFGDPDTGGDECHMAFHFPLMPRIFMAVRRESRFPISEILAQTPPIPDTAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLENDRNQIELFTALLLSLPGSPVLYYGDEIGMGDIIWLGDRDSVRTPMQWTPDRNAGFSKATPGRLYLPPNQDAVYGYHSVNVEAQLDSSSSLLNWTRNMLAVRSRHDAFAVGTFRELGGSNPSVLAYIREVTTDAVLCVNNLSRFPQPIELNLQQWAGYIPVEMTGYVEFPSIGQLPYLLTLPGHGFYWFQLREPD HPNAEDFGHARTLPTDTNWFKHAVFYEVLVRAFYDSNADGIGDLRGLTEKLDYIKWLGVDCLWLPPFYDSPLRDGGYDIRDFYKVLPEFGTVDDFVTLLDAAHRRGIRIITDLVMNHTSDQHEWFQESRHNPDGPYGDFYVWSDTSDRYPDARIIFVDTEESNWTFDPVRRQFYWHRFFSHQPDLNYDNPAVQEAMLDVLRFWLDLGIDGFRLDAVPYLFEREGTNCENLPETHAFLKRCRKAIDDEYPGRVLLAEANQWPADVVAYFGDPDTGGDECHMAFHFPLMPRIFMAVRRESRFPISEILAQTPPIPDTAQWGIFLRNHDELTLEMVTDEERDYMYAEYAKDPRMKANVGIRRRLAPLLENDRNQIELFTALLLSLPGSPVLYYGDEIGMGDIIWLGDRDSVRTPMQWTPDRNAGFSKATPGRLYLPPNQDAVYGYHSVNVEAQLDSSSSLLNWTRNMLAVRSRHDAFAVGTFRELGGSNPSVLAYIREVTRQQGDGGAKTDAVLCVNNLSRFPQPIELNLQQWAGYIPVEMTGYVEFPSIGQLPYLLTLPGHGFYWFQLREPDP 5jy7-a1-m1-cI_5jy7-a1-m1-cJ Complex of Mycobacterium smegmatis trehalose synthase with maltokinase A0R6D9 A0R6D9 3.6 X-RAY DIFFRACTION 27 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 435 435 SVEFEDWLTQQRWYAGRNRELVSATTAMAVRLRDGLELVLLQANYADGPDERYQVIVATGSGPIDEYSVVATIGIADGQTAYDALYDPDATRYLLSLIDESATVQNVRFVREPDVELPLDAPPRVFGAEQSNTSVVFGEDAIFKLFRRITPGVHPDIELNRVLARAGNPHVARLLGSFETEWEGEPYALGMVTEFAANSAEGWDMATTSTRDLFAEGDLYAEEVGGDFAGEAYRLGEAVASVHACLAHELGTEEVPFPADVMAQRLAAAVDAVPELREHVPQIEERYHKLADTTMTVQRVHGDLHLGQVLRTPKGWLLIDFEGEPLDERRRPDTPVRDVAGILRSFEYAAHQRLVDQAGDDDDRARQLAARAREWVTRNCASFCDGYAAEAGTDPRDSADLLAAYELDKAVYEAAYEARHRPSWLPIPLGSIARL SVEFEDWLTQQRWYAGRNRELVSATTAMAVRLRDGLELVLLQANYADGPDERYQVIVATGSGPIDEYSVVATIGIADGQTAYDALYDPDATRYLLSLIDESATVQNVRFVREPDVELPLDAPPRVFGAEQSNTSVVFGEDAIFKLFRRITPGVHPDIELNRVLARAGNPHVARLLGSFETEWEGEPYALGMVTEFAANSAEGWDMATTSTRDLFAEGDLYAEEVGGDFAGEAYRLGEAVASVHACLAHELGTEEVPFPADVMAQRLAAAVDAVPELREHVPQIEERYHKLADTTMTVQRVHGDLHLGQVLRTPKGWLLIDFEGEPLDERRRPDTPVRDVAGILRSFEYAAHQRLVDQAGDDDDRARQLAARAREWVTRNCASFCDGYAAEAGTDPRDSADLLAAYELDKAVYEAAYEARHRPSWLPIPLGSIARL 5jyb-a1-m1-cA_5jyb-a1-m1-cB Crystal structure of 3 mutant of Ba3275 (S116A, E243A, H313A), the member of S66 family of serine peptidases Q734X3 Q734X3 1.647 X-RAY DIFFRACTION 64 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 344 344 5f1y-a1-m1-cA_5f1y-a1-m1-cB 5f5x-a1-m1-cA_5f5x-a1-m1-cB 5f9m-a1-m1-cA_5f9m-a1-m1-cC 5f9m-a2-m1-cB_5f9m-a2-m1-cD AMLIKPKRLQPGDIVATVSPSWGGAGDSEIRWRYEQGVKRLEEVFGLTVVPMPNSLKGSEFIYNNPQARAEDLMTAFQDTRVKAIIANIGGQDSIRLLPYIDFNAIRENPKIFMGYADVTISHLFCHKAGLSSFYGPAILTDFAENVEMDPYTVEMVNRTLFSNEMIGEIQPAPEWTSERLEWIEINKDTRRTMQQNNGYELLQGSTTVQGRLIGGCIEVLEFAKGTELWPEKKHWEDSILFFATSEDHPEPSYIKYWLRNYAAQGILQKAKGIIFGKPKDEMYYEEYKHEILQVMKEHNLEDLPILYNLNFGATEPKFILPYGSMAEIDCENGSFSILESGVE AMLIKPKRLQPGDIVATVSPSWGGAGDSEIRWRYEQGVKRLEEVFGLTVVPMPNSLKGSEFIYNNPQARAEDLMTAFQDTRVKAIIANIGGQDSIRLLPYIDFNAIRENPKIFMGYADVTISHLFCHKAGLSSFYGPAILTDFAENVEMDPYTVEMVNRTLFSNEMIGEIQPAPEWTSERLEWIEINKDTRRTMQQNNGYELLQGSTTVQGRLIGGCIEVLEFAKGTELWPEKKHWEDSILFFATSEDHPEPSYIKYWLRNYAAQGILQKAKGIIFGKPKDEMYYEEYKHEILQVMKEHNLEDLPILYNLNFGATEPKFILPYGSMAEIDCENGSFSILESGVE 5jyf-a1-m1-cB_5jyf-a1-m1-cC Structures of Streptococcus agalactiae GBS GAPDH in different enzymatic states Q9ALW2 Q9ALW2 2.62 X-RAY DIFFRACTION 32 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 294 334 VGINGFGRIGRLAFRRIQNVEGVEVRINDLTDPNMLAHLLKYDTTQGRFDGTVEVGGFEVNGQFVKVSAEREPEATGFFASKEKAEQDVKTVVFNTNHDIGTETVISGASCTTNCLAPMAKALQDNFGVKQGLMTTIHAYTGDQMILDGPHRGGDLRRARAGAANIVPNSTGAAKAIGLVIPELNGKLDGAAQRVPVPTGSVTELVATLEKDVTVEEVNAAMKAAANDSYGYTEDPIVSSDIVGISYGSLFDATQTKVQTVDGNQLVKVVSWYDNEMSYTSQLVRTLEYFAKIA VVKVGINGFGRIGRLAFRRIQNVEGVEVTRINDLTDPNMLAHLLKYDTTQGRFDGTVEVKEGGFEVNGQFVKVSAEREPANIDWATDGVEIVLEATGFFASKEKAEQHIHENGAKKVVITAPGGNDVKTVVFNTNHDILDGTETVISGASCTTNCLAPMAKALQDNFGVKQGLMTTIHAYTGDQMILDGPHRGGDLRRARAGAANIVPNSTGAAKAIGLVIPELNGKLDGAAQRVPVPTGSVTELVATLEKDVTVEEVNAAMKAAANDSYGYTEDPIVSSDIVGISYGSLFDATQTKVQTVDGNQLVKVVSWYDNEMSYTSQLVRTLEYFAKIA 5jyf-a1-m1-cB_5jyf-a1-m1-cD Structures of Streptococcus agalactiae GBS GAPDH in different enzymatic states Q9ALW2 Q9ALW2 2.62 X-RAY DIFFRACTION 106 0.99 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 294 320 VGINGFGRIGRLAFRRIQNVEGVEVRINDLTDPNMLAHLLKYDTTQGRFDGTVEVGGFEVNGQFVKVSAEREPEATGFFASKEKAEQDVKTVVFNTNHDIGTETVISGASCTTNCLAPMAKALQDNFGVKQGLMTTIHAYTGDQMILDGPHRGGDLRRARAGAANIVPNSTGAAKAIGLVIPELNGKLDGAAQRVPVPTGSVTELVATLEKDVTVEEVNAAMKAAANDSYGYTEDPIVSSDIVGISYGSLFDATQTKVQTVDGNQLVKVVSWYDNEMSYTSQLVRTLEYFAKIA VKVGINGFGRIGRLAFRRIQNVEGVEVTRINDLTDPNMLAHLLKYDTTQGRFDGTVEVKEGGFEVNGQFVKVSAEREPANIDWATDGVEIVLEATGFFASKEKAEQHIKKVVITAPVKTVVFNTNHDITETVISGASCTTNCLAPMAKALQDNFGVKQGLMTTIHAYTGDQMILDGPHRGGDLRRARAGAANIVPNSTGAAKAIGLVIPELNGKLDGAAQRVPVPTGSVTELVATLEKDVTVEEVNAAMKAAANDSYGYTEDPIVSSDIVGISYGSLFDATQTKVQTVDGNQLVKVVSWYDNEMSYTSQLVRTLEYFAKI 5jyk-a1-m1-cB_5jyk-a1-m4-cA Deg9 crystal under 289K Q9FL12 Q9FL12 2.297 X-RAY DIFFRACTION 47 0.998 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 412 465 5jyk-a1-m2-cB_5jyk-a1-m3-cA MDAVVKVFCVHTEPNFSLPWQRKRQYSSGSSGFIIGGRRVLTNAHSVEHHTQVKLKKRGSDTKYLATVLAIGTECDIALLTVTDDEFWEGVGYPIGGDTISVTGVVSRMESTELLGLQGNSGGPVGIAFQYVIPTPVIVHFIQDYEKHDKYTGFPVLGIEWQKMENPDLRKSMGMESHQKGVRIRRIEPTAPESQVLKPSDIILSFDGVNIANDGTVPFRHGERIGFSYLISQKYTGDSALVKVLRNKEILEFNIKLAIHKRLIPAHISGKPPSYFIVAGFVFTTVSVPYLRSEYGKEYEFDAPVKLLEKHLHAMAQSVDEQLVVVSQVLVSDINIGYEEIVNTQVVAFNGKPVKNLKGLAGMVENCEDEYMKFNLDYDQIVVLDTKTAKEATLDILTTHCIPSAMSDDLKT PSMDAVVKVFCVHTEPNFSLPWQRKRQYSSGSSGFIIGGRRVLTNAHSVEHHTQVKLKKRGSDTKYLATVLAIGTECDIALLTVTDDEFWEGVSPVEFGDLPALQDAVTVVGYPIGGDTISVTSGVVSRMEILSYVHGSTELLGLQIDAAINSGNSGGPAFNDKGKCVGIAFQSLKHEDAENIGYVIPTPVIVHFIQDYEKHDKYTGFPVLGIEWQKMENPDLRKSMGMESHQKGVRIRRIEPTAPESQVLKPSDIILSFDGVNIANDGTVPFRHGERIGFSYLISQKYTGDSALVKVLRNKEILEFNIKLAIHKRLIPAHISGKPPSYFIVAGFVFTTVSVPYLRSEYGKEYEFDAPVKLLEKHLHAMAQSVDEQLVVVSQVLVSDINIGYEEIVNTQVVAFNGKPVKNLKGLAGMVENCEDEYMKFNLDYDQIVVLDTKTAKEATLDILTTHCIPSAMSDDLK 5jyk-a1-m2-cB_5jyk-a1-m4-cB Deg9 crystal under 289K Q9FL12 Q9FL12 2.297 X-RAY DIFFRACTION 17 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 412 412 5jyk-a1-m1-cB_5jyk-a1-m3-cB 5jyk-a1-m1-cB_5jyk-a1-m4-cB 5jyk-a1-m2-cB_5jyk-a1-m3-cB MDAVVKVFCVHTEPNFSLPWQRKRQYSSGSSGFIIGGRRVLTNAHSVEHHTQVKLKKRGSDTKYLATVLAIGTECDIALLTVTDDEFWEGVGYPIGGDTISVTGVVSRMESTELLGLQGNSGGPVGIAFQYVIPTPVIVHFIQDYEKHDKYTGFPVLGIEWQKMENPDLRKSMGMESHQKGVRIRRIEPTAPESQVLKPSDIILSFDGVNIANDGTVPFRHGERIGFSYLISQKYTGDSALVKVLRNKEILEFNIKLAIHKRLIPAHISGKPPSYFIVAGFVFTTVSVPYLRSEYGKEYEFDAPVKLLEKHLHAMAQSVDEQLVVVSQVLVSDINIGYEEIVNTQVVAFNGKPVKNLKGLAGMVENCEDEYMKFNLDYDQIVVLDTKTAKEATLDILTTHCIPSAMSDDLKT MDAVVKVFCVHTEPNFSLPWQRKRQYSSGSSGFIIGGRRVLTNAHSVEHHTQVKLKKRGSDTKYLATVLAIGTECDIALLTVTDDEFWEGVGYPIGGDTISVTGVVSRMESTELLGLQGNSGGPVGIAFQYVIPTPVIVHFIQDYEKHDKYTGFPVLGIEWQKMENPDLRKSMGMESHQKGVRIRRIEPTAPESQVLKPSDIILSFDGVNIANDGTVPFRHGERIGFSYLISQKYTGDSALVKVLRNKEILEFNIKLAIHKRLIPAHISGKPPSYFIVAGFVFTTVSVPYLRSEYGKEYEFDAPVKLLEKHLHAMAQSVDEQLVVVSQVLVSDINIGYEEIVNTQVVAFNGKPVKNLKGLAGMVENCEDEYMKFNLDYDQIVVLDTKTAKEATLDILTTHCIPSAMSDDLKT 5jyq-a2-m7-cB_5jyq-a2-m8-cB Structure of Conus Geographus insulin G1 A0A0B5A8Q2 A0A0B5A8Q2 1.95 X-RAY DIFFRACTION 10 1.0 6491 (Conus geographus) 6491 (Conus geographus) 21 21 5jyq-a2-m1-cB_5jyq-a2-m2-cB 5jyq-a2-m3-cB_5jyq-a2-m4-cB 5jyq-a2-m5-cB_5jyq-a2-m6-cB TFDTKHRCGSITNSYMDLCYR TFDTKHRCGSITNSYMDLCYR 5jzh-a2-m1-cM_5jzh-a2-m1-cN Cryo-EM structure of aerolysin prepore P09167 P09167 3.9 ELECTRON MICROSCOPY 123 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 424 424 5jzh-a1-m1-cA_5jzh-a1-m1-cB 5jzh-a1-m1-cA_5jzh-a1-m1-cG 5jzh-a1-m1-cB_5jzh-a1-m1-cC 5jzh-a1-m1-cC_5jzh-a1-m1-cD 5jzh-a1-m1-cD_5jzh-a1-m1-cE 5jzh-a1-m1-cE_5jzh-a1-m1-cF 5jzh-a1-m1-cF_5jzh-a1-m1-cG 5jzh-a2-m1-cH_5jzh-a2-m1-cI 5jzh-a2-m1-cH_5jzh-a2-m1-cN 5jzh-a2-m1-cI_5jzh-a2-m1-cJ 5jzh-a2-m1-cJ_5jzh-a2-m1-cK 5jzh-a2-m1-cK_5jzh-a2-m1-cL 5jzh-a2-m1-cL_5jzh-a2-m1-cM AEPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRGDTATNWSKTNTYGLSEKVTTKNKFKWPLVGETELSIEIAANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLAA AEPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRGDTATNWSKTNTYGLSEKVTTKNKFKWPLVGETELSIEIAANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLAA 5jzt-a1-m1-cE_5jzt-a1-m1-cG Cryo-EM structure of aerolysin pore in LMNG micelle P09167 P09167 7.4 ELECTRON MICROSCOPY 11 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 423 423 5jzt-a1-m1-cA_5jzt-a1-m1-cF 5jzt-a1-m1-cC_5jzt-a1-m1-cE 5jzt-a1-m1-cD_5jzt-a1-m1-cF EPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRYDTATNWSKTNTYGLSEKVTTKNKFKWPLVGETELSIEIAANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLAA EPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRYDTATNWSKTNTYGLSEKVTTKNKFKWPLVGETELSIEIAANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLAA 5jzw-a1-m1-cM_5jzw-a1-m1-cN Cryo-EM structures of aerolysin post-prepore and quasipore P09167 P09167 4.46 ELECTRON MICROSCOPY 207 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 401 401 5jzt-a1-m1-cA_5jzt-a1-m1-cB 5jzt-a1-m1-cA_5jzt-a1-m1-cG 5jzt-a1-m1-cB_5jzt-a1-m1-cC 5jzt-a1-m1-cC_5jzt-a1-m1-cD 5jzt-a1-m1-cD_5jzt-a1-m1-cE 5jzt-a1-m1-cE_5jzt-a1-m1-cF 5jzt-a1-m1-cF_5jzt-a1-m1-cG 5jzw-a1-m1-cH_5jzw-a1-m1-cI 5jzw-a1-m1-cH_5jzw-a1-m1-cN 5jzw-a1-m1-cI_5jzw-a1-m1-cJ 5jzw-a1-m1-cJ_5jzw-a1-m1-cK 5jzw-a1-m1-cK_5jzw-a1-m1-cL 5jzw-a1-m1-cL_5jzw-a1-m1-cM AEPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRYDTATNWSKTNTYGLSEANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLAA AEPVYPDQLRLFSLGQGVCGDKYRPVNREEAQSVKSNIVGMMGQWQISGLANGWVIMGPGYNGEIKPGTASNTWCYPTNPVTGEIPTLSALDIPDGDEVDVQWRLVHDSANFIKPTSYLAHYLGYAWVGGNHSQYVGEDMDVTRDGDGWVIRGNNDGGCDGYRCGDKTAIKVSNFAYNLDPDSFKHGDVTQSDRQLVKTVVGWAVNDSDTPQSGYDVTLRYDTATNWSKTNTYGLSEANQSWASQNGGSTTTSLSQSVRPTVPARSKIPVKIELYKADISYPYEFKADVSYDLTLSGFLRWGGNAWYTHPDNRPNWNHTFVIGPYKDKASSIRYQWDKRYIPGEVKWWDWNWTIQQNGLSTMQNNLARVLRPVRAGITGDFSAESQFAGNIEIGAPVPLAA 5jzx-a1-m1-cC_5jzx-a1-m1-cA Crystal Structure of UDP-N-acetylenolpyruvoylglucosamine reductase (MurB) from Mycobacterium tuberculosis P9WJL9 P9WJL9 2.2 X-RAY DIFFRACTION 52 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 355 364 FAGAHIAEAVPLAPLTTLRVGPIARRVITCTSAEQVVAALRHLDSAAKTGADRPLVFAGGSNLVIAENLTDLTVVRLANSGITIDGNLVRAEAGAVFDDVVVRAIEQGLGGLECLSGIPGSAGATPVQNVGAYGAEVSDTITRVRLLDRCTGEVRWVSARDLRFGYRTSVLKAVPTVVLEVEFALDPSGRSAPLRYGELIAALNATSGERADPQAVREAVLALRARKGMVLDPTDHDTWSVGSFFTNPVVTQDVYERLAGDAATRKDGPVPHYPAPDGVKLAAGWLVERAGFGKGYPDAGAAPCRLSTKHALALTNRGGATAEDVVTLARAVRDGVHDVFGITLKPEPVLIGCML RSGVGSLFAGAHIAEAVPLAPLTTLRVGPIARRVITCTSAEQVVAALRHLDSAAKTGADRPLVFAGGSNLVIAENLTDLTVVRLANSGITIDGNLVRAEAGAVFDDVVVRAIEQGLGGLECLSGIPGSAGATPVQNVGAYGAEVSDTITRVRLLDRCTGEVRWVSARDLRFGYRTSVLKHADGLAVPTVVLEVEFALDPSGRSAPLRYGELIAALNATSGERADPQAVREAVLALRARKGMVLDPTDHDTWSVGSFFTNPVVTQDVYERLAGDAATRPVPHYPAPDGVKLAAGWLVERAGFGKGYPDAGAAPCRLSTKHALALTNRGGATAEDVVTLARAVRDGVHDVFGITLKPEPVLIGCML 5k0a-a2-m1-cC_5k0a-a2-m1-cD Structure of an oxidoreductase from Synechocystis sp. PCC6803 P74746 P74746 1.706 X-RAY DIFFRACTION 154 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 312 321 5jri-a1-m1-cB_5jri-a1-m1-cA 5k0a-a1-m1-cA_5k0a-a1-m1-cB TVYDAIVLGGGMGGLSAAIYLARYGLKCLVVEKGRGRSFWMQDLRNYVGLDPDTPGRDIITHSTQQALHWGADLLRGYVEDVTDEGDTLAVKVKVGKKDSLYPIFRTKYVIAATGIIDNLPQLEDMQNVYDYAGYTLHVMICDGFDMWDQKAVLIAGTEGQINAAFVLNWFTPYITVLTHGLCTVGDEMKAKLADHGYPLHEAAITKFLGEDHKMSGVELVDGTVMEATTGLINMGSVYHNHYLKGIEGLEWDGENLVTNDMAQTSHPRIFALGDLKKGLNQVSVAVADGTLAATQIWRNIRRASEPRKWIH SKNLDARLDTVYDAIVLGGGMGGLSAAIYLARYGLKCLVVEKGRGRSFWMQDLRNYVGLDPDTPGRDIITHSTQQALHWGADLLRGYVEDVTDEGDTLAVKVKVGKKDSLYPIFRTKYVIAATGIIDNLPQLEDMQNVYDYAGYTLHVMICDGFDMWDQKAVLIAGTEGQINAAFVLNWFTPYITVLTHGLCTVGDEMKAKLADHGYPLHEAAITKFLGEDHKMSGVELVDGTVMEATTGLINMGSVYHNHYLKGIEGLEWDGENLVTNDMAQTSHPRIFALGDLKKGLNQVSVAVADGTLAATQIWRNIRRASEPRKWIH 5k0z-a1-m1-cA_5k0z-a1-m1-cD Cryo-EM structure of lactate dehydrogenase (LDH) in inhibitor-bound state P00337 P00337 2.8 ELECTRON MICROSCOPY 103 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 317 317 5k0z-a1-m1-cB_5k0z-a1-m1-cC ATLKEKLITPVTVPSNKITVVGVGQVGMACAISILGKGLCDELALVDVLEDKLKGEMMDLQHGSLFLQTHKIVADKDYAVTANSKIVVVTAGVLVQRNVNVFKFIIPQIVKYSPNCTILVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDTARFRYLMAERLGIHPTSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPAMGTDKDSENWKEVHKQVVESAYEVIRLKGYTNWAIGLSVAELCETMLKNLYRVHSVSTLVKGTYGIENDVFLSLPCVLSASGLTSVINQKLKDDEVAQLKKSADTLWSIQKDLKD ATLKEKLITPVTVPSNKITVVGVGQVGMACAISILGKGLCDELALVDVLEDKLKGEMMDLQHGSLFLQTHKIVADKDYAVTANSKIVVVTAGVLVQRNVNVFKFIIPQIVKYSPNCTILVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDTARFRYLMAERLGIHPTSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPAMGTDKDSENWKEVHKQVVESAYEVIRLKGYTNWAIGLSVAELCETMLKNLYRVHSVSTLVKGTYGIENDVFLSLPCVLSASGLTSVINQKLKDDEVAQLKKSADTLWSIQKDLKD 5k0z-a1-m1-cB_5k0z-a1-m1-cD Cryo-EM structure of lactate dehydrogenase (LDH) in inhibitor-bound state P00337 P00337 2.8 ELECTRON MICROSCOPY 93 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 317 317 5k0z-a1-m1-cA_5k0z-a1-m1-cC ATLKEKLITPVTVPSNKITVVGVGQVGMACAISILGKGLCDELALVDVLEDKLKGEMMDLQHGSLFLQTHKIVADKDYAVTANSKIVVVTAGVLVQRNVNVFKFIIPQIVKYSPNCTILVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDTARFRYLMAERLGIHPTSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPAMGTDKDSENWKEVHKQVVESAYEVIRLKGYTNWAIGLSVAELCETMLKNLYRVHSVSTLVKGTYGIENDVFLSLPCVLSASGLTSVINQKLKDDEVAQLKKSADTLWSIQKDLKD ATLKEKLITPVTVPSNKITVVGVGQVGMACAISILGKGLCDELALVDVLEDKLKGEMMDLQHGSLFLQTHKIVADKDYAVTANSKIVVVTAGVLVQRNVNVFKFIIPQIVKYSPNCTILVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDTARFRYLMAERLGIHPTSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPAMGTDKDSENWKEVHKQVVESAYEVIRLKGYTNWAIGLSVAELCETMLKNLYRVHSVSTLVKGTYGIENDVFLSLPCVLSASGLTSVINQKLKDDEVAQLKKSADTLWSIQKDLKD 5k0z-a1-m1-cC_5k0z-a1-m1-cD Cryo-EM structure of lactate dehydrogenase (LDH) in inhibitor-bound state P00337 P00337 2.8 ELECTRON MICROSCOPY 178 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 317 317 5k0z-a1-m1-cA_5k0z-a1-m1-cB ATLKEKLITPVTVPSNKITVVGVGQVGMACAISILGKGLCDELALVDVLEDKLKGEMMDLQHGSLFLQTHKIVADKDYAVTANSKIVVVTAGVLVQRNVNVFKFIIPQIVKYSPNCTILVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDTARFRYLMAERLGIHPTSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPAMGTDKDSENWKEVHKQVVESAYEVIRLKGYTNWAIGLSVAELCETMLKNLYRVHSVSTLVKGTYGIENDVFLSLPCVLSASGLTSVINQKLKDDEVAQLKKSADTLWSIQKDLKD ATLKEKLITPVTVPSNKITVVGVGQVGMACAISILGKGLCDELALVDVLEDKLKGEMMDLQHGSLFLQTHKIVADKDYAVTANSKIVVVTAGVLVQRNVNVFKFIIPQIVKYSPNCTILVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDTARFRYLMAERLGIHPTSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPAMGTDKDSENWKEVHKQVVESAYEVIRLKGYTNWAIGLSVAELCETMLKNLYRVHSVSTLVKGTYGIENDVFLSLPCVLSASGLTSVINQKLKDDEVAQLKKSADTLWSIQKDLKD 5k16-a3-m1-cA_5k16-a3-m1-cB Crystal structure of free Ubiquitin-specific protease 12 O75317 O75317 2.599 X-RAY DIFFRACTION 67 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 324 328 SALEKEIGPEQFPVNEHYFGLVNFGNTCYCNSVLQALYFCRPFREKVLAYKSQKKESLLTCLADLFHSIATQKKKVGVIPPKKFITRLRKENELFDNYMQQDAHEFLNYLLNTIADILQEERKQEKQNPDPTWVHEIFQGTLTNETRCLTCETISSKDEDFLDLSVDVEQNTSITHCLRGFSNTETKYYCEECRSKQEAHKRMKVKKLPMILALHLKRFKYMDQLHRYTKLSYRVVFPLELRLFNTSGDATNPDRMYDLVAVVVHCGSGPNRGHYIAIVKSHDFWLLFDDDIVEKIDAQAIEEFYGLTSKNSESGYILFYQSRD NASALEKEIGPEQFPVNEHYFGLVNFGNTCYCNSVLQALYFCRPFREKVLAYKSQPRKKESLLTCLADLFHSIATQKKKVGVIPPKKFITRLRKENELFDNYMQQDAHEFLNYLLNTIADILQEERKQEKQPTWVHEIFQGTLTNETRCLTCETISSKDEDFLDLSVDVEQNTSITHCLRGFSNTETLCSEYKYYCEECRSKQEAHKRMKVKKLPMILALHLKRFKYMDQLHRYTKLSYRVVFPLELRLFNTSGDATNPDRMYDLVAVVVHCGSGPNRGHYIAIVKSHDFWLLFDDDIVEKIDAQAIEEFYGLKNSESGYILFYQSRD 5k1r-a1-m1-cA_5k1r-a1-m1-cB Structure of Burkholderia pseudomallei K96243 sphingosine-1-phosphate lyase Bpss2021 Q63IP8 Q63IP8 2.104 X-RAY DIFFRACTION 416 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 439 440 LYPYAAEFGALHEFPERGMPRERLLEELRSMAVREDRKWESGRCSGTMYCGDHEHYAFLNEAYGLFSHVNALQRDLCPSMNRMESEIVAMTVALLHGEAVQRHDGAHRACGALSLGGTESILNATLAYREKARAERGIERPRMIWPASAHPAFRKAAHLFGFDVTVAPIDPVTMQVDADFVRDAVDANTVMLVGSACNYPYGTIDPIGALSAIAVEKDVWLHVDGCLGGWMLPWGEALGYPDIPAFDFRLPGVTSISADTHKFGYGPKGGSVLAWRDASFRRHQYFLMTDWVGGVYGSPGLTGSRSGGLIAATWAALRSLGREGYLARAKAIFETAFDMQAAVRAIPELRVLGKPTFCFAFTSDAFDIYHVNDFMRQRGWRFNGLQHPDALHMCVTGPQTQPGVAERFRQDLGEAVEHARHARARAFFTQVLDLFTDCP LYPYAAEFGALHEFPERGMPRERLLEELRSMAVREDRKWESGRCSGTMYCGDHEHYAFLNEAYGLFSHVNALQRDLCPSMNRMESEIVAMTVALLHGEAVQRHDGAHRACGALSLGGTESILNATLAYREKARAERGIERPRMIWPASAHPAFRKAAHLFGFDVTVAPIDPVTMQVDADFVRDAVDANTVMLVGSACNYPYGTIDPIGALSAIAVEKDVWLHVDGCLGGWMLPWGEALGYPDIPAFDFRLPGVTSISADTHKFGYGPKGGSVLAWRDASFRRHQYFLMTDWVGGVYGSPGLTGSRSGGLIAATWAALRSLGREGYLARAKAIFETAFDMQAAVRAIPELRVLGKPTFCFAFTSDAFDIYHVNDFMRQRGWRFNGLQHPDALHMCVTGPQTQPGVAERFRQDLGEAVEHARHDARARAFFTQVLDLFTDCP 5k1s-a2-m1-cD_5k1s-a2-m1-cC crystal structure of AibC Q1D4I2 Q1D4I2 2.55 X-RAY DIFFRACTION 114 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 333 358 5k1s-a1-m1-cB_5k1s-a1-m1-cA GHMKAVVLRSFGGNLKMETMPMPRPGRGEVLLRVHACGVCYHDVINRRGLGHEAAGEVIEVGPDTPGWKTGDRAATLQRMSCGDCALCRSGRNSLCKTDNRFFGEELPGGYAQFMVAPVGGLGRVPASLPWNEAATVCCTTGTAVHTVRTRGKVRAGETVLITGASGGVGLSSVQLARLDGARVIAVTSSEAKVQALKEAGADEVIVSRGLDFASDVRKRTQGAGVDVAVEIVGSATFDQTLKSMAPGGRVVVVGNLESGMVQLNPGLVIVKELEILGAYATTQAELDEALRLTATGGVRQFVTDAVPLAEAAKAHFRLENREVAGRLVLVPP HHHHHAENLYFQGHMKAVVLRSFGEAGNLKMETMPMPRPGRGEVLLRVHACGVCYHDVINRRGNLPRTSVPAILGHEAAGEVIEVGPDTPGWKTGDRAATLQRMSCGDCALCRSGRNSLCKTDNRFFGEELPGGYAQFMVAPVGGLGRVPASLPWNEAATVCCTTGTAVHTVRTRGKVRAGETVLITGASGGVGLSSVQLARLDGARVIAVTSSEAKVQALKEAGADEVIVSRGLDFASDVRKRTQGAGVDVAVEIVGSATFDQTLKSMAPGGRVVVVGNLESGMVQLNPGLVIVKELEILGAYATTQAELDEALRLTATGGVRQFVTDAVPLAEAAKAHFRLENREVAGRLVLVPPE 5k21-a1-m1-cC_5k21-a1-m1-cB Pyocyanin demethylase K0V2D8 K0V2D8 1.8 X-RAY DIFFRACTION 60 0.992 1214102 (Mycolicibacterium fortuitum subsp. fortuitum DSM 46621 = ATCC 6841 = JCM 6387) 1214102 (Mycolicibacterium fortuitum subsp. fortuitum DSM 46621 = ATCC 6841 = JCM 6387) 122 123 5k21-a1-m1-cA_5k21-a1-m1-cB 5k21-a1-m1-cA_5k21-a1-m1-cC VTMTLDVKNDQVAKHDFGKPGMDVGDMDIFSDILSVDGKQVGYDGGACFFTNVTPDNPMTYCELTIHLDAGEIFARSLTPHTLAPFTMAITGGTGEYANSKGELTVSGVATPDEKYELKLTK EPVTMTLDVKNDQVAKHDFGKPGMDVGDMDIFSDILSVDGKQVGYDGGACFFTNVTPDNPMTYCELTIHLDAGEIFARSLTPHTLAPFTMAITGGTGEYANSKGELTVSGVATPDEKYELKLT 5k23-a2-m3-cC_5k23-a2-m4-cC Crystal structure of the complex between human phosphatase PRL-2 in the oxidized state with the Bateman domain of human magnesium transporter CNNM3 Q8NE01 Q8NE01 2.96 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 149 5k22-a1-m1-cB_5k22-a1-m2-cB 5k22-a3-m1-cB_5k22-a3-m2-cB 5k23-a1-m1-cC_5k23-a1-m2-cC 5k23-a2-m1-cC_5k23-a2-m2-cC 5k24-a1-m1-cD_5k24-a1-m1-cC 5k25-a1-m1-cC_5k25-a1-m2-cC 5tsr-a1-m1-cD_5tsr-a1-m1-cB 6wur-a1-m1-cB_6wur-a1-m2-cB GPLNMIQGVLELRCRTVEDVLTPLEDCFMLDASTVLDFGVLASIMQSGHTRIPVYEEERSNIVDMLYLKDLAFVDPEDCTPLSTITRFYNHPLHFVFNDTKLDAVLEEFKRGKSHLAIVQKVNNEGEGDPFYEVLGLVTLEDVIEEIIR GPLNMIQGVLELRCRTVEDVLTPLEDCFMLDASTVLDFGVLASIMQSGHTRIPVYEEERSNIVDMLYLKDLAFVDPEDCTPLSTITRFYNHPLHFVFNDTKLDAVLEEFKRGKSHLAIVQKVNNEGEGDPFYEVLGLVTLEDVIEEIIR 5k26-a1-m1-cB_5k26-a1-m1-cA Structure of the SH3 domain of MLK3 bound to peptide generated from phage display Q16584 Q16584 1.2 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 77 PVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGAIRINPNGTWSRQ ANPVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGAIRINPNGTWSRQ 5k2i-a1-m1-cA_5k2i-a1-m1-cB Crystal structure of Oxidized Prx3 from Vibrio vulnificus A0A1Z0YU24 A0A1Z0YU24 1.481 X-RAY DIFFRACTION 41 1.0 914127 (Vibrio vulnificus MO6-24/O) 914127 (Vibrio vulnificus MO6-24/O) 157 157 MIAQGQTLPNATLSQLTKEGMVHHPVLELFAGKKVVLFAVPGAFTPTCSEAHLPGYIVLADQLKAKGVDLIASVSVNDAFVMKAWGEAQNAEEILMLADGDASFTKALGLEMDTAGFGGLRSQRYAMIIDNGVVTTLNVEAPKSFEVSNAETILAAL MIAQGQTLPNATLSQLTKEGMVHHPVLELFAGKKVVLFAVPGAFTPTCSEAHLPGYIVLADQLKAKGVDLIASVSVNDAFVMKAWGEAQNAEEILMLADGDASFTKALGLEMDTAGFGGLRSQRYAMIIDNGVVTTLNVEAPKSFEVSNAETILAAL 5k2j-a2-m1-cD_5k2j-a2-m1-cC Crystal structure of reduced Prx3 in complex with h2o2 from Vibrio vulnificus A0A1Z0YU25 A0A1Z0YU25 1.908 X-RAY DIFFRACTION 65 0.981 914127 (Vibrio vulnificus MO6-24/O) 914127 (Vibrio vulnificus MO6-24/O) 159 160 5k1g-a1-m1-cA_5k1g-a1-m2-cA 5k2j-a3-m1-cE_5k2j-a3-m1-cF 5k2j-a4-m1-cG_5k2j-a4-m1-cH 5k2j-a6-m1-cK_5k2j-a6-m1-cL MIAQGQTLPNATLSQLMVHHPVLELFAGKKVVLFAVPGAFTPTDSEAHLPGYIVLADQLKAKGVDLIASVSVNDAFVMKAWGEAQNAEEILMLADGDASFTKALGLEMDTAGFGGLRSQRYAMIIDNGVVTTLNVEAPKSFEVSNAETILAALEHHHHH MIAQGQTLPNATLSQLTKEGMVHHPVLELFAGKKVVLFAVPGAFTPTDSEAHLPGYIVLADQLKAKGVDLIASVSVNDAFVMKAWGEAQNAEEILMLADGDASFTKALGLEMDTAGFGGLRSQRYAMIIDNGVVTTLNVEAPKSFEVSNAETILAALEHH 5k2m-a3-m1-cK_5k2m-a3-m1-cN Bifunctional LysX/ArgX from Thermococcus kodakarensis with LysW-gamma-AAA Q5JFV9 Q5JFV9 2.18 X-RAY DIFFRACTION 14 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 10 32 5k2m-a1-m1-cK_5k2m-a1-m1-cN ELPEVEEDWG EVELHQIVAELEVVSLEPLTLEELPEVEEDWG 5k31-a3-m1-cB_5k31-a3-m1-cF Crystal structure of Human fibrillar procollagen type I C-propeptide Homo-trimer P02452 P02452 2.2 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 239 240 5k31-a1-m1-cD_5k31-a1-m2-cA 5k31-a1-m1-cD_5k31-a1-m2-cE 5k31-a1-m2-cE_5k31-a1-m2-cA 5k31-a2-m1-cE_5k31-a2-m1-cA 5k31-a2-m1-cE_5k31-a2-m3-cD 5k31-a2-m3-cD_5k31-a2-m1-cA 5k31-a3-m1-cC_5k31-a3-m1-cB 5k31-a3-m1-cC_5k31-a3-m1-cF DRDLEVDTTLKSLSQQIENIRSPEGSRKNPARTCRDLKMCHSDWKSGEYWIDPNQGCNLDAIKVFCNMETGETCVYPTQPSVAQKNWYISKNPKDKRHVWFGESMTDGFQFEYGGQGSDPADVAIQLTFLRLMSTEASQQITYHCKNSVAYMDQQTGNLKKALLLQGSNEIEIRAEGNSRFTYSVTVDGCTSHTGAWGKTVIEYKTTKSSRLPIIDVAPLDVGAPDQEFGFDVGPVCFL RDRDLEVDTTLKSLSQQIENIRSPEGSRKNPARTCRDLKMCHSDWKSGEYWIDPNQGCNLDAIKVFCNMETGETCVYPTQPSVAQKNWYISKNPKDKRHVWFGESMTDGFQFEYGGQGSDPADVAIQLTFLRLMSTEASQQITYHCKNSVAYMDQQTGNLKKALLLQGSNEIEIRAEGNSRFTYSVTVDGCTSHTGAWGKTVIEYKTTKSSRLPIIDVAPLDVGAPDQEFGFDVGPVCFL 5k3i-a1-m1-cB_5k3i-a1-m1-cA Crystal structure of Acyl-CoA oxidase-1 in Caenorhabditis elegans complexed with FAD and ATP O62140 O62140 2.683 X-RAY DIFFRACTION 349 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 657 661 5k3g-a1-m1-cA_5k3g-a1-m1-cB 5k3g-a2-m1-cD_5k3g-a2-m1-cC 5k3h-a1-m1-cA_5k3h-a1-m1-cB 5k3h-a2-m1-cC_5k3h-a2-m1-cD 5k3h-a3-m1-cF_5k3h-a3-m1-cE 5k3h-a4-m1-cG_5k3h-a4-m1-cH 5k3i-a2-m1-cC_5k3i-a2-m1-cD 5k3i-a3-m1-cF_5k3i-a3-m1-cE 5k3i-a4-m1-cG_5k3i-a4-m1-cH VHLNKTIQEGDNPDLTAERLTATFDTHAMAAQIYGGEMRARRRREITAKLAEIPELHDSMPLPYMTREEKIMESARKLTVLTQRMSEIIDPTDAGELYHLNNEVLGIEGNPMALHGVMFIPALNAQASDEQQAKWLIRALRREIIGTYAQTEMGHGTNLQNLETTATYDIGTQEFVLHTPKITALKWWPGNLGKSSNYAVVVAHMYIKGKNFGPHTFMVPLRDEKTHKPLPGITIGDIGPKMAYNIVDNGFLGFNNYRIPRTNLLMRHTKVEADGTYIKPPAMVHVRSYMLTGQAIMLSYALNIATRYSAVRRQGQIDKNEPEVKVLEYQTQQHRLFPFIARAYAFQFAGAETVKLYERVLKEMKSLMADLHALTSGLKSVVTHQTGEGIEQARMACGGHGYSMASYISEIYGVAIGGCTYAGENMVMLLQLARYLVKSAALVKSGKASQLGPLVAYLGARSEPTSLIDRVPNGGITEYIKTFQHIAKRQTLKAANKFFGLMENGEKREIAWNKSSVELNRASRLHTRLFIVEAFARRVNEIGDITIKEALSDLLHLHVNYELLDVATYALEDGFMSSTQLDYVRDQLYFYLQKIRPNAVSLLDSWEFSDRELRSVLGRRDGHVYENLFKWAKESPLNKTDVLPSVDTYLKPMMEKA VHLNKTIQEGDNPDLTAERLTATFDTHAMAAQIYGGEMRARRRREITAKLAEIPELHDSMPLPYMTREEKIMESARKLTVLTQRMSEIIDPTDAGELYHLNNEVLGIEGNPMALHGVMFIPALNAQASDEQQAKWLIRALRREIIGTYAQTEMGHGTNLQNLETTATYDIGTQEFVLHTPKITALKWWPGNLGKSSNYAVVVAHMYIKGKNFGPHTFMVPLRDEKTHKPLPGITIGDIGPKMAYNIVDNGFLGFNNYRIPRTNLLMRHTKVEADGTYIKPPAMVHVRSYMLTGQAIMLSYALNIATRYSAVRRQGQIDKNEPEVKVLEYQTQQHRLFPFIARAYAFQFAGAETVKLYERVLKEMKSGNVSLMADLHALTSGLKSVVTHQTGEGIEQARMACGGHGYSMASYISEIYGVAIGGCTYAGENMVMLLQLARYLVKSAALVKSGKASQLGPLVAYLGARSEPTSLIDRVPNGGITEYIKTFQHIAKRQTLKAANKFFGLMENGEKREIAWNKSSVELNRASRLHTRLFIVEAFARRVNEIGDITIKEALSDLLHLHVNYELLDVATYALEDGFMSSTQLDYVRDQLYFYLQKIRPNAVSLLDSWEFSDRELRSVLGRRDGHVYENLFKWAKESPLNKTDVLPSVDTYLKPMMEKA 5k3j-a1-m1-cB_5k3j-a1-m1-cA Crystals structure of Acyl-CoA oxidase-2 in Caenorhabditis elegans bound with FAD, ascaroside-CoA, and ATP O62137 O62137 2.68 X-RAY DIFFRACTION 337 0.997 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 659 662 ANRSIRDGDNPELLEERRMATFDTDKMAAVIYGSEEFARRRREITDAVSKIPELADIKPYPFLTREEKVTEGTRKISILTKYLNQLIDRDNEEESLHLHREVIGYEGHPFALHDALFIPTLQSQASDEQQEKWLERARRREIIGCYAQTELGHGSNLRNLETTAVYDIASQEFVLHTPTTTALKWWPGALGKSCNYALVVAELNYGPHFFMVQLRDEKTHIPLKGVTVGDIGPKMNFNAADNGYLGLNNLRVPRTNLLMRHCKVEADGTYVKPPHAKIGYSGMVKIRSQMAMEQGLFLAHALTIAARYSAVRRQGHLDDKQVEVKVLDYQTQQHRLFPSLARAYAFIFTGFETIHLYSQLLKDVDMGNTSGMADLHALTSGLKSVVAHETGEGIEQARMACGGHGYSMASYISVVYGIAIGGCTYAGENMVMLLQLARYLVKSVELIKAGKAKKLGPVASYLADKSDETDLTSLNGYVKMFENMARRQAWKATEKFLKLMESGESREVAWNKSAVELTRASRLHTRLFIIEAFMRRVSRIEDIPVKEVLTDLLHLHVNYELLDVATYALEFMSFTQLDYVRDQLYLYLEKIRPNAVSLVDSFQISDMQLRSVLGRRDGHVYENLFKWAKSSPLNNADVLPSVEKYLKPMMEKAKLAAAH NRSIRDGDNPELLEERRMATFDTDKMAAVIYGSEEFARRRREITDAVSKIPELADIKPYPFLTREEKVTEGTRKISILTKYLNQLIDRDNEEESLHLHREVIGYEGHPFALHDALFIPTLQSQASDEQQEKWLERARRREIIGCYAQTELGHGSNLRNLETTAVYDIASQEFVLHTPTTTALKWWPGALGKSCNYALVVAELIIKRNNYGPHFFMVQLRDEKTHIPLKGVTVGDIGPKMNFNAADNGYLGLNNLRVPRTNLLMRHCKVEADGTYVKPPHAKIGYSGMVKIRSQMAMEQGLFLAHALTIAARYSAVRRQGHLDDKQVEVKVLDYQTQQHRLFPSLARAYAFIFTGFETIHLYSQLLKDVDMGNTSGMADLHALTSGLKSVVAHETGEGIEQARMACGGHGYSMASYISVVYGIAIGGCTYAGENMVMLLQLARYLVKSVELIKAGKAKKLGPVASYLADKSDETDLTSLNGYVKMFENMARRQAWKATEKFLKLMESGESREVAWNKSAVELTRASRLHTRLFIIEAFMRRVSRIEDIPVKEVLTDLLHLHVNYELLDVATYALEFMSFTQLDYVRDQLYLYLEKIRPNAVSLVDSFQISDMQLRSVLGRRDGHVYENLFKWAKSSPLNNADVLPSVEKYLKPMMEKAKLAAA 5k3w-a1-m1-cB_5k3w-a1-m1-cA Structural characterisation of fold IV-transaminase, CpuTA1, from Curtobacterium pusillum A0A1S4NYF0 A0A1S4NYF0 2.503 X-RAY DIFFRACTION 171 1.0 69373 (Curtobacterium pusillum) 69373 (Curtobacterium pusillum) 290 298 RATLLTVTAPTRPGDAGFVLADFGAPQVRITDLGITRGDGVFETIAVIDGHPQALELHLGRLAHSAALLDLPEPDAAVWREAVLAGVADYRSRNGDGGELFAKLILTRGIEGEGRPSGWVFVDEGEDFSQQRLGIRVVTLDRGYRHDVAETSPWLLAGAKSLSYATNRAAGREAARRGADDVIFVSSDGYALEGPTSNVIVLADGVVRTPQTDQGILAGTTQAAVFDFFEERGYPTEYRRISADELRDAEALWLVSSVRQAAPITALDDREYPVDAALTADLNAYLLART TRATLLTVTAPTRPRAAGDAGFVLADFGAPQVRITDLGITRGDGVFETIAVIDGHPQALELHLGRLAHSAALLDLPEPDAAVWREAVLAGVADYRSRNGDGGELFAKLILTRGIEGEGRPSGWVFVDEGEDFSQQRLGIRVVTLDRGYRHDVAETSPWLLAGAKSLSYATNRAAGREAARRGADDVIFVSSDGYALEGPTSNVIVLADGVVRTPQTDQGILAGTTQAAVFDFFEERGYPTEYRRISADELRDAEALWLVSSVRQAAPITALDDREYPVDAALTADLNAYLLARTDLEH 5k3x-a1-m1-cA_5k3x-a1-m1-cB Crystal Structure of the sulfite dehydrogenase, SorT R78K mutant from Sinorhizobium meliloti Q92M24 Q92M24 1.6 X-RAY DIFFRACTION 122 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 343 345 4pw3-a1-m1-cB_4pw3-a1-m1-cA 4pw3-a2-m1-cC_4pw3-a2-m1-cD 5wa0-a1-m1-cA_5wa0-a1-m1-cB 5wa0-a2-m1-cC_5wa0-a2-m1-cD LETKRSEFGTSIITPEEKLYIKNNVNTPPESILADRDGWKVEISGVKEPRTLTVAELKTLGLVTAATVLQCSGNGRKYFKDQLTGDQKMSGTPWTVGAAGCVIWSGVPLKAVVDALGGPAEGARFITGTGGEELPAGLDPKLLVVERSVPISNLDNVILAWEMNGRPLSLAHGGPLRMVVPGYSGVNNIKYVKAVAMTEVETDAKIQKTSYRVHALGEKGSPDQPSVWEQPVKSWITTPHEAAKAGQVQIAGVAFGGMNACKSVEVSVDGGQTWQEAEFIGPDLGRFAWRVFALSADLARGTYTLVSRATDTEGNVQPEETEMNGAGYGHNGWRAPAVKLTVA KTLETKRSEFGTSIITPEEKLYIKNNVNTPPESILADRDGWKVEISGVKEPRTLTVAELKTLGLVTAATVLQCSGNGRKYFKDQLTGDQKMSGTPWTVGAAGCVIWSGVPLKAVVDALGGPAEGARFITGTGGEELPAGLDPKLLVVERSVPISNLDNVILAWEMNGRPLSLAHGGPLRMVVPGYSGVNNIKYVKAVAMTEVETDAKIQKTSYRVHALGEKGSPDQPSVWEQPVKSWITTPHEAAKAGQVQIAGVAFGGMNACKSVEVSVDGGQTWQEAEFIGPDLGRFAWRVFALSADLARGTYTLVSRATDTEGNVQPEETEMNGAGYGHNGWRAPAVKLTVA 5k4l-a2-m1-cA_5k4l-a2-m1-cB Crystal structure of KDM5A in complex with a naphthyridone inhibitor P29375 P29375 3.179 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 577 577 5k4l-a1-m1-cA_5k4l-a1-m1-cB EFVPPPECPVFEPSWEEFTDPLSFIGRIRPLAEKTGICKIRPPKDWQPPFACEVKSFRFTPRVQRLNELEAMTRVRLDFLDQLAKFWELQGSTLKIPVVERKILDLYALSKIVASKGGFEMVTKEKKWSKVGSRLGYLPGKGTGSLLKSHYERILYPYELFQSGVSLMGVQMYTLQSFGEMADNFKSDYFNMPVHMVPTELVEKEFWRLVSSIEEDVIVEYGADISSKDFGSGFPVKDGRRKILPEEEEYALSGWNLNNMPVLEQSVLAHINVDISGMKVPWLYVGMCFSSFCWHIEDHWSYSINYLHWGEPKTWYGVPSHAAEQLEEVMRELAPELFESQPDLLHQLVTIMNPNVLMEHGVPVYRTNQCAGEFVVTFPRAYHSGFNQGYNFAEAVNFCTADWLPIGRQCVNHYRRLRRHCVFSHEELIFKMAADPECLDVGLAAMVCKELTLMTEEETRLRESVVQMGVLMSEEEVFELVPDDERQCSACRTTCFLSALTCSCNPERLVCLYHPTDLCPCPMQKKCLRYRYPLEDLPSLLYGVKVRAQSYDTWVSVMLEDAEDRKYPENDLFRKLR EFVPPPECPVFEPSWEEFTDPLSFIGRIRPLAEKTGICKIRPPKDWQPPFACEVKSFRFTPRVQRLNELEAMTRVRLDFLDQLAKFWELQGSTLKIPVVERKILDLYALSKIVASKGGFEMVTKEKKWSKVGSRLGYLPGKGTGSLLKSHYERILYPYELFQSGVSLMGVQMYTLQSFGEMADNFKSDYFNMPVHMVPTELVEKEFWRLVSSIEEDVIVEYGADISSKDFGSGFPVKDGRRKILPEEEEYALSGWNLNNMPVLEQSVLAHINVDISGMKVPWLYVGMCFSSFCWHIEDHWSYSINYLHWGEPKTWYGVPSHAAEQLEEVMRELAPELFESQPDLLHQLVTIMNPNVLMEHGVPVYRTNQCAGEFVVTFPRAYHSGFNQGYNFAEAVNFCTADWLPIGRQCVNHYRRLRRHCVFSHEELIFKMAADPECLDVGLAAMVCKELTLMTEEETRLRESVVQMGVLMSEEEVFELVPDDERQCSACRTTCFLSALTCSCNPERLVCLYHPTDLCPCPMQKKCLRYRYPLEDLPSLLYGVKVRAQSYDTWVSVMLEDAEDRKYPENDLFRKLR 5k4p-a1-m1-cA_5k4p-a1-m2-cA Catalytic Domain of MCR-1 phosphoethanolamine transferase A0A0R6L508 A0A0R6L508 1.318 X-RAY DIFFRACTION 16 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 323 323 5gov-a1-m1-cB_5gov-a1-m1-cA DTIYHAKDAVQATKPDMRKPRLVVFVVGETARADHVSFNGYERDTFPQLAKIDGVTNFSNVTSCGTSAYSVPCMFSYLGADEYDVDTAKYQENVLDTLDRLGVSILWRDNNSDSKGVMDKLPKAQFADYKSATNNAICNTNPYNECRDVGMLVGLDDFVAANNGKDMLIMLHQMGNHGPAYFKRYDEKFAKFTPVCEGNELAKCEHQSLINAYDNALLATDDFIAQSIQWLQTHSNAYDVSMLYVSDHGESLGENGVYLHGMPNAFAPKEQRSVPAFFWTDKQTGITPMATDTVLTHDAITPTLLKLFDVTADKVKDRTAFIR DTIYHAKDAVQATKPDMRKPRLVVFVVGETARADHVSFNGYERDTFPQLAKIDGVTNFSNVTSCGTSAYSVPCMFSYLGADEYDVDTAKYQENVLDTLDRLGVSILWRDNNSDSKGVMDKLPKAQFADYKSATNNAICNTNPYNECRDVGMLVGLDDFVAANNGKDMLIMLHQMGNHGPAYFKRYDEKFAKFTPVCEGNELAKCEHQSLINAYDNALLATDDFIAQSIQWLQTHSNAYDVSMLYVSDHGESLGENGVYLHGMPNAFAPKEQRSVPAFFWTDKQTGITPMATDTVLTHDAITPTLLKLFDVTADKVKDRTAFIR 5k5w-a1-m1-cA_5k5w-a1-m1-cB Crystal structure of limiting CO2-inducible protein LCIB Q0ZAI6 Q0ZAI6 2.591 X-RAY DIFFRACTION 104 0.995 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 198 226 HFPSTMGVDDFMGRVEVALAGFGFTTIAMTNLCRDEVTQVLKDKIEAIFGSSFNTNGLGGVLTCGVTGMKAGLSHRYVFFAFPHIACACGALLAILNAFKVDPGVHDPLDPELTILQQRLARRVRYEKLDVSKLDLPGLTSVAERTITDDLEYLIEKAVDPAVADYAVITGVQIHNEFVAPAKCYTVVNGLKTYIDLP QRHSELIKHFPSTMGVDDFMGRVEVALAGFGFTGDNTIAMTNLCRDEVTQVLKDKIEAIFGSSFNTNGLGGVLTCGVTGMKAGLSERYVFFAFPHIAINSEGSCACGALLAILNAFKVDGVEKSCKVPGVHDPLDPELTILQQRLARRVRYEKLDVSKLDLPGLTSVAERTITDDLEYLIEKAVDPAVADYAVITGVQIHNWSIEFVAPAKCYTVVNGLKTYIDLP 5k6a-a1-m1-cC_5k6a-a1-m1-cD Trypanosoma brucei Pteridine reductase 1 (PTR1) in complex with compound 1 O76290 O76290 1.7 X-RAY DIFFRACTION 100 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 236 247 2c7v-a1-m1-cD_2c7v-a1-m1-cC 4wcf-a1-m1-cC_4wcf-a1-m1-cD 5izc-a1-m1-cC_5izc-a1-m1-cD 5jdc-a1-m1-cC_5jdc-a1-m1-cD EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 5k6w-a1-m1-cA_5k6w-a1-m1-cB Sidekick-1 immunoglobulin domains 1-5 Q3UH53 Q3UH53 3.5 X-RAY DIFFRACTION 72 1.0 10090 (Mus musculus) 10090 (Mus musculus) 475 475 5k6u-a1-m1-cA_5k6u-a1-m2-cA 5k6v-a1-m1-cA_5k6v-a1-m2-cA QDDVAPYFKTEPGLPQIHLEGNRLVLTCLAEGSWPLEFKWIRNDSELTTYSSEYKYIIPSLQKLDAGFYRCVVRNRMGALLQRKSEIQVAYMGNFMDTDQRKTVSQGHAALLNLLPIVSCPQPQVTWFREGHKIIPSSRIAITLENQLVILATTASDAGAYYVQAVNEKNGENKTSPFIHLSVARDTGTHEAMAPIIVVAPGNRSVVAGSSETTLECIANARPVEELSVHWKRNGVRLTSGLHSYGRRLTITNPTSADTGMYVCEATLRGSTFEPARARAFLSIIEPPYFTAEPESRILGEVEETMDIPCRAMGVPLPTLQWYKDAVPLSKLQNPRYKVLPSGGLHIQKLSPEDSGIFQCFASNEGGEVQTHTYLDVTNIAPAFTQRPVDTTVTDGMTAVLRCEVSGAPKPAITWKRGNHILASGSVRIPRFMLLESGGLRIAPVFIQDAGNYTCYAANTEASVNASAMLTVWNR QDDVAPYFKTEPGLPQIHLEGNRLVLTCLAEGSWPLEFKWIRNDSELTTYSSEYKYIIPSLQKLDAGFYRCVVRNRMGALLQRKSEIQVAYMGNFMDTDQRKTVSQGHAALLNLLPIVSCPQPQVTWFREGHKIIPSSRIAITLENQLVILATTASDAGAYYVQAVNEKNGENKTSPFIHLSVARDTGTHEAMAPIIVVAPGNRSVVAGSSETTLECIANARPVEELSVHWKRNGVRLTSGLHSYGRRLTITNPTSADTGMYVCEATLRGSTFEPARARAFLSIIEPPYFTAEPESRILGEVEETMDIPCRAMGVPLPTLQWYKDAVPLSKLQNPRYKVLPSGGLHIQKLSPEDSGIFQCFASNEGGEVQTHTYLDVTNIAPAFTQRPVDTTVTDGMTAVLRCEVSGAPKPAITWKRGNHILASGSVRIPRFMLLESGGLRIAPVFIQDAGNYTCYAANTEASVNASAMLTVWNR 5k6x-a1-m1-cB_5k6x-a1-m1-cA Sidekick-2 immunoglobulin domains 1-4, crystal form 1 Q6V4S5 Q6V4S5 2.7 X-RAY DIFFRACTION 111 1.0 10090 (Mus musculus) 10090 (Mus musculus) 367 374 5k6y-a1-m1-cB_5k6y-a1-m1-cA DDVPPYFKTEPVRTQVHLEGNRLVLTCMAEGSWPLEFKWLHNNRELTRFSLEYRYMITSLDRTHAGFYRCIVRNRMGALLQRQTEVQVAYMGSFEEGEKRQSVNHGEAAVIRAPRISSFPRPQVTWFRDGRKIPPSSRIAITLENTLVILSTVAPDAGRYYVQAVNDKNGDNKTSQPITLAVENIAPTIIIPPKNTSVVAGTSEVTMECVANARPLIKLHIVWKKDGAPLSSGISDYNRRLTIANPTVSDAGYYECEAMLRSSSVAPVTRGAYLSVLEPPQFVREPERHITAEMEKVVDIPCRAKGVPPPSITWYKDAALVEVTRFKQRSDGGLQISGLLPDDTGMLQCFAHNAAGEAQTSTYLAVT QDDVPPYFKTEPVRTQVHLEGNRLVLTCMAEGSWPLEFKWLHNNRELTRFSLEYRYMITSLDRTHAGFYRCIVRNRMGALLQRQTEVQVAYMGSFEEGEKRQSVNHGEAAVIRAPRISSFPRPQVTWFRDGRKIPPSSRIAITLENTLVILSTVAPDAGRYYVQAVNDKNGDNKTSQPITLAVENVPIAPTIIIPPKNTSVVAGTSEVTMECVANARPLIKLHIVWKKDGAPLSSGISDYNRRLTIANPTVSDAGYYECEAMLRSSSVAPVTRGAYLSVLEPPQFVREPERHITAEMEKVVDIPCRAKGVPPPSITWYKDAALVEVGKLTRFKQRSDGGLQISGLLPDDTGMLQCFAHNAAGEAQTSTYLAVTS 5k6z-a1-m1-cA_5k6z-a1-m1-cB Sidekick chimera containing sidekick-2 immunoglobulin domains 1-2 and sidekick-1 immunoglobulin domains 3-4 Q3UH53 Q3UH53 2.7 X-RAY DIFFRACTION 59 1.0 10090 (Mus musculus) 10090 (Mus musculus) 375 378 DDVPPYFKTEPVRTQVHLEGNRLVLTCMAEGSWPLEFKWLHNNRELTRFSLEYRYMITSLDRTHAGFYRCIVRNRMGALLQRQTEVQVAYMGSFEEGEKRQSVNHGEAAVIRAPRISSFPRPQVTWFRDGRKIPPSSRIAITLENTLVILSTVAPDAGRYYVQAVNDKNGDNKTSQPITLAVENTHEAMAPIIVVAPGNRSVVAGSSETTLECIANARPVEELSVHWKRNGVRLTSGLHSYGRRLTITNPTSADTGMYVCEATLRGSTFEPARARAFLSIIEPPYFTAEPESRILGEVEETMDIPCRAMGVPLPTLQWYKDAVPLSKLQNPRYKVLPSGGLHIQKLSPEDSGIFQCFASNEGGEVQTHTYLDVTN DDVPPYFKTEPVRTQVHLEGNRLVLTCMAEGSWPLEFKWLHNNRELTRFSLEYRYMITSLDRTHAGFYRCIVRNRMGALLQRQTEVQVAYMGSFEEGEKRQSVNHGEAAVIRAPRISSFPRPQVTWFRDGRKIPPSSRIAITLENTLVILSTVAPDAGRYYVQAVNDKNGDNKTSQPITLAVENVGGTHEAMAPIIVVAPGNRSVVAGSSETTLECIANARPVEELSVHWKRNGVRLTSGLHSYGRRLTITNPTSADTGMYVCEATLRGSTFEPARARAFLSIIEPPYFTAEPESRILGEVEETMDIPCRAMGVPLPTLQWYKDAVPLSKLQNPRYKVLPSGGLHIQKLSPEDSGIFQCFASNEGGEVQTHTYLDVTN 5k7b-a1-m1-cA_5k7b-a1-m1-cB Beclin 2 CCD homodimer A8MW95 A8MW95 2.3 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 91 5k9l-a1-m1-cA_5k9l-a1-m1-cB AALRAELRDLELEEARLVQELEDVDRNNARAAADLQAAQAEAAELDQQERQHYRDYSALKRQQLELLDQLGNVENQLQYARVQRDRL PEAAALRAELRDLELEEARLVQELEDVDRNNARAAADLQAAQAEAAELDQQERQHYRDYSALKRQQLELLDQLGNVENQLQYARVQRDRLK 5k7x-a3-m1-cE_5k7x-a3-m1-cF Fully ligated Adenylosuccinate Synthetase from Pyrococcus horikoshii OT3 with GTP, IMP and Hadacidin O58187 O58187 2.803 X-RAY DIFFRACTION 163 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 337 337 2d7u-a2-m1-cA_2d7u-a2-m2-cA 5k7x-a1-m1-cA_5k7x-a1-m1-cB 5k7x-a2-m1-cC_5k7x-a2-m1-cD PSVIVVGGQWGDEGKGSIVAYLSLHDEPEIIARGGVGTNAGHSVVINGKKYAVRQIPTGFMQTKARLLIGAGVLVDPEVFFHELEQLKDFNVKDRVGIDYRCAIIEEKHKQLDRTNGYLHGKIGTTGSGCGPANADRVMRKAKQAKDVKELEPYLTDVAQEINDALDEGSLVLVEGTQGFGLSLYYGTYPYVTSKDVTASSVAADVGIGPTRVDEVIVVFKSFPTRVGAGPFPTEMPMEEADRLGLVEYGTVTGRRRRVGWFDFEMARYSARINGATMLAVTMLDKYDKEAFGVTDYDKLPRKAKEFIEEIEERVGVPVGLIKTGPELEHIIDRRDT PSVIVVGGQWGDEGKGSIVAYLSLHDEPEIIARGGVGTNAGHSVVINGKKYAVRQIPTGFMQTKARLLIGAGVLVDPEVFFHELEQLKDFNVKDRVGIDYRCAIIEEKHKQLDRTNGYLHGKIGTTGSGCGPANADRVMRKAKQAKDVKELEPYLTDVAQEINDALDEGSLVLVEGTQGFGLSLYYGTYPYVTSKDVTASSVAADVGIGPTRVDEVIVVFKSFPTRVGAGPFPTEMPMEEADRLGLVEYGTVTGRRRRVGWFDFEMARYSARINGATMLAVTMLDKYDKEAFGVTDYDKLPRKAKEFIEEIEERVGVPVGLIKTGPELEHIIDRRDT 5k7z-a1-m1-cB_5k7z-a1-m1-cA Crystal structure of AibR in complex with isovaleryl coenzyme A and operator DNA Q1D4I5 Q1D4I5 2.92 X-RAY DIFFRACTION 80 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 184 185 5k7f-a1-m1-cB_5k7f-a1-m1-cA 5k7h-a1-m1-cA_5k7h-a1-m1-cB 5k7z-a2-m1-cD_5k7z-a2-m1-cC RYRAILETAARLICDRGYEGTSMQEIAAACRMTKAGLYHHIQNKEQLLFAIMNYGMDLFEEQVLSRVQDIANPVERLRACMRHNILLVTRGWSKEVIIILHEHATLTGETRAFIDARKKKYVDFLEEAFSQASQQGLIRPVDPTVGAFSFLGMVLWIYKWFKPDGRLTDEQIADGMVGMLFPPF ERYRAILETAARLICDRGYEGTSMQEIAAACRMTKAGLYHHIQNKEQLLFAIMNYGMDLFEEQVLSRVQDIANPVERLRACMRHNILLVTRGWSKEVIIILHEHATLTGETRAFIDARKKKYVDFLEEAFSQASQQGLIRPVDPTVGAFSFLGMVLWIYKWFKPDGRLTDEQIADGMVGMLFPPF 5k86-a1-m1-cA_5k86-a1-m1-cC Aza-glycine containing collagen peptide 1.127 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 16 16 5k86-a1-m1-cA_5k86-a1-m1-cB PGPGPGPRPGPGPGPG PGPGPGPRPGPGPGPG 5k86-a1-m1-cB_5k86-a1-m1-cC Aza-glycine containing collagen peptide 1.127 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 16 16 PGPGPGPRPGPGPGPG PGPGPGPRPGPGPGPG 5k87-a1-m1-cB_5k87-a1-m1-cA crystal structure of malonate bound to methylaconitate isomerase PrpF from Shewanella oneidensis Q8EJW4 Q8EJW4 1.219 X-RAY DIFFRACTION 159 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 387 389 2pvz-a1-m1-cA_2pvz-a1-m1-cB 2pw0-a2-m2-cB_2pw0-a2-m1-cA LFPPQIKVAATYMRGGTSKGVFFRLQDLPEAAQVPGPARDALLLRVIGSPDPYAKQIDGMGGATSSTSETVILSHSSKANHDVDYLFGQVSIDKPFVDWSGNCGNLTAAVGAFAISNGLIDAARIPRNGVCTVRIWQANIGKTIIAHVPITDGAVQETGDFELDGVTFPAAEVQIEFMNPAADCMFPTGNLVDVLEVPGIGRFNATMINAGIPTIFINAEDLGYTGTELQDDINSDNAALAKFETIRAHGALRMGLIKHIDEAASRQHTPKIAFVAPPKSYASSSGKTVAAEDVDLLVRALSMGKLHHAMMGTAAVAIGTAAAIPGTLVNLAAGGGEKEAVRFGHPSGTLRVGAQAVQENGEWTVIKAIMSRSARVLMEGFVRVPKP LFPPQIKVAATYMRGGTSKGVFFRLQDLPEAAQVPGPARDALLLRVIGSPDPYAKQIDGMGGATSSTSETVILSHSSKANHDVDYLFGQVSIDKPFVDWSGNCGNLTAAVGAFAISNGLIDAARIPRNGVCTVRIWQANIGKTIIAHVPITDGAVQETGDFELDGVTFPAAEVQIEFMNPAADGGCMFPTGNLVDVLEVPGIGRFNATMINAGIPTIFINAEDLGYTGTELQDDINSDNAALAKFETIRAHGALRMGLIKHIDEAASRQHTPKIAFVAPPKSYASSSGKTVAAEDVDLLVRALSMGKLHHAMMGTAAVAIGTAAAIPGTLVNLAAGGGEKEAVRFGHPSGTLRVGAQAVQENGEWTVIKAIMSRSARVLMEGFVRVPKP 5k89-a2-m1-cH_5k89-a2-m3-cH Crystal Structure of Human Calcium-Bound S100A1 P23297 P23297 2.249 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 1zfs-a1-m1-cA_1zfs-a1-m1-cB 2k2f-a1-m1-cA_2k2f-a1-m1-cB 2kbm-a1-m1-cA_2kbm-a1-m1-cB 2lp2-a1-m1-cA_2lp2-a1-m1-cB 2lp3-a1-m1-cA_2lp3-a1-m1-cB 2lux-a1-m1-cA_2lux-a1-m1-cB MGSELETAMETLINVFHAHSGKEGDKYKLSKKELKELLQTELSGFLVDAVDKVMKELDENGDGEVDFQEYVVLVAALTVACNNFFWENS MGSELETAMETLINVFHAHSGKEGDKYKLSKKELKELLQTELSGFLVDAVDKVMKELDENGDGEVDFQEYVVLVAALTVACNNFFWENS 5k8b-a2-m1-cC_5k8b-a2-m1-cD X-ray structure of KdnA, 8-amino-3,8-dideoxy-alpha-D-manno-octulosonate transaminase, from Shewanella oneidensis in the presence of the external aldimine with PLP and glutamate Q8EEB1 Q8EEB1 2.15 X-RAY DIFFRACTION 255 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 394 394 5k8b-a1-m1-cA_5k8b-a1-m1-cB PGFELFGPEEKQEVADVMEHGFTFRYNFDHMRNDRWKTRDMEQLLCEKMNVKHAHLLSSGTAALQTAMMAAGIGAGDEVIVPPFTFVASVEAIFMAGAVPIFAEIDETLCLSPEGIEAVITPRTKAINLVHMCGSMAKMDEIKAICKKHNLVLLEDACQAIGGSYKGQALGTIGDVGCYSFDSVKTITCGEGGAVITNNTEIYDNAHMFSDHGHDHIGKDRGAESHPIMGLNFRISEMNAALGLAQLRKLDTIIDIQRKNKKAIKDAMASIPEVSFREIPDPEGDSAGFLSFMLPTEARTQEISKKLAANGVDGCFYWYVNNWHYLKNWKHIQELKAPAALPITLIADRPDYTQISVPKSDAIMSRTISMLIKLSWTDAQIAERIENIKKAFAQ PGFELFGPEEKQEVADVMEHGFTFRYNFDHMRNDRWKTRDMEQLLCEKMNVKHAHLLSSGTAALQTAMMAAGIGAGDEVIVPPFTFVASVEAIFMAGAVPIFAEIDETLCLSPEGIEAVITPRTKAINLVHMCGSMAKMDEIKAICKKHNLVLLEDACQAIGGSYKGQALGTIGDVGCYSFDSVKTITCGEGGAVITNNTEIYDNAHMFSDHGHDHIGKDRGAESHPIMGLNFRISEMNAALGLAQLRKLDTIIDIQRKNKKAIKDAMASIPEVSFREIPDPEGDSAGFLSFMLPTEARTQEISKKLAANGVDGCFYWYVNNWHYLKNWKHIQELKAPAALPITLIADRPDYTQISVPKSDAIMSRTISMLIKLSWTDAQIAERIENIKKAFAQ 5k8c-a1-m1-cA_5k8c-a1-m2-cA X-ray structure of KdnB, 3-deoxy-alpha-D-manno-octulosonate 8-oxidase, from Shewanella oneidensis Q8EEB0 Q8EEB0 1.85 X-RAY DIFFRACTION 109 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 358 358 GHMSFKNFKVVEKMIFGRGSFVQLDDVLAAQRKADDDFVVFLVDDVHQGKPLEARIPVKAQDLLIWVNVDEEPSTIQIDALTEQVQAFNGKLPVSVVGLGGGSTMDVAKAVSLMLTNPGGSAMYQGWDLIKKPAVHHIGIPTISGTGAEASRTAVLCGPVRKLGLNSDYTVFDQIIMDSELIDGVETDQWFYTGMDCYIHCVESLEGTFLNEFSKAYAEKAMDLCRQVYLEDHPEKDDKLMMASFMGGMSIAYSQVGACHAVSYGLSYILGYHHGIGNCIAFDVLEEFYPEGVAEFRLMMKKHNITLPKNICKDLPDETIAKMVAVTKSMGPLWANVYGPTWEEKVTDEMLTALFRRI GHMSFKNFKVVEKMIFGRGSFVQLDDVLAAQRKADDDFVVFLVDDVHQGKPLEARIPVKAQDLLIWVNVDEEPSTIQIDALTEQVQAFNGKLPVSVVGLGGGSTMDVAKAVSLMLTNPGGSAMYQGWDLIKKPAVHHIGIPTISGTGAEASRTAVLCGPVRKLGLNSDYTVFDQIIMDSELIDGVETDQWFYTGMDCYIHCVESLEGTFLNEFSKAYAEKAMDLCRQVYLEDHPEKDDKLMMASFMGGMSIAYSQVGACHAVSYGLSYILGYHHGIGNCIAFDVLEEFYPEGVAEFRLMMKKHNITLPKNICKDLPDETIAKMVAVTKSMGPLWANVYGPTWEEKVTDEMLTALFRRI 5k8j-a1-m1-cA_5k8j-a1-m2-cA Structure of Caulobacter crescentus VapBC1 (apo form) Q9AC34 Q9AC34 1.6 X-RAY DIFFRACTION 15 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 79 79 HHARATGKTFRSGNSEAVRLPRDLAFGADVELTLIRSGDVLTIYPSKGSIADLVATLNQPRPDSVEIRDEDLFPERPGL HHARATGKTFRSGNSEAVRLPRDLAFGADVELTLIRSGDVLTIYPSKGSIADLVATLNQPRPDSVEIRDEDLFPERPGL 5k8r-a1-m1-cA_5k8r-a1-m2-cA Structure of human clustered protocadherin gamma B3 EC1-4 Q9Y5G1 Q9Y5G1 2.5 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 414 414 6meq-a1-m1-cA_6meq-a1-m2-cA 6mer-a1-m1-cA_6mer-a1-m2-cA EPIRYAIPEELDRGSLVGNLAKDLGFGVGDLPTRNLRVIAEKKFFTVSPENGNLLVSDRIDREEICGKKSTCVLEFEMVAEKPLNFFHVTVLIQDINDNPPTFSQNITELEISELALTGATFALESAQDPDVGVNSLQQYYLSPDPHFSLIQKENLDGSRYPELVLKAPLDREEQPHHHLVLTAVDGGEPSRSCTTQIRVIVADANDNPPVFTQDMYRVNVAENLPAGSSVLKVMAIDMDEGINAEIIYAFINIGKEVRQLFKLDSKTGELTTIGELDFEERDSYTIGVEAKDGGHHTAYCKVQIDISDENDNAPEITLASESQHIQEDAELGTAVALIKTHDLDSGFNGEILCQLKGNFPFKIVQDTKNTYRLVTDGALDREQIPEYNVTITATDKGNPPLSSSKTITLHILD EPIRYAIPEELDRGSLVGNLAKDLGFGVGDLPTRNLRVIAEKKFFTVSPENGNLLVSDRIDREEICGKKSTCVLEFEMVAEKPLNFFHVTVLIQDINDNPPTFSQNITELEISELALTGATFALESAQDPDVGVNSLQQYYLSPDPHFSLIQKENLDGSRYPELVLKAPLDREEQPHHHLVLTAVDGGEPSRSCTTQIRVIVADANDNPPVFTQDMYRVNVAENLPAGSSVLKVMAIDMDEGINAEIIYAFINIGKEVRQLFKLDSKTGELTTIGELDFEERDSYTIGVEAKDGGHHTAYCKVQIDISDENDNAPEITLASESQHIQEDAELGTAVALIKTHDLDSGFNGEILCQLKGNFPFKIVQDTKNTYRLVTDGALDREQIPEYNVTITATDKGNPPLSSSKTITLHILD 5k8y-a1-m1-cA_5k8y-a1-m1-cB Structure of the Mus musclus Langerin carbohydrate recognition domain Q8VBX4 Q8VBX4 2.4 X-RAY DIFFRACTION 56 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 136 AGILEMVARGWKYFSGNFYYFSRTPKTWYSAEQFCISRKAHLTSVSSESEQKFLYKAADGIPHWIGLTKAGSEGDWYWVDQTSFNKEQSRRFWIPGEPNNAGNNEHCANIRVSALKCWNDGPCDNTFLFICKRPYV AGILEMVARGWKYFSGNFYYFSRTPKTWYSAEQFCISRKAHLTSVSSESEQKFLYKAADGIPHWIGLTKAGSEGDWYWVDQTSFNKEQSRRFWIPGEPNNAGNNEHCANIRVSALKCWNDGPCDNTFLFICKRPYV 5k9a-a1-m1-cA_5k9a-a1-m2-cA Sortase A from Corynebacterium diphtheriae Q6NF82 Q6NF82 2.1 X-RAY DIFFRACTION 86 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 215 215 SNANNARQARVAQSYENSYEVDSPAVRDSVLEAARQYNTSVVGFPILDPWLNRASKNSGPYLDYLQQLNPQRAERPVIASISIPTIDAHLPIYHGTDTATLEHGLGHLYGSALPVGGTGTHPVITGHSGLANATLFDNLEDVKEHDPIYITVQGETLKYEVDAINVVLPEDTKLLAPDPNKDQITLITCTPYAVNSHRLLVRAHRVDLDPNDPNL SNANNARQARVAQSYENSYEVDSPAVRDSVLEAARQYNTSVVGFPILDPWLNRASKNSGPYLDYLQQLNPQRAERPVIASISIPTIDAHLPIYHGTDTATLEHGLGHLYGSALPVGGTGTHPVITGHSGLANATLFDNLEDVKEHDPIYITVQGETLKYEVDAINVVLPEDTKLLAPDPNKDQITLITCTPYAVNSHRLLVRAHRVDLDPNDPNL 5k9z-a3-m1-cA_5k9z-a3-m1-cD Crystal Structure of putative short-chain dehydrogenase/reductase from Burkholderia xenovorans LB400 Q13HC1 Q13HC1 2 X-RAY DIFFRACTION 143 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 244 246 5k9z-a3-m1-cB_5k9z-a3-m1-cC ERLKDRVALVTGAASGIGAATARLMAQEGAFVVLADVDEHAGQALARELRDATFAYTDVSVEAQVAAAVDEALRLHGRLDCMVNNAGFVGAYGSILETSAAAWHATLGVLLDGVFYGIKHAARAMVKQGSGCILSVASTAGVMGGLGPHAYTSAKHAVIGLTRSAASELAPRGVRVNAVAPGTTSPLGTPLMPQEIAAALVYLASDDARHVNAHTLVVDSGVTVAGASGGAVFHNRPAGFMGRM SERLKDRVALVTGAASGIGAATARLMAQEGAFVVLADVDEHAGQALARELRDATFAYTDVSVEAQVAAAVDEALRLHGRLDCMVNNAGFVGAYGSILETSAAAWHATLGVLLDGVFYGIKHAARAMVKQGSGCILSVASTAGVMGGLGPHAYTSAKHAVIGLTRSAASELAPRGVRVNAVAPGTTSPLGTPLMPQEIAAALVYLASDDARHVNAHTLVVDSGVTVAGASGGAVFHNRPAGFMGRMP 5k9z-a3-m1-cD_5k9z-a3-m1-cB Crystal Structure of putative short-chain dehydrogenase/reductase from Burkholderia xenovorans LB400 Q13HC1 Q13HC1 2 X-RAY DIFFRACTION 132 0.992 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 246 266 5k9z-a1-m1-cA_5k9z-a1-m1-cC 5k9z-a2-m1-cD_5k9z-a2-m1-cB 5k9z-a3-m1-cA_5k9z-a3-m1-cC SERLKDRVALVTGAASGIGAATARLMAQEGAFVVLADVDEHAGQALARELRDATFAYTDVSVEAQVAAAVDEALRLHGRLDCMVNNAGFVGAYGSILETSAAAWHATLGVLLDGVFYGIKHAARAMVKQGSGCILSVASTAGVMGGLGPHAYTSAKHAVIGLTRSAASELAPRGVRVNAVAPGTTSPLGTPLMPQEIAAALVYLASDDARHVNAHTLVVDSGVTVAGASGGAVFHNRPAGFMGRMP SERLKDRVALVTGAASGIGAATARLMAQEGAFVVLADVDEHAGQALARELRDATFAYTDVSVEAQVAAAVDEALRLHGRLDCMVNNAGFVGAYGSILETSAAAWHATLGVLLDGVFYGIKHAARAMVKQGSGCILSVASTAGVMGGLGPHAYTSAKHAVIGLTRSAASELAPRGVRVNAVAPGTTVTEMMVQGRGSRQAAIDAATRASPLGTPLMPQEIAAALVYLASDDARHVNAHTLVVDSGVTVAGASGGAVFHNRPAGFMGR 5k9z-a3-m1-cD_5k9z-a3-m1-cC Crystal Structure of putative short-chain dehydrogenase/reductase from Burkholderia xenovorans LB400 Q13HC1 Q13HC1 2 X-RAY DIFFRACTION 121 0.992 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 246 266 5k9z-a3-m1-cA_5k9z-a3-m1-cB SERLKDRVALVTGAASGIGAATARLMAQEGAFVVLADVDEHAGQALARELRDATFAYTDVSVEAQVAAAVDEALRLHGRLDCMVNNAGFVGAYGSILETSAAAWHATLGVLLDGVFYGIKHAARAMVKQGSGCILSVASTAGVMGGLGPHAYTSAKHAVIGLTRSAASELAPRGVRVNAVAPGTTSPLGTPLMPQEIAAALVYLASDDARHVNAHTLVVDSGVTVAGASGGAVFHNRPAGFMGRMP SERLKDRVALVTGAASGIGAATARLMAQEGAFVVLADVDEHAGQALARELRDATFAYTDVSVEAQVAAAVDEALRLHGRLDCMVNNAGFVGAYGSILETSAAAWHATLGVLLDGVFYGIKHAARAMVKQGSGCILSVASTAGVMGGLGPHAYTSAKHAVIGLTRSAASELAPRGVRVNAVAPGTTVTEMMVQGRGSRQAAIDAATRASPLGTPLMPQEIAAALVYLASDDARHVNAHTLVVDSGVTVAGASGGAVFHNRPAGFMGR 5kay-a3-m1-cB_5kay-a3-m1-cA Structure of Spelter bound to Zn2+ 1.8 X-RAY DIFFRACTION 29 1.0 32644 (unidentified) 32644 (unidentified) 200 201 QYALARTFATQKVSLEESVLSQVTTAIQTAQEKIVYAGNGTLSDDDRASLATDLQGIRDQLMNLANSTDGNGRYIFAGYKTEAAPFDQATGGYHGGEKSVTQQVDSAITLEIGHTGAQIFNSICECAVPEPDGSDSEKNLFVMLDTAIAALKTPVEGNNVEKEKAAAAIDKTNRGLKNSLHNVLEVRWELEWFLELLSAK SQYALARTFATQKVSLEESVLSQVTTAIQTAQEKIVYAGNGTLSDDDRASLATDLQGIRDQLMNLANSTDGNGRYIFAGYKTEAAPFDQATGGYHGGEKSVTQQVDSAITLEIGHTGAQIFNSICECAVPEPDGSDSEKNLFVMLDTAIAALKTPVEGNNVEKEKAAAAIDKTNRGLKNSLHNVLEVRWELEWFLELLSAK 5kba-a2-m1-cD_5kba-a2-m1-cC Computational Design of Self-Assembling Cyclic Protein Homooligomers 2.601 X-RAY DIFFRACTION 36 1.0 32630 (synthetic construct) 32630 (synthetic construct) 157 158 5kba-a1-m1-cA_5kba-a1-m1-cB SELGKRLIEAAENGNKDRVKDLIENGADVNASDSDGRTPLHHAAENGHAEVVALLIEKGADVNAKDSDGRTPLHHAAENGHDEVVLILLLKGADVNAKDSDGRTPLHHAAENGHKRVVLVLILAGADVNTSDSDGRTPLDLAREHGNEEVVKALEKQ SSELGKRLIEAAENGNKDRVKDLIENGADVNASDSDGRTPLHHAAENGHAEVVALLIEKGADVNAKDSDGRTPLHHAAENGHDEVVLILLLKGADVNAKDSDGRTPLHHAAENGHKRVVLVLILAGADVNTSDSDGRTPLDLAREHGNEEVVKALEKQ 5kbe-a1-m1-cA_5kbe-a1-m1-cB CRYSTAL STRUCTURE OF THE AROMATIC SENSOR DOMAIN OF MOPR IN COMPLEX WITH PHENOL Q43965 Q43965 2.5 X-RAY DIFFRACTION 157 0.98 471 (Acinetobacter calcoaceticus) 471 (Acinetobacter calcoaceticus) 199 206 5kbg-a1-m1-cB_5kbg-a1-m1-cA EQNKDIQDLLDKIVFDAQHGQIWFDENRMLLMHTSILGFLRKDLYQMLGLERTKRFFIRCGYQAGMRDAEVTSKLRPNLNEAEAFMAGPQMHGIRGMVQVEVNELHLSHDLKQFYADFNWLNSFEAEVHLSEFGASDQPACWMLLGYACGYSSFVMGQTIIYQETHCVAQGDEHCRIIGKPLSEWDAVSDEIIALQAEL LEQNKDIQDLLDKIVFDAQHGQIWFDENRMLLMHTSILGFLRKDLYQMLGLERTKRFFIRCGYQAGMRDAEVTSKLRPNLNEAEAFMAGPQMHGIRGMVQVEVNELHLSHDLKQFYADFNWLNSFEAEVHLSEFGASDQPACWMLLGYACGYSSFVMGQTIIYQETHCVAQGDEHCRIIGKPLSEWENALIRFMSPDAVSDEIIAL 5kbp-a1-m1-cB_5kbp-a1-m1-cA The crystal structure of an alpha-mannosidase from Enterococcus faecalis V583 Q834E8 Q834E8 2.4 X-RAY DIFFRACTION 149 0.999 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 884 886 3lvt-a2-m1-cA_3lvt-a2-m2-cA KKKVYIVSHSHWDREWYLPYEEHHMRLIELVDNVLDLIENDPEFNSFHLDGQTIILDDYLQVRPEKKEAVKKAVQAGKLKIGPFYILQDDFLISSESNVRNMLIGHLESQKWGAPVQLGYFPDTFGNMGQTPQMMQLANLPAAAFGRGVKPISDYSSQYSEMWWEGPDQTKIFGLLFANWYSNGNEIPSEKEAAIAFWKQKLADVERYASTNHLLMMNGVDHQPVQRDITKAIALANELFPEYEFIHSNFDDYLKAVQEELPEDLGTVTGELTSQETDGWYTLANTSSARVYLKQWNTKVQRQLENIAEPLAAMAYEVTGDYPHDQFDYAWKTLLQNHPHDSICGCSVDEVHRGMMTRFENANDVGHFLADEATRQLTEAIDTSVFPEKAHPFVLFNTSGYQKTEVVTVEVEIERLPFYGKPEDLYHELKQKATPDYQVIDPTGKAVASRIVKEDVRFGYDLPKDAFRQPYMAKYLTVELSVKEMAPFSWDSFALIQGETKAFEGSLLAQPATNEMENEFIQVKIENNGSLTIADKKTGETFSKLLTFEDTGDIGNEYIFFKPTEDQGITTENVTAEITNKENSPVKASYQIKQTVMLPVAADERLEEEQKAVREFRERLAQRSTTLRPFEITTMVTMIKESNQLFFETTINNQIKDHRLRVLFPTGMVTETHEADSIYEVVTRPNQVSDTWENPTNPQHQQAFVNVHDQNKGVTIFNEGLNEYEVLADGTIAVTLIRCVGELGDWGYFATPEAQCQGEYTFKYGLSLHGKPEERFATYQQAYSAQIPFTAATTARHEGKLAPNHVYLTHAEGPIGWTAVKRQEQTNHLVVRGFNLTAQNIPCELHKETQPATCLTNVLEEPLTPAIEVDAPLRPFEIRTWRFE KKKVYIVSHSHWDREWYLPYEEHHMRLIELVDNVLDLIENDPEFNSFHLDGQTIILDDYLQVRPEKKEAVKKAVQAGKLKIGPFYILQDDFLISSESNVRNMLIGHLESQKWGAPVQLGYFPDTFGNMGQTPQMMQLANLPAAAFGRGVKPIGFDYSSQYSEMWWEGPDQTKIFGLLFANWYSNGNEIPSEKEAAIAFWKQKLADVERYASTNHLLMMNGVDHQPVQRDITKAIALANELFPEYEFIHSNFDDYLKAVQEELPEDLGTVTGELTSQETDGWYTLANTSSARVYLKQWNTKVQRQLENIAEPLAAMAYEVTGDYPHDQFDYAWKTLLQNHPHDSICGCSVDEVHRGMMTRFENANDVGHFLADEATRQLTEAIDTSVFPEKAHPFVLFNTSGYQKTEVVTVEVEIERLPFYTGKPEDLYHELKQKATPDYQVIDPTGKAVASRIVKEDVRFGYDLPKDAFRQPYMAKYLTVELSVKEMAPFSWDSFALIQGETKAFEGSLLAQPATNEMENEFIQVKIENNGSLTIADKKTGETFSKLLTFEDTGDIGNEYIFFKPTEDQGITTENVTAEITNKENSPVKASYQIKQTVMLPVAADERLEEEQKAVREFRERLAQRSTTLRPFEITTMVTMIKESNQLFFETTINNQIKDHRLRVLFPTGMVTETHEADSIYEVVTRPNQVSDTWENPTNPQHQQAFVNVHDQNKGVTIFNEGLNEYEVLADGTIAVTLIRCVGELGDWGYFATPEAQCQGEYTFKYGLSLHGKPEERFATYQQAYSAQIPFTAATTARHEGKLAPNHVYLTHAEGPIGWTAVKRQEQTNHLVVRGFNLTAQNIPCELHKETQPATCLTNVLEEPLTPAIEVDAPLRPFEIRTWRFE 5kby-a3-m2-cC_5kby-a3-m1-cB Crystal structure of dipeptidyl peptidase IV in complex with SYR-472 P27487 P27487 2.24 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 717 733 1r9m-a3-m2-cC_1r9m-a3-m1-cB 3o95-a1-m2-cC_3o95-a1-m1-cB 3o9v-a1-m2-cC_3o9v-a1-m1-cB 3opm-a1-m2-cC_3opm-a1-m1-cB 4g1f-a7-m4-cD_4g1f-a7-m1-cB RKTYTLTDYLKNTYRLKLYSLRWISDHEYLYILVFNAEYVFLENTFDEFGHSINDYSISPDGQFILLEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWVTWSPVGHKLAYVWNNDIYVKIEPNLPSYRITWTGKEDIIYNGITDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRVPYPKAGAVNPTVKFFVVNTDSLSSVTNATSIQITAPASMLIGDHYLCDVTWATQERISLQWLRRIQNYSVMDICDYDESSGRWNCLVARQHIEMSTTGWVGRFRPSEPHFTLDGNSFYKIISNEEGYRHICYFQIDKKDCTFITKGTWEVIGIEALTSDYLYYISNEYKGMPGGRNLYKIQLSDYTKVTCLSCELNPERCQYYSVSFSKEAKYYQLRCSGPGLPLYTLHSSVNDKGLRVLEDNSALDKMLQNVQMPSKKLDFIILNETKFWYQMILPPHFDKSKKYPLLLDVYAGPCSQKADTVFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAARQFSKMGFVDNKRIAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDVGVDFQAMWYTDEDHGIASSTAHQHIYTHMSHFIKQCFSLP HHHHHSRKTYTLTDYLKNTYRLKLYSLRWISDHEYLYKQENNILVFNAEYGNSSVFLENSTFDEFGHSINDYSISPDGQFILLEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWVTWSPVGHKLAYVWNNDIYVKIEPNLPSYRITWTGKEDIIYNGITDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRVPYPKAGAVNPTVKFFVVNTDSLSSVTNATSIQITAPASMLIGDHYLCDVTWATQERISLQWLRRIQNYSVMDICDYDESSGRWNCLVARQHIEMSTTGWVGRFRPSEPHFTLDGNSFYKIISNEEGYRHICYFQIDKKDCTFITKGTWEVIGIEALTSDYLYYISNEYKGMPGGRNLYKIQLSDYTKVTCLSCELNPERCQYYSVSFSKEAKYYQLRCSGPGLPLYTLHSSVNDKGLRVLEDNSALDKMLQNVQMPSKKLDFIILNETKFWYQMILPPHFDKSKKYPLLLDVYAGPCSQKADTVFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAARQFSKMGFVDNKRIAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDVGVDFQAMWYTDEDHGIASSTAHQHIYTHMSHFIKQCFSLP 5kc1-a2-m1-cH_5kc1-a2-m1-cF Structure of the C-terminal dimerization domain of Atg38 Q05789 Q05789 2.2 X-RAY DIFFRACTION 47 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 53 61 5kc1-a1-m1-cD_5kc1-a1-m1-cB 5kc1-a3-m1-cJ_5kc1-a3-m1-cL MKINLRLEQFKKELVLYEQKKFKEYGMKIDEITKENKKLANEIGRLRERWDSL KNSEMKINLRLEQFKKELVLYEQKKFKEYGMKIDEITKENKKLANEIGRLRERWDSLVESA 5kck-a1-m1-cA_5kck-a1-m2-cA Crystal structure of anthranilate synthase component I from Streptococcus pneumoniae TIGR4 A0A0H2URN1 A0A0H2URN1 2.2 X-RAY DIFFRACTION 312 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 421 421 SNAERIIHGDVLSPILAYRLKGQHKVILESIPARFSILAYNPVFEIKFENGVLYQNGQVIDRDPLDFLYEVIHKSQHHSELPFGGGAIGFVGYDISLYEEIGQIPEDTIGTPDHFFVYESYVFDHKKEKIHVIEDALYSERSQEALEKSLNQVLEELRIPAPNEFEDLDLSPLDFKPHIAPHKFEGVETARDLIRNGDFQCVLSQRFSAEVTGNPFDFYRNLRVTNPSNYLYFYDFGDYQIIGASPESLVSVKNGIVTTNPIAEEDKALATDLLSDEKETAEHRLVDLGRNDIGRISETTSVQVTKYEVELFRYVHLTSVVKGRLLPELTADALKATLPAGTVSGAPKIRARRIYELETEKRGVYAGAIGYLSATGDDLAIAIRTILKNQRAYVQAGAGIVYDSIAQNEYQETINKAKSTR SNAERIIHGDVLSPILAYRLKGQHKVILESIPARFSILAYNPVFEIKFENGVLYQNGQVIDRDPLDFLYEVIHKSQHHSELPFGGGAIGFVGYDISLYEEIGQIPEDTIGTPDHFFVYESYVFDHKKEKIHVIEDALYSERSQEALEKSLNQVLEELRIPAPNEFEDLDLSPLDFKPHIAPHKFEGVETARDLIRNGDFQCVLSQRFSAEVTGNPFDFYRNLRVTNPSNYLYFYDFGDYQIIGASPESLVSVKNGIVTTNPIAEEDKALATDLLSDEKETAEHRLVDLGRNDIGRISETTSVQVTKYEVELFRYVHLTSVVKGRLLPELTADALKATLPAGTVSGAPKIRARRIYELETEKRGVYAGAIGYLSATGDDLAIAIRTILKNQRAYVQAGAGIVYDSIAQNEYQETINKAKSTR 5kdg-a2-m1-cA_5kdg-a2-m2-cA Crystal Structure of Salmonella Typhimurium Effector GtgE Q9XC73 Q9XC73 1.73 X-RAY DIFFRACTION 165 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 186 186 QGQIIHHRNFQSLYNNSWVCSLNVIKSRDGNNYSALEQAFNNILEGIDIIECENLLKEMNVQKIPESSLFTNIKEALQAEVFNSTVEDNFESFISYELQNHGPLMLIRPSLGSECLHAECIVGYDSEVKKVLIYDSMNTSPEWQSNIDVYDKLTLAFNDKYKNEDCSICGLYYDGVYEPKLEHHHH QGQIIHHRNFQSLYNNSWVCSLNVIKSRDGNNYSALEQAFNNILEGIDIIECENLLKEMNVQKIPESSLFTNIKEALQAEVFNSTVEDNFESFISYELQNHGPLMLIRPSLGSECLHAECIVGYDSEVKKVLIYDSMNTSPEWQSNIDVYDKLTLAFNDKYKNEDCSICGLYYDGVYEPKLEHHHH 5ked-a6-m3-cC_5ked-a6-m1-cA Structure of the 2.65 Angstrom P2(1) crystal of K. pneumonia MrkH G3FT00 G3FT00 2.65 X-RAY DIFFRACTION 114 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 226 231 5kec-a3-m1-cD_5kec-a3-m1-cA 5ked-a5-m1-cB_5ked-a5-m2-cD EGTIKTSKYEIIAIFREELRKRTEIEIFFNNTSIITQLTRVDFAEFHIQTHRKIPSGHKIRFLLHSDSGKIEFNAALTKHDNSGVDKGIRYAFSLPECLQVVQRRRDPRFRLRHEHDFYCRGRHKNGENYLFDIKDISDGGCALMTKTPNLKFLSHNALLKNAVLMLAEYGEITIDLVVKNVIVITLDESESYYQISCQFKFRHLDDQRRIEKILLDLILEAKRKK GSHMTEGTIKTSKYEIIAIFREELRKRTEIEIFFNNTSIITQLTRVDFAEFHIQTHRKIPSGHKIRFLLHSDSGKIEFNAALTKHDNSGVDKGIRYAFSLPECLQVVQRRRDPRFRLRHEHDFYCRGRHKNGENYLFDIKDISDGGCALMTKTPNLKFLSHNALLKNAVLMLAEYGEITIDLVVKNVIVITLDESESYYQISCQFKFRHLDDQRRIEKILLDLILEAKRKK 5kef-a1-m1-cA_5kef-a1-m1-cB Structure of hypothetical Staphylococcus protein SA0856 with zinc T1YBT4 T1YBT4 2.23 X-RAY DIFFRACTION 133 1.0 1193576 (Staphylococcus aureus subsp. aureus CN1) 1193576 (Staphylococcus aureus subsp. aureus CN1) 144 152 3l20-a1-m1-cB_3l20-a1-m1-cA MTALFPYIAFENSKEALAYYEEVFGATDVKRLEVGEEQASHFGMTKEEAQEATMHAEFEVLGVKVLCSDSFGRADKINNGISLLIDYDVNNKEDADKVEAFYEQIKDHSSIEIELPFADQFWGGKMGVFTDKYGVRWMLHGQDY MVFYMTALFPYIAFENSKEALAYYEEVFGATDVKRLEVGEEQASHFGMTKEEAQEATMHAEFEVLGVKVLCSDSFGRADKINNGISLLIDYDVNNKEDADKVEAFYEQIKDHSSIEIELPFADQFWGGKMGVFTDKYGVRWMLHGQDYTAIQ 5kem-a1-m1-cA_5kem-a1-m1-cF EBOV sGP in complex with variable Fab domains of IgGs c13C6 and BDBV91 Q05320 Q05320 5.5 ELECTRON MICROSCOPY 66 1.0 128952 (Ebola virus - Mayinga, Zaire, 1976) 128952 (Ebola virus - Mayinga, Zaire, 1976) 232 232 CRDKLSSTNQLRSVGLNLEGNGVATDVPSATKRWGFRSGVPPKVVNYEAGEWAENCYNLEIKKPDGSECLPAAPDGIRGFPRCRYVHKVSGTGPCAGDFAFHKEGAFFLYDRLASTVIYRGTTFAEGVVAFLILPQAKKDFFSSHPLREPVNATEDPSSGYYSTTIRYQATGFGTNETEYLFEVDNLTYVQLESRFTPQFLLQLNETIYTSGKRSNTTGKLIWKVNPEIDTT CRDKLSSTNQLRSVGLNLEGNGVATDVPSATKRWGFRSGVPPKVVNYEAGEWAENCYNLEIKKPDGSECLPAAPDGIRGFPRCRYVHKVSGTGPCAGDFAFHKEGAFFLYDRLASTVIYRGTTFAEGVVAFLILPQAKKDFFSSHPLREPVNATEDPSSGYYSTTIRYQATGFGTNETEYLFEVDNLTYVQLESRFTPQFLLQLNETIYTSGKRSNTTGKLIWKVNPEIDTT 5keu-a2-m1-cA_5keu-a2-m2-cB Crystal Structure of a Taurine Dioxygenase from Burkholderia xenovorans Q13IQ2 Q13IQ2 1.85 X-RAY DIFFRACTION 20 0.993 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 271 280 5keu-a2-m2-cA_5keu-a2-m1-cB PSIQVKPLSAHIGAELHGVDLTRKLDPSEVAQIRAALLRWRVVFFREQFLTHEQHVAFSAQFGEPTLGHVDGHPEVYSISKYQALLRPWTGWHTDVTAALNPPWASILRGVTIPPYGGDTQWTNLALAYEKLSAPLRAFVDGLRGVHRFTPVLVTEHPLVRVHPETGERVLYVSPSFLKSIVGVTPRESEALLELLWEHATRPEFTVRFKWEAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGRQSVAIEGAAAVALN PSIQVKPLSAHIGAELHGVDLTRKLDPSEVAQIRAALLRWRVVFFREQFLTHEQHVAFSAQFGEPTLGHPVFGHVDGHPEVYSISQALLRPWTGWHTDVTAALNPPWASILRGVTIPPYGGDTQWTNLALAYEKLSAPLRAFVDGLRGVHRFTPPVLVTEHPLVRVHPETGERVLYVSPSFLKSIVGVTPRESEALLELLWEHATRPEFTVRFKWEAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGRQSVAIEGSPVSAAAAVALN 5keu-a2-m2-cA_5keu-a2-m2-cB Crystal Structure of a Taurine Dioxygenase from Burkholderia xenovorans Q13IQ2 Q13IQ2 1.85 X-RAY DIFFRACTION 65 0.993 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 271 280 5keu-a1-m1-cA_5keu-a1-m1-cB 5keu-a2-m1-cA_5keu-a2-m1-cB PSIQVKPLSAHIGAELHGVDLTRKLDPSEVAQIRAALLRWRVVFFREQFLTHEQHVAFSAQFGEPTLGHVDGHPEVYSISKYQALLRPWTGWHTDVTAALNPPWASILRGVTIPPYGGDTQWTNLALAYEKLSAPLRAFVDGLRGVHRFTPVLVTEHPLVRVHPETGERVLYVSPSFLKSIVGVTPRESEALLELLWEHATRPEFTVRFKWEAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGRQSVAIEGAAAVALN PSIQVKPLSAHIGAELHGVDLTRKLDPSEVAQIRAALLRWRVVFFREQFLTHEQHVAFSAQFGEPTLGHPVFGHVDGHPEVYSISQALLRPWTGWHTDVTAALNPPWASILRGVTIPPYGGDTQWTNLALAYEKLSAPLRAFVDGLRGVHRFTPPVLVTEHPLVRVHPETGERVLYVSPSFLKSIVGVTPRESEALLELLWEHATRPEFTVRFKWEAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGRQSVAIEGSPVSAAAAVALN 5keu-a4-m1-cB_5keu-a4-m2-cB Crystal Structure of a Taurine Dioxygenase from Burkholderia xenovorans Q13IQ2 Q13IQ2 1.85 X-RAY DIFFRACTION 46 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 280 280 5keu-a2-m1-cA_5keu-a2-m2-cA 5keu-a2-m1-cB_5keu-a2-m2-cB 5keu-a3-m1-cA_5keu-a3-m2-cA PSIQVKPLSAHIGAELHGVDLTRKLDPSEVAQIRAALLRWRVVFFREQFLTHEQHVAFSAQFGEPTLGHPVFGHVDGHPEVYSISQALLRPWTGWHTDVTAALNPPWASILRGVTIPPYGGDTQWTNLALAYEKLSAPLRAFVDGLRGVHRFTPPVLVTEHPLVRVHPETGERVLYVSPSFLKSIVGVTPRESEALLELLWEHATRPEFTVRFKWEAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGRQSVAIEGSPVSAAAAVALN PSIQVKPLSAHIGAELHGVDLTRKLDPSEVAQIRAALLRWRVVFFREQFLTHEQHVAFSAQFGEPTLGHPVFGHVDGHPEVYSISQALLRPWTGWHTDVTAALNPPWASILRGVTIPPYGGDTQWTNLALAYEKLSAPLRAFVDGLRGVHRFTPPVLVTEHPLVRVHPETGERVLYVSPSFLKSIVGVTPRESEALLELLWEHATRPEFTVRFKWEAGSVAFWDNRATAHLAPTDIFDLDFDRQLYRTTLVGDVPVGPDGRQSVAIEGSPVSAAAAVALN 5kev-a2-m1-cB_5kev-a2-m2-cB Vibrio parahaemolyticus VtrA/VtrC complex Q87GI3 Q87GI3 2.7 X-RAY DIFFRACTION 67 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 126 126 PVHFYETSYKYQAADSTYMHDVAINVSIKGNHFTSDIIIRELVKSENKNYYNVIGHGDIIQKNTHQYYLNFDNIDVYTGTNKYKEPTSISSLINKSNNIRVVYLSEEYVVVEFFFYDGQIITLHRY PVHFYETSYKYQAADSTYMHDVAINVSIKGNHFTSDIIIRELVKSENKNYYNVIGHGDIIQKNTHQYYLNFDNIDVYTGTNKYKEPTSISSLINKSNNIRVVYLSEEYVVVEFFFYDGQIITLHRY 5kf9-a1-m1-cA_5kf9-a1-m2-cA X-ray structure of a glucosamine N-Acetyltransferase from Clostridium acetobutylicum in complex with N-acetylglucosamine Q97ML2 Q97ML2 1.49 X-RAY DIFFRACTION 74 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 317 317 5kf1-a1-m1-cB_5kf1-a1-m1-cA 5kf2-a1-m1-cA_5kf2-a1-m2-cA 5kf8-a1-m1-cA_5kf8-a1-m2-cA 5kga-a1-m1-cA_5kga-a1-m1-cB 5kgh-a1-m1-cB_5kgh-a1-m1-cA 5kgj-a1-m1-cA_5kgj-a1-m2-cA 5kgp-a1-m1-cA_5kgp-a1-m1-cB MEIKETYDFSSIVDLWNKNIGTVYPMNLELFKQNYINDRQRKKIMGAFNGEILIGFVIYKQWTYKSGSLKPNHKIGYINSIIVDINFRHQGIGTKLLDAAEEELINSGVKILRCGSDTYHFFPGIPLECLPSEEFFLVRGYKMQDYFYDLIGDVSKVDFKKPSIKDGFKVNVMKPEDRKGLFEFLEKSFSGRWLEEFIEFFQVGMKERDIVLIKYKTSVIGFSHIYDNKSSFIGPPIYWKALLGHNYGGLGPIGIDKTYRKQGLGRLLLYESLQILKKREVKKMVIDWTEKDIINFYGRFNFMPWKAYRKATKEVKD MEIKETYDFSSIVDLWNKNIGTVYPMNLELFKQNYINDRQRKKIMGAFNGEILIGFVIYKQWTYKSGSLKPNHKIGYINSIIVDINFRHQGIGTKLLDAAEEELINSGVKILRCGSDTYHFFPGIPLECLPSEEFFLVRGYKMQDYFYDLIGDVSKVDFKKPSIKDGFKVNVMKPEDRKGLFEFLEKSFSGRWLEEFIEFFQVGMKERDIVLIKYKTSVIGFSHIYDNKSSFIGPPIYWKALLGHNYGGLGPIGIDKTYRKQGLGRLLLYESLQILKKREVKKMVIDWTEKDIINFYGRFNFMPWKAYRKATKEVKD 5kg8-a1-m1-cB_5kg8-a1-m1-cC Rigor myosin X co-complexed with an actin filament P68135 P68135 9.1 ELECTRON MICROSCOPY 31 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 313 313 TTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEAQSKRGILTLKYPIECGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEGYALPHAIMRLYSFVTTAEREIVRDIKEKLCYVALDFENEMATAASSSSLEKSYELPDGQVITIGNERFRCPETLFQPSFIGMESAGIHETTYNYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWITKQEYDEAGPSIVH TTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEAQSKRGILTLKYPIECGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEGYALPHAIMRLYSFVTTAEREIVRDIKEKLCYVALDFENEMATAASSSSLEKSYELPDGQVITIGNERFRCPETLFQPSFIGMESAGIHETTYNYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWITKQEYDEAGPSIVH 5kg8-a1-m1-cC_5kg8-a1-m1-cD Rigor myosin X co-complexed with an actin filament P68135 P68135 9.1 ELECTRON MICROSCOPY 11 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 313 313 5kg8-a1-m1-cB_5kg8-a1-m1-cD TTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEAQSKRGILTLKYPIECGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEGYALPHAIMRLYSFVTTAEREIVRDIKEKLCYVALDFENEMATAASSSSLEKSYELPDGQVITIGNERFRCPETLFQPSFIGMESAGIHETTYNYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWITKQEYDEAGPSIVH TTALVCDNGSGLVKAGFAGDDAPRAVFPSIVGRPRHQGVMVGMGQKDSYVGDEAQSKRGILTLKYPIECGIITNWDDMEKIWHHTFYNELRVAPEEHPTLLTEKMTQIMFETFNVPAMYVAIQAVLSLYASGRTTGIVLDSGDGVTHNVPIYEGYALPHAIMRLYSFVTTAEREIVRDIKEKLCYVALDFENEMATAASSSSLEKSYELPDGQVITIGNERFRCPETLFQPSFIGMESAGIHETTYNYPGIADRMQKEITALAPSTMKIKIIAPPERKYSVWIGGSILASLSTFQQMWITKQEYDEAGPSIVH 5kgm-a1-m1-cB_5kgm-a1-m1-cA 2.95A resolution structure of Apo independent phosphoglycerate mutase from C. elegans (monoclinic form) G5EFZ1 G5EFZ1 2.95 X-RAY DIFFRACTION 40 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 518 519 AMANNSSVANKVCLIVIDGWGVSEDPYGNAILNAQTPVMDKLCSGNWAQIEAHGLHVGLPEGLMGNSEVGHLNIGAGRVIYQDIVRINLAVKNNKFVTNESLVDACDRAKNGNGRLHLAGLVSDGGVHSHIDHMFALVKAIKELGVPELYLHFYGDGRDTSPNSGVGFLEQTLEFLETGYGKLATVVGRYYAMDRDNRWERINVAYEAMIGGVGETSDEAGVVEVVRKRYAADETDEFLKPIILQGEKGRVQNDDTIIFFDYRADRMREISAAMGMDRYKDCNSKLAHPSNLQVYGMTQYKAEFPFKSLFPPASNKNVLAEWLAEQKVSQFHCAETEKYAHVTFFFNGGLEKQFEGEERCLVPSPKVATYDLQPEMSAAGVADKMIEQLEAGTHPFIMCNFAPPDMVGHTGVYEAAVKACEATDIAIGRIYEATQKHGYSLMVTADHGNAEKMKAPDGGKHTAHTCYRVPLTLSHPGFKFVDPADRHPALCDVAPTVLAIMGLPQPAEMTGVSIVQKI AMANNSSVANKVCLIVIDGWGVSEDPYGNAILNAQTPVMDKLCSGNWAQIEAHGLHVGLPEGLMGNSEVGHLNIGAGRVIYQDIVRINLAVKNNKFVTNESLVDACDRAKNGNGRLHLAGLVSDGGVHSHIDHMFALVKAIKELGVPELYLHFYGDGRDTSPNSGVGFLEQTLEFLETTGYGKLATVVGRYYAMDRDNRWERINVAYEAMIGGVGETSDEAGVVEVVRKRYAADETDEFLKPIILQGEKGRVQNDDTIIFFDYRADRMREISAAMGMDRYKDCNSKLAHPSNLQVYGMTQYKAEFPFKSLFPPASNKNVLAEWLAEQKVSQFHCAETEKYAHVTFFFNGGLEKQFEGEERCLVPSPKVATYDLQPEMSAAGVADKMIEQLEAGTHPFIMCNFAPPDMVGHTGVYEAAVKACEATDIAIGRIYEATQKHGYSLMVTADHGNAEKMKAPDGGKHTAHTCYRVPLTLSHPGFKFVDPADRHPALCDVAPTVLAIMGLPQPAEMTGVSIVQKI 5kh0-a2-m1-cC_5kh0-a2-m1-cD Crystal Structure of HydF from thermosipho melanesiensis in complex with a [4Fe-4S] cluster A6LMQ7 A6LMQ7 2.8 X-RAY DIFFRACTION 85 1.0 391009 (Thermosipho melanesiensis BI429) 391009 (Thermosipho melanesiensis BI429) 356 356 5kh0-a1-m1-cA_5kh0-a1-m1-cB RKYIAITGRRNVGKSSFMNALIGKSMELSPVGPITLIDIKKAKKSLYRADCGILIVDDIPGNFEEQIIKLFKELEIPYFIAINKIDTIDHENIEKEYKKYNVPILKVSALKKIGFEKIGKTINSILPKDDEIPYLSDLIDGGDLVILVVPIDLGAPKGRLIMPQVHAIREGLDREALVLVVKERELRYAIENIGIKPRLVVTDSQSVMKVVSDVPEDIDLTTFSILESRYRGDLEYFVESVKAVENLKDGDTVIIMEGCTHRPLTEDIGRVKIPRWLTNHTGAALNLKVWAGVDMPELSEIEDAKLIIHCGGCVMNRNNMMRRVRMFKRLNIPMTNYGVVISYLHGVLERAIKPLM RKYIAITGRRNVGKSSFMNALIGKSMELSPVGPITLIDIKKAKKSLYRADCGILIVDDIPGNFEEQIIKLFKELEIPYFIAINKIDTIDHENIEKEYKKYNVPILKVSALKKIGFEKIGKTINSILPKDDEIPYLSDLIDGGDLVILVVPIDLGAPKGRLIMPQVHAIREGLDREALVLVVKERELRYAIENIGIKPRLVVTDSQSVMKVVSDVPEDIDLTTFSILESRYRGDLEYFVESVKAVENLKDGDTVIIMEGCTHRPLTEDIGRVKIPRWLTNHTGAALNLKVWAGVDMPELSEIEDAKLIIHCGGCVMNRNNMMRRVRMFKRLNIPMTNYGVVISYLHGVLERAIKPLM 5kh2-a2-m1-cD_5kh2-a2-m1-cC Crystal Structure of Steptococcus pneumoniae Undecaprenyl pyrophosphate Synthase (UPPS) Q97SR4 Q97SR4 2.3 X-RAY DIFFRACTION 103 0.995 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 217 222 4q9m-a1-m1-cB_4q9m-a1-m1-cA 4q9o-a1-m1-cB_4q9o-a1-m1-cA 5kh2-a1-m1-cB_5kh2-a1-m1-cA 5kh4-a1-m1-cB_5kh4-a1-m1-cA 5kh5-a1-m1-cB_5kh5-a1-m1-cA QVPAHIGIIMDGNGRWAKKRMQPRVFGHKAGMEALQTVTKAANKLGVKVITVYAFKFIMNLPVEFYDNYVPELHANNVKIQMIGETDRLPKQTFEALTKAEELTKNNTGLILNFALNYGGRAEITQALKLISQDVLDAKINPGDITEELIGNYLFTQHLPKDLRDPDLIIRTSGELRLSNFLPWQGAYSELYFTDTLWPDFDEAALQEAILAYNRRH QVPAHIGIIMDGNGRWAKKRMQPRVFGHKAGMEALQTVTKAANKLGVKVITVYAFSPDQEVKFIMNLPVEFYDNYVPELHANNVKIQMIGETDRLPKQTFEALTKAEELTKNNTGLILNFALNYGGRAEITQALKLISQDVLDAKINPGDITEELIGNYLFTQHLPKDLRDPDLIIRTSGELRLSNFLPWQGAYSELYFTDTLWPDFDEAALQEAILAYNRR 5kha-a1-m1-cA_5kha-a1-m1-cB Structure of glutamine-dependent NAD+ synthetase from Acinetobacter baumannii in complex with adenosine diphosphate (ADP) V5VHL3 V5VHL3 2.1 X-RAY DIFFRACTION 359 0.998 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 526 526 KSFKVALAQFSPHIGNIDSNTQKMIEQANQAKKQDADLIIFPELSVIGYPAEDLLLRPNLNKRMQKAFAQLSEVKDIVMVFGFVNQTEDGQRYNSAAVMKDGQVLGVFNKHNLPNYGVFDEKRYFQKGHQHLVFEYLGHKFGVLICEDIWSINTVKQLSQLNVDTVLVLNSSPYEVGKPQHRKQTLSELAKQLHLNIVYVNQVGGQDDLIFDGTSFVSNQNGEIALQAPSFKEDLYIAEFDRDTKLYKVVESAPALETFAEIYQGLVMATRDYVERSGFPGVILGLSGGIDSALTLAIAVDAIGAERVQAVMMPYTYTSQISVEDAAEQARRMGVTFGIAEIHSIVNSFMQTLYPFFGNSPADATEENLQARARGTLLMGLSNKFGNLVLSTGNKSELSVGYCTLYGDMVGGFAVLKDVYKTIVFELAKYRNSLSETPVIPERVITRSLPAYDVLDAILYAYIEEDLGQADIIAKGFDKEVVEKVIRLVDRNEYKRRQGAIGPRITSRAFSRERRYPIVNGWTAND MKSFKVALAQFSPHIGNIDSNTQKMIEQANQAKKQDADLIIFPELSVIGYPAEDLLLRPNLNKRMQKAFAQLSEVKDIVMVFGFVNQTEDGQRYNSAAVMKDGQVLGVFNKHNLPNYGVFDEKRYFQKGHQHLVFEYLGHKFGVLICEDIWSINTVKQLSQLNVDTVLVLNSSPYEVGKPQHRKQTLSELAKQLHLNIVYVNQVGGQDDLIFDGTSFVSNQNGEIALQAPSFKEDLYIAEFDRDTKLYKVVESAPALETFAEIYQGLVMATRDYVERSGFPGVILGLSGGIDSALTLAIAVDAIGAERVQAVMMPYTYTSQISVEDAAEQARRMGVTFGIAEIHSIVNSFMQTLYPFFGSPADATEENLQARARGTLLMGLSNKFGNLVLSTGNKSELSVGYCTLYGDMVGGFAVLKDVYKTIVFELAKYRNSLSETPVIPERVITRSLPAYDVLDAILYAYIEEDLGQADIIAKGFDKEVVEKVIRLVDRNEYKRRQGAIGPRITSRAFSRERRYPIVNGWTAND 5khm-a1-m1-cA_5khm-a1-m1-cB The first BET bromodomain of BRD4 bound to compound 13 in a bivalent manner O60885 O60885 1.48 X-RAY DIFFRACTION 13 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 126 126 MNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTEE SMNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTE 5khn-a1-m1-cA_5khn-a1-m1-cB Crystal structures of the Burkholderia multivorans hopanoid transporter HpnN 3.445 X-RAY DIFFRACTION 177 0.999 87883 (Burkholderia multivorans) 87883 (Burkholderia multivorans) 848 848 5khs-a1-m1-cA_5khs-a1-m1-cB MVTSLIVRLVAWSVRRPVWVVVLSLLIAAFSGVYVARHFKINTDISKLVDAEPQWAALSQAVDRAFPQRNGTILAVVEAPAPEFATAAAHALTESLQKQAAAGRIGPVAEPGGGPFFEHNGLLFLSPQQVADTTSQLASARPLVNELAKNPSLTGLATTLSTTLGQPLLTGQVKLPSMAKLLSRSAATVDDVLAGKPAAFSWRALVDNDAARQPARAFVTVQPVVNAQTSDVIRETARALDLEKRYGAVVRLTGEQPLADDEFSSVEDGAALNGVVTLLVVFVILWLALRSKRMIASVLVTLFVGLVVTAALGLAMVGSLNMISVAFMVLFVGLGVDFSIQYGVKYREERFRGEAIDAALIGAAHSMGMPLALATTAVAASFFSFIPTAYRGVSELGLIAGVGMFVALLTTLTLLPALLRLFAPTPGFPWLAPVDDYLDRHRKPILIGTLAVVIGALPLLAFLHFDFNPLHLKDPHSESMSTLLALKDSPEAAVNDVTLLAPSLADADAAAKRLDALPEVGRTTTLSTFIPADQPEKRAAIATAASTLLPALTQPPAPPATDAQRVAALKRASDLLGYAAEDHPGPGAAAAQHLSQSLAKLAAADSATRDRAERAFADTLRIALNQLAALLQPQEITRDTLPPPLVRDWVAPDGKALVQISPKVPKGVDPNDDTMLRHFATAVKAAEPGAIGGPISILHSANTIISAFLHAALWSIISITILLWITLRRFGDVLRTLVPLLVSGIVTLEMCVVLGMSLNFANIIALPLMLGVGVAFKVYFVMAWRAGQTGLLHSSLTHAVLFSAATTATAFGSLWLSHHPGTSSMGKLLALALTCTLIGAVVFQPVLM MVTSLIVRLVAWSVRRPVWVVVLSLLIAAFSGVYVARHFKINTDISKLVDAEPQWAALSQAVDRAFPQRNGTILAVVEAPAPEFATAAAHALTESLQKQAAAGRIGPVAEPGGGPFFEHNGLLFLSPQQVADTTSQLASARPLVNELAKNPSLTGLATTLSTTLGQPLLTGQVKLPSMAKLLSRSAATVDDVLAGKPAAFSWRALVDNDAARQPARAFVTVQPVVNGAQTSDVIRETARALDLEKRYGAVVRLTGEQPLADDEFSSVEDGAALNGVVTLLVVFVILWLALRSKRMIASVLVTLFVGLVVTAALGLAMVGSLNMISVAFMVLFVGLGVDFSIQYGVKYREERFRGEAIDAALIGAAHSMGMPLALATTAVAASFFSFIPTAYRGVSELGLIAGVGMFVALLTTLTLLPALLRLFAPPGFPWLAPVDDYLDRHRKPILIGTLAVVIGALPLLAFLHFDFNPLHLKDPHSESMSTLLALKDSPEAAVNDVTLLAPSLADADAAAKRLDALPEVGRTTTLSTFIPADQPEKRAAIATAASTLLPALTQPPAPPATDAQRVAALKRASDLLGYAAEDHPGPGAAAAQHLSQSLAKLAAADSATRDRAERAFADTLRIALNQLAALLQPQEITRDTLPPPLVRDWVAPDGKALVQISPKVPKGVDPNDDTMLRHFATAVKAAEPGAIGGPISILHSANTIISAFLHAALWSIISITILLWITLRRFGDVLRTLVPLLVSGIVTLEMCVVLGMSLNFANIIALPLMLGVGVAFKVYFVMAWRAGQTGLLHSSLTHAVLFSAATTATAFGSLWLSHHPGTSSMGKLLALALTCTLIGAVVFQPVLM 5kho-a1-m1-cA_5kho-a1-m1-cB Rasip1 RA domain in complex with Rap1B Q5U651 Q5U651 2.78 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 106 APPGVLKIFGAGLASGANYKSVLATARSTARELVAEALERYGLSCVDAFALCDALGRPWRAEHLRVLGDSERPLLVQELWRARPGWARRFELRGREEARRLEQ APPGVLKIFGAGLASGANYKSVLATARSTARELVAEALERYGLSSCVDAFALCDALGRPWRAEHLRVLGDSERPLLVQELWRARPGWARRFELRGREEARRLEQEA 5kht-a2-m1-cB_5kht-a2-m1-cD Crystal structure of the N-terminal fragment of tropomyosin isoform Tpm1.1 at 1.5 A resolution P03069 P03069 1.4964 X-RAY DIFFRACTION 76 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 47 47 5kht-a1-m1-cA_5kht-a1-m1-cC GMDAIKKKMQMLKLDKENALDRAEQAEADNYHLENEVARLKKLVGER GMDAIKKKMQMLKLDKENALDRAEQAEADNYHLENEVARLKKLVGER 5ki9-a1-m1-cA_5ki9-a1-m2-cA Crystal structure of human beta-defensin 4 (HBD4) Q8WTQ1 Q8WTQ1 1.6 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 40 40 EFELDRICGYGTARCRCRSQEYRIGRCPNTYACCLRWDES EFELDRICGYGTARCRCRSQEYRIGRCPNTYACCLRWDES 5kia-a1-m1-cA_5kia-a1-m2-cA Crystal structure of L-threonine 3-dehydrogenase from Burkholderia thailandensis Q2T9E1 Q2T9E1 2.1 X-RAY DIFFRACTION 76 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 339 339 HMKALAKLEPGLTLTRVKKPEVGHNDVLIKIRRTAICGTDIHIWKWDDWAQKTIPVMHVGHEYVGEIVEMGQEVRGFSIGDRVSGEGHITCGFCRNCRAGRRHLCRNTVGVGVNREGAFAEYLAIPAFNAFKIPPEISDDLAAIFDPFGNATHTALSFNLVGEDVLITGAGPIGVMAVAIAKHVGARNVVITDINDYRLDLARRMGATRAVNVSRESLRDVMADLHMTEGFDVGLEMSGVPSAFTSLLESMNHGGKVALLGIPPAQTAIDWNQVIFKGLEIKGIYGREMFETWYKMVAMLQSGLDLSPIITHRFAVDDYEKGFAAMLSGESGKVILDWA HMKALAKLEPGLTLTRVKKPEVGHNDVLIKIRRTAICGTDIHIWKWDDWAQKTIPVMHVGHEYVGEIVEMGQEVRGFSIGDRVSGEGHITCGFCRNCRAGRRHLCRNTVGVGVNREGAFAEYLAIPAFNAFKIPPEISDDLAAIFDPFGNATHTALSFNLVGEDVLITGAGPIGVMAVAIAKHVGARNVVITDINDYRLDLARRMGATRAVNVSRESLRDVMADLHMTEGFDVGLEMSGVPSAFTSLLESMNHGGKVALLGIPPAQTAIDWNQVIFKGLEIKGIYGREMFETWYKMVAMLQSGLDLSPIITHRFAVDDYEKGFAAMLSGESGKVILDWA 5kin-a1-m1-cB_5kin-a1-m1-cD Crystal structure of tryptophan synthase alpha beta complex from Streptococcus pneumoniae Q97P32 Q97P32 2.45 X-RAY DIFFRACTION 96 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 398 398 QEPNKDGFYGKFGGRFVPETLMTAVLELEKAYRESQADPSFQEELNQLLRQYVGRETPLYYAKNLTQHIGGAKIYLKREDLNHTGAHINNALGQVWLAKRMGKKKIIAETGAGQHGVATATAAALFNMECTIYMGEEDVKRQALNVFRMELLGAKVEAVTDGSRVLKDAVNAALRSWVANIDDTHYILGSALGPHPFPEIVRDFQSVIGREAKQQYRDLTGRDLPDALVACVGGGSNAIGLFHPFVEDESVAMYGTEAAGLGVDTEHHAATLTKGRPGVLHGSLMDVLQDAHGQILEAFSISAGLDYPGIGPEHSHYHDIKRASYVPVTDEEALEGFQLLSRVEGIIPALESSHAIAFAVKLAKELGPEKSMIVCLSGRGDKDVVQVKDRLEADAAKK QEPNKDGFYGKFGGRFVPETLMTAVLELEKAYRESQADPSFQEELNQLLRQYVGRETPLYYAKNLTQHIGGAKIYLKREDLNHTGAHINNALGQVWLAKRMGKKKIIAETGAGQHGVATATAAALFNMECTIYMGEEDVKRQALNVFRMELLGAKVEAVTDGSRVLKDAVNAALRSWVANIDDTHYILGSALGPHPFPEIVRDFQSVIGREAKQQYRDLTGRDLPDALVACVGGGSNAIGLFHPFVEDESVAMYGTEAAGLGVDTEHHAATLTKGRPGVLHGSLMDVLQDAHGQILEAFSISAGLDYPGIGPEHSHYHDIKRASYVPVTDEEALEGFQLLSRVEGIIPALESSHAIAFAVKLAKELGPEKSMIVCLSGRGDKDVVQVKDRLEADAAKK 5kko-a1-m1-cA_5kko-a1-m2-cE A 1.55A X-Ray Structure from Vibrio cholerae O1 biovar El Tor of a Hypothetical Protein 1.55 X-RAY DIFFRACTION 14 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 51 52 AKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDEF NAKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDEF 5kko-a1-m1-cA_5kko-a1-m3-cB A 1.55A X-Ray Structure from Vibrio cholerae O1 biovar El Tor of a Hypothetical Protein 1.55 X-RAY DIFFRACTION 19 0.98 666 (Vibrio cholerae) 666 (Vibrio cholerae) 51 52 AKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDEF SNAKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDE 5kko-a1-m2-cE_5kko-a1-m3-cC A 1.55A X-Ray Structure from Vibrio cholerae O1 biovar El Tor of a Hypothetical Protein 1.55 X-RAY DIFFRACTION 26 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 52 53 NAKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDEF SNAKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDEF 5kko-a1-m3-cB_5kko-a1-m3-cC A 1.55A X-Ray Structure from Vibrio cholerae O1 biovar El Tor of a Hypothetical Protein 1.55 X-RAY DIFFRACTION 72 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 52 53 5kko-a1-m1-cD_5kko-a1-m1-cA SNAKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDE SNAKYFQIDELTLNALRITTIESLTPEQRLELIKAHLLNIKTPSDDNEPWDEF 5kkr-a1-m1-cB_5kkr-a1-m2-cB KSR2:MEK1 Complex Bound to the Small Molecule APS-2-79 Q6VAB6 Q6VAB6 3.509 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 272 SQTSIFLQEWDIPFEQLEIGELIGFGQVYHGRWHGEVAIRLIDIERDNEDQLKAFKREVMAYRQTRHENVVLFMGACMSPPHLAIITSLCKGRTLYSVVRDAKIVLDVNKTRQIAQEIVKGMGYLHAKGILHKDLKSKNVFYDNGKVVITDFGLFSISGVLQDKLRIQNGWLCHLAPEIIRQLSPDDKLPFSKHSDVFALGTIWYELHAREWPFKTQPAEAIIWQMGTGMKPNLSQIGMGKEISDILLFCWAFEQEERPTFTKLMDMLEKLP SQTSIFLQEWDIPFEQLEIGELIGFGQVYHGRWHGEVAIRLIDIERDNEDQLKAFKREVMAYRQTRHENVVLFMGACMSPPHLAIITSLCKGRTLYSVVRDAKIVLDVNKTRQIAQEIVKGMGYLHAKGILHKDLKSKNVFYDNGKVVITDFGLFSISGVLQDKLRIQNGWLCHLAPEIIRQLSPDDKLPFSKHSDVFALGTIWYELHAREWPFKTQPAEAIIWQMGTGMKPNLSQIGMGKEISDILLFCWAFEQEERPTFTKLMDMLEKLP 5kks-a1-m1-cA_5kks-a1-m1-cB ROCK 1 bound to azaindole thiazole inhibitor Q13464 Q13464 3.3 X-RAY DIFFRACTION 96 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 395 395 2esm-a1-m1-cB_2esm-a1-m1-cA 2etk-a1-m1-cB_2etk-a1-m1-cA 2etr-a1-m1-cB_2etr-a1-m1-cA 3d9v-a1-m1-cB_3d9v-a1-m1-cA 3ncz-a1-m1-cB_3ncz-a1-m1-cA 3ncz-a2-m1-cC_3ncz-a2-m1-cD 3ndm-a1-m1-cA_3ndm-a1-m1-cB 3ndm-a2-m1-cC_3ndm-a2-m1-cD 3tv7-a1-m1-cA_3tv7-a1-m1-cB 3tv7-a2-m1-cC_3tv7-a2-m1-cD 3twj-a1-m1-cB_3twj-a1-m1-cA 3twj-a2-m1-cD_3twj-a2-m1-cC 3v8s-a1-m1-cA_3v8s-a1-m1-cB 3v8s-a2-m1-cC_3v8s-a2-m1-cD 4w7p-a1-m1-cB_4w7p-a1-m1-cA 4w7p-a2-m1-cC_4w7p-a2-m1-cD 4w7p-a3-m1-cB_4w7p-a3-m1-cA 4w7p-a3-m1-cC_4w7p-a3-m1-cD 4yvc-a1-m1-cA_4yvc-a1-m1-cB 4yve-a1-m1-cA_4yve-a1-m1-cB 5bml-a1-m1-cA_5bml-a1-m1-cB 5hvu-a1-m1-cA_5hvu-a1-m1-cB 5kkt-a1-m1-cA_5kkt-a1-m1-cB 5uzj-a1-m1-cB_5uzj-a1-m1-cA 5wne-a2-m1-cC_5wne-a2-m1-cD 5wnf-a1-m1-cB_5wnf-a1-m1-cA 5wnf-a2-m1-cC_5wnf-a2-m1-cD 5wng-a1-m1-cB_5wng-a1-m1-cA 5wng-a2-m1-cC_5wng-a2-m1-cD 5wnh-a1-m1-cB_5wnh-a1-m1-cA 5wnh-a2-m1-cC_5wnh-a2-m1-cD 6e9w-a1-m2-cB_6e9w-a1-m1-cA 7jou-a1-m1-cA_7jou-a1-m2-cA 7s25-a1-m1-cA_7s25-a1-m1-cB 7s25-a2-m1-cD_7s25-a2-m1-cC 7s26-a1-m1-cB_7s26-a1-m1-cA 7s26-a2-m1-cD_7s26-a2-m1-cC SFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSDSAFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSQGGDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEEETFPIPKAFVGNQLPFVGFTYYSNRRY MSFETRFEKMDNLLRDPKSEVNSDCLLDGLDALVYDLDFPALRKNKNIDNFLSRYKDTINKIRDLRMKAEDYEVVKVIGRGAFGEVQLVRHKSTRKVYAMKLLSKFEMIKRSDSAFFWEERDIMAFANSPWVVQLFYAFQDDRYLYMVMEYMPGGDLVNLMSNYDVPEKWARFYTAEVVLALDAIHSMGFIHRDVKPDNMLLDKSGHLKLADFGTCMKMNKEGMVRCDTAVGTPDYISPEVLKSQGGDGYYGRECDWWSVGVFLYEMLVGDTPFYADSLVGTYSKIMNHKNSLTFPDDNDISKEAKNLICAFLTDREVRLGRNGVEEIKRHLFFKNDQWAWETLRDTVAPVVPDLSSDIDTSNFDDLEGEEETFPIPKAFVGNQLPFVGFTYYSN 5klf-a2-m1-cA_5klf-a2-m2-cA Structure of CBM_E1, a novel carbohydrate-binding module found by sugar cane soil metagenome, complexed with cellopentaose and gadolinium ion A0A0R5P8X1 A0A0R5P8X1 1.801 X-RAY DIFFRACTION 32 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 92 92 ASCGSGNFNKTAAKGVEFSAVAGDCIKYNKSSGTLQIGSWTGVASSYNITSGPQGITNTGNGWTTVANAANGDLYIKIVSASRSFNVKFDNW ASCGSGNFNKTAAKGVEFSAVAGDCIKYNKSSGTLQIGSWTGVASSYNITSGPQGITNTGNGWTTVANAANGDLYIKIVSASRSFNVKFDNW 5knk-a1-m1-cB_5knk-a1-m2-cB Lipid A secondary acyltransferase LpxM from Acinetobacter baumannii with catalytic residue substitution (E127A) S3TFW2 S3TFW2 1.9 X-RAY DIFFRACTION 166 1.0 1217634 (Acinetobacter baumannii NIPH 410) 1217634 (Acinetobacter baumannii NIPH 410) 324 324 5kn7-a1-m1-cB_5kn7-a1-m2-cB PDSKSMNYQLLKTFSRQPIQFGRFLARLLAGLVNTLKITRTSKSIELNLRIALPYLTPQQRIAITEKAVRNELTSYFEFLSIWGSSNSKNISRIHRIEGEHFFHEALAAKKGVVLIVPHFGTWAVMNAWCAQFTSMTILYKPVKNADADRFVREARSREQANLVPTDESGVRQIFKALKQGETTVILPDHTPNVGGDMVNYFGVPLASSNLSAKLIQKTKAKALFLYAIRNENDGFTMHIEPMDEKIYEGTADDGTYVIHQAIEQLIYQYPEHYHWSYKRFKANPALDNIYNIDPTEALKIVDRLKAEALKTSTQPEPIQTSVM PDSKSMNYQLLKTFSRQPIQFGRFLARLLAGLVNTLKITRTSKSIELNLRIALPYLTPQQRIAITEKAVRNELTSYFEFLSIWGSSNSKNISRIHRIEGEHFFHEALAAKKGVVLIVPHFGTWAVMNAWCAQFTSMTILYKPVKNADADRFVREARSREQANLVPTDESGVRQIFKALKQGETTVILPDHTPNVGGDMVNYFGVPLASSNLSAKLIQKTKAKALFLYAIRNENDGFTMHIEPMDEKIYEGTADDGTYVIHQAIEQLIYQYPEHYHWSYKRFKANPALDNIYNIDPTEALKIVDRLKAEALKTSTQPEPIQTSVM 5knm-a1-m1-cN_5knm-a1-m1-cA Human leukocyte antigen F (HLA-F) presents peptides and regulates immunity through interactions with NK-cell receptors P30511 3.3 X-RAY DIFFRACTION 23 1.0 7111 (Trichoplusia ni) 9606 (Homo sapiens) 6 276 ILRWEQ GSHSLRYFSTAVSRPGRGEPRYIAVEYVDDTQFLRFDSDAAIPRMEPREPWVEQEGPQYWEWTTGYAKANAQTDRVALRNLLRRYNQSEAGSHTLQGMNGCDMGPDGRLLRGYHQHAYDGKDYISLNEDLRSWTAADTVAQITQRFYEAEEYAEEFRTYLEGECLELLRRYLENGKETLQRADPPKAHVAHHPISDHEATLRCWALGFYPAEITLTWQRDGEEQTQDTELVETRPAGDGTFQKWAAVVVPSGEEQRYTCHVQHEGLPQPLILRWEQ 5ko4-a1-m1-cB_5ko4-a1-m1-cA Bromodomain from Trypanosoma brucei Tb427.10.8150 Q38AE9 Q38AE9 1.44 X-RAY DIFFRACTION 48 0.99 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 100 101 FYKQCRSILHVVMDLDRDGIFARDPSKLPDYRMIISHPMWWDLIKARLTRYEYTSPSAFINDMRLVVQNCYDYNREESPFSTLARRIEIAMEDLFVTELS TSFYKQCRSILHVVMDLDRDGIFARDPSKLPDYRMIISHPMWWDLIKARLTRYEYTSPSAFINDMRLVVQNCYDYNREESPFSTLARRIEIAMEDLFVTEL 5kob-a1-m1-cC_5kob-a1-m1-cA Crystal structure of a peptide deformylase from Burkholderia xenovorans Q13XB1 Q13XB1 1.6 X-RAY DIFFRACTION 41 0.988 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 170 171 5kob-a2-m1-cD_5kob-a2-m1-cB 5vcp-a1-m1-cA_5vcp-a1-m1-cC 5vcp-a2-m1-cD_5vcp-a2-m1-cB IREILKMGDPRLLRIADPVDHFDTPELHELVKDMFETMHDANGAGLAAPQIGVNLQVVIFGFGHNERYPDAPPVPETVLINPTITPVSQDMEEGWEGCLSVPGLRGAVSRFSMIKYHGFDQYGKPIDRVAEGFHARVVQHECDHLIGKLYPMRINDFAKFGFTEVLFPDM HHMIREILKMGDPRLLRIADPVDHFDTPELHELVKDMFETMHDANGAGLAAPQIGVNLQVVIFGFGHNERYPDAPPVPETVLINPTITPVSQDMEEGWEGCLSVPGLRGAVSRFSMIKYHGFDQYGKPIDRVAEGFHARVVQHECDHLIGKLYPMRINDFAKFGFTEVLFP 5koh-a1-m1-cB_5koh-a1-m1-cD Nitrogenase MoFeP from Gluconacetobacter diazotrophicus in dithionite reduced state A9H5W8 A9H5W8 1.83 X-RAY DIFFRACTION 159 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 510 510 5koj-a1-m1-cB_5koj-a1-m1-cD PQNVDKILDHAPLFREPEYQEMLAGKAKLENMPPADKVVEIADWTKSWEYREKNFARESLSVNPAKACQPLGAVFVASGFERTMSFVHGSQGCVAYYRSHLSRHFKEPSSAVSSSMTEDAAVFGGLNNMVDGLANTYKLYDPKMIAVSTTCMAEVIGDDLHAFIQTAKGKGSVPEEFDVPFAHTPAFVGSHVTGYDNMLKGILEHFWKGRTPVPNRSVNIIPGFDGFAVGNNRELKRILGMMGVQYTILSDVSDQFDTPSDGEYRMYDGGTKIEAARDAVNADYTISLQEYCTPKTLEYCQSFGQKTASFHYPLGIGATDDLLQKLSEISGKPVPQELEMERGRLVDALADSQAYLHGKTYAIYGDPDFVYGMARFILETGGEPKHCLATNGSKAWEAQMQELFDSSPFGVGCKAWGGKDLWHMRSLLATEKVDLLIGNSYGKYLERDTDTPLIRLMFPIFDRHHHHRFPVWGYQGALRVLVTLLDKIFDKLDDDTIQAGVTDYSFDLTR PQNVDKILDHAPLFREPEYQEMLAGKAKLENMPPADKVVEIADWTKSWEYREKNFARESLSVNPAKACQPLGAVFVASGFERTMSFVHGSQGCVAYYRSHLSRHFKEPSSAVSSSMTEDAAVFGGLNNMVDGLANTYKLYDPKMIAVSTTCMAEVIGDDLHAFIQTAKGKGSVPEEFDVPFAHTPAFVGSHVTGYDNMLKGILEHFWKGRTPVPNRSVNIIPGFDGFAVGNNRELKRILGMMGVQYTILSDVSDQFDTPSDGEYRMYDGGTKIEAARDAVNADYTISLQEYCTPKTLEYCQSFGQKTASFHYPLGIGATDDLLQKLSEISGKPVPQELEMERGRLVDALADSQAYLHGKTYAIYGDPDFVYGMARFILETGGEPKHCLATNGSKAWEAQMQELFDSSPFGVGCKAWGGKDLWHMRSLLATEKVDLLIGNSYGKYLERDTDTPLIRLMFPIFDRHHHHRFPVWGYQGALRVLVTLLDKIFDKLDDDTIQAGVTDYSFDLTR 5koi-a3-m1-cE_5koi-a3-m1-cH Crystal Structure of a Possible Enoyl-(acyl-carrier-protein) Reductase from Brucella melitensis Q57A95 Q57A95 1.7 X-RAY DIFFRACTION 104 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 271 271 5koi-a1-m1-cA_5koi-a1-m1-cD 5koi-a2-m1-cC_5koi-a2-m1-cB 5koi-a4-m1-cF_5koi-a4-m1-cG EGLMQGKRGLIMGVANNHSLAWGIAKQLAAQGAELAFTYQGDALGKRVKPLAEQVGSDFVLPCDVEDIATVDAVFEEIEKKWGGLDFLVHAIGFSDKTELKGRYADVTTRENFSRTMVISAYSFTEVAQRAEKLMKDGGSILTLTYGGSTRTIPNYNVMGVAKAALEAMVRYLAADYGPQGIRVNAISAGPVRTLAGAGIGDARAIFSYQRRNSPLRRTVDIDDVGKSAVYLLSDLSSGVTGEIHFVDSGYNIVSMPTLEELKSSDSERGE EGLMQGKRGLIMGVANNHSLAWGIAKQLAAQGAELAFTYQGDALGKRVKPLAEQVGSDFVLPCDVEDIATVDAVFEEIEKKWGGLDFLVHAIGFSDKTELKGRYADVTTRENFSRTMVISAYSFTEVAQRAEKLMKDGGSILTLTYGGSTRTIPNYNVMGVAKAALEAMVRYLAADYGPQGIRVNAISAGPVRTLAGAGIGDARAIFSYQRRNSPLRRTVDIDDVGKSAVYLLSDLSSGVTGEIHFVDSGYNIVSMPTLEELKSSDSERGE 5kok-a1-m1-cB_5kok-a1-m1-cA Pavine N-methyltransferase in complex with Tetrahydropapaverine and S-adenosylhomocysteine pH 7.25 C3SBW0 C3SBW0 1.792 X-RAY DIFFRACTION 67 1.0 150095 (Thalictrum flavum subsp. glaucum) 150095 (Thalictrum flavum subsp. glaucum) 347 348 5kn4-a1-m1-cB_5kn4-a1-m1-cA 5koc-a1-m1-cB_5koc-a1-m1-cA 5kpc-a1-m1-cB_5kpc-a1-m1-cA 5kpg-a1-m1-cB_5kpg-a1-m1-cA AVANLIKRIEHGEVSDEEIRGMMKIQVQKRLKWGYKPTHEQQLAQLVTFAQSLKGMEMAEEVDTLDAELYEIPLPFLHIMCGKTLKFSPGYFKDESTTLDESEVYMMDLYCERAQIKDGQSILDLGCGHGSLTLHVAQKYRGCKVTGITNSVSQKEFIMDQCKKLDLSNVEIILEDVTKFETEITYDRIFAVALIEHMKNYELFLKKVSTWIAQDGLLFVEHHCHKVFAYQYEPLDEDDWYTEYIFPSGTLVMSSSSILLYFQEDVSVVNHWTLSGKHPSLGFKQWLKRLDDNIDEVKEIFESFYGSKEKAMKFITYWRVFCIAHSQMYSTNNGEEWMLSQVLFKKK EAVANLIKRIEHGEVSDEEIRGMMKIQVQKRLKWGYKPTHEQQLAQLVTFAQSLKGMEMAEEVDTLDAELYEIPLPFLHIMCGKTLKFSPGYFKDESTTLDESEVYMMDLYCERAQIKDGQSILDLGCGHGSLTLHVAQKYRGCKVTGITNSVSQKEFIMDQCKKLDLSNVEIILEDVTKFETEITYDRIFAVALIEHMKNYELFLKKVSTWIAQDGLLFVEHHCHKVFAYQYEPLDEDDWYTEYIFPSGTLVMSSSSILLYFQEDVSVVNHWTLSGKHPSLGFKQWLKRLDDNIDEVKEIFESFYGSKEKAMKFITYWRVFCIAHSQMYSTNNGEEWMLSQVLFKKK 5kol-a2-m1-cD_5kol-a2-m1-cB Crystal structure of the competence-damaged protein (CinA) superfamily protein ECK1530/EC0983 from Escherichia coli Q8XB29 Q8XB29 1.91 X-RAY DIFFRACTION 95 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 172 173 5kol-a1-m1-cA_5kol-a1-m1-cC GMNINRNKIVQLADTDTIENLTSALSQRLIADQLRLTTAESCTGGKLASALCAAEDTPKFYGAGFVTFTDQAKMKILSVSQQSLERYSAVSEKVAAEMATGAIERADADVSIAITGYGGPEGGEDGTPAGTVWFAWHIKGQNYTAVMHFAGDCETVLALAVRFALAQLLQLL GMNINRNKIVQLADTDTIENLTSALSQRLIADQLRLTTAESCTGGKLASALCAAEDTPKFYGAGFVTFTDQAKMKILSVSQQSLERYSAVSEKVAAEMATGAIERADADVSIAITGYGGPEGGEDGTPAGTVWFAWHIKGQNYTAVMHFAGDCETVLALAVRFALAQLLQLLL 5kov-a4-m1-cT_5kov-a4-m1-cS Crystal structure of the human astrovirus 2 capsid protein spike in complex with a single chain variable fragment of an astrovirus neutralizing antibody at 3.24-A resolution Q82446 Q82446 3.245 X-RAY DIFFRACTION 101 1.0 12701 (Human astrovirus 2) 12701 (Human astrovirus 2) 216 218 5kou-a1-m1-cA_5kou-a1-m1-cB 5kou-a2-m1-cD_5kou-a2-m1-cC 5kov-a1-m1-cA_5kov-a1-m1-cB 5kov-a2-m1-cH_5kov-a2-m1-cG 5kov-a3-m1-cM_5kov-a3-m1-cN 5w1n-a1-m1-cA_5w1n-a1-m1-cD GELRVLLTVGSIMSPNSADRQVWLNKTLTAPGTNSNDNLVKIAHDLGHYLIMQGFMHIKTVEWYTPDFQPSRDPTPIAGMSVMVNITKKADVYFMKQFKNSYTNNRHQITSIFLIKPLADFKVQCYMSYFKRESHDNDGVANLTVRSMTSPETIRFQVGEWYLLTSTTLKENNLPEGWVWDRVELKSDTPYYADQALTYFITPPPVDSQILFEGNT GELRVLLTVGSIMSPNSADRQVWLNKTLTAPGTNSNDNLVKIAHDLGHYLIMQGFMHIKTVEWYTPDFQPSRDPTPIAGMSVMVNITKKADVYFMKQFKNSYTNNRHQITSIFLIKPLADFKVQCYMSYFKRESHDNDGVANLTVRSMTSPETIRFQVGEWYLLTSTTLKENNLPEGWVWDRVELKSDTPYYADQALTYFITPPPVDSQILFEGNTAA 5kox-a1-m1-cA_5kox-a1-m2-cA Structure of rifampicin monooxygenase complexed with rifampicin Q5YTV5 Q5YTV5 1.8 X-RAY DIFFRACTION 61 1.0 37329 (Nocardia farcinica) 37329 (Nocardia farcinica) 473 473 5kow-a1-m1-cA_5kow-a1-m2-cA 6c7s-a1-m1-cA_6c7s-a1-m2-cA MIDVIIAGGGPTGLMLAGELRLHGVRTVVLEKEPTPNQHSRSRGLHARSIEVMDQRGLLERFLAHGEQFRVGGFFAGLAAEWPADLDTAHSYVLAIPQVVTERLLTEHATELGAEIRRGCEVAGLDQDADGVTAELADGTRLRARYLVGCDGGRSTVRRLLGVDFPGEPTRVETLLADVRIDVPVETLTAVVAEVRKTQLRFGAVPAGDGFFRLIVPAQGLSADRAAPTLDELKRCLHATAGTDFGVHSPRWLSRFGDATRLAERYRTGRVLLAGDAAHIHPPTGGQGLNLGIQDAFNLGWKLAAAIGGWAPPDLLDSYHDERHPVAAEVLDNTRAQMTLLSLDPGPRAVRRLMAELVEFPDVNRHLIEKITAIAVRYDLGDGHDLVGRRLRDIPLTEGRLYERMRGGRGLLLDRTGRLSVSGWSDRVDHLADPGAALDVPAALLRPDGHVAWVGEDQDDLLAHLPRWFGAAT MIDVIIAGGGPTGLMLAGELRLHGVRTVVLEKEPTPNQHSRSRGLHARSIEVMDQRGLLERFLAHGEQFRVGGFFAGLAAEWPADLDTAHSYVLAIPQVVTERLLTEHATELGAEIRRGCEVAGLDQDADGVTAELADGTRLRARYLVGCDGGRSTVRRLLGVDFPGEPTRVETLLADVRIDVPVETLTAVVAEVRKTQLRFGAVPAGDGFFRLIVPAQGLSADRAAPTLDELKRCLHATAGTDFGVHSPRWLSRFGDATRLAERYRTGRVLLAGDAAHIHPPTGGQGLNLGIQDAFNLGWKLAAAIGGWAPPDLLDSYHDERHPVAAEVLDNTRAQMTLLSLDPGPRAVRRLMAELVEFPDVNRHLIEKITAIAVRYDLGDGHDLVGRRLRDIPLTEGRLYERMRGGRGLLLDRTGRLSVSGWSDRVDHLADPGAALDVPAALLRPDGHVAWVGEDQDDLLAHLPRWFGAAT 5kp5-a1-m1-cA_5kp5-a1-m2-cA Crystal Structure of the Curacin Biosynthetic Pathway HMG Synthase F4Y432 F4Y432 2.1 X-RAY DIFFRACTION 207 1.0 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 403 403 QQVGIEALSVYGGAAQLELRKLAQARQLDISRFDNLMMKEKAVSLPYEDPVSYAVNAAKPIIDRLSDADKQRIEMVITCSESGIDFGKSMSTYIQEYLGLSRNCRMFELKQACYSGTAGLQMAINLILSQTFPGAKALVIATDISRFAEPSSGAGAVALLVSDTPHIFQIDVGCNGYYGYEVMDTCRPNPDSEAGDADLSLLSYLDCCENAYRHYQNRVEGVDYRESFDYLSFHTPFGGMVKGAHRNMMRRLKRAKPAEIEADFQRRVMPGLVYCQQVGNIMGATLFLSLASTIDNGDFSTPRRIGMFSYGSGCCSEFYSGVVTPEGAAIAAQQGISAQLADRYSLSMEEYEQLLYHSSAVAFGTRNVTLDYQLFPGVWKKIAGKGRLVLKAIKEFHRKYEWV QQVGIEALSVYGGAAQLELRKLAQARQLDISRFDNLMMKEKAVSLPYEDPVSYAVNAAKPIIDRLSDADKQRIEMVITCSESGIDFGKSMSTYIQEYLGLSRNCRMFELKQACYSGTAGLQMAINLILSQTFPGAKALVIATDISRFAEPSSGAGAVALLVSDTPHIFQIDVGCNGYYGYEVMDTCRPNPDSEAGDADLSLLSYLDCCENAYRHYQNRVEGVDYRESFDYLSFHTPFGGMVKGAHRNMMRRLKRAKPAEIEADFQRRVMPGLVYCQQVGNIMGATLFLSLASTIDNGDFSTPRRIGMFSYGSGCCSEFYSGVVTPEGAAIAAQQGISAQLADRYSLSMEEYEQLLYHSSAVAFGTRNVTLDYQLFPGVWKKIAGKGRLVLKAIKEFHRKYEWV 5kqd-a2-m1-cA_5kqd-a2-m4-cA PANK3:Palmitoyl-CoA complex Q9H999 Q9H999 2.6 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 312 312 5kqd-a2-m2-cA_5kqd-a2-m3-cA SPWFGMDIGGTLVKLSYFEPIEQEEVESLKSIRKYLTSNVAYRDVHLELKDLTLFNLHFIRFPTQDLPTFIQMGGGAYKFEKLHKLDELDCLVKGLLYIDSVSFNGQAECYYFANCQKMPFNLDDPYPLLVVNIGSGVSILAVHSKDNYKRVTGTSLGGGTFLGLCSLLTGCESFEEALEMASKGDSTQADKLVRDIYGGDYERFGLPGWAVASSFGNMIYKEKRESVSKEDLARATLVTITNNIGSVARMCAVNEKINRVVFVGNFLRVNTLSMKLLAYALDYWSKGQLKALFLEHEGYFGAVGALLGLPN SPWFGMDIGGTLVKLSYFEPIEQEEVESLKSIRKYLTSNVAYRDVHLELKDLTLFNLHFIRFPTQDLPTFIQMGGGAYKFEKLHKLDELDCLVKGLLYIDSVSFNGQAECYYFANCQKMPFNLDDPYPLLVVNIGSGVSILAVHSKDNYKRVTGTSLGGGTFLGLCSLLTGCESFEEALEMASKGDSTQADKLVRDIYGGDYERFGLPGWAVASSFGNMIYKEKRESVSKEDLARATLVTITNNIGSVARMCAVNEKINRVVFVGNFLRVNTLSMKLLAYALDYWSKGQLKALFLEHEGYFGAVGALLGLPN 5kqd-a2-m2-cA_5kqd-a2-m4-cA PANK3:Palmitoyl-CoA complex Q9H999 Q9H999 2.6 X-RAY DIFFRACTION 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 312 312 5kqd-a1-m1-cA_5kqd-a1-m3-cA 5kqd-a2-m1-cA_5kqd-a2-m3-cA SPWFGMDIGGTLVKLSYFEPIEQEEVESLKSIRKYLTSNVAYRDVHLELKDLTLFNLHFIRFPTQDLPTFIQMGGGAYKFEKLHKLDELDCLVKGLLYIDSVSFNGQAECYYFANCQKMPFNLDDPYPLLVVNIGSGVSILAVHSKDNYKRVTGTSLGGGTFLGLCSLLTGCESFEEALEMASKGDSTQADKLVRDIYGGDYERFGLPGWAVASSFGNMIYKEKRESVSKEDLARATLVTITNNIGSVARMCAVNEKINRVVFVGNFLRVNTLSMKLLAYALDYWSKGQLKALFLEHEGYFGAVGALLGLPN SPWFGMDIGGTLVKLSYFEPIEQEEVESLKSIRKYLTSNVAYRDVHLELKDLTLFNLHFIRFPTQDLPTFIQMGGGAYKFEKLHKLDELDCLVKGLLYIDSVSFNGQAECYYFANCQKMPFNLDDPYPLLVVNIGSGVSILAVHSKDNYKRVTGTSLGGGTFLGLCSLLTGCESFEEALEMASKGDSTQADKLVRDIYGGDYERFGLPGWAVASSFGNMIYKEKRESVSKEDLARATLVTITNNIGSVARMCAVNEKINRVVFVGNFLRVNTLSMKLLAYALDYWSKGQLKALFLEHEGYFGAVGALLGLPN 5kqo-a1-m1-cB_5kqo-a1-m1-cA 1-deoxy-D-xylulose 5-phosphate reductoisomerase from Vibrio vulnificus Q8DBF5 Q8DBF5 2.35 X-RAY DIFFRACTION 133 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 397 398 5krr-a1-m1-cA_5krr-a1-m1-cB 5krv-a1-m1-cB_5krv-a1-m1-cA 5kry-a1-m1-cA_5kry-a1-m1-cB 5ks1-a1-m1-cA_5ks1-a1-m1-cB GMQKLTILGATGSIGASTLKVIEQNPDKFSVVALAADSNVEKMQQLCQRWQPEYAVMANKEAALRLKMALAVLAPNTQVLGGQEALCYVATLEQVDSVMAAIVGAAGLVPTMAAVKAGKRILLANKEALVMSGQLFIDEVEKSGAQLLPVDSEHNAIFQCLPQTVQGNLGRCDLASQGVSHILLTGSGGPFRYTDVAELEAVTPEQAIAHPNWSMGPKISVDSATMMNKGLEYIEAKWLFNASRDQLKVIIHPQSVIHSMVQYLDGSVLAQMGEPDMATPIALTLSYPERVKAGVKPLDFTQVGELTFLQPDFERYPCLALAIEACYLGQHATTTLNAANEVAVAAFLARQIKFTDIARVNDSVLNQVCKQLDSLESLLELDRMARTLADEVVRERA GMQKLTILGATGSIGASTLKVIEQNPDKFSVVALAADSNVEKMQQLCQRWQPEYAVMANKEAALRLKMALAVLAPNTQVLGGQEALCYVATLEQVDSVMAAIVGAAGLVPTMAAVKAGKRILLANKEALVMSGQLFIDEVEKSGAQLLPVDSEHNAIFQCLPQTVQGNLGRCDLASQGVSHILLTGSGGPFRYTDVAELEAVTPEQAIAHPNWSMGPKISVDSATMMNKGLEYIEAKWLFNASRDQLKVIIHPQSVIHSMVQYLDGSVLAQMGEPDMATPIALTLSYPERVKAGVKPLDFTQVGELTFLQPDFERYPCLALAIEACYLGQHATTTLNAANEVAVAAFLARQIKFTDIARVNDSVLNQVCKQGLDSLESLLELDRMARTLADEVVRERA 5kqt-a1-m1-cA_5kqt-a1-m2-cA Directed Evolution of Transaminases By Ancestral Reconstruction. Using Old Proteins for New Chemistries 1.99 X-RAY DIFFRACTION 421 1.0 1502784 (Pseudomonas sp. AAC) 1502784 (Pseudomonas sp. AAC) 457 457 5kqu-a1-m1-cA_5kqu-a1-m1-cD 5kqu-a2-m1-cB_5kqu-a2-m1-cC 5kqu-a3-m1-cE_5kqu-a3-m1-cF 5kqw-a1-m1-cA_5kqw-a1-m1-cB 5kqw-a2-m1-cC_5kqw-a2-m1-cD 5kr4-a1-m1-cA_5kr4-a1-m1-cB DYAKLFEQDRAHFMHPSTHAHDHASGALPGRIITGASGVRIRDHQGRELLDAFAGLYCVNIGYGRLEVADAIHEQAKQLAYYHTYVGHASEAIIELSARIIRDWAPAGMKKVYYGLSGSDANETQVKLVRYYNNVLGRPQKKKIISRQRGYHGSGIVTGSLTGLASFHQHFDLPVEGVKHTLCPHFYKAPAGMDEAAFVRHCAQELENLILAEGPDTVAAFIGEPVMGTGGIIVPPKGYWEAIQAVLAKYDVLLIADEVVCAFGRLGDKMGSQRHAMRPDLITTAKGLTSAYAPLSAVIVGEKVWDVIDSASTREGAMGHGWTYSGHPICAAAALANLDILERENITANAADVGGYLNQQLRQAFEGHPLVGEVRGDGMLAALEFMADREARTPFDAALKVGPKVSAACLERGMIARAMPHGDILGFAPPLVLSRAEADEVVGIAKAAVDAVAAEVL DYAKLFEQDRAHFMHPSTHAHDHASGALPGRIITGASGVRIRDHQGRELLDAFAGLYCVNIGYGRLEVADAIHEQAKQLAYYHTYVGHASEAIIELSARIIRDWAPAGMKKVYYGLSGSDANETQVKLVRYYNNVLGRPQKKKIISRQRGYHGSGIVTGSLTGLASFHQHFDLPVEGVKHTLCPHFYKAPAGMDEAAFVRHCAQELENLILAEGPDTVAAFIGEPVMGTGGIIVPPKGYWEAIQAVLAKYDVLLIADEVVCAFGRLGDKMGSQRHAMRPDLITTAKGLTSAYAPLSAVIVGEKVWDVIDSASTREGAMGHGWTYSGHPICAAAALANLDILERENITANAADVGGYLNQQLRQAFEGHPLVGEVRGDGMLAALEFMADREARTPFDAALKVGPKVSAACLERGMIARAMPHGDILGFAPPLVLSRAEADEVVGIAKAAVDAVAAEVL 5kr3-a1-m1-cA_5kr3-a1-m1-cB Directed Evolution of Transaminases By Ancestral Reconstruction. Using Old Proteins for New Chemistries 1.95 X-RAY DIFFRACTION 421 0.996 286 (Pseudomonas) 286 (Pseudomonas) 458 458 5kr5-a1-m1-cB_5kr5-a1-m1-cA HMQSLDQLFEMDRAHFMHPSTHAHDHASGALPGRIITGGKGIRIEDHEGREYIDAFAGLYCVNIGYGRTEVADAIYEQAKQLAYYHTYVGHSTDAIIELSSRIIRDWAPAGMKKVYYGMSGSDANETQIKLVWYYNNVLGRPNKKKIISRERGYHGSGIVTGSLTGLPSFHQHFDLPIDRVKHTVCPHWYRAPMSEAQFVAYCVEELEKLIAREGADTIAAFIAEPVMGTGGIIPPPQGYWEAIQAVLRKHDILLIADEVVCGFGRLGSKMGSQHYGIKPDLITVAKGLTSAYAPLSGVIVGEKVWDVIEKGSQEHGPMGHGWTYSGHPICAAAALANLDILERENLTGNAADVGAYLQQRLHEAFGAHPLVGEVRGVGMLAALEFMADKDARTPFDPALKVGPKVSAAALEDGMIARAMPHGDILGFAPPLVTTRAEVDEIVGIAKQAVDEVADEVL QSLDQLFEMDRAHFMHPSTHAHDHASGALPGRIITGGKGIRIEDHEGREYIDAFAGLYCVNIGYGRTEVADAIYEQAKQLAYYHTYVGHSTDAIIELSSRIIRDWAPAGMKKVYYGMSGSDANETQIKLVWYYNNVLGRPNKKKIISRERGYHGSGIVTGSLTGLPSFHQHFDLPIDRVKHTVCPHWYRAPAGMSEAQFVAYCVEELEKLIAREGADTIAAFIAEPVMGTGGIIPPPQGYWEAIQAVLRKHDILLIADEVVCGFGRLGSKMGSQHYGIKPDLITVAKGLTSAYAPLSGVIVGEKVWDVIEKGSQEHGPMGHGWTYSGHPICAAAALANLDILERENLTGNAADVGAYLQQRLHEAFGAHPLVGEVRGVGMLAALEFMADKDARTPFDPALKVGPKVSAAALEDGMIARAMPHGDILGFAPPLVTTRAEVDEIVGIAKQAVDEVADEVL 5kr6-a1-m1-cA_5kr6-a1-m1-cB Directed Evolution of Transaminases By Ancestral Reconstruction. Using Old Proteins for New Chemistries 1.99 X-RAY DIFFRACTION 416 1.0 286 (Pseudomonas) 286 (Pseudomonas) 457 460 TDTDDLLEMDRAHFFHPSTHLRDHASGELPGRIITGGKGIRIQDSEGREYIDAFAGLYCVNVGYGRTEIADAIYEQAKELAYYHTYVGHSNEPIIELSERIIREWAPAGMSKVYYGMSGSDANETQIKLVWYYNNVLGRPQKKKIISRQRGYHGSGIMTGSLTGLPAFHNHFDLPLEPIRHTTCPHYYRAPAGMSEAEFSRHCADELEKMILAEGPDTVAAFIGEPVMGTGGIVPPPEGYWEAIQAVLNKYDILLIADEVVCGFGRTGSMFGSHHYGMKPDLITVAKGLTSAYAPLSGVIVGEKVWKVLEQGSDQYGPIGHGWTYSGHPICAAAALANLDIIERENLTGNAADTGAYFQQRMRETFGDHPLVGEVRGVGLMAALEFVADKDKRTRFDPSLKVGPRVSAACLEDGMIARAMPHGDILGFAPPLVITRAEVDEIVDIAKQAVDAVADEL SHMTDTDDLLEMDRAHFFHPSTHLRDHASGELPGRIITGGKGIRIQDSEGREYIDAFAGLYCVNVGYGRTEIADAIYEQAKELAYYHTYVGHSNEPIIELSERIIREWAPAGMSKVYYGMSGSDANETQIKLVWYYNNVLGRPQKKKIISRQRGYHGSGIMTGSLTGLPAFHNHFDLPLEPIRHTTCPHYYRAPAGMSEAEFSRHCADELEKMILAEGPDTVAAFIGEPVMGTGGIVPPPEGYWEAIQAVLNKYDILLIADEVVCGFGRTGSMFGSHHYGMKPDLITVAKGLTSAYAPLSGVIVGEKVWKVLEQGSDQYGPIGHGWTYSGHPICAAAALANLDIIERENLTGNAADTGAYFQQRMRETFGDHPLVGEVRGVGLMAALEFVADKDKRTRFDPSLKVGPRVSAACLEDGMIARAMPHGDILGFAPPLVITRAEVDEIVDIAKQAVDAVADEL 5krd-a1-m1-cA_5krd-a1-m3-cA Crystal structure of haliscomenobacter hydrossis iodotyrosine deiodinase (IYD) bound to FMN and 2-iodophenol (2IP) F4KU78 F4KU78 2.103 X-RAY DIFFRACTION 301 1.0 760192 (Haliscomenobacter hydrossis DSM 1100) 760192 (Haliscomenobacter hydrossis DSM 1100) 200 200 5ko7-a1-m1-cB_5ko7-a1-m1-cA 5ko8-a1-m1-cA_5ko8-a1-m3-cA 5ko8-a2-m1-cB_5ko8-a2-m2-cB 5krd-a2-m1-cB_5krd-a2-m2-cB AFIPYAGAQFEPEEMLSKSAEYYQFMDHRRTVREFSNRAIPLEVIENIVMTASTAPSGAHKQPWTFVVVSDPQIKAKIRQAAEKEEFESDWHKPFLEIAPYLIVVFRKAYDVLPDGTQRKNYYVQESVGIACGFLLAAIHQAGLVALTHTPSPMNFLQKILQRPENERPFLLVPVGYPAEGAMVPDLQRKDKAAVMVVYH AFIPYAGAQFEPEEMLSKSAEYYQFMDHRRTVREFSNRAIPLEVIENIVMTASTAPSGAHKQPWTFVVVSDPQIKAKIRQAAEKEEFESDWHKPFLEIAPYLIVVFRKAYDVLPDGTQRKNYYVQESVGIACGFLLAAIHQAGLVALTHTPSPMNFLQKILQRPENERPFLLVPVGYPAEGAMVPDLQRKDKAAVMVVYH 5ks7-a1-m1-cB_5ks7-a1-m1-cA Crystal structure of Listeria monocytogenes OpuCA CBS domain dimer in complex with cyclic-di-AMP Q9KHT9 Q9KHT9 2.9 X-RAY DIFFRACTION 69 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 122 123 VTQVAQIMNTNPVSITADKSLQAAITVMKEKRVDTLLVVDEGNVLKGFIDVEQIDLNRRTATSVMDIIEKNVFYVYEDTLLRDTVQRILKRGYKYIPVVDKDKRLVGIVTRASLVDIVYDSI DVTQVAQIMNTNPVSITADKSLQAAITVMKEKRVDTLLVVDEGNVLKGFIDVEQIDLNRRTATSVMDIIEKNVFYVYEDTLLRDTVQRILKRGYKYIPVVDKDKRLVGIVTRASLVDIVYDSI 5ks8-a1-m1-cA_5ks8-a1-m1-cB Crystal structure of two-subunit pyruvate carboxylase from Methylobacillus flagellatus Q1H158 Q1H158 3.01 X-RAY DIFFRACTION 99 1.0 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 404 404 MIKKILIANRGEIAVRIVRACSEMGIKSVAIYSDADRHALHVKKADEAYNIGSDPVLGYLNAHNIVNLAVASGCDALHPGYGFLSENPELAEICARRGIKFIGPDAKVIRQMGDKIQARTAMIKAGIPCVGSSGVVNPRHIEVQVLADSHGNVIHLFERDCSIQRRNQKLIEIAPSPQLSKAQREYIGNLAVKAAKAVGYKNAGTVEFLLDSDNNFYFMEMNTRLQVEHTVTEQITGIDIVQEQIRVADGQRLQYKQSEVQYRGFAMEFRINAEDPKNDFLPSFGKITRYYAPGGPGIRMDAAMYSGYVIPPYYDSMCAKLTVWALNWESVVERGRRALNDTVVYGVKTTIPYYQEILKHPDFRNAIFNTSFVESHPELANYATQFPRELVAAAISAAIAAHEG MIKKILIANRGEIAVRIVRACSEMGIKSVAIYSDADRHALHVKKADEAYNIGSDPVLGYLNAHNIVNLAVASGCDALHPGYGFLSENPELAEICARRGIKFIGPDAKVIRQMGDKIQARTAMIKAGIPCVGSSGVVNPRHIEVQVLADSHGNVIHLFERDCSIQRRNQKLIEIAPSPQLSKAQREYIGNLAVKAAKAVGYKNAGTVEFLLDSDNNFYFMEMNTRLQVEHTVTEQITGIDIVQEQIRVADGQRLQYKQSEVQYRGFAMEFRINAEDPKNDFLPSFGKITRYYAPGGPGIRMDAAMYSGYVIPPYYDSMCAKLTVWALNWESVVERGRRALNDTVVYGVKTTIPYYQEILKHPDFRNAIFNTSFVESHPELANYATQFPRELVAAAISAAIAAHEG 5ks8-a1-m1-cD_5ks8-a1-m1-cC Crystal structure of two-subunit pyruvate carboxylase from Methylobacillus flagellatus Q1H157 Q1H157 3.01 X-RAY DIFFRACTION 250 0.998 265072 (Methylobacillus flagellatus KT) 265072 (Methylobacillus flagellatus KT) 580 603 AKVHVTDVVLRDGHQSLIATRMRTDDMLPICSKLDAVGYWSLEAWGGATFDACVRYLREDPWERLKKLRKALPNSRLQMLLRGQNLLGYRHYSDDVVRAFVQKSADNGIDVFRIFDAMNDLRNLKVSIESVKAVGKHAEGTISYTTSPVHDIPYFVNLAKELESFGCDTIAIKDMASLLTPQVTGDLVKALREAVSLPIHLHAHATSGLASMSIQRAVDNGVAIVDGCISSFAEGASLPATESIVAALKGTEYDTGLDIGLLQEISAYFREVRKKYWQFESEFTGVDTRVLVNQVPGGMISNLSNQLKEQGALDRMDAVLDEIPRVREDLGYPPLVTPTSQIVGTQAVLNVMTGARYKSVTNEVKNYLLGHYGKAPSTVNPDVRNLAVGNAQVIECRPADLLTAEMEKLRNEVEGLAASAADVLTYAMFPDLAKTFLQERNAGSLKPEPLLDKEAVTSRESHSRFAPTEFNVTLHGETFHIKLTPFYVSVDGVTEEVVVEILNRPRPTHAGCVTTAMPGTIVDVKVNVGDKVSAGDAVLVIEAMKMENEIQASKSGVVVAINVKKGDSVTPDEALLEIQP KVHVTDVVLRDGHQSLIATRMRTDDMLPICSKLDAVGYWSLEAWGGATFDACVRYLREDPWERLKKLRKALPNSRLQMLLRGQNLLGYRHYSDDVVRAFVQKSADNGIDVFRIFDAMNDLRNLKVSIESVKAVGKHAEGTISYTTSPVHDIPYFVNLAKELESFGCDTIAIKDMASLLTPQVTGDLVKALREAVSLPIHLHAHATSGLASMSIQRAVDNGVAIVDGCISSFAEGASLPATESIVAALKGTEYDTGLDIGLLQEISAYFREVRKKYWQFESEFTGVDTRVLVNQVPGGMISNLSNQLKEQGALDRMDAVLDEIPRVREDLGYPPLVTPTSQIVGTQAVLNVMTGARYKSVTNEVKNYLLGHYGKAPSTVNPDVRNLAVGNAQVIECRPADLLTAEMEKLRNEVEGLAASAADVLTYAMFPDLAKTFLQERNAGSLKPEPLLDKEAVTSRESHSRFAPTEFNVTLHGETFHIKLTGSGHHGEEQRPFYVSVDGVTEEVVVEILNEAKRKASSAASSGRPRPTHAGCVTTAMPGTIVDVKVNVGDKVSAGDAVLVIEAMKMENEIQASKSGVVVAINVKKGDSVTPDEALLEIQPD 5kt0-a2-m1-cA_5kt0-a2-m4-cA Dihydrodipicolinate reductase from the industrial and evolutionarily important cyanobacteria Anabaena variabilis. Q3MFY8 Q3MFY8 2.83 X-RAY DIFFRACTION 160 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 274 274 5kt0-a2-m2-cA_5kt0-a2-m3-cA APIPVIVNGAAGKMGREVVKAIAQAPDLNLLGAIDSSPEHQGKDAGELAGLSEPLEVPITNQLEPMLGYVAGERQGPPGVIVDFTHPDSVYDNVRSAIAYGIRPVVGTTGLSPAQIQNLADFAEKASTGCLIIPNFSIGMVLLQQAAVTASQYFDHVEIIELHHNQKADAPSGTAIQTAELLAELGKTFNSAIVEETEKIPGARGSLAGEGIRIHSVRLPGLIAHQEVIFGAPGQIYTLRHDTSDRACYMPGVLLAIRKVLQLKSLVYGLEKIL APIPVIVNGAAGKMGREVVKAIAQAPDLNLLGAIDSSPEHQGKDAGELAGLSEPLEVPITNQLEPMLGYVAGERQGPPGVIVDFTHPDSVYDNVRSAIAYGIRPVVGTTGLSPAQIQNLADFAEKASTGCLIIPNFSIGMVLLQQAAVTASQYFDHVEIIELHHNQKADAPSGTAIQTAELLAELGKTFNSAIVEETEKIPGARGSLAGEGIRIHSVRLPGLIAHQEVIFGAPGQIYTLRHDTSDRACYMPGVLLAIRKVLQLKSLVYGLEKIL 5kt0-a2-m2-cA_5kt0-a2-m4-cA Dihydrodipicolinate reductase from the industrial and evolutionarily important cyanobacteria Anabaena variabilis. Q3MFY8 Q3MFY8 2.83 X-RAY DIFFRACTION 114 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 274 274 5kt0-a2-m1-cA_5kt0-a2-m3-cA APIPVIVNGAAGKMGREVVKAIAQAPDLNLLGAIDSSPEHQGKDAGELAGLSEPLEVPITNQLEPMLGYVAGERQGPPGVIVDFTHPDSVYDNVRSAIAYGIRPVVGTTGLSPAQIQNLADFAEKASTGCLIIPNFSIGMVLLQQAAVTASQYFDHVEIIELHHNQKADAPSGTAIQTAELLAELGKTFNSAIVEETEKIPGARGSLAGEGIRIHSVRLPGLIAHQEVIFGAPGQIYTLRHDTSDRACYMPGVLLAIRKVLQLKSLVYGLEKIL APIPVIVNGAAGKMGREVVKAIAQAPDLNLLGAIDSSPEHQGKDAGELAGLSEPLEVPITNQLEPMLGYVAGERQGPPGVIVDFTHPDSVYDNVRSAIAYGIRPVVGTTGLSPAQIQNLADFAEKASTGCLIIPNFSIGMVLLQQAAVTASQYFDHVEIIELHHNQKADAPSGTAIQTAELLAELGKTFNSAIVEETEKIPGARGSLAGEGIRIHSVRLPGLIAHQEVIFGAPGQIYTLRHDTSDRACYMPGVLLAIRKVLQLKSLVYGLEKIL 5ktl-a1-m1-cA_5ktl-a1-m2-cB Dihydrodipicolinate synthase from the industrial and evolutionarily important cyanobacteria Anabaena variabilis. Q3M723 Q3M723 1.92 X-RAY DIFFRACTION 79 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 294 294 5ktl-a1-m1-cB_5ktl-a1-m2-cA SVGDFGTVLTAMITPFKADGSVNYAVAAELAAHLVDNGTDTLVVCGTTGESPTLSWDEEYNLFVEVLQTVAGKAKVIAGCGSNSTKEAIAATQKAAKIGVHGTLQVVPYYNKPPQAGLYQHFQAIAQACPDLPLLLYNVPGRTGQNLSPETVVRLAEIDNIIGVEASGNLDQAGEIRRSTPKEFQIYAGDDSLTLPLLAIGAKGVVSVASHLVGNQLQQMIQAFNSGQVTVASDIHLRLLPLFKALFITTNPIPIKQALKLQGWEVGSTRPPLSDADAEVSQKLEAVMKHLNLI SVGDFGTVLTAMITPFKADGSVNYAVAAELAAHLVDNGTDTLVVCGTTGESPTLSWDEEYNLFVEVLQTVAGKAKVIAGCGSNSTKEAIAATQKAAKIGVHGTLQVVPYYNKPPQAGLYQHFQAIAQACPDLPLLLYNVPGRTGQNLSPETVVRLAEIDNIIGVEASGNLDQAGEIRRSTPKEFQIYAGDDSLTLPLLAIGAKGVVSVASHLVGNQLQQMIQAFNSGQVTVASDIHLRLLPLFKALFITTNPIPIKQALKLQGWEVGSTRPPLSDADAEVSQKLEAVMKHLNLI 5ktl-a1-m2-cA_5ktl-a1-m2-cB Dihydrodipicolinate synthase from the industrial and evolutionarily important cyanobacteria Anabaena variabilis. Q3M723 Q3M723 1.92 X-RAY DIFFRACTION 111 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 294 294 5ktl-a1-m1-cA_5ktl-a1-m1-cB SVGDFGTVLTAMITPFKADGSVNYAVAAELAAHLVDNGTDTLVVCGTTGESPTLSWDEEYNLFVEVLQTVAGKAKVIAGCGSNSTKEAIAATQKAAKIGVHGTLQVVPYYNKPPQAGLYQHFQAIAQACPDLPLLLYNVPGRTGQNLSPETVVRLAEIDNIIGVEASGNLDQAGEIRRSTPKEFQIYAGDDSLTLPLLAIGAKGVVSVASHLVGNQLQQMIQAFNSGQVTVASDIHLRLLPLFKALFITTNPIPIKQALKLQGWEVGSTRPPLSDADAEVSQKLEAVMKHLNLI SVGDFGTVLTAMITPFKADGSVNYAVAAELAAHLVDNGTDTLVVCGTTGESPTLSWDEEYNLFVEVLQTVAGKAKVIAGCGSNSTKEAIAATQKAAKIGVHGTLQVVPYYNKPPQAGLYQHFQAIAQACPDLPLLLYNVPGRTGQNLSPETVVRLAEIDNIIGVEASGNLDQAGEIRRSTPKEFQIYAGDDSLTLPLLAIGAKGVVSVASHLVGNQLQQMIQAFNSGQVTVASDIHLRLLPLFKALFITTNPIPIKQALKLQGWEVGSTRPPLSDADAEVSQKLEAVMKHLNLI 5ku0-a1-m54-c3_5ku0-a1-m9-c3 expanded poliovirus in complex with VHH 17B P03300 P03300 5.3 ELECTRON MICROSCOPY 163 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 231 231 5ku0-a1-m10-c3_5ku0-a1-m23-c3 5ku0-a1-m11-c3_5ku0-a1-m20-c3 5ku0-a1-m11-c3_5ku0-a1-m38-c3 5ku0-a1-m12-c3_5ku0-a1-m37-c3 5ku0-a1-m12-c3_5ku0-a1-m47-c3 5ku0-a1-m13-c3_5ku0-a1-m45-c3 5ku0-a1-m13-c3_5ku0-a1-m46-c3 5ku0-a1-m14-c3_5ku0-a1-m29-c3 5ku0-a1-m14-c3_5ku0-a1-m44-c3 5ku0-a1-m15-c3_5ku0-a1-m16-c3 5ku0-a1-m15-c3_5ku0-a1-m28-c3 5ku0-a1-m16-c3_5ku0-a1-m28-c3 5ku0-a1-m17-c3_5ku0-a1-m27-c3 5ku0-a1-m17-c3_5ku0-a1-m52-c3 5ku0-a1-m18-c3_5ku0-a1-m51-c3 5ku0-a1-m18-c3_5ku0-a1-m60-c3 5ku0-a1-m19-c3_5ku0-a1-m39-c3 5ku0-a1-m19-c3_5ku0-a1-m59-c3 5ku0-a1-m1-c3_5ku0-a1-m10-c3 5ku0-a1-m1-c3_5ku0-a1-m23-c3 5ku0-a1-m20-c3_5ku0-a1-m38-c3 5ku0-a1-m21-c3_5ku0-a1-m30-c3 5ku0-a1-m21-c3_5ku0-a1-m43-c3 5ku0-a1-m22-c3_5ku0-a1-m42-c3 5ku0-a1-m24-c3_5ku0-a1-m54-c3 5ku0-a1-m24-c3_5ku0-a1-m9-c3 5ku0-a1-m25-c3_5ku0-a1-m26-c3 5ku0-a1-m25-c3_5ku0-a1-m53-c3 5ku0-a1-m26-c3_5ku0-a1-m53-c3 5ku0-a1-m27-c3_5ku0-a1-m52-c3 5ku0-a1-m29-c3_5ku0-a1-m44-c3 5ku0-a1-m2-c3_5ku0-a1-m22-c3 5ku0-a1-m2-c3_5ku0-a1-m42-c3 5ku0-a1-m30-c3_5ku0-a1-m43-c3 5ku0-a1-m31-c3_5ku0-a1-m40-c3 5ku0-a1-m31-c3_5ku0-a1-m58-c3 5ku0-a1-m32-c3_5ku0-a1-m57-c3 5ku0-a1-m32-c3_5ku0-a1-m7-c3 5ku0-a1-m33-c3_5ku0-a1-m5-c3 5ku0-a1-m33-c3_5ku0-a1-m6-c3 5ku0-a1-m34-c3_5ku0-a1-m49-c3 5ku0-a1-m34-c3_5ku0-a1-m4-c3 5ku0-a1-m35-c3_5ku0-a1-m36-c3 5ku0-a1-m35-c3_5ku0-a1-m48-c3 5ku0-a1-m36-c3_5ku0-a1-m48-c3 5ku0-a1-m37-c3_5ku0-a1-m47-c3 5ku0-a1-m39-c3_5ku0-a1-m59-c3 5ku0-a1-m3-c3_5ku0-a1-m41-c3 5ku0-a1-m3-c3_5ku0-a1-m50-c3 5ku0-a1-m40-c3_5ku0-a1-m58-c3 5ku0-a1-m41-c3_5ku0-a1-m50-c3 5ku0-a1-m45-c3_5ku0-a1-m46-c3 5ku0-a1-m4-c3_5ku0-a1-m49-c3 5ku0-a1-m51-c3_5ku0-a1-m60-c3 5ku0-a1-m55-c3_5ku0-a1-m56-c3 5ku0-a1-m55-c3_5ku0-a1-m8-c3 5ku0-a1-m56-c3_5ku0-a1-m8-c3 5ku0-a1-m57-c3_5ku0-a1-m7-c3 5ku0-a1-m5-c3_5ku0-a1-m6-c3 GLPVMNTPGSNQYLTADNFQSPCALPEFDVTPPIDIPGEVKNMMELAEIDTMIPFDLSATKKNTMEMYRVRLSDKPHTDDPILCLSLSPASDPRLSHTMLGEILNYYTHWAGSLKFTFLFCGSMMATGKLLVSYAPPGADPPKKRKEAMLGTHVIWDIGLQSSCTMVVPWISNTTYRQTIDDSFTEGGYISVFYQTRIVVPLSTPREMDILGFVSACNDFSVRLLRDTTHI GLPVMNTPGSNQYLTADNFQSPCALPEFDVTPPIDIPGEVKNMMELAEIDTMIPFDLSATKKNTMEMYRVRLSDKPHTDDPILCLSLSPASDPRLSHTMLGEILNYYTHWAGSLKFTFLFCGSMMATGKLLVSYAPPGADPPKKRKEAMLGTHVIWDIGLQSSCTMVVPWISNTTYRQTIDDSFTEGGYISVFYQTRIVVPLSTPREMDILGFVSACNDFSVRLLRDTTHI 5ku5-a2-m1-cD_5ku5-a2-m1-cC Crystal Structure of CusS Sensor Domain with Silver Bound P77485 P77485 2.15 X-RAY DIFFRACTION 13 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 144 147 5ku5-a1-m1-cB_5ku5-a1-m1-cA VKVHFAEQDINDLKEISATLERVLNHPDETQARRLMTLEDIVSGYSNVLISLADSQGKTVYHSPGAPDIREFTRDAIPDKDAQGGEVYLLSGPTMMMPGHGHGHMEHSNWRMINLPVGPLVDGKPIYTLYIALSIDFHLHYIND VKVHFAEQDINDLKEISATLERVLNHPDETQARRLMTLEDIVSGYSNVLISLADSQGKTVYHSPGAPDIREFTRDAIPDKDAQGGEVYLLSGPTMMMPGHGHGHMEHSNWRMINLPVGPLVDGKPIYTLYIALSIDFHLHYINDLMN 5ku6-a5-m1-cB_5ku6-a5-m1-cA Crystal structure for the complex of human carbonic anhydrase IV and methazolamide P22748 P22748 1.8 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 255 259 HWCYEVQAESSNYPCLVPVKWGGNCQKDRQSPINIVTTKAKVDKKLGRFFFSGYDKKQTWTVQNNGHSVMMLLENKASISGGGLPAPYQAKQLHLHWSDLPYKGSEHSLDGEHFAMEMHIVHEKEKGTDPEDEIAVLAFLVEAGTQVNEGFQPLVEALSNIPKPEMSTTMAESSLLDLLPKEEKLRHYFRYLGSLTTPTCDEKVVWTVFREPIQLHREQILAFSQKLYYDKEQTVSMKDNVRPLQQLGQRTVIKS AESHWCYEVQAESSNYPCLVPVKWGGNCQKDRQSPINIVTTKAKVDKKLGRFFFSGYDKKQTWTVQNNGHSVMMLLENKASISGGGLPAPYQAKQLHLHWSDLPYKGSEHSLDGEHFAMEMHIVHEKEKGTSDPEDEIAVLAFLVEAGTQVNEGFQPLVEALSNIPKPEMSTTMAESSLLDLLPKEEKLRHYFRYLGSLTTPTCDEKVVWTVFREPIQLHREQILAFSQKLYYDKEQTVSMKDNVRPLQQLGQRTVIKS 5ku6-a5-m1-cD_5ku6-a5-m1-cA Crystal structure for the complex of human carbonic anhydrase IV and methazolamide P22748 P22748 1.8 X-RAY DIFFRACTION 28 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 263 259 5ku6-a5-m1-cC_5ku6-a5-m1-cB HWCYEVQAESSNYPCLVPVKWGGNCQKDRQSPINIVTTKAKVDKKLGRFFFSGYDKKQTWTVQNNGHSVMMLLENKASISGGGLPAPYQAKQLHLHWSDLPYKGSEHSLDGEHFAMEMHIVHEKEKGTSRNVKEAQDPEDEIAVLAFLVEAGTQVNEGFQPLVEALSNIPKPEMSTTMAESSLLDLLPKEEKLRHYFRYLGSLTTPTCDEKVVWTVFREPIQLHREQILAFSQKLYYDKEQTVSMKDNVRPLQQLGQRTVIKS AESHWCYEVQAESSNYPCLVPVKWGGNCQKDRQSPINIVTTKAKVDKKLGRFFFSGYDKKQTWTVQNNGHSVMMLLENKASISGGGLPAPYQAKQLHLHWSDLPYKGSEHSLDGEHFAMEMHIVHEKEKGTSDPEDEIAVLAFLVEAGTQVNEGFQPLVEALSNIPKPEMSTTMAESSLLDLLPKEEKLRHYFRYLGSLTTPTCDEKVVWTVFREPIQLHREQILAFSQKLYYDKEQTVSMKDNVRPLQQLGQRTVIKS 5ku7-a1-m1-cB_5ku7-a1-m1-cA Crystal structure of the TIR domain from the Muscadinia rotundifolia disease resistance protein RPV1 V9M2S5 V9M2S5 2.3 X-RAY DIFFRACTION 38 1.0 103349 (Vitis rotundifolia) 103349 (Vitis rotundifolia) 167 171 TTYDVFLSFRGEDTRYNFTDHLYSALGRRGIRTFRDDRLRRGEAIAPELLKAIEESRSSVIVFSENYAHSRWCLDELVKIMECQKDLGHAVFPIFYHVDPSHVRKQEGSFGEAFAGYEENWKDKIPRWRTALTEAANLSGWHLLDDRYESNQIKEITNSIFRQLKCK TTYDVFLSFRGEDTRYNFTDHLYSALGRRGIRTFRDDRLRRGEAIAPELLKAIEESRSSVIVFSENYAHSRWCLDELVKIMECQKDLGHAVFPIFYHVDPSHVRKQEGSFGEAFAGYEENWKDKIPRWRTALTEAANLSGWHLLDDRYESNQIKEITNSIFRQLKCKRLDV 5kuf-a1-m1-cA_5kuf-a1-m1-cD GluK2EM with 2S,4R-4-methylglutamate P42260 P42260 3.8 ELECTRON MICROSCOPY 85 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 750 750 5kuf-a1-m1-cB_5kuf-a1-m1-cC THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLTITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLAYLGVSVVLFVIARALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGSTMTFFKKSKISTYDKMWAFMSSRRQSVLVKSSEEGIQRVLTSDYALLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFIVLAAGLVLSVFVAV THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLTITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLAYLGVSVVLFVIARALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGSTMTFFKKSKISTYDKMWAFMSSRRQSVLVKSSEEGIQRVLTSDYALLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFIVLAAGLVLSVFVAV 5kuf-a1-m1-cC_5kuf-a1-m1-cD GluK2EM with 2S,4R-4-methylglutamate P42260 P42260 3.8 ELECTRON MICROSCOPY 208 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 750 750 5kuf-a1-m1-cA_5kuf-a1-m1-cB THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLTITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLAYLGVSVVLFVIARALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGSTMTFFKKSKISTYDKMWAFMSSRRQSVLVKSSEEGIQRVLTSDYALLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFIVLAAGLVLSVFVAV THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLTITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLAYLGVSVVLFVIARALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGSTMTFFKKSKISTYDKMWAFMSSRRQSVLVKSSEEGIQRVLTSDYALLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEQNIGGIFIVLAAGLVLSVFVAV 5kux-a2-m1-cA_5kux-a2-m2-cA Designed influenza hemagglutinin binding protein HSB.2 1.8 X-RAY DIFFRACTION 170 1.0 32630 (synthetic construct) 32630 (synthetic construct) 92 92 GIVNVPNCNTTKYQQLARTAVAIYNYHEQAHLTFVENLNCKEQLGEGDYYYITLAATDDAGKKAIYEAKIGVVESAGWTGVEEFKLVGSLEH GIVNVPNCNTTKYQQLARTAVAIYNYHEQAHLTFVENLNCKEQLGEGDYYYITLAATDDAGKKAIYEAKIGVVESAGWTGVEEFKLVGSLEH 5kva-a1-m1-cA_5kva-a1-m1-cB Crystal Structure of sorghum caffeoyl-CoA O-methyltransferase (CCoAOMT) C5Z4W3 C5Z4W3 1.827 X-RAY DIFFRACTION 118 1.0 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 227 228 KSLLKSDDLYQYILDTSVYPREPESMKELREITAKHPWNLMTTSADEGQFLNMLIKLIGAKKTMEIGVYTGYSLLATALALPEDGTILAMDINRENYELGLPCIEKAGVAHKIDFREGPALPVLDDLIADEKNHGSFDFVFVDADKDNYLNYHDRLLKLVKLGGLIGYDNTLWNGSVVLPDDAPMRKYIRFYRDFVLVLNKALAADERVEICQLPVGDGVTLCRRVK HKSLLKSDDLYQYILDTSVYPREPESMKELREITAKHPWNLMTTSADEGQFLNMLIKLIGAKKTMEIGVYTGYSLLATALALPEDGTILAMDINRENYELGLPCIEKAGVAHKIDFREGPALPVLDDLIADEKNHGSFDFVFVDADKDNYLNYHDRLLKLVKLGGLIGYDNTLWNGSVVLPDDAPMRKYIRFYRDFVLVLNKALAADERVEICQLPVGDGVTLCRRVK 5kvr-a1-m1-cA_5kvr-a1-m2-cA X-Ray Crystal Structure of a Fragment (1-75) of a Transcriptional Regulator PdhR from Escherichia coli CFT073 P0ACL9 P0ACL9 1.36 X-RAY DIFFRACTION 50 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 77 77 NAMAYSKIRQPKLSDVIEQQLEFLILEGTLRPGEKLPPERELAKQFDVSRPSLREAIQRLEAKGLLLRRQGGGTFVQ NAMAYSKIRQPKLSDVIEQQLEFLILEGTLRPGEKLPPERELAKQFDVSRPSLREAIQRLEAKGLLLRRQGGGTFVQ 5kw6-a1-m1-cB_5kw6-a1-m1-cA Two Tandem RRM Domains of PUF60 Bound to an AdML Pre-mRNA 3' Splice Site Analogue with a Modified Binding-Site Nucleic Acid Base Q9UHX1 Q9UHX1 1.91 X-RAY DIFFRACTION 41 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 198 201 2qfj-a1-m1-cA_2qfj-a1-m1-cB 5kvy-a1-m1-cA_5kvy-a1-m1-cB 5kw1-a1-m1-cB_5kw1-a1-m1-cA 5kwq-a3-m1-cA_5kwq-a3-m1-cB MGRGSAAQRQGALAIMSRVYVGSIYYELGEDTIRQAFAPFGPIKSIDMSWDSVTMKHKGFAFVEYEVPEAAQLALEQMNSVMLGGRNIKVGRPSNIGQAQPIIDQLAEEARAFNRIYVASVHQDLSDDDIKSVFEAFGKIKSATLARDPTTGKHKGYGFIEYEKAQSSQDAVSSMNLFDLGGQYLRVGKAVTPPMPLL GRGSAAQRQGALAIMSRVYVGSIYYELGEDTIRQAFAPFGPIKSIDMSWDSVTMKHKGFAFVEYEVPEAAQLALEQMNSVMLGGRNIKVGRPSNIGQAQPIIDQLAEEARAFNRIYVASVHQDLSDDDIKSVFEAFGKIKSATLARDPTTGKHKGYGFIEYEKAQSSQDAVSSMNLFDLGGQYLRVGKAVTPPMPLLTPAT 5kwd-a1-m1-cA_5kwd-a1-m1-cB Computationally Designed Symmetric Homotetramer 2.75 X-RAY DIFFRACTION 61 1.0 671065 (Metallosphaera yellowstonensis MK1) 671065 (Metallosphaera yellowstonensis MK1) 160 160 STEGKMLIIAAREGMIIVVIVLLEKGADPNASDKDGRTPLHYAAENGHLIIVLLLLEKGADPNAKDSDGRTPLHYAAENGHKEIVEALLEHGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEHHHHH STEGKMLIIAAREGMIIVVIVLLEKGADPNASDKDGRTPLHYAAENGHLIIVLLLLEKGADPNAKDSDGRTPLHYAAENGHKEIVEALLEHGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEHHHHH 5kwd-a1-m1-cC_5kwd-a1-m1-cB Computationally Designed Symmetric Homotetramer 2.75 X-RAY DIFFRACTION 20 1.0 671065 (Metallosphaera yellowstonensis MK1) 671065 (Metallosphaera yellowstonensis MK1) 158 160 STEGKMLIIAAREGMIIVVIVLLEKGADPNASDKDGRTPLHYAAENGHLIIVLLLLEKGADPNAKDSDGRTPLHYAAENGHKEIVEALLEHGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEHHH STEGKMLIIAAREGMIIVVIVLLEKGADPNASDKDGRTPLHYAAENGHLIIVLLLLEKGADPNAKDSDGRTPLHYAAENGHKEIVEALLEHGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEHHHHH 5kwd-a1-m1-cD_5kwd-a1-m1-cA Computationally Designed Symmetric Homotetramer 2.75 X-RAY DIFFRACTION 36 1.0 671065 (Metallosphaera yellowstonensis MK1) 671065 (Metallosphaera yellowstonensis MK1) 159 160 STEGKMLIIAAREGMIIVVIVLLEKGADPNASDKDGRTPLHYAAENGHLIIVLLLLEKGADPNAKDSDGRTPLHYAAENGHKEIVEALLEHGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEHHHH STEGKMLIIAAREGMIIVVIVLLEKGADPNASDKDGRTPLHYAAENGHLIIVLLLLEKGADPNAKDSDGRTPLHYAAENGHKEIVEALLEHGADPNAKDSDGRTPLHYAAENGHKEIVKLLLSKGADPNTSDSDGRTPLDLAREHGNEEIVKLLEHHHHH 5kwy-a1-m1-cA_5kwy-a1-m1-cB Structure of human NPC1 middle lumenal domain bound to NPC2 O15118 O15118 2.405 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 236 GPFFRTEQLIIRAPLTDKHIYQPYPSGADVPFGPPLDIQILHQVLDLQIAIENITASYDNETVTLQDICLAPLSPYNTNCTILSVLNYFQNSHSVLDHKKGDDFFVYADYHTHFLYCVRAPASLNDTSLLHDPCLGTFGGPVFPWLVLGGYDDQNYNNATALVITFPVNNYYNDTEKLQRAQAWEKEFINFVKNYKNPNLTISFTAER VDLWSAPSSQARLEKEYFDQHFGPFFRTEQLIIRAPLTDKHIYQPYPSGADVPFGPPLDIQILHQVLDLQIAIENITASYDNETVTLQDICLAPLSPYNTNCTILSVLNYFQNSHSVLDHKKGDDFFVYADYHTHFLYCVRAPASLNDTSLLHDPCLGTFGGPVFPWLVLGGYDDQNYNNATALVITFPVNNYYNDTEKLQRAQAWEKEFINFVKNYKNPNLTISFTAERSIEDEL 5kx4-a3-m1-cB_5kx4-a3-m1-cA Structure of SALO Q5WPZ4 Q5WPZ4 1.94 X-RAY DIFFRACTION 42 1.0 7200 (Lutzomyia longipalpis) 7200 (Lutzomyia longipalpis) 93 95 EFSEDCENIFHDNAYLLKLDCEAGRVDPVEYDDISDEEIYEITVDVGVSSEDQEKVAKIIRECIAQVSTQDCTKFSEIYDCYMKKKICNYYPE EFSEDCENIFHDNAYLLKLDCEAGRVDPVEYDDISDEEIYEITVDVGVSSEDQEKVAKIIRECIAQVSTQDCTKFSEIYDCYMKKKICNYYPENM 5kx6-a3-m2-cA_5kx6-a3-m1-cB The structure of Arabidopsis thaliana FUT1 Mutant R284K in complex with GDP Q9SWH5 Q9SWH5 2.2 X-RAY DIFFRACTION 42 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 440 450 5koe-a5-m1-cA_5koe-a5-m2-cD 5koe-a6-m2-cB_5koe-a6-m1-cC 5kop-a1-m1-cB_5kop-a1-m1-cA 5kop-a2-m1-cC_5kop-a2-m1-cD 5kor-a1-m1-cA_5kor-a1-m1-cB 5kor-a2-m1-cC_5kor-a2-m1-cD DKLLGGLLASGFDEDSCLSRYQSVHYRKPSPYKPSSYLISKLRNYEKLHKRCGPGTESYKKALKQLDQEGECKYVVWISFSGLGNRILSLASVFLYALLTDRVLLVDRGKDMDDLFCEPFLGMSWLLPLDFPMTDQFDGLNQESSRCYGYMVKNQVTLSHLYLHLVHDYGDHDKMFFCEGDQTFIGKVPWLIVKTDNYFVPSLWLIPGFDDELNKLFPQKATVFHHLGRYLFHPTNQVWGLVTRYYEAYLSHADEKIGIQVKVFDEDPGPFQHVMDQISSCTQKEKLLPEVDTLVTPKHKAVLVTSLNAGYAENLKSMYWEYPTSTGEIIGVHQPSQEGMHNGKALAEMYLLSLTDNLVTSAWSTFGYVAQGLGGLKPWILYRPENRTTPDPSCGRAMSMEPCFHSPPFYDCKAKTGIDTGTLVPHVRHCEDISWGLKLV DKLLGGLLASGFDEDSCLSRYQSVHYRKPSPYKPSSYLISKLRNYEKLHKRCGPGTESYKKALKQLDQEHIDGDGECKYVVWISFSGLGNRILSLASVFLYALLTDRVLLVDRGKDMDDLFCEPFLGMSWLLPLDFPMTDQFDGLNQESSRCYGYMVKNQVIDTEGTLSHLYLHLVHDYGDHDKMFFCEGDQTFIGKVPWLIVKTDNYFVPSLWLIPGFDDELNKLFPQKATVFHHLGRYLFHPTNQVWGLVTRYYEAYLSHADEKIGIQVKVFDEDPGPFQHVMDQISSCTQKEKLLPEVDTLVTPKHKAVLVTSLNAGYAENLKSMYWEYPTSTGEIIGVHQPSQEGMHNGKALAEMYLLSLTDNLVTSAWSTFGYVAQGLGGLKPWILYRPENRTTPDPSCGRAMSMEPCFHSPPFYDCKAKTGIDTGTLVPHVRHCEDISWGLKLV 5kxi-a1-m1-cB_5kxi-a1-m1-cC X-ray structure of the human Alpha4Beta2 nicotinic receptor P17787 P17787 3.941 X-RAY DIFFRACTION 146 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 358 358 6cnj-a1-m1-cB_6cnj-a1-m1-cC 6ur8-a1-m1-cB_6ur8-a1-m1-cC 6usf-a1-m1-cC_6usf-a1-m1-cB TDTEERLVEHLLDPSRYNKLIRPATNGSELVTVQLMVSLAQLISVHEREQIMTTNVWLTQEWEDYRLTWKPEEFDNMKKVRLPSKHIWLPDVVLYNNADGMYEVSFYSNAVVSYDGSIFWLPPAIYKSACKIEVKHFPFDQQNCTMKFRSWTYDRTEIDLVLKSEVASLDDFTPSGEWDIVALPGRRNENPDDSTYVDITYDFIIRRKPLFYTINLIIPCVLITSLAILVFYLPSDCGEKMTLCISVLLALTVFLLLISKIVPPTSLDVPLVGKYLMFTMVLVTFSIVTSVCVLNVHHRSPTTHTMAPWVKVVFLEKLPALLFSEDWKYVAMVIDRLFLWIFVFVCVFGTIGMFLQPL TDTEERLVEHLLDPSRYNKLIRPATNGSELVTVQLMVSLAQLISVHEREQIMTTNVWLTQEWEDYRLTWKPEEFDNMKKVRLPSKHIWLPDVVLYNNADGMYEVSFYSNAVVSYDGSIFWLPPAIYKSACKIEVKHFPFDQQNCTMKFRSWTYDRTEIDLVLKSEVASLDDFTPSGEWDIVALPGRRNENPDDSTYVDITYDFIIRRKPLFYTINLIIPCVLITSLAILVFYLPSDCGEKMTLCISVLLALTVFLLLISKIVPPTSLDVPLVGKYLMFTMVLVTFSIVTSVCVLNVHHRSPTTHTMAPWVKVVFLEKLPALLFSEDWKYVAMVIDRLFLWIFVFVCVFGTIGMFLQPL 5kxq-a2-m1-cC_5kxq-a2-m1-cD mouse POFUT1 in complex with GDP Q91ZW2 Q91ZW2 1.9 X-RAY DIFFRACTION 67 0.997 10090 (Mus musculus) 10090 (Mus musculus) 323 325 5kxq-a1-m1-cB_5kxq-a1-m1-cA SWDLAGYLLYCPCMGRFGNQADHFLGSLAFAKLLNRTLAVPPWIEYNLHVSYQKYFKLEPLQAYHRVVSLEDFMENLAPSHWPPEKRVAYCFEVAAQRSPDKKTCPMKEGNPFGPFWDQFHVSFNKSELFTGISFSASYKEQWTQRFPAKEHPVLALPGAPAQFPVLEEHRELQKYMVWSDEMVRTGEALISAHLVRPYVGIHLRIGSDWKNACAMSPQCVGTPLTMTMCLPDLKEIQRAVTLWVRALNARSVYIATDSESYVSEIQQLFKVRVVSLKPEVAQIDLYILGQADHFIGNCVSSFTAFVKRERDLHGRQSSFFGM SWDLAGYLLYCPCMGRFGNQADHFLGSLAFAKLLNRTLAVPPWIEYNLHVSYQKYFKLEPLQAYHRVVSLEDFMENLAPSHWPPEKRVAYCFEVAAQRSPDKKTCPMKEGNPFGPFWDQFHVSFNKSELFTGISFSASYKEQWTQRFPAKEHPVLALPGAPAQFPVLEEHRELQKYMVWSDEMVRTGEALISAHLVRPYVGIHLRIGSDWKNACAASPQCVGYTPLTMTMCLPDLKEIQRAVTLWVRALNARSVYIATDSESYVSEIQQLFKVRVVSLKPEVAQIDLYILGQADHFIGNCVSSFTAFVKRERDLHGRQSSFFGMD 5kzk-a1-m1-cB_5kzk-a1-m1-cA Crystal Structure of rRNA methyltransferase from Sinorhizobium meliloti Q92SJ4 Q92SJ4 2.28 X-RAY DIFFRACTION 68 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 254 257 5l0z-a1-m1-cB_5l0z-a1-m1-cA GQVKEVTSLTNPIVKDIRALTQKKHRDETRSFAEGLKLVIDALDLGWKIKTLVYPQVEQVAAKTVARGGLVLEVNEKVISTITRRDNPQVVGIFEQRYSPLRDIHPQEGETYVALDRVRDPGNLGTIIRTADAAGASGIILVGETTDPFSLETVRATGSVFAIPIARANTEDFIRWQRAAGVQVVATHLAGSVDYRTIDYKSKPVVLLGNEQAGLPVELAREAGALARIPQAGDSLNLAIATGILFEARRHLLS GQVKEVTSLTNPIVKDIRALTQKKHRDETRSFAEGLKLVIDALDLGWKIKTLVYPQVEQVAAKTVARGGLVLEVNEKVISTITRRDNPQVVGIFEQRYSPLRDIHPQEGETYVALDRVRDPGNLGTIIRTADAAGASGIILVGETTDPFSLETVRATGSVFAIPIARANTEDFIRWQRAAGVQVVATHLAGSVDYRTIDYKSKPVVLLGNEQAGLPVELAREAGALARIPQAGRADSLNLAIATGILFEARRHLLSL 5kzm-a1-m1-cB_5kzm-a1-m2-cB Crystal structure of Tryptophan synthase alpha-beta chain complex from Francisella tularensis Q5NE79 Q5NE79 2.804 X-RAY DIFFRACTION 96 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 384 384 SKLNAYFGEYGGQFVPQILVPALDQLEQEFIKAQADESFKQEFKELLQEYAGRPTALTKTRNIVKNTRTKLYLKREDLLHGGAHTNQVLGQALLAKRGKKEIIAETGAGQHGVATALACALLDLKCRVYGAKDVERQSPNVFRKLGAEVIPVHSGSATLKDACNEALRDWSANYSKAHYLLGTAAGPHPFPTIVREFQRIGEETKQQLAKEGRLPDAVIACVGGGSNAIGFADFIDEKNVKLIGVEPAGKGIETGEHGAPLKHGKTGIFFGKAPLQNSDGQIEESYSISAGLDFPSVGPQHAHLLAIGRAKYASATDDEALDAFKLLCKKEGIIPALESSHALAHALKLAYEDPNKEQLLVVNLSGRGDKDIFTVHDILKEKGE SKLNAYFGEYGGQFVPQILVPALDQLEQEFIKAQADESFKQEFKELLQEYAGRPTALTKTRNIVKNTRTKLYLKREDLLHGGAHTNQVLGQALLAKRGKKEIIAETGAGQHGVATALACALLDLKCRVYGAKDVERQSPNVFRKLGAEVIPVHSGSATLKDACNEALRDWSANYSKAHYLLGTAAGPHPFPTIVREFQRIGEETKQQLAKEGRLPDAVIACVGGGSNAIGFADFIDEKNVKLIGVEPAGKGIETGEHGAPLKHGKTGIFFGKAPLQNSDGQIEESYSISAGLDFPSVGPQHAHLLAIGRAKYASATDDEALDAFKLLCKKEGIIPALESSHALAHALKLAYEDPNKEQLLVVNLSGRGDKDIFTVHDILKEKGE 5l07-a2-m2-cA_5l07-a2-m2-cB Crystal Structure of Quorum-Sensing Transcriptional Activator from Yersinia enterocolitica 2.2 X-RAY DIFFRACTION 41 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 158 159 5l07-a1-m1-cA_5l07-a1-m1-cB 5l07-a2-m1-cA_5l07-a2-m1-cB 5l09-a1-m1-cA_5l09-a1-m1-cB YFDNESINEDIKNYIQRRIKAYGDLRYSYLVNKKTPLHPTIISNYPLDWVKKYKKNSYHLIDPVILTAKDKVAPFAWDDNSVINKKSAVFKLAREYNIVNGYTFVLHDNSNNATLNISNGSDDSISFDESIEINKEKIQLLILTHEKLGLYQSNSDKN YFDNESINEDIKNYIQRRIKAYGDLRYSYLVNKKTPLHPTIISNYPLDWVKKYKKNSYHLIDPVILTAKDKVAPFAWDDNSVINKKSSAVFKLAREYNIVNGYTFVLHDNSNNATLNISNGSDDSISFDESIEINKEKIQLLILTHEKLGLYQSNSDKN 5l0c-a1-m2-cC_5l0c-a1-m1-cA Human metavinculin (residues 959-1134) in complex with PIP2 P18206 P18206 3.1 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 176 5l0c-a2-m3-cD_5l0c-a2-m1-cB 5l0d-a1-m1-cA_5l0d-a1-m2-cB 5l0d-a2-m1-cD_5l0d-a2-m3-cC 5l0g-a1-m1-cB_5l0g-a1-m2-cA 5l0g-a2-m2-cD_5l0g-a2-m1-cC NQPVNQPILAAAQSLHREATKWSSKGNDIIAAAKRMALLMAEMSRLVRGGSGTKRALIQCAKDIAKASDEVTRLAKEVAKQCTDKRIRTNLLQVCERIPTISTQLKILSTVKATMLGRTNISDEESEQATEMLVHNAQNLMQSVKETVREAEAASIKIRTDAGFTLRWVRKTPWY NQPVNQPILAAAQSLHREATKWSSKGNDIIAAAKRMALLMAEMSRLVRGGSGTKRALIQCAKDIAKASDEVTRLAKEVAKQCTDKRIRTNLLQVCERIPTISTQLKILSTVKATMLGRTNISDEESEQATEMLVHNAQNLMQSVKETVREAEAASIKIRTDAGFTLRWVRKTPWYQ 5l0j-a1-m1-cA_5l0j-a1-m1-cB Human vinculin R903Q, D907R, R910T mutant(residues 891-1066) P18206 P18206 4 X-RAY DIFFRACTION 37 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 165 166 GEVINQPMMMAAQQLHREATKWSSKGNDIIAAAKRMALLMAEMSRLVRGGSGTKRALIQCAKDIAKASDEVTRLAKEVAKQCTDKRIRTNLLQVCERIPTISTQLKILSTVKATMLDEESEQATEMLVHNAQNLMQSVKETVREAEAASIKTDAGFTLRWVRKTP VINQPMMMAAQQLHREATKWSSKGNDIIAAAKRMALLMAEMSRLVRGGSGTKRALIQCAKDIAKASDEVTRLAKEVAKQCTDKRIRTNLLQVCERIPTISTQLKILSTVKATMLDEESEQATEMLVHNAQNLMQSVKETVREAEAASIKIRTDAGFTLRWVRKTPW 5l0l-a1-m1-cA_5l0l-a1-m1-cB Crystal structure of Uncharacterized protein LPG0439 Q5ZYD3 Q5ZYD3 1.8 X-RAY DIFFRACTION 142 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 209 209 GKKEFLKHEYSPGHWSIDYTRAGTSIAVITVRNKYHYSVILNPTDCRGYRIIIRYLNEGDSTLSSAFNRPYTVSEQRGLNDVASLTQVYEKLGLIVQFSQLGNNSQSFDKGTGVTLIGSEEEPSLHLHWGRGDPDEYIAGVPLRGPEPGLFDLIAKNKTHPINQHAIKWNEEELKACLAFKLKLAEYVNSPEFTEEFGDTLKVTIHDKK GKKEFLKHEYSPGHWSIDYTRAGTSIAVITVRNKYHYSVILNPTDCRGYRIIIRYLNEGDSTLSSAFNRPYTVSEQRGLNDVASLTQVYEKLGLIVQFSQLGNNSQSFDKGTGVTLIGSEEEPSLHLHWGRGDPDEYIAGVPLRGPEPGLFDLIAKNKTHPINQHAIKWNEEELKACLAFKLKLAEYVNSPEFTEEFGDTLKVTIHDKK 5l0o-a2-m1-cC_5l0o-a2-m1-cD IQGAP1 calponin homology domain fragment (CHDF) mutant K161C under oxidizing conditions P46940 P46940 2.36 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 3i6x-a1-m1-cA_3i6x-a1-m1-cD 3i6x-a2-m1-cB_3i6x-a2-m1-cC 5l0o-a1-m1-cA_5l0o-a1-m1-cB AEEMDERRRQNVAYEYLCHLEEAKRWMEACLGEDLPPTTELEEGLRNGVYLAKLGNFFSPKVVSLKKIYDREQTRYKATGLHFRHTDNVIQWLNAMDEIGLPKIFYPETTDIYDRKNMPRCIYCIHALSLYLFCLGLAPQIQDLYGKVDFTEEEINNMKTELEK AEEMDERRRQNVAYEYLCHLEEAKRWMEACLGEDLPPTTELEEGLRNGVYLAKLGNFFSPKVVSLKKIYDREQTRYKATGLHFRHTDNVIQWLNAMDEIGLPKIFYPETTDIYDRKNMPRCIYCIHALSLYLFCLGLAPQIQDLYGKVDFTEEEINNMKTELEK 5l0y-a5-m1-cH_5l0y-a5-m1-cE Crystal Structure of a Sec72-ssa1 c-terminal peptide fusion protein G0RYP6 G0RYP6 2.87 X-RAY DIFFRACTION 20 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 133 151 5l0y-a1-m1-cD_5l0y-a1-m1-cA 5l0y-a4-m1-cL_5l0y-a4-m1-cD KRSANINKLRESGNAEYRKQRYGDAIKLYTLGLQMALTRPAWEPRDEIHQLYSNRAQAYMQLGQWPEAAADAECSVEAKRQGNAKAWYRRGKCLMEMRRLQEAREWVARGLEFEEKELAELLKEIDSKLAAEK PKRSANINKLRESGNAEYRKQRYGDAIKLYTLGLQMALTRPAWEPAGLVRDEIHQLYSNRAQAYMQLGQWPEAAADAECSVEAKRQGNAKAWYRRGKCLMEMRRLQEAREWVARGLEFEEKELAELLKEIDSKLAAEKASRDAHPTVEEVD 5l10-a3-m1-cE_5l10-a3-m1-cF Crystal Structure of N-Acylhomoserine Lactone Dependent LuxR Family Transcriptionl Factor CepR2 from Burkholderia cenocepacia B4EHM0 B4EHM0 2.75 X-RAY DIFFRACTION 88 0.994 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 160 160 5l10-a1-m1-cB_5l10-a1-m1-cA 5l10-a2-m1-cC_5l10-a2-m1-cD NADLTILHDCFDALQRAPTAEAAFPPIAAAAAALGFRYCVYGLRRTPDQIVGNHPREWEHRYVKFGYVTIDPIIKRVASQPRPVVWNAFDEPGDTAFWHDAACFGRYGWSHGGYDRAGNLGVLTLVRDTTPLDADEISRLRAPCASLSHAAHAYLPRLAD ADLTILHDCFDALQRAPTAEAAFPPIAAAAAALGFRYCVYGLRRTRPDQIVGNHPREWEHRYVKFGYVTIDPIIKRVASQPRPVVWNAFDEPGDTAFWHDAACFGRYGWSHGGYDRAGNLGVLTLVRDTTPLDADEISRLRAPCASLSHAAHAYLPRLAD 5l16-a1-m1-cA_5l16-a1-m2-cA Crystal Structure of N-terminus truncated selenophosphate synthetase from Leishmania major Q4Q0M0 Q4Q0M0 1.882 X-RAY DIFFRACTION 104 1.0 5664 (Leishmania major) 5664 (Leishmania major) 323 323 DCSIVPLHHTNSKGEALFLVSTTDFFFPSVSDPFLQGQIGAANVLSDLYSMGIPDCDTMLMLLAASTEMDEHERLITTREIMKGFAERARLATTTVTGGQTVMNPWPLIGGVAMAVVSEAEMVRPTGLLCAGDILVLTKPLGCQVAVNLKQWLLRPSPLYEEAIAGHISPEEIEELYNMATDSMRRLNREGARLMRKHGAHGATDVTGFGILGHANNFGAAQAVGDAPRSLCLVLERLPMFKTAVAASKQMNDKYRLLEGYSAETSGGLLVAFPSTTAAAAFCAELTAVDGGCPSWIVGHVEDRAAVDGVYARLKDGYEIVEV DCSIVPLHHTNSKGEALFLVSTTDFFFPSVSDPFLQGQIGAANVLSDLYSMGIPDCDTMLMLLAASTEMDEHERLITTREIMKGFAERARLATTTVTGGQTVMNPWPLIGGVAMAVVSEAEMVRPTGLLCAGDILVLTKPLGCQVAVNLKQWLLRPSPLYEEAIAGHISPEEIEELYNMATDSMRRLNREGARLMRKHGAHGATDVTGFGILGHANNFGAAQAVGDAPRSLCLVLERLPMFKTAVAASKQMNDKYRLLEGYSAETSGGLLVAFPSTTAAAAFCAELTAVDGGCPSWIVGHVEDRAAVDGVYARLKDGYEIVEV 5l1d-a1-m1-cE_5l1d-a1-m1-cG Structure of rabbit RyR2 in complex with FKBP12.6 in a closed state (conformation C1) 11.0 ELECTRON MICROSCOPY 142 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 3570 3570 5l1d-a1-m1-cA_5l1d-a1-m1-cC 5l1d-a1-m1-cA_5l1d-a1-m1-cG 5l1d-a1-m1-cC_5l1d-a1-m1-cE EIQFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLLVRALGGGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYGNGSLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGHMDECLTVPSGEHGEEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKNLLLMDKEKADVKSTAFTFRSSKEKLDGGVRKEVDGMGTSEIKYGDSICYIQHVDTGLWLTYQSVDIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASSVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSAAHFADVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGVSEGSAQYKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGGRHGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYTLLDDRTKKSNKDSLREAVRTLLGYGYNLEAPDRFRIFRAEKTYAVKAGRWYFEFEAVTSGDMRVGWSRPGELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMNEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSNHEHIEVTRIDVTQKSFGSQNSNTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTGFDLDVTVTLGDEKGKVHESIKRSNXXXXXNNNGLEIGCVVGLLTFIANGKELSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLDPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRTGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVKEGSLHGRDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLRHILQLIEPGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRXXXXXXXXXXXXXXXLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVTPLDVAAASVMDNNELALALREPDLEKVVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSLXXXXXXXXXXXXXXFCPDHKAAMVLFLDRVYVQDFLLHLLVGFLPDLRAAASLTDMALALNRYLCTAVLPLLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXFNPQPVDTSNIIIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKIQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDSMALYNAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCVKSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLDYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMLTSSDTFKEYDPDGKGIISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYLARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSILGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE EIQFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLLVRALGGGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYGNGSLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGHMDECLTVPSGEHGEEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKNLLLMDKEKADVKSTAFTFRSSKEKLDGGVRKEVDGMGTSEIKYGDSICYIQHVDTGLWLTYQSVDIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASSVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSAAHFADVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGVSEGSAQYKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGGRHGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYTLLDDRTKKSNKDSLREAVRTLLGYGYNLEAPDRFRIFRAEKTYAVKAGRWYFEFEAVTSGDMRVGWSRPGELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMNEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSNHEHIEVTRIDVTQKSFGSQNSNTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTGFDLDVTVTLGDEKGKVHESIKRSNXXXXXNNNGLEIGCVVGLLTFIANGKELSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLDPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRTGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVKEGSLHGRDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLRHILQLIEPGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRXXXXXXXXXXXXXXXLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVTPLDVAAASVMDNNELALALREPDLEKVVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSLXXXXXXXXXXXXXXFCPDHKAAMVLFLDRVYVQDFLLHLLVGFLPDLRAAASLTDMALALNRYLCTAVLPLLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXFNPQPVDTSNIIIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKIQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDSMALYNAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCVKSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLDYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMLTSSDTFKEYDPDGKGIISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYLARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSILGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 5l1m-a1-m1-cA_5l1m-a1-m2-cA CASKIN2 SAM domain tandem Q8WXE0 Q8WXE0 2.751 X-RAY DIFFRACTION 126 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 4is7-a1-m1-cA_4is7-a1-m2-cA GKDAQAIHNWLSEFQLEGYTAHFLQAGYDVPTISRMTPEDLTAIGVTKPGHRKKIASEIAQLSIAEWLPSYIPTDLLEWLCALGLPQYHKQLVSSGYDSMGLVADLTWEELQEIGVNKLGHQKKLMLGVKRLAELRRGLL GKDAQAIHNWLSEFQLEGYTAHFLQAGYDVPTISRMTPEDLTAIGVTKPGHRKKIASEIAQLSIAEWLPSYIPTDLLEWLCALGLPQYHKQLVSSGYDSMGLVADLTWEELQEIGVNKLGHQKKLMLGVKRLAELRRGLL 5l22-a1-m1-cA_5l22-a1-m1-cB PrtD T1SS ABC transporter O67184 O67184 3.15 X-RAY DIFFRACTION 406 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 539 540 LRSYLAKYKKTLIIVGLFSLFINILFLLPSIYMLAVYDIVVPSTSVPTLLVITALAVVLYFALGLLQSVRAKVMQIISLKLDSELNKEVFTSSFEYAIRNPSKASAQPINDLYQLKQFLTSPVLFAIFDLPWVPIYFGVLFVFHVYYGVMAILSMAVIVALAILNEYITKKKLKESNELLVRSTNFLNRALLNAEVVEALGMRNNLYKKWMNFYSKHLSAFEEATDRNNFLSNLTRIFRIMAQSLMLGLGGYLAIKHEITTGMIVAGSILLGRILGPIDTIVNGWRQIGNTKVAYTRLNEFLKFLPEPKGEIELSNVVVVPPEGKTPVLRNINMRILPGEFVAIIGPSGSGKSSLVRTILGIWLPVHGTVEIDGADLKQWDRDYFGKFVGYLPQDIELFEGTVAENIARFGELDSEKIIEAAKLSGAHDVIIKLPDGYDTYIGPGGITLSGGQRQRIALARALYGNPRIVILDEPDSNLDEQGEQALYNALIELKKRKVTTIIVSHRIRLLNLVDKIAIMQDGTLKAFGKADIIIQKLL VLRSYLAKYKKTLIIVGLFSLFINILFLLPSIYMLAVYDIVVPSTSVPTLLVITALAVVLYFALGLLQSVRAKVMQIISLKLDSELNKEVFTSSFEYAIRNPSKASAQPINDLYQLKQFLTSPVLFAIFDLPWVPIYFGVLFVFHVYYGVMAILSMAVIVALAILNEYITKKKLKESNELLVRSTNFLNRALLNAEVVEALGMRNNLYKKWMNFYSKHLSAFEEATDRNNFLSNLTRIFRIMAQSLMLGLGGYLAIKHEITTGMIVAGSILLGRILGPIDTIVNGWRQIGNTKVAYTRLNEFLKFLPEPKGEIELSNVVVVPPEGKTPVLRNINMRILPGEFVAIIGPSGSGKSSLVRTILGIWLPVHGTVEIDGADLKQWDRDYFGKFVGYLPQDIELFEGTVAENIARFGELDSEKIIEAAKLSGAHDVIIKLPDGYDTYIGPGGITLSGGQRQRIALARALYGNPRIVILDEPDSNLDEQGEQALYNALIELKKRKVTTIIVSHRIRLLNLVDKIAIMQDGTLKAFGKADIIIQKLL 5l25-a1-m1-cA_5l25-a1-m2-cA Crystal Structure of Arabidopsis thaliana Bor1 Q8VYR7 Q8VYR7 4.11 X-RAY DIFFRACTION 65 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 399 399 GFRILAPTTYIFFASAIPVISFGEQLERSTDGVLTAVQTLASTAICGMIHSLILGVAEPTVIMYTFMFNFAKARPELGRDLFLAWSGWVCVWTALMLFVLAICGACSIINRFTRVAGELFGLLIAMLFMQQAIKGLVDEFRIPERENQKLKEFLPSWRFANGMFALVLSFGLLLTGLRSRKARSWRYGTGWLRSLIADYGVPLMVLVWTGVSYIPIVYIIGAFIPASMIAVLYYFDHSVASQLAQQKEFDLLLLGFLTLMCGLLGSNGVIPQSPMHTKSLATVSNLLQSTMVGGCVAAMPILKTSVLWGYFAFMAIESLPGNQFWERILLLFTAPSRRFKVLYHATFVETVPFKTIAMFTLFQTTYLLICFGLTWIPIAGVMFPLMIMFLIPVRQYLLP GFRILAPTTYIFFASAIPVISFGEQLERSTDGVLTAVQTLASTAICGMIHSLILGVAEPTVIMYTFMFNFAKARPELGRDLFLAWSGWVCVWTALMLFVLAICGACSIINRFTRVAGELFGLLIAMLFMQQAIKGLVDEFRIPERENQKLKEFLPSWRFANGMFALVLSFGLLLTGLRSRKARSWRYGTGWLRSLIADYGVPLMVLVWTGVSYIPIVYIIGAFIPASMIAVLYYFDHSVASQLAQQKEFDLLLLGFLTLMCGLLGSNGVIPQSPMHTKSLATVSNLLQSTMVGGCVAAMPILKTSVLWGYFAFMAIESLPGNQFWERILLLFTAPSRRFKVLYHATFVETVPFKTIAMFTLFQTTYLLICFGLTWIPIAGVMFPLMIMFLIPVRQYLLP 5l2e-a2-m1-cB_5l2e-a2-m1-cC Crystal structure of rat Glutamate receptor delta-2 extracellular domain Q63226 Q63226 4.152 X-RAY DIFFRACTION 117 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 648 648 5l2e-a1-m1-cA_5l2e-a1-m2-cA DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTGVRKLGCWNPVTGLNGSLGVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPSMYSQMWRMINNNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWPKNGQC DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTGVRKLGCWNPVTGLNGSLGVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPSMYSQMWRMINNNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWPKNGQC 5l2k-a2-m6-cA_5l2k-a2-m8-cA Crystal structure of GEM42 TCR-CD1b-GMM complex P29016 P29016 3.2 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 276 276 5l2k-a2-m1-cA_5l2k-a2-m3-cA FQGPTSFHVIQTSSFTNSTWAQTQGSGWLDDLQIHGWDSDSGTAIFLKPWSKGNFSDKEVAELEEIFRVYIFGFAREVQDFAGDFQMKYPFEIQGIAGCELHSGGAIVSFLRGALGGLDFLSVKNASCVPSPEGGSRAQKFCALIIQYQGIMETVRALLYETCPRYLLGVLNAGKADLQRQVKPEAWLSSGPSPGPGRLQLVCHVSGFYPKPVWVMWMRGEQEQQGTQLGDILPNANWTWYLRATLDVADGEAAGLSCRVKHSSLEGQDIILYWRG FQGPTSFHVIQTSSFTNSTWAQTQGSGWLDDLQIHGWDSDSGTAIFLKPWSKGNFSDKEVAELEEIFRVYIFGFAREVQDFAGDFQMKYPFEIQGIAGCELHSGGAIVSFLRGALGGLDFLSVKNASCVPSPEGGSRAQKFCALIIQYQGIMETVRALLYETCPRYLLGVLNAGKADLQRQVKPEAWLSSGPSPGPGRLQLVCHVSGFYPKPVWVMWMRGEQEQQGTQLGDILPNANWTWYLRATLDVADGEAAGLSCRVKHSSLEGQDIILYWRG 5l2l-a1-m1-cA_5l2l-a1-m1-cB Nab2 Zn fingers 5-7 bound to A11G RNA P32505 P32505 1.55 X-RAY DIFFRACTION 10 1.0 1294386 (Saccharomyces cerevisiae YJM1574) 1294386 (Saccharomyces cerevisiae YJM1574) 72 74 SEKSLEQCKFGTHCTNKRCKYRHARSHIMCREGANCTRIDCLFGHPINEDCRFGVNCKNIYCLFRHPPGRVL GSEKSLEQCKFGTHCTNKRCKYRHARSHIMCREGANCTRIDCLFGHPINEDCRFGVNCKNIYCLFRHPPGRVLP 5l2p-a1-m1-cA_5l2p-a1-m1-cD Structure of arylesterase B5BLW5 B5BLW5 2.56 X-RAY DIFFRACTION 71 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 306 306 5l2p-a1-m1-cC_5l2p-a1-m1-cB MPLDPEVRNFLQVYYKANIIDFTKYQFQEIRQKVNELLAKAVPKDPVGETRDMKIKLEDYELPIRIYSPIKRTNNGLVMHFHGGAWILGSIETEDAISRILSNSCECTVISVDYRLAPEYKFPTAVYDCFNAIVWARDNAGELGIDKDKIATFGISAGGNLVAATSLLARDNKLKLTAQVPVVPFVYLDLASKSMNRYRKGYFLDINLPVDYGVKMYIRDEKDLYNPLFSPLIAEDLSNLPQAIVVTAEYDPLRDQGEAYAYRLMESGVPTLSFRVNGNVHAFLGSPRTSRQVTVMIGALLKDIFK MPLDPEVRNFLQVYYKANIIDFTKYQFQEIRQKVNELLAKAVPKDPVGETRDMKIKLEDYELPIRIYSPIKRTNNGLVMHFHGGAWILGSIETEDAISRILSNSCECTVISVDYRLAPEYKFPTAVYDCFNAIVWARDNAGELGIDKDKIATFGISAGGNLVAATSLLARDNKLKLTAQVPVVPFVYLDLASKSMNRYRKGYFLDINLPVDYGVKMYIRDEKDLYNPLFSPLIAEDLSNLPQAIVVTAEYDPLRDQGEAYAYRLMESGVPTLSFRVNGNVHAFLGSPRTSRQVTVMIGALLKDIFK 5l2p-a1-m1-cC_5l2p-a1-m1-cA Structure of arylesterase B5BLW5 B5BLW5 2.56 X-RAY DIFFRACTION 10 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 301 306 MPLDPEVRNFLQVYYKANIYQFQEIRQKVNELLAKAVPKDPVGETRDMKIKLEDYELPIRIYSPIKRTNNGLVMHFHGGAWILGSIETEDAISRILSNSCECTVISVDYRLAPEYKFPTAVYDCFNAIVWARDNAGELGIDKDKIATFGISAGGNLVAATSLLARDNKLKLTAQVPVVPFVYLDLASKSMNRYRKGYFLDINLPVDYGVKMYIRDEKDLYNPLFSPLIAEDLSNLPQAIVVTAEYDPLRDQGEAYAYRLMESGVPTLSFRVNGNVHAFLGSPRTSRQVTVMIGALLKDIFK MPLDPEVRNFLQVYYKANIIDFTKYQFQEIRQKVNELLAKAVPKDPVGETRDMKIKLEDYELPIRIYSPIKRTNNGLVMHFHGGAWILGSIETEDAISRILSNSCECTVISVDYRLAPEYKFPTAVYDCFNAIVWARDNAGELGIDKDKIATFGISAGGNLVAATSLLARDNKLKLTAQVPVVPFVYLDLASKSMNRYRKGYFLDINLPVDYGVKMYIRDEKDLYNPLFSPLIAEDLSNLPQAIVVTAEYDPLRDQGEAYAYRLMESGVPTLSFRVNGNVHAFLGSPRTSRQVTVMIGALLKDIFK 5l2p-a1-m1-cC_5l2p-a1-m1-cD Structure of arylesterase B5BLW5 B5BLW5 2.56 X-RAY DIFFRACTION 71 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 301 306 5l2p-a1-m1-cB_5l2p-a1-m1-cA MPLDPEVRNFLQVYYKANIYQFQEIRQKVNELLAKAVPKDPVGETRDMKIKLEDYELPIRIYSPIKRTNNGLVMHFHGGAWILGSIETEDAISRILSNSCECTVISVDYRLAPEYKFPTAVYDCFNAIVWARDNAGELGIDKDKIATFGISAGGNLVAATSLLARDNKLKLTAQVPVVPFVYLDLASKSMNRYRKGYFLDINLPVDYGVKMYIRDEKDLYNPLFSPLIAEDLSNLPQAIVVTAEYDPLRDQGEAYAYRLMESGVPTLSFRVNGNVHAFLGSPRTSRQVTVMIGALLKDIFK MPLDPEVRNFLQVYYKANIIDFTKYQFQEIRQKVNELLAKAVPKDPVGETRDMKIKLEDYELPIRIYSPIKRTNNGLVMHFHGGAWILGSIETEDAISRILSNSCECTVISVDYRLAPEYKFPTAVYDCFNAIVWARDNAGELGIDKDKIATFGISAGGNLVAATSLLARDNKLKLTAQVPVVPFVYLDLASKSMNRYRKGYFLDINLPVDYGVKMYIRDEKDLYNPLFSPLIAEDLSNLPQAIVVTAEYDPLRDQGEAYAYRLMESGVPTLSFRVNGNVHAFLGSPRTSRQVTVMIGALLKDIFK 5l2u-a2-m2-cG_5l2u-a2-m2-cH Oligomer crystal structure of CC chemokine 5 (CCL5) P13501 P13501 2.28 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 1eqt-a1-m1-cA_1eqt-a1-m1-cB 1u4l-a1-m1-cB_1u4l-a1-m1-cA 1u4m-a1-m1-cB_1u4m-a1-m1-cA 1u4p-a1-m1-cB_1u4p-a1-m1-cA 1u4r-a1-m1-cA_1u4r-a1-m1-cB 1u4r-a2-m1-cC_1u4r-a2-m1-cD 2l9h-a1-m1-cB_2l9h-a1-m1-cA 2l9h-a1-m1-cD_2l9h-a1-m1-cC 5cmd-a1-m1-cA_5cmd-a1-m1-cB 5cmd-a1-m1-cC_5cmd-a1-m1-cD 5cmd-a1-m1-cF_5cmd-a1-m1-cE 5coy-a1-m1-cA_5coy-a1-m1-cB 5dnf-a1-m1-cA_5dnf-a1-m1-cB 5dnf-a1-m1-cC_5dnf-a1-m1-cD 5dnf-a1-m1-cE_5dnf-a1-m1-cF 5dnf-a1-m1-cG_5dnf-a1-m1-cH 5l2u-a1-m1-cA_5l2u-a1-m1-cB 5l2u-a1-m1-cD_5l2u-a1-m1-cC 5l2u-a1-m1-cF_5l2u-a1-m1-cE 5l2u-a2-m1-cG_5l2u-a2-m1-cH 5l2u-a2-m1-cI_5l2u-a2-m2-cI 6aez-a1-m1-cB_6aez-a1-m1-cC 6aez-a1-m4-cB_6aez-a1-m4-cC 6c6d-a1-m1-cB_6c6d-a1-m1-cA 6c6d-a1-m1-cD_6c6d-a1-m1-cC 6c6d-a1-m1-cF_6c6d-a1-m1-cE 6c6d-a1-m1-cH_6c6d-a1-m1-cG 6c6d-a1-m1-cJ_6c6d-a1-m1-cI 6c6d-a1-m1-cL_6c6d-a1-m1-cK 6c6d-a1-m1-cN_6c6d-a1-m1-cM 6c6d-a1-m1-cP_6c6d-a1-m1-cO 6c6d-a1-m1-cR_6c6d-a1-m1-cQ 6c6d-a1-m1-cT_6c6d-a1-m1-cS 6stk-a1-m1-cB_6stk-a1-m1-cA SDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS SDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 5l2u-a2-m2-cG_5l2u-a2-m2-cI Oligomer crystal structure of CC chemokine 5 (CCL5) P13501 P13501 2.28 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 65 5cmd-a1-m1-cA_5cmd-a1-m1-cC 5cmd-a1-m1-cB_5cmd-a1-m1-cD 5cmd-a1-m1-cC_5cmd-a1-m1-cE 5cmd-a1-m1-cF_5cmd-a1-m1-cD 5dnf-a1-m1-cA_5dnf-a1-m1-cC 5dnf-a1-m1-cB_5dnf-a1-m1-cD 5dnf-a1-m1-cC_5dnf-a1-m1-cE 5dnf-a1-m1-cD_5dnf-a1-m1-cF 5dnf-a1-m1-cG_5dnf-a1-m1-cI 5l2u-a1-m1-cA_5l2u-a1-m1-cC 5l2u-a1-m1-cC_5l2u-a1-m1-cE 5l2u-a1-m1-cD_5l2u-a1-m1-cB 5l2u-a1-m1-cD_5l2u-a1-m1-cF 5l2u-a2-m1-cG_5l2u-a2-m1-cI 5l2u-a2-m1-cH_5l2u-a2-m2-cI 5l2u-a2-m2-cH_5l2u-a2-m1-cI 6c6d-a1-m1-cA_6c6d-a1-m1-cC 6c6d-a1-m1-cB_6c6d-a1-m1-cD 6c6d-a1-m1-cB_6c6d-a1-m1-cM 6c6d-a1-m1-cC_6c6d-a1-m1-cE 6c6d-a1-m1-cE_6c6d-a1-m1-cG 6c6d-a1-m1-cF_6c6d-a1-m1-cD 6c6d-a1-m1-cF_6c6d-a1-m1-cH 6c6d-a1-m1-cG_6c6d-a1-m1-cI 6c6d-a1-m1-cH_6c6d-a1-m1-cJ 6c6d-a1-m1-cI_6c6d-a1-m1-cK 6c6d-a1-m1-cJ_6c6d-a1-m1-cL 6c6d-a1-m1-cK_6c6d-a1-m1-cS 6c6d-a1-m1-cM_6c6d-a1-m1-cO 6c6d-a1-m1-cN_6c6d-a1-m1-cA 6c6d-a1-m1-cN_6c6d-a1-m1-cP 6c6d-a1-m1-cO_6c6d-a1-m1-cQ 6c6d-a1-m1-cR_6c6d-a1-m1-cP 6c6d-a1-m1-cT_6c6d-a1-m1-cL SDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS SSDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 5l37-a1-m1-cD_5l37-a1-m1-cE The structure of the pentameric shell protein MSM0273 from the RMM microcompartment A0QP50 A0QP50 1.6 X-RAY DIFFRACTION 74 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 77 78 5l37-a1-m1-cA_5l37-a1-m1-cB 5l37-a1-m1-cA_5l37-a1-m1-cE 5l37-a1-m1-cB_5l37-a1-m1-cC 5l37-a1-m1-cD_5l37-a1-m1-cC MLRATVTGNVWSTRRIEGIPAGAFLEVEVEGTGSRMIAFDVLGSGVGEHVLIAQGSVASSWFTGTPPPIDALIIGSI MLRATVTGNVWSTRRIEGIPAGAFLEVEVEGTGSRMIAFDVLGSGVGEHVLIAQGSVASSWFTGTPPPIDALIIGSID 5l39-a1-m1-cA_5l39-a1-m1-cB The structure of the fused permuted hexameric shell protein MSM0275 from the RMM microcompartment A0QP52 A0QP52 2.1 X-RAY DIFFRACTION 56 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 208 209 5l39-a1-m1-cC_5l39-a1-m1-cA 5l39-a1-m1-cC_5l39-a1-m1-cB 5l39-a1-m1-cD_5l39-a1-m1-cE 5l39-a1-m1-cD_5l39-a1-m1-cF 5l39-a1-m1-cE_5l39-a1-m1-cF AELRSFIFIDRLQPQTMSYLGTWIKGALPRANMAAQIIEVAPGLDIEGVTDVALKHAEVKAGILVVERQFGYLEFHGETGAVKAAADAALDYLGGDPDAAVRPEILASRIISSIDHQHAFLINRNKIGSMVLPGESLFVLEVAPASYAILATNEAEKAADVKVVDFRMIGATGRVYLSGTEADVRQAADAARDALAVLQGAKLAAALE AELRSFIFIDRLQPQTMSYLGTWIKGALPRANMAAQIIEVAPGLDIEGVTDVALKHAEVKAGILVVERQFGYLEFHGETGAVKAAADAALDYLGGDPDAAVRPEILASRIISSIDHQHAFLINRNKIGSMVLPGESLFVLEVAPASYAILATNEAEKAADVKVVDFRMIGATGRVYLSGTEADVRQAADAARDALAVLQGAKLAAALEH 5l39-a1-m1-cE_5l39-a1-m1-cB The structure of the fused permuted hexameric shell protein MSM0275 from the RMM microcompartment A0QP52 A0QP52 2.1 X-RAY DIFFRACTION 53 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 198 209 5l39-a1-m1-cC_5l39-a1-m1-cF 5l39-a1-m1-cD_5l39-a1-m1-cA AELRSFIFIDRLQPQTMSYLGTWIKGALPRANMAAQIIEVAPGLDIEGVTDVALKHAEVKAGILVVERQFGYLEFHGETGAVKAAADAALDYLGGDPDAAVRPEILASRIISSIDHQHAFLINRNKIGSMVLPGESLFVLEVAPASYAILATNEAEKAADVKVVDFRMIGATGRVYLSGTEADVRQAADAARDALAVL AELRSFIFIDRLQPQTMSYLGTWIKGALPRANMAAQIIEVAPGLDIEGVTDVALKHAEVKAGILVVERQFGYLEFHGETGAVKAAADAALDYLGGDPDAAVRPEILASRIISSIDHQHAFLINRNKIGSMVLPGESLFVLEVAPASYAILATNEAEKAADVKVVDFRMIGATGRVYLSGTEADVRQAADAARDALAVLQGAKLAAALEH 5l3x-a1-m2-cB_5l3x-a1-m3-cB Crystal structure of negative elongation factor subcomplex NELF-AC Q8IXH7 Q8IXH7 2.75 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 389 389 5l3x-a1-m1-cB_5l3x-a1-m2-cB 5l3x-a1-m1-cB_5l3x-a1-m3-cB GEITSVSTACQQLEVFSRVLRTSLATILDGGEENLEKNLPEFAKMVCHGEHTYLFAQAMMSVLAQEEQGGSAVRRIAQEVQRFAQEKGHDASQITLALGTAASYPRACQALGAMLSKGALNPADITVLFKMFTSMDPPPVELIRVPAFLDLFMQSLFKPGARINQDHKHKYIHILAYAASVVETWKKNKRVSINKDELKSTSKAVETVHNLCCNENASELVAELSTLYQCIRFPVVAMGVLKWVDWTVSEPRYFQLQPVHLALLDEISTCHQLLHPQVLQLLVKLFETEHSALDVMEQLELKKTLLDRMVHLLSRGYVLPVVSYIRKCLEKDTDISLIRYFVTEVLDVIAPPYTSDFVQLFLPILENDSIADPVTEFIAHCKSNFIMVN GEITSVSTACQQLEVFSRVLRTSLATILDGGEENLEKNLPEFAKMVCHGEHTYLFAQAMMSVLAQEEQGGSAVRRIAQEVQRFAQEKGHDASQITLALGTAASYPRACQALGAMLSKGALNPADITVLFKMFTSMDPPPVELIRVPAFLDLFMQSLFKPGARINQDHKHKYIHILAYAASVVETWKKNKRVSINKDELKSTSKAVETVHNLCCNENASELVAELSTLYQCIRFPVVAMGVLKWVDWTVSEPRYFQLQPVHLALLDEISTCHQLLHPQVLQLLVKLFETEHSALDVMEQLELKKTLLDRMVHLLSRGYVLPVVSYIRKCLEKDTDISLIRYFVTEVLDVIAPPYTSDFVQLFLPILENDSIADPVTEFIAHCKSNFIMVN 5l56-a1-m1-cA_5l56-a1-m2-cA Plexin A1 full extracellular region, domains 1 to 10, to 4 angstrom P70206 P70206 4 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1171 1171 PAFRTFVASDWGLTHLVVHEQTGEVYVGAVNRIYKLSGNLTLLRAHVTGPVEDNEKCYPPPSVQSCPHGLGSTDNVNKLLLLDYAANRLLACGSASQGICQFLRLDDLFKLGEPHHRKEHYLSSVREAGSMAGVLIAGPPGQGQAKLFVGTPIDGKSEYFPTLSSRRLMANEEDADMFGFVYQDEFVSSQLKIPSDTLSKFPAFDIYYVYSFRSEQFVYYLTLQLDTQLAGEHFFTSKIVRLCVNDPKFYSYVEFPIGCEQAGVEYRLVQDAYLSRPGQALAKQLGLAEDEEVLFTVFAQGQKNRVKPPKESALCLFTLRAIKEKIKERIQSCYRGEGKLSLPWLLNKELGCINSPLQIDDDFCGQDFNQPLGGTVTIEGTPLFVDKEDGLTAVAAYDYQGRTVVFAGTRSGRIRKILVDLANPSGRPALAYESVVAQEGNPILRDLVLSPNRQYLYAMTEKQVTQVPVESCVQYTSCELCLGSRDPHCGWCVLHSICSRQDACERAEEPQRFASDLLQCVQLTVQPRNVSVTMSQVPLVLQAWNVPDLSAGVNCSFEDFTETESILEDGRIHCHSPSAREVAPITQGQGDQRVVKLYLKSKETGKKFASVDFVFYNCSVHQSCLACVNGSFPCHWCKYRHVCTNNAADCAFLEGRVNMSEDCPQILPSTHIYVPVGVVKPITLAARNLPQPQSGQRGYECLFHIPGSPARVTALRFNSSSLQCQNSSYSYEGNDVSDLPVNLSVVWNGNFVIDNPQNIQAHLYKCPALRQSCGLCLKADPRFECGWCVAERRCSLRHHCPADSPASWMHAHHGSSRCTDPKILKLSPETGPRQGGTRLTITGENLGLRFEDVRLGVHVGKVLCSPVESEYISAEQIVCEIGDASTLRAHDALVEVCVRDCSLHYRALSPKRFTFVTPTFYRVSPSRGPLSGGTWIGIEGSHLNAGSDVAVSIGGRPCSFSWRNSREIRCLTPPGHTPGSAPIVININRAQLSNPEVKYNYTEDPTILRIDPEWSINSGGTLLTVTGTNLATVREPRIRAKYGGIERENSCMVYNDTTMVCRAPSIDNPKRSPPELGERPDEIGFIMDNVRTLLVLNSSSFLYYPDPVLEPLSSPLILKGRNLLPPAPGNSRLNYTVLIGSTPCILTVSETQLLCEAPNKVTVRAGGFEFS PAFRTFVASDWGLTHLVVHEQTGEVYVGAVNRIYKLSGNLTLLRAHVTGPVEDNEKCYPPPSVQSCPHGLGSTDNVNKLLLLDYAANRLLACGSASQGICQFLRLDDLFKLGEPHHRKEHYLSSVREAGSMAGVLIAGPPGQGQAKLFVGTPIDGKSEYFPTLSSRRLMANEEDADMFGFVYQDEFVSSQLKIPSDTLSKFPAFDIYYVYSFRSEQFVYYLTLQLDTQLAGEHFFTSKIVRLCVNDPKFYSYVEFPIGCEQAGVEYRLVQDAYLSRPGQALAKQLGLAEDEEVLFTVFAQGQKNRVKPPKESALCLFTLRAIKEKIKERIQSCYRGEGKLSLPWLLNKELGCINSPLQIDDDFCGQDFNQPLGGTVTIEGTPLFVDKEDGLTAVAAYDYQGRTVVFAGTRSGRIRKILVDLANPSGRPALAYESVVAQEGNPILRDLVLSPNRQYLYAMTEKQVTQVPVESCVQYTSCELCLGSRDPHCGWCVLHSICSRQDACERAEEPQRFASDLLQCVQLTVQPRNVSVTMSQVPLVLQAWNVPDLSAGVNCSFEDFTETESILEDGRIHCHSPSAREVAPITQGQGDQRVVKLYLKSKETGKKFASVDFVFYNCSVHQSCLACVNGSFPCHWCKYRHVCTNNAADCAFLEGRVNMSEDCPQILPSTHIYVPVGVVKPITLAARNLPQPQSGQRGYECLFHIPGSPARVTALRFNSSSLQCQNSSYSYEGNDVSDLPVNLSVVWNGNFVIDNPQNIQAHLYKCPALRQSCGLCLKADPRFECGWCVAERRCSLRHHCPADSPASWMHAHHGSSRCTDPKILKLSPETGPRQGGTRLTITGENLGLRFEDVRLGVHVGKVLCSPVESEYISAEQIVCEIGDASTLRAHDALVEVCVRDCSLHYRALSPKRFTFVTPTFYRVSPSRGPLSGGTWIGIEGSHLNAGSDVAVSIGGRPCSFSWRNSREIRCLTPPGHTPGSAPIVININRAQLSNPEVKYNYTEDPTILRIDPEWSINSGGTLLTVTGTNLATVREPRIRAKYGGIERENSCMVYNDTTMVCRAPSIDNPKRSPPELGERPDEIGFIMDNVRTLLVLNSSSFLYYPDPVLEPLSSPLILKGRNLLPPAPGNSRLNYTVLIGSTPCILTVSETQLLCEAPNKVTVRAGGFEFS 5l5c-a1-m1-cA_5l5c-a1-m2-cA Plexin A1 full extracellular region, domains 1 to 10, to 6 angstrom, spacegroup P4(3)2(1)2 P70206 P70206 6 X-RAY DIFFRACTION 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1171 1171 PAFRTFVASDWGLTHLVVHEQTGEVYVGAVNRIYKLSGNLTLLRAHVTGPVEDNEKCYPPPSVQSCPHGLGSTDNVNKLLLLDYAANRLLACGSASQGICQFLRLDDLFKLGEPHHRKEHYLSSVREAGSMAGVLIAGPPGQGQAKLFVGTPIDGKSEYFPTLSSRRLMANEEDADMFGFVYQDEFVSSQLKIPSDTLSKFPAFDIYYVYSFRSEQFVYYLTLQLDTQLAGEHFFTSKIVRLCVNDPKFYSYVEFPIGCEQAGVEYRLVQDAYLSRPGQALAKQLGLAEDEEVLFTVFAQGQKNRVKPPKESALCLFTLRAIKEKIKERIQSCYRGEGKLSLPWLLNKELGCINSPLQIDDDFCGQDFNQPLGGTVTIEGTPLFVDKEDGLTAVAAYDYQGRTVVFAGTRSGRIRKILVDLANPSGRPALAYESVVAQEGNPILRDLVLSPNRQYLYAMTEKQVTQVPVESCVQYTSCELCLGSRDPHCGWCVLHSICSRQDACERAEEPQRFASDLLQCVQLTVQPRNVSVTMSQVPLVLQAWNVPDLSAGVNCSFEDFTETESILEDGRIHCHSPSAREVAPITQGQGDQRVVKLYLKSKETGKKFASVDFVFYNCSVHQSCLACVNGSFPCHWCKYRHVCTNNAADCAFLEGRVNMSEDCPQILPSTHIYVPVGVVKPITLAARNLPQPQSGQRGYECLFHIPGSPARVTALRFNSSSLQCQNSSYSYEGNDVSDLPVNLSVVWNGNFVIDNPQNIQAHLYKCPALRQSCGLCLKADPRFECGWCVAERRCSLRHHCPADSPASWMHAHHGSSRCTDPKILKLSPETGPRQGGTRLTITGENLGLRFEDVRLGVHVGKVLCSPVESEYISAEQIVCEIGDASTLRAHDALVEVCVRDCSLHYRALSPKRFTFVTPTFYRVSPSRGPLSGGTWIGIEGSHLNAGSDVAVSIGGRPCSFSWRNSREIRCLTPPGHTPGSAPIVININRAQLSNPEVKYNYTEDPTILRIDPEWSINSGGTLLTVTGTNLATVREPRIRAKYGGIERENSCMVYNDTTMVCRAPSIDNPKRSPPELGERPDEIGFIMDNVRTLLVLNSSSFLYYPDPVLEPLSSPLILKGRNLLPPAPGNSRLNYTVLIGSTPCILTVSETQLLCEAPNKVTVRAGGFEFS PAFRTFVASDWGLTHLVVHEQTGEVYVGAVNRIYKLSGNLTLLRAHVTGPVEDNEKCYPPPSVQSCPHGLGSTDNVNKLLLLDYAANRLLACGSASQGICQFLRLDDLFKLGEPHHRKEHYLSSVREAGSMAGVLIAGPPGQGQAKLFVGTPIDGKSEYFPTLSSRRLMANEEDADMFGFVYQDEFVSSQLKIPSDTLSKFPAFDIYYVYSFRSEQFVYYLTLQLDTQLAGEHFFTSKIVRLCVNDPKFYSYVEFPIGCEQAGVEYRLVQDAYLSRPGQALAKQLGLAEDEEVLFTVFAQGQKNRVKPPKESALCLFTLRAIKEKIKERIQSCYRGEGKLSLPWLLNKELGCINSPLQIDDDFCGQDFNQPLGGTVTIEGTPLFVDKEDGLTAVAAYDYQGRTVVFAGTRSGRIRKILVDLANPSGRPALAYESVVAQEGNPILRDLVLSPNRQYLYAMTEKQVTQVPVESCVQYTSCELCLGSRDPHCGWCVLHSICSRQDACERAEEPQRFASDLLQCVQLTVQPRNVSVTMSQVPLVLQAWNVPDLSAGVNCSFEDFTETESILEDGRIHCHSPSAREVAPITQGQGDQRVVKLYLKSKETGKKFASVDFVFYNCSVHQSCLACVNGSFPCHWCKYRHVCTNNAADCAFLEGRVNMSEDCPQILPSTHIYVPVGVVKPITLAARNLPQPQSGQRGYECLFHIPGSPARVTALRFNSSSLQCQNSSYSYEGNDVSDLPVNLSVVWNGNFVIDNPQNIQAHLYKCPALRQSCGLCLKADPRFECGWCVAERRCSLRHHCPADSPASWMHAHHGSSRCTDPKILKLSPETGPRQGGTRLTITGENLGLRFEDVRLGVHVGKVLCSPVESEYISAEQIVCEIGDASTLRAHDALVEVCVRDCSLHYRALSPKRFTFVTPTFYRVSPSRGPLSGGTWIGIEGSHLNAGSDVAVSIGGRPCSFSWRNSREIRCLTPPGHTPGSAPIVININRAQLSNPEVKYNYTEDPTILRIDPEWSINSGGTLLTVTGTNLATVREPRIRAKYGGIERENSCMVYNDTTMVCRAPSIDNPKRSPPELGERPDEIGFIMDNVRTLLVLNSSSFLYYPDPVLEPLSSPLILKGRNLLPPAPGNSRLNYTVLIGSTPCILTVSETQLLCEAPNKVTVRAGGFEFS 5l5m-a1-m1-cA_5l5m-a1-m2-cA Plexin A4 full extracellular region, domains 1 to 7 modeled, data to 8 angstrom, spacegroup P4(3)2(1)2 Q80UG2 Q80UG2 8 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 915 915 5l5k-a1-m1-cA_5l5k-a1-m2-cA 5l5l-a1-m2-cB_5l5l-a1-m1-cA 5l5l-a2-m1-cB_5l5l-a2-m3-cA 5l5n-a1-m1-cA_5l5n-a1-m2-cA PSFVTFRGEPAEGFNHLVVDERTGHIYLGAVNRIYKLSSDLKVLVTHQTGPDEDNPKCYPPRIVQTCNEPLASTNNVNKMLLIDYKENRLIACGSLYQGICKLLRLEDLFKLGEPFHKKEHYLSGVNESGSVFGVIVSYSNFDDKLFIATAVDGKPEYFPTISSRKLTKNSEADGMFAYVFHDEFVASMIKIPSDTFTVIPDFDIYYVYGFSSGNFVYFLTLQPEMVSPPGSTTKEQVYTSKLVRLCKEDTAFNSYVEVPIGCERNGVEYRLLQAAYLSKAGAVLGRTLGVRPDDDLLFTVFSKGQKRKMKSLDESALCIFILKQINDRIKDRLQSCYRGEGTLDLAWLKVKDIPCSSALLTIDDNFCGLDMNAPLGVSEMVRGIPVFTEDRDRMTSVIAYVYKNHSLAFVGTKSGKLKKIRVDGPKGNALQYETVQVVDSGPVLRDMAFSKDHEQLYIMSERQLTRVPVESCGQYRSCGECLGSGDPHCGWCVLHNTCTRKERCERSREPRRFASEMKQCVRLTVHPNNISVSQYNVLLVLETYNVPELSAGVNCTFEDLSEMDGLVIGNQIQCYSPAAKEVPRIITENGDHHVVQLQLKSKETGMTFASTSFVFYNCSVHNSCLSCVESPYRCHWCKYRHVCTHDPNTCSFQEGRVKLPEDCPQLLRVDKILVPVEVIKPITLKAKNLPQPQSGQRGYECILNIQGIEQRVPALRFNSSSVQCQNTSYSYEGMEINNLPVELTVVWNGHFNIDNPAQNKVYLYKCGAMRESCGLCLKADPDFECGWCQSPGQCTLRQHCPAHESRWLELSGANSKCTNPRITEIIPVTGPREGGTKVTIRGENLGLEFRDIASHVKVAGVECSPLVDGYIPAEQIVCEMGEAKPSQHAGFVEICVAVCRPEFMARSSQLYYFM PSFVTFRGEPAEGFNHLVVDERTGHIYLGAVNRIYKLSSDLKVLVTHQTGPDEDNPKCYPPRIVQTCNEPLASTNNVNKMLLIDYKENRLIACGSLYQGICKLLRLEDLFKLGEPFHKKEHYLSGVNESGSVFGVIVSYSNFDDKLFIATAVDGKPEYFPTISSRKLTKNSEADGMFAYVFHDEFVASMIKIPSDTFTVIPDFDIYYVYGFSSGNFVYFLTLQPEMVSPPGSTTKEQVYTSKLVRLCKEDTAFNSYVEVPIGCERNGVEYRLLQAAYLSKAGAVLGRTLGVRPDDDLLFTVFSKGQKRKMKSLDESALCIFILKQINDRIKDRLQSCYRGEGTLDLAWLKVKDIPCSSALLTIDDNFCGLDMNAPLGVSEMVRGIPVFTEDRDRMTSVIAYVYKNHSLAFVGTKSGKLKKIRVDGPKGNALQYETVQVVDSGPVLRDMAFSKDHEQLYIMSERQLTRVPVESCGQYRSCGECLGSGDPHCGWCVLHNTCTRKERCERSREPRRFASEMKQCVRLTVHPNNISVSQYNVLLVLETYNVPELSAGVNCTFEDLSEMDGLVIGNQIQCYSPAAKEVPRIITENGDHHVVQLQLKSKETGMTFASTSFVFYNCSVHNSCLSCVESPYRCHWCKYRHVCTHDPNTCSFQEGRVKLPEDCPQLLRVDKILVPVEVIKPITLKAKNLPQPQSGQRGYECILNIQGIEQRVPALRFNSSSVQCQNTSYSYEGMEINNLPVELTVVWNGHFNIDNPAQNKVYLYKCGAMRESCGLCLKADPDFECGWCQSPGQCTLRQHCPAHESRWLELSGANSKCTNPRITEIIPVTGPREGGTKVTIRGENLGLEFRDIASHVKVAGVECSPLVDGYIPAEQIVCEMGEAKPSQHAGFVEICVAVCRPEFMARSSQLYYFM 5l6l-a1-m1-cE_5l6l-a1-m1-cH Structure of Caulobacter crescentus VapBC1 bound to operator DNA Q9AC34 Q9AC34 2.7 X-RAY DIFFRACTION 153 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 63 80 5l6l-a1-m1-cA_5l6l-a1-m1-cD 5l6m-a1-m1-cA_5l6m-a1-m1-cD HHARATGKTFRSGNSEAVRLPRDLAFGADVELTLIRSGDVLTIYPSKGSIADLVATLNQPRPD HHHHARATGKTFRSGNSEAVRLPRDLAFGADVELTLIRSGDVLTIYPSKGSIADLVATLNQPRPDSVEIRDEDLFPERPG 5l6q-a1-m1-cA_5l6q-a1-m1-cB Refolded AL protein from cardiac amyloidosis 1.4 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 SELTQDPAVSVALGQTVRITCQGDSLRSYSASWYQQKPGQAPVLVIFRKSNRPSGIPDRFSGSSSGNTASLTITGAQAEDEADYYCNSRDSSANHQVFGGGTKLTVLG SELTQDPAVSVALGQTVRITCQGDSLRSYSASWYQQKPGQAPVLVIFRKSNRPSGIPDRFSGSSSGNTASLTITGAQAEDEADYYCNSRDSSANHQVFGGGTKLTVLG 5l6s-a4-m1-cM_5l6s-a4-m1-cN Crystal structure of E. coli ADP-glucose pyrophosphorylase (AGPase) in complex with a positive allosteric regulator beta-fructose-1,6-diphosphate (FBP) - AGPase*FBP P0A6V1 P0A6V1 3.04 X-RAY DIFFRACTION 94 0.991 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 229 369 IIDFALSNCINSGIRRMGVHTLVQHIQRGWSFFNEEMNEFVDLQNLDIIRRYKAEYVVILAGDHIYKQDYSRMLWRDVGTLEAYWKANLDLASVVPELDMYDRNWPIRTYNESLPPAKFVQDRSGSHGMTLNSLVSGGCVISGSVVVQSVLFSRVRVNSFCNIDSAVLLPEVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTREMLRKLGHK RQLPLKSVALILAGGRGTRLKDLTNKRAKPAVHFGGKFRIIDFALSNCINSGIRRMGVITQSHTLVQHIQRGWSFFNEEMNEFVDLLPGTADAVTQNLDIIRRYKAEYVVILAGDHIYKQDYSRMLIDHVEKGARCTVACVMAVDENDKIIEFASMGIYVFDADYLYELLEEDDRDENSSHDFGKDLIPKITEAGLAYAHPFPLSCVQSDPDAEPYWRDVGTLEAYWKANLDLASVVPELDMYDRNWPIRTYNESLPPAKFVQDRSGSHGMTLNSLVSGGCVISGSVVVQSVLFSRVRVNSFCNIDSAVLLPEVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTREMLRKLG 5l6s-a4-m1-cM_5l6s-a4-m1-cP Crystal structure of E. coli ADP-glucose pyrophosphorylase (AGPase) in complex with a positive allosteric regulator beta-fructose-1,6-diphosphate (FBP) - AGPase*FBP P0A6V1 P0A6V1 3.04 X-RAY DIFFRACTION 27 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 229 339 IIDFALSNCINSGIRRMGVHTLVQHIQRGWSFFNEEMNEFVDLQNLDIIRRYKAEYVVILAGDHIYKQDYSRMLWRDVGTLEAYWKANLDLASVVPELDMYDRNWPIRTYNESLPPAKFVQDRSGSHGMTLNSLVSGGCVISGSVVVQSVLFSRVRVNSFCNIDSAVLLPEVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTREMLRKLGHK ALILAKDLTNKRAKPAVHFGGKFRIIDFALSNCINSGIRRMGVITHTLVQHIQRGWSFFNEEMNEFVDLLPRGTADAVTQNLDIIRRYKAEYVVILAGDHIYKQDYSRMLIDHVEKGARCTVACMPVPIEEASAFASMGIYVFDADYLYELLEEDDRDENSSHDFGKDLIPKITEAGPDAEPYWRDVGTLEAYWKANLDLASVVPELDMYDRNWPIRTYNESLPPAKFVQDRSGSHGMTLNSLVSGGCVISGSVVVQSVLFSRVRVNSFCNIDSAVLLPEVWVGRSCRLRRCVIDRACVIPEGMVIGENAEEDARRFYRSEEGIVLVTREMLRKLGHKQ 5l70-a1-m1-cA_5l70-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN CARBONIC ANHYDRASE II IN COMPLEX WITH A QUINOLINE OLIGOAMIDE FOLDAMER P00918 P00918 2.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 258 4lp6-a3-m1-cA_4lp6-a3-m1-cB 5l6t-a1-m1-cB_5l6t-a1-m1-cA HHWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK HHWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK 5l73-a1-m1-cA_5l73-a1-m1-cB MAM domain of human neuropilin-1 O14786 O14786 2.24 X-RAY DIFFRACTION 31 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 QDEFPDYGFNCEFGWGSHKTFCHWEHDNHVQLKWSVLTSKTGPIQDHTGDGNFIYSQADENQKGKVARLVSPVVYSQNSAHCMTFWYHMSGSHVGTLRVKLRYQKPEEYDQLVWMAIGHQGDHWKEGRVLLHKSLKLYQVIFEGEIGKGNLGGIAVDDISINNHISQEDCAKPA EFPDYGFNCEFGWGSHKTFCHWEHDNHVQLKWSVLTSKTGPIQDHTGDGNFIYSQADENQKGKVARLVSPVVYSQNSAHCMTFWYHMSGSHVGTLRVKLRYQKPEEYDQLVWMAIGHQGDHWKEGRVLLHKSLKLYQVIFEGEIGKGNLGGIAVDDISINNHISQEDCAKPAHH 5l7r-a1-m1-cA_5l7r-a1-m1-cB Crystal structure of BvGH123 A6L2E5 A6L2E5 1.85 X-RAY DIFFRACTION 26 1.0 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 563 563 5l7v-a1-m1-cB_5l7v-a1-m1-cA QTSEYYQEAANPIATNPALWAKVTAPQISWGSTDIRYKKEEPAPIHSAQKSMNLTAWKGEKISAQLVVWTPKVLNDLTFMVSDLTSGSATISKENIRTGFVRYVITDELNKDGLGACGYRNSADFDSTLVADVIDHITPTLTLPANSTQGGWISVNIPQGTKAGKYTGTVTVKADGITLSELKLNLQVKNRTLPPPSEWAFHLDLWQNPYAVSRYYNVEPFSKKHFDLMRPLMKLYADAGGKVITASIMHKPWNGQTYDAFESMVTWLKKADGTWYFDYTVFDKWVEFMMDLGVKKQISCYSMVPWRLSFQYFDQASNSFKFLDAKPGEVAYEEFWMNMLQDFSKHLKAKGWFDITHIAMDERPMKDMQETLKVIRKADKDFKVSLAGTYHKELLDDLNDYCITIAEKFTPEEIEARRKAGKVTTYYTCCTEPRPNTFTFSEPAEAEWLAWHSAKENLDGYLRWALNSWVKNPLQDSRFTAWAAGDTYMIYPGARSSIRLERLTEGIQFFEKVRILKEEFEEKGNKGAIKNIDKTLKMFDESSMDKISPTTAVNKAKKVINRY QTSEYYQEAANPIATNPALWAKVTAPQISWGSTDIRYKKEEPAPIHSAQKSMNLTAWKGEKISAQLVVWTPKVLNDLTFMVSDLTSGSATISKENIRTGFVRYVITDELNKDGLGACGYRNSADFDSTLVADVIDHITPTLTLPANSTQGGWISVNIPQGTKAGKYTGTVTVKADGITLSELKLNLQVKNRTLPPPSEWAFHLDLWQNPYAVSRYYNVEPFSKKHFDLMRPLMKLYADAGGKVITASIMHKPWNGQTYDAFESMVTWLKKADGTWYFDYTVFDKWVEFMMDLGVKKQISCYSMVPWRLSFQYFDQASNSFKFLDAKPGEVAYEEFWMNMLQDFSKHLKAKGWFDITHIAMDERPMKDMQETLKVIRKADKDFKVSLAGTYHKELLDDLNDYCITIAEKFTPEEIEARRKAGKVTTYYTCCTEPRPNTFTFSEPAEAEWLAWHSAKENLDGYLRWALNSWVKNPLQDSRFTAWAAGDTYMIYPGARSSIRLERLTEGIQFFEKVRILKEEFEEKGNKGAIKNIDKTLKMFDESSMDKISPTTAVNKAKKVINRY 5l7u-a1-m1-cA_5l7u-a1-m1-cB Crystal structure of BvGH123 with bound GalNAc A6L2E5 A6L2E5 2.1 X-RAY DIFFRACTION 66 0.996 435590 (Phocaeicola vulgatus ATCC 8482) 435590 (Phocaeicola vulgatus ATCC 8482) 554 561 QTSEYYQEAANPIATNPALWAKVTAPQISWGSTDIRYKKEEPAPIHSAQKSMNLTAWKGEKISAQLVVWTPKVLNDLTFMVSDLTSGSATISKENIRTGFVRYVITDELACGYRNSADFDSTLVADVIDHITPTLTLPANSTQGGWISVNIPQGTKAGKYTGTVTVKADLSELKLNLQVKNRTLPPPSEWAFHLDLWQNPYAVSRYYNVEPFSKKHFDLMRPLMKLYADAGGKVITASIMHKPWNGQTYDAFESMVTWLKKADGTWYFDYTVFDKWVEFMMDLGVKKQISCYSMVPWRLSFQYFDQASNSFKFLDAKPGEVAYEEFWMNMLQDFSKHLKAKGWFDITHIAMDERPMKDMQETLKVIRKADKDFKVSLAGTYHKELLDDLNDYCITIAEKFTPEEIEARRKAGKVTTYYTCCTEPRPNTFTFSEPAEAEWLAWHSAKENLDGYLRWALNSWVKNPLQDSRFTAWAAGDTYMIYPGARSSIRLERLTEGIQFFEKVRILKEEFEEKGNKGAIKNIDKTLKMFDESSMDKISPTTAVNKAKKVINRY QTSEYYQEAANPIATNPALWAKVTAPQISWGSTDIRYKKEEPAPIHSAQKSMNLTAWKGEKISAQLVVWTPKVLNDLTFMVSDLTSATISKENIRTGFVRYVITDELNKDGLGACGYRNSADFDSTLVADVIDHITPTLTLPANSTQGGWISVNIPQGTKAGKYTGTVTVKADGITLSELKLNLQVKNRTLPPPSEWAFHLDLWQNPYAVSRYYNVEPFSKKHFDLMRPLMKLYADAGGKVITASIMHKPWNGQTYDAFESMVTWLKKADGTWYFDYTVFDKWVEFMMDLGVKKQISCYSMVPWRLSFQYFDQASNSFKFLDAKPGEVAYEEFWMNMLQDFSKHLKAKGWFDITHIAMDERPMKDMQETLKVIRKADKDFKVSLAGTYHKELLDDLNDYCITIAEKFTPEEIEARRKAGKVTTYYTCCTEPRPNTFTFSEPAEAEWLAWHSAKENLDGYLRWALNSWVKNPLQDSRFTAWAAGDTYMIYPGARSSIRLERLTEGIQFFEKVRILKEEFEEKGNKGAIKNIDKTLKMFDESSMDKISPTTAVNKAKKVINRY 5l7z-a1-m1-cA_5l7z-a1-m2-cA Structure of Exuperantia EXO-like domain P28750 P28750 2.37 X-RAY DIFFRACTION 39 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 235 235 5l80-a1-m1-cB_5l80-a1-m1-cA VELPAGNYILVGVDIDTTGRRLMDEIVQLAAYTPTDHFEQYIMPYMNLNPAARQRHQVRVISIGFYRMLKSMQTYKIIKSKSEIAALKDFLNWLEQLKTKAGPSSDGIVLIYHEERKFIPYMILESLKKYGLLERFTASVKSFANSINLAKASIIKNYSLRKLSKILSLFDGNASVRAKLAFDVALQLSNSDGKPEPKSSEALENMFNAIRPFAKLVVSDVLELDIQIENLERQN VELPAGNYILVGVDIDTTGRRLMDEIVQLAAYTPTDHFEQYIMPYMNLNPAARQRHQVRVISIGFYRMLKSMQTYKIIKSKSEIAALKDFLNWLEQLKTKAGPSSDGIVLIYHEERKFIPYMILESLKKYGLLERFTASVKSFANSINLAKASIIKNYSLRKLSKILSLFDGNASVRAKLAFDVALQLSNSDGKPEPKSSEALENMFNAIRPFAKLVVSDVLELDIQIENLERQN 5l84-a1-m1-cA_5l84-a1-m2-cA Structure of the H959F variant of the PpsC dehydratase domain from Mycobacterium tuberculosis P96202 P96202 2.9 X-RAY DIFFRACTION 56 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 269 269 5i0k-a1-m1-cA_5i0k-a1-m2-cA DTHPLLGVGVTDPTNGTRVWESELDPDLLWLADFVIDDLVVLPGAAYAEIALAAATDTFAVEQDQPWMISELDLRQMLHVTPGTVLVTTLTGDEQRCQVEIRTRSGSSGWTTHATATVARAEPLATTADLEDQLDPDDLYQRLRGAGQQHGPAFQGIVGLAVTQAGVARAQVRLPASARTGSREFMLHPVMMDIALQTLGATRTATDLAALVVPVRFAGVHVYGDITRGVRAVGSLAAAGDRLVGEVVLTDANGQPLLVVDEVEMAVLG DTHPLLGVGVTDPTNGTRVWESELDPDLLWLADFVIDDLVVLPGAAYAEIALAAATDTFAVEQDQPWMISELDLRQMLHVTPGTVLVTTLTGDEQRCQVEIRTRSGSSGWTTHATATVARAEPLATTADLEDQLDPDDLYQRLRGAGQQHGPAFQGIVGLAVTQAGVARAQVRLPASARTGSREFMLHPVMMDIALQTLGATRTATDLAALVVPVRFAGVHVYGDITRGVRAVGSLAAAGDRLVGEVVLTDANGQPLLVVDEVEMAVLG 5l8s-a2-m1-cB_5l8s-a2-m1-cD The crystal structure of a cold-adapted acylaminoacyl peptidase reveals a novel quaternary architecture based on the arm-exchange mechanism E1VFE0 E1VFE0 2.5 X-RAY DIFFRACTION 111 1.0 1476 (Sporosarcina psychrophila) 1476 (Sporosarcina psychrophila) 604 604 5l8s-a1-m1-cA_5l8s-a1-m1-cC MINFPKPTVEQFFRTYTITNFAVSSDEKRLVFNANLNGKMNLWAMDLPDTYPYLFAHRDESCNFIKFDPENRYVLAGFDKDGDENYQIYAIPNEGGLPHPLITGDASEKYYFSHLSADGKCVYYETSKENPSFLNTRIRNLETGEDRLLNVGEVSTTELAAVSENEESFVYLRAFANTYIVGFVKMGEETFNITPDPEKVHVAMEPVFTDNETIYFATDYDSDEMYLAKFDLTSKEFSKVLAFDGESIQSVKWDKDNKAFYLITVKGVTDILYRYDVATDKVEECSLPVDIIEQIQVAKSGNLYILGRSATVPHNVYQSSNGVEWKQLTNNRVLGLSPEDMVEPDIVSYTSFDGMEIEALLFKAKPENDNGYTIFWPHGGPQSAERKMFRSMFQCFINRGYTIFAPNFRGSTGYGSAFTKLVELDWGEGPRLDCIAGIEWLFESGFTDRNKLFLVGGSYGGYMALLLHGRHSDYFRAVVDIFGPSDLFTFINSVPPHWKPIMERWLGDPERDKERFIKDSPVTYLDGMVKPMLVIQGAKDPRVVKEESDQIVAKLKEKGRDVEYLVLEDEGHGFSKKENEIKVYSLMLAFLEKHQALEHHHHHH MINFPKPTVEQFFRTYTITNFAVSSDEKRLVFNANLNGKMNLWAMDLPDTYPYLFAHRDESCNFIKFDPENRYVLAGFDKDGDENYQIYAIPNEGGLPHPLITGDASEKYYFSHLSADGKCVYYETSKENPSFLNTRIRNLETGEDRLLNVGEVSTTELAAVSENEESFVYLRAFANTYIVGFVKMGEETFNITPDPEKVHVAMEPVFTDNETIYFATDYDSDEMYLAKFDLTSKEFSKVLAFDGESIQSVKWDKDNKAFYLITVKGVTDILYRYDVATDKVEECSLPVDIIEQIQVAKSGNLYILGRSATVPHNVYQSSNGVEWKQLTNNRVLGLSPEDMVEPDIVSYTSFDGMEIEALLFKAKPENDNGYTIFWPHGGPQSAERKMFRSMFQCFINRGYTIFAPNFRGSTGYGSAFTKLVELDWGEGPRLDCIAGIEWLFESGFTDRNKLFLVGGSYGGYMALLLHGRHSDYFRAVVDIFGPSDLFTFINSVPPHWKPIMERWLGDPERDKERFIKDSPVTYLDGMVKPMLVIQGAKDPRVVKEESDQIVAKLKEKGRDVEYLVLEDEGHGFSKKENEIKVYSLMLAFLEKHQALEHHHHHH 5l8z-a1-m1-cA_5l8z-a1-m2-cA Structure of thermostable DNA-binding HU protein from micoplasma Spiroplasma melliferum A0A037USE5 A0A037USE5 1.4 X-RAY DIFFRACTION 161 1.0 570509 (Spiroplasma melliferum KC3) 570509 (Spiroplasma melliferum KC3) 95 95 5ogu-a1-m1-cA_5ogu-a1-m1-cB GHMSKKELAAQIAEKFTDVLSKTHAEEITNFVFDHIKKALVAGKEVSIAGFGKFAVTERAARDGRNPSTGETIKIPASKSAKFKAGKQLKTDLNN GHMSKKELAAQIAEKFTDVLSKTHAEEITNFVFDHIKKALVAGKEVSIAGFGKFAVTERAARDGRNPSTGETIKIPASKSAKFKAGKQLKTDLNN 5l9e-a1-m1-cA_5l9e-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN CARBONIC ANHYDRASE II IN COMPLEX WITH A QUINOLINE OLIGOAMIDE FOLDAMER P00918 P00918 2.9 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 SHHWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK SHHWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK 5l9n-a1-m2-cA_5l9n-a1-m3-cA Structure of uridylylated GlnB from Escherichia coli bound to ATP P0A9Z1 P0A9Z1 1.901 X-RAY DIFFRACTION 75 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 92 92 5l9n-a1-m1-cA_5l9n-a1-m2-cA 5l9n-a1-m1-cA_5l9n-a1-m3-cA MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFDFLPKVKIEIVVPDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDD MKKIDAIIKPFKLDDVREALAEVGITGMTVTEVKGFDFLPKVKIEIVVPDDIVDTCVDTIIRTAQTGKIGDGKIFVFDVARVIRIRTGEEDD 5lak-a2-m1-cD_5lak-a2-m1-cC Ligand-bound structure of Cavally Virus 3CL Protease F8RL29 F8RL29 2.299 X-RAY DIFFRACTION 150 0.997 1041929 (Cavally virus) 1041929 (Cavally virus) 286 303 5lak-a1-m1-cB_5lak-a1-m1-cA SAASNPSISHIVLEMPVAINPLIKYTTVSSLRGAVVNGYIYIQRHLFGSKEFEACYNCKNLERSKYDIDSAELIGTLIRIPLHDKHSIPHISIHPDPLSYNGPVTLYLSRYDTEDVLCVHTGFMSEGHHDIKTVFGDCGGMLFDPKGRLLGLHCAGSDDVVFMDTTTGKSNIWTSYKLQHPSEIMITLNNEINLPNPANYDKVVYQHPLRNVCATLETLQHLTNKTNAKLPYDSRLLSDFNITAEQYNQYGYYIDYNNFVNNFNRYTTTTIGTKSFETCIKYGLMD SAASNPSISHIVLEMPVAINPLIKYTTRTSVSSLRGAVVNGYIYIQRHLFGSKKQEFEACYNNGKGLLNCKNLERSKYDIDSAELIGTLIRIPLHDKHSIPHISIHPDPLSYNGPVTLYLSRYDTNKDVLCVHTGFMSEGHHDIKTVFGDCGGMLFDPKGRLLGLHCAGSDDVVFMDTTTGKSNIWTSYKLQHPSEIMITLNNEINLPNPANYDFETTKVVYQHPLRNVCATLETLQHLTNKTNAKLPYDSRLLSDFNITAEQYNQYGYYIDYNNFVNNFNRYTTTTIGTKSFETCIKYGLMD 5lal-a2-m2-cB_5lal-a2-m3-cB Structure of Arabidopsis dirigent protein AtDIR6 Q9SUQ8 Q9SUQ8 1.4 X-RAY DIFFRACTION 84 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 155 155 5lal-a1-m1-cA_5lal-a1-m2-cA 5lal-a1-m1-cA_5lal-a1-m3-cA 5lal-a1-m2-cA_5lal-a1-m3-cA 5lal-a2-m1-cB_5lal-a2-m2-cB 5lal-a2-m1-cB_5lal-a2-m3-cB TIDQKKPCKHFSFYFHDILYDGDNVANATSAAIVSPPGLGNFKFGKFVIFDGPITMDKNYLSKPVARAQGFYFYDMKMDFNSWFSYTLVFNSTEHKGTLNIMGADLMMEPTRDLSVVGGTGDFFMARGIATFVTDLFQGAKYFRVKMDIKLYECY TIDQKKPCKHFSFYFHDILYDGDNVANATSAAIVSPPGLGNFKFGKFVIFDGPITMDKNYLSKPVARAQGFYFYDMKMDFNSWFSYTLVFNSTEHKGTLNIMGADLMMEPTRDLSVVGGTGDFFMARGIATFVTDLFQGAKYFRVKMDIKLYECY 5las-a1-m1-cB_5las-a1-m1-cA HIF prolyl hydroxylase 2 (PHD2-R281C/P317C/R396T) cross-linked to HIF-1alpha NODD-L397C/D412C and N-oxalylglycine (NOG) (complex-3) Q9GZT9 Q9GZT9 2.1 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 215 ALKLALEYIVPAMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGQLVSQKSDSSKDIRGDKITWIEGKEPGCETIGLLMSSMDDLICHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNCNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADETAAAK PALKLALEYIVPAMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGQLVSQKSDSSKDIRGDKITWIEGKEPGCETIGLLMSSMDDLICHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNCNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADETAAAKVKY 5lbb-a1-m2-cA_5lbb-a1-m3-cA HIF prolyl hydroxylase 2 (PHD2/EGLN1) R396T variant in complex with Mn(II) and N-[(1-chloro-4-hydroxyisoquinolin-3-yl)carbonyl]glycine (IOX3/UN9) Q9GZT9 Q9GZT9 1.7 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 229 5lbb-a1-m1-cA_5lbb-a1-m2-cA 5lbb-a1-m1-cA_5lbb-a1-m3-cA NGQTLPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGQLVSQKSDSSKDIRGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADETARAKVKYLTGGVRVEL NGQTLPALKLALEYIVPCMNKHGICVVDDFLGKETGQQIGDEVRALHDTGKFTDGQLVSQKSDSSKDIRGDKITWIEGKEPGCETIGLLMSSMDDLIRHCNGKLGSYKINGRTKAMVACYPGNGTGYVRHVDNPNGDGRCVTCIYYLNKDWDAKVSGGILRIFPEGKAQFADIEPKFDRLLFFWSDRRNPHEVQPAYATRYAITVWYFDADETARAKVKYLTGGVRVEL 5lbm-a1-m1-cA_5lbm-a1-m1-cB The asymmetric tetrameric structure of the formaldehyde sensing transcriptional repressor FrmR from Escherichia coli Q8X5J3 Q8X5J3 2.7 X-RAY DIFFRACTION 16 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 82 82 KKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK KKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK 5lbm-a1-m1-cA_5lbm-a1-m1-cD The asymmetric tetrameric structure of the formaldehyde sensing transcriptional repressor FrmR from Escherichia coli Q8X5J3 Q8X5J3 2.7 X-RAY DIFFRACTION 66 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 82 89 5lbm-a1-m1-cB_5lbm-a1-m1-cC KKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK PSTPEEKKKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK 5lbm-a1-m1-cB_5lbm-a1-m1-cD The asymmetric tetrameric structure of the formaldehyde sensing transcriptional repressor FrmR from Escherichia coli Q8X5J3 Q8X5J3 2.7 X-RAY DIFFRACTION 45 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 82 89 5lbm-a1-m1-cA_5lbm-a1-m1-cC KKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK PSTPEEKKKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK 5lbm-a1-m1-cC_5lbm-a1-m1-cD The asymmetric tetrameric structure of the formaldehyde sensing transcriptional repressor FrmR from Escherichia coli Q8X5J3 Q8X5J3 2.7 X-RAY DIFFRACTION 10 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 89 89 PSTPEEKKKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK PSTPEEKKKVLTRVRRIRGQIDALERSLEGDAECRAILQQIAAVRGAANGLAEVLESHIRETFDRNDCYSREVSQSVDDTIELVRAYLK 5lc0-a1-m1-cB_5lc0-a1-m1-cA Crystal structure of Zika virus NS2B-NS3 protease in complex with a boronate inhibitor A0A140DLX4 A0A140DLX4 2.7 X-RAY DIFFRACTION 94 1.0 64320 (Zika virus) 64320 (Zika virus) 190 193 MVDMYIERAGDITWEKDAEVTGNSPRLDVALDESGDFSLETTDGVYRVMTRGLLGSTQVGVGVMQEGVFHTMWHVTKGSALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGHSEVQLLAVPPGERARNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKCGRVIGLYGNGVVIKNGSYVSAITQ MVDMYIERAGDITWEKDAEVTGNSPRLDVALDESGDFSLVKGETTDGVYRVMTRGLLGSTQVGVGVMQEGVFHTMWHVTKGSALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGHSEVQLLAVPPGERARNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKCGRVIGLYGNGVVIKNGSYVSAITQ 5lc4-a2-m1-cC_5lc4-a2-m1-cB Xray structure of mouse FAM3C ILEI dimer Q91VU0 Q91VU0 1.84 X-RAY DIFFRACTION 255 1.0 10090 (Mus musculus) 10090 (Mus musculus) 169 170 5lc4-a1-m1-cD_5lc4-a1-m1-cA YKCGISKACPEKHFAFKMASGAANVVGPKICLEDNVLMSGVKNNVGRGINIALVNGKTGEVIDTKFFDMWGGDVAPFIEFLKTIQDGTVVLMATYDDGATKLTDEARRLIAELGSTSITSLGFRDNWVFCGGKGIKTKSPFEQHIKNNKETNKYEGWPEVVEMEGCIPQ YKCGISKACPEKHFAFKMASGAANVVGPKICLEDNVLMSGVKNNVGRGINIALVNGKTGEVIDTKFFDMWGGDVAPFIEFLKTIQDGTVVLMATYDDGATKLTDEARRLIAELGSTSITSLGFRDNWVFCGGKGIKTKSPFEQHIKNNKETNKYEGWPEVVEMEGCIPQK 5lcb-a1-m1-cL_5lcb-a1-m1-cN In situ atomic-resolution structure of the baseplate antenna complex in Chlorobaculum tepidum obtained combining solid-state NMR spectroscopy, cryo electron microscopy and polarization spectroscopy P0A314 P0A314 26.5 ELECTRON MICROSCOPY, SOLID-STATE NMR 31 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 59 59 5lcb-a1-m1-cA_5lcb-a1-m1-cE 5lcb-a1-m1-cA_5lcb-a1-m1-cM 5lcb-a1-m1-cB_5lcb-a1-m1-cH 5lcb-a1-m1-cB_5lcb-a1-m1-cJ 5lcb-a1-m1-cC_5lcb-a1-m1-cG 5lcb-a1-m1-cD_5lcb-a1-m1-cF 5lcb-a1-m1-cI_5lcb-a1-m1-cK MSGGGVFTDILAAAGRIFEVMVEGHWETVGMLFDSLGKGTMRINRNAYGSMGGGSLRGS MSGGGVFTDILAAAGRIFEVMVEGHWETVGMLFDSLGKGTMRINRNAYGSMGGGSLRGS 5lcn-a2-m1-cB_5lcn-a2-m1-cD STRUCTURE OF THE PYROCOCCUS FURIOSUS ESTERASE PF2001 WITH SPACE GROUP P212121 Q8TZJ1 Q8TZJ1 2.6 X-RAY DIFFRACTION 115 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 262 268 5g5c-a1-m1-cA_5g5c-a1-m2-cA 5lcn-a1-m1-cC_5lcn-a1-m1-cA GYKMVNPPRVVGNWTPKDLSFEYKDVEITTEDNVKLSGWWIDNGSDKTVIPLHGYTSSRWAEHYMRPVIEFLLKEGYNVLAFDFRAHGKSGGKYTTVGDKEILDLKAGVKWLKDNYPEKSKRIGVIGFSMGALVAIRGLSEVKEICCGVADSPPIYLDKTGARGMKYFAKLPEWLYSFVKPFSELINVLNYTNSIKKPLFLIIGRRDTLVKVEEVQEFYERNKHVNPNVELWVTDAPHVRTIQVFPEEWKSRVGEFLKRWMG HHGYKMVNPPRVVGNWTPKDLSFEYKDVEITTEDNVKLSGWWIDNGSDKTVIPLHGYTSSRWAEHYMRPVIEFLLKEGYNVLAFDFRAHGKSGGKYTTVGDKEILDLKAGVKWLKDNYPEKSKRIGVIGFSMGALVAIRGLSEVKEICCGVADSPPIYLDKTGARGMKYFAKLPEWLYSFVKPFSELFSGPINVLNYTNSIKKPLFLIIGRRDTLVKVEEVQEFYERNKHVNPNVELWVTDAPHVRTIQVFPEEWKSRVGEFLKRWMG 5lcy-a1-m1-cA_5lcy-a1-m1-cD Formaldehyde-Responsive Regulator FrmR E64H variant from Salmonella enterica serovar Typhimurium A0A0H3NLH8 A0A0H3NLH8 2.19 X-RAY DIFFRACTION 50 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 88 88 5lcy-a1-m1-cC_5lcy-a1-m1-cB PHSPEDKKRILTRVRRIRGQVEALERALESGEPCLAILQQIAAVRGASNGLMSEMVEIHLKDHLVSGETTPDQRAVRMAEIGHLLRAY PHSPEDKKRILTRVRRIRGQVEALERALESGEPCLAILQQIAAVRGASNGLMSEMVEIHLKDHLVSGETTPDQRAVRMAEIGHLLRAY 5lcy-a1-m1-cC_5lcy-a1-m1-cD Formaldehyde-Responsive Regulator FrmR E64H variant from Salmonella enterica serovar Typhimurium A0A0H3NLH8 A0A0H3NLH8 2.19 X-RAY DIFFRACTION 107 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 88 88 5lcy-a1-m1-cA_5lcy-a1-m1-cB PHSPEDKKRILTRVRRIRGQVEALERALESGEPCLAILQQIAAVRGASNGLMSEMVEIHLKDHLVSGETTPDQRAVRMAEIGHLLRAY PHSPEDKKRILTRVRRIRGQVEALERALESGEPCLAILQQIAAVRGASNGLMSEMVEIHLKDHLVSGETTPDQRAVRMAEIGHLLRAY 5lcz-a1-m1-cA_5lcz-a1-m1-cB Chimeric GST P08263 P08263 2.325 X-RAY DIFFRACTION 75 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 195 209 AEKPKLHYFNARGRMESTRWLLAAAGVEFEEKFIKSAEDLDKLRNDGYLMFQQVPMVEIDGMKLVQTRAILNYIASKYNLYGKDMKERALIDMYSEGILDLTEMITALAKDRTKNRYLPAFEKVLKSHGQDYLVGNRLTRVDIHLLELLLYVEEFDASLLTSFPLLKAFKSRISSLPNVKKFLQPGSQRKPAMDA AEKPKLHYFNARGRMESTRWLLAAAGVEFEEKFIKSAEDLDKLRNDGYLMFQQVPMVEIDGMKLVQTRAILNYIASKYNLYGKDMKERALIDMYSEGILDLTEMIIQLVICPPDQREAKTALAKDRTKNRYLPAFEKVLKSHGQDYLVGNRLTRVDIHLLELLLYVEEFDASLLTSFPLLKAFKSRISSLPNVKKFLQPGSQRKPAMDA 5ld5-a1-m1-cB_5ld5-a1-m1-cD Crystal structure of a bacterial dehydrogenase at 2.19 Angstroms resolution F1T6A5 F1T6A5 2.1906 X-RAY DIFFRACTION 121 1.0 525256 (Fannyhessea vaginae DSM 15829) 525256 (Fannyhessea vaginae DSM 15829) 340 340 5ld5-a1-m1-cA_5ld5-a1-m1-cC MAVKVAINGFGRIGRLAFRQMFGHEGSEIVAINDLTDPKMLANLLKYDSSQGNYARNHSVVAGEDSITVDGKTIKIYKEADAHNLPWGELNVDVVLECTGFYTSKAKAQAHIDAGAKKVVISAPAGKDLPTIVYNVNHEILTKDDNIISAASCTTNCLAPMAKALNDFAPIQSGIMSTIHAFTGDQMVLDGPHRKGDLRRARAAAINIVPNSTGAAKAIGLVIPELNGKLIGSAQRVPVPTGSTTLLFAVVKSDKEITVDSINAAMKAASDPETFGYNEDPIVSSDIIGMTYGSLFDATQTMVQDLGNGLYQVEVVSWYDNENSYTSQMVRTIKYFEKFV MAVKVAINGFGRIGRLAFRQMFGHEGSEIVAINDLTDPKMLANLLKYDSSQGNYARNHSVVAGEDSITVDGKTIKIYKEADAHNLPWGELNVDVVLECTGFYTSKAKAQAHIDAGAKKVVISAPAGKDLPTIVYNVNHEILTKDDNIISAASCTTNCLAPMAKALNDFAPIQSGIMSTIHAFTGDQMVLDGPHRKGDLRRARAAAINIVPNSTGAAKAIGLVIPELNGKLIGSAQRVPVPTGSTTLLFAVVKSDKEITVDSINAAMKAASDPETFGYNEDPIVSSDIIGMTYGSLFDATQTMVQDLGNGLYQVEVVSWYDNENSYTSQMVRTIKYFEKFV 5ld5-a1-m1-cD_5ld5-a1-m1-cA Crystal structure of a bacterial dehydrogenase at 2.19 Angstroms resolution F1T6A5 F1T6A5 2.1906 X-RAY DIFFRACTION 39 1.0 525256 (Fannyhessea vaginae DSM 15829) 525256 (Fannyhessea vaginae DSM 15829) 340 341 5ld5-a1-m1-cB_5ld5-a1-m1-cC MAVKVAINGFGRIGRLAFRQMFGHEGSEIVAINDLTDPKMLANLLKYDSSQGNYARNHSVVAGEDSITVDGKTIKIYKEADAHNLPWGELNVDVVLECTGFYTSKAKAQAHIDAGAKKVVISAPAGKDLPTIVYNVNHEILTKDDNIISAASCTTNCLAPMAKALNDFAPIQSGIMSTIHAFTGDQMVLDGPHRKGDLRRARAAAINIVPNSTGAAKAIGLVIPELNGKLIGSAQRVPVPTGSTTLLFAVVKSDKEITVDSINAAMKAASDPETFGYNEDPIVSSDIIGMTYGSLFDATQTMVQDLGNGLYQVEVVSWYDNENSYTSQMVRTIKYFEKFV SMAVKVAINGFGRIGRLAFRQMFGHEGSEIVAINDLTDPKMLANLLKYDSSQGNYARNHSVVAGEDSITVDGKTIKIYKEADAHNLPWGELNVDVVLECTGFYTSKAKAQAHIDAGAKKVVISAPAGKDLPTIVYNVNHEILTKDDNIISAASCTTNCLAPMAKALNDFAPIQSGIMSTIHAFTGDQMVLDGPHRKGDLRRARAAAINIVPNSTGAAKAIGLVIPELNGKLIGSAQRVPVPTGSTTLLFAVVKSDKEITVDSINAAMKAASDPETFGYNEDPIVSSDIIGMTYGSLFDATQTMVQDLGNGLYQVEVVSWYDNENSYTSQMVRTIKYFEKFV 5ld5-a1-m1-cD_5ld5-a1-m1-cC Crystal structure of a bacterial dehydrogenase at 2.19 Angstroms resolution F1T6A5 F1T6A5 2.1906 X-RAY DIFFRACTION 112 1.0 525256 (Fannyhessea vaginae DSM 15829) 525256 (Fannyhessea vaginae DSM 15829) 340 342 5ld5-a1-m1-cB_5ld5-a1-m1-cA MAVKVAINGFGRIGRLAFRQMFGHEGSEIVAINDLTDPKMLANLLKYDSSQGNYARNHSVVAGEDSITVDGKTIKIYKEADAHNLPWGELNVDVVLECTGFYTSKAKAQAHIDAGAKKVVISAPAGKDLPTIVYNVNHEILTKDDNIISAASCTTNCLAPMAKALNDFAPIQSGIMSTIHAFTGDQMVLDGPHRKGDLRRARAAAINIVPNSTGAAKAIGLVIPELNGKLIGSAQRVPVPTGSTTLLFAVVKSDKEITVDSINAAMKAASDPETFGYNEDPIVSSDIIGMTYGSLFDATQTMVQDLGNGLYQVEVVSWYDNENSYTSQMVRTIKYFEKFV SMAVKVAINGFGRIGRLAFRQMFGHEGSEIVAINDLTDPKMLANLLKYDSSQGNYARNHSVVAGEDSITVDGKTIKIYKEADAHNLPWGELNVDVVLECTGFYTSKAKAQAHIDAGAKKVVISAPAGKDLPTIVYNVNHEILTKDDNIISAASCTTNCLAPMAKALNDFAPIQSGIMSTIHAFTGDQMVLDGPHRKGDLRRARAAAINIVPNSTGAAKAIGLVIPELNGKLIGSAQRVPVPTGSTTLLFAVVKSDKEITVDSINAAMKAASDPETFGYNEDPIVSSDIIGMTYGSLFDATQTMVQDLGNGLYQVEVVSWYDNENSYTSQMVRTIKYFEKFVA 5ld9-a1-m1-cB_5ld9-a1-m1-cA Structure of deubiquitinating enzyme homolog, Pyrococcus furiosus JAMM1. Q8U1Y4 Q8U1Y4 1.733 X-RAY DIFFRACTION 31 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 126 129 STLIIPQHYLRAILKVVSSSSVEVCGFLFGKENRVLKVRFIRNRLNSPVEFEMDPEEMLKALEEAEQENLEVVGIFHSHIACPPIPSGKDLEGMKRWPVIWLIVNEKGEYKAWILNKISEVKIVVE STLIIPQHYLRAILKVVSSSSVEVCGFLFGKENRVLKVRFIRNRLNSPVEFEMDPEEMLKALEEAEQENLEVVGIFHSHIACPPIPSGKDLEGMKRWPVIWLIVNEKGEYKAWILSEKNKISEVKIVVE 5lds-a3-m3-cD_5lds-a3-m1-cC Structure of the porcine aminopeptidase N ectodomain P15145 P15145 2 X-RAY DIFFRACTION 55 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 898 899 4ou3-a1-m1-cA_4ou3-a1-m2-cA 5lds-a1-m1-cB_5lds-a1-m1-cA 5lds-a2-m1-cD_5lds-a2-m2-cC 7vpp-a1-m1-cC_7vpp-a1-m1-cA QSKPWNRYRLPTTLLPDSYNVTLRPYLTPNADGLYIFKGKSIVRFICQEPTDVIIIHSKKLNYTHMVVLRGVGDSQVPEIDRTELVELTEYLVVHLKGSLQPGHMYEMESEFQGELADDLAGFYRSEYMEGNVKKVLATTQMQSTDARKSFPCFDEPAMKATFNITLIHPNNLTALSNMPPKGSSTPLAEDPNWSVTEFETTPVMSTYLLAYIVSEFQSVNETAQNGVLIRIWARPNAIAEGHGMYALNVTGPILNFFANHYNTSYPLPKSDQIALPDFNAGAMENWGLVTYRENALLFDPQSSSISNKERVVTVIAHELAHQWFGNLVTLAWWNDLWLNEGFASYVEYLGADHAEPTWNLKDLIVPGDVYRVMAVDALASSHPLTTPAEEVNTPAQISEMFDSISYSKGASVIRMLSNFLTEDLFKEGLASYLHAFAYQNTTYLDLWEHLQKAVDAQTSIRLPDTVRAIMDRWTLQMGFPVITVDTKTGNISQKHFLLDSESNVTRSSAFDYLWIVPISSIKNGVMQDHYWLRDVSQAQNDLFKTASDDWVLLNVNVTGYFQVNYDEDNWRMIQHQLQTNLSVIPVINRAQVIYDSFNLATAHMVPVTLALDNTLFLNGEKEYMPWQAALSSLSYFSLMFDRSEVYGPMKKYLRKQVEPLFQHFETLTKNWTERPENLMDQYSEINAISTACSNGLPQCENLAKTLFDQWMSDPENNPIHPNLRSTIYCNAIAQGGQDQWDFAWGQLQQAQLVNEADKLRSALACSNEVWLLNRYLGYTLNPDLIRKQDATSTINSIASNVIGQPLAWDFVQSNWKKLFQDYGGGSFSFSNLIQGVTRRFSSEFELQQLEQFKKNNMDVGFGSGTRALEQALEKTKANIKWVKENKEVVLNWFIEHS DQSKPWNRYRLPTTLLPDSYNVTLRPYLTPNADGLYIFKGKSIVRFICQEPTDVIIIHSKKLNYTHMVVLRGVGDSQVPEIDRTELVELTEYLVVHLKGSLQPGHMYEMESEFQGELADDLAGFYRSEYMEGNVKKVLATTQMQSTDARKSFPCFDEPAMKATFNITLIHPNNLTALSNMPPKGSSTPLAEDPNWSVTEFETTPVMSTYLLAYIVSEFQSVNETAQNGVLIRIWARPNAIAEGHGMYALNVTGPILNFFANHYNTSYPLPKSDQIALPDFNAGAMENWGLVTYRENALLFDPQSSSISNKERVVTVIAHELAHQWFGNLVTLAWWNDLWLNEGFASYVEYLGADHAEPTWNLKDLIVPGDVYRVMAVDALASSHPLTTPAEEVNTPAQISEMFDSISYSKGASVIRMLSNFLTEDLFKEGLASYLHAFAYQNTTYLDLWEHLQKAVDAQTSIRLPDTVRAIMDRWTLQMGFPVITVDTKTGNISQKHFLLDSESNVTRSSAFDYLWIVPISSIKNGVMQDHYWLRDVSQAQNDLFKTASDDWVLLNVNVTGYFQVNYDEDNWRMIQHQLQTNLSVIPVINRAQVIYDSFNLATAHMVPVTLALDNTLFLNGEKEYMPWQAALSSLSYFSLMFDRSEVYGPMKKYLRKQVEPLFQHFETLTKNWTERPENLMDQYSEINAISTACSNGLPQCENLAKTLFDQWMSDPENNPIHPNLRSTIYCNAIAQGGQDQWDFAWGQLQQAQLVNEADKLRSALACSNEVWLLNRYLGYTLNPDLIRKQDATSTINSIASNVIGQPLAWDFVQSNWKKLFQDYGGGSFSFSNLIQGVTRRFSSEFELQQLEQFKKNNMDVGFGSGTRALEQALEKTKANIKWVKENKEVVLNWFIEHS 5ldv-a1-m2-cA_5ldv-a1-m3-cA Crystal Structures of MOMP from Campylobacter jejuni Q659I5 Q659I5 2.1 X-RAY DIFFRACTION 95 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 403 403 5ldt-a1-m1-cA_5ldt-a1-m1-cB 5ldt-a1-m1-cA_5ldt-a1-m1-cC 5ldt-a1-m1-cB_5ldt-a1-m1-cC 5ldv-a1-m1-cA_5ldv-a1-m2-cA 5ldv-a1-m1-cA_5ldv-a1-m3-cA GAMGPLEEAIKDVDVSGVLRYRYDTGNFDKNFLNNSNLNNSKQDHKYRAQVNFSAAIADNFKAFVQFDYNAVDGGTGATNAEKGLFVRQLYLTYTNEDVATSVIAGKQQLNIIWTDNGVDGLVGTGVKVVNNSIDGLTLAAFAVDSFMAAEQGSDLLGQSTYVGNGKNNNDSFKLDSIGNLYGAAAVGSYDLAGGQFNPQLWLAYWDQVAFFYAVDAAYSTTIGINWTLEGAYLGNSLDSELDDKKTYANGNLFALKGSIEVNGWDASLGGLYYGDKEKASTVVIEDQGNLGSLLAGEEIFYTTGSRLNGDTGRNIFGYVTGGYTFNETVRVGADFVYGGTKTEATTHLGGGKKLEAVARVDYKYSPKLNFSAFYSYVNLDQGVNTNESADHSTVRLQALYKF GAMGPLEEAIKDVDVSGVLRYRYDTGNFDKNFLNNSNLNNSKQDHKYRAQVNFSAAIADNFKAFVQFDYNAVDGGTGATNAEKGLFVRQLYLTYTNEDVATSVIAGKQQLNIIWTDNGVDGLVGTGVKVVNNSIDGLTLAAFAVDSFMAAEQGSDLLGQSTYVGNGKNNNDSFKLDSIGNLYGAAAVGSYDLAGGQFNPQLWLAYWDQVAFFYAVDAAYSTTIGINWTLEGAYLGNSLDSELDDKKTYANGNLFALKGSIEVNGWDASLGGLYYGDKEKASTVVIEDQGNLGSLLAGEEIFYTTGSRLNGDTGRNIFGYVTGGYTFNETVRVGADFVYGGTKTEATTHLGGGKKLEAVARVDYKYSPKLNFSAFYSYVNLDQGVNTNESADHSTVRLQALYKF 5lef-a1-m1-cD_5lef-a1-m1-cC Rab6A:Kif20A complex P97329 P97329 2.088 X-RAY DIFFRACTION 58 1.0 10090 (Mus musculus) 10090 (Mus musculus) 47 49 GAMEQWCSERLDNQKELMEELYEEKLKILKESLTTFYQEQIQERDEK GAMEQWCSERLDNQKELMEELYEEKLKILKESLTTFYQEQIQERDEKIE 5lf0-a1-m1-cf_5lf0-a1-m1-cV Human 20S proteasome complex with Epoxomicin at 2.4 Angstrom Q99436 2.41 X-RAY DIFFRACTION 15 1.0 32630 (synthetic construct) 9606 (Homo sapiens) 2 220 5lf0-a1-m1-cc_5lf0-a1-m1-cH IT TTIAGVVYKDGIVLGADTRATEGMVVADKNCSKIHFISPNIYCCGAGTAADTDMTTQLISSNLELHSLSTGRLPRVVTANRMLKQMLFRYQGYIGAALVLGGVDVTGPHLYSIYPHGSTDKLPYVTMGSGSLAAMAVFEDKFRPDMEEEEAKNLVSEAIAAGIFNDLGSGSNIDLCVISKNKLDFLRPYTVPNKKGTRLGRYRCEKGTTAVLTEKITPLE 5lf5-a1-m1-cA_5lf5-a1-m2-cA Myelin-associated glycoprotein (MAG) deglycosylated full extracellular domain with co-purified ligand P20917 P20917 3.8 X-RAY DIFFRACTION 102 1.0 10090 (Mus musculus) 10090 (Mus musculus) 484 484 5lfu-a1-m1-cA_5lfu-a1-m2-cA GHWGAWMPSTISAFEGTCVSIPCRFDFPDELRPAVVHGVWYFNSPYPKNYPPVVFKSRTQVVHESFQGRSRLLGDLGLRNCTLLLSTLSPELGGKYYFRGDLGGYNQYTFSEHSVLDIVNTPNIVVPPEVVAGTEVEVSCMVPDNCPELRPELSWLGHEGLGEPTVLGRLREDEGTWVQVSLLHFVPTREANGHRLGCQAAFPNTTLQFEGYASLDVKYPPVIVEMNSSVEAIEGSHVSLLCGADSNPPPLLTWMRDGMVLREAVAKSLYLDLEEVTPGEDGVYACLAENAYGQDNRTVELSVMYAPWKPTVNGTVVAVEGETVSILCSTQSNPDPILTIFKEKQILATVIYESQLQLELPAVTPEDDGEYWCVAENQYGQRATAFNLSVEFAPIILLESHCAAARDTVQCLCVVKSNPEPSVAFELPSTVNETEREFVYSERSGLLLTSILTIRGQAQAPPRVICTSRNLYGTQSLELPFQGA GHWGAWMPSTISAFEGTCVSIPCRFDFPDELRPAVVHGVWYFNSPYPKNYPPVVFKSRTQVVHESFQGRSRLLGDLGLRNCTLLLSTLSPELGGKYYFRGDLGGYNQYTFSEHSVLDIVNTPNIVVPPEVVAGTEVEVSCMVPDNCPELRPELSWLGHEGLGEPTVLGRLREDEGTWVQVSLLHFVPTREANGHRLGCQAAFPNTTLQFEGYASLDVKYPPVIVEMNSSVEAIEGSHVSLLCGADSNPPPLLTWMRDGMVLREAVAKSLYLDLEEVTPGEDGVYACLAENAYGQDNRTVELSVMYAPWKPTVNGTVVAVEGETVSILCSTQSNPDPILTIFKEKQILATVIYESQLQLELPAVTPEDDGEYWCVAENQYGQRATAFNLSVEFAPIILLESHCAAARDTVQCLCVVKSNPEPSVAFELPSTVNETEREFVYSERSGLLLTSILTIRGQAQAPPRVICTSRNLYGTQSLELPFQGA 5lf6-a1-m1-cd_5lf6-a1-m1-cY Human 20S proteasome complex with Z-LLY-ketoaldehyde at 2.1 Angstrom P28074 2.07 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2 201 5lf6-a1-m1-cc_5lf6-a1-m1-cK LL TTTLAFKFRHGVIVAADSRATAGAYIASQTVKKVIEINPYLLGTMAGGAADCSFWERLLARQCRIYELRNKERISVAAASKLLANMVYQYKGMGLSMGTMICGWDKRGPGLYYVDSEGNRISGATFSVGSGSVYAYGVMDRGYSYDLEVEQAYDLARRAIYQATYRDAYSGGAVNLYHVREDGWIRVSSDNVADLHEKYSG 5lfk-a1-m1-cA_5lfk-a1-m2-cA Crystal structure of CpxAHDC (hemiphosphorylated form) P0AE82 P0AE82 3.094 X-RAY DIFFRACTION 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 243 243 AGPQEFLAAGASFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK AGPQEFLAAGASFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK 5lfk-a1-m1-cB_5lfk-a1-m2-cB Crystal structure of CpxAHDC (hemiphosphorylated form) P0AE82 P0AE82 3.094 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 235 QEFLAAGASFNQVVTALERMMTSQQRLLSDISELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQLVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK QEFLAAGASFNQVVTALERMMTSQQRLLSDISELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQLVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK 5lfk-a1-m2-cB_5lfk-a1-m1-cA Crystal structure of CpxAHDC (hemiphosphorylated form) P0AE82 P0AE82 3.094 X-RAY DIFFRACTION 19 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 243 5lfk-a1-m1-cB_5lfk-a1-m2-cA QEFLAAGASFNQVVTALERMMTSQQRLLSDISELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQLVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK AGPQEFLAAGASFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK 5lfk-a1-m2-cB_5lfk-a1-m2-cA Crystal structure of CpxAHDC (hemiphosphorylated form) P0AE82 P0AE82 3.094 X-RAY DIFFRACTION 177 1.0 562 (Escherichia coli) 562 (Escherichia coli) 235 243 4biu-a2-m1-cB_4biu-a2-m1-cA 4biv-a1-m1-cA_4biv-a1-m1-cB 4biw-a1-m1-cB_4biw-a1-m1-cA 4cb0-a1-m1-cB_4cb0-a1-m1-cA 5lfk-a1-m1-cB_5lfk-a1-m1-cA QEFLAAGASFNQVVTALERMMTSQQRLLSDISELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQLVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK AGPQEFLAAGASFNQVVTALERMMTSQQRLLSDISHELRTPLTRLQLGTALLRRRSGESKELERIETEAQRLDSMINDLLVMSRNQQKNALVSETIKANQLWSEVLDNAAFEAEQMGKSLTVNFPPGPWPLYGNPNALESALENIVRNALRYSHTKIEVGFAVDKDGITITVDDDGPGVSPEDREQIFRPFYRTDEARDRESGGTGLGLAIVETAIQQHRGWVKAEDSPLGGLRLVIWLPLYK 5lfn-a2-m1-cC_5lfn-a2-m1-cD Crystal structure of human chondroadherin O15335 O15335 2.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 325 5lfn-a1-m1-cA_5lfn-a1-m1-cB CPQNCHCHSDLQHVICDKVGLQKIPKVSEKTKLLNLQRNNFPVLAANSFRAMPNLVSLHLQHCQIREVAAGAFRGLKQLIYLYLSHNDIRVLRAGAFDDLTELTYLYLDHNKVTELPRGLLSPLVNLFILQLNNNKIRELRAGAFQGAKDLRWLYLSENALSSLQPGALDDVENLAKFHVDRNQLSSYPSAALSKLRVVEELKLSHNPLKSIPDNAFQSFGRYLETLWLDNTNLEKFSDGAFLGVTTLKHVHLENNRLNQLPSNFPFDSLETLALTNNPWKCTCQLRGLRRWLEAKASRPDATCASPAKFKGQHIRDTDAFRS CPQNCHCHSDLQHVICDKVGLQKIPKVSEKTKLLNLQRNNFPVLAANSFRAMPNLVSLHLQHCQIREVAAGAFRGLKQLIYLYLSHNDIRVLRAGAFDDLTELTYLYLDHNKVTELPRGLLSPLVNLFILQLNNNKIRELRAGAFQGAKDLRWLYLSENALSSLQPGALDDVENLAKFHVDRNQLSSYPSAALSKLRVVEELKLSHNPLKSIPDNAFQSFGRYLETLWLDNTNLEKFSDGAFLGVTTLKHVHLENNRLNQLPSNFPFDSLETLALTNNPWKCTCQLRGLRRWLEAKASRPDATCASPAKFKGQHIRDTDAFRSCK 5lgp-a1-m1-cG_5lgp-a1-m1-cH Crystal structure of mouse CARM1 in complex with ligand P1C3s P11940 P11940 2.04 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 12 QNMPGAIRPAA FQNMPGAIRPAA 5lgr-a1-m1-cE_5lgr-a1-m1-cF Crystal structure of mouse CARM1 in complex with ligand P1C3u P11940 P11940 2 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 12 5lgp-a1-m1-cE_5lgp-a1-m1-cF QNMPGAIRPAA FQNMPGAIRPAA 5lgr-a1-m1-cG_5lgr-a1-m1-cH Crystal structure of mouse CARM1 in complex with ligand P1C3u P11940 P11940 2 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 12 PGAIRPAA FQNMPGAIRPAA 5lhw-a1-m1-cA_5lhw-a1-m2-cA Central Coiled-Coil Domain of Human STIL Q15468 Q15468 0.91 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 27 GSLTEQDRQLRLLQAQIQRLLEAQSLM GSLTEQDRQLRLLQAQIQRLLEAQSLM 5li2-a1-m1-cK_5li2-a1-m1-cL bacteriophage phi812K1-420 tail sheath and tail tube protein in native tail P54332 P54332 6.2 ELECTRON MICROSCOPY 89 1.0 307898 (Staphylococcus phage 812) 307898 (Staphylococcus phage 812) 100 100 5li2-a1-m1-cG_5li2-a1-m1-cH 5li2-a1-m1-cG_5li2-a1-m1-cL 5li2-a1-m1-cH_5li2-a1-m1-cI 5li2-a1-m1-cI_5li2-a1-m1-cJ 5li2-a1-m1-cJ_5li2-a1-m1-cK AQNTISGKEGRLFLDGEEMAHIKTFEANVEANGTGTATFSKFVLLMMDYVKKTLQAVLDDQSSGRGTERVTLYDDSAKIASLDEEEVPFTFEDFDVPEKL AQNTISGKEGRLFLDGEEMAHIKTFEANVEANGTGTATFSKFVLLMMDYVKKTLQAVLDDQSSGRGTERVTLYDDSAKIASLDEEEVPFTFEDFDVPEKL 5li7-a1-m1-cB_5li7-a1-m1-cA Crystal structure of Mycobacterium tuberculosis CYP126A1 in complex with 1-(3-(1H-imidazol-1-yl)propyl)-3-((3s,5s,7s)-adamantan-1-yl)urea P9WPN8 P9WPN8 1.58 X-RAY DIFFRACTION 56 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 372 373 5li6-a1-m1-cB_5li6-a1-m1-cA 5lie-a1-m1-cA_5lie-a1-m1-cB LSGIDLTDLDNFADGFPHHLFAIHRREAPVYWHRPTEHTPDGEGFWSVATYAETLEVLRDPVTYSSVTGGQRRFGGTVLQDLPVAGQVLNMMDDPRHTRIRRLVSSGLTPRMIRRVEDDLRRRARGLLDGVEPGAPFDFVVEIAAELPMQMICILLGVPETDRHWLFEAVLYTYALELIAGKRAEPADDMLSVVANALSDAELYLFFHLLFSAGAETTRNSIAGGLLALAENPDQLQTLRSDFELLPTAIEEIVRWTSPSPSKRRTASRAVSLGGQPIEAGQKVVVWEGSANRDPSVFDRADEFDITRKPNPHLGFGQGVHYCLGANLARLELRVLFEELLSRFGSVRVVEPAEWTRSNRHTGIRHLVVELR LSGIDLTDLDNFADGFPHHLFAIHRREAPVYWHRPTEHTPDGEGFWSVATYAETLEVLRDPVTYSSVTGGQRRFGGTVLQDLPVAGQVLNMMDDPRHTRIRRLVSSGLTPRMIRRVEDDLRRRARGLLDGVEPGAPFDFVVEIAAELPMQMICILLGVPETDRHWLFEAVRLYTYALELIAGKRAEPADDMLSVVANALSDAELYLFFHLLFSAGAETTRNSIAGGLLALAENPDQLQTLRSDFELLPTAIEEIVRWTSPSPSKRRTASRAVSLGGQPIEAGQKVVVWEGSANRDPSVFDRADEFDITRKPNPHLGFGQGVHYCLGANLARLELRVLFEELLSRFGSVRVVEPAEWTRSNRHTGIRHLVVELR 5lil-a1-m1-cB_5lil-a1-m1-cA Structure of Aggregatibacter actinomycetemcomitans MacB bound to ATPyS (P21) Q2EHL8 Q2EHL8 3.35 X-RAY DIFFRACTION 234 0.997 714 (Aggregatibacter actinomycetemcomitans) 714 (Aggregatibacter actinomycetemcomitans) 604 615 5lj6-a1-m1-cA_5lj6-a1-m2-cA MNIIEIKQLNRYFGEGENRVHVLKDISLSIERGDFVAIMGQSGSGKSTLMNIIGCLDTATGGSSKIDGKETIELTNDQLSDLRSQKFGFIFQRYNLLSSLTAAENVALPAIYAGMPQSQRLERAKQLLEKLGLGDKWQNKPNQLSGGQQQRVSIARALMNGGEIILADQPTGALDSHSGENVMEILRQLHEEGHTIIMVTHDKHIAASANRIIEIKDGEIISDTQKRQVKSAVKNPSVFKGKDQLMEAFRMSVSAIVAHKMRSLLTMLGIIIGITSVVSVVALGNGSQQKILENIRGIGTNTMTINLKISDANTLSKQSYIQSVTPNTSSSGILVVGNKSFTSANLYGIGEQYFDVEGLKLKQGRLLTEDDVDQSNQVVVLDESAKKAIFANENPLGKTVIFNKRPFRVIGVVSDQLNLYSPYSTVLNKITGGSRIGSITVKISDDVNSTVAEKSLTELLKSMNSDTIKQTIENTTGTMKLLISSIAFISLIVGGIGVMNIMLVSVTERTKEIGVRMAIGARQINILQQFLIEAVLICLIGGVAGILLSVLIGVLFNSFITDFSMDFSTASIVTAVLFSTLIGVLFGYMPAKKAAELNPITALA MNIIEIKQLNRYFGEGENRVHVLKDISLSIERGDFVAIMGQSGSGKSTLMNIIGCLDTATGGSSKIDGKETIELTNDQLSDLRSQKFGFIFQRYNLLSSLTAAENVALPAIYAGMPQSQRLERAKQLLEKLGLGDKWQNKPNQLSGGQQQRVSIARALMNGGEIILADQPTGALDSHSGENVMEILRQLHEEGHTIIMVTHDKHIAASANRIIEIKDGEIISDTQKRQVKSAVKNPSVFSKDQLMEAFRMSVSAIVAHKMRSLLTMLGIIIGITSVVSVVALGNGSQQKILENIRGIGTNTMTIFQNLKISDANTLSKQSYIQSVTPNTSSSGILVVGNKSFTSANLYGIGEQYFDVEGLKLKQGRLLTEDDVDQSNQVVVLDESAKKAIFANENPLGKTVIFNKRPFRVIGVVSDQSLNLYSPYSTVLNKITGGSRIGSITVKISDDVNSTVAEKSLTELLKSLHGKKDFFIMNSDTIKQTIENTTGTMKLLISSIAFISLIVGGIGVMNIMLVSVTERTKEIGVRMAIGARQINILQQFLIEAVLICLIGGVAGILLSVLIGVLFNSFITDFSMDFSTASIVTAVLFSTLIGVLFGYMPAKKAAELNPITALA 5lir-a1-m1-cA_5lir-a1-m2-cA Structure of the SALTY Sigma cross-reacting protein 27A (SCRP-27A) from Salmonella typhimurium Q8ZLR6 Q8ZLR6 1.75 X-RAY DIFFRACTION 91 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 218 218 FQGKKIGVVLSGCGVYDGTEIHEAVLTLLAIARSGAQAVCFAPDKPQADVINHLTGEAMAETRNVLIEAARITRGDIRPLSQAQPEELDALIVPGGFGAAKNLSNFASQGSECRVDSDVVALAKAMHQSGKPLGFIIAPAMLPKIFDFPLRLTIGTDIDTAEVLEEMGAEHVPCPVDDIVVDEDNKVVTTPAYMLAQDIAQAASGIDKLVSRVLVLAE FQGKKIGVVLSGCGVYDGTEIHEAVLTLLAIARSGAQAVCFAPDKPQADVINHLTGEAMAETRNVLIEAARITRGDIRPLSQAQPEELDALIVPGGFGAAKNLSNFASQGSECRVDSDVVALAKAMHQSGKPLGFIIAPAMLPKIFDFPLRLTIGTDIDTAEVLEEMGAEHVPCPVDDIVVDEDNKVVTTPAYMLAQDIAQAASGIDKLVSRVLVLAE 5lkb-a1-m1-cA_5lkb-a1-m1-cB Crystal structure of the Xi glutathione transferase ECM4 from Saccharomyces cerevisiae P36156 P36156 1.45 X-RAY DIFFRACTION 88 0.991 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 344 344 5lkd-a1-m1-cB_5lkd-a1-m1-cA GAFKRQVSSFRETISKQHPIYKPAKGRYWLYVSLACPWAHRTLITRALKGLTSVIGCSVVHWHLDEKGWRFLDFLEHWHDVAGGIRSFAEIKNDSQRFMVDATNEPHYGYKRISDLYYKSDPQYSARFTVPVLWDLETQTIVNNESSEIIRILNSSAFDEFVDDDHKKTDLVPAQLKTQIDDFNSWVYDSINNGVYKTGFAEKAEVYESEVNNVFEHLDKVEKILSDKYSKLKAKYGEEDRQKILGEFFTVGDQLTEADIRLYTTVIRFDPVYVQHFKCNFTSIRAGYPFIHLWVRNLYWNYDAFRYTTDFDHIKLHYTRSHTRINPLGITPLGPKPDIRPLLE GAFKRQVSSFRETISKQHPIYKPAKGRYWLYVSLACPWAHRTLITRALKGLTSVIGCSVVHWHLDEKGWRFLDLEHWHDVAGGIRTAKSFAEIKNDSQRFMVDATNEPHYGYKRISDLYYKSDPQYSARFTVPVLWDLETQTIVNNESSEIIRILNSSAFDEFVDDDHKKTDLVPAQLKTQIDDFNSWVYDSINNGVYKTGFAEKAEVYESEVNNVFEHLDKVEKILSDKYSKLKAKYGEEDRQKILGEFFTVGDQLTEADIRLYTTVIRFDPVYVQHFKCNFTSIRAGYPFIHLWVRNLYWNYDAFRYTTDFDHIKLHYTRSHTRINPLGITPLGPKPDIRPL 5lkg-a1-m1-cB_5lkg-a1-m1-cA Protruding domain of GII.17 norovirus Kawasaki308 in complex with 2-fucosyllactose (2'FL) A0A0E4B1P1 A0A0E4B1P1 1.51 X-RAY DIFFRACTION 128 1.0 1634342 (Norovirus Hu/GII/JP/2015/GII.P17_GII.17/Kawasaki308) 1634342 (Norovirus Hu/GII/JP/2015/GII.P17_GII.17/Kawasaki308) 307 308 5f4m-a1-m1-cB_5f4m-a1-m1-cA 5f4o-a1-m1-cA_5f4o-a1-m1-cB 5lkc-a1-m1-cA_5lkc-a1-m1-cB 5lkk-a1-m1-cA_5lkk-a1-m1-cB 5zus-a1-m1-cA_5zus-a1-m1-cB 5zv5-a1-m1-cB_5zv5-a1-m1-cA 5zv7-a1-m1-cA_5zv7-a1-m1-cB 8en3-a1-m1-cA_8en3-a1-m1-cB SKPFSLPILTLSELTNSRFPVPIDSLFTAQNNVLQVQCQNGRCTLDGELQGTTQLLPTGICAFRGRVTAQINQRDRWHMQLQNLNGTTYDPTDDVPAPLGTPDFKGVVFGMVSQRNVGNDAPGSTRAQQAWVSTYSPQFVPKLGSVNLRISDNDDFQFQPTKFTPVGVNDDDDGHPFRQWELPNYSGELTLNMNLAPPVAPNFPGEQLLFFRSFVPCSGGYNQGIIDCLIPQEWIQHFYQESAPSQSDVALIRYVNPDTGRTLFEAKLHRSGYITVAHSGDYPLVVPANGHFRFDSWVNQFYSLAPM GSKPFSLPILTLSELTNSRFPVPIDSLFTAQNNVLQVQCQNGRCTLDGELQGTTQLLPTGICAFRGRVTAQINQRDRWHMQLQNLNGTTYDPTDDVPAPLGTPDFKGVVFGMVSQRNVGNDAPGSTRAQQAWVSTYSPQFVPKLGSVNLRISDNDDFQFQPTKFTPVGVNDDDDGHPFRQWELPNYSGELTLNMNLAPPVAPNFPGEQLLFFRSFVPCSGGYNQGIIDCLIPQEWIQHFYQESAPSQSDVALIRYVNPDTGRTLFEAKLHRSGYITVAHSGDYPLVVPANGHFRFDSWVNQFYSLAPM 5lki-a1-m1-cD_5lki-a1-m1-cE Cryo-EM structure of the Tc toxin TcdA1 in its pore state Q9RN43 Q9RN43 3.46 ELECTRON MICROSCOPY 423 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 1427 1427 5lki-a1-m1-cA_5lki-a1-m1-cB 5lki-a1-m1-cA_5lki-a1-m1-cE 5lki-a1-m1-cB_5lki-a1-m1-cC 5lki-a1-m1-cC_5lki-a1-m1-cD 6l7i-a1-m1-cA_6l7i-a1-m1-cB 6l7i-a1-m1-cA_6l7i-a1-m1-cE 6l7i-a1-m1-cB_6l7i-a1-m1-cC 6l7i-a1-m1-cC_6l7i-a1-m1-cD 6l7i-a1-m1-cD_6l7i-a1-m1-cE IGYNNQFSGRASQYVAPGTVSSMFSPAAYLTELYREARNLHASDSVYYLDTRRPDLKSMALSQQNMDIELSTLSLSNELLLESIKTESKLENYTKVMEMLSTFRPSGATPYHDAYENVREVIQLQDPAPQGVSALVGLDYIQSMKETPTYAQWENAAGVLTAGLNSQQANTLHAFLDESRSAALSTYYIRQVAKAAAAIKSRDDLYQYLLIDNQVSAAIKTTRIAEAIASIQLYVNRALENVEENANSGVISRQFFIDWDKYNKRYSTWAGVSQLVYYPENYIDPTMRIGQTKMMDALLQSVSQSQLNADTVEDAFMSYLTSFEQVANLKVISAYHDNINNDQGLTYFIGLSETDAGEYYWRSVDHSKFNDGKFAANAWSEWHKIDCPINPYKSTIRPVIYKSRLYLLWLEQKEIDYRYELKLAHIRYDGTWNTPITFDVNKKISELKLEKNRAPGLYCAGYQGEDTLLVMFYNQQDTLDSYKNASMQGLYIFADMASKDMTPEQSNVYRDNSYQQFDTNNVRRVNNRTDNALTLHHNENGAQYMQWQSYRTRLNTLFARQLVARATTGIDTILSMETQNIQEPQLGKGFYATFVIPPYNLSTHGDERWFKLYIKHVVDNNSHIIYSGQLTDTNINITLFIPLDDDYHAKVYMTFKKSPSDGTWWGPHFVRDDKGIVTINPKSILTHFESVNVLNNISSEPMDFSGANSLYFWELFYYTPMLVAQRLLHEQNFDEANRWLKYVWSPSGYIVHGQIQNYQWNVRPLLEDTSWNSDPLDSVDPDAVAQHDPMHYKVSTFMRTLDLLIARGDHAYRQLERDTLNEAKMWYMQALHLLGDKPYLPLSTTWSDPRLDRAADILFLPQINEVMMNYWQTLAQRVYNLRHNLSIDGQPLYLPIYATPADPKALLSAAVATSQGGGKLPESFMSLWRFPHMLENARGMVSQLTQFGSTLQNIIERQDAEALNALLQNQAAELILTNLSIQDKTIEELDAEKTVLEKSKAGAQSRFDSYGKLYDENINAGENQAMTLRASAAGLTTAVQASRLAGAAADLVPNIFGFAGGGSRWGAIAEATGYVMEFSANVMNTEADKISQSETYRRRRQEWEIQRNNAEAELKQIDAQLKSLAVRREAAVLQKTSLKTQQEQTQSQLAFLQRKFSNQALYNWLRGRLAAIYFQFYDLAVARCLMAEQAYRWELNDDSARFIKPGAWQGTYAGLLAGETLMLSLAQMEDAHLKRDKRALEVERTVSLAEVYAGLPKDNGPFSLAQEIDKLVSQGSGSAGSGNNNLAFGAGTDTKTSLQASVSFADLKIREDYPASLGKIRRIKQISVTLPALLGPYQDVQAILSYGDKAGLANGCEALAVSHGMNDSGQFQLDFNDGKFLPFEGIAIDQGTLTLSFPNASMPEKGKQATMLKTLNDIILHIRYTIK IGYNNQFSGRASQYVAPGTVSSMFSPAAYLTELYREARNLHASDSVYYLDTRRPDLKSMALSQQNMDIELSTLSLSNELLLESIKTESKLENYTKVMEMLSTFRPSGATPYHDAYENVREVIQLQDPAPQGVSALVGLDYIQSMKETPTYAQWENAAGVLTAGLNSQQANTLHAFLDESRSAALSTYYIRQVAKAAAAIKSRDDLYQYLLIDNQVSAAIKTTRIAEAIASIQLYVNRALENVEENANSGVISRQFFIDWDKYNKRYSTWAGVSQLVYYPENYIDPTMRIGQTKMMDALLQSVSQSQLNADTVEDAFMSYLTSFEQVANLKVISAYHDNINNDQGLTYFIGLSETDAGEYYWRSVDHSKFNDGKFAANAWSEWHKIDCPINPYKSTIRPVIYKSRLYLLWLEQKEIDYRYELKLAHIRYDGTWNTPITFDVNKKISELKLEKNRAPGLYCAGYQGEDTLLVMFYNQQDTLDSYKNASMQGLYIFADMASKDMTPEQSNVYRDNSYQQFDTNNVRRVNNRTDNALTLHHNENGAQYMQWQSYRTRLNTLFARQLVARATTGIDTILSMETQNIQEPQLGKGFYATFVIPPYNLSTHGDERWFKLYIKHVVDNNSHIIYSGQLTDTNINITLFIPLDDDYHAKVYMTFKKSPSDGTWWGPHFVRDDKGIVTINPKSILTHFESVNVLNNISSEPMDFSGANSLYFWELFYYTPMLVAQRLLHEQNFDEANRWLKYVWSPSGYIVHGQIQNYQWNVRPLLEDTSWNSDPLDSVDPDAVAQHDPMHYKVSTFMRTLDLLIARGDHAYRQLERDTLNEAKMWYMQALHLLGDKPYLPLSTTWSDPRLDRAADILFLPQINEVMMNYWQTLAQRVYNLRHNLSIDGQPLYLPIYATPADPKALLSAAVATSQGGGKLPESFMSLWRFPHMLENARGMVSQLTQFGSTLQNIIERQDAEALNALLQNQAAELILTNLSIQDKTIEELDAEKTVLEKSKAGAQSRFDSYGKLYDENINAGENQAMTLRASAAGLTTAVQASRLAGAAADLVPNIFGFAGGGSRWGAIAEATGYVMEFSANVMNTEADKISQSETYRRRRQEWEIQRNNAEAELKQIDAQLKSLAVRREAAVLQKTSLKTQQEQTQSQLAFLQRKFSNQALYNWLRGRLAAIYFQFYDLAVARCLMAEQAYRWELNDDSARFIKPGAWQGTYAGLLAGETLMLSLAQMEDAHLKRDKRALEVERTVSLAEVYAGLPKDNGPFSLAQEIDKLVSQGSGSAGSGNNNLAFGAGTDTKTSLQASVSFADLKIREDYPASLGKIRRIKQISVTLPALLGPYQDVQAILSYGDKAGLANGCEALAVSHGMNDSGQFQLDFNDGKFLPFEGIAIDQGTLTLSFPNASMPEKGKQATMLKTLNDIILHIRYTIK 5lkm-a1-m2-cC_5lkm-a1-m1-cA RadA bound to dTDP Q8DRP0 Q8DRP0 3.5 X-RAY DIFFRACTION 124 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 373 390 5lkm-a1-m1-cB_5lkm-a1-m1-cA 5lkm-a1-m1-cC_5lkm-a1-m2-cA 5lkm-a1-m2-cB_5lkm-a1-m2-cA 5lkq-a1-m1-cA_5lkq-a1-m1-cB 5lkq-a1-m1-cA_5lkq-a1-m2-cB 5lkq-a1-m2-cA_5lkq-a1-m2-cB 5lkq-a1-m2-cA_5lkq-a1-m3-cB 5lkq-a1-m3-cA_5lkq-a1-m1-cB 5lkq-a1-m3-cA_5lkq-a1-m3-cB NVNRTKTEMEEFNRVLGGGVVPGSLVLIGGDPGIGKSTLLLQVSTQLSQVGTVLYVSGEESAQQIKLRAERLGDIDSEFYLYAETNMQSVRAEVERIQPDFLIIDSIQTIMSPSVSQVREVTAELMQLAKTNNIAIFIVGHVTPRMLEHMVDTVLYFEGERHHTFRILRAVKNRFGSTNEIGIFEMQSGGLVEVLNPSQVFLEERLDGATGSSIVVTMEGTRPILAEVQALVTPTMFGNAKRTTTGLDFNRASLIMAVLEKRAGLLLQNQDAYLKSAGGVKLDEPAIDLAVAVAIASSYKDKPTNPQECFVGELGLTGEIRRVNRIEQRINEAAKLGFTKIYVPKNSLTGITLPKEIQVIGVTTIQEVLKKVF KTKPMKLAEVTSINVNRTKTEMEEFNRVLGGGVVPGSLVLIGGDPGIGKSTLLLQVSTQLSQVGTVLYVSGEESAQQIKLRAERLGDIDSEFYLYAETNMQSVRAEVERIQPDFLIIDSIQTIMSPESVSQVREVTAELMQLAKTNNIAIFIVGHVTKEGPRMLEHMVDTVLYFEGERHHTFRILRAVKNRFGSTNEIGIFEMQSGGLVEVLNPSQVFLEERLDGATGSSIVVTMEGTRPILAEVQALVTPTMFGNAKRTTTGLDFNRASLIMAVLEKRAGLLLQNQDAYLKSAGGVKLDEPAIDLAVAVAIASSYKDKPTNPQECFVGELGLTGEIRRVNRIEQRINEAAKLGFTKIYVPKNSLTGITLPKEIQVIGVTTIQEVLKKVF 5lly-a2-m1-cB_5lly-a2-m1-cA Photosensory Module of Bacteriophytochrome linked Diguanylyl Cyclase from Idiomarina species A28L F7RW09 F7RW09 2.4 X-RAY DIFFRACTION 107 1.0 1036674 (Idiomarina sp. A28L) 1036674 (Idiomarina sp. A28L) 490 512 5llw-a1-m1-cA_5llw-a1-m1-cB 5llx-a1-m1-cB_5llx-a1-m1-cA 5lly-a1-m1-cD_5lly-a1-m1-cC DISKLIAACDQEPIHIPNAIQPFGAMLIVEKDTQQIVYASANSAEYFSVADNTIHELSDIKQANINSLLPEHLISGLASAIRENEPIWVETDRLSFLGWRHENYYIIEVERYHVQTSNWFEIQFQRAFQKLRNCKTHNDLINTLTRLIQEISGYDRVMIYQFDPEWNGRVIAESVRQLFTSMLNHHFPASDIPAQARAMYSINPIRIIPDVNAEPQPLHMIHKPQNTEAVNLSSGVLRAVSPLHMQYLRNFGVSASTSIGIFNEDELWGIVACHHTKPRAIGRRIRRLLVRTVEFAAERLWLIHSRNVERYMVTVQAAREQLSTTADDKHSSHEIVIEHAADWCKLFRCDGIGYLRGEELTTYGETPDQTTINKLVEWLEENSLFWHSHMLPDGSRFLLAIPLKSFSYLLLFRVAQNEVRTWAGKPEKLSVETSTGTMLGPRKSFEAWQDEVSGKSQPWRTAQLYAARDIARDLLIVADSMQLNLLNDQL DISKLIAACDQEPIHIPNAIQPFGAMLIVEKDTQQIVYASANSAEYFSVADNTIHELSDIKQANINSLLPEHLISGLASAIRENEPIWVETDRLSFLGWRHENYYIIEVERYHVQTSNWFEIQFQRAFQKLRNCKTHNDLINTLTRLIQEISGYDRVMIYQFDPEWNGRVIAESVRQLFTSMLNHHFPASDIPAQARAMYSINPIRIIPDVNAEPQPLHMIHKPQNTEAVNLSSGVLRAVSPLHMQYLRNFGVSASTSIGIFNEDELWGIVACHHTKPRAIGRRIRRLLVRTVEFAAERLWLIHSRNVERYMVTVQAAREQLSTTADDKHSSHEIVIEHAADWCKLFRCDGIGYLRGEELTTYGETPDQTTINKLVEWLEENGKKSLFWHSHMLKEDAPGLLPDGSRFAGLLAIPLKSDLFSYLLLFRVAQNEVRTWAGKPEKLSVETSTGTMLGPRKSFEAWQDEVSGKSQPWRTAQLYAARDIARDLLIVADSMQLNLLNDQLADANENL 5lnd-a1-m1-cA_5lnd-a1-m1-cB Crystal structure of self-complemented MyfA, the major subunit of Myf fimbriae from Yersinia enterocolitica P33406 P33406 1.46 X-RAY DIFFRACTION 19 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 123 126 5lo7-a1-m1-cA_5lo7-a1-m1-cB FSVEFKATENEIVSGKLDADTPAFHLVMSDSGEHKGWNVRPTGASEGGQMVSADGTRVDLHTNELSWDNDHWWIDDGSERVEATFFLAAGDEVKGEYQFTGRVEEYVTVINSKDISATKTVKE SFSVEFKATENEIVSGKLDADTPAFHLVMSDSGEHKGWNVRPTGASEGGQMVSADGTRVDLHTNELSWDNDHWWIDDGSERVEATFFLAAGDEVKAGEYQFTGRVEEYVETVINSKDISATKTVKE 5lnl-a1-m1-cB_5lnl-a1-m1-cC Crystal structure of Hsf 1608-1749 putative domain 1 P71401 P71401 3.3 X-RAY DIFFRACTION 169 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 132 133 5lnl-a1-m1-cA_5lnl-a1-m1-cB 5lnl-a1-m1-cA_5lnl-a1-m1-cC 5lnl-a2-m1-cD_5lnl-a2-m1-cE 5lnl-a2-m1-cF_5lnl-a2-m1-cE 5lnl-a3-m1-cH_5lnl-a3-m1-cG 5lnl-a3-m1-cH_5lnl-a3-m1-cI 5lnl-a3-m1-cI_5lnl-a3-m1-cG MDFVSGDKDTTSVTVESKDNGKRTEVKIGAKTSVIKDHNGKLFTGKELKDANNNGVTVTETDGKDEGNGLVTAKAVIDAVNKAGWRVKTTGDFATVASGTNVTFADGNGTTAEVTKANDGSITVKYNVKVAD MDFVSGDKDTTSVTVESKDNGKRTEVKIGAKTSVIKDHNGKLFTGKELKDANNNGVTVTETDGKDEGNGLVTAKAVIDAVNKAGWRVKTTGDDFATVASGTNVTFADGNGTTAEVTKANDGSITVKYNVKVAD 5lo9-a1-m1-cB_5lo9-a1-m1-cA Thiosulfate dehydrogenase (TsdBA) from Marichromatium purpuratum - ""as isolated"" form W0DW89 W0DW89 2.75 X-RAY DIFFRACTION 87 0.998 765910 (Marichromatium purpuratum 984) 765910 (Marichromatium purpuratum 984) 469 471 PFERGRTLAEQGDAARGIVACAGCHRADGGGDEALGAARLAGLEPAYLATQIERFRAGQRSHPVMSPWAERLTPVDIAAVSAYYGALAPASNARAPSDVDAAAGRALAETGDWPERDLPACVRCHGPGGVGAGAVFPPLAGQPYSYLLAQLQAWGTGRRHGEPMALMGAVAGRLDADEQRALAAYFATRPLAAASRFTPPSRDALPEGPLGEMVRLGARLFRHTNTDPRSAPHVGNDQTCAGCHLDNGRRADASPMWAAWVAYPAYRGKNQRVDTMAERIQGCFRYSMNAQDSVSGQVPETNGLVLDALQSYIFWLATGAPTGDTAMSGRGYPRLQPPAEGFDRTRGAALYAEHCALCHGAEGEGLLVDGEVVFPPLWGPRSYNWGAGMHRVDTAAAFIAANMPLLDTVRLTPQEAWDVAAYINAHERPQDPRFDGSVERTAARFHASPFDLYGEPLGVDGAVLGQGVA PFERGRTLAEQGDAARGIVACAGCHRADGGGDEALGAARLAGLEPAYLATQIERFRAGQRSHPVMSPWAERLTPVDIAAVSAYYGALAPASNARAPSDVDAAAGRALAETGDWPERDLPACVRCHGPGGVGAGAVFPPLAGQPYSYLLAQLQAWGTGRRHGEPMALMGAVAGRLDADEQRALAAYFATRPLARAEAASRFTPPSRDALPEGPLGEMVRLGARLFRHTNTDPRSAPHVGNDQTCAGCHLDNGRRADASPMWAAWVAYPAYRGKNQRVDTMAERIQGCFRYSMNAQDSVSGQVPETNGLVLDALQSYIFWLATGAPTGDTAMSGRGYPRLQPPAEGFDRTRGAALYAEHCALCHGAEGEGLLVDGEVVFPPLWGPRSYNWGAGMHRVDTAAAFIAANMPLLDTVRLTPQEAWDVAAYINAHERPQDPRFDGSVERTAARFHASPFDLYGEPLGVDGAVLGQGV 5lod-a1-m1-cA_5lod-a1-m1-cB Crystal structure of HhaI DNA methyltransferase in APO form P05102 P05102 1.9 X-RAY DIFFRACTION 36 1.0 735 (Haemophilus parahaemolyticus) 735 (Haemophilus parahaemolyticus) 321 321 MIEIKDKQLTGLRFIDLFAGLGGFRLALESCGAECVYSNEWDKYAQEVYEMNFGEKPEGDITQVNEKTIPDHDILCAGFPCQAFSGFEDSRGTLFFDIARIVREKKPKVVFMENVKNFASHDNGNTLEVVKNTMNELDYSFHAKVLNALDYGIPQKRERIYMICFRNDLNIQNFQFPKPFELNTFVKDLLLPDSEVEHLVIDRKDLVMTNQEIEQTTPKTVRLGIVGKGGQGERIYSTRGIAITLSAYGGGIFAKTGGYLVNGKTRKLHPRECARVMGYPDSYKVHPSTSQAYKQFGNSVVINVLQYIAYNIGSSLNFKPY MIEIKDKQLTGLRFIDLFAGLGGFRLALESCGAECVYSNEWDKYAQEVYEMNFGEKPEGDITQVNEKTIPDHDILCAGFPCQAFSGFEDSRGTLFFDIARIVREKKPKVVFMENVKNFASHDNGNTLEVVKNTMNELDYSFHAKVLNALDYGIPQKRERIYMICFRNDLNIQNFQFPKPFELNTFVKDLLLPDSEVEHLVIDRKDLVMTNQEIEQTTPKTVRLGIVGKGGQGERIYSTRGIAITLSAYGGGIFAKTGGYLVNGKTRKLHPRECARVMGYPDSYKVHPSTSQAYKQFGNSVVINVLQYIAYNIGSSLNFKPY 5log-a1-m1-cB_5log-a1-m1-cA Crystal Structure of SafC from Myxococcus xanthus bound to SAM Q50859 Q50859 2.01 X-RAY DIFFRACTION 155 1.0 34 (Myxococcus xanthus) 34 (Myxococcus xanthus) 218 222 IHHVELTQSVLQYIRDSSVRDNDILRDLREETSKLPTMQIPPEQGQLLSLLVRLIGARKTLEVGVFTGYSTLCTALALPADGRVIACDLSEEWVSIARRYWQRAGVADRIEVRLGDAHHSLEALVGSEHRGTFDLAFIDADKESYDFYYEHALRLVRPGGLIILDNTLWSGKVADPSVVGDPETDSLRRINAKLLTDERVDLSMLPIADGLTLARKRK MIHHVELTQSVLQYIRDSSVRDNDILRDLREETSKLPLRTMQIPPEQGQLLSLLVRLIGARKTLEVGVFTGYSTLCTALALPADGRVIACDLSEEWVSIARRYWQRAGVADRIEVRLGDAHHSLEALVGSEHRGTFDLAFIDADKESYDFYYEHALRLVRPGGLIILDNTLWSGKVADPSVVGDPETDSLRRINAKLLTDERVDLSMLPIADGLTLARKRKL 5loi-a1-m1-cA_5loi-a1-m2-cA Crystal structure of Myceliophthora thermophila Rad26 (residues 373-841) G2QDY6 G2QDY6 3.153 X-RAY DIFFRACTION 86 1.0 573729 (Thermothelomyces thermophilus ATCC 42464) 573729 (Thermothelomyces thermophilus ATCC 42464) 383 383 PDFLKLFLNHTPTFDFSRFCFPSDPERSLASIVLQKLPQGSPGDPTSLLVDFADTLIDLWHQCLSERYYGPIYHLVSLLLYTLDLNAVEVAPHILSSLIPVCATTCRLVALPRLNSADGDLSGHPDAVVRQLCLNIDVTQCLSVLYLAASGCLPQPLPQDTPQLEFWKTELDFVLTLSPKNPEEDWSAILLRTSVAPHSIGPIPSSATNSTNRRSEAKNADAVAATLIDCVSSFLCEPPKWATPRSAKEIAARLAALRTLAFATGHFGARQIAESDVAIPRLVTVLCWALDRLYDSDLPPDSSLLHQIIAQGTRLLHFLVTDHRTSDAANISTKLAASHGGSQRYFLTLARLNFAEEDLVLEAGIDAETVELAHELLELAVTP PDFLKLFLNHTPTFDFSRFCFPSDPERSLASIVLQKLPQGSPGDPTSLLVDFADTLIDLWHQCLSERYYGPIYHLVSLLLYTLDLNAVEVAPHILSSLIPVCATTCRLVALPRLNSADGDLSGHPDAVVRQLCLNIDVTQCLSVLYLAASGCLPQPLPQDTPQLEFWKTELDFVLTLSPKNPEEDWSAILLRTSVAPHSIGPIPSSATNSTNRRSEAKNADAVAATLIDCVSSFLCEPPKWATPRSAKEIAARLAALRTLAFATGHFGARQIAESDVAIPRLVTVLCWALDRLYDSDLPPDSSLLHQIIAQGTRLLHFLVTDHRTSDAANISTKLAASHGGSQRYFLTLARLNFAEEDLVLEAGIDAETVELAHELLELAVTP 5low-a1-m1-cE_5low-a1-m1-cG Structure of the Ca2+-bound Rabphilin 3A C2B domain SNAP25 complex (P21 space group) P60881 P60881 2.8 X-RAY DIFFRACTION 65 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 56 60 RENEMDENLEQVSGIIGNLRHMALDMGNEIDTQNRQIDRIMEKADSNKTRIDEANQ FARENEMDENLEQVSGIIGNLRHMALDMGNEIDTQNRQIDRIMEKADSNKTRIDEANQRA 5loy-a2-m1-cB_5loy-a2-m1-cD Helical Assembly of a Designed Anbu Protein 2.5 X-RAY DIFFRACTION 111 1.0 32630 (synthetic construct) 32630 (synthetic construct) 229 229 5loy-a1-m1-cA_5loy-a1-m1-cC TYCVGIRLDEGLVFASDSRTNAGVDNISTFRKMHVFEVPGERVIVLLTAGNLATTQAVISLLEERLKDPEERLLTAPSMFEAARLVGEALREVQARDFNASFILGGQIAGEPPRLFLIYPAGNFIEATPDTPFFQIGETKYGKPILDRVITPDTSLEDAAKCALVSFDSTMRSNLSVGLPLDLLVYERDSLRVGHRRRIDEDDPYFRMLRKQWSEGLRQAFDSLPDPPW TYCVGIRLDEGLVFASDSRTNAGVDNISTFRKMHVFEVPGERVIVLLTAGNLATTQAVISLLEERLKDPEERLLTAPSMFEAARLVGEALREVQARDFNASFILGGQIAGEPPRLFLIYPAGNFIEATPDTPFFQIGETKYGKPILDRVITPDTSLEDAAKCALVSFDSTMRSNLSVGLPLDLLVYERDSLRVGHRRRIDEDDPYFRMLRKQWSEGLRQAFDSLPDPPW 5lp3-a1-m1-cD_5lp3-a1-m1-cL Three tetrameric rings of Isoaspartyl Dipeptidase fitted in an EM volume. P39377 P39377 10.5 ELECTRON MICROSCOPY 10 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 373 376 5lp3-a1-m1-cB_5lp3-a1-m1-cI 5lp3-a1-m1-cC_5lp3-a1-m1-cJ 5lp3-a1-m1-cE_5lp3-a1-m1-cK MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAYHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFE MIDYTAAGFTLLQGAHLYAPEDRGICDVLVANGKIIAVASNIPSDIVPNCTVVDLSGQILCPGFIDQHVHLIGGGGEAGPTTRTPEVALSRLTEAGVTSVVGLLGTDSISRHPESLLAKTRALNEEGISAWMLTGAYHVPSRTITGSVEKDVAIIDRVIGVCAISDHRSAAPDVYHLANMAAESRVGGLLGGKPGVTVFHMGDSKKALQPIYDLLENCDVPISKLLPTHVNRNVPLFEQALEFARKGGTIDITSSIDEPVAPAEGIARAVQAGIPLARVTLSSDGNGSHIGVAGFETLLETVQVLVKDYDFSISDALRPLTSSVAGFLNLTGKGEILPGNDADLLVMTPELRIEQVYARGKLMVKDGKACVKGTFE 5lp5-a2-m1-cD_5lp5-a2-m1-cF Complex between Penicillin-Binding Protein (PBP2) and MreC from Helicobacter pylori O25924 O25924 2.74 X-RAY DIFFRACTION 61 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 156 156 5lp5-a1-m1-cE_5lp5-a1-m1-cC KMTYTPTFMTSFISLEDTHSVSLNPIVNLEENKIYGLVSHNQAIGIAVLEKGRLNGFLNAHKRCAYSVMIGQNQVLGFIGTNFKQELVVDFIVPSAEINIGDQVLTSGLDGIFGAGVFVGEVSSIEDHYTYKSAVLKNAFLSGAKLLRHVFLSDVK KMTYTPTFMTSFISLEDTHSVSLNPIVNLEENKIYGLVSHNQAIGIAVLEKGRLNGFLNAHKRCAYSVMIGQNQVLGFIGTNFKQELVVDFIVPSAEINIGDQVLTSGLDGIFGAGVFVGEVSSIEDHYTYKSAVLKNAFLSGAKLLRHVFLSDVK 5lp8-a1-m1-cB_5lp8-a1-m1-cA Crystal structure of an asymmetric dimer of the ubiquitin ligase HUWE1 Q7Z6Z7 Q7Z6Z7 2.7 X-RAY DIFFRACTION 77 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 416 432 ADTQKFLRFAETHRTVLNQILRQSTTHLADGPFAVLVDYIRVLDFDVKRKYFRQELERLDEGLRKEDMAVHVRRDHVFEDSYRELHRKSPEEMKNRLYIVFEGEEGQDAGGLLREWYMIISREMFNPMYALFRTSPGDRVTYTINPSSHCNPNHLSYFKFVGRIVAKAVYDNRLLECYFTRSFYKHILGKSVRYTDMESEDYHFYQGLVYLLENDVSTLGYTFSTEVQEFGVCEVRDLKVTEENKKEYVHLVCQMRMTGAIRKQLAAFLEGFYEIIPKRLISIFTEQELELLISGLPTIDIDDLKSNTEYHKYQSNSIQIQWFWRALRSFDQADRAKFLQFVTGTSKVPLQGFAALEGMNGIQKFQIHRDDRSTDRLPSAHTCFNQLDLPAYESFEKLRHMLLLAIQECSEGFGLA DYDIPTFQGADTQKFLRFAETHRTVLNQILRQSTTHLADGPFAVLVDYIRVLDFDVKRKYFRQELERLDEGLRKEDMAVHVRRDHVFEDSYRELHRKSPEEMKNRLYIVFEGEEGQDAGGLLREWYMIISREMFNPMYALFRTSPGDRVTYTINPSSHCNPNHLSYFKFVGRIVAKAVYDNRLLECYFTRSFYKHILGKSVRYTDMESEDYHFYQGLVYLLENDVSTLGYDLTFSTEVQEFGVCEVRDLKPNGANILVTEENKKEYVHLVCQMRMTGAIRKQLAAFLEGFYEIIPKRLISIFTEQELELLISGLPTIDIDDLKSNTEYHKYQSNSIQIQWFWRALRSFDQADRAKFLQFVTGTSKVPLQGFAALEGMNGIQKFQIHRDDRSTDRLPSAHTCFNQLDLPAYESFEKLRHMLLLAIQECSEGFG 5lq4-a1-m1-cA_5lq4-a1-m1-cB The Structure of ThcOx, the First Oxidase Protein from the Cyanobactin Pathways B8HTZ1 B8HTZ1 2.65 X-RAY DIFFRACTION 307 1.0 395961 (Cyanothece sp. PCC 7425) 395961 (Cyanothece sp. PCC 7425) 457 465 DLFTLSFSPDLSIASEAEQLTLQSKDDRLILEHPQPGLRTALEQLKQGNLTLAQLTELVSEQDGVEAGITFASELEKLVDLGWICHSVLPLITAIPIAKDYELNVPDSSWQTTAIALSRFAFLHQDLQQLVLESPRSKSKLVILDWRVGAVIAKLAQSDRGFIFATSADSLLADLSLELEELKRLFALLIATQMMDLEPEDETITQWKFHNLLFHHYTRLLPVFEHRDRYPYVKPVISTQAIPLVKPDLTALATTDMTLTEAIETRRSIREYSDQPITLAQLGEFLYRCARVKAVYTLPEDPMQVGESTTRPYPSGGALYELEIYPLVHQCGDLAAGLYHYQPLSHTLHPVADWTPEVESLVYDAWRATGQQSIPQIVLIITARFGRLFWKYHDIAYSLILKHVGVLYQTFYLVATAMQLAPSAIGAGNTTKFCQIAGLNPDEEASVGEFSLGAAKP MLDLFTLSFSPDLSIASEAEQLTLQSKDDRLILEHPQPGLRTALEQLKQGNLTLAQLTELVSEQDGVEAGITFASELEKLVDLGWICHSVLPLITAIPIAKDYELNVPDSSWQTTAIALSRFAFLHQDLQQLVLESPRSKSKLVILDWRVGAVIAKLAQSDRGFIFATSADSLLADLSLELEELKRLFALLIATQMMDLEPEDETITQWKFHNLLFHHYTRLLNLPVFEHRDRYPYVKPVISTQAIPLVKPDLTALATTDMTLTEAIETRRSIREYSDQPITLAQLGEFLYRCARVKAVYTLPEDPMQVGESTTRPYPSGGALYELEIYPLVHQCGDLAAGLYHYQPLSHTLHPVADWTPEVESLVYDAWRATGQQSIPQIVLIITARFGRLFWKYHDIAYSLILKHVGVLYQTFYLVATAMQLAPSAIGAGNTTKFCQIAGLNPDEEASVGEFSLGAAKPQQQS 5lqd-a2-m1-cB_5lqd-a2-m1-cD Trehalose-6-phosphate synthase, GDP-glucose-dependent OtsA F2RH01 F2RH01 1.95 X-RAY DIFFRACTION 87 1.0 953739 (Streptomyces venezuelae ATCC 10712) 953739 (Streptomyces venezuelae ATCC 10712) 432 447 5lqd-a1-m1-cA_5lqd-a1-m1-cC GASVLVASNRGPVSYVRDARRGSQDSLWVCAALGEGDREAVRRGIGEPGVRMLDIAPDVYADAYNGIANSVLWFLHHHLYDIPREPVFDAAFRHRWEAYRAYNRAFAEALAAAADEGAAVLVQDYHLALVPGQLRELRPDLRIGHFTHTPWASPEYFRMLPADIGDELLRGMLGADELGFHTSAWASAFLSCAGGEQPRTRVRVHPLGVDAEELRALAHRPQVDERLARLREEVGDRKTIVRVDRTELSKNILRGLLAYRELLTVHPEWRDRVVHLASAYPSRQDLAAYRAYTASVTELAAEINAEFGTADWQPVLVSVEDDFTRSLAAYRLADVALVNPVRDGMNLVAKEIPVVSDAGCALVLSTGAGAYEELKEDALTVHPYDVSETAEALHTALTMPPPERADRTKRLASAATALPPQRWFLNQLEGLS GASVLVASNRGPVSYVRLDARRGGGGLVSGLSAVSSQDSLWVCAALGEGDREAVRRGIGEPGVRMLDIAPDVYADAYNGIANSVLWFLHHHLYDIPREPVFDAAFRHRWEAYRAYNRAFAEALAAAADEGAAVLVQDYHLALVPGQLRELRPDLRIGHFTHTPWASPEYFRMLPADIGDELLRGMLGADELGFHTSAWASAFLSCAGGEQPRTRVRVHPLGVDAEELRALAHRPQVDERLARLREEVGDRKTIVRVDRTELSKNILRGLLAYRELLTVHPEWRDRVVHLASAYPSRQDLAAYRAYTASVTELAAEINAEFGTADWQPVLVSVEDDFTRSLAAYRLADVALVNPVRDGMNLVAKEIPVVSDAGCALVLSTGAGAYEELKEDALTVHPYDVSETAEALHTALTMPPPERADRTKRLASAATALPPQRWFLNQLEGLSDA 5lr8-a2-m1-cB_5lr8-a2-m3-cB Structure of plastidial phosphorylase Pho1 from Barley F2E0G2 F2E0G2 2.7 X-RAY DIFFRACTION 163 1.0 112509 (Hordeum vulgare subsp. vulgare) 112509 (Hordeum vulgare subsp. vulgare) 843 843 5lr8-a1-m1-cA_5lr8-a1-m2-cA 5lra-a1-m1-cA_5lra-a1-m2-cA 5lra-a2-m1-cB_5lra-a2-m3-cB 5lrb-a1-m1-cA_5lrb-a1-m2-cA 5lrb-a2-m1-cB_5lrb-a2-m3-cB IDSSAIASNIQHHADFTPLFSPEHSSPLKAYHATAKSVFDSLIMNWNATYDYYNKVNAKQAYYLSMEFLQGRALTNAIGNLELTGQYAEALKQLGHNLEDVASQEPDPALGNGGLGRLASCFLDSLATLNYPAWGYGLRYRYGLFKQIITKDGQEEVAENWLEMGNPWEIVRNDVSYPVKFYGKVVEGTDGRKHWIGGENIKAVAHDVPIPGYKTKTTNNLRLWSTTVPSQNFDLGAFNAGDHAKANEAHLNAEKICHVLYPGDESSEGKILRLKQQYTLCSASLQDIISRFESRAGDSLNWEDFPSKVAVQMNDTHPTLCIPELMRILMDIKGLSWNEAWSITERTVAYTNHTVLPEALEKWSLDIMQKLLPRHVEIIETIDEELMNNIVSKYGTADISLLKQKLKDMRILDNVDLPASVAKLFIKELDPFAKYDPQFPRVVRMANLCVVGGHSVNGVAEIHSEIVKQDVFNSFYEMWPTKFQNKTNGVTPRRWIRFCNPELSTIISKWIGSDDWILNTDKLAGLKKFADDEDLQSEWRTAKRNNKMKVVSLIRDKTGYIVSPDAMFDVQVKRIHEYKRQLLNILGIVYRYKKMKEMSAKDRRKSFVPRVCIFGGKAFATYVQAKRIVKFITDVAATVNYDPDIGDLLKVVFVPDYNVSVAETLIPASELSQHISTAGMEASGTSNMKFAMNGCLLIGTLDGANVEIREEVGEENFFLFGAHAPEIAGLRQERAEGKFVPDLRFEEVKEYVRSGVFGTSNYDELMGSLEGNEGYGRADYFLVGKDFPSYIECQEKVDEAYRDQKLWTRMSILNTAGSPKFSSDRTIHEYAKDIWDISPVIMP IDSSAIASNIQHHADFTPLFSPEHSSPLKAYHATAKSVFDSLIMNWNATYDYYNKVNAKQAYYLSMEFLQGRALTNAIGNLELTGQYAEALKQLGHNLEDVASQEPDPALGNGGLGRLASCFLDSLATLNYPAWGYGLRYRYGLFKQIITKDGQEEVAENWLEMGNPWEIVRNDVSYPVKFYGKVVEGTDGRKHWIGGENIKAVAHDVPIPGYKTKTTNNLRLWSTTVPSQNFDLGAFNAGDHAKANEAHLNAEKICHVLYPGDESSEGKILRLKQQYTLCSASLQDIISRFESRAGDSLNWEDFPSKVAVQMNDTHPTLCIPELMRILMDIKGLSWNEAWSITERTVAYTNHTVLPEALEKWSLDIMQKLLPRHVEIIETIDEELMNNIVSKYGTADISLLKQKLKDMRILDNVDLPASVAKLFIKELDPFAKYDPQFPRVVRMANLCVVGGHSVNGVAEIHSEIVKQDVFNSFYEMWPTKFQNKTNGVTPRRWIRFCNPELSTIISKWIGSDDWILNTDKLAGLKKFADDEDLQSEWRTAKRNNKMKVVSLIRDKTGYIVSPDAMFDVQVKRIHEYKRQLLNILGIVYRYKKMKEMSAKDRRKSFVPRVCIFGGKAFATYVQAKRIVKFITDVAATVNYDPDIGDLLKVVFVPDYNVSVAETLIPASELSQHISTAGMEASGTSNMKFAMNGCLLIGTLDGANVEIREEVGEENFFLFGAHAPEIAGLRQERAEGKFVPDLRFEEVKEYVRSGVFGTSNYDELMGSLEGNEGYGRADYFLVGKDFPSYIECQEKVDEAYRDQKLWTRMSILNTAGSPKFSSDRTIHEYAKDIWDISPVIMP 5lsm-a3-m4-cH_5lsm-a3-m1-cA Crystal structure of nitronate monooxygenase (SO_0471) from Shewanella oneidensis MR-1 Q8EJJ2 Q8EJJ2 2.5 X-RAY DIFFRACTION 98 0.997 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 331 339 5lsm-a1-m1-cH_5lsm-a1-m2-cA 5lsm-a2-m1-cG_5lsm-a2-m3-cE 5lsm-a4-m1-cB_5lsm-a4-m1-cC 5lsm-a5-m1-cD_5lsm-a5-m1-cF 5lsm-a6-m5-cG_5lsm-a6-m1-cE PCRLTRLFGIEFPIIQAPMAGVQGSALAIAVSEAGGLGSLPCAMLSLEALEAELTAIRSQTAKPINVNFFCHREPVAQAAKQAAWLEQLAPYFAEFLDTPYSKAQAEVLAKFKPEVVSFHFGLPDEELLLEIKSWGSKVISTATTVEEALWLEARGADAIIAQGLEAGGHRGHFLSEDLTEQLGTFSLLPQIIAAVEIPVIAAGGIVDATTVRAAMTMGASAVQVGTAYLLCPECNTSAIHREALQSDAAQHTALTNLFSGRPARGIVNRFMAEMGPMNEAVPDFPLASSAVAGLRTAAERLGFWDFSPLWCGQNASGCRAIPAADLTRSF CRLTRLFGIEFPIIQAPMAGVQGSALAIAVSEAGGLGSLPCAMLSLEALEAELTAIRSQTAKPINVNFFCHREPVAQAAKQAAWLEQLAPYFAEFNLDPNRTPYSKAQAEVLAKFKPEVVSFHFGLPDEELLLEIKSWGSKVISTATTVEEALWLEARGADAIIAQGLEAGGHRGHFLSEDLTEQLGTFSLLPQIIAAVEIPVIAAGGIVDATTVRAAMTMGASAVQVGTAYLLCPECNTSAIHREALQSDAAQHTALTNLFSGRPARGIVNRFMAEMGPMNEAVPDFPLASSAVAGLRTAAERLGFWDFSPLWCGQNASGCRAIPAADLTRSFVLSLP 5lsp-a1-m1-cH_5lsp-a1-m1-cS 107_A07 Fab in complex with fragment of the Met receptor 2.605 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 216 QMQLVQSGAEVKKPGAPVKVSCKVSGYTFTDYYMHWVQQAPGKGLEWMGLVDPEDGETIYAEKFQGRVTITADTSTDTAYMELSSLRSEDTAVYYCATDATTPYWGMMWWGQGTLVTVSSASTKGPSVFPLAPSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK QMQLVQSGAEVKKPGAPVKVSCKVSGYTFTDYYMHWVQQAPGKGLEWMGLVDPEDGETIYAEKFQGRVTITADTSTDTAYMELSSLRSEDTAVYYCATDATTPYWGMMWWGQGTLVTVSSASTKGPSVFPLAPSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK 5lsw-a1-m1-cA_5lsw-a1-m1-cC A CAF40-binding motif facilitates recruitment of the CCR4-NOT complex to mRNAs targeted by Drosophila Roquin Q92600 Q92600 2.15 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 273 GPHMLEREKIYQWINELSSPETRENALLELSKKRESVPDLAPMLWHSFGTIAALLQEIVNIYPSINPPTLTAHQSNRVCNALALLQCVASHPETRSAFLAAHIPLFLYPFLHTVSKTRPFEYLRLTSLGVIGALVKTDEQEVINFLLTTEIIPLCLRIMESGSELSKTVATFILQKILLDDTGLAYICQTYERFSHVAMILGKMVLQLSKEPSARLLKHVVRCYLRLSDNPRAREALRQCLPDQLKDTTFAQVLKDDTTTKRWLAQLVKNLQE GPHMLEREKIYQWINELSSPETRENALLELSKKRESVPDLAPMLWHSFGTIAALLQEIVNIYPSINPPTLTAHQSNRVCNALALLQCVASHPETRSAFLAAHIPLFLYPFLHTVSKTRPFEYLRLTSLGVIGALVKTDEQEVINFLLTTEIIPLCLRIMESGSELSKTVATFILQKILLDDTGLAYICQTYERFSHVAMILGKMVLQLSKEPSARLLKHVVRCYLRLSDNPRAREALRQCLPDQLKDTTFAQVLKDDTTTKRWLAQLVKNLQE 5ltf-a1-m1-cA_5ltf-a1-m1-cB Crystal structure of Lymphocytic choriomeningitis mammarenavirus endonuclease complexed with catalytic ions P14240 P14240 2.43 X-RAY DIFFRACTION 23 1.0 11623 () 11623 () 188 199 5ltn-a1-m1-cA_5ltn-a1-m1-cB 5lts-a1-m1-cA_5lts-a1-m1-cB HDEIISELRELCLNYIEQDERLSRQKLNFLGQREPRMVLIEGLKLLSRCIEIDSADKSGCTHNHDDKSVETILVESGIVCPGLPLIIPDGYKLIDNSLILLECFVRSTPASFEKKFIEDTNKLACIREDLAVAGVTLVPIVDGRCDYDNSFMPEWANFKFRDLLFKLLEYSNQDEKVFEESEYFRLCE HHHHHDEIISELRELCLNYIEQDERLSRQKLNFLGQREPRMVLIEGLKLLSRCIEIDSADKSGCTHNHDDKSVETILVESGIVCPGLPLIIPDGYKLIDNSLILLECFVRSTPASFEKKFIEDTNKLACIREDLAVAGVTLVPIVDGRCDYDNSFMPEWANFKFRDLLFKLLEYSNQDEKVFEESEYFRLCESLKTTID 5ltl-a1-m1-cA_5ltl-a1-m1-cB Structure of human chemokine CCL16 O15467 O15467 1.45 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 68 VNTPSTCCLKYYEKVLPRRLVVGYRKALNCHLPAIIFVTKRNREVCTNPNDDWVQEYIKDPNLPLLP VNTPSTCCLKYYEKVLPRRLVVGYRKALNCHLPAIIFVTKRNREVCTNPNDDWVQEYIKDPNLPLLPT 5lu4-a2-m1-cB_5lu4-a2-m3-cA C4-type pyruvate phosphate dikinase: conformational intermediate of central domain in the swiveling mechanism P22221 P22221 2.9 X-RAY DIFFRACTION 153 1.0 4227 (Flaveria trinervia) 4227 (Flaveria trinervia) 847 850 5jvj-a1-m1-cB_5jvj-a1-m1-cA 5jvl-a1-m1-cA_5jvl-a1-m1-cD 5jvn-a1-m1-cA_5jvn-a1-m2-cA 5lu4-a1-m2-cB_5lu4-a1-m1-cA KKRVFTFGKGRSEGNRDMKSLLGGKGANLAEMSSIGLSVPPGLTISTEACEEYQQNGKSLPPGLWDEISEGLDYVQKEMSASLGDPSKPLLLSVRSGAAISMPGMMDTVLNLGLNDEVVAGLAGKSGARFAYDSYRRFLDMFGNVVMGIPHSLFDEKLEQMKAEKGIHLDTDLTAADLKDLVEKYKNVYVEAKGEKFPTDPKKQLELAVNAVFDSWDSPRANKYRSINQITGLKGTAVNIQSMVFGNMGNTSGTGVLFTRNPSTGEKKLYGEFLINAQGEDVVAGIRTPEDLGTMETCMPEAYKELVENCEILERHYKDMMDIEFTVQENRLWMLQCRTGKRTGKGAVRIAVDMVNEGLIDTRTAIKRVETQHLDQLLHPQFEDPSAYKSHVVATGLPASPGAAVGQVCFSAEDAETWHAQGKSAILVRTETSPEDVGGMHAAAGILTARGGMTSHAAVVARGWGKCCVSGCADIRVNDDMKIFTIGDRVIKEGDWLSLNGTTGEVILGKQLLAPPAMSNDLEIFMSWADQARRLKVMANADTPNDALTARNNGAQGIGLCRTEHMFFASDERIKAVRKMIMAVTPEQRKVALDLLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLKIENLSEVNPMLGFRGCRLGISYPELTEMQVRAIFQAAVSMTNQGVTVIPEIMVPLVGTPQELRHQISVIRGVAANVFAEMGVTLEYKVGTMIEIPRAALIAEEIGKEADFFSFGTNDLTQMTFGYSRDDVGKFLQIYLAQGILQHDPFEVIDQKGVGQLIKMATEKGRAANPSLKVGICGEHGGEPSSVAFFDGVGLDYVSCSPFRVPIARLAAAQV KKRVFTFGKGRSEGNRDMKSLLGGKGANLAEMSSIGLSVPPGLTISTEACEEYQQNGKSLPPGLWDEISEGLDYVQKEMSASLGDPSKPLLLSVRSGAAISMPGMMDTVLNLGLNDEVVAGLAGKSGARFAYDSYRRFLDMFGNVVMGIPHSLFDEKLEQMKAEKGIHLDTDLTAADLKDLVEKYKNVYVEAKGEKFPTDPKKQLELAVNAVFDSWDSPRANKYRSINQITGLKGTAVNIQSMVFGNMGNTSGTGVLFTRNPSTGEKKLYGEFLINAQGEDVVAGIRTPEDLGTMETCMPEAYKELVENCEILERHYKDMMDIEFTVQENRLWMLQCRTGKRTGKGAVRIAVDMVNEGLIDTRTAIKRVETQHLDQLLHPQFEDPSAYKSHVVATGLPASPGAAVGQVCFSAEDAETWHAQGKSAILVRTETSPEDVGGMHAAAGILTARGGMTSHAAVVARGWGKCCVSGCADIRVNDDMKIFTIGDRVIKEGDWLSLNGTTGEVILGKQLLAPPAMSNDLEIFMSWADQARRLKVMANADTPNDALTARNNGAQGIGLCRTEHMFFASDERIKAVRKMIMAVTPEQRKVALDLLLPYQRSDFEGIFRAMDGLPVTIRLLDPPLHEFLIYSKIENLSEVNPMLGFRGCRLGISYPELTEMQVRAIFQAAVSMTNQGVTVIPEIMVPLVGTPQELRHQISVIRGVAANVFAEMGVTLEYKVGTMIEIPRAALIAEEIGKEADFFSFGTNDLTQMTFGYSRDDVGKFLQIYLAQGILQHDPFEVIDQKGVGQLIKMATEKGRAANPSLKVGICGEHGGEPSSVAFFDGVGLDYVSCSPFRVPIARLAAAQV 5lu5-a1-m1-cA_5lu5-a1-m1-cB A quantum half-site enzyme Q93UJ2 Q93UJ2 1.55 X-RAY DIFFRACTION 65 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 193 193 2x3y-a1-m1-cC_2x3y-a1-m1-cB 2x3y-a1-m1-cD_2x3y-a1-m1-cA 2x3y-a2-m1-cF_2x3y-a2-m1-cG 2x3y-a2-m1-cH_2x3y-a2-m1-cE 2xbl-a1-m1-cB_2xbl-a1-m1-cA 2xbl-a1-m1-cC_2xbl-a1-m1-cD 5ltz-a1-m1-cA_5ltz-a1-m1-cB 5ltz-a1-m1-cC_5ltz-a1-m1-cD 5lu5-a1-m1-cC_5lu5-a1-m1-cD 5lu6-a1-m1-cA_5lu6-a1-m1-cB 5lu6-a1-m1-cC_5lu6-a1-m1-cD 5lu7-a1-m1-cA_5lu7-a1-m1-cB 5lu7-a1-m1-cC_5lu7-a1-m1-cD NRELTYITNSIAEAQRVMAAMLADERLLATVRKVADACIASIAQGGKVLLAGNGGSAADAQHIAGQFVSRFAFDRPGLPAVALTTDTSILTAIGNDYGYEKLFSRQVQALGNEGDVLIGYSTSGKSPNILAAFREAKAKGMTCVGFTGNRGGEMRELCDLLLEVPSADTPKIQEGHLVLGHIVCGLVEHSIFG NRELTYITNSIAEAQRVMAAMLADERLLATVRKVADACIASIAQGGKVLLAGNGGSAADAQHIAGQFVSRFAFDRPGLPAVALTTDTSILTAIGNDYGYEKLFSRQVQALGNEGDVLIGYSTSGKSPNILAAFREAKAKGMTCVGFTGNRGGEMRELCDLLLEVPSADTPKIQEGHLVLGHIVCGLVEHSIFG 5lu5-a1-m1-cB_5lu5-a1-m1-cC A quantum half-site enzyme Q93UJ2 Q93UJ2 1.55 X-RAY DIFFRACTION 108 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 193 193 2x3y-a1-m1-cB_2x3y-a1-m1-cA 2x3y-a1-m1-cC_2x3y-a1-m1-cD 2x3y-a2-m1-cF_2x3y-a2-m1-cE 2x3y-a2-m1-cH_2x3y-a2-m1-cG 2xbl-a1-m1-cA_2xbl-a1-m1-cD 2xbl-a1-m1-cB_2xbl-a1-m1-cC 5ltz-a1-m1-cA_5ltz-a1-m1-cD 5ltz-a1-m1-cB_5ltz-a1-m1-cC 5lu5-a1-m1-cA_5lu5-a1-m1-cD 5lu6-a1-m1-cA_5lu6-a1-m1-cD 5lu6-a1-m1-cC_5lu6-a1-m1-cB 5lu7-a1-m1-cA_5lu7-a1-m1-cD 5lu7-a1-m1-cB_5lu7-a1-m1-cC NRELTYITNSIAEAQRVMAAMLADERLLATVRKVADACIASIAQGGKVLLAGNGGSAADAQHIAGQFVSRFAFDRPGLPAVALTTDTSILTAIGNDYGYEKLFSRQVQALGNEGDVLIGYSTSGKSPNILAAFREAKAKGMTCVGFTGNRGGEMRELCDLLLEVPSADTPKIQEGHLVLGHIVCGLVEHSIFG NRELTYITNSIAEAQRVMAAMLADERLLATVRKVADACIASIAQGGKVLLAGNGGSAADAQHIAGQFVSRFAFDRPGLPAVALTTDTSILTAIGNDYGYEKLFSRQVQALGNEGDVLIGYSTSGKSPNILAAFREAKAKGMTCVGFTGNRGGEMRELCDLLLEVPSADTPKIQEGHLVLGHIVCGLVEHSIFG 5lug-a2-m1-cD_5lug-a2-m1-cB Crystal structure of human Spindlin-2B protein in complex with ART(M3L)QTA(2MR)KS peptide Q9BPZ2 Q9BPZ2 1.7 X-RAY DIFFRACTION 57 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 204 207 5lug-a1-m1-cC_5lug-a1-m1-cA RRNIVGCRISHGWKEGDEPITQWKGTVLDQVPINPSLYLVKYDGIDCVYGLELHRDERVLSLKILSDRVAISDANLANTIIGKAVEHMFEGEHGSKDEWRGMVLAQAPIMKAWFYITYEKDPVLYMYQLLDDYKEGDLRIMPGVVDGLIGKHVEYTKEDGSKRIGMVIHQVEAKPSVYFIKFDDDFHIYVYDLVKKSAENLYFQ PRRNIVGCRISHGWKEGDEPITQWKGTVLDQVPINPSLYLVKYDGIDCVYGLELHRDERVLSLKILSDRVASSHISDANLANTIIGKAVEHMFEGEHGSKDEWRGMVLAQAPIMKAWFYITYEKDPVLYMYQLLDDYKEGDLRIMPGVVDGLIGKHVEYTKEDGSKRIGMVIHQVEAKPSVYFIKFDDDFHIYVYDLVKKSAENLYF 5lup-a4-m1-cG_5lup-a4-m1-cH Structures of DHBN domain of human BLM helicase P54132 P54132 2.032 X-RAY DIFFRACTION 75 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 52 52 5lup-a1-m1-cA_5lup-a1-m1-cB 5lup-a2-m1-cD_5lup-a2-m1-cC 5lup-a3-m1-cF_5lup-a3-m1-cE 5lup-a5-m1-cJ_5lup-a5-m1-cI 5lup-a6-m1-cK_5lup-a6-m1-cL 5mk5-a1-m1-cA_5mk5-a1-m1-cB 5mk5-a2-m1-cD_5mk5-a2-m1-cC DARQISLQQQLIHVMEHICKLIDTIPDDKLKLLDCGNELLQQRNIRRKLLTE DARQLSLQQQLIHVMEHICKLIDTIPDDKLKLLDCGNELLQQRNIRRKLLTE 5lus-a5-m1-cI_5lus-a5-m1-cJ Structures of DHBN domain of Pelecanus crispus BLM helicase A0A091SV96 A0A091SV96 1.433 X-RAY DIFFRACTION 81 1.0 36300 (Pelecanus crispus) 36300 (Pelecanus crispus) 50 50 5lus-a1-m1-cA_5lus-a1-m1-cB 5lus-a2-m1-cD_5lus-a2-m1-cC 5lus-a3-m1-cF_5lus-a3-m1-cE 5lus-a4-m1-cG_5lus-a4-m1-cH HMEQQLYAVMDDICKLVDAIPLHELEMLSCAKELLLQRGLRRKLLANAVD HMEQQLYAVMDDICKLVDAIPLHELEMLSCAKELLLQRGLRRKLLANAVD 5lut-a3-m1-cC_5lut-a3-m1-cD Structures of DHBN domain of Gallus gallus BLM helicase Q9I920 Q9I920 2.72 X-RAY DIFFRACTION 72 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 51 53 5lut-a2-m1-cA_5lut-a2-m1-cB 5lut-a4-m1-cE_5lut-a4-m3-cE 5lut-a5-m1-cG_5lut-a5-m1-cF GLHLEQQLYSVEDICKLVDAIPLHELTSISCAKELLQQRELRRKLLADSVD DKGLHLEQQLYSVEDICKLVDAIPLHELTSISCAKELLQQRELRRKLLADSVD 5lv6-a1-m1-cA_5lv6-a1-m1-cB N-terminal motif dimerization of EGFR transmembrane domain in bicellar environment P00533 P00533 NOT SOLUTION NMR 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 EGCPTNGPKIPSIATGMVGALLLLLVVALGIGLFMRRRHIVRKR EGCPTNGPKIPSIATGMVGALLLLLVVALGIGLFMRRRHIVRKR 5lve-a2-m4-cA_5lve-a2-m3-cA STRUCTURE OF THE VARIABLE DOMAIN OF HUMAN IMMUNOGLOBULIN K-4 LIGHT CHAIN LEN P06312 P06312 2 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 1ek3-a1-m1-cB_1ek3-a1-m1-cA 1qac-a1-m1-cB_1qac-a1-m1-cA 3lve-a1-m2-cA_3lve-a1-m1-cA 4lve-a1-m1-cB_4lve-a1-m1-cA 5lve-a1-m2-cA_5lve-a1-m1-cA 5lve-a2-m2-cA_5lve-a2-m1-cA DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNSKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCAQYYSTPYSFGQGTKLEIKR DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNSKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCAQYYSTPYSFGQGTKLEIKR 5lvt-a2-m1-cB_5lvt-a2-m1-cD Structure of HU protein from Lactococcus lactis Q9CI64 Q9CI64 2.1 X-RAY DIFFRACTION 160 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 91 91 5lvt-a1-m1-cA_5lvt-a1-m1-cC MANKQDLIAEVAAKTGLTKKDSEKAVNAFGEVVTEFLAKGEKVQLIGFGTFETRERAAREGRNPQTGEAIKIAATVVPAFKAGKALKDAVK MANKQDLIAEVAAKTGLTKKDSEKAVNAFGEVVTEFLAKGEKVQLIGFGTFETRERAAREGRNPQTGEAIKIAATVVPAFKAGKALKDAVK 5lvz-a1-m1-cA_5lvz-a1-m2-cA Crystal structure of yeast 14-3-3 protein from Lachancea thermotolerans C5DN49 C5DN49 1.95 X-RAY DIFFRACTION 48 1.0 559295 (Lachancea thermotolerans CBS 6340) 559295 (Lachancea thermotolerans CBS 6340) 235 235 5lx2-a1-m1-cA_5lx2-a1-m2-cA 5n6n-a1-m1-cB_5n6n-a1-m1-cA 6qk8-a1-m1-cC_6qk8-a1-m1-cA 6qk8-a2-m1-cD_6qk8-a2-m1-cB SREDSVYLAKLAEQAERYEEMVDSMKAVASSGQELSVEERNLLSVAYKNVIGARRASWRIVSSIEQKEEAKDKSEHQVKLIRDYRSKIETELTKICDDILSVLDTHLIPSATTGESKVFYYKMKGDYHRYLAEFSSGEVRDKATNASLEAYKTASEIATTELPPTHPIRLGLALNFSVFYYEIQNSPDKACHLAKQAFDDAIAELDTLSEESYKDSTLIMQLLRDNLTLWTSDMS SREDSVYLAKLAEQAERYEEMVDSMKAVASSGQELSVEERNLLSVAYKNVIGARRASWRIVSSIEQKEEAKDKSEHQVKLIRDYRSKIETELTKICDDILSVLDTHLIPSATTGESKVFYYKMKGDYHRYLAEFSSGEVRDKATNASLEAYKTASEIATTELPPTHPIRLGLALNFSVFYYEIQNSPDKACHLAKQAFDDAIAELDTLSEESYKDSTLIMQLLRDNLTLWTSDMS 5lwk-a1-m1-cA_5lwk-a1-m1-cB MaeR response regulator bound to beryllium trifluoride A0A247D6V8 A0A247D6V8 2.11 X-RAY DIFFRACTION 117 1.0 1597 (Lacticaseibacillus paracasei) 1597 (Lacticaseibacillus paracasei) 122 122 5lwl-a1-m1-cA_5lwl-a1-m1-cB MTNILIVEDDPMVQFIHRNYLEKIGTFDTIYSSETIADAKKLLASRSIQLVLLDIRLKDGNGIDFLTDLRRTKQTVDVILITAANEVNIVNDALHLGVIDYLIKPFTLERFEKSIQRYRTKH MTNILIVEDDPMVQFIHRNYLEKIGTFDTIYSSETIADAKKLLASRSIQLVLLDIRLKDGNGIDFLTDLRRTKQTVDVILITAANEVNIVNDALHLGVIDYLIKPFTLERFEKSIQRYRTKH 5lxe-a1-m1-cB_5lxe-a1-m1-cA F420-dependent glucose-6-phosphate dehydrogenase from Rhodococcus jostii RHA1 Q0RVH7 Q0RVH7 1.47 X-RAY DIFFRACTION 153 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 304 324 MVIKFGYKASAEQFGPRELVELGVLAEAHGMDSATVSDHFQPWRHEGGHAPFSLAWMTAVGERTSRLQLGTSVMTPTFRYNPAVVAQAFATMGCLYPGRIMLGVGTGEALNEIATGFAGEWPEFKERFARLREAVALMRELWLGDRVDFEGNYYKTVGASIYDVPEGGIPVYIAAGGPVVARYAGRSGDGFICTSGKGMELYTEKLMPAVAEGAEKADRDVAEIDKMIEIKISYDTDPELALENTRFWAAKRWIVASDPDEAVAQIRPYLDAGLNHLVFHAPGHDQKRFLELFQRDLAPRLRGL MVIKFGYKASAEQFGPRELVELGVLAEAHGMDSATVSDHFQPWRHEGGHAPFSLAWMTAVGERTSRLQLGTSVMTPTFRYNPAVVAQAFATMGCLYPGRIMLGVGTGEALNEIATGFAGEWPEFKERFARLREAVALMRELWLGDRVDFEGNYYKTVGASIYDVPEGGIPVYIAAGGPVVARYAGRSGDGFICTSGKGMELYTEKLMPAVAEGAEKADRDVAEIDKMIEIKISYDTDPELALENTRFWAPLSLPIEMERAADALPIEQVAKRWIVASDPDEAVAQIRPYLDAGLNHLVFHAPGHDQKRFLELFQRDLAPRLRGL 5lxi-a1-m1-cB_5lxi-a1-m1-cD GABARAP-L1 ATG4B LIR Complex Q9H0R8 Q9H0R8 1.44 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 117 MKFQYKEDHPFEYRKKEGEKIRKKYPDRVPVIVEKAPKARVPDLDKRKYLVPSDLTVGQFYFLIRKRIHLRPEDALFFFVNNTIPPTSATMGQLYEDNHEEDYFLYVAYSDESVYG MKFQYKEDHPFEYRKKEGEKIRKKYPDRVPVIVEKAPKARVPDLDKRKYLVPSDLTVGQFYFLIRKRIHLRPEDALFFFVNNTIPPTSATMGQLYEDNHEEDYFLYVAYSDESVYGK 5lxo-a1-m1-cA_5lxo-a1-m1-cB Coiled-coil protein Q9Y6A5 Q9Y6A5 2.179 X-RAY DIFFRACTION 104 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 78 78 5lxn-a1-m1-cB_5lxn-a1-m1-cA 5lxn-a2-m1-cD_5lxn-a2-m1-cC 5lxn-a3-m1-cF_5lxn-a3-m1-cE 5lxn-a4-m1-cG_5lxn-a4-m1-cH 5lxo-a2-m1-cD_5lxo-a2-m1-cC 5lxo-a3-m1-cF_5lxo-a3-m1-cE 5lxo-a4-m1-cH_5lxo-a4-m1-cG TQEGQRYQALKAHAEEKLQLANEEIAQVRSKAQAEALALQASLRKEQRIQSLEKTVEQKTKENEELTRICDDLISKEK QEGQRYQALKAHAEEKLQLANEEIAQVRSKAQAEALALQASLRKEQRIQSLEKTVEQKTKENEELTRICDDLISKEKI 5ly0-a1-m1-cB_5ly0-a1-m1-cA Crystal structure of LOB domain of Ramosa2 from Wheat D9MPF3 D9MPF3 1.877 X-RAY DIFFRACTION 95 1.0 4571 (Triticum turgidum) 4571 (Triticum turgidum) 107 108 PCAACKFLRRKCLPGCVFAPYFPPEEPQKFANVHKVFGASNVTKLLNELPPHQREDAVSSLAYEAEARVKDPVYGCVGAISVLQRQVHRLQKELDAAHTELLRYACG APCAACKFLRRKCLPGCVFAPYFPPEEPQKFANVHKVFGASNVTKLLNELPPHQREDAVSSLAYEAEARVKDPVYGCVGAISVLQRQVHRLQKELDAAHTELLRYACG 5ly2-a1-m1-cB_5ly2-a1-m1-cA JMJD2A/ KDM4A COMPLEXED WITH NI(II), NOG AND Macrocyclic PEPTIDE Inhibitor CP2_R6Kme3 (13-mer) O75164 O75164 2.43 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 345 348 5ly1-a1-m1-cB_5ly1-a1-m1-cA 5ly1-a1-m1-cC_5ly1-a1-m1-cD 5ly2-a1-m1-cC_5ly2-a1-m1-cD 7eqv-a1-m1-cA_7eqv-a1-m2-cA PSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEKESGITIEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFL TLNPSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEKESGITIEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFL 5ly2-a1-m1-cC_5ly2-a1-m1-cA JMJD2A/ KDM4A COMPLEXED WITH NI(II), NOG AND Macrocyclic PEPTIDE Inhibitor CP2_R6Kme3 (13-mer) O75164 O75164 2.43 X-RAY DIFFRACTION 18 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 342 348 5fwe-a1-m1-cD_5fwe-a1-m1-cB 5ly1-a1-m1-cC_5ly1-a1-m1-cA SETLNPSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFL TLNPSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEKESGITIEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFL 5ly2-a1-m1-cC_5ly2-a1-m1-cB JMJD2A/ KDM4A COMPLEXED WITH NI(II), NOG AND Macrocyclic PEPTIDE Inhibitor CP2_R6Kme3 (13-mer) O75164 O75164 2.43 X-RAY DIFFRACTION 30 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 342 345 5ly1-a1-m1-cC_5ly1-a1-m1-cB SETLNPSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFL PSARIMTFYPTMEEFRNFSRYIAYIESQGAHRAGLAKVVPPKEWKPRASYDDIDDLVIPAPIQQLVTGQSGLFTQYNIQKKAMTVREFRKIANSDKYCTPRYSEFEELERKYWKNLTFNPPIYGADVNGTLYEKHVDEWNIGRLRTILDLVEKESGITIEGVNTPYLYFGMWKTSFAWHTEDMDLYSINYLHFGEPKSWYSVPPEHGKRLERLAKGFFPGSAQSCEAFLRHKMTLISPLMLKKYGIPFDKVTQEAGEFMITFPYGYHAGFNHGFNCAESTNFATRRWIEYGKQAVLCSCRKDMVKISMDVFVRKFQPERYKLWKAGKDNTVIDHTLPTPEAAEFL 5ly5-a1-m1-cA_5ly5-a1-m2-cA Arcadin-1 from Pyrobaculum calidifontis Q8ZVH7 Q8ZVH7 2 X-RAY DIFFRACTION 90 1.0 181486 (Pyrobaculum calidifontis) 181486 (Pyrobaculum calidifontis) 77 77 SHMSLIRGVVVSKQLVYDPTGTKYVKIDVVEEKEKITVPRITLWLTEEEEEVFGDIDVGDVIEINIENGAITIKPES SHMSLIRGVVVSKQLVYDPTGTKYVKIDVVEEKEKITVPRITLWLTEEEEEVFGDIDVGDVIEINIENGAITIKPES 5ly9-a1-m1-cB_5ly9-a1-m1-cA Structure of MITat 1.1 P26331 P26331 1.65 X-RAY DIFFRACTION 337 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 364 368 AERTGLKATAWKPLCKLTTELSKVSGEMLNEGQEVISNIQKIKAAEYKVSIYLAKNPETQALQQLTLLRGYFARKTNGGLESYKTMGLATQIRSARAAAYLKGSIDEFLNLLESLKGGSENKCLVTTNADTAATRRETKLDDQECALSMPETKPEAATRTELTQTGYPNLQHGGGGTANTFQPTTSTGTCKLLSGHSTNGYPTTSALDTTAKVLAGYMTIPNTQVEATLANMQAMGNGHKATAPAWHEAWEARNREAKAKDLAYTNETGNLDTQPTLKALVKTLLLPKEHNAEATKLEALFGGLAADKTKTYLDMVDAEIIPAGIAGRTTEAPLGKIHDTVELGDILSNYEMIAAQNVVTLKKN AERTGLKATAWKPLCKLTTELSKVSGEMLNEGQEVISNIQKIKAAEYKVSIYLAKNPETQALQQLTLLRGYFARKTNGGLESYKTMGLATQIRSARAAAYLKGSIDEFLNLLESLKGGSENKCLVTTNADTAATRRETKLDDQECALSMPETKPEAATRTELTQTGYPNLQHGGGGTANTFQPTTSTGTCKLLSGHSTNGYPTTSALDTTAKVLAGYMTIPNTQVEATLANMQAMGNGHKATAPAWHEAWEARNREAKAKDLAYTNETGNLDTQPTLKALVKTLLLPKDNTEHNAEATKLEALFGGLAADKTKTYLDMVDAEIIPAGIAGRTTEAPLGKIHDTVELGDILSNYEMIAAQNVVTLKKNL 5lye-a1-m2-cA_5lye-a1-m3-cA Re-refined structure of the bacteriophage T4 short tail fibre PDB entry 1H6W containing 71 additionally identified residues Q38160 Q38160 1.9 X-RAY DIFFRACTION 382 1.0 10664 (Tequatrovirus T2) 10664 (Tequatrovirus T2) 236 236 5lye-a1-m1-cA_5lye-a1-m2-cA 5lye-a1-m1-cA_5lye-a1-m3-cA ATESVYGLTRYSTNDEAIAGVNNESSITPAKFTVALNNVFETPYTFMNSTATEEYKGVIKLGTQSEVNSNNASVAVTGATLNGRGSTTSMRGVVKLTTTAGSQSGGDASSALAWNADVIHQRGGQTINGTLRINNTLTIASGGANITGTVNMTGGYIQGKRVVTQNEIDRTIPVGAIMMWAADSLPSDAWRFCHGGTVSASDCPLYASRIGTRYGGSSSNPGLPDMRLNYIIKVKE ATESVYGLTRYSTNDEAIAGVNNESSITPAKFTVALNNVFETPYTFMNSTATEEYKGVIKLGTQSEVNSNNASVAVTGATLNGRGSTTSMRGVVKLTTTAGSQSGGDASSALAWNADVIHQRGGQTINGTLRINNTLTIASGGANITGTVNMTGGYIQGKRVVTQNEIDRTIPVGAIMMWAADSLPSDAWRFCHGGTVSASDCPLYASRIGTRYGGSSSNPGLPDMRLNYIIKVKE 5lyn-a1-m1-cA_5lyn-a1-m1-cB Structure of the Tpr Domain of Sgt2 in complex with yeast Ssa1 peptide fragment Q12118 Q12118 2 X-RAY DIFFRACTION 20 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 133 133 GSMAETKAKAEDLKMQGNKAMANKDYELAINKYTEAIKVLPTNAIYYANRAAAHSSLKEYDQAVKDAESAISIDPSYFRGYSRLGFAKYAQGKPEEALEAYKKVLDIEGDNATEAMKRDYESAKKKVEQSLNL GSMAETKAKAEDLKMQGNKAMANKDYELAINKYTEAIKVLPTNAIYYANRAAAHSSLKEYDQAVKDAESAISIDPSYFRGYSRLGFAKYAQGKPEEALEAYKKVLDIEGDNATEAMKRDYESAKKKVEQSLNL 5lzq-a1-m1-cA_5lzq-a1-m1-cB Crystal structure of Thermotoga maritima sodium pumping membrane integral pyrophosphatase in complex with imidodiphosphate and magnesium, and with bound sodium ion Q9S5X0 Q9S5X0 3.495 X-RAY DIFFRACTION 258 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 725 725 4av3-a1-m1-cA_4av3-a1-m1-cB 4av6-a1-m1-cB_4av6-a1-m1-cA 5lzr-a1-m1-cA_5lzr-a1-m1-cB 6qxa-a1-m1-cB_6qxa-a1-m1-cA 6qxa-a2-m1-cD_6qxa-a2-m1-cC YVAALFFLIPLVALGFAAANFAAVVRKPEGTERMKEISSYIRSGADSFLAHETKAIFKVAIVIAILLMIFTTWQTGVAFLLGAVMSASAGIVGMKMATRANVRVAEAARTTKKIGPALKVAYQGGSVMGLSVGGFALLGLVLVYLIFGKWMGQVDNLNIYTNWLGINFVPFAMTVSGYALGCSIIAMFDRVGGGVYTKAADMAADLVGKTELNLPEDDPRNPATIADNVGDNVGDVAGLGADLLESFVGAIVSSIILASYMFPIYVQKIGENLVHQVPKETIQALISYPIFFALVGLGCSMLGILYVIVKKPSDNPQRELNISLWTSALLTVVLTAFLTYFYLKDLQGLDVLGFRFGAISPWFSAIIGIFSGILIGFWAEYYTSYRYKPTQFLGKSSIEGTGMVISNGLSLGMKSVFPPTLTLVLGILFADYFAGLYGVAIAALGMLSFVATSVSVDSYGPIADNAGGISEMCELDPEVRKITDHLDAVGNTTAAIGKGFAIGSAIFAALSLFASYMFSQISPSDIGKPPSLVLLLNMLDARVIAGALLGAAITYYFSGYLISAVTKAAMKMVDEIRRQAREIPGLLEGKAKPDYNRCIEITSDNALKQMGYPAFIAILTPLVTGFLLGAEFVGGVLIGTVLSGAMLAILTANSGGAWDNAKKYLEAGNLEGYGKGSEPHKALVIGDTVGDPLKDTVGPSLDILIKIMSVVSVIAVSIFKHVHLF YVAALFFLIPLVALGFAAANFAAVVRKPEGTERMKEISSYIRSGADSFLAHETKAIFKVAIVIAILLMIFTTWQTGVAFLLGAVMSASAGIVGMKMATRANVRVAEAARTTKKIGPALKVAYQGGSVMGLSVGGFALLGLVLVYLIFGKWMGQVDNLNIYTNWLGINFVPFAMTVSGYALGCSIIAMFDRVGGGVYTKAADMAADLVGKTELNLPEDDPRNPATIADNVGDNVGDVAGLGADLLESFVGAIVSSIILASYMFPIYVQKIGENLVHQVPKETIQALISYPIFFALVGLGCSMLGILYVIVKKPSDNPQRELNISLWTSALLTVVLTAFLTYFYLKDLQGLDVLGFRFGAISPWFSAIIGIFSGILIGFWAEYYTSYRYKPTQFLGKSSIEGTGMVISNGLSLGMKSVFPPTLTLVLGILFADYFAGLYGVAIAALGMLSFVATSVSVDSYGPIADNAGGISEMCELDPEVRKITDHLDAVGNTTAAIGKGFAIGSAIFAALSLFASYMFSQISPSDIGKPPSLVLLLNMLDARVIAGALLGAAITYYFSGYLISAVTKAAMKMVDEIRRQAREIPGLLEGKAKPDYNRCIEITSDNALKQMGYPAFIAILTPLVTGFLLGAEFVGGVLIGTVLSGAMLAILTANSGGAWDNAKKYLEAGNLEGYGKGSEPHKALVIGDTVGDPLKDTVGPSLDILIKIMSVVSVIAVSIFKHVHLF 5m0j-a1-m1-cB_5m0j-a1-m1-cC Crystal structure of the cytoplasmic complex with She2p, She3p, and the ASH1 mRNA E3-localization element P38272 P38272 2.8 X-RAY DIFFRACTION 10 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 234 240 5m0i-a1-m1-cA_5m0i-a1-m1-cD 5m0i-a1-m1-cB_5m0i-a1-m1-cC 5m0j-a1-m1-cA_5m0j-a1-m1-cD DIKVTPGTSELVEQILALLSRYLSSYIHVLNKFISHLRRVATLRFERTTLIKFVKKLRFYNDSVLSYNASEFINEGKNELDPEADSFDKVILPIASMFVKSVETFDLLNYYLTQSLQKEILSKTLNEDLTLTAESILAIDDTYNHFVKFSQWMIESLRIGSNLLDLEVVQFAIKSADEDGDNIFLQEILPVNSEEEFQTLSAAWHSILDGKLSALDEEFDVVATKWHDKFGKLK DIKVTPGTSELVEQILALLSRYLSSYIHVLNKFISHLRRVATLRFERTTLIKFVKKLRFYNDSVLSYNASEFINEGKNELDPEADSFDKVILPIASMFVKSVETFDLLNYYLTQSLQKEILSKTLNEDLTLTAESILAIDDTYNHFVKFSQWMIESLRIGSNLLDLEVVQFAIKSADEDGTNIGETDNIFLQEILPVNSEEEFQTLSAAWHSILDGKLSALDEEFDVVATKWHDKFGKLK 5m0j-a1-m1-cD_5m0j-a1-m1-cC Crystal structure of the cytoplasmic complex with She2p, She3p, and the ASH1 mRNA E3-localization element P38272 P38272 2.8 X-RAY DIFFRACTION 100 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 232 240 1xly-a1-m1-cB_1xly-a1-m1-cA 5m0i-a1-m1-cA_5m0i-a1-m1-cB 5m0i-a1-m1-cD_5m0i-a1-m1-cC 5m0j-a1-m1-cA_5m0j-a1-m1-cB DIKVTPGTSELVEQILALLSRYLSSYIHVLNKFISHLRRVATLRFERTTLIKFVKKLRFYNDSVLSYNASEFINEGKNELDPEADSFDKVILPIASMFVKSVETFDLLNYYLTQSLQKEILSKTLNEDLTLTAESILAIDDTYNHFVKFSQWMIESLRIGSNLLDLEVVQFAIKSADEDETDNIFLQEILPVNSEEEFQTLSAAWHSILDGKLSALDEEFDVVATKWHDKFG DIKVTPGTSELVEQILALLSRYLSSYIHVLNKFISHLRRVATLRFERTTLIKFVKKLRFYNDSVLSYNASEFINEGKNELDPEADSFDKVILPIASMFVKSVETFDLLNYYLTQSLQKEILSKTLNEDLTLTAESILAIDDTYNHFVKFSQWMIESLRIGSNLLDLEVVQFAIKSADEDGTNIGETDNIFLQEILPVNSEEEFQTLSAAWHSILDGKLSALDEEFDVVATKWHDKFGKLK 5m0t-a1-m1-cB_5m0t-a1-m1-cA Alpha-ketoglutarate-dependent non-heme iron oxygenase EasH A0A1L1QK38 A0A1L1QK38 2.2 X-RAY DIFFRACTION 169 1.0 34381 (Aspergillus japonicus) 34381 (Aspergillus japonicus) 279 287 PTLRRIPRSAGDEAIFQVLQEDGVVVIEGFMSADQVRRFNGEIDPHMKQWELGQKSYQESYLAGMRQLSSLPLFSKLFRDELMNDELLHGLCKRLFGPESGDYWLTTSSVLETEPGYHGQELHREHDGIPICTTLGRQSPESMLNFLTALTDFTAENGATRVLPGSHLWEDFSAPPPKADTAIPAVMNPGDAVLFTGKTLHGAGKNNTTDFLRRGFPLIMQSCQFTPVEASVALPRELVETMTPLAQKMVGWRTVSAKGVDIWTYDLKDLATGIDLKSN SKPTLRRIPRSAGDEAIFQVLQEDGVVVIEGFMSADQVRRFNGEIDPHMKQWELGQKSYQESYLAGMRQLSSLPLFSKLFRDELMNDELLHGLCKRLFGPESGDYWLTTSSVLETEPGYHGQELHREHDGIPICTTLGRQSPESMLNFLTALTDFTAENGATRVLPGSHLWEDFSAPPPKADTAIPAVMNPGDAVLFTGKTLHGAGKNNTTDFLRRGFPLIMQSCQFTPVEASVALPRELVETMTPLAQKMVGWRTVSAKGVDIWTYDLKDLATGIDLKSNQVAKKA 5m1g-a1-m1-cA_5m1g-a1-m1-cB Structure of a Spumaretrovirus Gag central domain reveals an ancient retroviral capsid P14349 P14349 NOT SOLUTION NMR 50 1.0 11963 (Human spumaretrovirus) 11963 (Human spumaretrovirus) 99 99 RTHGTFPMHQLGNVIKGIVDQEGVATAYTLGMMLSGQNYQLVSGIIRGYLPGQAVVTALQQRLDQEIDDQTRAETFIQHLNAVYEILGLNARGQSIRLE RTHGTFPMHQLGNVIKGIVDQEGVATAYTLGMMLSGQNYQLVSGIIRGYLPGQAVVTALQQRLDQEIDDQTRAETFIQHLNAVYEILGLNARGQSIRLE 5m1t-a1-m1-cB_5m1t-a1-m1-cA PaMucR Phosphodiesterase, c-di-GMP complex Q9I310 Q9I310 2.27 X-RAY DIFFRACTION 15 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 225 247 RQLVLHYQPKVLAPNGPMIGVEALLRWGLITPGQFLPLAEKTGLIVQIGEWVLDEACRQMRLWLADWNIAVNLSALQFAHAGLVDSVRNALLRHSLEPSHLILEVTESTAMRDADASLVILEQLSAMGVGISIDDFGTGYSSLLYLKRLPASELKIDRGFINELAHDSDDAAIVSAIVALGRTLNLKIVAEGVETEAQQEFLTRLGCNSLQGFLLGRPMPAEQLL LQLLHDLRQALERRQLVLHYQPKVLAPNGPMIGVEALLRWEHPQHGLITPGQFLPLAEKTGLIVQIGEWVLDEACRQMRLWLDGGHADWNIAVNLSALQFAHAGLVDSVRNALLRHSLEPSHLILEVTESTAMRDADASLVILEQLSAMGVGISIDDFGTGYSSLLYLKRLPASELKIDRGFINELAHDSDDAAIVSAIVALGRTLNLKIVAEGVETEAQQEFLTRLGCNSLQGFLLGRPMPAEQLL 5m2e-a2-m1-cC_5m2e-a2-m1-cD Apo structure of Pseudomonas aeruginosa Isocitrate Dehydrogenase, ICD Q02NB5 Q02NB5 2.7 X-RAY DIFFRACTION 222 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 418 418 5m2e-a1-m1-cA_5m2e-a1-m1-cB MGYQKIQVPATGDKITVNADMSLSVPKNPIIPFIEGDGIGVDISPVMIKVVDAAVEKAYKGERKIAWMEVYAGEKATQVYDQDTWLPQETLDAVRDYVVSIKGPLTTPVGGGIRSLNVALRQQLDLYVCQRPVRWFEGVPSPVKKPGDVDMVIFRENSEDIYAGVEWKAGSPEAEKVIKFLTEEMGVKKIRFTENCGIGIKPVSQEGTKRLVRKALQYAVDNDRSSVTLVHKGNIMKFTEGAFKDWGYEVARDEFGAELLDGGPWMQFKNPKTGKNVVVKDVIADAMLQQILLRPAEYDVIATLNLNGDYLSDALAAEVGGIGIAPGANLSDSVAMFEATHGTAPKYAGQDKVNPGSLILSAEMMLRHMGWTEAADLIIKGTNGAIAAKTVTYDFERLMDGATLLSCSEFGDAMIAKM MGYQKIQVPATGDKITVNADMSLSVPKNPIIPFIEGDGIGVDISPVMIKVVDAAVEKAYKGERKIAWMEVYAGEKATQVYDQDTWLPQETLDAVRDYVVSIKGPLTTPVGGGIRSLNVALRQQLDLYVCQRPVRWFEGVPSPVKKPGDVDMVIFRENSEDIYAGVEWKAGSPEAEKVIKFLTEEMGVKKIRFTENCGIGIKPVSQEGTKRLVRKALQYAVDNDRSSVTLVHKGNIMKFTEGAFKDWGYEVARDEFGAELLDGGPWMQFKNPKTGKNVVVKDVIADAMLQQILLRPAEYDVIATLNLNGDYLSDALAAEVGGIGIAPGANLSDSVAMFEATHGTAPKYAGQDKVNPGSLILSAEMMLRHMGWTEAADLIIKGTNGAIAAKTVTYDFERLMDGATLLSCSEFGDAMIAKM 5m3c-a1-m1-cA_5m3c-a1-m1-cB Structure of the hybrid domain (GGDEF-EAL) of PA0575 from Pseudomonas aeruginosa PAO1 at 2.8 Ang. with GTP and Ca2+ bound to the active site of the GGDEF domain Q9I5W1 Q9I5W1 2.8 X-RAY DIFFRACTION 96 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 420 426 HHDPLTGLPNRLLFESRLNHALDEAREESRPGAVLFIDLDRFKHINDSLGHPIGDLLLKAIAERLRDQLRDVDTVARLGGDEFIILLPGLHQESDAEHVARKLLNAFTAPFFFVSASVGIALFPKDGDDAPTLVKNADAAMYRAKSRGRSRIEYYTRELTYLATERMALETELRRALERDELQLYYQPKLSLESGLLVGAEALVRWYHPLFGEISPERFIPLAEDCGLILPLGDWVLEHACQQMGEWQKLHAPFGPLSVNLAGAQLGQPQLIERLEQLLEQSGLEPSRLQLEITESFIMNQTEEALAVLHGLKRLGVQLAIDDFGTGYSSLSYLKRLPLDILKIDKSFIRGLPDDPHDAAITRAIIALGRSMQLTVIAEGVETEGQQSFLTHEGCEQIQGFVLSPPLPAELFASKFLKPR HHDPLTGLPNRLLFESRLNHALDEAREESRPGAVLFIDLDRFKHINDSLGHPIGDLLLKAIAERLRDQLRDVDTVARLGGDEFIILLPGLHQESDAEHVARKLLNAFTAPFQADGHEFFVSASVGIALFPKDGDDAPTLVKNADAAMYRAKSRGRSRIEYYTRELTYLATERMALETELRRALERDELQLYYQPKLSLESGLLVGAEALVRWYHPLFGEISPERFIPLAEDCGLILPLGDWVLEHACQQMGEWQKLHAPFGPLSVNLAGAQLGQPQLIERLEQLLEQSGLEPSRLQLEITESFIMNQTEEALAVLHGLKRLGVQLAIDDFGTGYSSLSYLKRLPLDILKIDKSFIRGLPDDPHDAAITRAIIALGRSMQLTVIAEGVETEGQQSFLTHEGCEQIQGFVLSPPLPAELFASKFLKPR 5m3d-a2-m1-cC_5m3d-a2-m1-cB Structural tuning of CD81LEL (space group P31) P60033 P60033 2.38 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 91 1g8q-a1-m1-cB_1g8q-a1-m1-cA 1iv5-a1-m1-cA_1iv5-a1-m1-cB 3x0e-a1-m1-cB_3x0e-a1-m1-cA 5dfv-a1-m1-cB_5dfv-a1-m1-cA 5m2c-a1-m1-cA_5m2c-a1-m1-cB 5m33-a1-m1-cB_5m33-a1-m1-cA 5m3d-a1-m1-cD_5m3d-a1-m1-cA 5m3t-a1-m1-cA_5m3t-a1-m1-cB 5m4r-a3-m1-cC_5m4r-a3-m2-cC 6ejg-a1-m1-cA_6ejg-a1-m1-cB 6ejm-a1-m1-cB_6ejm-a1-m1-cA 6ek2-a1-m1-cB_6ek2-a1-m1-cA VNKDQIAKDVKQFYDQALQQAVVDDDANNAKAVVKTFHETLDCCGSSTLTALTTSVLKNNLCPSGSNIISNLFKEDCHQKIDDLFSGKG GFVNKDQIAKDVKQFYDQALQQAVVDDDANNAKAVVKTFHETLDCCGSSTLTALTTSVLKNNLCPSGSNIISNLFKEDCHQKIDDLFSGKG 5m3k-a1-m1-cE_5m3k-a1-m2-cE A multi-component acyltransferase PhlABC from Pseudomonas protegens Q4K419 Q4K419 2.83 X-RAY DIFFRACTION 54 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 145 145 5m3k-a1-m1-cB_5m3k-a1-m2-cB 5mg5-a1-m1-cB_5mg5-a1-m1-cK 5mg5-a1-m1-cE_5mg5-a1-m1-cN 5mg5-a2-m1-cH_5mg5-a2-m1-cT 5mg5-a2-m1-cQ_5mg5-a2-m1-cW SMYPEQIHRMTTASMLREWREHGGKYRLEGSQCEECNEIFFPRRTVCGACNSLSVKPYRCARSGKIEVMAPAENPILAAMGYGETVPRIMAMVRLDDGLVIASEIVDVCDQQQLKVGAPVRMVIRKHVRESNLAWQYAYKFVLDI SMYPEQIHRMTTASMLREWREHGGKYRLEGSQCEECNEIFFPRRTVCGACNSLSVKPYRCARSGKIEVMAPAENPILAAMGYGETVPRIMAMVRLDDGLVIASEIVDVCDQQQLKVGAPVRMVIRKHVRESNLAWQYAYKFVLDI 5m3k-a1-m1-cF_5m3k-a1-m2-cF A multi-component acyltransferase PhlABC from Pseudomonas protegens Q4K420 Q4K420 2.83 X-RAY DIFFRACTION 201 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 395 395 5m3k-a1-m1-cC_5m3k-a1-m2-cC 5mg5-a1-m1-cC_5mg5-a1-m1-cL 5mg5-a1-m1-cF_5mg5-a1-m1-cO 5mg5-a2-m1-cI_5mg5-a2-m1-cU 5mg5-a2-m1-cR_5mg5-a2-m1-cX ARRVAIVSAAYTPKPGSSRVRQTFKEMIVESAYKALKDAKMHPREIQAVAYGYHGEGISEYGGLGPTISDALGISPAPTFMSTANTSSSVSFQMGHQMVASGEYDIVLCGGFEKMTDHFNYAEYIGSSTECEYDYFLGISHTDAFALATAEYFQKFGYAGREADVLATFGRQMRIYAQNTPTATRYGQPIPSLEVLKNSEACGSMLAWGEASGCAILVAEHLAHKYTDKPVFVRGCAYTGVSHYFGTRFHNPTLHHPGLPKDVGMAVSANSIACAEIAYKKAGITAKDIDVAQVYDLLGAGLIQMESMGICGKGQAGDFVLEGGIALDGQLPLNTDGGNIGRGHASGCDGILHITELFRQLRGESDNQVKGARIGVSQNLGGYAAHNSVIVLSND ARRVAIVSAAYTPKPGSSRVRQTFKEMIVESAYKALKDAKMHPREIQAVAYGYHGEGISEYGGLGPTISDALGISPAPTFMSTANTSSSVSFQMGHQMVASGEYDIVLCGGFEKMTDHFNYAEYIGSSTECEYDYFLGISHTDAFALATAEYFQKFGYAGREADVLATFGRQMRIYAQNTPTATRYGQPIPSLEVLKNSEACGSMLAWGEASGCAILVAEHLAHKYTDKPVFVRGCAYTGVSHYFGTRFHNPTLHHPGLPKDVGMAVSANSIACAEIAYKKAGITAKDIDVAQVYDLLGAGLIQMESMGICGKGQAGDFVLEGGIALDGQLPLNTDGGNIGRGHASGCDGILHITELFRQLRGESDNQVKGARIGVSQNLGGYAAHNSVIVLSND 5m45-a2-m1-cG_5m45-a2-m1-cJ Structure of Acetone Carboxylase purified from Xanthobacter autotrophicus Q8RM03 Q8RM03 1.87 X-RAY DIFFRACTION 190 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 762 762 5m45-a1-m1-cA_5m45-a1-m1-cD 5svb-a1-m1-cA_5svb-a1-m1-cD 5svc-a1-m1-cA_5svc-a1-m1-cD RGIVRGGETLKEHRDRLMAATKATGRYAGLKTLELREREPILYNKLFSRLRAGVVDARETAKKIAASPIVEQEGELCFTLYNAAGDSLLTSTGIIIHVGTMGAAIKYMIENNWEANPGVHDKDIFCNNDSLIGNVHPCDIHTIVPIFWEGELIGWVGGVTHVIDTGAVGPGSMATGQVQRFGDGYSITCRKVGANDTLFRDWLHESQRMVRTTRYWMLDERTRIAGCHMIRKLVEEVVAEEGIEAYWKFAYEAVEHGRLGLQARIKAMTIPGTYRQVGFVDVPYAHEDVRVPSDFAKLDTIMHAPCEMTIRRDGTWRLDFEGSSRWGWHTYNAHQVSFTSGIWVMMTQTLIPSEMINDGAAYGTEFRLPKGTWMNPDDRRVAFSYSWHFLVSAWTALWRGLSRSYFGRGYLEEVNAGNANTSNWLQGGGFNQYDEIHAVNSFECAANGTGATAVQDGLSHAAAIWNPEGDMGDMEIWELAEPLVYLGRQIKASSGGSGKYRGGCGFESLRMVWNAKDWTMFFMGNGHISSDWGLMGGYPAASGYRFAAHKTNLKELIASGAEIPLGGDTDPENPTWDAMLPDAQIKRDKQAITTEEMFSDYDLYLNYMRGGPGFGDPLDREPQAVADDINGGYVLERFAGEVYGVVVRKGADGQYGVDETATAAARAQIRKDRLAKSVPVSEWMKGEREKILAKDAGTQVRQMFAASFKLGPRFEKDFRTFWDLPDSWTLPEEEIGVPTYGSRYSMDISELPDVHTVQFVEE RGIVRGGETLKEHRDRLMAATKATGRYAGLKTLELREREPILYNKLFSRLRAGVVDARETAKKIAASPIVEQEGELCFTLYNAAGDSLLTSTGIIIHVGTMGAAIKYMIENNWEANPGVHDKDIFCNNDSLIGNVHPCDIHTIVPIFWEGELIGWVGGVTHVIDTGAVGPGSMATGQVQRFGDGYSITCRKVGANDTLFRDWLHESQRMVRTTRYWMLDERTRIAGCHMIRKLVEEVVAEEGIEAYWKFAYEAVEHGRLGLQARIKAMTIPGTYRQVGFVDVPYAHEDVRVPSDFAKLDTIMHAPCEMTIRRDGTWRLDFEGSSRWGWHTYNAHQVSFTSGIWVMMTQTLIPSEMINDGAAYGTEFRLPKGTWMNPDDRRVAFSYSWHFLVSAWTALWRGLSRSYFGRGYLEEVNAGNANTSNWLQGGGFNQYDEIHAVNSFECAANGTGATAVQDGLSHAAAIWNPEGDMGDMEIWELAEPLVYLGRQIKASSGGSGKYRGGCGFESLRMVWNAKDWTMFFMGNGHISSDWGLMGGYPAASGYRFAAHKTNLKELIASGAEIPLGGDTDPENPTWDAMLPDAQIKRDKQAITTEEMFSDYDLYLNYMRGGPGFGDPLDREPQAVADDINGGYVLERFAGEVYGVVVRKGADGQYGVDETATAAARAQIRKDRLAKSVPVSEWMKGEREKILAKDAGTQVRQMFAASFKLGPRFEKDFRTFWDLPDSWTLPEEEIGVPTYGSRYSMDISELPDVHTVQFVEE 5m48-a1-m1-cA_5m48-a1-m2-cA Coiled coil domain of Rtt103p Q05543 Q05543 2.593 X-RAY DIFFRACTION 120 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 108 108 LVLPQKLKDFAKDYEKLVKHHNVCAKRFDKSSDELDPSSSVYEENFKTISKIGNAKDIINESILKRESGIHKLQSTLDDEKRHLDEEQNLSEIEFVLSAKDLEHHHHH LVLPQKLKDFAKDYEKLVKHHNVCAKRFDKSSDELDPSSSVYEENFKTISKIGNAKDIINESILKRESGIHKLQSTLDDEKRHLDEEQNLSEIEFVLSAKDLEHHHHH 5m4d-a1-m1-cA_5m4d-a1-m2-cA Alpha-amino epsilon-caprolactam racemase K241A mutant in complex with D-ACL (external aldimine) N6UXY4 N6UXY4 1.93 X-RAY DIFFRACTION 397 1.0 363754 (Rhizobium freirei PRF 81) 363754 (Rhizobium freirei PRF 81) 439 439 5m46-a1-m1-cA_5m46-a1-m2-cA 5m49-a1-m1-cA_5m49-a1-m2-cA 5m4b-a1-m1-cA_5m4b-a1-m2-cA GPAMAGNLYGRDGAAIGSLQKLRFFPLAVAGGQGARLVEEDGRELIDLSGAWGAASLGYGHPAIIEAVSRAAANPAGASILSASNAPAVALAERLTASFPGRGTHKVWFGHSGSDANEAAYRAITRATGRTGVIAFIGAYHGCTVGSMAFSGHSVQADAAKADGLILLPYPDPYRPYQDDPTGDAVLALLKERLAAVPAGSIAAAFIEPIQSDGGLIVPPDGFLRKFADICRAHGISVVCDEVAVGLARSGRLHCFEHEGFVPDILVLGKGLGGGLPLSAVIAPAEILDCASAFAMQTLHGNPVCAAAGLAVLETIEAENLTTAAERKGKLLREGLARLAERHELIGDIRGRGLACGVELVRNRQSREPARAETAKLIYRAYELGLVLYYVGMNGNVLEMTPPLTMTEDEVRHAVNLLDQAFTELSTVSDTLVSQFAGW GPAMAGNLYGRDGAAIGSLQKLRFFPLAVAGGQGARLVEEDGRELIDLSGAWGAASLGYGHPAIIEAVSRAAANPAGASILSASNAPAVALAERLTASFPGRGTHKVWFGHSGSDANEAAYRAITRATGRTGVIAFIGAYHGCTVGSMAFSGHSVQADAAKADGLILLPYPDPYRPYQDDPTGDAVLALLKERLAAVPAGSIAAAFIEPIQSDGGLIVPPDGFLRKFADICRAHGISVVCDEVAVGLARSGRLHCFEHEGFVPDILVLGKGLGGGLPLSAVIAPAEILDCASAFAMQTLHGNPVCAAAGLAVLETIEAENLTTAAERKGKLLREGLARLAERHELIGDIRGRGLACGVELVRNRQSREPARAETAKLIYRAYELGLVLYYVGMNGNVLEMTPPLTMTEDEVRHAVNLLDQAFTELSTVSDTLVSQFAGW 5m58-a1-m1-cB_5m58-a1-m1-cA Crystal structure of CouO, a C-methyltransferase from Streptomyces rishiriensis Q9F8T9 Q9F8T9 2.05 X-RAY DIFFRACTION 16 1.0 68264 (Streptomyces rishiriensis) 68264 (Streptomyces rishiriensis) 229 230 MKIEPITGSEAEAFHRMGSRAFERYNEFVDLLVGAGIADGQTVVDLCCGSGELEIILTSRFPSLNLVGVDLSEDMVRIARDYAAEQGKELEFRHGDAQSPAGMEDLLGKADLVVSRHAFHRLTRLPAGFDTMLRLVKPGGAILNVSFLHLSDFDEPGFRTWVRFLKERPWDAEMQVAWALAHYYAPRLQDYRDALAQAADETPVSEQRIWVDDQGYGVATVKCFARRAA MKIEPITGSEAEAFHRMGSRAFERYNEFVDLLVGAGIADGQTVVDLCCGSGELEIILTSRFPSLNLVGVDLSEDMVRIARDYAAEQGKELEFRHGDAQSPAGMEDLLGKADLVVSRHAFHRLTRLPAGFDTMLRLVKPGGAILNVSFLHLSDFDEPGFRTWVRFLKERPWDAEMQVAWALAHYYAPRLQDYRDALAQAADETPVSEQRIWVDDQGYGVATVKCFARRAAA 5m5j-a1-m1-cA_5m5j-a1-m1-cB Thioredoxin reductase from Giardia duodenalis E2RU27 E2RU27 2.65 X-RAY DIFFRACTION 123 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 309 312 QRHVRIGIIGGGPAGLTAGIYASRANLKTCVFVGIEHTSQMFTTTDVENFPSHTAIKGPALMEAIQNQAEHCGAELLYEDVHSIDVSSRPFKIVHGYENETTLADALIIATGATARRLDCKGEKEYWQKGVSACAVCDSAMATGKEVVVVGGGDVACEEATYLTKIATKVYMVLRRDKFRASAAMVKKVMNEKLIEIIYDSAIDEIKGDGKCVTSVSIKNLKDGKTRTLNAGALYWAVGHDPQTSFLKKGQLEQDEAGYILLKDHPTQRTSVDGVFAAGDCCDHLYRQAVVAAGSGSKAALDAERWLAM TQRHVRIGIIGGGPAGLTAGIYASRANLKTCVFVGIEHTSQMFTTTDVENFPSHTAIKGPALMEAIQNQAEHCGAELLYEDVHSIDVSSRPFKIVHGYENETTLADALIIATGATARRLDCKGEKEYWQKGVSACAVCDSAMATGKEVVVVGGGDVACEEATYLTKIATKVYMVLRRDKFRASAAMVKKVMNEKLIEIIYDSAIDEIKGDGKCVTSVSIKNLKDGKTRTLNAGALYWAVGHDPQTSFLKKGQLEQDEAGYILLKDHPTQRTSVDGVFAAGDCCDHLYRQAVVAAGSGSKAALDAERWLAMQE 5m62-a2-m3-cB_5m62-a2-m4-cB Structure of the Mus musclus Langerin carbohydrate recognition domain in complex with glucose Q8VBX4 Q8VBX4 1.7 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 136 136 5m62-a1-m1-cA_5m62-a1-m2-cA 5m62-a1-m1-cA_5m62-a1-m5-cA 5m62-a1-m2-cA_5m62-a1-m5-cA 5m62-a2-m1-cB_5m62-a2-m3-cB 5m62-a2-m1-cB_5m62-a2-m4-cB AGILEMVARGWKYFSGNFYYFSRTPKTWYSAEQFCISRKAHLTSVSSESEQKFLYKAADGIPHWIGLTKAGSEGDWYWVDQTSFNKEQSRRFWIPGEPNNAGNNEHCANIRVSALKSWNDGPCDNTFLFICKRPYV AGILEMVARGWKYFSGNFYYFSRTPKTWYSAEQFCISRKAHLTSVSSESEQKFLYKAADGIPHWIGLTKAGSEGDWYWVDQTSFNKEQSRRFWIPGEPNNAGNNEHCANIRVSALKSWNDGPCDNTFLFICKRPYV 5m6i-a1-m1-cA_5m6i-a1-m1-cB Crystal structure of non-cardiotoxic Bence-Jones light chain dimer M8 2.2 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 SALTQPASVSGSPGQSITISCTGTSSDVGAYNLVSWYQQHPGKTPKLLIYEVSKRPSGVSNRFSGSKSGNTASLTISGLQPEDEADYYCCSNAGSYTHVFGTGTKVTVLVQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT SALTQPASVSGSPGQSITISCTGTSSDVGAYNLVSWYQQHPGKTPKLLIYEVSKRPSGVSNRFSGSKSGNTASLTISGLQPEDEADYYCCSNAGSYTHVFGTGTKVTVLVQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 5m76-a1-m1-cA_5m76-a1-m1-cB Crystal structure of cardiotoxic Bence-Jones light chain dimer H10 2.5 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 SALTQEASVSGTVGQKVTLSCTGNTNNIGSYPVGWYQQISHGPPKTVMFGNSLPSGIPDRFSGSKSGTTASLTISGLQPEDEADYYCSTWDSSLSVQVIGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT SALTQEASVSGTVGQKVTLSCTGNTNNIGSYPVGWYQQISHGPPKTVMFGNSLPSGIPDRFSGSKSGTTASLTISGLQPEDEADYYCSTWDSSLSVQVIGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 5m7o-a1-m1-cB_5m7o-a1-m1-cA Crystal structure of NtrX from Brucella abortus processed with the CrystalDirect automated mounting and cryo-cooling technology C4IRH0 C4IRH0 2.2 X-RAY DIFFRACTION 249 0.998 641140 (Brucella abortus str. 2308 A) 641140 (Brucella abortus str. 2308 A) 436 448 5m7n-a1-m1-cB_5m7n-a1-m1-cA MAADILVVDDEVDIRDLVAGILSDEGHETRTAFDADSALAAINDRAPRLVFLDIWLQGSRLDGLALLDEIKKQHPELPVVMISGHGNIETAVSAIRRGAYDFIEKPFKADRLILVAERALETSKLKREVSDLRKRVGTSLAMNQLRQTIERVAPTNSRIMITGPSGAGKELVARAIHAQSSRANGPFVTVNAATITPERMEIELFGTEMDGGERKVGALEEAHGGILYLDEVADMPRETQNKILRVLVDQQFERVGGTKRVKVDVRIISSTAQNLEGMIAEGTFREDLFHRLSVVPVQVPALAARREDIPSLVEFFMKQIAEQAGIKPRKIGPDAMAVLQAHSWPGNLRQLRNNVERLMILTRGDDPDELVTADLLPAEIGDQHIMALPLREARERFEKEYLIAQINRFGGNISRTAEFVGMERSALHRKLKSLGV MAADILVVDDEVDIRDLVAGILSDEGHETRTAFDADSALAAINDRAPRLVFLDIWLQGSRLDGLALLDEIKKQHPELPVVMISGHGNIETAVSAIRRGAYDFIEKPFKADRLILVAERALETSKLKREVSDLRKRTGLVGTSLAMNQLRQTIERVAPTNSRIMITGPSGAGKELVARAIHAQSSRANGPFVTVNAATITPERMEIELFGTEMDGGERKVGALEEAHGGILYLDEVADMPRETQNKILRVLVDQQFERVGGTKRVKVDVRIISSTAQNLEGMIAEGTFREDLFHRLSVVPVQVPALAARREDIPSLVEFFMKQIAEQAGIKPRKIGPDAMAVLQAHSWPGNLRQLRNNVERLMILTRGDDPDELVTADLLPAEIGDTLPRAPTESDQHIMALPLREARERFEKEYLIAQINRFGGNISRTAEFVGMERSALHRKLKSLG 5m7q-a3-m1-cB_5m7q-a3-m1-cA Engineering the Thermostability of Nanobodies - NbD2 1.8 X-RAY DIFFRACTION 58 1.0 9838 (Camelus dromedarius) 9838 (Camelus dromedarius) 119 131 QVQLQESGGGSVQAGGSLRLSCAVSENTGRMGWFRQAPGKEREKVAIITRLGGYTSYAGPVKGRFTISQDNAKNTVYLLMNSLKPEDTAIYYCAADSRPIYSGTWRYWGQGTQVTVSSA QVQLQESGGGSVQAGGSLRLSCAVSENTGRMGWFRQAPGKEREKVAIITRLGGYTSYAGPVKGRFTISQDNAKNTVYLLMNSLKPEDTAIYYCAADSRPIYSGTWRYWGQGTQVTVSSAAAYPYDVPDYGS 5m7r-a1-m1-cA_5m7r-a1-m1-cB Structure of human O-GlcNAc hydrolase O60502 O60502 2.35 X-RAY DIFFRACTION 255 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 466 470 5m7s-a1-m1-cA_5m7s-a1-m1-cB 5m7t-a1-m1-cB_5m7t-a1-m1-cA 5m7u-a1-m1-cA_5m7u-a1-m1-cB 6hki-a1-m1-cB_6hki-a1-m1-cA RFLCGVVEGFYGRPWVMEQRKELFRRLQKWELNTYLYAPKDDYKHRMFWREMYSVEEAEQLMTLISAAREYEIEFIYAISPGLDITFSNPKEVSTLKRKLDQVSQFGCRSFALLFDDIDHNMCAADKEVFSSFAHAQVSITNEIYQYLGEPETFLFCPTEYCGTFCYPNVSQSPYLRTVGEKLLPGIEVLWTGPKVVSKEIPVESIEEVSKIIKRAPVIWDNIHANDYDQKRLFLGPYKGRSTELIPRLKGVLTNPNCEFEANYVAIHTLATWYKSNMNDVLYSPQMALKLALTEWLQEFGVPHQFVPGPNEKPLYTAEPVTLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANSSVVSVNKDSEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWLGCRSHSSAQFLIQEPWAFRGGLAGEFQRLLPILTPTSKVY RFLCGVVEGFYGRPWVMEQRKELFRRLQKWELNTYLYAPKDDYKHRMFWREMYSVEEAEQLMTLISAAREYEIEFIYAISPGLDITFSNPKEVSTLKRKLDQVSQFGCRSFALLFDDIDHNMCAADKEVFSSFAHAQVSITNEIYQYLGEPETFLFCPTEYCGTFCYPNVSQSPYLRTVGEKLLPGIEVLWTGPKVVSKEIPVESIEEVSKIIKRAPVIWDNIHANDYDQKRLFLGPYKGRSTELIPRLKGVLTNPNCEFEANYVAIHTLATWYKSNMNGVRDVLYSPQMALKLALTEWLQEFGVPHQFVPGPNEKPLYTAEPVTLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANSSVVSVNCDSEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWLGCRSHSSAQFLDQEPWAFRGGLAGEFQRLLPIPLTPTSKVY 5m86-a2-m1-cH_5m86-a2-m1-cI Crystal Structure of the Thermoplasma acidophilum Protein Ta1207 Q9HIW9 Q9HIW9 2.4 X-RAY DIFFRACTION 45 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 312 312 5m86-a1-m1-cA_5m86-a1-m1-cB 5m86-a1-m1-cA_5m86-a1-m1-cF 5m86-a1-m1-cB_5m86-a1-m1-cC 5m86-a1-m1-cC_5m86-a1-m1-cD 5m86-a1-m1-cD_5m86-a1-m1-cF 5m86-a2-m1-cE_5m86-a2-m1-cG 5m86-a2-m1-cE_5m86-a2-m1-cJ 5m86-a2-m1-cG_5m86-a2-m1-cH 5m86-a2-m1-cI_5m86-a2-m1-cJ VLQDIDGIFDSQAILAGRFHNDLTVINEKYDLFYLLPTINEKKIVSFYIFLQDDQIPERHREEIESVLNKFNPVIKNGIWKIYLDTESFKLSEPFSTFFGIDSIVFDGSKGGELLPVRFISKDKDALVNSIIDSAGYGENIYLRYIGQNKGFDYSFIAIKLLDQVYKLTLSIDNPHVHGIFAETKKNIAWRRESKAPHKDNTEDYIYALDDTHTIPDILIDTAYTGEKGTVYIGKHSNYDIYRAFFGDALTNHSSVISENVYYLRRWSKYEDGKLFLYFYTTVDFLRLIPAILDSTRKNFPKVNKIDEITPA VLQDIDGIFDSQAILAGRFHNDLTVINEKYDLFYLLPTINEKKIVSFYIFLQDDQIPERHREEIESVLNKFNPVIKNGIWKIYLDTESFKLSEPFSTFFGIDSIVFDGSKGGELLPVRFISKDKDALVNSIIDSAGYGENIYLRYIGQNKGFDYSFIAIKLLDQVYKLTLSIDNPHVHGIFAETKKNIAWRRESKAPHKDNTEDYIYALDDTHTIPDILIDTAYTGEKGTVYIGKHSNYDIYRAFFGDALTNHSSVISENVYYLRRWSKYEDGKLFLYFYTTVDFLRLIPAILDSTRKNFPKVNKIDEITPA 5m88-a1-m1-cA_5m88-a1-m1-cB Spliceosome component G0SFY0 G0SFY0 2.8 X-RAY DIFFRACTION 105 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 121 121 MLCALSGEIPEEPVVSKKTGVLFEKRLILKYLEEHNNIEPGTTEELDPETDLLPITSIPSLLKAFQDEWDALVLETYTTREQLARVREELATALYQHDAAVRVIARLTRERDEAREALARL MLCALSGEIPEEPVVSKKTGVLFEKRLILKYLEEHNNIEPGTTEELDPETDLLPITSIPSLLKAFQDEWDALVLETYTTREQLARVREELATALYQHDAAVRVIARLTRERDEAREALARL 5m8b-a1-m1-cA_5m8b-a1-m1-cB Crystal structure of alpha-L-arabinofuranosidase from Lactobacillus brevis 1.9 X-RAY DIFFRACTION 89 1.0 1580 (Levilactobacillus brevis) 1580 (Levilactobacillus brevis) 325 325 VQAQDYINPLIVQRADPYIYKHTDGYYYFTASVPAYNLIEIRRAKTLNGLANAAPRTIWRKHPDGSGAMSQLIWAPELHYIDGKWFIYFAASHTKEFDHNGMFQHRMYCIECDNPDPMRDEADWTEHGQIETPLDTFALDATVFEAQKKLYYVWAQKDPAIKGNSNIYIAEMANPWTLKTKPVMLTKPEYDWETKIFWVNEGPAVLHRNGRFFLTYSASATDENYAMGMLTVAEDADLLDPTSWSKSETPVFQSNMPIKQFGPGHNSFTVAEDGETDMLVYHCRNYTDIKGDPLYDPNRHTMVQPFTWNDDGTPNFGKPVPYNYK VQAQDYINPLIVQRADPYIYKHTDGYYYFTASVPAYNLIEIRRAKTLNGLANAAPRTIWRKHPDGSGAMSQLIWAPELHYIDGKWFIYFAASHTKEFDHNGMFQHRMYCIECDNPDPMRDEADWTEHGQIETPLDTFALDATVFEAQKKLYYVWAQKDPAIKGNSNIYIAEMANPWTLKTKPVMLTKPEYDWETKIFWVNEGPAVLHRNGRFFLTYSASATDENYAMGMLTVAEDADLLDPTSWSKSETPVFQSNMPIKQFGPGHNSFTVAEDGETDMLVYHCRNYTDIKGDPLYDPNRHTMVQPFTWNDDGTPNFGKPVPYNYK 5m8e-a1-m1-cA_5m8e-a1-m1-cB Crystal structure of a GH43 arabonofuranosidase from Weissella sp. strain 142 A0A0D1M7L2 A0A0D1M7L2 2 X-RAY DIFFRACTION 93 1.0 137591 (Weissella cibaria) 137591 (Weissella cibaria) 323 323 TVRYENPVIIQRADPYIYKHTDGYYYFVASVPAYNLIELRRAKTIDGLAHAMPRTIWRKHDSGTGAQSELIWAPELHYTDGKWYVYYAASHTTAFDENGMFQHRMFAIECDAEDPMETEENWVEKGQIETHLDSFALDATSFELNDKLYYVWAQKDPEIKGNSNLYIAEMENPWTLKTAPVMLSKPEFDWETKIFWVNEGPAILKRNGKVFLTFSGSATDENYAMGMLWIEDDKDVLDAANWHKLDHPVFQSDMENGLYGPGHNSFTVAEDGETDLLVYHVRNYLDIKGDPLYDPNRHTMVQPFEWDDEGFPVFGKPQPFTFN TVRYENPVIIQRADPYIYKHTDGYYYFVASVPAYNLIELRRAKTIDGLAHAMPRTIWRKHDSGTGAQSELIWAPELHYTDGKWYVYYAASHTTAFDENGMFQHRMFAIECDAEDPMETEENWVEKGQIETHLDSFALDATSFELNDKLYYVWAQKDPEIKGNSNLYIAEMENPWTLKTAPVMLSKPEFDWETKIFWVNEGPAILKRNGKVFLTFSGSATDENYAMGMLWIEDDKDVLDAANWHKLDHPVFQSDMENGLYGPGHNSFTVAEDGETDLLVYHVRNYLDIKGDPLYDPNRHTMVQPFEWDDEGFPVFGKPQPFTFN 5m99-a1-m1-cB_5m99-a1-m1-cA Functional Characterization and Crystal Structure of Thermostable Amylase from Thermotoga petrophila, reveals High Thermostability and an Archaic form of Dimerization A0A059TXD8 A0A059TXD8 1.96 X-RAY DIFFRACTION 60 1.0 390874 (Thermotoga petrophila RKU-1) 390874 (Thermotoga petrophila RKU-1) 505 506 EVKYPVVYEIFIRSLYDSDGDGVGDINGVSQKVDYLRKLGIDAVWFMPFNEAVSYHGYDITDYYNVEKDYGTMEDLENMIQVLHENGIKVIMDLVINHTSDEHPWFKDAVENTTSSPYWDYYIMSLEDHSGQDHWHWKINSKGQKVWYFGLFGYNMPDLNHDSQKVREEVKKIVDFWISKGVDGFRIDAAKHIYGWSWDDGIQESAEYFEWFRDYVLSKKPDAILVGEVFSGNTYDLSLYPIPVFNFALMYSIRNYPEGQDGMIENNWVEESFLFLENHDLHRFFSHLQEHYKKFSESDYEFIKKRAALWYFLIFTLKGSPVIYYGGEIGTRGFKWHGPVYDEPVREPMQWYASGTGEGQTFWTKEVYKNAGITFGNADVDGCIYDDPYDGFSVEEQENDPKSLLNFIRFILNFRKDHDAILNGDQTIFRDWKNLIAFYRESSNEKLLVVLNPDPVWQNSFTFEENMTMILEVDFENFIWNESNVSFSAGESFTVDPMKAYIFKK NEVKYPVVYEIFIRSLYDSDGDGVGDINGVSQKVDYLRKLGIDAVWFMPFNEAVSYHGYDITDYYNVEKDYGTMEDLENMIQVLHENGIKVIMDLVINHTSDEHPWFKDAVENTTSSPYWDYYIMSLEDHSGQDHWHWKINSKGQKVWYFGLFGYNMPDLNHDSQKVREEVKKIVDFWISKGVDGFRIDAAKHIYGWSWDDGIQESAEYFEWFRDYVLSKKPDAILVGEVFSGNTYDLSLYPIPVFNFALMYSIRNYPEGQDGMIENNWVEESFLFLENHDLHRFFSHLQEHYKKFSESDYEFIKKRAALWYFLIFTLKGSPVIYYGGEIGTRGFKWHGPVYDEPVREPMQWYASGTGEGQTFWTKEVYKNAGITFGNADVDGCIYDDPYDGFSVEEQENDPKSLLNFIRFILNFRKDHDAILNGDQTIFRDWKNLIAFYRESSNEKLLVVLNPDPVWQNSFTFEENMTMILEVDFENFIWNESNVSFSAGESFTVDPMKAYIFKK 5m9e-a2-m1-cC_5m9e-a2-m1-cD Interactions between the Mal3 EB1-like domain and Dis1 Q10113 Q10113 2.83 X-RAY DIFFRACTION 77 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 68 70 5m97-a1-m1-cA_5m97-a1-m1-cB 5m9e-a1-m1-cA_5m9e-a1-m1-cB AKQAQQQITSLETQLYEVNETMFGLERERDFYFNKLREIEILVQTHLTTSPMSMENMLERIQAILYST SAKQAQQQITSLETQLYEVNETMFGLERERDFYFNKLREIEILVQTHLTTSPMSMENMLERIQAILYSTE 5m9f-a1-m1-cC_5m9f-a1-m1-cB Structure of the two C-terminal domains of bacteriophage K gp144 Q6Y7P9 Q6Y7P9 1.8 X-RAY DIFFRACTION 130 1.0 221915 (Kayvirus kay) 221915 (Kayvirus kay) 210 212 5m9f-a1-m1-cA_5m9f-a1-m1-cB 5m9f-a1-m1-cC_5m9f-a1-m1-cA PLLVYTSDSKTFQQAIIDHIDRTGQTTFTFYVQGGVSGSPMSNSCRGLFMSDTPNTSSLHGVYNAIGTDGRNVTGSVVGSNWTSPKTSPSHKELWTGAQSFLSTGTTKNLSDDISNYSYVEVYTTHKTTEKTKGNDNTGTICHKFYLDGSGTYVCSGTFVSGDRTDTKPPITEFYRVGVSFKGSTWTLVDSAVQNSKTQYVTRIIGINMP SFPLLVYTSDSKTFQQAIIDHIDRTGQTTFTFYVQGGVSGSPMSNSCRGLFMSDTPNTSSLHGVYNAIGTDGRNVTGSVVGSNWTSPKTSPSHKELWTGAQSFLSTGTTKNLSDDISNYSYVEVYTTHKTTEKTKGNDNTGTICHKFYLDGSGTYVCSGTFVSGDRTDTKPPITEFYRVGVSFKGSTWTLVDSAVQNSKTQYVTRIIGINMP 5mab-a1-m1-cC_5mab-a1-m1-cA FoxE P3121 crystal structure of Rhodopseudomonas ferrooxidans SW2 putative iron oxidase A3DTD8 A3DTD8 2.436 X-RAY DIFFRACTION 71 1.0 371731 (Rhodobacter sp. SW2) 371731 (Rhodobacter sp. SW2) 257 259 5mab-a1-m1-cA_5mab-a1-m1-cB 5mab-a1-m1-cC_5mab-a1-m1-cB 5mvo-a1-m1-cA_5mvo-a1-m1-cB 5mvo-a1-m1-cA_5mvo-a1-m1-cC 5mvo-a1-m1-cB_5mvo-a1-m1-cC RTLSQQYLDDVRSGAIVIEGDSAAVSELILKRDIPIPYSYIAQLFATPNAFGSGPACIICHGSNNPTHAYRGLNLSTCDGLRNGSTEQPARAIFTPGEDPKNAIIGRRLRANRMPLGIAFNNPTDSAPILAIKEWILAGAPNDEHFTKEILPLFATDNTFGPDTPHCTTCHFSNQEPPSFHELNLTTYEGIMLGADSVAKGVDNATKVIIPGDPEASKVFQHLTEDRMPPGIDPSEDRDHPNTQILFAWIKQGAKCE DTRTLSQQYLDDVRSGAIVIEGDSAAVSELILKRDIPIPYSYIAQLFATPNAFGSGPACIICHGSNNPTHAYRGLNLSTCDGLRNGSTEQPARAIFTPGEDPKNAIIGRRLRANRMPLGIAFNNPTDSAPILAIKEWILAGAPNDEHFTKEILPLFATDNTFGPDTPHCTTCHFSNQEPPSFHELNLTTYEGIMLGADSVAKGVDNATKVIIPGDPEASKVFQHLTEDRMPPGIDPSEDRDHPNTQILFAWIKQGAKCE 5mam-a4-m3-c3_5mam-a4-m3-c5 Human insulin in complex with serotonin P01308 P01308 2.2 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 28 1iza-a3-m1-cB_1iza-a3-m1-cD 1iza-a3-m2-cB_1iza-a3-m2-cD 1iza-a3-m3-cB_1iza-a3-m3-cD 1iza-a4-m1-cB_1iza-a4-m1-cD 1rwe-a3-m1-cB_1rwe-a3-m1-cD 1rwe-a3-m2-cB_1rwe-a3-m2-cD 1rwe-a3-m3-cB_1rwe-a3-m3-cD 2qiu-a1-m1-cB_2qiu-a1-m1-cD 2qiu-a1-m2-cB_2qiu-a1-m2-cD 2qiu-a1-m3-cB_2qiu-a1-m3-cD 3jsd-a1-m1-cB_3jsd-a1-m1-cD 3jsd-a1-m2-cB_3jsd-a1-m2-cD 3jsd-a1-m3-cB_3jsd-a1-m3-cD 3kq6-a1-m1-cB_3kq6-a1-m1-cD 3kq6-a1-m2-cB_3kq6-a1-m2-cD 3kq6-a1-m3-cB_3kq6-a1-m3-cD 3v19-a1-m1-cB_3v19-a1-m1-cD 3v19-a1-m2-cB_3v19-a1-m2-cD 3v19-a1-m3-cB_3v19-a1-m3-cD 4gbc-a1-m1-cB_4gbc-a1-m1-cD 4gbc-a1-m2-cB_4gbc-a1-m2-cD 4gbc-a1-m3-cB_4gbc-a1-m3-cD 4gbi-a1-m1-cB_4gbi-a1-m1-cD 4gbi-a1-m2-cB_4gbi-a1-m2-cD 4gbi-a1-m3-cB_4gbi-a1-m3-cD 4gbk-a1-m1-cB_4gbk-a1-m1-cD 4gbk-a1-m2-cB_4gbk-a1-m2-cD 4gbk-a1-m3-cB_4gbk-a1-m3-cD 4gbl-a1-m1-cB_4gbl-a1-m1-cD 4gbl-a1-m2-cB_4gbl-a1-m2-cD 4gbl-a1-m3-cB_4gbl-a1-m3-cD 4gbn-a1-m1-cB_4gbn-a1-m1-cD 4gbn-a1-m2-cB_4gbn-a1-m2-cD 4gbn-a1-m3-cB_4gbn-a1-m3-cD 5mam-a2-m1-cF_5mam-a2-m1-cH 5mam-a2-m1-cN_5mam-a2-m1-cP 5mam-a3-m1-cT_5mam-a3-m1-cR 5mam-a3-m1-cV_5mam-a3-m1-cX 5mam-a4-m1-c3_5mam-a4-m1-c5 5mam-a4-m2-c3_5mam-a4-m2-c5 5mt3-a1-m1-cB_5mt3-a1-m1-cD 5mt3-a1-m2-cB_5mt3-a1-m2-cD 5mt3-a1-m3-cB_5mt3-a1-m3-cD 5mt3-a3-m1-cR_5mt3-a3-m1-cT 5mt3-a3-m1-cV_5mt3-a3-m1-cX 5mt3-a3-m1-cZ_5mt3-a3-m1-cb 5mt3-a4-m1-cd_5mt3-a4-m1-cf 5mt3-a4-m2-cd_5mt3-a4-m2-cf 5mt3-a4-m3-cd_5mt3-a4-m3-cf 5mt9-a2-m1-cF_5mt9-a2-m1-cH 5mt9-a3-m1-cR_5mt9-a3-m1-cT 5mt9-a3-m1-cV_5mt9-a3-m1-cX 5mt9-a3-m1-cZ_5mt9-a3-m1-cb 5mt9-a4-m1-cd_5mt9-a4-m1-cf 5mt9-a4-m2-cd_5mt9-a4-m2-cf 5mt9-a4-m3-cd_5mt9-a4-m3-cf 6ins-a1-m1-cF_6ins-a1-m1-cE 6ins-a2-m1-cE_6ins-a2-m1-cF 6ins-a2-m2-cF_6ins-a2-m2-cE 6ins-a2-m3-cF_6ins-a2-m3-cE 6tc2-a1-m1-cD_6tc2-a1-m1-cB 6tc2-a1-m1-cF_6tc2-a1-m1-cH 6z7w-a2-m1-cJ_6z7w-a2-m1-cP 6z7w-a4-m1-cL_6z7w-a4-m1-cN 8gsg-a1-m1-cB_8gsg-a1-m1-cD 8gsg-a1-m2-cB_8gsg-a1-m2-cD 8gsg-a1-m3-cB_8gsg-a1-m3-cD HLCGSHLVEALYLVCGERGFFYTP VNQHLCGSHLVEALYLVCGERGFFYTPK 5mcv-a1-m2-cA_5mcv-a1-m2-cB New Insights into the Role of DNA Shape on Its Recognition by p53 Proteins (complex p53DBD-LWC1) P04637 P04637 1.6 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 200 1tsr-a1-m1-cB_1tsr-a1-m1-cC 1tup-a1-m1-cB_1tup-a1-m1-cC 3kmd-a1-m1-cA_3kmd-a1-m1-cD 3kmd-a1-m1-cB_3kmd-a1-m1-cC 3kz8-a1-m1-cA_3kz8-a1-m1-cB 3kz8-a1-m2-cA_3kz8-a1-m2-cB 3q05-a1-m1-cA_3q05-a1-m1-cC 3q05-a1-m1-cB_3q05-a1-m1-cD 3q06-a1-m1-cA_3q06-a1-m1-cC 3q06-a1-m1-cB_3q06-a1-m1-cD 3ts8-a1-m1-cA_3ts8-a1-m1-cC 3ts8-a1-m1-cB_3ts8-a1-m1-cD 4hje-a1-m1-cA_4hje-a1-m1-cD 4hje-a1-m1-cB_4hje-a1-m1-cC 4mzr-a1-m1-cA_4mzr-a1-m1-cC 4mzr-a1-m1-cB_4mzr-a1-m1-cD 5lgy-a1-m1-cA_5lgy-a1-m1-cC 5lgy-a1-m1-cD_5lgy-a1-m1-cB 5mct-a1-m1-cA_5mct-a1-m1-cB 5mct-a1-m2-cA_5mct-a1-m2-cB 5mcu-a1-m1-cA_5mcu-a1-m1-cB 5mcu-a1-m2-cA_5mcu-a1-m2-cB 5mcv-a1-m1-cA_5mcv-a1-m1-cB 5mcw-a1-m1-cA_5mcw-a1-m1-cB 5mcw-a1-m2-cA_5mcw-a1-m2-cB 5mf7-a1-m1-cA_5mf7-a1-m1-cB 5mf7-a1-m2-cA_5mf7-a1-m2-cB 5mg7-a1-m1-cA_5mg7-a1-m1-cB 5mg7-a1-m2-cA_5mg7-a1-m2-cB 5xzc-a2-m1-cD_5xzc-a2-m1-cE 6fj5-a1-m1-cA_6fj5-a1-m1-cB 6fj5-a1-m1-cC_6fj5-a1-m1-cD 7b49-a1-m1-cA_7b49-a1-m1-cB 7b49-a1-m2-cA_7b49-a1-m2-cB 7b4a-a1-m1-cA_7b4a-a1-m1-cB 7b4a-a1-m2-cA_7b4a-a1-m2-cB 7eeu-a1-m1-cA_7eeu-a1-m1-cB 7eeu-a1-m1-cC_7eeu-a1-m1-cD 7eeu-a2-m1-cF_7eeu-a2-m1-cE 7eeu-a2-m1-cG_7eeu-a2-m1-cH 7xzx-a1-m1-cK_7xzx-a1-m1-cN 7xzx-a1-m1-cL_7xzx-a1-m1-cM 7xzz-a1-m1-cK_7xzz-a1-m1-cN 7xzz-a1-m1-cL_7xzz-a1-m1-cM SSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKKG SSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKKG 5mdh-a1-m1-cA_5mdh-a1-m1-cB CRYSTAL STRUCTURE OF TERNARY COMPLEX OF PORCINE CYTOPLASMIC MALATE DEHYDROGENASE ALPHA-KETOMALONATE AND TNAD AT 2.4 ANGSTROMS RESOLUTION P11708 P11708 2.4 X-RAY DIFFRACTION 119 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 333 333 4mdh-a1-m1-cA_4mdh-a1-m1-cB 7rm9-a1-m1-cB_7rm9-a1-m1-cA 7rrl-a1-m1-cA_7rrl-a1-m1-cB SEPIRVLVTGAAGQIAYSLLYSIGNGSVFGKDQPIILVLLDITPMMGVLDGVLMELQDCALPLLKDVIATDKEEIAFKDLDVAILVGSMPRRDGMERKDLLKANVKIFKCQGAALDKYAKKSVKVIVVGNPANTNCLTASKSAPSIPKENFSCLTRLDHNRAKAQIALKLGVTSDDVKNVIIWGNHSSTQYPDVNHAKVKLQAKEVGVYEAVKDDSWLKGEFITTVQQRGAAVIKARKLSSAMSAAKAICDHVRDIWFGTPEGEFVSMGIISDGNSYGVPDDLLYSFPVTIKDKTWKIVEGLPINDFSREKMDLTAKELAEEKETAFEFLSSA SEPIRVLVTGAAGQIAYSLLYSIGNGSVFGKDQPIILVLLDITPMMGVLDGVLMELQDCALPLLKDVIATDKEEIAFKDLDVAILVGSMPRRDGMERKDLLKANVKIFKCQGAALDKYAKKSVKVIVVGNPANTNCLTASKSAPSIPKENFSCLTRLDHNRAKAQIALKLGVTSDDVKNVIIWGNHSSTQYPDVNHAKVKLQAKEVGVYEAVKDDSWLKGEFITTVQQRGAAVIKARKLSSAMSAAKAICDHVRDIWFGTPEGEFVSMGIISDGNSYGVPDDLLYSFPVTIKDKTWKIVEGLPINDFSREKMDLTAKELAEEKETAFEFLSSA 5mdm-a2-m1-cC_5mdm-a2-m1-cA Structural intermediates in the fusion associated transition of vesiculovirus glycoprotein P13180 P13180 2.998 X-RAY DIFFRACTION 107 1.0 11272 (Chandipura virus) 11272 (Chandipura virus) 398 410 5mdm-a1-m1-cF_5mdm-a1-m1-cE YLSIAFPENTKLDWKPVTKNTRYCPMGGEWFLEPGLQEESFLSSTPIGATPSKSDGFLCHAAKWVTTCDFRWYGPKYITHSIHNIKPTRSDCDTALASYKSGTLVSLGFPPESCGYASVTDSEFLVIMITPHHVGVDDYRGHWVDPLFVGGECDQSYCDTIHNSSVWIPADQTKKNICGQSFTPLTVTVAYDKTKEIAAGGIVFKSKYHSHMEGARTCRLSYCGRNGIKFPNGEWVSLDVKTRIQEKHLLPLFKECPAGTEVRSTLQSAQVLTSEIQRILDYSLCQNTWDKVERKEPLSPLDLSYLASKSPGKGLAYTVINGTLSFAHTRYVRMWIDGPVLKEPKGKRESPSGISSDIWTQWFKYGDMEIGPNGLLKTAGGYKFPWHLIGMELHELSE YLSIAFPENTKLDWKPVTKNTRYCPMGGEWFLEPGLQEESFLSSTPIGATPSKSDGFLCHAAKWVTTCDFRWYGPKYITHSIHNIKPTRSDCDTALASYKSGTLVSLGFPPESCGYASVTDSEFLVIMITPHHVGVDDYRGHWVDPLFVGGECDQSYCDTIHNSSVWIPADQTKKNICGQSFTPLTVTVAYDKTKEIAAGGIVFKSKYHSHMEGARTCRLSYCGRNGIKFPNGEWVSLDVKTRIQEKHLLPLFKECPAGTEVRSTLQSDGAQVLTSEIQRILDYSLCQNTWDKVERKEPLSPLDLSYLASKSPGKGLAYTVINGTLSFAHTRYVRMWIDGPVLKEPKGKRESPSGISSDIWTQWFKYGDMEIGPNGLLKTAGGYKFPWHLIGMGIVDNELHELSEANPLD 5med-a1-m1-cB_5med-a1-m1-cA Cyanothece lipoxygenase 2 (CspLOX2) B7JX99 B7JX99 1.8 X-RAY DIFFRACTION 79 1.0 41431 (Rippkaea orientalis PCC 8801) 41431 (Rippkaea orientalis PCC 8801) 565 569 5mee-a1-m1-cB_5mee-a1-m1-cA 5mef-a1-m1-cB_5mef-a1-m1-cA 5meg-a1-m1-cB_5meg-a1-m1-cA MVQPSLPQDDTPDQQEQRNRAIAQQREAYQYSETAGILLIKTLPQSEMFSLKYLIERDKGLVSLIANTLASNIENIFDPFDKLEDFEEMFPLLPKPLVMNTFRNDRVFARQRIAGPNPMVIERVVDKLPDNFPVTDAMFQKIMFTKKTLAEAIAQGKLFITNYKGLAELSPGRYEYQKNGTLVQKTKTIAAPLVLYAWKPEGRGSLAPIAIQINQQPDPITNPIYTPRDGKHWFIAKIFAQMADGNCHEAISHLARTHLILEPFVLATANELAPNHPLSVLLKPHFQFTLAINELAREQLISAGGYADDLLAGTLEASIAVIKAAIKEYMDNFTEFALPRELARRGVGIGDVDQRGENFLPDYPYRDDAMLLWNAIEVYVRDYLSLYYQSPVQIRQDTELQNWVRRLVSPEGGRVTGLVSNGELNTIEALVAIATQVIFVSGPQHAAVNYPQYDYMAFIPNMPLATYATPPNKESNISEATILNILPPQKLAARQLELMRTLCVFYPNRLGYPDTEFVDVRAQQVLHQFQERLQEIEQRIVLCNEKRLEPYTYLLPSNVPNSTSI MVQPSLPQDDTPDQQEQRNRAIAQQREAYQYSETAGILLIKTLPQSEMFSLKYLIERDKGLVSLIANTLASNIENIFDPFDKLEDFEEMFPLLPKPLVMNTFRNDRVFARQRIAGPNPMVIERVVDKLPDNFPVTDAMFQKIMFTKKTLAEAIAQGKLFITNYKGLAELSPGRYEYQKNGTLVQKTKTIAAPLVLYAWKPEGFGDYRGSLAPIAIQINQQPDPITNPIYTPRDGKHWFIAKIFAQMADGNCHEAISHLARTHLILEPFVLATANELAPNHPLSVLLKPHFQFTLAINELAREQLISAGGYADDLLAGTLEASIAVIKAAIKEYMDNFTEFALPRELARRGVGIGDVDQRGENFLPDYPYRDDAMLLWNAIEVYVRDYLSLYYQSPVQIRQDTELQNWVRRLVSPEGGRVTGLVSNGELNTIEALVAIATQVIFVSGPQHAAVNYPQYDYMAFIPNMPLATYATPPNKESNISEATILNILPPQKLAARQLELMRTLCVFYPNRLGYPDTEFVDVRAQQVLHQFQERLQEIEQRIVLCNEKRLEPYTYLLPSNVPNSTSI 5mez-a1-m1-cB_5mez-a1-m1-cA Crystal structure of Smad4-MH1 bound to the GGCT site. Q13485 Q13485 2.98 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 125 ACLSIVHSLMCHRQGGESETFAKRAIESLVKKLKEKKDELDSLITAITTNGAHPSKCVTIQRTLDGRLQVAGRKGFPHVIYARLWRWPDLHKNELKHVKYCQYAFDLKCDSVCVNPYHYERV ACLSIVHSLMCHRQGGESETFAKRAIESLVKKLKEKKDELDSLITAITTNGAHPSKCVTIQRTLDGRLQVAGRKGFPHVIYARLWRWPDLHKNELKHVKYCQYAFDLKCDSVCVNPYHYERVVSP 5mf1-a1-m1-cB_5mf1-a1-m1-cC Crystal structure of a C-terminally truncated trimeric ectodomain of the Chlamydomonas reinhardtii gamete fusion protein HAP2 A4GRC6 A4GRC6 3.3 X-RAY DIFFRACTION 191 0.995 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 441 442 5mf1-a1-m1-cB_5mf1-a1-m1-cA 5mf1-a1-m1-cC_5mf1-a1-m1-cA VIASGRLEKCVVDGVTEELDCQEKVVVTLTVGNGQSLQTEALEFSLAPLRVSLTKSPLWASYPLQYLSSFNWKPLEVILRPSNKVCKDGDWEDSPTCGWFSVRVADSQGFCCECTRANLDCDPVSAHCLTFDPQWYSGYELGAASLQFEIAITVEVREVLHLGPSVPLASSASRLLSAKLLGDLAMYTQLPAISNQVLMVPQPPATNRSAWMLLDKTMLSMDGLACDKVGTGFSAFRYQPSGCGRAPQACLSGQLKDLWEADLARIADGRVPLYMITRFTGGSDTTLQSFSGGPLSFALPVTSHSQSLVTLSVAADGVRLVTNRSPGKITGAAVCRFAGTSCGGFEAVAARGYIYVNITNTGRLDSDYTLTVSNCSSNVRPIEARTLAVRAGSAASLDPPMELYVEDQAAAAARTCTVSLYDSVGAVTDSLTLSFYTNATQ VIASGRLEKCVVDGVTEELDCQEKVVVTLTVGNGQSLQTEALEFSAPLRVSLTKSPLWASYPLQYLSSFNWKPLEVILRPSNKVCKDGDWEDSPTCGWFSQGGVRVADSQGFCCECTRANLDCPVSAHCLTFDPQWYSGYELGAASLQFEIAITVEVREVLHLGPSVPLASSASRLLSAKLLGDLAMYTQLPAISNQVLMVPQPPATNRSAWMLLDKTMLSMDGLACDKVGTGFSAFRYQPSGCGRAPQACLSGQLKDLWEADLARIADGRVPLYMITRFTGGSDTTLQSFSGGPLSFALPVTSHSQSLVTLSVAADGVRLVTNRSPGKITGAAVCRFAGTSCGGFEAVAARGYIYVNITNTGRLDSDYTLTVSNCSSNVRPIEARTLAVRAGSAASLDPPMELYVEDQAAAAARTCTVSLYDSVGAVTDSLTLSFYTNATQ 5mfi-a1-m1-cA_5mfi-a1-m1-cB Designed armadillo repeat protein YIII(Dq.V2)4CqI in complex with peptide (KR)4 1.45 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 239 240 4d49-a1-m1-cA_4d49-a1-m1-cB 4d49-a2-m1-cE_4d49-a2-m1-cF 5mfj-a1-m1-cA_5mfj-a1-m1-cB ELPQMVQQLNSPDQQELQSALRKLSQIASGGNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLEEAGAEPALEKLQSSPNEEVQKNAQAALEALNS SELPQMVQQLNSPDQQELQSALRKLSQIASGGNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLIEAGALSPLVKLLDDASEEVIQEAVWAIANIASGNNEQIQKLEEAGAEPALEKLQSSPNEEVQKNAQAALEALNS 5mgs-a3-m1-cF_5mgs-a3-m1-cE Human receptor NKR-P1 in deglycosylated form, extracellular domain Q12918 Q12918 1.9 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 125 5mgr-a1-m1-cA_5mgr-a1-m1-cB 5mgs-a1-m1-cA_5mgs-a1-m1-cB 5mgs-a2-m1-cD_5mgs-a2-m1-cC 5mgs-a4-m1-cG_5mgs-a4-m1-cH 5mgt-a2-m1-cD_5mgt-a2-m1-cC 5mgt-a3-m1-cF_5mgt-a3-m1-cE LLNCPIYWQQLREKCLLFSHTVNPWNNSLADCSTKESSLLLIRDKDELIHTQNLIRDKAILFWIGLNFSLSEKNWKWINGSFLNSNDLEIRGDAKENSCISISQTSVYSEYCSTEIRWICQKEL GLLNCPIYWQQLREKCLLFSHTVNPWNNSLADCSTKESSLLLIRDKDELIHTQNLIRDKAILFWIGLNFSLSEKNWKWINGSFLNSNDLEIRGDAKENSCISISQTSVYSEYCSTEIRWICQKEL 5mgt-a1-m1-cA_5mgt-a1-m1-cB Complex of human NKR-P1 and LLT1 in deglycosylated forms Q9UHP7 Q9UHP7 1.9 X-RAY DIFFRACTION 31 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 116 116 4qkh-a1-m1-cB_4qkh-a1-m1-cA 4qki-a1-m1-cB_4qki-a1-m1-cA 4qkj-a1-m1-cA_4qkj-a1-m2-cA AACPESWIGFQRKCFYFSDDTKNWTSSQRFCDSQDADLAQVESFQELNFLLRYKGPSDHWIGLSREQGQPWKWINGTEWTRQFPILGAGECAYLNDKGASSARCYTERKWICSKSD ACPESWIGFQRKCFYFSDDTKNWTSSQRFCDSQDADLAQVESFQELNFLLRYKGPSDHWIGLSREQGQPWKWINGTEWTRQFPILGAGECAYLNDKGASSARCYTERKWICSKSDI 5mgz-a1-m1-cA_5mgz-a1-m1-cB Streptomyces Spheroides NovO (8-demethylnovbiocic acid methyltransferase) with SAH Q9L9F3 Q9L9F3 1.9 X-RAY DIFFRACTION 40 1.0 193462 (Streptomyces niveus) 193462 (Streptomyces niveus) 230 230 MKIEAITGSEAEAFHRMGSQASHRYDEFVDLLVGAGIADGQTVVDLCCGSGELEVILSSRFPSLNLVGVDLSEDMVRIAREYAAEQGKALEFRHGDAQLLAGMEDLAGKADLVVSRNAFHRLTRLPAAFDTMLRLAKPGGAVLNCSFIHPSDFDESGFRAWVTFLNQRPWDSEMQIVWALAHHYAPRLDDYREALAQAARETPVSEQRVWIDDQGYGVPTVKCFARRAAA MKIEAITGSEAEAFHRMGSQASHRYDEFVDLLVGAGIADGQTVVDLCCGSGELEVILSSRFPSLNLVGVDLSEDMVRIAREYAAEQGKALEFRHGDAQLLAGMEDLAGKADLVVSRNAFHRLTRLPAAFDTMLRLAKPGGAVLNCSFIHPSDFDESGFRAWVTFLNQRPWDSEMQIVWALAHHYAPRLDDYREALAQAARETPVSEQRVWIDDQGYGVPTVKCFARRAAA 5mh6-a2-m1-cC_5mh6-a2-m1-cD D-2-hydroxyacid dehydrogenases (D2-HDH) from Haloferax mediterranei in complex with 2-ketohexanoic acid and NAD+ (1.35 A resolution) Q2VEQ7 Q2VEQ7 1.35 X-RAY DIFFRACTION 161 1.0 523841 (Haloferax mediterranei ATCC 33500) 523841 (Haloferax mediterranei ATCC 33500) 308 308 5mh5-a1-m1-cA_5mh5-a1-m1-cB 5mh6-a1-m1-cA_5mh6-a1-m1-cB 5mha-a1-m1-cA_5mha-a1-m1-cB MHIERLAVDESVGRAMPPQRFIEALSDLGVPVEFAGEDEQFGPGDAVASFGHRDAFLDADWVHCIRAGYDEFPVGVYEEAGTYLTNSTGIHGTTVGETVAGYMLTFARRLHAYRDAQHDHAWDLPRYEEPFTLAGERVCVVGLGTLGRGVVDRAAALGMEVVGVRRSGDPVDNVSTVYTPDRLHEAIADARFVVLATPLTDETEGMVAAPEFETMREDASLVNVARGPVVVESDLVAALDSGDIAGAALDVFSEEPLPEDSPLWDFEDVLITPHVSAATSKYHEDVAALIRENIEKIATGDELTNRVV MHIERLAVDESVGRAMPPQRFIEALSDLGVPVEFAGEDEQFGPGDAVASFGHRDAFLDADWVHCIRAGYDEFPVGVYEEAGTYLTNSTGIHGTTVGETVAGYMLTFARRLHAYRDAQHDHAWDLPRYEEPFTLAGERVCVVGLGTLGRGVVDRAAALGMEVVGVRRSGDPVDNVSTVYTPDRLHEAIADARFVVLATPLTDETEGMVAAPEFETMREDASLVNVARGPVVVESDLVAALDSGDIAGAALDVFSEEPLPEDSPLWDFEDVLITPHVSAATSKYHEDVAALIRENIEKIATGDELTNRVV 5mhk-a1-m1-cC_5mhk-a1-m1-cD ICP4 DNA-binding domain in complex with 19mer DNA duplex from its own promoter P08392 P08392 2.28 X-RAY DIFFRACTION 235 0.995 10298 (Human alphaherpesvirus 1) 10298 (Human alphaherpesvirus 1) 195 197 5mhj-a1-m1-cB_5mhj-a1-m1-cA 5mhk-a2-m1-cA_5mhk-a2-m1-cB ELDADATSGAFYARYRDGYVSGEPWPGAGPPPPGRVLYGGLGDSRPGLWGAPEAEEARRRFEASGAPAAVWAPELGDAAQQYALITRLLYTPDAEAMGWLQNPRVVPGDVALDQACFRISGAARNSSSFITGSVARAVPHLGYAMAAGRFGWGLAHAAAAVAMSRRYDRAQKGFLLTSLRRAYAPLLARENAALT RRVELDADATSGAFYARYRDGYVSGEPWPGAGPPPPGRVLYGGLGDSRPGLWGAPEAEEARRRFEASGAPAAVWAPELGDAAQQYALITRLLYTPDAEAMGWLQNPRVVPGDVALDQACFRISGAARNSSSFITGSVARAVPHLGYAMAAGRFGWGLAHAAAAVAMSRRYDRAQKGFLLTSLRRAYAPLLARENAAL 5mif-a1-m1-cC_5mif-a1-m1-cA Crystal structure of carboxyl esterase 2 (TmelEST2) from mycorrhizal fungus Tuber melanosporum D5GA36 D5GA36 2.141 X-RAY DIFFRACTION 83 1.0 656061 (Tuber melanosporum Mel28) 656061 (Tuber melanosporum Mel28) 301 302 5mif-a2-m1-cD_5mif-a2-m1-cB 5mii-a1-m1-cC_5mii-a1-m1-cA 5mii-a2-m1-cB_5mii-a2-m1-cD QLDPITQAYADAISSRPSLFAFPLPEIRDGYQSSTEFTTKILSLPVGPTGNVTAYLYKPVDLLPVIAYFHGGGWVFGGPKSYRGLITNLIRESGAAVFFVDYTLTPKVAYPVPNEQCYAAVQWLLEHGEKLGVDPTNMGFGGDSAGGELSSSVSLLSIKRKTPLPKFQVLIYPATDLACESATFKEFPNGPGLTTDEIRFAASLFTPDPKSRLEDVASPGRASDEDLAKFPETLIVVAEVDPIRQQGEDFGRRLQKLGVRAAIIRVLGTIHGFASIDVLSEAPGAKATIELIGYKFKKALH QLDPITQAYADAISSRPSLFAFPLPEIRDGYQSSTEFTTKILSLPVGPTGNVTAYLYKPVSDLLPVIAYFHGGGWVFGGPKSYRGLITNLIRESGAAVFFVDYTLTPKVAYPVPNEQCYAAVQWLLEHGEKLGVDPTNMGFGGDSAGGELSSSVSLLSIKRKTPLPKFQVLIYPATDLACESATFKEFPNGPGLTTDEIRFAASLFTPDPKSRLEDVASPGRASDEDLAKFPETLIVVAEVDPIRQQGEDFGRRLQKLGVRAAIIRVLGTIHGFASIDVLSEAPGAKATIELIGYKFKKALH 5mil-a1-m1-cB_5mil-a1-m1-cA Pirating conserved phage mechanisms promotes promiscuous staphylococcal pathogenicity islands transfer. Q4ZDP4 Q4ZDP4 2.1 X-RAY DIFFRACTION 65 0.994 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 156 157 NTLTIDQLQELLQIQKEFDDRIPTLNLRDSKIAYVVEFFEWFNTLETFKNWKKKPGKPLDVQLDELADMLAFGLSIANQSGVSLKTLEKLIPSTLGKVYFNTSSIMKDFMEDFVYFGLGEEDSLSLPLNIAYNLYSIDQLIDAYKKKMKRNHERQD TLTIDQLQELLQIQKEFDDRIPTLNLRDSKIAYVVEFFEWFNTLETFKNWKKKPGKPLDVQLDELADMLAFGLSIANQSGVSLKTLEKLIPSTLGKVYFNTSSIMKDFMEDFVYFGLGEEDSLSLPLNIAYNLYSIDQLIDAYKKKMKRNHERQDGT 5mit-a1-m1-cA_5mit-a1-m2-cA Crystal Structure of Lactococcus lactis Thioredoxin Reductase Exposed to Visible Light (240 min) A2RLJ5 A2RLJ5 1.8 X-RAY DIFFRACTION 91 1.0 1359 (Lactococcus cremoris) 1359 (Lactococcus cremoris) 303 303 5mh4-a1-m1-cA_5mh4-a1-m2-cA 5mip-a1-m1-cA_5mip-a1-m2-cA 5miq-a1-m1-cA_5miq-a1-m2-cA 5mir-a1-m1-cA_5mir-a1-m2-cA 5mis-a1-m1-cA_5mis-a1-m2-cA 5mjk-a1-m1-cA_5mjk-a1-m1-cB 5mjk-a2-m1-cC_5mjk-a2-m1-cD KYDVVIIGSGPAGMTAAMYTARSEMKTLLLERGVPGGQMNNTAEIENYPGYETIMGPELSMKMAEPLEGLGVENAYGFVTGIEDHGDYKKIITEDDEFITKSIIIATGANHRKLEIPGEEEYGARGVSYCAVCDGAFFRNQEILVIGGGDSAVEEALYLTRFGQSVTIMHRRDKLRAQEIIQQRAFKEEKINFIWDSVPMEIKGDDKKIQSVVYKNVKTGEVTEKAFGGIFIYVGLDPVAEFVSDLGITDEAGWIITDDHMRTNIPGIFAVGDVRQKDFRQITTAVGDGAQAAQEAYKFVVEL KYDVVIIGSGPAGMTAAMYTARSEMKTLLLERGVPGGQMNNTAEIENYPGYETIMGPELSMKMAEPLEGLGVENAYGFVTGIEDHGDYKKIITEDDEFITKSIIIATGANHRKLEIPGEEEYGARGVSYCAVCDGAFFRNQEILVIGGGDSAVEEALYLTRFGQSVTIMHRRDKLRAQEIIQQRAFKEEKINFIWDSVPMEIKGDDKKIQSVVYKNVKTGEVTEKAFGGIFIYVGLDPVAEFVSDLGITDEAGWIITDDHMRTNIPGIFAVGDVRQKDFRQITTAVGDGAQAAQEAYKFVVEL 5miv-a1-m1-cA_5miv-a1-m1-cC G307E variant of murine Apoptosis Inducing Factor in complex with NAD+ Q9Z0X1 Q9Z0X1 3.1 X-RAY DIFFRACTION 47 0.991 10090 (Mus musculus) 10090 (Mus musculus) 442 442 3gd4-a1-m1-cB_3gd4-a1-m1-cA 5kvh-a1-m1-cA_5kvh-a1-m1-cB PSHVPFLLIGGGTAAFAAARSIRARDPGARVLIVSEDPELPYMRPPLSKELWFSDDPNVTKTLQFRQWNGKERSIYFQPPSFYVSAQDLPNIENGGVAVLTGKKVVHLDVRGNMVKLNDGSQITFEKCLIATGGTPRSLSAIDRAGAEVKSRTTLFRKIGDFRALEKISREVKSITVIGEGFLGSELACALGRKSQASGIEVIQLFPEKGNMGKILPQYLSNWTMEKVKREGVKVMPNAIVQSVGVSGGRLLIKLKDGRKVETDHIVTAVGLEPNVELAKTGGLEIDSDFGGFRVNAELQARSNIWVAGDAACFYDIKLGRRRVEHHDHAVVSGRLAGENMTGAAKPYWHQSMFWSDLGPDVGYEAIGLVDSSLPTVGVFAKEITIPEDYGKGVIFYLRDKVVVGIVLWNVFNRMPIARKIIKDGEQHEDLNEVAKLFNIHE PSHVPFLLIGGGTAAFAAARSIRARDPGARVLIVSEDPELPYMRPPLSKELWFSDDPNVTKTLQFRQWNGKERSIYFQPPSFYVSAQDLPNIENGGVAVLTGKKVVHLDVRGNMVKLNDGSQITFEKCLIATGGTPRSLSAIDRAGAEVKSRTTLFRKIGDFRALEKISREVKSITVIGEGFLGSELACALGRKSQASGIEVIQLFPEKGNMGKILPQYLSNWTMEKVKREGVKVMPNAIVQSVGVSGGRLLIKLKDGRKVETDHIVTAVGLEPNVELAKTGGLEIDSDFGGFRVNAELQARSNIWVAGDAACFYDIKLGRRRVEHHDHAVVSGRLAGENMTGAAKPYWHQSMFWSDLGPDVGYEAIGLVDSSLPTVGVFAKITIPPEDYGKGVIFYLRDKVVVGIVLWNVFNRMPIARKIIKDGEQHEDLNEVAKLFNIHE 5mj0-a1-m1-cB_5mj0-a1-m1-cA Extracellular domain of human CD83 - cubic crystal form Q01151 Q01151 3.2 X-RAY DIFFRACTION 22 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 79 80 GTPEVKVASSEDVDLPCTAPWDPQVPYTVSWVKLLERPYSLKIRNTTSSNSGTYRCTLQDPDGQRNLSGKVILRVTGSP PGTPEVKVASSEDVDLPCTAPWDPQVPYTVSWVKLLNERPYSLKIRNTTSSNSGTYRCTLQDPDGQRNLSGKVILRVTGS 5mj7-a1-m1-cB_5mj7-a1-m2-cB Structure of the C. elegans nucleoside hydrolase Q9XWN7 Q9XWN7 1.65 X-RAY DIFFRACTION 73 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 321 321 5mj7-a1-m1-cA_5mj7-a1-m2-cA KVKLVIDSDGVSDDVRAISLALQHPKAEILAFTAVHGCVTVDQACANIKRTIRANDRSNIPVYKGAAKSILSLPKDDTVSDFFGIDGIGDKPEEFPKVERSDFEGEGKHASLALIDILRENRDATLVTIGPLTNVAIALQLCEEFSTYPSRLVIMGGNYYAVGNVDGGSSAEYNFHGDPEAASIVLRRMKCPITIVPWEAFYFESKTHDASVDFSAHLKYGTPLANYLSLATSIGRVKCEANGRQYSYCDEIAVATAIDEDKIAKKSQYLYVDVELNGTKTRGQVVVDWTEHRRVKFVTSYDVHTVDKWLHAATSGSGKFD KVKLVIDSDGVSDDVRAISLALQHPKAEILAFTAVHGCVTVDQACANIKRTIRANDRSNIPVYKGAAKSILSLPKDDTVSDFFGIDGIGDKPEEFPKVERSDFEGEGKHASLALIDILRENRDATLVTIGPLTNVAIALQLCEEFSTYPSRLVIMGGNYYAVGNVDGGSSAEYNFHGDPEAASIVLRRMKCPITIVPWEAFYFESKTHDASVDFSAHLKYGTPLANYLSLATSIGRVKCEANGRQYSYCDEIAVATAIDEDKIAKKSQYLYVDVELNGTKTRGQVVVDWTEHRRVKFVTSYDVHTVDKWLHAATSGSGKFD 5mj7-a1-m2-cB_5mj7-a1-m2-cA Structure of the C. elegans nucleoside hydrolase Q9XWN7 Q9XWN7 1.65 X-RAY DIFFRACTION 48 0.997 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 321 322 5mj7-a1-m1-cB_5mj7-a1-m1-cA KVKLVIDSDGVSDDVRAISLALQHPKAEILAFTAVHGCVTVDQACANIKRTIRANDRSNIPVYKGAAKSILSLPKDDTVSDFFGIDGIGDKPEEFPKVERSDFEGEGKHASLALIDILRENRDATLVTIGPLTNVAIALQLCEEFSTYPSRLVIMGGNYYAVGNVDGGSSAEYNFHGDPEAASIVLRRMKCPITIVPWEAFYFESKTHDASVDFSAHLKYGTPLANYLSLATSIGRVKCEANGRQYSYCDEIAVATAIDEDKIAKKSQYLYVDVELNGTKTRGQVVVDWTEHRRVKFVTSYDVHTVDKWLHAATSGSGKFD DKVKLVIDSDGVSDDVRAISLALQHPKAEILAFTAVHGCVTVDQACANIKRTIRANDRSNIPVYKGAAKSILSLPKDDTVSDFFGIDGIGDKPEEFPKVERSDFEGEGKHASLALIDILRENRDATLVTIGPLTNVAIALQLCEEFSTYPSRLVIMGGNYYAVGNVDGGSSAEYNFHGDPEAASIVLRRMKCPITIVPWEAFYFESKTHDASVDFSAHLKYGTPLANYLSLATSIGRVKCEANGRQYSYCDEIAVATAIDEDKIAKKSQYLYVDVELNGTKTRGQVVVDWTTHRRVKFVTSYDVHTVDKWLHAATSGSGKFD 5mjy-a2-m1-cD_5mjy-a2-m1-cC Crystal structure of the His Domain Protein Tyrosine Phosphatase (HD-PTP/PTPN23) Bro1 domain (SARA complex structure) Q9H3S7 Q9H3S7 2.25 X-RAY DIFFRACTION 30 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 358 360 3rau-a1-m1-cB_3rau-a1-m1-cA 5mjy-a1-m1-cA_5mjy-a1-m1-cB VPRMPMIWLDLKEAGDFHFQPAVKKFVLKNYGENPEAYNEELKKLELLRQNAVRVPRDFEGCSVLRKYLGQLHYLQSRVPMGSGQEAAVPVTWTEIFSGKSVAHEDIKYEQACILYNLGALHSMLGAMDKRVSEEGMKVSCTHFQCAAGAFAYLREHFPQAYSVDMSRQILTLNVNLMLGQAQECLLEKSMLDNRKSFLVARISAQVVDYYKEACRALENPDTASLLGRIQKDWKKLVQMKIYYFAAVAHLHMGKQAEEQQKFGERVAYFQSALDKLNEAIKLAKGQPDTVQDALRFTMDVIGGKYNSAKKDNDFIYHEAVPALDTLQPVKGAPLVKPLPVNPTDPAVTGPDIFAKLV MEAVPRMPMIWLDLKEAGDFHFQPAVKKFVLKNYGENPEAYNEELKKLELLRQNAVRVPRDFEGCSVLRKYLGQLHYLQSRVPMGSGQEAAVPVTWTEIFSGKSVAHEDIKYEQACILYNLGALHSMLGAMDKRVSEEGMKVSCTHFQCAAGAFAYLREHFPQAYSVDMSRQILTLNVNLMLGQAQECLLEKSMLDNRKSFLVARISAQVVDYYKEACRALENPDTASLLGRIQKDWKKLVQMKIYYFAAVAHLHMGKQAEEQQKFGERVAYFQSALDKLNEAIKLAKGQPDTVQDALRFTMDVIGGKYNSAKKDNDFIYHEAVPALDTLQPVKGAPLVKPLPVNPTDPAVTGPDIFAKL 5mkb-a9-m1-cA_5mkb-a9-m1-cD Maltodextrin binding protein MalE1 from L. casei BL23 without ligand B0L7B0 B0L7B0 1.698 X-RAY DIFFRACTION 16 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 373 373 NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA 5mkb-a9-m1-cB_5mkb-a9-m1-cF Maltodextrin binding protein MalE1 from L. casei BL23 without ligand B0L7B0 B0L7B0 1.698 X-RAY DIFFRACTION 45 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 373 373 5mkb-a9-m1-cA_5mkb-a9-m1-cC 5mkb-a9-m1-cE_5mkb-a9-m1-cH NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA 5mkb-a9-m1-cC_5mkb-a9-m1-cE Maltodextrin binding protein MalE1 from L. casei BL23 without ligand B0L7B0 B0L7B0 1.698 X-RAY DIFFRACTION 24 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 373 373 5mkb-a9-m1-cA_5mkb-a9-m1-cB NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA 5mkb-a9-m1-cC_5mkb-a9-m1-cH Maltodextrin binding protein MalE1 from L. casei BL23 without ligand B0L7B0 B0L7B0 1.698 X-RAY DIFFRACTION 17 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 373 373 5mkb-a9-m1-cA_5mkb-a9-m1-cF NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA 5mkb-a9-m1-cG_5mkb-a9-m1-cH Maltodextrin binding protein MalE1 from L. casei BL23 without ligand B0L7B0 B0L7B0 1.698 X-RAY DIFFRACTION 13 1.0 1582 (Lacticaseibacillus casei) 1582 (Lacticaseibacillus casei) 373 373 5mkb-a9-m1-cD_5mkb-a9-m1-cF NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA NVSGSVKLWVDTTQVPYYKKIVANFNKKYPDVKVKVTQSPNGSANAKTDVGKDPAKAADVFEVANDQLGSMAEAGYINPLSPDATKAVKNNNVAVASEGVTWKGKMFAYPFAEQAQTIYYNKSKLTADDVKTWDGLTAKGVLATDFTNAYNFYPVFLSAGTQLYGKTGETVKGTDVNSAKGEQAMAWFAQQKSNKGVMQTSNALNQLKSGKAAAILDGPWNSANIKKILGKNFAVAPYPTIKLDGKDVQMQAFLGIETFAVNSHASGSNQKAAATLASFITNKESQLIVYDHSGQIPVDKTAQKSSKVASDPVAGAVMTMAKPGNSTLMPKMPQMATFWNDAAPLINGAYTGSIPASQYSTKLDTFVKNISKA 5mkq-a1-m1-cB_5mkq-a1-m1-cA TtuA enzyme containing a [4Fe-4S] O58038 O58038 2.79 X-RAY DIFFRACTION 51 0.997 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 303 304 3vrh-a1-m1-cA_3vrh-a1-m2-cA 5mko-a1-m1-cB_5mko-a1-m1-cA SMKCKFCSREAYIKIHYPKMYLCEEHFKEYFERKVSRTIERYKLLTKDERILVAVSGGKDSAVTAYVLKKLGYNIECLHINLGISGYSEKSEEYAKKQCKLIGAPLHIVRIKEILGYGIGEVKTRRPPCSYCGLTKRYIMNKFAYDNGFDAIATGHNLDDEASFLLNNILHWNTEYLAKGGPILPQQGKFIKKVKPLYEVTEREVVAYALAVGLEYIVEECPYATTLDMKGVLNELEEKRPGTKFNFVRGYLKKKKLFEPEIKIKECKICRMPSSGDICAFCKFWGLKKEINFKVSSTDEEPF MKCKFCSREAYIKIHYPKMYLCEEHFKEYFERKVSRTIERYKLLTKDERILVAVSGGKDSAVTAYVLKKLGYNIECLHINLGISGYSEKSEEYAKKQCKLIGAPLHIVRIKEILGYGIGEVKTRRPPCSYCGLTKRYIMNKFAYDNGFDAIATGHNLDDEASFLLNNILHWNTEYLAKGGPILPQQGKFIKKVKPLYEVTEREVVAYALAVGLEYIVEECPYGATTLDMKGVLNELEEKRPGTKFNFVRGYLKKKKLFEPEIKEIKECKICRMPSSGDICAFCKFWGLKKEINFKVSSTDEEPF 5mlk-a1-m1-cB_5mlk-a1-m1-cA Biotin dependent carboxylase AccA3 dimer from Mycobacterium tuberculosis (Rv3285) P96890 P96890 1.939 X-RAY DIFFRACTION 86 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 384 451 ARISKVLVANRGEIAVRVIRAARDAGLPSVAVYAEPDAESPHVRLADEAFALGGQTSAESYLDFAKILDAAAKSGANAIHPGYGFLAENADFAQAVIDAGLIWIGPSPQSIRDLGDKVTARHIAARAQAPLVPYLDKPRHVEAQVIADQHGNVVVAGTRDCSLQRRYQKLVEEAPAPFLTDFQRKEIHDSAKRICKEAHYHGAGTVEYLVGQDGLISFLEVNTRLQVEHPVTEETAGIDLVLQQFRIANGEKLDITEDPTPRGHAIEFRINGEDAGRNFLPAPGPVTKFHPPSGPGVRVDSGVETGSVIGGQFDSMLAKLIVHGADRAEALARARRALNEFGVEGLATVIPFHRAVVSDPAFIGGFSVHTRWIETEWNNTIEPF ARISKVLVANRGEIAVRVIRAARDAGLPSVAVYAEPDAESPHVRLADEAFALGGQTSAESYLDFAKILDAAAKSGANAIHPGYGFLAENADFAQAVIDAGLIWIGPSPQSIRDLGDKVTARHIAARAQAPLVPGTPDPVKGADEVVAFAEEYGLPIAIKAAHGMKVARTIDEIPELYESAVREATAAFGRGECYVERYLDKPRHVEAQVIADQHGNVVVAGTRDCSLQRRYQKLVEEAPAPFLTDFQRKEIHDSAKRICKEAHYHGAGTVEYLVGQDGLISFLEVNTRLQVEHPVTEETAGIDLVLQQFRIANGEKLDITEDPTPRGHAIEFRINGEDAGRNFLPAPGPVTKFHPPSGPGVRVDSGVETGSVIGGQFDSMLAKLIVHGADRAEALARARRALNEFGVEGLATVIPFHRAVVSDPAFIGDANGFSVHTRWIETEWNNTIEPF 5mln-a1-m1-cA_5mln-a1-m1-cB The crystal structure of alcohol dehydrogenase 10 from Candida magnoliae B8K244 B8K244 1.6 X-RAY DIFFRACTION 138 1.0 5490 (Starmerella magnoliae) 5490 (Starmerella magnoliae) 237 238 SNALVTGGSRGIGAASAIKLAQEGYNVTLASRSVDKLNEVKAKLPIVQDGQKHYIWELDLADVEAASSFKGAPLPARSYDVFVSNAGVAAFSPTADHDDKEWQNLLAVNLSSPIALTKALLKDVSERPVDKPLQIIYISSVAGLHGAAQVAVYSASKAGLDGFMRSVAREVGPKGIHVNSINPGYTKTEMTAGIEALPDLPIKGWIEPEAIADAVLFLAKSKNITGTNIVVDNGLIA TSNALVTGGSRGIGAASAIKLAQEGYNVTLASRSVDKLNEVKAKLPIVQDGQKHYIWELDLADVEAASSFKGAPLPARSYDVFVSNAGVAAFSPTADHDDKEWQNLLAVNLSSPIALTKALLKDVSERPVDKPLQIIYISSVAGLHGAAQVAVYSASKAGLDGFMRSVAREVGPKGIHVNSINPGYTKTEMTAGIEALPDLPIKGWIEPEAIADAVLFLAKSKNITGTNIVVDNGLIA 5mlq-a1-m1-cA_5mlq-a1-m1-cB Structure of CDPS from Nocardia brasiliensis K0F6G5 K0F6G5 3.18 X-RAY DIFFRACTION 40 1.0 1133849 (Nocardia brasiliensis ATCC 700358) 1133849 (Nocardia brasiliensis ATCC 700358) 224 224 TTLLSASHKAAYDLRSDGITTDGRSTVLLVSVGADYHEGEKLAATIDLINRSNFGRVSIAVADTLQRHNLSGGTDIDRHARARIAGDEWIARNSTLLDRIDCPTNVLRWDFALSHPRYGDLYDAVEHAYETDEPYRHAIDSTIDRFIERRLSREPDVDQESVRKACRAYLLEECPIIPLWAHEGFDFVIYPQRISAAGRTRELFVVPEHPDRVAWLPLRFKKRK TTLLSASHKAAYDLRSDGITTDGRSTVLLVSVGADYHEGEKLAATIDLINRSNFGRVSIAVADTLQRHNLSGGTDIDRHARARIAGDEWIARNSTLLDRIDCPTNVLRWDFALSHPRYGDLYDAVEHAYETDEPYRHAIDSTIDRFIERRLSREPDVDQESVRKACRAYLLEECPIIPLWAHEGFDFVIYPQRISAAGRTRELFVVPEHPDRVAWLPLRFKKRK 5mlr-a1-m1-cA_5mlr-a1-m2-cA Plantago Major multifunctional oxidoreductase V150M mutant in complex with citral and NADP+ D6N9X1 D6N9X1 1.46 X-RAY DIFFRACTION 42 1.0 29818 (Plantago major) 29818 (Plantago major) 364 364 SSVALIVGVTGIVGNSLAEILPLADTPSGPWKVYGVARRPRPAWNEDNPINYIRCDISDPKDTQEKLSPLTDITHVFYVTWANRSTEVERCEANGKMLKNVLDVVIPNCPDLKHISLQTGRKHYMGPFELIGKIETHDPPFTEDLPRLKFDNFYYTQEDLLFEEVEKKEGLTWSVHRPGNIFGFSPYSMMNLVGTLCVYAAICKHEGKVLRFPGCKAAWDGYSDCSDADLIAEHHIWAAVDPYAKNEAFNVSNGDVFKWKHFWKVLAEQFGVECGEYEEGENLKLQDLMKGKEPVWEEIVRENGLASTNLEDVAVWWFSDAVLDIPCPLDSMNKSKEHGFLGFRNSKNSFISWIDKAKAYKIVP SSVALIVGVTGIVGNSLAEILPLADTPSGPWKVYGVARRPRPAWNEDNPINYIRCDISDPKDTQEKLSPLTDITHVFYVTWANRSTEVERCEANGKMLKNVLDVVIPNCPDLKHISLQTGRKHYMGPFELIGKIETHDPPFTEDLPRLKFDNFYYTQEDLLFEEVEKKEGLTWSVHRPGNIFGFSPYSMMNLVGTLCVYAAICKHEGKVLRFPGCKAAWDGYSDCSDADLIAEHHIWAAVDPYAKNEAFNVSNGDVFKWKHFWKVLAEQFGVECGEYEEGENLKLQDLMKGKEPVWEEIVRENGLASTNLEDVAVWWFSDAVLDIPCPLDSMNKSKEHGFLGFRNSKNSFISWIDKAKAYKIVP 5mlt-a1-m1-cA_5mlt-a1-m2-cA Structural characterization of a carbohydrate substrate binding protein from Streptococcus pneumoniae A0A0H2UMY0 A0A0H2UMY0 1.61 X-RAY DIFFRACTION 532 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 447 447 GPDKPVIKYQIGDKPDNLDELLANANKIIEEKVGAKLDIQYLGWGDYGKKSVITSSGENYDIAFADNYIVNAQKGAYADLTELYKKEGKDLYKALDPAYIKGNTVNGKIYAVPVAANVASSQNFAFNGTLLAKYGIDISGVTSYETLEPVLKQIKEKAPDVVPFAIGKVFIPSDNFDYPVANGLPFVIDLEGDTTKVVNRYEVPRFKEHLKTLHKFYEAGYIPKDVATSDTSFDLQQDTWFVREETVGPADYGNSLLSRVANKDIQIKPITNFIKKNQTTQVANFVISNNSKNKEKSEILNLLNTNPELLNGLVYGPEGKNWEKIEGKENRVRVLDGYKGNTHGGWNTGNNWILYINENVTDQQIENSKKELAEAKESPALGFIFNTDNVKSEISAIANTQQFDTAINTGTVDPDKAIPELEKLKSEGAYEKVLNEQKQYDEFLKNK GPDKPVIKYQIGDKPDNLDELLANANKIIEEKVGAKLDIQYLGWGDYGKKSVITSSGENYDIAFADNYIVNAQKGAYADLTELYKKEGKDLYKALDPAYIKGNTVNGKIYAVPVAANVASSQNFAFNGTLLAKYGIDISGVTSYETLEPVLKQIKEKAPDVVPFAIGKVFIPSDNFDYPVANGLPFVIDLEGDTTKVVNRYEVPRFKEHLKTLHKFYEAGYIPKDVATSDTSFDLQQDTWFVREETVGPADYGNSLLSRVANKDIQIKPITNFIKKNQTTQVANFVISNNSKNKEKSEILNLLNTNPELLNGLVYGPEGKNWEKIEGKENRVRVLDGYKGNTHGGWNTGNNWILYINENVTDQQIENSKKELAEAKESPALGFIFNTDNVKSEISAIANTQQFDTAINTGTVDPDKAIPELEKLKSEGAYEKVLNEQKQYDEFLKNK 5mlv-a1-m1-cE_5mlv-a1-m1-cQ S. pombe microtubule decorated with Cut7 motor domain in the AMPPNP state P04688 P04688 4.5 ELECTRON MICROSCOPY 27 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 429 429 5mjs-a1-m1-cE_5mjs-a1-m1-cF 5mjs-a1-m1-cG_5mjs-a1-m1-cH 5mlv-a1-m1-cB_5mlv-a1-m1-cE 5mlv-a1-m1-cH_5mlv-a1-m1-cK 5mlv-a1-m1-cH_5mlv-a1-m1-cM MREVISVHVGQAGVQIGNACWELYCLEHGIGPDGFPNDGFGTFFSETGQGKFVPRSIYVDLEPNVIDQVRTGPYKDLFHPEQMVTGKEDASNNYARGHYTVGKEMIDSVLERIRRMADNCSGLQGFLVFHSFGGGTGSGLGALLLERLNMEYGKKSNLQFSVYPAPQVSTSVVEPYNSVLTTHATLDNSDCTFMVDNEACYDICRRNLDIERPTYENLNRLIAQVVSSITASLRFAGSLNVDLNEFQTNLVPYPRIHFPLVTYSPIVSAAKAFHESNSVQEITNQCFEPYNQMVKCDPRTGRYMATCLLYRGDVIPRDVQAAVTSIKSRRTIQFVDWCPTGFKIGICYEPPQHVPGSGIAKVNRAVCMLSNTTSIAEAWSRLDHKFDLMYSKRAFVHWYVGEGMEEGEFSEAREDLAALERDYEEVGQD MREVISVHVGQAGVQIGNACWELYCLEHGIGPDGFPNDGFGTFFSETGQGKFVPRSIYVDLEPNVIDQVRTGPYKDLFHPEQMVTGKEDASNNYARGHYTVGKEMIDSVLERIRRMADNCSGLQGFLVFHSFGGGTGSGLGALLLERLNMEYGKKSNLQFSVYPAPQVSTSVVEPYNSVLTTHATLDNSDCTFMVDNEACYDICRRNLDIERPTYENLNRLIAQVVSSITASLRFAGSLNVDLNEFQTNLVPYPRIHFPLVTYSPIVSAAKAFHESNSVQEITNQCFEPYNQMVKCDPRTGRYMATCLLYRGDVIPRDVQAAVTSIKSRRTIQFVDWCPTGFKIGICYEPPQHVPGSGIAKVNRAVCMLSNTTSIAEAWSRLDHKFDLMYSKRAFVHWYVGEGMEEGEFSEAREDLAALERDYEEVGQD 5mlv-a1-m1-cF_5mlv-a1-m1-cR S. pombe microtubule decorated with Cut7 motor domain in the AMPPNP state P05219 P05219 4.5 ELECTRON MICROSCOPY 26 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 430 430 5mjs-a1-m1-cA_5mjs-a1-m1-cJ 5mjs-a1-m1-cB_5mjs-a1-m1-cC 5mlv-a1-m1-cC_5mlv-a1-m1-cF 5mlv-a1-m1-cI_5mlv-a1-m1-cL 5mlv-a1-m1-cI_5mlv-a1-m1-cN MREIVHIQAGQCGNQVGAAFWSTIADEHGLDSAGIYHGTSEAQHERLNVYFNEAAGGKYVPRAVLVDLEPGTMDAVKSGKFGNLFRPDNIIYGQSGAGNIWAKGHYTEGAELADAVLDVVRREAEACDALQGFQLTHSLGGGTGSGMGTLLLSKIREEYPDRMMATFSVAPAPKSSDTVVEPYNATLSMHQLVENSDETFCIDNEALSSIFANTLKIKSPSYDDLNHLVSAVMAGVTTSFRFPGELNSDLRKLAVNMVPFPRLHFFMVGFAPLAAIGSSSFQAVSVPELTQQMFDANNMMVAADPRHGRYLTVAALFRGKVSMKEVDEQIRSVQTKNSAYFVEWIPDNVLKAVCSVPPKDLKMSATFIGNSTSIQEIFRRLGDQFSAMFRRKAFLHWYTGEGMDEMEFTEAESNMNDLVSEYQQYQEAGI MREIVHIQAGQCGNQVGAAFWSTIADEHGLDSAGIYHGTSEAQHERLNVYFNEAAGGKYVPRAVLVDLEPGTMDAVKSGKFGNLFRPDNIIYGQSGAGNIWAKGHYTEGAELADAVLDVVRREAEACDALQGFQLTHSLGGGTGSGMGTLLLSKIREEYPDRMMATFSVAPAPKSSDTVVEPYNATLSMHQLVENSDETFCIDNEALSSIFANTLKIKSPSYDDLNHLVSAVMAGVTTSFRFPGELNSDLRKLAVNMVPFPRLHFFMVGFAPLAAIGSSSFQAVSVPELTQQMFDANNMMVAADPRHGRYLTVAALFRGKVSMKEVDEQIRSVQTKNSAYFVEWIPDNVLKAVCSVPPKDLKMSATFIGNSTSIQEIFRRLGDQFSAMFRRKAFLHWYTGEGMDEMEFTEAESNMNDLVSEYQQYQEAGI 5mmh-a4-m5-cD_5mmh-a4-m1-cC The X-Ray Structure of the Effector Domain of the Transcriptional Regulator AmpR of Pseudomonas aeruginosa P24734 P24734 2.2 X-RAY DIFFRACTION 83 0.99 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 202 203 5mmh-a1-m1-cB_5mmh-a1-m2-cA 5mmh-a2-m1-cD_5mmh-a2-m3-cC 5mmh-a3-m4-cB_5mmh-a3-m1-cA YRDVLTVGAVGTFTVGWLLPRLEDFQARHPFIDLRLSTHNNRVDIAAEGLDYAIRFGGGAWHGTEALALFEAPLTVLCCPEVAAQLHSPADLLQHTLLRSYRADEWPLWFQAAGLPARSIVFDTSLAMLEAARQGVGVALAPAAMFARQLASESIRRPFATEVSTGSYWLTRLQSRGETSAMLAFRGWLLEMAAVEARGRLE DVLTVGAVGTFTVGWLLPRLEDFQARHPFIDLRLSTHNNRVDIAAEGLDYAIRFGGGAWHGTEALALFEAPLTVLCCPEVAAQLHSPADLLQHTLLRSYRADEWPLWFQAAGLPALTRSIVFDTSLAMLEAARQGVGVALAPAAMFARQLASESIRRPFATEVSTGSYWLTRLQSRGETSAMLAFRGWLLEMAAVEARGRLEH 5mmq-a1-m1-cB_5mmq-a1-m1-cA ABA RECEPTOR FROM CITRUS, CSPYL1 A0A067E666 A0A067E666 1.8 X-RAY DIFFRACTION 55 1.0 2711 (Citrus sinensis) 2711 (Citrus sinensis) 188 190 5mmx-a1-m1-cA_5mmx-a1-m1-cB TRPTYTTHHLAIPSGVTQDEFDELKQSVVEFHTYQLSQNQCSSLLAQRIRAPNDVVWSIVRRFDQPQTYKHFIKSCSVSDNFTMAVGSTRDVNVISGLPAATSTERLDILDDDRQVTGFSIIGGEHRLRNYRSVTSVHGFNRDGAICTVVLESYVVDVPEGNTEEDTRLFADTVVKLNLQKLVSVAES PETRPTYTTHHLAIPSGVTQDEFDELKQSVVEFHTYQLSQNQCSSLLAQRIRAPNDVVWSIVRRFDQPQTYKHFIKSCSVSDNFTMAVGSTRDVNVISGLPAATSTERLDILDDDRQVTGFSIIGGEHRLRNYRSVTSVHGFNRDGAICTVVLESYVVDVPEGNTEEDTRLFADTVVKLNLQKLVSVAES 5mn7-a2-m1-cB_5mn7-a2-m3-cB S. aureus FtsZ 12-316 F138A GTP Closed form (3FCm) P0A031 P0A031 3.3 X-RAY DIFFRACTION 267 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 303 303 5mn7-a1-m1-cA_5mn7-a1-m2-cA TLKVIGVGGGGNNAVNRMIDHGMNNVEFIAINTDGQALNLSKAESKIQIGEKLTRGLGAGANPEIGKKAAEESREQIEDAIQGADMVFVTSGMGGGTGTGAAPVVAKIAKEMGALTVGVVTRPFSAEGRKRQTQAAAGVEAMKAAVDTLIVIPNDRLLDIVDKSTPMMEAFKEADNVLRQGVQGISDLIAVSGEVNLDFADVKTIMSNQGSALMGIGVSSGENRAVEAAKKAISSPLLETSIVGAQGVLMNITGGESLSLFEAQEAADIVQDAADEDVNMIFGTVINPELQDEIVVTVIATGF TLKVIGVGGGGNNAVNRMIDHGMNNVEFIAINTDGQALNLSKAESKIQIGEKLTRGLGAGANPEIGKKAAEESREQIEDAIQGADMVFVTSGMGGGTGTGAAPVVAKIAKEMGALTVGVVTRPFSAEGRKRQTQAAAGVEAMKAAVDTLIVIPNDRLLDIVDKSTPMMEAFKEADNVLRQGVQGISDLIAVSGEVNLDFADVKTIMSNQGSALMGIGVSSGENRAVEAAKKAISSPLLETSIVGAQGVLMNITGGESLSLFEAQEAADIVQDAADEDVNMIFGTVINPELQDEIVVTVIATGF 5mog-a1-m1-cA_5mog-a1-m1-cC Oryza sativa phytoene desaturase inhibited by norflurazon A2XDA1 A2XDA1 2.77 X-RAY DIFFRACTION 41 0.998 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 467 470 PTKPLQVVIAGAGLAGLSTAKYLADAGHKPILLEARDVLGGKIAAWKDEDGDWYETGLHIFFGAYPNIQNLFGELGINDRLQWKEHSMIFAMPNKPGEFSRFDFPETLPAPLNGIWAILRNNEMLTWPEKVKFALGLLPAMVGGQAYVEAQDGFTVSEWMKKQGVPDRVNDEVFIAMSKALNFINPDELSMQCILIALNRFLQEKHGSKMAFLDGNPPERLCMPIVDHVRSLGGEVRLNSRIQKIELNPDGTVKHFALTDGTQITGDAYVFATPVDILKLLVPQEWKEISYFKKLEKLVGVPVINVHIWFDRKLKNTYDHLLFSRSSLLSVYADMSVTCKEYYDPNRSMLELVFAPAEEWVGRSDTEIIEATMQELAKLFPDEIAADQSKAKILKYHVVKTPRSVYKTIPDCEPCRPLQRSPIEGFYLAGDYTKQKYLASMEGAVLSGKLCAQSVVEDYKMLSRRSL TKPLQVVIAGAGLAGLSTAKYLADAGHKPILLEARDVLGGKIAAWKDEDGDWYETGLHIFFGAYPNIQNLFGELGINDRLQWKEHSMIFAMPNKPGEFSRFDFPETLPAPLNGIWAILRNNEMLTWPEKVKFALGLLPAMVGGQAYVEAQDGFTVSEWMKKQGVPDRVNDEVFIAMSKALNFINPDELSMQCILIALNRFLQEKHGSKMAFLDGNPPERLCMPIVDHVRSLGGEVRLNSRIQKIELNPDGTVKHFALTDGTQITGDAYVFATPVDILKLLVPQEWKEISYFKKLEKLVGVPVINVHIWFDRKLKNTYDHLLFSRSSLLSVYADMSVTCKEYYDPNRSMLELVFAPAEEWVGRSDTEIIEATMQELAKLFPDEIAADQSKAKILKYHVVKTPRSVYKTIPDCEPCRPLQRSPIEGFYLAGDYTKQKYLASMEGAVLSGKLCAQSVVEDYKMLSRRSLKSLQ 5mog-a1-m1-cE_5mog-a1-m1-cB Oryza sativa phytoene desaturase inhibited by norflurazon A2XDA1 A2XDA1 2.77 X-RAY DIFFRACTION 20 0.998 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 466 472 5mog-a1-m1-cA_5mog-a1-m1-cB 5mog-a1-m1-cA_5mog-a1-m1-cD 5mog-a1-m1-cE_5mog-a1-m1-cD TKPLQVVIAGAGLAGLSTAKYLADAGHKPILLEARDVLGGKIAAWKDEDGDWYETGLHIFFGAYPNIQNLFGELGINDRLQWKEHSMIFAMPNKPGEFSRFDFPETLPAPLNGIWAILRNNEMLTWPEKVKFALGLLPAMVGGQAYVEAQDGFTVSEWMKKQGVPDRVNDEVFIAMSKALNFINPDELSMQCILIALNRFLQEKHGSKMAFLDGNPPERLCMPIVDHVRSLGGEVRLNSRIQKIELNPDGTVKHFALTDGTQITGDAYVFATPVDILKLLVPQEWKEISYFKKLEKLVGVPVINVHIWFDRKLKNTYDHLLFSRSSLLSVYADMSVTCKEYYDPNRSMLELVFAPAEEWVGRSDTEIIEATMQELAKLFPDEIAADQSKAKILKYHVVKTPRSVYKTIPDCEPCRPLQRSPIEGFYLAGDYTKQKYLASMEGAVLSGKLCAQSVVEDYKMLSRRSL FRNSEQPTKPLQVVIAGAGLAGLSTAKYLADAGHKPILLEARDVLGGKIAAWKDEDGDWYETGLHIFFGAYPNIQNLFGELGINDRLQWKEHSMIFAMPNKPGEFSRFDFPETLPAPLNGIWAILRNNEMLTWPEKVKFALGLLPAMVGGQAYVEAQDGFTVSEWMKKQGVPDRVNDEVFIAMSKALNFINPDELSMQCILIALNRFLQEKHGSKMAFLDGNPPERLCMPIVDHVRSLGGEVRLNSRIQKIELNPDGTVKHFALTDGTQITGDAYVFATPVDILKLLVPQEWKEISYFKKLEKLVGVPVINVHIWFDRKLKNTYDHLLFSRSSLLSVYADMSVTCKEYYDPNRSMLELVFAPAEEWVGRSDTEIIEATMQELAKLFPDEIAADQSKAKILKYHVVKTPRSVYKTIPDCEPCRPLQRSPIEGFYLAGDYTKQKYLASMEGAVLSGKLCAQSVVEDYKMLSRRS 5moi-a1-m1-cA_5moi-a1-m1-cB Crystal structure of human IgE-Fc epsilon 3-4 P01854 P01854 2.2 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 191 YLSRPSPFDLFIRKSPTITCLVLTWSRASGKPVQHSTRKETVTSTLPVGTRDWIEGETYQCRMRSTTKTSGPRAAPEVYAFATPEWPGSRDKRTLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAVSVN AYLSRPSPFDLFIRKSPTITCLVVDTVQLTWSRASGKPVQHSTRKEEKQRTVTSTLPVGTRDWIEGETYQCRVTALMRSTTKTSGPRAAPEVYAFATPEWPGSRDKRTLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAVSVN 5moi-a1-m1-cA_5moi-a1-m1-cC Crystal structure of human IgE-Fc epsilon 3-4 P01854 P01854 2.2 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 208 YLSRPSPFDLFIRKSPTITCLVLTWSRASGKPVQHSTRKETVTSTLPVGTRDWIEGETYQCRMRSTTKTSGPRAAPEVYAFATPEWPGSRDKRTLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAVSVN VSAYLSRPSPFDLFIRKSPTITCLVVDLAPSKGTVQLTWSRASGKPVQHSTRKEEKQRNGTLTVTSTLPVGTRDWIEGETYQCRVTHHLPRALMRSTTKTSGPRAAPEVYAFATPEWPGSRDKRTLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAVSVN 5moi-a1-m1-cA_5moi-a1-m1-cE Crystal structure of human IgE-Fc epsilon 3-4 P01854 P01854 2.2 X-RAY DIFFRACTION 26 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 177 200 YLSRPSPFDLFIRKSPTITCLVLTWSRASGKPVQHSTRKETVTSTLPVGTRDWIEGETYQCRMRSTTKTSGPRAAPEVYAFATPEWPGSRDKRTLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAVSVN VSAYLSRPSPFDLFIRKSPTITCLVVDTVQLTWSRASGKPVQHSTRKEEKQRNGTLTVTSTLPVGTRDWIEGETYQCRVTHPLPRALMRSTTKTSGPRAAPEVYAFATPEWPRDKRTLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAVSVN 5mp7-a1-m1-cB_5mp7-a1-m2-cC Crystal structure of phosphoribosylpyrophosphate synthetase from Mycobacterium smegmatis A0R3C8 A0R3C8 2.4 X-RAY DIFFRACTION 23 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 298 298 5mp7-a1-m1-cC_5mp7-a1-m2-cB KNLMLFAGRAHPELADQVAKELDVAVTAQTARDFANGEIFVRFDESVRGCDAFVLQSHPAPLNQWLMEQLIMIDALKRGSAKRITAILPFYPYARQDKKHRGREPISARLVADLLKTAGADRIVSVDLHTDQIQGFFDGPVDHMRAQKLLTGYIGEHYADEDMVVVSPDSGRVRVAEKWADSLGGVPLAFIHKTRSNRVVGDVKGKTCILTDDMIDTGGTIAGAVNLLREDGAKDVIIAATHGVLSDPAPQRLAECGAREVIVTNTLPITEDKRFPQLTVLSIAPLLANTIRAVFENG KNLMLFAGRAHPELADQVAKELDVAVTAQTARDFANGEIFVRFDESVRGCDAFVLQSHPAPLNQWLMEQLIMIDALKRGSAKRITAILPFYPYARQDKKHRGREPISARLVADLLKTAGADRIVSVDLHTDQIQGFFDGPVDHMRAQKLLTGYIGEHYADEDMVVVSPDSGRVRVAEKWADSLGGVPLAFIHKTRSNRVVGDVKGKTCILTDDMIDTGGTIAGAVNLLREDGAKDVIIAATHGVLSDPAPQRLAECGAREVIVTNTLPITEDKRFPQLTVLSIAPLLANTIRAVFENG 5mp7-a1-m1-cC_5mp7-a1-m2-cC Crystal structure of phosphoribosylpyrophosphate synthetase from Mycobacterium smegmatis A0R3C8 A0R3C8 2.4 X-RAY DIFFRACTION 138 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 298 298 5mp7-a1-m1-cA_5mp7-a1-m1-cB 5mp7-a1-m2-cA_5mp7-a1-m2-cB KNLMLFAGRAHPELADQVAKELDVAVTAQTARDFANGEIFVRFDESVRGCDAFVLQSHPAPLNQWLMEQLIMIDALKRGSAKRITAILPFYPYARQDKKHRGREPISARLVADLLKTAGADRIVSVDLHTDQIQGFFDGPVDHMRAQKLLTGYIGEHYADEDMVVVSPDSGRVRVAEKWADSLGGVPLAFIHKTRSNRVVGDVKGKTCILTDDMIDTGGTIAGAVNLLREDGAKDVIIAATHGVLSDPAPQRLAECGAREVIVTNTLPITEDKRFPQLTVLSIAPLLANTIRAVFENG KNLMLFAGRAHPELADQVAKELDVAVTAQTARDFANGEIFVRFDESVRGCDAFVLQSHPAPLNQWLMEQLIMIDALKRGSAKRITAILPFYPYARQDKKHRGREPISARLVADLLKTAGADRIVSVDLHTDQIQGFFDGPVDHMRAQKLLTGYIGEHYADEDMVVVSPDSGRVRVAEKWADSLGGVPLAFIHKTRSNRVVGDVKGKTCILTDDMIDTGGTIAGAVNLLREDGAKDVIIAATHGVLSDPAPQRLAECGAREVIVTNTLPITEDKRFPQLTVLSIAPLLANTIRAVFENG 5mp7-a1-m2-cB_5mp7-a1-m2-cC Crystal structure of phosphoribosylpyrophosphate synthetase from Mycobacterium smegmatis A0R3C8 A0R3C8 2.4 X-RAY DIFFRACTION 27 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 298 298 5mp7-a1-m1-cB_5mp7-a1-m1-cC KNLMLFAGRAHPELADQVAKELDVAVTAQTARDFANGEIFVRFDESVRGCDAFVLQSHPAPLNQWLMEQLIMIDALKRGSAKRITAILPFYPYARQDKKHRGREPISARLVADLLKTAGADRIVSVDLHTDQIQGFFDGPVDHMRAQKLLTGYIGEHYADEDMVVVSPDSGRVRVAEKWADSLGGVPLAFIHKTRSNRVVGDVKGKTCILTDDMIDTGGTIAGAVNLLREDGAKDVIIAATHGVLSDPAPQRLAECGAREVIVTNTLPITEDKRFPQLTVLSIAPLLANTIRAVFENG KNLMLFAGRAHPELADQVAKELDVAVTAQTARDFANGEIFVRFDESVRGCDAFVLQSHPAPLNQWLMEQLIMIDALKRGSAKRITAILPFYPYARQDKKHRGREPISARLVADLLKTAGADRIVSVDLHTDQIQGFFDGPVDHMRAQKLLTGYIGEHYADEDMVVVSPDSGRVRVAEKWADSLGGVPLAFIHKTRSNRVVGDVKGKTCILTDDMIDTGGTIAGAVNLLREDGAKDVIIAATHGVLSDPAPQRLAECGAREVIVTNTLPITEDKRFPQLTVLSIAPLLANTIRAVFENG 5mpo-a1-m1-cD_5mpo-a1-m1-cC Crystal structure of human molybdopterin synthase complex O96007 O96007 2.43 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 132 4ap8-a1-m2-cD_4ap8-a1-m1-cA 4ap8-a2-m1-cD_4ap8-a2-m3-cA 4ap8-a3-m1-cB_4ap8-a3-m4-cC 4ap8-a4-m1-cC_4ap8-a4-m5-cB EKSKDVINFTAEKLSVDEVSQLVISPLCGAISLFVGTTRNNFEGKKVISLEYEAYLPMAENEVRKICSDIRQKWPVKHIAVFHRLGLVPVSEASIIIAVSSAHRAASLEAVSYAIDTLKAKVPIWKKEIYE EEKSKDVINFTAEKLSVDEVSQLVISPLCGAISLFVGTTRNNFEGKKVISLEYEAYLPMAENEVRKICSDIRQKWPVKHIAVFHRLGLVPVSEASIIIAVSSAHRAASLEAVSYAIDTLKAKVPIWKKEIYE 5mpy-a1-m1-cA_5mpy-a1-m1-cB Crystal structure of Arabidopsis thaliana RNA editing factor MORF9 Q9LPZ1 Q9LPZ1 2.247 X-RAY DIFFRACTION 12 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 101 101 DYNHWLIVMEFPKDPAPSRDQMIDTYLNTLATVLGSMEEAKKNMYAFSTTTYTGFQCTIDEETSEKFKGLPGVLWVLPDSYIDVKNKDYGGDKYINGEIIP DYNHWLIVMEFPKDPAPSRDQMIDTYLNTLATVLGSMEEAKKNMYAFSTTTYTGFQCTIDEETSEKFKGLPGVLWVLPDSYIDVKNKDYGGDKYINGEIIP 5mq4-a3-m1-cE_5mq4-a3-m1-cC Crystal Structure of the leucine zipper of human PRKCBP1 Q9ULU4 Q9ULU4 2.7 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 117 5mq4-a1-m1-cD_5mq4-a1-m1-cA 5mq4-a2-m1-cB_5mq4-a2-m1-cF GSTIAEIRRLRIEIEKLQWLHQQELSEMKHNLELTMAEMRQSLEQERDRLIAEVKKQLELEKQQAVDETKKKQWCANCKKEAIFYCCWNTSYCDYPCQQAHWPEHMKSCTQ MSKNTTGSTIAEIRRLRIEIEKLQWLHQQELSEMKHNLELTMAEMRQSLEQERDRLIAEVKKQLELEKQQAVDETKKKQWCANCKKEAIFYCCWNTSYCDYPCQQAHWPEHMKSCTQ 5mq8-a1-m1-cA_5mq8-a1-m1-cD Crystal structure of Rae1 (YacP) from Bacillus subtilis P37574 P37574 2.25 X-RAY DIFFRACTION 116 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 174 174 MDILLVDGYNMIGAWPQLKDLKANSFEEARDVLIQKMAEYQSYTGNRVIVVFDAHLVKGLEKKQTNHRVEVIFTKENETADERIEKLAQALNNIATQIHVATSDYTEQWAIFGQGALRKSARELLREVETIERRIERRVRKITSEKPAGKIALSEEVLKTFEKWRRGDLDAAAL MDILLVDGYNMIGAWPQLKDLKANSFEEARDVLIQKMAEYQSYTGNRVIVVFDAHLVKGLEKKQTNHRVEVIFTKENETADERIEKLAQALNNIATQIHVATSDYTEQWAIFGQGALRKSARELLREVETIERRIERRVRKITSEKPAGKIALSEEVLKTFEKWRRGDLDAAAL 5mqq-a2-m1-cC_5mqq-a2-m1-cD Transcriptional repressor AmtR of corynebacterium glutamicum Q79VH8 Q79VH8 2.093 X-RAY DIFFRACTION 66 0.995 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 202 203 5dxz-a1-m1-cA_5dxz-a1-m2-cA 5dy0-a1-m1-cB_5dy0-a1-m1-cA 5dy0-a2-m1-cC_5dy0-a2-m1-cD 5dy1-a1-m1-cB_5dy1-a1-m1-cA 5mqq-a1-m1-cB_5mqq-a1-m1-cA 5mqq-a3-m1-cE_5mqq-a3-m1-cF 6gy3-a1-m1-cA_6gy3-a1-m1-cB NPREEILDASAELFTRQGFATTSTHQIADAVGIRQASLYYHFPSKTEIFLTLLKSTVEPSTVLAEDLSTLDAGPEMRLWAIVASEVRLLLSTKWNVGRLYQLPIVGSEEFAEYHSQREALTNVFRDLATEIVGDDPRAELPFHITMSVIEMRRNDGKIPSPLSADSLPETAIMLADASLAVLGAPLPADRVEKTLELIKQAD PREEILDASAELFTRQGFATTSTHQIADAVGIRQASLYYHFPSKTEIFLTLLKSTVEPSTVLAEDLSTLDAGPEMRLWAIVASEVRLLLSTKWNVGRLYQLPIVGSEEFAEYHSQREALTNVFRDLATEIVGDDPRAELPFHITMSVIEMRRNDGKIPSPLSADSLPETAIMLADASLAVLGAPLPADRVEKTLELIKQADAK 5mr3-a2-m1-cF_5mr3-a2-m1-cH Crystal structure of red abalone egg VERL repeat 2 with linker in complex with sperm lysin at 1.8 A resolution Q8WR62 Q8WR62 1.8 X-RAY DIFFRACTION 50 0.991 6454 (Haliotis rufescens) 6454 (Haliotis rufescens) 107 111 5mr2-a1-m1-cC_5mr2-a1-m2-cC GIDWDVFCSQNENIPAKFISRLVAPVEKMDVDCSNGLVPITHEHGFNMMLIQYTRNKLLDSPGMCVFWGPYSVPKNDTVVLYTVTARLKWSEGPPTDLSIQCYMPKC GIDWDVFCSQNENIPAKFISRLVAPKCLAVEKMDVDCSNGLVPITHEHGFNMMLIQYTRNKLLDSPGMCVFWGPYSVPKNDTVVLYTVTARLKWSEGPPTDLSIQCYMPKS 5mra-a1-m1-cA_5mra-a1-m1-cB human SCBD (sorcin calcium binding domain) in complex with doxorubicin P30626 P30626 3.74 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 1gjy-a1-m1-cA_1gjy-a1-m1-cB 1gjy-a2-m1-cC_1gjy-a2-m1-cD 1juo-a1-m1-cA_1juo-a1-m1-cB 4u8d-a1-m1-cA_4u8d-a1-m1-cB 4upg-a1-m1-cA_4upg-a1-m2-cA 5mra-a2-m1-cC_5mra-a2-m1-cD MDPLYGYFAAVAGQDGQIDADELQRCLTQSGIAGGYKPFNLETCRLMVSMLDRDMSGTMGFNEFKELWAVLNGWRQHFISFDTDRSGTVDPQELQKALTTMGFRLSPQAVNSIAKRYSTNGKITFDDYIACCVKLRALTDSFRRRDTAQQGVVNFPYDDFIQCVMSV MDPLYGYFAAVAGQDGQIDADELQRCLTQSGIAGGYKPFNLETCRLMVSMLDRDMSGTMGFNEFKELWAVLNGWRQHFISFDTDRSGTVDPQELQKALTTMGFRLSPQAVNSIAKRYSTNGKITFDDYIACCVKLRALTDSFRRRDTAQQGVVNFPYDDFIQCVMSV 5mrp-a1-m1-cA_5mrp-a1-m2-cA Arabidopsis thaliana IspD Glu258Ala mutant in complex with Azolopyrimidine (2) P69834 P69834 1.9 X-RAY DIFFRACTION 92 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 209 209 1w77-a1-m1-cA_1w77-a1-m2-cA 2yc3-a1-m1-cA_2yc3-a1-m2-cA 2yc5-a1-m1-cA_2yc5-a1-m2-cA 4nai-a1-m1-cA_4nai-a1-m2-cA 4nak-a1-m1-cA_4nak-a1-m2-cA 4nal-a1-m1-cA_4nal-a1-m2-cA 4nan-a1-m1-cA_4nan-a1-m2-cA 5mrm-a1-m1-cA_5mrm-a1-m2-cA 5mrn-a1-m1-cA_5mrn-a1-m2-cA 5mro-a1-m1-cA_5mro-a1-m2-cA 5mrq-a1-m1-cA_5mrq-a1-m2-cA EKSVSVILLAGPKQYIPLLGQPIALYSFFTFSRMPEVKEIVVVCDPFFRDIFEEYEESIDVDLSFAIPGKERQDSVYSGLQEIDVNSELVCIHDSARPLVNTEDVEKVLKDGSAVGAAVLGVPAKATIKEVNSDSLVVKTLWEMQTPQVIKPELLKKGFELVKSEGLAVTDDVSIVEYLKHPVYVSQGSYTNIKVTTPDDLLLAERILS EKSVSVILLAGPKQYIPLLGQPIALYSFFTFSRMPEVKEIVVVCDPFFRDIFEEYEESIDVDLSFAIPGKERQDSVYSGLQEIDVNSELVCIHDSARPLVNTEDVEKVLKDGSAVGAAVLGVPAKATIKEVNSDSLVVKTLWEMQTPQVIKPELLKKGFELVKSEGLAVTDDVSIVEYLKHPVYVSQGSYTNIKVTTPDDLLLAERILS 5mru-a1-m1-cA_5mru-a1-m2-cA TetR(class A) in complex with 5a,6-anhydrotetracycline and magnesium P03038 P03038 2.55 X-RAY DIFFRACTION 118 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 173 173 LQPNTVIRAALDLLNEVGVDGLTTRKLAERLGALYWHFRNKRALLDALAEAMLAENHSTSVPRADDDWRSFLTGNARSFRQALLAYRDGARIHAGTRPGAPQMETADAQLRFLCEAGFSAGDAVNALMTISYFTVGAVLEEQAGDSESGEEAGPDAAFEQGLAVIVDGLAKRR LQPNTVIRAALDLLNEVGVDGLTTRKLAERLGALYWHFRNKRALLDALAEAMLAENHSTSVPRADDDWRSFLTGNARSFRQALLAYRDGARIHAGTRPGAPQMETADAQLRFLCEAGFSAGDAVNALMTISYFTVGAVLEEQAGDSESGEEAGPDAAFEQGLAVIVDGLAKRR 5ms4-a4-m1-cH_5ms4-a4-m1-cD Kallikrein-related peptidase 8 leupeptin inhibitor complex O60259 2.1 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 9606 (Homo sapiens) 2 228 5ms4-a1-m1-cE_5ms4-a1-m1-cA 5ms4-a2-m1-cF_5ms4-a2-m1-cB 5ms4-a3-m1-cG_5ms4-a3-m1-cC LL VLGGHECQPHSQPWQAALFQGQQLLCGGVLVGGNWVLTAAHCKKPKYTVRLGDHSLQNKDGPEQEIPVVQSIPHPCYNSSDVEDHNHDLMLLQLRDQASLGSKVKPISLADHCTQPGQKCTVSGWGTVTSPRENFPDTLNCAEVKIFPQKKCEDAYPGQITDGMVCAGSSKGADTCQGDSGGPLVCDGALQGITSWGSDPCGRSDKPGVYTNICRYLDWIKKIIGSKG 5mse-a1-m1-cB_5mse-a1-m1-cD GFP nuclear transport receptor mimic 3B8 P42212 P42212 1.66 X-RAY DIFFRACTION 38 1.0 6100 (Aequorea victoria) 6100 (Aequorea victoria) 223 223 5mse-a1-m1-cA_5mse-a1-m1-cC 5mse-a1-m1-cA_5mse-a1-m1-cD 5mse-a1-m1-cB_5mse-a1-m1-cC GEELFTGVVPILVELDGDVNGHRFSVRGEGEGDATYGMLTLRFICTTGRLPVPWPTLVTTLVQCFARYPDHMRRHDFFKSTMPEGYVQERMIYFEDDGAYRTRAVVRFEGDTLVNRIELRGTDFREDGNILGHRLEYNFNSHMVYIMADRQRNGIRAMFNTRHNVEDGSEQVAMHYQQNTPIGDGPVLLPDDHYLYTMSLLSVDPNERRDHMVLREFVMAAGI GEELFTGVVPILVELDGDVNGHRFSVRGEGEGDATYGMLTLRFICTTGRLPVPWPTLVTTLVQCFARYPDHMRRHDFFKSTMPEGYVQERMIYFEDDGAYRTRAVVRFEGDTLVNRIELRGTDFREDGNILGHRLEYNFNSHMVYIMADRQRNGIRAMFNTRHNVEDGSEQVAMHYQQNTPIGDGPVLLPDDHYLYTMSLLSVDPNERRDHMVLREFVMAAGI 5msk-a1-m1-cE_5msk-a1-m1-cD Mouse PA28beta P97372 P97372 3.6 X-RAY DIFFRACTION 96 0.99 10090 (Mus musculus) 10090 (Mus musculus) 201 207 5msk-a1-m1-cA_5msk-a1-m1-cB 5msk-a1-m1-cC_5msk-a1-m1-cB 5msk-a1-m1-cE_5msk-a1-m1-cF 5msk-a1-m1-cF_5msk-a1-m1-cG 5msk-a1-m1-cG_5msk-a1-m1-cA 7nao-a1-m1-ch_7nao-a1-m1-ci 7nap-a1-m1-ch_7nap-a1-m1-ci 7nap-a1-m1-co_7nap-a1-m1-cp RKQVDVFRQNLFQEADDFLCTFLPRKIISLSQLLQEDSLNVADLSSLRAPLDIPIPDPPCGYLPGNEKLLALLALVKPEVWTLKEKCILVITWIQHLIPKIEDGNDFGVAIQEKVLERVNAVKTKVEAFQTTISKYFSERGDAVAKASKDTHVMDYRALVHERDEAAYGALRAMVLDLRAFYAELYHIISSNLEKIVNPKG GVRLSGEARKQVDVFRQNLFQEADDFLCTFLPRKIISLSQLLQEDSLNVADLSSLRAPLDIPIPDPCGYLPGNEKLLALLALVKPEVWTLKEKCILVITWIQHLIPKIEDGNDFGVAIQEKVLERVNAVKTKVEAFQTTISKYFSERGDAVAKASKDTHVMDYRALVHERDEAAYGALRAMVLDLRAFYAELYHIISSNLEKIVNPK 5msx-a1-m1-cA_5msx-a1-m1-cC Glycoside hydrolase BT_3662 Q8A1J9 Q8A1J9 2.1 X-RAY DIFFRACTION 24 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 439 440 HNNPFGNALIPDMIADASIQEINGVFYCYATTDGYGQGLKTSGPPVVWKSKDFVHWSFDGTYFPSAAKEKYWAPSKAIFANGKYYIYPTINGYMYPAVADKPEGPFKLARGKDEFYKPFTPSTLLQSKNPGGIDAEIFVDDDGQAYVFWGRRHVAKLNEDMITVDSVVQVISTPRKEYSEGPIFFKRKGIYYYLYTIGGDEKYQYAYVMSRVSPMGPFEAPEQDIISTTNYERGIFGPGHGCVFHPEGTDNYYFAYLEFGRRSTNRQTYVNQLKFNEDGTIRPVELTMDGVGALKKVKSDKKMKIDTVYASSIEVPLKIEPMKDPTCLRTEYFVPSFAVDGANGSRWMAAAEDSINPWIVADLGTVKKVRRSEIYFVRPTAGHAYVIEASMDGKVWQEFAVHQDRKMCSPHTDVLNKRFRYLRIKILKGVPGIWEWNIY QHNNPFGNALIPDMIADASIQEINGVFYCYATTDGYGQGLKTSGPPVVWKSKDFVHWSFDGTYFPSAAKEKYWAPSKAIFANGKYYIYPTINGYMYPAVADKPEGPFKLARGKDEFYKPFTPSTLLQSKNPGGIDAEIFVDDDGQAYVFWGRRHVAKLNEDMITVDSVVQVISTPRKEYSEGPIFFKRKGIYYYLYTIGGDEKYQYAYVMSRVSPMGPFEAPEQDIISTTNYERGIFGPGHGCVFHPEGTDNYYFAYLEFGRRSTNRQTYVNQLKFNEDGTIRPVELTMDGVGALKKVKSDKKMKIDTVYASSIEVPLKIEPMKDPTCLRTEYFVPSFAVDGANGSRWMAAAEDSINPWIVADLGTVKKVRRSEIYFVRPTAGHAYVIEASMDGKVWQEFAVHQDRKMCSPHTDVLNKRFRYLRIKILKGVPGIWEWNIY 5msx-a1-m1-cB_5msx-a1-m1-cC Glycoside hydrolase BT_3662 Q8A1J9 Q8A1J9 2.1 X-RAY DIFFRACTION 23 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 439 440 HNNPFGNALIPDMIADASIQEINGVFYCYATTDGYGQGLKTSGPPVVWKSKDFVHWSFDGTYFPSAAKEKYWAPSKAIFANGKYYIYPTINGYMYPAVADKPEGPFKLARGKDEFYKPFTPSTLLQSKNPGGIDAEIFVDDDGQAYVFWGRRHVAKLNEDMITVDSVVQVISTPRKEYSEGPIFFKRKGIYYYLYTIGGDEKYQYAYVMSRVSPMGPFEAPEQDIISTTNYERGIFGPGHGCVFHPEGTDNYYFAYLEFGRRSTNRQTYVNQLKFNEDGTIRPVELTMDGVGALKKVKSDKKMKIDTVYASSIEVPLKIEPMKDPTCLRTEYFVPSFAVDGANGSRWMAAAEDSINPWIVADLGTVKKVRRSEIYFVRPTAGHAYVIEASMDGKVWQEFAVHQDRKMCSPHTDVLNKRFRYLRIKILKGVPGIWEWNIY QHNNPFGNALIPDMIADASIQEINGVFYCYATTDGYGQGLKTSGPPVVWKSKDFVHWSFDGTYFPSAAKEKYWAPSKAIFANGKYYIYPTINGYMYPAVADKPEGPFKLARGKDEFYKPFTPSTLLQSKNPGGIDAEIFVDDDGQAYVFWGRRHVAKLNEDMITVDSVVQVISTPRKEYSEGPIFFKRKGIYYYLYTIGGDEKYQYAYVMSRVSPMGPFEAPEQDIISTTNYERGIFGPGHGCVFHPEGTDNYYFAYLEFGRRSTNRQTYVNQLKFNEDGTIRPVELTMDGVGALKKVKSDKKMKIDTVYASSIEVPLKIEPMKDPTCLRTEYFVPSFAVDGANGSRWMAAAEDSINPWIVADLGTVKKVRRSEIYFVRPTAGHAYVIEASMDGKVWQEFAVHQDRKMCSPHTDVLNKRFRYLRIKILKGVPGIWEWNIY 5mtl-a2-m1-cD_5mtl-a2-m1-cC Crystal structure of an amyloidogenic light chain Q567P1 Q567P1 2.45 X-RAY DIFFRACTION 107 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 200 206 5mtl-a1-m1-cA_5mtl-a1-m1-cB VLTQPPSTSGTPGQRVTISCSGSNTVNWYQQLPGTAPKLVMHTNNQRPSGVPDRFSGSRSGTSASLAIGGLQSEDEADYFCAAWDGVIFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAP LTQPPSTSGTPGQRVTISCSGSSSNIETNTVNWYQQLPGTAPKLVMHTNNQRPSGVPDRFSGSRSGTSASLAIGGLQSEDEADYFCAAWDNGVIFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAP 5mto-a1-m1-cA_5mto-a1-m1-cB N-terminal domain of the human tumor suppressor ING5 C19S mutant Q8WYH8 Q8WYH8 3.1 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 5me8-a1-m1-cA_5me8-a1-m1-cB GAMATAMYLEHYLDSIENLPSELQRNFQLMRELDQRTEDKKAEIDILAAEYISTVKTLSPDQRVERLQKIQNAYSKCKEYSDDKVQLAMQTYEMVDKHIRRLDADLA GAMATAMYLEHYLDSIENLPSELQRNFQLMRELDQRTEDKKAEIDILAAEYISTVKTLSPDQRVERLQKIQNAYSKCKEYSDDKVQLAMQTYEMVDKHIRRLDADLA 5mu4-a1-m1-cC_5mu4-a1-m1-cD Tail Tubular Protein A of Klebsiella pneumoniae bacteriophage KP32 D1L2W4 D1L2W4 1.9 X-RAY DIFFRACTION 43 0.989 674082 (Klebsiella phage KP32) 674082 (Klebsiella phage KP32) 185 186 5mu4-a1-m1-cB_5mu4-a1-m1-cA SGLVPRGSHMNMQDAYFGSAAELDAVNEMLAAIGESPVTTLDEDGSADVANARRILNRINRQIQSKGWAFNINESATLTPDVSTGLIPFRPAYLSILGGQYVNRGGWVYDKSTGTDTFSGPITVTLITLQDYDEMPECFRQWIVTKASRQFNSRFFGAEDVENSLAQEEMEARMACNEYEMDFGQ SGLVPRGSHMNMQDAYFGSAAELDAVNEMLAAIGESPVTTLDEDGSADVANARRILNRINRQIQSKGWAFNINESATLTPSTGLIPFRPAYLSILGGQYVNRGGWVYDKSTGTDTFSGPITVTLITLQDYDEMPECFRQWIVTKASRQFNSRFFGAEDVENSLAQEEMEARMACNEYEMDFGQYNM 5mu4-a1-m1-cD_5mu4-a1-m1-cA Tail Tubular Protein A of Klebsiella pneumoniae bacteriophage KP32 D1L2W4 D1L2W4 1.9 X-RAY DIFFRACTION 36 1.0 674082 (Klebsiella phage KP32) 674082 (Klebsiella phage KP32) 186 196 5mu4-a1-m1-cB_5mu4-a1-m1-cC SGLVPRGSHMNMQDAYFGSAAELDAVNEMLAAIGESPVTTLDEDGSADVANARRILNRINRQIQSKGWAFNINESATLTPSTGLIPFRPAYLSILGGQYVNRGGWVYDKSTGTDTFSGPITVTLITLQDYDEMPECFRQWIVTKASRQFNSRFFGAEDVENSLAQEEMEARMACNEYEMDFGQYNM SGLVPRGSHMNMQDAYFGSAAELDAVNEMLAAIGESPVTTLDEDGSADVANARRILNRINRQIQSKGWAFNINESATLTPDVSTGLIPFRPAYLSILGGQYVNRGGWVYDKSTGTDTFSGPITVTLITLQDYDEMPECFRQWIVTKASRQFNSRFFGAEDVENSLAQEEMEARMACNEYEMDFGQYNMLYVQGLGR 5mua-a1-m1-cA_5mua-a1-m1-cB PSL1a-E64 complex Q75WT9 Q75WT9 1.49 X-RAY DIFFRACTION 89 1.0 269 275 3phz-a1-m1-cA_3phz-a1-m1-cB SFQGHGIYYIASAYVANTRLALSESPDVIISSDAVDPLNNLWLIEPVGEADTYTVRNAFAGSYMDLAGHAATDGTAIIGYRPTGGDNQKWIISQWKIKSKETGTFVTLLNGTVVGWQNITNNTSQNWTFQKLSQTGANVHATLLACPALRQDFKSYLSDGLYLVLTRDQISSIWQASGLGSTPWRSEIFDCDDFATVFKGAVAKWGNENFKANGFALLCGLMFGSKSSGAHAYNWFVERGNFSTVTFFEPQNGTYSANAWDYKAYFGLF SFQGHGIYYIASAYVANTRLALSEDSSANKSPDVIISSDAVDPLNNLWLIEPVGEADTYTVRNAFAGSYMDLAGHAATDGTAIIGYRPTGGDNQKWIISQWKIKSKETGTFVTLLNGTVVGWQNITNNTSQNWTFQKLSQTGANVHATLLACPALRQDFKSYLSDGLYLVLTRDQISSIWQASGLGSTPWRSEIFDCDDFATVFKGAVAKWGNENFKANGFALLCGLMFGSKSSGAHAYNWFVERGNFSTVTFFEPQNGTYSANAWDYKAYFGLF 5muh-a1-m1-cB_5muh-a1-m1-cA Crystal structure of an amyloidogenic light chain dimer H7 2.65 X-RAY DIFFRACTION 83 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 182 194 LTQPPSVSAAPGQKVTISCSNSWYQQFPGTAPKVVIYDTDKDRFSGSKSGTSATLDITGLQTGDEADYYCGTVFGGGTKVTPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPT LTQPPSVSAAPGQKVTISCSNVFVSWYQQFPGTAPKVVIYDTDKRPSDIPDRFSGSKSGTSATLDITGLQTGDEADYYCGTVFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAP 5mun-a1-m1-cB_5mun-a1-m1-cA Structural insight into zymogenic latency of gingipain K from Porphyromonas gingivalis. Q51817 Q51817 1.8 X-RAY DIFFRACTION 68 0.989 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 177 182 GSQSAKIKLDAPTTRTTCTNNSFKQFDASFSFNEVELTKVETKGGTFASVSIPGAFPTGEVGSPEVPAVRKLIAVPVGATPVVRVKSFTEQVYSLNQYGSEKLMPHQPSMPEKVPFVYNAAAYARKGFVGQELTQVEMLGTMRGVRIAALTINPVQYDVVANQLKVRNNIEIEVSFQ QSAKIKLDAPTTRTTCTNNSFKQFDASFSFNEVELTKVETKGGTFASVSIPGAFPTGEVGSPEVPAVRKLIAVPVGATPVVRVKSFTEQVYSLNQYGSEKLMPHQPSMSKSDDPEKVPFVYNAAAYARKGFVGQELTQVEMLGTMRGVRIAALTINPVQYDVVANQLKVRNNIEIEVSFQGA 5mux-a3-m1-cF_5mux-a3-m1-cE Crystal structure of 2-methylcitrate dehydratase (MmgE) from Bacillus subtilis. P45859 P45859 2 X-RAY DIFFRACTION 163 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 468 472 5mux-a1-m1-cA_5mux-a1-m1-cB 5mux-a2-m1-cD_5mux-a2-m1-cC PKTDRVIEEITDYVLEKEITSAEAYTTAGHVLLDTLGCGILALRYPECTKLLGPIVPGTTVPNGSKVPGTSYVLDPVRAAFNIGCMIRWLDYNDTWLAAEWGHPSDNLGGILAAADYVSRVRLSEGKEPLTVRDVLEMMIKAHEIQGVLALENSLNRVGLDHVLFVKVATTAVAAKLLGGGREEIKNALSNAWIDNAALRTYRHSPNTGSRKSWPAGDATSRGVHLALMSLKGEMGYPTALSAPGWGFQDVLFNKKEIKLARPLDAYVMENVLFKVSYPAEFHAQTAAESAVILHPQVKNRIDEIDRVVIRTHESAIRIIDKKGPLHNPADRDHCLQYITAIGLLFGDITAQHYEAETANDPRIDKLRDKMEVTENKTYTEDYLKPDKRSISNAVQVHFKDGTSTEMVECEFPLGHRFRREEAVPKLLEKFSDNLKTHFPDKQHKHIYERCTSYETLQTMRVNEFVDM MPKTDRVIEEITDYVLEKEITSAEAYTTAGHVLLDTLGCGILALRYPECTKLLGPIVPGTTVPNGSKVPGTSYVLDPVRAAFNIGCMIRWLDYNDTWLAAEWGHPSDNLGGILAAADYVSRVRLSEGKEPLTVRDVLEMMIKAHEIQGVLALENSLNRVGLDHVLFVKVATTAVAAKLLGGGREEIKNALSNAWIDNAALRTYRHSPNTGSRKSWPAGDATSRGVHLALMSLKGEMGYPTALSAPGWGFQDVLFNKKEIKLARPLDAYVMENVLFKVSYPAEFHAQTAAESAVILHPQVKNRIDEIDRVVIRTHESAIRIIDKKGPLHNPADRDHCLQYITAIGLLFGDITAQHYEAETANDPRIDKLRDKMEVTENKTYTEDYLKPDKRSISNAVQVHFKDGTSTEMVECEFPLGHRFRREEAVPKLLEKFSDNLKTHFPDKQHKHIYERCTSYETLQTMRVNEFVDMFCM 5muy-a1-m1-cA_5muy-a1-m1-cB Structure of a C-terminal domain of a reptarenavirus L protein with m7GTP J7HBG8 J7HBG8 1.99 X-RAY DIFFRACTION 170 1.0 1223561 (CAS virus) 1223561 (CAS virus) 327 327 5mus-a1-m1-cA_5mus-a1-m1-cB PTAVQELNRICDGMILSSILRPQMVEPSLIGDVLKTEPFTSSLEVLKDIKVSGLMRYIKQVLLGRKSYYKFGEEHADGDQNLFDYQFTGTPEEPIKGYWTTTISYRDSKPKISLTIRQEFVEGGVESQAVLATVVGRPHLQDFLLLKRKHLEYSDYPESIDLIEFGDVKVIEKTVGHGQPVVLYMASLFPIGLTKIAEQGIGCHNEKNDATLKSLLKTAILNMTPDDVSLLPRSKLDAIDHVVRNVYLRFNNSSAVSYGLHKLQSFEKILQLNGRIYETKESTLVFHHKKGVLVEDLKGLMSYKTLRVSEWREKQEPEEARVEVLEE PTAVQELNRICDGMILSSILRPQMVEPSLIGDVLKTEPFTSSLEVLKDIKVSGLMRYIKQVLLGRKSYYKFGEEHADGDQNLFDYQFTGTPEEPIKGYWTTTISYRDSKPKISLTIRQEFVEGGVESQAVLATVVGRPHLQDFLLLKRKHLEYSDYPESIDLIEFGDVKVIEKTVGHGQPVVLYMASLFPIGLTKIAEQGIGCHNEKNDATLKSLLKTAILNMTPDDVSLLPRSKLDAIDHVVRNVYLRFNNSSAVSYGLHKLQSFEKILQLNGRIYETKESTLVFHHKKGVLVEDLKGLMSYKTLRVSEWREKQEPEEARVEVLEE 5mv0-a2-m3-cA_5mv0-a2-m1-cB Structure of an N-terminal domain of a reptarenavirus L protein J7HBG8 J7HBG8 1.93 X-RAY DIFFRACTION 28 1.0 1223561 (CAS virus) 1223561 (CAS virus) 200 206 5mv0-a1-m1-cA_5mv0-a1-m2-cB PMDPDTNLLKNVILEILSIEPDLYKQSSIVDDPYKLAMSAIRLRATIHELNCCRDLGIIHNTKEISLNMVIDRAIPIHPTFQHIVPDGYTIDRANMTIIVLEASTRSMPSDQKRKITSDKLKYSGVEDHLKHEGWLFNIIVISETKPRNGNVPERLLFELLKLSLSILSYSDKSSQWISEEEYDELKRSLTTYDFKTLTS PMDPDTNLLKNVILEILSIEPDLYKQSSIVDDPYKLAMSAIRLRATIHELNCCRDLGIIHNTKEISLNMVIDRAIPIHPTFQHIVPDGYTIDRANMTIIVLEASTRSMPSDQKRKITSDKLKYSGVEDHLKHEGWLFNIIVISETKPRNGNVPERLLFELLKLSLSILSYSDKSSQWISEEEYDELKRSLTTYDFKTLTSEFSGTK 5mv0-a2-m3-cC_5mv0-a2-m1-cB Structure of an N-terminal domain of a reptarenavirus L protein J7HBG8 J7HBG8 1.93 X-RAY DIFFRACTION 39 1.0 1223561 (CAS virus) 1223561 (CAS virus) 193 206 5mv0-a1-m1-cC_5mv0-a1-m2-cB MDPDTNLLKNVILEILSIEPDLYKQSSIVDDPYKLAMSAIRLRATIHELNCCRDLGIIHNTKEISLNMVIDRAIPIHPTFQHIVPDGYTIDRANMTIIVLEASTRSMPSDQKRKITSDKLKYSGVEDHLKHEGWLFNIIVISETKPRNGNVPERLLFELLKLSLSILSYSDKSSQWISEEEYDELKRSLTTYD PMDPDTNLLKNVILEILSIEPDLYKQSSIVDDPYKLAMSAIRLRATIHELNCCRDLGIIHNTKEISLNMVIDRAIPIHPTFQHIVPDGYTIDRANMTIIVLEASTRSMPSDQKRKITSDKLKYSGVEDHLKHEGWLFNIIVISETKPRNGNVPERLLFELLKLSLSILSYSDKSSQWISEEEYDELKRSLTTYDFKTLTSEFSGTK 5mv0-a2-m3-cC_5mv0-a2-m3-cA Structure of an N-terminal domain of a reptarenavirus L protein J7HBG8 J7HBG8 1.93 X-RAY DIFFRACTION 72 1.0 1223561 (CAS virus) 1223561 (CAS virus) 193 200 5mv0-a1-m1-cC_5mv0-a1-m1-cA 5mv0-a1-m2-cD_5mv0-a1-m2-cB 5mv0-a2-m1-cD_5mv0-a2-m1-cB MDPDTNLLKNVILEILSIEPDLYKQSSIVDDPYKLAMSAIRLRATIHELNCCRDLGIIHNTKEISLNMVIDRAIPIHPTFQHIVPDGYTIDRANMTIIVLEASTRSMPSDQKRKITSDKLKYSGVEDHLKHEGWLFNIIVISETKPRNGNVPERLLFELLKLSLSILSYSDKSSQWISEEEYDELKRSLTTYD PMDPDTNLLKNVILEILSIEPDLYKQSSIVDDPYKLAMSAIRLRATIHELNCCRDLGIIHNTKEISLNMVIDRAIPIHPTFQHIVPDGYTIDRANMTIIVLEASTRSMPSDQKRKITSDKLKYSGVEDHLKHEGWLFNIIVISETKPRNGNVPERLLFELLKLSLSILSYSDKSSQWISEEEYDELKRSLTTYDFKTLTS 5mvg-a1-m1-cA_5mvg-a1-m1-cB Crystal structure of non-amyloidogenic light chain dimer M7 2.2 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 209 VSVALGQTVKITCQGDSLRMYWYQQKPAQAPVLYAEKNRPSGIPDRASLTITGAQAEDEADYYCFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT ELTQDPAVSVALGQTVKITCQGDSLRMYYASWYQQKPAQAPVLVIYAEKNRPSGIPDRFSASSSGSTASLTITGAQAEDEADYYCNSRDNSGDHLVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 5mvi-a2-m1-cC_5mvi-a2-m1-cD Crystal structure of 2-methylcitrate dehydratase (PrpD) from Salmonella enterica Q8Z903 Q8Z903 3.05 X-RAY DIFFRACTION 148 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 332 337 5mvi-a1-m1-cE_5mvi-a1-m1-cF DFDREIVDIVDYVMNYEITSKVAYDTAHYCLLDTLGCGLEALEYPACKKLLGPIVPGTVVPNGARVPGTQFQLDPVQAAFNIGAMIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRNAVAAGKAPLTMKQVLSGMIKAHEIQGCIALENAFNRVGLDHVLLVKVASTAVVAEMLGLTRDEILNAVSLAWVDGQSLRTYRHAPNTGTRKSWAAGDATSRAVRLALMAKTGEMGYPSALTAKTWGFYDVSFKGETFRFQRPYGSYVMENVLFKPIGHARRRADGIPKLIEKFKINLARQFPTRQQQRILDVSLDRARLEQMPVNEYLDLYV DFDREIVDIVDYVMNYEITSKVAYDTAHYCLLDTLGCGLEALEYPACKKLLGPIVPGTVVPNGARVPGTQFQLDPVQAAFNIGAMIRWLDFNDTWLAAEWGHPSDNLGGILATADWLSRNAVAAGKAPLTMKQVLSGMIKAHEIQGCIALENAFNRVGLDHVLLVKVASTAVVAEMLGLTRDEILNAVSLAWVDGQSLRTYRHAPNTGTRKSWAAGDATSRAVRLALMAKTGEMGYPSALTAKTWGFYDVSFKGETFRFQRPYGSYVMENVLFKISVEYPIGHARRRADGIPKLIEKFKINLARQFPTRQQQRILDVSLDRARLEQMPVNEYLDLYV 5mvs-a1-m1-cA_5mvs-a1-m1-cB Crystal structure of Dot1L in complex with adenosine and inhibitor CPD1 [N6-(2,6-dichlorophenyl)-N6-(pent-2-yn-1-yl)quinoline-4,6-diamine] Q8TEK3 Q8TEK3 2.18 X-RAY DIFFRACTION 63 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 320 322 LELRLKSPVGAEPAVYPWPLPVYDKHHDAAHEIIETIRWVCEEIPDLKLAMENYVLIDYDTKSFESMQRLCDKYNRAIDSIHQLWKGTNTRPSTGLLRHILQQVYNHSVTDPEKLNNYEPFSPEVYGETSFDLVAQMIDEIKMTDDDLFVDLGSGVGQVVLQVAAATNCKHHYGVEKADIPAKYAETMDREFRKWMKWYGKKHAEYTLERGDFLSEEWRERIANTSVIFVNNFAFGPEVDHQLKERFANMKEGGRIVSSKPFAPLNFRINSRNLSDIGTIMRVVELSPLKGSWTGKPVSYYLHTIDRTILENYFSSLKNP KLELRLKSPVGAEPAVYPWPLPVYDKHHDAAHEIIETIRWVCEEIPDLKLAMENYVLIDYDTKSFESMQRLCDKYNRAIDSIHQLWKGTNTRPSTGLLRHILQQVYNHSVTDPEKLNNYEPFSPEVYGETSFDLVAQMIDEIKMTDDDLFVDLGSGVGQVVLQVAAATNCKHHYGVEKADIPAKYAETMDREFRKWMKWYGKKHAEYTLERGDFLSEEWRERIANTSVIFVNNFAFGPEVDHQLKERFANMKEGGRIVSSKPFAPLNFRINSRNLSDIGTIMRVVELSPLKGSVSWTGKPVSYYLHTIDRTILENYFSSLKN 5mw0-a1-m1-cB_5mw0-a1-m1-cA Complex between the Leucine Zipper (LZ) and Centrosomin-motif 2 (CM2) domains of Drosophila melanogaster Centrosomin (Cnn) - L535E mutant form P54623 P54623 2 X-RAY DIFFRACTION 57 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 60 62 5mvw-a1-m1-cA_5mvw-a1-m1-cB 5mw9-a2-m1-cE_5mw9-a2-m1-cF 5mwe-a1-m1-cA_5mwe-a1-m1-cB SHDCAKVDLENAELRRKLIRTKRAFEDTYEKLRMANKAKAQVEKDIKNQILKTHNVLRNV GGSHDCAKVDLENAELRRKLIRTKRAFEDTYEKLRMANKAKAQVEKDIKNQILKTHNVLRNV 5mw0-a1-m1-cC_5mw0-a1-m1-cD Complex between the Leucine Zipper (LZ) and Centrosomin-motif 2 (CM2) domains of Drosophila melanogaster Centrosomin (Cnn) - L535E mutant form P54623 P54623 2 X-RAY DIFFRACTION 52 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 49 51 5mvw-a1-m1-cC_5mvw-a1-m1-cD 5mw9-a1-m1-cD_5mw9-a1-m1-cC 5mw9-a2-m1-cG_5mw9-a2-m1-cH 5mwe-a1-m1-cC_5mwe-a1-m1-cD VIGQLRLELQQARTEVETADKWRLECIDVCSVLTNRLEEEAGFLNSLLK SAVIGQLRLELQQARTEVETADKWRLECIDVCSVLTNRLEEEAGFLNSLLK 5mw1-a1-m1-cA_5mw1-a1-m1-cF cryoEM structure of crenactin double helical filament at 3.8A resolution A3MWN5 A3MWN5 3.8 ELECTRON MICROSCOPY 49 1.0 181486 (Pyrobaculum calidifontis) 181486 (Pyrobaculum calidifontis) 426 426 5mw1-a1-m1-cA_5mw1-a1-m1-cB 5mw1-a1-m1-cB_5mw1-a1-m1-cD 5mw1-a1-m1-cC_5mw1-a1-m1-cD 5mw1-a1-m1-cC_5mw1-a1-m1-cE SDAYRLKYTFGVDFGTSYVKYGPITLNEPKMVQTRGLFLRDLPESVKMRIPPDVLARGLVVGDEEVRKYLSSVRDVQRNLKYPLKDGVARRDDEEAWRVLKELARYTLAQFPVSDPEFAGWLVAVALSALAPDYMYKAIFDIYDELASEFKIYAVTILPQPLAVAIAENAVNCVIVEGGHGNIQVAPISFALIREGLVALNRGGAEANAITREILKDIGYSDIAREEYAVEVVKRAVGLVPRRLKEAIRAAKSDPDRFVTKVRLSPVVEVEIPREYAWTRFLIGEIVFDPNHEEIKSYIEQSRLRIENAVIGDVTLYGEMDVASAIITSLRNVSVEIQERVASQIILSGGAFSWRVPPGMEDVAADSVTRVKIALEEKSPALASKVEVRLVSEPQYSVWRGAVIYGYALPLSLEWSDTTREGWRFP SDAYRLKYTFGVDFGTSYVKYGPITLNEPKMVQTRGLFLRDLPESVKMRIPPDVLARGLVVGDEEVRKYLSSVRDVQRNLKYPLKDGVARRDDEEAWRVLKELARYTLAQFPVSDPEFAGWLVAVALSALAPDYMYKAIFDIYDELASEFKIYAVTILPQPLAVAIAENAVNCVIVEGGHGNIQVAPISFALIREGLVALNRGGAEANAITREILKDIGYSDIAREEYAVEVVKRAVGLVPRRLKEAIRAAKSDPDRFVTKVRLSPVVEVEIPREYAWTRFLIGEIVFDPNHEEIKSYIEQSRLRIENAVIGDVTLYGEMDVASAIITSLRNVSVEIQERVASQIILSGGAFSWRVPPGMEDVAADSVTRVKIALEEKSPALASKVEVRLVSEPQYSVWRGAVIYGYALPLSLEWSDTTREGWRFP 5mxp-a1-m1-cA_5mxp-a1-m1-cB Haloalkane dehalogenase DmxA from Marinobacter sp. ELB17 possessing a unique catalytic residue A3JB27 A3JB27 1.45 X-RAY DIFFRACTION 34 1.0 270374 (Marinobacter sp. ELB17) 270374 (Marinobacter sp. ELB17) 294 294 TQKPADFPYPSHFADVLGSRMHYVEHGNGDPLLFLHGQPTWSYLWRKVLPELEGKGRLIAVDLIGYGMSDKPDIPYDIDDHIRYLDGFIEALGLDRITIVCHDWGSFFGFHYAHRHPERIKGLAFMEAMLNPIPGYDAFDPQTRAFFQTLRSSQANAERMMMDENQFVENILPAMICRPLERQELDAYRAPWTDRQSRRILCTFPQNLCIGKEPASVYRMQTAYIEWLGQTDLPKLLIHAEPGFLIPAPAVDQYRQQLPNLETAFVGSGLHYIQEDQPQKIGQAIAQWMDRCGL TQKPADFPYPSHFADVLGSRMHYVEHGNGDPLLFLHGQPTWSYLWRKVLPELEGKGRLIAVDLIGYGMSDKPDIPYDIDDHIRYLDGFIEALGLDRITIVCHDWGSFFGFHYAHRHPERIKGLAFMEAMLNPIPGYDAFDPQTRAFFQTLRSSQANAERMMMDENQFVENILPAMICRPLERQELDAYRAPWTDRQSRRILCTFPQNLCIGKEPASVYRMQTAYIEWLGQTDLPKLLIHAEPGFLIPAPAVDQYRQQLPNLETAFVGSGLHYIQEDQPQKIGQAIAQWMDRCGL 5my2-a2-m1-cC_5my2-a2-m1-cD KS-MAT DI-DOMAIN OF MOUSE FAS P19096 P19096 2.7 X-RAY DIFFRACTION 236 1.0 10090 (Mus musculus) 10090 (Mus musculus) 848 852 5my0-a1-m1-cB_5my0-a1-m1-cA 5my0-a2-m1-cC_5my0-a2-m1-cD 5my2-a1-m1-cB_5my2-a1-m1-cA SEEVVIAGMSGKLPESENLQEFWANLIGGVDMVTDDDRRWKAGLYGLPKRSGKLKDLSKFDASFFGVHPKQAHTMDPQLRLLLEVSYEAIVDGGINPASLRGTNTGVWVGVSGSEASEALSRDPETLLGYSMVGCQRAMMANRLSFFFDFKGPSIALDTACSSSLLALQNAYQAIRSGECPAALVGGINLLLKPNTSVQFMKLGMLSPDGTCRSFDDSGSGYCRSEAVVAVLLTKKSLARRVYATILNAGTNTDGSKEQGVTFPSGEVQEQLICSLYQPAGLAPESLEYIEAHGTGTKVGDPQELNGITRSLCAFRQAPLLIGSTKSNMGHPEPASGLAALTKVLLSLEHGVWAPNLHFHNPNPEIPALLDGRLQVVDRPLPVRGGNVGINSFGFGGSNVHVILQPNTRQAPAPTAHAALPHLLHASGRTLEAVQDLLEQGRQHSQDLAFVSMLNDIAATPTAAMPFRGYTVLGVEGRVQEVQQVSRPLWFICSGMGTQWRGMGLSLMRLDSFRESILRSDEAVKPLGVKVSDLLLSTDERTFDDIVHAFVSLTAIQIALIDLLTSVGLKPDGIIGHSLGEVACGYADGCLSQREAVLAAYWRGQCIKDAHLPPGSMAAVGLSWEECKQRCPGVVPACHNSEDTVTISGPQAAVNEFVEQLKQEGVFAKEVRTGGLAFHSYFMEGIAPTLLQALKKVIREPRPRSARWLSTSIPEAQWQSSLARTSSAEYNVNNLVSPVLFQEALWHIPEHAVVLEIAPHALLQAVLKRGVKSSCTIIPLMKRDHKDNLEFFLTNLGKVHLTGINVNPNALFPPVEFPAPRGTPLISPHIKWDHSQTWDVPVAEDFPN SEEVVIAGMSGKLPESENLQEFWANLIGGVDMVTDDDRRWKAGLYGLPKRSGKLKDLSKFDASFFGVHPKQAHTMDPQLRLLLEVSYEAIVDGGINPASLRGTNTGVWVGVSGSEASEALSRDPETLLGYSMVGCQRAMMANRLSFFFDFKGPSIALDTACSSSLLALQNAYQAIRSGECPAALVGGINLLLKPNTSVQFMKLGMLSPDGTCRSFDDSGSGYCRSEAVVAVLLTKKSLARRVYATILNAGTNTDGSKEQGVTFPSGEVQEQLICSLYQPAGLAPESLEYIEAHGTGTKVGDPQELNGITRSLCAFRQAPLLIGSTKSNMGHPEPASGLAALTKVLLSLEHGVWAPNLHFHNPNPEIPALLDGRLQVVDRPLPVRGGNVGINSFGFGGSNVHVILQPNTRQAPAPTAHAALPHLLHASGRTLEAVQDLLEQGRQHSQDLAFVSMLNDIAATPTAAMPFRGYTVLGVEGRVQEVQQVSTNKRPLWFICSGMGTQWRGMGLSLMRLDSFRESILRSDEAVKPLGVKVSDLLLSTDERTFDDIVHAFVSLTAIQIALIDLLTSVGLKPDGIIGHSLGEVACGYADGCLSQREAVLAAYWRGQCIKDAHLPPGSMAAVGLSWEECKQRCPAGVVPACHNSEDTVTISGPQAAVNEFVEQLKQEGVFAKEVRTGGLAFHSYFMEGIAPTLLQALKKVIREPRPRSARWLSTSIPEAQWQSSLARTSSAEYNVNNLVSPVLFQEALWHIPEHAVVLEIAPHALLQAVLKRGVKSSCTIIPLMKRDHKDNLEFFLTNLGKVHLTGINVNPNALFPPVEFPAPRGTPLISPHIKWDHSQTWDVPVAEDFPN 5myb-a1-m1-cA_5myb-a1-m1-cB Homodimerization of Tie2 Fibronectin-like domains 2 and 3 in space group P21 Q02763 Q02763 2.6 X-RAY DIFFRACTION 48 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 190 191 5mya-a1-m1-cB_5mya-a1-m1-cA LPPPRGLNLLPKSQTTLNLTWQPIFPEDDFYVEVERRSVQKSDQQNIKVPGNLTSVLLNNLHPREQYVVRARVNTKAQGEWSEDLTAWTLSDILPPQPENIKISNITHSSAVISWTILDGYSISSITIRYKVQGKNEDQHVDVKIKNATITQYQLKGLEPETAYQVDIFAENNIGSSNPAFSHELVTLPE GLPPPRGLNLLPKSQTTLNLTWQPIFSEDDFYVEVERRSVQKSDQQNIKVPGNLTSVLLNNLHPREQYVVRARVNTKAQGEWSEDLTAWTLSDILPPQPENIKISNITHSSAVISWTILDGYSISSITIRYKVQGKNEDQHVDVKIKNATITQYQLKGLEPETAYQVDIFAENNIGSSNPAFSHELVTLPE 5myf-a1-m1-cA_5myf-a1-m1-cD Convergent evolution involving dimeric and trimeric dUTPases in signalling. A0A2D0TC87 A0A2D0TC87 1.85 X-RAY DIFFRACTION 69 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 155 158 5myd-a1-m1-cA_5myd-a1-m4-cC 5myd-a2-m5-cA_5myd-a2-m1-cC 5myd-a3-m2-cD_5myd-a3-m1-cB 5myd-a4-m1-cD_5myd-a4-m3-cB TNTLTTDQLQELLQIQKEFDDRIPTLNLGDSKIAYVVEFFEWFNTLETFKNWKKKPGKPLDVQLDELADILAFGLSIANQQGFEEYDRDLFFESFDEEYFLDFPYLRNQDMIYDMMSEFYDDDLTSIRRLVIVFKIAEQLYTIDQLIDAYKKKMK TNTLTTDQLQELLQIQKEFDDRIPTLNLGDSKIAYVVEFFEWFNTLETFKNWKKKPGKPLDVQLDELADILAFGLSIANQQGFEEYDRDLFFESFDEEYFLDFPYLRNQDMIYDMMSEFYDDDLTSIRRLVIVFKIAEQLYTIDQLIDAYKKKMKRNH 5myi-a1-m1-cD_5myi-a1-m2-cD Convergent evolution involving dimeric and trimeric dUTPases in signalling. A0A2D0TC88 A0A2D0TC88 1.9 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 165 165 MTNTLTTDQLQELLQIQKEFDDRIPTLNLGDSKIAYVVEFFEWFNTLETFKNWKKKPGKPLDVQLDELADILLFGLSIANQQGFEEYDRDLFFESFDEEYFLDFPYLRNQDMIYDMMSEFYDDDLTSIRRLVIVFKIAEQLYTIDQLIDAYKKKMKRNHERQDGT MTNTLTTDQLQELLQIQKEFDDRIPTLNLGDSKIAYVVEFFEWFNTLETFKNWKKKPGKPLDVQLDELADILLFGLSIANQQGFEEYDRDLFFESFDEEYFLDFPYLRNQDMIYDMMSEFYDDDLTSIRRLVIVFKIAEQLYTIDQLIDAYKKKMKRNHERQDGT 5myp-a1-m1-cA_5myp-a1-m1-cB Structure of apo-TbALDH3 Q583M9 Q583M9 1.95 X-RAY DIFFRACTION 276 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 485 485 5nno-a1-m1-cA_5nno-a1-m1-cB AGVPENTSLENIPVIVSKCREAFNDDANRDLKKRKQVLRSLLNLVEENTDEFCKAIHRDRRRHRDETVVMEILPLRNEVWHLIEHMDEYVKPVKPTMEGAAALDDCELQYEPLGVVLVIGTWNYPLLLILQPLLGALAAGNTAVIKPSELAPATAELLTKLLPKYVSSDVVGIVNGGVSETTAVLKERFDHILYTGSARVAEIVMAAAAKHLTPVTLELGGKSPVVVDDTCADNMKVVAERIMWGKIINAGQTCIAPDYVVVEKSMESVLVDALAEARKAMLGDKFLKVLKGELLVKQKQQFLEESDYPRIVNASHFQRLMEFMKGGKVAVGGEADEATLTIAPTILTNIDPTHPVMQEEIFGPILPVLTYENEKDILKIINSREKPLALYVFSNNKRFIRGVESRTSSGAVVVNDVVVHAGADGLPFGGVGRSGMGAYHGRYSFETFSHRRPVMRRGFLFSSIDTVRFPPYTTAKSRVLNSLLK AGVPENTSLENIPVIVSKCREAFNDDANRDLKKRKQVLRSLLNLVEENTDEFCKAIHRDRRRHRDETVVMEILPLRNEVWHLIEHMDEYVKPVKPTMEGAAALDDCELQYEPLGVVLVIGTWNYPLLLILQPLLGALAAGNTAVIKPSELAPATAELLTKLLPKYVSSDVVGIVNGGVSETTAVLKERFDHILYTGSARVAEIVMAAAAKHLTPVTLELGGKSPVVVDDTCADNMKVVAERIMWGKIINAGQTCIAPDYVVVEKSMESVLVDALAEARKAMLGDKFLKVLKGELLVKQKQQFLEESDYPRIVNASHFQRLMEFMKGGKVAVGGEADEATLTIAPTILTNIDPTHPVMQEEIFGPILPVLTYENEKDILKIINSREKPLALYVFSNNKRFIRGVESRTSSGAVVVNDVVVHAGADGLPFGGVGRSGMGAYHGRYSFETFSHRRPVMRRGFLFSSIDTVRFPPYTTAKSRVLNSLLK 5mz4-a1-m1-cB_5mz4-a1-m1-cA Crystal Structure of full-lengh CSFV NS3/4A P19712 P19712 3.048 X-RAY DIFFRACTION 149 0.982 11097 (Hog cholera virus (strain Alfort)) 11097 (Hog cholera virus (strain Alfort)) 679 704 LYFQGSKRHIPVVTDIYSVEDHRLEDTTHLQYAPGSGSGPAVCKKVTEHERCTTSIMDKLTAFFGVMPRGTTPRAPVRFPTSLLKIRRGLETGWAYTHQGGISSVDHVTCGKDLLVCDTMGRTRVVCQSNNKMTDESEYGVKTDSGCPEGARCYVFNPEAVNISGTKGAMVHLQKTGGEFTCVTASGTPAFFDLKNLKGWAGLPIFEASSGRVVGRVKVGKNEDSKPTKLMSGIQLTEMVKKITTMNRGEFRQITLATGAGKTTELPRSVIEEIGRHKRVLVLIPLRAAAESVYQYMRQKHPSIAFNLRIGEMKEGDMATGITYASYGYFCQMSQPKLRAAMVEYSFIFLDEYHCATPEQLAIMGKIHRFSENLRVVAMTAIEEFIAPEVMKGGSEYLDIAGLKIPVEEMKNNMLVFVPTRNMAVEAAKKLKAKGYNSGYYYSGEDPSNLRVVVATNAIEVVDTGLKCEKRIRLSPKMPFIVTGLKRMAVTIGEQAQRRGRVYYRSQETPVGSKDYHYDLLQAQRYGIEDGINITKSFREMNYDWSLYEEDSLMITQLEILNNLLISEELPMAVKNIMARTDHPEPIQLAYNSYETQVPVLFPKIRNGEVTDTYDNYTFLNARKLGDDVPPYVYATEDEDLAVELLGLDWPDPGNQGTVEAGRALKQVVGLSTAENALL SKRHIPVVTDIYSVEDHRLEDTTHLQYAPGSGSGPAVCKKVTEHERCTTSIMDKLTAFFGVMPRGTTPRAPVRFPTSLLKIRRGLETGWAYTHQGGISSVDHVTCGKDLLVCDTMGRTRVVCQSNNKMTDESEYGVKTDSGCPEGARCYVFNPEAVNISGTKGAMVHLQKTGGEFTCVTASGTPAFFDLKNLKGWAGLPIFEASSGRVVGRVKVGKNEDSKPTKLMSGATDLTEMVKKITTMNRGEFRQITLATGAGKTTELPRSVIEEIGRHKRVLVLIPLRAAAESVYQYMRQKHPSIAFNLRIGEMKEGDMATGITYASYGYFCQMSQPKLRAAMVEYSFIFLDEYHCATPEQLAIMGKIHRFSENLRVVAMTATPAGTVTHPIEEFIAPEVEYLDIAGLKIPVEEMKNNMLVFVPTRNMAVEAAKKLKAKGYNSGYYYSGEDPSNLRVVTSQSPYVVVATNAIESGVTLPDLDVVVDTGLKCEKRIRLSPKMPFIVTGLKRMAVTIGEQAQRRGRVGRVKPGRYYRSQETPVGSKDYHYDLLQAQRYGIEDGINITKSFREMNYDWSLYEEDSLMITQLEILNNLLISEELPMAVKNIMARTDHPEPIQLAYNSYETQVPVLFPKIRNGEVTDTYDNYTFLNARKLGDDVPPYVYATEDEDLAVELLGLDWPDPGNQGTVEAGRALKQVVGLSTAENALL 5mzg-a1-m1-cB_5mzg-a1-m1-cA Crystal structure of mouse MTH1 in complex with TH588 P53368 P53368 1.85 X-RAY DIFFRACTION 75 1.0 10090 (Mus musculus) 10090 (Mus musculus) 153 155 MSTSRLYTLVLVLQPQRVLLGMKKRGFGAGRWNGFGGKVQEGETIEDGAKRELLEESGLSVDTLHKVGHISFEFVGSPELMDVHIFSADHVHGTPTESEEMRPQWFQLDQIPFADLWPDDSYWFPLLLQKKKFCGHFKFQDQDTILSYSLREV HMSTSRLYTLVLVLQPQRVLLGMKKRGFGAGRWNGFGGKVQEGETIEDGAKRELLEESGLSVDTLHKVGHISFEFVGSPELMDVHIFSADHVHGTPTESEEMRPQWFQLDQIPFADLWPDDSYWFPLLLQKKKFCGHFKFQDQDTILSYSLREVD 5mzw-a1-m1-cA_5mzw-a1-m1-cC Crystal structure of the decarboxylase AibA/AibB Q1D4I4 Q1D4I4 1.52 X-RAY DIFFRACTION 54 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 262 263 5mzx-a1-m1-cA_5mzx-a1-m1-cC 5mzy-a1-m1-cA_5mzy-a1-m1-cC 5mzz-a1-m1-cA_5mzz-a1-m1-cC 5n00-a1-m1-cC_5n00-a1-m1-cA 5n01-a1-m1-cA_5n01-a1-m1-cC 5n02-a1-m1-cA_5n02-a1-m1-cC 5n03-a1-m1-cA_5n03-a1-m1-cC MKTARWCSLEEAVASIPDGASLATGGFMLGRAPMALVMELIAQGKRDLGLISLPNPLPAEFLVAGGCLARLEIAFGALSLQGRVRPMPCLKRAMEQGTLAWREHDGYRVVQRLRAASMGLPFIPAPDADVSGLARTEPPPTVEDPFTGLRVAVEPAFYPDVALLHARAADERGNLYMEDPTTDLLVAGAAARVIATVEERVAKLPRATLPGFQVDRIVLAPGGALPTGCAGLYPHDDEMLARYLSLAETGREAEFLETLLTR MKTARWCSLEEAVASIPDGASLATGGFMLGRAPMALVMELIAQGKRDLGLISLPNPLPAEFLVAGGCLARLEIAFGALSLQGRVRPMPCLKRAMEQGTLAWREHDGYRVVQRLRAASMGLPFIPAPDADVSGLARTEPPPTVEDPFTGLRVAVEPAFYPDVALLHARAADERGNLYMEDPTTDLLVAGAAARVIATVEERVAKLPRATLPGFQVDRIVLAPGGALPTGCAGLYPHDDEMLARYLSLAETGREAEFLETLLTRR 5n06-a1-m1-cB_5n06-a1-m1-cA Crystal structure of Tie1 Fibronectin-like domain 3 P35590 P35590 2.501 X-RAY DIFFRACTION 165 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 93 PPAPRHLHAQALSDSEIQLTWKHPEALPGPISKYVVEVQVPLWIDVDRPEETSTIIRGLNASTRYLFRMRASIQGLGDWSNTVEESTL GPPAPRHLHAQALSDSEIQLTWKHPEALPGPISKYVVEVQVAGDPLWIDVDRPEETSTIIRGLNASTRYLFRMRASIQGLGDWSNTVEESTLG 5n08-a2-m1-cB_5n08-a2-m1-cD Structure of the apo form of the NO response regulator NsrR Q9L132 Q9L132 3.90095 X-RAY DIFFRACTION 90 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 127 127 5n07-a1-m1-cA_5n07-a1-m2-cA 5n08-a1-m1-cA_5n08-a1-m2-cA 5n08-a3-m1-cC_5n08-a3-m1-cE 7b0c-a1-m1-cA_7b0c-a1-m1-cB RLTKFTDLALRSLMRLAVVRDGDEPLATREVAEVVGVPYTHAAKAITRLQHLGVVEARLTLTDLGRRVSVGWLVRELEGEAEVVDAEGDNPAPLRGAARLRRALRDAQEAFYAALDPLTVTDLVAAP RLTKFTDLALRSLMRLAVVRDGDEPLATREVAEVVGVPYTHAAKAITRLQHLGVVEARLTLTDLGRRVSVGWLVRELEGEAEVVDAEGDNPAPLRGAARLRRALRDAQEAFYAALDPLTVTDLVAAP 5n09-a1-m1-cI_5n09-a1-m1-cH Crystal structure of L107C/A313C covalently linked dengue 2 virus envelope glycoprotein dimer in complex with the Fab fragment of the broadly neutralizing human antibody EDE2 A11 3.9 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 226 EVQLVESGGGLVRPGGSLRLSCAASGFSYSNHWMHWVRQAPGKGLVWVSRINSDGSTRNYADFVKGRFTISRDNAENTLYLEMNSLTADDTAVYYCVRDGVRFYYDSTGYYPDSFFKYGMDVWGQGTTVTVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP EVQLVESGGGLVRPGGSLRLSCAASGFSYSNHWMHWVRQAPGKGLVWVSRINSDGSTRNYADFVKGRFTISRDNAENTLYLEMNSLTADDTAVYYCVRDGVRFYYDSTGYYPDSFFKYGMDVWGQGTTVTVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP 5n0j-a1-m1-cA_5n0j-a1-m1-cB Structure of a novel oxidoreductase from Gloeobacter violaceus Q7NCP4 Q7NCP4 1.949 X-RAY DIFFRACTION 139 1.0 33072 (Gloeobacter violaceus) 33072 (Gloeobacter violaceus) 300 323 5ode-a1-m1-cB_5ode-a1-m1-cA QAQLYDVIIAGGGAGGLSAAVYLARYNLKVLVIEKGRGRSFWMQDLWNYVPRVVSGKELIEGGKEMALHYGADWLNGFVEAVTDTGEEFQVRVKYRFYPVFRAKYLIAATGLMDVLPQLENMQNVYEYAGYNLHVCLICDGYEMTNRRAALIAGSEKAINTAFVLNWFTPYITVLTLGAYPVGDEMRAKLADHGYPLIEKPIARFLGKDHVMDGIEFADGTSIKVDTGLISMGSIRHDGYLKNLDLLTDGGDIVTEYDCRTSHPRVFALGDLKKGLNQVSIAVADGTLAATAIWKEIRRA DEKQAQLYDVIIAGGGAGGLSAAVYLARYNLKVLVIEKGRGRSFWMQDLWNYVPRVVSGKELIEGGKEMALHYGADWLNGFVEAVTDTGEEFQVRVKYRFKNSDYPVFRAKYLIAATGLMDVLPQLENMQNVYEYAGYNLHVCLICDGYEMTNRRAALIAGSEKAINTAFVLNWFTPYITVLTLGAYPVGDEMRAKLADHGYPLIEKPIARFLGKDHVMDGIEFADGTSIKVDTGLISMGSIRHDGYLKNLDLLTDGGDIVTEYDCRTSHPRVFALGDLKKGLNQVSIAVADGTLAATAIWKEIRRASAPRKWTAPLQEAAAR 5n11-a1-m1-cA_5n11-a1-m1-cB Crystal structure of Human beta1-coronavirus OC43 NL/A/2005 Hemagglutinin-Esterase Q4VID6 Q4VID6 2.45 X-RAY DIFFRACTION 93 0.988 31631 (Human coronavirus OC43) 31631 (Human coronavirus OC43) 342 348 YNPPTNVVSHVNGDWFLFGDSRSDCNHIGNINPHNYSYMDLNPALCDSGKISSKAGNSIFRSFHFTDFYNYTGEGQQIIFYEGVNFTPYHAFKCNRSGSNDIWMQNKGLFYTQVYKNMAVYRSLTFVNVSYVYNGSAQATAFCKSGSLVLNNPAYIAPQATKVEADFYLSGCDEYIVPLCIFNDHSQYYFNKDTGVIYGLNSTETITTGFDLNCHYLVLPSGNYLAISNELLLTVPTKAICFNKRKDFTPVQVVDSRWNNARQSDNMTAVACQPPYCYFRNSTTNYVGVYDINHGDAGFTSILSGLLYNSSCFSQQGVFRYDNISSVWPLYPYGRCPTAADI YNPPTNVVSHVNGDWFLFGDSRSDCNHIGNINPHNYSYMDLNPALCDSGKISSKAGNSIFRSFHFTDFYNYTGEGQQIIFYEGVNFTPYHAFKCNRSGSNDIWMQNKGLFYTQVYKNMAVYRSLTFVNVSYVYNGSAQATAFCKSGSLVLNNPAYIAPKVEADFYLSGCDEYIVPLCIFNGKFLSNTKYYDHSQYYFNKDTGVIYGLNSTETITGFDLNCHYLVLPSGNYLAISNELLLTVPTKAICFNKRKDFTPVQVVDSRWNNARQSDNMTAVACQPPYCYFRNSTTNYVGVYDINHGDAGFTSILSGLLYNSSCFSQQGVFRYDNISSVWPLYPYGRCPTAADI 5n1q-a1-m1-cA_5n1q-a1-m1-cD METHYL-COENZYME M REDUCTASE III FROM METHANOTHERMOCOCCUS THERMOLITHOTROPHICUS AT 1.9 A RESOLUTION A0A247D6X3 A0A247D6X3 1.9 X-RAY DIFFRACTION 345 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 545 545 5n28-a1-m1-cD_5n28-a1-m1-cA 5n2a-a1-m1-cA_5n2a-a1-m2-cA KKLFLKALKEKFEEDPKEKYTKFYTFGGWQQSARKREFVEANEKIVAEKRGGIPMYNPDIGVPLGQRKLMPYKLSGTDYIVEGDDLHFMNNAAIQQMWDDIRRTVIVGMDTGHAVLEKRLGVEVTPETINEYMATINHSLPGGAVVQEHMVEVHPSLAWDCYAKIFTGDDELADELDKKYLIDINKLFPEEQAEQLKAAIGKKTYQVSRVPTLVGRVCDGGTIARWSAMQIGMSFITAYKLCAGEAAIADFSYAAKADVVGVGTALPARSRGANEPGGIPFGVLCDIVQTTRISDDPVEQSLEVVAVGAMLYDQVWLGSYMSGGVGFTQYATAAYTDDILDDFAYYGYEYVEKKYGINSTKPTMDVVEDIATEVTLYSLEQYDEFPTLLEDHFGGSRAAVAAAASGISVCMATGNSNAGVNGWYLSQIMHKEYHSRLGFYYDLQDQCGASNSLSIRNDEASPLELRGPNYPNYAMNVGHQGEYAGITQAAHSARKDAFAMNPLIKIAFADPSLVFDFARPRKECARGALREFEAAGERDVILPAK KKLFLKALKEKFEEDPKEKYTKFYTFGGWQQSARKREFVEANEKIVAEKRGGIPMYNPDIGVPLGQRKLMPYKLSGTDYIVEGDDLHFMNNAAIQQMWDDIRRTVIVGMDTGHAVLEKRLGVEVTPETINEYMATINHSLPGGAVVQEHMVEVHPSLAWDCYAKIFTGDDELADELDKKYLIDINKLFPEEQAEQLKAAIGKKTYQVSRVPTLVGRVCDGGTIARWSAMQIGMSFITAYKLCAGEAAIADFSYAAKADVVGVGTALPARSRGANEPGGIPFGVLCDIVQTTRISDDPVEQSLEVVAVGAMLYDQVWLGSYMSGGVGFTQYATAAYTDDILDDFAYYGYEYVEKKYGINSTKPTMDVVEDIATEVTLYSLEQYDEFPTLLEDHFGGSRAAVAAAASGISVCMATGNSNAGVNGWYLSQIMHKEYHSRLGFYYDLQDQCGASNSLSIRNDEASPLELRGPNYPNYAMNVGHQGEYAGITQAAHSARKDAFAMNPLIKIAFADPSLVFDFARPRKECARGALREFEAAGERDVILPAK 5n1q-a1-m1-cB_5n1q-a1-m1-cE METHYL-COENZYME M REDUCTASE III FROM METHANOTHERMOCOCCUS THERMOLITHOTROPHICUS AT 1.9 A RESOLUTION A0A247D6X4 A0A247D6X4 1.9 X-RAY DIFFRACTION 150 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 442 442 VKYEDKISLYDAKGNLVEDGVPLEAISPLYNPTIKAMVKNIKRTVAVNLAGIENSLKTGAIGGKGCKVPGRTLDLPIVENAEAIMDEVEKILRITPDDDTQLRAINDGKQLVVQVPSKRLEVAAEYSVSMLNTAMALKEAIIKTFDVDLFDGSTIHAAIVGRYPQVMDYMGGNIASLLGAPSNMEGLGYALRNIMVNHYVATTKKNLMNAVAFASIMEQTAMFEMGDAIGSFERMHLLGLAYQGLNSDNLVIDLVKANSKGTVGTVVASVVERALEDKVIVEDKSLESGFTMYKPADVAKWNAYAAAGLVAAVIVNCGAARAAQNVASTILYYNDILEYETGLPGTDFGRAEGTAVGFSFFSHSIYGGGGPGIFTGNHVVTRHSKGFAIPPVCAAMCADAGTQMFSPEKTSALVGAVYSAIDEFREPLKYVIEGALEVKDKI VKYEDKISLYDAKGNLVEDGVPLEAISPLYNPTIKAMVKNIKRTVAVNLAGIENSLKTGAIGGKGCKVPGRTLDLPIVENAEAIMDEVEKILRITPDDDTQLRAINDGKQLVVQVPSKRLEVAAEYSVSMLNTAMALKEAIIKTFDVDLFDGSTIHAAIVGRYPQVMDYMGGNIASLLGAPSNMEGLGYALRNIMVNHYVATTKKNLMNAVAFASIMEQTAMFEMGDAIGSFERMHLLGLAYQGLNSDNLVIDLVKANSKGTVGTVVASVVERALEDKVIVEDKSLESGFTMYKPADVAKWNAYAAAGLVAAVIVNCGAARAAQNVASTILYYNDILEYETGLPGTDFGRAEGTAVGFSFFSHSIYGGGGPGIFTGNHVVTRHSKGFAIPPVCAAMCADAGTQMFSPEKTSALVGAVYSAIDEFREPLKYVIEGALEVKDKI 5n1t-a1-m1-cM_5n1t-a1-m1-cW Crystal structure of complex between flavocytochrome c and copper chaperone CopC from T. paradoxus W0DSL1 W0DSL1 2.6 X-RAY DIFFRACTION 82 0.984 713585 (Thioalkalivibrio paradoxus ARh 1) 713585 (Thioalkalivibrio paradoxus ARh 1) 124 124 HAHLRAADPPEAIVDAAGLREIRLVFSEPVVDRFSTFRAFRLSLPENGIRNLTQLNTLASELGVDTEESAHHEVELESDLSAEVTLHSDEPLPAGAYAVVWRVLSVDGHTTTGFHAFVHAGGTA HAHLRAADPPEAIVDAAGLREIRLVFSEPVVDRFSTFRAFRLSLPENGIRNLTQLNTLASELGVDTEESAHHEVELESDLSQSAEVTLHSDEPLPAGAYAVVWRVLSVDGHTTTGFHAFVHAGG 5n2a-a1-m1-cB_5n2a-a1-m2-cB METHYL-COENZYME M REDUCTASE III FROM METHANOTORRIS FORMICICUS TRIGONAL FORM H1KXL9 H1KXL9 2.8 X-RAY DIFFRACTION 153 1.0 647171 (Methanotorris formicicus Mc-S-70) 647171 (Methanotorris formicicus Mc-S-70) 443 443 5n28-a1-m1-cB_5n28-a1-m1-cE VKYEDKICLYNAKGELVEENVPLEAISPLYNPTIQKLVKDIKRTVAVNLAGIENALKTGAVGGKACVIPGRTLDLPIVENAETIMEYVDKLLRISPDDDTSVKLINDGKQMAVQLPSKRLEVAAEYSISMLNTAMALKEAIIKTFDVDMFDAPMVHAAILGRYPQVPDYMGANIASLLGAPTNLEGLGYALRNIMVNHYVATTKKNIMNAVAFASIMEQTAMFEMGDAIGSFERLHLLGLAYQGLNADNLVIDLVKANGKNGTVGTVVASIVERALEDGVITEDKKMPSGFVLYKPVDVAKWNAYAAAGLVAAVIVNCGAARAAQNVASTILYYNDIIEYETGLPGVDFGRAEGTAVGFSFFSHSIYGGGGPGIFNGNHIVTRHSKGFAIPPVCAAMCVDAGTQMFSPEKTSALVGAVFSAIDEFREPLKYVIDGALAVKDKI VKYEDKICLYNAKGELVEENVPLEAISPLYNPTIQKLVKDIKRTVAVNLAGIENALKTGAVGGKACVIPGRTLDLPIVENAETIMEYVDKLLRISPDDDTSVKLINDGKQMAVQLPSKRLEVAAEYSISMLNTAMALKEAIIKTFDVDMFDAPMVHAAILGRYPQVPDYMGANIASLLGAPTNLEGLGYALRNIMVNHYVATTKKNIMNAVAFASIMEQTAMFEMGDAIGSFERLHLLGLAYQGLNADNLVIDLVKANGKNGTVGTVVASIVERALEDGVITEDKKMPSGFVLYKPVDVAKWNAYAAAGLVAAVIVNCGAARAAQNVASTILYYNDIIEYETGLPGVDFGRAEGTAVGFSFFSHSIYGGGGPGIFNGNHIVTRHSKGFAIPPVCAAMCVDAGTQMFSPEKTSALVGAVFSAIDEFREPLKYVIDGALAVKDKI 5n2b-a1-m1-cB_5n2b-a1-m1-cA The crystal structure of Burkholderia pseudomallei antigen and type I fimbria protein BPSL1626. Q63UH6 Q63UH6 1.9 X-RAY DIFFRACTION 22 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 138 145 ATTGTINFTGSITDVPCEIDTAATSSNVTMAKVFANDFSGVGSTTGTTAFKIVLKNATVRFMGTTDSANPAALQTTAGGAGGVALQLVDDTGTPISIGSSSKYTIADNTFNFAARYIATSATVTGGAANATAVFALTY TATTGTINFTGSITDVPCEIDTAATSSNVTMAKVFANDFSGVGSTTGTTAFKIVLKNCSGATVRFMGTTDSANPAALQTTAGGAGGVALQLVDDTGTPISIGSSSKAYTIAEGDNTFNFAARYIATSATVTGGAANATAVFALTY 5n2c-a1-m1-cC_5n2c-a1-m1-cA Crystal structure of the peptidoglycan-associated lipoprotein from Burkholderia cenocepacia B4EDC1 B4EDC1 1.8 X-RAY DIFFRACTION 20 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 117 119 5n2c-a1-m1-cA_5n2c-a1-m1-cB DPLNDPNSPLAKRSIYFDFDSYSVKDEYQPLMQQHAQYLKSHPQRHVLIQGNTDERGTSEYNLALGQKRAEAVRRAMALLGNDSQMEAVSLGKEKPQATGHDEASWAQNRRADLVYQ DPLNDPNSPLAKRSIYFDFDSYSVKDEYQPLMQQHAQYLKSHPQRHVLIQGNTDERGTSEYNLALGQKRAEAVRRAMALLGVNDSQMEAVSLGKEKPQATGHDEASWAQNRRADLVYQQ 5n2d-a1-m1-cB_5n2d-a1-m1-cD Structure of PD-L1/small-molecule inhibitor complex Q9NZQ7 Q9NZQ7 2.35 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 124 124 5n2d-a1-m1-cA_5n2d-a1-m1-cC AFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYAAALEHH AFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYAAALEHH 5n2i-a2-m1-cD_5n2i-a2-m1-cC F420:NADPH oxidoreductase from Thermobifida fusca with NADP+ bound Q47RA9 Q47RA9 1.8 X-RAY DIFFRACTION 127 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 222 223 5n2i-a1-m1-cB_5n2i-a1-m1-cA PHDLPDVSGLSIAVLGGTGDQGRGLARRFAMAGHEVILGSRSAERAQAVAAELGEGLPVRGMDNAGAAEAGDVVIVAVPWDGHRALLESLKDVLAGKIVVDCVNPLGFDKRGAYALPVEEGSAAEQAAAILPDSRVVAAFHHVSAVLLLDPEVEKVDLDVLVLGDDREATDVVRALAARIPGVRGVYGGRLRNAHQVEAFTANLISINRRYKAHAGIRITDI SPHDLPDVSGLSIAVLGGTGDQGRGLARRFAMAGHEVILGSRSAERAQAVAAELGEGLPVRGMDNAGAAEAGDVVIVAVPWDGHRALLESLKDVLAGKIVVDCVNPLGFDKRGAYALPVEEGSAAEQAAAILPDSRVVAAFHHVSAVLLLDPEVEKVDLDVLVLGDDREATDVVRALAARIPGVRGVYGGRLRNAHQVEAFTANLISINRRYKAHAGIRITDI 5n2u-a1-m1-cC_5n2u-a1-m1-cD Influenza D virus nucleoprotein A0A0E3VZU8 A0A0E3VZU8 2.4 X-RAY DIFFRACTION 173 0.989 1542973 (Influenza D virus (D/bovine/France/2986/2012)) 1542973 (Influenza D virus (D/bovine/France/2986/2012)) 467 476 5n2u-a1-m1-cB_5n2u-a1-m1-cA 5n2u-a1-m1-cB_5n2u-a1-m1-cC TPEEQRAKNAKTILENIQIYERMCDLFGVSEDDKLIIENSISIERMIRVVTDKKYQDKKLKNAIANAGKVFCRLVESTAGKCSARLGMALKPNVEAVLTDVLGAVLGKRMGFTAMFKSNLEEVLYQRKRNSAETFTLSQGASLEARFRPIMEKHLGVGTVVASIKNILASKKNPLEREISFLNKKLFPGPMRQLCKKFEYLNDQEKQLALNLMLDASLILKPQVTHKMIMPWSMWLAVKKYAEMNKGSPSLEDLAAYSGVRAFMAFNTACYMSKFTIGKGIVGDAEIMENGNDKMQILAMACFGLAYEDTGIVAAMISQPMKKRYQLKVGNFNPPEEGTIKGTSAGYFHKWAEFGNRLPFNSFGTGESKQISNSGVFAVQRPSTTNIQRLAELMARNTGETSDNFTQLVQKIREQVGTFADQKANLREFTGGYIYDITDVTKSNPKIPQLGGNSFFFEFTGSDVPRT TPEEQRAKNAKTILENIQIYERMCDLFGVSEDDKLIIENSISIERMIRVVTDKKYQDKKLIANAGKVFCRLVESTAGKCSARLGMALKPNVEAVLTDVLGLGKRMGFTAMFKSNLEEVLYQRGKNQLKKRNSAETFTLSQGASLEARFRPIMEKHLGVGTVVASIKNILASKKNVRKPGSWSPLEREISFLNKKLFPGPMRQLCKKFEYLNDQEKQLALNLMLDASLILKPQVTHKMIMPWSMWLAVKKYAEMNKGSPSLEDLAAYSGVRAFMAFNTACYMSKFTIGKGIVGDAEIMENGNDKMQILAMACFGLAYEDTGIVAAMISQPMKKRYQLKVGNFNPPEEGTIKGTSAGYFHKWAEFGNRLPFNSFGTGESKQISNSGVFAVQRPSTTNIQRLAELMARNTGETSDNFTQLVQKIREQVGTFADQKANLREFTGGYIYDITDVTKSNPKIPQLGGNSFFFEFTGSDVPRT 5n3u-a1-m1-cA_5n3u-a1-m2-cA The structure of the complex of CpcE and CpcF of phycocyanin lyase from Nostoc sp. PCC7120 P07125 P07125 1.89 X-RAY DIFFRACTION 23 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 266 266 PSVEEFPAENGPQLTPELAIANLQSSDLSLRYYAAWWLGKYRVKESAAVDALIAALEDEADRTELGGYPLRRNAARALGKLGNRKAVPGLINCLECPDFYVREAAAQSLEMLKDKTAAPALIKLLDGGVAQAVQVTGRPHLVQPYEAVLEALGAIGATDAIPLIQPFLEHPVSRVQCAAARAMYQLTQEPVYGELLVKVLAGNDLNLRRVALGDLGAIGYLAAAEAIANAKAENSFKLIALKGLLEHQMSISDQAIRVMNLMDSLL PSVEEFPAENGPQLTPELAIANLQSSDLSLRYYAAWWLGKYRVKESAAVDALIAALEDEADRTELGGYPLRRNAARALGKLGNRKAVPGLINCLECPDFYVREAAAQSLEMLKDKTAAPALIKLLDGGVAQAVQVTGRPHLVQPYEAVLEALGAIGATDAIPLIQPFLEHPVSRVQCAAARAMYQLTQEPVYGELLVKVLAGNDLNLRRVALGDLGAIGYLAAAEAIANAKAENSFKLIALKGLLEHQMSISDQAIRVMNLMDSLL 5n3u-a1-m1-cB_5n3u-a1-m2-cB The structure of the complex of CpcE and CpcF of phycocyanin lyase from Nostoc sp. PCC7120 P29985 P29985 1.89 X-RAY DIFFRACTION 10 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 170 170 DVAAIPTLIAVFGYNNPTAAAIASTALVQLGEVAVPQLLTQIDDYNYGARAYSIRTLAAIADPRALDVLIDAAATDFAPSVRRAAAKGLGNLHWHKLEFPDNQTAPKKALETLLFISQDAEWSIRYAAIVGLQGLVNIPDLQQPIHTRLKEMLASDAEKAVRARILLAQS DVAAIPTLIAVFGYNNPTAAAIASTALVQLGEVAVPQLLTQIDDYNYGARAYSIRTLAAIADPRALDVLIDAAATDFAPSVRRAAAKGLGNLHWHKLEFPDNQTAPKKALETLLFISQDAEWSIRYAAIVGLQGLVNIPDLQQPIHTRLKEMLASDAEKAVRARILLAQS 5n4k-a1-m1-cB_5n4k-a1-m1-cA N-terminal domain of a human Coronavirus NL63 nucleocapsid protein Q6Q1R8 Q6Q1R8 1.49 X-RAY DIFFRACTION 65 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 129 130 RAARKKFPPPSFYMPLLVSSDKAPYRVIPRNLVPIGKGNKDEQIGYWNVQERWRMRRRVDLPPKVHFYYLGTGPHKDLKFRQRSDGVVWVAKEGAKTVNTSLGNRKRNQKPLEPKFSIALPPELSVVEF DRAARKKFPPPSFYMPLLVSSDKAPYRVIPRNLVPIGKGNKDEQIGYWNVQERWRMRRRVDLPPKVHFYYLGTGPHKDLKFRQRSDGVVWVAKEGAKTVNTSLGNRKRNQKPLEPKFSIALPPELSVVEF 5n5d-a1-m1-cB_5n5d-a1-m1-cA Crystal Structure of the O-Methyltransferase TomG from Streptomyces achromogenes involved in Tomaymycin synthesis in complex with SAM 1.55 X-RAY DIFFRACTION 125 1.0 68263 (Streptomyces regensis) 68263 (Streptomyces regensis) 223 224 MMEQERWNSVDVYFSSLLVKEDEALSKAAQAHREFDLPDLAVSAPQGKLLHLLARLRQARRILEIGTFGGYSSIWLARALPPDGRLVTIEWERSFAESAASRLAEAGVAHLVEQHVGRALDILPTLDRPGTAPFDMVFVDANKPDIPEYFTWALKLSRPGAVVVVDNVVLGGAVTDPDHPDAGVQGVRRFHEMLAGRSDVTATSIQTVGTKGYDGFTLALVTG HMMEQERWNSVDVYFSSLLVKEDEALSKAAQAHREFDLPDLAVSAPQGKLLHLLARLRQARRILEIGTFGGYSSIWLARALPPDGRLVTIEWERSFAESAASRLAEAGVAHLVEQHVGRALDILPTLDRPGTAPFDMVFVDANKPDIPEYFTWALKLSRPGAVVVVDNVVLGGAVTDPDHPDAGVQGVRRFHEMLAGRSDVTATSIQTVGTKGYDGFTLALVTG 5n69-a1-m1-cA_5n69-a1-m1-cB Cardiac muscle myosin S1 fragment in the pre-powerstroke state co-crystallized with the activator Omecamtiv Mecarbil Q9BE39 Q9BE39 2.45 X-RAY DIFFRACTION 72 0.993 9913 (Bos taurus) 9913 (Bos taurus) 759 764 AEMAAFGEAAPYLRKSEKERLEAQTRPFDLKKDVFVPDDKEEFVKATILSREGGKVTAETEHGKTVTVKEDQVLQQNPPKFDKIEDMAMLTFLHEPAVLYNLKERYASWMIYTYSGLFCVTINPYWLPVYNAEVVAAYRGKKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAATLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVIFQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDNAFDVLGFTTEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSADLLKGLCHPRVVTKGQNVQQVVYAKGALAKAVYERMFNWMVTRINATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWEFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSSNFQKPRNIKPEAHFSLIHYAGTVDYNIIGWLQKNKDPLNETVVDLYKKSSLKMLSSLFAQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVIDNPLVMHQLRCNGVLEGIRICRKGFPNRILYGDFRQRYRILNPAAIPEIDSRKGAEKLLGSLDIDHNQYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRIQAQSRGVLSRMEFKKLLERRDS EMAAFGEAAPYLRKSEKERLEAQTRPFDLKKDVFVPDDKEEFVKATILSREGGKVTAETEHGKTVTVKEDQVLQQNPPKFDKIEDMAMLTFLHEPAVLYNLKERYASWMIYTYSGLFCVTINPYWLPVYNAEVVAAYRGKKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAITLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVIFQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDNAFDVLGFTTEEKNSMYKLTGAIMHFGNMKFKLKREEQAEPDGTEEADKSAYLMGLNSADLLKGLCHPRVKVGNEYVTKGQNVQQVVYAKGALAKAVYERMFNWMVTRINATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWEFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSSNFQKPRNIKGKPEAHFSLIHYAGTVDYNIIGWLQKNKDPLNETVVDLYKKSSLKMLSSLFANQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVIDNPLVMHQLRCNGVLEGIRICRKGFPNRILYGDFRQRYRILNPAAIPDSRKGAEKLLGSLDIDHNQYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRIQAQSRGVLSRMEFKKLLERRD 5n6u-a2-m1-cC_5n6u-a2-m1-cD Crystal structure of Beta-D-Mannosidase from Dictyoglomus thermophilum. B5YAN4 B5YAN4 3.08 X-RAY DIFFRACTION 55 1.0 309799 (Dictyoglomus thermophilum H-6-12) 309799 (Dictyoglomus thermophilum H-6-12) 811 811 5n6u-a1-m1-cA_5n6u-a1-m1-cB MEILKLDGEWEFKAVKDKKWRKAKVPGCVHLDLMENGLIPDPFVGENELEVQWVEKEDWIYRKKFQVGKEFLKYSSIYLEFEGIDTFSEIYLNGKKIGETDNMFIAWEFNVKDLLVEGENELEVRLFSPSKVLEERAKNYPYKLHGGDYSPRVFGRKAQYSFGWDWGPRLATSGIWKSVKLKGWNKARLLDVWVPVRSLGENAQINIELDIELQESIPVDVAFRISHKKPVLEQRLRFTLPEGRVFLKIPLTIKNPKLWFPRGYGEQNLYTLQLVLLDEKGEVLDKVEERFGIRKVELFTQEDNKGESFVFKINNIPVFAKGANWIPADSFLPRIKEEDYRLLLIRAKEAGVNMLRVWGGGIYENDIFYELCDELGIMVWQDFMFACAEYPDDENFLNDVQKEAEFVIKRLRNHPSIVLWCGNNCNHWGYYAKWWGEREKFWGEEIYSRVLPDVCARLDLTRPYWPSSPYGGKDPNSQEVGDRHNWEVWHGWIDFNGYLKDNGRFISEFGMQAPPVAETIRKFITSEKEYYPQSREMEFHNKAREGTERIIRYIAGHFKITEDMNEYIYLSQIIQGLALKTGIEHWRNNKFHTSGSLIWQWNDCWPVVSWSIIDYYKKLKPSYYFVKRAFRDIKVNIEPRNGKLLVFGVNDTLEKFYGKIEYAISTFRGKRRGKKEVDIEIPANSSVILGEFNLEDVDKFKEFFYVQLYNEKDELIDQNEYFFAPFRHLELPNAVVVYSVKEIEENSYLLNIESDFLALWVSLKLENAEWEDNFVNIYPKTKYSIRFKAPYTLKEVESKLKLEGYNLKKVI MEILKLDGEWEFKAVKDKKWRKAKVPGCVHLDLMENGLIPDPFVGENELEVQWVEKEDWIYRKKFQVGKEFLKYSSIYLEFEGIDTFSEIYLNGKKIGETDNMFIAWEFNVKDLLVEGENELEVRLFSPSKVLEERAKNYPYKLHGGDYSPRVFGRKAQYSFGWDWGPRLATSGIWKSVKLKGWNKARLLDVWVPVRSLGENAQINIELDIELQESIPVDVAFRISHKKPVLEQRLRFTLPEGRVFLKIPLTIKNPKLWFPRGYGEQNLYTLQLVLLDEKGEVLDKVEERFGIRKVELFTQEDNKGESFVFKINNIPVFAKGANWIPADSFLPRIKEEDYRLLLIRAKEAGVNMLRVWGGGIYENDIFYELCDELGIMVWQDFMFACAEYPDDENFLNDVQKEAEFVIKRLRNHPSIVLWCGNNCNHWGYYAKWWGEREKFWGEEIYSRVLPDVCARLDLTRPYWPSSPYGGKDPNSQEVGDRHNWEVWHGWIDFNGYLKDNGRFISEFGMQAPPVAETIRKFITSEKEYYPQSREMEFHNKAREGTERIIRYIAGHFKITEDMNEYIYLSQIIQGLALKTGIEHWRNNKFHTSGSLIWQWNDCWPVVSWSIIDYYKKLKPSYYFVKRAFRDIKVNIEPRNGKLLVFGVNDTLEKFYGKIEYAISTFRGKRRGKKEVDIEIPANSSVILGEFNLEDVDKFKEFFYVQLYNEKDELIDQNEYFFAPFRHLELPNAVVVYSVKEIEENSYLLNIESDFLALWVSLKLENAEWEDNFVNIYPKTKYSIRFKAPYTLKEVESKLKLEGYNLKKVI 5n6w-a1-m1-cO_5n6w-a1-m1-cP Retinoschisin R141H Mutant O15537 O15537 4.2 ELECTRON MICROSCOPY 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 157 3jd6-a1-m10-cO_3jd6-a1-m11-cO 3jd6-a1-m10-cO_3jd6-a1-m9-cO 3jd6-a1-m11-cO_3jd6-a1-m12-cO 3jd6-a1-m12-cO_3jd6-a1-m13-cO 3jd6-a1-m13-cO_3jd6-a1-m14-cO 3jd6-a1-m14-cO_3jd6-a1-m15-cO 3jd6-a1-m15-cO_3jd6-a1-m16-cO 3jd6-a1-m16-cO_3jd6-a1-m9-cO 3jd6-a1-m1-cO_3jd6-a1-m2-cO 3jd6-a1-m1-cO_3jd6-a1-m8-cO 3jd6-a1-m2-cO_3jd6-a1-m3-cO 3jd6-a1-m3-cO_3jd6-a1-m4-cO 3jd6-a1-m4-cO_3jd6-a1-m5-cO 3jd6-a1-m5-cO_3jd6-a1-m6-cO 3jd6-a1-m6-cO_3jd6-a1-m7-cO 3jd6-a1-m7-cO_3jd6-a1-m8-cO 5n6w-a1-m1-cA_5n6w-a1-m1-cB 5n6w-a1-m1-cA_5n6w-a1-m1-cH 5n6w-a1-m1-cB_5n6w-a1-m1-cC 5n6w-a1-m1-cC_5n6w-a1-m1-cD 5n6w-a1-m1-cD_5n6w-a1-m1-cE 5n6w-a1-m1-cE_5n6w-a1-m1-cF 5n6w-a1-m1-cF_5n6w-a1-m1-cG 5n6w-a1-m1-cG_5n6w-a1-m1-cH 5n6w-a1-m1-cI_5n6w-a1-m1-cJ 5n6w-a1-m1-cI_5n6w-a1-m1-cP 5n6w-a1-m1-cJ_5n6w-a1-m1-cK 5n6w-a1-m1-cK_5n6w-a1-m1-cL 5n6w-a1-m1-cL_5n6w-a1-m1-cM 5n6w-a1-m1-cM_5n6w-a1-m1-cN 5n6w-a1-m1-cN_5n6w-a1-m1-cO CPYHKPLGFESGEVTPDQITCSNPEQYVGWYSSWTANKARLNSQGFGCAWLSKFQDSSQWLQIDLKEIKVISGILTQGHCDIDEWMTKYSVQYRTDERLNWIYYKDQTGNNRVFYGNSDRTSTVQNLLRPPIISRFIRLIPLGWHVRIAIRMELLEC CPYHKPLGFESGEVTPDQITCSNPEQYVGWYSSWTANKARLNSQGFGCAWLSKFQDSSQWLQIDLKEIKVISGILTQGHCDIDEWMTKYSVQYRTDERLNWIYYKDQTGNNRVFYGNSDRTSTVQNLLRPPIISRFIRLIPLGWHVRIAIRMELLEC 5n72-a1-m1-cA_5n72-a1-m2-cA Crystal structure of the Legionella effector WipA shorter construct Q5GA16 Q5GA16 1.842 X-RAY DIFFRACTION 54 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 387 387 5n6x-a1-m1-cA_5n6x-a1-m1-cB 5y9o-a1-m1-cA_5y9o-a1-m1-cB GLEVLFQGPGNAIKLIHFLFRHKIIKFKTEIINFHEAYQQFVTIYEQYDDMVQEYLEIRTLLQLIQIKITNAQQRILDIEQKLSLATDHQKEFSQSLLQLKKPIEANLQMAEKSKAGLEEKLSGLKTRLPSCIERFNKFMTQIEINDIKTLIRLLGDEVADRGSCDYFTLRILDFLYQNQIAIKIILSNHGYEFIHAYEKLVVGQPFKPKGYIGDIQIKSFWGLQLLLEQSVITEEELRSLVERAYKPTLKIIDYSLSEDGITLYSHAPIRFDSIRMAASQLGVTYNDSTKEALAETIDQLNAQLQIYMKNNMLHLLFENNEINDPTNMTDEERNASPLIYLVWNRWNESKEVENARPGKYNGYFVTYVHGHDPFQSPLTYVYNLDT GLEVLFQGPGNAIKLIHFLFRHKIIKFKTEIINFHEAYQQFVTIYEQYDDMVQEYLEIRTLLQLIQIKITNAQQRILDIEQKLSLATDHQKEFSQSLLQLKKPIEANLQMAEKSKAGLEEKLSGLKTRLPSCIERFNKFMTQIEINDIKTLIRLLGDEVADRGSCDYFTLRILDFLYQNQIAIKIILSNHGYEFIHAYEKLVVGQPFKPKGYIGDIQIKSFWGLQLLLEQSVITEEELRSLVERAYKPTLKIIDYSLSEDGITLYSHAPIRFDSIRMAASQLGVTYNDSTKEALAETIDQLNAQLQIYMKNNMLHLLFENNEINDPTNMTDEERNASPLIYLVWNRWNESKEVENARPGKYNGYFVTYVHGHDPFQSPLTYVYNLDT 5n76-a2-m1-cB_5n76-a2-m1-cC Crystal structure of the apo-form of the CO dehydrogenase accessory protein CooT from Rhodospirillum rubrum P72320 P72320 1.9 X-RAY DIFFRACTION 64 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 63 63 5n76-a1-m1-cA_5n76-a1-m1-cD 5n76-a3-m1-cF_5n76-a3-m1-cE 6y8v-a1-m1-cA_6y8v-a1-m1-cB 6y8w-a1-m1-cA_6y8w-a1-m1-cB CMAKVVLTKADGGRVEIGDVLEVRAEGGAVRVTTLFDEEHAFPGLAIGRVDLRSGVISLIEEQ CMAKVVLTKADGGRVEIGDVLEVRAEGGAVRVTTLFDEEHAFPGLAIGRVDLRSGVISLIEEQ 5n77-a1-m1-cA_5n77-a1-m1-cB Crystal structure of the cytosolic domain of the CorA magnesium channel from Escherichia coli in complex with magnesium P0ABI4 P0ABI4 2.8 X-RAY DIFFRACTION 81 1.0 562 (Escherichia coli) 562 (Escherichia coli) 257 257 5n77-a1-m1-cC_5n77-a1-m1-cA 5n77-a1-m1-cC_5n77-a1-m1-cD 5n77-a1-m1-cE_5n77-a1-m1-cB 5n77-a1-m1-cE_5n77-a1-m1-cD 5n78-a1-m1-cA_5n78-a1-m1-cB 5n78-a1-m1-cB_5n78-a1-m1-cE 5n78-a1-m1-cC_5n78-a1-m1-cA 5n78-a1-m1-cC_5n78-a1-m1-cD 5n78-a1-m1-cD_5n78-a1-m1-cE MLSAFQLENNRLTRLEVEESQPLVNAVWIDLVEPDDDERLRVQSELGQSLATRPELEDIEASARFFEDDDGLHIHSFFFFEDAEDHAGNSTVAFTIRDGRLFTLRERELPAFRLYRMRARSQSMVDGNAYELLLDLFETKIEQLADEIENIYSDLEQLSRVIMEGHQGDEYDEALSTLAELEDIGWKVRLCLMDTQRALNFLVRKARLPGGQLEQAREILRDIESLLPHNESLFQKVNFLMQAAMGFINIEQNRIIK MLSAFQLENNRLTRLEVEESQPLVNAVWIDLVEPDDDERLRVQSELGQSLATRPELEDIEASARFFEDDDGLHIHSFFFFEDAEDHAGNSTVAFTIRDGRLFTLRERELPAFRLYRMRARSQSMVDGNAYELLLDLFETKIEQLADEIENIYSDLEQLSRVIMEGHQGDEYDEALSTLAELEDIGWKVRLCLMDTQRALNFLVRKARLPGGQLEQAREILRDIESLLPHNESLFQKVNFLMQAAMGFINIEQNRIIK 5n7y-a1-m1-cA_5n7y-a1-m1-cC Solution structure of B. subtilis Sigma G inhibitor CsfB P37534 P37534 NOT SOLUTION NMR 52 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 49 49 SMDETVKLNHTCVICDQEKNRGIHLYTKFICLDCERKVISTSTSDPDYA SMDETVKLNHTCVICDQEKNRGIHLYTKFICLDCERKVISTSTSDPDYA 5n9c-a1-m1-cB_5n9c-a1-m1-cA ENAH EVH1 in complex with Ac-[2-Cl-F]-PP-[ProM-1]-OH Q8N8S7 Q8N8S7 1.16 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 113 SEQSICQARAAVMVYDDANKKWVPAGGSTGFSRVHIYHHTGNNTFRVVGRKIQDHQVVINCAIPKGLKYNQATQTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVL GSMSEQSICQARAAVMVYDDANKKWVPAGGSTGFSRVHIYHHTGNNTFRVVGRKIQDHQVVINCAIPKGLKYNQATQTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVL 5n9y-a1-m1-cC_5n9y-a1-m1-cD The full-length structure of ZntB P64423 P64423 4.2 ELECTRON MICROSCOPY 130 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 327 327 5n9y-a1-m1-cA_5n9y-a1-m1-cB 5n9y-a1-m1-cA_5n9y-a1-m1-cE 5n9y-a1-m1-cB_5n9y-a1-m1-cC 5n9y-a1-m1-cD_5n9y-a1-m1-cE MEAIKGSDVNVPDAVFAWMLDGRGGVKPLENTDVIDEAHPCWLHLNYVHHDSAQWLATTPLLPNNVRDALAGESTRPRVSRLGEGTLITLRCINGSTDERPDQLVAMRVYMDGRLIVSTRQRKVLALDDVVSDLEEGTGPTDCGGWLVDVCDALTDHSSEFIEQLHDKIIDLEDNLLDQQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDQRRRMQDIADRLGRGLDEIDACIARTGVMADEIAQVMQENLARRTYTMSLMAMVFLPSTFLTGLFGVNLGGIPGGGWQFGFSIFCILLVVLIGGVALWLHRSKWL MEAIKGSDVNVPDAVFAWMLDGRGGVKPLENTDVIDEAHPCWLHLNYVHHDSAQWLATTPLLPNNVRDALAGESTRPRVSRLGEGTLITLRCINGSTDERPDQLVAMRVYMDGRLIVSTRQRKVLALDDVVSDLEEGTGPTDCGGWLVDVCDALTDHSSEFIEQLHDKIIDLEDNLLDQQIPPRGFLALLRKQLIVMRRYMAPQRDVYARLASERLPWMSDDQRRRMQDIADRLGRGLDEIDACIARTGVMADEIAQVMQENLARRTYTMSLMAMVFLPSTFLTGLFGVNLGGIPGGGWQFGFSIFCILLVVLIGGVALWLHRSKWL 5na2-a1-m1-cA_5na2-a1-m1-cB Crystal structure of the full-length Feline Immunodeficiency Virus capsid protein unveils original features P16087 P16087 1.67 X-RAY DIFFRACTION 69 1.0 11674 (Feline immunodeficiency virus (isolate Petaluma)) 11674 (Feline immunodeficiency virus (isolate Petaluma)) 211 211 TIQTVNGVPQYVALDPKMVSIFMEKAREGLGGEEVQLWFTAFSANLTPTDMATLIMAAPGCAADKEILDESLKQLTAEYDRTHPPDAPRPLPYFTAAEIMGIGLTQEQQAEARFAPARMQCRAWYLEALGKLAAIKAKSPRAVQLRQGAKEDYSSFIDRLFAQIDQEQNTAEVKLYLKQSLSIANANADCKKAMSHLKPESTLEEKLRACQ TIQTVNGVPQYVALDPKMVSIFMEKAREGLGGEEVQLWFTAFSANLTPTDMATLIMAAPGCAADKEILDESLKQLTAEYDRTHPPDAPRPLPYFTAAEIMGIGLTQEQQAEARFAPARMQCRAWYLEALGKLAAIKAKSPRAVQLRQGAKEDYSSFIDRLFAQIDQEQNTAEVKLYLKQSLSIANANADCKKAMSHLKPESTLEEKLRACQ 5nak-a1-m1-cB_5nak-a1-m1-cA Pseudomonas fluorescens kynurenine 3-monooxygenase (KMO) in complex with the enzyme substrate L-kynurenine Q84HF5 Q84HF5 1.5 X-RAY DIFFRACTION 30 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 447 451 ARQVTIIGAGLAGTLVARLLARNGWQVNLFERRPDPRIETGARGRSINLALAERGAHALRLAGLEREVLAEAVMMRGRMVHVPGTPPNLQPYGRDDSEVIWSINRDRLNRILLDGAEAAGASIHFNLGLDSVDFARQRLTLSNVSGERLEKRFHLLIGADGCNSAVRQAMASVVDLGEHLETQPHGYKELQITPEASAQFNLEPNALHIWPHGDYMCIALPNLDRSFTVTLFLHHQSPAAQPASPSFAQLVDGHAARRFFQRQFPDLSPMLDSLEQDFEHHPTGKLATLRLTTWHVGGQAVLLGDAAHPMVPFHGQGMNCALEDAVALAEHLQSAADNASALAAFTAQRQPDALAIQAMALENYVEMSSPTYLLERELGQIMAQRQPTRFIPRYSMVTFSRLPYAQAMARGQIQEQLLKFAVANHSDLTSINLDAVEHEVTRCLPPL ARQVTIIGAGLAGTLVARLLARNGWQVNLFERRPDPRIETGARGRSINLALAERGAHALRLAGLEREVLAEAVMMRGRMVHVPGTPPNLQPYGRDDSEVIWSINRDRLNRILLDGAEAAGASIHFNLGLDSVDFARQRLTLSNVSGERLEKRFHLLIGADGCNSAVRQAMASVVDLGEHLETQPHGYKELQITPEASAQFNLEPNALHIWPHGDYMCIALPNLDRSFTVTLFLHHQSPAAQPASPSFAQLVDGHAARRFFQRQFPDLSPMLDSLEQDFEHHPTGKLATLRLTTWHVGGQAVLLGDAAHPMVPFHGQGMNCALEDAVALAEHLQSAADNASALAAFTAQRQPDALAIQAMALENYVEMSSKVASPTYLLERELGQIMAQRQPTRFIPRYSMVTFSRLPYAQAMARGQIQEQLLKFAVANHSDLTSINLDAVEHEVTRCLPPL 5nav-a1-m1-cA_5nav-a1-m1-cC Crystal structure of the double mutant (Cys211Ser/Cys292Ser) 6-phospho-b-D-glucosidase from Lactobacillus plantarum F9ULH8 F9ULH8 2.3 X-RAY DIFFRACTION 12 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 461 461 5naq-a1-m1-cA_5naq-a1-m1-cB MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF 5nav-a1-m1-cA_5nav-a1-m1-cF Crystal structure of the double mutant (Cys211Ser/Cys292Ser) 6-phospho-b-D-glucosidase from Lactobacillus plantarum F9ULH8 F9ULH8 2.3 X-RAY DIFFRACTION 45 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 461 461 5naq-a1-m1-cA_5naq-a1-m1-cF 5naq-a1-m1-cB_5naq-a1-m1-cC 5naq-a1-m1-cD_5naq-a1-m1-cE 5nav-a1-m1-cB_5nav-a1-m1-cE MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF 5nav-a1-m1-cD_5nav-a1-m1-cE Crystal structure of the double mutant (Cys211Ser/Cys292Ser) 6-phospho-b-D-glucosidase from Lactobacillus plantarum F9ULH8 F9ULH8 2.3 X-RAY DIFFRACTION 22 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 461 461 5naq-a1-m1-cC_5naq-a1-m1-cD MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF 5nav-a1-m1-cD_5nav-a1-m1-cF Crystal structure of the double mutant (Cys211Ser/Cys292Ser) 6-phospho-b-D-glucosidase from Lactobacillus plantarum F9ULH8 F9ULH8 2.3 X-RAY DIFFRACTION 32 1.0 1590 (Lactiplantibacillus plantarum) 1590 (Lactiplantibacillus plantarum) 461 461 MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF MVEFPEGFVWGAATSGPQTEGNFHKQHQNVFDYWFATEPEQFDAGVGPDTASNFYNDYDHDLALMAQAGVQGLRTSIQWTRLIDDFETASLNADGVAFYNHVIDSMLAHHITPYINLHHFDLPVALYDKYHGWESKHVVELFVKFAEQCFKLFGDRVDHWYTFNEPKVVVDGQYLYGWHYPQVINGPKAVQVAYNMNLASAKTVARFHELSVRPEQQIGIILNLTPAYAASDDPADLAAAEFAELWSNNLFLDPAVLGHFPEKLVERLTMDGVLWDATPTELAIIAANPVDSLGVNYYHPFRVQRPDISPKSLQPWMPDIYFKEYDMPGRMMNVDRGWEIYPQAMTDIARNIQKNYGNIPWMISENGMGVAGEERFLDKQGVVQDDYRIDFMKEHLTALAKGIAAGSNCQGYFVWSGIDCWSWNHAYHNRYGLIRNDIHTQTKTLKKSAKWFAELGERNGF 5nb2-a1-m2-cA_5nb2-a1-m6-cA Crystal structures of homooligomers of collagen type IV. alpha2NC1 P08572 P08572 2.5 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 191 5nb2-a1-m1-cA_5nb2-a1-m4-cA 5nb2-a1-m1-cA_5nb2-a1-m6-cA 5nb2-a1-m2-cA_5nb2-a1-m4-cA SIGYLLVKHSQTDQEPMCPVGMNKLWSGYSLLYFEQDLGLAGSCLARFSTMPFLYCNPGDVCYYASRNDKSYWLSTTAPLPMMPVAEDEIKPYISRCSVCEAPAIAIAVHSQDVSIPHCPAGWRSLWIGYSFLMHSLVSPGSCLEDFRATPFIECNGGRGTCHYYANKYSFWLTTILIRTHISRCQVCMKN SIGYLLVKHSQTDQEPMCPVGMNKLWSGYSLLYFEQDLGLAGSCLARFSTMPFLYCNPGDVCYYASRNDKSYWLSTTAPLPMMPVAEDEIKPYISRCSVCEAPAIAIAVHSQDVSIPHCPAGWRSLWIGYSFLMHSLVSPGSCLEDFRATPFIECNGGRGTCHYYANKYSFWLTTILIRTHISRCQVCMKN 5nb2-a2-m3-cB_5nb2-a2-m7-cB Crystal structures of homooligomers of collagen type IV. alpha2NC1 P08572 P08572 2.5 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 170 170 5nb2-a2-m1-cB_5nb2-a2-m5-cB 5nb2-a2-m1-cB_5nb2-a2-m7-cB 5nb2-a2-m3-cB_5nb2-a2-m5-cB GYLLVKHSQTDQEPMCPVGMNKLWSGYSLLYFEQDLGLAGSCLARFSTMPFLDKSYWLSTTAPLPMMPVAEDEIKPYISRCSVCEAPAIAIAVHSQDVSIPHCPAGWRSLWIGYSFLMSLVSPGSCLEDFRATPFIECNGGRGTCHYYSFWLTTLIRTHISRCQVCMKNL GYLLVKHSQTDQEPMCPVGMNKLWSGYSLLYFEQDLGLAGSCLARFSTMPFLDKSYWLSTTAPLPMMPVAEDEIKPYISRCSVCEAPAIAIAVHSQDVSIPHCPAGWRSLWIGYSFLMSLVSPGSCLEDFRATPFIECNGGRGTCHYYSFWLTTLIRTHISRCQVCMKNL 5nbd-a1-m1-cA_5nbd-a1-m1-cB PglK flippase in complex with inhibitory nanobody Q0P9C4 Q0P9C4 3.9 X-RAY DIFFRACTION 335 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 564 564 MVKKLFFILSKEDKNFLFFLLVFSVFVSFIETFAISLVMPFITLASDFSYFDRNKYLISLKEYLNIPVFEIIVYFGVGLIVFYVFRALLNAYYFHLLARFSKGRKHAIAYKVFSKFLNINYEKFTQKNQSEILKSITGEVYNLSTMISSFLLLMSEIFVVLLLYALMLLINYKITLFLSIFMVLNAFILVKILSPIIKKAGLRREEAMKNFFEILNTNLNNFKFIKLKTKEDGVLSLFKAQSEAFSKANITNESVAAVPRIYLEGIGFCVLVFIVVFLVLKNESDISGILSTISIFVLALYRLMPSANRIITSYHDLLYYHSSLNIIYQNLRQEEENLGEGKLSFNQELKICNLSFGYEGKKYLFKNLNLNIKKGEKIAFIGESGCGKSTLVDLIIGLLKPKEGQILIDKQELNASNAKNYRQKIGYIPQNIYLFNDSIAKNITFGDAVDEEKLNKVIKQANLEHFIKNLPQGVQTKVGDGGSNLSGGQKQRIAIARALYLEPEILVLDQATSALDTQSEAKIMDEIYKISKDKTMIIIAHRLSTITQCDKVYRLEHGKLKEEK MVKKLFFILSKEDKNFLFFLLVFSVFVSFIETFAISLVMPFITLASDFSYFDRNKYLISLKEYLNIPVFEIIVYFGVGLIVFYVFRALLNAYYFHLLARFSKGRKHAIAYKVFSKFLNINYEKFTQKNQSEILKSITGEVYNLSTMISSFLLLMSEIFVVLLLYALMLLINYKITLFLSIFMVLNAFILVKILSPIIKKAGLRREEAMKNFFEILNTNLNNFKFIKLKTKEDGVLSLFKAQSEAFSKANITNESVAAVPRIYLEGIGFCVLVFIVVFLVLKNESDISGILSTISIFVLALYRLMPSANRIITSYHDLLYYHSSLNIIYQNLRQEEENLGEGKLSFNQELKICNLSFGYEGKKYLFKNLNLNIKKGEKIAFIGESGCGKSTLVDLIIGLLKPKEGQILIDKQELNASNAKNYRQKIGYIPQNIYLFNDSIAKNITFGDAVDEEKLNKVIKQANLEHFIKNLPQGVQTKVGDGGSNLSGGQKQRIAIARALYLEPEILVLDQATSALDTQSEAKIMDEIYKISKDKTMIIIAHRLSTITQCDKVYRLEHGKLKEEK 5nbg-a1-m1-cA_5nbg-a1-m1-cB Structure of the cytoplasmic domain I of OutF in the D. dadantii type II secretion system E0SM39 E0SM39 2.15 X-RAY DIFFRACTION 41 0.991 198628 (Dickeya dadantii 3937) 198628 (Dickeya dadantii 3937) 107 107 MISASDLALLTRQLATLVAAALPLEEALDAVAKQSEKPKLSALMAAVRAKVVEGHSLAEAMGNFPGSFERLYCAMVAAGEASGHLDAVLNRLADYTEQRQQMRSRIQ ISASDLALLTRQLATLVAAALPLEEALDAVAKQSEKPKLSALMAAVRAKVVEGHSLAEAMGNFPGSFERLYCAMVAAGEASGHLDAVLNRLADYTEQRQQMRSRIQQ 5nbx-a1-m1-cA_5nbx-a1-m1-cB ENAH EVH1 in complex with Ac-[2-Cl-F]-PP-[ProM-9]-OH Q8N8S7 Q8N8S7 1.65 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 112 5n9p-a1-m1-cA_5n9p-a1-m1-cB EQSICQARAAVMVYDDANKKWVPAGGSTGFSRVHIYHHTGNNTFRVVGRKIQDHQVVINCAIPKGLKYNQATQTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVL SMSEQSICQARAAVMVYDDANKKWVPAGGSTGFSRVHIYHHTGNNTFRVVGRKIQDHQVVINCAIPKGLKYNQATQTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVL 5nc8-a1-m1-cB_5nc8-a1-m1-cA Shewanella denitrificans Kef CTD in AMP bound form Q12SB3 Q12SB3 3.09 X-RAY DIFFRACTION 158 0.994 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 158 159 NSVIIAGYGRFGQVVGRLLSAQGYHLSILDHSPSQIDNKVFYGDAARKDLLEAAGAKDAQLLVIAIDAPDKALEIVELAHKHYPQLKIVARAIDRRHAYQYLRLGVTSFKRETFDSAVNLGIEALTLLGNSSTVAERAGDLFSQHDNASLHELAALWG NSVIIAGYGRFGQVVGRLLSAQGYHLSILDHSPSQIDMLNKVFYGDAARKDLLEAAGAKDAQLLVIAIDAPDKALEIVELAHKHYPQLKIVARAIDRRHAYQYLRLGVTSFKRETFDSAVNLGIEALTLLGNSSTVAERAGDLFSQHDNASLHELAALW 5nci-a1-m1-cA_5nci-a1-m1-cB GriE in complex with cobalt, alpha-ketoglutarate and l-leucine A0A0E3URV8 A0A0E3URV8 1.755 X-RAY DIFFRACTION 55 1.0 262 264 5nch-a1-m1-cA_5nch-a1-m1-cB MQLTADQVEKYKSDGYVLLEGAFSPEEVHVMRQALKKDQEVQGPHRILEEDGRTVRALYASHTRQSVFDQLSRSDRLLGPATQLLECDLYIHQFKINTKRAFGGDSWAWHQDFIVWRDTDGLPAPRAVNVGVFLSDVTEFNGPVVFLSGSHQRGTVERKARETSRSDQHVDPDDYSMTPAELSQMVEKHPMVSPKAASGSVMLFHPEIIHGSAPNISPFARDLLIITYNDVANAPKPAGEPRPEYVIGRDTTPLVSRSGPLH GRMQLTADQVEKYKSDGYVLLEGAFSPEEVHVMRQALKKDQEVQGPHRILEEDGRTVRALYASHTRQSVFDQLSRSDRLLGPATQLLECDLYIHQFKINTKRAFGGDSWAWHQDFIVWRDTDGLPAPRAVNVGVFLSDVTEFNGPVVFLSGSHQRGTVERKARETSRSDQHVDPDDYSMTPAELSQMVEKHPMVSPKAASGSVMLFHPEIIHGSAPNISPFARDLLIITYNDVANAPKPAGEPRPEYVIGRDTTPLVSRSGPLH 5nck-a1-m1-cA_5nck-a1-m1-cB The Crystal Structure of N-acetylmannosamine kinase in Fusobacterium nucleatum Q8RDN7 Q8RDN7 2.23 X-RAY DIFFRACTION 117 1.0 851 (Fusobacterium nucleatum) 851 (Fusobacterium nucleatum) 291 291 MNILAIDIGGTMIKYGLVSFDGKILSTDKIKTEASKGLNNILNKIDNIFKRYKENNPVGIAVSGTGQINGMIGKVIGGNPIIPNWIGTNLVKILEEKYNLPIVLENDVNCVALGEKWVGAGKDLSNFICLTIGTGIGGGILLNNQLFRGENFVAGEFGHILIKKGEFEQFASTTALIRLVKERTGKTLNGKEIFDLEKKEILEYQEIISEWIENLTDGLSSIIYCFNPANIILGGGVIEQGEPLINRIKNSLFKKIGPQFKEKLNITQAKLGNNAGMIGASYLLLEKINKR MNILAIDIGGTMIKYGLVSFDGKILSTDKIKTEASKGLNNILNKIDNIFKRYKENNPVGIAVSGTGQINGMIGKVIGGNPIIPNWIGTNLVKILEEKYNLPIVLENDVNCVALGEKWVGAGKDLSNFICLTIGTGIGGGILLNNQLFRGENFVAGEFGHILIKKGEFEQFASTTALIRLVKERTGKTLNGKEIFDLEKKEILEYQEIISEWIENLTDGLSSIIYCFNPANIILGGGVIEQGEPLINRIKNSLFKKIGPQFKEKLNITQAKLGNNAGMIGASYLLLEKINKR 5ncr-a1-m1-cA_5ncr-a1-m1-cB OH1 from the Orf virus: a tyrosine phosphatase that displays distinct structural features and triple substrate specificity Q6TW43 Q6TW43 1.89 X-RAY DIFFRACTION 36 1.0 10258 (Orf virus) 10258 (Orf virus) 173 174 EWYARLLLRCTRAGPPLALPSGMTRLTDHVYLGSAEDARAVLRGDSGVDFKCLVNMTMSKYSTPAGITAYHIPLRDDDKTNIASIMPALVKLLARLEAEQKPTLVHSVAGVNRSGAAAMGYVMHKRLAENPTMTQPARFVYFLKTYYEIRDLRGAFLENANFRYQLIKMFVCD EWYARLLLRCTRAGPPLALPSGMTRLTDHVYLGSAEDARAVLRGDSGVDFKCLVNMTMSKYSTPAGITAYHIPLRDDDKTNIASIMPALVKLLARLEAEQKPTLVHSVAGVNRSGAAAMGYVMHKRLAENPTMTQPARFVYFLKTYYEIRDLRGAFLENANFRYQLIKMFVCDS 5nd6-a1-m1-cA_5nd6-a1-m1-cB Crystal structure of apo transketolase from Chlamydomonas reinhardtii A8IAN1 A8IAN1 1.58 X-RAY DIFFRACTION 320 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 669 670 5nd5-a1-m1-cA_5nd5-a1-m1-cB SISRDEVEKCINAIRFLAIDAINKSKSGHPGMPMGCAPMGYVLWNEVMKYNPKNPDFFNRDRFVLSAGHGSMFQYSMMHLTGYDSVPLDQIKQFRQWNSLTPGHPENFVTPGVEVTTGPLGQGICNAVGLAVAEAHLAARFNKPDVKPIVDHYTYCILGDGCMMEGISNEACSLAGHWGLGKLIALYDDNKISIDGHTDISFTEDVAKRYEALGWHVIHVINGNTDVDGLRAAIAQAKAVKDKPTLIKVSTLIGYGSPNKADSHDVHGAPLGPDETAATRKNLNWPYGEFEVPQDVYDVFRGAIKRGAEEEANWHKACAEYKAKYPKEWAEFEALTSCKLPENWEAALPHFKPEDKGLATRQHSQTMINALAPALPGLIGGSADLAPSNLTLMKISGDFQKGSYAERNLRFGVREHAMGAICNGIALHKSGLIPYCATFYIFTDYMRNAMRMSALSEAGVVYVMTHDSIGLGEDGPTHQPIEHLASFRAMPDMLMIRPAGGNETAGAYKVAIANRKRPTTIALSRQNMPNIPNCSVEGVAKGAYTIHDTKAGVKPDVILMGTGSELELATAAAGILEKEGKNVRVVSFPCWELFEEQSAEYKESVLPSDVTARVSVEAATSFGWAKYIGLKGKHVGIDTFGASAPAPTLYEKFGITVNHVVEAAKATLQ SISRDEVEKCINAIRFLAIDAINKSKSGHPGMPMGCAPMGYVLWNEVMKYNPKNPDFFNRDRFVLSAGHGSMFQYSMMHLTGYDSVPLDQIKQFRQWNSLTPGHPENFVTPGVEVTTGPLGQGICNAVGLAVAEAHLAARFNKPDVKPIVDHYTYCILGDGCMMEGISNEACSLAGHWGLGKLIALYDDNKISIDGHTDISFTEDVAKRYEALGWHVIHVINGNTDVDGLRAAIAQAKAVKDKPTLIKVSTLIGYGSPNKADSHDVHGAPLGPDETAATRKNLNWPYGEFEVPQDVYDVFRGAIKRGAEEEANWHKACAEYKAKYPKEWAEFEALTSCKLPENWEAALPHFKPEDKGLATRQHSQTMINALAPALPGLIGGSADLAPSNLTLMKISGDFQKGSYAERNLRFGVREHAMGAICNGIALHKSGLIPYCATFYIFTDYMRNAMRMSALSEAGVVYVMTHDSIGLGEDGPTHQPIEHLASFRAMPDMLMIRPAGGNETAGAYKVAIANRKRPTTIALSRQNMPNIPNCSVEGVAKGAYTIHDTKAGVKPDVILMGTGSELELATAAAGILEKEGKNVRVVSFPCWELFEEQSAEYKESVLPSDVTARVSVEAATSFGWAKYIGLKGKHVGIDTFGASAPAPTLYEKFGITVNHVVEAAKATLQH 5ne4-a1-m55-c2_5ne4-a1-m9-c2 Crystal Structure of Foot and Mouth Disease Virus O PanAsia Q6ZZ87 Q6ZZ87 2.3 X-RAY DIFFRACTION 33 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 206 206 1bbt-a1-m10-c2_1bbt-a1-m24-c2 1bbt-a1-m11-c2_1bbt-a1-m16-c2 1bbt-a1-m12-c2_1bbt-a1-m38-c2 1bbt-a1-m13-c2_1bbt-a1-m47-c2 1bbt-a1-m14-c2_1bbt-a1-m45-c2 1bbt-a1-m15-c2_1bbt-a1-m29-c2 1bbt-a1-m17-c2_1bbt-a1-m28-c2 1bbt-a1-m18-c2_1bbt-a1-m52-c2 1bbt-a1-m19-c2_1bbt-a1-m60-c2 1bbt-a1-m1-c2_1bbt-a1-m6-c2 1bbt-a1-m20-c2_1bbt-a1-m39-c2 1bbt-a1-m21-c2_1bbt-a1-m26-c2 1bbt-a1-m22-c2_1bbt-a1-m43-c2 1bbt-a1-m25-c2_1bbt-a1-m54-c2 1bbt-a1-m27-c2_1bbt-a1-m53-c2 1bbt-a1-m2-c2_1bbt-a1-m23-c2 1bbt-a1-m30-c2_1bbt-a1-m44-c2 1bbt-a1-m31-c2_1bbt-a1-m36-c2 1bbt-a1-m32-c2_1bbt-a1-m58-c2 1bbt-a1-m33-c2_1bbt-a1-m7-c2 1bbt-a1-m34-c2_1bbt-a1-m5-c2 1bbt-a1-m35-c2_1bbt-a1-m49-c2 1bbt-a1-m37-c2_1bbt-a1-m48-c2 1bbt-a1-m3-c2_1bbt-a1-m42-c2 1bbt-a1-m40-c2_1bbt-a1-m59-c2 1bbt-a1-m41-c2_1bbt-a1-m46-c2 1bbt-a1-m4-c2_1bbt-a1-m50-c2 1bbt-a1-m51-c2_1bbt-a1-m56-c2 1bbt-a1-m55-c2_1bbt-a1-m9-c2 1bbt-a1-m57-c2_1bbt-a1-m8-c2 1fod-a1-m10-c2_1fod-a1-m24-c2 1fod-a1-m11-c2_1fod-a1-m16-c2 1fod-a1-m12-c2_1fod-a1-m38-c2 1fod-a1-m13-c2_1fod-a1-m47-c2 1fod-a1-m14-c2_1fod-a1-m45-c2 1fod-a1-m15-c2_1fod-a1-m29-c2 1fod-a1-m17-c2_1fod-a1-m28-c2 1fod-a1-m18-c2_1fod-a1-m52-c2 1fod-a1-m19-c2_1fod-a1-m60-c2 1fod-a1-m1-c2_1fod-a1-m6-c2 1fod-a1-m20-c2_1fod-a1-m39-c2 1fod-a1-m21-c2_1fod-a1-m26-c2 1fod-a1-m22-c2_1fod-a1-m43-c2 1fod-a1-m25-c2_1fod-a1-m54-c2 1fod-a1-m27-c2_1fod-a1-m53-c2 1fod-a1-m2-c2_1fod-a1-m23-c2 1fod-a1-m30-c2_1fod-a1-m44-c2 1fod-a1-m31-c2_1fod-a1-m36-c2 1fod-a1-m32-c2_1fod-a1-m58-c2 1fod-a1-m33-c2_1fod-a1-m7-c2 1fod-a1-m34-c2_1fod-a1-m5-c2 1fod-a1-m35-c2_1fod-a1-m49-c2 1fod-a1-m37-c2_1fod-a1-m48-c2 1fod-a1-m3-c2_1fod-a1-m42-c2 1fod-a1-m40-c2_1fod-a1-m59-c2 1fod-a1-m41-c2_1fod-a1-m46-c2 1fod-a1-m4-c2_1fod-a1-m50-c2 1fod-a1-m51-c2_1fod-a1-m56-c2 1fod-a1-m55-c2_1fod-a1-m9-c2 1fod-a1-m57-c2_1fod-a1-m8-c2 1qqp-a1-m10-c2_1qqp-a1-m24-c2 1qqp-a1-m11-c2_1qqp-a1-m16-c2 1qqp-a1-m12-c2_1qqp-a1-m38-c2 1qqp-a1-m13-c2_1qqp-a1-m47-c2 1qqp-a1-m14-c2_1qqp-a1-m45-c2 1qqp-a1-m15-c2_1qqp-a1-m29-c2 1qqp-a1-m17-c2_1qqp-a1-m28-c2 1qqp-a1-m18-c2_1qqp-a1-m52-c2 1qqp-a1-m19-c2_1qqp-a1-m60-c2 1qqp-a1-m1-c2_1qqp-a1-m6-c2 1qqp-a1-m20-c2_1qqp-a1-m39-c2 1qqp-a1-m21-c2_1qqp-a1-m26-c2 1qqp-a1-m22-c2_1qqp-a1-m43-c2 1qqp-a1-m25-c2_1qqp-a1-m54-c2 1qqp-a1-m27-c2_1qqp-a1-m53-c2 1qqp-a1-m2-c2_1qqp-a1-m23-c2 1qqp-a1-m30-c2_1qqp-a1-m44-c2 1qqp-a1-m31-c2_1qqp-a1-m36-c2 1qqp-a1-m32-c2_1qqp-a1-m58-c2 1qqp-a1-m33-c2_1qqp-a1-m7-c2 1qqp-a1-m34-c2_1qqp-a1-m5-c2 1qqp-a1-m35-c2_1qqp-a1-m49-c2 1qqp-a1-m37-c2_1qqp-a1-m48-c2 1qqp-a1-m3-c2_1qqp-a1-m42-c2 1qqp-a1-m40-c2_1qqp-a1-m59-c2 1qqp-a1-m41-c2_1qqp-a1-m46-c2 1qqp-a1-m4-c2_1qqp-a1-m50-c2 1qqp-a1-m51-c2_1qqp-a1-m56-c2 1qqp-a1-m55-c2_1qqp-a1-m9-c2 1qqp-a1-m57-c2_1qqp-a1-m8-c2 5ac9-a1-m10-c2_5ac9-a1-m24-c2 5ac9-a1-m11-c2_5ac9-a1-m16-c2 5ac9-a1-m12-c2_5ac9-a1-m38-c2 5ac9-a1-m13-c2_5ac9-a1-m47-c2 5ac9-a1-m14-c2_5ac9-a1-m45-c2 5ac9-a1-m15-c2_5ac9-a1-m29-c2 5ac9-a1-m17-c2_5ac9-a1-m28-c2 5ac9-a1-m18-c2_5ac9-a1-m52-c2 5ac9-a1-m19-c2_5ac9-a1-m60-c2 5ac9-a1-m1-c2_5ac9-a1-m6-c2 5ac9-a1-m20-c2_5ac9-a1-m39-c2 5ac9-a1-m21-c2_5ac9-a1-m26-c2 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7eo0-a1-m10-c3_7eo0-a1-m6-c3 7eo0-a1-m10-c3_7eo0-a1-m9-c3 7eo0-a1-m11-c3_7eo0-a1-m12-c3 7eo0-a1-m11-c3_7eo0-a1-m15-c3 7eo0-a1-m12-c3_7eo0-a1-m13-c3 7eo0-a1-m13-c3_7eo0-a1-m14-c3 7eo0-a1-m14-c3_7eo0-a1-m15-c3 7eo0-a1-m16-c3_7eo0-a1-m17-c3 7eo0-a1-m16-c3_7eo0-a1-m20-c3 7eo0-a1-m17-c3_7eo0-a1-m18-c3 7eo0-a1-m18-c3_7eo0-a1-m19-c3 7eo0-a1-m19-c3_7eo0-a1-m20-c3 7eo0-a1-m1-c3_7eo0-a1-m2-c3 7eo0-a1-m1-c3_7eo0-a1-m5-c3 7eo0-a1-m21-c3_7eo0-a1-m22-c3 7eo0-a1-m21-c3_7eo0-a1-m25-c3 7eo0-a1-m22-c3_7eo0-a1-m23-c3 7eo0-a1-m23-c3_7eo0-a1-m24-c3 7eo0-a1-m24-c3_7eo0-a1-m25-c3 7eo0-a1-m26-c3_7eo0-a1-m27-c3 7eo0-a1-m26-c3_7eo0-a1-m30-c3 7eo0-a1-m27-c3_7eo0-a1-m28-c3 7eo0-a1-m28-c3_7eo0-a1-m29-c3 7eo0-a1-m29-c3_7eo0-a1-m30-c3 7eo0-a1-m2-c3_7eo0-a1-m3-c3 7eo0-a1-m31-c3_7eo0-a1-m32-c3 7eo0-a1-m31-c3_7eo0-a1-m35-c3 7eo0-a1-m32-c3_7eo0-a1-m33-c3 7eo0-a1-m33-c3_7eo0-a1-m34-c3 7eo0-a1-m34-c3_7eo0-a1-m35-c3 7eo0-a1-m36-c3_7eo0-a1-m37-c3 7eo0-a1-m36-c3_7eo0-a1-m40-c3 7eo0-a1-m37-c3_7eo0-a1-m38-c3 7eo0-a1-m38-c3_7eo0-a1-m39-c3 7eo0-a1-m39-c3_7eo0-a1-m40-c3 7eo0-a1-m3-c3_7eo0-a1-m4-c3 7eo0-a1-m41-c3_7eo0-a1-m42-c3 7eo0-a1-m41-c3_7eo0-a1-m45-c3 7eo0-a1-m42-c3_7eo0-a1-m43-c3 7eo0-a1-m43-c3_7eo0-a1-m44-c3 7eo0-a1-m44-c3_7eo0-a1-m45-c3 7eo0-a1-m46-c3_7eo0-a1-m47-c3 7eo0-a1-m46-c3_7eo0-a1-m50-c3 7eo0-a1-m47-c3_7eo0-a1-m48-c3 7eo0-a1-m48-c3_7eo0-a1-m49-c3 7eo0-a1-m49-c3_7eo0-a1-m50-c3 7eo0-a1-m4-c3_7eo0-a1-m5-c3 7eo0-a1-m51-c3_7eo0-a1-m52-c3 7eo0-a1-m51-c3_7eo0-a1-m55-c3 7eo0-a1-m52-c3_7eo0-a1-m53-c3 7eo0-a1-m53-c3_7eo0-a1-m54-c3 7eo0-a1-m54-c3_7eo0-a1-m55-c3 7eo0-a1-m56-c3_7eo0-a1-m57-c3 7eo0-a1-m56-c3_7eo0-a1-m60-c3 7eo0-a1-m57-c3_7eo0-a1-m58-c3 7eo0-a1-m58-c3_7eo0-a1-m59-c3 7eo0-a1-m59-c3_7eo0-a1-m60-c3 7eo0-a1-m6-c3_7eo0-a1-m7-c3 7eo0-a1-m7-c3_7eo0-a1-m8-c3 7eo0-a1-m8-c3_7eo0-a1-m9-c3 GIFPVACSDGYGGLVTTDPKTADPAYGKVFNPPRNMLPGRFTNFLDVAEACPTFLRFEGDVPYVTTKTDSDRILAQFDLSLAAKHMSNTFLAGLAQYYTQYSGTINLHFMFTGPTDAKARYMIAYAPPGMEPPKTPEAAAHCIHAEWDTGLNSKFTFSIPYLSAADYAYTASDTAETTNVQGWVCLFQITHGKADGDALVVLASAGKDFELRLPVDART GIFPVACSDGYGGLVTTDPKTADPAYGKVFNPPRNMLPGRFTNFLDVAEACPTFLRFEGDVPYVTTKTDSDRILAQFDLSLAAKHMSNTFLAGLAQYYTQYSGTINLHFMFTGPTDAKARYMIAYAPPGMEPPKTPEAAAHCIHAEWDTGLNSKFTFSIPYLSAADYAYTASDTAETTNVQGWVCLFQITHGKADGDALVVLASAGKDFELRLPVDART 5neg-a1-m1-cA_5neg-a1-m1-cB ENAH EVH1 in complex with Ac-[2-Cl-F]-[ProM-2]-[ProM-13]-OEt Q8N8S7 Q8N8S7 1.29 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 EQSICQARAAVMVYDDANKKWVPAGGSTGFSRVHIYHHTGNNTFRVVGRKIQDHQVVINCAIPKGLKYNQATQTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVL EQSICQARAAVMVYDDANKKWVPAGGSTGFSRVHIYHHTGNNTFRVVGRKIQDHQVVINCAIPKGLKYNQATQTFHQWRDARQVYGLNFGSKEDANVFASAMMHALEVL 5nen-a1-m1-cB_5nen-a1-m1-cA Crystal structure of the soluble domain of LipC, a membrane fusion protein of a type I secretion system Q54457 Q54457 2.901 X-RAY DIFFRACTION 90 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 213 266 NRKTVQAPQVQAQAQVDSLRDQYYTTLATEGRLLAERDGLSIVTFSPILDAVKDKPRVAEIIALQTQLFASRRQALQSEIDGYKQSMDGIRFQLKGLQDSRGNKQIQLSSLREQMNSMKQLAADGYLPRNRYLEVQRQFAEVNSSIDETVGRIGQLQKQLLESQQRIDQRFADYQREVRTQLAQTQMDASEFRNKLQMADFDLGNTITSPVDG NRKTVQAPASGIIKNIAVRDGDKVKAGEVLVQLSQVQAQAQVDSLRDQYYTTLATEGRLLAERDGLSIVTFSPILDAVKDKPRVAEIIALQTQLFASRRQALQSEIDGYKQSMDGIRFQLKGLQDSRGNKQIQLSSLREQMNSMKQLAADGYLPRNRYLEVQRQFAEVNSSIDETVGRIGQLQKQLLESQQRIDQRFADYQREVRTQLAQTQMDASEFRNKLQMADFDLGNTAITSPVDGTVVGLNIFTQGGVVGAGDHLMDVVPS 5nf8-a1-m1-cA_5nf8-a1-m1-cB Solution structure of detergent-solubilized Rcf1, a yeast mitochondrial inner membrane protein involved in respiratory Complex III/IV supercomplex formation Q03713 Q03713 NOT SOLUTION NMR 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 159 159 MSRMPSSFDVTERDLDDMTFGERIIYHCKKQPLVPIGCLLTTGAVILAAQNVRLGNKWKAQYYFRWRVGLQAATLVALVAGSFIYGTSGKELKAKEEQLKEKAKMREKLWIQELERREEETEARRKRAELARMKTLENEEEIKNLEKELSDLENKLGKK MSRMPSSFDVTERDLDDMTFGERIIYHCKKQPLVPIGCLLTTGAVILAAQNVRLGNKWKAQYYFRWRVGLQAATLVALVAGSFIYGTSGKELKAKEEQLKEKAKMREKLWIQELERREEETEARRKRAELARMKTLENEEEIKNLEKELSDLENKLGKK 5nfo-a1-m1-cA_5nfo-a1-m1-cB Human JMJD7 in complex with Mn and 2OG in the P21212 form P0C870 P0C870 2.173 X-RAY DIFFRACTION 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 317 318 5nfn-a1-m1-cA_5nfn-a1-m1-cB 5nfn-a2-m1-cC_5nfn-a2-m1-cD HMAEAALEAVRSELREFPAAARELCVPLAVPYLDKPPTPLHFYRDWVCPNRPCIIRNALQHWPALQKWSLPYFRATVGSTEVSVAVTPDGYADAVRGDRFMMPAERRLPLSFVLDVLEGRAQHPGVLYVQKQCSNLPSELPQLLPDLESHVPWASEALGKMPDAVNFWLGEAAAVTSLHKDHYENLYCVVSGEKHFLFHPPSDRPFIPYELYTPATYQLTEEGTFKVVDEEAMEKVPWIPLDPLAPDLARYPSYSQAQALCCTVRAGEMLYLPALWFHHVQQSQGCIAVNFWYDMEYDLKYSYFQLLDSLTKASGLD SHMAEAALEAVRSELREFPAAARELCVPLAVPYLDKPPTPLHFYRDWVCPNRPCIIRNALQHWPALQKWSLPYFRATVGSTEVSVAVTPDGYADAVRGDRFMMPAERRLPLSFVLDVLEGRAQHPGVLYVQKQCSNLPSELPQLLPDLESHVPWASEALGKMPDAVNFWLGEAAAVTSLHKDHYENLYCVVSGEKHFLFHPPSDRPFIPYELYTPATYQLTEEGTFKVVDEEAMEKVPWIPLDPLAPDLARYPSYSQAQALCCTVRAGEMLYLPALWFHHVQQSQGCIAVNFWYDMEYDLKYSYFQLLDSLTKASGLD 5ng7-a1-m1-cB_5ng7-a1-m1-cA Novel epoxide hydrolases belonging to the alpha/beta hydrolases superfamily in metagenomes from hot environments 1.39 X-RAY DIFFRACTION 56 1.0 256318 (metagenome) 256318 (metagenome) 290 292 NEMLKHEYVKVNGIKMHYVTQGKGKLLLLLHGFPDFWYVWRFQIPALAKHFRVVAPDLRGYNETDKPEGVENYRLDLLAKDILGLIKALGEEHAVVVGHDWGGIISWTLTAFNPQAVEKLVILNAPHPKAYMTRTKNSLRQLQKSWYVFFFQVANIPEKILSRNEFAFLKNMLIQSFVRRDLLTEEDLRIYVDAWSKSGALTSALNYYRANLNPDIIFSEKTVVFPKIKVPTLVIWGEKDVAISKDLIVNMEDFIEAPYSIKYFPECGHWVQLEEPELVRKHIEEFILKS NEMLKHEYVKVNGIKMHYVTQGKGKLLLLLHGFPDFWYVWRFQIPALAKHFRVVAPDLRGYNETDKPEGVENYRLDLLAKDILGLIKALGEEHAVVVGHDWGGIISWTLTAFNPQAVEKLVILNAPHPKAYMTRTKNSLRQLQKSWYVFFFQVANIPEKILSRNEFAFLKNMLIQSFVRRDLLTEEDLRIYVDAWSKSGALTSALNYYRANLNPDIIFSEKTVVFPKIKVPTLVIWGEKDVAISKDLIVNMEDFIEAPYSIKYFPECGHWVQLEEPELVRKHIEEFILKSDI 5nh0-a1-m1-cA_5nh0-a1-m2-cB Structure of human coronavirus NL63 main protease in complex with the alpha-ketoamide tert-Butyl ((S)-4-(benzylamino)-3,4-dioxo-1-((S)-2-oxopyrrolidin-3-yl)b- utan-2-yl)carbamate (tert-butyl -GlnLactam-CO-CO-NH-benzyl) P0C6X5 P0C6X5 2.35 X-RAY DIFFRACTION 45 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 299 300 5nh0-a1-m2-cA_5nh0-a1-m1-cB SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYG SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYGV 5nh0-a1-m1-cC_5nh0-a1-m2-cC Structure of human coronavirus NL63 main protease in complex with the alpha-ketoamide tert-Butyl ((S)-4-(benzylamino)-3,4-dioxo-1-((S)-2-oxopyrrolidin-3-yl)b- utan-2-yl)carbamate (tert-butyl -GlnLactam-CO-CO-NH-benzyl) P0C6X5 P0C6X5 2.35 X-RAY DIFFRACTION 26 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 299 299 SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYG SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYG 5nh0-a1-m2-cA_5nh0-a1-m2-cB Structure of human coronavirus NL63 main protease in complex with the alpha-ketoamide tert-Butyl ((S)-4-(benzylamino)-3,4-dioxo-1-((S)-2-oxopyrrolidin-3-yl)b- utan-2-yl)carbamate (tert-butyl -GlnLactam-CO-CO-NH-benzyl) P0C6X5 P0C6X5 2.35 X-RAY DIFFRACTION 23 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 299 300 5nh0-a1-m1-cA_5nh0-a1-m1-cB SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYG SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYGV 5nh0-a1-m2-cA_5nh0-a1-m2-cC Structure of human coronavirus NL63 main protease in complex with the alpha-ketoamide tert-Butyl ((S)-4-(benzylamino)-3,4-dioxo-1-((S)-2-oxopyrrolidin-3-yl)b- utan-2-yl)carbamate (tert-butyl -GlnLactam-CO-CO-NH-benzyl) P0C6X5 P0C6X5 2.35 X-RAY DIFFRACTION 23 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 299 299 5nh0-a1-m1-cA_5nh0-a1-m1-cC SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYG SGLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYG 5ni4-a1-m1-cB_5ni4-a1-m1-cC Crystal structure of human LTA4H mutant E271A in complex with LTA4 (crystal form II) P09960 P09960 1.895 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 608 608 5ni4-a1-m1-cA_5ni4-a1-m1-cB EIVDTCSLASPASVCRTKHLHLRCSVDFTRRTLTGTAALTVQSQEDNLRSLVLDTKDLTIEKVVINGQEVKYALGERQSYKGSPMEISLPIALSKNQEIVIEISFETSPKSSALQWLTPEQTSGKEHPYLFSQCQAIHCRAILPCQDTPSVKLTYTAEVSVPKELVALMSAIRDGETPDPEDPSRKIYKFIQKVPIPCYLIALVVGALESRQIGPRTLVWSEKEQVEKSAYEFSETESMLKIAEDLGGPYVWGQYDLLVLPPSFPYGGMANPCLTFVTPTLLAGDKSLSNVIAHEISHSWTGNLVTNKTWDHFWLNEGHTVYLERHICGRLFGEKFRHFNALGGWGELQNSVKTFGETHPFTKLVVDLTDIDPDVAYSSVPYEKGFALLFYLEQLLGGPEIFLGFLKAYVEKFSYKSITTDDWKDFLYSYFKDKVDVLNQVDWNAWLYSPGLPPIKPNYDMTLTNACIALSQRWITAKEDDLNSFNATDLKDLSSHQLNEFLAQTLQRAPLPLGHIKRMQEVYNFNAINNSEIRFRWLRLCIQSKWEDAIPLALKMATEQGRMKFTRPLFKDLAAFDKSHDQAVRTYQEHKASMHPVTAMLVGKDLKV EIVDTCSLASPASVCRTKHLHLRCSVDFTRRTLTGTAALTVQSQEDNLRSLVLDTKDLTIEKVVINGQEVKYALGERQSYKGSPMEISLPIALSKNQEIVIEISFETSPKSSALQWLTPEQTSGKEHPYLFSQCQAIHCRAILPCQDTPSVKLTYTAEVSVPKELVALMSAIRDGETPDPEDPSRKIYKFIQKVPIPCYLIALVVGALESRQIGPRTLVWSEKEQVEKSAYEFSETESMLKIAEDLGGPYVWGQYDLLVLPPSFPYGGMANPCLTFVTPTLLAGDKSLSNVIAHEISHSWTGNLVTNKTWDHFWLNEGHTVYLERHICGRLFGEKFRHFNALGGWGELQNSVKTFGETHPFTKLVVDLTDIDPDVAYSSVPYEKGFALLFYLEQLLGGPEIFLGFLKAYVEKFSYKSITTDDWKDFLYSYFKDKVDVLNQVDWNAWLYSPGLPPIKPNYDMTLTNACIALSQRWITAKEDDLNSFNATDLKDLSSHQLNEFLAQTLQRAPLPLGHIKRMQEVYNFNAINNSEIRFRWLRLCIQSKWEDAIPLALKMATEQGRMKFTRPLFKDLAAFDKSHDQAVRTYQEHKASMHPVTAMLVGKDLKV 5nij-a2-m1-cD_5nij-a2-m1-cC Crystal structure of arabidopsis thaliana legumain isoform gamma in two-chain activation state Q39119 Q39119 2.75 X-RAY DIFFRACTION 30 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 426 427 5nij-a1-m1-cB_5nij-a1-m1-cA SGTRWAVLVAGSSGYWNYRHQADICHAYQLLRKGGLKEENIVVFMYDDIANNYENPRPGTIINSPHGKDVYQGVPKDYTGDDVNVDNLFAVILGDKTAVKGGSGKVVDSGPNDHIFIFYSHGGPGVLGMPTSPYLYANDLNDVLKKKHALGTYKSLVFYLEAESGSIFEGLLPEGLNIYATTASNAEESSWGTYCPGEEPSPPPEYETCLGDLYSVAWMEDSGMHNLQTETLHQQYELVKRRTAPVGYSYGSHVMQYGDVGISKDNLDLYMGTNPANDNFSRVTNQRDADLVHFWEKYRKAPEGSARKTEAQKQVLEAMSHRLHIDNSVILVGKILFGISRGPEVLNKVRSAGQPLVDDWNCLKNQVRAFERHCGSLSQYGIKHMRSFANICNAGIQMEQMEEAASQACTTLPTGPWSSLNRGFSA SGTRWAVLVAGSSGYWNYRHQADICHAYQLLRKGGLKEENIVVFMYDDIANNYENPRPGTIINSPHGKDVYQGVPKDYTGDDVNVDNLFAVILGDKTAVKGGSGKVVDSGPNDHIFIFYSHGGPGVLGMPTSPYLYANDLNDVLKKKHALGTYKSLVFYLEAESGSIFEGLLPEGLNIYATTASNAEESSWGTYCPGEEPSPPPEYETCLGDLYSVAWMEDSGMHNLQTETLHQQYELVKRRTAPVGYSYGSHVMQYGDVGISKDNLDLYMGTNPANDNFPSRVTNQRDADLVHFWEKYRKAPEGSARKTEAQKQVLEAMSHRLHIDNSVILVGKILFGISRGPEVLNKVRSAGQPLVDDWNCLKNQVRAFERHCGSLSQYGIKHMRSFANICNAGIQMEQMEEAASQACTTLPTGPWSSLNRGFSA 5nil-a1-m1-cJ_5nil-a1-m1-cK Structure of the MacAB-TolC ABC-type tripartite multidrug efflux pump-MacB section P75831 P75831 5.3 ELECTRON MICROSCOPY 109 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 629 629 5nik-a1-m1-cJ_5nik-a1-m1-cK MTPLLELKDIRRSYPAGDEQVEVLKGISLDIYAGEMVAIVGASGSGKSTLMNILGCLDKATSGTYRVAGQDVATLDADALAQLRREHFGFIFQRYHLLSHLTAEQNVEVPAVYAGLERKQRLLRAQELLQRLGLEDRTEYYPAQLSGGQQQRVSIARALMNGGQVILADEPTGALDSHSGEEVMAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVRNPPGWRQFVSGFNEALTMAWRALAANKMRTLLTMLGIIIGIASVVSIVVVGDAAKQMVLADIRSIGTNTIDVYPGKDFGDDDPQYQQALKYDDLIAIQKQPWVASATPAVSQNLRLRYNNVDVAASANGVSGDYFNVYGMTFSEGNTFNQEQLNGRAQVVVLDSNTRRQLFPHKADVVGEVILVGNMPARVIGVAEEKQSMFGSSKVLRVWLPYSTMSGRVMGQSWLNSITVRVKEGFDSAEAEQQLTRLLSLRHGKKDFFTWNMDGVLKTVEKTTRTLQLFLTLVAVISLVVGGIGVMNIMLVSVTERTREIGIRMAVGARASDVLQQFLIEAVLVCLVGGALGITLSLLIAFTLQLFLPGWEIGFSPLALLLAFLCSTVTGILFGWLPARNAARLDPVDALARE MTPLLELKDIRRSYPAGDEQVEVLKGISLDIYAGEMVAIVGASGSGKSTLMNILGCLDKATSGTYRVAGQDVATLDADALAQLRREHFGFIFQRYHLLSHLTAEQNVEVPAVYAGLERKQRLLRAQELLQRLGLEDRTEYYPAQLSGGQQQRVSIARALMNGGQVILADEPTGALDSHSGEEVMAILHQLRDRGHTVIIVTHDPQVAAQAERVIEIRDGEIVRNPPGWRQFVSGFNEALTMAWRALAANKMRTLLTMLGIIIGIASVVSIVVVGDAAKQMVLADIRSIGTNTIDVYPGKDFGDDDPQYQQALKYDDLIAIQKQPWVASATPAVSQNLRLRYNNVDVAASANGVSGDYFNVYGMTFSEGNTFNQEQLNGRAQVVVLDSNTRRQLFPHKADVVGEVILVGNMPARVIGVAEEKQSMFGSSKVLRVWLPYSTMSGRVMGQSWLNSITVRVKEGFDSAEAEQQLTRLLSLRHGKKDFFTWNMDGVLKTVEKTTRTLQLFLTLVAVISLVVGGIGVMNIMLVSVTERTREIGIRMAVGARASDVLQQFLIEAVLVCLVGGALGITLSLLIAFTLQLFLPGWEIGFSPLALLLAFLCSTVTGILFGWLPARNAARLDPVDALARE 5niu-a2-m1-cC_5niu-a2-m1-cD Structure of human Programmed cell death 1 ligand 1 (PD-L1) with low molecular mass inhibitor Q9NZQ7 Q9NZQ7 2.01 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 127 5j89-a1-m1-cD_5j89-a1-m1-cC 5j89-a2-m1-cB_5j89-a2-m1-cA 5j8o-a1-m1-cA_5j8o-a1-m1-cB 5n2d-a1-m1-cB_5n2d-a1-m1-cA 5n2d-a1-m1-cD_5n2d-a1-m1-cC 5n2f-a1-m1-cB_5n2f-a1-m1-cA 5niu-a1-m1-cB_5niu-a1-m1-cA 6nm7-a1-m1-cA_6nm7-a1-m1-cB 6nm8-a1-m1-cA_6nm8-a1-m1-cB 6noj-a1-m1-cA_6noj-a1-m1-cB 6nos-a1-m1-cA_6nos-a1-m1-cB 6r3k-a1-m1-cB_6r3k-a1-m1-cA 6r3k-a2-m1-cC_6r3k-a2-m1-cD 6rpg-a1-m1-cA_6rpg-a1-m1-cB 6vqn-a1-m1-cB_6vqn-a1-m1-cA 6vqn-a2-m1-cC_6vqn-a2-m2-cC 7bea-a1-m1-cB_7bea-a1-m1-cA 7dy7-a1-m1-cA_7dy7-a1-m1-cB 7nld-a1-m1-cD_7nld-a1-m1-cC 7nld-a2-m1-cB_7nld-a2-m1-cA 7nld-a3-m2-cF_7nld-a3-m1-cE 7vun-a1-m1-cE_7vun-a1-m1-cC 7vun-a1-m1-cG_7vun-a1-m1-cD 7vun-a1-m1-cH_7vun-a1-m1-cB AFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYAAALEHHHH AFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYAAALEHHHHH 5njc-a2-m1-cF_5njc-a2-m1-cC E. coli Microcin-processing metalloprotease TldD/E (TldD E263A mutant) with hexapeptide bound P0AGG8 1.35 X-RAY DIFFRACTION 37 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 6 480 5njc-a1-m1-cE_5njc-a1-m1-cA VLEDRI SLNLVSEQLLAANGLKHQDLFAILGQLAERRLDYGDLYFQSSYHESWVLEDRIIKDGSYNIDQGVGVRAISGEKTGFAYADQISLLALEQSAQAARTIVRDSGDGKVQTLGAVEHSPLYTSVDPLQSMSREEKLDILRRVDKVAREADKRVQEVTASLSGVYELILVAATDGTLAADVRPLVRLSVSVLVEEDGKRERGASGGGGRFGYEFFLADLDGEVRADAWAKEAVRMALVNLSAVAAPAGTMPVVLGAGWPGVLLHAAVGHGLEGDFNRRGTSVFSGQVGELVASELCTVVDDGTMVDRRGSVAIDDEGTPGQYNVLIENGILKGYMQDKLNARLMGMTPTGNGRRESYAHLPMPRMTNTYMLPGKSTPQEIIESVEYGIYAPNFGGGQVDITSDKFVFSTSEAYLIENGKVTKPVKGATLIGSGIETMQQISMVGNDLKLDNGVGVCGKEGQSLPVGVGQPTLKVDNLTVGGTA 5nks-a1-m1-cA_5nks-a1-m4-cA Human Dihydropyrimidinase-related Protein 4 (DPYSL4, CRMP3, ULIP-4) O14531 O14531 1.8 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 490 490 5nks-a1-m2-cA_5nks-a1-m3-cA KKSIPRITSDRLLIRGGRIVNDDQSFYADVHVEDGLIKQIGENLIVPGGIKTIDAHGLMVLPGGVDVHTRLQMPVLGMTPADDFCQGTKAALAGGTTMILDHVFPDTGVSLLAAYEQWRERADSAACCDYSLHVDITRWHESIKEELEALVKEKGVNSFLVFMAYKDRCQCSDSQMYEIFSIIRDLGALAQVHAENGDIVEEEQKRLLELGITGPEGHVLSHPEEVEAEAVYRAVTIAKQANCPLYVTKVMSKGAADAIAQAKRRGVVVFGEPITASLGTDGSHYWSKNWAKAAAFVTSPPVNPDPTTADHLTCLLSSGDLQVTGSAHCTFTTAQKAVGKDNFALIPEGTNGIEERMSMVWEKCVASGKMDENEFVAVTSTNAAKIFNFYPRKGRVAVGSDADLVIWNPKATKIISAKTHNLNVEYNIFEGVECRGAPAVVISQGRVALEDGKMFVTPGAGRFVPRKTFPDFVYKRIKARNRLAEIHGVP KKSIPRITSDRLLIRGGRIVNDDQSFYADVHVEDGLIKQIGENLIVPGGIKTIDAHGLMVLPGGVDVHTRLQMPVLGMTPADDFCQGTKAALAGGTTMILDHVFPDTGVSLLAAYEQWRERADSAACCDYSLHVDITRWHESIKEELEALVKEKGVNSFLVFMAYKDRCQCSDSQMYEIFSIIRDLGALAQVHAENGDIVEEEQKRLLELGITGPEGHVLSHPEEVEAEAVYRAVTIAKQANCPLYVTKVMSKGAADAIAQAKRRGVVVFGEPITASLGTDGSHYWSKNWAKAAAFVTSPPVNPDPTTADHLTCLLSSGDLQVTGSAHCTFTTAQKAVGKDNFALIPEGTNGIEERMSMVWEKCVASGKMDENEFVAVTSTNAAKIFNFYPRKGRVAVGSDADLVIWNPKATKIISAKTHNLNVEYNIFEGVECRGAPAVVISQGRVALEDGKMFVTPGAGRFVPRKTFPDFVYKRIKARNRLAEIHGVP 5nks-a1-m3-cA_5nks-a1-m4-cA Human Dihydropyrimidinase-related Protein 4 (DPYSL4, CRMP3, ULIP-4) O14531 O14531 1.8 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 490 490 5nks-a1-m1-cA_5nks-a1-m2-cA KKSIPRITSDRLLIRGGRIVNDDQSFYADVHVEDGLIKQIGENLIVPGGIKTIDAHGLMVLPGGVDVHTRLQMPVLGMTPADDFCQGTKAALAGGTTMILDHVFPDTGVSLLAAYEQWRERADSAACCDYSLHVDITRWHESIKEELEALVKEKGVNSFLVFMAYKDRCQCSDSQMYEIFSIIRDLGALAQVHAENGDIVEEEQKRLLELGITGPEGHVLSHPEEVEAEAVYRAVTIAKQANCPLYVTKVMSKGAADAIAQAKRRGVVVFGEPITASLGTDGSHYWSKNWAKAAAFVTSPPVNPDPTTADHLTCLLSSGDLQVTGSAHCTFTTAQKAVGKDNFALIPEGTNGIEERMSMVWEKCVASGKMDENEFVAVTSTNAAKIFNFYPRKGRVAVGSDADLVIWNPKATKIISAKTHNLNVEYNIFEGVECRGAPAVVISQGRVALEDGKMFVTPGAGRFVPRKTFPDFVYKRIKARNRLAEIHGVP KKSIPRITSDRLLIRGGRIVNDDQSFYADVHVEDGLIKQIGENLIVPGGIKTIDAHGLMVLPGGVDVHTRLQMPVLGMTPADDFCQGTKAALAGGTTMILDHVFPDTGVSLLAAYEQWRERADSAACCDYSLHVDITRWHESIKEELEALVKEKGVNSFLVFMAYKDRCQCSDSQMYEIFSIIRDLGALAQVHAENGDIVEEEQKRLLELGITGPEGHVLSHPEEVEAEAVYRAVTIAKQANCPLYVTKVMSKGAADAIAQAKRRGVVVFGEPITASLGTDGSHYWSKNWAKAAAFVTSPPVNPDPTTADHLTCLLSSGDLQVTGSAHCTFTTAQKAVGKDNFALIPEGTNGIEERMSMVWEKCVASGKMDENEFVAVTSTNAAKIFNFYPRKGRVAVGSDADLVIWNPKATKIISAKTHNLNVEYNIFEGVECRGAPAVVISQGRVALEDGKMFVTPGAGRFVPRKTFPDFVYKRIKARNRLAEIHGVP 5nl1-a3-m1-cD_5nl1-a3-m1-cF Shigella IpaA-VBS3/TBS in complex with the Talin VBS1 domain 488-512 P26039 P26039 2.5 X-RAY DIFFRACTION 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 141 142 1sj7-a4-m1-cC_1sj7-a4-m2-cC 1sj7-a5-m1-cA_1sj7-a5-m1-cB 5nl1-a1-m1-cA_5nl1-a1-m1-cB 5nl1-a2-m1-cC_5nl1-a2-m1-cE LTSAQQALTGTINSSMQAVQAAQATLDDFETLPPLGQDAASKAWRKNKMDESKHEIHSQVDAITAGTASVVNLTAGDPAETDYTAVGCAVTTISSNLTEMSRGVKLLAALLEDEGGNGRPLLQAAKGLAGAVSELLRSAQP PLTSAQQALTGTINSSMQAVQAAQATLDDFETLPPLGQDAASKAWRKNKMDESKHEIHSQVDAITAGTASVVNLTAGDPAETDYTAVGCAVTTISSNLTEMSRGVKLLAALLEDEGGNGRPLLQAAKGLAGAVSELLRSAQP 5nl2-a1-m1-cA_5nl2-a1-m1-cB cryo-EM structure of the mTMEM16A ion channel at 6.6 A resolution. Q8BHY3 Q8BHY3 6.6 ELECTRON MICROSCOPY 27 1.0 10090 (Mus musculus) 10090 (Mus musculus) 434 434 DKRFRREAEFLKLKMPTKKVYHISETRGLLKTINSVLQKIPIQPKVAEHRPDSKTRSTIVYEILSAAYPFNDRKLLYEEWQPIDLVRKYFGEKVGLYFAWLGAYTQMLIPASIVGVIVFLYTVFFSVFMALWAATFMEHWKRKQMRLNYRWRFPAYFTNLVSIIFMIAVTFAIVLGVIIYRISTAARVTVTATAVIINLVVIILLDEVYGCIARWLTKIEVPKTEKSFEERLTFKAFLLKFVNSYTPIFYVAFFELCIQLSIIMLGKQLIQNNLFEIGIPKMKKFIRYVKRKQRYEVDFNAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAIRAKDIGIWYNILRGVGKLAVIINAFVISFKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVDISQQIHKEKVLMVELFM DKRFRREAEFLKLKMPTKKVYHISETRGLLKTINSVLQKIPIQPKVAEHRPDSKTRSTIVYEILSAAYPFNDRKLLYEEWQPIDLVRKYFGEKVGLYFAWLGAYTQMLIPASIVGVIVFLYTVFFSVFMALWAATFMEHWKRKQMRLNYRWRFPAYFTNLVSIIFMIAVTFAIVLGVIIYRISTAARVTVTATAVIINLVVIILLDEVYGCIARWLTKIEVPKTEKSFEERLTFKAFLLKFVNSYTPIFYVAFFELCIQLSIIMLGKQLIQNNLFEIGIPKMKKFIRYVKRKQRYEVDFNAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAIRAKDIGIWYNILRGVGKLAVIINAFVISFKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVDISQQIHKEKVLMVELFM 5nl6-a1-m1-cB_5nl6-a1-m1-cA The crystal structure of the two spectrin repeat domains from Entamoeba histolytica N9TIJ7 N9TIJ7 2.05 X-RAY DIFFRACTION 86 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 229 235 LRATEGMVHDYEQRAQALKENIEAAINKMNGVEPSDEYHQVKEQINETKNYRKGDKRAFIKEQGDLATLFGQINSKLRGMKRPVYVAPEGLDPKSLEGYIANISEAERALRSKLNTAMRNCLIALRKAFADPANATDAKINEYRTFVTDETSEAPLEEQVATLKAKLEELKQVEAQLPPIEEAEKACEDANIEDNEYTDVSFDDLQFNYEQTVSMFEKKIVYIEAQINE NFLDFLRATEGMVHDYEQRAQALKENIEAAINKMNGVEPSDEYHQVKEQINETKNYRKGDKRAFIKEQGDLATLFGQINSKLRGMKRPVYVAPEGLDPKSLEGYIANISEAERALRSKLNTAMRNCLIALRKAFADPANATDAKINEYRTFVTDETSEAPLEEQVATLKAKLEELKQVEAQLPPIEEAEKACEDANIEDNEYTDVSFDDLQFNYEQTVSMFEKKIVYIEAQINEA 5nl9-a1-m1-cA_5nl9-a1-m1-cB Crystal structure of a peroxide stress regulator from Leptospira interrogans Q72QS5 Q72QS5 1.9 X-RAY DIFFRACTION 122 1.0 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 146 146 SMKDSYERSKKILEDAGINVTVQRLQMANLLLSKPQHLTADQVFQLINEHMPNASRATIFNNLKLFAEKGIVNLLELKSGITLYDSNVIHHHHAIDEKTGEIYDISLDSKLQEKVLSELKQDFKLKTGSSLENCNLSITLKGKKNP SMKDSYERSKKILEDAGINVTVQRLQMANLLLSKPQHLTADQVFQLINEHMPNASRATIFNNLKLFAEKGIVNLLELKSGITLYDSNVIHHHHAIDEKTGEIYDISLDSKLQEKVLSELKQDFKLKTGSSLENCNLSITLKGKKNP 5nlw-a2-m1-cA_5nlw-a2-m2-cA Structure of Nb36 crystal form 2 1.5 X-RAY DIFFRACTION 53 1.0 9844 (Lama glama) 9844 (Lama glama) 117 117 VQLVESGGGLVQAGGSLRLSCVVSGSAVSDYAMGWYRQAPGKQRELVAAIYNSGRTNYVDSVKGRFTISKDNAKKTVYLQMNSLKPEDTADYFCNLLGATTMSNAVWGQGTQVTVSS VQLVESGGGLVQAGGSLRLSCVVSGSAVSDYAMGWYRQAPGKQRELVAAIYNSGRTNYVDSVKGRFTISKDNAKKTVYLQMNSLKPEDTADYFCNLLGATTMSNAVWGQGTQVTVSS 5nmp-a5-m1-cJ_5nmp-a5-m1-cI Isatin hydrolase A (IHA) from Ralstonia solanacearum Q8XYC3 Q8XYC3 2.65 X-RAY DIFFRACTION 246 1.0 267608 (Ralstonia pseudosolanacearum GMI1000) 267608 (Ralstonia pseudosolanacearum GMI1000) 263 265 5nmp-a1-m1-cB_5nmp-a1-m1-cA 5nmp-a2-m1-cC_5nmp-a2-m1-cD 5nmp-a3-m1-cF_5nmp-a3-m1-cE 5nmp-a4-m1-cG_5nmp-a4-m1-cH ATSTTPTILPALAAGLARGNIRVVDLTQTLSPSFPTLQLPSQFGQVQPFKIERISHYDASGPAWYWNNFSCGEHTGTHFDAPAHWITGRDYPGNSVDTIAPENFVAPAVVIDASAQVRENEDWLLTVDFLQAWEQRHGRIPAGAWVLFRTDWSLRVGDAAAFLNIREDGAHTPGPTQEAVEWLIGERNVHGFGVETINTDAGQSYAWPLAYPCHTLMHGANRYGLQCLKNLDQLPPRGAFILAAPLKIEGGSGSPLRVLALVE AMATSTTPTILPALAAGLARGNIRVVDLTQTLSPSFPTLQLPSQFGQVQPFKIERISHYDASGPAWYWNNFSCGEHTGTHFDAPAHWITGRDYPGNSVDTIAPENFVAPAVVIDASAQVRENEDWLLTVDFLQAWEQRHGRIPAGAWVLFRTDWSLRVGDAAAFLNIREDGAHTPGPTQEAVEWLIGERNVHGFGVETINTDAGQSYAWPLAYPCHTLMHGANRYGLQCLKNLDQLPPRGAFILAAPLKIEGGSGSPLRVLALVE 5nmt-a1-m1-cA_5nmt-a1-m1-cB Dimer structure of Sortilin ectodomain crystal form 1, 2.3A Q6PHU5 Q6PHU5 2.3 X-RAY DIFFRACTION 155 0.998 10090 (Mus musculus) 10090 (Mus musculus) 654 657 5nni-a1-m1-cA_5nni-a1-m1-cB 5nnj-a1-m1-cA_5nnj-a1-m1-cB 5nnj-a2-m1-cC_5nnj-a2-m1-cD 5znn-a1-m1-cA_5znn-a1-m1-cB 6eho-a1-m1-cA_6eho-a1-m2-cA QDCGRDFIAKLTNNTHQHVFDDLSGSVSLSWVGDSTGVILVLTTFQVPLVIVSFGQSKLYRSEDYGKNFKDITNLINNTFIRTEFGMAIGPENSGKVILTAEVSGGSRGGRVFRSSDFAKNFVQTDLPFHPLTQMMYSPQNSDYLLALSTENGLWVSKNFGEKWEEIHKAVCLAKWGPNNIIFFTTHVNGSCKADLGALELWRTSDLGKTFKTIGVKIYSFGLGGRFLFASVMADKDTTRRIHVSTDQGDTWSMAQLPSVQEQFYSILAANEDMVFMHVDEPGDTGFGTIFTSDDRGIVYSKSLDRHLYTTTGGETDFTNVTSLRGVYITSTLSEDNSIQSMITFDQGGRWEHLRKPENSKCDKNKNECSLHIHASYSISQKLNVPMAPLSEPNAVGIVIAHGSVGDAISVMVPDVYISDDGGYSWAKMLEGPHYYTILDSGGIIVAIEHSNRPINVIKFSTDEGQCWQSYVFTQEPIYFTGLASEPGARSMNISIWGFTETRQWVSYTVDFKDILERNCEEDDYTTWLAHSTDPGDYKDGCILGYKEQFLRLRKSSVCQNGRDYVVAKQPSVCPCSLEDFLCDFGYFRPENASECVEQPELKGHELEFCLYGKEEHLTTNGYRKIPGDKCQGGMNPAREVKDLKKKCTSNFLN DCGRLPDFIAKLTNNTHQHVFDDLSGSVSLSWVGDSTGVILVLTTFQVPLVIVSFGQSKLYRSEDYGKNFKDITNLINNTFIRTEFGMAIGPENSGKVILTAEVSGGSRGGRVFRSSDFAKNFVQTDLPFHPLTQMMYSPQNSDYLLALSTENGLWVSKNFGEKWEEIHKAVCLAKWGPNNIIFFTTHVNGSCKADLGALELWRTSDLGKTFKTIGVKIYSFGLGGRFLFASVMADKDTTRRIHVSTDQGDTWSMAQLPSVGQEQFYSILAANEDMVFMHVDEPGDTGFGTIFTSDDRGIVYSKSLDRHLYTTTGGETDFTNVTSLRGVYITSTLSEDNSIQSMITFDQGGRWEHLRKPENSKCDKNKNECSLHIHASYSISQKLNVPMAPLSEPNAVGIVIAHGSVGDAISVMVPDVYISDDGGYSWAKMLEGPHYYTILDSGGIIVAIEHSNRPINVIKFSTDEGQCWQSYVFTQEPIYFTGLASEPGARSMNISIWGFTESTRQWVSYTVDFKDILERNCEEDDYTTWLAHSTDPGDYKDGCILGYKEQFLRLRKSSVCQNGRDYVVAKQPSVCPCSLEDFLCDFGYFRPENASECVEQPELKGHELEFCLYGKEEHLTTNGYRKIPGDKCQGGMNPAREVKDLKKKCTSNFLN 5nmw-a2-m1-cD_5nmw-a2-m3-cC Crystal Structure of the pyrrolizidine alkaloid N-oxygenase from Zonocerus variegatus in complex with FAD L0N8S9 L0N8S9 1.89 X-RAY DIFFRACTION 41 0.998 907066 (Zonocerus variegatus) 907066 (Zonocerus variegatus) 405 405 5nmw-a1-m1-cB_5nmw-a1-m2-cA 5nmx-a1-m1-cC_5nmx-a1-m2-cA 5nmx-a2-m1-cB_5nmx-a2-m3-cD MRRVAVLGAGPSGLTAARYLKQAGFEVMVFERYHHVGGTWNYTDETWMSEDGRPVYSSMYQNLFVNLPKELMAFPDFPFHDIEGSYVPSKEVLKYFDNFTDAFDLRKLIKLQHHVENVRPCESGWLVTVTDLTTMVEHSFEFDAVVVCTGQTWCPLYPDVEGRSFFRGRLTHAHEFRSPEPFRNKRVLIVGAGPSGHDMALHISYVSKEVFLSRKFPDNVTEKPLLTSLSEYTAHFSDGTSTDVDEILYCTGYRYRFPFLSPECGVTVDEKYVYPLYLHMLNINKPTMLFIGVSYNACYSIMFDLQAQWVTAVLAGRCTLPDAETMRKEEAEYMEKQRAEAVHPHVLMNHQWEYFKKLEEMSGAKTMPPVYMKMFDDVASDLVKDLQNFRKNNYMIIDNENYKKI MRRVAVLGAGPSGLTAARYLKQAGFEVMVFERYHHVGGTWNYTDETWMSEDGRPVYSSMYQNLFVNLPKELMAFPDFPFHDIEGSYVPSKEVLKYFDNFTDAFDLRKLIKLQHHVENVRPCESGWLVTVTDLTTMVEHSFEFDAVVVCTGQTWCPLYPDVEGRSFFRGRLTHAHEFRSPEPFRNKRVLIVGAGPSGHDMALHISYVSKEVFLSRKLFPDNVTEKPLLTSLSEYTAHFSDGTSTDVDEILYCTGYRYRFPFLSPECGVTVDEKYVYPLYLHMLNINKPTMLFIGVSYNACYSIMFDLQAQWVTAVLAGRCTLPDAETMRKEEAEYMEKQRAEAVHPHVLMNHQWEYFKKLEEMSGAKTMPPVYMKMFDDVASDLVKDLQNFRKNNYMIIDNENYKK 5nmz-a1-m1-cB_5nmz-a1-m1-cA human Neurturin (97-197) Q99748 Q99748 1.6 X-RAY DIFFRACTION 130 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 101 5mr4-a1-m1-cA_5mr4-a1-m1-cB 5mr5-a1-m1-cA_5mr5-a1-m1-cB 5mr9-a1-m1-cA_5mr9-a1-m1-cB 5nmz-a2-m1-cD_5nmz-a2-m1-cC 6gl7-a1-m1-cA_6gl7-a1-m1-cB 6q2o-a1-m1-cA_6q2o-a1-m1-cB 6q2r-a1-m1-cA_6q2r-a1-m1-cB 6q2r-a1-m1-cU_6q2r-a1-m1-cV GARPCGLRELEVRVSELGLGYASDETVLFRYCAGACEAAARVYDLGLRRLRQRRRLRRERVRAQPCCRPTAYEDEVSFLDAHSRYHTVHELSARECACV RLGARPCGLRELEVRVSELGLGYASDETVLFRYCAGACEAAARVYDLGLRRLRQRRRLRRERVRAQPCCRPTAYEDEVSFLDAHSRYHTVHELSARECACV 5nna-a2-m1-cC_5nna-a2-m1-cD Isatin hydrolase A (IHA) from Labrenzia aggregata bound to benzyl benzoate A0P0F0 A0P0F0 1.5 X-RAY DIFFRACTION 266 1.0 187304 (Roseibium aggregatum) 187304 (Roseibium aggregatum) 257 264 5nna-a1-m1-cA_5nna-a1-m1-cB 5nnb-a1-m1-cA_5nnb-a1-m1-cB 5nnb-a2-m1-cC_5nnb-a2-m1-cD ASSLNQLVSGLASGAVRIVDLTHTLDPDFPVIVLPPEFGQCARFRMEEISAYDHRGPAWKWHNISMSEHTGTHFDAPSHWISGKDVPNGSVDEIPAEAFVGPVVVIDCSKGAAENDDFELTPEIIAGWESEHGRIPEDAWVLMRTDWSKRRGADYLNMRADGPHSPGPTPEAIRFLIEERNIRGFGTETVGTDAGQGAHYVPPYPAHYLLHGAGKYGLQCLANLDQLPATGAVLIAAPLKIKNGTGSPLRVLAMVTE SHHHHHHASSLNQLVSGLASGAVRIVDLTHTLDPDFPVIVLPPEFGQCARFRMEEISAYDHRGPAWKWHNISMSEHTGTHFDAPSHWISGKDVPNGSVDEIPAEAFVGPVVVIDCSKGAAENDDFELTPEIIAGWESEHGRIPEDAWVLMRTDWSKRRGADYLNMRADGPHSPGPTPEAIRFLIEERNIRGFGTETVGTDAGQGAHYVPPYPAHYLLHGAGKYGLQCLANLDQLPATGAVLIAAPLKIKNGTGSPLRVLAMVTE 5nnk-a1-m1-cA_5nnk-a1-m2-cA The structure of LL-37 crystallized in the presence LDAO P49913 P49913 1.798 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 5nnt-a1-m1-cB_5nnt-a1-m1-cA LLGDFFRKSKEKIGKEFKRIVQRIKDFLRNLVPR LLGDFFRKSKEKIGKEFKRIVQRIKDFLRNLVPR 5nnm-a1-m1-cB_5nnm-a1-m1-cA The crystal structure of dimeric LL-37 P49913 P49913 1.9 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 34 LLGDFFRKSKEKIGKEFKRIVQRIKDFLRNLV LLGDFFRKSKEKIGKEFKRIVQRIKDFLRNLVPR 5nnx-a1-m2-cA_5nnx-a1-m3-cA TEAD1 bound to DNA P28347 P28347 3.29 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 5nnx-a1-m1-cA_5nnx-a1-m2-cA 5nnx-a1-m1-cA_5nnx-a1-m3-cA AEGVWSPDIEQSFQEALAIYPPCGRRKIILSDEGKMYGRNELIARYIKLRTGKTRTRKQVSSHIQVLARRKSRD AEGVWSPDIEQSFQEALAIYPPCGRRKIILSDEGKMYGRNELIARYIKLRTGKTRTRKQVSSHIQVLARRKSRD 5no5-a1-m1-cA_5no5-a1-m1-cB AbyA5 Wildtype F4F7F5 F4F7F5 2.5 X-RAY DIFFRACTION 70 1.0 349 349 NDVAELKQYVLAHVSAQNASADGVLARIDDDGDGPRSWTTQWIRAGEEREQAGDLLAATTFYNLARFPFVDSPGRAEALRRCVAVFDRWRRTVPGIERLELRLPGGVVRAWAAGLSTTERRPVLLMTGGIVSIKEQWAPILPELARYGFAAVVTELPGVGENELRYDLDSAALFGVLLDAVAERADTSRAYALALSFSGHLALRAAPSEPRLRGIVTAGAPVAAFFTDKEWQAAVPRVTVDTLARLTQTTPATVFDHVRNWALTPQDLAGVRIPVAYVASGRDEIIPPADPALLRTHVRDFRTITHDDVHGSPAHFPHTRLWTLAQVLEMSGADPRHRAAVDGALAQVE NDVAELKQYVLAHVSAQNASADGVLARIDDDGDGPRSWTTQWIRAGEEREQAGDLLAATTFYNLARFPFVDSPGRAEALRRCVAVFDRWRRTVPGIERLELRLPGGVVRAWAAGLSTTERRPVLLMTGGIVSIKEQWAPILPELARYGFAAVVTELPGVGENELRYDLDSAALFGVLLDAVAERADTSRAYALALSFSGHLALRAAPSEPRLRGIVTAGAPVAAFFTDKEWQAAVPRVTVDTLARLTQTTPATVFDHVRNWALTPQDLAGVRIPVAYVASGRDEIIPPADPALLRTHVRDFRTITHDDVHGSPAHFPHTRLWTLAQVLEMSGADPRHRAAVDGALAQVE 5noc-a1-m1-cA_5noc-a1-m1-cB Solution NMR Structure of the C-terminal domain of ParB (Spo0J) P26497 P26497 NOT SOLUTION NMR 103 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 54 54 VKDAVLKERESYLQNYFGTTVNIKRQKKKGKIEIEFFSNEDLDRILELLSERES VKDAVLKERESYLQNYFGTTVNIKRQKKKGKIEIEFFSNEDLDRILELLSERES 5noe-a2-m1-cD_5noe-a2-m1-cB Anthranilate phosphoribosyltransferase from Thermococcus kodakaraensis Q9YGB4 Q9YGB4 1.91 X-RAY DIFFRACTION 79 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 324 325 5noe-a1-m1-cA_5noe-a1-m1-cC MSLLAKIVDGKNLSFEEAYELFNELKGSDGVLIGAYLAALQTKGYTGEELAGLARAMRDSAVKLDLGKVADTAGTGGDGSSTINVSTASALILSAFTRVAKHGNVSITSKSGSANVLEALGLNIRVSPERAREMVESTNFTFIFAPAYHPALRPIMPVRKALGIKTVFNVIGPLANPADPAYQVVGVNSPELLEPVAEALEFLGVERALVVHGSGMDEVSPHRETLVLEVGNGVERYTLSPEDFGIEPVKPLPCSSPEESAARIKAVLGGSGRREDRDFILVNASAALYASGVAEDFREGLEMAREALGQGMLEKLEEIACLSK MSLLAKIVDGKNLSFEEAYELFNELKGSDGVLIGAYLAALQTKGYTGEELAGLARAMRDSAVKLDLGKVADTAGTGGDGSSTINVSTASALILSAFTRVAKHGNVSITSKSGSANVLEALGLNIRVSPERAREMVESTNFTFIFAPAYHPALRPIMPVRKALGIKTVFNVIGPLANPADPAYQVVGVNSPELLEPVAEALEFLGVERALVVHGSGMDEVSPHRETLVLEVGNGVERYTLSPEDFGIEPVKPLPCSSPEESAARIKAVLGGSGRREDRDFILVNASAALYASGVAEDFREGLEMAREALGQGMLEKLEEIACLSKS 5noi-a1-m1-cA_5noi-a1-m2-cA human Robo2 extracellular domains 4-5 Q9HCK4 Q9HCK4 2.4 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 RAPPQFVVRPRDQIVAQGRTVTFPCETKGNPQPAVFWQKEGSQNLLFPNQPQQPNSRCSVSPTGDLTITNIQRSDAGYYICQALTVAGSILAKAQLEVTDVLTDRPPPIILQGPAMQTLAVDGTALLKCKATGDPLPVISWLKEGFTFPDPRATIQEQGTLQIKNLRISDTGTYTCVATSSSGETSWSAVLDVTESGK RAPPQFVVRPRDQIVAQGRTVTFPCETKGNPQPAVFWQKEGSQNLLFPNQPQQPNSRCSVSPTGDLTITNIQRSDAGYYICQALTVAGSILAKAQLEVTDVLTDRPPPIILQGPAMQTLAVDGTALLKCKATGDPLPVISWLKEGFTFPDPRATIQEQGTLQIKNLRISDTGTYTCVATSSSGETSWSAVLDVTESGK 5npi-a1-m1-cA_5npi-a1-m1-cB Structure of the Hepatitis C virus strain J4 glycoprotein E2 antigenic region 532-540 bound to the single chain variable fragment of the non-neutralizing antibody DAO5 2 X-RAY DIFFRACTION 79 1.0 10090 (Mus musculus) 10090 (Mus musculus) 232 233 EVQLQQSGPELVKPGASLKISCKTSGYTFTDFTFHWVKLSHGPSLEWIGTIKPSNGDTAYNQKFKGKATLSVDKSASTAHIEFRSLTSEDSAVYFCARFGGSYPYAMDYWGQGTSVIVSSGTASDIVLTQSPATLSVTPGDRVSLSCRASQGIYNYVHWFQQKSHESPRLLIKYASQSISGIPSRFSGSGSGTDFTLSINSVESEDFGMYFCQQTNKWPLTFGAGTKLELKA EVQLQQSGPELVKPGASLKISCKTSGYTFTDFTFHWVKLSHGPSLEWIGTIKPSNGDTAYNQKFKGKATLSVDKSASTAHIEFRSLTSEDSAVYFCARFGGSYPYAMDYWGQGTSVIVSSGTGASDIVLTQSPATLSVTPGDRVSLSCRASQGIYNYVHWFQQKSHESPRLLIKYASQSISGIPSRFSGSGSGTDFTLSINSVESEDFGMYFCQQTNKWPLTFGAGTKLELKA 5nq9-a1-m1-cA_5nq9-a1-m1-cC Crystal structure of laccases from Pycnoporus sanguineus, izoform II, monoclinic A0A2H4A2Q2 A0A2H4A2Q2 2.72 X-RAY DIFFRACTION 63 1.0 158606 (Trametes sanguinea) 158606 (Trametes sanguinea) 497 497 AIGPVADLTLTNAAVSPDGFSREAVVVNGVTPAPLISGQKGDRFQLNVIDNLTNHTMLKTTSIHWHGFFQHGTNWADGPAFVNQCPIASGHSFLYDFQVPDQAGTFWYHSHLSTQYCDGLRGPFVVYDPNDPQASLYDIDNDDTVITLADWYHVAAKLGPRFPPGSDATLINGLGRSPGTTAADLAVIKVTQGKRYRFRLVSLSCDPNHTFSIDGHTMTIIEADSVNTQPLEVDSIQIFAAQRYSFVLDASQPVDNYWIRANPSFGNTGFAGGINSAILRYLGAPEIEPTTTQTTPTKPLTEVDLHPLTPMAVPGRPEPGGVDKPLNMVFNFNGTNFFINNHSFVPPSVPVLLQILSGAQAAQDLVPEGSVYVLPSNSSIEISFPATVNAPGAPHPFHLHGHTFAVVRSAGSSEYNYDNPIFRDVVSTGTPGDNVTIRFQTANPGPWFLHCHIDFHLDAGFAVVMAEDTPDTTAANPVPQAWSDLCPIYDALDPSDL AIGPVADLTLTNAAVSPDGFSREAVVVNGVTPAPLISGQKGDRFQLNVIDNLTNHTMLKTTSIHWHGFFQHGTNWADGPAFVNQCPIASGHSFLYDFQVPDQAGTFWYHSHLSTQYCDGLRGPFVVYDPNDPQASLYDIDNDDTVITLADWYHVAAKLGPRFPPGSDATLINGLGRSPGTTAADLAVIKVTQGKRYRFRLVSLSCDPNHTFSIDGHTMTIIEADSVNTQPLEVDSIQIFAAQRYSFVLDASQPVDNYWIRANPSFGNTGFAGGINSAILRYLGAPEIEPTTTQTTPTKPLTEVDLHPLTPMAVPGRPEPGGVDKPLNMVFNFNGTNFFINNHSFVPPSVPVLLQILSGAQAAQDLVPEGSVYVLPSNSSIEISFPATVNAPGAPHPFHLHGHTFAVVRSAGSSEYNYDNPIFRDVVSTGTPGDNVTIRFQTANPGPWFLHCHIDFHLDAGFAVVMAEDTPDTTAANPVPQAWSDLCPIYDALDPSDL 5nqd-a2-m1-cC_5nqd-a2-m1-cG Arsenite oxidase AioAB from Rhizobium sp. str. NT-26 mutant AioBF108A Q6VAL8 Q6VAL8 2.2 X-RAY DIFFRACTION 179 1.0 1125847 (Pseudorhizobium banfieldiae) 1125847 (Pseudorhizobium banfieldiae) 843 843 4aay-a1-m1-cC_4aay-a1-m1-cE 4aay-a2-m1-cA_4aay-a2-m2-cG 4aay-a3-m1-cG_4aay-a3-m3-cA 5nqd-a1-m1-cA_5nqd-a1-m1-cE 8ed4-a1-m1-cA_8ed4-a1-m1-cC 8ed4-a2-m1-cE_8ed4-a2-m1-cG AFKRHIDRLPIIPADAKKHNVTCHFCIVGCGYHAYTWPINKQGGTDPQNNIFGVDLSEQQQAESDAWYSPSMYNVVKQDGRDVHVVIKPDHECVVNSGLGSVRGARMAETSFSEARNTQQQRLTDPLVWRYGQMQPTSWDDALDLVARVTAKIVKEKGEDALIVSAFDHGGAGGGYENTWGTGKLYFEAMKVKNIRIHNRPAYNSEVHGTRDMGVGELNNCYEDAELADTIVAVGTNALETQTNYFLNHWIPNLRGESLGKKKELMPEEPHEAGRIIIVDPRRTVTVNACEQTAGADNVLHLAINSGTDLALFNALFTYIADKGWVDRDFIDKSTLREGTARPPLYPARGVSEANPGHLSSFEDAVEGCRMSIEEAAEITGLDAAQIIKAAEWIGMPKEGGKRRRVMFGYEKGLIWGNDNYRTNGALVNLALATGNIGRPGGGVVRLGGHQEGYVRPSDAHVGRPAAYVDQLLIGGQGGVHHIWGCDHYKTTLNAHEFKRVYKKRTDMVKDAMSAAPYGDREAMVNAIVDAINQGGLFAVNVDIIPTKIGEACHVILPAATSGEMNLTSMNGERRMRLTERYMDPPGQSMPDCLIAARLANTMERVLTEMGDVGYAAQFKGFDWQTEEDAFMDGYNKNAHGGEFVTYERLSAMGTNGFQEPATGFTDGKIEGTQRLYTDGVFSTDDGKARFMDAPWRGLQAPGKQQQKDSHKYLINNGRANVVWQSAYLDQENDFVMDRFPYPFIEMNPEDMAEAGLKEGDLVEIYNDAGATQAMAYPTPTARRGETFMLFGFPTGVQGNVTSAGTNELIIPNYKQTWGNIRKISDAPRNVAHLSFKSKEYQS AFKRHIDRLPIIPADAKKHNVTCHFCIVGCGYHAYTWPINKQGGTDPQNNIFGVDLSEQQQAESDAWYSPSMYNVVKQDGRDVHVVIKPDHECVVNSGLGSVRGARMAETSFSEARNTQQQRLTDPLVWRYGQMQPTSWDDALDLVARVTAKIVKEKGEDALIVSAFDHGGAGGGYENTWGTGKLYFEAMKVKNIRIHNRPAYNSEVHGTRDMGVGELNNCYEDAELADTIVAVGTNALETQTNYFLNHWIPNLRGESLGKKKELMPEEPHEAGRIIIVDPRRTVTVNACEQTAGADNVLHLAINSGTDLALFNALFTYIADKGWVDRDFIDKSTLREGTARPPLYPARGVSEANPGHLSSFEDAVEGCRMSIEEAAEITGLDAAQIIKAAEWIGMPKEGGKRRRVMFGYEKGLIWGNDNYRTNGALVNLALATGNIGRPGGGVVRLGGHQEGYVRPSDAHVGRPAAYVDQLLIGGQGGVHHIWGCDHYKTTLNAHEFKRVYKKRTDMVKDAMSAAPYGDREAMVNAIVDAINQGGLFAVNVDIIPTKIGEACHVILPAATSGEMNLTSMNGERRMRLTERYMDPPGQSMPDCLIAARLANTMERVLTEMGDVGYAAQFKGFDWQTEEDAFMDGYNKNAHGGEFVTYERLSAMGTNGFQEPATGFTDGKIEGTQRLYTDGVFSTDDGKARFMDAPWRGLQAPGKQQQKDSHKYLINNGRANVVWQSAYLDQENDFVMDRFPYPFIEMNPEDMAEAGLKEGDLVEIYNDAGATQAMAYPTPTARRGETFMLFGFPTGVQGNVTSAGTNELIIPNYKQTWGNIRKISDAPRNVAHLSFKSKEYQS 5nqh-a2-m1-cB_5nqh-a2-m1-cD Structure of the human Fe65-PTB2 homodimer O00213 O00213 2.6 X-RAY DIFFRACTION 42 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 123 125 5nqh-a1-m1-cC_5nqh-a1-m1-cA LVQKFQVYYLGNVPVAKPVGVDVINGALESVLSSQWTPSHVSVAPATLTILHQQTEAVLGECRVRFLSFLAVGRDVHTFAFIMAAGPASFCCHMFWCEPNAASLSEAVQAACMLRYQKCLDAR LVQKFQVYYLGNVPVAKPVGVDVINGALESVLSSREQWTPSHVSVAPATLTILHQQTEAVLGECRVRFLSFLAVGRDVHTFAFIMAAPASFCCHMFWCEPNAASLSEAVQAACMLRYQKCLDARS 5nrk-a1-m1-cD_5nrk-a1-m1-cB Crystal structure of the sixth cohesin from Acetivibrio cellulolyticus' scaffoldin B in complex with Cel5 dockerin S15I, I16N mutant A0A2R2JFJ6 A0A2R2JFJ6 1.45 X-RAY DIFFRACTION 22 1.0 35830 (Acetivibrio cellulolyticus) 35830 (Acetivibrio cellulolyticus) 67 68 KPGDVDGNGSININDFALMRNYLLGNLKDFPAEDDIKAGDLNGDKSINSLDFAIMRMYLLGMITKFS KPGDVDGNGSININDFALMRNYLLGNLKDFPAEDDIKAGDLNGDKSINSLDFAIMRMYLLGMITKFSV 5ns6-a1-m1-cB_5ns6-a1-m1-cC Crystal structure of beta-glucosidase BglM-G1 from marine metagenome 1.5 X-RAY DIFFRACTION 45 1.0 408172 (marine metagenome) 408172 (marine metagenome) 438 438 5ns6-a1-m1-cA_5ns6-a1-m1-cB 5ns6-a1-m1-cA_5ns6-a1-m1-cC 5ns7-a1-m1-cA_5ns7-a1-m1-cB 5ns7-a1-m1-cA_5ns7-a1-m1-cC 5ns7-a1-m1-cB_5ns7-a1-m1-cC 5ns8-a1-m1-cA_5ns8-a1-m1-cB 5ns8-a1-m1-cA_5ns8-a1-m1-cC 5ns8-a1-m1-cB_5ns8-a1-m1-cC KKWGDMFTWGVSTSSYQIEGAANQGGRGPSIWDTFSKIPGAVANGDNGDVACDHYHRYNEDLDLMKWLGVGAYHFSIAWPRVIPSGYGALNKEGMDFYDRLIDGALERGITPWPTLYHWDLPQSLQDKGGWNNRDCAYWFAEYSQKMAEAFSDRLKNWITINEPFCSAWLGHLYGVMAPGIKDLKTGINASHHLLLGHGLATKAIREVSSELKVGITLNFTPAITLGESSEDKLAVELADGFDNRWFGDPVFKAKYPEDIVKAFGKEVPIHPGDMEIISTPLDYLGLNYYFRQTVEYDATAKPLPYKQVTAPNVERTGMGWEVHAQSFTELLERVSKEYKPKEIFITENGSAWDDEVVDGKVDDPNRVSYLERHLDAMFAAKNKGVPISGYFAWSLIDNFEWAYGYAKRFGIIYVDYQTQKRIPKSSAYYYQKRIKES KKWGDMFTWGVSTSSYQIEGAANQGGRGPSIWDTFSKIPGAVANGDNGDVACDHYHRYNEDLDLMKWLGVGAYHFSIAWPRVIPSGYGALNKEGMDFYDRLIDGALERGITPWPTLYHWDLPQSLQDKGGWNNRDCAYWFAEYSQKMAEAFSDRLKNWITINEPFCSAWLGHLYGVMAPGIKDLKTGINASHHLLLGHGLATKAIREVSSELKVGITLNFTPAITLGESSEDKLAVELADGFDNRWFGDPVFKAKYPEDIVKAFGKEVPIHPGDMEIISTPLDYLGLNYYFRQTVEYDATAKPLPYKQVTAPNVERTGMGWEVHAQSFTELLERVSKEYKPKEIFITENGSAWDDEVVDGKVDDPNRVSYLERHLDAMFAAKNKGVPISGYFAWSLIDNFEWAYGYAKRFGIIYVDYQTQKRIPKSSAYYYQKRIKES 5nue-a2-m1-cC_5nue-a2-m2-cC Cytosolic Malate Dehydrogenase 1 (peroxide-treated) P93819 P93819 1.35 X-RAY DIFFRACTION 135 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 329 329 5nue-a1-m1-cB_5nue-a1-m1-cA 5nuf-a1-m1-cA_5nuf-a1-m2-cA 5nuf-a2-m1-cB_5nuf-a2-m1-cC MAKEPVRVLVTGAAGQIGYALVPMIARGIMLGADQPVILHMLDIPPAAEALNGVKELIDAAFPLLKGVVATTDAVEGCTGVNVAVMVGGFPRKEGMERKDVMSKNVSIYKSQAAALEKHAAPNCKVLVVANPANTNALILKEFAPSIPEKNISCLTRLDHNRALGQISERLSVPVSDVKNVIIWGNHSSSQYPDVNHAKVQTSSGEKPVRELVKDDAWLDGEFISTVQQRGAAIIKARKLSSALSAASSACDHIRDWVLGTPEGTFVSMGVYSDGSYSVPGLIYSFPVTCRNGDWSIVQGLPIDEVSRKKMDLTAEELKEEKDLAYSLS MAKEPVRVLVTGAAGQIGYALVPMIARGIMLGADQPVILHMLDIPPAAEALNGVKELIDAAFPLLKGVVATTDAVEGCTGVNVAVMVGGFPRKEGMERKDVMSKNVSIYKSQAAALEKHAAPNCKVLVVANPANTNALILKEFAPSIPEKNISCLTRLDHNRALGQISERLSVPVSDVKNVIIWGNHSSSQYPDVNHAKVQTSSGEKPVRELVKDDAWLDGEFISTVQQRGAAIIKARKLSSALSAASSACDHIRDWVLGTPEGTFVSMGVYSDGSYSVPGLIYSFPVTCRNGDWSIVQGLPIDEVSRKKMDLTAEELKEEKDLAYSLS 5nui-a1-m1-cA_5nui-a1-m1-cB Crystal structure of SIVmac239 Nef in an ExxxLM endocytic sorting motif bound state Q5QGG3 Q5QGG3 2.5 X-RAY DIFFRACTION 30 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 108 130 PLRTMSYKLAIDMSHFIKEKGGLEGIYYSARRHRILDIYLEKEEGIIPDWQDYTSGPGIRYPKTFGWLWKLVPVNVSWDDPWGEVLAWKFDPTLAYTYEAYVRYPEEF PKVPLRTMSYKLAIDMSHFIKEKGGLEGIYYSARRHRILDIYLEKEEGIIPDWQDYTSGPGIRYPKTFGWLWKLVPVNVSDEAQEDEEHYLMHPAQTSQWDDPWGEVLAWKFDPTLAYTYEAYVRYPEEF 5nv2-a1-m1-cA_5nv2-a1-m1-cB Human DNMT3B PWWP domain in complex with N-isopropyl-1,5-dimethylhexylamine (Metron S) Q9UBC3 Q9UBC3 2.029 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 133 133 5nrr-a1-m1-cA_5nrr-a1-m1-cB 5nrs-a1-m1-cA_5nrs-a1-m1-cB 5nrv-a1-m1-cA_5nrv-a1-m1-cD 5nv0-a1-m1-cA_5nv0-a1-m1-cB SEYQDGKEFGIGDLVWGKIKGFSWWPAMVVSWKATSKRQAMSGMRWVQWFGDGKFSEVSADKLVALGLFSQHFNLATFNKLVSYRKAMYHALEKARVRAGKTFPSSLEDQLKPMLEWAHGGFKPTGIEGLKPN SEYQDGKEFGIGDLVWGKIKGFSWWPAMVVSWKATSKRQAMSGMRWVQWFGDGKFSEVSADKLVALGLFSQHFNLATFNKLVSYRKAMYHALEKARVRAGKTFPSSLEDQLKPMLEWAHGGFKPTGIEGLKPN 5nv3-a1-m1-cO_5nv3-a1-m1-cP Structure of Rubisco from Rhodobacter sphaeroides in complex with CABP P27998 P27998 3.39 ELECTRON MICROSCOPY 16 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 129 129 5nv3-a1-m1-cI_5nv3-a1-m1-cJ 5nv3-a1-m1-cI_5nv3-a1-m1-cL 5nv3-a1-m1-cJ_5nv3-a1-m1-cK 5nv3-a1-m1-cK_5nv3-a1-m1-cL 5nv3-a1-m1-cM_5nv3-a1-m1-cN 5nv3-a1-m1-cM_5nv3-a1-m1-cP 5nv3-a1-m1-cN_5nv3-a1-m1-cO MRITQGCFSFLPDLTDEQISAQVDYCLGRGWAVSLEHTDDPHPRNTYWEMWGMPMFDLRDPKGVMIELDECRKAWPGRYIRINAFDSTRGFETVTMSFIVNRPEVEPSLRMERTEVDGRSIRYTHSIVR MRITQGCFSFLPDLTDEQISAQVDYCLGRGWAVSLEHTDDPHPRNTYWEMWGMPMFDLRDPKGVMIELDECRKAWPGRYIRINAFDSTRGFETVTMSFIVNRPEVEPSLRMERTEVDGRSIRYTHSIVR 5nvr-a2-m1-cA_5nvr-a2-m2-cA Crystal structure of the Rif1 N-terminal domain (RIF1-NTD) from Saccharomyces cerevisiae P29539 P29539 3.95 X-RAY DIFFRACTION 113 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 1050 1050 ETRVNPRALEYWVSGEIHGLVDNESVSEFKEIIEGGLGILRQESEDYVARRFEVYATFNNIIPILTTKNVNEVDQKFNILIVNIESIIEICIPHLQIAQDTLLSSSEKKNPFVIRLYVQIVRFFSAISNFKIVKWLTKRPDLVNKLKVIYRWTTGALRNENSNKIIITAQVSFLRDEKFGTFFLSNEEIKPIISTFTEIEINSHNLIYEKLLLIRGFLSKYPKLIETVTSWLPGEVLPRIIIGDEIYSKILITSIVVLLELLKKCLDFVDEHERIYQCILSPVCETIPEKFLSKLPLNSYDSANLDKVTIGHLLTQQIKNYIVVKNDNKIADLWLSTGLLYDSGKRVYDLTSESNKVWFDLNNLCFINNHPKTRLSIKVWRIITYCICTKISQKNQEGNKSLLSLLRTPFQTLPYVNDPSAREGIIYHLLGVVYTAFTSNKNLSTDFELFWDHLITPIYEDYVFKYDSIHLQNVLFTVLHLLIGGKNADVIHPSVIASEGVKLKDISSLPPQIIKREYDKIKVVFQAVEVAISNVNLAHDLILTSLKHLPEDRKDQTHLESFSSLILKVTQNNKDTPIFRDFFGAVTSSFVYTFLDLFLRKNDSSLVNFNIQISKVGISQGNTLDLLKDVIRKARNETSEFLIIEKFLELDDKKTEVYAQNWVGSTLLPPNISFREFQSLANIVNKVPNENSIENFLDLCLKLSFPVNLFTLLHVSWSNNNFIYFIQSYVSKNENKLNVDLITLLKTSLPGNPELFSGLLPFLRRNKFDILEYCIHSNPNLLNSIPDLNSDLLLKLLPRSRASYFAANIKLFKCSEQLTLVRWLLKGQQLEQLNQNFSEIENVLQNASDSELEKSEIIRELLHLAANPIEPLFSGLLNFCIKNNADHLDEFCGNTSEVLFKISPELLLKLLTYKEKPNGKLLAAVIEKIENGDDDYILELLEKIIIQKEIQILEKLKEPLLVFFLNPVSSNQKHKKSTNLRELVLLYLTKPLSRSAAKKFFSLISILPPNPNYQTIDVNLLIDLIKSHNATLKTIGKWIQESGVVHQGDS ETRVNPRALEYWVSGEIHGLVDNESVSEFKEIIEGGLGILRQESEDYVARRFEVYATFNNIIPILTTKNVNEVDQKFNILIVNIESIIEICIPHLQIAQDTLLSSSEKKNPFVIRLYVQIVRFFSAISNFKIVKWLTKRPDLVNKLKVIYRWTTGALRNENSNKIIITAQVSFLRDEKFGTFFLSNEEIKPIISTFTEIEINSHNLIYEKLLLIRGFLSKYPKLIETVTSWLPGEVLPRIIIGDEIYSKILITSIVVLLELLKKCLDFVDEHERIYQCILSPVCETIPEKFLSKLPLNSYDSANLDKVTIGHLLTQQIKNYIVVKNDNKIADLWLSTGLLYDSGKRVYDLTSESNKVWFDLNNLCFINNHPKTRLSIKVWRIITYCICTKISQKNQEGNKSLLSLLRTPFQTLPYVNDPSAREGIIYHLLGVVYTAFTSNKNLSTDFELFWDHLITPIYEDYVFKYDSIHLQNVLFTVLHLLIGGKNADVIHPSVIASEGVKLKDISSLPPQIIKREYDKIKVVFQAVEVAISNVNLAHDLILTSLKHLPEDRKDQTHLESFSSLILKVTQNNKDTPIFRDFFGAVTSSFVYTFLDLFLRKNDSSLVNFNIQISKVGISQGNTLDLLKDVIRKARNETSEFLIIEKFLELDDKKTEVYAQNWVGSTLLPPNISFREFQSLANIVNKVPNENSIENFLDLCLKLSFPVNLFTLLHVSWSNNNFIYFIQSYVSKNENKLNVDLITLLKTSLPGNPELFSGLLPFLRRNKFDILEYCIHSNPNLLNSIPDLNSDLLLKLLPRSRASYFAANIKLFKCSEQLTLVRWLLKGQQLEQLNQNFSEIENVLQNASDSELEKSEIIRELLHLAANPIEPLFSGLLNFCIKNNADHLDEFCGNTSEVLFKISPELLLKLLTYKEKPNGKLLAAVIEKIENGDDDYILELLEKIIIQKEIQILEKLKEPLLVFFLNPVSSNQKHKKSTNLRELVLLYLTKPLSRSAAKKFFSLISILPPNPNYQTIDVNLLIDLIKSHNATLKTIGKWIQESGVVHQGDS 5nw5-a1-m1-cA_5nw5-a1-m1-cB Crystal structure of the Rif1 N-terminal domain (RIF1-NTD) from Saccharomyces cerevisiae in complex with DNA P29539 P29539 6.502 X-RAY DIFFRACTION 64 0.999 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 1085 1085 ETRVNPRALEYWVSGEIHGLVDNESVSEFKEIIEGGLGILRQESEDYVARRFEVYATFNNIIPILTTKNVNEVDQKFNILIVNIESIIEICIPHLQIAQDTLLSSSEKKNPFVIRLYVQIVRFFSAIMSNFKIVKWLTKRPDLVNKLKVIYRWTTGALRNENSNKIIITAQVSFLRDEKFGTFFLSNEEIKPIISTFTEIMEINSHNLIYEKLLLIRGFLSKYPKLMIETVTSWLPGEVLPRIIIGDEIYSMKILITSIVVLLELLKKCLDFVDEHERIYQCIMLSPVCETIPEKFLSKLPLNSYDSANLDKVTIGHLLTQQIKNYIVVKNDNKIAMDLWLSMTGLLYDSGKRVYDLTSESNKVWFDLNNLCFINNHPKTRLMSIKVWRIITYCICTKISQKNQEGNKSLLSLLRTPFQMTLPYVNDPSAREGIIYHLLGVVYTAFTSNKNLSTDMFELFWDHLITPIYEDYVFKYDSIHLQNVLFTVLHLLIGGKNADVALERKHIHPMSVIASEGVKLKDISSLPPQIIKREYDKIMKVVFQAVEVAISNVNLAHDLILTSLKHLPEDRKDQTHLESFSSLILKVTQNNKDTPIFRDFFGAVTSSFVYTFLDLFLRKNDSSLVNFNIQISKVGISQGNMTLDLLKDVIRKARNETSEFLIIEKFLELDDKKTEVYAQNWVGSTLLPPNISFREFQSLANIVNKVPNENSIENFLDLCLKLSFPVNLFTLLHVSMWSNNNFIYFIQSYVSKNENKLNVDLITLLKTSLPGNPELFSGLLPFLRRNKFMDILEYCIHSNPNLLNSIPDLNSDLLLKLLPRSRASYFAANIKLFKCSEQLTLVRWLLKGQQLEQLNQNFSEIENVLQNASDSELEKSEIIRELLHLAMANPIEPLFSGLLNFCIKNNMADHLDEFCGNMTSEVLFKISPELLLKLLTYKEKPNGKLLAAVIEKIENGDDDYILELLEKIIIQKEIQILEKLKEPLLVFFLNPVSSNMQKHKKSTNMLRELVLLYLTKPLSRSAAKKFFSMLISILPPNPNYQTIDMVNLLIDLIKSHNRKFKDKRTYNATLKTIGKWIQESGVVHQ ETRVNPRALEYWVSGEIHGLVDNESVSEFKEIIEGGLGILRQESEDYVARRFEVYATFNNIIPILTTKNVNEVDQKFNILIVNIESIIEICIPHLQIAQDTLLSSSEKKNPFVIRLYVQIVRFFSAIMSNFKIVKWLTKRPDLVNKLKVIYRWTTGALRNENSNKIIITAQVSFLRDEKFGTFFLSNEEIKPIISTFTEIMEINSHNLIYEKLLLIRGFLSKYPKLMIETVTSWLPGEVLPRIIIGDEIYSMKILITSIVVLLELLKKCLDFVDEHERIYQCIMLSPVCETIPEKFLSKLPLNSYDSANLDKVTIGHLLTQQIKNYIVVKNDNKIAMDLWLSMTGLLYDSGKRVYDLTSESNKVWFDLNNLCFINNHPKTRLMSIKVWRIITYCICTKISQKNQEGNKSLLSLLRTPFQMTLPYVNDPSAREGIIYHLLGVVYTAFTSNKNLSTDMFELFWDHLITPIYEDYVFKYDSIHLQNVLFTVLHLLIGGKNADVALEKKHIHPMSVIASEGVKLKDISSLPPQIIKREYDKIMKVVFQAVEVAISNVNLAHDLILTSLKHLPEDRKDQTHLESFSSLILKVTQNNKDTPIFRDFFGAVTSSFVYTFLDLFLRKNDSSLVNFNIQISKVGISQGNMTLDLLKDVIRKARNETSEFLIIEKFLELDDKKTEVYAQNWVGSTLLPPNISFREFQSLANIVNKVPNENSIENFLDLCLKLSFPVNLFTLLHVSMWSNNNFIYFIQSYVSKNENKLNVDLITLLKTSLPGNPELFSGLLPFLRRNKFMDILEYCIHSNPNLLNSIPDLNSDLLLKLLPRSRASYFAANIKLFKCSEQLTLVRWLLKGQQLEQLNQNFSEIENVLQNASDSELEKSEIIRELLHLAMANPIEPLFSGLLNFCIKNNMADHLDEFCGNMTSEVLFKISPELLLKLLTYKEKPNGKLLAAVIEKIENGDDDYILELLEKIIIQKEIQILEKLKEPLLVFFLNPVSSNMQKHKKSTNMLRELVLLYLTKPLSRSAAKKFFSMLISILPPNPNYQTIDMVNLLIDLIKSHNRKFKDKRTYNATLKTIGKWIQESGVVHQ 5nx4-a1-m1-cB_5nx4-a1-m1-cA Crystal structure of Linalool/Nerolidol synthase from Streptomyces clavuligerus D5SL78 D5SL78 2.38 X-RAY DIFFRACTION 107 0.99 1901 (Streptomyces clavuligerus) 1901 (Streptomyces clavuligerus) 287 293 FEFAVPAPSRVSPDLARARARHLDWVHAMDLVYEFSCVADIGAYGYPHATGADLDLCVDVLGWTFLFDDQFDRDALAVCAELTDLLWKGTAATAASPPIVVAFSDCWERMRAGMSDAWRRRTVHEWVDYLAGWPTKLADRAHGAVLDPAAHLRARHRTICCRPLFALAERVGGYEVPRRAWHSSRLDGMRFTTSDAVIGMNELHSFEKDRAQGHANLVLSLVHHGGLTGPEAVTRVCDLVQGSIESFLRLRSGLPELGRALGVEGAVLDRYADALSAFCRGYHDWGR EFAVPPSRVSPDLARARARHLDWVHAMDLVRGEEARRRYEFSCVADIGAYGYPHATGADLDLCVDVLGWTFLFDDQFDERDALAVCAELTDLLWKGTAATAASPPIVVAFSDCWERMRAGMSDAWRRRTVHEWVDYLAGWPTKLADRAHGAVLDPAAHLRARHRTICCRPLFALAERVGGYEVPRRAWHSSRLDGMRFTTSDAVIGMNELHSFEKDRAQHANLVLSLVHHGGLTGPEAVTRVCDLVQGSIESFLRLRSGLPELGRALGVEGAVLDRYADALSAFCRGYHDWGR 5nx7-a1-m1-cB_5nx7-a1-m1-cA Crystal structure of 1,8-cineole synthase from Streptomyces clavuligerus in complex with 2-fluoroneryl diphosphate and 2-fluorogeranyl diphosphate B5GMG2 B5GMG2 1.51 X-RAY DIFFRACTION 68 0.997 307 308 5nx6-a1-m1-cA_5nx6-a1-m1-cB GHEEFDIPFPSRVNPFHARAEDRHVAWMRAMGLITGDAAEATYRRWSPAKVGARWFYLAQGEDLDLGCDIFGWFFAYDDHFDGTAAFVNRTVAMLDPRADPTGEHPLNIAFHDLWQRESAPMSPLWQRRAVDHWTQYLTAHITEATNRTPTIADYLELRHRTGFMPPLLDLIERVWRAEIPAPVYTTPEVQTLLHTTNQNINIVNDVLSLEKEEAHGDPHNLVLVIQHERQSTRQQALATARRMIDEWTDTFIRTEPRLPALCGRLGIPLADRTSLYTAVEGMRAAIRGNYDWCAETNRYVHRPTPW GHEEFDIPFPSRVNPFHARAEDRHVAWMRAMGLITGDAAEATYRRWSPAKVGARWFYLAQGEDLDLGCDIFGWFFAYDDHFDGTAAFVNRTVAMLDPRADPTGEHPLNIAFHDLWQRESAPMSPLWQRRAVDHWTQYLTAHITEATNRTRSPTIADYLELRHRTGFMPPLLDLIERVWRAEIPAPVYTTPEVQTLLHTTNQNINIVNDVLSLEKEEAHGDPHNLVLVIQHERQSTRQQALATARRMIDEWTDTFIRTEPRLPALCGRLGIPLADRTSLYTAVEGMRAAIRGNYDWCAETNRYVHRTPW 5nxb-a1-m1-cC_5nxb-a1-m1-cD Mouse galactocerebrosidase in complex with saposin A Q61207 Q61207 3.6 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 80 SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ 5nxs-a1-m1-cB_5nxs-a1-m1-cA Crystal Structure of Human Pro-myostatin Precursor at 4.2 A Resolution with Experimental Phases from SeMet labelling O14793 O14793 4.19 X-RAY DIFFRACTION 157 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 246 285 WRQNTKSSRIEAIKIQILSKLRLETAPNISKDVIRQLLPKAPPLRELIDQYDYHATTETIITPFSSKIQYNKVVKAQLWIYLRPVETPTTVFVQILRGIRSLKLDNPGTGIWQSIDVKTVLQNWLKQPESNLGIEIKALDENGHDLAVTFPGPGEDGLNPFLEVKVTDDCDEHSTESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGECECCTPTKSPINLYFNGKEQIIYGKIPAVVDRCGCS STWRQNTKSSRIEAIKIQILSKLRLETAPNISKDVIRQLLPKAPPLRELIDQYYHATTETIITPTESCCFFKFSSKIQYNKVVKAQLWIYLRPVETPTTVFVQILRLIKDGTRYTGIRSLKLDNPGTGIWQSIDVKTVLQNWLKQPESNLGIEIKALDEHDLAVTFPGPGEDGLNPFLEVKVTDTPKRSRRCDEHSTESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGECEFVFLQKYPHTHLVHQAPCCTPTKSPINLYFNGKEQIIYGKIPAVVDRCGCS 5ny0-a1-m1-cA_5ny0-a1-m2-cA L. reuters 100-23 SRRP A0A384E0N5 A0A384E0N5 2 X-RAY DIFFRACTION 84 1.0 349123 (Limosilactobacillus reuteri subsp. rodentium) 349123 (Limosilactobacillus reuteri subsp. rodentium) 343 343 EDIQADATAANASELKKALQDTSVHTIKLTDNITLTSAIELTNVSRDVTIYGNGKYINATDGNGGIFIHNTKSYTVNLTIEKATLYNQSQYGFVHMNDEGTDNITYKNITAYGGTLVWSQTHVGTKTLSLEGTVNFYSVPSYTVGGQTYSTDAFKIGDTTPAIYVSNEINIADNANIALENSATKIDIWMIADIGIHPHTTALTIGNNATLTMENGNNSALNIKLDGDTSNSFTVGEGSTVKLSAKVDNVRILPYEDSNTANVSFAKGSDVTLHAGTGSNLRMGASISNQIDFNGKATFIKDSEFDYYWNDQQKTGSTGVANFNPGSNVLFQAGPGASNVNTY EDIQADATAANASELKKALQDTSVHTIKLTDNITLTSAIELTNVSRDVTIYGNGKYINATDGNGGIFIHNTKSYTVNLTIEKATLYNQSQYGFVHMNDEGTDNITYKNITAYGGTLVWSQTHVGTKTLSLEGTVNFYSVPSYTVGGQTYSTDAFKIGDTTPAIYVSNEINIADNANIALENSATKIDIWMIADIGIHPHTTALTIGNNATLTMENGNNSALNIKLDGDTSNSFTVGEGSTVKLSAKVDNVRILPYEDSNTANVSFAKGSDVTLHAGTGSNLRMGASISNQIDFNGKATFIKDSEFDYYWNDQQKTGSTGVANFNPGSNVLFQAGPGASNVNTY 5nyo-a1-m1-cA_5nyo-a1-m1-cB Crystal structure of an atypical poplar thioredoxin-like2.1 variant in dimeric form I0BZV0 I0BZV0 2.25 X-RAY DIFFRACTION 35 1.0 47664 (Populus tremula x Populus tremuloides) 47664 (Populus tremula x Populus tremuloides) 118 119 PTSVEMEPIDDSHHLDKILLQARELSQPIIIDWMASWCRKSIYLKPKLEKLAAEYDTKIKFYSADVNKVPQALVKRGNISKMPTIQLWKDGEMKAEVIGGHKAWLVIEEVREMIQKFV RPTSVEMEPIDDSHHLDKILLQARELSQPIIIDWMASWCRKSIYLKPKLEKLAAEYDTKIKFYSADVNKVPQALVKRGNISKMPTIQLWKDGEMKAEVIGGHKAWLVIEEVREMIQKFV 5nyr-a2-m3-cB_5nyr-a2-m1-cA Anbu from Hyphomicrobium sp. strain MC1 -SG: R3 F8JB59 F8JB59 2 X-RAY DIFFRACTION 66 0.995 717785 (Hyphomicrobium sp. MC1) 717785 (Hyphomicrobium sp. MC1) 206 207 5nyf-a1-m1-cA_5nyf-a1-m2-cA 5nyp-a1-m1-cA_5nyp-a1-m2-cA 5nyq-a1-m1-cA_5nyq-a1-m2-cA 5nyr-a1-m1-cB_5nyr-a1-m2-cA TYAVAFRLERGLVFAADTKKLQLWRQPGERVFVLLSAGNLAATQAVVSLINEHLSQETDDEVTTLFTAPNMYRAARVVGDAVREARSINTNFIFGGQIKGERPRLFQIYPEGNFIEATDDTPFFQIGEHKYGKPILDRVARSDMRLGEAAKLMLLSFDSPIDLVIYERDTFDVTREKRISADDEYFRNLSNAWSDALRQAFSKIEE TYAVAFRLERGLVFAADTKKLQLWRQPGERVFVLLSAGNLAATQAVVSLINEHLSQETDDEVTTLFTAPNMYRAARVVGDAVREARSINTNFIFGGQIKGERPRLFQIYPEGNFIEATDDTPFFQIGEHKYGKPILDRVARSDMRLGEAAKLMLLSFDPIDLVIYERDTFDVTREKRISADDEYFRNLSNAWSDALRQAFSKIEEFD 5nz7-a1-m1-cB_5nz7-a1-m1-cA Clostridium thermocellum cellodextrin phosphorylase ligand free form Q93HT8 Q93HT8 2.3 X-RAY DIFFRACTION 315 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 978 984 MITKVTARNNKITPVELLNQKFGNKINLGNFADAVFTDAAFKNVAGIANLPMKAPVMQVLMENCIVSKYLKQFVPDRSVCFVEEGQKFYIVLEDGQKIEVPEDVNKALKATVSDVKHWAGYLTEDGEHVIDLLKPAPGPHFYVNLLIGNRLGFKRTLQTTPKSVVDRFGRGSFRSHAATQVLATRFDMRQEENGFPANRQFYLYEDGKQIFYSALIDDNIVEATCKHSCNRTVIKYKTACNLEITRTIFLVPHKKGFPLATELQRIEIKNASDKARNLSITYTGMFGTGAVHAIFEDVTYTNVIMQSAALYNDKGEFIGITPDYYPEEFKQDTRFVTMIVRNGDEKSFPQSFCTDYNDFVGTGTLEHPAGGCNLNNKLNRKGPGFFALGAPFTVEPGKTVIIDTFTGLSSSKDNENYSDAVMLRELDNLLRYFEKSESVEETLNEIINFHENYGKYFQFNTGNKLFDSGFNRNLAFQVLYQTFMSRSFGQTQKGYREIGFREIQDLFASMYYFINIGYQDFVKELLFEWTANVYKMGYANHNFYWVGKQPGLYSDDSLWLLQAYYRYIIYTKDTSVLNEEVPVADGNNEKRAVRETLKAIIQYSACISVGDHGLPLLDLADWNDCLKIASNSIDGATKEKLYYEQLKKTYGDRFMSDYSESVMNAFLLKLAIDHLAEIATLDNDTQLAQQMSELSKEVTDRIQKHAWKENFFARVLINRYKDGSYTYLGAKGDKLSADPNIDGVYFLNSFAWSVLSDVATDEQIAIMVDVIKKHLLTPYGLRLVTPADLNKITATGHYFFGDRENGAVFKHASMMAVAALIKAAKKVKDNELAKEMARIAYFMIDLVLPYKNLENPFQVAGNPRICTQYINTDTGENIGPLLSGTATWLNLNLISLAGIEYTRDGISFNPILREEETQLNFTLKAPKCSYKFSITKPVGFARMESSEYELFVDGQKIDNTVIPMYTDEKEHIVTLKFK MITKVTARNNKITPVELLNQKFGNKINLGNFADAVFTDAAFKNVAGIANLPMKAPVMQVLMENCIVSKYLKQFVPDRSVCFVEEGQKFYIVLEDGQKIEVPEDVNKALKATVSDVKHWAGYLTEDGEHVIDLLKPAPGPHFYVNLLIGNRLGFKRTLQTTPKSVVDRFGRGSFRSHAATQVLATRFDMRQEENGFPANRQFYLYEDGKQIFYSALIDDNIVEATCKHSCNRTVIKYKTACNLEITRTIFLVPHKKGFPLATELQRIEIKNASDKARNLSITYTGMFGTGAVHAIFEDVTYTNVIMQSAALYNDKGEFIGITPDYYPEEFKQDTRFVTMIVRNGDEKSFPQSFCTDYNDFVGTGTLEHPAGGCNLNNKLNRKGPGFFALGAPFTVEPGKTVIIDTFTGLSSSKDNENYSDAVMLRELDNLLRYFEKSESVEETLNEIINFHENYGKYFQFNTGNKLFDSGFNRNLAFQVLYQTFMSRSFGQTQKGYREIGFREIQDLFASMYYFINIGYQDFVKELLFEWTANVYKMGYANHNFYWVGKQPGLYSDDSLWLLQAYYRYIIYTKDTSVLNEEVPVADGNNEKRAVRETLKAIIQYSACISVGDHGLPLLDLADWNDCLKIASNSIDGATKEKLYYEQLKKTNGKYGDRFMSDYSESVMNAFLLKLAIDHLAEIATLDNDTQLAQQMSELSKEVTDRIQKHAWKENFFARVLINRYKDGSYTYLGAKGDKLSADPNIDGVYFLNSFAWSVLSDVATDEQIAIMVDVIKKHLLTPYGLRLVTPADLNKIANDTATGHYFFGDRENGAVFKHASMMAVAALIKAAKKVKDNELAKEMARIAYFMIDLVLPYKNLENPFQVAGNPRICTQYINTDTGENIGPLLSGTATWLNLNLISLAGIEYTRDGISFNPILREEETQLNFTLKAPKCSYKFSITKPVGFARMESSEYELFVDGQKIDNTVIPMYTDEKEHIVTLKFK 5nz8-a1-m1-cA_5nz8-a1-m1-cB Clostridium thermocellum cellodextrin phosphorylase with cellotetraose and phosphate bound Q93HT8 Q93HT8 3 X-RAY DIFFRACTION 315 0.998 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 884 974 MITKVTARNNKITPVELLNQKFGNKINLGNFADAVFTDAAFKNVAGIANLPMKAPVMQVLMENCIVSKYLKQFVPDRSVCFVEEGQKFYIVLEDGQKIEVPEDVNKALKATVSDVKHWAGYLTEDGEHVIDLLKPAPGPHFYVNLLIGNRLGFKRTLQTTPKSVVDRFGRGSFRSHAATQVLATRFDMRQEENGFPANRQFYLYEDGKQIFYSALIDDNIVEATCKHSCNRTVIKYKTACNLEITRTIFLVPHKKGFPLATELQRIEIKNASDKARNLSITYTGMFGTGAVHAIFEDVTYTNVIMQSAALYNDKGEFIGITPDYYPEEFKQDTRFVTMIVRNGDEKSFPQSFCTDYNDFVGTGTLEHPAGGCNLNNKLNRKGPGFFALGAPFTVEPGKTVIIDTFTGLSSSKDNENYSDAVMLRELDNLLRYFEKSESVEETLNEIINFHENYGKYFQFNTGNKLFDSGFNRNLAFQVLYQTFMSRSFGQTQKGYREIGFREIQDLFASMYYFINIGYQDFVKELLFEWTANANHNFYWVGKQPGLYSDDSLWLLQAYYRYIIYTKDTSVLDWNDCLKISVMNAFLLKLAIDHLAEIATLDQQMSELSKEVTDRIQKHAWKENFFARVLINRYYTYLGAKGDKLSADPNIDGVYFLNSFAWSVLSDVATDEQIAIMVDVIKKHLLTPYGLRLVTPADLNKIGHYFFGDRENGAVFKHASMMAVAALIKAAKKVKDNELAKEMARIAYFMIDLVLPYKNLENPFQVAGNPRICTQYINTDTGENIGPLLSGTATWLNLNLISLAGIEYTRDGISFNPILREEETQLNFTLKAPKCSYKFSITKPVGFARMESSEYELFVDGQKIDNTVIPMYTDEKEHIVTLKFK MITKVTARNNKITPVELLNQKFGNKINLGNFADAVFTDAAFKNVAGIANLPMKAPVMQVLMENCIVSKYLKQFVPDRSVCFVEEGQKFYIVLEDGQKIEVPEDVNKALKATVSDVKHWAGYLTEDGEHVIDLLKPAPGPHFYVNLLIGNRLGFKRTLQTTPKSVVDRFGRGSFRSHAATQVLATRFDMRQEENGFPANRQFYLYEDGKQIFYSALIDDNIVEATCKHSCNRTVIKYKTACNLEITRTIFLVPHKKGFPLATELQRIEIKNASDKARNLSITYTGMFGTGAVHAIFEDVTYTNVIMQSAALYNDKGEFIGITPDYYPEEFKQDTRFVTMIVRNGDEKSFPQSFCTDYNDFVGTGTLEHPAGGCNLNNKLNRKGPGFFALGAPFTVEPGKTVIIDTFTGLSSSKDNENYSDAVMLRELDNLLRYFEKSESVEETLNEIINFHENYGKYFQFNTGNKLFDSGFNRNLAFQVLYQTFMSRSFGQTQKGYREIGFREIQDLFASMYYFINIGYQDFVKELLFEWTANVYKMGYANHNFYWVGKQPGLYSDDSLWLLQAYYRYIIYTKDTSVLNEEVPVADGNNEKRAVRETLKAIIQYSACISVGDHGLPLLDLADWNDCLKIASNSIDGATKEKLYYEQLKYGDRFMSDYSESVMNAFLLKLAIDHLAEIATLDNDTQLAQQMSELSKEVTDRIQKHAWKENFFARVLINRYKDGSYTYLGAKGDKLSADPNIDGVYFLNSFAWSVLSDVATDEQIAIMVDVIKKHLLTPYGLRLVTPADLNTATGHYFFGDRENGAVFKHASMMAVAALIKAAKKVKDNELAKEMARIAYFMIDLVLPYKNLENPFQVAGNPRICTQYINTDTGENIGPLLSGTATWLNLNLISLAGIEYTRDGISFNPILREEETQLNFTLKAPKCSYKFSITKPVGFARMESSEYELFVDGQKIDNTVIPMYTDEKEHIVTLKFK 5nzo-a1-m1-cA_5nzo-a1-m1-cB Crystal structure of human 3-phosphoglycerate dehydrogenase in complex with 1-methyl-3-phenyl-1H-pyrazol-5-amine O43175 O43175 1.29 X-RAY DIFFRACTION 173 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 195 2g76-a1-m1-cB_2g76-a1-m1-cA 5n53-a1-m1-cA_5n53-a1-m1-cB 5n6c-a1-m1-cB_5n6c-a1-m1-cA 5nzp-a1-m1-cA_5nzp-a1-m1-cB 5nzq-a1-m1-cA_5nzq-a1-m1-cB 5ofm-a1-m1-cA_5ofm-a1-m1-cB 5ofv-a1-m1-cA_5ofv-a1-m1-cB 5ofw-a1-m1-cA_5ofw-a1-m1-cB 6cwa-a1-m1-cB_6cwa-a1-m1-cA 6plf-a1-m1-cB_6plf-a1-m1-cA 6plg-a1-m1-cE_6plg-a1-m1-cA 6plg-a2-m1-cF_6plg-a2-m1-cB 6plg-a3-m1-cG_6plg-a3-m1-cC 6plg-a4-m1-cD_6plg-a4-m1-cH 6rih-a1-m1-cB_6rih-a1-m1-cA 6rj2-a1-m1-cA_6rj2-a1-m1-cB 6rj3-a1-m1-cA_6rj3-a1-m1-cB 6rj5-a1-m1-cA_6rj5-a1-m1-cB 6rj6-a1-m1-cA_6rj6-a1-m1-cB 7dkm-a1-m1-cA_7dkm-a1-m1-cB 7ewh-a1-m1-cA_7ewh-a1-m1-cB NGNSLSAAELTCGMIMCLARQIPQATASMKDGKWERKKFMGTELNGKTLGILGLGRIGREVATRMQSFGMKTIGYDPIISPEVSASFGVQQLPLEEIWPLCDFITVHTPLLPSTTGLLNDNTFAQCKKGVRVVNCARGGIVDEGALLRALQSGQCAGAALDVFTEEPPRDRALVDHENVISCPHLGASTKEAQSR NGNSLSAAELTCGMIMCLARQIPQATASMKDGKWERKKFMGTELNGKTLGILGLGRIGREVATRMQSFGMKTIGYDPIISPEVSASFGVQQLPLEEIWPLCDFITVHTPLLPSTTGLLNDNTFAQCKKGVRVVNCARGGIVDEGALLRALQSGQCAGAALDVFTEEPPRDRALVDHENVISCPHLGASTKEAQSR 5o09-a1-m1-c5A_5o09-a1-m1-c8A BtubABC mini microtubule Q8GCC5 Q8GCC5 3.6 ELECTRON MICROSCOPY 14 1.0 48465 (Prosthecobacter dejongeii) 48465 (Prosthecobacter dejongeii) 433 433 5o09-a1-m1-c1A_5o09-a1-m1-c2A 5o09-a1-m1-c1A_5o09-a1-m1-c4A 5o09-a1-m1-c2A_5o09-a1-m1-c3A 5o09-a1-m1-c5A_5o09-a1-m1-c6A 5o09-a1-m1-c6A_5o09-a1-m1-c7A VNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPQVSSVVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEITLRELLTNLVPQPSLHFLMCAFAPLTPPDRSKFEELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTYWIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEESGA VNNTIVVSIGQAGNQIAASFWKTVCLEHGIDPLTGQTAPGVAPRGNWSSFFSKLGESSSGSYVPRAIMVDLEPSVIDNVKATSGSLFNPANLISRTEGAGGNFAVGYLGAGREVLPEVMSRLDYEIDKCDNVGGIIVLHAIGGGTGSGFGALLIESLKEKYGEIPVLSCAVLPSPQVSSVVTEPYNTVFALNTLRRSADACLIFDNEALFDLAHRKWNIESPTVDDLNLLITEALAGITASMRFSGFLTVEITLRELLTNLVPQPSLHFLMCAFAPLTPPDRSKFEELGIEEMIKSLFDNGSVFAACSPMEGRFLSTAVLYRGIMEDKPLADAALAAMREKLPLTYWIPTAFKIGYVEQPGISHRKSMVLLANNTEIARVLDRICHNFDKLWQRKAFANWYLNEGMSEEQINVLRASAQELVQSYQVAEESGA 5o10-a1-m1-cA_5o10-a1-m1-cB Y48H mutant of human cytochrome c P99999 P99999 1.36 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 GDVEKGKKIFIMKCSQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGYSHTAANKNKGIIWGEDTLMEYLENPKKYIPGTKMIFVGIKKKEERADLIAYLKKATNE GDVEKGKKIFIMKCSQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGYSHTAANKNKGIIWGEDTLMEYLENPKKYIPGTKMIFVGIKKKEERADLIAYLKKATNE 5o19-a1-m1-cA_5o19-a1-m2-cA Japanese encephalitis virus non-structural protein 1 C-terminal domain P27395 P27395 2.1 X-RAY DIFFRACTION 59 1.0 11073 (Japanese encephalitis virus strain SA-14) 11073 (Japanese encephalitis virus strain SA-14) 176 176 5o36-a1-m1-cA_5o36-a1-m2-cA DECDGAIIGTAVKGHVAVHSDLSYWIESRYNDTWKLERAVFGEVKSCTWPETHTLWGDDVEESELIIPHTIAGPKSKHNRREGYKTQNQGPWDENGIVLDFDYCPGTKVTITEDCSKRGPSVRTTTDSGKLITDWCCRSCSLPPLRFRTENGCWYGMEIRPVMHDETTLVRSQVDA DECDGAIIGTAVKGHVAVHSDLSYWIESRYNDTWKLERAVFGEVKSCTWPETHTLWGDDVEESELIIPHTIAGPKSKHNRREGYKTQNQGPWDENGIVLDFDYCPGTKVTITEDCSKRGPSVRTTTDSGKLITDWCCRSCSLPPLRFRTENGCWYGMEIRPVMHDETTLVRSQVDA 5o1p-a1-m1-cA_5o1p-a1-m2-cA Crystal structure of human aminoadipate semialdehyde synthase, saccharopine dehydrogenase. Q9UDR5 Q9UDR5 1.9 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 5l78-a1-m1-cB_5l78-a1-m1-cA 5o1n-a1-m1-cA_5o1n-a1-m2-cA 5o1o-a1-m1-cB_5o1o-a1-m1-cA RKVLVLGSGYISEPVLEYLSRDGNIEITVGSDMKNQIEQLGKKYNINPVSMDICKQEEKLGFLVAKQDLVISLLPYVLHPLVAKACITNKVNMVTASYITPALKELEKSVEDAGITIIGELGLDPGLDHMLAMESIDKAKEVGATIESYISYCGGLPAPEHSNNPLRYKFSWSPVGVLMNVMQSATYLLDGKVVNVAGGISFLDAVTSMDFFPGLNLEGYPNRDSTKYAEIYGISSAHTLLRGTLRYKGYMKALNGFVKLGLINREALPAANPLTWKQLLCDLVGISPSSEHDVLKEAVLKKLGGDNTQLEAAEWLGLLGDEQVPQAESILDALSKHLVMKLSYGPEEKDMIVMRDSFGIRHPSGHLEHKTIDLVAYGDINGFSAMAKTVGLPTAMAAKMLLDGEIGAKGLMGPFSKEIYGPILERIKAEGIIYTTQSTIKP RKVLVLGSGYISEPVLEYLSRDGNIEITVGSDMKNQIEQLGKKYNINPVSMDICKQEEKLGFLVAKQDLVISLLPYVLHPLVAKACITNKVNMVTASYITPALKELEKSVEDAGITIIGELGLDPGLDHMLAMESIDKAKEVGATIESYISYCGGLPAPEHSNNPLRYKFSWSPVGVLMNVMQSATYLLDGKVVNVAGGISFLDAVTSMDFFPGLNLEGYPNRDSTKYAEIYGISSAHTLLRGTLRYKGYMKALNGFVKLGLINREALPAANPLTWKQLLCDLVGISPSSEHDVLKEAVLKKLGGDNTQLEAAEWLGLLGDEQVPQAESILDALSKHLVMKLSYGPEEKDMIVMRDSFGIRHPSGHLEHKTIDLVAYGDINGFSAMAKTVGLPTAMAAKMLLDGEIGAKGLMGPFSKEIYGPILERIKAEGIIYTTQSTIKP 5o1u-a1-m1-cA_5o1u-a1-m1-cB Structure of wildtype T.maritima PDE (TM1595) with AMP and Mn2+ Q9X1T1 Q9X1T1 1.9 X-RAY DIFFRACTION 100 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 319 321 5o25-a1-m1-cA_5o25-a1-m1-cB 5o4z-a1-m1-cA_5o4z-a1-m2-cA 5o70-a1-m1-cA_5o70-a1-m2-cA 5o7f-a1-m1-cB_5o7f-a1-m1-cA SGMDEIVKVLSQHDRILVVGHIMPDGDCVSSVLSLTLGLEKLGKEVKAAVDYKIPYVFEKFPYIDKIEENPNFDPELLVVVDASSPDRIGKFQDLLDKVPSVVIDHHSTNTNFGNWNWVDPSFAATAQMIFRINKALGVEYDSNLATLNYLGIATDTGFFRHSNADVRVFEDAYKLVKMGADAHFVAKEILENKRFEQFKLFAEVLERLQLLENGKIAYSYIDYDTYLRHNCTDEDSAGFVGELRSIRGVEVAVLFMEFPRGKIHVSMRSKDWFNVNEVAFELGGGGHPRAAGVTFEGKKIEEVIPRVINHLLKKFKEG SGMDEIVKVLSQHDRILVVGHIMPDGDCVSSVLSLTLGLEKLGKEVKAAVDYKIPYVFEKFPYIDKIEENPNFDPELLVVVDASSPDRIGKFQDLLDKVPSVVIDHHSTNTNFGNWNWVDPSFAATAQMIFRINKALGVEYDSNLATLNYLGIATDTGFFRHSNADVRVFEDAYKLVKMGADAHFVAKEILENKRFEQFKLFAEVLERLQLLENGKIAYSYIDYDTYLRHNCTDEDSAGFVGELRSIRGVEVAVLFMEFPRGKIHVSMRSKDWFNVNEVAFELGGGGHPRAAGVTFEGKKIEEVIPRVINHLLKKFKEGVE 5o1v-a1-m1-cB_5o1v-a1-m1-cA Crystal structure of WNK3 kinase domain in a monophosphorylated apo state (A-loop swapped) Q9BYP7 Q9BYP7 1.723 X-RAY DIFFRACTION 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 278 EMKAVATSPSGRFLKFDIELGRGAFKTVYKGLDTETWVEVAWCELQDRKLTKAEQQRFKEEAEMLKGLQHPNIVRFYDSWESILKGKKCIVLVTELMTSGTLKTYLKRFKVMKPKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLMRTGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTSGIKPASFNKVTDPEVKEIIEGCIRQNKSERLSIRDLLNHAFFAEDTG EMKAVATSPSGRFLKFDIELGRGAFKTVYKGLDTETWVEVAWCELQDRKLTKAEQQRFKEEAEMLKGLQHPNIVRFYDSWESILKGKKCIVLVTELMTSGTLKTYLKRFKVMKPKVLRSWCRQILKGLQFLHTRTPPIIHRDLKCDNIFITGPTGSVKIGDLGLATLMRTFAKSVIGTPEFMAPEMYEEHYDESVDVYAFGMCMLEMATSEYPYSECQNAAQIYRKVTSGIKPASFNKVTDPEVKEIIEGCIRQNKSERLSIRDLLNHAFFAEDTGLR 5o2a-a2-m1-cC_5o2a-a2-m1-cD FolD Q98H P24186 P24186 1.9 X-RAY DIFFRACTION 92 0.996 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 285 1b0a-a1-m1-cA_1b0a-a1-m2-cA 5o22-a1-m1-cB_5o22-a1-m1-cA 5o22-a2-m1-cD_5o22-a2-m1-cC 5o28-a1-m1-cA_5o28-a1-m1-cB 5o28-a2-m1-cC_5o28-a2-m1-cD 5o2a-a1-m1-cA_5o2a-a1-m1-cB AAIIDGKTIAQQVRSEVAQKVQARIAAGLRAPGLAVVLVGSNPASQIYVASKRKACEEVGFVSRSYDLPETTSEAELLELIDTLNADNTIDGILVHLPLPAGIDNVKVLERIHPDKDVDGFHPYNVGRLCQRAPRLRPCTPRGIVTLLERYNIDTFGLNAVVIGASNIVGRPMSMELLLAGCTTTVTHRFTKNLRHHVENADLLIVAVGKPGFIPGDWIKEGAIVIDVGINRLENGKVVGDVVFEDAAKRASYITPVPGGVGPMTVATLIENTLQACVEYHDP GAAKIIDGKTIAQQVRSEVAQKVQARIAAGLRAPGLAVVLVGSNPASQIYVASKRKACEEVGFVSRSYDLPETTSEAELLELIDTLNADNTIDGILVHLPLPAGIDNVKVLERIHPDKDVDGFHPYNVGRLCQRAPRLRPCTPRGIVTLLERYNIDTFGLNAVVIGASNIVGRPMSMELLLAGCTTTVTHRFTKNLRHHVENADLLIVAVGKPGFIPGDWIKEGAIVIDVGINRLENGKVVGDVVFEDAAKRASYITPVPGGVGPMTVATLIENTLQACVEYHDP 5o34-a1-m1-cC_5o34-a1-m1-cB ThnE from S.clavuligerus Q83XP9 Q83XP9 2.45 X-RAY DIFFRACTION 58 1.0 29303 (Streptantibioticus cattleyicolor) 29303 (Streptantibioticus cattleyicolor) 196 203 5o34-a1-m1-cB_5o34-a1-m1-cA 5o34-a1-m1-cC_5o34-a1-m1-cA IECSRLGDGIALAEFSRARMRELTALMRELDADEKVRCVVLYGGAGRSFWIDDITDLYTTVAAISKPVIAAIDGYAIGVGLQISLCCDYRLGSEQARLVMPEFRVGIACNFGGFMLEAAAGRTVMQRMLLTCDEWPAERALADGLLHETVASPRLLDRALELARTISGYTAEAVQSTRPRVNAPFVAGLERIRREA IECSRLGDGIALAEFSRARMRELTALMRELDADEKVRCVVLYGGAGRSFVNAWIDDITDLYTTVAAISKPVIAAIDGYAIGVGLQISLCCDYRLGSEQARLVMPEFRVGIACNFGGFMLEAAAGRTVMQRMLLTCDEWPAERALADGLLHETVASPRLLDRALELARTISGYTAEAVQSTRPRVNAPFVAGLERIRREAKESH 5o3m-a1-m1-cF_5o3m-a1-m1-cC Crystal structure of apo Klebsiella pneumoniae 3,4-dihydroxybenzoic acid decarboxylase (AroY) A6T7M3 A6T7M3 2.23 X-RAY DIFFRACTION 278 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 488 489 5o3m-a1-m1-cB_5o3m-a1-m1-cA 5o3m-a1-m1-cD_5o3m-a1-m1-cE IQDLRDAIALLQQHDNQYLETDHPVDPNAELAGVYRHIGAGGTVKRPTRIGPAMMFNNIKGYPHSRILVGMHASRQRAALLLGCEASQLALEVGKAVKKPVAPVVVPASSAPCQEQIFLADDPDFDLRTLLPAPTNTPIDAGPFFCLGLALASDPVDASLTDVTIHRLCVQGRDELSMFLAAGRHIEVFRQKAEAAGKPLPITINMGLDPAIYIGACFEAPTTPFGYNELGVAGALRQRPVELVQGVSVPEKAIARAEIVIEGELLPGVRVREDQHTNSGHAMPEFPGYCGGANPSLPVIKVKAVTMRNNAILQTLVGPGEEHTTLAGLPTEASIWNAVEAAIPGFLQNVYAHTAGGGKFLGILQVKKRQPADEGRQGQAALLALATYSELKNIILVDEDVDIFDSDDILWAMTTRMQGDVSITTIPGIRGHQLDPSQTPEYSPSIRGNGISCKTIFDCTVPWALKSHFERAPFADVDPRPFAPEYFA PIQDLRDAIALLQQHDNQYLETDHPVDPNAELAGVYRHIGAGGTVKRPTRIGPAMMFNNIKGYPHSRILVGMHASRQRAALLLGCEASQLALEVGKAVKKPVAPVVVPASSAPCQEQIFLADDPDFDLRTLLPAPTNTPIDAGPFFCLGLALASDPVDASLTDVTIHRLCVQGRDELSMFLAAGRHIEVFRQKAEAAGKPLPITINMGLDPAIYIGACFEAPTTPFGYNELGVAGALRQRPVELVQGVSVPEKAIARAEIVIEGELLPGVRVREDQHTNSGHAMPEFPGYCGGANPSLPVIKVKAVTMRNNAILQTLVGPGEEHTTLAGLPTEASIWNAVEAAIPGFLQNVYAHTAGGGKFLGILQVKKRQPADEGRQGQAALLALATYSELKNIILVDEDVDIFDSDDILWAMTTRMQGDVSITTIPGIRGHQLDPSQTPEYSPSIRGNGISCKTIFDCTVPWALKSHFERAPFADVDPRPFAPEYFA 5o3m-a1-m1-cF_5o3m-a1-m1-cD Crystal structure of apo Klebsiella pneumoniae 3,4-dihydroxybenzoic acid decarboxylase (AroY) A6T7M3 A6T7M3 2.23 X-RAY DIFFRACTION 72 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 488 491 5o3m-a1-m1-cB_5o3m-a1-m1-cE 5o3m-a1-m1-cC_5o3m-a1-m1-cA IQDLRDAIALLQQHDNQYLETDHPVDPNAELAGVYRHIGAGGTVKRPTRIGPAMMFNNIKGYPHSRILVGMHASRQRAALLLGCEASQLALEVGKAVKKPVAPVVVPASSAPCQEQIFLADDPDFDLRTLLPAPTNTPIDAGPFFCLGLALASDPVDASLTDVTIHRLCVQGRDELSMFLAAGRHIEVFRQKAEAAGKPLPITINMGLDPAIYIGACFEAPTTPFGYNELGVAGALRQRPVELVQGVSVPEKAIARAEIVIEGELLPGVRVREDQHTNSGHAMPEFPGYCGGANPSLPVIKVKAVTMRNNAILQTLVGPGEEHTTLAGLPTEASIWNAVEAAIPGFLQNVYAHTAGGGKFLGILQVKKRQPADEGRQGQAALLALATYSELKNIILVDEDVDIFDSDDILWAMTTRMQGDVSITTIPGIRGHQLDPSQTPEYSPSIRGNGISCKTIFDCTVPWALKSHFERAPFADVDPRPFAPEYFA PIQDLRDAIALLQQHDNQYLETDHPVDPNAELAGVYRHIGAGGTVKRPTRIGPAMMFNNIKGYPHSRILVGMHASRQRAALLLGCEASQLALEVGKAVKKPVAPVVVPASSAPCQEQIFLADDPDFDLRTLLPAPTNTPIDAGPFFCLGLALASDPVDASLTDVTIHRLCVQGRDELSMFLAAGRHIEVFRQKAEAAGKPLPITINMGLDPAIYIGACFEAPTTPFGYNELGVAGALRQRPVELVQGVSVPEKAIARAEIVIEGELLPGVRVREDQHTNSGHAMPEFPGYCGGANPSLPVIKVKAVTMRNNAILQTLVGPGEEHTTLAGLPTEASIWNAVEAAIPGFLQNVYAHTAGGGKFLGILQVKKRQPADEGRQGQAALLALATYSELKNIILVDEDVDIFDSDDILWAMTTRMQGDVSITTIPGIRGHQLDPSQTPEYSPSIRGNGISCKTIFDCTVPWALKSHFERAPFADVDPRPFAPEYFARL 5o3v-a1-m1-cA_5o3v-a1-m1-cB Structural characterization of the fast and promiscuous macrocyclase from plant - PCY1-S562A bound to Presegetalin B1 R4P353 R4P353 2.17 X-RAY DIFFRACTION 39 1.0 39387 (Gypsophila vaccaria) 39387 (Gypsophila vaccaria) 716 716 5o3x-a1-m1-cB_5o3x-a1-m1-cA SGFSKPLHYPPVRRDETVVDDYFGVKVADPYRWLEDPNSEETKEFVDNQEKLANSVLEECELIDKFKQKIIDFVNFPRCGVPFRRANKYFHFYNSGLQAQNVFQMQDDLDGKPEVLYDPNLREGGRSGLSLYSVSEDAKYFAFGIHSGLTEWVTIKILKTEDRSYLPDTLEWVKFSPAIWTHDNKGFFYCPYPPLKEGEDHMTRSAVNQEARYHFLGTDQSEDILLWRDLENPAHHLKCQITDDGKYFLLYILDGCDDANKVYCLDLTKLPNGLESFSAPFMKLIDSFDASYTAIANDGSVFTFQTNKDAPRKKLVRVDLNNPSVWTDLVPESKKDLLESAHAVNENQLILRYLSDVKHVLEIRDLESGALQHRLPIDIGSVDGITARRRDSVVFFKFTSILTPGIVYQCDLKNDPTQLKIFRESVVPDFDRSEFEVKQVFVPSKDGTKIPIFIAARKGISLDGSHPCEMHGYGGFGINMMPTFSASRIVFLKHLGGVFCLANIRGGGEYGEEWHKAGFRDKKQNVFDDFISAAEYLISSGYTKARRVAIEGGANGGLLVAACINQRPDLFGCAEANCGVMDMLRFHKFTLGYLWTGDYGCSDKEEEFKWLIKYSPIHNVRRPWEQPGNEETQYPATMILTADHDDRVVPLHSFKLLATMQHVLCTSLEDSPQKNPIIARIQRKAAHYGRATMTQIAEVADRYGFMAKALEAPWID SGFSKPLHYPPVRRDETVVDDYFGVKVADPYRWLEDPNSEETKEFVDNQEKLANSVLEECELIDKFKQKIIDFVNFPRCGVPFRRANKYFHFYNSGLQAQNVFQMQDDLDGKPEVLYDPNLREGGRSGLSLYSVSEDAKYFAFGIHSGLTEWVTIKILKTEDRSYLPDTLEWVKFSPAIWTHDNKGFFYCPYPPLKEGEDHMTRSAVNQEARYHFLGTDQSEDILLWRDLENPAHHLKCQITDDGKYFLLYILDGCDDANKVYCLDLTKLPNGLESFSAPFMKLIDSFDASYTAIANDGSVFTFQTNKDAPRKKLVRVDLNNPSVWTDLVPESKKDLLESAHAVNENQLILRYLSDVKHVLEIRDLESGALQHRLPIDIGSVDGITARRRDSVVFFKFTSILTPGIVYQCDLKNDPTQLKIFRESVVPDFDRSEFEVKQVFVPSKDGTKIPIFIAARKGISLDGSHPCEMHGYGGFGINMMPTFSASRIVFLKHLGGVFCLANIRGGGEYGEEWHKAGFRDKKQNVFDDFISAAEYLISSGYTKARRVAIEGGANGGLLVAACINQRPDLFGCAEANCGVMDMLRFHKFTLGYLWTGDYGCSDKEEEFKWLIKYSPIHNVRRPWEQPGNEETQYPATMILTADHDDRVVPLHSFKLLATMQHVLCTSLEDSPQKNPIIARIQRKAAHYGRATMTQIAEVADRYGFMAKALEAPWID 5o5c-a1-m1-cA_5o5c-a1-m1-cB The crystal structure of DfoJ, the desferrioxamine biosynthetic pathway lysine decarboxylase from the fire blight disease pathogen Erwinia amylovora D4I245 D4I245 2.1 X-RAY DIFFRACTION 438 1.0 665029 (Erwinia amylovora CFBP1430) 665029 (Erwinia amylovora CFBP1430) 464 468 5o5c-a2-m1-cC_5o5c-a2-m1-cD 5o5c-a3-m1-cE_5o5c-a3-m2-cF HDFIFNDHQLSAWARQTEQVLALMTETVKGVEKPFSGILPHELAREFSGVDLDQGSNEAALEELKKLYLRDAVWFHHPKYVAHLNCPVVLPSLLAEQIMAAVNSSVDTWDQSAGGTLIEQKVIDWTLSRIGLPAGADGIFTSGGTQSNLMAMLLARDSWCAAHHPGHLIKHRGLPHDAAKWRVFTSKLSHFSIQKSMAILGLGYDAVIPVDYDERYRMDVDCLKQEVQRCLQQGLIPVAVVATSGTTDFGSIDPLGAISELCKHHGMWMHVDAAYGCGLLVSESHRPRLAGIEKADSVTVDYHKSFFQTVSCGAFFVRDKHHLSHVTTPNLVNKSIQTTRRFDALKMWLTLRVSGPMALGNAFDDILALTQIAHQLLNAHPAIEVLHVPELTTQIFRYVPLTDEINTNIRKAVFRSGNAVIAGTKVNGRQYLKFTLLNPNTTAADIEDVIALIVHYGREQVRGP PHDFIFNDHQLSAWARQTEQVLALMTETVKGVEKPFSGILPHELAREFSGVDLDQGSNEAALEELKKLYLRDAVWFHHPKYVAHLNCPVVLPSLLAEQIMAAVNSSVDTWDQSAGGTLIEQKVIDWTLSRIGLPAGADGIFTSGGTQSNLMAMLLARDSWCAAHHPGHLIKHRGLPHDAAKWRVFTSKLSHFSIQKSMAILGLGYDAVIPVDYDERYRMDVDCLKQEVQRCLQQGLIPVAVVATSGTTDFGSIDPLGAISELCKHHGMWMHVDAAYGCGLLVSESHRPRLAGIEKADSVTVDYHKSFFQTVSCGAFFVRDKHHLSHVTGTPNLVNKSIQTTRRFDALKMWLTLRVSGPMALGNAFDDILALTQIAHQLLNAHPAIEVLHVPELTTQIFRYVPDALTDEINTNIRKAVFRSGNAVIAGTKVNGRQYLKFTLLNPNTTAADIEDVIALIVHYGREQVRGP 5o6b-a1-m1-cB_5o6b-a1-m1-cA Structure of ScPif1 in complex with GGGTTTT and ADP-AlF4 P07271 P07271 2.029 X-RAY DIFFRACTION 75 0.992 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 507 528 LSKEQESIIKLAENGHNIFYTGSAGTGKSILLREMIKVLKGIYGRENVAVTASTGLAACNIGGITIHSFAGIGLGKGDADKLYKKVRRSRKHLRRWENIGALVVDEISMLDAELLDKLDFIARKIRKNHQPFGGIQLIFCGDFFQLPPVSKDPNRPTKFAFESKAWKEGVKMTIMLQKVFRQRGDVKFIDMLNRMRLGNIDDETEREFKKLSRPLPDDEIIPAELYSTRMEVERANNSRLSKLPGQVHIFNAIDGGALEDEELKERLLQNFLAPKELHLKVGAQVMMVKNLDATLVNGSLGKVIEFMDPETYFCYEALTNDPSMPPEKLETWAENPSKLKAAMEREQSAVASRKSSVKEGFAKPVSPLDSSVFDFMKRIKRKEQLMQTIHQNSAGKRRLPLVRFKASDMSTRMVLVEPEDWAIEDENEKPLVSRVQLPLMLAWSLSIHKSQGQTLPKVKVDLRRVFEKGQAYVALSRAVSREGLQVLNFDRTRIKAHQKVIDFYLTL GLSKEQESIIKLAENGHNIFYTGSAGTGKSILLREMIKVLKGIYGRENVAVTASTGLAACNIGGITIHSFAGIGLGKGDADKLYKKVRRSRKHLRRWENIGALVVDEISMLDAELLDKLDFIARKIRKNHQPFGGIQLIFCGDFFQLPPVSKPTKFAFESKAWKEGVKMTIMLQKVFRQRGDVKFIDMLNRMRLGNIDDETEREFKKLSRPLPDDEIIPAELYSTRMEVERANNSRLSKLPGQVHIFNAIDGGALEDEELKERLLQNFLAPKELHLKVGAQVMMVKNLDATLVNGSLGKVIEFMDPETYFCYEALTNDPSMPPEKLETWAENPSKLKAAMEREQSAVASRKSSVKEGFAKSDIGEPVSPLDSSVFDFMKRVVLENIKRKEQLMQTIHQNSAGKRRLPLVRFKASDMSTRMVLVEPEDWAIEDENEKPLVSRVQLPLMLAWSLSIHKSQGQTLPKVKVDLRRVFEKGQAYVALSRAVSREGLQVLNFDRTRIKAHQKVIDFYLTLSSAESAYKQLEADE 5o6s-a2-m1-cC_5o6s-a2-m1-cD UbV.B4R, a dimeric ubiquitin variant binding to BIRC4 RING 2.9 X-RAY DIFFRACTION 144 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 5o6s-a1-m1-cA_5o6s-a1-m1-cB 5o6s-a3-m1-cF_5o6s-a3-m1-cE SMQILVTTISAETIRLEVEPSDTIENVKAKIQDKEGIPPDQQRLFFEGKQLEDGRTLSDYNINKKSTLLLVVKFH GSMQILVTTISAETIRLEVEPSDTIENVKAKIQDKEGIPPDQQRLFFEGKQLEDGRTLSDYNINKKSTLLLVVKF 5o6t-a2-m1-cD_5o6t-a2-m1-cC BIRC4 RING in complex with dimeric ubiquitin variant P0CG47 P0CG47 1.57 X-RAY DIFFRACTION 146 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 75 SMQILVTTISAETIRLEVEPSDTIENVKAKIQDKEGIPPDQQRLFFEGKQLEDGRTLSDYNINKKSTLLLVVKF SMQILVTTISAETIRLEVEPSDTIENVKAKIQDKEGIPPDQQRLFFEGKQLEDGRTLSDYNINKKSTLLLVVKFH 5o6u-a1-m1-cC_5o6u-a1-m1-cE Structure of the Cascade-I-Fv R-loop complex from Shewanella putrefaciens A4Y6G1 A4Y6G1 3.25 X-RAY DIFFRACTION 10 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 267 315 MQKVTGIKSVDFKIKALGHGVVNWNGPTTDNHTLPKLRGYTNLTGKQATDINFKETPLYISQNCIRHHLFRELKNVLASITGLIRGYVVPSSQCKRTSPLLLEDFVDQLGNGNFKTTFGDTEYISYGSISIEQLQFISLDKKFDRAAMVIKEGEGEVIAAELQNYIQSLNPSLNPQAIFHSNYVRRGTIFEEGECGILLNDDAVKALVAETLERLANLSIRQAKGYMYVDDITVDYNDSHKMMRIKRDESEIINEQHAPFAQYFYAK MQKVTGIKSVDFKIKALGHGVVNWNGPTTLTGDDGKTVDNHTLPKLRGYTNLTGKVKDETGYKYKKQATDINFKETPLYISQNCIRHHLFREQAFDLHYASDKNLKNVLASITGLIRGYVVPSSQCKRTSPLLLEDFVDQLGNGNFEQYGQAGARDSTSFFSKTTFGDTEYISYGSISIEQLQFISLDKKFDRAAMVIKEGEGEVIAAELQNYIQSLNPSLNPQAIFHSNYVRRGTIFEEGECGILLNDDAVKALVAETLERLANLSIRQAKGYMYVDDITVDYNDSHKMMRIKRDESEIINEQHAPFAQYFYAK 5o78-a1-m1-cA_5o78-a1-m1-cB Crystal structure of Omp35 from Enterobacter aerogenes A0A0H3FYJ7 A0A0H3FYJ7 2.85 X-RAY DIFFRACTION 107 1.0 548 (Klebsiella aerogenes) 548 (Klebsiella aerogenes) 331 331 5o77-a1-m1-cA_5o77-a1-m2-cA 5o77-a1-m1-cA_5o77-a1-m3-cA 5o77-a1-m2-cA_5o77-a1-m3-cA 5o78-a1-m1-cA_5o78-a1-m1-cC 5o78-a1-m1-cB_5o78-a1-m1-cC NGNKLDFYGKMVGEHVWTTNGDTSSDDTTYARIGLKGETQINDQLIGYGQWEYNMDASNVEGSQTTKTRLAFAGLKAGEYGSFDYGRNYGAIYDVESATDMLVEWGGDGWNYTDNFMTGRTNGVATYRNSDFFGLVDGLSFALQYQGKNDHDRSIRKQNGDGFSTAATYAFDNGIALSAGYANSNRSVDQKRDGNGDKAEAWATSAKYDANNIYAAVMYSQTYNMTPEEDDHFAGKTQNFEAVVQYQFDFGLRPSLGYVQTKGKNLQARGGFGGGDADLVKYVELGTWYYFNKNMNVYAAYKFNQLDDNAYTRAAGVATDDQAAVGIVYQF NGNKLDFYGKMVGEHVWTTNGDTSSDDTTYARIGLKGETQINDQLIGYGQWEYNMDASNVEGSQTTKTRLAFAGLKAGEYGSFDYGRNYGAIYDVESATDMLVEWGGDGWNYTDNFMTGRTNGVATYRNSDFFGLVDGLSFALQYQGKNDHDRSIRKQNGDGFSTAATYAFDNGIALSAGYANSNRSVDQKRDGNGDKAEAWATSAKYDANNIYAAVMYSQTYNMTPEEDDHFAGKTQNFEAVVQYQFDFGLRPSLGYVQTKGKNLQARGGFGGGDADLVKYVELGTWYYFNKNMNVYAAYKFNQLDDNAYTRAAGVATDDQAAVGIVYQF 5o7h-a1-m1-cC_5o7h-a1-m1-cD Structure of the Cascade-I-Fv complex from Shewanella putrefaciens A4Y6G1 A4Y6G1 3 X-RAY DIFFRACTION 100 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 274 310 5o6u-a1-m1-cC_5o6u-a1-m1-cD QKVTGIKSVDFKIKALGHGVVNWNGPTTLTDNHTLPKLRGYTNLTGKVKDETGYKYKKQATDINFKETPLYISQNCIRHHLFRELKNVLASITGLIRGYVVPSSQCKRTSPLLLEDFVDQLGNGNKTTFGDTEYISYGSISIEQLQFISLDKKFDRAAVIKEGEGEVIAAELQNYIQSLNPSLNPQAIFHSNYVRRGTIFEEGECGILLNDDAVKALVAETLERLANLSIRQAKGYYVDDITVDYNDSHKRIKRDESEIINEQHAPFAQYFYAK QKVTGIKSVDFKIKALGHGVVNWNGPTTLTGDDGKTVDNHTLPKLRGYTNLTGKVKDETGYKYKKQATDINFKETPLYISQNCIRHHLFREQAFDLHYASDKNLKNVLASITGLIRGYVVPSSQCKRTSPLLLEDFVDQLGNGNFEQYGQAGARDSTSFFSKTTFGDTEYISYGSISIEQLQFISLDKKFDRAAVIKEGEGEVIAAELQNYIQSLNPSLNPQAIFHSNYVRRGTIFEEGECGILLNDDAVKALVAETLERLANLSIRQAKGYYVDDITVDYNDSHKRIKRDESEIINEQHAPFAQYFYAK 5o7h-a1-m1-cE_5o7h-a1-m1-cD Structure of the Cascade-I-Fv complex from Shewanella putrefaciens A4Y6G1 A4Y6G1 3 X-RAY DIFFRACTION 90 1.0 319224 (Shewanella putrefaciens CN-32) 319224 (Shewanella putrefaciens CN-32) 308 310 5o6u-a1-m1-cD_5o6u-a1-m1-cE QKVTGIKSVDFKIKALGHGVVNWNGPTTLTGDDGKTVDNHTLPKLRGYTNLTGKVKDETGYKYKKQATDINFKETPLYISQNCIRHHLFREQAFDLHYASDKNLKNVLASITGLIRGYVVPSSQCKRTSPLLLEDFVDQLGNGNFEQYGQAGARDSTSFFSKTTFGDTEYISYGSISIEQLQFISLDKKFDRAAVIKEGEGEVIAAELQNYIQSLNPSLNPQAIFHSNYVRRGTIFEEGECGILLNDDAVKALVAETLERLANLSIRQAKGYYVDDITVDYNDSHKRIKRDESEIINEQHAPFAQYFY QKVTGIKSVDFKIKALGHGVVNWNGPTTLTGDDGKTVDNHTLPKLRGYTNLTGKVKDETGYKYKKQATDINFKETPLYISQNCIRHHLFREQAFDLHYASDKNLKNVLASITGLIRGYVVPSSQCKRTSPLLLEDFVDQLGNGNFEQYGQAGARDSTSFFSKTTFGDTEYISYGSISIEQLQFISLDKKFDRAAVIKEGEGEVIAAELQNYIQSLNPSLNPQAIFHSNYVRRGTIFEEGECGILLNDDAVKALVAETLERLANLSIRQAKGYYVDDITVDYNDSHKRIKRDESEIINEQHAPFAQYFYAK 5o7o-a1-m1-cB_5o7o-a1-m1-cA The crystal structure of DfoC, the desferrioxamine biosynthetic pathway acetyltransferase/Non-Ribosomal Peptide Synthetase (NRPS)-Independent Siderophore (NIS) from the fire blight disease pathogen Erwinia amylovora D4I247 D4I247 2.11 X-RAY DIFFRACTION 39 0.993 665029 (Erwinia amylovora CFBP1430) 665029 (Erwinia amylovora CFBP1430) 145 146 TLYSTGRPAGRFTLRPMHAALIGCCNDQPVFLMEFYKASEDDIGKFYAAQPGDYGMHLLIAPATHPVQQFSWQVFSTVIDFMFSLPEVKRVVVEPDERNTKIHRLNKRAGFCYQHTIDMGHKTAWLAFCQRENYQQALLKESLNM NSTLYSTGRPAGRFTLRPMHAALIGCCNDQPVFLMEFYKASEDDIGKFYAAQPGDYGMHLLIAPATHPVQQFSWQVFSTVIDFMFSLPEVKRVVVEPDERNTKIHRLNKRAGFCYQHTIDMGHKTAWLAFCQRENYQQALLKESLN 5o7o-a2-m1-cC_5o7o-a2-m1-cD The crystal structure of DfoC, the desferrioxamine biosynthetic pathway acetyltransferase/Non-Ribosomal Peptide Synthetase (NRPS)-Independent Siderophore (NIS) from the fire blight disease pathogen Erwinia amylovora D4I247 D4I247 2.11 X-RAY DIFFRACTION 128 0.998 665029 (Erwinia amylovora CFBP1430) 665029 (Erwinia amylovora CFBP1430) 575 575 QAGTWLTGDNWAEANRLLIRKAIAEFAHEKIVTPAECAHGRYSLAVPGSETEYQFTASRLALDHWEIDAASLTKQENGHPLALDALQFITEFNEVIGIPQALLATYMEEISSTLCSSVFKLQKNNPDSRALVNADFQTVESSMTEGHPCFVANNGRIGFDARDYLAYAPEAATPVNLIWVAVHRRNAHFSSLSDLQYERLMREELGQSTVEQFNAQLTEKGLTHADYLFMPVHPWQWQNKLLTVFAADIANNDIVWLGVGDDQYQAQQSIRTFFNRSHPNKRYVKTALSVLNMGFMRGLSPYYMATTPAINEWLQDLVAGDEWLQRCDFRILREVAAVGYHNRHYEKAIKGDSAYKKMFAALWRDNPVAELKPGQRLMTMASFLHVDHHQKALLPALIADSGLAAERWVERYLSCYLSPLLHCFYQHDLVFMPHGENLILLLENNVPVSAYMKDIGEEIAVMNPDAVLPEKVQRLAVDVPENLKLLSVFTDVFDCIFRFISAILHQSATLPEEQFWQAVARCVKEYQQAHPHLASKFSRYDMFAPEFTRSCLNRLQLANNLKFAGTLVNPIARWR AGTWLTGDNWAEANRLLIRKAIAEFAHEKIVTPAECAHGRYSLAVPGSETEYQFTASRLALDHWEIDAASLTKQENGHPLALDALQFITEFNEVIGIPQALLATYMEEISSTLCSSVFKLQKNNPDSRALVNADFQTVESSMTEGHPCFVANNGRIGFDARDYLAYAPEAATPVNLIWVAVHRRNAHFSSLSDLQYERLMREELGQSTVEQFNAQLTEKGLTHADYLFMPVHPWQWQNKLLTVFAADIANNDIVWLGVGDDQYQAQQSIRTFFNRSHPNKRYVKTALSVLNMGFMRGLSPYYMATTPAINEWLQDLVAGDEWLQRCDFRILREVAAVGYHNRHYEKAIKGDSAYKKMFAALWRDNPVAELKPGQRLMTMASFLHVDHHQKALLPALIADSGLAAERWVERYLSCYLSPLLHCFYQHDLVFMPHGENLILLLENNVPVSAYMKDIGEEIAVMNPDAVLPEKVQRLAVDVPENLKLLSVFTDVFDCIFRFISAILHQSATLPEEQFWQAVARCVKEYQQAHPHLASKFSRYDMFAPEFTRSCLNRLQLANENLKFAGTLVNPIARWR 5o8f-a1-m1-cD_5o8f-a1-m1-cE Structure of a chimaeric beta3-alpha5 GABAA receptor in complex with nanobody Nb25 and pregnanolone P31644 P31644 3.2 X-RAY DIFFRACTION 146 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 332 5o8f-a1-m1-cA_5o8f-a1-m1-cB 5o8f-a1-m1-cA_5o8f-a1-m1-cE 5o8f-a1-m1-cB_5o8f-a1-m1-cC 5o8f-a1-m1-cC_5o8f-a1-m1-cD 5ojm-a1-m1-cA_5ojm-a1-m1-cB 5ojm-a1-m1-cA_5ojm-a1-m1-cE 5ojm-a1-m1-cC_5ojm-a1-m1-cB 5ojm-a1-m1-cC_5ojm-a1-m1-cD 5ojm-a1-m1-cE_5ojm-a1-m1-cD MSFVKETVDKLLKGYDIRLRPDFGGPPVCVGMNIDIASIDMVSEVNMDYTLTMYFQQYWRDKRLAYSGIPLNLTLDNRVADQLWVPDTYFLNDKKSFVHGVTVKNRMIRLHPDGTVLYGLRITTTAACMMDLRRYPLDEQNCTLEIESYGYTTDDIEFYWRGGDKAVTGVERIELPQFSIVEHRLVSRNVVFATGAYPRLSLSFRLKRNIGYFVIQTYLPCIMTVILSQVSFWLNRESVPARTVFGVTTVLTMTTLSISARNSLPKVAYATAMDWFIAVCYAFVFSALIEFATVNYFTKSQPARAAKIDKMSRIVFPILFGTFNLVYWATYL MSFVKETVDKLLKGYDIRLRPDFGGPPVCVGMNIDIASIDMVSEVNMDYTLTMYFQQYWRDKRLAYSGIPLNLTLDNRVADQLWVPDTYFLNDKKSFVHGVTVKNRMIRLHPDGTVLYGLRITTTAACMMDLRRYPLDEQNCTLEIESYGYTTDDIEFYWRGGDKAVTGVERIELPQFSIVEHRLVSRNVVFATGAYPRLSLSFRLKRNIGYFVIQTYLPCIMTVILSQVSFWLNRESVPARTVFGVTTVLTMTTLSISARNSLPKVAYATAMDWFIAVCYAFVFSALIEFATVNYFTKSQPARAAKIDKMSRIVFPILFGTFNLVYWATYL 5o95-a2-m1-cD_5o95-a2-m1-cC Structure of the putative methyltransferase Lpg2936 from Legionella pneumophila Q5ZRE6 Q5ZRE6 1.491 X-RAY DIFFRACTION 95 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 241 244 5o95-a1-m1-cA_5o95-a1-m1-cB 5o96-a1-m1-cA_5o96-a1-m1-cB 5o96-a2-m1-cC_5o96-a2-m1-cD 5o96-a3-m1-cE_5o96-a3-m1-cF 5o96-a4-m1-cG_5o96-a4-m1-cH RTIRIYQPGEYQPGQLLELSPEAGQHVGVVLRMEQGEQLTLFNGDNKEFTASIERVKKKQVFVRIASVLEVNRESPLKIHLAQAISKGERMEMVMQKSAELGVACITPLITERCQVKIDKEKMAKKMHQWLNIIIGACEQCGRNQIPELRQPVYLDQFVREAKEHLKLILHPAFSKTWRDYPVQPPDVALIIGPEGGFSDEEIRLTSGHGFLPLSLGPRVLRTETAAITALSVLQAAGGDL PAVRTIRIYQPGEYQPGQLLELSPEAGQHVGVVLRMEQGEQLTLFNGDNKEFTASIERVKKKQVFVRIASVLEVNRESPLKIHLAQAISKGERMEMVMQKSAELGVACITPLITERCQVKIDKEKMAKKMHQWLNIIIGACEQCGRNQIPELRQPVYLDQFVREAKEHLKLILHPAFSKTWRDYPVQPPDVALIIGPEGGFSDEEIRLTSGHGFLPLSLGPRVLRTETAAITALSVLQAAGGDL 5o9h-a1-m1-cA_5o9h-a1-m1-cB Crystal structure of thermostabilised human C5a anaphylatoxin chemotactic receptor 1 (C5aR) in complex with NDT9513727 P21730 P21730 2.7 X-RAY DIFFRACTION 21 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 294 295 7y65-a1-m1-cL_7y65-a1-m1-cD 7y67-a1-m1-cL_7y67-a1-m1-cD NTLRVPDILALVIFAVVFLVGVLGNALVVWVTAFEAKRTINAIWFLNLAVADFLACLALPALFTSIVQHHHWPFGGAACSILPSLILLNMYASILLLATISADRFLLVFKPAWCQRFRGAGLAWILCAVAWGLALLLTIPSALYRVVREEYFPPKVLCGVDHDKRRERAVAIVRLVLGFLWPLLTLTICYTFILLRTWSARETRSTKTLKVVVAVVASFFIFWLPYQVTGIMMSFLEPSSPTFLLLKKLDSLCVSFAYINCCINPIIYVVAGQGFQKSLPELLREVLTEESVVR NTLRVPDILALVIFAVVFLVGVLGNALVVWVTAFEAKRTINAIWFLNLAVADFLACLALPALFTSIVQHHHWPFGGAACSILPSLILLNMYASILLLATISADRFLLVFKPAWCQRFRGAGLAWILCAVAWGLALLLTIPSALYRVVREEYFPPKVLCGVDYSHDKRRERAVAIVRLVLGFLWPLLTLTICYTFILLRTWSARETRSTKTLKVVVAVVASFFIFWLPYQVTGIMMSFLEPSSPTFLLLKKLDSLCVSFAYINCCINPIIYVVAGQRKSLPELLREVLTEESVVRE 5oaf-a1-m1-cC_5oaf-a1-m1-cA Human Rvb1/Rvb2 heterohexamer in INO80 complex Q9Y265 Q9Y265 4.06 ELECTRON MICROSCOPY 12 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 424 436 KTQRIASHSHVKGLGLDESGLAKQAASGLVGQENAREACGVIVELIKSKKMAGRAVLLAGPPGTGKTALALAIAQELGSKVPFCPMVGSEVYSTEIKKTEVLMENFRRAIGLRIKETKEVYEGEVTELTPCETENPMGGYGKTISHVIIGLKTAKGTKQLKLDPSIFESLQKERVEAGDVIYIEANSGAVKRQGRPKGDVHKKKEIIQDVTLHDLDVANARPQGGQDILSMMGQLMKPKKTEITDKLRGEINKVVNKYIDQGIAELVPGVLFVDEVHMLDIECFTYLHRALESSIAPIVIFASNRGNCVIRGTEDITSPHGIPLDLLDRVMIIRTMLYTPQEMKQIIKIRAQTEGINISEEALNHLGEIGTKTTLRYSVQLLTPANLLAKINGKDSIEKEHVEEISELFYDAKSSAKILADQQD KTQRIASHSHVKGLGLDESGLAKQAASGLVGQENAREACGVIVELIKSKKMAGRAVLLAGPPGTGKTALALAIAQELGSKVPFCPMVGSEVYSTEIKKTEVLMENFRRAIGLRIKETKEVYEGEVTELTPCETEGKTISHVIIGLKTAKGTKQLKLDPSIFESLQKERVEAGDVIYIEANSGAVKRQGRCDTYATEFDLEAEEYVPLPKGDVHKKKEIIQDVTLHDLDVANARPQGGQDILSMMGQLMKPKKTEITDKLRGEINKVVNKYIDQGIAELVPGVLFVDEVHMLDIECFTYLHRALESSIAPIVIFASNRGNCVIRGTEDITSPHGIPLDLLDRVMIIRTMLYTPQEMKQIIKIRAQTEGINISEEALNHLGEIGTKTTLRYSVQLLTPANLLAKINGKDSIEKEHVEEISELFYDAKSSAKILADQQD 5oar-a1-m1-cB_5oar-a1-m1-cD Crystal structure of native beta-N-acetylhexosaminidase isolated from Aspergillus oryzae Q8J2T0 Q8J2T0 2.3 X-RAY DIFFRACTION 308 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 497 498 SNSLQYVNVQVKDIEADLQHGVDESYTLDVEEDSDTITINAETVWGALHAFTTLQQLVISDGHGGLIIEEPVNIKDSPLYPYRGIMLDTGRNFVSLPKIFEQLEGMSLSKLNVLHWHIDDAQSWPIWVDVYPEMVKDAYSPHEIYSRNDVRNIVNYARARGIRVIPEIDMPSHSSSGWKQVDPEMVTCTDSWWSNDDWPLHTAVEPNPGQLDIIYNKTYEVVGNVYKELSDIFPDHWFHVGGDEIQPNCFNFSTHVTKWFAEDPSRTYHDLAQYWVDHAVPIFQNYSQERRLVMWEDIALSADNAHDVPKNIVMQSWNNGLEYISNLTARGYDVIVSSSDFLYLDCGHGGFVTNDPRYNVMANPDANTPNFNYGGNGGSWCAPYKTWQRIYDYDFTLNLTETQAKHIIGATAPLWGEQVDDINVSSMFWPRAAALAELVWSGNRDANGNKRTTEMTQRILNFREYLVANGVQAQALVPKYCLQHPHACDLYRNQAAI SNSLQYVNVQVKDIEADLQHGVDESYTLDVEEDSDTITINAETVWGALHAFTTLQQLVISDGHGGLIIEEPVNIKDSPLYPYRGIMLDTGRNFVSLPKIFEQLEGMSLSKLNVLHWHIDDAQSWPIWVDVYPEMVKDAYSPHEIYSRNDVRNIVNYARARGIRVIPEIDMPSHSSSGWKQVDPEMVTCTDSWWSNDDWPLHTAVEPNPGQLDIIYNKTYEVVGNVYKELSDIFPDHWFHVGGDEIQPNCFNFSTHVTKWFAEDPSRTYHDLAQYWVDHAVPIFQNYSQERRLVMWEDIALSADNAHDVPKNIVMQSWNNGLEYISNLTARGYDVIVSSSDFLYLDCGHGGFVTNDPRYNVMANPDANTPNFNYGGNGGSWCAPYKTWQRIYDYDFTLNLTETQAKHIIGATAPLWGEQVDDINVSSMFWPRAAALAELVWSGNRDANGNKRTTEMTQRILNFREYLVANGVQAQALVPKYCLQHPHACDLYRNQAAIQ 5oat-a1-m1-cB_5oat-a1-m1-cC PINK1 structure D6WMX4 D6WMX4 2.78 X-RAY DIFFRACTION 44 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 359 359 5oat-a1-m1-cA_5oat-a1-m1-cB 5oat-a1-m1-cD_5oat-a1-m1-cE 5oat-a1-m1-cD_5oat-a1-m1-cF PITLNDLSLGKPIAKGTNGVVYSAKVKYPFALKMMFNYDIQENMEILKAMYRETVPARMYYSNHDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLYPAANMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSYEMDKGGNTALMAPEIICQKPGTFSVLNYSKADLWAVGAIAYEIFNCHNPFYGPSRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKPGKVPTSGEILQWLLSLTTKVLTYPEYLLISSFLCRAKLANVRNALHWIQENL PITLNDLSLGKPIAKGTNGVVYSAKVKYPFALKMMFNYDIQENMEILKAMYRETVPARMYYSNHDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLYPAANMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSYEMDKGGNTALMAPEIICQKPGTFSVLNYSKADLWAVGAIAYEIFNCHNPFYGPSRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKPGKVPTSGEILQWLLSLTTKVLTYPEYLLISSFLCRAKLANVRNALHWIQENL 5oat-a1-m1-cB_5oat-a1-m1-cD PINK1 structure D6WMX4 D6WMX4 2.78 X-RAY DIFFRACTION 18 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 359 359 PITLNDLSLGKPIAKGTNGVVYSAKVKYPFALKMMFNYDIQENMEILKAMYRETVPARMYYSNHDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLYPAANMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSYEMDKGGNTALMAPEIICQKPGTFSVLNYSKADLWAVGAIAYEIFNCHNPFYGPSRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKPGKVPTSGEILQWLLSLTTKVLTYPEYLLISSFLCRAKLANVRNALHWIQENL PITLNDLSLGKPIAKGTNGVVYSAKVKYPFALKMMFNYDIQENMEILKAMYRETVPARMYYSNHDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLYPAANMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSYEMDKGGNTALMAPEIICQKPGTFSVLNYSKADLWAVGAIAYEIFNCHNPFYGPSRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKPGKVPTSGEILQWLLSLTTKVLTYPEYLLISSFLCRAKLANVRNALHWIQENL 5ob4-a1-m1-cA_5ob4-a1-m1-cB NMR spatial structure of HER2 TM domain dimer in DPC micelles. P04626 P04626 NOT SOLUTION NMR 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 44 GCPAEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRK GCPAEQRASPLTSIISAVVGILLVVVLGVVFGILIKRRQQKIRK 5oc7-a3-m1-cA_5oc7-a3-m1-cD Crystal structure of the pleckstrin-homology domain of Bcr-Abl in complex with monobody Mb(Bcr-PH_4). P11274 P11274 1.652 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 111 112 RQLLKDSFMVELVEGARKLRHVFLFTDLLLCTKLQYDCKWYIPLTDLSFQMVDEPSMAFRVHSRNGKSYTFLISSDYERAEWRENIREQQKKCFRSFSLTSVELQMLTNSC RQLLKDSFMVELVEGARKLRHVFLFTDLLLCTKLKQYDCKWYIPLTDLSFQMVDEPSMAFRVHSRNGKSYTFLISSDYERAEWRENIREQQKKCFRSFSLTSVELQMLTNSC 5och-a3-m1-cF_5och-a3-m1-cE The crystal structure of human ABCB8 in an outward-facing state Q9NUT2 Q9NUT2 3.4 X-RAY DIFFRACTION 361 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 571 574 5och-a1-m1-cA_5och-a1-m1-cB 5och-a2-m1-cC_5och-a2-m1-cD 5och-a4-m1-cH_5och-a4-m1-cG FNWKLFWQFLHPHLLVLGVAVVLALGAALVNVQIPLLLGQLVEVVAKFMTESQNLSTHLLILYGVQGLLTFGYLVLLSHVGERMAVDMRRALFSSLLRQDITFFDANKTGQLVSRLTTDVQEFKSSFKLVISQGLRSCTQVAGCLVSLSMLSTRLTLLLMVATPALMGVGTLMGSGLRKLSRQCQEQIARAMGVADEALGNVRTVRAFAMEQREEERYGAELEACRCRAEELGRGIALFQGLSNIAFNCMVLGTLFIGGSLVAGQQLTGGDLMSFLVASQTVQRSMANLSVLFGQVVRGLSAGARVFEYMALNPCIPLSGGCCVPKEQLRGSVTFQNVFSYPRPGFEVLKDFTLTLPPGKIVALVGQSGGGKTTVASLLERFYDPTAGVVMLDGRDLRTLDPSWLRGQVVGFISQEPVLFGTTIMENIRFGKLEASDEEVYTAAREANAHEFITSFPEGYNTVVGERGTTLSGGQKQRLAIARALIKQPTVLILDEATSALDAESERVVQEALDRASAGRTVLVIAHRLSTVRGAHCIVVMADGRVWEAGTHEELLKKGGLYAELIRRQAL FNWKLFWQFLHPHLLVLGVAVVLALGAALVNVQIPLLLGQLVEVVAKMTESQNLSTHLLILYGVQGLLTFGYLVLLSHVGERMAVDMRRALFSSLLRQDITFFDANKTGQLVSRLTTDVQEFKSSFKLVISQGLRSCTQVAGCLVSLSMLSTRLTLLLMVATPALMGVGTLMGSGLRKLSRQCQEQIARAMGVADEALGNVRTVRAFAMEQREEERYGAELEACRRAEELGRGIALFQGLSNIAFNCMVLGTLFIGGSLVAGQQLTGGDLMSFLVASQTVQRSMANLSVLFGQVVRGLSAGARVFEYMALNPCIPLSGGCCVPKEQLRGSVTFQNVCFSYPRPGFEVLKDFTLTLPPGKIVALVGQSGGGKTTVASLLERFYDPTAGVVMLDGRDLRTLDPSWLRGQVVGFISQEPVLFGTTIMENIRFGKLEASDEEVYTAAREANAHEFITSFPEGYNTVVGERGTTLSGGQKQRLAIARALIKQPTVLILDEATSALDAESERVVQEALDRASAGRTVLVIAHRLSTVRGAHCIVVMADGRVWEAGTHEELLKKGGLYAELIRRQALDAAE 5ocm-a3-m1-cE_5ocm-a3-m1-cD Imine Reductase from Streptosporangium roseum in complex with NADP+ and 2,2,2-trifluoroacetophenone hydrate D2B7Z8 D2B7Z8 1.81 X-RAY DIFFRACTION 357 1.0 2001 (Streptosporangium roseum) 2001 (Streptosporangium roseum) 286 290 5ocm-a1-m1-cF_5ocm-a1-m1-cA 5ocm-a2-m1-cC_5ocm-a2-m1-cB RDTDVTVLGLGLMGQALAGAFLKDGHATTVWNRSEGKAGQLAEQGAVLASSARDAAEASPLVVVCVSDHAAVRAVLDPLGDVLAGRVLVNLTSGTSEQARATAEWAAERGITYLDGAIMAIPQVVGTADAFLLYSGPEAAYEAHEPTLRSLGAGTTYLGADHGLSSLYDVALLGIMWGTLNSFLHGAALLGTAKVEATTFAPFANRWIEAVTGFVSAYAGQVDQGAYPALDATIDTHVATVDHLIHESEAAGVNTELPRLVRTLADRALAGGQGGLGYAAMIEQFR MRDTDVTVLGLGLMGQALAGAFLKDGHATTVWNRSEGKAGQLAEQGAVLASSARDAAEASPLVVVCVSDHAAVRAVLDPLGDVLAGRVLVNLTSGTSEQARATAEWAAERGITYLDGAIMAIPQVVGTADAFLLYSGPEAAYEAHEPTLRSLGAGTTYLGADHGLSSLYDVALLGIMWGTLNSFLHGAALLGTAKVEATTFAPFANRWIEAVTGFVSAYAGQVDQGAYPALDATIDTHVATVDHLIHESEAAGVNTELPRLVRTLADRALAGGQGGLGYAAMIEQFRSPS 5ocs-a3-m1-cC_5ocs-a3-m3-cD Ene-reductase (ER/OYE) from Ralstonia (Cupriavidus) metallidurans Q1LDQ5 Q1LDQ5 1.7 X-RAY DIFFRACTION 122 1.0 119219 (Cupriavidus metallidurans) 119219 (Cupriavidus metallidurans) 369 371 5ocs-a1-m2-cC_5ocs-a1-m1-cD 5ocs-a2-m1-cA_5ocs-a2-m1-cB MPHLFDPYRIGNLELANRIAIAPMCQYSAQEGNATDWHMIHLGQMALSGAGLLIIEATAVSPEGRITPTDLGLYNDANEAALGRVLGAVRNHSPIAVTIQLAHAGRKASSEAPWDGGGQIRPDQPRGWQTFAPSAVPHAAGEVPPAALDKAGMKKIRDDFVAAAKRAARLGIEGIEVHGAHGYLLHQFLSPIANHRTDEYGGSLENRMRFPLEVFDAVREAFPAERPVWMRVSATDWVPNGWDIEGTIALSHELKARGSAAVHVSTGGVSPQQAIKIGPGYQVPYAQRVKAEVGLPTMAVGLITEAEQAEAIIANNEADIISIARAMLYDPRWPWHAAAKLGASVNAPKQYWRSQPRGLEKLFKDAHFG MPHLFDPYRIGNLELANRIAIAPMCQYSAQEGNATDWHMIHLGQMALSGAGLLIIEATAVSPEGRITPTDLGLYNDANEAALGRVLGAVRNHSPIAVTIQLAHAGRKASSEAPWDGGGQIRPDQPRGWQTFAPSAVPHAAGEVPPAALDKAGMKKIRDDFVAAAKRAARLGIEGIEVHGAHGYLLHQFLSPIANHRTDEYGGSLENRMRFPLEVFDAVREAFPAERPVWMRVSATDWVPNGWDIEGTIALSHELKARGSAAVHVSTGGVSPQQAIKIGPGYQVPYAQRVKAEVGLPTMAVGLITEAEQAEAIIANNEADIISIARAMLYDPRWPWHAAAKLGASVNAPKQYWRSQPRGLEKLFKDAHFGQR 5od6-a1-m1-cA_5od6-a1-m1-cB Crystal structure of Smad3-MH1 bound to the GGCGC site. P84022 P84022 2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 MIVKRLLGWKKGEQNGQEEKWCEKAVKSLVKKLKKTGQLDELEKAITTQNVNTKCITIPRSLDGRLQVSHRKGLPHVIYCRLWRWPDLHSHHELRAMELCEFAFNMKKDEVCVNPYHYQRVETPV MIVKRLLGWKKGEQNGQEEKWCEKAVKSLVKKLKKTGQLDELEKAITTQNVNTKCITIPRSLDGRLQVSHRKGLPHVIYCRLWRWPDLHSHHELRAMELCEFAFNMKKDEVCVNPYHYQRVETPVL 5od9-a1-m1-cB_5od9-a1-m1-cA Structure of the engineered metalloesterase MID1sc9 1.13 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 95 SPLAQQIKNTLTFIGQANAAGRMDEVRTLQENLHPLWHEYFQQTESPLAQQIEYGHVLIHQARAAGRMDEVRRLSENTLQLMKEYFQQ GSPLAQQIKNTLTFIGQANAAGRMDEVRTLQENLHPLWHEYFQQTEGSGGSPLAQQIEYGHVLIHQARAAGRMDEVRRLSENTLQLMKEYFQQSD 5odn-a1-m1-cA_5odn-a1-m1-cD Salinibacter ruber Single-Strand Binding protein Q2S565 Q2S565 2.598 X-RAY DIFFRACTION 48 1.0 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 99 106 AMARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDRDNNTRYSTEVKAQEMMFL NLYFQGAMARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETQNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDRDNNTRYSTEVKAQEMMFL 5odn-a1-m1-cA_5odn-a1-m1-cH Salinibacter ruber Single-Strand Binding protein Q2S565 Q2S565 2.598 X-RAY DIFFRACTION 38 1.0 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 99 99 5odn-a1-m1-cC_5odn-a1-m1-cD AMARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDRDNNTRYSTEVKAQEMMFL AMARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDRDNNTRYSTEVKAQEMMFL 5odn-a1-m1-cC_5odn-a1-m1-cF Salinibacter ruber Single-Strand Binding protein Q2S565 Q2S565 2.598 X-RAY DIFFRACTION 10 0.98 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 102 105 GAMARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETVQNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDRDNNTRYSTEVKAQEMMFL MARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETYTDEVQNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDRDNNTRYSTEVKAQEMMFLD 5odn-a1-m1-cG_5odn-a1-m1-cE Salinibacter ruber Single-Strand Binding protein Q2S565 Q2S565 2.598 X-RAY DIFFRACTION 32 1.0 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 102 105 MARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETYTDSDGNEVQNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWTRYSTEVKAQEMMFL MARGVNKVILIGNLGDDPELRYTGSGTAVCNMSLATNETYTDSDGNEVQNTEWHDVVAWGRLGEICNEYLDKGSQVYFEGKLQTRSWEDTRYSTEVKAQEMMFLD 5odp-a1-m1-cA_5odp-a1-m1-cG Salinibacter ruber Single-Strand Binding protein D17K D71K mutant Q2S565 Q2S565 2.535 X-RAY DIFFRACTION 76 0.98 309807 (Salinibacter ruber DSM 13855) 309807 (Salinibacter ruber DSM 13855) 99 100 RGVNKVILIGNLGDKPELRYTGSGTAVCNMSLATNETYTDSDGNEVQNTEWHDVVAWGRLGEICNEYLKKGSQVYFEGKLQTRSSTEVKAQEMMFLDSN ARGVNKVILIGNLGDKPELRYTGSGTAVCNMSLATNETYTDSDGNEVQNTEWHDVVAWGRLGEICNEYLKKGSQVYFEGKLQTSTEVKAQEMMFLDSNRQ 5odq-a1-m1-cA_5odq-a1-m1-cG Heterodisulfide reductase / [NiFe]-hydrogenase complex from Methanothermococcus thermolithotrophicus soaked with bromoethanesulfonate. A0A2D0TCB9 A0A2D0TCB9 2.15 X-RAY DIFFRACTION 240 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 652 652 5odc-a1-m1-cA_5odc-a1-m1-cG 5odh-a1-m1-cA_5odh-a1-m1-cG 5odi-a1-m1-cA_5odi-a1-m1-cG 5odr-a1-m1-cA_5odr-a1-m1-cG EEPRIGVYVCHCGVNIGGTVDCPDVTEFAKTLKNVVVARDYKYMCADPGQEMIKKDIKEHNLNRVVVAACSPRLHEPTFRRCVAEAGLNPFLFEFANIREHCSWVHMHEKEKATEKAKDLVRMAVAKARLLEPLEFIKVGVTQRALVIGGGVAGIQTALDLGDMGFETILVEKTPSVGGRMAQLDKTFPTNDCSICILAPKMVDVAKHPNVKLYAYSEVVDVQGYVGNFKVKIMKKARYIDETKCTGCGQCSEVCPIDVPNEFDMGIGMRKAIYKPFPQAVPAKYTIDKEHCIECGLCAKVCGPNAIDFDQEPEIIEAEVGTIICAIGYDAFDPTVREEYGYGVYDNVVTALELERMINASGPTGGKVIRLSDGQKPKRIAFIQCVGSRDAKVGNKYCSNVCCMYAMKNSQLIKEKSPDTEIDIYYMDIRAFSKGYEEFYERSAKQYGIKFMRGRPSQVIEDPETGNLVVRAEDTLLGEILEKEYDLVVLSVGMVPTKSADEVQKILGISRTPDQFFMEAHPKLRPVDTATDGVYLAGACQGPKDIPASVAQGSAAASRAAIPLAKGEVEVEPIIASVDAEICGGCGVCVKQCPYGAPRLVEKDGKVVAEVISALCKGCGTCPAGCPSGALEQDHFKTIQLFKQIEGMFRDT EEPRIGVYVCHCGVNIGGTVDCPDVTEFAKTLKNVVVARDYKYMCADPGQEMIKKDIKEHNLNRVVVAACSPRLHEPTFRRCVAEAGLNPFLFEFANIREHCSWVHMHEKEKATEKAKDLVRMAVAKARLLEPLEFIKVGVTQRALVIGGGVAGIQTALDLGDMGFETILVEKTPSVGGRMAQLDKTFPTNDCSICILAPKMVDVAKHPNVKLYAYSEVVDVQGYVGNFKVKIMKKARYIDETKCTGCGQCSEVCPIDVPNEFDMGIGMRKAIYKPFPQAVPAKYTIDKEHCIECGLCAKVCGPNAIDFDQEPEIIEAEVGTIICAIGYDAFDPTVREEYGYGVYDNVVTALELERMINASGPTGGKVIRLSDGQKPKRIAFIQCVGSRDAKVGNKYCSNVCCMYAMKNSQLIKEKSPDTEIDIYYMDIRAFSKGYEEFYERSAKQYGIKFMRGRPSQVIEDPETGNLVVRAEDTLLGEILEKEYDLVVLSVGMVPTKSADEVQKILGISRTPDQFFMEAHPKLRPVDTATDGVYLAGACQGPKDIPASVAQGSAAASRAAIPLAKGEVEVEPIIASVDAEICGGCGVCVKQCPYGAPRLVEKDGKVVAEVISALCKGCGTCPAGCPSGALEQDHFKTIQLFKQIEGMFRDT 5oek-a1-m1-cA_5oek-a1-m1-cB Putative active dimeric state of GHR transmembrane domain P10912 P10912 NOT SOLUTION NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 GSMSQFTCEEDFYFPWLLIIIFGIFGLTVMLFVFLFSKQQRIK GSMSQFTCEEDFYFPWLLIIIFGIFGLTVMLFVFLFSKQQRIK 5oem-a1-m1-cA_5oem-a1-m2-cA Crystal Structure of Interferon Regulatory Factor 9 IAD Domain Q61179 Q61179 1.9 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 189 EDPVFLEHQLPLNSDYSLLLTFIYGGRVVGKTQVHSLDCRLVAEASDSESSMEQVEFPKPDPLEPTQHLLNQLDRGVLVASNSRGLFVQRLCPIPISWNAPEAPPGPGPHLLPSNKCVELFKTTYFCRDLAQYFQGQGPPPKFQATLHFWEESPGSSHSQENLITVQMEQAFARHLLEKIPEEEKAALF EDPVFLEHQLPLNSDYSLLLTFIYGGRVVGKTQVHSLDCRLVAEASDSESSMEQVEFPKPDPLEPTQHLLNQLDRGVLVASNSRGLFVQRLCPIPISWNAPEAPPGPGPHLLPSNKCVELFKTTYFCRDLAQYFQGQGPPPKFQATLHFWEESPGSSHSQENLITVQMEQAFARHLLEKIPEEEKAALF 5oes-a3-m1-cE_5oes-a3-m1-cF The structure of a glutathione synthetase (StGSS1) from Solanum tuberosum in ADP and y-EC bound closed conformation. M1CSC4 M1CSC4 2.48 X-RAY DIFFRACTION 91 0.996 4113 (Solanum tuberosum) 4113 (Solanum tuberosum) 448 448 5oes-a1-m1-cA_5oes-a1-m1-cB 5oes-a2-m1-cD_5oes-a2-m1-cC DPHDIDPKLVQKLANDALVWCSLRGLLVGDRNSERSGTVPGVDMVHAPVALIPMSFPESHWKQACEVAPIFNELVDRVSQDGEFLQQSLSRTRKVDPFTSRLLEIHSKMLEINKIEEIRLGLHRSDYMLDEQTKLLLQIELNTISSSFPGLSCLVSELHRSLLQQYREDIASDPNRIPANNAVNQFAEALAKAWNEYGDPRAVIMFAVQAEERNMYDQHWLSASLRERHQVTTIRKTLAEIDALGELQQDGTLVVDGQAVAVIYFRAGYAPSDYNSESEWKARLLMEQSRAVKCPSISYHLAGSKKIQQELAKPNVLERFLENKDDIAKLRKCFAGLWSLDESDIVKDAIDRPELYVMKPQRENNIYGEDVRDALLKLQYILMQRIFPKISHSILMREGISHKEQTISELGIYGTYLRNKTEVVINQQAGYLMRTKVSFAVLDSIYLV DPHDIDPKLVQKLANDALVWCSLRGLLVGDRNSERSGTVPGVDMVHAPVALIPMSFPESHWKQACEVAPIFNELVDRVSQDGEFLQQSLSRTRKVDPFTSRLLEIHSKMLEINKIEEIRLGLHRSDYMLDEQTKLLLQIELNTISSSFPGLSCLVSELHRSLLQQYREDIASDPNRIPANNAVNQFAEALAKAWNEYGDPRAVIMFAVQAEERNMYDQHWLSASLRERHQVTTIRKTLAEIDALGELQQDGTLVVDGQAVAVIYFRAGYAPSDYNSESEWKARLLMEQSRAVKCPSISYHLAGSKKIQQELAKPNVLERFLENKDDIAKLRKCFAGLWSLDESDIVKDAIDRPELYVMKPQNNIYGEDVRDALLKLQKEYILMQRIFPKISHSILMREGISHKEQTISELGIYGTYLRNKTEVVINQQAGYLMRTKVSFAVLDSIYLV 5oet-a1-m1-cA_5oet-a1-m1-cB The structure of a glutathione synthetase like-effector (GSS30) from Globodera pallida in apoform. A0A183C5H8 A0A183C5H8 2.57 X-RAY DIFFRACTION 80 1.0 36090 (Globodera pallida) 36090 (Globodera pallida) 411 420 QYCVPNIEQDPQILLEQSLDAKDWALSNGLVKFVDMMTQFLPLSLYPSPFPRKLFQQAVDVQKAMLLLYFRASCDYEFLKEAHKKLVKRLGIRQPVAMFCQRADYMASQEDDGQYVLKQVEVNTGAIGSFGTTPRFSRLHRRMVSNAGIDSVMPSDQTDTMAAETLYQAWLEFGNAEAVILFLHGSPNSHLMLESRQITHQLESISTERIKCRFITITEGLNRLKRDPNNFSLILDDKFVVAVVFDRLMDLNFVIDHSTAIKTPPYIFALSHTKRMQQVFTKPGMVEKFFHMAEAIRKVQTKGWAIPHRYVLKNNGDMFFNEDILKKLKTMAPADRDFYYLTEKLRPMVIKNHFVRPNMAPTLNLDATPELGIFGCLLGNMETGKVSYFSRTGHMMKSKLAFSVYDSPYLV QYCVPNIEQDPQILLEQSLDAKDWALSNGLVKFVDMMTQFLPLSLYPSPFPRKLFQQAVDVQKAMLLLYFRASCDYEFLKEAHGIKKLVKRLDGMGIRQPVAMFCQRADYMASQEDDGQYVLKQVEVNTGAIGSFGTTPRFSRLHRRMVSNAGIDSVMPSDQTDTMAAETLYQAWLEFGNAEAVILFLHGSPNSHLMLESRQITHQLESISTERIKCRFITITEGLNRLKRDPNNFSLILDDKFVVAVVFDRLMDLNFVIDHSTAIKTPPYIFALSHTKRMQQVFTKPGMVEKFFHMAEAIRKVQTKGWAIATENPHRYVLKNNGDMFFNEDILKKLKTMAPADRDFYYLTEKLRPMVIKNHFVRPNMAPTLNLDATPELGIFGCLLGNMETGKVSYFSRTGHMMKSKLAFSVYDSPYLV 5oev-a1-m1-cC_5oev-a1-m1-cA The structure of a glutathione synthetase like-effector (GSS22) from Globodera pallida in apoform. A0A183CD52 A0A183CD52 2.18 X-RAY DIFFRACTION 75 0.997 36090 (Globodera pallida) 36090 (Globodera pallida) 397 451 5oeu-a1-m1-cC_5oeu-a1-m1-cA YVEKSVNSETKLHKLADFAIDWAHNNGLILRTKQFLNKSDVAEFAPVSLLPSPFPRHAFEKAVAVHEALQLLYFRVACDYEFMMDAYKDVVNTDNHLRQLVNIIKDAHKQGIKQPTTLLIMRADYMLNTYELKQVEVNTGAIGGLGIDRRTTELHRQMLRKVGMDTSNSPANNGDSNMIESLFMAWEAFGNKNALFVFLSHERLQYKFELRNIQCQLEELSNGQMKVEYVSLKAGYEQLKLGEDYSLLLNGEIVGVVYSTISALGHQANAREMEARRTIELSNAIKAPSLAIAISSSKKIQQLLTTPGTLERFFPSATEADKVAAIRETFTKLIPMATKNYFLRPFHEPKLNVVVGELGVNGTLLGNLRDQSVRHNVQSGHLLRTKLRGVGDSPYLF YVEKSVNSETKLHKLADFAIDWAHNNGLILRTKQFLNKSDVAEFAPVSLLPSPFPRHAFEKAVAVHEALQLLYFRVACDYEFMMDAYKDVVNTDNHLRQLVNIIKDAHKQGIKQPTTLLIMRADYMLNTLYELKQVEVNTGAIGLGIDRRTTELHRQMLRKVGMDTSNSPANNGDSNMIESLFMAWEAFGNKNALFVFLSHERLQYKFELRNIQCQLEELSNGQMKVEYVSLKAGYEQLKLGEDYSLLLNGEIVGVVYSTISALGHQANAREMEARRTIELSNAIKAPSLAIAISSSKKIQQLLTTPGTLERFFPSATEADKVAAIRETFTGLWGLEKSDDQTERRIKDAIENPANYVLKNFYDEALAEKLRTMPERASHILMQKLIPMATKNYFLRPFHEPKLNVVVGELGVNGTLLGNLRDQSVRHNVQSGHLLRTKLRTGVGDSPYLF 5oev-a2-m1-cB_5oev-a2-m1-cD The structure of a glutathione synthetase like-effector (GSS22) from Globodera pallida in apoform. A0A183CD52 A0A183CD52 2.18 X-RAY DIFFRACTION 77 0.997 36090 (Globodera pallida) 36090 (Globodera pallida) 397 448 YVEKSVNSETKLHKLADFAIDWAHNNGLILRTKQFLNKSDVAEFAPVSLLPSPFPRHAFEKAVAVHEALQLLYFRVACDYEFMMDAYKDVVNTDNHLRQLVNIIKDAHKQGIKQPTTLLIMRADYMLNTEYELKQVEVNTGAIGGLGIDRRTTELHRQMLRKVGMDTSNSPANNGDSNMIESLFMAWEAFGNKNALFVFLSHERLQYKFELRNIQCQLEELSNGQMKVEYVSLKAGYEQLKLGEDYSLLLNGEIVGVVYSTISALGHQANAREMEARRTIELSNAIKAPSLAIAISSSKKIQQLLTTPGTLERFFPSATEADKVAAIRETFTLIPMATKNYFLRPFHEPKLNVVVGELGVNGTLLGNLRDQSVRHNVQSGHLLRTKLRGVGDSPYLF YVEKSVNSETKLHKLADFAIDWAHNNGLILRTKQFLNKSDVAEFAPVSLLPSPFPRHAFEKAVAVHEALQLLYFRVACDYEFMMDAYKDVVNTDNHLRQLVNIIKDAHKQGIKQPTTLLIMRADYMLNTLEYELKQVEVNTGAIGLGIDRRTTELHRQMLRKVGMDTSNSPANNGDSNMIESLFMAWEAFGNKNALFVFLSHERLQYKFELRNIQCQLEELSNGQMKVEYVSLKAGYEQLKLGEDYSLLLNGEIVGVVYSTISALGHQANAREMEARRTIELSNAIKAPSLAIAISSSKKIQQLLTTPGTLERFFPSATEADKVAAIRETFTGLWGLEKSDDQTERRIKDAIENPANYVLKNFYDEALAEKLRTMPHILMQKLIPMATKNYFLRPFHEPKLNVVVGELGVNGTLLGNLRDQSVRHNVQSGHLLRTKLRTGVGDSPYLF 5of3-a1-m1-cA_5of3-a1-m1-cD Crystal structure of the heterotrimeric PriSLX primase from S. solfataricus. Q97Z83 Q97Z83 2.906 X-RAY DIFFRACTION 34 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 319 319 TNLIKSFFRNYYLNAELELPKDMELREFALQPFGSDTYVRHLSFSSSEELRDYLVNRNLPLHLFYSSARYQLPSARNMEEKAWMGSDLLFDIDADHLCKLRSIRFCPVCGNAVVSEKCERDNVETLEYVEMTSECIKRGLEQTRNLVEILEDDFGLKPKVYFSGNRGFHVQVDCYGNCALLDSDERKEIAEYVMGIGVPGYPGGSENAPGWVGRKNRGINGVTIDEQVTIDVKRLIRIPNSLHGKSGLIVKRVPNLDDFEFNETLSPFTGYTIFLPYITIETEVLGSIIKLNRGIPIKIKSSIGIYLHLRNLGEVKAYV TNLIKSFFRNYYLNAELELPKDMELREFALQPFGSDTYVRHLSFSSSEELRDYLVNRNLPLHLFYSSARYQLPSARNMEEKAWMGSDLLFDIDADHLCKLRSIRFCPVCGNAVVSEKCERDNVETLEYVEMTSECIKRGLEQTRNLVEILEDDFGLKPKVYFSGNRGFHVQVDCYGNCALLDSDERKEIAEYVMGIGVPGYPGGSENAPGWVGRKNRGINGVTIDEQVTIDVKRLIRIPNSLHGKSGLIVKRVPNLDDFEFNETLSPFTGYTIFLPYITIETEVLGSIIKLNRGIPIKIKSSIGIYLHLRNLGEVKAYV 5ofb-a1-m1-cA_5ofb-a1-m1-cB Crystal structure of human MORC2 (residues 1-603) with spinal muscular atrophy mutation S87L Q9Y6X9 Q9Y6X9 2.02 X-RAY DIFFRACTION 210 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 534 541 5of9-a1-m1-cA_5of9-a1-m1-cB 5ofa-a1-m1-cA_5ofa-a1-m1-cB MAFTNYSSLNRAQLTFEYLHTNSTTHEFLFGALAELVDNARDADATRIDIYAERREDLRGGFMLCFLDDGAGMDPSDAASVIQFGKLTQIGQYGNGLKSGSMRIGKDFILFTKKEDTMTCLFLSRTFHEEEGIDEVIVPLPTWNARTREPVTDNVEKFAIETELIYKYSPFRTEEEVMTQFMKIPGDSGTLVIIFNLKLMDNGEPELDIISNPRDIQMAETSPEGTKPERRSFRAYAAVLYIDPRMRIFIHGHKVQTKRLSCCLYKPRMYKYTSSRFKTRAEQEVKKAEHVARIAEEKAREAESKARTLEVRLGGDLTRDSRVMLRQVQNRAITLRREADVKKRIKEAKQRALKEPKELNFVFGVNIEHRDLDGMFIYNCSRLIKMYEKVGPQLEGGMACGGVVGVVDVPYLVLEPTHNKQDFADAKEYRHLLRAMGEHLAQYWKDIAIAQRGIIKFWDEFGYLSANWNQPPSSELRYKRRRAMEIPTTIQCDLCLKWRTLPFDTWVCSMNPDPEQDRCEASEQKQKVPLGTFR MAFTNYSSLNRAQLTFEYLHTNSTTHEFLFGALAELVDNARDADATRIDIYAERREDLRGGFMLCFLDDGAGMDPSDAASVIQFGKLAKRTPESTQIGQYGNGLKSGSMRIGKDFILFTKKEDTMTCLFLSRTFHEEEGIDEVIVPLPTWNARTREPVTDNVEKFAIETELIYKYSPFRTEEEVMTQFMKIPGDSGTLVIIFNLKLMDNGEPELDIISNPRDIQMAETSPEGTKPERRSFRAYAAVLYIDPRMRIFIHGHKVQTKRLSCCLYKPRMYKYTSSRFKTRAEQEVKKAEHVARIAEEKAREAESKARTLEVRLGLTRDSRVMLRQVQNRAITLRREADVKKRIKEAKQRALKEPKELNFVFGVNIEHRDLDGMFIYNCSRLIKMYEKVGPQLEGGMACGGVVGVVDVPYLVLEPTHNKQDFADAKEYRHLLRAMGEHLAQYWKDIAIAQRGIIKFWDEFGYLSANWNQPPSSELRYKRRRAMEIPTTIQCDLCLKWRTLPFYPDTWVCSMNPDPEQDRCEASEQKQKVPLGTFR 5ohd-a1-m1-cA_5ohd-a1-m1-cB Putative inactive (dormant) dimeric state of GHR transmembrane domain P10912 P10912 NOT SOLUTION NMR 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 GSMSQFTCEEDFYFPWLLIIIFGIFGLTVMLFVFLFSKQQRIK GSMSQFTCEEDFYFPWLLIIIFGIFGLTVMLFVFLFSKQQRIK 5ohf-a2-m1-cC_5ohf-a2-m1-cD Globin sensor domain of AfGcHK (FeIII form) in complex with cyanide, partially reduced A7HD43 A7HD43 1.8 X-RAY DIFFRACTION 110 1.0 404589 (Anaeromyxobacter sp. Fw109-5) 404589 (Anaeromyxobacter sp. Fw109-5) 147 152 5ohe-a1-m1-cA_5ohe-a1-m1-cB 5ohe-a2-m1-cC_5ohe-a2-m1-cD 5ohe-a3-m1-cE_5ohe-a3-m1-cF 5ohe-a4-m1-cG_5ohe-a4-m1-cH 5ohf-a1-m1-cA_5ohf-a1-m1-cB 5ohf-a3-m1-cE_5ohf-a3-m1-cF 5ohf-a4-m1-cG_5ohf-a4-m1-cH VFEELKRYVGWGDGDERALRSLHGAAAPHFPRLAEEFYDRILGHEGARTALVQVGHLKVTMIAWLDELLGGPWDEAYWDRRYRIGRVHVRIGLPQHYMFGAMNVHRTGLARLAYERFHGDPPELERVRNALGKVLDLELAVMLHTYR TVFEELKRYVGWGDGDERALRSLHGAAAPHFPRLAEEFYDRILGHEGARTALVGGESQVGHLKVTMIAWLDELLGGPWDEAYWDRRYRIGRVHVRIGLPQHYMFGAMNVHRTGLARLAYERFHGDPPELERVRNALGKVLDLELAVMLHTYR 5ohh-a1-m1-cB_5ohh-a1-m1-cA Crystal structure of human carbonic anhydrase isozyme XIII with 2-[(1S)-2,3-Dihydro-1H-inden-1-ylamino]-3,5,6-trifluoro-4-[(2-hydroxyethyl)thio]benzenesulfonamide Q8N1Q1 Q8N1Q1 1.42 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 258 259 SWGYREHNGPIHWKEFFPIADGDQQSPIEIKTKEVKYDSSLRPLSIKYDPSSAKIISNSGHSFNVDFDDTENKSVLRGGPLTGSYRLRQVHLHWGSADDHGSEHIVDGVSYAAELHVVHWNSDKYPSFVEAAHEPDGLAVLGVFLQIGEPNSQLQKITDTLDSIKEKGKQTRFTNFDLLSLLPPSWDYWTYPGSLTVPPLLESVTWIVLKQPINISSQQLAKFRSLLCTAEGEAAAFLVSNHRPPQPLKGRKVRASFH LSWGYREHNGPIHWKEFFPIADGDQQSPIEIKTKEVKYDSSLRPLSIKYDPSSAKIISNSGHSFNVDFDDTENKSVLRGGPLTGSYRLRQVHLHWGSADDHGSEHIVDGVSYAAELHVVHWNSDKYPSFVEAAHEPDGLAVLGVFLQIGEPNSQLQKITDTLDSIKEKGKQTRFTNFDLLSLLPPSWDYWTYPGSLTVPPLLESVTWIVLKQPINISSQQLAKFRSLLCTAEGEAAAFLVSNHRPPQPLKGRKVRASFH 5ohl-a4-m1-cB_5ohl-a4-m1-cE K6-specific affimer bound to K6 diUb 2.5 X-RAY DIFFRACTION 150 1.0 32630 (synthetic construct) 32630 (synthetic construct) 89 89 5ohl-a1-m2-cA_5ohl-a1-m2-cC 5ohl-a2-m1-cA_5ohl-a2-m1-cC 5ohl-a3-m4-cB_5ohl-a3-m4-cE 5ohl-a5-m5-cD_5ohl-a5-m5-cH 5ohl-a6-m1-cD_5ohl-a6-m1-cH 5ohl-a7-m1-cF_5ohl-a7-m1-cG NSLEIEELARFAVDEHNKKENALLEFVRVVKAKEQSWKDDELFDTMYYLTLEAKDGGKKKLYEAKVWVKASGIVMYQMNFKELQEFKPV NSLEIEELARFAVDEHNKKENALLEFVRVVKAKEQSWKDDELFDTMYYLTLEAKDGGKKKLYEAKVWVKASGIVMYQMNFKELQEFKPV 5ohv-a1-m1-cB_5ohv-a1-m1-cD K33-specific affimer bound to K33 diUb 2.801 X-RAY DIFFRACTION 43 1.0 32630 (synthetic construct) 32630 (synthetic construct) 89 90 5ohm-a1-m1-cB_5ohm-a1-m1-cD 5ohm-a2-m1-cH_5ohm-a2-m1-cF 5ohm-a3-m1-cL_5ohm-a3-m1-cJ NSLEIEELARFAVDEHNKKENALLEFVRVVKAKEQIWEMDASKETMYYLTLEAKDGGKKKLYEAKVWVKMTHWIGAMNNFKELQEFKPV ENSLEIEELARFAVDEHNKKENALLEFVRVVKAKEQIWEMDASKETMYYLTLEAKDGGKKKLYEAKVWVKMTHWIGAMNNFKELQEFKPV 5oi7-a1-m1-cA_5oi7-a1-m1-cB Human CEP85 - coiled coil domain 4 Q6P2H3 Q6P2H3 1.67 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 GESWQKRYDSLQKIVEKQQQKMDQLRSQVQSLEQEVAQEEGTSQALREEAQRRDSALQQLRTAVKELSVQNQDLIEKNLTLQEHLRQA GESWQKRYDSLQKIVEKQQQKMDQLRSQVQSLEQEVAQEEGTSQALREEAQRRDSALQQLRTAVKELSVQNQDLIEKNLTLQEHLRQA 5ojj-a1-m1-cC_5ojj-a1-m1-cA Crystal structure of the Zn-bound ubiquitin-conjugating enzyme Ube2T Q9NPD8 Q9NPD8 1.85 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 151 5ojj-a1-m1-cA_5ojj-a1-m1-cB 5ojj-a1-m1-cC_5ojj-a1-m1-cB 5ojj-a2-m1-cD_5ojj-a2-m1-cE 5ojj-a2-m1-cF_5ojj-a2-m1-cD 5ojj-a2-m1-cF_5ojj-a2-m1-cE ASRLKRELHMLATEPPPGITCWQDKDQMDDLRAQILGGANTPYEKGVFKLEVIIPERYPFEPPQIRFLTPIYHPNIDSAGRICLDVLKLPPKGAWRPSLNIATVLTSIQLLMSEPNPDDPLMADISSEFKYNKPAFLKNARQWTEKHAR ASRLKRELHMLATEPPPGITCWQDKDQMDDLRAQILGGANTPYEKGVFKLEVIIPERYPFEPPQIRFLTPIYHPNIDSAGRICLDVLKLPPKGAWRPSLNIATVLTSIQLLMSEPNPDDPLMADISSEFKYNKPAFLKNARQWTEKHARQK 5ojo-a1-m1-cA_5ojo-a1-m1-cB Sirtuin 5 from Danio rerio in complex with 3-hydroxy-3-methylglutaryl-CPS1 peptide Q6DHI5 Q6DHI5 3.1 X-RAY DIFFRACTION 32 1.0 7955 (Danio rerio) 7955 (Danio rerio) 265 265 6fkz-a1-m1-cA_6fkz-a1-m1-cB SDLTAFREHFAKAKHIAIITGAGVSAESGVPTFRGPGGFWRKWQAQDLATPEAFSRDPSLVWEFYHYRREVMRSKMPNPAHLAIAECEARLGQQGRSVVIITQNIDELHHRAGSKHVYEIHGSLFKTRCMSCGEVKANHKSPICPALDGKGAPDPNTKEARIPVELLPRCERKSCNGLLRPHVVWFGETLDSDILTAVERELEKCDLCLVVGTSSIVYPAAMFAPQVASRGVPVAEFNMECTPATQRFKYHFEGPCGSTLPPALE SDLTAFREHFAKAKHIAIITGAGVSAESGVPTFRGPGGFWRKWQAQDLATPEAFSRDPSLVWEFYHYRREVMRSKMPNPAHLAIAECEARLGQQGRSVVIITQNIDELHHRAGSKHVYEIHGSLFKTRCMSCGEVKANHKSPICPALDGKGAPDPNTKEARIPVELLPRCERKSCNGLLRPHVVWFGETLDSDILTAVERELEKCDLCLVVGTSSIVYPAAMFAPQVASRGVPVAEFNMECTPATQRFKYHFEGPCGSTLPPALE 5ojy-a1-m1-cA_5ojy-a1-m2-cA Co-complex structure of regulator protein 2 (PamR2) with pamamycin 607 from Streptomyces alboniger A0A0D3RJT7 A0A0D3RJT7 1.851 X-RAY DIFFRACTION 170 1.0 132473 (Streptomyces alboniger) 132473 (Streptomyces alboniger) 221 221 5ojx-a1-m1-cA_5ojx-a1-m2-cA QPGSIWLREVKARQPLSREQIVQAAVRLLDEGGVRNLRMRQLADSLNSAPMSLYWHVSTKDDLLELAIDAVFPDPPSRSGTGDWRDDIKAGATDLFEVLLRHSWMIELMGGHPPVGPRALAHTSAIIEILEQAHFSPRQLDSALSAIYYYTVGAALSEASWQAMARQSAESEEEWVSRLGPYLGMATQSHPASLADYVKRSASSSTGQRFHDGLEMVSGMG QPGSIWLREVKARQPLSREQIVQAAVRLLDEGGVRNLRMRQLADSLNSAPMSLYWHVSTKDDLLELAIDAVFPDPPSRSGTGDWRDDIKAGATDLFEVLLRHSWMIELMGGHPPVGPRALAHTSAIIEILEQAHFSPRQLDSALSAIYYYTVGAALSEASWQAMARQSAESEEEWVSRLGPYLGMATQSHPASLADYVKRSASSSTGQRFHDGLEMVSGMG 5ol4-a1-m2-cA_5ol4-a1-m3-cA 1.28 A resolution of Sporosarcina pasteurii urease inhibited in the presence of NBPT P41022 P41022 1.28 X-RAY DIFFRACTION 18 1.0 1474 (Sporosarcina pasteurii) 1474 (Sporosarcina pasteurii) 99 99 1ie7-a2-m1-cA_1ie7-a2-m2-cA 1ie7-a2-m1-cA_1ie7-a2-m3-cA 1ie7-a2-m2-cA_1ie7-a2-m3-cA 1s3t-a1-m1-cA_1s3t-a1-m2-cA 1s3t-a1-m1-cA_1s3t-a1-m3-cA 1s3t-a1-m2-cA_1s3t-a1-m3-cA 1ubp-a1-m1-cA_1ubp-a1-m2-cA 1ubp-a1-m1-cA_1ubp-a1-m3-cA 1ubp-a1-m2-cA_1ubp-a1-m3-cA 2ubp-a2-m1-cA_2ubp-a2-m2-cA 2ubp-a2-m1-cA_2ubp-a2-m3-cA 2ubp-a2-m2-cA_2ubp-a2-m3-cA 3ubp-a2-m1-cA_3ubp-a2-m2-cA 3ubp-a2-m1-cA_3ubp-a2-m3-cA 3ubp-a2-m2-cA_3ubp-a2-m3-cA 4ac7-a1-m1-cA_4ac7-a1-m2-cA 4ac7-a1-m1-cA_4ac7-a1-m3-cA 4ac7-a1-m2-cA_4ac7-a1-m3-cA 4ceu-a1-m1-cA_4ceu-a1-m2-cA 4ceu-a1-m1-cA_4ceu-a1-m3-cA 4ceu-a1-m2-cA_4ceu-a1-m3-cA 4cex-a1-m1-cA_4cex-a1-m2-cA 4cex-a1-m1-cA_4cex-a1-m3-cA 4cex-a1-m2-cA_4cex-a1-m3-cA 4ubp-a2-m1-cA_4ubp-a2-m2-cA 4ubp-a2-m1-cA_4ubp-a2-m3-cA 4ubp-a2-m2-cA_4ubp-a2-m3-cA 5a6t-a1-m1-cA_5a6t-a1-m2-cA 5a6t-a1-m1-cA_5a6t-a1-m3-cA 5a6t-a1-m2-cA_5a6t-a1-m3-cA 5fsd-a1-m1-cA_5fsd-a1-m2-cA 5fsd-a1-m1-cA_5fsd-a1-m3-cA 5fsd-a1-m2-cA_5fsd-a1-m3-cA 5fse-a1-m1-cA_5fse-a1-m2-cA 5fse-a1-m1-cA_5fse-a1-m3-cA 5fse-a1-m2-cA_5fse-a1-m3-cA 5g4h-a1-m1-cA_5g4h-a1-m2-cA 5g4h-a1-m1-cA_5g4h-a1-m3-cA 5g4h-a1-m2-cA_5g4h-a1-m3-cA 5ol4-a1-m1-cA_5ol4-a1-m2-cA 5ol4-a1-m1-cA_5ol4-a1-m3-cA 6g48-a1-m1-cA_6g48-a1-m2-cA 6g48-a1-m1-cA_6g48-a1-m3-cA 6g48-a1-m2-cA_6g48-a1-m3-cA 6h8j-a1-m1-cA_6h8j-a1-m2-cA 6h8j-a1-m1-cA_6h8j-a1-m3-cA 6h8j-a1-m2-cA_6h8j-a1-m3-cA 6i9y-a1-m1-cA_6i9y-a1-m2-cA 6i9y-a1-m1-cA_6i9y-a1-m3-cA 6i9y-a1-m2-cA_6i9y-a1-m3-cA 6qdy-a1-m1-cA_6qdy-a1-m2-cA 6qdy-a1-m1-cA_6qdy-a1-m3-cA 6qdy-a1-m2-cA_6qdy-a1-m3-cA 6rkg-a1-m1-cA_6rkg-a1-m2-cA 6rkg-a1-m1-cA_6rkg-a1-m3-cA 6rkg-a1-m2-cA_6rkg-a1-m3-cA 6rp1-a1-m1-cA_6rp1-a1-m2-cA 6rp1-a1-m1-cA_6rp1-a1-m3-cA 6rp1-a1-m2-cA_6rp1-a1-m3-cA 6zny-a1-m1-cAAA_6zny-a1-m2-cAAA 6zny-a1-m1-cAAA_6zny-a1-m3-cAAA 6zny-a1-m2-cAAA_6zny-a1-m3-cAAA 6znz-a1-m1-cAAA_6znz-a1-m2-cAAA 6znz-a1-m1-cAAA_6znz-a1-m3-cAAA 6znz-a1-m2-cAAA_6znz-a1-m3-cAAA 6zo0-a1-m1-cAAA_6zo0-a1-m2-cAAA 6zo0-a1-m1-cAAA_6zo0-a1-m3-cAAA 6zo0-a1-m2-cAAA_6zo0-a1-m3-cAAA 6zo1-a1-m1-cAAA_6zo1-a1-m2-cAAA 6zo1-a1-m1-cAAA_6zo1-a1-m3-cAAA 6zo1-a1-m2-cAAA_6zo1-a1-m3-cAAA 6zo2-a1-m1-cAAA_6zo2-a1-m2-cAAA 6zo2-a1-m1-cAAA_6zo2-a1-m3-cAAA 6zo2-a1-m2-cAAA_6zo2-a1-m3-cAAA 6zo3-a1-m1-cAAA_6zo3-a1-m2-cAAA 6zo3-a1-m1-cAAA_6zo3-a1-m3-cAAA 6zo3-a1-m2-cAAA_6zo3-a1-m3-cAAA 7b58-a1-m1-cAAA_7b58-a1-m2-cAAA 7b58-a1-m1-cAAA_7b58-a1-m3-cAAA 7b58-a1-m2-cAAA_7b58-a1-m3-cAAA 7b59-a1-m1-cAAA_7b59-a1-m2-cAAA 7b59-a1-m1-cAAA_7b59-a1-m3-cAAA 7b59-a1-m2-cAAA_7b59-a1-m3-cAAA 7b5a-a1-m1-cAAA_7b5a-a1-m2-cAAA 7b5a-a1-m1-cAAA_7b5a-a1-m3-cAAA 7b5a-a1-m2-cAAA_7b5a-a1-m3-cAAA 7p7n-a1-m1-cAAA_7p7n-a1-m2-cAAA 7p7n-a1-m1-cAAA_7p7n-a1-m3-cAAA 7p7n-a1-m2-cAAA_7p7n-a1-m3-cAAA 7p7o-a1-m1-cAAA_7p7o-a1-m2-cAAA 7p7o-a1-m1-cAAA_7p7o-a1-m3-cAAA 7p7o-a1-m2-cAAA_7p7o-a1-m3-cAAA 7zcy-a1-m1-cA_7zcy-a1-m2-cA 7zcy-a1-m1-cA_7zcy-a1-m3-cA 7zcy-a1-m2-cA_7zcy-a1-m3-cA HLNPAEKEKLQIFLASELALKRKARGLKLNYPEAVAIITSFIMEGARDGKTVAMLMEEGKHVLTRDDVMEGVPEMIDDIQAEATFPDGTKLVTVHNPIS HLNPAEKEKLQIFLASELALKRKARGLKLNYPEAVAIITSFIMEGARDGKTVAMLMEEGKHVLTRDDVMEGVPEMIDDIQAEATFPDGTKLVTVHNPIS 5ol6-a1-m1-cA_5ol6-a1-m1-cB Crystal structure of an inactivated Npu SICLOPPS intein with CAFHPQ extein B2J066 B2J066 2 X-RAY DIFFRACTION 35 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 145 145 MVKIATRKYLGKQNVYDIGVERDHNFALKNGFIASACAFHPQALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMTVDGQMLPIDEIFERELDLMRVDNLPNH MVKIATRKYLGKQNVYDIGVERDHNFALKNGFIASACAFHPQALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMTVDGQMLPIDEIFERELDLMRVDNLPNH 5ol7-a1-m1-cA_5ol7-a1-m2-cA Crystal structure of an inactivated Npu SICLOPPS intein with CFAHPQ extein B2J066 B2J066 1.6 X-RAY DIFFRACTION 29 1.0 63737 (Nostoc punctiforme PCC 73102) 63737 (Nostoc punctiforme PCC 73102) 143 143 MVKIATRKYLGKQNVYDIGVERDHNFALKNGFIASACFAHPQALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMTVDGQMLPIDEIFERELDLMRVDNLP MVKIATRKYLGKQNVYDIGVERDHNFALKNGFIASACFAHPQALSYETEILTVEYGLLPIGKIVEKRIECTVYSVDNNGNIYTQPVAQWHDRGEQEVFEYCLEDGSLIRATKDHKFMTVDGQMLPIDEIFERELDLMRVDNLP 5ola-a2-m1-cD_5ola-a2-m1-cC Structure of mitochondrial transcription elongation complex in complex with elongation factor TEFM Q96QE5 Q96QE5 3.904 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 212 5ol8-a1-m1-cA_5ol8-a1-m1-cB 5ol8-a2-m1-cC_5ol8-a2-m1-cD 5ola-a1-m1-cB_5ola-a1-m1-cA LRKLLKPDIERERLKAVNSIISIVFGTRRIAWAHLDRKLTVLDWQQSDRWSLMRGIYSSSVYLEEISSIISKMPKADFYVLEKTGLSIQNSSLFPILLHFHIMEAMLYALLNKTFAQDGQHQVLSMNRNAVGKHFELMIGDSRTSGKELVKQFLFDSILKADPRVFFPSDKIVHYRQMFLSTELQRVEELYDSLLQAIAFYELAVFD PENRFLRKLLKPDIERERLKAVNSIISIVFGTRRIAWAHLDRKLTVLDWQQSDRWSLMRGIYSSSVYLEEISSIISKMPKADFYVLEKTGLSIQNSSLFPILLHFHIMEAMLYALLNKTFAQDGQHQVLSMNRNAVGKHFELMIGDSRTSGKELVKQFLFDSILKADPRVFFPSDKIVHYRQMFLSTELQRVEELYDSLLQAIAFYELAVFD 5olk-a1-m1-cD_5olk-a1-m1-cA Crystal structure of the ATP-cone-containing NrdB from Leeuwenhoekiella blandensis A3XHF9 A3XHF9 2.45 X-RAY DIFFRACTION 23 1.0 398720 (Leeuwenhoekiella blandensis MED217) 398720 (Leeuwenhoekiella blandensis MED217) 393 395 5olk-a1-m1-cB_5olk-a1-m1-cC IKKIIKRDYSTAPFVLEKITNAIANAMAALGHGSEQDAKLISMQVYESLLNNKEQESEYIPTVEQVQDMVEDKLMSSEFHDVAKAYIIYRNKRALERKTNIFEKRINLKPYEYPELNEYVAAIRHSYWIHTEFNFTSDIQDFKTGLSEVERSAIKNTMLAISQIEVAVKTFWGDVHHRLPKPEIAAVGATFAESEVRHHDAYSHLLEILGLNEEFKELKKKPVIMKRVHYLETSLKHAKSDDDREYTESILLFALFIEHVSLFSQFLIIMAFNKHKNMLKGISNAVEATSKEEQIHGDFGVDIINIIKKENPEWFDEEHNNLIKEMCLNSFEAESKVVDWIFEKGELDFLPKAVINEFLKNRFNKSLEAIGLEKLFDIDEALLQETEWFDDEI EIKKIIKRDYSTAPFVLEKITNAIANAMAALGHGSEQDAKLISMQVYESLLNNKEQESEYIPTVEQVQDMVEDKLMSSEFHDVAKAYIIYRNKRALERKTNIFEKRINLKPYEYPELNEYVAAIRHSYWIHTEFNFTSDIQDFKTGLSEVERSAIKNTMLAISQIEVAVKTFWGDVHHRLPKPEIAAVGATFAESEVRHHDAYSHLLEILGLNEEFKELKKKPVIMKRVHYLETSLKHAKSDDDREYTESILLFALFIEHVSLFSQFLIIMAFNKHKNMLKGISNAVEATSKEEQIHGDFGVDIINIIKKENPEWFDEEHNNLIKEMCLNSFEAESKVVDWIFEKGELDFLPKAVINEFLKNRFNKSLEAIGLEKLFDIDEALLQETEWFDDEII 5oll-a1-m2-cA_5oll-a1-m3-cA Crystal structure of gurmarin, a sweet taste suppressing polypeptide P25810 P25810 1.45 X-RAY DIFFRACTION 26 1.0 4068 (Gymnema sylvestre) 4068 (Gymnema sylvestre) 35 35 5oll-a1-m1-cA_5oll-a1-m2-cA 5oll-a1-m1-cA_5oll-a1-m3-cA EQCVKKDELCIPYYLDCCEPLECKKVNWWDHKCIG EQCVKKDELCIPYYLDCCEPLECKKVNWWDHKCIG 5om9-a1-m1-cB_5om9-a1-m1-cA Crystal structure of the human CARBOXYPEPTIDASE A1 in complex with a thiirane mechanism-based inhibitor P15085 P15085 1.8 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 392 396 KEDFVGHQVLRISVADEAQVQKVKELEDLEHLQLDFWRGPAHPGSPIDVRVPFPSIQAVKIFLESHGISYETMIEDVQSLLDEEQRSTDTFNYATYHTLEEIYDFLDLLVAENPHLVSKIQIGNTYEGRPIYVLKFSTGGSKRPAIWIDTGIHSREWVTQASGVWFAKKITQDYGQDAAFTAILDTLDIFLEIVTNPDGFAFTHSTNRMWRKTRSHTAGSLCIGVDPNRNWDAGFGLSGASSNPCSETYHGKFANSEVEVKSIVDFVKDHGNIKAFISIHSYSQLLMYPYGYKTEPVPDQDELDQLSKAAVTALASLYGTKFNYGSIIKAIYQASGSTIDWTYSQGIKYSFTFELRDTGRYGFLLPASQIIPTAKETWLALLTIMEHTLNHP KEDFVGHQVLRISVADEAQVQKVKELEDLEHLQLDFWRGPAHPGSPIDVRVPFPSIQAVKIFLESHGISYETMIEDVQSLLDEEQEQMFRSTDTFNYATYHTLEEIYDFLDLLVAENPHLVSKIQIGNTYEGRPIYVLKFSTGGSKRPAIWIDTGIHSREWVTQASGVWFAKKITQDYGQDAAFTAILDTLDIFLEIVTNPDGFAFTHSTNRMWRKTRSHTAGSLCIGVDPNRNWDAGFGLSGASSNPCSETYHGKFANSEVEVKSIVDFVKDHGNIKAFISIHSYSQLLMYPYGYKTEPVPDQDELDQLSKAAVTALASLYGTKFNYGSIIKAIYQASGSTIDWTYSQGIKYSFTFELRDTGRYGFLLPASQIIPTAKETWLALLTIMEHTLNHP 5omb-a1-m1-cC_5omb-a1-m1-cD Crystal structure of K. lactis Ddc2 N-terminus in complex with S. cerevisiae Rfa1 N-OB domain Q6CUV9 Q6CUV9 1.94 X-RAY DIFFRACTION 91 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 98 98 5omc-a1-m1-cC_5omc-a1-m1-cD DDDDILELVNRPPMSQMAVPIKPPESQAEQLMKAKGEVGVLRQKLSMLEKTLREHDDNQKKLESSLKSSHEEEVTKLKIELERLEDERKFMLLEQKHL DDDDILELVNRPPMSQMAVPIKPPESQAEQLMKAKGEVGVLRQKLSMLEKTLREHDDNQKKLESSLKSSHEEEVTKLKIELERLEDERKFMLLEQKHL 5omd-a1-m1-cA_5omd-a1-m2-cA Crystal structure of S. cerevisiae Ddc2 N-terminal coiled-coil domain Q04377 Q04377 2.1 X-RAY DIFFRACTION 70 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 61 61 PGEASMLRDKINFLNIEREKEKNIQAVKVNELQVKHLQELAKLKQELQKLEDEKKFLQMEA PGEASMLRDKINFLNIEREKEKNIQAVKVNELQVKHLQELAKLKQELQKLEDEKKFLQMEA 5on7-a1-m1-cB_5on7-a1-m1-cA The ENTH domain from epsin-2 in complex with phosphatidylinositol 4,5-bisphosphate (PIP2) Q05785 Q05785 3.35 X-RAY DIFFRACTION 33 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 142 147 VRSAKNMMKGYSSTQVLVRDATANDSRTPSIDTLDDLAQRSYDSVDFFEIMDMLDKRLNDKGKYWRHVAKSLTVLDYLVRFGSENCVLWCRENFYVIKTLREFRHENESGFDEGQIIRVKAKELVSLLNDEERLREERSMNT MSKQFVRSAKNMMKGYSSTQVLVRDATANDSRTPSIDTLDDLAQRSYDSVDFFEIMDMLDKRLNDKGKYWRHVAKSLTVLDYLVRFGSENCVLWCRENFYVIKTLREFRHENESGFDEGQIIRVKAKELVSLLNDEERLREERSMNT 5onf-a1-m1-cA_5onf-a1-m1-cC The ENTH domain from epsin-1 Q12518 Q12518 2.8 X-RAY DIFFRACTION 23 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 147 147 MSKQFVRSAKNLVKGYSSTQVLVRNATSNDNHQVSKDSLIELAEKSYDSADFFEIMDMLDKRLNDKGKYWRHIAKALTVIDYLIRFGSENCVLWCRENLYIIKTLKEFRHEDDEGIDQGQIVRVKAKELTALLSDDERLNEERNMNI MSKQFVRSAKNLVKGYSSTQVLVRNATSNDNHQVSKDSLIELAEKSYDSADFFEIMDMLDKRLNDKGKYWRHIAKALTVIDYLIRFGSENCVLWCRENLYIIKTLKEFRHEDDEGIDQGQIVRVKAKELTALLSDDERLNEERNMNI 5onj-a1-m1-cD_5onj-a1-m1-cA YnDL in Complex with 5 amino acid (PGA) complex O31815 1.7 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 1423 (Bacillus subtilis) 1 202 E EDVYQNFEELKNNEDPSDYGVVTKETGSPVLVLAIHGGGIEGGTSEVARELSKEYSMYLFEGLKSAGNSVLHITSTHFDEPRALKMTGNHEYVISLHGYAEEDQQIEVGGTDRVRAADLVEKLQHAGFPAVLLNMDHPHAGVSPNNIANKSKTGLSIQIEMSTGFRKSLFGIFSLKSRAVTQNERFYEFTEVMFRFLKNSYL 5oo7-a1-m1-cB_5oo7-a1-m1-cA The ENTH domain from epsin-2 in complex with phosphatidylinositol 4,5-bisphosphate (PIP2) G0S106 G0S106 1.84 X-RAY DIFFRACTION 42 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 256 257 LDHAKAEAELAINIKKATSPEETAPKRKHVRSCIVYTWDHKSSLSFWAGLKVQPILADEVQTFKALITIHKVLQEGHPVTLREAMANRGWIDSLSRGMMGEGVRGYGPLIREYVHFLLAKLSFHKQHPEFNGTFEYEEYISLKAIHDPNEGYETITDLMTLQDKIDQFQKLIFSHFRHIGNNECRISALVPLVAESYGIYKFITSMLRAMHSSTGDNEALEPLRQRYDAQHYRLVKFYYECSNLRYLTSLITIPKL SLDHAKAEAELAINIKKATSPEETAPKRKHVRSCIVYTWDHKSSLSFWAGLKVQPILADEVQTFKALITIHKVLQEGHPVTLREAMANRGWIDSLSRGMMGEGVRGYGPLIREYVHFLLAKLSFHKQHPEFNGTFEYEEYISLKAIHDPNEGYETITDLMTLQDKIDQFQKLIFSHFRHIGNNECRISALVPLVAESYGIYKFITSMLRAMHSSTGDNEALEPLRQRYDAQHYRLVKFYYECSNLRYLTSLITIPKL 5oo7-a2-m1-cB_5oo7-a2-m2-cA The ENTH domain from epsin-2 in complex with phosphatidylinositol 4,5-bisphosphate (PIP2) G0S106 G0S106 1.84 X-RAY DIFFRACTION 40 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 256 257 LDHAKAEAELAINIKKATSPEETAPKRKHVRSCIVYTWDHKSSLSFWAGLKVQPILADEVQTFKALITIHKVLQEGHPVTLREAMANRGWIDSLSRGMMGEGVRGYGPLIREYVHFLLAKLSFHKQHPEFNGTFEYEEYISLKAIHDPNEGYETITDLMTLQDKIDQFQKLIFSHFRHIGNNECRISALVPLVAESYGIYKFITSMLRAMHSSTGDNEALEPLRQRYDAQHYRLVKFYYECSNLRYLTSLITIPKL SLDHAKAEAELAINIKKATSPEETAPKRKHVRSCIVYTWDHKSSLSFWAGLKVQPILADEVQTFKALITIHKVLQEGHPVTLREAMANRGWIDSLSRGMMGEGVRGYGPLIREYVHFLLAKLSFHKQHPEFNGTFEYEEYISLKAIHDPNEGYETITDLMTLQDKIDQFQKLIFSHFRHIGNNECRISALVPLVAESYGIYKFITSMLRAMHSSTGDNEALEPLRQRYDAQHYRLVKFYYECSNLRYLTSLITIPKL 5opg-a1-m2-cA_5opg-a1-m4-cA Structure of the Hantaan virus Gn glycoprotein ectodomain A0A077D153 A0A077D153 2.15 X-RAY DIFFRACTION 91 1.0 1980471 () 1980471 () 334 334 5opg-a1-m1-cA_5opg-a1-m3-cA 5opg-a1-m1-cA_5opg-a1-m4-cA 5opg-a1-m2-cA_5opg-a1-m3-cA NVYDMKIECPHTVSFGENSVIGYVELPPMPLADTAQMVPESSCSMDNHQSINTITKYTQVIWRGKADPGQSSQNSFETVSTEVDLKGTCVLKHKMVEESYRSRKSITCYDLSCNSTFCKPTLYMIVPIHACNMMKSCLIALGPYRVQVVYERTYCMTGVLIEGKCFVPDHGIFDIASVHVVCFFVAVKGNTYKLFEQVKKSFESTCNDTENKVQGYYICIVGGNSAPIYVPTLDDFRSMEAFTGIFKSPHGEASYSIVGPANAKVPHSASSDTLSLIAYSGIPSYSSLSILTSSTDAKHVFSPGLFPKLNHTNCDKSAIPLTWTGMIDLPGYYE NVYDMKIECPHTVSFGENSVIGYVELPPMPLADTAQMVPESSCSMDNHQSINTITKYTQVIWRGKADPGQSSQNSFETVSTEVDLKGTCVLKHKMVEESYRSRKSITCYDLSCNSTFCKPTLYMIVPIHACNMMKSCLIALGPYRVQVVYERTYCMTGVLIEGKCFVPDHGIFDIASVHVVCFFVAVKGNTYKLFEQVKKSFESTCNDTENKVQGYYICIVGGNSAPIYVPTLDDFRSMEAFTGIFKSPHGEASYSIVGPANAKVPHSASSDTLSLIAYSGIPSYSSLSILTSSTDAKHVFSPGLFPKLNHTNCDKSAIPLTWTGMIDLPGYYE 5opq-a2-m1-cD_5opq-a2-m1-cC A 3,6-anhydro-D-galactosidase produced by Zobellia galactanivorans. This is an exo-lytic enzyme that hydrolyzes terminal 3,6-anhydro-D-galactose from the non-reducing end of carrageenan oligosaccharides. G0L004 G0L004 1.7 X-RAY DIFFRACTION 254 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 658 659 5opq-a1-m1-cA_5opq-a1-m1-cB IVLENGKLNINIDSKTGCFSVTEKTSGHVWKSDPWENAAGLLTLTDSKGKKQTVNISKSKKIEVSKTAKNTVSLKFIDPVFEDGSVAKGVSIATELRLDPNNAQLDVEVTEHRSGNFTLYDLRYPARAFSLKTDEDKGAAVIPQKQGVICPSYIFPMNGGRFCKWDDATYNNKSQGSLELFNNGTGLTMPWWGTYNEKSAVMGIVDVSARPHMQYNINNNGQYLFNAKGVMSPYQRIVFLDPIWKLDQEKGKMRISYHFIPGGDYVDMAKVYQKEAKARGHFVSLQEKLKRNPNVNKLPGAIYFGIYGGYPHYVNMPGMAFTFDELKNIIKTIHDDLRVDKAFVHAWGTFSNFVPHNYPISEALGGPEKLKAAVDLAKSYGYLYSSYHAYSPMLENDPNFTTDLMQRDAEGKLMNTGSRWARVDPKFQKGLAQKNIEKEISYLGLEADITDITFAAYRENGKEGRIELAKYIDSFNLVNGTEHGQEQWIPYFDMFEGMTYLEDRPLSVISHPAPLFNLVYHEAIANFGKIQDPDNEVTANGDFRIKALRSMLFGRGTTIFFAPYEFEGMRPMIEMARDLVSPVHKETFYSELKSHEYLSADYKVQRSRFSSGTEVIANLGPVAQKIEGGISIPGYGYRIQMKDGSLKTGHFQVSLHMD PIVLENGKLNINIDSKTGCFSVTEKTSGHVWKSDPWENAAGLLTLTDSKGKKQTVNISKSKKIEVSKTAKNTVSLKFIDPVFEDGSVAKGVSIATELRLDPNNAQLDVEVTEHRSGNFTLYDLRYPARAFSLKTDEDKGAAVIPQKQGVICPSYIFPMNGGRFCKWDDATYNNKSQGSLELFNNGTGLTMPWWGTYNEKSAVMGIVDVSARPHMQYNINNNGQYLFNAKGVMSPYQRIVFLDPIWKLDQEKGKMRISYHFIPGGDYVDMAKVYQKEAKARGHFVSLQEKLKRNPNVNKLPGAIYFGIYGGYPHYVNMPGMAFTFDELKNIIKTIHDDLRVDKAFVHAWGTFSNFVPHNYPISEALGGPEKLKAAVDLAKSYGYLYSSYHAYSPMLENDPNFTTDLMQRDAEGKLMNTGSRWARVDPKFQKGLAQKNIEKEISYLGLEADITDITFAAYRENGKEGRIELAKYIDSFNLVNGTEHGQEQWIPYFDMFEGMTYLEDRPLSVISHPAPLFNLVYHEAIANFGKIQDPDNEVTANGDFRIKALRSMLFGRGTTIFFAPYEFEGMRPMIEMARDLVSPVHKETFYSELKSHEYLSADYKVQRSRFSSGTEVIANLGPVAQKIEGGISIPGYGYRIQMKDGSLKTGHFQVSLHMD 5opw-a1-m1-cB_5opw-a1-m1-cL Crystal structure of the GroEL mutant A109C P0A6F5 P0A6F5 3.19 X-RAY DIFFRACTION 11 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 524 524 1grl-a1-m1-cA_1grl-a1-m2-cG 1grl-a1-m1-cB_1grl-a1-m2-cF 1grl-a1-m1-cC_1grl-a1-m2-cE 1grl-a1-m1-cE_1grl-a1-m2-cC 1grl-a1-m1-cF_1grl-a1-m2-cB 1grl-a1-m1-cG_1grl-a1-m2-cA 1kp8-a1-m1-cA_1kp8-a1-m1-cM 1kp8-a1-m1-cB_1kp8-a1-m1-cL 1kp8-a1-m1-cC_1kp8-a1-m1-cK 1kp8-a1-m1-cD_1kp8-a1-m1-cJ 1kp8-a1-m1-cE_1kp8-a1-m1-cI 1kp8-a1-m1-cF_1kp8-a1-m1-cH 1kp8-a1-m1-cG_1kp8-a1-m1-cN 1mnf-a1-m1-cA_1mnf-a1-m1-cM 1mnf-a1-m1-cB_1mnf-a1-m1-cL 1mnf-a1-m1-cC_1mnf-a1-m1-cK 1mnf-a1-m1-cD_1mnf-a1-m1-cJ 1mnf-a1-m1-cE_1mnf-a1-m1-cI 1mnf-a1-m1-cF_1mnf-a1-m1-cH 1mnf-a1-m1-cG_1mnf-a1-m1-cN 1oel-a1-m1-cA_1oel-a1-m2-cG 1oel-a1-m1-cB_1oel-a1-m2-cF 1oel-a1-m1-cC_1oel-a1-m2-cE 1oel-a1-m1-cD_1oel-a1-m2-cD 1oel-a1-m1-cE_1oel-a1-m2-cC 1oel-a1-m1-cF_1oel-a1-m2-cB 1oel-a1-m1-cG_1oel-a1-m2-cA 1ss8-a1-m1-cA_1ss8-a1-m2-cG 1ss8-a1-m1-cB_1ss8-a1-m2-cF 1ss8-a1-m1-cC_1ss8-a1-m2-cE 1ss8-a1-m1-cD_1ss8-a1-m2-cD 1ss8-a1-m1-cE_1ss8-a1-m2-cC 1ss8-a1-m1-cF_1ss8-a1-m2-cB 1ss8-a1-m1-cG_1ss8-a1-m2-cA 1sx3-a1-m1-cA_1sx3-a1-m1-cM 1sx3-a1-m1-cB_1sx3-a1-m1-cL 1sx3-a1-m1-cC_1sx3-a1-m1-cK 1sx3-a1-m1-cD_1sx3-a1-m1-cJ 1sx3-a1-m1-cE_1sx3-a1-m1-cI 1sx3-a1-m1-cF_1sx3-a1-m1-cH 1sx3-a1-m1-cG_1sx3-a1-m1-cN 1xck-a3-m1-cA_1xck-a3-m1-cM 1xck-a3-m1-cB_1xck-a3-m1-cL 1xck-a3-m1-cC_1xck-a3-m1-cK 1xck-a3-m1-cD_1xck-a3-m1-cJ 1xck-a3-m1-cE_1xck-a3-m1-cI 1xck-a3-m1-cF_1xck-a3-m1-cH 1xck-a3-m1-cG_1xck-a3-m1-cN 2nwc-a1-m1-cA_2nwc-a1-m1-cM 2nwc-a1-m1-cB_2nwc-a1-m1-cL 2nwc-a1-m1-cC_2nwc-a1-m1-cK 2nwc-a1-m1-cD_2nwc-a1-m1-cJ 2nwc-a1-m1-cE_2nwc-a1-m1-cI 2nwc-a1-m1-cF_2nwc-a1-m1-cH 2nwc-a1-m1-cG_2nwc-a1-m1-cN 2yey-a1-m1-cB_2yey-a1-m1-cH 2yey-a1-m1-cC_2yey-a1-m1-cN 2yey-a1-m1-cD_2yey-a1-m1-cM 2yey-a1-m1-cE_2yey-a1-m1-cL 2yey-a1-m1-cF_2yey-a1-m1-cK 2yey-a1-m1-cG_2yey-a1-m1-cJ 2ynj-a1-m1-cA_2ynj-a1-m1-cG 2ynj-a1-m1-cB_2ynj-a1-m1-cN 2ynj-a1-m1-cC_2ynj-a1-m1-cM 2ynj-a1-m1-cD_2ynj-a1-m1-cL 2ynj-a1-m1-cE_2ynj-a1-m1-cK 2ynj-a1-m1-cF_2ynj-a1-m1-cJ 2ynj-a1-m1-cH_2ynj-a1-m1-cI 3e76-a1-m1-cD_3e76-a1-m1-cJ 3e76-a1-m1-cF_3e76-a1-m1-cH 3e76-a1-m1-cG_3e76-a1-m1-cN 4hel-a1-m1-cA_4hel-a1-m1-cM 4hel-a1-m1-cB_4hel-a1-m1-cL 4hel-a1-m1-cC_4hel-a1-m1-cK 4hel-a1-m1-cD_4hel-a1-m1-cJ 4hel-a1-m1-cE_4hel-a1-m1-cI 4hel-a1-m1-cF_4hel-a1-m1-cH 4hel-a1-m1-cG_4hel-a1-m1-cN 4v43-a1-m1-cA_4v43-a1-m1-cM 4v43-a1-m1-cB_4v43-a1-m1-cL 4v43-a1-m1-cC_4v43-a1-m1-cK 4v43-a1-m1-cD_4v43-a1-m1-cJ 4v43-a1-m1-cE_4v43-a1-m1-cI 4v43-a1-m1-cF_4v43-a1-m1-cH 4v43-a1-m1-cG_4v43-a1-m1-cN 4v43-a2-m1-c1_4v43-a2-m1-cO 4v43-a2-m1-c2_4v43-a2-m1-cU 4v43-a2-m1-cP_4v43-a2-m1-cZ 4v43-a2-m1-cQ_4v43-a2-m1-cY 4v43-a2-m1-cR_4v43-a2-m1-cX 4v43-a2-m1-cS_4v43-a2-m1-cW 4v43-a2-m1-cT_4v43-a2-m1-cV 4wgl-a1-m1-cA_4wgl-a1-m1-cK 4wgl-a1-m1-cB_4wgl-a1-m1-cJ 4wgl-a1-m1-cC_4wgl-a1-m1-cI 4wgl-a1-m1-cD_4wgl-a1-m1-cH 4wgl-a1-m1-cE_4wgl-a1-m1-cN 4wgl-a1-m1-cF_4wgl-a1-m1-cM 4wgl-a1-m1-cG_4wgl-a1-m1-cL 4wsc-a1-m1-cB_4wsc-a1-m1-cL 4wsc-a1-m1-cC_4wsc-a1-m1-cK 4wsc-a1-m1-cD_4wsc-a1-m1-cJ 4wsc-a1-m1-cE_4wsc-a1-m1-cI 4wsc-a1-m1-cF_4wsc-a1-m1-cH 4wsc-a1-m1-cG_4wsc-a1-m1-cN 5opw-a1-m1-cA_5opw-a1-m1-cM 5opw-a1-m1-cC_5opw-a1-m1-cK 5opw-a1-m1-cE_5opw-a1-m1-cI 5opw-a1-m1-cF_5opw-a1-m1-cH 5opw-a1-m1-cG_5opw-a1-m1-cN 5w0s-a1-m1-cA_5w0s-a1-m1-cJ 5w0s-a1-m1-cB_5w0s-a1-m1-cI 5w0s-a1-m1-cC_5w0s-a1-m1-cH 5w0s-a1-m1-cD_5w0s-a1-m1-cN 5w0s-a1-m1-cE_5w0s-a1-m1-cM 5w0s-a1-m1-cF_5w0s-a1-m1-cL 5w0s-a1-m1-cG_5w0s-a1-m1-cK 7xoj-a1-m1-cA_7xoj-a1-m1-cM 7xoj-a1-m1-cB_7xoj-a1-m1-cL 7xoj-a1-m1-cC_7xoj-a1-m1-cK 7xoj-a1-m1-cD_7xoj-a1-m1-cJ 7xoj-a1-m1-cE_7xoj-a1-m1-cI 7xoj-a1-m1-cF_7xoj-a1-m1-cH 7xoj-a1-m1-cG_7xoj-a1-m1-cN 7xok-a1-m1-cA_7xok-a1-m1-cM 7xok-a1-m1-cB_7xok-a1-m1-cL 7xok-a1-m1-cC_7xok-a1-m1-cK 7xok-a1-m1-cD_7xok-a1-m1-cJ 7xok-a1-m1-cE_7xok-a1-m1-cI 7xok-a1-m1-cF_7xok-a1-m1-cH 7xok-a1-m1-cG_7xok-a1-m1-cN 7xol-a1-m1-cA_7xol-a1-m1-cM 7xol-a1-m1-cB_7xol-a1-m1-cL 7xol-a1-m1-cC_7xol-a1-m1-cK 7xol-a1-m1-cD_7xol-a1-m1-cJ 7xol-a1-m1-cE_7xol-a1-m1-cI 7xol-a1-m1-cF_7xol-a1-m1-cH 7xol-a1-m1-cG_7xol-a1-m1-cN 7xom-a1-m1-cA_7xom-a1-m1-cM 7xom-a1-m1-cB_7xom-a1-m1-cL 7xom-a1-m1-cC_7xom-a1-m1-cK 7xom-a1-m1-cD_7xom-a1-m1-cJ 7xom-a1-m1-cE_7xom-a1-m1-cI 7xom-a1-m1-cF_7xom-a1-m1-cH 7xom-a1-m1-cG_7xom-a1-m1-cN AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVACGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVACGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 5opw-a1-m1-cI_5opw-a1-m1-cJ Crystal structure of the GroEL mutant A109C P0A6F5 P0A6F5 3.19 X-RAY DIFFRACTION 107 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 524 524 1aon-a1-m1-cH_1aon-a1-m1-cI 1aon-a1-m1-cH_1aon-a1-m1-cN 1aon-a1-m1-cI_1aon-a1-m1-cJ 1aon-a1-m1-cJ_1aon-a1-m1-cK 1aon-a1-m1-cK_1aon-a1-m1-cL 1aon-a1-m1-cL_1aon-a1-m1-cM 1aon-a1-m1-cM_1aon-a1-m1-cN 1gr5-a1-m1-cA_1gr5-a1-m1-cB 1gr5-a1-m1-cA_1gr5-a1-m1-cG 1gr5-a1-m1-cB_1gr5-a1-m1-cC 1gr5-a1-m1-cC_1gr5-a1-m1-cD 1gr5-a1-m1-cD_1gr5-a1-m1-cE 1gr5-a1-m1-cE_1gr5-a1-m1-cF 1gr5-a1-m1-cF_1gr5-a1-m1-cG 1gr5-a1-m1-cH_1gr5-a1-m1-cI 1gr5-a1-m1-cH_1gr5-a1-m1-cN 1gr5-a1-m1-cI_1gr5-a1-m1-cJ 1gr5-a1-m1-cJ_1gr5-a1-m1-cK 1gr5-a1-m1-cK_1gr5-a1-m1-cL 1gr5-a1-m1-cL_1gr5-a1-m1-cM 1gr5-a1-m1-cM_1gr5-a1-m1-cN 1grl-a1-m1-cA_1grl-a1-m1-cB 1grl-a1-m1-cA_1grl-a1-m1-cG 1grl-a1-m1-cB_1grl-a1-m1-cC 1grl-a1-m1-cC_1grl-a1-m1-cD 1grl-a1-m1-cD_1grl-a1-m1-cE 1grl-a1-m1-cE_1grl-a1-m1-cF 1grl-a1-m1-cF_1grl-a1-m1-cG 1grl-a1-m2-cA_1grl-a1-m2-cB 1grl-a1-m2-cA_1grl-a1-m2-cG 1grl-a1-m2-cB_1grl-a1-m2-cC 1grl-a1-m2-cC_1grl-a1-m2-cD 1grl-a1-m2-cD_1grl-a1-m2-cE 1grl-a1-m2-cE_1grl-a1-m2-cF 1grl-a1-m2-cF_1grl-a1-m2-cG 1grl-a2-m1-cA_1grl-a2-m1-cB 1grl-a2-m1-cA_1grl-a2-m1-cG 1grl-a2-m1-cB_1grl-a2-m1-cC 1grl-a2-m1-cC_1grl-a2-m1-cD 1grl-a2-m1-cD_1grl-a2-m1-cE 1grl-a2-m1-cE_1grl-a2-m1-cF 1grl-a2-m1-cF_1grl-a2-m1-cG 1gru-a1-m1-cH_1gru-a1-m1-cI 1gru-a1-m1-cH_1gru-a1-m1-cN 1gru-a1-m1-cI_1gru-a1-m1-cJ 1gru-a1-m1-cJ_1gru-a1-m1-cK 1gru-a1-m1-cK_1gru-a1-m1-cL 1gru-a1-m1-cL_1gru-a1-m1-cM 1gru-a1-m1-cM_1gru-a1-m1-cN 1kp8-a1-m1-cA_1kp8-a1-m1-cB 1kp8-a1-m1-cA_1kp8-a1-m1-cG 1kp8-a1-m1-cB_1kp8-a1-m1-cC 1kp8-a1-m1-cC_1kp8-a1-m1-cD 1kp8-a1-m1-cD_1kp8-a1-m1-cE 1kp8-a1-m1-cE_1kp8-a1-m1-cF 1kp8-a1-m1-cF_1kp8-a1-m1-cG 1kp8-a1-m1-cH_1kp8-a1-m1-cI 1kp8-a1-m1-cH_1kp8-a1-m1-cN 1kp8-a1-m1-cI_1kp8-a1-m1-cJ 1kp8-a1-m1-cJ_1kp8-a1-m1-cK 1kp8-a1-m1-cK_1kp8-a1-m1-cL 1kp8-a1-m1-cL_1kp8-a1-m1-cM 1kp8-a1-m1-cM_1kp8-a1-m1-cN 1mnf-a1-m1-cA_1mnf-a1-m1-cB 1mnf-a1-m1-cA_1mnf-a1-m1-cG 1mnf-a1-m1-cB_1mnf-a1-m1-cC 1mnf-a1-m1-cC_1mnf-a1-m1-cD 1mnf-a1-m1-cD_1mnf-a1-m1-cE 1mnf-a1-m1-cE_1mnf-a1-m1-cF 1mnf-a1-m1-cF_1mnf-a1-m1-cG 1mnf-a1-m1-cH_1mnf-a1-m1-cI 1mnf-a1-m1-cH_1mnf-a1-m1-cN 1mnf-a1-m1-cI_1mnf-a1-m1-cJ 1mnf-a1-m1-cJ_1mnf-a1-m1-cK 1mnf-a1-m1-cK_1mnf-a1-m1-cL 1mnf-a1-m1-cL_1mnf-a1-m1-cM 1mnf-a1-m1-cM_1mnf-a1-m1-cN 1oel-a1-m1-cA_1oel-a1-m1-cB 1oel-a1-m1-cA_1oel-a1-m1-cG 1oel-a1-m1-cB_1oel-a1-m1-cC 1oel-a1-m1-cC_1oel-a1-m1-cD 1oel-a1-m1-cD_1oel-a1-m1-cE 1oel-a1-m1-cE_1oel-a1-m1-cF 1oel-a1-m1-cF_1oel-a1-m1-cG 1oel-a1-m2-cA_1oel-a1-m2-cB 1oel-a1-m2-cA_1oel-a1-m2-cG 1oel-a1-m2-cB_1oel-a1-m2-cC 1oel-a1-m2-cC_1oel-a1-m2-cD 1oel-a1-m2-cD_1oel-a1-m2-cE 1oel-a1-m2-cE_1oel-a1-m2-cF 1oel-a1-m2-cF_1oel-a1-m2-cG 1pcq-a1-m1-cH_1pcq-a1-m1-cI 1pcq-a1-m1-cH_1pcq-a1-m1-cN 1pcq-a1-m1-cI_1pcq-a1-m1-cJ 1pcq-a1-m1-cJ_1pcq-a1-m1-cK 1pcq-a1-m1-cK_1pcq-a1-m1-cL 1pcq-a1-m1-cL_1pcq-a1-m1-cM 1pcq-a1-m1-cM_1pcq-a1-m1-cN 1pf9-a1-m1-cH_1pf9-a1-m1-cI 1pf9-a1-m1-cH_1pf9-a1-m1-cN 1pf9-a1-m1-cI_1pf9-a1-m1-cJ 1pf9-a1-m1-cJ_1pf9-a1-m1-cK 1pf9-a1-m1-cK_1pf9-a1-m1-cL 1pf9-a1-m1-cL_1pf9-a1-m1-cM 1pf9-a1-m1-cM_1pf9-a1-m1-cN 1ss8-a1-m1-cA_1ss8-a1-m1-cB 1ss8-a1-m1-cA_1ss8-a1-m1-cG 1ss8-a1-m1-cB_1ss8-a1-m1-cC 1ss8-a1-m1-cC_1ss8-a1-m1-cD 1ss8-a1-m1-cD_1ss8-a1-m1-cE 1ss8-a1-m1-cE_1ss8-a1-m1-cF 1ss8-a1-m1-cF_1ss8-a1-m1-cG 1ss8-a1-m2-cA_1ss8-a1-m2-cB 1ss8-a1-m2-cA_1ss8-a1-m2-cG 1ss8-a1-m2-cB_1ss8-a1-m2-cC 1ss8-a1-m2-cC_1ss8-a1-m2-cD 1ss8-a1-m2-cD_1ss8-a1-m2-cE 1ss8-a1-m2-cE_1ss8-a1-m2-cF 1ss8-a1-m2-cF_1ss8-a1-m2-cG 1ss8-a2-m1-cA_1ss8-a2-m1-cB 1ss8-a2-m1-cA_1ss8-a2-m1-cG 1ss8-a2-m1-cB_1ss8-a2-m1-cC 1ss8-a2-m1-cC_1ss8-a2-m1-cD 1ss8-a2-m1-cD_1ss8-a2-m1-cE 1ss8-a2-m1-cE_1ss8-a2-m1-cF 1ss8-a2-m1-cF_1ss8-a2-m1-cG 1svt-a1-m1-cH_1svt-a1-m1-cI 1svt-a1-m1-cH_1svt-a1-m1-cN 1svt-a1-m1-cI_1svt-a1-m1-cJ 1svt-a1-m1-cJ_1svt-a1-m1-cK 1svt-a1-m1-cK_1svt-a1-m1-cL 1svt-a1-m1-cL_1svt-a1-m1-cM 1svt-a1-m1-cM_1svt-a1-m1-cN 1sx3-a1-m1-cA_1sx3-a1-m1-cB 1sx3-a1-m1-cA_1sx3-a1-m1-cG 1sx3-a1-m1-cB_1sx3-a1-m1-cC 1sx3-a1-m1-cC_1sx3-a1-m1-cD 1sx3-a1-m1-cD_1sx3-a1-m1-cE 1sx3-a1-m1-cE_1sx3-a1-m1-cF 1sx3-a1-m1-cF_1sx3-a1-m1-cG 1sx3-a1-m1-cH_1sx3-a1-m1-cI 1sx3-a1-m1-cH_1sx3-a1-m1-cN 1sx3-a1-m1-cI_1sx3-a1-m1-cJ 1sx3-a1-m1-cJ_1sx3-a1-m1-cK 1sx3-a1-m1-cK_1sx3-a1-m1-cL 1sx3-a1-m1-cL_1sx3-a1-m1-cM 1sx3-a1-m1-cM_1sx3-a1-m1-cN 1sx4-a1-m1-cH_1sx4-a1-m1-cI 1sx4-a1-m1-cH_1sx4-a1-m1-cN 1sx4-a1-m1-cI_1sx4-a1-m1-cJ 1sx4-a1-m1-cJ_1sx4-a1-m1-cK 1sx4-a1-m1-cK_1sx4-a1-m1-cL 1sx4-a1-m1-cL_1sx4-a1-m1-cM 1sx4-a1-m1-cM_1sx4-a1-m1-cN 1xck-a1-m1-cA_1xck-a1-m1-cB 1xck-a1-m1-cA_1xck-a1-m1-cG 1xck-a1-m1-cB_1xck-a1-m1-cC 1xck-a1-m1-cC_1xck-a1-m1-cD 1xck-a1-m1-cD_1xck-a1-m1-cE 1xck-a1-m1-cE_1xck-a1-m1-cF 1xck-a1-m1-cF_1xck-a1-m1-cG 1xck-a2-m1-cH_1xck-a2-m1-cI 1xck-a2-m1-cH_1xck-a2-m1-cN 1xck-a2-m1-cI_1xck-a2-m1-cJ 1xck-a2-m1-cJ_1xck-a2-m1-cK 1xck-a2-m1-cK_1xck-a2-m1-cL 1xck-a2-m1-cL_1xck-a2-m1-cM 1xck-a2-m1-cM_1xck-a2-m1-cN 1xck-a3-m1-cA_1xck-a3-m1-cB 1xck-a3-m1-cA_1xck-a3-m1-cG 1xck-a3-m1-cB_1xck-a3-m1-cC 1xck-a3-m1-cC_1xck-a3-m1-cD 1xck-a3-m1-cD_1xck-a3-m1-cE 1xck-a3-m1-cE_1xck-a3-m1-cF 1xck-a3-m1-cF_1xck-a3-m1-cG 1xck-a3-m1-cH_1xck-a3-m1-cI 1xck-a3-m1-cH_1xck-a3-m1-cN 1xck-a3-m1-cI_1xck-a3-m1-cJ 1xck-a3-m1-cJ_1xck-a3-m1-cK 1xck-a3-m1-cK_1xck-a3-m1-cL 1xck-a3-m1-cL_1xck-a3-m1-cM 1xck-a3-m1-cM_1xck-a3-m1-cN 2eu1-a1-m1-cA_2eu1-a1-m1-cB 2eu1-a1-m1-cA_2eu1-a1-m1-cG 2eu1-a1-m1-cB_2eu1-a1-m1-cC 2eu1-a1-m1-cC_2eu1-a1-m1-cD 2eu1-a1-m1-cD_2eu1-a1-m1-cE 2eu1-a1-m1-cE_2eu1-a1-m1-cF 2eu1-a1-m1-cF_2eu1-a1-m1-cG 2eu1-a1-m2-cA_2eu1-a1-m2-cB 2eu1-a1-m2-cA_2eu1-a1-m2-cG 2eu1-a1-m2-cB_2eu1-a1-m2-cC 2eu1-a1-m2-cC_2eu1-a1-m2-cD 2eu1-a1-m2-cD_2eu1-a1-m2-cE 2eu1-a1-m2-cE_2eu1-a1-m2-cF 2eu1-a1-m2-cF_2eu1-a1-m2-cG 2eu1-a2-m1-cH_2eu1-a2-m1-cI 2eu1-a2-m1-cH_2eu1-a2-m1-cN 2eu1-a2-m1-cI_2eu1-a2-m1-cJ 2eu1-a2-m1-cJ_2eu1-a2-m1-cK 2eu1-a2-m1-cK_2eu1-a2-m1-cL 2eu1-a2-m1-cL_2eu1-a2-m1-cM 2eu1-a2-m1-cM_2eu1-a2-m1-cN 2eu1-a3-m1-cH_2eu1-a3-m1-cI 2eu1-a3-m1-cH_2eu1-a3-m1-cN 2eu1-a3-m1-cI_2eu1-a3-m1-cJ 2eu1-a3-m1-cJ_2eu1-a3-m1-cK 2eu1-a3-m1-cK_2eu1-a3-m1-cL 2eu1-a3-m1-cL_2eu1-a3-m1-cM 2eu1-a3-m1-cM_2eu1-a3-m1-cN 2eu1-a4-m1-cA_2eu1-a4-m1-cB 2eu1-a4-m1-cA_2eu1-a4-m1-cG 2eu1-a4-m1-cB_2eu1-a4-m1-cC 2eu1-a4-m1-cC_2eu1-a4-m1-cD 2eu1-a4-m1-cD_2eu1-a4-m1-cE 2eu1-a4-m1-cE_2eu1-a4-m1-cF 2eu1-a4-m1-cF_2eu1-a4-m1-cG 2nwc-a1-m1-cA_2nwc-a1-m1-cB 2nwc-a1-m1-cA_2nwc-a1-m1-cG 2nwc-a1-m1-cB_2nwc-a1-m1-cC 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7xok-a1-m1-cD_7xok-a1-m1-cE 7xok-a1-m1-cE_7xok-a1-m1-cF 7xok-a1-m1-cF_7xok-a1-m1-cG 7xok-a1-m1-cH_7xok-a1-m1-cI 7xok-a1-m1-cH_7xok-a1-m1-cN 7xok-a1-m1-cI_7xok-a1-m1-cJ 7xok-a1-m1-cJ_7xok-a1-m1-cK 7xok-a1-m1-cK_7xok-a1-m1-cL 7xok-a1-m1-cL_7xok-a1-m1-cM 7xok-a1-m1-cM_7xok-a1-m1-cN 7xol-a1-m1-cA_7xol-a1-m1-cB 7xol-a1-m1-cA_7xol-a1-m1-cG 7xol-a1-m1-cB_7xol-a1-m1-cC 7xol-a1-m1-cC_7xol-a1-m1-cD 7xol-a1-m1-cD_7xol-a1-m1-cE 7xol-a1-m1-cE_7xol-a1-m1-cF 7xol-a1-m1-cF_7xol-a1-m1-cG 7xol-a1-m1-cH_7xol-a1-m1-cI 7xol-a1-m1-cH_7xol-a1-m1-cN 7xol-a1-m1-cI_7xol-a1-m1-cJ 7xol-a1-m1-cJ_7xol-a1-m1-cK 7xol-a1-m1-cK_7xol-a1-m1-cL 7xol-a1-m1-cL_7xol-a1-m1-cM 7xol-a1-m1-cM_7xol-a1-m1-cN 7xom-a1-m1-cA_7xom-a1-m1-cB 7xom-a1-m1-cA_7xom-a1-m1-cG 7xom-a1-m1-cB_7xom-a1-m1-cC 7xom-a1-m1-cC_7xom-a1-m1-cD 7xom-a1-m1-cD_7xom-a1-m1-cE 7xom-a1-m1-cE_7xom-a1-m1-cF 7xom-a1-m1-cF_7xom-a1-m1-cG 7xom-a1-m1-cH_7xom-a1-m1-cI 7xom-a1-m1-cH_7xom-a1-m1-cN 7xom-a1-m1-cI_7xom-a1-m1-cJ 7xom-a1-m1-cJ_7xom-a1-m1-cK 7xom-a1-m1-cK_7xom-a1-m1-cL 7xom-a1-m1-cL_7xom-a1-m1-cM 7xom-a1-m1-cM_7xom-a1-m1-cN 7ywy-a1-m1-cG_7ywy-a1-m1-cb 7ywy-a1-m1-cG_7ywy-a1-m1-cH 7ywy-a1-m1-cH_7ywy-a1-m1-cI 7ywy-a1-m1-cI_7ywy-a1-m1-cJ 7ywy-a1-m1-cJ_7ywy-a1-m1-cK 7ywy-a1-m1-cK_7ywy-a1-m1-cL 7ywy-a1-m1-cL_7ywy-a1-m1-cb 7ywy-a1-m1-cS_7ywy-a1-m1-cT 7ywy-a1-m1-cS_7ywy-a1-m1-cZ 7ywy-a1-m1-cT_7ywy-a1-m1-cU 7ywy-a1-m1-cU_7ywy-a1-m1-cV 7ywy-a1-m1-cV_7ywy-a1-m1-cW 7ywy-a1-m1-cW_7ywy-a1-m1-cX 7ywy-a1-m1-cX_7ywy-a1-m1-cZ AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVACGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP AAKDVKFGNDARVKMLRGVNVLADAVKVTLGPKGRNVVLDKSFGAPTITKDGVSVAREIELEDKFENMGAQMVKEVASKANDAAGDGTTTATVLAQAIITEGLKAVACGMNPMDLKRGIDKAVTAAVEELKALSVPCSDSKAIAQVGTISANSDETVGKLIAEAMDKVGKEGVITVEDGTGLQDELDVVEGMQFDRGYLSPYFINKPETGAVELESPFILLADKKISNIREMLPVLEAVAKAGKPLLIIAEDVEGEALATLVVNTMRGIVKVAAVKAPGFGDRRKAMLQDIATLTGGTVISEEIGMELEKATLEDLGQAKRVVINKDTTTIIDGVGEEAAIQGRVAQIRQQIEEATSDYDREKLQERVAKLAGGVAVIKVGAATEVEMKEKKARVEDALHATRAAVEEGVVAGGGVALIRVASKLADLRGQNEDQNVGIKVALRAMEAPLRQIVLNCGEEPSVVANTVKGGDGNYGYNAATEEYGNMIDMGILDPTKVTRSALQYAASVAGLMITTECMVTDLP 5oql-a1-m1-ci_5oql-a1-m1-cj Cryo-EM structure of the 90S pre-ribosome from Chaetomium thermophilum G0S273 G0S273 3.2 ELECTRON MICROSCOPY 64 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 659 677 5jpq-a1-m1-ci_5jpq-a1-m1-cj RIPTLIRNGLQTKKRSFFVVVGDHAKEAIVHLYYIMSSMDVRQNKSVLWAYDKILGNTYGMCILQDFEAITPNILARTIETVEGGGLVVLLLKGMTSLKQLYTMTMDVHARYRTEAHDDVIARFNERFLLSLGSCESCLVIDDELNVLPISGGKGVKPLPPPDEDEVDQAKALLTFVDAIAEKTLRNTVTLTAARGRGKSAAMGVAIAAAVAYGYSNIFITSPSPENLKTLFEFVTIQYIRPQDAHVLGQAELVVIDEAAAIPLPLVKKLMGPYLVFMASTISGYEGTGRSLSLKLIKQLLKEITLSEPIRYAQGDNVEKWLNTLLCLDATLPRSKISTTGCPDPSQCELLHVNRDTLFSFHPVSEKFLQQMVALYVASHYKNSPNDLQLMSDAPAHELFVLTGPIQEGRLPEPLCVIQVSLEGKDLIPWLVSQQFQDDEFASLSGARIVRIATNPDYMSMGYGSKALQLLVDYDYVGVSYGLTQQLHKFWKRAQFVPVYLRQTANDLTGEHTCVMIRPLQDGNDPSWLGAFAADFHKRFLSLLSYKFREFPSILALTTPFDHKRLESYANGLLDYHVVLDLMPTIAQLYFTGRLREAVKLSGLQQAILLALGLQRKDIDTLATELNLPGSQVLAIFMKIMRKVTQHFGALVSGAIAAE RIPTLIRNGLQTKKRSFFVVVGDHAKEAIVHLYYIMSSMDVRQNKSVLWAYDKILGNTYGMCILQDFEAITPNILARTIETVEGGGLVVLLLKGMTSLKQLYTMTMDVHARYRTEAHDDVIARFNERFLLSLGSCESCLVIDDELNVLPISGGKGVKPLPPPDEDEVDQAKALLTFVDAIAEKTLRNTVTLTAARGRGKSAAMGVAIAAAVAYGYSNIFITSPSPENLKTLFEFVTIQYIRPQDAHVLGQAELVVIDEAAAIPLPLVKKLMGPYLVFMASTISGYEGTGRSLSLKLIKQLLKEITLSEPIRYAQGDNVEKWLNTLLCLDATLPRSKISTTGCPDPSQCELLHVNRDTLFSFHPVSEKFLQQMVALYVASHYKNSPNDLQLMSDAPAHELFVLTGPIQEGRLPEPLCVIQVSLEGKISKQSILKSLSRGQQPAGDLIPWLVSQQFQDDEFASLSGARIVRIATNPDYMSMGYGSKALQLLVDYDYVGVSYGLTQQLHKFWKRAQFVPVYLRQTANDLTGEHTCVMIRPLQDGNDPSWLGAFAADFHKRFLSLLSYKFREFPSILALTTPFDHKRLESYANGLLDYHVVLDLMPTIAQLYFTGRLREAVKLSGLQQAILLALGLQRKDIDTLATELNLPGSQVLAIFMKIMRKVTQHFGALVSGAIAAE 5oqw-a1-m1-cA_5oqw-a1-m1-cB XIAP in complex with small molecule P98170 P98170 2.31 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 107 6h6q-a1-m1-cB_6h6q-a1-m1-cA NFPNSTNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLVR MNFPNSTNLPRNPSMADYEARIFTFGTWIYSVNKEQLARAGFYALGEGDKVKCFHCGGGLTDWKPSEDPWEQHAKWYPGCKYLLEQKGQEYINNIHLTHSLEECLVR 5or3-a1-m1-cA_5or3-a1-m1-cD Crystal structure of Aspergillus oryzae catechol oxidase in met/deoxy-form Q2UNF9 Q2UNF9 1.795 X-RAY DIFFRACTION 71 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 371 371 4j3p-a1-m1-cA_4j3p-a1-m2-cA 4j3q-a1-m1-cA_4j3q-a1-m1-cB 4j3r-a1-m1-cA_4j3r-a1-m2-cA 5or3-a2-m1-cC_5or3-a2-m1-cB 5or4-a1-m1-cA_5or4-a1-m1-cD 5or4-a2-m1-cC_5or4-a2-m1-cB TLPTTASSSTAVASSQLDQLANFAYNVTTDSVAGCTLQNLRVRRDWRAFSKTQKKDYINSVLCLQKLPSRTPAHLAPGARTRYDDFVATHINQTQIIHYTGTFLAWHRYFIYEFEQALRDECSYTGDYPYWNWGADADNMEKSQVFDGSETSMSGNGEYIPNQGDIKLLLGNYPAIDLPPGSGGGCVTSGPFKDYKLNLGPAALSLPGGNMTAAANPLTYNPRCMKRSLTTEILQRYNTFPKIVELILDSDDIWDFQMTMQGVPGSGSIGVHGGGHYSMGGDPGRDVYVSPGDTAFWLHHGMIDRVWWIWQNLDLRKRQNAISGTGTFMNNPASPNTTLDTVIDLGYANGGPIAMRDLMSTTAGPFCYVYL TLPTTASSSTAVASSQLDQLANFAYNVTTDSVAGCTLQNLRVRRDWRAFSKTQKKDYINSVLCLQKLPSRTPAHLAPGARTRYDDFVATHINQTQIIHYTGTFLAWHRYFIYEFEQALRDECSYTGDYPYWNWGADADNMEKSQVFDGSETSMSGNGEYIPNQGDIKLLLGNYPAIDLPPGSGGGCVTSGPFKDYKLNLGPAALSLPGGNMTAAANPLTYNPRCMKRSLTTEILQRYNTFPKIVELILDSDDIWDFQMTMQGVPGSGSIGVHGGGHYSMGGDPGRDVYVSPGDTAFWLHHGMIDRVWWIWQNLDLRKRQNAISGTGTFMNNPASPNTTLDTVIDLGYANGGPIAMRDLMSTTAGPFCYVYL 5org-a1-m1-cB_5org-a1-m1-cA Structure of the periplasmic binding protein (PBP) OccJ from A. tumefaciens B6 in complex with octopine. P0A4F8 P0A4F8 1.99 X-RAY DIFFRACTION 70 1.0 1183423 (Agrobacterium tumefaciens str. B6) 1183423 (Agrobacterium tumefaciens str. B6) 253 257 KSITIATEGGYAPWNFSGPGGKLDGFEIDLANALCEKMKAKCQIVAQNWDGIMPSLTGKKYDAIMAAMSVTPKRQEVIGFSIPYAAGINGFAVMGDSKLAEMPGLGETYSLDSQADAAKKAIADISSFLNGTTVGVQGSTTASTFLDKYFKGSVDIKEYKSVEEHNLDLTSGRLDAVLANATVLAAAIEKPEMKGAKLVGPLFSGGEFGVVAVGLRKEDTALKADFDAAIKAASEDGTIKTLSLKWFKVDVTP MQEKSITIATEGGYAPWNFSGPGGKLDGFEIDLANALCEKMKAKCQIVAQNWDGIMPSLTGKKYDAIMAAMSVTPKRQEVIGFSIPYAAGINGFAVMGDSKLAEMPGLGETYSLDSQADAAKKAIADISSFLNGTTVGVQGSTTASTFLDKYFKGSVDIKEYKSVEEHNLDLTSGRLDAVLANATVLAAAIEKPEMKGAKLVGPLFSGGEFGVVAVGLRKEDTALKADFDAAIKAASEDGTIKTLSLKWFKVDVTPQ 5oss-a1-m1-cA_5oss-a1-m2-cB Beta-glucosidase from Thermotoga maritima in complex with Gluco-1H-imidazole Q08638 Q08638 1.7 X-RAY DIFFRACTION 95 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 443 443 2wbg-a1-m1-cA_2wbg-a1-m1-cC 2wbg-a2-m1-cB_2wbg-a2-m1-cD VKKFPEGFLWGVATASYQIEGSPLADGAGMSIWHTFSHTPGNVKNGDTGDVACDHYNRWKEDIEIIEKLGVKAYRFSISWPRILPEGTGRVNQKGLDFYNRIIDTLLEKGITPFVTIYHWDLPFALQLKGGWANREIADWFAEYSRVLFENFGDRVKNWITLNEPWVVAIVGHLYGVHAPGMRDIYVAFRAVHNLLRAHARAVKVFRETVKDGKIGIVFNNGYFEPASEKEEDIRAVRFMHQFNNYPLFLNPIYRGDYPELVLEFAREYLPENYKDDMSEIQEKIDFVGLNYYSGHLVKFDPDAPAKVSFVERDLPKTAMGWEIVPEGIYWILKKVKEEYNPPEVYITENGAAFDDVVSEDGRVHDQNRIDYLKAHIGQAWKAIQEGVPLKGYFVWSLLDNFEWAEGYSKRFGIVYVDYSTQKRIVKDSGYWYSNVVKNNGLE VKKFPEGFLWGVATASYQIEGSPLADGAGMSIWHTFSHTPGNVKNGDTGDVACDHYNRWKEDIEIIEKLGVKAYRFSISWPRILPEGTGRVNQKGLDFYNRIIDTLLEKGITPFVTIYHWDLPFALQLKGGWANREIADWFAEYSRVLFENFGDRVKNWITLNEPWVVAIVGHLYGVHAPGMRDIYVAFRAVHNLLRAHARAVKVFRETVKDGKIGIVFNNGYFEPASEKEEDIRAVRFMHQFNNYPLFLNPIYRGDYPELVLEFAREYLPENYKDDMSEIQEKIDFVGLNYYSGHLVKFDPDAPAKVSFVERDLPKTAMGWEIVPEGIYWILKKVKEEYNPPEVYITENGAAFDDVVSEDGRVHDQNRIDYLKAHIGQAWKAIQEGVPLKGYFVWSLLDNFEWAEGYSKRFGIVYVDYSTQKRIVKDSGYWYSNVVKNNGLE 5ot0-a2-m1-cC_5ot0-a2-m1-cD The thermostable L-asparaginase from Thermococcus kodakarensis Q5JIW4 Q5JIW4 2.18 X-RAY DIFFRACTION 196 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 328 328 5ot0-a1-m1-cA_5ot0-a1-m1-cB 5ot0-a3-m1-cE_5ot0-a3-m1-cF MKLLVLGTGGTIASAKTEMGYKAALSADDILQLAGIRREDGAKIETRDILNLDSTLIQPEDWVTIGRAVFEAFDEYDGIVITHGTDTLAYTSSALSFMIRNPPIPVVLTGSMLPITEPNSDAPRNLRTALTFARKGFPGIYVAFMDKIMLGTRVSKVHSLGLNAFQSINYPDIAYVKGDEVLVRHKPRIGNGEPLFDPELDPNVVHIRLTPGLSPEVLRAVARATDGIVLEGYGAGGIPYRGRNLLEVVSETAREKPVVMTTQALYGGVDLTRYEVGRRALEAGVIPAGDMTKEATLTKLMWALGHTRDLEEIRKIMERNIAGEITGS MKLLVLGTGGTIASAKTEMGYKAALSADDILQLAGIRREDGAKIETRDILNLDSTLIQPEDWVTIGRAVFEAFDEYDGIVITHGTDTLAYTSSALSFMIRNPPIPVVLTGSMLPITEPNSDAPRNLRTALTFARKGFPGIYVAFMDKIMLGTRVSKVHSLGLNAFQSINYPDIAYVKGDEVLVRHKPRIGNGEPLFDPELDPNVVHIRLTPGLSPEVLRAVARATDGIVLEGYGAGGIPYRGRNLLEVVSETAREKPVVMTTQALYGGVDLTRYEVGRRALEAGVIPAGDMTKEATLTKLMWALGHTRDLEEIRKIMERNIAGEITGS 5ot5-a1-m1-cB_5ot5-a1-m1-cA The crystal structure of CK2alpha in complex with compound 24 P68400 P68400 1.63 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 325 326 5cu3-a1-m1-cB_5cu3-a1-m1-cA 5oqu-a1-m1-cA_5oqu-a1-m1-cB 5orj-a1-m1-cB_5orj-a1-m1-cA 5ork-a1-m1-cB_5ork-a1-m1-cA 5otd-a1-m1-cB_5otd-a1-m1-cA 5oth-a1-m1-cB_5oth-a1-m1-cA 5otl-a1-m1-cA_5otl-a1-m1-cB 5oto-a1-m1-cB_5oto-a1-m1-cA 5otp-a1-m1-cB_5otp-a1-m1-cA 5oum-a1-m1-cA_5oum-a1-m1-cB 5ouu-a1-m1-cA_5ouu-a1-m1-cB GPVPSRARVYTDVNTHRPSEYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTV GPVPSRARVYTDVNTHRPSEYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVV 5otf-a1-m1-cA_5otf-a1-m2-cA MRCK beta in complex with BDP-00009066 Q9Y5S2 Q9Y5S2 2 X-RAY DIFFRACTION 166 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 411 411 3qfv-a1-m1-cA_3qfv-a1-m1-cB 3tku-a1-m1-cA_3tku-a1-m1-cB 4uak-a1-m1-cA_4uak-a1-m2-cA 4ual-a1-m1-cA_4ual-a1-m2-cA 5ote-a1-m1-cA_5ote-a1-m2-cA GGSSAKVRLKKLEQLLLDGPWRNESALSVETLLDVLVCLYTECSHSALRRDKYVAEFLEWAKPFTQLVKEMQLHREDFEIIKVIGRGAFGEVAVVKMKNTERIYAMKILNKWEMLKRAETACFREERDVLVNGDCQWITALHYAFQDENHLYLVMDYYVGGDLLTLLSKFEDKLPEDMARFYIGEMVLAIDSIHQLHYVHRDIKPDNVLLDVNGHIRLADFGSCLKMNDDGTVQSSVAVGTPDYISPEILQAMEDGMGKYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHEERFQFPSHVTDVSEEAKDLIQRLICSRERRLGQNGIEDFKKHAFFEGLNWENIRNLEAPYIPDVSSPSDTSNFDVEILPPGSHTGFSGLHLPFIGFTFTTESCFSDRGSLKS GGSSAKVRLKKLEQLLLDGPWRNESALSVETLLDVLVCLYTECSHSALRRDKYVAEFLEWAKPFTQLVKEMQLHREDFEIIKVIGRGAFGEVAVVKMKNTERIYAMKILNKWEMLKRAETACFREERDVLVNGDCQWITALHYAFQDENHLYLVMDYYVGGDLLTLLSKFEDKLPEDMARFYIGEMVLAIDSIHQLHYVHRDIKPDNVLLDVNGHIRLADFGSCLKMNDDGTVQSSVAVGTPDYISPEILQAMEDGMGKYGPECDWWSLGVCMYEMLYGETPFYAESLVETYGKIMNHEERFQFPSHVTDVSEEAKDLIQRLICSRERRLGQNGIEDFKKHAFFEGLNWENIRNLEAPYIPDVSSPSDTSNFDVEILPPGSHTGFSGLHLPFIGFTFTTESCFSDRGSLKS 5ou8-a1-m1-cC_5ou8-a1-m1-cD Crystal structure of Glycoprotein VI in complex with collagen-peptide (GPO)5 P02452 P02452 2.5 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 GPGPGPGPGP GPGPGPGPGP 5ou8-a1-m1-cC_5ou8-a1-m1-cE Crystal structure of Glycoprotein VI in complex with collagen-peptide (GPO)5 P02452 P02452 2.5 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 GPGPGPGPGP GPGPGPGPGP 5ou8-a1-m1-cD_5ou8-a1-m1-cE Crystal structure of Glycoprotein VI in complex with collagen-peptide (GPO)5 P02452 P02452 2.5 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 GPGPGPGPGP GPGPGPGPGP 5ou9-a1-m1-cC_5ou9-a1-m1-cE Crystal structure of Glycoprotein VI in complex with collagen-peptide (GPO)3 P02452 P02452 2.5 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 GPPGPPGPGPGPGPPGPP GPPGPPGPGPGPGPPGPP 5ou9-a1-m1-cD_5ou9-a1-m1-cE Crystal structure of Glycoprotein VI in complex with collagen-peptide (GPO)3 P02452 P02452 2.5 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 5ou9-a1-m1-cC_5ou9-a1-m1-cD GPPGPPGPGPGPGPPGPP GPPGPPGPGPGPGPPGPP 5ov3-a1-m1-cB_5ov3-a1-m1-cA Structure of the RbBP5 beta-propeller domain Q8BX09 Q8BX09 2.45 X-RAY DIFFRACTION 128 0.997 10090 (Mus musculus) 10090 (Mus musculus) 317 330 ADGTLDCISMALTCTFNRWGTLLAVGCNDGRIVIWDFLTRGIAKIISAHIHPVCSLCWSRDGHKLVSASTDNIVSQWDVLSGDCDQRFRFPSPILKVQYHPRDQNKVLVCPMKSAPVMLTLSDSKHVVLPVDDDSDLNVVASFDRRGEYIYTGNAKGKILVLKTDSQDLVASFRVTTGTSNTTAIKSIEFARKGSCFLINTADRIIRVYDGREILTCGRDGEPEPMQKLQDLVNRTPWKKCCFSGDGEYIVAGSARQHALYIWEKSIGNLVKILHGTRGELLLDVAWHPVRPIIASISSGVVSIWAQNQVENWSAFA DGTLDCISMALTCTFNRWGTLLAVGCNDGRIVIWDFLTRGIAKIISAHIHPVCSLCWSRDGHKLVSASTDNIVSQWDVLSGDCDQRFRFPSPILKVQYHPRDQNKVLVCPMKSAPVMLTLSDSKHVVLPVDDDSDLNVVASFDRRGEYIYTGNAKGKILVLKTDSQDLVASFRVTTGTSNTTAIKSIEFARKGSCFLINTADRIIRVYDGREILTCGRDGEPEPMQKLQDLVNRTPWKKCCFSGDGEYIVAGSARQHALYIWEKSIGNLVKILHGTRGELLLDVAWHPVRPIIASISSGVVSIWAQNQVENWSAFAPDFKELDENVEYEE 5ovy-a1-m1-cA_5ovy-a1-m1-cB Crystal structure of MAB_4384 tetR B1MJU8 B1MJU8 1.9 X-RAY DIFFRACTION 96 0.995 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 200 202 DAERNRKRVIAAARELFAVHGLESTLNEVAHHAGLGVGTVYRRFPTKEALFEAIYVDGMDQLSGLAEAALRHENSWEGFEWFVHQMCEITATNRGLREIAFSKAHGGDHVEAGRARLLPLLSKVVERAQEDGYLRPEASATDMPFFGVLTGAVSEFAGEVNADLWRRYMAILIEGMRRRDDQERLEVDALDEAQIDAAMT LRKDAERNRKRVIAAARELFAVHGLESTLNEVAHHAGLGVGTVYRRFPTKEALFEAIYVDGMDQLSGLAEAALRHENSWEGFEWFVHQMCEITATNRGLREIAFSKAHGGDHVEAGRARLLPLLSKVVERAQEDGYLRPEASATDMPFFGVLTGAVSEFAGEVNADLWRRYMAILIEGMRRRDDQERLEVDALDEAQIDAAM 5ow2-a1-m1-cA_5ow2-a1-m1-cB Japanese encephalitis virus capsid protein P27395 P27395 1.98 X-RAY DIFFRACTION 98 1.0 11073 (Japanese encephalitis virus strain SA-14) 11073 (Japanese encephalitis virus strain SA-14) 73 73 PLVGVKRVVMSLLDGRGPVRFVLALITFFKFTALAPTKALLGRWKAVEKSVAMKHLTSFKRELGTLIDAVNKR PLVGVKRVVMSLLDGRGPVRFVLALITFFKFTALAPTKALLGRWKAVEKSVAMKHLTSFKRELGTLIDAVNKR 5ow3-a1-m2-cC_5ow3-a1-m3-cC Crystal structure of a C-terminally truncated trimeric ectodomain of the Arabidopsis thaliana gamete fusion protein HAP2 F4JP36 F4JP36 2.75 X-RAY DIFFRACTION 178 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 446 446 5ow3-a1-m1-cC_5ow3-a1-m2-cC 5ow3-a1-m1-cC_5ow3-a1-m3-cC IQILSKSKLEKCEKTSDSGNLNCSTKIVLNLAVPSGSSGGEASIVAEIVEVRIPPVITVNKSAAYALYDLTYIRDVPYKPQEYHVTTRKCEPDAGPDIVQICERLRDNVLEQTQPICCPCGPQRRMPSSCGDIFDKMIKGKANTAHCLRFPGDWFHVFGIGQRSLGFSVRVELKTGTRVSEVIIGPENRTATANDNFLKVNLIGDFGGYTSIPSFEDFYLVIPRELGANYSMWMLLERVRFTLDGLECNKIGVGYEAFNTQPNFCSSPYWSCLHNQLWNFRESDINRIDRHQLPLYGLEGRFERINQHPNAGPHSFSIGVTETLNTNLMIELRADDIEYVFQRSPGKIINIAIPTFEALTQFGVAAVIIKNTGEVEASYSLTFDCSKGVAFVEEQFFIIKPKAVTTRSFKLYPTKDQAAKYICTAILKDSQFSEVDRAECQFSTTA IQILSKSKLEKCEKTSDSGNLNCSTKIVLNLAVPSGSSGGEASIVAEIVEVRIPPVITVNKSAAYALYDLTYIRDVPYKPQEYHVTTRKCEPDAGPDIVQICERLRDNVLEQTQPICCPCGPQRRMPSSCGDIFDKMIKGKANTAHCLRFPGDWFHVFGIGQRSLGFSVRVELKTGTRVSEVIIGPENRTATANDNFLKVNLIGDFGGYTSIPSFEDFYLVIPRELGANYSMWMLLERVRFTLDGLECNKIGVGYEAFNTQPNFCSSPYWSCLHNQLWNFRESDINRIDRHQLPLYGLEGRFERINQHPNAGPHSFSIGVTETLNTNLMIELRADDIEYVFQRSPGKIINIAIPTFEALTQFGVAAVIIKNTGEVEASYSLTFDCSKGVAFVEEQFFIIKPKAVTTRSFKLYPTKDQAAKYICTAILKDSQFSEVDRAECQFSTTA 5owi-a1-m1-cA_5owi-a1-m1-cB The dynamic dimer structure of the chaperone Trigger Factor (conformer 1) P0A850 P0A850 NOT SOLUTION NMR 102 1.0 562 (Escherichia coli) 562 (Escherichia coli) 432 432 MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA 5owj-a1-m1-cA_5owj-a1-m1-cB The dynamic dimer structure of the chaperone Trigger Factor (conformer 2) P0A850 P0A850 NOT SOLUTION NMR 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 432 432 MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA 5owo-a1-m1-cC_5owo-a1-m1-cA Human cytoplasmic Dynein N-Terminus dimerization domain at 1.8 Angstrom resolution Q14204 Q14204 1.79 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 157 159 QNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQRKFLSDPQVHTVLVERSTLKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIREKAPSVEKKIAELEGLLHLQQNIE QNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQRKFLSDPQVHTVLVERSTLKEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIREKAPSVEKKIAELEGLLHLQQNIE 5owo-a1-m1-cD_5owo-a1-m1-cA Human cytoplasmic Dynein N-Terminus dimerization domain at 1.8 Angstrom resolution Q14204 Q14204 1.79 X-RAY DIFFRACTION 158 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 159 QNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQRKFLSDPQVHTVLVERSTLKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRAPSVEKKIAELEGLLHLQQNI QNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQRKFLSDPQVHTVLVERSTLKEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIREKAPSVEKKIAELEGLLHLQQNIE 5owr-a2-m1-cA_5owr-a2-m2-cA Human STK10 bound to dasatinib O94804 O94804 2.3 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 4bc6-a1-m1-cA_4bc6-a1-m2-cA 4equ-a1-m1-cA_4equ-a1-m1-cB 6eim-a1-m1-cA_6eim-a1-m1-cB 6i2y-a1-m1-cB_6i2y-a1-m1-cA YEHVRRDLDPNEVWEIVGELGGKVYKAKNKETGALAAAKVIETKEELEDYIVEIEILATCDHPYIVKLLGAYYHDGKLWIMIEFCPGGAVDAIMLELDRGLTEPQIQVVCRQMLEALNFLHSKRIIHRDLKAGNVLMTLEGDIRLADFGVSAKNLKTLQKPYWMAPEVVMCETMKDTPYDYKADIWSLGITLIEMAQIEPPHHELNPMRVLLKIAKSDPPTLLTPSKWSVEFRDFLKIALDKNPETRPSAAQLLEHPFVSSITSNKALRELVAEAKAEVMEE YEHVRRDLDPNEVWEIVGELGGKVYKAKNKETGALAAAKVIETKEELEDYIVEIEILATCDHPYIVKLLGAYYHDGKLWIMIEFCPGGAVDAIMLELDRGLTEPQIQVVCRQMLEALNFLHSKRIIHRDLKAGNVLMTLEGDIRLADFGVSAKNLKTLQKPYWMAPEVVMCETMKDTPYDYKADIWSLGITLIEMAQIEPPHHELNPMRVLLKIAKSDPPTLLTPSKWSVEFRDFLKIALDKNPETRPSAAQLLEHPFVSSITSNKALRELVAEAKAEVMEE 5ows-a1-m1-cA_5ows-a1-m1-cB Crystal structure of TNKS2 in complex with 2-[4-(4-methyl-2-oxoimidazolidin-4-yl)phenyl]-3,4-dihydroquinazolin-4-one Q9H2K2 Q9H2K2 1.8 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 209 5owt-a1-m1-cA_5owt-a1-m1-cB GTILIDLSPDDKEFQSVEEEMQSTVREHRDGGHAGGIFNRYNILKIQKVCNKKLWERYTHRRKEVSEENHNHANERMLFHGSPFVNAIIHKGFDERHAYIGGMFGAGIYFAENSSKSNQYVYGIGGGTGCPVHKDRSCYICHRQLLFCRVTLGKSFLQFSAMAHSPPGHHSVTGRPSVNGLALAEYVIYRGEQAYPEYLITYQIMRPE GTILIDLSPDDKEFQSVEEEMQSTVREHRDGGHAGGIFNRYNILKIQKVCNKKLWERYTHRRKEVSEENHNHANERMLFHGSPFVNAIIHKGFDERHAYIGGMFGAGIYFAENSSKSNQYVYGIGGGTGCPVHKDRSCYICHRQLLFCRVTLGKSFLQFSAMMAHSPPGHHSVTGRPSVNGLALAEYVIYRGEQAYPEYLITYQIMRPE 5owv-a1-m1-cC_5owv-a1-m1-cD An oligomerised bacterial dynamin pair provides a mechanism for the long-range sensing and tethering of membranes A0A0H3PJK4 A0A0H3PJK4 3.72 X-RAY DIFFRACTION 138 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 598 598 5oxf-a1-m1-cC_5oxf-a1-m1-cD GSHMQINLLNDFIKAYENTYSVSFDDSFKGRIQELCKELNEPFMHASYALENELKELVFSLDKNVNIAIIGQFSSGKSSLLNLILGRDCLVTFKPTFLRYAKEYFLRVEFEDGSDIITNIEKLAFYTDQRNEVKQAKSLHIFAPIPLLEKITLVDTPGLNANENDTLTTLDELKNIHGAIWLSLIDNAGKKSEEDAIKANLELLGENSICVLNQKDKLELDNVLNYAKSVFLKYFNELIAISCKEAKDEQSYEKSNFQSLLDFLTQLDTTVLKEKFVKRKILNLCEILEDENQLFVGIFDRLLNQFQSYEKHLLLAYENFLKEIEILNHQILEQLKSISERISSEIFASVKEKDAYFYKESKGFLKKDLYTRYDYKAPYISSDDAFLAMFYNSDVMSKEFKKIKNELYKSFEEIKMKLKDFINILEREILLFKAEFSNIQKDHIFQSDKNFSELRAFCNASDEYFLKDFKELLFKSILELDLFFEKLNLKAFTNYENATKLSLAFFSRKINESRVLYELDYPKKSEIYERVLNELNVYEFETLLINKPILTKIAKNFLEQSQNLIQEKNKFLDLKKAELQKRRAQILNVRESIKEDHH GSHMQINLLNDFIKAYENTYSVSFDDSFKGRIQELCKELNEPFMHASYALENELKELVFSLDKNVNIAIIGQFSSGKSSLLNLILGRDCLVTFKPTFLRYAKEYFLRVEFEDGSDIITNIEKLAFYTDQRNEVKQAKSLHIFAPIPLLEKITLVDTPGLNANENDTLTTLDELKNIHGAIWLSLIDNAGKKSEEDAIKANLELLGENSICVLNQKDKLELDNVLNYAKSVFLKYFNELIAISCKEAKDEQSYEKSNFQSLLDFLTQLDTTVLKEKFVKRKILNLCEILEDENQLFVGIFDRLLNQFQSYEKHLLLAYENFLKEIEILNHQILEQLKSISERISSEIFASVKEKDAYFYKESKGFLKKDLYTRYDYKAPYISSDDAFLAMFYNSDVMSKEFKKIKNELYKSFEEIKMKLKDFINILEREILLFKAEFSNIQKDHIFQSDKNFSELRAFCNASDEYFLKDFKELLFKSILELDLFFEKLNLKAFTNYENATKLSLAFFSRKINESRVLYELDYPKKSEIYERVLNELNVYEFETLLINKPILTKIAKNFLEQSQNLIQEKNKFLDLKKAELQKRRAQILNVRESIKEDHH 5oyh-a8-m1-cO_5oyh-a8-m1-cP crystal structure of the catalytic core of a rhodopsin-guanylyl cyclase with converted specificity in complex with ATPalphaS A0A1Y2HEJ3 A0A1Y2HEJ3 2.249 X-RAY DIFFRACTION 68 0.994 765915 (Catenaria anguillulae PL171) 765915 (Catenaria anguillulae PL171) 179 179 5oyh-a1-m1-cA_5oyh-a1-m1-cB 5oyh-a2-m1-cC_5oyh-a2-m1-cD 5oyh-a3-m1-cE_5oyh-a3-m1-cF 5oyh-a4-m1-cG_5oyh-a4-m1-cH 5oyh-a5-m1-cI_5oyh-a5-m1-cJ 5oyh-a6-m1-cK_5oyh-a6-m1-cL 5oyh-a7-m1-cM_5oyh-a7-m1-cN 6sir-a1-m1-cA_6sir-a1-m1-cB 6sir-a2-m1-cC_6sir-a2-m1-cD EAKEYESVTVFFSDITNFTVISSRTSTKDMMATLNKLWLEYDAIAKRWGVYKVKTIGDAYLGVTGAPEVVPDHADRAVNFALDIIEMIKTFKTATGESINIRIGLNSGPVTAGVLPHWDLVGDTVNTASRMESTSKAGHIHISDSTYQMIKGKFVTQPLDLMEVKGKGKMQTYWVTARK TEAKEYESVTVFFSDITNFTVISSRTSTKDMMATLNKLWLEYDAIAKRWGVYKVKTIGDAYLGVTGAPEVVPDHADRAVNFALDIIEMIKTFKTATGESINIRIGLNSGPVTAGVPHWDLVGDTVNTASRMESTSKAGHIHISDSTYQMIKGKFVTQPLDLMEVKGKGKMQTYWVTARK 5oyn-a1-m1-cC_5oyn-a1-m1-cD Crystal structure of D-xylonate dehydratase in holo-form Q9A9Z2 Q9A9Z2 2.7 X-RAY DIFFRACTION 308 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 587 587 5oyn-a1-m1-cA_5oyn-a1-m1-cB RTPRRFRSRDWFDNPDHIDMTALYLERFMNYGITPEELRSGKPIIGIAQTGSDISPCNRIHLDLVQRVRDGIRDAGGIPMEFPVHPIFENCRRPTAALDRNLSYLGLVETLHGYPIDAVVLTTGCDTTPAGIMAATTVNIPAIVLSGGPMLDGWHENELVGSGTVIWRSRRKLAAGEITEEEFIDRAASSAPSAGHCNTMGTASTMNAVAEALGLSLTGCAAIPAPYRERGQMAYKTGQRIVDLAYDDVKPLDILTKQAFENAIALVAAAGGSTNAQPHIVAMARHAGVEITADDWRAAYDIPLIVNMQPAGKYLGERFHRAGGAPAVLWELLQQGRLHGDVLTVTGKTMSENLQGRETSDREVIFPYHEPLAEKAGFLVLKGNLFDFAIMKSSVIGEEFRKRYLSQPGQEGVFEARAIVFDGSDDYHKRINDPALEIDERCILVIRGAGPIGWPGSAEVVNMQPPDHLLKKGIMSLPTLGDGRQSGTADSPSILNASPESAIGGGLSWLRTGDTIRIDLNTGRCDALVDEATIAARKQDGIPAVPATMTPWQEIYRAHASQLDTGGVLEFAVKYQDLAAKLPRHNH RTPRRFRSRDWFDNPDHIDMTALYLERFMNYGITPEELRSGKPIIGIAQTGSDISPCNRIHLDLVQRVRDGIRDAGGIPMEFPVHPIFENCRRPTAALDRNLSYLGLVETLHGYPIDAVVLTTGCDTTPAGIMAATTVNIPAIVLSGGPMLDGWHENELVGSGTVIWRSRRKLAAGEITEEEFIDRAASSAPSAGHCNTMGTASTMNAVAEALGLSLTGCAAIPAPYRERGQMAYKTGQRIVDLAYDDVKPLDILTKQAFENAIALVAAAGGSTNAQPHIVAMARHAGVEITADDWRAAYDIPLIVNMQPAGKYLGERFHRAGGAPAVLWELLQQGRLHGDVLTVTGKTMSENLQGRETSDREVIFPYHEPLAEKAGFLVLKGNLFDFAIMKSSVIGEEFRKRYLSQPGQEGVFEARAIVFDGSDDYHKRINDPALEIDERCILVIRGAGPIGWPGSAEVVNMQPPDHLLKKGIMSLPTLGDGRQSGTADSPSILNASPESAIGGGLSWLRTGDTIRIDLNTGRCDALVDEATIAARKQDGIPAVPATMTPWQEIYRAHASQLDTGGVLEFAVKYQDLAAKLPRHNH 5oyn-a1-m1-cD_5oyn-a1-m1-cA Crystal structure of D-xylonate dehydratase in holo-form Q9A9Z2 Q9A9Z2 2.7 X-RAY DIFFRACTION 34 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 587 588 5oyn-a1-m1-cC_5oyn-a1-m1-cB RTPRRFRSRDWFDNPDHIDMTALYLERFMNYGITPEELRSGKPIIGIAQTGSDISPCNRIHLDLVQRVRDGIRDAGGIPMEFPVHPIFENCRRPTAALDRNLSYLGLVETLHGYPIDAVVLTTGCDTTPAGIMAATTVNIPAIVLSGGPMLDGWHENELVGSGTVIWRSRRKLAAGEITEEEFIDRAASSAPSAGHCNTMGTASTMNAVAEALGLSLTGCAAIPAPYRERGQMAYKTGQRIVDLAYDDVKPLDILTKQAFENAIALVAAAGGSTNAQPHIVAMARHAGVEITADDWRAAYDIPLIVNMQPAGKYLGERFHRAGGAPAVLWELLQQGRLHGDVLTVTGKTMSENLQGRETSDREVIFPYHEPLAEKAGFLVLKGNLFDFAIMKSSVIGEEFRKRYLSQPGQEGVFEARAIVFDGSDDYHKRINDPALEIDERCILVIRGAGPIGWPGSAEVVNMQPPDHLLKKGIMSLPTLGDGRQSGTADSPSILNASPESAIGGGLSWLRTGDTIRIDLNTGRCDALVDEATIAARKQDGIPAVPATMTPWQEIYRAHASQLDTGGVLEFAVKYQDLAAKLPRHNH NRTPRRFRSRDWFDNPDHIDMTALYLERFMNYGITPEELRSGKPIIGIAQTGSDISPCNRIHLDLVQRVRDGIRDAGGIPMEFPVHPIFENCRRPTAALDRNLSYLGLVETLHGYPIDAVVLTTGCDTTPAGIMAATTVNIPAIVLSGGPMLDGWHENELVGSGTVIWRSRRKLAAGEITEEEFIDRAASSAPSAGHCNTMGTASTMNAVAEALGLSLTGCAAIPAPYRERGQMAYKTGQRIVDLAYDDVKPLDILTKQAFENAIALVAAAGGSTNAQPHIVAMARHAGVEITADDWRAAYDIPLIVNMQPAGKYLGERFHRAGGAPAVLWELLQQGRLHGDVLTVTGKTMSENLQGRETSDREVIFPYHEPLAEKAGFLVLKGNLFDFAIMKSSVIGEEFRKRYLSQPGQEGVFEARAIVFDGSDDYHKRINDPALEIDERCILVIRGAGPIGWPGSAEVVNMQPPDHLLKKGIMSLPTLGDGRQSGTADSPSILNASPESAIGGGLSWLRTGDTIRIDLNTGRCDALVDEATIAARKQDGIPAVPATMTPWQEIYRAHASQLDTGGVLEFAVKYQDLAAKLPRHNH 5oyn-a1-m1-cD_5oyn-a1-m1-cB Crystal structure of D-xylonate dehydratase in holo-form Q9A9Z2 Q9A9Z2 2.7 X-RAY DIFFRACTION 47 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 587 588 5oyn-a1-m1-cC_5oyn-a1-m1-cA RTPRRFRSRDWFDNPDHIDMTALYLERFMNYGITPEELRSGKPIIGIAQTGSDISPCNRIHLDLVQRVRDGIRDAGGIPMEFPVHPIFENCRRPTAALDRNLSYLGLVETLHGYPIDAVVLTTGCDTTPAGIMAATTVNIPAIVLSGGPMLDGWHENELVGSGTVIWRSRRKLAAGEITEEEFIDRAASSAPSAGHCNTMGTASTMNAVAEALGLSLTGCAAIPAPYRERGQMAYKTGQRIVDLAYDDVKPLDILTKQAFENAIALVAAAGGSTNAQPHIVAMARHAGVEITADDWRAAYDIPLIVNMQPAGKYLGERFHRAGGAPAVLWELLQQGRLHGDVLTVTGKTMSENLQGRETSDREVIFPYHEPLAEKAGFLVLKGNLFDFAIMKSSVIGEEFRKRYLSQPGQEGVFEARAIVFDGSDDYHKRINDPALEIDERCILVIRGAGPIGWPGSAEVVNMQPPDHLLKKGIMSLPTLGDGRQSGTADSPSILNASPESAIGGGLSWLRTGDTIRIDLNTGRCDALVDEATIAARKQDGIPAVPATMTPWQEIYRAHASQLDTGGVLEFAVKYQDLAAKLPRHNH NRTPRRFRSRDWFDNPDHIDMTALYLERFMNYGITPEELRSGKPIIGIAQTGSDISPCNRIHLDLVQRVRDGIRDAGGIPMEFPVHPIFENCRRPTAALDRNLSYLGLVETLHGYPIDAVVLTTGCDTTPAGIMAATTVNIPAIVLSGGPMLDGWHENELVGSGTVIWRSRRKLAAGEITEEEFIDRAASSAPSAGHCNTMGTASTMNAVAEALGLSLTGCAAIPAPYRERGQMAYKTGQRIVDLAYDDVKPLDILTKQAFENAIALVAAAGGSTNAQPHIVAMARHAGVEITADDWRAAYDIPLIVNMQPAGKYLGERFHRAGGAPAVLWELLQQGRLHGDVLTVTGKTMSENLQGRETSDREVIFPYHEPLAEKAGFLVLKGNLFDFAIMKSSVIGEEFRKRYLSQPGQEGVFEARAIVFDGSDDYHKRINDPALEIDERCILVIRGAGPIGWPGSAEVVNMQPPDHLLKKGIMSLPTLGDGRQSGTADSPSILNASPESAIGGGLSWLRTGDTIRIDLNTGRCDALVDEATIAARKQDGIPAVPATMTPWQEIYRAHASQLDTGGVLEFAVKYQDLAAKLPRHNH 5pgm-a2-m1-cE_5pgm-a2-m1-cH SACCHAROMYCES CEREVISIAE PHOSPHOGLYCERATE MUTASE P00950 P00950 2.12 X-RAY DIFFRACTION 62 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 234 235 1bq3-a1-m1-cA_1bq3-a1-m1-cC 1bq3-a1-m1-cD_1bq3-a1-m1-cB 1bq4-a1-m1-cA_1bq4-a1-m1-cC 1bq4-a1-m1-cD_1bq4-a1-m1-cB 1qhf-a1-m1-cA_1qhf-a1-m2-cA 1qhf-a1-m1-cB_1qhf-a1-m2-cB 3pgm-a1-m1-cA_3pgm-a1-m2-cA 3pgm-a1-m1-cB_3pgm-a1-m2-cB 4pgm-a1-m1-cB_4pgm-a1-m1-cD 4pgm-a1-m1-cC_4pgm-a1-m1-cA 5pgm-a1-m1-cA_5pgm-a1-m1-cC 5pgm-a1-m1-cB_5pgm-a1-m1-cD 5pgm-a2-m1-cG_5pgm-a2-m1-cF PKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSRAIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVPPPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIAAHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAA PKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSRAIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVPPPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIAAHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAAA 5pgm-a2-m1-cG_5pgm-a2-m1-cH SACCHAROMYCES CEREVISIAE PHOSPHOGLYCERATE MUTASE P00950 P00950 2.12 X-RAY DIFFRACTION 40 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 234 235 1bq3-a1-m1-cA_1bq3-a1-m1-cB 1bq3-a1-m1-cD_1bq3-a1-m1-cC 1bq4-a1-m1-cA_1bq4-a1-m1-cB 1bq4-a1-m1-cD_1bq4-a1-m1-cC 1qhf-a1-m1-cA_1qhf-a1-m1-cB 1qhf-a1-m2-cA_1qhf-a1-m2-cB 3pgm-a1-m1-cA_3pgm-a1-m1-cB 3pgm-a1-m2-cA_3pgm-a1-m2-cB 4pgm-a1-m1-cA_4pgm-a1-m1-cB 4pgm-a1-m1-cC_4pgm-a1-m1-cD 5pgm-a1-m1-cA_5pgm-a1-m1-cB 5pgm-a1-m1-cC_5pgm-a1-m1-cD 5pgm-a2-m1-cE_5pgm-a2-m1-cF PKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSRAIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVPPPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIAAHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAA PKLVLVRHGQSEWNEKNLFTGWVDVKLSAKGQQEAARAGELLKEKKVYPDVLYTSKLSRAIQTANIALEKADRLWIPVNRSWRLNERHYGDLQGKDKAETLKKFGEEKFNTYRRSFDVPPPPIDASSPFSQKGDERYKYVDPNVLPETESLALVIDRLLPYWQDVIAKDLLSGKTVMIAAHGNSLRGLVKHLEGISDADIAKLNIPTGIPLVFELDENLKPSKPSYYLDPEAAAA 5qkb-a2-m1-cD_5qkb-a2-m1-cC Ground-state model of NUDT5 and corresponding apo datasets for PanDDA analysis Q9UKK9 Q9UKK9 1.58 X-RAY DIFFRACTION 238 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 189 192 2dsb-a1-m1-cA_2dsb-a1-m1-cB 2dsb-a2-m1-cC_2dsb-a2-m1-cD 2dsc-a1-m1-cA_2dsc-a1-m1-cB 2dsd-a1-m1-cA_2dsd-a1-m1-cB 3ac9-a1-m1-cA_3ac9-a1-m1-cB 3aca-a1-m1-cB_3aca-a1-m1-cA 3bm4-a1-m1-cA_3bm4-a1-m1-cB 3l85-a1-m1-cA_3l85-a1-m1-cB 5nqr-a1-m1-cA_5nqr-a1-m1-cB 5nwh-a1-m1-cA_5nwh-a1-m1-cB 5qj4-a1-m1-cA_5qj4-a1-m1-cB 5qj4-a2-m1-cD_5qj4-a2-m1-cC 5qj5-a1-m1-cA_5qj5-a1-m1-cB 5qj5-a2-m1-cD_5qj5-a2-m1-cC 5qj6-a1-m1-cA_5qj6-a1-m1-cB 5qj6-a2-m1-cD_5qj6-a2-m1-cC 5qj7-a1-m1-cA_5qj7-a1-m1-cB 5qj7-a2-m1-cD_5qj7-a2-m1-cC 5qj8-a1-m1-cA_5qj8-a1-m1-cB 5qj8-a2-m1-cD_5qj8-a2-m1-cC 5qj9-a1-m1-cA_5qj9-a1-m1-cB 5qj9-a2-m1-cD_5qj9-a2-m1-cC 5qja-a1-m1-cA_5qja-a1-m1-cB 5qja-a2-m1-cD_5qja-a2-m1-cC 5qjb-a1-m1-cA_5qjb-a1-m1-cB 5qjb-a2-m1-cD_5qjb-a2-m1-cC 5qjc-a1-m1-cA_5qjc-a1-m1-cB 5qjc-a2-m1-cD_5qjc-a2-m1-cC 5qjd-a1-m1-cA_5qjd-a1-m1-cB 5qjd-a2-m1-cD_5qjd-a2-m1-cC 5qje-a1-m1-cA_5qje-a1-m1-cB 5qje-a2-m1-cD_5qje-a2-m1-cC 5qjf-a1-m1-cA_5qjf-a1-m1-cB 5qjf-a2-m1-cD_5qjf-a2-m1-cC 5qjg-a1-m1-cA_5qjg-a1-m1-cB 5qjg-a2-m1-cD_5qjg-a2-m1-cC 5qjh-a1-m1-cA_5qjh-a1-m1-cB 5qjh-a2-m1-cD_5qjh-a2-m1-cC 5qji-a1-m1-cA_5qji-a1-m1-cB 5qji-a2-m1-cD_5qji-a2-m1-cC 5qjj-a1-m1-cA_5qjj-a1-m1-cB 5qjj-a2-m1-cD_5qjj-a2-m1-cC 5qjk-a1-m1-cA_5qjk-a1-m1-cB 5qjk-a2-m1-cD_5qjk-a2-m1-cC 5qjl-a1-m1-cA_5qjl-a1-m1-cB 5qjl-a2-m1-cD_5qjl-a2-m1-cC 5qjm-a1-m1-cA_5qjm-a1-m1-cB 5qjm-a2-m1-cD_5qjm-a2-m1-cC 5qjn-a1-m1-cA_5qjn-a1-m1-cB 5qjn-a2-m1-cD_5qjn-a2-m1-cC 5qjo-a1-m1-cA_5qjo-a1-m1-cB 5qjo-a2-m1-cD_5qjo-a2-m1-cC 5qjp-a1-m1-cA_5qjp-a1-m1-cB 5qjp-a2-m1-cD_5qjp-a2-m1-cC 5qjq-a1-m1-cA_5qjq-a1-m1-cB 5qjq-a2-m1-cD_5qjq-a2-m1-cC 5qjr-a1-m1-cA_5qjr-a1-m1-cB 5qjr-a2-m1-cD_5qjr-a2-m1-cC 5qjs-a1-m1-cA_5qjs-a1-m1-cB 5qjs-a2-m1-cD_5qjs-a2-m1-cC 5qjt-a1-m1-cA_5qjt-a1-m1-cB 5qjt-a2-m1-cD_5qjt-a2-m1-cC 5qju-a1-m1-cA_5qju-a1-m1-cB 5qju-a2-m1-cD_5qju-a2-m1-cC 5qjv-a1-m1-cA_5qjv-a1-m1-cB 5qjv-a2-m1-cD_5qjv-a2-m1-cC 5qjw-a1-m1-cA_5qjw-a1-m1-cB 5qjw-a2-m1-cD_5qjw-a2-m1-cC 5qjx-a1-m1-cA_5qjx-a1-m1-cB 5qjx-a2-m1-cD_5qjx-a2-m1-cC 5qjy-a1-m1-cA_5qjy-a1-m1-cB 5qjy-a2-m1-cD_5qjy-a2-m1-cC 5qjz-a1-m1-cA_5qjz-a1-m1-cB 5qjz-a2-m1-cD_5qjz-a2-m1-cC 5qk0-a1-m1-cA_5qk0-a1-m1-cB 5qk0-a2-m1-cD_5qk0-a2-m1-cC 5qk1-a1-m1-cA_5qk1-a1-m1-cB 5qk1-a2-m1-cD_5qk1-a2-m1-cC 5qk2-a1-m1-cA_5qk2-a1-m1-cB 5qk2-a2-m1-cD_5qk2-a2-m1-cC 5qk3-a1-m1-cA_5qk3-a1-m1-cB 5qk3-a2-m1-cD_5qk3-a2-m1-cC 5qk4-a1-m1-cA_5qk4-a1-m1-cB 5qk4-a2-m1-cD_5qk4-a2-m1-cC 5qk5-a1-m1-cA_5qk5-a1-m1-cB 5qk5-a2-m1-cD_5qk5-a2-m1-cC 5qk6-a1-m1-cA_5qk6-a1-m1-cB 5qk6-a2-m1-cD_5qk6-a2-m1-cC 5qk7-a1-m1-cA_5qk7-a1-m1-cB 5qk7-a2-m1-cD_5qk7-a2-m1-cC 5qk8-a1-m1-cA_5qk8-a1-m1-cB 5qk8-a2-m1-cD_5qk8-a2-m1-cC 5qk9-a1-m1-cA_5qk9-a1-m1-cB 5qk9-a2-m1-cD_5qk9-a2-m1-cC 5qka-a1-m1-cA_5qka-a1-m1-cB 5qka-a2-m1-cD_5qka-a2-m1-cC 5qkb-a1-m1-cA_5qkb-a1-m1-cB 5qtl-a1-m1-cA_5qtl-a1-m1-cB 5qtl-a2-m1-cC_5qtl-a2-m1-cD 5qtm-a1-m1-cA_5qtm-a1-m1-cB 5qtm-a2-m1-cC_5qtm-a2-m1-cD 5qtn-a1-m1-cA_5qtn-a1-m1-cB 5qtn-a2-m1-cC_5qtn-a2-m1-cD 5qto-a1-m1-cA_5qto-a1-m1-cB 5qto-a2-m1-cC_5qto-a2-m1-cD 5qtp-a1-m1-cA_5qtp-a1-m1-cB 5qtp-a2-m1-cC_5qtp-a2-m1-cD 5qtq-a1-m1-cA_5qtq-a1-m1-cB 5qtq-a2-m1-cC_5qtq-a2-m1-cD 5qtr-a1-m1-cA_5qtr-a1-m1-cB 5qtr-a2-m1-cC_5qtr-a2-m1-cD 5qts-a1-m1-cA_5qts-a1-m1-cB 5qts-a2-m1-cC_5qts-a2-m1-cD 6gru-a1-m1-cA_6gru-a1-m1-cB 6gru-a2-m1-cD_6gru-a2-m1-cC KQYIISEELISEGKWVKLEKTTYMDPTGKTRTWESVKRTTADGVAVIPVLQRTLHYECIVLVKQFRPPMGGYCIEFPAGLIDDGETPEAAALRELEEETGYKGDIAECSPAVCMDPGLSNCTIHIVTVTINGDDENARPKPKPGDGEFVEVISLPKNDLLQRLDALVAEEHLTVDARVYSYALALKHAN QYIISEELISEGKWVKLEKTTYMDPTGKTRTWESVKRTTRKQTADGVAVIPVLQRTLHYECIVLVKQFRPPMGGYCIEFPAGLIDDGETPEAAALRELEEETGYKGDIAECSPAVCMDPGLSNCTIHIVTVTINGDDAENARPKPKPGDGEFVEVISLPKNDLLQRLDALVAEEHLTVDARVYSYALALKHA 5r4p-a2-m1-cB_5r4p-a2-m3-cB PanDDA analysis group deposition -- Crystal Structure of HUMAN CLEAVAGE FACTOR IM in complex with NM450-1 O43809 O43809 1.78 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 190 2cl3-a1-m1-cA_2cl3-a1-m2-cA 2j8q-a1-m1-cB_2j8q-a1-m1-cA 3bap-a1-m1-cA_3bap-a1-m2-cA 3bho-a1-m1-cA_3bho-a1-m2-cA 3mdg-a1-m1-cA_3mdg-a1-m1-cB 3mdi-a1-m1-cA_3mdi-a1-m1-cB 3n9u-a1-m1-cB_3n9u-a1-m1-cA 3p5t-a1-m1-cA_3p5t-a1-m1-cB 3p5t-a2-m1-cC_3p5t-a2-m1-cD 3p5t-a3-m1-cE_3p5t-a3-m1-cF 3p6y-a1-m1-cA_3p6y-a1-m1-cB 3p6y-a2-m1-cE_3p6y-a2-m1-cF 3p6y-a3-m1-cI_3p6y-a3-m1-cJ 3p6y-a4-m1-cM_3p6y-a4-m1-cN 3q2s-a1-m1-cB_3q2s-a1-m1-cA 3q2t-a1-m1-cB_3q2t-a1-m1-cA 5r4p-a1-m1-cA_5r4p-a1-m2-cA 5r4t-a1-m1-cA_5r4t-a1-m2-cA 5r4t-a2-m1-cB_5r4t-a2-m3-cB 5r4u-a1-m1-cA_5r4u-a1-m2-cA 5r4u-a2-m1-cB_5r4u-a2-m3-cB 5r64-a1-m1-cA_5r64-a1-m2-cA 5r64-a2-m1-cB_5r64-a2-m3-cB 5r65-a1-m1-cA_5r65-a1-m2-cA 5r65-a2-m1-cB_5r65-a2-m3-cB 5r66-a1-m1-cA_5r66-a1-m2-cA 5r66-a2-m1-cB_5r66-a2-m3-cB 5r67-a1-m1-cA_5r67-a1-m2-cA 5r67-a2-m1-cB_5r67-a2-m3-cB ERTINLYPLTNYTFGTKEPLYEKDSSVAARFQRMREEFDKIGMRRTVEGVLIVHEHRLPHVLLLQLGTTFFKLPGGELNPGEDEVEGLKRLMTEILGRLQDWVIDDCIGNWWRPNFEPPQYPYIPAHITKPKEHKKLFLVQLQEKALFAVPKNYKLVAAPLFELYDNAPGYGPIISSLPQLLSRFNFIYN ERTINLYPLTNYTFGTKEPLYEKDSSVAARFQRMREEFDKIGMRRTVEGVLIVHEHRLPHVLLLQLGTTFFKLPGGELNPGEDEVEGLKRLMTEILGRLQDWVIDDCIGNWWRPNFEPPQYPYIPAHITKPKEHKKLFLVQLQEKALFAVPKNYKLVAAPLFELYDNAPGYGPIISSLPQLLSRFNFIYN 5rg6-a1-m1-cA_5rg6-a1-m1-cB Crystal Structure of Kemp Eliminase HG3.7 in unbound state, 277K P23360 P23360 1.35 X-RAY DIFFRACTION 75 1.0 5087 (Thermoascus aurantiacus) 5087 (Thermoascus aurantiacus) 300 300 3nyd-a1-m1-cB_3nyd-a1-m1-cA 5rg4-a1-m1-cA_5rg4-a1-m1-cB 5rg5-a1-m1-cA_5rg5-a1-m1-cB 5rg7-a1-m1-cA_5rg7-a1-m1-cB 5rga-a1-m1-cA_5rga-a1-m1-cB 5rgc-a1-m1-cA_5rgc-a1-m1-cB 5rgf-a1-m1-cA_5rgf-a1-m1-cB QSIDQLIKARGKVYFGVATDQNRLTTGKNAAIIKADFGMVWPENSMQWDATEPSQGNFNFAGADYLVNWAQQNGKLIGGGCLVWHRHLPSWVSSITDKNTLTNVMKNHITTLMTRYKGKIRNWDVVGEAFNEDGSLRQTVFLNVIGEDYIPIAFQTARAADPNAKLYIMDYNLDSASYPKTQAIVNRVKQWRAAGVPIDGIGSQTHLSAGQGAGVLQALPLLASAGTPEVSILMLDVAGASPTDYVNVVNACLNVQSCVGITVFGVADPDSWRASTTPLLFDGNFNPKPAYNAIVQDLQQ QSIDQLIKARGKVYFGVATDQNRLTTGKNAAIIKADFGMVWPENSMQWDATEPSQGNFNFAGADYLVNWAQQNGKLIGGGCLVWHRHLPSWVSSITDKNTLTNVMKNHITTLMTRYKGKIRNWDVVGEAFNEDGSLRQTVFLNVIGEDYIPIAFQTARAADPNAKLYIMDYNLDSASYPKTQAIVNRVKQWRAAGVPIDGIGSQTHLSAGQGAGVLQALPLLASAGTPEVSILMLDVAGASPTDYVNVVNACLNVQSCVGITVFGVADPDSWRASTTPLLFDGNFNPKPAYNAIVQDLQQ 5s8a-a1-m1-cA_5s8a-a1-m2-cB XChem group deposition -- Crystal Structure of human ACVR1 in complex with NU074484b Q04771 Q04771 1.3 X-RAY DIFFRACTION 71 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 283 292 3q4u-a1-m1-cA_3q4u-a1-m1-cB 3q4u-a2-m1-cC_3q4u-a2-m2-cD 3q4u-a3-m3-cC_3q4u-a3-m1-cD 5s7k-a1-m1-cA_5s7k-a1-m2-cB 5s7l-a1-m1-cA_5s7l-a1-m2-cB 5s7q-a1-m1-cA_5s7q-a1-m2-cB 5s7t-a1-m1-cA_5s7t-a1-m2-cB 5s7w-a1-m1-cA_5s7w-a1-m2-cB 5s83-a1-m1-cA_5s83-a1-m2-cB 5s86-a1-m1-cA_5s86-a1-m2-cB 5s8b-a1-m1-cA_5s8b-a1-m2-cB 5s9k-a1-m1-cA_5s9k-a1-m2-cB RTVARDITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKID ARDITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKID 5s9x-a1-m1-cB_5s9x-a1-m1-cA PanDDA analysis group deposition -- Crystal Structure of Trypanosoma brucei Trypanothione reductase in complex with Z1899842917 Q389T8 Q389T8 1.84 X-RAY DIFFRACTION 255 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 483 486 2wba-a1-m1-cA_2wba-a1-m1-cB 2woi-a1-m1-cB_2woi-a1-m1-cA 2woi-a2-m1-cC_2woi-a2-m1-cD 2wov-a1-m1-cB_2wov-a1-m1-cA 2wov-a2-m1-cD_2wov-a2-m1-cC 2wow-a1-m1-cD_2wow-a1-m1-cC 2wow-a2-m1-cB_2wow-a2-m1-cA 2wp5-a1-m1-cC_2wp5-a1-m1-cD 2wp5-a2-m1-cB_2wp5-a2-m1-cA 2wp6-a1-m1-cC_2wp6-a1-m1-cD 2wp6-a2-m1-cB_2wp6-a2-m1-cA 2wpc-a1-m1-cB_2wpc-a1-m1-cA 2wpc-a2-m1-cD_2wpc-a2-m1-cC 2wpe-a1-m1-cC_2wpe-a1-m1-cD 2wpe-a2-m1-cB_2wpe-a2-m1-cA 2wpf-a1-m1-cC_2wpf-a1-m1-cD 2wpf-a2-m1-cB_2wpf-a2-m1-cA 4nev-a1-m1-cA_4nev-a1-m1-cB 5s9s-a1-m1-cB_5s9s-a1-m1-cA 5s9t-a1-m1-cB_5s9t-a1-m1-cA 5s9u-a1-m1-cB_5s9u-a1-m1-cA 5s9v-a1-m1-cB_5s9v-a1-m1-cA 5s9w-a1-m1-cB_5s9w-a1-m1-cA 5s9y-a1-m1-cB_5s9y-a1-m1-cA 5s9z-a1-m1-cB_5s9z-a1-m1-cA 5sa0-a1-m1-cB_5sa0-a1-m1-cA 5sa1-a1-m1-cB_5sa1-a1-m1-cA 5sa2-a1-m1-cB_5sa2-a1-m1-cA 5sa3-a1-m1-cB_5sa3-a1-m1-cA 5smj-a1-m1-cB_5smj-a1-m1-cA 6btl-a1-m1-cA_6btl-a1-m1-cB 6btl-a1-m2-cA_6btl-a1-m2-cB 6bu7-a1-m1-cA_6bu7-a1-m1-cB 6oex-a1-m1-cA_6oex-a1-m1-cB 6oey-a1-m1-cA_6oey-a1-m1-cB 6oez-a1-m1-cA_6oez-a1-m1-cB 6rb5-a1-m1-cB_6rb5-a1-m1-cA 7nvp-a1-m1-cBBB_7nvp-a1-m1-cAAA KAFDLVVIGAGSGGLEAGWNAATLYGKRVAVVDVQTSHGPPFYAALGGTCVNVGCVPKKLMVTGAQYMDHLRESAGFGWEFDGSSVKANWKKLIAAKNEAVLDINKSYEGMFNDTEGLDFFLGWGSLESKNVVVVRETADPKSAVKERLQADHILLATGSWPQMPAIPGIEHCISSNEAFYLPEPPRRVLTVGGGFISVEFAGIFNAYKPPGGKVTLCYRNNLILRGFDETIREEVTKQLTANGIEIMTNENPAKVSLNTDGSKHVTFESGKTLDVDVVMMAIGRIPRTNDLQLGNVGVKLTPKGGVQVDEFSRTNVPNIYAIGDITDRLMLTPVAINEGAALVDTVFGNKPRKTDHTRVASAVFSIPPIGTCGLIEEVAAKEFEKVAVYMSSFTPLMHNISGSKYKKFVAKIVTNHSDGTVLGVHLLGDGAPEIIQAVGVCLRLNAKISDFYNTIGVHPTSAEELCSMRTPSYYYVKGEKME KAFDLVVIGAGSGGLEAGWNAATLYGKRVAVVDVQTSHGPPFYAALGGTCVNVGCVPKKLMVTGAQYMDHLRESAGFGWEFDGSSVKANWKKLIAAKNEAVLDINKSYEGMFNDTEGLDFFLGWGSLESKNVVVVRETADPKSAVKERLQADHILLATGSWPQMPAIPGIEHCISSNEAFYLPEPPRRVLTVGGGFISVEFAGIFNAYKPPGGKVTLCYRNNLILRGFDETIREEVTKQLTANGIEIMTNENPAKVSLNTDGSKHVTFESGKTLDVDVVMMAIGRIPRTNDLQLGNVGVKLTPKGGVQVDEFSRTNVPNIYAIGDITDRLMLTPVAINEGAALVDTVFGNKPRKTDHTRVASAVFSIPPIGTCGLIEEVAAKEFEKVAVYMSSFTPLMHNISGSKYKKFVAKIVTNHSDGTVLGVHLLGDGAPEIIQAVGVCLRLNAKISDFYNTIGVHPTSAEELCSMRTPSYYYVKGEKMEKLP 5sbf-a1-m2-cA_5sbf-a1-m3-cA PanDDA analysis group deposition of ground-state model of SARS-CoV-2 NendoU P0DTD1 P0DTD1 1.64 X-RAY DIFFRACTION 89 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 348 348 5s6x-a1-m1-cA_5s6x-a1-m2-cA 5s6x-a1-m1-cA_5s6x-a1-m3-cA 5s6x-a1-m2-cA_5s6x-a1-m3-cA 5s6x-a1-m4-cB_5s6x-a1-m5-cB 5s6x-a1-m4-cB_5s6x-a1-m6-cB 5s6x-a1-m5-cB_5s6x-a1-m6-cB 5s6y-a1-m1-cA_5s6y-a1-m2-cA 5s6y-a1-m1-cA_5s6y-a1-m3-cA 5s6y-a1-m2-cA_5s6y-a1-m3-cA 5s6y-a1-m4-cB_5s6y-a1-m5-cB 5s6y-a1-m4-cB_5s6y-a1-m6-cB 5s6y-a1-m5-cB_5s6y-a1-m6-cB 5s6z-a1-m1-cA_5s6z-a1-m2-cA 5s6z-a1-m1-cA_5s6z-a1-m3-cA 5s6z-a1-m2-cA_5s6z-a1-m3-cA 5s6z-a1-m4-cB_5s6z-a1-m5-cB 5s6z-a1-m4-cB_5s6z-a1-m6-cB 5s6z-a1-m5-cB_5s6z-a1-m6-cB 5s70-a1-m1-cA_5s70-a1-m2-cA 5s70-a1-m1-cA_5s70-a1-m3-cA 5s70-a1-m2-cA_5s70-a1-m3-cA 5s70-a1-m4-cB_5s70-a1-m5-cB 5s70-a1-m4-cB_5s70-a1-m6-cB 5s70-a1-m5-cB_5s70-a1-m6-cB 5s71-a1-m1-cA_5s71-a1-m2-cA 5s71-a1-m1-cA_5s71-a1-m3-cA 5s71-a1-m2-cA_5s71-a1-m3-cA 5s71-a1-m4-cB_5s71-a1-m5-cB 5s71-a1-m4-cB_5s71-a1-m6-cB 5s71-a1-m5-cB_5s71-a1-m6-cB 5s72-a1-m1-cA_5s72-a1-m2-cA 5s72-a1-m1-cA_5s72-a1-m3-cA 5s72-a1-m2-cA_5s72-a1-m3-cA 5s72-a1-m4-cB_5s72-a1-m5-cB 5s72-a1-m4-cB_5s72-a1-m6-cB 5s72-a1-m5-cB_5s72-a1-m6-cB 5sa4-a1-m1-cA_5sa4-a1-m2-cA 5sa4-a1-m1-cA_5sa4-a1-m3-cA 5sa4-a1-m2-cA_5sa4-a1-m3-cA 5sa4-a1-m4-cB_5sa4-a1-m5-cB 5sa4-a1-m4-cB_5sa4-a1-m6-cB 5sa4-a1-m5-cB_5sa4-a1-m6-cB 5sa5-a1-m1-cA_5sa5-a1-m2-cA 5sa5-a1-m1-cA_5sa5-a1-m3-cA 5sa5-a1-m2-cA_5sa5-a1-m3-cA 5sa5-a1-m4-cB_5sa5-a1-m5-cB 5sa5-a1-m4-cB_5sa5-a1-m6-cB 5sa5-a1-m5-cB_5sa5-a1-m6-cB 5sa6-a1-m1-cA_5sa6-a1-m2-cA 5sa6-a1-m1-cA_5sa6-a1-m3-cA 5sa6-a1-m2-cA_5sa6-a1-m3-cA 5sa6-a1-m4-cB_5sa6-a1-m5-cB 5sa6-a1-m4-cB_5sa6-a1-m6-cB 5sa6-a1-m5-cB_5sa6-a1-m6-cB 5sa7-a1-m1-cA_5sa7-a1-m2-cA 5sa7-a1-m1-cA_5sa7-a1-m3-cA 5sa7-a1-m2-cA_5sa7-a1-m3-cA 5sa7-a1-m4-cB_5sa7-a1-m5-cB 5sa7-a1-m4-cB_5sa7-a1-m6-cB 5sa7-a1-m5-cB_5sa7-a1-m6-cB 5sa8-a1-m1-cA_5sa8-a1-m2-cA 5sa8-a1-m1-cA_5sa8-a1-m3-cA 5sa8-a1-m2-cA_5sa8-a1-m3-cA 5sa8-a1-m4-cB_5sa8-a1-m5-cB 5sa8-a1-m4-cB_5sa8-a1-m6-cB 5sa8-a1-m5-cB_5sa8-a1-m6-cB 5sa9-a1-m1-cA_5sa9-a1-m2-cA 5sa9-a1-m1-cA_5sa9-a1-m3-cA 5sa9-a1-m2-cA_5sa9-a1-m3-cA 5sa9-a1-m4-cB_5sa9-a1-m5-cB 5sa9-a1-m4-cB_5sa9-a1-m6-cB 5sa9-a1-m5-cB_5sa9-a1-m6-cB 5saa-a1-m1-cA_5saa-a1-m2-cA 5saa-a1-m1-cA_5saa-a1-m3-cA 5saa-a1-m2-cA_5saa-a1-m3-cA 5saa-a1-m4-cB_5saa-a1-m5-cB 5saa-a1-m4-cB_5saa-a1-m6-cB 5saa-a1-m5-cB_5saa-a1-m6-cB 5sab-a1-m1-cA_5sab-a1-m2-cA 5sab-a1-m1-cA_5sab-a1-m3-cA 5sab-a1-m2-cA_5sab-a1-m3-cA 5sab-a1-m4-cB_5sab-a1-m5-cB 5sab-a1-m4-cB_5sab-a1-m6-cB 5sab-a1-m5-cB_5sab-a1-m6-cB 5sac-a1-m1-cA_5sac-a1-m2-cA 5sac-a1-m1-cA_5sac-a1-m3-cA 5sac-a1-m2-cA_5sac-a1-m3-cA 5sac-a1-m4-cB_5sac-a1-m5-cB 5sac-a1-m4-cB_5sac-a1-m6-cB 5sac-a1-m5-cB_5sac-a1-m6-cB 5sad-a1-m1-cA_5sad-a1-m2-cA 5sad-a1-m1-cA_5sad-a1-m3-cA 5sad-a1-m2-cA_5sad-a1-m3-cA 5sad-a1-m4-cB_5sad-a1-m5-cB 5sad-a1-m4-cB_5sad-a1-m6-cB 5sad-a1-m5-cB_5sad-a1-m6-cB 5sae-a1-m1-cA_5sae-a1-m2-cA 5sae-a1-m1-cA_5sae-a1-m3-cA 5sae-a1-m2-cA_5sae-a1-m3-cA 5sae-a1-m4-cB_5sae-a1-m5-cB 5sae-a1-m4-cB_5sae-a1-m6-cB 5sae-a1-m5-cB_5sae-a1-m6-cB 5saf-a1-m1-cA_5saf-a1-m2-cA 5saf-a1-m1-cA_5saf-a1-m3-cA 5saf-a1-m2-cA_5saf-a1-m3-cA 5saf-a1-m4-cB_5saf-a1-m5-cB 5saf-a1-m4-cB_5saf-a1-m6-cB 5saf-a1-m5-cB_5saf-a1-m6-cB 5sag-a1-m1-cA_5sag-a1-m2-cA 5sag-a1-m1-cA_5sag-a1-m3-cA 5sag-a1-m2-cA_5sag-a1-m3-cA 5sag-a1-m4-cB_5sag-a1-m5-cB 5sag-a1-m4-cB_5sag-a1-m6-cB 5sag-a1-m5-cB_5sag-a1-m6-cB 5sah-a1-m1-cA_5sah-a1-m2-cA 5sah-a1-m1-cA_5sah-a1-m3-cA 5sah-a1-m2-cA_5sah-a1-m3-cA 5sah-a1-m4-cB_5sah-a1-m5-cB 5sah-a1-m4-cB_5sah-a1-m6-cB 5sah-a1-m5-cB_5sah-a1-m6-cB 5sai-a1-m1-cA_5sai-a1-m2-cA 5sai-a1-m1-cA_5sai-a1-m3-cA 5sai-a1-m2-cA_5sai-a1-m3-cA 5sai-a1-m4-cB_5sai-a1-m5-cB 5sai-a1-m4-cB_5sai-a1-m6-cB 5sai-a1-m5-cB_5sai-a1-m6-cB 5sbf-a1-m1-cA_5sbf-a1-m2-cA 5sbf-a1-m1-cA_5sbf-a1-m3-cA 5sbf-a1-m4-cB_5sbf-a1-m5-cB 5sbf-a1-m4-cB_5sbf-a1-m6-cB 5sbf-a1-m5-cB_5sbf-a1-m6-cB 6vww-a1-m1-cA_6vww-a1-m2-cA 6vww-a1-m1-cA_6vww-a1-m3-cA 6vww-a1-m1-cB_6vww-a1-m2-cB 6vww-a1-m1-cB_6vww-a1-m3-cB 6vww-a1-m2-cA_6vww-a1-m3-cA 6vww-a1-m2-cB_6vww-a1-m3-cB 6w01-a1-m1-cA_6w01-a1-m2-cA 6w01-a1-m1-cA_6w01-a1-m3-cA 6w01-a1-m1-cB_6w01-a1-m2-cB 6w01-a1-m1-cB_6w01-a1-m3-cB 6w01-a1-m2-cA_6w01-a1-m3-cA 6w01-a1-m2-cB_6w01-a1-m3-cB 6wlc-a1-m1-cA_6wlc-a1-m2-cA 6wlc-a1-m1-cA_6wlc-a1-m3-cA 6wlc-a1-m1-cB_6wlc-a1-m2-cB 6wlc-a1-m1-cB_6wlc-a1-m3-cB 6wlc-a1-m2-cA_6wlc-a1-m3-cA 6wlc-a1-m2-cB_6wlc-a1-m3-cB 6wxc-a1-m1-cA_6wxc-a1-m2-cA 6wxc-a1-m1-cA_6wxc-a1-m3-cA 6wxc-a1-m1-cB_6wxc-a1-m2-cB 6wxc-a1-m1-cB_6wxc-a1-m3-cB 6wxc-a1-m2-cA_6wxc-a1-m3-cA 6wxc-a1-m2-cB_6wxc-a1-m3-cB 6x1b-a1-m1-cA_6x1b-a1-m2-cA 6x1b-a1-m1-cA_6x1b-a1-m3-cA 6x1b-a1-m1-cB_6x1b-a1-m2-cB 6x1b-a1-m1-cB_6x1b-a1-m3-cB 6x1b-a1-m2-cA_6x1b-a1-m3-cA 6x1b-a1-m2-cB_6x1b-a1-m3-cB 6x4i-a1-m1-cA_6x4i-a1-m2-cA 6x4i-a1-m1-cA_6x4i-a1-m3-cA 6x4i-a1-m1-cB_6x4i-a1-m2-cB 6x4i-a1-m1-cB_6x4i-a1-m3-cB 6x4i-a1-m2-cA_6x4i-a1-m3-cA 6x4i-a1-m2-cB_6x4i-a1-m3-cB 6xdh-a1-m1-cA_6xdh-a1-m2-cA 6xdh-a1-m1-cA_6xdh-a1-m4-cA 6xdh-a1-m2-cA_6xdh-a1-m4-cA 6xdh-a2-m1-cB_6xdh-a2-m3-cB 6xdh-a2-m1-cB_6xdh-a2-m5-cB 6xdh-a2-m3-cB_6xdh-a2-m5-cB 7k0r-a1-m1-cA_7k0r-a1-m1-cB 7k0r-a1-m1-cA_7k0r-a1-m1-cC 7k0r-a1-m1-cB_7k0r-a1-m1-cC 7k0r-a1-m1-cD_7k0r-a1-m1-cE 7k0r-a1-m1-cD_7k0r-a1-m1-cF 7k0r-a1-m1-cE_7k0r-a1-m1-cF 7k1l-a1-m1-cA_7k1l-a1-m2-cA 7k1l-a1-m1-cA_7k1l-a1-m3-cA 7k1l-a1-m1-cB_7k1l-a1-m2-cB 7k1l-a1-m1-cB_7k1l-a1-m3-cB 7k1l-a1-m2-cA_7k1l-a1-m3-cA 7k1l-a1-m2-cB_7k1l-a1-m3-cB 7k1o-a1-m1-cA_7k1o-a1-m1-cC 7k1o-a1-m1-cA_7k1o-a1-m2-cB 7k1o-a1-m1-cB_7k1o-a1-m2-cC 7k1o-a1-m1-cC_7k1o-a1-m2-cB 7k1o-a1-m2-cA_7k1o-a1-m1-cB 7k1o-a1-m2-cA_7k1o-a1-m2-cC 7k9p-a1-m1-cA_7k9p-a1-m2-cA 7k9p-a1-m1-cA_7k9p-a1-m3-cA 7k9p-a1-m2-cA_7k9p-a1-m3-cA 7k9p-a1-m4-cB_7k9p-a1-m5-cB 7k9p-a1-m4-cB_7k9p-a1-m6-cB 7k9p-a1-m5-cB_7k9p-a1-m6-cB 7keg-a1-m1-cA_7keg-a1-m2-cA 7keg-a1-m1-cA_7keg-a1-m3-cA 7keg-a1-m2-cA_7keg-a1-m3-cA 7keg-a1-m4-cB_7keg-a1-m5-cB 7keg-a1-m4-cB_7keg-a1-m6-cB 7keg-a1-m5-cB_7keg-a1-m6-cB 7keh-a1-m1-cA_7keh-a1-m2-cA 7keh-a1-m1-cA_7keh-a1-m3-cA 7keh-a1-m2-cA_7keh-a1-m3-cA 7keh-a1-m4-cB_7keh-a1-m5-cB 7keh-a1-m4-cB_7keh-a1-m6-cB 7keh-a1-m5-cB_7keh-a1-m6-cB 7kf4-a1-m1-cA_7kf4-a1-m1-cD 7kf4-a1-m1-cA_7kf4-a1-m1-cE 7kf4-a1-m1-cB_7kf4-a1-m1-cC 7kf4-a1-m1-cB_7kf4-a1-m1-cF 7kf4-a1-m1-cC_7kf4-a1-m1-cF 7kf4-a1-m1-cD_7kf4-a1-m1-cE 7me0-a1-m1-cA_7me0-a1-m1-cD 7me0-a1-m1-cA_7me0-a1-m1-cE 7me0-a1-m1-cB_7me0-a1-m1-cC 7me0-a1-m1-cB_7me0-a1-m1-cF 7me0-a1-m1-cC_7me0-a1-m1-cF 7me0-a1-m1-cD_7me0-a1-m1-cE 7n06-a1-m1-cA_7n06-a1-m1-cB 7n06-a1-m1-cA_7n06-a1-m1-cC 7n06-a1-m1-cB_7n06-a1-m1-cC 7n06-a1-m1-cD_7n06-a1-m1-cE 7n06-a1-m1-cD_7n06-a1-m1-cF 7n06-a1-m1-cE_7n06-a1-m1-cF 7n33-a1-m1-cA_7n33-a1-m1-cB 7n33-a1-m1-cA_7n33-a1-m1-cC 7n33-a1-m1-cB_7n33-a1-m1-cC 7n33-a1-m1-cD_7n33-a1-m1-cE 7n33-a1-m1-cD_7n33-a1-m1-cF 7n33-a1-m1-cE_7n33-a1-m1-cF 7n7r-a1-m1-cA_7n7r-a1-m2-cA 7n7r-a1-m1-cA_7n7r-a1-m3-cA 7n7r-a1-m2-cA_7n7r-a1-m3-cA 7n7r-a1-m4-cB_7n7r-a1-m5-cB 7n7r-a1-m4-cB_7n7r-a1-m6-cB 7n7r-a1-m5-cB_7n7r-a1-m6-cB 7n7u-a1-m1-cA_7n7u-a1-m2-cA 7n7u-a1-m1-cA_7n7u-a1-m3-cA 7n7u-a1-m2-cA_7n7u-a1-m3-cA 7n7u-a1-m4-cB_7n7u-a1-m5-cB 7n7u-a1-m4-cB_7n7u-a1-m6-cB 7n7u-a1-m5-cB_7n7u-a1-m6-cB 7n7w-a1-m1-cA_7n7w-a1-m2-cA 7n7w-a1-m1-cA_7n7w-a1-m3-cA 7n7w-a1-m2-cA_7n7w-a1-m3-cA 7n7w-a1-m4-cB_7n7w-a1-m5-cB 7n7w-a1-m4-cB_7n7w-a1-m6-cB 7n7w-a1-m5-cB_7n7w-a1-m6-cB 7n7y-a1-m1-cA_7n7y-a1-m2-cA 7n7y-a1-m1-cA_7n7y-a1-m3-cA 7n7y-a1-m2-cA_7n7y-a1-m3-cA 7n7y-a1-m4-cB_7n7y-a1-m5-cB 7n7y-a1-m4-cB_7n7y-a1-m6-cB 7n7y-a1-m5-cB_7n7y-a1-m6-cB 7n83-a1-m1-cA_7n83-a1-m2-cA 7n83-a1-m1-cA_7n83-a1-m3-cA 7n83-a1-m2-cA_7n83-a1-m3-cA 7n83-a1-m4-cB_7n83-a1-m5-cB 7n83-a1-m4-cB_7n83-a1-m6-cB 7n83-a1-m5-cB_7n83-a1-m6-cB 7rb0-a1-m1-cA_7rb0-a1-m1-cC 7rb0-a1-m1-cA_7rb0-a1-m1-cE 7rb0-a1-m1-cB_7rb0-a1-m1-cD 7rb0-a1-m1-cB_7rb0-a1-m1-cF 7rb0-a1-m1-cC_7rb0-a1-m1-cE 7rb0-a1-m1-cD_7rb0-a1-m1-cF 7rb2-a1-m1-cA_7rb2-a1-m1-cD 7rb2-a1-m1-cA_7rb2-a1-m1-cE 7rb2-a1-m1-cB_7rb2-a1-m1-cC 7rb2-a1-m1-cB_7rb2-a1-m1-cF 7rb2-a1-m1-cC_7rb2-a1-m1-cF 7rb2-a1-m1-cD_7rb2-a1-m1-cE 7tj2-a1-m1-cB_7tj2-a1-m1-cA 7tj2-a1-m1-cB_7tj2-a1-m1-cC 7tj2-a1-m1-cC_7tj2-a1-m1-cA 7tj2-a1-m1-cE_7tj2-a1-m1-cF 7tqv-a1-m1-cB_7tqv-a1-m1-cA 7tqv-a1-m1-cB_7tqv-a1-m1-cC 7tqv-a1-m1-cC_7tqv-a1-m1-cA 7tqv-a1-m1-cD_7tqv-a1-m1-cE 7tqv-a1-m1-cD_7tqv-a1-m1-cF 7tqv-a1-m1-cE_7tqv-a1-m1-cF AMSLENVAFNVVNKGHFDGQQGEVPVSIINNTVYTKVDGVDVELFENKTTLPVNVAFELWAKRNIKPVPEVKILNNLGVDIAANTVIWDYKRDAPAHISTIGVCSMTDIAKKPTETICAPLTVFFDGRVDGQVDLFRNARNGVLITEGSVKGLQPSVGPKQASLNGVTLIGEAVKTQFNYYKKVDGVVQQLPETYFTQSRNLQEFKPRSQMEIDFLELAMDEFIERYKLEGYAFEHIVYGDFSHSQLGGLHLLIGLAKRFKESPFELEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVVSKVVKVTIDYTEISFMLWCKDGHVETFYPKLQ AMSLENVAFNVVNKGHFDGQQGEVPVSIINNTVYTKVDGVDVELFENKTTLPVNVAFELWAKRNIKPVPEVKILNNLGVDIAANTVIWDYKRDAPAHISTIGVCSMTDIAKKPTETICAPLTVFFDGRVDGQVDLFRNARNGVLITEGSVKGLQPSVGPKQASLNGVTLIGEAVKTQFNYYKKVDGVVQQLPETYFTQSRNLQEFKPRSQMEIDFLELAMDEFIERYKLEGYAFEHIVYGDFSHSQLGGLHLLIGLAKRFKESPFELEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVVSKVVKVTIDYTEISFMLWCKDGHVETFYPKLQ 5sce-a2-m1-cH_5sce-a2-m1-cF Structure of liver pyruvate kinase in complex with anthraquinone derivative 55 P30613 P30613 2.147 X-RAY DIFFRACTION 193 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 425 434 2vgi-a1-m1-cB_2vgi-a1-m1-cD GTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPGSGPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS ADVAQLTQELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPGGPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS 5sch-a1-m1-cA_5sch-a1-m1-cC Structure of liver pyruvate kinase in complex with anthraquinone derivative 100 P30613 P30613 2.089 X-RAY DIFFRACTION 196 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 417 424 QQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPGSLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS ELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS 5sdt-a2-m1-cH_5sdt-a2-m1-cG Structure of liver pyruvate kinase in complex with anthraquinone derivative 15 P30613 P30613 1.944 X-RAY DIFFRACTION 95 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 429 434 5sch-a1-m1-cA_5sch-a1-m1-cB TQELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPGSGPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS RRADVAQLTQELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS 5sum-a3-m1-cA_5sum-a3-m2-cB Ribosome assembly factor NSA1 P53136 P53136 2.8 X-RAY DIFFRACTION 102 0.995 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 391 391 AMGSMRLLVSCVDSGSIKEVLCNIGTDTSVQSALQPFHVAPHLAEGLKAYVDRMWVISEDEAILARNSGVVELVKISKHLKENEALQVDDDLPKFDISEFEITSSVSDLFDDAKLESLVDGFVTLCPIKNNTFVAATKSGLLHIIKKGEDKKLIKLASLGLKAPVEFLQLYDLEKYIFAYGGEENLIKLVEIDSSFQSLKQIWEAKNVKNDRLDMRVPVWPMALRFLEPSPGKTEKGKLNYQFAAITRWSHLTKYSTQHGRKPFAQIDLLPNREPLSQMEVFDAKGENVVSSLGNFQSETFNELNVITTDYKKNVFKFDGNGRMLGKVGRDDITGSSTYIHVHDGKYLLQGGLDRYVRIFDIKTNKMLVKVYVGSRINFIVMLDDVEIEMP AMGSMRLLVSCVDSGSIKEVLCNIGTDTSVQSALQPFHVAPHLAEGLKAYVDRMWVISEDEAILARNSGVVELVKISKHLKENEALQVDDLPKFDISEFEITSSVSDLFDDAKLESLKLVDGFVTLCPIKNNTFVAATKSGLLHIIKKGEDKKLIKLASLGLKAPVEFLQLYDLEYIFAYGGEENLIKLVEIDSSFQSLKQIWEAKNVKNDRLDMRVPVWPMALRFLEPSPGKTEKGKLNYQFAAITRWSHLTKYSTQHGRKPFAQIDLLPNREPLSQMEVFDAKGENVVSSLGNFQSETFNELNVITTDYKKNVFKFDGNGRMLGKVGRDDITGSSTYIHVHDGKYLLQGGLDRYVRIFDIKTNKMLVKVYVGSRINFIVMLDDVEIEMP 5suq-a1-m1-cA_5suq-a1-m1-cC Crystal structure of the THO-Sub2 complex Q07478 Q07478 6 X-RAY DIFFRACTION 46 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 374 374 TGFKDFLLKPELSRAIIDCGFEHPSEVQQHTIPQSIHGTDVLCQAKSGLGKTAVFVLSTLQQLDPVPGEVAVVVICNARELAYQIRNEYLRFSKYMPDVKTAVFYGGTPISKDAELLKNKDTAPHIVVATPGRLKALVREKYIDLSHVKNFVIDECDKVLEELDMRRDVQEIFRATPRDKQVMMFSATLSQEIRPICRRFLQNPLEIFVGLQQYYIKLEEREKNRKLAQLLDDLEFNQVIIFVKSTTRANELTKLLNASNFPAITVHGHMKQEERIARYKAFKDFEKRICVSTDVFGRGIDIERINLAINYDLTNEADQYLHRVGRAGRFGTKGLAISFVSSKEDEEVLAKIQERFDVKIAEFPEEGIDPSTYL TGFKDFLLKPELSRAIIDCGFEHPSEVQQHTIPQSIHGTDVLCQAKSGLGKTAVFVLSTLQQLDPVPGEVAVVVICNARELAYQIRNEYLRFSKYMPDVKTAVFYGGTPISKDAELLKNKDTAPHIVVATPGRLKALVREKYIDLSHVKNFVIDECDKVLEELDMRRDVQEIFRATPRDKQVMMFSATLSQEIRPICRRFLQNPLEIFVGLQQYYIKLEEREKNRKLAQLLDDLEFNQVIIFVKSTTRANELTKLLNASNFPAITVHGHMKQEERIARYKAFKDFEKRICVSTDVFGRGIDIERINLAINYDLTNEADQYLHRVGRAGRFGTKGLAISFVSSKEDEEVLAKIQERFDVKIAEFPEEGIDPSTYL 5suy-a1-m1-cB_5suy-a1-m1-cA Domain-swapped dimer of human Dishevelled2 DEP domain: monoclinic crystal form crystallised from dimeric fraction O14641 O14641 1.88 X-RAY DIFFRACTION 154 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 95 5lnp-a1-m1-cA_5lnp-a1-m1-cB 5lnp-a1-m1-cD_5lnp-a1-m1-cC 5suy-a1-m1-cD_5suy-a1-m1-cC 5suz-a1-m1-cA_5suz-a1-m1-cB 5suz-a1-m2-cA_5suz-a1-m2-cB SGLSVHTDMASVTKAMAAPESGLEVRDRMWLKITIPNAFLGSDVVDWLYHHVEGFPERREARKYASGLLKAGLIRHTVNKITFSEQCYYVFGDL SGLSVHTDMASVTKAMAAPESGLEVRDRMWLKITIPNAFLGSDVVDWLYHHVEGFPERREARKYASGLLKAGLIRHTVNKITFSEQCYYVFGDLS 5suz-a1-m1-cA_5suz-a1-m2-cB Domain-swapped dimer of human Dishevelled2 DEP domain: C-centered monoclinic crystal form crystallised from monomeric fraction O14641 O14641 1.84 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 92 5suz-a1-m1-cB_5suz-a1-m2-cA SGLSVHTDASVTKAAAPESGLEVRDRWLKITIPNAFLGSDVVDWLYHHVEGFPERREARKYASGLLKAGLIRHTVNKITFSEQCYYVFGDLS SGLSVHTDASVTKAAAPESGLEVRDRWLKITIPNAFLGSDVVDWLYHHVEGFPERREARKYASGLLKAGLIRHTVNKITFSEQCYYVFGDLS 5sv2-a1-m1-cA_5sv2-a1-m2-cA Toxin VapC21 from Mycobacterium tuberculosis P9WF91 P9WF91 1.31 X-RAY DIFFRACTION 86 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 135 135 TTRYLLAKSAAYRAHLPAVRHRLEPLMERGLLARCGITDLEFGVSARSREDHRTLGTYRRDALEYVNTPDTVWVRAWEIQEALTDKGFHRSVKIPDLIIAAVAEHHGIPVMHYDQDFERIAAITRQPVEWVVAPG TTRYLLAKSAAYRAHLPAVRHRLEPLMERGLLARCGITDLEFGVSARSREDHRTLGTYRRDALEYVNTPDTVWVRAWEIQEALTDKGFHRSVKIPDLIIAAVAEHHGIPVMHYDQDFERIAAITRQPVEWVVAPG 5sv4-a3-m1-cA_5sv4-a3-m2-cB Anti-Ricin A-chain Single Domain Antibody A3C8 2.7 X-RAY DIFFRACTION 35 1.0 9844 (Lama glama) 9844 (Lama glama) 126 128 EVQLVESGGGLVQAGDSLRLSCTASGRTLGDYGVAWFRQAPGKEREFVSVISRSTIITDYADSVRGRFSISADSAKNTVYLQMNSLKPEDTAVYYCAVIANPVYATSRNSDDYGHWGQGTQVTVSS EVQLVESGGGLVQAGDSLRLSCTASGRTLGDYGVAWFRQAPGKEREFVSVISRSTIITDYADSVRGRFSISADSAKNTVYLQMNSLKPEDTAVYYCAVIANPVYATSRNSDDYGHWGQGTQVTVSSAA 5sv9-a1-m1-cA_5sv9-a1-m1-cB Structure of the SLC4 transporter Bor1p in an inward-facing conformation A0A1C7D1B8 A0A1C7D1B8 5.9 ELECTRON MICROSCOPY 79 1.0 114525 (Saccharomyces mikatae) 114525 (Saccharomyces mikatae) 476 476 IWLDLKDRIPYYKSDWVDAFNYRVIPSTVDTYFNNLLPAIAFAQDMFDRTDNSYGVNEVLLSSAMAGIVFGVLAGQPLCIVGVTGPISIFNYTVYEIIKPLNTSYFGFMFWICLWSMIFHLLLAFTNVVCLLQYVTTFPCDIFGLFINVVYIQKGIQILTRQFHNTSGEKSVQDGFASVVVALVMTAFGLFFKSFHHYPLFTHKIRTFISDYSTALSVLFWSSFTHFGGYLNDVKFKKLPITKSFFPTSKFNRPQNTWLAYEPIPVKDVFIALPFGIILTILFYFDHNVSSLMAQRHQYKLRKPSSFHYDFALLGLTTCISGVLGIPAPNGLIPQAPLHTETLLVRDSNQNVVRCVEQRLTNTFQGLMILGTMTRPLLVCLGEIPQAVLSGLFFIMGINGLMTNVIIHRIVFLFSDPKRRDNNSPLAKISKRSMVIFLCFSLAGFTGEFAITNTIAAIGFPLVLLLSVIVSFSFTY IWLDLKDRIPYYKSDWVDAFNYRVIPSTVDTYFNNLLPAIAFAQDMFDRTDNSYGVNEVLLSSAMAGIVFGVLAGQPLCIVGVTGPISIFNYTVYEIIKPLNTSYFGFMFWICLWSMIFHLLLAFTNVVCLLQYVTTFPCDIFGLFINVVYIQKGIQILTRQFHNTSGEKSVQDGFASVVVALVMTAFGLFFKSFHHYPLFTHKIRTFISDYSTALSVLFWSSFTHFGGYLNDVKFKKLPITKSFFPTSKFNRPQNTWLAYEPIPVKDVFIALPFGIILTILFYFDHNVSSLMAQRHQYKLRKPSSFHYDFALLGLTTCISGVLGIPAPNGLIPQAPLHTETLLVRDSNQNVVRCVEQRLTNTFQGLMILGTMTRPLLVCLGEIPQAVLSGLFFIMGINGLMTNVIIHRIVFLFSDPKRRDNNSPLAKISKRSMVIFLCFSLAGFTGEFAITNTIAAIGFPLVLLLSVIVSFSFTY 5svh-a3-m1-cB_5svh-a3-m4-cB Crystal structure of the KIX domain of CBP in complex with a MLL/c-Myb chimera P01103 P01103 2.05 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 42 5svh-a2-m1-cB_5svh-a2-m4-cB 5svh-a2-m2-cB_5svh-a2-m6-cB 5svh-a2-m3-cB_5svh-a2-m5-cB NILPSDIMDFVLKNTPSMQALGESPESKEKRIKELELLLMST NILPSDIMDFVLKNTPSMQALGESPESKEKRIKELELLLMST 5swc-a1-m1-cD_5swc-a1-m1-cC The structure of the beta-carbonic anhydrase CcaA Q54735 Q54735 1.45 X-RAY DIFFRACTION 244 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 206 208 5swc-a1-m1-cA_5swc-a1-m1-cB SHMQRLIEGLQKFREGYFSSHRDLFEQLSHGQHPRILFICCSDSRVDPNLITQSEVGDLFVIRNAGNIIPPYGAANGGEGAAMEYALVALEINQIIVCGHSHCGAMKGLLKLNSLQEKLPLVYDWLKHTEATRRLVLDNYSHLEGEDLIEVAVAENILTQLKNLQTYPAIHSRLHRGDLSLHGWIYRIEEGEVLAYDGVLHDFVAP GSHMQRLIEGLQKFREGYFSSHRDLFEQLSHGQHPRILFICCSDSRVDPNLITQSEVGDLFVIRNAGNIIPPYGAANGGEGAAMEYALVALEINQIIVCGHSHCGAMKGLLKLNSLQEKLPLVYDWLKHTEATRRLVLDNYSHLEGEDLIEVAVAENILTQLKNLQTYPAIHSRLHRGDLSLHGWIYRIEEGEVLAYDGVLHDFVAPQ 5swc-a1-m1-cD_5swc-a1-m1-cE The structure of the beta-carbonic anhydrase CcaA Q54735 Q54735 1.45 X-RAY DIFFRACTION 102 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 206 223 5swc-a1-m1-cC_5swc-a1-m1-cB SHMQRLIEGLQKFREGYFSSHRDLFEQLSHGQHPRILFICCSDSRVDPNLITQSEVGDLFVIRNAGNIIPPYGAANGGEGAAMEYALVALEINQIIVCGHSHCGAMKGLLKLNSLQEKLPLVYDWLKHTEATRRLVLDNYSHLEGEDLIEVAVAENILTQLKNLQTYPAIHSRLHRGDLSLHGWIYRIEEGEVLAYDGVLHDFVAP GSHMQRLIEGLQKFREGYFSSHRDLFEQLSHGQHPRILFICCSDSRVDPNLITQSEVGDLFVIRNAGNIIPPYGAANGGEGAAMEYALVALEINQIIVCGHSHCGAMKGLLKLNSLQEKLPLVYDWLKHTEATRRLVLDNYSHLEGEDLIEVAVAENILTQLKNLQTYPAIHSRLHRGDLSLHGWIYRIEEGEVLAYDGVLHDFVAPQSRINALEPEDEYALH 5swi-a2-m1-cD_5swi-a2-m1-cA Crystal structure of SpGH92 in complex with mannose A0A0Y0HIE3 A0A0Y0HIE3 2.15 X-RAY DIFFRACTION 55 0.999 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 681 692 5swi-a2-m1-cC_5swi-a2-m1-cB KPLLETIDTRFGTTNKHAFSRGNTLPYTGVPFGMNYFVPQTSDQDGSWFFDPHLPIFQGIRLTHQPSPWIGDYSWLLLTPVTSQLGGDSLFHRQSSYDIDKACFQPHYLKLFSLRYQIETQLTPTCYGASIRLNQKQGKALSLYLHAADELTVEQVDKRTLALRQEGKTETNKNSLTMFTALQMNTDILAISQEAGDWRIDLASSQTEMQLATSFISPSQALINLPQEDFDSCKSSAQVDWENLLHRFDIIETGEADRTFFDHCLYRLFLFPQTFYEINESGQAIHMDLATGTVKPGVLFSNNGFWDTFRTTFPLFALIIPEHYQRFLEGFLNSYRDTGFLPKWLAPDERGMMPGTLLDGIIADSACKDMTPDLEGELFQAMLETAGLAQYQELGYLSTDHHESVSHTLDYAYSDFCIASCAKKLENIEIAETYKAASQNYRQLFDAETGYMRARDNQGNFHPDFSPYSWGRDYAECSAIQATLGVLHDIPGLIQLMGGKETFSNYLLKACQDAPLFETTGYGYEIHEMSEMATAPFGQIAISNQPSFHIPYLFRYSDYPDYTALLIKTLRQKAFHPSWEAYPGDEDNGSLSAWYIWSALGFYPTCPGKPSYDLGIPLFDHLRVYLAKEDKWLDIHTKQNHNHFNFVKECRLDKTLVSTIQHQDLLKAEQLTFTLSWLPSH KPLLETIDTRFGTTNKHAFSRGNTLPYTGVPFGMNYFVPQTSDQDGSWFFDPHLPIFQGIRLTHQPSPWIGDYSWLLLTPVTSQLGGDSLFHRQSSYDIDKACFQPHYLKLFSLRYQIETQLTPTCYGASIRLNQKQGKALSLYLHAADELTVEQVDKRTLALRQEGKTETNKNSLTMFTALQMNTDILAISQEAGDWRIDLASSQTEMQLATSFISPSQALINLPQEDFDSCKSSAQVDWENLLHRFDIIETGEADRTFFDHCLYRLFLFPQTFYEINESGQAIHMDLATGTVKPGVLFSNNGFWDTFRTTFPLFALIIPEHYQRFLEGFLNSYRDTGFLPKWLAPDERGMMPGTLLDGIIADSACKDMTPDLEGELFQAMLETASKADPLGINGRHGLAQYQELGYLSTDHHESVSHTLDYAYSDFCIASCAKKLENIEIAETYKAASQNYRQLFDAETGYMRARDNQGNFHPDFSPYSWGRDYAECSAIQATLGVLHDIPGLIQLMGGKETFSNYLLKACQDAPLFETTGYGYEIHEMSEMATAPFGQIAISNQPSFHIPYLFRYSDYPDYTALLIKTLRQKAFHPSWEAYPGDEDNGSLSAWYIWSALGFYPTCPGKPSYDLGIPLFDHLRVYLAKEDKWLDIHTKQNHNHFNFVKECRLDKTLVSTIQHQDLLKAEQLTFTLSWLPS 5swi-a3-m1-cC_5swi-a3-m1-cA Crystal structure of SpGH92 in complex with mannose A0A0Y0HIE3 A0A0Y0HIE3 2.15 X-RAY DIFFRACTION 97 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 680 692 5swi-a1-m1-cD_5swi-a1-m1-cB 5swi-a2-m1-cC_5swi-a2-m1-cA 5swi-a2-m1-cD_5swi-a2-m1-cB KPLLETIDTRFGTTNKHAFSRGNTLPYTGVPFGMNYFVPQTSDQDGSWFFDPHLPIFQGIRLTHQPSPWIGDYSWLLLTPVTSQLGGDSLFHRQSSYDIDKACFQPHYLKLFSLRYQIETQLTPTCYGASIRLNQKQGKALSLYLHAADELTVEQVDKRTLALRQEGKTETNKNSLTMFTALQMNTDILAISQEAGDWRIDLASSQTEMQLATSFISPSQALINLPQEDFDSCKSSAQVDWENLLHRFDIIETGEADRTFFDHCLYRLFLFPQTFYEINESGQAIHMDLATGTVKPGVLFSNNGFWDTFRTTFPLFALIIPEHYQRFLEGFLNSYRDTGFLPKWLAPDERGMMPGTLLDGIIADSACKDMTPDLEGELFQAMLETASKAQYQELGYLSTDHHESVSHTLDYAYSDFCIASCAKKLENIEIAETYKAASQNYRQLFDAETGYMRARDNQGNFHPDFSPYSWGRDYAECSAIQATLGVLHDIPGLIQLMGGKETFSNYLLKACQDAPLFETTGYGYEIHEMSEMATAPFGQIAISNQPSFHIPYLFRYSDYPDYTALLIKTLRQKAFHPSWEAYPGDEDNGSLSAWYIWSALGFYPTCPGKPSYDLGIPLFDHLRVYLAKEDKWLDIHTKQNHNHFNFVKECRLDKTLVSTIQHQDLLKAEQLTFTLSWLPS KPLLETIDTRFGTTNKHAFSRGNTLPYTGVPFGMNYFVPQTSDQDGSWFFDPHLPIFQGIRLTHQPSPWIGDYSWLLLTPVTSQLGGDSLFHRQSSYDIDKACFQPHYLKLFSLRYQIETQLTPTCYGASIRLNQKQGKALSLYLHAADELTVEQVDKRTLALRQEGKTETNKNSLTMFTALQMNTDILAISQEAGDWRIDLASSQTEMQLATSFISPSQALINLPQEDFDSCKSSAQVDWENLLHRFDIIETGEADRTFFDHCLYRLFLFPQTFYEINESGQAIHMDLATGTVKPGVLFSNNGFWDTFRTTFPLFALIIPEHYQRFLEGFLNSYRDTGFLPKWLAPDERGMMPGTLLDGIIADSACKDMTPDLEGELFQAMLETASKADPLGINGRHGLAQYQELGYLSTDHHESVSHTLDYAYSDFCIASCAKKLENIEIAETYKAASQNYRQLFDAETGYMRARDNQGNFHPDFSPYSWGRDYAECSAIQATLGVLHDIPGLIQLMGGKETFSNYLLKACQDAPLFETTGYGYEIHEMSEMATAPFGQIAISNQPSFHIPYLFRYSDYPDYTALLIKTLRQKAFHPSWEAYPGDEDNGSLSAWYIWSALGFYPTCPGKPSYDLGIPLFDHLRVYLAKEDKWLDIHTKQNHNHFNFVKECRLDKTLVSTIQHQDLLKAEQLTFTLSWLPS 5swk-a1-m1-cC_5swk-a1-m1-cD Crystal structure of p53 epitope-scaffold based on a inhibitor of cysteine proteases in complex with human MDM2 1.923 X-RAY DIFFRACTION 172 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 100 101 SLTEDNNNTTITIAKGENKEIILHGNPTTGYSWVVDSSEGLSNTVEYVADQHSGGKYHIKITGTQTGEGKIVLVYRRTSFAEYWNLLSPDRTFTLKVNVQ MSLTEDNNNTTITIAKGENKEIILHGNPTTGYSWVVDSSEGLSNTVEYVADQHSGGKYHIKITGTQTGEGKIVLVYRRTSFAEYWNLLSPDRTFTLKVNVQ 5sxo-a1-m1-cA_5sxo-a1-m2-cA 1.35 angstrom resolution crystal structure of beta-ketoacyl-ACP synthase II (FabF) from Listeria monocytogenes A0A0B8RFI6 A0A0B8RFI6 1.35 X-RAY DIFFRACTION 245 1.0 176281 (Listeria monocytogenes ATCC 19115) 176281 (Listeria monocytogenes ATCC 19115) 409 409 3o04-a2-m1-cA_3o04-a2-m2-cA KRRVVVTGIGAVTPIGNDAETSWENAKKGVNGVAKMTRLNPDDFPVKIAAELKDFDVEKYLEKKEARKMDRFTHYAIASAEMAVQDSGLVIDDSNANRVGVWIGSGIGGMETFETQYEIFLNRGHRRVSPFFVPMMIPDMGSGQVSIRFGAKGINSTTVTACATATNSIGDAFKVIERGDADAMITGGAEAPITKMSLAGFTANKALSLNPDPETACRPFDKDRDGFIIGEGAGIVILEEYEHAKARGAKIYAEIVGYGATGDAYHITAPAPNGEGAARAMKMAIDDAGLTPDKVDYINAHGTSTPYNDEYETQAIKTVFGDHAKKLAISSTKSMTGHTLGASGGIEAIFALLTIRDNIIAPTIHLKNQDEVCDLDYVPNEAREANVNVVISNSFGFGGHNATLVFKRI KRRVVVTGIGAVTPIGNDAETSWENAKKGVNGVAKMTRLNPDDFPVKIAAELKDFDVEKYLEKKEARKMDRFTHYAIASAEMAVQDSGLVIDDSNANRVGVWIGSGIGGMETFETQYEIFLNRGHRRVSPFFVPMMIPDMGSGQVSIRFGAKGINSTTVTACATATNSIGDAFKVIERGDADAMITGGAEAPITKMSLAGFTANKALSLNPDPETACRPFDKDRDGFIIGEGAGIVILEEYEHAKARGAKIYAEIVGYGATGDAYHITAPAPNGEGAARAMKMAIDDAGLTPDKVDYINAHGTSTPYNDEYETQAIKTVFGDHAKKLAISSTKSMTGHTLGASGGIEAIFALLTIRDNIIAPTIHLKNQDEVCDLDYVPNEAREANVNVVISNSFGFGGHNATLVFKRI 5sxp-a2-m1-cD_5sxp-a2-m1-cB STRUCTURAL BASIS FOR THE INTERACTION BETWEEN ITCH PRR AND BETA-PIX Q14155 Q14155 1.65 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 61 5sxp-a1-m1-cC_5sxp-a1-m1-cA NNQLVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTLNGRTGWFPSNYVREVKA SNNQLVVRAKFNFQQTNEDELSFSKGDVIHVTRVEEGGWWEGTLNGRTGWFPSNYVREVKA 5sy1-a1-m1-cA_5sy1-a1-m1-cB Structure of the STRA6 receptor for retinol uptake in complex with calmodulin F1RAX4 F1RAX4 3.9 ELECTRON MICROSCOPY 293 1.0 7955 (Danio rerio) 7955 (Danio rerio) 582 582 EVIPPCDPTADEGLFHICIAAISLVVMLVLAILARRQKLSDNQRGLTGLLSPVNFLDHTQHKGLAVAVYGVLFCKLVGMVLSHHPLPFTKEVANKEFWMILALLYYPTLYYPLLACGTLHNKVGYVLGSLLSWTHFGILVWQKVDCPKTPQIYKYYALFGSLPQIACLAFLSFQYPLLLFKGLQNTETANASEDLSSSYYRDYVKKILKKKKPTKISSSTSKPKLFDRLRDAVKSYIYTPEDVFRFPLKLAISVVVAFIALYQMALLLISGVLPTLHIVRRGVDENIAFLLAGFNIILSNDRQEVVRIVVYYLWCVEICYVSAVTLSCLVNLLMLMRSMVLHRSNLKGLYRGDSLNVFNCHRSIRPSRPALVCWMGFTSYQAAFLCLGMAIQTLVFFICILFAVFLIIIPILWGTNLMLFHIIGNLWPFWLTLVLAALIQHVASRFLFIRKDGGTRDLNNRGSLFLLSYILFLVNVMIGVVLGIWRVVITALFNIVHLGRLDISLLNRNVEAFDPGYRCYSHYLKIEVSQSHPVMKAFCGLLLQSSGQDNKVSNAKRARAHWQLLYTLVNNPSLVGSRKHFQ EVIPPCDPTADEGLFHICIAAISLVVMLVLAILARRQKLSDNQRGLTGLLSPVNFLDHTQHKGLAVAVYGVLFCKLVGMVLSHHPLPFTKEVANKEFWMILALLYYPTLYYPLLACGTLHNKVGYVLGSLLSWTHFGILVWQKVDCPKTPQIYKYYALFGSLPQIACLAFLSFQYPLLLFKGLQNTETANASEDLSSSYYRDYVKKILKKKKPTKISSSTSKPKLFDRLRDAVKSYIYTPEDVFRFPLKLAISVVVAFIALYQMALLLISGVLPTLHIVRRGVDENIAFLLAGFNIILSNDRQEVVRIVVYYLWCVEICYVSAVTLSCLVNLLMLMRSMVLHRSNLKGLYRGDSLNVFNCHRSIRPSRPALVCWMGFTSYQAAFLCLGMAIQTLVFFICILFAVFLIIIPILWGTNLMLFHIIGNLWPFWLTLVLAALIQHVASRFLFIRKDGGTRDLNNRGSLFLLSYILFLVNVMIGVVLGIWRVVITALFNIVHLGRLDISLLNRNVEAFDPGYRCYSHYLKIEVSQSHPVMKAFCGLLLQSSGQDNKVSNAKRARAHWQLLYTLVNNPSLVGSRKHFQ 5sy4-a1-m1-cA_5sy4-a1-m1-cB Atomic resolution structure of reduced E. coli YajL Q46948 Q46948 0.98 X-RAY DIFFRACTION 107 1.0 562 (Escherichia coli) 562 (Escherichia coli) 195 195 2ab0-a1-m1-cA_2ab0-a1-m1-cB SASALVCLAPGSEETEAVTTIDLLVRGGIKVTTASVASDGNLAITCSRGVKLLADAPLVEVADGEYDVIVLPGGIKGAECFRDSTLLVETVKQFHRSGRIVAAICAAPATVLVPHDIFPIGNMTGFPTLKDKIPAEQWLDKRVVWDARVKLLTSQGPGTAIDFGLKIIDLLVGREKAHEVASQLVMAAGIYNYYE SASALVCLAPGSEETEAVTTIDLLVRGGIKVTTASVASDGNLAITCSRGVKLLADAPLVEVADGEYDVIVLPGGIKGAECFRDSTLLVETVKQFHRSGRIVAAICAAPATVLVPHDIFPIGNMTGFPTLKDKIPAEQWLDKRVVWDARVKLLTSQGPGTAIDFGLKIIDLLVGREKAHEVASQLVMAAGIYNYYE 5szb-a2-m1-cA_5szb-a2-m2-cA Structure of human Dpf3 double-PHD domain bound to histone H3 tail peptide with acetylated K14 Q92784 Q92784 1.2 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 5i3l-a1-m1-cA_5i3l-a1-m1-cB GTVIPNNYCDFCLGGSNMNKKSGRPEELVSCADCGRSGHPTCLQFTLNMTEAVKTYKWQCIECKSCILCGTSENDDQLLFCDDCDRGYHMYCLNPPVAEPPEGSWSCHLCWELLK GTVIPNNYCDFCLGGSNMNKKSGRPEELVSCADCGRSGHPTCLQFTLNMTEAVKTYKWQCIECKSCILCGTSENDDQLLFCDDCDRGYHMYCLNPPVAEPPEGSWSCHLCWELLK 5szp-a1-m1-cA_5szp-a1-m1-cB Protocadherin Gamma B7 extracellular cadherin domains 1-4 P21 crystal form Q91XX3 Q91XX3 3.1 X-RAY DIFFRACTION 160 1.0 10090 (Mus musculus) 10090 (Mus musculus) 409 409 5szo-a1-m1-cA_5szo-a1-m1-cB PVRYSIPEELDRGSVVGKLAKDLGLSVLEVSARKLRVSAEKLHFSVDSESGDLLVKDRIDREQICKGRRKCELQLEAVLENPLNIFHVVVEIEDVNDHAPQFPKDEINLEISESDSPGARTILESAKDLDIGMNSLSKYQLSPNDYFLLLVKDNPDGSKYPELELQKMLDREAESTHHLMLTAVDGGDPPRTGTTQLRIRVVDANDNRPVFSQDVYRVRLPEDLPPGTTVLRLKAMDQDEGINAEFTYSFLGVANKAQFSLDPITGDIVTRQSLDFEEVEQYTIDVEAKDRGSLSSQCKVIIEVLDENDNRPEIIITSLSDQISEDSPSGTVVALFKVRDRDSGENAEVMCSLSGNNPFKIHSSSNNYYKLVTDSILDREQTPGYNVTITATDRGKPPLSSSTTITLNV PVRYSIPEELDRGSVVGKLAKDLGLSVLEVSARKLRVSAEKLHFSVDSESGDLLVKDRIDREQICKGRRKCELQLEAVLENPLNIFHVVVEIEDVNDHAPQFPKDEINLEISESDSPGARTILESAKDLDIGMNSLSKYQLSPNDYFLLLVKDNPDGSKYPELELQKMLDREAESTHHLMLTAVDGGDPPRTGTTQLRIRVVDANDNRPVFSQDVYRVRLPEDLPPGTTVLRLKAMDQDEGINAEFTYSFLGVANKAQFSLDPITGDIVTRQSLDFEEVEQYTIDVEAKDRGSLSSQCKVIIEVLDENDNRPEIIITSLSDQISEDSPSGTVVALFKVRDRDSGENAEVMCSLSGNNPFKIHSSSNNYYKLVTDSILDREQTPGYNVTITATDRGKPPLSSSTTITLNV 5t01-a1-m1-cA_5t01-a1-m1-cB Human c-Jun DNA binding domain homodimer in complex with methylated DNA P05412 P05412 1.89 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 62 1jnm-a1-m1-cA_1jnm-a1-m1-cB 2h7h-a1-m1-cA_2h7h-a1-m1-cB HMKAERKRMRNRIAASKSRKRKLERIARLEEKVKTLKAQNSELASTANMLREQVAQLKQKVM HMKAERKRMRNRIAASKSRKRKLERIARLEEKVKTLKAQNSELASTANMLREQVAQLKQKVM 5t0o-a1-m1-cA_5t0o-a1-m1-cC Crystal Structure of a membrane protein Q8RTE4 Q8RTE4 3.15 X-RAY DIFFRACTION 182 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 1033 1035 5lq3-a1-m1-cA_5lq3-a1-m1-cB 5lq3-a1-m1-cA_5lq3-a1-m1-cC 5lq3-a1-m1-cB_5lq3-a1-m1-cC 5lq3-a2-m1-cD_5lq3-a2-m1-cE 5lq3-a2-m1-cD_5lq3-a2-m1-cF 5lq3-a2-m1-cE_5lq3-a2-m1-cF 5t0o-a1-m1-cB_5t0o-a1-m1-cA 5t0o-a1-m1-cB_5t0o-a1-m1-cC MFSKFFIERPVFASVVAIIISLAGAIGLTNLPIEQYPSLTPPTVKVSATYTGADAQTIASTVASPIEDAINGADNMIYMDSTSSSSGTMSLTVYFDIGTDPDQATIDVNNRISAATAKMPDAVKKLGVTVRKTSSTTLAAISMYSSDGSMSAVDVYNYITLNVLDELKRVPGVGDANAIGNRNYSLRIWLKPDLLNKFGITATDVISAVNDQNAQYATGKIGEEPVTQKSPYVYSITMQGRLQNPSEFENIILRTNNDGSFLRLKDVADVEIGSQQYSSQGRLNGNDAVPIMINLQSGANALHTAELVQAKMQELSKNFPKGLTYKIPYDTTKFVIESIKEVVKTFVEALILVIIVMYMFLKNFRATLIPMIAVPVSLLGTFAGLYVLGFSINLLTLFALILAIGIVVDDAIIVVENIDRILHENEQISVKDAAIQAMQEVSSPVISIVLVLCAVFVPVSFISGFVGEIQRQFALTLAISVTISGFVALTLTPSLCALFLRRNEGEPFKFVKKFNDFFDWSTSVFSAGVAYILKRTIRFVLIFCIMLGAIFYLYKAVPNSLVPEEDQGLMISIINLPSASALHRTISEVDHISQEVLKTNGVKDAMAMIGFDLFTSSLKENAAAMFIGLQDWKDRNVSADQIIAELNKKFAFDRNASSVFIGLPPIPGLSITGGFEMYVQNKSGKSYDEIQKDVNKLVAAANQRKELSRVRTTLDTTFPQYKLIIDRDKLKHYNLNMQDVFNTMNATIGTYYVNDFSMLGKNFQVNIRAKGDFRNTQDALKNIFVRSNDGKMIPLDSFLTLQRSSGPDDVKRFNLFPAAQVQGQPAPGYTSGQAIEAIAQVAKETLGDDYSIAWSGSAYQEVSSKGTASYAFALGMIFVFLILAAQYERWLIPLAVVTAVPFAVFGSFLLVYLRGFSNDIYFQTGLLLLIGLSAKNAILIVEFAMEERFKKGKGVFEAAVAAAKLRFRPIIMTSLAFTFGVLPMIFATGAGSASRHSLGTGLIGGMIAASTLAIFFVPLFFYLLENFNEWLDK MFSKFFIERPVFASVVAIIISLAGAIGLTNLPIEQYPSLTPPTVKVSATYTGADAQTIASTVASPIEDAINGADNMIYMDSTSSSSGTMSLTVYFDIGTDPDQATIDVNNRISAATAKMPDAVKKLGVTVRKTSSTTLAAISMYSSDGSMSAVDVYNYITLNVLDELKRVPGVGDANAIGNRNYSLRIWLKPDLLNKFGITATDVISAVNDQNAQYATGKIGEEPVTQKSPYVYSITMQGRLQNPSEFENIILRTNNDGSFLRLKDVADVEIGSQQYSSQGRLNGNDAVPIMINLQSGANALHTAELVQAKMQELSKNFPKGLTYKIPYDTTKFVIESIKEVVKTFVEALILVIIVMYMFLKNFRATLIPMIAVPVSLLGTFAGLYVLGFSINLLTLFALILAIGIVVDDAIIVVENIDRILHENEQISVKDAAIQAMQEVSSPVISIVLVLCAVFVPVSFISGFVGEIQRQFALTLAISVTISGFVALTLTPSLCALFLRRNEGEPFKFVKKFNDFFDWSTSVFSAGVAYILKRTIRFVLIFCIMLGAIFYLYKAVPNSLVPEEDQGLMISIINLPSASALHRTISEVDHISQEVLKTNGVKDAMAMIGFDLFTSSLKENAAAMFIGLQDWKDRNVSADQIIAELNKKFAFDRNASSVFIGLPPIPGLSITGGFEMYVQNKSGKSYDEIQKDVNKLVAAANQRKELSRVRTTLDTTFPQYKLIIDRDKLKHYNLNMQDVFNTMNATIGTYYVNDFSMLGKNFQVNIRAKGDFRNTQDALKNIFVRSNDGKMIPLDSFLTLQRSSGPDDVKRFNLFPAAQVQGQPAPGYTSGQAIEAIAQVAKETLGDDYSIAWSGSAYQEVSSKGTASYAFALGMIFVFLILAAQYERWLIPLAVVTAVPFAVFGSFLLVYLRGFSNDIYFQTGLLLLIGLSAKNAILIVEFAMEERFKKGKGVFEAAVAAAKLRFRPIIMTSLAFTFGVLPMIFATGAGSASRHSLGTGLIGGMIAASTLAIFFVPLFFYLLENFNEWLDKKR 5t0z-a1-m1-cC_5t0z-a1-m1-cA PelC from Geobacter metallireducens Q39U79 Q39U79 2.255 X-RAY DIFFRACTION 12 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 156 158 SGLVPRGSHMVTLRQGGGTVSFTDSWALLPFINNTETPYAAERAEAVTAALLHTHGMQKLERTVTDRGELKQKAALEAAKQKKVRYAIAGTVNEWRYKVGLDGEPVAGFTLQVIELPEEKVVWSGVAGKSGWSRDAVSAVAQQVLDSLIGDLEKAA SGLVPRGSHMVTLRQGGGTVSFTDSWALLPFINNTETPYAAERAEAVTAALLHTHGMQKLERTVTEDRGELKQKAALEAAKQKKVRYAIAGTVNEWRYKVGLDGEPVAGFTLQVIELPEEKVVWSGVAGKSGWSRDAVSAVAQQVLDSLIGDLEKAAA 5t0z-a1-m1-cD_5t0z-a1-m1-cA PelC from Geobacter metallireducens Q39U79 Q39U79 2.255 X-RAY DIFFRACTION 55 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 155 158 5t0z-a1-m1-cC_5t0z-a1-m1-cB SGLVPRGSHMVTLRQGGGTVSFTDSWALLPFINNTETPYAAERAEAVTAALLHTHGMQKLERTVDRGELKQKAALEAAKQKKVRYAIAGTVNEWRYKVGLDGEPVAGFTLQVIELPEEKVVWSGVAGKSGWSRDAVSAVAQQVLDSLIGDLEKAA SGLVPRGSHMVTLRQGGGTVSFTDSWALLPFINNTETPYAAERAEAVTAALLHTHGMQKLERTVTEDRGELKQKAALEAAKQKKVRYAIAGTVNEWRYKVGLDGEPVAGFTLQVIELPEEKVVWSGVAGKSGWSRDAVSAVAQQVLDSLIGDLEKAAA 5t0z-a1-m1-cD_5t0z-a1-m1-cC PelC from Geobacter metallireducens Q39U79 Q39U79 2.255 X-RAY DIFFRACTION 68 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 155 156 5t0z-a1-m1-cA_5t0z-a1-m1-cB SGLVPRGSHMVTLRQGGGTVSFTDSWALLPFINNTETPYAAERAEAVTAALLHTHGMQKLERTVDRGELKQKAALEAAKQKKVRYAIAGTVNEWRYKVGLDGEPVAGFTLQVIELPEEKVVWSGVAGKSGWSRDAVSAVAQQVLDSLIGDLEKAA SGLVPRGSHMVTLRQGGGTVSFTDSWALLPFINNTETPYAAERAEAVTAALLHTHGMQKLERTVTDRGELKQKAALEAAKQKKVRYAIAGTVNEWRYKVGLDGEPVAGFTLQVIELPEEKVVWSGVAGKSGWSRDAVSAVAQQVLDSLIGDLEKAA 5t13-a1-m1-cA_5t13-a1-m4-cA Structure of the Cyanuric Acid Hydrolase TrzD Reveals Product Exit Channel P0A3V4 P0A3V4 2.19 X-RAY DIFFRACTION 40 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 376 376 5t13-a1-m2-cA_5t13-a1-m3-cA HHHHHHMQAQVFRVPMSNPADVSGVAKLIDEGVIRAEEVVCVLGKTEGNGCVNDFTRGYTTLAFKVYFSEKLGVSRQEVGERIAFIMSGGTEGVMAPHCTIFTVQKTDNKQKTAAEGKRLAVQQIFTREFLPEEIGRMPQVTETADAVRRAMREAGIADASDVHFVQVKCPLLTAGRMHDAVERGHTVATEDTYESMGYSRGASALGIALALGEVEKANLSDEVITADYSLYSSVASTSAGIELMNNEIIVMGNSRAWGGDLVIGHAEMKDAIDGAAVRQALRDVGCCENDLPTVDELGRVVNVFAKAEASPDGEVRNRRHTMLDDSDINSTRHARAVVNAVIASIVGDPMVYVSGGSEHQGPAGGGPVAVIARTA HHHHHHMQAQVFRVPMSNPADVSGVAKLIDEGVIRAEEVVCVLGKTEGNGCVNDFTRGYTTLAFKVYFSEKLGVSRQEVGERIAFIMSGGTEGVMAPHCTIFTVQKTDNKQKTAAEGKRLAVQQIFTREFLPEEIGRMPQVTETADAVRRAMREAGIADASDVHFVQVKCPLLTAGRMHDAVERGHTVATEDTYESMGYSRGASALGIALALGEVEKANLSDEVITADYSLYSSVASTSAGIELMNNEIIVMGNSRAWGGDLVIGHAEMKDAIDGAAVRQALRDVGCCENDLPTVDELGRVVNVFAKAEASPDGEVRNRRHTMLDDSDINSTRHARAVVNAVIASIVGDPMVYVSGGSEHQGPAGGGPVAVIARTA 5t13-a1-m2-cA_5t13-a1-m4-cA Structure of the Cyanuric Acid Hydrolase TrzD Reveals Product Exit Channel P0A3V4 P0A3V4 2.19 X-RAY DIFFRACTION 39 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 376 376 5t13-a1-m1-cA_5t13-a1-m3-cA HHHHHHMQAQVFRVPMSNPADVSGVAKLIDEGVIRAEEVVCVLGKTEGNGCVNDFTRGYTTLAFKVYFSEKLGVSRQEVGERIAFIMSGGTEGVMAPHCTIFTVQKTDNKQKTAAEGKRLAVQQIFTREFLPEEIGRMPQVTETADAVRRAMREAGIADASDVHFVQVKCPLLTAGRMHDAVERGHTVATEDTYESMGYSRGASALGIALALGEVEKANLSDEVITADYSLYSSVASTSAGIELMNNEIIVMGNSRAWGGDLVIGHAEMKDAIDGAAVRQALRDVGCCENDLPTVDELGRVVNVFAKAEASPDGEVRNRRHTMLDDSDINSTRHARAVVNAVIASIVGDPMVYVSGGSEHQGPAGGGPVAVIARTA HHHHHHMQAQVFRVPMSNPADVSGVAKLIDEGVIRAEEVVCVLGKTEGNGCVNDFTRGYTTLAFKVYFSEKLGVSRQEVGERIAFIMSGGTEGVMAPHCTIFTVQKTDNKQKTAAEGKRLAVQQIFTREFLPEEIGRMPQVTETADAVRRAMREAGIADASDVHFVQVKCPLLTAGRMHDAVERGHTVATEDTYESMGYSRGASALGIALALGEVEKANLSDEVITADYSLYSSVASTSAGIELMNNEIIVMGNSRAWGGDLVIGHAEMKDAIDGAAVRQALRDVGCCENDLPTVDELGRVVNVFAKAEASPDGEVRNRRHTMLDDSDINSTRHARAVVNAVIASIVGDPMVYVSGGSEHQGPAGGGPVAVIARTA 5t13-a1-m3-cA_5t13-a1-m4-cA Structure of the Cyanuric Acid Hydrolase TrzD Reveals Product Exit Channel P0A3V4 P0A3V4 2.19 X-RAY DIFFRACTION 128 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 376 376 5t13-a1-m1-cA_5t13-a1-m2-cA HHHHHHMQAQVFRVPMSNPADVSGVAKLIDEGVIRAEEVVCVLGKTEGNGCVNDFTRGYTTLAFKVYFSEKLGVSRQEVGERIAFIMSGGTEGVMAPHCTIFTVQKTDNKQKTAAEGKRLAVQQIFTREFLPEEIGRMPQVTETADAVRRAMREAGIADASDVHFVQVKCPLLTAGRMHDAVERGHTVATEDTYESMGYSRGASALGIALALGEVEKANLSDEVITADYSLYSSVASTSAGIELMNNEIIVMGNSRAWGGDLVIGHAEMKDAIDGAAVRQALRDVGCCENDLPTVDELGRVVNVFAKAEASPDGEVRNRRHTMLDDSDINSTRHARAVVNAVIASIVGDPMVYVSGGSEHQGPAGGGPVAVIARTA HHHHHHMQAQVFRVPMSNPADVSGVAKLIDEGVIRAEEVVCVLGKTEGNGCVNDFTRGYTTLAFKVYFSEKLGVSRQEVGERIAFIMSGGTEGVMAPHCTIFTVQKTDNKQKTAAEGKRLAVQQIFTREFLPEEIGRMPQVTETADAVRRAMREAGIADASDVHFVQVKCPLLTAGRMHDAVERGHTVATEDTYESMGYSRGASALGIALALGEVEKANLSDEVITADYSLYSSVASTSAGIELMNNEIIVMGNSRAWGGDLVIGHAEMKDAIDGAAVRQALRDVGCCENDLPTVDELGRVVNVFAKAEASPDGEVRNRRHTMLDDSDINSTRHARAVVNAVIASIVGDPMVYVSGGSEHQGPAGGGPVAVIARTA 5t16-a1-m1-cC_5t16-a1-m1-cD Crystal structure of yeast RNase III (Rnt1p) complexed with a non-hydrolyzable RNA substrate analog Q02555 Q02555 2.783 X-RAY DIFFRACTION 201 0.991 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 113 116 4oog-a1-m1-cA_4oog-a1-m1-cB 4oog-a1-m2-cA_4oog-a1-m2-cB 5t16-a1-m1-cE_5t16-a1-m1-cF 5t16-a2-m1-cK_5t16-a2-m1-cL 5t16-a2-m1-cM_5t16-a2-m1-cN SNYKYLEVIQLEHAVTKLVESYNKIIELSPNLVAYNEAVNNQDRVPVQILPSLSRYQLKLAAELKTLHDLKKDAILTEITDYENEFDTEQKQPILQEISKADMEKLEKLEQVK NYKYLEVIQLEHAVTKLVESYNKIIELSPNLVAYNEAVNNQDRVPVQILPSLSRYQLKLAAELKTLHDLKKDAILTEITDYENEFDTEQKQPILQEISKADMEKLEKLEQVKREKR 5t16-a2-m1-cJ_5t16-a2-m1-cI Crystal structure of yeast RNase III (Rnt1p) complexed with a non-hydrolyzable RNA substrate analog Q02555 Q02555 2.783 X-RAY DIFFRACTION 65 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 267 276 4oog-a1-m1-cC_4oog-a1-m2-cC 5t16-a1-m1-cB_5t16-a1-m1-cA DPTKAGDIVKATKWPPKLPEIQDLAIRARVFIHKSTIKDKVYLSGSEMINAHNERLEFLGDSILNSVMTLIIYNKFPDYSEGQLSTLRMNLVSNEQIKQWSIMYNFHEKLKTNFDLKDENSNFQNGKLKLYADVFEAYIGGLMEDDPRNNLPKIRKWLRKLAKPVIEEATRNQVKLDMNAKRQLYSLIGYASLRLHYVTVKKPTAVDPNSIVECRVGDGTVLGTGVGRNIKIAGIRAAENALRDKKMLDFYAKQRAAIPRSESVLKD YDPTKAGDIVKATKWPPKLPEIQDLAIRARVFIHKSTIKDKVYLSGSEMINAHNERLEFLGDSILNSVMTLIIYNKFPDYSEGQLSTLRMNLVSNEQIKQWSIMYNFHEKLKTNFDLKDENSNFQNGKLKLYADVFEAYIGGLMEDDPRNNLPKIRKWLRKLAKPVIEEATRNQVALEKTDKLDMNAKRQLYSLIGYASLRLHYVTVKKPTAVDPNSIVECRVGDGTVLGTGVGRNIKIAGIRAAENALRDKKMLDFYAKQRAAIPRSESVLKDPS 5t1h-a3-m1-cB_5t1h-a3-m2-cA Crystal structure of CK2 P68400 P68400 2.11 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 331 331 5kwh-a3-m1-cA_5kwh-a3-m2-cB 7ay9-a3-m1-cB_7ay9-a3-m2-cA SGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQA SGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQA 5t1h-a4-m1-cB_5t1h-a4-m3-cA Crystal structure of CK2 P68400 P68400 2.11 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 331 331 3u9c-a3-m1-cA_3u9c-a3-m2-cB 8p07-a1-m1-cA_8p07-a1-m1-cB SGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQA SGPVPSRARVYTDVNTHRPREYWDYESHVVEWGNQDDYQLVRKLGRGKYSEVFEAINITNNEKVVVKILKPVKKKKIKREIKILENLRGGPNIITLADIVKDPVSRTPALVFEHVNNTDFKQLYQTLTDYDIRFYMYEILKALDYCHSMGIMHRDVKPHNVMIDHEHRKLRLIDWGLAEFYHPGQEYNVRVASRYFKGPELLVDYQMYDYSLDMWSLGCMLASMIFRKEPFFHGHDNYDQLVRIAKVLGTEDLYDYIDKYNIELDPRFNDILGRHSRKRWERFVHSENQHLVSPEALDFLDKLLRYDHQSRLTAREAMEHPYFYTVVKDQA 5t1j-a1-m1-cA_5t1j-a1-m1-cB Crystal Structure of the Tbox DNA binding domain of the transcription factor T-bet Q9JKD8 Q9JKD8 2.947 X-RAY DIFFRACTION 70 1.0 10090 (Mus musculus) 10090 (Mus musculus) 192 192 KLRVALSNHLLWSKFNQHQTEMIITKQGRRMFPFLSFTVAGLEPTSHYRMFVDVVLVDQHHWRYQSGKWVQCGKAEGSMPGNRLYVHPDSPNTGAHWMRQEVSFGKLKLTNNKGASNNVTQMIVLQSLHKYQPRLHIVEVNDGEPEAACSASNTHVFTFQETQFIAVTAYQNAEITQLKIDNNPFAKGFREN KLRVALSNHLLWSKFNQHQTEMIITKQGRRMFPFLSFTVAGLEPTSHYRMFVDVVLVDQHHWRYQSGKWVQCGKAEGSMPGNRLYVHPDSPNTGAHWMRQEVSFGKLKLTNNKGASNNVTQMIVLQSLHKYQPRLHIVEVNDGEPEAACSASNTHVFTFQETQFIAVTAYQNAEITQLKIDNNPFAKGFREN 5t1y-a9-m1-cA_5t1y-a9-m1-cB MLA10 coiled-coil fragment Q8GSK4 Q8GSK4 2.05 X-RAY DIFFRACTION 213 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 106 116 5t1y-a10-m1-cC_5t1y-a10-m1-cD 5t1y-a11-m1-cE_5t1y-a11-m1-cF 5t1y-a12-m1-cG_5t1y-a12-m1-cH ATGAISNLIPKLGELLTEEFKLHKGVKKNIEDLGKELESNAALIKIGEVPLDSQDKLWADEVRELSYVIEDVVDKFLVQVDGIKSDDNNNKFKGLKRTTELLKKVK NATGAISNLIPKLGELLTEEFKLHKGVKKNIEDLGKELESNAALIKIGEVPREQLDSQDKLWADEVRELSYVIEDVVDKFLVQVDGIKSDDNNNKFKGLKRTTELLKKVKHKHGIA 5t2s-a3-m1-cA_5t2s-a3-m1-cC Structure of the FHA1 domain of Rad53 bound simultaneously to the BRCT domain of Dbf4 and a phosphopeptide. P22216 P22216 2.4 X-RAY DIFFRACTION 116 0.988 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 247 247 HMTPKELLEWQTNWKKIMKRDSRIYFDITDDVEMNTYNKSKMDKRRDLLKRGFLTLGAQITQFFDTTVTIVITRRSVENIYLLKDTDILSRAKKNYMKVWSYEKAARFLKNLDVDIGENIVCRVICTTGQIPIRDLSADISQVLKEKRSIKKVWTFGRNPACDYHLGNISRLSNKHFQILLGEDGNLLLNDISTNGTWLNGQKVEKNSNQLLSQGDEITVGVGVESDILSLVIFINDKFKQCLEQNK HMTPKELLEWQTNWKKIMKRDSRIYFDITDDVEMNTYNKSKMDKRRDLLKRGFLTLGAQITQFFDTTVTIVITRRSVENIYLLKDTDILSRAKKNYMKVWSYEKAARFLKNLDVDLDHGENIVCRVICTTGQIPIRDLSADISQVLKEKRSIKKVWTFGRNPACDYHLGNISRLSNKHFQILLGEDGNLLLNDISTNGTWLNGQKVEKNSNQLLSQGDEITVGVGVESDILSLVIFINDKFKQCLEQ 5t2t-a2-m3-cA_5t2t-a2-m1-cB Crystal structure of Lymphocytic choriomeningitis mammarenavirus endonuclease bound to compound L742001 P14240 P14240 1.967 X-RAY DIFFRACTION 60 1.0 11623 () 11623 () 189 199 5t2t-a1-m1-cA_5t2t-a1-m2-cB HDEIISELRELCLNYIEQDERLSRQKLNFLGQREPRMVLIEGLKLLSRCIEIDSADKSGCTHNHDDKSVETILVESGIVCPGLPLIIPDGYKLIDNSLILLECFVRSTPASFEKKFIEDTNKLACIREDLAVAGVTLVPIVDGRCDYDNSFMPEWANFKFRDLLFKLLEYSNQDEKVFEESEYFRLCES KHHHHHHDEIISELRELCLNYIEQDERLSRQKLNFLGQREPRMVLIEGLKLLSRCIEIDSADKSGCTHNHDDKSVETILVESGIVCPGLPLIIPDGYKLIDNSLILLECFVRSTPASFEKKFIEDTNKLACIREDLAVAGVTLVPIVDGRCDYDNSFMPEWANFKFRDLLFKLLEYSNQDEKVFEESEYFRLCESLKTT 5t2v-a1-m1-cA_5t2v-a1-m4-cA Crystal structure of MSMEG_6753 a putative betaketoacyl-ACP reductase A0R723 A0R723 1.9 X-RAY DIFFRACTION 114 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 239 239 5t2u-a1-m1-cB_5t2u-a1-m1-cA 5t2u-a1-m1-cD_5t2u-a1-m1-cC 5t2v-a1-m2-cA_5t2v-a1-m3-cA ELEGLTALVTGGTSGIGLESARLMAAEGADVVITGRDAQRGEQAAADIGHGARFVQADLGDLDSVADLAAQAPDVDILVNNAGIYPQASTFDQDVAGFQQLFDTNVRGTYFLVAAAAKGMVARGHGSIVNITTLAAHKGFPGTSVYGATKAALESLTRTWAAEFGANGVRVNSVSPGPTRTPTTLEQLGDFIDDVAAGLPLRRTAAPEEIAQAVLFLASPRASFVTGSTLYVDGGGYAV ELEGLTALVTGGTSGIGLESARLMAAEGADVVITGRDAQRGEQAAADIGHGARFVQADLGDLDSVADLAAQAPDVDILVNNAGIYPQASTFDQDVAGFQQLFDTNVRGTYFLVAAAAKGMVARGHGSIVNITTLAAHKGFPGTSVYGATKAALESLTRTWAAEFGANGVRVNSVSPGPTRTPTTLEQLGDFIDDVAAGLPLRRTAAPEEIAQAVLFLASPRASFVTGSTLYVDGGGYAV 5t2v-a1-m2-cA_5t2v-a1-m4-cA Crystal structure of MSMEG_6753 a putative betaketoacyl-ACP reductase A0R723 A0R723 1.9 X-RAY DIFFRACTION 127 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 239 239 5t2u-a1-m1-cA_5t2u-a1-m1-cC 5t2u-a1-m1-cB_5t2u-a1-m1-cD 5t2v-a1-m1-cA_5t2v-a1-m3-cA ELEGLTALVTGGTSGIGLESARLMAAEGADVVITGRDAQRGEQAAADIGHGARFVQADLGDLDSVADLAAQAPDVDILVNNAGIYPQASTFDQDVAGFQQLFDTNVRGTYFLVAAAAKGMVARGHGSIVNITTLAAHKGFPGTSVYGATKAALESLTRTWAAEFGANGVRVNSVSPGPTRTPTTLEQLGDFIDDVAAGLPLRRTAAPEEIAQAVLFLASPRASFVTGSTLYVDGGGYAV ELEGLTALVTGGTSGIGLESARLMAAEGADVVITGRDAQRGEQAAADIGHGARFVQADLGDLDSVADLAAQAPDVDILVNNAGIYPQASTFDQDVAGFQQLFDTNVRGTYFLVAAAAKGMVARGHGSIVNITTLAAHKGFPGTSVYGATKAALESLTRTWAAEFGANGVRVNSVSPGPTRTPTTLEQLGDFIDDVAAGLPLRRTAAPEEIAQAVLFLASPRASFVTGSTLYVDGGGYAV 5t2v-a1-m3-cA_5t2v-a1-m4-cA Crystal structure of MSMEG_6753 a putative betaketoacyl-ACP reductase A0R723 A0R723 1.9 X-RAY DIFFRACTION 10 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 239 239 5t2v-a1-m1-cA_5t2v-a1-m2-cA ELEGLTALVTGGTSGIGLESARLMAAEGADVVITGRDAQRGEQAAADIGHGARFVQADLGDLDSVADLAAQAPDVDILVNNAGIYPQASTFDQDVAGFQQLFDTNVRGTYFLVAAAAKGMVARGHGSIVNITTLAAHKGFPGTSVYGATKAALESLTRTWAAEFGANGVRVNSVSPGPTRTPTTLEQLGDFIDDVAAGLPLRRTAAPEEIAQAVLFLASPRASFVTGSTLYVDGGGYAV ELEGLTALVTGGTSGIGLESARLMAAEGADVVITGRDAQRGEQAAADIGHGARFVQADLGDLDSVADLAAQAPDVDILVNNAGIYPQASTFDQDVAGFQQLFDTNVRGTYFLVAAAAKGMVARGHGSIVNITTLAAHKGFPGTSVYGATKAALESLTRTWAAEFGANGVRVNSVSPGPTRTPTTLEQLGDFIDDVAAGLPLRRTAAPEEIAQAVLFLASPRASFVTGSTLYVDGGGYAV 5t3e-a3-m1-cB_5t3e-a3-m1-cA Crystal structure of a nonribosomal peptide synthetase heterocyclization domain. 2.297 X-RAY DIFFRACTION 67 0.995 2026 (Thermoactinomyces vulgaris) 2026 (Thermoactinomyces vulgaris) 430 432 DLSEPFSLTEVQTAYMLGRNPQFELSGISPQTYFEYETELDIARLSRSFQKVIQRHPMLRAVILPEGKQQILRDVPEYEIEVESLVSMPPEKQAARLREERSRMIDHVFPLGQWPLFELKAFQLQEHTYLLCFRYDALLMDGASMNLVGQDLMHYYHQPDAQLPPLSFTFQDYMHIYDDMKRGTEYETAKAYWTNKLPDFPPAPSLLLAKDPAEIGTPNFQSLTTIITKDKWLKLRRLAQDKQVTPSALLCTVYGEVLAFWSNQRRLAINLTVFNRYPVHDEVEQIVGDFTSLILLDMDMDQKQPFFTKVEQTQSTLLDGLEHRHYDGVEFIRDYTRYHQMRPKAVMPIVFTSMLAGAGAFAWEEIGSLRHIHARTPQVYLDNVVIEKNGELLVSWNYVEELFDAEVMESMFTQFVELLDQLVEQGDINP SEPFSLTEVQTAYMLGRNPQFELSGISPQTYFEYETELDIARLSRSFQKVIQRHPMLRAVILPEGKQQILRDVPEYEIEVESLVSMPPEKQAARLREERSRMIDHVFPLGQWPLFELKAFQLQEHTYLLCFRYDALLMDGASMNLVGQDLMHYYHQPDAQLPPLSFTFQDYMHIYDDMKRGTEYETAKAYWTNKLPDFPPAPSLLLAKDPAEIGTPNFQSLTTIITKDKWLKLRRLAQDKQVTPSALLCTVYGEVLAFWSNQRRLAINLTVFNRYPVHDEVEQIVGDFTSLILLDMDMDQKQPFFTKVEQTQSTLLDGLEHRHYDGVEFIRDYTRYHQMRPKAVMPIVFTSMLAGAGAFAWEEIGSLRHIHARTPQVYLDNVVIEKNGELLVSWNYVEELFDAEVMESMFTQFVELLDQLVEQGDINPLRIS 5t3p-a1-m1-cA_5t3p-a1-m1-cB Crystal structure of Human Peroxisomal coenzyme A diphosphatase NUDT7 P0C024 P0C024 2.03 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 220 NSLLDDAKARLRKYDIGGKYSHLPYNKYSVLLPLVAKEGKLHLLFTVRSEKLRRAPGEVCFPGGKRDPTDMDDAATALREAQEEVGLRPHQVEVVCCLVPCLIDTDTLITPFVGLIDHNFQAQPNPAEVKDVFLVPLAYFLHPQVHDQHYVTRLGHRFINHIFEYTNPEDGVTYQIKGMTANLAVLVAFIILEKKPTFEVQFNLNDVLASSEELFLKVH NSLLDDAKARLRKYDIGGKYSHLPYNKYSVLLPLVAKEGKLHLLFTVRSEKLRRAPGEVCFPGGKRDPTDMDDAATALREAQEEVGLRPHQVEVVCCLVPCLIDTDTLITPFVGLIDHNFQAQPNPAEVKDVFLVPLAYFLHPQVHDQHYVTRLGHRFINHIFEYTNPEDGVTYQIKGMTANLAVLVAFIILEKKPTFEVQFNLNDVLASSEELFLKVHK 5t3p-a1-m1-cA_5t3p-a1-m1-cC Crystal structure of Human Peroxisomal coenzyme A diphosphatase NUDT7 P0C024 P0C024 2.03 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 221 NSLLDDAKARLRKYDIGGKYSHLPYNKYSVLLPLVAKEGKLHLLFTVRSEKLRRAPGEVCFPGGKRDPTDMDDAATALREAQEEVGLRPHQVEVVCCLVPCLIDTDTLITPFVGLIDHNFQAQPNPAEVKDVFLVPLAYFLHPQVHDQHYVTRLGHRFINHIFEYTNPEDGVTYQIKGMTANLAVLVAFIILEKKPTFEVQFNLNDVLASSEELFLKVH NSLLDDAKARLRKYDIGGKYSHLPYNKYSVLLPLVAKEGKLHLLFTVRSEKLRRAPGEVCFPGGKRDPTDMDDAATALREAQEEVGLRPHQVEVVCCLVPCLIDTDTLITPFVGLIDHNFQAQPNPAEVKDVFLVPLAYFLHPQVHDQHYVTRLGHRFINHIFEYTNPEDGVTYQIKGMTANLAVLVAFIILEKKPTFEVQFNLNDVLASSEELFLKVHKK 5t3p-a1-m1-cB_5t3p-a1-m1-cC Crystal structure of Human Peroxisomal coenzyme A diphosphatase NUDT7 P0C024 P0C024 2.03 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 221 NSLLDDAKARLRKYDIGGKYSHLPYNKYSVLLPLVAKEGKLHLLFTVRSEKLRRAPGEVCFPGGKRDPTDMDDAATALREAQEEVGLRPHQVEVVCCLVPCLIDTDTLITPFVGLIDHNFQAQPNPAEVKDVFLVPLAYFLHPQVHDQHYVTRLGHRFINHIFEYTNPEDGVTYQIKGMTANLAVLVAFIILEKKPTFEVQFNLNDVLASSEELFLKVHK NSLLDDAKARLRKYDIGGKYSHLPYNKYSVLLPLVAKEGKLHLLFTVRSEKLRRAPGEVCFPGGKRDPTDMDDAATALREAQEEVGLRPHQVEVVCCLVPCLIDTDTLITPFVGLIDHNFQAQPNPAEVKDVFLVPLAYFLHPQVHDQHYVTRLGHRFINHIFEYTNPEDGVTYQIKGMTANLAVLVAFIILEKKPTFEVQFNLNDVLASSEELFLKVHKK 5t3t-a4-m1-cG_5t3t-a4-m1-cH Ebola virus VP30 CTD bound to nucleoprotein Q05323 Q05323 2.2 X-RAY DIFFRACTION 189 0.993 128952 (Ebola virus - Mayinga, Zaire, 1976) 128952 (Ebola virus - Mayinga, Zaire, 1976) 136 136 5dvw-a1-m1-cB_5dvw-a1-m1-cA 5dvw-a2-m1-cC_5dvw-a2-m1-cD 5t3t-a1-m1-cB_5t3t-a1-m1-cA 5t3t-a2-m1-cC_5t3t-a2-m1-cD 5t3t-a3-m1-cF_5t3t-a3-m1-cE 5t3t-a5-m1-cJ_5t3t-a5-m1-cI PTVAPPAPVYRKITLLTLIKTAEHWARQDIRTIEDSKLRALLTLCAVMTRKFSKSQLSLLCETHLRREGLGQDQAEPVLEVYQRLHSDKGGSFEAALWQQWDRQSLIMFITAFLNIALQLPCESSAVVVSGLRTLV TVAPPAPVYRKITLLTLIKTAEHWARQDIRTIEDSKLRALLTLCAVMTRKFSKSQLSLLCETHLRREGLGQDQAEPVLEVYQRLHSDKGGSFEAALWQQWDRQSLIMFITAFLNIALQLPCESSAVVVSGLRTLVP 5t3u-a2-m1-cB_5t3u-a2-m3-cB Crystal Structure of the PTS IIA protein associated with the fucose utilization operon from Streptococcus pneumoniae A0A0H2US38 A0A0H2US38 2.15 X-RAY DIFFRACTION 146 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 133 133 5t3u-a1-m1-cA_5t3u-a1-m2-cA SFNRGILVASHGNFASGALMTAEMFVGETTNDRVRTLGLMPGENIVEFEHYFKNQVDELLDSNQEVIVLTDLIGGSPNNVALSRFLNLDSVDIVTGFNIPLLVELISSYDSKINLEEIVHNAQNSLFNVKQQL SFNRGILVASHGNFASGALMTAEMFVGETTNDRVRTLGLMPGENIVEFEHYFKNQVDELLDSNQEVIVLTDLIGGSPNNVALSRFLNLDSVDIVTGFNIPLLVELISSYDSKINLEEIVHNAQNSLFNVKQQL 5t3w-a4-m1-cG_5t3w-a4-m1-cH Marburg virus VP30 bound to nucleoprotein P35258 P35258 3.25 X-RAY DIFFRACTION 212 1.0 33727 (Marburg virus - Musoke, Kenya, 1980) 33727 (Marburg virus - Musoke, Kenya, 1980) 137 137 5t3w-a1-m1-cA_5t3w-a1-m1-cB 5t3w-a2-m1-cC_5t3w-a2-m1-cD 5t3w-a3-m1-cE_5t3w-a3-m1-cF VDLPPPPLYADVLTLENLGHILSYLHRSEIGKLDETSLRAALSLTCAGIRKTNRSLINTMTELHMNHENLPQDQNGVIKQTYTGIHLDKGGQFEAALWQGWDKRSISLFVQAALYVMNNIPCESSISVQASYDHFIL VDLPPPPLYADVLTLENLGHILSYLHRSEIGKLDETSLRAALSLTCAGIRKTNRSLINTMTELHMNHENLPQDQNGVIKQTYTGIHLDKGGQFEAALWQGWDKRSISLFVQAALYVMNNIPCESSISVQASYDHFIL 5t44-a2-m1-cB_5t44-a2-m1-cA Crystal structure of Frizzled 7 CRD O75084 O75084 1.9944 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 117 5urv-a1-m1-cA_5urv-a1-m1-cB FCQPISIPLCTDIAYNQTILPNLLGHTNQEDAGLEVHQFYPLVKVQCSPELRFFLCSMYAPVCTVLDQAIPPCRSLCERARQGCEALMNKFGFQWPERLRCENFPVHGAGEICVGQ GFCQPISIPLCTDIAYNQTILPNLLGHTNQEDAGLEVHQFYPLVKVQCSPELRFFLCSMYAPVCTVLDQAIPPCRSLCERARQGCEALMNKFGFQWPERLRCENFPVHGAGEICVGQ 5t4b-a1-m1-cA_5t4b-a1-m1-cB Human DPP4 in complex with a ligand 34a P27487 P27487 1.76 X-RAY DIFFRACTION 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 728 728 1j2e-a1-m1-cA_1j2e-a1-m1-cB 1n1m-a1-m1-cA_1n1m-a1-m1-cB 1nu6-a1-m1-cA_1nu6-a1-m1-cB 1nu8-a1-m1-cA_1nu8-a1-m1-cB 1pfq-a1-m1-cB_1pfq-a1-m1-cA 1r9m-a1-m1-cA_1r9m-a1-m1-cB 1r9m-a2-m1-cC_1r9m-a2-m1-cD 1r9m-a3-m1-cA_1r9m-a3-m1-cB 1r9m-a3-m2-cC_1r9m-a3-m2-cD 1r9m-a4-m1-cA_1r9m-a4-m1-cB 1r9m-a4-m3-cC_1r9m-a4-m3-cD 1r9n-a1-m1-cA_1r9n-a1-m1-cB 1r9n-a3-m1-cC_1r9n-a3-m2-cD 1rwq-a1-m1-cA_1rwq-a1-m1-cB 1tk3-a1-m1-cA_1tk3-a1-m1-cB 1tkr-a1-m1-cA_1tkr-a1-m1-cB 1u8e-a1-m1-cA_1u8e-a1-m1-cB 1w1i-a1-m1-cA_1w1i-a1-m1-cB 1w1i-a2-m1-cC_1w1i-a2-m1-cD 1wcy-a1-m1-cA_1wcy-a1-m1-cB 1x70-a1-m1-cA_1x70-a1-m1-cB 2ajl-a1-m1-cI_2ajl-a1-m1-cJ 2bgn-a1-m1-cA_2bgn-a1-m1-cB 2bgn-a2-m1-cC_2bgn-a2-m1-cD 2bgr-a1-m1-cA_2bgr-a1-m1-cB 2fjp-a1-m1-cA_2fjp-a1-m1-cB 2g5p-a1-m1-cA_2g5p-a1-m1-cB 2g5t-a1-m1-cA_2g5t-a1-m1-cB 2g63-a1-m1-cA_2g63-a1-m1-cB 2g63-a2-m1-cC_2g63-a2-m1-cD 2hha-a1-m1-cA_2hha-a1-m1-cB 2i03-a1-m1-cA_2i03-a1-m1-cB 2i03-a2-m1-cC_2i03-a2-m1-cD 2i78-a1-m1-cA_2i78-a1-m1-cB 2i78-a2-m1-cC_2i78-a2-m1-cD 2iit-a1-m1-cA_2iit-a1-m1-cB 2iiv-a1-m1-cA_2iiv-a1-m1-cB 2jid-a1-m1-cA_2jid-a1-m1-cB 2oag-a1-m1-cA_2oag-a1-m1-cB 2oag-a2-m1-cC_2oag-a2-m1-cD 2ogz-a1-m1-cA_2ogz-a1-m1-cB 2ole-a1-m1-cA_2ole-a1-m1-cB 2onc-a1-m1-cA_2onc-a1-m1-cB 2onc-a2-m2-cD_2onc-a2-m1-cC 2onc-a3-m1-cD_2onc-a3-m3-cC 2oph-a1-m1-cA_2oph-a1-m1-cB 2oqi-a1-m1-cA_2oqi-a1-m1-cB 2oqi-a2-m1-cC_2oqi-a2-m1-cD 2oqv-a1-m1-cA_2oqv-a1-m1-cB 2p8s-a1-m1-cA_2p8s-a1-m1-cB 2qjr-a3-m1-cA_2qjr-a3-m1-cB 2qky-a1-m1-cA_2qky-a1-m1-cB 2qky-a2-m1-cC_2qky-a2-m1-cD 2qoe-a1-m1-cA_2qoe-a1-m1-cB 2qt9-a1-m1-cA_2qt9-a1-m1-cB 2qtb-a1-m1-cA_2qtb-a1-m1-cB 2rgu-a1-m1-cA_2rgu-a1-m1-cB 2rip-a1-m1-cA_2rip-a1-m2-cA 3bjm-a1-m1-cA_3bjm-a1-m1-cB 3c43-a1-m1-cA_3c43-a1-m1-cB 3c45-a1-m1-cA_3c45-a1-m1-cB 3ccb-a1-m1-cA_3ccb-a1-m1-cB 3ccb-a2-m1-cC_3ccb-a2-m1-cD 3ccc-a1-m1-cA_3ccc-a1-m1-cB 3ccc-a2-m1-cC_3ccc-a2-m1-cD 3d4l-a1-m1-cA_3d4l-a1-m1-cB 3eio-a1-m1-cA_3eio-a1-m1-cB 3f8s-a3-m1-cA_3f8s-a3-m1-cB 3g0b-a1-m1-cA_3g0b-a1-m1-cB 3g0b-a2-m1-cC_3g0b-a2-m1-cD 3g0c-a1-m1-cA_3g0c-a1-m1-cB 3g0c-a2-m1-cC_3g0c-a2-m2-cD 3g0d-a1-m1-cA_3g0d-a1-m1-cB 3g0d-a2-m1-cC_3g0d-a2-m2-cD 3g0g-a1-m1-cA_3g0g-a1-m1-cB 3g0g-a2-m2-cD_3g0g-a2-m1-cC 3h0c-a1-m1-cA_3h0c-a1-m1-cB 3hab-a1-m1-cA_3hab-a1-m1-cB 3hac-a1-m1-cA_3hac-a1-m1-cB 3kwf-a1-m1-cA_3kwf-a1-m1-cB 3kwj-a1-m1-cA_3kwj-a1-m1-cB 3nox-a1-m1-cA_3nox-a1-m1-cB 3o95-a1-m1-cA_3o95-a1-m1-cB 3o95-a1-m2-cC_3o95-a1-m2-cD 3o95-a2-m1-cA_3o95-a2-m1-cB 3o95-a3-m1-cC_3o95-a3-m1-cD 3o9v-a1-m1-cA_3o9v-a1-m1-cB 3o9v-a1-m2-cC_3o9v-a1-m2-cD 3o9v-a2-m1-cA_3o9v-a2-m1-cB 3o9v-a3-m1-cC_3o9v-a3-m1-cD 3oc0-a1-m1-cA_3oc0-a1-m1-cB 3opm-a1-m1-cA_3opm-a1-m1-cB 3opm-a1-m2-cC_3opm-a1-m2-cD 3opm-a2-m1-cA_3opm-a2-m1-cB 3opm-a3-m1-cC_3opm-a3-m1-cD 3q0t-a1-m1-cA_3q0t-a1-m1-cB 3q8w-a1-m1-cA_3q8w-a1-m1-cB 3qbj-a1-m1-cA_3qbj-a1-m1-cB 3sww-a1-m1-cA_3sww-a1-m1-cB 3sx4-a1-m1-cA_3sx4-a1-m1-cB 3vjk-a1-m1-cA_3vjk-a1-m1-cB 3vjl-a1-m1-cA_3vjl-a1-m1-cB 3vjm-a1-m1-cA_3vjm-a1-m1-cB 3w2t-a1-m1-cA_3w2t-a1-m1-cB 3wqh-a1-m1-cA_3wqh-a1-m1-cB 4a5s-a1-m1-cA_4a5s-a1-m1-cB 4dsa-a1-m1-cA_4dsa-a1-m1-cB 4dsz-a1-m1-cA_4dsz-a1-m1-cB 4dtc-a1-m1-cA_4dtc-a1-m1-cB 4g1f-a5-m1-cA_4g1f-a5-m1-cB 4g1f-a6-m2-cD_4g1f-a6-m1-cC 4g1f-a7-m1-cA_4g1f-a7-m1-cB 4g1f-a7-m4-cD_4g1f-a7-m3-cC 4j3j-a1-m1-cA_4j3j-a1-m1-cB 4jh0-a1-m1-cA_4jh0-a1-m1-cB 4kr0-a1-m1-cA_4kr0-a1-m2-cA 4l72-a3-m1-cA_4l72-a3-m2-cA 4lko-a1-m1-cA_4lko-a1-m1-cB 4n8d-a1-m1-cA_4n8d-a1-m1-cB 4n8e-a1-m1-cA_4n8e-a1-m1-cB 4pnz-a1-m1-cB_4pnz-a1-m1-cA 4pv7-a1-m1-cA_4pv7-a1-m1-cB 5i7u-a1-m1-cA_5i7u-a1-m1-cB 5ism-a1-m1-cA_5ism-a1-m1-cB 5j3j-a1-m1-cA_5j3j-a1-m1-cB 5kby-a1-m1-cA_5kby-a1-m1-cB 5kby-a2-m1-cC_5kby-a2-m1-cD 5kby-a3-m1-cA_5kby-a3-m1-cB 5kby-a3-m2-cC_5kby-a3-m2-cD 5t4e-a1-m1-cA_5t4e-a1-m1-cB 5t4f-a1-m1-cA_5t4f-a1-m1-cB 5t4h-a1-m1-cA_5t4h-a1-m1-cB 5y7h-a1-m1-cA_5y7h-a1-m1-cB 5y7j-a1-m1-cA_5y7j-a1-m1-cB 5y7j-a2-m1-cC_5y7j-a2-m1-cD 5y7k-a1-m1-cA_5y7k-a1-m1-cB 5y7k-a2-m1-cC_5y7k-a2-m1-cD 5zid-a1-m1-cA_5zid-a1-m1-cB 6b1e-a1-m1-cA_6b1e-a1-m1-cB 6b1o-a1-m1-cA_6b1o-a1-m1-cB TRKTYTLTDYLKNTYRLKLYSLRWISDHEYLYKQENNILVFNAEYGNSSVFLENSTFDEFGHSINDYSISPDGQFILLEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWVTWSPVGHKLAYVWNNDIYVKIEPNLPSYRITWTGKEDIIYNGITDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRVPYPKAGAVNPTVKFFVVNTDSLSSVTNATSIQITAPASMLIGDHYLCDVTWATQERISLQWLRRIQNYSVMDICDYDESSGRWNCLVARQHIEMSTTGWVGRFRPSEPHFTLDGNSFYKIISNEEGYRHICYFQIDKKDCTFITKGTWEVIGIEALTSDYLYYISNEYKGMPGGRNLYKIQLSDYTKVTCLSCELNPERCQYYSVSFSKEAKYYQLRCSGPGLPLYTLHSSVNDKGLRVLEDNSALDKMLQNVQMPSKKLDFIILNETKFWYQMILPPHFDKSKKYPLLLDVYAGPCSQKADTVFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAARQFSKMGFVDNKRIAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDVGVDFQAMWYTDEDHGIASSTAHQHIYTHMSHFIKQCFSLP TRKTYTLTDYLKNTYRLKLYSLRWISDHEYLYKQENNILVFNAEYGNSSVFLENSTFDEFGHSINDYSISPDGQFILLEYNYVKQWRHSYTASYDIYDLNKRQLITEERIPNNTQWVTWSPVGHKLAYVWNNDIYVKIEPNLPSYRITWTGKEDIIYNGITDWVYEEEVFSAYSALWWSPNGTFLAYAQFNDTEVPLIEYSFYSDESLQYPKTVRVPYPKAGAVNPTVKFFVVNTDSLSSVTNATSIQITAPASMLIGDHYLCDVTWATQERISLQWLRRIQNYSVMDICDYDESSGRWNCLVARQHIEMSTTGWVGRFRPSEPHFTLDGNSFYKIISNEEGYRHICYFQIDKKDCTFITKGTWEVIGIEALTSDYLYYISNEYKGMPGGRNLYKIQLSDYTKVTCLSCELNPERCQYYSVSFSKEAKYYQLRCSGPGLPLYTLHSSVNDKGLRVLEDNSALDKMLQNVQMPSKKLDFIILNETKFWYQMILPPHFDKSKKYPLLLDVYAGPCSQKADTVFRLNWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAARQFSKMGFVDNKRIAIWGWSYGGYVTSMVLGSGSGVFKCGIAVAPVSRWEYYDSVYTERYMGLPTPEDNLDHYRNSTVMSRAENFKQVEYLLIHGTADDNVHFQQSAQISKALVDVGVDFQAMWYTDEDHGIASSTAHQHIYTHMSHFIKQCFSLP 5t53-a2-m1-cA_5t53-a2-m2-cA MOLECULAR BASIS FOR COHESIN ACETYLATION BY ESTABLISHMENT OF SISTER CHROMATID COHESION N-ACETYLTRANSFERASE ESCO1 Q5FWF5 Q5FWF5 2.699 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 FGAVSCNVCGMLYTPEDETQHLLFHNQFISAVKYVGWKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNDLGMCYSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCG FGAVSCNVCGMLYTPEDETQHLLFHNQFISAVKYVGWKKERILAEYPDGRIIMVLPEDPKYALKKVDEIREMVDNDLGMCYSRTKTLLFISNDKKVVGCLIAEHIQWGYRVIEEKLPAWCCSTLPEPAICGISRIWVFSMMRRKKIASRMIECLRSNFIYGSYLSKEEIAFSDPTPDGKLFATQYCG 5t55-a1-m1-cA_5t55-a1-m1-cB LECTIN FROM BAUHINIA FORFICATA IN COMPLEX WITH GLOBOTETRAOSE P86993 P86993 1.43 X-RAY DIFFRACTION 74 1.0 413686 (Bauhinia forficata) 413686 (Bauhinia forficata) 229 229 5t50-a1-m1-cA_5t50-a1-m1-cB 5t52-a1-m1-cA_5t52-a1-m1-cB 5t54-a1-m1-cA_5t54-a1-m1-cB SELSFNYPNFQSVEDITFQGGASPRNETLQLTPTDSNGIPIRQRAGHAVYSQPFQLRDTSFYTTFTFVIRTTSNSPADGFAIFIAPPDFPVKRYGGYLGLFEPNTATNTSANKVVAVEFDTWVNTEWKEPRYRHIGIDVNSIVSVRVTRWQDKDVFSRSIATAHVGYDGISKILTAFVTYPDGGNYVLSHVVDLAEIFPGDVRIGFSGATGQYETQYIHSWSFSSTSTN SELSFNYPNFQSVEDITFQGGASPRNETLQLTPTDSNGIPIRQRAGHAVYSQPFQLRDTSFYTTFTFVIRTTSNSPADGFAIFIAPPDFPVKRYGGYLGLFEPNTATNTSANKVVAVEFDTWVNTEWKEPRYRHIGIDVNSIVSVRVTRWQDKDVFSRSIATAHVGYDGISKILTAFVTYPDGGNYVLSHVVDLAEIFPGDVRIGFSGATGQYETQYIHSWSFSSTSTN 5t56-a1-m1-cB_5t56-a1-m1-cD [3]catenane from MccJ25 G12R/I13C/G21C lasso peptide Q9X2V7 Q9X2V7 NOT SOLUTION NMR 11 1.0 562 (Escherichia coli) 562 (Escherichia coli) 9 9 CGTPISFYC CGTPISFYC 5t57-a1-m1-cA_5t57-a1-m2-cA Crystal Structure of a Semialdehyde dehydrogenase NAD-binding Protein from Cupriavidus necator in Complex with Calcium and NAD F8GV06 F8GV06 1.65 X-RAY DIFFRACTION 319 1.0 1042878 (Cupriavidus necator N-1) 1042878 (Cupriavidus necator N-1) 276 276 MKEKIALFGAGGKMGVRLAKNLLKSDYRVSHVEVSEVGKKRLKDELGLECVSTEAALDNVDVVILAVPDTIIGKIAAQIAPQLRPGTMVMTLDAAAPFAGHLPDRPDLTYFVAHPCHPLIFNDETDPEARRDYFGGGAAKQSITSALMQGPEEAFDLGEAVAKVIYAPILRSYRLTVDQMALLEPGLSETICATLLQVMREAMDETVRRGVPKEAARDFLLGHMNILGAVIFNEIPGAFSDACNKAIEFGKPRLMRDDWIKVFDREEIAESIRRIT MKEKIALFGAGGKMGVRLAKNLLKSDYRVSHVEVSEVGKKRLKDELGLECVSTEAALDNVDVVILAVPDTIIGKIAAQIAPQLRPGTMVMTLDAAAPFAGHLPDRPDLTYFVAHPCHPLIFNDETDPEARRDYFGGGAAKQSITSALMQGPEEAFDLGEAVAKVIYAPILRSYRLTVDQMALLEPGLSETICATLLQVMREAMDETVRRGVPKEAARDFLLGHMNILGAVIFNEIPGAFSDACNKAIEFGKPRLMRDDWIKVFDREEIAESIRRIT 5t5k-a1-m1-cD_5t5k-a1-m1-cF Structure of histone-based chromatin in Archaea P19267 P19267 4 X-RAY DIFFRACTION 16 1.0 2180 (Methanothermus fervidus) 2180 (Methanothermus fervidus) 67 67 5t5k-a1-m1-cB_5t5k-a1-m1-cC MELPIAPIGRIIKDAGAERVSDDARITLAKILEEMGRDIASEAIKLARHAGRKTIKAEDIELAVRRF MELPIAPIGRIIKDAGAERVSDDARITLAKILEEMGRDIASEAIKLARHAGRKTIKAEDIELAVRRF 5t5k-a1-m1-cE_5t5k-a1-m1-cF Structure of histone-based chromatin in Archaea P19267 P19267 4 X-RAY DIFFRACTION 133 1.0 2180 (Methanothermus fervidus) 2180 (Methanothermus fervidus) 67 67 1a7w-a1-m1-cA_1a7w-a1-m2-cA 1b6w-a1-m1-cA_1b6w-a1-m2-cA 1bfm-a1-m1-cA_1bfm-a1-m1-cB 5t5k-a1-m1-cA_5t5k-a1-m1-cB 5t5k-a1-m1-cD_5t5k-a1-m1-cC MELPIAPIGRIIKDAGAERVSDDARITLAKILEEMGRDIASEAIKLARHAGRKTIKAEDIELAVRRF MELPIAPIGRIIKDAGAERVSDDARITLAKILEEMGRDIASEAIKLARHAGRKTIKAEDIELAVRRF 5t5q-a1-m1-cB_5t5q-a1-m1-cD Crystal structure of Short-chain dehydrogenase/reductase SDR:Glucose/ribitol dehydrogenase from Brucella melitensis Q2YL80 Q2YL80 1.95 X-RAY DIFFRACTION 135 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 235 245 5t5q-a1-m1-cA_5t5q-a1-m1-cC MKFEFENRTLVLTGANGGIGRAIAELFHASGANLVLTDLDREGLDAFAASLGSPERIATIKADASSADDAEKTVALAMERFGGIDFLVPSAGIYQAKPFAEMSDADWHRTISINLDGVFYLCKRALPALKEDSSIVTLASLAAYRGAYVNAHYGATKGAMVSMTRALSRELAPKTRVNGVSPGIIERMDETMTQTPLKRLGKPSEIASVIAFLCSPAASFVTGETIQVNGGIYMA MKFEFENRTLVLTGANGGIGRAIAELFHASGANLVLTDLDREGLDAFAASLGSPERIATIKADASSADDAEKTVALAMERFGGIDFLVPSAGIYQAKPFAEMSDADWHRTISINLDGVFYLCKRALPALKEDSSIVTLASLAAYRGAYVNAHYGATKGAMVSMTRALSRELAPKTRVNGVSPGIIETPMTSELLKTRMDETMTQTPLKRLGKPSEIASVIAFLCSPAASFVTGETIQVNGGIYMA 5t5q-a1-m1-cC_5t5q-a1-m1-cD Crystal structure of Short-chain dehydrogenase/reductase SDR:Glucose/ribitol dehydrogenase from Brucella melitensis Q2YL80 Q2YL80 1.95 X-RAY DIFFRACTION 120 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 245 245 5t5q-a1-m1-cB_5t5q-a1-m1-cA MKFEFENRTLVLTGANGGIGRAIAELFHASGANLVLTDLDREGLDAFAASLGSPERIATIKADASSADDAEKTVALAMERFGGIDFLVPSAGIYQAKPFAEMSDADWHRTISINLDGVFYLCKRALPALKEDSSIVTLASLAAYRGAYVNAHYGATKGAMVSMTRALSRELAPKTRVNGVSPGIIETPMTSELLKTRMDETMTQTPLKRLGKPSEIASVIAFLCSPAASFVTGETIQVNGGIYMA MKFEFENRTLVLTGANGGIGRAIAELFHASGANLVLTDLDREGLDAFAASLGSPERIATIKADASSADDAEKTVALAMERFGGIDFLVPSAGIYQAKPFAEMSDADWHRTISINLDGVFYLCKRALPALKEDSSIVTLASLAAYRGAYVNAHYGATKGAMVSMTRALSRELAPKTRVNGVSPGIIETPMTSELLKTRMDETMTQTPLKRLGKPSEIASVIAFLCSPAASFVTGETIQVNGGIYMA 5t5s-a1-m1-cA_5t5s-a1-m2-cA A fragment of a human tRNA synthetase P49588 P49588 2.202 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 207 AEAQKALRKAESLKKCLSVMEAKVKAQTAPNKDVQREIADLGEALATAVIPQWQKDELRETLKSLKKVMDDLDRASKADVQKRVLEKTKQFIDSNPNQPLVILEMESGATAKALNEALKLFKMHSPQTSAMLFTVDNEAGKITCLCQVPQNAANRGLKASEWVQQVSGLMDGKGGGKDVSAQATGKNVGCLQEALQLATSFAQLRLG AEAQKALRKAESLKKCLSVMEAKVKAQTAPNKDVQREIADLGEALATAVIPQWQKDELRETLKSLKKVMDDLDRASKADVQKRVLEKTKQFIDSNPNQPLVILEMESGATAKALNEALKLFKMHSPQTSAMLFTVDNEAGKITCLCQVPQNAANRGLKASEWVQQVSGLMDGKGGGKDVSAQATGKNVGCLQEALQLATSFAQLRLG 5t61-a2-m1-cd_5t61-a2-m1-cj TUNGSTEN-CONTAINING FORMYLMETHANOFURAN DEHYDROGENASE FROM METHANOTHERMOBACTER WOLFEII, TRICLINIC FORM AT 2.55 A 2.55 X-RAY DIFFRACTION 172 1.0 145261 (Methanothermobacter wolfeii) 145261 (Methanothermobacter wolfeii) 340 344 5t5i-a1-m1-cN_5t5i-a1-m1-cF 5t5m-a1-m1-cF_5t5m-a1-m2-cF 5t61-a1-m1-cF_5t61-a1-m1-cL 5t61-a1-m1-cR_5t61-a1-m1-cX 5t61-a2-m1-cv_5t61-a2-m1-cp IEGKNITVERTNRRLIFQDCLCAVCGLCGEICPVSAIEVNPTGAMVRTEQEKSKIAIDENKCVLCGMCSSICPFQALDLQIDGTSIKELAEYPKIIKSAEIDDETCIQCKACETACPQDAITITRELPERKDLVTGEIEIDKDTCIYCGMCEEMCPVDAIEIDHQTPSSASPVVATDIRVDEDKCVHCGICKRICPVDAIMQVCRICPYGEYEIKTPEVTGTSYIDPELCVNCGWCQEICPVDAATVTKPFEGELIIDQDTCQACETCVMVCPCNVLSFPKPEKPGEKTTKLHKDERFCIYCGACERSCPVTAITVKRNRINTTPIRSKAWKNAFDSLLK TTEVIEGKNITVERTNRRLIFQDCLCAVCGLCGEICPVSAIEVNPTGAMVRTEQEKSKIAIDENKCVLCGMCSSICPFQALDLQIDGTSIKELAEYPKIIKSAEIDDETCIQCKACETACPQDAITITRELPERKDLVTGEIEIDKDTCIYCGMCEEMCPVDAIEIDHQTPSSASPVVATDIRVDEDKCVHCGICKRICPVDAIMQVCRICPYGEYEIKTPEVTGTSYIDPELCVNCGWCQEICPVDAATVTKPFEGELIIDQDTCQACETCVMVCPCNVLSFPKPEKPGEKTTKLHKDERFCIYCGACERSCPVTAITVKRNRINTTPIRSKAWKNAFDSLLK 5t61-a2-m1-cd_5t61-a2-m1-cv TUNGSTEN-CONTAINING FORMYLMETHANOFURAN DEHYDROGENASE FROM METHANOTHERMOBACTER WOLFEII, TRICLINIC FORM AT 2.55 A 2.55 X-RAY DIFFRACTION 13 1.0 145261 (Methanothermobacter wolfeii) 145261 (Methanothermobacter wolfeii) 340 346 5t61-a1-m1-cR_5t61-a1-m1-cF 5t61-a1-m1-cX_5t61-a1-m1-cL 5t61-a2-m1-cj_5t61-a2-m1-cp IEGKNITVERTNRRLIFQDCLCAVCGLCGEICPVSAIEVNPTGAMVRTEQEKSKIAIDENKCVLCGMCSSICPFQALDLQIDGTSIKELAEYPKIIKSAEIDDETCIQCKACETACPQDAITITRELPERKDLVTGEIEIDKDTCIYCGMCEEMCPVDAIEIDHQTPSSASPVVATDIRVDEDKCVHCGICKRICPVDAIMQVCRICPYGEYEIKTPEVTGTSYIDPELCVNCGWCQEICPVDAATVTKPFEGELIIDQDTCQACETCVMVCPCNVLSFPKPEKPGEKTTKLHKDERFCIYCGACERSCPVTAITVKRNRINTTPIRSKAWKNAFDSLLK ETTEVIEGKNITVERTENRRLIFQDCLCAVCGLCGEICPVSAIEVNPTGAMVRTEQEKSKIAIDENKCVLCGMCSSICPFQALDLQIDGTSIKELAEYPKIIKSAEIDDETCIQCKACETACPQDAITITRELPERKDLVTGEIEIDKDTCIYCGMCEEMCPVDAIEIDHQTPSSASPVVATDIRVDEDKCVHCGICKRICPVDAIMQVCRICPYGEYEIKTPEVTGTSYIDPELCVNCGWCQEICPVDAATVTKPFEGELIIDQDTCQACETCVMVCPCNVLSFPKPEKPGEKTTKLHKDERFCIYCGACERSCPVTAITVKRNRINTTPIRSKAWKNAFDSLLK 5t67-a1-m1-cB_5t67-a1-m1-cA x-ray structure of the KijD1 C3-methyltransferase from Actinomadura kijaniata in complex with SAH and dTDP-sugar product B3TMQ9 B3TMQ9 1.6 X-RAY DIFFRACTION 62 1.0 46161 (Actinomadura kijaniata) 46161 (Actinomadura kijaniata) 402 405 5t64-a1-m1-cB_5t64-a1-m1-cA PARCRVCGDTVDEFLDLGRQPLSDRFLTPDGEFFYRLAVGRCHACGMVQLTEEVPRHLMFHEEYPYHSSGSSVMREHFAKVAQRLLATELTGADPFVVEIGCNDGIMLRAVHEAGVRHLGFEPSAGVAEVARSRGVRVRTEFFEKATATAVRESEGPADVIYAANTMCHIPYLESVFQGADALLGPDGVVVFEDPYLGDIVAKTSFDQIYDEHFYLFSAGSVAAMAERFGFELVDVERLPVHGGEVRYTLARRGARTPTEAVGRLLAEEREQGLDDLATLRTFAANVHTVRDELVALLTRLRAEGHRVVGYGATAKSATVTNFCGIGPDLVSFVCDTTPGKQHRLTPGKHLPVRPAEAFADPYPDYALLFAWNHADEIMAKEQEFRQAGGRWILYVPEVRVL PARCRVCGDTVDEFLDLGRQPLSDRFLTPADTDGEFFYRLAVGRCHACGMVQLTEEVPRHLMFHEEYPYHSSGSSVMREHFAKVAQRLLATELTGADPFVVEIGCNDGIMLRAVHEAGVRHLGFEPSAGVAEVARSRGVRVRTEFFEKATATAVRESEGPADVIYAANTMCHIPYLESVFQGADALLGPDGVVVFEDPYLGDIVAKTSFDQIYDEHFYLFSAGSVAAMAERFGFELVDVERLPVHGGEVRYTLARRGARTPTEAVGRLLAEEREQGLDDLATLRTFAANVHTVRDELVALLTRLRAEGHRVVGYGATAKSATVTNFCGIGPDLVSFVCDTTPGKQHRLTPGKHLPVRPAEAFADPYPDYALLFAWNHADEIMAKEQEFRQAGGRWILYVPEVRVL 5t68-a1-m1-cB_5t68-a1-m1-cA Crystal structure of Syk catalytic domain in complex with a furo[3,2-d]pyrimidine P43405 P43405 2.93 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 264 266 VYLDRKLLTLEDKELGSGNFGTVKKGYYQMKKVVKTVAVKILKPALKDELLAEANVMQQLDNPYIVRMIGICEAESWMLVMEMAELGPLNKYLQQNRHVKDKNIIELVHQVSMGMKYLEESNFVHRDLAARNVLLVTQHYAKISDFGLSKALRADENYYKAKWPVKWYAPECINYYKFSSKSDVWSFGVLMWEAFSYGQKPYRGMKGSEVTAMLEKGERMGCPAGCPREMYDLMNLCWTYDVENRPGFAAVELRLRNYYYDVVN VYLDRKLLTLEDKELGSGNFGTVKKGYYQMKKVVKTVAVKILKPALKDELLAEANVMQQLDNPYIVRMIGICEAESWMLVMEMAELGPLNKYLQQNRHVKDKNIIELVHQVSMGMKYLEESNFVHRDLAARNVLLVTQHYAKISDFGLSKALRADENYYKAKWPVKWYAPECINYYKFSSKSDVWSFGVLMWEAFSYGQKPYRGMKGSEVTAMLEKGERMGCPAGCPREMYDLMNLCWTYDVENRPGFAAVELRLRNYYYDVVNEG 5t6u-a1-m1-cA_5t6u-a1-m2-cA Crystal structure of mouse cathepsin K at 2.9 Angstroms resolution. P55097 P55097 2.9 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 215 215 VPDSIDYRKKGYVTPVKNQGQCGSCWAFSSAGALEGQLKKKTGKLLALSPQNLVDCVTENYGCGGGYMTTAFQYVQQNGGIDSEDAYPYVGQDESCMYNATAKAAKCRGYREIPVGNEKALKRAVARVGPISVSIDASLASFQFYSRGVYYDENCDRDNVNHAVLVVGYGTQKGSKHWIIKNSWGESWGNKGYALLARNKNNACGITNMASFPKM VPDSIDYRKKGYVTPVKNQGQCGSCWAFSSAGALEGQLKKKTGKLLALSPQNLVDCVTENYGCGGGYMTTAFQYVQQNGGIDSEDAYPYVGQDESCMYNATAKAAKCRGYREIPVGNEKALKRAVARVGPISVSIDASLASFQFYSRGVYYDENCDRDNVNHAVLVVGYGTQKGSKHWIIKNSWGESWGNKGYALLARNKNNACGITNMASFPKM 5t7d-a2-m1-cB_5t7d-a2-m1-cD Crystal structure of Streptomyces hygroscopicus bialaphos resistance (BAR) protein in complex with acetyl coenzyme A P16426 P16426 1.4 X-RAY DIFFRACTION 106 1.0 1912 (Streptomyces hygroscopicus) 1912 (Streptomyces hygroscopicus) 173 174 5t7d-a1-m1-cA_5t7d-a1-m2-cC 5t7e-a1-m1-cA_5t7e-a1-m2-cC 5t7e-a2-m1-cB_5t7e-a2-m1-cD ADIRRATEADMPAVCTIVNHYIETSTVNFRTEPQEPQEWTDDLVRLRERYPWLVAEVDGEVAGIAYAGPWKARNAYDWTAESTVYVSPRHQRTGLGSTLYTHLLKSLEAQGFKSVVAVIGLPNDPSVRMHEALGYAPRGMLRAAGFKHGNWHDVGFWQLDFSLPVPPRPVLPV PADIRRATEADMPAVCTIVNHYIETSTVNFRTEPQEPQEWTDDLVRLRERYPWLVAEVDGEVAGIAYAGPWKARNAYDWTAESTVYVSPRHQRTGLGSTLYTHLLKSLEAQGFKSVVAVIGLPNDPSVRMHEALGYAPRGMLRAAGFKHGNWHDVGFWQLDFSLPVPPRPVLPV 5t89-a1-m1-cX_5t89-a1-m1-cY Crystal structure of VEGF-A in complex with VEGFR-1 domains D1-6 P17948 P17948 4 X-RAY DIFFRACTION 69 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 596 597 PELSLKGTQHIMQAGQTLHLQCRGEAAHKWSLPEMVSKESERLSIGKQFCSTLTLNTAQANHTGFYSCKYLAVPTSKTESAIYIFISDTGRPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQTNTIIDVQISTPRPVKLLRGHTLVLNCTATTPLNTRVQMTWSYPDEKNKRASVRRRIDQSHANIFYSVLTIDKMQNKDKGLYTCRVRSGPSFKSVNTSVHIYDKAFITVKHRKQQVLETVAGKRSYRLSMKVKAFPSPEVVWLKDGLPATEKSARYLTRGYSLIIKDVTEEDAGNYTILLSIKQSNVFKNLTATLIVNVKPQIYEKAVSSFPDPALYPLGSRQILTCTAYGIPQPTIKWFWHPCNEESFILDADSNMGNRIESITQRMAIIEGKNKMASTLVVADSRISGIYICIASNKVGTVGRNISFYITDVPNGFHVNLEKMPTEGEDLKLSCTVNKFLYRDVTWILLRTVNNRTMHYSISKQKMAITKEHSITLNLTIMNVSLQDSGTYACRARNVYTGEEILQKKEIT DPELSLKGTQHIMQAGQTLHLQCRGEAAHKWSLPEMVSKESERLSIGKQFCSTLTLNTAQANHTGFYSCKYLAVPTSTESAIYIFISDTGRPFVEMYSEIPEIIHMTEGRELVIPCRVTSPNITVTLKKFPLDTLIPDGKRIIWDSRKGFIISNATYKEIGLLTCEATVNGHLYKTNYLTHRQTNTIIDVQISTPRPVKLLRGHTLVLNCTATTPLNTRVQMTWSYPDEKNKRASVRRRIDQSHANIFYSVLTIDKMQNKDKGLYTCRVRSGPSFKSVNTSVHIYDKAFITVKHRKQQVLETVAGKRSYRLSMKVKAFPSPEVVWLKDGLPATEKSARYLTRGYSLIIKDVTEEDAGNYTILLSIKQSNVFKNLTATLIVNVKPQIYEKAVSSFPDPALYPLGSRQILTCTAYGIPQPTIKWFWHPCNHEESFILDADSNMGNRIESITQRMAIIEGKNKMASTLVVADSRISGIYICIASNKVGTVGRNISFYITDVPNGFHVNLEKMPTEGEDLKLSCTVNKFLYRDVTWILLRTVNNRTMHYSISKQKMAITKEHSITLNLTIMNVSLQDSGTYACRARNVYTGEEILQKKEIT 5t8s-a1-m1-cB_5t8s-a1-m1-cA Crystal Structure of a S-adenosylmethionine Synthase from Neisseria gonorrhoeae with bound S-adenosylmethionine, AMP, Pyrophosphate, Phosphate, and Magnesium Q5FAC0 Q5FAC0 1.7 X-RAY DIFFRACTION 237 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 376 388 5t8t-a1-m1-cB_5t8t-a1-m1-cA SEYLFTSESVSEGHPDKVADQVSDAILDAILAQDPKARVAAETLVNTGLCVLAGEITTTAQVDYIKVARETIKRIGYNSSELGFDANGCAVGVYYDQQSPDLNQGAGDQGLMFGYACDETPTLMPFAIYYSHRLMQRQSELRKDGRLPWLRPDAKAQLTVVYDSETGKVKRIDTVVLSTQHDPAISQEELSKAVIEQIIKPVLPPELLTDETKYLINPTGRFVIGGPQGDCGLTGRKIIVDTYGGAAPHGGGAFSGKDPSKVDRSAAYACRYVAKNIVAAGLATQCQIQVSYAIGVAEPTSISIDTFGTGKISEEKLIALVCEHFDLRPKGIVQMLDLLRPIYGKSAAYGHFGREEPEFTWERTDKAASLKAAAGL SEYLFTSESVSEGHPDKVADQVSDAILDAILAQDPKARVAAETLVNTGLCVLAGEITTTAQVDYIKVARETIKRIGYNSSELGFDANGCAVGVYYDQQSPDIAQGVNEGEGIDLNQGAGDQGLMFGYACDETPTLMPFAIYYSHRLMQRQSELRKDGRLPWLRPDAKAQLTVVYDSETGKVKRIDTVVLSTQHDPAISQEELSKAVIEQIIKPVLPPELLTDETKYLINPTGRFVIGGPQGDCGLTGRKIIVDTYGGAAPHGGGAFSGKDPSKVDRSAAYACRYVAKNIVAAGLATQCQIQVSYAIGVAEPTSISIDTFGTGKISEEKLIALVCEHFDLRPKGIVQMLDLLRPIYGKSAAYGHFGREEPEFTWERTDKAASLKAAAGL 5t93-a2-m1-cB_5t93-a2-m1-cD Immunoglobulin light chain variable domain AL-T05 1.9 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 5t93-a1-m1-cA_5t93-a1-m1-cC QSVLTQPPSVSAAPGQTVTISCSGSSSNIGNNYVSWYQHLPGTAPKFLIYDNNKRPSGIPDRFSGFKSGTSATLGITGLQTGDEADYYCGTWDSSLSALVFGGGTKLTVL QSVLTQPPSVSAAPGQTVTISCSGSSSNIGNNYVSWYQHLPGTAPKFLIYDNNKRPSGIPDRFSGFKSGTSATLGITGLQTGDEADYYCGTWDSSLSALVFGGGTKLTVL 5t95-a1-m1-cA_5t95-a1-m1-cB Prephenate Dehydrogenase M219T, N222D mutant from Soybean I1MYY4 I1MYY4 1.689 X-RAY DIFFRACTION 152 1.0 3847 (Glycine max) 3847 (Glycine max) 249 250 5t9e-a1-m1-cA_5t9e-a1-m1-cB 5t9f-a2-m1-cA_5t9f-a2-m2-cB 5whx-a1-m1-cA_5whx-a1-m1-cB SLKIGIVGFGNFGQFLAKTMIKQGHTLTATSRSDYSELCLQMGIHFFRDVSAFLTADIDVIVLCTSILSLSEVVGSMPLTSLKRPTLFVDVLSVKEHPRELLLRELPEDSDILCTHPMFGPQTAKNGWTDHTFMYDKVRIRDEVICSNFIQIFATEGCKMVQMSCEEHDRAAAKSQFITHTIGRTLGEMDIQSTPIDTKGFETLVKLKETTMRDSFDLYSGLFVYNRFARQELENLEHALHKVKETLMI QSLKIGIVGFGNFGQFLAKTMIKQGHTLTATSRSDYSELCLQMGIHFFRDVSAFLTADIDVIVLCTSILSLSEVVGSMPLTSLKRPTLFVDVLSVKEHPRELLLRELPEDSDILCTHPMFGPQTAKNGWTDHTFMYDKVRIRDEVICSNFIQIFATEGCKMVQMSCEEHDRAAAKSQFITHTIGRTLGEMDIQSTPIDTKGFETLVKLKETTMRDSFDLYSGLFVYNRFARQELENLEHALHKVKETLMI 5t97-a1-m1-cA_5t97-a1-m1-cB ESTROGEN RECEPTOR ALPHA LIGAND BINDING DOMAIN IN COMPLEX WITH (2E)-3-(4-{(1R)-6-hydroxy-1-methyl-2-[4-(propan-2 -yl)phenyl]-1,2,3,4- tetrahydroisoquinolin-1-yl}phenyl)prop-2-enoic acid P03372 P03372 3 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 177 191 LTADQMVSALLDAEPPILYMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHL SLTADQMVSALLDAEPPILYSMGLLTNLADRELVHMINWAKRVPGFVDLTLHDQVHLLESAWLEILMIGLVWRSMEHPGKLLFAPNLLLDRGMVEIFDMLLATSSRFRMMNLQGEEFVCLKSIILLNSGTLKSLEEKDHIHRVLDKITDTLIHLMAKAGLTLQQQHQRLAQLLLILSHIRHMSNKGMEHLY 5t9f-a1-m1-cA_5t9f-a1-m1-cB Prephenate Dehydrogenase N222D mutant from Soybean I1MYY4 I1MYY4 1.994 X-RAY DIFFRACTION 13 1.0 3847 (Glycine max) 3847 (Glycine max) 249 253 SLKIGIVGFGNFGQFLAKTMIKQGHTLTATSRSDYSELCLQMGIHFFRDVSAFLTADIDVIVLCTSILSLSEVVGSMPLTSLKRPTLFVDVLSVKEHPRELLLRELPEDSDILCTHPMFGPQTAKNGWTDHTFMYDKVRIRDEVICSNFIQIFATEGCKMVQMSCEEHDRAAAKSQFITHTIGRTLGEMDIQSTPIDTKGFETLVKLKETMMRDSFDLYSGLFVYNRFARQELENLEHALHKVKETLMI QSLKIGIVGFGNFGQFLAKTMIKQGHTLTATSRSDYSELCLQMGIHFFRDVSAFLTADIDVIVLCTSILSLSEVVGSMPLTSLKRPTLFVDVLSVKEHPRELLLRELPEDSDILCTHPMFGPQTAKNGWTDHTFMYDKVRIRDEVICSNFIQIFATEGCKMVQMSCEEHDRAAAKSQFITHTIGRTLGEMDIQSTPIDTKGFETLVKLKETMMRDSFDLYSGLFVYNRFARQELENLEHALHKVKETLMIQRT 5t9p-a6-m1-cD_5t9p-a6-m1-cC Structural analysis reveals the flexible C-terminus of Nop15 undergoes rearrangement to recognize a pre-ribosomal RNA folding intermediate P53927 P53927 2 X-RAY DIFFRACTION 42 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 91 106 5t9p-a5-m1-cA_5t9p-a5-m1-cB EYSGIIYVSRLPHGFHEKELSKYFAQFGDLKEVRLARNKKTGNSRHYGFLEFVNKEDAMIAQESMNNYLLMGHLLQVRVLPKGAKIEKLYK LEEYSGIIYVSRLPHGFHEKELSKYFAQFGDLKEVRLARNKKTGNSRHYGFLEFVNKEDAMIAQESMNNYLLMGHLLQVRVLPKGAKIEKLYKYKKRVLVEKGITK 5t9t-a1-m1-cA_5t9t-a1-m1-cB Protocadherin Gamma B2 extracellular cadherin domains 1-5 Q8K486 Q8K486 3.5 X-RAY DIFFRACTION 116 0.998 10090 (Mus musculus) 10090 (Mus musculus) 526 526 DQIRYSIPEELAKNSIVGNLARDLGLSVQNLPTRKLRVSAEKDYFTVNPESGDLLVGDRIDREQVCGKQPQCVLEFDIVAEKPLNIFHVAVILQDVNDNAPLFKQSEVDLNIGESTRPGKAFPLDPALDLDAGSNSLQKYYLTDNEYFEVTEKETPDGRKYPELILKRFLDREEHNFHQLVLTAVDGGDPPRSGTTQIRIQVTDINDNPPMFSQDVFSVTLREDVPPGFSVLQVTATDQDEGVNAEITYAFHNVDEQVERIFNLDKRTGEITTKDNLDFETAKSYTLNVEAKDPGDLASHCSIQVKILDENDCVPEVIVTSVFTPLPEDSPLGTVIALIKTRDRDSGENGDVYCHVLGNEGFVLKSSSKNYYKLVTDRTLDREAIPEYNVTIVAADRGKPPLSSNVIITLHISDVNDNAPVFHQASYLVHVAENNPPGTSIAQVSASDPDLGSNGLISYSIIASDLEPRALSSFVSVNQDSGVVFAQRAFDHEQLRSFQLTLQARDHGSPTLSANVSMRVLVGDRN QIRYSIPEELAKNSIVGNLARDLGLSVQNLPTRKLRVSAEKDYFTVNPESGDLLVGDRIDREQVCGKQPQCVLEFDIVAEKPLNIFHVAVILQDVNDNAPLFKQSEVDLNIGESTRPGKAFPLDPALDLDAGSNSLQKYYLTDNEYFEVTEKETPDGRKYPELILKRFLDREEHNFHQLVLTAVDGGDPPRSGTTQIRIQVTDINDNPPMFSQDVFSVTLREDVPPGFSVLQVTATDQDEGVNAEITYAFHNVDEQVERIFNLDKRTGEITTKDNLDFETAKSYTLNVEAKDPGDLASHCSIQVKILDENDCVPEVIVTSVFTPLPEDSPLGTVIALIKTRDRDSGENGDVYCHVLGNEGFVLKSSSKNYYKLVTDRTLDREAIPEYNVTIVAADRGKPPLSSNVIITLHISDVNDNAPVFHQASYLVHVAENNPPGTSIAQVSASDPDLGSNGLISYSIIASDLEPRALSSFVSVNQDSGVVFAQRAFDHEQLRSFQLTLQARDHGSPTLSANVSMRVLVGDRND 5t9y-a1-m1-cC_5t9y-a1-m1-cA Crystal structure of the infectious salmon anemia virus (ISAV) hemagglutinin-esterase protein Q9J0Y0 Q9J0Y0 1.8 X-RAY DIFFRACTION 122 1.0 55987 (Isavirus salaris) 55987 (Isavirus salaris) 319 321 5t96-a1-m1-cA_5t96-a1-m1-cB 5t96-a1-m1-cA_5t96-a1-m1-cC 5t96-a1-m1-cC_5t96-a1-m1-cB 5t96-a2-m1-cD_5t96-a2-m1-cE 5t96-a2-m1-cF_5t96-a2-m1-cD 5t96-a2-m1-cF_5t96-a2-m1-cE 5t9y-a1-m1-cB_5t9y-a1-m1-cA 5t9y-a1-m1-cB_5t9y-a1-m1-cC RLCLRNYPDTTWIGDSRSDQSRVNPQSLDLVTEFKGVLQAKNGNGLLKQMSGRFPSDWYTPTTKYRILYLGTNDCTDGPTDMIIPTSMTLDNAARELYLGACRGDVRVTPTFVGAAIVGLVGRTDAVTGFSVKVLTFSSPTIVVVGLNGMSGIYKVCIAATSGNVGGVKLINGCGYFNTPLRFDNFQGQIYVSDTFEVRGTKNKCVLLRSSSDTPLCSHIMRNVELDEYVDTPNTGGVYPSDGFDSLHGSASVRTFLTDALTCPDIDWSRIDAASCEYDSCPKMVKDFDQTSLGNTDTLIMREVALHKEMISKLQRDIT RLCLRNYPDTTWIGDSRSDQSRVNPQSLDLVTEFKGVLQAKNGNGLLKQMSGRFPSDWYTPTTKYRILYLGTNDCTDGPTDMIIPTSMTLDNAARELYLGACRGDVRVTPTFVGAAIVGLVGRTDAVTGFSVKVLTFSSPTIVVVGLNGMSGIYKVCIAATSGNVGGVKLINGCGYFNTPLRFDNFQGQIYVSDTFEVRGTKNKCVLLRSSSDTPLCSHIMRNVELDEYVDTPNTGGVYPSDGFDSLHGSASVRTFLTDALTCPDIDWSRIDAASCEYDSCPKMVKDFDQTSLGNTDTLIMREVALHKEMISKLQRDITDV 5ta0-a3-m2-cB_5ta0-a3-m1-cA Crystal structure of BuGH86E322Q in complex with neoagarooctaose A0A2D0TCD2 A0A2D0TCD2 1.4 X-RAY DIFFRACTION 46 1.0 820 (Bacteroides uniformis) 820 (Bacteroides uniformis) 615 626 5ta5-a3-m2-cB_5ta5-a3-m1-cA QTHVQLNLNVKHKLGDVTEFNRPKFINFHATINENYWDSANKIADLRDDLIRKYDVYVGRETGMIKTVLRNVKEDPERPGFADPDDLARLCSQNKKRYVQNTKVHPYEKYSNLILCNQFSPFYPDGTKTLKGWALSQKDTEDEPFGTASGEFYGRYIKEYFGEGGESGEPKPGFCEVINEPLWDIYDKPKAPKSSITKLFEFHSTIAAQVKKFNPDMKVGGYCTAFPDFELQNFGRWNARWKQFIDIAGKDMDFFTIHLYDFPCKDGKQMYRKGSNMEATMDMIEQYSMIKLGEVKPLMISQYSAQTHDYNRKPWSPYRDWLRLKSTNSMLMQFMERTDNICYAMPFAMLKSHTARMLRRENEPESFTGEYVYSELIKFYQLWKDVKGTRVETNCDNPDIMCDAYVDGKNVYFIINNLDFKPVDLNLSVNGTSKDAKSIEVRHLYLKGGKDGVPILDVYDAKSLDHFTLETEATCVICYNFDRKVKINETMEEVKYYATDYLKEIAAGKELVFNINNVKKTEYGEAVIRLGLGRNHGLSLLPELLVNGKKVDIPDNFRGDVQKDRASFFGVIEVPVDYSILKGNNTISLKFPDNGGHVSTVTMQIFNFSNNIRGI QTHVQLNLNVKHKLGDVTEFNRPKFINFHATINENYWDSANKIADLRDDLIRKYDVYVGRETGMIKTVLRNVKEDPERPGFADPDDLARLCSQNKKRYVQNTKVHPYEKYSNLILCNQFSPFYPDGTKTLKGWALSQKDTEDEPFGTASGEFYGRYIKEYFGEGGESGEPKPGFCEVINEPLWDIYDKPKAPKSSITKLFEFHSTIAAQVKKFNPDMKVGGYCTAFPDFELQNFGRWNARWKQFIDIAGKDMDFFTIHLYDFPCKDGKQMYRKGSNMEATMDMIEQYSMIKLGEVKPLMISQYSAQTHDYNRKPWSPYRDWLRLKSTNSMLMQFMERTDNICYAMPFAMLKSEWGYNPKTGLAHTARMLRRENEPESFTGEYVYSELIKFYQLWKDVKGTRVETNCDNPDIMCDAYVDGKNVYFIINNLDFKPVDLNLSVNGTSKDAKSIEVRHLYLKGGKDGVPILDVYDAKSLDHFTLETEATCVICYNFDRKVKINETMEEVKYYATDYLKEIAAGKELVFNINNVKKTEYGEAVIRLGLGRNHGLSLLPELLVNGKKVDIPDNFRGDVQKDRASFFGVIEVPVDYSILKGNNTISLKFPDNGGHVSTVTMQIFNFSNNIRGI 5ta7-a3-m1-cA_5ta7-a3-m1-cB Crystal structure of BuGH117Bwt A0A2D0TCD6 A0A2D0TCD6 2.35 X-RAY DIFFRACTION 268 1.0 820 (Bacteroides uniformis) 820 (Bacteroides uniformis) 369 370 5ta9-a5-m1-cA_5ta9-a5-m1-cB 5ta9-a6-m1-cC_5ta9-a6-m1-cD YDQRKADSLGIPKGNKLSAAMKRAMEWPQRDNSWFFEYKMMPLKGDLAYEEGIVRRDPSAMIKVGDKYYVWYSKSYGETQGFAGDVENEKVFPWDRCDIWYATSKDGITWKEEGVAVKRGEKGAYDDRSVFTPEVMQWNGKYYLCYQTVKSPYTVRVKENVAMAWADSPDGPWEKTDKPVLTPSDNGVWEGEEDNRFKVKAKGDFDSHKVHDPCIIPYNGKFYLYYKGERMGEEITWGGREIKHGVAIADNPLGPYTKSEYNPISNSGHEICVWPYKGGIASLITTDGPEKNTLQWSPDGINFEIMSVIPGAPHAIGLNRSADNDKEPTEILRWGLTHQYITYNYQCIMRFETWTKQTHTAIGESTKRK AYDQRKADSLGIPKGNKLSAAMKRAMEWPQRDNSWFFEYKMMPLKGDLAYEEGIVRRDPSAMIKVGDKYYVWYSKSYGETQGFAGDVENEKVFPWDRCDIWYATSKDGITWKEEGVAVKRGEKGAYDDRSVFTPEVMQWNGKYYLCYQTVKSPYTVRVKENVAMAWADSPDGPWEKTDKPVLTPSDNGVWEGEEDNRFKVKAKGDFDSHKVHDPCIIPYNGKFYLYYKGERMGEEITWGGREIKHGVAIADNPLGPYTKSEYNPISNSGHEICVWPYKGGIASLITTDGPEKNTLQWSPDGINFEIMSVIPGAPHAIGLNRSADNDKEPTEILRWGLTHQYITYNYQCIMRFETWTKQTHTAIGESTKRK 5tby-a1-m1-cB_5tby-a1-m1-cA HUMAN BETA CARDIAC HEAVY MEROMYOSIN INTERACTING-HEADS MOTIF OBTAINED BY HOMOLOGY MODELING (USING SWISS-MODEL) OF HUMAN SEQUENCE FROM APHONOPELMA HOMOLOGY MODEL (PDB-3JBH), RIGIDLY FITTED TO HUMAN BETA-CARDIAC NEGATIVELY STAINED THICK FILAMENT 3D-RECONSTRUCTION (EMD-2240) P12883 P12883 20.0 ELECTRON MICROSCOPY 282 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 950 954 GAAAPYLRKSEKERLEAQTRPFDLKKDVFVPDDKQEFVKAKIVSREGGKVTAETEYGKTVTVKEDQVMQQNPPKFDKIEDMAMLTFLHEPAVLYNLKDRYGSWMIYTYSGLFCVTVNPYKWLPVYTPEVVAAYRGKKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAIGDRSKKDQSPGKGTLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVIFQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDNAFDVLGFTSEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSADLLKGLCHPRVKVGNEYVTKGQNVQQVIYATGALAKAVYERMFNWMVTRINATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSANFQKPRNIKGKPEAHFSLIHYAGIVDYNIIGWLQKNKDPLNETVVGLYQKSSLKLLSTLFANYAGADAPIEKGKGKAKKGSSFQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVMDNPLVMHQLRCNGVLEGIRICRKGFPNRILYGDFRQRYRILNPAAIPEGQFIDSRKGAEKLLSSLDIDHNQYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRIQAQSRGVLARMEYKKLLERRDSLLVIQWNIRAFMGVKNWPWMKLYFKIKPLLKSAEREKEMASMKEEFTRLKEALEKSEARRKELEEKMVSLLQEKNDLQLQVQAEQDNLADAEERCDQLIKNKIQLEAKVKEMNERLEDEEEMNAELTAKKRKLEDECSELKRDIDDLEL MAVFGAAAPYLRKSEKERLEAQTRPFDLKKDVFVPDDKQEFVKAKIVSREGGKVTAETEYGKTVTVKEDQVMQQNPPKFDKIEDMAMLTFLHEPAVLYNLKDRYGSWMIYTYSGLFCVTVNPYKWLPVYTPEVVAAYRGKKRSEAPPHIFSISDNAYQYMLTDRENQSILITGESGAGKTVNTKRVIQYFAVIAAIGDRSKKDQSPGKGTLEDQIIQANPALEAFGNAKTVRNDNSSRFGKFIRIHFGATGKLASADIETYLLEKSRVIFQLKAERDYHIFYQILSNKKPELLDMLLITNNPYDYAFISQGETTVASIDDAEELMATDNAFDVLGFTSEEKNSMYKLTGAIMHFGNMKFKLKQREEQAEPDGTEEADKSAYLMGLNSADLLKGLCHPRVKVGNEYVTKGQNVQQVIYATGALAKAVYERMFNWMVTRINATLETKQPRQYFIGVLDIAGFEIFDFNSFEQLCINFTNEKLQQFFNHHMFVLEQEEYKKEGIEWTFIDFGMDLQACIDLIEKPMGIMSILEEECMFPKATDMTFKAKLFDNHLGKSANFQKPRNIKGKPEAHFSLIHYAGIVDYNIIGWLQKNKDPLNETVVGLYQKSSLKLLSTLFANYAGADAPIEKGKGKAKKGSSFQTVSALHRENLNKLMTNLRSTHPHFVRCIIPNETKSPGVMDNPLVMHQLRCNGVLEGIRICRKGFPNRILYGDFRQRYRILNPAAIPEGQFIDSRKGAEKLLSSLDIDHNQYKFGHTKVFFKAGLLGLLEEMRDERLSRIITRIQAQSRGVLARMEYKKLLERRDSLLVIQWNIRAFMGVKNWPWMKLYFKIKPLLKSAEREKEMASMKEEFTRLKEALEKSEARRKELEEKMVSLLQEKNDLQLQVQAEQDNLADAEERCDQLIKNKIQLEAKVKEMNERLEDEEEMNAELTAKKRKLEDECSELKRDIDDLEL 5tby-a1-m1-cE_5tby-a1-m1-cF HUMAN BETA CARDIAC HEAVY MEROMYOSIN INTERACTING-HEADS MOTIF OBTAINED BY HOMOLOGY MODELING (USING SWISS-MODEL) OF HUMAN SEQUENCE FROM APHONOPELMA HOMOLOGY MODEL (PDB-3JBH), RIGIDLY FITTED TO HUMAN BETA-CARDIAC NEGATIVELY STAINED THICK FILAMENT 3D-RECONSTRUCTION (EMD-2240) P10916 P10916 20.0 ELECTRON MICROSCOPY 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 KKRAGGANSNVFSMFEQTQIQEFKEAFTIMDQNRDGFIDKNDLRDTFAALGRVNVKNEEIDEMIKEAPGPINFTVFLTMFGEKLKGADPEETILNAFKVFDPEGKGVLKADYVREMLTTQAERFSKEEVDQMFAAFPPDVTGNLDYKNLVHIITHGEEKD KKRAGGANSNVFSMFEQTQIQEFKEAFTIMDQNRDGFIDKNDLRDTFAALGRVNVKNEEIDEMIKEAPGPINFTVFLTMFGEKLKGADPEETILNAFKVFDPEGKGVLKADYVREMLTTQAERFSKEEVDQMFAAFPPDVTGNLDYKNLVHIITHGEEKD 5td6-a1-m1-cA_5td6-a1-m1-cB C. elegans FOG-3 BTG/Tob domain - H47N, C117A G5EDX7 G5EDX7 2.034 X-RAY DIFFRACTION 62 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 124 136 MYTEVRELVNFVCRYLFGHIPRRPVGIFGAELGNYLVSHFSSTWDVNHPKNGEMKRMINTTTSLCFASSAEEAGVPPSDVLRLLPTNMIIFANPGHVFVRLSENGIETPIWIGDVNADENYQSV MYTEVRELVNFVCRYLFGHIPRRPVGIFGAELGNYLVSHFSSTWDVNHPKNGEMKRMINTTTSLCFASSAEEAGVPPSDVLRLLPTNMIIFANPGHVFVRLSENGIETPIWIGDVNADENYQSVPEYVVRTAAIRA 5tdl-a1-m2-cA_5tdl-a1-m3-cA Crystal structure of prefusion-stabilized bovine RSV fusion glycoprotein (single-chain DS2-v1 variant: strain 391-2 sc9 DS-Cav1 Q98C Q361C) P10104 P10104 3.5 X-RAY DIFFRACTION 148 1.0 11248 (Bovine respiratory syncytial virus (strain Copenhagen)) 11248 (Bovine respiratory syncytial virus (strain Copenhagen)) 450 450 5tdg-a1-m1-cA_5tdg-a1-m1-cB 5tdg-a1-m1-cA_5tdg-a1-m1-cC 5tdg-a1-m1-cB_5tdg-a1-m1-cC 5tdl-a1-m1-cA_5tdl-a1-m2-cA 5tdl-a1-m1-cA_5tdl-a1-m3-cA QNITEEFYQSTCSAVSRGYLSALRTGWYTSVVTIELSKIQKNVCKSTDSKVKLIKQELERYNNAVIELQSLMCNEPASFSGSGSAIASGVAVCKVLHLEGEVNKIKNALLSTNKAVVSLSNGVSVLTFKVLDLKNYIDKELLPKLNNHDCRISNIETVIEFQQKNNRLLEIAREFSVNAGITTPLSTYMLTNSELLSLINDMPITNDQKKLMSSNVQIVRQQSYSIMCVVKEEVIAYVVQLPIYGVIDTPCWKLHTSPLCTTDNKEGSNICLTRTDRGWYCDNAGSVSFFPQAETCKVCSNRVFCDTMNSLTLPTDVNLCNTDIFNTKYDCKIMTSKTDISSSVITSIGAIVSCYGKTKCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKLEGKALYIKGEPIINYYDPLVFPSDEFDASIAQVNAKINQSLAFIRRSDEL QNITEEFYQSTCSAVSRGYLSALRTGWYTSVVTIELSKIQKNVCKSTDSKVKLIKQELERYNNAVIELQSLMCNEPASFSGSGSAIASGVAVCKVLHLEGEVNKIKNALLSTNKAVVSLSNGVSVLTFKVLDLKNYIDKELLPKLNNHDCRISNIETVIEFQQKNNRLLEIAREFSVNAGITTPLSTYMLTNSELLSLINDMPITNDQKKLMSSNVQIVRQQSYSIMCVVKEEVIAYVVQLPIYGVIDTPCWKLHTSPLCTTDNKEGSNICLTRTDRGWYCDNAGSVSFFPQAETCKVCSNRVFCDTMNSLTLPTDVNLCNTDIFNTKYDCKIMTSKTDISSSVITSIGAIVSCYGKTKCTASNKNRGIIKTFSNGCDYVSNKGVDTVSVGNTLYYVNKLEGKALYIKGEPIINYYDPLVFPSDEFDASIAQVNAKINQSLAFIRRSDEL 5tdx-a2-m1-cD_5tdx-a2-m1-cC Resurrected Ancestral Hydroxynitrile Lyase from Flowering Plants 1.96 X-RAY DIFFRACTION 53 1.0 32630 (synthetic construct) 32630 (synthetic construct) 260 265 5tdx-a1-m1-cB_5tdx-a1-m1-cA ATAHFVLIHTICHGAWIWYKLKPLLEAAGHKVTALDLAASGIDPRQIEQINTFDEYSEPLLTFMESLPQGEKVILVGESCGGLNIALAADKYPEKISAAVFHNALMPDTEHSPSYVVDKFMEVFPDWKDTEFSTYTSNNETITGMKLGFKLMRENLYTNCPIEDYELAKMLTRKGSFFQNDLAQRPKFTEEGYGSIKRVYVWTDEDKIFPPEFQLWQIENYKPDKVYRVQGGDHKLQLSKTNELAEILQEVADTYADLLA ATAHFVLIHTICHGAWIWYKLKPLLEAAGHKVTALDLAASGIDPRQIEQINTFDEYSEPLLTFMESLPQGEKVILVGESCGGLNIALAADKYPEKISAAVFHNALMPDTEHSPSYVVDKFMEVFPDWKDTEFSTYTSNNETITGMKLGFKLMRENLYTNCPIEDYELAKMLTRKGSFFQNDLAQRPKFTEEGYGSIKRVYVWTDEDKIFPPEFQLWQIENYKPDKVYRVQGGDHKLQLSKTNELAEILQEVADTYADLLAVAGLE 5tdy-a3-m2-cD_5tdy-a3-m1-cB Structure of cofolded FliFc:FliGn complex from Thermotoga maritima Q9WY63 Q9WY63 2.105 X-RAY DIFFRACTION 68 0.988 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 86 93 EKKIDGRRKAAVLLVALGPEKAAQVKHLDEETVEQLVVEIANIGRVTPEEKKQVLEEFLSLAKAKEISEGGIEYAKKVLEKAFGPE KKIDGRRKAAVLLVALGPEKAAQVKHLDEETVEQLVVEIANIGRVTPEEKKQVLEEFLSLAKAKEISEGGIEYAKKVLEKAFGPERARKIIER 5tdy-a4-m3-cD_5tdy-a4-m1-cB Structure of cofolded FliFc:FliGn complex from Thermotoga maritima Q9WY63 Q9WY63 2.105 X-RAY DIFFRACTION 32 0.988 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 86 93 EKKIDGRRKAAVLLVALGPEKAAQVKHLDEETVEQLVVEIANIGRVTPEEKKQVLEEFLSLAKAKEISEGGIEYAKKVLEKAFGPE KKIDGRRKAAVLLVALGPEKAAQVKHLDEETVEQLVVEIANIGRVTPEEKKQVLEEFLSLAKAKEISEGGIEYAKKVLEKAFGPERARKIIER 5te9-a1-m1-cA_5te9-a1-m2-cA Crystal structure of a response regulator receiver protein from Burkholderia phymatum B2JH95 B2JH95 2.401 X-RAY DIFFRACTION 100 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 137 137 DLIHILLVEDSPTDVMITREAFDYYKLLNPLHVAGDGVAAMEFLRREGQHSDAPRPGLIILDLNLPKKSGREVLQELKADPDLMKIPVVVLTTSKSEEDVARTYGANCYITKPVDFTRFVEVVRRISDFWFGVVTLP DLIHILLVEDSPTDVMITREAFDYYKLLNPLHVAGDGVAAMEFLRREGQHSDAPRPGLIILDLNLPKKSGREVLQELKADPDLMKIPVVVLTTSKSEEDVARTYGANCYITKPVDFTRFVEVVRRISDFWFGVVTLP 5ted-a1-m1-cA_5ted-a1-m1-cB Effector binding domain of QuiR in complex with shikimate Q8Y9N7 Q8Y9N7 1.889 X-RAY DIFFRACTION 106 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 209 210 SHGNIDLGFIYTMGAHTVPELVQNFTKVESHKDITFSFFQGATKSIIPDLKNEKFDLAICSYVENEPDIEFLPLTKQELVVVVAENHPLAKYDSIDLQDTADYSYIFFSDTSGLRPLIDSLFAEINIQPKIGCYVEEDTAMVGLVSVDYGISIMPKISSLAHYNVKVLSINEPKHDRFIYLASLKNHYISPASKAFKDFALRYGKKHFL SHGNIDLGFIYTMGAHTVPELVQNFTKVESHKDITFSFFQGATKSIIPDLKNEKFDLAICSYVENEPDIEFLPLTKQELVVVVAENHPLAKYDSIDLQDTADYSYIFFSDTSGLRPLIDSLFAEINIQPKIGCYVEEDTAMVGLVSVDYGISIMPKISSLAHYNVKVLSINEPKHDRFIYLASLKNHYISPASKAFKDFALRYGKKHFLR 5tf0-a1-m1-cA_5tf0-a1-m1-cB Crystal Structure of Glycosil Hydrolase Family 3 N-Terminal Domain Protein from Bacteroides intestinalis B3C777 B3C777 2.2021 X-RAY DIFFRACTION 219 0.996 471870 (Bacteroides intestinalis DSM 17393) 471870 (Bacteroides intestinalis DSM 17393) 706 706 QDDRFIDALKKTVEEKIGQLNLPVSGSDVAKKIEQGLVGGLLNLKGVEKIRDVQKLAIEKSRLGIPLIFGDVVHGYETIFPIPLGLSCSWDEAIRKSARVAAIEASADGISWTFSPVDISRDPRWGRVSEGNGEDPFLGGAIAKAVSGYQGIDLNNQLKRNDEIACVKHFALYGAGEAGRDYNTVDSRNRFNEYYPYQAAVDAGVGSVASFNEIDGIPATANKWLTDVLRKQWGFDGFVVTDFTGISEIAHGIGDLQTVSARALNAGVDDVSEGFTGTIKKSIDEGKISETLDKACRRILEAKYKLGLFDNPYKYCDLKRPKRDIFTKEHRDAARKIAGESFVLLKNDKSSANPTLPLKKEGTVAVIGPLANTRSNPGTWSVAARLNDYPSVYEGLKEKGKVNITYAKGSNLISDAAYEERATFGRSLNRDNRTDKELDEALKVAANADVIIAALGESSESGESSSRTNLALPDVQRTLLEALLKTGKPVVLTLFTGRPLTLTWEQEHVPAILNVWFGGSEAAYAIGDVLFGDVNPSGKLTTFPKNVGQIPLFYNHKNTGRPLLEGKWFEKFRSNYLDVDNDPLYPFGYGLSYTNFQYSDITLSAPTGQDGSVTAVTVTNTGKYDGAEVVQLYIRDLVGSITRPVKELKGFDKIFLKAGESKTVSFKITPELLRFYDYELNYVAEPGDFDIIGGNSQSVKTTHLSL PQDDRFIDALKKTVEEKIGQLNLPVSGSDVAKKIEQGLVGGLLNLKGVEKIRDVQKLAIEKSRLGIPLIFGDVVHGYETIFPIPLGLSCSWDEAIRKSARVAAIEASADGISWTFSPVDISRDPRWGRVSEGNGEDPFLGGAIAKAVSGYQGIDLNNQLKRNDEIACVKHFALYGAGEAGRDYNTVDSRNRFNEYYPYQAAVDAGVGSVASFNEIDGIPATANKWLTDVLRKQWGFDGFVVTDFTGISEIAHGIGDLQTVSARALNAGVDDVSEGFTGTIKKSIDEGKISETLDKACRRILEAKYKLGLFDNPYKYCDLKRPKRDIFTKEHRDAARKIAGESFVLLKNDKSGSSANPTLPLKKEGTVAVIGPLANTRSNPGTWSVAARLNDYPSVYEGLKEKGKVNITYAKGSNLISDAAYEERATFGRSLNRDNRTDKELDEALKVAANADVIIAALGESSESGESSSRTNLALPDVQRTLLEALLKTGKPVVLTLFTGRPLTLTWEQEHVPAILNVWFGGSEAAYAIGDVLFGDVNPSGKLTTFPKNVGQIPLFYNHKNTGRPLLEGKWFEKFRSNYLDVDNDPLYPFGYGLSYTNFQYSDITLSAPTGSVTAVTVTNTGKYDGAEVVQLYIRDLVGSITRPVKELKGFDKIFLKAGESKTVSFKITPELLRFYDYELNYVAEPGDFDIIGGNSQSVKTTHLSL 5tfn-a3-m1-cB_5tfn-a3-m1-cA CRYSTAL STRUCTURE OF THE ZIKA VIRUS NS2B-NS3 PROTEASE in super-open conformation Q32ZE1 Q32ZE1 3 X-RAY DIFFRACTION 57 0.994 64320 (Zika virus) 64320 (Zika virus) 160 165 5gxj-a1-m1-cA_5gxj-a1-m1-cB 5t1v-a1-m1-cA_5t1v-a1-m1-cB 6um3-a1-m1-cB_6um3-a1-m1-cA VDMYIERAGDITWEKDAEGETTDGVYRVMTRRLLGSTQVGVGVMQEGVFHTMWHVTKGSALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGHSEVQLLAVPPGERARNIQTLPGIFKTKDGDIGAVALDYPAGTAGSPILDKCGRVIGLYGNGVVIK DMYIERAGDITWEKDAEVTGGETTDGVYRVMTRRLLGSTQVGVGVMQEGVFHTMWHVTKGSALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGHSEVQLLAVPPGERARNIQTLPGIFKTKDGDIGAVALDYPAGTAGSPILDKCGRVIGLYGNGVVIKNGS 5tg3-a1-m1-cA_5tg3-a1-m1-cC Crystal Structure of Dioclea reflexa seed lectin (DrfL) in complex with X-Man C0HK81 C0HK81 1.765 X-RAY DIFFRACTION 55 1.0 230 230 1dgl-a1-m1-cA_1dgl-a1-m2-cB 1dgl-a1-m1-cB_1dgl-a1-m2-cA 1h9p-a1-m1-cA_1h9p-a1-m3-cA 1h9p-a1-m2-cA_1h9p-a1-m4-cA 2gdf-a1-m1-cA_2gdf-a1-m1-cD 2gdf-a1-m1-cC_2gdf-a1-m1-cB 2jdz-a1-m1-cA_2jdz-a1-m3-cA 2jdz-a1-m2-cA_2jdz-a1-m4-cA 2je7-a1-m1-cA_2je7-a1-m3-cA 2je7-a1-m2-cA_2je7-a1-m4-cA 2je9-a1-m1-cA_2je9-a1-m1-cD 2je9-a1-m1-cB_2je9-a1-m1-cC 2jec-a1-m1-cA_2jec-a1-m1-cD 2jec-a1-m1-cB_2jec-a1-m1-cC 2zbj-a1-m1-cA_2zbj-a1-m3-cA 2zbj-a1-m2-cA_2zbj-a1-m4-cA 3a0k-a1-m1-cA_3a0k-a1-m1-cG 3a0k-a1-m1-cC_3a0k-a1-m1-cE 3rrd-a1-m1-cA_3rrd-a1-m2-cA 3rrd-a1-m3-cA_3rrd-a1-m4-cA 3rs6-a1-m1-cA_3rs6-a1-m3-cA 3rs6-a1-m2-cA_3rs6-a1-m4-cA 3sh3-a1-m1-cA_3sh3-a1-m2-cA 3sh3-a1-m3-cA_3sh3-a1-m4-cA 4mye-a1-m1-cA_4mye-a1-m3-cA 4mye-a1-m2-cA_4mye-a1-m4-cA 4not-a1-m1-cA_4not-a1-m2-cA 5tg3-a1-m1-cB_5tg3-a1-m1-cD 5uuy-a1-m1-cA_5uuy-a1-m3-cA 5uuy-a1-m2-cA_5uuy-a1-m4-cA 6cj9-a1-m1-cA_6cj9-a1-m3-cA 6cj9-a1-m2-cA_6cj9-a1-m4-cA ADTIVAVELDSYPNTDIGDPNYPHIGIDIKSVRSKSTARWNMQTGKVGTVHISYNSVSKRLSAVVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKQTNTILSWSFTSKLKNSLHFSFHKFSQNPKDLILQGDASTDSDGNLQLTKVSSSGDPQGNSVGRALFYAPVHIWEKSAVVASFDATFTFLIKSPDREPADGITFFIANTDTTIPSGSGGRLLGLFPDAN ADTIVAVELDSYPNTDIGDPNYPHIGIDIKSVRSKSTARWNMQTGKVGTVHISYNSVSKRLSAVVSYSGSSSTTVSYDVDLNNVLPEWVRVGLSATTGLYKQTNTILSWSFTSKLKNSLHFSFHKFSQNPKDLILQGDASTDSDGNLQLTKVSSSGDPQGNSVGRALFYAPVHIWEKSAVVASFDATFTFLIKSPDREPADGITFFIANTDTTIPSGSGGRLLGLFPDAN 5tg9-a2-m3-cD_5tg9-a2-m5-cD Crystal structure of H15 hemagglutinin from A/shearwater/WA/2576/1979 H15N9 influenza virus in complex with 3'-SLN L0L3X3 L0L3X3 2.749 X-RAY DIFFRACTION 30 1.0 650409 (Influenza A virus (A/shearWater/Australia/2576/1979(H15N9))) 650409 (Influenza A virus (A/shearWater/Australia/2576/1979(H15N9))) 168 168 5tg9-a1-m1-cB_5tg9-a1-m2-cB 5tg9-a1-m1-cB_5tg9-a1-m4-cB 5tg9-a1-m2-cB_5tg9-a1-m4-cB 5tg9-a2-m1-cD_5tg9-a2-m3-cD 5tg9-a2-m1-cD_5tg9-a2-m5-cD GAIAGFIENGWEGLIDGWYGFRHQNAQGQGTAADYKSTQAAIDQITGKLNRLIEKTNKQFELIDNEFTEVQQIGNVINWTRDSLTEIWSYNAELLVAMENQHTIDLADSEMNKLYERVRRQLRENAEEDGTGCFEIFHRCDDQCMESIRNNTYNHTEYRQEALQNRIM GAIAGFIENGWEGLIDGWYGFRHQNAQGQGTAADYKSTQAAIDQITGKLNRLIEKTNKQFELIDNEFTEVQQIGNVINWTRDSLTEIWSYNAELLVAMENQHTIDLADSEMNKLYERVRRQLRENAEEDGTGCFEIFHRCDDQCMESIRNNTYNHTEYRQEALQNRIM 5tgc-a3-m1-cE_5tgc-a3-m1-cB Structure of the hetero-trimer of Rtt102-Arp7/9 bound to ATP Q05123 Q05123 3.245 X-RAY DIFFRACTION 69 0.985 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 391 395 PFRQDSILIIYPRSQTTLVQFGLNEETFTVPELEIPTQIYRTTRQDGSYTYHSTNKDNKAELIKPIQNGEIIDISAFTQFLRLIFVSILSDRANKNQDAFEAELSNIPLLLITHHSWSQSDLEIITQYVFESLEINNLIQLPASLAATYSMISLQNCCIIDVGTHHTDIIPIVDYAQLDHLVSSIPMGGQSINDSLKKLLPQWDDDQIESLKKSPIFEVLSKNSDLEFNTFWDEKGNEIKVGKQRFQGCNNLIKNISNRVGLTLDNIDDINKAKAVWENIIIVGGTTSISGFKEALLGQLLKDHLIIEPEEEKSKREEEAVPTIEYVQCPTVIKLAKYPDYFPEWKKSGYSEIIFLGAQIVSKQIFTHPKFYITREKYNMKGPAALWDVQF APFRQDSILIIYPRSQTTLVQFGLNEETFTVPELEIPTQIYRTTRQDGSYTYHSTNKDNKAELIKPIQNGEIIDISAFTQFLRLIFVSILSDRANKNQDAFEAELSNIPLLLITHHSWSQSDLEIITQYVFESLEINNLIQLPASLAATYSMISLQNCCIIDVGTHHTDIIPIVDYAQLDHLVSSIPMGGQSINDSLKKLLPQWDDDQIESLKKSPIFEVLSDDAVKNSDLEFNTFWDEKGNEIKVGKQRFQGCNNLIKNISNRVGLTLDNIDDINKAKAVWENIIIVGGTTSISGFKEALLGQLLKDHLIIEPEEEKSKREEEAKSVLPVPTIEYVQCPTVIKLAKYPDYKSGYSEIIFLGAQIVSKQIFTHPKFYITREKYNMKGPAALWDVQ 5tgl-a1-m1-cA_5tgl-a1-m2-cA A MODEL FOR INTERFACIAL ACTIVATION IN LIPASES FROM THE STRUCTURE OF A FUNGAL LIPASE-INHIBITOR COMPLEX P19515 P19515 3 X-RAY DIFFRACTION 148 1.0 4839 (Rhizomucor miehei) 4839 (Rhizomucor miehei) 265 265 GIRAATSQEINELTYYTTLSANSYCRTVIPGATWDCIHCDATEDLKIIKTWSTLIYDTNAMVARGDSEKTIYIVFRGSSSIRNWIADLTFVPVSYPPVSGTKVHKGFLDSYGEVQNELVATVLDQFKQYPSYKVAVTGHSLGGATALLCALDLYQREEGLSSSNLFLYTQGQPRVGNPAFANYVVSTGIPYRRTVNERDIVPHLPPAAFGFLHAGSEYWITDNSPETVQVCTSDLETSDCSNSIVPFTSVLDHLSYFGINTGLCT GIRAATSQEINELTYYTTLSANSYCRTVIPGATWDCIHCDATEDLKIIKTWSTLIYDTNAMVARGDSEKTIYIVFRGSSSIRNWIADLTFVPVSYPPVSGTKVHKGFLDSYGEVQNELVATVLDQFKQYPSYKVAVTGHSLGGATALLCALDLYQREEGLSSSNLFLYTQGQPRVGNPAFANYVVSTGIPYRRTVNERDIVPHLPPAAFGFLHAGSEYWITDNSPETVQVCTSDLETSDCSNSIVPFTSVLDHLSYFGINTGLCT 5tgn-a1-m1-cA_5tgn-a1-m1-cD Crystal structure of protein Sthe_2403 from Sphaerobacter thermophilus D1C7H4 D1C7H4 2.001 X-RAY DIFFRACTION 48 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 107 107 5tgn-a1-m1-cC_5tgn-a1-m1-cB AAAIDLAREYISRVNGRDGSGAAALFAQDGEIIAPVGRVYRGWDAIAAFIEAAPPATTAQIAERTGTHRVVLHGVVQTPRFAPAQIEWIFDVDGDRIRRLTINHLRD AAAIDLAREYISRVNGRDGSGAAALFAQDGEIIAPVGRVYRGWDAIAAFIEAAPPATTAQIAERTGTHRVVLHGVVQTPRFAPAQIEWIFDVDGDRIRRLTINHLRD 5tgn-a1-m1-cB_5tgn-a1-m1-cA Crystal structure of protein Sthe_2403 from Sphaerobacter thermophilus D1C7H4 D1C7H4 2.001 X-RAY DIFFRACTION 42 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 106 107 AAIDLAREYISRVNGRDGSGAAALFAQDGEIIAPVGRVYRGWDAIAAFIEAAPPATTAQIAERTGTHRVVLHGVVQTPRFAPAQIEWIFDVDGDRIRRLTINHLRD AAAIDLAREYISRVNGRDGSGAAALFAQDGEIIAPVGRVYRGWDAIAAFIEAAPPATTAQIAERTGTHRVVLHGVVQTPRFAPAQIEWIFDVDGDRIRRLTINHLRD 5tgn-a1-m1-cB_5tgn-a1-m1-cD Crystal structure of protein Sthe_2403 from Sphaerobacter thermophilus D1C7H4 D1C7H4 2.001 X-RAY DIFFRACTION 30 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 106 107 5tgn-a1-m1-cC_5tgn-a1-m1-cA AAIDLAREYISRVNGRDGSGAAALFAQDGEIIAPVGRVYRGWDAIAAFIEAAPPATTAQIAERTGTHRVVLHGVVQTPRFAPAQIEWIFDVDGDRIRRLTINHLRD AAAIDLAREYISRVNGRDGSGAAALFAQDGEIIAPVGRVYRGWDAIAAFIEAAPPATTAQIAERTGTHRVVLHGVVQTPRFAPAQIEWIFDVDGDRIRRLTINHLRD 5tgq-a1-m1-cA_5tgq-a1-m2-cA Restriction-modification system Type II R.SwaI, DNA free A0A1S4NYF7 A0A1S4NYF7 1.88 X-RAY DIFFRACTION 90 1.0 1292 (Staphylococcus warneri) 1292 (Staphylococcus warneri) 226 226 MNFKKYEENLVASIEEVIQRIIDDKHRPNIIGKTRVGAEVSDYLEDEFVKYISSGKSSSLYDAQGAPKEKTKNPWDARCKFKFMDREEEIWIDFKAFKITNMDSNPDIGTPNKIVKFIHEGNFYLVFVLVYYESKQDGVEFVKYNNDYKKVYLLKDVNESFRINPKPQMQVNIAAEPTYRTREEFIHFFVKKWKESFERQIKSLEKKEIMLKDLEDKLKNSNDNSI MNFKKYEENLVASIEEVIQRIIDDKHRPNIIGKTRVGAEVSDYLEDEFVKYISSGKSSSLYDAQGAPKEKTKNPWDARCKFKFMDREEEIWIDFKAFKITNMDSNPDIGTPNKIVKFIHEGNFYLVFVLVYYESKQDGVEFVKYNNDYKKVYLLKDVNESFRINPKPQMQVNIAAEPTYRTREEFIHFFVKKWKESFERQIKSLEKKEIMLKDLEDKLKNSNDNSI 5tgt-a1-m1-cB_5tgt-a1-m1-cA Crystal structure of glytamyl-tRNA synthetase GluRS from Pseudomonas aeruginosa Q9XCL6 Q9XCL6 2.45 X-RAY DIFFRACTION 27 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 453 461 TVRTRIAPSPTGDPHVGTAYIALFNLCFARQHGGQFILRIEDSTRESEQQIYDALRWLGIEWDEGPDVGGPHGPYRQSERGHIYKKYSDELVEKGHAFTCFMHLPKDEVQRRLAAGESHVTRMKVPTEGVCVVPDMLRGDVEIPWDRMDMQVLMKADGLPTYFLANVVDDHLMGITHVLRGEEWLPSAPKLIKLYEYFGWEQPQLCYMPLLRNPDKSKLSKRKNPTSITFYERMGYLPQALLNYLGRMGWKFTLAEMIEHFDLSRVSLGGPIFDLEKLSWLNGQWIREQSVEEFAREVQKWALNPEYLMKIAPHVQGRVENFSQIAPLAGFFFSGGVPLDASLFEHKKLDPTQVRQVLQLVLWKLESLRQWEKERITGCIQAVAEHLQLKLRDVMPLMFPAITGHASSVSVLDAMEILGADLSRYRLRQALELLGGASKKETKEWEKIRDAIP TTVRTRIAPSPTGDPHVGTAYIALFNLCFARQHGGQFILRIEDTDQLRSTRESEQQIYDALRWLGIEWDEGPDVGGPHGPYRQSERGHIYKKYSDELVEKGHAFTCFMHLPKDEVQRRLAAGESHVTRMKVPTEGVCVVPDMLRGDVEIPWDRMDMQVLMKADGLPTYFLANVVDDHLMGITHVLRGEEWLPSAPKLIKLYEYFGWEQPQLCYMPLLRNPDKSKLSKRKNPTSITFYERMGYLPQALLNYLGRMGWSEKFTLAEMIEHFDLSRVSLGGPIFDLEKLSWLNGQWIREQSVEEFAREVQKWALNPEYLMKIAPHVQGRVENFSQIAPLAGFFFSGGVPLDASLFEHKKLDPTQVRQVLQLVLWKLESLRQWEKERITGCIQAVAEHLQLKLRDVMPLMFPAITGHASSVSVLDAMEILGADLSRYRLRQALELLGGASKKETKEWEKIRDAIP 5tgx-a1-m1-cA_5tgx-a1-m1-cD Restriction/modification system-Type II R-SwaI complexed with partially cleaved DNA A0A1S4NYF7 A0A1S4NYF7 2.3 X-RAY DIFFRACTION 22 1.0 1292 (Staphylococcus warneri) 1292 (Staphylococcus warneri) 221 221 NFKKYEENLVASIEEVIQRIIDDKHRPNIIGKTRVGAEVSDYLEDEFVKYISSGKSSSLYDAQGAPKEKTKNPWDARCKFKFDREEEIWIDFKAFKITNDSNPDIGTPNKIVKFIHEGNFYLVFVLVYYESKQDGVEFVKYNNDYKKVYLLKDVNESFRINPKPQQVNIAAEPTYRTREEFIHFFVKKWKESFERQIKSLEKKEILKDLEDKLKNSNDNSI NFKKYEENLVASIEEVIQRIIDDKHRPNIIGKTRVGAEVSDYLEDEFVKYISSGKSSSLYDAQGAPKEKTKNPWDARCKFKFDREEEIWIDFKAFKITNDSNPDIGTPNKIVKFIHEGNFYLVFVLVYYESKQDGVEFVKYNNDYKKVYLLKDVNESFRINPKPQQVNIAAEPTYRTREEFIHFFVKKWKESFERQIKSLEKKEILKDLEDKLKNSNDNSI 5tgx-a3-m1-cC_5tgx-a3-m1-cD Restriction/modification system-Type II R-SwaI complexed with partially cleaved DNA A0A1S4NYF7 A0A1S4NYF7 2.3 X-RAY DIFFRACTION 116 1.0 1292 (Staphylococcus warneri) 1292 (Staphylococcus warneri) 221 221 5tgx-a1-m1-cA_5tgx-a1-m1-cB 5tgx-a1-m1-cC_5tgx-a1-m1-cD 5tgx-a2-m1-cA_5tgx-a2-m1-cB 5th3-a1-m1-cA_5th3-a1-m1-cB 5th3-a2-m1-cC_5th3-a2-m1-cD NFKKYEENLVASIEEVIQRIIDDKHRPNIIGKTRVGAEVSDYLEDEFVKYISSGKSSSLYDAQGAPKEKTKNPWDARCKFKFDREEEIWIDFKAFKITNDSNPDIGTPNKIVKFIHEGNFYLVFVLVYYESKQDGVEFVKYNNDYKKVYLLKDVNESFRINPKPQQVNIAAEPTYRTREEFIHFFVKKWKESFERQIKSLEKKEILKDLEDKLKNSNDNSI NFKKYEENLVASIEEVIQRIIDDKHRPNIIGKTRVGAEVSDYLEDEFVKYISSGKSSSLYDAQGAPKEKTKNPWDARCKFKFDREEEIWIDFKAFKITNDSNPDIGTPNKIVKFIHEGNFYLVFVLVYYESKQDGVEFVKYNNDYKKVYLLKDVNESFRINPKPQQVNIAAEPTYRTREEFIHFFVKKWKESFERQIKSLEKKEILKDLEDKLKNSNDNSI 5th5-a2-m1-cB_5th5-a2-m1-cC Crystal Structure of QueE from Bacillus subtilis with 6-carboxypterin-5'-deoxyadenosyl ester bound O31677 O31677 2.407 X-RAY DIFFRACTION 96 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 241 241 5tgs-a1-m1-cA_5tgs-a1-m1-cB 5th5-a1-m1-cA_5th5-a1-m1-cD KGIPVLEIFGPTIQGEGMVIGQKTMFVRTAGCDYSCSWCDSAFTWDGSAKKDIRWMTAEEIFAELKDIGGDAFSHVTISGGNPALLKQLDAFIELLKENNIRAALETQGTVYQDWFTLIDDLTISPKPPSSKMVTNFQKLDHILTSLQENDRQHAVSLKVVIFNDEDLEFAKTVHKRYPGIPFYLQVGNDDVHTTDDQSLIAHLLGKYEALVDKVAVDAELNLVRVLPQLHTLLWGNKRGV KGIPVLEIFGPTIQGEGMVIGQKTMFVRTAGCDYSCSWCDSAFTWDGSAKKDIRWMTAEEIFAELKDIGGDAFSHVTISGGNPALLKQLDAFIELLKENNIRAALETQGTVYQDWFTLIDDLTISPKPPSSKMVTNFQKLDHILTSLQENDRQHAVSLKVVIFNDEDLEFAKTVHKRYPGIPFYLQVGNDDVHTTDDQSLIAHLLGKYEALVDKVAVDAELNLVRVLPQLHTLLWGNKRGV 5th7-a1-m1-cA_5th7-a1-m1-cB Complex of SETD8 with MS453 Q9NQR1 Q9NQR1 1.95 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 145 5t5g-a1-m1-cA_5t5g-a1-m2-cA 6boz-a1-m1-cB_6boz-a1-m1-cA KAELQSEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKSGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYG KAELQSEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKSGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDR 5thh-a1-m1-cA_5thh-a1-m2-cA Crystal structure of a human tyrosyl-tRNA synthetase mutant P54577 P54577 1.959 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 1n3l-a1-m1-cA_1n3l-a1-m2-cA 1q11-a1-m1-cA_1q11-a1-m2-cA 4q93-a1-m1-cA_4q93-a1-m2-cA 4qbt-a1-m1-cA_4qbt-a1-m2-cA 5thl-a1-m1-cA_5thl-a1-m2-cA 7rou-a1-m1-cA_7rou-a1-m2-cA APSPEEKLHLITRNLQEVLGEEKLKEILKERELKIYWGTATTGKPHVAYFVPMSKIADFLKAGCEVTILFADLHAYLDNMKAPWELLELRVSYYENVIKAMLESIGVPLEKLKFIKGTDYQLSKEYTLDVYRLSSVVTQHDSKKAGAEVVKQVEHPLLSGLLYPGLQALDEEYLKVDAQFGGIDQRKIFTFAKKYLPALGYSKRVHLMNPMVPGLTGKIDLLDRKEDVKKKLKKAFCEPGNVENNGVLSFIKHVLFPLKSEFVILRDEKWGGNKTYTAYVDLEKDFAAEVVHPGDLKNSVEVALNKLLDPIREKFNTPALKKLASAAYP APSPEEKLHLITRNLQEVLGEEKLKEILKERELKIYWGTATTGKPHVAYFVPMSKIADFLKAGCEVTILFADLHAYLDNMKAPWELLELRVSYYENVIKAMLESIGVPLEKLKFIKGTDYQLSKEYTLDVYRLSSVVTQHDSKKAGAEVVKQVEHPLLSGLLYPGLQALDEEYLKVDAQFGGIDQRKIFTFAKKYLPALGYSKRVHLMNPMVPGLTGKIDLLDRKEDVKKKLKKAFCEPGNVENNGVLSFIKHVLFPLKSEFVILRDEKWGGNKTYTAYVDLEKDFAAEVVHPGDLKNSVEVALNKLLDPIREKFNTPALKKLASAAYP 5thw-a2-m1-cD_5thw-a2-m1-cC Crystal structure of Amidase, hydantoinase/carbamoylase family from Burkholderia multivorans A0A0H3KRF1 A0A0H3KRF1 2.5 X-RAY DIFFRACTION 212 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 411 412 5i4m-a1-m1-cB_5i4m-a1-m1-cA 5thw-a1-m1-cA_5thw-a1-m1-cB PSIKVDGKRLWNSLMEMAKIGATPKGGVCRLALTDLDKAGRDLIVRWAKEAGCTVTVDTMGNVFMRRAGRVADAAPVVTGSHADSQPTGGRFDGIYGVLGGLEVIRSLNDHGIETEHPIEVVIWTNEEGSRFAPAMVASGVFAGVFTLEYGLSRKDVDGKTIGEELQRIGYAGDVPCGGRPLHAAFELHIEQGPILEAERKTIGVVTDAQGQRWYEITFTGQEAHAGPTPMPRRRDALLGASRVVDLVNRIGLDHAPFGCATVGMMQVHPNSRNVIPGRVFFTVDFRHPDDAVLAQMDAALRDGVARIAADIGLETALEQIFYYKPVAFDPACVQAVREAAERFGYPHRDIVSGAGHDACYLAQVAPTSMVFVPCVDGISHNEVEDATPEWIEAGANVLLHAMLSRACEPV DPSIKVDGKRLWNSLMEMAKIGATPKGGVCRLALTDLDKAGRDLIVRWAKEAGCTVTVDTMGNVFMRRAGRVADAAPVVTGSHADSQPTGGRFDGIYGVLGGLEVIRSLNDHGIETEHPIEVVIWTNEEGSRFAPAMVASGVFAGVFTLEYGLSRKDVDGKTIGEELQRIGYAGDVPCGGRPLHAAFELHIEQGPILEAERKTIGVVTDAQGQRWYEITFTGQEAHAGPTPMPRRRDALLGASRVVDLVNRIGLDHAPFGCATVGMMQVHPNSRNVIPGRVFFTVDFRHPDDAVLAQMDAALRDGVARIAADIGLETALEQIFYYKPVAFDPACVQAVREAAERFGYPHRDIVSGAGHDACYLAQVAPTSMVFVPCVDGISHNEVEDATPEWIEAGANVLLHAMLSRACEPV 5ti1-a1-m1-cA_5ti1-a1-m1-cB Crystal Structure of Fumarylacetoacetate hydrolase from Burkholderia xenovorans LB400 Q144Z1 Q144Z1 2 X-RAY DIFFRACTION 180 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 426 429 5ti1-a2-m1-cC_5ti1-a2-m1-cD 5ti1-a3-m1-cE_5ti1-a3-m1-cF 5ti1-a4-m1-cG_5ti1-a4-m1-cH SSDLQATLDPSRKSWVESANNPTGDFSIQNLPFGIFSDGLNATRRVGVAIGDSIVDLAALESAGLLSVPDSVFVRDALNDFIALGRDAWRSVRVQLSRLLSRDDATLRDDAELRGRALIRQADAQLHLPVQIPGYTDFYSSKEHATNVGSMFRDNALLPNWSEMPIGYNGRASSVVVSGTPVRRPNGQLKLPDQERPVFGACRKLDIELETGFVIGAGNALGEPVTCADAEAHIFGMVLLNDWSARDIQQWEYVPLGPFNAKTFATTISPWIVTLDALEPFRVAQPAQDPQPLAYLRHDGEHAFDITLEVTLRPQQAKEASTITRTNFKHMYWTMAQQLAHHTVSGCNTRVGDLMGSGTISGPTEDSFGSLLELTWNGKKPLELREGGTRSFIEDGDELTLAGWCQGEGYRVGFGVCAGEILPALK SSDLQATLDPSRKSWVESANNPTGDFSIQNLPFGIFSDGLNATRRVGVAIGDSIVDLAALESAGLLSVPSDSVFVRDALNDFIALGRDAWRSVRVQLSRLLSRDDATLRDDAELRGRALIRQADAQLHLPVQIPGYTDFYSSKEHATNVGSMFRDPKNALLPNWSEMPIGYNGRASSVVVSGTPVRRPNGQLKLPDQERPVFGACRKLDIELETGFVIGAGNALGEPVTCADAEAHIFGMVLLNDWSARDIQQWEYVPLGPFNAKTFATTISPWIVTLDALEPFRVAQPAQDPQPLAYLRHDGEHAFDITLEVTLRPQQAKEASTITRTNFKHMYWTMAQQLAHHTVSGCNTRVGDLMGSGTISGPTEDSFGSLLELTWNGKKPLELREGGTRSFIEDGDELTLAGWCQGEGYRVGFGVCAGEILPALK 5ti8-a1-m1-cB_5ti8-a1-m1-cA Crystal Structure of an aspartate aminotransferase from Pseudomonas W5IS25 W5IS25 2.07 X-RAY DIFFRACTION 183 1.0 95619 (Pseudomonas sp. M1) 95619 (Pseudomonas sp. M1) 384 387 RIITKAEGVYLWDSEGNKILDGMAGLWCMNVGYGRKELAEVAYKQMLELPYYNLFFQTAHPPALELAKAIADIAPEGMNHVFFTGSGSESNDTVLRMVRHYWSIKGKPQKKVVIGRWNPGIVHIAQPYWYGEGGDMSAEEFGVWAAEQLEKKILEVGEENVAAFIAEPIQGAGGVIVPPDTYWPKIREILAKYEILFIADEVICGFGRTGEWFGSQYYGNAPDLMPIAKGLTSGYIPMGGVIVRDEIVDTLNETYSGHPVAAAVALENIRILREEKIVETVKAETAPYLQKRWQELADHPLVGEARGVGMVGALELVKNKKTRERFENGVGMLCREHCFRNGLIMRAVGDTMIISPPLVITKPEIDELITLARKCLDQTAAVAL RIITKAEGVYLWDSEGNKILDGMAGLWCMNVGYGRKELAEVAYKQMLELPYYNLFFQTAHPPALELAKAIADIAPEGMNHVFFTGSGSESNDTVLRMVRHYWSIKGKPQKKVVIGRWNGPIPGIVHIAQPYWYGEGGDMSAEEFGVWAAEQLEKKILEVGEENVAAFIAEPIQGAGGVIVPPDTYWPKIREILAKYEILFIADEVICGFGRTGEWFGSQYYGNAPDLMPIAKGLTSGYIPMGGVIVRDEIVDTLNETYSGHPVAAAVALENIRILREEKIVETVKAETAPYLQKRWQELADHPLVGEARGVGMVGALELVKNKKTRERFENGVGMLCREHCFRNGLIMRAVGDTMIISPPLVITKPEIDELITLARKCLDQTAAVAL 5tia-a1-m1-cC_5tia-a1-m1-cD Crystal structure of human TDO in complex with Trp, Northeast Structural Genomics Consortium Target HR6161 P48775 P48775 2.441 X-RAY DIFFRACTION 160 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 349 GLIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLYRDNFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSKAGTGGSSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIHKFLEH GLIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQNMRVPYNRRHYRDNFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAEEKEEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSKAGTGGSSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIHKFLEH 5tj3-a2-m2-cA_5tj3-a2-m4-cA Crystal structure of wild type alkaline phosphatase PafA to 1.7A resolution Q9KJX5 Q9KJX5 1.7 X-RAY DIFFRACTION 108 1.0 238 (Elizabethkingia meningoseptica) 238 (Elizabethkingia meningoseptica) 519 519 5tj3-a2-m1-cA_5tj3-a2-m3-cA 5tj3-a2-m1-cA_5tj3-a2-m4-cA 5tj3-a2-m2-cA_5tj3-a2-m3-cA NAVPRPKLVVGLVVDQMRWDYLYRYYSKYGEGGFKRMLNTGYSLNNVHIDYVPTVAIGHTSIFTGSVPSIHGIAGNDWYDKELGKSVYCTSDETVQPVGTTSNSVGQHSPRNLWSTTVTDQLGLATNFTSKVVGVSLKDRASILPAGHNPTGAFWFDDTTGKFITSTYYTKELPKWVNDFNNKNVPAQLVANGWNTLLPINQYTESSEDNVEWEGLLGSKKTPTFPYTDLAKDYEAKKGLIRTTPFGNTLTLQMADAAIDGNQMGVDDITDFLTVNLASTDYVGHNFGPNSIEVEDTYLRLDRDLADFFNNLDKKVGKGNYLVFLSADHGAAHSVGFMQAHKMPTGFFDMKKEMNAKLKQKFGADNIIAAAMNYQVYFDRKVLADSKLELDDVRDYVMTELKKEPSVLYVLSTDEIWESSIPEPIKSRVINGYNWKRSGDIQIISKDGYLSAYSKKGTTHSVWNSYDSHIPLLFMGWGIKQGESNQPYHMTDIAPTVSSLLKIQFPSGAVGKPITEVIG NAVPRPKLVVGLVVDQMRWDYLYRYYSKYGEGGFKRMLNTGYSLNNVHIDYVPTVAIGHTSIFTGSVPSIHGIAGNDWYDKELGKSVYCTSDETVQPVGTTSNSVGQHSPRNLWSTTVTDQLGLATNFTSKVVGVSLKDRASILPAGHNPTGAFWFDDTTGKFITSTYYTKELPKWVNDFNNKNVPAQLVANGWNTLLPINQYTESSEDNVEWEGLLGSKKTPTFPYTDLAKDYEAKKGLIRTTPFGNTLTLQMADAAIDGNQMGVDDITDFLTVNLASTDYVGHNFGPNSIEVEDTYLRLDRDLADFFNNLDKKVGKGNYLVFLSADHGAAHSVGFMQAHKMPTGFFDMKKEMNAKLKQKFGADNIIAAAMNYQVYFDRKVLADSKLELDDVRDYVMTELKKEPSVLYVLSTDEIWESSIPEPIKSRVINGYNWKRSGDIQIISKDGYLSAYSKKGTTHSVWNSYDSHIPLLFMGWGIKQGESNQPYHMTDIAPTVSSLLKIQFPSGAVGKPITEVIG 5tjb-a1-m2-cA_5tjb-a1-m4-cA I-II linker of TRPML1 channel at pH 4.5 Q9GZU1 Q9GZU1 2.4 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 156 156 5tjb-a1-m1-cA_5tjb-a1-m3-cA 5tjb-a1-m1-cA_5tjb-a1-m4-cA 5tjb-a1-m2-cA_5tjb-a1-m3-cA QLAVTFREENTIAFRHLFLLGYSDGADDTFAAYTREQLYQAIFHAVDQYLALPDVSLGRYAYVRGLALCQRYYHMVVTDCIQVDPPESSYKNLTLKFHKLVNVTIHFRLKTINLQSLINNEIPDCYTFSVLITFDNKAHSGRIPISLETQAHIQEC QLAVTFREENTIAFRHLFLLGYSDGADDTFAAYTREQLYQAIFHAVDQYLALPDVSLGRYAYVRGLALCQRYYHMVVTDCIQVDPPESSYKNLTLKFHKLVNVTIHFRLKTINLQSLINNEIPDCYTFSVLITFDNKAHSGRIPISLETQAHIQEC 5tjj-a1-m1-cB_5tjj-a1-m1-cA Crystal structure of IcIR transcriptional regulator from Alicyclobacillus acidocaldarius C8WQP8 C8WQP8 2.5 X-RAY DIFFRACTION 166 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 248 251 YQVPSVALAARVLKLLSRHKYRQSTLTEIAERLGVNKTTCLRVLRTLEREDFVSYDPQSRRYSLGPYLIPLGARAADLNDVYAHALAELHQVAAHTGTAVLVKRLRDDRVIYIGSAEPPGDGVRIAVSVGQQFPVYGAAFGRCFLAYDDESTWRRVLREGLKAYTPNSITDEEEYVRLLQEVREKGYAVSHGELWPGISAVAVPVFNQQNKVDLVLSCLTTSVIQGEDVERAVKALKESAAKVSAWSG DYQVPSVALAARVLKLLSRHKYRQSTLTEIAERLGVNKTTCLRVLRTLEREDFVSYDPQSRRYSLGPYLIPLGARAADLNDVYAHALAELHQVAAHTGTAVLVKRLRDDRVIYIGSAEPPGDGVRIAVSVGQQFPVYGAAFGRCFLAYDDESTWRRVLREGLKAYTPNSITDEEEYVRLLQEVREKGYAVSHGELWPGISAVAVPVFNQQNKVDLVLSCLTTSVIQGEDVERAVKALKESAAKVSAWSGYQ 5tjl-a2-m1-cA_5tjl-a2-m2-cA Crystal structure of GTA + A trisaccharide (mercury derivative) P16442 P16442 1.89 X-RAY DIFFRACTION 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 259 1lz0-a2-m1-cA_1lz0-a2-m2-cA 1lz7-a2-m1-cA_1lz7-a2-m2-cA 1lzi-a2-m1-cA_1lzi-a2-m2-cA 1lzj-a2-m1-cA_1lzj-a2-m2-cA 1r7t-a2-m1-cA_1r7t-a2-m2-cA 1r7u-a2-m1-cA_1r7u-a2-m2-cA 1r7v-a2-m1-cA_1r7v-a2-m2-cA 1r7x-a2-m1-cA_1r7x-a2-m2-cA 1r7y-a2-m1-cA_1r7y-a2-m2-cA 1r80-a2-m1-cA_1r80-a2-m2-cA 1r81-a2-m1-cA_1r81-a2-m2-cA 1r82-a2-m1-cA_1r82-a2-m2-cA 1wsz-a2-m1-cA_1wsz-a2-m2-cA 1wt0-a2-m1-cA_1wt0-a2-m2-cA 1wt1-a2-m1-cA_1wt1-a2-m2-cA 1wt2-a2-m1-cA_1wt2-a2-m2-cA 1wt3-a2-m1-cA_1wt3-a2-m2-cA 1xz6-a2-m1-cA_1xz6-a2-m2-cA 1zhj-a2-m1-cA_1zhj-a2-m2-cA 1zi1-a2-m1-cA_1zi1-a2-m2-cA 1zi3-a2-m1-cA_1zi3-a2-m2-cA 1zi4-a2-m1-cA_1zi4-a2-m2-cA 1zi5-a2-m1-cA_1zi5-a2-m2-cA 1ziz-a2-m1-cA_1ziz-a2-m2-cA 1zj0-a2-m1-cA_1zj0-a2-m2-cA 1zj1-a2-m1-cA_1zj1-a2-m2-cA 1zj2-a2-m1-cA_1zj2-a2-m2-cA 1zj3-a2-m1-cA_1zj3-a2-m2-cA 1zjo-a2-m1-cA_1zjo-a2-m2-cA 1zjp-a2-m1-cA_1zjp-a2-m2-cA 2a8u-a2-m1-cA_2a8u-a2-m2-cA 2a8w-a2-m1-cA_2a8w-a2-m2-cA 2i7b-a2-m1-cA_2i7b-a2-m2-cA 2o1f-a2-m1-cA_2o1f-a2-m2-cA 2o1g-a2-m1-cA_2o1g-a2-m2-cA 2o1h-a2-m1-cA_2o1h-a2-m2-cA 2pgv-a1-m1-cA_2pgv-a1-m2-cA 2pgy-a1-m1-cA_2pgy-a1-m2-cA 2rit-a2-m1-cA_2rit-a2-m2-cA 2rix-a2-m1-cA_2rix-a2-m2-cA 2riy-a2-m1-cA_2riy-a2-m2-cA 2riz-a2-m1-cA_2riz-a2-m2-cA 2rj0-a2-m1-cA_2rj0-a2-m2-cA 2rj1-a2-m1-cA_2rj1-a2-m2-cA 2rj4-a2-m1-cA_2rj4-a2-m2-cA 2rj5-a2-m1-cA_2rj5-a2-m2-cA 2rj6-a2-m1-cA_2rj6-a2-m2-cA 2rj7-a2-m1-cA_2rj7-a2-m2-cA 2rj8-a2-m1-cA_2rj8-a2-m2-cA 2rj9-a2-m1-cA_2rj9-a2-m2-cA 2y7a-a1-m1-cB_2y7a-a1-m1-cA 2y7a-a2-m1-cC_2y7a-a2-m2-cD 2y7a-a3-m3-cC_2y7a-a3-m1-cD 3i0c-a1-m1-cA_3i0c-a1-m2-cA 3i0d-a1-m1-cA_3i0d-a1-m2-cA 3i0e-a1-m1-cA_3i0e-a1-m2-cA 3i0f-a1-m1-cA_3i0f-a1-m2-cA 3i0g-a1-m1-cA_3i0g-a1-m2-cA 3i0h-a1-m1-cA_3i0h-a1-m2-cA 3i0i-a1-m1-cX_3i0i-a1-m2-cX 3i0j-a1-m1-cA_3i0j-a1-m2-cA 3i0k-a1-m1-cA_3i0k-a1-m2-cA 3i0l-a1-m1-cA_3i0l-a1-m2-cA 3ioh-a1-m1-cA_3ioh-a1-m2-cA 3ioi-a1-m1-cA_3ioi-a1-m2-cA 3ioj-a1-m1-cA_3ioj-a1-m1-cB 3sx3-a2-m1-cA_3sx3-a2-m2-cA 3sx5-a2-m1-cA_3sx5-a2-m2-cA 3sx7-a2-m1-cA_3sx7-a2-m2-cA 3sx8-a2-m1-cA_3sx8-a2-m2-cA 3sxa-a2-m1-cA_3sxa-a2-m2-cA 3sxb-a2-m1-cA_3sxb-a2-m2-cA 3sxc-a2-m1-cA_3sxc-a2-m2-cA 3sxd-a2-m1-cA_3sxd-a2-m2-cA 3sxe-a2-m1-cA_3sxe-a2-m2-cA 3sxg-a2-m1-cA_3sxg-a2-m2-cA 3u0x-a1-m1-cB_3u0x-a1-m1-cA 3u0y-a1-m1-cB_3u0y-a1-m1-cA 3v0l-a1-m1-cA_3v0l-a1-m2-cA 3v0m-a1-m1-cB_3v0m-a1-m1-cA 3v0n-a1-m1-cA_3v0n-a1-m1-cB 3v0o-a1-m1-cB_3v0o-a1-m1-cA 3v0p-a1-m1-cB_3v0p-a1-m1-cA 3v0q-a1-m1-cA_3v0q-a1-m1-cB 3zgf-a1-m1-cB_3zgf-a1-m1-cA 3zgg-a1-m1-cA_3zgg-a1-m2-cA 4c2s-a1-m1-cB_4c2s-a1-m1-cA 4fqw-a1-m1-cA_4fqw-a1-m2-cA 4fra-a1-m1-cA_4fra-a1-m2-cA 4frb-a1-m1-cA_4frb-a1-m2-cA 4frd-a1-m1-cA_4frd-a1-m2-cA 4fre-a1-m1-cA_4fre-a1-m2-cA 4frh-a1-m1-cA_4frh-a1-m2-cA 4frl-a1-m1-cA_4frl-a1-m2-cA 4frm-a1-m1-cA_4frm-a1-m2-cA 4fro-a1-m1-cA_4fro-a1-m2-cA 4frp-a1-m1-cA_4frp-a1-m2-cA 4frq-a1-m1-cA_4frq-a1-m2-cA 4gbp-a2-m1-cA_4gbp-a2-m2-cA 4kc1-a1-m1-cA_4kc1-a1-m2-cA 4kc2-a1-m1-cA_4kc2-a1-m2-cA 4kc4-a1-m1-cA_4kc4-a1-m2-cA 4kxo-a2-m1-cA_4kxo-a2-m2-cA 5bxc-a1-m1-cA_5bxc-a1-m2-cA 5c1g-a1-m1-cA_5c1g-a1-m2-cA 5c1h-a1-m1-cA_5c1h-a1-m2-cA 5c1l-a1-m1-cA_5c1l-a1-m2-cA 5c36-a1-m1-cA_5c36-a1-m2-cA 5c38-a1-m1-cA_5c38-a1-m2-cA 5c3a-a1-m1-cA_5c3a-a1-m2-cA 5c3b-a1-m1-cA_5c3b-a1-m2-cA 5c3d-a1-m1-cA_5c3d-a1-m2-cA 5c47-a1-m1-cA_5c47-a1-m2-cA 5c48-a1-m1-cA_5c48-a1-m2-cA 5c49-a1-m1-cA_5c49-a1-m2-cA 5c4b-a1-m1-cA_5c4b-a1-m2-cA 5c4c-a1-m1-cA_5c4c-a1-m2-cA 5c4d-a1-m1-cA_5c4d-a1-m2-cA 5c4e-a1-m1-cA_5c4e-a1-m2-cA 5c4f-a1-m1-cA_5c4f-a1-m2-cA 5c8r-a1-m1-cA_5c8r-a1-m2-cA 5m79-a1-m1-cA_5m79-a1-m2-cA 5m7a-a1-m1-cA_5m7a-a1-m2-cA 5m7b-a1-m1-cA_5m7b-a1-m2-cA 5m7c-a1-m1-cA_5m7c-a1-m1-cB 5m7d-a1-m1-cA_5m7d-a1-m2-cA 5tjk-a2-m1-cA_5tjk-a2-m2-cA 5tjn-a2-m1-cA_5tjn-a2-m2-cA 5tjo-a2-m1-cA_5tjo-a2-m2-cA 6bji-a2-m1-cA_6bji-a2-m2-cA 6bjj-a2-m1-cA_6bjj-a2-m2-cA 6bjk-a2-m1-cA_6bjk-a2-m2-cA 6bjl-a2-m1-cA_6bjl-a2-m2-cA 6bjm-a2-m1-cA_6bjm-a2-m2-cA 6gwy-a1-m1-cA_6gwy-a1-m2-cA 6gwz-a1-m1-cA_6gwz-a1-m2-cA 6gx0-a1-m1-cA_6gx0-a1-m2-cA 6gx1-a1-m1-cA_6gx1-a1-m2-cA 6gx2-a1-m1-cA_6gx2-a1-m2-cA VSLPRMVYPQPKVLTPCRKDVLVVTPWLAPIVWEGTFNIDILNEQFRLQNTTIGLTVFAIKKYVAFLKLFLETAEKHFMVGHRVHYYVFTDQPAAVPRVTLGTGRQLSVLEVRRFLSEVDYLVCVDVDMEFRDHVGVEILTPLFGTLHPGFYGSSREAFTYERRPQSQAYIPKDEGDFYYLGGFFGGSVQEVQRLTRACQAMMVDQANGIEAVWHDESHLNKYLLRHKPTKVLSPEYLWDQQLLGWPAVLRKLRFTAVP VSLPRMVYPQPKVLTPCRKDVLVVTPWLAPIVWEGTFNIDILNEQFRLQNTTIGLTVFAIKKYVAFLKLFLETAEKHFMVGHRVHYYVFTDQPAAVPRVTLGTGRQLSVLEVRRFLSEVDYLVCVDVDMEFRDHVGVEILTPLFGTLHPGFYGSSREAFTYERRPQSQAYIPKDEGDFYYLGGFFGGSVQEVQRLTRACQAMMVDQANGIEAVWHDESHLNKYLLRHKPTKVLSPEYLWDQQLLGWPAVLRKLRFTAVP 5tk8-a1-m1-cA_5tk8-a1-m2-cA Structure of the HD-domain phosphohydrolase OxsA with Oxetanocin-A monophosphate bound O24769 O24769 1.64 X-RAY DIFFRACTION 142 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 191 191 5tk6-a1-m1-cA_5tk6-a1-m2-cA 5tk7-a1-m1-cA_5tk7-a1-m2-cA 5tk9-a1-m1-cA_5tk9-a1-m2-cA SSLLDIIYQLRQVPRWDGSFQFEKEDVSQHSFSVIAISHILCELKETLEGKKINKEKLLLYALYHDVTEVVSTHIISPVKKNSILKDPFNAFREQIKNSLFDNLPITLSDTLSTILNNNDLEIQEIVEHADHVDAYCKSCIEVHRGNKDFISIQRSLGDKLDNLTKEYPYLKEFQNLFLKDFPLENKNYRY SSLLDIIYQLRQVPRWDGSFQFEKEDVSQHSFSVIAISHILCELKETLEGKKINKEKLLLYALYHDVTEVVSTHIISPVKKNSILKDPFNAFREQIKNSLFDNLPITLSDTLSTILNNNDLEIQEIVEHADHVDAYCKSCIEVHRGNKDFISIQRSLGDKLDNLTKEYPYLKEFQNLFLKDFPLENKNYRY 5tka-a1-m1-cA_5tka-a1-m2-cA Structure of the HD-domain phosphohydrolase OxsA O24769 O24769 2.048 X-RAY DIFFRACTION 156 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 167 167 SSLLDIIYQLRQVPRWDGSFQFEKEDVSQHSFSVIAISHILCELKETLEGKKINKEKLLLYALYHDVTEVVSTHKNSLFDNLPITLSDTLSTILNNNDLEIQEIVEHADHVDAYCKSCIEVHRGNKDFISIQRSLGDKLDNLTKEYPYLKEFQNLFLKDFPLENKNY SSLLDIIYQLRQVPRWDGSFQFEKEDVSQHSFSVIAISHILCELKETLEGKKINKEKLLLYALYHDVTEVVSTHKNSLFDNLPITLSDTLSTILNNNDLEIQEIVEHADHVDAYCKSCIEVHRGNKDFISIQRSLGDKLDNLTKEYPYLKEFQNLFLKDFPLENKNY 5tkw-a1-m1-cA_5tkw-a1-m2-cA 1.35 Angstrom Resolution Crystal Structure of a Pullulanase-specific Type II Secretion System Integral Cytoplasmic Membrane Protein GspL (N-terminal fragment; residues 1-237) from Klebsiella pneumoniae. 1.35 X-RAY DIFFRACTION 87 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 233 233 NKINASPQALIVRLAAAQAPLHWQLFAPGEPHHEASGRWPTDDASPFPALAEQYPAWVLIPASDCAFHSLTLPAGLRKPPLQVAPFLLEEQLADDVEATHFALLHRQQAQCEIVAVQRQKRDWLARCESLSLQPLALTPDVLALPWQPPAWSAVQVDEQWLIRHQPWGGAAENVWLTELLQSEAEEHVIDSYSPPPAAPGVWREQPAQTLLTLAARHPAAQKLSLLQGEFAVR NKINASPQALIVRLAAAQAPLHWQLFAPGEPHHEASGRWPTDDASPFPALAEQYPAWVLIPASDCAFHSLTLPAGLRKPPLQVAPFLLEEQLADDVEATHFALLHRQQAQCEIVAVQRQKRDWLARCESLSLQPLALTPDVLALPWQPPAWSAVQVDEQWLIRHQPWGGAAENVWLTELLQSEAEEHVIDSYSPPPAAPGVWREQPAQTLLTLAARHPAAQKLSLLQGEFAVR 5tky-a1-m1-cB_5tky-a1-m1-cA Crystal structure of the co-translational Hsp70 chaperone Ssb in the ATP-bound, open conformation G0SCU5 G0SCU5 2.6 X-RAY DIFFRACTION 72 0.995 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 591 597 EVYDGAIGIDLGTTYSCVAVYEGTNVEIIANEQGNFTTPSFVSFTENCRLIGEAAKNQAAMNPANTIFDVKRLIGRRFDDPTVKKDMESWPFKVVDDNGNPKVEVQYLGQTHTFSPQEISAMVLTKMKEIAETKLGKKVEKAVITVPAYFNDNQRQATKDAGAIAGLNVLRIINEPTAAAIAYGLGSGKSDKERNVLIYDLGGGAFDVSLLNIQGGVFTVKATAGDTHLGGQDFDTNLLEYCKKEFTRKTKKDLSGDARALRRLRTACERAKRTLSSGAQTTIEIDSLFDGEDFNIQITRARFEDLNAKAFAGTLEPVAQVLKDAGIEKHQVDEIVLVGGSTRIPRIQKLLSEFFDGKKLEKSINPDEAVAYGAAVQAGILSGKDTSDLLLLDVVPLSLGVAMEGNIFAPVVPRGQTVPTIKKRTFTTVATVQFPVYQGERVNCEDNTLLGEFTLAPIPPMKAGEPVLEVVFEVDVNGILKVTATEKTSGRSANITIANSVGKLSTDEIEKMISDAEKFKSKCEAFSKRFEAKQQLESYISRVEEIISGQKDKIEQALSEAMAQLEIEDSTADELKKKELALKRLVTKAMA EVYDGAIGIDLGTTYSCVAVYEGTNVEIIANEQGNFTTPSFVSFTENCRLIGEAAKNQAAMNPANTIFDVKRLIGRRFDDPTVKKDMESWPFKVVDDNGNPKVEVQYLGQTHTFSPQEISAMVLTKMKEIAETKLGKKVEKAVITVPAYFNDNQRQATKDAGAIAGLNVLRIINEPTAAAIAYGLGSGKSDKERNVLIYDLGGGAFDVSLLNIQGGVFTVKATAGDTHLGGQDFDTNLLEYCKKEFTRKTKKDLSGDARALRRLRTACERAKRTLSSGAQTTIEIDSLFDGEDFNIQITRARFEDLNAKAFAGTLEPVAQVLKDAGIEKHQVDEIVLVGGSTRIPRIQKLLSEFFDGKKLEKSINPDEAVAYGAAVQAGILSGKATSADDLLLLDVVPLSLGVAMEGNIFAPVVPRGQTVPTIKKRTFTTVADNQQTVQFPVYQGERVNCEDNTLLGEFTLAPIPPMKAGEPVLEVVFEVDVNGILKVTATEKTSGRSANITIANSVGKLSTDEIEKMISDAEKFKSKCEAFSKRFEAKQQLESYISRVEEIISDKDKIEQALSEAMAQLEIEDSTADELKKKELALKRLVTKAMAS 5tkz-a1-m1-cA_5tkz-a1-m1-cB MEC-8 N-terminal RRM bound to tandem GCAC ligand G5ECJ4 G5ECJ4 1.529 X-RAY DIFFRACTION 26 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 89 89 QVRTLFVSGLPMDAKPRELYLLFRGARGYEGALLKMTSKNGKPTSPVGFVTFLSQQDAQDARKMLQGVRFDPEAAQVLRLELAKSNTKV QVRTLFVSGLPMDAKPRELYLLFRGARGYEGALLKMTSKNGKPTSPVGFVTFLSQQDAQDARKMLQGVRFDPEAAQVLRLELAKSNTKV 5tmx-a1-m1-cA_5tmx-a1-m1-cB Solution Structure of SinI, antagonist to the master biofilm-regulator SinR in Bacillus subtilis P23308 P23308 NOT SOLUTION NMR 70 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 63 63 GSHMASMKNAKQEHFELDQEWVELMVEAKEANISPEEIRKYLLLNKKSAHPGPAARSHTVNPF GSHMASMKNAKQEHFELDQEWVELMVEAKEANISPEEIRKYLLLNKKSAHPGPAARSHTVNPF 5tn2-a1-m1-cB_5tn2-a1-m1-cC Solution Structure of the C-terminal multimerization domain of the master biofilm-regulator SinR from Bacillus subtilis P06533 P06533 NOT SOLUTION NMR 15 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 47 47 GSHMEYDGQLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQKEE GSHMEYDGQLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQKEE 5tn2-a1-m1-cC_5tn2-a1-m1-cD Solution Structure of the C-terminal multimerization domain of the master biofilm-regulator SinR from Bacillus subtilis P06533 P06533 NOT SOLUTION NMR 94 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 47 47 5tn2-a1-m1-cA_5tn2-a1-m1-cB GSHMEYDGQLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQKEE GSHMEYDGQLDSEWEKLVRDAMTSGVSKKQFREFLDYQKWRKSQKEE 5tnq-a2-m1-cA_5tnq-a2-m1-cB Crystal structure of the E153Q mutant of the CFTR inhibitory factor Cif containing the adducted (R)-Styrene oxide hydrolysis intermediate A0A0H2ZD27 A0A0H2ZD27 1.5 X-RAY DIFFRACTION 100 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 293 293 3kd2-a1-m1-cA_3kd2-a1-m1-cB 3kd2-a2-m1-cC_3kd2-a2-m1-cD 3kda-a1-m1-cC_3kda-a1-m1-cD 3kda-a2-m1-cA_3kda-a2-m1-cB 3pi6-a1-m1-cB_3pi6-a1-m1-cA 3pi6-a2-m1-cC_3pi6-a2-m1-cD 4dln-a1-m1-cA_4dln-a1-m1-cB 4dln-a2-m1-cD_4dln-a2-m1-cC 4dm7-a1-m1-cB_4dm7-a1-m1-cA 4dm7-a2-m1-cD_4dm7-a2-m1-cC 4dmc-a1-m1-cA_4dmc-a1-m1-cB 4dmc-a2-m1-cC_4dmc-a2-m1-cD 4dmf-a1-m1-cA_4dmf-a1-m1-cB 4dmf-a2-m1-cC_4dmf-a2-m1-cD 4dmh-a1-m1-cB_4dmh-a1-m1-cA 4dmh-a2-m1-cC_4dmh-a2-m1-cD 4dmk-a1-m1-cA_4dmk-a1-m1-cB 4dmk-a2-m1-cD_4dmk-a2-m1-cC 4dnf-a1-m1-cA_4dnf-a1-m1-cB 4dnf-a2-m1-cC_4dnf-a2-m1-cD 4dno-a1-m1-cB_4dno-a1-m1-cA 4dno-a2-m1-cD_4dno-a2-m1-cC 4ehb-a1-m1-cA_4ehb-a1-m1-cB 4ehb-a2-m1-cC_4ehb-a2-m1-cD 4eus-a1-m1-cA_4eus-a1-m1-cB 4eus-a2-m1-cC_4eus-a2-m1-cD 4yx9-a1-m1-cA_4yx9-a1-m1-cB 4yx9-a2-m1-cC_4yx9-a2-m1-cD 5hk9-a1-m1-cA_5hk9-a1-m1-cB 5hk9-a2-m1-cC_5hk9-a2-m1-cD 5hka-a1-m1-cB_5hka-a1-m1-cA 5hka-a2-m1-cC_5hka-a2-m1-cD 5hkb-a1-m1-cA_5hkb-a1-m1-cB 5hkb-a2-m1-cC_5hkb-a2-m1-cD 5jyc-a1-m1-cA_5jyc-a1-m1-cB 5jyc-a2-m1-cC_5jyc-a2-m1-cD 5tnd-a1-m1-cC_5tnd-a1-m1-cD 5tnd-a2-m1-cA_5tnd-a2-m1-cB 5tne-a1-m1-cB_5tne-a1-m1-cA 5tne-a2-m1-cD_5tne-a2-m1-cC 5tnf-a1-m1-cA_5tnf-a1-m1-cB 5tnf-a2-m1-cC_5tnf-a2-m1-cD 5tng-a1-m1-cB_5tng-a1-m1-cA 5tng-a2-m1-cC_5tng-a2-m1-cD 5tnh-a1-m1-cC_5tnh-a1-m1-cD 5tnh-a2-m1-cA_5tnh-a2-m1-cB 5tni-a1-m1-cB_5tni-a1-m1-cA 5tni-a2-m1-cC_5tni-a2-m1-cD 5tnj-a1-m1-cB_5tnj-a1-m1-cA 5tnj-a2-m1-cC_5tnj-a2-m1-cD 5tnk-a1-m1-cB_5tnk-a1-m1-cA 5tnk-a2-m1-cC_5tnk-a2-m1-cD 5tnl-a1-m1-cA_5tnl-a1-m1-cB 5tnl-a2-m1-cC_5tnl-a2-m1-cD 5tnm-a1-m1-cA_5tnm-a1-m1-cB 5tnm-a2-m1-cC_5tnm-a2-m1-cD 5tnn-a1-m1-cA_5tnn-a1-m1-cB 5tnn-a2-m1-cC_5tnn-a2-m1-cD 5tnp-a1-m1-cA_5tnp-a1-m1-cB 5tnp-a2-m1-cC_5tnp-a2-m1-cD 5tnq-a1-m1-cC_5tnq-a1-m1-cD 5tnr-a1-m1-cC_5tnr-a1-m1-cD 5tnr-a2-m1-cA_5tnr-a2-m1-cB 5tns-a1-m1-cA_5tns-a1-m1-cB 5tns-a2-m1-cC_5tns-a2-m1-cD AEEFPVPNGFESAYREVDGVKLHYVKGGQGPLVMLVHGFGQTWYEWHQLMPELAKRFTVIAPDLPGLGQSEPPKTGYSGEQVAVYLHKLARQFSPDRPFDLVAHDIGIWNTYPMVVKNQADIARLVYMQAPIPDARIYRFPAFTAQGESLVWHFSFFAADDRLAETLIAGKERFFLEHFIKSHASNTEVFSERLLDLYARSYAKPHSLNASFEYYRALNESVRQNAELAKTRLQMPTMTLAGGGHGGMGTFQLEQMKAYAEDVEGHVLPGCGHWLPEECAAPMNRLVIDFLSR AEEFPVPNGFESAYREVDGVKLHYVKGGQGPLVMLVHGFGQTWYEWHQLMPELAKRFTVIAPDLPGLGQSEPPKTGYSGEQVAVYLHKLARQFSPDRPFDLVAHDIGIWNTYPMVVKNQADIARLVYMQAPIPDARIYRFPAFTAQGESLVWHFSFFAADDRLAETLIAGKERFFLEHFIKSHASNTEVFSERLLDLYARSYAKPHSLNASFEYYRALNESVRQNAELAKTRLQMPTMTLAGGGHGGMGTFQLEQMKAYAEDVEGHVLPGCGHWLPEECAAPMNRLVIDFLSR 5tnv-a1-m2-cA_5tnv-a1-m3-cA Crystal Structure of a Xylose isomerase-like TIM barrel Protein from Mycobacterium smegmatis in Complex with Magnesium A0R760 A0R760 1.04 X-RAY DIFFRACTION 67 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 306 306 5tnv-a1-m1-cA_5tnv-a1-m2-cA 5tnv-a1-m1-cA_5tnv-a1-m3-cA MYSAHTWPIAANMLGFGNRAPDGGHIKDAPAGVWAKQLRQVRELGFDHIDPTDAWVPLAALSDSRIEEFRTVLADEGLAISSISMTRSSIVDVENGEKNLADAHRLIDLAPSFGATIVNTGFMQALTPEQEKQIWFWLVQGHVDDPALRDLAIERVRELGDHARTNGIQLSLEMYEDTYIGTPDDAVAFIKDVDHDAVGLNPDLGNLVRLHRPMPHPSEMYAKVLPYSNFWHIKNYSRDFDPATGAYSSAPLPLKYGYVNYRQIIRLALELGYTGPFCCEHYGSDSLGVCAENREYILQVLTSALA MYSAHTWPIAANMLGFGNRAPDGGHIKDAPAGVWAKQLRQVRELGFDHIDPTDAWVPLAALSDSRIEEFRTVLADEGLAISSISMTRSSIVDVENGEKNLADAHRLIDLAPSFGATIVNTGFMQALTPEQEKQIWFWLVQGHVDDPALRDLAIERVRELGDHARTNGIQLSLEMYEDTYIGTPDDAVAFIKDVDHDAVGLNPDLGNLVRLHRPMPHPSEMYAKVLPYSNFWHIKNYSRDFDPATGAYSSAPLPLKYGYVNYRQIIRLALELGYTGPFCCEHYGSDSLGVCAENREYILQVLTSALA 5tnx-a1-m1-cA_5tnx-a1-m4-cA Crystal structure of Alcohol dehydrogenase zinc-binding domain protein from Burkholderia ambifaria B1Z4S6 B1Z4S6 1.7 X-RAY DIFFRACTION 43 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 370 370 5tnx-a1-m2-cA_5tnx-a1-m3-cA DTRAVTAAVARAAGAPFSIEPARIRAPRGDEVLVRVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEAVGPNVKTLAAGDHVVLTYGACGHCASCAGGHGAYCRQFFALNFGGADADGQTALRDAAGEPLHDHFFAQSSFASYALARENNAIKVPKEAPLELLGPLGCGIQTGAGAVINSLAVRTGSSFASFGAGAVGMSAVMAARIAGATTIIAVDIVPSRLALALELGATHAINSKEVDVVDAIREITGGGVDYALESTGLPAVLSQGIDALGSRGTMGVVGAPKLGTKAEFDVNSLLLGGHTIRGIVEGDSVPQTFIPQLVQLHLQGRFPFDRLVKFYPLEQINQAAADSSSGITLKPILRLPH DTRAVTAAVARAAGAPFSIEPARIRAPRGDEVLVRVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEAVGPNVKTLAAGDHVVLTYGACGHCASCAGGHGAYCRQFFALNFGGADADGQTALRDAAGEPLHDHFFAQSSFASYALARENNAIKVPKEAPLELLGPLGCGIQTGAGAVINSLAVRTGSSFASFGAGAVGMSAVMAARIAGATTIIAVDIVPSRLALALELGATHAINSKEVDVVDAIREITGGGVDYALESTGLPAVLSQGIDALGSRGTMGVVGAPKLGTKAEFDVNSLLLGGHTIRGIVEGDSVPQTFIPQLVQLHLQGRFPFDRLVKFYPLEQINQAAADSSSGITLKPILRLPH 5tnx-a1-m2-cA_5tnx-a1-m4-cA Crystal structure of Alcohol dehydrogenase zinc-binding domain protein from Burkholderia ambifaria B1Z4S6 B1Z4S6 1.7 X-RAY DIFFRACTION 114 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 370 370 5tnx-a1-m1-cA_5tnx-a1-m3-cA DTRAVTAAVARAAGAPFSIEPARIRAPRGDEVLVRVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEAVGPNVKTLAAGDHVVLTYGACGHCASCAGGHGAYCRQFFALNFGGADADGQTALRDAAGEPLHDHFFAQSSFASYALARENNAIKVPKEAPLELLGPLGCGIQTGAGAVINSLAVRTGSSFASFGAGAVGMSAVMAARIAGATTIIAVDIVPSRLALALELGATHAINSKEVDVVDAIREITGGGVDYALESTGLPAVLSQGIDALGSRGTMGVVGAPKLGTKAEFDVNSLLLGGHTIRGIVEGDSVPQTFIPQLVQLHLQGRFPFDRLVKFYPLEQINQAAADSSSGITLKPILRLPH DTRAVTAAVARAAGAPFSIEPARIRAPRGDEVLVRVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEAVGPNVKTLAAGDHVVLTYGACGHCASCAGGHGAYCRQFFALNFGGADADGQTALRDAAGEPLHDHFFAQSSFASYALARENNAIKVPKEAPLELLGPLGCGIQTGAGAVINSLAVRTGSSFASFGAGAVGMSAVMAARIAGATTIIAVDIVPSRLALALELGATHAINSKEVDVVDAIREITGGGVDYALESTGLPAVLSQGIDALGSRGTMGVVGAPKLGTKAEFDVNSLLLGGHTIRGIVEGDSVPQTFIPQLVQLHLQGRFPFDRLVKFYPLEQINQAAADSSSGITLKPILRLPH 5tnx-a1-m3-cA_5tnx-a1-m4-cA Crystal structure of Alcohol dehydrogenase zinc-binding domain protein from Burkholderia ambifaria B1Z4S6 B1Z4S6 1.7 X-RAY DIFFRACTION 40 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 370 370 5tnx-a1-m1-cA_5tnx-a1-m2-cA DTRAVTAAVARAAGAPFSIEPARIRAPRGDEVLVRVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEAVGPNVKTLAAGDHVVLTYGACGHCASCAGGHGAYCRQFFALNFGGADADGQTALRDAAGEPLHDHFFAQSSFASYALARENNAIKVPKEAPLELLGPLGCGIQTGAGAVINSLAVRTGSSFASFGAGAVGMSAVMAARIAGATTIIAVDIVPSRLALALELGATHAINSKEVDVVDAIREITGGGVDYALESTGLPAVLSQGIDALGSRGTMGVVGAPKLGTKAEFDVNSLLLGGHTIRGIVEGDSVPQTFIPQLVQLHLQGRFPFDRLVKFYPLEQINQAAADSSSGITLKPILRLPH DTRAVTAAVARAAGAPFSIEPARIRAPRGDEVLVRVVATGLCHTDLIVRDQYYPVPLPAVLGHEGAGVVEAVGPNVKTLAAGDHVVLTYGACGHCASCAGGHGAYCRQFFALNFGGADADGQTALRDAAGEPLHDHFFAQSSFASYALARENNAIKVPKEAPLELLGPLGCGIQTGAGAVINSLAVRTGSSFASFGAGAVGMSAVMAARIAGATTIIAVDIVPSRLALALELGATHAINSKEVDVVDAIREITGGGVDYALESTGLPAVLSQGIDALGSRGTMGVVGAPKLGTKAEFDVNSLLLGGHTIRGIVEGDSVPQTFIPQLVQLHLQGRFPFDRLVKFYPLEQINQAAADSSSGITLKPILRLPH 5to5-a1-m1-cB_5to5-a1-m1-cA Structure of the TPR oligomerization domain P12270 P12270 2.5 X-RAY DIFFRACTION 185 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 141 5tvb-a1-m1-cA_5tvb-a1-m1-cB AVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYMEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQMTRTKEELEAEKRDLIRTNERLSQELEYLT AAVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYMEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQMTRTKEELEAEKRDLIRTNERLSQELEYLT 5to6-a1-m1-cB_5to6-a1-m1-cD Structure of the TPR oligomerization domain P12270 P12270 2.7 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 140 AVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQFTRTKEELEAEKRDLIRTNERLSQELEYL AVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQFTRTKEELEAEKRDLIRTNERLSQELEYLT 5to6-a1-m1-cC_5to6-a1-m1-cA Structure of the TPR oligomerization domain P12270 P12270 2.7 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 141 AVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQFTRTKEELEAEKRDLIRTNERLSQELEYLT AAVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQFTRTKEELEAEKRDLIRTNERLSQELEYLT 5to7-a1-m1-cA_5to7-a1-m1-cB Structure of the TPR oligomerization domain P12270 P12270 2.6 X-RAY DIFFRACTION 186 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 5to6-a1-m1-cB_5to6-a1-m1-cA 5to6-a1-m1-cC_5to6-a1-m1-cD 5to7-a1-m1-cC_5to7-a1-m1-cD AAVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQMTRTKEELEAEKRDLIRTNERLSQELEYLT AAVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQMTRTKEELEAEKRDLIRTNERLSQELEYLT 5to7-a1-m1-cB_5to7-a1-m1-cD Structure of the TPR oligomerization domain P12270 P12270 2.6 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 AAVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQMTRTKEELEAEKRDLIRTNERLSQELEYLT AAVLQQVLERTELNKLPKSVQNKLEKFLADQQSEIDGLKGRHEKFKVESEQQYFEIEKRLSHSQERLVNETRECQSLRLELEKLNNQLKALTEKNKELEIAQDRNIAIQSQMTRTKEELEAEKRDLIRTNERLSQELEYLT 5tod-a7-m1-cB_5tod-a7-m1-cD Transmembrane protein 24 SMP domain O14523 O14523 2.96 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 153 5tod-a7-m1-cA_5tod-a7-m1-cB 5tod-a7-m1-cA_5tod-a7-m1-cD 5tod-a7-m1-cC_5tod-a7-m1-cE 5tod-a7-m1-cC_5tod-a7-m1-cF 5tod-a7-m1-cF_5tod-a7-m1-cE LASLFAFKSFRENWQRAWVRALNEQACIQIAFEEVPQLPPRASISHVTCVDQSEHTVLRCQLSAEEVRFPVSVTQQSPAAVSETYHVTLTLPPTQLEVNLEEIPGEGLLISWAFTDRPDLSLTVLPKLELSTIEELIKDAIVSTQPAV LASLFAFKSFRENWQRAWVRALNEQACRNGSIQIAFEEVPQLPPRASISHVTCVDQSEHTVLRCQLSAEEVRFPVSVTQQSPAAVSETYHVTLTLPPTQLEVNLEEIPGEGLLISWAFTDRPDLSLTVLPKLELSTIEELIKDAIVSTQPAVN 5tod-a7-m1-cE_5tod-a7-m1-cD Transmembrane protein 24 SMP domain O14523 O14523 2.96 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 153 5tod-a7-m1-cC_5tod-a7-m1-cB 5tod-a7-m1-cF_5tod-a7-m1-cA ASLFFKSFRENWQRAWVRALNEQACRIQIAFEEVPQLPPRASISHVTCVDQSEHTVLRCQLSAEEVRFPVSVTQQSPAAVSETYHVTLTLPPTQLEVNLEEIPGEGLLISWAFTDRPDLSLTVLPKLELSTIEELIKDAIVSTQPAVN LASLFAFKSFRENWQRAWVRALNEQACRNGSIQIAFEEVPQLPPRASISHVTCVDQSEHTVLRCQLSAEEVRFPVSVTQQSPAAVSETYHVTLTLPPTQLEVNLEEIPGEGLLISWAFTDRPDLSLTVLPKLELSTIEELIKDAIVSTQPAVN 5tog-a2-m1-cA_5tog-a2-m2-cA Room temperature structure of ubiquitin variant u7ub25.2540 P0CG47 P0CG47 1.08 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 GSMQIFVKFRTGKTYTLEVEPSDTIENVKAKIQDKLGIPPDQQWLIFAGKRLEDGRTLSDYNIQKESTLRGVRRL GSMQIFVKFRTGKTYTLEVEPSDTIENVKAKIQDKLGIPPDQQWLIFAGKRLEDGRTLSDYNIQKESTLRGVRRL 5toh-a1-m1-cA_5toh-a1-m1-cC Crystal Structure of the Marburg Virus VP35 Oligomerization Domain I2 P35259 P35259 2.01 X-RAY DIFFRACTION 48 0.981 33727 (Marburg virus - Musoke, Kenya, 1980) 33727 (Marburg virus - Musoke, Kenya, 1980) 52 53 5toh-a1-m1-cA_5toh-a1-m1-cB 5toi-a1-m1-cA_5toi-a1-m1-cC GDIIWDQLIVKRTLADLLIPINRQISDIQSTLSEVTTRVHEIERQLHEITPV DIIWDQLIVKRTLADLLIPINRQISDIQSTLSEVTTRVHEIERQLHEITPVLK 5toh-a1-m1-cC_5toh-a1-m1-cB Crystal Structure of the Marburg Virus VP35 Oligomerization Domain I2 P35259 P35259 2.01 X-RAY DIFFRACTION 32 1.0 33727 (Marburg virus - Musoke, Kenya, 1980) 33727 (Marburg virus - Musoke, Kenya, 1980) 53 70 DIIWDQLIVKRTLADLLIPINRQISDIQSTLSEVTTRVHEIERQLHEITPVLK GDIIWDQLIVKRTLADLLIPINRQISDIQSTLSEVTTRVHEIERQLHEITPVLKMGRTLEAISKGMSEML 5toi-a1-m1-cB_5toi-a1-m1-cC Crystal Structure of the Marburg Virus VP35 Oligomerization Domain P4222 P35259 P35259 2.19 X-RAY DIFFRACTION 31 1.0 33727 (Marburg virus - Musoke, Kenya, 1980) 33727 (Marburg virus - Musoke, Kenya, 1980) 70 70 5toi-a1-m1-cA_5toi-a1-m1-cB GDIIWDQLIVKRTLADLLIPINRQISDIQSTLSEVTTRVHEIERQLHEITPVLKMGRTLEAISKGMSEML GDIIWDQLIVKRTLADLLIPINRQISDIQSTLSEVTTRVHEIERQLHEITPVLKMGRTLEAISKGMSEML 5tou-a1-m1-cA_5tou-a1-m1-cK STRUCTURE OF C-PHYCOCYANIN FROM ARCTIC PSEUDANABAENA SP. LW0831 V5NXI0 V5NXI0 2.04 X-RAY DIFFRACTION 77 1.0 1357935 (Pseudanabaena sp. lw0831) 1357935 (Pseudanabaena sp. lw0831) 162 162 5tou-a1-m1-cC_5tou-a1-m1-cI 5tou-a1-m1-cE_5tou-a1-m1-cG MKTPLTEAVSAADSQGRFLSTTETQVAFGRFRQATSGLAAAKALSEKAESLASGAANAVYSKFPYTTSMTGANYASSQTGKDKCVRDIGYYIRMVTYCCVVGGTGPMDDYLVAGIAEINRTFDLSPSWYVEALKYVKANHGLSGDSAVEANSYIDYAINALS MKTPLTEAVSAADSQGRFLSTTETQVAFGRFRQATSGLAAAKALSEKAESLASGAANAVYSKFPYTTSMTGANYASSQTGKDKCVRDIGYYIRMVTYCCVVGGTGPMDDYLVAGIAEINRTFDLSPSWYVEALKYVKANHGLSGDSAVEANSYIDYAINALS 5tou-a1-m1-cC_5tou-a1-m1-cK STRUCTURE OF C-PHYCOCYANIN FROM ARCTIC PSEUDANABAENA SP. LW0831 V5NXI0 V5NXI0 2.04 X-RAY DIFFRACTION 24 1.0 1357935 (Pseudanabaena sp. lw0831) 1357935 (Pseudanabaena sp. lw0831) 162 162 5tou-a1-m1-cA_5tou-a1-m1-cG 5tou-a1-m1-cE_5tou-a1-m1-cI MKTPLTEAVSAADSQGRFLSTTETQVAFGRFRQATSGLAAAKALSEKAESLASGAANAVYSKFPYTTSMTGANYASSQTGKDKCVRDIGYYIRMVTYCCVVGGTGPMDDYLVAGIAEINRTFDLSPSWYVEALKYVKANHGLSGDSAVEANSYIDYAINALS MKTPLTEAVSAADSQGRFLSTTETQVAFGRFRQATSGLAAAKALSEKAESLASGAANAVYSKFPYTTSMTGANYASSQTGKDKCVRDIGYYIRMVTYCCVVGGTGPMDDYLVAGIAEINRTFDLSPSWYVEALKYVKANHGLSGDSAVEANSYIDYAINALS 5tou-a1-m1-cH_5tou-a1-m1-cJ STRUCTURE OF C-PHYCOCYANIN FROM ARCTIC PSEUDANABAENA SP. LW0831 V5NZF0 V5NZF0 2.04 X-RAY DIFFRACTION 10 1.0 1357935 (Pseudanabaena sp. lw0831) 1357935 (Pseudanabaena sp. lw0831) 171 171 5tou-a1-m1-cB_5tou-a1-m1-cD 5tou-a1-m1-cB_5tou-a1-m1-cF 5tou-a1-m1-cD_5tou-a1-m1-cF 5tou-a1-m1-cH_5tou-a1-m1-cL 5tou-a1-m1-cJ_5tou-a1-m1-cL MYDAFAKVVSQADSRGAYISASQIDALSAMVADGSKRLDAVNRITSNSSAIVANAARALFAEQPALIAPGGAYTSRRMAACLRDMEIVLRYVTYAIYSGDASILEDRCLNGLKETYLALGTPGSSVAVGIGKMKDAAIAIANDPNGVTRGDCSALMSEIGSYFDKAAAAVA MYDAFAKVVSQADSRGAYISASQIDALSAMVADGSKRLDAVNRITSNSSAIVANAARALFAEQPALIAPGGAYTSRRMAACLRDMEIVLRYVTYAIYSGDASILEDRCLNGLKETYLALGTPGSSVAVGIGKMKDAAIAIANDPNGVTRGDCSALMSEIGSYFDKAAAAVA 5tov-a1-m1-cA_5tov-a1-m2-cB Crystal structure of the inactive form of S-adenosyl-L-homocysteine hydrolase from Thermotoga maritima in binary complex with NADH O51933 O51933 1.9 X-RAY DIFFRACTION 30 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 382 403 3x2e-a1-m1-cA_3x2e-a1-m1-cD 3x2e-a1-m1-cB_3x2e-a1-m1-cC 3x2f-a1-m1-cA_3x2f-a1-m2-cA 3x2f-a1-m1-cB_3x2f-a1-m2-cB 5tov-a1-m2-cA_5tov-a1-m1-cB 5tow-a1-m1-cA_5tow-a1-m2-cB 5tow-a1-m2-cA_5tow-a1-m1-cB NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMKYLTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAFNVEIVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQR NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMKYLFDNRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNLAAGDGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYLRSWQ 5tow-a1-m1-cA_5tow-a1-m2-cA Crystal structure of the inactive form of S-adenosyl-L-homocysteine hydrolase from Thermotoga maritima in ternary complex with NADH and Adenosine O51933 O51933 1.75 X-RAY DIFFRACTION 110 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 388 388 5tov-a1-m1-cA_5tov-a1-m2-cA NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYL NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYL 5tow-a1-m2-cA_5tow-a1-m2-cB Crystal structure of the inactive form of S-adenosyl-L-homocysteine hydrolase from Thermotoga maritima in ternary complex with NADH and Adenosine O51933 O51933 1.75 X-RAY DIFFRACTION 62 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 388 403 3x2e-a1-m1-cA_3x2e-a1-m1-cC 3x2e-a1-m1-cB_3x2e-a1-m1-cD 3x2f-a1-m1-cB_3x2f-a1-m1-cA 3x2f-a1-m2-cB_3x2f-a1-m2-cA 5tov-a1-m1-cA_5tov-a1-m1-cB 5tov-a1-m2-cA_5tov-a1-m2-cB 5tow-a1-m1-cA_5tow-a1-m1-cB NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYL NTGEMKINWVSRYMPLLNKIAEEYSREKPLSGFTVGMSIHLEAKTAYLAITLSKLGAKVVITGSNPLSTQDDVAEALRSKGITVYARRTHDESIYRENLMKVLDERPDFIIDDGGDLTVISHTEREEVLENLKGVSEETTTGVRRLKALEETGKLRVPVIAVNDSKMKYLFDNRYGTGQSTWDAIMRNTNLLVAGKNVVVAGYGWCGRGIALRAAGLGARVIVTEVDPVKAVEAIMDGFTVMPMKEAVKIADFVITASGNTDVLSKEDILSLKDGAVLANAGHFNVEIPVRVLEEIAVEKFEARPNVTGYTLENGKTVFLLAEGRLVNLAAGDGHPVEIMDLSFALQIFAVLYLLENHRKMSPKVYMLPDEIDERVARMKLDSLGVKIDELTEKQRRYLRSWQ 5tp4-a1-m1-cA_5tp4-a1-m1-cB Crystal structure of a hydantoinase/carbamoylase family amidase from Burkholderia ambifaria B1YW99 B1YW99 1.7 X-RAY DIFFRACTION 174 0.995 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 405 409 DLLEIDGARLWRSLADMARIGATPRGGVRRLALTDDDRRGRDLFAQWCRDAGMTVSVDAVGNLFARRDGADAQAAPVLIGSHLDTQPEGGRFDGVYGVLAGLEVVRTLNDAGIVTDKPLEIVSWTNEEGARFAPAMLGSAVFTGALPLDDALARQDAEGITLGAALDACGCRGTRAPGGAVDAYFEAHIEQGPVLEANGTTIGIVTGGQAIRWLDVRVTGVAAHAGTTPMPYRKDAYFASAQMALELERIVAGHAPRGLATIGQAGIRNASRNTIAGDVTFTVDLRHHDDAQVDAMERALRDACARVAAARGVQVAIDTCWRSPATPFDRGCVELVARAAEAFGYTNERIVSGAGHDAILLARRVPTAMVFIPCVDAEDALPDDVTRGTNVLLNAVLARAGVATR HHHHMKDLLEIDGARLWRSLADMARIGATPRGGVRRLALTDDDRRGRDLFAQWCRDAGMTVSVDAVGNLFARRDGADAQAAPVLIGSHLDTQPEGGRFDGVYGVLAGLEVVRTLNDAGIVTDKPLEIVSWTNEEGARFAPAMLGSAVFTGALPLDDALARQDAEGITLGAALDACGCRGTRAPGGAVDAYFEAHIEQGPVLEANGTTIGIVTGGQAIRWLDVRVTGVAAHAGTTPMPYRKDAYFASAQMALELERIVAGHAPRGLATIGQAGIRNASRNTIAGDVTFTVDLRHHDDAQVDAMERALRDACARVAAARGVQVAIDTCWRSPATPFDRGCVELVARAAEAFGYTNERIVSGAGHDAILLARRVPTAMVFIPCVEDALPDDVTRGTNVLLNAVLARAGVATR 5tpi-a1-m1-cA_5tpi-a1-m2-cA 1.47 Angstrom Crystal Structure of the C-terminal Substrate Binding Domain of LysR Family Transcriptional Regulator from Klebsiella pneumoniae. A6T8Z4 A6T8Z4 1.47 X-RAY DIFFRACTION 119 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 205 205 QGLFSLGSLESTAAVRIPSTLAHFNQRYPKIHLALSTGPSGTMIDGVLEGALSAAFVDGPLVHPGLEGLPVFPEEMMIVAPYGHAPITRASEVNGANVYAFRANCSYRRHFESWFHADRATPGRIHEMESYHGMLACVIAGAGLALIPRSMLESMPGHQQVSAWPLAEEWRWLTTWLVWRRGAKTRQLEAFIALLNEDRQTVVSP QGLFSLGSLESTAAVRIPSTLAHFNQRYPKIHLALSTGPSGTMIDGVLEGALSAAFVDGPLVHPGLEGLPVFPEEMMIVAPYGHAPITRASEVNGANVYAFRANCSYRRHFESWFHADRATPGRIHEMESYHGMLACVIAGAGLALIPRSMLESMPGHQQVSAWPLAEEWRWLTTWLVWRRGAKTRQLEAFIALLNEDRQTVVSP 5tpm-a2-m1-cD_5tpm-a2-m1-cC 2.8 Angstrom Crystal Structure of the C-terminal Dimerization Domain of Transcriptional Regulator PdhR from Escherichia coli. P0ACL9 P0ACL9 2.8 X-RAY DIFFRACTION 40 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 136 148 5tpm-a1-m1-cB_5tpm-a1-m1-cA SNADLLETRHALEGIAAYYAALRSTDEDKERIRELHHAIELAQQSGDLDAESNAVLQYQIAVTEAAHNVVLLHLLRCEPLAQNVRQNFELLYSRRELPLVSSHRTRIFEAIAGKPEEAREASHRHLAFIEEILLDR SNADLLETRHALEGIAAYYAALRSTDEDKERIRELHHAIELAQQSGDLDAESNAVLQYQIAVTEAAHNVVLLHLLRCEPLAQNVRQNFELLYSRRELPLVSSHRTRIFEAIAGKPEEAREASHRHLAFIEEILLDRSREESRRERSLR 5tpr-a1-m1-cA_5tpr-a1-m1-cB Desmethyl-4-deoxygadusol synthase from Anabaena variabilis (Ava_3858) with NAD+ and Zn2+ bound Q3M6C3 Q3M6C3 1.7 X-RAY DIFFRACTION 183 1.0 240292 (Trichormus variabilis ATCC 29413) 240292 (Trichormus variabilis ATCC 29413) 400 400 IVQAKFEAKETSFHVEGYEKIEYDLVYVDGIFEIQNSALADVYQGFGRCLAIVDANVSRLYGNQIQAYFQYYGIELRLFPITITEPDKTIQTFERVIDVFADFKLVRKEPVLVVGGGLITDVVGFACSTYRRSSNYIRIPTTLIGLIDASVAIKVAVNHRKLKNRLGAYHASRKVFLDFSLLRTLPTDQVRNGMAELVKIAVVAHQEVFELLEKYGEELLRTHFGNIDATPEIKEIAHRLTYKAIHKMLELEVPNLHELDLDRVIAYGHTWSPTLELAPRLPMFHGHAVNVDMAFSATIAARRGYITIAERDRILGLMSRVGLSLDHPMLDIDILWRGTESITLTRDGLLRAAMPKPIGDCVFVNDLTREELAAALADHKELCTSYPRGGEGVDVYPVYQ IVQAKFEAKETSFHVEGYEKIEYDLVYVDGIFEIQNSALADVYQGFGRCLAIVDANVSRLYGNQIQAYFQYYGIELRLFPITITEPDKTIQTFERVIDVFADFKLVRKEPVLVVGGGLITDVVGFACSTYRRSSNYIRIPTTLIGLIDASVAIKVAVNHRKLKNRLGAYHASRKVFLDFSLLRTLPTDQVRNGMAELVKIAVVAHQEVFELLEKYGEELLRTHFGNIDATPEIKEIAHRLTYKAIHKMLELEVPNLHELDLDRVIAYGHTWSPTLELAPRLPMFHGHAVNVDMAFSATIAARRGYITIAERDRILGLMSRVGLSLDHPMLDIDILWRGTESITLTRDGLLRAAMPKPIGDCVFVNDLTREELAAALADHKELCTSYPRGGEGVDVYPVYQ 5tpt-a1-m1-cB_5tpt-a1-m1-cA The Crystal Structure of Amyloid Precursor-Like Protein 2 (APLP2) E2 Domain Q06481 Q06481 2.422 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 197 HARFQKAKEQLEIRHRNRMDRVKKEWEEAELQAKNLPKAERQTLIQHFQAMVKALEKEAASEKQQLVETHLARVEAMLNDRRRMALENYLAALQSDPPRPHRILQALRRYVRAENKDRLHTIRHYQHVLAVDPEKAAQMKSQVMTHLHVIEERRNQSLSLLYKVPYVAQEIQEEIDELLQE DVDVYFETSADDNEHARFQKAKEQLEIRHRNRMDRVKKEWEEAELQAKNLPKAERQTLIQHFQAMVKALEKEAASEKQQLVETHLARVEAMLNDRRRMALENYLAALQSDPPRPHRILQALRRYVRAENKDRLHTIRHYQHVLAVDPEKAAQMKSQVMTHLHVIEERRNQSLSLLYKVPYVAQEIQEEIDELLQEQR 5tpu-a2-m1-cC_5tpu-a2-m1-cD x-ray structure of the WlaRB TDP-quinovose 3,4-ketoisomerase from campylobacter jejuni Q9ALS4 Q9ALS4 2 X-RAY DIFFRACTION 113 0.992 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 131 132 5tpu-a1-m1-cB_5tpu-a1-m1-cA IKNCKILNLRAIRDNRGSLIALENNKEVPFEIKRVYYIFDTDPNFPRGAHAHKNLEQVLIMMSGSCDIILNDGKNYEKICLNRPDIGLYIGKNMWREMKNFSYGAKLLVLASDFYDAAAYIRNYDEFLRNI HMIKNCKILNLRAIRDNRGSLIALENNKEVPFEIKRVYYIFDTDPNFPRGAHAHKNLEQVLIMMSGSCDIILNDGKNYEKICLNRPDIGLYIGKNMWREMKNFSYGAKLLVLASDFYDAAAYIRNYDEFLRN 5tpv-a2-m1-cC_5tpv-a2-m2-cC X-ray structure of WlaRA (TDP-fucose-3,4-ketoisomerase) from Campylobacter jejuni Q9ALS3 Q9ALS3 2.14 X-RAY DIFFRACTION 120 1.0 407148 (Campylobacter jejuni subsp. jejuni 81116) 407148 (Campylobacter jejuni subsp. jejuni 81116) 131 131 5tpv-a1-m1-cA_5tpv-a1-m1-cB MNYTILKFKTINSKNSILNVHQKDVNCPFEIKRIFYIYDFLDDSIRGDHANLNSEFIFIALNGSCEILIDDGKTKQKIILNNKTKGLYIDKMIWKQMYNFSKDCILLVLTNTYYDEKEYIYDYKYFCELKN MNYTILKFKTINSKNSILNVHQKDVNCPFEIKRIFYIYDFLDDSIRGDHANLNSEFIFIALNGSCEILIDDGKTKQKIILNNKTKGLYIDKMIWKQMYNFSKDCILLVLTNTYYDEKEYIYDYKYFCELKN 5tqi-a1-m1-cB_5tqi-a1-m1-cA Crystal structure of a pyridoxal kinase from Burkholderia multivorans A0A0H3KDL9 A0A0H3KDL9 1.5 X-RAY DIFFRACTION 121 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 287 288 HMKNVLSIQSHVIYGHAGNSAAVFPMQRLGVNVWPLNTVQLSNHMQYGHWAGSAIDAAKMEQLVDGIAAIGALKRCDAVLSGFAGSPAQARATVEIVRAVKAMNPNAWYFCDPAMGQTGGIRPEPGVEEFIVNEMPALADGMSPNHTELQKLAGRRIETVAEAVDACRTLIARGPKIILVKHLHDRNSPADRFNMLAVTETEAWIGQRPLYAFPRHPVGVGDLTSAIFVARRLRGDSVRAAFEHTLAAVHAVVKATYDARRYELELIAAQDEIARPSEWFGAWVTDV HHMKNVLSIQSHVIYGHAGNSAAVFPMQRLGVNVWPLNTVQLSNHMQYGHWAGSAIDAAKMEQLVDGIAAIGALKRCDAVLSGFAGSPAQARATVEIVRAVKAMNPNAWYFCDPAMGQTGGIRPEPGVEEFIVNEMPALADGMSPNHTELQKLAGRRIETVAEAVDACRTLIARGPKIILVKHLHDRNSPADRFNMLAVTETEAWIGQRPLYAFPRHPVGVGDLTSAIFVARRLRGDSVRAAFEHTLAAVHAVVKATYDARRYELELIAAQDEIARPSEWFGAWVTDV 5tqy-a1-m1-cA_5tqy-a1-m1-cB CryoEM reconstruction of human IKK1, closed conformation 3 O15111 O15111 5.2 ELECTRON MICROSCOPY 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 578 578 5tqw-a1-m1-cA_5tqw-a1-m1-cB 5tqx-a1-m1-cA_5tqx-a1-m1-cB PWEMRERLGTGGFGNVCLYQHRELDLKIAIKSCRLELSTKNRERWCHEIQIMKKLRKLLNKPENCCGLKESQILSLLSDIGSGIRYLHENKIIHRDLKPENIVLQDVGGKIIHKIITLQYLAPELFENKPYTATVDYWSFGTMVFECIAGYRPFLHHLQPFTWHEKIKKKDPKCIFACEEMSGEVRFSSHLPQPNSLCSLIVEPMENWLQLMLNWDPQQRGGPVDLTLKQPRCFVLMDHILNLKIVHILNMTSAKIISFLLPPDESLHSLQSRIERETGINTGSQELLSETGISLDPRKPMVYLFDKSKTVYEGPFASRSLSDCVNYIVQDSKIQLPIIQLRKVWAEAVHYVSGLKEDYSRLFQGQRAAMLSLLRYNANLTKMKNTLISASQQLKAKLEFFHKSIQLDLERYSEQMTYGISSEKMLKAWKEMEEKAIHYAEVGVIGYLEDQIMSLHAEIMELQKSPYGRRQGDLMESLEQRAIDLYKQLKHRPSDHSYSDSTEMVKIIVHTVQSQDRVLKELFGHLSKLLGCKQKIIDLLPKVEVALSNIKEADNTVMFMQGKRQKEIWHLLKIACTQ PWEMRERLGTGGFGNVCLYQHRELDLKIAIKSCRLELSTKNRERWCHEIQIMKKLRKLLNKPENCCGLKESQILSLLSDIGSGIRYLHENKIIHRDLKPENIVLQDVGGKIIHKIITLQYLAPELFENKPYTATVDYWSFGTMVFECIAGYRPFLHHLQPFTWHEKIKKKDPKCIFACEEMSGEVRFSSHLPQPNSLCSLIVEPMENWLQLMLNWDPQQRGGPVDLTLKQPRCFVLMDHILNLKIVHILNMTSAKIISFLLPPDESLHSLQSRIERETGINTGSQELLSETGISLDPRKPMVYLFDKSKTVYEGPFASRSLSDCVNYIVQDSKIQLPIIQLRKVWAEAVHYVSGLKEDYSRLFQGQRAAMLSLLRYNANLTKMKNTLISASQQLKAKLEFFHKSIQLDLERYSEQMTYGISSEKMLKAWKEMEEKAIHYAEVGVIGYLEDQIMSLHAEIMELQKSPYGRRQGDLMESLEQRAIDLYKQLKHRPSDHSYSDSTEMVKIIVHTVQSQDRVLKELFGHLSKLLGCKQKIIDLLPKVEVALSNIKEADNTVMFMQGKRQKEIWHLLKIACTQ 5tr1-a1-m1-cA_5tr1-a1-m1-cB Cryo-electron microscopy structure of a bovine CLC-K chloride channel, alternate (class 2) conformation E1B792 E1B792 3.95 ELECTRON MICROSCOPY 111 1.0 9913 (Bos taurus) 9913 (Bos taurus) 606 606 5tqq-a1-m1-cA_5tqq-a1-m1-cB LDWLKRKLFCVGEDWYFLTVLGVLMALISFTMSFTVGRVVRAHKWLYREIGDSHLLRYLSWTVYPVALVSFSSGFSQSITPFSGGSGIPELKTILSGVVLEDYLDIKNFGAKAVGLTCTLASGSTIFLGKVGPFVHLSVMIAAYLGRVRANKSKRNEMLVAGAAVGVATVFAAPFSGVLFCIEVVSSHFSVWDYWRGFFAATCGAFMFRLLAVFNPFDLPEIFFFVALGAICGVASCAYLFCQRKFLGFVKTNPVLSKLMATSKPLYSALAALVLASVTYPPGAGRFMASRLSMREYLDSLLDHNSWALLTRQASPPWPVEPDPQNLWFEWYHPQFTIFGTLAFFLVMKFWMLILATTIPMPAGYFMPIFIFGAAIGRLLGEALSVAFPEGIVNPIMPGGYALAGAAAFSGAVTHSISTALLAFELTGQIVHALPVLMAVLAANAIAQSCQPSFYDGTIIVKKLPYLPWIRGRKISSHRVTVEHFMNRAITTLAKDTPQEEVVKVVTSTDMAEYPLVASTESQTLVGTMRRAQLVQALQALQDILAEGCPVEPVTLKLSPETSLHQAHNLFELLNLQSLFVTSQGRAVGFVSWVELEKAISKLTNP LDWLKRKLFCVGEDWYFLTVLGVLMALISFTMSFTVGRVVRAHKWLYREIGDSHLLRYLSWTVYPVALVSFSSGFSQSITPFSGGSGIPELKTILSGVVLEDYLDIKNFGAKAVGLTCTLASGSTIFLGKVGPFVHLSVMIAAYLGRVRANKSKRNEMLVAGAAVGVATVFAAPFSGVLFCIEVVSSHFSVWDYWRGFFAATCGAFMFRLLAVFNPFDLPEIFFFVALGAICGVASCAYLFCQRKFLGFVKTNPVLSKLMATSKPLYSALAALVLASVTYPPGAGRFMASRLSMREYLDSLLDHNSWALLTRQASPPWPVEPDPQNLWFEWYHPQFTIFGTLAFFLVMKFWMLILATTIPMPAGYFMPIFIFGAAIGRLLGEALSVAFPEGIVNPIMPGGYALAGAAAFSGAVTHSISTALLAFELTGQIVHALPVLMAVLAANAIAQSCQPSFYDGTIIVKKLPYLPWIRGRKISSHRVTVEHFMNRAITTLAKDTPQEEVVKVVTSTDMAEYPLVASTESQTLVGTMRRAQLVQALQALQDILAEGCPVEPVTLKLSPETSLHQAHNLFELLNLQSLFVTSQGRAVGFVSWVELEKAISKLTNP 5trb-a1-m1-cA_5trb-a1-m2-cA Crystal structure of the RNF20 RING domain Q5VTR2 Q5VTR2 1.8 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 EILMEEIKDYKARLTCPCCNMRKKDAVLTKCFHVFCFECVKTRYDTRQRKCPKCNAAFGANDFHRIYIG EILMEEIKDYKARLTCPCCNMRKKDAVLTKCFHVFCFECVKTRYDTRQRKCPKCNAAFGANDFHRIYIG 5trd-a1-m1-cB_5trd-a1-m1-cA Structure of RbkR (Riboflavin Kinase) from Thermoplasma acidophilum determined in complex with CTP and its cognate DNA operator Q9HJA6 Q9HJA6 1.85 X-RAY DIFFRACTION 48 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 215 219 YYRAIKKIKEAAEASNRAYLTSSKLADMLGISQQSASRIIIDLEKNGYITRTVTKRGQILNITEKGLDVLYTEFADLSRILAIKNNVVITGTVTSGMGEGRYYVARKQYIIQFQEKLGIIPYLGTLNIKVDQASLPELRKIRGFRGIHIEGFKTEDRTFGSVKAFPAKIQNIPCFVIMPERTVYTDVIEIISDKYLREEINLHDGDRVSVEVYTE DQYYRAIKKIKEAAEASNRAYLTSSKLADMLGISQQSASRIIIDLEKNGYITRTVTKRGQILNITEKGLDVLYTEFADLSRILAIKNNVVITGTVTSGMGEGRYYVARKQYIIQFQEKLGIIPYLGTLNIKVDQASLPELRKIRGFRGIHIEGFKTEDRTFGSVKAFPAKIQNIPCFVIMPERTVYTDVIEIISDKYLREEINLHDGDRVSVEVYTEGH 5tro-a1-m1-cA_5tro-a1-m1-cB 1.8 Angstrom Resolution Crystal Structure of Dimerization and Transpeptidase domains (residues 39-608) of Penicillin-Binding Protein 1 from Staphylococcus aureus. A0A0H2WVW5 A0A0H2WVW5 1.8 X-RAY DIFFRACTION 117 0.998 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 490 491 7ok9-a10-m1-cY_7ok9-a10-m1-cJ 7ok9-a4-m1-cW_7ok9-a4-m1-cD 7ok9-a6-m1-cX_7ok9-a6-m1-cF QQPERGKIYDRNGKVLAEDVERYKLVAVIDKKASANSKKPRHVVDKKETAKKLSTVINKPEEIEKRLSQKKAFQIEFGRKGTNLTYQDKLKIEKNLPGISLLPETERFYPNGNFASHLIGRAQKNPDTGELKGALGVEKIFDSYLSGKRGDDVHLTIDSNIQVFVEEALDGVERYQPKDLFAVVDAKTGEILAYSQRPTFNPETGKDFGKKWANDLYQNTYEPGSTFKSYGLAAAIQEGAFDPDKKYKSGHRDIGSRISDWNRVGWGEIPSLGFTYSSNTLHLQDLVGADKKSWYERFGFGKSTKGFDGEAPGQIGWSNELQQKTSSFGQSTTVTPVQLQAQSAFFNDGNLKPWFVNSVENPVSKRQFYKGQKQIAGKPITKDTAEKVEKQLDLVVNSKKSHAANYRIDGYEVEGKTGTAQVAAPNGGGYVKGPNPYFVSFGDAPKKNPKVIVYAGSLAQKNDQEAYELGVSKAFKPIENTLKYLNVGKS QQPERGKIYDRNGKVLAEDVERYKLVAVIDKKASANSKKPRHVVDKKETAKKLSTVINKPEEIEKRLSQKKAFQIEFGRKGTNLTYQDKLKIEKNLPGISLLPETERFYPNGNFASHLIGRAQKNPDTGELKGALGVEKIFDSYLSGSKKRGDDVHLTIDSNIQVFVEEALDGVERYQPKDLFAVVDAKTGEILAYSQRPTFNPETGKDFGKKWANDLYQNTYEPGSTFKSYGLAAAIQEGAFDPDKKYKSGHRDIGSRISDWNRVGWGEIPSLGFTYSSNTLHLQDLVGADKKSWYERFGFGKSTKGFDGEAPGQIGWSNELQQKTSSFGQSTTVTPVQLQAQSAFFNDGNLKPWFVNSVENPVSKRQFYKGQKQIAGKPITKDTAEKVEKQLDLVVNSKKSHAANYRIDGYEVEGKTGTAQVAAPNGGGYVKGPNPYFVSFGDAPKKNPKVIVYAGSLAQKNDQEAYELGVSKAFKPIENTLKYLNVGK 5trw-a1-m1-cA_5trw-a1-m2-cA Crystal structure of Pyridoxamine kinase PDXY from Burkholderia xenovorans Q141E8 Q141E8 1.6 X-RAY DIFFRACTION 128 1.0 266265 (Paraburkholderia xenovorans LB400) 266265 (Paraburkholderia xenovorans LB400) 278 278 MTKNVLSIQSHVVFGHAGNSAAVFPMRRLGVNVWPLNTVQFSNHTQYGHWTGGAIDATQMVELVDGIGAIGMLPRCDAVLSGYLGTPEQAQSVLEIVKAVKAANPRAWYFCDPVMEPGIQEFLVRTMPGVADAMAPNHTELQRLVGREIETLEEAVTACRELIARGPKLVLVKHLLDRNSPADRFNMLVVTEREAWMGQRPLYPFARQPVGVGDLTSAVFVARTLLGDSIRAAFEHTLAAVNAVVKATWQAGRYELELVAAQSEIAQPREWFDAWVGD MTKNVLSIQSHVVFGHAGNSAAVFPMRRLGVNVWPLNTVQFSNHTQYGHWTGGAIDATQMVELVDGIGAIGMLPRCDAVLSGYLGTPEQAQSVLEIVKAVKAANPRAWYFCDPVMEPGIQEFLVRTMPGVADAMAPNHTELQRLVGREIETLEEAVTACRELIARGPKLVLVKHLLDRNSPADRFNMLVVTEREAWMGQRPLYPFARQPVGVGDLTSAVFVARTLLGDSIRAAFEHTLAAVNAVVKATWQAGRYELELVAAQSEIAQPREWFDAWVGD 5trz-a1-m1-cA_5trz-a1-m1-cC Crystal structure of MHC-I H2-KD complexed with peptides of Mycobacterial tuberculosis (YQSGLSIVM) P01902 P01902 2.247 X-RAY DIFFRACTION 61 1.0 10090 (Mus musculus) 10090 (Mus musculus) 275 275 PHSLRYFVTAVSRPGLGEPRFIAVGYVDDTQFVRFDSDADNPRFEPRAPWMEQEGPEYWEEQTQRAKSDEQWFRVSLRTAQRYYNQSKGGSHTFQRMFGCDVGSDWRLLRGYHQFAYDGRDYIALNEDLKTWTAADTAALITRRKWEQAGDAEYYRAYLEGECVEWLRRYLELGNETLLRTDSPKAHVTYHPRSQVDVTLRCWALGFYPADITLTWQLNGEDLTQDMELVETRPAGDGTFQKWAAVVVPLGKEQNYTCHVHHKGLPEPLTLRWKP PHSLRYFVTAVSRPGLGEPRFIAVGYVDDTQFVRFDSDADNPRFEPRAPWMEQEGPEYWEEQTQRAKSDEQWFRVSLRTAQRYYNQSKGGSHTFQRMFGCDVGSDWRLLRGYHQFAYDGRDYIALNEDLKTWTAADTAALITRRKWEQAGDAEYYRAYLEGECVEWLRRYLELGNETLLRTDSPKAHVTYHPRSQVDVTLRCWALGFYPADITLTWQLNGEDLTQDMELVETRPAGDGTFQKWAAVVVPLGKEQNYTCHVHHKGLPEPLTLRWKP 5ts3-a1-m2-cB_5ts3-a1-m1-cA Crystal Structure of a 3-oxoacyl-[acyl-carrier protein] Reductase with bound NAD from Brucella melitensis C0RKU3 C0RKU3 1.55 X-RAY DIFFRACTION 17 0.989 546272 (Brucella melitensis ATCC 23457) 546272 (Brucella melitensis ATCC 23457) 262 265 5ts3-a1-m1-cB_5ts3-a1-m2-cA HHHMELTEITPESLRLRPSHKERNVLITGAARGIGRAIAQAFVERSATVGICDLNLADVARTCEELNGLGLGRAVPIACDVSDYDALVAAIDDTGLVFDTVVNNAGISPKHNGVAHKVWEMAPDEWRRVVDVNLTGTFNTIRALTPGMVEARRGWIVNTSSVAGKTYSPIVACHYAATKSAIIGFTKHLAAELGPYSIRVNAMAPGRIATPPEVNAEQVKLTPMARLGQPAEVADVALWLTSTESSFVTGQTVDVAGGLYMA MELTEITPESLRLRPSHKERNVLITGAARGIGRAIAQAFVERSATVGICDLNLADVARTCEELNGLGLGRAVPIACDVSDYDALVAAIDDTGLVFDTVVNNAGISPKHNGVAHKVWEMAPDEWRRVVDVNLTGTFNTIRALTPGMVEARRGWIVNTSSVAGKTYSPIVACHYAATKSAIIGFTKHLAAELGPYSIRVNAMAPGRIATPMVAGVAPEVNAEQVKLTPMARLGQPAEVADVALWLTSTESSFVTGQTVDVAGGLYMA 5ts5-a2-m1-cD_5ts5-a2-m1-cC Crystal structure of L-amino acid oxidase from Bothrops atrox P0CC17 P0CC17 2.3 X-RAY DIFFRACTION 114 1.0 8725 (Bothrops atrox) 8725 (Bothrops atrox) 479 480 4e0v-a1-m1-cA_4e0v-a1-m1-cB 5ts5-a1-m1-cB_5ts5-a1-m1-cA PLEECFRETDYEEFLEIAKNGLSTTSNPKRVVIVGAGMSGLSAAYVLANAGHQVTVLEASERAGGRVKTYRNEKEGWYANLGPMRLPEKHRIVREYIRKFDLQLNEFSQENENAWYFIKNIRKRVGEVNKDPGVLEYPVKPSEVGKSAGQLYEESLQKAVEELRRTNCSYMLNKYDTYSTKEYLLKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDKLPTSMYQAIQEKVHLNARVIKIQQDVKEVTVTYQTSEKETLSVTADYVIVCTTSRAARRIKFEPPLPPKKAHALRSVHYRSGTKIFLTCTKKFWEDDGIHGGKSTTDLPSRFIYYPNHNFPNGVGVIIAYGIGDDANYFQALDFEDCGDIVINDLSLIHQLPKEEIQAICRPSMIQRWSLDKYAMGGITTFTPYQFQHFSEALTAPVDRIYFAGEYTAQAHGWIDSTIKSGLRAARDVNRAS NPLEECFRETDYEEFLEIAKNGLSTTSNPKRVVIVGAGMSGLSAAYVLANAGHQVTVLEASERAGGRVKTYRNEKEGWYANLGPMRLPEKHRIVREYIRKFDLQLNEFSQENENAWYFIKNIRKRVGEVNKDPGVLEYPVKPSEVGKSAGQLYEESLQKAVEELRRTNCSYMLNKYDTYSTKEYLLKEGNLSPGAVDMIGDLLNEDSGYYVSFIESLKHDDIFAYEKRFDEIVGGMDKLPTSMYQAIQEKVHLNARVIKIQQDVKEVTVTYQTSEKETLSVTADYVIVCTTSRAARRIKFEPPLPPKKAHALRSVHYRSGTKIFLTCTKKFWEDDGIHGGKSTTDLPSRFIYYPNHNFPNGVGVIIAYGIGDDANYFQALDFEDCGDIVINDLSLIHQLPKEEIQAICRPSMIQRWSLDKYAMGGITTFTPYQFQHFSEALTAPVDRIYFAGEYTAQAHGWIDSTIKSGLRAARDVNRAS 5tsq-a1-m2-cA_5tsq-a1-m4-cA Crystal structure of IUnH from Leishmania braziliensis in complex with D-Ribose A4H9Q9 A4H9Q9 1.53 X-RAY DIFFRACTION 42 1.0 1448350 (Leishmania braziliensis braziliensis) 1448350 (Leishmania braziliensis braziliensis) 312 312 5tsq-a1-m1-cA_5tsq-a1-m3-cA PRKIILDCDPGIDDAVAILLAYGNPEIELLAITTVVGNQTLEKVTRNAQLVADVAGIVGVPIAAGCCKPLVRKVRTAPQIHGETGLGTVSYPSEFKTKLDKRHAVHLIIELIMSHEPKSITLVPTGGLTNIAMAARLEPRIVERVKEVVLMGGSCCIGNASPVAEFNIFVDPEAAHIVFNESWDVTMVGLDLTSQALATPEVLQRVKEVRTKPADFILKILEFYTKVYETQRNTYAKVHDPCAVAYVIDPTVMTTNRVPVNIELNGELTAGMTVTDFRYPRPEQCHTQVASKLDFSKYWDLVIDALQRIGDP PRKIILDCDPGIDDAVAILLAYGNPEIELLAITTVVGNQTLEKVTRNAQLVADVAGIVGVPIAAGCCKPLVRKVRTAPQIHGETGLGTVSYPSEFKTKLDKRHAVHLIIELIMSHEPKSITLVPTGGLTNIAMAARLEPRIVERVKEVVLMGGSCCIGNASPVAEFNIFVDPEAAHIVFNESWDVTMVGLDLTSQALATPEVLQRVKEVRTKPADFILKILEFYTKVYETQRNTYAKVHDPCAVAYVIDPTVMTTNRVPVNIELNGELTAGMTVTDFRYPRPEQCHTQVASKLDFSKYWDLVIDALQRIGDP 5tsq-a1-m3-cA_5tsq-a1-m4-cA Crystal structure of IUnH from Leishmania braziliensis in complex with D-Ribose A4H9Q9 A4H9Q9 1.53 X-RAY DIFFRACTION 74 1.0 1448350 (Leishmania braziliensis braziliensis) 1448350 (Leishmania braziliensis braziliensis) 312 312 5tsq-a1-m1-cA_5tsq-a1-m2-cA PRKIILDCDPGIDDAVAILLAYGNPEIELLAITTVVGNQTLEKVTRNAQLVADVAGIVGVPIAAGCCKPLVRKVRTAPQIHGETGLGTVSYPSEFKTKLDKRHAVHLIIELIMSHEPKSITLVPTGGLTNIAMAARLEPRIVERVKEVVLMGGSCCIGNASPVAEFNIFVDPEAAHIVFNESWDVTMVGLDLTSQALATPEVLQRVKEVRTKPADFILKILEFYTKVYETQRNTYAKVHDPCAVAYVIDPTVMTTNRVPVNIELNGELTAGMTVTDFRYPRPEQCHTQVASKLDFSKYWDLVIDALQRIGDP PRKIILDCDPGIDDAVAILLAYGNPEIELLAITTVVGNQTLEKVTRNAQLVADVAGIVGVPIAAGCCKPLVRKVRTAPQIHGETGLGTVSYPSEFKTKLDKRHAVHLIIELIMSHEPKSITLVPTGGLTNIAMAARLEPRIVERVKEVVLMGGSCCIGNASPVAEFNIFVDPEAAHIVFNESWDVTMVGLDLTSQALATPEVLQRVKEVRTKPADFILKILEFYTKVYETQRNTYAKVHDPCAVAYVIDPTVMTTNRVPVNIELNGELTAGMTVTDFRYPRPEQCHTQVASKLDFSKYWDLVIDALQRIGDP 5tsz-a2-m1-cC_5tsz-a2-m2-cC Crystal structure of Plasmodium vivax CelTOS Q53UB7 Q53UB7 3.002 X-RAY DIFFRACTION 134 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 130 130 5tsz-a1-m1-cA_5tsz-a1-m1-cB SSLEGGSEFSERIGNSLSSFLSESASLEVIGNELADNIANEIVSSLQKDSASFLQSGFDVKTQLKATAKKVLVEALKAALEPTEKIVASTIKPPRVSEDAYFLLGPVVKTLFNKVEDVLHKPIPDTIWEY SSLEGGSEFSERIGNSLSSFLSESASLEVIGNELADNIANEIVSSLQKDSASFLQSGFDVKTQLKATAKKVLVEALKAALEPTEKIVASTIKPPRVSEDAYFLLGPVVKTLFNKVEDVLHKPIPDTIWEY 5tt0-a1-m1-cB_5tt0-a1-m1-cA Crystal Structure of an Oxidoreductase (short chain dehydrogenase/reductase family) from Burkholderia thailandensis Q2T608 Q2T608 1.7 X-RAY DIFFRACTION 137 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 251 254 TTPRTTLITGAAGGIGQALVRRFLAAGDRVLALDRDRAALAAFVDALGGAAVAPVVDDLTDAARLADALANERVDVLVANAGTAASATLRATTSASWRADLDANLTATYVSVEAVLAGMRARRRGAITIVGSVNGVAALGHPAYSAAKAGLISYAKSLAIEYGRDGVRANVVCPGTVKTPAWEARVRQNFEQLKKWYPLDDFATPDDVANAALFLSSDAARAITGAMLPVDGGLLAGNRVMAQELTLESFY TTPRTTLITGAAGGIGQALVRRFLAAGDRVLALDRDRAALAAFVDALGGAAVAPVVDDLTDAARLADALANERVDVLVANAGTAASATLRATTSASWRADLDANLTATYVSVEAVLAGMRARRRGAITIVGSVNGVAALGHPAYSAAKAGLISYAKSLAIEYGRDGVRANVVCPGTVKTPAWEARVRQNPQVFEQLKKWYPLDDFATPDDVANAALFLSSDAARAITGAMLPVDGGLLAGNRVMAQELTLESFY 5tt1-a2-m1-cB_5tt1-a2-m1-cC Crystal Structure of a Putative short-chain alcohol dehydrogenase from Burkholderia multivorans A0A0H2WVW5 A0A0H2WVW5 1.8 X-RAY DIFFRACTION 137 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 220 221 5tt1-a1-m1-cA_5tt1-a1-m2-cA 5uzx-a2-m1-cA_5uzx-a2-m2-cB PRPTILLVGASRGLGHAMAAEFLKRGWDVVGTVRADRGRTPLHALAEAYPDRLRIETLDITQPEQIRALAARLSGRVFDILFVNAGTTNPDPTQTIGEVSTDDFVDLMITNALSPMRVVETLAGLVPRDGLIGIMSSGQGSIADNESGQRELYRGSKAALNQFMRSFAARHAQTPLAMVLIAPGWLSIDESVPGVVDVLLAKRGRAGLEYLDYRGRTVRW DPRPTILLVGASRGLGHAMAAEFLKRGWDVVGTVRADRGRTPLHALAEAYPDRLRIETLDITQPEQIRALAARLSGRVFDILFVNAGTTNPDPTQTIGEVSTDDFVDLMITNALSPMRVVETLAGLVPRDGLIGIMSSGQGSIADNESGQRELYRGSKAALNQFMRSFAARHAQTPLAMVLIAPGWLSIDESVPGVVDVLLAKRGRAGLEYLDYRGRTVRW 5tta-a1-m1-cA_5tta-a1-m2-cB A 1.85A X-Ray Structure from Peptoclostridium difficile 630 of a Hypothetical Protein Q185R5 Q185R5 1.85 X-RAY DIFFRACTION 31 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 209 209 NENIPLFINNSKIQYDDTPYHWPSNVISLTNSSEKAIDYEITCLAYDKNGKPLELYWDAQNVAADGEVGSVGFSPAGVDYGIVTGISPVSPKSYSHTYRKQQSPPQDIISFEKQQGKAWVENWLKEWKQEKEYAKQNAIAPGKNQNDAFLLFDKWKQSTGEHGVKYIISCVKQVTFNDGSVWKNSAYENWLKSFQGKEVSNSVLENYYK NENIPLFINNSKIQYDDTPYHWPSNVISLTNSSEKAIDYEITCLAYDKNGKPLELYWDAQNVAADGEVGSVGFSPAGVDYGIVTGISPVSPKSYSHTYRKQQSPPQDIISFEKQQGKAWVENWLKEWKQEKEYAKQNAIAPGKNQNDAFLLFDKWKQSTGEHGVKYIISCVKQVTFNDGSVWKNSAYENWLKSFQGKEVSNSVLENYYK 5ttx-a1-m2-cC_5ttx-a1-m1-cA Crystal structure of hydrogenase 2 maturation peptidase from Thaumarchaeota archaeon SCGC_AB-539-E09 M7TUZ8 M7TUZ8 2.401 X-RAY DIFFRACTION 12 1.0 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 148 151 5ttx-a1-m1-cD_5ttx-a1-m2-cB KRVLVAGVGNRLGDDGFGPRVVDLLSSSLPDYVDARDIGTAGITDLEDYEKVIFLDSVELEGPPGRLSKSILEVRGLDEDISQLARTLHEVGLEGLLKFAKSIGVLPGEVTLIGCIPRSLKPSLELSEEVEAATHAAVDLVLEALGLE KRVLVAGVGNRLGDDGFGPRVVDLLSSSLPDYVDARDIGTAGITVATDLEDYEKVIFLDSVELEGPPGRLSKSILEVRGLDEDISQLARTLHEVGLEGLLKFAKSIGVLPGEVTLIGCIPRSLKPSLELSEEVEAATHAAVDLVLEALGLE 5ttx-a3-m1-cC_5ttx-a3-m1-cB Crystal structure of hydrogenase 2 maturation peptidase from Thaumarchaeota archaeon SCGC_AB-539-E09 M7TUZ8 M7TUZ8 2.401 X-RAY DIFFRACTION 68 1.0 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 1198115 (Thaumarchaeota archaeon SCGC AB-539-E09) 148 151 5ttx-a1-m1-cD_5ttx-a1-m1-cA 5ttx-a1-m2-cC_5ttx-a1-m2-cB 5ttx-a2-m1-cD_5ttx-a2-m1-cA KRVLVAGVGNRLGDDGFGPRVVDLLSSSLPDYVDARDIGTAGITDLEDYEKVIFLDSVELEGPPGRLSKSILEVRGLDEDISQLARTLHEVGLEGLLKFAKSIGVLPGEVTLIGCIPRSLKPSLELSEEVEAATHAAVDLVLEALGLE KRVLVAGVGNRLGDDGFGPRVVDLLSSSLPDYVDARDIGTAGITVATDLEDYEKVIFLDSVELEGPPGRLSKSILEVRGLDEDISQLARTLHEVGLEGLLKFAKSIGVLPGEVTLIGCIPRSLKPSLELSEEVEAATHAAVDLVLEALGLE 5tu5-a1-m1-cB_5tu5-a1-m1-cA PagF prenyltransferase with Tyr-Tyr-Tyr and DMSPP F5B6Z0 1.9 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 443922 (Planktothrix agardhii NIES-596) 3 297 YYY MIVNVIQKDRLKEQKLQFIRNHQQAFDVEPIYPLPLFEDFVTSIEGDCSLEASCKIESDKLIASRFLLFFEDKTQEWQKYLHQSLTFFGLVENRVGVKINYSLLQQFLGSSFDFSKVTVLSAGIDLRNNLAESSLKMHIRIKDYPEKLDKAFALSDGAADGNYLKDFVNLIGFDFYFNGKSEIEIYAEVQEDDFFKPEINNLVWQHFPKTALQPLKASSLFFTGLSKANNNPVLYYHLKNRQDLTNYFKLNDTAQRVHSFYQHQDILPYMWVGTAQKELEKTRIENIRLYYYKSFKM 5tug-a1-m1-cA_5tug-a1-m2-cC Archaellum periplasmic stator protein complex FlaF and FlaG from Sulfolobus acidocaldarius Q4J9K7 Q4J9K7 2.47 X-RAY DIFFRACTION 49 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 115 115 6pbk-a1-m1-cA_6pbk-a1-m3-cC MSSYSIQQSQKMLTQLQIDYATNTSSNTVVAYLHNVGETTISYLQNSVVYFGPNGQLQPVGYNSGSSPYWTVTSNSLQPGSVVKIIIYLSSPLSSNQYYTIQIVTPNGYTVSYMF MSSYSIQQSQKMLTQLQIDYATNTSSNTVVAYLHNVGETTISYLQNSVVYFGPNGQLQPVGYNSGSSPYWTVTSNSLQPGSVVKIIIYLSSPLSSNQYYTIQIVTPNGYTVSYMF 5tup-a1-m1-cB_5tup-a1-m1-cC X-ray Crystal Structure of the Aspergillus fumigatus Sliding Clamp A0A0J5SJF1 A0A0J5SJF1 2.602 X-RAY DIFFRACTION 51 1.0 1437362 (Aspergillus fumigatus Z5) 1437362 (Aspergillus fumigatus Z5) 254 255 5tup-a1-m1-cA_5tup-a1-m1-cB 5tup-a1-m1-cA_5tup-a1-m1-cC MLEARLEQASLLKRVVDAIKDLVQDCNFDCNDSGIALQAMDNSHVALVSMLLKAEGFSPYRCDRNIALGINLVSLTKVLRAAQNEDILTLKADDSPDAVNLMFESAETDRISEYDIKLMDIDQEHLAIPETEYAATVEMPSAEFQRICRDLNALSESVVIEATKEGVKFSCQGDIGSGSVTIRQHTSVDKPEQNVSIALSEPVALTFSLKYLVNFCKATSLSSKVTLCLSQEVPLLVEYGLGSGHLRFYLAPKI GMLEARLEQASLLKRVVDAIKDLVQDCNFDCNDSGIALQAMDNSHVALVSMLLKAEGFSPYRCDRNIALGINLVSLTKVLRAAQNEDILTLKADDSPDAVNLMFESAETDRISEYDIKLMDIDQEHLAIPETEYAATVEMPSAEFQRICRDLNALSESVVIEATKEGVKFSCQGDIGSGSVTIRQHTSVDKPEQNVSIALSEPVALTFSLKYLVNFCKATSLSSKVTLCLSQEVPLLVEYGLGSGHLRFYLAPKI 5tuu-a2-m1-cA_5tuu-a2-m2-cA Crystal structure of the E2F4-DP1 coiled coil and marked-box domains Q14186 Q14186 2.251 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 GEFAQECQNLEVERQRRLERIKQKQSQLQELILQQIAFKNLVQRNRHAEQQASRPPPPNSVIHLPFIIVNTSKKTVIDCSISNDKFEYLFNFDNTFEIHDDIEVLKRMGMACGLESGSCSAEDLKMARSLVPKALEPYVTEMAQ GEFAQECQNLEVERQRRLERIKQKQSQLQELILQQIAFKNLVQRNRHAEQQASRPPPPNSVIHLPFIIVNTSKKTVIDCSISNDKFEYLFNFDNTFEIHDDIEVLKRMGMACGLESGSCSAEDLKMARSLVPKALEPYVTEMAQ 5tuu-a2-m1-cB_5tuu-a2-m2-cB Crystal structure of the E2F4-DP1 coiled coil and marked-box domains Q16254 Q16254 2.251 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 106 REIADKLIELKAEIEELQQREQELDQHKVWVQQSIRNVTEDVQNSCLAYVTHEDICRCFAGDTLLAIRAPSGTSLEVPIPEGLNGQKKYQIHLKSVSGPIEVLLVN REIADKLIELKAEIEELQQREQELDQHKVWVQQSIRNVTEDVQNSCLAYVTHEDICRCFAGDTLLAIRAPSGTSLEVPIPEGLNGQKKYQIHLKSVSGPIEVLLVN 5tuv-a3-m1-cD_5tuv-a3-m1-cA Crystal structure of the E2F5-DP1-p107 ternary complex Q14186 Q14186 2.9 X-RAY DIFFRACTION 21 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 95 107 ERQRRLERIKQKQSQLQELILQQIAFKNLVQRNRHAEQPPPPNSVIHLPFIIVNTSKKTVIDCSISNDKFEYLFNFDNTFEIHDDIEVLKRMGMA FAQECQNLEVERQRRLERIKQKQSQLQELILQQIAFKNLVQRNRHAEQQARPPPPNSVIHLPFIIVNTSKKTVIDCSISNDKFEYLFNFDNTFEIHDDIEVLKRMGM 5tvl-a1-m1-cB_5tvl-a1-m1-cA Crystal structure of foldase protein PrsA from Streptococcus pneumoniae str. Canada MDR_19A B1IBE1 B1IBE1 2.55 X-RAY DIFFRACTION 127 0.996 637987 (Streptococcus pneumoniae str. Canada MDR_19A) 637987 (Streptococcus pneumoniae str. Canada MDR_19A) 266 270 ADLISMKGDVITEHQFYEQVKNNPSAQQVLLNMTIQKVFEKQYGSELDDKEVDDTIAEEKKQYGENYQRVLSQAGMTLETRKAQIRTSKLVELAVKKVAEAELTDEAYKKAFDEYTPDVTAQIIRLNNEDKAKEVLEKAKAADFAQLAKDNSTDEKTKENGGEITFDSASTEVPEQVKKAAFALDVDGVSDVITATYSSQYYIVKLTKKTEKSSNIDDYKEKLKTVILTQKQNDSTFVQSIIGKELQAANIKVKDQAFQNIFTQYI GADLISMKGDVITEHQFYEQVKNNPSAQQVLLNMTIQKVFEKQYGSELDDKEVDDTIAEEKKQYGENYQRVLSQAGMTLETRKAQIRTSKLVELAVKKVAEAELTDEAYKKAFDEYTPDVTAQIIRLNNEDKAKEVLEKAKADFAQLAKDNSTDEKTKENGGEITFDSASTEVPEQVKKAAFALDVDGVSDVITATGTQAYSSQYYIVKLTKKTEKSSNIDDYKEKLKTVILTQKQNDSTFVQSIIGKELQAANIKVKDQAFQNIFTQYI 5tvl-a1-m1-cB_5tvl-a1-m1-cD Crystal structure of foldase protein PrsA from Streptococcus pneumoniae str. Canada MDR_19A B1IBE1 B1IBE1 2.55 X-RAY DIFFRACTION 12 0.992 637987 (Streptococcus pneumoniae str. Canada MDR_19A) 637987 (Streptococcus pneumoniae str. Canada MDR_19A) 266 266 5tvl-a1-m1-cC_5tvl-a1-m1-cA ADLISMKGDVITEHQFYEQVKNNPSAQQVLLNMTIQKVFEKQYGSELDDKEVDDTIAEEKKQYGENYQRVLSQAGMTLETRKAQIRTSKLVELAVKKVAEAELTDEAYKKAFDEYTPDVTAQIIRLNNEDKAKEVLEKAKAADFAQLAKDNSTDEKTKENGGEITFDSASTEVPEQVKKAAFALDVDGVSDVITATYSSQYYIVKLTKKTEKSSNIDDYKEKLKTVILTQKQNDSTFVQSIIGKELQAANIKVKDQAFQNIFTQYI GADLISMKGDVITEHQFYEQVKNNPSAQQVLLNMTIQKVFEKQYGSELDDKEVDDTIAEEKKQYGENYQRVLSQAGMTLETRKAQIRTSKLVELAVKKVAEAELTDEAYKKAFDEYTPDVTAQIIRLNNEDKAKEVLEKAKAGADFAQLAKDNSTDEKTKENGGEITFDSASTEVPEQVKKAAFALDVDGVSDVITATSQYYIVKLTKKTEKSSNIDDYKEKLKTVILTQKQNDSTFVQSIIGKELQAANIKVKDQAFQNIFTQYI 5tvl-a1-m1-cD_5tvl-a1-m1-cA Crystal structure of foldase protein PrsA from Streptococcus pneumoniae str. Canada MDR_19A B1IBE1 B1IBE1 2.55 X-RAY DIFFRACTION 131 0.992 637987 (Streptococcus pneumoniae str. Canada MDR_19A) 637987 (Streptococcus pneumoniae str. Canada MDR_19A) 266 270 5tvl-a1-m1-cB_5tvl-a1-m1-cC GADLISMKGDVITEHQFYEQVKNNPSAQQVLLNMTIQKVFEKQYGSELDDKEVDDTIAEEKKQYGENYQRVLSQAGMTLETRKAQIRTSKLVELAVKKVAEAELTDEAYKKAFDEYTPDVTAQIIRLNNEDKAKEVLEKAKAGADFAQLAKDNSTDEKTKENGGEITFDSASTEVPEQVKKAAFALDVDGVSDVITATSQYYIVKLTKKTEKSSNIDDYKEKLKTVILTQKQNDSTFVQSIIGKELQAANIKVKDQAFQNIFTQYI GADLISMKGDVITEHQFYEQVKNNPSAQQVLLNMTIQKVFEKQYGSELDDKEVDDTIAEEKKQYGENYQRVLSQAGMTLETRKAQIRTSKLVELAVKKVAEAELTDEAYKKAFDEYTPDVTAQIIRLNNEDKAKEVLEKAKADFAQLAKDNSTDEKTKENGGEITFDSASTEVPEQVKKAAFALDVDGVSDVITATGTQAYSSQYYIVKLTKKTEKSSNIDDYKEKLKTVILTQKQNDSTFVQSIIGKELQAANIKVKDQAFQNIFTQYI 5tw7-a2-m1-cE_5tw7-a2-m1-cB Crystal structure of a GMP synthase (glutamine-hydrolyzing) from Neisseria gonorrhoeae B4RJH7 B4RJH7 2.35 X-RAY DIFFRACTION 115 0.998 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 489 490 5tw7-a1-m1-cA_5tw7-a1-m1-cD 5tw7-a3-m1-cF_5tw7-a3-m1-cC QDKILILDFGSQVTRLIARRVREAHVYCELHSFDMPLDEIKAFNPKGIILSGGPNSVYESDYQADTGIFDLGIPVLGICYGMQFMAHHLGGEVQPGNQREFGYAQVKTIDSGLTRGIQDDAPNTLDVWMSHGDKVSKLPDGFAVIGDTPSCPIAMMENTEKQFYGIQFHPEVTHTKQGRALLNRFVLDICGAQPGWTMPNYIEEAVAKIREQVGSDEVILGLSGGVDSSVAAALIHRAIGDQLTCVFVDHGLLRLNEGKMVMDMFARNLGVKVIHVDAEGQFMAKLAGVTDPEKKRKIIGAEFIEVFDAEEKKLTNAKWLAQGTIYPDVILKLLEPLRDLFKDEVRELGVALGLPREMVYRHPFPGPGLGVRILGEVKKEYADLLRQADDIFIQELRNTTDENGTSWYDLTSQAFAVFLPVKSVGVMRTYDYVVALRAVITSDFMTAHWAELPYSLLGRVSNRIINEVKGINRVVYDVSGKPPATIEWE TQDKILILDFGSQVTRLIARRVREAHVYCELHSFDMPLDEIKAFNPKGIILSGGPNSVYESDYQADTGIFDLGIPVLGICYGMQFMAHHLGGEVQPGNQREFGYAQVKTIDSGLTRGIQDDAPNTLDVWMSHGDKVSKLPDGFAVIGDTPSCPIAMMENTEKQFYGIQFHPEVTHTKQGRALLNRFVLDICGAQPGWTMPNYIEEAVAKIREQVGSDEVILGLSGGVDSSVAAALIHRAIGDQLTCVFVDHGLLRLNEGKMVMDMFARNLGVKVIHVDAEGQFMAKLAGVTDPEKKRKIIGAEFIEVFDAEEKKLTNAKWLAQGTIYPDVIKLKLLEPLRDLFKDEVRELGVALGLPREMVYRHPFPGPGLGVRILGEVKKEYADLLRQADDIFIQELRNTTDENGTSWYDLTSQAFAVFLPVKSVGVRTYDYVVALRAVITSDFMTAHWAELPYSLLGRVSNRIINEVKGINRVVYDVSGKPPATIEWE 5tw9-a2-m1-cC_5tw9-a2-m1-cD 1.50 Angstrom Crystal Structure of C-terminal Fragment (residues 322-384) of Iron Uptake System Component EfeO from Yersinia pestis. Q0WFT9 Q0WFT9 1.5 X-RAY DIFFRACTION 69 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 63 63 5tw9-a1-m1-cB_5tw9-a1-m1-cA 5tw9-a3-m1-cE_5tw9-a3-m1-cF DKPLLQKIDANFNTVDSVLAKYRTKEGYESYEKLTDADRNAMKGPITALAEDLAQLRGVLGLD DKPLLQKIDANFNTVDSVLAKYRTKEGYESYEKLTDADRNAMKGPITALAEDLAQLRGVLGLD 5twb-a1-m1-cA_5twb-a1-m2-cA Oxidoreductase IruO in the reduced form Q2FEC4 Q2FEC4 1.822 X-RAY DIFFRACTION 201 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 344 344 MKDVTIIGGGPSGLYASFYAGLRDMSVRLIDVQSELGGKMRIYPEKIIWDIGGIAPKPCHEILKDTIKQGLYFKPEVHLNERVVDIRKKAERHFEVETEAGEIYTSKAVIIAIGAGIINPKQLDVKGVERYQLTNLHYVVQSYRRFKDKDVLISGGGNTALDWAHDIAKIAKSVTVVYRKEDVSGHEAMKTLVTDLNVKLCPKTRIKYLVGNDDETHISEVVLEHVESGDRHTVKFDDVIISHGFDRCNTLLSETSSKLDMHDDCRVKGFGNTTTSIPGIYACGDIVYHDAKSHLIASAFSDGANAANLAKTYIQPDANAEGYVSSHHEVFKEANKTIVNKHLY MKDVTIIGGGPSGLYASFYAGLRDMSVRLIDVQSELGGKMRIYPEKIIWDIGGIAPKPCHEILKDTIKQGLYFKPEVHLNERVVDIRKKAERHFEVETEAGEIYTSKAVIIAIGAGIINPKQLDVKGVERYQLTNLHYVVQSYRRFKDKDVLISGGGNTALDWAHDIAKIAKSVTVVYRKEDVSGHEAMKTLVTDLNVKLCPKTRIKYLVGNDDETHISEVVLEHVESGDRHTVKFDDVIISHGFDRCNTLLSETSSKLDMHDDCRVKGFGNTTTSIPGIYACGDIVYHDAKSHLIASAFSDGANAANLAKTYIQPDANAEGYVSSHHEVFKEANKTIVNKHLY 5twc-a1-m1-cA_5twc-a1-m2-cA Oxidoreductase IruO in the oxidized form Q2FEC4 Q2FEC4 2.31 X-RAY DIFFRACTION 231 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 344 344 6a4j-a1-m1-cB_6a4j-a1-m1-cA MKDVTIIGGGPSGLYASFYAGLRDMSVRLIDVQSELGGKMRIYPEKIIWDIGGIAPKPCHEILKDTIKQGLYFKPEVHLNERVVDIRKKAERHFEVETEAGEIYTSKAVIIAIGAGIINPKQLDVKGVERYQLTNLHYVVQSYRRFKDKDVLISGGGNTALDWAHDIAKIAKSVTVVYRKEDVSGHEAMKTLVTDLNVKLCPKTRIKYLVGNDDETHISEVVLEHVESGDRHTVKFDDVIISHGFDRCNTLLSETSSKLDMHDDCRVKGFGNTTTSIPGIYACGDIVYHDAKSHLIASAFSDGANAANLAKTYIQPDANAEGYVSSHHEVFKEANKTIVNKHLY MKDVTIIGGGPSGLYASFYAGLRDMSVRLIDVQSELGGKMRIYPEKIIWDIGGIAPKPCHEILKDTIKQGLYFKPEVHLNERVVDIRKKAERHFEVETEAGEIYTSKAVIIAIGAGIINPKQLDVKGVERYQLTNLHYVVQSYRRFKDKDVLISGGGNTALDWAHDIAKIAKSVTVVYRKEDVSGHEAMKTLVTDLNVKLCPKTRIKYLVGNDDETHISEVVLEHVESGDRHTVKFDDVIISHGFDRCNTLLSETSSKLDMHDDCRVKGFGNTTTSIPGIYACGDIVYHDAKSHLIASAFSDGANAANLAKTYIQPDANAEGYVSSHHEVFKEANKTIVNKHLY 5twj-a2-m1-cA_5twj-a2-m1-cB Crystal Structure of RlmH in Complex with S-Adenosylmethionine P0A8I8 P0A8I8 2.299 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 157 157 1ns5-a1-m1-cA_1ns5-a1-m1-cB 5twj-a1-m1-cC_5twj-a1-m1-cD 5twk-a1-m1-cC_5twk-a1-m1-cD 5twk-a2-m1-cA_5twk-a2-m1-cB HHVKLQLVAVGTKMPDWVQTGFTEYLRRFPKDMPFELIEIPAGKRGKNADIKRILDKEGEQMLAAAGKNRIVTLDIPGKPWDTPQLAAELERWKLDGRDVSLLIGGPEGLSPACKAAAEQSWSLSALTLPHPLVRVLVAESLYRAWSITTNHPYHRE HHVKLQLVAVGTKMPDWVQTGFTEYLRRFPKDMPFELIEIPAGKRGKNADIKRILDKEGEQMLAAAGKNRIVTLDIPGKPWDTPQLAAELERWKLDGRDVSLLIGGPEGLSPACKAAAEQSWSLSALTLPHPLVRVLVAESLYRAWSITTNHPYHRE 5twx-a5-m1-cD_5twx-a5-m1-cB Crystal Structure of BRD9 bromodomain Q9H8M2 Q9H8M2 2.55 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 111 5twx-a5-m1-cC_5twx-a5-m1-cA ESTPIQQLLEHFLRQLQRKDPHGFFAFPVTDAIAPGYSMIIKHPMDFGTMKDKIVANEYKSVTEFKADFKLMCDNAMTYNRPDTVYYKLAKKILHAGFKMMSKQAALLG ESTPIQQLLEHFLRQLQRKDPHGFFAFPVTDAIAPGYSMIIKHPMDFGTMKDKIVANEYKSVTEFKADFKLMCDNAMTYNRPDTVYYKLAKKILHAGFKMMSKQAALLGNE 5tx7-a1-m1-cB_5tx7-a1-m1-cA Crystal structure of D-isomer specific 2-hydroxyacid dehydrogenase from Desulfovibrio vulgaris Q72C72 Q72C72 2.51 X-RAY DIFFRACTION 199 1.0 881 (Desulfovibrio vulgaris) 881 (Desulfovibrio vulgaris) 322 323 MRIVALDGYTLNPGDISWAPIEELGELVVHPRTPSDKIIERAAGAHVVLTNKVPLDMSALQALPGLRFVSVLATGYDKVDVAAAGVLGIPVSNVPGYGTDSVAQHVFALLLELCRRTALHDHRIRAGAWTQSPDWCFWDSTQEELTGKTMGIVGFGNTGRRVGRIANALGMNVIAYAPRSRFDPDYRPFEHVGLDELFTSADVVSLHCPLTPETEGLVDARRLASMRPGSYLINTARGPLLDERAVAEALDSGRLAGAGLDVLSQEPPAADNPLLSAKNCLITPHLAWASRTARRTLMDSTAANIRSFIEGTPVNVVNAAHL SMRIVALDGYTLNPGDISWAPIEELGELVVHPRTPSDKIIERAAGAHVVLTNKVPLDMSALQALPGLRFVSVLATGYDKVDVAAAGVLGIPVSNVPGYGTDSVAQHVFALLLELCRRTALHDHRIRAGAWTQSPDWCFWDSTQEELTGKTMGIVGFGNTGRRVGRIANALGMNVIAYAPRSRFDPDYRPFEHVGLDELFTSADVVSLHCPLTPETEGLVDARRLASMRPGSYLINTARGPLLDERAVAEALDSGRLAGAGLDVLSQEPPAADNPLLSAKNCLITPHLAWASRTARRTLMDSTAANIRSFIEGTPVNVVNAAHL 5txd-a1-m7-cZ_5txd-a1-m8-cZ Structure of amyloid-beta derived peptide - NKGAIF P05067 P05067 1.452 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5txd-a1-m1-cZ_5txd-a1-m2-cZ 5txd-a1-m3-cZ_5txd-a1-m4-cZ 5txd-a1-m5-cZ_5txd-a1-m6-cZ NKGAIF NKGAIF 5txe-a3-m1-cA_5txe-a3-m1-cB AtxE2 Isopeptidase - S527A Variant with Astexin3-dC4 Bound E8RUP5 E8RUP5 2.2 X-RAY DIFFRACTION 105 1.0 573065 (Asticcacaulis excentricus CB 48) 573065 (Asticcacaulis excentricus CB 48) 652 652 5txc-a3-m1-cA_5txc-a3-m1-cB APPVTPEVLVRLADIGTMSASETTPLLSLSPDGRYVAFQVRQADPVTNLNVFRMVVKATDGATDAIDVDVGGEYLFWTIPSWGYARNAPSGANLTIQPRWSPSGTHLAYLRQDQGRVRVWRASVKGEGASPVIEDAYDIEDVQWLDDNTLIYSGRPGFVEAEAEIEREGRRGWVYDERFHPLTGARPRVLEPISIVYQVLDLKTGTRRAATPTEVARLREKPDPLRAMVGRTTFSVSRTDPQNINAPTTLVARRGEGEPVRCDEEACQNITRMWGDETANVLYFLRREGWASNEMALYRMPADALKPVRIWHATGLLQGCERQAKRLICAQESALQPRRLVTLNLTSGQMSPLYDPNPDLSRYRLPKVERLTLRNRNGIEVFSDLVLPPDYQLGTRLPLVIVQYSSRGFLRGGTGDENPILPLATAGFAVLSFHSPRSEASYQRFTSPIAQSKAEYSNWRNRWNILHTLEDLIDDLDRRGVIDPARVGLTGLADGATTVHFGLINSHRFAAAVTSSCCTDSFTASVMNGPRISGALKAYGIETDQADDGPFWAATSFVVNASRLDTPLLIQSADEEYLGALPGFTALQQARKPVELIIYPNEHHVKWQPAHRLAVYNRTIDWFRFWLMDQSDPAPDKAAQYDRWRALRALRQ APPVTPEVLVRLADIGTMSASETTPLLSLSPDGRYVAFQVRQADPVTNLNVFRMVVKATDGATDAIDVDVGGEYLFWTIPSWGYARNAPSGANLTIQPRWSPSGTHLAYLRQDQGRVRVWRASVKGEGASPVIEDAYDIEDVQWLDDNTLIYSGRPGFVEAEAEIEREGRRGWVYDERFHPLTGARPRVLEPISIVYQVLDLKTGTRRAATPTEVARLREKPDPLRAMVGRTTFSVSRTDPQNINAPTTLVARRGEGEPVRCDEEACQNITRMWGDETANVLYFLRREGWASNEMALYRMPADALKPVRIWHATGLLQGCERQAKRLICAQESALQPRRLVTLNLTSGQMSPLYDPNPDLSRYRLPKVERLTLRNRNGIEVFSDLVLPPDYQLGTRLPLVIVQYSSRGFLRGGTGDENPILPLATAGFAVLSFHSPRSEASYQRFTSPIAQSKAEYSNWRNRWNILHTLEDLIDDLDRRGVIDPARVGLTGLADGATTVHFGLINSHRFAAAVTSSCCTDSFTASVMNGPRISGALKAYGIETDQADDGPFWAATSFVVNASRLDTPLLIQSADEEYLGALPGFTALQQARKPVELIIYPNEHHVKWQPAHRLAVYNRTIDWFRFWLMDQSDPAPDKAAQYDRWRALRALRQ 5txh-a1-m1-cB_5txh-a1-m1-cC Polymorphic form 2 of amyloid-beta derived peptide - IFAEDV 1.45 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 IFAEDV IFAEDV 5txh-a1-m1-cD_5txh-a1-m3-cD Polymorphic form 2 of amyloid-beta derived peptide - IFAEDV 1.45 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 IFAEDV IFAEDV 5txj-a1-m4-cA_5txj-a1-m4-cB Polymorphic form 1 of amyloid-beta derived peptide - IFAEDV 1.13 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5txh-a1-m1-cA_5txh-a1-m2-cA 5txj-a1-m1-cA_5txj-a1-m1-cB 5txj-a1-m1-cA_5txj-a1-m2-cB 5txj-a1-m2-cA_5txj-a1-m2-cB 5txj-a1-m3-cA_5txj-a1-m3-cB 5txj-a1-m3-cA_5txj-a1-m4-cB IFAEDV IFAEDV 5txp-a1-m1-cB_5txp-a1-m1-cA STRUCTURE OF Q151M complex (A62V, V75I, F77L, F116Y, Q151M) mutant HIV-1 REVERSE TRANSCRIPTASE (RT) TERNARY COMPLEX WITH A DOUBLE STRANDED DNA AND AN INCOMING DDATP P03366 P03366 2.7 X-RAY DIFFRACTION 205 0.985 11678 (Human immunodeficiency virus type 1 BH10) 11678 (Human immunodeficiency virus type 1 BH10) 412 556 1bqm-a1-m1-cB_1bqm-a1-m1-cA 1bqn-a1-m1-cB_1bqn-a1-m1-cA 1c0u-a1-m1-cB_1c0u-a1-m1-cA 1c1b-a1-m1-cB_1c1b-a1-m1-cA 1c1c-a1-m1-cB_1c1c-a1-m1-cA 1dlo-a1-m1-cB_1dlo-a1-m1-cA 1dtq-a1-m1-cB_1dtq-a1-m1-cA 1dtt-a1-m1-cB_1dtt-a1-m1-cA 1fk9-a1-m1-cB_1fk9-a1-m1-cA 1fko-a1-m1-cB_1fko-a1-m1-cA 1fkp-a1-m1-cB_1fkp-a1-m1-cA 1hni-a1-m1-cB_1hni-a1-m1-cA 1hnv-a1-m1-cB_1hnv-a1-m1-cA 1hpz-a1-m1-cB_1hpz-a1-m1-cA 1hqe-a1-m1-cB_1hqe-a1-m1-cA 1hqu-a1-m1-cB_1hqu-a1-m1-cA 1hvu-a1-m1-cB_1hvu-a1-m1-cA 1hvu-a2-m1-cE_1hvu-a2-m1-cD 1hvu-a3-m1-cH_1hvu-a3-m1-cG 1hvu-a4-m1-cK_1hvu-a4-m1-cJ 1hys-a1-m1-cB_1hys-a1-m1-cA 1ikv-a1-m1-cB_1ikv-a1-m1-cA 1ikv-a2-m1-cB_1ikv-a2-m1-cA 1ikv-a2-m2-cB_1ikv-a2-m2-cA 1ikw-a1-m1-cB_1ikw-a1-m1-cA 1ikw-a2-m1-cB_1ikw-a2-m1-cA 1ikw-a2-m2-cB_1ikw-a2-m2-cA 1ikx-a1-m1-cB_1ikx-a1-m1-cA 1ikx-a2-m1-cB_1ikx-a2-m1-cA 1ikx-a2-m2-cB_1ikx-a2-m2-cA 1iky-a1-m1-cB_1iky-a1-m1-cA 1iky-a2-m1-cB_1iky-a2-m1-cA 1iky-a2-m2-cB_1iky-a2-m2-cA 1j5o-a1-m1-cB_1j5o-a1-m1-cA 1jkh-a1-m1-cB_1jkh-a1-m1-cA 1jla-a1-m1-cB_1jla-a1-m1-cA 1jlb-a1-m1-cB_1jlb-a1-m1-cA 1jlf-a1-m1-cB_1jlf-a1-m1-cA 1jlq-a1-m1-cB_1jlq-a1-m1-cA 1klm-a1-m1-cB_1klm-a1-m1-cA 1n5y-a1-m1-cB_1n5y-a1-m1-cA 1n6q-a1-m1-cB_1n6q-a1-m1-cA 1qe1-a1-m1-cB_1qe1-a1-m1-cA 1r0a-a1-m1-cB_1r0a-a1-m1-cA 1rev-a1-m1-cB_1rev-a1-m1-cA 1rt1-a1-m1-cB_1rt1-a1-m1-cA 1rt2-a1-m1-cB_1rt2-a1-m1-cA 1rt3-a1-m1-cB_1rt3-a1-m1-cA 1rt4-a1-m1-cB_1rt4-a1-m1-cA 1rt5-a1-m1-cB_1rt5-a1-m1-cA 1rt6-a1-m1-cB_1rt6-a1-m1-cA 1rt7-a1-m1-cB_1rt7-a1-m1-cA 1rtd-a1-m1-cB_1rtd-a1-m1-cA 1rtd-a2-m1-cD_1rtd-a2-m1-cC 1rth-a1-m1-cB_1rth-a1-m1-cA 1rti-a1-m1-cB_1rti-a1-m1-cA 1rtj-a1-m1-cB_1rtj-a1-m1-cA 1s1t-a1-m1-cB_1s1t-a1-m1-cA 1s1u-a1-m1-cB_1s1u-a1-m1-cA 1s1v-a1-m1-cB_1s1v-a1-m1-cA 1s1w-a1-m1-cB_1s1w-a1-m1-cA 1s1x-a1-m1-cB_1s1x-a1-m1-cA 1s6p-a1-m1-cB_1s6p-a1-m1-cA 1s6q-a1-m1-cB_1s6q-a1-m1-cA 1s9e-a1-m1-cB_1s9e-a1-m1-cA 1s9g-a1-m1-cB_1s9g-a1-m1-cA 1suq-a1-m1-cB_1suq-a1-m1-cA 1sv5-a1-m1-cB_1sv5-a1-m1-cA 1t03-a1-m1-cB_1t03-a1-m1-cA 1t05-a1-m1-cB_1t05-a1-m1-cA 1tkt-a1-m1-cB_1tkt-a1-m1-cA 1tkx-a1-m1-cB_1tkx-a1-m1-cA 1tkz-a1-m1-cB_1tkz-a1-m1-cA 1tl1-a1-m1-cB_1tl1-a1-m1-cA 1tl3-a1-m1-cB_1tl3-a1-m1-cA 1tv6-a1-m1-cB_1tv6-a1-m1-cA 1tvr-a1-m1-cB_1tvr-a1-m1-cA 1uwb-a1-m1-cB_1uwb-a1-m1-cA 1vrt-a1-m1-cB_1vrt-a1-m1-cA 1vru-a1-m1-cB_1vru-a1-m1-cA 2b5j-a1-m1-cB_2b5j-a1-m1-cA 2b6a-a1-m1-cB_2b6a-a1-m1-cA 2ban-a1-m1-cB_2ban-a1-m1-cA 2be2-a1-m1-cB_2be2-a1-m1-cA 2hmi-a1-m1-cB_2hmi-a1-m1-cA 2hnd-a1-m1-cB_2hnd-a1-m1-cA 2hny-a1-m1-cB_2hny-a1-m1-cA 2hnz-a1-m1-cB_2hnz-a1-m1-cA 2i5j-a1-m1-cB_2i5j-a1-m1-cA 2iaj-a1-m1-cB_2iaj-a1-m1-cA 2ic3-a1-m1-cB_2ic3-a1-m1-cA 2jle-a1-m1-cB_2jle-a1-m1-cA 2opp-a1-m1-cB_2opp-a1-m1-cA 2opq-a1-m1-cB_2opq-a1-m1-cA 2ops-a1-m1-cB_2ops-a1-m1-cA 2rf2-a1-m1-cB_2rf2-a1-m1-cA 2rki-a1-m1-cB_2rki-a1-m1-cA 2vg5-a1-m1-cB_2vg5-a1-m1-cA 2vg6-a1-m1-cB_2vg6-a1-m1-cA 2vg7-a1-m1-cB_2vg7-a1-m1-cA 2wom-a1-m1-cB_2wom-a1-m1-cA 2won-a1-m1-cB_2won-a1-m1-cA 2ykm-a1-m1-cB_2ykm-a1-m1-cA 2ykn-a1-m1-cB_2ykn-a1-m1-cA 2ynf-a1-m1-cB_2ynf-a1-m1-cA 2yng-a1-m1-cB_2yng-a1-m1-cA 2ynh-a1-m1-cB_2ynh-a1-m1-cA 2yni-a1-m1-cB_2yni-a1-m1-cA 2zd1-a1-m1-cB_2zd1-a1-m1-cA 2ze2-a1-m1-cB_2ze2-a1-m1-cA 3bgr-a1-m1-cB_3bgr-a1-m1-cA 3c6t-a1-m1-cB_3c6t-a1-m1-cA 3c6u-a1-m1-cB_3c6u-a1-m1-cA 3di6-a1-m1-cB_3di6-a1-m1-cA 3di6-a1-m2-cB_3di6-a1-m2-cA 3di6-a2-m1-cB_3di6-a2-m1-cA 3dle-a1-m1-cB_3dle-a1-m1-cA 3dlg-a1-m1-cB_3dlg-a1-m1-cA 3dlk-a1-m1-cB_3dlk-a1-m1-cA 3dm2-a1-m1-cB_3dm2-a1-m1-cA 3dmj-a1-m1-cB_3dmj-a1-m1-cA 3dok-a1-m1-cB_3dok-a1-m1-cA 3dol-a1-m1-cB_3dol-a1-m1-cA 3drp-a1-m1-cB_3drp-a1-m1-cA 3drr-a1-m1-cB_3drr-a1-m1-cA 3drs-a1-m1-cB_3drs-a1-m1-cA 3dya-a1-m1-cB_3dya-a1-m1-cA 3e01-a1-m1-cB_3e01-a1-m1-cA 3ffi-a1-m1-cB_3ffi-a1-m1-cA 3ffi-a2-m1-cB_3ffi-a2-m1-cA 3ffi-a2-m2-cB_3ffi-a2-m2-cA 3hvt-a1-m1-cB_3hvt-a1-m1-cA 3i0r-a1-m1-cB_3i0r-a1-m1-cA 3i0r-a2-m1-cB_3i0r-a2-m1-cA 3i0r-a2-m2-cB_3i0r-a2-m2-cA 3i0s-a1-m1-cB_3i0s-a1-m1-cA 3i0s-a2-m1-cB_3i0s-a2-m1-cA 3i0s-a2-m2-cB_3i0s-a2-m2-cA 3ig1-a1-m1-cB_3ig1-a1-m1-cA 3irx-a1-m1-cB_3irx-a1-m1-cA 3is9-a1-m1-cB_3is9-a1-m1-cA 3isn-a1-m1-cD_3isn-a1-m1-cC 3ith-a1-m1-cB_3ith-a1-m1-cA 3ith-a2-m1-cD_3ith-a2-m1-cC 3jsm-a1-m1-cB_3jsm-a1-m1-cA 3jyt-a1-m1-cB_3jyt-a1-m1-cA 3kjv-a1-m1-cB_3kjv-a1-m1-cA 3kk1-a1-m1-cB_3kk1-a1-m1-cA 3kk2-a1-m1-cB_3kk2-a1-m1-cA 3kk3-a1-m1-cB_3kk3-a1-m1-cA 3kle-a2-m1-cF_3kle-a2-m1-cE 3kle-a3-m1-cJ_3kle-a3-m1-cI 3kle-a4-m1-cN_3kle-a4-m1-cM 3klf-a1-m1-cB_3klf-a1-m1-cA 3klf-a2-m1-cF_3klf-a2-m1-cE 3klf-a3-m1-cJ_3klf-a3-m1-cI 3klf-a4-m1-cN_3klf-a4-m1-cM 3klg-a1-m1-cB_3klg-a1-m1-cA 3klg-a2-m1-cF_3klg-a2-m1-cE 3klh-a1-m1-cB_3klh-a1-m1-cA 3kli-a1-m1-cB_3kli-a1-m1-cA 3lak-a1-m1-cB_3lak-a1-m1-cA 3lal-a1-m1-cB_3lal-a1-m1-cA 3lam-a1-m1-cB_3lam-a1-m1-cA 3lan-a1-m1-cB_3lan-a1-m1-cA 3lp0-a1-m1-cB_3lp0-a1-m1-cA 3lp0-a2-m1-cB_3lp0-a2-m1-cA 3lp0-a2-m2-cB_3lp0-a2-m2-cA 3lp1-a1-m1-cB_3lp1-a1-m1-cA 3lp1-a2-m1-cB_3lp1-a2-m1-cA 3lp1-a2-m2-cB_3lp1-a2-m2-cA 3lp2-a1-m1-cB_3lp2-a1-m1-cA 3lp2-a2-m1-cB_3lp2-a2-m1-cA 3lp2-a2-m2-cB_3lp2-a2-m2-cA 3m8p-a1-m1-cB_3m8p-a1-m1-cA 3m8q-a1-m1-cB_3m8q-a1-m1-cA 3mec-a1-m1-cB_3mec-a1-m1-cA 3med-a1-m1-cB_3med-a1-m1-cA 3mee-a1-m1-cB_3mee-a1-m1-cA 3meg-a1-m1-cB_3meg-a1-m1-cA 3nbp-a1-m1-cB_3nbp-a1-m1-cA 3qip-a1-m1-cB_3qip-a1-m1-cA 3qip-a2-m1-cB_3qip-a2-m1-cA 3qip-a2-m2-cB_3qip-a2-m2-cA 3qlh-a1-m1-cB_3qlh-a1-m1-cA 3qo9-a1-m1-cB_3qo9-a1-m1-cA 3t19-a1-m1-cB_3t19-a1-m1-cA 3t19-a2-m1-cB_3t19-a2-m1-cA 3t19-a2-m2-cB_3t19-a2-m2-cA 3t1a-a1-m1-cB_3t1a-a1-m1-cA 3t1a-a2-m1-cB_3t1a-a2-m1-cA 3t1a-a2-m2-cB_3t1a-a2-m2-cA 3tam-a1-m1-cB_3tam-a1-m1-cA 3v4i-a1-m1-cB_3v4i-a1-m1-cA 3v4i-a2-m1-cD_3v4i-a2-m1-cC 3v6d-a1-m1-cB_3v6d-a1-m1-cA 3v6d-a2-m1-cD_3v6d-a2-m1-cC 3v81-a1-m1-cB_3v81-a1-m1-cA 3v81-a2-m1-cD_3v81-a2-m1-cC 4dg1-a1-m1-cB_4dg1-a1-m1-cA 4g1q-a1-m1-cB_4g1q-a1-m1-cA 4h4m-a1-m1-cB_4h4m-a1-m1-cA 4h4o-a1-m1-cB_4h4o-a1-m1-cA 4i2p-a1-m1-cB_4i2p-a1-m1-cA 4i2q-a1-m1-cB_4i2q-a1-m1-cA 4i7f-a1-m1-cB_4i7f-a1-m1-cA 4i7f-a2-m1-cB_4i7f-a2-m1-cA 4i7f-a2-m2-cB_4i7f-a2-m2-cA 4icl-a1-m1-cB_4icl-a1-m1-cA 4id5-a1-m1-cB_4id5-a1-m1-cA 4idk-a1-m1-cB_4idk-a1-m1-cA 4ifv-a1-m1-cB_4ifv-a1-m1-cA 4ify-a1-m1-cB_4ify-a1-m1-cA 4ig0-a1-m1-cB_4ig0-a1-m1-cA 4ig3-a1-m1-cB_4ig3-a1-m1-cA 4kfb-a1-m1-cB_4kfb-a1-m1-cA 4kko-a1-m1-cB_4kko-a1-m1-cA 4ko0-a1-m1-cB_4ko0-a1-m1-cA 4kv8-a1-m1-cB_4kv8-a1-m1-cA 4lsl-a1-m1-cB_4lsl-a1-m1-cA 4lsn-a1-m1-cB_4lsn-a1-m1-cA 4mfb-a1-m1-cB_4mfb-a1-m1-cA 4ncg-a1-m1-cB_4ncg-a1-m1-cA 4ncg-a1-m2-cB_4ncg-a1-m2-cA 4ncg-a2-m1-cB_4ncg-a2-m1-cA 4o44-a1-m1-cB_4o44-a1-m1-cA 4o4g-a1-m1-cB_4o4g-a1-m1-cA 4pqu-a1-m1-cB_4pqu-a1-m1-cA 4pqu-a2-m1-cD_4pqu-a2-m1-cC 4puo-a1-m1-cB_4puo-a1-m1-cA 4puo-a2-m1-cD_4puo-a2-m1-cC 4pwd-a1-m1-cB_4pwd-a1-m1-cA 4pwd-a2-m1-cD_4pwd-a2-m1-cC 4q0b-a1-m1-cB_4q0b-a1-m1-cA 4q0b-a2-m1-cD_4q0b-a2-m1-cC 4r5p-a1-m1-cB_4r5p-a1-m1-cA 4r5p-a2-m1-cD_4r5p-a2-m1-cC 4rw8-a1-m1-cB_4rw8-a1-m1-cA 4we1-a1-m1-cB_4we1-a1-m1-cA 4zhr-a1-m1-cB_4zhr-a1-m1-cA 5c24-a1-m1-cB_5c24-a1-m1-cA 5c25-a1-m1-cB_5c25-a1-m1-cA 5c42-a1-m1-cB_5c42-a1-m1-cA 5cym-a1-m1-cB_5cym-a1-m1-cA 5cyq-a1-m1-cB_5cyq-a1-m1-cA 5d3g-a1-m1-cB_5d3g-a1-m1-cA 5d3g-a2-m1-cD_5d3g-a2-m1-cC 5fdl-a1-m1-cB_5fdl-a1-m1-cA 5hbm-a1-m1-cB_5hbm-a1-m1-cA 5hlf-a1-m1-cB_5hlf-a1-m1-cA 5hlf-a2-m1-cD_5hlf-a2-m1-cC 5hp1-a1-m1-cB_5hp1-a1-m1-cA 5hp1-a2-m1-cD_5hp1-a2-m1-cC 5hro-a1-m1-cB_5hro-a1-m1-cA 5hro-a2-m1-cD_5hro-a2-m1-cC 5i3u-a1-m1-cB_5i3u-a1-m1-cA 5i3u-a2-m1-cD_5i3u-a2-m1-cC 5i42-a1-m1-cB_5i42-a1-m1-cA 5i42-a2-m1-cD_5i42-a2-m1-cC 5j1e-a2-m1-cD_5j1e-a2-m1-cC 5j2m-a1-m1-cB_5j2m-a1-m1-cA 5j2n-a1-m1-cB_5j2n-a1-m1-cA 5j2p-a1-m1-cB_5j2p-a1-m1-cA 5k14-a1-m1-cB_5k14-a1-m1-cA 5tuq-a1-m1-cB_5tuq-a1-m1-cA 5tw3-a1-m1-cB_5tw3-a1-m1-cA 5txl-a1-m1-cB_5txl-a1-m1-cA 5txl-a2-m1-cD_5txl-a2-m1-cC 5txm-a1-m1-cB_5txm-a1-m1-cA 5txm-a2-m1-cD_5txm-a2-m1-cC 5txn-a1-m1-cB_5txn-a1-m1-cA 5txn-a2-m1-cD_5txn-a2-m1-cC 5txo-a1-m1-cB_5txo-a1-m1-cA 5txo-a2-m1-cD_5txo-a2-m1-cC 5txp-a2-m1-cD_5txp-a2-m1-cC 5uv5-a2-m1-cD_5uv5-a2-m1-cC 5vqs-a1-m1-cB_5vqs-a1-m1-cA 5vz6-a1-m1-cB_5vz6-a1-m1-cA 5vz6-a2-m1-cB_5vz6-a2-m1-cA 5vz6-a2-m2-cB_5vz6-a2-m2-cA 5xn0-a1-m1-cB_5xn0-a1-m1-cA 5xn0-a2-m1-cD_5xn0-a2-m1-cC 5xn1-a1-m1-cB_5xn1-a1-m1-cA 5xn1-a2-m1-cD_5xn1-a2-m1-cC 5xn2-a1-m1-cB_5xn2-a1-m1-cA 5xn2-a2-m1-cD_5xn2-a2-m1-cC 6amo-a1-m1-cB_6amo-a1-m1-cA 6amo-a2-m1-cD_6amo-a2-m1-cC 6an2-a1-m1-cB_6an2-a1-m1-cA 6an2-a2-m1-cD_6an2-a2-m1-cC 6an8-a1-m1-cB_6an8-a1-m1-cA 6an8-a2-m1-cD_6an8-a2-m1-cC 6anq-a1-m1-cB_6anq-a1-m1-cA 6anq-a2-m1-cD_6anq-a2-m1-cC 6aoc-a1-m1-cB_6aoc-a1-m1-cA 6aoc-a2-m1-cD_6aoc-a2-m1-cC 6asw-a1-m1-cB_6asw-a1-m1-cA 6asw-a2-m1-cD_6asw-a2-m1-cC 6avm-a1-m1-cB_6avm-a1-m1-cA 6avm-a2-m1-cD_6avm-a2-m1-cC 6avt-a1-m1-cB_6avt-a1-m1-cA 6avt-a2-m1-cD_6avt-a2-m1-cC 6bhj-a1-m1-cB_6bhj-a1-m1-cA 6bhj-a2-m1-cD_6bhj-a2-m1-cC 6bsi-a1-m1-cB_6bsi-a1-m1-cA 6bsj-a1-m1-cB_6bsj-a1-m1-cA 6c0j-a1-m1-cB_6c0j-a1-m1-cA 6c0k-a1-m1-cB_6c0k-a1-m1-cA 6c0l-a1-m1-cB_6c0l-a1-m1-cA 6c0n-a1-m1-cB_6c0n-a1-m1-cA 6c0o-a1-m1-cB_6c0o-a1-m1-cA 6c0p-a1-m1-cB_6c0p-a1-m1-cA 6c0r-a1-m1-cB_6c0r-a1-m1-cA 6cgf-a1-m1-cB_6cgf-a1-m1-cA 6dtx-a1-m1-cB_6dtx-a1-m1-cA 6duf-a1-m1-cB_6duf-a1-m1-cA 6dug-a1-m1-cB_6dug-a1-m1-cA 6duh-a1-m1-cB_6duh-a1-m1-cA 6ecl-a1-m1-cB_6ecl-a1-m1-cA 6eli-a1-m1-cB_6eli-a1-m1-cA 6hak-a1-m1-cB_6hak-a1-m1-cA 6hak-a2-m1-cD_6hak-a2-m1-cC 6ik9-a1-m1-cB_6ik9-a1-m1-cA 6ik9-a2-m1-cD_6ik9-a2-m1-cC 6ika-a1-m1-cB_6ika-a1-m1-cA 6ika-a2-m1-cD_6ika-a2-m1-cC 6kdj-a1-m1-cB_6kdj-a1-m1-cA 6kdj-a2-m1-cD_6kdj-a2-m1-cC 6kdk-a1-m1-cB_6kdk-a1-m1-cA 6kdk-a2-m1-cD_6kdk-a2-m1-cC 6kdm-a1-m1-cB_6kdm-a1-m1-cA 6kdm-a2-m1-cD_6kdm-a2-m1-cC 6kdn-a1-m1-cB_6kdn-a1-m1-cA 6kdn-a2-m1-cD_6kdn-a2-m1-cC 6kdo-a1-m1-cB_6kdo-a1-m1-cA 6kdo-a2-m1-cD_6kdo-a2-m1-cC 6o9e-a1-m1-cB_6o9e-a1-m1-cA 6o9e-a2-m1-cD_6o9e-a2-m1-cC 6oe3-a1-m1-cB_6oe3-a1-m1-cA 6otz-a1-m1-cB_6otz-a1-m1-cA 6p1i-a1-m1-cB_6p1i-a1-m1-cA 6p1x-a1-m1-cB_6p1x-a1-m1-cA 6uis-a1-m1-cB_6uis-a1-m1-cA 6ujx-a1-m1-cB_6ujx-a1-m1-cA 6ujy-a1-m1-cB_6ujy-a1-m1-cA 6ujz-a1-m1-cB_6ujz-a1-m1-cA 6ul5-a1-m1-cB_6ul5-a1-m1-cA 6waz-a1-m1-cB_6waz-a1-m1-cA 6wpf-a1-m1-cB_6wpf-a1-m1-cA 6wpj-a1-m1-cB_6wpj-a1-m1-cA 6x4b-a1-m1-cB_6x4b-a1-m1-cA 7ahx-a1-m1-cB_7ahx-a1-m1-cA 7ahx-a2-m1-cD_7ahx-a2-m1-cC 7aid-a1-m1-cB_7aid-a1-m1-cA 7aid-a2-m1-cD_7aid-a2-m1-cC 7aif-a1-m1-cB_7aif-a1-m1-cA 7aif-a2-m1-cD_7aif-a2-m1-cC 7aig-a1-m1-cB_7aig-a1-m1-cA 7aig-a2-m1-cD_7aig-a2-m1-cC 7aii-a1-m1-cB_7aii-a1-m1-cA 7aii-a2-m1-cD_7aii-a2-m1-cC 7aij-a1-m1-cB_7aij-a1-m1-cA 7aij-a2-m1-cD_7aij-a2-m1-cC 7dbm-a1-m1-cB_7dbm-a1-m1-cA 7dbm-a2-m1-cD_7dbm-a2-m1-cC 7dbn-a1-m1-cB_7dbn-a1-m1-cA 7dbn-a2-m1-cD_7dbn-a2-m1-cC 7krc-a1-m1-cB_7krc-a1-m1-cA 7krd-a1-m1-cB_7krd-a1-m1-cA 7kre-a1-m1-cB_7kre-a1-m1-cA 7krf-a1-m1-cB_7krf-a1-m1-cA 7kwu-a1-m1-cB_7kwu-a1-m1-cA 7lpw-a1-m1-cB_7lpw-a1-m1-cA 7lpx-a1-m1-cB_7lpx-a1-m1-cA 7lqu-a1-m1-cB_7lqu-a1-m1-cA 7lri-a1-m1-cB_7lri-a1-m1-cA 7lri-a2-m1-cD_7lri-a2-m1-cC 7lrm-a1-m1-cB_7lrm-a1-m1-cA 7lrm-a2-m1-cD_7lrm-a2-m1-cC 7lrx-a1-m1-cB_7lrx-a1-m1-cA 7lrx-a2-m1-cD_7lrx-a2-m1-cC 7lry-a1-m1-cB_7lry-a1-m1-cA 7lry-a2-m1-cD_7lry-a2-m1-cC 7lsk-a1-m1-cB_7lsk-a1-m1-cA 7lsk-a2-m1-cD_7lsk-a2-m1-cC 7ot6-a1-m1-cD_7ot6-a1-m1-cC 7ot6-a2-m1-cB_7ot6-a2-m1-cA 7ota-a1-m1-cD_7ota-a1-m1-cC 7ota-a2-m1-cB_7ota-a2-m1-cA 7otk-a1-m1-cD_7otk-a1-m1-cC 7otk-a2-m1-cB_7otk-a2-m1-cA 7otn-a1-m1-cD_7otn-a1-m1-cC 7otn-a2-m1-cB_7otn-a2-m1-cA 7otx-a1-m1-cD_7otx-a1-m1-cC 7otx-a2-m1-cB_7otx-a2-m1-cA 7otz-a1-m1-cD_7otz-a1-m1-cC 7otz-a2-m1-cB_7otz-a2-m1-cA 7out-a1-m1-cD_7out-a1-m1-cC 7out-a2-m1-cB_7out-a2-m1-cA 7oxq-a1-m1-cB_7oxq-a1-m1-cA 7oxq-a2-m1-cD_7oxq-a2-m1-cC 7oz2-a1-m1-cB_7oz2-a1-m1-cA 7oz2-a2-m1-cD_7oz2-a2-m1-cC 7oz5-a1-m1-cB_7oz5-a1-m1-cA 7oz5-a2-m1-cD_7oz5-a2-m1-cC 7ozw-a1-m1-cB_7ozw-a1-m1-cA 7p15-a1-m1-cB_7p15-a1-m1-cA 7slr-a1-m1-cB_7slr-a1-m1-cA 7sls-a1-m1-cB_7sls-a1-m1-cA 7snp-a1-m1-cB_7snp-a1-m1-cA 7snz-a1-m1-cB_7snz-a1-m1-cA 7so1-a1-m1-cB_7so1-a1-m1-cA 7taz-a1-m1-cB_7taz-a1-m1-cA 7u5z-a1-m1-cB_7u5z-a1-m1-cA 7z2d-a1-m1-cB_7z2d-a1-m1-cA 8dx2-a1-m1-cB_8dx2-a1-m1-cA 8dx3-a1-m1-cB_8dx3-a1-m1-cA 8dx8-a1-m1-cB_8dx8-a1-m1-cA 8dxb-a1-m1-cB_8dxb-a1-m1-cA 8dxe-a1-m1-cB_8dxe-a1-m1-cA 8dxg-a1-m1-cB_8dxg-a1-m1-cA 8dxh-a1-m1-cB_8dxh-a1-m1-cA 8dxi-a1-m1-cB_8dxi-a1-m1-cA 8dxj-a1-m1-cB_8dxj-a1-m1-cA 8dxk-a1-m1-cB_8dxk-a1-m1-cA 8dxl-a1-m1-cB_8dxl-a1-m1-cA 8dxm-a1-m1-cB_8dxm-a1-m1-cA 8fcc-a1-m1-cB_8fcc-a1-m1-cA 8fcd-a1-m1-cB_8fcd-a1-m1-cA 8fce-a1-m1-cB_8fce-a1-m1-cA 8ffx-a1-m1-cB_8ffx-a1-m1-cA PIETVPVKLKPGMDGPKVKQWPLTEEKIKALVEICTEMEKEGKISKIGPENPYNTPVFAIKKKDSTKWRKLVDFRELNKRTQDFWEVQLGIPHPAGLKKKKSVTVLDVGDAYFSVPLDEDFRKYTAFTIPSINNETPGIRYQYNVLPQGWKGSPAIFQSSMTKILEPFKKQNPDIVIYQYMDDLYVGSDLEIGQHRTKIEELRQHLLRWGLTTPGYELHPDKWTVQPIVLPEKDSWTVNDIQKLVGKLNWASQIYPGIKVRQLSKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYDPSKDLIAEIQKQGQGQWTYQIYQEPFKNLKTGKYARMRGAHTNDVKQLTEAVQKITTESIVIWGKTPKFKLPIQKETWETWWTEYWQATWIPEWEFVNTPPLVKLWYQ MVPISPIETVPVKLKPGMDGPKVKQWPLTEEKIKALVEICTEMEKEGKISKIGPENPYNTPVFVIKKKDSTKWRKLIDLRELNKRTQDFWEVQLGIPHPAGLKKKKSVTVLDVGDAYYSVPLDEDFRKYTAFTIPSINNETPGIRYQYNVLPMGWKGSPAIFQSSMTKILEPFKKQNPDIVIYQYMDDLYVGSDLEIGQHRTKIEELRQHLLRWGLTTPDKKHQKEPPFLWMGYELHPDKWTVQPIVLPEKDSWTVNDICKLVGKLNWASQIYPGIKVRQLSKLLRGTKALTEVIPLTEEAELELAENREILKEPVHGVYYDPSKDLIAEIQKQGQGQWTYQIYQEPFKNLKTGKYARMRGAHTNDVKQLTEAVQKITTESIVIWGKTPKFKLPIQKETWETWWTEYWQATWIPEWEFVNTPPLVKLWYQLEKEPIVGAETFYVDGAANRETKLGKAGYVTNKGRQKVVPLTNTTNQKTELQAIYLALQDSGLEVNIVTNSQYALGIIQAQPDKSESELVNQIIEQLIKKEKVYLAWVPAHKGIGGNEQVDKLVSA 5txr-a1-m1-cB_5txr-a1-m1-cA Structure of ALAS from S. cerevisiae non-covalently bound to PLP cofactor P09950 P09950 1.9 X-RAY DIFFRACTION 350 0.996 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 476 479 8eim-a1-m1-cB_8eim-a1-m1-cA ESGFDYEGLIDSELQKKRLDKSYRYFNNINRLAKEFPLAHRQREADKVTVWCSNDYLALSKHPEVLDAMHKTIDKYGCGAGGTRNIAGHNIPTLNLEAELATLHKKEGALVFSSCYVANDAVLSLLGQKMKDLVIFSDELNHASMIVGIKHANVKKHIFKHNDLNELEQLLQSYPKSVPKLIAFESVYSMAGSVADIEKICDLADKYGALTFLDEVHAVGLYGPHGAGVAEHCDFESHRASGIATPKTNDKGGAKTVMDRVDMITGTLGKSFGSVGGYVAASRKLIDWFRSFAPGFIFTTTLPPSVMAGATAAIRYQRCHIDLRTSQQKHTMYVKKAFHELGIPVIPNPSHIVPVLIGNADLAKQASDILINKHQIYVQAINFPTVARGTERLRITPTPGHTNDLSDILINAVDDVFNELQLPRVRDWESQGGLLGVVEESNLWTSSQLSLTNDDLNPNVRDPIVKQLEVSSGIKQ GFDYEGLIDSELQKKRLDKSYRYFNNINRLAKEFPLAHRQREADKVTVWCSNDYLALSKHPEVLDAMHKTIDKYGCGAGGTRNIAGHNIPTLNLEAELATLHKKEGALVFSSCYVANDAVLSLLGQKMKDLVIFSDELNHASMIVGIKHANVKKHIFKHNDLNELEQLLQSYPKSVPKLIAFESVYSMAGSVADIEKICDLADKYGALTFLDEVHAVGLYGPHGAGVAEHCDFESHRASGIATPKTNDKGGAKTVMDRVDMITGTLGKSFGSVGGYVAASRKLIDWFRSFAPGFIFTTTLPPSVMAGATAAIRYQRCHIDLRTSQQKHTMYVKKAFHELGIPVIPNPSHIVPVLIGNADLAKQASDILINKHQIYVQAINFPTVARGTERLRITPTPGHTNDLSDILINAVDDVFNELQLPRVRDWESQGGLLGVGESGFVEESNLWTSSQLSLTNDDLNPNVRDPIVKQLEVSSGIKQ 5txv-a3-m1-cP_5txv-a3-m1-cQ HslU P21 cell with 4 hexamers P0A6H5 P0A6H5 7.086 X-RAY DIFFRACTION 93 0.993 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 305 370 5txv-a1-m1-cA_5txv-a1-m1-cF 6pxk-a2-m1-cJ_6pxk-a2-m1-cK SEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEKEVDSIIRDLTDAAVKMVRVQAIENPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDAL EMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEELAEERILDVLIPPASAARQAFRKKLREGQKIKDAMKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 5txv-a3-m1-cR_5txv-a3-m1-cQ HslU P21 cell with 4 hexamers P0A6H5 P0A6H5 7.086 X-RAY DIFFRACTION 93 0.991 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 338 370 5txv-a2-m1-cG_5txv-a2-m1-cH 5txv-a2-m1-cG_5txv-a2-m1-cL EMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEELAEERILDEPSAARQAFRKKLREAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDA EMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAEELAEERILDVLIPPASAARQAFRKKLREGQKIKDAMKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 5tyt-a2-m1-cC_5tyt-a2-m2-cD Crystal Structure of the PDZ domain of RhoGEF bound to CXCR2 C-terminal peptide O15085 O15085 2.398 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 89 5tyt-a1-m1-cA_5tyt-a1-m1-cB GLVQRCVIIQKDQHGFGFTVSGDRIVLVQSVRPGGAAMKAGVKEGDRIIKVNGTMVTNSSHLEVVKLIKSGAYVALTLLGSSTSTTL MTGLVQRCVIIQKDQHGFGFTVSGDRIVLVQSVRPGGAAMKAGVKEGDRIIKVNGTMVTNSSHLEVVKLIKSGAYVALTLLGSSTSTTL 5tz0-a1-m1-cA_5tz0-a1-m1-cB Structure of the Fremyella diplosiphon Fluorescence Recovery Protein A0A0D6KMZ1 A0A0D6KMZ1 3.025 X-RAY DIFFRACTION 49 1.0 1188 (Tolypothrix sp. PCC 7601) 1188 (Tolypothrix sp. PCC 7601) 102 103 SWSDLEQEVAQAAFQKAYEREINALIQDVRDNAVQISELEDIWRLHNFLSAKRHEIDGKYDYNYSVLVFVFATLIKQGWLHLDELKGLDQDKLTKIGSLSRM VSWSDLEQEVAQAAFQKAYEREINALIQDVRDNAVQISELEDIWRLHNFLSAKRHEIDGKYDYNYSVLVFVFATLIKQGWLHLDELKGLDQDKLTKIGSLSRM 5tz5-a1-m1-cB_5tz5-a1-m1-cA Crystal Structure of CurK Dehydratase H996F Inactive Mutant F4Y425 F4Y425 1.428 X-RAY DIFFRACTION 43 0.986 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 279 281 3kg9-a1-m1-cB_3kg9-a1-m1-cA 5tz7-a1-m1-cA_5tz7-a1-m1-cB LHPLLGEKLNLARIENQHHFQSYLTAESPAYLSQFQVFNKVLFPATGYLEIAAAVGKNLLTTGEQVVVSDVTIVRGLVIPETDIKTVQTVISTLENNSYKLEIFSTSEGNQWTLHAEGKIFLDKAKIDLEQYQRECSQVIDIQQHYQQFKSRGIDYGNSFQGIKQLWKGQGKALGKIALPEEIAGQATDYQLHPALLDAALQILGHAIGNTETDDKAYLPVGIDKLKQYRQTITQVWAIVEIPENTLKGSIKLVDNQGSLLAEIEGLRVTATTADALLK LHPLLGEKLNLARIENQHHFQSYLTAESPAYLSQFQVFNKVLFPATGYLEIAAAVGKNLLTTGEQVVVSDVTIVRGLVIPETDIKTVQTVISTLENNSYKLEIFSTSEANQWTLHAEGKIFLDSTTNTKAKIDLEQYQRECSQVIDIQQHYQQFKSRGIDYGNSFQGIKQLWKGQGKALGKIALPEEIAGQATDYQLHPALLDAALQILGHAIGNTETDDKAYLPVGIDKLKQYRQTITQVWAIVEIPENTLKGSIKLVDNQGSLLAEIEGLRVTATTADA 5tz6-a1-m1-cB_5tz6-a1-m1-cA Crystal Structure of CurJ Dehydratase H978F Inactive Mutant In Complex with Compound 21 F4Y426 F4Y426 2.4 X-RAY DIFFRACTION 45 1.0 489825 (Moorena producens 3L) 489825 (Moorena producens 3L) 281 290 3kg8-a1-m1-cB_3kg8-a1-m1-cA TKLHPLINQKFQSPLSKEIFFESYFSTENLPFLADFIVYEQVVVPGASHISLLLAAASLTFAATECQIEDILFPQALAIPEQGVRTVQVVLTPQNNSFSFQVISFDDSLSDWAVHATGKLSVANAEPLEEIQARCSQKIDSAEIYQHLWDRQIHLGQSFRWIEQVWLGEGEVLCQMKVPKTILNTTKYQLHPTLVDSCFQSIIALVLDNKNETFVPFSIDKFTFYNSSDNDLLWCYTCGSKDKQSGEKFKADIQLFDQHGQLVAQVIGFEGRKANPKILLM TKLHPLINQKFQSPLSKEIFFESYFSTENLPFLADFIVYEQVVVPGASHISLLLAAASLTFAATECQIEDILFPQALAIPEQGVRTVQVVLTPQNNSFSFQVISFDDSLHISDWAVHATGKLSVANAEQSLIPLEEIQARCSQKIDSAEIYQHLWDRQIHLGQSFRWIEQVWLGEGEVLCQMKVPKTILNTTKYQLHPTLVDSCFQSIIALVLDQSGNKNETFVPFSIDKFTFYNSSDNDLLWCYTCGSKDKQSGEKFKADIQLFDQHGQLVAQVIGFEGRKANPKILLM 5tz8-a1-m1-cA_5tz8-a1-m1-cB Crystal structure of S. aureus TarS A0A0H3JPC6 A0A0H3JPC6 4 X-RAY DIFFRACTION 63 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 558 558 MKFSVIVPTYNSEKYITELLNSLAKQDFPKTEFEVVVVDDCSTDQTLQIVEKYRNKLNLKVSQLETNSGGPGKPRNVALKQAEGEFVLFVDSDDYINKETLKDAAAFIDEHHSDVLLIKMKGVNGRGVPQSMFKETAPEVTLLNSRIIYTLSPTKIYRTALLKDNDIYFPEELKSAEDQLFTMKAYLNANRISVLSDKAYYYATVSPEDFYEVMRLIAVEILNADLEEAHKDQILAEFLNRHFSFSRTNGFSLKVKLEEQPQWINALGDFIQAVPERVDALVMSKLRPLLHYARAKDIDNYRTVEESYRQGQYYRFDIVDGKLNIQFNEGEPYFEGIDKPKVKMTAFKFDNHKIVTELTLNEFMIGEGHYDVRLKLHSRNKKHTMYVPLSVNANKQYRFNIMLEDIKAYLPKEKIWDVFLEVQIGTEVFEVRVGNQRNKYAYTAETSALIHLNNDFYRLTPYFTKDFNNISLYFTAITLTDSISMKLKGKNKIILTGLDRGYVFEEGMASVVLKDDMIMGMLSQTSENEVEILLSKDIKKRDFKNIVKLNTAHMTYSL MKFSVIVPTYNSEKYITELLNSLAKQDFPKTEFEVVVVDDCSTDQTLQIVEKYRNKLNLKVSQLETNSGGPGKPRNVALKQAEGEFVLFVDSDDYINKETLKDAAAFIDEHHSDVLLIKMKGVNGRGVPQSMFKETAPEVTLLNSRIIYTLSPTKIYRTALLKDNDIYFPEELKSAEDQLFTMKAYLNANRISVLSDKAYYYATVSPEDFYEVMRLIAVEILNADLEEAHKDQILAEFLNRHFSFSRTNGFSLKVKLEEQPQWINALGDFIQAVPERVDALVMSKLRPLLHYARAKDIDNYRTVEESYRQGQYYRFDIVDGKLNIQFNEGEPYFEGIDKPKVKMTAFKFDNHKIVTELTLNEFMIGEGHYDVRLKLHSRNKKHTMYVPLSVNANKQYRFNIMLEDIKAYLPKEKIWDVFLEVQIGTEVFEVRVGNQRNKYAYTAETSALIHLNNDFYRLTPYFTKDFNNISLYFTAITLTDSISMKLKGKNKIILTGLDRGYVFEEGMASVVLKDDMIMGMLSQTSENEVEILLSKDIKKRDFKNIVKLNTAHMTYSL 5tz8-a1-m1-cB_5tz8-a1-m1-cC Crystal structure of S. aureus TarS A0A0H3JPC6 A0A0H3JPC6 4 X-RAY DIFFRACTION 70 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 558 558 MKFSVIVPTYNSEKYITELLNSLAKQDFPKTEFEVVVVDDCSTDQTLQIVEKYRNKLNLKVSQLETNSGGPGKPRNVALKQAEGEFVLFVDSDDYINKETLKDAAAFIDEHHSDVLLIKMKGVNGRGVPQSMFKETAPEVTLLNSRIIYTLSPTKIYRTALLKDNDIYFPEELKSAEDQLFTMKAYLNANRISVLSDKAYYYATVSPEDFYEVMRLIAVEILNADLEEAHKDQILAEFLNRHFSFSRTNGFSLKVKLEEQPQWINALGDFIQAVPERVDALVMSKLRPLLHYARAKDIDNYRTVEESYRQGQYYRFDIVDGKLNIQFNEGEPYFEGIDKPKVKMTAFKFDNHKIVTELTLNEFMIGEGHYDVRLKLHSRNKKHTMYVPLSVNANKQYRFNIMLEDIKAYLPKEKIWDVFLEVQIGTEVFEVRVGNQRNKYAYTAETSALIHLNNDFYRLTPYFTKDFNNISLYFTAITLTDSISMKLKGKNKIILTGLDRGYVFEEGMASVVLKDDMIMGMLSQTSENEVEILLSKDIKKRDFKNIVKLNTAHMTYSL MKFSVIVPTYNSEKYITELLNSLAKQDFPKTEFEVVVVDDCSTDQTLQIVEKYRNKLNLKVSQLETNSGGPGKPRNVALKQAEGEFVLFVDSDDYINKETLKDAAAFIDEHHSDVLLIKMKGVNGRGVPQSMFKETAPEVTLLNSRIIYTLSPTKIYRTALLKDNDIYFPEELKSAEDQLFTMKAYLNANRISVLSDKAYYYATVSPEDFYEVMRLIAVEILNADLEEAHKDQILAEFLNRHFSFSRTNGFSLKVKLEEQPQWINALGDFIQAVPERVDALVMSKLRPLLHYARAKDIDNYRTVEESYRQGQYYRFDIVDGKLNIQFNEGEPYFEGIDKPKVKMTAFKFDNHKIVTELTLNEFMIGEGHYDVRLKLHSRNKKHTMYVPLSVNANKQYRFNIMLEDIKAYLPKEKIWDVFLEVQIGTEVFEVRVGNQRNKYAYTAETSALIHLNNDFYRLTPYFTKDFNNISLYFTAITLTDSISMKLKGKNKIILTGLDRGYVFEEGMASVVLKDDMIMGMLSQTSENEVEILLSKDIKKRDFKNIVKLNTAHMTYSL 5u01-a1-m1-cA_5u01-a1-m1-cD Cooperative DNA binding by two RelA dimers Q04207 Q04207 2.5 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 273 273 5u01-a1-m1-cB_5u01-a1-m1-cC PYVEIIEQPKQRGMRFRYKCEGRSAGSIPGERSTDTTKTHPTIKINGYTGPGTVRISLVTKDPPHRPHPHELVGKDCRDGYYEADLCPDRSIHSFQNLGIQCVKKRDLEQAISQRIQTNNNPFHVPIEEQRGDYDLNAVRLCFQVTVRDPAGRPLLLTPVLSHPIFDNRAPNTAELKICRVNRNSGSCLGGDEIFLLCDKVQKEDIEVYFTGPGWEARGSFSQADVHRQVAIVFRTPPYADPSLQAPVRVSMQLRRPSDRELSEPMEFQYLPD PYVEIIEQPKQRGMRFRYKCEGRSAGSIPGERSTDTTKTHPTIKINGYTGPGTVRISLVTKDPPHRPHPHELVGKDCRDGYYEADLCPDRSIHSFQNLGIQCVKKRDLEQAISQRIQTNNNPFHVPIEEQRGDYDLNAVRLCFQVTVRDPAGRPLLLTPVLSHPIFDNRAPNTAELKICRVNRNSGSCLGGDEIFLLCDKVQKEDIEVYFTGPGWEARGSFSQADVHRQVAIVFRTPPYADPSLQAPVRVSMQLRRPSDRELSEPMEFQYLPD 5u02-a1-m2-cA_5u02-a1-m3-cA Crystal structure of S. aureus TarS 217-571 A0A0H3JPC6 A0A0H3JPC6 2.301 X-RAY DIFFRACTION 63 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 355 355 5tz8-a1-m1-cA_5tz8-a1-m1-cC 5u02-a1-m1-cA_5u02-a1-m2-cA 5u02-a1-m1-cA_5u02-a1-m3-cA SPEDFYEVMRLIAVEILNADLEEAHKDQILAEFLNRHFSFSRTNGFSLKVKLEEQPQWINALGDFIQAVPERVDALVMSKLRPLLHYARAKDIDNYRTVEESYRQGQYYRFDIVDGKLNIQFNEGEPYFEGIDIAKPKVKMTAFKFDNHKIVTELTLNEFMIGEGHYDVRLKLHSRNKKHTMYVPLSVNANKQYRFNIMLEDIKAYLPKEKIWDVFLEVQIGTEVFEVRVGNQRNKYAYTAETSALIHLNNDFYRLTPYFTKDFNNISLYFTAITLTDSISMKLKGKNKIILTGLDRGYVFEEGMASVVLKDDMIMGMLSQTSENEVEILLSKDIKKRDFKNIVKLNTAHMTYSL SPEDFYEVMRLIAVEILNADLEEAHKDQILAEFLNRHFSFSRTNGFSLKVKLEEQPQWINALGDFIQAVPERVDALVMSKLRPLLHYARAKDIDNYRTVEESYRQGQYYRFDIVDGKLNIQFNEGEPYFEGIDIAKPKVKMTAFKFDNHKIVTELTLNEFMIGEGHYDVRLKLHSRNKKHTMYVPLSVNANKQYRFNIMLEDIKAYLPKEKIWDVFLEVQIGTEVFEVRVGNQRNKYAYTAETSALIHLNNDFYRLTPYFTKDFNNISLYFTAITLTDSISMKLKGKNKIILTGLDRGYVFEEGMASVVLKDDMIMGMLSQTSENEVEILLSKDIKKRDFKNIVKLNTAHMTYSL 5u0a-a1-m1-cD_5u0a-a1-m1-cH CRISPR RNA-guided surveillance complex Q47PJ3 Q47PJ3 3.3 ELECTRON MICROSCOPY 146 0.996 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 260 366 5u07-a1-m1-cD_5u07-a1-m1-cH TFVDIHAIQTLPYSNINRDDLGSPKTVVYGGKERTRVSSQSWKRAVRHEVEARLGNVSVNLFGRMLAELPSTEVDGAVQFAHAFTVHGTTVEVDFFTAVDDIPKENDHGSGHMNAGQFSAGTFYRYANVNLDRLVENTGDAQTARTAVAEFLRAFLSTVPSGKQNATAAMTLPDLVHIAVRFDRPISFAPAFETALYGSDGYTLRACQELNNYAERLREVWPDDAIRGYATVENKTDLAALGERYDSYPALIDAMVAAAF TFVDIHAIQTLPYSNINRDDLGSPKTVVYGGKERTRVSSQSWKRAVRHEVEARLGDKAVRTRRIISEIAKRLRERGWDADLADAGARQVVLSVGKKSGIKLEKEKDSEAPATSVLFYLPVPAIDELAAIADEHRDAVAKEAAKKTPKGILPADRITEVLKSRNVSVNLFGRMLAELPSTEVDGAVQFAHAFTVHGTTVEVDFFTAVDDIPKENDHGSGHMNAGQFSAGTFYRYANVNLDRLVENTGDAQTARTAVAEFLRAFLSTVPSGKQNATAAMTLPDLVHIAVRFDRPISFAPAFETALYGSDGYTLRACQELNNYAERLREVWPDDAIRGYATVENKTDLAALGERYDSYPALIDAMVAAA 5u0k-a5-m1-cH_5u0k-a5-m1-cJ C-terminal ankyrin repeats from human liver-type glutaminase (GAB/LGA) Q9UI32 Q9UI32 2.548 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 98 5u0k-a1-m1-cF_5u0k-a1-m1-cA 5u0k-a2-m1-cC_5u0k-a2-m1-cB 5u0k-a3-m1-cD_5u0k-a3-m1-cE 5u0k-a4-m1-cG_5u0k-a4-m1-cI TVVNLLFAAYSGDVSALRRFALSAMDMEQKDYDSRTALHVAAAEGHIEVVKFLIEACKVNPFAKDRWGNIPLDDAVQFNHLEVVKLLQDYQDSYT SMKTVVNLLFAAYSGDVSALRRFALSAMDMEQKDYDSRTALHVAAAEGHIEVVKFLIEACKVNPFAKDRWGNIPLDDAVQFNHLEVVKLLQDYQDSYT 5u0l-a1-m1-cB_5u0l-a1-m1-cA X-ray crystal structure of fatty aldehyde dehydrogenase enzymes from Marinobacter aquaeolei VT8 complexed with a substrate A1U5W8 A1U5W8 2.285 X-RAY DIFFRACTION 284 1.0 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 487 488 5u0m-a1-m1-cB_5u0m-a1-m1-cA LTGNVYIDGLWLPGHGAPFESVQPVTGETVWDGNAASLEDVDAAVREARKAFLAWRRKSLAERQAVIEAFGELLEANKEELAHQIGLETGKPLWESRTEVAAMMGKIPISVKAYNERTGHTESDVAGGHAVLRHRPHGVVAVFGPYNFPGHLPNGHIVPALLAGNTVVFKPSELTPGVAELTVRLWEKAGLPDGVINLVQGGSDTGKCLARHSLIDGLFFTGSSTVGHLLHEQFGGQPEKILALEMGGNNPLIVQNVSDLDGAVHHALQSAFLSAGQRCTCARRLLVPKGKKGDEFLARLVEVAARITVAEFDADPQPFMGSVISAEAANQLLKAQAAMLEKGATSLLEMKQLKPDTGLLSPGIVDATGIELEDQEFFGPLLTVYRYKGFDEALELANNTRYGLSAGILSDDRKLYNRLVEEVRAGIVNWNRPLTGASSAAPFGGVGASGNHRPSAYYAADYCAWPMASLEAGKSELPDSLAPGLNF NLTGNVYIDGLWLPGHGAPFESVQPVTGETVWDGNAASLEDVDAAVREARKAFLAWRRKSLAERQAVIEAFGELLEANKEELAHQIGLETGKPLWESRTEVAAMMGKIPISVKAYNERTGHTESDVAGGHAVLRHRPHGVVAVFGPYNFPGHLPNGHIVPALLAGNTVVFKPSELTPGVAELTVRLWEKAGLPDGVINLVQGGSDTGKCLARHSLIDGLFFTGSSTVGHLLHEQFGGQPEKILALEMGGNNPLIVQNVSDLDGAVHHALQSAFLSAGQRCTCARRLLVPKGKKGDEFLARLVEVAARITVAEFDADPQPFMGSVISAEAANQLLKAQAAMLEKGATSLLEMKQLKPDTGLLSPGIVDATGIELEDQEFFGPLLTVYRYKGFDEALELANNTRYGLSAGILSDDRKLYNRLVEEVRAGIVNWNRPLTGASSAAPFGGVGASGNHRPSAYYAADYCAWPMASLEAGKSELPDSLAPGLNF 5u1g-a1-m1-cC_5u1g-a1-m1-cD Structure of TP228 ParA-AMPPNP-ParB complex 3.64 X-RAY DIFFRACTION 68 1.0 45202 (unidentified plasmid) 45202 (unidentified plasmid) 209 211 4e07-a3-m1-cA_4e07-a3-m1-cB 4e09-a1-m1-cA_4e09-a1-m2-cA 5u1g-a2-m1-cB_5u1g-a2-m1-cA MKVISFLNPKGGSGKTTAVINIATALSRSGYNIAVVDTDPQMSLTNWSKAGKAAFDVFTAASEKDVYGIRKDLADYDFAIVDGAGSLSVITSAAVMVSDLVIIPVTPSPLDFSAAGSVVTVLEAQAYSRKVEARFLITRKIEMATMLNVLKESIKDTGVKAFRTAITQRQVYVKSILDGDSVFESSDGAAKGEIEILTKEIVRIFEATH MKVISFLNPKGGSGKTTAVINIATALSRSGYNIAVVDTDPQMSLTNWSKAGKAAFDVFTAASEKDVYGIRKDLADYDFAIVDGAGSLSVITSAAVMVSDLVIIPVTPSPLDFSAAGSVVTVLEAQAYSRKVEARFLITRKIEMATMLNVLKESIKDTGVKAFRTAITQRQVYVKSILDGDSVFESSDGAAKGEIEILTKEIVRIFEATHHH 5u1h-a5-m1-cA_5u1h-a5-m1-cD Crystal structure of the C-terminal peptidoglycan binding domain of OprF (PA1777) from Pseudomonas aeruginosa P13794 P13794 1.5 X-RAY DIFFRACTION 79 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 122 123 5u1h-a5-m1-cB_5u1h-a5-m1-cC SNAAVAEVVRVQLDVKFDFDKSKVKENSYADIKNLADFMKQYPSTSTTVEGHTDSVGTDAYNQKLSERRANAVRDVLVNEYGVEGGRVNAVGYGESRPVADNATAEGRAINRRVEAEVEAEA SNAAVAEVVRVQLDVKFDFDKSKVKENSYADIKNLADFMKQYPSTSTTVEGHTDSVGTDAYNQKLSERRANAVRDVLVNEYGVEGGRVNAVGYGESRPVADNATAEGRAINRRVEAEVEAEAK 5u1h-a5-m1-cB_5u1h-a5-m1-cD Crystal structure of the C-terminal peptidoglycan binding domain of OprF (PA1777) from Pseudomonas aeruginosa P13794 P13794 1.5 X-RAY DIFFRACTION 10 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 122 123 5u1h-a5-m1-cA_5u1h-a5-m1-cC SNAAVAEVVRVQLDVKFDFDKSKVKENSYADIKNLADFMKQYPSTSTTVEGHTDSVGTDAYNQKLSERRANAVRDVLVNEYGVEGGRVNAVGYGESRPVADNATAEGRAINRRVEAEVEAEA SNAAVAEVVRVQLDVKFDFDKSKVKENSYADIKNLADFMKQYPSTSTTVEGHTDSVGTDAYNQKLSERRANAVRDVLVNEYGVEGGRVNAVGYGESRPVADNATAEGRAINRRVEAEVEAEAK 5u1h-a5-m1-cC_5u1h-a5-m1-cD Crystal structure of the C-terminal peptidoglycan binding domain of OprF (PA1777) from Pseudomonas aeruginosa P13794 P13794 1.5 X-RAY DIFFRACTION 92 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 123 123 5u1h-a5-m1-cA_5u1h-a5-m1-cB SNAAVAEVVRVQLDVKFDFDKSKVKENSYADIKNLADFMKQYPSTSTTVEGHTDSVGTDAYNQKLSERRANAVRDVLVNEYGVEGGRVNAVGYGESRPVADNATAEGRAINRRVEAEVEAEAK SNAAVAEVVRVQLDVKFDFDKSKVKENSYADIKNLADFMKQYPSTSTTVEGHTDSVGTDAYNQKLSERRANAVRDVLVNEYGVEGGRVNAVGYGESRPVADNATAEGRAINRRVEAEVEAEAK 5u1j-a4-m1-cA_5u1j-a4-m1-cD Structure of pNOB8 ParA bound to nonspecific DNA O93708 O93708 2.95 X-RAY DIFFRACTION 93 0.99 84600 (Sulfolobus sp. NOB8H2) 84600 (Sulfolobus sp. NOB8H2) 289 291 5k5z-a1-m1-cA_5k5z-a1-m1-cD 5k5z-a2-m1-cC_5k5z-a2-m1-cB 5u1j-a1-m1-cC_5u1j-a1-m1-cB 5u1j-a2-m1-cA_5u1j-a2-m1-cD 5u1j-a4-m1-cC_5u1j-a4-m1-cB IAKVITIHNFKGGVGKTTTTAIIAMGLGAMGKRVLLIDFDAQMSLTQIFVREEDRLKILESSHDQDKSAFALLRTMEPARIKFFHEGKGVKFGIDVIPGSYMSIFKLMFEIQSEWNILRMLDLYRDQYDYILIDTAPSDTVTIKPILRASHYLLIPEDGTPEAFTAMRIFLNEALPKYILPRPEGGFYKYPRILGVILTRVRRNSTAILMKHNKILEEELSNSELKDHVIYPPYFGADKDNPEDYILSLSDLIWRDEKRAPISEVFDKLFSKVFTEIPKEVVRRVENDQ IAKVITIHNFKGGVGKTTTTAIIAMGLGAMGKRVLLIDFDAQMSLTQIFVREEDRLKILESSHQDKSAFALLRTMEPARIKFFHEGKGVKFGIDVIPGSYMSIFKLMFQSEWNILRMLDLYRDQYDYILIDTAPSDTVTIKPILRASHYLLIPEDGTPEAFTAMRIFLNEALPKYILPRPEGGFYKYPRILGVILTRVRRNSTAILMKHNKILEEELSNSELKDHVIYPPYFGADKDNPEDYILSSRKEYLSDLIWRDEKRAPISEVFDKLFSKVFTEIPKEVVRRVENDQ 5u1o-a2-m1-cD_5u1o-a2-m1-cC 2.3 Angstrom Resolution Crystal Structure of Glutathione Reductase from Vibrio parahaemolyticus in Complex with FAD. Q87TK1 Q87TK1 2.31 X-RAY DIFFRACTION 265 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 450 451 5u1o-a1-m1-cA_5u1o-a1-m1-cB ATHFDYICIGGGSGGIASANRAAMYGAKVALIEAQDLGGTCVNVGCVPKKVMWHGAQIAEAMNLYAEDYGFDVDVKGFDWSKLVESRQAYIGRIHQSYDRVLGNNKVNVIKGFAKFVDEKTVEVNGEHYTADHILIAVGGRPTIPNIPGAEYGIDSNGFFDLAEQPKRVAVVGAGYIAVEIAGVLHALGTETHLFVRKESPLRSFDPMIIDTLVEVMEAEGPTLHTHSVPKEVVKEADGSLTLHLENGESQNVDQLIWAIGRHPATDAINLASTGVATNEKGYIKVDEYQETNVKGIYCVGDIMEGGIELTPVAVKAGRQLSERLFNNKPNAKMDYDLVPTVVFSHPPIGTIGLTTQEAEEKYGKDNIKVYTSGFTAMYTAVTKHRQPCKMKLVCAGEEETVVGLHGIGFTVDEMIQGFGVAMKMGATKADFDSVVAIHPTGSEEFVTMR MATHFDYICIGGGSGGIASANRAAMYGAKVALIEAQDLGGTCVNVGCVPKKVMWHGAQIAEAMNLYAEDYGFDVDVKGFDWSKLVESRQAYIGRIHQSYDRVLGNNKVNVIKGFAKFVDEKTVEVNGEHYTADHILIAVGGRPTIPNIPGAEYGIDSNGFFDLAEQPKRVAVVGAGYIAVEIAGVLHALGTETHLFVRKESPLRSFDPMIIDTLVEVMEAEGPTLHTHSVPKEVVKEADGSLTLHLENGESQNVDQLIWAIGRHPATDAINLASTGVATNEKGYIKVDEYQETNVKGIYCVGDIMEGGIELTPVAVKAGRQLSERLFNNKPNAKMDYDLVPTVVFSHPPIGTIGLTTQEAEEKYGKDNIKVYTSGFTAMYTAVTKHRQPCKMKLVCAGEEETVVGLHGIGFTVDEMIQGFGVAMKMGATKADFDSVVAIHPTGSEEFVTMR 5u23-a2-m1-cA_5u23-a2-m1-cB X-ray structure of the WlaRG aminotransferase from Campylobacter jejuni in complex with TDP-Qui3N Q9ALS9 Q9ALS9 1.45 X-RAY DIFFRACTION 149 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 361 363 5u1z-a1-m1-cA_5u1z-a1-m1-cB 5u1z-a2-m1-cD_5u1z-a2-m1-cC 5u20-a1-m1-cA_5u20-a1-m1-cB 5u20-a2-m1-cD_5u20-a2-m1-cC 5u21-a1-m1-cA_5u21-a1-m1-cB 5u21-a2-m1-cC_5u21-a2-m1-cD 5u23-a1-m1-cC_5u23-a1-m1-cD 5u24-a1-m1-cA_5u24-a1-m1-cB 5u24-a2-m1-cC_5u24-a2-m1-cD HMFFLNLKQINDRFNTEFITKFKEILESGWYILGKQCEKFENNFAKYCGVKHCIGVANGLDALRLIIKAYDFKENDEIIVPANTYIASILAITDNKCKPILIEPDINTYNINPDLIEEKITKKTKAIMVVHLYGQVCDMEKIQLLANKYNLKIIEDCAQAHGAIYKDKRVGNLGDAAGFSFYPGKNLGALGDAGCICTNDDNFASKIRALANYGSHKKYENLYTGLNSRLDEIQAAFLDIKLKYLDEDNNKRKNIANFYLQNIKNENIILPSNKFDHVWHLFVVKTKLRDELQHYLNNHDIQTIIHYPIPPHKQKCYKDLNHLKLPITENIHQEVLSLPISPTMKENDFKKVADILNKWKV YFHMFFLNLKQINDRFNTEFITKFKEILESGWYILGKQCEKFENNFAKYCGVKHCIGVANGLDALRLIIKAYDFKENDEIIVPANTYIASILAITDNKCKPILIEPDINTYNINPDLIEEKITKKTKAIMVVHLYGQVCDMEKIQLLANKYNLKIIEDCAQAHGAIYKDKRVGNLGDAAGFSFYPGKNLGALGDAGCICTNDDNFASKIRALANYGSHKKYENLYTGLNSRLDEIQAAFLDIKLKYLDEDNNKRKNIANFYLQNIKNENIILPSNKFDHVWHLFVVKTKLRDELQHYLNNHDIQTIIHYPIPPHKQKCYKDLNHLKLPITENIHQEVLSLPISPTMKENDFKKVADILNKWKV 5u25-a1-m1-cA_5u25-a1-m2-cA Crystal structure of a dihydrolipoyl dehydrogenase from Neisseria gonorrhoeae bound to FAD 2.3 X-RAY DIFFRACTION 266 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 478 478 1bhy-a1-m1-cA_1bhy-a1-m2-cA 1ojt-a1-m1-cA_1ojt-a1-m2-cA ADAEYDVVVLGGGPGGYSAAFAAADEGLKVAIVERYKTLGGVCLNVGCIPSKALLHNAAVIDEVRHLAANGIKYPEPELDIDMLRAYKDGVVSRLTGGLAGMAKSRKVDVIQGDGQFLDPHHLEVSLTAGDAYEQAAPTGEKKIVAFKNCIIAAGSRVTKLPFIPEDPRIIDSSGALALKEVPGKLLIIGGGIIGLEMGTVYSTLGSRLDVVEMMDGLMQGADRDLVKVWQKQNEYRFDNIMVNTKTVAVEPKEDGVYVTFEGANAPKEPQRYDAVLVAAGRAPNGKLISAEKAGVAVTDRGFIEVDKQMRTNVPHIYAIGDIVGQPMLAHKAVHEGHVAAENCAGHKAYFDARVIPGVAYTSPEVAWVGETELSAKASGRKITKANFPWAASGRAIANGCDNGFTKLIFDAETGRIIGGGIVGPNGGDMIGEVCLAIEMGCDAADIGKTIHPHPTLGESIGMAAEVALGVCTDLPPQ ADAEYDVVVLGGGPGGYSAAFAAADEGLKVAIVERYKTLGGVCLNVGCIPSKALLHNAAVIDEVRHLAANGIKYPEPELDIDMLRAYKDGVVSRLTGGLAGMAKSRKVDVIQGDGQFLDPHHLEVSLTAGDAYEQAAPTGEKKIVAFKNCIIAAGSRVTKLPFIPEDPRIIDSSGALALKEVPGKLLIIGGGIIGLEMGTVYSTLGSRLDVVEMMDGLMQGADRDLVKVWQKQNEYRFDNIMVNTKTVAVEPKEDGVYVTFEGANAPKEPQRYDAVLVAAGRAPNGKLISAEKAGVAVTDRGFIEVDKQMRTNVPHIYAIGDIVGQPMLAHKAVHEGHVAAENCAGHKAYFDARVIPGVAYTSPEVAWVGETELSAKASGRKITKANFPWAASGRAIANGCDNGFTKLIFDAETGRIIGGGIVGPNGGDMIGEVCLAIEMGCDAADIGKTIHPHPTLGESIGMAAEVALGVCTDLPPQ 5u2i-a1-m1-cA_5u2i-a1-m1-cE Crystal structure of a nucleoside diphosphate kinase from Naegleria fowleri A0A1S4NYF9 A0A1S4NYF9 1.4 X-RAY DIFFRACTION 53 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 151 151 5u2i-a1-m1-cA_5u2i-a1-m1-cF 5u2i-a1-m1-cB_5u2i-a1-m1-cC 5u2i-a1-m1-cB_5u2i-a1-m1-cD 5u2i-a1-m1-cC_5u2i-a1-m1-cD 5u2i-a1-m1-cE_5u2i-a1-m1-cF MSNERTFIALKPDAVQRGLVGTIIARFEQKGFKLVALKLITPSADLAKKHYAEHDGKPFFNGLVEFLTSGPVAAMVWEGKGVVAAARKMIGATKPLESAPGTIRGDFAIDVGRNIIHGSDAVETAQREIALWFQDSELNEWTPTQNKWIYE MSNERTFIALKPDAVQRGLVGTIIARFEQKGFKLVALKLITPSADLAKKHYAEHDGKPFFNGLVEFLTSGPVAAMVWEGKGVVAAARKMIGATKPLESAPGTIRGDFAIDVGRNIIHGSDAVETAQREIALWFQDSELNEWTPTQNKWIYE 5u2i-a1-m1-cC_5u2i-a1-m1-cF Crystal structure of a nucleoside diphosphate kinase from Naegleria fowleri A0A1S4NYF9 A0A1S4NYF9 1.4 X-RAY DIFFRACTION 82 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 151 156 5u2i-a1-m1-cA_5u2i-a1-m1-cB 5u2i-a1-m1-cD_5u2i-a1-m1-cE MSNERTFIALKPDAVQRGLVGTIIARFEQKGFKLVALKLITPSADLAKKHYAEHDGKPFFNGLVEFLTSGPVAAMVWEGKGVVAAARKMIGATKPLESAPGTIRGDFAIDVGRNIIHGSDAVETAQREIALWFQDSELNEWTPTQNKWIYE HHHHHMSNERTFIALKPDAVQRGLVGTIIARFEQKGFKLVALKLITPSADLAKKHYAEHDGKPFFNGLVEFLTSGPVAAMVWEGKGVVAAARKMIGATKPLESAPGTIRGDFAIDVGRNIIHGSDAVETAQREIALWFQDSELNEWTPTQNKWIYE 5u2w-a1-m1-cB_5u2w-a1-m1-cD Crystal structure of a Short chain dehydrogenase from Burkholderia cenocepacia J2315 in complex with NADP B4E730 B4E730 1.55 X-RAY DIFFRACTION 125 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 245 245 5u2w-a1-m1-cC_5u2w-a1-m1-cA NRLQGKRALVTGGSRGIGAAIAKRLAADGADVAITYEKSAERAQAVVAGIEALGRRAIAIQADSADPVAVRNAVDRVAEAFGGLDILVNNAGIFRAGSLDDLTLDDIDATLNVNVRAVIVASQAAARHLGEGGRIVSTGSCLATRVPDAGMSLYAASKAALIGWTQGLARDLGPRGITVNIVHPGSTDTDMNPADGAHADAQRSRMAIQQYGKADDVAALVAFVVGPEGRSINGTGLTIDGGANA NRLQGKRALVTGGSRGIGAAIAKRLAADGADVAITYEKSAERAQAVVAGIEALGRRAIAIQADSADPVAVRNAVDRVAEAFGGLDILVNNAGIFRAGSLDDLTLDDIDATLNVNVRAVIVASQAAARHLGEGGRIVSTGSCLATRVPDAGMSLYAASKAALIGWTQGLARDLGPRGITVNIVHPGSTDTDMNPADGAHADAQRSRMAIQQYGKADDVAALVAFVVGPEGRSINGTGLTIDGGANA 5u2w-a1-m1-cC_5u2w-a1-m1-cD Crystal structure of a Short chain dehydrogenase from Burkholderia cenocepacia J2315 in complex with NADP B4E730 B4E730 1.55 X-RAY DIFFRACTION 138 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 245 245 5u2w-a1-m1-cB_5u2w-a1-m1-cA NRLQGKRALVTGGSRGIGAAIAKRLAADGADVAITYEKSAERAQAVVAGIEALGRRAIAIQADSADPVAVRNAVDRVAEAFGGLDILVNNAGIFRAGSLDDLTLDDIDATLNVNVRAVIVASQAAARHLGEGGRIVSTGSCLATRVPDAGMSLYAASKAALIGWTQGLARDLGPRGITVNIVHPGSTDTDMNPADGAHADAQRSRMAIQQYGKADDVAALVAFVVGPEGRSINGTGLTIDGGANA NRLQGKRALVTGGSRGIGAAIAKRLAADGADVAITYEKSAERAQAVVAGIEALGRRAIAIQADSADPVAVRNAVDRVAEAFGGLDILVNNAGIFRAGSLDDLTLDDIDATLNVNVRAVIVASQAAARHLGEGGRIVSTGSCLATRVPDAGMSLYAASKAALIGWTQGLARDLGPRGITVNIVHPGSTDTDMNPADGAHADAQRSRMAIQQYGKADDVAALVAFVVGPEGRSINGTGLTIDGGANA 5u35-a1-m1-cB_5u35-a1-m1-cA Crystal structure of a de novo designed protein with curved beta-sheet 1.8 X-RAY DIFFRACTION 60 1.0 32630 (synthetic construct) 32630 (synthetic construct) 121 125 5tph-a1-m1-cA_5tph-a1-m1-cB GSHMTEEEVRKIMEKLKKAFKQGNPEQIVSLLSPDVKVDVGNQSFSGSEEAEKAARKLMKFVDRVEVRDVRVFENAVMIAVEFEVNGQRYKMIFTFYVENGKVSMVSIYISPTMKKLMKQI GSHMTEEEVRKIMEKLKKAFKQGNPEQIVSLLSPDVKVDVGNQSFSGSEEAEKAARKLMKFVDRVEVRDVRVFENAVMIAVEFEVNGQRYKMIFTFYVENGKVSMVSIYISPTMKKLMKQILNYG 5u3f-a1-m1-cA_5u3f-a1-m1-cB Structure of Mycobacterium tuberculosis IlvE, a branched-chain amino acid transaminase, in complex with D-cycloserine derivative P9WQ75 P9WQ75 1.695 X-RAY DIFFRACTION 175 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 326 328 3ht5-a1-m1-cA_3ht5-a1-m2-cA HTDHMVSIDYAEGRGWHNARVIPYGPIELDPSAIVLHYAQEVFEGLKAYRWADGSIVSFRADANAARLRSSARRLAIPELPDAVFIESLRQLIAVDKAWVPGAGGEEALYLRPFIFATEPGLGVRPATQYRYLLIASPAAPVSVWVSTEYVRACPGGTGAAKFGGNYAASLLAQAEAAENGCDQVVWLDAVERRYIEEMGGMNIFFVLGSGGSARLVTPELSGSLLPGITRDSLLQLAIDAGFAVEERRIDIDEWQKKAAAGEITEVFACGTAAVITPVARVRHGASEFRIADGQPGEVTMALRDTLTGIQRGTFADTHGWMARLG YHTDHMVSIDYAEGRGWHNARVIPYGPIELDPSAIVLHYAQEVFEGLKAYRWADGSIVSFRADANAARLRSSARRLAIPELPDAVFIESLRQLIAVDKAWVPGAGGEEALYLRPFIFATEPGLGVRPATQYRYLLIASPAIAPVSVWVSTEYVRACPGGTGAAKFGGNYAASLLAQAEAAENGCDQVVWLDAVERRYIEEMGGMNIFFVLGSGGSARLVTPELSGSLLPGITRDSLLQLAIDAGFAVEERRIDIDEWQKKAAAGEITEVFACGTAAVITPVARVRHGASEFRIADGQPGEVTMALRDTLTGIQRGTFADTHGWMARLG 5u4h-a1-m1-cA_5u4h-a1-m1-cB 1.05 Angstrom Resolution Crystal Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase from Acinetobacter baumannii in Covalently Bound Complex with (2R)-2-(phosphonooxy)propanoic Acid. A0A0R0VXX6 A0A0R0VXX6 1.05 X-RAY DIFFRACTION 71 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 420 420 NAMDKFLITGGVKLEGEVRISGAKNAALPLLAAMILADSPITLTNVPNLKDVNTLVKLIGGLGVTISYENDTVKADTSTLDNQFAPYELVKTMRASILVLGPLLARYGNAKVSLPGGCAIGSRPVDQHLKALEALGAHIEVENGYVHATVDGRLKGGEVVFDMVTVGGTENILMAAALADGVTTIRNAAREPEITDLAQMLIKMGAKIEGLDTDTLVVTGVESLHGCEYAVVADRIETGSYLAAAAITGGRVKTTHTDPSLLEAVLDKFEEMGAEVTRGDDWIELDMLGKRPKAVSFRTLPHPEFPTDMQAQIMAVNAIGRGFATISETIFENRFMHVPELSRMGANIQVEGHDAVVTGVEKLQAAPVMATDLRASFSLVLAALVAEGDTLIDRIYHIDRGYEHVEEKLQGLGAKIKRVS NAMDKFLITGGVKLEGEVRISGAKNAALPLLAAMILADSPITLTNVPNLKDVNTLVKLIGGLGVTISYENDTVKADTSTLDNQFAPYELVKTMRASILVLGPLLARYGNAKVSLPGGCAIGSRPVDQHLKALEALGAHIEVENGYVHATVDGRLKGGEVVFDMVTVGGTENILMAAALADGVTTIRNAAREPEITDLAQMLIKMGAKIEGLDTDTLVVTGVESLHGCEYAVVADRIETGSYLAAAAITGGRVKTTHTDPSLLEAVLDKFEEMGAEVTRGDDWIELDMLGKRPKAVSFRTLPHPEFPTDMQAQIMAVNAIGRGFATISETIFENRFMHVPELSRMGANIQVEGHDAVVTGVEKLQAAPVMATDLRASFSLVLAALVAEGDTLIDRIYHIDRGYEHVEEKLQGLGAKIKRVS 5u4n-a1-m1-cA_5u4n-a1-m2-cA Crystal structure of a fructose-bisphosphate aldolase from Neisseria gonorrhoeae Q5FAI4 Q5FAI4 1.6 X-RAY DIFFRACTION 128 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 350 350 MALVSMRQLLDHAAENSYGLPAFNVNNLEQMRAIMEAADQVNAPVIVQASAGARKYAGAPFLRHLILAAVEEFPHIPVVMHQDHGASPDVCQRSIQLGFSSVMMDGSLLEDGKTPSSYEYNVNATRTVVNFSHACGVSVEGEIGVLGNLETGEAGEEDGVGAAGKLSHDQMLTSVEDAVRFVKDTGVDALAIAVGTSHGAYKFTRPPTGDVLRIDRIKEIHQALPNTHIVMHGSSSVPQEWLKVINEYGGNIGETYGVPVEEIVEGIKHGVRKVNIDTDLRLASTGAVRRYLAENPSDFDPRKYLGKTIEAMKQICLDRYLAFGCEGQAGKIKPVSLEKMASRYAKGELN MALVSMRQLLDHAAENSYGLPAFNVNNLEQMRAIMEAADQVNAPVIVQASAGARKYAGAPFLRHLILAAVEEFPHIPVVMHQDHGASPDVCQRSIQLGFSSVMMDGSLLEDGKTPSSYEYNVNATRTVVNFSHACGVSVEGEIGVLGNLETGEAGEEDGVGAAGKLSHDQMLTSVEDAVRFVKDTGVDALAIAVGTSHGAYKFTRPPTGDVLRIDRIKEIHQALPNTHIVMHGSSSVPQEWLKVINEYGGNIGETYGVPVEEIVEGIKHGVRKVNIDTDLRLASTGAVRRYLAENPSDFDPRKYLGKTIEAMKQICLDRYLAFGCEGQAGKIKPVSLEKMASRYAKGELN 5u4o-a1-m1-cA_5u4o-a1-m2-cA A 2.05A X-Ray Structureof A Bacterial Extracellular Solute-binding Protein, family 5 for Bacillus anthracis str. Ames A0A6H3AI29 A0A6H3AI29 2.05 X-RAY DIFFRACTION 127 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 465 465 EGGVLTIARLSDADNLDPHFITNIPSASVVYHKVYENLVQRDKNDFKPLAKEWKQIDDLNWEFKLQQGVTFQDGAPFNAEAVKKNFERVLDPKTVYSIQEIKVIDEYTVQFILKYPYSPLLSIFASNEGSILSPKAIDEKGKGLAQHPVGTGPYTFKSWKPGEEIRLEKNKNYWGEKAKVDEVVFKVVPEDATRIGIETSEAHIAENLPVTEVERVKNSPSELIENEGLGVEYIGFNVEKKPFDNPLVRQAIAHAIETKGILKGVYNNVGTEINSVTPKVFGYTKDVKGYKYDINTAKKLLADAGYPNGFKTTIWTNDSKVRALVEVIQSQLKGIGVDVEIKVEYGAFLAATNKSEHAFVGGWGNATGDGDYNQYNLFHSSSHGATGNQFFYSNPEVDKLIEEARKEKDETKRKELYKQLQEIELKDALLVPIRGINHIAATTKNIKGFWIDPSGYLRLEGVELQ EGGVLTIARLSDADNLDPHFITNIPSASVVYHKVYENLVQRDKNDFKPLAKEWKQIDDLNWEFKLQQGVTFQDGAPFNAEAVKKNFERVLDPKTVYSIQEIKVIDEYTVQFILKYPYSPLLSIFASNEGSILSPKAIDEKGKGLAQHPVGTGPYTFKSWKPGEEIRLEKNKNYWGEKAKVDEVVFKVVPEDATRIGIETSEAHIAENLPVTEVERVKNSPSELIENEGLGVEYIGFNVEKKPFDNPLVRQAIAHAIETKGILKGVYNNVGTEINSVTPKVFGYTKDVKGYKYDINTAKKLLADAGYPNGFKTTIWTNDSKVRALVEVIQSQLKGIGVDVEIKVEYGAFLAATNKSEHAFVGGWGNATGDGDYNQYNLFHSSSHGATGNQFFYSNPEVDKLIEEARKEKDETKRKELYKQLQEIELKDALLVPIRGINHIAATTKNIKGFWIDPSGYLRLEGVELQ 5u4p-a2-m1-cA_5u4p-a2-m2-cA Protein-protein complex between 26S proteasome regulatory subunit RPN8, RPN11, and Ubiquitin S31 Q08723 Q08723 2.5 X-RAY DIFFRACTION 55 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 177 177 MSLQHEKVTIAPLVLLSALDHYERTQTKENKRCVGVILGDANSSTIRVTNSFALPFEEDEKNSDVWFLDHNYIENMNEMCKKINAKEKLIGWYHSGPKLRASDLKINELFKKYTQNNPLLLIVDVKQQGVGLPTDAYVAIEQVKDDGTSTEKTFLHLPCTIEAEEAEEIGVEHLLRD MSLQHEKVTIAPLVLLSALDHYERTQTKENKRCVGVILGDANSSTIRVTNSFALPFEEDEKNSDVWFLDHNYIENMNEMCKKINAKEKLIGWYHSGPKLRASDLKINELFKKYTQNNPLLLIVDVKQQGVGLPTDAYVAIEQVKDDGTSTEKTFLHLPCTIEAEEAEEIGVEHLLRD 5u4q-a1-m1-cB_5u4q-a1-m1-cA 1.5 Angstrom Resolution Crystal Structure of NAD-Dependent Epimerase from Klebsiella pneumoniae in Complex with NAD. 1.5 X-RAY DIFFRACTION 113 0.983 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 294 308 AKFLVTGAAGFIGFHIAQRLLNEGHNVVGIDNNDYYDVSLKQARLDRLAYPAFHFQQLDLADREGAKLFATEQFDRVIHLAAQAGVRLENPYAYADANLGYLNILEGCRHTKVKHLVYASSSSVYGLNRKPFSTEDSVDHPVSLYAATKKANELAHTYSHLYGIPTTGLRFFTVYGPWGRPDALFKFTKALEGRDFTYIDDIVEAVVRVLDVIPQANADWTVESGSPATSSAPYRVYNIGNSSPVELDYITALEEALGTSADTQPLYDLVGFKPQTSVKDGVKNFVDWYKDYYQ AKFLVTGAAGFIGFHIAQRLLNEGHNVVGIDNNDYYDVSLKQARLDRLAYPAFHFQQLDLADREGAKLFATEQFDRVIHLAAQANPYAYADANLGYLNILEGCRHTKVKHLVYASSSSVYGLNRKPFSTEDSVDHPVSLYAATKKANELAHTYSHLYGIPTTGLRFFTVYGPWGRPDALFKFTKALEGKSIDVYNYGKKRDFTYIDDIVEAVVRVLDVIPQANADWTVESGSPATSSAPYRVYNIGNSSPVELDYITALEEALGEAQKNPITSADTQPLYDLVGFKPQTSVKDGVKNFVDWYKDYYQI 5u4s-a1-m1-cA_5u4s-a1-m1-cB Crystal structure of a Short chain dehydrogenase from Burkholderia cenocepacia J2315 in complex with NADP. B4EFS5 B4EFS5 1.4 X-RAY DIFFRACTION 159 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 230 237 MQIEGCVACVTGADRGLGAGLLEALLERGARKVYAGVRKKGPRVVPVEIDITNVEQVARAASRAKDITLLINNAGLNRMQPVLEAHDPEAARAEMEVNYFGTLNMMRAFSPALKSNGGAIINVLSILARVALPSMASLSASKAAALRMTEGARAELAPHRVRVISVLPGPIDTEMSRNVPPPKIAVREAVDAVLAALEGGADEVYMGAMAQEIAQGLAADRQALHARLLT MQIEGCVACVTGADRGLGAGLLEALLERGARKVYAGVRKKECLSDVGPRVVPVEIDITNVEQVARAASRAKDITLLINNAGLNRMQPVLEAHDPEAARAEMEVNYFGTLNMMRAFSPALKSNGGAIINVLSILARVALPSMASLSASKAAALRMTEGARAELAPHRVRVISVLPGPIDTEMSRNVPPPKIAVREAVDAVLAALEGGADEVYMGAMAQEIAQGLAADRQALHARLLTP 5u52-a1-m1-cA_5u52-a1-m1-cB 2 helix minimized version of the B-domain from Protein A (Z34C0 bound to IgG1 Fc (monoclinic form) P01857 P01857 1.942 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 209 2j6e-a1-m1-cB_2j6e-a1-m1-cA 3s7g-a1-m1-cB_3s7g-a1-m1-cA 3s7g-a2-m1-cD_3s7g-a2-m1-cC 4acp-a1-m1-cA_4acp-a1-m1-cB 4q6y-a1-m1-cB_4q6y-a1-m1-cA 4wi3-a1-m1-cA_4wi3-a1-m1-cB 4wi5-a1-m1-cA_4wi5-a1-m1-cB 5gsq-a1-m1-cA_5gsq-a1-m1-cB 5gsq-a2-m1-cD_5gsq-a2-m1-cC 5hsf-a1-m1-cA_5hsf-a1-m1-cB 5k33-a1-m2-cA_5k33-a1-m1-cA 5kwg-a1-m2-cA_5kwg-a1-m1-cA 5v4e-a1-m1-cB_5v4e-a1-m1-cA 5v4e-a3-m1-cF_5v4e-a3-m1-cE 5v4e-a4-m1-cH_5v4e-a4-m1-cG 5vme-a1-m1-cB_5vme-a1-m1-cA 5y56-a1-m1-cA_5y56-a1-m1-cB 6fgo-a2-m1-cD_6fgo-a2-m1-cB 6ka7-a1-m1-cC_6ka7-a1-m1-cD 6s5a-a1-m1-cD_6s5a-a1-m1-cA 7lus-a1-m1-cB_7lus-a1-m1-cA 7q3p-a1-m1-cB_7q3p-a1-m1-cA 8a48-a1-m1-cA_8a48-a1-m1-cB 8a49-a1-m1-cA_8a49-a1-m1-cB 8f8w-a1-m1-cA_8f8w-a1-m1-cB 8f8w-a2-m1-cE_8f8w-a2-m1-cF 8f8x-a1-m1-cA_8f8x-a1-m1-cB GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL GGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 5u59-a1-m1-cA_5u59-a1-m2-cA Coiled Coil Peptide Metal Coordination Framework: Dimer Fold Grown with Citrate 2.2 X-RAY DIFFRACTION 36 1.0 32630 (synthetic construct) 32630 (synthetic construct) 26 26 5u5a-a1-m1-cA_5u5a-a1-m2-cA EIAALKENAALKEEIAALKKEIAALK EIAALKENAALKEEIAALKKEIAALK 5u5b-a1-m1-cA_5u5b-a1-m1-cB Coiled Coil Peptide Metal Coordination Framework: Trimer Fold 2.4 X-RAY DIFFRACTION 23 1.0 32630 (synthetic construct) 32630 (synthetic construct) 26 26 5u5b-a1-m1-cA_5u5b-a1-m1-cC 5u5b-a1-m1-cB_5u5b-a1-m1-cC EIAIKKEIEAIKKEIAEIKKEIAIKK EIAIKKEIEAIKKEIAEIKKEIAIKK 5u5c-a2-m2-cE_5u5c-a2-m2-cF Coiled Coil Peptide Metal Coordination Framework: Tetramer Fold 2.1 X-RAY DIFFRACTION 23 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 5u5c-a1-m1-cA_5u5c-a1-m1-cB 5u5c-a1-m1-cA_5u5c-a1-m1-cD 5u5c-a1-m1-cB_5u5c-a1-m1-cC 5u5c-a1-m1-cC_5u5c-a1-m1-cD 5u5c-a2-m1-cE_5u5c-a2-m1-cF 5u5c-a2-m1-cE_5u5c-a2-m2-cF 5u5c-a2-m1-cF_5u5c-a2-m2-cE ELAAIKEELAAIKELAAIKQELAAIKQ ELAAIKEELAAIKELAAIKQELAAIKQ 5u5g-a2-m1-cC_5u5g-a2-m1-cD Psf3 in complex with NADP+ and 2-OPP I6R485 I6R485 2.048 X-RAY DIFFRACTION 210 1.0 317 (Pseudomonas syringae) 317 (Pseudomonas syringae) 283 284 5u5g-a1-m1-cB_5u5g-a1-m1-cA VVGFIGLGRMGQAICRRLLASQMPVHVHNRSREKADDLIRQGAVWAPDIVALTRAARVLFVCTAGSEAVQDFYHAPDRGLLACLEVGDIVVDLSTIAPETAEGLHAAFAQQGADYIECPVSGGVEGALAGILSAIVSGRPEAYGLIRPLLEVFCATVTYVPEPGKAQRLKILNNLAESINLAGAIEVISQGLSQGLDLKSMADVFTSCRGRSAYMDVALGYALSGGASSNVSLGVRCKDLELARRRLPQDQSYPFSTLAMTTFDTVRQACGEESDQCQYFSVL VVGFIGLGRMGQAICRRLLASQMPVHVHNRSREKADDLIRQGAVWAPDIVALTRAARVLFVCTAGSEAVQDFYHAPDRGLLACLEVGDIVVDLSTIAPETAEGLHAAFAQQGADYIECPVSGGVEGALAGILSAIVSGRPEAYGLIRPLLEVFCATVTYVPEPGKAQRLKILNNLAESINLAGAIEVISQGLSQGLDLKSMADVFTSCRGRSAYMDVALGYALSGGASSNVSLGVRCKDLELARRRLPQDQSYPFSTLAMTTFDTVRQACGEESDQCQYFSVLS 5u5n-a1-m1-cB_5u5n-a1-m1-cA The dimeric crystal structure of HTPA Reductase from Sellaginella moellendorffii D8R6G2 D8R6G2 2.1 X-RAY DIFFRACTION 135 1.0 88036 (Selaginella moellendorffii) 88036 (Selaginella moellendorffii) 277 279 5u5i-a1-m1-cA_5u5i-a1-m1-cB LAAAPVMVNDCTGKVGQAVAEAAVAAGLRLVPLSLTGPGRGGKRVVIGNVEVDVREVSEREDVVKEVITEYPNVIVVDYTLPAAVNDNAEFYCKQGLPFVMGTTGGDREKLLDVARKSGTYSIIAPQMGKQVVAFVAAMEIMAKQFPGAFSGYTLQVTESHQSTKADVSGTALAVISSLRKLGLDFKDEQVELVRDPKEQMTRMGVPEQHLNGHAFHTYKIISPDGTVFFEFKHNVCGRSIYAQGTVDAVLFLSKKIQEKSEKRLYNMIDVLEGGSM VLAAAPVMVNDCTGKVGQAVAEAAVAAGLRLVPLSLTGPGRGGKRVVIGNVEVDVREVSEREDVVKEVITEYPNVIVVDYTLPAAVNDNAEFYCKQGLPFVMGTTGGDREKLLDVARKSGTYSIIAPQMGKQVVAFVAAMEIMAKQFPGAFSGYTLQVTESHQSTKADVSGTALAVISSLRKLGLDFKDEQVELVRDPKEQMTRMGVPEQHLNGHAFHTYKIISPDGTVFFEFKHNVCGRSIYAQGTVDAVLFLSKKIQEKSEKRLYNMIDVLEGGSMR 5u63-a1-m1-cA_5u63-a1-m1-cB Crystal structure of putative thioredoxin reductase from Haemophilus influenzae P43788 P43788 1.99 X-RAY DIFFRACTION 136 0.997 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 315 319 DIKHAKLLILGSGPAGYTAAIYAARANLKPVLVTGLQQGGQLTTTDEIENWPGDFEMTTGSGLMQRMLQHAEKFETEIVFDHINRVDLSSRPFKLFGDVQNFTCDALIIATGASARYIGLPSEENYKGRGVSACATCDGFFYRNKPVGVIGGGNTAVEEALYLANIASTVHLIHRRDSFRAEKILIDRLYKKVEEGKIVLHTDRTLDEVLGDNMGVTGLRLANTKTGEKEELKLDGLFVAIGHSPNTEIFQGQLELNNGYIVVKSGLDGNATATSVEGVFAAGDVMDHNYRQAITSAGTGCMAALDAERYLDAQE SNAMSDIKHAKLLILGSGPAGYTAAIYAARANLKPVLVTGLQQGGQLTTTDEIENWPGDFEMTTGSGLMQRMLQHAEKFETEIVFDHINRVDLSSRPFKLFGDVQNFTCDALIIATGASARYIGLPSEENYKGRGVSACATCDGFFYRNKPVGVIGGGNTAVEEALYLANIASTVHLIHRRDSFRAEKILIDRLYKKVEEGKIVLHTDRTLDEVLGDNMGVTGLRLANTKTGEKEELKLDGLFVAIGHSPNTEIFQGQLELNNGYIVVKSGLDGNATATSVEGVFAAGDVMDHNYRQAITSAGTGCMAALDAERYLDAQ 5u6c-a1-m1-cB_5u6c-a1-m1-cA Crystal structure of the Mer kinase domain in complex with a macrocyclic inhibitor Q12866 Q12866 2.1 X-RAY DIFFRACTION 52 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 257 272 6mep-a1-m1-cB_6mep-a1-m1-cA NKLEDVVIDRNLLILGKILGEGSVMEGNLKQEDGTSLKVAVKTMIEEFLSEAACMKDFSHPNVMRLLGVCIEMSSQGIPKPMVILPFMKYGDLHTYLLYSRLETGPKHIPLQTLLKFMVDIALGMEYLSNRNFLHRDLAARNCMLRDDMTVCVADFMPVKWIAIESLADRVYTSKSDVWAFGVTMWEIATRGMTPYPGVQNHEMYDYLLHGHRLKQPEDCLDELYEIMYSCWRTDPLDRPTFSVLRLQLEKLLESLP ELQNKLEDVVIDRNLLILGKILGEGEFGSVMEGNLKQEDGTSLKVAVKTMKLDNSSQREIEEFLSEAACMKDFSHPNVMRLLGVCIEMIPKPMVILPFMKYGDLHTYLLYSRLETGPKHIPLQTLLKFMVDIALGMEYLSNRNFLHRDLAARNCMLRDDMTVCVADFGLSPVKWIAIESLADRVYTSKSDVWAFGVTMWEIATRGMTPYPGVQNHEMYDYLLHGHRLKQPEDCLDELYEIMYSCWRTDPLDRPTFSVLRLQLEKLLESLPDV 5u6k-a4-m1-cD_5u6k-a4-m1-cH Crystal structure of TopBP1 BRCT4/5 in complex with a BLM phosphopeptide Q6ZQF0 Q6ZQF0 2.6 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 190 191 5u6k-a1-m1-cA_5u6k-a1-m1-cE 5u6k-a2-m1-cB_5u6k-a2-m1-cF 5u6k-a3-m1-cC_5u6k-a3-m1-cG GLFSQKSFLVLGFSVENKCNIVDIIREHAGKIVSLPSRIVADYAVVPLLGCEVDVTVGEVVTNTWLVTCIDNQTLVDPKSNPLFTPVSVMSGVTPLEDCVISFSQCVGAERDSLVFLANHLGASVQEFFVRKANAKKGMLASTHLIVKEPTGSKYEAAKKWSLPAVNISWLLETARIGKRADENHFLVDN EGLFSQKSFLVLGFSVENKCNIVDIIREHAGKIVSLPSRIVADYAVVPLLGCEVDVTVGEVVTNTWLVTCIDNQTLVDPKSNPLFTPVSVMSGVTPLEDCVISFSQCVGAERDSLVFLANHLGASVQEFFVRKANAKKGMLASTHLIVKEPTGSKYEAAKKWSLPAVNISWLLETARIGKRADENHFLVDN 5u76-a1-m3-cA_5u76-a1-m4-cA Chicken Slo2.2 in a closed conformation vitrified in the presence of 300 mM NaCl Q8QFV0 Q8QFV0 3.76 ELECTRON MICROSCOPY 129 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 878 878 5u70-a1-m1-cA_5u70-a1-m2-cA 5u70-a1-m1-cA_5u70-a1-m4-cA 5u70-a1-m2-cA_5u70-a1-m3-cA 5u70-a1-m3-cA_5u70-a1-m4-cA 5u76-a1-m1-cA_5u76-a1-m2-cA 5u76-a1-m1-cA_5u76-a1-m4-cA 5u76-a1-m2-cA_5u76-a1-m3-cA KERLKLFFIKNQRSSLRIRLFNFSLKLLTCLLYIVRVLLDNKINWSHIFWVDRKLPLWAVQVSIALISFLETMLLIYLSYKGNIWEQIFRISFILEMINTVPFIITIFWPPLRNLFIPVFLNCWLAKYALENMINDLQSAMFNQVLILICTLLCLVFTGTCGIQHLERAGEKLSLFKSFYFCIVTFSTVGYGDVTPKIWPSQLLVVIMICVALVVLPLQFEELVYLWMENYSRHRAQTEKHVVLCVSSLKIDLLMDFLNEFYAHPRLQDYYVVILCPTEMDIQVRRVLQIPLWSQRVIYLQGSALKDQDLMRAKMDNGEACFILSSRNEVDRTAADHQTILRAWAVKDFAPNCPLYVQILKPENKFHVKFADHVVCEEECKYAMLALNCVCPATSTLITLLVHTSRGQEGQESPEQWQRMYGRCSGNEVYHIRMGDSKFFMEYEGKSFTYAAFHAHKKYGVCLIGIRREENKSILLNPGPRHIMAASDTCFYINITKEENSAFIFKQVEYVKGYPPNSPYIGSSPTLCHLLPEKAPFCCLRLDKGCKHNSFEDAKAYGFKNKLIIVSAETAGNGLYNFIVPLRAYYRSRKELNPIVLLLDNKPEHHFLEAICCFPMVYYMEGTIDNLDSLLQCGIIYADNLVVVDKAEEDYMADAKTIVNVQTMFRLFPSLSIITELTHPSNMRFMQFRAKDSYSLALSKLEKKERENGSNLAFMFRLPFAAGRVFSISMLDTLLYQSFVKDYMITITRLLLGLDTTPGSGYLCAMKITEDDLWIRTYGRLFQKLCSSSAEIPIGIYRTESHMFAEWISQQRLSLYRRSERQELSELVKNRMKHLGLPTTGYDEMNDHQNTLSYVLINPPPDTRLELNDIVYLIRSDP KERLKLFFIKNQRSSLRIRLFNFSLKLLTCLLYIVRVLLDNKINWSHIFWVDRKLPLWAVQVSIALISFLETMLLIYLSYKGNIWEQIFRISFILEMINTVPFIITIFWPPLRNLFIPVFLNCWLAKYALENMINDLQSAMFNQVLILICTLLCLVFTGTCGIQHLERAGEKLSLFKSFYFCIVTFSTVGYGDVTPKIWPSQLLVVIMICVALVVLPLQFEELVYLWMENYSRHRAQTEKHVVLCVSSLKIDLLMDFLNEFYAHPRLQDYYVVILCPTEMDIQVRRVLQIPLWSQRVIYLQGSALKDQDLMRAKMDNGEACFILSSRNEVDRTAADHQTILRAWAVKDFAPNCPLYVQILKPENKFHVKFADHVVCEEECKYAMLALNCVCPATSTLITLLVHTSRGQEGQESPEQWQRMYGRCSGNEVYHIRMGDSKFFMEYEGKSFTYAAFHAHKKYGVCLIGIRREENKSILLNPGPRHIMAASDTCFYINITKEENSAFIFKQVEYVKGYPPNSPYIGSSPTLCHLLPEKAPFCCLRLDKGCKHNSFEDAKAYGFKNKLIIVSAETAGNGLYNFIVPLRAYYRSRKELNPIVLLLDNKPEHHFLEAICCFPMVYYMEGTIDNLDSLLQCGIIYADNLVVVDKAEEDYMADAKTIVNVQTMFRLFPSLSIITELTHPSNMRFMQFRAKDSYSLALSKLEKKERENGSNLAFMFRLPFAAGRVFSISMLDTLLYQSFVKDYMITITRLLLGLDTTPGSGYLCAMKITEDDLWIRTYGRLFQKLCSSSAEIPIGIYRTESHMFAEWISQQRLSLYRRSERQELSELVKNRMKHLGLPTTGYDEMNDHQNTLSYVLINPPPDTRLELNDIVYLIRSDP 5u7s-a1-m1-cB_5u7s-a1-m2-cB Crystal structure of a fructose-bisphosphate aldolase, class II, Calvin cycle subtype from Acinetobacter baumannii V5VDS0 V5VDS0 2.5 X-RAY DIFFRACTION 12 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 324 324 HHHMALISMRQLLDHAAEHNYGVPAFNVNNLEQMRAIMLAADATNSPVIVQASAGARKYAGAPFLRHLILAAIEEWPHIPVVMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGADGKTPTTYDYNVDVTRQVVAMAHACGVSVEGEIGCQLLTSVEEAKQFVADTNVDALAIAVGTSHGAYKFTRPPTGDILAIDRIKEIHAALPNTHLVMHGSSSVPQEWLKVINEFGGNIGETYGVPVEQLVEAIKHGVRKINIDTDLRLASTGAIRRFMAENPAEFDPRKYFAKTVDSMKQICIDRYEAFGTAGNADKIRPISLEKMVDRYK HHHMALISMRQLLDHAAEHNYGVPAFNVNNLEQMRAIMLAADATNSPVIVQASAGARKYAGAPFLRHLILAAIEEWPHIPVVMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGADGKTPTTYDYNVDVTRQVVAMAHACGVSVEGEIGCQLLTSVEEAKQFVADTNVDALAIAVGTSHGAYKFTRPPTGDILAIDRIKEIHAALPNTHLVMHGSSSVPQEWLKVINEFGGNIGETYGVPVEQLVEAIKHGVRKINIDTDLRLASTGAIRRFMAENPAEFDPRKYFAKTVDSMKQICIDRYEAFGTAGNADKIRPISLEKMVDRYK 5u7s-a1-m2-cB_5u7s-a1-m1-cA Crystal structure of a fructose-bisphosphate aldolase, class II, Calvin cycle subtype from Acinetobacter baumannii V5VDS0 V5VDS0 2.5 X-RAY DIFFRACTION 41 0.981 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 324 329 5u7s-a1-m1-cB_5u7s-a1-m2-cA HHHMALISMRQLLDHAAEHNYGVPAFNVNNLEQMRAIMLAADATNSPVIVQASAGARKYAGAPFLRHLILAAIEEWPHIPVVMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGADGKTPTTYDYNVDVTRQVVAMAHACGVSVEGEIGCQLLTSVEEAKQFVADTNVDALAIAVGTSHGAYKFTRPPTGDILAIDRIKEIHAALPNTHLVMHGSSSVPQEWLKVINEFGGNIGETYGVPVEQLVEAIKHGVRKINIDTDLRLASTGAIRRFMAENPAEFDPRKYFAKTVDSMKQICIDRYEAFGTAGNADKIRPISLEKMVDRYK HHHMALISMRQLLDHAAEHNYGVPAFNVNNLEQMRAIMLAADATNSPVIVQASAGAPFLRHLILAAIEEWPHIPVVMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGADGKTPTTYDYNVDVTRQVVAMAHACGVSVEGEIGCLGSLETVLDHSQLLTSVEEAKQFVADTNVDALAIAVGTSHGAYKFTRPPTGDILAIDRIKEIHAALPNTHLVMHGSSSVPQEWLKVINEFGGNIGETYGVPVEQLVEAIKHGVRKINIDTDLRLASTGAIRRFMAENPAEFDPRKYFAKTVDSMKQICIDRYEAFGTAGNADKIRPISLEKMVDRYK 5u7s-a1-m2-cB_5u7s-a1-m2-cA Crystal structure of a fructose-bisphosphate aldolase, class II, Calvin cycle subtype from Acinetobacter baumannii V5VDS0 V5VDS0 2.5 X-RAY DIFFRACTION 115 0.981 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 324 329 5u7s-a1-m1-cB_5u7s-a1-m1-cA HHHMALISMRQLLDHAAEHNYGVPAFNVNNLEQMRAIMLAADATNSPVIVQASAGARKYAGAPFLRHLILAAIEEWPHIPVVMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGADGKTPTTYDYNVDVTRQVVAMAHACGVSVEGEIGCQLLTSVEEAKQFVADTNVDALAIAVGTSHGAYKFTRPPTGDILAIDRIKEIHAALPNTHLVMHGSSSVPQEWLKVINEFGGNIGETYGVPVEQLVEAIKHGVRKINIDTDLRLASTGAIRRFMAENPAEFDPRKYFAKTVDSMKQICIDRYEAFGTAGNADKIRPISLEKMVDRYK HHHMALISMRQLLDHAAEHNYGVPAFNVNNLEQMRAIMLAADATNSPVIVQASAGAPFLRHLILAAIEEWPHIPVVMHQDHGTSPDVCQRSIQLGFSSVMMDGSLGADGKTPTTYDYNVDVTRQVVAMAHACGVSVEGEIGCLGSLETVLDHSQLLTSVEEAKQFVADTNVDALAIAVGTSHGAYKFTRPPTGDILAIDRIKEIHAALPNTHLVMHGSSSVPQEWLKVINEFGGNIGETYGVPVEQLVEAIKHGVRKINIDTDLRLASTGAIRRFMAENPAEFDPRKYFAKTVDSMKQICIDRYEAFGTAGNADKIRPISLEKMVDRYK 5u7z-a1-m1-cB_5u7z-a1-m2-cD Human acid ceramidase (ASAH1, aCDase) self-activated Q13510 Q13510 2.5 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 253 CTSIVAEDKKGHLIHGRNMDFGVFLGWNINNDTWVITEQLKPLTVNLDFQRNNKTVFKASSFAGYVGMLTGFKPGLFSLTLNERFSINGGYLGILEWILGKKDAMWIGFLTRTVLENSTSYEEAKNLLTKTKILAPAYFILGGNQSGEGCVITRDRKESLDVYELDAKQGRWYVVQTNYDRWKHPFFLDDRRTPAKMCLNRTSQENISFETMYDVLSTKPVLNKLTVYTTLIDVTKGQFETYLRDCPDPCIGW CTSIVAEDKKGHLIHGRNMDFGVFLGWNINNDTWVITEQLKPLTVNLDFQRNNKTVFKASSFAGYVGMLTGFKPGLFSLTLNERFSINGGYLGILEWILGKKDAMWIGFLTRTVLENSTSYEEAKNLLTKTKILAPAYFILGGNQSGEGCVITRDRKESLDVYELDAKQGRWYVVQTNYDRWKHPFFLDDRRTPAKMCLNRTSQENISFETMYDVLSTKPVLNKLTVYTTLIDVTKGQFETYLRDCPDPCIGW 5u81-a2-m1-cA_5u81-a2-m2-cA Acid ceramidase (ASAH1, aCDase) from naked mole rat, Cys143Ala, uncleaved G5AP74 G5AP74 1.4 X-RAY DIFFRACTION 43 1.0 10181 (Heterocephalus glaber) 10181 (Heterocephalus glaber) 369 369 WTEDCRKSTYPPSGPTYRGPVPWYTINLDLPPYKRWHELMVDKGPMLKIIVNSFKNMVNTFVPSGKVMQMVDQKLPDLLGQFSGPYEEEMKGIADVTEIPLGEIISFNIFYELFTMATSIITEDKKGHLLHVRNMDFGIFLGWNINNNTWVITEELKPLTVNLDFQRNSKTVFKATSFAGYVGMLTGFKPGQFSLTLNERFSMNGGYLGLLEWILGKKDASWIGFITRSVLENATSYEEAKNILAKTKLLAPAYFILGGNQSGEGCVITRERKDSLDIYELDPKQGRWYVVQTNYDRWKNPLFLDDRRTPAQTCLKRTTQESLSFATLYDILSTKPVLNKLTVFTALMDVTKNHYEAYLRDCPDPCVGW WTEDCRKSTYPPSGPTYRGPVPWYTINLDLPPYKRWHELMVDKGPMLKIIVNSFKNMVNTFVPSGKVMQMVDQKLPDLLGQFSGPYEEEMKGIADVTEIPLGEIISFNIFYELFTMATSIITEDKKGHLLHVRNMDFGIFLGWNINNNTWVITEELKPLTVNLDFQRNSKTVFKATSFAGYVGMLTGFKPGQFSLTLNERFSMNGGYLGLLEWILGKKDASWIGFITRSVLENATSYEEAKNILAKTKLLAPAYFILGGNQSGEGCVITRERKDSLDIYELDPKQGRWYVVQTNYDRWKNPLFLDDRRTPAQTCLKRTTQESLSFATLYDILSTKPVLNKLTVFTALMDVTKNHYEAYLRDCPDPCVGW 5u85-a1-m1-cB_5u85-a1-m1-cA Murine saposin-D (SapD), open conformation Q61207 Q61207 1.65 X-RAY DIFFRACTION 75 1.0 10090 (Mus musculus) 10090 (Mus musculus) 77 78 GFCEVCKKLVLYLEHNLEKNSTKEEILAALEKGCSFLPDPYQKQCDDFVAEYEPLLLEILVEVMDPGFVCSKIGVCP GFCEVCKKLVLYLEHNLEKNSTKEEILAALEKGCSFLPDPYQKQCDDFVAEYEPLLLEILVEVMDPGFVCSKIGVCPS 5u8m-a1-m1-cA_5u8m-a1-m1-cB A novel family of redox sensors in the streptococci evolved from two-component response regulators B1I9H6 B1I9H6 2.105 X-RAY DIFFRACTION 140 1.0 487214 (Streptococcus pneumoniae Hungary19A-6) 487214 (Streptococcus pneumoniae Hungary19A-6) 229 229 GKRILLLEKERNLAHFLSLELQKEQYRVDLVEEGQKALSMALQTDYDLILLNVNLGDMMAQDFAEKLSRTKPASVIMILDHWEDLQEELEVVQRFAVSYIYKPVLIENLVARISAIFRGRDFIDQHCSLMKVPRTYRNLRIDVEHHTVYRGEEMIALTRREYDLLATLMGSKKVLTREQLLESVWKYESATETNIVDVYIRYLRSKLDVKGQKSYIKTVRGVGYTMQEG GKRILLLEKERNLAHFLSLELQKEQYRVDLVEEGQKALSMALQTDYDLILLNVNLGDMMAQDFAEKLSRTKPASVIMILDHWEDLQEELEVVQRFAVSYIYKPVLIENLVARISAIFRGRDFIDQHCSLMKVPRTYRNLRIDVEHHTVYRGEEMIALTRREYDLLATLMGSKKVLTREQLLESVWKYESATETNIVDVYIRYLRSKLDVKGQKSYIKTVRGVGYTMQEG 5u8o-a2-m1-cC_5u8o-a2-m1-cD Crystal Structure of Beta-lactamase domain protein, from Burkholderia multivorans A0A0H3KRR5 A0A0H3KRR5 2.4 X-RAY DIFFRACTION 54 0.994 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 349 354 5u8o-a1-m1-cA_5u8o-a1-m1-cB HHHMNALEHQLDYPFADTLPAAGDTFEVAPGVRWLRMPLPFSLDHINLWLLRDEIDGQAGWTVVDCGIASDAIRTHWEQIFDAHLDGLPVLRVIVTHCHPDHFGLANWLCEGGDKRRWNVRLWMTLGEYMFGCLMAAGAAAADHFARHGLTDAASLEKLRNRRSYYSDLVPAVPPRYRRLRDGDAVTIGTRTWRVVTGYGHSPEHCALHSEADGVLISGDMVLPRISTNVSVFDLEPEANPLALYLQSLGRYETMAPDTLVLPSHGKPFRGVRTRIAQLRAHHDARLDEVRVACAEQPMSAADIVPIMFRRHQMTFALGEAIAHLNLLWLAGELVREQGDDGVLRFRIA HHMNALEHQLDYPFADTLPAAGDTFEVAPGVRWLRMPLPFSLDHINLWLLRDEIDGQAGWTVVDCGIASDAIRTHWEQIFDAHLDGLPVLRVIVTHCHPDHFGLANWLCEGGDKRRWNVRLWMTLGEYMFGCLMAANAGGAAAADHFARHGLTDAASLEKLRNRRSYYSDLVPAVPPRYRRLRDGDAVTIGTRTWRVVTGYGHSPEHCALHSEADGVLISGDMVLPRISTNVSVFDLEPEANPLALYLQSLGRYETMAPDTLVLPSHGKPFRGVRTRIAQLRAHHDARLDEVRVACAEQPMSAADIVPIMFRLDIHQMTFALGEAIAHLNLLWLAGELVREQGDDGVLRFRIAR 5u8r-a1-m1-cA_5u8r-a1-m2-cA Structure of the ectodomain of the human Type 1 insulin-like growth factor receptor P08069 P08069 3.00002 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 801 801 5u8q-a1-m1-cA_5u8q-a1-m2-cA EICGPGIDIRNDYQQLKRLENCTVIEGYLHILLISKARSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTVDWSLILDAVSNNYIVGNKPPKECGDLCPGCEKTTINNEYNYRCWTTNRCQKMCPSTCGKRACTENNECCHPECLGSCSAPDNDTACVACRHYYYAGVCVPACPPNTYRFEGWRCVDRDFCANILSAESSDSEGFVIHDGECMQECPSGFIRNGSQSMYCIPCEGPCPKVCEEEKKTKTIDSVTSAQMLQGCTIFKGNLLINIRRGNNIASELENFMGLIEVVTGYVKIRHSHALVSLSFLKNLRLILGEEQLEGNYSFYVLDNQNLQQLWDWDHRNLTIKAGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLHFTSTTTSKNRIIITWHRYRPPDYRDLISFTVYYKEAPFKNVTEYNSWNMVDVDLPPNKDVEPGILLHGLKPWTQYAVYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPSLPNGNLSYYIVRWQRQPQDGYLYRHNYCSKDKIPIRKEKEEAEYRKVFENFLHNSIFVPREYPFFESRVDNKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWEPRPENSIFLKWPEPENPNGLILMYEIKYGSQVEDQRECVSRQEYRKYGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVQAK EICGPGIDIRNDYQQLKRLENCTVIEGYLHILLISKARSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTVDWSLILDAVSNNYIVGNKPPKECGDLCPGCEKTTINNEYNYRCWTTNRCQKMCPSTCGKRACTENNECCHPECLGSCSAPDNDTACVACRHYYYAGVCVPACPPNTYRFEGWRCVDRDFCANILSAESSDSEGFVIHDGECMQECPSGFIRNGSQSMYCIPCEGPCPKVCEEEKKTKTIDSVTSAQMLQGCTIFKGNLLINIRRGNNIASELENFMGLIEVVTGYVKIRHSHALVSLSFLKNLRLILGEEQLEGNYSFYVLDNQNLQQLWDWDHRNLTIKAGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLHFTSTTTSKNRIIITWHRYRPPDYRDLISFTVYYKEAPFKNVTEYNSWNMVDVDLPPNKDVEPGILLHGLKPWTQYAVYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPSLPNGNLSYYIVRWQRQPQDGYLYRHNYCSKDKIPIRKEKEEAEYRKVFENFLHNSIFVPREYPFFESRVDNKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWEPRPENSIFLKWPEPENPNGLILMYEIKYGSQVEDQRECVSRQEYRKYGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVQAK 5u8u-a2-m1-cC_5u8u-a2-m1-cD Dihydrolipoamide dehydrogenase (LpdG) from Pseudomonas aeruginosa Q9I3D1 Q9I3D1 1.35 X-RAY DIFFRACTION 257 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 473 477 1lpf-a1-m1-cA_1lpf-a1-m1-cB 5u8u-a1-m1-cA_5u8u-a1-m1-cB 5u8v-a1-m1-cA_5u8v-a1-m1-cB 5u8v-a2-m1-cC_5u8v-a2-m1-cD 5u8w-a1-m1-cA_5u8w-a1-m1-cB 5u8w-a2-m1-cD_5u8w-a2-m1-cC QKFDVVVIGAGPGGYVAAIRAAQLGLKTACIEKYIGKEGKVALGGTCLNVGCIPSKALLDSSYKYHEAKEAFKVHGIEAKGVTIDVPAMVARKANIVKNLTGGIATLFKANGVTSFEGHGKLLANKQVEVTGLDGKTQVLEAENVIIASGSRPVEIPPAPLTDDIIVDSTGALEFQAVPKKLGVIGAGVIGLELGSVWARLGAEVTVLEALDKFLPAADEQIAKEALKVLTKQGLNIRLGARVTASEVKKKQVTVTFTDANGEQKETFDKLIVAVGRRPVTTDLLAADSGVTLDERGFIYVDDHCKTSVPGVFAIGDVVRGAMLAHKASEEGVMVAERIAGHKAQMNYDLIPSVIYTHPEIAWVGKTEQTLKAEGVEVNVGTFPFAASGRAMAANDTTGLVKVIADAKTDRVLGVHVIGPSAAELVQQGAIGMEFGTSAEDLGMMVFSHPTLSEALHEAALAVNGHAIHIANR SHMSQKFDVVVIGAGPGGYVAAIRAAQLGLKTACIEKYIGKEGKVALGGTCLNVGCIPSKALLDSSYKYHEAKEAFKVHGIEAKGVTIDVPAMVARKANIVKNLTGGIATLFKANGVTSFEGHGKLLANKQVEVTGLDGKTQVLEAENVIIASGSRPVEIPPAPLTDDIIVDSTGALEFQAVPKKLGVIGAGVIGLELGSVWARLGAEVTVLEALDKFLPAADEQIAKEALKVLTKQGLNIRLGARVTASEVKKKQVTVTFTDANGEQKETFDKLIVAVGRRPVTTDLLAADSGVTLDERGFIYVDDHCKTSVPGVFAIGDVVRGAMLAHKASEEGVMVAERIAGHKAQMNYDLIPSVIYTHPEIAWVGKTEQTLKAEGVEVNVGTFPFAASGRAMAANDTTGLVKVIADAKTDRVLGVHVIGPSAAELVQQGAIGMEFGTSAEDLGMMVFSHPTLSEALHEAALAVNGHAIHIANR 5u93-a1-m1-cA_5u93-a1-m1-cB Structure of the Regulatory Domain of the AraC Family Transcriptional Activator RhaR P09378 P09378 1.999 X-RAY DIFFRACTION 28 1.0 629395 (Bacteria Latreille et al. 1825) 629395 (Bacteria Latreille et al. 1825) 156 157 5u9e-a1-m1-cB_5u9e-a1-m1-cA KLLKDDFFASDQQAVAVADRYPQDVFAEHTHDFCELVIVWRGNGLHVLNDRPYRITRGDLFYIHADDKHSYASVNDLVLQNIIYCPERLKLNLDWQGAIPGFNASAGQPHWRLGSGAQARQVIGQLEHESSQHVPFANEAELLFGQLVLLNRHRYT LKLLKDDFFASDQQAVAVADRYPQDVFAEHTHDFCELVIVWRGNGLHVLNDRPYRITRGDLFYIHADDKHSYASVNDLVLQNIIYCPERLKLNLDWQGAIPGFNASAGQPHWRLGSGAQARQVIGQLEHESSQHVPFANEAELLFGQLVLLNRHRYT 5u96-a1-m1-cB_5u96-a1-m1-cA Crystal structure of the coiled-coil domain from Listeria Innocua (Tetragonal Form) Q928V6 Q928V6 1.95 X-RAY DIFFRACTION 22 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 49 50 5uae-a1-m1-cB_5uae-a1-m1-cA 5uae-a2-m1-cD_5uae-a2-m1-cC 5udo-a1-m1-cA_5udo-a1-m1-cB 5udo-a3-m1-cE_5udo-a3-m1-cF LNEKLKIEHAKKKRLFDLYINGSYEVSELDSMMNDIDAQINYYEAQIEA SLNEKLKIEHAKKKRLFDLYINGSYEVSELDSMMNDIDAQINYYEAQIEA 5u96-a2-m1-cC_5u96-a2-m1-cD Crystal structure of the coiled-coil domain from Listeria Innocua (Tetragonal Form) Q928V6 Q928V6 1.95 X-RAY DIFFRACTION 24 1.0 1642 (Listeria innocua) 1642 (Listeria innocua) 46 50 5u96-a4-m1-cG_5u96-a4-m1-cH 5udo-a2-m1-cC_5udo-a2-m1-cD 5udo-a4-m1-cG_5udo-a4-m1-cH SLNEKLKIEHAKKKRLFDLYINGSYEVSELDSMMNDIDAQINYYEA SLNEKLKIEHAKKKRLFDLYINGSYEVSELDSMMNDIDAQINYYEAQIEA 5u9l-a1-m1-cB_5u9l-a1-m1-cA Crystal structure of the intermembrane space region of the plastid division protein PARC6 Q8VY16 Q8VY16 2.516 X-RAY DIFFRACTION 57 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 151 152 5u9o-a1-m1-cH_5u9o-a1-m1-cE 5u9o-a2-m1-cB_5u9o-a2-m1-cC 6jzf-a1-m1-cB_6jzf-a1-m1-cA IVGNIKVLIDMLKMHCLHKRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQI GIVGNIKVLIDMLKMHCHKRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQIQ 5u9o-a2-m1-cB_5u9o-a2-m1-cD Cocrystal structure of the intermembrane space region of the plastid division proteins PARC6 and PDV1 Q9FK13 Q9FK13 3.37 X-RAY DIFFRACTION 39 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 144 146 5u9o-a1-m1-cH_5u9o-a1-m1-cA HKRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQIQHLDVMMARG KRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQIQKLDHLDVMMARG 5u9o-a2-m1-cF_5u9o-a2-m1-cB Cocrystal structure of the intermembrane space region of the plastid division proteins PARC6 and PDV1 Q9FK13 Q9FK13 3.37 X-RAY DIFFRACTION 16 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 142 144 5u9o-a1-m1-cG_5u9o-a1-m1-cH HKRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQHLDVMMARG HKRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQIQHLDVMMARG 5u9o-a2-m1-cF_5u9o-a2-m1-cD Cocrystal structure of the intermembrane space region of the plastid division proteins PARC6 and PDV1 Q9FK13 Q9FK13 3.37 X-RAY DIFFRACTION 31 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 142 146 5u9o-a1-m1-cG_5u9o-a1-m1-cA HKRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQHLDVMMARG KRPMDTEEAEELVRQWENVKAEALGPTHQVYSLSEVLDESMLVQWQTLAQTAEAKSCYWRFVLLHLEVLQAHIFEDGIAGEAAEIEALLEEAAELVDESQPKNAKYYSTYKIRYILKKQEDGLWKFCQSDIQIQKLDHLDVMMARG 5u9p-a1-m1-cC_5u9p-a1-m1-cD Crystal structure of a gluconate 5-dehydrogenase from Burkholderia cenocepacia J2315 in complex with NADP and tartrate B4EEX4 B4EEX4 1.65 X-RAY DIFFRACTION 134 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 255 257 5u9p-a1-m1-cA_5u9p-a1-m1-cB HALDRFRLDGRRALITGSGRGIGLTLARGLAEAGAAIVINDRNEEKAATLARRFRDEGFAADHAVFDVAEHAQVRAAIDEFEARVGAIDILVNNAGIQRRAPLDAFEPDDWHALMRVNLDGVFNVAQAVARHMIARGHGKIINICSVQSELARPTIAPYAATKGAVRMLTKGMCADWARYGIQANGLAPGYFETELNRALVDDAAFSDWLCKRTPAGRWGQVDELCGAAIFLASAASDFVNGQTLFVDGGLTSAV MTHALDRFRLDGRRALITGSGRGIGLTLARGLAEAGAAIVINDRNEEKAATLARRFRDEGFAADHAVFDVAEHAQVRAAIDEFEARVGAIDILVNNAGIQRRAPLDAFEPDDWHALMRVNLDGVFNVAQAVARHMIARGHGKIINICSVQSELARPTIAPYAATKGAVRMLTKGMCADWARYGIQANGLAPGYFETELNRALVDDAAFSDWLCKRTPAGRWGQVDELCGAAIFLASAASDFVNGQTLFVDGGLTSAV 5u9p-a1-m1-cD_5u9p-a1-m1-cA Crystal structure of a gluconate 5-dehydrogenase from Burkholderia cenocepacia J2315 in complex with NADP and tartrate B4EEX4 B4EEX4 1.65 X-RAY DIFFRACTION 181 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 257 258 5u9p-a1-m1-cC_5u9p-a1-m1-cB MTHALDRFRLDGRRALITGSGRGIGLTLARGLAEAGAAIVINDRNEEKAATLARRFRDEGFAADHAVFDVAEHAQVRAAIDEFEARVGAIDILVNNAGIQRRAPLDAFEPDDWHALMRVNLDGVFNVAQAVARHMIARGHGKIINICSVQSELARPTIAPYAATKGAVRMLTKGMCADWARYGIQANGLAPGYFETELNRALVDDAAFSDWLCKRTPAGRWGQVDELCGAAIFLASAASDFVNGQTLFVDGGLTSAV HMTHALDRFRLDGRRALITGSGRGIGLTLARGLAEAGAAIVINDRNEEKAATLARRFRDEGFAADHAVFDVAEHAQVRAAIDEFEARVGAIDILVNNAGIQRRAPLDAFEPDDWHALMRVNLDGVFNVAQAVARHMIARGHGKIINICSVQSELARPTIAPYAATKGAVRMLTKGMCADWARYGIQANGLAPGYFETELNRALVDDAAFSDWLCKRTPAGRWGQVDELCGAAIFLASAASDFVNGQTLFVDGGLTSAV 5u9p-a1-m1-cD_5u9p-a1-m1-cB Crystal structure of a gluconate 5-dehydrogenase from Burkholderia cenocepacia J2315 in complex with NADP and tartrate B4EEX4 B4EEX4 1.65 X-RAY DIFFRACTION 23 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 257 261 5u9p-a1-m1-cC_5u9p-a1-m1-cA MTHALDRFRLDGRRALITGSGRGIGLTLARGLAEAGAAIVINDRNEEKAATLARRFRDEGFAADHAVFDVAEHAQVRAAIDEFEARVGAIDILVNNAGIQRRAPLDAFEPDDWHALMRVNLDGVFNVAQAVARHMIARGHGKIINICSVQSELARPTIAPYAATKGAVRMLTKGMCADWARYGIQANGLAPGYFETELNRALVDDAAFSDWLCKRTPAGRWGQVDELCGAAIFLASAASDFVNGQTLFVDGGLTSAV HHHHMTHALDRFRLDGRRALITGSGRGIGLTLARGLAEAGAAIVINDRNEEKAATLARRFRDEGFAADHAVFDVAEHAQVRAAIDEFEARVGAIDILVNNAGIQRRAPLDAFEPDDWHALMRVNLDGVFNVAQAVARHMIARGHGKIINICSVQSELARPTIAPYAATKGAVRMLTKGMCADWARYGIQANGLAPGYFETELNRALVDDAAFSDWLCKRTPAGRWGQVDELCGAAIFLASAASDFVNGQTLFVDGGLTSAV 5ua0-a1-m1-cA_5ua0-a1-m2-cA Dimeric crystal structure of HTPA reductase from arabidopsis thaliana Q8LB01 Q8LB01 2.3 X-RAY DIFFRACTION 150 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 271 271 GISIMVNGCSGKMGKAVIKAADSAGVNIVPTSFGSVEEAGQTVEVCGKEILVHGPTEREKVLSSVFEKYPELIVVDYTIPSAVNDNAELYGKVGVPFVMGTTGGDRTRLYKTVEESKIYAVISPQMGKQVVAFLAAMEIMSEQFPGAFAGYSLEVMESHQASKLDASGTAKAVISCFQKLGVSYIQLIRDPKQQIEVVGVPEEHVSGHAFHLYHLTSPDKTVSFEFQHNVCGRSIYAEGTVDAVLFLAKKIRSKAEKRIYNMIDVLREGNM GISIMVNGCSGKMGKAVIKAADSAGVNIVPTSFGSVEEAGQTVEVCGKEILVHGPTEREKVLSSVFEKYPELIVVDYTIPSAVNDNAELYGKVGVPFVMGTTGGDRTRLYKTVEESKIYAVISPQMGKQVVAFLAAMEIMSEQFPGAFAGYSLEVMESHQASKLDASGTAKAVISCFQKLGVSYIQLIRDPKQQIEVVGVPEEHVSGHAFHLYHLTSPDKTVSFEFQHNVCGRSIYAEGTVDAVLFLAKKIRSKAEKRIYNMIDVLREGNM 5ua1-a2-m1-cA_5ua1-a2-m1-cB Mycobacterium tuberculosis KstR in complex with a 18-bp DNA operator P96856 P96856 2.9 X-RAY DIFFRACTION 85 0.994 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 177 178 3mnl-a1-m1-cB_3mnl-a1-m1-cA 5aqc-a1-m1-cB_5aqc-a1-m1-cA 5cw8-a1-m1-cA_5cw8-a1-m1-cB 5cxg-a1-m1-cB_5cxg-a1-m1-cA 5cxg-a2-m1-cD_5cxg-a2-m1-cC 5fmp-a1-m1-cB_5fmp-a1-m1-cA 5ua1-a1-m1-cA_5ua1-a1-m1-cB 5ua2-a1-m1-cA_5ua2-a1-m2-cA LGSEAQRERRKRILDATMAIASKGGYEAVQMRAVADRADVAVGTLYRYFPSKVHLLVSALGREFSRIDAKATPFQRLNFMVGKLNRAMQRNPLLTEAMTRAYVFADASAASEVDQVEKLIDSMFARAMANEPTEDQYHIARVISDVWLSNLLAWLTRRASATDVSKRLDLAVRLLIG LGSEAQRERRKRILDATMAIASKGGYEAVQMRAVADRADVAVGTLYRYFPSKVHLLVSALGREFSRIDAKAGATPFQRLNFMVGKLNRAMQRNPLLTEAMTRAYVFADASAASEVDQVEKLIDSMFARAMAEPTEDQYHIARVISDVWLSNLLAWLTRRASATDVSKRLDLAVRLLIG 5uao-a2-m1-cD_5uao-a2-m1-cB Crystal structure of MibH, a lathipeptide tryptophan 5-halogenase W2EQU4 W2EQU4 1.88 X-RAY DIFFRACTION 79 1.0 316330 (Microbispora sp. ATCC PTA-5024) 316330 (Microbispora sp. ATCC PTA-5024) 514 516 5uao-a1-m1-cC_5uao-a1-m1-cA PGAIRTVGVIGGGTAGYLTALALKAKRPWLDVALVESADIPIIGVGEATVSYMVMFLHHYLGIDPAEFYQHVRPTWKLGIRFEWGSRPEGFVAPFDWGTGSVGLVGSLRETGNVNEATLQAMLMTEDRVPVYRGEGGHVSLMKYLPFAYHMDNARLVRYLTELAARRGVRHVDATVAEVRLDGPDHVGGLITTDGRRLHYDFYVDCTGFRSLLLEKALGIPFESYASSLFTDAAVTGTLAHGGHLKPYTTATTMNAGWCWTIPTPESDHLGYVFSSAAIDPDDAAAEMARRFPGVTREALVRFRSGRHREAWRGNVMAVGNSYAFVEPLESSGLLMIATAVQILVSLLPSSRRDPLPSDAANQALAHRWDAIRWFLSIHYRFNGRLDTPFWKEARAETDISGIEPLLRLFAAGAPLTGRDSFTRYLADGAAPLFYGLEGVDTLLLGQEVPARLLPPREPPEQWRARAAAARSLASRGLRQSEALDAYAADPCLNAELLSDSDSWAGERVAVRAG PGAIRTVGVIGGGTAGYLTALALKAKRPWLDVALVESADIPIIGVGEATVSYMVMFLHHYLGIDPAEFYQHVRPTWKLGIRFEWGSRPEGFVAPFDWGTGSVGLVGSLRETGNVNEATLQAMLMTEDRVPVYRGEGGHVSLMKYLPFAYHMDNARLVRYLTELAARRGVRHVDATVAEVRLDGPDHVGGLITTDGRRLHYDFYVDCTGFRSLLLEKALGIPFESYASSLFTDAAVTGTLAHGGHLKPYTTATTMNAGWCWTIPTPESDHLGYVFSSAAIDPDDAAAEMARRFPGVTREALVRFRSGRHREAWRGNVMAVGNSYAFVEPLESSGLLMIATAVQILVSLLPSSRRDPLPSDAANQALAHRWDAIRWFLSIHYRFNGRLDTPFWKEARAETDISGIEPLLRLFAAGAPLTGRDSFTRYLADGAAPLFYGLEGVDTLLLGQEVPARLLPPREPPEQWRARAAAARSLASRGLRQSEALDAYAADPCLNAELLSDSDSWAGERVAVRAGLR 5uaz-a1-m1-cA_5uaz-a1-m1-cB Crystal structure of the yeast nucleoporin Q03790 Q03790 1.753 X-RAY DIFFRACTION 53 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 94 94 SMNWDDHAIIIFGYPETIANSIILHFANFGEILEDFRVIKDQKYPIYTGDGWVKLTYKSELSKSRALQENGIIMNGTLIGCVSYSPAALKQLAS SMNWDDHAIIIFGYPETIANSIILHFANFGEILEDFRVIKDQKYPIYTGDGWVKLTYKSELSKSRALQENGIIMNGTLIGCVSYSPAALKQLAS 5ub8-a1-m1-cA_5ub8-a1-m2-cA Crystal structure of YPT31, a Rab family GTPase from Candida albicans, in complex with GDP and Zn(II) A0A1D8PTI2 A0A1D8PTI2 2.35 X-RAY DIFFRACTION 52 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 174 174 YSYDYEYLYKIVLIGDSGVGKSNLLSRFTRDEFNLEGVEFATRTLEIDGKRVKAQIWDTAGQERYRAITSAYYRGAVGALIVYDIAKTESYESVSRWLKELKEHADANIIIELVGNKSDLDHLRAVPTEEAKNFAMENNLLFTEASALSSDNVDLSFHQLLKNIYEMISKHQLE YSYDYEYLYKIVLIGDSGVGKSNLLSRFTRDEFNLEGVEFATRTLEIDGKRVKAQIWDTAGQERYRAITSAYYRGAVGALIVYDIAKTESYESVSRWLKELKEHADANIIIELVGNKSDLDHLRAVPTEEAKNFAMENNLLFTEASALSSDNVDLSFHQLLKNIYEMISKHQLE 5ubb-a1-m1-cA_5ubb-a1-m2-cA Crystal structure of human alpha N-terminal protein methyltransferase 1B Q5VVY1 Q5VVY1 2 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 6kdr-a1-m1-cA_6kdr-a1-m1-cB SQVINGEMQFYARAKLFYQEVPATEEGMMGNFIELSSPDIQASQKFLRKFVGGPGRAGTDCALDCGSGIGRVSKHVLLPVFNSVELVDMMESFLLEAQNYLQVKGDESYHCYSLQEFTPPFRRYDVIWIQWVSGHLTDKDLLAFLSRCRDGLKENGIIILKDNVAREGCILDLSDSSVTRDMDILRSLIRKSGLVVLGQEKQDGFPEQCIPVWMFALH SQVINGEMQFYARAKLFYQEVPATEEGMMGNFIELSSPDIQASQKFLRKFVGGPGRAGTDCALDCGSGIGRVSKHVLLPVFNSVELVDMMESFLLEAQNYLQVKGDESYHCYSLQEFTPPFRRYDVIWIQWVSGHLTDKDLLAFLSRCRDGLKENGIIILKDNVAREGCILDLSDSSVTRDMDILRSLIRKSGLVVLGQEKQDGFPEQCIPVWMFALH 5ubf-a1-m1-cA_5ubf-a1-m1-cB Crystal structure of the RctB domains 2-3, RctB-155-483 Q9KNG2 Q9KNG2 2.6 X-RAY DIFFRACTION 143 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 269 269 5tbf-a1-m1-cB_5tbf-a1-m1-cA AGIIDQALAPPRTRKSYQKSVSISGTRAVIETRSSKNITVDDLTLFALFTLTVQYHDNKTPLYITDILSLRGKKDSGPARDSIRDSIDRIEFTDFQLHELTGRWLSENPEGFKSDRFRFLARTITASEEAPVEGSDGEIRIKPNLYILVWEPSFFEELLTRDYFFLFPPEILKQHTLVFQLYSYFRSRSRRHTDVLSELNQKLARNIEWRRFSDLIRELRRLSEGKGSEDLFVVNLWGYHLTVKSIEEKGKVVDYQVDIKCDVEEVLRY AGIIDQALAPPRTRKSYQKSVSISGTRAVIETRSSKNITVDDLTLFALFTLTVQYHDNKTPLYITDILSLRGKKDSGPARDSIRDSIDRIEFTDFQLHELTGRWLSENPEGFKSDRFRFLARTITASEEAPVEGSDGEIRIKPNLYILVWEPSFFEELLTRDYFFLFPPEILKQHTLVFQLYSYFRSRSRRHTDVLSELNQKLARNIEWRRFSDLIRELRRLSEGKGSEDLFVVNLWGYHLTVKSIEEKGKVVDYQVDIKCDVEEVLRY 5ubu-a1-m1-cD_5ubu-a1-m1-cA 2.75 Angstrom Resolution Crystal Structure of Acetamidase from Yersinia enterocolitica. A0A0H3NNJ4 A0A0H3NNJ4 2.75 X-RAY DIFFRACTION 23 1.0 930944 (Yersinia enterocolitica subsp. palearctica Y11) 930944 (Yersinia enterocolitica subsp. palearctica Y11) 314 315 5ubu-a1-m1-cC_5ubu-a1-m1-cB KWLEESIVKRGVGAGRKPVTHHLTEEQKEFHYTIGPYSTPVLTIEPGDRVIVDTRDAFEGAISSEQDIPSQLLKPFLNPQNGPIINGAEKGDVIAVYIESLPRGVNPHGICAIPHFGGLTGTDLTALNDPLPEKVRIKLDSEKVYWSERHTLPYKPHIGTLSVSPEIDSINSLTPDNHGGNDVPDIGPGSITYLPVRAPGGRLFIGDAHACQGDGEICGTAVEFASITTIKVDLIKNWQLSWPRENAETISIGSARPLEDATRIAYRDLIYWLVADFGFEQWDAYLLSQCGKVRLGNVDPKYTVGALNKELLAQ AKWLEESIVKRGVGAGRKPVTHHLTEEQKEFHYTIGPYSTPVLTIEPGDRVIVDTRDAFEGAISSEQDIPSQLLKPFLNPQNGPIINGAEKGDVIAVYIESLPRGVNPHGICAIPHFGGLTGTDLTALNDPLPEKVRIKLDSEKVYWSERHTLPYKPHIGTLSVSPEIDSINSLTPDNHGGNDVPDIGPGSITYLPVRAPGGRLFIGDAHACQGDGEICGTAVEFASITTIKVDLIKNWQLSWPRENAETISIGSARPLEDATRIAYRDLIYWLVADFGFEQWDAYLLSQCGKVRLGNVDPKYTVGALNKELLAQ 5ubu-a1-m1-cD_5ubu-a1-m1-cB 2.75 Angstrom Resolution Crystal Structure of Acetamidase from Yersinia enterocolitica. A0A0H3NNJ4 A0A0H3NNJ4 2.75 X-RAY DIFFRACTION 67 1.0 930944 (Yersinia enterocolitica subsp. palearctica Y11) 930944 (Yersinia enterocolitica subsp. palearctica Y11) 314 316 5ubu-a1-m1-cA_5ubu-a1-m1-cC KWLEESIVKRGVGAGRKPVTHHLTEEQKEFHYTIGPYSTPVLTIEPGDRVIVDTRDAFEGAISSEQDIPSQLLKPFLNPQNGPIINGAEKGDVIAVYIESLPRGVNPHGICAIPHFGGLTGTDLTALNDPLPEKVRIKLDSEKVYWSERHTLPYKPHIGTLSVSPEIDSINSLTPDNHGGNDVPDIGPGSITYLPVRAPGGRLFIGDAHACQGDGEICGTAVEFASITTIKVDLIKNWQLSWPRENAETISIGSARPLEDATRIAYRDLIYWLVADFGFEQWDAYLLSQCGKVRLGNVDPKYTVGALNKELLAQ NAKWLEESIVKRGVGAGRKPVTHHLTEEQKEFHYTIGPYSTPVLTIEPGDRVIVDTRDAFEGAISSEQDIPSQLLKPFLNPQNGPIINGAEKGDVIAVYIESLPRGVNPHGICAIPHFGGLTGTDLTALNDPLPEKVRIKLDSEKVYWSERHTLPYKPHIGTLSVSPEIDSINSLTPDNHGGNDVPDIGPGSITYLPVRAPGGRLFIGDAHACQGDGEICGTAVEFASITTIKVDLIKNWQLSWPRENAETISIGSARPLEDATRIAYRDLIYWLVADFGFEQWDAYLLSQCGKVRLGNVDPKYTVGALNKELLAQ 5ubu-a1-m1-cD_5ubu-a1-m1-cC 2.75 Angstrom Resolution Crystal Structure of Acetamidase from Yersinia enterocolitica. A0A0H3NNJ4 A0A0H3NNJ4 2.75 X-RAY DIFFRACTION 129 1.0 930944 (Yersinia enterocolitica subsp. palearctica Y11) 930944 (Yersinia enterocolitica subsp. palearctica Y11) 314 315 5ubu-a1-m1-cA_5ubu-a1-m1-cB KWLEESIVKRGVGAGRKPVTHHLTEEQKEFHYTIGPYSTPVLTIEPGDRVIVDTRDAFEGAISSEQDIPSQLLKPFLNPQNGPIINGAEKGDVIAVYIESLPRGVNPHGICAIPHFGGLTGTDLTALNDPLPEKVRIKLDSEKVYWSERHTLPYKPHIGTLSVSPEIDSINSLTPDNHGGNDVPDIGPGSITYLPVRAPGGRLFIGDAHACQGDGEICGTAVEFASITTIKVDLIKNWQLSWPRENAETISIGSARPLEDATRIAYRDLIYWLVADFGFEQWDAYLLSQCGKVRLGNVDPKYTVGALNKELLAQ AKWLEESIVKRGVGAGRKPVTHHLTEEQKEFHYTIGPYSTPVLTIEPGDRVIVDTRDAFEGAISSEQDIPSQLLKPFLNPQNGPIINGAEKGDVIAVYIESLPRGVNPHGICAIPHFGGLTGTDLTALNDPLPEKVRIKLDSEKVYWSERHTLPYKPHIGTLSVSPEIDSINSLTPDNHGGNDVPDIGPGSITYLPVRAPGGRLFIGDAHACQGDGEICGTAVEFASITTIKVDLIKNWQLSWPRENAETISIGSARPLEDATRIAYRDLIYWLVADFGFEQWDAYLLSQCGKVRLGNVDPKYTVGALNKELLAQ 5uc5-a1-m1-cA_5uc5-a1-m1-cB Chalcone synthase from Malus domestica K9MUA0 K9MUA0 2.102 X-RAY DIFFRACTION 182 1.0 3750 (Malus domestica) 3750 (Malus domestica) 386 386 VTVEEVRKAQRAEGPATVLAIGTATPSNCVDQATYPDYYFRITNSEHKTELKEKFQRMCDKSMIKKRYMYLTEEILKENPTVCEYMAPSLDARQDMVVVEVPRLGKEAATKAIKEWGQPKSKITHLVFCTTSGVDMPGADYQLTKLLGLRPYVKRLMMYQQGFAGGTVLRLAKDLAENNKGARVLVVCSEITAVTFRGPSDTHLDSLVGQALFGDGAAAVIIGADPLPEVEKPLFELVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLNEAFKPIGISDWNSLFWIAHPGGPAILDQVESKLALKPEKLEATRQVLSNYGNMSSACVLFILDEVRRKSTEKGLRTTGEGLEWGVLFGFGPGLTVETVVLHSVA VTVEEVRKAQRAEGPATVLAIGTATPSNCVDQATYPDYYFRITNSEHKTELKEKFQRMCDKSMIKKRYMYLTEEILKENPTVCEYMAPSLDARQDMVVVEVPRLGKEAATKAIKEWGQPKSKITHLVFCTTSGVDMPGADYQLTKLLGLRPYVKRLMMYQQGFAGGTVLRLAKDLAENNKGARVLVVCSEITAVTFRGPSDTHLDSLVGQALFGDGAAAVIIGADPLPEVEKPLFELVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLNEAFKPIGISDWNSLFWIAHPGGPAILDQVESKLALKPEKLEATRQVLSNYGNMSSACVLFILDEVRRKSTEKGLRTTGEGLEWGVLFGFGPGLTVETVVLHSVA 5uc7-a1-m1-cA_5uc7-a1-m2-cA Crystal structure of BioA / 7,8-diaminopelargonic acid aminotransferase / DAPA synthase from Citrobacter rodentium, PLP complex D2TPI3 D2TPI3 1.835 X-RAY DIFFRACTION 384 1.0 97825 (environmental samples) 97825 (environmental samples) 430 430 QGMTTDDLAFDRRHIWHPYTSMTSPLPVFPVERAEGCELILSGGERLVDGMSSWWAAIHGYNHPQLNAAMKTQIDAMSHVMFGGITHAPAIELCRKLVAMTPAPLECVFLADSGSVAVEVAMKMALQYWQAKGESRQRFLTFRNGYHGDTFGAMSVCDPHNSMHSLWKGYLAENLFAPAPQSRMGGEWDERDMVAFARLMAAHRHEIAAVILEPIVQGAGGMRIYHPQWLQRIRQMCDREGILLIADEIATGFGRTGRLFACEHAGIAPDILCLGALTGGTMTLSATLTSRQVAETISNGEAGCFMHGPTFMGNPLACAVANASLTLLESGDWRRQVAAIEAQLREELAPAADSPQVADVRVLGAIGVVETTRPVNIAALQQFFVRQGVWVRPFGKLIYLMPPYIIQPEQLRRLTQAVNEAVREETFFSV QGMTTDDLAFDRRHIWHPYTSMTSPLPVFPVERAEGCELILSGGERLVDGMSSWWAAIHGYNHPQLNAAMKTQIDAMSHVMFGGITHAPAIELCRKLVAMTPAPLECVFLADSGSVAVEVAMKMALQYWQAKGESRQRFLTFRNGYHGDTFGAMSVCDPHNSMHSLWKGYLAENLFAPAPQSRMGGEWDERDMVAFARLMAAHRHEIAAVILEPIVQGAGGMRIYHPQWLQRIRQMCDREGILLIADEIATGFGRTGRLFACEHAGIAPDILCLGALTGGTMTLSATLTSRQVAETISNGEAGCFMHGPTFMGNPLACAVANASLTLLESGDWRRQVAAIEAQLREELAPAADSPQVADVRVLGAIGVVETTRPVNIAALQQFFVRQGVWVRPFGKLIYLMPPYIIQPEQLRRLTQAVNEAVREETFFSV 5ucd-a1-m1-cA_5ucd-a1-m1-cB Benzaldehyde Dehydrogenase, a Class 3 Aldehyde Dehydrogenase, with bound NADP+ and Benzoate Adduct Q84DC3 Q84DC3 2.28 X-RAY DIFFRACTION 222 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 434 434 NYLSPAKIDSLFSAQKAYFATRATADVGFRKQSLERLKEAVINNKEALYSALAEDLGKPKDVVDLAEIGAVLHEIDFALAHLDEWVAPVSVPSPDIIAPSECYVVQEPYGVTYIIGPFNYPVNLTLTPLIGAIIGGNTCIIKPSETTPETSAVIEKIIAEAFAPEYVAVIQGGRDENSHLLSLPFDFIFFTGSPNVGKVVMQAAAKHLTPVVLELGGKCPLIVLPDADLDQTVNQLMFGKFINSGQTIAPDYLYVHYSVKDALLERLVERVKTELPEINSTGKLVTERQVQRLVSLLEATQGQVLVGSQADVSKRALSATVVDGVEWNDPLMSEELFGPILPVLEFDSVRTAIDQVNKHHPKPLAVYVFGKDMDVAKGIINQIQSGDAQVNGVMLHAFSPYLPFGGIGASGMGEYHGHFSYLTFTHKKSVRIVP NYLSPAKIDSLFSAQKAYFATRATADVGFRKQSLERLKEAVINNKEALYSALAEDLGKPKDVVDLAEIGAVLHEIDFALAHLDEWVAPVSVPSPDIIAPSECYVVQEPYGVTYIIGPFNYPVNLTLTPLIGAIIGGNTCIIKPSETTPETSAVIEKIIAEAFAPEYVAVIQGGRDENSHLLSLPFDFIFFTGSPNVGKVVMQAAAKHLTPVVLELGGKCPLIVLPDADLDQTVNQLMFGKFINSGQTIAPDYLYVHYSVKDALLERLVERVKTELPEINSTGKLVTERQVQRLVSLLEATQGQVLVGSQADVSKRALSATVVDGVEWNDPLMSEELFGPILPVLEFDSVRTAIDQVNKHHPKPLAVYVFGKDMDVAKGIINQIQSGDAQVNGVMLHAFSPYLPFGGIGASGMGEYHGHFSYLTFTHKKSVRIVP 5ucg-a3-m1-cC_5ucg-a3-m1-cD Structure of the PP2C Phosphatase Domain and a Fragment of the Regulatory Domain of the Cell Fate Determinant SpoIIE from Bacillus Subtilis P37475 P37475 3.906 X-RAY DIFFRACTION 104 0.982 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 331 334 5ucg-a1-m1-cB_5ucg-a1-m1-cA 5ucg-a2-m1-cE_5ucg-a2-m2-cE LKKKVQDSRRLVAEQLLGVSEVMADFSREIKREREQHFLQEEQIIEALQHFGIEIQHVEIYSLEQGNIDIEMTIPFSGESEKIIAPMLSDILEEQILVKAEQHSPHPNGYSHVAFGSTKSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDRAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQASNLPIGIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHN LKKKVQDSRRLVAEQLLGVSEVMADFSREIKREREQHFLQEEQIIEALQHFGIEIQHVEIYSLEQGNIDIEMTIPFSGHGESEKIIAPMLSDILEEQILVKAEQNGYSHVAFGSTKSYRVSTGAAHAAKGGGLVSGDSYSMMELGARKYAAAISDGMGNGARAHFESNETIKLLEKILESGIDEKIAIKTINSILSLRTTDEIYSTLDLSIIDLQDASCKFLKVGSTPSFIKRGDQVMKVQANLPIGIINEFDVEVVSEQLKAGDLLIMMSDGIFEGPKHVENHDLWMKRKMKGLKTNDPQEIADLLMEEVIRTRSGQIEDDMTVVVVRIDHNT 5ucm-a1-m1-cA_5ucm-a1-m1-cB Crystal Structure of Prolyl-tRNA Synthetase from Pseudomonas aeruginosa Q9I502 Q9I502 2.6 X-RAY DIFFRACTION 154 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 564 565 RTSQYLLSPADAVVISHQLLLRAGMIRRLASGLYTWLPMGLRVLRKVETIVREEMNAAGALEVLMPAVQPAELWQESGRWEQYGPELLRLKDRHEREFCVGPTHEEVITDLARNELNSYKQLPINFYQIQTKFRDEIRPRFGLMRGREFIMKDAYSFHLSQDSLQQTYDGMYQAYSKIFSRLGLDFRPVQADNGSIGGSGSHEFHVLANSGEDDIVFSDSSDYAANIEKAEAVPRESARGSATEDMRLVDTPNTKTIAALVDGFQLPIEKTIKTLVVHGAEEGTLVALIVRGDHELNEIKAANQPLVASPLVFASEAEIRAAIGAGPGSLGPVNLPIACIVDRSVALMSDFAAGANIEDKHYFGVNWERDLPLPEVADLRNVVEGDPSPDGKGTLVIKRGIEVGHIFQLGTKYSEAMKLSVLSEQGKPVNLIMGCYGIGVSRVVAAAIEQNHDERGILWPSALAPFQIALVPLKYETESVKQATDKLYAELTAAGFEVLLDDRDKKTSPGVKFADMELIGIPHRIVISDRGLSEGVLEYKGRRDSESQNLPIGELMSFITEKLS MRTSQYLLSPADAVVISHQLLLRAGMIRRLASGLYTWLPMGLRVLRKVETIVREEMNAAGALEVLMPAVQPAELWQESGRWEQYGPELLRLKDRHEREFCVGPTHEEVITDLARNELNSYKQLPINFYQIQTKFRDEIRPRFGLMRGREFIMKDAYSFHLSQDSLQQTYDGMYQAYSKIFSRLGLDFRPVQADNGSIGGSGSHEFHVLANSGEDDIVFSDSSDYAANIEKAEAVPRESARGSATEDMRLVDTPNTKTIAALVDGFQLPIEKTIKTLVVHGAEEGTLVALIVRGDHELNEIKAANQPLVASPLVFASEAEIRAAIGAGPGSLGPVNLPIACIVDRSVALMSDFAAGANIEDKHYFGVNWERDLPLPEVADLRNVVEGDPSPDGKGTLVIKRGIEVGHIFQLGTKYSEAMKLSVLSEQGKPVNLIMGCYGIGVSRVVAAAIEQNHDERGILWPSALAPFQIALVPLKYETESVKQATDKLYAELTAAGFEVLLDDRDKKTSPGVKFADMELIGIPHRIVISDRGLSEGVLEYKGRRDSESQNLPIGELMSFITEKLS 5uco-a1-m1-cA_5uco-a1-m1-cB Benzophenone synthase from Hypericum androsaemum Q8SAS8 Q8SAS8 2.85 X-RAY DIFFRACTION 141 1.0 140968 (Hypericum androsaemum) 140968 (Hypericum androsaemum) 377 377 KRASVLAIGTTNPEHFILQEDYPDFYFRNTNSEHMTELKEKFKRICVKSHIRKRHFYLTEEILKENQGIATYGAGSLDARQRILETEVPKLGQEAALKAIAEWGQPISKITHVVFATTSGFMMPGADYVITRLLGLNRTVRRVMLYNQGCFAGGTALRVAKDLAENNEGARVLVVCAENTAMTFHAPNESHLDVIVGQAMFSDGAAALIIGACPDVASGERAVFNILSASQTIVPGSDGAITAHFYEMGMSYFLKEDVIPLFRDNIAAVMEEAFSPLGVSDWNSLFYSIHPGGRGIIDGVAGNLGIKDENLVATRHVLGEYGNMGSACVMFILDELRKSSKVNGKPTTGDGKEFGCLIGLGPGLTVEAVVLQSVPIL KRASVLAIGTTNPEHFILQEDYPDFYFRNTNSEHMTELKEKFKRICVKSHIRKRHFYLTEEILKENQGIATYGAGSLDARQRILETEVPKLGQEAALKAIAEWGQPISKITHVVFATTSGFMMPGADYVITRLLGLNRTVRRVMLYNQGCFAGGTALRVAKDLAENNEGARVLVVCAENTAMTFHAPNESHLDVIVGQAMFSDGAAALIIGACPDVASGERAVFNILSASQTIVPGSDGAITAHFYEMGMSYFLKEDVIPLFRDNIAAVMEEAFSPLGVSDWNSLFYSIHPGGRGIIDGVAGNLGIKDENLVATRHVLGEYGNMGSACVMFILDELRKSSKVNGKPTTGDGKEFGCLIGLGPGLTVEAVVLQSVPIL 5ucr-a1-m1-cB_5ucr-a1-m1-cA Crystal Structure of a Pantoate-beta-alanine Ligase from Neisseria gonorrhoeae with bound AMPPNP and Alanine B4RKE7 B4RKE7 2.25 X-RAY DIFFRACTION 68 0.996 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 266 271 5kwv-a1-m1-cA_5kwv-a1-m1-cB HMQIIHTIRELRTWRENTGKVAFVPTMGNLHEGHLALVREARKRADNVVVSIFVNRLQPRTLQQDADKLAAEGVAVVFAPDEKELYPNVEQRYNVEPPHLQNELCGKFRPGHFRGVATVVSKLFNIVLPDVACFGKKDYQQLAVIKGLTEDLNFDIEIVPVDTGRAADGLALSSRNRYLSVGERAEAPRLYRELQAVAESLKQGGLDYAGLERQAADHLTAAGWLVDYVEIRRADTLEMARAGDKKLVVLAAARLGTTRLIDNVEV HMQIIHTIRELRTWRENTGKVAFVPTMGNLHEGHLALVREARKRADNVVVSIFVNRLQFGQRTLQQDADKLAAEGVAVVFAPDEKELYPNVEQRYNVEPPHLQNELCGKFRPGHFRGVATVVSKLFNIVLPDVACFGKKDYQQLAVIKGLTEDLNFDIEIVPVDTGRAADGLALSSRNRYLSVGERAEAPRLYRELQAVAESLKQGGLDYAGLERQAADHLTAAGWLVDYVEIRRADTLEMARAGDKKLVVLAAARLGTTRLIDNVEVGLP 5ucv-a1-m1-cB_5ucv-a1-m1-cA Crystal Structure of a Ribosome Biogenesis GTP-binding protein (YsxC) from Neisseria gonorrhoeae with bound GDP B4RQ29 B4RQ29 1.8 X-RAY DIFFRACTION 24 0.995 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 186 187 NLFQNAKFFTTVNHLKDLPDTPLEIAFVGRSNAGKSSAINTLTNTQHINFFELQNGNFMVDLPGYGYAQVPEAVRAHWVNLLGDYLRHRKQLIGLVLIMDARHPLKELDIRMLDFFHTTGRPVHILLSKADKLSKNEQIKTLSQVKKLLKPYSDRQNISVQLFSSLKKQGIDEANRTVGSWFDAAD NLFQNAKFFTTVNHLKDLPDTPLEIAFVGRSNAGKSSAINTLTNHQHINFFELQNGNFMVDLPGYGYAQVPEAVRAHWVNLLGDYLRHRKQLIGLVLIMDARHPLKELDIRMLDFFHTTGRPVHILLSKADKLSKNEQIKTLSQVKKLLKPYSDRQNISVQLFSSLKKQGIDEANRTVGSWFDAADA 5ud1-a1-m1-cA_5ud1-a1-m1-cB Class II fructose-1,6-bisphosphate aldolase H180Q variant of Helicobacter pylori P56109 P56109 1.795 X-RAY DIFFRACTION 100 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 278 278 3c4u-a1-m1-cA_3c4u-a1-m1-cB 3c52-a1-m1-cB_3c52-a1-m1-cA 3c56-a1-m1-cB_3c56-a1-m1-cA 3n9r-a1-m1-cA_3n9r-a1-m1-ce 3n9r-a2-m1-cj_3n9r-a2-m2-cB 3n9r-a3-m1-cK_3n9r-a3-m3-cZ 3n9r-a4-m1-cP_3n9r-a4-m3-cU 3n9s-a1-m1-cB_3n9s-a1-m1-cA 5uck-a1-m1-cB_5uck-a1-m1-cA 5ucn-a1-m1-cA_5ucn-a1-m1-cB 5ucp-a1-m1-cA_5ucp-a1-m1-cB 5ucs-a1-m1-cA_5ucs-a1-m1-cB 5ucz-a1-m1-cA_5ucz-a1-m1-cB 5ud0-a1-m1-cA_5ud0-a1-m1-cB 5ud2-a1-m1-cA_5ud2-a1-m1-cB 5ud3-a1-m1-cA_5ud3-a1-m1-cB 5ud4-a1-m1-cA_5ud4-a1-m1-cB 5vjf-a1-m1-cA_5vjf-a1-m1-cB MLVKGNEILLKAHKEGYGVGAFNFVNFEMLNAIFEAGNEENSPLFIQASEGAIKYMGIDMAVGMVKIMCERYPHIPVALHLDHGTTFESCEKAVKAGFTSVMIDASHHAFEENLELTSKVVKMAHNAGVSVEAELGLVNPKEAEQFVKESQVDYLAPAIGKLDFERLQEVKRLTNIPLVLHGASAIPDNVRKSYLDAGGDLKGSKGVPFEFLQESVKGGINKVNTDTDLRIAFIAEVRKVANEDKSQFDLRKFFSPAQLALKNVVKERMKLLGSANKI MLVKGNEILLKAHKEGYGVGAFNFVNFEMLNAIFEAGNEENSPLFIQASEGAIKYMGIDMAVGMVKIMCERYPHIPVALHLDHGTTFESCEKAVKAGFTSVMIDASHHAFEENLELTSKVVKMAHNAGVSVEAELGLVNPKEAEQFVKESQVDYLAPAIGKLDFERLQEVKRLTNIPLVLHGASAIPDNVRKSYLDAGGDLKGSKGVPFEFLQESVKGGINKVNTDTDLRIAFIAEVRKVANEDKSQFDLRKFFSPAQLALKNVVKERMKLLGSANKI 5ud6-a1-m1-cB_5ud6-a1-m1-cD Crystal structure of DHDPS from Cyanidioschyzon merolae with lysine bound M1V4H9 M1V4H9 2.4 X-RAY DIFFRACTION 65 1.0 280699 (Cyanidioschyzon merolae strain 10D) 280699 (Cyanidioschyzon merolae strain 10D) 297 298 5ud6-a1-m1-cA_5ud6-a1-m1-cC KHFFGRVITALVTPFKLTGVEVDYGVAESLAAHLAENGSDAIIVAGTTGESATLTWSEEYELFRVVKSAVAGTKCRVIAGAGSNSTEEAIEATKKSAKLGLDGTLQVVPYYNKPPQQGIMAHFRAIANAAPDLPMMLYNIPGRTGINMTAETSIKLAEMCPNIVALEASGNLEQFARIRRATSPDFALYSGDDALTLPLLSLGGNGVVSVASHFIGPEIQRMIEHFVDLGNPEEAFRIHCRYMDLFEALFVMANPIPAKAALRLLGWPVGPTRLPLTDITASAEQQLRQAMIAAGLL KHFFGRVITALVTPFKLTGVEVDYGVAESLAAHLAENGSDAIIVAGTTGESATLTWSEEYELFRVVKSAVAGTKCRVIAGAGSNSTEEAIEATKKSAKLGLDGTLQVVPYYNKPPQQGIMAHFRAIANAAPDLPMMLYNIPGRTGINMTAETSIKLAEMCPNIVALEASGNLEQFARIRRATSPDFALYSGDDALTLPLLSLGGNGVVSVASHFIGPEIQRMIEHFVDLGNPEEAFRIHCRYMDLFEALFVMANPIPAKAALRLLGWPVGPTRLPLTDITASAEQQLRQAMIAAGLLS 5ud6-a1-m1-cC_5ud6-a1-m1-cD Crystal structure of DHDPS from Cyanidioschyzon merolae with lysine bound M1V4H9 M1V4H9 2.4 X-RAY DIFFRACTION 117 1.0 280699 (Cyanidioschyzon merolae strain 10D) 280699 (Cyanidioschyzon merolae strain 10D) 298 298 5ud6-a1-m1-cA_5ud6-a1-m1-cB KHFFGRVITALVTPFKLTGVEVDYGVAESLAAHLAENGSDAIIVAGTTGESATLTWSEEYELFRVVKSAVAGTKCRVIAGAGSNSTEEAIEATKKSAKLGLDGTLQVVPYYNKPPQQGIMAHFRAIANAAPDLPMMLYNIPGRTGINMTAETSIKLAEMCPNIVALEASGNLEQFARIRRATSPDFALYSGDDALTLPLLSLGGNGVVSVASHFIGPEIQRMIEHFVDLGNPEEAFRIHCRYMDLFEALFVMANPIPAKAALRLLGWPVGPTRLPLTDITASAEQQLRQAMIAAGLLS KHFFGRVITALVTPFKLTGVEVDYGVAESLAAHLAENGSDAIIVAGTTGESATLTWSEEYELFRVVKSAVAGTKCRVIAGAGSNSTEEAIEATKKSAKLGLDGTLQVVPYYNKPPQQGIMAHFRAIANAAPDLPMMLYNIPGRTGINMTAETSIKLAEMCPNIVALEASGNLEQFARIRRATSPDFALYSGDDALTLPLLSLGGNGVVSVASHFIGPEIQRMIEHFVDLGNPEEAFRIHCRYMDLFEALFVMANPIPAKAALRLLGWPVGPTRLPLTDITASAEQQLRQAMIAAGLLS 5udf-a1-m1-cC_5udf-a1-m1-cA Structure of the N-terminal domain of lipoprotein-releasing system transmembrane protein LolE from Acinetobacter baumannii A0A0D5YFP2 A0A0D5YFP2 2.35 X-RAY DIFFRACTION 17 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 205 209 DRELKNRVLGMVPQATVSSTQILTDWPELVKRVENHPHVTGVAPFTQLQGMLTAQGQVAGIMVTGIDPKYEKNVSIIQNHIVAGSLDSLKKGEFGIVLGKDMADSLGLRLNDSVTLVLPEATPSPAGVVPRFKRFKVVGIFSVGAEVDSMVGYIALYDASTLLRLPDGAQGVRLKLDDIFAAPQVADDIVKNLPSNFYATNWTYT DRELKNRVLGMVPQATVSSTQILTDWPELVKRVENHPHVTGVAPFTQLQGMLTAQGQVAGIMVTGIDPKYEKNVSIIQNHIVAGSLDSLKKGEFGIVLGKDMADSLGLRLNDSVTLVLPEATPSPAGVVPRFKRFKVVGIFSVGAEVDSMVGYIALYDASTLLRLPDGAQGVRLKLDDIFAAPQVADDIVKNLPSNFYATNWTYTNLFN 5udf-a1-m1-cD_5udf-a1-m1-cA Structure of the N-terminal domain of lipoprotein-releasing system transmembrane protein LolE from Acinetobacter baumannii A0A0D5YFP2 A0A0D5YFP2 2.35 X-RAY DIFFRACTION 65 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 203 209 5udf-a1-m1-cB_5udf-a1-m1-cC DRELKNRVLGMVPQATVSSTQILTDWPELVKRVENHPHVTGVAPFTQLQGMLTAQGQVAGIMVTGIDPKYEKNVSIIQNHIVAGSLDSLKKGEFGIVLGKDMADSLGLRLNDSVTLVLPEATPSGVVPRFKRFKVVGIFSVGAEVDSMVGYIALYDASTLLRLPDGAQGVRLKLDDIFAAPQVADDIVKNLPSNFYATNWTYT DRELKNRVLGMVPQATVSSTQILTDWPELVKRVENHPHVTGVAPFTQLQGMLTAQGQVAGIMVTGIDPKYEKNVSIIQNHIVAGSLDSLKKGEFGIVLGKDMADSLGLRLNDSVTLVLPEATPSPAGVVPRFKRFKVVGIFSVGAEVDSMVGYIALYDASTLLRLPDGAQGVRLKLDDIFAAPQVADDIVKNLPSNFYATNWTYTNLFN 5udf-a1-m1-cD_5udf-a1-m1-cC Structure of the N-terminal domain of lipoprotein-releasing system transmembrane protein LolE from Acinetobacter baumannii A0A0D5YFP2 A0A0D5YFP2 2.35 X-RAY DIFFRACTION 44 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 203 205 5udf-a1-m1-cB_5udf-a1-m1-cA DRELKNRVLGMVPQATVSSTQILTDWPELVKRVENHPHVTGVAPFTQLQGMLTAQGQVAGIMVTGIDPKYEKNVSIIQNHIVAGSLDSLKKGEFGIVLGKDMADSLGLRLNDSVTLVLPEATPSGVVPRFKRFKVVGIFSVGAEVDSMVGYIALYDASTLLRLPDGAQGVRLKLDDIFAAPQVADDIVKNLPSNFYATNWTYT DRELKNRVLGMVPQATVSSTQILTDWPELVKRVENHPHVTGVAPFTQLQGMLTAQGQVAGIMVTGIDPKYEKNVSIIQNHIVAGSLDSLKKGEFGIVLGKDMADSLGLRLNDSVTLVLPEATPSPAGVVPRFKRFKVVGIFSVGAEVDSMVGYIALYDASTLLRLPDGAQGVRLKLDDIFAAPQVADDIVKNLPSNFYATNWTYT 5udt-a1-m1-cD_5udt-a1-m1-cE LarE, a sulfur transferase involved in synthesis of the cofactor for lactate racemase, in complex with AMP F9UST4 F9UST4 3.188 X-RAY DIFFRACTION 36 0.989 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 186 244 SGGIDSTLVLKMALGRDVVANSELFTDEEFDKAMSLAEELGANVQGTTLDYLSDDHIKNNTPDSWYYAKKMFYSRLNDIAKTDVRALAQELGLTNWNKVASCSVSSRFPYGTTLTHDNIAQVMAAEKYLRSLGFPTVRVRFHNDIARIELPEARIGDFLVFNDRVNRQLQSLGFRYVTLDLGGFRS LATKKATLVAALKDLQRVTVAFSGGIDSTLVLKMALDVLGRDNVTAVVANSELFTDEEFDKAMSLAEELGANVQGTTLDYLSDDHIKNNTPDSWYYAKKMFYSRLNDIAANNGSAAVLDGMIKARSEAGARSLLQEADFFKTDVRALAQELGLTNWNKVASCSVSSRFPYGTTLTHDNIAQVMAAEKYLRSLGFPTVRVRFHNDIARIELPEARIGDFLVFNDRVNRQLQSLGFRYVTLDLGGF 5ue0-a2-m1-cA_5ue0-a2-m4-cA 1.90 A resolution structure of CT622 C-terminal domain from Chlamydia trachomatis A0A0H3MDV9 A0A0H3MDV9 1.9 X-RAY DIFFRACTION 21 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 276 276 5ue0-a2-m2-cA_5ue0-a2-m3-cA SLLLDDVDNEMAAIAMQGFRSMIEQFNVNNPATAKELQAMEAQLTAMSDQLVGADGELPAEIQAIKDALAQALKQADGLATAMGQVAFAAAVGGGSAGTAGTVQMNVQLYKTAFSSTSSSSYAAALSDGYSAYTLNSLYSESRSGVQSAISQTANPALSRSVSRSADASQRAAETIVRDSQTLGDVYSRLQVLDSLMSTIVSNPQANQEEIMQLTASISKAPQSVDSLQKFAAQLEREFVDGERSLAESQENAFRKQPAFIQQVLVNIASLFSGYL SLLLDDVDNEMAAIAMQGFRSMIEQFNVNNPATAKELQAMEAQLTAMSDQLVGADGELPAEIQAIKDALAQALKQADGLATAMGQVAFAAAVGGGSAGTAGTVQMNVQLYKTAFSSTSSSSYAAALSDGYSAYTLNSLYSESRSGVQSAISQTANPALSRSVSRSADASQRAAETIVRDSQTLGDVYSRLQVLDSLMSTIVSNPQANQEEIMQLTASISKAPQSVDSLQKFAAQLEREFVDGERSLAESQENAFRKQPAFIQQVLVNIASLFSGYL 5ue0-a2-m2-cA_5ue0-a2-m4-cA 1.90 A resolution structure of CT622 C-terminal domain from Chlamydia trachomatis A0A0H3MDV9 A0A0H3MDV9 1.9 X-RAY DIFFRACTION 17 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 276 276 5ue0-a2-m1-cA_5ue0-a2-m3-cA SLLLDDVDNEMAAIAMQGFRSMIEQFNVNNPATAKELQAMEAQLTAMSDQLVGADGELPAEIQAIKDALAQALKQADGLATAMGQVAFAAAVGGGSAGTAGTVQMNVQLYKTAFSSTSSSSYAAALSDGYSAYTLNSLYSESRSGVQSAISQTANPALSRSVSRSADASQRAAETIVRDSQTLGDVYSRLQVLDSLMSTIVSNPQANQEEIMQLTASISKAPQSVDSLQKFAAQLEREFVDGERSLAESQENAFRKQPAFIQQVLVNIASLFSGYL SLLLDDVDNEMAAIAMQGFRSMIEQFNVNNPATAKELQAMEAQLTAMSDQLVGADGELPAEIQAIKDALAQALKQADGLATAMGQVAFAAAVGGGSAGTAGTVQMNVQLYKTAFSSTSSSSYAAALSDGYSAYTLNSLYSESRSGVQSAISQTANPALSRSVSRSADASQRAAETIVRDSQTLGDVYSRLQVLDSLMSTIVSNPQANQEEIMQLTASISKAPQSVDSLQKFAAQLEREFVDGERSLAESQENAFRKQPAFIQQVLVNIASLFSGYL 5ue0-a2-m3-cA_5ue0-a2-m4-cA 1.90 A resolution structure of CT622 C-terminal domain from Chlamydia trachomatis A0A0H3MDV9 A0A0H3MDV9 1.9 X-RAY DIFFRACTION 68 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 276 276 5ue0-a2-m1-cA_5ue0-a2-m2-cA SLLLDDVDNEMAAIAMQGFRSMIEQFNVNNPATAKELQAMEAQLTAMSDQLVGADGELPAEIQAIKDALAQALKQADGLATAMGQVAFAAAVGGGSAGTAGTVQMNVQLYKTAFSSTSSSSYAAALSDGYSAYTLNSLYSESRSGVQSAISQTANPALSRSVSRSADASQRAAETIVRDSQTLGDVYSRLQVLDSLMSTIVSNPQANQEEIMQLTASISKAPQSVDSLQKFAAQLEREFVDGERSLAESQENAFRKQPAFIQQVLVNIASLFSGYL SLLLDDVDNEMAAIAMQGFRSMIEQFNVNNPATAKELQAMEAQLTAMSDQLVGADGELPAEIQAIKDALAQALKQADGLATAMGQVAFAAAVGGGSAGTAGTVQMNVQLYKTAFSSTSSSSYAAALSDGYSAYTLNSLYSESRSGVQSAISQTANPALSRSVSRSADASQRAAETIVRDSQTLGDVYSRLQVLDSLMSTIVSNPQANQEEIMQLTASISKAPQSVDSLQKFAAQLEREFVDGERSLAESQENAFRKQPAFIQQVLVNIASLFSGYL 5ue1-a1-m1-cA_5ue1-a1-m1-cB Crystal structure of 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase in complex with adenine from Vibrio fischeri ES114 Q5E2X3 Q5E2X3 1.14 X-RAY DIFFRACTION 128 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 233 233 NAMKIGIIGAMEQEVAILKDKIEGLSTVTKAGCTFYTGTLNGADVVLLQSGIGKVAAAVGTTLLIAEHNVDVVLNTGSAGGFDSSLNLGDVVISTEVRHHDADVTAFGYEMGQMAQQPAAFIADEKLITTAEQALTEMSDKHAVRGLICTGDVFVCTPERQEFIRTHFPSVIAVEMEASAIAQTCHQFNTPFVVVRAISDVADKESPMSFDEFLPLAAQSSSEMVLNMVTLLK NAMKIGIIGAMEQEVAILKDKIEGLSTVTKAGCTFYTGTLNGADVVLLQSGIGKVAAAVGTTLLIAEHNVDVVLNTGSAGGFDSSLNLGDVVISTEVRHHDADVTAFGYEMGQMAQQPAAFIADEKLITTAEQALTEMSDKHAVRGLICTGDVFVCTPERQEFIRTHFPSVIAVEMEASAIAQTCHQFNTPFVVVRAISDVADKESPMSFDEFLPLAAQSSSEMVLNMVTLLK 5ue7-a1-m1-cA_5ue7-a1-m1-cB Crystal structure of the phosphomannomutase PMM1 from Candida albicans, apoenzyme state P31353 P31353 1.95 X-RAY DIFFRACTION 30 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 251 251 SFANKQDPKTLVLFDVDGTLTPARLTISEEMKKTLEKLREKVVIGFVGGSDLSKQVEQLGPNVLNDFDYCFSENGLTAYKLGKELASQSFINWIGNEKYNKLVKFILRYLSDIDLPIRRGTFIEFRNGMINVSPIGRNASTQERNDYEKFDKQHHIRETMVEALKKEFPDFGLTYSIGGQISFDVFPTGWDKTYCLQHVEDEHFENIHFFGDKSYKGGNDYEIYNDPRTIGHAVNSPDDTIRILNETFKLQ SFANKQDPKTLVLFDVDGTLTPARLTISEEMKKTLEKLREKVVIGFVGGSDLSKQVEQLGPNVLNDFDYCFSENGLTAYKLGKELASQSFINWIGNEKYNKLVKFILRYLSDIDLPIRRGTFIEFRNGMINVSPIGRNASTQERNDYEKFDKQHHIRETMVEALKKEFPDFGLTYSIGGQISFDVFPTGWDKTYCLQHVEDEHFENIHFFGDKSYKGGNDYEIYNDPRTIGHAVNSPDDTIRILNETFKLQ 5ue7-a2-m1-cA_5ue7-a2-m2-cB Crystal structure of the phosphomannomutase PMM1 from Candida albicans, apoenzyme state P31353 P31353 1.95 X-RAY DIFFRACTION 74 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 251 251 SFANKQDPKTLVLFDVDGTLTPARLTISEEMKKTLEKLREKVVIGFVGGSDLSKQVEQLGPNVLNDFDYCFSENGLTAYKLGKELASQSFINWIGNEKYNKLVKFILRYLSDIDLPIRRGTFIEFRNGMINVSPIGRNASTQERNDYEKFDKQHHIRETMVEALKKEFPDFGLTYSIGGQISFDVFPTGWDKTYCLQHVEDEHFENIHFFGDKSYKGGNDYEIYNDPRTIGHAVNSPDDTIRILNETFKLQ SFANKQDPKTLVLFDVDGTLTPARLTISEEMKKTLEKLREKVVIGFVGGSDLSKQVEQLGPNVLNDFDYCFSENGLTAYKLGKELASQSFINWIGNEKYNKLVKFILRYLSDIDLPIRRGTFIEFRNGMINVSPIGRNASTQERNDYEKFDKQHHIRETMVEALKKEFPDFGLTYSIGGQISFDVFPTGWDKTYCLQHVEDEHFENIHFFGDKSYKGGNDYEIYNDPRTIGHAVNSPDDTIRILNETFKLQ 5ueb-a1-m1-cA_5ueb-a1-m1-cB Novel crystal structure of a hypothetical protein from Neisseria gonorrhoeae B4RJ46 B4RJ46 1.5 X-RAY DIFFRACTION 11 0.993 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 142 144 HHHMKSKLTVVYYDLESNIAEEILSGNIMPDGNFLIQEIPLFAPNLALNDIVAIEREDKMLFFDHLIKASGNTTINIVVLDHFPKDLLAAIEEHSGKIRKNGENYLSVNFPPKKYNSDLKGILNRYEEANILSYREACLGFS HHHHHHMKSKLTVVYYDLESNIAEEILSGNIMPDGNFLIQEIPLFAPNLALNDIVAIEREDKMLFFDHLIKASGNTTINIVVLDHFPKDLLAAIEEHSGKIRKNGENYLSVNFPPKKYNSDLKGILNRYEEANILSYREACLGF 5uf5-a1-m1-cA_5uf5-a1-m1-cB Structure of the effector protein SidK (lpg0968) from Legionella pneumophila (domain-swapped dimer) Q5ZWW6 Q5ZWW6 2.4 X-RAY DIFFRACTION 93 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 258 258 EQYHSQVVGKIGYIARCMQTIDPENNLKKIREDYQDVLIWAEKNYRFEEILEASKSGKCPNDLDALSRRSLILQELLRLVSSISPFKMKLDLIESQYEKMKQHVNLWKSDYHVKLNQLNQLTDYLKNAAPTPKNNFLRAMTSVLQMQIAQYGITEDNEGINQLFKLGLHLLAMANEKIDEQYHLFKGYVKDQPEESPFEGILPAEDQKILVKTMIDYAMPKLSSKVLQDKLSALSSSDVLTKTLLDSIDRIVKENEKL EQYHSQVVGKIGYIARCMQTIDPENNLKKIREDYQDVLIWAEKNYRFEEILEASKSGKCPNDLDALSRRSLILQELLRLVSSISPFKMKLDLIESQYEKMKQHVNLWKSDYHVKLNQLNQLTDYLKNAAPTPKNNFLRAMTSVLQMQIAQYGITEDNEGINQLFKLGLHLLAMANEKIDEQYHLFKGYVKDQPEESPFEGILPAEDQKILVKTMIDYAMPKLSSKVLQDKLSALSSSDVLTKTLLDSIDRIVKENEKL 5ufh-a1-m1-cA_5ufh-a1-m2-cA The crystal structure of a LacI-type transcription regulator from Bifidobacterium animalis subsp. lactis DSM 10140 B8DV56 B8DV56 1.45 X-RAY DIFFRACTION 97 1.0 442563 (Bifidobacterium animalis subsp. lactis AD011) 442563 (Bifidobacterium animalis subsp. lactis AD011) 267 267 GLLGLAIFDFSQPFASYLADQIIVAREHHYGVIINTYGQNEHGLARARQANNLAADGWIVFADHAGQKLDQSYPLVLTGDWDAYGKVDQVTPNVEARYTTNRLLDSGYRSIALFGADGSLGARHYRQATEGTQELRVQGYQAYEEHGIEARDLFSGGLLTSDSGVRATNLDQGVRPDAIICLNDAALGALHQLQVRGIRVPDDVQVVGFDNVPEATYANPSLTTIDPHIDSYARHAVDLIERIQGYDGAKRVYTSDFTLVERSSTSL GLLGLAIFDFSQPFASYLADQIIVAREHHYGVIINTYGQNEHGLARARQANNLAADGWIVFADHAGQKLDQSYPLVLTGDWDAYGKVDQVTPNVEARYTTNRLLDSGYRSIALFGADGSLGARHYRQATEGTQELRVQGYQAYEEHGIEARDLFSGGLLTSDSGVRATNLDQGVRPDAIICLNDAALGALHQLQVRGIRVPDDVQVVGFDNVPEATYANPSLTTIDPHIDSYARHAVDLIERIQGYDGAKRVYTSDFTLVERSSTSL 5ufl-a1-m1-cB_5ufl-a1-m1-cA Crystal structure of a CIP2A core domain Q8TCG1 Q8TCG1 3 X-RAY DIFFRACTION 73 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 511 523 ACLKSLLLTVSQYKAANATQLLRHLEVRLFTSNQILTSECLSCLVELLEDPSASLILSIIGLLSQDIETRDCLQNTLNSVLAGVVCDSVFLQCIQLLQKLTYNVKIFYSGANIDELITFLIDHIQSSELKMPCLGLLANLCRHNLSVQTHIKTLSKSFYRTLITLLAHSSLTVVVFALSILSSLTLNEEVGEKLFHARNIHQTFQLIFNILINGDGTLTRKYSVDLLMDLLKNPKIADYLTRYEHFSSCLHQVLGLLNGKDPDSSSKVLELLLAFCSVTQLRHMLTQMMFELEPTVALLRWLSQPLDNCSVLALELFKEIFEDVIDAANCSSADRFVTLLLPTILDQLQFTEQNLDEALTRKKCERIAKAIEVLLTLCGDDTLKMHIAKILTTVKCTTLIEQQFTYGKIDLGFGTKVADSELCKLAADVILKTLDLINKLKPLVPGMEVSFYKILQDPRLITPLAFALTSDNREQVQSGLRILLEAAPLPDFPALVLGESIAANNAYRQQE TACLKSLLLTVSQYKANATQLLRHLEVISRLFTSNQILTSECLSCLVELLEDPSASLILSIIGLLSQLAVDIETRDCLQNTLNSVLAGVVCRTDSVFLQCIQLLQKLTYNVKIFYSGANIDELITFLIDHIQSELKMPCLGLLANLCRHNLSVQTHIKTLSNSFYRTLITLLAHSSLTVVVFALSILSSLTLNEEVGEKLFHARNIHQTFQLIFNILINGDGTLTRKYSVDLLMDLLKNPKIADYLTRYEHFSSCLHQVLGLLNGKDPDSSSKVLELLLAFCSVTQLRHMLTQMMFESHTKCLEPTVALLRWLSQPLDGNCSVLALELFKEIFEDVIDAANCSSADRFVTLLLPTILDQLQFTEQNLDEALTRKKCERIAKAIEVLLTLCGDDTLKMHIAKILTTVKCTTLIEQQFTYGKIDLGFGTKVADSELCKLAADVILKTLDLINKLKPLVPGMEVSFYKILQDPRLITPLAFALTSDNREQVQSGLRILLEAAPLPDFPALVLGESIAANNAYRQQE 5ufn-a3-m1-cB_5ufn-a3-m1-cA Crystal structure of Burkholderia thailandensis 1,6-didemethyltoxoflavin-N1-methyltransferase with bound S-adenosylhomocysteine Q2T5S0 Q2T5S0 1.39 X-RAY DIFFRACTION 56 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 222 225 5ufm-a3-m1-cB_5ufm-a3-m1-cA PHYIDAQRAIAPVDAPLAAPHEYAAVLRSDFVSSYHDGRDVWTDEAAMRPASAILHAHLGRPAVVLDAGAGRGRDTAYFLEQGHRVTAVDLVEPPEWAPLAQRWGERVRFVACPVSELDGEARFDGALDNGCLHHQHPDAYGTYLARIHALLRPDGRFTISVFESDGPGRLYANHAQRLYREFTEPELALLRAAHFTPVDSQRVPRPKAGLHYLVMTARKTD AEPHYIDAQRAIAPVDAPLAAPHEYAAVLRSDFVSSYHDGRDVWTDEAAMRPASAILHAHLGRPAVVLDAGAGRGRDTAYFLEQGHRVTAVDLVEPPEWAPLAQRWGERVRFVACPVSELDGEARFDGALDNGCLHHQHPDAYGTYLARIHALLRPDGRFTISVFESDGPGRLYANHAQRLYREFTEPELAELLRAAHFTPVDSQRVPRPKAGLHYLVMTARKTD 5ugk-a1-m1-cC_5ugk-a1-m1-cE Zinc-Binding Structure of a Catalytic Amyloid from Solid-State NMR Spectroscopy NOT SOLID-STATE NMR 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 7 7 5ugk-a1-m1-cA_5ugk-a1-m1-cC 5ugk-a1-m1-cE_5ugk-a1-m1-cG 5ugk-a1-m1-cG_5ugk-a1-m1-cI 5ugk-a1-m1-cI_5ugk-a1-m1-cK 5ugk-a1-m1-cO_5ugk-a1-m1-cQ 5ugk-a1-m1-cQ_5ugk-a1-m1-cS 5ugk-a1-m1-cS_5ugk-a1-m1-cU 5ugk-a1-m1-cU_5ugk-a1-m1-cW 5ugk-a1-m1-cW_5ugk-a1-m1-cY IHVHLQI IHVHLQI 5uh0-a3-m2-cB_5uh0-a3-m1-cA 1.95 Angstrom Resolution Crystal Structure of Fragment (35-274) of Membrane-bound Lytic Murein Transglycosylase F from Yersinia pestis. Q74SQ6 Q74SQ6 1.95 X-RAY DIFFRACTION 56 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 225 230 NAQLDQIKARGELRVSTISSPLIYSTSGFDYELAKRFADYLGVKLVIIPHHNIDDLFDALDNDDTDLLAAGLIYNRERLNRARTGPAYYSVSQQLVYRLGSPRPKSFSDLKGQVVVASGSAHTTLKRLKQTKYPELNWSSSVDKSGKELLEQVAEGKLDYTLGDSATIALLQRIHPQLAVAFDVTDEEPVTWYFKQSDDDSLYAALDFYSEVEDGSLARLEEKYL NAQLDQIKARGELRVSTISSPLIYSTEKDTPSGFDYELAKRFADYLGVKLVIIPHHNIDDLFDALDNDDTDLLAAGLIYNRERLNRARTGPAYYSVSQQLVYRLGSPRPKSFSDLKGQVVVASGSAHTTLKRLKQTKYPELNWSSSVDKSGKELLEQVAEGKLDYTLGDSATIALLQRIHPQLAVAFDVTDEEPVTWYFKQSDDDSLYAALDFYSEVEDGSLARLEEKYL 5uh7-a1-m1-cA_5uh7-a1-m1-cB Crystal structure of beta'MtbSI of Mycobacterium tuberculosis RNA polymerase P9WGY7 P9WGY7 2.199 X-RAY DIFFRACTION 22 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 131 133 EKIIYFAAYVITSVDEEMRHNELSTLEAEMAVERKAVEDQRDGELEARAQKLEADLAELEAEGAKADARRKVRDGGEREMRQIRDRAQRELDRLEDIWSTFTKLAPKQLIVDENLYRELVDRYGEYFTGAM EKIIYFAAYVITSVDEEMRHNELSTLEAEMAVERKAVEDQRDGELEARAQKLEADLAELEAEGAKADARRKVRDGGEREMRQIRDRAQRELDRLEDIWSTFTKLAPKQLIVDENLYRELVDRYGEYFTGAMGA 5uhj-a2-m1-cB_5uhj-a2-m3-cB The crystal structure of a natural product biosynthetic enzyme from Streptomyces sp. CB03234 A0A125SA24 A0A125SA24 1.75 X-RAY DIFFRACTION 107 1.0 1703937 (Streptomyces sp. CB03234) 1703937 (Streptomyces sp. CB03234) 119 119 5uhj-a1-m1-cA_5uhj-a1-m2-cA 5umq-a1-m1-cA_5umq-a1-m1-cB AISHIGTIDVFVNDQDKAIDFYVNTLGFELREDQAFGPRWVEVAPAGSQTRIVLCTKHFPVYEEGKIGRFTDIQLVTEDIKATHEELVRRGVNFTRAPEQANASFQDPDGNEFLLLQPS AISHIGTIDVFVNDQDKAIDFYVNTLGFELREDQAFGPRWVEVAPAGSQTRIVLCTKHFPVYEEGKIGRFTDIQLVTEDIKATHEELVRRGVNFTRAPEQANASFQDPDGNEFLLLQPS 5uhm-a1-m1-cA_5uhm-a1-m1-cB Apo-Structure of Mature Growth Differentiation Factor 11 O95390 O95390 1.9 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 NLGLDCDEHSSESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGQCEGPCCTPTKMSPINMLYFNDKQQIIYGKIPGMVVDRCGCS NLGLDCDEHSSESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSGQCEGPCCTPTKMSPINMLYFNDKQQIIYGKIPGMVVDRCGCS 5uhp-a1-m1-cA_5uhp-a1-m1-cB Crystal structure of the core catalytic domain of human O-GlcNAcase O60502 O60502 2.79 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 307 307 6pm9-a1-m1-cA_6pm9-a1-m1-cB RFLCGVVEGFYGRPWVMEQRKELFRRLQKWELNTYLYAPKDDYKHRMFWREMYSVEEAEQLMTLISAAREYEIEFIYAISPGLDITFSNPKEVSTLKRKLDQVSQFGCRSFALLFDDINMCAADKEVFSSFAHAQVSITNEIYQYLGEPETFLFCPTEYCGTFCYPNVSQSPYLRTVGEKLLPGIEVLWTGPKVVSKEIPVESIEEVSKIIKRAPVIWDNIHANDYDQKRLFLGPYKGRSTELIPRLKGVLTNPNCEFEANYVAIHTLATWYKSNMNGVRDVLYSPQMALKLALTEWLQEFGVPHQY RFLCGVVEGFYGRPWVMEQRKELFRRLQKWELNTYLYAPKDDYKHRMFWREMYSVEEAEQLMTLISAAREYEIEFIYAISPGLDITFSNPKEVSTLKRKLDQVSQFGCRSFALLFDDINMCAADKEVFSSFAHAQVSITNEIYQYLGEPETFLFCPTEYCGTFCYPNVSQSPYLRTVGEKLLPGIEVLWTGPKVVSKEIPVESIEEVSKIIKRAPVIWDNIHANDYDQKRLFLGPYKGRSTELIPRLKGVLTNPNCEFEANYVAIHTLATWYKSNMNGVRDVLYSPQMALKLALTEWLQEFGVPHQY 5uhp-a1-m1-cF_5uhp-a1-m1-cG Crystal structure of the core catalytic domain of human O-GlcNAcase O60502 O60502 2.79 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 114 6pm9-a1-m1-cF_6pm9-a1-m1-cG TLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANSEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWRGGLAGEFQRLLPI TLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANKDSEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWWAFRGGLAGEFQRLLPI 5uhp-a2-m1-cE_5uhp-a2-m1-cH Crystal structure of the core catalytic domain of human O-GlcNAcase O60502 O60502 2.79 X-RAY DIFFRACTION 56 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 6pm9-a2-m1-cE_6pm9-a2-m1-cH TLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANSSEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQEPWAFRGGLAGEFQRLL TLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRASEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWQEPWAFRGGLAGEFQRLL 5uhq-a2-m1-cC_5uhq-a2-m1-cD Structure of a SemiSWEET Q20A mutant B0SR19 B0SR19 2.78 X-RAY DIFFRACTION 74 1.0 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 80 81 5uhq-a1-m1-cB_5uhq-a1-m1-cA MENLIGYVAAFLTTVSFLPAVLRVVMTKQTRDISRNMYIMFFLGVVLWFVYGILRSDLPIILANVVTLFFVTIILYYKLT MENLIGYVAAFLTTVSFLPAVLRVVMTKQTRDISRNMYIMFFLGVVLWFVYGILRSDLPIILANVVTLFFVTIILYYKLTE 5uhr-a1-m1-cA_5uhr-a1-m1-cB Crystal structure of (Cit)LANFLV heptapeptide segment from islet amyloid polypeptide (IAPP) incorporated into a macrocyclic beta-sheet template 1.798 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 9 9 LANFLVIKK LANFLVIKK 5uhr-a1-m1-cC_5uhr-a1-m1-cD Crystal structure of (Cit)LANFLV heptapeptide segment from islet amyloid polypeptide (IAPP) incorporated into a macrocyclic beta-sheet template 1.798 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 9 9 LANFLVIKK LANFLVIKK 5ui2-a1-m1-cB_5ui2-a1-m1-cA CRYSTAL STRUCTURE OF ORANGE CAROTENOID PROTEIN P83689 P83689 2.1 X-RAY DIFFRACTION 77 1.0 129910 (Limnospira maxima) 129910 (Limnospira maxima) 314 316 PFTIDTARSIFPETLAADVVPATIARFKQLSAEDQLALIWFAYLEMGKTITIAAPGAANMQFAENTLQEIRQMTPLQQTQAMCDLANRTDTPICRTYASWSPNIKLGFWYELGRFMDQGLVAPIPEGYKLSANANAILVTIQGIDPGQQITVLRNCVVDMGFDTSKLGSYQRVAEPVVPPQEMSQRTKVQIEGVTNSTVLQYMDNLNANDFDNLISLFAEDGALQPPFQKPIVGKENTLRFFREECQNLKLIPERGVSEPTEDGYTQIKVTGKVQTPWFGGNVGMNIAWRFLLNPENKVFFVAIDLLASPKELL PFTIDTARSIFPETLAADVVPATIARFKQLSAEDQLALIWFAYLEMGKTITIAAPGAANMQFAENTLQEIRQMTPLQQTQAMCDLANRTDTPICRTYASWSPNIKLGFWYELGRFMDQGLVAPIPEGYKLSANANAILVTIQGIDPGQQITVLRNCVVDMGFDTSKLGSYQRVAEPVVPPQEMSQRTKVQIEGVTNSTVLQYMDNLNANDFDNLISLFAEDGALQPPFQKPIVGKENTLRFFREECQNLKLIPERGVSEPTEDGYTQIKVTGKVQTPWFGGNVGMNIAWRFLLNPENKVFFVAIDLLASPKELLNL 5ui3-a1-m1-cA_5ui3-a1-m1-cD Crystal structure of DHDPS from chlamydomonas reinhardtii 2 X-RAY DIFFRACTION 128 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 305 305 5ui3-a1-m1-cB_5ui3-a1-m1-cC STVDRLKKLRLITAIKTPYLANGKFDLPAYDALVSHQIENGVEGLIVGGTTGEGHLMSWDEHVMLIAHTVNAFGDKTAVIGNTGSNSTREALHATEQGFAVGMHASLQINPYYGKTSKAGLLNHFNAVLNEGPAVVYNVPGRTGQDIPDDVVMEICQHSNFLGMKECTGNSRIKNYTSKGVNCWSGNDDESHDARHSNGAVGVISVTSNVIPGLMHKLMHGSPDPQLNADLKELMAWMFCEPNPISLNTALAMCGLARPVFRLPYVPLSRAQREKGAVLLNKVQEHIPGCKSVRVMEDHEFILVG STVDRLKKLRLITAIKTPYLANGKFDLPAYDALVSHQIENGVEGLIVGGTTGEGHLMSWDEHVMLIAHTVNAFGDKTAVIGNTGSNSTREALHATEQGFAVGMHASLQINPYYGKTSKAGLLNHFNAVLNEGPAVVYNVPGRTGQDIPDDVVMEICQHSNFLGMKECTGNSRIKNYTSKGVNCWSGNDDESHDARHSNGAVGVISVTSNVIPGLMHKLMHGSPDPQLNADLKELMAWMFCEPNPISLNTALAMCGLARPVFRLPYVPLSRAQREKGAVLLNKVQEHIPGCKSVRVMEDHEFILVG 5ui3-a1-m1-cD_5ui3-a1-m1-cC Crystal structure of DHDPS from chlamydomonas reinhardtii 2 X-RAY DIFFRACTION 51 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 305 306 5ui3-a1-m1-cA_5ui3-a1-m1-cB STVDRLKKLRLITAIKTPYLANGKFDLPAYDALVSHQIENGVEGLIVGGTTGEGHLMSWDEHVMLIAHTVNAFGDKTAVIGNTGSNSTREALHATEQGFAVGMHASLQINPYYGKTSKAGLLNHFNAVLNEGPAVVYNVPGRTGQDIPDDVVMEICQHSNFLGMKECTGNSRIKNYTSKGVNCWSGNDDESHDARHSNGAVGVISVTSNVIPGLMHKLMHGSPDPQLNADLKELMAWMFCEPNPISLNTALAMCGLARPVFRLPYVPLSRAQREKGAVLLNKVQEHIPGCKSVRVMEDHEFILVG STVDRLKKLRLITAIKTPYLANGKFDLPAYDALVSHQIENGVEGLIVGGTTGEGHLMSWDEHVMLIAHTVNAFGDKTAVIGNTGSNSTREALHATEQGFAVGMHASLQINPYYGKTSKAGLLNHFNAVLNEGPAVVYNVPGRTGQDIPDDVVMEICQHSNFLGMKECTGNSRIKNYTSKGVNCWSGNDDESHDARHSNGAVGVISVTSNVIPGLMHKLMHGSPDPQLNADLKELMAWMFCEPNPISLNTALAMCGLARPVFRLPYVPLSRAQREKGAVLLNKVQEHIPGCKSVRVMEDHEFILVGR 5ui4-a1-m1-cC_5ui4-a1-m1-cE Structure of NME1 covalently conjugated to imidazole fluorosulfate P15531 P15531 2.75 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 149 1be4-a1-m1-cA_1be4-a1-m2-cB 1be4-a1-m1-cB_1be4-a1-m2-cA 1be4-a1-m1-cC_1be4-a1-m2-cC 1bhn-a1-m1-cA_1bhn-a1-m1-cE 1bhn-a1-m1-cB_1bhn-a1-m1-cD 1bhn-a1-m1-cC_1bhn-a1-m1-cF 1jxv-a1-m1-cA_1jxv-a1-m1-cD 1jxv-a1-m1-cB_1jxv-a1-m1-cF 1jxv-a1-m1-cC_1jxv-a1-m1-cE 1ucn-a1-m1-cA_1ucn-a1-m2-cA 1ucn-a1-m1-cB_1ucn-a1-m2-cC 1ucn-a1-m1-cC_1ucn-a1-m2-cB 2hvd-a1-m1-cA_2hvd-a1-m2-cA 2hvd-a1-m1-cB_2hvd-a1-m2-cC 2hvd-a1-m1-cC_2hvd-a1-m2-cB 2hve-a1-m1-cA_2hve-a1-m2-cA 2hve-a1-m1-cB_2hve-a1-m2-cC 2hve-a1-m1-cC_2hve-a1-m2-cB 3l7u-a1-m1-cA_3l7u-a1-m2-cB 3l7u-a1-m1-cC_3l7u-a1-m2-cC 3l7u-a1-m2-cA_3l7u-a1-m1-cB 4eno-a1-m1-cB_4eno-a1-m1-cA 4eno-a1-m2-cB_4eno-a1-m2-cA 4eno-a1-m3-cB_4eno-a1-m3-cA 5ui4-a1-m1-cA_5ui4-a1-m1-cD 5ui4-a1-m1-cF_5ui4-a1-m1-cB NCERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVGLKFMQASEDLLKEHYVDLKDRPFFAGLVKYMHSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVESAEKEIGLWFHPEELVDYTSCAQNWIY NCERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVGLKFMQASEDLLKEHYVDLKDRPFFAGLVKYMHSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVESAEKEIGLWFHPEELVDYTSCAQNWIY 5ui4-a1-m1-cE_5ui4-a1-m1-cF Structure of NME1 covalently conjugated to imidazole fluorosulfate P15531 P15531 2.75 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 149 1be4-a1-m1-cA_1be4-a1-m1-cB 1be4-a1-m1-cA_1be4-a1-m1-cC 1be4-a1-m1-cB_1be4-a1-m1-cC 1be4-a1-m2-cA_1be4-a1-m2-cB 1be4-a1-m2-cA_1be4-a1-m2-cC 1be4-a1-m2-cB_1be4-a1-m2-cC 1bhn-a1-m1-cA_1bhn-a1-m1-cB 1bhn-a1-m1-cA_1bhn-a1-m1-cC 1bhn-a1-m1-cB_1bhn-a1-m1-cC 1bhn-a1-m1-cD_1bhn-a1-m1-cE 1bhn-a1-m1-cD_1bhn-a1-m1-cF 1bhn-a1-m1-cE_1bhn-a1-m1-cF 1jxv-a1-m1-cA_1jxv-a1-m1-cB 1jxv-a1-m1-cA_1jxv-a1-m1-cC 1jxv-a1-m1-cB_1jxv-a1-m1-cC 1jxv-a1-m1-cD_1jxv-a1-m1-cE 1jxv-a1-m1-cD_1jxv-a1-m1-cF 1jxv-a1-m1-cE_1jxv-a1-m1-cF 1ucn-a1-m1-cA_1ucn-a1-m1-cB 1ucn-a1-m1-cA_1ucn-a1-m1-cC 1ucn-a1-m1-cB_1ucn-a1-m1-cC 1ucn-a1-m2-cA_1ucn-a1-m2-cB 1ucn-a1-m2-cA_1ucn-a1-m2-cC 1ucn-a1-m2-cB_1ucn-a1-m2-cC 2hvd-a1-m1-cA_2hvd-a1-m1-cB 2hvd-a1-m1-cA_2hvd-a1-m1-cC 2hvd-a1-m1-cB_2hvd-a1-m1-cC 2hvd-a1-m2-cA_2hvd-a1-m2-cB 2hvd-a1-m2-cA_2hvd-a1-m2-cC 2hvd-a1-m2-cB_2hvd-a1-m2-cC 2hve-a1-m1-cA_2hve-a1-m1-cB 2hve-a1-m1-cA_2hve-a1-m1-cC 2hve-a1-m1-cB_2hve-a1-m1-cC 2hve-a1-m2-cA_2hve-a1-m2-cB 2hve-a1-m2-cA_2hve-a1-m2-cC 2hve-a1-m2-cB_2hve-a1-m2-cC 3l7u-a1-m1-cA_3l7u-a1-m1-cB 3l7u-a1-m1-cA_3l7u-a1-m1-cC 3l7u-a1-m1-cC_3l7u-a1-m1-cB 3l7u-a1-m2-cA_3l7u-a1-m2-cB 3l7u-a1-m2-cA_3l7u-a1-m2-cC 3l7u-a1-m2-cC_3l7u-a1-m2-cB 4eno-a1-m1-cA_4eno-a1-m2-cA 4eno-a1-m1-cA_4eno-a1-m3-cA 4eno-a1-m1-cB_4eno-a1-m2-cB 4eno-a1-m1-cB_4eno-a1-m3-cB 4eno-a1-m2-cA_4eno-a1-m3-cA 4eno-a1-m2-cB_4eno-a1-m3-cB 5ui4-a1-m1-cA_5ui4-a1-m1-cB 5ui4-a1-m1-cA_5ui4-a1-m1-cC 5ui4-a1-m1-cC_5ui4-a1-m1-cB 5ui4-a1-m1-cE_5ui4-a1-m1-cD 5ui4-a1-m1-cF_5ui4-a1-m1-cD NCERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVGLKFMQASEDLLKEHYVDLKDRPFFAGLVKYMHSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVESAEKEIGLWFHPEELVDYTSCAQNWIY NCERTFIAIKPDGVQRGLVGEIIKRFEQKGFRLVGLKFMQASEDLLKEHYVDLKDRPFFAGLVKYMHSGPVVAMVWEGLNVVKTGRVMLGETNPADSKPGTIRGDFCIQVGRNIIHGSDSVESAEKEIGLWFHPEELVDYTSCAQNWIY 5ui9-a1-m1-cA_5ui9-a1-m1-cB Crystal Structure of an Oxidoreductase from Agrobacterium radiobacter in Complex with NAD+, 2 -hydroxy-2-hydroxymethyl propanoic acid and Magnesium B9JK80 B9JK80 1.92 X-RAY DIFFRACTION 104 1.0 311403 (Agrobacterium radiobacter K84) 311403 (Agrobacterium radiobacter K84) 342 342 5uhw-a1-m1-cA_5uhw-a1-m1-cB 5uhz-a1-m1-cA_5uhz-a1-m1-cB 5uia-a1-m1-cA_5uia-a1-m1-cB 5uib-a1-m1-cA_5uib-a1-m1-cB TELKGALIGCGFFAVNQMHAWKDVKGAGIAAICDRDPKRLKLVGDQFGIERRYGDAAALFADGGFDFVDIATTVQSHRALVEMAAAHKVPAICQKPFAKSLSDAKAMVRTCENADIPLMVHENFRWQTPIQAVKAVLESGAIGEPFWGRFSFRSGFDVFSGQPYLAEGERFIIEDLGIHTLDIARFILGDVATLTARTKRVNPKIKGEDVATILLDHQNGATSIVDVSYATKLGTEPFPETLIDIDGTQGTIRLSQGYRLEVTGPNGMTISDASPQLLSWASRPWHNIQESVLAIQQHWTDRLSSGGETSTSGADNLKTFALVEAAYESAANGRTVDIGAML TELKGALIGCGFFAVNQMHAWKDVKGAGIAAICDRDPKRLKLVGDQFGIERRYGDAAALFADGGFDFVDIATTVQSHRALVEMAAAHKVPAICQKPFAKSLSDAKAMVRTCENADIPLMVHENFRWQTPIQAVKAVLESGAIGEPFWGRFSFRSGFDVFSGQPYLAEGERFIIEDLGIHTLDIARFILGDVATLTARTKRVNPKIKGEDVATILLDHQNGATSIVDVSYATKLGTEPFPETLIDIDGTQGTIRLSQGYRLEVTGPNGMTISDASPQLLSWASRPWHNIQESVLAIQQHWTDRLSSGGETSTSGADNLKTFALVEAAYESAANGRTVDIGAML 5uic-a1-m1-cA_5uic-a1-m2-cB Structure of the Francisella response regulator receiver domain, QseB A0Q7W8 A0Q7W8 2.487 X-RAY DIFFRACTION 51 1.0 401614 (Francisella tularensis subsp. novicida U112) 401614 (Francisella tularensis subsp. novicida U112) 120 121 NMRILLAEDDLHLGEGLLEALQKEGLIVNLVSDGEAAQTFIESGLYDIVVLDIGMPIKTGLEVLRNIRNRGIKVPIILLTARDGLEDRIKGLDLGADDYLTKPFELKELVARIKAISRRI NMRILLAEDDLHLGEGLLEALQKEGLIVNLVSDGEAAQTFIESGLYDIVVLDIGMPIKTGLEVLRNIRNRGIKVPIILLTARDGLEDRIKGLDLGADDYLTKPFELKELVARIKAISRRID 5uid-a2-m1-cD_5uid-a2-m1-cC The crystal structure of an aminotransferase TlmJ from Streptoalloteichus hindustanus A4KUD2 A4KUD2 2.18 X-RAY DIFFRACTION 156 0.997 2017 (Streptoalloteichus hindustanus) 2017 (Streptoalloteichus hindustanus) 358 359 5uid-a1-m1-cA_5uid-a1-m1-cB INVFQPTLGEAELAAVREVFASGWLGRGPRTKVFEADFAEHLGVGAEQVVSVSCCTEGLFLSELLGVGPGDEVVLPSISFVGAANAIAARGARPVFCDVDPATLNPTADHVAEKLGPRTKAVVVLHYGGYPGDLVAIAELCRERGVPLVEDSACAVASQVDGRACGTLGDVGVWSFDAILVTGDGGLCFRDPELAERARKLASLGARWWEFEVTAFGRRSISNDVAASIGSVQLRRLPEFVRRRREIAERYDQGLSTVDGLRCPPPLPAGHTSSYYFYWVRDASVRDAARRLYDRGVYTTFRYAPLHLVSAYGHEGSLPGAERAAEETLCLPLHQALSDSDVETVIGEVRAGLAALTA GINVFQPTLGEAELAAVREVFASGWLGRGPRTKVFEADFAEHLGVGAEQVVSVSCCTEGLFLSELLGVGPGDEVVLPSISFVGAANAIAARGARPVFCDVDPATLNPTADHVAEKLGPRTKAVVVLHYGGYPGDLVAIAELCRERGVPLVEDSACAVASQVDGRACGTLGDVGVWSFDAILVTGDGGLCFRDPELAERARKLASLGAQRWWEFEVTAFGRRSISNDVAASIGSVQLRRLPEFVRRRREIAERYDQGLSTVDGLRCPPPLPAGHTSSYYFYWVRDASVRDAARRLYDRGVYTTFRYAPLHLVSAYGHEGSLPGAERAAEETLCLPLHQALSDSDVETVIGEVRAGLAALT 5uif-a1-m1-cB_5uif-a1-m1-cC Crystal Structure of Native Ps01740 K9NIA5 K9NIA5 2.57 X-RAY DIFFRACTION 74 1.0 1207075 (Pseudomonas sp. UW4) 1207075 (Pseudomonas sp. UW4) 112 112 5uif-a1-m1-cA_5uif-a1-m1-cB 5uif-a1-m1-cA_5uif-a1-m1-cC PLYECQTVKGTLSERQRQSLAESITSIHTRETGAPASYVHVLFKELEPGSAFTAGQVATPAIIRGQIRAGRPQATRHAILRAITDVYMAVTGADANAVVVAVVDIPASWAME PLYECQTVKGTLSERQRQSLAESITSIHTRETGAPASYVHVLFKELEPGSAFTAGQVATPAIIRGQIRAGRPQATRHAILRAITDVYMAVTGADANAVVVAVVDIPASWAME 5uig-a2-m1-cA_5uig-a2-m2-cA Crystal structure of adenosine A2A receptor bound to a novel triazole-carboximidamide antagonist P29274 P29274 3.5 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 387 387 MGSSVYITVELAIAVLAILGNVLVCWAVWLNSNLQNVTNYFVVSLAAADIAVGVLAIPFAITISTGFCAACHGCLFIACFVLVLTQSSIFSLLAIAIDRYIAIRIPLRYNGLVTGTRAKGIIAICWVLSFAIGLTPMLGWNNCGQCGEGQVACLFEDVVPMNYMVYFNFFACVLVPLLLMLGVYLRIFLAARRQLADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLERARSTLQKEVHAAKSLAIIVGLFALCWLPLHIINCFTFFCPDCSHAPLWLMYLAIVLSHTNSVVNPFIYAYRIREFRQTFRKIIRSHVLRQQ MGSSVYITVELAIAVLAILGNVLVCWAVWLNSNLQNVTNYFVVSLAAADIAVGVLAIPFAITISTGFCAACHGCLFIACFVLVLTQSSIFSLLAIAIDRYIAIRIPLRYNGLVTGTRAKGIIAICWVLSFAIGLTPMLGWNNCGQCGEGQVACLFEDVVPMNYMVYFNFFACVLVPLLLMLGVYLRIFLAARRQLADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLERARSTLQKEVHAAKSLAIIVGLFALCWLPLHIINCFTFFCPDCSHAPLWLMYLAIVLSHTNSVVNPFIYAYRIREFRQTFRKIIRSHVLRQQ 5uin-a1-m1-cB_5uin-a1-m1-cA X-ray structure of the W305A variant of the FdtF N-formyltransferase from salmonella enteric O60 U3GK13 U3GK13 2.2 X-RAY DIFFRACTION 82 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 398 399 5uij-a1-m1-cB_5uij-a1-m1-cA 5uik-a1-m1-cA_5uik-a1-m1-cB 5uil-a1-m1-cA_5uil-a1-m1-cB 5uim-a1-m1-cB_5uim-a1-m1-cA MKIIIAGKNDIAVNVTRWLQKKKKNIEIYAICNANDTGIDTFQRSFKKYCKDNLIPIISLAEAYKIDDAIFLSLEFDKIVQPSKFNHNELFNIHFSYLPKYKGMYTSAWPILNGEDTSGVTLHKIDHGIDTGAIIAQKEIIIQPFETAKDLYEKYISEGTSLVIDNISTLLNSEYVEKEQNIKYSSYYSKKTIDYSNLELNFSKTAFEIINQLRAFTFREYQLPKLDGVNIFLGDVLSSRSIMKPGSILERNDKEIIVSTIDYDVVLYKDNFKEILEACKYSDSKYIAKLIRAKSILFEKNIYGASPVIVAAYHGNIELIKWLVSKGANINDRNYKGTTVAMYFKDYMLKSGDYSGLKMLIDLGLDLTLTDYKDYTVFDYLEKSGNKNLLQYMMAFMK HMKIIIAGKNDIAVNVTRWLQKKKKNIEIYAICNANDTGIDTFQRSFKKYCKDNLIPIISLAEAYKIDDAIFLSLEFDKIVQPSKFNHNELFNIHFSYLPKYKGMYTSAWPILNGEDTSGVTLHKIDHGIDTGAIIAQKEIIIQPFETAKDLYEKYISEGTSLVIDNISTLLNSEYVEKEQNIKYSSYYSKKTIDYSNLELNFSKTAFEIINQLRAFTFREYQLPKLDGVNIFLGDVLSSRSIMKPGSILERNDKEIIVSTIDYDVVLYKDNFKEILEACKYSDSKYIAKLIRAKSILFEKNIYGASPVIVAAYHGNIELIKWLVSKGANINDRNYKGTTVAMYFKDYMLKSGDYSGLKMLIDLGLDLTLTDYKDYTVFDYLEKSGNKNLLQYMMAFMK 5uiv-a1-m1-cA_5uiv-a1-m2-cA Structure of Thymidylate Kinase from Candida albicans Reveals Origin of Broad Substrate Specificity and a Novel Structural Element. Q59TV7 Q59TV7 2.45 X-RAY DIFFRACTION 82 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 225 225 TSARGQLILIEGLDRSGKSTQASILSTKLSPSKLIKFPDRSTPIGKLINEYLTNKSFTLSDQAAHLLFSANRWELSQQIQDLLNQGYFIILDRYIYSGIAYTLAKNDFHDETISQGKNKQQLNNIDWLLSPDKGLPKPDLTLFLTLDLEEISKRKGWGDERYELQQFQAKVKQCFLEILDTNKDPTIRIVDVGGKTIDQVTTQLWEIIETNKNHELINDSIQFIT TSARGQLILIEGLDRSGKSTQASILSTKLSPSKLIKFPDRSTPIGKLINEYLTNKSFTLSDQAAHLLFSANRWELSQQIQDLLNQGYFIILDRYIYSGIAYTLAKNDFHDETISQGKNKQQLNNIDWLLSPDKGLPKPDLTLFLTLDLEEISKRKGWGDERYELQQFQAKVKQCFLEILDTNKDPTIRIVDVGGKTIDQVTTQLWEIIETNKNHELINDSIQFIT 5uj6-a1-m1-cA_5uj6-a1-m1-cB Crystal Structure of Bacteroides Uniformis beta-glucuronidase A0A078SUX9 A0A078SUX9 1.9 X-RAY DIFFRACTION 174 1.0 1339349 (Bacteroides uniformis str. 3978 T3 ii) 1339349 (Bacteroides uniformis str. 3978 T3 ii) 838 840 6d50-a1-m1-cA_6d50-a1-m1-cB 6d8g-a1-m1-cB_6d8g-a1-m1-cA 6nzg-a1-m1-cA_6nzg-a1-m1-cB QRQTQTINDSWKFLKGECTAAADSAFDDSKWTSIHLPHTWNTDAYTEKDYYRGTGWYRRQLTLPQGWKEKQIILRLDAAGKSATIYINGKNVGEHAGGYTACSFNITPFLSFDTPNTLAVCVDNARQDIAPISGDFTFFGGIYRDVWLTAVPNQHFNLTNHGSDGLFISTPQVSEEQATLSIRGEVKNDAPEKATLELTHTIYRPDGTLLQTLKKNIQLKAGETYAFSNEATPVLKPELWTPETPRLYRVETTLRNRKTKTLLDQSNHYTAFRWFRFDGDEGFFLNGKPYKLRGICRHQDQKPIGPALTDEMHRRDFLLMKEMGANFIRISHYPQDDALLEMCDKLGMLAWEEIPIIDIVPNTPGYGDNCERNLREMIRQHYNHPSIITWGYMNEILLVTQRKYKTEAELKPVLERTLALANRLERVLKEEDSTRISTMAFHGSNSYNETGLSKITDIVGWNLYQGWYGGDLTGFEKFLAQQHQNHPTHPMIVSEYGAGSDKRLHSLHPRAFDFSIEYQQKYLEHYLPVLEDTPYICGGTHWNFIDFSSALRDESMPRINNKGLVYADRTPKDVYHYYQAAWRKDIPVLHIASRDWTDRAGVQQGNAPVYLPVKIYTNLSEVELFIDGISLGKQKTENYTATFEVPFSNRNPFLFAQGNYQGKTVQDGLRINFTPIPACLDANNLKGLELAVNVGSQCFFTSDESQLTWLPDQPYAAGSWGYIGGKEGTAQTEIQNTADGPLFQTLRNEIEGYRFDAPQGVYEIELLFTDIFRRESTFGISINGEVVEESLSPCKESGYFRALRKKYYITNDKEYIDIRFHSTSGTCFLNGIKLRNIY QRQTQTINDSWKFLKGECTAAADSAFDDSKWTSIHLPHTWNTDAYTEKDYYRGTGWYRRQLTLPQGWKEKQIILRLDAAGKSATIYINGKNVGEHAGGYTACSFNITPFLSFDTPNTLAVCVDNARQDIAPISGDFTFFGGIYRDVWLTAVPNQHFNLTNHGSDGLFISTPQVSEEQATLSIRGEVKNDAPEKATLELTHTIYRPDGTLLQTLKKNIQLKAGETYAFSNEATPVLKPELWTPETPRLYRVETTLRNRKTKTLLDQSNHYTAFRWFRFDGDEGFFLNGKPYKLRGICRHQDQKPIGPALTDEMHRRDFLLMKEMGANFIRISHYPQDDALLEMCDKLGMLAWEEIPIIDIVPNTPGYGDNCERNLREMIRQHYNHPSIITWGYMNEILLVTQRKYKTEAELKPVLERTLALANRLERVLKEEDSTRISTMAFHGSNSYNETGLSKITDIVGWNLYQGWYGGDLTGFEKFLAQQHQNHPTHPMIVSEYGAGSDKRLHSLHPRAFDFSIEYQQKYLEHYLPVLEDTPYICGGTHWNFIDFSSALRDESMPRINNKGLVYADRTPKDVYHYYQAAWRKDIPVLHIASRDWTDRAGVQQGNAPVYLPVKIYTNLSEVELFIDGISLGKQKTENYTATFEVPFSNRNPFLFAQGNYQGKTVQDGLRINFTPIPACLDANNLKGLELAVNVGSQCFFTSDESQLTWLPDQPYAAGSWGYIGGKEGTAQTEIQNTADGPLFQTLRNEIEGYRFDAPQGVYEIELLFTDIFRRNRESTFGISINGEVVEESLSPCKESGYFRALRKKYYITNDKEYIDIRFHSTSGTCFLNGIKLRNIY 5uj8-a6-m1-cB_5uj8-a6-m2-cD Human Origin Recognition Complex subunits 2 and 3 Q9UBD5 Q9UBD5 6 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 553 553 5uj8-a5-m1-cA_5uj8-a5-m2-cC KLRFETYQLIWQQMKSENERLQEELNKNLFDNLIEFLQKSHSGLREIPTAALVLGVNVTDHDLTFGSLTEALQNNVTPYVVSLQAKDCPDMKHFLQKLISQLMDCCVDIKSYMTVTQKTDPKMLSKKRTTSSQWQSPPVVVILKDMESFATKVLQDFIIISSQHLHEFPLILIFGIATSPIIIHRLLPHAVSSLLCIELFQSLSCKEHLTTVLDKLLLTTQFPFKINEKVLQVLTNIFLYHDFSVQNFIKGLQLSLLEHFYSQPLSVLCCNLPEAKRRINFLSNNQCENIRRLPSFRRYVEKQASEKQVALLTNERYLKEETQLLLENLHVYHMNYFLVLRCLHKFTSSLPKYPLGRQIRELYCTCLEKNIWDSEEYASVLQLLRMLAKDELMTILEKCFKVFKSYCENHLGSTAKRIEEFLAQFQSLDAKFEVLRENVVNFIDCLVREYLLPPETQPLHEVVYFSAAHALREHLNAAPRIALHTALNNPDICIAYKLHLECSRLINLVDWSEAFATVVIIHARFIRAVSELELLGFIKPTKQKTDHVARLTW KLRFETYQLIWQQMKSENERLQEELNKNLFDNLIEFLQKSHSGLREIPTAALVLGVNVTDHDLTFGSLTEALQNNVTPYVVSLQAKDCPDMKHFLQKLISQLMDCCVDIKSYMTVTQKTDPKMLSKKRTTSSQWQSPPVVVILKDMESFATKVLQDFIIISSQHLHEFPLILIFGIATSPIIIHRLLPHAVSSLLCIELFQSLSCKEHLTTVLDKLLLTTQFPFKINEKVLQVLTNIFLYHDFSVQNFIKGLQLSLLEHFYSQPLSVLCCNLPEAKRRINFLSNNQCENIRRLPSFRRYVEKQASEKQVALLTNERYLKEETQLLLENLHVYHMNYFLVLRCLHKFTSSLPKYPLGRQIRELYCTCLEKNIWDSEEYASVLQLLRMLAKDELMTILEKCFKVFKSYCENHLGSTAKRIEEFLAQFQSLDAKFEVLRENVVNFIDCLVREYLLPPETQPLHEVVYFSAAHALREHLNAAPRIALHTALNNPDICIAYKLHLECSRLINLVDWSEAFATVVIIHARFIRAVSELELLGFIKPTKQKTDHVARLTW 5ujs-a1-m1-cA_5ujs-a1-m1-cB 2.45 Angstrom Resolution Crystal Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase from Campylobacter jejuni. Q9PP65 Q9PP65 2.46 X-RAY DIFFRACTION 152 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 417 431 NAMTYLEIEGTNHLSGNVTISGAKNAALPLIVSSILAKNEVKINNVPNVADIKTLISLLENLGAKVNFQNNSALLNTNTLNQTIAKYDIVRKMRASILTLGPLLARFGHCEVSLPGGCAIGQRIDLHLLALEKMGANIQIKQGYVVASGNLKGNEILFDKITVTGSENIIMAAALAKGKTKLLNVAKEPEVVQLCEVLKDAGLEIKGIGTDELEIYGSDGELLEFKEFSVIPDRIEAGTYLCAGAITNSKITLDKVNATHLSAVLAKLHQMGFETLITEDSITLLPAKEIKPVEIMTSEYPGFPTDMQAQFMALALKANGTSIIDERLNRFMHVSELLRMGADIKLNGHIATIVGGKELNAADVMATDLRASSALILAALAAKGTSKVHRIYHLDRGYENLEEKFKDLGAKITRLEE DLGTENLYFQSNAMTYLEIEGTNHLSGNVTISGAKNAALPLIVSSILAKNEVKINNVPNVADIKTLISLLENLGAKVNFQNNSALLNTNTLNQTIAKYDIVRKMRASILTLGPLLARFGHCEVSLPGGCAIGQRPIDLHLLALEKMGANIQIKQGYVVASGNLKGNEILFDKITVTGSENIIMAAALAKGKTKLLNVAKEPEVVQLCEVLKDAGLEIKGIGTDELEIYGSDGELLEFKEFSVIPDRIEAGTYLCAGAITNSKITLDKVNATHLSAVLAKLHQMGFETLITEDSITLLPAKEIKPVEIMTSEYPGFPTDMQAQFMALALKANGTSIIDERLFENRFMHVSELLRMGADIKLNGHIATIVGGKELNAADVMATDLRASSALILAALAAKGTSKVHRIYHLDRGYENLEEKFKDLGAKITRLEE 5uju-a1-m1-cB_5uju-a1-m1-cA Crystal structure of NAD-dependent aldehyde dehydrogenase from Burkholderia multivorans A0A0H3KBY8 A0A0H3KBY8 2.05 X-RAY DIFFRACTION 172 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 557 558 MTHALFTKHEDTLKRALAAIESRGYWSPFAEMPSPKVYGESGNADGEAAFKSHLGKTFELDQPASGETVGAERSPYGVALDIRYPKSTPDALIAAAAAAQRTWREAGPSAWIGVSLEILARLNRASFEIAYSVMHTTGQAFMMAFQAGGPHAQDRALEAVAYAWDQLRRIPADAHWEKPQGKNPPLAMQKRYTIVPRGTGLVLGCCTFPTWNGYPGLFADLATGNTVIVKPHPGAILPLAITVRIARDVLREAGFDPNVVTLLATEPNDGALVQDLALRPEIKLIDFTGSTQNGTWLERHAHQAQVYTEKAGVNQIVIDSTDDLKAAAKNIAFSLALYSGQMCTAPQNIYVPRDGIRTADGHASFDEVAQAIAGAVQKLTGDPARSVELIGAIQNDGVTARIDAARAVGRVLLDSQTLQHPAFPDARVRTPLVLQLDVADREKFTQEWFGPISFVIATDSTAQSLDLAGEIAAEHGALTLSVYSTADDVIDAAHEAAVRGGVALSINLTGGVFVNQSAAFSDFHGTGANPAANAALADAAFVANRFRVVQSRVHVAP MTHALFTKHEDTLKRALAAIESRGYWSPFAEMPSPKVYGESGNADGEAAFKSHLGKTFELDQPASGETVGAERSPYGVALDIRYPKSTPDALIAAAAAAQRTWREAGPSAWIGVSLEILARLNRASFEIAYSVMHTTGQAFMMAFQAGGPHAQDRALEAVAYAWDQLRRIPADAHWEKPQGKNPPLAMQKRYTIVPRGTGLVLGCCTFPTWNGYPGLFADLATGNTVIVKPHPGAILPLAITVRIARDVLREAGFDPNVVTLLATEPNDGALVQDLALRPEIKLIDFTGSTQNGTWLERHAHQAQVYTEKAGVNQIVIDSTDDLKAAAKNIAFSLALYSGQMCTAPQNIYVPRDGIRTADGHASFDEVAQAIAGAVQKLTGDPARSVELIGAIQNDGVTARIDAARAVGRVLLDSQTLQHPAFPDARVRTPLVLQLDVADREKFTQEWFGPISFVIATDSTAQSLDLAGEIAAEHGALTLSVYSTADDVIDAAHEAAVRGGVALSINLTGGVFVNQSAAFSDFHGTGANPAANAALADAAFVANRFRVVQSRVHVAPK 5ujw-a2-m1-cC_5ujw-a2-m1-cD Crystal structure of triosephosphate isomerase from Francisella tularensis subsp. tularensis SCHU S4 Q5NII7 Q5NII7 2.65 X-RAY DIFFRACTION 102 0.996 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 245 247 5ujw-a1-m1-cB_5ujw-a1-m1-cA 5ujw-a3-m1-cE_5ujw-a3-m2-cE 5ujw-a4-m1-cF_5ujw-a4-m3-cF QKLIGNWKNGNSTSIKELCSGISQTSRVAIAVFPSSVYVKEVISQLPEKVGVGLQNITFYDDGAYTGEISARLEDIGCDYLLIGHSERRSLFAESDEDVFKKLNKIIDTTITPVVCIGESLDDRQSGKLKQVLATQLSLILENLSVEQLAKVVIAYEPVWAIGTGVVASLEQIQETHQFIRSLLAKVDERLAKNIKIVYGGSLKAENAKDILSLPDVDGGLIGGASLKAAEFNEIINQANKICTE QKLIGNWKNGNSTSIKELCSGISQVQYSRVAIAVFPSSVYVKEVISQLPEKVGVGLQNITFYDDGAYTGEISARLEDIGCDYLLIGHSERRSLFAESDEDVFKKLNKIIDTTITPVVCIGESLDDRQSGKLKQVLATQLSLILENLSVEQLAKVVIAYEPVWAIGTGVVASLEQIQETHQFIRSLLAKVDERLAKNIKIVYGGSLKAENAKDILSLPDVDGGLIGGASLKAAEFNEIINQANKICTE 5uk6-a1-m1-cB_5uk6-a1-m1-cC Structure of Anabaena Sensory Rhodopsin Determined by Solid State NMR Spectroscopy and DEER Q8YSC4 Q8YSC4 NOT SOLID-STATE NMR 35 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 228 228 2m3g-a1-m1-cA_2m3g-a1-m1-cB 2m3g-a1-m1-cA_2m3g-a1-m1-cC 2m3g-a1-m1-cB_2m3g-a1-m1-cC 5uk6-a1-m1-cA_5uk6-a1-m1-cB 5uk6-a1-m1-cA_5uk6-a1-m1-cC MNLESLLHWIYVAGMTIGALHFWSLSRNPRGVPQYEYLVAMFIPIWSGLAYMAMAIDQGKVEAAGQIAHYARYIDWMVTTPLLLLSLSWTAMQFIKKDWTLIGFLMSTQIVVITSGLIADLSERDWVRYLWYICGVCAFLIILWGIWNPLRAKTRTQSSELANLYDKLVTYFTVLWIGYPIVWIIGPSGFGWINQTIDTFLFCLLPFFSVGFSFLDLHGLRNLNDSRQ MNLESLLHWIYVAGMTIGALHFWSLSRNPRGVPQYEYLVAMFIPIWSGLAYMAMAIDQGKVEAAGQIAHYARYIDWMVTTPLLLLSLSWTAMQFIKKDWTLIGFLMSTQIVVITSGLIADLSERDWVRYLWYICGVCAFLIILWGIWNPLRAKTRTQSSELANLYDKLVTYFTVLWIGYPIVWIIGPSGFGWINQTIDTFLFCLLPFFSVGFSFLDLHGLRNLNDSRQ 5ukv-a1-m1-cA_5ukv-a1-m1-cB DHp domain of PhoR of M. tuberculosis - SeMet P71815 P71815 1.9 X-RAY DIFFRACTION 97 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 70 70 5uky-a1-m1-cA_5uky-a1-m1-cB GHAEKARDSEDRRQFITDASHELRTPLTTIRGFAELYRQGAARDVGLLSRIESEASRGLLVDDLLLLAKL GHAEKARDSEDRRQFITDASHELRTPLTTIRGFAELYRQGAARDVGLLSRIESEASRGLLVDDLLLLAKL 5ukw-a1-m1-cA_5ukw-a1-m4-cA Crystal structure of human Glucose 6-phosphate Dehydrogenase mutant (A277C) complexed with G6P P11413 P11413 2.65 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 476 476 1qki-a1-m1-cA_1qki-a1-m1-cD 1qki-a1-m1-cB_1qki-a1-m1-cC 1qki-a2-m1-cE_1qki-a2-m1-cH 1qki-a2-m1-cG_1qki-a2-m1-cF 2bhl-a1-m1-cA_2bhl-a1-m2-cB 2bhl-a1-m1-cB_2bhl-a1-m2-cA 5ukw-a1-m2-cA_5ukw-a1-m3-cA 7sng-a1-m1-cA_7sng-a1-m1-cC 7sng-a1-m1-cB_7sng-a1-m1-cD 7snh-a1-m1-cA_7snh-a1-m1-cC 7snh-a1-m1-cB_7snh-a1-m1-cD 7sni-a1-m1-cA_7sni-a1-m1-cC 7sni-a1-m1-cB_7sni-a1-m1-cD 7toe-a1-m1-cA_7toe-a1-m1-cC 7toe-a1-m1-cB_7toe-a1-m1-cD 7ual-a1-m1-cA_7ual-a1-m1-cC 7ual-a1-m1-cB_7ual-a1-m1-cD 7uc2-a1-m1-cA_7uc2-a1-m1-cC 7uc2-a1-m1-cB_7uc2-a1-m1-cD FSDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPCSTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAGDIFHQQCKRNELVIRVQPNEAVYTKMMTKKPGMFFNPEESELDLTYGNRYKNVKLPDAYERLILDVFCGSQMHFVRSDELREAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVGFQYE FSDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPCSTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAGDIFHQQCKRNELVIRVQPNEAVYTKMMTKKPGMFFNPEESELDLTYGNRYKNVKLPDAYERLILDVFCGSQMHFVRSDELREAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVGFQYE 5uly-a1-m1-cC_5uly-a1-m1-cA Crystal Structure of Human Protocadherin-15 EC2-3 Q96QU1 Q96QU1 2.64 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 224 5uly-a2-m1-cB_5uly-a2-m1-cD 6cv7-a1-m1-cA_6cv7-a1-m2-cA 6n2e-a1-m1-cA_6n2e-a1-m1-cB TFKHESYYATVNELTPVGTTIFTGFSGDNGIEYVIQYNPDDPTSNDTFEIPLMLTGNIVLRKRLNYEDKTRYFVIIQANTTTTTLTVDVLDGDDLGPMFLPCVLVPNTRDCRPLTYQAAIPELRTPEELNPIIVTPPIQAIDQDRNIQPPSDRPGILYSILVGTPEDYPRFFHMHPRTAELSLLEPVNRDFHQKFDLVIKAEQDNGHPLPAFAGLHIEILD TFKHESYYATVNELTPVGTTIFTGFSGDNGATQIEYVIQYNPDDPTSNDTFEIPLMLTGNIVLRKRLNYEDKTRYFVIIQANTTTTTLTVDVLDGDDLGPMFLPCVLVPNTRDCRPLTYQAAIPELRTPEELNPIIVTPPIQAIDQDRNIQPPSDRPGILYSILVGTPEDYPRFFHMHPRTAELSLLEPVNRDFHQKFDLVIKAEQDNGHPLPAFAGLHIEILD 5um0-a1-m1-cD_5um0-a1-m1-cA Crystal structure of 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase from Neisseria gonorrhoeae B4RIY7 B4RIY7 1.85 X-RAY DIFFRACTION 39 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 228 230 5um0-a1-m1-cB_5um0-a1-m1-cC HMELVFIRHGQSEWNAKNLFTGWRDVKLSEQGLAEAAAAGKKLKENGYEFDIAFTSVLTRAIKTCNIVLEESDQLFVPQIKTWRLNERHYGRLQGLDKKQTAEKYGDEQVRIWRRSYDTLPPLLDKDDAFSAHKDRRYAHLPADVVPDGENLKVTLERVLPFWEDQIAPAILSGKRVLVAAHGNSLRALAKHIEGISDEDIMGLEIPTGQPLVYKLDDNLKVIEKFYL HHHMELVFIRHGQSEWNAKNLFTGWRDVKLSEQGLAEAAAAGKKLKENGYEFDIAFTSVLTRAIKTCNIVLEESDQLFVPQIKTWRLNERHYGRLQGLDKKQTAEKYGDEQVRIWRRSYDTLPPLLDKDDAFSAHKDRRYAHLPADVVPDGENLKVTLERVLPFWEDQIAPAILSGKRVLVAAHGNSLRALAKHIEGISDEDIMGLEIPTGQPLVYKLDDNLKVIEKFYL 5um0-a1-m1-cD_5um0-a1-m1-cC Crystal structure of 2,3-bisphosphoglycerate-dependent phosphoglycerate mutase from Neisseria gonorrhoeae B4RIY7 B4RIY7 1.85 X-RAY DIFFRACTION 35 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 228 230 5um0-a1-m1-cA_5um0-a1-m1-cB HMELVFIRHGQSEWNAKNLFTGWRDVKLSEQGLAEAAAAGKKLKENGYEFDIAFTSVLTRAIKTCNIVLEESDQLFVPQIKTWRLNERHYGRLQGLDKKQTAEKYGDEQVRIWRRSYDTLPPLLDKDDAFSAHKDRRYAHLPADVVPDGENLKVTLERVLPFWEDQIAPAILSGKRVLVAAHGNSLRALAKHIEGISDEDIMGLEIPTGQPLVYKLDDNLKVIEKFYL HHHMELVFIRHGQSEWNAKNLFTGWRDVKLSEQGLAEAAAAGKKLKENGYEFDIAFTSVLTRAIKTCNIVLEESDQLFVPQIKTWRLNERHYGRLQGLDKKQTAEKYGDEQVRIWRRSYDTLPPLLDKDDAFSAHKDRRYAHLPADVVPDGENLKVTLERVLPFWEDQIAPAILSGKRVLVAAHGNSLRALAKHIEGISDEDIMGLEIPTGQPLVYKLDDNLKVIEKFYL 5ume-a2-m1-cB_5ume-a2-m1-cF Crystal Structure of 5,10-Methylenetetrahydrofolate Reductase MetF from Haemophilus influenzae P45208 P45208 2.7 X-RAY DIFFRACTION 67 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 262 282 5ume-a1-m1-cA_5ume-a1-m1-cD 5ume-a3-m1-cC_5ume-a3-m1-cE KINVSFEFFPPKNEKMETLLWDSIHRLKVLKPKFVSVTYSGERDRTHGIVKAIKQETGLEAAPHLTGIDATPEELKQIARDYWDSGIRRIVALRGDPFYASDLVELLRSVADFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDIENYLRFRDRCASIGIDTEIVPGILPVTNFKQLQKMASFTNVKIPAWLVKAYDGLDNDPTTRNLVAASVAMDMVKILSREGVNDFHFYTLNRSELTYAICHMLGVRP IDTLNQHIAKINVSFEFFPPKNEKMETLLWDSIHRLKVLKPKFVSVTYGANSGERDRTHGIVKAIKQETGLEAAPHLTGIDATPEELKQIARDYWDSGIRRIVALRGDEPKGYAKKPFYASDLVELLRSVADFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDIENYLRFRDRCASIGIDTEIVPGILPVTNFKQLQKMASFTNVKIPAWLVKAYDGLDNDPTTRNLVAASVAMDMVKILSREGVNDFHFYTLNRSELTYAICHMLGVRP 5umf-a1-m1-cB_5umf-a1-m2-cC Crystal Structure of a Ribulose-phosphate 3-epimerase from Neisseria gonorrhoeae with bound phosphate B4RLV9 B4RLV9 1.4 X-RAY DIFFRACTION 35 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 223 224 5umf-a1-m1-cA_5umf-a1-m1-cB 5umf-a1-m1-cA_5umf-a1-m2-cC 5umf-a1-m2-cA_5umf-a1-m1-cC 5umf-a1-m2-cA_5umf-a1-m2-cB 5umf-a1-m2-cB_5umf-a1-m1-cC AYRIAPSILSADFARLGEEVANVIAAGADLIHFDVMDNHYVPNLTFGPMVCAALKPYASVPIDVHLMVEPVDDLIQSFAKAGASIITFHPEASRHIDRSLSLIRDMGCQAGLVLNPATPVYVLENVLDRLDMVLLMSVNPGFGGQSFIPHTLEKIRQVRAMLDRYEGKSGRRIAIEVDGGIKTDNIAAVARAGADTFVAGSAIFGKPDYKAVIAAMRAELEKA AYRIAPSILSADFARLGEEVANVIAAGADLIHFDVMDNHYVPNLTFGPMVCAALKPYASVPIDVHLMVEPVDDLIQSFAKAGASIITFHPEASRHIDRSLSLIRDMGCQAGLVLNPATPVYVLENVLDRLDMVLLMSVNPGFGGQSFIPHTLEKIRQVRAMLDRYEGKSGRRIAIEVDGGIKTDNIAAVARAGADTFVAGSAIFGKPDYKAVIAAMRAELEKAA 5umf-a1-m2-cB_5umf-a1-m2-cC Crystal Structure of a Ribulose-phosphate 3-epimerase from Neisseria gonorrhoeae with bound phosphate B4RLV9 B4RLV9 1.4 X-RAY DIFFRACTION 79 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 223 224 5umf-a1-m1-cA_5umf-a1-m2-cA 5umf-a1-m1-cB_5umf-a1-m1-cC AYRIAPSILSADFARLGEEVANVIAAGADLIHFDVMDNHYVPNLTFGPMVCAALKPYASVPIDVHLMVEPVDDLIQSFAKAGASIITFHPEASRHIDRSLSLIRDMGCQAGLVLNPATPVYVLENVLDRLDMVLLMSVNPGFGGQSFIPHTLEKIRQVRAMLDRYEGKSGRRIAIEVDGGIKTDNIAAVARAGADTFVAGSAIFGKPDYKAVIAAMRAELEKA AYRIAPSILSADFARLGEEVANVIAAGADLIHFDVMDNHYVPNLTFGPMVCAALKPYASVPIDVHLMVEPVDDLIQSFAKAGASIITFHPEASRHIDRSLSLIRDMGCQAGLVLNPATPVYVLENVLDRLDMVLLMSVNPGFGGQSFIPHTLEKIRQVRAMLDRYEGKSGRRIAIEVDGGIKTDNIAAVARAGADTFVAGSAIFGKPDYKAVIAAMRAELEKAA 5umg-a1-m1-cA_5umg-a1-m1-cB Crystal structure of dihydropteroate synthase from Klebsiella pneumoniae subsp. A6TEJ6 A6TEJ6 2.601 X-RAY DIFFRACTION 101 0.984 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 248 248 KLVAQGSTLDLSHPHVGILNVSLIEAVKHANLINAGATIIDIGGEEVSVEEELARVIPVVEAIAQRFEVWISVDTSKAEVIRQSARAGAHIINDIRSLTEPGALQAAAETGLPVCLHQGQPPKYEDVFADVERFFNEHIVRCEQAGIAKEKLLLDPGFGFGKNLSHNYQLLARLGEFHHFGLPLLVGSRKSVGQLLNVGPSERLNGSLACAVIAAQGAQIIRVHDVKETVEALRVVEATLAAKGKRYE KLVAQGSTLDLSHPHVGILNVTHNSLIEAVKHANLINAGATIIDIGGEEVSVEEELARVIPVVEAIAQRFEVWISVDTSKAEVIRQSARAGAHIINDIRSLTEPGALQAAAETGLPVCLHQKYEDVFADVERFFNEHIVRCEQAGIAKEKLLLDPGFGFGKNLSHNYQLLARLGEFHHFGLPLLVGSRKSVGQLLNVGPSERLNGSLACAVIAAQGAQIIRVHDVKETVEALRVVEATLAAKGKKRYE 5umh-a1-m1-cA_5umh-a1-m1-cB Crystal Structure of Catechol 1,2-dioxygenase protein from Burkholderia multivorans A0A0H3KXJ8 A0A0H3KXJ8 1.35 X-RAY DIFFRACTION 201 0.997 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 307 309 VKVFDTKEVQDLLKAAANLNGDAGNARFRQIVHRLLSDLFKAIDDLDITPDEVWAGVNYLNKLGQDGEAALLAAGIGLEKYLDIRMDAADRAAGLDGGTPRTIEGPLYVAGAPVRDGVAKIDLDDDADAGPLVIRGTVTGTDGKPLAGALVECWHANSKGFYSHFDPTGAQTAFNLRGAVRTDANGKYEFRTLMPVGYGCPPQGATQQLLNGLGRHGNRPAHVHFFVSGDGHRKLTTQFNIEGDPLIWDDFAYATREELIPHVVDKTGGAALGMKSDAYKEIEFDIVLTPLLDGRDNQVVHRPRASA SVKVFDTKEVQDLLKAAANLNGDAGNARFRQIVHRLSDLFKAIDDLDITPDEVWAGVNYLNKLGQDGEAALLAAGIGLEKYLDIRMDAADRAAGLDGGTPRTIEGPLYVAGAPVRDGVAKIDLDDDADAGPLVIRGTVTGTDGKPLAGALVECWHANSKGFYSHFDPTGAQTAFNLRGAVRTDANGKYEFRTLMPVGYGCPPQGATQQLLNGLGRHGNRPAHVHFFVSGDGHRKLTTQFNIEGDPLIWDDFAYATREELIPHVVDKTGGAALGMKSDAYKEIEFDIVLTPLLDGRDNQVVHRPRASADA 5ump-a1-m1-cA_5ump-a1-m1-cB Crystal structure of TnmS3, an antibiotic binding protein from Streptomyces sp. CB03234 A0A125SA29 A0A125SA29 1.08 X-RAY DIFFRACTION 146 1.0 1703937 (Streptomyces sp. CB03234) 1703937 (Streptomyces sp. CB03234) 121 121 5ujp-a1-m1-cA_5ujp-a1-m1-cB 5umx-a1-m1-cA_5umx-a1-m1-cB 5umy-a1-m1-cA_5umy-a1-m1-cB 5w27-a1-m1-cA_5w27-a1-m1-cB 6bbx-a1-m1-cA_6bbx-a1-m1-cB HMAISHVQLFSVPVSDQEKAKDFYVETVGFDLLADQPGVHGRWLQVAPKGADTSLVLVDWFPTMPPGSLRGLLLRTDDVDADCARLQERGVAVDGPKNTPWGRQAMFSDPDGNVIGLNQPS HMAISHVQLFSVPVSDQEKAKDFYVETVGFDLLADQPGVHGRWLQVAPKGADTSLVLVDWFPTMPPGSLRGLLLRTDDVDADCARLQERGVAVDGPKNTPWGRQAMFSDPDGNVIGLNQPS 5umw-a1-m1-cA_5umw-a1-m1-cF Crystal structure of TnmS2, an antibiotic binding protein from Streptomyces sp. CB03234 A0A125SA26 A0A125SA26 2.27 X-RAY DIFFRACTION 110 1.0 1703937 (Streptomyces sp. CB03234) 1703937 (Streptomyces sp. CB03234) 131 131 5umw-a2-m1-cE_5umw-a2-m1-cB 5umw-a3-m1-cC_5umw-a3-m1-cD SARLSHVTVPVLDQDSAKEFYTEKLGFEVRNDTGGLRWLTVGPKDQPDVEVLRRVGAPEYDEETAEQLRDLVAKGVIGVGVLHVDDTRATYERYRAAGVIFIQEPVKRPYGTEAVFRDDSGNWFSLTDARG SARLSHVTVPVLDQDSAKEFYTEKLGFEVRNDTGGLRWLTVGPKDQPDVEVLRRVGAPEYDEETAEQLRDLVAKGVIGVGVLHVDDTRATYERYRAAGVIFIQEPVKRPYGTEAVFRDDSGNWFSLTDARG 5un0-a1-m1-c2_5un0-a1-m1-c3 Crystal Structure of Mycobacterium Tuberculosis Proteasome-assembly chaperone homologue Rv2125 O33260 O33260 3 X-RAY DIFFRACTION 82 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 236 236 5un0-a1-m1-c1_5un0-a1-m1-c2 5un0-a1-m1-c1_5un0-a1-m1-c3 MVVVAAFEGWNDAGDAAGDAVAHLAASWQALPIVEIDDEAYYDYQVNRPVIRQVDGVTRELQWPAMRISHCRPPGSDRDVVLMCGVEPNMRWRTFCDELLAVIDKLNVDTVVILGALLADTPHTRPVPVSGAAYSAASARQFGLQETRYEGPTGIAGVFQSACVGAGIPAVTFWAAVPHYVSHPPNPKATIALLRRVEDVLDVEVPLADLPAQAEAWEREITETIAEDHELAEYVQ MVVVAAFEGWNDAGDAAGDAVAHLAASWQALPIVEIDDEAYYDYQVNRPVIRQVDGVTRELQWPAMRISHCRPPGSDRDVVLMCGVEPNMRWRTFCDELLAVIDKLNVDTVVILGALLADTPHTRPVPVSGAAYSAASARQFGLQETRYEGPTGIAGVFQSACVGAGIPAVTFWAAVPHYVSHPPNPKATIALLRRVEDVLDVEVPLADLPAQAEAWEREITETIAEDHELAEYVQ 5un5-a1-m1-cD_5un5-a1-m1-cC Frizzled-8 complex with designed surrogate Wnt agonist, crystal form 1 2.994 X-RAY DIFFRACTION 131 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 91 AREQLKEGMIKIEEQGKKLSETRTQEELQKYVAAVATFALQAGFLEIGKISGEVYLKLLDLKKAVRAKEKKGLDILNMVGEIKGTLER AREQLKEGMIKIEEQGKKLSETRTQEELQKYVAAVATFALQAGFLGEEIGKISGEVYLKLLDLKKAVRAKEKKGLDILNMVGEIKGTLERV 5un7-a2-m1-cA_5un7-a2-m2-cA Structure of the human POT1-TPP1 telomeric complex Q9NUX5 Q9NUX5 2.1 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 302 LSATILTDHQYLERTPLCAILKQKAPQQYRIRAKLRSYKPRRLFQSVKLHCPKCHLLQEVPHEGDLDIIFQDGATKTPDVKLQNTSLYDSKIWTTKNQKGRKVAVHFVKNNGILPLSNECLLLIEGGTLSEICKLSNKFNSVIPVRSGHEDLELLDLSAPFLIQGTIHHYGCKQCSSLRSIQNLNSLVDKTSWIPSSVAEALGIVPLQYVFVMTFTLDDGTGVLEAYLMDSDKFFQIPASEVLMDDDLQKSVDMIMDMFCPPGIKIDAYPWLECFIKSYNVTNGTDNQICYQIFDTTVAEDV LSATILTDHQYLERTPLCAILKQKAPQQYRIRAKLRSYKPRRLFQSVKLHCPKCHLLQEVPHEGDLDIIFQDGATKTPDVKLQNTSLYDSKIWTTKNQKGRKVAVHFVKNNGILPLSNECLLLIEGGTLSEICKLSNKFNSVIPVRSGHEDLELLDLSAPFLIQGTIHHYGCKQCSSLRSIQNLNSLVDKTSWIPSSVAEALGIVPLQYVFVMTFTLDDGTGVLEAYLMDSDKFFQIPASEVLMDDDLQKSVDMIMDMFCPPGIKIDAYPWLECFIKSYNVTNGTDNQICYQIFDTTVAEDV 5unc-a1-m1-cB_5unc-a1-m1-cD The crystal structure of PHOSPHOENOLPYRUVATE PHOSPHOMUTASE from Streptomyces platensis subsp. rosaceus A0A0A0V023 A0A0A0V023 1.71 X-RAY DIFFRACTION 39 1.0 58346 (Streptomyces platensis) 58346 (Streptomyces platensis) 280 280 5unc-a1-m1-cC_5unc-a1-m1-cA HGAAQLRALFDAPGTVRIAGAHNPLGARLAERAGFDGIWSSGLEISASQGLPDADILTTELLGVAGSASAVGVPVVADCDTGYGNANNVHVRRYEAAGIAAVTIEDKRFPKVNSFIPGRQELASVPEFCGRIEAAKDAQRDPDFVIARIEALIAGWDLDEALRRGEAYAAAGADAVLIHAKSGSPQPVLDFLQRWHLPQPVVVVPTTYHTISAAELGAAGAKVVYANHGLRAGIQAVSQTFETILKDGRTTAIEDHIAPLTTVFDLQGDEFQENEKRFVR HGAAQLRALFDAPGTVRIAGAHNPLGARLAERAGFDGIWSSGLEISASQGLPDADILTTELLGVAGSASAVGVPVVADCDTGYGNANNVHVRRYEAAGIAAVTIEDKRFPKVNSFIPGRQELASVPEFCGRIEAAKDAQRDPDFVIARIEALIAGWDLDEALRRGEAYAAAGADAVLIHAKSGSPQPVLDFLQRWHLPQPVVVVPTTYHTISAAELGAAGAKVVYANHGLRAGIQAVSQTFETILKDGRTTAIEDHIAPLTTVFDLQGDEFQENEKRFVR 5unc-a1-m1-cD_5unc-a1-m1-cA The crystal structure of PHOSPHOENOLPYRUVATE PHOSPHOMUTASE from Streptomyces platensis subsp. rosaceus A0A0A0V023 A0A0A0V023 1.71 X-RAY DIFFRACTION 68 1.0 58346 (Streptomyces platensis) 58346 (Streptomyces platensis) 280 282 5unc-a1-m1-cB_5unc-a1-m1-cC HGAAQLRALFDAPGTVRIAGAHNPLGARLAERAGFDGIWSSGLEISASQGLPDADILTTELLGVAGSASAVGVPVVADCDTGYGNANNVHVRRYEAAGIAAVTIEDKRFPKVNSFIPGRQELASVPEFCGRIEAAKDAQRDPDFVIARIEALIAGWDLDEALRRGEAYAAAGADAVLIHAKSGSPQPVLDFLQRWHLPQPVVVVPTTYHTISAAELGAAGAKVVYANHGLRAGIQAVSQTFETILKDGRTTAIEDHIAPLTTVFDLQGDEFQENEKRFVR HGAAQLRALFDAPGTVRIAGAHNPLGARLAERAGFDGIWSSGLEISASQGLPDADILTTELLGVAGSASAVGVPVVADCDTGYGNANNVHVRRYEAAGIAAVTIEDKRFPKVNSFIPGRQELASVPEFCGRIEAAKDAQRDPDFVIARIEALIAGWDLDEALRRGEAYAAAGADAVLIHAKSGSPQPVLDFLQRWHLPQPVVVVPTTYHTISAAELGAAGAKVVYANHGLRAGIQAVSQTFETILKDGRTTAIEDHIAPLTTVFDLQGDEFQENEKRFVRGG 5unc-a1-m1-cD_5unc-a1-m1-cC The crystal structure of PHOSPHOENOLPYRUVATE PHOSPHOMUTASE from Streptomyces platensis subsp. rosaceus A0A0A0V023 A0A0A0V023 1.71 X-RAY DIFFRACTION 232 1.0 58346 (Streptomyces platensis) 58346 (Streptomyces platensis) 280 281 5unc-a1-m1-cB_5unc-a1-m1-cA HGAAQLRALFDAPGTVRIAGAHNPLGARLAERAGFDGIWSSGLEISASQGLPDADILTTELLGVAGSASAVGVPVVADCDTGYGNANNVHVRRYEAAGIAAVTIEDKRFPKVNSFIPGRQELASVPEFCGRIEAAKDAQRDPDFVIARIEALIAGWDLDEALRRGEAYAAAGADAVLIHAKSGSPQPVLDFLQRWHLPQPVVVVPTTYHTISAAELGAAGAKVVYANHGLRAGIQAVSQTFETILKDGRTTAIEDHIAPLTTVFDLQGDEFQENEKRFVR HGAAQLRALFDAPGTVRIAGAHNPLGARLAERAGFDGIWSSGLEISASQGLPDADILTTELLGVAGSASAVGVPVVADCDTGYGNANNVHVRRYEAAGIAAVTIEDKRFPKVNSFIPGRQELASVPEFCGRIEAAKDAQRDPDFVIARIEALIAGWDLDEALRRGEAYAAAGADAVLIHAKSGSPQPVLDFLQRWHLPQPVVVVPTTYHTISAAELGAAGAKVVYANHGLRAGIQAVSQTFETILKDGRTTAIEDHIAPLTTVFDLQGDEFQENEKRFVRG 5unl-a1-m1-cA_5unl-a1-m1-cD Crystal structure of a D-beta-hydroxybutyrate dehydrogenase from Burkholderia multivorans 1.65 X-RAY DIFFRACTION 149 1.0 87883 (Burkholderia multivorans) 87883 (Burkholderia multivorans) 264 264 5unl-a1-m1-cB_5unl-a1-m1-cC TASDLLKPYDGLRVLVTGGASGIGLAIADAFAECGARVHVCDASQAAIAALADRPSRAAIGATLADVSDRAAVERVFADVAATLGGLDVLVNNAGIAGPTGGIDEIDPAQWEQTVAINLNAQFEFARRAVPLLRESKHGGAIIALSSVAGRLGYAYRTPYAATKWAVVGLVKSLAIELGPLGIRVNAIQPGIVRGPRIRRVIEARAQQLGIGYDEMEQRYLERISLRRMTEPAEIAATALFLCSPGGHGITGQAISVCGNVEVL TASDLLKPYDGLRVLVTGGASGIGLAIADAFAECGARVHVCDASQAAIAALADRPSRAAIGATLADVSDRAAVERVFADVAATLGGLDVLVNNAGIAGPTGGIDEIDPAQWEQTVAINLNAQFEFARRAVPLLRESKHGGAIIALSSVAGRLGYAYRTPYAATKWAVVGLVKSLAIELGPLGIRVNAIQPGIVRGPRIRRVIEARAQQLGIGYDEMEQRYLERISLRRMTEPAEIAATALFLCSPGGHGITGQAISVCGNVEVL 5unl-a1-m1-cC_5unl-a1-m1-cD Crystal structure of a D-beta-hydroxybutyrate dehydrogenase from Burkholderia multivorans 1.65 X-RAY DIFFRACTION 127 1.0 87883 (Burkholderia multivorans) 87883 (Burkholderia multivorans) 264 264 5unl-a1-m1-cB_5unl-a1-m1-cA TASDLLKPYDGLRVLVTGGASGIGLAIADAFAECGARVHVCDASQAAIAALADRPSRAAIGATLADVSDRAAVERVFADVAATLGGLDVLVNNAGIAGPTGGIDEIDPAQWEQTVAINLNAQFEFARRAVPLLRESKHGGAIIALSSVAGRLGYAYRTPYAATKWAVVGLVKSLAIELGPLGIRVNAIQPGIVRGPRIRRVIEARAQQLGIGYDEMEQRYLERISLRRMTEPAEIAATALFLCSPGGHGITGQAISVCGNVEVL TASDLLKPYDGLRVLVTGGASGIGLAIADAFAECGARVHVCDASQAAIAALADRPSRAAIGATLADVSDRAAVERVFADVAATLGGLDVLVNNAGIAGPTGGIDEIDPAQWEQTVAINLNAQFEFARRAVPLLRESKHGGAIIALSSVAGRLGYAYRTPYAATKWAVVGLVKSLAIELGPLGIRVNAIQPGIVRGPRIRRVIEARAQQLGIGYDEMEQRYLERISLRRMTEPAEIAATALFLCSPGGHGITGQAISVCGNVEVL 5unn-a1-m1-cB_5unn-a1-m1-cA Crystal structure of NADPH-dependent glyoxylate/hydroxypyruvate reductase SMc02828 (SmGhrA) from Sinorhizobium meliloti in apo form Q92T34 Q92T34 2 X-RAY DIFFRACTION 118 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 200 256 FVDRTLTTRMSEWVMMQCLLHLRQHRAYEALAKKHEWRDLSQPEAADVTVGIMGMGVLGQDAARKLAAMGFKVIGWSRSKRVIEGVETYDAAGLDAFLGRTDFLVGLLPLTPDTRGIFNAALFAKLSRNGPFGAPVFINAGRGGSQVEADILECLDSGVLGGASLDVFEREPLSPESRFWDMPNVYVTPHVAASSDVRAL VIVDLKFIPEEVEAALAGAFPVIDLADVVWKSFSGGAVRFVDRTLTTRMSEWVMMQCLLHLRQHRAYEALAKKHEWRDLSQPEAADVTVGIMGMGVLGQDAARKLAAMGFKVIGWSRSKRVIEGVETYDAAGLDAFLGRTDFLVGLLPLTPDTRGIFNAALFAKLSRNGPFGAPVFINAGRGGSQVEADILECLDSGVLGGASLDVFEREPLSPESRFWDMPNVYVTPHVAASSDVRALFVHVEHQIARFESEHVV 5unq-a1-m1-cA_5unq-a1-m1-cF Crystal Structure of Pt0534 Inactivated by 2-Oxo-3-pentynoate F4GMX9 F4GMX9 1.976 X-RAY DIFFRACTION 90 1.0 1007105 (Pusillimonas sp. T7-7) 1007105 (Pusillimonas sp. T7-7) 123 123 5unq-a1-m1-cC_5unq-a1-m1-cA 5unq-a1-m1-cC_5unq-a1-m1-cF 5unq-a2-m1-cB_5unq-a2-m1-cD 5unq-a2-m1-cB_5unq-a2-m1-cE 5unq-a2-m1-cD_5unq-a2-m1-cE PYVTISATEGLSAEKKKQLLERSSDAVVQSIGAPLASVRVMLHELPGGHYLNAGQFNTPGLMFVVDFIEGRTEEQRNALIAALSKTGTETTGIPESEVRVRLLDFPKANMGMAGGISAKAMGR PYVTISATEGLSAEKKKQLLERSSDAVVQSIGAPLASVRVMLHELPGGHYLNAGQFNTPGLMFVVDFIEGRTEEQRNALIAALSKTGTETTGIPESEVRVRLLDFPKANMGMAGGISAKAMGR 5upb-a1-m1-cD_5upb-a1-m1-cA Swit_4259, an Acetoacetate Decarboxylase-like Enzyme from Sphingomonas wittichii RW1 1.912 X-RAY DIFFRACTION 28 0.992 392499 (Rhizorhabdus wittichii RW1) 392499 (Rhizorhabdus wittichii RW1) 254 256 5upb-a1-m1-cC_5upb-a1-m1-cB AGATHFLTPTGQASLVDDALYGWGADMLTVYLRCDPARLQALLPAGLKVADGLCMAYVGAFQSTSEDQPAAMLRNPAGAVYNEAALSIACTHGRQGYFPAFVWVDKEWSLIRGWLNGYPKKIGAITLARPHPYNPVTGGLREGAVVGGICARHGFTLFRLGLTVTRAGDAGDLRSRPATFGHRHWPALHPTQTPVSELVEVRSDLRVGDIWAGEPFIELGSAPDEALECFADHEVLAGVTYSYGFRIGGATRLE ATHFLTPTGQASLVDDALYGWGADMLTVYLRCDPARLQALLPAGLKVADGLCMAYVGAFQSTSEDQPAAMLRNPAGAVYNEAALSIACTHGDRQGYFPAFVWVDKEWSLIRGWLNGYPKKIGAITLARPHPYNPVTGGLREGAVVGGICARHGFTLFRLGLTVTRAGDAGDLRSRPATFGHRHWPALHPTQTPVSELVEVNRSDLRVGDIWAGEPFIELGSAPDEALECFADHEVLAGVTYSYGFRIGGATRLESL 5upb-a1-m1-cD_5upb-a1-m1-cB Swit_4259, an Acetoacetate Decarboxylase-like Enzyme from Sphingomonas wittichii RW1 1.912 X-RAY DIFFRACTION 154 0.992 392499 (Rhizorhabdus wittichii RW1) 392499 (Rhizorhabdus wittichii RW1) 254 256 5upb-a1-m1-cC_5upb-a1-m1-cA AGATHFLTPTGQASLVDDALYGWGADMLTVYLRCDPARLQALLPAGLKVADGLCMAYVGAFQSTSEDQPAAMLRNPAGAVYNEAALSIACTHGRQGYFPAFVWVDKEWSLIRGWLNGYPKKIGAITLARPHPYNPVTGGLREGAVVGGICARHGFTLFRLGLTVTRAGDAGDLRSRPATFGHRHWPALHPTQTPVSELVEVRSDLRVGDIWAGEPFIELGSAPDEALECFADHEVLAGVTYSYGFRIGGATRLE ATHFLTPTGQASLVDDALYGWGADMLTVYLRCDPARLQALLPAGLKVADGLCMAYVGAFQSTSEDQPAAMLRNPAGAVYNEAALSIACTHGDRQGYFPAFVWVDKEWSLIRGWLNGYPKKIGAITLARPHPYNPVTGGLREGAVVGGICARHGFTLFRLGLTVTRAGDAGDLRSRPATFGHRHWPALHPTQTPVSELVEVNRSDLRVGDIWAGEPFIELGSAPDEALECFADHEVLAGVTYSYGFRIGGATRLESL 5upb-a1-m1-cD_5upb-a1-m1-cC Swit_4259, an Acetoacetate Decarboxylase-like Enzyme from Sphingomonas wittichii RW1 1.912 X-RAY DIFFRACTION 168 0.988 392499 (Rhizorhabdus wittichii RW1) 392499 (Rhizorhabdus wittichii RW1) 254 255 5upb-a1-m1-cA_5upb-a1-m1-cB AGATHFLTPTGQASLVDDALYGWGADMLTVYLRCDPARLQALLPAGLKVADGLCMAYVGAFQSTSEDQPAAMLRNPAGAVYNEAALSIACTHGRQGYFPAFVWVDKEWSLIRGWLNGYPKKIGAITLARPHPYNPVTGGLREGAVVGGICARHGFTLFRLGLTVTRAGDAGDLRSRPATFGHRHWPALHPTQTPVSELVEVRSDLRVGDIWAGEPFIELGSAPDEALECFADHEVLAGVTYSYGFRIGGATRLE AGATHFLTPASLVDDALYGWGADMLTVYLRCDPARLQALLPAGLKVADGLCMAYVGAFQSTSEDQPAAMLRNPAGAVYNEAALSIACTHGDRQGYFPAFVWVDKEWSLIRGWLNGYPKKIGAITLARPHPYNPVTGGLREGAVVGGICARHGFTLFRLGLTVTRAGDAGDLRSRPATFGHRHWPALHPTQTPVSELVEVNRSDLRVGDIWAGEPFIELGSAPDEALECFADHEVLAGVTYSYGFRIGGATRLESL 5uph-a1-m1-cA_5uph-a1-m1-cB Lipids bound lysosomal integral membrane protein 2 Q14108 Q14108 3 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 316 324 DSWEKPPLPVYTQFYFFNVTNPEEILRGETPRVEEVGPYTYRELRNSNKAYVFERDQSVGDPKIDLIRTLNIPVLTVIEWSQVHFLREIIEAMLKAYQQKLFVTHTVDELLWGYKDEILSLIHVFRPDISPYFGLFYEKNGTNDGDYVFLTKIVEWNGKTSPLITKDEVLYVFPSDFCRSVYITFSDYESVQGLPAFRYKVPAEILGSGVLNVSICKNGAPIIMSFPHFYQADERFVSAIEGMHPNQEDHETFVDINPLTGIILKAAKRFQINIYVKKLDDFVETGDIRTMVFPVMYLNESVHIDKETASRLKSMI DSWEKPPLPVYTQFYFFNVTNPEEILRGETPRVEEVGPYTYRELRNVSNKAYVFERDQSVGDPKIDLIRTLNIPVLTVIEWSQVHFLREIIEAMLKAYQQKLFVTHTVDELLWGYKDEILSLIHVFRPDISPYFGLFYEKNGTNDGDYVFLTGEDFTKIVEWNGKTSHPLITKDEVLYVFPSDFCRSVYITFSDYESVQGLPAFRYKVPAEICLGSGVLNVSICKNGAPIIMSFPHFYQADERFVSAIEGMHPNQEDHETFVDINPLTGIILKAAKRFQINIYVKKLDDFVETGDIRTMVFPVMYLNESVHIDKETASRLKSMI 5upr-a2-m1-cC_5upr-a2-m1-cB X-ray structure of a putative triosephosphate isomerase from Toxoplasma gondii ME49 A0A125YP67 A0A125YP67 2 X-RAY DIFFRACTION 151 0.988 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 254 256 5upr-a1-m2-cD_5upr-a1-m1-cA RRGFVGGNWKCNGTTAKTQELVDLNSAPVSFEQVDVVVAPPSLFISQVQDSLRQPRVQVAAQDSSTQQAYGAFTGELSPKIKEKNIPWVVLGHSERRAGFGGQPGESNQVVAKKVRAALNEGLSVILCIGETLEERESGQTQKVLSEQLEAVRQAVPEADAWKSIVIAYEPVWAIGTGKTATAALAQETHRDIRNWLAQAVSPKVAEATRVIYGGSVKGSNAKELFEGEDVDGFLVGGASLTGDFVSIIDAAKQ ALWAARRGFVGGNWKCNGTTAKTQELVDLNSAPVSFEQVDVVVAPPSLFISQVQDSLRPRVQVAAQDSSTQQAYGAFTGELSPKIKEKNIPWVVLGHSERRAGFGGQPGESNQVVAKKVRAALNEGLSVILCIGETLEERESGQTQKVLSEQLEAVRQAVPEADAWKSIVIAYEPVWAIGTGKTATAALAQETHRDIRNWLAQAVSPKVAEATRVIYGGSVKGSNAKELFEGEDVDGFLVGGASLTGDFVSIIDAA 5upt-a1-m1-cA_5upt-a1-m2-cA Acyl-CoA synthetase PtmA2 from Streptomyces platensis in complex with SBNP468 ligand A0A0A0V031 A0A0A0V031 1.92 X-RAY DIFFRACTION 144 1.0 684832 (Streptomyces platensis subsp. rosaceus) 684832 (Streptomyces platensis subsp. rosaceus) 504 504 5e7q-a1-m1-cA_5e7q-a1-m1-cB 5upq-a1-m1-cB_5upq-a1-m1-cA 5ups-a1-m1-cA_5ups-a1-m1-cB NALQHTTIGDVLREHRRSHPGRTALVDGPVRLTWPELDDRVNRLAGSLAASGIGRGDRIWLGQNSFRVYELIAAAGKLGAVCVGYWRWAPPEEFALRDFDPHLVVWQHQEIHETVARTREALGSDDTARWLRHDSAPQDPDGYEAFLAAGGLADPDLDIDPDSPVLVLYTAASGRQCGSLLSHTNLIAATAAAWLGDIDHTTAFLNSGPFHIGNHQFWGPTLLAGKNVIVRRVVAEEVRDLLVAEECTHAFLPPTVAEIVRLNRDTGHDLSRLRATVAPHLWEGATTDTSRFTRSGAAAGRGYGQTELSGFAVTAAYGGPAAGNAGRPGPGLTVRVLDTAGRECAVGEAGEICARGTVVHRGYWNRDEVNAHRFRSGWWHTTDLGRREPDGSLTFLGTTTRLKSAAENIFPAEVENCIEQHPAVREAAVIGVPNTRWAQDVKAVVVLEPDAGVSEQEIIDHCRPRIASYKKPKSVAFAAALPRTVSGARDYDALDKEYGGGGYP NALQHTTIGDVLREHRRSHPGRTALVDGPVRLTWPELDDRVNRLAGSLAASGIGRGDRIWLGQNSFRVYELIAAAGKLGAVCVGYWRWAPPEEFALRDFDPHLVVWQHQEIHETVARTREALGSDDTARWLRHDSAPQDPDGYEAFLAAGGLADPDLDIDPDSPVLVLYTAASGRQCGSLLSHTNLIAATAAAWLGDIDHTTAFLNSGPFHIGNHQFWGPTLLAGKNVIVRRVVAEEVRDLLVAEECTHAFLPPTVAEIVRLNRDTGHDLSRLRATVAPHLWEGATTDTSRFTRSGAAAGRGYGQTELSGFAVTAAYGGPAAGNAGRPGPGLTVRVLDTAGRECAVGEAGEICARGTVVHRGYWNRDEVNAHRFRSGWWHTTDLGRREPDGSLTFLGTTTRLKSAAENIFPAEVENCIEQHPAVREAAVIGVPNTRWAQDVKAVVVLEPDAGVSEQEIIDHCRPRIASYKKPKSVAFAAALPRTVSGARDYDALDKEYGGGGYP 5upx-a1-m2-cA_5upx-a1-m4-cA Crystal Structure of the Catalytic Domain of the Inosine Monophosphate Dehydrogenase from Listeria Monocytogenes in the presence of Xanthosine Monophosphate Q926Y9 Q926Y9 1.855 X-RAY DIFFRACTION 227 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 380 380 5upx-a1-m1-cA_5upx-a1-m3-cA 5upx-a1-m1-cA_5upx-a1-m4-cA 5upx-a1-m2-cA_5upx-a1-m3-cA 5upy-a1-m1-cA_5upy-a1-m3-cA 5upy-a1-m1-cA_5upy-a1-m4-cA 5upy-a1-m2-cA_5upy-a1-m3-cA 5upy-a1-m2-cA_5upy-a1-m4-cA SNAMWETKFAKEGLTFDDVLLVPAKSDVLPNDVDLSVEMAPSLKLNVPIWSAGMDTITEAKMAIAIARQGGIGVVHKNMSIEQQAEEIEKVKRSESGGIKDKVIEFPNSAKDKHGRLLAAAAVGITNDTFVRVEKLIEAGVDAIVIDTAHGHSAGVINKISEIRQTFKDVVIVAGNVATAEGARALFEVGVDIVKVGIGPGSICTTRVVAGVGVPQITAIYDCATVAREFGKTIIADGGIKYSGDIVKALAAGGNAVMLGSMLAGTDESPGETEIFQGRQFKTYRGMGSLAAMEHGDRYFQADAKKLVPEGIEGRVPYKGSVADIIFQLVGGIRSGMGYTGSPDLRHLREEAAFVRMTGAGLRESHPHDIQITKEAPNYS SNAMWETKFAKEGLTFDDVLLVPAKSDVLPNDVDLSVEMAPSLKLNVPIWSAGMDTITEAKMAIAIARQGGIGVVHKNMSIEQQAEEIEKVKRSESGGIKDKVIEFPNSAKDKHGRLLAAAAVGITNDTFVRVEKLIEAGVDAIVIDTAHGHSAGVINKISEIRQTFKDVVIVAGNVATAEGARALFEVGVDIVKVGIGPGSICTTRVVAGVGVPQITAIYDCATVAREFGKTIIADGGIKYSGDIVKALAAGGNAVMLGSMLAGTDESPGETEIFQGRQFKTYRGMGSLAAMEHGDRYFQADAKKLVPEGIEGRVPYKGSVADIIFQLVGGIRSGMGYTGSPDLRHLREEAAFVRMTGAGLRESHPHDIQITKEAPNYS 5uq4-a1-m1-cA_5uq4-a1-m1-cB Crystal structure of Heme-Degrading Protein Rv3592 from Mycobacterium tuberculosis - heme free with cleaved protein P9WKH3 P9WKH3 2.201 X-RAY DIFFRACTION 115 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 86 90 MPVVKINAIEVPAGAGPELEKRFAHRAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAASLLEFEVVLDVG NAMPVVKINAIEVPAGAGPELEKRFAHRAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAGASLLEFEVVLDVGG 5uqj-a2-m2-cA_5uqj-a2-m4-cA Structure of yeast Usb1 Q12208 Q12208 1.8 X-RAY DIFFRACTION 13 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 209 209 5uqj-a2-m1-cA_5uqj-a2-m3-cA RFWRSFTYFEWRPTPAIHRQLQKIICKYKETFMKVDFDPLFISHLGAPKPLHVSLTRSLLFETEEQRHVFIQEMRNGLRNNEITPFKLQICSYPKLYISERANTLYLGLPVSECPNKAQISPFKTIIAEALQKSGISNYQDLIVSRQNLHVSIAIASNPSKATLKRYQQLNETMGALLLLNNDFAYKLEFLVNSIYCDENRHSIRIPFN RFWRSFTYFEWRPTPAIHRQLQKIICKYKETFMKVDFDPLFISHLGAPKPLHVSLTRSLLFETEEQRHVFIQEMRNGLRNNEITPFKLQICSYPKLYISERANTLYLGLPVSECPNKAQISPFKTIIAEALQKSGISNYQDLIVSRQNLHVSIAIASNPSKATLKRYQQLNETMGALLLLNNDFAYKLEFLVNSIYCDENRHSIRIPFN 5uqj-a2-m3-cA_5uqj-a2-m4-cA Structure of yeast Usb1 Q12208 Q12208 1.8 X-RAY DIFFRACTION 32 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 209 209 5uqj-a2-m1-cA_5uqj-a2-m2-cA RFWRSFTYFEWRPTPAIHRQLQKIICKYKETFMKVDFDPLFISHLGAPKPLHVSLTRSLLFETEEQRHVFIQEMRNGLRNNEITPFKLQICSYPKLYISERANTLYLGLPVSECPNKAQISPFKTIIAEALQKSGISNYQDLIVSRQNLHVSIAIASNPSKATLKRYQQLNETMGALLLLNNDFAYKLEFLVNSIYCDENRHSIRIPFN RFWRSFTYFEWRPTPAIHRQLQKIICKYKETFMKVDFDPLFISHLGAPKPLHVSLTRSLLFETEEQRHVFIQEMRNGLRNNEITPFKLQICSYPKLYISERANTLYLGLPVSECPNKAQISPFKTIIAEALQKSGISNYQDLIVSRQNLHVSIAIASNPSKATLKRYQQLNETMGALLLLNNDFAYKLEFLVNSIYCDENRHSIRIPFN 5uqp-a1-m1-cA_5uqp-a1-m2-cB The crystal structure of cupin protein from Rhodococcus jostii RHA1 Q0RYE0 Q0RYE0 2.4 X-RAY DIFFRACTION 51 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 110 112 5uqp-a1-m2-cA_5uqp-a1-m1-cB SVNGRLPELDFENRPSGAKLGIFDLPKLEVSVAPFTLAHIRVPGGVTTAEDHHEVREIWLVQSGSGILTLDGVRSRVRAGDTLYYESYRRHQLHNDGDSPVEIVSIWWRP AHSVNGRLPELDFENRPSGAKLGIFDLPKLEVSVAPFTLAHIRVPGGVTTAEDHHEVREIWLVQSGSGILTLDGVRSRVRAGDTLYYESYRRHQLHNDGDSPVEIVSIWWRP 5uqp-a1-m1-cB_5uqp-a1-m2-cB The crystal structure of cupin protein from Rhodococcus jostii RHA1 Q0RYE0 Q0RYE0 2.4 X-RAY DIFFRACTION 37 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 112 112 5uqp-a1-m1-cA_5uqp-a1-m2-cA AHSVNGRLPELDFENRPSGAKLGIFDLPKLEVSVAPFTLAHIRVPGGVTTAEDHHEVREIWLVQSGSGILTLDGVRSRVRAGDTLYYESYRRHQLHNDGDSPVEIVSIWWRP AHSVNGRLPELDFENRPSGAKLGIFDLPKLEVSVAPFTLAHIRVPGGVTTAEDHHEVREIWLVQSGSGILTLDGVRSRVRAGDTLYYESYRRHQLHNDGDSPVEIVSIWWRP 5uqp-a1-m2-cA_5uqp-a1-m2-cB The crystal structure of cupin protein from Rhodococcus jostii RHA1 Q0RYE0 Q0RYE0 2.4 X-RAY DIFFRACTION 105 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 110 112 5uqp-a1-m1-cA_5uqp-a1-m1-cB SVNGRLPELDFENRPSGAKLGIFDLPKLEVSVAPFTLAHIRVPGGVTTAEDHHEVREIWLVQSGSGILTLDGVRSRVRAGDTLYYESYRRHQLHNDGDSPVEIVSIWWRP AHSVNGRLPELDFENRPSGAKLGIFDLPKLEVSVAPFTLAHIRVPGGVTTAEDHHEVREIWLVQSGSGILTLDGVRSRVRAGDTLYYESYRRHQLHNDGDSPVEIVSIWWRP 5uqy-a1-m2-cB_5uqy-a1-m3-cB Crystal structure of Marburg virus GP in complex with the human survivor antibody MR78 Q1PDC7 Q1PDC7 3.6 X-RAY DIFFRACTION 54 1.0 378809 (Ravn virus - Ravn, Kenya, 1987) 378809 (Ravn virus - Ravn, Kenya, 1987) 127 127 5uqy-a1-m1-cB_5uqy-a1-m2-cB 5uqy-a1-m1-cB_5uqy-a1-m3-cB 5uqy-a2-m1-cN_5uqy-a2-m1-cJ 6bp2-a1-m1-cB_6bp2-a1-m2-cB 6bp2-a1-m1-cB_6bp2-a1-m3-cB 6bp2-a1-m2-cB_6bp2-a1-m3-cB SPSFNTSTNISLTFSYFPDNDCDAELRIWSVQEDDGLSWIPFFGPGIEGLYTAGLIKNQNNLVCRLRRLANQTAKSLELLLRVTTEERTFSLINRHAIDFLLTRWGTCKVLGPDCCIGIEDLSKNIS SPSFNTSTNISLTFSYFPDNDCDAELRIWSVQEDDGLSWIPFFGPGIEGLYTAGLIKNQNNLVCRLRRLANQTAKSLELLLRVTTEERTFSLINRHAIDFLLTRWGTCKVLGPDCCIGIEDLSKNIS 5uqy-a2-m1-cN_5uqy-a2-m1-cF Crystal structure of Marburg virus GP in complex with the human survivor antibody MR78 Q1PDC7 Q1PDC7 3.6 X-RAY DIFFRACTION 30 0.989 378809 (Ravn virus - Ravn, Kenya, 1987) 378809 (Ravn virus - Ravn, Kenya, 1987) 92 94 5uqy-a2-m1-cF_5uqy-a2-m1-cJ SPSFNTLTFSDCDAELRIWSVGLSWIPFFGPGIEGLYTAGLIKNQNNLVCRLRRLANQTAKSLELLLRVTTEERTFSLINRHAIDFLLTRWG SPSFNTLTFSNDCDAELRIWSVQEGLSWIPFFGPGIEGLYTAGLIKNQNNLVCRLRRLANQTAKSLELLLRVTTEERTFSLINRHAIDFLLTRW 5uqz-a2-m1-cA_5uqz-a2-m2-cA Structural Analysis of the Glucan Binding Protein C of Streptococcus mutans Provides Evidence that it Mediates both Sucrose-Independent and -Dependent Adherence Q8DTF1 Q8DTF1 1.149 X-RAY DIFFRACTION 93 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 354 354 NTAVADYQKAKAEFPQKQEQYNKDFEKYQSDVKEYEAQKAAYEQYKKEVAQGLASGRVEKAQGLVFINEPEAKLSIEGVNQYLTKEARQKHATEDILQQYNTDNYTASDFTQANPYDPKEDTWFKMKVGDQISVTYDNIVNSKYNDKKISKVKINYTLNSSTNNEGSALVNLFHDPTKTIFIGAQTSNAGRNDKISVTMQIIFYDENGNEIDLSGNNAIMSLSSLNHWTTKYGDHVEKVNLGDNEFVKIPGSSVDLHGNEIYSAKDNQYKANGATFNGDGADGWDAVNADGTPRAATAYYGAGAMTYKGEPFTFTVGGNDQNLPTTIWFATNSAVAVPKDPGAKPTPPEKPELK NTAVADYQKAKAEFPQKQEQYNKDFEKYQSDVKEYEAQKAAYEQYKKEVAQGLASGRVEKAQGLVFINEPEAKLSIEGVNQYLTKEARQKHATEDILQQYNTDNYTASDFTQANPYDPKEDTWFKMKVGDQISVTYDNIVNSKYNDKKISKVKINYTLNSSTNNEGSALVNLFHDPTKTIFIGAQTSNAGRNDKISVTMQIIFYDENGNEIDLSGNNAIMSLSSLNHWTTKYGDHVEKVNLGDNEFVKIPGSSVDLHGNEIYSAKDNQYKANGATFNGDGADGWDAVNADGTPRAATAYYGAGAMTYKGEPFTFTVGGNDQNLPTTIWFATNSAVAVPKDPGAKPTPPEKPELK 5ur0-a1-m1-cB_5ur0-a1-m1-cD Crystallographic structure of glyceraldehyde-3-phosphate dehydrogenase from Naegleria gruberi D2W142 D2W142 1.94 X-RAY DIFFRACTION 90 1.0 5762 (Naegleria gruberi) 5762 (Naegleria gruberi) 331 331 5ur0-a1-m1-cC_5ur0-a1-m1-cA HMVKIGINGFGRIGRLVFRASLERTDVEVVAINDIMMTPEYMIYMIKYDTVHGKFHGKLEHTEKSIIVNGREIHVLERDPEQLPWGQHNVEYVVESTGIFTKLDSAAKHLKGGAKRVVISAPADTPTFVMGVNNHEYKPEMTVINNASTTNCLAPIAAVLHENFGIVEGLMTTVHAVTATQPTVDAPSRKDWRGGRAAGYNIIPSSTGAAKAVGLVIPSLNGKLTGMAFRVPTVDVSVVDLTCRLEKPATKKQIDEAMKAASESERFKGILKFTDEEVVSSDFVHDSASSTYDSKASILNEHFVKVVAWYDNEWGYSNRVLDLIKSTAKIQ HMVKIGINGFGRIGRLVFRASLERTDVEVVAINDIMMTPEYMIYMIKYDTVHGKFHGKLEHTEKSIIVNGREIHVLERDPEQLPWGQHNVEYVVESTGIFTKLDSAAKHLKGGAKRVVISAPADTPTFVMGVNNHEYKPEMTVINNASTTNCLAPIAAVLHENFGIVEGLMTTVHAVTATQPTVDAPSRKDWRGGRAAGYNIIPSSTGAAKAVGLVIPSLNGKLTGMAFRVPTVDVSVVDLTCRLEKPATKKQIDEAMKAASESERFKGILKFTDEEVVSSDFVHDSASSTYDSKASILNEHFVKVVAWYDNEWGYSNRVLDLIKSTAKIQ 5ur0-a1-m1-cC_5ur0-a1-m1-cD Crystallographic structure of glyceraldehyde-3-phosphate dehydrogenase from Naegleria gruberi D2W142 D2W142 1.94 X-RAY DIFFRACTION 132 1.0 5762 (Naegleria gruberi) 5762 (Naegleria gruberi) 331 331 5ur0-a1-m1-cB_5ur0-a1-m1-cA 6nlx-a1-m1-cB_6nlx-a1-m1-cA 6nlx-a2-m1-cD_6nlx-a2-m1-cC HMVKIGINGFGRIGRLVFRASLERTDVEVVAINDIMMTPEYMIYMIKYDTVHGKFHGKLEHTEKSIIVNGREIHVLERDPEQLPWGQHNVEYVVESTGIFTKLDSAAKHLKGGAKRVVISAPADTPTFVMGVNNHEYKPEMTVINNASTTNCLAPIAAVLHENFGIVEGLMTTVHAVTATQPTVDAPSRKDWRGGRAAGYNIIPSSTGAAKAVGLVIPSLNGKLTGMAFRVPTVDVSVVDLTCRLEKPATKKQIDEAMKAASESERFKGILKFTDEEVVSSDFVHDSASSTYDSKASILNEHFVKVVAWYDNEWGYSNRVLDLIKSTAKIQ HMVKIGINGFGRIGRLVFRASLERTDVEVVAINDIMMTPEYMIYMIKYDTVHGKFHGKLEHTEKSIIVNGREIHVLERDPEQLPWGQHNVEYVVESTGIFTKLDSAAKHLKGGAKRVVISAPADTPTFVMGVNNHEYKPEMTVINNASTTNCLAPIAAVLHENFGIVEGLMTTVHAVTATQPTVDAPSRKDWRGGRAAGYNIIPSSTGAAKAVGLVIPSLNGKLTGMAFRVPTVDVSVVDLTCRLEKPATKKQIDEAMKAASESERFKGILKFTDEEVVSSDFVHDSASSTYDSKASILNEHFVKVVAWYDNEWGYSNRVLDLIKSTAKIQ 5ur0-a1-m1-cD_5ur0-a1-m1-cA Crystallographic structure of glyceraldehyde-3-phosphate dehydrogenase from Naegleria gruberi D2W142 D2W142 1.94 X-RAY DIFFRACTION 29 1.0 5762 (Naegleria gruberi) 5762 (Naegleria gruberi) 331 332 5ur0-a1-m1-cB_5ur0-a1-m1-cC HMVKIGINGFGRIGRLVFRASLERTDVEVVAINDIMMTPEYMIYMIKYDTVHGKFHGKLEHTEKSIIVNGREIHVLERDPEQLPWGQHNVEYVVESTGIFTKLDSAAKHLKGGAKRVVISAPADTPTFVMGVNNHEYKPEMTVINNASTTNCLAPIAAVLHENFGIVEGLMTTVHAVTATQPTVDAPSRKDWRGGRAAGYNIIPSSTGAAKAVGLVIPSLNGKLTGMAFRVPTVDVSVVDLTCRLEKPATKKQIDEAMKAASESERFKGILKFTDEEVVSSDFVHDSASSTYDSKASILNEHFVKVVAWYDNEWGYSNRVLDLIKSTAKIQ SHMVKIGINGFGRIGRLVFRASLERTDVEVVAINDIMMTPEYMIYMIKYDTVHGKFHGKLEHTEKSIIVNGREIHVLERDPEQLPWGQHNVEYVVESTGIFTKLDSAAKHLKGGAKRVVISAPADTPTFVMGVNNHEYKPEMTVINNASTTNCLAPIAAVLHENFGIVEGLMTTVHAVTATQPTVDAPSRKDWRGGRAAGYNIIPSSTGAAKAVGLVIPSLNGKLTGMAFRVPTVDVSVVDLTCRLEKPATKKQIDEAMKAASESERFKGILKFTDEEVVSSDFVHDSASSTYDSKASILNEHFVKVVAWYDNEWGYSNRVLDLIKSTAKIQ 5ur2-a4-m1-cC_5ur2-a4-m2-cD Crystal structure of proline utilization A (PutA) from Bdellovibrio bacteriovorus inactivated by N-propargylglycine Q6MNK1 Q6MNK1 2.23 X-RAY DIFFRACTION 61 0.998 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 958 959 5ur2-a3-m1-cA_5ur2-a3-m2-cB 5ur2-a3-m2-cA_5ur2-a3-m1-cB 5ur2-a4-m2-cC_5ur2-a4-m1-cD MNDIQSQIVSRGEEILKRMESQSKASIFSKFWYGSIMEWSMKNEKFKTNMFRFVDVLPSINSGDEVARHLKEYFGLMAGAIKKNVMGMAKMFITGESPDEALPVLKKARKNKMTFTVDILGEATLSEKEAQDYSNKYMELVTWLAKDAEKWDEVPQIDRDHEGALPKVNVSVKMTALYSQIKDAAWDESKKILKDRLRPVFRLGMEKGVFVNLDMEQYSVKHLTLEVFTELINEPEFKNYKFFGIVIQAYLRDSFEDVKSLTEFAQKRGTPFWVRLVKGAYWDYETIEAEQRGWPVPVYTNKAESDANYELCAKYLLENIKFIRPAFASHNVRTLAACMLYAEKLNIPKEALEFQMLYGMAEPIKKTIVDMGYRMREYAPVGELIPGMAYLVRRLLENTSNESWLRGKFADNKSMAELLKDPAQGLTPTSPVIPKKPGKFYNEPLLDFAVKADREKMLKALAEAKASLPVNVNIVINNKELQSGKIFDRVNPSQSDQIVGKIQMATTEQAEQAMQAAQTAYKTWKNVPCEQRAALVDKLADIMTRDRFKLIATQVLEVGKPWAEADGDIGEAIDFCRYYARHMRELQKPLRVGGLPGELSHYIYKSRGVTAVIAPWNFPLAILAGMVTAAAVAGNTVVMKPAEQSTVVAWGLMKMIQEAGFPQGVINFLPGYGEEVGEYIVNHKYTTTIAFTGSKAVGLHIMNRAAVVQPGQQHVKRCIIEMGGKNAVIIDNDADLDEAVDGVIYSAFGFSGQKCSAASRVIVLDEVYDRFVDRLVETAKSIEIHPAENPKAYMGPVVDKEAYDRILGTIAEAEKNHKLLFKGSVPGGGFFAPPTIFGDVPGDAKLAQAEIFGPVVAVIRAKNLDQALDIANSTEYALTGGVFSRSPANINRVKEELEVGNLYVNRGITGAMVDRHPFGGFKMSGIGSKTGGPDYLKQYMEPACVTENTLRRGFAPAE DIQSQIVSRGEEILKRMESQSKASIFSKDFWYGSIMEWSMKNEKFKTNMFRFVDVLPSINSGDEVARHLKEYFAPGLMAGAIKKNVMGMAKMFITGESPDEALPVLKKARKNKMTFTVDILGEATLSEKEAQDYSNKYMELVTWLAKDAEKWDEVPQIDRDHEGALPKVNVSVKMTALYSQIKDAAWDESKKILKDRLRPVFRLGMEKGVFVNLDMEQYSVKHLTLEVFTELINEPEFKNYKFFGIVIQAYLRDSFEDVKSLTEFAQKRGTPFWVRLVKGAYWDYETIEAEQRGWPVPVYTNKAESDANYELCAKYLLENIKFIRPAFASHNVRTLAACMLYAEKLNIPKEALEFQMLYGMAEPIKKTIVDMGYRMREYAPVGELIPGMAYLVRRLLENTSNESWLRGKFADNKSMAELLKDPAQGLTPTSPVIPKKPGKFYNEPLLDFAVKADREKMLKALAEAKASLPVNVNIVINNKELQSGKIFDRVNPSQSDQIVGKIQMATTEQAEQAMQAAQTAYKTWKNVPCEQRAALVDKLADIMTRDRFKLIATQVLEVGKPWAEADGDIGEAIDFCRYYARHMRELQKPLRVGGLPGELSHYIYKSRGVTAVIAPWNFPLAILAGMVTAAAVAGNTVVMKPAEQSTVVAWGLMKMIQEAGFPQGVINFLPGYGEEVGEYIVNHKYTTTIAFTGSKAVGLHIMNRAAVVQPGQQHVKRCIIEMGGKNAVIIDNDADLDEAVDGVIYSAFGFSGQKCSAASRVIVLDEVYDRFVDRLVETAKSIEIHPAENPKAYMGPVVDKEAYDRILGTIAEAEKNHKLLFKGSVPGGGFFAPPTIFGDVPGDAKLAQAEIFGPVVAVIRAKNLDQALDIANSTEYALTGGVFSRSPANINRVKEELEVGNLYVNRGITGAMVDRHPFGGFKMSGIGSKTGGPDYLKQYMEPACVTENTLRRGFAPAE 5ur2-a4-m2-cC_5ur2-a4-m2-cD Crystal structure of proline utilization A (PutA) from Bdellovibrio bacteriovorus inactivated by N-propargylglycine Q6MNK1 Q6MNK1 2.23 X-RAY DIFFRACTION 240 0.998 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 958 959 5ur2-a1-m1-cA_5ur2-a1-m1-cB 5ur2-a2-m1-cC_5ur2-a2-m1-cD 5ur2-a3-m1-cA_5ur2-a3-m1-cB 5ur2-a3-m2-cA_5ur2-a3-m2-cB 5ur2-a4-m1-cC_5ur2-a4-m1-cD MNDIQSQIVSRGEEILKRMESQSKASIFSKFWYGSIMEWSMKNEKFKTNMFRFVDVLPSINSGDEVARHLKEYFGLMAGAIKKNVMGMAKMFITGESPDEALPVLKKARKNKMTFTVDILGEATLSEKEAQDYSNKYMELVTWLAKDAEKWDEVPQIDRDHEGALPKVNVSVKMTALYSQIKDAAWDESKKILKDRLRPVFRLGMEKGVFVNLDMEQYSVKHLTLEVFTELINEPEFKNYKFFGIVIQAYLRDSFEDVKSLTEFAQKRGTPFWVRLVKGAYWDYETIEAEQRGWPVPVYTNKAESDANYELCAKYLLENIKFIRPAFASHNVRTLAACMLYAEKLNIPKEALEFQMLYGMAEPIKKTIVDMGYRMREYAPVGELIPGMAYLVRRLLENTSNESWLRGKFADNKSMAELLKDPAQGLTPTSPVIPKKPGKFYNEPLLDFAVKADREKMLKALAEAKASLPVNVNIVINNKELQSGKIFDRVNPSQSDQIVGKIQMATTEQAEQAMQAAQTAYKTWKNVPCEQRAALVDKLADIMTRDRFKLIATQVLEVGKPWAEADGDIGEAIDFCRYYARHMRELQKPLRVGGLPGELSHYIYKSRGVTAVIAPWNFPLAILAGMVTAAAVAGNTVVMKPAEQSTVVAWGLMKMIQEAGFPQGVINFLPGYGEEVGEYIVNHKYTTTIAFTGSKAVGLHIMNRAAVVQPGQQHVKRCIIEMGGKNAVIIDNDADLDEAVDGVIYSAFGFSGQKCSAASRVIVLDEVYDRFVDRLVETAKSIEIHPAENPKAYMGPVVDKEAYDRILGTIAEAEKNHKLLFKGSVPGGGFFAPPTIFGDVPGDAKLAQAEIFGPVVAVIRAKNLDQALDIANSTEYALTGGVFSRSPANINRVKEELEVGNLYVNRGITGAMVDRHPFGGFKMSGIGSKTGGPDYLKQYMEPACVTENTLRRGFAPAE DIQSQIVSRGEEILKRMESQSKASIFSKDFWYGSIMEWSMKNEKFKTNMFRFVDVLPSINSGDEVARHLKEYFAPGLMAGAIKKNVMGMAKMFITGESPDEALPVLKKARKNKMTFTVDILGEATLSEKEAQDYSNKYMELVTWLAKDAEKWDEVPQIDRDHEGALPKVNVSVKMTALYSQIKDAAWDESKKILKDRLRPVFRLGMEKGVFVNLDMEQYSVKHLTLEVFTELINEPEFKNYKFFGIVIQAYLRDSFEDVKSLTEFAQKRGTPFWVRLVKGAYWDYETIEAEQRGWPVPVYTNKAESDANYELCAKYLLENIKFIRPAFASHNVRTLAACMLYAEKLNIPKEALEFQMLYGMAEPIKKTIVDMGYRMREYAPVGELIPGMAYLVRRLLENTSNESWLRGKFADNKSMAELLKDPAQGLTPTSPVIPKKPGKFYNEPLLDFAVKADREKMLKALAEAKASLPVNVNIVINNKELQSGKIFDRVNPSQSDQIVGKIQMATTEQAEQAMQAAQTAYKTWKNVPCEQRAALVDKLADIMTRDRFKLIATQVLEVGKPWAEADGDIGEAIDFCRYYARHMRELQKPLRVGGLPGELSHYIYKSRGVTAVIAPWNFPLAILAGMVTAAAVAGNTVVMKPAEQSTVVAWGLMKMIQEAGFPQGVINFLPGYGEEVGEYIVNHKYTTTIAFTGSKAVGLHIMNRAAVVQPGQQHVKRCIIEMGGKNAVIIDNDADLDEAVDGVIYSAFGFSGQKCSAASRVIVLDEVYDRFVDRLVETAKSIEIHPAENPKAYMGPVVDKEAYDRILGTIAEAEKNHKLLFKGSVPGGGFFAPPTIFGDVPGDAKLAQAEIFGPVVAVIRAKNLDQALDIANSTEYALTGGVFSRSPANINRVKEELEVGNLYVNRGITGAMVDRHPFGGFKMSGIGSKTGGPDYLKQYMEPACVTENTLRRGFAPAE 5ur4-a1-m1-cA_5ur4-a1-m2-cA 1.5 A Crystal structure of PYR1 bound to Pyrabactin O49686 O49686 1.52 X-RAY DIFFRACTION 20 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 172 172 MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMRMFADTVVKLNLQKLATVAEAMARN MPSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMRMFADTVVKLNLQKLATVAEAMARN 5ur6-a1-m1-cA_5ur6-a1-m2-cA PYR1 bound to the rationally designed agonist cyanabactin O49686 O49686 1.631 X-RAY DIFFRACTION 24 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 173 173 5ur5-a1-m1-cA_5ur5-a1-m2-cA PSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMDTRMFADTVVKLNLQKLATVAEAMARN PSELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMDTRMFADTVVKLNLQKLATVAEAMARN 5ury-a1-m1-cA_5ury-a1-m1-cB Crystal structure of Frizzled 5 CRD in complex with PAM Q13467 Q13467 2.098 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 121 5urz-a1-m1-cA_5urz-a1-m1-cB VCQEITVPMCRGIGYNLTHMPNQFNHDTQDEAGLEVHQFWPLVEIQCSPDLRFFLCSMYTPICLPDYHKPLPPCRSVCERAKAGCSPLMRQYGFAWPERMSCDRLPVLGRDAEVLCMDY PVCQEITVPMCRGIGYNLTHMPNQFNHDTQDEAGLEVHQFWPLVEIQCSPDLRFFLCSMYTPICLPDYHKPLPPCRSVCERAKAGCSPLMRQYGFAWPERMSCDRLPVLGRDAEVLCMDYE 5us5-a1-m1-cA_5us5-a1-m1-cB Solution structure of the IreB homodimer Q836B3 Q836B3 NOT SOLUTION NMR 75 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 89 89 MGFTDETVRFDFDDNRKKAISETLETVYRALEEKGYNPINQIVGYLLSGDPAYIPRYQDARNLIRRHERDEIMEELTKYYLANHGIDIK MGFTDETVRFDFDDNRKKAISETLETVYRALEEKGYNPINQIVGYLLSGDPAYIPRYQDARNLIRRHERDEIMEELTKYYLANHGIDIK 5usr-a2-m1-cF_5usr-a2-m1-cD Crystal structure of human NFS1-ISD11 in complex with E. coli acyl-carrier protein at 3.09 angstroms Q9HD34 Q9HD34 3.09 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 80 5usr-a1-m1-cB_5usr-a1-m1-cH SSRAQVLALYRAMLRESKRFSAYNYRTYAVRRIRDAFRENKNVKDPVEIQTLVNKAKRDLGVIRRQVHIGQLYST SSRAQVLALYRAMLRESKRFSAYNYRTYAVRRIRDAFRENKNVKDPVEIQTLVNKAKRDLGVIRRQVHIGQLYSTDKLII 5usw-a1-m1-cB_5usw-a1-m1-cA The crystal structure of 7,8-dihydropteroate synthase from Vibrio fischeri ES114 Q5E7M1 Q5E7M1 1.643 X-RAY DIFFRACTION 104 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 258 267 AKLISKNKSLLLDRSHVGILNVTPDTHLDAALKQAEKVKAGVSFIDIGGESTRPGAPEVSLQEELDRVLPIIEAIHQRFDTWISIDTSKAVVEEAVKVGADLINDVRALQEPNALKVAAEANVPVCLHQGQPRTQTNPSYQDLFTDISSFLSERIDACQSVGIAKDKLILDPGFGFGKTLAHNYQLLAELERFHQFGLPLLAGSRKSVFKLLDVEPKALSGSLACATIAAKGAQIIRVHDFEQTDIVKVCQATLEQSP AKLISKNKSLLLDRSHVGILNVTPDSFSDGGQFTHLDAALKQAEKVKAGVSFIDIGGESTRPGAPEVSLQEELDRVLPIIEAIHQRFDTWISIDTSKAVVEEAVKVGADLINDVRALQEPNALKVAAEANVPVCLHQGQPRTQTNPSYQDLFTDISSFLSERIDACQSVGIAKDKLILDPGFGFGKTLAHNYQLLAELERFHQFGLPLLAGSRKSVFKLLDVEPKALSGSLACATIAAKGAQIIRVHDFEQTDIVKVCQATLEQSPH 5usx-a1-m1-cB_5usx-a1-m1-cA Crystal structure of thioredoxin-disulfide reductase from Vibrio vulnificus CMCP6 in complex with NADP and FAD Q7MLH2 Q7MLH2 2.603 X-RAY DIFFRACTION 131 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 314 316 5utx-a1-m1-cB_5utx-a1-m1-cA 5vt3-a1-m1-cA_5vt3-a1-m1-cB MKHSKLLILGSGPAGYTAAVYAARANLNPVLITGMQQGGQLTTTTEVENWPGDPEGLTGPGLMDRMKEHAERFETEIIFDHINEVDFSTRPFVLKGDAASYSCDALIISTGASAKYLGLESEEAFKGRGVSACATCDGFFYRNQKVAVVGGGNTAVEEALYLSNIAAEVHLIHRRDSFRAEKILINRLMDKVQNGNIVLHTDRVLDEVLGDEMGVTGVRLKDVKTGGTEELDVMGAFIAIGHSPNTQIFQGQLDMKDGYILVKSGLEGNATQTSVEGIFAAGDVMDHNYRQAITSAGTGCMAALDAERYLDSLN SDMKHSKLLILGSGPAGYTAAVYAARANLNPVLITGMQQGGQLTTTTEVENWPGDPEGLTGPGLMDRMKEHAERFETEIIFDHINEVDFSTRPFVLKGDAASYSCDALIISTGASAKYLGLESEEAFKGRGVSACATCDGFFYRNQKVAVVGGGNTAVEEALYLSNIAAEVHLIHRRDSFRAEKILINRLMDKVQNGNIVLHTDRVLDEVLGDEMGVTGVRLKDVKTGGTEELDVMGAFIAIGHSPNTQIFQGQLDMKDGYILVKSGLEGNATQTSVEGIFAAGDVMDHNYRQAITSAGTGCMAALDAERYLDSLN 5uth-a1-m1-cA_5uth-a1-m2-cA Crystal structure of thioredoxin reductase from Mycobacterium smegmatis in complex with FAD A0R7I9 A0R7I9 1.95 X-RAY DIFFRACTION 131 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 306 306 QTVHDVIIIGSGPAGYTAAIYAARAQLKPLVFEGTQFGGALMTTTEVENYPGFREGITGPELMDQMREQALRFGADLRMEDVDAVQLEGPVKTVVVGDETHQARAVILAMGAAARHLGVPGEEALTGMGVSTCATCDGFFFRDQDIVVVGGGDSAMEEATFLTRFARSVTLIHRRDEFRASKIMLERARANEKITFLTNTEITQIEGDPKVTGVRLRDTVTGEESKLDVTGVFVAIGHDPRSELVRGQVELDDEGYVKVQGRTTYTSLDGVFAAGDLVDHTYRQAITAAGSGCAASIDAERWLAEQ QTVHDVIIIGSGPAGYTAAIYAARAQLKPLVFEGTQFGGALMTTTEVENYPGFREGITGPELMDQMREQALRFGADLRMEDVDAVQLEGPVKTVVVGDETHQARAVILAMGAAARHLGVPGEEALTGMGVSTCATCDGFFFRDQDIVVVGGGDSAMEEATFLTRFARSVTLIHRRDEFRASKIMLERARANEKITFLTNTEITQIEGDPKVTGVRLRDTVTGEESKLDVTGVFVAIGHDPRSELVRGQVELDDEGYVKVQGRTTYTSLDGVFAAGDLVDHTYRQAITAAGSGCAASIDAERWLAEQ 5utk-a1-m1-cB_5utk-a1-m1-cA Crystal structure of the membrane proximal three fibronectin type III (FNIII) domains of Tie2 (Tie2[FNIIIa-c]) Q02763 Q02763 2.5 X-RAY DIFFRACTION 16 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 280 289 KVLPKPLNAPNVIDTGHNFAVINISSEPYFGDGPIKSKKLLYKPVNHYEAWQHIQVTNEIVTLNYLEPRTEYELCVQLVRGEGHPGPVRRFTTASIGLPPPRGLNLLPKSQTTLNLTWQPIFPSSEDDFYVEVERRSNIKVPGNLTSVLLNNLHPREQYVRARVNTKAQGEWSEDLTAWTLSDILPPQPENIKISNITHSSAISWTILDGYSISSITIRYKVQGKNEDQHVDVKIKNATITQYQLKGLEPETAYQVDIFAENNIGSSNPAFSHELVTLPE KVLPKPLNAPNVIDTGHNFAVINISSEPYFGDGPIKSKKLLYKPVNHYEAWQHIQVTNEIVTLNYLEPRTEYELCVQLVRRGGEGHPGPVRRFTTASIGLPPPRGLNLLPKSQTTLNLTWQPIFPSSEDDFYVEVERRSVQKSDQQNIKVPGNLTSVLLNNLHPREQYVRARVNTKAQGEWSEDLTAWTLSDILPPQPENIKISNITHSSAISWTILDGYSISSITIRYKVQGNEDQHVDVKIKNATITQYQLKGLEPETAYQVDIFAENNIGSSNPAFSHELVTLPES 5uu6-a2-m1-cD_5uu6-a2-m1-cC The crystal structure of nitroreductase A from Vibrio parahaemolyticus RIMD 2210633 Q87FS7 Q87FS7 1.95 X-RAY DIFFRACTION 330 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 228 229 5uu6-a1-m1-cA_5uu6-a1-m1-cB ANSTIQTILGHRSIRKFTSQPIDKEQLETILQAGLAASSSSLQVVSIVRVTDIEKRSQLAKFAGNQAYVESAAEFLVFCIDYQRHASINPDVQADFTELLIGAVDSGIAQNCLLAAESGLGGVYIGGLRNNAQQVDELLGLPQNTAILFGCLGHPDQNPEVKPRLPAHVVVHENQYQDLNLDDIQAYDQTQNYYANQSTWSQEVTSKLAGESRPHILPYLNGKGLAKK ANSTIQTILGHRSIRKFTSQPIDKEQLETILQAGLAASSSSLQVVSIVRVTDIEKRSQLAKFAGNQAYVESAAEFLVFCIDYQRHASINPDVQADFTELLIGAVDSGIAQNCLLAAESGLGGVYIGGLRNNAQQVDELLGLPQNTAILFGCLGHPDQNPEVKPRLPAHVVVHENQYQDLNLDDIQAYDQTQNYYANRQSTWSQEVTSKLAGESRPHILPYLNGKGLAKK 5uuo-a1-m1-cB_5uuo-a1-m1-cA Crystal structure of SARO_2595 from Novosphingobium aromaticivorans Q2G542 Q2G542 1.25 X-RAY DIFFRACTION 222 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 284 285 5uun-a1-m1-cB_5uun-a1-m1-cA YVPPKVWKWDKANGGAFASVNRPVAGPTSERELPVGKHPFQVYSLGTPNGQKATIMLEELLQLGFSEAEYDAWLIKIFEGDQFTSGFVDINPNSKIPAMVDRSGPEPFRVFESGAILMHLAEKFGVFLPTSGPARAECLSWLFWQVGSAPFIGGGFGHFYNYAPIKIEYAIDRYAMETKRLFDVANRRLAESRYLAGDEYTIADLATYTWFGNIYRGEAYGEAATFLSMHEYEHVGRWVGEIDARPGVLRGRLVNSSKGLAERHDASDFDALPPESLQAIVKGF EYVPPKVWKWDKANGGAFASVNRPVAGPTSERELPVGKHPFQVYSLGTPNGQKATIMLEELLQLGFSEAEYDAWLIKIFEGDQFTSGFVDINPNSKIPAMVDRSGPEPFRVFESGAILMHLAEKFGVFLPTSGPARAECLSWLFWQVGSAPFIGGGFGHFYNYAPIKIEYAIDRYAMETKRLFDVANRRLAESRYLAGDEYTIADLATYTWFGNIYRGEAYGEAATFLSMHEYEHVGRWVGEIDARPGVLRGRLVNSSKGLAERHDASDFDALPPESLQAIVKGF 5uv6-a1-m1-cA_5uv6-a1-m1-cB Crystal structure of human Opioid Binding Protein/Cell Adhesion Molecule Like (OPCML) Q14982 Q14982 2.65002 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 274 MDNVTVRQGESATLRCTIDDRVTRVAWLNRSTILYAGNDKWSIDPRVIILVNTPTQYSIMIQNVDVYDEGPYTCSVQTDNHPKTSRVHLIVQVPPQIMNISSDITVNEGSSVTLLCLAIGRPEPTVTWRHLSGFVSEDEYLEISDIKRDQSGEYECSALNDVAAPDVRKVKITVNYPPYISKAKNTGVSVGQKGILSCEASAVPMAEFQWFKEETRLATGLDGMRIENKGRMSTLTFFNVSEKDYGNYTCVATNKLGNTNASITLYGPGAALV MDNVTVRQGESATLRCTIDDRVTRVAWLNRSTILYAGNDKWSIDPRVIILVNTPTQYSIMIQNVDVYDEGPYTCSVQTDNHPKTSRVHLIVQVPPQIMNISSDITVNEGSSVTLLCLAIGRPEPTVTWRHLSVGFVSEDEYLEISDIKRDQSGEYECSALNDVAAPDVRKVKITVNYPPYISKAKNTGVSVGQKGILSCEASAVPMAEFQWFKEETRLATGLDGMRIENKGRMSTLTFFNVSEKDYGNYTCVATNKLGNTNASITLYGPGAALV 5uve-a3-m1-cC_5uve-a3-m1-cF Crystal Structure of the ABC Transporter Substrate-binding protein BAB1_0226 from Brucella abortus Q2YP76 Q2YP76 2.5 X-RAY DIFFRACTION 77 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 279 280 5uve-a1-m1-cA_5uve-a1-m1-cH 5uve-a2-m1-cB_5uve-a2-m1-cD 5uve-a4-m1-cE_5uve-a4-m1-cG NAVAVSSKIDTEGGVLGNIILTVLNANGIKTTDRIQLGATPVVRKAITAGEIDIYPEYTGNAAFFFNKADDPLWKDPAKAYETAKKLDYDANKIVWLTPSPANNTWGIAVRKDVANENKLASLSDFGKYIAGGGKVVLAASSEFVNSAAALPAFQTAYGFTLKPDQLITLSGGDTAATIAAAANQTNGANAAVYGTDGGIAPSGLVVLEDDKHVQPVYQPAPIIREEVLKKDPKIEELLKPVFEKLDLTTLQDLNGRVQLGGEPAKAVAEDFLKKNGFL SNAVAVSSKIDTEGGVLGNIILTVLNANGIKTTDRIQLGATPVVRKAITAGEIDIYPEYTGNAAFFFNKADDPLWKDPAKAYETAKKLDYDANKIVWLTPSPANNTWGIAVRKDVANENKLASLSDFGKYIAGGGKVVLAASSEFVNSAAALPAFQTAYGFTLKPDQLITLSGGDTAATIAAAANQTNGANAAVYGTDGGIAPSGLVVLEDDKHVQPVYQPAPIIREEVLKKDPKIEELLKPVFEKLDLTTLQDLNGRVQLGGEPAKAVAEDFLKKNGFL 5uvg-a2-m1-cA_5uvg-a2-m2-cA Crystal structure of the human neutral sphingomyelinase 2 (nSMase2) catalytic domain with insertion deleted and calcium bound Q9NY59 Q9NY59 1.849 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 348 348 GKSFCFATANVCLLPDSLARVNNLFNTQARAKEIGQRIRNGAARPQIKIYIDSPHPDEAFDHEVSAFFPANLDFLCLQEVFDKRAATKLKEQLHGYFEYILYDVGVYGCLNSGLLFASRYPIMDVAYHCYPNKCNDDALASKGALFLKVQVGSTPQDQRIVGYIACTHLHAPQEDSAIRCGQLDLLQDWLADFRKSTSSPEELVAFDVVCGDFNFDNCSSDDKLEQQHSLFTHYRDPCRLGPGEEKPWAIGTLLDTNDVCTPDNLQKVLESEEGRREYLAFPTSKSSGQKGRKELLKGNGRRIDYMLHAEEGLCPDWKAEVEEFSFITQLSGLTDHLPVAMRLMVSSG GKSFCFATANVCLLPDSLARVNNLFNTQARAKEIGQRIRNGAARPQIKIYIDSPHPDEAFDHEVSAFFPANLDFLCLQEVFDKRAATKLKEQLHGYFEYILYDVGVYGCLNSGLLFASRYPIMDVAYHCYPNKCNDDALASKGALFLKVQVGSTPQDQRIVGYIACTHLHAPQEDSAIRCGQLDLLQDWLADFRKSTSSPEELVAFDVVCGDFNFDNCSSDDKLEQQHSLFTHYRDPCRLGPGEEKPWAIGTLLDTNDVCTPDNLQKVLESEEGRREYLAFPTSKSSGQKGRKELLKGNGRRIDYMLHAEEGLCPDWKAEVEEFSFITQLSGLTDHLPVAMRLMVSSG 5uvm-a2-m1-cB_5uvm-a2-m2-cB HIT family hydrolase from Clostridium thermocellum Cth-393 A3DF72 A3DF72 2.3 X-RAY DIFFRACTION 133 1.0 637887 (Acetivibrio thermocellus DSM 1313) 637887 (Acetivibrio thermocellus DSM 1313) 114 114 5uvm-a1-m1-cA_5uvm-a1-m3-cA TLENCVFCKIIKRELPSTIYYEDERVIAIKDINPAAPVHVLIIPKEHIANVKEINESNAQILIDIHKAANKVAEDLGIAEKGYRLITNCGVAAGQTVFHLHYHLLGGVDGPKIL TLENCVFCKIIKRELPSTIYYEDERVIAIKDINPAAPVHVLIIPKEHIANVKEINESNAQILIDIHKAANKVAEDLGIAEKGYRLITNCGVAAGQTVFHLHYHLLGGVDGPKIL 5uvn-a1-m1-cE_5uvn-a1-m1-cF Structure of E. coli MCE protein PqiB, periplasmic domain P43671 P43671 3.96 ELECTRON MICROSCOPY 175 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 416 416 5uvn-a1-m1-cA_5uvn-a1-m1-cB 5uvn-a1-m1-cA_5uvn-a1-m1-cF 5uvn-a1-m1-cB_5uvn-a1-m1-cC 5uvn-a1-m1-cC_5uvn-a1-m1-cD 5uvn-a1-m1-cD_5uvn-a1-m1-cE GPEVTLITANAEGIEGGKTTIKSRSVDVGVVESATLADDLTHVEIKARLNSGMEKLLHKDTVFWVVKPQIGREGISGLGTLLSGVYIELQPGAKGSKMDKYDLLDSPPLAPPDAKGIRVILDSKKAGQLSPGDPVLFRGYRVGSVETSTFDTQKRNISYQLFINAPYDRLVTNNVRFWKDSGIAVDLTSAGMRVEMGSLTTLLSGGVSFDVPEGLDLGQPVAPKTAFVLYDDQKSIQDSLYTDHIDYLMFFKDSVRGLQPGAPVEFRGIRLGTVSKVPFFAPNMRQTFNDDYRIPVLIRIEPERLKDVVEHLGELLKRGLRGSLKTGNLVTGALYVDLDNGYQIIPTVSGGLAQIQQRLMEALDKINKLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX GPEVTLITANAEGIEGGKTTIKSRSVDVGVVESATLADDLTHVEIKARLNSGMEKLLHKDTVFWVVKPQIGREGISGLGTLLSGVYIELQPGAKGSKMDKYDLLDSPPLAPPDAKGIRVILDSKKAGQLSPGDPVLFRGYRVGSVETSTFDTQKRNISYQLFINAPYDRLVTNNVRFWKDSGIAVDLTSAGMRVEMGSLTTLLSGGVSFDVPEGLDLGQPVAPKTAFVLYDDQKSIQDSLYTDHIDYLMFFKDSVRGLQPGAPVEFRGIRLGTVSKVPFFAPNMRQTFNDDYRIPVLIRIEPERLKDVVEHLGELLKRGLRGSLKTGNLVTGALYVDLDNGYQIIPTVSGGLAQIQQRLMEALDKINKLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 5uvr-a2-m1-cA_5uvr-a2-m2-cA The core region of PilO from the type IV pilus system of Pseudomonas aeruginosa Q51353 Q51353 1.7 X-RAY DIFFRACTION 35 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 97 97 VPGLLEDITRTGLGSGLEFEEIKLLPEVAQQFYIELPIQISVVGGYHDLATFVSGVSSLPRIVTLHDFEIKPVAPGSTSKLRMSILATYRYNDKGLK VPGLLEDITRTGLGSGLEFEEIKLLPEVAQQFYIELPIQISVVGGYHDLATFVSGVSSLPRIVTLHDFEIKPVAPGSTSKLRMSILATYRYNDKGLK 5uwy-a1-m1-cA_5uwy-a1-m2-cA The crystal structure of thioredoxin reductase from Streptococcus pyogenes MGAS5005 2.72 X-RAY DIFFRACTION 116 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 298 298 SNAYDTLIIGSGPAGTAALYAARSNLSVAIIEQGAPGGQNNTFDIENYPGYDHISGPELAKYEPLEKFNVENIYGIVQKIENFGDYKCVLTEDASYEAKTVIIATGAKYRVLGVPGEEYYTSRGVSYCAVCDGAFFRDQDLLVVGGGDSAVEEAIYLTQFAKKVTVVHRRDQLRAQKILQDRAFANDKVDFIWDSVVKEIQGNDIKVSNVLIENVKTGQVTDHAFGGVFIYVGNPVTGVKDLEITDSEGWIITDDHRTSIPGIFAIGDVRQKDLRQITTAVGDGAIAGQGVYHYLESF SNAYDTLIIGSGPAGTAALYAARSNLSVAIIEQGAPGGQNNTFDIENYPGYDHISGPELAKYEPLEKFNVENIYGIVQKIENFGDYKCVLTEDASYEAKTVIIATGAKYRVLGVPGEEYYTSRGVSYCAVCDGAFFRDQDLLVVGGGDSAVEEAIYLTQFAKKVTVVHRRDQLRAQKILQDRAFANDKVDFIWDSVVKEIQGNDIKVSNVLIENVKTGQVTDHAFGGVFIYVGNPVTGVKDLEITDSEGWIITDDHRTSIPGIFAIGDVRQKDLRQITTAVGDGAIAGQGVYHYLESF 5uxa-a2-m1-cA_5uxa-a2-m2-cA Crystal structure of macrolide 2'-phosphotransferase MphB from Escherichia coli O32553 O32553 1.95 X-RAY DIFFRACTION 158 1.0 562 (Escherichia coli) 562 (Escherichia coli) 301 301 SKDIKQVIEIAKKHNLFLKEETIQFNESGLDFQAVFAQDNNGIDWVLRLPRREDVMPRTKVEKQALDLVNKYAISFQAPNWIIYTEELIAYKKLDGVPAGTIDHNIGNYIWEIDINNVPELFHKSLGRVLAELHSIPSNKAAALDLVVHTPEEARMSMKQRMDAVRAKFGVGENLWNRWQAWLNDDDMWPKKTGLIHGDVHAGHTMIDKDANVTGLIDWTEAKVTDVSHDFIFNYRAFGEEGLEALILAYKEIGGYYWPKMKEHIIELNAAYPVSIAEFALVSGIEEYEQMAKEALEVQGS SKDIKQVIEIAKKHNLFLKEETIQFNESGLDFQAVFAQDNNGIDWVLRLPRREDVMPRTKVEKQALDLVNKYAISFQAPNWIIYTEELIAYKKLDGVPAGTIDHNIGNYIWEIDINNVPELFHKSLGRVLAELHSIPSNKAAALDLVVHTPEEARMSMKQRMDAVRAKFGVGENLWNRWQAWLNDDDMWPKKTGLIHGDVHAGHTMIDKDANVTGLIDWTEAKVTDVSHDFIFNYRAFGEEGLEALILAYKEIGGYYWPKMKEHIIELNAAYPVSIAEFALVSGIEEYEQMAKEALEVQGS 5uyy-a2-m1-cD_5uyy-a2-m1-cC Crystal structure of prephenate dehydrogenase tyrA from Bacillus anthracis in complex with L-tyrosine Q81P63 Q81P63 2.6 X-RAY DIFFRACTION 411 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 365 373 5uyy-a1-m1-cB_5uyy-a1-m1-cA 6u60-a1-m1-cA_6u60-a1-m1-cB 7mqv-a1-m1-cB_7mqv-a1-m1-cA 7mqv-a2-m1-cD_7mqv-a2-m1-cC RKKVVLIGTGLIGGSLALAIKKDHDVTITGYDIFQEQVERAKELHVVDEIAVDLQHACEEAHLIVFASPVEETKKLLHKLASFHLREDVIVTDVGSTKGSIMNEAEALFSKEISFIGGHPMAGSHKTGVESAKAHLFENAFYILTPMHHVPNEHVEELKDWLKGTGSHFLVLNTEEHDYVTGIVSHFPHLIAAGLVKQVEKHAGDNPLIHQLAAGGFKDITRIASSSPKMWSDIVKQNREHLMVLLKEWISEMEDLYDTVSSGDAGEIQNYFADAKEYRDSLPVRKRGAIPAYHDLYVDVLDKVGALAHVTSILAREEISITNLQILEAREGLLGVLRISFQREEDRMKAKLALGEEKYQTYETI ESLEMRQMRKKVVLIGTGLIGGSLALAIKKDHDVTITGYDIFQEQVERAKELHVVDEIAVDLQHACEEAHLIVFASPVEETKKLLHKLASFHLREDVIVTDVGSTKGSIMNEAEALFSKEISFIGGHPMAGSHKTGVESAKAHLFENAFYILTPMHHVPNEHVEELKDWLKGTGSHFLVLNTEEHDYVTGIVSHFPHLIAAGLVKQVEKHAGDNPLIHQLAAGGFKDITRIASSSPKMWSDIVKQNREHLMVLLKEWISEMEDLYDTVSSGDAGEIQNYFADAKEYRDSLPVRKRGAIPAYHDLYVDVLDKVGALAHVTSILAREEISITNLQILEAREGLLGVLRISFQREEDRMKAKLALGEEKYQTYETI 5uzg-a1-m1-cB_5uzg-a1-m1-cA Crystal structure of Glorund qRRM1 domain Q9VGH5 Q9VGH5 1.541 X-RAY DIFFRACTION 16 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 84 90 PKFVRLRGLPWSATHKEILDFLENVNVTNGSAGIHLVTSNTGEAYVEVASQEDVEEARKLNKASMGHRYIEVFTATPKEAKEAM PKFVRLRGLPWSATHKEILDFLENVNVTNGSAGIHLVTSRVDGKNTGEAYVEVASQEDVEEARKLNKASMGHRYIEVFTATPKEAKEAMR 5uzx-a1-m1-cA_5uzx-a1-m1-cB Crystal Structure of Putative short-chain dehydrogenase/reductase from Burkholderia multivorans with bound NADP A0A0H3KNM5 A0A0H3KNM5 1.5 X-RAY DIFFRACTION 31 1.0 395019 (Burkholderia multivorans ATCC 17616) 395019 (Burkholderia multivorans ATCC 17616) 231 231 PRPTILLVGASRGLGHAMAAEFLKRGWDVVGTVRADRGRTPLHALAEAYPDRLRIETLDITQPEQIRALAARLSGRVFDILFVNAGTTNPDPTQTIGEVSTDDFVDLMITNALSPMRVVETLAGLVPRDGLIGIMSSGQGSIADNESGQRELYRGSKAALNQFMRSFAARHAQTPLAMVLIAPGWVRTELGGPDARLSIDESVPGVVDVLLAKRGRAGLEYLDYRGRTVRW PRPTILLVGASRGLGHAMAAEFLKRGWDVVGTVRADRGRTPLHALAEAYPDRLRIETLDITQPEQIRALAARLSGRVFDILFVNAGTTNPDPTQTIGEVSTDDFVDLMITNALSPMRVVETLAGLVPRDGLIGIMSSGQGSIADNESGQRELYRGSKAALNQFMRSFAARHAQTPLAMVLIAPGWVRTELGGPDARLSIDESVPGVVDVLLAKRGRAGLEYLDYRGRTVRW 5v00-a1-m1-cA_5v00-a1-m2-cB Structure of HutD from Pseudomonas fluorescens SBW25 (Formate condition) C3K802 C3K802 1.8 X-RAY DIFFRACTION 39 1.0 216595 (Pseudomonas fluorescens SBW25) 216595 (Pseudomonas fluorescens SBW25) 184 185 5fcc-a1-m1-cA_5fcc-a1-m1-cB AISVWRAVDYVRMPWKNGGGSTEEITRDAGTGLEGFGWRLSIADIGESGGFSSFAGYQRVITVIQGAGMVLTVDGEEQRGLLPLQPFAFRGDSQVSCRLITGPIRDFNLIYSPERYHARLQWVDGVQRFFSTAQTVLVFSVADEVKVLGEKLGHHDCLQVDGNAGLLDISVTGRCCLIELTQRG SAISVWRAVDYVRMPWKNGGGSTEEITRDAGTGLEGFGWRLSIADIGESGGFSSFAGYQRVITVIQGAGMVLTVDGEEQRGLLPLQPFAFRGDSQVSCRLITGPIRDFNLIYSPERYHARLQWVDGVQRFFSTAQTVLVFSVADEVKVLGEKLGHHDCLQVDGNAGLLDISVTGRCCLIELTQRG 5v01-a1-m1-cB_5v01-a1-m1-cA Crystal structure of the competence damage-inducible protein A (ComA) from Klebsiella pneumoniae subsp. pneumoniae MGH 78578 A6T8V7 A6T8V7 1.3 X-RAY DIFFRACTION 99 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 161 168 5kvk-a1-m1-cA_5kvk-a1-m2-cA NNTHELTAEVARALIARGWRLTTAESCTGGNLAAALCAQADTAAFYDTGVVTFSDEAKRNVLQVRAETLAVHSAVSEACVQEMSSGILALAGADIAIAVSGYAGPEGGEDGTPAGTVWFAWNFRGQTETKRMCFAGDCETVVAKAVRYALAALSEKLAHWQ DEIDSDANNTHELTAEVARALIARGWRLTTAESCTGGNLAAALCAQADTAAFYDTGVVTFSDEAKRNVLQVRAETLAVHSAVSEACVQEMSSGILALAGADIAIAVSGYAGPEGGEDGTPAGTVWFAWNFRGQTETKRMCFAGDCETVVAKAVRYALAALSEKLAHWQ 5v0r-a1-m1-cA_5v0r-a1-m2-cA Crystal structure of ubiquitin-conjugating enzyme from Naegleria fowleri with modified Cys99 A0A1W2VMZ9 A0A1W2VMZ9 1.55 X-RAY DIFFRACTION 95 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 145 145 KMSSSSKLRLLSDLQQLQKDPPEGITASPESENDLYVWNATITGPMDSIWEGGIFFLRLTFPEDYPTKPPKVKFTSKIFHPNVYKDGSILDIVQDKWSPIYTVDSILTSILSLLEDPNPDSPANPEAAKLFVNDPKEYKKRVRKC KMSSSSKLRLLSDLQQLQKDPPEGITASPESENDLYVWNATITGPMDSIWEGGIFFLRLTFPEDYPTKPPKVKFTSKIFHPNVYKDGSILDIVQDKWSPIYTVDSILTSILSLLEDPNPDSPANPEAAKLFVNDPKEYKKRVRKC 5v0s-a1-m1-cA_5v0s-a1-m1-cB Crystal structure of the ACT domain of prephenate dehydrogenase tyrA from Bacillus anthracis Q81P63 Q81P63 2.01 X-RAY DIFFRACTION 51 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 68 68 HDLYVDVLDKVGALAHVTSILAREEISITNLQILEAREGLLGVLRISFQREEDRKAKLALGEEKYQTY HDLYVDVLDKVGALAHVTSILAREEISITNLQILEAREGLLGVLRISFQREEDRKAKLALGEEKYQTY 5v10-a1-m1-cB_5v10-a1-m2-cB Crystal structure of the putative tol-pal system-associated acyl-CoA thioesterase from Pseudomonas aeruginosa PAO1 Q9I4Z5 Q9I4Z5 1.9 X-RAY DIFFRACTION 28 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 130 130 5v10-a1-m1-cA_5v10-a1-m2-cA PFQQRFRVYYEDTDAGGIVYYVNYLKFMERARTERLRALGFAQSQLVGDNLLFVVHSAEARYHAPAKLDDELLVSAEVEELNRASLKFRQQVRRASDSVLLCEGRFLVACVRADTLKPRAIPETLRAAFA PFQQRFRVYYEDTDAGGIVYYVNYLKFMERARTERLRALGFAQSQLVGDNLLFVVHSAEARYHAPAKLDDELLVSAEVEELNRASLKFRQQVRRASDSVLLCEGRFLVACVRADTLKPRAIPETLRAAFA 5v10-a1-m2-cB_5v10-a1-m1-cA Crystal structure of the putative tol-pal system-associated acyl-CoA thioesterase from Pseudomonas aeruginosa PAO1 Q9I4Z5 Q9I4Z5 1.9 X-RAY DIFFRACTION 28 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 130 141 5v10-a1-m1-cB_5v10-a1-m2-cA PFQQRFRVYYEDTDAGGIVYYVNYLKFMERARTERLRALGFAQSQLVGDNLLFVVHSAEARYHAPAKLDDELLVSAEVEELNRASLKFRQQVRRASDSVLLCEGRFLVACVRADTLKPRAIPETLRAAFA RAQHGGKPFQQRFRVYYEDTDAGGIVYYVNYLKFMERARTERLRALGFAQSQLVGDNLLFVVHSAEARYHAPAKLDDELLVSAEVEELNRASLKFRQQVRRASDSVLLCEGRFLVACVRADTLKPRAIPETLRAAFAGSPD 5v10-a1-m2-cB_5v10-a1-m2-cA Crystal structure of the putative tol-pal system-associated acyl-CoA thioesterase from Pseudomonas aeruginosa PAO1 Q9I4Z5 Q9I4Z5 1.9 X-RAY DIFFRACTION 41 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 130 141 5v10-a1-m1-cB_5v10-a1-m1-cA PFQQRFRVYYEDTDAGGIVYYVNYLKFMERARTERLRALGFAQSQLVGDNLLFVVHSAEARYHAPAKLDDELLVSAEVEELNRASLKFRQQVRRASDSVLLCEGRFLVACVRADTLKPRAIPETLRAAFA RAQHGGKPFQQRFRVYYEDTDAGGIVYYVNYLKFMERARTERLRALGFAQSQLVGDNLLFVVHSAEARYHAPAKLDDELLVSAEVEELNRASLKFRQQVRRASDSVLLCEGRFLVACVRADTLKPRAIPETLRAAFAGSPD 5v13-a1-m1-cB_5v13-a1-m1-cC Mosquito juvenile hormone-binding protein Q16Y94 Q16Y94 1.84 X-RAY DIFFRACTION 52 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 267 268 5v13-a1-m1-cA_5v13-a1-m1-cC 5v13-a1-m1-cB_5v13-a1-m1-cA EWQPRTPEQTLYAYVRCLNDSSASIEQKINWVKWHPDTTYESQCYVKCVSEELRLYDPKEKRFRPERFVLQAESFFHADPEQLQALKNNAEPMLAGVLADNSCESVFNKYATFYATHHSTILRMFHGDYRDIGNTYAKLGNGVKQIGQMFVDFCEKRTDFKWNEDNSCPPEAFLDCVFRGFRWITEEGEVNVNEIRRDYEAAGKGAADMADYCGSVGARQLYNCLRDKGADSLVAVIRDRNQKTAFYFDLSSKEEPWKSAVDFANNL EWQPRTPEQTLYAYVRCLNDSSASIEQKINWVKWHPDTTYESQCYVKCVSEELRLYDPKEKRFRPERFVLQAESFFHADPEQLQALKNNAEPMLAGVLADNSCESVFNKYATFYATHHSTILRMFHGDYRDIGNTYAKLGNGVKQIGQMFVDFCEKRTDFKWNEDNSCPPEAFLDCVFRGFRWITEEGEVNVNEIRRDYEAAGKGAADMADYCGSVKGARQLYNCLRDKGADSLVAVIRDRNQKTAFYFDLSSKEEPWKSAVDFANNL 5v1d-a2-m1-cB_5v1d-a2-m1-cC Complex structure of the bovine PERK luminal domain and its substrate peptide A5D791 A5D791 2.799 X-RAY DIFFRACTION 103 0.984 9913 (Bos taurus) 9913 (Bos taurus) 190 244 5v1d-a1-m1-cA_5v1d-a1-m1-cD RSLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLKMIIPSDLFQWDETVPFTVESLLESDVVLVGGKSLTTYGLSAYSGKVRYICSALGCREDILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYITVIKVSVADWKVMAFNKKGGHLTPIASAWLVKDGKVIPISLFDLGMYRGQLYLQSS SLVIISTLDGRIAALDPENHGKKQWDLDVGSGSLVSSSLSKMIIPSLDGDLFQWDRDRESMETVPFTVESLLEDVVLVGGKSLTTYGLSAYSGKVRYICSALGCRQWDDILLLQRTQKTVRAVGPRSGNEKWNFSVGHFELRYIPSDVEEQEAVMMDTVIKVSVADWKVMAFNKKGGHLEWEYQFSTPIASAWLVKDGKVIPISLFDDTSIVEAARGATENSVYLGMYRGQLYLQSSVRISEKF 5v2g-a1-m1-cB_5v2g-a1-m1-cC De Novo Design of Novel Covalent Constrained Meso-size Peptide Scaffolds with Unique Tertiary Structures NOT SOLUTION NMR 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 20 20 5v2g-a1-m1-cA_5v2g-a1-m1-cB 5v2g-a1-m1-cA_5v2g-a1-m1-cC KNPEAEEITRCKKLLDDSSS KNPEAEEITRCKKLLDDSSS 5v30-a1-m1-cA_5v30-a1-m1-cB Crystal structure of the sensor domain of the transcriptional regulator HcpR from Porphyromonas Gingivalis Q7MVK4 Q7MVK4 3.15 X-RAY DIFFRACTION 146 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 152 152 DPEFDLLLKAWKSSGLSVGMKDDELLALLESCSYRVERLKAEELYAIGGDKLQDLRIVGVGEIRAEMVGPSGKQILIDTLAVGRILAPALLFASENILPVTLFANEDSVLFRIGKEEFKGMMHKYPTLMENFIGMISDISAFLMKKIHQLSL DPEFDLLLKAWKSSGLSVGMKDDELLALLESCSYRVERLKAEELYAIGGDKLQDLRIVGVGEIRAEMVGPSGKQILIDTLAVGRILAPALLFASENILPVTLFANEDSVLFRIGKEEFKGMMHKYPTLMENFIGMISDISAFLMKKIHQLSL 5v35-a1-m1-cA_5v35-a1-m2-cA Crystal structure of V71F mutant of the FKBP domain of human aryl hydrocarbon receptor-interacting protein-like 1 (AIPL1) complexed with S-farnesyl-L-cysteine methyl ester Q9NZN9 Q9NZN9 2.5 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 152 NVEGVKKTILHGGTGELPNFITGSRVIFHFRTMKCDEERTVIDDSRQVGQPMHIIIGNMFKLEFWEILLTSMRVHEVAEFWCDTIHTGVYPILSRSLRQMAQGKDPTEWHVHTCGLANMFAYHTLGYEDLDELQKEPQPLVFVIELLQVDAP NVEGVKKTILHGGTGELPNFITGSRVIFHFRTMKCDEERTVIDDSRQVGQPMHIIIGNMFKLEFWEILLTSMRVHEVAEFWCDTIHTGVYPILSRSLRQMAQGKDPTEWHVHTCGLANMFAYHTLGYEDLDELQKEPQPLVFVIELLQVDAP 5v36-a2-m1-cB_5v36-a2-m2-cB 1.88 Angstrom Resolution Crystal Structure of Glutathione Reductase from Streptococcus mutans UA159 in Complex with FAD Q8DUR5 Q8DUR5 1.88 X-RAY DIFFRACTION 26 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 451 451 5v36-a2-m1-cA_5v36-a2-m2-cA AMTKQYDYIVIGGGSGGIASANRAAMHGAKVILFEGKQVGGTCVNVGCVPKKVMWYGAQVAETINNYAADYGFDVTTQAFHFDVLKQNRQAYIDRIHDSYERGFDSNGVERVYGYATFVDAHTVEVAGEHYTAPHILIATGGHALLPDIPGSEYGITSDGFFELDAIPKRTAVVGAGYIAVEISGILHALGSETHLFVRRDRPLRKFDKEIVGTLVDEMKKDGPHLHTFSVPKEVIKNTDNSLTLILENGEEYTVDTLIWAIGRAANTKGFNLEVTGVTLDSRGFIATDAFENTNVEGLYALGDVNGKLELTPVAVKAGRQLSERLFNHKPQAKMDYKDVATVIFSHPVIGSIGLSEEAALDQYGEENVTVYRSTFTSMYTAVTSHRQACKMKLVTVGEDEKIVGLHGIGYGVDEMIQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR AMTKQYDYIVIGGGSGGIASANRAAMHGAKVILFEGKQVGGTCVNVGCVPKKVMWYGAQVAETINNYAADYGFDVTTQAFHFDVLKQNRQAYIDRIHDSYERGFDSNGVERVYGYATFVDAHTVEVAGEHYTAPHILIATGGHALLPDIPGSEYGITSDGFFELDAIPKRTAVVGAGYIAVEISGILHALGSETHLFVRRDRPLRKFDKEIVGTLVDEMKKDGPHLHTFSVPKEVIKNTDNSLTLILENGEEYTVDTLIWAIGRAANTKGFNLEVTGVTLDSRGFIATDAFENTNVEGLYALGDVNGKLELTPVAVKAGRQLSERLFNHKPQAKMDYKDVATVIFSHPVIGSIGLSEEAALDQYGEENVTVYRSTFTSMYTAVTSHRQACKMKLVTVGEDEKIVGLHGIGYGVDEMIQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR 5v36-a2-m2-cA_5v36-a2-m2-cB 1.88 Angstrom Resolution Crystal Structure of Glutathione Reductase from Streptococcus mutans UA159 in Complex with FAD Q8DUR5 Q8DUR5 1.88 X-RAY DIFFRACTION 256 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 451 451 5v36-a1-m1-cA_5v36-a1-m1-cB 5v36-a2-m1-cA_5v36-a2-m1-cB AMTKQYDYIVIGGGSGGIASANRAAMHGAKVILFEGKQVGGTCVNVGCVPKKVMWYGAQVAETINNYAADYGFDVTTQAFHFDVLKQNRQAYIDRIHDSYERGFDSNGVERVYGYATFVDAHTVEVAGEHYTAPHILIATGGHALLPDIPGSEYGITSDGFFELDAIPKRTAVVGAGYIAVEISGILHALGSETHLFVRRDRPLRKFDKEIVGTLVDEMKKDGPHLHTFSVPKEVIKNTDNSLTLILENGEEYTVDTLIWAIGRAANTKGFNLEVTGVTLDSRGFIATDAFENTNVEGLYALGDVNGKLELTPVAVKAGRQLSERLFNHKPQAKMDYKDVATVIFSHPVIGSIGLSEEAALDQYGEENVTVYRSTFTSMYTAVTSHRQACKMKLVTVGEDEKIVGLHGIGYGVDEMIQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR AMTKQYDYIVIGGGSGGIASANRAAMHGAKVILFEGKQVGGTCVNVGCVPKKVMWYGAQVAETINNYAADYGFDVTTQAFHFDVLKQNRQAYIDRIHDSYERGFDSNGVERVYGYATFVDAHTVEVAGEHYTAPHILIATGGHALLPDIPGSEYGITSDGFFELDAIPKRTAVVGAGYIAVEISGILHALGSETHLFVRRDRPLRKFDKEIVGTLVDEMKKDGPHLHTFSVPKEVIKNTDNSLTLILENGEEYTVDTLIWAIGRAANTKGFNLEVTGVTLDSRGFIATDAFENTNVEGLYALGDVNGKLELTPVAVKAGRQLSERLFNHKPQAKMDYKDVATVIFSHPVIGSIGLSEEAALDQYGEENVTVYRSTFTSMYTAVTSHRQACKMKLVTVGEDEKIVGLHGIGYGVDEMIQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR 5v3d-a1-m1-cB_5v3d-a1-m1-cA Crystal structure of fosfomycin resistance protein from Klebsiella pneumoniae with bound fosfomycin A0A0E1CQ35 A0A0E1CQ35 1.539 X-RAY DIFFRACTION 197 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 137 138 5v91-a1-m1-cA_5v91-a1-m1-cB 5wew-a1-m1-cA_5wew-a1-m1-cB 5wew-a2-m1-cD_5wew-a2-m1-cC 5wew-a4-m1-cG_5wew-a4-m1-cH 6c3u-a1-m1-cA_6c3u-a1-m1-cB 6c3u-a2-m1-cD_6c3u-a2-m1-cC MLSGLNHLTLAVSQLAPSVAFYQQLLGMTLHARWDSGAYLSCGDLWLCLSLDPQRRVTPPEESDYTHYAFSISEADFASFAARLEAAGVAVWKLNRSEGASHYFLDPDGHKLELHVGSLAQRLAACREQPYKGMVFF MLSGLNHLTLAVSQLAPSVAFYQQLLGMTLHARWDSGAYLSCGDLWLCLSLDPQRRVTPPEESDYTHYAFSISEADFASFAARLEAAGVAVWKLNRSEGASHYFLDPDGHKLELHVGSLAQRLAACREQPYKGMVFFE 5v3g-a1-m1-cG_5v3g-a1-m1-cD PRDM9-allele-C ZnF8-13 D9IWL3 D9IWL3 2.416 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 170 5v3g-a1-m1-cG_5v3g-a1-m1-cA EKPYVCRECGRGFSNKSHLLRHQRTH PGSEKPYVCRECGRGFSNKSHLLRHQRTHTGEKPYVCRECGRGFRDKSHLLSHQRTHTGEKPYVCRECGRGFRDKSNLLSHQRTHTGEKPYVCRECGRGFSWQSVLLRHQRTHTGEKPYVCRECGRGFRDKSNLLSHQRTHTGEKPYVCRECGRGFRNKSHLLRHQRTHT 5v3n-a1-m1-cA_5v3n-a1-m2-cA Structure of S. cerevisiae Ulp2-Tof2-Csm1 complex P25651 P25651 1.3 X-RAY DIFFRACTION 63 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 109 109 3n4s-a2-m1-cC_3n4s-a2-m1-cD 5v1a-a1-m1-cA_5v1a-a1-m2-cA NSEVIKDLYEYLCNVRVHKSYEDDSGLWFDISQGTHSSDDYSIMDYKLGFVKGQAQVTEVIYAPVLKQRSTEELYSLQSKLPEYLFETLSFPLSSLNQFYNKIAKSLNK NSEVIKDLYEYLCNVRVHKSYEDDSGLWFDISQGTHSSDDYSIMDYKLGFVKGQAQVTEVIYAPVLKQRSTEELYSLQSKLPEYLFETLSFPLSSLNQFYNKIAKSLNK 5v43-a1-m1-cB_5v43-a1-m1-cA Engineered human IgG Fc domain aglyco801 P01857 P01857 2.32 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 209 GGPSVFLFPPKPKTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSLYRVVSVLTVLHQDWLNGKEYECKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGRPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS GGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSLYRVVSVLTVLHQDWLNGKEYECKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGRPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS 5v48-a1-m1-cA_5v48-a1-m1-cB Soluble rabbit neprilysin in complex with thiorphan P08049 P08049 2.9965 X-RAY DIFFRACTION 59 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 696 696 1dmt-a2-m1-cA_1dmt-a2-m2-cA 2yb9-a1-m1-cA_2yb9-a1-m2-cA 4cth-a1-m1-cA_4cth-a1-m2-cA 4xbh-a3-m1-cA_4xbh-a3-m1-cB 4zr5-a1-m1-cA_4zr5-a1-m1-cB GICKSSDCIKSAARLIQNMDATAEPCTDFFKYACGGWLKRNVIPETSSRYSNFDILRDELEVILKDVLQEPKTEDIVAVQKAKTLYRSCVNETAIDSRGGQPLLKLLPDVYGWPVATQNWEQTYGTSWSAEKSIAQLNSKYGKKVLINFFVGTDDKNSMNHIIHIDQPRLGLPSRDYYECTGIYKEACTAYVDFMIAVAKLIRQEEGLPIDENQISVEMNKVMELEKEIANATTKSEDRNDPMLLYNKMTLAQIQNNFSLEINGKPFSWSNFTNEIMSTVNINIPNEEDVVVYAPEYLIKLKPILTKYSPRDLQNLMSWRFIMDLVSSLSRTYKDSRNAFRKALYGTTSESATWRRCANYVNGNMENAVGRLYVEAAFAGESKHVVEDLIAQIREVFIQTLDDLTWMDAETKKKAEEKALAIKERIGYPDDIVSNDNKLNNEYLELNYKEDEYFENIIQNLKFSQSKQLKKLREKVDKDEWITGAAIVNAFYSSGRNQIVFPAGILQPPFFSAQQSNSLNYGGIGMVIGHEITHGFDDNGRNFNKDGDLVDWWTQQSANNFKEQSQCMVYQYGNFSWDLAGGQHLNGINTLGENIADNGGIGQAYRAYQNYVKKNGEEKLLPGIDLNHKQLFFLNFAQVWCGTYRPEYAVNSIKTDVHSPGNFRIIGSLQNSVEFSEAFQCPKNSYMNPEKKCRVW GICKSSDCIKSAARLIQNMDATAEPCTDFFKYACGGWLKRNVIPETSSRYSNFDILRDELEVILKDVLQEPKTEDIVAVQKAKTLYRSCVNETAIDSRGGQPLLKLLPDVYGWPVATQNWEQTYGTSWSAEKSIAQLNSKYGKKVLINFFVGTDDKNSMNHIIHIDQPRLGLPSRDYYECTGIYKEACTAYVDFMIAVAKLIRQEEGLPIDENQISVEMNKVMELEKEIANATTKSEDRNDPMLLYNKMTLAQIQNNFSLEINGKPFSWSNFTNEIMSTVNINIPNEEDVVVYAPEYLIKLKPILTKYSPRDLQNLMSWRFIMDLVSSLSRTYKDSRNAFRKALYGTTSESATWRRCANYVNGNMENAVGRLYVEAAFAGESKHVVEDLIAQIREVFIQTLDDLTWMDAETKKKAEEKALAIKERIGYPDDIVSNDNKLNNEYLELNYKEDEYFENIIQNLKFSQSKQLKKLREKVDKDEWITGAAIVNAFYSSGRNQIVFPAGILQPPFFSAQQSNSLNYGGIGMVIGHEITHGFDDNGRNFNKDGDLVDWWTQQSANNFKEQSQCMVYQYGNFSWDLAGGQHLNGINTLGENIADNGGIGQAYRAYQNYVKKNGEEKLLPGIDLNHKQLFFLNFAQVWCGTYRPEYAVNSIKTDVHSPGNFRIIGSLQNSVEFSEAFQCPKNSYMNPEKKCRVW 5v4a-a1-m1-cA_5v4a-a1-m1-cB A New Glycosyltransferase (DUF1792) from Streptococcus sanguinis A3CM53 A3CM53 1.75 X-RAY DIFFRACTION 51 1.0 388919 (Streptococcus sanguinis SK36) 388919 (Streptococcus sanguinis SK36) 268 268 QISVLSINQSLDYLLEKGASVVRFGDGEMDLVAGRSIVYQDFDPELSARLREIMSMESDERLMVCLPDVFTGLERYSIDAQNFWSLNHLPHFLEKYKNICRAPWYGSTFISRPYIDLEDKTPSVGYFAKLKQLWQDKDLLIVEGLTSRSGVGNDLFDGARSIKRIICPSRNAYSKLEAIKQAVREHADNRLILTMLGPTAKVLVYDLVQEGYRALDIGHIDSEYEWFQMGASHKVKLSHKHTAEHNFDQDIEFRDDQAYDSQIVANLA QISVLSINQSLDYLLEKGASVVRFGDGEMDLVAGRSIVYQDFDPELSARLREIMSMESDERLMVCLPDVFTGLERYSIDAQNFWSLNHLPHFLEKYKNICRAPWYGSTFISRPYIDLEDKTPSVGYFAKLKQLWQDKDLLIVEGLTSRSGVGNDLFDGARSIKRIICPSRNAYSKLEAIKQAVREHADNRLILTMLGPTAKVLVYDLVQEGYRALDIGHIDSEYEWFQMGASHKVKLSHKHTAEHNFDQDIEFRDDQAYDSQIVANLA 5v4b-a2-m3-cA_5v4b-a2-m4-cA Crystal structure of the Skp1-FBXW7-DISC1 complex P63208 P63208 2.6 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 2ovp-a2-m1-cA_2ovp-a2-m2-cA 2ovp-a2-m3-cA_2ovp-a2-m4-cA 2ovq-a2-m1-cA_2ovq-a2-m2-cA 2ovq-a2-m3-cA_2ovq-a2-m4-cA 5v4b-a2-m1-cA_5v4b-a2-m2-cA ASIKLQSSDGEIFEVDVEIAKQSVTIKTMLEDLGMDPVPLPNVNAAILKKVIQWCTHHKDDPGGSGTDDIPVWDQEFLKVDQGTLFELILAANYLDIKGLLDVTCKTVANMIKAKTPEEIRKTFNIKNDFTEEEEAQVRKENQWCE ASIKLQSSDGEIFEVDVEIAKQSVTIKTMLEDLGMDPVPLPNVNAAILKKVIQWCTHHKDDPGGSGTDDIPVWDQEFLKVDQGTLFELILAANYLDIKGLLDVTCKTVANMIKAKTPEEIRKTFNIKNDFTEEEEAQVRKENQWCE 5v4d-a2-m1-cF_5v4d-a2-m1-cE Crystal Structure of the Protein of Unknown Function of the Conserved Rid Protein Family YyfA from Yersinia pestis A0A3N4B564 A0A3N4B564 1.6 X-RAY DIFFRACTION 73 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 126 127 5v4d-a1-m1-cB_5v4d-a1-m1-cA 5v4d-a1-m1-cB_5v4d-a1-m1-cC 5v4d-a1-m1-cC_5v4d-a1-m1-cA 5v4d-a2-m1-cD_5v4d-a2-m1-cE 5v4d-a2-m1-cF_5v4d-a2-m1-cD AKSVIETKNAPSAIGPYSQAICFNGILYASGQIPINPDTGDLVENDIEKQTRQVLKNIDAVLLQAGTTKDKIVKTTIFITNINNSSQVNDIYADYFKGTIFPARSTVEVSALPKGALVEIEVIAGV NAKSVIETKNAPSAIGPYSQAICFNGILYASGQIPINPDTGDLVENDIEKQTRQVLKNIDAVLLQAGTTKDKIVKTTIFITNINNSSQVNDIYADYFKGTIFPARSTVEVSALPKGALVEIEVIAGV 5v4f-a2-m3-cB_5v4f-a2-m5-cB Crystal Structure of the Protein of Unknown Function of the Conserved Rid Protein Family YyfB from Yersinia pestis A0A380PLV4 A0A380PLV4 3.001 X-RAY DIFFRACTION 88 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 131 131 5v4f-a1-m1-cA_5v4f-a1-m2-cA 5v4f-a1-m1-cA_5v4f-a1-m4-cA 5v4f-a1-m2-cA_5v4f-a1-m4-cA 5v4f-a2-m1-cB_5v4f-a2-m3-cB 5v4f-a2-m1-cB_5v4f-a2-m5-cB NRRVINPETYPSVPFGFSHAVEQLSGRTLHIAGQVAWNANGELVGGQDLLAQTQQVLANLKEVLRYAGATPADVVRLRTYVVNHSPANLAAICAQIGAFYEGADPAANSFIGVQALALPELLIEIEATACL NRRVINPETYPSVPFGFSHAVEQLSGRTLHIAGQVAWNANGELVGGQDLLAQTQQVLANLKEVLRYAGATPADVVRLRTYVVNHSPANLAAICAQIGAFYEGADPAANSFIGVQALALPELLIEIEATACL 5v4l-a5-m1-cD_5v4l-a5-m1-cA Cryptococcus neoformans adenylosuccinate lyase J9VSX1 J9VSX1 2.1 X-RAY DIFFRACTION 88 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 451 457 5v4l-a5-m1-cB_5v4l-a5-m1-cC MDSYQTPLSSSKEMSKLFSSGARFGTWRKLWLNLAIAEKELGLAISDAAIEQMKANLELDEAQMKVAAEEEHDVMAHVHTFGTVAPEAAGIIHLGATSCYVTDNADLIFLRDGLDILLPKLATVISRLANFAKQYRDLPTLGFTHFQPAQLTTVGKRATLWIQELLWDLRNLQRARDDLGFRGVKGTTGTQASFLALFDGDHAKVEALDKRVTELFGFPYAYPVTGQTYSRKIDADVLGPLSSFGATVHKIATDIRLLANLKEIEEPFAYKRNPMRCERACSLARHLMAIYQNTLMTSSVQWLERTLDDSANRRVTIPEAFLTADILLTTLQNISEGLVVYPRVIGRRISQELPFMATENIIMAIVKAGGDRQECHEKIRVLSHQAGAVVKEEGGENDLIDRVKNDEYFKPIWGQLDALLDPRTFVGRAPEQVDGFLKEWVEPALKPYEEA MDSYQTPLSSASKEMSKLFSSGARFGTWRKLWLNLAIAEKELGLAISDAAIEQMKANLELDEAQMKVAAEEEKKRRHDVMAHVHTFGTVAPEAAGIIHLGATSCYVTDNADLIFLRDGLDILLPKLATVISRLANFAKQYRDLPTLGFTHFQPAQLTTVGKRATLWIQELLWDLRNLQRARDDLGFRGVKGTTGTQASFLALFDGDHAKVEALDKRVTELFGFPYAYPVTGQTYSRKIDADVLGPLSSFGATVHKIATDIRLLANLKEIEEPFAYKRNPMRCERACSLARHLMAIYQNTLMTSSVQWLERTLDDSANRRVTIPEAFLTADILLTTLQNISEGLVVYPRVIGRRISQELPFMATENIIMAIVKAGGDRQECHEKIRVLSHQAGAVVKEEGGENDLIDRVKNDEYFKPIWGQLDALLDPRTFVGRAPEQVDGFLKEWVEPALKPYEEAL 5v4l-a5-m1-cD_5v4l-a5-m1-cB Cryptococcus neoformans adenylosuccinate lyase J9VSX1 J9VSX1 2.1 X-RAY DIFFRACTION 157 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 451 454 5v4l-a5-m1-cA_5v4l-a5-m1-cC MDSYQTPLSSSKEMSKLFSSGARFGTWRKLWLNLAIAEKELGLAISDAAIEQMKANLELDEAQMKVAAEEEHDVMAHVHTFGTVAPEAAGIIHLGATSCYVTDNADLIFLRDGLDILLPKLATVISRLANFAKQYRDLPTLGFTHFQPAQLTTVGKRATLWIQELLWDLRNLQRARDDLGFRGVKGTTGTQASFLALFDGDHAKVEALDKRVTELFGFPYAYPVTGQTYSRKIDADVLGPLSSFGATVHKIATDIRLLANLKEIEEPFAYKRNPMRCERACSLARHLMAIYQNTLMTSSVQWLERTLDDSANRRVTIPEAFLTADILLTTLQNISEGLVVYPRVIGRRISQELPFMATENIIMAIVKAGGDRQECHEKIRVLSHQAGAVVKEEGGENDLIDRVKNDEYFKPIWGQLDALLDPRTFVGRAPEQVDGFLKEWVEPALKPYEEA MDSYQTPLSSASKEMSKLFSSGARFGTWRKLWLNLAIAEKELGLAISDAAIEQMKANLELDEAQMKVAAEEEKHDVMAHVHTFGTVAPEAAGIIHLGATSCYVTDNADLIFLRDGLDILLPKLATVISRLANFAKQYRDLPTLGFTHFQPAQLTTVGKRATLWIQELLWDLRNLQRARDDLGFRGVKGTTGTQASFLALFDGDHAKVEALDKRVTELFGFPYAYPVTGQTYSRKIDADVLGPLSSFGATVHKIATDIRLLANLKEIEEPFMAYKRNPMRCERACSLARHLMAIYQNTLMTSSVQWLERTLDDSANRRVTIPEAFLTADILLTTLQNISEGLVVYPRVIGRRISQELPFMATENIIMAIVKAGGDRQECHEKIRVLSHQAGAVVKEEGGENDLIDRVKNDEYFKPIWGQLDALLDPRTFVGRAPEQVDGFLKEWVEPALKPYEEA 5v4l-a5-m1-cD_5v4l-a5-m1-cC Cryptococcus neoformans adenylosuccinate lyase J9VSX1 J9VSX1 2.1 X-RAY DIFFRACTION 254 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 451 467 5v4l-a5-m1-cB_5v4l-a5-m1-cA MDSYQTPLSSSKEMSKLFSSGARFGTWRKLWLNLAIAEKELGLAISDAAIEQMKANLELDEAQMKVAAEEEHDVMAHVHTFGTVAPEAAGIIHLGATSCYVTDNADLIFLRDGLDILLPKLATVISRLANFAKQYRDLPTLGFTHFQPAQLTTVGKRATLWIQELLWDLRNLQRARDDLGFRGVKGTTGTQASFLALFDGDHAKVEALDKRVTELFGFPYAYPVTGQTYSRKIDADVLGPLSSFGATVHKIATDIRLLANLKEIEEPFAYKRNPMRCERACSLARHLMAIYQNTLMTSSVQWLERTLDDSANRRVTIPEAFLTADILLTTLQNISEGLVVYPRVIGRRISQELPFMATENIIMAIVKAGGDRQECHEKIRVLSHQAGAVVKEEGGENDLIDRVKNDEYFKPIWGQLDALLDPRTFVGRAPEQVDGFLKEWVEPALKPYEEA MDSYQTPLSSASKEMSKLFSSGARFGTWRKLWLNLAIAEKELGLAISDAAIEQMKANLELDEAQMKVAAEEEKKRRHDVMAHVHTFGTVAPEAAGIIHLGATSCYVTDNADLIFLRDGLDILLPKLATVISRLANFAKQYRDLPTLGFTHFQPAQLTTVGKRATLWIQELLWDLRNLQRARDDLGFRGVKGTTGTQASFLALFDGDHAKVEALDKRVTELFGFPYAYPVTGQTYSRKIDADVLGPLSSFGATVHKIATDIRLLANLKEIEEPFEKDQIGSSAMAYKRNPMRCERACSLARHLMAIYQNTLMTSSVQWLERTLDDSANRRVTIPEAFLTADILLTTLQNISEGLVVYPRVIGRRISQELPFMATENIIMAIVKAGGDRQECHEKIRVLSHQAGAVVKEEGGENDLIDRVKNDEYFKPIWGQLDALLDPRTFVGRAPEQVDGFLKEWVEPALKPYEEAL 5v4p-a3-m1-cA_5v4p-a3-m2-cB Saccharomyces cerevisiae OYE 3 soaked with p-hydroxybenzaldehyde P41816 P41816 1.88 X-RAY DIFFRACTION 80 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 396 396 PFVKGFEPISLRDTNLFEPIKIGNTQLAHRAVMPPLTRMRATHPGNIPNKEWAAVYYGQRAQRPGTMIITEGTFISPQAGGYDNAPGIWSDEQVAEWKNIFLAIHDCQSFAWVQLWSLGWASFPDVLARDGLRYDCASDRVYMNATLQEKAKDANNLEHSLTKDDIKQYIKDYIHAAKNSIAAGADGVEIHSANGYLLNQFLDPHSNKRTDEYGGTIENRARFTLEVVDALIETIGPERVGLRLSPYGTFNSMSGGAEPGIIAQYSYVLGELEKRAKAGKRLAFVHLVEPRVTDPSLVEGEGEYSEGTNDFAYSIWKGPIIRAGNYALHPEVVREQVKDPRTLIGYGRFFISNPDLVYRLEEGLPLNKYDRSTFYTMSAEGYTDYPTYEEAVDLGW PFVKGFEPISLRDTNLFEPIKIGNTQLAHRAVMPPLTRMRATHPGNIPNKEWAAVYYGQRAQRPGTMIITEGTFISPQAGGYDNAPGIWSDEQVAEWKNIFLAIHDCQSFAWVQLWSLGWASFPDVLARDGLRYDCASDRVYMNATLQEKAKDANNLEHSLTKDDIKQYIKDYIHAAKNSIAAGADGVEIHSANGYLLNQFLDPHSNKRTDEYGGTIENRARFTLEVVDALIETIGPERVGLRLSPYGTFNSMSGGAEPGIIAQYSYVLGELEKRAKAGKRLAFVHLVEPRVTDPSLVEGEGEYSEGTNDFAYSIWKGPIIRAGNYALHPEVVREQVKDPRTLIGYGRFFISNPDLVYRLEEGLPLNKYDRSTFYTMSAEGYTDYPTYEEAVDLGW 5v4s-a1-m1-cC_5v4s-a1-m1-cD CryoEM Structure of a Prokaryotic Cyclic Nucleotide-Gated Ion Channel I0XVQ9 I0XVQ9 4.2 ELECTRON MICROSCOPY 105 1.0 1049972 (Leptospira licerasiae serovar Varillal str. VAR 010) 1049972 (Leptospira licerasiae serovar Varillal str. VAR 010) 387 387 5v4s-a1-m1-cA_5v4s-a1-m1-cB 5v4s-a1-m1-cA_5v4s-a1-m1-cD 5v4s-a1-m1-cB_5v4s-a1-m1-cC RIRVYWDILVFICIFWASLESPLRIVLLLTCIYFFIDFVFALDILWNGSWFIIDLIAALPLEYATTTIFYLYLLLGVTRILKVFRISDILQRINLAFQPTPGILRLVLFAFWATLVAHWCAVGWLYVDDLLDYQTGWSEYIIALYWTVATIATVGYGDITPSTDSQRIYTIFVMILGAGVYATVIGNIASILGSLDLAKAAQRKKMAQVDSFLKARNISQNIRRRVRDYYMYIIDRGWGEDENALLNDLPISLRREVKIQLHRDLLEKVPFLKGADPALVTSLVFSMKPMIFLEGDTIFRRGEKGDDLYILSEGSVDILDSDEKTILLSLQEGQFFGELALVMDAPRSATVRATTTCEIYTLSKTDFDNVLKRFSQFRSAIEESVAH RIRVYWDILVFICIFWASLESPLRIVLLLTCIYFFIDFVFALDILWNGSWFIIDLIAALPLEYATTTIFYLYLLLGVTRILKVFRISDILQRINLAFQPTPGILRLVLFAFWATLVAHWCAVGWLYVDDLLDYQTGWSEYIIALYWTVATIATVGYGDITPSTDSQRIYTIFVMILGAGVYATVIGNIASILGSLDLAKAAQRKKMAQVDSFLKARNISQNIRRRVRDYYMYIIDRGWGEDENALLNDLPISLRREVKIQLHRDLLEKVPFLKGADPALVTSLVFSMKPMIFLEGDTIFRRGEKGDDLYILSEGSVDILDSDEKTILLSLQEGQFFGELALVMDAPRSATVRATTTCEIYTLSKTDFDNVLKRFSQFRSAIEESVAH 5v54-a1-m1-cA_5v54-a1-m1-cB Crystal structure of 5-HT1B receptor in complex with methiothepin P28222 P28222 3.9 X-RAY DIFFRACTION 56 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 382 383 YIYQDSISLPWKVLLVMLLALITLATTLSNAFVIATVYRTRKLHTPANYLIASLAVTDLLVSILVMPISTMYTVTGRWTLGQVVCDFWLSSDITCCTASIWHLCVIALDRYWAITDAVEYSAKRTPKRAAVMIALVWVFSISISLPPFFWRQAKSECVVNTDHILYTVYSTVGAFYFPTLLLIALYGRIYVEARSRIADLEDRWRTLEDNLRVIERAANAAEVREALTRMRAAAEDAQRATPPALEDRSPASPEMEDFRHGFDILVGQIDDALRLADEGRVAEAQAAAEELRTTRNAYIQKYLMAARERKATKTLGIILGAFIVCWLPFFIISLVMPICFHLAIFDFFTWLGYLNSLINPIIYTMSNEDFKQAFHKLIRFKC DYIYQDSISLPWKVLLVMLLALITLATTLSNAFVIATVYRTRKLHTPANYLIASLAVTDLLVSILVMPISTMYTVTGRWTLGQVVCDFWLSSDITCCTASIWHLCVIALDRYWAITDAVEYSAKRTPKRAAVMIALVWVFSISISLPPFFWRQAKAEEEVSECVVNTDHILYTVYSTVGAFYFPTLLLIALYGRIYVEARSRIADLEDRWRTLEDNLRVIERAANAAEVREALTRMRAAAEDAQRATPPSPASPEMEDFRHGFDILVGQIDDALRLADEGRVAEAQAAAEELRTTRNAYIQKYLMAARERKATKTLGIILGAFIVCWLPFFIISLVMPICFHLAIFDFFTWLGYLNSLINPIIYTMSNEDFKQAFHKLIRFKC 5v56-a1-m1-cA_5v56-a1-m1-cB 2.9A XFEL structure of the multi-domain human smoothened receptor (with E194M mutation) in complex with TC114 Q99835 Q99835 2.9 X-RAY DIFFRACTION 18 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 632 634 5v57-a1-m1-cB_5v57-a1-m1-cA PPLSHCGRAAPCEPLRYNVCLGSVLPYGATSTLLAGDSDSQEEAHGKLVLWSGLRNAPRCWAVIQPLLCAVYMPKCENDRVELPSRTLCQATRGPCAIVERERGWPDFLRCTPDRFPEGCTNEVQNIKFNSSGQCMVPLVRTDNPKSWYEDVEGCGIQCQNPLFTEAEHQDMHSYIAAFGAVTGLCTLFTLATFVADWRNSNRYPAVILFYVNACFFVGSIGWLAQFMDGARREIVCRADGTMRLGEPTSNETLSCVIIFVIVYYALMAGVVWFVVLTYAWHTSFKALGTTYQPLSGKTSYFHLLTWSLPFVLTVAILAVAQVDGDSVSGICFVGYKNYRYRAGFVLAPIGLVLIVGGYFLIRGVMTLFSIKSNHAKALIVYGSTTGNTEYTAETIARELADAGYEVDSRDAASVEAGGLFEGFDLVLLGCSTWGDDSIELQDDFIPLFDSLEETGAQGRKVACFGCGDSSWEYFCGAVDAIEEKLKNLGAEIVQDGLRIDGDPRAARDDIVGWAHDVRGAIKINETMLRLGIFGFLAFGFVLITFSCHFYDFFNQAEWERSFRDYVLCQANVTIGLPTKQPIPDCEIKNRPSLLVEKINLFAMFGTGIAMSTWVWTKATLLIWRRTWCRLT PPLSHCGRAAPCEPLRYNVCLGSVLPYGATSTLLAGDSDSQEEAHGKLVLWSGLRNAPRCWAVIQPLLCAVYMPKCENDRVELPSRTLCQATRGPCAIVERERGWPDFLRCTPDRFPEGCTNEVQNIKFNSSGQCMVPLVRTDNPKSWYEDVEGCGIQCQNPLFTEAEHQDMHSYIAAFGAVTGLCTLFTLATFVADWRNSNRYPAVILFYVNACFFVGSIGWLAQFMDGARREIVCRADGTMRLGEPTSNETLSCVIIFVIVYYALMAGVVWFVVLTYAWHTSFKALGTTYQPLSGKTSYFHLLTWSLPFVLTVAILAVAQVDGDSVSGICFVGYKNYRYRAGFVLAPIGLVLIVGGYFLIRGVMTLFSIKSNHAKALIVYGSTTGNTEYTAETIARELADAGYEVDSRDAASVEAGGLFEGFDLVLLGCSTWGDDSIELQDDFIPLFDSLEETGAQGRKVACFGCGDSSWEYFCGAVDAIEEKLKNLGAEIVQDGLRIDGDPRAARDDIVGWAHDVRGAIKINETMLRLGIFGFLAFGFVLITFSCHFYDFFNQAEWERSFRDYVLCQANVTIGLPDCEIKNRPSLLVEKINLFAMFGTGIAMSTWVWTKATLLIWRRTWCRLTGQSDDHHH 5v5f-a1-m2-cB_5v5f-a1-m4-cA Crystal structure of RICE1 (PNT2) Q9SF21 Q9SF21 2.945 X-RAY DIFFRACTION 83 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 200 200 5v5f-a1-m1-cB_5v5f-a1-m1-cC 5v5f-a1-m1-cB_5v5f-a1-m3-cA 5v5f-a1-m1-cC_5v5f-a1-m4-cA 5v5f-a1-m2-cB_5v5f-a1-m2-cC 5v5f-a1-m2-cC_5v5f-a1-m3-cA MASFDGQGFMMVDNSWVQTKAIDVESTTDISPYLSKILEDSVWNGNRSIVFDVYWDVKSVSTKSEWRLCSVKFSTKNFCLFLRLPNPFCDNLKDLYRFFASKFVTFVGVQIQEDLALLKENHGIVIRSSLEIGKLAAKARGTPIVEFLGTRELAHKILWYDMSRLDSIQSKWDEASSNDRLEAAAIEGWLIFNVYDQLQQ MASFDGQGFMMVDNSWVQTKAIDVESTTDISPYLSKILEDSVWNGNRSIVFDVYWDVKSVSTKSEWRLCSVKFSTKNFCLFLRLPNPFCDNLKDLYRFFASKFVTFVGVQIQEDLALLKENHGIVIRSSLEIGKLAAKARGTPIVEFLGTRELAHKILWYDMSRLDSIQSKWDEASSNDRLEAAAIEGWLIFNVYDQLQQ 5v5t-a2-m1-cC_5v5t-a2-m1-cB Crystal structure of leucine-rich protein regulator, ElrR, from Enterococcus faecalis Q830T5 Q830T5 2.15 X-RAY DIFFRACTION 230 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 292 296 5v5t-a1-m1-cD_5v5t-a1-m1-cA 5v5u-a1-m1-cB_5v5u-a1-m1-cA EYRPLGEEIERIRKGKNIPLRVFDENGVSSRSYQRFVQGNSELRISDLAIIVEILSISPETEKLTPSKTVLAKEQFNQAIFSKNFQESSRIVADYRAYYEKSSFALGKQEVYSLALEYLFNPQTVVTKEEIIALENQILERLINADVYTIFNLKFLALQKNVGLQPFPTSLLFRVLQSVNEREIIDIRSLEIIEQVIIDFLFAAIVSQNVPHILHVLSFKEYEVGENNWRILWKKIAEKIEILTNEEIFADWSIFKEQILLSITLFLPKAKQEFFAGQLEKIEDSLKEIKEN KEYEYRPLGEEIERIRKGKNIPLRVFDENGVSSRSYQRFVQGNSELRISDLAIIVEILSISPETEKLTPSKTVLAKEQFNQAIFSKNFQESSRIVADYRAYYEKSSFALGKQEVYSLALEYLFNPQTVVTKEEIIALENQILERLINADVYTIFNLKFLALQKNVGLQPFPTSLLFRVLQSVNEREIIDIRSLEIIEQVIIDFLFAAIVSQNVPHILHVLSFKEYEVGENNWRILWKKIAEKIEILTNEEIFADWSIFKEQILLSITLFLPKAKQEFFAGQLEKIEDSLKEIKENG 5v5v-a1-m1-cA_5v5v-a1-m1-cB Complex of NLGN2 with MDGA1 Ig1-Ig2 Q62888 Q62888 4.11 X-RAY DIFFRACTION 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 527 527 3bl8-a1-m1-cC_3bl8-a1-m1-cA 3bl8-a2-m1-cD_3bl8-a2-m1-cB 5v5v-a2-m1-cC_5v5v-a2-m1-cD 5v5v-a3-m1-cE_5v5v-a3-m1-cF 5xeq-a1-m1-cA_5xeq-a1-m2-cA 8gs4-a1-m1-cA_8gs4-a1-m1-cB VRGVRRELILGPVVQFLGVPYATPPLGARRFQPPEAPASWPGVRNATTLPPACPQNLHGALPAIMLPVWFTDNLEAAATYVQNQSEDCLYLNLYVPTEDGPSGKKPVMLFLHGGSYMEGTGNMFDGSVLAAYGNVIVATLNYRLGVLGFLSTGDQAAKGNYGLLDQIQALRWLSENIAHFGGDPERITIFGSGAGASCVNLLILSHHSEGLFQKAIAQSGTAISSWSVNYQPLKYTRLLAAKVGCDREDSTEAVECLRRKSSRELVDQDVQPARYHIAFGPVVDGDVVPDDPEILMQQGEFLNYDMLIGVNQGEGLKFVEDSAESEDGVSASAFDFTVSNFVDNLYGYPEGKDVLRETIKFMYTDWADRDNGEMRRKTLLALFTDHQWVAPAVATAKLHADYQSPVYFYTFYHHCQAEDAAHGDELPYVFGVPMVGATDLFPCNFSKNDVMLSAVVMTYWTNFAKTGDPNQPVPQDTKFPNRFEEVVWSKFNSKEKQYLHIGLKPRVRDNYRANKVAFWLELVPHLH VRGVRRELILGPVVQFLGVPYATPPLGARRFQPPEAPASWPGVRNATTLPPACPQNLHGALPAIMLPVWFTDNLEAAATYVQNQSEDCLYLNLYVPTEDGPSGKKPVMLFLHGGSYMEGTGNMFDGSVLAAYGNVIVATLNYRLGVLGFLSTGDQAAKGNYGLLDQIQALRWLSENIAHFGGDPERITIFGSGAGASCVNLLILSHHSEGLFQKAIAQSGTAISSWSVNYQPLKYTRLLAAKVGCDREDSTEAVECLRRKSSRELVDQDVQPARYHIAFGPVVDGDVVPDDPEILMQQGEFLNYDMLIGVNQGEGLKFVEDSAESEDGVSASAFDFTVSNFVDNLYGYPEGKDVLRETIKFMYTDWADRDNGEMRRKTLLALFTDHQWVAPAVATAKLHADYQSPVYFYTFYHHCQAEDAAHGDELPYVFGVPMVGATDLFPCNFSKNDVMLSAVVMTYWTNFAKTGDPNQPVPQDTKFPNRFEEVVWSKFNSKEKQYLHIGLKPRVRDNYRANKVAFWLELVPHLH 5v5w-a2-m2-cA_5v5w-a2-m3-cA Molecular Mechanism of MDGA1: Regulation of Neuroligin 2:Neurexin Trans-synaptic Bridges Q8NFP4 Q8NFP4 2.718 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 199 5v5w-a2-m1-cA_5v5w-a2-m2-cA 5v5w-a2-m1-cA_5v5w-a2-m3-cA YAPAQAQIVHAGQACVVKEDNISERVYTIREGDTLMLQCLVTGHPRPQVRWTKTAGSASDKFQETSVFNETLRIERIARTQGGRYYCKAENGVGVPAIKSIRVDVQYLDEPMLTVHQTVKTVFLRCTVNSNPPARFIWKRGSDTLSNGVDIYEPLYTQGETKVLKLKNLRPQDYASYTCQVSVRNVCGIPDKAITFRLT YAPAQAQIVHAGQACVVKEDNISERVYTIREGDTLMLQCLVTGHPRPQVRWTKTAGSASDKFQETSVFNETLRIERIARTQGGRYYCKAENGVGVPAIKSIRVDVQYLDEPMLTVHQTVKTVFLRCTVNSNPPARFIWKRGSDTLSNGVDIYEPLYTQGETKVLKLKNLRPQDYASYTCQVSVRNVCGIPDKAITFRLT 5v5x-a1-m1-cA_5v5x-a1-m1-cD Protocadherin gammaB7 EC3-6 cis-dimer structure Q91XX3 Q91XX3 3.5 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 425 427 5v5x-a1-m1-cB_5v5x-a1-m1-cC NRPVFSQDVYRVRLPEDLPPGTTVLRLKAMDQDEGINAEFTYSFLGVANKAQFSLDPITGDIVTRQSLDFEEVEQYTIDVEAKDRGSLSSQCKVIIEVLDENDNRPEIIITSLSDQISEDSPSGTVVALFKVRDRDSGENAEVMCSLSGNNPFKIHSSSNNYYKLVTDSILDREQTPGYNVTITATDRGKPPLSSSTTITLNVADVNDNAPVFQQQAYLINVAENNQPGTSITQVKAWDPDVGSNGLVSYSIIASDLEPKALSSFVSVNQDSGVVYAQRAFDHEQIRSFQLTLQARDQGSPALSANVSMRVLVDDRNDNAPRVLYPTLEPDGSALFDMVPRAAEPGYLVTKVVAVDADSGHNAWLSYHVLQASDPGLFSLGLRTGEVRTARALSDKDAARQRLLVAVRDGGQPPLSATATLLLVF NRPVFSQDVYRVRLPEDLPPGTTVLRLKAMDQDEGINAEFTYSFLGVANKAQFSLDPITGDIVTRQSLDFEEVEQYTIDVEAKDRGSLSSQCKVIIEVLDENDNRPEIIITSLSDQISEDSPSGTVVALFKVRDRDSGENAEVMCSLSGNNPFKIHSSSNNYYKLVTDSILDREQTPGYNVTITATDRGKPPLSSSTTITLNVADVNDNAPVFQQQAYLINVAENNQPGTSITQVKAWDPDVGSNGLVSYSIIASDLEPKALSSFVSVNQDSGVVYAQRAFDHEQIRSFQLTLQARDQGSPALSANVSMRVLVDDRNDNAPRVLYPTLEPDGSALFDMVPRAAEPGYLVTKVVAVDADSGHNAWLSYHVLQASDPGLFSLGLRTGEVRTARALSDKDAARQRLLVAVRDGGQPPLSATATLLLVFAD 5v5x-a1-m1-cC_5v5x-a1-m1-cD Protocadherin gammaB7 EC3-6 cis-dimer structure Q91XX3 Q91XX3 3.5 X-RAY DIFFRACTION 78 1.0 10090 (Mus musculus) 10090 (Mus musculus) 415 427 5v5x-a1-m1-cB_5v5x-a1-m1-cA PVFSQDVYRVRLPEDLPPGTTVLRLKAAEFTYSFLGVANKAQFSLDPITGDIVTRQSLDFEEVEQYTIDVEAKDRGSLSSQCKVIIEVLDENDNRPEIIITSLSDQISEDSPSGTVVALFKVRDRDSGENAEVMCSLSGNNPFKIHSSSNNYYKLVTDSILDREQTPGYNVTITATDRGKPPLSSSTTITLNVADVNDNAPVFQQQAYLINVAENNQPGTSITQVKAWDPDVGSNGLVSYSIIASDLEPKALSSFVSVNQDSGVVYAQRAFDHEQIRSFQLTLQARDQGSPALSANVSMRVLVDDRNDNAPRVLYPTLEPDGSALFDMVPRAAEPGYLVTKVVAVDADSGHNAWLSYHVLQASDPGLFSLGLRTGEVRTARALSDKDAARQRLLVAVRDGGQPPLSATATLLLVF NRPVFSQDVYRVRLPEDLPPGTTVLRLKAMDQDEGINAEFTYSFLGVANKAQFSLDPITGDIVTRQSLDFEEVEQYTIDVEAKDRGSLSSQCKVIIEVLDENDNRPEIIITSLSDQISEDSPSGTVVALFKVRDRDSGENAEVMCSLSGNNPFKIHSSSNNYYKLVTDSILDREQTPGYNVTITATDRGKPPLSSSTTITLNVADVNDNAPVFQQQAYLINVAENNQPGTSITQVKAWDPDVGSNGLVSYSIIASDLEPKALSSFVSVNQDSGVVYAQRAFDHEQIRSFQLTLQARDQGSPALSANVSMRVLVDDRNDNAPRVLYPTLEPDGSALFDMVPRAAEPGYLVTKVVAVDADSGHNAWLSYHVLQASDPGLFSLGLRTGEVRTARALSDKDAARQRLLVAVRDGGQPPLSATATLLLVFAD 5v6d-a7-m1-cM_5v6d-a7-m1-cN Crystal structure of nucleoside diphosphate kinase from Neisseria gonorrhoeae in complex with citrate B4RMG0 B4RMG0 1.85 X-RAY DIFFRACTION 82 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 141 141 5v6d-a1-m1-cA_5v6d-a1-m1-cB 5v6d-a2-m1-cC_5v6d-a2-m1-cD 5v6d-a3-m1-cE_5v6d-a3-m1-cF 5v6d-a4-m1-cG_5v6d-a4-m1-cH 5v6d-a5-m1-cI_5v6d-a5-m1-cJ 5v6d-a6-m1-cK_5v6d-a6-m1-cL 5v6d-a8-m1-cO_5v6d-a8-m1-cP MAIERTISIIKPDAVGKNVIGKIYSRFEENGLKIVAAKMKQLTLKEAQEFYAVHKDRPFYAGLVEFMTGGPVMIQVLEGENAVLKNRELMGATNPTEAAEGTIRADFATSVSINAVHGSDSVENAALEIAYFFSQTEICPR MAIERTISIIKPDAVGKNVIGKIYSRFEENGLKIVAAKMKQLTLKEAQEFYAVHKDRPFYAGLVEFMTGGPVMIQVLEGENAVLKNRELMGATNPTEAAEGTIRADFATSVSINAVHGSDSVENAALEIAYFFSQTEICPR 5v6j-a2-m1-cC_5v6j-a2-m1-cD Glycan binding protein Y3 from mushroom Coprinus comatus possesses anti-leukemic activity G3BK00 G3BK00 1.18 X-RAY DIFFRACTION 66 1.0 56187 (Coprinus comatus) 56187 (Coprinus comatus) 111 111 5v6i-a1-m1-cA_5v6i-a1-m1-cB 5v6j-a1-m1-cA_5v6j-a1-m1-cB DPLSCYDNFGNRDVAACARFIDDFCDTLTPNIYRPRDNGQRCYVVNGHKCDFTVFNTNNGGSPIRASTPNCKTVLRAAANRCPTGGRGKINPSAPFLFAIDPNDGDCSTDF DPLSCYDNFGNRDVAACARFIDDFCDTLTPNIYRPRDNGQRCYVVNGHKCDFTVFNTNNGGSPIRASTPNCKTVLRAAANRCPTGGRGKINPSAPFLFAIDPNDGDCSTDF 5v6p-a1-m1-cA_5v6p-a1-m1-cB CryoEM structure of the ERAD-associated E3 ubiquitin-protein ligase HRD1 Q08109 Q08109 4.1 ELECTRON MICROSCOPY 67 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 270 270 LAIFVVVTYLLTFYCVYSATKTSVSFLQVTLKLNEGFNLMVLSIFILLNSTLLWQLLTKLLFGELRLIEHEHIFERLPFTIINTLFMSSLFHERYFFTVAFFGLLLLYLKVFHWILKDRLEALLQSINDSTTMKTLIFSRFSFNLVLLAVVDYQIITRCISSIYTNQKSDIESTSLYLIQVMEFTMLLIDLLNLFLQTCLNFWEFYRSQQSGKFMYEKAIDVFTRFLKTALHLSMLIPFRMPMMLLKDVVWDILALYQSGTSLWKIWRNN LAIFVVVTYLLTFYCVYSATKTSVSFLQVTLKLNEGFNLMVLSIFILLNSTLLWQLLTKLLFGELRLIEHEHIFERLPFTIINTLFMSSLFHERYFFTVAFFGLLLLYLKVFHWILKDRLEALLQSINDSTTMKTLIFSRFSFNLVLLAVVDYQIITRCISSIYTNQKSDIESTSLYLIQVMEFTMLLIDLLNLFLQTCLNFWEFYRSQQSGKFMYEKAIDVFTRFLKTALHLSMLIPFRMPMMLLKDVVWDILALYQSGTSLWKIWRNN 5v6t-a2-m2-cB_5v6t-a2-m5-cB The Plexin D1 intracellular region in complex with GIPC1 Q9Z0G0 Q9Z0G0 3.189 X-RAY DIFFRACTION 218 1.0 10090 (Mus musculus) 10090 (Mus musculus) 161 161 5v6b-a1-m1-cB_5v6b-a1-m1-cA 5v6t-a1-m1-cB_5v6t-a1-m3-cB PRLVFHTQLAHGSPTGRIEGFTNVKELYGKIAEAFRLPAAEVMFCTLNTHKVDMDKLLGGQIGLEDFIFAHVKGQRKEVEVFKSEEALGLTITDNGAGYAFIKRIKEGSVIDHIQLISVGDMIEAINGQSLLGCRHYEVARLLKELPRGRTFTLKLTEPRK PRLVFHTQLAHGSPTGRIEGFTNVKELYGKIAEAFRLPAAEVMFCTLNTHKVDMDKLLGGQIGLEDFIFAHVKGQRKEVEVFKSEEALGLTITDNGAGYAFIKRIKEGSVIDHIQLISVGDMIEAINGQSLLGCRHYEVARLLKELPRGRTFTLKLTEPRK 5v76-a1-m2-cB_5v76-a1-m3-cB Structure of Haliangium ochraceum BMC-T HO-3341 D0LV02 D0LV02 1.55 X-RAY DIFFRACTION 60 1.0 502025 (Haliangium ochraceum DSM 14365) 502025 (Haliangium ochraceum DSM 14365) 206 206 5v76-a1-m1-cA_5v76-a1-m2-cA 5v76-a1-m1-cA_5v76-a1-m3-cA 5v76-a1-m1-cB_5v76-a1-m2-cB 5v76-a1-m1-cB_5v76-a1-m3-cB 5v76-a1-m2-cA_5v76-a1-m3-cA MELRAYTVLDALQPQLVAFLQTVSTGFMPMEQQASVLVEIAPGIAVNQLTDAALKATRCQPGLQIVERAYGLIEMHDDDQGQVRAAGDAMLAHLGAREADRLAPRVVSSQIITGIDGHQSQLINRMRHGDMIQAGQTLYILEVHPAGYAALAANEAEKAAPIKLLEVVTFGAFGRLWLGGGEAEIAEAARAAEGALAGLSGRDNRG MELRAYTVLDALQPQLVAFLQTVSTGFMPMEQQASVLVEIAPGIAVNQLTDAALKATRCQPGLQIVERAYGLIEMHDDDQGQVRAAGDAMLAHLGAREADRLAPRVVSSQIITGIDGHQSQLINRMRHGDMIQAGQTLYILEVHPAGYAALAANEAEKAAPIKLLEVVTFGAFGRLWLGGGEAEIAEAARAAEGALAGLSGRDNRG 5v76-a1-m3-cA_5v76-a1-m3-cB Structure of Haliangium ochraceum BMC-T HO-3341 D0LV02 D0LV02 1.55 X-RAY DIFFRACTION 59 1.0 502025 (Haliangium ochraceum DSM 14365) 502025 (Haliangium ochraceum DSM 14365) 206 206 5v76-a1-m1-cA_5v76-a1-m1-cB 5v76-a1-m2-cA_5v76-a1-m2-cB MELRAYTVLDALQPQLVAFLQTVSTGFMPMEQQASVLVEIAPGIAVNQLTDAALKATRCQPGLQIVERAYGLIEMHDDDQGQVRAAGDAMLAHLGAREADRLAPRVVSSQIITGIDGHQSQLINRMRHGDMIQAGQTLYILEVHPAGYAALAANEAEKAAPIKLLEVVTFGAFGRLWLGGGEAEIAEAARAAEGALAGLSGRDNRG MELRAYTVLDALQPQLVAFLQTVSTGFMPMEQQASVLVEIAPGIAVNQLTDAALKATRCQPGLQIVERAYGLIEMHDDDQGQVRAAGDAMLAHLGAREADRLAPRVVSSQIITGIDGHQSQLINRMRHGDMIQAGQTLYILEVHPAGYAALAANEAEKAAPIKLLEVVTFGAFGRLWLGGGEAEIAEAARAAEGALAGLSGRDNRG 5v77-a1-m1-cB_5v77-a1-m1-cA Crystal structure of an uncharacterized protein from Neisseria gonorrhoeae Q5F7U7 Q5F7U7 1.85 X-RAY DIFFRACTION 65 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 104 106 HMKKNIFHNVSLYEIIFSDNGNTLTLSFTDTIEGNYFGYIKCSNILNFKLDTNNFVDYEDKEDSLFPLFIPEIELYKYQFYSEIIIDVGIIIKISAETINFEPL HMKKNIFHNVSLYEIIFSDNGNTLTLSFTDTIEGNYFGYIKCSNILNFKLDTNNFVDYEDKEDSLFPLFIPEIELYKYQFYSEIIIDVGIIIKISAETINFEPLGK 5v7b-a1-m1-cB_5v7b-a1-m1-cA Crystal structure of Influenza A virus matrix protein M1 (NLS-88E) P05777 P05777 2.5 X-RAY DIFFRACTION 33 0.981 381518 (Influenza A virus (A/Wilson-Smith/1933(H1N1))) 381518 (Influenza A virus (A/Wilson-Smith/1933(H1N1))) 156 159 6z5l-a1-m10-cA_6z5l-a1-m48-cA 6z5l-a1-m11-cA_6z5l-a1-m50-cA 6z5l-a1-m12-cA_6z5l-a1-m51-cA 6z5l-a1-m13-cA_6z5l-a1-m53-cA 6z5l-a1-m14-cA_6z5l-a1-m52-cA 6z5l-a1-m15-cA_6z5l-a1-m54-cA 6z5l-a1-m16-cA_6z5l-a1-m55-cA 6z5l-a1-m17-cA_6z5l-a1-m56-cA 6z5l-a1-m18-cA_6z5l-a1-m57-cA 6z5l-a1-m19-cA_6z5l-a1-m58-cA 6z5l-a1-m1-cA_6z5l-a1-m80-cA 6z5l-a1-m20-cA_6z5l-a1-m60-cA 6z5l-a1-m21-cA_6z5l-a1-m59-cA 6z5l-a1-m22-cA_6z5l-a1-m61-cA 6z5l-a1-m23-cA_6z5l-a1-m63-cA 6z5l-a1-m24-cA_6z5l-a1-m62-cA 6z5l-a1-m25-cA_6z5l-a1-m64-cA 6z5l-a1-m26-cA_6z5l-a1-m65-cA 6z5l-a1-m27-cA_6z5l-a1-m66-cA 6z5l-a1-m28-cA_6z5l-a1-m68-cA 6z5l-a1-m29-cA_6z5l-a1-m67-cA 6z5l-a1-m2-cA_6z5l-a1-m41-cA 6z5l-a1-m30-cA_6z5l-a1-m69-cA 6z5l-a1-m31-cA_6z5l-a1-m70-cA 6z5l-a1-m32-cA_6z5l-a1-m71-cA 6z5l-a1-m33-cA_6z5l-a1-m72-cA 6z5l-a1-m34-cA_6z5l-a1-m73-cA 6z5l-a1-m35-cA_6z5l-a1-m74-cA 6z5l-a1-m36-cA_6z5l-a1-m75-cA 6z5l-a1-m37-cA_6z5l-a1-m76-cA 6z5l-a1-m38-cA_6z5l-a1-m77-cA 6z5l-a1-m39-cA_6z5l-a1-m78-cA 6z5l-a1-m3-cA_6z5l-a1-m42-cA 6z5l-a1-m40-cA_6z5l-a1-m79-cA 6z5l-a1-m43-cA_6z5l-a1-m5-cA 6z5l-a1-m45-cA_6z5l-a1-m8-cA 6z5l-a1-m46-cA_6z5l-a1-m7-cA 6z5l-a1-m47-cA_6z5l-a1-m6-cA 6z5l-a1-m49-cA_6z5l-a1-m9-cA 6z5l-a1-m4-cA_6z5l-a1-m44-cA HSLLTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPLTKGILGFVFTLTVPQRRRFVQNALNGNEDPNNMDKAVKLYSKLKSEITFHGAKEIALSYSAGALASCMGLIYNRMGAVTTEVAFGLVCATCEQIADSQHRS MHHHHHHSLLTEVETYVLSIVPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPLTKGILGFVFTLTVPQRRRFVQNALNGNEDPNNMDKAVKLYSKLKSEITFHGAKEIALSYSAGALASCMGLIYNRMGAVTTEVAFGLVCATCEQIADSQ 5v7y-a3-m1-cB_5v7y-a3-m1-cA Prolyl 4-Hydroxylase Interacts with and Modifies Elongation Factor Tu A0A4Y1WAP5 A0A4Y1WAP5 2.05 X-RAY DIFFRACTION 79 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 206 207 3itq-a1-m1-cB_3itq-a1-m1-cA 5hv4-a1-m1-cA_5hv4-a1-m2-cA 5iat-a1-m1-cB_5iat-a1-m1-cA 5iav-a1-m1-cB_5iav-a1-m1-cA 5iax-a1-m1-cB_5iax-a1-m1-cA 5v7y-a1-m1-cB_5v7y-a1-m1-cA 5v7y-a2-m1-cD_5v7y-a2-m1-cC 5v7y-a3-m1-cD_5v7y-a3-m1-cC KEQTIFDHKGNVIKTEDREIQIISKFEEPLIVVLGNVLSDEECDELIELSKSKLARSKVGSSRDVNDIRTSSGAFLDDNELTAKIEKRISSIMNVPASHGEGLHILNYEVDQQYKAHYDYFAEHSRSAANNRISTLVMYLNDVEEGGETFFPKLNLSVHPRKGMAVYFEYFYQDQSLNELTLHGGAPVTKGEKWIATQWVRRGTYK NKEQTIFDHKGNVIKTEDREIQIISKFEEPLIVVLGNVLSDEECDELIELSKSKLARSKVGSSRDVNDIRTSSGAFLDDNELTAKIEKRISSIMNVPASHGEGLHILNYEVDQQYKAHYDYFAEHSRSAANNRISTLVMYLNDVEEGGETFFPKLNLSVHPRKGMAVYFEYFYQDQSLNELTLHGGAPVTKGEKWIATQWVRRGTYK 5v7y-a3-m1-cD_5v7y-a3-m1-cA Prolyl 4-Hydroxylase Interacts with and Modifies Elongation Factor Tu A0A4Y1WAP5 A0A4Y1WAP5 2.05 X-RAY DIFFRACTION 30 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 201 207 KEQTIFDHKGNVIKTEDREIQIISKFEEPLIVVLGNVLSDEECDELIELSKSKLARSRDVNDIRTSSGAFLDDNELTAKIEKRISSIMNVPASHGEGLHILNYEVDQQYKAHYDYFAEHSRSAANNRISTLVMYLNDVEEGGETFFPKLNLSVHPRKGMAVYFEYFYQDQSLNELTLHGGAPVTKGEKWIATQWVRRGTYK NKEQTIFDHKGNVIKTEDREIQIISKFEEPLIVVLGNVLSDEECDELIELSKSKLARSKVGSSRDVNDIRTSSGAFLDDNELTAKIEKRISSIMNVPASHGEGLHILNYEVDQQYKAHYDYFAEHSRSAANNRISTLVMYLNDVEEGGETFFPKLNLSVHPRKGMAVYFEYFYQDQSLNELTLHGGAPVTKGEKWIATQWVRRGTYK 5v7z-a1-m1-cE_5v7z-a1-m1-cG SSNMR Structure of the Human RIP1/RIP3 Necrosome Q9Y572 Q9Y572 NOT SOLID-STATE NMR 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 5v7z-a1-m1-cA_5v7z-a1-m1-cC PLVNIYNCSGVQVGD PLVNIYNCSGVQVGD 5v7z-a1-m1-cF_5v7z-a1-m1-cH SSNMR Structure of the Human RIP1/RIP3 Necrosome Q13546 Q13546 NOT SOLID-STATE NMR 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 5v7z-a1-m1-cB_5v7z-a1-m1-cD TIYNSTGIQIGAYNYMEI TIYNSTGIQIGAYNYMEI 5v84-a1-m1-cB_5v84-a1-m1-cD CECR2 in complex with Cpd6 (6-allyl-N,2-dimethyl-7-oxo-N-(1-(1-phenylethyl)piperidin-4-yl)-6,7-dihydro-1H-pyrrolo[2,3-c]pyridine-4-carboxamide) Q9BXF3 Q9BXF3 2.7 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 5v84-a1-m1-cA_5v84-a1-m1-cC DDFTAMYKVLDVVKAHKDSWPFLEPVDESYAPNYYQIIKAPMDISSMEKKLNGGLYCTKEEFVNDMKTMFRNCRKYNGESSEYTKMSDNLERCFHRAMMKH DDFTAMYKVLDVVKAHKDSWPFLEPVDESYAPNYYQIIKAPMDISSMEKKLNGGLYCTKEEFVNDMKTMFRNCRKYNGESSEYTKMSDNLERCFHRAMMKH 5v84-a1-m1-cD_5v84-a1-m1-cA CECR2 in complex with Cpd6 (6-allyl-N,2-dimethyl-7-oxo-N-(1-(1-phenylethyl)piperidin-4-yl)-6,7-dihydro-1H-pyrrolo[2,3-c]pyridine-4-carboxamide) Q9BXF3 Q9BXF3 2.7 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 102 5v84-a1-m1-cB_5v84-a1-m1-cC DDFTAMYKVLDVVKAHKDSWPFLEPVDESYAPNYYQIIKAPMDISSMEKKLNGGLYCTKEEFVNDMKTMFRNCRKYNGESSEYTKMSDNLERCFHRAMMKH DDDFTAMYKVLDVVKAHKDSWPFLEPVDESYAPNYYQIIKAPMDISSMEKKLNGGLYCTKEEFVNDMKTMFRNCRKYNGESSEYTKMSDNLERCFHRAMMKH 5v85-a1-m1-cA_5v85-a1-m1-cB The crystal structure of the protein of DegV family COG1307 from Ruminococcus gnavus ATCC 29149 (alternative refinement of PDB 3JR7 with Vaccenic acid) A7B6P0 A7B6P0 2.003 X-RAY DIFFRACTION 36 0.993 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 271 272 DSYKVIVDSCGEFTPEKADGGFEHVALGIQIEDTQWTDDDSLKQEELLLKIAESTSCAKTSCPSPERYESYHCDAERIYVVTLSAELSGSYNSAVLGKNLYEEEYGEKQIHVFNSRSASVGETLIALKVQQCEKAGTFEEVVESVECYIEEQHTYFVLENLDTLRKNGRLTGIKSAGALNIKPIGSTPQGTICQKEKARGKKALVKADCVAADVVNAGDKILAIAHCNCEERAKEVQRLLKERFAVKSSFIVDTSGISTVYANDGGIIVVV KDSYKVIVDSCGEFTPEKADGGFEHVALGIQIEDTQWTDDDSLKQEELLLKIAESTSCAKTSCPSPERYESYHCDAERIYVVTLSAELSGSYNSAVLGKNLYEEEYGEKQIHVFNSRSASVGETLIALKVQQCEKAGTFEEVVESVECYIEEQHTYFVLENLDTLRKNGRLTGIKSLVALNIKPIGSTPQGTICQKEKARGKKALVKADCVAADVVNAGDKILAIAHCNCEERAKEVQRLLKERFAVKSSFIVDTSGISTVYANDGGIIVVV 5v8k-a1-m1-cA_5v8k-a1-m2-cA Homodimeric reaction center of H. modesticaldum Q1MX24 Q1MX24 2.2 X-RAY DIFFRACTION 234 1.0 35701 (Heliomicrobium modesticaldum) 35701 (Heliomicrobium modesticaldum) 600 600 NPRAQVFEYFKLKVPATRGAVLKAHINHLGNVAAMVSFILVHHLSWDPATQGVLWAPATMFYARLYQLGLDAVALSPDALFVARMHLLAAIILWGFGHVKSPAEEKFLEKVTMGKALVAQFHFFALIATLWGLHMAFYGILGPSGKLEPTGLSFDMFGPITPATMAGNHVAFGAVFFLGGIFHYFAGFNTKRFAFFEKDWEAVLSVSCQILAFHFATVVFAMIIWQHPQLGFGFMREYAVSQYAGPELKMIAQSNPGLLVKQAILGHLVMGIMFWIGGVFHGAHFMLRVLNDPKLAEEMKDFKFIKRCYDHEFQKKFLALIMFGAFLPIFVSYGIATHNTIADIHAASKTGLFAHMTYINIGTPLHDAIFGSKGSISEFVAAHAIAGGLHFTMVPMWRMVFFSKVSPWTTKVGMKAKRDGEFPCLGPAYGGTCSISLVDQFYLAIFFSLQVIAPAWFYIDGCWMGSFVAVAAPYNDIYQAALATFNSHNPLHQLSPLTNMGYFSYIIQQTTAMFSRYDGHMIQALLGAHFIWAFTFSMLFQYRGSRDEGAMVLKWAHQQVGVGFAGKMYNRALSLKEGKAIGCFLFFKMTIVCMWALAMV NPRAQVFEYFKLKVPATRGAVLKAHINHLGNVAAMVSFILVHHLSWDPATQGVLWAPATMFYARLYQLGLDAVALSPDALFVARMHLLAAIILWGFGHVKSPAEEKFLEKVTMGKALVAQFHFFALIATLWGLHMAFYGILGPSGKLEPTGLSFDMFGPITPATMAGNHVAFGAVFFLGGIFHYFAGFNTKRFAFFEKDWEAVLSVSCQILAFHFATVVFAMIIWQHPQLGFGFMREYAVSQYAGPELKMIAQSNPGLLVKQAILGHLVMGIMFWIGGVFHGAHFMLRVLNDPKLAEEMKDFKFIKRCYDHEFQKKFLALIMFGAFLPIFVSYGIATHNTIADIHAASKTGLFAHMTYINIGTPLHDAIFGSKGSISEFVAAHAIAGGLHFTMVPMWRMVFFSKVSPWTTKVGMKAKRDGEFPCLGPAYGGTCSISLVDQFYLAIFFSLQVIAPAWFYIDGCWMGSFVAVAAPYNDIYQAALATFNSHNPLHQLSPLTNMGYFSYIIQQTTAMFSRYDGHMIQALLGAHFIWAFTFSMLFQYRGSRDEGAMVLKWAHQQVGVGFAGKMYNRALSLKEGKAIGCFLFFKMTIVCMWALAMV 5v96-a5-m1-cB_5v96-a5-m1-cD Crystal Structure of S-adenosyl-l-homocysteine Hydrolase from Naegleria fowleri with bound NAD and Adenosine A0A1Z0YU84 A0A1Z0YU84 2 X-RAY DIFFRACTION 28 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 464 465 5v96-a5-m1-cC_5v96-a5-m1-cA IEYQVKDMSLASLGRKRIEMAEKEMPGLMACRAKYGEEKPLNGVRITGSLHMTVETAVLIETLKAIGGNIRWCSCNIFSTQDDAAAAIAAANTPVFAWKGETLVEYWECTWKAIRFGPYQGPQLIVDDGGDATLLIHRGFQAEKEPSILDEDGGVEELRIVNNLLKRILKEEPGFFSKIVPDIKGVSEETTTGVHRLYAMQKQGTLLFPAINVNDSVTKSKFDNIYGCRHSLLDGLNRATDVMLAGKECVICGFGDVGKGCAEALKGQGARVIVTEIDPINALQACMAGYTVKTVEDCLATADIYVTATGNKDIITLDHMKKMKDMAIICNIGHFDNEIDVLGLKTCEGVKEINIKPQVDQFLFPDGHSIILLAQGRLVNLGCATGHPAFVMSASFTNQTLAQISLWKDKYEIGVYTLPKVLDEEVARLHLEKLGAKLTKLTTSQADYIGVNANGPYKADHYRY TIEYQVKDMSLASLGRKRIEMAEKEMPGLMACRAKYGEEKPLNGVRITGSLHMTVETAVLIETLKAIGGNIRWCSCNIFSTQDDAAAAIAAANTPVFAWKGETLVEYWECTWKAIRFGPYQGPQLIVDDGGDATLLIHRGFQAEKEPSILDEDGGVEELRIVNNLLKRILKEEPGFFSKIVPDIKGVSEETTTGVHRLYAMQKQGTLLFPAINVNDSVTKSKFDNIYGCRHSLLDGLNRATDVMLAGKECVICGFGDVGKGCAEALKGQGARVIVTEIDPINALQACMAGYTVKTVEDCLATADIYVTATGNKDIITLDHMKKMKDMAIICNIGHFDNEIDVLGLKTCEGVKEINIKPQVDQFLFPDGHSIILLAQGRLVNLGCATGHPAFVMSASFTNQTLAQISLWKDKYEIGVYTLPKVLDEEVARLHLEKLGAKLTKLTTSQADYIGVNANGPYKADHYRY 5v96-a5-m1-cC_5v96-a5-m1-cD Crystal Structure of S-adenosyl-l-homocysteine Hydrolase from Naegleria fowleri with bound NAD and Adenosine A0A1Z0YU84 A0A1Z0YU84 2 X-RAY DIFFRACTION 163 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 465 465 5v96-a5-m1-cB_5v96-a5-m1-cA TIEYQVKDMSLASLGRKRIEMAEKEMPGLMACRAKYGEEKPLNGVRITGSLHMTVETAVLIETLKAIGGNIRWCSCNIFSTQDDAAAAIAAANTPVFAWKGETLVEYWECTWKAIRFGPYQGPQLIVDDGGDATLLIHRGFQAEKEPSILDEDGGVEELRIVNNLLKRILKEEPGFFSKIVPDIKGVSEETTTGVHRLYAMQKQGTLLFPAINVNDSVTKSKFDNIYGCRHSLLDGLNRATDVMLAGKECVICGFGDVGKGCAEALKGQGARVIVTEIDPINALQACMAGYTVKTVEDCLATADIYVTATGNKDIITLDHMKKMKDMAIICNIGHFDNEIDVLGLKTCEGVKEINIKPQVDQFLFPDGHSIILLAQGRLVNLGCATGHPAFVMSASFTNQTLAQISLWKDKYEIGVYTLPKVLDEEVARLHLEKLGAKLTKLTTSQADYIGVNANGPYKADHYRY TIEYQVKDMSLASLGRKRIEMAEKEMPGLMACRAKYGEEKPLNGVRITGSLHMTVETAVLIETLKAIGGNIRWCSCNIFSTQDDAAAAIAAANTPVFAWKGETLVEYWECTWKAIRFGPYQGPQLIVDDGGDATLLIHRGFQAEKEPSILDEDGGVEELRIVNNLLKRILKEEPGFFSKIVPDIKGVSEETTTGVHRLYAMQKQGTLLFPAINVNDSVTKSKFDNIYGCRHSLLDGLNRATDVMLAGKECVICGFGDVGKGCAEALKGQGARVIVTEIDPINALQACMAGYTVKTVEDCLATADIYVTATGNKDIITLDHMKKMKDMAIICNIGHFDNEIDVLGLKTCEGVKEINIKPQVDQFLFPDGHSIILLAQGRLVNLGCATGHPAFVMSASFTNQTLAQISLWKDKYEIGVYTLPKVLDEEVARLHLEKLGAKLTKLTTSQADYIGVNANGPYKADHYRY 5v96-a5-m1-cD_5v96-a5-m1-cA Crystal Structure of S-adenosyl-l-homocysteine Hydrolase from Naegleria fowleri with bound NAD and Adenosine A0A1Z0YU84 A0A1Z0YU84 2 X-RAY DIFFRACTION 104 0.998 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 465 466 5v96-a5-m1-cB_5v96-a5-m1-cC TIEYQVKDMSLASLGRKRIEMAEKEMPGLMACRAKYGEEKPLNGVRITGSLHMTVETAVLIETLKAIGGNIRWCSCNIFSTQDDAAAAIAAANTPVFAWKGETLVEYWECTWKAIRFGPYQGPQLIVDDGGDATLLIHRGFQAEKEPSILDEDGGVEELRIVNNLLKRILKEEPGFFSKIVPDIKGVSEETTTGVHRLYAMQKQGTLLFPAINVNDSVTKSKFDNIYGCRHSLLDGLNRATDVMLAGKECVICGFGDVGKGCAEALKGQGARVIVTEIDPINALQACMAGYTVKTVEDCLATADIYVTATGNKDIITLDHMKKMKDMAIICNIGHFDNEIDVLGLKTCEGVKEINIKPQVDQFLFPDGHSIILLAQGRLVNLGCATGHPAFVMSASFTNQTLAQISLWKDKYEIGVYTLPKVLDEEVARLHLEKLGAKLTKLTTSQADYIGVNANGPYKADHYRY TTTIEYQVKDMSLALGRKRIEMAEKEMPGLMACRAKYGEEKPLNGVRITGSLHMTVETAVLIETLKAIGGNIRWCSCNIFSTQDDAAAAIAAANTPVFAWKGETLVEYWECTWKAIRFGPYQGPQLIVDDGGDATLLIHRGFQAEKEPSILDEDGGVEELRIVNNLLKRILKEEPGFFSKIVPDIKGVSEETTTGVHRLYAMQKQGTLLFPAINVNDSVTKSKFDNIYGCRHSLLDGLNRATDVMLAGKECVICGFGDVGKGCAEALKGQGARVIVTEIDPINALQACMAGYTVKTVEDCLATADIYVTATGNKDIITLDHMKKMKDMAIICNIGHFDNEIDVLGLKTCEGVKEINIKPQVDQFLFPDGHSIILLAQGRLVNLGCATGHPAFVMSASFTNQTLAQISLWKDKYEIGVYTLPKVLDEEVARLHLEKLGAKLTKLTTSQADYIGVNANGPYKADHYRY 5va4-a1-m2-cA_5va4-a1-m3-cA TRIM-Cyclophilin A B-box 2 and coiled-coil chimera Q68KK2 Q68KK2 2.306 X-RAY DIFFRACTION 10 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 123 123 5va4-a1-m1-cA_5va4-a1-m2-cA 5va4-a1-m1-cA_5va4-a1-m3-cA DHCAHHGEKLVLFCQQDGNVICWLCERSQEHRGHQTFLVEEVAQKYREKLQVALEMMRQKQKDAETECNQVAKRVALIARGKACGEQTQSVRVLISDLEHRLQGSVMELLQGVDGVIKRIEKV DHCAHHGEKLVLFCQQDGNVICWLCERSQEHRGHQTFLVEEVAQKYREKLQVALEMMRQKQKDAETECNQVAKRVALIARGKACGEQTQSVRVLISDLEHRLQGSVMELLQGVDGVIKRIEKV 5va8-a1-m1-cA_5va8-a1-m1-cD Crystal Structure of Short-chain dehydrogenase/reductase SDR from Burkholderia phymatum in complex with NADP B2JE32 B2JE32 1.6 X-RAY DIFFRACTION 30 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 261 261 5va8-a1-m1-cB_5va8-a1-m1-cC HHMDLGIAGKSALVCAASKGLGRGCAEALAAEGVNVTIVARTPETLDATAAAIRANAGVDVQAVACDITTPEGRAAALAACPQPDILVNNAGGPPPGDFRNFTHDDWIRALEANMLTPIELIRATIDGMISRGFGRVVNITSSSVKAPIDVLGLSNGARSGLTGFIAGVARKVAPNGVTINNLLPGIFDTDRIAVTFDAAAKAQNISVDEARKQRMATIPARRFGTPDEFGRACAFLCSVHAGYITGQNWLIDGGAYPGTY HHMDLGIAGKSALVCAASKGLGRGCAEALAAEGVNVTIVARTPETLDATAAAIRANAGVDVQAVACDITTPEGRAAALAACPQPDILVNNAGGPPPGDFRNFTHDDWIRALEANMLTPIELIRATIDGMISRGFGRVVNITSSSVKAPIDVLGLSNGARSGLTGFIAGVARKVAPNGVTINNLLPGIFDTDRIAVTFDAAAKAQNISVDEARKQRMATIPARRFGTPDEFGRACAFLCSVHAGYITGQNWLIDGGAYPGTY 5va8-a1-m1-cB_5va8-a1-m1-cD Crystal Structure of Short-chain dehydrogenase/reductase SDR from Burkholderia phymatum in complex with NADP B2JE32 B2JE32 1.6 X-RAY DIFFRACTION 93 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 261 261 5va8-a1-m1-cA_5va8-a1-m1-cC HHMDLGIAGKSALVCAASKGLGRGCAEALAAEGVNVTIVARTPETLDATAAAIRANAGVDVQAVACDITTPEGRAAALAACPQPDILVNNAGGPPPGDFRNFTHDDWIRALEANMLTPIELIRATIDGMISRGFGRVVNITSSSVKAPIDVLGLSNGARSGLTGFIAGVARKVAPNGVTINNLLPGIFDTDRIAVTFDAAAKAQNISVDEARKQRMATIPARRFGTPDEFGRACAFLCSVHAGYITGQNWLIDGGAYPGTY HHMDLGIAGKSALVCAASKGLGRGCAEALAAEGVNVTIVARTPETLDATAAAIRANAGVDVQAVACDITTPEGRAAALAACPQPDILVNNAGGPPPGDFRNFTHDDWIRALEANMLTPIELIRATIDGMISRGFGRVVNITSSSVKAPIDVLGLSNGARSGLTGFIAGVARKVAPNGVTINNLLPGIFDTDRIAVTFDAAAKAQNISVDEARKQRMATIPARRFGTPDEFGRACAFLCSVHAGYITGQNWLIDGGAYPGTY 5va8-a1-m1-cC_5va8-a1-m1-cD Crystal Structure of Short-chain dehydrogenase/reductase SDR from Burkholderia phymatum in complex with NADP B2JE32 B2JE32 1.6 X-RAY DIFFRACTION 146 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 261 261 5va8-a1-m1-cA_5va8-a1-m1-cB HHMDLGIAGKSALVCAASKGLGRGCAEALAAEGVNVTIVARTPETLDATAAAIRANAGVDVQAVACDITTPEGRAAALAACPQPDILVNNAGGPPPGDFRNFTHDDWIRALEANMLTPIELIRATIDGMISRGFGRVVNITSSSVKAPIDVLGLSNGARSGLTGFIAGVARKVAPNGVTINNLLPGIFDTDRIAVTFDAAAKAQNISVDEARKQRMATIPARRFGTPDEFGRACAFLCSVHAGYITGQNWLIDGGAYPGTY HHMDLGIAGKSALVCAASKGLGRGCAEALAAEGVNVTIVARTPETLDATAAAIRANAGVDVQAVACDITTPEGRAAALAACPQPDILVNNAGGPPPGDFRNFTHDDWIRALEANMLTPIELIRATIDGMISRGFGRVVNITSSSVKAPIDVLGLSNGARSGLTGFIAGVARKVAPNGVTINNLLPGIFDTDRIAVTFDAAAKAQNISVDEARKQRMATIPARRFGTPDEFGRACAFLCSVHAGYITGQNWLIDGGAYPGTY 5vae-a5-m1-cE_5vae-a5-m1-cG Crystal structure of accessory secretion protein 1 and 3 Q9AET9 Q9AET9 3.106 X-RAY DIFFRACTION 92 0.998 1302 (Streptococcus gordonii) 1302 (Streptococcus gordonii) 504 504 5vae-a5-m1-cC_5vae-a5-m1-cA 5vae-a5-m1-cE_5vae-a5-m1-cC 5vae-a5-m1-cG_5vae-a5-m1-cA YYFIPSWSGSGKRVWHRDIIPWYRSQRLEFDDTIHQIRIFHSENLPVKLLLQAYPHARYFLHRQDIFETEYYSVFDEIQAVESNDQVLQIKDLEWEDDCEFIYTPFLIIVRRQGQLYAHVEFGVEGFISFIKFFKDDQLEKLNIFDDRGFVSSIVYYEDGQEVCQDYLNPNGDWRIREYLKFHVVVNPVFSRDFDKLEYECPDLILEKLGYYISHNVEEDSRFVVAAQPFTNQGVLDLLPQHSHSILSFFHERNQASNIENLKADLEYADLVLTDRDFKETLQNYFPLQAEKIHYLSPFDTRLQLGKSQQRHESKIFYQIDLSELLNDYAIFKVLFYVAQHPDTELVIGVYNAWQEGIKQVENKVEELISDYLDLKDFIKKSFKNNQLEYRFRIRNITDELSLIQELDDTRLIIDLSQQPNLYTQIAGISAGIPQINLVASDYVTHLQNGYILDSISQLAVAADYYLQGLKNWNQALIYSIEKIKLNTGHQVIKRWEKWLKEAI YYFIPSWSGSGKRVWHRDIIPWYRSQRLEFDDTIHQIRIFHSENLPVKLLLQAYPHARYFLHRQDIFETEYYSVFDEIQAVESNDQVLQIKDLEWEDDCEFIYTPFLIIVRRQGQLYAHVEFGVEGFISFIKFFKDDQLEKLNIFDDRGFVSSIVYYEDGQEVCQDYLNPNGDWRIREYLKFSHVVVNPVFSRDFDKLEYECPDLILEKLGYYISHNVEEDSRFVVAAQPFTNQGVLDLLPQHSHSILSFFHERNQASNIENLKADLEYADLVLTDRDFKETLQNYFPLQAEKIHYLSPFDTRLQLGKSQQRHESKIFYQIDLSELLNDYAIFKVLFYVAQHPDTELVIGVYNAWQEGIKQVENKVEELISDYLDLKDFIKKSFKNNLEYRFRIRNITDELSLIQELDDTRLIIDLSQQPNLYTQIAGISAGIPQINLVASDYVTHLQNGYILDSISQLAVAADYYLQGLKNWNQALIYSIEKIKLNTGHQVIKRWEKWLKEAI 5vaz-a3-m1-cA_5vaz-a3-m1-cB Crystal structure of a DNA primase domain from Pseudomonas aeruginosa Q9I5W0 Q9I5W0 2.4 X-RAY DIFFRACTION 47 0.994 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 320 321 DSPLYPLLSAAAEFYKQALKSHPARKAAVNYLKGRGLTGEIARDFGLGFAPPGWDNLLKHLGGDNLQLKAMLDAGLLVENSDTGKRYDRFRDRVMFPIRDSRGRIIAFGGRVLGDDKPKYLNSPETPVFHKGQELYGLYEARQKNRDLDEIMVVEGYMDVIALAQQGIRNAVATLGTATSEEHIKRLFRLVPSILFCFDGDQAGRKAAWRALESVLPNLQDGKRVRFLFLPEGEDPDSLVRAEGEDAFRARITQQAQPLAEYFFQQLMLEADPATLEGKAHLATLAAPLLEKIPGNNLRLLMRQRLSEITGLSGENIGQL PLYPLLSAAAEFYKQALKSHPARKAAVNYLKGRGLTGEIARDFGLGFAPPGWDNLLKHLGGDNLQLKAMLDAGLLVENSDTGKRYDRFRDRVMFPIRDSRGRIIAFGGRVLGDDKPKYLNSPETPVFHKGQELYGLYEARQKNRDLDEIMVVEGYMDVIALAQQGIRNAVATLGTATSEEHIKRLFRLVPSILFCFDGDQAGRKAAWRALESVLPNLQDGKRVRFLFLPEGEDPDSLVRAEGEDAFRARITQQAQPLAEYFFQQLMLEADPATLEGKAHLATLAAPLLEKIPGNNLRLLMRQRLSEITGLSGENIGQLAHH 5vb9-a1-m1-cA_5vb9-a1-m2-cA IL-17A in complex with peptide Q16552 Q16552 1.7 X-RAY DIFFRACTION 151 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 4hr9-a1-m1-cB_4hr9-a1-m1-cA 5hhx-a1-m1-cA_5hhx-a1-m2-cA 5n7w-a1-m1-cY_5n7w-a1-m1-cX 5vb9-a2-m1-cB_5vb9-a2-m2-cB 7ama-a1-m1-cB_7ama-a1-m1-cA 7wkx-a1-m1-cE_7wkx-a1-m1-cF 7z2m-a1-m1-cK_7z2m-a1-m1-cJ GDKNFPRTVMVNLNIHNSDYYDRSTSPWNLHRNEDPERYPSVIWEAKCRHLGCINADGNVDYHMNSVPIQQEILVLRREPPHSPNSFRLEKILVSVGCTCVTPIVHHV GDKNFPRTVMVNLNIHNSDYYDRSTSPWNLHRNEDPERYPSVIWEAKCRHLGCINADGNVDYHMNSVPIQQEILVLRREPPHSPNSFRLEKILVSVGCTCVTPIVHHV 5vbd-a2-m1-cA_5vbd-a2-m2-cA Crystal structure of a putative UBL domain of USP9X Q93008 Q93008 1.5 X-RAY DIFFRACTION 159 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 GAFRGKHLSFVVRFPNDDLEVWSHTNDTIGSVRRCILNRIKANVAHTKIELFVGGELIDPADDRKLIGQLNLKDKSLITAKLTQI GAFRGKHLSFVVRFPNDDLEVWSHTNDTIGSVRRCILNRIKANVAHTKIELFVGGELIDPADDRKLIGQLNLKDKSLITAKLTQI 5vbu-a4-m1-cB_5vbu-a4-m1-cC Crystal Structure of Human Cytochrome P450 21A2 Hydroxyprogesterone Complex Q16874 Q16874 3.31 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 441 442 5vbu-a4-m1-cA_5vbu-a4-m1-cC 5vbu-a4-m1-cB_5vbu-a4-m1-cA KLPPLAPGFLHLLQPDLPIYLLGLTQKFGPIYRLHLGLQDVVVLNSKRTIEEAMVKKWADFAGRPEPLTYKLVSRNYPDLSLGDYSLLWKAHKKLTRSALLLGIRDSMEPVVEQLTQEFCERMRAQPGTPVAIEEEFSLLTCSIICYLTFGDKIKDDNLMPAYYKCIQEVLKTWSHWSIQIVDVIPFLRFFPNPGLRRLKQAIEKRDHIVEMQLRQHKESLVAGQWRDMMDYMLQGVAGQLLEGHVHMAAVDLLIGGTETTANTLSWAVVFLLHHPEIQQRLQEELDHESRVPYKDRARLPLLNATIAEVLRLRPVVPLALPHRTTRPSSISGYDIPEGTVIIPNLQGAHLDETVWERPHEFWPDRFLEPGKNSRALAFGCGARVCLGEPLARLELFVVLTRLLQAFTLLPSGDALPSLQPLPHCSVILKMQPFQVRLQPR KLPPLAPGFLHLLQPDLPIYLLGLTQKFGPIYRLHLGLQDVVVLNSKRTIEEAMVKKWADFAGRPEPLTYKLVSRNYPDLSLGDYSLLWKAHKKLTRSALLLGIRDSMEPVVEQLTQEFCERMRAQPGTPVAIEEEFSLLTCSIICYLTFGDKIKDDNLMPAYYKCIQEVLKTWSHWSIQIVDVIPFLRFFPNPGLRRLKQAIEKRDHIVEMQLRQHKESLVAGQWRDMMDYMLQGVAGQLLEGHVHMAAVDLLIGGTETTANTLSWAVVFLLHHPEIQQRLQEELDHESRVPYKDRARLPLLNATIAEVLRLRPVVPLALPHRTTRPSSISGYDIPEGTVIIPNLQGAHLDETVWERPHEFWPDRFLEPGKNSRALAFGCGARVCLGEPLARLELFVVLTRLLQAFTLLPSGDALPSLQPLPHCSVILKMQPFQVRLQPRG 5vc2-a1-m1-cB_5vc2-a1-m1-cA Crystal structure of a serine hydroxymethyltransferase from Helicobacter pylori B5Z9V7 B5Z9V7 1.9 X-RAY DIFFRACTION 166 0.995 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 380 386 6f93-a1-m1-cB_6f93-a1-m1-cA AYFLEQTDSEIFELIFEEYKRQNEHLEMIASENYTFPSVMEAMGSILTNKYAVDKIESLAIERAKKLFNCQFANVQAHSGSQANNAVYHALLKPYDKILGMDGKHYQSFSYGVNLDGYIDYEEALKIAQSVKPEIIVCGFSAYPREIDFKKFREIADEVGALLLGDIAHVAGLVVTNEHAHPFPHCHVVSSTTHKTLRGPRGGIILTNDEEIAAKIDKAIFGPLMHVIAAKAVGFKENLKPEFKAYAKLVKSNMQVLAKALKEKNHKLVSGGTSNHLLLMDFLDKPYSGKDADIALGNAGITVNKNTIPGETRSPFVTSGIRIGSAALSARGMGAKEFEIIGNKISDILNDINNVSLQLHVKEELKAMANQFPVYQQPIF YFLEQTDSEIFELIFEEYKRQNEHLEMIASENYTFPSVMEAMGSILTNKYAVVDKIESLAIERAKKLFNCQFANVQAHSGSQANNAVYHALLKPYDKILGMDLSCVSLTGKHYQSFSYGVNLDGYIDYEEALKIAQSVKPEIIVCGFSAYPREIDFKKFREIADEVGALLLGDIAHVAGLVVTNEHAHPFPHCHVVSSTTHKTLRGPRGGIILTNDEEIAAKIDKAIGPLMHVIAAKAVGFKENLKPEFKAYAKLVKSNMQVLAKALKEKNHKLVSGGTSNHLLLMDFLDKPYSGKDADIALGNAGITVNKNTIPGETRSPFVTSGIRIGSAALSARGMGAKEFEIIGNKISDILNDINNVSLQLHVKEELKAMANQFPVYQQPIF 5vcs-a1-m1-cB_5vcs-a1-m1-cA Alpha-1,6-mannosyl-glycoprotein 2-beta-N-acetylglucosaminyltransferase with Bound Acceptor Q10469 Q10469 2.799 X-RAY DIFFRACTION 75 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 323 354 NLTLRYRSLVYQLNFDQTLRNVDKATWAPRELVLVVQVHNRPEYLRLLLDSLRKAQGIDNVLVIFSHDFWSTEINQLIAGVNFCPVLQVFFPFSIQLYPNEFPGSDPRDCPRDLPKNAALKLGCINAEYPDSFGHYREAKFSQTKHHWWWKLHFVWERVKILRDYAGLILFLEEDHYLAPDFYHVFKKMWKLKQQECPECDVLSLGTGMADKVDVKTWKSTEHNMGLALTRNAYQKLIECTDTFCTYDDYNWDWTLQYLTVSCLPKFWKVLVPQIPRIFHAMFPETLTISEKFTVVAISPPRKNGGWGDIRDHELCKSYRRLQ VPQPEADNLTLRYRSLVYQLNFDQTLRNVDKAGTWAPRELVLVVQVHNRPEYLRLLLDSLRKAQGIDNVLVIFSHDFWSTEINQLIAGVNFCPVLQVFFPFSIQLYPNEFPGSDPRDCPRDLPKNAALKLGCINAEYPDSFGHYREAKFSQTKHHWWWKLHFVWERVKILRDYAGLILFLEEDHYLAPDFYHVFKKMWKLKQQECPECDVLSLGTYSASRSFYGMADKVDVKTWKSTEHNMGLALTRNAYQKLIECTDTFCTYDDYNWDWTLQYLTVSCLPKFWKVLVPQIPRIFHAGRPSTQSAQIESLLNNNKQYMFPETLTISEVVAISPPRKNGGWGDIRDHELCKSYRR 5vdn-a1-m1-cA_5vdn-a1-m1-cB 1.55 Angstrom Resolution Crystal Structure of Glutathione Reductase from Yersinia pestis in Complex with FAD Q8CZL0 Q8CZL0 1.55 X-RAY DIFFRACTION 256 1.0 187410 (Yersinia pestis KIM10+) 187410 (Yersinia pestis KIM10+) 449 449 TKHYDYLAIGGGSGGIASINRAAMYGKKCALIEAKQLGGTCVNVGCVPKKVMWHAAQIAEAIHLYGPDYGFDTTVNHFDWKKLIANRTAYIDRIHQSYERGLGNNKVDVIQGFARFVDAHTVEVNGETITADHILIATGGRPSHPDIPGAEYGIDSDGFFELDEMPKRVAVVGAGYIAVEIAGVLNGLGTETHLFVRKHAPLRTFDPLIVETLLEVMNTEGPKLHTESVPKAVIKNADGSLTLQLENGTEVTVDHLIWAIGREPATDNLNLSVTGVKTNDKGYIEVDKFQNTNVKGIYAVGDNTGVVELTPVAVAAGRRLSERLFNNKPDEHLDYSNIPTVVFSHPPIGTIGLTEPQAREKFGDDQVKVYTSSFTAMYSAVTQHRQPCRMKLVCVGAEEKIVGIHGIGFGMDEILQGFAVAMKMGATKKDFDNTVAIHPTAAEEFVTMR TKHYDYLAIGGGSGGIASINRAAMYGKKCALIEAKQLGGTCVNVGCVPKKVMWHAAQIAEAIHLYGPDYGFDTTVNHFDWKKLIANRTAYIDRIHQSYERGLGNNKVDVIQGFARFVDAHTVEVNGETITADHILIATGGRPSHPDIPGAEYGIDSDGFFELDEMPKRVAVVGAGYIAVEIAGVLNGLGTETHLFVRKHAPLRTFDPLIVETLLEVMNTEGPKLHTESVPKAVIKNADGSLTLQLENGTEVTVDHLIWAIGREPATDNLNLSVTGVKTNDKGYIEVDKFQNTNVKGIYAVGDNTGVVELTPVAVAAGRRLSERLFNNKPDEHLDYSNIPTVVFSHPPIGTIGLTEPQAREKFGDDQVKVYTSSFTAMYSAVTQHRQPCRMKLVCVGAEEKIVGIHGIGFGMDEILQGFAVAMKMGATKKDFDNTVAIHPTAAEEFVTMR 5ve6-a1-m1-cA_5ve6-a1-m2-cA Crystal structure of Sugen kinase 223 Q86YV5 Q86YV5 2.953 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 348 348 NISSKEGTYAKLGGLYTQSLARLVAKCEDLFMGFNENNWSLFKLTCNKPCCDSGDAIYYCATCSEDPGSTYAVKICKAPSVPVHFNIQQDCGHFVASVPSSMLSAQEQDCVVVITREVPHQTASDFVRDSAASHQAEPEAYERRVCFLLLQLCNGLEHLKEHGIIHRDLCLENLLLVHCTLQLPRLIISNFLAPEIVSASQYRKFDEFQTGILIYELLHQPNPFEVRAQLRERDYRQEDLPPLPALSLYSPGLQQLAHLLLEADPIKRIRIGEAKRVLQCLLWGPRREALCGTLHNWIDMKRALMMMKFAEKAVDRRRGVELEDWLCCQYLASAEPGALLQSLKLLQL NISSKEGTYAKLGGLYTQSLARLVAKCEDLFMGFNENNWSLFKLTCNKPCCDSGDAIYYCATCSEDPGSTYAVKICKAPSVPVHFNIQQDCGHFVASVPSSMLSAQEQDCVVVITREVPHQTASDFVRDSAASHQAEPEAYERRVCFLLLQLCNGLEHLKEHGIIHRDLCLENLLLVHCTLQLPRLIISNFLAPEIVSASQYRKFDEFQTGILIYELLHQPNPFEVRAQLRERDYRQEDLPPLPALSLYSPGLQQLAHLLLEADPIKRIRIGEAKRVLQCLLWGPRREALCGTLHNWIDMKRALMMMKFAEKAVDRRRGVELEDWLCCQYLASAEPGALLQSLKLLQL 5ve9-a1-m1-cA_5ve9-a1-m1-cB Structure of hACF7 EF1-EF2-GAR domains Q9UPN3 Q9UPN3 2.795 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 91 GHMANFDFDVWRKKYMRWMNHKKSRVMDFFRRIDKDQDGKITRQEFIDGILASKFPTTKLEMTAVADIFDRDGDGYIDYYEFVAALHP GPGGHMANFDFDVWRKKYMRWMNHKKSRVMDFFRRIDKDQDGKITRQEFIDGILASKFPTTKLEMTAVADIFDRDGDGYIDYYEFVAALHP 5veh-a1-m1-cB_5veh-a1-m1-cA Re-refinement OF THE PDB STRUCTURE 1yiz of Aedes aegypti kynurenine aminotransferase Q17CS8 Q17CS8 1.55 X-RAY DIFFRACTION 214 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 398 410 1yiy-a1-m1-cA_1yiy-a1-m1-cB 1yiz-a1-m1-cA_1yiz-a1-m1-cB 2r5c-a1-m1-cA_2r5c-a1-m1-cB 2r5e-a1-m1-cA_2r5e-a1-m1-cB KFDLPKRYQGSTKSVWVEYIQLAAQYKPLNLGQGFPDYHAPKYALNALAAAANSPDPLANQYTRGFGHPRLVQALSKLYSQLVDRTINPMTEVLVTVGAYEALYATIQGHVDEGDEVIIIEPFFDCYEPMVKAAGGIPRFIPLKPNISSADWVLDNNELEALFNEKTKMIIINTPHNPLGKVMDRAELEVVANLCKKWNVLCVSDEVYEHMVFEPFEHIRICTLPGMWERTITIGSAGTFSLTGWKIGWAYGPEALLKNLQMVHQNCVYTCATPIQEAIAVGFETELKRLKSPECYFNSISGELMAKRDYMASFLAEVGMNPTVPQGGYFMVADWSSLARKDYRFTKWMTKSVGLQGIPPSAFYSEPNKHLGEDFVRYCFFKKDENLQKAAEILRKWK KFDLPKRYQGSTKSVWVEYIQLAAQYKPLNLGQGFPDYHAPKYALNALAAAANSPDPLANQYTRGFGHPRLVQALSKLYSQLVDRTINPMTEVLVTVGAYEALYATIQGHVDEGDEVIIIEPFFDCYEPMVKAAGGIPRFIPLKPNISSADWVLDNNELEALFNEKTKMIIINTPHNPLGKVMDRAELEVVANLCKKWNVLCVSDEVYEHMVFEPFEHIRICTLPGMWERTITIGSAGTFSLTGWKIGWAYGPEALLKNLQMVHQNCVYTCATPIQEAIAVGFETELKRLKSPECYFNSISGELMAKRDYMASFLAEVGMNPTVPQGGYFMVADWSSLDSKVDLTQETDARKDYRFTKWMTKSVGLQGIPPSAFYSEPNKHLGEDFVRYCFFKKDENLQKAAEILRKWKG 5ves-a1-m1-cA_5ves-a1-m1-cB The 2.4A crystal structure of OmpA domain of OmpA from Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S A0A0F6AZN3 A0A0F6AZN3 2.4 X-RAY DIFFRACTION 33 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 126 127 4erh-a3-m2-cB_4erh-a3-m1-cA 4rha-a2-m2-cB_4rha-a2-m1-cA QTKHFTLKSDVLFNFNKSTLKPEGQQALDQLYSQLSNLDPKDGSVVVLGFTDRIGSDAYNQGLSEKRAQSVVDYLISKGIPSDKISARGGESNPVTGNTCDNVKPRAALIDCLAPDRRVEIEVKGV QTKHFTLKSDVLFNFNKSTLKPEGQQALDQLYSQLSNLDPKDGSVVVLGFTDRIGSDAYNQGLSEKRAQSVVDYLISKGIPSDKISARGGESNPVTGNTCDNVKPRAALIDCLAPDRRVEIEVKGVK 5vf5-a2-m2-cA_5vf5-a2-m3-cA Crystal structure of the vicilin from Solanum melongena, re-refinement A0A2R2JFS1 A0A2R2JFS1 1.49 X-RAY DIFFRACTION 214 1.0 4111 (Solanum melongena) 4111 (Solanum melongena) 369 369 5vf5-a2-m1-cA_5vf5-a2-m2-cA 5vf5-a2-m1-cA_5vf5-a2-m3-cA QQEENVPYLFKSQRFQSRFRASHGDFRILPKFTQRSQLLRGIEKFRVSVIELEPQSFMLPHHDGEAIFVVVRGQGTISIAEQDEKNSFNLERGDVLRLHGGSTIHLLNRDNNEKFFVYVLAKSVNAPGQVQEYFSAGGENPESFYRAFSSDILESAFNTQRDRIERLFRQQKQGAIIKASEEQIRAISEHASRTQGPFNLMKERPQFGSRFGQFIEASPERFEQLRDLDAAVAFMNINQGGMVLPYYNSRSTRVVMVVEGNARFEMACPHLGGEVHYQKVRGNLNVGDVLVIPAGHPITFIATGGSNFRVVGFGINAMFNRKNFLAGRENIWRNIDREAKELSFNMPGREVEEIFQKQDQSYFVAGPEH QQEENVPYLFKSQRFQSRFRASHGDFRILPKFTQRSQLLRGIEKFRVSVIELEPQSFMLPHHDGEAIFVVVRGQGTISIAEQDEKNSFNLERGDVLRLHGGSTIHLLNRDNNEKFFVYVLAKSVNAPGQVQEYFSAGGENPESFYRAFSSDILESAFNTQRDRIERLFRQQKQGAIIKASEEQIRAISEHASRTQGPFNLMKERPQFGSRFGQFIEASPERFEQLRDLDAAVAFMNINQGGMVLPYYNSRSTRVVMVVEGNARFEMACPHLGGEVHYQKVRGNLNVGDVLVIPAGHPITFIATGGSNFRVVGFGINAMFNRKNFLAGRENIWRNIDREAKELSFNMPGREVEEIFQKQDQSYFVAGPEH 5vfx-a1-m1-cD_5vfx-a1-m1-cC Structure of an accessory protein of the pCW3 relaxosome in complex with the origin of transfer (oriT) DNA Q1PLI2 Q1PLI2 2.81 X-RAY DIFFRACTION 31 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 99 100 5vfx-a1-m1-cA_5vfx-a1-m1-cB 5vfx-a2-m1-cE_5vfx-a2-m1-cF 5vfx-a2-m1-cH_5vfx-a2-m1-cG 5vfy-a1-m1-cA_5vfy-a1-m1-cB 5vfy-a2-m1-cC_5vfy-a2-m1-cD KDLNLYAKELVDVVNYLMKKNQLVFSRNNKFIYVNTETIKSMLEKRNYDTVDGKLYLWRELEWIECAEDRFNKRIKIDGENMYAVVIKYSSYSILKRLY KDLNLYAKELVDVVNYLMKKNQLVFSRNNKFIYVNTETIKSMLEKRNYDTVDGKLYLWRELEWIECAEDRFNKRIKIDGENMYAVVIKYSSYSILKRLYL 5vg6-a5-m1-cG_5vg6-a5-m1-cF Crystal structure of D-isomer specific 2-hydroxyacid dehydrogenase from Xanthobacter autotrophicus Py2 in complex with NADPH and MES. A7IIH0 A7IIH0 2.2 X-RAY DIFFRACTION 102 1.0 78245 (Xanthobacter autotrophicus Py2) 78245 (Xanthobacter autotrophicus Py2) 242 312 4xa8-a1-m1-cA_4xa8-a1-m2-cA 5vg6-a1-m1-cA_5vg6-a1-m1-cJ 5vg6-a2-m1-cB_5vg6-a2-m1-cC 5vg6-a3-m1-cH_5vg6-a3-m1-cD 5vg6-a4-m1-cE_5vg6-a4-m1-cI AGVDALVARDDLPDVPVTRLSDPNMSQMMASFVLFCVLRHARDIPTFERAQREGRWHYVHPRTAAEIRVGVLGLGDLGAAAALELARHGFDVRGWSRTPKALEGVSCFHGLEALPGFLAGSEIVVVMLPLTPETRGLMNAERLAHLPRGAKFINVARGPVVDEAALIAALRSGHIAEATLDVFEVEPLPVGSPLWAMDNVLVTPHLASIAIPRTAAPQIVENIRRIEAGEPVLNQVDPRRGY ALVFYSAVDIGQDWKSALQAAHPGLDVRIARAGDGHVEGDPEEVRYALVWKPPHGFFARFPNLKLVINLGAGVDALVARDDLPDVPVTRLSDPNMSQMMASFVLFCVLRHARDIPTFERAQREGRWHYVHPRTAAEIRVGVLGLGDLGAAAALELARHGFDVRGWSRTPKALEGVSCFHGLEALPGFLAGSEIVVVMLPLTPETRGLMNAERLAHLPRGAKFINVARGPVVDEAALIAALRSGHIAEATLDVFEVEPLPVGSPLWAMDNVLVTPHLASIAIPRTAAPQIVENIRRIEAGEPVLNQVDPRRGY 5vgc-a2-m1-cA_5vgc-a2-m2-cA Crystal structure of the NleG5-1 effector (C200A) from Escherichia coli O157:H7 str. Sakai B6DZC0 B6DZC0 2.6 X-RAY DIFFRACTION 55 1.0 564886 (Enterobacteria phage YYZ-2008) 564886 (Enterobacteria phage YYZ-2008) 211 211 VDLTPYILPGVSFLSDIPQETLSEIRNQTIRGEAQIRLGELMVSIRPMQVNGYFMGSLNQDGLSNDNIQIGLQYIEHIERTLNHGSLTSREVTVLREIEMLENMDLLSNYQLEELLDKIEVCAFNVEHAQLQVPESLRTCPVTLCEPEDGVFMRNSMNSNVCMLYDKMALIHLVKTRAAHPLSRESIAVSMIVGRDNAAFDPDRGNFVLKN VDLTPYILPGVSFLSDIPQETLSEIRNQTIRGEAQIRLGELMVSIRPMQVNGYFMGSLNQDGLSNDNIQIGLQYIEHIERTLNHGSLTSREVTVLREIEMLENMDLLSNYQLEELLDKIEVCAFNVEHAQLQVPESLRTCPVTLCEPEDGVFMRNSMNSNVCMLYDKMALIHLVKTRAAHPLSRESIAVSMIVGRDNAAFDPDRGNFVLKN 5vgc-a2-m1-cB_5vgc-a2-m2-cB Crystal structure of the NleG5-1 effector (C200A) from Escherichia coli O157:H7 str. Sakai B6DZC0 B6DZC0 2.6 X-RAY DIFFRACTION 70 1.0 564886 (Enterobacteria phage YYZ-2008) 564886 (Enterobacteria phage YYZ-2008) 204 204 VDLTPYILPGVSFLSDIPQETLSEIRNQTIRGEAQIRLGELMVSIRPMQVNGYFMGSLNQDGLSNDNIQIGLQYIEHIERTLNHGSLTSREVTVLREIEMLENMDLLSNYQLEELLDKIEVCAFNVEHSLRTCPVTLCEPEDGVFMRNSMNSNVCMLYDKMALIHLVKTRAAHPLSRESIAVSMIVGRDNAAFDPDRGNFVLKN VDLTPYILPGVSFLSDIPQETLSEIRNQTIRGEAQIRLGELMVSIRPMQVNGYFMGSLNQDGLSNDNIQIGLQYIEHIERTLNHGSLTSREVTVLREIEMLENMDLLSNYQLEELLDKIEVCAFNVEHSLRTCPVTLCEPEDGVFMRNSMNSNVCMLYDKMALIHLVKTRAAHPLSRESIAVSMIVGRDNAAFDPDRGNFVLKN 5vgc-a2-m2-cB_5vgc-a2-m2-cA Crystal structure of the NleG5-1 effector (C200A) from Escherichia coli O157:H7 str. Sakai B6DZC0 B6DZC0 2.6 X-RAY DIFFRACTION 58 1.0 564886 (Enterobacteria phage YYZ-2008) 564886 (Enterobacteria phage YYZ-2008) 204 211 5vgc-a1-m1-cB_5vgc-a1-m1-cA 5vgc-a2-m1-cB_5vgc-a2-m1-cA VDLTPYILPGVSFLSDIPQETLSEIRNQTIRGEAQIRLGELMVSIRPMQVNGYFMGSLNQDGLSNDNIQIGLQYIEHIERTLNHGSLTSREVTVLREIEMLENMDLLSNYQLEELLDKIEVCAFNVEHSLRTCPVTLCEPEDGVFMRNSMNSNVCMLYDKMALIHLVKTRAAHPLSRESIAVSMIVGRDNAAFDPDRGNFVLKN VDLTPYILPGVSFLSDIPQETLSEIRNQTIRGEAQIRLGELMVSIRPMQVNGYFMGSLNQDGLSNDNIQIGLQYIEHIERTLNHGSLTSREVTVLREIEMLENMDLLSNYQLEELLDKIEVCAFNVEHAQLQVPESLRTCPVTLCEPEDGVFMRNSMNSNVCMLYDKMALIHLVKTRAAHPLSRESIAVSMIVGRDNAAFDPDRGNFVLKN 5vgm-a1-m1-cA_5vgm-a1-m1-cB Crystal structure of dihydroorotase pyrC from Vibrio cholerae in complex with zinc at 1.95 A resolution. Q9KL24 Q9KL24 1.95 X-RAY DIFFRACTION 59 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 328 339 AMTTLTITRPDDWHVHLRDGDVLADTVRDISRYNGRALIMPNTVPPVTTTEMALAYRERIMAAQHFEPLMALYLTDNTSPEEIRKAKASGKVVAALYPGVTSAKNIYPVLQAMQEVGMLLLVHGEVTTHEVDIFDREKTFLDTVLAPIVNDFPQLKIVLEHITTADAVTFVQQAGDNVAATITAHHLLFNRNHMLVGGIRPHFYCLPILKRATHQHALVAAATSGSKKFFLGTDSAPHAKGRKEAAGAGSYTAHAALELYAEVFEKEGKLENLEAFASFNGPDFYGLPRNQETVTLTKQAWPVAESMPFGSDIVVPIRAGENIEWTVK SNAMTTLTITRPDDWHVHLRDGDVLADTVRDISRYNGRALIMPNTVPPVTTTEMALAYRERIMAAQPQAHFEPLMALYLTDNTSPEEIRKAKASGKVVAALYPAGNSDSGVTSAKNIYPVLQAMQEVGMLLLVHGEVTTHEVDIFDREKTFLDTVLAPIVNDFPQLKIVLEHITTADAVTFVQQAGDNVAATITAHHLLFNRNHMLVGGIRPHFYCLPILKRATHQHALVAAATSGSKKFFLGTDSAPHAKGRKEAAGAGSYTAHAALELYAEVFEKEGKLENLEAFASFNGPDFYGLPRNQETVTLTKQAWPVAESMPFGSDIVVPIRAGENIEWTVK 5vh5-a1-m1-cA_5vh5-a1-m2-cA Crystal Structure of Fc fragment of anti-TNFa antibody infliximab 1.75 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 207 PSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS PSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSRDELTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSLS 5vit-a6-m1-cI_5vit-a6-m1-cV Crystal structure of a Pseudomonas malonate decarboxylase hetero-tetramer in complex with malonate Q9I6T0 Q9I6T0 2.203 X-RAY DIFFRACTION 264 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 548 548 5vit-a5-m1-cA_5vit-a5-m1-cP 5vj1-a3-m1-cA_5vj1-a3-m1-cI PPPQWSRRRQEKQRRLERVRGLADGAVLPREGLVAALEALIAPGDRVVLEGNNQKQADFLSRSLARVDPGKLHDLHMIMPSVGRPEHLDLFELGIARKLDFSFSGPQSLRIGQLLEDGLLEIGAIHTYIELYARLVVDLIPNVALVAGFVADREGNVYTGPSTEDTPALVEPTAFSDGIVIVQVNRIVDDPRDLPRVDIPASWVDFVVEADQPFYIEPLFTRDPRHIKPVHVLMAMMAIRGIYQRHNVQSLNHGIGFNTAAIELILPTYGESLGLKGKICRHWTLNPHPTLIPAIESGWVESVHCFGTELGMEGYIAQRPDVFFTGRDGSLRSNRMFCQLAGQYAVDLFIGATLQVDGDGHSSTVTRGRLAGFGGAPNMGHDPRGRRHSTPAWLDMRGEPEALLERGRKLVVQMVETFQDGGKPTFVERLDALEVARQTGMPLAPVMIYGDDVTHVLTEEGIAYLYKARSLEERQAMIAAVAGISPIGLRHDPRETQRMRREGLIALPEDLGIRRTDASRELLAAKSIAELVEWSGGLYQPPARFRSW PPPQWSRRRQEKQRRLERVRGLADGAVLPREGLVAALEALIAPGDRVVLEGNNQKQADFLSRSLARVDPGKLHDLHMIMPSVGRPEHLDLFELGIARKLDFSFSGPQSLRIGQLLEDGLLEIGAIHTYIELYARLVVDLIPNVALVAGFVADREGNVYTGPSTEDTPALVEPTAFSDGIVIVQVNRIVDDPRDLPRVDIPASWVDFVVEADQPFYIEPLFTRDPRHIKPVHVLMAMMAIRGIYQRHNVQSLNHGIGFNTAAIELILPTYGESLGLKGKICRHWTLNPHPTLIPAIESGWVESVHCFGTELGMEGYIAQRPDVFFTGRDGSLRSNRMFCQLAGQYAVDLFIGATLQVDGDGHSSTVTRGRLAGFGGAPNMGHDPRGRRHSTPAWLDMRGEPEALLERGRKLVVQMVETFQDGGKPTFVERLDALEVARQTGMPLAPVMIYGDDVTHVLTEEGIAYLYKARSLEERQAMIAAVAGISPIGLRHDPRETQRMRREGLIALPEDLGIRRTDASRELLAAKSIAELVEWSGGLYQPPARFRSW 5viu-a1-m1-cB_5viu-a1-m1-cA Crystal Structure of Acetylornithine Aminotransferase from Elizabethkingia anophelis A0A077E919 A0A077E919 1.65 X-RAY DIFFRACTION 324 1.0 1117645 (Elizabethkingia anophelis) 1117645 (Elizabethkingia anophelis) 383 401 TKNSEYFIELEEKHGAHNYHPLPVVLDRGEGVFVWDVEGKKYYDFLSAYSAVNQGHSHPKIVEALVEQASKLALTSRAFYNSKLGEYEQKITSLLGFDKVLPMNSGAEAVETAVKLARKWSYEVKGIAENAAKIIVCENTPGFIRIPYNDIAALEEVLSKEAGNIAAFLVEPIQGEAGVYVPNEGFLKQSSELCKKHNVLFIADEVQTGIARTGKLIACHHEDVQPDILILGKALSGGMYPVSAVLANNNIMDVIKPGQHGSTFGGNPLACAVAMAALDVVQDEKLSERAEKLGNLFRSEIEKLIEKTDLITKVRGKGLLNAILINDTPDSSTAWNLCLALKENGLLAKPTHGNIIRLAPPLVITEEQLLDCVKIIEKTILEF TKNSEYFIELEEKHGAHNYHPLPVVLDRGEGVFVWDVEGKKYYDFLSAYSAVNQGHSHPKIVEALVEQASKLALTSRAFYNSKLGEYEQKITSLLGFDKVLPMNSGAEAVETAVKLARKWSYEVKGIAENAAKIIVCENNFHGRTTTIFSNDPDGPFTPGFIRIPYNDIAALEEVLSKEAGNIAAFLVEPIQGEAGVYVPNEGFLKQSSELCKKHNVLFIADEVQTGIARTGKLIACHHEDVQPDILILGKALSGGMYPVSAVLANNNIMDVIKPGQHGSTFGGNPLACAVAMAALDVVQDEKLSERAEKLGNLFRSEIEKLIEKTDLITKVRGKGLLNAILINDTPDSSTAWNLCLALKENGLLAKPTHGNIIRLAPPLVITEEQLLDCVKIIEKTILEF 5viy-a1-m1-cG_5viy-a1-m1-cI BG505 SOSIP.664 in complex with broadly neutralizing antibodies BG1 and 8ANC195 P01834 P01834 6.2 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 213 DIHMTQSPVSLSASGDRVTITCRASHFIANYVNWYQQKPGKAPTLLIFESSTLQRGVPSRFSAYGDGTEFTLSINTLQPEDFASYICQQSHSPPVTFGAGTRVDQKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE DIHMTQSPVSLSASVGDRVTITCRASHFIANYVNWYQQKPGKAPTLLIFESSTLQRGVPSRFSAYGDGTEFTLSINTLQPEDFASYICQQSHSPPVTFGAGTRVDQKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE 5vj0-a2-m1-cC_5vj0-a2-m1-cD Crystal Structure of heme-containing DyP Type Peroxidase from Enterobacter lignolyticus E3G9I4 E3G9I4 1.93 X-RAY DIFFRACTION 64 1.0 1334193 ([Enterobacter] lignolyticus) 1334193 ([Enterobacter] lignolyticus) 298 300 5gt2-a1-m1-cA_5gt2-a1-m1-cC 5gt2-a2-m1-cB_5gt2-a2-m1-cD 5vj0-a1-m1-cA_5vj0-a1-m1-cB SQVQSGILPEHCRAAIWIEANVKGDVNALRECSKVFADKLAGFEAQFPDAHLGAVVAFGHDTWRALSGGVGAEELKDFTPYGKGLAPATQYDVLIHILSLRHDVNFSVAQAAMAAFGDAVEVKEEIHGFRWVEERDLSGFVDGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVHDQEMMIGRTKVANEEIDGDERPETSHLTRVDLKENGKGLKIVRQSLPYGTASGTHGLYFCAYCARLYNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLDKLLAL HMSQVQSGILPEHCRAAIWIEANVKGDVNALRECSKVFADKLAGFEAQFPDAHLGAVVAFGHDTWRALSGGVGAEELKDFTPYGKGLAPATQYDVLIHILSLRHDVNFSVAQAAMAAFGDAVEVKEEIHGFRWVEERDLSGFVDGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVHDQEMMIGRTKVANEEIDGDERPETSHLTRVDLKENGKGLKIVRQSLPYGTASGTHGLYFCAYCARLYNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLDKLLAL 5vj4-a1-m1-cB_5vj4-a1-m1-cA Crystal structure of a putative surface protein encoded by BTA121 A0A0R9P931 A0A0R9P931 2.8 X-RAY DIFFRACTION 64 1.0 314724 (Borrelia turicatae 91E135) 314724 (Borrelia turicatae 91E135) 269 271 EALAYLNETVIDPKLIALLDDFGVSRSGRKAISYIQGNLTSDVIYDRLNKLGADVVIEKIIKPTVSLLKTKGEALKIIEDPTNEGVKTRLQNCKRYDGLVKGIGYDFFHGSIGTDRFAQAVVYYAPRFRKFKEIVKNPRVDDIYGWLDADDRATINEIGKIVINATYDKDKFNNVLNSVGVYYVVRIDIYRGVKIEHDEALNAITTVPDGVVKQDLQARLNRFKGEYYSNIRGTFKGFTDGLHFQITDGDKYRNYFIILKFDAQAARVA EEALAYLNETVIDPKLIALLDDFGVSRSGRKAISYIQGNLTSDVIYDRLNKLGADVVIEKIIKPTVSLLKTKGEALKIIEDPTNEGVKTRLQNCKRYDGLVKGIGYDFFHGSIGTDRFAQAVVYYAPRFRKFKEIVKNPRVDDIYGWLDADDRATINEIGKIVINATYDKDKFNNVLNSVGVYYVVRIDIYRGVKIEHDEALNAITTVPDGVVKQDLQARLNRFKGEYYSNIRGTFKGFTDGLHFQITDGDKYRNYFIILKFDAQAARVAK 5vja-a1-m1-cD_5vja-a1-m1-cB Crystal Structure of human zipper-interacting protein kinase (ZIPK, alias DAPK3) in complex with a pyrazolo[3,4-d]pyrimidinone ligand (HS38) O43293 O43293 2.46 X-RAY DIFFRACTION 37 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 261 266 5vja-a1-m1-cC_5vja-a1-m1-cA SMVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRLSVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDVPNPRIKLIDFGIAHKIEAGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMTIAQSLEHSWIKA SMVEDHYEMGEELGSGQFAIVRKCRQKGTGKEYAAKFIKKRRGVSREEIEREVNILREIRHPNIITLHDIFENKTDVVLILELVSGGELFDFLAEKESLTEDEATQFLKQILDGVHYLHSKRIAHFDLKPENIMLLDKNVPNPRIKLIDFGIAHKIEAGNEFKNIFGTPEFVAPEIVNYEPLGLEADMWSIGVITYILLSGASPFLGETKQETLTNISAVNYDFDEEYFSNTSELAKDFIRRLLVKDPKRRMTIAQSLEHSWIKAI 5vjn-a1-m1-cB_5vjn-a1-m1-cA Crystal Structure of Adenine Phosphoribosyltransferase from Saccharomyces cerevisiae Complexed with D-2,5-Dideoxy-2,5-Imino-Altritol 1,6-Bisphosphate (D-DIAB) and Adenine P49435 P49435 1.78 X-RAY DIFFRACTION 105 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 169 176 1g2p-a1-m1-cA_1g2p-a1-m2-cA 1g2q-a1-m1-cA_1g2q-a1-m1-cB 5vjp-a1-m1-cA_5vjp-a1-m1-cB IASYAQELKLALHQYPNFPSEGILFEDFLPIFRNPGLFQKLIDAFKLHLEEAFPEVKIDYIVGLESRGFLFGPTLALALGVGFVPVRKAGKLPGECFKATYLFEIQKNAIPAGSNVIIVDDIIATGGSAAAAGELVEQLEANLLEYNFVMELDFLKGRSKLNAPVFTLL IASYAQELKLALHQYPNFPSEGILFEDFLPIFRNPGLFQKLIDAFKLHLEEAFPEVKIDYIVGLESRGFLFGPTLALALGVGFVPVRKAGKLPGECFKATYEKEYGSDLFEIQKNAIPAGSNVIIVDDIIATGGSAAAAGELVEQLEANLLEYNFVMELDFLKGRSKLNAPVFTLL 5vjx-a3-m1-cG_5vjx-a3-m1-cU Crystal structure of the CLOCK Transcription Domain Exon19 in Complex with a Repressor Q8R0W1 Q8R0W1 2.695 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 62 62 5vjx-a2-m1-cD_5vjx-a2-m1-cJ 5vjx-a4-m1-cM_5vjx-a4-m2-cR GNTLVVLHKSGLLEITLKTKELIRQNQATQAELDQLKEQTQFIEATKSRAPQAWAKLQASLT GNTLVVLHKSGLLEITLKTKELIRQNQATQAELDQLKEQTQFIEATKSRAPQAWAKLQASLT 5vjx-a4-m2-cT_5vjx-a4-m2-cS Crystal structure of the CLOCK Transcription Domain Exon19 in Complex with a Repressor O08785 O08785 2.695 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 41 46 5vji-a1-m1-cB_5vji-a1-m1-cA 5vji-a2-m1-cD_5vji-a2-m1-cE 5vjx-a1-m1-cc_5vjx-a1-m1-cb 5vjx-a2-m1-cF_5vjx-a2-m1-cE 5vjx-a2-m1-cK_5vjx-a2-m1-cL 5vjx-a3-m1-cI_5vjx-a3-m1-cH 5vjx-a3-m1-cV_5vjx-a3-m1-cW 5vjx-a4-m1-cN_5vjx-a4-m1-cO 5vjx-a5-m1-ce_5vjx-a5-m1-cf PEFSAQLGAQHLKDQLEQRTRIEANIHRQQEELRKIQEQLQ GADPEFSAQLGAQHLKDQLEQRTRIEANIHRQQEELRKIQEQLQVH 5vjy-a3-m3-cE_5vjy-a3-m5-cE Crystal Structure of dUTP pyrophosphatase protein, from Naegleria fowleri A0A1Z0YU86 A0A1Z0YU86 2 X-RAY DIFFRACTION 118 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 132 132 5vjy-a1-m1-cA_5vjy-a1-m2-cA 5vjy-a1-m1-cA_5vjy-a1-m4-cA 5vjy-a1-m2-cA_5vjy-a1-m4-cA 5vjy-a2-m1-cB_5vjy-a2-m1-cC 5vjy-a2-m1-cD_5vjy-a2-m1-cB 5vjy-a2-m1-cD_5vjy-a2-m1-cC 5vjy-a3-m1-cE_5vjy-a3-m3-cE 5vjy-a3-m1-cE_5vjy-a3-m5-cE HMSTPQLMRVKKLSEFAILPVRSSQFAAGFDLASAYDYVVPARGKCLVKTDLAVAVPHGYYGRVAPRSGLAVKNFIDVGAGVVDSDYRGNLGVLLFNHGDEDFKIARGDRIAQFVIEQIALPDIVEVDDLDE HMSTPQLMRVKKLSEFAILPVRSSQFAAGFDLASAYDYVVPARGKCLVKTDLAVAVPHGYYGRVAPRSGLAVKNFIDVGAGVVDSDYRGNLGVLLFNHGDEDFKIARGDRIAQFVIEQIALPDIVEVDDLDE 5vk4-a1-m1-cA_5vk4-a1-m1-cB Crystal structure of a phosphoribosylformylglycinamidine cyclo-ligase from Neisseria gonorrhoeae bound to AMPPNP and magnesium Q5F973 Q5F973 2.65 X-RAY DIFFRACTION 168 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 324 330 DAGDQLVEKIKPFAKRTMRPEVLGALVEIGKKYQNPVLVSGTDGVGTKLKLAFDWDKHDTVGIDLVAMSVNDILVQGAEPLFFLDYFACGKLDVPRATDVIKGIAQGCEESGCALIGGETAEMPGMYPVGEYDLAGFAVGVVEKENVITGLSVGAGDMVLGLASNGAHSNGYSLIRKIIERDNPDLDAEFDNGKTLREAVIAPTRLYVKPILAALEKFTIKGMAHITGGGITENVPRVLPKNTVAQIDAESWELPKLFQWLQKAGNVETQEMYRTFNCGIGMVVIVAAEDADAVRSFLSGQGETVYRLGCIRERQGNEHQTQVA DAGDQLVEKIKPFAKRTMRPEVLGDLGGFGALVEIGKKYQNPVLVSGTDGVGTKLKLAFDWDKHDTVGIDLVAMSVNDILVQGAEPLFFLDYFACGKLDVPRATDVIKGIAQGCEESGCALIGGETAEMPGMYPVGEYDLAGFAVGVVEKENVITGLSVGAGDMVLGLASNGAHSNGYSLIRKIIERDNPDLDAEFDNGKTLREAVIAPTRLYVKPILAALEKFTIKGMAHITGGGITENVPRVLPKNTVAQIDAESWELPKLFQWLQKAGNVETQEMYRTFNCGIGMVVIVAAEDADAVRSFLSGQGETVYRLGCIRERQGNEHQTQVA 5vkq-a1-m1-cC_5vkq-a1-m1-cD Structure of a mechanotransduction ion channel Drosophila NOMPC in nanodisc E0A9E1 E0A9E1 3.55 ELECTRON MICROSCOPY 183 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1499 1499 5vkq-a1-m1-cA_5vkq-a1-m1-cB 5vkq-a1-m1-cA_5vkq-a1-m1-cD 5vkq-a1-m1-cB_5vkq-a1-m1-cC MNTGMTPLMYATKDNKTAIMDRMIELGADVGARNNDNYNVLHIAAMYSREDVVKLLLTKRGVDPFSTGGSRSQTAVHLVSSRQTGTATNILRALLAAAGKDIRLKADGRGKIPLLLAVESGNQSMCRELLAAQTAEQLKATTANGDTALHLAARRRDVDMVRILVDYGTNVDTQNGEGQTPLHIAAAEGDEALLKYFYGVRASASIADNQDRTPMHLAAENGHAHVIEILADKFKASIFERTKDGSTLMHIASLNGHAECATMLFKKGVYLHMPNKDGARSIHTAAAYGHTGIINTLLQKGEKVDVTTNDNYTALHIAVESAKPAVVETLLGFGADVHVRGGKLRETPLHIAARVKDGDRCALMLLKSGASPNLTTDDCLTPVHVAARHGNLATLMQLLEDEGDPLYKSNTGETPLHMACRACHPDIVRHLIETVKEKHGPDKATTYINSVNEDGATALHYTCQITKEEVKIPESDKQIVRMLLENGADVTLQTKTALETAFHYCAVAGNNDVLMEMISHMNPTDIQKAMNRQSSVGWTPLLIACHRGHMELVNNLLANHARVDVFDTEGRSALHLAAERGYLHVCDALLTNKAFINSKSRVGRTALHLAAMNGFTHLVKFLIKDHNAVIDILTLRKQTPLHLAAASGQMEVCQLLLELGANIDATDDLGQKPIHVAAQNNYSEVAKLFLQQHPSLVNATSKDGNTCAHIAAMQGSVKVIEELMKFDRSGVISARNKLTDATPLQLAAEGGHADVVKALVRAGASCTEENKAGFTAVHLAAQNGHGQVLDVLKSTNSLRINSKKLGLTPLHVAAYYGQADTVRELLTSVPATVKSETPTGQSLFGDLGTESGMTPLHLAAFSGNENVVRLLLNSAGVQVDAATIENGYNPLHLACFGGHMSVVGLLLSRSAELLQSQDRNGRTGLHIAAMHGHIQMVEILLGQGAEINATDRNGWTPLHCAAKAGHLEVVKLLCEAGASPKSETNYGCAAIWFAASEGHNEVLRYLMNKEHDTYGLMEDKRFVYNLMVVSKNHNNKPIQEFVLVSPAPVDTAAKLSNIYIVLSTKEKERAKDLVAAGKQCEAMATELLALAAGSDSAGKILQATDKRNVEFLDVLIENEQKEVIAHTVVQRYLQELWHGSLTWASWKILLLLVAFIVCPPVWIGFTFPMGHKFNKVPIIKFMSYLTSHIYLMIHLSIVGITPIYPVLRLSLVPYWYEVGLLIWLSGLLLFELTNPSDKSGLGSIKVLVLLLGMAGVGVHVSAFLFVSKEYWPTLVYCRNQCFALAFLLACVQILDFLSFHHLFGPWAIIIGDLLKDLARFLAVLAIFVFGFSMHIVALNQSFANFSPEDLRSFEKKNRNRGYFSDVRMHPINSFELLFFAVFGQTTTEQTQVDKIKNVATPTQPYWVEYLFKIVFGIYMLVSVVVLIQLLIAMMSDTYQRIQAQSDIEWKFGLSKLIRNMHRTTTAPSPLNLVTTWFMWRIENVADWEAIAKKYRALVG MNTGMTPLMYATKDNKTAIMDRMIELGADVGARNNDNYNVLHIAAMYSREDVVKLLLTKRGVDPFSTGGSRSQTAVHLVSSRQTGTATNILRALLAAAGKDIRLKADGRGKIPLLLAVESGNQSMCRELLAAQTAEQLKATTANGDTALHLAARRRDVDMVRILVDYGTNVDTQNGEGQTPLHIAAAEGDEALLKYFYGVRASASIADNQDRTPMHLAAENGHAHVIEILADKFKASIFERTKDGSTLMHIASLNGHAECATMLFKKGVYLHMPNKDGARSIHTAAAYGHTGIINTLLQKGEKVDVTTNDNYTALHIAVESAKPAVVETLLGFGADVHVRGGKLRETPLHIAARVKDGDRCALMLLKSGASPNLTTDDCLTPVHVAARHGNLATLMQLLEDEGDPLYKSNTGETPLHMACRACHPDIVRHLIETVKEKHGPDKATTYINSVNEDGATALHYTCQITKEEVKIPESDKQIVRMLLENGADVTLQTKTALETAFHYCAVAGNNDVLMEMISHMNPTDIQKAMNRQSSVGWTPLLIACHRGHMELVNNLLANHARVDVFDTEGRSALHLAAERGYLHVCDALLTNKAFINSKSRVGRTALHLAAMNGFTHLVKFLIKDHNAVIDILTLRKQTPLHLAAASGQMEVCQLLLELGANIDATDDLGQKPIHVAAQNNYSEVAKLFLQQHPSLVNATSKDGNTCAHIAAMQGSVKVIEELMKFDRSGVISARNKLTDATPLQLAAEGGHADVVKALVRAGASCTEENKAGFTAVHLAAQNGHGQVLDVLKSTNSLRINSKKLGLTPLHVAAYYGQADTVRELLTSVPATVKSETPTGQSLFGDLGTESGMTPLHLAAFSGNENVVRLLLNSAGVQVDAATIENGYNPLHLACFGGHMSVVGLLLSRSAELLQSQDRNGRTGLHIAAMHGHIQMVEILLGQGAEINATDRNGWTPLHCAAKAGHLEVVKLLCEAGASPKSETNYGCAAIWFAASEGHNEVLRYLMNKEHDTYGLMEDKRFVYNLMVVSKNHNNKPIQEFVLVSPAPVDTAAKLSNIYIVLSTKEKERAKDLVAAGKQCEAMATELLALAAGSDSAGKILQATDKRNVEFLDVLIENEQKEVIAHTVVQRYLQELWHGSLTWASWKILLLLVAFIVCPPVWIGFTFPMGHKFNKVPIIKFMSYLTSHIYLMIHLSIVGITPIYPVLRLSLVPYWYEVGLLIWLSGLLLFELTNPSDKSGLGSIKVLVLLLGMAGVGVHVSAFLFVSKEYWPTLVYCRNQCFALAFLLACVQILDFLSFHHLFGPWAIIIGDLLKDLARFLAVLAIFVFGFSMHIVALNQSFANFSPEDLRSFEKKNRNRGYFSDVRMHPINSFELLFFAVFGQTTTEQTQVDKIKNVATPTQPYWVEYLFKIVFGIYMLVSVVVLIQLLIAMMSDTYQRIQAQSDIEWKFGLSKLIRNMHRTTTAPSPLNLVTTWFMWRIENVADWEAIAKKYRALVG 5vkt-a1-m1-cA_5vkt-a1-m1-cB Cinnamyl alcohol dehydrogenases (SbCAD4) from Sorghum bicolor (L.) Moench C5XC49 C5XC49 1.827 X-RAY DIFFRACTION 19 1.0 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 353 353 KTAHGWAARDASGHLSPYSFSARIQGDADVTIKVLFCGICHTDLHVIKNEWGNAMYPVVPGHEVVGVVTDVGHGVTKFKAGDTVGVGYFVDSCRTCESCSTGHENYCPDLVLTSNGVDHHHHGATTKGGFSDVLVVSQDFVVRVPESLPLDGAAPLLCAGVTVYSPMAQYALNEPGKHLGVVGLGGLGHMAVKFAKAFGMTVTVISSSPGKRDEALGRLGADAFLVSHDAAQMKAAAATLDGIIDTVSAGHQIVPLLALLKPMGQMVVVGAPSTPLELPAYAIITGGKRVAGNGVGSVADCQAMLDFAGEHGVTADIEVVQMDYVNTAIERLEKNDVRYRFVIDVAGSKMEET KTAHGWAARDASGHLSPYSFSARIQGDADVTIKVLFCGICHTDLHVIKNEWGNAMYPVVPGHEVVGVVTDVGHGVTKFKAGDTVGVGYFVDSCRTCESCSTGHENYCPDLVLTSNGVDHHHHGATTKGGFSDVLVVSQDFVVRVPESLPLDGAAPLLCAGVTVYSPMAQYALNEPGKHLGVVGLGGLGHMAVKFAKAFGMTVTVISSSPGKRDEALGRLGADAFLVSHDAAQMKAAAATLDGIIDTVSAGHQIVPLLALLKPMGQMVVVGAPSTPLELPAYAIITGGKRVAGNGVGSVADCQAMLDFAGEHGVTADIEVVQMDYVNTAIERLEKNDVRYRFVIDVAGSKMEET 5vkt-a2-m1-cA_5vkt-a2-m2-cB Cinnamyl alcohol dehydrogenases (SbCAD4) from Sorghum bicolor (L.) Moench C5XC49 C5XC49 1.827 X-RAY DIFFRACTION 103 1.0 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 353 353 KTAHGWAARDASGHLSPYSFSARIQGDADVTIKVLFCGICHTDLHVIKNEWGNAMYPVVPGHEVVGVVTDVGHGVTKFKAGDTVGVGYFVDSCRTCESCSTGHENYCPDLVLTSNGVDHHHHGATTKGGFSDVLVVSQDFVVRVPESLPLDGAAPLLCAGVTVYSPMAQYALNEPGKHLGVVGLGGLGHMAVKFAKAFGMTVTVISSSPGKRDEALGRLGADAFLVSHDAAQMKAAAATLDGIIDTVSAGHQIVPLLALLKPMGQMVVVGAPSTPLELPAYAIITGGKRVAGNGVGSVADCQAMLDFAGEHGVTADIEVVQMDYVNTAIERLEKNDVRYRFVIDVAGSKMEET KTAHGWAARDASGHLSPYSFSARIQGDADVTIKVLFCGICHTDLHVIKNEWGNAMYPVVPGHEVVGVVTDVGHGVTKFKAGDTVGVGYFVDSCRTCESCSTGHENYCPDLVLTSNGVDHHHHGATTKGGFSDVLVVSQDFVVRVPESLPLDGAAPLLCAGVTVYSPMAQYALNEPGKHLGVVGLGGLGHMAVKFAKAFGMTVTVISSSPGKRDEALGRLGADAFLVSHDAAQMKAAAATLDGIIDTVSAGHQIVPLLALLKPMGQMVVVGAPSTPLELPAYAIITGGKRVAGNGVGSVADCQAMLDFAGEHGVTADIEVVQMDYVNTAIERLEKNDVRYRFVIDVAGSKMEET 5vku-a1-m9-cq_5vku-a1-m9-cr An atomic structure of the human cytomegalovirus (HCMV) capsid with its securing layer of pp150 tegument protein P16728 P16728 3.9 ELECTRON MICROSCOPY 166 0.993 10360 (Human herpesvirus 5 strain AD169) 10360 (Human herpesvirus 5 strain AD169) 295 304 5vku-a1-m10-ci_5vku-a1-m10-ch 5vku-a1-m10-ck_5vku-a1-m10-cl 5vku-a1-m10-co_5vku-a1-m10-cn 5vku-a1-m10-cq_5vku-a1-m10-cr 5vku-a1-m10-ct_5vku-a1-m10-cu 5vku-a1-m11-ci_5vku-a1-m11-ch 5vku-a1-m11-ck_5vku-a1-m11-cl 5vku-a1-m11-co_5vku-a1-m11-cn 5vku-a1-m11-cq_5vku-a1-m11-cr 5vku-a1-m11-ct_5vku-a1-m11-cu 5vku-a1-m12-ci_5vku-a1-m12-ch 5vku-a1-m12-ck_5vku-a1-m12-cl 5vku-a1-m12-co_5vku-a1-m12-cn 5vku-a1-m12-cq_5vku-a1-m12-cr 5vku-a1-m12-ct_5vku-a1-m12-cu 5vku-a1-m13-ci_5vku-a1-m13-ch 5vku-a1-m13-ck_5vku-a1-m13-cl 5vku-a1-m13-co_5vku-a1-m13-cn 5vku-a1-m13-cq_5vku-a1-m13-cr 5vku-a1-m13-ct_5vku-a1-m13-cu 5vku-a1-m14-ci_5vku-a1-m14-ch 5vku-a1-m14-ck_5vku-a1-m14-cl 5vku-a1-m14-co_5vku-a1-m14-cn 5vku-a1-m14-cq_5vku-a1-m14-cr 5vku-a1-m14-ct_5vku-a1-m14-cu 5vku-a1-m15-ci_5vku-a1-m15-ch 5vku-a1-m15-ck_5vku-a1-m15-cl 5vku-a1-m15-co_5vku-a1-m15-cn 5vku-a1-m15-cq_5vku-a1-m15-cr 5vku-a1-m15-ct_5vku-a1-m15-cu 5vku-a1-m16-ci_5vku-a1-m16-ch 5vku-a1-m16-ck_5vku-a1-m16-cl 5vku-a1-m16-co_5vku-a1-m16-cn 5vku-a1-m16-cq_5vku-a1-m16-cr 5vku-a1-m16-ct_5vku-a1-m16-cu 5vku-a1-m17-ci_5vku-a1-m17-ch 5vku-a1-m17-ck_5vku-a1-m17-cl 5vku-a1-m17-co_5vku-a1-m17-cn 5vku-a1-m17-cq_5vku-a1-m17-cr 5vku-a1-m17-ct_5vku-a1-m17-cu 5vku-a1-m18-ci_5vku-a1-m18-ch 5vku-a1-m18-ck_5vku-a1-m18-cl 5vku-a1-m18-co_5vku-a1-m18-cn 5vku-a1-m18-cq_5vku-a1-m18-cr 5vku-a1-m18-ct_5vku-a1-m18-cu 5vku-a1-m19-ci_5vku-a1-m19-ch 5vku-a1-m19-ck_5vku-a1-m19-cl 5vku-a1-m19-co_5vku-a1-m19-cn 5vku-a1-m19-cq_5vku-a1-m19-cr 5vku-a1-m19-ct_5vku-a1-m19-cu 5vku-a1-m1-ci_5vku-a1-m1-ch 5vku-a1-m1-ck_5vku-a1-m1-cl 5vku-a1-m1-co_5vku-a1-m1-cn 5vku-a1-m1-cq_5vku-a1-m1-cr 5vku-a1-m1-ct_5vku-a1-m1-cu 5vku-a1-m20-ci_5vku-a1-m20-ch 5vku-a1-m20-ck_5vku-a1-m20-cl 5vku-a1-m20-co_5vku-a1-m20-cn 5vku-a1-m20-cq_5vku-a1-m20-cr 5vku-a1-m20-ct_5vku-a1-m20-cu 5vku-a1-m21-ci_5vku-a1-m21-ch 5vku-a1-m21-ck_5vku-a1-m21-cl 5vku-a1-m21-co_5vku-a1-m21-cn 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5vku-a1-m58-ck_5vku-a1-m58-cl 5vku-a1-m58-co_5vku-a1-m58-cn 5vku-a1-m58-cq_5vku-a1-m58-cr 5vku-a1-m58-ct_5vku-a1-m58-cu 5vku-a1-m59-ci_5vku-a1-m59-ch 5vku-a1-m59-ck_5vku-a1-m59-cl 5vku-a1-m59-co_5vku-a1-m59-cn 5vku-a1-m59-cq_5vku-a1-m59-cr 5vku-a1-m59-ct_5vku-a1-m59-cu 5vku-a1-m5-ci_5vku-a1-m5-ch 5vku-a1-m5-ck_5vku-a1-m5-cl 5vku-a1-m5-co_5vku-a1-m5-cn 5vku-a1-m5-cq_5vku-a1-m5-cr 5vku-a1-m5-ct_5vku-a1-m5-cu 5vku-a1-m60-ci_5vku-a1-m60-ch 5vku-a1-m60-ck_5vku-a1-m60-cl 5vku-a1-m60-co_5vku-a1-m60-cn 5vku-a1-m60-cq_5vku-a1-m60-cr 5vku-a1-m60-ct_5vku-a1-m60-cu 5vku-a1-m6-ci_5vku-a1-m6-ch 5vku-a1-m6-ck_5vku-a1-m6-cl 5vku-a1-m6-co_5vku-a1-m6-cn 5vku-a1-m6-cq_5vku-a1-m6-cr 5vku-a1-m6-ct_5vku-a1-m6-cu 5vku-a1-m7-ci_5vku-a1-m7-ch 5vku-a1-m7-ck_5vku-a1-m7-cl 5vku-a1-m7-co_5vku-a1-m7-cn 5vku-a1-m7-cq_5vku-a1-m7-cr 5vku-a1-m7-ct_5vku-a1-m7-cu 5vku-a1-m8-ci_5vku-a1-m8-ch 5vku-a1-m8-ck_5vku-a1-m8-cl 5vku-a1-m8-co_5vku-a1-m8-cn 5vku-a1-m8-cq_5vku-a1-m8-cr 5vku-a1-m8-ct_5vku-a1-m8-cu 5vku-a1-m9-ci_5vku-a1-m9-ch 5vku-a1-m9-ck_5vku-a1-m9-cl 5vku-a1-m9-co_5vku-a1-m9-cn 5vku-a1-m9-ct_5vku-a1-m9-cu 7et3-a1-m1-co_7et3-a1-m1-cn 7et3-a1-m2-co_7et3-a1-m2-cn 7et3-a1-m3-co_7et3-a1-m3-cn 7et3-a1-m4-co_7et3-a1-m4-cn 7et3-a1-m5-co_7et3-a1-m5-cn 7etj-a1-m1-ch_7etj-a1-m1-cI 7etj-a1-m1-co_7etj-a1-m1-cn 7etj-a1-m2-ch_7etj-a1-m2-cI 7etj-a1-m2-co_7etj-a1-m2-cn 7etj-a1-m3-ch_7etj-a1-m3-cI 7etj-a1-m3-co_7etj-a1-m3-cn 7etj-a1-m4-ch_7etj-a1-m4-cI 7etj-a1-m4-co_7etj-a1-m4-cn 7etj-a1-m5-ch_7etj-a1-m5-cI 7etj-a1-m5-co_7etj-a1-m5-cn 7eto-a1-m1-cI_7eto-a1-m1-ch 7eto-a1-m1-co_7eto-a1-m1-cn 7liv-a1-m1-cq_7liv-a1-m1-cr MAAMEANIFCTFDHKLSIADVGKLTKLVAAVVPIPQRLHLIKHYQLGLHQFVDHTRGYVRLRGLLRNMTLTLMRRVEGNQILLHVPTHGLLYTVLNTGPVTWEKGDALCVLPPLFHGPLARENLLTLGQWELVLPWIVPMPLALEINQRLLIMGLFSLDRSYEEVKAAVQQLQTITFRDATFTIPDPVIDQHLLIDMKTACLSMSMVANLASELTMTYVRKLALEDSSMLLVKCQELLMRLPARPQHVSPDDEIARLSALFVMLRQLDDLIREQVVFTVCDVSPDNKSATCIFKG AMEANIFCTFDHKLSIADVGKLTKLVAAVVPIPQRLHLIKHYQLGLHQFVDHTRGYVRLRGLLRNMTLTLMRRVEGNQILLHVPTHGLLYTVLNTGPVTWEKGDALCVLPPLFHGPLARENLLTLGQWELVLPWIVPMPLALEINQRLLIMGLFSLDRSYEEVKAAVQQLQTITFRDATFTIPDPVIDQHLLIDMKTACLSMSMVANLASELTMTYVRKLALEDSSMLLVKCQELLMRLDRERSVGEPRTPARPQHVSPDDEIARLSALFVMLRQLDDLIREQVVFTVCDVSPDNKSATCIFKG 5vkw-a1-m1-cB_5vkw-a1-m1-cA Crystal structure of adenylosuccinate lyase ADE13 from Candida albicans A0A1D8PT56 A0A1D8PT56 1.998 X-RAY DIFFRACTION 255 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 469 470 MSEYDKYSTPLSSRYASEEMSKIFSLRNRFSTWRKLWLNLAIAEKEVGLSVITDEAIEQMKQHLEITDKEIQDAAVEEAKVRHDVMAHVHVFGETCPSAAGIIHLGATSCFVTDNADLIFLRDAYDVLIPKLVNVIDRLSKFALEYKDLPVLGWTHFQPAQLTTVGKRATLWLQELLWDLRNMVRARNDIGLRGVKGTTGTQASFLSLFHGDHDKVEELDKRVVELLGFDIVYPVTGQTYSRKIDIDVLSPLASFGATAHKFATDIRLLANLKEIEEPFEKMAYKRNPMRCERVCSLARHLGGLFNDAVQTASVQWFERTLDDSAIRRISLPSAFLTVDILLSTMLNITSGLVVYPKVIERRINSELPFMATENIIMAMVEKGGSRQDCHEEIRVLSHQASAVVKQEGGDNDLIERIKSTEYFKPIWNDLDTLLDPKTFVGRAPQQTEKFVKNDVANALKPFEKYITTE MSEYDKYSTPLSSRYASEEMSKIFSLRNRFSTWRKLWLNLAIAEKEVGLSVITDEAIEQMKQHLEITDKEIQDAAVEEAKVRHDVMAHVHVFGETCPSAAGIIHLGATSCFVTDNADLIFLRDAYDVLIPKLVNVIDRLSKFALEYKDLPVLGWTHFQPAQLTTVGKRATLWLQELLWDLRNMVRARNDIGLRGVKGTTGTQASFLSLFHGDHDKVEELDKRVVELLGFDIVYPVTGQTYSRKIDIDVLSPLASFGATAHKFATDIRLLANLKEIEEPFEKAMAYKRNPMRCERVCSLARHLGGLFNDAVQTASVQWFERTLDDSAIRRISLPSAFLTVDILLSTMLNITSGLVVYPKVIERRINSELPFMATENIIMAMVEKGGSRQDCHEEIRVLSHQASAVVKQEGGDNDLIERIKSTEYFKPIWNDLDTLLDPKTFVGRAPQQTEKFVKNDVANALKPFEKYITTE 5vky-a1-m1-cB_5vky-a1-m1-cA Yeast Tda2 (YER071C) - a dynein light chain family member that works independently of the dynein motor complex and microtubules. C7GRQ3 C7GRQ3 2.3 X-RAY DIFFRACTION 122 1.0 574961 (Saccharomyces cerevisiae JAY291) 574961 (Saccharomyces cerevisiae JAY291) 105 122 IEIKDSPLPERKLVTLIQESYDSLKDNLSTESTSNLLIKLVLEKLEKHSSLYKYIASVTTLNANFSLKNDIGASWESKKDGIFNYKLEDKNNNECYLITILWLHK IEIKDGRSDNSPLPERKLVTLIQESYDSLKDDNEINLSTESTSNLLIKLVLEKLEKHSSLYKYIASVTTLNIEGLNEENANFSLKNDIGASWESKKDGIFNYKLEDKNNNECYLITILWLHK 5vl1-a5-m1-cB_5vl1-a5-m1-cA Crystal Structure of Lysyl-tRNA Synthetase from Mycobacterium ulcerans complexed with L-lysine A0PV47 A0PV47 2.7 X-RAY DIFFRACTION 296 0.998 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 485 486 5vl1-a6-m1-cD_5vl1-a6-m1-cC 6aqg-a5-m1-cA_6aqg-a5-m1-cD 6aqg-a6-m1-cB_6aqg-a6-m1-cC IPEQFRIRRDKRARLLAEGYDPYPVAIERTHTLAEIRATYADLPTDSATEDIVGVAGRVVFARNTGKLCFATLQDGDGTQLQAMISLDEVGRESLDRWKADVDIGDVVYVHGTVISSRRGELSVLADSWRMAAKALRPLPVKEMSEESRVRQRYVDLIVRPQAREVARQRIAVIRAVRNALERRGFLEVETPMLQTLAGGAAARPFVTHSNALDIDLYLRIAPELFLKRCIVGGFDRVFELNRVFRNEGSDSTHSPEFSMLETYQTYGTYDDSALITRELIQEVADEAIGTRQLSMPDGSVYDIDGEWATMEMYSSLSEALGEQITPETTVARLRDIASGLDVEIDNSVFGHGKLVEELWEHAVGNKLTAPTFVKDFPVETTPLTRQHRSIPGVTEKWDLYVRGVELATGYSELNDPVVQRDRFADQARAAAAGDDEAMQLDEDFLTALEYGMPPCTGTGMGIDRLLMCLTGLSIRETVLFPIVR PEQFRIRRDKRARLLAEGYDPYPVAIERTHTLAEIRATYADLPTDSATEDIVGVAGRVVFARNTGKLCFATLQDGDGTQLQAMISLDEVGRESLDRWKADVDIGDVVYVHGTVISSRRGELSVLADSWRMAAKALRPLPVAHKEMSEESRVRQRYVDLIVRPQAREVARQRIAVIRAVRNALERRGFLEVETPMLQTLAGGAAARPFVTHSNALDIDLYLRIAPELFLKRCIVGGFDRVFELNRVFRNEGSDSTHSPEFSMLETYQTYGTYDDSALITRELIQEVADEAIGTRQLSMPDGSVYDIDGEWATMEMYSSLSEALGEQITPETTVARLRDIASGLDVEIDNSVFGHGKLVEELWEHAVGNKLTAPTFVKDFPVETTPLTRQHRSIPGVTEKWDLYVRGVELATGYSELNDPVVQRDRFADQARAAAAGDDEAMQLDEDFLTALEYGMPPCTGTGMGIDRLLMCLTGLSIRETVLFPIVR 5vl2-a1-m1-cF_5vl2-a1-m1-cC The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 28 1.0 9844 (Lama glama) 9844 (Lama glama) 125 126 AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vl2-a1-m1-cH_5vl2-a1-m1-cC The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 11 1.0 9844 (Lama glama) 9844 (Lama glama) 125 126 AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vl2-a2-m1-cB_5vl2-a2-m1-cD The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 51 1.0 9844 (Lama glama) 9844 (Lama glama) 126 126 5vl2-a1-m1-cA_5vl2-a1-m1-cC 5vl2-a1-m1-cF_5vl2-a1-m1-cH MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vl2-a2-m1-cE_5vl2-a2-m1-cB The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 25 1.0 9844 (Lama glama) 9844 (Lama glama) 125 126 AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vl2-a2-m1-cE_5vl2-a2-m1-cD The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 40 1.0 9844 (Lama glama) 9844 (Lama glama) 125 126 AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vl2-a2-m1-cE_5vl2-a2-m1-cG The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 15 1.0 9844 (Lama glama) 9844 (Lama glama) 125 125 AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vl2-a2-m1-cG_5vl2-a2-m1-cD The hapten triclocarban bound to the single domain camelid nanobody VHH T4 1.9 X-RAY DIFFRACTION 17 1.0 9844 (Lama glama) 9844 (Lama glama) 125 126 AQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS MAQVQLQQSGGGLVQAGGSLRLSCAASGRTHTPYAMGWFRQAPGKEREFVGGIGGVAATTTYADSVRGRFTISRDDAKATVYLQMNSLKPEDTAVYYCATRASMAVSTSPRVYPIWGQGTQVTVSS 5vlc-a2-m1-cD_5vlc-a2-m1-cC Crystal Structure of Medicago truncatula L-Histidinol Dehydrogenase in Complex with L-Histidinol G7IKX3 G7IKX3 1.97 X-RAY DIFFRACTION 400 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 432 434 5vlb-a1-m1-cA_5vlb-a1-m1-cB 5vlb-a2-m1-cC_5vlb-a2-m1-cD 5vlb-a3-m1-cE_5vlb-a3-m1-cF 5vlc-a1-m1-cA_5vlc-a1-m1-cB 5vlc-a3-m1-cE_5vlc-a3-m1-cF 5vld-a1-m1-cB_5vld-a1-m1-cA 5vld-a2-m1-cC_5vld-a2-m1-cD 5vld-a3-m1-cE_5vld-a3-m1-cF PIKTYHLSNLTQTELLSLKSRPRIDFSSVFDIVNPIVDDVHAHGDAAVKQYTSKFDKVDLENIVELVSDLPDPVLDPAIKEAFDVAYSNIYAFHAAQKSPEKSVENMKGVQCKRVARSINSVGLYVPGGTAVLPSTALMLAVPAQIAGCKTIVLANPPTRDGTTCKEVLYCAKKAGVTHLLKAGGAQAISAMAWGTETCPKVEKIFGPGNQYVTAAKMILQNSEAMVSIDMPAGPSEVLVIADKHAIPSHVAADLLSQAEHGPDSQVVLVIAGDGVDQNAIQEEVSKQCQSLPRGEFAAKALSHSFIVHARDMLEAITFSNMYAPEHLIINVKDAEKWESFIENAGSVFLGSWTPESVGDYASGTNHVLPTYGYARMYSGVSLDSFLKYITVQSLTEEGLRKLGPYVETMAEVEGLEAHKRAVTLRLQDIEA PIKTYHLSNLTQTELLSLKSRPRIDFSSVFDIVNPIVDDVHAHGDAAVKQYTSKFDKVDLENIVELVSDLPDPVLDPAIKEAFDVAYSNIYAFHAAQKSPEKSVENMKGVQCKRVARSINSVGLYVPGGTAVLPSTALMLAVPAQIAGCKTIVLANPPTRDGTTCKEVLYCAKKAGVTHLLKAGGAQAISAMAWGTETCPKVEKIFGPGNQYVTAAKMILQNSEAMVSIDMPAGPSEVLVIADKHAIPSHVAADLLSQAEHGPDSQVVLVIAGDGVDQNAIQEEVSKQCQSLPRGEFAAKALSHSFIVHARDMLEAITFSNMYAPEHLIINVKDAEKWESFIENAGSVFLGSWTPESVGDYASGTNHVLPTYGYARMYSGVSLDSFLKYITVQSLTEEGLRKLGPYVETMAEVEGLEAHKRAVTLRLQDIEARQ 5vlg-a2-m1-cC_5vlg-a2-m1-cD Crystal structure of EilR in complex with malachite green E3G817 E3G817 2.932 X-RAY DIFFRACTION 85 1.0 1334193 ([Enterobacter] lignolyticus) 1334193 ([Enterobacter] lignolyticus) 188 189 5vl9-a1-m1-cB_5vl9-a1-m1-cA 5vl9-a2-m1-cD_5vl9-a2-m1-cC 5vlg-a1-m1-cA_5vlg-a1-m1-cB 5vlg-a3-m1-cE_5vlg-a3-m1-cF 5vlg-a4-m1-cG_5vlg-a4-m1-cH 5vlm-a1-m1-cA_5vlm-a1-m1-cB 5vlm-a2-m1-cC_5vlm-a2-m1-cD 5vlm-a3-m1-cE_5vlm-a3-m1-cF 5vlm-a4-m1-cG_5vlm-a4-m1-cH NREERRETIMQAAMRVALDQGFTGMTVRNIATAAGVAAGQVHHHFTSSGELKSQAFIRVIREMMDLQRLSRTAGWREQLFSALGSEDGRLEPYIRLWRQAQLLADSDPEIKSAYLLTMNLWHDEAVRIIRAGHAAGEFTLRDSAENIAWRLISLVCGLDGIYVLGMPEVDDAAFTRHLQHVIQLELFS LNREERRETIMQAAMRVALDQGFTGMTVRNIATAAGVAAGQVHHHFTSSGELKSQAFIRVIREMMDLQRLSRTAGWREQLFSALGSEDGRLEPYIRLWRQAQLLADSDPEIKSAYLLTMNLWHDEAVRIIRAGHAAGEFTLRDSAENIAWRLISLVCGLDGIYVLGMPEVDDAAFTRHLQHVIQLELFS 5vm1-a6-m1-cB_5vm1-a6-m3-cD Crystal structure of a xyloylose kinase from Brucella ovis A0A0H3APL8 A0A0H3APL8 2.75 X-RAY DIFFRACTION 90 1.0 444178 (Brucella ovis ATCC 25840) 444178 (Brucella ovis ATCC 25840) 475 484 5vm1-a5-m1-cA_5vm1-a5-m2-cC HMYLGLDLGTSGVKALLIDEAQNPVGAAHGELDVSRPHPGWSEQDPAQWIKACRTAIEALRAAHPKEFSAITGIGLSGQMHGATLLDAEDRVLRPCILWNDTRSYREAAELDADPAFRAITGNIVFPGFTAPKLVWVARNEADIFARIRKVLLPKDYLRLWLTGEYISDMSDSAGTSWLDTGARRWSAELLAKTGLGEGQMPQLVEGSEAAGCLRAELVIVAGGAGDNAASACGMGTVKPGHAFVSLGTSGVLFAANGAYQPKPESAVHAFCHALPRTWHQMGVILSAASALEWYSKIVGATPQSLDRELGETLKAPGSVTFLPYLSGERTPYNDAKIRGSFCGLEHEADRSALTQAVLEGVAFAIRDNLLALQSAGTEITSLTAVGGGSRSTYWLKAIATALNVPIALPEEGDFGAAFGAARLGLIAATGADPFTICTPPQTARTIEPEQALLSAYDEAYQRYHALYPALHALD HMYLGLDLGTSGVKALLIDEAQNPVGAAHGELDVSRPHPGWSEQDPAQWIKACRTAIEALRAAHPKEFSAITGIGLSGQMHGATLLDAEDRVLRPCILWNDTRSYREAAELDADPAFRAITGNIVFPGFTAPKLVWVARNEADIFARIRKVLLPKDYLRLWLTGEYISDMSDSAGTSWLDTGARRWSAELLAKTGLGEGQMPQLVEGSEAAGCLRAELAAEWSLTASVIVAGGAGDNAASACGMGTVKPGHAFVSLGTSGVLFAANGAYQPKPESAVHAFCHALPRTWHQMGVILSAASALEWYSKIVGATPQSLDRELGETLKAPGSVTFLPYLSGERTPYNDAKIRGSFCGLEHEADRSALTQAVLEGVAFAIRDNLLALQSAGTEITSLTAVGGGSRSTYWLKAIATALNVPIALPEEGDFGAAFGAARLGLIAATGADPFTICTPPQTARTIEPEQALLSAYDEAYQRYHALYPALHALD 5vm2-a4-m1-cB_5vm2-a4-m2-cB Crystal structure of ECK1772, an oxidoreductase/dehydrogenase of unknown specificity involved in membrane biogenesis from Escherichia coli P77280 P77280 1.983 X-RAY DIFFRACTION 98 1.0 562 (Escherichia coli) 562 (Escherichia coli) 346 346 5vm2-a3-m1-cA_5vm2-a3-m2-cA MKNSKAILQVPGTMKIISAEIPVPKEDEVLIKVEYVGIGSDVHGFESGPFIPPKDPNQEIGLGHECAGTVVAVGSRVRKFKPGDRVNIEPGVPCGHCRYCLEGKYNICPDVDFMATQPNYRGALTHYLCHPESFTYKLPDNMDTMEGTLVEPAAVGMHAAMLADVKPGKKIIILGAGCIGLMTLQACKCLGATEIAVVDVLEKRLAMAEQLGATVVINGAKEDTIARCQQFTEDMGADIVFETAGSAVTVKQAPYLVMRGGKIMIVGTVPGASAINFLKINREVTIQTVFRYANRYPVTIEAISSGRFDVKSMVTHIYDYRDVQQAFEESVNNKRDIIKGVIKISD MKNSKAILQVPGTMKIISAEIPVPKEDEVLIKVEYVGIGSDVHGFESGPFIPPKDPNQEIGLGHECAGTVVAVGSRVRKFKPGDRVNIEPGVPCGHCRYCLEGKYNICPDVDFMATQPNYRGALTHYLCHPESFTYKLPDNMDTMEGTLVEPAAVGMHAAMLADVKPGKKIIILGAGCIGLMTLQACKCLGATEIAVVDVLEKRLAMAEQLGATVVINGAKEDTIARCQQFTEDMGADIVFETAGSAVTVKQAPYLVMRGGKIMIVGTVPGASAINFLKINREVTIQTVFRYANRYPVTIEAISSGRFDVKSMVTHIYDYRDVQQAFEESVNNKRDIIKGVIKISD 5vm4-a6-m1-cK_5vm4-a6-m1-cL The apo form of the triclocarban-binding single domain camelid nanobody VHH T10 1.9 X-RAY DIFFRACTION 47 1.0 9844 (Lama glama) 9844 (Lama glama) 130 132 5vm4-a1-m1-cA_5vm4-a1-m1-cB 5vm4-a2-m2-cC_5vm4-a2-m1-cF 5vm4-a3-m1-cI_5vm4-a3-m1-cD 5vm4-a4-m1-cJ_5vm4-a4-m1-cE 5vm4-a5-m3-cH_5vm4-a5-m1-cG KLQQSGGGMVQTGDSLRLSCVGSRRALSSTIVGWFRQIPGKEREFVGGIAWSSSDTWYADSVKGRFTISKDDAANGVHLQMSSLKPEDTAVYYCASALRRPGSDASDYTRIPDYPYWGQGTQVTVSSHHH KLQQSGGGMVQTGDSLRLSCVGSRRALSSTIVGWFRQIPGKEREFVGGIAWSSSDTWYADSVKGRFTISKDDAANGVHLQMSSLKPEDTAVYYCASALRRPGSDASDYTRIPDYPYWGQGTQVTVSSHHHHH 5vm8-a3-m1-cB_5vm8-a3-m1-cA Crystal structure of a Ribosomal RNA small subunit methyltransferase E from Neisseria gonorrhoeae bound to S-adenosyl methionine Q5F4Y3 Q5F4Y3 2.4 X-RAY DIFFRACTION 109 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 237 242 HMPRFYLPENLSVGQTVDLPDNIVRHLNVLRVRPNENITLFDGKGKAHTARLTVLEKHRAEAEILHEDTTDNESPLNITLIQSISSGDRMDFTLQKSVELGVTAIQPVISERCIVRAAKRLARWQEIVISACEQSGRNTVPPVLPIIGYREALDKMPSENTKLIMSINRACKLGDIRHPSGAIVFMVGPEGGWTEQEEQQAFEAGFQAVTLGKRILRTETAPLAAIAAMQTLWGDFT HMPRFYLPENLSVGQTVDLPDNIVRHLNVLRVRPNENITLFDGKGKAHTARLTVLEKHRAEAEILHEDTTDNESPLNITLIQSISSGDRMDFTLQKSVELGVTAIQPVISERCIVRLDGERAAKRLARWQEIVISACEQSGRNTVPPVLPIIGYREALDKMPSENTKLIMSINRACKLGDIRHPSGAIVFMVGPEGGWTEQEEQQAFEAGFQAVTLGKRILRTETAPLAAIAAMQTLWGDFT 5vmb-a2-m1-cA_5vmb-a2-m2-cA Crystal structure of a glycine hydroxymethyltransferase from Acinetobacter baumannii V5VBJ2 V5VBJ2 2.5 X-RAY DIFFRACTION 242 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 401 401 HHHMFANISISEFDPELAQAIASEDERQEAHIELIASENYCSPAVMEAQGSKLTNKYAEGYPGKRYYGGCEFVDVIEQMAIDRAKELFGADYANVQPHAGSQANSAVYLALLNPGDTVLGMSYNAVQYGLNAETGEIDYEEVERLALEHKPRMIVAGFSAYSRVVDWQRFRDIADKVGAYLFVDMAHVAGLVAAGVYPNPVQIADVTTTTTHKTLRGPRSGLILAKANEEIEKKLQSAVFPGNQGGPLMHAIAAKAICFKEAMSDDFKAYQQQVVKNAQAMAEVFIARGYDVVSGGTDNHLFLLSLIKQDVTGKDADAWLGAAHITVNKNSVPNDPRSPFVTSGIRIGTPAVTTRGFGEAEVRELAGWIADVIDSKGDEKVIADVKAKVEAVCAKFPVYAK HHHMFANISISEFDPELAQAIASEDERQEAHIELIASENYCSPAVMEAQGSKLTNKYAEGYPGKRYYGGCEFVDVIEQMAIDRAKELFGADYANVQPHAGSQANSAVYLALLNPGDTVLGMSYNAVQYGLNAETGEIDYEEVERLALEHKPRMIVAGFSAYSRVVDWQRFRDIADKVGAYLFVDMAHVAGLVAAGVYPNPVQIADVTTTTTHKTLRGPRSGLILAKANEEIEKKLQSAVFPGNQGGPLMHAIAAKAICFKEAMSDDFKAYQQQVVKNAQAMAEVFIARGYDVVSGGTDNHLFLLSLIKQDVTGKDADAWLGAAHITVNKNSVPNDPRSPFVTSGIRIGTPAVTTRGFGEAEVRELAGWIADVIDSKGDEKVIADVKAKVEAVCAKFPVYAK 5vmd-a2-m1-cD_5vmd-a2-m1-cB Crystal structure of UBR-box from UBR6 in a domain-swapping conformation Q86XK2 Q86XK2 2.202 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 72 GQCLYKISSYTSYPMHDFYRCHTCNRNAICVNCIKKCHQGHDVEFIRHDRFFCDCGAGTLSNPCTL GPLGSGQCLYKISSYTSYPMHDFYRCHTCNDRNAICVNCIKKCHQGHDVEFIRHDRFFCDCGAGTLSNPCTL 5vmk-a1-m1-cC_5vmk-a1-m1-cB Crystal structure of a bifunctional GlmU UDP-N-acetylglucosamine diphosphorylase/glucosamine-1- phosphate N-acetyltransferase from Acinetobacter baumannii B0VPT6 B0VPT6 2.55 X-RAY DIFFRACTION 147 0.986 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 415 430 5vmk-a1-m1-cB_5vmk-a1-m1-cA 5vmk-a1-m1-cC_5vmk-a1-m1-cA STTVIILAAGKGTRMRSQLPKVLQPLAGRPLLGHVIKTAKQLLAENIITIYGHGGDHVKKTFAQENIQWVEQAGTGHAVQMTLPISLILYGDVPLVRQTTLEQLIEVSNKTGIGMITLHVDNPTGYGRIKIQAIVEHKDATEAQRQIQEINTGIYCVSNAKLHEWLPKLSMAVADIASIQPELAFEVEGVNDRLQLAALEREFQKQQAKELMQQGVTFADPARFDLRGTVKVGHDVRIDVNVIIEGNCELGDFVEIGAGCILKNTTIAAGTKVQAYSVFDGAVVGENTQIGPFARLRPGAKLANEVHIGNFVEVKNTTIGLGSKANHFTYLGDAEIGAESNIGAGTITCNYDGANKHKTTIGDAVFIGSNSSLVAPVTIGNGATVGAGSVITKDVAEQSLSFEQQISKANYQRPQ TTVIILAAGKGTRMRSQLPKVLQPLAGRPLLGHVIKTAKQLLAENIITIYGHGGDHVKKTFAQENIQWVEQGTGHAVQMTLPVLGISLILYGDVPLVRQTTLEQLIEVSNKTGIGMITLHVDNPTGYGRIVRQDGKIQAIVEHKDATEAQRQIQEINTGIYCVSNAKLHEWLPYYLTDIVAMAVADGLEIASIQPELAFEVEGVNDRLQLAALEREFQKQQAKELMQQGVTFADPARFDLRGTVKVGHDVRIDVNVIIEGNCELGDFVEIGAGCILKNTTIAAGTKVQAYSVFDGAVVGENTQIGPFARLRPGAKLANEVHIGNFVEVKNTTIGLGSKANHFTYLGDAEIGAESNIGAGTITCNYDGANKHKTTIGDAVFIGSNSSLVAPVTIGNGATVGAGSVITKDVAEQSLSFERAQQISKANYQRP 5vmm-a1-m1-cF_5vmm-a1-m1-cE Staphylococcus aureus IsdB bound to human hemoglobin Q7A656 Q7A656 3.6 X-RAY DIFFRACTION 38 0.997 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 325 329 QELREAIKNPAIKDKDHSAPNSRPIDFEMKKENGEQQFYHYASSVKPARVIFTDSKPEIELGLQSGQFWRKFEVYEGDKKLPIKLVSYDTVKDYAYIRFSVSNGTKAVKIVSSTHFNNKEEKYDYTLMEFAQPIYNKFKTEEDYKAEKLLAPYKKAKTLERQVYELNKIQDKLPEKLKAEYKKKLEDTKKALDEQVKSAITEFQNVQPTNEKMTDLQDTKYVVYESVENNESMMDTFVKHPIKTGMLNGKKYMVMETTNDDYWKDFMVEGQRVRTISKDAKNNTRTIIFPYVEGKTLYDAIVKVHVKTIDYDGQYHVRIVDKEAF SNQELREAIKNPAIKDKDHSAPNSRPIDFEMKKENGEQQFYHYASSVKPARVIFTDSKPEIELGLQSGQFWRKFEVYEGDKKLPIKLVSYDTVKDYAYIRFSVSNGTKAVKIVSSTHFNNKEEKYDYTLMEFAQPIYNSADKFKTEEDYKAEKLLAPYKKAKTLERQVYELNKIQDKLPEKLKAEYKKKLEDTKKALDEQVKSAITEFQNVQPTNEKMTDLQDTKYVVYESVENNESMMDTFVKHPIKTGMLNGKKYMVMETTNDDYWKDFMVEGQRVRTISKDAKNNTRTIIFPYVEGKTLYDAIVKVHVKTIDYDGQYHVRIVDKEA 5vmt-a2-m1-cE_5vmt-a2-m1-cF Crystal structure of a glyceraldehyde-3-phosphate dehydrogenase from Neisseria gonorrhoeae bound to NAD B4RPP8 B4RPP8 2.5 X-RAY DIFFRACTION 133 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 293 333 5vmt-a1-m1-cC_5vmt-a1-m1-cD INGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELIVVNGREIKVFLECTGFFTNKTKAVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAG MSIKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGK 5vmt-a2-m1-cE_5vmt-a2-m1-cG Crystal structure of a glyceraldehyde-3-phosphate dehydrogenase from Neisseria gonorrhoeae bound to NAD B4RPP8 B4RPP8 2.5 X-RAY DIFFRACTION 112 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 293 332 INGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELIVVNGREIKVFLECTGFFTNKTKAVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAG IKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGKI 5vmt-a2-m1-cE_5vmt-a2-m1-cH Crystal structure of a glyceraldehyde-3-phosphate dehydrogenase from Neisseria gonorrhoeae bound to NAD B4RPP8 B4RPP8 2.5 X-RAY DIFFRACTION 29 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 293 332 INGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELIVVNGREIKVFLECTGFFTNKTKAVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAG SIKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGK 5vmt-a2-m1-cG_5vmt-a2-m1-cF Crystal structure of a glyceraldehyde-3-phosphate dehydrogenase from Neisseria gonorrhoeae bound to NAD B4RPP8 B4RPP8 2.5 X-RAY DIFFRACTION 31 0.997 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 332 333 5vmt-a1-m1-cA_5vmt-a1-m1-cD 5vmt-a1-m1-cC_5vmt-a1-m1-cB IKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGKI MSIKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGK 5vmt-a2-m1-cG_5vmt-a2-m1-cH Crystal structure of a glyceraldehyde-3-phosphate dehydrogenase from Neisseria gonorrhoeae bound to NAD B4RPP8 B4RPP8 2.5 X-RAY DIFFRACTION 134 0.997 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 332 332 5vmt-a1-m1-cA_5vmt-a1-m1-cB IKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGKI SIKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGK 5vmt-a2-m1-cH_5vmt-a2-m1-cF Crystal structure of a glyceraldehyde-3-phosphate dehydrogenase from Neisseria gonorrhoeae bound to NAD B4RPP8 B4RPP8 2.5 X-RAY DIFFRACTION 112 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 332 333 5vmt-a1-m1-cB_5vmt-a1-m1-cD 5vmt-a1-m1-cC_5vmt-a1-m1-cA SIKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGK MSIKVAINGFGRIGRLALRQIEKAHGIEVAAVNDLTPAEMLLHLFKYDSTQGRFQGTAELKDDAIVVNGREIKVFANPNPEELPWGELGVDVVLECTGFFTNKTKAEAHIRAGARKVVISAPGGNDVKTVVYGVNQDILDGSETVISAASCTTNCLAPMAAVLQKEFGVVEGLMTTIHAYTGDQNTLDAPHRKGDLRRARAAALNIVPNSTGAAKAIGLVIPELNGKLDGSAQRVPVATGSLTELVSVLERPATKEEINAAMKAASSESYGYNEDQIVSSDVVGIEYGSLFDATQTRVMTVGGKQLVKTVAWYDNEMSYTCQLVRTLEYFAGK 5vn0-a4-m1-cG_5vn0-a4-m1-cH Water-forming NADH oxidase from Lactobacillus brevis (LbNOX) bound to NADH. Q03Q85 Q03Q85 2.001 X-RAY DIFFRACTION 205 1.0 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 448 449 5er0-a1-m1-cA_5er0-a1-m1-cB 5er0-a2-m1-cC_5er0-a2-m1-cD 5vn0-a1-m1-cA_5vn0-a1-m1-cB 5vn0-a2-m1-cC_5vn0-a2-m1-cD 5vn0-a3-m1-cF_5vn0-a3-m1-cE 5voh-a1-m1-cA_5voh-a1-m1-cB 5voh-a1-m1-cC_5voh-a1-m1-cD SMKVTVVGCTHAGTFAIKQILAEHPDAEVTVYERNDVISFLSCGIALYLGGKVADPQGLFYSSPEELQKLGANVQMNHNVLAIDPDQKTVTVEDLTNHAQTTESYDKLVMTSGSWPIVPKIPGIDSDRVKLCKNWAHAQALIEDAKEAKRITVIGAGYIGAELAEAYSTTGHDVTLIDAMARVMPKYFDADFTDVIEQDYRDHGVQLALGETVESFTDSATGLTIKTDKNSYETDLAILCIGFRPNTDLLKGKVDMAPNGAIITDDYMRSSNPDIFAAGDSAAVHYNPTHQNAYIPLATNAVRQGILVGKNLVKPTVKYMGTQSSSGLALYDRTIVSTGLTLAAAKQQGLNAEQVIVEDNYRPEFMPSTEPVLMSLVFDPDTHRILGGALMSKYDVSQSANTLSVCIQNENTIDDLAMVDMLFQPNFDRPFNYLNILAQAAQAKVAQS SMKVTVVGCTHAGTFAIKQILAEHPDAEVTVYERNDVISFLSCGIALYLGGKVADPQGLFYSSPEELQKLGANVQMNHNVLAIDPDQKTVTVEDLTNHAQTTESYDKLVMTSGSWPIVPKIPGIDSDRVKLCKNWAHAQALIEDAKEAKRITVIGAGYIGAELAEAYSTTGHDVTLIDAMARVMPKYFDADFTDVIEQDYRDHGVQLALGETVESFTDSATGLTIKTDKNSYETDLAILCIGFRPNTDLLKGKVDMAPNGAIITDDYMRSSNPDIFAAGDSAAVHYNPTHQNAYIPLATNAVRQGILVGKNLVKPTVKYMGTQSSSGLALYDRTIVSTGLTLAAAKQQGLNAEQVIVEDNYRPEFMPSTEPVLMSLVFDPDTHRILGGALMSKYDVSQSANTLSVCIQNENTIDDLAMVDMLFQPNFDRPFNYLNILAQAAQAKVAQSV 5vn4-a1-m1-cB_5vn4-a1-m1-cA Crystal structure of adenine phosphoribosyl transferase from Trypanosoma brucei in complex with AMP, pyrophosphate, and ribose-5-phosphate Q57V32 Q57V32 1.35 X-RAY DIFFRACTION 207 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 231 237 MSLVEVLPNYFTLSKDSPLRKKFEKVYKWYSPAFSPHDVPRFAEVGNITENPEVMRGIRDFFVDRYKNLQQPITHILGFDSRGFLLGPMIAVELNVPFVLIRKANKIAGVIIKSEPYTKEYEECMTVRFGSFDKNSRVVLIDDVIATGGTMLAGVQLVDACGATLVEVAGILGLTFLKGTQPAHTFAGGRYSNVPFVTLVDETVLSDENCGDPLHHKGSRIISCAEAKKLI HHMSLVEVLPNYFTLSKDSPLRKKFEKVYKWYSPAFSPHDVPRFAEVGNITENPEVMRGIRDFFVDRYKNLQQPITHILGFDSRGFLLGPMIAVELNVPFVLIRKANKIAGVIIKSEPYTKEYAAESEECMTVRFGSFDKNSRVVLIDDVIATGGTMLAGVQLVDACGATLVEVAGILGLTFLKGTQPAHTFAGGRYSNVPFVTLVDETVLSDENCGDPLHHKGSRIISCAEAKKLI 5vn6-a1-m1-cB_5vn6-a1-m1-cA Crystal structure of Taurine dioxygenase from Burkholderia ambifaria B1YQF4 B1YQF4 2.1 X-RAY DIFFRACTION 56 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 268 273 MRVEPLTCAIGAELLGVNLADAVHDDGLFAEIRTQLLRHRVLFLRDQDITRAEHVAFARRFGELEDHEHPGLVRIYKRYENAWHSDASWRVAPPFGCVLRCIDGPPVGGDTMWANMVLAYENLPDHVKQQIADLRARHSIEASFGAAMPIDKRLALKAQYPDAEHPVVRTHPETGEKVLYVNAFTTHFTNFHTPARVRVGQDANPGAGQLLHYLIGQAAIPEYQVRWRWKKNSVAIWDNRATQHYAVMDYPPCVRRMERAGIVGDVPF MRVEPLTCAIGAELLGVNLADAVHDDGLFAEIRTQLLRHRVLFLRDQDITRAEHVAFARRFGELEDHPVAGEHPGLVRIYKDRYENAWHSDASWRVAPPFGCVLRCIDGPPVGGDTMWANMVLAYENLPDHVKQQIADLRARHSIEASFGAAMPIDKRLALKAQYPDAEHPVVRTHPETGEKVLYVNAFTTHFTNFHTPARVRVGQDANPGAGQLLHYLIGQAAIPEYQVRWRWKKNSVAIWDNRATQHYAVMDYPPCVRRMERAGIVGDVPF 5vnk-a1-m1-cD_5vnk-a1-m1-cB Crystal structure of Sec23a/Sec24a/Sec22 complexed with a C-terminal LL sorting motif O95486 2.55 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 3 729 5vnh-a1-m1-cD_5vnh-a1-m1-cB 5vnj-a1-m1-cD_5vnj-a1-m1-cB SLL EGLRVVNLLQERNMLPSTPLKPPVPNLHEDIQKLNCNPELFRCTLTSIPQTQALLNKAKLPLGLLLHPFKDLVQLPVVTSSTIVRCRSCRTYINPFVSFLDQRRWKCNLCYRVNDVPEEEPHRRPEVQNATIEFMAPSEYMLRPPQPPVYLFVFDVSHNAVETGYLNSVCQSLLDNLDLLPGNTRTKIGFITFDSTIHFYGLQESLSQPQMLIVSDIEDVFIPMPENLLVNLNESKELVQDLLKTLPQMFTKTLETQSALGPALQAAFKLMSPTGGRMSVFQTQLPTLGVGALKPREEPNHRSSAKMTPSTDFYKKLALDCSGQQVAVDLFLLSGQYSDLASLGCISRYSAGSVYYYPSYHHQHNPVQVQKLQKELQRYLTRKIGFEAVMRIRCTKGLSIHTFHGNFFVRSTDLLSLPNVNPDAGYAVQMSVEESLTDTQLVSFQSALLYTSSKGERRIRVHTLCLPVVSTLNDVFLGADVQAISGLLANMAVDRSMTASLSDARDALVNAVIDSLSAYRSSVPGLMVPFSLRLFPLFVLALLKQKSFQTGTNARLDERIFAMCQVKNQPLVYLMLTTHPSLYRVDNLSDEGALNISDRTIPQPPILQLSVEKLSRDGAFLMDAGSVLMLWVGKNCTQNFLSQVLGVQNYASIPQPMTDLPELDTPESARIIAFISWLREQRPFFPILYVIADESPMKANFLQNMIEDRTESALSYYEFLLHIQQQVNK 5vnz-a1-m1-cA_5vnz-a1-m2-cA Structure of a TRAF6-Ubc13~Ub complex Q6IWL4 Q6IWL4 3.41 X-RAY DIFFRACTION 33 1.0 7955 (Danio rerio) 7955 (Danio rerio) 108 108 5vnz-a2-m1-cD_5vnz-a2-m3-cD 5vo0-a1-m1-cA_5vo0-a1-m1-cD DQQGYDVEFDPPLESKYECPICLMGLRSAVQTPCGHRFCDSCIRKSIRDTGQKCPVDNEVLLEEQLFPDNFAKREILSLTVKCSNFGCSEKMELRQLEKHLSQCRFAL DQQGYDVEFDPPLESKYECPICLMGLRSAVQTPCGHRFCDSCIRKSIRDTGQKCPVDNEVLLEEQLFPDNFAKREILSLTVKCSNFGCSEKMELRQLEKHLSQCRFAL 5vo3-a1-m1-cA_5vo3-a1-m2-cA Crystal structure of DapE in complex with the products (succinic acid and diaminopimelic acid) P44514 P44514 1.954 X-RAY DIFFRACTION 195 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 380 380 ASNAMKEKVVSLAQDLIRRPSISPNDEGCQQIIAERLEKLGFQIEWMPFNDTLNLWAKHGTSEPVIAFAGHTDVVPTGDENQWSSPPFSAEIIDGMLYGRGAADMKGSLAAMIVAAEEYVKANPNHKGTIALLITSDEEATAKDGTIHVVETLMARDEKITYCMVGEPSSAKNLGDVVKNGRRGSITGNLYIQGIQGHVAYPHLAENPIHKAALFLQELTTYQWDKGNEFFPPTSLQIANIHAGTGSNNVIPAELYIQFNLRYCTEVTDEIIKQKVAEMLEKHNLKYRIEWNLSGKPFLTKPGKLLDSITSAIEETIGITPKAETGGGTSDGRFIALMGAEVVEFGPLNSTIHKVNECVSVEDLGKCGEIYHKMLVNLLD ASNAMKEKVVSLAQDLIRRPSISPNDEGCQQIIAERLEKLGFQIEWMPFNDTLNLWAKHGTSEPVIAFAGHTDVVPTGDENQWSSPPFSAEIIDGMLYGRGAADMKGSLAAMIVAAEEYVKANPNHKGTIALLITSDEEATAKDGTIHVVETLMARDEKITYCMVGEPSSAKNLGDVVKNGRRGSITGNLYIQGIQGHVAYPHLAENPIHKAALFLQELTTYQWDKGNEFFPPTSLQIANIHAGTGSNNVIPAELYIQFNLRYCTEVTDEIIKQKVAEMLEKHNLKYRIEWNLSGKPFLTKPGKLLDSITSAIEETIGITPKAETGGGTSDGRFIALMGAEVVEFGPLNSTIHKVNECVSVEDLGKCGEIYHKMLVNLLD 5vo5-a2-m1-cA_5vo5-a2-m2-cA Crystal structure of Lgd-Shrub complex, single chain fusion Q8T0Q4 Q8T0Q4 2.004 X-RAY DIFFRACTION 37 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 179 179 NMLEALQQRLEKYQSVEAAAKAENNSGKARRFGRIVKQYEDAIKLYKAGKPVPYDELPVPPGFGGTTGEAIQKLRETENMLIKKQEFLEAKIEDELNIARKNASKNKEVALQALKKKKELEKQLQQIDGTLSTIEMQREALESANTNTAVLTTMKNAADALKRAHQNMDVDKVHDMMDD NMLEALQQRLEKYQSVEAAAKAENNSGKARRFGRIVKQYEDAIKLYKAGKPVPYDELPVPPGFGGTTGEAIQKLRETENMLIKKQEFLEAKIEDELNIARKNASKNKEVALQALKKKKELEKQLQQIDGTLSTIEMQREALESANTNTAVLTTMKNAADALKRAHQNMDVDKVHDMMDD 5vod-a2-m1-cC_5vod-a2-m4-cC Crystal structure of HCMV Pentamer in complex with neutralizing antibody 9I6 P16837 P16837 5.9 X-RAY DIFFRACTION 57 1.0 10360 (Human herpesvirus 5 strain AD169) 10360 (Human herpesvirus 5 strain AD169) 131 131 EFINVNHPPERCYDFKMCNRFTVALRCPDGEVCYSPEKTAEIRGIVTTMTHSLTRQVVHNKLTSCNYNPLYLEADGRIRCGKVNDKAQYLLGAAGSVPYRWINLEYDKITRIVGLDQYLESVKKHKRLDVC EFINVNHPPERCYDFKMCNRFTVALRCPDGEVCYSPEKTAEIRGIVTTMTHSLTRQVVHNKLTSCNYNPLYLEADGRIRCGKVNDKAQYLLGAAGSVPYRWINLEYDKITRIVGLDQYLESVKKHKRLDVC 5vog-a1-m1-cA_5vog-a1-m2-cA Crystal Structure of a Hypothetical Protein from Neisseria gonorrhoeae with bound ppGpp A0A1D3HIA2 A0A1D3HIA2 1.5 X-RAY DIFFRACTION 103 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 176 176 HHMKQKIWYTYDDIHRVIKALAEKIRNAGVKYDAMIAIGGGGFIPARMLRCFLEIPIYAVTTAYYDSDNEGQVTEEVKKVQWLDPVPEVLRGKNVLVVDEVDDSRVTMEFCLKELLKEDFDTVGVAVLHEKIKAKAGKIPEGIPYFSGITVEDWWINYPWDALDIDEHNRLAEAGR HHMKQKIWYTYDDIHRVIKALAEKIRNAGVKYDAMIAIGGGGFIPARMLRCFLEIPIYAVTTAYYDSDNEGQVTEEVKKVQWLDPVPEVLRGKNVLVVDEVDDSRVTMEFCLKELLKEDFDTVGVAVLHEKIKAKAGKIPEGIPYFSGITVEDWWINYPWDALDIDEHNRLAEAGR 5voh-a1-m1-cA_5voh-a1-m1-cC Crystal structure of engineered water-forming NADPH oxidase (TPNOX) bound to NADPH. The G159A, D177A, A178R, M179S, P184R mutant of LbNOX. M5B0V2 M5B0V2 2.302 X-RAY DIFFRACTION 46 1.0 1001583 (Levilactobacillus brevis KB290) 1001583 (Levilactobacillus brevis KB290) 447 448 MKVTVVGCTHAGTFAIKQILAEHPDAEVTVYERNDVISFLSGIALYLGGKVADPQGLFYSSPEELQKLGANVQMNHNVLAIDPDQKTVTVEDLTNHAQTTESYDKLVMTSGSWPIVPKIPGIDSDRVKLCKNWAHAQALIEDAKEAKRITVIGAGYIAAELAEAYSTTGHDVTLIARSARVMRKYFDADFTDVIEQDYRDHGVQLALGETVESFTDSATGLTIKTDKNSYETDLAILCIGFRPNTDLLKGKVDMAPNGAIITDDYMRSSNPDIFAAGDSAAVHYNPTHQNAYIPLATNAVRQGILVGKNLVKPTVKYMGTQSSSGLALYDRTIVSTGLTLAAAKQQGLNAEQVIVEDNYRPEFMPSTEPVLMSLVFDPDTHRILGGALMSKYDVSQSANTLSVCIQNENTIDDLAMVDMLFQPNFDRPFNYLNILAQAAQAKVAQSV MKVTVVGCTHAGTFAIKQILAEHPDAEVTVYERNDVISFLSGIALYLGGKVADPQGLFYSSPEELQKLGANVQMNHNVLAIDPDQKTVTVEDLTNHAQTTESYDKLVMTSGSWPIVPKIPGIDSDRVKLCKNWAHAQALIEDAKEAKRITVIGAGYIAAELAEAYSTTGHDVTLIARSARVMRKYFDADFTDVIEQDYRDHGVQLALGETVESFTDSATGLTIKTDKNSYETDLAILCIGFRPNTDLLKGKVDMAPNGAIITDDYMRSSNPDIFAAGDSAAVHYNPTHQNAYIPLATNAVRQGILVGKNLVKPTVKYMGTQSSSGLALYDRTIVSTGLTLAAAKQQGLNAEQVIVEDNYRPEFMPSTEPVLMSLVFDPDTHRILGGALMSKYDVSQSANTLSVCIQNENTIDDLAMVDMLFQPNFDRPFNYLNILAQAAQAKVAQSVN 5vok-a6-m3-cH_5vok-a6-m1-cF Crystal structure of the C7orf59-HBXIP dimer Q0VGL1 Q0VGL1 2.89 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 93 5vok-a5-m2-cD_5vok-a5-m1-cB ALTQGLERIPDQLGYLVLSEGAVLASSGDLENDEQAASAISELVSTACGFRKRLSVVFGEHTLLVTVSGQRVFVVKRQNR SMTSALTQGLERIPDQLGYLVLSEGAVLASSGDLENDEQAASAISELVSTACGFRLHRGMNVPFKRLSVVFGEHTLLVTVSGQRVFVVKRQNR 5vol-a1-m1-cB_5vol-a1-m1-cC Bacint_04212 ferulic acid esterase B3CET1 B3CET1 1.98 X-RAY DIFFRACTION 30 0.996 471870 (Bacteroides intestinalis DSM 17393) 471870 (Bacteroides intestinalis DSM 17393) 264 268 5vol-a1-m1-cA_5vol-a1-m1-cF 5vol-a2-m1-cG_5vol-a2-m1-cD 5vol-a2-m1-cH_5vol-a2-m1-cE NFQSKVVTDTLFSKVLNSKRAYTVFLPKSFEQNKEKKYPVLYLLHGMWETNPVWAERGHVKDVMDRLVASGEACEMIIVTPNAGGNIHLEWNGYFDMPGWKYETFFYTEFLPYIEKKYRVIGDRQHRAIAGLSMGGGGATNYGQRHSDMFCAVYAMSALMSIPEQPADDPNSKIAILTRSVIENSCVKYVMEADEDRKADLRSVAWFVDCGDDDFLLDRNIEFYQAMRNAGVPCQFRVRDGGHDWEYWHSALYQCLPFVTRIFG PWNFQSKVVTDTLFSKVLNSKRAYTVFLPKSFEQNKEKKYPVLYLLHGMWETNPVWAERGHVKDVMDRLVASGEACEMIIVTPNAGGNIHLEWNGYFDMPGWKYETFFYTEFLPYIEKKYRVIGDRQHRAIAGLSMGGGGATNYGQRHSDMFCAVYAMSALMSIPEQGAVPADDPNSKIAILTRSVIENSCVKYVMEADEDRKADLRSVAWFVDCGDDDFLLDRNIEFYQAMRNAGVPCQFRVRDGGHDWEYWHSALYQCLPFVTRIF 5vol-a2-m1-cH_5vol-a2-m1-cG Bacint_04212 ferulic acid esterase B3CET1 B3CET1 1.98 X-RAY DIFFRACTION 22 0.996 471870 (Bacteroides intestinalis DSM 17393) 471870 (Bacteroides intestinalis DSM 17393) 257 258 5vol-a1-m1-cA_5vol-a1-m1-cB 5vol-a1-m1-cF_5vol-a1-m1-cC 5vol-a2-m1-cD_5vol-a2-m1-cE FQSKVVTDTLFSKVLNSKRAYTVFLPKSFEQNKEKKYPVLYLLHGMWETNPVWAERGHVKDVMDRLVASGEACEMIIVTPNAGGNIHLEWNGYFDMPGWKYETFFYTEFLPYIEKKYRVIGDRQHRAIAGLSMGGGGATNYGQRHSDMFCAVYAMSALMSIPDPNSKIAILTRSVIENSCVKYVMEADEDRKADLRSVAWFVDCGDDDFLLDRNIEFYQAMRNAGVPCQFRVRDGGHDWEYWHSALYQCLPFVTRIF NFQSKVVTDTLFSKVLNSKRAYTVFLPKSFEQNKEKKYPVLYLLHGMWETNPVWAERGHVKDVMDRLVASGEACEMIIVTPNAGGNIHLEWNGYFDMPGWKYETFFYTEFLPYIEKKYRVIGDRQHRAIAGLSMGGGGATNYGQRHSDMFCAVYAMSALMSIPEPNSKIAILTRSVIENSCVKYVMEADEDRKADLRSVAWFVDCGDDDFLLDRNIEFYQAMRNAGVPCQFRVRDGGHDWEYWHSALYQCLPFVTRIF 5vqe-a2-m1-cA_5vqe-a2-m2-cA Beta-glucoside phosphorylase BglX bound to 2FGlc A0A2R2JFS5 A0A2R2JFS5 1.889 X-RAY DIFFRACTION 134 1.0 32644 (unidentified) 32644 (unidentified) 559 559 5vqd-a2-m1-cA_5vqd-a2-m2-cA MYESILSIKPYNLSKEQITWVNQTLVSLSDDEKLGQLICEIIWDKPGCDPLDVMKHFLPGAVMYRPFKAKRMREFTQRLQKASKIPLLIACNLERGGSGGNGGMEDGTYVASPMGVAATDDESSAEHLGEVCASEGSAVGVNWTYEPIIDIDMNPENPITNVRTYGSDPERIIRMAKAYCRGCRKWGVLTTIKHFPGDGVDYRDQHLMSSVNNLSADEWMDTYGRIYQALIEDGAETLMSAHIRQPNVTRMVNPLIKDEEIMPGSLSKELMQGILRGRFHFNGLICTDATQMVGYTCSMPRHEALPTSIQNGADMLTFTLNPTEDFKALQEGLSCGLLTHERLDEAVARILGMKAKLRLPERKDVVPPLHAMERIQSKKHKKWALEIADESITLVKDKQKGLLPLSPQKTKRIILVQATNEKPEGGYLSEARLFKGLLEKEGFIVHWFEEVPRPGTGYSIEDLKRDTDLFIYYANFKVSSNQTTIRLVWSGDSSPKFVCDVPTLFLSFSNPYHLVDVPMVKTYINAYTSNEATVRMMIEKLMGRSSFKGKSPVDPFAGL MYESILSIKPYNLSKEQITWVNQTLVSLSDDEKLGQLICEIIWDKPGCDPLDVMKHFLPGAVMYRPFKAKRMREFTQRLQKASKIPLLIACNLERGGSGGNGGMEDGTYVASPMGVAATDDESSAEHLGEVCASEGSAVGVNWTYEPIIDIDMNPENPITNVRTYGSDPERIIRMAKAYCRGCRKWGVLTTIKHFPGDGVDYRDQHLMSSVNNLSADEWMDTYGRIYQALIEDGAETLMSAHIRQPNVTRMVNPLIKDEEIMPGSLSKELMQGILRGRFHFNGLICTDATQMVGYTCSMPRHEALPTSIQNGADMLTFTLNPTEDFKALQEGLSCGLLTHERLDEAVARILGMKAKLRLPERKDVVPPLHAMERIQSKKHKKWALEIADESITLVKDKQKGLLPLSPQKTKRIILVQATNEKPEGGYLSEARLFKGLLEKEGFIVHWFEEVPRPGTGYSIEDLKRDTDLFIYYANFKVSSNQTTIRLVWSGDSSPKFVCDVPTLFLSFSNPYHLVDVPMVKTYINAYTSNEATVRMMIEKLMGRSSFKGKSPVDPFAGL 5vqp-a1-m1-cA_5vqp-a1-m2-cA Crystal structure of human pro-TGF-beta1 P01137 P01137 2.9 X-RAY DIFFRACTION 262 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 322 322 6gff-a2-m1-cG_6gff-a2-m1-cE 6p7j-a1-m1-cA_6p7j-a1-m2-cA TSKTIDMELVKRKRIEAIRGQILSKLRLASPPSQGEVGPLPEAVLALYNSTRDRVAGADYYAKEVTRVLMVETHNEIYDKFKQSTHSIYMFFQTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQKYSQNSWRYLSNRLLAPSDSPEWLSFDVTGVVRQWLSRGGEIEGFRLSAHCSCDSRDNTLQVDINGFTTGRRGDLATIHGMNRPFLLLMATPLERAQHLLDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPLALPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS TSKTIDMELVKRKRIEAIRGQILSKLRLASPPSQGEVGPLPEAVLALYNSTRDRVAGADYYAKEVTRVLMVETHNEIYDKFKQSTHSIYMFFQTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQKYSQNSWRYLSNRLLAPSDSPEWLSFDVTGVVRQWLSRGGEIEGFRLSAHCSCDSRDNTLQVDINGFTTGRRGDLATIHGMNRPFLLLMATPLERAQHLLDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPLALPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS 5vr2-a2-m1-cC_5vr2-a2-m1-cD mouse myocilin leucine zipper C-terminal 7 heptad repeat O70624 O70624 1.922 X-RAY DIFFRACTION 70 1.0 10090 (Mus musculus) 10090 (Mus musculus) 50 50 5vr2-a1-m1-cA_5vr2-a1-m1-cB RDLEAAYNNLLRDKSALEEEKRQLEQENEDLARRLESSSEEVTRLRRGQC RDLEAAYNNLLRDKSALEEEKRQLEQENEDLARRLESSSEEVTRLRRGQC 5vrc-a2-m1-cD_5vrc-a2-m1-cB Crystal structure for Methylobacterium extorquens PqqC (truncation of natural CD fusion) Q49150 Q49150 2 X-RAY DIFFRACTION 90 0.987 272630 (Methylorubrum extorquens AM1) 272630 (Methylorubrum extorquens AM1) 223 228 5vrc-a1-m1-cC_5vrc-a1-m1-cA 5vrd-a1-m1-cB_5vrd-a1-m1-cD LLSHEELEAALRDIGARRYHNLHPFHRLLHDGKLSKDQVRAWALNRYYYQAMIPVKDAALLARLPDAQLRRIWRQRIVDHDGDHEGDGGIERWLKLAEGVGFTRDYVLSTKGILSATRFSVDAYVHFVSERSLLEAIASSLRVAGMLKNYDFITKDTLAYFDADFALDYVKRHATTPEMQRAAIDALTFKCNVLWTQLDALYFAYVAPGMVPPDAWQPGEGLV RLLSHEELEAALRDIGARRYHNLHPFHRLLHDGKLSKDQVRAWALNRYYYQAMIPVKDAALLARLPDAQLRRIWRQRIVDHDGDHEGDGGIERWLKLAEGVGFTRDYVLSTKGILSATRFSVDAYVHFVSERSLLEAIASSLTEMFSPGMLKNYDFITKDTLAYFDKADFALDYVKRHATTPEMQRAAIDALTFKCNVLWTQLDALYFAYVAPGMVPPDAWQPGEGLV 5vre-a1-m1-cB_5vre-a1-m1-cC Crystal structure of a lysosomal potassium-selective channel TMEM175 homolog from Chamaesiphon Minutus K9UJK2 K9UJK2 3.299 X-RAY DIFFRACTION 63 1.0 1173020 (Chamaesiphon minutus PCC 6605) 1173020 (Chamaesiphon minutus PCC 6605) 188 188 5vre-a1-m1-cA_5vre-a1-m1-cC 5vre-a1-m1-cA_5vre-a1-m1-cD 5vre-a1-m1-cB_5vre-a1-m1-cD QSETGRIEAFSDGVFAIAITLLVLEIKVPQHKIVETVGLVSSLLSLWPSYLAFLTSFASILVMWVNHHRIFSLVARTDHAFFYWNGLLLMLVTFVPFPTALLAEYLIHPQARVAASVYAGIFLAIAIVFNRLWKHAATDRHEVDAITKQYRFGPGLYLVAFALSFISVWLSVGVCFVLAIYFALRSNA QSETGRIEAFSDGVFAIAITLLVLEIKVPQHKIVETVGLVSSLLSLWPSYLAFLTSFASILVMWVNHHRIFSLVARTDHAFFYWNGLLLMLVTFVPFPTALLAEYLIHPQARVAASVYAGIFLAIAIVFNRLWKHAATDRHEVDAITKQYRFGPGLYLVAFALSFISVWLSVGVCFVLAIYFALRSNA 5vrq-a1-m1-cA_5vrq-a1-m2-cA Crystal structure of Legionella pneumophila effector AnkC Q5ZY89 Q5ZY89 3.205 X-RAY DIFFRACTION 112 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 319 319 FVSEMNKILQMELEQFKEFIQKKLEEDKNYLEKLFWLPNGSQMTVLNYLIEQYDLLAKIDFVLHEAKDVNVGEPLHQAIVAGKISLALHLLGVTDVLSILSKVRKKIFFDVDKRDGYGRTLLSLALDAKRQELLIAILARNPIVHATTLRSSAYVPFQPIHQAVVLDYAEGITLLASMGAQLTNPLGSMRDTPVILAARLGKINALAALLELPTQSLSLESENNHLDKQTGHTAVEELCERMANENDKADALRGIAMLICRGAEPPRNEKMRNLLSSNRVAFLKAVSTYLADKPQLVDAFVERCHLSALHNIVYSIRHL FVSEMNKILQMELEQFKEFIQKKLEEDKNYLEKLFWLPNGSQMTVLNYLIEQYDLLAKIDFVLHEAKDVNVGEPLHQAIVAGKISLALHLLGVTDVLSILSKVRKKIFFDVDKRDGYGRTLLSLALDAKRQELLIAILARNPIVHATTLRSSAYVPFQPIHQAVVLDYAEGITLLASMGAQLTNPLGSMRDTPVILAARLGKINALAALLELPTQSLSLESENNHLDKQTGHTAVEELCERMANENDKADALRGIAMLICRGAEPPRNEKMRNLLSSNRVAFLKAVSTYLADKPQLVDAFVERCHLSALHNIVYSIRHL 5vrv-a3-m1-cE_5vrv-a3-m1-cF 2.05 Angstrom Resolution Crystal Structure of C-terminal Domain (DUF2156) of Putative Lysylphosphatidylglycerol Synthetase from Agrobacterium fabrum. A9CHP8 A9CHP8 2.05 X-RAY DIFFRACTION 70 0.997 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 304 305 5vrv-a1-m1-cB_5vrv-a1-m1-cA 5vrv-a2-m1-cD_5vrv-a2-m1-cC SNAEDVERATDIVRQDSADANLVRGDKHVFSESGNAFIYGIQGRSWIAFADPVGDEEDFPDLVWQFVEAARGAGARAAFYQISPFLLSHCADAGLRAFKLGELALVDLTAFELKGGKLATLRQSLSRGARDGLTFEVVEQSQVPDIDELQQVSDGWLAHHNTREKRFSLGAFEPDYILSQPVAVLRKDGKITAFANLVTETKKEATIDLRFSADAPRGSDFLFVSIQHLREAGYESFNLGAPRIGSTLFEHGERFYNFKGLRAFKAKFHPKWEPRYLAVQNGADAALALDATVLISGGVRGVIG SNAEDVERATDIVRQDSADANLVRGDKHVFSESGNAFIYGIQGRSWIAFADPVGDEEDFPDLVWQFVEAARGAGARAAFYQISPFLLSHCADAGLRAFKLGELALVDLTAFELKGGKLATLRQSLSRGARDGLTFEVVEQSQVPDIDELQQVSDGWLAHHNTREKRFSLGAFEPDYILSQPVAVLRKDGKITAFANLVTETKKEATIDLRFSADAPRGSDFLFVSIQHLREAGYESFNLGAPSDRIGSTLFEHGERFYNFKGLRAFKAKFHPKWEPRYLAVQNGADAALALDATVLISGGVRGVI 5vt2-a1-m1-cA_5vt2-a1-m1-cB Crystal structure of growth differentiation factor Q99988 Q99988 2.3 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 5vz3-a1-m1-cA_5vz3-a1-m2-cA 5vz4-a1-m1-cA_5vz4-a1-m2-cA 6q2j-a1-m1-cA_6q2j-a1-m1-cB DHCPLGPGRCCRLHTVRASLEDLGWADWVLSPREVQVTMCIGACPSQFRAANMHAQIKTSLHRLKPDTVPAPCCVPASYNPMVLIQKTDTGVSLQTYDDLLAKDCHCI DHCPLGPGRCCRLHTVRASLEDLGWADWVLSPREVQVTMCIGACPSQFRAANMHAQIKTSLHRLKPDTVPAPCCVPASYNPMVLIQKTDTGVSLQTYDDLLAKDCHCI 5vt6-a1-m1-cB_5vt6-a1-m1-cC Crystal structure of Acetoacetyl-CoA Reductase from Burkholderia pseudomallei 1710b complexed with NADP Q3JJT1 Q3JJT1 1.7 X-RAY DIFFRACTION 117 0.996 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 237 240 3gk3-a1-m1-cC_3gk3-a1-m1-cB 5vt6-a1-m1-cD_5vt6-a1-m1-cA KRVAFVTGGMGGLGAAISRRLHDAGMAVAVSHSERNDHVSTWLMHERDAGRDFKAYAVDVADFESCERCAEKVLADFGKVDVLINNAGITRDATFMKMTKGDWDAVMRTDLDAMFNVTKQFIAGMVERRFGRIVNIGSVNGSRGAFGQANYASAKAGIHGFTKTLALETAKRGITVNTVSPGYLATAVLEAKILPQIPVGRLGRPDEVAALIAFLCSDDAGFVTGADLAINGGMHMS KRVAFVTGGMGGLGAAISRRLHDAGMAVAVSHSERNDHVSTWLMHERDAGRDFKAYAVDVADFESCERCAEKVLADFGKVDVLINNAGITRDATFMKMTKGDWDAVMRTDLDAMFNVTKQFIAGMVERRFGRIVNIGSVNGSRGAFGQANYASAKAGIHGFTKTLALETAKRGITVNTVSPGYLATVPQDVLEAKILPQIPVGRLGRPDEVAALIAFLCSDDAGFVTGADLAINGGMHMS 5vt6-a1-m1-cD_5vt6-a1-m1-cB Crystal structure of Acetoacetyl-CoA Reductase from Burkholderia pseudomallei 1710b complexed with NADP Q3JJT1 Q3JJT1 1.7 X-RAY DIFFRACTION 13 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 234 237 3gk3-a1-m1-cC_3gk3-a1-m1-cA 3gk3-a1-m1-cD_3gk3-a1-m1-cB 5vt6-a1-m1-cC_5vt6-a1-m1-cA KRVAFVTGGMGGLGAAISRRLHDAGMAVAVSHSERNDHVSTWLMHERDAGRDFKAYAVDVADFESCERCAEKVLADFGKVDVLINNAGITRDATFMKMTKGDWDAVMRTDLDAMFNVTKQFIAGMVERRFGRIVNIGSVNGSRGAFGQANYASAKAGIHGFTKTLALETAKRGITVNTVSPGYLATEAKILPQIPVGRLGRPDEVAALIAFLCSDDAGFVTGADLAINGGMHMS KRVAFVTGGMGGLGAAISRRLHDAGMAVAVSHSERNDHVSTWLMHERDAGRDFKAYAVDVADFESCERCAEKVLADFGKVDVLINNAGITRDATFMKMTKGDWDAVMRTDLDAMFNVTKQFIAGMVERRFGRIVNIGSVNGSRGAFGQANYASAKAGIHGFTKTLALETAKRGITVNTVSPGYLATAVLEAKILPQIPVGRLGRPDEVAALIAFLCSDDAGFVTGADLAINGGMHMS 5vt6-a1-m1-cD_5vt6-a1-m1-cC Crystal structure of Acetoacetyl-CoA Reductase from Burkholderia pseudomallei 1710b complexed with NADP Q3JJT1 Q3JJT1 1.7 X-RAY DIFFRACTION 141 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 234 240 3gk3-a1-m1-cA_3gk3-a1-m1-cB 5vt6-a1-m1-cB_5vt6-a1-m1-cA KRVAFVTGGMGGLGAAISRRLHDAGMAVAVSHSERNDHVSTWLMHERDAGRDFKAYAVDVADFESCERCAEKVLADFGKVDVLINNAGITRDATFMKMTKGDWDAVMRTDLDAMFNVTKQFIAGMVERRFGRIVNIGSVNGSRGAFGQANYASAKAGIHGFTKTLALETAKRGITVNTVSPGYLATEAKILPQIPVGRLGRPDEVAALIAFLCSDDAGFVTGADLAINGGMHMS KRVAFVTGGMGGLGAAISRRLHDAGMAVAVSHSERNDHVSTWLMHERDAGRDFKAYAVDVADFESCERCAEKVLADFGKVDVLINNAGITRDATFMKMTKGDWDAVMRTDLDAMFNVTKQFIAGMVERRFGRIVNIGSVNGSRGAFGQANYASAKAGIHGFTKTLALETAKRGITVNTVSPGYLATVPQDVLEAKILPQIPVGRLGRPDEVAALIAFLCSDDAGFVTGADLAINGGMHMS 5vt8-a6-m1-cA_5vt8-a6-m3-cC Crystal Structure of Mouse Cadherin-23 EC24-25 Q99PF4 Q99PF4 2.92 X-RAY DIFFRACTION 74 0.995 10090 (Mus musculus) 10090 (Mus musculus) 208 211 5vt8-a5-m1-cD_5vt8-a5-m2-cB DCRPQFSKPQFSTSVYENEPAGTSVITMLATDQDSQLTYSLEGPGMEAFSVDMDSGLVTTQRPLQSYERFNLTVVATDGGEPPLWGTTMLLVEVIDVNDNRPVFVRPPNGTILHIKEEIPLRSNVYEVYATDNDEGLNGAVRYSFLKTTGNRDWEYFTIDPISGLIQTAQRLDREKQAVYSLILVASDLGQPVPYETMQPLQVALEDI DCRPQFSKPQFSTSVYENEPAGTSVITMLATDQDEGSNSQLTYSLEGPGMEAFSVDMDSGLVTTQRPLQSYERFNLTVVATDGGEPPLWGTTMLLVEVIDVNDNRPVFVRPPNGTILHIKEEIPRSNVYEVYATDNDEGLNGAVRYSFLKTTGNRDWEYFTIDPISGLIQTAQRLDREKQAVYSLILVASDLGQPVPYETMQPLQVALEDI 5vtg-a1-m1-cB_5vtg-a1-m1-cA The structure of TamB963-1138 from Escherichia coli reveals a novel hydrophobic Beta-taco fold P39321 P39321 1.859 X-RAY DIFFRACTION 63 0.992 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 131 136 LFTLDGRVDVPWARIVVHDLINSNLIVHVGNNVRIDAFGLKARLTGDLNVVQDKQGLGLNGQINIPEGRFHAYGQDLIVRKGELLFSGPPDQPYLNIEAIRNPDATEDDVIAGVRVTGLADEPKAEIFSDP PNLFTLDGRVDVPWARIVVHDPINSNLIVHVGNNVRIDAFGLKARLTGDLNVVQDKQGLGLNGQINIPEGRFHAYGQDLIVRKGELLFSGPPDQPYLNIEAIRNPDATEDDVIAGVRVTGLADEPKAEIFSDPAML 5vto-a1-m1-cA_5vto-a1-m1-cB Solution Structure of BlsM Q841K1 Q841K1 NOT SOLUTION NMR 149 1.0 68214 (Streptomyces griseochromogenes) 68214 (Streptomyces griseochromogenes) 163 163 KAGVRSVFLAGPFMGLVNPETNSMPSAEQLPFLTLIEHFEKQGLEVFNAHRREAWGAQVLTPEECTPLDQLEIRKADVFVAIPGIPPSPGTHVEIGWASAFDKPIVLLLEEGREEEYGFLVRGLGTVAAVEFVHYKDIALAKPQIDAAIRKVVDRVNNPAATP KAGVRSVFLAGPFMGLVNPETNSMPSAEQLPFLTLIEHFEKQGLEVFNAHRREAWGAQVLTPEECTPLDQLEIRKADVFVAIPGIPPSPGTHVEIGWASAFDKPIVLLLEEGREEEYGFLVRGLGTVAAVEFVHYKDIALAKPQIDAAIRKVVDRVNNPAATP 5vtp-a2-m1-cA_5vtp-a2-m2-cA X-ray diffraction data of DNA Polymerase Eta (RAD30) of Saccharomyces cerevisiae with a single magnesium bound in absence of DNA and incoming dNTP Q04049 Q04049 2.8 X-RAY DIFFRACTION 22 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 510 510 HMSKFTWKELIQLGSPSKAYESSLACIAHIDMNAFFAQVEQMRCGLSKEDPVVCVQWNSIIAVSYAARKYGISRMDTIQEALKKCSNLIPIHTAVFKKGEDFWQYHDGCGSWVQDPAKQISVEDHKVSLEPYRRESRKALKIFKSACDLVERASIDEVFLDLGRICFNMLMFDNEYELTGDLKLKDALSNIREAFIGGNYDINSHLPLIPEKIKSLKFEGDVFNPEGRDLITDWDDVILALGSQVCKGIRDSIKDILGYTTSCGLSSTKNVCKLASNYKKPDAQTIVKNDCLLDFLDCGKFEITSFWTLGGVLGKELIDVLDLPHENSIKHIRETWPDNAGQLKEFLDAKVKQSDYDRSTSNIDPLKTADLAEKLFKLSRGRYGLPLSSRPVVKSMMSNKNLRGKSCNSIVDCISWLEVFCAELTSRIQDLEQEYNKIVIPRTVSISLKTKSYEVYRKSGPVAYKGINFQSHELLKVGIKFVTDLDIKGKNKSYYPLTKLSMTITNFDII HMSKFTWKELIQLGSPSKAYESSLACIAHIDMNAFFAQVEQMRCGLSKEDPVVCVQWNSIIAVSYAARKYGISRMDTIQEALKKCSNLIPIHTAVFKKGEDFWQYHDGCGSWVQDPAKQISVEDHKVSLEPYRRESRKALKIFKSACDLVERASIDEVFLDLGRICFNMLMFDNEYELTGDLKLKDALSNIREAFIGGNYDINSHLPLIPEKIKSLKFEGDVFNPEGRDLITDWDDVILALGSQVCKGIRDSIKDILGYTTSCGLSSTKNVCKLASNYKKPDAQTIVKNDCLLDFLDCGKFEITSFWTLGGVLGKELIDVLDLPHENSIKHIRETWPDNAGQLKEFLDAKVKQSDYDRSTSNIDPLKTADLAEKLFKLSRGRYGLPLSSRPVVKSMMSNKNLRGKSCNSIVDCISWLEVFCAELTSRIQDLEQEYNKIVIPRTVSISLKTKSYEVYRKSGPVAYKGINFQSHELLKVGIKFVTDLDIKGKNKSYYPLTKLSMTITNFDII 5vu3-a4-m1-cH_5vu3-a4-m1-cF Crystal structure of the competence-damaged protein (CinA) superfamily protein ECL_02051 from Enterobacter cloacae A0A0H3CM13 A0A0H3CM13 1.868 X-RAY DIFFRACTION 75 1.0 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 165 169 5vu3-a1-m1-cC_5vu3-a1-m1-cA 5vu3-a2-m1-cB_5vu3-a2-m1-cD 5vu3-a3-m1-cE_5vu3-a3-m1-cG NLYHDNTITVAELTKKLASRLIDAGLRLTTAESCTGGKLSVALCAEENTADFYDVGLVVFSDSAKERILGVSPETLARFTAVSEQTVTEMAASIRDIAQADVSIAISGYAGPEGGEDGTAAGTVCFAWNIGGKTETSRVLFSGDCQDVVEKAVHYSLAELVTKLS GMMSNLYHDNTITVAELTKKLASRLIDAGLRLTTAESCTGGKLSVALCAEENTADFYDVGLVVFSDSAKERILGVSPETLARFTAVSEQTVTEMAASIRDIAQADVSIAISGYAGPEGGEDGTAAGTVCFAWNIGGKTETSRVLFSGDCQDVVEKAVHYSLAELVTKLS 5vug-a1-m1-cA_5vug-a1-m2-cA Crystal Structure of Glycerophosphoryl Diester Phosphodiesterase Domain of Uncharacterized Protein Rv2277c from Mycobacterium tuberculosis P9WLF1 P9WLF1 1.5 X-RAY DIFFRACTION 84 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 262 262 DDPIVAHRAGTRDFPENTVLAITNAVAAGVDGWLTVQVSSDGVPVLYRPSDLATLTDGAGPVNSKTVQQLQQLNAGWNFTTPGVEGHPYRQRATPIPTLEQAIGATPPDTLFLDLQPLVSAVAQVLTRTGAAGRSIVYSTNADITAAASRQEGLQVAESRDVTRQRLFNALNHHCDPQPDPGKWAGFELHRDVTVTEEFTLGSGISAVNAELWDEASVDCFRSQSGKVGFAVKTVDDYRLAHKIGLDAVLVDSPLAAQQWRH DDPIVAHRAGTRDFPENTVLAITNAVAAGVDGWLTVQVSSDGVPVLYRPSDLATLTDGAGPVNSKTVQQLQQLNAGWNFTTPGVEGHPYRQRATPIPTLEQAIGATPPDTLFLDLQPLVSAVAQVLTRTGAAGRSIVYSTNADITAAASRQEGLQVAESRDVTRQRLFNALNHHCDPQPDPGKWAGFELHRDVTVTEEFTLGSGISAVNAELWDEASVDCFRSQSGKVGFAVKTVDDYRLAHKIGLDAVLVDSPLAAQQWRH 5vve-a1-m1-cA_5vve-a1-m1-cB Crystal structure of phosphoglycerate mutase from Naegleria fowleri A0A2D0TCG6 A0A2D0TCG6 1.7 X-RAY DIFFRACTION 36 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 243 246 HMVYKLVLIRHGESEWNKENKFTGWYDCGLSETGLKEAKEAGEILLKEGYEFDLCYTSFLKRAIKTLWIALETMDAMYLPVVKHWRLNERHYGALQGLNKTQTAEKHGEEQVKIWRRSYDIPPPALEVTDERYPGHERKYQGLTQEELPKTESLKLTVDRVLPYWNDVIAPSVKEGKRVLIAAHGNSLRALVKYLDNISEEEIVELNIPTGVPLVYELDENLKPIKHYYLGDQELIQQKINSV HHHHMVYKLVLIRHGESEWNKENKFTGWYDCGLSETGLKEAKEAGEILLKEGYEFDLCYTSFLKRAIKTLWIALETMDAMYLPVVKHWRLNERHYGALQGLNKTQTAEKHGEEQVKIWRRSYDIPPPALEVTDERYPGHERKYQGLTQEELPKTESLKLTVDRVLPYWNDVIAPSVKEGKRVLIAAHGNSLRALVKYLDNISEEEIVELNIPTGVPLVYELDENLKPIKHYYLGDQELIQQKINSV 5vvh-a3-m1-cE_5vvh-a3-m1-cF Crystal Structure of the Effector Binding Domain of LysR-type Transcriptional Regulator, OccR from Agrobacterium tumefaciens P0A4T3 P0A4T3 2.5 X-RAY DIFFRACTION 99 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 200 200 5vvh-a1-m1-cA_5vvh-a1-m1-cB 5vvh-a2-m1-cC_5vvh-a2-m1-cD 5vvh-a4-m1-cG_5vvh-a4-m1-cH 5vvi-a1-m1-cA_5vvi-a1-m2-cA 5vvi-a2-m1-cB_5vvi-a2-m1-cC NATLRIAAPALANGLLPRFLAQFIRDRPNLQVSLGLPSSVEAVASGRADIGYADGPQERQGFLIETRSLPAVVAVPGHRLAGLDRVTPQDLAGERIIKQETGTLFARVEVAIGGIQRRPSIEVSLSHTALSLVREGAGIAIIDPAAAIEFTDRIVLRPFSIFIDAEFLEVRSAIGAPSTIVDRFTTEFWRFHDDLKQNGL NATLRIAAPALANGLLPRFLAQFIRDRPNLQVSLGLPSSVEAVASGRADIGYADGPQERQGFLIETRSLPAVVAVPGHRLAGLDRVTPQDLAGERIIKQETGTLFARVEVAIGGIQRRPSIEVSLSHTALSLVREGAGIAIIDPAAAIEFTDRIVLRPFSIFIDAEFLEVRSAIGAPSTIVDRFTTEFWRFHDDLKQNGL 5vwi-a1-m1-cB_5vwi-a1-m1-cA Crystal structure of human Scribble PDZ1:Beta-PIX complex Q14160 Q14160 1.75 X-RAY DIFFRACTION 24 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 87 92 LGSVEEIRLPRAGGPLGLSIVGGSDHSSEPGVFISKVLPRGLAARSGLRVGDRILAVNGQDVRDATHQEAVSALLRPCELSLLVRRD GSVEEIRLPRAGGPLGLSIVGGSDHSSHPFVQEPGVFISKVLPRGLAARSGLRVGDRILAVNGQDVRDATHQEAVSALLRPCLELSLLVRRD 5vxb-a4-m1-cB_5vxb-a4-m1-cC Crystal structure of Caulobacter crescentus ProXp-ala at 1.69 Angstrom Q9ABV9 Q9ABV9 1.69 X-RAY DIFFRACTION 32 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 167 167 5vxb-a4-m1-cA_5vxb-a4-m1-cB 5vxb-a4-m1-cA_5vxb-a4-m1-cC MKTRADLFAFFDAHGVDHKTLDHPPVFRVEEGLEIKAAMPGGHTKNLFLKDAKGQLWLISALGETTIDLKKLHHVIGSGRLSFGPQEMMLETLGVTPGSVTAFGLINDTEKRVRFVLDKALADSDPVNFHPLKNDATTAVSQAGLRRFLAALGVEPMIVDFAAMEVV MKTRADLFAFFDAHGVDHKTLDHPPVFRVEEGLEIKAAMPGGHTKNLFLKDAKGQLWLISALGETTIDLKKLHHVIGSGRLSFGPQEMMLETLGVTPGSVTAFGLINDTEKRVRFVLDKALADSDPVNFHPLKNDATTAVSQAGLRRFLAALGVEPMIVDFAAMEVV 5vxt-a1-m1-cA_5vxt-a1-m1-cB Crystal structure of catechol 1,2-dioxygenase from Burkholderia ambifaria B1Z4S0 B1Z4S0 1.75 X-RAY DIFFRACTION 209 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 311 312 5td3-a1-m1-cB_5td3-a1-m1-cA HHHHMSVKVFDTKEVQDLLKAASNAGAGNARTQQIVHRLLGDLFKAIDDLDITPDEVWAGVNYLNKLGQDGEAALLAAGLGLEKYLDIRMDAEDEAIGLDGGTPRTIEGPLYVAGAPVRDGVAKIDLDADEGAGPLVIHGTVTGLDGKPVAGALVECWHANSHGFYSHFDPTGKQSDFNLRGAVKTGADGKYEFRTLMPVGYGCPPQGATQQLLDRLGRHGNRPAHVHFFVTSDGHRKLTTQFNIEGDPLIWDDFAYATREELIPPVTAKAGGAALGLKADAYQDIEFNFVLTPRVEGKDNQIVERLRASA HHHHMSVKVFDTKEVQDLLKAASNAGAGNARTQQIVHRLLGDLFKAIDDLDITPDEVWAGVNYLNKLGQDGEAALLAAGLGLEKYLDIRMDAEDEAIGLDGGTPRTIEGPLYVAGAPVRDGVAKIDLDADEGAGPLVIHGTVTGLDGKPVAGALVECWHANSHGFYSHFDPTGKQSDFNLRGAVKTGADGKYEFRTLMPVGYGCPPQGATQQLLDRLGRHGNRPAHVHFFVTSDGHRKLTTQFNIEGDPLIWDDFAYATREELIPPVTAKAGGAALGLKADAYQDIEFNFVLTPRVEGKDNQIVERLRASAT 5vye-a1-m1-cC_5vye-a1-m1-cD Crystal Structure of L-Threonine Aldolase from Pseudomonas putida A0A166JNM8 A0A166JNM8 2.275 X-RAY DIFFRACTION 128 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 342 342 5vye-a1-m1-cA_5vye-a1-m1-cB SQQFASDNYSGICPEAWAAMEKANHGHDRAYGDDQWTERASEYFRNLFETDCEVFFAFNGTAANSLALASLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLTAASVNGKLTPQSIREVALKRQDIHYPKPRVVTITQATEVGTVYRPDELKAISATCKELGLNLHMDGARFTNACAFLGCSPAELTWKAGVDVLCFGGTKNGMAVGEAILFFNRQLAEDFDYRCKQAGQLASKMRFLSAPWVGLLEDGAWLRHGNHANHCAQLLALLVSDLPGVELMFPVEANGVFLQMPEHAIEALRAKGWRFYTFIGSGGARFMCSWDTEEERVRELAADIRSIITA SQQFASDNYSGICPEAWAAMEKANHGHDRAYGDDQWTERASEYFRNLFETDCEVFFAFNGTAANSLALASLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLTAASVNGKLTPQSIREVALKRQDIHYPKPRVVTITQATEVGTVYRPDELKAISATCKELGLNLHMDGARFTNACAFLGCSPAELTWKAGVDVLCFGGTKNGMAVGEAILFFNRQLAEDFDYRCKQAGQLASKMRFLSAPWVGLLEDGAWLRHGNHANHCAQLLALLVSDLPGVELMFPVEANGVFLQMPEHAIEALRAKGWRFYTFIGSGGARFMCSWDTEEERVRELAADIRSIITA 5vye-a1-m1-cD_5vye-a1-m1-cA Crystal Structure of L-Threonine Aldolase from Pseudomonas putida A0A166JNM8 A0A166JNM8 2.275 X-RAY DIFFRACTION 47 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 342 343 5vye-a1-m1-cC_5vye-a1-m1-cB SQQFASDNYSGICPEAWAAMEKANHGHDRAYGDDQWTERASEYFRNLFETDCEVFFAFNGTAANSLALASLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLTAASVNGKLTPQSIREVALKRQDIHYPKPRVVTITQATEVGTVYRPDELKAISATCKELGLNLHMDGARFTNACAFLGCSPAELTWKAGVDVLCFGGTKNGMAVGEAILFFNRQLAEDFDYRCKQAGQLASKMRFLSAPWVGLLEDGAWLRHGNHANHCAQLLALLVSDLPGVELMFPVEANGVFLQMPEHAIEALRAKGWRFYTFIGSGGARFMCSWDTEEERVRELAADIRSIITA KSQQFASDNYSGICPEAWAAMEKANHGHDRAYGDDQWTERASEYFRNLFETDCEVFFAFNGTAANSLALASLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLTAASVNGKLTPQSIREVALKRQDIHYPKPRVVTITQATEVGTVYRPDELKAISATCKELGLNLHMDGARFTNACAFLGCSPAELTWKAGVDVLCFGGTKNGMAVGEAILFFNRQLAEDFDYRCKQAGQLASKMRFLSAPWVGLLEDGAWLRHGNHANHCAQLLALLVSDLPGVELMFPVEANGVFLQMPEHAIEALRAKGWRFYTFIGSGGARFMCSWDTEEERVRELAADIRSIITA 5vye-a1-m1-cD_5vye-a1-m1-cB Crystal Structure of L-Threonine Aldolase from Pseudomonas putida A0A166JNM8 A0A166JNM8 2.275 X-RAY DIFFRACTION 44 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 342 344 5vye-a1-m1-cC_5vye-a1-m1-cA SQQFASDNYSGICPEAWAAMEKANHGHDRAYGDDQWTERASEYFRNLFETDCEVFFAFNGTAANSLALASLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLTAASVNGKLTPQSIREVALKRQDIHYPKPRVVTITQATEVGTVYRPDELKAISATCKELGLNLHMDGARFTNACAFLGCSPAELTWKAGVDVLCFGGTKNGMAVGEAILFFNRQLAEDFDYRCKQAGQLASKMRFLSAPWVGLLEDGAWLRHGNHANHCAQLLALLVSDLPGVELMFPVEANGVFLQMPEHAIEALRAKGWRFYTFIGSGGARFMCSWDTEEERVRELAADIRSIITA DKSQQFASDNYSGICPEAWAAMEKANHGHDRAYGDDQWTERASEYFRNLFETDCEVFFAFNGTAANSLALASLCQSYHSVICSETAHVETDECGAPEFFSNGSKLLTAASVNGKLTPQSIREVALKRQDIHYPKPRVVTITQATEVGTVYRPDELKAISATCKELGLNLHMDGARFTNACAFLGCSPAELTWKAGVDVLCFGGTKNGMAVGEAILFFNRQLAEDFDYRCKQAGQLASKMRFLSAPWVGLLEDGAWLRHGNHANHCAQLLALLVSDLPGVELMFPVEANGVFLQMPEHAIEALRAKGWRFYTFIGSGGARFMCSWDTEEERVRELAADIRSIITA 5vyk-a1-m1-cA_5vyk-a1-m1-cC Crystal structure of the BRS domain of BRAF in complex with the CC-SAM domain of KSR1 P15056 P15056 1.749 X-RAY DIFFRACTION 197 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 203 AASRALQQCGQLQKLIDISIGSLRGLRTKCAVSNDLTQQEIRTLEAKLVRYICKQRQCKLSVAPGERTPELNSYPRFSDWLYTFNVRPEVVQEIPRDLTLDALLEMNEAKVKETLRRCGASGDECGRLQYALTCLRKVTAIPEEVWNIKQMIKLTQEHIEALLDKFGGEHNPPSIYLEAYEEYTSKLDALQQREQQLLESLG AASRALQQCGQLQKLIDISIGSLRGLRTKCAVSNDLTQQEIRTLEAKLVRYICKQRQCKLSVAPGERTPELNSYPRFSDWLYTFNVRPEVVQEIPRDLTLDALLEMNEAKVKETLRRCGASGDECGRLQYALTCLRKVTAIPEEVWNIKQMIKLTQEHIEALLDKFGGEHNPPSIYLEAYEEYTSKLDALQQREQQLLESLGN 5vym-a1-m1-cA_5vym-a1-m1-cB Crystal structure of beta-galactosidase from Bifidobacterium adolescentis A1A399 A1A399 2.456 X-RAY DIFFRACTION 312 0.995 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 215 219 AHSDTAILFSAESEWATRSMKLNHWHDVRDWYRAFLDAGSRADIVPLAYDWSSYKTVVLPTVLILSAADTQRLADFAAAGGRVVVGYATGLIDEHFHTWLGGYPGAGDGLLRSMLGVRGEEFNILGPGEIRLSSADDSAALDGTTTRLWQNDVNVTGEHAQVLATYAGEEADEWELDGTAAVTRNPYGSGEAYFVGCDLDVADLTKLVRAYLAAS AHSDTAILFSAESEWATRSQTLPSMKLNHWHDVRDWYRAFLDAGSRADIVPLAYDWSSYKTVVLPTVLILSAADTQRLADFAAAGGRVVVGYATGLIDEHFHTWLGGYPGAGDGLLRSMLGVRGEEFNILGPGEIRLSSADDSAALDGTTTRLWQNDVNVTGEHAQVLATYAGEEADEWELDGTAAVTRNPYGSGEAYFVGCDLDVADLTKLVRAYLAA 5vyr-a1-m1-cA_5vyr-a1-m1-cB Crystal structure of the WbkC formyl transferase from Brucella melitensis F8WJP6 F8WJP6 1.7 X-RAY DIFFRACTION 111 0.98 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 244 245 5vyt-a1-m1-cA_5vyt-a1-m1-cB 5vyt-a2-m1-cD_5vyt-a2-m1-cC AIAPNTRVLVAGYGLPAEFCVTTLIGMGVEIDKIAVATHREDNRNCGLHSMLRLRNIQFTTAAANSEEFYEFGANFAPDMIISMHYRSLIPGRFLKLAKKGSVNLHPSLLPAYRGTNSVAWVIINGESETGFSYHRMDENFDTGAILLQERISVEETDTAFSLFHRQIARAMLRLEEVILKLDQGDPGFAQLGEASYYARELPFGGVIDPRWSEVQIDRFIRAMFFPPFPPAVLYYVPSIDIYR AIAPNTRVLVAGYGLPAEFCVTTLIGMGVEIDKIAVATHREDNRNCGLHSMLRLRNIQFTTAAANSEEFYEFGANFAPDMIISMHYRSLIPGRFLKLAKKGSVNLHPSLLPAYRGTNSVAWVIINGESETGFSYHRMDENFDTGAILLQERISVEETDTAFSLFHRQIARAMLRLEEVILKLDQGDPGFAQLGEASYYARELPFGGVIDPRWSEVQIDRFIRAMFFPPFPPAVLKIDGKVYYVPS 5vyv-a1-m1-cB_5vyv-a1-m1-cA Crystal structure of a protein of unknown function YceH/ECK1052 involved in membrane biogenesis from Escherichia coli P29217 P29217 2.48 X-RAY DIFFRACTION 46 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 170 173 MKYQLTALEARVIGCLLEKQVTTPEQYPLSVNGVVTACNQKTNREPVMNLSESEVQEQLDNLVKRHYLRTVSGRVTKYEQRFCNSEFGDLKLSAAEVALITTLLLRGAQTPGELRSRAARMYEFSDMAEVELTLEQLANREDGPFVVRLAREPGKRESRYMHLFSGEVED MKYQLTALEARVIGCLLEKQVTTPEQYPLSVNGVVTACNQKTNREPVMNLSESEVQEQLDNLVKRHYLRTVSGFGNRVTKYEQRFCNSEFGDLKLSAAEVALITTLLLRGAQTPGELRSRAARMYEFSDMAEVELTLEQLANREDGPFVVRLAREPGKRESRYMHLFSGEVED 5vzv-a2-m1-cB_5vzv-a2-m2-cB TRIM23 RING domain P36406 P36406 1.812 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 5vzv-a1-m1-cA_5vzv-a1-m1-cC 5vzw-a1-m1-cF_5vzw-a1-m1-cG VLECGVCEDVFSLQGDKVPRLLLCGHTVCHDCLTRLPLHGRAIRCPFDRQVTDLGDSGVWGLKKNFALLELLERLQ VLECGVCEDVFSLQGDKVPRLLLCGHTVCHDCLTRLPLHGRAIRCPFDRQVTDLGDSGVWGLKKNFALLELLERLQ 5vzx-a1-m1-cL_5vzx-a1-m1-cI Crystal structure of crenezumab Fab Q0KKI6 Q0KKI6 2.501 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 219 DIVMTQSPLSLPVTPGEPASISCRSSQSLVYSNGDTYLHWYLQKPGQSPQLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDVGVYYCSQSTHVPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE DIVMTQSPLSLPVTPGEPASISCRSSQSLVYSNGDTYLHWYLQKPGQSPQLLIYKVSNRFSGVPDRFSGSGSGTDFTLKISRVEAEDVGVYYCSQSTHVPWTFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 5w0b-a4-m1-cB_5w0b-a4-m1-cC Structure of human TUT7 catalytic module (CM) Q5VYS8 Q5VYS8 2.614 X-RAY DIFFRACTION 41 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 349 353 IQLEPLPPLTPKFLNILDQVCIQCYKDFSPTIIEDQAREHIRQNLESFIRQDFPGTKLSLFGSSKNGFGFKQSDLAVCMTINGLETAEGLDCVRTIEELARVLRKHSGLRNILPITTAKVPIVKFFHLRSGLEVDISLYNTLALHNTRLLSAYSAIDPRVKYLCYTMKVFTKMCDIGDASRGSLSSYAYTLMVLYFLQQRNPPVIPVLQEIKPEIFVDGWNIYFFDQIDELPTYWSECGKNTESVGQLWLGLLRFYTEEFDFKEHVISIRRKSLLTTWTSKYIVIEDPFDLNHNLGAGLSRKMTNFIMKAFINGRRVFGIPVKGFPKDYPSKMEYFFDPDVLTEGELAP QLEPLPPLTPKFLNILDQVCIQCYKDFSPTIIEDQAREHIRQNLESFIRQDFPGTKLSLFGSSKNGFGFKQSDLAVCMTINGLETAEGLDCVRTIEELARVLRKHSGLRNILPITTAKVPIVKFFHLRSGLEVDISLYNTLALHNTRLLSAYSAIDPRVKYLCYTMKVFTKMCDIGDASRGSLSSYAYTLMVLYFLQQRNPPVIPVLQEIYKGEKPEIFVDGWNIYFFDQIDELPTYWSECGKNTESVGQLWLGLLRFYTEEFDFKEHVISIRRKSLLTTFKKQYIVIEDPFDLNHNLGAGLSRKMTNFIMKAFINGRRVFGIPVKGFPKDYPSKMEYFFDPDVLTEGELAPN 5w0t-a1-m1-cA_5w0t-a1-m2-cA Crystal structure of monomeric Msp1 from S. cerevisiae P28737 P28737 2.63 X-RAY DIFFRACTION 63 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 290 290 ASLQWEKLVKRSPALAEVTLDAYERTILSSIVTPDEINITFQDIGGLDPLISDLHESVIYPLPEVYSNSPLLQAPSGVLLYGPPGCGKTLAKALAKESGANFISIRSSIDKWYGESNKIVDAFSLANKLQPCIIFIDEIDSFLRHEVTATLKAEFTLWDGLLNNGRVIIGATNRINDIDDAFLRRLPKRFLVSLPGSDQRYKILSVLLKDTKLDEDEFDLQLIADNTKGFSGSDLKELCREAALDAAKEYIKQKRQLIDSGTIDVNDTSSLKIRPLKTKDFTSGLEVLFQ ASLQWEKLVKRSPALAEVTLDAYERTILSSIVTPDEINITFQDIGGLDPLISDLHESVIYPLPEVYSNSPLLQAPSGVLLYGPPGCGKTLAKALAKESGANFISIRSSIDKWYGESNKIVDAFSLANKLQPCIIFIDEIDSFLRHEVTATLKAEFTLWDGLLNNGRVIIGATNRINDIDDAFLRRLPKRFLVSLPGSDQRYKILSVLLKDTKLDEDEFDLQLIADNTKGFSGSDLKELCREAALDAAKEYIKQKRQLIDSGTIDVNDTSSLKIRPLKTKDFTSGLEVLFQ 5w10-a2-m1-cC_5w10-a2-m1-cB Lcd1 GAF domain in complex with cAMP ligand Q72MQ6 Q72MQ6 2.15 X-RAY DIFFRACTION 79 0.988 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 167 169 5w10-a1-m1-cD_5w10-a1-m1-cA TLKDSKPELIKLYSSLGKIITSSLEQQEVLSAVEEVRLFFSPKNWSLRYDENSEELFFLIAEGIQFNHIRSIRLKSGEGIAGSVVQTKSPIFVENVKNDPRFSKKVDEKTGFETKTIIAVPIFRGEVHGVIELVNRFSFSPEDLVILQTIADFTAISLAHSDQYEKT KDSKPELIKLYSSLGKIITSSLEQQEVLSAVEEVRLFFSPKNWSLRYDENSEELFFLIAEGIQFNHIRSIRLKSGEGIAGSVVQTKSPIFVENVKNDPRFSKKVDEKTGFETKTIIAVPIFRGEVHGVIELVNRFDGSSFSPEDLVILQTIADFTAISLAHSDQYEKTK 5w15-a1-m2-cC_5w15-a1-m3-cD Crystal structure of an alpha/beta hydrolase fold protein from Burkholderia ambifaria. B1YPY7 B1YPY7 1.75 X-RAY DIFFRACTION 45 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 270 270 5w15-a1-m1-cA_5w15-a1-m3-cB HHHMLDLANRFNFEGHRIAWGTLGEGPPLVLVHGTPFSSQVWRRIAPWLARRHRVFFYDLLGYGQSDMPDADVSLGRQNVLFGALLDEWKISRPRVLAHDYGGATVLRAHFLDGIAYSDLTLVNPVAIAPQGSPFVRHVAQHEAAFTGLPAYAHHALVSAYIGQAVAQPLSDDVLSIYRAPWLTPAGQAAFYRQIAQMRQRYIEDAEARYAPPDFPVRIVWGEDDRWIPLEQGQALADRIANGKLIRVPRAGHLVQEDAPEAIVAAVLDR HHHMLDLANRFNFEGHRIAWGTLGEGPPLVLVHGTPFSSQVWRRIAPWLARRHRVFFYDLLGYGQSDMPDADVSLGRQNVLFGALLDEWKISRPRVLAHDYGGATVLRAHFLDGIAYSDLTLVNPVAIAPQGSPFVRHVAQHEAAFTGLPAYAHHALVSAYIGQAVAQPLSDDVLSIYRAPWLTPAGQAAFYRQIAQMRQRYIEDAEARYAPPDFPVRIVWGEDDRWIPLEQGQALADRIANGKLIRVPRAGHLVQEDAPEAIVAAVLDR 5w15-a1-m3-cB_5w15-a1-m3-cD Crystal structure of an alpha/beta hydrolase fold protein from Burkholderia ambifaria. B1YPY7 B1YPY7 1.75 X-RAY DIFFRACTION 58 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 270 270 5w15-a1-m1-cA_5w15-a1-m2-cC HHHMLDLANRFNFEGHRIAWGTLGEGPPLVLVHGTPFSSQVWRRIAPWLARRHRVFFYDLLGYGQSDMPDADVSLGRQNVLFGALLDEWKISRPRVLAHDYGGATVLRAHFLDGIAYSDLTLVNPVAIAPQGSPFVRHVAQHEAAFTGLPAYAHHALVSAYIGQAVAQPLSDDVLSIYRAPWLTPAGQAAFYRQIAQMRQRYIEDAEARYAPPDFPVRIVWGEDDRWIPLEQGQALADRIANGKLIRVPRAGHLVQEDAPEAIVAAVLDR HHHMLDLANRFNFEGHRIAWGTLGEGPPLVLVHGTPFSSQVWRRIAPWLARRHRVFFYDLLGYGQSDMPDADVSLGRQNVLFGALLDEWKISRPRVLAHDYGGATVLRAHFLDGIAYSDLTLVNPVAIAPQGSPFVRHVAQHEAAFTGLPAYAHHALVSAYIGQAVAQPLSDDVLSIYRAPWLTPAGQAAFYRQIAQMRQRYIEDAEARYAPPDFPVRIVWGEDDRWIPLEQGQALADRIANGKLIRVPRAGHLVQEDAPEAIVAAVLDR 5w16-a1-m1-cA_5w16-a1-m1-cD Crystal structure of glutamate racemase from Thermus thermophilus in complex with D-glutamate A0A1J1ER74 A0A1J1ER74 1.909 X-RAY DIFFRACTION 31 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 256 256 5w16-a1-m1-cB_5w16-a1-m1-cC 6dli-a1-m1-cA_6dli-a1-m1-cD 6dli-a1-m1-cB_6dli-a1-m1-cC KDPKAPIGVFDSGVGGLTVLKALRRLLPREEFLYFGDTARVPYGGKPLAMVRRFAWEIAGFLLRQGVKAIVVACNTASSAALPDLAEDLSVPVFGVVEPAARAARGFRKVGLIGTQATVESGAYPRYVDLAWAKACPLFVPLVEEGLWDDPVALLVARHYLEDAPKDLEALILGCTHYPFLKGAIGAVLPGVALLDSAELTAQEVARALEAEGLLNPEGRGRTFHLVTGDPEAYRALAERLGERVEAVRRVSLEEL KDPKAPIGVFDSGVGGLTVLKALRRLLPREEFLYFGDTARVPYGGKPLAMVRRFAWEIAGFLLRQGVKAIVVACNTASSAALPDLAEDLSVPVFGVVEPAARAARGFRKVGLIGTQATVESGAYPRYVDLAWAKACPLFVPLVEEGLWDDPVALLVARHYLEDAPKDLEALILGCTHYPFLKGAIGAVLPGVALLDSAELTAQEVARALEAEGLLNPEGRGRTFHLVTGDPEAYRALAERLGERVEAVRRVSLEEL 5w16-a1-m1-cC_5w16-a1-m1-cD Crystal structure of glutamate racemase from Thermus thermophilus in complex with D-glutamate A0A1J1ER74 A0A1J1ER74 1.909 X-RAY DIFFRACTION 51 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 256 256 5w16-a1-m1-cA_5w16-a1-m1-cB 6dli-a1-m1-cA_6dli-a1-m1-cB 6dli-a1-m1-cC_6dli-a1-m1-cD KDPKAPIGVFDSGVGGLTVLKALRRLLPREEFLYFGDTARVPYGGKPLAMVRRFAWEIAGFLLRQGVKAIVVACNTASSAALPDLAEDLSVPVFGVVEPAARAARGFRKVGLIGTQATVESGAYPRYVDLAWAKACPLFVPLVEEGLWDDPVALLVARHYLEDAPKDLEALILGCTHYPFLKGAIGAVLPGVALLDSAELTAQEVARALEAEGLLNPEGRGRTFHLVTGDPEAYRALAERLGERVEAVRRVSLEEL KDPKAPIGVFDSGVGGLTVLKALRRLLPREEFLYFGDTARVPYGGKPLAMVRRFAWEIAGFLLRQGVKAIVVACNTASSAALPDLAEDLSVPVFGVVEPAARAARGFRKVGLIGTQATVESGAYPRYVDLAWAKACPLFVPLVEEGLWDDPVALLVARHYLEDAPKDLEALILGCTHYPFLKGAIGAVLPGVALLDSAELTAQEVARALEAEGLLNPEGRGRTFHLVTGDPEAYRALAERLGERVEAVRRVSLEEL 5w1c-a1-m1-cA_5w1c-a1-m1-cB Crystal structure of MBP fused activation-induced cytidine deaminase (AID) in complex with cytidine Q9GZX7 Q9GZX7 3.18 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 543 543 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFMDPATFTYQFKNVRWAKGRRETYLCYVVKRSESLDFGYLRNKNGCHVALLFLRYISDWDLDPGRCYRVTWFTSWSPCYDCARHVADFLRGNPNLSLRIFTARLYFCEDRKAEPEGLRRLAEAGVQIAIMTYKDYEYCWNTFVENHERTFKAWEGLHENSVRLSRQLRRILQ KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAEFMDPATFTYQFKNVRWAKGRRETYLCYVVKRSESLDFGYLRNKNGCHVALLFLRYISDWDLDPGRCYRVTWFTSWSPCYDCARHVADFLRGNPNLSLRIFTARLYFCEDRKAEPEGLRRLAEAGVQIAIMTYKDYEYCWNTFVENHERTFKAWEGLHENSVRLSRQLRRILQ 5w1j-a1-m1-cA_5w1j-a1-m1-cB Echinococcus granulosus thioredoxin glutathione reductas (egTGR) Q869D7 Q869D7 2.7 X-RAY DIFFRACTION 274 1.0 6210 (Echinococcus granulosus) 6210 (Echinococcus granulosus) 584 584 SAEQVEKLRNKINNAAVLVFAKSFCPYCKKVMERFNNLKIPFGYLDLDLKKNGSDYQKMLQEITGRTTVPQVFFRGEFIGGCDDVMAIDDDTIVKKANEMKYDYDMVIIGGGSGGLALAKESAKSGAKVALLDFVVPTPMGTTWGLGGTCVNVGCIPKKLMHQAALLNHYMEDAKSFGWDVDKGPHDWVKMVEGIQDHIHALNFGYRSSMMNANVKYLNALGEIVDPHTIKTTNKQGIVKNITTNTIIVATGERPRYPPIPGAKEYGITSDDLFTLDHNPGKTLCVGASYVSLECAGFLSSIGCDVTVMVRSIFLRGFDQQMAGLISDYIAKYGVKFVRPCVPTSVRCLEEYDPESGKLAIYEVEGKHEDGTPFKDTFNTVLFAVGRDPCTTNIGLQNVDVKTTNGRVVVDDEERTNVPNIYAIGDVSNAGYQLTPLAIQAGKNLARRLYTADDCRTDYTNVPTTVFTPLEYGCIGLSEENAISKFGEDNIEVFHSYFQPLEWTVPHRPDNTCYAKLIINKQDDNRVVGFHVFGPNAGEVTQGYAVAMHLGARKEDFDRTIGIHPTCSETFTTLRVTKSSGASA SAEQVEKLRNKINNAAVLVFAKSFCPYCKKVMERFNNLKIPFGYLDLDLKKNGSDYQKMLQEITGRTTVPQVFFRGEFIGGCDDVMAIDDDTIVKKANEMKYDYDMVIIGGGSGGLALAKESAKSGAKVALLDFVVPTPMGTTWGLGGTCVNVGCIPKKLMHQAALLNHYMEDAKSFGWDVDKGPHDWVKMVEGIQDHIHALNFGYRSSMMNANVKYLNALGEIVDPHTIKTTNKQGIVKNITTNTIIVATGERPRYPPIPGAKEYGITSDDLFTLDHNPGKTLCVGASYVSLECAGFLSSIGCDVTVMVRSIFLRGFDQQMAGLISDYIAKYGVKFVRPCVPTSVRCLEEYDPESGKLAIYEVEGKHEDGTPFKDTFNTVLFAVGRDPCTTNIGLQNVDVKTTNGRVVVDDEERTNVPNIYAIGDVSNAGYQLTPLAIQAGKNLARRLYTADDCRTDYTNVPTTVFTPLEYGCIGLSEENAISKFGEDNIEVFHSYFQPLEWTVPHRPDNTCYAKLIINKQDDNRVVGFHVFGPNAGEVTQGYAVAMHLGARKEDFDRTIGIHPTCSETFTTLRVTKSSGASA 5w1x-a2-m1-cI_5w1x-a2-m1-cJ Crystal Structure of Humanpapillomavirus18 (HPV18) Capsid L1 Pentamers Bound to Heparin Oligosaccharides P06794 P06794 3.374 X-RAY DIFFRACTION 244 1.0 333761 (human papillomavirus 18) 333761 (human papillomavirus 18) 422 422 2r5i-a1-m1-cA_2r5i-a1-m1-cB 2r5i-a1-m1-cA_2r5i-a1-m1-cE 2r5i-a1-m1-cB_2r5i-a1-m1-cC 2r5i-a1-m1-cC_2r5i-a1-m1-cD 2r5i-a1-m1-cD_2r5i-a1-m1-cE 2r5i-a2-m1-cF_2r5i-a2-m1-cG 2r5i-a2-m1-cF_2r5i-a2-m1-cJ 2r5i-a2-m1-cG_2r5i-a2-m1-cH 2r5i-a2-m1-cH_2r5i-a2-m1-cI 2r5i-a2-m1-cI_2r5i-a2-m1-cJ 2r5i-a3-m1-cK_2r5i-a3-m1-cL 2r5i-a3-m1-cK_2r5i-a3-m1-cO 2r5i-a3-m1-cL_2r5i-a3-m1-cM 2r5i-a3-m1-cM_2r5i-a3-m1-cN 2r5i-a3-m1-cN_2r5i-a3-m1-cO 5w1x-a1-m1-cA_5w1x-a1-m1-cB 5w1x-a1-m1-cA_5w1x-a1-m1-cE 5w1x-a1-m1-cB_5w1x-a1-m1-cC 5w1x-a1-m1-cC_5w1x-a1-m1-cD 5w1x-a1-m1-cD_5w1x-a1-m1-cE 5w1x-a2-m1-cF_5w1x-a2-m1-cG 5w1x-a2-m1-cF_5w1x-a2-m1-cJ 5w1x-a2-m1-cG_5w1x-a2-m1-cH 5w1x-a2-m1-cH_5w1x-a2-m1-cI 5w1x-a3-m1-cK_5w1x-a3-m1-cL 5w1x-a3-m1-cK_5w1x-a3-m1-cO 5w1x-a3-m1-cL_5w1x-a3-m1-cM 5w1x-a3-m1-cM_5w1x-a3-m1-cN 5w1x-a3-m1-cN_5w1x-a3-m1-cO AVVNTDDYVTRTSIFYHAGSSRLLTVGDPYFRVPAGGGNKQDIPKVSAYQYRVFRVQLPDPNKFGLPDTSIYNPETQRLVWACAGVEIGRGQPLGVGLSGHPFYNKLDDTESSHAATSNVSEDVRDNVSVDYKQTQLCILGCAPAIGEHWAKGTASKSRPLSQGDCPPLELKNTVLEDGDMVDTGYGAMDFSTLQDTKCEVPLDICQSICKYPDYLQMSADPYGDSMFFCLRREQLFARHFWNRAGTMGDTVPQSLYIKGTGMRASPGSCVYSPSPSGSIVTSDSQLFNKPYWLHKAQGHNNGVCWHNQLFVTVVDTTRSTNLTICASTQSPVPGQYDATKFKQYSRHVEEYDLQFIFQLCTITLTADVMSYIQSMNSSILEDWNNKDPYDKLKFWNVDLKEKFSLDLDQYPLGRKFLVQAG AVVNTDDYVTRTSIFYHAGSSRLLTVGDPYFRVPAGGGNKQDIPKVSAYQYRVFRVQLPDPNKFGLPDTSIYNPETQRLVWACAGVEIGRGQPLGVGLSGHPFYNKLDDTESSHAATSNVSEDVRDNVSVDYKQTQLCILGCAPAIGEHWAKGTASKSRPLSQGDCPPLELKNTVLEDGDMVDTGYGAMDFSTLQDTKCEVPLDICQSICKYPDYLQMSADPYGDSMFFCLRREQLFARHFWNRAGTMGDTVPQSLYIKGTGMRASPGSCVYSPSPSGSIVTSDSQLFNKPYWLHKAQGHNNGVCWHNQLFVTVVDTTRSTNLTICASTQSPVPGQYDATKFKQYSRHVEEYDLQFIFQLCTITLTADVMSYIQSMNSSILEDWNNKDPYDKLKFWNVDLKEKFSLDLDQYPLGRKFLVQAG 5w1x-a3-m1-cK_5w1x-a3-m1-cM Crystal Structure of Humanpapillomavirus18 (HPV18) Capsid L1 Pentamers Bound to Heparin Oligosaccharides P06794 P06794 3.374 X-RAY DIFFRACTION 10 1.0 333761 (human papillomavirus 18) 333761 (human papillomavirus 18) 422 422 2r5i-a1-m1-cA_2r5i-a1-m1-cC 2r5i-a1-m1-cA_2r5i-a1-m1-cD 2r5i-a1-m1-cB_2r5i-a1-m1-cD 2r5i-a1-m1-cB_2r5i-a1-m1-cE 2r5i-a1-m1-cC_2r5i-a1-m1-cE 2r5i-a2-m1-cF_2r5i-a2-m1-cH 2r5i-a2-m1-cF_2r5i-a2-m1-cI 2r5i-a2-m1-cG_2r5i-a2-m1-cI 2r5i-a2-m1-cG_2r5i-a2-m1-cJ 2r5i-a2-m1-cH_2r5i-a2-m1-cJ 2r5i-a3-m1-cK_2r5i-a3-m1-cM 2r5i-a3-m1-cK_2r5i-a3-m1-cN 2r5i-a3-m1-cL_2r5i-a3-m1-cN 2r5i-a3-m1-cL_2r5i-a3-m1-cO 2r5i-a3-m1-cM_2r5i-a3-m1-cO 5w1x-a1-m1-cA_5w1x-a1-m1-cC 5w1x-a1-m1-cA_5w1x-a1-m1-cD 5w1x-a2-m1-cF_5w1x-a2-m1-cH 5w1x-a2-m1-cF_5w1x-a2-m1-cI 5w1x-a2-m1-cG_5w1x-a2-m1-cI 5w1x-a2-m1-cG_5w1x-a2-m1-cJ 5w1x-a2-m1-cH_5w1x-a2-m1-cJ 5w1x-a3-m1-cK_5w1x-a3-m1-cN 5w1x-a3-m1-cL_5w1x-a3-m1-cO 5w1x-a3-m1-cM_5w1x-a3-m1-cO AVVNTDDYVTRTSIFYHAGSSRLLTVGDPYFRVPAGGGNKQDIPKVSAYQYRVFRVQLPDPNKFGLPDTSIYNPETQRLVWACAGVEIGRGQPLGVGLSGHPFYNKLDDTESSHAATSNVSEDVRDNVSVDYKQTQLCILGCAPAIGEHWAKGTASKSRPLSQGDCPPLELKNTVLEDGDMVDTGYGAMDFSTLQDTKCEVPLDICQSICKYPDYLQMSADPYGDSMFFCLRREQLFARHFWNRAGTMGDTVPQSLYIKGTGMRASPGSCVYSPSPSGSIVTSDSQLFNKPYWLHKAQGHNNGVCWHNQLFVTVVDTTRSTNLTICASTQSPVPGQYDATKFKQYSRHVEEYDLQFIFQLCTITLTADVMSYIQSMNSSILEDWNNKDPYDKLKFWNVDLKEKFSLDLDQYPLGRKFLVQAG AVVNTDDYVTRTSIFYHAGSSRLLTVGDPYFRVPAGGGNKQDIPKVSAYQYRVFRVQLPDPNKFGLPDTSIYNPETQRLVWACAGVEIGRGQPLGVGLSGHPFYNKLDDTESSHAATSNVSEDVRDNVSVDYKQTQLCILGCAPAIGEHWAKGTASKSRPLSQGDCPPLELKNTVLEDGDMVDTGYGAMDFSTLQDTKCEVPLDICQSICKYPDYLQMSADPYGDSMFFCLRREQLFARHFWNRAGTMGDTVPQSLYIKGTGMRASPGSCVYSPSPSGSIVTSDSQLFNKPYWLHKAQGHNNGVCWHNQLFVTVVDTTRSTNLTICASTQSPVPGQYDATKFKQYSRHVEEYDLQFIFQLCTITLTADVMSYIQSMNSSILEDWNNKDPYDKLKFWNVDLKEKFSLDLDQYPLGRKFLVQAG 5w1y-a1-m1-cB_5w1y-a1-m1-cA SETD8 in complex with a covalent inhibitor Q9NQR1 Q9NQR1 1.7 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 162 SEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKSGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDRSKASIEAHPWLK SRKSKAELQSEERKRIDELIESGKEEGMKIDLIDGKGRGVIATKQFSRGDFVVEYHGDLIEITDAKKREALYAQDPSTGCYMYYFQYLSKTYCVDATRETNRLGRLINHSKSGNCQTKLHDIDGVPHLILIASRDIAAGEELLYDYGDRSKASIEAHPWLKH 5w25-a3-m1-cB_5w25-a3-m1-cA Crystal structure of Aspartyl-tRNA synthetase from Mycobacterium tuberculosis complexed with L-Aspartic Acid P9WFW3 P9WFW3 2.65 X-RAY DIFFRACTION 280 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 566 583 FVLRSHAAGLLREGDAGQQVTLAGWVARRRDHGGVIFIDLRDASGIAQVVFRDPQDTEVLAQAHRLRAEFCVSVAGVVEIRPEGNANPEIATGEIEVNATSLTVLGECAPLPFQLDEPAGEELRLKYRYLDLRRDDPAAAIRLRSRVNAAARAVLARHDFVEIETPTITRSTPEGARDFLVPARLHPGSFYALPQSPQLFKQLLMVAGMERYYQIARCYRDEDFRADRQPEFTQLDMEMSFVDAEDIIAISEEVLTELWALIGYRIPTPIPRIGYAEAMRRFGTDKPDLRFGLELVECTDFFSDTTFRVFQAPYVGAVVMPGGASQPRLAYVLVAEDGTLGGPVAKNLTEAERTGLADHVGAKPGDCIFFSAGPVKSSRALLGAARVEIANRLGLIDPDAWAFVWVVDPPLFEPADEATAAGEVAVGSGAWTAVHHAFTAPKPEWEDRIESDTGSVLADAYDIVCNGHEIGGGSVRIHRRDIQERVFAVMGLDKAEAEEKFGFLLEAFMFGAPPHGGIAFGWDRTTALLAGMDSIREVIAFPKTGGGVDPLTDAPAPITAQQRKES FVLRSHAAGLLREGDAGQQVTLAGWVARRRDHGGVIFIDLRDASGIAQVVFRDPQDTEVLAQAHRLRAEFCVSVAGVVEIRPEGNANPEIATGEIEVNATSLTVLGECAPLPFQLDEPAGEELRLKYRYLDLRRDDPAAAIRLRSRVNAAARAVLARHDFVEIETPTITRSTPEGARDFLVPARLHPGSFYALPQSPQLFKQLLMVAGMERYYQIARCYRDEDFRADRQPEFTQLDMEMSFVDAEDIIAISEEVLTELWALIGYRIPTPIPRIGYAEAMRRFGTDKPDLRFGLELVECTDFFSDTTFRVFQAPYVGAVVMPGGASQPRRTLDGWQDWAKQRGHRGLAYVLVAEDGTLGGPVAKNLTEAERTGLADHVGAKPGDCIFFSAGPVKSSRALLGAARVEIANRLGLIDPDAWAFVWVVDPPLFEPADEATAAGEVAVGSGAWTAVHHAFTAPKPEWEDRIESDTGSVLADAYDIVCNGHEIGGGSVRIHRRDIQERVFAVMGLDKAEAEEKFGFLLEAFMFGAPPHGGIAFGWDRTTALLAGMDSIREVIAFPKTGGGVDPLTDAPAPITAQQRKES 5w2m-a1-m1-cB_5w2m-a1-m1-cM APOBEC3F Catalytic Domain Complex with a Single-Stranded DNA Q8IUX4 Q8IUX4 3.7 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 5w2m-a1-m1-cA_5w2m-a1-m1-cL 5w2m-a1-m1-cC_5w2m-a1-m1-cJ 5w2m-a1-m1-cD_5w2m-a1-m1-cK NPMEAMYPHIFYFHFKNLRKAYGRNESWLCFTMEVVKHHSPVSWKRGVFRNQVDPETHCHAERCFLSWFCDDILSPNTNYEVTWYTSWSPCPECAGEVAEFLARHSNVNLTIFTARLYYFWDTDYQEGLRSLSQEGASVEIMGYKDFKYCWENFVYNDDEPFKPWKGLKYNFLFLDSKLQEILE NPMEAMYPHIFYFHFKNLRKAYGRNESWLCFTMEVVKHHSPVSWKRGVFRNQVDPETHCHAERCFLSWFCDDILSPNTNYEVTWYTSWSPCPECAGEVAEFLARHSNVNLTIFTARLYYFWDTDYQEGLRSLSQEGASVEIMGYKDFKYCWENFVYNDDEPFKPWKGLKYNFLFLDSKLQEILE 5w2m-a1-m1-cK_5w2m-a1-m1-cM APOBEC3F Catalytic Domain Complex with a Single-Stranded DNA Q8IUX4 Q8IUX4 3.7 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 184 5w2m-a1-m1-cA_5w2m-a1-m1-cC 5w2m-a1-m1-cB_5w2m-a1-m1-cD 5w2m-a1-m1-cJ_5w2m-a1-m1-cL NPMEAMYPHIFYFHFKNLRKAYGRNESWLCFTMEVVKHHSPVSWKRGVFRNQVDPETHCHAERCFLSWFCDDILSPNTNYEVTWYTSWSPCPECAGEVAEFLARHSNVNLTIFTARLYYFWDTDYQEGLRSLSQEGASVEIMGYKDFKYCWENFVYNDDEPFKPWKGLKYNFLFLDSKLQEILE NPMEAMYPHIFYFHFKNLRKAYGRNESWLCFTMEVVKHHSPVSWKRGVFRNQVDPETHCHAERCFLSWFCDDILSPNTNYEVTWYTSWSPCPECAGEVAEFLARHSNVNLTIFTARLYYFWDTDYQEGLRSLSQEGASVEIMGYKDFKYCWENFVYNDDEPFKPWKGLKYNFLFLDSKLQEILE 5w33-a2-m1-cA_5w33-a2-m2-cA Crystal structure of the RNA polymerase domain (RPD) of Mycobacterium tuberculosis primase DnaG P9WNW1 P9WNW1 2.85 X-RAY DIFFRACTION 33 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 309 309 MGSRSRLLAANAAAAAFYAQALQSDEAAPARQYLTERSFDAAAARKFGCGFAPSGWDSLTKHLQRKGFEFEELEAAGLSRQGRHGPMDRFHRRLLWPIRTSAGEVVGFGARRLFDDDAMEAKYVNTPETLLYKKSSVMFGIDLAKRDIAKGHQAVVVEGYTDVMAMHLAGVTTAVASCGTAFGGEHLAMLRRLMMDDSFFRGELIYVFDGDEAGRAAALKAFDGEQKLAGQSFVAVAPDGMDPCDLRLKCGDAALRDLVARRTPLFEFAIRAAIAEMGRVAALRRCVPMVGQIKDPTLRDEYARQLAGW MGSRSRLLAANAAAAAFYAQALQSDEAAPARQYLTERSFDAAAARKFGCGFAPSGWDSLTKHLQRKGFEFEELEAAGLSRQGRHGPMDRFHRRLLWPIRTSAGEVVGFGARRLFDDDAMEAKYVNTPETLLYKKSSVMFGIDLAKRDIAKGHQAVVVEGYTDVMAMHLAGVTTAVASCGTAFGGEHLAMLRRLMMDDSFFRGELIYVFDGDEAGRAAALKAFDGEQKLAGQSFVAVAPDGMDPCDLRLKCGDAALRDLVARRTPLFEFAIRAAIAEMGRVAALRRCVPMVGQIKDPTLRDEYARQLAGW 5w34-a1-m1-cA_5w34-a1-m1-cB Crystal structure of the RNA polymerase domain (RPD) of Mycobacterium tuberculosis primase DnaG in complex with double-stranded DNA GACCGGAAGTGG P9WNW1 P9WNW1 2.95 X-RAY DIFFRACTION 30 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 317 321 5w35-a1-m1-cA_5w35-a1-m1-cB MGSRSRLLAANAAAAAFYAQALQSDEAAPARQYLTERSFDAAAARKFGCGFAPSGWDSLTKHLQRKGFEFEELEAAGLSRQGRHGPMDRFHRRLLWPIRTSAGEVVGFGARRLFDDDAMEAKYVNTPETLLYKKSSVMFGIDLAKRDIAKGHQAVVVEGYTDVMAMHLAGVTTAVASCGTAFGGEHLAMLRRLMMDFFRGELIYVFDGDEAGRAAALKAFDGEQKLAGQSFVAVAPDGMDPCDLRLKCGDAALRDLVARRTPLFEFAIRAAIAEMDLDSAEGRVAALRRCVPMVGQIKDPTLRDEYARQLAGWVGWA MGSRSRLLAANAAAAAFYAQALQSDEAAPARQYLTERSFDAAAARKFGCGFAPSGWDSLTKHLQRKGFEFEELEAAGLSRQGRHGPMDRFHRRLLWPIRTSAGEVVGFGARRLFDDDAMEAKYVNTPETLLYKKSSVMFGIDLAKRDIAKGHQAVVVEGYTDVMAMHLAGVTTAVASCGTAFGGEHLAMLRRLMMDDSFFRGELIYVFDGDEAGRAAALKAFDGEQKLAGQSFVAVAPDGMDPCDLRLKCGDAALRDLVARRTPLFEFAIRAAIAEMDLDSAEGRVAALRRCVPMVGQIKDPTLRDEYARQLAGWVGWADV 5w36-a1-m1-cA_5w36-a1-m2-cB Crystal structure of the RNA polymerase domain (RPD) of Mycobacterium tuberculosis primase DnaG in complex with a double-stranded DNA oligomer with a 6-nucleotide overhang P9WNW1 P9WNW1 2.46 X-RAY DIFFRACTION 62 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 321 322 PHMGSRSRLLAANAAAAAFYAQALQSDEAAPARQYLTERSFDAAAARKFGCGFAPSGWDSLTKHLQRKGFEFEELEAAGLSRQGRHGPMDRFHRRLLWPIRTSAGEVVGFGARRLFDDDAMEAKYVNTPETLLYKKSSVMFGIDLAKRDIAKGHQAVVVEGYTDVMAMHLAGVTTAVASCGTAFGGEHLAMLRRLMMDDSFFRGELIYVFDGDEAGRAAALKAFDGEQKLAGQSFVAVAPDGMDPCDLRLKCGDAALRDLVARRTPLFEFAIRAAIAEMDLDSAEGRVAALRRCVPMVGQIKDPTLRDEYARQLAGWVGWA HMGSRSRLLAANAAAAAFYAQALQSDEAAPARQYLTERSFDAAAARKFGCGFAPSGWDSLTKHLQRKGFEFEELEAAGLSRQGRHGPMDRFHRRLLWPIRTSAGEVVGFGARRLFDDDAMEAKYVNTPETLLYKKSSVMFGIDLAKRDIAKGHQAVVVEGYTDVMAMHLAGVTTAVASCGTAFGGEHLAMLRRLMMDDSFFRGELIYVFDGDEAGRAAALKAFDGEQKLAGQSFVAVAPDGMDPCDLRLKCGDAALRDLVARRTPLFEFAIRAAIAEMDLDSAEGRVAALRRCVPMVGQIKDPTLRDEYARQLAGWVGWADV 5w3d-a1-m1-cB_5w3d-a1-m1-cA The structure of kinesin-14 wild-type Ncd-ADP dimer P20480 P20480 2.79 X-RAY DIFFRACTION 89 0.99 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 313 354 MHAALSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDAMGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNGWEYEIKATFLEIYNEVLYDLLTEETVLDPNHLRHLMHTAKMNRASSRSHAVTKLELIGRHSVGSINLVDLAGSESPNRSLSELTNVILALLQKPYRNSKLTHLLMPNSKTLMFINVSPFQDCFQESVKSLRFAASVNS MHAALSTEVVHLRQRTEELLRCNEQQAAELETCKEQLFQSNMERKELHNTVMDLRGNIRVFCRIRPPLESEENRMCCTWTYHDESTVELQSIDGQQIFSFDQVFHPLSSQSDIFEMVSPLIQSALDGYNICIFAYGQTGSGKTYTMDGVPESVGVIPRTVDLLFDSIRGYRNLGWEYEIKATFLEIYNEVLYDLLSNEQKDMEIRMAKNNKNDIYVSNITEETVLDPNHLRHLMHTAKMNRERSSRSHAVTKLELIGRHAEKQEISVGSINLVDLAGSESPINRSLSELTNVILALLQKQDHIPYRNSKLTHLLMPSLGGNSKTLMFINVSPFQDCFQESVKSLRFAASVNSCK 5w3n-a1-m1-cH_5w3n-a1-m1-cI Molecular structure of FUS low sequence complexity domain protein fibrils P35637 P35637 NOT SOLID-STATE NMR 247 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 61 5w3n-a1-m1-cA_5w3n-a1-m1-cB 5w3n-a1-m1-cB_5w3n-a1-m1-cC 5w3n-a1-m1-cC_5w3n-a1-m1-cD 5w3n-a1-m1-cD_5w3n-a1-m1-cE 5w3n-a1-m1-cE_5w3n-a1-m1-cF 5w3n-a1-m1-cF_5w3n-a1-m1-cG 5w3n-a1-m1-cG_5w3n-a1-m1-cH SYSGYSQSTDTSGYGQSSYSSYGQSQNTGYGTQSTPQGYGSTGGYGSSQSSQSSYGQQSSY SYSGYSQSTDTSGYGQSSYSSYGQSQNTGYGTQSTPQGYGSTGGYGSSQSSQSSYGQQSSY 5w48-a1-m1-cB_5w48-a1-m1-cA Crystal Structure of Riboflavin Lyase (RcaE) A0A3B6UEK8 A0A3B6UEK8 1.9 X-RAY DIFFRACTION 225 0.998 881616 (Herbiconiux) 881616 (Herbiconiux) 448 452 5w4y-a1-m1-cB_5w4y-a1-m1-cA 5w4z-a1-m1-cA_5w4z-a1-m1-cB MKQLRFGLFENAQTNDSGTATWRHPDNQRHLFDTLDYWRNIAQICEDAGLDFVFLADAWGWADVNGERPDICDVEGLDLPRLDPAIVAAALIASTTKLGLVMTGSTLLEQPYSFARRMASLDHLSKGRIGWNVVTTGTAETASAAFGVPMVAHDDRYDMADDFMELVYKLWEGAWEPDALERDKQGRYADPAKVHRIDHEGPYFRSNGYGNTSYSPQGTPVLFQAGSSERGRQFGGRHGECIFLGGAPIPKLAEQVRAIRAEAVAEGRAADSIKLMAAFSCVIAPTHEEAVQKYQEVLDSQTPEVAVASYAWFTGLDLSSYDPSTPMSELHTELSQTQVARFAGLTVGDVLADWHAHGVRTKPVVGTPEEVADAIVELAEGADLDGFLLTPVIQPGSTIDFIEHVLPILRERGVAASGYDAPTLRERLLGTETPVLREDHPGAGYRAQ KQLRFGLFENAQTNDSGTATWRHPDNQRHLFDTLDYWRNIAQICEDAGLDFVFLADAWGWADVNGERPDICDVEGLDLPRLDPAIVAAALIASTTKLGLVMTGSTLLEQPYSFARRMASLDHLSKGRIGWNVVTTGTAETASAAFGVPMVAHDDRYDMADDFMELVYKLWEGAWEPDALERDKQGRYADPAKVHRIDHEGPYFRSNGYGNTSYSPQGTPVLFQAGSSERGRQFGGRHGECIFLGGAPIPKLAEQVRAIRAEAVAEGRAADSIKLMAAFSCVIAPTHEEAVQKYQEVLDSQTPEVAVASYAWFTGLDLSSYDPSTPMSELHTELSQTQVARFAGLTVGDVLADWHAHGVRTKPVVGTPEEVADAIVELAEGADLDGFLLTPVIQPGSTIDFIEHVLPILRERGVAASGYDAPTLRERLLGTETPVLREDHPGAGYRAQSGALV 5w4a-a2-m1-cD_5w4a-a2-m1-cB C. japonica N-domain 1.5 X-RAY DIFFRACTION 36 1.0 281687 (Caenorhabditis japonica) 281687 (Caenorhabditis japonica) 210 212 5w4a-a1-m1-cA_5w4a-a1-m1-cC 5w4d-a1-m1-cC_5w4d-a1-m1-cA 5w4d-a2-m1-cD_5w4d-a2-m1-cB NKREIVEFLGIRTYFFPNLALYAVNNDELLVSDPNKANSFAAYVFGASDKKPSVDDIVQILFPSGSDSGTILTSDTLLALGPDFLTEFKKRNQDLARFNLTHDLSILAQGDEDAAKKKLNLGRKAKLQKTEAAKILAILIKTINSEENYEKFTELSELCGLDLDFDAYVFTKILGLEDEDTADEVEVIRDNFLNRLDQTKPKLADIIRNG DTNKREIVEFLGIRTYFFPNLALYAVNNDELLVSDPNKANSFAAYVFGASDKKPSVDDIVQILFPSGSDSGTILTSDTLLALGPDFLTEFKKRNQDLARFNLTHDLSILAQGDEDAAKKKLNLGRKAKLQKTEAAKILAILIKTINSEENYEKFTELSELCGLDLDFDAYVFTKILGLEDEDTADEVEVIRDNFLNRLDQTKPKLADIIRNG 5w4c-a1-m1-cB_5w4c-a1-m1-cA Crystal structure of thioredoxin reductase from Cryptococcus neoformans in complex with FAD (FO conformation) J9VRX9 J9VRX9 2.255 X-RAY DIFFRACTION 178 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 338 356 FGVREPKRTGEVSKKMHSKVVIIGSGPGGHTAAIYLARANLEPVLYEGMLANGFAPGGQLTTTTDVENFPGFPEGVTGTEMMDKFRAQSERFGTKIITETVARVDLSVRPFKYWTEGEEEEHEFMTADTIILATGASAKRLFLPGEETYWQSGISACAVCDGAVPIFRQKPLAVIGGGDSAAEEATYLTKYGSHVYVLVRRDELRASKIMAKRLTSHPKVTVLWNTVATEAKGDGEVLTSLTIKNTKTGETGDLPVNGLFYAIGHEPATSLVKSQVELDSDGYIKTVPGTSQTSVHGVFAAGDVQDKKYRQAITSAGSGCIAALEAERLISEEEADDE FGVREPKRTGEVSKKMHSKVVIIGSGPGGHTAAIYLARANLEPVLYEGMLANGFAPGGQLTTTTDVENFPGFPEGVTGTEMMDKFRAQSERFGTKIITETVARVDLSVRPFKYWTEGEEEEHEFMTADTIILATGASAKRLFLPGEETYWQSGISACAVCDGAVPIFRQKPLAVIGGGDSAAEEATYLTKYGSHVYVLVRRDELRASKIMAKRLTSHPKVTVLWNTVATEAKGDGEVLTSLTIKNTKTGETGDLPVNGLFYAIGHEPATSLVKSQVELDSDGYIKTVPGTSQTSVHGVFAAGDVQDKKYRQAITSAGSGCIAALEAERLISEEEADDESLQTEDVHVPAEHYLGTD 5w4j-a1-m1-cA_5w4j-a1-m2-cD X-ray crystallographic structure of a beta-hairpin peptide mimic. (ORN)KLV(MEA)FAE(ORN)AIIGLMV. 2.08 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 5w4j-a1-m1-cD_5w4j-a1-m2-cA 5w4j-a2-m1-cB_5w4j-a2-m1-cC 5w4j-a2-m1-cE_5w4j-a2-m1-cF KVFAADAIIGLMV KVFAADAIIGLMV 5w4j-a1-m2-cA_5w4j-a1-m2-cD X-ray crystallographic structure of a beta-hairpin peptide mimic. (ORN)KLV(MEA)FAE(ORN)AIIGLMV. 2.08 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 5w4j-a1-m1-cA_5w4j-a1-m1-cD 5w4j-a2-m1-cB_5w4j-a2-m1-cE KVFAADAIIGLMV KVFAADAIIGLMV 5w4j-a2-m1-cC_5w4j-a2-m1-cF X-ray crystallographic structure of a beta-hairpin peptide mimic. (ORN)KLV(MEA)FAE(ORN)AIIGLMV. 2.08 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 KVFAADAIIGLMV KVFAADAIIGLMV 5w50-a1-m4-cB_5w50-a1-m6-cA Crystal structure of the segment, LIIKGI, from the RRM2 of TDP-43, residues 248-253 Q13148 Q13148 1.4 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5w50-a1-m1-cA_5w50-a1-m2-cB 5w50-a1-m1-cB_5w50-a1-m3-cA 5w50-a1-m4-cA_5w50-a1-m5-cB LIIKGI LIIKGI 5w50-a1-m6-cA_5w50-a1-m6-cB Crystal structure of the segment, LIIKGI, from the RRM2 of TDP-43, residues 248-253 Q13148 Q13148 1.4 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5w50-a1-m1-cA_5w50-a1-m1-cB 5w50-a1-m2-cA_5w50-a1-m2-cB 5w50-a1-m3-cA_5w50-a1-m3-cB 5w50-a1-m4-cA_5w50-a1-m4-cB 5w50-a1-m5-cA_5w50-a1-m5-cB LIIKGI LIIKGI 5w57-a3-m1-cA_5w57-a3-m1-cB Structure of Holo AztC A1B2F3 A1B2F3 2.3 X-RAY DIFFRACTION 74 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 284 284 EPLDVVATFSIIGDFAAKVGGDRIRLNVLVGPDSDTHVYEPRPADAIALAGADVVLTNGLEFEGFLTRLIAASGTDAAVATLTDGVETMEEPGGGHYHYIDGKAVFHAGAHDPHAWQAVPNAKVYVQNIAAAFCAADAEGCAAYQANAARYIGELDALDTEIRAAIAALPQDRRTVVVAHNAFRYFEAAYGVHFLSPQGVSTESEAAAADVAGLIREIRARNASAIFAENISDTRLLEQIAREAGLPLAGTLYSDALSGPDGPASNYIAMMRHNAGAIAAALAA EPLDVVATFSIIGDFAAKVGGDRIRLNVLVGPDSDTHVYEPRPADAIALAGADVVLTNGLEFEGFLTRLIAASGTDAAVATLTDGVETMEEPGGGHYHYIDGKAVFHAGAHDPHAWQAVPNAKVYVQNIAAAFCAADAEGCAAYQANAARYIGELDALDTEIRAAIAALPQDRRTVVVAHNAFRYFEAAYGVHFLSPQGVSTESEAAAADVAGLIREIRARNASAIFAENISDTRLLEQIAREAGLPLAGTLYSDALSGPDGPASNYIAMMRHNAGAIAAALAA 5w5a-a1-m1-cA_5w5a-a1-m1-cB Crystal structure of Mycobacterium tuberculosis CRP-FNR family transcription factor Cmr (Rv1675c) P9WMH5 P9WMH5 1.85 X-RAY DIFFRACTION 85 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 220 221 QPPSEAQVRQAAWIARCVGRGGSAPLHRDDVSALAETLQVKEFAPGAVVFHADQTADGVWIVRHGLIELAVGSRRRRAVVNILHPGDVDGDIPLLLEPVYTGRALTQATCLFLDRQAFERLLATHPAIARRWLSSVAQRVSTAQIRLGLGRPLPAQVAQLLLDEAIDARIELAQRTLAALGAQRPSINKILKEFERDRLITVGYAVIEITDQHGLRARAQ GQPPSEAQVRQAAWIARCVGRGGSAPLHRDDVSALAETLQVKEFAPGAVVFHADQTADGVWIVRHGLIELAVGSRRRRAVVNILHPGDVDGDIPLLLEPVYTGRALTQATCLFLDRQAFERLLATHPAIARRWLSSVAQRVSTAQIRLGLGRPLPAQVAQLLLDEAIDARIELAQRTLAALGAQRPSINKILKEFERDRLITVGYAVIEITDQHGLRARAQ 5w5g-a2-m1-cC_5w5g-a2-m2-cC Structure of Human Sts-1 histidine phosphatase domain Q8TF42 Q8TF42 2.48 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 254 2h0q-a1-m1-cB_2h0q-a1-m1-cA 2h0q-a2-m1-cC_2h0q-a2-m2-cC 2ikq-a1-m1-cB_2ikq-a1-m1-cA 2ikq-a2-m1-cM_2ikq-a2-m2-cM 3mbk-a1-m1-cA_3mbk-a1-m2-cB 5vr6-a1-m1-cA_5vr6-a1-m1-cB 5w5g-a1-m1-cB_5w5g-a1-m1-cA RCLFVCRHGERMDVVFGKYWLSQCFDAKGRYIRTNLNMPHSLPQRSGGFRDYEKDAPITVFGCMQARLVGEALLESNTIIDHVYCSPSLRCVQTAHNILKGLQQENHLKIRVEPGLFEWTKWVAGSTLPAWIPPSELAAANLSVDTTYRPHIPISKLVVSESYDTYISRSFQVTKEIISECKSKGNNILIVAHASSLEACTCQLQGLSPQNSKDFVQMVRKIPYLGFCSCEELGETGIWQLTDPPILPLTHGPT RCLFVCRHGERMDVVFGKYWLSQCFDAKGRYIRTNLNMPHSLPQRSGGFRDYEKDAPITVFGCMQARLVGEALLESNTIIDHVYCSPSLRCVQTAHNILKGLQQENHLKIRVEPGLFEWTKWVAGSTLPAWIPPSELAAANLSVDTTYRPHIPISKLVVSESYDTYISRSFQVTKEIISECKSKGNNILIVAHASSLEACTCQLQGLSPQNSKDFVQMVRKIPYLGFCSCEELGETGIWQLTDPPILPLTHGPT 5w5p-a1-m2-cA_5w5p-a1-m3-cA Crystal structure of Acinetobacter baumannii phage AM24 tailspike protein A0A1J0MGR2 A0A1J0MGR2 2.429 X-RAY DIFFRACTION 357 1.0 1913571 (Acinetobacter phage AM24) 1913571 (Acinetobacter phage AM24) 600 600 5w5p-a1-m1-cA_5w5p-a1-m2-cA 5w5p-a1-m1-cA_5w5p-a1-m3-cA EVKLPADLIKDSSGKSQQEVNNSLKLKTFDDLRNFKPIVNGQTVYVGQRSNTYLQGGGLFYADTSDTTSLDNDGTILVGIDGTRWKRKWNTHADPCWFGADYTGTEDCSAQVQKAVDVSYGRVWFGNADRSFKTPVGLPTNSIVGDLEICGDGARVWVYSNTGIFTSKRSIGLETSTDDLYTAALEIGRGLRFQGDGVSQSVVVNGDRLYNVNKGGRYLRISALVRATQPRRNETTGYVQSVTIEENHLALCNRIIDSKRGFNVTVSRNFCESCYGGVYLDGDGSPAVNVIRCDGNLWESSGVFAKLGAVYAGTFIGNYFEGNNTGDLPTLKCLIELGKTGTTGYSSGVTFIGNQFGAAAAYKADVNYADVKFTASLSGTNLDVLAPPTFVGNWTNAYRWSEGQVVTQFGNAFSGGNARRHQAPKLHTEARVTFDLSRKEFLSSTNLVGGVHTVAEIDTNLISNLASQSSRACTADNIFQKTASNVVLGAAVAKVSLVVQGSEGIGTGATTDVYVAASLTGFTQLEGGVIDTVNNVSLFKHFTSPVLTIERVGTKYLLKLSGYVAASGSLYGATAKVFSSTTTIYSLNSGASVAGQIYPT EVKLPADLIKDSSGKSQQEVNNSLKLKTFDDLRNFKPIVNGQTVYVGQRSNTYLQGGGLFYADTSDTTSLDNDGTILVGIDGTRWKRKWNTHADPCWFGADYTGTEDCSAQVQKAVDVSYGRVWFGNADRSFKTPVGLPTNSIVGDLEICGDGARVWVYSNTGIFTSKRSIGLETSTDDLYTAALEIGRGLRFQGDGVSQSVVVNGDRLYNVNKGGRYLRISALVRATQPRRNETTGYVQSVTIEENHLALCNRIIDSKRGFNVTVSRNFCESCYGGVYLDGDGSPAVNVIRCDGNLWESSGVFAKLGAVYAGTFIGNYFEGNNTGDLPTLKCLIELGKTGTTGYSSGVTFIGNQFGAAAAYKADVNYADVKFTASLSGTNLDVLAPPTFVGNWTNAYRWSEGQVVTQFGNAFSGGNARRHQAPKLHTEARVTFDLSRKEFLSSTNLVGGVHTVAEIDTNLISNLASQSSRACTADNIFQKTASNVVLGAAVAKVSLVVQGSEGIGTGATTDVYVAASLTGFTQLEGGVIDTVNNVSLFKHFTSPVLTIERVGTKYLLKLSGYVAASGSLYGATAKVFSSTTTIYSLNSGASVAGQIYPT 5w5x-a2-m1-cL_5w5x-a2-m2-cL Crystal structure of BAXP168G in complex with an activating antibody 2.502 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 212 212 DIQMTQSPSFLSASVGDRVTINCKASQNVNKYLDWYQQNLGEPPKLLIYHTNSLPTGIPSRFSGSGSGTDFTLTISSLQVEDVATYFCLQHDSGLTFGSGTKLEIKRADAAPTVSIFPPSMEQLTSGGATVVCFVNNFYPRDISVKWKIDGSEQRDGVLDSVTDQDSKDSTYSMSSTLSLTKVEYERHNLYTCEVVHKTSSSPVVKSFNRNE DIQMTQSPSFLSASVGDRVTINCKASQNVNKYLDWYQQNLGEPPKLLIYHTNSLPTGIPSRFSGSGSGTDFTLTISSLQVEDVATYFCLQHDSGLTFGSGTKLEIKRADAAPTVSIFPPSMEQLTSGGATVVCFVNNFYPRDISVKWKIDGSEQRDGVLDSVTDQDSKDSTYSMSSTLSLTKVEYERHNLYTCEVVHKTSSSPVVKSFNRNE 5w63-a2-m1-cA_5w63-a2-m2-cA Crystal structure of channel catfish BAX E3TFZ1 E3TFZ1 2.436 X-RAY DIFFRACTION 149 1.0 7998 (Ictalurus punctatus) 7998 (Ictalurus punctatus) 174 174 TSNDQILEVGAVLLKDFIYERVHRHTVVSRHELGGSELSDPTHKKLAQYLQQIGDELDNNVDLQRMLADSALQPTKEVFVKVAREIFSDGKFNWGRVVALFYFASRLVIEALLTKIPDIIRTIINWTLDYLREHVINWIREQGGWEGIQTYFGTPTWKTVGVFLAGVLTTVLVM TSNDQILEVGAVLLKDFIYERVHRHTVVSRHELGGSELSDPTHKKLAQYLQQIGDELDNNVDLQRMLADSALQPTKEVFVKVAREIFSDGKFNWGRVVALFYFASRLVIEALLTKIPDIIRTIINWTLDYLREHVINWIREQGGWEGIQTYFGTPTWKTVGVFLAGVLTTVLVM 5w6f-a1-m1-cB_5w6f-a1-m1-cC Crystal structure of Bacteriophage CBA120 tailspike protein 3 (TSP3, orf212) G3M191 G3M191 2.18 X-RAY DIFFRACTION 355 1.0 616 616 5w6f-a1-m1-cA_5w6f-a1-m1-cB 5w6f-a1-m1-cA_5w6f-a1-m1-cC 6nw9-a1-m1-cA_6nw9-a1-m1-cB 6nw9-a1-m1-cA_6nw9-a1-m1-cC 6nw9-a1-m1-cB_6nw9-a1-m1-cC TSIEVNKQSIARNFGVKEDEVIYFTAGIDLSGFKVIYDESTQRAYSLPFGIVSGTTAISLDERAILTHSAGSVDLGELAVSREEYVTLPGSFNFGHTINVKNELLVHDDKKYRWDGSLPKVVAAGSTPDSSGGVGLGAWLSVGDAALRAELNTKVSDGTFPATIKYKYGLPSVIDGAIYRTVQDKLDDFVFLEDFGGKDDAGSTDNSIAFRKAFASGARKIRLRGSGVYGMATRDIELPAKYEIIGNAKNPEIKYLGTDTSFTMFTLTGSGPASNQWKQGGMFRDLIISSDVKINWMLGRHVQNLDYDRVFFYNSATVLNNYHYVNFTRCERWGSAFIGRADLNTIQFISESPKFHLCFSSGSPIDVWDTADLAITKCTMFAGDYAVRTRVTQKQVTAPDLFAGYPVLITCSVFDAVRGHAWDLEGSVYSTITGNLVSAGRDTNSHGAYIKGGRSLSLTGNVFTYCGNYGLVLEDVQQSGFVGNVFNGNKTGGLGTLACKDLSIVGGSMGTTYVRGGYYTQPVGYSDISSNSTGILLSGVAFDEALTTKVYLDTSITTRNKVINCSGVPDTIARGSTANRPANPQASYQYYDTTLGIPIWWNSVSGTWKNAAGADV TSIEVNKQSIARNFGVKEDEVIYFTAGIDLSGFKVIYDESTQRAYSLPFGIVSGTTAISLDERAILTHSAGSVDLGELAVSREEYVTLPGSFNFGHTINVKNELLVHDDKKYRWDGSLPKVVAAGSTPDSSGGVGLGAWLSVGDAALRAELNTKVSDGTFPATIKYKYGLPSVIDGAIYRTVQDKLDDFVFLEDFGGKDDAGSTDNSIAFRKAFASGARKIRLRGSGVYGMATRDIELPAKYEIIGNAKNPEIKYLGTDTSFTMFTLTGSGPASNQWKQGGMFRDLIISSDVKINWMLGRHVQNLDYDRVFFYNSATVLNNYHYVNFTRCERWGSAFIGRADLNTIQFISESPKFHLCFSSGSPIDVWDTADLAITKCTMFAGDYAVRTRVTQKQVTAPDLFAGYPVLITCSVFDAVRGHAWDLEGSVYSTITGNLVSAGRDTNSHGAYIKGGRSLSLTGNVFTYCGNYGLVLEDVQQSGFVGNVFNGNKTGGLGTLACKDLSIVGGSMGTTYVRGGYYTQPVGYSDISSNSTGILLSGVAFDEALTTKVYLDTSITTRNKVINCSGVPDTIARGSTANRPANPQASYQYYDTTLGIPIWWNSVSGTWKNAAGADV 5w6h-a1-m1-cB_5w6h-a1-m1-cC Crystal structure of Bacteriophage CBA120 tailspike protein 4 enzymatically active domain (TSP4dN, orf213) G3M192 G3M192 2.289 X-RAY DIFFRACTION 275 1.0 1987159 (Kuttervirus CBA120) 1987159 (Kuttervirus CBA120) 697 697 5w6h-a1-m1-cA_5w6h-a1-m1-cB 5w6h-a1-m1-cA_5w6h-a1-m1-cC GSGSTLREVARVTNVKDTEVIYFSVGAVLSGYKVIYDKVTQRSYFIPELPTGTTAVSLSSSAILVHSAGSVDLGALAVSREEYVTLSGTFDSGAVINTKNELLTHTDGKYRWDGTLPKTVAAGSTPATTGGVGSGAWLSVGDASLKSNLNKPNGLSYIGTVSSVSELSSIAGLIGDSIILDSYVDGFNLGGGVMVAVNSDTVVDNIVTFQGNGVVWKRKLFNGVADVYEAGYTGTGDLAIFINKINAVGFDCIVPVSGEITTPIIFDIAKGALIGKNKCTLIESASATGDYYLTIVNTDTDYTNRDVINATALMTGVSFVGKGTRKLAIGGSTSGEVSELRISNCGFISTAGIEFLDNAYRILFDKCALSRSFTNSVIFNSPANSGEVIKFNHCWMVDNGGPFTFKNGQFIFDSCSLPAGKKSGYFDPVVALSDNATTVFTNGNIEYQPGQSFVGFTVDGSSRLSISDSTILLPNDYSTVPIVNNGDGVVSLNNCSLPLYGSTTIATGFATRQLIGGLSKKIMSRGCYPRAGFITSNWNLGCIVSPYINSVSNGSGQFENISNWTLSQTGTDVVTVTTGNDVPNDLMFSTSFVLSVPTVGAAANFTQTIIDCEPGRYFQLGFWAKNTTTTLASIRFLDQQGNAVADSIGYNIPVGNTFNFYALVDCVPPGAYRAEINFNVSSIVGGIAIHNVIYGLI GSGSTLREVARVTNVKDTEVIYFSVGAVLSGYKVIYDKVTQRSYFIPELPTGTTAVSLSSSAILVHSAGSVDLGALAVSREEYVTLSGTFDSGAVINTKNELLTHTDGKYRWDGTLPKTVAAGSTPATTGGVGSGAWLSVGDASLKSNLNKPNGLSYIGTVSSVSELSSIAGLIGDSIILDSYVDGFNLGGGVMVAVNSDTVVDNIVTFQGNGVVWKRKLFNGVADVYEAGYTGTGDLAIFINKINAVGFDCIVPVSGEITTPIIFDIAKGALIGKNKCTLIESASATGDYYLTIVNTDTDYTNRDVINATALMTGVSFVGKGTRKLAIGGSTSGEVSELRISNCGFISTAGIEFLDNAYRILFDKCALSRSFTNSVIFNSPANSGEVIKFNHCWMVDNGGPFTFKNGQFIFDSCSLPAGKKSGYFDPVVALSDNATTVFTNGNIEYQPGQSFVGFTVDGSSRLSISDSTILLPNDYSTVPIVNNGDGVVSLNNCSLPLYGSTTIATGFATRQLIGGLSKKIMSRGCYPRAGFITSNWNLGCIVSPYINSVSNGSGQFENISNWTLSQTGTDVVTVTTGNDVPNDLMFSTSFVLSVPTVGAAANFTQTIIDCEPGRYFQLGFWAKNTTTTLASIRFLDQQGNAVADSIGYNIPVGNTFNFYALVDCVPPGAYRAEINFNVSSIVGGIAIHNVIYGLI 5w6l-a1-m1-cB_5w6l-a1-m1-cA Crystal Structure of RRSP, a MARTX Toxin Effector Domain from Vibrio vulnificus CMCP6 A0A3B6UEL2 A0A3B6UEL2 3.45 X-RAY DIFFRACTION 69 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 480 482 NAQELKERAKVKPIGASYQGILDQLDLVHQAKGRDQIAASFELNKKINDYIAEHPTSGRNQALTQLKEQVTSALFIGKQVAQAGIDAIAQTRPELAARIFVAIEEANGKHVGLTDVRWANEDPYLAPKHGYKGETPSDLGFDAKYHVDLGEHYADFKQWLETSQSNGLLSKATLDESTKTVHLGYSYQELQDLTGAESVQAFYFLKEAAKKADPISGDSAEILLKKFADQSYLSQLDSDRDQIEGIYRSSHETDIDAWDRRYSGTGYDELTNKLASATGVDEQLAVLLDDRKGLLIGEVHGSDVNGLRFVNEQDALKKQGVTVIGLEHLRSDLAQPLIDRYLATGVSSELSALKTKHLDVTLFENARANGRIVALDANSSARPNVQGTEHGLYRAGAANNIAVEVLQNLPDGEKFVAIYGKAHLQSHKGIEGFVPGITHRLDLPALKVSDSNQFTVEQDDVSLRVVYDDVANKPKITFKG NAQELKERAKVFAKPIGASYQGILDQLDLVHQAKGRDQIAASFELNKKINDYIAEHPTSGRNQALTQLKEQVTSALFIGKQVAQAGIDAIAQTRPELAARIFVAIEEANGKHVGLTDVRWANEDPYLAPKHGYKGETPSDLGFDAKYHVDLGEHYADFKQWLETSQSNGLLSKATLDESTKTVHLGYSYQELQDLTGAESVQAFYFLKEAAKKADPISGDSAEILLKKFADQSYLSQLDSDRDQIEGIYRSSHETDIDAWDRRYSGTGYDELTNKLASATGVDEQLAVLLDDRKGLLIGEVHGSDVNGLRFVNEQDALKKQGVTVIGLEHLRSDLAQPLIDRYLATGVSSELSALKTKHLDVTLFENARANGRIVALDANSSARPNVQGTEHGLYRAGAANNIAVEVLQNLPDGEKFVAIYGKAHLQSHKGIEGFVPGITHRLDLPALKVSDSNQFTVEQDDVSLRVVYDDVANKPKITFKG 5w6y-a1-m1-cB_5w6y-a1-m1-cA Physcomitrella patens Chorismate Mutase A9S498 A9S498 1.995 X-RAY DIFFRACTION 64 0.983 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 230 244 EPFTLANIRESLIRQEDTIIYALLQRAQFSFNAPTYDENSFSIPGFKGSLVEFMLKETETLHAKVRRYQAPDEHPFFPEDLSQPRVLHPAAEKININKSIWSMYLQDLLPKLTVPDDDGNYGSASVCDVLCLQALSKRIHYGKFVAEAKFIEDPARFEGHIKAQDGDAILRELTFKNVEDNVKRRVANKARAYGQERYKIDPDLAGALYEDWVMPLTKQVQVAYLLRRLD LANIRESLIRQEDTIIYALLQRAQFSFNAPTYDENSFSIPGFKGSLVEFMLKETETLHAKVRRYQAPDEHPFFPEDLSQPILPSLPKSRVLHPAAEKININKSIWSMYLQDLLPKLTVPDDDGNYGSASVCDVLCLQALSKRIHYGKFVAEAKFIEDPARFEGHIKAQDGDAILRELTFKNVEDNVKRRVANKARAYGQEVNEHGKVDNARYKIDPDLAGALYEDWVMPLTKQVQVAYLLRRLD 5w70-a1-m1-cA_5w70-a1-m1-cB X-ray Structure of RbmB from Streptomyces ribosidificus Q4R0W2 Q4R0W2 2.1 X-RAY DIFFRACTION 213 1.0 80859 (Streptomyces ribosidificus) 80859 (Streptomyces ribosidificus) 414 414 QLAVKGGEALRTRPWPAWPQPAPGVPDAVADVLGSGRWSISGPYRGTESYERRFARAFAAYNGVPHCVPAASGTASLMLALEACGIGAGDEVIVPGLSWVASGSTILGVNAVPIFCDVDPDTLCLSPEAVEAAITEHTRAIVVVHLYSALADMDALSAIAERHGLPLIEDCAQAHGATYRGVKVGALATAGTFSMQHSKVLTSGEGGAVITRDEDFARRVEHLRADGRCLSAVPPAPGAMELVETGELMGNNRCLSEFQAAILAEQLTILDEQNETRRANAAHLDGLLGELGLRPQTTSDGTTSRTYYTYAVRLPDGVLEDVPVTDVSCALTAELGFPVLPSYAPIPANRLYTPHTRRRYTLGLDHERRIDPKRFALPVCEDAARRTVTLHHAALLGDADDMGDIAAAFAKVLR QLAVKGGEALRTRPWPAWPQPAPGVPDAVADVLGSGRWSISGPYRGTESYERRFARAFAAYNGVPHCVPAASGTASLMLALEACGIGAGDEVIVPGLSWVASGSTILGVNAVPIFCDVDPDTLCLSPEAVEAAITEHTRAIVVVHLYSALADMDALSAIAERHGLPLIEDCAQAHGATYRGVKVGALATAGTFSMQHSKVLTSGEGGAVITRDEDFARRVEHLRADGRCLSAVPPAPGAMELVETGELMGNNRCLSEFQAAILAEQLTILDEQNETRRANAAHLDGLLGELGLRPQTTSDGTTSRTYYTYAVRLPDGVLEDVPVTDVSCALTAELGFPVLPSYAPIPANRLYTPHTRRRYTLGLDHERRIDPKRFALPVCEDAARRTVTLHHAALLGDADDMGDIAAAFAKVLR 5w74-a1-m1-cE_5w74-a1-m2-cG Crystal Structure of the Group II Chaperonin from Methanococcus Maripaludis D386ADeltaLid Mutant in the Open, ADP-Bound State Q877G8 Q877G8 3.65 X-RAY DIFFRACTION 61 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 477 477 3iyf-a1-m1-cA_3iyf-a1-m1-cJ 3iyf-a1-m1-cB_3iyf-a1-m1-cK 3iyf-a1-m1-cC_3iyf-a1-m1-cL 3iyf-a1-m1-cD_3iyf-a1-m1-cM 3iyf-a1-m1-cE_3iyf-a1-m1-cN 3iyf-a1-m1-cF_3iyf-a1-m1-cO 3iyf-a1-m1-cG_3iyf-a1-m1-cP 3iyf-a1-m1-cH_3iyf-a1-m1-cI 3j02-a1-m1-cA_3j02-a1-m1-cP 3j02-a1-m1-cB_3j02-a1-m1-cO 3j02-a1-m1-cC_3j02-a1-m1-cN 3j02-a1-m1-cD_3j02-a1-m1-cM 3j02-a1-m1-cE_3j02-a1-m1-cL 3j02-a1-m1-cF_3j02-a1-m1-cK 3j02-a1-m1-cG_3j02-a1-m1-cJ 3j02-a1-m1-cH_3j02-a1-m1-cI 3kfk-a1-m1-cA_3kfk-a1-m3-cC 3kfk-a1-m1-cB_3kfk-a1-m3-cB 3kfk-a1-m1-cC_3kfk-a1-m3-cA 3kfk-a1-m1-cD_3kfk-a1-m4-cD 3kfk-a1-m2-cA_3kfk-a1-m4-cC 3kfk-a1-m2-cB_3kfk-a1-m4-cB 3kfk-a1-m2-cC_3kfk-a1-m4-cA 3kfk-a1-m2-cD_3kfk-a1-m3-cD 5w74-a1-m1-cA_5w74-a1-m2-cC 5w74-a1-m1-cB_5w74-a1-m2-cB 5w74-a1-m1-cC_5w74-a1-m2-cA 5w74-a1-m1-cD_5w74-a1-m2-cH 5w74-a1-m1-cF_5w74-a1-m2-cF 5w74-a1-m1-cG_5w74-a1-m2-cE 5w74-a1-m1-cH_5w74-a1-m2-cD 7rak-a1-m1-cA_7rak-a1-m1-cH 7rak-a1-m1-cB_7rak-a1-m1-cO 7rak-a1-m1-cC_7rak-a1-m1-cN 7rak-a1-m1-cD_7rak-a1-m1-cM 7rak-a1-m1-cE_7rak-a1-m1-cL 7rak-a1-m1-cF_7rak-a1-m1-cK 7rak-a1-m1-cG_7rak-a1-m1-cJ 7rak-a1-m1-cI_7rak-a1-m1-cU DAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDAAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAEKLR DAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDAAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAEKLR 5w74-a1-m2-cD_5w74-a1-m2-cE Crystal Structure of the Group II Chaperonin from Methanococcus Maripaludis D386ADeltaLid Mutant in the Open, ADP-Bound State Q877G8 Q877G8 3.65 X-RAY DIFFRACTION 76 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 477 477 3iyf-a1-m1-cA_3iyf-a1-m1-cB 3iyf-a1-m1-cA_3iyf-a1-m1-cH 3iyf-a1-m1-cB_3iyf-a1-m1-cC 3iyf-a1-m1-cC_3iyf-a1-m1-cD 3iyf-a1-m1-cD_3iyf-a1-m1-cE 3iyf-a1-m1-cE_3iyf-a1-m1-cF 3iyf-a1-m1-cF_3iyf-a1-m1-cG 3iyf-a1-m1-cG_3iyf-a1-m1-cH 3iyf-a1-m1-cI_3iyf-a1-m1-cJ 3iyf-a1-m1-cI_3iyf-a1-m1-cP 3iyf-a1-m1-cJ_3iyf-a1-m1-cK 3iyf-a1-m1-cK_3iyf-a1-m1-cL 3iyf-a1-m1-cL_3iyf-a1-m1-cM 3iyf-a1-m1-cM_3iyf-a1-m1-cN 3iyf-a1-m1-cN_3iyf-a1-m1-cO 3iyf-a1-m1-cO_3iyf-a1-m1-cP 3j02-a1-m1-cA_3j02-a1-m1-cB 3j02-a1-m1-cA_3j02-a1-m1-cH 3j02-a1-m1-cB_3j02-a1-m1-cC 3j02-a1-m1-cC_3j02-a1-m1-cD 3j02-a1-m1-cD_3j02-a1-m1-cE 3j02-a1-m1-cE_3j02-a1-m1-cF 3j02-a1-m1-cF_3j02-a1-m1-cG 3j02-a1-m1-cG_3j02-a1-m1-cH 3j02-a1-m1-cI_3j02-a1-m1-cJ 3j02-a1-m1-cI_3j02-a1-m1-cP 3j02-a1-m1-cJ_3j02-a1-m1-cK 3j02-a1-m1-cK_3j02-a1-m1-cL 3j02-a1-m1-cL_3j02-a1-m1-cM 3j02-a1-m1-cM_3j02-a1-m1-cN 3j02-a1-m1-cN_3j02-a1-m1-cO 3j02-a1-m1-cO_3j02-a1-m1-cP 3kfk-a1-m1-cA_3kfk-a1-m1-cB 3kfk-a1-m1-cB_3kfk-a1-m1-cC 3kfk-a1-m1-cD_3kfk-a1-m2-cA 3kfk-a1-m2-cA_3kfk-a1-m2-cB 3kfk-a1-m2-cB_3kfk-a1-m2-cC 3kfk-a1-m2-cD_3kfk-a1-m1-cA 3kfk-a1-m3-cA_3kfk-a1-m3-cB 3kfk-a1-m3-cB_3kfk-a1-m3-cC 3kfk-a1-m3-cD_3kfk-a1-m4-cA 3kfk-a1-m4-cA_3kfk-a1-m4-cB 3kfk-a1-m4-cB_3kfk-a1-m4-cC 3kfk-a1-m4-cD_3kfk-a1-m3-cA 5w74-a1-m1-cA_5w74-a1-m1-cB 5w74-a1-m1-cA_5w74-a1-m1-cH 5w74-a1-m1-cB_5w74-a1-m1-cC 5w74-a1-m1-cC_5w74-a1-m1-cD 5w74-a1-m1-cD_5w74-a1-m1-cE 5w74-a1-m1-cE_5w74-a1-m1-cF 5w74-a1-m1-cF_5w74-a1-m1-cG 5w74-a1-m1-cG_5w74-a1-m1-cH 5w74-a1-m2-cA_5w74-a1-m2-cB 5w74-a1-m2-cA_5w74-a1-m2-cH 5w74-a1-m2-cB_5w74-a1-m2-cC 5w74-a1-m2-cC_5w74-a1-m2-cD 5w74-a1-m2-cE_5w74-a1-m2-cF 5w74-a1-m2-cF_5w74-a1-m2-cG 5w74-a1-m2-cG_5w74-a1-m2-cH 7rak-a1-m1-cA_7rak-a1-m1-cB 7rak-a1-m1-cA_7rak-a1-m1-cU 7rak-a1-m1-cB_7rak-a1-m1-cC 7rak-a1-m1-cC_7rak-a1-m1-cD 7rak-a1-m1-cD_7rak-a1-m1-cE 7rak-a1-m1-cE_7rak-a1-m1-cF 7rak-a1-m1-cF_7rak-a1-m1-cG 7rak-a1-m1-cG_7rak-a1-m1-cU 7rak-a1-m1-cH_7rak-a1-m1-cI 7rak-a1-m1-cH_7rak-a1-m1-cO 7rak-a1-m1-cI_7rak-a1-m1-cJ 7rak-a1-m1-cJ_7rak-a1-m1-cK 7rak-a1-m1-cK_7rak-a1-m1-cL 7rak-a1-m1-cL_7rak-a1-m1-cM 7rak-a1-m1-cM_7rak-a1-m1-cN 7rak-a1-m1-cN_7rak-a1-m1-cO DAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDAAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAEKLR DAQRMNILAGRIIAETVRSTLGPKGMDKMLVDDLGDVVVTNDGVTILREMSVEHPAAKMLIEVAKTQEKEVGDGTTTAVVVAGELLRKAEELLDQNVHPTIVVKGYQAAAQKAQELLKTIACEVGAQDKEILTKIAMTSITGKGAEKAKEKLAEIIVEAVSAVVDDEGKVDKDLIKIEKKSGASIDDTELIKGVLVDKERVSAQMPKKVTDAKIALLNCAIEMLKDMVAEIKASGANVLFCQKGIDDLAQHYLAKEGIVAARRVKKSDMEKLAKATGANVITNIKDLSAQDLGDAGLVEERKISGDSMIFVEECKHPKAVTMLIRGTTEHVIEEVARAVDAAVGVVGCTIEDGRIVSGGGSTEVELSMKLREYAEGISGREQLAVRAFADALEVIPRTLAENAGLDAIEILVKVRAAHASNGNKCAGLNVFTGAVEDMCENGVVEPLRVKTQAIQSAAESTEMLLRIDDVIAAEKLR 5w7p-a1-m1-cA_5w7p-a1-m2-cA Crystal structure of OxaC A0A1B2TT09 A0A1B2TT09 2.4 X-RAY DIFFRACTION 321 1.0 69781 (Penicillium oxalicum) 69781 (Penicillium oxalicum) 396 396 5w7r-a1-m1-cA_5w7r-a1-m2-cA 5w7s-a1-m1-cA_5w7s-a1-m2-cA AQKIAVQKDVDEVVAAAQRFLHGSGTSDEAKVDLQKKASNLVQTIRGPIPAALSSMEDIVKVASLRTLFEAGVFHAMPKGGASMTASEISAQTGLDKGILIRLMRAVTPLGPFHEVGEEEYAHTPFSEAYLTADIAGCFPVMSNFIFGPVLQICDFLRQNNWKDAITTRNNPFTLAHNCPGETMFEHLYKNSKNVAPVTKAEAADVDQIAMDLYPWEERLSDAKGSNATLVDIAGSHGNGTRAIMALAPKLNGCRFIVQDLEPVIGEHSQALRAEGIEPQVYDFLKQEQPVHGASIYYFRRVFHDWPDLPEGKKILDNTRAAMSREHSRILIHDIIVPEIGATMSHAWQDLSLMAIGGMERTEKDFARLLDIAGLALVKVWRKPGDMMGIIEARLK AQKIAVQKDVDEVVAAAQRFLHGSGTSDEAKVDLQKKASNLVQTIRGPIPAALSSMEDIVKVASLRTLFEAGVFHAMPKGGASMTASEISAQTGLDKGILIRLMRAVTPLGPFHEVGEEEYAHTPFSEAYLTADIAGCFPVMSNFIFGPVLQICDFLRQNNWKDAITTRNNPFTLAHNCPGETMFEHLYKNSKNVAPVTKAEAADVDQIAMDLYPWEERLSDAKGSNATLVDIAGSHGNGTRAIMALAPKLNGCRFIVQDLEPVIGEHSQALRAEGIEPQVYDFLKQEQPVHGASIYYFRRVFHDWPDLPEGKKILDNTRAAMSREHSRILIHDIIVPEIGATMSHAWQDLSLMAIGGMERTEKDFARLLDIAGLALVKVWRKPGDMMGIIEARLK 5w8o-a1-m1-cA_5w8o-a1-m1-cB Homoserine transacetylase MetX from Mycobacterium hassiacum K5B926 K5B926 1.47 X-RAY DIFFRACTION 134 0.991 1122247 (Mycolicibacterium hassiacum DSM 44199) 1122247 (Mycolicibacterium hassiacum DSM 44199) 341 346 GELGIVDIGALTLESGAVIDNVQIAVERWGELSPSRDNVVVVLHALTGDSHVAGPGWWDGVVGPGAAIDTRRWCAIATNVLGGCRGSTGPGSLHPDGKAWGSRFPAVTVRDQVRADLAALNAMGIHQVAAVVGGSMGGARALEWVIGHPETVRAGLILAVGARATADQIGTQSTQVAAIKADPNWQNGDYYGTGLKPDVGLQIARRFAHLTYRGEVELDTRFGNAPQDGRYAVESYLEYQGRKLVDRFDAGTYVTLTDSLSSHDVGRGRGGVEAALRSCEVPVVVGGFTSDRLYPLRLQEELAELMPGGLNVVESIYGHDGFLIETEAVGKLIRQTLELAS LGIVDIGALTLESGAVIDNVQIAVERWGELSPSRDNVVVVLHALTGDSHVAGPPGWWDGVVGPGAAIDTRRWCAIATNVLGGCRGSTGPGSLHPDGKAWGSRFPAVTVRDQVRADLAALNAMGIHQVAAVVGGSMGGARALEWVIGHPETVRAGLILAVGARATADQIGTQSTQVAAIKADPNWQNGDYYGTGLKPDVGLQIARRFAHLTYRGEVELDTRFGNAPQDDENPLLGGRYAVESYLEYQGRKLVDRFDAGTYVTLTDSLSSHDVGRGRGGVEAALRSCEVPVVVGGFTSDRLYPLRLQEELAELMPGLNVVESIYGHDGFLIETEAVGKLIRQTLELAS 5w8p-a1-m1-cB_5w8p-a1-m1-cA Homoserine transacetylase MetX from Mycobacterium abscessus B1MG17 B1MG17 1.69 X-RAY DIFFRACTION 131 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 369 370 GAMALPQGDEIAYVPIGSITLESGAVIDDVTIAVQSWGELSPRRDNVVFVCHALTADSHVVGPAGPDHITGGWWEGIIGPGAAIDTDHWCAVATNVLGGCRGTTGPTSLARDGKPWGSRFPEVSVRDQVNADVAALAQLGITEVAAVVGGSMGGARALEWAVMHPDAVRAALVLAVGARATGDQIGTQSTQIAAIQTDPDWQGGDYHGSGRSPGKGLNLARRIAHLTYRGEVELDTRFGNDPQVGPDGPEDPWADGRYAVQSYLEHQGNKFVRRFDAGSYVILTESLNRHDVGRGRGGVEKALRGCPVPVVVGGITSDRLYPLRLQEELADLLPGCTGLRVVESVHGHDAFLIEFDAVSELVRETLALA GAMALPQGDEIAYVPIGSITLESGAVIDDVTIAVQSWGELSPRRDNVVFVCHALTADSHVVGPAGPDHITGGWWEGIIGPGAAIDTDHWCAVATNVLGGCRGTTGPTSLARDGKPWGSRFPEVSVRDQVNADVAALAQLGITEVAAVVGGSMGGARALEWAVMHPDAVRAALVLAVGARATGDQIGTQSTQIAAIQTDPDWQGGDYHGSGRSPGKGLNLARRIAHLTYRGEVELDTRFGNDPQVGPDGPEDPWADGRYAVQSYLEHQGNKFVRRFDAGSYVILTESLNRHDVGRGRGGVEKALRGCPVPVVVGGITSDRLYPLRLQEELADLLPGCTGLRVVESVHGHDAFLIEFDAVSELVRETLALAK 5w8q-a1-m1-cB_5w8q-a1-m1-cA Crystal structure of biphenyl synthase from Malus domestica K9MST3 K9MST3 1.173 X-RAY DIFFRACTION 137 1.0 3750 (Malus domestica) 3750 (Malus domestica) 377 378 5wc4-a1-m1-cB_5wc4-a1-m1-cA QHAKILAIGTANPPNVYHQKDYPDFLFRVTKNEHRTDLREKFDRICEKSRTKKRYLHLTEEMLKANPNIYTYGAPSLDVRQDICNIEVPKLGQEAALKAIKEWGQPISRITHLIFCTASCVDMPGCDFQLIKLLGLDPSVTRTMIYEAGYAGATVLRMAKDFAENNKGARVLVVCAEITTVFFHGLTDTHLDILVGQALFADGASAVIVGANPEPEIERPLFEIVACRQTILPNSEHGVVANIREMGFNYYLSGDVPKFVGGNVVDFMTKTFEKVDGKKKDWNSLFFSVHPGGPAIVDQVEEKLGLKEGKLRATRHVLSEYGNMGAPTVHFILDEMRNKSIEEGKTTTGEGLEWGVVIGIGPGLTVETAVLRSESIR QHAKILAIGTANPPNVYHQKDYPDFLFRVTKNEHRTDLREKFDRICEKSRTKKRYLHLTEEMLKANPNIYTYGAPSLDVRQDICNIEVPKLGQEAALKAIKEWGQPISRITHLIFCTASCVDMPGCDFQLIKLLGLDPSVTRTMIYEAGYAGATVLRMAKDFAENNKGARVLVVCAEITTVFFHGLTDTHLDILVGQALFADGASAVIVGANPEPEIERPLFEIVACRQTILPNSEHGVVANIREMGFNYYLSGDVPKFVGGNVVDFMTKTFEKVDGKKKDWNSLFFSVHPGGPAIVDQVEEKLGLKEGKLRATRHVLSEYGNMGAPTVHFILDEMRNKSIEEGKTTTGEGLEWGVVIGIGPGLTVETAVLRSESIRC 5w8x-a1-m1-cA_5w8x-a1-m2-cA Lipid A Disaccharide Synthase (LpxB)-7 solubilizing mutations-Bound to UDP P10441 P10441 1.98 X-RAY DIFFRACTION 412 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 366 366 5w8n-a1-m1-cA_5w8n-a1-m2-cA 5w8s-a1-m1-cA_5w8s-a1-m2-cA RPLTIALVAGETSGDILGAGLIRALKEHVPNARFVGVAGPRMQAEGCEAWYEMEELSRRSSHIRADLTKRFGELKPDVFVGIDAPDFNITLEGNLKKQGIKTIHYVSPSVWAWRQKRVFKIGRATDLVLAFLPFEKAFYDKYNVPCRFIGHTMADAMPLDPDKNAARDVLGIPHDAHCLALLPGSRGAEVESLSADFLKTAQLLRQTYPDLEIVVPLVNAKRREQFERIKAEVAPDLSVHLLDGMGREAMVASDAALLASGTAALECMLSKCPMVVGYRMKPFTFWLAKRLVKTDYVSLPNLLAGRELVKELLQEECEPQKLAAALLPLLANGKTSHAMHDTFRELHQQIRCNADEQAAQAVLELA RPLTIALVAGETSGDILGAGLIRALKEHVPNARFVGVAGPRMQAEGCEAWYEMEELSRRSSHIRADLTKRFGELKPDVFVGIDAPDFNITLEGNLKKQGIKTIHYVSPSVWAWRQKRVFKIGRATDLVLAFLPFEKAFYDKYNVPCRFIGHTMADAMPLDPDKNAARDVLGIPHDAHCLALLPGSRGAEVESLSADFLKTAQLLRQTYPDLEIVVPLVNAKRREQFERIKAEVAPDLSVHLLDGMGREAMVASDAALLASGTAALECMLSKCPMVVGYRMKPFTFWLAKRLVKTDYVSLPNLLAGRELVKELLQEECEPQKLAAALLPLLANGKTSHAMHDTFRELHQQIRCNADEQAAQAVLELA 5w96-a1-m1-cA_5w96-a1-m1-cB Solution structure of phage derived peptide inhibitor of frizzled 7 receptor NOT SOLUTION NMR 17 1.0 32644 (unidentified) 32644 (unidentified) 14 14 LPSDDLEFWCHVMY LPSDDLEFWCHVMY 5w9a-a1-m1-cB_5w9a-a1-m1-cA The structure of the Trim5alpha Bbox- coiled coil in complex LC3B Q0PF16 Q0PF16 2.74 X-RAY DIFFRACTION 260 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 191 193 DHCARHGEKLLLFCQEDSKVICWLCKDSQEHRGHHTFLMEEVAQEYHVKLQTALEMLRQKQQEAEKLEADIREEKASWKIQIDYDKTNVSADFEQLREILDWEESNELQNLEKEEEDILKSLTKSETEMVQQTQYMRELISELEHRLQGSMMDLLQGVDGIIKRIENMTLKKPKTFHKNQRRVAPDLKGML DHCARHGEKLLLFCQEDSKVICWLCKDSQEHRGHHTFLMEEVAQEYHVKLQTALEMLRQKQQEAEKLEADIREEKASWKIQIDYDKTNVSADFEQLREILDWEESNELQNLEKEEEDILKSLTKSETEMVQQTQYMRELISELEHRLQGSMMDLLQGVDGIIKRIENMTLKKPKTFHKNQRRVFRAPDLKGML 5wam-a1-m1-cA_5wam-a1-m2-cA Structure of BamE from Neisseria gonorrhoeae Q5F5Y8 Q5F5Y8 2.45 X-RAY DIFFRACTION 38 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 103 103 VSLFPSYKLKIIQGNELEPRAVAALRPGMTKDQVLLLLGSPILRDAFHTDRWDYTFNTSRNGIIKERSNLTVYFENGVLVRTEGDALQNAAEALRAKQNADKQ VSLFPSYKLKIIQGNELEPRAVAALRPGMTKDQVLLLLGSPILRDAFHTDRWDYTFNTSRNGIIKERSNLTVYFENGVLVRTEGDALQNAAEALRAKQNADKQ 5wam-a1-m2-cB_5wam-a1-m1-cA Structure of BamE from Neisseria gonorrhoeae Q5F5Y8 Q5F5Y8 2.45 X-RAY DIFFRACTION 26 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 97 103 5wam-a1-m1-cB_5wam-a1-m2-cA SLFPSYKLKIIQGNELEPRAVAALRPGMTKDQVLLLLGSPILRDAFHTDRWDYTFNTSRNGIIKERSNLTVYFENGVLVRTEGDALQNAAEALRAKQ VSLFPSYKLKIIQGNELEPRAVAALRPGMTKDQVLLLLGSPILRDAFHTDRWDYTFNTSRNGIIKERSNLTVYFENGVLVRTEGDALQNAAEALRAKQNADKQ 5wam-a1-m2-cB_5wam-a1-m2-cA Structure of BamE from Neisseria gonorrhoeae Q5F5Y8 Q5F5Y8 2.45 X-RAY DIFFRACTION 73 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 97 103 5wam-a1-m1-cB_5wam-a1-m1-cA SLFPSYKLKIIQGNELEPRAVAALRPGMTKDQVLLLLGSPILRDAFHTDRWDYTFNTSRNGIIKERSNLTVYFENGVLVRTEGDALQNAAEALRAKQ VSLFPSYKLKIIQGNELEPRAVAALRPGMTKDQVLLLLGSPILRDAFHTDRWDYTFNTSRNGIIKERSNLTVYFENGVLVRTEGDALQNAAEALRAKQNADKQ 5wan-a1-m1-cA_5wan-a1-m2-cA Crystal Structure of a flavoenzyme RutA in the pyrimidine catabolic pathway P75898 P75898 1.798 X-RAY DIFFRACTION 149 1.0 562 (Escherichia coli) 562 (Escherichia coli) 341 341 ERLMMKIGVFVPIGNNGWLISTHAPQYMPTFELNKAIVQKAEHYHFDFALSMIKLRGFGGKTEFWDHNLESFTLMAGLAAVTSRIQIYATAATLTLPPAIVARMAATIDSISGGRFGVNLVTGWQKPEYEQMGIWPGDDYFSRRYDYLTEYVQVLRDLWGTGKSDFKGDFFTMNDCRVSPQPSVPMKVICAGQSDAGMAFSARYADFNFCFGKGVNTPTAFAPTAARMKQAAEQTGRDVGSYVLFMVIADETDDAARAKWEHYKAGADEEALSWLTDPTSAVNINMGTLVGSYASVARMLDEVASVPGAEGVLLTFDDFLSGIETFGERIQPLMQCRAHLP ERLMMKIGVFVPIGNNGWLISTHAPQYMPTFELNKAIVQKAEHYHFDFALSMIKLRGFGGKTEFWDHNLESFTLMAGLAAVTSRIQIYATAATLTLPPAIVARMAATIDSISGGRFGVNLVTGWQKPEYEQMGIWPGDDYFSRRYDYLTEYVQVLRDLWGTGKSDFKGDFFTMNDCRVSPQPSVPMKVICAGQSDAGMAFSARYADFNFCFGKGVNTPTAFAPTAARMKQAAEQTGRDVGSYVLFMVIADETDDAARAKWEHYKAGADEEALSWLTDPTSAVNINMGTLVGSYASVARMLDEVASVPGAEGVLLTFDDFLSGIETFGERIQPLMQCRAHLP 5was-a1-m1-cB_5was-a1-m2-cB Corynebacterium glutamicum Hydrolyzed Homoserine kinase P07128 P07128 1.799 X-RAY DIFFRACTION 12 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 37 37 IDARFNVSRVAVMIVALQQRPDLLWEGTRDRLHQPYR IDARFNVSRVAVMIVALQQRPDLLWEGTRDRLHQPYR 5wat-a1-m1-cB_5wat-a1-m4-cA Corynebacterium glutamicum Full length Homoserine kinase P07128 P07128 2.141 X-RAY DIFFRACTION 80 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 306 310 AIELNVGRKVTVTVPGSSANLGPGFDTLGLALSVYDTVEVEIIPSGLEVEVFGEGQGEVPLDGSHLVVKAIRAGLKAADAEVPGLRVVCHNNIPQSRGLGSSAAAAVAGVAAANGLADFPLTQEQIVQLSSAFEGHPDNAAASVLGGAVVSWTNLSIDGKSQPQYAAVPLEVQDNIRATALVPNASTEAVRRVLPTEVTHIDARFNVSRVAVMIVALQQRPDLLWEGTRDRLHQPYRAEVLPITSEWVNRLRNRGYAAYLSGAGPTAMVLSTEPIPDKVLEDARESGIKVLELEVAGPVKVEVNQP AIELNVGRKVTVTVPGSSANLGPGFDTLGLALSVYDTVEVEIIPSGLEVEVFGEGQGEVPLDGSHLVVKAIRAGLKAADAEVPGLRVVCHNNIPQSRGLGSSAAAAVAGVAAANGLADFPLTQEQIVQLSSAFEGHPDNAAASVLGGAVVSWTNLSIDGKSQPQYAAVPLEVQDNIRATALVPNFHASTEAVRRVLPTEVTHIDARFNVSRVAVMIVALQQRPDLLWEGTRDRLHQPYRAEVLPITSEWVNRLRNRGYAAYLSGAGPTAMVLSTEPIPDKVLEDARESGIKVLELEVAGPVKVEVNQPHH 5wat-a3-m1-cB_5wat-a3-m3-cB Corynebacterium glutamicum Full length Homoserine kinase P07128 P07128 2.141 X-RAY DIFFRACTION 115 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 306 306 5wat-a2-m1-cA_5wat-a2-m2-cA AIELNVGRKVTVTVPGSSANLGPGFDTLGLALSVYDTVEVEIIPSGLEVEVFGEGQGEVPLDGSHLVVKAIRAGLKAADAEVPGLRVVCHNNIPQSRGLGSSAAAAVAGVAAANGLADFPLTQEQIVQLSSAFEGHPDNAAASVLGGAVVSWTNLSIDGKSQPQYAAVPLEVQDNIRATALVPNASTEAVRRVLPTEVTHIDARFNVSRVAVMIVALQQRPDLLWEGTRDRLHQPYRAEVLPITSEWVNRLRNRGYAAYLSGAGPTAMVLSTEPIPDKVLEDARESGIKVLELEVAGPVKVEVNQP AIELNVGRKVTVTVPGSSANLGPGFDTLGLALSVYDTVEVEIIPSGLEVEVFGEGQGEVPLDGSHLVVKAIRAGLKAADAEVPGLRVVCHNNIPQSRGLGSSAAAAVAGVAAANGLADFPLTQEQIVQLSSAFEGHPDNAAASVLGGAVVSWTNLSIDGKSQPQYAAVPLEVQDNIRATALVPNASTEAVRRVLPTEVTHIDARFNVSRVAVMIVALQQRPDLLWEGTRDRLHQPYRAEVLPITSEWVNRLRNRGYAAYLSGAGPTAMVLSTEPIPDKVLEDARESGIKVLELEVAGPVKVEVNQP 5way-a1-m1-cB_5way-a1-m1-cA MgaSpn protein, Mga regulator from Streptococcus pneumoniae Q97P44 Q97P44 2.09 X-RAY DIFFRACTION 240 0.996 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 477 482 MRDLLSKKSHRQLELLELLFEHKRWFHRSELAELLNCTERAVKDDLSHVKSAFPDLIFHRIINTDDSDIEMVYHHFFKHSTHFSILEFIFFNEGCQAESICKEFYISSSSLYRIISQINKVIKRQFQFEVSLTPVQIIGNERDIRYFFAQYFSEKYYFLEWPFENFSSEPLSQLLELVYKETSFPMNLSTHRMLKLLLVTNLYRIKFGHFMEVLDFLMQAEGIEGVAQSFESEYNISLDEEVVCQLFVSYFQKMFFIDESLFMKCVKKDSYVEKSYHLLSDFIDQISVKYQIEIENKDNLIWHLHNTAHLYRQELFTEFILFDQKGNTIRNFQNIFPKFVSDVKKELSHYLETLEVCSSSMMVNHLSYTFITHTKHLVINLLQNQPKLKVLVMSNFDQYHAKFVAETLSYYCSNNFELEVWTELELSKESLEDSPYDIIISNFIIPPIENKRLIYSNNINTVSLIYLLNAMMFIRLD MRDLLSKKSHRQLELLELLFEHKRWFHRSELAELLNCTERAVKDDLSHVKSAFPDLIFHSSTNGIRIINTDDSDIEMVYHHFFKHSTHFSILEFIFFNEGCQAESICKEFYISSSSLYRIISQINKVIKRQFQFEVSLTPVQIIGNERDIRYFFAQYFSEKYYFLEWPFENFSSEPLSQLLELVYKETSFPMNLSTHRMLKLLLVTNLYRIKFGHFMEVFLMQAEGIEGVAQSFESEYNISLDEEVVCQLFVSYFQKMFFIDESLFMKCVKKDSYVEKSYHLLSDFIDQISVKYQIEIENKDNLIWHLHNTAHLYRQELFTEFILFDQKGNTIRNFQNIFPKFVSDVKKELSHYLETLEVCSSSMMVNHLSYTFITHTKHLVINLLQNQPKLKVLVMSNFDQYHAKFVAETLSYYCSNNFELEVWTELELSKESLEDSPYDIIISNFIIPPIENKRLIYSNNINTVSLIYLLNAMMFIRLDE 5wb4-a4-m2-cH_5wb4-a4-m1-cG Crystal structure of the TarA wall teichoic acid glycosyltransferase D3T4E0 D3T4E0 2 X-RAY DIFFRACTION 89 1.0 580331 (Thermoanaerobacter italicus Ab9) 580331 (Thermoanaerobacter italicus Ab9) 187 188 5wb4-a1-m1-cE_5wb4-a1-m1-cA 5wb4-a2-m1-cB_5wb4-a2-m1-cD 5wb4-a3-m1-cC_5wb4-a3-m1-cF ERLDIFGVPIDRVTIQAVDILNNFLQENRLHIVATPNAEIVAQKDKEYEILNNTDLNVPDGSGIVFASKVFKKPLPERVAGFDLLEFIKGISSKGVKIYLLGAAAQVAEQARANLEKLYPGVKIVGTHHGYFTEEEENKIIEEINNKGAEVLFVALGAPKQEKWIYKNKDKLKVKIAGVGGSFDVIA ERLDIFGVPIDRVTIQAVDILNNFLQENRLHIVATPNAEIVAQKDKEYEILNNTDLNVPDGSGIVFASKVFKKPLPERVAGFDLLEFIKGISSKGVKIYLLGAAAQVAEQARANLEKLYPGVKIVGTHHGYFTEEEENKIIEEINNKGAEVLFVALGAPKQEKWIYKNKDKLKVKIAGVGGSFDVIAG 5wbs-a1-m1-cB_5wbs-a1-m1-cA Crystal structure of Frizzled-7 CRD with an inhibitor peptide Fz7-21 O75084 O75084 2.88 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 132 137 5wbs-a2-m1-cD_5wbs-a2-m1-cC 5wbs-a3-m1-cE_5wbs-a3-m1-cF 5wbs-a4-m1-cH_5wbs-a4-m1-cG HGFCQPISIPLCTDIAYNQTILPNLLGHTNQEDAGLEVHQFYPLVKVQCSPELRFFLCSMYAPVCTVLDQAIPPCRSLCERARQGCEALMNKFGFQWPERLRCENFPVHGAGEICVGQPSDDLEFWCHVMYG PDHGFCQPISIPLCTDIAYNQTILPNLLGHTNQEDAGLEVHQFYPLVKVQCSPELRFFLCSMYAPVCTVLDQAIPPCRSLCERARQGCEALMNKFGFQWPERLRCENFPVHGAGEICVGQNPSDDLEFWCHVMYGSG 5wce-a1-m1-cB_5wce-a1-m1-cA Caulobacter crescentus pol III beta P0CAU5 P0CAU5 1.9 X-RAY DIFFRACTION 88 0.995 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 369 370 6izo-a1-m1-cA_6izo-a1-m1-cB 6jir-a1-m1-cA_6jir-a1-m2-cA 6jir-a2-m1-cB_6jir-a2-m3-cB MKLTIERAALLKALGHVQSVVERRNTIPILSNILLSAEGDRLSFSATDLDMEIIDEGFAQIDVPGQITAPAHTLYEIVRKLPDGADVSLSFSGDDPRLVIQAGRSRFNLPVLPAGDFPVMSSDGLSSRIAVDTNELIRLIDKTRFAISTEETRYYLNGLYVHTVNEGGETKLRAVATDGHRLALAEMPAPEGAVGIPGVIVPRKTIAEARRLMESAGETVDLQVSPQKVRFEFGAAALTSKVIDGAFPDYMRVIPRDNAKILTLDNDLFAKAVDRVATISSRSVKLAVEPGRITLTVRNMEAGQAVEEVEVDYDGEPFEIGFNARYLLDVCGQIAGPQAEFRFADPASPTLVVDPVDPGVKYVLMPLRV MKLTIERAALLKALGHVQSVVERRNTIPILSNILLSAEGDRLSFSATDLDMEIIDEGFAQIDVPGQITAPAHTLYEIVRKLPDGADVSLSFDDPRLVIQAGRSRFNLPVLPAGDFPVMSSDGLSSRIAVDTNELIRLIDKTRFAISTEETRYYLNGLYVHTVNEGGETKLRAVATDGHRLALAEMPAPEGAVGIPGVIVPRKTIAEARRLMESAGETVDLQVSPQKVRFEFGAAALTSKVIDGAFPDYMRVIPRDNAKILTLDNDLFAKAVDRVATISAEKSRSVKLAVEPGRITLTVRNMEAGQAVEEVEVDYDGEPFEIGFNARYLLDVCGQIAGPQAEFRFADPASPTLVVDPVDPGVKYVLMPLRV 5wch-a1-m1-cD_5wch-a1-m1-cA Crystal structure of the catalytic domain of human USP9X Q93008 Q93008 2.5 X-RAY DIFFRACTION 10 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 330 350 5wch-a1-m1-cB_5wch-a1-m1-cC GFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEKTEDRAAYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLESTKYRLVGVLVHSGQASGGHYYSYIIQNRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMD GFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEGTGKTEDRAAYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGDGSTKYRLVGVLVHSGQASGGHYYSYIIQRNGGRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMDTQDDELIRYIS 5wch-a1-m1-cD_5wch-a1-m1-cC Crystal structure of the catalytic domain of human USP9X Q93008 Q93008 2.5 X-RAY DIFFRACTION 44 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 330 342 5wch-a1-m1-cB_5wch-a1-m1-cA GFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEKTEDRAAYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLESTKYRLVGVLVHSGQASGGHYYSYIIQNRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMD GFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEGTGTEDRAAYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGSTKYRLVGVLVHSGQASGGHYYSYIIQRRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHKRMSYRRQKRWWNAYILFYERMDTQDDELIRYIS 5wd6-a1-m2-cB_5wd6-a1-m1-cA bovine salivary protein form 30b P79125 P79125 2 X-RAY DIFFRACTION 37 0.995 9913 (Bos taurus) 9913 (Bos taurus) 186 193 6o1t-a1-m2-cB_6o1t-a1-m1-cA DVLRKLKSGLERGLDTFDSTIEIIQNLKTELESRCETENFLEQLISRIFQVVSRLTGVRIRNVQVPDITEATSENSANVLIPITADVTVSLPFLGEIVDLDLNVDLQTTVSIDPQVVVGECTNNPESISLTVLHSRFGLVNDVVDIGVNLARRVVSSVVEGELCPRFRELLESLDAECVEKLIGES VLRKLKSGLERGLDTFDSTIEIIQNLKTELESRCSQETENFLEQLISRIFQVVSRLTGVRIRNVQVPDITEATSENSANVLIPITADVTVSLPFLGEIVDLDLNVDLQTTVSIETDTEDPQVVVGECTNNPESISLTVLHSRFGLVNDVVDIGVNLARRVVSSVVEGELCPRFRELLESLDAECVEKLIGESQ 5wd7-a1-m1-cA_5wd7-a1-m1-cM Structure of a bacterial polysialyltransferase in complex with fondaparinux G4RIN4 G4RIN4 3.1 X-RAY DIFFRACTION 71 1.0 75985 (Mannheimia haemolytica) 75985 (Mannheimia haemolytica) 382 382 MFLKFHLAEDYRKTTNLFFISQMGQLEQYQGLIEKLKLKNNVLIVLYTAANQLMPKNIAERCNKELFNSIRFLCLPKSPMRLNIKNYIMMLNSYKLLLKRIKPKELYISSFERHYSLLGTLAKNMGFKVNLVEEGTGTYKYSSMQEACKKLDDSMNYQEKKVYKKISKSFIYKNIRSSLKPFDSFDHIYVAFPEKVKNVFKCNKISFFSIYESRLENEHVSEFIRNNKCSKKNIIFCAQRYPIPEREYISTILDILYKYAKEYKTKVFIKLHPKERIETIDVYKEISKDKQGLIIMENISFPAEDFISQLKPRKVLSIASTSLVYTTLISKDIKAISIYPLFRKEVLKKIEYKEEYFKDIESHYSLLSKFDGIRILNNTNEI MFLKFHLAEDYRKTTNLFFISQMGQLEQYQGLIEKLKLKNNVLIVLYTAANQLMPKNIAERCNKELFNSIRFLCLPKSPMRLNIKNYIMMLNSYKLLLKRIKPKELYISSFERHYSLLGTLAKNMGFKVNLVEEGTGTYKYSSMQEACKKLDDSMNYQEKKVYKKISKSFIYKNIRSSLKPFDSFDHIYVAFPEKVKNVFKCNKISFFSIYESRLENEHVSEFIRNNKCSKKNIIFCAQRYPIPEREYISTILDILYKYAKEYKTKVFIKLHPKERIETIDVYKEISKDKQGLIIMENISFPAEDFISQLKPRKVLSIASTSLVYTTLISKDIKAISIYPLFRKEVLKKIEYKEEYFKDIESHYSLLSKFDGIRILNNTNEI 5wdf-a1-m1-cB_5wdf-a1-m1-cL Crystal structure of 10E8v4-5R+100cF Fab in complex with HIV-1 gp41 peptide 3.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 206 ELTQDPAVSVALKQTVTITCRGDSLRSHYASWYQKKPGQAPVLLFYGKNNRPSGIPDRFSGSASGNRASLTITGAQAEDEADYYCSSRDKSGSRLSVFGGGTKLTVLSQPKAAPSVTLFPPSSEELQLVCLISDFYPGAVTVAWKADSSPVETTTPSKQSNNKYAASSYLSLTPWKSHRSYSCQVTHEGSTVEKTVAP SELTQDPAVSVALKQTVTITCRGDSLRSHYASWYQKKPGQAPVLLFYGKNNRPSGIPDRFSGSASGNRASLTITGAQAEDEADYYCSSRDKSGSRLSVFGGGTKLTVLSQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP 5wdi-a1-m2-cB_5wdi-a1-m1-cA Structure of Human Sts-2 histidine phosphatase domain P57075 P57075 2.43 X-RAY DIFFRACTION 145 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 260 264 ARKSVLVVRHGERVDQIFGKAWLQQCSTPDGKYYRPDLNFPCSLPRRSRGIKDFENDPPLSSCGIFQSRIAGDALLDSGIRISSVFASPALRCVQTAKLILEELKLEKKIKIRVEPGIFEWTKWEAGTPTLMSLEELKEANFNIDTDYRPAFPLSALMPAESYQEYMDRCTASMVQIVNTCTGVILIVSHGSTLDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENKEEGKWELVNPPVKTLTHGANAAFNWRNWI RKSVLVVRHGERVDQIFGKAWLQQCSTPDGKYYRPDLNFPCSLPRRSRGIKDFENDPPLSSCGIFQSRIAGDALLDSGIRISSVFASPALRCVQTAKLILEELKLEKKIKIRVEPGIFEWTKWEAGKTTPTLMSLEELKEANFNIDTDYRPAFPLSALMPAESYQEYMDRCTASMVQIVNTCPQDTGVILIVSHGSTLDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENKEEGKWELVNPPVKTLTHGANAAFNWRNWI 5wdi-a2-m1-cB_5wdi-a2-m1-cA Structure of Human Sts-2 histidine phosphatase domain P57075 P57075 2.43 X-RAY DIFFRACTION 47 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 260 264 ARKSVLVVRHGERVDQIFGKAWLQQCSTPDGKYYRPDLNFPCSLPRRSRGIKDFENDPPLSSCGIFQSRIAGDALLDSGIRISSVFASPALRCVQTAKLILEELKLEKKIKIRVEPGIFEWTKWEAGTPTLMSLEELKEANFNIDTDYRPAFPLSALMPAESYQEYMDRCTASMVQIVNTCTGVILIVSHGSTLDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENKEEGKWELVNPPVKTLTHGANAAFNWRNWI RKSVLVVRHGERVDQIFGKAWLQQCSTPDGKYYRPDLNFPCSLPRRSRGIKDFENDPPLSSCGIFQSRIAGDALLDSGIRISSVFASPALRCVQTAKLILEELKLEKKIKIRVEPGIFEWTKWEAGKTTPTLMSLEELKEANFNIDTDYRPAFPLSALMPAESYQEYMDRCTASMVQIVNTCPQDTGVILIVSHGSTLDSCTRPLLGLPPRECGDFAQLVRKIPSLGMCFCEENKEEGKWELVNPPVKTLTHGANAAFNWRNWI 5wdm-a1-m1-cC_5wdm-a1-m1-cA An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 45 HLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN 5wdm-a1-m1-cC_5wdm-a1-m1-cB An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 46 HLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTPGIVEQCCHSICSLEQLENYCN 5wdm-a1-m1-cC_5wdm-a1-m1-cD An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 47 5wdm-a1-m1-cA_5wdm-a1-m1-cB HLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTPRGIVEQCCHSICSLEQLENYCN 5wdm-a1-m1-cD_5wdm-a1-m1-cE An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 47 47 QHLCGSHLVEALYLVCGERGFFYTPRGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTPRGIVEQCCHSICSLEQLENYCN 5wdm-a1-m1-cF_5wdm-a1-m1-cA An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 45 HLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN 5wdm-a1-m1-cF_5wdm-a1-m1-cB An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 46 HLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTPGIVEQCCHSICSLEQLENYCN 5wdm-a1-m1-cF_5wdm-a1-m1-cE An ultra-stable single-chain insulin analog resists thermal inactivation and exhibits biological signaling duration equivalent to the native protein P01308 P01308 2.803 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 47 HLCGSHLVEALYLVCGERGFFYTGIVEQCCHSICSLEQLENYCN QHLCGSHLVEALYLVCGERGFFYTPRGIVEQCCHSICSLEQLENYCN 5we1-a1-m1-cA_5we1-a1-m1-cC Structural Basis for Shelterin Bridge Assembly O13852 O13852 3.202 X-RAY DIFFRACTION 47 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 178 180 SIVNACLRYLGYSKSMCHEKMPIFMDIAFIEYCFNLSSQQILWEYSLISNALERLENIELERQNCMRLLNKETLNNEALKLYSCAKAGICRWMAFHFLEQEPIDHINFTKFLQDWGSHNEKEMEALQRLSKHKIRKRLIYVSQHKKKMPWSKFNSVLSRYIQCTKLQLEVFCDYDFKQ SSIVNACLRYLGYSKSMCHEKMPIFMDIAFIEYCFNLSLSQQILWEYSLISNALERLENIELERQNCMRLLNKETLNNEALKLYSCAKAGICRWMAFHFLEQEPIDHINFTKFLQDWGSHNEKEMEALQRLSKHKIRKRLIYVSQHKKKMPWSKFNSVLSRYIQCTKLQLEVFCDYDFKQ 5wec-a1-m1-cA_5wec-a1-m1-cB Structure of an alternative pilotin from the type II secretion system of Vibrio cholerae A0A0H3AJJ8 A0A0H3AJJ8 1.563 X-RAY DIFFRACTION 66 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 112 113 KIQSITGSVAYRERIALPDNAVVTVYLQDVSLADAPATVIAKQNFITNGMQVPLEFNLAYDSRKIKASHRYSVSARIEVDGKLRFITDTHYGVITDPEATKHVPMMLIGVHG KIQSITGSVAYRERIALPDNAVVTVYLQDVSLADAPATVIAKQNFITNGMQVPLEFNLAYDSRKIKASHRYSVSARIEVDGKLRFITDTHYGVITDPEATKHVPMMLIGVHGE 5wee-a2-m1-cC_5wee-a2-m1-cD Crystal structure of HpVAL4 A0A183GMB4 A0A183GMB4 1.99 X-RAY DIFFRACTION 71 1.0 375939 (Heligmosomoides bakeri) 375939 (Heligmosomoides bakeri) 187 187 5wee-a1-m1-cB_5wee-a1-m1-cA FGCDGTLEQNDTTREVFLRFHNDVRKFIALGIYPNKVGVLGPAKNMYQLKWSCDLEEEAHESIYSCSYNPLLLHPQSYSKLLSVDLPDTDVVGATLEMWTEFMRIYGVNTKTNSYNPSFSQFANMAYSKNTKVGCSYKKCGGDTLVTCVYELGVKLPSHPQMWENGPTCVCVAYTDSICNDNNLCEY FGCDGTLEQNDTTREVFLRFHNDVRKFIALGIYPNKVGVLGPAKNMYQLKWSCDLEEEAHESIYSCSYNPLLLHPQSYSKLLSVDLPDTDVVGATLEMWTEFMRIYGVNTKTNSYNPSFSQFANMAYSKNTKVGCSYKKCGGDTLVTCVYELGVKLPSHPQMWENGPTCVCVAYTDSICNDNNLCEY 5wew-a3-m1-cE_5wew-a3-m1-cF Crystal structure of Klebsiella pneumoniae fosfomycin resistance protein (FosAKP) with inhibitor (ANY1) bound W8UNW6 W8UNW6 3.178 X-RAY DIFFRACTION 206 1.0 1420013 (Klebsiella pneumoniae 30684/NJST258_2) 1420013 (Klebsiella pneumoniae 30684/NJST258_2) 119 137 MLSGLNHLTLAVSQLAPSVAFYQQLLGMTLHARWDSGAYLSCGDLWLCLSLDPQRRVTPPEESDYTHYAFSISWKLNRSEGASHYFLDPDGHKLELHVGSLAQRLAACREQPYKGMVFF MLSGLNHLTLAVSQLAPSVAFYQQLLGMTLHARWDSGAYLSCGDLWLCLSLDPQRRVTPPEESDYTHYAFSISEADFASFAARLEAAGVAVWKLNRSEGASHYFLDPDGHKLELHVGSLAQRLAACREQPYKGMVFF 5wf9-a1-m2-cA_5wf9-a1-m4-cA Tepsin tENTH domain 1-153 Q96N21 Q96N21 1.8 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 5wf9-a1-m1-cA_5wf9-a1-m3-cA 5wf9-a1-m1-cA_5wf9-a1-m4-cA 5wf9-a1-m2-cA_5wf9-a1-m3-cA AAPPLRDRLSFLHRLPILLKGTSDDDVPCPGYLFEEIAKISHESPGSSQCLLEYLLSRLHSSSGHGKLKVLKILLYLCSHGSSFFLLILKRNSAFIQEAAAFAGPPDPLHGNSLYQKVRAAAQDLGSTLFS AAPPLRDRLSFLHRLPILLKGTSDDDVPCPGYLFEEIAKISHESPGSSQCLLEYLLSRLHSSSGHGKLKVLKILLYLCSHGSSFFLLILKRNSAFIQEAAAFAGPPDPLHGNSLYQKVRAAAQDLGSTLFS 5wfg-a2-m1-cD_5wfg-a2-m1-cE Crystal structure of the TarA wall teichoic acid glycosyltransferase bound to UDP D3T4E0 D3T4E0 2.9 X-RAY DIFFRACTION 33 1.0 580331 (Thermoanaerobacter italicus Ab9) 580331 (Thermoanaerobacter italicus Ab9) 186 188 5wfg-a1-m1-cA_5wfg-a1-m1-cB 5wfg-a1-m1-cA_5wfg-a1-m1-cC 5wfg-a1-m1-cC_5wfg-a1-m1-cB 5wfg-a2-m1-cF_5wfg-a2-m1-cD 5wfg-a2-m1-cF_5wfg-a2-m1-cE RLDIFGVPIDRVTIQAVDILNNFLQENRLHIVATPNAEIVAQKDKEYEILNNTDLNVPDGSGIVFASKVFKPLPERVAGFDLLEFIKGISSKGVKIYLLGAACQVAEQARANLEKLYPGVKIVGTHHGYFTEEEENKIIEEINNKGAEVLFVALGAPKQEKWIYKNKDKLKVKIAGVGGSFDVIAG ERLDIFGVPIDRVTIQAVDILNNFLQENRLHIVATPNAEIVAQKDKEYEILNNTDLNVPDGSGIVFASKVFKKPLPERVAGFDLLEFIKGISSKGVKIYLLGAACQVAEQARANLEKLYPGVKIVGTHHGYFTEEEENKIIEEINNKGAEVLFVALGAPKQEKWIYKNKDKLKVKIAGVGGSFDVIAG 5wgx-a2-m1-cA_5wgx-a2-m2-cA Crystal Structure of MalA' H253A, malbrancheamide B complex L0E155 L0E155 1.973 X-RAY DIFFRACTION 77 1.0 78605 (Malbranchea aurantiaca) 78605 (Malbranchea aurantiaca) 664 664 5wgr-a2-m1-cA_5wgr-a2-m3-cA 5wgr-a2-m2-cA_5wgr-a2-m4-cA 5wgs-a2-m1-cA_5wgs-a2-m2-cA 5wgt-a2-m1-cA_5wgt-a2-m2-cA 5wgu-a2-m1-cA_5wgu-a2-m2-cA 5wgv-a2-m1-cA_5wgv-a2-m2-cA 5wgw-a2-m1-cA_5wgw-a2-m2-cA PTPKYTFTERAAAGNLSDAEILNSNNPTGSELPDESDVVVGGAGIHGLIYALHASKYKPNNLKISVIEKNTRPGYKIGESTLPIFYTWCKLHGISAAYLLRLFGLKDGLCFYFLDRENQGQYTDFCSVGAPGLVLASLQIERPMSELLFTILAQRNGVNVYHGREVDFKSTVVQGGGQGNKIAVSRGKYDSTPKTIDSALFVDATGRFRQFCSKKAPRHRFDGWNCNAFWGYFTAPKDESKIPFDLYEGDATNHLCFPEGWVWVIRLPSWEGSPIANLMDMVTYILECADAGVPGDELPSSEELARMFGLKFQWVTSIGFAVRNDVKYPEDLSAYGTREAEQKFNYFVQKYELLQQFMSNFELIENLYGPGTTWFIRKTLAYQSPVVSGPGWLAIGDACGFTNPLYSPGINVGMSTSTWAAQLSHPIVEIGKSAPADAAESSIRKLLVPYDDYCKSLVPALEQMNRFNYVCYRDTRLGPQVACLWQFFAGIERYLSDVNIETFAHYAIKWVWGAMVPEYQQVAQKCIEHIETVPLDERLPDAMVDELLAFSNRIKSAAVAADDFSLRWDAILRSFDRSLNFVEGKTSRDIYTRQCSGCGAWLQLRPDWKKCHSCGLLGTEPQTAVTFDPPLTAEEEALLYAAWNTAPKYDPSKELKLPTPTRPA PTPKYTFTERAAAGNLSDAEILNSNNPTGSELPDESDVVVGGAGIHGLIYALHASKYKPNNLKISVIEKNTRPGYKIGESTLPIFYTWCKLHGISAAYLLRLFGLKDGLCFYFLDRENQGQYTDFCSVGAPGLVLASLQIERPMSELLFTILAQRNGVNVYHGREVDFKSTVVQGGGQGNKIAVSRGKYDSTPKTIDSALFVDATGRFRQFCSKKAPRHRFDGWNCNAFWGYFTAPKDESKIPFDLYEGDATNHLCFPEGWVWVIRLPSWEGSPIANLMDMVTYILECADAGVPGDELPSSEELARMFGLKFQWVTSIGFAVRNDVKYPEDLSAYGTREAEQKFNYFVQKYELLQQFMSNFELIENLYGPGTTWFIRKTLAYQSPVVSGPGWLAIGDACGFTNPLYSPGINVGMSTSTWAAQLSHPIVEIGKSAPADAAESSIRKLLVPYDDYCKSLVPALEQMNRFNYVCYRDTRLGPQVACLWQFFAGIERYLSDVNIETFAHYAIKWVWGAMVPEYQQVAQKCIEHIETVPLDERLPDAMVDELLAFSNRIKSAAVAADDFSLRWDAILRSFDRSLNFVEGKTSRDIYTRQCSGCGAWLQLRPDWKKCHSCGLLGTEPQTAVTFDPPLTAEEEALLYAAWNTAPKYDPSKELKLPTPTRPA 5whf-a1-m2-cD_5whf-a1-m2-cG Crystal structure of vimentin coil 1B packed in a high-order filamentous form P08670 P08670 2.25 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 88 5whf-a1-m1-cD_5whf-a1-m1-cG EMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKL PHMEMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKL 5whf-a1-m2-cH_5whf-a1-m2-cE Crystal structure of vimentin coil 1B packed in a high-order filamentous form P08670 P08670 2.25 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 86 5whf-a1-m1-cB_5whf-a1-m1-cC 5whf-a1-m1-cD_5whf-a1-m1-cA 5whf-a1-m1-cF_5whf-a1-m1-cG 5whf-a1-m1-cH_5whf-a1-m1-cE 5whf-a1-m2-cB_5whf-a1-m2-cC 5whf-a1-m2-cD_5whf-a1-m2-cA 5whf-a1-m2-cF_5whf-a1-m2-cG EMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKK MEMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKL 5whf-a1-m2-cH_5whf-a1-m2-cG Crystal structure of vimentin coil 1B packed in a high-order filamentous form P08670 P08670 2.25 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 88 3ssu-a1-m1-cB_3ssu-a1-m1-cA 5whf-a1-m1-cB_5whf-a1-m1-cA 5whf-a1-m1-cD_5whf-a1-m1-cC 5whf-a1-m1-cF_5whf-a1-m1-cE 5whf-a1-m1-cH_5whf-a1-m1-cG 5whf-a1-m2-cB_5whf-a1-m2-cA 5whf-a1-m2-cD_5whf-a1-m2-cC 5whf-a1-m2-cF_5whf-a1-m2-cE EMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKK PHMEMRELRRQVDQLTNDKARVEVERDNLAEDIMRLREKLQEEMLQREEAENTLQSFRQDVDNASLARLDLERKVESLQEEIAFLKKL 5whm-a2-m1-cB_5whm-a2-m1-cD Crystal Structure of IclR Family Transcriptional Regulator from Brucella abortus 1.95 X-RAY DIFFRACTION 160 0.996 235 (Brucella abortus) 235 (Brucella abortus) 251 251 5whm-a1-m1-cA_5whm-a1-m1-cC KPTLTPLEAGVEEEDRQFVTALARGLEVLRCFTPTENTLGNQEIAHKTGLPKPTVSRLTHTLVRLGYLRQDALSGLYQLDIGILRLGYALSNLIRTVASPLQVLADYAKAAVAAARDRLSVYLDVVQGETRRQIGSTLPLAGSSVGRACLAAPEDERTFILEHIREREPENWPSIRKGLDRALRDFEDYGYCLSIGEWHRDVNSVAVPLVHKQYGVLVFNCGGPSFQLPREKLEDDIGPRLIEVHNISSAV PTLTPLEAGVEEEDRQFVTALARGLEVLRCFTPTENTLGNQEIAHKTGLPKPTVSRLTHTLVRLGYLRQDALSGLYQLDIGILRLGYALSNLIRTVASPLQVLADYAKAAVAAARDRLSVYLDVVQGETRRQIGSTLPLAGSSVGRACLAAPEDERTFILEHIREREPENWPSIRKGLDRALRDFEDYGYCLSIGEWHRDVNSVAVPLVHKQYGVLVFNCGGPSFQLPREKLEDDIGPRLIEVHNISSAVP 5whp-a1-m1-cA_5whp-a1-m4-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5whp-a1-m1-cA_5whp-a1-m3-cA NFGTFS NFGTFS 5whp-a1-m10-cA_5whp-a1-m9-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 NFGTFS NFGTFS 5whp-a1-m2-cA_5whp-a1-m3-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 NFGTFS NFGTFS 5whp-a1-m4-cA_5whp-a1-m5-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 NFGTFS NFGTFS 5whp-a1-m6-cA_5whp-a1-m7-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 NFGTFS NFGTFS 5whp-a1-m7-cA_5whp-a1-m8-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 NFGTFS NFGTFS 5whp-a1-m8-cA_5whp-a1-m9-cA Crystal structure of the segment, NFGTFS, from the A315T familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 NFGTFS NFGTFS 5whs-a1-m1-cA_5whs-a1-m1-cB Crystal structure of the catalase-peroxidase from Neurospora crassa at 2.6 A Q8X182 Q8X182 2.6 X-RAY DIFFRACTION 336 1.0 367110 (Neurospora crassa OR74A) 367110 (Neurospora crassa OR74A) 712 712 5whq-a1-m1-cA_5whq-a1-m1-cB RKSNVGGGGTRNHDWWPAQLRLNILRQHTPVSNPLDKDFDYAAAFKSLDYEGLKKDLTKLMTDSQDWWPADFGHYGGLFIRMAHSAGTYRVTDGRGGGGEGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGNKISWSDLLLLTGNVALESMGFKTFGFAGGRPDTWEADESVYWGAETTWLGNEDRYSDIHNRDLQSPLASSHMGLIYVNPEGPDGIPDPVASAKDIRVTFGRMAMNDEETVALIAGGHSFGKTHGAGPTHHVGKEPEAAPIEHQGLGWANSFGQGKGPDTITSGLEVTWTPTPTKWGMGYLEYLYKFDWEPTKSPAGANQWVAKNAEPTIPDAYDPNKKKLPTMLTTDIALRMDPAYDKICRDYLANPDKFADAFARAWFKLLHRDMGPRTRWIGPEVPSEILPWEDYIPPVDYQIIDDNDIAALKKEILATGVAPKKLIFVAWSSASSFRGSDKRGGANGARIRLAPQNEWKVNDPSTLREVLAALESVQQKFNDSSSGKKVSLADLIVLGGVAALEQASGLVVPFTPGRNDATQEHTDVHSFTHLEPHADGFRSYGKGTKRVRTEQFLIDRASLLTLSAPELTALIGGLRVLEANYDGSSYGVLTKTPGKLTNDYFVNLLDTNTAWKAADNEGEVFIGYDRKTHDKKWTATRADLIFGAHAELRALAEVYAAVDGEEKFKRDFVAAWHKVMNLDRFDL RKSNVGGGGTRNHDWWPAQLRLNILRQHTPVSNPLDKDFDYAAAFKSLDYEGLKKDLTKLMTDSQDWWPADFGHYGGLFIRMAHSAGTYRVTDGRGGGGEGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGNKISWSDLLLLTGNVALESMGFKTFGFAGGRPDTWEADESVYWGAETTWLGNEDRYSDIHNRDLQSPLASSHMGLIYVNPEGPDGIPDPVASAKDIRVTFGRMAMNDEETVALIAGGHSFGKTHGAGPTHHVGKEPEAAPIEHQGLGWANSFGQGKGPDTITSGLEVTWTPTPTKWGMGYLEYLYKFDWEPTKSPAGANQWVAKNAEPTIPDAYDPNKKKLPTMLTTDIALRMDPAYDKICRDYLANPDKFADAFARAWFKLLHRDMGPRTRWIGPEVPSEILPWEDYIPPVDYQIIDDNDIAALKKEILATGVAPKKLIFVAWSSASSFRGSDKRGGANGARIRLAPQNEWKVNDPSTLREVLAALESVQQKFNDSSSGKKVSLADLIVLGGVAALEQASGLVVPFTPGRNDATQEHTDVHSFTHLEPHADGFRSYGKGTKRVRTEQFLIDRASLLTLSAPELTALIGGLRVLEANYDGSSYGVLTKTPGKLTNDYFVNLLDTNTAWKAADNEGEVFIGYDRKTHDKKWTATRADLIFGAHAELRALAEVYAAVDGEEKFKRDFVAAWHKVMNLDRFDL 5wi2-a3-m2-cA_5wi2-a3-m1-cB Crystal structure of the KA1 domain from human Chk1 O14757 O14757 2.495 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 93 MTRFFTKLDADKSYQCLKETCEKLGYQWKKSCMNQVTISTTDRRNNKLIFKVNLLEMDDKILVDFRLSKGDGLEFKRHFLKIKGKLIDIVSS SMTRFFTKLDADKSYQCLKETCEKLGYQWKKSCMNQVTISTTDRRNNKLIFKVNLLEMDDKILVDFRLSKGDGLEFKRHFLKIKGKLIDIVSS 5wi4-a1-m1-cA_5wi4-a1-m1-cB CRYSTAL STRUCTURE OF DYNLT1/TCTEX-1 IN COMPLEX WITH ARHGEF2 Q60875 Q60875 2 X-RAY DIFFRACTION 144 0.992 10090 (Mus musculus) 10090 (Mus musculus) 125 125 QASEETAFVVDEVSSIVKEAIESAIGGNAYQHSKVNQWTTNVLEQTLSQLTKLGRPFKYIVTCVIMQKNGLHSASSCFWDSSTDGSCTVRWENKTMYCIVSTFGLSIRGLSSLSLAKSVSTTNIA QASEETAFVVDEVSSIVKEAIESAIGGNAYQHSKVNQWTTNVLEQTLSQLTKLGRPFKYIVTCVIMQKGLHSASSCFWDSSTDGSCTVRWENKTMYCIVSTFGLSIGRGLSSLSLAKSVSTTNIA 5wi5-a5-m1-cA_5wi5-a5-m1-cB 2.0 Angstrom Resolution Crystal Structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase from Streptococcus pneumoniae in Complex with Uridine-diphosphate-2(n-acetylglucosaminyl) butyric acid, (2R)-2-(phosphonooxy)propanoic acid and Magnesium. Q97NQ4 Q97NQ4 2 X-RAY DIFFRACTION 95 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 422 422 5wi5-a6-m1-cC_5wi5-a6-m1-cD 6nkj-a1-m1-cA_6nkj-a1-m1-cB MDKIVVQGGDNRLVGSVTIEGAKNAVLPLLAATILASEGKTVLQNVPILSDVFIMNQVVGGLNAKVDFDEEAHLVKVDATGDITEEAPYKYVSKMRASIVVLGPILARVGHAKVSMPGGCTIGSRPIDLHLKGLEAMGVKISQTAGYIEAKAERLHGAHIYMDFPSVGATQNLMMAATLADGVTVIENAAREPEIVDLAILLNEMGAKVKGAGTETITITGVEKLHGTTHNVVQDRIEAGTFMVAAAMTGGDVLIRDAVWEHNRPLIAKLLEMGVEVIEEDEGIRVRSQLENLKAVHVKTLPHPGFPTDMQAQFTALMTVAKGESTMVETVFENRFQHLEEMRRMGLHSEIIRDTARIVGGQPLQGAEVLSTDLRASAALILTGLVAQGETVVGKLVHLDRGYYGFHEKLAQLGAKIQRIEA MDKIVVQGGDNRLVGSVTIEGAKNAVLPLLAATILASEGKTVLQNVPILSDVFIMNQVVGGLNAKVDFDEEAHLVKVDATGDITEEAPYKYVSKMRASIVVLGPILARVGHAKVSMPGGCTIGSRPIDLHLKGLEAMGVKISQTAGYIEAKAERLHGAHIYMDFPSVGATQNLMMAATLADGVTVIENAAREPEIVDLAILLNEMGAKVKGAGTETITITGVEKLHGTTHNVVQDRIEAGTFMVAAAMTGGDVLIRDAVWEHNRPLIAKLLEMGVEVIEEDEGIRVRSQLENLKAVHVKTLPHPGFPTDMQAQFTALMTVAKGESTMVETVFENRFQHLEEMRRMGLHSEIIRDTARIVGGQPLQGAEVLSTDLRASAALILTGLVAQGETVVGKLVHLDRGYYGFHEKLAQLGAKIQRIEA 5wia-a1-m8-cA_5wia-a1-m9-cA Crystal structure of the segment, GNNSYS, from the low complexity domain of TDP-43, residues 370-375 Q13148 Q13148 1.002 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5wia-a1-m10-cA_5wia-a1-m9-cA 5wia-a1-m1-cA_5wia-a1-m3-cA 5wia-a1-m1-cA_5wia-a1-m4-cA 5wia-a1-m2-cA_5wia-a1-m3-cA 5wia-a1-m4-cA_5wia-a1-m5-cA 5wia-a1-m6-cA_5wia-a1-m7-cA 5wia-a1-m7-cA_5wia-a1-m8-cA GNNSYS GNNSYS 5wip-a2-m1-cC_5wip-a2-m1-cB TraE protein in complex with 2-(2-furyl)isonicotinic acid Q17U16 Q17U16 2.62 X-RAY DIFFRACTION 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 136 143 5wic-a1-m1-cD_5wic-a1-m1-cA 5wic-a2-m1-cC_5wic-a2-m1-cB 5wii-a1-m1-cC_5wii-a1-m1-cA 5wii-a2-m1-cD_5wii-a2-m1-cB 5wio-a1-m1-cD_5wio-a1-m1-cA 5wio-a2-m1-cC_5wio-a2-m1-cB 5wip-a1-m1-cD_5wip-a1-m1-cA TSYGDEIDKFWLTQYVIHRESYDFYSVQVDYTAVGLMSTPNVAESYQSKFKGRNGLDKVLGDSETTRVKINSVILDKPHGVATIRFTTVRRVRSNPVDDQPQRWIAIMGYEYKMNAEQRYVNPLGFRVTSYRVNPE TRDQTSYGDEIDKFWLTQYVIHRESYDFYSVQVDYTAVGLMSTPNVAESYQSKFKGRNGLDKVLGDSETTRVKINSVILDKPHGVATIRFTTVRRVRSNPVDDQPQRWIAIMGYEYKSLAMNAEQRYVNPLGFRVTSYRVNPE 5wiq-a1-m4-cA_5wiq-a1-m5-cA Crystal structure of the segment, GFNGGFG, from the low complexity domain of TDP-43, residues 396-402 Q13148 Q13148 1.25 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 5wiq-a1-m1-cA_5wiq-a1-m3-cA 5wiq-a1-m1-cA_5wiq-a1-m4-cA 5wiq-a1-m2-cA_5wiq-a1-m3-cA GFNGGFG GFNGGFG 5wiq-a1-m4-cB_5wiq-a1-m5-cB Crystal structure of the segment, GFNGGFG, from the low complexity domain of TDP-43, residues 396-402 Q13148 Q13148 1.25 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 5wiq-a1-m1-cB_5wiq-a1-m3-cB 5wiq-a1-m1-cB_5wiq-a1-m4-cB 5wiq-a1-m2-cB_5wiq-a1-m3-cB GFNGGFG GFNGGFG 5wj7-a1-m1-cA_5wj7-a1-m1-cB Crystal Structure of Amino Acids 1733-1797 of Human Beta Cardiac Myosin Fused to Xrcc4 P12883 P12883 2.5 X-RAY DIFFRACTION 160 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 195 196 SGERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSGAGPADVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDDLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKEQDTSAHLERMKKNMEQTIKDLQ SGERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSGAGPADVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDDLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKEQDTSAHLERMKKNMEQTIKDLQH 5wjb-a2-m1-cC_5wjb-a2-m1-cD Crystal Structure of Amino Acids 1733-1797 of Human Beta Cardiac Myosin Fused to Gp7 P12883 P12883 2.905 X-RAY DIFFRACTION 158 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 112 121 5wjb-a1-m1-cA_5wjb-a1-m1-cB PLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKDLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKEQDTSAHLERMKKNMEQTIKDLQHRL NLYFQGGSGPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKDLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKEQDTSAHLERMKKNMEQTIKDLQHRL 5wk0-a1-m1-cA_5wk0-a1-m2-cA Crystal structure of the bacillithiol transferase BstA from Staphylococcus aureus. A0A2C9TMM3 A0A2C9TMM3 1.335 X-RAY DIFFRACTION 113 1.0 1739323 (Staphylococcus sp. HMSC055H04) 1739323 (Staphylococcus sp. HMSC055H04) 156 156 MTTKTVFDVIDMGLGYLVNVYDAWKVEKVLDDYHKPFSNTIHWQFGHVLTIFESALAVAGKENIDLNIYRPLFGNGSSPDEWKDEVPSIERILEGLQTLPERARNLTEDDLAIELKQPIVGCNNLEELLVLNAIHIPLHAGKIEEMSRILKNLKAL MTTKTVFDVIDMGLGYLVNVYDAWKVEKVLDDYHKPFSNTIHWQFGHVLTIFESALAVAGKENIDLNIYRPLFGNGSSPDEWKDEVPSIERILEGLQTLPERARNLTEDDLAIELKQPIVGCNNLEELLVLNAIHIPLHAGKIEEMSRILKNLKAL 5wka-a2-m1-cC_5wka-a2-m1-cD Crystal structure of a GH1 beta-glucosidase retrieved from microbial metagenome of Poraque Amazon lake 2.75 X-RAY DIFFRACTION 88 0.998 256318 (metagenome) 256318 (metagenome) 466 468 5wka-a1-m1-cB_5wka-a1-m1-cA MFPDGFVWGTSTAAYQIEGAVAEDGRTPSIWDTFSRTKGKVVNGDTGDVACDHYHRWEEDLDLLAELGVQAYRFSVAWPRIHPDVTGPANQKGLDFYQRLIDGLRDRNIIPLPTMYHWDLPQALEDEGGWIVRDTALRFADYAATVLEKLDGIDKWTTFNEPWTSAWLGYGYGHHAPGRTDIGAAAAATHHLLLAHGLGVQAARAIRPHVEIGLTLNLGVLRPGTTEDQDVEATWRADGNQNRIWLDPLFKGEYPADMIEHYSRWTPGFHTVQNGDLEIISSPIDFLGVNFYGPGTVMNVGREDAARAAGFNVEDNHLRCIGVETPGRPKTAMGWEVDATALRELLVRIKNEYTDIPLYITENGAAYHDYVNASGDVKDPERITYLNDHLEACLGAIDDGVNLQGYFIWSLLDNFEWGFGYSRRFGIVWIDYDTGRRIPKASYRWYQGVVATNGLPDLDGHLDTLN MFPDGFVWGTSTAAYQIEGAVAEDGRTPSIWDTFSRTKGKVVNGDTGDVACDHYHRWEEDLDLLAELGVQAYRFSVAWPRIHPDVTGPANQKGLDFYQRLIDGLRDRNIIPLPTMYHWDLPQALEDEGGWIVRDTALRFADYAATVLEKLDGIDKWTTFNEPWTSAWLGYGYGHHAPGRTDIGAAAAATHHLLLAHGLGVQAARAIRPHVEIGLTLNLGVLRPGTTEDQDVEATWRADGNQNRIWLDPLFKGEYPADMIEHYSRWTPGFHTVQNGDLEIISSPIDFLGVNFYGPGTVMNVGREDAARAAGFNVGPRDNHLRCIGVETPGRPKTAMGWEVDATALRELLVRIKNEYTDIPLYITENGAAYHDYVNASGDVKDPERITYLNDHLEACLGAIDDGVNLQGYFIWSLLDNFEWGFGYSRRFGIVWIDYDTGRRIPKASYRWYQGVVATNGLPDLDGHLDTLN 5wkb-a1-m6-cA_5wkb-a1-m9-cA MicroED structure of the segment, NFGEFS, from the A315E familial variant of the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 1.0 ELECTRON CRYSTALLOGRAPHY 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5wkb-a1-m10-cA_5wkb-a1-m9-cA 5wkb-a1-m1-cA_5wkb-a1-m2-cA 5wkb-a1-m1-cA_5wkb-a1-m4-cA 5wkb-a1-m2-cA_5wkb-a1-m3-cA 5wkb-a1-m4-cA_5wkb-a1-m5-cA 5wkb-a1-m6-cA_5wkb-a1-m7-cA 5wkb-a1-m7-cA_5wkb-a1-m8-cA NFGEFS NFGEFS 5wlc-a1-m1-cLY_5wlc-a1-m1-cLX The complete structure of the small subunit processome P53914 P53914 3.8 ELECTRON MICROSCOPY 76 1.0 1247190 (Saccharomyces cerevisiae BY4741) 1247190 (Saccharomyces cerevisiae BY4741) 769 808 KKAIDSRIPSLIRNGVQTKQRSIFVIVGDRARNQLPNLHYLMMSADLKMNKSVLWAYKKKLLGFDPFESFISNQNIRYVYYKESEKILGNTYGMCILQDFEALTPNLLARTIETVEGGGIVVILLKSXXXXXXXXXXXXXXXXXXVVARFNERFILSLGSNPNCLVVDDELNVLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX KKAIDSRIPSLIRNGVQTKQRSIFVIVGDRARNQLPNLHYLMMSADLKMNKSVLWAYKKKLLGFTSHRKKRENKIKKEIKRGTREVNEMDPFESFISNQNIRYVYYKESEKILGNTYGMCILQDFEALTPNLLARTIETVEGGGIVVILLKSXXXXXXXXXXXXXXXXXXVVARFNERFILSLGSNPNCLVVDDELNVLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX 5wlq-a1-m1-cA_5wlq-a1-m2-cA Crystal Structure of Amino Acids 1677-1755 of Human Beta Cardiac Myosin Fused to Gp7 and Eb1 Q15691 Q15691 3.104 X-RAY DIFFRACTION 123 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 104 104 SGPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMD SGPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMD 5wly-a2-m1-cA_5wly-a2-m2-cA E. coli LpxH- 8 mutations P43341 P43341 2 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 220 220 ATLFIADLHLCVAAPAITAGFLRFLAGEARKADALYILGDLFEAWIGDDDPNPLHRKMAAAIKAVSDSGVPCYFIHGNRDFLLGKRFARESGMTLLPEEKVLELYGRRVLIMHGDTLCTDKVHKPWLQTLHSALPSHVRKRIAARMRANSTDVNQNAVVSAMEKHQVQWLIHGHTHRPAVHELIANQQPAFRVVLGAWHTEGSMVKVTADDVELIHFPFL ATLFIADLHLCVAAPAITAGFLRFLAGEARKADALYILGDLFEAWIGDDDPNPLHRKMAAAIKAVSDSGVPCYFIHGNRDFLLGKRFARESGMTLLPEEKVLELYGRRVLIMHGDTLCTDKVHKPWLQTLHSALPSHVRKRIAARMRANSTDVNQNAVVSAMEKHQVQWLIHGHTHRPAVHELIANQQPAFRVVLGAWHTEGSMVKVTADDVELIHFPFL 5wlz-a1-m1-cA_5wlz-a1-m1-cC Crystal Structure of Amino Acids 1677-1758 of Human Beta Cardiac Myosin Fused to Xrcc4 P12883 P12883 3.5 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 206 ERKISRIHLVSEPSITHFLQVSWEKTLKSGFVITLTDGHSAWTGTVSESKISQEAATMAMNKGKYVGELRKALLSGAPADVYTFNFSKESRYFFFKKNLKDVSFRLGSFNLEKVENPAEVIRELIDYALDRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQT GSGERKISRIHLVSEPSITHFLQVSWEKTLKSGFVITLTDGHSAWTGTVSESKISQEAATMAMNKGKYVGELRKALLSGAGPADVYTFNFSKESRYFFFKKNLKDVSFRLGSFNLEKVENPAEVIRELIDYALDRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQTEVEEAVQEC 5wlz-a1-m1-cA_5wlz-a1-m1-cD Crystal Structure of Amino Acids 1677-1758 of Human Beta Cardiac Myosin Fused to Xrcc4 P12883 P12883 3.5 X-RAY DIFFRACTION 37 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 193 200 5wlz-a1-m1-cB_5wlz-a1-m1-cC ERKISRIHLVSEPSITHFLQVSWEKTLKSGFVITLTDGHSAWTGTVSESKISQEAATMAMNKGKYVGELRKALLSGAPADVYTFNFSKESRYFFFKKNLKDVSFRLGSFNLEKVENPAEVIRELIDYALDRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQT GERKISRIHLVSEPSITHFLQVSWEKTLKSGFVITLTDGHSAWTGTVSESKISQEAATMAMNKGKYVGELRKALLSGAGADVYTFNFSKESRYFFFKKNLKDVSFRLGSFNLEKVENPAEVIRELIDYALDRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQTEVEEAV 5wlz-a1-m1-cD_5wlz-a1-m1-cC Crystal Structure of Amino Acids 1677-1758 of Human Beta Cardiac Myosin Fused to Xrcc4 P12883 P12883 3.5 X-RAY DIFFRACTION 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 200 206 5wlz-a1-m1-cA_5wlz-a1-m1-cB GERKISRIHLVSEPSITHFLQVSWEKTLKSGFVITLTDGHSAWTGTVSESKISQEAATMAMNKGKYVGELRKALLSGAGADVYTFNFSKESRYFFFKKNLKDVSFRLGSFNLEKVENPAEVIRELIDYALDRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQTEVEEAV GSGERKISRIHLVSEPSITHFLQVSWEKTLKSGFVITLTDGHSAWTGTVSESKISQEAATMAMNKGKYVGELRKALLSGAGPADVYTFNFSKESRYFFFKKNLKDVSFRLGSFNLEKVENPAEVIRELIDYALDRNNLLQAELEELRAVVEQTERSRKLAEQELIETSERVQLLHSQNTSLINQKKKMDADLSQLQTEVEEAVQEC 5wme-a1-m1-cD_5wme-a1-m1-cA Crystal Structure of Amino Acids 1729-1786 of Human Beta Cardiac Myosin Fused to Gp7 as Anti-Parallel Four-Helix Bundle P12883 P12883 2.3 X-RAY DIFFRACTION 63 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 89 91 5wme-a1-m1-cB_5wme-a1-m1-cC KPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKKMDADLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKE PLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKKMDADLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKE 5wme-a1-m1-cD_5wme-a1-m1-cB Crystal Structure of Amino Acids 1729-1786 of Human Beta Cardiac Myosin Fused to Gp7 as Anti-Parallel Four-Helix Bundle P12883 P12883 2.3 X-RAY DIFFRACTION 69 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 89 92 5wme-a1-m1-cA_5wme-a1-m1-cC KPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKKMDADLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKE GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKKMDADLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKE 5wme-a1-m1-cD_5wme-a1-m1-cC Crystal Structure of Amino Acids 1729-1786 of Human Beta Cardiac Myosin Fused to Gp7 as Anti-Parallel Four-Helix Bundle P12883 P12883 2.3 X-RAY DIFFRACTION 69 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 89 93 5wme-a1-m1-cA_5wme-a1-m1-cB KPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKKMDADLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKE GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKKMDADLSQLQTEVEEAVQECRNAEEKAKKAITDAAMMAEELKKEQ 5wmj-a1-m2-cB_5wmj-a1-m6-cB KVWGSI segment from Superoxide Dismutase 1,residues 30-35 P00441 P00441 1.4 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 5wmj-a1-m1-cA_5wmj-a1-m3-cA 5wmj-a1-m1-cB_5wmj-a1-m5-cB 5wmj-a1-m2-cA_5wmj-a1-m3-cA 5wmj-a1-m2-cA_5wmj-a1-m4-cA 5wmj-a1-m2-cB_5wmj-a1-m5-cB KVWGSI KVWGSI 5wnj-a2-m1-cA_5wnj-a2-m2-cA Crystal structure of murine receptor-interacting protein kinase 4 (Ripk4) D143N in complex with lestaurtinib Q9ERK0 Q9ERK0 2.55 X-RAY DIFFRACTION 49 1.0 10090 (Mus musculus) 10090 (Mus musculus) 264 264 5wni-a2-m1-cA_5wni-a2-m2-cA 5wnl-a2-m1-cA_5wnl-a2-m2-cA 5wnm-a2-m1-cA_5wnm-a2-m2-cA ALGLLRTFDAGEFAGWEKVGSFGQVYKVRHVHWKTWLAIKCSPSLHVDDRERMELLEEAKKMEMAKFRYILPVYGICQEPVGLVMEYMETGSLEKLLASEPLPWDLRFRIVHETAVGMNFLHCMSPPLLHLNLKPANILLDAHYHVKISDFGLAKCFGTIAYLPPERIREKSRLFDTKHDVYSFAIVIWGVLTQKKPFADEKNILHIMMKVVKGHRPELPPICRPRPRACASLIGLMQRCWHADPQVRPTFQEITSETEDLCEK ALGLLRTFDAGEFAGWEKVGSFGQVYKVRHVHWKTWLAIKCSPSLHVDDRERMELLEEAKKMEMAKFRYILPVYGICQEPVGLVMEYMETGSLEKLLASEPLPWDLRFRIVHETAVGMNFLHCMSPPLLHLNLKPANILLDAHYHVKISDFGLAKCFGTIAYLPPERIREKSRLFDTKHDVYSFAIVIWGVLTQKKPFADEKNILHIMMKVVKGHRPELPPICRPRPRACASLIGLMQRCWHADPQVRPTFQEITSETEDLCEK 5wo3-a1-m1-cB_5wo3-a1-m1-cA Chaperone Spy bound to Im7 (Im7 un-modeled) P77754 P77754 1.87 X-RAY DIFFRACTION 74 1.0 562 (Escherichia coli) 562 (Escherichia coli) 87 90 3o39-a1-m1-cA_3o39-a1-m1-cB 3oeo-a1-m1-cA_3oeo-a1-m1-cC 3oeo-a2-m1-cB_3oeo-a2-m1-cD 5wo1-a1-m1-cA_5wo1-a1-m1-cB 6owx-a1-m1-cA_6owx-a1-m1-cB 6owy-a1-m1-cB_6owy-a1-m1-cA FKDLNLTDAQKQQIREIMKGQRLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLALMETQNKIYNILTPEQKKQFNANFEKR SFKDLNLTDAQKQQIREIMKGQRPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLALMETQNKIYNILTPEQKKQFNANFEKRL 5woc-a1-m1-cA_5woc-a1-m1-cB De Novo Design of Covalently Constrained Meso-size Protein Scaffolds with Unique Tertiary Structures NOT SOLUTION NMR 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 19 SPEERAQLCTAAEKADELG SPEERAQLCTAAEKADELG 5wof-a2-m1-cB_5wof-a2-m2-cB 1.65 ANGSTROM STRUCTURE OF THE DYNEIN LIGHT CHAIN 1 FROM PLASMODIUM FALCIPARUM Q8I5R9 Q8I5R9 1.65 X-RAY DIFFRACTION 80 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 85 85 5wof-a1-m1-cA_5wof-a1-m1-cC GSVVKNVDMTEEMQIDAIDCANQALQKYNVEKDIAAHIKKEFDRKYDPTWHCVVGRNFGSYVTHETKNFIYFYIGQVAILLFKSG GSVVKNVDMTEEMQIDAIDCANQALQKYNVEKDIAAHIKKEFDRKYDPTWHCVVGRNFGSYVTHETKNFIYFYIGQVAILLFKSG 5woq-a2-m1-cC_5woq-a2-m1-cB Crystal structure of an XRE family protein transcriptional regulator from Mycobacterium smegmatis A0QVU1 A0QVU1 1.95 X-RAY DIFFRACTION 69 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 83 85 5woq-a1-m1-cA_5woq-a1-m2-cA ALLREVIGDVLRNARTDQGRTLREVSDAARVSLGYLSEVERGRKEASSELLSAICDALDVPLSRVLTDAGESMARREHDAREA MTALLREVIGDVLRNARTDQGRTLREVSDAARVSLGYLSEVERGRKEASSELLSAICDALDVPLSRVLTDAGESMARREHDAREA 5wp0-a1-m1-cA_5wp0-a1-m1-cB Crystal structure of NAD synthetase NadE from Vibrio fischeri Q5DZX4 Q5DZX4 2.6 X-RAY DIFFRACTION 193 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 260 274 FQGMQQQIVEEMKVKVSIDPVEEIKKRVDFIKGKLLEAHCKSLILGISGGVDSTTCGRLAQLAVNELNLETQSSDYQFIAVRLPYGIQQDEDEAQLALQFIQPTHSISINIKNGVDGLHSANHIALKDTGLLPTDSAKIDFVKGNVKARARMIAQYEVAGYVGGLVLGTDHSAENITGFYTKFGDGACDLAPLFGLNKRQVREVAAQLGAPEQLVKKSVSYDQIDDFLEGKKIDADAEDRLIKIYQMSQHKRKPIPTIYD FQGMQQQIVEEMKVKVSIDPVEEIKKRVDFIKGKLLEAHCKSLILGISGGVDSTTCGRLAQLAVNELNLETQSSDYQFIAVRLPYGIQQDEDEAQLALQFIQPTHSISINIKNGVDGLHSANHIALKDTGLLPTDSAKIDFVKGNVKARARMIAQYEVAGYVGGLVLGTDHSAENITGFYTKFGDGACDLAPLFGLNKRQVREVAAQLGAPEQLVKKVPTADLEELAPDALSVSYDQIDDFLEGKKIDADAEDRLIKIYQMSQHKRKPIPTIYD 5wpi-a1-m1-cA_5wpi-a1-m1-cB The virulence-associated protein HsvA from the fire blight pathogen Erwinia amylovora is a polyamine amidinotransferase Q58PW8 Q58PW8 2.3 X-RAY DIFFRACTION 143 1.0 552 (Erwinia amylovora) 552 (Erwinia amylovora) 364 364 YQKEEPSYFSHSPSPVEVYTEWDPLEEVIVGIMDDIRVPDWDKSLKAIIPEENHDFFQTYSGKRFPEELLIKARQEVETLAQILQAEGIRVKRPNESNHHQPIMTPHFTTGGTFYSAMPRDCLFAIGKKIIEVPMSWRSRYFETFAFRDILNDYFTRGAEWIAAPKPMLSDDVWEKDFDFEQEFPFRSIITEVEPLFDAADFMKMGRDIIGQRSHATNKKGIEWLRRTLGPDYHIHIYEFDEPAPMHIDTTILPLAPGRVLINKGWVPQIPDIFKDWEILNPPASNLPDDHPLYMSSNWIHTNVLMLDEKTVIVEEDEEALISAFRQWGFKTILCPFKHFQTFGGSFHCATLDVKRSGSLKSYI YQKEEPSYFSHSPSPVEVYTEWDPLEEVIVGIMDDIRVPDWDKSLKAIIPEENHDFFQTYSGKRFPEELLIKARQEVETLAQILQAEGIRVKRPNESNHHQPIMTPHFTTGGTFYSAMPRDCLFAIGKKIIEVPMSWRSRYFETFAFRDILNDYFTRGAEWIAAPKPMLSDDVWEKDFDFEQEFPFRSIITEVEPLFDAADFMKMGRDIIGQRSHATNKKGIEWLRRTLGPDYHIHIYEFDEPAPMHIDTTILPLAPGRVLINKGWVPQIPDIFKDWEILNPPASNLPDDHPLYMSSNWIHTNVLMLDEKTVIVEEDEEALISAFRQWGFKTILCPFKHFQTFGGSFHCATLDVKRSGSLKSYI 5wq3-a1-m1-cA_5wq3-a1-m2-cA Crystal structure of type-II LOG from Corynebacterium glutamicum Q8NRE2 Q8NRE2 1.95 X-RAY DIFFRACTION 29 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 206 206 WKHADPWRVLRIQSEFVAGFDALHEMPKAVTVFGSARIKEDHPYYKAGVELGEKLVAADYAVVTGGGPGLMEAPNKGASEANGLSVGLGIELPHHLNPYVDLGLNFRYFFARKTMFLKYSQAFVCLPGGFGTLDELFEVLCMVQTGKVTNFPIVLIGTEFWAGLVDWIRHRLVEEGMIDEKDVDRMLVTDDLDQAVKFIVDAHAGL WKHADPWRVLRIQSEFVAGFDALHEMPKAVTVFGSARIKEDHPYYKAGVELGEKLVAADYAVVTGGGPGLMEAPNKGASEANGLSVGLGIELPHHLNPYVDLGLNFRYFFARKTMFLKYSQAFVCLPGGFGTLDELFEVLCMVQTGKVTNFPIVLIGTEFWAGLVDWIRHRLVEEGMIDEKDVDRMLVTDDLDQAVKFIVDAHAGL 5wq3-a1-m2-cA_5wq3-a1-m2-cB Crystal structure of type-II LOG from Corynebacterium glutamicum Q8NRE2 Q8NRE2 1.95 X-RAY DIFFRACTION 111 0.99 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 206 206 5wq3-a1-m1-cA_5wq3-a1-m1-cB WKHADPWRVLRIQSEFVAGFDALHEMPKAVTVFGSARIKEDHPYYKAGVELGEKLVAADYAVVTGGGPGLMEAPNKGASEANGLSVGLGIELPHHLNPYVDLGLNFRYFFARKTMFLKYSQAFVCLPGGFGTLDELFEVLCMVQTGKVTNFPIVLIGTEFWAGLVDWIRHRLVEEGMIDEKDVDRMLVTDDLDQAVKFIVDAHAGL NWKHADPWRVLRIQSEFVAGFDALHEMPKAVTVFGSARIKEDHPYYKAGVELGEKLVAADYAVVTGGGPGLMEAPNKGASEANGLSVGLGIELQHLNPYVDLGLNFRYFFARKTMFLKYSQAFVCLPGGFGTLDELFEVLCMVQTGKVTNFPIVLIGTEFWAGLVDWIRHRLVEEGMIDEKDVDRMLVTDDLDQAVKFIVDAHAGL 5wqm-a2-m1-cB_5wqm-a2-m1-cD Crystal structure of a carbonyl reductase from Pseudomonas aeruginosa PAO1 (condition I) Q9HWU9 Q9HWU9 2.6 X-RAY DIFFRACTION 127 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 218 218 5wqm-a1-m1-cA_5wqm-a1-m1-cC 5wqn-a1-m1-cA_5wqn-a1-m1-cD 5wqn-a2-m1-cB_5wqn-a2-m1-cC 5wqo-a1-m1-cB_5wqo-a1-m1-cA 5wqp-a1-m1-cA_5wqp-a1-m1-cB MHNVLIVGASRGIGLGLADAFLQRGAQVFAVARRPQGSPGLQALAERAGERLQAVTGDLNQHDCAERIGEMLGERRIDRLIVNAGIYGPQQQDVAEIDAEQTAQLFLTNAIAPLRLARALSGRVSRGGVVAFMSSQMASLALGLSATMPLYGASKAALNSLVRSWEGEFEELPFSLLLLHPGWLSVEESAAGLVAAVEDAAGVNACRFVDYRNQPLPW MHNVLIVGASRGIGLGLADAFLQRGAQVFAVARRPQGSPGLQALAERAGERLQAVTGDLNQHDCAERIGEMLGERRIDRLIVNAGIYGPQQQDVAEIDAEQTAQLFLTNAIAPLRLARALSGRVSRGGVVAFMSSQMASLALGLSATMPLYGASKAALNSLVRSWEGEFEELPFSLLLLHPGWLSVEESAAGLVAAVEDAAGVNACRFVDYRNQPLPW 5wrg-a1-m1-cB_5wrg-a1-m1-cC SARS-CoV spike glycoprotein P59594 P59594 4.3 ELECTRON MICROSCOPY 155 1.0 736 736 5wrg-a1-m1-cA_5wrg-a1-m1-cB 5wrg-a1-m1-cA_5wrg-a1-m1-cC TFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRFPNITNLCPFGEVFNATKFPSVYAWERKKISNCVADYSVLYNSTFFSTFKCYGVSATKLNDLCFSNVYADSFVVKGDDVRQIAPGQTGVIADYNYKLPDDFMGCVLAWNTRNIDATSTGNYNYKYRYLRHGKLRPFERDISNVPFSPDGKPCTPPALNCYWPLNDYGFYTTTGIGYQPYRVVVLSFELLNPKLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCSFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVTLKFNGLTVLPPLLTDDMIAAYTAALVSGPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFT TFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRFPNITNLCPFGEVFNATKFPSVYAWERKKISNCVADYSVLYNSTFFSTFKCYGVSATKLNDLCFSNVYADSFVVKGDDVRQIAPGQTGVIADYNYKLPDDFMGCVLAWNTRNIDATSTGNYNYKYRYLRHGKLRPFERDISNVPFSPDGKPCTPPALNCYWPLNDYGFYTTTGIGYQPYRVVVLSFELLNPKLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCSFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVTLKFNGLTVLPPLLTDDMIAAYTAALVSGPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFT 5wrj-a1-m1-cA_5wrj-a1-m1-cB Crystal structure of human tyrosylprotein sulfotransferase-1 complexed with PAP and gastrin peptide O60507 O60507 2.31 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 275 5wri-a1-m1-cB_5wri-a1-m1-cA 5wrj-a2-m1-cC_5wrj-a2-m1-cD AYHKDMPLIFIGGVPRSGTTLMRAMLDAHPDIRCGEETRVIPRILALKQMWSRSSKEKIRLDEAGVTDEVLDSAMQAFLLEIIVKHGEPAPYLCNKDPFALKSLTYLSRLFPNAKFLLMVRDGRASVHSMISRKVTIAGFDLNSYRDCLTKWNRAIETMYNQCMEVGYKKCMLVHYEQLVLHPERWMRTLLKFLQIPWNHSVLHHEEMIGKAGGVSLSKVERSTDQVIKPVNVGALSKWVGKIPPDVLQDMAVIAPMLAKLGYDPYANPPNYGKP AYHKDMPLIFIGGVPRSGTTLMRAMLDAHPDIRCGEETRVIPRILALKQMWSRSSKEKIRLDEAGVTDEVLDSAMQAFLLEIIVKHGEPAPYLCNKDPFALKSLTYLSRLFPNAKFLLMVRDGRASVHSMISRKVTIAGFDLNSYRDCLTKWNRAIETMYNQCMEVGYKKCMLVHYEQLVLHPERWMRTLLKFLQIPWNHSVLHHEEMIGKAGGVSLSKVERSTDQVIKPVNVGALSKWVGKIPPDVLQDMAVIAPMLAKLGYDPYANPPNYGKP 5wro-a1-m1-cA_5wro-a1-m2-cA Crystal structure of Drosophila enolase P15007 P15007 2.015 X-RAY DIFFRACTION 132 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 439 439 GAMDPEFTIKAIKARQIYDSRGNPTVEVDLTTELGLFRAAVPSGASTGVHEALELRDNDKANYHGKSVLKAVGHVNDTLGPELIKANLDVVDQASIDNFMIKLDGTENKSKFGANAILGVSLAVAKAGAAKKGVPLYKHIADLAGNKEIILPVPAFNVINGGSHAGNKLAMQEFMILPTGATSFTEAMKMGSEVYHHLKNVIKAKFGLDATAVGDEGGFAPNIQSNKEALNLISDAIAKAGYTGKIEIGMDVAASEFYKDGQYDLDFKNEKSDKSQWLPADKLANLYQEFIKDFPIVSIEDPFDQDHWEAWSNLTGCTDIQIVGDDLTVTNPKRIATAVEKKACNCLLLKVNQIGTVTESIAAHLLAKKNGWGTMVSHRSGETEDSFIGDLVVGLSTGQIKTGAPCRSERLAKYNQILRIEEEIGAGVKFAGKSFRKPQ GAMDPEFTIKAIKARQIYDSRGNPTVEVDLTTELGLFRAAVPSGASTGVHEALELRDNDKANYHGKSVLKAVGHVNDTLGPELIKANLDVVDQASIDNFMIKLDGTENKSKFGANAILGVSLAVAKAGAAKKGVPLYKHIADLAGNKEIILPVPAFNVINGGSHAGNKLAMQEFMILPTGATSFTEAMKMGSEVYHHLKNVIKAKFGLDATAVGDEGGFAPNIQSNKEALNLISDAIAKAGYTGKIEIGMDVAASEFYKDGQYDLDFKNEKSDKSQWLPADKLANLYQEFIKDFPIVSIEDPFDQDHWEAWSNLTGCTDIQIVGDDLTVTNPKRIATAVEKKACNCLLLKVNQIGTVTESIAAHLLAKKNGWGTMVSHRSGETEDSFIGDLVVGLSTGQIKTGAPCRSERLAKYNQILRIEEEIGAGVKFAGKSFRKPQ 5wrp-a1-m1-cC_5wrp-a1-m1-cD T-state crystal structure of pyruvate kinase from Mycobacterium tuberculosis P9WKE5 P9WKE5 2.85 X-RAY DIFFRACTION 65 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 378 473 TRRGKIVCTLGPATQRDDLVRALVEAGMDVARMNFSHGDYDDHKVAYERVRVASDATGRAVGVLADLQGPTAPALSEKDIEDLTFALNLGVDMVALSFVRSPADVELVHEVMDRIGRRVPVIAKLEKPEAIDNLEAIVLAFDAVMVARGDLGVELPLEEVPLVQKRAIQMARENAKPVIVATQMLDSMIENSRPTRAEASDVANAVLDGADALMLSGETSVGKYPLAAVRTMSRIICAVEENSTAAPPLTHIPRTKRGVISYAARDIGERLDAKALVAFTQSGDTVRRLARLHTPLPLLAFTAWPEVRSQLAMTWGTETFIVPKMQSTDGMIRQVDKSLLELARYKRGDLVVIVAGAPPGTVGSTNLIHVHRIGEDDV HMTRRGKIVCTLGPATQRDDLVRALVEAGMDVARMNFSHGDYDDHKVAYERVRVASDATGRAVGVLADLQGPKIRLGRFASGATHWAEGETVRITVGACEGSHDRVSTTYKRLAQDAVAGDRVLVDDGKVALVVDAVEGDDVVCTVVEGGPVSDNKGISLPGMNVTAPALSEKDIEDLTFALNLGVDMVALSFVRSPADVELVHEVMDRIGRRVPVIAKLEKPEAIDNLEAIVLAFDAVMVARGDLGVELPLEEVPLVQKRAIQMARENAKPVIVATQMLDSMIENSRPTRAEASDVANAVLDGADALMLSGETSVGKYPLAAVRTMSRIICAVEENSTAAPPLTHIPRTKRGVISYAARDIGERLDAKALVAFTQSGDTVRRLARLHTPLPLLAFTAWPEVRSQLAMTWGTETFIVPKMQSTDGMIRQVDKSLLELARYKRGDLVVIVAGAPPGTVGSTNLIHVHRIGEDDV 5wrr-a1-m1-cA_5wrr-a1-m1-cB Crystal structure of Fam20A Q96MK3 Q96MK3 2.506 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 431 438 5wrs-a1-m1-cA_5wrs-a1-m1-cB SSKLQALFAHPLYNVPEEPPLLGAEDSLLASQEALRYYRRKVARWNRRHKMYREQMDPPLQLRLEASWVQFHLGINRHGLYSRSSPVVSKLLQDMRHFPTISADYSQDEKALLGACDCTQIVKSGVHLKLVLRFSDFGKAMFKPMRQQRDEETPVDFFYFIDFQRHNAEIAAFHLDRILDFRRVPPTVGRIVNVTKEILEVTKNEILQSVFFVSPASNVCFFAKCPYMCKTEYAVCGKPHLLEGSLSAFLPSLNLAPRLSVPNPWIRSYTLAGKEEWEVNPLYCDTVKQIYPYNNSQRLLNVIDMAIFDFLIGNMDRHHYEMFTKFGDDGFLIHLDNARGFGRHSHDEISILSPLSQCCMIKKKTLLHLQLLAQADYRLSDVMRESLLEDQLSPVLTEPHLLALDRRLQTILRTVEGCIVAHGQQSVIVDG SSKLQALFAHPLYNVPEEPPLLGAEDSLLASQEALRYYRRKVARWNRRHKMYREQMNLTSLDPPLQLRLEASWVQFHLGINRHGLYSRSSPVVSKLLQDMRHFPTISADYSQDEKALLGACDCTQIVKPSGVHLKLVLRFSDFGKAMFKPMRQQRDEETPVDFFYFIDFQRHNAEIAAFHLDRILDFRRVPPTVGRIVNVTKEILEVTKNEILQSVFFVSPASNVCFFAKCPYMCKTEYAVCGKPHLLEGSLSAFLPSLNLAPRLSVPNPWIRSYTLAGKEEWEVNPLYCDTVKQIYPYNNSQRLLNVIDMAIFDFLIGNMDRHHYEMFTKFGDDGFLIHLDNARGFGRHSHDEISILSPLSQCCMIKKKTLLHLQLLAQADYRLSDVMRESLLEDQLSPVLTEPHLLALDRRLQTILRTVEGCIVAHGQQSVIVDGP 5wrt-a1-m1-cB_5wrt-a1-m1-cA Crystal structure of type I inorganic pyrophosphatase from Toxoplasma gondii. Q4VUZ3 Q4VUZ3 2.348 X-RAY DIFFRACTION 53 1.0 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 232 235 VYRRLVSGTEGEKDFRVLLSKKSGERLSPWHDIPLFPNGRDARPLLFNMVVEIPKNTRRKMEMQLRLPFTPIMQDLKKDGSLREYASTLYWNYGAFPQTWEDPREPGGREVFHARGDGDPLDVVEIGSEVLPVGGVVPVKVLGALAMIDGGELDWKVLAIREGDPLFSQLNSVADVERLCRGVVPGIREWFRWYKLPTDNVVNQFGHDEAALPAADAERVVYRAHEHYLRLL VYRRLVSGTEGEKDFRVLLSKKSGERLSPWHDIPLFPNGRDARPLLFNMVVEIPKNTRRKMEMQLRLPFTPIMQDLKKDGSLREYASTLYWNYGAFPQTWEDPREPGGREVFHARGDGDPLDVVEIGSEVLPVGGVVPVKVLGALAMIDGGELDWKVLAIREGDPLFSQLNSVADVERLCRGVVPGIREWFRWYKLPTDNVVNQFGHDEAALPAADAERVVYRAHEHYLRLLSEE 5wru-a2-m1-cD_5wru-a2-m1-cC Crystal structure of type I inorganic pyrophosphatase from P falciparum O77392 O77392 3.193 X-RAY DIFFRACTION 158 0.993 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 302 304 5wru-a1-m1-cB_5wru-a1-m1-cA 5wru-a3-m1-cE_5wru-a3-m2-cE YFIETNKELKINLNFQNNNIISNIFSNINIYDKISNIFINNKKTYLKYNNNINEENFFISYFEKKDDNFVPISPWHHIDLKNDDGTYNIVEITKYNYIKLEIQLREKFNVIKQDKKKGKLRYYHNSIYWNYGALPQTYEYPKHIYQNALLFTGDNDPLDILDIGSACLKIGQVVPVKILGAFTLIDEGELDWKIIAINKEDKHYEDINSLSDIEKYYPHTLSLLLEWFRSYKADTKKLNLISKQLYDKKESEDLIKTHHYYLEFREDVKKLKEEENNLLEDINITYYKSDSAYKPDLNIWTP FIETNKELKINLNFQNNNIISNIFSNINIYDKISNIFINNKKTYLKYNNNINEENFFISYFEKKDDNFVPISPWHHIDLKNDDGTYNIVEITKYNYIKLEIQLREKFNVIKQDKKKGKLRYYHNSIYWNYGALPQTYEYPKHIYQNEALLFTGDNDPLDILDIGSACLKIGQVVPVKILGAFTLIDEGELDWKIIAINKEDKHYEDINSLSDIEKYYPHTLSLLLEWFRSYKADTKKLNLISKQLYDKKESEDLIKTHHYYLEFREDVKKLKEEHSKENNLLEDINITYYKSDSAYKPDLNIWT 5wrw-a3-m1-cE_5wrw-a3-m1-cF Structure of human apo-SRP72 O76094 O76094 2.91 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 5wrw-a1-m1-cA_5wrw-a1-m1-cB 5wrw-a2-m1-cC_5wrw-a2-m1-cD VSVPALWSEVNRYGQNGDFTRALKTVNKILQINKDDVTALHCKVVCLIQNGSFKEALNVINTHTKVLANNSLSFEKAYCEYRLNRIENALKTIESANQQTDKLKELYGQVLYRLERYDECLAVYRDLVRN VSVPALWSEVNRYGQNGDFTRALKTVNKILQINKDDVTALHCKVVCLIQNGSFKEALNVINTHTKVLANNSLSFEKAYCEYRLNRIENALKTIESANQQTDKLKELYGQVLYRLERYDECLAVYRDLVRN 5wsy-a1-m1-cA_5wsy-a1-m1-cB The complex structure of SAV606 with N-carboxymethyl-3-aminobutyrate Q79ZR9 Q79ZR9 2 X-RAY DIFFRACTION 94 0.988 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 161 165 MTTAQHPTDEDLLARVLVPYKDHCKYLRSAVVTESAVARCEFAIPESCYIDDTGHLNSVEVNICYNQMMYYLVAKSVKEGLLAGFESWTLDDFWKHQLPDILIARFASNFRRPVNPRAFSGEMEFQSVTRRAFLHAETAYRYWDADSGRCDGEAVLAFVNI TTAQHPTDEDLLARVLVPYKDHCKYLRSAVVTEGRAVARCEFAIPESCYIDDTGHLNSVEVNICYNQMMYYLVAKSVKEGLLAGFESWTLDDFWKHQLPDILIARFASNFRRPVNPRAFSGEMEFQSVTRRAPAGPFLHAETAYRYWDADSGRCDGEAVLAFVNI 5wtn-a1-m1-cB_5wtn-a1-m1-cD Crystal Structure Analysis of primosome protein DnaB (resiues 1-300) from Geobacillus stearothermophilus 2.8 X-RAY DIFFRACTION 102 1.0 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 264 265 5wtn-a1-m1-cC_5wtn-a1-m1-cA ELIAVDRYTVQSRGVLQEVDRKVLTLLYQPLIGCRALALYMTLWGELELLDGQEATHHRLMALMQCGLPDIYSERLKLEGIGLLDTYVHAKEADEPKLFLYELRPPLAPDQFFRDEMLSVFLRRQVGRHLFIQLSNFFARPSIDETKFTQVTRSFSDVFSAVPAEDHIRRDEASYVLDDGVFDFELFFAGLSKQLVPRRAVTAKVKEAIKKLAFLYGIPPLEMQKLVLGVIDPAYHIDIDALRRAAREWYELEHGGVEPRLVER KELIAVDRYTVQSRGVLQEVDRKVLTLLYQPLIGCRALALYMTLWGELELLDGQEATHHRLMALMQCGLPDIYSERLKLEGIGLLDTYVHAKEADEPKLFLYELRPPLAPDQFFRDEMLSVFLRRQVGRHLFIQLSNFFARPSIDETKFTQVTRSFSDVFSAVPAEDHIRRDEASYVLDDGVFDFELFFAGLSKQLVPRRAVTAKVKEAIKKLAFLYGIPPLEMQKLVLGVIDPAYHIDIDALRRAAREWYELEHGGVEPRLVER 5wtn-a1-m1-cC_5wtn-a1-m1-cD Crystal Structure Analysis of primosome protein DnaB (resiues 1-300) from Geobacillus stearothermophilus 2.8 X-RAY DIFFRACTION 220 0.996 272567 (Geobacillus stearothermophilus 10) 272567 (Geobacillus stearothermophilus 10) 265 265 5wtn-a1-m1-cB_5wtn-a1-m1-cA ELIAVDRYTVQSRGVLQEVDRKVLTLLYQPLIGCRALALYMTLWGELELLDGQEATHHRLMALMQCGLPDIYSERLKLEGIGLLDTYVHAKEADEPKLFLYELRPPLAPDQFFRDEMLSVFLRRQVGRHLFIQLSNFFARPSIDETKFTQVTRSFSDVFSAVPAEQDHIRRDEASYVLDDGVFDFELFFAGLSKQLVPRRAVTAKVKEAIKKLAFLYGIPPLEMQKLVLGVIDPAYHIDIDALRRAAREWYELEHGGVEPRLVER KELIAVDRYTVQSRGVLQEVDRKVLTLLYQPLIGCRALALYMTLWGELELLDGQEATHHRLMALMQCGLPDIYSERLKLEGIGLLDTYVHAKEADEPKLFLYELRPPLAPDQFFRDEMLSVFLRRQVGRHLFIQLSNFFARPSIDETKFTQVTRSFSDVFSAVPAEDHIRRDEASYVLDDGVFDFELFFAGLSKQLVPRRAVTAKVKEAIKKLAFLYGIPPLEMQKLVLGVIDPAYHIDIDALRRAAREWYELEHGGVEPRLVER 5wtq-a2-m1-cC_5wtq-a2-m1-cD Crystal structure of human proteasome-assembling chaperone PAC4 Q5JS54 Q5JS54 1.9 X-RAY DIFFRACTION 135 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 105 107 5wtq-a1-m1-cB_5wtq-a1-m1-cA DVSLHNFSARLWEQLVHFHVMRLTDSLFLWVGATPHLRNLAVAMSIPVSTSLLGDTSDTTSTGLAQRLARKTNKQVFVSYNLQSNFALLVENRIKEEMEAFPEKF VSLHNFSARLWEQLVHFHVMRLTDSLFLWVGATPHLRNLAVAMSIPVSTSLLGDTSDTTSTGLAQRLARKTNKQVFVSYNLQNTDSNFALLVENRIKEEMEAFPEKF 5wtr-a2-m1-cG_5wtr-a2-m1-cH Crystal structure of a prokaryotic TRIC channel in 0.5 M KCl Q981D4 Q981D4 2.2 X-RAY DIFFRACTION 62 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 196 196 5h35-a1-m1-cC_5h35-a1-m1-cD 5h35-a1-m1-cC_5h35-a1-m1-cE 5h35-a1-m1-cD_5h35-a1-m1-cE 5wtr-a1-m1-cA_5wtr-a1-m1-cB 5wtr-a1-m1-cC_5wtr-a1-m1-cA 5wtr-a1-m1-cC_5wtr-a1-m1-cB 5wtr-a2-m1-cG_5wtr-a2-m1-cF 5wtr-a2-m1-cH_5wtr-a2-m1-cF MYMILELLNIIGIIAFTISGSLKGTNKGLDIFGVVTLGVITSYAGGIIADILLGIYPPQILKELNYLLLSVGISIFVFYFYKWLQTNPIKMIIAISDAVGLSTFATLGASLAYSYGLNPISVGLIAAIVGTGGGVIRDVLVNEIPMVLTKEIYATAALLSGFIYYFTTPYLHHDSLFVAFLGSFLLRILSIKYNFN MYMILELLNIIGIIAFTISGSLKGTNKGLDIFGVVTLGVITSYAGGIIADILLGIYPPQILKELNYLLLSVGISIFVFYFYKWLQTNPIKMIIAISDAVGLSTFATLGASLAYSYGLNPISVGLIAAIVGTGGGVIRDVLVNEIPMVLTKEIYATAALLSGFIYYFTTPYLHHDSLFVAFLGSFLLRILSIKYNFN 5wu5-a5-m1-cB_5wu5-a5-m1-cD Crystal structure of apo human Tut1, form III Q9H6E5 Q9H6E5 3.404 X-RAY DIFFRACTION 21 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 483 483 5wu5-a5-m1-cA_5wu5-a5-m1-cC DSHQLAKALAEAADVGAQMIKLVGLRELSEAERQLRSLVVALMQEVFTEFFPGCVVHPFGSSINSFDVHGCDLDLFLDLAEGAAMLELVGSILRGCVPGVYRVQTVPSARRPVVKFCHRPSGLHGDVSLSNRLALHNSRFLSLCSELDGRVRPLVYTLRCWAQGRGLSGSGPLLSNYALTLLVIYFLQTRDPPVLPTVSQLTQKAGEGEQVEVDGWDCSFPRDASRLEPSINVEPLSSLLAQFFSAVSSWDLRGSLLSLREGQALPVAGGLPSNLWEGLRLGPLNLQDPFDLSHNVAANVTSRVAGRLQNCCRAAANYCRSLQYQRRSSRGRDWGLLPLLQPSSPSSLLSATPIPLPLAPFTQLTAALVQVFREALGCHIEQSASWRCALWHRVWQGRRRARRRLQQQTKEGGWLATEAQVTQELKGEERPETEPLLSFVASVSPADRMLTVTPLQDPQGLFPDLHHFLQVFLPQAIRHLKLE DSHQLAKALAEAADVGAQMIKLVGLRELSEAERQLRSLVVALMQEVFTEFFPGCVVHPFGSSINSFDVHGCDLDLFLDLGDKEEKAEGAAMLELVGSILRGCVPGVYRVQTVPSARRPVVKFCHRPSGLHGDVSLSNRLALHNSRFLSLCSELDGRVRPLVYTLRCWAQGRGLSGSGPLLSNYALTLLVIYFLQTRDPPVLPTVSQLTQKAGEGEQVEVDGWDCSFPRDASRLEPSINVEPLSSLLAQFFSAVSSWDLRGSLLSLREGQALPVAGGLPSNLWEGLRLGPLNLQDPFDLSHNVAANVTSRVAGRLQNCCRAAANYCRSLQYQRRSSRGRDWGLLPLLQPSSPSSLLSATPIPLPLAPFTQLTAALVQVFREALGCHIEQSASWRCALWHRVWQGRRRARRRLQQQTKEGGWLATEAQVTQELKTEPLLSFVASVSPADRMLTVTPLQDPQGLFPDLHHFLQVFLPQAIRHLKLE 5wu5-a5-m1-cD_5wu5-a5-m1-cA Crystal structure of apo human Tut1, form III Q9H6E5 Q9H6E5 3.404 X-RAY DIFFRACTION 26 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 483 485 5wu5-a5-m1-cB_5wu5-a5-m1-cC DSHQLAKALAEAADVGAQMIKLVGLRELSEAERQLRSLVVALMQEVFTEFFPGCVVHPFGSSINSFDVHGCDLDLFLDLGDKEEKAEGAAMLELVGSILRGCVPGVYRVQTVPSARRPVVKFCHRPSGLHGDVSLSNRLALHNSRFLSLCSELDGRVRPLVYTLRCWAQGRGLSGSGPLLSNYALTLLVIYFLQTRDPPVLPTVSQLTQKAGEGEQVEVDGWDCSFPRDASRLEPSINVEPLSSLLAQFFSAVSSWDLRGSLLSLREGQALPVAGGLPSNLWEGLRLGPLNLQDPFDLSHNVAANVTSRVAGRLQNCCRAAANYCRSLQYQRRSSRGRDWGLLPLLQPSSPSSLLSATPIPLPLAPFTQLTAALVQVFREALGCHIEQSASWRCALWHRVWQGRRRARRRLQQQTKEGGWLATEAQVTQELKTEPLLSFVASVSPADRMLTVTPLQDPQGLFPDLHHFLQVFLPQAIRHLKLE DSHQLAKALAEAADVGAQMIKLVGLRELSEAERQLRSLVVALMQEVFTEFFPGCVVHPFGSSINSFDVHGCDLDLFLDLGAAMLELVGSILRGCVPGVYRVQTVPSARRPVVKFCHRPSGLHGDVSLSNRLALHNSRFLSLCSELDGRVRPLVYTLRCWAQGRGLSGSGPLLSNYALTLLVIYFLQTRDPPVLPTVSQLTQKAGEGEQVEVDGWDCSFPRDASRLEPSINVEPLSSLLAQFFSAVSSWDLRGSLLSLREGQALPVAGGLPSNLWEGLRLGPLNLQDPFDLSHNVAANVTSRVAGRLQNCCRAAANYCRSLQYQRRSSRGRDWGLLPLLQPSSPSSLLSATPIPLPLAPFTQLTAALVQVFREALGCHIEQSASWRCALWHRVWQGRRRARRRLQQQTKEGGWLATEAQVTQELKGLSGGEERPETEPLLSFVASVSPADRMLTVTPLQDPQGLFPDLHHFLQVFLPQAIRHLKLE 5wu5-a5-m1-cD_5wu5-a5-m1-cC Crystal structure of apo human Tut1, form III Q9H6E5 Q9H6E5 3.404 X-RAY DIFFRACTION 78 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 483 485 5wu5-a5-m1-cB_5wu5-a5-m1-cA DSHQLAKALAEAADVGAQMIKLVGLRELSEAERQLRSLVVALMQEVFTEFFPGCVVHPFGSSINSFDVHGCDLDLFLDLGDKEEKAEGAAMLELVGSILRGCVPGVYRVQTVPSARRPVVKFCHRPSGLHGDVSLSNRLALHNSRFLSLCSELDGRVRPLVYTLRCWAQGRGLSGSGPLLSNYALTLLVIYFLQTRDPPVLPTVSQLTQKAGEGEQVEVDGWDCSFPRDASRLEPSINVEPLSSLLAQFFSAVSSWDLRGSLLSLREGQALPVAGGLPSNLWEGLRLGPLNLQDPFDLSHNVAANVTSRVAGRLQNCCRAAANYCRSLQYQRRSSRGRDWGLLPLLQPSSPSSLLSATPIPLPLAPFTQLTAALVQVFREALGCHIEQSASWRCALWHRVWQGRRRARRRLQQQTKEGGWLATEAQVTQELKTEPLLSFVASVSPADRMLTVTPLQDPQGLFPDLHHFLQVFLPQAIRHLKLE DSHQLAKALAEAADVGAQMIKLVGLRELSEAERQLRSLVVALMQEVFTEFFPGCVVHPFGSSINSFDVHGCDLDLFLDLGDLAEGAAMLELVGSILRGCVPGVYRVQTVPSARRPVVKFCHRPSGLHGDVSLSNRLALHNSRFLSLCSELDGRVRPLVYTLRCWAQGRGLSGSGPLLSNYALTLLVIYFLQTRDPPVLPTVSQLTQKAGEGEQVEVDGWDCSFPRDASRLEPSINVEPLSSLLAQFFSAVSSWDLRGSLLSLREGQALPVAGGLPSNLWEGLRLGPLNLQDPFDLSHNVAANVTSRVAGRLQNCCRAAANYCRSLQYQRRSSRGRDWGLLPLLQPSSPSSLLSATPIPLPLAPFTQLTAALVQVFREALGCHIEQSASWRCALWHRVWQGRRRARRRLQQQTKEGGWLATEAQVTQELKGERPETEPLLSFVASVSPADRMLTVTPLQDPQGLFPDLHHFLQVFLPQAIRHLKLE 5wuc-a1-m2-cA_5wuc-a1-m3-cA Structural basis for conductance through TRIC cation channels Q4J9E6 Q4J9E6 1.6 X-RAY DIFFRACTION 63 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 194 194 5wuc-a1-m1-cA_5wuc-a1-m2-cA 5wuc-a1-m1-cA_5wuc-a1-m3-cA 5wud-a1-m1-cA_5wud-a1-m2-cA 5wud-a1-m1-cA_5wud-a1-m3-cA 5wud-a1-m2-cA_5wud-a1-m3-cA 5wue-a1-m1-cA_5wue-a1-m2-cA 5wue-a1-m1-cA_5wue-a1-m3-cA 5wue-a1-m2-cA_5wue-a1-m3-cA IVFDIFNYIGIVAFAISGAIKAVKKGMDLLGVLVLGFSTALGGGIISNLLLGKTPPTNLIYYPYPITAFLASLATFVFYRIFTNVGKPLLYADAIGLGAFASSGASLAYSVSNNVILVVIVGAITAVGGGVIRDILSNEVPLILTREFYATTAVIGSFVYFIASDLSVPEDVALIVSFLITLILRILAMELKWE IVFDIFNYIGIVAFAISGAIKAVKKGMDLLGVLVLGFSTALGGGIISNLLLGKTPPTNLIYYPYPITAFLASLATFVFYRIFTNVGKPLLYADAIGLGAFASSGASLAYSVSNNVILVVIVGAITAVGGGVIRDILSNEVPLILTREFYATTAVIGSFVYFIASDLSVPEDVALIVSFLITLILRILAMELKWE 5wuf-a1-m2-cA_5wuf-a1-m3-cA Structural basis for conductance through TRIC cation channels Q47UY7 Q47UY7 2.401 X-RAY DIFFRACTION 54 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 190 190 5wuf-a1-m1-cA_5wuf-a1-m2-cA 5wuf-a1-m1-cA_5wuf-a1-m3-cA FLFYLDIFGVIVFALSGALAGRYQLDPFGVVVLASVTAVGGGTIRDVILQTPVFWVEKPYYLYVILATAILTIVLIRQPKRIPKRFLLIADALGLALFAVLGTQKALYLGAPIPVAVVLGTITGIAGGIRDVLCNVIPILREEIYALAALGGSLFIILHGLNWNDTNAIVSISAALALRLAAIYWHVSLP FLFYLDIFGVIVFALSGALAGRYQLDPFGVVVLASVTAVGGGTIRDVILQTPVFWVEKPYYLYVILATAILTIVLIRQPKRIPKRFLLIADALGLALFAVLGTQKALYLGAPIPVAVVLGTITGIAGGIRDVLCNVIPILREEIYALAALGGSLFIILHGLNWNDTNAIVSISAALALRLAAIYWHVSLP 5wut-a1-m1-cA_5wut-a1-m1-cB Crystal structure of laminarinase from Flavobacterium sp. UMI-01 A0A1Y1CVU5 A0A1Y1CVU5 1.6 X-RAY DIFFRACTION 28 1.0 239 (Flavobacterium sp.) 239 (Flavobacterium sp.) 230 230 KLVWEEHFNGKELDTKNWNFELGDGCPNCGWGNSERQLYTKTNHKMENGKLVITAKKEGTQYTSTRITTQGKKEFQYGYIEARAKLPVGKGIWPAFWMLGSNIKTVGWPQCGEIDILEYVGKEPHMVFTSLHTTASHGNTINTKRTRIDTIEQGFHLYAIDWTKDKMDFFVDNILVYTFNPTDKTEAIWPYDQPFYFIINMAIGGNFGGPEVDDAIFPQDFSIDYIKVYQ KLVWEEHFNGKELDTKNWNFELGDGCPNCGWGNSERQLYTKTNHKMENGKLVITAKKEGTQYTSTRITTQGKKEFQYGYIEARAKLPVGKGIWPAFWMLGSNIKTVGWPQCGEIDILEYVGKEPHMVFTSLHTTASHGNTINTKRTRIDTIEQGFHLYAIDWTKDKMDFFVDNILVYTFNPTDKTEAIWPYDQPFYFIINMAIGGNFGGPEVDDAIFPQDFSIDYIKVYQ 5wuy-a1-m1-cA_5wuy-a1-m1-cB Crystal structure of chorismate synthase from Acinetobacter baumannii at 2.50A resolution B0VDX7 B0VDX7 2.5 X-RAY DIFFRACTION 204 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 279 279 4lj2-a1-m1-cA_4lj2-a1-m1-cB 4o90-a1-m1-cA_4o90-a1-m1-cB 4ob9-a1-m1-cA_4ob9-a1-m1-cB MAGNSIGQLFRVTTCGESHGVGLMAIVDGVPPGLALTEEDLQKDLDRRKPEPDQVEIISGVFEGKTTGTPIGLLIRNTDQKRSSARETAMRVAAGAIAKKYLAEKFGVLIRGHVTQIGNEVAEKLDWNEVPNNPFFCGDVDAVPRFEALVTSLREQGTSCGAKLEILAEKVPVGWGEPVFDRLDADIAHAMMSINAVKGVEIGDGFAVAGQFGGFLANHAGGILGGISSGQTIRVAIALKPTAKGRHDPCVGVRATPIAEAMLAIVLMDHFLRHRAQNA MAGNSIGQLFRVTTCGESHGVGLMAIVDGVPPGLALTEEDLQKDLDRRKPEPDQVEIISGVFEGKTTGTPIGLLIRNTDQKRSSARETAMRVAAGAIAKKYLAEKFGVLIRGHVTQIGNEVAEKLDWNEVPNNPFFCGDVDAVPRFEALVTSLREQGTSCGAKLEILAEKVPVGWGEPVFDRLDADIAHAMMSINAVKGVEIGDGFAVAGQFGGFLANHAGGILGGISSGQTIRVAIALKPTAKGRHDPCVGVRATPIAEAMLAIVLMDHFLRHRAQNA 5wva-a1-m1-cA_5wva-a1-m2-cA Serratia marcescens short-chain dehydrogenase/reductase F98Y/F202Y mutant A0A192ICX3 A0A192ICX3 1.47 X-RAY DIFFRACTION 145 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 245 245 5wuw-a1-m1-cA_5wuw-a1-m2-cA 5wuw-a1-m1-cB_5wuw-a1-m2-cB HPLQGKVAFVQGGSRGIGAAIVKRLASEGAAVAFTYAASADRAEAVASAVTTAGGKVLAIKADSADAAALQQAVRQAVSHFGNLDILVNNAGVYTLGGTEELALDDLDRMLAVNVRSVFVASQEAARHMNDGGRIIHIGSTNAERVPFGGAAVYAMSKSALVGLTKGMARDLGPRSITVNNVQPGPVDTEMNPDAGEYADQLKQLMAIGRYGKDEEIAGFVAYLAGPQAGYITGASLSIDGGFSA HPLQGKVAFVQGGSRGIGAAIVKRLASEGAAVAFTYAASADRAEAVASAVTTAGGKVLAIKADSADAAALQQAVRQAVSHFGNLDILVNNAGVYTLGGTEELALDDLDRMLAVNVRSVFVASQEAARHMNDGGRIIHIGSTNAERVPFGGAAVYAMSKSALVGLTKGMARDLGPRSITVNNVQPGPVDTEMNPDAGEYADQLKQLMAIGRYGKDEEIAGFVAYLAGPQAGYITGASLSIDGGFSA 5wva-a1-m1-cB_5wva-a1-m2-cB Serratia marcescens short-chain dehydrogenase/reductase F98Y/F202Y mutant A0A192ICX3 A0A192ICX3 1.47 X-RAY DIFFRACTION 145 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 218 218 HPLQGKVAFVQGGSRGIGAAIVKRLASEGAAVAFTYASAVTTAGGKVLAIKADSADAAALQQAVRQAVSHFGNLDILVNNAGVYTLGGTEELALDDLDRMLAVNVRSVFVASQEAARHMNDGGRIIHIGSTNAERVPFGGAAVYAMSKSALVGLTKGMARDLGPRSITVNNVQPGPVLMAIGRYGKDEEIAGFVAYLAGPQAGYITGASLSIDGGFSA HPLQGKVAFVQGGSRGIGAAIVKRLASEGAAVAFTYASAVTTAGGKVLAIKADSADAAALQQAVRQAVSHFGNLDILVNNAGVYTLGGTEELALDDLDRMLAVNVRSVFVASQEAARHMNDGGRIIHIGSTNAERVPFGGAAVYAMSKSALVGLTKGMARDLGPRSITVNNVQPGPVLMAIGRYGKDEEIAGFVAYLAGPQAGYITGASLSIDGGFSA 5wva-a1-m2-cB_5wva-a1-m2-cA Serratia marcescens short-chain dehydrogenase/reductase F98Y/F202Y mutant A0A192ICX3 A0A192ICX3 1.47 X-RAY DIFFRACTION 107 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 218 245 4zgw-a1-m1-cB_4zgw-a1-m1-cA 5wul-a1-m1-cB_5wul-a1-m1-cA 5wuw-a1-m1-cB_5wuw-a1-m1-cA 5wuw-a1-m2-cB_5wuw-a1-m2-cA 5wva-a1-m1-cB_5wva-a1-m1-cA HPLQGKVAFVQGGSRGIGAAIVKRLASEGAAVAFTYASAVTTAGGKVLAIKADSADAAALQQAVRQAVSHFGNLDILVNNAGVYTLGGTEELALDDLDRMLAVNVRSVFVASQEAARHMNDGGRIIHIGSTNAERVPFGGAAVYAMSKSALVGLTKGMARDLGPRSITVNNVQPGPVLMAIGRYGKDEEIAGFVAYLAGPQAGYITGASLSIDGGFSA HPLQGKVAFVQGGSRGIGAAIVKRLASEGAAVAFTYAASADRAEAVASAVTTAGGKVLAIKADSADAAALQQAVRQAVSHFGNLDILVNNAGVYTLGGTEELALDDLDRMLAVNVRSVFVASQEAARHMNDGGRIIHIGSTNAERVPFGGAAVYAMSKSALVGLTKGMARDLGPRSITVNNVQPGPVDTEMNPDAGEYADQLKQLMAIGRYGKDEEIAGFVAYLAGPQAGYITGASLSIDGGFSA 5wvc-a1-m1-cB_5wvc-a1-m1-cD Structure of the CARD-CARD disk P55211 P55211 2.993 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 5juy-a1-m1-cO_5juy-a1-m1-cP 5wve-a1-m1-cS_5wve-a1-m1-cT 5wve-a1-m1-cT_5wve-a1-m1-cU ASMDEADRRLLRRRLRLVEELQVDQLWDVLLSRELFRPHMIEDIQRAGSGSRRDQARQLIIDLETRGSQALPLFISCLEDTGQDMLASFLRTNRQAAKLSKP ASMDEADRRLLRRRLRLVEELQVDQLWDVLLSRELFRPHMIEDIQRAGSGSRRDQARQLIIDLETRGSQALPLFISCLEDTGQDMLASFLRTNRQAAKLSKP 5wvd-a1-m1-cB_5wvd-a1-m1-cA Structure of Mnk1 in complex with DS12881479 Q9BUB5 Q9BUB5 3 X-RAY DIFFRACTION 98 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 212 241 PGKFEDMYKLTSELLGEGAYAKVQGAVSLQNGKEYAVKIIEKQAGHSRSRVFREVETLYQCQGNKNILELIEFFEDDTRFYLVFEKLQGGSILAHIQASRVVRDVAAALDFLHTKGIAHRDLKPENILCESPVSPVKICDFDLGSGMEYMAPEVVEVFTDQATFYDKRCDLWSLGVVLYIMLSGYPDLISKLLVRDAKQRLSAAQVLQHPWV PGKFEDMYKLTSELLGEGAYAKVQGAVSLQNGKEYAVKIIEKQAGHSRSRVFREVETLYQCQGNKNILELIEFFEDDTRFYLVFEKLQGGSILAHIQKQKHFNEREASRVVRDVAAALDFLHTKGIAHRDLKPENILCESPEKVSPVKICDFDLGSGYMAPEVVEVFTDQATFYDKRCDLWSLGVVLYIMLSGYPPFKYEFPDKDWAHISSEAKDLISKLLVRDAKQRLSAAQVLQHPWVQ 5wve-a1-m1-cS_5wve-a1-m1-cV Apaf-1-Caspase-9 holoenzyme P55211 P55211 4.4 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 MDEADRRLLRRCRLRLVEELQVDQLWDVLLSRELFRPHMIEDIQRAGSGSRRDQARQLIIDLETRGSQALPLFISCLEDTGQDMLASFLRTNRQAA MDEADRRLLRRCRLRLVEELQVDQLWDVLLSRELFRPHMIEDIQRAGSGSRRDQARQLIIDLETRGSQALPLFISCLEDTGQDMLASFLRTNRQAA 5wx4-a2-m1-cB_5wx4-a2-m1-cC Alkylquinolone synthase from Evodia rutaecarpa A0A1W7GKH4 A0A1W7GKH4 2.203 X-RAY DIFFRACTION 183 1.0 354523 (Tetradium ruticarpum) 354523 (Tetradium ruticarpum) 391 391 5wx4-a1-m1-cA_5wx4-a1-m2-cA 5wx5-a1-m1-cA_5wx5-a1-m1-cB 5wx5-a2-m1-cC_5wx5-a2-m1-cD 5wx5-a3-m1-cE_5wx5-a3-m1-cF FSMEKVKRILDAQRTEGPATVLAIGTANPPTCFYEADYPDFYFRVTNCEDKPELKEKFKRISERSAVKKRYLHVTEEILKENPNMCSYRAPSLDARHAILVEEVPKLGKEAALKAIKEWGQPLSKITHLIFSAMSGVDIPGADFRLMNLLGLEPSVNRLMIYTQGCYMGGAAMRHAKDIAENNAGARVLLVFCDLMDMYFHAPQNRVDLLYGQAVFGDGAAALIVGADPDDDCTERPLFQVVSCAERAVPGTQDYIKAHLKEMGMELHLSTDVPRMIGKNIEKLLADAVSPFGISDWNSLFYIVHPGAVAILDQVEENLGLGEDKLRASRYVLSEYGNMGAASVFFILDEMRNKSAEEGKLTTGEGLEWGVLFSFGPGLTVETVVLLSVPL FSMEKVKRILDAQRTEGPATVLAIGTANPPTCFYEADYPDFYFRVTNCEDKPELKEKFKRISERSAVKKRYLHVTEEILKENPNMCSYRAPSLDARHAILVEEVPKLGKEAALKAIKEWGQPLSKITHLIFSAMSGVDIPGADFRLMNLLGLEPSVNRLMIYTQGCYMGGAAMRHAKDIAENNAGARVLLVFCDLMDMYFHAPQNRVDLLYGQAVFGDGAAALIVGADPDDDCTERPLFQVVSCAERAVPGTQDYIKAHLKEMGMELHLSTDVPRMIGKNIEKLLADAVSPFGISDWNSLFYIVHPGAVAILDQVEENLGLGEDKLRASRYVLSEYGNMGAASVFFILDEMRNKSAEEGKLTTGEGLEWGVLFSFGPGLTVETVVLLSVPL 5wx6-a2-m1-cC_5wx6-a2-m1-cB Alkyldiketide-CoA synthase W332Q mutant from Evodia rutaecarpa A0A1X8XLG1 A0A1X8XLG1 1.799 X-RAY DIFFRACTION 148 1.0 354523 (Tetradium ruticarpum) 354523 (Tetradium ruticarpum) 368 376 5wx3-a1-m1-cC_5wx3-a1-m1-cA 5wx3-a2-m1-cB_5wx3-a2-m1-cD 5wx6-a1-m1-cA_5wx6-a1-m1-cD 5wx7-a1-m1-cB_5wx7-a1-m1-cA 5wx7-a2-m1-cD_5wx7-a2-m1-cC QAAVLAIATANPPNIFYQADYPDFYFRVTKSEHMTQLKDKFKRMCEKSMIRKRHMYLTEDVIKENPNIGILNAPSFNARQEIMVEEVPKLGKEAALKAIKEWGQPLSKLTHLIFCTSSGVNMPSADYHLAKIMGLPPYVQRTMIYQQGCFAGATALRLAKDIAENNGGHTRILIVCVELMVVCFQAPSDTYLDLLVGNAIFSDGAAAAIVGADLDTTTERPIFNIVSANQTTIPDSEDGIVGHIREMGMKYYLSRTVPQVIGNNIVQCCRDTFWNSMFYIVHPGGPAVLRMMEEKLGLSKERMRASWHVLSEYGNMQGPSVLFILDEMRNKSMEEGKSTTGEGLEWGVMFGFGPGLTVETVVLRSVAI QAAVLAIATANPPNIFYQADYPDFYFRVTKSEHMTQLKDKFKRMCEKSMIRKRHMYLTEDVIKENPNIGILNAPSFNARQEIMVEEVPKLGKEAALKAIKEWGQPLSKLTHLIFCTSSGVNMPSADYHLAKIMGLPPYVQRTMIYQQGCFAGATALRLAKDIAENNGGHTRILIVCVELMVVCFQAPSDTYLDLLVGNAIFSDGAAAAIVGADLDTTTERPIFNIVSANQTTIPDSEDGIVGHIREMGMKYYLSRTVPQVIGNNIVQCCRDTFTPLGINDWNSMFYIVHPGGPAVLRMMEEKLGLSKERMRASWHVLSEYGNMQGPSVLFILDEMRNKSMEEGKSTTGEGLEWGVMFGFGPGLTVETVVLRSVAIN 5wx8-a2-m1-cC_5wx8-a2-m1-cD Human herpesvirus 6A immediate early protein 2 C-terminal domain Q77Z83 Q77Z83 2.5 X-RAY DIFFRACTION 235 1.0 10370 (Human herpesvirus 6 (strain Uganda-1102)) 10370 (Human herpesvirus 6 (strain Uganda-1102)) 160 160 5wx8-a1-m1-cA_5wx8-a1-m1-cB KNLKEAVYDICCNGLSNNAAIIYFTRSKKVAQIIKIQKELIRPNITVSEAFKNHAPPKYYDKDEIKRFIQLQKQGPQELWDKFENNTTHDLFTRHSDVKTIIYAATPIDFVGAVKTCNKYAKDNPKEIVLRVCSIIDGDNPISIYNPISKEFKSKFSTLS KNLKEAVYDICCNGLSNNAAIIYFTRSKKVAQIIKIQKELIRPNITVSEAFKNHAPPKYYDKDEIKRFIQLQKQGPQELWDKFENNTTHDLFTRHSDVKTIIYAATPIDFVGAVKTCNKYAKDNPKEIVLRVCSIIDGDNPISIYNPISKEFKSKFSTLS 5wxm-a1-m1-cB_5wxm-a1-m1-cA Crystal structure of the Imp3 and Mpp10 complex P32899 P32899 2.304 X-RAY DIFFRACTION 16 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 129 130 RDTQVRTYHIQNREDYHKYNRICGDIRRLANKLSLLPPTDPFRRKHEQLLLDKLYAGVLTTKSKISDLENKVTVSAICRRRLPVIHRLKAETIQDAVKFIEQGHVRVGPNLINDPAYLVTRNEDYVTWV RDTQVRTYHIQNREDYHKYNRICGDIRRLANKLSLLPPTDPFRRKHEQLLLDKLYAGVLTTKSKISDLENKVTVSAICRRRLPVIHRLKAETIQDAVKFIEQGHVRVGPNLINDPAYLVTRNEDYVTWVD 5wxm-a1-m1-cU_5wxm-a1-m1-cV Crystal structure of the Imp3 and Mpp10 complex P47083 P47083 2.304 X-RAY DIFFRACTION 24 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 27 32 GPLQKAHSEISELYANLVYKLDVLSSV GPLQKAHSEISELYANLVYKLDVLSSVHFVPK 5wxx-a1-m1-cA_5wxx-a1-m2-cA Crystal structure of Microcystis aeruginosa PCC 7806 aspartate racemase in complex with citrate Q9RNB4 Q9RNB4 2.35 X-RAY DIFFRACTION 103 1.0 267872 (Microcystis aeruginosa PCC 7806) 267872 (Microcystis aeruginosa PCC 7806) 225 225 5wxy-a1-m1-cA_5wxy-a1-m2-cA 5wxz-a1-m1-cA_5wxz-a1-m2-cA 5xni-a1-m1-cA_5xni-a1-m2-cA 5xnj-a1-m1-cA_5xnj-a1-m2-cA 5xnk-a1-m1-cA_5xnk-a1-m2-cA LPILGVLGGGPVVTAEFLKSIYEYNPFIDKEQESPNVIVFSFPSAPDRTGSIDSGKEREFIDFIQVNLEHLNKLADCIVIGCCTAHYALPQIPENLKDKLISLIKIADQELQEYNEPTLLLASTGTYQKKLFQEGCTTADLIISLSESDQKLIHEIYKVLKRGHDPLSILRDIEALLEKYNTRSYISGCTEFHLLTKSLKLKGIDSIKAIDPLSTIAQNFSQLII LPILGVLGGGPVVTAEFLKSIYEYNPFIDKEQESPNVIVFSFPSAPDRTGSIDSGKEREFIDFIQVNLEHLNKLADCIVIGCCTAHYALPQIPENLKDKLISLIKIADQELQEYNEPTLLLASTGTYQKKLFQEGCTTADLIISLSESDQKLIHEIYKVLKRGHDPLSILRDIEALLEKYNTRSYISGCTEFHLLTKSLKLKGIDSIKAIDPLSTIAQNFSQLII 5wy1-a1-m1-cA_5wy1-a1-m2-cA Crystal structure of mouse DNA methyltransferase 1 (T1505A mutant) P13864 P13864 3.27 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1140 1140 PKCPECGQHLDDPNLKYQQHPEDAVDEPQMLTSEKLSYEDSPMHRFTSFSVYCSRGHLCPVDTGLIEKNVELYFSGCAKAIHDENPSMEGGINGKNLGPINQWWLSGFDGGEKVLIGFSTAFAEYILMEPSKEYEPIFGLMQEKIYISKIVVEFLQNNPDAVYEDLINKIETTVPPSTINVNRFTEDSLLRHAQFVVSQVESYDEAKDDDETPIFLSPCMRALIHLAGVSLGQRRATRAPTKATTTKLVYQIFDTFFSEQIEKRRRCGVCEVCQQPACLKRRCPNLAVKEADDDEEADDEMPSPKKLHQGKKKKQNKDRISWLGQPMKIERTYYQKVSIDEEMLEVGDCVSVIPDDSSKPLYLARVTALWEDKNGQMMFHAHWFCAGTDTVLGATSDPLELFLVGECENMQLSYIHSKVKVIYKAPSENWAMEGGKTYFFQLWYNQEYARFESPPKTQPTEDNKHKFCLSCIRLAELRQKEMPKVLEQIEEVDGRVYCSSITKNGVVYRLGDSVYLPPEAFTFNIKVKKDPVNETLYPEHYRKYSLDAPEPYRIGRIKEIHCGKKKGKVNEADIKLRLYKFYRPENTHRSYNGSYHTDINMLYWSDEEAVVNFSDVQGRCTVEYGEDLLESIQDYSQGGPDRFYFLEAYNSKTKNFEDPPNHARSKLPKLRTLDVFSGCGGLSEGFHQAGISETLWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMAGEVTNSLGQRLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSFLSYCDYYRPRFFLLENVRNFVSYRRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPLFPEPLHVFAPRACQLSVVVDDKKFVSNITRLSSGPFRTITVRDTMSDLPEIQNGASNSEIPYNGEPLSWFQRQLRGSHYQPILRDHICKDMSPLVAARMRHIPLFPGSDWRDLPNIQVRLGDGVIAHKLQYTFHDVKNGYSSTGALRGVCSCAEGKACDPESRQFSTLIPWCLPHAGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDSYRFFGNILDRHRQVGNAVPPPLAKAIGLEIKLCLLSSARESASAAVKA PKCPECGQHLDDPNLKYQQHPEDAVDEPQMLTSEKLSYEDSPMHRFTSFSVYCSRGHLCPVDTGLIEKNVELYFSGCAKAIHDENPSMEGGINGKNLGPINQWWLSGFDGGEKVLIGFSTAFAEYILMEPSKEYEPIFGLMQEKIYISKIVVEFLQNNPDAVYEDLINKIETTVPPSTINVNRFTEDSLLRHAQFVVSQVESYDEAKDDDETPIFLSPCMRALIHLAGVSLGQRRATRAPTKATTTKLVYQIFDTFFSEQIEKRRRCGVCEVCQQPACLKRRCPNLAVKEADDDEEADDEMPSPKKLHQGKKKKQNKDRISWLGQPMKIERTYYQKVSIDEEMLEVGDCVSVIPDDSSKPLYLARVTALWEDKNGQMMFHAHWFCAGTDTVLGATSDPLELFLVGECENMQLSYIHSKVKVIYKAPSENWAMEGGKTYFFQLWYNQEYARFESPPKTQPTEDNKHKFCLSCIRLAELRQKEMPKVLEQIEEVDGRVYCSSITKNGVVYRLGDSVYLPPEAFTFNIKVKKDPVNETLYPEHYRKYSLDAPEPYRIGRIKEIHCGKKKGKVNEADIKLRLYKFYRPENTHRSYNGSYHTDINMLYWSDEEAVVNFSDVQGRCTVEYGEDLLESIQDYSQGGPDRFYFLEAYNSKTKNFEDPPNHARSKLPKLRTLDVFSGCGGLSEGFHQAGISETLWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMAGEVTNSLGQRLPQKGDVEMLCGGPPCQGFSGMNRFNSRTYSKFKNSLVVSFLSYCDYYRPRFFLLENVRNFVSYRRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPLFPEPLHVFAPRACQLSVVVDDKKFVSNITRLSSGPFRTITVRDTMSDLPEIQNGASNSEIPYNGEPLSWFQRQLRGSHYQPILRDHICKDMSPLVAARMRHIPLFPGSDWRDLPNIQVRLGDGVIAHKLQYTFHDVKNGYSSTGALRGVCSCAEGKACDPESRQFSTLIPWCLPHAGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDSYRFFGNILDRHRQVGNAVPPPLAKAIGLEIKLCLLSSARESASAAVKA 5wy3-a1-m1-cA_5wy3-a1-m1-cB Crystal structure of Chaetomium thermophilum Utp10 middle domain G0S5L1 G0S5L1 3.2 X-RAY DIFFRACTION 34 0.997 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 363 366 PSLDSTFERLSKLQPTATSCLAKDSESLFNDLCSVFLSAAVSESDLERFDATPVLSRPKAPSNSFYLSFYLRVWCGPYPTLAKVAALERVKTRLKEGDCVDKDFQAIFPYCIAALSDPAKKVRRAAADLVAVLGSALWAAKDLYGKTGTTSPLDKDALKALIRSVLIPCLEESVLHEDHVVAALVGALESHSARLSIFKFLCGHVVETPLLAVKLRLLRSLNQIRRISGTTRTDLLLPLLRWWAGLSANEAAELAAQESVDVPAIDDAVVDVVVPNHAAGLEAFFQLVKEAIRPGLLQAIFARIAKMWPSMKSDTKYSTAKTLFELTQDPKLNAEQSDVITEAVEVLRKVDLTTDILHYFIDS SLDSTFERLSKLQPTATSCLAKDSESLFNDLCSVFLSAAVSESDLERFDATPVLSRPKAPSNSFYLSFYLRVWCGPYPTLAKVAALERVKTRLKEGDCVDKDFQAIFPYCIAALSDPAKKVRRAAADLVAVLGSAYKQLWAAKDLYGKTGTTSPLDKDALKALIRSVLIPCLEESVLHEDHVVAALVGALELSHSARLSIFKFLCGHVVETPLLAVKLRLLRSLNQIRRISGTTRTDLLLPLLRWWAGLSANEAAELAAQESVDVPAIDDAVVDVVVPNHAAGLEAFFQLVKEAIRPGLLQAIFARIAKMWPSMKSDTKYSTAKTLFELTQDPKLNAEQSDVITEAVEVLRKVDLTTDILHYFIDS 5wy6-a1-m1-cA_5wy6-a1-m1-cE Crystal structure of AtNUDX1 (E56A) Q9CA40 Q9CA40 1.779 X-RAY DIFFRACTION 18 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 138 139 AIPRVAVVVFILNGNSILLGRRRSSIGNSTFALPGGHLEFGESFEECAARAVMEETGLKIEKMKLLTVTNNVFKEAPTPSHYVSVSIRAVLVDPSQEPKNMEPEKCEGWDWYDWENLPKPLFWPLEKLFGSGFNPFTH AIPRVAVVVFILNGNSILLGRRRSSIGNSTFALPGGHLEFGESFEECAARAVMEETGLKIEKMKLLTVTNNVFKEAPTPSHYVSVSIRAVLVDPSQEPKNMEPEKCEGWDWYDWENLPKPLFWPLEKLFGSGFNPFTHG 5wym-a1-m1-cA_5wym-a1-m2-cA Crystal structure of an anti-connexin26 scFv 2.65 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 229 229 QVQLQQSGGGVVQPGRSLRLSCAASGFTFSSYAMHWVRQAPGKGLEWVAVISHGGSNKYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARDFSWRGYYMDVWGKGTLVTVSSGSETTLTQSPATLSLSPGERATLSCRASQSISSYLAWYQQKPGQAPRLLIYGASTRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGGGTKVEIK QVQLQQSGGGVVQPGRSLRLSCAASGFTFSSYAMHWVRQAPGKGLEWVAVISHGGSNKYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARDFSWRGYYMDVWGKGTLVTVSSGSETTLTQSPATLSLSPGERATLSCRASQSISSYLAWYQQKPGQAPRLLIYGASTRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGGGTKVEIK 5wym-a2-m1-cC_5wym-a2-m3-cC Crystal structure of an anti-connexin26 scFv 2.65 X-RAY DIFFRACTION 146 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 228 QVQLQQSGGGVVQPGRSLRLSCAASGFTFSSYAMHWVRQAPGKGLEWVAVISHGGSNKYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARDFSWRGYYMDVWGKGTLVTVSSSETTLTQSPATLSLSPGERATLSCRASQSISSYLAWYQQKPGQAPRLLIYGASTRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGGGTKVEIK QVQLQQSGGGVVQPGRSLRLSCAASGFTFSSYAMHWVRQAPGKGLEWVAVISHGGSNKYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARDFSWRGYYMDVWGKGTLVTVSSSETTLTQSPATLSLSPGERATLSCRASQSISSYLAWYQQKPGQAPRLLIYGASTRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQYGSSPRTFGGGTKVEIK 5wyo-a1-m1-cA_5wyo-a1-m1-cB Solution structure of E.coli HdeA P0AES9 P0AES9 NOT SOLUTION NMR 148 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 89 89 ADAQKAADNKKPVNSWTCEDFLAVDESFQPTAVGFAEALNNKDKPEDAVLDVQGIATVTPAIVQACTQDKQANFKDKVKGEWDKIKKDM ADAQKAADNKKPVNSWTCEDFLAVDESFQPTAVGFAEALNNKDKPEDAVLDVQGIATVTPAIVQACTQDKQANFKDKVKGEWDKIKKDM 5wyr-a1-m1-cA_5wyr-a1-m1-cB Crystal structure and catalytic mechanism of the essential m1G37 tRNA methyltransferase TrmD from Pseudomonas aeruginosa Q02RL6 Q02RL6 2.45 X-RAY DIFFRACTION 263 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 242 248 5wyq-a1-m1-cA_5wyq-a1-m1-cB 5zhm-a1-m1-cB_5zhm-a1-m1-cA 5zhn-a1-m1-cA_5zhn-a1-m1-cB 6afk-a1-m1-cA_6afk-a1-m1-cB 6jki-a1-m1-cA_6jki-a1-m1-cB 6joe-a1-m1-cB_6joe-a1-m1-cA SMLWVGVVSIFPEMFRAISDYGITSRAVKQGLLTLTCWNPRVYTEDRHQTVDDRPFGGGPGMVMKIKPLEGALADARQAAGGRKAKVIYLSPQGRQLTQAGVRELAEEEALILIAGRYEGIDERFIEEHVDEEWSIGDYVLSGGELPAMVLVDAVTRLLPGALGEDSFTDGLLDCPHYTRPEVYADKRVPEVLLSGNHEHIRRWRLQQALGRTWERRADLLDSRSLSGEEQKLLAEYIRQRD SMLWVGVVSIFPEMFRAISDYGITSRAVKQGLLTLTCWNPRVYTEDRHQTVDDRPFGGGPGMVMKIKPLEGALADARQAAGGRKAKVIYLSPQGRQLTQAGVRELAEEEALILIAGRYEGIDERFIEEHVDEEWSIGDYVLSGGELPAMVLVDAVTRLLPGALGHADSAEEDSFTDGLLDCPHYTRPEVYADKRVPEVLLSGNHEHIRRWRLQQALGRTWERRADLLDSRSLSGEEQKLLAEYIRQRD 5wze-a1-m1-cA_5wze-a1-m1-cB The structure of Pseudomonas aeruginosa aminopeptidase PepP Q9HTW6 Q9HTW6 1.783 X-RAY DIFFRACTION 19 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 442 449 MIRIPKSEYARRRKALMAQMEPNSIAILPAAPMYIRNRDVEHVYRQDSDFQYLTGFPEPEAVMALIPGRAHGEYVLFCRERDPERELWDGLRAGQDGAIGQYGADDAFPIGDIDDILPGLIEGRDRVYYALGANPDFDRRLMDWINVIRSKARQGAQPPNEFVALDHLLHDQRLYKSANEVKVMRYAAEVSARAHIRAMEVCRPGLFEYHLEAELEYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAAIKDGDLILIDAGCEIDCYASDITRTFPANGRFSPEQKAIYELVLEANMAAFDYIAPGRHWNEAHEATVRVITAGLVRLGLLEGDVDELIAHEAYKAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEPGMAMTVEPGIYIAPDNTTVAKKWRGIGVRIEDDVVVTRNGCEVLTNGVPKTVAEIEALMAAAKSE MIRIPKSEYARRRKALMAQMEPNSIAILPAAPMYIRNRDVEHVYRQDSDFQYLTGFPEPEAVMALIPGRAHGEYVLFCRERDPERELWDGLRAGQDGAIGQYGADDAFPIGDIDDILPGLIEGRDRVYYALGANPDFDRRLMDWINVIRSKARQGAQPPNEFVALDHLLHDQRLYKSANEVKVMRYAAEVSARAHIRAMEVCRPGLFEYHLEAELEYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAAIKDGDLILIDAGCEIDCYASDITRTFPANGRFSPEQKAIYELVLEANMAAFDYIAPGRHWNEAHEATVRVITAGLVRLGLLEGDVDELIAHEAYKAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEPGMAMTVEPGIYIAPDNTTVAKKWRGIGVRIEDDVVVTRNGCEVLTNGVPKTVAEIEALMAAAKSEAALEHHH 5wze-a1-m1-cC_5wze-a1-m1-cD The structure of Pseudomonas aeruginosa aminopeptidase PepP Q9HTW6 Q9HTW6 1.783 X-RAY DIFFRACTION 14 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 442 444 MIRIPKSEYARRRKALMAQMEPNSIAILPAAPMYIRNRDVEHVYRQDSDFQYLTGFPEPEAVMALIPGRAHGEYVLFCRERDPERELWDGLRAGQDGAIGQYGADDAFPIGDIDDILPGLIEGRDRVYYALGANPDFDRRLMDWINVIRSKARQGAQPPNEFVALDHLLHDQRLYKSANEVKVMRYAAEVSARAHIRAMEVCRPGLFEYHLEAELEYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAAIKDGDLILIDAGCEIDCYASDITRTFPANGRFSPEQKAIYELVLEANMAAFDYIAPGRHWNEAHEATVRVITAGLVRLGLLEGDVDELIAHEAYKAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEPGMAMTVEPGIYIAPDNTTVAKKWRGIGVRIEDDVVVTRNGCEVLTNGVPKTVAEIEALMAAAKSE MIRIPKSEYARRRKALMAQMEPNSIAILPAAPMYIRNRDVEHVYRQDSDFQYLTGFPEPEAVMALIPGRAHGEYVLFCRERDPERELWDGLRAGQDGAIGQYGADDAFPIGDIDDILPGLIEGRDRVYYALGANPDFDRRLMDWINVIRSKARQGAQPPNEFVALDHLLHDQRLYKSANEVKVMRYAAEVSARAHIRAMEVCRPGLFEYHLEAELEYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAAIKDGDLILIDAGCEIDCYASDITRTFPANGRFSPEQKAIYELVLEANMAAFDYIAPGRHWNEAHEATVRVITAGLVRLGLLEGDVDELIAHEAYKAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEPGMAMTVEPGIYIAPDNTTVAKKWRGIGVRIEDDVVVTRNGCEVLTNGVPKTVAEIEALMAAAKSEAA 5wze-a1-m1-cD_5wze-a1-m1-cB The structure of Pseudomonas aeruginosa aminopeptidase PepP Q9HTW6 Q9HTW6 1.783 X-RAY DIFFRACTION 124 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 444 449 5wze-a1-m1-cA_5wze-a1-m1-cC MIRIPKSEYARRRKALMAQMEPNSIAILPAAPMYIRNRDVEHVYRQDSDFQYLTGFPEPEAVMALIPGRAHGEYVLFCRERDPERELWDGLRAGQDGAIGQYGADDAFPIGDIDDILPGLIEGRDRVYYALGANPDFDRRLMDWINVIRSKARQGAQPPNEFVALDHLLHDQRLYKSANEVKVMRYAAEVSARAHIRAMEVCRPGLFEYHLEAELEYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAAIKDGDLILIDAGCEIDCYASDITRTFPANGRFSPEQKAIYELVLEANMAAFDYIAPGRHWNEAHEATVRVITAGLVRLGLLEGDVDELIAHEAYKAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEPGMAMTVEPGIYIAPDNTTVAKKWRGIGVRIEDDVVVTRNGCEVLTNGVPKTVAEIEALMAAAKSEAA MIRIPKSEYARRRKALMAQMEPNSIAILPAAPMYIRNRDVEHVYRQDSDFQYLTGFPEPEAVMALIPGRAHGEYVLFCRERDPERELWDGLRAGQDGAIGQYGADDAFPIGDIDDILPGLIEGRDRVYYALGANPDFDRRLMDWINVIRSKARQGAQPPNEFVALDHLLHDQRLYKSANEVKVMRYAAEVSARAHIRAMEVCRPGLFEYHLEAELEYEFRKGGAKMPAYGSIVAAGRNACILHYRENDAAIKDGDLILIDAGCEIDCYASDITRTFPANGRFSPEQKAIYELVLEANMAAFDYIAPGRHWNEAHEATVRVITAGLVRLGLLEGDVDELIAHEAYKAFYMHRAGHWLGMDVHDVGEYRVGGEWRVLEPGMAMTVEPGIYIAPDNTTVAKKWRGIGVRIEDDVVVTRNGCEVLTNGVPKTVAEIEALMAAAKSEAALEHHH 5wzf-a1-m1-cA_5wzf-a1-m1-cB Crystal structure of Mycobacterium tuberculosis VapC20 (Rv2549c), Sarcin-Ricin loop cleaving toxin P95004 P95004 1.75 X-RAY DIFFRACTION 57 0.992 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 130 130 5wz4-a1-m1-cA_5wz4-a1-m1-cB SIFVDTSFWAALGNAGDARHGTAKRLWASKPPVVMTSNHVLGETWTLLNRRCGHRAAVAAAAIRLSTVVRVEHVTADLEEQAWEWLVRHDEREYSFVDATSFAVMRKKGIQNAYAFDGDFSAAGFVEVRP ASIFVDTSFWAALGNAGDARHGTAKRLWASKPPVVMTSNHVLGETWTLLNRRGHRAAVAAAAIRLSTVVRVEHVTADLEEQAWEWLVRHDEREYSFVDATSFAVMRKKGIQNAYAFDGDFSAAGFVEVRP 5wzy-a1-m2-cA_5wzy-a1-m3-cA Crystal structure of the P2X4 receptor from zebrafish in the presence of CTP at 2.8 Angstroms F8W463 F8W463 2.799 X-RAY DIFFRACTION 109 1.0 7955 (Danio rerio) 7955 (Danio rerio) 324 324 3h9v-a1-m1-cA_3h9v-a1-m2-cA 3h9v-a1-m1-cA_3h9v-a1-m3-cA 3h9v-a1-m2-cA_3h9v-a1-m3-cA 3i5d-a1-m1-cA_3i5d-a1-m1-cB 3i5d-a1-m1-cA_3i5d-a1-m1-cC 3i5d-a1-m1-cC_3i5d-a1-m1-cB 4dw0-a1-m1-cA_4dw0-a1-m2-cA 4dw0-a1-m1-cA_4dw0-a1-m3-cA 4dw0-a1-m2-cA_4dw0-a1-m3-cA 4dw1-a1-m1-cA_4dw1-a1-m2-cA 4dw1-a1-m1-cA_4dw1-a1-m3-cA 4dw1-a1-m2-cA_4dw1-a1-m3-cA 5wzy-a1-m1-cA_5wzy-a1-m2-cA 5wzy-a1-m1-cA_5wzy-a1-m3-cA RFTQALVIAYVIGYVCVYNKGYQDTDTVLSSVTTKVKGIALTKTSELGERIWDVADYIIPPQEDGSFFVLTNMIITTNQTQSKCAENPTPASTCTSHRDCKRGFNDARGDGVRTGRCVSYSASVKTCEVLSWCPLEKIVDPPNPPLLADAERFTVLIKNNIRYPKFNFNKRNILPNINSSYLTHCVFSRKTDPDCPIFRLGDIVGEAEEDFQIMAVRGGVMGVQIRWDCDLDMPQSWCVPRYTFRRLDNKDPDNNVAPGYNFRFAKYYKNSDGTETRTLIKGYGIRFDVMVFGQAGKFNIIPTLLNIGAGLALLGLVNVICDWI RFTQALVIAYVIGYVCVYNKGYQDTDTVLSSVTTKVKGIALTKTSELGERIWDVADYIIPPQEDGSFFVLTNMIITTNQTQSKCAENPTPASTCTSHRDCKRGFNDARGDGVRTGRCVSYSASVKTCEVLSWCPLEKIVDPPNPPLLADAERFTVLIKNNIRYPKFNFNKRNILPNINSSYLTHCVFSRKTDPDCPIFRLGDIVGEAEEDFQIMAVRGGVMGVQIRWDCDLDMPQSWCVPRYTFRRLDNKDPDNNVAPGYNFRFAKYYKNSDGTETRTLIKGYGIRFDVMVFGQAGKFNIIPTLLNIGAGLALLGLVNVICDWI 5x00-a1-m1-cB_5x00-a1-m2-cA Nucleoside Diphosphate Kinase from Vibrio cholerae is a Thermolabile Type II tetramer C3LT09 C3LT09 3.06 X-RAY DIFFRACTION 16 1.0 579112 (Vibrio cholerae M66-2) 579112 (Vibrio cholerae M66-2) 111 125 ERTFSIIKPDAVKRNLIGEIYHRIEKAGLQIIAAKMVHLSEEQASGFYAEHEFEPLKEFMTSGPIMVQVLEGENAIARYRELMNSVHGSDSPASAAREIEFFFPESEICPR GSMALERTFSIIKPDAVKRNLIGEIYHRIEKAGLQIIAAKMVHLSEEQASGFYAEHEGKPFFEPLKEFMTSGPIMVQVLEGENAIARYRELMGKRYNSVHGSDSPASAAREIEFFFPESEICPRP 5x00-a2-m1-cB_5x00-a2-m1-cA Nucleoside Diphosphate Kinase from Vibrio cholerae is a Thermolabile Type II tetramer C3LT09 C3LT09 3.06 X-RAY DIFFRACTION 73 1.0 579112 (Vibrio cholerae M66-2) 579112 (Vibrio cholerae M66-2) 111 125 5x00-a1-m1-cB_5x00-a1-m1-cA 5x00-a1-m2-cB_5x00-a1-m2-cA ERTFSIIKPDAVKRNLIGEIYHRIEKAGLQIIAAKMVHLSEEQASGFYAEHEFEPLKEFMTSGPIMVQVLEGENAIARYRELMNSVHGSDSPASAAREIEFFFPESEICPR GSMALERTFSIIKPDAVKRNLIGEIYHRIEKAGLQIIAAKMVHLSEEQASGFYAEHEGKPFFEPLKEFMTSGPIMVQVLEGENAIARYRELMGKRYNSVHGSDSPASAAREIEFFFPESEICPRP 5x04-a1-m1-cB_5x04-a1-m1-cA 12:0-ACP thioesterase from Umbellularia californica Q41635 Q41635 2.43 X-RAY DIFFRACTION 47 1.0 3438 (Umbellularia californica) 3438 (Umbellularia californica) 260 276 FGLHGLVFRRTFAIRSYEVGPDRSTSILAVMNHMQEATLNHAKSVGILGDGFGTTLEMSKRDLMWVVRRTHVAVERYPTWGDTVEVECWIGASGNNGMRRDFLVRDCKTGEILTRCTSLSVLMNTRTRRLSTIPDEVRGEIGPAFIDNVAVKDDEIKKLQKLNDSTADYIQGGLTPRWNDLDVNQHVNNLKYVAWVFETVPDSIFESHHISSFTLEYRRECTRDSVLRSLTTVSGGSSEAGLVCDGGSEVLRARTEWRPK ENLYFQSDDHFGLHGLVFRRTFAIRSYEVGPDRSTSILAVMNHMQEATLNHAKSVGILGDGFGTTLEMSKRDLMWVVRRTHVAVERYPTWGDTVEVECWIGASGNNGMRRDFLVRDCKTGEILTRCTSLSVLMNTRTRRLSTIPDEVRGEIGPAFIDNVAVKDDEIKKLQKLNDSTADYIQGGLTPRWNDLDVNQHVNNLKYVAWVFETVPDSIFESHHISSFTLEYRRECTRDSVLRSLTTVSGGSSEAGLVCDHLLQLEGGSEVLRARTEWRPK 5x06-a1-m1-cH_5x06-a1-m1-cF DNA replication regulation protein P69931 P69931 3.237 X-RAY DIFFRACTION 41 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 191 228 5x06-a1-m1-cG_5x06-a1-m1-cE AQLSLPLYLPDDETFASFWPGDNSSLLAALQNVLRQEHSGYIYLWAREGAGRSHLLHAACAELSQRGDAVGYVPLDKRTWFVPEVLDGMEHLSLVCIDNIECIAGDELWEMAIFDLYNRILESGKTRLLITGDRPPRQLNLGLPDLASRLDWGQIYKLQPLSDEDKLQALQLRARLGRFLLREMRTLFMTL PAQLSLPLYLPDDETFASFWPGDNSSLLAALQNVLRQEHSGYIYLWAREGAGRSHLLHAACAELSQRGDAVGYVPLDKRTWFVPEVLDGMEHLSLVCIDNIECIAGDELWEMAIFDLYNRILESGKTRLLITGDRPPRQLNLGLPDLASRLDWGQIYKLQPLSDEDKLQALQLRARLRGFELPEDVGRFLLKRLDREMRTLFMTLDQLDRASITAQRKLTIPFVKEIL 5x0q-a2-m1-cB_5x0q-a2-m2-cB OxyR2 E204G variant (Cl-bound) from Vibrio vulnificus A0A087I947 A0A087I947 1.55 X-RAY DIFFRACTION 106 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 212 212 5b70-a1-m1-cA_5b70-a1-m1-cD 5b70-a2-m1-cC_5b70-a2-m1-cB 5b7d-a1-m1-cA_5b7d-a1-m2-cA 5b7d-a2-m1-cB_5b7d-a2-m2-cB 5b7h-a1-m1-cA_5b7h-a1-m2-cA 5b7h-a2-m1-cB_5b7h-a2-m2-cB 5x0q-a1-m1-cA_5x0q-a1-m2-cA 5x0v-a1-m1-cA_5x0v-a1-m2-cA 5x0v-a2-m1-cB_5x0v-a2-m2-cB GAMELSMQGQLKLGCIPTIAPFLLCDLVQEINQRFPQLNLLLREDTTTNLLTALRHGELDVLILALPVEIDGMESRVVGQDPFKMVISRHQAGAIKVPIKYDDLPDESVFLLEKGHCLTEHAVSACKLTDKEKINPFSATSLHTLVQMVANGLGTTFIPQMAIDHGLLDNQNLVVIEPPGQQAYRDIGLVWRPSSSRSKTFNQLAEVVSELL GAMELSMQGQLKLGCIPTIAPFLLCDLVQEINQRFPQLNLLLREDTTTNLLTALRHGELDVLILALPVEIDGMESRVVGQDPFKMVISRHQAGAIKVPIKYDDLPDESVFLLEKGHCLTEHAVSACKLTDKEKINPFSATSLHTLVQMVANGLGTTFIPQMAIDHGLLDNQNLVVIEPPGQQAYRDIGLVWRPSSSRSKTFNQLAEVVSELL 5x0r-a1-m1-cA_5x0r-a1-m1-cB Crystal Structure of PXR LBD Complexed with SJB7 O75469 O75469 2.665 X-RAY DIFFRACTION 52 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 237 257 GLTEEQRMMIRELMDAQMKTFDTTFSHFKNFRLPGVVSLQLRGEDGSVWNYKPPASLLPHMADMSTYMFKGIISFAKVISYFRDLPIEDQISLLKGAAFELCQLRFNTVFNAETGTWECGRLSYCLLLEPMLKFHYMLKKLQLHEEEYVLMQAISLFSPDRPGVLQHRVVDQLQEQFAITLKSYIECNRAHRFLFLKIMAMLTELRSINAQHTQRLLRIQDIHPFATPLMQELFGIT GVQGLTEEQRMMIRELMDAQMKTFDTTFSHFKNFRLPGVCSLKVSLQLRGEDGSVWNYKPPADSGGKEIFSLLPHMADMSTYMFKGIISFAKVISYFRDLPIEDQISLLKGAAFELCQLRFNTVFNAETGTWECGRLSYCLEDQQLLLEPMLKFHYMLKKLQLHEEEYVLMQAISLFSPDRPGVLQHRVVDQLQEQFAITLKSYIECNRPQPAHRFLFLKIMAMLTELRSINAQHTQRLLRIQDIHPFATPLMQELF 5x13-a1-m1-cA_5x13-a1-m2-cA Crystal structure of Bacillus subtilis PadR in complex with p-coumaric acid E0TW95 E0TW95 1.7 X-RAY DIFFRACTION 171 1.0 655816 (Bacillus subtilis subsp. spizizenii str. W23) 655816 (Bacillus subtilis subsp. spizizenii str. W23) 177 177 5x11-a1-m1-cA_5x11-a1-m1-cB 5x11-a2-m1-cF_5x11-a2-m1-cE 5x11-a3-m1-cC_5x11-a3-m1-cD 5x12-a1-m1-cA_5x12-a1-m2-cA 5x14-a1-m1-cA_5x14-a1-m2-cA 5y8t-a1-m1-cA_5y8t-a1-m2-cA 5y8t-a2-m1-cC_5y8t-a2-m1-cB 7cbv-a1-m1-cA_7cbv-a1-m3-cA 7cbv-a2-m1-cB_7cbv-a2-m2-cB AKDPMRVLKYAILGLLRKGELSGYDITSYFKEELGQFWSAKHSQIYPELKKLTDEGFITFRKKMYTLTDSGKQELHDWLIRHQPIPETVKDEFMLKAYFISSLSRQEASDLFTDQLLKRKAKLSDLQGSYEKLMASAEPMSFSSPDFGHYLVLTKALEREKNYVSWLESILAMIDED AKDPMRVLKYAILGLLRKGELSGYDITSYFKEELGQFWSAKHSQIYPELKKLTDEGFITFRKKMYTLTDSGKQELHDWLIRHQPIPETVKDEFMLKAYFISSLSRQEASDLFTDQLLKRKAKLSDLQGSYEKLMASAEPMSFSSPDFGHYLVLTKALEREKNYVSWLESILAMIDED 5x15-a1-m2-cC_5x15-a1-m1-cB Crystal structure of Streptomyces coelicolor RraAS2, an unusual member of the RNase ES inhibitor RraA protein family Q9FBS9 Q9FBS9 3.094 X-RAY DIFFRACTION 48 0.99 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 198 199 5x15-a1-m1-cA_5x15-a1-m2-cA 5x15-a1-m1-cC_5x15-a1-m2-cB PWERPDGELVRSLNRVSSATACAKLHELGIRRSYLSGPTALDLGNKVTGPARTLQFMPQREDTALWAVLEEVQPGDVLVVQAYGSAFTGCLGDMLVRYFKRKGGAGIVVDGRIRDAPRVRELGVPIWCTGTTPHYASQSELFPWAYDVPVAAGGVLTLPGDLVVADDDGAVVVPVSKAQEIVDSAFDHEQWEEFSRMR ERPDGELVRSLNRVSSATACAKLHELGIRRSYLSGPTALDLGNKVTGPARTLQFMPQREDTALWAVLEEVQPGDVLVVQAYGSAFTGCLGDMLVRYFKRKGGAGIVVDGRIRDAPRVRELGVPIWCTGTTPHYASQSELFPWAYDVPVAAGGVLTLPGDLVVADDDGAVVVPVSKAQEIVDSAFDHEQWEEFSRMRIDQ 5x15-a1-m2-cC_5x15-a1-m2-cB Crystal structure of Streptomyces coelicolor RraAS2, an unusual member of the RNase ES inhibitor RraA protein family Q9FBS9 Q9FBS9 3.094 X-RAY DIFFRACTION 58 0.99 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 198 199 5x15-a1-m1-cA_5x15-a1-m1-cB 5x15-a1-m1-cA_5x15-a1-m1-cC 5x15-a1-m1-cC_5x15-a1-m1-cB 5x15-a1-m2-cA_5x15-a1-m2-cB 5x15-a1-m2-cA_5x15-a1-m2-cC PWERPDGELVRSLNRVSSATACAKLHELGIRRSYLSGPTALDLGNKVTGPARTLQFMPQREDTALWAVLEEVQPGDVLVVQAYGSAFTGCLGDMLVRYFKRKGGAGIVVDGRIRDAPRVRELGVPIWCTGTTPHYASQSELFPWAYDVPVAAGGVLTLPGDLVVADDDGAVVVPVSKAQEIVDSAFDHEQWEEFSRMR ERPDGELVRSLNRVSSATACAKLHELGIRRSYLSGPTALDLGNKVTGPARTLQFMPQREDTALWAVLEEVQPGDVLVVQAYGSAFTGCLGDMLVRYFKRKGGAGIVVDGRIRDAPRVRELGVPIWCTGTTPHYASQSELFPWAYDVPVAAGGVLTLPGDLVVADDDGAVVVPVSKAQEIVDSAFDHEQWEEFSRMRIDQ 5x1h-a1-m1-cC_5x1h-a1-m1-cA Structure of Legionella pneumophila DotN Q5ZYB7 Q5ZYB7 3.005 X-RAY DIFFRACTION 71 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 196 199 5x1h-a2-m1-cW_5x1h-a2-m1-cE 5x1h-a3-m1-cQ_5x1h-a3-m1-cG 5x1h-a4-m1-cU_5x1h-a4-m1-cI 5x1h-a5-m1-cK_5x1h-a5-m1-cM 5x1h-a6-m1-cO_5x1h-a6-m1-cS RCELKLIASPGSWRLYSARKIDERFKSYEQKIFQRDRYTCQFCGFQARLYQDIVNLDGDYTNNRLSNLVTACCFCAQCFFVESVGVGGYGGGTLIYLPELTQAELNSLCHVLFCAITNDTGYKSSAQNIYRSFKFRSQIVEEKFGEGTSDPAIFGQLMIDSGVNSEEIREKLFKNIRLLPSRAKFRKQIEKWAASA RCELKLIASPGSWRLYSARKIDERFKSYEQKIFQRDRYTCQFCGFQARLYQDIVNLDGDYTNNRLSNLVTACCFCAQCFFVESVGVGGYGGGTLIYLPELTQAELNSLCHVLFCAITNDTGYKSSAQNIYRSFKFRSQIVEEKFGEGTSDPAIFGQLMIDSGVNSEEIREKLFKNIRLLPSRAKFRKQIEKWAASALEE 5x1o-a1-m1-cA_5x1o-a1-m1-cB PI(4,5)P2 lipid binding induced a reorientation of FGF2 molecules near membrane surface to facilitate the unconventional oligomerization-dependent secretion process as revealed by a combined FTIR/NMR/X-ray study P09038 P09038 1.9 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 KDPKRLYCKNGGFFLRIHPDGRVDGVREKSDPHIKLQLQAEERGVVSIKGVCANRYLAMKEDGRLLASKCVTDECFFFERLESNNYNTYRSRKYTSWYVALKRTGQYKLGSKTGPGQKAILFLPMSA KDPKRLYCKNGGFFLRIHPDGRVDGVREKSDPHIKLQLQAEERGVVSIKGVCANRYLAMKEDGRLLASKCVTDECFFFERLESNNYNTYRSRKYTSWYVALKRTGQYKLGSKTGPGQKAILFLPMSA 5x1y-a3-m1-cD_5x1y-a3-m1-cF Structure of mercuric reductase from Lysinibacillus sphaericus D9J041 D9J041 3.48 X-RAY DIFFRACTION 241 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 453 453 5x1y-a1-m1-cC_5x1y-a1-m1-cB 5x1y-a2-m1-cA_5x1y-a2-m1-cE DNYDLLIIGSGAAAFSSAIKAIEYGAKVGMIERGTVGGTCVNIGCVPSKTLLRAGEIIHLSKDNPFIGLQTSAGEVDLASLITQKDKLVSELRNQKYMDLIDEYNFDLIKGEAKFVDASTVEVNGAKLSAKRFLIATGASPSLPQISGLEKMDYLTSTTLLELKKIPKRLTVIGSGYIGMELGQLFHHLGSEITLMQRSERLLKEYDPEISESVEKALIEQGINLVKGATFERVEQSGEIKRVYVTVNGSREVIESDQLLVATGRKPNTDSLNLSAAGVETGKNNEILINDFGQTSNEKIYAAGDVTLGPQFVYVAAYEGGIITDNAIGGLNKKIDLSVVPAVTFTNPTVATVGLTEEQAKEKGYDVKTSVLPLDAVPRAIVNRETTGVFKLVADAETLKVLGVHIVSENAGDVIYAASLAVKFGLTVEDLTETLAPYLTMAEGLKLAALTFD DNYDLLIIGSGAAAFSSAIKAIEYGAKVGMIERGTVGGTCVNIGCVPSKTLLRAGEIIHLSKDNPFIGLQTSAGEVDLASLITQKDKLVSELRNQKYMDLIDEYNFDLIKGEAKFVDASTVEVNGAKLSAKRFLIATGASPSLPQISGLEKMDYLTSTTLLELKKIPKRLTVIGSGYIGMELGQLFHHLGSEITLMQRSERLLKEYDPEISESVEKALIEQGINLVKGATFERVEQSGEIKRVYVTVNGSREVIESDQLLVATGRKPNTDSLNLSAAGVETGKNNEILINDFGQTSNEKIYAAGDVTLGPQFVYVAAYEGGIITDNAIGGLNKKIDLSVVPAVTFTNPTVATVGLTEEQAKEKGYDVKTSVLPLDAVPRAIVNRETTGVFKLVADAETLKVLGVHIVSENAGDVIYAASLAVKFGLTVEDLTETLAPYLTMAEGLKLAALTFD 5x29-a1-m1-cA_5x29-a1-m1-cE NMR structure of the SARS Coronavirus E protein pentameric ion channel P59637 P59637 NOT SOLUTION NMR 21 1.0 58 58 5x29-a1-m1-cA_5x29-a1-m1-cB 5x29-a1-m1-cB_5x29-a1-m1-cC 5x29-a1-m1-cC_5x29-a1-m1-cD 5x29-a1-m1-cD_5x29-a1-m1-cE ETGTLIVNSVLLFLAFVVFLLVTLAILTALRLAAYAANIVNVSLVKPTVYVYSRVKNL ETGTLIVNSVLLFLAFVVFLLVTLAILTALRLAAYAANIVNVSLVKPTVYVYSRVKNL 5x2d-a2-m1-cB_5x2d-a2-m2-cB Crystal structure of DLC like domain of CsTAL3 (83-177aa) Q2PMV7 Q2PMV7 2.6 X-RAY DIFFRACTION 75 1.0 79923 (Clonorchis sinensis) 79923 (Clonorchis sinensis) 95 95 5x2d-a1-m1-cA_5x2d-a1-m1-cC PSLPPEIIVISANMSLEDQIKIARETIPIAPGAQTSEELGRLTENLKSFADKTFGGCWQVMVVDGSYWITQTFVPNMSFQFELYNRAYLFWQTSE PSLPPEIIVISANMSLEDQIKIARETIPIAPGAQTSEELGRLTENLKSFADKTFGGCWQVMVVDGSYWITQTFVPNMSFQFELYNRAYLFWQTSE 5x3d-a1-m1-cA_5x3d-a1-m2-cA Crystal structure of HEP-CMP-bound form of cytidylyltransferase (CyTase) domain of Fom1 from Streptomyces wedmorensis P96074 P96074 1.93 X-RAY DIFFRACTION 42 1.0 43759 (Streptomyces wedmorensis) 43759 (Streptomyces wedmorensis) 126 126 QRPIVYVGMSADLIHPGHINILSRAAELGDITIGLLTDAAIASYKRLPHMTYEQRKAVVENLKGVASVVPQRTLDYAENLRTVRPDFVVHGDDWQTGVQRHTRERVIEVLSEWGGKLVEIPYTPGI QRPIVYVGMSADLIHPGHINILSRAAELGDITIGLLTDAAIASYKRLPHMTYEQRKAVVENLKGVASVVPQRTLDYAENLRTVRPDFVVHGDDWQTGVQRHTRERVIEVLSEWGGKLVEIPYTPGI 5x3t-a1-m1-cB_5x3t-a1-m1-cH VapBC from Mycobacterium tuberculosis O53779 O53779 2.65 X-RAY DIFFRACTION 108 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 136 136 5x3t-a1-m1-cD_5x3t-a1-m1-cF SHIIDTSALLAYFDAAEPDHAAVSECIDSSADALVVSPYVVAELDYLVATRVGVDAELAVLRELAGGAWELANCGAAEIEQAARIVTKYQDQRIGIADAANVVLADRYRTRTILTLDRRHFSALRPIGGGRFTVIP SHIIDTSALLAYFDAAEPDHAAVSECIDSSADALVVSPYVVAELDYLVATRVGVDAELAVLRELAGGAWELANCGAAEIEQAARIVTKYQDQRIGIADAANVVLADRYRTRTILTLDRRHFSALRPIGGGRFTVIP 5x3t-a1-m1-cE_5x3t-a1-m1-cC VapBC from Mycobacterium tuberculosis O53778 O53778 2.65 X-RAY DIFFRACTION 10 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 59 68 DKTTVYLPDELKAAVKRAARQRGVSEAQVIRESIRAAVGGAKPPPRGGYAGSEPIARRV DKTTVYLPDELKAAVKRAARQRGVSEAQVIRESIRAAVGGAKPPPRGGYAGSEPIARRVDELLAGFGE 5x3t-a1-m1-cE_5x3t-a1-m1-cG VapBC from Mycobacterium tuberculosis O53778 O53778 2.65 X-RAY DIFFRACTION 104 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 59 59 5x3t-a1-m1-cA_5x3t-a1-m1-cC DKTTVYLPDELKAAVKRAARQRGVSEAQVIRESIRAAVGGAKPPPRGGYAGSEPIARRV DKTTVYLPDELKAAVKRAARQRGVSEAQVIRESIRAAVGGAKPPPRGGYAGSEPIARRV 5x3x-a2-m1-ca_5x3x-a2-m1-cb 2.8A resolution structure of a cobalt energy-coupling factor transporter-CbiMQO O68106 O68106 2.788 X-RAY DIFFRACTION 94 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 279 280 5x3x-a1-m1-cA_5x3x-a1-m1-cB 5x40-a1-m1-cA_5x40-a1-m1-cB 5x41-a2-m1-cD_5x41-a2-m1-cC MTPILAAEALTYAFPGGVKALDDLSLAVPKGESLAILGPNGAGKSTLLLHLNGTLRPQSGRVLLGGTATGHSRKDLTGWRRRVGLVLQDADDQLFATTVFEDVSFGPLNLGLSEAEARARVEEALAALSISDLRDRPTHMLSGGQKRRVAIAGAVAMRPEVLLLDEPTAGLDLAGTEQLLTLLRGLRAAGMTLVFSTHDVELAAALADRVALFRTGRVLAEGAAEAVLSDRATLAKVALRPPLVIDLALLARDHGLLAPEAPLPKTRDALAAQMAGWTR MTPILAAEALTYAFPGGVKALDDLSLAVPKGESLAILGPNGAGKSTLLLHLNGTLRPQSGRVLLGGTATGHSRKDLTGWRRRVGLVLQDADDQLFATTVFEDVSFGPLNLGLSEAEARARVEEALAALSISDLRDRPTHMLSGGQKRRVAIAGAVAMRPEVLLLDEPTAGLDLAGTEQLLTLLRGLRAAGMTLVFSTHDVELAAALADRVALFRTGRVLAEGAAEAVLSDRATLAKVALRPPLVIDLALLARDHGLLAPEAPLPKTRDALAAQMAGWTRR 5x49-a1-m1-cA_5x49-a1-m1-cB Crystal Structure of Human mitochondrial X-prolyl Aminopeptidase (XPNPEP3) Q9NQH7 Q9NQH7 1.65 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 441 441 LLRPGEVTPGLSQVEYALRRHKLMSLIQKETDQTVVVLSNPTYYMSNDIPYTFHQDNNFLYLCGFQEPDSILVLQSLPGKQLPSHKAILFVPRRDPSRELWDGPRSGTDGAIALTGVDEAYTLEEFQHLLPKMKAETNMVWYDWMRPSHAQLHSDYMQPLTEAKAKSKNKVRGVQQLIQRLRLIKSPAEIERMQIAGKLTSQAFIETMFTSKAPVEEAFLYAKFEFECRARGADILAYPPVVAGGNRSNTLHYVKNNQLIKDGEMVLLDGGCESSCYVSDITRTWPVNGRFTAPQAELYEAVLEIQRDCLALCFPGTSLENIYSMMLTLIGQKLKDLGIMKNIKENNAFKAARKYCPHHVGHYLGMDVHDTPDMPRSLPLQPGMVITIEPGIYIPEDDKDAPEKFRGLGVRIEDDVVVTQDSPLILSADCPKEMNDIEQIC LLRPGEVTPGLSQVEYALRRHKLMSLIQKETDQTVVVLSNPTYYMSNDIPYTFHQDNNFLYLCGFQEPDSILVLQSLPGKQLPSHKAILFVPRRDPSRELWDGPRSGTDGAIALTGVDEAYTLEEFQHLLPKMKAETNMVWYDWMRPSHAQLHSDYMQPLTEAKAKSKNKVRGVQQLIQRLRLIKSPAEIERMQIAGKLTSQAFIETMFTSKAPVEEAFLYAKFEFECRARGADILAYPPVVAGGNRSNTLHYVKNNQLIKDGEMVLLDGGCESSCYVSDITRTWPVNGRFTAPQAELYEAVLEIQRDCLALCFPGTSLENIYSMMLTLIGQKLKDLGIMKNIKENNAFKAARKYCPHHVGHYLGMDVHDTPDMPRSLPLQPGMVITIEPGIYIPEDDKDAPEKFRGLGVRIEDDVVVTQDSPLILSADCPKEMNDIEQIC 5x4a-a2-m1-cJ_5x4a-a2-m1-cL SLL-2-Forssman antigen tetrasaccharides complex A4CYJ6 A4CYJ6 3.4 X-RAY DIFFRACTION 65 1.0 301888 (Sinularia lochmodes) 301888 (Sinularia lochmodes) 94 94 3wmp-a1-m1-cA_3wmp-a1-m1-cB 3wmp-a1-m1-cA_3wmp-a1-m1-cC 3wmp-a1-m1-cB_3wmp-a1-m1-cC 3wmp-a1-m1-cD_3wmp-a1-m1-cE 3wmp-a1-m1-cD_3wmp-a1-m1-cF 3wmp-a1-m1-cE_3wmp-a1-m1-cF 3wmq-a1-m1-cA_3wmq-a1-m2-cA 3wmq-a1-m1-cA_3wmq-a1-m3-cA 3wmq-a1-m2-cA_3wmq-a1-m3-cA 3wmq-a1-m4-cA_3wmq-a1-m5-cA 3wmq-a1-m4-cA_3wmq-a1-m6-cA 3wmq-a1-m5-cA_3wmq-a1-m6-cA 5x4a-a1-m1-cA_5x4a-a1-m1-cB 5x4a-a1-m1-cA_5x4a-a1-m1-cC 5x4a-a1-m1-cB_5x4a-a1-m1-cC 5x4a-a1-m1-cD_5x4a-a1-m1-cE 5x4a-a1-m1-cD_5x4a-a1-m1-cF 5x4a-a1-m1-cE_5x4a-a1-m1-cF 5x4a-a2-m1-cG_5x4a-a2-m1-cH 5x4a-a2-m1-cG_5x4a-a2-m1-cI 5x4a-a2-m1-cH_5x4a-a2-m1-cI 5x4a-a2-m1-cJ_5x4a-a2-m1-cK 5x4a-a2-m1-cK_5x4a-a2-m1-cL RLIHVSRCEMGTSTHRCWPRPCDTSSDEPISFWPPFENTPNVIVSFGMLDVDNSNNLRVNSSADDVTVGGFTLHYNSWYTTTVWNYKLIWIACD RLIHVSRCEMGTSTHRCWPRPCDTSSDEPISFWPPFENTPNVIVSFGMLDVDNSNNLRVNSSADDVTVGGFTLHYNSWYTTTVWNYKLIWIACD 5x4t-a1-m1-cA_5x4t-a1-m2-cA PAC from Oscillatoria acuminata after 20 seconds photoactivation K9TLZ5 K9TLZ5 1.601 X-RAY DIFFRACTION 249 1.0 1117 (Cyanobacteriota) 1117 (Cyanobacteriota) 350 350 4yus-a1-m1-cA_4yus-a1-m2-cA 4yut-a1-m1-cA_4yut-a1-m1-cB 5x4u-a1-m1-cA_5x4u-a1-m2-cA 5x4v-a1-m1-cA_5x4v-a1-m2-cA MKRLTYISKFSRPLSGDEIEAIGRISSQKNQQANVTGVLLCLDGIFFQILEGEAEKIDRIYERILADERHTDILCLKSEVEVQERMFPDWSMQTINLDENTDFLIRPIKVLLQTLTESHRILEKYTQPSIFKIISQGTNPLNIRPKAVEKIVFFSDIVSFSTFAEKLPVEEVVSVVNSYFSVCTAIITRQGGEVTKFIGDCVMAYFDGDCADQAIQASLDILMELEILRNSAPEGSPLRVLYSGIGLAKGKVIEGNIGSELKRDYTILGDAVNVAARLEALTRQLSQALVFSSEVKNSATKSWNFIWLTDSELKGKSESIDIYSIDNEMTRKSSGGLEIARNIGHYLERV MKRLTYISKFSRPLSGDEIEAIGRISSQKNQQANVTGVLLCLDGIFFQILEGEAEKIDRIYERILADERHTDILCLKSEVEVQERMFPDWSMQTINLDENTDFLIRPIKVLLQTLTESHRILEKYTQPSIFKIISQGTNPLNIRPKAVEKIVFFSDIVSFSTFAEKLPVEEVVSVVNSYFSVCTAIITRQGGEVTKFIGDCVMAYFDGDCADQAIQASLDILMELEILRNSAPEGSPLRVLYSGIGLAKGKVIEGNIGSELKRDYTILGDAVNVAARLEALTRQLSQALVFSSEVKNSATKSWNFIWLTDSELKGKSESIDIYSIDNEMTRKSSGGLEIARNIGHYLERV 5x56-a1-m1-cA_5x56-a1-m1-cB Crystal structure of PSB27 from Arabidopsis thaliana Q9LR64 Q9LR64 1.85 X-RAY DIFFRACTION 35 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 103 105 EEYIKDTSAVISKVRSTLSMQKTDPNVADAVAELREASNSWVAKYRKEKALLGKASFRDIYSALNAVSGHYVSFGPTAPIPAKRKARILEEMETAEKALTRGR EDEEYIKDTSAVISKVRSTLSMQKTDPNVADAVAELREASNSWVAKYRKEKALLGKASFRDIYSALNAVSGHYVSFGPTAPIPAKRKARILEEMETAEKALTRGR 5x5h-a1-m1-cA_5x5h-a1-m4-cA Crystal structure of metB from Corynebacterium glutamicum Q79VD9 Q79VD9 1.51 X-RAY DIFFRACTION 99 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 385 385 5x5h-a1-m2-cA_5x5h-a1-m3-cA FDPNTQGFSTASIHAGYEPDDYYGSINTPIYASTTFAQNAPNELRKGYEYTRVGNPTIVALEQTVAALEGAKYGRAFSSGMAATDILFRIILKPGDHIVLGNDAYGGTYRLIDTVFTAWGVEYTVVDTSVVEEVKAAIKDNTKLIWVETPTNPALGITDIEAVAKLTEGTNAKLVVDNTFASPYLQQPLKLGAHAVLHSTTKYIGGHSDVVGGLVVTNDQEMDEELLFMQGGIGPIPSVFDAYLTARGLKTLAVRMDRHCDNAEKIAEFLDSRPEVSTVLYPGLKNHPGHEVAAKQMKRFGGMISVRFAGGEEAAKKFCTSTKLICLAESLGGVESLLEHPATMTHQSAAGSQLEVPRDLVRISIGIEDIEDLLADVEQALNNLH FDPNTQGFSTASIHAGYEPDDYYGSINTPIYASTTFAQNAPNELRKGYEYTRVGNPTIVALEQTVAALEGAKYGRAFSSGMAATDILFRIILKPGDHIVLGNDAYGGTYRLIDTVFTAWGVEYTVVDTSVVEEVKAAIKDNTKLIWVETPTNPALGITDIEAVAKLTEGTNAKLVVDNTFASPYLQQPLKLGAHAVLHSTTKYIGGHSDVVGGLVVTNDQEMDEELLFMQGGIGPIPSVFDAYLTARGLKTLAVRMDRHCDNAEKIAEFLDSRPEVSTVLYPGLKNHPGHEVAAKQMKRFGGMISVRFAGGEEAAKKFCTSTKLICLAESLGGVESLLEHPATMTHQSAAGSQLEVPRDLVRISIGIEDIEDLLADVEQALNNLH 5x5h-a1-m2-cA_5x5h-a1-m4-cA Crystal structure of metB from Corynebacterium glutamicum Q79VD9 Q79VD9 1.51 X-RAY DIFFRACTION 186 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 385 385 5x5h-a1-m1-cA_5x5h-a1-m3-cA FDPNTQGFSTASIHAGYEPDDYYGSINTPIYASTTFAQNAPNELRKGYEYTRVGNPTIVALEQTVAALEGAKYGRAFSSGMAATDILFRIILKPGDHIVLGNDAYGGTYRLIDTVFTAWGVEYTVVDTSVVEEVKAAIKDNTKLIWVETPTNPALGITDIEAVAKLTEGTNAKLVVDNTFASPYLQQPLKLGAHAVLHSTTKYIGGHSDVVGGLVVTNDQEMDEELLFMQGGIGPIPSVFDAYLTARGLKTLAVRMDRHCDNAEKIAEFLDSRPEVSTVLYPGLKNHPGHEVAAKQMKRFGGMISVRFAGGEEAAKKFCTSTKLICLAESLGGVESLLEHPATMTHQSAAGSQLEVPRDLVRISIGIEDIEDLLADVEQALNNLH FDPNTQGFSTASIHAGYEPDDYYGSINTPIYASTTFAQNAPNELRKGYEYTRVGNPTIVALEQTVAALEGAKYGRAFSSGMAATDILFRIILKPGDHIVLGNDAYGGTYRLIDTVFTAWGVEYTVVDTSVVEEVKAAIKDNTKLIWVETPTNPALGITDIEAVAKLTEGTNAKLVVDNTFASPYLQQPLKLGAHAVLHSTTKYIGGHSDVVGGLVVTNDQEMDEELLFMQGGIGPIPSVFDAYLTARGLKTLAVRMDRHCDNAEKIAEFLDSRPEVSTVLYPGLKNHPGHEVAAKQMKRFGGMISVRFAGGEEAAKKFCTSTKLICLAESLGGVESLLEHPATMTHQSAAGSQLEVPRDLVRISIGIEDIEDLLADVEQALNNLH 5x5h-a1-m3-cA_5x5h-a1-m4-cA Crystal structure of metB from Corynebacterium glutamicum Q79VD9 Q79VD9 1.51 X-RAY DIFFRACTION 79 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 385 385 5x5h-a1-m1-cA_5x5h-a1-m2-cA FDPNTQGFSTASIHAGYEPDDYYGSINTPIYASTTFAQNAPNELRKGYEYTRVGNPTIVALEQTVAALEGAKYGRAFSSGMAATDILFRIILKPGDHIVLGNDAYGGTYRLIDTVFTAWGVEYTVVDTSVVEEVKAAIKDNTKLIWVETPTNPALGITDIEAVAKLTEGTNAKLVVDNTFASPYLQQPLKLGAHAVLHSTTKYIGGHSDVVGGLVVTNDQEMDEELLFMQGGIGPIPSVFDAYLTARGLKTLAVRMDRHCDNAEKIAEFLDSRPEVSTVLYPGLKNHPGHEVAAKQMKRFGGMISVRFAGGEEAAKKFCTSTKLICLAESLGGVESLLEHPATMTHQSAAGSQLEVPRDLVRISIGIEDIEDLLADVEQALNNLH FDPNTQGFSTASIHAGYEPDDYYGSINTPIYASTTFAQNAPNELRKGYEYTRVGNPTIVALEQTVAALEGAKYGRAFSSGMAATDILFRIILKPGDHIVLGNDAYGGTYRLIDTVFTAWGVEYTVVDTSVVEEVKAAIKDNTKLIWVETPTNPALGITDIEAVAKLTEGTNAKLVVDNTFASPYLQQPLKLGAHAVLHSTTKYIGGHSDVVGGLVVTNDQEMDEELLFMQGGIGPIPSVFDAYLTARGLKTLAVRMDRHCDNAEKIAEFLDSRPEVSTVLYPGLKNHPGHEVAAKQMKRFGGMISVRFAGGEEAAKKFCTSTKLICLAESLGGVESLLEHPATMTHQSAAGSQLEVPRDLVRISIGIEDIEDLLADVEQALNNLH 5x5l-a1-m1-cA_5x5l-a1-m1-cE Crystal structure of response regulator AdeR DNA binding domain in complex with an intercistronic region E1A0Z5 E1A0Z5 2.75 X-RAY DIFFRACTION 19 0.989 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 95 98 KLYKNIEIDTDTHSVYIHKILLNLTLTEYKIISFMIDQPHKVFTRGELMNHCMNSDALERTVDSHVSKLRKKLEEQGIFQMLINVRGVGYRLDNP NKLYKNIEIDTDTHSVYIHENKKILLNLTLTEYKIISFMIDQPHKVFTRGELMNHCMNSDALERTVDSHVSKLRKKLEEQGIFQMLINVRGVGYRLDN 5x5v-a2-m1-cA_5x5v-a2-m2-cA Crystal structure of pseudorabies virus glycoprotein D G3G933 G3G933 1.5 X-RAY DIFFRACTION 65 1.0 10345 (Suid alphaherpesvirus 1) 10345 (Suid alphaherpesvirus 1) 236 236 PTFPPPAYPYTESWQLTLTTVPSPFVGPADVYHTRPLEDPCGVVALISDPQVDRLLNEAVAHRRPTYRAHVAWYRIADGCAHLLYFIEYADCDPRQVFGRCRRRTTPMWWTPSADYMFPTEDELGLLMVAPGRFNEGQYRRLVSVDGVNILTDFMVALPEGQECPFARVDQHRTYKFGACWSDDSFKRGVDVMRFLTPFYQQPPHREVVNYWYRKNGRTLPRAYAAATPYAIDPAR PTFPPPAYPYTESWQLTLTTVPSPFVGPADVYHTRPLEDPCGVVALISDPQVDRLLNEAVAHRRPTYRAHVAWYRIADGCAHLLYFIEYADCDPRQVFGRCRRRTTPMWWTPSADYMFPTEDELGLLMVAPGRFNEGQYRRLVSVDGVNILTDFMVALPEGQECPFARVDQHRTYKFGACWSDDSFKRGVDVMRFLTPFYQQPPHREVVNYWYRKNGRTLPRAYAAATPYAIDPAR 5x5y-a1-m1-cA_5x5y-a1-m1-cB A membrane protein complex Q9HVV6 Q9HVV6 3.465 X-RAY DIFFRACTION 41 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 239 239 ATLKAQHLAKSYKGRQVVRDVSMSIDSGQIVGLLGPNGAGKTTCFYMIVGLVQADQGVVRIDEQNVTHLPMHGRARAGIGYLPQEASIFRKLSVSDNIMAILETRSDLDRNGRKEALEGLLQEFHIHHIRDNLGMSLSGGERRRVEIARALASAPKFILLDEPFAGVDPISVGDIKQIIHHLKAKGIGILITDHNVRETLDICETAYIVNDGQLIAEGDAESILANDLVKEVYLGHEFR ATLKAQHLAKSYKGRQVVRDVSMSIDSGQIVGLLGPNGAGKTTCFYMIVGLVQADQGVVRIDEQNVTHLPMHGRARAGIGYLPQEASIFRKLSVSDNIMAILETRSDLDRNGRKEALEGLLQEFHIHHIRDNLGMSLSGGERRRVEIARALASAPKFILLDEPFAGVDPISVGDIKQIIHHLKAKGIGILITDHNVRETLDICETAYIVNDGQLIAEGDAESILANDLVKEVYLGHEFR 5x62-a1-m1-cA_5x62-a1-m1-cB Crystal structure of a carnosine N-methyltransferase bound by AdoHcy P53934 P53934 2.204 X-RAY DIFFRACTION 192 0.997 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 376 387 NQRENKAVARVIISFLKYEEYALKEIYNLRVKKWASISDRQKDMVPNYTKYLANLKAAIIENGKFFRSVAEYALQSISFEPGEIVQPNDLDMSKTCSLLTQVYREWSAEAISERNCLNSRLVPFLKTLSPPKADILIPGCGTGRLLVDLSRMGYNCEGNEFSYHMLLVSQYMLNAGLLQNQIIIYPFIHCFSHWKKIEDQLSPIKVPDIEAWMGSMSICAGSFVDCYGRNQGTKISSHYTFSRRMQLSRAKAENSKDVVVTNFFIDTGSNILDYLDTIGHVLKPGGIWCNFGPLLYHFENDHGVETTYEVNPINDYTPLMGLELSSDDIISIATNHLDFELIRRESGILCGYGRYAGPESCAMPGYMCHYWILKSN QRENKAVARVIISFLKYEEYALKEIYNLRVKKWASISDRQKDMVPNYTKYLANLKAAIIENGKFFRSVAEYALQSISFEPGEIVQPNDLDMSKTCSLLTQVYREWSAEAISERNCLNSRLVPFLKTLSPPKADILIPGCGTGRLLVDLSRMGYNCEGNEFSYHMLLVSQYMLNAGLLQNQIIIYPFIHCFSHWKKIEDQLSPIKVPDIEAWSSNKGMGSMSICAGSFVDCYGRNQGTKISSHYTFSRRMQLSRAKAENSKDVVVTNFFIDTGSNILDYLDTIGHVLKPGGIWCNFGPLLYHFENDHGVETTYEVNPYSGFQDKINDYTPLMGLELSSDDIISIATNHLDFELIRRESGILCGYGRYAGPESCAMPGYMCHYWILKSN 5x6c-a1-m2-cA_5x6c-a1-m2-cB Crystal structure of SepRS-SepCysE from Methanocaldococcus jannaschii Q59054 Q59054 3.101 X-RAY DIFFRACTION 33 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 539 539 5x6c-a1-m1-cA_5x6c-a1-m1-cB MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK MRFDIKKVLELAEKDFETAWRETRALIKDKHIDNKYPRLKPVYGKPHPVMETIERLRQAYLRMGFEEMINPVIVDEMEIYKQFGPEAMAVLDRCFYLAGLPRPDVGLGNEKVEIIKNLGIDIDEEKKERLREVLHLYKKGAIDGDDLVFEIAKALNVSNEMGLKVLETAFPEFKDLKPESTTLTLRSHMTSGWFITLSSLIKKRKLPLKLFSIDRCFRREQREDRSHLMSYHSASCVVVGEDVSVDDGKVVAEGLLAQFGFTKFKFKPDEKKSKYYTPETQTEVYAYHPKLGEWIEVATFGVYSPIALAKYNIDVPVMNLGLGVERLAMIIYGYEDVRAMVYPQFYEYRLSDRDIAGMIRVDKVPILDEFYNFANELIDICIANKDKESPCSVEVKREFNFNGERRVIKVEIFENEPNKKLLGPSVLNEVYVYDGNIYGIPPTFEGVKEQYIPILKKAKEEGVSTNIRYIDGIIYKLVAKIEEALVSNVDEFKFRVPIVRSLSDINLKIDELALKQIMGENKVIDVRGPVFLNAKVEIK 5x6c-a1-m2-cE_5x6c-a1-m2-cF Crystal structure of SepRS-SepCysE from Methanocaldococcus jannaschii Q58876 Q58876 3.101 X-RAY DIFFRACTION 28 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 26 26 5x6c-a1-m1-cE_5x6c-a1-m1-cF NHMRVEYSKDLIRKGISTISQLKKAK NHMRVEYSKDLIRKGISTISQLKKAK 5x6s-a1-m1-cA_5x6s-a1-m1-cB Acetyl xylan esterase from Aspergillus awamori Q92194 Q92194 1.9 X-RAY DIFFRACTION 56 1.0 105351 (Aspergillus awamori) 105351 (Aspergillus awamori) 274 274 GSLQQVTDFGDNPTNVGMYIYVPNNLASNPGIVVAIHYCTGTGPGYYGDSPYATLSEQYGFIVIYPSSPYSGGCWDVSSQATLTHNGGGNSNSIANMVTWTISKYGADSSKVFVTGSSSGAMMTNVMAATYPELFAAATVYSGVSAGCFYSNTNQVDGWNSTCAQGDVITTPEHWASIAEAMYSGYSGSRPRMQIYHGSIDTTLYPQNYYETCKQWAGVFGYDYSAPEKTEANTPQTNYETTIWGDSLQGIFATGVGHTVPIHGDKDMEWFGFA GSLQQVTDFGDNPTNVGMYIYVPNNLASNPGIVVAIHYCTGTGPGYYGDSPYATLSEQYGFIVIYPSSPYSGGCWDVSSQATLTHNGGGNSNSIANMVTWTISKYGADSSKVFVTGSSSGAMMTNVMAATYPELFAAATVYSGVSAGCFYSNTNQVDGWNSTCAQGDVITTPEHWASIAEAMYSGYSGSRPRMQIYHGSIDTTLYPQNYYETCKQWAGVFGYDYSAPEKTEANTPQTNYETTIWGDSLQGIFATGVGHTVPIHGDKDMEWFGFA 5x6z-a2-m1-cB_5x6z-a2-m1-cA Crystal structure of Rice Dwarf Virus P5 in complex with GTP and GDP P14583 P14583 2.1 X-RAY DIFFRACTION 158 1.0 142805 (Rice dwarf virus (isolate O)) 142805 (Rice dwarf virus (isolate O)) 776 784 5x6x-a1-m1-cD_5x6x-a1-m1-cC 5x6x-a2-m1-cA_5x6x-a2-m1-cB 5x6y-a1-m1-cB_5x6y-a1-m1-cA 5x6y-a2-m1-cD_5x6y-a2-m1-cC 5x6z-a1-m1-cC_5x6z-a1-m1-cD 5x70-a1-m1-cA_5x70-a1-m1-cB 5x70-a2-m1-cD_5x70-a2-m1-cC 5x71-a1-m1-cB_5x71-a1-m1-cA DYCIPNFSQTVNERTIIDIFTICRYRSPLVVFCLSHNELAKKYAQDVSMSSGTHVHIIDGSVEITVSLYRTFRTIATQLLGRMQIVVFVTVDKSVVSTQVMKSIAWAFRGSFVELRNQSVDSSTLVSKLENLVSFAPLYNVPKCGPDYYGPTVYSELLSLATNARTHWYATIDYSMFTRSVLTGFVAKYFNEEAVPIDKRIVSIVGYNPPYVWTCLRHGIRPTYIEKSLPNPGGKGPFGLILPVIMHNPQIKLLCLDTFMLSTSMNILYIGAYPATHLLSLQLNGWTILAFDPKITSDWTDAMAKATGAKVIGVSKEFDFKSFSVQANQLNMFQNSKLSVIDDTWVETDYEKFQSEKQAYFEWLIDRTSIDVRLISMKWNRSKDTSVSHLLALLPQPYGASIREMRAFFHKKGASDIKILAAETEKYMDDFTAMSVSDQINTQKFMHCMITTVGDALKMDLDGGRAVIASLSNSSNSKERVLKFLSDANKAKAMVVFGAPNTHRLAYAKKVGLVLDSAIKMSKDLITFSRDYGYSQSELYDAGYVEITIDQMVAYSSDVYNGVGYFANSTYNDLFSWYIPKWYVHKRMLMQDIRLSPAALVKCFTTLIRNICYVPHETYYRFRGILVDKYLRSKNVDPSQYSIVGSGSKTFTVLSHFEVPHECGPLVFEASTDVNISGHLLSLAIAAHFVASPMILWAEQMKYMAVDRMLPPNLDKSLFFDNKVTPSGALQRWHSREEVLLAAEICESYAAMMLNNKHSPDIIGTLKSAINLVFKI NPDYCIPNFSQTVNERTIIDIFTICRYRSPLVVFCLSHNELAKKYAQDVSMSSGTHVHIIDGSVEITVSLYRTFRTIATQLLGRMQIVVFVTVDKSVVSTQVMKSIAWAFRGSFVELRNQSVDSSTLVSKLENLVSFAPLYNVPKCGPDYYGPTVYSELLSLATNARTHWYATIDYSMFTRSVLTGFVAKYFNEEAVPIDKRIVSIVGYNPPYVWTCLRHGIRPTYIEKSLPNPGGKGPFGLILPVINEMHNPQIKLLCLDTFMLSTSMNILYIGAYPATHLLSLQLNGWTILAFDPKITSDWTDAMAKATGAKVIGVSKEFDFKSFSVQANQLNMFQNSKLSVIDDTWVETDYEKFQSEKQAYFEWLIDRTSIDVRLISMKWNRSKDTSVSHLLALLPQPYGASIREMRAFFHKKGASDIKILAAETEKYMDDFTAMSVSDQINTQKFMHCMITTVGDALKMDLDGGRAVIASYSLSNSSNSKERVLKFLSDANKAKAMVVFGAPNTHRLAYAKKVGLVLDSAIKMSKDLITFSNWRDYGYSQSELYDAGYVEITIDQMVAYSSDVYNGVGYFANSTYNDLFSWYIPKWYVHKRMLMQDIRLSPAALVKCFTTLIRNICYVPHETYYRFRGILVDKYLRSKNVDPSQYSIVGSGSKTFTVLSHFEVPHECGPLVFEASTDVNISGHLLSLAIAAHFVASPMILWAEQMKYMAVDRMLPPNLDKSLFFDNKVTPSGALQRWHSREEVLLAAEICESYAAMMLNNKHSPDIIGTLKSAINLVFKI 5x7f-a1-m1-cA_5x7f-a1-m2-cA Structure of a O-methyltransferase from Mycobacterium tuberculosis at 2.0 resolution P9WJZ7 P9WJZ7 1.997 X-RAY DIFFRACTION 93 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 198 198 ESLWAHAEGSISEDVILAGARERATDIGAGAVTPAVGALLCLLAKLSGGKAVAEVGTGAGVSGLWLLSGMRDDGVLTTIDIEPEHLRLARQAFAEAGIGPSRTRLISGRAQEVLTRLADASYDLVFIDADPIDQPDYVAEGVRLLRSGGVIVVHRAALGARDAEVIAVREAARLIAEDERLTPALVPLGDGVLAAVRD ESLWAHAEGSISEDVILAGARERATDIGAGAVTPAVGALLCLLAKLSGGKAVAEVGTGAGVSGLWLLSGMRDDGVLTTIDIEPEHLRLARQAFAEAGIGPSRTRLISGRAQEVLTRLADASYDLVFIDADPIDQPDYVAEGVRLLRSGGVIVVHRAALGARDAEVIAVREAARLIAEDERLTPALVPLGDGVLAAVRD 5x7l-a1-m1-cA_5x7l-a1-m1-cB Structure of TsrD from Streptomyces laurentii C0JRY3 C0JRY3 1.22 X-RAY DIFFRACTION 59 1.0 39478 (Streptomyces laurentii) 39478 (Streptomyces laurentii) 130 131 ELDRASVQQLEHFLAAYNEGDPRHLDHCLHPEYRHPNPAVERGIEGRAAIRRWASTVEDLSLTLDDLVVEGDKAVARTFSGRQVGPILGIPASGRRFSVGLIDIFLIEDGLFAQHWDEDLLGLHRQLGAL ELDRASVQQLEHFLAAYNEGDPRHLDHCLHPEYRHPNPAVERGIEGRAAIRRWASTVEDLSLTLDDLVVEGDKAVARTFSGRQVGPILGIPASGRRFSVGLIDIFLIEDGLFAQHWDEDLLGLHRQLGALP 5x7n-a1-m1-cB_5x7n-a1-m1-cA Crystal structure of meso-diaminopimelate decarboxylase (DAPDC) from Corynebacterium glutamicum P09890 P09890 1.72 X-RAY DIFFRACTION 207 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 439 442 5x7m-a1-m1-cA_5x7m-a1-m1-cB TVENFNELPAHVWPRNAVRQEDGVVTVAGVPLPDLAEEYGTPLFVVDEDDFRSRCRDMATAFGGPGNVHYASKAFLTKTIARWVDEEGLALDIASINELGIALAAGFPASRITAHGNNKGVEFLRALVQNGVGHVVLDSAQELELLDYVAAGEGKIQDVLIRVKPGIEAHTHEFIATSHEDQKFGFSLASGSAFEAAKAANNAENLNLVGLHCHVGSQVFDAEGFKLAAERVLGLYSQIHSELGVALPELDLGGGYGIAYTAAEEPLNVAEVASDLLTAVGKMAAELGIDAPTVLVEPGRAIAGPSTVTIYEVGTTKDVHVKTRRYIAVDGGMSDNIRPALYGSEYDARVVSRFAEGDPVSTRIVGSHCESGDILINDEIYPSDITSGDFLALAATGAYCYAMSSRYNAFTRPAVVSVRAGSSRLMLRRETLDDILSLE TVENFNELPAHVWPRNAVRQEDGVVTVAGVPLPDLAEEYGTPLFVVDEDDFRSRCRDMATAFGGPGNVHYASKAFLTKTIARWVDEEGLALDIASINELGIALAAGFPASRITAHGNNKGVEFLRALVQNGVGHVVLDSAQELELLDYVAAGEGKIQDVLIRVKPGIEAHTHEFIATSHEDQKFGFSLASGSAFEAAKAANNAENLNLVGLHCHVGSQVFDAEGFKLAAERVLGLYSQIHSELGVALPELDLGGGYGIAYTAAEEPLNVAEVASDLLTAVGKMAAELGIDAPTVLVEPGRAIAGPSTVTIYEVGTTKDVHVDDDKTRRYIAVDGGMSDNIRPALYGSEYDARVVSRFAEGDPVSTRIVGSHCESGDILINDEIYPSDITSGDFLALAATGAYCYAMSSRYNAFTRPAVVSVRAGSSRLMLRRETLDDILSLE 5x7r-a1-m1-cA_5x7r-a1-m1-cB Crystal structure of Paenibacillus sp. 598K alpha-1,6-glucosyltransferase complexed with isomaltohexaose A0A193PKW5 A0A193PKW5 1.95 X-RAY DIFFRACTION 998 1.0 1117987 (Paenibacillus sp. 598K) 1117987 (Paenibacillus sp. 598K) 1247 1247 5x7o-a1-m1-cA_5x7o-a1-m1-cB 5x7p-a1-m1-cA_5x7p-a1-m1-cB 5x7q-a1-m1-cA_5x7q-a1-m1-cB 5x7s-a1-m1-cA_5x7s-a1-m1-cB MAGLGNVTGAVASGDSLTLTLDNGTSASDILELDVLSEELLRVDYRPSGAAPSPSTPMIDPDASWDAVGATIDTSGDPIVVTTPRMRIEIARTPARMTIKKADGTTLLWEPASGGVFEDGVRFQRGSTDNIYGIRSFNAQEDVGGLLRNSSDHPAHAGQQGDAGGPFMWSTAGYGVLVDSDGGYPYTDTTGKLEFYYGGTPTEGRRYTKTNVEYYIMVGEPKEIMASYAQVTGTAPMLPKWSLGFMNFEWGIDQDELEAHVDGYRARNIPIDAFALDYDWMDYGEDNYGEFRWNTDNFPDAATTQLKEDMEAEGIRLIGIRKPRIITRDFANQRTQQYYDADSNGYFYPGHNEYTDYFIPVTVRSFDPYQQASRDWWWQHSIDAFDKGIVGWWNDETDKVDSGSAQYWFGNFSTGFTSQAMYDGQRDYTNDGVRVWQTARSYYPGAQRYATTLWSGDIGTQFYKGELFNWAPGMQEQPRIMLSSANLGQPKWGMDTGGFNSLGGASGPNPSPELYTRWMQFGAFTPVFRVHGNYNQQRQPWLYGATAEEASKAVMHTRYSLLPYMYAYEREASETGLGLIKPLLFDYPNDPQAADYTEAWMFGDWLLVSPVLGEAQHSKQIYLPAGTWIDYHRGQTYSGGQTIHYPVNADTWTDVPLFVKQGAIIPNQQVLDYVDQQSVTTVNVDIFPSASETSFTYYEDDGSSYDYESGSSFEQRLAAQDLSSSVRVEVGAGSGSYTPDVQHYVLKIHGRAGSAVTAGGSALTGYGDLQALQAASGSGWASGRDIYGDVTYVKLPAASGSATVVEVSGSAPSAATHAIYEVEDASRSGATPTTRAGINTNHSGYSGSGFVDKLDVPGAAVTVYANAPVSGDYPVELRYANGSGSAKTLSVYVNAARVQQLSLADTGAWSQWGTQTTTLPLTAGQNIITYKYDSDAGDTGGVNLDYIRVPFAPTQAEYAAESAKLWGGAGTSQDHWFYKGAAFVDNLTGVGAEASFDVYAPSAGTYNLSLRYANGTGSTKTLSAIVNGGAASTVTLTSPGMNWNLWNEHTMTATLTAGRNTISFRRNSGNSGNVNLDRLAVSASAITTLASERNLLDNGDFERDTTYNSNWTQWQPSGQPSAFGIDSGNALHPPEGPARRNQRAYFHSDNAYQQSIHQVVDVPVNNATYRLEAKVRMKNTTPTTARAEVQGHGGSPIYANISNDGVWKTIVIDNINVTSGSVDVGFYVDSPGYTTLHIDEVTLTRAP MAGLGNVTGAVASGDSLTLTLDNGTSASDILELDVLSEELLRVDYRPSGAAPSPSTPMIDPDASWDAVGATIDTSGDPIVVTTPRMRIEIARTPARMTIKKADGTTLLWEPASGGVFEDGVRFQRGSTDNIYGIRSFNAQEDVGGLLRNSSDHPAHAGQQGDAGGPFMWSTAGYGVLVDSDGGYPYTDTTGKLEFYYGGTPTEGRRYTKTNVEYYIMVGEPKEIMASYAQVTGTAPMLPKWSLGFMNFEWGIDQDELEAHVDGYRARNIPIDAFALDYDWMDYGEDNYGEFRWNTDNFPDAATTQLKEDMEAEGIRLIGIRKPRIITRDFANQRTQQYYDADSNGYFYPGHNEYTDYFIPVTVRSFDPYQQASRDWWWQHSIDAFDKGIVGWWNDETDKVDSGSAQYWFGNFSTGFTSQAMYDGQRDYTNDGVRVWQTARSYYPGAQRYATTLWSGDIGTQFYKGELFNWAPGMQEQPRIMLSSANLGQPKWGMDTGGFNSLGGASGPNPSPELYTRWMQFGAFTPVFRVHGNYNQQRQPWLYGATAEEASKAVMHTRYSLLPYMYAYEREASETGLGLIKPLLFDYPNDPQAADYTEAWMFGDWLLVSPVLGEAQHSKQIYLPAGTWIDYHRGQTYSGGQTIHYPVNADTWTDVPLFVKQGAIIPNQQVLDYVDQQSVTTVNVDIFPSASETSFTYYEDDGSSYDYESGSSFEQRLAAQDLSSSVRVEVGAGSGSYTPDVQHYVLKIHGRAGSAVTAGGSALTGYGDLQALQAASGSGWASGRDIYGDVTYVKLPAASGSATVVEVSGSAPSAATHAIYEVEDASRSGATPTTRAGINTNHSGYSGSGFVDKLDVPGAAVTVYANAPVSGDYPVELRYANGSGSAKTLSVYVNAARVQQLSLADTGAWSQWGTQTTTLPLTAGQNIITYKYDSDAGDTGGVNLDYIRVPFAPTQAEYAAESAKLWGGAGTSQDHWFYKGAAFVDNLTGVGAEASFDVYAPSAGTYNLSLRYANGTGSTKTLSAIVNGGAASTVTLTSPGMNWNLWNEHTMTATLTAGRNTISFRRNSGNSGNVNLDRLAVSASAITTLASERNLLDNGDFERDTTYNSNWTQWQPSGQPSAFGIDSGNALHPPEGPARRNQRAYFHSDNAYQQSIHQVVDVPVNNATYRLEAKVRMKNTTPTTARAEVQGHGGSPIYANISNDGVWKTIVIDNINVTSGSVDVGFYVDSPGYTTLHIDEVTLTRAP 5x7v-a2-m1-cD_5x7v-a2-m1-cC Crystal structure of Nucleosome assembly protein S (PfNapS) from Plasmodium falciparum Q9Y010 Q9Y010 2.802 X-RAY DIFFRACTION 81 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 172 179 5x7v-a1-m1-cB_5x7v-a1-m1-cA FMQDFEDIQKDIEQLDIKCAHEQMNIQKQYDEKKKPLFEKRDEIIQKIPGFWANTLRKHPALSDIVPEDIDILNHLVKLDLKDNMDNNGSYKITFIFGEKAKEFMEPLTLVKHVTFVVECTRIKWKEGKNPIAAVPKWSIFEWFTTDELQDKPDVGELIRREIWHNPLSYYL FMQDFEDIQKDIEQLDIKCAHEQMNIQKQYDEKKKPLFEKRDEIIQKIPGFWANTLRKHPALSDIVPEDIDILNHLVKLDLKDNMDNNGSYKITFIFGEKAKEFMEPLTLVKHVTFDNNQEKVVECTRIKWKEGKNPIAAVIPKWSIFEWFTTDELQDKPDVGELIRREIWHNPLSYYL 5x7v-a3-m1-cE_5x7v-a3-m1-cF Crystal structure of Nucleosome assembly protein S (PfNapS) from Plasmodium falciparum Q9Y010 Q9Y010 2.802 X-RAY DIFFRACTION 79 0.988 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 167 168 FMQDFEDIQKDIEQLDIKCAHEQMNIQKQYDEKKKPLFEKRDEIIQKIPGFWANTLRKHPALSDIVPEDIDILNHLVKLDLKDNMDNNGSYKITFIFGEKAKEFMEPLTLVKHVTEKVVECTRIKWKEGKNPIAAVPKWSIFEWFTTPDVGELIRREIWHNPLSYYL FMQDFEDIQKDIEQLDIKCAHEQMNIQKQYDEKKKPLFEKRDEIIQKIPGFWANTLRKHPALSDIVPEDIDILNHLVKLDLKDNMDNNGSYKITFIFGEKAKEFMEPLTLVKHVTFDNEKVVECTRIKWKEGKNPIAAVPKWSIFEWFPDVGELIRREIWHNPLSYYL 5x83-a1-m1-cD_5x83-a1-m1-cB Structure of DCC FN456 domains P43146 P43146 2.997 X-RAY DIFFRACTION 43 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 195 202 MLPPVGVQAVALTHDAVRVSWADVRLYTVRWRTSFSASAKYKSEDTTSLSYTATGLKPNTMYEFSVMVTKNRRSSTWSMTAHATTYEAAPTSAPKDLTVITREGKPRAVIVSWQPPLEANGKITAYILFYTLDKNIPIDDWIMETISGDRLTHQIMDLNLDTMYYFRIQARNSKGVGPLSDPILFRTLKLEVLFQ GMLPPVGVQAVALTHDAVRVSWADNSVPKSEVRLYTVRWRTSFSASAKYKSEDTTSLSYTATGLKPNTMYEFSVMVTKNRRSSTWSMTAHATTYEAAPTSAPKDLTVITREGKPRAVIVSWQPPLEANGKITAYILFYTLDKNIPIDDWIMETISGDRLTHQIMDLNLDTMYYFRIQARNSKGVGPLSDPILFRTLKLEVLF 5x89-a1-m1-cA_5x89-a1-m2-cA The X-ray crystal structure of subunit fusion RNA splicing endonuclease from Methanopyrus kandleri Q8TGZ7 Q8TGZ7 1.53 X-RAY DIFFRACTION 143 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 337 337 AAKGELVGSKVLVRNDRDANRLYSSMYGKPSRRGLQLWPEEALFLCEIGRLEVRSGNVRISPEELMDRFVEEDPRFPVRYAVYADLRRRGWKPKPGRKFGTEFRAFRGEDERIAVKVLQEELDEFTAQDILEWLKLVEGTEFELVVAIVDNDYDLNYYVFSELVLGGELPRAKVFEGGSLVSKDYEDLKRRYFGTEHGNVLFLDPFETVYLTEKGEIDPETPEGEPMSVEELLSFFERRRPGFRAGYVVYRDLTERGYVVKSGFKYGGRFRVYEEDPDREHSKYVVRVVEPDTELSTRDVLRATRLAHSVRKDFVLAVVEDVEEPRIEYVMWRWKRL AAKGELVGSKVLVRNDRDANRLYSSMYGKPSRRGLQLWPEEALFLCEIGRLEVRSGNVRISPEELMDRFVEEDPRFPVRYAVYADLRRRGWKPKPGRKFGTEFRAFRGEDERIAVKVLQEELDEFTAQDILEWLKLVEGTEFELVVAIVDNDYDLNYYVFSELVLGGELPRAKVFEGGSLVSKDYEDLKRRYFGTEHGNVLFLDPFETVYLTEKGEIDPETPEGEPMSVEELLSFFERRRPGFRAGYVVYRDLTERGYVVKSGFKYGGRFRVYEEDPDREHSKYVVRVVEPDTELSTRDVLRATRLAHSVRKDFVLAVVEDVEEPRIEYVMWRWKRL 5x8f-a2-m1-cD_5x8f-a2-m1-cB Ternary complex structure of a double mutant I454RA456K of o-Succinylbenzoate CoA Synthetase (MenE) from Bacillus Subtilis bound with AMP and its product analogue OSB-NCoA at 1.76 angstrom P23971 P23971 1.763 X-RAY DIFFRACTION 56 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 484 485 5buq-a1-m1-cA_5buq-a1-m1-cB 5bur-a1-m1-cB_5bur-a1-m1-cA 5bus-a1-m1-cB_5bus-a1-m1-cA 5gtd-a1-m1-cB_5gtd-a1-m1-cA 5x8f-a1-m1-cA_5x8f-a1-m1-cC 5x8g-a1-m1-cC_5x8g-a1-m1-cA 5x8g-a2-m1-cB_5x8g-a2-m1-cD LTEQPNWLMQRAQLTPERIALIYEDQTVTFAELFAASKRMAEQLAAHSVRKGDTAAILLQNRAEMVYAVHACFLLGVKAVLLNTKLSTHERLFQLEDSGSGFLLTDSSFEKKEYEHIVQTIDVDELMKEAAEEIEIEAYMQMDATATLMYTSGTTGKPKGVQQTFGNHYFSAVSSALNLGITEQDRWLIALPLFHISGLSALFKSVIYGMTVVLHQRFSVSDVLHSINRHEVTMISAVQTMLASLLEETNRCPESIRCILLGGGPAPLPLLEECREKGFPVFQSYGMTETCSQIVTLSPEFSMEKLGSAGKPLFSCEIKIERDGQVCEPYEHGEIMVKGPNVMKSYFNRESANEASFQNGWLKTGDLGYLDNEGFLYVLDRRSDLIISGGENIYPAEVESVLLSHPAVAEAGVSGAEDKKWGKVPHAYLVLHKPVSAGELTDYCKERLAKYKRPKKFFVLDRLPRNASNKLLRNQLKDARKGEL LTEQPNWLMQRAQLTPERIALIYEDQTVTFAELFAASKRMAEQLAAHSVRKGDTAAILLQNRAEMVYAVHACFLLGVKAVLLNTKLSTHERLFQLEDSGSGFLLTDSSFEKKEYEHIVQTIDVDELMKEAAEEIEIEAYMQMDATATLMYTSGTTGKPKGVQQTFGNHYFSAVSSALNLGITEQDRWLIALPLFHISGLSALFKSVIYGMTVVLHQRFSVSDVLHSINRHEVTMISAVQTMLASLLEETNRCPESIRCILLGGGPAPLPLLEECREKGFPVFQSYGMTETCSQIVTLSPEFSMEKLGSAGKPLFSCEIKIERDGQVCEPYEHGEIMVKGPNVMKSYFNRESANEASFQNGWLKTGDLGYLDNEGFLYVLDRRSDLIISGGENIYPAEVESVLLSHPAVAEAGVSGAEDKKWGKVPHAYLVLHKPVSAGELTDYCKERLAKYKRPKKFFVLDRLPRNASNKLLRNQLKDARKGELL 5x9a-a1-m1-cA_5x9a-a1-m1-cB Crystal structure of calaxin with calcium Q8T893 Q8T893 1.85 X-RAY DIFFRACTION 62 1.0 7719 (Ciona intestinalis) 7719 (Ciona intestinalis) 188 198 5ypx-a1-m1-cB_5ypx-a1-m1-cA NQKLAEELYKTSCQKHFTKTEVESLIICYKNLLEGLKMDRNLFRDILHQKFNMTEDLLMDRVFRAFDKDSDSYISLTEWVEGLSVFLRGTLDEKMEYTFTVFDLNGDGYISREEMFQMLKTCLVPDEGIKDLVEIALKKMDHDHDSRLSKKDFKDAVLIEPLLLEAFGKCLPDEKSSEIFEYHVLGVK SKKNQKLAEELYKTSCQKHFTKTEVESLIICYKNLLEGLKMDRNLFRDILHQKFNMTEDLLMDRVFRAFDKDSDSYISLTEWVEGLSVFLRGTLDEKMEYTFTVFDLNGDGYISREEMFQMLKTCLVKQPTEEDPDEGIKDLVEIALKKMDHDHDSRLSKKDFKDAVLIEPLLLEAFGKCLPDEKSSEIFEYHVLGVK 5x9g-a1-m1-cA_5x9g-a1-m1-cD Crystal structure of the cytosolic domain of the Mg2+ channel MgtE in complex with ATP Q5SMG8 Q5SMG8 3 X-RAY DIFFRACTION 26 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 248 248 5x9g-a1-m1-cC_5x9g-a1-m1-cB LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVL LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVL 5x9g-a1-m1-cB_5x9g-a1-m1-cD Crystal structure of the cytosolic domain of the Mg2+ channel MgtE in complex with ATP Q5SMG8 Q5SMG8 3 X-RAY DIFFRACTION 25 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 248 248 5x9g-a1-m1-cC_5x9g-a1-m1-cA LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVL LAVSLQEALQEGDTRALREVLEEIHPQDLLALWDELKGEHRYVVLTLLPKAKAAEVLSHLSPEEQAEYLKTLPPWRLREILEELSLDDLADALQAVRKEDPAYFQRLKDLLDPRTRAEVEALARYEEDEAGGLMTPEYVAVREGMTVEEVLRFLRRAAPDAETIYYIYVVDEKGRLKGVLSLRDLIVADPRTRVAEIMNPKVVYVRTDTDQEEVARLMADYDFTVLPVVDEEGRLVGIVTVDDVLDVL 5x9i-a1-m1-cA_5x9i-a1-m1-cB Unique Choloylglycine Hydrolase(CGH) member Mutant (C1S) from Shewanella loihica PV-4 A3QAQ5 A3QAQ5 1.5 X-RAY DIFFRACTION 118 1.0 323850 (Shewanella loihica PV-4) 323850 (Shewanella loihica PV-4) 333 333 5x8z-a1-m1-cA_5x8z-a1-m1-cB SSRLVTETQYGTMLMRTADWVSTAPFDGHMSVFPVGTERTMRGQVAEYQQAMTKWQTKYHTLSIEEHGAFGGLSGQTSNEKGLSVMALSQHDSEPYLSQHKDNGAPAVNTADVVSFITERYATTAEVKAALDNGEFQIAWASAPNGMEHAAPLHYSVVDADGNIMLIQLVKGGEQKIYLGDAESDLRVKTNDPLQEKHREYMQQFDLKDPSVATKMPWSIGGLERNSRLLAMSTHMDLEGLSYTETVARQKGTFDAAALVPFGVQDPKTGEDYPSFFSMQYNLDNGDIWFRSLMSGKEIKFNLEDTKQFKTPMHADIMAQVDKGAQTITWSKM SSRLVTETQYGTMLMRTADWVSTAPFDGHMSVFPVGTERTMRGQVAEYQQAMTKWQTKYHTLSIEEHGAFGGLSGQTSNEKGLSVMALSQHDSEPYLSQHKDNGAPAVNTADVVSFITERYATTAEVKAALDNGEFQIAWASAPNGMEHAAPLHYSVVDADGNIMLIQLVKGGEQKIYLGDAESDLRVKTNDPLQEKHREYMQQFDLKDPSVATKMPWSIGGLERNSRLLAMSTHMDLEGLSYTETVARQKGTFDAAALVPFGVQDPKTGEDYPSFFSMQYNLDNGDIWFRSLMSGKEIKFNLEDTKQFKTPMHADIMAQVDKGAQTITWSKM 5x9j-a1-m1-cA_5x9j-a1-m1-cB Structure of PrhC from Penicillium brasilianum NBRC 6234 A0A1E1FFL1 A0A1E1FFL1 2.1 X-RAY DIFFRACTION 86 1.0 104259 (Penicillium brasilianum) 104259 (Penicillium brasilianum) 151 152 STREKLIALAHKFCSIISSGDMEAVLALRTESCLTYQCCPSFSTRPLNNQETREYFEEWKHIGWNSKFWIIDEGTMVVDEAAKKIAFRAACSADTIGGPYENENLVILQATDDCALVDGIWEFFDAVRKQDLMNRLAAKQAAKGLDSWCAN NSTREKLIALAHKFCSIISSGDMEAVLALRTESCLTYQCCPSFSTRPLNNQETREYFEEWKHIGWNSKFWIIDEGTMVVDEAAKKIAFRAACSADTIGGPYENENLVILQATDDCALVDGIWEFFDAVRKQDLMNRLAAKQAAKGLDSWCAN 5x9k-a1-m1-cB_5x9k-a1-m1-cA Structure of AusH from Aspergillus nidulans Q5AR31 Q5AR31 1.798 X-RAY DIFFRACTION 72 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 146 147 PPTRDELLCTALNFVGQFAKLDVESVLSFMSPSCTLRSFPSSLGKPALQTKEESKADFQGLKDFFYNFQLRVKDGAEPVIDEPARKVVLHIEGKGDSLVGRFETEYVYILQINEEGTMVEDFFQFADSATRDAWGKKIEAHFSARN MPPTRDELLCTALNFVGQFAKLDVESVLSFMSPSCTLRSFPSSLGKPALQTKEESKADFQGLKDFFYNFQLRVKDGAEPVIDEPARKVVLHIEGKGDSLVGRFETEYVYILQINEEGTMVEDFFQFADSATRDAWGKKIEAHFSARN 5xai-a1-m1-cB_5xai-a1-m1-cA dTMP bound Crystal structure of thymidylate kinase (aq_969) from Aquifex Aeolicus VF5 O67099 O67099 2 X-RAY DIFFRACTION 64 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 192 194 2pbr-a2-m1-cA_2pbr-a2-m2-cB 4s2e-a1-m1-cA_4s2e-a1-m1-cB 4s35-a1-m1-cB_4s35-a1-m1-cA 5h56-a1-m1-cA_5h56-a1-m1-cB 5h5b-a1-m1-cA_5h5b-a1-m1-cB 5h5k-a1-m1-cA_5h5k-a1-m1-cB 5xb2-a1-m1-cA_5xb2-a1-m1-cB 5xb3-a1-m1-cA_5xb3-a1-m1-cB 5xb5-a1-m1-cA_5xb5-a1-m1-cB 5xbh-a1-m1-cA_5xbh-a1-m1-cB MLIAFEGIDGSGKTTQAKKLYEYLKQKGYFVSLYREPGGTKVGEVLREILLTEELDERTELLLFEASRSKLIEEKIIPDLKRDKVVILDRFVLSTIAYQGYGKGLDVEFIKNLNEFATRGVKPDITLLLDIPVDIALRRLKEKNRFENKEFLEKVRKGFLELAKEEENVVVIDASGEEEEVFKEILRALSGV MLIAFEGIDGSGKTTQAKKLYEYLKQKGYFVSLYREPGGTKVGEVLREILLTEELDERTELLLFEASRSKLIEEKIIPDLKRDKVVILDRFVLSTIAYQGYGKGLDVEFIKNLNEFATRGVKPDITLLLDIPVDIALRRLKEKNRFENKEFLEKVRKGFLELAKEEENVVVIDASGEEEEVFKEILRALSGVLR 5xaq-a1-m1-cB_5xaq-a1-m1-cA Crystal structure of Animalia-specific tRNA deacylase from Mus musculus Q8BHA3 Q8BHA3 1.86 X-RAY DIFFRACTION 98 1.0 10090 (Mus musculus) 10090 (Mus musculus) 161 166 AQARALLQQCLHARLQVRPADGDAAAQWVEIRRGLVIYVCFFKGADTDLLPKMVNTLLNVKLSETETGKHVSILDLPGDVLIIPQATLGGRVKGRSMQYHSNSGKEEGSELYSQFVSLCEKAVANNTKSVEAGVAVAHGTYGNRQVLKLDTNGPYTHLIEF DGGRVAQARALLQQCLHARLQVRPADGDAAAQWVEIRRGLVIYVCFFKGADTDLLPKMVNTLLNVKLSETETGKHVSILDLPGDVLIIPQATLGGRVKGRSMQYHSNSGKEEGSELYSQFVSLCEKAVANNTKSVEAGVAVAHGTYGNRQVLKLDTNGPYTHLIEF 5xas-a1-m1-cB_5xas-a1-m1-cA Structural insights into the elevator-like mechanism of the sodium/citrate symporter CitS P31602 P31602 3.47 X-RAY DIFFRACTION 211 0.983 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 407 409 5a1s-a1-m1-cC_5a1s-a1-m1-cD 5a1s-a2-m1-cB_5a1s-a2-m1-cA 5x9r-a1-m1-cB_5x9r-a1-m1-cA 5xar-a1-m1-cB_5xar-a1-m1-cA 5xar-a2-m1-cD_5xar-a2-m1-cC 5xat-a1-m1-cD_5xat-a1-m1-cA 5xat-a2-m1-cC_5xat-a2-m1-cB SDLLGFKIFGMPLPLYAFALITLLLSHFYNALPTDIVGGFAIMFIIGAIFGEIGKRLPIFNKYIGGAPVMIFLVAAYFVYAGIFTQKEIDAISNVMDKSNFLNLFIAVLITGAILSVNRRLLLKSLLGYIPTILMGIVGASIFGIAIGLVFGIPVDRIMMLYVLPIMGGGNGAGAVPLSEIYHSVTGRSREEYYSTAIAILTIANIFAIVFAAVLDIIGKKHTITHRETAVGLVLSTTCFLLAYVVAKKILPSIGGVAIHYFAWMVLIVAALNASGLCSPEIKAGAKRLSDFFSKQLLWVLMVGVGVCYTDLQEIINAITFANVVIAAIIVIGAVLGAAIGGWLMGFFPIESAITAGLCMANRGGSGDLEVLSACNRMNLISYAQISSRLGGGIVLVIASIVFGMMI KIFGMPLPLYAFALITLLLSHFYNALPTDIVGGFAIMFIIGAIFGEIGKRLPIFNKYIGGAPVMIFLVAAYFVYAGIFTQKEIDAISNVMDKSNFLNLFIAVLITGAILSVNRRLLLKSLLGYIPTILMGIVGASIFGIAIGLVFGIPVDRIMMLYVLPIMGGGNGAGAVPLSEIYHSVTGRSREEYYSTAIAILTIANIFAIVFAAVLDIIGKKHTWLSGEGELVTHRETAVGLVLSTTCFLLAYVVAKKILPSIGGVAIHYFAWMVLIVAALNASGLCSPEIKAGAKRLSDFFSKQLLWVLMVGVGVCYTDLQEIINAITFANVVIAAIIVIGAVLGAAIGGWLMGFFPIESAITAGLCMANRGGSGDLEVLSACNRMNLISYAQISSRLGGGIVLVIASIVFGMMI 5xav-a1-m1-cA_5xav-a1-m1-cB Structure of PhaC from Chromobacterium sp. USM2 E1APK1 E1APK1 1.479 X-RAY DIFFRACTION 56 1.0 611307 (Chromobacterium sp. USM2) 611307 (Chromobacterium sp. USM2) 376 378 PFQIGKNLVVTPGEVVFRNELIELIQYTPTTEKVHEKPLLFVPPCINKYYLMDLQPDNSMVRHFVGQGYRVFLVSWRSAVPEMKNFTWETYIEKGVFAAAEAVQKITKQPTMNALGFCVGGVILTTALCVAQAKGLKYFDSATFMTSLIDHAEPGEISFFIDEALVASREAKMAAGGIISGKEIGRTFASLRANDLVWAPFDLLYWNNDAVDLPLPMHTFMLRQFYINNALITPGAITLCGVPIDISKIDIPVYMFAAREDHIVLWSSAYSGLKYLSGTPSRRFVLGASGHIAGSINPVTKDKRNYWTNEQLPVNPEEWLEGAQSHPGSWWKDWDAWLAPQSGKQVPAPKMLGSKEFPPLQPAPGSYVLAKAMPPV PFQIGKNLVVTPGEVVFRNELIELIQYTPTTEKVHEKPLLFVPPCINKYYLMDLQPDNSMVRHFVGQGYRVFLVSWRSAVPEMKNFTWETYIEKGVFAAAEAVQKITKQPTMNALGFCVGGVILTTALCVAQAKGLKYFDSATFMTSLIDHAEPGEISFFIDEALVASREAKMAAGGIISGKEIGRTFASLRANDLVWNPAPFDLLYWNNDAVDLPLPMHTFMLRQFYINNALITPGAITLCGVPIDISKIDIPVYMFAAREDHIVLWSSAYSGLKYLSGTPSRRFVLGASGHIAGSINPVTKDKRNYWTNEQLPVNPEEWLEGAQSHPGSWWKDWDAWLAPQSGKQVPAPKMLGSKEFPPLQPAPGSYVLAKAMPPV 5xaw-a1-m1-cB_5xaw-a1-m1-cA Parallel homodimer structures of voltage-gated sodium channel beta4 for cell-cell adhesion Q8IWT1 Q8IWT1 2.101 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 112 SLEVSVGKATDIYAVNGTEILLPCTFSSCFGFEDLHFRWTYNSSDAFKILIEGTVKNEKSDPKVTLKDDDRITLVNNISIVLRDLEFSDTGKYTCHVKNQHHATIFLQVV SLEVSVGKATDIYAVNGTEILLPCTFSSCFGFEDLHFRWTYNSSDAFKILIEGTVKNEKSDPKVTLKDDDRITLVNNISIVLRDLEFSDTGKYTCHVKNPLQHHATIFLQVV 5xay-a4-m1-cD_5xay-a4-m1-cG Crystal structure of full length tylp, a tetr regulator from streptomyces fradiae Q9XCC7 Q9XCC7 2.58 X-RAY DIFFRACTION 80 0.99 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 192 210 5xay-a1-m1-cH_5xay-a1-m1-cA 5xay-a2-m1-cF_5xay-a2-m1-cB 5xay-a3-m1-cE_5xay-a3-m1-cC AAQTRRTIVAAAAAVFDELGYEATTIAEILKRSGVTKGALYFHFTSKEQLAQEVLTSQLRAQRLVLQQIIDETLLLAQLLSKGDPLVRGSVRLTVEPLDRRAPQEWIGHGRDLLRRAEAGGELLPRLDVDAVARLVGGFTGAQILSNILTGHADLLERVTDHRHLTSVAVPAVLVRLDFSAERSITVYDEAR ARQERAAQTRRTIVAAAAAVFDELGYEATTIAEILKRSGVTKGALYFHFTSKEQLAQEVLTSQLRRLVLQQIIDETLLLAQLLSKGDPLVRGSVRLTVEPGLDRRAPQEWIGHGRDLLRRAEAGGELLPRLDVDAVARLVGGFTGAQILSNILTGHADLLERVTDHRHLTSVAVPAVLVRLDFSAERSITVYDEARRREAPLPAAGDLEH 5xb6-a6-m1-cK_5xb6-a6-m1-cL Crystal structure of YcjY from E. Coli P76049 P76049 2 X-RAY DIFFRACTION 115 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 306 306 5xb6-a1-m1-cA_5xb6-a1-m1-cB 5xb6-a2-m1-cC_5xb6-a2-m1-cD 5xb6-a3-m1-cE_5xb6-a3-m1-cF 5xb6-a4-m1-cG_5xb6-a4-m1-cH 5xb6-a5-m1-cJ_5xb6-a5-m1-cI MMNNKVSFTNSNNPTISLSAVIYFPPKFDETRQYQAIVLSHPGGGVKEQTAGTYAKKLAEKGFVTIAYDASYQGESGGEPRQLENPYIRTEDISAVIDYLTTLSYVDNTRIGAMGICAGAGYTANAAIQDRRIKAIGTVSAVNIGSIFRNGWENNVKSIDALPYVEAGSNARTSDISSGEYAIMPLAPMKESDAPNEELRQAWEYYHTPRAQYPTAPGYATLRSLNQIITYDAYHMAEVYLTQPTQIVAGSQAGSKWMSDDLYDRASSQDKRYHIVEGANHMDLYDGKAYVAEAISVLAPFFEETL MMNNKVSFTNSNNPTISLSAVIYFPPKFDETRQYQAIVLSHPGGGVKEQTAGTYAKKLAEKGFVTIAYDASYQGESGGEPRQLENPYIRTEDISAVIDYLTTLSYVDNTRIGAMGICAGAGYTANAAIQDRRIKAIGTVSAVNIGSIFRNGWENNVKSIDALPYVEAGSNARTSDISSGEYAIMPLAPMKESDAPNEELRQAWEYYHTPRAQYPTAPGYATLRSLNQIITYDAYHMAEVYLTQPTQIVAGSQAGSKWMSDDLYDRASSQDKRYHIVEGANHMDLYDGKAYVAEAISVLAPFFEETL 5xb7-a2-m1-cE_5xb7-a2-m1-cB GH42 alpha-L-arabinopyranosidase from Bifidobacterium animalis subsp. lactis Bl-04 A0A2H4A2Z3 A0A2H4A2Z3 2 X-RAY DIFFRACTION 155 0.996 302911 (Bifidobacterium animalis subsp. lactis) 302911 (Bifidobacterium animalis subsp. lactis) 684 685 5xb7-a1-m1-cA_5xb7-a1-m1-cD 5xb7-a1-m1-cC_5xb7-a1-m1-cA 5xb7-a1-m1-cC_5xb7-a1-m1-cD 5xb7-a2-m1-cB_5xb7-a2-m1-cF 5xb7-a2-m1-cE_5xb7-a2-m1-cF PILFGAAYYDEYIPRDLDRIDTDMEMMTRAGINVIRIGESTWSTCEPQPGHFDWTHIDRALDAATNAGINVIVGTPTYAVPTWLVAMYPDVLATTPAGEPHYGARQIMNIVNPAYRLYGERVIRSLISHVAQQPCVIGYQVDNETKYYDSVSHDMQVMFIKQLRHEFKNDLEALNEAYGLDYWSNRINAWEDFPDLTGSINESLRARFDRFRRDQVAEYLAWQASIIREYMRDDQFITHNFDYEWRGHSYGLQPAVDHFRAARALDICGVDIYHPSEDALTGKEIAFGGDMARSAGGGNYLVLETQAQGQHGWLPYPGQLRLQAYSHLASGADGIMYWHWHSIHNSFETYWRGLLSHDFESNPTYEEAGRFGREIGDPRIGDTLSHLSKRNAVAILASNESLTALSWFHIETGFPMGGTLTYNDVLRSIYDALFELNVEVDFLPADASADQLAGYSLVIAPALYTTDQQTIDRLARYVKNGGHLLATMRSFVADENVKVWHDKAPHHLVDIFGMTYNQFTRPMGVSLKCPDTLADLAGASANDFIEMLSPAPETHVLAWYDHYAWDSYAAITRHAFGSGDAQWVGTQLQADAWRTVLAEALSNAGVHTPGMELAGTVCVRSGTNTAGDTVTYLLNYSGSPITFRAPASGTFLLGHPVTAETPVTVGDAVTLPRWGVDIIVGRQP PILFGAAYYDEYIPRDLDRIDTDMEMMTRAGINVIRIGESTWSTCEPQPGHFDWTHIDRALDAATNAGINVIVGTPTYAVPTWLVAMYPDVLATTPAGEPHYGARQIMNIVNPAYRLYGERVIRSLISHVAQQPCVIGYQVDNETKYYDSVSHDMQVMFIKQLRHEFKNDLEALNEAYGLDYWSNRINAWEDFPDLTGSINESLRARFDRFRRDQVAEYLAWQASIIREYMRDDQFITHNFDYEWRGHSYGLQPAVDHFRAARALDICGVDIYHPSEDALTGKEIAFGGDMARSAGGGNYLVLETQAQGQHGWLPYPGQLRLQAYSHLASGADGIMYWHWHSIHNSFETYWRGLLSHDFESNPTYEEAGRFGREIGDPRIGDTLSHLSKRNAVAILASNESLTALSWFHIETGFPMGGTLTYNDVLRSIYDALFELNVEVDFLPADASADQLAGYSLVIAPALYTTDQQTIDRLARYVKNGGHLLATMRSFVADENVKVWHDKAPHHLVDIFGMTYNQFTRPMGVSLKCPDTLADLAGASANDFIEMLSPAPETHVLAWYDHYAWDSYAAITRHAFGSGDAQWVGTQLQADAWRTVLAEALSNAGVHTPGMELAGTVCVRSGTNTAGDTVTYLLNYSGSPITFRAPASGTFLLGHPTDQAVTAETPVTVGDAVTLPRWGVDIIVG 5xbp-a1-m1-cD_5xbp-a1-m1-cG Oxygenase component of 3-nitrotoluene dioxygenase from Diaphorobacter sp. strain DS2 M9PW10 M9PW10 2.9 X-RAY DIFFRACTION 88 1.0 1302548 (Diaphorobacter sp. DS2) 1302548 (Diaphorobacter sp. DS2) 444 444 5xbp-a1-m1-cA_5xbp-a1-m1-cD 5xbp-a1-m1-cA_5xbp-a1-m1-cG SYQNLVSEAGLTQKHLIHGDKELFQHEMKTIFARNWLFLTHDSLIPSPGDYVTAKMGLDEVIVSRQNDGSVRAFLNVCRHRGKTIVHAEAGNAKGFVCNYHGWGYGTNGELQSVPFEKELYGDAIKKKCLGLKEVPRIESFHGFIYGCFDAEAPPLIDYLGDAAWYMEPTFKHSGGLELVGPPGKVVVKANWKTFAENFVGDIYHVGWTHASILRVGQSVFTPLAGNAMLPPEGSGLQMTSKYGSGMSLMWDYYAGNHSADLVPDLMAFGGAKQEKLAKEIGDVRARIYRSHLNGTIFPNNSFLTGSAAFKVWNPIDENTTEVWTYAFVEKDMPEDLKRRLADAVQRTVGPGGYWESDDNDNMETLSQNAKKYQSSNSDLIASLGFGKDVYGDECYPGVVGPSGASETSYRGFYRAYQAHISSSNWAEFENASRNWHTELTKTT SYQNLVSEAGLTQKHLIHGDKELFQHEMKTIFARNWLFLTHDSLIPSPGDYVTAKMGLDEVIVSRQNDGSVRAFLNVCRHRGKTIVHAEAGNAKGFVCNYHGWGYGTNGELQSVPFEKELYGDAIKKKCLGLKEVPRIESFHGFIYGCFDAEAPPLIDYLGDAAWYMEPTFKHSGGLELVGPPGKVVVKANWKTFAENFVGDIYHVGWTHASILRVGQSVFTPLAGNAMLPPEGSGLQMTSKYGSGMSLMWDYYAGNHSADLVPDLMAFGGAKQEKLAKEIGDVRARIYRSHLNGTIFPNNSFLTGSAAFKVWNPIDENTTEVWTYAFVEKDMPEDLKRRLADAVQRTVGPGGYWESDDNDNMETLSQNAKKYQSSNSDLIASLGFGKDVYGDECYPGVVGPSGASETSYRGFYRAYQAHISSSNWAEFENASRNWHTELTKTT 5xd5-a1-m1-cA_5xd5-a1-m1-cB Crystal structure of Mycobacterium smegmatis MutT1 in complex with ATP, magnesium fluoride and phosphate A0QUZ2 A0QUZ2 1.75 X-RAY DIFFRACTION 46 0.997 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 289 289 TVRAAGAVLWRDATVEVAVIHRPRYDDWSLPKGKLDQGETEPVAAAREIHEETGHTAVLGRRLGRVTYPIPQGTKRVWYWAAKSTGGDFSPNDEVDKLVWLPVDAAMDQLQYPDDRKVLRRFVKRPVDTKTVLVVRHGTAGRRSRYKGDDRKRPLDKRGRAQAEALVAQLMAFGATTLYAADRVRCHQTIEPLAQELDQLIHNEPLLTEEAYAADHKAARKRLLEIAGRPGNPVICTQGKVIPGLIEWWCERAKVRPETTGNRKGSTWVLSLSDGELVGADYLSPPDEK HTVRAAGAVLWRDATVEVAVIHRPRYDDWSLPKGKLDQGETEPVAAAREIHEETGHTAVLGRRLGRVTYPIPQGTKRVWYWAAKSTGGDFSPNDEVDKLVWLPVDAAMDQLQYPDDRKVLRRFVKRPVDTKTVLVVRHGTAGRRSRYKGDDRKRPLDKRGRAQAEALVAQLMAFGATTLYAADRVRCHQTIEPLAQELDQLIHNEPLLTEEAYAADHKAARKRLLEIAGRPGNPVICTQGKVIPGLIEWWCERAKVRPETTGNRKGSTWVLSLSDGELVGADYLSPPDE 5xd7-a1-m1-cA_5xd7-a1-m2-cA Crystal structure analysis of 3,6-anhydro-L-galactonate cycloisomerase H2IFX0 H2IFX0 2.198 X-RAY DIFFRACTION 117 1.0 1116375 (Vibrio sp. EJY3) 1116375 (Vibrio sp. EJY3) 359 359 5xd8-a1-m1-cA_5xd8-a1-m1-cB 5xd9-a1-m1-cA_5xd9-a1-m2-cA MKTTIKDIKTRLFKIPLKEILSDHDHFELITTTVTLEDGSQGTGYTYTGGKGGYSIKAMLEYDIQPALIGKDATQIEEIYDFMEWHIHYVGRGGISTFAMSAVDIALWDLKGKREGLPLWKMAGGKNNTCKAYCGGIDLQFPLEKLLNNICGYLESGFNAVKIKIGRENMQEDIDRIKAVRELIGPDITFMIDANYSLTVEQAIKLSKAVEQYDITWFEEPTLPDDYKGFAEIADNTAIPLAMGENLHTIHEFGYAMDQAKLGYCQPDASNCGGITGWLKAADLITEHNIPVCTHGMQELHVSLVSAFDTGWLEVHSFPIDEYTKRPLVVENFRAVASNEPGIGVEFDWDKIAQYEVHH MKTTIKDIKTRLFKIPLKEILSDHDHFELITTTVTLEDGSQGTGYTYTGGKGGYSIKAMLEYDIQPALIGKDATQIEEIYDFMEWHIHYVGRGGISTFAMSAVDIALWDLKGKREGLPLWKMAGGKNNTCKAYCGGIDLQFPLEKLLNNICGYLESGFNAVKIKIGRENMQEDIDRIKAVRELIGPDITFMIDANYSLTVEQAIKLSKAVEQYDITWFEEPTLPDDYKGFAEIADNTAIPLAMGENLHTIHEFGYAMDQAKLGYCQPDASNCGGITGWLKAADLITEHNIPVCTHGMQELHVSLVSAFDTGWLEVHSFPIDEYTKRPLVVENFRAVASNEPGIGVEFDWDKIAQYEVHH 5xda-a1-m1-cA_5xda-a1-m2-cC Structural basis for Ufm1 recognition by UfSP Q94218 Q94218 3.285 X-RAY DIFFRACTION 38 0.996 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 537 541 5xda-a1-m1-cE_5xda-a1-m1-cB VNELWFIDAQAMFQNYANLRSFSKNTTIGGFVFGRKARKQVIHVLFAYAEDLTESNRQFLESSLSADIELVGNLNIDGQSQILPGGQFTLQLTSRMLENRSISEFLDMNVMFNNEHVLMEGASCVSRVGYEWSLRAGREQEDVKSAAERLSMASFRFTYLNAEHGLVIREQKPEAAQQKYLDKFSKGAVPYKDVIEFTAMQSLTRDHFTRLVTIGEVVFPAFFGDSSLDLYKRSREAFNRRANNTMMVTVNGIRAGRGVTTTTSATYLPPGWVSLLHLQLPTKWTDNEQRNYRIRLHKLFNLPSSKPVLRLSQALALHSESARLTNKKLIREPHLSITNYQPVGEITTVNGPYNYHHYMQDGIDDSGWGSAYRSFQTIWSWFILNGYTDKPVPSHREIQQALVDIQDKQAKFVGSRQWIGSTEISFVLNELLKLECRFIATNSGAEVVERVRELARHFETSGTPVMIGGNMLAHTILGVDFNDTTGETKFLVLDPHYTGSEDIKTITSKGWCAWKPASFWSKDHFYNMVLPQPPSDA VNELWFIDAQAMFQNYANLRSFSKSNANEINTTIGGFVFGRKARKQVIHVLFAYAEDLTESNRQFLESSLSADIELVGNLNIDGQSQILPGGQFTLQLTSRMLENRSISEFLDMNVMFNNEHVLMEGASCVSRVGYEWSLRAGREQEDVKSAAERLSMASFRFTYLNAEHGLVIREQKPEAAQQKYLDKFSKGAVPYKDVIEFTAMQSLTRFTRLVTIGEVVFPAFFGDSSLDLYKRSREAFNRRANNTMMVTVNGIRAGRGVTTTTSATYLPPGWVSLLHLQLPTKWTDNEQRNYRIRLHKLFNLPSSKPVLRLSQALALHSESARLTNKKLIREPHLSITNYQPVGEITTVNGPYNYHHYMQDGIDDSGWGSAYRSFQTIWSWFILNGYTDKPVPSHREIQQALVDIQDKQAKFVGSRQWIGSTEISFVLNELLKLECRFIATNSGAEVVERVRELARHFETSGTPVMIGGNMLAHTILGVDFNDTTGETKFLVLDPHYTGSEDIKTITSKGWCAWKPASFWSKDHFYNMVLPQPPSDA 5xda-a1-m2-cD_5xda-a1-m2-cC Structural basis for Ufm1 recognition by UfSP Q94218 Q94218 3.285 X-RAY DIFFRACTION 52 0.996 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 538 541 5ejj-a3-m1-cA_5ejj-a3-m2-cB 5xda-a1-m1-cA_5xda-a1-m1-cB 5xda-a1-m1-cE_5xda-a1-m1-cF VNELWFIDAQAMFQNYANLRSFSKSNTTIGGFVFGRKARKQVIHVLFAYAEDLTESNRQFLESSLSADIELVGNLNIDGQSQILPGGQFTLQLTSRMLENRSISEFLDMNVMFNNEHVLMEGASCVSRVGYEWSLRAGREQEDVKSAAERLSMASFRFTYLNAEHGLVIREQKPEAAQQKYLDKFSKGAVPYKDVIEFTAMQSLTRDHFTRLVTIGEVVFPAFFGDSSLDLYKRSREAFNRRANNTMMVTVNGIRAGRGVTTTTSATYLPPGWVSLLHLQLPTKWTDNEQRNYRIRLHKLFNLPSSKPVLRLSQALALHSESARLTNKKLIREPHLSITNYQPVGEITTVNGPYNYHHYMQDGIDDSGWGSAYRSFQTIWSWFILNGYTDKPVPSHREIQQALVDIQDKQAKFVGSRQWIGSTEISFVLNELLKLECRFIATNSGAEVVERVRELARHFETSGTPVMIGGNMLAHTILGVDFNDTTGETKFLVLDPHYTGSEDIKTITSKGWCAWKPASFWSKDHFYNMVLPQPPSDA VNELWFIDAQAMFQNYANLRSFSKSNANEINTTIGGFVFGRKARKQVIHVLFAYAEDLTESNRQFLESSLSADIELVGNLNIDGQSQILPGGQFTLQLTSRMLENRSISEFLDMNVMFNNEHVLMEGASCVSRVGYEWSLRAGREQEDVKSAAERLSMASFRFTYLNAEHGLVIREQKPEAAQQKYLDKFSKGAVPYKDVIEFTAMQSLTRFTRLVTIGEVVFPAFFGDSSLDLYKRSREAFNRRANNTMMVTVNGIRAGRGVTTTTSATYLPPGWVSLLHLQLPTKWTDNEQRNYRIRLHKLFNLPSSKPVLRLSQALALHSESARLTNKKLIREPHLSITNYQPVGEITTVNGPYNYHHYMQDGIDDSGWGSAYRSFQTIWSWFILNGYTDKPVPSHREIQQALVDIQDKQAKFVGSRQWIGSTEISFVLNELLKLECRFIATNSGAEVVERVRELARHFETSGTPVMIGGNMLAHTILGVDFNDTTGETKFLVLDPHYTGSEDIKTITSKGWCAWKPASFWSKDHFYNMVLPQPPSDA 5xdm-a1-m1-cB_5xdm-a1-m1-cA Structure of the C-terminal domain of E. coli MinC at 3.0 angstrom resolution P18196 P18196 3.004 X-RAY DIFFRACTION 13 0.982 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 109 111 TRLIDTPVRSGQRIYAPQCDLIVTSHVSAGAELIADGNIHVYGMMRGRALAGASGDRETQIFCTNLMAELVSIAGEYWLSDQIPAEFYGKAARLQLVENALTVQPLNLE PVTKTRLIDTPVRSGQRIYAPQCDLIVTSHVSAGAELIADGNIHVYGMMRGRALAGASGDRETQIFCTNLMAELVSIAGEYWLSDQIPAEFYGKAARLQLVENALTVQPLN 5xdn-a1-m1-cB_5xdn-a1-m1-cA Crystal structure of human voltage-dependent anion channel 1 (hVDAC1) in P22121 space group P21796 P21796 3.15 X-RAY DIFFRACTION 23 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 271 278 GSMAVPPTYADLGKSARDVFTKGYGFGLIKLDLKTKSGLEFTSSGSANTETTKVTGSLETKYRWTEYGLTFTEKWNTDNTLGTEITVEDQLARGLKLTFDSSFSKNAKIKTGYKREHINLGCDMDFPSIRGALVLGYEGWLAGYQMNFETAKSRVTQSNFAVGYKTDEFQLHTNVNDGTEFGGSIYQKVNKKLETAVNLAWTAGNSNTRFGIAAKYQIDPDACFSAKVNNSSLIGLGYTQTLKPGIKLTLSALLDGKAGGHKLGLGLEFQA GSMAVPPTYADLGKSARDVFTKGYGFGLIKLDLKTKGLEFTSSGSANTETTKVTGSLETKYRWTEYGLTFTEKWNTDNTLGTEITVEDQLARGLKLTFDSSFSPGKKNAKIKTGYKREHINLGCDMDFDIAGPSIRGALVLGYEGWLAGYQMNFETAKSRVTQSNFAVGYKTDEFQLHTNVNDGTEFGGSIYQKVNKKLETAVNLAWTAGNSNTRFGIAAKYQIDPDACFSAKVNNSSLIGLGYTQTLKPGIKLTLSALLDGKNAGGHKLGLGLEFQA 5xe3-a1-m1-cB_5xe3-a1-m1-cD Endoribonuclease in complex with its cognate antitoxin from Mycobacterial species P9WII5 P9WII5 2.3 X-RAY DIFFRACTION 11 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 100 100 MNAPLRGQVYRCDLGYGAKPWLIVSNNARNRHTADVVAVRLTTPTWVAMGPSDPLTGYVNADNIETLGKDELGDYLGEVTPATMNKINTALATALGLPWP MNAPLRGQVYRCDLGYGAKPWLIVSNNARNRHTADVVAVRLTTPTWVAMGPSDPLTGYVNADNIETLGKDELGDYLGEVTPATMNKINTALATALGLPWP 5xe3-a1-m1-cD_5xe3-a1-m1-cC Endoribonuclease in complex with its cognate antitoxin from Mycobacterial species P9WII5 P9WII5 2.3 X-RAY DIFFRACTION 55 0.98 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 100 103 5xe2-a1-m1-cA_5xe2-a1-m2-cA 5xe3-a1-m1-cB_5xe3-a1-m1-cA MNAPLRGQVYRCDLGYGAKPWLIVSNNARNRHTADVVAVRLTTPTWVAMGPSDPLTGYVNADNIETLGKDELGDYLGEVTPATMNKINTALATALGLPWP APLRGQVYRCDLGYGAKPWLIVSNNARNRHTADVVAVRLTTTRRTIPTWVAMGPSDPLTGYVNADNIETLGKDELGDYLGEVTPATMNKINTALATALGLPWP 5xe3-a1-m1-cE_5xe3-a1-m1-cF Endoribonuclease in complex with its cognate antitoxin from Mycobacterial species P9WJ91 P9WJ91 2.3 X-RAY DIFFRACTION 80 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 81 81 MTVRLDQQTRQRLQDIVKGGYRSANAAIVDAINKRWEALHDEQLDAAYAAAIHDNPAYPYESEAERSAARARRNARQQRSA MTVRLDQQTRQRLQDIVKGGYRSANAAIVDAINKRWEALHDEQLDAAYAAAIHDNPAYPYESEAERSAARARRNARQQRSA 5xe7-a4-m1-cB_5xe7-a4-m2-cB Crystal structure of Mycobacterium tuberculosis extracytoplasmic function sigma factor SigJ L0TCG5 L0TCG5 2.162 X-RAY DIFFRACTION 66 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 275 275 5xe7-a3-m1-cA_5xe7-a3-m3-cA EVSEFEALRQHLSVAYRLTGTVADAEDIVQEAWLRWDSVIADPRAWLTTVVSRLGLDKLRSAAETYTGTWLPEPVVTGLDATDPLAAVVAAEDARFAAVVLERLRPDQRVAFVLHDGFAVPFAEVAEVLGTSEAAARQLASRARKAVTDPAHNEVVGRLAAAAGDLDTVVSLLHPDVTFTGDSNGKAPTAVRAVRGSDKVVRFILGLVQRYGPGLFGANQLALVNGELGAYTAGLPGVDGYRAAPRITAITVRDGKVCALWDIANPDKFTGSPLK EVSEFEALRQHLSVAYRLTGTVADAEDIVQEAWLRWDSVIADPRAWLTTVVSRLGLDKLRSAAETYTGTWLPEPVVTGLDATDPLAAVVAAEDARFAAVVLERLRPDQRVAFVLHDGFAVPFAEVAEVLGTSEAAARQLASRARKAVTDPAHNEVVGRLAAAAGDLDTVVSLLHPDVTFTGDSNGKAPTAVRAVRGSDKVVRFILGLVQRYGPGLFGANQLALVNGELGAYTAGLPGVDGYRAAPRITAITVRDGKVCALWDIANPDKFTGSPLK 5xe8-a1-m1-cC_5xe8-a1-m1-cA Crystal Structure of the Peptidase Domain of Streptococcus mutans ComA Q8DW05 Q8DW05 3.1 X-RAY DIFFRACTION 68 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 122 135 5xe9-a1-m1-cB_5xe9-a1-m1-cA YKLVPQIDTRDCGPAVLASLRELSKTNKQGTTALGIVEAAKKLGFETRSIKADMTLFDYNDLTYPFIVHVIKGKRLQHYYVVYGSQNNQLIIGDPDPSVKVTRMSKERFQSEWTGLAIFLAP YKLVPQIDTRDCGPAVLASVAKHYGSNYSIAYLRELSKTNKQGTTALGIVEAAKKLGFETRSIKADMTLFDYNDLTYPFIVHVIKGKRLQHYYVVYGSQNNQLIIGDPDPSVKVTRMSKERFQSEWTGLAIFLAP 5xea-a1-m1-cA_5xea-a1-m1-cC Structure of Thogoto virus envelope glycoprotein P28977 P28977 2.093 X-RAY DIFFRACTION 321 0.987 126796 (Thogoto virus (isolate SiAr 126)) 126796 (Thogoto virus (isolate SiAr 126)) 385 387 5xea-a1-m1-cA_5xea-a1-m1-cB 5xea-a1-m1-cC_5xea-a1-m1-cB TATGPYILDRYKPKPVTVSKKLYSATRYTTSAQNELLTAGYRTAWVAYCYNGGLVDSNTGCNARLLHYPPSRDELLLWGSSHQCSYGDICHDCWGSDSYACLGQLDPAKHWAPRKELVRRDANWKFAYHMCNIDWRCGVTTSPVFFNLQWVKNEVKVSTLLPNGSTVEHSAGEPLFWTEKDFSYLVKDNFEIQREEVKISCFVDPDYWVGEKKAFCQDGTNFFEVTSHQFCHQYACYNFSKDEDLPFGNKSWTVVTASIDDLHALSAAQAFELEGLRASFAELDSRFRQLSEILDTVISSIAKIDERLIGRLIKAPVSSRFISEDKFLLHQCEPIGIDIYNFSALWYPSAAEVDFRGTVQSEDGWSFVVKSKDALIQTMMYTKNG DCNTKTATGPYILDRYKPKPVTVSKKLYSATRYTTSAQNELLTAGYRTAWVAYCYNGGLVDSNTGCNARLLHYPPSRDELLLWGSSHQCSYGDICHDCWGSDSYACLGQLDPAKHWAPRKELVRRDANWKFAYHMCNIDWRCGVTTSPVFFNLQWVKNEVKVSTLLPNGSTVEHSAGEPLFWTEKDFSYLVKDNFEIQREEVKISCFVDPDYWKKAFCQDGTNFFEVTSHQFCHQYACYNFSKKDLPFGNKSWTVVTASIDDLHALSAAQAFELEGLRASFAELDSRFRQLSEILDTVISSIAKIDERLIGRLIKAPVSSRFISEDKFLLHQCEPIGIDIYNFSALWYPSAAEVDFRGTVQSEDGWSFVVKSKDALIQTMMYTKNGG 5xeb-a3-m4-cC_5xeb-a3-m7-cC Structure of the envelope glycoprotein of Dhori virus P27427 P27427 2.497 X-RAY DIFFRACTION 301 1.0 11319 (Dhori virus (strain Indian/1313/61)) 11319 (Dhori virus (strain Indian/1313/61)) 389 389 5xeb-a1-m1-cA_5xeb-a1-m2-cA 5xeb-a1-m1-cA_5xeb-a1-m5-cA 5xeb-a1-m2-cA_5xeb-a1-m5-cA 5xeb-a2-m1-cB_5xeb-a2-m3-cB 5xeb-a2-m1-cB_5xeb-a2-m6-cB 5xeb-a2-m3-cB_5xeb-a2-m6-cB 5xeb-a3-m1-cC_5xeb-a3-m4-cC 5xeb-a3-m1-cC_5xeb-a3-m7-cC NKAQQQGPYTLVDYQEKPLNISRIQIKVVKTSVATKGLNFHIGYRAVWRGYCYNGGSLDKNTGCYNDLIPKSPTESELRTWSKSQKCCTGPDAVDAWGSDARICWAEWKMELCHTAKELKKYSNNNHFAYHTCNLSWRCGLKSTHIEVRLQASGGLVSMVAVMPNGTLIPIEGTRPTYWTEDSFAYLYDPAGTEKKTESTFLWCFKEHIFNYYCRDNGYYFELPANRLVCLPTSCYKREGAIVNTMHPNTWKVSEKLHSASQFDVNNVVHSLVYETEGLRLALSQLDHRFATLSRLFNRLTQSLAKIDDRLLGTLLGQDVSSKFISPTKFMLSPCLSQPVDLYSFKELWLPQLLDVNVKGVVADEEGWSFVAQSKQALIDTMTYTKNGG NKAQQQGPYTLVDYQEKPLNISRIQIKVVKTSVATKGLNFHIGYRAVWRGYCYNGGSLDKNTGCYNDLIPKSPTESELRTWSKSQKCCTGPDAVDAWGSDARICWAEWKMELCHTAKELKKYSNNNHFAYHTCNLSWRCGLKSTHIEVRLQASGGLVSMVAVMPNGTLIPIEGTRPTYWTEDSFAYLYDPAGTEKKTESTFLWCFKEHIFNYYCRDNGYYFELPANRLVCLPTSCYKREGAIVNTMHPNTWKVSEKLHSASQFDVNNVVHSLVYETEGLRLALSQLDHRFATLSRLFNRLTQSLAKIDDRLLGTLLGQDVSSKFISPTKFMLSPCLSQPVDLYSFKELWLPQLLDVNVKGVVADEEGWSFVAQSKQALIDTMTYTKNGG 5xem-a1-m1-cB_5xem-a1-m1-cA Crystal structure of a hydrogen sulfide-producing enzyme (Fn1220) from Fusobacterium nucleatum in complex with L-lanthionine-PLP Schiff base Q8RE94 Q8RE94 1.84 X-RAY DIFFRACTION 137 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 301 302 5xen-a1-m1-cA_5xen-a1-m1-cB 5xeo-a1-m1-cB_5xeo-a1-m1-cA LANSVIDLIGNTPLVKINNIDTFGNEIYVKLEGSNPGRSTKDRIALKMIEEAEKEGLIDKDTVIIEATSGNTGIGLAMICAVKNYKLKIVMPDTMSIERIQLMRAYGTEVILTDGSLGMKACLEKLEELKKNEKKYFVPNQFTNVNNPKAHYETTAEEILKDLNNKVDVFICGTGTGGSFSGTAKKLKEKLPNIKTFPVEPASSPLLSKGYIGPHKIQGMGMSIGGIPAVYDGSLADDILVCEDDDAFEMMRELSFKEGILGGISTGATFKAALDYSKENADKGLKIVVLSTDSGEKYLSN SLANSVIDLIGNTPLVKINNIDTFGNEIYVKLEGSNPGRSTKDRIALKMIEEAEKEGLIDKDTVIIEATSGNTGIGLAMICAVKNYKLKIVMPDTMSIERIQLMRAYGTEVILTDGSLGMKACLEKLEELKKNEKKYFVPNQFTNVNNPKAHYETTAEEILKDLNNKVDVFICGTGTGGSFSGTAKKLKEKLPNIKTFPVEPASSPLLSKGYIGPHKIQGMGMSIGGIPAVYDGSLADDILVCEDDDAFEMMRELSFKEGILGGISTGATFKAALDYSKENADKGLKIVVLSTDSGEKYLSN 5xep-a1-m1-cB_5xep-a1-m1-cC Crystal structure of BRP39, a chitinase-like protein, at 2.6 Angstorm resolution Q61362 Q61362 2.6 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 360 360 5xep-a1-m1-cB_5xep-a1-m1-cA 5xep-a1-m1-cC_5xep-a1-m1-cA 5xep-a2-m1-cE_5xep-a2-m1-cD 5xep-a2-m1-cF_5xep-a2-m1-cD 5xep-a2-m1-cF_5xep-a2-m1-cE YKLVCYFTSWSQYREGVGSFLPDAIQPFLCTHIIYSFANISSDNMLSTWEWNDESNYDKLNKLKTRNTNLKTLLSVGGWKFGGKRFSEIASNTERRTAFVRSVAPFLRSYGFDGLDLAWLYPRLRDKQYFSTLIKELNAEFTKEVQPGREKLLLSAALSAGKVAIDTGYDIAQIAQHLDFINLMTYDFHGVWRQITGHHSPLFQGQKDTRFDRYSNVNYAVQYMIRLGAQASKLLMGIPTFGKSFTLASSENQLGAPISGEGLPGRFTKEAGTLAYYEICDFLKGAEVHRLSNEKVPFATKGNQWVGYEDKESVKNKVRFLKEKKLAGAMVWALDLDDFQGTCQPKEFFPLTNAIKDALA YKLVCYFTSWSQYREGVGSFLPDAIQPFLCTHIIYSFANISSDNMLSTWEWNDESNYDKLNKLKTRNTNLKTLLSVGGWKFGGKRFSEIASNTERRTAFVRSVAPFLRSYGFDGLDLAWLYPRLRDKQYFSTLIKELNAEFTKEVQPGREKLLLSAALSAGKVAIDTGYDIAQIAQHLDFINLMTYDFHGVWRQITGHHSPLFQGQKDTRFDRYSNVNYAVQYMIRLGAQASKLLMGIPTFGKSFTLASSENQLGAPISGEGLPGRFTKEAGTLAYYEICDFLKGAEVHRLSNEKVPFATKGNQWVGYEDKESVKNKVRFLKEKKLAGAMVWALDLDDFQGTCQPKEFFPLTNAIKDALA 5xeu-a1-m1-cE_5xeu-a1-m1-cC crystal structure of Hcp2 from Salmonella typhimurium H9L4J8 H9L4J8 3 X-RAY DIFFRACTION 66 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 128 129 5xeu-a1-m1-cA_5xeu-a1-m1-cD 5xeu-a1-m1-cA_5xeu-a1-m1-cE 5xeu-a1-m1-cB_5xeu-a1-m1-cD 5xeu-a1-m1-cB_5xeu-a1-m1-cF 5xeu-a1-m1-cF_5xeu-a1-m1-cC YDIFLKIDGIDGESMDDKHKNEIEVLSWRWNIHVSVTNLSFEHYIDRASPNLFKYCSSGKHIPQAILVMRKALEYLKYTFTDLIIAMVSPSGSQASRESIELSFSTVKQEYVVGGTITAGYDFKANKE YDIFLKIDGIDGESMDDKHKNEIEVLSWRWNIHVSVTNLSFEHYIDRASPNLFKYCSSGKHIPQAILVMRKALEYLKYTFTDLIIAMVSPSGSQASRESIELSFSTVKQEYVVQGGTITAGYDFKANKE 5xev-a1-m1-cA_5xev-a1-m2-cA Crystal Structure of a novel Xaa-Pro dipeptidase from Deinococcus radiodurans Q9RX37 Q9RX37 1.4 X-RAY DIFFRACTION 98 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 409 409 STPIPAMQAALAATDLDGWLVYDFQGLNPHARRVLGIGDDVFLTRRFFVWVPRAGRAVVLHNHIEGGNWNRITQEWDAELRPFGSHAELDAALRGVVSGQRLAMEYSPNGAVPYVSRVDAGTLERVRGAGAAEVASSADLLQAFLVWTPDDLAAHRRAAALLMRAKDDAFRLIHDRLRAGQSVTEWEVQQLIMDQIRAAGMQAGHDVNVSFGVNAADSHYEPSEQRSATLHPGECVLIDLWAQEPGRPFADVTWVGFAGEPGTEYLDAWQAVRAAREAALELLRSRFVAEGYGRLQGWELDRAARDAMGERWAPHFLHRTGHDLGVQIHGAGANLDDYETRDTRTLTPGLSVTVEPGTYPAAGGFGIRSEVDVYLAPDGPEVTTDLQQAPFILGVGDWDAVRAAGYGEQ STPIPAMQAALAATDLDGWLVYDFQGLNPHARRVLGIGDDVFLTRRFFVWVPRAGRAVVLHNHIEGGNWNRITQEWDAELRPFGSHAELDAALRGVVSGQRLAMEYSPNGAVPYVSRVDAGTLERVRGAGAAEVASSADLLQAFLVWTPDDLAAHRRAAALLMRAKDDAFRLIHDRLRAGQSVTEWEVQQLIMDQIRAAGMQAGHDVNVSFGVNAADSHYEPSEQRSATLHPGECVLIDLWAQEPGRPFADVTWVGFAGEPGTEYLDAWQAVRAAREAALELLRSRFVAEGYGRLQGWELDRAARDAMGERWAPHFLHRTGHDLGVQIHGAGANLDDYETRDTRTLTPGLSVTVEPGTYPAAGGFGIRSEVDVYLAPDGPEVTTDLQQAPFILGVGDWDAVRAAGYGEQ 5xex-a2-m1-cE_5xex-a2-m1-cF Crystal structure of S.aureus PNPase catalytic domain Q2FZ20 Q2FZ20 2.2 X-RAY DIFFRACTION 76 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 511 513 5xex-a1-m1-cA_5xex-a1-m1-cC 5xex-a1-m1-cB_5xex-a1-m1-cA 5xex-a1-m1-cB_5xex-a1-m1-cC 5xex-a2-m1-cE_5xex-a2-m1-cD 5xex-a2-m1-cF_5xex-a2-m1-cD EKKVFKTEWAGRSLTIETGQLAKQANGAVLVRYGDTVVLSTATASKEPRDGDFFPLTVNYEEKMYAAGKGDDATLTARLIDRPIRPLFPKGYKHDVQIMNMVLSADPDCSPQMAAMIGSSMALSVSDIPFQGPIAGVNVGYIDGKYIINPTVEEKEVSRLDLEVAGHKDAVNMVEAGASEITEQEMLEAIFFGHEEIQRLVDFQQQIVDHIQPVKQEFIPAERDEALVERVKSLTEEKGLKETVLTFDKQQRDENLDNLKEEIVNEFELLIKEVYAILNELVKEEVRRLIADEKIRPDGRKPDEIRPLDSEVGILPRTHGSGLFTRGQTQALSVLTLGALRFMHHYNFPNFSVGETGPVRAPGRREIGHGALGERALKYIIPDTADFPYTIRIVSEVLESNGSSSQASICGSTLALMDAGVPIKAPVAGIAMGLVTREDSYTILTDIQGMEDALGDMDFKVAGTKEGITAIQMDIKIDGLTREIIEEALEQARRGRLEIMNHMLQTIDQPR EKKVFKTEWAGRSLTIETGQLAKQANGAVLVRYGDTVVLSTATASKEPRDGDFFPLTVNYEEKMYAAGKGDDATLTARLIDRPIRPLFPKGYKHDVQIMNMVLSADPDCSPQMAAMIGSSMALSVSDIPFQGPIAGVNVGYIDGKYIINPTVEEKEVSRLDLEVAGHKDAVNMVEAGASEITEQEMLEAIFFGHEEIQRLVDFQQQIVDHIQPVKQEFIPAERDEALVERVKSLTEEKGLKETVLTFDKQQRDENLDNLKEEIVNEFELLIKEVYAILNELVKEEVRRLIADEKIRPDGRKPDEIRPLDSEVGILPRTHGSGLFTRGQTQALSVLTLGALKRFMHHYNFPNFSVGETGPVRAPGRREIGHGALGERALKYIIPDTADFPYTIRIVSEVLESNGSSSQASICGSTLALMDAGVPIKAPVAGIAMGLVTREDSYTILTDIQGMEDALGDMDFKVAGTKEGITAIQMDIKIDGLTREIIEEALEQARRGRLEIMNHMLQTIDQPRT 5xey-a1-m1-cB_5xey-a1-m1-cA Discovery and structural analysis of a phloretin hydrolase from the opportunistic pathogen Mycobacterium abscessus B1MK49 B1MK49 1.82 X-RAY DIFFRACTION 60 0.993 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 273 277 5xe5-a1-m1-cA_5xe5-a1-m1-cB VHPITYYPVDTQRLVRSNAERIRHKPYAHYFNPDVAVPEEVFAALKAPLEPEQVLGTSSTELNRLLEPGYLEGETGYCGLPDGAGYTSSLVRFPGATPEMFRWWFWWHSFEPERYSLWHPWCHADIWRTDPETEDEQRYVGSTHHINEYIGQDPLDIEITFIDPARWGFDADGFAAAGIGAHACGSVLMKGSHMRLATMVHLARITDDGFELRSRYWIADRAEPRHDPVAGIAQLTTVPGFSGERQAYEQLVHDQTEFNHLATFLPDIYQEFG VHPITYYPVDTQRLVRSNAERIRHKPYAHYFNPDVAVPEEVFAALKAPLEPEQVLGTSSTELNRLLEPGYLEGETGYCGLPDGAGYTSSLVRFPGATPEMFRWWFWWHSFEPERYSLWHPWCHADIWRTDPETETAPNLTDEQRYVGSTHHINEYIGQDPLDIEITFIDPARWGFDADGFAAAGIGAHACGSVLMKGSHMRLATMVHLARITDDGFELRSRYWIADRAEPRHDPVAGIAQLTTVPGFSGERQAYEQLVHDQTEFNHLATFLPDIYQE 5xey-a1-m1-cD_5xey-a1-m1-cB Discovery and structural analysis of a phloretin hydrolase from the opportunistic pathogen Mycobacterium abscessus B1MK49 B1MK49 1.82 X-RAY DIFFRACTION 27 0.98 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 250 273 HPITYYPVDTQRLVRSNAERIRHKPYAHYFNPDVAVPEEVFAALKAPLEPEQVLGTSSTELNRLLEPGYLEGETGYCGLPDGAGYTSSLVRFPGATPEMFRWWFWWHSFEPERYSLWHPWCHADIWRTPETETAPNTDEQRYVGSTHHINEYIGQDPLDIEITFIDPARWGFDADGFAAAGIGAHACGSVLMKGSHMRLATMVHLARITDDGFELRSRYWIGERQAYEQLVHDQTEFNHLATFLPDIYQE VHPITYYPVDTQRLVRSNAERIRHKPYAHYFNPDVAVPEEVFAALKAPLEPEQVLGTSSTELNRLLEPGYLEGETGYCGLPDGAGYTSSLVRFPGATPEMFRWWFWWHSFEPERYSLWHPWCHADIWRTDPETEDEQRYVGSTHHINEYIGQDPLDIEITFIDPARWGFDADGFAAAGIGAHACGSVLMKGSHMRLATMVHLARITDDGFELRSRYWIADRAEPRHDPVAGIAQLTTVPGFSGERQAYEQLVHDQTEFNHLATFLPDIYQEFG 5xf2-a1-m1-cA_5xf2-a1-m1-cB Crystal structure of SeMet-HldC from Burkholderia pseudomallei Q63XZ4 Q63XZ4 2.8 X-RAY DIFFRACTION 69 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 138 154 5x9q-a1-m1-cA_5x9q-a1-m1-cB 5x9q-a2-m1-cC_5x9q-a2-m1-cD 5xf2-a2-m1-cC_5xf2-a2-m1-cD 5xf2-a3-m1-cE_5xf2-a3-m1-cF 5xf2-a4-m1-cG_5xf2-a4-m1-cH ASFERKLITRDALAARASLPAPVVFTNGVFDILHRGHVSYLADAKALGACLIVGVNSDASVRLGKGDDRPINVQEDRALLAALECVDWVVGFDEKTPVSLIEAVHPDILVKGGDYDDALPESALVRGWGGRALAIPFE ASFERKLITRDALAARASLPAPVVFTNGVFDILHRGHVSYLADAKALGACLIVGVNSDASVRLGKGDDRPINVQEDRALLAALECVDWVVGFDEKTPVSLIEAVHPDILVKGGDYDDALPESALVRGWGGRALAIPFEHDRSTTALLKKVRAQS 5xfh-a1-m1-cA_5xfh-a1-m1-cB Crystal structure of Orysata lectin in complex with biantennary N-glycan Q0JMY8 Q0JMY8 1.903 X-RAY DIFFRACTION 12 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 141 144 TLVKIGPWGGNGGSAQDISVPPKKLLGVTIYSSDAIRSIAFNYIGVDGQEYAIGPWGGSTSTEIKLSSEQIKEISGTHGPVYDLADIVTYLKIVTSANNTYEAGVPNGKEFSIPLQDSGHVVGFFGRSGTLIDAIGIYVHP TLVKIGPWGGNGGSAQDISVPPKKLLGVTIYSSDAIRSIAFNYIGVDGQEYAIGPWGGGESTSTEIKLGSSEQIKEISGTHGPVYDLADIVTYLKIVTSANNTYEAGVPNGKEFSIPLQDSGHVVGFFGRSGTLIDAIGIYVHP 5xfr-a1-m1-cB_5xfr-a1-m1-cA Ternary complex of MTF2, DNA and histone Q9Y483 Q9Y483 2.25 X-RAY DIFFRACTION 21 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 298 309 KFEEGQDVLARWSDGLFYLGTIKKINILKQSCFIIFEDSSKSWVLWKDIQTCTICQEEYSEAPNEMVICDKCGQGYHQLCHTPHIDCKWLCRQCVFATTTKRGGALKKGPNAKALQVMKQTLPYSVADLEWDAGHKTNVQQCYCYCGGPGDWYLKMLQCCKCKQWFHEACVQCLQKPMLFGDRFYTFICSVCSSGPEYLKRLPLQWVDIAHLCLYNLSVIHKKKYFDSELELMTYINENWDRLHPGELADTPKSERYEHVLEALNDYKTMFMSGKEIKKKKHLFGLRIRVPPVPPNVA CKFEEGQDVLARWSDGLFYLGTIKKINILKQSCFIIFEDSSKSWVLWKDIQTGAMVCTICQEEYSEAPNEMVICDKCGQGYHQLCHTPHIDCSVIDSDEKWLCRQCVFATTTKRGGALKKGPNAKALQVMKQTLPYSVADLEWDAGHKTNVQQCYCYCGGPGDWYLKMLQCCKCKQWFHEACVQCLQKPMLFGDRFYTFICSVCSSGPEYLKRLPLQWVDIAHLCLYNLSVIHKKKYFDSELELMTYINENWDRLHPGELADTPKSERYEHVLEALNDYKTMFMSGKEIKKKKHLFGLRIRVPPVPPNV 5xfw-a2-m1-cC_5xfw-a2-m1-cD Crystal structures of FMN-free form of dihydroorotate dehydrogenase from Trypanosoma brucei Q57U83 Q57U83 1.6 X-RAY DIFFRACTION 164 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 312 315 2b4g-a1-m1-cA_2b4g-a1-m1-cB 2b4g-a2-m1-cD_2b4g-a2-m1-cC 5xfv-a1-m1-cB_5xfv-a1-m1-cA 5xfv-a2-m1-cC_5xfv-a2-m1-cD 5xfw-a1-m1-cA_5xfw-a1-m1-cB MSLKVNILGHEFSNPFMNAAGVLCTTEEDLRRMTESESGSLIGKSCTLAPRTGNPEPRYFGLPLGSINSMGLPNLGVDFYLSYAAQTHDYSRKPLFLSMSGLSVEESVEMVKKLVPITKEKGTILELNLSCPNVPGKPQVGYDFDTTRTYLQKVSEAYGLPFGVKMPPYFDIAHFDMAAAVLNDFPLVKFITCVNSIGNGLVIDPANETVVIKPKQGFGGLGGKYVLPTALANVNAFFRRCPDKLVFGCGGVYSGEEAFLHILAGASMVQVGTALHDEGPIIFARLNKELQEIMTNKGYKTLDEFRGRVKTM GSMSLKVNILGHEFSNPFMNAAGVLCTTEEDLRRMTESESGSLIGKSCTLAPRTGNPEPRYFGLPLGSINSMGLPNLGVDFYLSYAAQTHDYSRKPLFLSMSGLSVEESVEMVKKLVPITKEKGTILELNLSCPNVPGKPQVGYDFDTTRTYLQKVSEAYGLPFGVKMPPYFDIAHFDMAAAVLNDFPLVKFITCVNSIGNGLVIDPANETVVIKPKQGFGGLGGKYVLPTALANVNAFFRRCPDKLVFGCGGVYSGEEAFLHILAGASMVQVGTALHDEGPIIFARLNKELQEIMTNKGYKTLDEFRGRVKTMD 5xg7-a1-m1-cA_5xg7-a1-m2-cA Galectin-13/Placental Protein 13 crystal structure Q9UHV8 Q9UHV8 1.55 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 MSSLPVPYKLPVSLSVGSCVIIKGTPIHSFINDPQLQVDFYTDMDEDSDIAFRFRVHFGNHVVMNRREFGIWMLEETTDYVPFEDGKQFELCIYVHYNEYEIKVNGIRIYGFVHRIPPSFVKMVQVSRDISLTSVCVCN MSSLPVPYKLPVSLSVGSCVIIKGTPIHSFINDPQLQVDFYTDMDEDSDIAFRFRVHFGNHVVMNRREFGIWMLEETTDYVPFEDGKQFELCIYVHYNEYEIKVNGIRIYGFVHRIPPSFVKMVQVSRDISLTSVCVCN 5xgb-a1-m1-cA_5xgb-a1-m2-cA Crystal structure of the PAS-GGDEF-EAL domain of PA0861 from Pseudomonas aeruginosa Q9I580 Q9I580 2.28 X-RAY DIFFRACTION 243 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 551 551 5xgd-a1-m1-cA_5xgd-a1-m2-cA 5xge-a1-m1-cA_5xge-a1-m2-cA DAERERAQITLASIGDGVITADTQGGISYLNPAAEQMTNWTLDKARGLPLASLFRIVDESLLIEQILSGEIDGGREHSKLVLRHDGSSVPVTLVGAPIHRGAEITGVVLVLHDMTRERQYMARLSWQATHDALTGLTNRREFEYRLQIALERLERNSGRHALMFLDLDQFKLVNDTCGHAAGDELLRQVCTLLQQGLREGDTLARLGGDEFGILLENCPAEKAVEIADHLRKTIQDLHFTWSGQPFNCTVSVGLVHLLPGISTLEEALRSADMACYMAKEKGRNRVQVFHQDDVELSMRFGEMTWVQRIHLALEEDRFSLYAQPIVPLGEGAEEGLHVELLLRLRDEGGRLVPPLSFIPAAERYGLMTLIDRWVVENAFRTLVERAQDPRAEPIGTCAINLSGATIGDESFLQFLTELFARYRIPPQTICFEVTETVAVANLASAIRFINELKDTGCRFSLDDFCAGMSSFIYLKHLPVDYLKIDGSFVKDMLEDPIDRAMVQVINHIGHVMGKRTIAEFVETVEVMEALREIGIDYAQGLAIGAPLPFSR DAERERAQITLASIGDGVITADTQGGISYLNPAAEQMTNWTLDKARGLPLASLFRIVDESLLIEQILSGEIDGGREHSKLVLRHDGSSVPVTLVGAPIHRGAEITGVVLVLHDMTRERQYMARLSWQATHDALTGLTNRREFEYRLQIALERLERNSGRHALMFLDLDQFKLVNDTCGHAAGDELLRQVCTLLQQGLREGDTLARLGGDEFGILLENCPAEKAVEIADHLRKTIQDLHFTWSGQPFNCTVSVGLVHLLPGISTLEEALRSADMACYMAKEKGRNRVQVFHQDDVELSMRFGEMTWVQRIHLALEEDRFSLYAQPIVPLGEGAEEGLHVELLLRLRDEGGRLVPPLSFIPAAERYGLMTLIDRWVVENAFRTLVERAQDPRAEPIGTCAINLSGATIGDESFLQFLTELFARYRIPPQTICFEVTETVAVANLASAIRFINELKDTGCRFSLDDFCAGMSSFIYLKHLPVDYLKIDGSFVKDMLEDPIDRAMVQVINHIGHVMGKRTIAEFVETVEVMEALREIGIDYAQGLAIGAPLPFSR 5xgf-a1-m1-cA_5xgf-a1-m2-cA The fatty acid-responsive FadR repressor of Vibrio alginolyticus A0A0H0Y8X2 A0A0H0Y8X2 2.35 X-RAY DIFFRACTION 92 1.0 1231058 (Vibrio diabolicus E0666) 1231058 (Vibrio diabolicus E0666) 271 271 PAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDVDNATNIVEDLLAARTNISPIFMRYAFKANKENSERTIKNVIESCEALMNAASWDDFIASSPYAEKVLQNVKEDNEKDEAKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPASRELALKFYHQLLETCESGQREQLPVVIRHYGMESALIWNEMKKQLPTNFTEDD PAGFAEKYIIESIWNGRFPPGSILPAERELSELIGVTRTTLREVLQRLARDGWLTIQHGKPTKVNQFMETSGLHILDTLMTLDVDNATNIVEDLLAARTNISPIFMRYAFKANKENSERTIKNVIESCEALMNAASWDDFIASSPYAEKVLQNVKEDNEKDEAKRQEILIAKTFNFYDYMLFQRLAFHSGNQIYGLIFNGLKKLYDRVGSYYFSNPASRELALKFYHQLLETCESGQREQLPVVIRHYGMESALIWNEMKKQLPTNFTEDD 5xgs-a1-m1-cA_5xgs-a1-m1-cB Crystal structure of human WBSCR16 Q96I51 Q96I51 2 X-RAY DIFFRACTION 37 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 398 398 DRVFVWGFSFSGALGVPSFVVPSSGPGPRAGARPRRRIQPVPYRLELDQKISSAACGYGFTLLSSKTADVTKVWGMGLNKDSQLGFHGGGYEYVLEPSPVSLPLDRPQETRVLQVSCGRAHSLVLTDREGVFSMGNNSYGQCGRKVVENEIYSESHRVHRMQDFDGQVVQVACGQDHSLFLTDKGEVYSCGWGADGQTGLGHYNITSSPTKLGGDLAGVNVIQVATYGDCCLAVSADGGLFGWGNSEYLQLASVTDSTQVNVPRCLHFSGVGKVRQAACGGTGCAVLNGEGHVFVWGYGILGKGPNLVESAVPEMIPPTLFGLTEFNPEIQVSRIRCGLSHFAALTNKGELFVWGKNIRGCLGIGRLEDQYFPWRVTMPGEPVDVACGVDHMVTLAKS RADRVFVWGFSFSGALGVPSFVVPSSPGPRAGARPRRRIQPVPYRLELDQKISSAACGYGFTLLSSKTADVTKVWGMGLNKDSQLGFHYEYVLEPSPVSLPLDRPQETRVLQVSCGRAHSLVLTDREGVFSMGNNSYGQCGRKVVENEIYSESHRVHRMQDFDGQVVQVACGQDHSLFLTDKGEVYSCGWGADGQTGLGHYNITSSPTKLGGDLAGVNVIQVATYGDCCLAVSADGGLFGWGNSEYLQLASVTDSTQVNVPRCLHFSGVGKVRQAACGGTGCAVLNGEGHVFVWGYGILGKGPNLVESAVPEMIPPTLFGLTEFNPEIQVSRIRCGLSHFAALTNKGELFVWGKNIRGCLGIGRLEDQYFPWRVTMPGEPVDVACGVDHMVTLAKSFI 5xgt-a1-m1-cA_5xgt-a1-m1-cB Crystal structure of the N-terminal domain of Staphylococcus aureus single-stranded DNA-binding protein SsbA at 1.82 angstrom resolution A0A0H3JNP6 A0A0H3JNP6 1.82 X-RAY DIFFRACTION 83 1.0 104 105 MLNRVVLVGRLTKDPEYRTTPSGVSVATFTLAVNRTFTNAQGEREADFINCVVFRRQADNVNNYLSKGSLAGVDGRLQSRNYENQEGRRVFVTEVVCDSVQFLE MLNRVVLVGRLTKDPEYRTTPSGVSVATFTLAVNRTFTNAQGEREADFINCVVFRRQADNVNNYLSKGSLAGVDGRLQSRNYENQEGRRVFVTEVVCDSVQFLEP 5xgv-a1-m1-cA_5xgv-a1-m2-cB The structure of Diels-Alderase PyrE3 in the biosynthetic pathway of pyrroindomycins K7QRJ5 K7QRJ5 2.099 X-RAY DIFFRACTION 58 1.0 295838 (Streptomyces rugosporus) 295838 (Streptomyces rugosporus) 461 461 SDTVIIAGGGPVGLMLACELGLAGVDTVVLERHDAPREPSRGGAINATVVELFTQRGIMESLRDDGFEFRMAHFAHIPLAPERVPGDRAFSFAVPHAQVERRLEERARSLGVRVRRSTEITSVRQTPDGVQVTTGDGEVVEGAYLVGCDGSASLVREQAGIPFPGVDPDFHGLWGDIKVEPGAPVLERIGARQYELGLCMVAPIGPDTVRVITGEFDVPSPPADQEVGFDELRAAVARIAGVELDGVPGWLSRWTATSRQAERYREGRILLAGDAAHTLFPLGGQALGTGIEDAVNLGWKLAATVQGWAPPSLLDSYHEERHAAGARACASTRAQTTIMRSLARVGELRALLTELAGLEEVNAYLVRMVGGIDGSRLPDVPLVTAEGETSVYRLLEAGRGVLLDLGAGLPAVRHPQVTYVRAEPTNRLDATAVLLRPDGVVAWRAPQDGLEAALETWFGPA SDTVIIAGGGPVGLMLACELGLAGVDTVVLERHDAPREPSRGGAINATVVELFTQRGIMESLRDDGFEFRMAHFAHIPLAPERVPGDRAFSFAVPHAQVERRLEERARSLGVRVRRSTEITSVRQTPDGVQVTTGDGEVVEGAYLVGCDGSASLVREQAGIPFPGVDPDFHGLWGDIKVEPGAPVLERIGARQYELGLCMVAPIGPDTVRVITGEFDVPSPPADQEVGFDELRAAVARIAGVELDGVPGWLSRWTATSRQAERYREGRILLAGDAAHTLFPLGGQALGTGIEDAVNLGWKLAATVQGWAPPSLLDSYHEERHAAGARACASTRAQTTIMRSLARVGELRALLTELAGLEEVNAYLVRMVGGIDGSRLPDVPLVTAEGETSVYRLLEAGRGVLLDLGAGLPAVRHPQVTYVRAEPTNRLDATAVLLRPDGVVAWRAPQDGLEAALETWFGPA 5xgz-a1-m3-cA_5xgz-a1-m3-cB Metagenomic glucose-tolerant glycosidase A0A1E1FFN6 A0A1E1FFN6 1.75 X-RAY DIFFRACTION 33 1.0 358574 (uncultured microorganism) 358574 (uncultured microorganism) 445 445 5xgz-a1-m1-cA_5xgz-a1-m1-cB 5xgz-a1-m2-cA_5xgz-a1-m2-cB EPHRFPPDFQWGVATSSYQIEGAVEADGRSPSIWDTFCARPGAIADGSTGAIANDHYHRYREDIAIMKQLGVNAYRFSIAWPRILPDGRGRVNQAGVDFYERLVDSLLEQGIEPYATLYHWDMPQVQHDRTPWYDRGVVDAFVEYTDVITRRLSDRVKYWMTLNEPWVISFLGYGAGEHAPGLRDKELYLRAAHHVLLAHGKAMPVIRANGNAQTKAGIVLNLNWVNAASDSPEDQAAARRYDQFFNRWFAEPLYNGRYPEELLEWYGRDLVPVQPGDFDIITTPTDFLAVNYYARTTVKAGSTDPMLQVDFVRPPGEYTAMDWEVYPQGLYNILNWLHTDYAPPALYVTENGAAYDDQVSAAGEVDDPQRLAYLEGHFEAAYRAIQAGIPLKGYFVWSLMDNFEWGRGFEKRFGIVFVDYATQQRIIKRSGKWFSQVTRANGLP EPHRFPPDFQWGVATSSYQIEGAVEADGRSPSIWDTFCARPGAIADGSTGAIANDHYHRYREDIAIMKQLGVNAYRFSIAWPRILPDGRGRVNQAGVDFYERLVDSLLEQGIEPYATLYHWDMPQVQHDRTPWYDRGVVDAFVEYTDVITRRLSDRVKYWMTLNEPWVISFLGYGAGEHAPGLRDKELYLRAAHHVLLAHGKAMPVIRANGNAQTKAGIVLNLNWVNAASDSPEDQAAARRYDQFFNRWFAEPLYNGRYPEELLEWYGRDLVPVQPGDFDIITTPTDFLAVNYYARTTVKAGSTDPMLQVDFVRPPGEYTAMDWEVYPQGLYNILNWLHTDYAPPALYVTENGAAYDDQVSAAGEVDDPQRLAYLEGHFEAAYRAIQAGIPLKGYFVWSLMDNFEWGRGFEKRFGIVFVDYATQQRIIKRSGKWFSQVTRANGLP 5xha-a1-m1-cA_5xha-a1-m2-cA Aspergillus kawachii beta-fructofuranosidase complexed with fructose G7XM46 G7XM46 2.1 X-RAY DIFFRACTION 62 1.0 1033177 (Aspergillus luchuensis IFO 4308) 1033177 (Aspergillus luchuensis IFO 4308) 605 605 5xh8-a1-m1-cA_5xh8-a1-m2-cA 5xh9-a1-m1-cA_5xh9-a1-m2-cA MSVVIDYNVAPPNLSTLPNGSLFETWRPRAHVLPPNGQIGDPCLHYTDPATGLFHVGFLHDGSGISSATTDDLATYQDLNQGNQVIVPGGINDPVAVFDGSVIPNGINGLPTLLYTSVSYLPIHWSIPYTRGSETQSLAVSSDGGSNFTKLDQGPVIPGPPFAYNVTAFRDPYVFQNPTLDSLLHSKNNTWYTVISGGLHEKGPAQFLYRQYDSDFQYWEYLGQWWHEPTNSTWGNGTWAGRWAFNFETGNVFSLDEYGYNPHGQIFTTIGTEGSDLPVVPQLTSIHDMLWVSGTVSRNGSVSFNPNMAGFLDWGFSSYAAAGKVLPSTSLPSTKSGAPDRFISYVWLSGDLFEQAEGFPTNQQNWTGTLLLPRELRVLYIPNVVDNALARESGASWQVVSSDGSAGTVELQTLGISIARETKAALLSGTSFTESGRTLNSSGVVPFKRSPSEKFFVLSAQLSFPASARGSGLKSGFQILSSEHESTTVYYQFSNESIIVDRSNTSAAARTTDGIDSSAEAGKLRLFDVLNGGEQAIETLDLTLVVDNSVLEVYANGRFALSTWVRSWYANSTNISFFHNGVGGVAFSKVTVSEGLYDAWPDRQY MSVVIDYNVAPPNLSTLPNGSLFETWRPRAHVLPPNGQIGDPCLHYTDPATGLFHVGFLHDGSGISSATTDDLATYQDLNQGNQVIVPGGINDPVAVFDGSVIPNGINGLPTLLYTSVSYLPIHWSIPYTRGSETQSLAVSSDGGSNFTKLDQGPVIPGPPFAYNVTAFRDPYVFQNPTLDSLLHSKNNTWYTVISGGLHEKGPAQFLYRQYDSDFQYWEYLGQWWHEPTNSTWGNGTWAGRWAFNFETGNVFSLDEYGYNPHGQIFTTIGTEGSDLPVVPQLTSIHDMLWVSGTVSRNGSVSFNPNMAGFLDWGFSSYAAAGKVLPSTSLPSTKSGAPDRFISYVWLSGDLFEQAEGFPTNQQNWTGTLLLPRELRVLYIPNVVDNALARESGASWQVVSSDGSAGTVELQTLGISIARETKAALLSGTSFTESGRTLNSSGVVPFKRSPSEKFFVLSAQLSFPASARGSGLKSGFQILSSEHESTTVYYQFSNESIIVDRSNTSAAARTTDGIDSSAEAGKLRLFDVLNGGEQAIETLDLTLVVDNSVLEVYANGRFALSTWVRSWYANSTNISFFHNGVGGVAFSKVTVSEGLYDAWPDRQY 5xhu-a2-m1-cA_5xhu-a2-m2-cA Crystal structure of ycgT from bacillus subtilis O31475 O31475 2.1 X-RAY DIFFRACTION 140 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 329 329 EVYDVTIIGGGPIGLFTAFYCGMRELKTKVIEFLPKLGGKVSLFFPEKIIRDIGGIPGIAGKQLIEQLKEQAATFDPDIVLNQRVTGFERLDDGTIVLTGSEGKKHYTRTVILACGMGTLEVNEFDSEDAARYAGKNLHYGVEKLDAFKGKRVVISGGGDTAVDWANELEPIAASVTVVHRREEFGGMESSVTKMKQSSVRVLTPYRLEQLNGDEEGIKSVTVCHTESGQRKDIEIDELIINHGFKIDLGPMMEWGLEIEEGRVKADRHMRTNLPGVFVAGDAAFYESKLRLIAGGFTEGPTAVNSAKAYLDPKAENMAMYSTHHKKLV EVYDVTIIGGGPIGLFTAFYCGMRELKTKVIEFLPKLGGKVSLFFPEKIIRDIGGIPGIAGKQLIEQLKEQAATFDPDIVLNQRVTGFERLDDGTIVLTGSEGKKHYTRTVILACGMGTLEVNEFDSEDAARYAGKNLHYGVEKLDAFKGKRVVISGGGDTAVDWANELEPIAASVTVVHRREEFGGMESSVTKMKQSSVRVLTPYRLEQLNGDEEGIKSVTVCHTESGQRKDIEIDELIINHGFKIDLGPMMEWGLEIEEGRVKADRHMRTNLPGVFVAGDAAFYESKLRLIAGGFTEGPTAVNSAKAYLDPKAENMAMYSTHHKKLV 5xhx-a2-m1-cB_5xhx-a2-m3-cB Crystal structure of VqsR LBD domain from Pseudomonas aeruginosa Q9I0P6 Q9I0P6 2.1 X-RAY DIFFRACTION 55 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 163 163 5xhx-a1-m1-cA_5xhx-a1-m2-cA GGAWHESLGKLLEALDRPFFWRILAQTLGQFAPVDNWAALIFSDSSPLILSFMEEEDPLISRYITGLYLQDPFYQVSRNRRGGLFHLADIVSEDFETTEYYNTYFAHYVVTDEVQYNVPLDGERTLCLSLGSESRFGAEQIALFELLRPWVIALMKKRIHFED GGAWHESLGKLLEALDRPFFWRILAQTLGQFAPVDNWAALIFSDSSPLILSFMEEEDPLISRYITGLYLQDPFYQVSRNRRGGLFHLADIVSEDFETTEYYNTYFAHYVVTDEVQYNVPLDGERTLCLSLGSESRFGAEQIALFELLRPWVIALMKKRIHFED 5xih-a1-m1-cA_5xih-a1-m1-cB Crystal Structure of Toxoplasma gondii Prolyl-tRNA Synthetase (TgPRS) in complex with inhibitor 5 S8G8I1 S8G8I1 2.2 X-RAY DIFFRACTION 147 0.998 508771 (Toxoplasma gondii ME49) 508771 (Toxoplasma gondii ME49) 477 479 5xif-a1-m1-cB_5xif-a1-m1-cA 5xig-a1-m1-cD_5xig-a1-m1-cA 5xig-a2-m1-cC_5xig-a2-m1-cB 5xih-a2-m1-cD_5xih-a2-m1-cC 5xii-a1-m1-cA_5xii-a1-m1-cC 5xii-a2-m1-cB_5xii-a2-m1-cD 5xij-a1-m1-cB_5xij-a1-m1-cA 5xij-a2-m1-cD_5xij-a2-m1-cC 5xik-a1-m1-cB_5xik-a1-m1-cA 5xik-a2-m1-cC_5xik-a2-m1-cD 5xiq-a1-m1-cA_5xiq-a1-m1-cB 5xiq-a2-m1-cD_5xiq-a2-m1-cC 6a88-a1-m1-cB_6a88-a1-m1-cA 6a88-a2-m1-cD_6a88-a2-m1-cC 7evu-a1-m1-cB_7evu-a1-m1-cA 7f9p-a1-m1-cA_7f9p-a1-m2-cA 7f9q-a1-m1-cA_7f9q-a1-m1-cB 7f9r-a1-m1-cA_7f9r-a1-m2-cA 7f9s-a1-m1-cA_7f9s-a1-m2-cA 7f9t-a1-m1-cA_7f9t-a1-m1-cB 7f9u-a1-m1-cA_7f9u-a1-m1-cD 7f9u-a2-m1-cB_7f9u-a2-m1-cC 7f9v-a1-m1-cB_7f9v-a1-m1-cA 7fak-a1-m1-cA_7fak-a1-m2-cA 7fal-a1-m1-cB_7fal-a1-m1-cA 7fam-a1-m1-cA_7fam-a1-m2-cA 7fan-a1-m1-cA_7fan-a1-m2-cA 7v8j-a1-m1-cB_7v8j-a1-m1-cA 7v8k-a1-m1-cB_7v8k-a1-m1-cA 7vc1-a1-m1-cA_7vc1-a1-m1-cB 7vc2-a1-m1-cB_7vc2-a1-m1-cA 7vc3-a1-m1-cA_7vc3-a1-m2-cA 7vc5-a1-m1-cA_7vc5-a1-m2-cA MVTAKKDENFSEWYTQAIVRSEMIEYYDISGCYIMRPWAFHIWEKVQRFFDDEIKKMGVENSYFPMFVSRHKLEKGFSPEVAWVTHYGDSPLPEKIAIRPTSETIMYPAYAKWIRSHRDLPLKLNQWCSVVRWEFKQPTPFLRTREFLWQEGHTAHATEEEAWELVLDILELYRRWYEECLAVPVIKGEKSEGEKFAGGKKTTTVEAFIPENGRGIQAATSHLLGTNFAKMFEIEFEDEEGHKRLVHQTSWGCTTRSLGVMIMTHGDDKGLVIPPRVASVQVVIIPILFNTGEILGKCRELKTMLEKADIRVRIDDRSNYTPGWKYNHWEVKGVPLRLELGPKDLAKGTARVVRRDTGEAYQISWADLAPKLLELMEGIQRSLFEKAKARLHEGIEKISTFDEVMPALNRKHLVLAPWCEDPESEEQIKKETQKLSEITGAMKTLCIPFDQPPMPEGTKCFYTGKPAKRWTLWGRSY MVTAKKDENFSEWYTQAIVRSEMIEYYDISGCYIMRPWAFHIWEKVQRFFDDEIKKMGVENSYFPMFVSRHKLEKGFSPEVAWVTHYGDSPLPEKIAIRPTSETIMYPAYAKWIRSHRDLPLKLNQWCSVVRWEFKQPTPFLRTREFLWQEGHTAHATEEEAWELVLDILELYRRWYEECLAVPVIKGEKSEGEKFAGGKKTTTVEAFIPENGRGIQAATSHLLGTNFAKMFEIEFEDEEGHKRLVHQTSWGCTTRSLGVMIMTHGDDKGLVIPPRVASVQVVIIPILFKDENTGEILGKCRELKTMLEKADIRVRIDDRSNYTPGWKYNHWEVKGVPLRLELGPKDLAKGTARVVRRDTGEAYQISWADLAPKLLELMEGIQRSLFEKAKARLHEGIEKISTFDEVMPALNRKHLVLAPWCEDPESEEQIKKETQKLSEIGAMKTLCIPFDQPPMPEGTKCFYTGKPAKRWTLWGRSY 5xil-a1-m1-cA_5xil-a1-m2-cA Crystal Structure of Leishmania major Prolyl-tRNA Synthetase (LmPRS) Q4QDS0 Q4QDS0 1.9 X-RAY DIFFRACTION 60 1.0 5664 (Leishmania major) 5664 (Leishmania major) 445 445 MGIAAKREENFSAWYIDVITKAEMIEYYIIRPWAYYVWKCVQRFLGGKIEKLGVEDCYFPTSETVMYPYYAKWIRSHRDLPVRLNMWNNVIPTPFIRTREFLWQEGHCAWAKAEECAKEVLEILECYASVYEQLLAVPVVRGRKTEKEKFAGGDYTTTVETFIEAVGRGCQGATSHNLGQNFGKMFDIRFQDPENNEQTLIPWQNSWGLSTRVIGVMIMVHGDNRGMVMPPRVASTQVIIIPVGITKDTTEEARQELLASCWRLESELCEGGVRARCDLRDNYSPGWRFNHWEVKGVPLRVELGPRELAERSLAVAVRHSGARHSVAWDAQTPAAVAALLEDVHAQMYARAKETMETHRVRVTEWTEFVPTLNRKCLILAPWCGAMECENQVKKDSAEESKAPSMGAKTLCIPFEQPEEPAEGHECICKGCTKPATTWVLFGRSY MGIAAKREENFSAWYIDVITKAEMIEYYIIRPWAYYVWKCVQRFLGGKIEKLGVEDCYFPTSETVMYPYYAKWIRSHRDLPVRLNMWNNVIPTPFIRTREFLWQEGHCAWAKAEECAKEVLEILECYASVYEQLLAVPVVRGRKTEKEKFAGGDYTTTVETFIEAVGRGCQGATSHNLGQNFGKMFDIRFQDPENNEQTLIPWQNSWGLSTRVIGVMIMVHGDNRGMVMPPRVASTQVIIIPVGITKDTTEEARQELLASCWRLESELCEGGVRARCDLRDNYSPGWRFNHWEVKGVPLRVELGPRELAERSLAVAVRHSGARHSVAWDAQTPAAVAALLEDVHAQMYARAKETMETHRVRVTEWTEFVPTLNRKCLILAPWCGAMECENQVKKDSAEESKAPSMGAKTLCIPFEQPEEPAEGHECICKGCTKPATTWVLFGRSY 5xip-a2-m1-cD_5xip-a2-m1-cC Crystal Structure of Eimeria tenella Prolyl-tRNA Synthetase (EtPRS) in complex with Halofuginone U6KWI1 U6KWI1 3.1 X-RAY DIFFRACTION 145 1.0 5802 (Eimeria tenella) 5802 (Eimeria tenella) 457 463 5xip-a1-m1-cA_5xip-a1-m1-cB TAKKSTNFADWYTQVIVRGELVEYYDISGCYIIRPWAYRIWEAVQKFFDDGIKRLGVENCYFPMFVSQAKLEKPEVAWVTHYGDSELPEKVAIRPTSETIMYPAYAKWIRSHRDLPLKLNQWNNVVRWEFKQPTPFLRTREFLWQEGHTAHATEEEAYTLVLEILELYRQWYEDYLAVPVIKGEKSENEKFAGGKKTTTIEGIIPDTGRGIQAATSHLLGQNFSRMFSIEFEDEKGAKQLVHQTSWGCTTRSLGVMIMTHGDDKGLVLPPRVVAVQAVIIPIIFMEIVAKCRELERLLNAAGVRVKVDDRTNYTPGWKFNDWELKGVPLRLEIGPRDVESCQTRVVRRDTSEARNVPWAEAASTIPAMLETMQKDLFNKAKAKFEASIEQITTFDEVMPALNRRHVVLAPWCEDPETETQIKRETQRLGAMKPLCIPFDQPPMCFFTGRWCLFGRSY TAKKSTNFADWYTQVIVRGELVEYYDISGCYIIRPWAYRIWEAVQKFFDDGIKRLGVENCYFPMFVSQAKLEKPEVAWVTHYGDSELPEKVAIRPTSETIMYPAYAKWIRSHRDLPLKLNQWNNVVRWEFKQPTPFLRTREFLWQEGHTAHATEEEAYTLVLEILELYRQWYEDYLAVPVIKGEKSENEKFAGGKKTTTIEGIIPDTGRGIQAATSHLLGQNFSRMFSIEFEDEKGAKQLVHQTSWGCTTRSLGVMIMTHGDDKGLVLPPRVVAVQAVIIPIIFMEIVAKCRELERLLNAAGVRVKVDDRTNYTPGWKFNDWELKGVPLRLEIGPRDVESCQTRVVRRDTSEARNVPWAEAASTIPAMLETMQKDLFNKAKAKFEASIEQITTFDEVMPALNRRHVVLAPWCEDPETETQIKRETQRLGAMKPLCIPFDQPPMPEGTRCFFTGRRWCLFGRSY 5xix-a2-m1-cB_5xix-a2-m1-cC The canonical domain of human asparaginyl-tRNA synthetase O43776 O43776 2.25 X-RAY DIFFRACTION 248 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 423 423 5xix-a1-m1-cA_5xix-a1-m1-cD EPKCVKIGALEGYRGQRVKVFGWVHRLRRQGKNLMFLVLRDGTGYLQCVLADELCQCYNGVLLSTESSVAVYGMLNLTPKGKQAPGGHELSCDFWELIGLAPALINEESDVDVQLNNRHMMIRGENMSKILKARSMVTRCFRDHFFDRGYYEVTPPTLVQTQATLFKLDYFGEEAFLTQSSQLYLETCLPALGDVFCIAQSYRAEHLAEYTHVEAECPFLTFDDLLNRLEDLVCDVVDRILKSPAGSIVHELNPNFQPPKRPFKRMNYSDAIVWLKEHDVKKEDGTFYEFGEDIPEAPERLMTDTINEPILLCRFPVEIKSFYMQRCPEDSRLTESVDVLMPNVGEIVGGSMRIFDSEEILAGYKREGIDPTPYYWYTDQRKYGTCPHGGYGLGLERFLTWILNRYHIRDVCLYPRFVQRCTP EPKCVKIGALEGYRGQRVKVFGWVHRLRRQGKNLMFLVLRDGTGYLQCVLADELCQCYNGVLLSTESSVAVYGMLNLTPKGKQAPGGHELSCDFWELIGLAPALINEESDVDVQLNNRHMMIRGENMSKILKARSMVTRCFRDHFFDRGYYEVTPPTLVQTQATLFKLDYFGEEAFLTQSSQLYLETCLPALGDVFCIAQSYRAEHLAEYTHVEAECPFLTFDDLLNRLEDLVCDVVDRILKSPAGSIVHELNPNFQPPKRPFKRMNYSDAIVWLKEHDVKKEDGTFYEFGEDIPEAPERLMTDTINEPILLCRFPVEIKSFYMQRCPEDSRLTESVDVLMPNVGEIVGGSMRIFDSEEILAGYKREGIDPTPYYWYTDQRKYGTCPHGGYGLGLERFLTWILNRYHIRDVCLYPRFVQRCTP 5xj8-a1-m1-cA_5xj8-a1-m1-cB Crystal structure of PlsY (YgiH), an integral membrane glycerol 3-phosphate acyltransferase - the lysphosphatidic acid form O66905 O66905 2.41 X-RAY DIFFRACTION 27 0.995 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 196 199 GSALFLVIFAYLLGSITFGEVIAKLKGVDGSGNVGATNVTRALGKKYGVLVFFLDFLKGFIPALIAVKSFGIDSWVLTFTGLASVLGHMYPVFFGFKGGKGVATALGVVFAVSPSVALFSFLVWLGIFLWKRYVSLASITATISAFLFLFVAGYPVNVLFMAIVIGALIIYRHRENINRLLTGREHRFGTLEVLFQ GSALFLVIFAYLLGSITFGEVIAKLKGVDLRNVGSGNVGATNVTRALGKKYGVLVFFLDFLKGFIPALIAVKSFGIDSWVLTFTGLASVLGHMYPVFFGFKGGKGVATALGVVFAVSPSVALFSFLVWLGIFLWKRYVSLASITATISAFLFLFVAGYPVNVLFMAIVIGALIIYRHRENINRLLTGREHRFGTLEVLF 5xjd-a1-m1-cA_5xjd-a1-m1-cB TEAD in complex with fragment Q62296 Q62296 2.22 X-RAY DIFFRACTION 29 0.995 10090 (Mus musculus) 10090 (Mus musculus) 209 212 RSIASSKLWMLEFSAFLERQQDPDTYNKHLFVHISQDPYLETVDIRQIYDKFPEKKGGLKELFERGPSNAFFLVKFWADLNTNIDGSAFYGVSSQYESPENMIITCSTKVCSFGKQVVEKVETEYARYENGHYLYRIHRSPLCEYMINFIHKLKHLPEKYMMNSVLENFTILQVVTNRDTQETLLCIAYVFEVSASEHGAQHHIYRLVK MRSIASSKLWMLEFSAFLERQQDPDTYNKHLFVHISQPYLETVDIRQIYDKFPEKKGGLKELFERGPSNAFFLVKFWADLNTNIDDEGSAFYGVSSQYESPENMIITCSTKVCSFGKQVVEKVETEYARYENGHYLYRIHRSPLCEYMINFIHKLKHLPEKYMMNSVLENFTILQVVTNRDTQETLLCIAYVFEVSASEHGAQHHIYRLVKE 5xjg-a1-m1-cA_5xjg-a1-m1-cC Crystal structure of Vac8p bound to Nvj1p P39968 P39968 2.4 X-RAY DIFFRACTION 70 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 489 489 PIADNEREAVTLLLGYQLDFYSGGPLKALTTLVYSDNLNLQRSAALAFAEITEKYVRQVSREVLEPILILLQSQDPQIQVAACAALGNLAVNNENKLLIVEMGGLEPLINQMMGDNVEVQCNAVGCITNLATRDDNKHKIATSGALIPLTKLAKSKHIRVQRNATGALLNMTHSEENRKELVNAGAVPVLVSLLSSTDPDVQYYCTTALSNIAVDEANRKKLAQTEPRLVSKLVSLMDSPSSRVKCQATLALRNLASDTSYQLEIVRAGGLPHLVKLIQSDSIPLVLASVACIRNISIHPLNEGLIVDAGFLKPLVRLLDYKDSEEIQCHAVSTLRNLAASSEKNRKEFFESGAVEKCKELALDSPVSVQSEISACFAILALADVSKLDLLEANILDALIPMTFSQNQEVSGNAAAALANLCSRVNNYTKIIEAWDRPNEGIRGFLIRFLKSDYATFEHIALWTILQLLESHNDKVEDLVKNDDDIING PIADNEREAVTLLLGYQLDFYSGGPLKALTTLVYSDNLNLQRSAALAFAEITEKYVRQVSREVLEPILILLQSQDPQIQVAACAALGNLAVNNENKLLIVEMGGLEPLINQMMGDNVEVQCNAVGCITNLATRDDNKHKIATSGALIPLTKLAKSKHIRVQRNATGALLNMTHSEENRKELVNAGAVPVLVSLLSSTDPDVQYYCTTALSNIAVDEANRKKLAQTEPRLVSKLVSLMDSPSSRVKCQATLALRNLASDTSYQLEIVRAGGLPHLVKLIQSDSIPLVLASVACIRNISIHPLNEGLIVDAGFLKPLVRLLDYKDSEEIQCHAVSTLRNLAASSEKNRKEFFESGAVEKCKELALDSPVSVQSEISACFAILALADVSKLDLLEANILDALIPMTFSQNQEVSGNAAAALANLCSRVNNYTKIIEAWDRPNEGIRGFLIRFLKSDYATFEHIALWTILQLLESHNDKVEDLVKNDDDIING 5xk2-a1-m2-cB_5xk2-a1-m1-cA Crystal structure of mono- and diacylglycerol lipase from Aspergillus oryzae P78583 P78583 1.695 X-RAY DIFFRACTION 63 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 269 271 PTTQLEDFKFWVQYAAATYCPNNYVAKDGEKLNCSVGNCPDVEAAGSTVKLSFSDDTITDTAGFVAVDNTNKAIVVAFRGSYSIRNWVTDATFPQTDPGLCDGCKAELGFWTAWKVVRDRIIKTLDELKPEHSDYKIVVVGHSLGAAIASLAAADLRTKNYDAILYAYAAPRVANKPLAEFITNQGNNYRFTHNDDPVPKLPLLTMGYVHISPEYYITAPDNTTVTDNQVTVLDGYVNFKGNTGTSGGLPDLLAFHSHVWYFIHADACK IPTTQLEDFKFWVQYAAATYCPNNYVAKDGEKLNCSVGNCPDVEAAGSTVKLSFSDDTITDTAGFVAVDNTNKAIVVAFRGSYSIRNWVTDATFPQTDPGLCDGCKAELGFWTAWKVVRDRIIKTLDELKPEHSDYKIVVVGHSLGAAIASLAAADLRTKNYDAILYAYAAPRVANKPLAEFITNQGNNYRFTHNDDPVPKLPLLTMGYVHISPEYYITAPDNTTVTDNQVTVLDGYVNFKGNTGTSGGLPDLLAFHSHVWYFIHADACKG 5xka-a1-m1-cB_5xka-a1-m1-cA Crystal structure of M.tuberculosis PknI kinase domain P9WI69 P9WI69 1.599 X-RAY DIFFRACTION 47 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 245 248 5m06-a1-m1-cA_5m06-a1-m1-cB ALASGVTFAGYTVVRLGCSAGEVYLVQHPGFPGWQALKVLSPAAADDEFRRRFQRETEVAARLFHPHILEVHDRGEFDGQLWIADYVDGIDATQHADRFPAVLPVGEVLAIVTAVAGALDYAHQRGLLHRDVNPANVVLTSQRILLADFGIASQPSYPAPELSAGADVDGRADQYALALTAIHLFAGAPPVDRSHTGPLQPPKLSAFRPDLARLDGVLSRALATAPADRFGSCREFADANEQAGV ALASGVTFAGYTVVRLGCSAGEVYLVQHPGFPGWQALKVLSPAAADDEFRRRFQRETEVAARLFHPHILEVHDRGEFDGQLWIADYVDGIDATQHADRFPAVLPVGEVLAIVTAVAGALDYAHQRGLLHRDVNPANVVLTSQRILLADFGIASQPSYPAPELSAGADVDGRADQYALALTAIHLFAGAPPVDRSHTGPLQPPKLSAFRPDLARLDGVLSRALATAPADRFGSCREFADANEQAGVAIA 5xkp-a2-m1-cC_5xkp-a2-m1-cD Crystal structure of Msmeg3575 in complex with 5-azacytosine A0QY90 A0QY90 3 X-RAY DIFFRACTION 87 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 157 158 5xko-a1-m1-cA_5xko-a1-m1-cB 5xkp-a1-m1-cA_5xkp-a1-m1-cB 5xkq-a1-m1-cA_5xkq-a1-m1-cB 5xkq-a2-m1-cC_5xkq-a2-m1-cD 5xkr-a1-m1-cA_5xkr-a1-m1-cB 5xkr-a2-m1-cC_5xkr-a2-m1-cD AISDADLKYLRRCVDLAREALDDGDEPFGSVLVDHTGTTLFEDRNRVKGDATAHPEFAIARWAARHLTPDRRARATVYTSGEHCPMCAAAHAWVGLGRIVYATSSAQLGGWLTEWGAQAPPVATLPINTVAPGVVVDGPAEELAETMHNLYRAKFGR AISDADLKYLRRCVDLAREALDDGDEPFGSVLVDHTGTTLFEDRNRVKDGDATAHPEFAIARWAARHLTPDRRARATVYTSGEHCPMCAAAHAWVGLGRIVYATSSAQLGGWLTEWGAQAPPVATLPINTVAPGVVVDGPAEELAETMHNLYRAKFGR 5xks-a7-m1-cA_5xks-a7-m1-cF Crystal structure of monoacylglycerol lipase from thermophilic Geobacillus sp. 12AMOR 2.189 X-RAY DIFFRACTION 23 1.0 1629723 (Geobacillus sp. 12AMOR1) 1629723 (Geobacillus sp. 12AMOR1) 252 253 MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADRH MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADRHH 5xks-a7-m1-cC_5xks-a7-m1-cF Crystal structure of monoacylglycerol lipase from thermophilic Geobacillus sp. 12AMOR 2.189 X-RAY DIFFRACTION 12 1.0 1629723 (Geobacillus sp. 12AMOR1) 1629723 (Geobacillus sp. 12AMOR1) 252 253 5xks-a7-m1-cE_5xks-a7-m1-cA MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADRH MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADRHH 5xks-a7-m1-cD_5xks-a7-m1-cC Crystal structure of monoacylglycerol lipase from thermophilic Geobacillus sp. 12AMOR 2.189 X-RAY DIFFRACTION 10 1.0 1629723 (Geobacillus sp. 12AMOR1) 1629723 (Geobacillus sp. 12AMOR1) 251 252 MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADR MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADRH 5xks-a7-m1-cD_5xks-a7-m1-cE Crystal structure of monoacylglycerol lipase from thermophilic Geobacillus sp. 12AMOR 2.189 X-RAY DIFFRACTION 31 1.0 1629723 (Geobacillus sp. 12AMOR1) 1629723 (Geobacillus sp. 12AMOR1) 251 251 MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADR MTETYPVVKGAEPFFFEGNDIGILVLHGFTGSPQSMRPLGEAYHEAGYTVCGPRLKGHGTHYEDMEKTTCQDWIDSVEAGYEWLKNRCGTIFVTGLSMGGTLTLYMAEHHPEICGIAPINAAINMPALAGALAGVGDLPRFLDAIGSDIKKPGVKELAYEKTPAASIRQIVQLMERVKTDLHKITCPAILFCSDEDHVVPPDNAPFIYDHIASADKKLVRLPDSYHVATLDNDRQKIIDTSLAFFKKHADR 5xkt-a1-m1-cA_5xkt-a1-m1-cB Klebsiella pneumoniae UreG in complex with GMPPNP and nickel R4YE37 R4YE37 1.8 X-RAY DIFFRACTION 109 1.0 861365 (Klebsiella pneumoniae subsp. rhinoscleromatis SB3432) 861365 (Klebsiella pneumoniae subsp. rhinoscleromatis SB3432) 199 199 HPLRVGVGGPVGSGKTALLEALCKAMRDTWQLAVVTNDIYTKEDQRILTEAGTLAPERIVGVETGGCPHTAIREDASMNLAAVEALSEKFGNLDLIFVESGGDNLSATFSPELADLTIYVIDVAEGEKIPRKGGPGITRSDFLVINKTDLAPYVGASLKVMASDTQRMRGDRPWTFTNLKQGDGLSTIIAFLEDKGMLG HPLRVGVGGPVGSGKTALLEALCKAMRDTWQLAVVTNDIYTKEDQRILTEAGTLAPERIVGVETGGCPHTAIREDASMNLAAVEALSEKFGNLDLIFVESGGDNLSATFSPELADLTIYVIDVAEGEKIPRKGGPGITRSDFLVINKTDLAPYVGASLKVMASDTQRMRGDRPWTFTNLKQGDGLSTIIAFLEDKGMLG 5xll-a1-m1-cA_5xll-a1-m1-cB Dimer form of M. tuberculosis PknI sensor domain P9WI69 P9WI69 2.201 X-RAY DIFFRACTION 30 0.994 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 155 156 APVPLDGTYRIEIQRSKQTYDYTPTPQPPDVNTWWAFRTSCTPTECLAAATLDDNDHTQAKTPPVRPFLQFGEGQWKSRPETVQFPCVGPNGSPSTQATTQLLALRPQPQGDLVGEVVTVHSNECGQQGAVIRIPAVASRSGDLPPAVTVPDPAT TAPVPLDGTYRIEIQRSKQTYDYTPTPQPPDVNTWWAFRTSCTPTECLAAATLDDNDHTQAKTPPVRPFLQFGEGQWKSRPETVQFPCVGPNGSPSTQATTQLLALRPQPGDLVGEVVTVHSNECGQQGAVIRIPAVASRSGDLPPAVTVPDPATI 5xls-a1-m1-cA_5xls-a1-m2-cA Crystal structure of UraA in occluded conformation P0AGM8 P0AGM8 2.5 X-RAY DIFFRACTION 199 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 408 408 AIGVSERPPLLQTIPLSLQHLFAMFGATVLVPVLFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVLFPPAAMGAIVAVIGLELAGVAAGMAGLLPAEGQTPDSKTIIISITTLAVTVLGSVLFRGFLAIIPILIGVLVGYALSFAMGIVDTTPIINAHWFALPTLYTPRFEWFAILTILPAALVVIAEHVGHLVVTANIVKKDLLRDPGLHRSMFANGLSTVISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIFAILLSCVGKLAAAIQMIPLPVMGGVSLLLYGVIGASGIRVLIESKVDYNKAQNLILTSVILIIGVSGAKVNIGAAELKGMALATIVGIGLSLIFKLISVL AIGVSERPPLLQTIPLSLQHLFAMFGATVLVPVLFHINPATVLLFNGIGTLLYLFICKGKIPAYLGSSFAFISPVLLLLPLGYEVALGGFIMCGVLFCLVSFIVKKAGTGWLDVLFPPAAMGAIVAVIGLELAGVAAGMAGLLPAEGQTPDSKTIIISITTLAVTVLGSVLFRGFLAIIPILIGVLVGYALSFAMGIVDTTPIINAHWFALPTLYTPRFEWFAILTILPAALVVIAEHVGHLVVTANIVKKDLLRDPGLHRSMFANGLSTVISGFFGSTPNTTYGENIGVMAITRVYSTWVIGGAAIFAILLSCVGKLAAAIQMIPLPVMGGVSLLLYGVIGASGIRVLIESKVDYNKAQNLILTSVILIIGVSGAKVNIGAAELKGMALATIVGIGLSLIFKLISVL 5xlx-a1-m1-cA_5xlx-a1-m1-cD Crystal structure of the C-terminal domain of CheR1 containing SAH O87131 O87131 1.969 X-RAY DIFFRACTION 26 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 201 201 5xlx-a1-m1-cB_5xlx-a1-m1-cC TLWFRDTYPFEVLKQRVLPELIKANGGQRLRIWSAACSSGQEPYSLSMAIDEFEKTNLGQLKAGVQIVATDLSGSMLTAAKAGEYDTLAMGRGLSPERLQRYFDAKGPGRWAVKPAIRSRVEFRALNLLDSYASLGKFDMVFCRNVLIYFSAEVKRDILLRIHGTLKPGGYLFLGASEALNNLPDHYQMVQCSPGIIYRAK TLWFRDTYPFEVLKQRVLPELIKANGGQRLRIWSAACSSGQEPYSLSMAIDEFEKTNLGQLKAGVQIVATDLSGSMLTAAKAGEYDTLAMGRGLSPERLQRYFDAKGPGRWAVKPAIRSRVEFRALNLLDSYASLGKFDMVFCRNVLIYFSAEVKRDILLRIHGTLKPGGYLFLGASEALNNLPDHYQMVQCSPGIIYRAK 5xlx-a1-m1-cB_5xlx-a1-m1-cD Crystal structure of the C-terminal domain of CheR1 containing SAH O87131 O87131 1.969 X-RAY DIFFRACTION 19 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 201 201 TLWFRDTYPFEVLKQRVLPELIKANGGQRLRIWSAACSSGQEPYSLSMAIDEFEKTNLGQLKAGVQIVATDLSGSMLTAAKAGEYDTLAMGRGLSPERLQRYFDAKGPGRWAVKPAIRSRVEFRALNLLDSYASLGKFDMVFCRNVLIYFSAEVKRDILLRIHGTLKPGGYLFLGASEALNNLPDHYQMVQCSPGIIYRAK TLWFRDTYPFEVLKQRVLPELIKANGGQRLRIWSAACSSGQEPYSLSMAIDEFEKTNLGQLKAGVQIVATDLSGSMLTAAKAGEYDTLAMGRGLSPERLQRYFDAKGPGRWAVKPAIRSRVEFRALNLLDSYASLGKFDMVFCRNVLIYFSAEVKRDILLRIHGTLKPGGYLFLGASEALNNLPDHYQMVQCSPGIIYRAK 5xlx-a1-m1-cC_5xlx-a1-m1-cD Crystal structure of the C-terminal domain of CheR1 containing SAH O87131 O87131 1.969 X-RAY DIFFRACTION 32 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 201 201 5xlx-a1-m1-cA_5xlx-a1-m1-cB TLWFRDTYPFEVLKQRVLPELIKANGGQRLRIWSAACSSGQEPYSLSMAIDEFEKTNLGQLKAGVQIVATDLSGSMLTAAKAGEYDTLAMGRGLSPERLQRYFDAKGPGRWAVKPAIRSRVEFRALNLLDSYASLGKFDMVFCRNVLIYFSAEVKRDILLRIHGTLKPGGYLFLGASEALNNLPDHYQMVQCSPGIIYRAK TLWFRDTYPFEVLKQRVLPELIKANGGQRLRIWSAACSSGQEPYSLSMAIDEFEKTNLGQLKAGVQIVATDLSGSMLTAAKAGEYDTLAMGRGLSPERLQRYFDAKGPGRWAVKPAIRSRVEFRALNLLDSYASLGKFDMVFCRNVLIYFSAEVKRDILLRIHGTLKPGGYLFLGASEALNNLPDHYQMVQCSPGIIYRAK 5xm3-a1-m1-cA_5xm3-a1-m1-cC Crystal Structure of Methanol dehydrogenase from Methylophaga aminisulfidivorans A3FJ48 A3FJ48 1.701 X-RAY DIFFRACTION 148 1.0 1026882 (Methylophaga aminisulfidivorans MP) 1026882 (Methylophaga aminisulfidivorans MP) 596 596 NDKLVELSKSNENWVMQGKDFSGTHYSTAKQINKDNVKKLRPSWSFSTGVLNGHEGAPLVVNGTMYIHTPFPNNTFAIDLDEPGVIKWEHKPKQDPAARAVACCDVVNRGLAYWPGDDKAPAMIVKSLLDGHVVALNAETGEEYWKVENGDISVGQTETAAPFVAKDLVIQGSSGAELGVRGYVTAYDIHTGEMVWRWYATGPDADVGLDKDFNKHNPHYGQKGLGTSTWEDNAWKIGGGTNWGWYAYDPQLDMFYYGSGNPAPWNETMRPGDNKWTMTIWGRDLETGLAKFGYQKTPHDEWDYAGVNVMMLSEQKDKNGKMRKLLTHPDRNGIIYTLDRETGDLVSANKMDDTANWVKKVDLETGLPIRDPEYGTRMGHRSRDVCPSAMGFHNQGFDSYDPKRELFYLGINHLCMDWEPFMLPYRAGQFFVGANVWTYPGPKGDRQNGIGSGQVKAYNAITGEFAWEKMEKFSVWGGTTATEGGLVFYGTLDGFIKARDADTGKLLWKFKLPSGVIGHPMTYTHKGTQYVAINYGVGGWPAVGLVFDLNDPSAGLGAVGAFKELAKNTQMGGGVMVFSLDGKSPYDDVSLGEYGM NDKLVELSKSNENWVMQGKDFSGTHYSTAKQINKDNVKKLRPSWSFSTGVLNGHEGAPLVVNGTMYIHTPFPNNTFAIDLDEPGVIKWEHKPKQDPAARAVACCDVVNRGLAYWPGDDKAPAMIVKSLLDGHVVALNAETGEEYWKVENGDISVGQTETAAPFVAKDLVIQGSSGAELGVRGYVTAYDIHTGEMVWRWYATGPDADVGLDKDFNKHNPHYGQKGLGTSTWEDNAWKIGGGTNWGWYAYDPQLDMFYYGSGNPAPWNETMRPGDNKWTMTIWGRDLETGLAKFGYQKTPHDEWDYAGVNVMMLSEQKDKNGKMRKLLTHPDRNGIIYTLDRETGDLVSANKMDDTANWVKKVDLETGLPIRDPEYGTRMGHRSRDVCPSAMGFHNQGFDSYDPKRELFYLGINHLCMDWEPFMLPYRAGQFFVGANVWTYPGPKGDRQNGIGSGQVKAYNAITGEFAWEKMEKFSVWGGTTATEGGLVFYGTLDGFIKARDADTGKLLWKFKLPSGVIGHPMTYTHKGTQYVAINYGVGGWPAVGLVFDLNDPSAGLGAVGAFKELAKNTQMGGGVMVFSLDGKSPYDDVSLGEYGM 5xm6-a1-m1-cA_5xm6-a1-m1-cB the overall structure of VrEH2 A0A0R5NGA4 A0A0R5NGA4 2.501 X-RAY DIFFRACTION 28 1.0 157791 (Vigna radiata) 157791 (Vigna radiata) 318 318 MEEIEHRTVEVNGIKMHVAEKGEGPVVLFLHGFPELWYSWRHQILALSSRGYRAVAPDLRGYGDTEAPVSISSYTGFHIVGDLIALIDLLGVDQVFLVAHDWGAIIGWYLCTFHPDRVKAYVCLSVPLLHRDPNIRTVDAMRAMYGDDYYICRFQKPGEMEAQMAEVGTEYVLKNILTTRKPGPPIFPKGEYGTGFNPDMPNSLPSWLTQDDLAYYVSKYEKTGFTGPLNYYRNMNLNWELTAPWSGGKIQVPVKFITGELDMVYTSLNMKEYIHGGGFKQDVPNLEEVIVQKNVAHFNNQEAAEEINNHIYDFIKKF MEEIEHRTVEVNGIKMHVAEKGEGPVVLFLHGFPELWYSWRHQILALSSRGYRAVAPDLRGYGDTEAPVSISSYTGFHIVGDLIALIDLLGVDQVFLVAHDWGAIIGWYLCTFHPDRVKAYVCLSVPLLHRDPNIRTVDAMRAMYGDDYYICRFQKPGEMEAQMAEVGTEYVLKNILTTRKPGPPIFPKGEYGTGFNPDMPNSLPSWLTQDDLAYYVSKYEKTGFTGPLNYYRNMNLNWELTAPWSGGKIQVPVKFITGELDMVYTSLNMKEYIHGGGFKQDVPNLEEVIVQKNVAHFNNQEAAEEINNHIYDFIKKF 5xm6-a1-m1-cB_5xm6-a1-m1-cC the overall structure of VrEH2 A0A0R5NGA4 A0A0R5NGA4 2.501 X-RAY DIFFRACTION 13 1.0 157791 (Vigna radiata) 157791 (Vigna radiata) 318 318 MEEIEHRTVEVNGIKMHVAEKGEGPVVLFLHGFPELWYSWRHQILALSSRGYRAVAPDLRGYGDTEAPVSISSYTGFHIVGDLIALIDLLGVDQVFLVAHDWGAIIGWYLCTFHPDRVKAYVCLSVPLLHRDPNIRTVDAMRAMYGDDYYICRFQKPGEMEAQMAEVGTEYVLKNILTTRKPGPPIFPKGEYGTGFNPDMPNSLPSWLTQDDLAYYVSKYEKTGFTGPLNYYRNMNLNWELTAPWSGGKIQVPVKFITGELDMVYTSLNMKEYIHGGGFKQDVPNLEEVIVQKNVAHFNNQEAAEEINNHIYDFIKKF MEEIEHRTVEVNGIKMHVAEKGEGPVVLFLHGFPELWYSWRHQILALSSRGYRAVAPDLRGYGDTEAPVSISSYTGFHIVGDLIALIDLLGVDQVFLVAHDWGAIIGWYLCTFHPDRVKAYVCLSVPLLHRDPNIRTVDAMRAMYGDDYYICRFQKPGEMEAQMAEVGTEYVLKNILTTRKPGPPIFPKGEYGTGFNPDMPNSLPSWLTQDDLAYYVSKYEKTGFTGPLNYYRNMNLNWELTAPWSGGKIQVPVKFITGELDMVYTSLNMKEYIHGGGFKQDVPNLEEVIVQKNVAHFNNQEAAEEINNHIYDFIKKF 5xmd-a2-m3-cD_5xmd-a2-m1-cB Crystal structure of epoxide hydrolase VrEH1 from Vigna radiata E5L4L1 E5L4L1 2 X-RAY DIFFRACTION 63 1.0 157791 (Vigna radiata) 157791 (Vigna radiata) 308 322 5xmd-a1-m2-cC_5xmd-a1-m1-cA SMEEIEHRTVEVNGIKMHVAEKGEGPVVLFLHGFPELWYSWRHQILALSSRGYRAVAPDLRGYGDTEAPESISSYTIMHLVGDIVALIDSLGVGQVFLVAHDWGAIVGWYLCLFRPEKIKAYVCLSVPFMPRNPKVRPVDAMRALYGDDYYICRFQEPGKAEALYGSNNNIGEVIKSILTNRRPGPPILPKEPLPSWLSEEDVTYYASKFSKTGLTGGLNYYRNLNLNWELTAAWTGAKVKVPVKFITGDLDVVYTSLGIKDYIDSGAFKRDVPYLEEVVVQEGVAHFNNQEAAEDISNHIYEFIKKF RGSMEEIEHRTVEVNGIKMHVAEKGEGPVVLFLHGFPELWYSWRHQILALSSRGYRAVAPDLRGYGDTEAPESISSYTIMHLVGDIVALIDSLGVGQVFLVAHDWGAIVGWYLCLFRPEKIKAYVCLSVPFMPRNPKVRPVDAMRALYGDDYYICRFQEPGKAEALYGSNNNIGEVIKSILTNRRPGPPILPKEGVALPSGSLPSRPLPSWLSEEDVTYYASKFSKTGLTGGLNYYRNLNLNWELTAAWTGAKVKVPVKFITGDLDVVYTSLGIKDYIDSGAFKRDVPYLEEVVVQEGVAHFNNQEAAEDISNHIYEFIKKF 5xmj-a2-m1-cE_5xmj-a2-m1-cI Crystal structure of quinol:fumarate reductase from Desulfovibrio gigas T2GB49 T2GB49 3.6 X-RAY DIFFRACTION 41 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 622 622 5xmj-a1-m1-cA_5xmj-a1-m1-cM MQIYHTDVLCIGGALAGERVAVEASMAGLKTIMLSLVPPRRSHSSAAQGGMQAALGNAIMGDGDSPDVHFADTVKGSDWGCDQEVARIFADTAPIVMREVAHWGVPWNRVVPGKHTYYKGGKPFEAEEKAEKAGLIHARAFGGTAAWRTCYTADGTGRSVLNTLDTKCLQYGVTVHDRMQAEALIHDGGNCLGCIARCLRTGELVAYLATSTLIATGGYGRIYKATTNAVICDGGGQIIALDTGLVPMGNMEAVQFHPTGTVPTDILVTEGCRGDGGTLLDVNQYRFMPDYEPDKAQLASRDVVSRRMTEHMRKGLGVKSPYGDHLWLDIRHLGEKHITTKLREVYDICTNFLGVNPIHQLIPVRPTHHYSMGGVRTNRDGAAYGLKGLFSAGESACWDMHGFNRLGGNSLAETVVAGRYIGERMVEFTKGATPSFGMQYVEDAHKKVQERITDIVTGRKGKENTFKIRDEMHDIMMEGVGIFRNGTDLQKAVNKLEELYDRSQKISLSSACKGMNPELSTALRIRGMLKLAQCTAYGALDRTESRGAHTREDFPERNDKEWLNRTLSYWKEGASMPTLEYEEASPYYEMPPGDRGYGGGVTIANELPPEKFVIPEAAKENL MQIYHTDVLCIGGALAGERVAVEASMAGLKTIMLSLVPPRRSHSSAAQGGMQAALGNAIMGDGDSPDVHFADTVKGSDWGCDQEVARIFADTAPIVMREVAHWGVPWNRVVPGKHTYYKGGKPFEAEEKAEKAGLIHARAFGGTAAWRTCYTADGTGRSVLNTLDTKCLQYGVTVHDRMQAEALIHDGGNCLGCIARCLRTGELVAYLATSTLIATGGYGRIYKATTNAVICDGGGQIIALDTGLVPMGNMEAVQFHPTGTVPTDILVTEGCRGDGGTLLDVNQYRFMPDYEPDKAQLASRDVVSRRMTEHMRKGLGVKSPYGDHLWLDIRHLGEKHITTKLREVYDICTNFLGVNPIHQLIPVRPTHHYSMGGVRTNRDGAAYGLKGLFSAGESACWDMHGFNRLGGNSLAETVVAGRYIGERMVEFTKGATPSFGMQYVEDAHKKVQERITDIVTGRKGKENTFKIRDEMHDIMMEGVGIFRNGTDLQKAVNKLEELYDRSQKISLSSACKGMNPELSTALRIRGMLKLAQCTAYGALDRTESRGAHTREDFPERNDKEWLNRTLSYWKEGASMPTLEYEEASPYYEMPPGDRGYGGGVTIANELPPEKFVIPEAAKENL 5xmj-a2-m1-cG_5xmj-a2-m1-cK Crystal structure of quinol:fumarate reductase from Desulfovibrio gigas T2GAT5 T2GAT5 3.6 X-RAY DIFFRACTION 54 1.0 879 (Megalodesulfovibrio gigas) 879 (Megalodesulfovibrio gigas) 212 212 5xmj-a1-m1-cC_5xmj-a1-m1-cO MNASTITLHVPQRSKIAGRMDFFQMVSGALLILFLWAHMMLVSSVILSPSLMNGIAWFFEATYMAQIGGPAVFVLMVVHFILAARKMPFKQDEWKTFRVHACMLHHKDTTMWVVQVISAIFILVLGAVHMFVVLTDLPITAAKSAARLQSGWLYLYLVLLPLAELHVGVGFYRIGVKYGFVGRNKRKWFQKTENLMMIGFITIGLLTLVRFM MNASTITLHVPQRSKIAGRMDFFQMVSGALLILFLWAHMMLVSSVILSPSLMNGIAWFFEATYMAQIGGPAVFVLMVVHFILAARKMPFKQDEWKTFRVHACMLHHKDTTMWVVQVISAIFILVLGAVHMFVVLTDLPITAAKSAARLQSGWLYLYLVLLPLAELHVGVGFYRIGVKYGFVGRNKRKWFQKTENLMMIGFITIGLLTLVRFM 5xn5-a1-m1-cB_5xn5-a1-m1-cA Homo-dimer crystal structure of geranylgeranyl diphosphate synthases 1 from Oryza sativa Q7XI92 Q7XI92 2.002 X-RAY DIFFRACTION 147 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 281 288 FDFNAYMGEKAAAVNRALDASIPADEPPAALHEAMRYALLAGGKRVRPALCLAACAVVGGREAWAMPAAAAVEMVHTMSLVHDDLPCMDDDDLRRGKPTCHVVYGEPIAVLTGDALLSLSFHHMARFDSYPPDIDADKHPARVVRAIGELARCIGSEGLVAGQVVDLEMTVPLERLEYIHLHKTAALLEASVVIGAILGGGSDEQIESLRMYARSIGLLFQVVDDILDVTKTTYPKLLGLEKSREFAEKLLSDAREQLSGFDQETAAPLLHLANYIAYRQN GFDFNAYMGEKAAAVNRALDASIPADEPPAALHEAMRYALLAGGKRVRPALCLAACAVVGGREAWAMPAAAAVEMVHTMSLVHDDLPCMDDDDLRRGKPTCHVVYGEPIAVLTGDALLSLSFHHMARFDSYPPDIDADKHPARVVRAIGELARCIGSEGLVAGQVVDLEMTVPLERLEYIHLHKTAALLEASVVIGAILGGGSDEQIESLRMYARSIGLLFQVVDDILDVTKDLASDKTTYPKLLGLEKSREFAEKLLSDAREQLSGFDQETAAPLLHLANYIAYRQN 5xna-a1-m1-cA_5xna-a1-m1-cB Crystal structure of a secretary abundant heat soluble (SAHS) protein from Ramazzottius varieornatus (from dimer sample) J7MFT5 J7MFT5 1.802 X-RAY DIFFRACTION 22 1.0 947166 (Ramazzottius varieornatus) 947166 (Ramazzottius varieornatus) 137 137 SEWTGKSWMGKWESTDRIENFDAFISALGLPLEQYGGNHKTFHKIWKEGDHYHHQISVPDKNYKNDVNFKLNEEGTTQHNNTEIKYKYTEDGGNLKAEVHVPSRNKVIHDEYKVNGDELEKTYKVGDVTAKRWYKKS SEWTGKSWMGKWESTDRIENFDAFISALGLPLEQYGGNHKTFHKIWKEGDHYHHQISVPDKNYKNDVNFKLNEEGTTQHNNTEIKYKYTEDGGNLKAEVHVPSRNKVIHDEYKVNGDELEKTYKVGDVTAKRWYKKS 5xnc-a3-m1-cE_5xnc-a3-m1-cF Crystal structure of the branched-chain polyamine synthase (BpsA) in complex with N4-aminopropylspermidine and 5-methylthioadenosine Q5JIZ3 Q5JIZ3 1.84 X-RAY DIFFRACTION 172 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 353 353 5xnc-a1-m1-cA_5xnc-a1-m1-cB 5xnc-a2-m1-cC_5xnc-a2-m1-cD 5xnc-a4-m1-cG_5xnc-a4-m2-cG 5xnf-a1-m1-cA_5xnf-a1-m1-cB 5xnh-a1-m1-cH_5xnh-a1-m1-cA 6j26-a1-m1-cA_6j26-a1-m1-cB SHMREIIERVKEKTTIPVYERTIENVLSAIQASGDVWRIVDLSEEPLPLVVAVVTALYELGYVAFENNQVILTRKGKELVEKYGIGPRADYTCSHCQGRTVEIDAFSELLEQFKEITRDRPEPAHQFDQAYVTPETTVARVALMHSRGDLENKEVFVLGDDDLTSVALMLSGLPKRIAVLDIDERLTKFIEKAADEIGYENIEIFTFDLRKPLPDYALHKFDTFITDPPETVEAIRAFVGRGIATLKGPGCAGYFGITRRESSLDKWREIQRVLLNEFGVVITDIIRNFNEYVNWGYVEETRAWRLLPIKVKPSYNWYKSYMFRIQTLEGSKGFEDEITVGQELYDDEESSTT SHMREIIERVKEKTTIPVYERTIENVLSAIQASGDVWRIVDLSEEPLPLVVAVVTALYELGYVAFENNQVILTRKGKELVEKYGIGPRADYTCSHCQGRTVEIDAFSELLEQFKEITRDRPEPAHQFDQAYVTPETTVARVALMHSRGDLENKEVFVLGDDDLTSVALMLSGLPKRIAVLDIDERLTKFIEKAADEIGYENIEIFTFDLRKPLPDYALHKFDTFITDPPETVEAIRAFVGRGIATLKGPGCAGYFGITRRESSLDKWREIQRVLLNEFGVVITDIIRNFNEYVNWGYVEETRAWRLLPIKVKPSYNWYKSYMFRIQTLEGSKGFEDEITVGQELYDDEESSTT 5xne-a1-m1-cB_5xne-a1-m1-cA X-ray Crystal Structure of alpha-acetolactate decarboxylase from Bacillus subtilis strain 168 Q04777 Q04777 1.501 X-RAY DIFFRACTION 76 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 234 235 6j3d-a1-m1-cB_6j3d-a1-m1-cA SQIYQVSTMTSLLDGVYDGDFELSEIPKYGDFGIGTFNKLDGELIGFDGEFYRLRSDGTATPVQNGDRSPFCSFTFFTPDMTHKIDAKMTREDFEKEINSMLPSRNLFYAIRIDGLFKKVQTRTVELQEKPYVPMVEAVKTQPIFNFDNVRGTIVGFLTPAYANGIAVSGYHLHFIDEGRNSGGHVFDYVLEDCTVTISQKMNMNLRLPNTADFFNANLDNPDFAKDIETTEGS VSQIYQVSTMTSLLDGVYDGDFELSEIPKYGDFGIGTFNKLDGELIGFDGEFYRLRSDGTATPVQNGDRSPFCSFTFFTPDMTHKIDAKMTREDFEKEINSMLPSRNLFYAIRIDGLFKKVQTRTVELQEKPYVPMVEAVKTQPIFNFDNVRGTIVGFLTPAYANGIAVSGYHLHFIDEGRNSGGHVFDYVLEDCTVTISQKMNMNLRLPNTADFFNANLDNPDFAKDIETTEGS 5xnm-a1-m1-cM_5xnm-a1-m1-cm Structure of unstacked C2S2M2-type PSII-LHCII supercomplex from Pisum sativum P69529 P69529 3.2 ELECTRON MICROSCOPY 46 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 33 33 3jcu-a1-m1-cM_3jcu-a1-m1-cm 5mdx-a1-m1-cM_5mdx-a1-m1-cm 5xnl-a1-m1-cM_5xnl-a1-m1-cm 6yp7-a1-m1-cM_6yp7-a1-m1-cm 7oui-a1-m1-cM_7oui-a1-m1-cm MEVNILAFIATALFILVPTAFLLIIYVKTVSQS MEVNILAFIATALFILVPTAFLLIIYVKTVSQS 5xnp-a1-m1-cA_5xnp-a1-m1-cB Crystal structures of human SALM5 in complex with human PTPdelta Q96NI6 Q96NI6 3.729 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 361 361 5xnq-a1-m1-cA_5xnq-a1-m2-cA 5xws-a1-m1-cA_5xws-a1-m2-cA 5xwt-a1-m1-cB_5xwt-a1-m1-cD 6f2o-a1-m1-cA_6f2o-a1-m2-cA PGDPQICPKRCVCQILSPNLATLCAKKGLLFVPPNIDRRTVELRLADNFVTNIKRKDFANMTSLVDLTLSRNTISFITPHAFADLRNLRALHLNSNRLTKITNDMFSGLSNLHHLILNNNQLTLISSTAFDDVFALEELDLSYNNLETIPWDAVEKMVSLHTLSLDHNMIDNIPKGTFSHLHKMTRLDVTSNKLQKLPPDPLFQRAQVLATSGIISPSTFALSFGGNPLHCNCELLWLRRLSREDDLETCASPPLLTGRYFWSIPEEEFLCEPPLITRHTHEMRVLEGQRATLRCKARGDPEPAIHWISPEGKLISNATRSLVYDNGTLDILITTVKDTGAFTCIASNPAGEATQIVDLHI PGDPQICPKRCVCQILSPNLATLCAKKGLLFVPPNIDRRTVELRLADNFVTNIKRKDFANMTSLVDLTLSRNTISFITPHAFADLRNLRALHLNSNRLTKITNDMFSGLSNLHHLILNNNQLTLISSTAFDDVFALEELDLSYNNLETIPWDAVEKMVSLHTLSLDHNMIDNIPKGTFSHLHKMTRLDVTSNKLQKLPPDPLFQRAQVLATSGIISPSTFALSFGGNPLHCNCELLWLRRLSREDDLETCASPPLLTGRYFWSIPEEEFLCEPPLITRHTHEMRVLEGQRATLRCKARGDPEPAIHWISPEGKLISNATRSLVYDNGTLDILITTVKDTGAFTCIASNPAGEATQIVDLHI 5xns-a2-m1-cA_5xns-a2-m2-cA Crystal structure of the Smc head domain with an extended coiled coil bound to the C-terminal domain of ScpA derived from Pyrococcus furiosus Q8TZY2 Q8TZY2 2.01 X-RAY DIFFRACTION 80 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 398 398 MPYIEKLELKGFKSYGNKKVVIPFSKGFTAIVGANGSGKSNIGDAILFVLGGLSAKAMRASRISDLIFAGSKNEPPAKYAEVAIYFNNEDRGFPIDEDEVVIRRRVYPDGRSSYWLNGRRATRSEILDILTAAMISPDGYNIVLQGDITKFIKMSPLERRLLIDDISGIAEYDSKKEKALEELKQAEENLARVDLLIKEVKDFEIVERRYLELKSKREKLEAEKESIIEFINEIEKEKKNVFMRTFEAISRNFSEIFAKLSPGGSARLILENPEDPFSGGLEIEAKPAGKDVKRIEAMSGGEKALTALAFVFAIQKFKPAPFYLFDEIDAHLDDANVKRVADLIKESSKESQFIVITLRDVMMANADKIIGVSMRDGVSKVVSLSLEKAMKILEEIRK MPYIEKLELKGFKSYGNKKVVIPFSKGFTAIVGANGSGKSNIGDAILFVLGGLSAKAMRASRISDLIFAGSKNEPPAKYAEVAIYFNNEDRGFPIDEDEVVIRRRVYPDGRSSYWLNGRRATRSEILDILTAAMISPDGYNIVLQGDITKFIKMSPLERRLLIDDISGIAEYDSKKEKALEELKQAEENLARVDLLIKEVKDFEIVERRYLELKSKREKLEAEKESIIEFINEIEKEKKNVFMRTFEAISRNFSEIFAKLSPGGSARLILENPEDPFSGGLEIEAKPAGKDVKRIEAMSGGEKALTALAFVFAIQKFKPAPFYLFDEIDAHLDDANVKRVADLIKESSKESQFIVITLRDVMMANADKIIGVSMRDGVSKVVSLSLEKAMKILEEIRK 5xnx-a2-m1-cB_5xnx-a2-m1-cC Crystallographic structure of the enzymatically active N-terminal domain of the Rel protein from Mycobacterium tuberculosis P9WHG9 P9WHG9 3.7 X-RAY DIFFRACTION 64 0.991 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 316 316 LEPLVAVHREIYPKADLSILQRAYEVADQRYITHPLAVANILAELGMDTTTLVAALLHDTVEDTGYTLEALTEEFGEEVGHLVDVTKLDRVVRVLVIKVADRLHNMRTMRFLPPEKQARKARETLEVIAPLAHRLGMASVKWELEDLSFAILHPKKYEEIVRLVAGRAPSRDTYLAKVRAEIVNTLTASKIKATVEGRPKHYWSIYQKMIVKGRDFDDIHDLVGVRILCDEIRDCYAAVGVVHSLWQPMAGRFKDYIAQPRYGVYQSLHTTVVGPEGKPLEVQIRTRDMHRTAEYGIAAHWRYKAAEIDDMAWMRQ VLEPLVAVHREIYPKADLSILQRAYEVADQRYITHPLAVANILAELGMDTTTLVAALLHDTVEDTGYTLEALTEEFGEEVGHLVDGVTKLDRRVLVIKVADRLHNMRTMRFLPPEKQARKARETLEVIAPLAHRLGMASVKWELEDLSFAILHPKKYEEIVRLVAGRAPSRDTYLAKVRAEIVNTLTASKIKATVEGRPKHYWSIYQKMIVKGRDFDDIHDLVGVRILCDEIRDCYAAVGVVHSLWQPMAGRFKDYIAQPRYGVYQSLHTTVVGPEGKPLEVQIRTRDMHRTAEYGIAAHWRYKEAEIDDMAWMRQ 5xo0-a1-m1-cA_5xo0-a1-m1-cB Crystal structure of the isochorismatase domain of AngB from Vibrio anguillarum 775 Q6W4P9 Q6W4P9 1.85 X-RAY DIFFRACTION 46 1.0 882102 (Vibrio anguillarum 775) 882102 (Vibrio anguillarum 775) 209 209 5gle-a1-m1-cA_5gle-a1-m1-cB AMAIPKIASYQVLPLESFPTNKVDWVIDPKKSVVLVHDLQAYFLNFFDKTLSPVPELLRNVNKVTESARSAGIPVVYTAQPANQDPNERALLTDFWGVGLTQDTEIVPEVSPQPEDIQYTKWRYSAFKKTPLLEWMKEEQRDQLVIVGVYGHIGILSTALDAFMLDIKPFVIGDAIADFSKEDHMNTLKYVASRSGSVKSVDEFIDSVT AMAIPKIASYQVLPLESFPTNKVDWVIDPKKSVVLVHDLQAYFLNFFDKTLSPVPELLRNVNKVTESARSAGIPVVYTAQPANQDPNERALLTDFWGVGLTQDTEIVPEVSPQPEDIQYTKWRYSAFKKTPLLEWMKEEQRDQLVIVGVYGHIGILSTALDAFMLDIKPFVIGDAIADFSKEDHMNTLKYVASRSGSVKSVDEFIDSVT 5xo1-a2-m1-cC_5xo1-a2-m1-cD Crystal structure of the isochorismatase domain of VabB from Vibrio anguillarum 775 Q5DK16 Q5DK16 2.23 X-RAY DIFFRACTION 52 1.0 882102 (Vibrio anguillarum 775) 882102 (Vibrio anguillarum 775) 203 206 5wxv-a1-m1-cA_5wxv-a1-m1-cF 5wxv-a2-m1-cB_5wxv-a2-m1-cK 5wxv-a3-m1-cC_5wxv-a3-m1-cD 5wxv-a4-m1-cE_5wxv-a4-m1-cL 5wxv-a5-m1-cG_5wxv-a5-m1-cH 5wxv-a6-m1-cI_5wxv-a6-m1-cJ 5xo1-a1-m1-cA_5xo1-a1-m1-cB 5xo1-a3-m1-cF_5xo1-a3-m1-cE KIASYSIPLAETFPKNKVHWHVQADRAVLLIHDMQKYFINFFDHSQAPVPELLANISELKSLARQANIPVVYTAQPPNQDPIERALLTDFWGTGLTKDTEIVSELSPEDGDIQYTKWRYSAFKKTPLLERMKETQRDQLIIVGVYAHIGILSTALDAFMLDIQPFVVGDAVADFSLEDHHHTLKYITERVGCVTSLEALKPQM AIPKIASYSIPLAETFPKNKVHWHVQADRAVLLIHDMQKYFINFFDHSQAPVPELLANISELKSLARQANIPVVYTAQPPNQDPIERALLTDFWGTGLTKDTEIVSELSPEDGDIQYTKWRYSAFKKTPLLERMKETQRDQLIIVGVYAHIGILSTALDAFMLDIQPFVVGDAVADFSLEDHHHTLKYITERVGCVTSLEALKPQM 5xo9-a1-m1-cA_5xo9-a1-m1-cB Thanatin in presence of LPS P55788 P55788 NOT SOLUTION NMR 22 1.0 29025 (Podisus maculiventris) 29025 (Podisus maculiventris) 21 21 GSKKPVPIIYCNRRTGKCQRM GSKKPVPIIYCNRRTGKCQRM 5xoa-a1-m1-cA_5xoa-a1-m1-cB Thanatin M21F in complex with LPS P55788 P55788 NOT SOLUTION NMR 12 1.0 29025 (Podisus maculiventris) 29025 (Podisus maculiventris) 21 21 GSKKPVPIIYCNRRTGKCQRF GSKKPVPIIYCNRRTGKCQRF 5xoh-a1-m1-cA_5xoh-a1-m2-cA Crystal structure of bergaptol o-methyltransferase complex A0A166U5H3 A0A166U5H3 2.2 X-RAY DIFFRACTION 293 1.0 312531 (Kitagawia praeruptora) 312531 (Kitagawia praeruptora) 348 348 PSQDEEACVLAIQLATSTVLPMILKSAIELDILNTISKAGPGNYLSPSDLASKLLMSNPHAPIMLERILRVLATYKVLGCKPSELSDGEVEWLYCWTPVCKFLSNNEDGASIAPLLLVHQDQVPMKSWYHLTDAILDGGTAFNKAYGMNIFDYASQDPQFNKVFNRSMAGHSTITMKKILETYNGFEGLKSIVDVGGGSGATLNMIISKYPTIKGINFDLPHVVGDSPIHPGVEHVGGDMFASVPKGDAIFLKWIFHSWSDEDCLRILKNCYEALADNKKVIVAEFIIPEVPGGSDDATKSVVHLDAVMLAYVPGGKERTEKEFEALATSAGFKSFRKVCCAFNTWIM PSQDEEACVLAIQLATSTVLPMILKSAIELDILNTISKAGPGNYLSPSDLASKLLMSNPHAPIMLERILRVLATYKVLGCKPSELSDGEVEWLYCWTPVCKFLSNNEDGASIAPLLLVHQDQVPMKSWYHLTDAILDGGTAFNKAYGMNIFDYASQDPQFNKVFNRSMAGHSTITMKKILETYNGFEGLKSIVDVGGGSGATLNMIISKYPTIKGINFDLPHVVGDSPIHPGVEHVGGDMFASVPKGDAIFLKWIFHSWSDEDCLRILKNCYEALADNKKVIVAEFIIPEVPGGSDDATKSVVHLDAVMLAYVPGGKERTEKEFEALATSAGFKSFRKVCCAFNTWIM 5xok-a1-m1-cA_5xok-a1-m1-cB Thanatin Y10M21AA in complex with LPS P55788 P55788 NOT SOLUTION NMR 30 1.0 29025 (Podisus maculiventris) 29025 (Podisus maculiventris) 21 21 GSKKPVPIIACNRRTGKCQRA GSKKPVPIIACNRRTGKCQRA 5xol-a1-m1-cA_5xol-a1-m1-cB Thanatin R13R14AA in complex with LPS P55788 P55788 NOT SOLUTION NMR 19 1.0 29025 (Podisus maculiventris) 29025 (Podisus maculiventris) 21 21 GSKKPVPIIYCNAATGKCQRM GSKKPVPIIYCNAATGKCQRM 5xom-a1-m1-cA_5xom-a1-m1-cB Hydra Fam20 T2MHS6 T2MHS6 2.2 X-RAY DIFFRACTION 49 1.0 6087 (Hydra vulgaris) 6087 (Hydra vulgaris) 351 351 5xoo-a1-m1-cA_5xoo-a1-m1-cB EYFNIHAWDVWHDMISVRALTVDSDVEIYKVLKAMSSAKITQATTGYKGTQLKAMFSLDGPQIQNVVFKPKRYSRNKIILGTPYEGYDRHNAEIAAFHLDRLLGFYRAPPVVGRYINLAAEVLPVAAKKLATTFIKDKDENLCFYGKCLYCNRKEPACASNVTMEGALILWLPEKWPVLKLPHPWRRTYNKKMAKWETDSHYCESVVIKEPYTKGPRLLDLIDTSIFDFLIGNADRHHYEYIENENGSMVIHLDNAKSFGNPFVDEKSILSPLVQCCRLRSSTYNRLKIATSNENSLSVLLDKRLSIDPIYPILTSDHLLALDRRLLLVQDAVEKCFKEKNKENVIIEDHL EYFNIHAWDVWHDMISVRALTVDSDVEIYKVLKAMSSAKITQATTGYKGTQLKAMFSLDGPQIQNVVFKPKRYSRNKIILGTPYEGYDRHNAEIAAFHLDRLLGFYRAPPVVGRYINLAAEVLPVAAKKLATTFIKDKDENLCFYGKCLYCNRKEPACASNVTMEGALILWLPEKWPVLKLPHPWRRTYNKKMAKWETDSHYCESVVIKEPYTKGPRLLDLIDTSIFDFLIGNADRHHYEYIENENGSMVIHLDNAKSFGNPFVDEKSILSPLVQCCRLRSSTYNRLKIATSNENSLSVLLDKRLSIDPIYPILTSDHLLALDRRLLLVQDAVEKCFKEKNKENVIIEDHL 5xop-a1-m1-cF_5xop-a1-m1-cB Crystal Structure of N-terminal domain EhCaBP1 EF-2 mutant M3TKH6 M3TKH6 1.9 X-RAY DIFFRACTION 14 1.0 885319 (Entamoeba histolytica HM-1:IMSS-B) 885319 (Entamoeba histolytica HM-1:IMSS-B) 65 66 5xop-a1-m1-cC_5xop-a1-m1-cE MAEALFKEIDVNGDGAVSYEEVKAFVSKKRAIKNEQLLQLIFKSIDKDGDGFIDFEEFAKFYGSI MAEALFKEIDVNGDGAVSYEEVKAFVSKKRAIKNEQLLQLIFKSIDKDGDGFIDFEEFAKFYGSIA 5xoq-a1-m1-cA_5xoq-a1-m1-cB Crystal structure of O-Acetylserine Sulfhydrylase with bound Transcription Factor peptide inhibitor from Planctomyces limnophilus D5STP0 D5STP0 1.87 X-RAY DIFFRACTION 179 1.0 521674 (Planctopirus limnophila DSM 3776) 521674 (Planctopirus limnophila DSM 3776) 309 309 5xa2-a1-m1-cA_5xa2-a1-m1-cB HMPIFKDNSESIGRTPLVQINRLTAGLSSRVLAKIEGRNPAYSVCRIGAAMIWDAEQSGKLKPGMHVVEPTSGNTGIALAFVCAARGYKLTLTMPETMSIERRMMLKSFGADLVLTPGADGMKGAISKAEELAAQPGWFIPQQFKNPANPAIHVKTTGPEIWNDTEGQVDVFVAGVGTGGTITGVARFLKHEKKHPVHVVAVEPAASPVLAGGPAGRHKIQGIGAGFVPDTFDRSVVDEILSVTDDEAIETARKLAMEEGISCGISCGAAMAGALKVAARPEFAGKTIVTVLPDAGERYLSTALFENLR HMPIFKDNSESIGRTPLVQINRLTAGLSSRVLAKIEGRNPAYSVCRIGAAMIWDAEQSGKLKPGMHVVEPTSGNTGIALAFVCAARGYKLTLTMPETMSIERRMMLKSFGADLVLTPGADGMKGAISKAEELAAQPGWFIPQQFKNPANPAIHVKTTGPEIWNDTEGQVDVFVAGVGTGGTITGVARFLKHEKKHPVHVVAVEPAASPVLAGGPAGRHKIQGIGAGFVPDTFDRSVVDEILSVTDDEAIETARKLAMEEGISCGISCGAAMAGALKVAARPEFAGKTIVTVLPDAGERYLSTALFENLR 5xor-a2-m1-cC_5xor-a2-m1-cB Crystal structure of N-terminal replicase protein of porcine circovirus type 2 A9YPG7 A9YPG7 2.699 X-RAY DIFFRACTION 42 0.99 85708 (Porcine circovirus 2) 85708 (Porcine circovirus 2) 99 101 5xor-a1-m1-cE_5xor-a1-m1-cA PQPHKRWVFTLNNPSEDERKKIRDLPISLFDYFIVGEEGNRTPHLQGFANFVKKQTFNKVKWYLGARCHIEKAKGTDQQNKEYCSKEGNLLIECGAPRS QPHKRWVFTLNNPSEDERKKIRDLPISLFDYFIVGEEGNEEGRTPHLQGFANFVKKQTFNKVKWYLGARCHIEKAKGTDQQNKEYCSKEGNLLIECGAPRS 5xou-a1-m1-cA_5xou-a1-m1-cB Crystal structure of T. thermophilus Argonaute protein complexed with a bulge 7T8 on the guide strand Q746M7 Q746M7 2.63 X-RAY DIFFRACTION 85 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 564 574 LGKTEVFLNRFALRPLNPEELRPWRLEVVLDPPPGREEVYPLLAQVARRAGGVTVRMGDGLASWSPPEVLVLEGTLARMGQTYAYRLYPKGRRPLDPKDPGERSVLSALARRLLQERLRRLEGVWVEGLAVYRREVLGGAVLDLWVSDSGAFLLEVDPALPWEERRRRTREIASWIGRRLGLGTPEAVRAQAYRLSIPKLMGRRAVSKPADALRVGFYRAQETALALLRLDGAQGWPEFLRRALLRAFGASGASLRLHTLHAHPSQGLAFREALRKAKEEGVQAVLVLTPPMAWEDRNRLKALLLREGLPSQILNVPLREEERHRWENALLGLLAKAGLQVVALSGAYPAELAVGFDAGGRESFRFGGAACAVGGDGGHLLWTLPEAQAGERIPQEVVWDLLEETLWAFRRKAGRLPSRVLLLRNGRVPQDEFALALEALAREGIAYDLVSVRKSGGGRVYPVQGRLADGLYVPLEDKTFLLLTVHRDFRGTPRPLKLVHEAGDTPLEALAHQIFHLTRLYPASGFAFPRLPAPLHLADRLVKEVGRLGIRHLKEVDREKLFFV LGKTEVFLNRFALRPLNPEELRPWRLEVVLDPPPGREEVYPLLAQVARRAGGVTVRMGDGLASWSPPEVLVLEGTLARMGQTYAYRLYPKGRRPLDPKDPGERSVLSALARRLLQERLRRLEGVWVEGLAVYRREGWRVLGGAVLDLWVSDSGAFLLEVDPAYRILCLSLPWEERRRRTREIASWIGRRLGLGTPEAVRAQAYRLSIPKLMGRRAVSKPADALRVGFYRAQETALALLRLDGAQGWPEFLRRALLRAFGASGASLRLHTLHAHPSQGLAFREALRKAKEEGVQAVLVLTPPMAWEDRNRLKALLLREGLPSQILNVPLREEERHRWENALLGLLAKAGLQVVALSGAYPAELAVGFDAGGRESFRFGGAACAVGGDGGHLLWTLPEAQAGERIPQEVVWDLLEETLWAFRRKAGRLPSRVLLLRNGRVPQDEFALALEALAREGIAYDLVSVRKSGGGRVYPVQGRLADGLYVPLEDKTFLLLTVHRDFRGTPRPLKLVHEAGDTPLEALAHQIFHLTRLYPASGFAFPRLPAPLHLADRLVKEVGRLGIRHLKEVDREKLFFV 5xox-a1-m1-cA_5xox-a1-m1-cD Crystal structure of tRNA(His) guanylyltranserase from Saccharomyces cerevisiae P53215 P53215 3 X-RAY DIFFRACTION 23 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 229 229 5xox-a1-m1-cB_5xox-a1-m1-cC KFGYVRQFETHDVILPQCYIVVRIDGKKFHEFSKFYEFAKPNDENALKLMNACAKNLVLKYKNDIILAFGESDEYSFILKSSTTLFNRRKDKLATLFGSFFTSNYVALWAKFFPEKPLNIKHLPYFDSRCVAYPNLQTIKDYLSWRYVDTHINNLYNTTFWQLIIKCGLTPQESEKKLCGTFSNEKQEILFSECGINYNNEPEMFKKGSLVTRKGEILHINVIAQIDEL KFGYVRQFETHDVILPQCYIVVRIDGKKFHEFSKFYEFAKPNDENALKLMNACAKNLVLKYKNDIILAFGESDEYSFILKSSTTLFNRRKDKLATLFGSFFTSNYVALWAKFFPEKPLNIKHLPYFDSRCVAYPNLQTIKDYLSWRYVDTHINNLYNTTFWQLIIKCGLTPQESEKKLCGTFSNEKQEILFSECGINYNNEPEMFKKGSLVTRKGEILHINVIAQIDEL 5xox-a2-m1-cE_5xox-a2-m2-cE Crystal structure of tRNA(His) guanylyltranserase from Saccharomyces cerevisiae P53215 P53215 3 X-RAY DIFFRACTION 141 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 229 229 5xox-a1-m1-cA_5xox-a1-m1-cB 5xox-a1-m1-cC_5xox-a1-m1-cD KFGYVRQFETHDVILPQCYIVVRIDGKKFHEFSKFYEFAKPNDENALKLMNACAKNLVLKYKNDIILAFGESDEYSFILKSSTTLFNRRKDKLATLFGSFFTSNYVALWAKFFPEKPLNIKHLPYFDSRCVAYPNLQTIKDYLSWRYVDTHINNLYNTTFWQLIIKCGLTPQESEKKLCGTFSNEKQEILFSECGINYNNEPEMFKKGSLVTRKGEILHINVIAQIDEL KFGYVRQFETHDVILPQCYIVVRIDGKKFHEFSKFYEFAKPNDENALKLMNACAKNLVLKYKNDIILAFGESDEYSFILKSSTTLFNRRKDKLATLFGSFFTSNYVALWAKFFPEKPLNIKHLPYFDSRCVAYPNLQTIKDYLSWRYVDTHINNLYNTTFWQLIIKCGLTPQESEKKLCGTFSNEKQEILFSECGINYNNEPEMFKKGSLVTRKGEILHINVIAQIDEL 5xox-a2-m1-cF_5xox-a2-m2-cF Crystal structure of tRNA(His) guanylyltranserase from Saccharomyces cerevisiae P53215 P53215 3 X-RAY DIFFRACTION 53 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 80 80 VRQFETHDVILPQCYIVVKFEFSKFYEFVLKYKNDIILKSSTTLFNRRKDKLALFFTSNCVAYPNLQTIKDYLSWRYVDT VRQFETHDVILPQCYIVVKFEFSKFYEFVLKYKNDIILKSSTTLFNRRKDKLALFFTSNCVAYPNLQTIKDYLSWRYVDT 5xoy-a1-m1-cA_5xoy-a1-m2-cB Crystal structure of LysK from Thermus thermophilus in complex with Lysine Q8VUS5 Q8VUS5 2.39 X-RAY DIFFRACTION 62 0.997 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 341 349 5xoy-a1-m2-cA_5xoy-a1-m1-cB LDPVEFLKGALEIPSPSGKERLVAEYLAEGMQKLGLKGFVDEADNARGQVGEGPVQVVLLGHIDTVPGQIPVRLEGGRLFGRGAVDAKGPFVAMIFAAAGLSEEARKRLTVHLVGATEEEAPSSKGARFVAPRLKPHYAVIGEPSGWEGITLGYKGRLLVKARREKDHEPNAAEELISYFVAIKAWAEAMNVGQRPFDQVQYTLRDFRVHPRQVAEMFFDLRLPPRLPPEEAIRHLTAYAPPTIELEFFGREVPYQGPKDTPLTRAFRQAIRKAGGRPVFKLKTGTSDMNVLAPHWPVPMVAYGPGDSTLDHTPYEHVEVAEFLKGIEVLRGALEALAQTH LDPVEFLKGALEIPSPSGKERLVAEYLAEGMQKLGLKGFVDEADNARGQVGEGPVQVVLLGHIDTVPGQIPVRLEGGRLFGRGAVDAKGPFVAMIFAAAGLSEEARKRLTVHLVGATEEEAPSSKGARFVAPRLKPHYAVIGEPSGWEGITLGYKGRLLVKARREKDHFHSAHHEPNAAEELISYFVAIKAWAEAMNVGQRPFDQVQYTLRDFRVHPAELRQVAEMFFDLRLPPRLPPEEAIRHLTAYAPPTIELEFFGREVPYQGPKDTPLTRAFRQAIRKAGGRPVFKLKTGTSDMNVLAPHWPVPMVAYGPGDSTLDHTPYEHVEVAEFLKGIEVLRGALEALAQT 5xoy-a1-m2-cA_5xoy-a1-m2-cB Crystal structure of LysK from Thermus thermophilus in complex with Lysine Q8VUS5 Q8VUS5 2.39 X-RAY DIFFRACTION 68 0.997 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 341 349 5xoy-a1-m1-cA_5xoy-a1-m1-cB LDPVEFLKGALEIPSPSGKERLVAEYLAEGMQKLGLKGFVDEADNARGQVGEGPVQVVLLGHIDTVPGQIPVRLEGGRLFGRGAVDAKGPFVAMIFAAAGLSEEARKRLTVHLVGATEEEAPSSKGARFVAPRLKPHYAVIGEPSGWEGITLGYKGRLLVKARREKDHEPNAAEELISYFVAIKAWAEAMNVGQRPFDQVQYTLRDFRVHPRQVAEMFFDLRLPPRLPPEEAIRHLTAYAPPTIELEFFGREVPYQGPKDTPLTRAFRQAIRKAGGRPVFKLKTGTSDMNVLAPHWPVPMVAYGPGDSTLDHTPYEHVEVAEFLKGIEVLRGALEALAQTH LDPVEFLKGALEIPSPSGKERLVAEYLAEGMQKLGLKGFVDEADNARGQVGEGPVQVVLLGHIDTVPGQIPVRLEGGRLFGRGAVDAKGPFVAMIFAAAGLSEEARKRLTVHLVGATEEEAPSSKGARFVAPRLKPHYAVIGEPSGWEGITLGYKGRLLVKARREKDHFHSAHHEPNAAEELISYFVAIKAWAEAMNVGQRPFDQVQYTLRDFRVHPAELRQVAEMFFDLRLPPRLPPEEAIRHLTAYAPPTIELEFFGREVPYQGPKDTPLTRAFRQAIRKAGGRPVFKLKTGTSDMNVLAPHWPVPMVAYGPGDSTLDHTPYEHVEVAEFLKGIEVLRGALEALAQT 5xp0-a1-m1-cA_5xp0-a1-m1-cB Crystal structure of master biofilm regulator CsgD regulatory domain O54294 O54294 2 X-RAY DIFFRACTION 62 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 132 137 HTLLLITKPSLQATALLQHLKQSLAITGKLHNIQRSLEDISAGCIVLMDMMEADKKLIHYWQDNLSRKNNNIKTLLLNTPDDYPYREIENWPHINGVFYATEDQEHVVSGLQGILRGECYFSQKLASYLITH HSSHGHTLLLITKPSLQATALLQHLKQSLAITGKLHNIQRSLEDISAGCIVLMDMMEADKKLIHYWQDNLSRKNNNIKTLLLNTPDDYPYREIENWPHINGVFYATEDQEHVVSGLQGILRGECYFSQKLASYLITH 5xpv-a1-m1-cA_5xpv-a1-m1-cB Structure of the V domain of amphioxus IgVJ-C2 C3ZN36 C3ZN36 1.9 X-RAY DIFFRACTION 61 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 100 100 VSHQQGQSHLFECDYPISADTYVINWYKDGTSVMNYLSGGEPAFTEDLDDRTDVQFVNNRNLEITNLRVSDEGEYYCSVIEIGAGGQSGDGTRYQLVVFV VSHQQGQSHLFECDYPISADTYVINWYKDGTSVMNYLSGGEPAFTEDLDDRTDVQFVNNRNLEITNLRVSDEGEYYCSVIEIGAGGQSGDGTRYQLVVFV 5xpw-a1-m1-cA_5xpw-a1-m2-cA Structure of amphioxus IgVJ-C2 molecule C3ZN36 C3ZN36 2.003 X-RAY DIFFRACTION 66 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 180 180 VSHQQGQSHLFECDYPISADTYVINWYKDGTSVMNYLSGGEPAFTEDLDDRTDVQFVNNRNLEITNLRVSDEGEYYCSVIEIGAGGQSGDGTRYQLVVFVPPTITLMGGPYEVEVGEMMMSTCRANSHPPSNFTWTLPNGNVTQGAVLEITNMTQAEIGTYMCTADNGYGTDYESVDITM VSHQQGQSHLFECDYPISADTYVINWYKDGTSVMNYLSGGEPAFTEDLDDRTDVQFVNNRNLEITNLRVSDEGEYYCSVIEIGAGGQSGDGTRYQLVVFVPPTITLMGGPYEVEVGEMMMSTCRANSHPPSNFTWTLPNGNVTQGAVLEITNMTQAEIGTYMCTADNGYGTDYESVDITM 5xpx-a1-m1-cE_5xpx-a1-m1-cA Structure elucidation of truncated AMS3 lipase from an Antarctic Pseudomonas A0A0K0PTR1 A0A0K0PTR1 2.77 X-RAY DIFFRACTION 22 1.0 1680634 (Pseudomonas sp. A3(2015c)) 1680634 (Pseudomonas sp. A3(2015c)) 381 384 DAPIVLLHGFTGWGREEMFGFKYWGGVRGDIEQWLNDNGYRTYTLAVGPLSSNWDRACEAYAQLVGGTVDYGAAHAAKHGHARFGRTYPGLLPELKRGGRIHIIAHSQGGQTARMLVSLLENGSQEEREYAKAHNVSLSPLFEGGHHFVLSVTTIATPHDGTTLVNMVDFTDRFFDLQKAVLEAAAVASNVPYTSQVYDFKLDQWGLRRQPGESFDHYFERLKRSPVWTSTDTARYDLSVSGAEKLNQWVQASPNTYYLSFSTERTYRGALTGNHYPELGMNAFSAVVCAPFLGSYRNPTLGIDDRWLENDGIVNTVSMNGPKRGSSDRIVPYDGTLKKGVWNDMGTYNVDHLEIIGVDPNPSFDIRAFYLRLAEQLASLR RANDAPIVLLHGFTGWGREEMFGFKYWGGVRGDIEQWLNDNGYRTYTLAVGPLSSNWDRACEAYAQLVGGTVDYGAAHAAKHGHARFGRTYPGLLPELKRGGRIHIIAHSQGGQTARMLVSLLENGSQEEREYAKAHNVSLSPLFEGGHHFVLSVTTIATPHDGTTLVNMVDFTDRFFDLQKAVLEAAAVASNVPYTSQVYDFKLDQWGLRRQPGESFDHYFERLKRSPVWTSTDTARYDLSVSGAEKLNQWVQASPNTYYLSFSTERTYRGALTGNHYPELGMNAFSAVVCAPFLGSYRNPTLGIDDRWLENDGIVNTVSMNGPKRGSSDRIVPYDGTLKKGVWNDMGTYNVDHLEIIGVDPNPSFDIRAFYLRLAEQLASLR 5xpz-a1-m1-cB_5xpz-a1-m1-cA Structural basis of kindlin-mediated integrin recognition and activation Q8CIB5 Q8CIB5 2.601 X-RAY DIFFRACTION 144 0.997 10090 (Mus musculus) 10090 (Mus musculus) 391 404 5xq0-a1-m1-cB_5xq0-a1-m1-cA 5xq1-a1-m1-cB_5xq1-a1-m1-cA LSVHVTDLNRDVTLRVTGEVHIGGVMLKLVEKLDVKKDWSDHALWWEKKRTWLLKTHWTLDKCGIQADAKLQFTPQHKLLRLQLPNMKYVKVKVNFSDRVFKAVSDICKTFNIRHPEELSLLKKPGILAVSQPVTSPEILAKMFKPQALLDKAKTNQGWLDSSRSLMEQDVKENEALLLRFKYYSFFDLNPKYDAIRINQLYEQAKWALLLEEIECTEEEMMMFAALQYHINKLSIMTSENHLTTDVNPECLVSPRYLKKYKSKQITARILEAHQNVAQMSLIEAKMRFIQAWQSLPEFGITHFIARFQGGKREELIGIAYNRLIRMDASTGDAIKTWRFSNMKQWNVNWEIKMVTVEFADEVRLSFICTEVDCKVVHEFIGGYIFLSTRA WELSVHVTDLNRDVTLRVTGEVHIGGVMLKLVEKLDVKKDWSDHALWWEKKRTWLLKTHWTLDKCGIQADAKLQFTPQHKLLRLQLPNMKYVKVKVNFSDRVFKAVSDICKTFNIRHPEELSLLKKGILAVSQPVTSPEILAKMFKPQALLDKAKTNQGWLDSSRSLMEQDVKENEALLLRFKYYSFFDLNPKYDAIRINQLYEQAKWALLLEEIECTEEEMMMFAALQYHINKLSIMTSENHLTTDVNPECLVSPRYLKKYKSKQITARILEAHQNVAQMSLIEAKMRFIQAWQSLPEFGITHFIARFQGGKREELIGIAYNRLIRMDASTGDAIKTWRFSNMKQWNVNWEIKMVTVEFADEVRLSFICTEVDCKVVHEFIGGYIFLSTRASLDEEMFYKLTS 5xqg-a4-m1-cG_5xqg-a4-m1-cF Crystal structure of a PL 26 exo-rhamnogalacturonan lyase from Penicillium chrysogenum complexed with unsaturated galacturonosyl rhamnose B6H7Q7 B6H7Q7 2.74 X-RAY DIFFRACTION 346 0.998 5076 (Penicillium chrysogenum) 5076 (Penicillium chrysogenum) 888 900 5xq3-a1-m1-cB_5xq3-a1-m1-cA 5xqg-a1-m1-cD_5xqg-a1-m1-cA 5xqg-a2-m1-cC_5xqg-a2-m1-cB 5xqg-a3-m1-cH_5xqg-a3-m1-cE 5xqj-a1-m1-cD_5xqj-a1-m1-cA 5xqj-a2-m1-cC_5xqj-a2-m1-cB 5xqj-a3-m1-cH_5xqj-a3-m1-cE 5xqj-a4-m1-cG_5xqj-a4-m1-cF 5xqo-a1-m1-cB_5xqo-a1-m1-cA FNCTSSSATVHWLGDKPTYHAGVTFGLPWPQGKYRPQETSFSLTGDTELQSWATGYWADGSLKWTAHAIAESNQIYDQYTVTASSLGCVSSIVVTDNSDALTVNTGEVAVSFPKGGNVIIGDIKTKSGKVIGANGRLVLQSQDSVPDNFDNRANSPIQYSNFDGNINEVFVNQTSARTLVTVRGNHTVTDGTDHDPWLPFVVRFYLYANSATIKVMHSIVFDGDENDFITGLGIRFDVPLKGEEYYDRHIRFAGVDGGIFNEAVQGITGLRRDPGEEIRAAQFAGQKLADTETWEPRVSTRLKWIPTWADYGLTQLTADGFGLKKRTKAGQSWVNIPSGTRAEGLAYLGGATQGGLAVGLRDFWKRYPVGLDISNAASDTGELTLWLYSPAAEPLDLRPFHDGLGQDGYEDQLDALEITYEDWEPGFDTPYGIARTSEVYLFAFDQTPTSDKLASLTAYMNDPPVLVAEPKYIHETQALGEYWALPGSSPAAATLEDRLQFIFDFYKGQIEQRRWYGFLDYGDFMHTYDPDRHTWRYDVGGYAWDNSELSPDLFFWLYFLRTGSKDAYRFAEALTRHTGEVDVYHIGDWKGLGTRHGVQHWSDSAKQARISQPQYRKYFFYLSGGDERVGELLEELLDTDKTYGELDPQRKVRTDGWEPSPNSTVSFGLGTDWSGLAAGWLIEWERRGPRWEEAKTKLTNTIAGIANLTNGFVTGSGLYDPVTWTLGPPPSDPGNRGNVSISHLNAVFGLPEVVSEAIAYLADDIPKGFKQAWLDYCYYYHASASEQKDRYGVSFSKISLLQAHSRLAAYAAYETKNKTLALRAWKDFYASDGLLPDAPWNITHVDGSDVLVPVDEAAWLATNDIAQYGLAVIQNLAYVSDSLDDYQS NCTSSSATVHWLGDKPTYHAGVTFGLPWPQGKYRPQETSFSLTGDELQSWATGYWADGSLKWTAHAIAESNQIYDQYTVTASSLGCVKSSSSSSESSAPNSSIVVTDNSDALTVNTGEVAVSFPKGGNVIIGDIKTKSGKVIGANGRLVLQSQDSVPDNFDNRANSPIQYSNFDGNINEVFVNQTSARTLVTVRGNHTVTDGTDHDPWLPFVVRFYLYANSATIKVMHSIVFDGDENDFITGLGIRFDVPLKGEEYYDRHIRFAGVDGGIFNEAVQGITGLRRDPGEEIRAAQFAGQKLADTETWEPRVSTRLKWIPTWADYGLTQLTADGFGLKKRTKAGQSWVNIPSGTRAEGLAYLGGATQGGLAVGLRDFWKRYPVGLDISNAASDTGELTLWLYSPAAEPLDLRPFHDGLGQDGYEDQLDALEITYEDWEPGFDTPYGIARTSEVYLFAFDQTPTSDKLASLTAYMNDPPVLVAEPKYIHETQALGEYWALPGSASPAAATLEDRLQFIFDFYKGQIEQRRWYGFLDYGDFMHTYDPDRHTWRYDVGGYAWDNSELSPDLFFWLYFLRTGSKDAYRFAEALTRHTGEVDVYHIGDWKGLGTRHGVQHWSDSAKQARISQPQYRKYFFYLSGGDERVGELLEELLDTDKTYGELDPQRKVRTDGWEPSPNSTVSFGLGTDWSGLAAGWLIEWERRGPRWEEAKTKLTNTIAGIANLTNGFVTGSGLYDPVTWTLGPPPSDPGNRGNVSISHLNAVFGLPEVVSEAIAYLADDIPKGFKQAWLDYCYYYHASASEQKDRYGVSFSKISLLQAHSRLAAYAAYETKNKTLALRAWKDFYASDGLLPDAPWNITHVDGSDVLVPVDEAAWLATNDIAQYGLAVIQNLAYVSDSLDDYQS 5xqr-a1-m1-cB_5xqr-a1-m1-cA Crystal structure of Notched-fin eelpout type III antifreeze protein A20V mutant (NFE6, AFP), C2221 form Q53UJ4 Q53UJ4 1.3 X-RAY DIFFRACTION 23 1.0 291231 (Zoarces elongatus) 291231 (Zoarces elongatus) 61 64 GESVVATQLIPINTALTPVMMEGKVTNPSGIPFAEMSQIVGKQVNTPVAKGQTLMPGMVKT GESVVATQLIPINTALTPVMMEGKVTNPSGIPFAEMSQIVGKQVNTPVAKGQTLMPGMVKTYVP 5xr3-a3-m1-cF_5xr3-a3-m1-cE SAV0551 with glyoxylate P64312 P64312 3.01 X-RAY DIFFRACTION 59 0.996 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 283 284 5xr2-a1-m1-cB_5xr2-a1-m1-cA 5xr2-a2-m1-cD_5xr2-a2-m1-cC 5xr2-a3-m1-cF_5xr2-a3-m1-cE 5xr2-a4-m1-cH_5xr2-a4-m1-cG 5xr3-a1-m1-cA_5xr3-a1-m1-cB 5xr3-a2-m1-cD_5xr3-a2-m1-cC 5xr3-a4-m1-cH_5xr3-a4-m1-cG ELSKQPTPDKAEDNAFFPSPYSLSQYTAPKTDFDGVEHKGAYKDGKWKVLMIAAEERYVLLENGKMFSTGNHPVEMLLPLHHLMEAGFDVDVATLSGYPVKLELWAMPTEDEAVISTYNKLKEKLKQPKKLADVIKNELGPDSDYLSVFIPGGHAAVVGISESEDVQQTLDWALDNDRFIVTLHGPAALLSAGLNREKSPLEGYSVCVFPDSLDEGANIEIGYLPGRLKWLVADLLTKQGLKVVNDDMTGRTLKDRKLLTGDSPLASNELGKLAVNEMLNAIQ LSKQPTPDKAEDNAFFPSPYSLSQYTAPKTDFDGVEHKGAYKDGKWKVLMIAAEERYVLLENGKMFSTGNHPVEMLLPLHHLMEAGFDVDVATLSGYPVKLELWAMPTEDEAVISTYNKLKEKLKQPKKLADVIKNELGPDSDYLSVFIPGGHAAVVGISESEDVQQTLDWALDNDRFIVTLHGPAALLSAGLNREKSPLEGYSVCVFPDSLDEGANIEIGYLPGRLKWLVADLLTKQGLKVVNDDMTGRTLKDRKLLTGDSPLASNELGKLAVNEMLNAIQNK 5xrc-a2-m1-cC_5xrc-a2-m2-cC A Trimodular GH5_4 Subfamily Endoglucanase Structure with Large Unit Cell D4P8C6 D4P8C6 2.9 X-RAY DIFFRACTION 69 1.0 739140 (Bacillus sp. BG-CS10) 739140 (Bacillus sp. BG-CS10) 532 532 5xrc-a1-m1-cB_5xrc-a1-m1-cA KQTDIQSYVADMQPGWNLGNTFDAVGDDETAWGNPRVTRELIKTIADEGYKSIRIPVTWENQMGNAPDYTINEDFFSRVEQVIDWALEEDLYVMLNLHHDSWLWIYNMEHNYDEVMAKYTALWEQLSERFQGHSHKLMFESVNEPRFTRDWGEIQENHHAFLEELNTAFYHIVRESGGSNTERPLVLPTLETATSQDLLNRLHQTMKDLNDPNLIATVHYYGFWPFSVNVAGYTRFEEETQQDIIDTFNRVHNTFTANGIPVVLGEFGLLGFDTSTDVIQQGEKLKFFEFLIHHLNERDVTHMLWDNGQHLNRETYSWYDQEFHNMLKASWEGRSATAESNLIHVRDGEPIRDQDIQLHLHGNELTGLQVDGDSLALGEDYELAGDVLTMKADALTALMTPGELGTNAVITAQFNSGADWHFQLQNVDEPTLENTEGSTSNFAIPAHFNGDSVATMEAVYANGEFAGPQNWTSFKEFGYTFSPVYDKGEIVITDAFFNEVRDDDIHLTFHFWSGEMVEYTLSKNGNHVQGRR KQTDIQSYVADMQPGWNLGNTFDAVGDDETAWGNPRVTRELIKTIADEGYKSIRIPVTWENQMGNAPDYTINEDFFSRVEQVIDWALEEDLYVMLNLHHDSWLWIYNMEHNYDEVMAKYTALWEQLSERFQGHSHKLMFESVNEPRFTRDWGEIQENHHAFLEELNTAFYHIVRESGGSNTERPLVLPTLETATSQDLLNRLHQTMKDLNDPNLIATVHYYGFWPFSVNVAGYTRFEEETQQDIIDTFNRVHNTFTANGIPVVLGEFGLLGFDTSTDVIQQGEKLKFFEFLIHHLNERDVTHMLWDNGQHLNRETYSWYDQEFHNMLKASWEGRSATAESNLIHVRDGEPIRDQDIQLHLHGNELTGLQVDGDSLALGEDYELAGDVLTMKADALTALMTPGELGTNAVITAQFNSGADWHFQLQNVDEPTLENTEGSTSNFAIPAHFNGDSVATMEAVYANGEFAGPQNWTSFKEFGYTFSPVYDKGEIVITDAFFNEVRDDDIHLTFHFWSGEMVEYTLSKNGNHVQGRR 5xsd-a1-m1-cA_5xsd-a1-m1-cB XylFII-LytSN complex mutant - D103A A6LW07 A6LW07 2.5 X-RAY DIFFRACTION 28 0.992 290402 (Clostridium beijerinckii NCIMB 8052) 290402 (Clostridium beijerinckii NCIMB 8052) 250 276 KPKIVLISHIKTNPYWLDIKAGAERAAKERGAVVEFLVSGIITYVYKKKINSAMEKGIPVVTIASDEEDSNRIAYVGTDNVLAGQVAGKEMVKQIGTSGNVAIVMGGKNVKNQKERVEGFTQYIKSNSNLKIVDTDSSDAMLLEAEIITRKILNRNDNINALFCTSALDGIGAARAVKDLNYKDRVKIICFDDLDDTLSNIRNGLVSATIVQKSNEMGYRAVNIIMDKIEGKSNKKSLIDVNVINKSDVD PIKPKIVLISHIKTNPYWLDIKAGAERAAKERGAVVEFLGPTTASTEDGLKLFDMATSAKVSGIITYVQEEGQYKKKINSAMEKGIPVVTIASDEEDSNRIAYVGTDNVLAGQVAGKEMVKQIGTSGNVAIVMGGKNVKNQKERVEGFTQYIKSNSNLKIVDTDSSDAMLLEAEIITRKILNRNDNINALFCTSALDGIGAARAVKDLNYKDRVKIICFDDLDDTLSNIRNGLVSATIVQKSNEMGYRAVNIIMDKIEGKSKSLIDVNVINKSDVD 5xsf-a1-m2-cA_5xsf-a1-m3-cA Crystal structure of the 2-keto-3-deoxy-6-phosphogluconate aldolase of Zymomonas mobilis ZM4 with 3-phosphoglycerate Q00384 Q00384 1.962 X-RAY DIFFRACTION 56 1.0 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 209 209 4bk9-a1-m1-cA_4bk9-a1-m1-cB 4bk9-a1-m1-cC_4bk9-a1-m1-cA 4bk9-a1-m1-cC_4bk9-a1-m1-cB 5xse-a1-m1-cB_5xse-a1-m1-cA 5xse-a1-m1-cB_5xse-a1-m1-cC 5xse-a1-m1-cC_5xse-a1-m1-cA 5xsf-a1-m1-cA_5xsf-a1-m2-cA 5xsf-a1-m1-cA_5xsf-a1-m3-cA AMRDIDSVMRLAPVMPVLVIEDIADAKPIAEALVAGGLNVLEVTLRTPCALEAIKIMKEVPGAVVGAGTVLNAKMLDQAQEAGCEFFVSPGLTADLGKHAVAQKAALLPGVANAADVMLGLDLGLDRFKFFPAENIGGLPALKSMASVFRQVRFCPTGGITPTSAPKYLENPSILCVGGSWVVPAGKPDVAKITALAKEASAFKRAAVA AMRDIDSVMRLAPVMPVLVIEDIADAKPIAEALVAGGLNVLEVTLRTPCALEAIKIMKEVPGAVVGAGTVLNAKMLDQAQEAGCEFFVSPGLTADLGKHAVAQKAALLPGVANAADVMLGLDLGLDRFKFFPAENIGGLPALKSMASVFRQVRFCPTGGITPTSAPKYLENPSILCVGGSWVVPAGKPDVAKITALAKEASAFKRAAVA 5xsj-a1-m1-cL_5xsj-a1-m2-cL XylFII-LytSN complex A6LW08 A6LW08 2.202 X-RAY DIFFRACTION 19 1.0 290402 (Clostridium beijerinckii NCIMB 8052) 290402 (Clostridium beijerinckii NCIMB 8052) 122 122 SMLNNMLITNEIKQHVDSSLDNFNQYILNGTPSKKESYNNEVILAKQKIGNLKKNSDDVNQYILRDLDNTLDSYIESSKNTISAYENKEGYVFYYDDFVAAKNIASYCDAYASTLMQNFLEA SMLNNMLITNEIKQHVDSSLDNFNQYILNGTPSKKESYNNEVILAKQKIGNLKKNSDDVNQYILRDLDNTLDSYIESSKNTISAYENKEGYVFYYDDFVAAKNIASYCDAYASTLMQNFLEA 5xsk-a1-m1-cA_5xsk-a1-m1-cB Crystal structure of PWWP-DNA complex for human hepatoma-derived growth factor Q8VHK7 Q8VHK7 2.84 X-RAY DIFFRACTION 194 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 90 91 KEYKCGDLVFAKMKGYPHWPARIDEMPEAAVKSTANKYQVFFFGTHETAFLGPKDLFPYEESKEKFGKPNKRKGFSEGLWEIENNPTVKA QKEYKCGDLVFAKMKGYPHWPARIDEMPEAAVKSTANKYQVFFFGTHETAFLGPKDLFPYEESKEKFGKPNKRKGFSEGLWEIENNPTVKA 5xsp-a1-m1-cB_5xsp-a1-m1-cA The catalytic domain of GdpP with 5'-pApA A0A0U1MUE2 A0A0U1MUE2 2.146 X-RAY DIFFRACTION 100 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 331 332 5xsi-a1-m1-cA_5xsi-a1-m1-cB 5xsn-a1-m1-cA_5xsn-a1-m1-cB 5xt3-a1-m1-cA_5xt3-a1-m1-cB VRARVISHALKDILAEGDKVIIMGHKRPDLDAIGAAIGVSRFAMMNNLEAYIVLNETDIDPTLRRVMNEIDKKPELRERFITSDDAWDMMTSKTTVVIVDTHKPELVLDENVLNKANRKVVIDHHRRGESFISNPLLIYMEPYASSTAELVTELLEYQPTEQRLTRLESTVMYAGIIVDTRNFTLRTGSRTFDAASYLRAHGADTILTQHFLKDDVDTYINRSELIRTVKVEDNGIAIAHGSDDKIYHPVTVAQAADELLSLEGIEASYVVARREDNLIGISARSLGSVNVQLTMEALGGGGHLTNAATQLKGVTVEEAIAQLQQAITEQL RVRARVISHALKDILAEGDKVIIMGHKRPDLDAIGAAIGVSRFAMMNNLEAYIVLNETDIDPTLRRVMNEIDKKPELRERFITSDDAWDMMTSKTTVVIVDTHKPELVLDENVLNKANRKVVIDHHRRGESFISNPLLIYMEPYASSTAELVTELLEYQPTEQRLTRLESTVMYAGIIVDTRNFTLRTGSRTFDAASYLRAHGADTILTQHFLKDDVDTYINRSELIRTVKVEDNGIAIAHGSDDKIYHPVTVAQAADELLSLEGIEASYVVARREDNLIGISARSLGSVNVQLTMEALGGGGHLTNAATQLKGVTVEEAIAQLQQAITEQL 5xsv-a2-m1-cB_5xsv-a2-m1-cD Crystal structure of an archaeal chitinase in the ligand-free form A0A161KIT4 A0A161KIT4 3.723 X-RAY DIFFRACTION 44 1.0 54262 (Thermococcus chitonophagus) 54262 (Thermococcus chitonophagus) 485 486 5xsv-a1-m1-cC_5xsv-a1-m1-cA AYRIVSETGDKITVELTLANKNTHYVWNGWCFDIKNITFETTGKVLSIKYADGGEPVYNVNGNLVTIDLTWRGIFHLNTTVKIIIEIQKSGDNPYPHNFKIHYLRGESIIYPTIGELPASWKPGNFTLSDLIADPKSYYDPHVKPHQNGFIMYNPPHPTQIIIGLADIDYPLNLASSARMWVPNKYFAMGLALAYEWFKVNPNFLMALAAKENWGTAVTKDPAFKGYKVIIDEEEYYWPVQIDHPDGIFQVESGNFNQIKAYYPDIFPDTADHDDYMKVSLDPNDTAWITSPIVAAVSLTMERELLYAAVGDKYNEFLRLAKDPWAETEIIDFGYNRGVGAIEALKIFSDNWEKAINAEVLWKEFNMEGFGGHVPTVINITATMDMETERIYDANLTWDDIEYFFTVVRQKFFRPGAISDEEWNAMMRDVKRAYDLLSQHWGGDHISYRYDFLTILRVAMKHWPEPHIPRPTGDDWYYHARNYNP MAYRIVSETGDKITVELTLANKNTHYVWNGWCFDIKNITFETTGKVLSIKYADGGEPVYNVNGNLVTIDLTWRGIFHLNTTVKIIIEIQKSGDNPYPHNFKIHYLRGESIIYPTIGELPASWKPGNFTLSDLIADPKSYYDPHVKPHQNGFIMYNPPHPTQIIIGLADIDYPLNLASSARMWVPNKYFAMGLALAYEWFKVNPNFLMALAAKENWGTAVTKDPAFKGYKVIIDEEEYYWPVQIDHPDGIFQVESGNFNQIKAYYPDIFPDTADHDDYMKVSLDPNDTAWITSPIVAAVSLTMERELLYAAVGDKYNEFLRLAKDPWAETEIIDFGYNRGVGAIEALKIFSDNWEKAINAEVLWKEFNMEGFGGHVPTVINITATMDMETERIYDANLTWDDIEYFFTVVRQKFFRPGAISDEEWNAMMRDVKRAYDLLSQHWGGDHISYRYDFLTILRVAMKHWPEPHIPRPTGDDWYYHARNYNP 5xsw-a1-m1-cA_5xsw-a1-m1-cB Crystal structure of an archaeal chitinase in the substrate-complex form (P63) A0A161KIT4 A0A161KIT4 1.95 X-RAY DIFFRACTION 88 1.0 54262 (Thermococcus chitonophagus) 54262 (Thermococcus chitonophagus) 485 485 AYRIVSETGDKITVELTLANKNTHYVWNGWCFDIKNITFETTGKVLSIKYADGGEPVYNVNGNLVTIDLTWRGIFHLNTTVKIIIEIQKSGDNPYPHNFKIHYLRGESIIYPTIGELPASWKPGNFTLSDLIADPKSYYDPHVKPHQNGFIMYNPPHPTQIIIGLADIDYPLNLASSARMWVPNKYFAMGLALAYEWFKVNPNFLMALAAKENWGTAVTKDPAFKGYKVIIDEEEYYWPVQIDHPDGIFQVESGNFNQIKAYYPDIFPDTADHDDYMKVSLDPNDTAWITSPIVAAVSLTMERELLYAAVGDKYNEFLRLAKDPWAETEIIDFGYNRGVGAIEALKIFSDNWEKAINAEVLWKEFNMEGFGGHVPTVINITATMDMETERIYDANLTWDDIEYFFTVVRQKFFRPGAISDEEWNAMMRDVKRAYDLLSQHWGGDHISYRYDFLTILRVAMKHWPEPHIPRPTGDDWYYHARNYNP AYRIVSETGDKITVELTLANKNTHYVWNGWCFDIKNITFETTGKVLSIKYADGGEPVYNVNGNLVTIDLTWRGIFHLNTTVKIIIEIQKSGDNPYPHNFKIHYLRGESIIYPTIGELPASWKPGNFTLSDLIADPKSYYDPHVKPHQNGFIMYNPPHPTQIIIGLADIDYPLNLASSARMWVPNKYFAMGLALAYEWFKVNPNFLMALAAKENWGTAVTKDPAFKGYKVIIDEEEYYWPVQIDHPDGIFQVESGNFNQIKAYYPDIFPDTADHDDYMKVSLDPNDTAWITSPIVAAVSLTMERELLYAAVGDKYNEFLRLAKDPWAETEIIDFGYNRGVGAIEALKIFSDNWEKAINAEVLWKEFNMEGFGGHVPTVINITATMDMETERIYDANLTWDDIEYFFTVVRQKFFRPGAISDEEWNAMMRDVKRAYDLLSQHWGGDHISYRYDFLTILRVAMKHWPEPHIPRPTGDDWYYHARNYNP 5xta-a1-m1-cB_5xta-a1-m1-cD Crystal structure of lpg1832, a VirK family protein from Legionella pneumophila Q5ZUG6 Q5ZUG6 2 X-RAY DIFFRACTION 56 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 116 116 5xta-a1-m1-cA_5xta-a1-m1-cC 5xta-a1-m1-cA_5xta-a1-m1-cD 5xta-a1-m1-cB_5xta-a1-m1-cC AVELNTFQNIVDAIAEGKRITFVINLKKCTSEPLNSAIVSVTPNAVVIGDSRVTASDRHFTLDDPLARGTPFDYSKFNLDSEGDASIKTTVLNASSYERLGSYQNCKLGDGFKVFG AVELNTFQNIVDAIAEGKRITFVINLKKCTSEPLNSAIVSVTPNAVVIGDSRVTASDRHFTLDDPLARGTPFDYSKFNLDSEGDASIKTTVLNASSYERLGSYQNCKLGDGFKVFG 5xti-a1-m1-cAJ_5xti-a1-m1-cAV Cryo-EM architecture of human respiratory chain megacomplex-I2III2IV2 P00156 P00156 17.4 ELECTRON MICROSCOPY 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 378 378 5xte-a1-m1-cJ_5xte-a1-m1-cV 5xth-a1-m1-cAJ_5xth-a1-m1-cAV TPMRKTNPLMKLINHSFIDLPTPSNISAWWNFGSLLGACLILQITTGLFLAMHYSPDASTAFSSIAHITRDVNYGWIIRYLHANGASMFFICLFLHIGRGLYYGSFLYSETWNIGIILLLATMATAFMGYVLPWGQMSFWGATVITNLLSAIPYIGTDLVQWIWGGYSVDSPTLTRFFTFHFILPFIIAALATLHLLFLHETGSNNPLGITSHSDKITFHPYYTIKDALGLLLFLLSLMTLTLFSPDLLGDPDNYTLANPLNTPPHIKPEWYFLFAYTILRSVPNKLGGVLALLLSILILAMIPILHMSKQQSMMFRPLSQSLYWLLAADLLILTWIGGQPVSYPFTIIGQVASVLYFTTILILMPTISLIENKMLKW TPMRKTNPLMKLINHSFIDLPTPSNISAWWNFGSLLGACLILQITTGLFLAMHYSPDASTAFSSIAHITRDVNYGWIIRYLHANGASMFFICLFLHIGRGLYYGSFLYSETWNIGIILLLATMATAFMGYVLPWGQMSFWGATVITNLLSAIPYIGTDLVQWIWGGYSVDSPTLTRFFTFHFILPFIIAALATLHLLFLHETGSNNPLGITSHSDKITFHPYYTIKDALGLLLFLLSLMTLTLFSPDLLGDPDNYTLANPLNTPPHIKPEWYFLFAYTILRSVPNKLGGVLALLLSILILAMIPILHMSKQQSMMFRPLSQSLYWLLAADLLILTWIGGQPVSYPFTIIGQVASVLYFTTILILMPTISLIENKMLKW 5xti-a1-m1-cAK_5xti-a1-m1-cAW Cryo-EM architecture of human respiratory chain megacomplex-I2III2IV2 P22695 P22695 17.4 ELECTRON MICROSCOPY 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 419 419 5xte-a1-m1-cK_5xte-a1-m1-cW 5xth-a1-m1-cAK_5xth-a1-m1-cAW PQDLEFTKLPNGLVIASLENYSPVSRIGLFIKAGSRYEDFSNLGTTHLLRLTSSLTTKGASSFKITRGIEAVGGKLSVTATRENMAYTVECLRGDVDILMEFLLNVTTAPEFRRWEVADLQPQLKIDKAVAFQNPQTHVIENLHAAAYRNALANPLYCPDYRIGKVTSEELHYFVQNHFTSARMALIGLGVSHPVLKQVAEQFLNMRGGLGLSGAKANYRGGEIREQNGDSLVHAAFVAESAVAGSAEANAFSVLQHVLGAGPHVKRGSNTTSHLHQAVAKATQQPFDVSAFNASYSDSGLFGIYTISQATAAGDVIKAAYNQVKTIAQGNLSNTDVQAAKNKLKAGYLMSVESSECFLEEVGSQALVAGSYMPPSTVLQQIDSVANADIINAAKKFVSGQKSMAASGNLGHTPFVDEL PQDLEFTKLPNGLVIASLENYSPVSRIGLFIKAGSRYEDFSNLGTTHLLRLTSSLTTKGASSFKITRGIEAVGGKLSVTATRENMAYTVECLRGDVDILMEFLLNVTTAPEFRRWEVADLQPQLKIDKAVAFQNPQTHVIENLHAAAYRNALANPLYCPDYRIGKVTSEELHYFVQNHFTSARMALIGLGVSHPVLKQVAEQFLNMRGGLGLSGAKANYRGGEIREQNGDSLVHAAFVAESAVAGSAEANAFSVLQHVLGAGPHVKRGSNTTSHLHQAVAKATQQPFDVSAFNASYSDSGLFGIYTISQATAAGDVIKAAYNQVKTIAQGNLSNTDVQAAKNKLKAGYLMSVESSECFLEEVGSQALVAGSYMPPSTVLQQIDSVANADIINAAKKFVSGQKSMAASGNLGHTPFVDEL 5xtq-a1-m1-cC_5xtq-a1-m1-cA Crystal structure of baculoviral sulfhydryl oxidase P33 (H227D mutant) P41480 P41480 2.04 X-RAY DIFFRACTION 86 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 242 248 3p0k-a1-m1-cA_3p0k-a1-m2-cA 3qzy-a1-m1-cA_3qzy-a1-m1-cB 5xki-a1-m1-cA_5xki-a1-m1-cB 5xtn-a1-m1-cA_5xtn-a1-m1-cB 5xtn-a2-m1-cC_5xtn-a2-m1-cD 5xto-a1-m1-cB_5xto-a1-m1-cA 5xto-a2-m1-cC_5xto-a2-m1-cD 5xtp-a1-m1-cB_5xtp-a1-m1-cA 5xtp-a2-m1-cC_5xtp-a2-m1-cD 5xtq-a2-m1-cB_5xtq-a2-m1-cD 5xtr-a1-m1-cA_5xtr-a1-m1-cC 5xtr-a2-m1-cB_5xtr-a2-m1-cD MIPLTPLFSRYKDSYLLYSFRLIDLLRASKSTHLTKLLSSQATYLYHFAIQKYEVQQLIEWAINASPDMDLQQFRIEFMDKTTELNLRSCQPKSFTYTFTTIWDTMHFLSLIIDDMVYTRDSLDFVMQQLKTMKVLFYNVFFILQCAMCRDHYMNVKGFIIYHIELIEIALDKEKYGTDITFVDSYQQETAGADVSNNMLMKNLMAYVSMTFHNDINDYKWIQRNKKPERMTWGEYKKLLNL MIPLTPLFSRYKDSYLLYSFRLIDLLRASKSTHLTKLLSSQATYLYHFACIQKYEVQQLIEWAINASPDMDLQQFRIEFMDKTTELNLRSCQPKSFTYTFTTIWDTMHFLSLIIDDMVYTRDKSLDFVMQQLKTMKVLFYNVFFILQCAMCRDHYMNVKGFIIYHIELIEIALDKEKYGTDITFVDSYQQETAGADVVSNNMLMKNLMAYVSMTFHNDINDYKWIQRNKKPPYERMTWGEYKKLLNLQ 5xtz-a1-m1-cB_5xtz-a1-m1-cC Crystal structure of GAS41 YEATS bound to H3K27ac peptide O95619 O95619 2.105 X-RAY DIFFRACTION 29 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 132 138 GVTIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSKTVVSEFYDEMIFQDPTAMMQQLLTT VTIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSDTNAMLGKKTVVSEFYDEMIFQDPTAMMQQLLT 5xtz-a2-m1-cB_5xtz-a2-m1-cA Crystal structure of GAS41 YEATS bound to H3K27ac peptide O95619 O95619 2.105 X-RAY DIFFRACTION 30 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 132 139 5xtz-a1-m1-cB_5xtz-a1-m1-cA 7jfy-a1-m1-cB_7jfy-a1-m1-cC 7jfy-a1-m1-cD_7jfy-a1-m1-cA GVTIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSKTVVSEFYDEMIFQDPTAMMQQLLTT VTIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSDTNAMLGKKTVVSEFYDEMIFQDPTAMMQQLLTT 5xu0-a1-m2-cC_5xu0-a1-m2-cB Structure of the membrane fusion protein Spr0693 from Streptococcus pneumoniae R6 2.95 X-RAY DIFFRACTION 96 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 220 228 5xu0-a1-m1-cA_5xu0-a1-m1-cB 5xu0-a1-m1-cC_5xu0-a1-m1-cB 5xu0-a1-m1-cC_5xu0-a1-m2-cA 5xu0-a1-m2-cA_5xu0-a1-m2-cB 5xu0-a1-m2-cC_5xu0-a1-m1-cA LLSGTVTAKNEQYVYFDASKGDLDEILVSVGDKVSEGQALVKYSSSEAQAAYDSASRAVARADRHINELNQARNEAASANSVASIDAQLGDARDARADAAAQLSKAQSQLDATVLSTLEGTVVEVNSNVSKSPTGASQVVHIVSNENLQVKGELSEYNLANLSVGQEVSFTSKVYPDKKWTGKLSYISDYPKNTGSKYPYTIDVTGEVGDLKQGFSVNEV SVLLSGTVTAKNEQYVYFDASKGDLDEILVSVGDKVSEGQALVKYSSSEAQAAYDSASRAVARADRHINELNQARNEAASANSVASIDAQLGDARDARADAAAQLSKAQSQLDATVLSTLEGTVVEVNSNVSKSPTGASQVVHIVSNENLQVKGELSEYNLANLSVGQEVSFTSKVYPDKKWTGKLSYISDYPKNNNTGSKYPYTIDVTGEVGDLKQGFSVNEVKSKT 5xu1-a1-m1-cA_5xu1-a1-m1-cB Structure of a non-canonical ABC transporter from Streptococcus pneumoniae R6 Q8DQF8 Q8DQF8 3.3 X-RAY DIFFRACTION 13 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 221 226 KQLISLKNIFRSYELQVLKNINLEVNEGEFVAIMGPSGSGKSTLMNTIGMLDTPTSGEYYLEGQEVAGLGEKQLAKVRNQQIGFVFQQFFLLSKLNALQNVELPLIYAGVSSSKRRKLAEEYLDKVELTERSHHLPSELSGGQKQRVAIARALVNNPSIILADEPTGALDTKTGNQIMQLLVDLNKEGKTIIMVTHEPEIAAYAKRQIVIRDGVISSDSAQ KQLISLKNIFRSYRNGDQELQVLKNINLEVNEGEFVAIMGPSGSGKSTLMNTIGMLDTPTSGEYYLEGQEVAGLGEKQLAKVRNQQIGFVFQQFFLLSKLNALQNVELPLIYAGVSSSKRRKLAEEYLDKVELTERSHHLPSELSGGQKQRVAIARALVNNPSIILADEPTGALDTKTGNQIMQLLVDLNKEGKTIIMVTHEPEIAAYAKRQIVIRDGVISSDSAQ 5xu1-a1-m1-cS_5xu1-a1-m1-cM Structure of a non-canonical ABC transporter from Streptococcus pneumoniae R6 Q8DQF7 Q8DQF7 3.3 X-RAY DIFFRACTION 99 0.997 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 378 390 MQNLKFAFSSIMAHKMRSLLTMIGIIIGVSSVVVIMALGDSLSRQVNKDMTKSQKNISVFFPPKPQESWVQEAAKLKGVDSYYVTNSTNAILTYQDKKVENANLTGGNRTYMDAVKNEIIAGRSLREQDFKEFASVILLDEELSISLFESPQEAINKVVEVNGFSYRVIGVYTSPEAKRSKIYGFGGLPITTNISLAANFNIDEIASIVFRVNDTSLTPTLGPELARKMTELAGDESVVFAEIQQSFSFMTTIISSIAGISLFVGGTGVMNIMLVSVTERTREIGLRKALGATRANILIQFLIESMILTLLGGLIGLTIASGLTALAGLLLQGLIEGIEVGVSIPVALFSLAVSASVGMIFGVLPANKASKLDPIEAL QNLKFAFSSIMAHKMRSLLTMIGIIIGVSSVVVIMALGDSLSRQVNKDMTKSQKNISVFFSPKKPPKPQESWVQEAAKLKGVDSYYVTNSTNAILTYQDKKVENANLTGGNRTYMDAVKNEIIAGRSLREQDFKEFASVILLDEELSISLFESPQEAINKVVEVNGFSYRVIGVYTSPEAKRSKIYGFGGLPITTNISLAANFNIDEIASIVFRVNDTSLTPTLGPELARKMTELAGLQQGEYQVADESVVFAEIQQSFSFMTTIISSIAGISLFVGGTGVMNIMLVSVTERTREIGLRKALGATRANILIQFLIESMILTLLGGLIGLTIASGLTALAGLLLQGLIEGIEVGVSIPVALFSLAVSASVGMIFGVLPANKASKLDPIEAL 5xuk-a1-m2-cA_5xuk-a1-m3-cA Crystal structure of Helicobacter pylori holo-[acyl-carrier-protein] synthase (AcpS) in complex with coenzyme A O25488 O25488 2.3 X-RAY DIFFRACTION 50 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 115 115 5xuk-a1-m1-cA_5xuk-a1-m2-cA 5xuk-a1-m1-cA_5xuk-a1-m3-cA MIGIDIVSIARIEKCVKRFKMKFLERFLSPSEIVLCKDKSSSIAGFFALKEACSKALQVGIGKELSFLDIKISKSPKNAPLITLSKEKMDYFNIQSLSASISHDAGFAIAVVVVS MIGIDIVSIARIEKCVKRFKMKFLERFLSPSEIVLCKDKSSSIAGFFALKEACSKALQVGIGKELSFLDIKISKSPKNAPLITLSKEKMDYFNIQSLSASISHDAGFAIAVVVVS 5xum-a1-m2-cA_5xum-a1-m3-cA Crystal structure of Thermotoga maritima holo-[acyl-carrier-protein] synthase (AcpS) Q9WZF6 Q9WZF6 2.1 X-RAY DIFFRACTION 49 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 168 168 5xum-a1-m1-cA_5xum-a1-m2-cA 5xum-a1-m1-cA_5xum-a1-m3-cA MIVGVGIDVLEVERVPEKFAERILGESEKRLFLTRKRRREFIAGRFALKEAFFKALGTGLNGHSFTDVEFLESNGKPVLCVHKDFGFFNYAHVSLSHDRFAVALVVLEKRKGDIIVEGDESFLRKRFEVLERSVEGWEIETSLPPFTLKKLLESSGCRLVRYGNILIG MIVGVGIDVLEVERVPEKFAERILGESEKRLFLTRKRRREFIAGRFALKEAFFKALGTGLNGHSFTDVEFLESNGKPVLCVHKDFGFFNYAHVSLSHDRFAVALVVLEKRKGDIIVEGDESFLRKRFEVLERSVEGWEIETSLPPFTLKKLLESSGCRLVRYGNILIG 5xun-a1-m1-cA_5xun-a1-m1-cB Crystal structure of Y145F mutant of KacT A6THQ8 A6THQ8 2 X-RAY DIFFRACTION 119 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 170 171 QQLTIEMIADAFSYDITGFDCGEEALNTFLKEHLKRQHDGQILRGYALVSGDTVPRLLGYYTLSGSCFERGMLPSKTQQKKIPYQNAPSVTLGRLAIDKSVQGQGWGEMLVAHVMRVVWGASKAVGIYGLFVEALNEKAKAFFLRLGFIQLVDENSNLLFYPTKSIEQLF QQLTIEMIADAFSYDITGFDCGEEALNTFLKEHLKRQHDGQILRGYALVSGDTVPRLLGYYTLSGSCFERGMLPSKTQQKKIPYQNAPSVTLGRLAIDKSVQGQGWGEMLVAHVMRVVWGASKAVGIYGLFVEALNEKAKAFFLRLGFIQLVDENSNLLFYPTKSIEQLFT 5xuo-a2-m1-cA_5xuo-a2-m2-cA Pks13 AT domain fragment from Mycobacterium tuberculosis I6X8D2 I6X8D2 2.586 X-RAY DIFFRACTION 61 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 111 111 AGFGAQHRKMGKSLYLRNEVFAAWIEKVDALVQDELGYSVLELILDDAQDYGIETTQVTIFAIQIALGELLRHHGAKPAAVIGQSLGEAASAYFAGGLSLRDATRAICSRS AGFGAQHRKMGKSLYLRNEVFAAWIEKVDALVQDELGYSVLELILDDAQDYGIETTQVTIFAIQIALGELLRHHGAKPAAVIGQSLGEAASAYFAGGLSLRDATRAICSRS 5xup-a1-m1-cB_5xup-a1-m1-cA Crystal structure of TRF1 and TERB1 P54274 P54274 2.1 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 202 1h6o-a1-m1-cA_1h6o-a1-m2-cA 3bqo-a1-m1-cA_3bqo-a1-m2-cA 3l82-a2-m1-cA_3l82-a2-m2-cA 5wir-a1-m1-cA_5wir-a1-m1-cB GLVAEAEAVAAGWMLDFLCLSLCRAFRDGRSEDFRRTRNSAEAIIHGLSSLTACQLRTIYICQFLTRIAAGKTLDAQFENDERITPLESALMIWGSIEKEHDKLHEEIQNLIKIQAIAVCMENGNFKEAEEVFERIFHMPFKSKLLMIISQKDTFHSFFQHFSYNHMMEKIKSYVNYVLSEKSSTFLMKAAAKVVE GLVAEAEAVAAGWMLDFLCLSLCRAFRDGRSEDFRRTRNSAEAIIHGLSSLTACQLRTIYICQFLTRIAAGKTLDAQFENDERITPLESALMIWGSIEKEHDKLHEEIQNLIKIQAIAVCMENGNFKEAEEVFERIFGDPNSHMPFKSKLLMIISQKDTFHSFFQHFSYNHMMEKIKSYVNYVLSEKSSTFLMKAAAKVVES 5xux-a3-m1-cE_5xux-a3-m1-cF Crystal structure of Rib7 from Methanosarcina mazei Q8PYN5 Q8PYN5 2.27 X-RAY DIFFRACTION 174 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 223 238 5xux-a1-m1-cB_5xux-a1-m1-cA 5xux-a2-m1-cD_5xux-a2-m1-cC 5xv0-a1-m1-cB_5xv0-a1-m1-cA 5xv0-a2-m1-cD_5xv0-a2-m1-cC 5xv0-a3-m1-cE_5xv0-a3-m1-cF 5xv2-a1-m1-cA_5xv2-a1-m2-cA 5xv5-a1-m1-cB_5xv5-a1-m1-cA 5xv5-a2-m1-cC_5xv5-a2-m1-cD 5xv5-a3-m1-cE_5xv5-a3-m1-cF DRPFIFINSAMSADGKLSTKERKQVKISGKLDFERMDELRAHADAIMVGIGTVLADDPSLTVKSPERKAARKAAGKSENPVRVVVDSSARTPLNADIFKKGEGLRIIAVSNSAPEEKIRMLEEKALVIKTGAFRVDLTELAAKLKEMGINSLMVEGGATLNWGMLSAGLVDEVYTFVGNLIIGGKTAPTFTDGEGFTENELLGLELSSAEKIEDGILLKWKVK GSHHHHHHGSMDRPFIFINSAMSADGKLSTKERKQVKISGKLDFERMDELRAHADAIMVGIGTVLADDPSLTVKSPERKAARKAAGKSENPVRVVVDSSARTPLNADIFKKGEGLRIIAVSNSAPEEKIRMLEEKALVIKTGAFRVDLTELAAKLKEMGINSLMVEGGATLNWGMLSAGLVDEVYTFVGNLIIGGKTAPTFTDGEGFTENELLGLELSSAEKIEDGILLKWKVKGKKN 5xvj-a1-m1-cB_5xvj-a1-m1-cA Crystal structure of AL7 PAL domain Q8LA16 Q8LA16 1.4 X-RAY DIFFRACTION 97 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 133 134 PRTVEEVFSDFRGRRAGLIKALSTDVQKFYHQCDPEKENLCLYGLPNETWEVNLPVEEVPPELPEPALGINFARDGMQEKDWISLVAVHSDSWLISVAFYFGARFGFGKNERKRLFQMINDLPTIFEVVTGNA SPRTVEEVFSDFRGRRAGLIKALSTDVQKFYHQCDPEKENLCLYGLPNETWEVNLPVEEVPPELPEPALGINFARDGMQEKDWISLVAVHSDSWLISVAFYFGARFGFGKNERKRLFQMINDLPTIFEVVTGNA 5xvo-a3-m1-cM_5xvo-a3-m1-cN E. fae Cas1-Cas2/prespacer/target ternary complex revealing DNA sampling and half-integration states 3.1 X-RAY DIFFRACTION 93 1.0 749498 (Enterococcus faecalis TX0027) 749498 (Enterococcus faecalis TX0027) 104 105 5xvn-a1-m1-cE_5xvn-a1-m1-cF 5xvn-a2-m1-cN_5xvn-a2-m1-cM 5xvo-a1-m1-cF_5xvo-a1-m1-cE 5xvo-a2-m1-cM_5xvo-a2-m1-cN 5xvo-a3-m1-cF_5xvo-a3-m1-cE 5xvp-a1-m1-cF_5xvp-a1-m1-cE YMRLLLMFDMPTDTASDRKAYRKFRKFLINEGFIMHQFSVYSKILLNDTANKAMLARLKQNNPQRGLITLLNVTEKQFSRMIYLHGEQDNRVANSDERIVFLGE RYMRLLLMFDMPTDTASDRKAYRKFRKFLINEGFIMHQFSVYSKILLNDTANKAMLARLKQNNPQRGLITLLNVTEKQFSRMIYLHGEQDNRVANSDERIVFLGE 5xvr-a3-m1-cB_5xvr-a3-m1-cA EarP bound with dTDP-rhamnose (co-crystal) E6MVV9 E6MVV9 1.63 X-RAY DIFFRACTION 61 1.0 909420 (Neisseria meningitidis H44/76) 909420 (Neisseria meningitidis H44/76) 376 381 5wxi-a1-m1-cB_5wxi-a1-m1-cA 5wxj-a1-m1-cB_5wxj-a1-m1-cA NTPPFVCWIFCKVIDFGNIGVSWRLARVLHRELGWQVHLWTDDVSALRALCPDLPDVPCVHQDIHVRTWHSDAADIDTAPVPDVVIETFACDLPENVLHIIRRHKPLWLNWEYLSAEESNERLHLMPSPQEGVQKYFWFMGFSEKSGGLIRERDYCEAVRFDTEALRERLMLPEKNASEWLLFGYRSDVWAKWLEMWRQAGSPMTLLLAGTQIIDSLKQSGVIPQDALQNDGDVFQTASVRLVKIPFVPQQDFDQLLHLADCAVIRGEDSFVRAQLAGKPFFWHIYPQDENVHLDKLHAFWDKAHGFYTPETVSAHRRLSDDLNGGEALSATQRLECWQTLQQHQNGWRQGAEDWSRYLFGQPSAPEKLAAFVSKH SHMNTPPFVCWIFCKVIDNFGNIGVSWRLARVLHRELGWQVHLWTDDVSALRALCPDLPDVPCVHQDIHVRTWHSDAADIDTAPVPDVVIETFACDLPENVLHIIRRHKPLWLNWEYLSAEESNERLHLMPSPQEGVQKYFWFMGFSEKSGGLIRERDYCEAVRFDTEALRERLMLPEKNASEWLLFGYRSDVWAKWLEMWRQAGSPMTLLLAGTQIIDSLKQSGVIPQDALQNDGDVFQTASVRLVKIPFVPQQDFDQLLHLADCAVIRGEDSFVRAQLAGKPFFWHIYPQDENVHLDKLHAFWDKAHGFYTPETVSAHRRLSDDLNGGEALSATQRLECWQTLQQHQNGWRQGAEDWSRYLFGQPSAPEKLAAFVSKHQ 5xw3-a1-m1-cB_5xw3-a1-m1-cA Crystal structure of cystathionine beta-synthase from Bacillus anthracis A0A6L8PXK0 A0A6L8PXK0 2.17 X-RAY DIFFRACTION 101 0.996 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 260 264 MNVYRGVHELIGHTPIVEITRFSLPEGVRLFAKLEFYNPGGSVKDRLGRELIEDALEKGLVTEGGTIIEPTAGNTGIGLALAALQHDLRVIVCVPEKFSIEKQELMKALGATVVHTPTEQGMTGAIAKAKELVNEIPNSYSPSQFANEANPRAYFKTLGPELWSALNGEINIFVAGAFMGTASYLKEKNIDIKTVIVEPEGFDEIHTISDRNAFLRVKELAQKEGLLVGSSSGAAFHASLLEAEKAAPGTNIVTIFPDSS MNVYRGVHELIGHTPIVEITRFSLPEGVRLFAKLEFYNPGGSVKDRLGRELIEDALEKGLVTEGGTIIEPTAGNTGIGLALAALQHDLRVIVCVPEKFSIEKQELKALGATVVHTPTEQGMTGAIAKAKELVNEIPNSYSPSQFANEANPRAYFKTLGPELWSALNGEINIFVAGAGTGGTFMGTASYLKEKNIDIKTVIVEPEGFDEIHTISDRNAFLRVKELAQKEGLLVGSSSGAAFHASLLEAEKAAPGTNIVTIFPDSS 5xw6-a1-m1-cB_5xw6-a1-m1-cC Crystal structure of the chicken ATP-gated P2X7 receptor channel in the presence of competitive antagonist TNP-ATP at 3.1 Angstroms E1C6P3 E1C6P3 3.1 X-RAY DIFFRACTION 101 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 320 320 5xw6-a1-m1-cA_5xw6-a1-m1-cB 5xw6-a1-m1-cA_5xw6-a1-m1-cC SCVKWFIYGVIAVYICYTLIVHKRYQEKEELTSSVRVTLKGVAHVDRIWDAAEYTIPTQTRDSFFVMTNIIRTENQIQKTCPEYPTAKAICSSDKSCAKGIVDVHSNGVQTGKCVHYNITHKTCEIKAWCPVQGEERPPVPAVLRSSEDFTVFIKNNIHFPTFQYTVQNISPKLNTSCKFNKVTAPLCPIFRLGDILQEAKENFSEMAVKGGIIAIEIKWDCDLDSWSYYCSPEYSFRRLDDKTRTQYPGFSIRFARHYKLPDGTEQRTLFKAYGIRFDVLVFGMGGQFKLIELFTFIGSTIAYFGLAVTIIEMCFHLYN SCVKWFIYGVIAVYICYTLIVHKRYQEKEELTSSVRVTLKGVAHVDRIWDAAEYTIPTQTRDSFFVMTNIIRTENQIQKTCPEYPTAKAICSSDKSCAKGIVDVHSNGVQTGKCVHYNITHKTCEIKAWCPVQGEERPPVPAVLRSSEDFTVFIKNNIHFPTFQYTVQNISPKLNTSCKFNKVTAPLCPIFRLGDILQEAKENFSEMAVKGGIIAIEIKWDCDLDSWSYYCSPEYSFRRLDDKTRTQYPGFSIRFARHYKLPDGTEQRTLFKAYGIRFDVLVFGMGGQFKLIELFTFIGSTIAYFGLAVTIIEMCFHLYN 5xwe-a1-m1-cB_5xwe-a1-m1-cA Structure of a three finger toxin from Ophiophagus hannah venom Q69CJ8 Q69CJ8 1.8 X-RAY DIFFRACTION 30 1.0 8665 (Ophiophagus hannah) 8665 (Ophiophagus hannah) 50 51 RICLKQETTTCPEGEDACYNLFWKIEMGCGCPKTEPYTNLYCCKIDSCNK RICLKQETTTTCPEGEDACYNLFWKIEMGCGCPKTEPYTNLYCCKIDSCNK 5xwm-a2-m1-cB_5xwm-a2-m1-cD human ERp44 zinc-bound form Q9BS26 Q9BS26 2.45 X-RAY DIFFRACTION 154 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 354 368 5xwm-a1-m1-cA_5xwm-a1-m1-cC EITSLDTENIDEILNNADVALVNFYADWCRFSQMLHPIFEEASDVIKEEFPNENQVVFARVDCDQHSDIAQRYRISKYPTLKLFRNGMMMKREYRGQRSVKALADYIRQQKSDPIQEIRDLAEITTLDRSKRNIIGYFEQKDSDNYRVFERVANILHDDCAFLSAFGDVSKPERYSGDNIIYKPPGHSAPDMVYLGAMTNFDVTYNWIQDKCVPLVREITFENGEELTEEGLPFLILFHMKEDTESLEIFQNEVARQLISEKGTINFLHADCDKFRHPLLHIQKTPADCPVIAIDSFRHMYVFGDFKDVLIPGKLKQFVFDLHSGKLHREFHHGPDPTASSPPESSFQKLAPSE SEITSLDTENIDEILNNADVALVNFYADWCRFSQMLHPIFEEASDVIKEEFPNENQVVFARVDCDQHSDIAQRYRISKYPTLKLFRNGMMMKREYRGQRSVKALADYIRQQKSDPIQEIRDLAEITTLDRSKRNIIGYFEQKDSDNYRVFERVANILHDDCAFLSAFGDVSKPERYSGDNIIYKPPGHSAPDMVYLGAMTNFDVTYNWIQDKCVPLVREITFENGEELTEEGLPFLILFHMKEDTESLEIFQNEVARQLISEKGTINFLHADCDKFRHPLLHIQKTPADCPVIAIDSFRHMYVFGDFKDVLIPGKLKQFVFDLHSGKLHREFHHGPDPTDTAPGEQVASSPPESSFYRYTLLRDRDEL 5xwr-a1-m1-cB_5xwr-a1-m1-cA Crystal Structure of RBBP4-peptide complex Q09028 Q09028 2.69 X-RAY DIFFRACTION 68 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 371 380 AVEERVINEEYKIWKKNTPFLYDLVMTHALEWPSLTAQWLPDVTRPEGKDFSIHRLVLGTHTSDEQNHLVIASVQLPNDDGKIEIEIKINHEGEVNRARYMPQNPCIIATKTPSSDVLVFDYTKHPSKPDPSGECNPDLRLRGHQKEGYGLSWNPNLSGHLLSASDDHTICLWDISAVGKVVDAKTIFTGHTAVVEDVSWHLLHESLFGSVADDQKLMIWDTRSNNTSKPSHSVDAHTAEVNCLSFNPYSEFILATGSADKTVALWDLRNLKLKLHSFESHKDEIFQVQWSPHNETILASSGTDRRLNVWDLSKIGEEQSEDGPPELLFIHGGHTAKISDFSWNPNEPWVICSVSEDNIMQVWQMAENIYN EERVINEEYKIWKKNTPFLYDLVMTHALEWPSLTAQWLPDVTRPEGKDFSIHRLVLGTHTSDEQNHLVIASVQLPNDDAQFDASVSGKIEIEIKINHEGEVNRARYMPQNPCIIATKTPSSDVLVFDYTKHPSKPDPSGECNPDLRLRGHQKEGYGLSWNPNLSGHLLSASDDHTICLWDISAVPKEGKVVDAKTIFTGHTAVVEDVSWHLLHESLFGSVADDQKLMIWDTRSNNTSKPSHSVDAHTAEVNCLSFNPYSEFILATGSADKTVALWDLRNLKLKLHSFESHKDEIFQVQWSPHNETILASSGTDRRLNVWDLSKIGEEQSEDGPPELLFIHGGHTAKISDFSWNPNEPWVICSVSEDNIMQVWQMAENIYN 5xwu-a1-m1-cD_5xwu-a1-m1-cB Crystal structure of PTPdelta Ig1-Ig3 in complex with SALM2 LRR-Ig Q2WF71 Q2WF71 3.162 X-RAY DIFFRACTION 67 0.997 10090 (Mus musculus) 10090 (Mus musculus) 340 343 PCPGRCICQNVAPTLTMLCAKTGLLFVPPAIDRRVVELRLTDNFIAAVRRRDFANMTSLVHLTLSRNTIGQVAAGAFADLRALRALHLDSNRLAEVRGDQLRGLGNLRHLILGNNQIRKVESAAFDAFLSTVEDLDLSYNNLEALPWEAVGQMVNLNTLTLDHNLIDHIAEGTFVQLHKLVRLDMTSNRLHKLPPDGLFLTPLTVSFGGNPLHCNCELLWLRRLTREDDLETCATPEHLTDRYFWSIPEEEFLCEPPLITRQAGGRVVEGQASLRCRAVGDPEPVVHWVAPDGRLLGNSSRTRVRGDGTLDTITTLRDSGTFTCIASNAAGEATAPVEVC PCPGRCICQNVAPTLTMLCAKTGLLFVPPAIDRRVVELRLTDNFIAAVRRRDFANMTSLVHLTLSRNTIGQVAAGAFADLRALRALHLDSNRLAEVRGDQLRGLGNLRHLILGNNQIRKVESAAFDAFLSTVEDLDLSYNNLEALPWEAVGQMVNLNTLTLDHNLIDHIAEGTFVQLHKLVRLDMTSNRLHKLPPDGLFLPLTVSFGGNPLHCNCELLWLRRLTREDDLETCATPEHLTDRYFWSIPEEEFLCEPPLITRQAGGRALVVEGQAVSLRCRAVGDPEPVVHWVAPDGRLLGNSSRTRVRGDGTLDVTITTLRDSGTFTCIASNAAGEATAPVEVC 5xwv-a1-m1-cA_5xwv-a1-m1-cB Substrate-bound Structure of a Ketoreductase from the Second Module of the amphotericin Polyketide Synthases Q93NW7 Q93NW7 1.8 X-RAY DIFFRACTION 45 1.0 40318 (Streptomyces nodosus) 40318 (Streptomyces nodosus) 477 477 5xww-a1-m1-cA_5xww-a1-m1-cB GSHMDALRYHIEWNRVAEPGTARPAGRLLAVISPDHAGAPWVTAVLDALGPDTVRFEAKGTDRAAWAAQLAQLREDEGEFHAVVSLLAAAEALHTDHGSVPLGLAQTLLLAQALGDAGLTAPLWCLTRGGVAAGRGDVLSSPVQGALWGLGRVIGLEHPDRWGGLIDLPETVDTRAAARLTGLLADAGGEDQLAIRGSGVLARRLAHAAPAVPGSGKRPPVHGSVLVTGGTGGIGGRVARRLAEQGAAHLVLTSRRGADAPGAAELRAELEQLGVRVTIAACDAADREALAALLAELPEDAPLTAVFHSAGVAHDDAPVADLTLGQLDALMRAKLTAARHLHELTADLDLDAFVLFSSGAAVWGSGGQPGYAAANAYLDALAEHRRSLGLTASSVAWGTWGEVGMATDPEVHDRLVRQGVLAMEPEHALGALDQMLENDDTAAAITLMDWEMFAPAFTANRPSALLSTVPEAVSALS GSHMDALRYHIEWNRVAEPGTARPAGRLLAVISPDHAGAPWVTAVLDALGPDTVRFEAKGTDRAAWAAQLAQLREDEGEFHAVVSLLAAAEALHTDHGSVPLGLAQTLLLAQALGDAGLTAPLWCLTRGGVAAGRGDVLSSPVQGALWGLGRVIGLEHPDRWGGLIDLPETVDTRAAARLTGLLADAGGEDQLAIRGSGVLARRLAHAAPAVPGSGKRPPVHGSVLVTGGTGGIGGRVARRLAEQGAAHLVLTSRRGADAPGAAELRAELEQLGVRVTIAACDAADREALAALLAELPEDAPLTAVFHSAGVAHDDAPVADLTLGQLDALMRAKLTAARHLHELTADLDLDAFVLFSSGAAVWGSGGQPGYAAANAYLDALAEHRRSLGLTASSVAWGTWGEVGMATDPEVHDRLVRQGVLAMEPEHALGALDQMLENDDTAAAITLMDWEMFAPAFTANRPSALLSTVPEAVSALS 5xwz-a2-m1-cC_5xwz-a2-m1-cD Crystal structure of a lactonase from Cladophialophora bantiana A0A0D2H023 A0A0D2H023 1.75 X-RAY DIFFRACTION 54 1.0 1442370 (Cladophialophora bantiana CBS 173.52) 1442370 (Cladophialophora bantiana CBS 173.52) 262 262 5xwz-a1-m1-cA_5xwz-a1-m1-cB ERLRSTILTKDGINWYYEQEGSGPDVVLIPDGLGDCQMFDKPMSIIGSSGFKVTTFDMPGMSRSSSAPPETYQDVTGQKLANYIVTVMDQLGIKTASVWGCSSGASTVLALCSGFPERVRNGMPHEVPTANPENLQNIHDADPATISRDMAAVSRAMSANEEAWDALGPEVHERLRDNYVRWAYGYPRTIPGSAATKTEDLHKVPIDWTVGAAGPTQVFFENVVIATRESIPIKTLPGFHFPYVSHPEAFAKYVVETTRKYL ERLRSTILTKDGINWYYEQEGSGPDVVLIPDGLGDCQMFDKPMSIIGSSGFKVTTFDMPGMSRSSSAPPETYQDVTGQKLANYIVTVMDQLGIKTASVWGCSSGASTVLALCSGFPERVRNGMPHEVPTANPENLQNIHDADPATISRDMAAVSRAMSANEEAWDALGPEVHERLRDNYVRWAYGYPRTIPGSAATKTEDLHKVPIDWTVGAAGPTQVFFENVVIATRESIPIKTLPGFHFPYVSHPEAFAKYVVETTRKYL 5xxa-a1-m1-cA_5xxa-a1-m1-cB beta-1,4-mannanase-SeMet-RmMan134A A0A0A1NDE2 A0A0A1NDE2 1.76 X-RAY DIFFRACTION 41 1.0 58291 (Rhizopus microsporus) 58291 (Rhizopus microsporus) 152 152 5xtj-a1-m1-cA_5xtj-a1-m1-cB GTETVPGLGQRKQQILNSGGGVWDLAIALETKNLGTDYVYGDGKTYDSANFGIFKQNWFLRTSTSQFKGQTTNQWNNGAVLNSNLQQDIKARQESQNYYGPDKWFAGHRNGESGLSNPYTQDITNYKDAVNWIHDQLASDPKYLSDDTRFWV GTETVPGLGQRKQQILNSGGGVWDLAIALETKNLGTDYVYGDGKTYDSANFGIFKQNWFLRTSTSQFKGQTTNQWNNGAVLNSNLQQDIKARQESQNYYGPDKWFAGHRNGESGLSNPYTQDITNYKDAVNWIHDQLASDPKYLSDDTRFWV 5xxe-a1-m1-cA_5xxe-a1-m1-cB Crystal structure of Poz1 and Tpz1 O13852 O13852 2.5 X-RAY DIFFRACTION 48 0.991 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 211 216 GSNEKIRSQSVLNTLETFFIKENHYDQREESSIVNACLRYLGYSKSCHEKPIFDIAFIEYCFNLSQQILWEYSLISNALERLENIELERQNCRELNKETLNNEALKLYSCAKAGICRWAFHFLEQEPIDHINFTKFLQDWGSHNEKEEALQRLSKHKIRKRLIYVSQHKKKPWSKFNSVLSRYIQCTKLQLEVFCDYDFKQREIVKLTSNI GSNEKIRSQSVLNTLETFFIKENHYDQREESSIVNACLRYLGYSKSCHEKPIFDIAFIEYCFNLSLDPPDSQQILWEYSLISNALERLENIELERQNCRELLNKETLNNEALKLYSCAKAGICRWAFHFLEQEPIDHINFTKFLQDWGSHNEKEEALQRLSKHKIRKRLIYVSQHKKKPWSKFNSVLSRYIQCTKLQLEVFCDYDFKQREIVKLTS 5xxl-a1-m1-cB_5xxl-a1-m1-cA Crystal structure of GH3 beta-glucosidase from Bacteroides thetaiotaomicron Q8A1U1 Q8A1U1 1.6 X-RAY DIFFRACTION 232 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 731 745 5xxm-a1-m1-cB_5xxm-a1-m1-cA 5xxn-a1-m1-cB_5xxn-a1-m1-cA 5xxo-a1-m1-cB_5xxo-a1-m1-cA DMDRFIDALMKKMTVEEKIGQLNLPVIAAKIKRGEVGGLFNLKGVEKIRDVQKQAVEQSRLGIPLLFGMDVIHGYETMFPIPLGLSCTWDMTAIEESARIAAIEASADGISWTFSPMVDISRDPRWGRVSEGSGEDPFLGAMIAEAMVLGYQGKDMQRNDEIMACVKHFALYGAGEGGRDYNTVDMSRQRMFNEYMLPYEAAVEAGVGSVMASFNEVDGVPATANKWLMTDVLRGQWGFNGFVVTDYTGISEMIDHGIGDLQTVSARAINAGVDMDMVSEGFVSTLKKSIQEGKVSMETLNTACRRILEAKYKLGLFDNPYKYCDLKRPARDIFTKAHRDAARRIAAESFVLLKNDNVTLRPGTPAEPLLPFNPKGNIAVIGPLADSRTNMPGTWSVAAVLDRCPSLVEGLKEMTAGKANILYAKGSNLISDASYEERATMFGRSLNRDNRTDEQLLNEALTVANQSDIIIAALGESSEMSGESSSRTDLNIPDVQQNLLKELLKTGKPVVLVLFTGRPLTLTWEQEHVPAILNVWFGGSEAAYAIGDALFGYVNPGGKLTMSFPKNVGQIPLYYAHKNTGRPLAQGKWFEKFRSNYLDVDNEPLYPFGYGLSYTTFSYGDIDLSRSTIDMTGELTAAVMVTNTGTWPGSEVVQLYIRDLVGSTTRPVKELKGFQKIFLEPGQSEIVRFKIAPEMLRYYNYDLQLVAEPGEFEVMIGTNSRDVKSARFTLK DMDRFIDALMKKMTVEEKIGQLNLPVTGEITTGQAKSSDIAAKIKRGEVGGLFNLKGVEKIRDVQKQAVEQSRLGIPLLFGMDVIHGYETMFPIPLGLSCTWDMTAIEESARIAAIEASADGISWTFSPMVDISRDPRWGRVSEGSGEDPFLGAMIAEAMVLGYQGKDMQRNDEIMACVKHFALYGAGEGGRDYNTVDMSRQRMFNEYMLPYEAAVEAGVGSVMASFNEVDGVPATANKWLMTDVLRGQWGFNGFVVTDYTGISEMIDHGIGDLQTVSARAINAGVDMDMVSEGFVSTLKKSIQEGKVSMETLNTACRRILEAKYKLGLFDNPYKYCDLKRPARDIFTKAHRDAARRIAAESFVLLKNDNVTLRPGTPAEPLLPFNPKGNIAVIGPLADSRTNMPGTWSVAAVLDRCPSLVEGLKEMTAGKANILYAKGSNLISDASYEERATMFGRSLNRDNRTDEQLLNEALTVANQSDIIIAALGESSEMSGESSSRTDLNIPDVQQNLLKELLKTGKPVVLVLFTGRPLTLTWEQEHVPAILNVWFGGSEAAYAIGDALFGYVNPGGKLTMSFPKNVGQIPLYYAHKNTGRPLAQGKWFEKFRSNYLDVDNEPLYPFGYGLSYTTFSYGDIDLSRSTIDMTGELTAAVMVTNTGTWPGSEVVQLYIRDLVGSTTRPVKELKGFQKIFLEPGQSEIVRFKIAPEMLRYYNYDLQLVAEPGEFEVMIGTNSRDVKSARFTLKL 5xxz-a1-m1-cB_5xxz-a1-m1-cA Crystal structure of a serine protease from Streptococcus species Q3HV58 Q3HV58 3.085 X-RAY DIFFRACTION 11 0.993 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 1285 1309 LPPVNTDIHDWVKTKGAWDKGYKGQGKVVAVIDTGIDPAHQSRISDVSTAKVKSKEDLARQKAAGINYGSWINDKVVFAHNYVEAGHVTGIVAGNSKEAAATGERFLGIAPEAQVFRVFANDVGSAESLFIKAIEDAVALGADVINLSLGTANGAQLSGSKPLEAIEKAKKAGVSVVVAAGNERVYGSDHDDPLATNPDYGLVGSPSTGRTPTSVAAINSKWVIQRLTVEELEKRADLNHGKAIYSESIKDSLGYDKSHQFAYQDVKGKIALIERDPNKTYDEIALAKKHGAISHEFGKASQLNGNGTGSVSKAPSQKGNENHFSNWGLTSDGYLKPDITAPGSQTGTAASPQIAGASLLVKQYLEKTQPNLPKEKIADIVKNLLSNAQIHVNPETKTTTSPRQQGAGLLNIDGAVTSGLYVTGKDNYGSISLGNITDTTFDVTVHNLSNKDKTLRYDTELLTDHVDPQKGRFTLTSRSLKTYQGGEVTVPANGKVTVRVTDVSQFTKELTKQPNGYYLEGFVRFRDSQDDQLNRVNIPFVGFKGQFENLAVAEESIYRLKSQGKTGFYFDESGPKDDIYVGKHFTGLVTLGSETNVSTKTISDNGLHTLGTFKNADGKFILEKNAQGNPVLAISPNGDNNQDFAAFKGVFLRKYQGLKASVYHASDKEHKNPLWVSPESFKGDKNFNSDIRFAKSTTLLGTAFSGKSLTGAELPDGYYHYVVSYYPDVVGAKRQETFDILDRQKPVLSQATFDPETNRFKPEPLKDRGLAGVRKDSVFYLERKDNKPYTVTINDSYKYVSVEDNKTFVERQADGSFILPLDKAKLGDFYYVEDFAGNVAIAKLGDHLPQTLGKTPIKLKLTDGNYQTKETLKDNLETQSDTGLVTNQAQLAVVHRNQPQSQLTKNQDFFISPNEDGNKDFVAFKGLENNVYNDLTVNVYAKDDHQKQTPIWSSQAGAGASAIESTAWYGITARGSKVPGDYQYVVTYRDEHGKEHQKQYTISVNDKKPITQGRFDTINGVDHFTPDKTKALGSSGIVREEVFYLAKKNGRKFDVTEGKDGITVSDNKVYIPKNPDGSYTISKRDGVTLSDYYYLVEDRAGNVSFATLRDLKAVGKDKAVVNFGLDLPVPEDKQIVNFTYLVRDADGKPIENLEYYNNSGNSLILPYGKYTVELLTYDTNAAKLESDKIVSFTLSADNNFQQVTFKTLATSQITAHFDHLLPEGSRVSLKTAQGQLIPLEQSLYVPKAYGKTVQEGTYEVVVSLPKGYRIELPNEVHELSLRLVK SLPPVNTDIHDWVKTKGAWDKGYKGQGKVVAVIDTGIDPAHQSRISDVSTAKVKSKEDLARQKAAGINYGSWINDKVVFAHNYVENSSAGHVTGIVAGNSKEAAATGERFLGIAPEAQVFRVFANDVGSAESLFIKAIEDAVALGADVINLSLGTANGAQLSGSKPLEAIEKAKKAGVSVVVAAGNERVYGSDHDDPLATNPDYGLVGSPSTGRTPTSVAAINSKWVIQRLTVEELEKRADLNHGKAIYSESVDFKNIKDSLGYDKSHQFAYVKESTDAQDVKGKIALIERDPNKYDEIALAKKHGALGVLIFIPSAFISHEFGKASQLNGNGTGSLEFDSVVSKAPSQKGNENHFSNWGLTSDGYLKPDITAPGQTGTAASPQIAGASLLVKQYLEKTQPNLPKEKIADIVKNLLSNAQIHVNPETKTTTSPRQQGAGLLNIDGAVTSGLYVTGKDNYGSISLGNITDTTFDVTVHNLSNKDKTLRYDTELLTDHVDPQKGRFTLTSRSLKTYQGGEVTVPANGKVTVRVTDVSQFTKELTKQPNGYYLEGFVRFRDSQDDQLNRVNIPFVGFKGQFENLAVAEESIYRLKSQGKTGFYFDESGPKDDIYVGKHFTGLVTLGSETNVSTKTISDNGLHTLGTFKNADGKFILEKNAQGNPVLAISPNGDNNQDFAAFKGVFLRKYQGLKASVYHASDKEHKNPLWVSPESFKGDKNFNSDIRFAKSTTLLGTAFSGKSLTGAELPDGYYHYVVSYYPDVVGAKRQETFDILDRQKPVLSQATFDPETNRFKPEPLKDRGLAGVRKDSVFYLERKDNKPYTVTINDSYKYVSVEDNKTFVERQADGSFILPLDKAKLGDFYYVEDFAGNVAIAKLGDHLPQTLGKTPIKLKLTDGNYQTKETLKDNLETQSDTGLVTNQAQLAVVHRNQPQSQLTKNQDFFISPNEDGNKDFVAFKGLENNVYNDLTVNVYAKDDHQKQTPIWSSQAGAGASAIESTAWYGITARGSKVPGDYQYVVTYRDEHGKEHQKQYTISVNDKKPITQGRFDTINGVDHFTPDKTKALGSSGIVREEVFYLAKKNGRKFDVTEGKDGITVSDNKVYIPKNPDGSYTISKRDGVTLSDYYYLVEDRAGNVSFATLRDLKAVGKDKAVVNFGLDLPVPEDKQIVNFTYLVRDADGKPIENLEYYNNSGNSLILPYGKYTVELLTYDTNAAKLESDKIVSFTLSADNNFQQVTFKTLATSQITAHFDHLLPEGSRVSLKTAQGQLIPLEQSLYVPKAYGKTVQEGTYEVVVSLPPNEVHELSLRLVK 5xyv-a1-m1-cA_5xyv-a1-m1-cB Crystal structure of drosophila melanogaster Rhino chromoshadow domain in complex with Deadlock N-terminal domain Q7JXA8 Q7JXA8 2.1 X-RAY DIFFRACTION 39 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 63 64 PFGVNRGLDLDKILHCYQMNDDLFMFVTWKGCSSIDAVHINDIKEAYPLQIIKYFESLRIIVP KPFGVNRGLDLDKILHCYQMNDDLFMFVTWKGCSSIDAVHINDIKEAYPLQIIKYFESLRIIVP 5xyw-a1-m1-cB_5xyw-a1-m1-cA Crystal structure of drosophila simulans Rhino chromoshadow domain in complex with N-terminal domain Q49BI5 Q49BI5 2.705 X-RAY DIFFRACTION 28 1.0 7240 (Drosophila simulans) 7240 (Drosophila simulans) 42 54 LDKVLHCYQMKELFLFVTWSIDAVPMKYIREAYPLQVIEFFQ GLDRGLELDKVLHCYQMKELFLFVTWKGCSSIDAVPMKYIREAYPLQVIEFFQS 5xyz-a1-m1-cA_5xyz-a1-m1-cB The structure of human BTK kinase domain in complex with a covalent inhibitor Q06187 Q06187 2.64 X-RAY DIFFRACTION 38 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 230 234 SWEIDPKDLTFLKELVKYGKWRGQYDVAIKMIKMSDEEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLRERFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRFPVRWSPPEVLMFSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMD SWEIDPKDLTFLKELVKYGKWRGQYDVAIKMIKMSEDEIEEAKVMMNLSHEKLVQLYGVCTKQRPIFIITEYMANGCLLNYLREMRHRFQTQQLLEMCKDVCEAMEYLESKQFLHRDLAARNCLVNDQGVVKVSDFGLSRFPVRWSPPEVLMSSKSDIWAFGVLMWEIYSLGKMPYERFTNSETAEHIAQGLRLYRPHLASEKVYTIMYSCWHEKADERPTFKILLSNILDVMD 5xza-a1-m1-cA_5xza-a1-m2-cA Crystal Structure of Phosphofructokinase from Staphylococcus aureus in complex with ADP P99165 P99165 1.9 X-RAY DIFFRACTION 97 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 322 322 5xoe-a1-m1-cA_5xoe-a1-m2-cA 5xz6-a1-m1-cA_5xz6-a1-m2-cA 5xz7-a1-m1-cA_5xz7-a1-m2-cA 5xz8-a1-m1-cA_5xz8-a1-m2-cA 5xz9-a1-m1-cA_5xz9-a1-m2-cA MKKIAVLTSGGDSPGMNAAVRAVVRTAIYNEIEVYGVYHGYQGLLNDDIHKLELGSVGDTIQRGGTFLYSARCPEFKEQEVRKVAIENLRKRGIEGLVVIGGDGSYRGAQRISEECKEIQTIGIPGTIDNDINGTDFTIGFDTALNTIIGLVDKIRDTASSHARTFIIEAMGRDCGDLALWAGLSVGAETIVVPEVKTDIKEIADKIEQGIKRGKKHSIVLVAEGCMTAQDCQKELSQYINVDNRVSVLGHVQRGGSPTGADRVLASRLGGYAVDLLMQGETAKGVGIKNNKIVATSFDEIFDGKDHKFDYSLYELANKLSI MKKIAVLTSGGDSPGMNAAVRAVVRTAIYNEIEVYGVYHGYQGLLNDDIHKLELGSVGDTIQRGGTFLYSARCPEFKEQEVRKVAIENLRKRGIEGLVVIGGDGSYRGAQRISEECKEIQTIGIPGTIDNDINGTDFTIGFDTALNTIIGLVDKIRDTASSHARTFIIEAMGRDCGDLALWAGLSVGAETIVVPEVKTDIKEIADKIEQGIKRGKKHSIVLVAEGCMTAQDCQKELSQYINVDNRVSVLGHVQRGGSPTGADRVLASRLGGYAVDLLMQGETAKGVGIKNNKIVATSFDEIFDGKDHKFDYSLYELANKLSI 5xzc-a2-m1-cB_5xzc-a2-m1-cC Cryo-EM structure of p300-p53 protein complex P04637 P04637 10.7 ELECTRON MICROSCOPY 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 1aie-a1-m1-cA_1aie-a1-m3-cA 1aie-a1-m2-cA_1aie-a1-m4-cA 1c26-a1-m1-cA_1c26-a1-m4-cA 1c26-a1-m2-cA_1c26-a1-m3-cA PLSSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKGEYFTLQIRGRERFEMFRELNEALELKDAQAG PLSSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKGEYFTLQIRGRERFEMFRELNEALELKDAQAG 5xzc-a2-m1-cB_5xzc-a2-m1-cD Cryo-EM structure of p300-p53 protein complex P04637 P04637 10.7 ELECTRON MICROSCOPY 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 1c26-a1-m1-cA_1c26-a1-m3-cA 1c26-a1-m2-cA_1c26-a1-m4-cA 1pes-a1-m1-cA_1pes-a1-m1-cB 1pes-a1-m1-cC_1pes-a1-m1-cD 1pet-a1-m1-cA_1pet-a1-m1-cB 1pet-a1-m1-cC_1pet-a1-m1-cD PLSSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKGEYFTLQIRGRERFEMFRELNEALELKDAQAG PLSSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKGEYFTLQIRGRERFEMFRELNEALELKDAQAG 5xzc-a2-m1-cC_5xzc-a2-m1-cE Cryo-EM structure of p300-p53 protein complex P04637 P04637 10.7 ELECTRON MICROSCOPY 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 PLSSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKGEYFTLQIRGRERFEMFRELNEALELKDAQAG PLSSSVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKGEYFTLQIRGRERFEMFRELNEALELKDAQAG 5xzo-a1-m1-cB_5xzo-a1-m1-cA Crystal structure of GH10 xylanase XYL10C from Bispora. sp MEY-1 D0QF43 D0QF43 1.5 X-RAY DIFFRACTION 33 1.0 554688 (Bispora sp. MEY-1) 554688 (Bispora sp. MEY-1) 333 335 5xzu-a1-m1-cB_5xzu-a1-m1-cA WGLNNAARADGKLWFGTAADIPGLEQDDRYYMKEYNNTHDFGGTTPANIMKFMFTEPEQNVFNFTGAQEFLDIAFASHKLVRCHNLIWQSELPTWVTNPTTNWTNETLSKVLQNHVYTLVSHFGDQCYSWDVVNEALSDDPAGSYQNNIWFDTIGPEYVAMAFEYAEKAVKDHKLNVKLYYNDYNIEYPGPKSTAAQNIVKELKARNIQIDGVGLESHFIAGETPSQATQITNMADFTSLDIDVAVTELDVRLYLPPNATSEAQQVADYYATVAACAATERCIGITVWDFDDTYSWVPSTFAGQGYADLFFQPDGPNTPLVKKAAYDGCLQAL WGLNNAARADGKLWFGTAADIPGLEQDDRYYMKEYNNTHDFGGTTPANIMKFMFTEPEQNVFNFTGAQEFLDIAFASHKLVRCHNLIWQSELPTWVTNPTTNWTNETLSKVLQNHVYTLVSHFGDQCYSWDVVNEALSDDPAGSYQNNIWFDTIGPEYVAMAFEYAEKAVKDHKLNVKLYYNDYNIEYPGPKSTAAQNIVKELKARNIQIDGVGLESHFIAGETPSQATQITNMADFTSLDIDVAVTELDVRLYLPPNATSEAQQVADYYATVAACAATERCIGITVWDFDDTYSWVPSTFAGQGYADLFFQPDGPNTPLVKKAAYDGCLQALQH 5y09-a1-m1-cB_5y09-a1-m4-cA Crystal structure of Deg9 at 295 K Q9FL12 Q9FL12 2.449 X-RAY DIFFRACTION 47 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 369 465 5y09-a1-m2-cB_5y09-a1-m3-cA VKVFCVHTEPNFSLPWQRKRQYSSGSSGFIIGGRRVLTNAHSVEHHTQVKLKYLATVLAIGTECDIALLTELLGLQIGGPAFCVGIAFYVIPTPVIVHFIQDYEKHDKYTGFPVLGIEWQKMENPDLRKSMGMESHQKGVRIRRIEPTAPESQVLKPSDIILSFDGVNIANDGTVPFRHGERIGFSYLISQKYTGDSALVKVLRNKEILEFNIKLAIHKRLIPAHISGKPPSYFIVAGFVFTTVSVPYLRSEYGKEYEFDAPVKLLEKHLHAMAQSVDEQLVVVSQVLVSDINIGYEEIVNTQVVAFNGKPVKNLKGLAGMVENCEDEYMKFNLDYDQIVVLDTKTAKEATLDILTTHCIPSAMSDDLK PSMDAVVKVFCVHTEPNFSLPWQRKRQYSSGSSGFIIGGRRVLTNAHSVEHHTQVKLKKRGSDTKYLATVLAIGTECDIALLTVTDDEFWEGVSPVEFGDLPALQDAVTVVGYPIGGDTISVTSGVVSRMEILSYVHGSTELLGLQIDAAINSGNSGGPAFNDKGKCVGIAFQSLKHEDAENIGYVIPTPVIVHFIQDYEKHDKYTGFPVLGIEWQKMENPDLRKSMGMESHQKGVRIRRIEPTAPESQVLKPSDIILSFDGVNIANDGTVPFRHGERIGFSYLISQKYTGDSALVKVLRNKEILEFNIKLAIHKRLIPAHISGKPPSYFIVAGFVFTTVSVPYLRSEYGKEYEFDAPVKLLEKHLHAMAQSVDEQLVVVSQVLVSDINIGYEEIVNTQVVAFNGKPVKNLKGLAGMVENCEDEYMKFNLDYDQIVVLDTKTAKEATLDILTTHCIPSAMSDDLK 5y0e-a1-m1-cB_5y0e-a1-m1-cA Crystal structure of TssK A0A3F2YLT8 A0A3F2YLT8 2.5 X-RAY DIFFRACTION 220 1.0 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 440 442 DAHKVVWTEGMFLRPHHFQQAENYLEGYMRNWGQAHSGCFWGFLTLDLDQTLLRQGKIALNAASGIMPDGTPFRFSGAQQAPAPLAIADNKTGENVVLALPTYRAGREDVIFQESPEALARYLAYENEVDDLNAVSVGSAALQFGRLRLRLMLESELNAEWTALGVTRVLEKRGDNSLRLDTAQIPPMLNCQGNPVLKTFINDLQGLLQQRSQQMSQRLLQPGGSSEMVDFMLLQLINRHLGQVSHAYHLDHLHPERLFADWLQFATELASFSAQRTPEGRLPVYDHDNLALCFGKLMLLLRQGLSVVLEDNAIQLTLVERSHGLNVATVQDTKMMRDFGFVLAVRADVAAEVLLTHFPAQMKIAPVTRIRDLVQLQLPGIGLRTMPVAPRQIPYHAGYTYFELEKGGDLWKQMEKSSAFALHLAGEFPGLDMEFWAIRS DAHKVVWTEGMFLRPHHFQQAENYLEGYMRNWGQAHSGCFWGFLTLDLDQTLLRQGKIALNAASGIMPDGTPFRFSGAQQAPAPLAIADNKTGENVVLALPTYRAGREDVIFQESPEALARYLAYENEVDDLNAVSVGSAALQFGRLRLRLMLESELNAEWTALGVTRVLEKRGDNSLRLDTAQIPPMLNCQGNPVLKTFINDLQGLLQQRSQQMSQRLLQPGRGGSSEMVDFMLLQLINRHLGQVSHAYHLDHLHPERLFADWLQFATELASFSAQRTPEGRLPVYDHDNLALCFGKLMLLLRQGLSVVLEDNAIQLTLVERSHGLNVATVQDTKMMRDFGFVLAVRADVAAEVLLTHFPAQMKIAPVTRIRDLVQLQLPGIGLRTMPVAPRQIPYHAGYTYFELEKGGDLWKQMEKSSAFALHLAGEFPGLDMEFWAIRS 5y0e-a1-m1-cC_5y0e-a1-m1-cA Crystal structure of TssK A0A3F2YLT8 A0A3F2YLT8 2.5 X-RAY DIFFRACTION 180 1.0 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 425 442 DAHKVVWTEGMFLRPHHFQQAENYLEGYMRNWGQAHSGCFWGFLTLDLDQTLLRQGKIALNAASGIMPDGTPFRFSGAQQAPAPLAIADNKTGENVVLALPTYRAGREDVIFQESPEALARYLAYENEVDDLNAVSVGSAALQFGRLRLRLMLESELNAEWTALGVTRVLEKRGDNSLRLDTAQIPPMLNCQGNPVLKTFINDLQGLLQQRSQQMSQRLLQPGRGGSSEMVDFMLLQLINRHLGQVSHAYHLDHLHPERLFADWLQFATELASFSAQRTPEGRLPVYDHDNLALCFGKLMLLLRQGLSVAIQLTLVERSHGLNVATVQDTKMMRDFGFVLAVRADVAAEVLLTHFPAQMKIRIRDLVQPGIGLRTMPVAPRQIPYHAGYTYFELEKWKQMEKSSAFALHLAGEFPGLDMEFWAIR DAHKVVWTEGMFLRPHHFQQAENYLEGYMRNWGQAHSGCFWGFLTLDLDQTLLRQGKIALNAASGIMPDGTPFRFSGAQQAPAPLAIADNKTGENVVLALPTYRAGREDVIFQESPEALARYLAYENEVDDLNAVSVGSAALQFGRLRLRLMLESELNAEWTALGVTRVLEKRGDNSLRLDTAQIPPMLNCQGNPVLKTFINDLQGLLQQRSQQMSQRLLQPGRGGSSEMVDFMLLQLINRHLGQVSHAYHLDHLHPERLFADWLQFATELASFSAQRTPEGRLPVYDHDNLALCFGKLMLLLRQGLSVVLEDNAIQLTLVERSHGLNVATVQDTKMMRDFGFVLAVRADVAAEVLLTHFPAQMKIAPVTRIRDLVQLQLPGIGLRTMPVAPRQIPYHAGYTYFELEKGGDLWKQMEKSSAFALHLAGEFPGLDMEFWAIRS 5y0e-a1-m1-cC_5y0e-a1-m1-cB Crystal structure of TssK A0A3F2YLT8 A0A3F2YLT8 2.5 X-RAY DIFFRACTION 171 0.995 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 425 440 DAHKVVWTEGMFLRPHHFQQAENYLEGYMRNWGQAHSGCFWGFLTLDLDQTLLRQGKIALNAASGIMPDGTPFRFSGAQQAPAPLAIADNKTGENVVLALPTYRAGREDVIFQESPEALARYLAYENEVDDLNAVSVGSAALQFGRLRLRLMLESELNAEWTALGVTRVLEKRGDNSLRLDTAQIPPMLNCQGNPVLKTFINDLQGLLQQRSQQMSQRLLQPGRGGSSEMVDFMLLQLINRHLGQVSHAYHLDHLHPERLFADWLQFATELASFSAQRTPEGRLPVYDHDNLALCFGKLMLLLRQGLSVAIQLTLVERSHGLNVATVQDTKMMRDFGFVLAVRADVAAEVLLTHFPAQMKIRIRDLVQPGIGLRTMPVAPRQIPYHAGYTYFELEKWKQMEKSSAFALHLAGEFPGLDMEFWAIR DAHKVVWTEGMFLRPHHFQQAENYLEGYMRNWGQAHSGCFWGFLTLDLDQTLLRQGKIALNAASGIMPDGTPFRFSGAQQAPAPLAIADNKTGENVVLALPTYRAGREDVIFQESPEALARYLAYENEVDDLNAVSVGSAALQFGRLRLRLMLESELNAEWTALGVTRVLEKRGDNSLRLDTAQIPPMLNCQGNPVLKTFINDLQGLLQQRSQQMSQRLLQPGGSSEMVDFMLLQLINRHLGQVSHAYHLDHLHPERLFADWLQFATELASFSAQRTPEGRLPVYDHDNLALCFGKLMLLLRQGLSVVLEDNAIQLTLVERSHGLNVATVQDTKMMRDFGFVLAVRADVAAEVLLTHFPAQMKIAPVTRIRDLVQLQLPGIGLRTMPVAPRQIPYHAGYTYFELEKGGDLWKQMEKSSAFALHLAGEFPGLDMEFWAIRS 5y0q-a1-m1-cA_5y0q-a1-m1-cB Crystal structure of BsTmcAL bound with AMPCPP O34513 O34513 2.1 X-RAY DIFFRACTION 61 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 401 401 5y0n-a1-m1-cA_5y0n-a1-m1-cB 5y0o-a1-m1-cA_5y0o-a1-m1-cB 5y0p-a1-m1-cA_5y0p-a1-m1-cB MKAVGLVVEYNPFHNGHLYHAQTAKLQTGCDTAVAVMSGHFLQRGEPAVVSKWARTKMALQSGVDLVIELPYLYAVQKADIFARGSVSILNELECEALFFGSENGDIKPFLETAQLIDEHKHILNDRIKEELKKGASYPAAAAIAFSSILHTESALDLSKPNNILGYQYVTSILTGGYPMKPYTTARINHIASATSIRKAMIGQNLEACLRFLPAASARELAAYRKSFGLWHTPESYFSYLKYSLSTVTARELQQVYEVEEGLEHRIIRSIRKSSSYQEFMELLKTKRYTWTRLQRMNTHILTRTKKQDMQKLLDNDKAPYIRLLGMTKKGQAYLSEKKKALSVPLVSKLSSFSHPALDLDVKASRIYSLPIEEPLRTEFDLQEYGHAPIRYDEDEQHFLN MKAVGLVVEYNPFHNGHLYHAQTAKLQTGCDTAVAVMSGHFLQRGEPAVVSKWARTKMALQSGVDLVIELPYLYAVQKADIFARGSVSILNELECEALFFGSENGDIKPFLETAQLIDEHKHILNDRIKEELKKGASYPAAAAIAFSSILHTESALDLSKPNNILGYQYVTSILTGGYPMKPYTTARINHIASATSIRKAMIGQNLEACLRFLPAASARELAAYRKSFGLWHTPESYFSYLKYSLSTVTARELQQVYEVEEGLEHRIIRSIRKSSSYQEFMELLKTKRYTWTRLQRMNTHILTRTKKQDMQKLLDNDKAPYIRLLGMTKKGQAYLSEKKKALSVPLVSKLSSFSHPALDLDVKASRIYSLPIEEPLRTEFDLQEYGHAPIRYDEDEQHFLN 5y0s-a2-m1-cC_5y0s-a2-m1-cD Crystal structure of apo Thermotoga maritima TmcAL(Form II) Q9X1K1 Q9X1K1 2.103 X-RAY DIFFRACTION 54 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 421 421 5y0r-a1-m1-cA_5y0r-a1-m2-cA 5y0s-a1-m1-cA_5y0s-a1-m1-cB 5y0t-a1-m1-cA_5y0t-a1-m1-cB 5y0t-a2-m1-cC_5y0t-a2-m1-cD MKVLGVVVEYNPFHNGHLYHLTSARELVKPDYTIAVMSGNFQRGEPAVIDKFARAEIALRMGVDVVLELPVVFATQDAGGFAFGAVCVLDATGVVTDVVFGSESNDIEFLQRVARILYEQPDEYQKFLHEELKKGYSFPNARKYALMRYFSMKGWNEEEVLKLEKSNDILGVEYIHSALKIGSNIRFHTIKRVGAEEKDTSFRGRFSSATAIRNLMREKRWEEVRDSLPEDSFEILMREINEGRGPVFLENMGDFLLSFFRLKNMDFFEKIHGFSEGLEKRFHVCARQTGSYRDFLECVKAKRFTFSRIRRLALFSVFEVNKEFVEKSNTKGPQYIRILGFTEKGREILSLMRKKAKLPIVTNMSLYRKVLEKTDLPVDKQLFLEQIDLDVKATNFYSMFFPSVEQRGERDFSIHPIFLRT MKVLGVVVEYNPFHNGHLYHLTSARELVKPDYTIAVMSGNFQRGEPAVIDKFARAEIALRMGVDVVLELPVVFATQDAGGFAFGAVCVLDATGVVTDVVFGSESNDIEFLQRVARILYEQPDEYQKFLHEELKKGYSFPNARKYALMRYFSMKGWNEEEVLKLEKSNDILGVEYIHSALKIGSNIRFHTIKRVGAEEKDTSFRGRFSSATAIRNLMREKRWEEVRDSLPEDSFEILMREINEGRGPVFLENMGDFLLSFFRLKNMDFFEKIHGFSEGLEKRFHVCARQTGSYRDFLECVKAKRFTFSRIRRLALFSVFEVNKEFVEKSNTKGPQYIRILGFTEKGREILSLMRKKAKLPIVTNMSLYRKVLEKTDLPVDKQLFLEQIDLDVKATNFYSMFFPSVEQRGERDFSIHPIFLRT 5y15-a1-m1-cB_5y15-a1-m1-cA Crystal structure of human DUSP28 Q4G0W2 Q4G0W2 2.1 X-RAY DIFFRACTION 66 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 143 148 5y16-a1-m1-cB_5y16-a1-m1-cA LVRVAPSLFLGSARAAGAEEQLARAGVTLCVNVSRQQPGPQAPGVAELRVPVFDDPAEDLLAHLEPTCAAMEAAVRAGGACLVYSKNGRSRSAAVCTAYLMRHRGLSLAKAFQMVKSARPVAEPNPGFWSQLQKYEEALQAQS ASPVPPPLVRVAPSLFLGSARAAGAEEQLARAGVTLCVNVSRQQPGPQAPGVAELRVPVFDDPAEDLLAHLEPTCAAMEAAVRAGGACLVYSKNGRSRSAAVCTAYLMRHRGLSLAKAFQMVKSARPVAEPNPGFWSQLQKYEEALQA 5y28-a1-m1-cB_5y28-a1-m1-cA Crystal structure of H. pylori HtrA with PDZ2 deletion G2J5T2 G2J5T2 3.08607 X-RAY DIFFRACTION 138 0.985 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 202 268 IQIQSMPKVKERVSVPSKDDTIYSYHDSIKDSIKAVVNISTEKMERALGSGVIISKDGYIVTNNHVIDGADKIKVTIPNKEYSATLVGTDSESDLAVIRITKDNLPTIKFSDSNDISVGDLVFAIGNPFGVGESVTQGIVSALFIQTDASINPGNSGGALIDSRGGLVGINTAIIHGIGFAIPSNMVKDTVTQLIKTGKIER QIQSMPKVKERVSVPSKDDTIYSYHDSIKDSIKAVVNISTMERALGSGVIISKDGYIVTNNHVIDGADKIKVTIPGSNKEYSATLVGTDSESDLAVIRITKDNLPTIKFSDSNDISVGDLVFAIGNPFGVGESVTQGIVSALNNFIQTDASINPGNSGGALIDSRGGLVGINTAIINHGIGFAIPSNMVKDTVTQLIKTGKIERGYLGVGLQDLSGDLQNSWDLITEVNGKKVKNTNELRNLIGSMLPNQRVTLKVIRDKKERAFTLT 5y2a-a1-m1-cA_5y2a-a1-m1-cB Crystal structure of Ostrinia furnacalis Group II chitinase catalytic domain 2 A0A221ZS22 A0A221ZS22 1.9 X-RAY DIFFRACTION 36 1.0 93504 (Ostrinia furnacalis) 93504 (Ostrinia furnacalis) 383 383 ERFKVVCYYTNWAWYRPDNGKYTPGDINPELCTHIIYAFAVLDKEELVIKSHDIWLDVENKFYEKVTALKSHGVKVLLGLGGWDDSAGDKYSRLVNNVSARRKFVVHAVDFLEQYGFDGLDLDWEYPKCWQVECEKGPDSDKQGFADLVKELRKAFNRRGMLLSAAVSASKRVIDYAYNVPALSMNLDWISLMTYDYHGQWDKKTGHVAPMYVHDKDTDNTFNVNFTVNYWINKGADRKKLVVGVPFYGQSFSVVEGAGTGLGAPTYAGGEAGDETRARGFLSFYEICERVKVKGWKVHRDPGGRIGPYATHDDQWVSFDDDFMARHKAEYVRAMELGGSMAWSLDLDDFTGKYCGCGKAPLLTTINHVLRGKEAPPPCILHE ERFKVVCYYTNWAWYRPDNGKYTPGDINPELCTHIIYAFAVLDKEELVIKSHDIWLDVENKFYEKVTALKSHGVKVLLGLGGWDDSAGDKYSRLVNNVSARRKFVVHAVDFLEQYGFDGLDLDWEYPKCWQVECEKGPDSDKQGFADLVKELRKAFNRRGMLLSAAVSASKRVIDYAYNVPALSMNLDWISLMTYDYHGQWDKKTGHVAPMYVHDKDTDNTFNVNFTVNYWINKGADRKKLVVGVPFYGQSFSVVEGAGTGLGAPTYAGGEAGDETRARGFLSFYEICERVKVKGWKVHRDPGGRIGPYATHDDQWVSFDDDFMARHKAEYVRAMELGGSMAWSLDLDDFTGKYCGCGKAPLLTTINHVLRGKEAPPPCILHE 5y2v-a1-m1-cD_5y2v-a1-m1-cA Strcutrue of the full-length CcmR complexed with 2-OG from Synechocystis PCC6803 P73862 P73862 2.6 X-RAY DIFFRACTION 126 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 302 304 5y2v-a1-m1-cC_5y2v-a1-m1-cB 5y2w-a1-m1-cA_5y2w-a1-m2-cA HMQATLHQLKVFEATARHGSFTRAAEELYITQPTVSSQIKQLSKTVGLPLFEQIGKRLYLTEAGQELLVTCQDIFQRLDNFAMKVADIKGTKQGRLRLAVITTAKYFIPRLLGEFIQKYPGIEVSLKVTNHEQIRHRMQNNEDDLYIVSEPPEEIDLNYQPFLDNPLVVIARRDHPLAGKSNIPITALNDEAFIMREKGSGTRLAVQNLFHRHYVDVRVRLELGSNEAIKQAIAGGMGISVLSQHTLVSEGARSELTILDIDEFPIKRRWYVANLAGKQLSVITQTFLDYLMAVTKNMPAPF HHMQATLHQLKVFEATARHGSFTRAAEELYITQPTVSSQIKQLSKTVGLPLFEQIGKRLYLTEAGQELLVTCQDIFQRLDNFAMKVADIKGTKQGRLRLAVITTAKYFIPRLLGEFIQKYPGIEVSLKVTNHEQIRHRMQNNEDDLYIVSEPPEEIDLNYQPFLDNPLVVIARRDHPLAGKSNIPITALNDEAFIMREKGSGTRLAVQNLFHRHYVDVRVRLELGSNEAIKQAIAGGMGISVLSQHTLVSEGARSELTILDIDEFPIKRRWYVANLAGKQLSVITQTFLDYLMAVTKNMPAPFA 5y2v-a1-m1-cD_5y2v-a1-m1-cB Strcutrue of the full-length CcmR complexed with 2-OG from Synechocystis PCC6803 P73862 P73862 2.6 X-RAY DIFFRACTION 81 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 302 303 5y2v-a1-m1-cC_5y2v-a1-m1-cA HMQATLHQLKVFEATARHGSFTRAAEELYITQPTVSSQIKQLSKTVGLPLFEQIGKRLYLTEAGQELLVTCQDIFQRLDNFAMKVADIKGTKQGRLRLAVITTAKYFIPRLLGEFIQKYPGIEVSLKVTNHEQIRHRMQNNEDDLYIVSEPPEEIDLNYQPFLDNPLVVIARRDHPLAGKSNIPITALNDEAFIMREKGSGTRLAVQNLFHRHYVDVRVRLELGSNEAIKQAIAGGMGISVLSQHTLVSEGARSELTILDIDEFPIKRRWYVANLAGKQLSVITQTFLDYLMAVTKNMPAPF HHMQATLHQLKVFEATARHGSFTRAAEELYITQPTVSSQIKQLSKTVGLPLFEQIGKRLYLTEAGQELLVTCQDIFQRLDNFAMKVADIKGTKQGRLRLAVITTAKYFIPRLLGEFIQKYPGIEVSLKVTNHEQIRHRMQNNEDDLYIVSEPPEEIDLNYQPFLDNPLVVIARRDHPLAGKSNIPITALNDEAFIMREKGSGTRLAVQNLFHRHYVDVRVRLELGSNEAIKQAIAGGMGISVLSQHTLVSEGARSELTILDIDEFPIKRRWYVANLAGKQLSVITQTFLDYLMAVTKNMPAPF 5y3b-a1-m1-cB_5y3b-a1-m1-cA Crystal structure of mouse Ccd1 DIX domain Q80Y83 Q80Y83 3 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 81 82 5y3b-a1-m1-cB_5y3b-a1-m1-cC 5y3b-a1-m1-cD_5y3b-a1-m1-cC 5y3b-a1-m1-cE_5y3b-a1-m1-cF 5y3b-a1-m1-cG_5y3b-a1-m1-cF TCTKVLYFTDRSLTPFMVNIPKRLGEVTLKDFKAAIDREGNHRYHFKALDPEFGTVKEEVFHDDDAIPGWEGKIVAWVEED STCTKVLYFTDRSLTPFMVNIPKRLGEVTLKDFKAAIDREGNHRYHFKALDPEFGTVKEEVFHDDDAIPGWEGKIVAWVEED 5y3b-a1-m1-cD_5y3b-a1-m1-cG Crystal structure of mouse Ccd1 DIX domain Q80Y83 Q80Y83 3 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 81 82 5y3b-a1-m1-cA_5y3b-a1-m1-cE 5y3b-a1-m1-cG_5y3b-a1-m1-cC TCTKVLYFTDRSLTPFMVNIPKRLGEVTLKDFKAAIDREGNHRYHFKALDPEFGTVKEEVFHDDDAIPGWEGKIVAWVEED STCTKVLYFTDRSLTPFMVNIPKRLGEVTLKDFKAAIDREGNHRYHFKALDPEFGTVKEEVFHDDDAIPGWEGKIVAWVEED 5y3d-a1-m1-cA_5y3d-a1-m1-cD Structural insight into the interaction between RNA polymerase and VPg for norovirus replication Q80J95 Q80J95 3.14 X-RAY DIFFRACTION 12 0.996 223997 (Murine norovirus 1) 223997 (Murine norovirus 1) 479 479 PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPAQRPSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSGVVPRHRSVLRWVRFG PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGHRPSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSGVVPRHRSVLRWVRFG 5y3d-a1-m1-cB_5y3d-a1-m1-cD Structural insight into the interaction between RNA polymerase and VPg for norovirus replication Q80J95 Q80J95 3.14 X-RAY DIFFRACTION 23 0.994 223997 (Murine norovirus 1) 223997 (Murine norovirus 1) 479 479 PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSGIEMVVPRHRSVLRWVRFG PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGHRPSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSGVVPRHRSVLRWVRFG 5y3d-a1-m1-cB_5y3d-a1-m1-cE Structural insight into the interaction between RNA polymerase and VPg for norovirus replication Q80J95 Q80J95 3.14 X-RAY DIFFRACTION 26 1.0 223997 (Murine norovirus 1) 223997 (Murine norovirus 1) 479 483 5y3d-a1-m1-cA_5y3d-a1-m1-cC PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSGIEMVVPRHRSVLRWVRFG PSGTYAGLPIADYGDAPPLSTKTMFWRTSPEKLPPGAWEPAYLGSKDERVDGPSLQQVMRDQLKPYSEPRGLLPPQEILDAVCDAIENRLENTLEPQKPWTFKKACESLDKNTSSGYPYHKQKSKDWTGSAFIGDLGDQATHANNMYEMGKSMRPIYTAALKDELVKPDKIYGKIKKRLLWGSDLGTMIRAARAFGPFCDALKETCIFNPIRVGMSMNEDGPFIFARHANFRYHMDADYTRWDSTQQRAILKRAGDIMVRLSPEPDLARVVMDDLLAPSLLDVGDYKIVVEEGLPSGCPCTTQLNSLAHWILTLCAMVEVTRVDPDIVMQESEFSFYGDDEVVSTNLELDMVKYTMALRRYGLLPTRADKEEGPLERRQTLQGISFLRRAIVGDQFGWYGRLDRASIDRQLLWTKGPNHQNPFETLPGHRPSQLMALLGEAAMHGEKYYRTVASRVSKEAAQSGIEMVVPRHRSVLRWVRFGT 5y41-a3-m1-cA_5y41-a3-m1-cB Crystal Structure of LIGAND-BOUND NURR1-LBD P43354 P43354 2.05 X-RAY DIFFRACTION 70 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 232 232 VSLISALVRAHVDSNPAMTSLDYSRFQANPDDDTQHIQQFYDLLTGSMEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNMNIDISAFSCIAALAMVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF PPVSLISALVRAHVDSNPAMTSLDYSRFQANPDTQHIQQFYDLLTGSMEIIRGWAEKIPGFADLPKADQDLLFESAFLELFVLRLAYRSNPVEGKLIFCNGVVLHRLQCVRGFGEWIDSIVEFSSNLQNMNIDISAFSCIAALAMVTERHGLKEPKRVEELQNKIVNCLKDHVTFNNGGLNRPNYLSKLLGKLPELRTLCTQGLQRIFYLKLEDLVPPPAIIDKLFLDTLPF 5y45-a1-m1-cD_5y45-a1-m1-cE Crystal structure of a collagen-like peptide with interruption sequence 1.03 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 5y45-a1-m1-cA_5y45-a1-m1-cB GPGPGPGPALGPGPGPGP GPGPGPGPALGPGPGPGP 5y45-a1-m1-cD_5y45-a1-m1-cF Crystal structure of a collagen-like peptide with interruption sequence 1.03 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 5y45-a1-m1-cA_5y45-a1-m1-cC GPGPGPGPALGPGPGPGP GPGPGPGPALGPGPGPGP 5y45-a1-m1-cE_5y45-a1-m1-cF Crystal structure of a collagen-like peptide with interruption sequence 1.03 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 5y45-a1-m1-cB_5y45-a1-m1-cC GPGPGPGPALGPGPGPGP GPGPGPGPALGPGPGPGP 5y46-a1-m1-cA_5y46-a1-m1-cB Crystal structure of a collagen-like peptide with interruption sequence 1.03 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 GPGPGPGPALGPGPGPGP GPGPGPGPALGPGPGPGP 5y46-a1-m1-cA_5y46-a1-m1-cC Crystal structure of a collagen-like peptide with interruption sequence 1.03 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 GPGPGPGPALGPGPGPGP GPGPGPGPALGPGPGPGP 5y46-a1-m1-cB_5y46-a1-m1-cC Crystal structure of a collagen-like peptide with interruption sequence 1.03 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 GPGPGPGPALGPGPGPGP GPGPGPGPALGPGPGPGP 5y4g-a1-m1-cB_5y4g-a1-m1-cA Apo Structure of AmbP3 V5TDY7 V5TDY7 2 X-RAY DIFFRACTION 20 1.0 230521 (Fischerella ambigua UTEX 1903) 230521 (Fischerella ambigua UTEX 1903) 292 295 TIVNRIRTDVVNVAKSFGAEYSEAVIDQIFQGFGEKFTNTGFAIRVQNKRNQKVDCNIRYGEAKENCLAWDIARESGLLSDQGHPVDTLIQEMFQAIPAIAYGADFDINYGLVKIWHLPKIVPVEEAFKIPSLPKSVNAHIDFFKKYHLDALCALTVDYRNKSTNLYFDAHHPEQRTTQFYKNILQSQQFEVPSDEVLEILVNCPEIAVTFNWSSPGIERMCFYTAFVNRETVPQHINPVLKKFAQEAPALLDNPGFLVGWSFGPDGTYIKIDVDYHGLVVPSFFHMHNLPL TIVNRIRTDVVNVAKSFGAEYSEAVIDQIFQGFGEKFTNTGFAIRVQNKRNQKVDCNIRYGEAKENCLAWDIARESGLLSDQGHPVDTLIQEMFQAIPAIAYGADFDINYGLVKIWHLPKIVPVEEAFKIPSLPKSVNAHIDFFKKYHLDALCALTVDYRNKSTNLYFDAHHPEQRTTQFYKNILQSQQFEVPSDEVLEILVNCPEIAVTFNWSSPGIERMCFYTAFVNRETVPQHINPVLKKFAQEAPALLDNPGFLVGWSFGPDAKKGTYIKIDVDYHGLVVPSFFHMHNLPL 5y4t-a1-m1-cA_5y4t-a1-m2-cA Crystal structure of Trx domain of Grx3 from Saccharomyces cerevisiae A6ZY62 A6ZY62 1.4 X-RAY DIFFRACTION 51 1.0 307796 (Saccharomyces cerevisiae YJM789) 307796 (Saccharomyces cerevisiae YJM789) 117 117 PVIEINDQEQFTYLTTTAAGDKLIVLYFHTSWAEPCKALKQVFEAISNEPSNSNVSFLSIDADENSEISELFEISAVPYFIIIHKGTILKELSGADPKEFVSLLEDCKNSVNSLEHH PVIEINDQEQFTYLTTTAAGDKLIVLYFHTSWAEPCKALKQVFEAISNEPSNSNVSFLSIDADENSEISELFEISAVPYFIIIHKGTILKELSGADPKEFVSLLEDCKNSVNSLEHH 5y53-a2-m1-cC_5y53-a2-m1-cE Crystal structure of AL2 PAL domain in complex with AtBMI1b binding site Q9SRM4 Q9SRM4 1.598 X-RAY DIFFRACTION 86 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 131 131 5xvl-a1-m1-cA_5xvl-a1-m2-cA 5xvw-a1-m1-cB_5xvw-a1-m1-cA 5xvw-a2-m1-cC_5xvw-a2-m1-cE 5y21-a1-m1-cA_5y21-a1-m1-cB 5y53-a1-m1-cB_5y53-a1-m1-cA SPRTVEEIFKDYSARRAALLRALTKDVDDFYSQCDPEKENLCLYGHPNESWEVNLPAEEVPPELPEPALGINFARDGMQRKDWLSLVAVHSDCWLLSVSFYFGARLNRNERKRLFSLINDLPTLFDVVTGR SPRTVEEIFKDYSARRAALLRALTKDVDDFYSQCDPEKENLCLYGHPNESWEVNLPAEEVPPELPEPALGINFARDGMQRKDWLSLVAVHSDCWLLSVSFYFGARLNRNERKRLFSLINDLPTLFDVVTGR 5y5s-a1-m1-c1_5y5s-a1-m1-cY Structure of photosynthetic LH1-RC super-complex at 1.9 angstrom resolution D2Z0P2 D2Z0P2 1.9 X-RAY DIFFRACTION 31 1.0 1050 (Thermochromatium tepidum) 1050 (Thermochromatium tepidum) 56 57 5b5m-a1-m1-c1_5b5m-a1-m1-c3 5b5m-a1-m1-c1_5b5m-a1-m1-cY 5b5m-a2-m1-cAK_5b5m-a2-m1-cd 5b5m-a2-m1-cd_5b5m-a2-m1-cf 5b5n-a1-m1-c1_5b5n-a1-m1-c3 5b5n-a1-m1-c1_5b5n-a1-m1-cY 5b5n-a2-m1-cAK_5b5n-a2-m1-cd 5b5n-a2-m1-cd_5b5n-a2-m1-cf 5y5s-a1-m1-c1_5y5s-a1-m1-c3 7c52-a1-m1-c1_7c52-a1-m1-c3 7c52-a1-m1-c1_7c52-a1-m1-cY MNANLYKIWLILDPRRVLVSIVAFQIVLGLLIHMIVLSTDLNWLDDNIPVSYQALG TMNANLYKIWLILDPRRVLVSIVAFQIVLGLLIHMIVLSTDLNWLDDNIPVSYQALG 5y5s-a1-m1-cA_5y5s-a1-m1-cD Structure of photosynthetic LH1-RC super-complex at 1.9 angstrom resolution D2Z0P2 D2Z0P2 1.9 X-RAY DIFFRACTION 31 1.0 1050 (Thermochromatium tepidum) 1050 (Thermochromatium tepidum) 54 55 3wmm-a1-m1-c1_3wmm-a1-m1-c3 3wmm-a1-m1-c1_3wmm-a1-m1-cY 3wmm-a1-m1-c3_3wmm-a1-m1-c5 3wmm-a1-m1-c5_3wmm-a1-m1-c7 3wmm-a1-m1-c7_3wmm-a1-m1-c9 3wmm-a1-m1-c9_3wmm-a1-m1-cA 3wmm-a1-m1-cA_3wmm-a1-m1-cD 3wmm-a1-m1-cD_3wmm-a1-m1-cF 3wmm-a1-m1-cF_3wmm-a1-m1-cI 3wmm-a1-m1-cI_3wmm-a1-m1-cK 3wmm-a1-m1-cK_3wmm-a1-m1-cO 3wmm-a1-m1-cO_3wmm-a1-m1-cQ 3wmm-a1-m1-cQ_3wmm-a1-m1-cS 3wmm-a1-m1-cS_3wmm-a1-m1-cU 3wmm-a1-m1-cU_3wmm-a1-m1-cW 3wmm-a1-m1-cW_3wmm-a1-m1-cY 4v8k-a1-m1-cA1_4v8k-a1-m1-cAY 4v8k-a1-m1-cA3_4v8k-a1-m1-cA1 4v8k-a1-m1-cA5_4v8k-a1-m1-cA3 4v8k-a1-m1-cA7_4v8k-a1-m1-cA9 4v8k-a1-m1-cAA_4v8k-a1-m1-cA9 4v8k-a1-m1-cAA_4v8k-a1-m1-cAD 4v8k-a1-m1-cAD_4v8k-a1-m1-cAF 4v8k-a1-m1-cAF_4v8k-a1-m1-cAI 4v8k-a1-m1-cAK_4v8k-a1-m1-cAI 4v8k-a1-m1-cAK_4v8k-a1-m1-cAO 4v8k-a1-m1-cAQ_4v8k-a1-m1-cAO 4v8k-a1-m1-cAQ_4v8k-a1-m1-cAS 4v8k-a1-m1-cAS_4v8k-a1-m1-cAU 4v8k-a1-m1-cAU_4v8k-a1-m1-cAW 4v8k-a1-m1-cAW_4v8k-a1-m1-cAY 4v8k-a2-m1-cB1_4v8k-a2-m1-cB3 4v8k-a2-m1-cB1_4v8k-a2-m1-cBY 4v8k-a2-m1-cB5_4v8k-a2-m1-cB3 4v8k-a2-m1-cB9_4v8k-a2-m1-cBA 4v8k-a2-m1-cBD_4v8k-a2-m1-cBA 4v8k-a2-m1-cBD_4v8k-a2-m1-cBF 4v8k-a2-m1-cBI_4v8k-a2-m1-cBF 4v8k-a2-m1-cBI_4v8k-a2-m1-cBK 4v8k-a2-m1-cBO_4v8k-a2-m1-cBK 4v8k-a2-m1-cBO_4v8k-a2-m1-cBQ 4v8k-a2-m1-cBQ_4v8k-a2-m1-cBS 4v8k-a2-m1-cBU_4v8k-a2-m1-cBS 4v8k-a2-m1-cBY_4v8k-a2-m1-cBW 5b5m-a1-m1-c3_5b5m-a1-m1-c5 5b5m-a1-m1-c5_5b5m-a1-m1-c7 5b5m-a1-m1-c7_5b5m-a1-m1-c9 5b5m-a1-m1-c9_5b5m-a1-m1-cA 5b5m-a1-m1-cA_5b5m-a1-m1-cD 5b5m-a1-m1-cD_5b5m-a1-m1-cF 5b5m-a1-m1-cF_5b5m-a1-m1-cI 5b5m-a1-m1-cI_5b5m-a1-m1-cK 5b5m-a1-m1-cK_5b5m-a1-m1-cO 5b5m-a1-m1-cO_5b5m-a1-m1-cQ 5b5m-a1-m1-cQ_5b5m-a1-m1-cS 5b5m-a1-m1-cS_5b5m-a1-m1-cU 5b5m-a1-m1-cU_5b5m-a1-m1-cW 5b5m-a1-m1-cW_5b5m-a1-m1-cY 5b5m-a2-m1-cAA_5b5m-a2-m1-cAC 5b5m-a2-m1-cAA_5b5m-a2-m1-cw 5b5m-a2-m1-cAC_5b5m-a2-m1-cAE 5b5m-a2-m1-cAE_5b5m-a2-m1-cAG 5b5m-a2-m1-cAG_5b5m-a2-m1-cAI 5b5m-a2-m1-cAI_5b5m-a2-m1-cAK 5b5m-a2-m1-cf_5b5m-a2-m1-ch 5b5m-a2-m1-ch_5b5m-a2-m1-cj 5b5m-a2-m1-cj_5b5m-a2-m1-cl 5b5m-a2-m1-cl_5b5m-a2-m1-cm 5b5m-a2-m1-cm_5b5m-a2-m1-cp 5b5m-a2-m1-cp_5b5m-a2-m1-cr 5b5m-a2-m1-cr_5b5m-a2-m1-cu 5b5m-a2-m1-cu_5b5m-a2-m1-cw 5b5n-a1-m1-c3_5b5n-a1-m1-c5 5b5n-a1-m1-c5_5b5n-a1-m1-c7 5b5n-a1-m1-c7_5b5n-a1-m1-c9 5b5n-a1-m1-c9_5b5n-a1-m1-cA 5b5n-a1-m1-cA_5b5n-a1-m1-cD 5b5n-a1-m1-cD_5b5n-a1-m1-cF 5b5n-a1-m1-cF_5b5n-a1-m1-cI 5b5n-a1-m1-cI_5b5n-a1-m1-cK 5b5n-a1-m1-cK_5b5n-a1-m1-cO 5b5n-a1-m1-cO_5b5n-a1-m1-cQ 5b5n-a1-m1-cQ_5b5n-a1-m1-cS 5b5n-a1-m1-cS_5b5n-a1-m1-cU 5b5n-a1-m1-cU_5b5n-a1-m1-cW 5b5n-a1-m1-cW_5b5n-a1-m1-cY 5b5n-a2-m1-cAA_5b5n-a2-m1-cAC 5b5n-a2-m1-cAA_5b5n-a2-m1-cw 5b5n-a2-m1-cAC_5b5n-a2-m1-cAE 5b5n-a2-m1-cAE_5b5n-a2-m1-cAG 5b5n-a2-m1-cAG_5b5n-a2-m1-cAI 5b5n-a2-m1-cAI_5b5n-a2-m1-cAK 5b5n-a2-m1-cf_5b5n-a2-m1-ch 5b5n-a2-m1-ch_5b5n-a2-m1-cj 5b5n-a2-m1-cj_5b5n-a2-m1-cl 5b5n-a2-m1-cl_5b5n-a2-m1-cm 5b5n-a2-m1-cm_5b5n-a2-m1-cp 5b5n-a2-m1-cp_5b5n-a2-m1-cr 5b5n-a2-m1-cr_5b5n-a2-m1-cu 5b5n-a2-m1-cu_5b5n-a2-m1-cw 5y5s-a1-m1-c5_5y5s-a1-m1-c3 5y5s-a1-m1-c5_5y5s-a1-m1-c7 5y5s-a1-m1-c7_5y5s-a1-m1-c9 5y5s-a1-m1-cA_5y5s-a1-m1-c9 5y5s-a1-m1-cD_5y5s-a1-m1-cF 5y5s-a1-m1-cF_5y5s-a1-m1-cI 5y5s-a1-m1-cI_5y5s-a1-m1-cK 5y5s-a1-m1-cO_5y5s-a1-m1-cK 5y5s-a1-m1-cO_5y5s-a1-m1-cQ 5y5s-a1-m1-cS_5y5s-a1-m1-cQ 5y5s-a1-m1-cS_5y5s-a1-m1-cU 5y5s-a1-m1-cW_5y5s-a1-m1-cU 5y5s-a1-m1-cW_5y5s-a1-m1-cY 7c52-a1-m1-c5_7c52-a1-m1-c3 7c52-a1-m1-c5_7c52-a1-m1-c7 7c52-a1-m1-c7_7c52-a1-m1-c9 7c52-a1-m1-cA_7c52-a1-m1-c9 7c52-a1-m1-cA_7c52-a1-m1-cD 7c52-a1-m1-cD_7c52-a1-m1-cF 7c52-a1-m1-cF_7c52-a1-m1-cI 7c52-a1-m1-cI_7c52-a1-m1-cK 7c52-a1-m1-cO_7c52-a1-m1-cK 7c52-a1-m1-cO_7c52-a1-m1-cQ 7c52-a1-m1-cS_7c52-a1-m1-cQ 7c52-a1-m1-cS_7c52-a1-m1-cU 7c52-a1-m1-cW_7c52-a1-m1-cU 7c52-a1-m1-cW_7c52-a1-m1-cY ANLYKIWLILDPRRVLVSIVAFQIVLGLLIHMIVLSTDLNWLDDNIPVSYQALG NANLYKIWLILDPRRVLVSIVAFQIVLGLLIHMIVLSTDLNWLDDNIPVSYQALG 5y63-a1-m1-cE_5y63-a1-m2-cE Crystal structure of Enterococcus faecalis AhpC H7C7A0 H7C7A0 2.87 X-RAY DIFFRACTION 77 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 165 165 5y63-a1-m1-cB_5y63-a1-m1-cA 5y63-a1-m1-cC_5y63-a1-m1-cD 5y63-a1-m2-cB_5y63-a1-m2-cA 5y63-a1-m2-cC_5y63-a1-m2-cD MNLINQKLFDFECDAYHDGEFTRVSTEDILGKWSIFFFYPADFSFVCPTELGDMQEHYAHLQELNCEVYSVSEDSHYVHKAWADATETIGKIKYPMLADPNGQLARFFGVLDEASGMAYRASFIVSPEGDIKSYEINDMGIGRNAEELVRKLEASQFVAEHGDKV MNLINQKLFDFECDAYHDGEFTRVSTEDILGKWSIFFFYPADFSFVCPTELGDMQEHYAHLQELNCEVYSVSEDSHYVHKAWADATETIGKIKYPMLADPNGQLARFFGVLDEASGMAYRASFIVSPEGDIKSYEINDMGIGRNAEELVRKLEASQFVAEHGDKV 5y63-a1-m2-cE_5y63-a1-m2-cD Crystal structure of Enterococcus faecalis AhpC H7C7A0 H7C7A0 2.87 X-RAY DIFFRACTION 59 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 165 167 5y63-a1-m1-cA_5y63-a1-m2-cA 5y63-a1-m1-cB_5y63-a1-m1-cC 5y63-a1-m1-cE_5y63-a1-m1-cD 5y63-a1-m2-cB_5y63-a1-m2-cC MNLINQKLFDFECDAYHDGEFTRVSTEDILGKWSIFFFYPADFSFVCPTELGDMQEHYAHLQELNCEVYSVSEDSHYVHKAWADATETIGKIKYPMLADPNGQLARFFGVLDEASGMAYRASFIVSPEGDIKSYEINDMGIGRNAEELVRKLEASQFVAEHGDKV MNLINQKLFDFECDAYHDGEFTRVSTEDILGKWSIFFFYPADFSFVCPTELGDMQEHYAHLQELNCEVYSVSEDSHYVHKAWADATETIGKIKYPMLADPNGQLARFFGVLDEASGMAYRASFIVSPEGDIKSYEINDMGIGRNAEELVRKLEASQFVAEHGDKVCP 5y64-a1-m1-cB_5y64-a1-m1-cC Phosphoglycerate mutase 1 H11 phosphorylated form complexed with KH1 P18669 P18669 2.149 X-RAY DIFFRACTION 30 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 233 233 1yfk-a1-m1-cB_1yfk-a1-m1-cA 1yjx-a1-m1-cB_1yjx-a1-m1-cA 1yjx-a2-m1-cC_1yjx-a2-m1-cD 1yjx-a3-m1-cF_1yjx-a3-m1-cE 1yjx-a4-m1-cH_1yjx-a4-m1-cG 1yjx-a5-m1-cI_1yjx-a5-m1-cJ 1yjx-a6-m1-cK_1yjx-a6-m1-cL 4gpi-a1-m1-cC_4gpi-a1-m1-cB 4gpz-a1-m1-cB_4gpz-a1-m1-cA 5y2i-a1-m1-cB_5y2i-a1-m1-cC 5y2u-a1-m1-cC_5y2u-a1-m1-cB 5y35-a1-m1-cB_5y35-a1-m1-cC 5y65-a1-m1-cB_5y65-a1-m1-cC 5zrm-a1-m1-cB_5zrm-a1-m1-cC 5zs7-a1-m1-cC_5zs7-a1-m1-cB 5zs8-a1-m1-cB_5zs8-a1-m1-cC 6isn-a1-m1-cB_6isn-a1-m1-cC AYKLVLIRHGESAWNLENRFSGWYDADLSPAGHEEAKRGGQALRDAGYEFDICFTSVQKRAIRTLWTVLDAIDQMWLPVVRTWRLNERHYGGLTGLNKAETAAKHGEAQVKIWRRSYDVPPPPMEPDHPFYSNISKDRRYADLTEDQLPSCESLKDTIARALPFWNEEIVPQIKEGKRVLIAAHGNSLRGIVKHLEGLSEEAIMELNLPTGIPIVYELDKNLKPIKPMQFLGD AAYKLVLIRGESAWNLENRFSGWYDADLSPAGHEEAKRGGQALRDAGYEFDICFTSVQKRAIRTLWTVLDAIDQMWLPVVRTWRLNERHYGGLTGLNKAETAAKHGEAQVKIWRRSYDVPPPPMEPDHPFYSNISKDRRYADLTEDQLPSCESLKDTIARALPFWNEEIVPQIKEGKRVLIAAHGNSLRGIVKHLEGLSEEAIMELNLPTGIPIVYELDKNLKPIKPMQFLGD 5y69-a1-m1-cB_5y69-a1-m1-cA Crystal structure of the L52M mutant of AcrIIA1 A8ATW7 A8ATW7 1.85 X-RAY DIFFRACTION 82 0.993 393130 (Listeria monocytogenes J0161) 393130 (Listeria monocytogenes J0161) 143 146 5y6a-a1-m1-cA_5y6a-a1-m1-cB TIKLLDEFLKKHDLTRYQLSKLTGISQNTLKDQNEKPLNKYTVSILRSLSISGLSVSDVLFELEDIEKNSDDLAGFKHLLDKYKLSFPAQEFELYCLIKEFESANIEVLPFTFNEEHVNIKKDVCKALENAITVLKEKKNELL IKLLDEFLKKHDLTRYQLSKLTGISQNTLKDQNEKPLNKYTVSILRSLSISGLSVSDVLFELEDIEKNSDDLAGFKHLLDKYKLSFPAQEFELYCLIKEFESANIEVLPFTFNRFENEEHVNIKKDVCKALENAITVLKEKKNELL 5y6i-a1-m1-cB_5y6i-a1-m1-cA Crystal structure of Pseudomonas aeruginosa HmgR Q9I2A1 Q9I2A1 2.517 X-RAY DIFFRACTION 175 0.996 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 234 243 VRSAEVGTDILKALAELSPATSLSRLAEHVGMPASKVHRYLQALIASGFAVQDASTNHYSLGREALRVGLAALDSMDVLKSAAAPLAELRDVLNETCFLAVWGNRGATVVQVEQAVRAVTVVTQVGSVLPLLGSSTGLVFAAFLPEREVAELREEELLADPAAYAVLLEGIRARGLHAIHGLLMPGVEALSAPVFDARGRVAAVLTVVGPAEEQGPAAERLLATTRAISWRMGY VRSAEVGTDILKALAELSPATSLSRLAEHVGMPASKVHRYLQALIASGFAVQDASTNHYSLGREALRVGLAALDSMDVLKSAAAPLAELRDVLNETCFLAVWGNRGATVVQVEQAVRAVTVVTQVGSVLPLLGSSTGLVFAAFLPEREVAELREEELAGADPAAYAVLLEGIRARGLHAIHGLLMPGVEALSAPVFDARGRVAAVLTVVGPASIFQAEEQGPAAERLLATTRAISWRMGYDGT 5y6o-a3-m1-cH_5y6o-a3-m1-cG Crystal structure of DAXX N-terminal four-helix bundle domain (4HB) in complex with ATRX P46100 P46100 3.1 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 105 5y6o-a1-m1-cA_5y6o-a1-m1-cB 5y6o-a1-m1-cB_5y6o-a1-m1-cC 5y6o-a2-m1-cD_5y6o-a2-m1-cE 5y6o-a2-m1-cF_5y6o-a2-m1-cE 5y6o-a3-m1-cH_5y6o-a3-m1-cI KCYKLENEKLFEEFLELCKMQTADHPEVVPFLYNRQQRAHSLFLASAEFCNILSRVLSRARSRPAKLYVYINELCTVLKAHSAKDPENRIAKKMLLEEIKANL KCYKLENEKLFEEFLELCKMQTADHPEVVPFLYNRQQRAHSLFLASAEFCNILSRVLSRARSRPAKLYVYINELCTVLKAHSAKKDPENRIAKKMLLEEIKANLS 5y6o-a3-m1-cI_5y6o-a3-m1-cG Crystal structure of DAXX N-terminal four-helix bundle domain (4HB) in complex with ATRX P46100 P46100 3.1 X-RAY DIFFRACTION 45 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 103 105 5y6o-a1-m1-cA_5y6o-a1-m1-cC 5y6o-a2-m1-cF_5y6o-a2-m1-cD CYKLENEKLFEEFLELCKMQTADHPEVVPFLYNRQQRAHSLFLASAEFCNILSRVLSRARSRPAKLYVYINELCTVLKAHSAKNDPENRIAKKMLLEEIKANL KCYKLENEKLFEEFLELCKMQTADHPEVVPFLYNRQQRAHSLFLASAEFCNILSRVLSRARSRPAKLYVYINELCTVLKAHSAKKDPENRIAKKMLLEEIKANLS 5y6p-a1-m1-cd9_5y6p-a1-m1-cc9 Structure of the phycobilisome from the red alga Griffithsia pacifica 3.5 ELECTRON MICROSCOPY 76 1.0 35689 (Griffithsia pacifica) 35689 (Griffithsia pacifica) 239 245 5y6p-a1-m1-cD2_5y6p-a1-m1-cC2 5y6p-a1-m1-cd3_5y6p-a1-m1-cc3 5y6p-a1-m1-cd8_5y6p-a1-m1-cc8 5y6p-a1-m1-cd8_5y6p-a1-m1-ce8 5y6p-a1-m1-cd9_5y6p-a1-m1-ce9 VLRSPVPSGAATVYGYVGRGNISVILAKADEYMAKSVRKQYLAKSNPYGTFGVQCTEGSVKFAADFSRIRALNAEFRAKLGSASKKTFDMYENRKNAISNSHGCHHEETQFVGYKGVSSMYNVSKSEASGSCSRYASPETVVEAAMLRFMDIQVKMAANPTGVYNISCNEGAARGQAEDVRVAALNAAFRQGQKSLGKLLDEKYQQKKQGYSFAHGCNYEEGLINKYPALGAAFRSKSY VLRTVLRSPVPSGAATVYGYVGRGNISVILAKADEYMAKSVRKQYLAKSNPYGTFGVQCTEGSVKFAADFSRIRALNAEFRAKLGSASKKTFDMYENRKNAISNSHGCHHEETQFVGYKGVSSMYNVSKSEASGSCSRYASPETVVEAAMLRFMDIQVKMAANPTGVYNISCNEGAARGQAEDVRVAALNAAFRQGQKSLGKLLDEKYQQKKQGYSFAHGCNYEEGLINKYPALGAAFRSKSYGY 5y6p-a1-m1-cdy_5y6p-a1-m1-cdz Structure of the phycobilisome from the red alga Griffithsia pacifica 3.5 ELECTRON MICROSCOPY 43 1.0 35689 (Griffithsia pacifica) 35689 (Griffithsia pacifica) 303 303 DYGITLDTLLYHPTPTISGVEDKDLICYSVWKQVFGNAYVMESERADAYVPESMFRAGQIPLREFVRGVALSATYRRRFFECCGPYRAVELNFRHLLGRAPVSQKEVSEHIKLIAAKGFEAEINSYIDSEEYEEAFGDDLVPYMRFKGTYTTCEEFNRMCTMYSAPGTTDKSLSIRARTQGIENPNHVLSLDGAGVPSKLVSIIAMGSHSSFVPVKRALPSRPDLEFGQSTKAPAQVNENANPVSRVEVCMGSYMYLTAEEAAQYNTDVMEQDQIASYAETEISEAETEIARLQAKIAELNLI DYGITLDTLLYHPTPTISGVEDKDLICYSVWKQVFGNAYVMESERADAYVPESMFRAGQIPLREFVRGVALSATYRRRFFECCGPYRAVELNFRHLLGRAPVSQKEVSEHIKLIAAKGFEAEINSYIDSEEYEEAFGDDLVPYMRFKGTYTTCEEFNRMCTMYSAPGTTDKSLSIRARTQGIENPNHVLSLDGAGVPSKLVSIIAMGSHSSFVPVKRALPSRPDLEFGQSTKAPAQVNENANPVSRVEVCMGSYMYLTAEEAAQYNTDVMEQDQIASYAETEISEAETEIARLQAKIAELNLI 5y6u-a1-m1-cB_5y6u-a1-m1-cC Crystal structure of wild-type YabJ protein from Bacillus subtilis (natto). D4G3D4 D4G3D4 1.5 X-RAY DIFFRACTION 74 1.0 645657 (Bacillus subtilis subsp. natto BEST195) 645657 (Bacillus subtilis subsp. natto BEST195) 124 124 1qd9-a1-m1-cA_1qd9-a1-m1-cB 1qd9-a1-m1-cA_1qd9-a1-m1-cC 1qd9-a1-m1-cB_1qd9-a1-m1-cC 5y6u-a1-m1-cA_5y6u-a1-m1-cB 5y6u-a1-m1-cA_5y6u-a1-m1-cC TKAVHTKHAPAAIGPYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARSCVEVARLPKDALVEIEVIALVK TKAVHTKHAPAAIGPYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARSCVEVARLPKDALVEIEVIALVK 5y78-a1-m1-cA_5y78-a1-m1-cB Crystal structure of the triose-phosphate/phosphate translocator in complex with inorganic phosphate B5AJT1 B5AJT1 2.1 X-RAY DIFFRACTION 39 1.0 130081 (Galdieria sulphuraria) 130081 (Galdieria sulphuraria) 305 305 5y79-a1-m1-cA_5y79-a1-m1-cB SPTLVHTLKVGFYFFLWYFFNFIFNIANKRTLNMWKYPWVLSTIQLGVGALYCTFLWVLGLRTKPNVSKKLIKALIWPSLGHTLGHAATCMSFSLVAISFTHVVKSAEPVFGAVGSALVLGEFFHPLTYLTLVPIVSGVALSAATELTFTWTGFITAMISNVAFVTRNITSKFTMVDFKNEKTLIAQNTYALITIISFFMELPFALLMEGFPPLVSAIAGVSKAKLFGSIMFCSLFYHLYNEVSYLCLDNVSPVSFSIGNTIKRVIIIFGSILVFRTPVTRLNFIGSTIAIIGTMLYSLAKAKLP SPTLVHTLKVGFYFFLWYFFNFIFNIANKRTLNMWKYPWVLSTIQLGVGALYCTFLWVLGLRTKPNVSKKLIKALIWPSLGHTLGHAATCMSFSLVAISFTHVVKSAEPVFGAVGSALVLGEFFHPLTYLTLVPIVSGVALSAATELTFTWTGFITAMISNVAFVTRNITSKFTMVDFKNEKTLIAQNTYALITIISFFMELPFALLMEGFPPLVSAIAGVSKAKLFGSIMFCSLFYHLYNEVSYLCLDNVSPVSFSIGNTIKRVIIIFGSILVFRTPVTRLNFIGSTIAIIGTMLYSLAKAKLP 5y7d-a1-m1-cA_5y7d-a1-m2-cA Crystal structure of human Endothelial-overexpressed LPS associated factor 1 Q8TE69 Q8TE69 1.71 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 161 161 GMKFGCLSFRQPYAGFVLNGIKTVETRWRPLLSSQRNCTIAVHIAHRDWEGDAWRELLVERLGMTPAQIQTLLRKGEKFGRGVIAGLVDIGETLQCPEDLTPDEVVELENQAVLTNLKQKYLTVISNPRWLLEPIPRKGGKDVFQVDIPEHLIPLGHEVLE GMKFGCLSFRQPYAGFVLNGIKTVETRWRPLLSSQRNCTIAVHIAHRDWEGDAWRELLVERLGMTPAQIQTLLRKGEKFGRGVIAGLVDIGETLQCPEDLTPDEVVELENQAVLTNLKQKYLTVISNPRWLLEPIPRKGGKDVFQVDIPEHLIPLGHEVLE 5y82-a1-m1-cA_5y82-a1-m1-cB Crystal structure of the periplasmic domain of the Thermotoga maritima YidC Q9X1H2 Q9X1H2 2.517 X-RAY DIFFRACTION 14 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 199 199 IKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTMVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSMVYNYGYVKKIFTIKNNENYTFFVDIESSKPVDVTVPRVSVDTSTDRYMENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPG IKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTMVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSMVYNYGYVKKIFTIKNNENYTFFVDIESSKPVDVTVPRVSVDTSTDRYMENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPG 5y82-a1-m1-cB_5y82-a1-m1-cD Crystal structure of the periplasmic domain of the Thermotoga maritima YidC Q9X1H2 Q9X1H2 2.517 X-RAY DIFFRACTION 10 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 199 199 5y82-a1-m1-cA_5y82-a1-m1-cC IKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTMVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSMVYNYGYVKKIFTIKNNENYTFFVDIESSKPVDVTVPRVSVDTSTDRYMENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPG IKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTMVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSMVYNYGYVKKIFTIKNNENYTFFVDIESSKPVDVTVPRVSVDTSTDRYMENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPG 5y82-a1-m1-cC_5y82-a1-m1-cD Crystal structure of the periplasmic domain of the Thermotoga maritima YidC Q9X1H2 Q9X1H2 2.517 X-RAY DIFFRACTION 11 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 199 199 IKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTMVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSMVYNYGYVKKIFTIKNNENYTFFVDIESSKPVDVTVPRVSVDTSTDRYMENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPG IKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTMVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSMVYNYGYVKKIFTIKNNENYTFFVDIESSKPVDVTVPRVSVDTSTDRYMENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPG 5y8f-a1-m1-cA_5y8f-a1-m1-cB Crystal Structure of a prokaryotic SEFIR domain C2XMK4 C2XMK4 2 X-RAY DIFFRACTION 37 1.0 526989 (Bacillus cereus F65185) 526989 (Bacillus cereus F65185) 144 144 SPHVFISYSWSSEDHKEWVLDLANKLMKESGVEVILDRWHGVVGHDRFEFMENSIKIADKVLVICDKDYCEKANTRRGGVGTETMIITPNIYNNTKQEKFIPISLGEENGEYFLPDFFKSRFALGWNYEDIDKSYKELERLIWE SPHVFISYSWSSEDHKEWVLDLANKLMKESGVEVILDRWHGVVGHDRFEFMENSIKIADKVLVICDKDYCEKANTRRGGVGTETMIITPNIYNNTKQEKFIPISLGEENGEYFLPDFFKSRFALGWNYEDIDKSYKELERLIWE 5y8l-a1-m1-cB_5y8l-a1-m1-cA Mycobacterium tuberculosis 3-Hydroxyisobutyrate dehydrogenase (MtHIBADH) + NAD +(S)-3-hydroxyisobutyrate (S-HIBA) P9WNY5 P9WNY5 1.85 X-RAY DIFFRACTION 218 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 290 291 5y8g-a1-m1-cA_5y8g-a1-m1-cB 5y8h-a1-m1-cB_5y8h-a1-m1-cA 5y8i-a1-m1-cB_5y8i-a1-m1-cA 5y8j-a1-m1-cA_5y8j-a1-m1-cB 5y8k-a1-m1-cA_5y8k-a1-m1-cB 5y8m-a1-m1-cA_5y8m-a1-m1-cB 5y8n-a1-m1-cA_5y8n-a1-m1-cB 5y8o-a1-m1-cA_5y8o-a1-m1-cB 5y8p-a1-m1-cA_5y8p-a1-m1-cB MTTIAFLGLGNMGAPMSANLVGAGHVVRGFDPAPTAASGAAAHGVAVFRSAPEAVAEADVVITMLPTGEVVRRCYTDVLAAARPATLFIDSSTISVTDAREVHALAESHGMLQLDAPVSGGVKGAAAATLAFMVGGDESTLRRARPVLEPMAGKIIHCGAAGAGQAAKVCNNMVLAVQQIAIAEAFVLAEKLGLSAQSLFDVITGATGNCWAVHTNCPVPGPVPTSPANNDFKPGFSTALMNKDLGLAMDAVAATGATAPLGSHAADIYAKFAADHADLDFSAVIHTLRA TTIAFLGLGNMGAPMSANLVGAGHVVRGFDPAPTAASGAAAHGVAVFRSAPEAVAEADVVITMLPTGEVVRRCYTDVLAAARPATLFIDSSTISVTDAREVHALAESHGMLQLDAPVSGGVKGAAAATLAFMVGGDESTLRRARPVLEPMAGKIIHCGAAGAGQAAKVCNNMVLAVQQIAIAEAFVLAEKLGLSAQSLFDVITGATGNCWAVHTNCPVPGPVPTSPANNDFKPGFSTALMNKDLGLAMDAVAATGATAPLGSHAADIYAKFAADHADLDFSAVIHTLRARA 5y8q-a1-m1-cB_5y8q-a1-m2-cB ZsYellow at pH 8.0 Q9U6Y4 Q9U6Y4 2.9 X-RAY DIFFRACTION 63 1.0 105402 (Zoanthus sp.) 105402 (Zoanthus sp.) 223 223 1xa9-a1-m1-cA_1xa9-a1-m3-cA 1xa9-a1-m2-cA_1xa9-a1-m4-cA 1xae-a1-m1-cB_1xae-a1-m1-cA 1xae-a1-m2-cB_1xae-a1-m2-cA 2ogr-a1-m1-cA_2ogr-a1-m1-cD 2ogr-a1-m1-cB_2ogr-a1-m1-cC 5y8q-a1-m1-cA_5y8q-a1-m2-cA 5y8r-a1-m1-cA_5y8r-a1-m3-cA 5y8r-a1-m2-cA_5y8r-a1-m4-cA 6lof-a1-m1-cA_6lof-a1-m2-cA 6lof-a1-m1-cB_6lof-a1-m2-cB SKHGLKEEMTMKYHMEGCVNGHKFVITGEGIGYPFKGKQTINLCVIEGGPLPFSEDILSAGDRIFTEYPQDIVDYFKNSCPAGYTWGRSFLFEDGAVCICNVDITVSVKENCIYHKSIFNGVNFPADGPVMKKMTTNWEASCEKIMPVPKQGILKGDVSMYLLLKDGGRYRCQFDTVYKAKSVPSKMPEWHFIQHKLLREDRSDAKNQKWQLTEHAIAFPSAL SKHGLKEEMTMKYHMEGCVNGHKFVITGEGIGYPFKGKQTINLCVIEGGPLPFSEDILSAGDRIFTEYPQDIVDYFKNSCPAGYTWGRSFLFEDGAVCICNVDITVSVKENCIYHKSIFNGVNFPADGPVMKKMTTNWEASCEKIMPVPKQGILKGDVSMYLLLKDGGRYRCQFDTVYKAKSVPSKMPEWHFIQHKLLREDRSDAKNQKWQLTEHAIAFPSAL 5y9d-a1-m1-cB_5y9d-a1-m1-cA Crystal structure of acyl-coA oxidase1 from Yarrowia lipolytica O74934 O74934 2.5 X-RAY DIFFRACTION 331 0.999 284591 (Yarrowia lipolytica CLIB122) 284591 (Yarrowia lipolytica CLIB122) 682 687 TTNTFTDPPVEMAKERGKTQFTVRDVTNFLNGGEEETQIVEKIMSSIERDPVLSVTADYDCNLQQARKQTMERVAALSPYLVTDTEKLSLWRAQLHGMVDMSTRTRLSIHNNLFIGSIRGSGTPEQFKYWVKKGAVAVKQFYGCFAMTELGHGSNLKGLETTATYDQDSDQFIINTPHIGATKWWIGGAAHTSTHCVCFAKLIVHGKDYGTRNFVVPLRNVHDHSLKVGVSIGDIGKKMGRDGVDNGWIQFTNVRIPRQNMLMRYAKVSDTGVVTKPYGALIRGRVSMIADSFHVSKRFLTIALRYACVRRQFGTSGDTKETKIIDYPYHQRRLLPLLAYCYAMKMGADEAQKTWIETTDRILALNPNDPAQKNDLEKAVTDTKELFAASAGMKAFTTWGCAKIIDECRQACGGHGYSGYNGFGQGYADWVVQCTWEGDNNVLCLSMGRGLVQSALQILAGKHVGASIQYVGDKSKISQNGQGTPREQLLSPEFLVEAFRTASRNNILRTTDKYQELVKTLNPDQAFEELSQQRFQCARIHTRQHLISSFYARIATAKDDIKPHLLKLANLFALWSIEEDTGIFLRENILTPGDIDLINSLVDELCVAVRDQVIGLTDAFGLSDFFINAPIGSYDGNVYEKYFAKVNQQNPATNPRPPYYESTLKPFLFREEEDDEICDLDE TTNTFTDPPVEMAKERGKTQFTVRDVTNFLNGGEEETQIVEKIMSSIERDPVLSVTADYDCNLQQARKQTMERVAALSPYLVTDTEKLSLWRAQLHGMVDMSTRTRLSIHNNLFIGSIRGSGTPEQFKYWVKKGAVAVKQFYGCFAMTELGHGSNLKGLETTATYDQDSDQFIINTPHIGATKWWIGGAAHTSTHCVCFAKLIVHGKDYGTRNFVVPLRNVHDHSLKVGVSIGDIGKKMGRDGVDNGWIQFTNVRIPRQNMLMRYAKVSDTGVVTKPALDQLTYGALIRGRVSMIADSFHVSKRFLTIALRYACVRRQFGTSGDTKETKIIDYPYHQRRLLPLLAYCYAMKMGADEAQKTWIETTDRILALNPNDPAQKNDLEKAVTDTKELFAASAGMKAFTTWGCAKIIDECRQACGGHGYSGYNGFGQGYADWVVQCTWEGDNNVLCLSMGRGLVQSALQILAGKHVGASIQYVGDKSKISQNGQGTPREQLLSPEFLVEAFRTASRNNILRTTDKYQELVKTLNPDQAFEELSQQRFQCARIHTRQHLISSFYARIATAKDDIKPHLLKLANLFALWSIEEDTGIFLRENILTPGDIDLINSLVDELCVAVRDQVIGLTDAFGLSDFFINAPIGSYDGNVYEKYFAKVNQQNPATNPRPPYYESTLKPFLFREEEDDEICDLD 5y9p-a2-m1-cA_5y9p-a2-m2-cA Staphylococcus aureus RNase HII Q2FZ38 Q2FZ38 2.2 X-RAY DIFFRACTION 91 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 212 212 ALEKEQALKEKYVEMTYFENEILKEHPNAIICGIDEVGRGPLAGPVVACATILNSNHNYLGLVPVTKRLELNEALKNEVTAFAYGIATAEEIDEFNIYKATQIAMQRAIDGLSVQPTHLLIDAMTLDNALPQVSLIKGDARSVSIAAASIMAKVFRDDYMTQLSKDYPEYGFEKNAGYGTKQHLLAIDDIGIMKEHRKSFEPIKSLLLEHHH ALEKEQALKEKYVEMTYFENEILKEHPNAIICGIDEVGRGPLAGPVVACATILNSNHNYLGLVPVTKRLELNEALKNEVTAFAYGIATAEEIDEFNIYKATQIAMQRAIDGLSVQPTHLLIDAMTLDNALPQVSLIKGDARSVSIAAASIMAKVFRDDYMTQLSKDYPEYGFEKNAGYGTKQHLLAIDDIGIMKEHRKSFEPIKSLLLEHHH 5y9s-a1-m1-cA_5y9s-a1-m1-cC Crystal structure of VV2_1132, a LysR family transcriptional regulator 2.199 X-RAY DIFFRACTION 100 0.996 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 277 291 MNNPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNILEDKLEKCVIHSEKVVPVVAPRLLIPYLSYSEHTFLSKVVEPVLLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEIDK MNNPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNISAMRPSLSLEDKLEKCVIHSEKVVPVVAPRLLTIPYLSYSEHTFLSKVVEPVLKTLPLTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID 5y9s-a1-m1-cA_5y9s-a1-m1-cD Crystal structure of VV2_1132, a LysR family transcriptional regulator 2.199 X-RAY DIFFRACTION 59 0.989 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 277 293 5y9s-a1-m1-cB_5y9s-a1-m1-cC MNNPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNILEDKLEKCVIHSEKVVPVVAPRLLIPYLSYSEHTFLSKVVEPVLLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEIDK NPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNISAMRPSLSLEDKLEKCVIHSEKVVPVVAPRLLESLQTIPYLSYSEHTFLSKVVEPVLKTLPLTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID 5y9s-a1-m1-cB_5y9s-a1-m1-cA Crystal structure of VV2_1132, a LysR family transcriptional regulator 2.199 X-RAY DIFFRACTION 97 0.982 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 272 277 NPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNDKLEKCVIHSEKVVPVVAPRLLEQTIPYLSYSEHTFLSKVVEPVLKTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID MNNPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNILEDKLEKCVIHSEKVVPVVAPRLLIPYLSYSEHTFLSKVVEPVLLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEIDK 5y9s-a1-m1-cB_5y9s-a1-m1-cD Crystal structure of VV2_1132, a LysR family transcriptional regulator 2.199 X-RAY DIFFRACTION 57 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 272 293 NPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNDKLEKCVIHSEKVVPVVAPRLLEQTIPYLSYSEHTFLSKVVEPVLKTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID NPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNISAMRPSLSLEDKLEKCVIHSEKVVPVVAPRLLESLQTIPYLSYSEHTFLSKVVEPVLKTLPLTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID 5y9s-a1-m1-cC_5y9s-a1-m1-cD Crystal structure of VV2_1132, a LysR family transcriptional regulator 2.199 X-RAY DIFFRACTION 116 0.993 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 291 293 MNNPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNISAMRPSLSLEDKLEKCVIHSEKVVPVVAPRLLTIPYLSYSEHTFLSKVVEPVLKTLPLTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID NPLEFKWLEDFLSLMELGNFSAAAKARFVTQSAFSRRIQALEVWIGVPLFDRTSYPITLTEHGQKFVPYAENLLNQVKVTKEDFAQASLKTDHTVRIVCLHTLAVNLLPKLFLQSAEALSHLNLSVTPSVLGIDAHFQMLEDHSTDLLFTYNISAMRPSLSLEDKLEKCVIHSEKVVPVVAPRLLESLQTIPYLSYSEHTFLSKVVEPVLKTLPLTLKPVFETTLSESLVKMAIGGAGVAWVPMHVIEEELAQHRLVIAFEEQKEWQIPIDILCYRSTTNHRAAVDQFWQEID 5y9w-a1-m1-cA_5y9w-a1-m1-cB Crystal 1 for AtLURE1.2-AtPRK6LRR Q3E991 Q3E991 1.847 X-RAY DIFFRACTION 18 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 213 216 YVSESEPLVRFKNSVKITKGDLNSWREGTDPCSGKWFGIYCQKGLTVSGIHVTRLGLSGTITVDDLKDLPNLKTIRLDNNLLSGPLPHFFKLRGLKSLMLSNNSFSGEIRDDFFKDMSKLKRLFLDHNKFEGSIPSSITQLPQLEELHMQSNNLTGEIPPEFGSMKNLKVLDLSTNSLDGIVPQSIADKKNLAVNLTENEYLCGPVVDVGCEN YVSESEPLVRFKNSVKITKGDLNSWREGTDPCSGKWFGIYCQKGLTVSGIHVTRLGLSGTITVDDLKDLPNLKTIRLDNNLLSGPLPHFFKLRGLKSLMLSNNSFSGEIRDDFFKDMSKLKRLFLDHNKFEGSIPSSITQLPQLEELHMQSNNLTGEIPPEFGSMKNLKVLDLSTNSLDGIVPQSIADKKNLAVNLTENEYLCGPVVDVGCENIEL 5y9z-a1-m1-cA_5y9z-a1-m1-cB Crystal structure of rat hematopoietic prostaglandin D synthase O35543 O35543 1.09 X-RAY DIFFRACTION 85 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 198 198 1pd2-a1-m1-c1_1pd2-a1-m1-c2 6n69-a1-m1-cA_6n69-a1-m1-cB PNYKLLYFNMRGRAEIIRYIFAYLDIKYEDHRIEQADWPKIKPTLPFGKIPVLEVEGLTLHQSLAIARYLTKNTDLAGKTELEQCQVDAVVDTLDDFMSLFPWAEENQDLKERTFNDLLTRQAPHLLKDLDTYLGDKEWFIGNYVTWADFYWDICSTTLLVLKPDLLGIYPRLVSLRNKVQAIPAISAWILKRPQTKL PNYKLLYFNMRGRAEIIRYIFAYLDIKYEDHRIEQADWPKIKPTLPFGKIPVLEVEGLTLHQSLAIARYLTKNTDLAGKTELEQCQVDAVVDTLDDFMSLFPWAEENQDLKERTFNDLLTRQAPHLLKDLDTYLGDKEWFIGNYVTWADFYWDICSTTLLVLKPDLLGIYPRLVSLRNKVQAIPAISAWILKRPQTKL 5ya6-a1-m1-cA_5ya6-a1-m1-cB Crystal structure of archaeal flagellin FlaB1 from Methanocaldococcus jannaschii Q58301 Q58301 1.5 X-RAY DIFFRACTION 56 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 163 165 ASGLMCIGVTGHYDKTLGGIDKLAIYITPNAGSAPIDLKNAKLFLIYDGESHVLNYSTVTTATLGADDIFNSSAITDWSLADSSSYVVGVIQDADGSLSNGVINKGDIAVLLVNANAVFNKAIPTRSEVSGQFQPEFGAPAVIQFTTPAAYTQTVIELQHHHH ASGLMCIGVTGHYDKTLGGIDKLAIYITPNAGSAPIDLKNAKLFLIYDGESHVLNYSTVTTATLGADDIFNSSAITDWSLADSSSYVVGVIQDADGSLSNGVINKGDIAVLLVNANAVFNKAIPTRSEVSGQFQPEFGAPAVIQFTTPAAYTQTVIELQHHHHHH 5yad-a1-m1-cB_5yad-a1-m1-cA Crystal structure of Marf1 Lotus domain from Mus musculus Q8BJ34 Q8BJ34 1.76 X-RAY DIFFRACTION 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 70 72 GAANKSLSLLSTETSILQDAPACCLPLFKFIDIYEKKYGHKLNVSDLYKLTDTIAIREQGNGRLVCLLPS GAANKSLSLLSTETSILQDAPACCLPLFKFIDIYEKKYGHKLNVSDLYKLTDTIAIREQGNGRLVCLLPSNQ 5yak-a2-m1-cC_5yak-a2-m1-cB The crystal structure of human IYD Thr239 mutant with ligand 3-Fluorotyrosine (F-Tyr) Q6PHW0 Q6PHW0 2.3 X-RAY DIFFRACTION 314 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 218 5yak-a1-m1-cA_5yak-a1-m1-cF 5yak-a3-m1-cD_5yak-a3-m1-cE VEHIPFSHNHYPEKEMVKRSQEFYELLNKRRSVRFISNEQVPMEVIDNVIRTAGTAPSGAHTEPWTFVVVKDPDVKHKIRKIIEEEEEINYMKRMGHRWVTDLKKLRTNWIKEYLDTAPILILIFKQVHGFAGKKKVHYYNEISVSIACGILLAALQNAGLVTVTTAPLNCGPRLRVLLGRPAHEKLLMLLPVGYPSKEATVPDLKRKPLDQIMVTV VEHIPFSHNHYPEKEMVKRSQEFYELLNKRRSVRFISNEQVPMEVIDNVIRTAGTAPSGAHTEPWTFVVVKDPDVKHKIRKIIEEEEEINYMKRMGHRWVTDLKKLRTNWIKEYLDTAPILILIFKQVHGFANGKKKVHYYNEISVSIACGILLAALQNAGLVTVTTAPLNCGPRLRVLLGRPAHEKLLMLLPVGYPSKEATVPDLKRKPLDQIMVTV 5yam-a1-m1-cA_5yam-a1-m1-cB Solution structure of mice Met-CCL5/RANTES P30882 P30882 NOT SOLUTION NMR 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 69 69 MSPYGSDTTPCCFAYLSLALPRAHVKEYFYTSSKCSNLAVVFVTRRNRQVCANPEKKWVQEYINYLEMS MSPYGSDTTPCCFAYLSLALPRAHVKEYFYTSSKCSNLAVVFVTRRNRQVCANPEKKWVQEYINYLEMS 5yat-a1-m1-cA_5yat-a1-m1-cB Crystal structure of mitochondrial alcohol dehydrogenase isozyme III from Komagataella phaffii GS115 C4R0S8 C4R0S8 1.745 X-RAY DIFFRACTION 40 1.0 644223 (Komagataella phaffii GS115) 644223 (Komagataella phaffii GS115) 347 347 TIPTTQKAVIFETNGGPLEYKDIPVPKPKSNELLINVKYSGVCHTDLHAWKGDWPLDNKLPLVGGHEGAGVVVAYGENVTGWEIGDYAGIKWLNGSCLNCEYCIQGAESSCAKADLSGFTHDGSFQQYATADATQAARIPKEADLAEVAPILCAGITVYKALKTADLRIGQWVAISGAGGGLGSLAVQYAKALGLRVLGIDGGADKGEFVKSLGAEVFVDFTKTKDVVAEVQKLTNGGPHGVINVSVSPHAINQSVQYVRTLGKVVLVGLPSGAVVNSDVFWHVLKSIEIKGSYVGNREDSAEAIDLFTRGLVKAPIKIIGLSELAKVYEQMEAGAIIGRYVVDTSK TIPTTQKAVIFETNGGPLEYKDIPVPKPKSNELLINVKYSGVCHTDLHAWKGDWPLDNKLPLVGGHEGAGVVVAYGENVTGWEIGDYAGIKWLNGSCLNCEYCIQGAESSCAKADLSGFTHDGSFQQYATADATQAARIPKEADLAEVAPILCAGITVYKALKTADLRIGQWVAISGAGGGLGSLAVQYAKALGLRVLGIDGGADKGEFVKSLGAEVFVDFTKTKDVVAEVQKLTNGGPHGVINVSVSPHAINQSVQYVRTLGKVVLVGLPSGAVVNSDVFWHVLKSIEIKGSYVGNREDSAEAIDLFTRGLVKAPIKIIGLSELAKVYEQMEAGAIIGRYVVDTSK 5yax-a1-m1-cA_5yax-a1-m1-cB Crystal structure of a human neutralizing antibody bound to a HBV preS1 peptide 2.5 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 230 QVQLQQSGPGLVKPSQTLSLTCGISGDSVSSKSAAWNWIRQSPSRGLEWLGRTYYRSKWHNDYAVSVKSRITINPDTSKNQFSLQLNSVTPEDTAVYYCARGQMGALDVWGQGTTVTVSSVLTQPPSASGTPGQRVTISCSGSSSNIGSYYVYWYQQFPGTAPKLLIYGNNQRPSGVPDRFSGSKSGTSASLAITGLQAEDEADYYCQSYDSSLSGVIFGGGTKLTVL QVQLQQSGPGLVKPSQTLSLTCGISGDSVSSKSAAWNWIRQSPSRGLEWLGRTYYRSKWHNDYAVSVKSRITINPDTSKNQFSLQLNSVTPEDTAVYYCARGQMGALDVWGQGTTVTVSSQSVLTQPPSASGTPGQRVTISCSGSSSNIGSYYVYWYQQFPGTAPKLLIYGNNQRPSGVPDRFSGSKSGTSASLAITGLQAEDEADYYCQSYDSSLSGVIFGGGTKLTVL 5yb0-a3-m1-cE_5yb0-a3-m1-cH Crystal Structure of Wild Type Phosphoserine aminotransferase (PSAT) from E. histolytica Q60I38 Q60I38 2.94 X-RAY DIFFRACTION 184 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 342 349 5yb0-a1-m1-cA_5yb0-a1-m1-cB 5yb0-a2-m1-cD_5yb0-a2-m1-cC 5yb0-a4-m1-cF_5yb0-a4-m1-cG 5yb0-a5-m1-cJ_5yb0-a5-m1-cI 5yb0-a6-m1-cL_5yb0-a6-m1-cK 5yd2-a1-m1-cB_5yd2-a1-m1-cA IHNFGAGPAAMAKEVIEATAKAVNNFWEGLSILEISHRSKEWINVMNETKALMKEVMDIPEGYEILFFGGGASLQFLMVAMNLLNKKACYLDTGVWASKAIKEAENIGEVKIIGTSKDKNYTYIPEYQIPSDYDYFHITTNNTIYGTEIRKDIESPIPLVADMSSDILSKPIDISKYSLIYAGAQKNCGAAGVTIVIIKKEILGKVQRKIPIILDYQVHILNNSMYNTPPVISIFTVNQTLKYIKKIGGLKKIQELNEEKARLLYAEIDRNKIFRGTVRKKDRSIMNVCFVMEENEFSEYALQKGIIGIKGHRSVGGFRASIYNAVTIESVQALIKCMHDFE IHNFGAGPAAMAKEVIEATAKAVNNFWEGLSILEISHRSKEWINVMNETKALMKEVMDIPEGYEILFFGGGASLQFLMVAMNLLNKKACYLDTGVWASKAIKEAENIGEVKIIGTSKDKNYTYIPEYQIPSDYDYFHITTNNTIYGTEIRKDIESPIPLVADMSSDILSKPIDISKYSLIYAGAQKNCGAAGVTIVIIKKEILGKVQRKIPIILDYQVHILNNSMYNTPPVISIFTVNQTLKYIKKIGGLKKIQELNEEKARLLYAEIDRNKIFRGTVRKKDRSIMNVCFVMEEQYKQLENEFSEYALQKGIIGIKGHRSVGGFRASIYNAVTIESVQALIKCMHDFEQ 5yb7-a2-m1-cB_5yb7-a2-m1-cD L-Amino acid oxidase/monooxygenase from Pseudomonas sp. AIU 813 - L-ornithine complex W6JQJ6 W6JQJ6 2 X-RAY DIFFRACTION 130 1.0 1355242 (Pseudomonas sp. AIU 813) 1355242 (Pseudomonas sp. AIU 813) 549 549 3we0-a1-m1-cA_3we0-a1-m1-cB 3we0-a1-m2-cA_3we0-a1-m2-cB 5yb6-a1-m1-cA_5yb6-a1-m1-cC 5yb6-a2-m1-cB_5yb6-a2-m1-cD 5yb7-a1-m1-cA_5yb7-a1-m1-cC 5yb8-a1-m1-cA_5yb8-a1-m1-cD 5yb8-a2-m1-cB_5yb8-a2-m1-cC KKPITIFGPDFPFAFDDWLEHPAGLGSIPAARHGEEVAIVGAGIAGLVAAYELMKLGLKPVVYEASKMGGRLRSQAFNGTDGIIAELGGMRFPVSSTAFYHYVDKLGLETKPFPNPLTPASRSTVIDLEGQTYYAEKAADLPALFQEVTDAWADALESGARFGDIQQAIRDRDVPRLKELWNTLVPLWDDRTFYDFVATSKAFAKLSFQHREVFGQVGFGTGGWDSDFPNSMLEIFRVVMTNCDDHQHLVVGGVEQVPQGIWRHVPERCAHWPEGTSLSSLHGGAPRTGVKRIARASDGRLAVTDNWGDCRHYAAVLTTCQSWLLTTQIDCEESLFSQKMWMALDRTRYMQSSKTFVMVDRPFWKDKDPETGRDLMSMTLTDRLTRGTYLFDNGDDKPGVICLSYAWMSDALKMLPHPVEKRVQLALDALKKIYPKTDIAGHIIGDPITISWEADPHFLGAFKGALPGHYRYNQRMYAHFMQAQMPVEQRGIFIAGDDVSWTPAWVEGAVQTSLNAVWGIMNHFGGKTHADNPGPGDVFDEIGQIALAD KKPITIFGPDFPFAFDDWLEHPAGLGSIPAARHGEEVAIVGAGIAGLVAAYELMKLGLKPVVYEASKMGGRLRSQAFNGTDGIIAELGGMRFPVSSTAFYHYVDKLGLETKPFPNPLTPASRSTVIDLEGQTYYAEKAADLPALFQEVTDAWADALESGARFGDIQQAIRDRDVPRLKELWNTLVPLWDDRTFYDFVATSKAFAKLSFQHREVFGQVGFGTGGWDSDFPNSMLEIFRVVMTNCDDHQHLVVGGVEQVPQGIWRHVPERCAHWPEGTSLSSLHGGAPRTGVKRIARASDGRLAVTDNWGDCRHYAAVLTTCQSWLLTTQIDCEESLFSQKMWMALDRTRYMQSSKTFVMVDRPFWKDKDPETGRDLMSMTLTDRLTRGTYLFDNGDDKPGVICLSYAWMSDALKMLPHPVEKRVQLALDALKKIYPKTDIAGHIIGDPITISWEADPHFLGAFKGALPGHYRYNQRMYAHFMQAQMPVEQRGIFIAGDDVSWTPAWVEGAVQTSLNAVWGIMNHFGGKTHADNPGPGDVFDEIGQIALAD 5yba-a1-m1-cA_5yba-a1-m1-cC Dimeric Cyclophilin from T.vaginalis in complex with Myb1 peptide A2DT06 A2DT06 2.062 X-RAY DIFFRACTION 43 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 172 175 5yb9-a1-m1-cA_5yb9-a1-m2-cA LKRPKTFFDISIRGDKVGKIVFELFNDIVPKTAENFRALCTGEKGIGKSGMPLSYKGTMFHRIIPQFMIQGGDFTRFNGTGGESIYGMKFDDENFKVKHDKPGLLSMANAGPNTNGSQFFITTVETPWLDGHHCVFGQVIEGMDIVKQIESCGTESGRPRAMCMVTDCGEMK GSMLKRPKTFFDISIRGDKVGKIVFELFNDIVPKTAENFRALCTGEKGIGKSGMPLSYKGTMFHRIIPQFMIQGGDFTRFNGTGGESIYGMKFDDENFKVKHDKPGLLSMANAGPNTNGSQFFITTVETPWLDGHHCVFGQVIEGMDIVKQIESCGTESGRPRAMCMVTDCGEMK 5ybb-a1-m1-cE_5ybb-a1-m1-cB Structural basis underlying complex assembly andconformational transition of the type I R-M system Q8R9Q4 Q8R9Q4 3.2 X-RAY DIFFRACTION 41 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 30 487 5ybb-a1-m1-cC_5ybb-a1-m1-cA SPVEIVAGLLEKEREILSIMEELSELLENE PQTRESLANEIWRACDIMRRDNNCTGIMEYVEHLAWLLFLRFLDAQEEEWEAQAQIPIIDSEYRWRHWATKDWPADELLAFVHGRLIPYLRSLGGDPLRETIRSLFSERNVIVCASGYNLKDVIQIVNEINFHSQDDIFTVSQVYEELLRRLGNENRLAGEFYTPRPVVRFVVELVDPQIGEAVYDPACGTCGFLVEAYLWMKQKERTIEDHRILQERTFFGQEKKPVPAFLGLVNMMLHGVTVPRVMRRNTLEENIRNVSERFDVVVTNPPFGGTEGRHIQQNFPIQSNATELLFLQHIMKKLKPRDGARCGMVVPEGTLFRGGAFAEVKRDLLEQFNLHTVVSLPPGTFAPYSDVKTALIFFERPGPTKEIWYYELPLPEGLKKFSKGNPIQDEHFEEARKLWRGWDAYRKGLGPVEACLSERSWIVPVEEVKKRGYDLTARNPNRSGGEELPSPVEIVAGLLEKEREILSIMEELSELLENEKG 5ybc-a1-m1-cC_5ybc-a1-m1-cA X-ray structure of native ETS-domain domain of Ergp55 P11308 P11308 2.5 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 92 QIQLWQFLLELLSDSSNSSCITWEGTNGEFKMTDPDEVARRWGERKSKPNMNYDKLSRALRYYYDKNIMTKVHGKRYAYKFDFHGIAQALQ QIQLWQFLLELLSDSSNSSCITWEGTNGEFKMTDPDEVARRWGERKSKPNMNYDKLSRALRYYYDKNIMTKVHGKRYAYKFDFHGIAQALQP 5ybl-a2-m1-cC_5ybl-a2-m1-cB Fe(II)/(alpha)ketoglutarate-dependent dioxygenase AusE Q5AR34 Q5AR34 2.108 X-RAY DIFFRACTION 98 0.988 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 252 273 5ybl-a1-m1-cD_5ybl-a1-m1-cA SQKFPATAPADEIYAAFKEDGCVIIEGFVPPDQMARFSQEIQPAMEKIQVQVTNNDRVKRFSKLVTTSPTFRHEILENDLMHELLQRVFSKPMGYHFNDTMVIEVQPGAPAQRLHRDQELYPWWNSMGPDAPECLVNFFCAVTPFTVENGATRLVPGSNRWKIDSVPAIMQPGDCYMMSGKVIHGAGHNATDQRRALAFSTIRRELRPVQAFPLWIPMQIATELSPRTQAMFGFRSHFWGNDKDIGEHLGLI LQKFPATAPADEIYAAFKEDGCVIIEGFVPPDQMARFSQEIQPAMEKIQVQVTNNSNDRVKRFSKLVTTSPTFRHEILENDLMHELLQRVFSKPGMGYHFNDTMVIEVQPGAPAQRLHRDQELYPWWNSMGPDAPECLVNFFCAVTPFTVENGATRLVPGSNRWPELTLIDCPQYDSVPAIMQPGDCYMMSGKVIHGAGHNATLSDQRRALAFSTIRRELRPVQAFPLWIPMQIATELSPRTQAMFGFRSSTQHFWGNDGKDIGEHLGLISSA 5ybq-a1-m1-cB_5ybq-a1-m1-cA Fe(II)/(alpha)ketoglutarate-dependent dioxygenase PrhA-V150L/A232S in complex with preaustinoid A2 A0A1E1FFL0 A0A1E1FFL0 2.25 X-RAY DIFFRACTION 113 0.99 104259 (Penicillium brasilianum) 104259 (Penicillium brasilianum) 288 295 5ybm-a1-m1-cB_5ybm-a1-m1-cA 5ybn-a1-m1-cB_5ybn-a1-m1-cA 5ybo-a1-m1-cB_5ybo-a1-m1-cA 5ybp-a1-m1-cB_5ybp-a1-m1-cA 5ybr-a1-m1-cB_5ybr-a1-m1-cA 5ybs-a1-m1-cB_5ybs-a1-m1-cA 5ybt-a1-m1-cA_5ybt-a1-m1-cB GLVPRGSHMPRLQRFPATASADEIFAAFQEDGCVVIEGFISPEQVARFSQEVDPAMEKIPVEVTNNGNSNDRTKRFSKCVIASPTFRNEIIESDLMHELCDRVFSKPGEGMGYHFNDNMVIEVQPGAPAQRLHRDQELYPWWNSMGPAGPECLINFFCAVTPFTEENGATRLVPGSHLWPEFTQINERDCPQFGKIETVPIMQPGDCYLMSGKVIHGAGHNATTTDRRRALALSIIRRELRPMQAFSLSVPMKLAREMSERSQTMFGFRSSVFWGNDGKDIAHHLGLI LVPGSHMPPRLQRFPATASADEIFAAFQEDGCVVIEGFISPEQVARFSQEVDPAMEKIPVEVTNNNSNDRTKRFSKCVIASPTFRNEIIESDLMHELCDRVFSKPGEGMGYHFNDNMVIEVQPGAPAQRLHRDQELYPWWNSMGPAGPECLINFFCAVTPFTEENGATRLVPGSHLWPEFTQINERDCPQFGKIETVPAIMQPGDCYLMSGKVIHGAGHNATTTDRRRALALSIIRRELRPMQAFSLSVPMKLAREMSERSQTMFGFRSSVQHCVDMVHFWGNDGKDIAHHLGLI 5ybv-a1-m1-cB_5ybv-a1-m1-cA The structure of the KANK2 ankyrin domain with the KIF21A peptide Q63ZY3 Q63ZY3 2.12 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 244 MELSPDLISACLALEKYLDNPNALTERELKVAYTTVLQEWLRLACRSDAHPELVRRHLVTFRAMSARLLDYVVNIADSNGNTALHYSVSHANFPVVQQLLDSGVCKVDKQNRAGYSPIMLTALATLKTQDDIETVLQLFRLGNINAKASQAGQTALMLAVSHGRVDVVKALLACEADVNVQDDDGSTALMCACEHGHKEIAGLLLAVPSCDISLTDRDGSTALMVALDAGQSEIASMLYSRMN MELSPDLISACLALEKYLDNPNALTERELKVAYTTVLQEWLRLACRSDAHPELVRRHLVTFRAMSARLLDYVVNIADSNGNTALHYSVSHANFPVVQQLLDSGVCKVDKQNRAGYSPIMLTALATLKTQDDIETVLQLFRLGNINAKASQAGQTALMLAVSHGRVDVVKALLACEADVNVQDDDGSTALMCACEHGHKEIAGLLLAVPSCDISLTDRDGSTALMVALDAGQSEIASMLYSRMNI 5ybw-a1-m1-cB_5ybw-a1-m1-cA Crystal structure of pyridoxal 5'-phosphate-dependent aspartate racemase Q2L695 Q2L695 1.9 X-RAY DIFFRACTION 46 1.0 148819 (Anadara broughtonii) 148819 (Anadara broughtonii) 324 328 IPQFEVTVTDIKKAYDRISKHILYTPVFTSPTFDRMVGSKAGRQFYFKAENLQKTGSFARGALNAILCALEREPSLAGVVTHSSGNHGQALAWASKRAGVKCCVVVPKTAPQVKFDAMENYGAEVVKCETSRKETCEGLKSRGYKYISSSDDYDVIAGQGTIALELLQQQPDLDAILVSVSAGGMASGICVYTKNTKSDLKVFLVEPEGKMLEECISKRERLWPNPPQFLDTIADGIILQQCGNKTWPIILELPEKEVITVNNDNIVEAMRFVFARMKLVIEAAAGATVAAAMTERFQNFHPEAKKVGIILCGGNVDIEKLPWT IPQFEVTVTDIKKAYDRISKHILYTPVFTSPTFDRMVGSKAGRQFYFKAENLQKTGSFARGALNAILCALEREPSLAGVVTHSSGNHGQALAWASKRAGVKCCVVVPKTAPQVKFDAMENYGAEVVKCEPNPTSRKETCEGLAKSRGYKYISSSDDYDVIAGQGTIALELLQQQPDLDAILVSVSAGGMASGICVYTKNTKSDLKVFLVEPEGKMLEECISKRERLWPNPPQFLDTIADGIILQQCGNKTWPIILELPEKEVITVNNDNIVEAMRFVFARMKLVIEAAAGATVAAAMTERFQNFHPEAKKVGIILCGGNVDIEKLPWT 5yc1-a1-m1-cB_5yc1-a1-m1-cA TRAF4_GPIb complex Q9BUZ4 Q9BUZ4 2.506 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 158 3zjb-a1-m1-cA_3zjb-a1-m1-cB 3zjb-a1-m1-cA_3zjb-a1-m1-cC 3zjb-a1-m1-cC_3zjb-a1-m1-cB 4k8u-a1-m1-cB_4k8u-a1-m1-cA 4k8u-a1-m1-cB_4k8u-a1-m1-cC 4k8u-a1-m1-cC_4k8u-a1-m1-cA 4m4e-a1-m1-cA_4m4e-a1-m1-cB 4m4e-a1-m1-cA_4m4e-a1-m1-cC 5yc1-a2-m1-cE_5yc1-a2-m1-cD 5yc1-a2-m1-cE_5yc1-a2-m1-cF EELSVGSDGVLIWKIGSYGRRLQEAKAKPNLECFSPAFYTHKYGYKLQVSAFLNGNGSGEGTHLSLYIRVLPGAFDNLLEWPFARRVTFSLLDQSDPGLAKPQHVTETFHPDPNWKGFGYPKFISHQDIRKRNYVRDDAVFIRAAVELP RRELEELSVGSDGVLIWKIGSYGRRLQEAKAKPNLECFSPAFYTHKYGYKLQVSAFLNGNGSGEGTHLSLYIRVLPGAFDNLLEWPFARRVTFSLLDQSDPGLAKPQHVTETFHPDPNWKNFQKPGFGYPKFISHQDIRKRNYVRDDAVFIRAAVELP 5ycq-a1-m2-cA_5ycq-a1-m3-cA Unique Specificity-Enhancing Factor for the AAA+ Lon Protease B7LE66 B7LE66 2.503 X-RAY DIFFRACTION 34 1.0 585055 (Escherichia coli 55989) 585055 (Escherichia coli 55989) 75 75 5ycq-a1-m1-cA_5ycq-a1-m2-cA 5ycq-a1-m1-cA_5ycq-a1-m3-cA ASKFGIGQQVRHSLLGYLGVVVDIDPVAAPWYHVVEDDNGLPVHTYLAEAQLSSELQDEHPEQPSDELAQTIRKQ ASKFGIGQQVRHSLLGYLGVVVDIDPVAAPWYHVVEDDNGLPVHTYLAEAQLSSELQDEHPEQPSDELAQTIRKQ 5ycs-a1-m1-cA_5ycs-a1-m1-cD X-Ray Structure of Enoyl-Acyl Carrier Protein Reductase from Bacillus Anthracis with triclosan Q81GI3 Q81GI3 1.95 X-RAY DIFFRACTION 109 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 256 256 2qio-a1-m1-cA_2qio-a1-m1-cD 2qio-a1-m1-cB_2qio-a1-m1-cC 3ojf-a1-m1-cB_3ojf-a1-m1-cA 3ojf-a1-m1-cC_3ojf-a1-m1-cD 5ycr-a1-m1-cA_5ycr-a1-m1-cB 5ycr-a1-m1-cD_5ycr-a1-m1-cC 5ycs-a1-m1-cB_5ycs-a1-m1-cC 5ycv-a1-m1-cA_5ycv-a1-m1-cC 5ycv-a1-m1-cB_5ycv-a1-m1-cD MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG 5ycs-a1-m1-cB_5ycs-a1-m1-cD X-Ray Structure of Enoyl-Acyl Carrier Protein Reductase from Bacillus Anthracis with triclosan Q81GI3 Q81GI3 1.95 X-RAY DIFFRACTION 24 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 256 256 2qio-a1-m1-cA_2qio-a1-m1-cC 2qio-a1-m1-cB_2qio-a1-m1-cD 3ojf-a1-m1-cB_3ojf-a1-m1-cD 3ojf-a1-m1-cC_3ojf-a1-m1-cA 5ycr-a1-m1-cB_5ycr-a1-m1-cC 5ycr-a1-m1-cD_5ycr-a1-m1-cA 5ycs-a1-m1-cA_5ycs-a1-m1-cC 5ycv-a1-m1-cB_5ycv-a1-m1-cA 5ycv-a1-m1-cD_5ycv-a1-m1-cC MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG 5ycs-a1-m1-cC_5ycs-a1-m1-cD X-Ray Structure of Enoyl-Acyl Carrier Protein Reductase from Bacillus Anthracis with triclosan Q81GI3 Q81GI3 1.95 X-RAY DIFFRACTION 102 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 256 256 2qio-a1-m1-cA_2qio-a1-m1-cB 2qio-a1-m1-cC_2qio-a1-m1-cD 3ojf-a1-m1-cB_3ojf-a1-m1-cC 3ojf-a1-m1-cD_3ojf-a1-m1-cA 5ycr-a1-m1-cA_5ycr-a1-m1-cC 5ycr-a1-m1-cD_5ycr-a1-m1-cB 5ycs-a1-m1-cA_5ycs-a1-m1-cB 5ycv-a1-m1-cB_5ycv-a1-m1-cC 5ycv-a1-m1-cD_5ycv-a1-m1-cA MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANRDDLKGEFVDTSRDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGERVVKNYNVMGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLSAKGVGDFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILG 5ycx-a1-m1-cA_5ycx-a1-m2-cA X-Ray Structure of Enoyl-Acyl Carrier Protein Reductase from Bacillus Anthracis with c-terminal His tag (Apo form) Q81GI3 Q81GI3 1.701 X-RAY DIFFRACTION 104 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 229 229 3oje-a1-m1-cA_3oje-a1-m2-cA MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILGLEHH MELLQGKTFVVMGVANQRSIAWGIARSLHNAGAKLIFTYAGERLERNVRELADTLEGQESLVLPCDVTNDEELTACFETIKQEVGTIHGVAHCIAFANDGFLLAQNISAFSLTAVAREAKKVMTEGGNILTLTYLGGVAKASLEASVKYLANDLGQHGIRVNAISAGPIRTLFNSILREIEERAPLRRTTTQEEVGDTAVFLFSDLARGVTGENIHVDSGYHILGLEHH 5ycz-a1-m1-cB_5ycz-a1-m1-cA Crystal structure of Alocasin, protease inhibitor from Giant Taro (Arum macrorrhizon) P35812 P35812 2.502 X-RAY DIFFRACTION 71 0.994 4456 (Alocasia macrorrhizos) 4456 (Alocasia macrorrhizos) 172 178 5wvx-a1-m1-cB_5wvx-a1-m1-cA TNPVLDVDGNELQRGQLYYATSVMRPGGGLTLAAPKGSCPLNVAQAPFSGRPLAFFPENADDDTVQEGSTLYIMFPEPTRCPQSTVWTFDREAGFVTTGGTTSKAIGPHNSRFAIRKAGDDYQIEVCPCSTGVERPSCRMGCLGTLGLAEGGKNVLLNINNESPHTIRFVKV TNPVLDVDGNELQRGQLYYATSVMRPGGGLTLAAPKGSCPLNVAQAPFDEYSGRPLAFFPENADDDTVQEGSTLYIMFPEPTRCPQSTVWTFDREAGFVTTGGTTSKAIGPHNSRFAIRKAGSQPRDYQIEVCPCSTGVERPSCRMGCLGTLGLAEGGKNVLLNINNESPHTIRFVKV 5yd0-a2-m1-cD_5yd0-a2-m1-cB Crystal structure of Schlafen 13 (SLFN13) N'-domain Q5U311 Q5U311 3.182 X-RAY DIFFRACTION 42 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 326 331 5yd0-a1-m1-cC_5yd0-a1-m1-cA HSSGLEVLFQGPHMGGSPDLIIHAGEVTLGEKDRNKMDSKKKRLEKARITEAACALLNSGGGVIVMQMSNKSEHPVEMGLDLETSLRELIPSSDLQAFIETKQQGDLFYIFVKSWSSTKPRICSLSSSLYCRSLTSKLPLDSKETFEFLERKKTCVDLESNPAFEIFQSERLEYGQRLPFSESASIEFKQFSTRRAHEYIKSVIPEYISAFANTQGGYLLFGVDDESKRVLGCPKDNVDRDSLKAVVNEAISKLPVFHFCSSKEKVSYKTRVIDVFKELYGYLCVIKVERFCCAVFSEAPISWMADKENGVYSLNTEKWVRMMVDI SSGLEVLFQGPHMGGSPDLIIHAGEVTLGEKDRNKMDSKKKRLEKARITEAACALLNSGGGVIVMQMSNKSEHPVEMGLDLETSLRELIPSSDLQAFIETKQQGDLFYIFVKSWSCSTKPRICSLSSSLYCRSLTSKLPLDSKETFEFLERKKTCVKGNDLESNPAFEIFQSERLEYGQRLPFSESASIEFKQFSTRRAHEYIKSVIPEYISAFANTQGGYLLFGVDDESKRVLGCPKDNVDRDSLKAVVNEAISKLPVFHFCSSKEKVSYKTRVIDVFKEGNLYGYLCVIKVERFCCAVFSEAPISWMADKENGVYSLNTEKWVRMMVDI 5ydd-a1-m1-cA_5ydd-a1-m1-cB Crystal structure of C-terminal domain of Rv1828 from Mycobacterium tuberculosis P9WME7 P9WME7 1.5 X-RAY DIFFRACTION 182 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 120 121 5ydc-a1-m1-cA_5ydc-a1-m1-cB MRLSREDLLERSEVADELLTALLKAGVITTGPGGFFDEHAVVILQCARALAEYGVEPRHLRAFRSAADRQSDLIAQIAGPLVKAGKAGARDRADDLAREVAALAITLHTSLIKSAVRDVL MRLSREDLLERSEVADELLTALLKAGVITTGPGGFFDEHAVVILQCARALAEYGVEPRHLRAFRSAADRQSDLIAQIAGPLVKAGKAGARDRADDLAREVAALAITLHTSLIKSAVRDVLH 5ydg-a1-m1-cA_5ydg-a1-m1-cB Crystal structure of the Arabidopsis thaliana chloroplast RNA editing factors 2(MORF2) O22793 O22793 2.405 X-RAY DIFFRACTION 19 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 114 116 FPGCDYEHWLIVMDKPGGEGATKQQMIDCYIQTLAKVVGSEEEAKKRIYNVSCERYLGFGCEIDEETSTKLEGLPGVLFVLPDSYVDPENKDYGAELFVNGEIVQRSPERQRRV FPGCDYEHWLIVMDKPGGEGATKQQMIDCYIQTLAKVVGSEEEAKKRIYNVSCERYLGFGCEIDEETSTKLEGLPGVLFVLPDSYVDPENKDYGAELFVNGEIVQRSPERQRRVEP 5ydp-a2-m1-cC_5ydp-a2-m2-cC Crystal Structure of TetR Family Repressor AlkX from Dietzia sp. Strain DQ12-45-1b Implicated in Biodegradation of n-Alkanes G3EIL4 G3EIL4 3.091 X-RAY DIFFRACTION 69 1.0 912801 (Dietzia sp. DQ12-45-1b) 912801 (Dietzia sp. DQ12-45-1b) 174 174 5ydp-a1-m1-cB_5ydp-a1-m1-cA PRLTVFDAHQLLESRDWSAVTSDVAKAAGLSRQTLYSTFGNRQGLAQAYALQLSEKFAGEIRDSIIRHPGQIELALSEGINGFLRSSSRDPLIPDLLRLITTEAGPLIERATEVLPALSESWRIEASQARLAASIIARIGISFISLPPEDPDQLASGLTEVIAPYLQKVVQVDV PRLTVFDAHQLLESRDWSAVTSDVAKAAGLSRQTLYSTFGNRQGLAQAYALQLSEKFAGEIRDSIIRHPGQIELALSEGINGFLRSSSRDPLIPDLLRLITTEAGPLIERATEVLPALSESWRIEASQARLAASIIARIGISFISLPPEDPDQLASGLTEVIAPYLQKVVQVDV 5ydv-a1-m1-cA_5ydv-a1-m2-cA Regulatory domain of HypT from Salmonella typhimurium complexed with HOCl (HOCl-bound form) Q7CP75 Q7CP75 1.752 X-RAY DIFFRACTION 86 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 209 209 5ydo-a1-m1-cA_5ydo-a1-m2-cA 5ydw-a1-m1-cB_5ydw-a1-m1-cA 5ydw-a1-m2-cB_5ydw-a1-m2-cA 5yer-a1-m1-cA_5yer-a1-m1-cB 5yez-a1-m1-cA_5yez-a1-m1-cB GAMDYTLRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEAIDVDQAVDMLREGQSDFIFSYHDENLQQAPFDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYMGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMNTRMSQVAETFWRDLRGLQAAL GAMDYTLRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEAIDVDQAVDMLREGQSDFIFSYHDENLQQAPFDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYMGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMNTRMSQVAETFWRDLRGLQAAL 5ydw-a1-m1-cB_5ydw-a1-m2-cB Full-length structure of HypT from Salmonella typhimuriuma (hypochlorite-specific LysR-type transcriptional regulator) Q7CP75 Q7CP75 3.3 X-RAY DIFFRACTION 21 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 289 289 NIETKWLYDFLTLEKCRNFSQAAIIRNVSQPAFSRRIRALEHAVGVELFNRQVSPLQLSEQGKIFHSQVRHLLQQLESNLTELRGGLRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEAIDVDQAVDMLREGQSDFIFSYHDENLQQAPFDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYMGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMNTRMSQVAETFWRDLRGLQAAL NIETKWLYDFLTLEKCRNFSQAAIIRNVSQPAFSRRIRALEHAVGVELFNRQVSPLQLSEQGKIFHSQVRHLLQQLESNLTELRGGLRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEAIDVDQAVDMLREGQSDFIFSYHDENLQQAPFDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYMGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMNTRMSQVAETFWRDLRGLQAAL 5ydw-a1-m2-cB_5ydw-a1-m1-cA Full-length structure of HypT from Salmonella typhimuriuma (hypochlorite-specific LysR-type transcriptional regulator) Q7CP75 Q7CP75 3.3 X-RAY DIFFRACTION 75 0.993 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 289 293 5ydw-a1-m1-cB_5ydw-a1-m2-cA NIETKWLYDFLTLEKCRNFSQAAIIRNVSQPAFSRRIRALEHAVGVELFNRQVSPLQLSEQGKIFHSQVRHLLQQLESNLTELRGGLRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEAIDVDQAVDMLREGQSDFIFSYHDENLQQAPFDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYMGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMNTRMSQVAETFWRDLRGLQAAL LHNIETKWLYDFLTLEKCRNFSQAAIIRNVSQPAFSRRIRALEHAVGVELFNRQVLQLSEQGKIFHSQVRHLLQQLESNLTELRGGSDYTLRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEAIDVDQAVDMLREGQSDFIFSYHDENLQQAPFDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYMGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMNTRMSQVAETFWRDLRGLQAAL 5yei-a2-m1-cE_5yei-a2-m1-cG Mechanistic insight into the regulation of Pseudomonas aeruginosa aspartate kinase O69077 O69077 2.301 X-RAY DIFFRACTION 91 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 397 397 5yei-a1-m1-cA_5yei-a1-m1-cC ALIVQKFGGTSVGTVERIEQVAEKVKKFREAGDDVVVVVSAMSGETNRLIGLANQIMEQPVPRELDVMVSTGEQVTIALLSMALIKRGVPAVSYTGNQVRILTDSAHTKARILHIDDTHIRADLKAGRVVVVAGFQGVDGNGNITTLGRGGSDTTGVALAAALKADECQIYTDVDGVYTTDPRVVPQARRLDKITFEEMLEMASLGSKVLQIRAVEFAGKYNVPLRVLHSFQEGPGTLITIDPIISGIAFNRDEAKLTIRGVPDTPGVAFKILGPISAANVEVDMIVQNVAHDNTTDFTFTVHRNDYLNALEILKQTAANIGAREAIGDTNIAKVSIVGVGMRSHAGVASRMFEALAKESINIQMISTSEIKVSVVIEEKYLELAVRALHTAFELDA ALIVQKFGGTSVGTVERIEQVAEKVKKFREAGDDVVVVVSAMSGETNRLIGLANQIMEQPVPRELDVMVSTGEQVTIALLSMALIKRGVPAVSYTGNQVRILTDSAHTKARILHIDDTHIRADLKAGRVVVVAGFQGVDGNGNITTLGRGGSDTTGVALAAALKADECQIYTDVDGVYTTDPRVVPQARRLDKITFEEMLEMASLGSKVLQIRAVEFAGKYNVPLRVLHSFQEGPGTLITIDPIISGIAFNRDEAKLTIRGVPDTPGVAFKILGPISAANVEVDMIVQNVAHDNTTDFTFTVHRNDYLNALEILKQTAANIGAREAIGDTNIAKVSIVGVGMRSHAGVASRMFEALAKESINIQMISTSEIKVSVVIEEKYLELAVRALHTAFELDA 5yei-a2-m1-cH_5yei-a2-m1-cG Mechanistic insight into the regulation of Pseudomonas aeruginosa aspartate kinase O69077 O69077 2.301 X-RAY DIFFRACTION 183 0.987 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 156 397 5yei-a1-m1-cB_5yei-a1-m1-cA 5yei-a1-m1-cD_5yei-a1-m1-cC 5yei-a2-m1-cF_5yei-a2-m1-cE EQPIISGIAFNRDEAKLTIRGVPDTPGVAFKILGPISAANVEVDMIVQNVAHDNTTDFTFTVHRNDYLNALEILKQTAANIGAREAIGDTNIAKVSIVGVGMRSHAGVASRMFEALAKESINIQMISTSEIKVSVVIEEKYLELAVRALHTAFELD ALIVQKFGGTSVGTVERIEQVAEKVKKFREAGDDVVVVVSAMSGETNRLIGLANQIMEQPVPRELDVMVSTGEQVTIALLSMALIKRGVPAVSYTGNQVRILTDSAHTKARILHIDDTHIRADLKAGRVVVVAGFQGVDGNGNITTLGRGGSDTTGVALAAALKADECQIYTDVDGVYTTDPRVVPQARRLDKITFEEMLEMASLGSKVLQIRAVEFAGKYNVPLRVLHSFQEGPGTLITIDPIISGIAFNRDEAKLTIRGVPDTPGVAFKILGPISAANVEVDMIVQNVAHDNTTDFTFTVHRNDYLNALEILKQTAANIGAREAIGDTNIAKVSIVGVGMRSHAGVASRMFEALAKESINIQMISTSEIKVSVVIEEKYLELAVRALHTAFELDA 5yej-a2-m1-cB_5yej-a2-m1-cC Crystal structure of BioQ with its naturel double-stranded DNA operator A0QX69 A0QX69 2.698 X-RAY DIFFRACTION 75 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 165 169 5xs9-a1-m1-cB_5xs9-a1-m1-cA 5yej-a1-m2-cA_5yej-a1-m3-cA QLHKPDVVAAATKILDDHGIADLTMRRLARELDVTPGALYWHFANKQELLGAVADHILRTARTDTDLAWREQIHESCRALRDALLSHTDGAELVSASFASGQSVVITEIVEQLGRAARAAGVSDADVDAAARTVIYYVLGFTVDEQSRRQFRFGLQLLVDGLAAH QLHKPDVVAAATKILDDHGIADLTMRRLARELDVTPGALYWHFANKQELLGAVADHILRTARTDTADLAWREQIHESCRALRDALLSHTDGAELVSASFASGQSVVITEIVEQLGRAARAAGVSDADVDAAARTVIYYVLGFTVDEQSRLQWRQFRFGLQLLVDGLAAH 5yek-a1-m1-cA_5yek-a1-m1-cB Crystal structure of BioQ A0QX69 A0QX69 2.191 X-RAY DIFFRACTION 20 0.982 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 167 167 QLHKPDVVAAATKILDDHGIADLTMRRLARELDVTPGALYWHFANKQELLGAVADHILRTARLAWREQIHESCRALRDALLSHTDGAELVSASFASGQSVVITEIVEQLGRAARAAGVSDADVDAAARTVIYYVLGFTVDEQSRLQWDGTRQFRFGLQLLVDGLAAH MQLHKPDVVAAATKILDDHGIADLTMRRLARELDVTPGALYWHFANKQELLGAVADHILRTARWREQIHESCRALRDALLSHTDGAELVSASFASGQSVVITEIVEQLGRAARAAGVSDADVDAAARTVIYYVLGFTVDEQSRLQWDADGTRQFRFGLQLLVDGLAA 5yeq-a1-m1-cA_5yeq-a1-m1-cB The structure of Sac-KARI protein Q4J8K9 Q4J8K9 1.75 X-RAY DIFFRACTION 375 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 318 318 AKIYTDKDVSLDVIKEKRVAVLGYGSQGRAWALNLRDSGIKVSVGLEREGNSWKQAENDGFKPLRTEEAVRNSDIIIFLLPDIQRTVYLERVKPYLKEGDLVFAHGFNIHYRLIEPPSNVDVYIAPKAPGPIVREYFAKGGGVPALVATYQDHSGKALQKALAVAKAIGATRAGVIETTFKEETETDLFGEQVDLVGGVQLRYAFQTLVEAGYQPEVAYFETINEKLIVDLVYEKGFSGLTAVSDTAKYGGTVGKVIDESVKERKKALDNIRSGKFAEKWVEEYGKGANTIKEGKEVDNSTEEKVGRSLRDIILRGKP AKIYTDKDVSLDVIKEKRVAVLGYGSQGRAWALNLRDSGIKVSVGLEREGNSWKQAENDGFKPLRTEEAVRNSDIIIFLLPDIQRTVYLERVKPYLKEGDLVFAHGFNIHYRLIEPPSNVDVYIAPKAPGPIVREYFAKGGGVPALVATYQDHSGKALQKALAVAKAIGATRAGVIETTFKEETETDLFGEQVDLVGGVQLRYAFQTLVEAGYQPEVAYFETINEKLIVDLVYEKGFSGLTAVSDTAKYGGTVGKVIDESVKERKKALDNIRSGKFAEKWVEEYGKGANTIKEGKEVDNSTEEKVGRSLRDIILRGKP 5yet-a1-m1-cA_5yet-a1-m1-cB Structure of R354_WT Q5UQV1 Q5UQV1 2.806 X-RAY DIFFRACTION 65 0.995 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 397 397 ATYEDLISHKHDYPKEIYKESHYIRRNTRLDVIKKIPQFEQKSKEWLKQRTESLTATAISVVFDEDPYKHPIVILLDKCGRGLPFVENKFVHHGNKYEQIGTMFYSFRNNVEVGEYGLLQHSGHKFIAASPDGICSKKANTGGLSKLVGRLLEIKFPFSREINNSGDLDGDICPHYYFLQVQTQLYVTEMDECDFLQCKIDEYDSWEDFVKDSNPIVPGLSKTTNLEKGCLIQLSDKNLIGSDDKEKCLYNSKYIYPPKLHMTNEEIEKWISSEIMNYHNNDLSENYMIDRVIYWRLSQVTCNLIKLNKEAFEEKIPLLQQFWDYVLFYRQHSDKLDKLIKFVEKVKEDNSAEIFSYINEDFLSLNKDSKYEPLYQEETEWRKKYNQIKAKKAQMYK EVATYEDLISHKHDYPKEIYKESHYIRRNTRLDVIKKIPQFEQKSKEWLKQRTESLTATAISVVFDEDPYKHPIVILLDKCGRGLPFVENKFVHHGNKYEQIGTMFYSFRNNVEVGEYGLLQHSGHKFIAASPDGICSKKANTGGLSKLVGRLLEIKFPFSREINNSGDLDGDICPHYYFLQVQTQLYVTEMDECDFLQCKIDEYDSWEDFVKDSNPIVPGLSKTTNLEKGCLIQLSDKNLIGSDDKEKCLYNSKYIYPPKLHMTNEEIEKWISSEIMNYHNNDLSENYMIDRVIYWRLSQVTCNLIKLNKEAFEEKIPLLQQFWDYVLFYRQHSDKLDKLIKFVEKVKEDNSAEIFSYINEDFLSLNKDSKYEPLYQEETEWRKKYNQIKAKKAQM 5yeu-a1-m1-cA_5yeu-a1-m1-cB Structural and mechanistic analyses reveal a unique Cas4-like protein in the mimivirus virophage resistance element system Q5UQV1 Q5UQV1 3.001 X-RAY DIFFRACTION 61 0.995 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 381 381 ATYEDLISHKHDYPKEIYKESHYIRRNTRLDVIKKIPQFEQKSKEWLKQRTESLTATAISVVFDEDPYKHPIVILLDKCGRGLHGNKYEQIGTMFYSFRNNVEVGEYGLLQHSGHKFIAASPDGICSKKANTGGLSKLVGRLLEIKFPFSREINNSGDLDGDICPHYYFLQVQTQLYVTEMDECDFLQCKIDEYDSWEDFVKDSNPIVPGLSKTTNLEKGCLIQLSDKNLIGSDDKEKCLYNSKYIYPPKLHMTNEEIAAWISSEIANYHNNDLSENYMIDAVIYWRLSQVTCNLIKLNKEAFEEKIPLLQQFWDYVLFYRQHSDKLDKLIKFVEKVKEDNSAEIFSYINEDFLSLNKDSKYEPLYQEETEWRKKYNQIKA TYEDLISHKHDYPKEIYKESHYIRRNTRLDVIKKIPQFEQKSKEWLKQRTESLTATAISVVFDEDPYKHPIVILLDKCGRGLPGNKYEQIGTMFYSFRNNVEVGEYGLLQHSGHKFIAASPDGICSKKANTGGLSKLVGRLLEIKFPFSREINNSGDLDGDICPHYYFLQVQTQLYVTEMDECDFLQCKIDEYDSWEDFVKDSNPIVPGLSKTTNLEKGCLIQLSDKNLIGSDDKEKCLYNSKYIYPPKLHMTNEEIAAWISSEIANYHNNDLSENYMIDAVIYWRLSQVTCNLIKLNKEAFEEKIPLLQQFWDYVLFYRQHSDKLDKLIKFVEKVKEDNSAEIFSYINEDFLSLNKDSKYEPLYQEETEWRKKYNQIKAK 5yew-a2-m1-cC_5yew-a2-m2-cC Structural basis for GTP hydrolysis and conformational change of mitofusin 1 in mediating mitochondrial fusion Q8IWA4 Q8IWA4 3.2 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 389 389 5yew-a1-m1-cB_5yew-a1-m1-cA SPLKHFVLAKKAITAIFDQLLEFVTEGSHFVEATYKNPELDRIATEDDLVEMQGYKDKLSIIGEVLSRRHMKVAFFGRTSSGKSSVINAMLWDKVLPSGIGHITNCFLSVEGTDGDKAYLMTEGSDEKKSVKTVNQLAHALHMDKDLKAGCLVRVFWPKAKCALLRDDLVLVDSPGTDVTTELDSWIDKFCLDADVFVLVANSESTLMNTEKHFFHKVNERLSKPNIFILNNRWDASASEPEYMEDVRRQHMERCLHFLVEELKVVNALEAQNRIFFVSAKEVLSARKQKALAEGFHARLQEFQNFEQIFEECISQSAVKTKFEQHTIRAKQILATVKNIMDSVNLAAEDLPKEIDQLEKIQNNSKLLRNKAVQLENELENFTKQFLPS SPLKHFVLAKKAITAIFDQLLEFVTEGSHFVEATYKNPELDRIATEDDLVEMQGYKDKLSIIGEVLSRRHMKVAFFGRTSSGKSSVINAMLWDKVLPSGIGHITNCFLSVEGTDGDKAYLMTEGSDEKKSVKTVNQLAHALHMDKDLKAGCLVRVFWPKAKCALLRDDLVLVDSPGTDVTTELDSWIDKFCLDADVFVLVANSESTLMNTEKHFFHKVNERLSKPNIFILNNRWDASASEPEYMEDVRRQHMERCLHFLVEELKVVNALEAQNRIFFVSAKEVLSARKQKALAEGFHARLQEFQNFEQIFEECISQSAVKTKFEQHTIRAKQILATVKNIMDSVNLAAEDLPKEIDQLEKIQNNSKLLRNKAVQLENELENFTKQFLPS 5yez-a2-m1-cC_5yez-a2-m1-cD Regulatory domain of HypT M206Q mutant from Salmonella typhimurium Q7CP75 Q7CP75 2.6 X-RAY DIFFRACTION 99 0.982 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 169 172 KIKIAAAHSLSLGLLPTIVKQMQFTYAVEAISDFIFSYHDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYQGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMSQVAETFWRDLRGL LRKIKIAAAHSLSLGLLPTIVKQMPTQFTYAVEASDFIFSDNIRLFESRLFPVCANNGRGEPRYTLEQPHFPLLNYSQNSYQGRLINRTLTRHAELSFSTFFVSSMSELLKQVAMDGCGIAWLPEYAIRQEITDGRLIVLDADELVIPIQAYAYRMSQVAETFWRDLRGLQA 5yf1-a1-m1-cA_5yf1-a1-m1-cB Crystal structure of CARNMT1 bound to carnosine and SFG Q8N4J0 Q8N4J0 2.399 X-RAY DIFFRACTION 143 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 340 350 5yf0-a1-m1-cA_5yf0-a1-m1-cB 5yf2-a1-m1-cA_5yf2-a1-m1-cB EEERLEREHFWKIINAFRYYGTSMHERVNRTERQFRSLPANQQKLLPQFLLHLDKIRKCIDHNQEILLTIVNDCIHKIMPASTFDMDKLKSTLKQFVRDWSETGKAERDACYQPIIKEILKNFPKERWDPSKVNILVPGAGLGRLAWEIAMLGYACQGNEWSFFMLFSSNFVLNRCSEINKYKLYPWIHQFSNNRRSADQIRPIFFPDVDPHSLPPGSNFSMTAGDFQEIYSECNTWDCIATCFFIDTAHNVIDYIDTIWKILKPGGIWINLGPLLYHFENLANELSIELSYEDIKNVVLQYGFKVEVEKESVLSTYTVNDLSMMKYYYECVLFVVRKPQ EEEERLEREHFWKIINAFRYYGTSMHERVNRTERQFRSLPANQQKLLPQFLLHLDKIRKCIDHNQEILLTIVNDCIHMFENKEYGEGKIMPASTFDMDKLKSTLKQFVRDWSETGKAERDACYQPIIKEILKNFPKERWDPSKVNILVPGAGLGRLAWEIAMLGYACQGNESFFMLFSSNFVLNRCSEINKYKLYPWIHQFSNNRRSADQIRPIFFPDVDPHSLPPGSNFSMTAGDFQEIYSECNTWDCIATCFFIDTAHNVIDYIDTIWKILKPGGIWINLGPLLYHFENLANELSIELSYEDIKNVVLQYGFKVEVEKESVLSTYTVNDLSMMKYYYECVLFVVRKPQ 5ygg-a1-m1-cA_5ygg-a1-m2-cA Crystal structure of Fructokinase Double-Mutant (T261C-H108C) from Vibrio cholerae O395 in fructose, ADP and potassium ion bound form A0A0H3AER7 A0A0H3AER7 1.671 X-RAY DIFFRACTION 50 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 310 310 5ey7-a1-m1-cB_5ey7-a1-m1-cA 5eyn-a1-m1-cA_5eyn-a1-m2-cA 5f0z-a1-m1-cA_5f0z-a1-m2-cA 5f11-a1-m1-cA_5f11-a1-m2-cA RSDSMSRVWLTGDAVVDLIPDGQQHYLKCPGGAPANVAVAIARLSGRSAFFGRVGNDPFGRFMQQTLTDEQVDCQHLHFDPVHRTSTVVVDLDECGERSFTFMVKPSADQFLQLSDIPSFQKGEWLHVCSIALANQPSRSSTFAAIAQMKEVGGYVSFDPNLREEVWSEPQELQATVMRAVGLADVVKFSEEELQFLTGTQSIEEGLQAIADFQIPLVVVTLGAKGALVATPNSQQIVSGKAVKPIDCTGAGDAFVGGLLYRLSVAQDWHNQATILDAVKWANGCGALATTQKGAMTALPNQAALYAFLE RSDSMSRVWLTGDAVVDLIPDGQQHYLKCPGGAPANVAVAIARLSGRSAFFGRVGNDPFGRFMQQTLTDEQVDCQHLHFDPVHRTSTVVVDLDECGERSFTFMVKPSADQFLQLSDIPSFQKGEWLHVCSIALANQPSRSSTFAAIAQMKEVGGYVSFDPNLREEVWSEPQELQATVMRAVGLADVVKFSEEELQFLTGTQSIEEGLQAIADFQIPLVVVTLGAKGALVATPNSQQIVSGKAVKPIDCTGAGDAFVGGLLYRLSVAQDWHNQATILDAVKWANGCGALATTQKGAMTALPNQAALYAFLE 5ygj-a1-m1-cA_5ygj-a1-m1-cC Crystal structure of a synthase from Streptomyces sp. CL190 X5IYJ5 X5IYJ5 2.648 X-RAY DIFFRACTION 98 1.0 93372 (Streptomyces sp. CL190) 93372 (Streptomyces sp. CL190) 204 207 5guk-a1-m1-cA_5guk-a1-m1-cB 5gul-a1-m1-cA_5gul-a1-m1-cB 5gul-a2-m1-cC_5gul-a2-m1-cD 5ygj-a2-m1-cD_5ygj-a2-m1-cB 5ygk-a1-m1-cE_5ygk-a1-m1-cA 5ygk-a2-m1-cB_5ygk-a2-m1-cF 5ygk-a3-m1-cH_5ygk-a3-m1-cC 5ygk-a4-m1-cD_5ygk-a4-m1-cG TTLMLLPDGMRRWSEKNGVSLDDGYAAMGDKIIEFMGWAKEEGVKTLYITASSAANHGRPEAAVNTFMEAFTEVIRRCHSQFKFDFSGSLDLVSEDYLTELSALRDKSDSESDFTLHYILGMSLSHEVVGIFNKLNGKIPEMTEEILAENAYVPTQVDYIIRTGGAIRMSSFFPLMSPYAELHFSPVLFPDTTRADFDAALKDL TTLMLLPDGMRRWSEKNGVSLDDGYAAMGDKIIEFMGWAKEEGVKTLYITASSAANHGRPEAAVNTFMEAFTEVIRRCHSQFKFDFSGSLDLVSEDYLTELSALRDKSDSESDFTLHYILGMSLSHEVVGIFNKLNGKIPEMTEEILAENAYVPTQVDYIIRTGGAIRMSSFFPLMSPYAELHFSPVLFPDTTRADFDAALKDLRAR 5ygq-a1-m1-cB_5ygq-a1-m1-cA Crystal Structure of Ferredoxin NADP+ Oxidoreductase from Rhodopseudomonas palustris Q6N2U4 Q6N2U4 2.4 X-RAY DIFFRACTION 137 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 340 341 ETIKTDVLIVGAGPCGLFAVFELGLLDVKAHLVDILDKVGGQCAELYPEKPIYDIPGIPMVTGHGLTEALMEQIKPFNPTFHLSEMVENVEKIGDPGFRVTTNAGKVFECTVLVVAAGGGSFLPKRPPVPGVEAYEGTSVHYAVRKMEDFRGKDILIVGGGDSALDWTLNLNPIAKSMTLVHRRDDFRGAPHSVEQMRQLVASGKLDLKIGQITELQGDNGQLTGATVKLNDNTTSQIKCDAMLPFFGLTMKLGPVANWGLDLENNLIPVDTGTFETNVPGIFAIGDINTYPGKLKLILSGFHEGALMAQKAVKYVYPDKRVVFQYTTSSTNLQKKLGVN TETIKTDVLIVGAGPCGLFAVFELGLLDVKAHLVDILDKVGGQCAELYPEKPIYDIPGIPMVTGHGLTEALMEQIKPFNPTFHLSEMVENVEKIGDPGFRVTTNAGKVFECTVLVVAAGGGSFLPKRPPVPGVEAYEGTSVHYAVRKMEDFRGKDILIVGGGDSALDWTLNLNPIAKSMTLVHRRDDFRGAPHSVEQMRQLVASGKLDLKIGQITELQGDNGQLTGATVKLNDNTTSQIKCDAMLPFFGLTMKLGPVANWGLDLENNLIPVDTGTFETNVPGIFAIGDINTYPGKLKLILSGFHEGALMAQKAVKYVYPDKRVVFQYTTSSTNLQKKLGVN 5ygr-a2-m1-cC_5ygr-a2-m1-cD Crystal structure of PLP bound Diaminopropionate ammonia lyase from Salmonella typhimurium P40817 P40817 2.5 X-RAY DIFFRACTION 52 0.992 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 379 387 YQFNTRRKKYGTSLLNGNVGHEVLAFHKKLPNYAVTPLHNLAHLSQRLGLGSIHIKDESWRFGLNAFGLGGSYAVGKYLADKLQCDINSLSFAIKEKIKDCVFVTATDGNHGRGVAWAAEQLGLKAVVYMPKLIRAENIRHHGAECTITDLNYDDAVRLAHRMAQTKGWVLLQDTAWTGYEEIPTWIMQGYMTLAVEAYEQLAETNSPLPTHLILQAGVGSFAGSVMGYFVEKMQENIPNIIVVEPHQANCLYQSAVMDDGQPHCVTIMAGLACGEPNIISWPIIRDNTSCFISADDCLAAKGMRISAAPRPGTDTPFISGESGAIGVGLLYELMNNMHYQDLANRLQLDASAHVLLISTEGDTSPDIYEDIVWNGRSA QFNTRRKKYGTSLLNGNVGHEVLAFHKKLPNYAVTPLHNLAHLSQRLGLGSIHIKDESWRFGLNAFGLGGSYAVGKYLADKLQCDINSLSFAALNTPEIKEKIKDCVFVTATDGNHGRGVAWAAEQLGLKAVVYMPKGSSLIRAENIRHHGAECTITDLNYDDAVRLAHRMAQTKGWVLLQDTAWTGYEEIPTWIMQGYMTLAVEAYEQLAETNSPLPTHLILQAGVGSFAGSVMGYFVEKMQENIPNIIVVEPHQANCLYQSAVMDDGQPHCVTATIMAGLACGEPNIISWPIIRDNTSCFISADDCLAAKGMRISAAPRPGTDTPFISGESGAIGVGLLYELMNNHYQDLANRLQLDAAHVLLISTEGDTSPDIYEDIVWNGRSA 5ygv-a1-m1-cA_5ygv-a1-m1-cB Crystal structure of the abscisic acid receptor PYR1 in complex with an antagonist O49686 O49686 2.5 X-RAY DIFFRACTION 29 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 168 172 ELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPDTRMFADTVVKLNLQKLATVAEAMAR SELTPEERSELKNSIAEFHTYQLDPGSCSSLHAQRIHAPPELVWSIVRRFDKPQTYKHFIKSCSVEQNFEMRVGCTRDVIVISGLPANTSTERLDILDDERRVTGFSIIGGEHRLTNYKSVTTVHRFEKENRIWTVVLESYVVDMPDTRMFADTVVKLNLQKLATVAEAMAR 5yh1-a1-m2-cA_5yh1-a1-m3-cA Member of s1p family of ribosomal proteins PF0399 DHH domain Q8U3Q7 Q8U3Q7 2.18 X-RAY DIFFRACTION 62 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 429 429 5yh1-a1-m1-cA_5yh1-a1-m2-cA 5yh1-a1-m1-cA_5yh1-a1-m3-cA PGSHAEVKRKIEEELDRRAQPSDVGFLVKSEVLEALKPKIKAAFIRRAIFEGRPIILRHHADTDGYTAGVALETAIIPLIEKVAPDPEARWHLFKRRPSRAPFYELEDVLKDIIFEDHRFGDELPLVVIVDNGGTTEDIPAYKRLKAYGVKIVVIDHHDPRDWISEDKAKVDEYVDVHVNPHHVKRGYYELTAGLATEVARYINPEVEDRIKHLPAIAGTGDRSKAPEFYQYLEYAKEKGLDEEDLKKIAEVIDHEAFYWKFDGRGIIEEILLITGNLQRHRLVEGIYPEVKEKQEKVLKAVLPHVKSVVLPNGIRFNTIDVELYAPKFEYPSPGKLSGIIHDHFKEQYGEDSPILTLAYGPDFAVVRASDGAKYNFDLNKIVKILAEKLPDAGVEGGGHSYAGSIKFFEGKRKEVLEAFAKEVLKLKA PGSHAEVKRKIEEELDRRAQPSDVGFLVKSEVLEALKPKIKAAFIRRAIFEGRPIILRHHADTDGYTAGVALETAIIPLIEKVAPDPEARWHLFKRRPSRAPFYELEDVLKDIIFEDHRFGDELPLVVIVDNGGTTEDIPAYKRLKAYGVKIVVIDHHDPRDWISEDKAKVDEYVDVHVNPHHVKRGYYELTAGLATEVARYINPEVEDRIKHLPAIAGTGDRSKAPEFYQYLEYAKEKGLDEEDLKKIAEVIDHEAFYWKFDGRGIIEEILLITGNLQRHRLVEGIYPEVKEKQEKVLKAVLPHVKSVVLPNGIRFNTIDVELYAPKFEYPSPGKLSGIIHDHFKEQYGEDSPILTLAYGPDFAVVRASDGAKYNFDLNKIVKILAEKLPDAGVEGGGHSYAGSIKFFEGKRKEVLEAFAKEVLKLKA 5yhb-a1-m2-cA_5yhb-a1-m3-cA Crystal structure of Pd(allyl)/polyhedra mutant with deletion of Gly192-Ala194 P11041 P11041 2.08 X-RAY DIFFRACTION 48 1.0 110829 (Bombyx mori cypovirus 1) 110829 (Bombyx mori cypovirus 1) 178 178 5yhb-a1-m1-cA_5yhb-a1-m2-cA 5yhb-a1-m1-cA_5yhb-a1-m3-cA DFRGREQRLFNSEQYNYNNSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKANAKPRAIQIIFSPSVNVRTIKMAKGNEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSNRQ DFRGREQRLFNSEQYNYNNSLNGEVSVWVYAYYSDGSVLVINKNSQYKVGISETFKANAKPRAIQIIFSPSVNVRTIKMAKGNEYLQRSHPWEATGIKYRKIKRDGEIVGYSHYFELPHEYNSISLAVSGVHKNDLALRFCNRYWAELELVNHYISPNAYPYLDINNHSYGVALSNRQ 5yhi-a1-m1-cB_5yhi-a1-m1-cA Crystal structure of YiiM from Escherichia coli P32157 P32157 2.85 X-RAY DIFFRACTION 72 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 201 202 PMRYPVDVYTGKIQVDGELMLTELGLEGDGPDRALCHYPREHYLYWAREFPEQAELFVAPAFGENLSTDGLTESNVYMGDIFRWGEALIQVSQPRSPCYKLNYHFDISDIAQLMQNTGKVGWLYSVIAPGKVSADAPLELVSRVSDVTVQEAAAIAWHMPFDDDQYHRLLSAAGLSKSWTRTMQKRRLSGKIEDFSRRLWG PMRYPVDVYTGKIQVDGELMLTELGLEGDGPDRALCHYPREHYLYWAREFPEQAELFVAPAFGENLSTDGLTESNVYMGDIFRWGEALIQVSQPRSPCYKLNYHFDISDIAQLMQNTGKVGWLYSVIAPGKVSADAPLELVSRVSDVTVQEAAAIAWHMPFDDDQYHRLLSAAGLSKSWTRTMQKRRLSGKIEDFSRRLWGK 5yhj-a3-m1-cA_5yhj-a3-m1-cB Cytochrome P450EX alpha (CYP152N1) wild-type with myristic acid C4L2G9 C4L2G9 2.3 X-RAY DIFFRACTION 73 1.0 360911 (Exiguobacterium sp. AT1b) 360911 (Exiguobacterium sp. AT1b) 406 411 GKVIPKQEGLDHSVDFLREGYLFVANRRKSFQSNIFESRLLGERVICLGGEEAAEVFYDANKFTRQDAAPKRLLKTLFGEGGVQTLDGSEHTHRKQMFMSLMTKENIDRLLRLTYREWNQIERMGEEIVLYDIAQEVLMKAVCEWSGVPLAKEEVGKRTEEMRLLFESPTYLQGRKARSSAEVWIRQMVKEVRSNRLLPNEHTALYEFSWHRDESGELLPEEVVAVEVLNILRPTVAISVYVLFTVLALHQFPDVKEQVERGEVSKTEFVQEVRRFYPFFPVAAARVKTDFEWDGYAFPEGTLTLLDLYGTNHDVSIWTEPDRFDPSRFKDWKESPFNFIPQGGGDVDFGHRCAGEHVTIAILAQVIELFTKEYAYTVPPQDLSYSFVDMPSLPKSKLRLTHLTRN GKVIPKQEGLDHSVDFLREGYLFVANRRKSFQSNIFESRLLGERVICLGGEEAAEVFYDANKFTRQDAAPKRLLKTLFGEGGVQTLDGSEHTHRKQMFMSLMTKENIDRLLRLTYREWNQIERMGEEIVLYDIAQEVLMKAVCEWSGVPLAKEEVGKRTEEMRLLFESGTSLGPTYLQGRKARSSAEVWIRQMVKEVRSNRLLPNEHTALYEFSWHRDESGELLPEEVVAVEVLNILRPTVAISVYVLFTVLALHQFPDVKEQVERGEVSKTEFVQEVRRFYPFFPVAAARVKTDFEWDGYAFPEGTLTLLDLYGTNHDVSIWTEPDRFDPSRFKDWKESPFNFIPQGGGDVDFGHRCAGEHVTIAILAQVIELFTKEYAYTVPPQDLSYSFVDMPSLPKSKLRLTHLTRN 5yhp-a1-m1-cA_5yhp-a1-m1-cB Proline iminopeptidase from Psychrophilic yeast glaciozyma antarctica A0A2H4A311 A0A2H4A311 2.393 X-RAY DIFFRACTION 61 1.0 105987 (Glaciozyma antarctica) 105987 (Glaciozyma antarctica) 318 319 TSLFAAIQPYKTHLLRVSPLHRLSIKEYGNPQGKPVVFLHGGPGGGASDSDARRFNPTTYRIVLFDQRGSGESTPASCLEDNTTQALVEDIEKIREFLQVGAAWHVFGGSWGSTLALAYAQAHPARVKSLTLRGIFTLRKKELDFFYQGPGSSFVFPEYWEEYLDPIPVAERGDMVKAYYERLTGSDEKVRAEAGRAWSRWEMATSRLHVDPDYISKADAPGFADAFARIESHYFVNGGFMPEGELLKPENIAKISHIPAVIVQGRYDMVCPITTAYELTKLWPEAKFVVIPDAGHSAIEAGTEKALVEATEEFAKLA MTSLFAAIQPYKTHLLRVSPLHRLSIKEYGNPQGKPVVFLHGGPGGGASDSDARRFNPTTYRIVLFDQRGSGESTPASCLEDNTTQALVEDIEKIREFLQVGAAWHVFGGSWGSTLALAYAQAHPARVKSLTLRGIFTLRKKELDFFYQGPGSSFVFPEYWEEYLDPIPVAERGDMVKAYYERLTGSDEKVRAEAGRAWSRWEMATSRLHVDPDYISKADAPGFADAFARIESHYFVNGGFMPEGELLKPENIAKISHIPAVIVQGRYDMVCPITTAYELTKLWPEAKFVVIPDAGHSAIEAGTEKALVEATEEFAKLA 5yhr-a3-m1-cA_5yhr-a3-m1-cB Crystal structure of the anti-CRISPR protein, AcrF2 Q6TM72 Q6TM72 1.34 X-RAY DIFFRACTION 113 1.0 10708 (Casadabanvirus D3112) 10708 (Casadabanvirus D3112) 90 90 TKTAQIAQQHKDTVAACEAAEAIAIAKDQVWDGEGYTKYTFDDNSVLIQSGTTQYADADDADSIKGYADWLDDEARSAEASEIERLLESV TKTAQIAQQHKDTVAACEAAEAIAIAKDQVWDGEGYTKYTFDDNSVLIQSGTTQYADADDADSIKGYADWLDDEARSAEASEIERLLESV 5yhu-a1-m2-cA_5yhu-a1-m4-cA Crystal structure of the DNA-binding domain of human myelin-gene regulatory factor Q9Y2G1 Q9Y2G1 1.85 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 191 5h5p-a1-m1-cA_5h5p-a1-m2-cA 5h5p-a1-m1-cA_5h5p-a1-m3-cA 5h5p-a1-m2-cA_5h5p-a1-m3-cA 5yhu-a1-m1-cA_5yhu-a1-m2-cA 5yhu-a1-m1-cA_5yhu-a1-m4-cA 5yhu-a2-m1-cB_5yhu-a2-m3-cB 5yhu-a2-m1-cB_5yhu-a2-m5-cB 5yhu-a2-m3-cB_5yhu-a2-m5-cB SYLDPNYQSIKWQPHQQNKWATLYDANYKELPMLTYRVDADKGFNFSVGDDAFVCQKKNHFQVTVYIGMLGEPKYVKTPEGLKPLDCFYLKLHGVKLEALNQSINIEQSQSDRSKRPFNPVTVNLPPEQVTKVTVGRLHFSETTANNMRKKGKPNPDQRYFMLVVALQAHAQNQNYTLAAQISERIIVRAS SYLDPNYQSIKWQPHQQNKWATLYDANYKELPMLTYRVDADKGFNFSVGDDAFVCQKKNHFQVTVYIGMLGEPKYVKTPEGLKPLDCFYLKLHGVKLEALNQSINIEQSQSDRSKRPFNPVTVNLPPEQVTKVTVGRLHFSETTANNMRKKGKPNPDQRYFMLVVALQAHAQNQNYTLAAQISERIIVRAS 5yhv-a1-m1-cD_5yhv-a1-m1-cB Crystal structure of an aminotransferase from Mycobacterium tuberculosis P96847 P96847 2.7 X-RAY DIFFRACTION 34 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 364 387 5yhv-a1-m1-cC_5yhv-a1-m1-cA DRVALRAGVPPFMDVWLAAAERQGDLVNLSAGQPSAGAPEPVRAAAAAALHLNQLGYSVALGIPELRDAIAADYQRRHGITVEPDAVVITTGSSGGFLLAFLACFDAGDRVAMASPGYPCYRNILSALGCEVVEIPCGPQTRFQPTAQMLAEIDPLRGVVVASPANPTGTVIPPEELAAIASWCDASDVRLISDEVYHGLVYQGAPQTSCAWQTSRNAVVVNSFSKYYAMTGWRLGWLLVPTVLRRAVDCLTGNFTICPPVLSQIAAVSAFTPEATAEADGNLASYAINRSLLLDGLRRIDRLAPTDAFYVYDVSDFTSLAFCSKLLADTGVAIAPGIDFDTARGGFVRISFAGPSGDIEEALR TDRVALRAGVPPFYVMDVWLAAAERQRTHGDLVNLSAGQPSAGAPEPVRAAAAAALHLNQLGYSVALGIPELRDAIAADYQRRHGITVEPDAVVITTGSSGGFLLAFLACFDAGDRVAMASPGYPCYRNILSALGCEVVEIPCGPQTRFQPTAQMLAEIDPPLRGVVVASPANPTGTVIPPEELAAIASWCDASDVRLISDEVYHGLVYQGAPQTSCAWQTSRNAVVVNSFSKYYAMTGWRLGWLLVPTVLRRAVDCLTGNFTICPPVLSQIAAVSAFTPEATAEADGNLASYAINRSLLLDGLRRIGIDRLAPTDGAFYVYADVSDFTSDSLAFCSKLLADTGVAIAPGIDFDTARGGSFVRISFAGPSGDIEEALRRIGSWLPSQ 5yhv-a1-m1-cD_5yhv-a1-m1-cC Crystal structure of an aminotransferase from Mycobacterium tuberculosis P96847 P96847 2.7 X-RAY DIFFRACTION 233 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 364 384 5yhv-a1-m1-cB_5yhv-a1-m1-cA DRVALRAGVPPFMDVWLAAAERQGDLVNLSAGQPSAGAPEPVRAAAAAALHLNQLGYSVALGIPELRDAIAADYQRRHGITVEPDAVVITTGSSGGFLLAFLACFDAGDRVAMASPGYPCYRNILSALGCEVVEIPCGPQTRFQPTAQMLAEIDPLRGVVVASPANPTGTVIPPEELAAIASWCDASDVRLISDEVYHGLVYQGAPQTSCAWQTSRNAVVVNSFSKYYAMTGWRLGWLLVPTVLRRAVDCLTGNFTICPPVLSQIAAVSAFTPEATAEADGNLASYAINRSLLLDGLRRIDRLAPTDAFYVYDVSDFTSLAFCSKLLADTGVAIAPGIDFDTARGGFVRISFAGPSGDIEEALR DRVALRAGVPPFMDVWLAAAERQRTHGDLVNLSAGQPSAGAPEPVRAAAAAALHLNQLGYSVALGIPELRDAIAADYQRRHGITVEPDAVVITTGSSGGFLLAFLACFDAGDRVAMASPGYPCYRNILSALGCEVVEIPCGPQTRFQPTAQMLAEIDPPLRGVVVASPANPTGTVIPPEELAAIASWCDASDVRLISDEVYHGLVYQGAPQTSCAWQTSRNAVVVNSFSKYYAMTGWRLGWLLVPTVLRRAVDCLTGNFTICPPVLSQIAAVSAFTPEATAEADGNLASYAINRSLLLDGLRRIGIDRLAPTDGAFYVYADVSDFTSDSLAFCSKLLADTGVAIAPGIDFDTARGGSFVRISFAGPSGDIEEALRRIGSWLPSQ 5yi1-a1-m1-cA_5yi1-a1-m2-cA Structure of Lactococcus lactis ZitR, C30AH42A mutant in apo form Q9CDU5 Q9CDU5 2.2 X-RAY DIFFRACTION 108 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 132 132 GMSLANQIDQFLGTIMQFAENLTSTQEAILMLLAEQISTNAKIAEKLKISPAAVTKALKKLQEQELIKSSRATNDERVVLWSLTEKAVPVAKEHATHHEKTLSTYQELGNKFTDEEQEVISKFLSALTEEFQ GMSLANQIDQFLGTIMQFAENLTSTQEAILMLLAEQISTNAKIAEKLKISPAAVTKALKKLQEQELIKSSRATNDERVVLWSLTEKAVPVAKEHATHHEKTLSTYQELGNKFTDEEQEVISKFLSALTEEFQ 5yig-a1-m1-cA_5yig-a1-m1-cB Crystal structure of Streptococcus pneumonia ParE with inhibitor 2.8 X-RAY DIFFRACTION 13 1.0 760839 (Streptococcus pneumoniae GA47502) 760839 (Streptococcus pneumoniae GA47502) 192 194 VLEGLDAVRKRPGMYIGSTDGAGLHHLVWEIVDNAVDEALSGFGDRIDVTINKDGSLTVQDHGRGMPTGMHAMGIPTVEVIFTILHAVGSSVVNALSSWLEVEITRDGAVYKQRFENGGKPVTTLKKIGTALKSKTGTKVTFMPDATIFSTTDFKYNTISERLNESAFLLKNVTLSLTDKRTDEAIEFHYEN QVLEGLDAVRKRPGMYIGSTDGAGLHHLVWEIVDNAVDEALSGFGDRIDVTINKDGSLTVQDHGRGMPTGMHAMGIPTVEVIFTILHAGVGSSVVNALSSWLEVEITRDGAVYKQRFENGGKPVTTLKKIGTALKSKTGTKVTFMPDATIFSTTDFKYNTISERLNESAFLLKNVTLSLTDKRTDEAIEFHYEN 5yii-a1-m1-cA_5yii-a1-m2-cA Crystal Structure of 45 amino acid deleted from N-terminal of Phosphoserine Aminotransferase (PSAT) of Entamoeba histolytica Q60I38 Q60I38 1.8 X-RAY DIFFRACTION 117 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 311 311 WINVMNETKALMKEVMDIPEGYEILFFGGGASLQFLMVAMNLLNKKACYLDTGVWASKAIKEAENIGEVKIIGTSKDKNYTYIPEYQIPSDYDYFHITTNNTIYGTEIRKDIESPIPLVADMSSDILSKPIDISKYSLIYAGAQKNCGAAGVTIVIIKKEILGKVQRKIPIILDYQVHILNNSMYNTPPVISIFTVNQTLKYIKKIGGLKKIQELNEEKARLLYAEIDRNKIFRGTVRKKDRSIMNVCFVMEEQYKQLENEFSEYALQKGIIGIKGHRSVGGFRASIYNAVTIESVQALIKCMHDFEQLHT WINVMNETKALMKEVMDIPEGYEILFFGGGASLQFLMVAMNLLNKKACYLDTGVWASKAIKEAENIGEVKIIGTSKDKNYTYIPEYQIPSDYDYFHITTNNTIYGTEIRKDIESPIPLVADMSSDILSKPIDISKYSLIYAGAQKNCGAAGVTIVIIKKEILGKVQRKIPIILDYQVHILNNSMYNTPPVISIFTVNQTLKYIKKIGGLKKIQELNEEKARLLYAEIDRNKIFRGTVRKKDRSIMNVCFVMEEQYKQLENEFSEYALQKGIIGIKGHRSVGGFRASIYNAVTIESVQALIKCMHDFEQLHT 5yit-a3-m1-cE_5yit-a3-m2-cE Crystal Structure of Hypothetical protein (Rv3272) from Mycobacterium tuberculosis P96877 P96877 2.79 X-RAY DIFFRACTION 404 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 344 344 5yit-a1-m1-cA_5yit-a1-m1-cB 5yit-a2-m1-cD_5yit-a2-m1-cC 5yiy-a1-m1-cB_5yiy-a1-m1-cA 5yx6-a1-m1-cB_5yx6-a1-m1-cA 5yx6-a2-m1-cD_5yx6-a2-m1-cC PAKPLDGFRVLDFTQNVAGPLAGQVLVDLGAEVIKVEAPGGEAARQILATYFLPNNRGKKSVTVDLTTEQAKQQMLRLADTADVVLEAFRPGTMEKLGLGPDDLRSRNPNLIYARLTAYGGNGPHGSRPGIDLVVAAEAGMTTGMPTPEGKPQIIPFQLVDNASGHVLAQAVLAALLHRERNGVADVVQVAMYDVAVGLQANQLMMHLNRTQPSDAFRTADGYIVISAYVPKHWQKLCYLIGRPDLVEDQRFAEQRSRSINYAELTAELELALASKTATEWVQLLQANGLMACLAHTWKQVVDTPLFAENDLTLITVIRTPARYASFRAVVTDPPPTAGEHNAV PAKPLDGFRVLDFTQNVAGPLAGQVLVDLGAEVIKVEAPGGEAARQILATYFLPNNRGKKSVTVDLTTEQAKQQMLRLADTADVVLEAFRPGTMEKLGLGPDDLRSRNPNLIYARLTAYGGNGPHGSRPGIDLVVAAEAGMTTGMPTPEGKPQIIPFQLVDNASGHVLAQAVLAALLHRERNGVADVVQVAMYDVAVGLQANQLMMHLNRTQPSDAFRTADGYIVISAYVPKHWQKLCYLIGRPDLVEDQRFAEQRSRSINYAELTAELELALASKTATEWVQLLQANGLMACLAHTWKQVVDTPLFAENDLTLITVIRTPARYASFRAVVTDPPPTAGEHNAV 5yjc-a1-m1-cA_5yjc-a1-m1-cB Structural insights into the CRISPR-Cas-associated ribonuclease activity of Staphylococcus epidermidis Csm6 Q5HK94 Q5HK94 2.007 X-RAY DIFFRACTION 122 0.996 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 247 247 INILSFREAMIRSQILGLIDNYDYEGALNLVSNQKSFRNGKLLRKKLLSLTKQIKTHEVFPEINEKYRDDALKKSLFHYLLLNMRYNRLDVAETLIRVKSIAEFILKTYIEIHWPTLIIEKDGKPYLNDEDNLSFVYKYNLLLEKRKQNFDVSRILGLPAFIDILTILEPNSQLLKEVNAVNDINGLRNSIAHNLDTLNLDKNKNYKKIMLSVEAIKNMLHISFPEIEEEDYNYFEEKNKEFKELLE EINILSFREAMIRSQILGLIDNYDYEGALNLVSNQKSFRNGKLLRKKLLSLTKQIKTHEVFPEINEKYRDDALKKSLFHYLLLNMRYNRLDVAETLIRVKSIAEFILKTYIEIHWPTLIIEKDGKPYLNDEDNLSFVYKYNLLLEKRKQNFDVSRILGLPAFIDILTILEPNSQLLKEVNAVNDINGLRNSIAHNLDTLNLDKNKNYKKIMLSVEAIKNMLHISFPEIEEEDYNYFEEKNKEFKELL 5yje-a1-m1-cC_5yje-a1-m1-cB Crystal structure of HIRA(644-1017) P54198 P54198 2.45 X-RAY DIFFRACTION 96 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 299 318 5yje-a1-m1-cC_5yje-a1-m1-cA KLPIPSPQRAFTLQVSSDPSMYIEVENEVTVVGGVKLSRLKCNREGKEWETVLTSRILTAAGSCDVVCVACEKRMLSVFSTCGRRLLSPILLPSPISTLHCTGSYVMALTAAATLSVWDVHRQVVVVKEESLHSILDMTVSQILLTQHGIPVMNLSDGKAYCFNPSLSTWNLVSDKQDSLAQCADFRGPLAIIQGQAARLFSVPHVVQQETTLAYLENQVAAALTLQSSHEYRHWLLVYARYLVNEGFEYRLREICKDLLGWESTVVGLRKRELLKELLPVIGQNLRFQRLFTECQEQL SAPALALKLPIPSPQRAFTLQVSSDPSMYIEVENEVTVVGGVKLSRLKCNREGKEWETVLTSRILTAAGSCDVVCVACEKRMLSVFSTCGRRLLSPILLPSPISTLHCTGSYVMALTAAATLSVWDVHRQVVVVKEESLHSILAGSDMTVSQILLTQHGIPVMNLSDGKAYCFNPSLSTWNLVSDKQDSLAQCADFRSGPLAIIQGRTSAARLFSVPHVVQQETTLAYLENQVAAALTLQSSHEYRHWLLVYARYLVNEGFEYRLREICKDLLGQWESTVVGLRKRELLKELLPVIGQNLRFQRLFTECQEQLDILRD 5yjg-a1-m1-cA_5yjg-a1-m2-cA Structural insights into periostin functions Q15063 Q15063 2.399 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 594 594 5yjh-a1-m1-cA_5yjh-a1-m2-cA DQGPNVCALQQILGTKKKYFSTCKNWYKKSICGQKTTVLYECCPGYMRMEGMKGCPAVLPIDHVYGTLGIVGATTTQRYSDASKLREEIEGKGSFTYFAPSNEAWDNLDSDIRRGLESNVNVELLNALHSHMINKRMLTKDLKNGMIIPSMYNNLGLFINHYPNGVVTVNCARIIHGNQIATNGVVHVIDRVLTQIGTSIQDFIEAEDDLSSFRAAAITSDILEALGRDGHFTLFAPTNEAFEKLPRGVLERIMGDKVASEALMKYHILNTLQCSESIMGGAVFETLEGNTIEIGCDGDSITVNGIKMVNKKDIVTNNGVIHLIDQVLIPDSAKQVIELAGKQQTTFTDLVAQLGLASALRPDGEYTLLAPVNNAFSDDTLSMDQRLLKLILQNHILKVKVGLNELYNGQILETIGGKQLRVFVYRTAVCIENSCMEKGSKQGRNGAIHIFREIIKPAEKSLHEKLKQDKRFSTFLSLLEAADLKELLTQPGDWTLFVPTNDAFKGMTSEEKEILIRDKNALQNIILYHLTPGVFIGKGFEPGVTNILKTTQGSKIFLKEVNDTLLVNELKSKESDIMTTNGVIHVVDKLLYPA DQGPNVCALQQILGTKKKYFSTCKNWYKKSICGQKTTVLYECCPGYMRMEGMKGCPAVLPIDHVYGTLGIVGATTTQRYSDASKLREEIEGKGSFTYFAPSNEAWDNLDSDIRRGLESNVNVELLNALHSHMINKRMLTKDLKNGMIIPSMYNNLGLFINHYPNGVVTVNCARIIHGNQIATNGVVHVIDRVLTQIGTSIQDFIEAEDDLSSFRAAAITSDILEALGRDGHFTLFAPTNEAFEKLPRGVLERIMGDKVASEALMKYHILNTLQCSESIMGGAVFETLEGNTIEIGCDGDSITVNGIKMVNKKDIVTNNGVIHLIDQVLIPDSAKQVIELAGKQQTTFTDLVAQLGLASALRPDGEYTLLAPVNNAFSDDTLSMDQRLLKLILQNHILKVKVGLNELYNGQILETIGGKQLRVFVYRTAVCIENSCMEKGSKQGRNGAIHIFREIIKPAEKSLHEKLKQDKRFSTFLSLLEAADLKELLTQPGDWTLFVPTNDAFKGMTSEEKEILIRDKNALQNIILYHLTPGVFIGKGFEPGVTNILKTTQGSKIFLKEVNDTLLVNELKSKESDIMTTNGVIHVVDKLLYPA 5yjj-a2-m1-cE_5yjj-a2-m1-cF Crystal structure of PNPase from Staphylococcus epidermidis Q8CST1 Q8CST1 2.2 X-RAY DIFFRACTION 91 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 441 442 5yjj-a1-m1-cA_5yjj-a1-m1-cB 5yjj-a1-m1-cA_5yjj-a1-m1-cC 5yjj-a1-m1-cB_5yjj-a1-m1-cC 5yjj-a2-m1-cD_5yjj-a2-m1-cF 5yjj-a2-m1-cE_5yjj-a2-m1-cD KKVFKTEWAGRSLTIETGQLAKQANGAVLVRYGDTVVLSTATASKEPRFFPLTVNYEEKMYAADEATLTARLIDRPIRPLFPKGYRHDVQIMNIVLSADPDCSPEMAAMIGSSMALSVSDIPFQGPIAGVNVGYIDGKYVINPSVADKEISRLDLEVAGHKDAVNMVEAGASEITESEMLEAIFFGHEEIKRLVAFQQEIIDHIQPIKQVYAILNDLIKEEVRRLIADEKIRPDGRKVDEIRPLESEVGLLPRAHGSGLFTRGQTQALSVLTLGARFMHHYNFPNFSVGETGPVRAPGRREIGHGALGERALRYIIPDTQDFPYTIRIVSEVLESNGSSSQASICGSTLALMDAGVPIKAPVAGIAMGLVTRDDSYTILTDIQGMEDALGDMDFKVAGTKDGITAIQMDIKIDLTREVIEEALEQARQGRLAIMDHMLHTI KKVFKTEWAGRSLTIETGQLAKQANGAVLVRYGDTVVLSTATASKEPRFFPLTVNYEEKMYAADEATLTARLIDRPIRPLFPKGYRHDVQIMNIVLSADPDCSPEMAAMIGSSMALSVSDIPFQGPIAGVNVGYIDGKYVINPSVADKEISRLDLEVAGHKDAVNMVEAGASEITESEMLEAIFFGHEEIKRLVAFQQEIIDHIQPIKQVYAILNDLIKEEVRRLIADEKIRPDGRKVDEIRPLESEVGLLPRAHGSGLFTRGQTQALSVLTLGARFMHHYNFPNFSVGETGPVRAPGRREIGHGALGERALRYIIPDTQDFPYTIRIVSEVLESNGSSSQASICGSTLALMDAGVPIKAPVAGIAMGLVTRDDSYTILTDIQGMEDALGDMDFKVAGTKDGITAIQMDIKIDGLTREVIEEALEQARQGRLAIMDHMLHTI 5yjl-a1-m1-cA_5yjl-a1-m1-cB Crystal structure of Arabidopsis glutamyl-tRNA reductase in complex with NADPH and GBP P42804 P42804 2.7 X-RAY DIFFRACTION 84 0.993 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 411 415 4n7r-a1-m1-cB_4n7r-a1-m1-cA RSSIVVIGLSIHTAPVEMREKLAIPEAEWPRAIAELCGLNHIEEAAVLSTCNRMEIYVLALSQHRGVKEVTEWMSKTSGIPVSEICQHRFLLYNKDATQHIFEVSAGLDSLVLGEGQILAQVKQVVKVGQGVNGFGRNISGLFKHAITVGKRVRTETNIASGAVSVSSAAVELALMKLPSARMCVIGAGKMGKLVIKHLMAKGCTKVVVVNRSEERVSAIREEMPGIEIIYRPLDEMLACASEADVVFTSTASETPLFLKEHVENLPQASPEVGGLRHFVDISVPRNVGSCVGEVETARVYNVDDLKEVVAANKEDRMRKAMEAQTIITEESTQFEAWRDSLETVPTIKKLRAYAERIRVAELEKCMSKKTTRAVDDLSRGIVNRFLHGPMQHLTLSETLENMHALNRMYG SSIVVIGLSIHTAPVEMREKLAIPEAEWPRAIAELCGLNHIEEAAVLSTCNRMEIYVLALSQHRGVKEVTEWMSKTSGIPVSEICQHRFLLYNKDATQHIFEVSAGLDSLVLGEGQILAQVKQVVKVGQGVNGFGRNISGLFKHAITVGKRVRTETNIASGAVSVSSAAVELALMKLPARMCVIGAGKMGKLVIKHLMAKGCTKVVVVNRSEERVSAIREEMPGIEIIYRPLDEMLACASEADVVFTSTASETPLFLKEHVENLPQASPEVGGLRHFVDISVPRNVGSCVGEVETARVYNVDDLKEVVAANKEDRMRKAMEAQTIITEESTQFEAWRDSLETVPTIKKLRAYAERIRVAELEKCMSKMKTTRAVDDLSRGIVNRFLHGPMQHLRCDGSRTLSETLENMHALNRMY 5yjl-a2-m1-cC_5yjl-a2-m1-cD Crystal structure of Arabidopsis glutamyl-tRNA reductase in complex with NADPH and GBP Q9LU39 Q9LU39 2.7 X-RAY DIFFRACTION 106 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 251 253 4n7r-a1-m1-cD_4n7r-a1-m1-cC 5che-a1-m1-cC_5che-a1-m1-cD THKPFPAEVSRSIMELSSVGTLSTLTHDGWPLGVGVRFAVDKDGTPVLCLNRSVSPDKRSALHVQLEQCGLRTPQCTIQGSIGRPGDDTVLKRLSATWREKFGEEVKEDSLYVVAVDRVLQMEDFMEDGIWVASSDYKNASPDPLRDIAEDIVNQINANNMEDIFRFCNVYVDLDFVVSETKMIWMDRLGFDLRVWSPRGVYDVRIPFPMEVTDEKGAKSSFNGMSQLAWEVEKSYCPADFNKVKLLKQVV ASTHKPFPAEVSRSIMELSSVGTLSTLTHDGWPLGVGVRFAVDKDGTPVLCLNRSVSPDKRSALHVQLEQCGLRTPQCTIQGSIGRPGDDTVLKRLSATWREKFGEEVKEDSLYVVAVDRVLQMEDFMEDGIWVASSDYKNASPDPLRDIAEDIVNQINANNMEDIFRFCNVYVDLDFVVSETKMIWMDRLGFDLRVWSPRGVYDVRIPFPMEVTDEKGAKSSFNGMSQLAWEVEKSYCPADFNKVKLLKQVV 5yk4-a1-m1-cB_5yk4-a1-m1-cA Mismatch Repair Protein Q5F5J4 Q5F5J4 2.97 X-RAY DIFFRACTION 187 0.992 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 767 771 5x9w-a1-m1-cA_5x9w-a1-m1-cB SAVSPMMQQYLGIKAQHTDKLVFYRMGDFYELFLDDAVEAAKLLDITLTTRGQMDGVPIKMAGVPFHAAEQYLARLVKLGKSVAICEQVGEVGAGKGPVERKVVRIVTPGTLTDSALLEDKETNRIVAVSPDKKYIGLAWASLQSGEFKTKLTTADKLNDELARLQAAEILLPDSKNAPQLQTASGVTRLNAWQFAADAGEKLLTEYFGCQDLRGFGLDSKEHAVSIGAAGALLNYIRLTQNLMPQHLDGLSLETDSQYIGMDAATRRNLEITQTLSGKKTPTLFSILDGCATHMGSRLLALWLHHPLRNRAHIRARQEAVTALESQYEPLQCHLKSIADIERIAARIAVGNARPRDLASLRDSLFELAQIDLSATGSSLLETLKAVFPETLPVAETLKAAVMPEPSVWLKDGNVINHGFHPELDELRRIQNHGDEFLLDLEAKERERTGLSTLKVEFNRVHGFYIELSKTQAEQAPADYQRRQTLKNAERFITPELKAFEDKVLTAQDQALALEKQLFDGVLKNLRTALPQLQKAAKAAAALDVLSTFSALAKERNFVRPEFADYPVVHIENGRHPVVEQQVRHFTANHTDLDHKHRLMLLTGPNMGGKSTYMRQVALIVLLAHTGCFVPADAATIGPVDQIFTRVEMSETAYILHHATEQSIVLMDEVGRGTSTFDGLALAHAIAEHLLQKNKSFSLFATHYFELTYLPEAHAAAVNMHLSALEQGRDIVFLHQIQPGPAGKSYGIAVAKLAGLPVRALKAAQKH GSMSKSAVSPMMQQYLGIKAQHTDKLVFYRMGDFYELFLDDAVEAAKLLDITLTTRGQMDGVPIKMAGVPFHAAEQYLARLVKLGKSVAICEQVGEPVERKVVRIVTPGTLTDSALLEDKETNRIVAVSPDKKYIGLAWASLQSGEFKTKLTTADKLNDELARLQAAEILLPDSKNAPQLQTASGVTRLNAWQFAADAGEKLLTEYFGCQDLRGFGLDSKEHAVSIGAAGALLNYIRLTQNLMPQHLDGLSLETDSQYIGMDAATRRNLEITQTLSGKKTPTLFSILDGCATHMGSRLLALWLHHPLRNRAHIRARQEAVTALESQYEPLQCHLKSIADIERIAARIAVGNARPRDLASLRDSLFELAQIDLSATGSSLLETLKAVFPETLPVAETLKAAVMPEPSVWLKDGNVINHGFHPELDELRRIQNHGDEFLLDLEAKERERTGLSTLKVEFNRVHGFYIELSKTQAEQAPADYQRRQTLKNAERFITPELKAFEDKVLTAQDQALALEKQLFDGVLKNLRTALPQLQKAAKAAAALDVLSTFSALAKERNFVRPEFADYPVVHIENGRHPVVEQQVRHFTANHTDLDHKHRLMLLTGPNMGGKSTYMRQVALIVLLAHTGCFVPADAATIGPVDQIFTRISTFMVEMSETAYILHHATEQSIVLMDEVGRGTSTFDGLALAHAIAEHLLQKNKSFSLFATHYFELTYLPEAHAAAVNMHLSALEQGRDIVFLHQIQPGPAGKSYGIAVAKLAGLPVRALKAAQKH 5yk6-a1-m1-cA_5yk6-a1-m2-cA Crystal Structure of Mmm1 C5DRQ1 C5DRQ1 2.8 X-RAY DIFFRACTION 216 1.0 559307 (Zygosaccharomyces rouxii CBS 732) 559307 (Zygosaccharomyces rouxii CBS 732) 239 239 5yk7-a1-m1-cC_5yk7-a1-m1-cA NERSRQIDDILEKTYYNVDTHPAESLDWFNVLIGQTIQQLREEAWKKDNIVYSLNAFIERKAQELPSYLDSIKITELDIGHDFPIFSNCRIQYSPNSNGRKLEAKIDIDLNDRLAVGIETRLLLNYPKPLTASLPINVTVSIIRFQACLTVSLTKAEEFVPTSPNDGYFLMFSFAPEYRMEFETQSLIGARSKLENIPKIGSLVEYQIKKWFVERCVEPRFQFIKLPSVWPRSKNTREG NERSRQIDDILEKTYYNVDTHPAESLDWFNVLIGQTIQQLREEAWKKDNIVYSLNAFIERKAQELPSYLDSIKITELDIGHDFPIFSNCRIQYSPNSNGRKLEAKIDIDLNDRLAVGIETRLLLNYPKPLTASLPINVTVSIIRFQACLTVSLTKAEEFVPTSPNDGYFLMFSFAPEYRMEFETQSLIGARSKLENIPKIGSLVEYQIKKWFVERCVEPRFQFIKLPSVWPRSKNTREG 5ykr-a1-m1-cA_5ykr-a1-m1-cB Crystal structure of a glutamate-1-semialdehyde-aminomutase from Pseudomonas aeruginosa PAO1 Q9HWU0 Q9HWU0 1.44 X-RAY DIFFRACTION 464 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 452 452 5ykt-a1-m1-cA_5ykt-a1-m1-cB FGLDLARVETLFKRELRRFDELHPRSAQAYRENRRHWLYGAPLHWMQQWPGNCPLLVKEAQGARVTDIDGQQYVDFALGDSGAMFGHAQPAVADAIARQARRGSTLMLPTEDSLWVGAELARRFGLPYWQVTTSATDANRFVLRLCRMLSGRDKVVVFNCNYHGSVDESQVEFDAAGRMVPRAGVHPNGVRHATTTRLVEFNDLDALEAALAHGDVAAVLTEPFMTNVGMVPPAEGFHAGLRELTRRHDVALIIDETHTISCGPAGYSGAHGLEPDFFVLGCIAGGIPSAVWGCSQAQAERIWAVLPHFRPGQAINHFGFGGTLAGNALQLAAMRATFAEVMTEDAYRHMFQLAAQLEAGVRATLEELRLPWHVTRIGARVEYLFMTHAPRNGGEAHHARNGLIEACLHLYLLNRGVLLTPFHNMALTCPATRAEDVELHDRLLRDCLGELL FGLDLARVETLFKRELRRFDELHPRSAQAYRENRRHWLYGAPLHWMQQWPGNCPLLVKEAQGARVTDIDGQQYVDFALGDSGAMFGHAQPAVADAIARQARRGSTLMLPTEDSLWVGAELARRFGLPYWQVTTSATDANRFVLRLCRMLSGRDKVVVFNCNYHGSVDESQVEFDAAGRMVPRAGVHPNGVRHATTTRLVEFNDLDALEAALAHGDVAAVLTEPFMTNVGMVPPAEGFHAGLRELTRRHDVALIIDETHTISCGPAGYSGAHGLEPDFFVLGCIAGGIPSAVWGCSQAQAERIWAVLPHFRPGQAINHFGFGGTLAGNALQLAAMRATFAEVMTEDAYRHMFQLAAQLEAGVRATLEELRLPWHVTRIGARVEYLFMTHAPRNGGEAHHARNGLIEACLHLYLLNRGVLLTPFHNMALTCPATRAEDVELHDRLLRDCLGELL 5yks-a1-m1-cA_5yks-a1-m1-cB Crystal structure of sucrose nonfermenting-related kinase (SNRK) Q9NRH2 Q9NRH2 2.9 X-RAY DIFFRACTION 109 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 312 325 HSQDLEVLFQGPHMGHFAVVKLARHVFTGEKVAVKVIDKTKLDTLATGHLFQEVRCMKLVQHPNIVRLYEVIDTQTKLYLILELGDGGDMFDYIMKHEEGLNEDLAKKYFAQIVHAISYCHKLHVVHRDLKPENVVFFEKQGLVKLTDFGFSLAYSAPEILLGDEYDAPAVDIWSLGVILFMLVCGQPPFQEANDSETLTMIMDCKYTVPSHVSKECKDLITRMLQRDPKRRASLEEIENHPWLQGVDNIPLVSYKNLSEEEHNSIIQRMVLGDIADRDAIVEALETNRYNHITATYFLLAERILREKQEKE SQDLEVLFQGPHMGHFAVVKLARHVFTGEKVAVKVIDKTKLDTLATGHLFQEVRCMKLVQHPNIVRLYEVIDTQTKLYLILELGDGGDMFDYIMKHEEGLNEDLAKKYFAQIVHAISYCHKLHVVHRDLKPENVVFFEKQGLVKLTDFGFSNKFTTSCGSLAYSAPEILLGDEYDAPAVDIWSLGVILFMLVCGQPPFQEANDSETLTMIMDCKYTVPSHVSKECKDLITRMLQRDPKRRASLEEIENHPWLQGPSPATKYNIPLVSYKNLSEEEHNSIIQRMVLGDIADRDAIVEALETNRYNHITATYFLLAERILREKQEKE 5ykv-a4-m1-cH_5ykv-a4-m1-cG The crystal structure of Macrobrachium rosenbergii nodavirus P-domain Q6XNL3 Q6XNL3 2.31 X-RAY DIFFRACTION 113 1.0 222557 (Macrobrachium rosenbergii nodavirus) 222557 (Macrobrachium rosenbergii nodavirus) 124 125 5ykv-a1-m1-cA_5ykv-a1-m1-cB 5ykv-a2-m1-cC_5ykv-a2-m1-cD 5ykv-a3-m1-cF_5ykv-a3-m1-cE 5ykx-a1-m1-cA_5ykx-a1-m1-cB TPVEVSQLTYNADTIGNWVPPTELKQTYTQDITGLKPNSKFIIVPYMDRVSSEVLQKCTITCNEVDAVGSISYFDTSAIKCDGYISFQANSIGEATFTLVTDYQGAVDPKPYQYRIIRAIVGNN PTPVEVSQLTYNADTIGNWVPPTELKQTYTQDITGLKPNSKFIIVPYMDRVSSEVLQKCTITCNEVDAVGSISYFDTSAIKCDGYISFQANSIGEATFTLVTDYQGAVDPKPYQYRIIRAIVGNN 5yl9-a1-m2-cA_5yl9-a1-m3-cA 1.86 Angstrom crystal structure of human Coronavirus 229E fusion core P15423 P15423 1.861 X-RAY DIFFRACTION 56 1.0 11137 (Human coronavirus 229E) 11137 (Human coronavirus 229E) 88 88 5yl9-a1-m1-cA_5yl9-a1-m2-cA 5yl9-a1-m1-cA_5yl9-a1-m3-cA 5zuv-a1-m1-cB_5zuv-a1-m1-cA 5zuv-a1-m1-cC_5zuv-a1-m1-cA 5zuv-a1-m1-cC_5zuv-a1-m1-cB DVLQENQKILAASFNKAMTNIVDAFTGVNDAITQTSQALQTVATALNKIQDVVNQQGNSLNHLTSQLRQNFQAISSSIQAIYDRLDTI DVLQENQKILAASFNKAMTNIVDAFTGVNDAITQTSQALQTVATALNKIQDVVNQQGNSLNHLTSQLRQNFQAISSSIQAIYDRLDTI 5ylk-a3-m1-cA_5ylk-a3-m1-cB Complex structure of GH 113 family beta-1,4-mannanase with mannobiose K0J0N5 K0J0N5 2.09 X-RAY DIFFRACTION 42 1.0 698758 (Amphibacillus xylanus NBRC 15112) 698758 (Amphibacillus xylanus NBRC 15112) 309 309 MEFIKGFTFGWDSQKGYFKTERAKESLRLMQERTASEYVIVALAALQDTAHSTEVDFQGSHMVDDDELIELIDYAKSLGLKVILKPTVNCRNGTWRAHINFFDMDIPGEPTWDEWFESYINYQKHYAKIAEKTNCEMFVVGCEMVQAERREDKWRELIAEVRKDYRGLVTYNTDKYQEDNVKFWDALDVISSSGYYPINDWDRQLDRIEAVVKQYDKPFFFVAAGCPSRSGSALLPNKWDLEGAINLQEQADYYQVMFEKTASRSWVGGFGLWDWQTYLYDEKDATKNDDYGVFGKPAERVIKAYYQSR MEFIKGFTFGWDSQKGYFKTERAKESLRLMQERTASEYVIVALAALQDTAHSTEVDFQGSHMVDDDELIELIDYAKSLGLKVILKPTVNCRNGTWRAHINFFDMDIPGEPTWDEWFESYINYQKHYAKIAEKTNCEMFVVGCEMVQAERREDKWRELIAEVRKDYRGLVTYNTDKYQEDNVKFWDALDVISSSGYYPINDWDRQLDRIEAVVKQYDKPFFFVAAGCPSRSGSALLPNKWDLEGAINLQEQADYYQVMFEKTASRSWVGGFGLWDWQTYLYDEKDATKNDDYGVFGKPAERVIKAYYQSR 5yln-a2-m1-cC_5yln-a2-m1-cD Zinc dependent alcohol dehydrogenase 2 from Streptococcus pneumonia - apo form A0A0H2ZRI0 A0A0H2ZRI0 2.189 X-RAY DIFFRACTION 115 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 345 346 5yln-a1-m1-cB_5yln-a1-m1-cA SMKAYTYVKPGLASFVDVDKPVIRKPTAIVRIVKTTICGTDLHIIKGDVPTCQSGTILGHEGIGIVEEVGEGVSNFKKGDKVLISCVCACGKCYYCKKGIYAHCEDEGGWIFIDGMQAEYLRVPHADNTLYHTPEDLSDEALVMLLPTGYEIGVLKGKVEPGCSVAIIGSGPVGLAALLTAQFYSPAKLIMVDLDDNRLETALSFGATHKVNSSDPEKAIKEIYDLTDGRGVDVAIEAVGIPATFDFCQKIIGVDGTVANCGVHGKPVEFDLDKLWIRNINVTTGLVSTNTTPQLLKALESHKIEPEKLVTHYFKLSEIEKAYEVFSKAADHHAKVIIENDISEA GSMKAYTYVKPGLASFVDVDKPVIRKPTAIVRIVKTTICGTDLHIIKGDVPTCQSGTILGHEGIGIVEEVGEGVSNFKKGDKVLISCVCACGKCYYCKKGIYAHCEDEGGWIFIDGMQAEYLRVPHADNTLYHTPEDLSDEALVMLLPTGYEIGVLKGKVEPGCSVAIIGSGPVGLAALLTAQFYSPAKLIMVDLDDNRLETALSFGATHKVNSSDPEKAIKEIYDLTDGRGVDVAIEAVGIPATFDFCQKIIGVDGTVANCGVHGKPVEFDLDKLWIRNINVTTGLVSTNTTPQLLKALESHKIEPEKLVTHYFKLSEIEKAYEVFSKAADHHAKVIIENDISEA 5ylo-a1-m2-cA_5ylo-a1-m3-cA Structural of Pseudomonas aeruginosa PA4980 Q9HUI5 Q9HUI5 2.39 X-RAY DIFFRACTION 87 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 235 235 5ylo-a1-m1-cA_5ylo-a1-m2-cA 5ylo-a1-m1-cA_5ylo-a1-m3-cA MTDLSPLQTRVEAGIAWLVLNRPQQRNALDIPTLEALHVRLDACERDPAVRAVVLGGSGRSFCAGADLAEWAAAEARGELESYGWTEAAHALMGRLHALDKPTVAAVNGSAVGAGMDLALCCDFRIAAASARFKAGYTGMAYCPDAGASWHLPRLLGSEAAKRLLFLDEAWSAERALGAGLVGEVVADEHLVEAVGAFAARLASGPTFAFAQTKRLLRDGAGRSLAEQLRAEQAA MTDLSPLQTRVEAGIAWLVLNRPQQRNALDIPTLEALHVRLDACERDPAVRAVVLGGSGRSFCAGADLAEWAAAEARGELESYGWTEAAHALMGRLHALDKPTVAAVNGSAVGAGMDLALCCDFRIAAASARFKAGYTGMAYCPDAGASWHLPRLLGSEAAKRLLFLDEAWSAERALGAGLVGEVVADEHLVEAVGAFAARLASGPTFAFAQTKRLLRDGAGRSLAEQLRAEQAA 5ym0-a2-m1-cA_5ym0-a2-m2-cA The crystal structure of DHAD Q9LIR4 Q9LIR4 1.842 X-RAY DIFFRACTION 252 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 520 520 VTADPSPPTNKLNKYSSRITEPKSQGGSQAILHGVGLSDDDLLKPQIGISSVWYEGNTCNMHLLKLSEAVKEGVENAGMVGFRFNTIGVSDAISMGTRGMCFSLQSRDLIADSIETVMSAQWYDGNISIPGCDKNMPGTIMAMGRLNRPGIMVYGGTIKPGGMYTANTMASAIEAMGMSLPYSSSIPAEDPLKLDECRLAGKYLLELLKMDLKPRDIITPKSLRNAMVSVMALGGSTNAVLHLIAIARSVGLELTLDDFQKVSDAVPFLADLKPSGKYVMEDIHKIGGTPAVLRYLLELGLMDGDCMTVTGQTLAQNLENVPSLTEGQEIIRPLSNPIKETGHIQILRGDLAPDGSVAKITGKEGLYFSGPALVFEGEESMLAAISADPMSFKGTVVVIRGEGPKGGPGMPEMLTPTSAIMGAGLGKECALLTDGRFSHGFVVGHICPEAQEGGPIGLIKNGDIITIDIGKKRIDTQVSPEEMNDRRKKWTAPAYKVNRGVLYKYIKNVQSASDGCVTDE VTADPSPPTNKLNKYSSRITEPKSQGGSQAILHGVGLSDDDLLKPQIGISSVWYEGNTCNMHLLKLSEAVKEGVENAGMVGFRFNTIGVSDAISMGTRGMCFSLQSRDLIADSIETVMSAQWYDGNISIPGCDKNMPGTIMAMGRLNRPGIMVYGGTIKPGGMYTANTMASAIEAMGMSLPYSSSIPAEDPLKLDECRLAGKYLLELLKMDLKPRDIITPKSLRNAMVSVMALGGSTNAVLHLIAIARSVGLELTLDDFQKVSDAVPFLADLKPSGKYVMEDIHKIGGTPAVLRYLLELGLMDGDCMTVTGQTLAQNLENVPSLTEGQEIIRPLSNPIKETGHIQILRGDLAPDGSVAKITGKEGLYFSGPALVFEGEESMLAAISADPMSFKGTVVVIRGEGPKGGPGMPEMLTPTSAIMGAGLGKECALLTDGRFSHGFVVGHICPEAQEGGPIGLIKNGDIITIDIGKKRIDTQVSPEEMNDRRKKWTAPAYKVNRGVLYKYIKNVQSASDGCVTDE 5ym6-a2-m1-cD_5ym6-a2-m1-cC Crystal Structure of porcine delta coronavirus nsp9 X2G6C4 X2G6C4 1.803 X-RAY DIFFRACTION 85 0.989 1159905 (Porcine coronavirus HKU15) 1159905 (Porcine coronavirus HKU15) 95 99 5ym6-a1-m1-cA_5ym6-a1-m1-cB NNELCLRNVFTAQNTAQDFNGNESTVKSFYVTRKKILVAITSTKDNLKTVTCLTETGKTVLNLDPPMRFSVVYLYFIQNISSLNRGMVIGHISET NNELCLRNVFTAQNTAQDFNGNESTVKSFYVTRTGKKILVAITSTKDNLKTVTCLTTGKTVLNLDPPMRFAHSVVYLYFIQNISSLNRGMVIGHISETT 5ymr-a2-m1-cC_5ymr-a2-m1-cD The Crystal Structure of IseG Q727N1 Q727N1 2.4 X-RAY DIFFRACTION 65 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 797 798 5ymr-a1-m1-cA_5ymr-a1-m1-cB VFTILESFDNTRPRIDVERAKYFTESMKATEGQPLPLRWAKALMHIAENMTVYIDDHQLICGRAGYQGRYGVLYPELDGDFLGTAIEDLPNRAESPFAITPAAAAVVVEEIAPFWKGKTYHEALNLALPADVHKLTYDDPQGLMSRFIVNETSSFRSSIQWVHDYEKVLKRGFRSIKEEALEKIAALDPMSPCDNVEKRPFLEAIVIVCDAIILWAKRHAKLAAELAAKETDPTRKRELETMAEICAWVPENPARTFHEAVQAQWFTQVFSRIEQKTGTIVSNGRMDQYFWPFYEKDLAEGRITEDSALELLECMWVGMAQYVDLYISPTGGAFNEGYAHWEAVTIGGQTPEGRDATNDLTYLFLKSKREFPLHYPDLAARIHSRSPERYLWEVAETIKDGSGFPKLINDEEVVPLYVSKGATFAEALDYAVSGCTEARMPNRDTYTSGGAYINFAAALEMVLYNGKMLKYGDTDLGAHTGDPCEFKTWEEFWNAYVTQHHLFLKTAFVQQHIINNLRARHFAQPMGSSLHDLCMKHCLDLHTPQIPEGINLGYFEYMGFGTVVDSLSAIKKLVFEDKKLTMGELIEALKCNFEGKEDIQQLLKSAPCYGNNDDYADSIARDIDALSVKYGRRYSPELGMHNDVRYVPFTSHVPFGRVVSATPNGRKAWSALSDGSSASHGADVNGPTAILQSNFNSKNYGMRDRAARMLNIKFTPKCVEGEEGSQKLVSFIRTFCDLKLWHVQFNVINKETLLAAQRDPEKYRNLIVRIAGYSAYFVDLSPDLQNDLIARTGHDVM RVFTILESFDNTRPRIDVERAKYFTESMKATEGQPLPLRWAKALMHIAENMTVYIDDHQLICGRAGYQGRYGVLYPELDGDFLGTAIEDLPNRAESPFAITPAAAAVVVEEIAPFWKGKTYHEALNLALPADVHKLTYDDPQGLMSRFIVNETSSFRSSIQWVHDYEKVLKRGFRSIKEEALEKIAALDPMSPCDNVEKRPFLEAIVIVCDAIILWAKRHAKLAAELAAKETDPTRKRELETMAEICAWVPENPARTFHEAVQAQWFTQVFSRIEQKTGTIVSNGRMDQYFWPFYEKDLAEGRITEDSALELLECMWVGMAQYVDLYISPTGGAFNEGYAHWEAVTIGGQTPEGRDATNDLTYLFLKSKREFPLHYPDLAARIHSRSPERYLWEVAETIKDGSGFPKLINDEEVVPLYVSKGATFAEALDYAVSGCTEARMPNRDTYTSGGAYINFAAALEMVLYNGKMLKYGDTDLGAHTGDPCEFKTWEEFWNAYVTQHHLFLKTAFVQQHIINNLRARHFAQPMGSSLHDLCMKHCLDLHTPQIPEGINLGYFEYMGFGTVVDSLSAIKKLVFEDKKLTMGELIEALKCNFEGKEDIQQLLKSAPCYGNNDDYADSIARDIDALSVKYGRRYSPELGMHNDVRYVPFTSHVPFGRVVSATPNGRKAWSALSDGSSASHGADVNGPTAILQSNFNSKNYGMRDRAARMLNIKFTPKCVEGEEGSQKLVSFIRTFCDLKLWHVQFNVINKETLLAAQRDPEKYRNLIVRIAGYSAYFVDLSPDLQNDLIARTGHDVM 5yn4-a1-m1-cA_5yn4-a1-m1-cB Crystal structure of dimeric peptidyl tRNA hydrolase from Acinetobacter baumannii with occluded substrate binding site at 1.47 A resolution D0C9L6 D0C9L6 1.47 X-RAY DIFFRACTION 31 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 193 193 5yl8-a1-m1-cA_5yl8-a1-m1-cB 5yla-a1-m1-cA_5yla-a1-m1-cB 6lso-a1-m1-cA_6lso-a1-m1-cB 6lsp-a1-m1-cA_6lsp-a1-m1-cB MSNISLIVGLGNPGSEYAQTRHNAGFWFVEQLADKYGITLKNDPKFHGISGRGNIEGHDVRLLLPMTYMNRSGQSVVPFSKFYQIAPEAILIAHDELDMNPGVIRLKTGGGHGGHNGLRDIVPHIGPNFHRLRIGIGHPGSKERVSGHVLGKAPSNEQSLMDGAIDHALSKVKLLVQGQVPQAMNQINAYKPA MSNISLIVGLGNPGSEYAQTRHNAGFWFVEQLADKYGITLKNDPKFHGISGRGNIEGHDVRLLLPMTYMNRSGQSVVPFSKFYQIAPEAILIAHDELDMNPGVIRLKTGGGHGGHNGLRDIVPHIGPNFHRLRIGIGHPGSKERVSGHVLGKAPSNEQSLMDGAIDHALSKVKLLVQGQVPQAMNQINAYKPA 5yny-a1-m1-cA_5yny-a1-m1-cB Structure of house dust mite allergen Der F 21 in PEG2KMME B2GM84 B2GM84 2.3 X-RAY DIFFRACTION 60 0.991 6954 (Dermatophagoides farinae) 6954 (Dermatophagoides farinae) 115 116 5ynx-a1-m1-cA_5ynx-a1-m1-cB 5yny-a2-m1-cD_5yny-a2-m1-cC VPRGSEDKWRNAFDHMLMEEFEEKMDQIEHGLLMLSEQYKELEKTKSKELKEQILRELTIAENYLRGALKFMQQEAKRTDLNMFERYNFETAVSTIEILVKDLAELAKKVKAVKS GLVPRGSEDKWRNAFDHMLMEEFEEKMDQIEHGLLMLSEQYKELEKTKSKELKEQILRELTIAENYLRGALKFMQQEAKRTDLNMFERYNFETAVSTIEILVKDLAELAKKVKAVK 5yo9-a1-m1-cB_5yo9-a1-m1-cA Crystal structure of KAS III from Acinetobacter baumannii V5VGF8 V5VGF8 2.002 X-RAY DIFFRACTION 235 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 366 371 5yoa-a1-m1-cB_5yoa-a1-m1-cA 5yzu-a1-m1-cB_5yzu-a1-m1-cA GIRITGTGLFHPTEIISNEELADSLNAYVEQYNQENAEKIAAGELEELRGSSAEFIEKASGIKRRYVIEKSGILDPTRLRPRLSERSNDELSIQAEWGVIAAKQAMENAGVTAEDIDVVILACSNMQRAYPAVAIEIQSALGIQGYAYDMNVAASAATFGLKQAADAIRSGARRVLLVNVEITSGHLDYRNRDCHFIFGDVATASIIEETTTKTGFEILDIHLFTQFSNNIRNNFGFLNRSEDAVVDDKLFRQDGRKVFKDVCPLVAKIINAQLEKMQLTANDIKRFWLHQANANMNELILKYVAGKDADLSRAPIILDEFANTSSAGVIIALHRTGHEVDDGEYGVISSFGAGYSVGSIVVQKHV TSHMGIRITGTGLFHPTEIISNEELADSLNAYVEQYNQENAEKIAAGELEELRGSSAEFIEKASGIKRRYVIEKSGILDPTRLRPRLSERSNDELSIQAEWGVIAAKQAMENAGVTAEDIDVVILACSNMQRAYPAVAIEIQSALGIQGYAYDMNVAASAATFGLKQAADAIRSGARRVLLVNVEITSGHLDYRNRDCHFIFGDVATASIIEETTTKTGFEILDIHLFTQFSNNIRNNFGFLNRSEDAVVDDKLFRQDGRKVFKDVCPLVAKIINAQLEKMQLTANDIKRFWLHQANANMNELILKYVAGKDADLSRAPIILDEFANTSSAGVIIALHRTGHEVDDGEYGVISSFGAGYSVGSIVVQKHVA 5yow-a1-m2-cA_5yow-a1-m3-cA The post-fusion structure of the Heartland virus Gc glycoprotein J3WAX0 J3WAX0 2.1 X-RAY DIFFRACTION 189 1.0 1216928 (Heartland virus) 1216928 (Heartland virus) 425 425 5yow-a1-m1-cA_5yow-a1-m2-cA 5yow-a1-m1-cA_5yow-a1-m3-cA QCDELVHAESKSITCKSEKECSVTGRALLPAVNPGQEACLHFSMPGSPDSKCLKIKVKSINLRCKQASSYYVPEAKARCTSVRRCRWAGDCQSGCPTYFSSNSFSDDWANRMDRAGLGMSGCSDGCGGAACGCFNAAPSCIFWRKWVENPSNRVWKVSPCASWVLAAIIELTLPSGEVKTLEPVTGQATQMFKGVAITYLGSSIEIVGMTRLCEMKEMGTGIMALAPCNDPGHAIMGNVGEIQCSSIESAKHIRSDGCIWNADLVGIELRVDDAVCFSKLTSVEAVANFSKIPAIISGVRFDQGSRIYGSPLDITKVSGEFSVSFRGMRLKLSEISASCTGEITNVSGCYSCMTGASVSIKLHSSKNTTGHLKCDSDETAFSVMEGTHTYRPHMSFDKAVVDEECVLNCGGHSSKLLLKGSLVFM QCDELVHAESKSITCKSEKECSVTGRALLPAVNPGQEACLHFSMPGSPDSKCLKIKVKSINLRCKQASSYYVPEAKARCTSVRRCRWAGDCQSGCPTYFSSNSFSDDWANRMDRAGLGMSGCSDGCGGAACGCFNAAPSCIFWRKWVENPSNRVWKVSPCASWVLAAIIELTLPSGEVKTLEPVTGQATQMFKGVAITYLGSSIEIVGMTRLCEMKEMGTGIMALAPCNDPGHAIMGNVGEIQCSSIESAKHIRSDGCIWNADLVGIELRVDDAVCFSKLTSVEAVANFSKIPAIISGVRFDQGSRIYGSPLDITKVSGEFSVSFRGMRLKLSEISASCTGEITNVSGCYSCMTGASVSIKLHSSKNTTGHLKCDSDETAFSVMEGTHTYRPHMSFDKAVVDEECVLNCGGHSSKLLLKGSLVFM 5yox-a4-m1-cF_5yox-a4-m1-cE HD domain-containing protein YGK1(YGL101W) P53144 P53144 2.61 X-RAY DIFFRACTION 104 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 170 172 5yox-a1-m1-cG_5yox-a1-m1-cA 5yox-a2-m1-cB_5yox-a2-m1-cC 5yox-a3-m1-cH_5yox-a3-m1-cD KPEDNIPREILAILSKPHPNYQLAFLNIIQLLKTQRSISDHYRGLTTLITDKNVDRNKCIRIALVHDFAESLVKEEKHRREFETVKYLCESIIRPCSESASREILDDWLAYEKQTCLEGRYVKDIDKYELVQCFEYEQKYQFLGAINDIKTDEVKKWTQSLLEDRQAFFD WKPEDNIPREILAILSKPHPNYQLAFLNIIQLLKTQRSISDHYRGLTTLITDKNVDRNKCIRIALVHDFAESLVKEEKHRREFETVKYLCESIIRPCSESASREILDDWLAYEKQTCLEGRYVKDIDKYELVQCFEYEQKYQFLGAINDIKTDEVKKWTQSLLEDRQAFFDS 5yp2-a1-m1-cA_5yp2-a1-m1-cB Crystal structure of dipeptidyl peptidase IV (DPP IV) with DPP4 inhibitor from Pseudoxanthomonas mexicana WO24 Q6F3I7 Q6F3I7 2.13 X-RAY DIFFRACTION 65 1.0 128785 (Pseudoxanthomonas mexicana) 128785 (Pseudoxanthomonas mexicana) 724 724 5yp1-a1-m1-cA_5yp1-a1-m1-cB 5yp1-a2-m1-cD_5yp1-a2-m1-cC 5yp3-a1-m1-cA_5yp3-a1-m1-cB 5yp3-a2-m1-cC_5yp3-a2-m1-cD 5yp4-a1-m1-cA_5yp4-a1-m1-cB 5yp4-a2-m1-cC_5yp4-a2-m1-cD AEKLTLEAITGSAPLSGPTLTKPQIAPDGSRVTFLRGKDRDRNRLDLWEYDIASGQTRLLVDSSVVLPGEEVLSDEEKARRERQRIAALSGIVDYQWSPDGKALLFPLGGELYFYDLTKSGRDAVRKLTNGGGFATDPKISPKGGFVSFIRDRNLWAIDLASGKEVQLTRDGSDTIGNGVAEFVADEEMDRHTGYWWAPDDAAIAFARIDETPVPVQKRYEVYPDRTEVVEQRYPAAGDHNVRVQLGVIAPKTGARPRWIDLGKDPDIYLARVDWRDPQRLTFQRQSRDQKKIELIETTLTNGTQRTLVTETSTTWVPLHNDLRFLKDGRFLWSSERSGFEHLYVASEDGSTLTALTQGEWVVDSLLAIDEAAGLAYVSGTRDGATEAHVYAVPLSGGEPRRLTQAPGMHAATFARNASVFVDSWSSDTTLPQIELFKADGTKLATLLVNDVSDATHPYAKYRAAHQPTAYGTLTAADGTTPLHYSLIKPAGFDPKKQYPVVVFVYGGPAAQTVTRAWPGRSDSFFNQYLAQQGYVVFTLDNRGTPRRGAAFGGALYGKQGTVEVDDQLRGIEWLKSQAFVDPARIGVYGWSNGGYMTLMLLAKHDEAYACGVAGAPVTDWALYDTHYTERYMDLPKANEAGYREASVFTHVDGIGAGKLLLIHGMADDNVLFTNSTKLMSELQKRGTPFELMTYPGAKHGLRGSDLLHRYRLTEDFFARCLKP AEKLTLEAITGSAPLSGPTLTKPQIAPDGSRVTFLRGKDRDRNRLDLWEYDIASGQTRLLVDSSVVLPGEEVLSDEEKARRERQRIAALSGIVDYQWSPDGKALLFPLGGELYFYDLTKSGRDAVRKLTNGGGFATDPKISPKGGFVSFIRDRNLWAIDLASGKEVQLTRDGSDTIGNGVAEFVADEEMDRHTGYWWAPDDAAIAFARIDETPVPVQKRYEVYPDRTEVVEQRYPAAGDHNVRVQLGVIAPKTGARPRWIDLGKDPDIYLARVDWRDPQRLTFQRQSRDQKKIELIETTLTNGTQRTLVTETSTTWVPLHNDLRFLKDGRFLWSSERSGFEHLYVASEDGSTLTALTQGEWVVDSLLAIDEAAGLAYVSGTRDGATEAHVYAVPLSGGEPRRLTQAPGMHAATFARNASVFVDSWSSDTTLPQIELFKADGTKLATLLVNDVSDATHPYAKYRAAHQPTAYGTLTAADGTTPLHYSLIKPAGFDPKKQYPVVVFVYGGPAAQTVTRAWPGRSDSFFNQYLAQQGYVVFTLDNRGTPRRGAAFGGALYGKQGTVEVDDQLRGIEWLKSQAFVDPARIGVYGWSNGGYMTLMLLAKHDEAYACGVAGAPVTDWALYDTHYTERYMDLPKANEAGYREASVFTHVDGIGAGKLLLIHGMADDNVLFTNSTKLMSELQKRGTPFELMTYPGAKHGLRGSDLLHRYRLTEDFFARCLKP 5ypp-a2-m1-cC_5ypp-a2-m1-cD Crystal structure of IlvN.Val-1a P0ADF8 P0ADF8 1.9 X-RAY DIFFRACTION 94 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 90 90 2lvw-a1-m1-cA_2lvw-a1-m1-cB 5ypp-a1-m1-cA_5ypp-a1-m1-cB 5ypp-a3-m1-cF_5ypp-a3-m1-cE 5ypw-a1-m1-cA_5ypw-a1-m1-cB 5ypw-a2-m1-cC_5ypw-a2-m1-cD 5ypw-a3-m1-cE_5ypw-a3-m1-cF 5ypw-a4-m1-cG_5ypw-a4-m1-cH 5ypy-a1-m1-cB_5ypy-a1-m1-cA 5ypy-a2-m1-cD_5ypy-a2-m1-cC 5yum-a1-m1-cA_5yum-a1-m2-cA DNVILELTVRNHPGVMTHVCGLFARRAFNVEGILCLPIQDSDKSHIWLLVNDDQRLEQMISQIDKLEDVVKVQRNQSDPTMFNKIAVFFQ DNVILELTVRNHPGVMTHVCGLFARRAFNVEGILCLPIQDSDKSHIWLLVNDDQRLEQMISQIDKLEDVVKVQRNQSDPTMFNKIAVFFQ 5yps-a3-m1-cF_5yps-a3-m1-cE The structural basis of histone chaperoneVps75 A0A0W4ZF97 A0A0W4ZF97 2.097 X-RAY DIFFRACTION 79 1.0 1408658 (Pneumocystis carinii B80) 1408658 (Pneumocystis carinii B80) 199 200 5yps-a1-m1-cB_5yps-a1-m1-cA 5yps-a2-m1-cD_5yps-a2-m1-cC 5zb5-a1-m1-cB_5zb5-a1-m1-cA TSLDEVADIELEFEKADVELLKHQVELFNPLYEKRAVLRKIPKFWPIAIEAAPSDELSVYISPEDANVLEHLIDLRVYRPNEDPRDIKIVFEFEANEYLESNSLYLKLFRYSSQKAEASSSNINKEPSQLISEKVNIEWKKNKDLTRQTKGTAPSFFTWFSWTGKENDIFEDEEELAIFIAEDLYPNAVKYFTDALQEN TSLDEVADIELEFEKADVELLKHQVELFNPLYEKRAVLRKIPKFWPIAIEAAPSDELSVYISPEDANVLEHLIDLRVYRPNEDPRDIKIVFEFEANEYLESNSLYLKLFRYSSQKAEASSSNINKEPSQLISEKVNIEWKKNKDLTRQTKGTAPSFFTWFSWTGKENDIFEDEEELAIFIAEDLYPNAVKYFTDALQENE 5ypt-a3-m1-cE_5ypt-a3-m1-cF Crystal structure of Marchantia paleacea chalone synthase like 1 (CHSL1) Q5I6Y2 Q5I6Y2 2.394 X-RAY DIFFRACTION 164 1.0 3197 (Marchantia polymorpha) 3197 (Marchantia polymorpha) 384 384 5ypt-a1-m1-cB_5ypt-a1-m1-cA 5ypt-a2-m1-cC_5ypt-a2-m1-cD YKHRRAAGPATVLAIGKATPPTAYSQSEYPDFFFDITNTSHKTELKAKFARICKNSGINTRYFHCTEDILKANPSMCTYLEPSLDVRQDIAIREVPRLAEKAAIEALAEWGQPRDQITHVVFATTSGVNMPGADLTLTRLLGLNPNVKRTMLYQQGCFGGATVLRVAKDLAENNKGARVLTVVSELTCVTFRAPNEEHLDNLVGSAIFGDGASVLVIGSDPIPEVEKPQFEIHWSGETILPESDGAIEGRLTEAGLIFHLLKDVPGLISRNTLPIFNKAIEVAGSPSWNDLFWCVHPGGRAILDEVAKTLSLKPEKLEATRDILYNYGNMSGASVLFVLDQMRRRSAEKKSRTTGEGCEWGLVVGFGPGLTVEVSVLRAIATGH YKHRRAAGPATVLAIGKATPPTAYSQSEYPDFFFDITNTSHKTELKAKFARICKNSGINTRYFHCTEDILKANPSMCTYLEPSLDVRQDIAIREVPRLAEKAAIEALAEWGQPRDQITHVVFATTSGVNMPGADLTLTRLLGLNPNVKRTMLYQQGCFGGATVLRVAKDLAENNKGARVLTVVSELTCVTFRAPNEEHLDNLVGSAIFGDGASVLVIGSDPIPEVEKPQFEIHWSGETILPESDGAIEGRLTEAGLIFHLLKDVPGLISRNTLPIFNKAIEVAGSPSWNDLFWCVHPGGRAILDEVAKTLSLKPEKLEATRDILYNYGNMSGASVLFVLDQMRRRSAEKKSRTTGEGCEWGLVVGFGPGLTVEVSVLRAIATGH 5ypz-a1-m1-cA_5ypz-a1-m1-cB Crystal structure of minor pilin CofB from CFA/III complexed with N-terminal peptide fragment of CofJ Q93I73 Q93I73 3.521 X-RAY DIFFRACTION 304 1.0 562 (Escherichia coli) 562 (Escherichia coli) 480 480 5ypz-a1-m1-cA_5ypz-a1-m1-cC 5ypz-a1-m1-cB_5ypz-a1-m1-cC DEARRQIVSNALISEIAGIVDFVAEEQITVIEQGIEKEITNPLYEQSSGIPYINRTTNKDLNSTMSTNASEFINWGAGTSTRIFFTRKYCISTGTQGNYEFSKDYIPCEEPAILSNSDLKIDRIDFVATDNTVGSAIERVDFILTFDFSNYVSSLEKAAEQHSISFKDIYVVERNSSGAAGWRLTTISGKPLTFSGLSKNIGSLDKTKNYGLRLSIDPNLGKFLRADGRVGADKLCWNIDNKMSGPCLAADDSGNNLVLTKGKGAKSNEPGLCWDLNTGTSKLCLTQIEGKDNNDKDASLIKLKDDNGNPATMLANILVEEKSMTDSTKKELRTIPNTIYAAFSNSNASDLVITNPGNYIGNVTSEKGRIELNVQDCPVSPDGNKLHPRLSASIASIVADTKDSNGKYQADFSSLAGNRNSGGQLGYLSGTAIQVNQSGSKWYITATMGVFDPLTNTTYVYLNPKFLSVNITTWCSTEPQ DEARRQIVSNALISEIAGIVDFVAEEQITVIEQGIEKEITNPLYEQSSGIPYINRTTNKDLNSTMSTNASEFINWGAGTSTRIFFTRKYCISTGTQGNYEFSKDYIPCEEPAILSNSDLKIDRIDFVATDNTVGSAIERVDFILTFDFSNYVSSLEKAAEQHSISFKDIYVVERNSSGAAGWRLTTISGKPLTFSGLSKNIGSLDKTKNYGLRLSIDPNLGKFLRADGRVGADKLCWNIDNKMSGPCLAADDSGNNLVLTKGKGAKSNEPGLCWDLNTGTSKLCLTQIEGKDNNDKDASLIKLKDDNGNPATMLANILVEEKSMTDSTKKELRTIPNTIYAAFSNSNASDLVITNPGNYIGNVTSEKGRIELNVQDCPVSPDGNKLHPRLSASIASIVADTKDSNGKYQADFSSLAGNRNSGGQLGYLSGTAIQVNQSGSKWYITATMGVFDPLTNTTYVYLNPKFLSVNITTWCSTEPQ 5yqg-a1-m1-cD_5yqg-a1-m1-cB The structure of 14-3-3 and pNumb peptide P68510 P68510 2.1 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 227 236 5yqg-a1-m1-cA_5yqg-a1-m1-cC MGDREQLLQRARLAEQAERYDDMASAMKAVTELNEPLSNEDRNLLSVAYKNVVGARRSSWRVISSIEQKTMANEKKLEKVKAYREKIEKELETVCNDVLALLDKFLIKNCNDFQYESKVFYLKMKGDYYRYLAEVASGEKKNSVVEASEAAYKEAFEISKEHMQPTHPIRLGLALNFSVFYYEIQNAPEQACLLAKQAFDDAIAELDSYKDSTLIMQLLRDNLTLWT MGDREQLLQRARLAEQAERYDDMASAMKAVTELNEPLSNEDRNLLSVAYKNVVGARRSSWRVISSIEQKTMADGNEKKLEKVKAYREKIEKELETVCNDVLALLDKFLIKNCNDFQYESKVFYLKMKGDYYRYLAEVASGEKKNSVVEASEAAYKEAFEISKEHMQPTHPIRLGLALNFSVFYYEIQNAPEQACLLAKQAFDDAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTSD 5yqg-a1-m1-cD_5yqg-a1-m1-cC The structure of 14-3-3 and pNumb peptide P68510 P68510 2.1 X-RAY DIFFRACTION 59 1.0 10090 (Mus musculus) 10090 (Mus musculus) 227 237 2c63-a1-m1-cA_2c63-a1-m1-cB 2c63-a2-m1-cC_2c63-a2-m1-cD 2c74-a1-m1-cB_2c74-a1-m1-cA 5yqg-a1-m1-cA_5yqg-a1-m1-cB 7nmz-a1-m1-cBA_7nmz-a1-m1-cAA MGDREQLLQRARLAEQAERYDDMASAMKAVTELNEPLSNEDRNLLSVAYKNVVGARRSSWRVISSIEQKTMANEKKLEKVKAYREKIEKELETVCNDVLALLDKFLIKNCNDFQYESKVFYLKMKGDYYRYLAEVASGEKKNSVVEASEAAYKEAFEISKEHMQPTHPIRLGLALNFSVFYYEIQNAPEQACLLAKQAFDDAIAELDSYKDSTLIMQLLRDNLTLWT FMGDREQLLQRARLAEQAERYDDMASAMKAVTELNEPLSNEDRNLLSVAYKNVVGARRSSWRVISSIEQKTMADGNEKKLEKVKAYREKIEKELETVCNDVLALLDKFLIKNCNDFQYESKVFYLKMKGDYYRYLAEVASGEKKNSVVEASEAAYKEAFEISKEHMQPTHPIRLGLALNFSVFYYEIQNAPEQACLLAKQAFDDAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTSD 5yqq-a1-m1-cA_5yqq-a1-m1-cB Crystal structure of a domain-swapped dimer of the second StARkin domain of Lam2 Q06681 Q06681 1.9 X-RAY DIFFRACTION 155 0.987 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 159 159 MGSDTVIDEKINIPVPLGTVFSLLYGDDTSYIKKIIENQNNFNVCDIPKFVNNAREITYTKKQTKCIVTETIEHMDLNSFFMVKQIVRSPDVPYGSSFSVHTRFFYSWGDHNTTNMKVVTNVVWTGKSMLKGTIEKGSIDGQRSSTKQLVDDLKKIISN SDTVIDEKINIPVPLGTVFSLLYGDDTSYIKKIIENQNNFNVCDIPKFVNNAREITYTKKLKQTKCIVTETIEHMDLNSFFMVKQIVRSPDVPYGSSFSVHTRFFYSWGDHNTTNMKVVTNVVWTGKSMLKGTIEKGSIDGQRSSTKQLVDDLKKIISN 5yrk-a1-m1-cA_5yrk-a1-m1-cB Crystal structure of PPL3C A0A2Z5V8U8 A0A2Z5V8U8 1.35 X-RAY DIFFRACTION 58 1.0 113549 (Pteria penguin) 113549 (Pteria penguin) 141 141 5yre-a1-m1-cB_5yre-a1-m1-cA 5yrf-a1-m1-cB_5yrf-a1-m1-cA 5yrg-a1-m1-cB_5yrg-a1-m1-cA 5yrl-a1-m1-cA_5yrl-a1-m1-cB 5yrm-a1-m1-cA_5yrm-a1-m1-cB VASEYLGGPGGDAFDDKALAQNGDITRIEMQCTDVATYIKLRYGKVDSRQWGWANENCIQWSKKGVKVVHELSSGEYITSAIVTYGKYVQSITFKTNKRTLPRCGTSATEKSVTVLIPGGLKYISGRWGCRIDGLRFHAKC VASEYLGGPGGDAFDDKALAQNGDITRIEMQCTDVATYIKLRYGKVDSRQWGWANENCIQWSKKGVKVVHELSSGEYITSAIVTYGKYVQSITFKTNKRTLPRCGTSATEKSVTVLIPGGLKYISGRWGCRIDGLRFHAKC 5yrp-a1-m1-cB_5yrp-a1-m1-cA Crystal structure of the EAL domain of Mycobacterium smegmatis DcpA A0QUG3 A0QUG3 2.99 X-RAY DIFFRACTION 74 0.982 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 220 221 IEGGALVLHYLPEIDRTGEVLAAEALVAGELGRWVLRTACAEFSRWRANGVGRNIVLRINVSPVQLVTDGFVESVAGIKEFGLPRGSVCLEITESVVVQDIETTRTTLTGLHNVGVQVAIDDFGTGYSVLSLLKSLPVDTLKIDRSFVAELGSNPGDLPIVRAVIALAGAFGLQLVAEGVETERAALTLLRHGCYRAQGFLLSKPILGSEQTLLAKGRVP ALVLHYLPEIDRTGEVLAAEALVRWINLAGELGRWVLRTACAEFSRWRANGVGRNIVLRINVSPVQLVTDGFVESVAGIKEFGLPRGSVCLEITESVVVQDIETTRTTLTGLHNVGVQVAIDDFGTGYSVLSLLKSLPVDTLKIDRSFVAELGSNPGDLPIVRAVIALAGAFGLQLVAEGVETERAALTLLRHGCYRAQGFLLSKPILGSEQTLLAKGRVP 5yrq-a1-m1-cB_5yrq-a1-m1-cD Crystal structure of Rad5 and Rev1 P12689 P12689 1.999 X-RAY DIFFRACTION 48 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 120 123 AHMEQEERKRFFNDDSPKFQNLTRFKKICQLVKQWVAETLGDGGPHEKDVKLFVKYLIKLCDSNRVHLVLHLSNLISRELNLCAFLNQDHSGFQTWERILLNDIIPLLNTVRKLDMDFEV AHMEQEERKRFFNDDGSPKFQNLTRFKKICQLVKQWVAETLGDGGPHEKDVKLFVKYLIKLCDSNRVHLVLHLSNLISRELNLCAFLNQDHSGFQTWERILLNDIIPLLNRQTVRKLDMDFEV 5yrq-a1-m1-cE_5yrq-a1-m1-cA Crystal structure of Rad5 and Rev1 P12689 P12689 1.999 X-RAY DIFFRACTION 39 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 121 125 RKRFFNDDLSPKFQNLTRFKKICQLVKQWVAETLGDGGPHEKDVKLFVKYLIKLCDSNRVHLVLHLSNLISRELNLCAFLNQDHSGFQTWERILLNDIIPLLNRNKHTYQTVRKLDMDFEV RKRFFNDDLDTSGSPKFQNLTRFKKICQLVKQWVAETLGDGGPHEKDVKLFVKYLIKLCDSNRVHLVLHLSNLISRELNLCAFLNQDHSGFQTWERILLNDIIPLLNRNKHTYQTVRKLDMDFEV 5yrx-a1-m1-cA_5yrx-a1-m2-cA Crystal structure of a hypothetical protein Rv3716c from Mycobacterium tuberculosis P9WNR9 P9WNR9 1.9 X-RAY DIFFRACTION 53 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 71 71 LEAQQQLANSEVHGQAGGGLVKVVVKGSGEVIGVTIDPKVVDPDDIETLQDLIVGAMRDASQQVTKMAQER LEAQQQLANSEVHGQAGGGLVKVVVKGSGEVIGVTIDPKVVDPDDIETLQDLIVGAMRDASQQVTKMAQER 5yrz-a1-m1-cC_5yrz-a1-m1-cA Toxin-Antitoxin complex from Streptococcus pneumoniae A0A0H2URC7 A0A0H2URC7 2.304 X-RAY DIFFRACTION 45 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 147 150 MLVTYPALFYYDDTDGTEATYFVHFPDFEYSATQGEGISEALAMGSEWLGITVADLIESDGELPQPSDINSLSLIDNDPFKDDEDFVSTYDLDKSFISMVSVDVSEYLGSQEPIKKTLTIPKWADKLGREMGLNFSQTLTDAIADKK MMLVTYPALFYYDDTDGTEATYFVHFPDFEYSATQGEGISEALAMGSEWLGITVADLIESDGELPQPSDINSLSLIDNDPFKDDEDFVSTYDLDKSFISMVSVDVSEYLGSQEPIKKTLTIPKWADKLGREMGLNFSQTLTDAIADKKVQ 5ys4-a1-m1-cD_5ys4-a1-m1-cA Crystal structure of retroviral protease-like domain of Ddi1 from Leishmania major I7HUG0 I7HUG0 2.3 X-RAY DIFFRACTION 69 1.0 5664 (Leishmania major) 5664 (Leishmania major) 115 120 5yq8-a1-m1-cB_5yq8-a1-m1-cA 5yq8-a2-m1-cD_5yq8-a2-m1-cC 5ys4-a2-m1-cC_5ys4-a2-m1-cB VTMLYVPCTINQVLVKAFVDSGAQNSIMNKRTAERCGLMRLVDVRQEICGRIHMTPVNLAGMYIPFAFYVIEDQAMDLIIGLDQLKRHQMMIDLKHNCLTIDNINVPFLPENDLP AFAKVTMLYVPCTINQVLVKAFVDSGAQNSIMNKRTAERCGLMRLVDVRMQEICGRIHMTPVNLAGMYIPFAFYVIEDQAMDLIIGLDQLKRHQMMIDLKHNCLTIDNINVPFLPENDLP 5ys9-a1-m1-cB_5ys9-a1-m1-cA Crystal structure of acyl-coA oxidase3 from Yarrowia lipolytica O74936 O74936 2.5 X-RAY DIFFRACTION 339 1.0 284591 (Yarrowia lipolytica CLIB122) 284591 (Yarrowia lipolytica CLIB122) 691 692 NVEIDGKQYNTFTEPPKALAGERAKVKFPIKDMTEFLHGGEENVTMIERLMTELERDPVLNVSGDYDMPKEQLRETAVARIAALSGHWKKDTEKEALLRSQLHGIVDMGTRIRLGVHTGLFMGAIRGSGTKEQYDYWVRKGAADVKGFYGCFAMTELGHGSNVAGLETTATYIQDTDEFIINTPNTGATKWWIGGAAHSATHTACFARLLVDGKDYGVKIFVVQLRDVSSHSLMPGIALGDIGKKMGRDAIDNGWIQFTNVRIPRQNMLMKYAKVSSTGKVSQPPLAQLTYGALIGGRVTMIADSFFVSQRFITIALRYACVRRQFGTTPGQPETKIIDYPYHQRRLLPLLAFTYAMKMAADQSQIQYDQTTDLLQTIDPKDKGALGKAIVDLKELFASSAGLKAFTTWTCANIIDQCRQACGGHGYSGYNGFGQAYADWVVQCTWEGDNNVLCLSMGRGLIQSCLGHRKGKPLGSSVGYLANKGLEQATLSGRDLKDPKVLIEAWEKVANGAIQRATDKFVELTKGGLSPDQAFEELSQQRFQCAKIHTRKHLVTAFYERINASAKADVKPYLINLANLFTLWSIEEDSGLFLREGFLQPKDIDQVTELVNHYCKEVRDQVAGYTDAFGLSDWFINAPIGNYDGDVYKHYFAKVNQQNPAQNPRPPYYESTLRPFLFREDEDDDICELDE ANVEIDGKQYNTFTEPPKALAGERAKVKFPIKDMTEFLHGGEENVTMIERLMTELERDPVLNVSGDYDMPKEQLRETAVARIAALSGHWKKDTEKEALLRSQLHGIVDMGTRIRLGVHTGLFMGAIRGSGTKEQYDYWVRKGAADVKGFYGCFAMTELGHGSNVAGLETTATYIQDTDEFIINTPNTGATKWWIGGAAHSATHTACFARLLVDGKDYGVKIFVVQLRDVSSHSLMPGIALGDIGKKMGRDAIDNGWIQFTNVRIPRQNMLMKYAKVSSTGKVSQPPLAQLTYGALIGGRVTMIADSFFVSQRFITIALRYACVRRQFGTTPGQPETKIIDYPYHQRRLLPLLAFTYAMKMAADQSQIQYDQTTDLLQTIDPKDKGALGKAIVDLKELFASSAGLKAFTTWTCANIIDQCRQACGGHGYSGYNGFGQAYADWVVQCTWEGDNNVLCLSMGRGLIQSCLGHRKGKPLGSSVGYLANKGLEQATLSGRDLKDPKVLIEAWEKVANGAIQRATDKFVELTKGGLSPDQAFEELSQQRFQCAKIHTRKHLVTAFYERINASAKADVKPYLINLANLFTLWSIEEDSGLFLREGFLQPKDIDQVTELVNHYCKEVRDQVAGYTDAFGLSDWFINAPIGNYDGDVYKHYFAKVNQQNPAQNPRPPYYESTLRPFLFREDEDDDICELDE 5ysn-a1-m1-cA_5ysn-a1-m3-cC Ethanolamine ammonia-lyase, AdoCbl/substrate-free P0AEJ6 P0AEJ6 2.001 X-RAY DIFFRACTION 50 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 453 453 3abo-a1-m1-cA_3abo-a1-m2-cC 3abo-a1-m1-cC_3abo-a1-m3-cA 3abo-a1-m2-cA_3abo-a1-m3-cC 3abq-a1-m1-cA_3abq-a1-m2-cC 3abq-a1-m1-cC_3abq-a1-m3-cA 3abq-a1-m2-cA_3abq-a1-m3-cC 3abr-a1-m1-cA_3abr-a1-m2-cC 3abr-a1-m1-cC_3abr-a1-m3-cA 3abr-a1-m2-cA_3abr-a1-m3-cC 3abs-a1-m1-cA_3abs-a1-m2-cC 3abs-a1-m1-cC_3abs-a1-m3-cA 3abs-a1-m2-cA_3abs-a1-m3-cC 5ysn-a1-m1-cC_5ysn-a1-m2-cA 5ysn-a1-m2-cC_5ysn-a1-m3-cA 5ysr-a1-m1-cA_5ysr-a1-m3-cC 5ysr-a1-m1-cC_5ysr-a1-m2-cA 5ysr-a1-m2-cC_5ysr-a1-m3-cA 7xrm-a1-m1-cA_7xrm-a1-m2-cC 7xrm-a1-m1-cC_7xrm-a1-m3-cA 7xrm-a1-m2-cA_7xrm-a1-m3-cC 7xrn-a1-m1-cA_7xrn-a1-m2-cC 7xrn-a1-m1-cC_7xrn-a1-m3-cA 7xrn-a1-m2-cA_7xrn-a1-m3-cC MKLKTTLFGNVYQFKDVKEVLAKANELRSGDVLAGVAAASSQERVAAKQVLSEMTVADIRNNPVIAYEDDCVTRLIQDDVNETAYNQIKNWSISELREYVLSDETSVDDIAFTRKGLTSEVVAAVAKICSNADLIYGAKKMPVIKKANTTIGIPGTFSARLQPNDTRDDVQSIAAQIYEGLSFGVGDAVIGVNPVTDDVENLSRVLDTIYGVIDKFNIPTQGCVLAHVTTQIEAIRRGAPGGLIFQSICGSEKGLKEFGVELAMLDEARAVGAEFNRIAGENCLYFETGQGSALSAGANFGADQVTMEARNYGLARHYDPFIVNTVVGFIGPEYLYNDRQIIRAGLEDHFMGKLSGISMGCDCCYTNHADADQNLNENLMILLATAGCNYIMGMPLGDDIMLNYQTTAFHDTATVRQLLNLRPSPEFERWLESMGIMANGRLTKRAGDPSLFF MKLKTTLFGNVYQFKDVKEVLAKANELRSGDVLAGVAAASSQERVAAKQVLSEMTVADIRNNPVIAYEDDCVTRLIQDDVNETAYNQIKNWSISELREYVLSDETSVDDIAFTRKGLTSEVVAAVAKICSNADLIYGAKKMPVIKKANTTIGIPGTFSARLQPNDTRDDVQSIAAQIYEGLSFGVGDAVIGVNPVTDDVENLSRVLDTIYGVIDKFNIPTQGCVLAHVTTQIEAIRRGAPGGLIFQSICGSEKGLKEFGVELAMLDEARAVGAEFNRIAGENCLYFETGQGSALSAGANFGADQVTMEARNYGLARHYDPFIVNTVVGFIGPEYLYNDRQIIRAGLEDHFMGKLSGISMGCDCCYTNHADADQNLNENLMILLATAGCNYIMGMPLGDDIMLNYQTTAFHDTATVRQLLNLRPSPEFERWLESMGIMANGRLTKRAGDPSLFF 5ysn-a1-m3-cA_5ysn-a1-m3-cC Ethanolamine ammonia-lyase, AdoCbl/substrate-free P0AEJ6 P0AEJ6 2.001 X-RAY DIFFRACTION 75 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 453 453 3abo-a1-m1-cA_3abo-a1-m1-cC 3abo-a1-m2-cA_3abo-a1-m2-cC 3abo-a1-m3-cA_3abo-a1-m3-cC 3abo-a2-m1-cA_3abo-a2-m1-cC 3abq-a1-m1-cA_3abq-a1-m1-cC 3abq-a1-m2-cA_3abq-a1-m2-cC 3abq-a1-m3-cA_3abq-a1-m3-cC 3abq-a2-m1-cA_3abq-a2-m1-cC 3abr-a1-m1-cA_3abr-a1-m1-cC 3abr-a1-m2-cA_3abr-a1-m2-cC 3abr-a1-m3-cA_3abr-a1-m3-cC 3abr-a2-m1-cA_3abr-a2-m1-cC 3abs-a1-m1-cA_3abs-a1-m1-cC 3abs-a1-m2-cA_3abs-a1-m2-cC 3abs-a1-m3-cA_3abs-a1-m3-cC 3abs-a2-m1-cA_3abs-a2-m1-cC 3any-a1-m1-cA_3any-a1-m1-cC 3ao0-a1-m1-cA_3ao0-a1-m1-cC 5ysn-a1-m1-cA_5ysn-a1-m1-cC 5ysn-a1-m2-cA_5ysn-a1-m2-cC 5ysr-a1-m1-cA_5ysr-a1-m1-cC 5ysr-a1-m2-cA_5ysr-a1-m2-cC 5ysr-a1-m3-cA_5ysr-a1-m3-cC 7xrm-a1-m1-cA_7xrm-a1-m1-cC 7xrm-a1-m2-cA_7xrm-a1-m2-cC 7xrm-a1-m3-cA_7xrm-a1-m3-cC 7xrn-a1-m1-cA_7xrn-a1-m1-cC 7xrn-a1-m2-cA_7xrn-a1-m2-cC 7xrn-a1-m3-cA_7xrn-a1-m3-cC MKLKTTLFGNVYQFKDVKEVLAKANELRSGDVLAGVAAASSQERVAAKQVLSEMTVADIRNNPVIAYEDDCVTRLIQDDVNETAYNQIKNWSISELREYVLSDETSVDDIAFTRKGLTSEVVAAVAKICSNADLIYGAKKMPVIKKANTTIGIPGTFSARLQPNDTRDDVQSIAAQIYEGLSFGVGDAVIGVNPVTDDVENLSRVLDTIYGVIDKFNIPTQGCVLAHVTTQIEAIRRGAPGGLIFQSICGSEKGLKEFGVELAMLDEARAVGAEFNRIAGENCLYFETGQGSALSAGANFGADQVTMEARNYGLARHYDPFIVNTVVGFIGPEYLYNDRQIIRAGLEDHFMGKLSGISMGCDCCYTNHADADQNLNENLMILLATAGCNYIMGMPLGDDIMLNYQTTAFHDTATVRQLLNLRPSPEFERWLESMGIMANGRLTKRAGDPSLFF MKLKTTLFGNVYQFKDVKEVLAKANELRSGDVLAGVAAASSQERVAAKQVLSEMTVADIRNNPVIAYEDDCVTRLIQDDVNETAYNQIKNWSISELREYVLSDETSVDDIAFTRKGLTSEVVAAVAKICSNADLIYGAKKMPVIKKANTTIGIPGTFSARLQPNDTRDDVQSIAAQIYEGLSFGVGDAVIGVNPVTDDVENLSRVLDTIYGVIDKFNIPTQGCVLAHVTTQIEAIRRGAPGGLIFQSICGSEKGLKEFGVELAMLDEARAVGAEFNRIAGENCLYFETGQGSALSAGANFGADQVTMEARNYGLARHYDPFIVNTVVGFIGPEYLYNDRQIIRAGLEDHFMGKLSGISMGCDCCYTNHADADQNLNENLMILLATAGCNYIMGMPLGDDIMLNYQTTAFHDTATVRQLLNLRPSPEFERWLESMGIMANGRLTKRAGDPSLFF 5yss-a1-m1-cA_5yss-a1-m1-cD Crystal structure of aminocaproic acid cyclase in complex with NAD (+) A0A0D7LY80 A0A0D7LY80 2.276 X-RAY DIFFRACTION 123 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 255 255 5yss-a1-m1-cB_5yss-a1-m1-cC NLTGKTALVTGSTSGIGLGIAQVLAQAGATLILNGFGDVDAAKDAVAQYGKTPGYHGADLSDEAQIADMMRYAESEFGGVDILINNAGIQHVSPIETFPVDKWNAIIAINLSSVFHTTRLALPGMRARNWGRIINIASVHGLVASKEKSAYVAAKHGVVGLTKTIALETAQTEITCNALCPGWVLTPLVQQQIDKRIAEGAEPEAARDALLAEKQPSREFVTPEQLGNLALFLCSDGAAQVRGVAWNMDGGWVAQ NLTGKTALVTGSTSGIGLGIAQVLAQAGATLILNGFGDVDAAKDAVAQYGKTPGYHGADLSDEAQIADMMRYAESEFGGVDILINNAGIQHVSPIETFPVDKWNAIIAINLSSVFHTTRLALPGMRARNWGRIINIASVHGLVASKEKSAYVAAKHGVVGLTKTIALETAQTEITCNALCPGWVLTPLVQQQIDKRIAEGAEPEAARDALLAEKQPSREFVTPEQLGNLALFLCSDGAAQVRGVAWNMDGGWVAQ 5yss-a1-m1-cB_5yss-a1-m1-cD Crystal structure of aminocaproic acid cyclase in complex with NAD (+) A0A0D7LY80 A0A0D7LY80 2.276 X-RAY DIFFRACTION 12 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 255 255 5yss-a1-m1-cA_5yss-a1-m1-cC NLTGKTALVTGSTSGIGLGIAQVLAQAGATLILNGFGDVDAAKDAVAQYGKTPGYHGADLSDEAQIADMMRYAESEFGGVDILINNAGIQHVSPIETFPVDKWNAIIAINLSSVFHTTRLALPGMRARNWGRIINIASVHGLVASKEKSAYVAAKHGVVGLTKTIALETAQTEITCNALCPGWVLTPLVQQQIDKRIAEGAEPEAARDALLAEKQPSREFVTPEQLGNLALFLCSDGAAQVRGVAWNMDGGWVAQ NLTGKTALVTGSTSGIGLGIAQVLAQAGATLILNGFGDVDAAKDAVAQYGKTPGYHGADLSDEAQIADMMRYAESEFGGVDILINNAGIQHVSPIETFPVDKWNAIIAINLSSVFHTTRLALPGMRARNWGRIINIASVHGLVASKEKSAYVAAKHGVVGLTKTIALETAQTEITCNALCPGWVLTPLVQQQIDKRIAEGAEPEAARDALLAEKQPSREFVTPEQLGNLALFLCSDGAAQVRGVAWNMDGGWVAQ 5yss-a1-m1-cC_5yss-a1-m1-cD Crystal structure of aminocaproic acid cyclase in complex with NAD (+) A0A0D7LY80 A0A0D7LY80 2.276 X-RAY DIFFRACTION 110 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 255 255 5yss-a1-m1-cA_5yss-a1-m1-cB NLTGKTALVTGSTSGIGLGIAQVLAQAGATLILNGFGDVDAAKDAVAQYGKTPGYHGADLSDEAQIADMMRYAESEFGGVDILINNAGIQHVSPIETFPVDKWNAIIAINLSSVFHTTRLALPGMRARNWGRIINIASVHGLVASKEKSAYVAAKHGVVGLTKTIALETAQTEITCNALCPGWVLTPLVQQQIDKRIAEGAEPEAARDALLAEKQPSREFVTPEQLGNLALFLCSDGAAQVRGVAWNMDGGWVAQ NLTGKTALVTGSTSGIGLGIAQVLAQAGATLILNGFGDVDAAKDAVAQYGKTPGYHGADLSDEAQIADMMRYAESEFGGVDILINNAGIQHVSPIETFPVDKWNAIIAINLSSVFHTTRLALPGMRARNWGRIINIASVHGLVASKEKSAYVAAKHGVVGLTKTIALETAQTEITCNALCPGWVLTPLVQQQIDKRIAEGAEPEAARDALLAEKQPSREFVTPEQLGNLALFLCSDGAAQVRGVAWNMDGGWVAQ 5ysz-a1-m1-cA_5ysz-a1-m2-cA transcriptional regulator CelR-cellobiose complex Q47RE1 Q47RE1 1.631 X-RAY DIFFRACTION 67 1.0 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 327 327 RPTLEMVAALAGVGRGTVSRVINGSDQVSPATREAVKRAIKELGYVPNRRTDTVALVVSENNQKLFAEPFYAGIVLGVGVALSERGFQFVLATGRSGIEHERLGGYLAGQHVDGVLLLSLHRDDPLPQMLDEAGVPYVYGGRPLGVPEEQVSYVDIDNIGGGRQATQRLIETGHRRIATIAGPQDMVAGVERLQGYREALLAAGMEYDETLVSYGDFTYDSGVAAMRELLDRAPDVDAVFAASDLMGLAALRVLRASGRRVPEDVAVVGYDDSTVAEHAEPPMTSVNQPTELMGREMARLLVDRITGETTEPVRLVLETHLMVRESG RPTLEMVAALAGVGRGTVSRVINGSDQVSPATREAVKRAIKELGYVPNRRTDTVALVVSENNQKLFAEPFYAGIVLGVGVALSERGFQFVLATGRSGIEHERLGGYLAGQHVDGVLLLSLHRDDPLPQMLDEAGVPYVYGGRPLGVPEEQVSYVDIDNIGGGRQATQRLIETGHRRIATIAGPQDMVAGVERLQGYREALLAAGMEYDETLVSYGDFTYDSGVAAMRELLDRAPDVDAVFAASDLMGLAALRVLRASGRRVPEDVAVVGYDDSTVAEHAEPPMTSVNQPTELMGREMARLLVDRITGETTEPVRLVLETHLMVRESG 5yt3-a2-m1-cC_5yt3-a2-m1-cD Structure of the Human Mitogen-Activated Protein Kinase Kinase 1 S218D and S222D mutant Q02750 Q02750 2.9 X-RAY DIFFRACTION 123 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 288 309 5yt3-a1-m1-cA_5yt3-a1-m1-cB LELDEQQRKRLEAFLTQKQKVGELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGSYMSPERLYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFGCPMAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLN ELELDEQQRKRLEAFLTQKQKVGELKDDDFEKISELGAGNGGVVFKVSHKPSGLVMARKLIHLKPAIRNQIIRELQVLHECNSPYIVGFYGAFYSDGEISICMEHMDGGSLDQVLKKAGRIPEQILGKVSIAVIKGLTYLREKHKIMHRDVKPSNILVNSRGEIKLCDFGVSGQLIDDMANDFVGTRSYMSPERLQGTHYSVQSDIWSMGLSLVEMAVGRYPIPPPDAKELELMFAIFELLDYIVNEPPPKLPSGVFSLEFQDFVNKCLIKNPAERADLKQLMVHAFIKRSDAEEVDFAGWLCSTIGLN 5yti-a1-m1-cA_5yti-a1-m2-cA Crystal structure of flagellar hook associated protein-3 (HAP-3: Q5ZW61_LEGPH) from Legionella pneumophila Q5ZW61 Q5ZW61 2.75 X-RAY DIFFRACTION 133 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 323 323 7c7z-a3-m1-cB_7c7z-a3-m1-cA QIELIKQRINNIELFQNNRQAADSALRLEEGILSNAVNSLHRLREIQIQAGNPSLSEEDRKTLAVEAQALLNQLLDYANTKDSNGSYFSGSKSLTQPVSLNLSGQYVYNGDSTQRFQAVTTSLLVAVNDTGDNVFRIPSGNGRFAIRETLTPNTGTASVSSGSVTNEAAFVPDNYTTFALNSQGNLVVVSGTLSGNVIPPSGLPDDAPLYQEGSAIGFNGEVVSGLPKAGDSFSISPAKNESIFSTVQRINNLNKPYTSSVEKAATQTENNQLLAQIDSALGHILSVQSDLGARLNQLETAEKANNDYLDISAATLKKLREID QIELIKQRINNIELFQNNRQAADSALRLEEGILSNAVNSLHRLREIQIQAGNPSLSEEDRKTLAVEAQALLNQLLDYANTKDSNGSYFSGSKSLTQPVSLNLSGQYVYNGDSTQRFQAVTTSLLVAVNDTGDNVFRIPSGNGRFAIRETLTPNTGTASVSSGSVTNEAAFVPDNYTTFALNSQGNLVVVSGTLSGNVIPPSGLPDDAPLYQEGSAIGFNGEVVSGLPKAGDSFSISPAKNESIFSTVQRINNLNKPYTSSVEKAATQTENNQLLAQIDSALGHILSVQSDLGARLNQLETAEKANNDYLDISAATLKKLREID 5ytq-a2-m1-cC_5ytq-a2-m2-cC Crystal Structure of TTHA0139 L34A with Lanthanum from Thermus thermophilus HB8 Q5SM04 Q5SM04 2.393 X-RAY DIFFRACTION 146 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 66 66 5ytp-a1-m1-cB_5ytp-a1-m1-cA 5ytq-a1-m1-cB_5ytq-a1-m1-cA KKRLQVVISEEQDALLTRAAYALSSPERAVSKSEVVRLAIEKIARELEEGKAKEELEALLKHLKAE KKRLQVVISEEQDALLTRAAYALSSPERAVSKSEVVRLAIEKIARELEEGKAKEELEALLKHLKAE 5yu2-a2-m1-cD_5yu2-a2-m1-cE Structure of Ribonuclease YabJ A0A0H3JTJ5 A0A0H3JTJ5 1.75 X-RAY DIFFRACTION 75 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 124 124 5yu2-a1-m1-cB_5yu2-a1-m1-cA 5yu2-a1-m1-cB_5yu2-a1-m1-cC 5yu2-a1-m1-cC_5yu2-a1-m1-cA 5yu2-a2-m1-cD_5yu2-a2-m1-cF 5yu2-a2-m1-cE_5yu2-a2-m1-cF MKIINTTRLPEALGPYSHATVVNGMVYTSGQIPLNVDGKIVSADVQAQTKQVLENLKVVLEEAGSDLNSVAKATIFIKDMNDFQKINEVYGQYFNEHKPARSCVEVARLPKDVKVEIELVSKIK MKIINTTRLPEALGPYSHATVVNGMVYTSGQIPLNVDGKIVSADVQAQTKQVLENLKVVLEEAGSDLNSVAKATIFIKDMNDFQKINEVYGQYFNEHKPARSCVEVARLPKDVKVEIELVSKIK 5yuf-a1-m1-cA_5yuf-a1-m1-cB Crystal Structure of PML RING tetramer P29590 P29590 1.6 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 47 47 EFQFLRCQQCQAEAKCPKLLPCLHTLCSGCLEASGMQCPICQAPWPL EFQFLRCQQCQAEAKCPKLLPCLHTLCSGCLEASGMQCPICQAPWPL 5yuf-a1-m1-cD_5yuf-a1-m1-cA Crystal Structure of PML RING tetramer P29590 P29590 1.6 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 47 5yuf-a1-m1-cC_5yuf-a1-m1-cB EFQFLRCQQCQAEAKCPKLLPCLHTLCSGCLEASGMQCPICQAPWP EFQFLRCQQCQAEAKCPKLLPCLHTLCSGCLEASGMQCPICQAPWPL 5yug-a2-m1-cB_5yug-a2-m1-cE AtVAL1 PHD-Like domain in the P31 space group Q8W4L5 Q8W4L5 1.57 X-RAY DIFFRACTION 96 0.989 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 92 102 5yug-a1-m2-cA_5yug-a1-m1-cG 5yuh-a1-m1-cA_5yuh-a1-m2-cA SKMCMNASCGTTSTVEWKKGWPLRSGLLADLCYRCGSAYESSLFCEQFHKDQSGWRECYLCSKRLHCGCIASKVTIELMDYGGVGCSTCACC KMCMNASCGTTSTVEWKKGWPLRSGLLADLCYRCGSAYESSLFCEQFHKDQSGWRECYLCSKRLHCGCIASKVTIELMDYGGVGCSTCACCHQLNLNTRGEN 5yvq-a1-m2-cA_5yvq-a1-m3-cA Complex of Mu phage tail fiber and its chaperone Q9T1V0 Q9T1V0 2.103 X-RAY DIFFRACTION 664 1.0 10677 (Muvirus mu) 10677 (Muvirus mu) 358 358 5yvq-a1-m1-cA_5yvq-a1-m2-cA 5yvq-a1-m1-cA_5yvq-a1-m3-cA KAVKIAMDNANARLAKDRNGADIPNKPLFIQNLGLQETVNRARNAVQKNGDTLSGGLTFENDSILAWIRNTDWAKIGFKNDADSDTDSYMWFETGDNGNEYFKWRSKQSTTTKDLMNLKWDALSVLVNAIVNGEVISKSANGLRIAYGNYGFFIRNDGSNTYFMLTNSGDNMGTYNGLRPLWINNATGAVSMGRGLNVSGDTLSDRFAINSSNGMWIQMRDNNAIFGKNIVNTDSAQALLRQNHADRKFMIGGLGNKQFGIYMINNSRTANGTDGQAYMDNNGNWLCGAQVIPGNYANFDSRYVRDVRLGTQSLTGGLSRDYKAPSGHVITGFHTDDKVYIRPVQKNINGTWYNVASA KAVKIAMDNANARLAKDRNGADIPNKPLFIQNLGLQETVNRARNAVQKNGDTLSGGLTFENDSILAWIRNTDWAKIGFKNDADSDTDSYMWFETGDNGNEYFKWRSKQSTTTKDLMNLKWDALSVLVNAIVNGEVISKSANGLRIAYGNYGFFIRNDGSNTYFMLTNSGDNMGTYNGLRPLWINNATGAVSMGRGLNVSGDTLSDRFAINSSNGMWIQMRDNNAIFGKNIVNTDSAQALLRQNHADRKFMIGGLGNKQFGIYMINNSRTANGTDGQAYMDNNGNWLCGAQVIPGNYANFDSRYVRDVRLGTQSLTGGLSRDYKAPSGHVITGFHTDDKVYIRPVQKNINGTWYNVASA 5yvr-a1-m1-cA_5yvr-a1-m2-cA Crystal Structure of the H277A mutant of ADH/D1, an archaeal halo-thermophilic Red Sea brine pool alcohol dehydrogenase A0A133UP32 A0A133UP32 1.896 X-RAY DIFFRACTION 96 1.0 1698264 (candidate division MSBL1 archaeon SCGC-AAA259E19) 1698264 (candidate division MSBL1 archaeon SCGC-AAA259E19) 403 403 5yvm-a1-m1-cA_5yvm-a1-m2-cA 5yvs-a1-m1-cA_5yvs-a1-m2-cA HMRMEFRHNLPSSDIIFGSGTLEKIGEETKKWGDKAILVTGKSNMKKLGFLADAIDYLESAGVETVHYGEIEPNPTTTVVDEGAEIVLEEGCDVVVALGGGSSMDAAKGIAMVAGHSAEERDISVWDFAPEGDKETKPITEKTLPVIAATSTSGTGSHVTPYAVITNPETKGKPGFGNKHSFPKVSIVDIDILKEMPPRLTAITGYDVFSHVSENLTAKGDHPTADPLAIRAIEYVTEYLLRAVEDGEDIKAREKMAVADTYAGLSNTISGTTLRHAMAAPISGYYPDISHGQALASISVPIMEHNIENGDEKTWERYSRIAVALDASKPVDNTRQAASKAVDGLKNLLRSLDLDKPLSELGVEEEKIPEMTEGAFIYMGGGIEANPVDVSKEDVKEIFRKSL HMRMEFRHNLPSSDIIFGSGTLEKIGEETKKWGDKAILVTGKSNMKKLGFLADAIDYLESAGVETVHYGEIEPNPTTTVVDEGAEIVLEEGCDVVVALGGGSSMDAAKGIAMVAGHSAEERDISVWDFAPEGDKETKPITEKTLPVIAATSTSGTGSHVTPYAVITNPETKGKPGFGNKHSFPKVSIVDIDILKEMPPRLTAITGYDVFSHVSENLTAKGDHPTADPLAIRAIEYVTEYLLRAVEDGEDIKAREKMAVADTYAGLSNTISGTTLRHAMAAPISGYYPDISHGQALASISVPIMEHNIENGDEKTWERYSRIAVALDASKPVDNTRQAASKAVDGLKNLLRSLDLDKPLSELGVEEEKIPEMTEGAFIYMGGGIEANPVDVSKEDVKEIFRKSL 5yw5-a2-m1-cB_5yw5-a2-m1-cC Crystal structure of Adenine phosphoribosyltransferase from Francisella tularensis in complex with adenine Q5NII9 Q5NII9 1.9 X-RAY DIFFRACTION 99 0.982 263 (Francisella tularensis) 263 (Francisella tularensis) 171 175 5yw2-a1-m1-cA_5yw2-a1-m1-cB 5yw2-a2-m1-cD_5yw2-a2-m1-cC 5yw5-a1-m1-cD_5yw5-a1-m1-cA DDKMNLDFIKSKIAAVPDFPKPGIMFRDITPLLADPQGLRKTAEAMAQELKNKGIQPTIVAGTESRGFIFGVALAEVLGLGFVPVRKPGKLPRATYSVKDSLEIHQDAFKVTDEVLVVDDLLATGGTAKATVDLIEKTQAKVAGLIFVMELDGLGGREVLAGYNVSALIKF MNLDFIKSKIAAVPDFPKPGIMFRDITPLLADPQGLRKTAEAMAQELKNKGIQPTIVAGTESRGFIFGVALAEVLGLGFVPVRKPGKLPRATYSVKYDLEYGSDSLEIHQDAFKVTDEVLVVDDLLATGGTAKATVDLIEKTQAKVAGLIFVMELDGLGGREVLAGYNVSALIKF 5ywp-a1-m1-cM_5ywp-a1-m1-cQ JEV-2H4 Fab complex 4.6 ELECTRON MICROSCOPY 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 215 215 DIVLTQSPASLAVSLGQRATISCRASQSVSTSYMHWYQQKPGQPPRLLIYLVSNLESGVPSRFSGSGSGTDFTLNIHPVEAEDEATYYCQHIRELTRSEAGPSWLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC DIVLTQSPASLAVSLGQRATISCRASQSVSTSYMHWYQQKPGQPPRLLIYLVSNLESGVPSRFSGSGSGTDFTLNIHPVEAEDEATYYCQHIRELTRSEAGPSWLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 5yx3-a1-m1-cA_5yx3-a1-m1-cB Chalcone isomerase from the Antarctic vascular plant Deschampsia Antarctica (DaCHI1) G4U3G8 G4U3G8 2.7 X-RAY DIFFRACTION 126 1.0 159298 (Deschampsia antarctica) 159298 (Deschampsia antarctica) 214 214 AVSELEVDGVVFPSLARPPGSAHSHFLAGAGVRGMEIGGNFIKFTAIGVYLQADAAVSALAKKWAGKAADELASDAAFFRDVVTGEFEKFTQVTMILPLTGAQYSEKVTENCVAYWKAVYTDAEAAAVDKFKEAFKTETFPPGASILFTHSPAGVLTVAFSKNSSVPESGGAAIENRPLCEAVLESIIGEHGVSPAAKLSLATRVAELLKEAAS AVSELEVDGVVFPSLARPPGSAHSHFLAGAGVRGMEIGGNFIKFTAIGVYLQADAAVSALAKKWAGKAADELASDAAFFRDVVTGEFEKFTQVTMILPLTGAQYSEKVTENCVAYWKAVYTDAEAAAVDKFKEAFKTETFPPGASILFTHSPAGVLTVAFSKNSSVPESGGAAIENRPLCEAVLESIIGEHGVSPAAKLSLATRVAELLKEAAS 5yxa-a2-m1-cB_5yxa-a2-m3-cC Crystal structure of the C-terminal fragment of NS1 protein from yellow fever virus Q1X881 Q1X881 2.1 X-RAY DIFFRACTION 72 1.0 11089 (Yellow fever virus) 11089 (Yellow fever virus) 177 177 5yxa-a1-m1-cA_5yxa-a1-m2-cD SVDCDGAILGAAVNGKKSAHGSPTFWMGSHEVNGTWMIHTLETLDYKECEWPLTHTIGTSVEESDMFMPRSIGGPVSSHNRIPGYKVQTNGPWMQVPLEVKREVCPGTSVVVDSNCDGRGKSTRSTTDSGKIIPEWCCRSCTMPPVSFHGSDGCWYPMEIRPMKTSDSHLVRSWVTA SVDCDGAILGAAVNGKKSAHGSPTFWMGSHEVNGTWMIHTLETLDYKECEWPLTHTIGTSVEESDMFMPRSIGGPVSSHNRIPGYKVQTNGPWMQVPLEVKREVCPGTSVVVDSNCDGRGKSTRSTTDSGKIIPEWCCRSCTMPPVSFHGSDGCWYPMEIRPMKTSDSHLVRSWVTA 5yxk-a2-m1-cC_5yxk-a2-m1-cD High resolution crystal structure of Human B7-2 IgV domain in P21 space group P42081 P42081 1.9 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 5yxk-a1-m1-cA_5yxk-a1-m1-cB MLKIQAYFNETADLPCQFANSQNQSLSELVVFWQDQENLVLNEVYLGKEKFDSVHSKYMGRTSFDSDSWTLRLHNLQIKDKGLYQCIIHHKKPTGMIRIHQMNSELSVLA MLKIQAYFNETADLPCQFANSQNQSLSELVVFWQDQENLVLNEVYLGKEKFDSVHSKYMGRTSFDSDSWTLRLHNLQIKDKGLYQCIIHHKKPTGMIRIHQMNSELSVLA 5yxt-a1-m1-cA_5yxt-a1-m1-cB Crystal structure of reducing end xylose-releasing exo-oligoxylanase R9L536 R9L536 1.88 X-RAY DIFFRACTION 14 1.0 1235795 (Paenibacillus barengoltzii G22) 1235795 (Paenibacillus barengoltzii G22) 379 379 MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR 5yxt-a1-m1-cA_5yxt-a1-m1-cD Crystal structure of reducing end xylose-releasing exo-oligoxylanase R9L536 R9L536 1.88 X-RAY DIFFRACTION 17 1.0 1235795 (Paenibacillus barengoltzii G22) 1235795 (Paenibacillus barengoltzii G22) 379 379 MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR 5yxt-a1-m1-cB_5yxt-a1-m1-cC Crystal structure of reducing end xylose-releasing exo-oligoxylanase R9L536 R9L536 1.88 X-RAY DIFFRACTION 39 1.0 1235795 (Paenibacillus barengoltzii G22) 1235795 (Paenibacillus barengoltzii G22) 379 379 5yxt-a1-m1-cA_5yxt-a1-m1-cC MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR 5yxt-a1-m1-cC_5yxt-a1-m1-cD Crystal structure of reducing end xylose-releasing exo-oligoxylanase R9L536 R9L536 1.88 X-RAY DIFFRACTION 14 1.0 1235795 (Paenibacillus barengoltzii G22) 1235795 (Paenibacillus barengoltzii G22) 379 379 MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR MKEHQGAYCTGTYRNLLAEYGYGEEAIQRRLDETWEQLFEGDEETRIYYPSGEDMGYMLDTGNLDVRTEGMSYGMMMAVQYDRQDVFDRIWKWTVTYMYMTEGDNAGYFAWSCAPDGKRLSNGPAPDGEEYFALALLFASHRWGDREAPFNYGTQARDLLRTCLHKGEDGPGYPMWNPDNKLIKFVPNCEFSDPSYHLPHFYELFALWAYPEDRAFWKEAAEASRQYLHLACHPVTGLAPEYAYYDGTPNNERGYGHFFSDAYRVAANLGLDWEWFAADPWQREAVGKIQAFFADKEPEDYRRYTISGEPFEEPALHPVGLLATNAMASLAADGPQAKACVDLFWNTPVRTGKRRYYDNCLYLFALLALSGNYRIWMPR 5yy3-a1-m2-cA_5yy3-a1-m4-cA Crystal structure of AsqI C8VJQ3 C8VJQ3 2.305 X-RAY DIFFRACTION 103 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 577 577 5yy2-a1-m1-cA_5yy2-a1-m3-cA 5yy2-a1-m2-cA_5yy2-a1-m4-cA 5yy3-a1-m1-cA_5yy3-a1-m3-cA RVSSDVRGIFALPVQKDHKPYNGLSPEHLETMKAVSLMLDAAGPKLEDGISKAKELLEERINPELMRDALGIYLTHSKDAQQRKIFPPPLKNHPFFSTKANVAGEICTADTLHGHALLSYWRDDYDLNDSHYYWHMVYRGADFDRHGEVFLYVHSQMVARYETESLCWSLPLVRPWNQYDDFLENGYAPISSLIEHYGGYPPFSTWYSIRNPDMPDTLNVTIPRARLEEWRDNIYAAIRKGQFETTSKDKPLVLTRDNCLNFVGGILDAQYPSLNKLLGGCSLDEERYGNLHNYGLGKFAEMAYRNGLTISNFGAPRDPCFWRWYKHLQYYGRLAATRYPQDITAHRAEVVLSNLVVRLQDRSSPHYLDGHITTFLGPPAVNFMESKAKLGHEPYEWNVQVKSCRRSPPSKENPQTLTLRLFIAAEDLMNDYHSWIEMDRATVQLTDESAITKVRLDTDSSVARKMGNYGEPDPRYASAVFRHGWPQNLMLPVGKVEGMPFVAFCIATDDGIPDPAPAPPFHHYHDPRGMGYPFNRAWTQLTEDSTGKASIRTIISNAELYPFITSTTFKIYRTTKF RVSSDVRGIFALPVQKDHKPYNGLSPEHLETMKAVSLMLDAAGPKLEDGISKAKELLEERINPELMRDALGIYLTHSKDAQQRKIFPPPLKNHPFFSTKANVAGEICTADTLHGHALLSYWRDDYDLNDSHYYWHMVYRGADFDRHGEVFLYVHSQMVARYETESLCWSLPLVRPWNQYDDFLENGYAPISSLIEHYGGYPPFSTWYSIRNPDMPDTLNVTIPRARLEEWRDNIYAAIRKGQFETTSKDKPLVLTRDNCLNFVGGILDAQYPSLNKLLGGCSLDEERYGNLHNYGLGKFAEMAYRNGLTISNFGAPRDPCFWRWYKHLQYYGRLAATRYPQDITAHRAEVVLSNLVVRLQDRSSPHYLDGHITTFLGPPAVNFMESKAKLGHEPYEWNVQVKSCRRSPPSKENPQTLTLRLFIAAEDLMNDYHSWIEMDRATVQLTDESAITKVRLDTDSSVARKMGNYGEPDPRYASAVFRHGWPQNLMLPVGKVEGMPFVAFCIATDDGIPDPAPAPPFHHYHDPRGMGYPFNRAWTQLTEDSTGKASIRTIISNAELYPFITSTTFKIYRTTKF 5yy3-a1-m3-cA_5yy3-a1-m4-cA Crystal structure of AsqI C8VJQ3 C8VJQ3 2.305 X-RAY DIFFRACTION 109 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 577 577 5yy2-a1-m1-cA_5yy2-a1-m2-cA 5yy2-a1-m3-cA_5yy2-a1-m4-cA 5yy3-a1-m1-cA_5yy3-a1-m2-cA RVSSDVRGIFALPVQKDHKPYNGLSPEHLETMKAVSLMLDAAGPKLEDGISKAKELLEERINPELMRDALGIYLTHSKDAQQRKIFPPPLKNHPFFSTKANVAGEICTADTLHGHALLSYWRDDYDLNDSHYYWHMVYRGADFDRHGEVFLYVHSQMVARYETESLCWSLPLVRPWNQYDDFLENGYAPISSLIEHYGGYPPFSTWYSIRNPDMPDTLNVTIPRARLEEWRDNIYAAIRKGQFETTSKDKPLVLTRDNCLNFVGGILDAQYPSLNKLLGGCSLDEERYGNLHNYGLGKFAEMAYRNGLTISNFGAPRDPCFWRWYKHLQYYGRLAATRYPQDITAHRAEVVLSNLVVRLQDRSSPHYLDGHITTFLGPPAVNFMESKAKLGHEPYEWNVQVKSCRRSPPSKENPQTLTLRLFIAAEDLMNDYHSWIEMDRATVQLTDESAITKVRLDTDSSVARKMGNYGEPDPRYASAVFRHGWPQNLMLPVGKVEGMPFVAFCIATDDGIPDPAPAPPFHHYHDPRGMGYPFNRAWTQLTEDSTGKASIRTIISNAELYPFITSTTFKIYRTTKF RVSSDVRGIFALPVQKDHKPYNGLSPEHLETMKAVSLMLDAAGPKLEDGISKAKELLEERINPELMRDALGIYLTHSKDAQQRKIFPPPLKNHPFFSTKANVAGEICTADTLHGHALLSYWRDDYDLNDSHYYWHMVYRGADFDRHGEVFLYVHSQMVARYETESLCWSLPLVRPWNQYDDFLENGYAPISSLIEHYGGYPPFSTWYSIRNPDMPDTLNVTIPRARLEEWRDNIYAAIRKGQFETTSKDKPLVLTRDNCLNFVGGILDAQYPSLNKLLGGCSLDEERYGNLHNYGLGKFAEMAYRNGLTISNFGAPRDPCFWRWYKHLQYYGRLAATRYPQDITAHRAEVVLSNLVVRLQDRSSPHYLDGHITTFLGPPAVNFMESKAKLGHEPYEWNVQVKSCRRSPPSKENPQTLTLRLFIAAEDLMNDYHSWIEMDRATVQLTDESAITKVRLDTDSSVARKMGNYGEPDPRYASAVFRHGWPQNLMLPVGKVEGMPFVAFCIATDDGIPDPAPAPPFHHYHDPRGMGYPFNRAWTQLTEDSTGKASIRTIISNAELYPFITSTTFKIYRTTKF 5yyc-a1-m1-cA_5yyc-a1-m1-cC Crystal structure of alanine racemase from Bacillus pseudofirmus (OF4) D3FSP1 D3FSP1 1.801 X-RAY DIFFRACTION 204 1.0 398511 (Alkalihalophilus pseudofirmus OF4) 398511 (Alkalihalophilus pseudofirmus OF4) 368 368 MKTSSFRNTYAQISLQALKENAASFKASLQSPACRLMAVVKGDGYGHGAVAAASSALNGGADYLGVAILDEAIELRDAGVEAPILVLGYTSPHALREAISRNITLTVFSTDVRDALLEVASEAESPIKVHIKTETGMGRVGVQTKEELLDVMTPLYHHNNIEVEGIFTHFAEADNLQSTYTDEQFARFLSFIEAIEKDDMHVPIKHCCNSAGTLFHKDKHLDMVRVGISLYGLRPDVSLEFPIELTQAMRLFSSIVSLRKLPEGSSISYGRTHKLSSEKVVATMPIGYADGLSRALSNKGFVTLHGQKAPILGRVCMDQTMIDVTDIPDAALGDHVEFPIDEMAELTGTINYEIVCAVSKRVPRYYEE MKTSSFRNTYAQISLQALKENAASFKASLQSPACRLMAVVKGDGYGHGAVAAASSALNGGADYLGVAILDEAIELRDAGVEAPILVLGYTSPHALREAISRNITLTVFSTDVRDALLEVASEAESPIKVHIKTETGMGRVGVQTKEELLDVMTPLYHHNNIEVEGIFTHFAEADNLQSTYTDEQFARFLSFIEAIEKDDMHVPIKHCCNSAGTLFHKDKHLDMVRVGISLYGLRPDVSLEFPIELTQAMRLFSSIVSLRKLPEGSSISYGRTHKLSSEKVVATMPIGYADGLSRALSNKGFVTLHGQKAPILGRVCMDQTMIDVTDIPDAALGDHVEFPIDEMAELTGTINYEIVCAVSKRVPRYYEE 5yyl-a1-m1-cC_5yyl-a1-m2-cD Structure of Major Royal Jelly Protein 1 Oligomer Q8ISL8 Q8ISL8 2.65 X-RAY DIFFRACTION 31 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 41 43 5yyl-a1-m2-cC_5yyl-a1-m1-cD 7asd-a1-m1-cAB_7asd-a1-m1-cDB 7asd-a1-m1-cBB_7asd-a1-m1-cCB 7asd-a2-m1-cEB_7asd-a2-m1-cHB 7asd-a2-m1-cFB_7asd-a2-m1-cGB DVVSQINSLVSSIVSGANVSAVLLAQTLVNILQILIDANVF VDVVSQINSLVSSIVSGANVSAVLLAQTLVNILQILIDANVFA 5yyl-a1-m2-cB_5yyl-a1-m2-cA Structure of Major Royal Jelly Protein 1 Oligomer O18330 O18330 2.65 X-RAY DIFFRACTION 56 0.992 7460 (Apis mellifera) 7460 (Apis mellifera) 375 405 5yyl-a1-m1-cB_5yyl-a1-m1-cA 7asd-a1-m1-cAA_7asd-a1-m1-cBA 7asd-a1-m1-cCA_7asd-a1-m1-cDA 7asd-a2-m1-cEA_7asd-a2-m1-cFA 7asd-a2-m1-cGA_7asd-a2-m1-cHA NKSLPILHEWKFFDYDFGSDERRQDAILSGEYDYKNNYPSDIDQWHDKIFVTMLRYNGVPSSLNVISKKVGDGGPLLQPYPDWSFAKYDCSIVSASKLAIDKCDRLWVLDSGLVNNTQPMCSPKLLTFDLTTSQLLKQVEIPVAVNATTGKRLSSLAVQCDTMVYIADEKGEGLIVYHNDSFHRLTSNTFDYDPKFTKMTDGTAQDGISGMALSPMTNNLYYSPVASTSLYYVNTEQFQQYEGVQNILDTQSSAKVVSKSGVLFFGLVGDSALGCWNEHRTLERHNIRTVAQSDETLQMIASMKIKEALPHVPIFDRYINREYILVLSNKMQKMDFNFDDVNFRIMNANVNELILNTRCENPDNDRTPFKISIHL RGESLNKSLPILHEWKFFDYDFGSDERRQDAILSGEYDYKNNYPSDIDQWHDKIFVTMLRYNGVPSSLNVISKKVGDGGPLLQPYPDWSFAKYDDCSGIVSASKLAIDKCDRLWVLDSGLVNNTQPMCSPKLLTFDLTTSQLLKQVEIPHDVAVNATTGKGRLSSLAVQSLDCNDTMVYIADEKGEGLIVYHNSDDSFHRLTSNTFDYDPKFTKMTIDGESYTAQDGISGMALSPMTNNLYYSPVASTSLYYVNTEQFRTSDYQDIHYEGVQNILDTQSSAKVVSKSGVLFFGLVGDSALGCWNEHRTLERHNIRTVAQSDETLQMIASMKIKEALPHVPIFDRYINREYILVLSNKMQKMVNNDFNFDDVNFRIMNANVNELILNTRCENPDNDRTPFKISIHL 5yys-a1-m1-cA_5yys-a1-m1-cD Cryo-EM structure of L-fucokinase, GDP-fucose pyrophosphorylase (FKP)in Bacteroides fragilis Q58T34 Q58T34 4.2 ELECTRON MICROSCOPY 37 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 811 811 5yys-a1-m1-cB_5yys-a1-m1-cC LLHAGGQSRRLPGYAPSGKILTPVPVFRWERGQHLGQNLLSLQLPLYEKIMSLAPDKLHTLIASGDVYIRSEKPLQSIPEADVVCYGLWVDPSLATHHGVFASDRKHPEQLDFMLQKPSLAELESLSKTHLFLMDIGIWLLSDRAVEILMKRSHKESSEELKYYDLYSDFGLALGTHPRIEDEEVNTLSVAILPLPGGEFYHYGTSKELISSTLSVQNKVYDQRRIMHRKVKPNPAMFVQNAVVRIPLCAENADLWIENSHIGPKWKIASRHIITGVPENDWSLAVPAGVCVDVVPMGDKGFVARPYGLDDVFKGDLRDSKTTLTGIPSAGANLKRLYAQREEFRKGNWKALAVNHEKSVFYQLDLADAAEDFVRLGLDMPELLPEDALQMSRIHNRMLRARILKLDGKDYRPEEQAAFDLLRDGLLDGISNRKSTPKLDVYSDQIVWGRSPVRIDMAGGWTDTPPYSLYSGGNVVNLAIELNGQPPLQVYVKPCKDFHIVLRSIDMGAMEIVSTFDELQDYKKIGSPFSIPKAALSLAGFAPAFSAVSYASLEEQLKDFGAGIEVTLLAAIPAGSGLGTSSILASTVLGAINDFCGLAWDKNEICQRTLVLEQLLTTGGGWQDQYGGVLQGVKLLQTEAGFAQSPLVRWLPDHLFTHPEYKDCHLLYYTGITRTAKGILAEIVSSMFLNSSLHLNLLSEMKAHALDMNEAIQRGSFVEFGRLVGKTWEQNKALDSGTNPPAVEAIIDLIKDYTLGYKLPGAGGGGYLYMVAKDPQAAVRIRKILTENAPNPRARFVEMTLSDKGFQVSRS LLHAGGQSRRLPGYAPSGKILTPVPVFRWERGQHLGQNLLSLQLPLYEKIMSLAPDKLHTLIASGDVYIRSEKPLQSIPEADVVCYGLWVDPSLATHHGVFASDRKHPEQLDFMLQKPSLAELESLSKTHLFLMDIGIWLLSDRAVEILMKRSHKESSEELKYYDLYSDFGLALGTHPRIEDEEVNTLSVAILPLPGGEFYHYGTSKELISSTLSVQNKVYDQRRIMHRKVKPNPAMFVQNAVVRIPLCAENADLWIENSHIGPKWKIASRHIITGVPENDWSLAVPAGVCVDVVPMGDKGFVARPYGLDDVFKGDLRDSKTTLTGIPSAGANLKRLYAQREEFRKGNWKALAVNHEKSVFYQLDLADAAEDFVRLGLDMPELLPEDALQMSRIHNRMLRARILKLDGKDYRPEEQAAFDLLRDGLLDGISNRKSTPKLDVYSDQIVWGRSPVRIDMAGGWTDTPPYSLYSGGNVVNLAIELNGQPPLQVYVKPCKDFHIVLRSIDMGAMEIVSTFDELQDYKKIGSPFSIPKAALSLAGFAPAFSAVSYASLEEQLKDFGAGIEVTLLAAIPAGSGLGTSSILASTVLGAINDFCGLAWDKNEICQRTLVLEQLLTTGGGWQDQYGGVLQGVKLLQTEAGFAQSPLVRWLPDHLFTHPEYKDCHLLYYTGITRTAKGILAEIVSSMFLNSSLHLNLLSEMKAHALDMNEAIQRGSFVEFGRLVGKTWEQNKALDSGTNPPAVEAIIDLIKDYTLGYKLPGAGGGGYLYMVAKDPQAAVRIRKILTENAPNPRARFVEMTLSDKGFQVSRS 5yys-a1-m1-cB_5yys-a1-m1-cD Cryo-EM structure of L-fucokinase, GDP-fucose pyrophosphorylase (FKP)in Bacteroides fragilis Q58T34 Q58T34 4.2 ELECTRON MICROSCOPY 43 1.0 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 811 811 5yys-a1-m1-cA_5yys-a1-m1-cC LLHAGGQSRRLPGYAPSGKILTPVPVFRWERGQHLGQNLLSLQLPLYEKIMSLAPDKLHTLIASGDVYIRSEKPLQSIPEADVVCYGLWVDPSLATHHGVFASDRKHPEQLDFMLQKPSLAELESLSKTHLFLMDIGIWLLSDRAVEILMKRSHKESSEELKYYDLYSDFGLALGTHPRIEDEEVNTLSVAILPLPGGEFYHYGTSKELISSTLSVQNKVYDQRRIMHRKVKPNPAMFVQNAVVRIPLCAENADLWIENSHIGPKWKIASRHIITGVPENDWSLAVPAGVCVDVVPMGDKGFVARPYGLDDVFKGDLRDSKTTLTGIPSAGANLKRLYAQREEFRKGNWKALAVNHEKSVFYQLDLADAAEDFVRLGLDMPELLPEDALQMSRIHNRMLRARILKLDGKDYRPEEQAAFDLLRDGLLDGISNRKSTPKLDVYSDQIVWGRSPVRIDMAGGWTDTPPYSLYSGGNVVNLAIELNGQPPLQVYVKPCKDFHIVLRSIDMGAMEIVSTFDELQDYKKIGSPFSIPKAALSLAGFAPAFSAVSYASLEEQLKDFGAGIEVTLLAAIPAGSGLGTSSILASTVLGAINDFCGLAWDKNEICQRTLVLEQLLTTGGGWQDQYGGVLQGVKLLQTEAGFAQSPLVRWLPDHLFTHPEYKDCHLLYYTGITRTAKGILAEIVSSMFLNSSLHLNLLSEMKAHALDMNEAIQRGSFVEFGRLVGKTWEQNKALDSGTNPPAVEAIIDLIKDYTLGYKLPGAGGGGYLYMVAKDPQAAVRIRKILTENAPNPRARFVEMTLSDKGFQVSRS LLHAGGQSRRLPGYAPSGKILTPVPVFRWERGQHLGQNLLSLQLPLYEKIMSLAPDKLHTLIASGDVYIRSEKPLQSIPEADVVCYGLWVDPSLATHHGVFASDRKHPEQLDFMLQKPSLAELESLSKTHLFLMDIGIWLLSDRAVEILMKRSHKESSEELKYYDLYSDFGLALGTHPRIEDEEVNTLSVAILPLPGGEFYHYGTSKELISSTLSVQNKVYDQRRIMHRKVKPNPAMFVQNAVVRIPLCAENADLWIENSHIGPKWKIASRHIITGVPENDWSLAVPAGVCVDVVPMGDKGFVARPYGLDDVFKGDLRDSKTTLTGIPSAGANLKRLYAQREEFRKGNWKALAVNHEKSVFYQLDLADAAEDFVRLGLDMPELLPEDALQMSRIHNRMLRARILKLDGKDYRPEEQAAFDLLRDGLLDGISNRKSTPKLDVYSDQIVWGRSPVRIDMAGGWTDTPPYSLYSGGNVVNLAIELNGQPPLQVYVKPCKDFHIVLRSIDMGAMEIVSTFDELQDYKKIGSPFSIPKAALSLAGFAPAFSAVSYASLEEQLKDFGAGIEVTLLAAIPAGSGLGTSSILASTVLGAINDFCGLAWDKNEICQRTLVLEQLLTTGGGWQDQYGGVLQGVKLLQTEAGFAQSPLVRWLPDHLFTHPEYKDCHLLYYTGITRTAKGILAEIVSSMFLNSSLHLNLLSEMKAHALDMNEAIQRGSFVEFGRLVGKTWEQNKALDSGTNPPAVEAIIDLIKDYTLGYKLPGAGGGGYLYMVAKDPQAAVRIRKILTENAPNPRARFVEMTLSDKGFQVSRS 5yz0-a1-m1-cA_5yz0-a1-m1-cB Cryo-EM Structure of human ATR-ATRIP complex Q13535 Q13535 4.7 ELECTRON MICROSCOPY 192 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2362 2362 GEHGLELASMIPALRELGSATPEEYNTVVQKPRQILCQFIDRILTDVNVVAVELVKKTDSQPTSVMLLDFIQHIMKSSPLMFVNVSGSHEAKGSCIEFSNWIITRLLRIAATPSCHLLHKKICEVICSLLFLFKSKSPAIFGVLTKELLQLFEDLVYLHRRNVMGHAVEWPVVMSRFLSQLDEHMGYLQSAPLQLMSMQNLEFIEVTLLMVLTRIIAIVFFRRQELLLWQIGCVLLEYGSPKIKSLAISFLTELFQLGGLPAQPASTFFSSFLELLKHLVEMDTDQLKLYEEPLSKLIKTLFPFEAEAYRNIEPVYLNMLLEKLCVMFEDGVLMRLKSDLLKAALCHLLQYFLKFVPAGYESALQVRKVYVRNICKALLDVLGIEVDAEYLLGPLYAALKMESMEIIEEIQCQTQQENLSSNSDGISPKRRRLSSSLNPSKRAPKQTEEIKHVDMNQKSILWSALKQKAESLQISLEYSGLKNPVIEMLEGIAVVLQLTALCTVHCSHQNMNCRTFKDCQHKSKKKPSVVITWMSLDFYTKVLKSCRSLLESVQKLDLEATIDKVVKIYDALIYMQVNSSFEDHILEDLCGMLSLPWIYSHSDDGCLKLTTFAANLLTLSCRISDSYSPQAQSRCVFLLTLFPRRIFLEWRTAVYNWALQSSHEVIRASCVSGFFILLQQQNSCNRVPKILIDKVKDDSDIVKKEFASILGQLVCTLHGMFYLTSSLTEPFSEHGHVDLFCRNLKATSQHECSSSQLKASVCKPFLFLLKKKIPSPVKLAFIDNLHHLCKHLDFREDETDVKAVLGTLLNLMEDPDKDVRVAFSGNIKHILESLDSEDGFIKELFVLRMKEAYTHAQISRNNELKDTLILTTGDIGRAAKGDLVPFALLHLLHCLLSKSASVSGAAYTEIRALVAAKSVKLQSFFSQYKKPICQFLVESLHSSQMTALPNTPCQNADVRKQDVAHQREMALNTLSEIANVFDFPDLNRFLTRTLQVLLPDLAAKASPAASALIRTLGKQLNVNRREILINNFKYIFSHLVCSCSKDELERALHYLKNETEIELGSLLASSDDPYQGPRDIISPELMADYLQPKLLGILAFFNMQLLSSSVGIEDKKMALNSLMSLMKLMGPKHVSSVRVKMMTTLRTGLRFKDDFPELCFVTGVEDSSFAYGLLMELTRAYLAYADNSRAQDSAAYAIQELLSIYDCREMETNGPGHQLWRRFPEHVREILEPHLNTRYKSSQKSTDWSGVKKPIYLSKLGSNFAEWSASWAGYLITKVRHDLASKIFTCCSIMMKHDFKVTIYLLPHILVYVLLGCNQEDQQEVYAEIMAVLKHDDDLCQLSTQTVFSMLDHLTQWARHKFQALKAEKDSMVSTVDYEDYQSVTRFLDLIPQDTLAVASFRSKAYTRAVMHFESFITEKKQNIQEHLGFLQKLYAAMHEPDGVAGVSAIRKAEPSLKEQILEHESLGLLRDATACYDRAIQLEPDQIIHYHGVVKSMLGLGQLSTVITQVNGVHANRSEWTDELNTYRVEAAWKLSQWDLVENYLAADGKSTTWSVRLGQLLLSAKKRDITAFYDSLKLVRAEQIVPLSAASFERGSYQRGYEYIVRLHMLCELEHSIKPLFQVARLEMTQNSYRAKEPILALRRALLSLNKRPDYNEMVGECWLQSARVARKAGHHQTAYNALLNAGESRLAELYVERAKWLWSKGDVHQALIVLQKGVELCFPENETPPEGKNMLIHGRAMLLVGRFMEETANFESNAIMKKYKDVTACLPEWEDGHFYLAKYYDKLMPMVTDNKMEKQGDLIRYIVLHFGRSLQYGNQFIYQSMPRMLTLWLDYGTKAYEWEKAGRSDRVQMRNDLGKINKVITEHTNYLAPYQFLTAFSQLISRICHSHDEVFVVLMEIIAKVFLAYPQQAMWMMTAVSKSSYPMRVNRCKEILNKAIHMKKSLEKFVGDATRLTDKLLELCNKPVDGHFKMLKKLVEEATFSEILIPLQSVMIPTLPSILGTHANHASHEWAYIAGFDDMVEILASLQKPKKISLKGSDGKFYIMMCKPKDDLRKDCRLMEFNSLINKCLRKDAESRRRELHIRTYAVIPLNDECGIIEWVNNTAGLRPILTKLYKEKGVYMTGKELRQCMLPKSAALSEKLKVFREFLLPRHPPIFHEWFLRTFPDPTSWYSSRSAYCRSTAVMSMVGYILGLGDRHGENILFDSLTGECVHVDFNCLFNKGETFEVPEIVPFRLTHNMVNGMGPMGTEGLFRRACEVTMRLMRDQREPLMSVLKTFLHDPLVEWSKLNETGEVVNEKAKTHVLDIEQRLQGVIKTRNRVTGLPLSIEGHVHYLIQEATDENLLCQMYLGWTPYM GEHGLELASMIPALRELGSATPEEYNTVVQKPRQILCQFIDRILTDVNVVAVELVKKTDSQPTSVMLLDFIQHIMKSSPLMFVNVSGSHEAKGSCIEFSNWIITRLLRIAATPSCHLLHKKICEVICSLLFLFKSKSPAIFGVLTKELLQLFEDLVYLHRRNVMGHAVEWPVVMSRFLSQLDEHMGYLQSAPLQLMSMQNLEFIEVTLLMVLTRIIAIVFFRRQELLLWQIGCVLLEYGSPKIKSLAISFLTELFQLGGLPAQPASTFFSSFLELLKHLVEMDTDQLKLYEEPLSKLIKTLFPFEAEAYRNIEPVYLNMLLEKLCVMFEDGVLMRLKSDLLKAALCHLLQYFLKFVPAGYESALQVRKVYVRNICKALLDVLGIEVDAEYLLGPLYAALKMESMEIIEEIQCQTQQENLSSNSDGISPKRRRLSSSLNPSKRAPKQTEEIKHVDMNQKSILWSALKQKAESLQISLEYSGLKNPVIEMLEGIAVVLQLTALCTVHCSHQNMNCRTFKDCQHKSKKKPSVVITWMSLDFYTKVLKSCRSLLESVQKLDLEATIDKVVKIYDALIYMQVNSSFEDHILEDLCGMLSLPWIYSHSDDGCLKLTTFAANLLTLSCRISDSYSPQAQSRCVFLLTLFPRRIFLEWRTAVYNWALQSSHEVIRASCVSGFFILLQQQNSCNRVPKILIDKVKDDSDIVKKEFASILGQLVCTLHGMFYLTSSLTEPFSEHGHVDLFCRNLKATSQHECSSSQLKASVCKPFLFLLKKKIPSPVKLAFIDNLHHLCKHLDFREDETDVKAVLGTLLNLMEDPDKDVRVAFSGNIKHILESLDSEDGFIKELFVLRMKEAYTHAQISRNNELKDTLILTTGDIGRAAKGDLVPFALLHLLHCLLSKSASVSGAAYTEIRALVAAKSVKLQSFFSQYKKPICQFLVESLHSSQMTALPNTPCQNADVRKQDVAHQREMALNTLSEIANVFDFPDLNRFLTRTLQVLLPDLAAKASPAASALIRTLGKQLNVNRREILINNFKYIFSHLVCSCSKDELERALHYLKNETEIELGSLLASSDDPYQGPRDIISPELMADYLQPKLLGILAFFNMQLLSSSVGIEDKKMALNSLMSLMKLMGPKHVSSVRVKMMTTLRTGLRFKDDFPELCFVTGVEDSSFAYGLLMELTRAYLAYADNSRAQDSAAYAIQELLSIYDCREMETNGPGHQLWRRFPEHVREILEPHLNTRYKSSQKSTDWSGVKKPIYLSKLGSNFAEWSASWAGYLITKVRHDLASKIFTCCSIMMKHDFKVTIYLLPHILVYVLLGCNQEDQQEVYAEIMAVLKHDDDLCQLSTQTVFSMLDHLTQWARHKFQALKAEKDSMVSTVDYEDYQSVTRFLDLIPQDTLAVASFRSKAYTRAVMHFESFITEKKQNIQEHLGFLQKLYAAMHEPDGVAGVSAIRKAEPSLKEQILEHESLGLLRDATACYDRAIQLEPDQIIHYHGVVKSMLGLGQLSTVITQVNGVHANRSEWTDELNTYRVEAAWKLSQWDLVENYLAADGKSTTWSVRLGQLLLSAKKRDITAFYDSLKLVRAEQIVPLSAASFERGSYQRGYEYIVRLHMLCELEHSIKPLFQVARLEMTQNSYRAKEPILALRRALLSLNKRPDYNEMVGECWLQSARVARKAGHHQTAYNALLNAGESRLAELYVERAKWLWSKGDVHQALIVLQKGVELCFPENETPPEGKNMLIHGRAMLLVGRFMEETANFESNAIMKKYKDVTACLPEWEDGHFYLAKYYDKLMPMVTDNKMEKQGDLIRYIVLHFGRSLQYGNQFIYQSMPRMLTLWLDYGTKAYEWEKAGRSDRVQMRNDLGKINKVITEHTNYLAPYQFLTAFSQLISRICHSHDEVFVVLMEIIAKVFLAYPQQAMWMMTAVSKSSYPMRVNRCKEILNKAIHMKKSLEKFVGDATRLTDKLLELCNKPVDGHFKMLKKLVEEATFSEILIPLQSVMIPTLPSILGTHANHASHEWAYIAGFDDMVEILASLQKPKKISLKGSDGKFYIMMCKPKDDLRKDCRLMEFNSLINKCLRKDAESRRRELHIRTYAVIPLNDECGIIEWVNNTAGLRPILTKLYKEKGVYMTGKELRQCMLPKSAALSEKLKVFREFLLPRHPPIFHEWFLRTFPDPTSWYSSRSAYCRSTAVMSMVGYILGLGDRHGENILFDSLTGECVHVDFNCLFNKGETFEVPEIVPFRLTHNMVNGMGPMGTEGLFRRACEVTMRLMRDQREPLMSVLKTFLHDPLVEWSKLNETGEVVNEKAKTHVLDIEQRLQGVIKTRNRVTGLPLSIEGHVHYLIQEATDENLLCQMYLGWTPYM 5yz0-a1-m1-cD_5yz0-a1-m1-cC Cryo-EM Structure of human ATR-ATRIP complex Q8WXE1 Q8WXE1 4.7 ELECTRON MICROSCOPY 105 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 318 362 SAPGSKRRSEPPAPRPGPPPGTGHPPSKRARGFSAAAAPDPDDPFGAHGDFTADDLEELDTLASQALSQCPAAARDVSSDHKVHRLLDGMSKNPSGKNRETVPIKDNFELEVLQAQYKELKEKMKVMEEEVLIKNGEIKILRDSLHQTESVLEEQRRSHFLLEQEKTQALSDKEKEFSKKLQSLQSELQFKDAEMNELRTKLQTSERANKLAAPSVSHVSPRKNPSVVIKPEACSPQFGKTSFPTKESFSANMSLPHPCQTESGYKPLVGREDSKPHSLRGDSIKQEEAQKSFVDSWRQRSNTQGSILINLLLKQPLI MAGTSAPGSKRRSEPPAPRPGPPPGTGHPPSKRARGFSAAAAPDPDDPFGAHGDFTADDLEELDTLASQALSQCPAAARDVSSDHKVHRLLDGMSKNPSGKNRETVPIKDNFELEVLQAQYKELKEKMKVMEEEVLIKNGEIKILRDSLHQTESVLEEQRRSHFLLEQEKTQALSDKEKEFSKKLQSLQSELQFKDAEMNELRTKLQTSERANKLAAPSVSHVSPRKNPSVVIKPEACSPQFGKTSFPTKESFSANMSLPHPCQTESGYKPLVGREDSKPHSLRGDSIKQEEAQKSFVDSWRQRSNTQGSILINLLLKQPLIPGSSLSLCHLLSSSSESPAGTPLQPPGFGSTLAGMSGLRT 5yzc-a1-m2-cB_5yzc-a1-m3-cB Crystal structure of the prefusion form of measles virus fusion protein in complex with a fusion inhibitor compound (AS-48) Q786F3 Q786F3 2.334 X-RAY DIFFRACTION 167 1.0 645098 (Measles virus strain Ichinose-B95a) 645098 (Measles virus strain Ichinose-B95a) 367 367 5yxw-a1-m1-cB_5yxw-a1-m2-cB 5yxw-a1-m1-cB_5yxw-a1-m3-cB 5yxw-a1-m2-cB_5yxw-a1-m3-cB 5yzc-a1-m1-cB_5yzc-a1-m2-cB 5yzc-a1-m1-cB_5yzc-a1-m3-cB 5yzd-a1-m1-cC_5yzd-a1-m2-cC 5yzd-a1-m1-cC_5yzd-a1-m3-cC 5yzd-a1-m2-cC_5yzd-a1-m3-cC GVVLAGAALGVATAAQITAGIALHQSMLNSQAIDNLRASLETTNQAIEAIRQAGQEMILAVQGVQDYINNELIPSMNQLSCDLIGQKLGLKLLRYYTEILSLFGPSLRDPISAEISIQALSYALGGDINKVLEKLGYSGGDLLGILESRGIKARITHVDTESYFIVLSIAYPTLSEIKGVIVHRLEGVSYNIGSQEWYTTVPKYVATQGYLISNFDESSCTFMPEGTVCSQNALYPMSPLLQECLRGSTKSCARTLVSGSFGNRFILSQGNLIANCASILCKCYTTGTIINQDPDKILTYIAADHCPVVEVNGVTIQVGSRRYPDAVYLHRIDLGPPISLERLDVGTNLGNAIAKLEDAKELLESSD GVVLAGAALGVATAAQITAGIALHQSMLNSQAIDNLRASLETTNQAIEAIRQAGQEMILAVQGVQDYINNELIPSMNQLSCDLIGQKLGLKLLRYYTEILSLFGPSLRDPISAEISIQALSYALGGDINKVLEKLGYSGGDLLGILESRGIKARITHVDTESYFIVLSIAYPTLSEIKGVIVHRLEGVSYNIGSQEWYTTVPKYVATQGYLISNFDESSCTFMPEGTVCSQNALYPMSPLLQECLRGSTKSCARTLVSGSFGNRFILSQGNLIANCASILCKCYTTGTIINQDPDKILTYIAADHCPVVEVNGVTIQVGSRRYPDAVYLHRIDLGPPISLERLDVGTNLGNAIAKLEDAKELLESSD 5yzg-a1-m1-ct_5yzg-a1-m1-cs The Cryo-EM Structure of Human Catalytic Step I Spliceosome (C complex) at 4.1 angstrom resolution Q9UMS4 Q9UMS4 4.1 ELECTRON MICROSCOPY 11 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 67 374 5z56-a1-m1-cs_5z56-a1-m1-ct 5z57-a1-m1-cs_5z57-a1-m1-ct SATSIPAILKALQDEWDAVMLHSFTLRQQLQTTRQELSHALYQHDAACRVIARLTKEVTAAREALAT ATSIPAILKALQDEWDAVMLHSFTLRQQLQTTRQELSHALYQHDAACRVIARLTKEVTAAREALATLPEELVKPEELSKYRQVASHVGLHIPGILALDLCPSDTNKILTGGADKNVVVFDKSSEQILATLKGHTKKVTSVVFHPSQDLVFSASPDATIRIWSVPNASCVQVVRAHESAVTGLSLHATGDYLLSSSDDQYWAFSDIQTGRVLTKVTDETSGCSLTCAQFHPDGLIFGTGTMDSQIKIWDLKERTNVANFPGHSGPITSIAFSENGYYLATAADDSSVKLWDLRKLKNFKTLQLDNNFEVKSLIFDQSGTYLALGGTDVQIYICKQWTEILHFTEHSGLTTGVAFGHHAKFIASTGMDRSLKFYSL 5yzj-a1-m1-cA_5yzj-a1-m1-cB Crystal structure of human Archease mutant D51A A8K0B5 A8K0B5 2.79 X-RAY DIFFRACTION 143 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 5yz1-a1-m1-cB_5yz1-a1-m1-cA 5yzl-a1-m1-cA_5yzl-a1-m1-cB DYNLTEEQKAIKAKYPPVNRKYEYLDHTAAVQLHAWGDTLEEAFEQCAMAMFGYMTDTGTVEPLQTVEVETQGDDLQSLLFHFLDEWLYKFSADEFFIPREVKVLSIDQRNFKLRSIGWGEEFSLSKHPQGTEVKAITYSAMQVYNEENPEVFVIIDIL DYNLTEEQKAIKAKYPPVNRKYEYLDHTAAVQLHAWGDTLEEAFEQCAMAMFGYMTDTGTVEPLQTVEVETQGDDLQSLLFHFLDEWLYKFSADEFFIPREVKVLSIDQRNFKLRSIGWGEEFSLSKHPQGTEVKAITYSAMQVYNEENPEVFVIIDIL 5yzv-a1-m1-cB_5yzv-a1-m1-cC Biophysical and structural characterization of the thermostable WD40 domain of a prokaryotic protein, Thermomonospora curvata PkwA P49695 P49695 2.6 X-RAY DIFFRACTION 53 1.0 2020 (Thermomonospora curvata) 2020 (Thermomonospora curvata) 288 290 NEPRILTTDREAVAVAFSPGGSLLAGGSGDKLIHVWDVASGDELHTLEGHTDWVRAVAFSPDGALLASGSDDATVRLWDVAAAEERAVFEGHTHYVLDIAFSPDGSMVASGSRDGTARLWNVATGTEHAVLKGHTDYVYAVAFSPDGSMVASGSRDGTIRLWDVATGKERDVLQAPAENVVSLAFSPDGSMLVHGSDSTVHLWDVASGEALHTFEGHTDWVRAVAFSPDGALLASGSDDRTIRLWDVAAQEEHTTLEGHTEPVHSVAFHPEGTTLASASEDGTIRIWP ELNEPRILTTDREAVAVAFSPGGSLLAGGSGDKLIHVWDVASGDELHTLEGHTDWVRAVAFSPDGALLASGSDDATVRLWDVAAAEERAVFEGHTHYVLDIAFSPDGSMVASGSRDGTARLWNVATGTEHAVLKGHTDYVYAVAFSPDGSMVASGSRDGTIRLWDVATGKERDVLQAPAENVVSLAFSPDGSMLVHGSDSTVHLWDVASGEALHTFEGHTDWVRAVAFSPDGALLASGSDDRTIRLWDVAAQEEHTTLEGHTEPVHSVAFHPEGTTLASASEDGTIRIWP 5yzv-a1-m1-cE_5yzv-a1-m1-cC Biophysical and structural characterization of the thermostable WD40 domain of a prokaryotic protein, Thermomonospora curvata PkwA P49695 P49695 2.6 X-RAY DIFFRACTION 37 1.0 2020 (Thermomonospora curvata) 2020 (Thermomonospora curvata) 288 290 NEPRILTTDREAVAVAFSPGGSLLAGGSGDKLIHVWDVASGDELHTLEGHTDWVRAVAFSPDGALLASGSDDATVRLWDVAAAEERAVFEGHTHYVLDIAFSPDGSMVASGSRDGTARLWNVATGTEHAVLKGHTDYVYAVAFSPDGSMVASGSRDGTIRLWDVATGKERDVLQAPAENVVSLAFSPDGSMLVHGSDSTVHLWDVASGEALHTFEGHTDWVRAVAFSPDGALLASGSDDRTIRLWDVAAQEEHTTLEGHTEPVHSVAFHPEGTTLASASEDGTIRIWP ELNEPRILTTDREAVAVAFSPGGSLLAGGSGDKLIHVWDVASGDELHTLEGHTDWVRAVAFSPDGALLASGSDDATVRLWDVAAAEERAVFEGHTHYVLDIAFSPDGSMVASGSRDGTARLWNVATGTEHAVLKGHTDYVYAVAFSPDGSMVASGSRDGTIRLWDVATGKERDVLQAPAENVVSLAFSPDGSMLVHGSDSTVHLWDVASGEALHTFEGHTDWVRAVAFSPDGALLASGSDDRTIRLWDVAAQEEHTTLEGHTEPVHSVAFHPEGTTLASASEDGTIRIWP 5z00-a1-m1-cC_5z00-a1-m1-cK AtVAL1 B3 domain in complex with 15bp-DNA Q8W4L5 Q8W4L5 2.587 X-RAY DIFFRACTION 56 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 111 111 LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN 5z00-a1-m1-cC_5z00-a1-m1-cM AtVAL1 B3 domain in complex with 15bp-DNA Q8W4L5 Q8W4L5 2.587 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 111 111 LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN 5z00-a1-m1-cG_5z00-a1-m1-cK AtVAL1 B3 domain in complex with 15bp-DNA Q8W4L5 Q8W4L5 2.587 X-RAY DIFFRACTION 13 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 111 111 LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN 5z00-a1-m1-cG_5z00-a1-m1-cM AtVAL1 B3 domain in complex with 15bp-DNA Q8W4L5 Q8W4L5 2.587 X-RAY DIFFRACTION 44 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 111 111 LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN LNLNIVPLFEKTLSASDAGRIGRLVLPKACAEAYFPPISQSEGIPLKIQDVRGREWTFQFRYWPNNNSRMYVLEGVTPCIQSMMLQAGDTVTFSRVDPGGKLIMGSRKAAN 5z01-a1-m1-cA_5z01-a1-m2-cA Native Escherichia coli L,D-carboxypeptidase A (LdcA) P76008 P76008 1.75 X-RAY DIFFRACTION 99 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 305 305 5z03-a1-m1-cB_5z03-a1-m1-cA GHMSLFHLIAPSGYCIKQHAALRGIQRLTDAGHQVNNVEVIARRCERFAGTETERLEDLNSLARLTTPNTIVLAVRGGYGASRLLADIDWQALVARQQHDPLLICGHSDFTAIQCGLLAHGNVITFSGPMLVANFGADELNAFTEHHFWLALRNETFTIEWQGEGPTCRAEGTLWGGNLAMLISLIGTPWMPKIENGILVLEDINEHPFRVERMLLQLYHAGILPRQKAIILGSFSGSTPNDYDAGYNLESVYAFLRSRLSIPLITGLDFGHEQRTVTLPLGAHAILNNTREGTQLTISGHPVLK GHMSLFHLIAPSGYCIKQHAALRGIQRLTDAGHQVNNVEVIARRCERFAGTETERLEDLNSLARLTTPNTIVLAVRGGYGASRLLADIDWQALVARQQHDPLLICGHSDFTAIQCGLLAHGNVITFSGPMLVANFGADELNAFTEHHFWLALRNETFTIEWQGEGPTCRAEGTLWGGNLAMLISLIGTPWMPKIENGILVLEDINEHPFRVERMLLQLYHAGILPRQKAIILGSFSGSTPNDYDAGYNLESVYAFLRSRLSIPLITGLDFGHEQRTVTLPLGAHAILNNTREGTQLTISGHPVLK 5z08-a1-m1-cA_5z08-a1-m1-cB The crystal structure of kinetochore subunits Cenp-H/I/K triple complex G0SFF7 G0SFF7 2.199 X-RAY DIFFRACTION 51 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 214 214 GLPRLIDAIEEASKIPAKRRQTPIKPTIEKLTTHLYTHGASPDSLLRLADLLTLRNHLDQASLAAITRNLYPSSTVSDEVVLRFIGALGHGQLKPTLALQALFLRWLVMVYHLLENPGVLGQVYGVLFDLLDTAAIRPQLCHLLALVTRRKHVRPFRIQAILTLSRQTGGDPNLTGLLRVFKNYYPEIIVSAFKHPDPQWRQHLDEIQQRRSEA GLPRLIDAIEEASKIPAKRRQTPIKPTIEKLTTHLYTHGASPDSLLRLADLLTLRNHLDQASLAAITRNLYPSSTVSDEVVLRFIGALGHGQLKPTLALQALFLRWLVMVYHLLENPGVLGQVYGVLFDLLDTAAIRPQLCHLLALVTRRKHVRPFRIQAILTLSRQTGGDPNLTGLLRVFKNYYPEIIVSAFKHPDPQWRQHLDEIQQRRSEA 5z0b-a1-m1-cC_5z0b-a1-m1-cA Crystal structure of plasma-derived human serum albumin P02768 P02768 2.17 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 531 580 KSEVAHRFKDLGEENFKALVLIAFAQYLQQPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAKERQIKKQTALVELVKHKPKATKEQLKAVMD KSEVAHRFKDLGEENFKALVLIAFAQYLQQPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAETFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAVMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAALG 5z0b-a1-m1-cC_5z0b-a1-m1-cB Crystal structure of plasma-derived human serum albumin P02768 P02768 2.17 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 531 580 5z0b-a1-m1-cA_5z0b-a1-m1-cB KSEVAHRFKDLGEENFKALVLIAFAQYLQQPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAKERQIKKQTALVELVKHKPKATKEQLKAVMD KSEVAHRFKDLGEENFKALVLIAFAQYLQQPFEDHVKLVNEVTEFAKTCVADESAENCDKSLHTLFGDKLCTVATLRETYGEMADCCAKQEPERNECFLQHKDDNPNLPRLVRPEVDVMCTAFHDNEETFLKKYLYEIARRHPYFYAPELLFFAKRYKAAFTECCQAADKAACLLPKLDELRDEGKASSAKQRLKCASLQKFGERAFKAWAVARLSQRFPKAEFAEVSKLVTDLTKVHTECCHGDLLECADDRADLAKYICENQDSISSKLKECCEKPLLEKSHCIAEVENDEMPADLPSLAADFVESKDVCKNYAEAKDVFLGMFLYEYARRHPDYSVVLLLRLAKTYETTLEKCCAAADPHECYAKVFDEFKPLVEEPQNLIKQNCELFEQLGEYKFQNALLVRYTKKVPQVSTPTLVEVSRNLGKVGSKCCKHPEAKRMPCAEDYLSVVLNQLCVLHEKTPVSDRVTKCCTESLVNRRPCFSALEVDETYVPKEFNAETFTFHADICTLSEKERQIKKQTALVELVKHKPKATKEQLKAVMDDFAAFVEKCCKADDKETCFAEEGKKLVAASQAALG 5z0c-a1-m1-cA_5z0c-a1-m2-cA Nerol dehydrogenase from Persicaria minor J7JYU1 J7JYU1 1.54 X-RAY DIFFRACTION 97 1.0 488003 (Persicaria minor) 488003 (Persicaria minor) 367 367 EEHTVKAVGWAARDPSGHLSPFTFSRRATGELDVTFKVLYCGICHSDLHYIKNEWSNTIYPALPGHEIVGEVTEVGSKVNKFKVGDKVGVGCIVGSCHSCPNCNNHLENYCPNRILTFGSRYYDGTLNHGGYSDLMVVQEHFAVRIPDALPLDSAAPLLCAGITVYSPLRYYGLDKPGLHVGVVGLGGLGHMAVKFAKAFGVKVTVVSTSPAKKEDAISGLGAHSFILSTDAEQMQAAVGTMDGIIDTVSASHPLPPLISLLKSHGKLVMVGDPPKPLELPVFPLLLGRKMVAGSAIGGMKETQEMIDFAAKEGVRADVEVIPMDYVNTAMQRVSKSDVKYRFVIDIGNTFNDSLISSEVEHHHHHH EEHTVKAVGWAARDPSGHLSPFTFSRRATGELDVTFKVLYCGICHSDLHYIKNEWSNTIYPALPGHEIVGEVTEVGSKVNKFKVGDKVGVGCIVGSCHSCPNCNNHLENYCPNRILTFGSRYYDGTLNHGGYSDLMVVQEHFAVRIPDALPLDSAAPLLCAGITVYSPLRYYGLDKPGLHVGVVGLGGLGHMAVKFAKAFGVKVTVVSTSPAKKEDAISGLGAHSFILSTDAEQMQAAVGTMDGIIDTVSASHPLPPLISLLKSHGKLVMVGDPPKPLELPVFPLLLGRKMVAGSAIGGMKETQEMIDFAAKEGVRADVEVIPMDYVNTAMQRVSKSDVKYRFVIDIGNTFNDSLISSEVEHHHHHH 5z0q-a4-m1-cD_5z0q-a4-m1-cG Crystal Structure of OvoB B2VJB8 B2VJB8 2.77 X-RAY DIFFRACTION 184 1.0 465817 (Erwinia tasmaniensis Et1/99) 465817 (Erwinia tasmaniensis Et1/99) 378 379 5z0q-a1-m1-cE_5z0q-a1-m1-cC 5z0q-a2-m1-cI_5z0q-a2-m1-cA 5z0q-a3-m1-cK_5z0q-a3-m1-cB 5z0q-a5-m1-cJ_5z0q-a5-m1-cF 5z0q-a6-m1-cL_5z0q-a6-m1-cH NFDQRIDRRHSDSLKWKKYADRDILPLWIADTDFRAADCIIDALQQRVQQGVFGYGVTSEALAEVAIERMESRFGWKIQPEWLVFLPGVVTGINIAVRAFTEAHQSTVSATPIYPPFFLAPKLAGRQHLSAALRLEQQRWVLDLDSHEDRMSGNEKLLLLCNPHNPGGTVYRRKELEAQLRFAQRHDLLVCSDEIHCDLVLEPGVQHIPFASLSDDAAQRSITLMSPSKSFNIAGLGASLAVIPNPELRARFNRMRKGMVPDVDVLAYVAASAAWREGQPWLDAQLDYLRANRDMLAQHVNRLPGLSMVTPEASFLGWIDASGLGVADPALFFEKHGLGFSSGRDFGNDRFVRFNFGCPRQLLEEALQRMTRALTSGY FNFDQRIDRRHSDSLKWKKYADRDILPLWIADTDFRAADCIIDALQQRVQQGVFGYGVTSEALAEVAIERMESRFGWKIQPEWLVFLPGVVTGINIAVRAFTEAHQSTVSATPIYPPFFLAPKLAGRQHLSAALRLEQQRWVLDLDSHEDRMSGNEKLLLLCNPHNPGGTVYRRKELEAQLRFAQRHDLLVCSDEIHCDLVLEPGVQHIPFASLSDDAAQRSITLMSPSKSFNIAGLGASLAVIPNPELRARFNRMRKGMVPDVDVLAYVAASAAWREGQPWLDAQLDYLRANRDMLAQHVNRLPGLSMVTPEASFLGWIDASGLGVADPALFFEKHGLGFSSGRDFGNDRFVRFNFGCPRQLLEEALQRMTRALTSGY 5z0y-a1-m1-cA_5z0y-a1-m2-cA Crystallization and structure determination of cytoplasm serine hydroxymethyltransferase (SHMT) from Pichia pastoris F2QZA4 F2QZA4 2.5 X-RAY DIFFRACTION 40 1.0 981350 (Komagataella phaffii CBS 7435) 981350 (Komagataella phaffii CBS 7435) 372 372 ETDPEVNQIIKDEVDRQKHSIVLIDRMEILCQQRALKAFHLDGSRWGVNVQTLSPANLQVYQAIMKPHDRLMGLDLPHTYFETMPYRVDLETGIIDYDMLEKTAVLYRPKVLVAGTSAYCRLIDYKRMREIADKVGAYLVVDMAHISGLIAAGVIPSPFEYADIVTTTTHKSLRGPRGAMIFFRKGVRSYYDLENPINFSVHTIAALATALKQAATPEFKQYQEQVLKNAKALENEFKRLGYKLVSDGTDSHMVLVSLKDKDIDGARIETVCENINIALNKNSIPGDRSALVPGGVRIGAPAMTTRGASEEDFVKIANYIDKSVQYAKKVQSELPIEANKLKDFKAKIAEGSDEITQLKNEISAWAGEFPLS ETDPEVNQIIKDEVDRQKHSIVLIDRMEILCQQRALKAFHLDGSRWGVNVQTLSPANLQVYQAIMKPHDRLMGLDLPHTYFETMPYRVDLETGIIDYDMLEKTAVLYRPKVLVAGTSAYCRLIDYKRMREIADKVGAYLVVDMAHISGLIAAGVIPSPFEYADIVTTTTHKSLRGPRGAMIFFRKGVRSYYDLENPINFSVHTIAALATALKQAATPEFKQYQEQVLKNAKALENEFKRLGYKLVSDGTDSHMVLVSLKDKDIDGARIETVCENINIALNKNSIPGDRSALVPGGVRIGAPAMTTRGASEEDFVKIANYIDKSVQYAKKVQSELPIEANKLKDFKAKIAEGSDEITQLKNEISAWAGEFPLS 5z11-a1-m1-cB_5z11-a1-m1-cA Crystal Structure of Grass Carp CD8 alpha alpha Homodimers C7FF18 C7FF18 2.35 X-RAY DIFFRACTION 65 1.0 7959 (Ctenopharyngodon idella) 7959 (Ctenopharyngodon idella) 100 104 ARIYKEGEKVQVDCDLKQSGTLTFWFRINSKGADYLFSVKSADIKENDLNSEHYTVNTNSGKVQLDIKSFKKKTDSGVYVCAAMNSNKLFFGGLTRIEGE GVSARIYKEGEKVQVDCDLKQSGTLTFWFRINSKGADYLFSVKSADIKENDLNSEHYTVNTNSGKVQLDIKSFKKKTDSGVYVCAAMNSNKLFFGGLTRIEGEP 5z16-a1-m1-cA_5z16-a1-m1-cB A novel dimeric isocitrate dehydrogenase from Acinetobacter baumannii V5VCI0 V5VCI0 3 X-RAY DIFFRACTION 43 0.999 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 735 739 KSTIIYTLTDEAPLLATYSLLPIIETFTKPAGIEIVKSDISVAARVLAEFADYLSEEQKVSDNLAELGRLTQDPDTNIIKLPNISASVAQLTACIKELQSKGYAIPDYPENPATEEEKTIKARYGKCLGSAVNPVLREGNSDRRAPAAVKNYAKKHPHSMSEWKQWSQTHVSHMEEGDFYHGEKSMTLDRPRNVKMELITNSGKSIVLKPKVALQEGEIIDSMFMSKKALCDFYEKQLDDCREAGILFSLHVKATMMKVSHPIVFGHCVKIYYKEAFEKHGKLFDELGINVNNGMAGLYEKIETLPTSLREEIIEDLHACQEHRPALAMVDSAKGITNFHSPNDIIVDASMPAMIRAGGKMWGADGKQYDAKAVMPESTFARIYQEMINFCKWHGNFDPKTMGTVPNVGLMAQKAEEYGSHDKTFEIPEAGIANITDLDTGEVLLTQNVEEGDIWRMCQVKDAPIRDWVKLAVTRARNSGMPAIFWLDPYRPHENELIKKVQKYLKDHDTTGLDIQIMSQVRAMRYTLERVVRGLDTISVTGNILRDYLTDLFPIMELGTSAKMLSIVPLMAGGGMYETGAGGSAPKHVQQLVEENHLRWDSLGEFLALAVSLEEMGIKENNARTKLLAKTLDEATGKLLDNDKSPSRRTGELDNRGSHFYLSLYWAEALAAQNEDAELKAKFAPLAKALAENEQKIVAELAQVQGKPADIGGYYAVDPAKVSAVMRPSATFNAA STIIYTLTDEAPLLATYSLLPIIETFTKPAGIEIVKSDISVAARVLAEFADYLSEEQKVSDNLAELGRLTQDPDTNIIKLPNISASVAQLTACIKELQSKGYAIPDYPENPATEEEKTIKARYGKCLGSAVNPVLREGNSDRRAPAAVKNYAKKHPHSMSEWKQWSQTHVSHMEEGDFYHGEKSMTLDRPRNVKMELITNSGKSIVLKPKVALQEGEIIDSMFMSKKALCDFYEKQLDDCREAGILFSLHVKATMMKVSHPIVFGHCVKIYYKEAFEKHGKLFDELGINVNNGMAGLYEKIETLPTSLREEIIEDLHACQEHRPALAMVDSAKGITNFHSPNDIIVDASMPAMIRAGGKMWGADGKQYDAKAVMPESTFARIYQEMINFCKWHGNFDPKTMGTVPNVGLMAQKAEEYGSHDKTFEIPEAGIANITDLDTGEVLLTQNVEEGDIWRMCQVKDAPIRDWVKLAVTRARNSGMPAIFWLDPYRPHENELIKKVQKYLKDHDTTGLDIQIMSQVRAMRYTLERVVRGLDTISVTGNILRDYLTDLFPIMELGTSAKMLSIVPLMAGGGMYETGAGGSAPKHVQQLVEENHLRWDSLGEFLALAVSLEEMGIKENNARTKLLAKTLDEATGKLLDNDKSPSRRTGELDNRGSHFYLSLYWAEALAAQNEDAELKAKFAPLAKALAENEQKIVAELAQVQGKPADIGGYYAVDPAKVSAVMRPSATFNAALSTVQ 5z1a-a1-m2-cA_5z1a-a1-m4-cA The crystal structure of Bacteroides fragilis beta-glucuronidase in complex with uronic isofagomine Q5LIC7 Q5LIC7 1.859 X-RAY DIFFRACTION 118 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 655 655 3cmg-a1-m1-cA_3cmg-a1-m3-cA 3cmg-a1-m2-cA_3cmg-a1-m4-cA 5z1a-a1-m1-cA_5z1a-a1-m3-cA SLRQDILLNNNWNFRFSHQVQGDTRRVDLPHTWNAQDALAGKIDYKRGIGNYEKALYIRPEWKGKRLFLRFDGVNSIADVFINRKHIGEHRGGYGAFIFEITDLVKYGEKNSVLVRANNGEQLDIMPLVGDFNFYGGIYRDVHLLITDETCISPLDYASPGVYLVQEVVSPQEAKVCAKVNLSNRAADGTAELQVLVTDGTKVICKESRNVSLKQGADILEQLPLLIQKPRLWNGCEDPFMYQVSISLHKDGKQIDSVTQPLGLRYYHTDPDKGFFLNGKHLPLHGVCRHQDRAEVGNALRPQHHEEDVALMREMGVNAIRLAHYPQATYMYDLMDKHGIVTWAEIPFVGPGGYADKGFVDQASFRENGKQQLIELIRQHYNHPSICFWGLFNELKEVGDNPVEYVKELNALAKQEDPTRPTTSASNQDGNLNFITENIAWNRYDGWYGSTPKTLATFLDRTHKKHPELRIGISEYGAGASIYHQQDSLKQPSASGWWHPENWQTYYHMENWKIIAERPFVWGTFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKQEPMIYLAEKRCRLRYQPEQTFMAFTTAPEAELFVNGVSCGKQKADTYSTVVWKNVKLTSGENIIRVTTPGKKPLTDEVTVEYK SLRQDILLNNNWNFRFSHQVQGDTRRVDLPHTWNAQDALAGKIDYKRGIGNYEKALYIRPEWKGKRLFLRFDGVNSIADVFINRKHIGEHRGGYGAFIFEITDLVKYGEKNSVLVRANNGEQLDIMPLVGDFNFYGGIYRDVHLLITDETCISPLDYASPGVYLVQEVVSPQEAKVCAKVNLSNRAADGTAELQVLVTDGTKVICKESRNVSLKQGADILEQLPLLIQKPRLWNGCEDPFMYQVSISLHKDGKQIDSVTQPLGLRYYHTDPDKGFFLNGKHLPLHGVCRHQDRAEVGNALRPQHHEEDVALMREMGVNAIRLAHYPQATYMYDLMDKHGIVTWAEIPFVGPGGYADKGFVDQASFRENGKQQLIELIRQHYNHPSICFWGLFNELKEVGDNPVEYVKELNALAKQEDPTRPTTSASNQDGNLNFITENIAWNRYDGWYGSTPKTLATFLDRTHKKHPELRIGISEYGAGASIYHQQDSLKQPSASGWWHPENWQTYYHMENWKIIAERPFVWGTFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKQEPMIYLAEKRCRLRYQPEQTFMAFTTAPEAELFVNGVSCGKQKADTYSTVVWKNVKLTSGENIIRVTTPGKKPLTDEVTVEYK 5z1a-a1-m3-cA_5z1a-a1-m4-cA The crystal structure of Bacteroides fragilis beta-glucuronidase in complex with uronic isofagomine Q5LIC7 Q5LIC7 1.859 X-RAY DIFFRACTION 64 1.0 272559 (Bacteroides fragilis NCTC 9343) 272559 (Bacteroides fragilis NCTC 9343) 655 655 3cmg-a1-m1-cA_3cmg-a1-m2-cA 3cmg-a1-m3-cA_3cmg-a1-m4-cA 5z1a-a1-m1-cA_5z1a-a1-m2-cA SLRQDILLNNNWNFRFSHQVQGDTRRVDLPHTWNAQDALAGKIDYKRGIGNYEKALYIRPEWKGKRLFLRFDGVNSIADVFINRKHIGEHRGGYGAFIFEITDLVKYGEKNSVLVRANNGEQLDIMPLVGDFNFYGGIYRDVHLLITDETCISPLDYASPGVYLVQEVVSPQEAKVCAKVNLSNRAADGTAELQVLVTDGTKVICKESRNVSLKQGADILEQLPLLIQKPRLWNGCEDPFMYQVSISLHKDGKQIDSVTQPLGLRYYHTDPDKGFFLNGKHLPLHGVCRHQDRAEVGNALRPQHHEEDVALMREMGVNAIRLAHYPQATYMYDLMDKHGIVTWAEIPFVGPGGYADKGFVDQASFRENGKQQLIELIRQHYNHPSICFWGLFNELKEVGDNPVEYVKELNALAKQEDPTRPTTSASNQDGNLNFITENIAWNRYDGWYGSTPKTLATFLDRTHKKHPELRIGISEYGAGASIYHQQDSLKQPSASGWWHPENWQTYYHMENWKIIAERPFVWGTFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKQEPMIYLAEKRCRLRYQPEQTFMAFTTAPEAELFVNGVSCGKQKADTYSTVVWKNVKLTSGENIIRVTTPGKKPLTDEVTVEYK SLRQDILLNNNWNFRFSHQVQGDTRRVDLPHTWNAQDALAGKIDYKRGIGNYEKALYIRPEWKGKRLFLRFDGVNSIADVFINRKHIGEHRGGYGAFIFEITDLVKYGEKNSVLVRANNGEQLDIMPLVGDFNFYGGIYRDVHLLITDETCISPLDYASPGVYLVQEVVSPQEAKVCAKVNLSNRAADGTAELQVLVTDGTKVICKESRNVSLKQGADILEQLPLLIQKPRLWNGCEDPFMYQVSISLHKDGKQIDSVTQPLGLRYYHTDPDKGFFLNGKHLPLHGVCRHQDRAEVGNALRPQHHEEDVALMREMGVNAIRLAHYPQATYMYDLMDKHGIVTWAEIPFVGPGGYADKGFVDQASFRENGKQQLIELIRQHYNHPSICFWGLFNELKEVGDNPVEYVKELNALAKQEDPTRPTTSASNQDGNLNFITENIAWNRYDGWYGSTPKTLATFLDRTHKKHPELRIGISEYGAGASIYHQQDSLKQPSASGWWHPENWQTYYHMENWKIIAERPFVWGTFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKQEPMIYLAEKRCRLRYQPEQTFMAFTTAPEAELFVNGVSCGKQKADTYSTVVWKNVKLTSGENIIRVTTPGKKPLTDEVTVEYK 5z1f-a1-m1-cA_5z1f-a1-m1-cB Structure of atOSCA3.1 channel Q9C8G5 Q9C8G5 4.8 ELECTRON MICROSCOPY 102 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 601 601 FGSFLVSLGTSFVIFVILMLLFTWLSRKSGNAPIYYPNRILKGLEPWEGTSLTRNPFAWMREALTSSEQDVVNLSGVDTAVHFVFLSTVLGIFACSSLLLLPTLLPLSMANITKKSSRLWAFLGAVYWISLVTYFFLWKAYKHVSSLRAQALMSADVKPEQFAILVRDMPAPPDGQTQKEFIDSYFREIYPETFYRSLVATENSKVNKIWEKLEGYKKKLARLINESVAKLETEQKAVLAEKQQTAAVVFFTTRVAAASAAQSLHCQMVDKWTVTEAPEPRQLLWQNLNIKLFSRIIRQYFIYFFVAVTILFYMIPIAFVSAITRTVLESFLPQIALIVFLAMLPKLLLFLSKAEGIPSQSHAIRAASGKYFYFSVFNVFIGVTLAGTLFNTDMIINLLATSLPKSATFFLTYVALKFFIGYGLELSRIIPLIIFHLKKKYLCKTEAEVKEAWYPGDLSYATRVPGDMLILTITFCYSVIAPLILIFGITYFGLGWLVLRNQALKVYVPSYESYGRMWPHIHQRILAALFLFQVVMFGYLGAKTFFYTALVIPLIITSLIFGYVCRQKFYGGFEHTALEVACRELKQSPDLEEIFRAYIPH FGSFLVSLGTSFVIFVILMLLFTWLSRKSGNAPIYYPNRILKGLEPWEGTSLTRNPFAWMREALTSSEQDVVNLSGVDTAVHFVFLSTVLGIFACSSLLLLPTLLPLSMANITKKSSRLWAFLGAVYWISLVTYFFLWKAYKHVSSLRAQALMSADVKPEQFAILVRDMPAPPDGQTQKEFIDSYFREIYPETFYRSLVATENSKVNKIWEKLEGYKKKLARLINESVAKLETEQKAVLAEKQQTAAVVFFTTRVAAASAAQSLHCQMVDKWTVTEAPEPRQLLWQNLNIKLFSRIIRQYFIYFFVAVTILFYMIPIAFVSAITRTVLESFLPQIALIVFLAMLPKLLLFLSKAEGIPSQSHAIRAASGKYFYFSVFNVFIGVTLAGTLFNTDMIINLLATSLPKSATFFLTYVALKFFIGYGLELSRIIPLIIFHLKKKYLCKTEAEVKEAWYPGDLSYATRVPGDMLILTITFCYSVIAPLILIFGITYFGLGWLVLRNQALKVYVPSYESYGRMWPHIHQRILAALFLFQVVMFGYLGAKTFFYTALVIPLIITSLIFGYVCRQKFYGGFEHTALEVACRELKQSPDLEEIFRAYIPH 5z1q-a1-m1-cA_5z1q-a1-m1-cC Crystal structures of the trimeric N-terminal domain of Ciliate Euplotes octocarinatus Centrin Q9XZV2 Q9XZV2 2.3 X-RAY DIFFRACTION 29 1.0 72 72 5z1q-a1-m1-cB_5z1q-a1-m1-cA 5z1q-a1-m1-cB_5z1q-a1-m1-cC LSEEQKQEIKEAFDLFDTNKTGSIDYHELKVARALGFDVKKPEILELNEYDREGNGYIGFDDFLDITEKIKN LSEEQKQEIKEAFDLFDTNKTGSIDYHELKVARALGFDVKKPEILELNEYDREGNGYIGFDDFLDITEKIKN 5z1w-a1-m1-cB_5z1w-a1-m1-cD Cryo-EM structure of polycystic kidney disease-like channel PKD2L1 A2A259 A2A259 3.38 ELECTRON MICROSCOPY 135 1.0 10090 (Mus musculus) 10090 (Mus musculus) 429 429 5z1w-a1-m1-cA_5z1w-a1-m1-cC 5z1w-a1-m1-cA_5z1w-a1-m1-cD 5z1w-a1-m1-cB_5z1w-a1-m1-cC 7d7e-a1-m1-cC_7d7e-a1-m1-cB 7d7e-a1-m1-cD_7d7e-a1-m1-cB 7d7f-a1-m1-cC_7d7f-a1-m1-cB 7d7f-a1-m1-cD_7d7f-a1-m1-cB LRELVVYIVFLVDICLLTYGMTSSSAYYYTKVMSELFLHTPSDSGVSFQTISSMSDFWDFAQGPLLDSLYWTKWYNNQSLGRGSHSFIYYENLLLGAPRLRQLRVRNDSCVVHEDFREDILNCYDVYSPDKEDQLPFGPQNGTAWTYHSQNELGGSSHWGRLTSYSGGGYYLDLPGSRQASAEALQGLQEGLWLDRGTRVVFIDFSVYNANINLFCILRLVVEFPATGGTIPSWQIRTVKLIRYVNNWDFFIVGCEVVFCVFIFYYVVEEILVWNILDLVVILLSIVAVGFHIFRTLEVNRLMGKLLQQPDTYADFEFLAFWQTQYNNMNAVNLFFAWIKIFKYIFAIMFFIVFFAYAQLGYLLFGTQVENFSTFVKCIFTQFRIILGDFDYNAIDNANRILGPVYFVTYVFFVFFVLLNMFLAIINDT LRELVVYIVFLVDICLLTYGMTSSSAYYYTKVMSELFLHTPSDSGVSFQTISSMSDFWDFAQGPLLDSLYWTKWYNNQSLGRGSHSFIYYENLLLGAPRLRQLRVRNDSCVVHEDFREDILNCYDVYSPDKEDQLPFGPQNGTAWTYHSQNELGGSSHWGRLTSYSGGGYYLDLPGSRQASAEALQGLQEGLWLDRGTRVVFIDFSVYNANINLFCILRLVVEFPATGGTIPSWQIRTVKLIRYVNNWDFFIVGCEVVFCVFIFYYVVEEILVWNILDLVVILLSIVAVGFHIFRTLEVNRLMGKLLQQPDTYADFEFLAFWQTQYNNMNAVNLFFAWIKIFKYIFAIMFFIVFFAYAQLGYLLFGTQVENFSTFVKCIFTQFRIILGDFDYNAIDNANRILGPVYFVTYVFFVFFVLLNMFLAIINDT 5z1z-a1-m1-cB_5z1z-a1-m1-cC The apo-structure of D-lactate dehydrogenase from Escherichia coli P52643 P52643 1.97 X-RAY DIFFRACTION 34 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 314 316 3wx0-a1-m1-cD_3wx0-a1-m1-cA 4cuj-a1-m1-cA_4cuj-a1-m1-cB 4cuj-a1-m1-cC_4cuj-a1-m1-cD 4cuk-a1-m1-cA_4cuk-a1-m1-cD 4cuk-a1-m1-cB_4cuk-a1-m1-cC 5z1z-a1-m1-cD_5z1z-a1-m1-cA MKLAVYSTKQYDKKYLQQVNESFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLKVVRVPAYDPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDPYPSAAALELGVEYVDLPTLFSESDVISLHCPLTPENYHLLNEAAFDQMKNGVMIVNTSRGALIDSQAAIEALKNQKIGSLGMDVYENERDFRRLSACHNVLFTGHQAFLTAEALTSISQTTLQNLSNLEKGETCPNELV MKLAVYSTKQYDKKYLQQVNESFGFELEFFDFLLTEKTAKTANGCEAVCIFVNDDGSRPVLEELKKHGVKYIALRCAGFNNVDLDAAKELGLKVVRVPAYDPEAVAEHAIGMMMTLNRRIHRAYQRTRDANFSLEGLTGFTMYGKTAGVIGTGKIGVAMLRILKGFGMRLLAFDPYPSAAALELGVEYVDLPTLFSESDVISLHCPLTPENYHLLNEAAFDQMKNGVMIVNTSRGALIDSQAAIEALKNQKIGSLGMDVYENERDDVFRRLSACHNVLFTGHQAFLTAEALTSISQTTLQNLSNLEKGETCPNELV 5z25-a1-m2-cA_5z25-a1-m3-cA Trimeric Alpha-Helix-Inserted Circular Permutant of Cytochrome c555 O67504 O67504 1.7 X-RAY DIFFRACTION 87 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 96 96 5z25-a1-m1-cA_5z25-a1-m2-cA 5z25-a1-m1-cA_5z25-a1-m3-cA VDPAKEAIMKPQLTMLKGLSDAELKALADFILRIAKQAQEKQQQDVAKAIFQQKGCGSCHQANVDTVGPSLAKIAQAYAGKEDQLIKFLKGEAPAI VDPAKEAIMKPQLTMLKGLSDAELKALADFILRIAKQAQEKQQQDVAKAIFQQKGCGSCHQANVDTVGPSLAKIAQAYAGKEDQLIKFLKGEAPAI 5z28-a1-m1-cA_5z28-a1-m1-cB AtVAL2 PHD-Like domain Q5CCK4 Q5CCK4 2.245 X-RAY DIFFRACTION 77 0.99 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 96 98 AIKVCMNALCGAASTSGEWKKGWPMRSGDLASLCDKCGCAYEQSIFCEVFHAKESGWRECNSCDKRLHCGCIASRFMMELLENGGVTCISCAKKSG IKVCMNALCGAASTSGEWKKGWPMRSGDLASLCDKCGCAYEQSIFCEVFHAKESGWRECNSCDKRLHCGCIASRFMMELLENGGVTCISCAKKSGLIS 5z2g-a1-m1-cA_5z2g-a1-m1-cB Crystal Structure of L-amino acid oxidase from venom of Naja atra A8QL58 A8QL58 2.676 X-RAY DIFFRACTION 123 1.0 8656 (Naja atra) 8656 (Naja atra) 477 477 PLEKCFQEADYEDFLEIARNGLKETSNPKHVVVVGAGMAGLSAAYVLAGAGHKVTLLEASERVGGRVITYHNDREGWYVNMGPMRLPERHRIVREYIRKFGLKLNEFFQENENAWYYINNIRKRVWEVKKDPSLLKYPVKPSEEGKSASQLYQESLRKVIEELKRTNCSYILNKYDSYSTKEYLIKEGNLSRGAVDMIGDLLNEDSSYHLSFMESLKSDALFSYEKRFDEIVGGFDQLPISMYQAIAEMVHLNARVIKIQYDAEKVRVTYQTPAKTFVTADYVIVCSTSRAARRIYFEPPLPPKKAHALRSIHYRSATKIFLTCSKKFWEADGIHGGKSTTDLPSRFIHYPNHNFTSGIGVIMAYVLADDSDFFQALDTKTCADIVINDLSLIHDLPKREIQALCYPSIKKWNLDKYTMGSITSFTPYQFQDYFESAAAPVGRIHFAGEYTGRFHGWIDSTIMTGLRAARDVNRASQ PLEKCFQEADYEDFLEIARNGLKETSNPKHVVVVGAGMAGLSAAYVLAGAGHKVTLLEASERVGGRVITYHNDREGWYVNMGPMRLPERHRIVREYIRKFGLKLNEFFQENENAWYYINNIRKRVWEVKKDPSLLKYPVKPSEEGKSASQLYQESLRKVIEELKRTNCSYILNKYDSYSTKEYLIKEGNLSRGAVDMIGDLLNEDSSYHLSFMESLKSDALFSYEKRFDEIVGGFDQLPISMYQAIAEMVHLNARVIKIQYDAEKVRVTYQTPAKTFVTADYVIVCSTSRAARRIYFEPPLPPKKAHALRSIHYRSATKIFLTCSKKFWEADGIHGGKSTTDLPSRFIHYPNHNFTSGIGVIMAYVLADDSDFFQALDTKTCADIVINDLSLIHDLPKREIQALCYPSIKKWNLDKYTMGSITSFTPYQFQDYFESAAAPVGRIHFAGEYTGRFHGWIDSTIMTGLRAARDVNRASQ 5z2i-a2-m1-cD_5z2i-a2-m1-cC Structure of Dictyostelium discoideum mitochondrial calcium uniporter N-ternimal domain (Se-DdMCU-NTD) Q54LT0 Q54LT0 2.141 X-RAY DIFFRACTION 94 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 90 91 5z2h-a1-m1-cA_5z2h-a1-m1-cB 5z2i-a1-m1-cA_5z2i-a1-m1-cB EGELKTIGQAKVSKLQEKKLDPRSKITFNDFKGIAKEVGIEEKEINSVSNALAQSGSIIYLPNSLNENLKTSVFTKPAHIYQSLEHILDI EGELKTIGQAKVSKLQEKKLDPRSKITFNDFKGIAKEVGIEEKEINSVSNALAQSGSIIYLPNSLNENLKTSVFTKPAHIYQSLEHILDIE 5z2l-a5-m1-cG_5z2l-a5-m1-cH Crystal structure of BdcA in complex with NADPH P39333 P39333 1.7 X-RAY DIFFRACTION 140 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 239 239 5z2l-a1-m1-cA_5z2l-a1-m1-cB 5z2l-a2-m1-cD_5z2l-a2-m1-cC 5z2l-a3-m1-cE_5z2l-a3-m1-cF 5z2l-a4-m1-cI_5z2l-a4-m1-cJ 5z2l-a6-m1-cL_5z2l-a6-m1-cK GAFTGKTVLILGGSRGIGAAIVRRFVTDGANVRFTYAGSKDAAKRLAQETGATAVFTDSADRDAVIDVVRKSGALDILVVNAGIGVFGEALELNADDIDRLFKINIHAPYHASVEAARQMPEGGRILIIGSVNGDRMPVAGMAAYAASKSALQGMARGLARDFGPRGITINVVQPGPIDTDANPANGPMRDMLHSLMAIKRHGQPEEVAGMVAWLAGPEASFVTGAMHTIDGAFGALEH GAFTGKTVLILGGSRGIGAAIVRRFVTDGANVRFTYAGSKDAAKRLAQETGATAVFTDSADRDAVIDVVRKSGALDILVVNAGIGVFGEALELNADDIDRLFKINIHAPYHASVEAARQMPEGGRILIIGSVNGDRMPVAGMAAYAASKSALQGMARGLARDFGPRGITINVVQPGPIDTDANPANGPMRDMLHSLMAIKRHGQPEEVAGMVAWLAGPEASFVTGAMHTIDGAFGALEH 5z2r-a2-m1-cE_5z2r-a2-m1-cH ThDP-Mn2+ complex of R395K variant of EcMenD soaked with 2-ketoglutarate for 5 min P17109 P17109 2.3 X-RAY DIFFRACTION 33 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 556 556 2jla-a3-m1-cA_2jla-a3-m1-cC 2jla-a3-m1-cB_2jla-a3-m1-cD 2jlc-a2-m1-cA_2jlc-a2-m2-cA 2jlc-a2-m1-cB_2jlc-a2-m2-cB 3hwx-a5-m1-cA_3hwx-a5-m1-cJ 3hwx-a5-m1-cI_3hwx-a5-m1-cB 3hwx-a6-m1-cR_3hwx-a6-m1-c1 3hwx-a6-m1-cZ_3hwx-a6-m1-cS 5z2p-a1-m1-cA_5z2p-a1-m1-cH 5z2p-a1-m1-cB_5z2p-a1-m1-cF 5z2p-a2-m1-cC_5z2p-a2-m1-cG 5z2p-a2-m1-cD_5z2p-a2-m1-cE 5z2r-a1-m1-cA_5z2r-a1-m1-cD 5z2r-a1-m1-cC_5z2r-a1-m1-cB 5z2r-a2-m1-cF_5z2r-a2-m1-cG 5z2u-a1-m1-cA_5z2u-a1-m1-cG 5z2u-a1-m1-cB_5z2u-a1-m1-cH 5z2u-a2-m1-cC_5z2u-a2-m1-cF 5z2u-a2-m1-cD_5z2u-a2-m1-cE MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVKLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVKLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL 5z2r-a2-m1-cF_5z2r-a2-m1-cH ThDP-Mn2+ complex of R395K variant of EcMenD soaked with 2-ketoglutarate for 5 min P17109 P17109 2.3 X-RAY DIFFRACTION 89 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 556 556 2jla-a3-m1-cA_2jla-a3-m1-cD 2jla-a3-m1-cB_2jla-a3-m1-cC 2jlc-a2-m1-cA_2jlc-a2-m2-cB 2jlc-a2-m2-cA_2jlc-a2-m1-cB 3hwx-a5-m1-cB_3hwx-a5-m1-cJ 3hwx-a5-m1-cI_3hwx-a5-m1-cA 3hwx-a6-m1-c1_3hwx-a6-m1-cS 3hwx-a6-m1-cR_3hwx-a6-m1-cZ 5z2p-a1-m1-cA_5z2p-a1-m1-cF 5z2p-a1-m1-cB_5z2p-a1-m1-cH 5z2p-a2-m1-cC_5z2p-a2-m1-cE 5z2p-a2-m1-cD_5z2p-a2-m1-cG 5z2r-a1-m1-cB_5z2r-a1-m1-cD 5z2r-a1-m1-cC_5z2r-a1-m1-cA 5z2r-a2-m1-cE_5z2r-a2-m1-cG 5z2u-a1-m1-cA_5z2u-a1-m1-cB 5z2u-a1-m1-cG_5z2u-a1-m1-cH 5z2u-a2-m1-cC_5z2u-a2-m1-cE 5z2u-a2-m1-cD_5z2u-a2-m1-cF MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVKLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL MSVSAFNRRWAAVILEALTRHGVRHICIAPGSRSTPLTLAAAENSAFIHHTHFDERGLGHLALGLAKVSKQPVAVIVTSGTAVANLYPALIEAGLTGEKLILLTADRPPELIDCGANQAIRQPGMFASHPTHSISLPRPTQDIPARWLVSTIDHALGTLHAGGVHINCPFAEPLYGEMDDTGLSWQQRLGDWWQDDKPWLREAPRLESEKQRDWFFWRQKRGVVVAGRMSAEEGKKVALWAQTLGWPLIGDVLSQTGQPLPCADLWLGNAKATSELQQAQIVVQLGSSLTGKRLLQWQASCEPEEYWIVDDIEGRLDPAHHRGRRLIANIADWLELHPAEKRQPWCVEIPRLAEQAMQAVIARRDAFGEAQLAHRICDYLPEQGQLFVGNSLVVKLIDALSQLPAGYPVYSNRGASGIDGLLSTAAGVQRASGKPTLAIVGDLSALYDLNALALLRQVSAPLVLIVVNNNGGQIFSLLPTPQSERERFYLMPQNVHFEHAAAMFELKYHRPQNWQELETAFADAWRTPTTTVIEMVVNDTDGAQTLQQLLAQVSHL 5z2v-a1-m1-cA_5z2v-a1-m1-cB Crystal structure of RecR from Pseudomonas aeruginosa PAO1 Q9I3H9 Q9I3H9 2.2 X-RAY DIFFRACTION 181 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 195 197 FSPLIRQLIESLRILPGVGQKSAQRMALMLLERDRSGGLKLAQALTAAMEGVGHCRQCRTLSEEELCPQCADPRRDDSLLCVVEGPLDVFAVEQTGYRGRYFVLKGHLSPLDGLGPEAIGIPELEARIRDGAFSEVILATNPTVEGEATAHYIAQLLAGRGLTLSRIAHGVPLGGELELVDGGTLAHALAGRRPI MSFSPLIRQLIESLRILPGVGQKSAQRMALMLLERDRSGGLKLAQALTAAMEGVGHCRQCRTLSEEELCPQCADPRRDDSLLCVVEGPLDVFAVEQTGYRGRYFVLKGHLSPLDGLGPEAIGIPELEARIRDGAFSEVILATNPTVEGEATAHYIAQLLAGRGLTLSRIAHGVPLGGELELVDGGTLAHALAGRRPI 5z38-a2-m1-cD_5z38-a2-m1-cB Crystal structure of CsrA bound to CesT Q47015 Q47015 2.292 X-RAY DIFFRACTION 154 0.987 562 (Escherichia coli) 562 (Escherichia coli) 150 154 5z38-a1-m1-cA_5z38-a1-m1-cC LLLDRFAEKIGVGSISFNENRLCSFAIDEIYYISLSDANDEYMMIYGVCGKFPTDNPNFALEILNANLWFAENGGPYLCYESGAQSLLLALRFPLDDATPEKLENEIEVVVKSMENLYLVLHNQGITLENEHMKIEEISSSDNKHYYAGR MSSRSELLLDRFAEKIGVGSISFNENRLCSFAIDEIYYISLSDANDEYMMIYGVCGKFPTDNPNFALEILNANLWFAENGGPYLCYESGAQSLLLALRFPLDDATPEKLENEIEVVVKSMENLYLVLHNQGITLENEHMKIEEISSSDNKHYYA 5z3m-a1-m1-cB_5z3m-a1-m1-cA Crystal structure of Low Molecular Weight Phosphotyrosine phosphatase (VcLMWPTP-2) from Vibrio choleraeO395 A0A0H3AM12 A0A0H3AM12 2.6 X-RAY DIFFRACTION 34 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 152 153 GLSVLVVCTGNLCRSPMAEIILRDKIRQKRLNIQVRSAGTLKTGKTMPDDKALQALQDYGYHPMVNPVQQVTQQDFIEHDFIYAMDRTNLADLLDICPAEHKNKLALFLSKANRQEKEVPDPYRRSSEFFQRTALLIESGAVALVDSWQEQG GLSVLVVCTGNLCRSPMAEIILRDKIRQKRLNIQVRSAGTLKTGKTMPDDKALQALQDYGYHPMVNPVQQVTQQDFIEHDFIYAMDRTNLADLLDICPAEHKNKLALFLSKANRQEKEVPDPYRRSSEFFQRTALLIESGAVALVDSWQEQGI 5z3q-a1-m1-cC_5z3q-a1-m1-cE Crystal Structure of a Soluble Fragment of Poliovirus 2C ATPase (2.55 Angstrom) P03300 P03300 2.545 X-RAY DIFFRACTION 34 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 188 201 5z3q-a1-m1-cD_5z3q-a1-m1-cB HRIEPVCLLVHGSPGTGKSVATNLIARAIAEAENTSTYSLPPDPSHFDGYKQQGVVIMDDLNGADMKLFCQMVSTVEFIPPMASLAAGILFTSNYVLASTNARRFAFDMDIQVMNEYSRDGKLNMAMATEMCKNCHQPANFKRCCPLVCGKAIQLMDKSSRVRYSIDQITTMIINERNRRSNIGNCME SKHRIEPVCLLVHGSPGTGKSVATNLIARAIAEAENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQGADMKLFCQMVSTVEFIPPMASLAEAGILFTSNYVLASTNSSDALARRFAFDMDIQVMNEYSRDGKLNMAMATEMCKNCHQPANFKRCCPLVCGKAIQLMDKSSRVRYSIDQITTMIINERNRRSNIGNCMEALFQ 5z3q-a1-m1-cE_5z3q-a1-m1-cD Crystal Structure of a Soluble Fragment of Poliovirus 2C ATPase (2.55 Angstrom) P03300 P03300 2.545 X-RAY DIFFRACTION 39 0.99 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 201 202 5z3q-a1-m1-cC_5z3q-a1-m1-cB SKHRIEPVCLLVHGSPGTGKSVATNLIARAIAEAENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQGADMKLFCQMVSTVEFIPPMASLAEAGILFTSNYVLASTNSSDALARRFAFDMDIQVMNEYSRDGKLNMAMATEMCKNCHQPANFKRCCPLVCGKAIQLMDKSSRVRYSIDQITTMIINERNRRSNIGNCMEALFQ KHRIEPVCLLVHGSPGTGKSVATNLIARAIAEAENTSTYSLPPDPSHFDGYKQQGVVIMDDLNQNPDGADMKLFCQMVSTVEFIPPMASLAEAGILFTSNYVLASTNSSDALARRFAFDMDIQVMNEYSRDGKLNMAMATEMCKNCHQPANFKRCCPLVCGKAIQLMDKSSRVRYSIDQITTMIINERNRRSNIGNCMEALF 5z3r-a2-m1-cD_5z3r-a2-m1-cH Crystal Structure of Delta 5-3-Ketosteroid Isomerase from Mycobacterium sp. V5XH97 V5XH97 2.42 X-RAY DIFFRACTION 85 1.0 1795 (Mycolicibacterium neoaurum) 1795 (Mycolicibacterium neoaurum) 129 131 5z3r-a1-m1-cA_5z3r-a1-m1-cG 5z3r-a3-m1-cB_5z3r-a3-m1-cF 5z3r-a4-m1-cC_5z3r-a4-m1-cE SPVVAASQNSWRCVQSGDREGWLALMADDIVVEDPIGEAVTNPDGTGVRGKAALAAFYDTNIGPNRLRVTCEATFPSSSPTEIAYILVLETTFPNGFVATVRGVFTYRVDDAGLITNLRGYWNMDAMTF VSPVVAASQNSWRCVQSGDREGWLALMADDIVVEDPIGEAVTNPDGTGVRGKAALAAFYDTNIGPNRLRVTCEATFPSSSPTEIAYILVLETTFPNGFVATVRGVFTYRVDDAGLITNLRGYWNMDAMTFT 5z42-a1-m1-cA_5z42-a1-m2-cA Aquifex aeolicus MutL endonuclease domain with three zinc ions. O67518 O67518 1.3 X-RAY DIFFRACTION 58 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 102 102 5b42-a1-m1-cA_5b42-a1-m2-cA 5z41-a1-m1-cA_5z41-a1-m2-cA MKPTYEILGQMDETFILVKDSEYLYFVDQHLLEERINYEKLKDENLACRISVKAGQKLSEEKIRELIKTWRNLENPHVCPHGRPIYYKIPLREIYEKVGRNY MKPTYEILGQMDETFILVKDSEYLYFVDQHLLEERINYEKLKDENLACRISVKAGQKLSEEKIRELIKTWRNLENPHVCPHGRPIYYKIPLREIYEKVGRNY 5z49-a1-m1-cA_5z49-a1-m1-cB Crystal structure of the effector-binding domain of Synechococcus elongatus CmpR in complex with ribulose-1,5-bisphosphate Q9F1R2 Q9F1R2 2.148 X-RAY DIFFRACTION 131 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 220 220 HHHHHMGQLRLAVITTAKYFIPRLIGPFCQRYPGINVSLKVTNHEGLINRINDNLDDLYVLSRPPSGFDITVQPFLDNPLVVVGPASHPLANQRGISLERLAQEPFILRERGSGTREATEQLFAAHNLNLNVKLDLGSNEAIKQAILGGLGLAVLSYHTLTSAGATPELKMFEVEGFPIHRQWHAVYPAGKQLSTVAATFLDYLLTESQRIAADIQIPES HHHHHMGQLRLAVITTAKYFIPRLIGPFCQRYPGINVSLKVTNHEGLINRINDNLDDLYVLSRPPSGFDITVQPFLDNPLVVVGPASHPLANQRGISLERLAQEPFILRERGSGTREATEQLFAAHNLNLNVKLDLGSNEAIKQAILGGLGLAVLSYHTLTSAGATPELKMFEVEGFPIHRQWHAVYPAGKQLSTVAATFLDYLLTESQRIAADIQIPES 5z4y-a1-m1-cA_5z4y-a1-m1-cB Crystal structure of PaCysB NTD domain with space group P4 O05926 O05926 2.401 X-RAY DIFFRACTION 71 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 89 89 5z4z-a1-m1-cA_5z4z-a1-m1-cB 5z4z-a2-m1-cC_5z4z-a2-m2-cC SMKLQQLRYIWEVAHHDLNVSATAQSLYTSQPGISKQIRLLEDELGVEVFARSGKHLTRVTPAGERIIHTAGEILRKVESIKQIAQEFS SMKLQQLRYIWEVAHHDLNVSATAQSLYTSQPGISKQIRLLEDELGVEVFARSGKHLTRVTPAGERIIHTAGEILRKVESIKQIAQEFS 5z50-a1-m1-cA_5z50-a1-m1-cB Crystal structure of PaCysB regulatory domain O05926 O05926 2.206 X-RAY DIFFRACTION 89 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 232 232 GTLSIATTHTQARYALPNVISGFIKQYPDVSLHMHQGTPMQIAEMAADGTVDFAIATEALELFGDLIMMPCYRWNRCVIVPHGHPLTKLPKLTLEALAEQPIVTYVFGFTGRSKLDEAFSQRGLVPKVVFTAADADVIKTYVRLGLGVGIVAHMAVDPKLDNDLVILDASHLFESSVTKIGFRRGTFLRGFMCDFIEKFAPHLTRELLAKAVQCHNKAELDELFDGIELPVY GTLSIATTHTQARYALPNVISGFIKQYPDVSLHMHQGTPMQIAEMAADGTVDFAIATEALELFGDLIMMPCYRWNRCVIVPHGHPLTKLPKLTLEALAEQPIVTYVFGFTGRSKLDEAFSQRGLVPKVVFTAADADVIKTYVRLGLGVGIVAHMAVDPKLDNDLVILDASHLFESSVTKIGFRRGTFLRGFMCDFIEKFAPHLTRELLAKAVQCHNKAELDELFDGIELPVY 5z51-a1-m1-cB_5z51-a1-m1-cA Helicase binding domain of primase from Mycobacterium tuberculosis P9WNW1 P9WNW1 1.583 X-RAY DIFFRACTION 30 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 69 158 DDKLPRYIAGVLARLQEVWLGRQIAEVKSKLQRSPIEQGDEYHALFGDLVAEAYRRSLLEQASGDDLHH TLWPQREALKSALQYPALAGPVFDALTVEGFTHPEYAAVRAAIDTAGGTSAGLSGAQWLDVRQQTTSTVTSALISELGVEAIQVDDDKLPRYIAGVLARLQEVWLGRQIAEVKSKLQRSPIEQGDEYHALFGDLVAEAYRRSLLEQASGDDLHHHHHH 5z5c-a2-m1-cC_5z5c-a2-m1-cD Crystal structure of hydrogen sulfide-producing enzyme (Fn1055) from Fusobacterium nucleatum: lysine-dimethylated form Q8REP3 Q8REP3 2.07 X-RAY DIFFRACTION 93 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 296 296 5b55-a1-m1-cB_5b55-a1-m1-cA 5z5c-a1-m1-cA_5z5c-a1-m1-cB MYLENLVGTPMLELIFDYGEERRIFVNESYNLTGSIKDRMAFYTLAYENEIGAPIVEATSGNTGIAFSAMGAILGHPVIIYMPDWMSEERSLIRSFGAIILVSREGGFLGSIETEFANNPDTYLPSQFSNLYNSEAHYYGIGLEIVNEMSLNLNIDGFVAGVGTGGTVMGIGRIENFSNAICPLEPLNSPTLSTGYVAHRIEGISDEFIPDLVLDLDNVVSVDDGDAIVMAQLACGLGVGISSGANFIGALMLQNLGDSVIVTVFPDDNYLSTDLMREEVEDFLSDITLEINVLRV MYLENLVGTPMLELIFDYGEERRIFVNESYNLTGSIKDRMAFYTLAYENEIGAPIVEATSGNTGIAFSAMGAILGHPVIIYMPDWMSEERSLIRSFGAIILVSREGGFLGSIETEFANNPDTYLPSQFSNLYNSEAHYYGIGLEIVNEMSLNLNIDGFVAGVGTGGTVMGIGRIENFSNAICPLEPLNSPTLSTGYVAHRIEGISDEFIPDLVLDLDNVVSVDDGDAIVMAQLACGLGVGISSGANFIGALMLQNLGDSVIVTVFPDDNYLSTDLMREEVEDFLSDITLEINVLRV 5z5e-a1-m1-cA_5z5e-a1-m1-cB Crystal structure of the Glycyl-tRNA synthetase (GlyRS) in Nanoarchaeum equitans Q74N31 Q74N31 2.098 X-RAY DIFFRACTION 241 1.0 228908 (Nanoarchaeum equitans Kin4-M) 228908 (Nanoarchaeum equitans Kin4-M) 443 468 DPKEYVLKGFFYPASEIYNSIAGFYDYGYLGTLLKNNFINEWKNYFLRLHPNFWEVDPAIVMPKEVFIASGHLENFNDPWFNLMFPIYIGPDSQEALNLLKNLKENVSEQYIKDIIERVKKMVENEAYLRPETAQGPYVMFKREFILHRQKLPLGLAVVGKAFRNEISPRQLLLRLREFTQAELQIFFDPEDNEFDINEVKDVELNFLDKEGNYKRIKVKDLPFPEFYAYFVGKVKQFYERLGIPEERLRFRELSEKEKAFYNKYHVDIEINFPTYGWKEVGGIHYRTDHDLSGHMKVSGKDLTVQKDNKKFIPHVLELSFGVDRNVLALIDLFLTEEEYKEKRVVLKIPKHLAPIKVAVFPLLKKPELIEKAKEVYNMLKNYFYPIIYDEQGSIGRRYRRVDEIGVPYAITIDYQTLEDNTVTIRDRDTMKQVRVKIEDLPN DPKEYVLKGFFYPASEIYNSIAGFYDYGYLGTLLKNNFINEWKNYFLRLHPNFWEVDPAIVMPKEVFIASGHLENFNDPIVECNAPLGKVKWFNLMFPIYIGPDSQEALNLLKNLKENVSEQYIKDIIERVKKMVENEAYLRPETAQGPYVMFKREFILHRQKLPLGLAVVGKAFRNEISPRQLLLRLREFTQAELQIFFDPEDNEFDINEVKDVELNFLDKEGNYKRIKVKDLPFPEFYAYFVGKVKQFYERLGIPEERLRFRELSEKEKAFYNKYHVDIEINFPTYGWKEVGGIHYRTDHDLSGHMKVSGKDLTVQKDNKKFIPHVLELSFGVDRNVLALIDLFLTEEEYEIERDNQKVKEKRVVLKIPKHLAPIKVAVFPLLKKPELIEKAKEVYNMLKNYFYPIIYDEQGSIGRRYRRVDEIGVPYAITIDYQTLEDNTVTIRDRDTMKQVRVKIEDLPNQLTL 5z5i-a1-m1-cA_5z5i-a1-m2-cA Crystal structure of a thermostable glycoside hydrolase family 43 {beta}-1,4-xylosidase from Geobacillus thermoleovorans IT-08 in complex with L-arabinose and D-xylose Q2I2N4 Q2I2N4 1.7 X-RAY DIFFRACTION 98 1.0 33941 (Geobacillus thermoleovorans) 33941 (Geobacillus thermoleovorans) 504 504 5z5d-a1-m1-cA_5z5d-a1-m2-cA 5z5f-a1-m1-cA_5z5f-a1-m2-cA 5z5h-a1-m1-cA_5z5h-a1-m2-cA MEYSNPVIKGFYPDPSICRVGSDYYLVTSSFQYFPGVPIFHSTNLINWNKIGYCLIRPSQLMLNNATNRSGIFAPTLRYHEGIFYLITTNVTLKKNFIVMSEDLQGEWSEPIWIDGWGGIDPSLFFDNDGKVYITGTNDNARGEELGIYQAEIDLKKGSIIGERKLIWKGTGGSYPEAPHLYKVNGWYYLLIAEGGTEYGHMVTVARSKYPFGPFESCPFNPILTHRSTNHPLQAIGHADIVQYHDGSWWAVFHGTRPISYPPKHHLGRETCLAPIKWTDDGWPIIGYNGRIDIKMDAGYLPVKEIIEDDFNSDIFSTDWNFIQNPRLEHYSLKGRPSWLKMRGTEKTLNDINSPTFIGRRQEHFVCNVSTLLEFKPNQDNEEAGLTVYMNEKHHYEIALTKKNGRINVVLKKTVGDIQVVVNSLEYFSNTIIFSIQANPEEYKFSFVDPNTGQTYLLGTGLTTLLSTEVAGGFTGVYFGLYATGNGKVCTAPAFFDWFKYIPE MEYSNPVIKGFYPDPSICRVGSDYYLVTSSFQYFPGVPIFHSTNLINWNKIGYCLIRPSQLMLNNATNRSGIFAPTLRYHEGIFYLITTNVTLKKNFIVMSEDLQGEWSEPIWIDGWGGIDPSLFFDNDGKVYITGTNDNARGEELGIYQAEIDLKKGSIIGERKLIWKGTGGSYPEAPHLYKVNGWYYLLIAEGGTEYGHMVTVARSKYPFGPFESCPFNPILTHRSTNHPLQAIGHADIVQYHDGSWWAVFHGTRPISYPPKHHLGRETCLAPIKWTDDGWPIIGYNGRIDIKMDAGYLPVKEIIEDDFNSDIFSTDWNFIQNPRLEHYSLKGRPSWLKMRGTEKTLNDINSPTFIGRRQEHFVCNVSTLLEFKPNQDNEEAGLTVYMNEKHHYEIALTKKNGRINVVLKKTVGDIQVVVNSLEYFSNTIIFSIQANPEEYKFSFVDPNTGQTYLLGTGLTTLLSTEVAGGFTGVYFGLYATGNGKVCTAPAFFDWFKYIPE 5z5m-a1-m1-cB_5z5m-a1-m1-cD Crystal structure of (S)-allantoin synthase B7GAW6 B7GAW6 1.85 X-RAY DIFFRACTION 143 0.996 556484 (Phaeodactylum tricornutum CCAP 1055/1) 556484 (Phaeodactylum tricornutum CCAP 1055/1) 272 272 5z5m-a1-m1-cC_5z5m-a1-m1-cA VTVKDLLSKPSAEIASFLGGIYEHSAWVAEALVKDAESLASIETISQLAAAMKAIVNKSSKDQKLELLCAHPDLQSLTDAELERFNSLNGAYRDQCGFPFILAVRNATKHTVLAALGGRVQHTPEQEFMVALEQVHKIAWMRLLSKIDTSDAQGFLTCHVLDTGNGCPAEKMRIHLHRLSPPEMAGLVGEFVTNDDGRLEGGPALKGGKEFTVGQYEWTFFCGEYFASKGTFTSGQPFLDTIPLRFGIDNPDDHYHVPLLVSPWSFSTYRGS PVTVKDLLSKPSAEIASFLGGIYEHSAWVAEALVKDAESLASIETISQLAAAMKAIVNKSSKDQKLELLCAHPDLSLTDAELERFNSLNGAYRDQCGFPFILAVRNATKHTVLAALGGRVQHTPEQEFMVALEQVHKIAWMRLLSKIDTSDAQGFLTCHVLDTGNGCPAEKMRIHLHRLSPPEMAGLVGEFVTNDDGRLEGGPALKGGKEFTVGQYEWTFFCGEYFASKGTFTSGQPFLDTIPLRFGIDNPDDHYHVPLLVSPWSFSTYRGS 5z5m-a1-m1-cC_5z5m-a1-m1-cD Crystal structure of (S)-allantoin synthase B7GAW6 B7GAW6 1.85 X-RAY DIFFRACTION 60 1.0 556484 (Phaeodactylum tricornutum CCAP 1055/1) 556484 (Phaeodactylum tricornutum CCAP 1055/1) 272 272 5z5m-a1-m1-cB_5z5m-a1-m1-cA PVTVKDLLSKPSAEIASFLGGIYEHSAWVAEALVKDAESLASIETISQLAAAMKAIVNKSSKDQKLELLCAHPDLSLTDAELERFNSLNGAYRDQCGFPFILAVRNATKHTVLAALGGRVQHTPEQEFMVALEQVHKIAWMRLLSKIDTSDAQGFLTCHVLDTGNGCPAEKMRIHLHRLSPPEMAGLVGEFVTNDDGRLEGGPALKGGKEFTVGQYEWTFFCGEYFASKGTFTSGQPFLDTIPLRFGIDNPDDHYHVPLLVSPWSFSTYRGS PVTVKDLLSKPSAEIASFLGGIYEHSAWVAEALVKDAESLASIETISQLAAAMKAIVNKSSKDQKLELLCAHPDLSLTDAELERFNSLNGAYRDQCGFPFILAVRNATKHTVLAALGGRVQHTPEQEFMVALEQVHKIAWMRLLSKIDTSDAQGFLTCHVLDTGNGCPAEKMRIHLHRLSPPEMAGLVGEFVTNDDGRLEGGPALKGGKEFTVGQYEWTFFCGEYFASKGTFTSGQPFLDTIPLRFGIDNPDDHYHVPLLVSPWSFSTYRGS 5z5m-a1-m1-cD_5z5m-a1-m1-cA Crystal structure of (S)-allantoin synthase B7GAW6 B7GAW6 1.85 X-RAY DIFFRACTION 21 0.996 556484 (Phaeodactylum tricornutum CCAP 1055/1) 556484 (Phaeodactylum tricornutum CCAP 1055/1) 272 273 5z5m-a1-m1-cB_5z5m-a1-m1-cC PVTVKDLLSKPSAEIASFLGGIYEHSAWVAEALVKDAESLASIETISQLAAAMKAIVNKSSKDQKLELLCAHPDLSLTDAELERFNSLNGAYRDQCGFPFILAVRNATKHTVLAALGGRVQHTPEQEFMVALEQVHKIAWMRLLSKIDTSDAQGFLTCHVLDTGNGCPAEKMRIHLHRLSPPEMAGLVGEFVTNDDGRLEGGPALKGGKEFTVGQYEWTFFCGEYFASKGTFTSGQPFLDTIPLRFGIDNPDDHYHVPLLVSPWSFSTYRGS VTVKDLLSKPSAEIASFLGGIYEHSAWVAEALVKDAESLASIETISQLAAAMKAIVNKSSKDQKLELLCAHPDLCQSLTDAELERFNSLNGAYRDQCGFPFILAVRNATKHTVLAALGGRVQHTPEQEFMVALEQVHKIAWMRLLSKIDTSDAQGFLTCHVLDTGNGCPAEKMRIHLHRLSPPEMAGLVGEFVTNDDGRLEGGPALKGGKEFTVGQYEWTFFCGEYFASKGTFTSGQPFLDTIPLRFGIDNPDDHYHVPLLVSPWSFSTYRGS 5z68-a2-m1-cD_5z68-a2-m1-cC Structure of the recombination mediator protein RecF-ATP in RecFOR pathway Q8RDL3 Q8RDL3 3 X-RAY DIFFRACTION 34 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 363 373 5z68-a1-m1-cA_5z68-a1-m1-cB YYSMYLKEIFVDNFRNLKKQKLEFCEGVNLIYGLNAQGKSNLLEAIRLLSMGRSFRGSKMSELVKFDEEYFYVRGLVRSADFYEKKIEFGYKVNGNKVIKVNGNKLKSTGEILGHFLTVIFSPEDIEIIKEGPSRRRKYLDACISVIDKNYFFDLLQYNKTLSNRNSLLKKIKGEDLLEIFDEKLAEYGARIIKVRNNYLEKLKNSMSKFLMEISNEKLEIIYLNSAGVKEVHEENLIREKLKNRLTKSLTLDLKYLSTQVGPHREDFKILINGYDSRVYSSQGQKRTAALCLKLSELEILEEETGEKPVLLLDDVMSELDDNRKKYILKKLEGFQSFITHTSKSDVEGDCCFKIYDGIVDKL HHHHAYYSMYLKEIFVDNFRNLKKQKLEFCEGVNLIYGLNAQGKSNLLEAIRLLSMGRSFRGSKMSELVKFDEEYFYVRGLVRSADFYEKKIEFGYKVNGNKVIKVNGNKLKSTGEILGHFLTVIFSPEDIEIIKEGPSRRRKYLDACISVIDKNYFFDLLQYNKTLSNRNSLLKKIKEEGKGEDLLEIFDEKLAEYGARIIKVRNNYLEKLKNSMSKFLMEISNEKLEIIYLNSAGVKEVHEENLIREKLKNRLTKSLTLDLKYLSTQVGPHREDFKILINGYDSRVYSSQGQKRTAALCLKLSELEILEEETGEKPVLLLDDVMSELDDNRKKYILKKLEGFQSFITHTSKSDVEGDCCFKIYDGIVDKLA 5z69-a1-m1-cB_5z69-a1-m1-cA Structure of the recombination mediator protein RecF-ATPrS in RecFOR pathway Q8RDL3 Q8RDL3 2.102 X-RAY DIFFRACTION 42 1.0 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 273068 (Caldanaerobacter subterraneus subsp. tengcongensis MB4) 371 372 HHSQDPMYLKEIFVDNFRNLKKQKLEFCEGVNLIYGLNAQGKSNLLEAIRLLSMGRSFRGSKMSELVKFDEEYFYVRGLVRSADFYEKKIEFGYKVNGNKVIKVNGNKLKSTGEILGHFLTVIFSPEDIEIIKEGPSRRRKYLDACISVIDKNYFFDLLQYNKTLSNRNSLLKKIKEEGKGEDLLEIFDEKLAEYGARIIKVRNNYLEKLKNSMSKFLMEISNEKLEIIYLNSAGVKEVHEENLIREKLKNRLTKSLTLDLKYLSTQVGPHREDFKILINGYDSRVYSSQGQKRTAALCLKLSELEILEEETGEKPVLLLDDVMSELDDNRKKYILKKLEGFQSFITHTSKSDVEGDCCFKIYDGIVDKLA HHHSQDPMYLKEIFVDNFRNLKKQKLEFCEGVNLIYGLNAQGKSNLLEAIRLLSMGRSFRGSKMSELVKFDEEYFYVRGLVRSADFYEKKIEFGYKVNGNKVIKVNGNKLKSTGEILGHFLTVIFSPEDIEIIKEGPSRRRKYLDACISVIDKNYFFDLLQYNKTLSNRNSLLKKIKEEGKGEDLLEIFDEKLAEYGARIIKVRNNYLEKLKNSMSKFLMEISNEKLEIIYLNSAGVKEVHEENLIREKLKNRLTKSLTLDLKYLSTQVGPHREDFKILINGYDSRVYSSQGQKRTAALCLKLSELEILEEETGEKPVLLLDDVMSELDDNRKKYILKKLEGFQSFITHTSKSDVEGDCCFKIYDGIVDKLA 5z6n-a1-m1-cA_5z6n-a1-m1-cB Crystal structure of Escherichia coli ElaA P0AEH3 P0AEH3 2.6 X-RAY DIFFRACTION 60 0.993 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 144 148 IEWQDLHHSELSVSQLYALLQLRCAVFVVEQNCPYQDIDGDDLTGDNRHILGWKNDELVAYARILKSLEPVVIGRVIVSEALRGEKVGQQLMSKTLETCTHHWPDKPVYLGAQAHLQNFYQSFGFIPVTEVYEEDIPHIGMARE MIEWQDLHHSELSVSQLYALLQLRCAVFVVEQNCPYQDIDGDDLTGDNRHILGWKNDELVAYARILKSDDDLEPVVIGRVIVSEALRGEKVGQQLMSKTLETCTHHWPDKPVYLGAQAHLQNFYQSFGFIPVTEVYEEDGPHIGMARE 5z70-a2-m1-cB_5z70-a2-m3-cB Crystal structure of oleate hydratase from Stenotrophomonas sp. KCTC 12332 A0A126NKL7 A0A126NKL7 2.91 X-RAY DIFFRACTION 32 1.0 1793721 (Stenotrophomonas sp. KCTC 12332) 1793721 (Stenotrophomonas sp. KCTC 12332) 538 538 5z70-a1-m1-cA_5z70-a1-m2-cA QVEGRKAWIIGSGIAGLASAFYLIRDGRMKGQDITILDAVGGSGNAEDGYLIRGGREMNWNYDHFWDLFQDIPALEYPSPYSVLDEYRAVNDNDPNWSKSRLMHKQGQIRDFSTLGLSSAHQWELIKLLLKRKEDLDDITIEQYFSDSFLETNFWYLWRSMFAFQNWQSLLEVKLYMHRFLDAIDGLTDMSALVFPKYNQYDSFVVPLVNYLKGQGVNVEFGTRVYDLDMTDNNGERTVTSILAKVDGRDQKIDIGAKDVVFALTGSMTEGTAYGDLDTAPDLTPPGDSSDWALWQNLAKKSHVFGKPEKFCGQPSRSMWESATLTCKPSPLTERLKDLSINDPYSGKTVTGGIITFTDSNWVLSFTCNRQPHFPTQPDDVLVLWVYALVMDSKGNHVLKPMPECTGREILAELCYHLGIVDQVDEVARQTKVRLALMPFITAQFMPRAAGDRPRVVPAGCTNLALLGQFVETSNDIIFTMESSVRTARIGVYTLLGLYDVRNLIKGARALNNNEPFMGERLLHRLLDNTYFAHILPP QVEGRKAWIIGSGIAGLASAFYLIRDGRMKGQDITILDAVGGSGNAEDGYLIRGGREMNWNYDHFWDLFQDIPALEYPSPYSVLDEYRAVNDNDPNWSKSRLMHKQGQIRDFSTLGLSSAHQWELIKLLLKRKEDLDDITIEQYFSDSFLETNFWYLWRSMFAFQNWQSLLEVKLYMHRFLDAIDGLTDMSALVFPKYNQYDSFVVPLVNYLKGQGVNVEFGTRVYDLDMTDNNGERTVTSILAKVDGRDQKIDIGAKDVVFALTGSMTEGTAYGDLDTAPDLTPPGDSSDWALWQNLAKKSHVFGKPEKFCGQPSRSMWESATLTCKPSPLTERLKDLSINDPYSGKTVTGGIITFTDSNWVLSFTCNRQPHFPTQPDDVLVLWVYALVMDSKGNHVLKPMPECTGREILAELCYHLGIVDQVDEVARQTKVRLALMPFITAQFMPRAAGDRPRVVPAGCTNLALLGQFVETSNDIIFTMESSVRTARIGVYTLLGLYDVRNLIKGARALNNNEPFMGERLLHRLLDNTYFAHILPP 5z73-a1-m1-cB_5z73-a1-m1-cA Crystal structure of alkaline/neutral invertase InvB from Anabaena sp. PCC 7120 Q8YYM9 Q8YYM9 1.93 X-RAY DIFFRACTION 169 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 416 422 5z74-a1-m1-cB_5z74-a1-m1-cA DIIEESAWEALEKSILYYKGRPVGTVAAFDYDQCFVRDFVSSALIFLIKGKTDIVRNFLEETLKLQPKDRQLDAYKPGRGLIPASFKVVSDEEYLEADFGEHAIARVTPVDSCLWWILLLRAYVVASKDFSLAYQPEFQTGIRLIEICLANRFDYPTLLVPDGACIDRRLGIYGHPLELQVLFYAALRAARELICQGNQDVVEAIDNRLPLLCAHIRQHYWIDINRLNAIYRFLFNIYVDSIPYYELDKWLPKKGGYLAGNVGPSQLDTRFFALGNLAIISDLATEEQSQAITLIEDRWEDLVGDPKICYPALENEEYRIVTGCDPKNIPWSYHNAGSWPVLWLAAASVKAGKPYIAGKAIEIAQARLLEDEWPEYYDGKKGRLIGKQARKYQTWTIAGFLLAAELKNPSLLSLIS NDIIEESAWEALEKSILYYKGRPVGTVAAFDNYDQCFVRDFVSSALIFLIKGKTDIVRNFLEETLKLQPKDRQLDAYKPGRGLIPASFKVVSDNGEEYLEADFGEHAIARVTPVDSCLWWILLLRAYVVASKDFSLAYQPEFQTGIRLIEICLANRFDYPTLLVPDGACIDRRLGIYGHPLELQVLFYAALRAARELICQGNQDVVEAIDNRLPLLCAHIRQHYWIDINRLNAIYRFVNLFNIYVDSIPYYELDKWLPKKGGYLAGNVGPSQLDTRFFALGNLAIISDLATEEQSQAITLIEDRWEDLVGDPKICYPALENEEYRIVTGCDPKNIPWSYHNAGSWPVLWLAAASVKAGKPYIAGKAIEIAQARLLEDEWPEYYDGKKGRLIGKQARKYQTWTIAGFLLAAELKNPSLLSLIS 5z75-a2-m1-cC_5z75-a2-m1-cD Artificial L-threonine 3-dehydrogenase designed by ancestral sequence reconstruction. 2.1 X-RAY DIFFRACTION 51 1.0 32630 (synthetic construct) 32630 (synthetic construct) 306 306 5z75-a1-m1-cA_5z75-a1-m1-cB MKILVIGACGQIGTELTVALREIYGNENVVASDIREPNEESGPFEKLDVMDKERLEEIVEKHKITQVYHLAAILSATGEKNPLFAWDLNMNSLLNVLELAREGKIDKIFWPSSIAVFGPTTPKENTPQHTVMDPSTVYGISKLAGERWCEYYHEKYGVDVRSIRYPGLISWKTPPGGGTTDYAVDIFHKALEDGKYTCFLSEDTALPMMYMDDAIRATIELMEAPAENIKIRSSYNLAGMSFTPEEIAEEIKKHIPDFEISYEPDFRQAIADSWPASIDDSVARKDWGWKPEYDLDKMTEDMLKNL MKILVIGACGQIGTELTVALREIYGNENVVASDIREPNEESGPFEKLDVMDKERLEEIVEKHKITQVYHLAAILSATGEKNPLFAWDLNMNSLLNVLELAREGKIDKIFWPSSIAVFGPTTPKENTPQHTVMDPSTVYGISKLAGERWCEYYHEKYGVDVRSIRYPGLISWKTPPGGGTTDYAVDIFHKALEDGKYTCFLSEDTALPMMYMDDAIRATIELMEAPAENIKIRSSYNLAGMSFTPEEIAEEIKKHIPDFEISYEPDFRQAIADSWPASIDDSVARKDWGWKPEYDLDKMTEDMLKNL 5z76-a2-m1-cD_5z76-a2-m1-cB Artificial L-threonine 3-dehydrogenase designed by full consensus design 2.8 X-RAY DIFFRACTION 50 1.0 32630 (synthetic construct) 32630 (synthetic construct) 272 310 5z76-a1-m1-cC_5z76-a1-m1-cA KEKILIIGACGQIGTELTLALREIYGNENVIASDIREGGSGPFEVLDATDKNALEEVVEKYKITQVYLLAALLSATGEKNPLFAWDLNMNSLLNVLELAKEGKIKKIFWPSSIAVFGPTTPKENTPQYTVMEPSTVYGISKQAGERWCEYYHNKYGVDVRSIRYPGLISWKTPTTDYAVALPMMYMDDAIRATIELMEAPAEQIKIRSSYNLAGMSFTPKEIAAEIKKHDFRQAIADSWPASIDDSVARKDWGWKPEFDLEKMTEDMLKNLK KEKILIIGACGQIGTELTLALREIYGNENVIASDIREGGRHNSGPFEVLDATDKNALEEVVEKYKITQVYLLAALLSATGEKNPLFAWDLNMNSLLNVLELAKEGKIKKIFWPSSIAVFGPTTPKENTPQYTVMEPSTVYGISKQAGERWCEYYHNKYGVDVRSIRYPGLISWKTPPGGGTTDYAVDIFHKAIEGGKYTCFLSEDTALPMMYMDDAIRATIELMEAPAEQIKIRSSYNLAGMSFTPKEIAAEIKKHIPDFKISYEPDFRQAIADSWPASIDDSVARKDWGWKPEFDLEKMTEDMLKNLKE 5z79-a2-m1-cD_5z79-a2-m1-cC Crystal Structure Analysis of the HPPK-DHPS in complex with substrates A5JZS1 A5JZS1 2.9 X-RAY DIFFRACTION 113 0.998 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 577 599 5z79-a1-m1-cB_5z79-a1-m1-cA 5z79-a3-m1-cF_5z79-a3-m1-cE RNIAVLNFGTNDKKNCVTILETALYLTEKYLGKIINSSYIYETVPEYIGEVTPRDISWIGDLIPTVENSRYEESEDLIYECKELEVFLKNEKINESIIREVSVEDYENEARRIIKRNDEIMKKNLEQYYTSYFFNLTVVVRTFVEDPLAMLVILKYIEQIMKRMIDIDILFFNNYTIFEKSISLKGEDIYKIITKYIHINHTSDQNRLDIIQNLGDKIEFLCIPHVYTKYRYSILLCLNDIIPEYKHSTFEEAIRSTYNSYVESFEEKYHINIRKNNKRLYVLKDKVSYLKERTHIVGILNVNYDSFSDGGLFVDPVKAVERMFEMASDGASVIDIGGESSAPYVVPNPSVTERDLVMPVLKLFKEEWHKLECEVGGGSLQGKLQKVRDAKPIISIDTVNYDLFKECVEGELVDILNDISACTHNPEIIKLLRRKNKFYSVVLMHKRGNPHTMDKLTNYDDLISDIKRYLEDRLHFLVLNGVPRYRVLFDVGLGFAKKHDQSIKLLQHIHVYDEYPLFLGYSRKRFIVHCMQLLYQKNICGGLAIASYSFYKKVDLIRVHDVLETKAVLDVLTRIHQ TPRNIAVLNFGTNDKKNCVTILETALYLTEKYLGKIINSSYIYETVPEYIIGEVTEGERDISWIGDLIPTVENSRYEESEDLIYECKELEVFLKNEKINESIIREVSVEDYENEARRIIKRNDEIMKKNLEQDKYYTSYFFNLTVVVRTFVEDPLAMLVILKYIEQIMKNRMIDIDILFFNNYTIFEKSISLKGEDIYKIITKYIHINHTSDQNRLDIIQNLGDKIEFLCIPHVYTKYRYSILLCLNDIIPEYKHSTFEEAIRSTYNSYVESFEEKYHINIRKNNKRLYVLKDKVSYLKERTHIVGILNVNYDSFSDGGLFVDPVKAVERMFEMASDGASVIDIGGESSAPYVVPNPSVTERDLVMPVLKLFKEEWHKLECEVGGGSSLQGKLQKVRDAKPIISIDTVNYDLFKECVEGELVDILNDISACTHNPEIIKLLRRKNKFYSVVLMHKRGNPHTMDKLTNYDDLISDIKRYLEDRLHFLVLNGVPRYRVLFDVGLGFAKKHDQSIKLLQHIHVYDEYPLFLGYSRKRFIVHCMWRFKMSHMRQDKDQLLYQKNICGGLAIASYSFYKKVDLIRVHDVLETKAVLDVLTRIHQ 5z7d-a1-m1-cA_5z7d-a1-m1-cB p204HINab-dsDNA complex structure P0DOV2 P0DOV2 4.5 X-RAY DIFFRACTION 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 395 397 GAVLHSEPLTVMVLTATDPFEYESPEHEVKNMLHATVATVSQYFHVKVFNINLKEKFTKKNFIIISNYFESKGILEINETSSVLEAAPDQMIEVPNSIIRNANASPKICDIQKGTSGAVFYGVFTLHKKTVNRKNTIYEIKDGSGSIEVVGSGKWHNINCKEGDKLHLFCFHLKTIDRQPKLVCGEHSFIKISKRGNVPKEPAKEEDHHHGPKQVMVLKVTEPFTYDLKEDKRMFHATVATETEFFRVKVFDTALKSKFIPRNIIAISDYFGCNGFLEIYRASCVSDVNVNPTMVISNTLRQRANATPKISYLFSQARGTFVSGEYLVNKKTERNKFIYYGIGDDTGKMEVVVYGRLTNVRCEPGSKLRLVCFELTSTEDGWQLRSVRHSYMQVI GAVLHSEPLTVMVLTATDPFEYESPEHEVKNMLHATVATVSQYFHVKVFNINLKEKFTKKNFIIISNYFESKGILEINETSSVLEAAPDQMIEVPNSIIRNANASPKICDIQKGTSGAVFYGVFTLHKKTVNRKNTIYEIKDGSGSIEVVGSGKWHNINCKEGDKLHLFCFHLKTIDRQPKLVCGEHSFIKISKRGNVPKEPAKEEDHHHGPKQVMVLKVTEPFTYDLKEDKRMFHATVATETEFFRVKVFDTALKSKFIPRNIIAISDYFGCNGFLEIYRASCVSDVNVNPTMVISNTLRQRANATPKISYLFSQARGTFVSGEYLVNKKTERNKFIYYGIGDDTGKMEVVVYGRLTNVRCEPGSKLRLVCFELTSTEDGWQLRSVRHSYMQVINA 5z7d-a1-m1-cC_5z7d-a1-m1-cB p204HINab-dsDNA complex structure P0DOV2 P0DOV2 4.5 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 396 397 GAVLHSEPLTVMVLTATDPFEYESPEHEVKNMLHATVATVSQYFHVKVFNINLKEKFTKKNFIIISNYFESKGILEINETSSVLEAAPDQMIEVPNSIIRNANASPKICDIQKGTSGAVFYGVFTLHKKTVNRKNTIYEIKDGSGSIEVVGSGKWHNINCKEGDKLHLFCFHLKTIDRQPKLVCGEHSFIKISKRGNVPKEPAKEEDHHHGPKQVMVLKVTEPFTYDLKEDKRMFHATVATETEFFRVKVFDTALKSKFIPRNIIAISDYFGCNGFLEIYRASCVSDVNVNPTMVISNTLRQRANATPKISYLFSQARGTFVSGEYLVNKKTERNKFIYYGIGDDTGKMEVVVYGRLTNVRCEPGSKLRLVCFELTSTEDGWQLRSVRHSYMQVIN GAVLHSEPLTVMVLTATDPFEYESPEHEVKNMLHATVATVSQYFHVKVFNINLKEKFTKKNFIIISNYFESKGILEINETSSVLEAAPDQMIEVPNSIIRNANASPKICDIQKGTSGAVFYGVFTLHKKTVNRKNTIYEIKDGSGSIEVVGSGKWHNINCKEGDKLHLFCFHLKTIDRQPKLVCGEHSFIKISKRGNVPKEPAKEEDHHHGPKQVMVLKVTEPFTYDLKEDKRMFHATVATETEFFRVKVFDTALKSKFIPRNIIAISDYFGCNGFLEIYRASCVSDVNVNPTMVISNTLRQRANATPKISYLFSQARGTFVSGEYLVNKKTERNKFIYYGIGDDTGKMEVVVYGRLTNVRCEPGSKLRLVCFELTSTEDGWQLRSVRHSYMQVINA 5z7l-a1-m1-cC_5z7l-a1-m1-cD Crystal structure of NDP52 SKICH region in complex with NAP1 Q9H6S1 Q9H6S1 2.02 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 43 5z7g-a1-m1-cC_5z7g-a1-m1-cD ESVASHFALVTAYEDIKKRLKDSEKENSLLKKRIRFLEEKLIA ESVASHFALVTAYEDIKKRLKDSEKENSLLKKRIRFLEEKLIA 5z81-a1-m1-cB_5z81-a1-m1-cC Trimeric structure of Vibrio cholerae Heat Shock Protein 15 at 2.3 Angstrom resolution A0A0H3AM46 A0A0H3AM46 2.334 X-RAY DIFFRACTION 23 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 99 99 5z81-a1-m1-cA_5z81-a1-m1-cB 5z81-a1-m1-cA_5z81-a1-m1-cC EEVRLDKWLWAARFYKTRSLARNMVEGGKVHYNGQRAKPSKSVEIGAQITLRQGHDEKTIIIEKISDQRRGAPEAQQLYRETAKSITKRERNAMMRQLN EEVRLDKWLWAARFYKTRSLARNMVEGGKVHYNGQRAKPSKSVEIGAQITLRQGHDEKTIIIEKISDQRRGAPEAQQLYRETAKSITKRERNAMMRQLN 5z87-a1-m1-cB_5z87-a1-m1-cA Structural of a novel b-glucosidase EmGH1 at 2.3 angstrom from Erythrobacter marinus A0A0H0XV02 A0A0H0XV02 2.3 X-RAY DIFFRACTION 216 1.0 874156 (Aurantiacibacter marinus) 874156 (Aurantiacibacter marinus) 755 756 QASDDYRDRSLSPARRAAALANLMTLDEMAAQLNCPRAADVMSDPAGFEADFPYFAHGIGGVYSASLEAGPEDNARAVMAMQQEVVSRSRFGIPAFVFEECLHGLLADGATQFPQAMAMACAFRPDMVRQVFEATAKEARSRGSQGCFSPNIDICTDPRWGRSEETWGEDPHVVTVSAKAIVEGLQGAPAEYLPANRIATSVKHFAGYGQGIGGRNFAPSHIGPVEMQNVVLPPFRAAITEAGSIGLMASHGEIDGVPAHADTHLLNDVLRDDWGFEGYVVSDWDDVRRIHSLHGVAGSEAEAAIMGLRAGVDIELANNGVYLMLPQLVRDGLLEERYVRRAAERILAAKFKCGLFDMPFADPALAGRLARSTEHKLLARRMAEESIVLLQNEGNVLPLQSSAVRKMLVVGPNAASVHLGGYSPKPFVGVSALEGLQAYAEQAGFEVEYAQGCAITAGDEGNNEIETDASDESVQADPARNRRLIAEAVATAQDCDVIVMCLGGNESTAREAYFAGDSRGDRDDLELIGEQNELAEALLALGKTTVAVLIHGRPLSPLVLAENCPAILDAFYPGEQGGHAIASILFGDVNPSGKLPVTIVRNVGQLPGYYYQKPTGRFRNYVFSDSTPLYPFGHGLSYTSFGYGAPQAERASIGLQDRLRVSVSVRNTGDRAGQDVVQLYIRDSIASRARPIKEMRGFQKVLLEPGEVQVVQFELGPEDFGYRDADGKLLVEPGEIVIMAGPDSQNLQETRITLV NQASDDYRDRSLSPARRAAALANLMTLDEMAAQLNCPRAADVMSDPAGFEADFPYFAHGIGGVYSASLEAGPEDNARAVMAMQQEVVSRSRFGIPAFVFEECLHGLLADGATQFPQAMAMACAFRPDMVRQVFEATAKEARSRGSQGCFSPNIDICTDPRWGRSEETWGEDPHVVTVSAKAIVEGLQGAPAEYLPANRIATSVKHFAGYGQGIGGRNFAPSHIGPVEMQNVVLPPFRAAITEAGSIGLMASHGEIDGVPAHADTHLLNDVLRDDWGFEGYVVSDWDDVRRIHSLHGVAGSEAEAAIMGLRAGVDIELANNGVYLMLPQLVRDGLLEERYVRRAAERILAAKFKCGLFDMPFADPALAGRLARSTEHKLLARRMAEESIVLLQNEGNVLPLQSSAVRKMLVVGPNAASVHLGGYSPKPFVGVSALEGLQAYAEQAGFEVEYAQGCAITAGDEGNNEIETDASDESVQADPARNRRLIAEAVATAQDCDVIVMCLGGNESTAREAYFAGDSRGDRDDLELIGEQNELAEALLALGKTTVAVLIHGRPLSPLVLAENCPAILDAFYPGEQGGHAIASILFGDVNPSGKLPVTIVRNVGQLPGYYYQKPTGRFRNYVFSDSTPLYPFGHGLSYTSFGYGAPQAERASIGLQDRLRVSVSVRNTGDRAGQDVVQLYIRDSIASRARPIKEMRGFQKVLLEPGEVQVVQFELGPEDFGYRDADGKLLVEPGEIVIMAGPDSQNLQETRITLV 5z8b-a1-m1-cB_5z8b-a1-m1-cA Truncated N-acetylglucosaminyl transferase KfiA from E. coli K5 strain apo form Q47332 Q47332 2.91 X-RAY DIFFRACTION 13 0.99 562 (Escherichia coli) 562 (Escherichia coli) 204 209 HMMIVANMSSYPPRKKELVHSIQSLHAQVDKINLCLNEFEEIPEELDGFSKLNPVIPDKDYKDVGKFIFPCAKNDMIVLTDDDIIYPPDYVEKMLNFYNSFAIFNCIVGIHGCIYIDAFDGDQSKRKVFSFTQGLLRPRVVNQLGTGTVFLKADQLPSLKYMDGSQRFVDVRFSRYMLENEIGMICVPREKNWLREVSSGSMEG MIVANMSSYPPRKKELVHSIQSLHAQVDKINLCLNEFEEIPEELDGFSKLNPVIPDKDYKDVGKFIFPCAKNDMIVLTDDDIIYPPDYVEKMLNFYNSFAIFNCIVGIHGCIYIDAFDGDQSKRKVFSFTQGLLRPRVVNQLGTGTVFLKADQLPSLKYMDGSQRFVDVRFSRYMLENEIGMICVPREKNWLREVSSGSMEGLWNTFTK 5z8b-a2-m2-cB_5z8b-a2-m1-cA Truncated N-acetylglucosaminyl transferase KfiA from E. coli K5 strain apo form Q47332 Q47332 2.91 X-RAY DIFFRACTION 52 0.99 562 (Escherichia coli) 562 (Escherichia coli) 204 209 HMMIVANMSSYPPRKKELVHSIQSLHAQVDKINLCLNEFEEIPEELDGFSKLNPVIPDKDYKDVGKFIFPCAKNDMIVLTDDDIIYPPDYVEKMLNFYNSFAIFNCIVGIHGCIYIDAFDGDQSKRKVFSFTQGLLRPRVVNQLGTGTVFLKADQLPSLKYMDGSQRFVDVRFSRYMLENEIGMICVPREKNWLREVSSGSMEG MIVANMSSYPPRKKELVHSIQSLHAQVDKINLCLNEFEEIPEELDGFSKLNPVIPDKDYKDVGKFIFPCAKNDMIVLTDDDIIYPPDYVEKMLNFYNSFAIFNCIVGIHGCIYIDAFDGDQSKRKVFSFTQGLLRPRVVNQLGTGTVFLKADQLPSLKYMDGSQRFVDVRFSRYMLENEIGMICVPREKNWLREVSSGSMEGLWNTFTK 5z8o-a1-m1-cA_5z8o-a1-m1-cB Structural of START superfamily protein MSMEG_0129 from Mycobacterium smegmatis I7FVL6 I7FVL6 1.95 X-RAY DIFFRACTION 20 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 145 146 GHMVSKTVEVAASAETITSIVSDFEAYPQWNPEIKGCWILARYNDGRPSQLRLDVEIQGQSGVFITAVYYPAENQIFTMLQQGDHFTKQEQRFSIVPLGPDSTLLQVDLDVEVKLPVPGPMVKKLAGETLEHLAKALEGRVEQLT GHMVSKTVEVAASAETITSIVSDFEAYPQWNPEIKGCWILARYNDGRPSQLRLDVEIQGQSGVFITAVYYPAENQIFTMLQQGDHFTKQEQRFSIVPLGPDSTLLQVDLDVEVKLPVPGPMVKKLAGETLEHLAKALEGRVEQLTQ 5z8t-a2-m1-cB_5z8t-a2-m1-cC Flavin-containing monooxygenase C8WV06 C8WV06 2.33 X-RAY DIFFRACTION 94 1.0 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 521098 (Alicyclobacillus acidocaldarius subsp. acidocaldarius DSM 446) 395 395 5z8t-a1-m1-cA_5z8t-a1-m2-cA AMYDIYGEAALPADVRERLRITRDLAQAFHERAPEHDRAGDFPFENIEDLKASGYVRWTVPVEYGGLGLSLEEMLMHQEVLAKGDGSTALAIGWHVGILLHLRETGAFPDELFRMVCESVVKEGALINSCATEPATGSPSRGGKPETTAVKVPGGYRITGRKTFSTLSPALTWIMVTATVADEDVVGQFLVRKEDVEIVETWDTLGMRATGSHDIVLKDVFVPEERVIVIQRPGVQAERRPDGSGWLLHIPACYLGIALAARDFALEYAATYRPNTLPHPIAEVPHVEQKLGEMELKLLAARTLLYDLARRFDAASPEERVKLQPQFGAVKTLATNAANQVVDLAMRVVGGRSLSRALPLERYYRDVRAGLHNPPMDDVVYRNLAKAALARRAAG AMYDIYGEAALPADVRERLRITRDLAQAFHERAPEHDRAGDFPFENIEDLKASGYVRWTVPVEYGGLGLSLEEMLMHQEVLAKGDGSTALAIGWHVGILLHLRETGAFPDELFRMVCESVVKEGALINSCATEPATGSPSRGGKPETTAVKVPGGYRITGRKTFSTLSPALTWIMVTATVADEDVVGQFLVRKEDVEIVETWDTLGMRATGSHDIVLKDVFVPEERVIVIQRPGVQAERRPDGSGWLLHIPACYLGIALAARDFALEYAATYRPNTLPHPIAEVPHVEQKLGEMELKLLAARTLLYDLARRFDAASPEERVKLQPQFGAVKTLATNAANQVVDLAMRVVGGRSLSRALPLERYYRDVRAGLHNPPMDDVVYRNLAKAALARRAAG 5z9a-a1-m1-cA_5z9a-a1-m1-cB Crystal structure of chorismate synthase from Pseudomonas aeruginosa B7UV40 B7UV40 2.79 X-RAY DIFFRACTION 167 1.0 557722 (Pseudomonas aeruginosa LESB58) 557722 (Pseudomonas aeruginosa LESB58) 247 250 MSGNTYGKLFTVTTAGESHGPALVAIVDGCPPGLELSARDLQRDLDRRKEVEILSGVFEGKTTGTPIGLLIRNTTAMRVAAGAIAKKYLAGLGIQVRGYMSQLGPIEIPFRSWDSVEQNAFFSPDPDKVPELEAYMDQLRRDQDSVGAKITVVAEGVPPGLGEPIFDRLDAELAHALMSINAVKGVEIGAGFASIAQSNNAGGILGGISSGQPIVAHLALKPTRATPIAEAMMAIVLLDQLLRQRGQ MSGNTYGKLFTVTTAGESHGPALVAIVDGCPPGLELSARDLQRDLDRRKDEVEILSGVFEGKTTGTPIGLLIRNTRETAMRVAAGAIAKKYLAGLGIQVRGYMSQLGPIEIPFRSWDSVEQNAFFSPDPDKVPELEAYMDQLRRDQDSVGAKITVVAEGVPPGLGEPIFDRLDAELAHALMSINAVKGVEIGAGFASIAQSNNAGGILGGISSGQPIVAHLALKPTRATPIAEAMMAIVLLDQLLRQRGQ 5z9r-a1-m1-cA_5z9r-a1-m1-cB NMNAT as a specific chaperone antagonizing pathological condensation of phosphorylated tau Q99JR6 Q99JR6 2 X-RAY DIFFRACTION 61 1.0 10090 (Mus musculus) 10090 (Mus musculus) 217 218 RIPVVLLACGSFNPITNMHLRLFEVARDHLHQTGRYQVIEGIISPVNDSYGKKDLVASHHRVAMARLALQTSDWIRVDPWESEQAQWMETVKVLRHHHRELLRSSAQALPELKLLCGADVLKTFQTPNLWKDTHIQEIVEKFGLVCVSRSGHDPERYISDSPILQQFQHNIHLAREPVLNEISATYVRKALGQGQSVKYLLPEAVITYIRDQGLYIN RIPVVLLACGSFNPITNMHLRLFEVARDHLHQTGRYQVIEGIISPVNDSYGKKDLVASHHRVAMARLALQTSDWIRVDPWESEQAQWMETVKVLRHHHRELLRSSAQMALPELKLLCGADVLKTFQTPNLWKDTHIQEIVEKFGLVCVSRSGHDPERYISDSPILQQFQHNIHLAREPVLNEISATYVRKALGQGQSVKYLLPEAVITYIRDQGLYIN 5z9s-a1-m1-cB_5z9s-a1-m1-cA Functional and Structural Characterization of a beta-Glucosidase Involved in Saponin Metabolism from Intestinal Bacteria F8ATF7 F8ATF7 2.3 X-RAY DIFFRACTION 227 0.999 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 763 765 RIADLLSRMTLEEKVGQMMQLDARGGDLEDLIVNKHVGSILHTSPEDLSRAAKTVNEKTRLGIPLIIGDDCIHGYSFWPGATIFPSQLGMAVSWDPDKVKAAGRATAEEVSCTGVHWTFSPVLCIARDTRWGRVDETFGEDPMLIGELASAMVKGYQGGAKAGEALPKNAILACAKHFAGYSETQGGRDASEADLSHRKLESWFLPPFERVAKEGCGTFMLGYESIEGVPVTFNKWLLTDKLRGAWKYNGTLITDWDNIGRSVWEQHVKPDYVHAAADAVKAGNDLVMTTPQFYEGAIEAVKTGLLDESLIDDAVSRILALKFRLGLFEDPRLPDAERIKAVIGSAEHQQINLELVRESIALLRNDGALPFAANKVKRIAVVGPLADDAQNQLGDWTGNSGQVSWMPDGQPRDMITTVLDGLTQLTADDCEVVYSRGANVIDLVPDPAGEFYPDGQPRPKIGVSAAVDQALIDEAVANARQSDLIVAVVGDVVQLVGETCSTATLELLGGQNALLDALAAVSRETGKPMVTVLISSKPQVLPASIVGEYGVFAKRVSDPETGTGSILWAPNPGMRGGQAIAEIILGLTNPSGRLPITFPRHAGQLPVYYNQIRGQHGDRYADLTQDPAFAFGEGLSYTTFAYGEPTIVGGASNADGTFAETDTVHAEITLTNTGERAGVEIVQAYIGDIVTSYSWTDRELKAFQRVALEPGETKTVAFEIPVANCTIVDPDANRIVEPGEFELLIGHSSRREDLKRTTFTVAL AGERIADLLSRMTLEEKVGQMMQLDARGGDLEDLIVNKHVGSILHTSPEDLSRAAKTVNEKTRLGIPLIIGDDCIHGYSFWPGATIFPSQLGMAVSWDPDKVKAAGRATAEEVSCTGVHWTFSPVLCIARDTRWGRVDETFGEDPMLIGELASAMVKGYQGGAKAGEALPKNAILACAKHFAGYSETQGGRDASEADLSHRKLESWFLPPFERVAKEGCGTFMLGYESIEGVPVTFNKWLLTDKLRGAWKYNGTLITDWDNIGRSVWEQHVKPDYVHAAADAVKAGNDLVMTTPQFYEGAIEAVKTGLLDESLIDDAVSRILALKFRLGLFEDPRLPDAERIKAVIGSAEHQQINLELVRESIALLRNDGALPFAANKVKRIAVVGPLADDAQNQLGDWTGNSGQVSWMPDGQPRDMITTVLDGLTQLTADDCEVVYSRGANVIDLVPDPAGEFYPDGQPRPKIGVSAAVDQALIDEAVANARQSDLIVAVVGDVVQLVGETCSTATLELLGGQNALLDALAAVSRETGKPMVTVLISSKPQVLPASIVGEYGVFAKRVSDPETGTGSILWAPNPGMRGGQAIAEIILGLTNPSGRLPITFPRHAGQLPVYYNQIRGQHGDRYADLTQDPAFAFGEGLSYTTFAYGEPTIVGGASNADGTFAETDTVHAEITLTNTGERAGVEIVQAYIGDIVTSYSWTDRELKAFQRVALEPGETKTVAFEIPVANCTIVDPDANRIVEPGEFELLIGHSSRREDLKRTTFTVA 5z9y-a2-m1-cB_5z9y-a2-m2-cB Crystal structure of Mycobacterium tuberculosis thiazole synthase (ThiG) complexed with DXP P9WG73 P9WG73 1.48 X-RAY DIFFRACTION 199 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 234 234 5z9y-a1-m1-cA_5z9y-a1-m2-cA KLVIGDRSFASRLIMGTGGATNLAVLEQALIASGTELTTVAIGLLDLLNRLGITPLPNTAGSRSAAEAVLTAQLAREALNTNWVKLEVIADERTLWPDAVELVRAAEQLVDDGFVVLPYTTDDPVLARRLEDTGCAAVMPLGSPIGTGLGIANPHNIEMIVAGARVPVVLDAGIGTASDAALAMELGCDAVLLASAVTRAADPPAMAAAMAAAVTAGYLARCAGRIPKRFWAQA KLVIGDRSFASRLIMGTGGATNLAVLEQALIASGTELTTVAIGLLDLLNRLGITPLPNTAGSRSAAEAVLTAQLAREALNTNWVKLEVIADERTLWPDAVELVRAAEQLVDDGFVVLPYTTDDPVLARRLEDTGCAAVMPLGSPIGTGLGIANPHNIEMIVAGARVPVVLDAGIGTASDAALAMELGCDAVLLASAVTRAADPPAMAAAMAAAVTAGYLARCAGRIPKRFWAQA 5za3-a1-m1-cB_5za3-a1-m1-cA Structure of a C-terminal S. mutans response regulator VicR domain Q93MY4 Q93MY4 1.5 X-RAY DIFFRACTION 16 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 100 101 PEIIIGDLQILPDAFVAKKRGTEVELTHREFELLHHLATHTGQVMTREHLLETVWGYDYFGDVRTVDVTVRRLREKIEDTPSRPEYILTRRGVGYYMKSY PEIIIGDLQILPDAFVAKKRGTEVELTHREFELLHHLATHTGQVMTREHLLETVWGYDYFGDVRTVDVTVRRLREKIEDTPSRPEYILTRRGVGYYMKSYD 5zb2-a1-m1-cA_5zb2-a1-m2-cA Crystal structure of Rad7 and Elc1 complex in yeast P06779 P06779 2.30001 X-RAY DIFFRACTION 68 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 402 402 SVSSLQSLCITKISENISKWQKEADESSKLVFNKLRDVLGGVSTANLNNLAKALSKNRALNDHTLQLFLKTDLKRLTFSDCSKISFDGYKTLAIFSPHLTELSLQMCGQLNHESLLYIAEKLPNLKSLNLDGPFLINEDTWEKFFVIMKGRLEEFHISNTHRFTDKSLSNLLINCGSTLVSLGLSRLDSISNYALLPQYLVNDEFHSLCIEYPFNEEDVNDEIIINLLGQIGRTLRKLVLNGCIDLTDSMIINGLTAFIPEKCPLEVLSLEESDQITTDSLSYFFSKVELNNLIECSFRRCLQLGDMAIIELLLNGARDSLRSLNLNSLKELTKEAFVALACPNLTYLDLGFVRCVDDSVIQMLGEQNPNLTVIDVFGDNLVTEKATMRPGLTLIGRQSDSI SVSSLQSLCITKISENISKWQKEADESSKLVFNKLRDVLGGVSTANLNNLAKALSKNRALNDHTLQLFLKTDLKRLTFSDCSKISFDGYKTLAIFSPHLTELSLQMCGQLNHESLLYIAEKLPNLKSLNLDGPFLINEDTWEKFFVIMKGRLEEFHISNTHRFTDKSLSNLLINCGSTLVSLGLSRLDSISNYALLPQYLVNDEFHSLCIEYPFNEEDVNDEIIINLLGQIGRTLRKLVLNGCIDLTDSMIINGLTAFIPEKCPLEVLSLEESDQITTDSLSYFFSKVELNNLIECSFRRCLQLGDMAIIELLLNGARDSLRSLNLNSLKELTKEAFVALACPNLTYLDLGFVRCVDDSVIQMLGEQNPNLTVIDVFGDNLVTEKATMRPGLTLIGRQSDSI 5zb3-a1-m1-cA_5zb3-a1-m1-cB Dimeric crystal structure of ORF57 from KSHV Q2HR75 Q2HR75 3.506 X-RAY DIFFRACTION 222 1.0 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 280 280 LRLPASMIIDGESPRFDDSIIPRHHGACFNVFIPAPPSHVPEVFTDRDITALIRAGGKDDELINKKISAKKIDHLHRQMLSFVTSRHNQAYWVSCRRETAAAGGLQTLGAFVEEQMTWAQTVVRHGGWFDEKDIDIILDTAIFVCNAFVTRFRLLHLSCVFDKQSELALIKQVAYLVAMGNRLVEACNLLGEVKLNFRGGLLLAFVLTIPGMQSRRSISARGQELFRTLLEYYRPGDVMGLLNVIVMEHHSLCRNSECAAATRAAMGSAKFNKGLFFYPL LRLPASMIIDGESPRFDDSIIPRHHGACFNVFIPAPPSHVPEVFTDRDITALIRAGGKDDELINKKISAKKIDHLHRQMLSFVTSRHNQAYWVSCRRETAAAGGLQTLGAFVEEQMTWAQTVVRHGGWFDEKDIDIILDTAIFVCNAFVTRFRLLHLSCVFDKQSELALIKQVAYLVAMGNRLVEACNLLGEVKLNFRGGLLLAFVLTIPGMQSRRSISARGQELFRTLLEYYRPGDVMGLLNVIVMEHHSLCRNSECAAATRAAMGSAKFNKGLFFYPL 5zbg-a1-m1-cC_5zbg-a1-m1-cD Cryo-EM structure of human TRPC3 at 4.36A resolution Q13507 Q13507 4.36 ELECTRON MICROSCOPY 191 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 670 670 5zbg-a1-m1-cA_5zbg-a1-m1-cB 5zbg-a1-m1-cA_5zbg-a1-m1-cD 5zbg-a1-m1-cB_5zbg-a1-m1-cC 6d7l-a1-m1-cA_6d7l-a1-m1-cB 6d7l-a1-m1-cA_6d7l-a1-m1-cD 6d7l-a1-m1-cB_6d7l-a1-m1-cC 6d7l-a1-m1-cC_6d7l-a1-m1-cD FMFNDRGTSLTAEEERFLDAAEYGNIPVVRKMLEESKTLNVNCVDYMGQNALQLAVGNEHLEVTELLLKKENLARIGDALLLAISKGYVRIVEAILNHPGFAASKRLTDDFYAYDEDGTRFSPDITPIILAAHCQKYEVVHMLLMKGARIERPHDYFCKCGDCMEKQRHDSFSHSRSRINAYKGLASPAYLSLSSEDPVLTALELSNELAKLANIEKEFKNDYRKLSMQCKDFVVGVLDLCRDSEEVEAILNGDKASLSRVKLAIKYEVKKFVAHPNCQQQLLTIWYENLSGLREQTIAIKCLVVLVVALGLPFLAIGYWIAPCSRLGKILRSPFMKFVAHAASFIIFLGLLVFNASDTWTEMLIMVWVLGMMWSECKELWLEGPREYILQLWNVLDFGMLSIFIAAFTARFLAFLQATKAQQYVDWLPSDPQIISEGLYAIAVVLSFSRIAYILPANESFGPLQISLGRTVKDIFKFMVLFIMVFFAFMIGMFILYSYYLGAKVNAAFTTVEESFKTLFWSIFGLSEVTSVVLKYDHKFIENIGYVLYGIYNVTMVVVLLNMLIAMINSSYQEIEDDSDVEWKFARSKLWLSYFDDGKTLPTRYQQIMKRLIKRYVLKAQVDKENDEVNEGELKEIKQDISSLRYELLEDKSQATEELAILIHKLSEKL FMFNDRGTSLTAEEERFLDAAEYGNIPVVRKMLEESKTLNVNCVDYMGQNALQLAVGNEHLEVTELLLKKENLARIGDALLLAISKGYVRIVEAILNHPGFAASKRLTDDFYAYDEDGTRFSPDITPIILAAHCQKYEVVHMLLMKGARIERPHDYFCKCGDCMEKQRHDSFSHSRSRINAYKGLASPAYLSLSSEDPVLTALELSNELAKLANIEKEFKNDYRKLSMQCKDFVVGVLDLCRDSEEVEAILNGDKASLSRVKLAIKYEVKKFVAHPNCQQQLLTIWYENLSGLREQTIAIKCLVVLVVALGLPFLAIGYWIAPCSRLGKILRSPFMKFVAHAASFIIFLGLLVFNASDTWTEMLIMVWVLGMMWSECKELWLEGPREYILQLWNVLDFGMLSIFIAAFTARFLAFLQATKAQQYVDWLPSDPQIISEGLYAIAVVLSFSRIAYILPANESFGPLQISLGRTVKDIFKFMVLFIMVFFAFMIGMFILYSYYLGAKVNAAFTTVEESFKTLFWSIFGLSEVTSVVLKYDHKFIENIGYVLYGIYNVTMVVVLLNMLIAMINSSYQEIEDDSDVEWKFARSKLWLSYFDDGKTLPTRYQQIMKRLIKRYVLKAQVDKENDEVNEGELKEIKQDISSLRYELLEDKSQATEELAILIHKLSEKL 5zbi-a1-m1-cB_5zbi-a1-m1-cA Crystal structure of asparaginyl endopeptidases from Viola Canadensis A0A384E113 A0A384E113 2.09 X-RAY DIFFRACTION 13 0.998 97421 (Viola canadensis) 97421 (Viola canadensis) 415 420 AGTKWAVLIAGSKGYQNYRHQADVCHAYQILRKGGVKDENIIVFMYDDIAYDIRNPYPGTIINSPDKKDVYKGVPKDYTGEDVNVQNFLAVILGNKTALTGGSGKVLDTRPNDHIFIYYTDHGYPGVLGMPTEPYLYANDLIDTLKKKHALGTYEGLVFYVEACESASIFEGLLPDGLNIYVSTAAKAGEGSWVAYCPSQEPPVPAEYGTCVGDLYSVTWMEDSDVYNLRTQTLHQQYELVKNKIAYASTVSQFGDFPISKDSLFEYMGTDPANEKRQYEDEPHVGAVHQREADLHHFWDKYQKASEGSRNKVDARKQLVEVMLHRMHVDDSIESIAKLLFGSGAKASEMMNTIRPPGQPLVSDWDCLKTMVRTFETHCGSLSEYGMKYTRFLANICNSGIQKEKMGEASAQVCL AGTKWAVLIAGSKGYQNYRHQADVCHAYQILRKGGVKDENIIVFMYDDIAYDIRNPYPGTIINSPDKKDVYKGVPKDYTGEDVNVQNFLAVILGNKTALTGGSGKVLDTRPNDHIFIYYTDHGYPGVLGMPTEPYLYANDLIDTLKKKHALGTYEGLVFYVEACESASIFEGLLPDGLNIYVSTAAKAGEGSWVAYCPSQEPPVPAEYGTCVGDLYSVTWMEDSDVYNLRTQTLHQQYELVKNKIAYASTVSQFGDFPISKDSLFEYMGTDPANEKRQYEDSSSPHVGAVHQREADLHHFWDKYQKASEGSRNKVDARKQLVEVMLHRMHVDDSIESIAKLLFGSGAKASEMMNTIRPPGQPLVSDWDCLKTMVRTFETHCGSLSEYGMKYTRFLANICNSGIQKEKMGEASAQVCLNFP 5zbj-a1-m1-cA_5zbj-a1-m2-cA Crystal structure of type-I LOG from Pseudomonas aeruginosa PAO1 P48636 P48636 1.89 X-RAY DIFFRACTION 91 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 185 185 5zbk-a1-m1-cA_5zbk-a1-m2-cA TLRSVCVFCGASPGASPVYQEAAVALGRHLAERGLTLVYGGGAVGLMGTVADAALAAGGEVIGIIPQSLQEAEIGHKGLTRLEVVDGMHARKARMAELADAFIALPGGLGTLEELFEVWTWGQLGYHAKPLGLLEVNGFYDPLLTFLDHLVDERFVRAEHRGMLQRGASPEALLDALAAWTPSVA TLRSVCVFCGASPGASPVYQEAAVALGRHLAERGLTLVYGGGAVGLMGTVADAALAAGGEVIGIIPQSLQEAEIGHKGLTRLEVVDGMHARKARMAELADAFIALPGGLGTLEELFEVWTWGQLGYHAKPLGLLEVNGFYDPLLTFLDHLVDERFVRAEHRGMLQRGASPEALLDALAAWTPSVA 5zbx-a1-m1-cA_5zbx-a1-m1-cE The crystal structure of the nucleosome containing histone H3.1 CATD(V76Q, K77D) P68431 P68431 2.58 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 101 5z23-a1-m1-cA_5z23-a1-m1-cE PHRYRPGTVALREIRRYQKSTELLIRKLPFQRLVREICQDFTDFNWQAQALLALQEAAEAFLVHLFEDAYLLTLHAKRVTIMPKDIQLARRIRGE VKKPHRYRPGTVALREIRRYQKSTELLIRKLPFQRLVREICQDFTRGVDFNWQAQALLALQEAAEAFLVHLFEDAYLLTLHAKRVTIMPKDIQLARRIRGE 5zc3-a1-m1-cB_5zc3-a1-m1-cA The Crystal Structure of PcRxLR12 A0A3F2YLV0 A0A3F2YLV0 3.005 X-RAY DIFFRACTION 41 0.983 4784 (Phytophthora capsici) 4784 (Phytophthora capsici) 404 414 SARINTWLVKGTSVDDAFLKLELNTAGSRIFENPKLLTWAVYVTKVPEEIILAKLSKQFTEGSLAKIASAKLDSKTEGLATILQAQQRQVWVDAGKSSDEVFKLLQLDEAGTKLFKNQQFSTWTSFVDAFNRKYPEKAVSIFSKLAKTYDGFTLWKLEAAKKVPKTEIIASKLQAQQIDAWLDAGKSTDEVFNLLKLQRTGDKLFKNSQFLTWVSYVEKFNKKDPDQAIAIFSKLAGVYDQVTLSSLEAAKHVPSTKRIASYLQGQQNQHWLADGKSTDDIFKLLKLNTPSPENLIDPRLDAWTSFRAFNANEGKETTLIATLTTHYKDRGLAQLLQEGTKFASTKKIAEELQTAQFARWLQLGKTEDDIFALLKLKLTTPTTDPEAIVFYQYKLFDAHKLAAA GKLADLFESTALKAQSARINTWLVKGTSVDDAFLKLELNTAGSRIFENPKLLTWAVYVTKVENPEEIILAKLSKQFTEGSLAKIASAKLDSKTEGLATILQAQQRQVWVDAGKSSDEVFKLLQLDEAGTKLFKNQQFSTWTSFVDAFNRKYPEKAVSIFSKLAKTYDGFTLWKLEAAKKVPKTEIIASKLQAQQIDAWLDAGKSTDEVFNLLKLQRTGDKLFKNSQFLTWVSYVEKFNKAIFSKLAGVYDQVTLSSLEAAKHVPSTKRIASYLQGQQNQHWLADGKSTDDIFKLLKLNTPSPENLIDPRLDAWTSFRAFNANEGKETTLIATLTTHYKDRGLAQLLQEGTKFASTKKIAEELQTAQFARWLQLGKTEDDIFALLKLKLTTPTTDPEAIVFYQYKLFDAHKLAAA 5zcm-a1-m1-cA_5zcm-a1-m2-cA Crystal structure of Xylose reductase from Debaryomyces nepalensis in complex with NADP-DTT adduct A0A0M4HL56 A0A0M4HL56 1.7 X-RAY DIFFRACTION 96 1.0 27299 (Debaryomyces nepalensis) 27299 (Debaryomyces nepalensis) 329 329 5zci-a1-m1-cA_5zci-a1-m1-cB GLVPRGSHMMSIKLNSGYEMPLVGFGCWKVDNATCADTVYNAIKVGYRLFDAAMDYGNCKEIGEGINRALDEGLVARDELFITSKLWNSYHDPKNVELALKKVLSDMKLDYIDLFLIHFPIAFKFVPFEEKYPPAFYCGDGDNFHYEDVPLLETWKAMEKLTKGGKAKSIGISNFSAALIYDLLRGAEIKPAVLQIEHHPYLQQPRLIEYVQSQGIAITAYSSFGPQSFLELKHSKALDTPTLFEHKTITSIADKYKKTPAQVLLRWASQRDIAIIPKSNNPDRLLQNLEVNDFNLSKEDFDEISKLDQDLRFNNPWDWDTKNRIPIFA GLVPRGSHMMSIKLNSGYEMPLVGFGCWKVDNATCADTVYNAIKVGYRLFDAAMDYGNCKEIGEGINRALDEGLVARDELFITSKLWNSYHDPKNVELALKKVLSDMKLDYIDLFLIHFPIAFKFVPFEEKYPPAFYCGDGDNFHYEDVPLLETWKAMEKLTKGGKAKSIGISNFSAALIYDLLRGAEIKPAVLQIEHHPYLQQPRLIEYVQSQGIAITAYSSFGPQSFLELKHSKALDTPTLFEHKTITSIADKYKKTPAQVLLRWASQRDIAIIPKSNNPDRLLQNLEVNDFNLSKEDFDEISKLDQDLRFNNPWDWDTKNRIPIFA 5zdi-a1-m1-cA_5zdi-a1-m1-cB Crystal structure of CsaA chaperone protein from picrophilus torridus Q6L208 Q6L208 1.7 X-RAY DIFFRACTION 130 1.0 263820 () 263820 () 107 107 MITYNDFSKIDIRVGIIKEVSDFKEAIKPAYKLKIYFGDIIGYKNSSAQITNYKKDELINKKIIAVVNFPPKQIANFISEVLVLGAITGDGVKLLTPDGGEPGDKIA MITYNDFSKIDIRVGIIKEVSDFKEAIKPAYKLKIYFGDIIGYKNSSAQITNYKKDELINKKIIAVVNFPPKQIANFISEVLVLGAITGDGVKLLTPDGGEPGDKIA 5zdn-a2-m1-cA_5zdn-a2-m2-cA The complex structure of FomD with CDP D2SNF7 D2SNF7 2.02 X-RAY DIFFRACTION 41 1.0 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 192 192 SFAFGAVVERRDELDGRPWISYPVRVVADTPELVAVHLSHGTRLTFGDDPFSWGPHPWQLFGDRWQSAGILQLHRPGRGHSVWVLRDADTGAFREWYVNVEAPWRRTPTGFSTLDHEIDLVVPADSRTFRWKDVEKFEERARIGHFSPEEATAIRAEAADVAREIAAGEQWWDTRWSRWEPPAGWNALLQSF SFAFGAVVERRDELDGRPWISYPVRVVADTPELVAVHLSHGTRLTFGDDPFSWGPHPWQLFGDRWQSAGILQLHRPGRGHSVWVLRDADTGAFREWYVNVEAPWRRTPTGFSTLDHEIDLVVPADSRTFRWKDVEKFEERARIGHFSPEEATAIRAEAADVAREIAAGEQWWDTRWSRWEPPAGWNALLQSF 5zdp-a1-m1-cB_5zdp-a1-m1-cA Crystal structure of cyanide-insensitive alternative oxidase from Trypanosoma brucei with ferulenol Q26710 Q26710 2.71 X-RAY DIFFRACTION 238 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 263 264 3vv9-a1-m1-cA_3vv9-a1-m1-cB 3vv9-a2-m1-cC_3vv9-a2-m2-cC 3vv9-a3-m1-cD_3vv9-a3-m3-cD 3vva-a1-m1-cB_3vva-a1-m1-cA 3vva-a2-m1-cC_3vva-a2-m1-cD 3w54-a1-m1-cA_3w54-a1-m2-cA 3w54-a2-m1-cB_3w54-a2-m1-cC 3w54-a3-m1-cD_3w54-a3-m3-cD 5gn7-a1-m1-cA_5gn7-a1-m1-cB 5gn7-a2-m1-cC_5gn7-a2-m1-cD 5gn9-a1-m1-cA_5gn9-a1-m1-cB 5gn9-a2-m1-cC_5gn9-a2-m2-cD 5zdp-a2-m1-cC_5zdp-a2-m2-cC 5zdp-a3-m1-cD_5zdp-a3-m3-cD 5zdq-a1-m1-cA_5zdq-a1-m2-cA 5zdq-a2-m1-cB_5zdq-a2-m1-cC 5zdq-a3-m1-cD_5zdq-a3-m3-cD 5zdr-a1-m1-cB_5zdr-a1-m1-cA 5zdr-a2-m1-cC_5zdr-a2-m1-cD VWGHTQLNRLSFLETVPVVPLRVSDESSEDRPTWSLPDIENVAITHKKPNGLVDTLAYRSVRTCRWLFDTFSLYRFGSITESKVISRCLFLETVAGVPGMVGGMLRHLSSLRYMTRDKGWINTLLVEAENERMHLMTFIELRQPGLPLRVSIIITQAIMYLFLLVAYVISPRFVHRFVGYLEEEAVITYTGVMRAIDEGRLRPTKNDVPEVARVYWNLSKNATFRDLINVIRADEAEHRVVNHTFADMHEKRLQNSVNPFVVL VWGHTQLNRLSFLETVPVVPLRVSDESSEDRPTWSLPDIENVAITHKKPNGLVDTLAYRSVRTCRWLFDTFSLYRFGSITESKVISRCLFLETVAGVPGMVGGMLRHLSSLRYMTRDKGWINTLLVEAENERMHLMTFIELRQPGLPLRVSIIITQAIMYLFLLVAYVISPRFVHRFVGYLEEEAVITYTGVMRAIDEGRLRPTKNDVPEVARVYWNLSKNATFRDLINVIRADEAEHRVVNHTFADMHEKRLQNSVNPFVVLK 5ze6-a2-m1-cD_5ze6-a2-m1-cB CRYSTAL STRUCTURE OF OCTAPRENYL PYROPHOSPHATE SYNTHASE FROM ESCHERICHIA COLI WITH BPH-981 P0AD57 P0AD57 2.5 X-RAY DIFFRACTION 125 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 307 313 5ze6-a1-m1-cC_5ze6-a1-m1-cA MNLEKINELTAQDMAGVNAAILEQLNSDVQLINQLGYYIVSGGGKRIRPMIAVLAARAVGYEGNAHVTIAALIEFIHTATLLHDDVVDESDMRNAAFGNAASVLVGDFIYTRAFQMMTSLGSLKVLEVMSEAVNVIAEGEVLQLMNVNDPDITEENYMRVIYSKTARLFEAAAQCSGILAGCTPEEEKGLQDYGRYLGTAFQLIDDLLDYNNVGDDLNEGKPTLPLLHAMHHGTPEQAQMIRTAIEQGNGRHLLEPVLEAMNACGSLEWTRQRAEEEADKAIAALQVLPDTPWREALIGLAHIAVQR MNLEKINELTAQDMAGVNAAILEQLNSDVQLINQLGYYIVSGGGKRIRPMIAVLAARAVGYEGNAHVTIAALIEFIHTATLLHDDVVDESDMRRGKATANAAFGNAASVLVGDFIYTRAFQMMTSLGSLKVLEVMSEAVNVIAEGEVLQLMNVNDPDITEENYMRVIYSKTARLFEAAAQCSGILAGCTPEEEKGLQDYGRYLGTAFQLIDDLLDYKNVGDDLNEGKPTLPLLHAMHHGTPEQAQMIRTAIEQGNGRHLLEPVLEAMNACGSLEWTRQRAEEEADKAIAALQVLPDTPWREALIGLAHIAVQR 5ze7-a1-m1-cA_5ze7-a1-m1-cB UDP Glucose alpha tetrahydrobiopterin glycosyltransferase from Synechococcus species PCC 7942 - apo form Q31LX1 Q31LX1 1.99 X-RAY DIFFRACTION 51 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 345 349 TAHRFLFVSTPVGPLGSGRGGGVELTLPNLAKALTQRGHQVSVLAPAGSVLPDLPLETVPGTWQSTAQSHGRATPAEIPAESVLARLWDRAHQQQADFDLILNFAYDWLPLYLTPFFKTPVAHLISGSLSEVDQAIATSLDRYPGSIAVHSLAQAATFPFGDRCLCIGNALDLAAYGFNPEPEPVLGWVGRIAPEKGLEDAIQAAQQAGLPLRVWGALTEPDYWQRLQQQFGDRAVSYQGFVSTDELQRGLGRCQGLLTPKWGNVAIEALACGLPVIAYARGGPLEIIEQGKSGWLVEPDQQAALVNAIGQLSSLDRAYCRAQAEARFSLAAGQRLEAWLLPLLS TAHRFLFVSTPVGPLGSGRGGGVELTLPNLAKALTQRGHQVSVLAPAGSVLPDLPLETVPGTWQSTAQSHGRATPAEIPAESVLARLWDRAHQQQADFDLILNFAYDWLPLYLTPFFKTPVAHLISGSLSEVDQAIATSLDRYPGSIAVHSLAQAATFPFGDRCLCIGNALDLAAYGFNPEPEPVLGWVGRIAPEKGLEDAIQAAQQAGLPLRVWGALTEPDYWQRLQQQFGDRAVSYQGFVSTDELQRGLGRCQGLLTPKWVEAFGNVAIEALACGLPVIAYARGGPLEIIEQGKSGWLVEPDQQAALVNAIGQLSSLDRAYCRAQAEARFSLAAGQRLEAWLLPLLS 5zee-a1-m1-cA_5zee-a1-m1-cB Crystal structure of Entamoeba histolytica Arginase in complex with N(omega)-hydroxy-L-arginine (NOHA) at 1.74 A C4LSS0 C4LSS0 1.74 X-RAY DIFFRACTION 47 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 295 297 5zef-a1-m1-cA_5zef-a1-m1-cB 5zeh-a1-m1-cB_5zeh-a1-m1-cA MQFEKVTYIAVPQKYGQKKVGVEEGPKFLEKLGFMNVLEQVAKSVNKKTITEPKTPQELGVTNARNLNEVESVNIELRDTIAKEYDVNNLLINIGGDHSIGLGTIAGVVKAMKPNARVGVVWFDAHPDMNTPENSPSGNIHGMPLACAVGLGPQRLTSIMPHYITPKDIMYVGIRSIDVGEQFEIQDKHIDHFTAEDVKRVGMKEVIEAINKKFVDYDVIHLSFDIDGIDPEFILGTGTPVPKGISLEDSLYFMSEMGKMKKLHSVDIVEYNPKIEEEITGKNVLKCISSLFGIK QSMQFEKVTYIAVPQKYGQKKVGVEEGPKFLEKLGFMNVLEQVAKSVNKKTITEPKTPQELGVTNARNLNEVESVNIELRDTIAKEYDVNNLLINIGGDHSIGLGTIAGVVKAMKPNARVGVVWFDAHPDMNTPENSPSGNIHGMPLACAVGLGPQRLTSIMPHYITPKDIMYVGIRSIDVGEQFEIQDKHIDHFTAEDVKRVGMKEVIEAINKKFVDYDVIHLSFDIDGIDPEFILGTGTPVPKGISLEDSLYFMSEMGKMKKLHSVDIVEYNPKIEEEITGKNVLKCISSLFGIK 5zf1-a1-m1-cA_5zf1-a1-m1-cB Molecular structure of a novel 5,10-methylenetetrahydrofolate dehydrogenase from the silkworm, Bombyx mori 1.75 X-RAY DIFFRACTION 96 0.997 7091 (Bombyx mori) 7091 (Bombyx mori) 288 290 MARILDGKALAMEIKKELKQKIAQWVSLGNRAPTIRCIIVGDDHTYVRNKVEAAKFVGIDALTINRDSDITEEQLLSEIQNLNEDNSVDGILVQLPVPDTINERRVCDAIAPEKDIDGFHIINIGRLCVDLPTIVPATALAVVEMLKRFNIDTFGRNAVVIGRSKNVGMPIAMMLHSDKRHESGLGMDATVTICHRYTPKDKLEAYCRNADIIITATGLPKLIKADMVKPGATIIDVGITTRLVGDVDYEEVSKIAGAITPVPGGVGPMTVAMLMHNTFQAAQSQANK MARILDGKALAMEIKKELKQKIAQWVSLGNRAPTIRCIIVGDDPASHTYVRNKVEAAKFVGIDALTINRDSDITEEQLLSEIQNLNEDNSVDGILVQLPVPDTINERRVCDAIAPEKDIDGFHIINIGRLCVDLPTIVPATALAVVEMLKRFNIDTFGRNAVVIGRSKNVGMPIAMMLHSDKRHESGLGMDATVTICHRYTPKDKLEAYCRNADIIITATGLPKLIKADMVKPGATIIDVGITRLVGDVDYEEVSKIAGAITPVPGGVGPMTVAMLMHNTFQAAQSQANK 5zf6-a1-m1-cB_5zf6-a1-m1-cA Crystal structure of the dimeric human PNPase Q8TCS8 Q8TCS8 2.796 X-RAY DIFFRACTION 53 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 548 560 AVAVDLGNRKLEISSGADGSAVVQSGDTAVMVTAVSKTKPSPSQFMPLVVDYRQSDKEILTSRIIDRSIRPLFPAGYFYDTQVLCNLLAVDGVNEPDVLAINGASVALSLSDIPWNGPVGAVRIGIIDGEYVVNPTRKEMSSSTLNLVVAGAPKSQIVMLEASAENILQQDFCHAIKVGVKYTQQIIQGIQQLVKETGVTKRTPQKLFTPSPEIVKYTHKLAMERLYAVFTDYEHDKVSRDEAVNKIRLDTEEQLKEKFPEADPYEIIESFNVVAKEVFRSIVLNEYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESDKNFMLHYEGHGALAEKALYPVIPRDFPFTIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTIEDYRLLTDILGIEDYNGDMDFKIAGTNKGITALQADIKLPGIPIKIVMEAIQQASVAKKEILQIMNKTISKPRASRKENGPVVETVQVPLFVGPGGYNLKKLQAETGVTISQTFSVFAPTPSAMHEARDFITEI AVAVDLGNRKLEISSGADGSAVVQSGDTAVMVTAVSKTKPSPSQFMPLVVDYRQSDKEILTSRIIDRSIRPLFPAGYFYDTQVLCNLLAVDGVNEPDVLAINGASVALSLSDIPWNGPVGAVRIGIIDGEYVVNPTRKEMSSSTLNLVVAGAPKSQIVMLEASAENILQQDFCHAIKVGVKYTQQIIQGIQQLVKETGVTKRTPQKLFTPSPEIVKYTHKLAMERLYAVFTDYEHDKVSRDEAVNKIRLDTEEQLKEKFPEADPYEIIESFNVVAKEVFRSIVLNEYKRCDGRDLTSLRNVSCEVDMFKTLHGSALFQRGQTQVLCTVTFDSLESDKNFMLHYGHGALAEKALYPVIPRDFPFTIRVTSEVLESNGSSSMASACGGSLALMDSGVPISSAVAGVAIGLVTKTDPEKGEIEDYRLLTDILGIEDYNGDMDFKIAGTNKGITALQADIKLPGIPIKIVMEAIQQASVAKKEILQIMNKTISKPRASRKENGPVVETVQVPLSKRAKFVGPGGYNLKKLQAETGVTISQVETFSVFAPTPSAMHEARDFITEI 5zfg-a1-m1-cA_5zfg-a1-m1-cB Crystal structure of a diazinon-metabolizing glutathione S-transferase in the silkworm, Bombyx mori A9XI30 A9XI30 1.7 X-RAY DIFFRACTION 83 0.995 7091 (Bombyx mori) 7091 (Bombyx mori) 202 203 MVLKLYAVSDGPPSLSVRQALVALEVPFELINVDFGAGEHMTSDYALMNPQKEIPVLDDEGFYLSESNAILQYICDKYRPGSPLYPQDPKSRAIVNHRLCFNLSSYYANISAYTMRTPLGLKKVHISLDVLETYLTRTNTSYAAANHLTIADFPLINSTMTLEAIDFDFSKYTKIHKWYNDFKVKYPDLWKISESAMKEIQH MVLKLYAVSDGPPSLSVRQALVALEVPFELINVDFGAGEHMTSDYALMNPQKEIPVLDDEGFYLSESNAILQYICDKYRPGSPLYPQDPKSRAIVNHRLCFNLSSYYANISAYTMAERTPLGLKKVHISLDVLETYLTRTNTSYAAANHLTIADFPLINSTMTLEAIDFDFSKYTKIHKWYNDFKVKYPDLWKISESAMKEIQ 5zfk-a1-m1-cB_5zfk-a1-m1-cA UDP Glucose alpha tetrahydrobiopterin glycosyltransferase from Synechococcus species PCC 7942 - UDP-BH2 complex Q31LX1 Q31LX1 1.75 X-RAY DIFFRACTION 54 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 349 350 5zer-a1-m1-cB_5zer-a1-m1-cA 5zes-a1-m1-cA_5zes-a1-m1-cB TAHRFLFVSTPVGPLGSGRGGGVELTLPNLAKALTQRGHQVSVLAPAGSVLPDLPLETVPGTWQSTAQSHGRATPAEIPAESVLARLWDRAHQQQADFDLILNFAYDWLPLYLTPFFKTPVAHLISGSLSEVDQAIATSLDRYPGSIAVHSLAQAATFPFGDRCLCIGNALDLAAYGFNPEPEPVLGWVGRIAPEKGLEDAIQAAQQAGLPLRVWGALTEPDYWQRLQQQFGDRAVSYQGFVSTDELQRGLGRCQGLLTPKWVEAFGNVAIEALACGLPVIAYARGGPLEIIEQGKSGWLVEPDQQAALVNAIGQLSSLDRAYCRAQAEARFSLAAGQRLEAWLLPLLS TAHRFLFVSTPVGPLGSGRGGGVELTLPNLAKALTQRGHQVSVLAPAGSVLPDLPLETVPGTWQSTAQSHGRATPAEIPAESVLARLWDRAHQQQADFDLILNFAYDWLPLYLTPFFKTPVAHLISGSLSEVDQAIATSLDRYPGSIAVHSLAQAATFPFGDRCLCIGNALDLAAYGFNPEPEPVLGWVGRIAPEKGLEDAIQAAQQAGLPLRVWGALTEPDYWQRLQQQFGDRAVSYQGFVSTDELQRGLGRCQGLLTPKWVEAFGNVAIEALACGLPVIAYARGGPLEIIEQGKSGWLVEPDQQAALVNAIGQLSSLDRAYCRAQAEARFSLAAGQRLEAWLLPLLSR 5zfm-a1-m1-cB_5zfm-a1-m1-cC Ketoreductase LbCR mutant - M6 Q03TH6 Q03TH6 2 X-RAY DIFFRACTION 110 1.0 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 248 248 5zfm-a1-m1-cA_5zfm-a1-m1-cD 5zi0-a1-m1-cA_5zi0-a1-m1-cD 5zi0-a1-m1-cB_5zi0-a1-m1-cC TDRLKDKVAIITGGVAGIGLGIAECYVREGAKVVVTANHNVDGGRAAVAKFGDDVSLFVQQDVSKEADWQKVIDATIAKFGRVDILVNNAGIGGVNTAIEDLDLADWQKVIDVNLTANFLGEKAAIKAMKQTADAKGSIINVSSVAGLVGLPIDPAYSASKGGSRLLTHATALNLAQRGIDIRVNSVHPGWIDTSIVPEDLRKQIIATIPVGHMGQPQDIGEVCVYLGSDESRFANGAEFTVDGGQRA TDRLKDKVAIITGGVAGIGLGIAECYVREGAKVVVTANHNVDGGRAAVAKFGDDVSLFVQQDVSKEADWQKVIDATIAKFGRVDILVNNAGIGGVNTAIEDLDLADWQKVIDVNLTANFLGEKAAIKAMKQTADAKGSIINVSSVAGLVGLPIDPAYSASKGGSRLLTHATALNLAQRGIDIRVNSVHPGWIDTSIVPEDLRKQIIATIPVGHMGQPQDIGEVCVYLGSDESRFANGAEFTVDGGQRA 5zfq-a1-m3-cA_5zfq-a1-m3-cB Crystal structure of PilT-4, a retraction ATPase motor of Type IV pilus , from Geobacter sulfurreducens Q74D27 Q74D27 2.6 X-RAY DIFFRACTION 118 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 360 360 5zfq-a1-m1-cA_5zfq-a1-m1-cB 5zfq-a1-m1-cA_5zfq-a1-m3-cB 5zfq-a1-m1-cB_5zfq-a1-m2-cA 5zfq-a1-m2-cA_5zfq-a1-m2-cB 5zfq-a1-m2-cB_5zfq-a1-m3-cA LYFQSASMANMHQLLTELVNRGGSDLHITTNSPPQIRVDGQLIPLEMPPLNAVDTKQLCYSILTEQQKHKFEEANELDLSFGIKGLSRFRGNVFIQRGAVAGVFRVIPYKILTFEELGLPVVVKELAEKPRGLILVTGPTGSGKSTTLAAIIDKINTERHDHIVTIEDPIEYLHPHKSCVVNQREVGADTKSFKNALKYILRQDPDVVLVGELRDLETIEAALTLAETGHLCLATLHTNSAVQTINRIVDVFPPYQQPQVRAQLSFVLEGVMSQTLLPNVSGKGRVLALEVMVPNPAIRNLIREDKIHQIYSQMQVGQEKFGMQTMNQSLFSLLQKRRISLDVAMARSSDPDELKQMLAS LYFQSASMANMHQLLTELVNRGGSDLHITTNSPPQIRVDGQLIPLEMPPLNAVDTKQLCYSILTEQQKHKFEEANELDLSFGIKGLSRFRGNVFIQRGAVAGVFRVIPYKILTFEELGLPVVVKELAEKPRGLILVTGPTGSGKSTTLAAIIDKINTERHDHIVTIEDPIEYLHPHKSCVVNQREVGADTKSFKNALKYILRQDPDVVLVGELRDLETIEAALTLAETGHLCLATLHTNSAVQTINRIVDVFPPYQQPQVRAQLSFVLEGVMSQTLLPNVSGKGRVLALEVMVPNPAIRNLIREDKIHQIYSQMQVGQEKFGMQTMNQSLFSLLQKRRISLDVAMARSSDPDELKQMLAS 5zfs-a1-m1-cA_5zfs-a1-m2-cB Crystal structure of Arthrobacter globiformis M30 sugar epimerase which can produce D-allulose from D-fructose A0A1L7NQ96 A0A1L7NQ96 1.96 X-RAY DIFFRACTION 24 1.0 1665 (Arthrobacter globiformis) 1665 (Arthrobacter globiformis) 291 294 5zfs-a1-m2-cA_5zfs-a1-m1-cB MKIGCHGLVWTGHFDAEGIRYSVQKTREAGFDLVEFPLMDPFSFDVQTAKSALAEHGLAASASLGLSDATDVSSEDPAVVKAGEELLNRAVDVLAELGATDFCGVIYSAMKKYMEPATAAGLANSKAAVGRVADRASDLGINVSLEVVNRYETNVLNTGRQALAYLEELNRPNLGIHLDTYHMNIEESDMFSPILDTAEALRYVHIGESHRGYLGTGSVDFDTFFKALGRIGYDGPVVFESFSSSVVAPDLSRMLGIWRNLWADNEELGAHANAFIRDKLTAIKTIELHRS MKIGCHGLVWTGHFDAEGIRYSVQKTREAGFDLVEFPLMDPFSFDVQTAKSALAEHGLAASASLGLSDATDVSSEDPAVVKAGEELLNRAVDVLAELGATDFCGVIYSAMKKYMEPATAAGLANSKAAVGRVADRASDLGINVSLEVVNRYETNVLNTGRQALAYLEELNRPNLGIHLDTYHMNIEESDMFSPILDTAEALRYVHIGESHRGYLGTGSVDFDTFFKALGRIGYDGPVVFESFSSSVVAPDLSRMLGIWRNLWADNEELGAHANAFIRDKLTAIKTIELHRSHHH 5zfs-a1-m1-cB_5zfs-a1-m2-cB Crystal structure of Arthrobacter globiformis M30 sugar epimerase which can produce D-allulose from D-fructose A0A1L7NQ96 A0A1L7NQ96 1.96 X-RAY DIFFRACTION 42 1.0 1665 (Arthrobacter globiformis) 1665 (Arthrobacter globiformis) 294 294 5zfs-a1-m1-cA_5zfs-a1-m2-cA MKIGCHGLVWTGHFDAEGIRYSVQKTREAGFDLVEFPLMDPFSFDVQTAKSALAEHGLAASASLGLSDATDVSSEDPAVVKAGEELLNRAVDVLAELGATDFCGVIYSAMKKYMEPATAAGLANSKAAVGRVADRASDLGINVSLEVVNRYETNVLNTGRQALAYLEELNRPNLGIHLDTYHMNIEESDMFSPILDTAEALRYVHIGESHRGYLGTGSVDFDTFFKALGRIGYDGPVVFESFSSSVVAPDLSRMLGIWRNLWADNEELGAHANAFIRDKLTAIKTIELHRSHHH MKIGCHGLVWTGHFDAEGIRYSVQKTREAGFDLVEFPLMDPFSFDVQTAKSALAEHGLAASASLGLSDATDVSSEDPAVVKAGEELLNRAVDVLAELGATDFCGVIYSAMKKYMEPATAAGLANSKAAVGRVADRASDLGINVSLEVVNRYETNVLNTGRQALAYLEELNRPNLGIHLDTYHMNIEESDMFSPILDTAEALRYVHIGESHRGYLGTGSVDFDTFFKALGRIGYDGPVVFESFSSSVVAPDLSRMLGIWRNLWADNEELGAHANAFIRDKLTAIKTIELHRSHHH 5zfs-a1-m2-cA_5zfs-a1-m2-cB Crystal structure of Arthrobacter globiformis M30 sugar epimerase which can produce D-allulose from D-fructose A0A1L7NQ96 A0A1L7NQ96 1.96 X-RAY DIFFRACTION 87 1.0 1665 (Arthrobacter globiformis) 1665 (Arthrobacter globiformis) 291 294 5zfs-a1-m1-cA_5zfs-a1-m1-cB MKIGCHGLVWTGHFDAEGIRYSVQKTREAGFDLVEFPLMDPFSFDVQTAKSALAEHGLAASASLGLSDATDVSSEDPAVVKAGEELLNRAVDVLAELGATDFCGVIYSAMKKYMEPATAAGLANSKAAVGRVADRASDLGINVSLEVVNRYETNVLNTGRQALAYLEELNRPNLGIHLDTYHMNIEESDMFSPILDTAEALRYVHIGESHRGYLGTGSVDFDTFFKALGRIGYDGPVVFESFSSSVVAPDLSRMLGIWRNLWADNEELGAHANAFIRDKLTAIKTIELHRS MKIGCHGLVWTGHFDAEGIRYSVQKTREAGFDLVEFPLMDPFSFDVQTAKSALAEHGLAASASLGLSDATDVSSEDPAVVKAGEELLNRAVDVLAELGATDFCGVIYSAMKKYMEPATAAGLANSKAAVGRVADRASDLGINVSLEVVNRYETNVLNTGRQALAYLEELNRPNLGIHLDTYHMNIEESDMFSPILDTAEALRYVHIGESHRGYLGTGSVDFDTFFKALGRIGYDGPVVFESFSSSVVAPDLSRMLGIWRNLWADNEELGAHANAFIRDKLTAIKTIELHRSHHH 5zfu-a1-m1-cG_5zfu-a1-m1-cH Structure of the ExbB/ExbD hexameric complex (ExbB6ExbD3TM) P0ABV2 P0ABV2 6.7 ELECTRON MICROSCOPY 18 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 22 22 NVTPFIDVMLVLLIIFMVAAPL NVTPFIDVMLVLLIIFMVAAPL 5zfu-a1-m1-cG_5zfu-a1-m1-cI Structure of the ExbB/ExbD hexameric complex (ExbB6ExbD3TM) P0ABV2 P0ABV2 6.7 ELECTRON MICROSCOPY 12 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 22 22 NVTPFIDVMLVLLIIFMVAAPL NVTPFIDVMLVLLIIFMVAAPL 5zg5-a1-m1-cA_5zg5-a1-m1-cB Crystal Structure of Triosephosphate isomerase SADsubAAA mutant from Opisthorchis viverrini A0A074Z863 A0A074Z863 1.597 X-RAY DIFFRACTION 131 1.0 6198 (Opisthorchis viverrini) 6198 (Opisthorchis viverrini) 248 248 5zfx-a1-m1-cA_5zfx-a1-m1-cB 5zfx-a2-m1-cC_5zfx-a2-m1-cD 5zg4-a1-m1-cB_5zg4-a1-m1-cA 5zga-a1-m1-cA_5zga-a1-m1-cB 5zga-a2-m1-cC_5zga-a2-m1-cD RKFFVGGNWKMNGSKKENDKLIEMLTHAKIDPNTEVLVAPPALYLPSVREKLDKRFHVAAQNCYKVPSGAFTGEVSPAMLKDVGCDWVILGHSERRHILLETDQLVGEKTNHAISAGVNVIACIGEKLEEREAGKTEEVCFRQMEAIRKNLSAAAMWNHIVIAYEPVWAIGTGKTATEQQAQEVHLAVRRWMEEKVSPAVAKSIRIIYGGSVTAANCRTLAKQPDVDGFLVGGASLKPDFIEICNANA RKFFVGGNWKMNGSKKENDKLIEMLTHAKIDPNTEVLVAPPALYLPSVREKLDKRFHVAAQNCYKVPSGAFTGEVSPAMLKDVGCDWVILGHSERRHILLETDQLVGEKTNHAISAGVNVIACIGEKLEEREAGKTEEVCFRQMEAIRKNLSAAAMWNHIVIAYEPVWAIGTGKTATEQQAQEVHLAVRRWMEEKVSPAVAKSIRIIYGGSVTAANCRTLAKQPDVDGFLVGGASLKPDFIEICNANA 5zg8-a1-m1-cA_5zg8-a1-m2-cA Crystal Structure of TtNRS P54263 P54263 2.4 X-RAY DIFFRACTION 237 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 422 422 MRVFIDEIARHVDQEVELRGWLYQRRSKGKIHFLILRDGTGFLQATVVQGEVPEAVFREADHLPQETALRVWGRVREDRRAPGGFELAVRDLQVVSRPQGEYPIGPKEHGIDFLMDHRHLWLRHRRPFAVMRIRDELERAIHEFFGERGFLRFDAPILTPLFEVELFDGEKAYLSQSGQLYAEAGALAFAKVYTFGPTFRHLLEFWMVEPEVAFMTHEENMALQEELVSFLVARVLERRSRELEMLGRDPKALEPAAEGHYPRLTYKEAVALVNRIAQEDPEVPPLPYGEDFGAPHEAALSRRFDRPVFVERYPARIKAFYMEPDPEDPELVLNDDLLAPEGYGEIIGGSQRIHDLELLRRKIQEFGLPEEVYDWYLDLRRFGSVPHSGFGLGLERTVAWICGLAHVREAIPFPRMYTRMRP MRVFIDEIARHVDQEVELRGWLYQRRSKGKIHFLILRDGTGFLQATVVQGEVPEAVFREADHLPQETALRVWGRVREDRRAPGGFELAVRDLQVVSRPQGEYPIGPKEHGIDFLMDHRHLWLRHRRPFAVMRIRDELERAIHEFFGERGFLRFDAPILTPLFEVELFDGEKAYLSQSGQLYAEAGALAFAKVYTFGPTFRHLLEFWMVEPEVAFMTHEENMALQEELVSFLVARVLERRSRELEMLGRDPKALEPAAEGHYPRLTYKEAVALVNRIAQEDPEVPPLPYGEDFGAPHEAALSRRFDRPVFVERYPARIKAFYMEPDPEDPELVLNDDLLAPEGYGEIIGGSQRIHDLELLRRKIQEFGLPEEVYDWYLDLRRFGSVPHSGFGLGLERTVAWICGLAHVREAIPFPRMYTRMRP 5zg9-a1-m2-cB_5zg9-a1-m2-cA Crystal structure of MoSub1-ssDNA complex in phosphate buffer L7IX95 L7IX95 2.04 X-RAY DIFFRACTION 112 1.0 1143193 (Pyricularia oryzae P131) 1143193 (Pyricularia oryzae P131) 82 83 4agh-a1-m1-cA_4agh-a1-m2-cA 4bhm-a1-m1-cB_4bhm-a1-m1-cA 4bhm-a1-m1-cD_4bhm-a1-m1-cC 4bhm-a1-m1-cE_4bhm-a1-m1-cF 5zg9-a1-m1-cB_5zg9-a1-m1-cA SNPGGSQVDAEGNPFWEISDKRRVGISQFKKMDFINIREYYEAGGEMKPGKKGIGLTVDQYTAFLKAIPAINAELRSRGHDI SNPGGSQVDAEGNPFWEISDKRRVGISQFKKMDFINIREYYEAGGEMKPGKKGIGLTVDQYTAFLKAIPAINAELRSRGHDIT 5zgg-a1-m1-cA_5zgg-a1-m1-cB NMR structure of p75NTR transmembrane domain in complex with NSC49652 P08138 P08138 NOT SOLUTION NMR 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 34 34 TRGTTDNLIPVYCSILAAVVVGLVAYIAFKRWNS TRGTTDNLIPVYCSILAAVVVGLVAYIAFKRWNS 5zh8-a1-m1-cB_5zh8-a1-m1-cA Crystal Structure of FmtA from Staphylococcus aureus at 2.58 A O50608 O50608 2.6 X-RAY DIFFRACTION 46 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 349 358 SDNEKYLVDRNKEPSKLKEVYNSKDPKYKKIDKYLQSSLFNGSVAIYENGKLKMSKGYGYQDFEKGIKNTPNTMFLIGSAQKFSTGLLLKQLEEEHKININDPVSKYLPWFKTSKPIPLKDLMLHQSGLYKYKSSKDYKNLDQAVKAIQKRGIDPKKYKKHMYNDGNYLVLAKVIEEVTGKSYAENYYTKIGDPLKLQHTAFYDEQPFKKYLAKGYAYNSTGLSFLRPNILDQYYGAGNLYMTPTDMGKLITQIQQYKLFSPKITNPLLHEFGTKQYPDEYRYGFYAKPTLNRLNGGFFGQVFTVYYNDKYVVVLALNVKGNNEVRIKHIYNDILKQNKPYNTKGVIVQ HKETKLSDNEKYLVDRNKEKVAPSKLKEVYNSKDPKYKKIDKYLQSSLFNGSVAIYENGKLKMSKGYGYQDFEKGIKNTPNTMFLIGSAQKFSTGLLLKQLEEEHKININDPVSKYLPWFKTSKPIPLKDLMLHQSGLYKYKSSKDYKNLDQAVKAIQKRGIDPKKYKKHMYNDGNYLVLAKVIEEVTGKSYAENYYTKIGDPLKLQHTAFYDEQPFKKYLAKGYAYNSTGLSFLRPNILDQYYGAGNLYMTPTDMGKLITQIQQYKLFSPKITNPLLHEFGTKQYPDEYRYGFYAKPTLNRLNGGFFGQVFTVYYNDKYVVVLALNVKGNNEVRIKHIYNDILKQNKPYNTKGVIVQ 5zha-a2-m1-cA_5zha-a2-m2-cA Structure of Y68F mutant Mn-Bound periplasmic metal binding protein from candidatus liberibacter asiaticus C6XF58 C6XF58 1.84 X-RAY DIFFRACTION 51 1.0 537021 (Candidatus Liberibacter asiaticus str. psy62) 537021 (Candidatus Liberibacter asiaticus str. psy62) 263 263 5z2j-a2-m1-cA_5z2j-a2-m2-cA 5z2k-a2-m1-cA_5z2k-a2-m2-cA KKVVLSSFSIIGDITQNIAKDLVTVTTLVEAGNDSHSYQVTSADAIKIQNADLILCNGLHLEETFMKYFTNLKKGTKIITVTDGINPIGVSDSEPNPHAWMSLTNAMIYIENIRKALTALDPSNAKKYELNAREYSEKIRNSILPLKTRIEKVDPEKRWFVTSEGCLVYLAEDFGFKSLYLWPINRSPSMMRHAINQMRSHKIKFIFSESTNSDQPAKQVAYETNASYGGVLYVDSLSKPDGPAPTYLDLLRFSLTKIVDTLF KKVVLSSFSIIGDITQNIAKDLVTVTTLVEAGNDSHSYQVTSADAIKIQNADLILCNGLHLEETFMKYFTNLKKGTKIITVTDGINPIGVSDSEPNPHAWMSLTNAMIYIENIRKALTALDPSNAKKYELNAREYSEKIRNSILPLKTRIEKVDPEKRWFVTSEGCLVYLAEDFGFKSLYLWPINRSPSMMRHAINQMRSHKIKFIFSESTNSDQPAKQVAYETNASYGGVLYVDSLSKPDGPAPTYLDLLRFSLTKIVDTLF 5zhh-a1-m1-cB_5zhh-a1-m1-cD Structure of Inositol monophosphatase from Anabaena (Nostoc) sp. PCC 7120 Q8YT10 Q8YT10 1.89 X-RAY DIFFRACTION 31 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 242 245 5zhh-a1-m1-cC_5zhh-a1-m1-cA TNLQTFLDIATEAALAAGAVLQGYLVTAADKASEAVVLEIIRRHFPQHSILANEYLWAIDPLDGTTNYAHQYPAFCVSIGLLINGVPQVGVIYDPFHDELFRGAAGLGATRNRRPIKVSDTSELSKSLLVTGFAYDRRETPDNNYAEFCHLTHLTQGVRRSGSAALDLAHVACGRVDGYWERGISPWDVVAGVILLEEAGGKVTAYDSTPLKIATGRILATNGSIHDNLSRALMQVPPLSAW MTNLQTFLDIATEAALAAGAVLQGYLGVTAADKASEAVVLEIIRRHFPQHSILANEYLWAIDPLDGTTNYAHQYPAFCVSIGLLINGVPQVGVIYDPFHDELFRGAAGLGATRNRRPIKVSDTSELSKSLLVTGFAYDRRETPDNNYAEFCHLTHLTQGVRRSGSAALDLAHVACGRVDGYWERGISPWDVVAGVILLEEAGGKVTAYDSTPLKIATGRILATNGSIHDNLSRALMQVPPLSAWE 5zhh-a1-m1-cD_5zhh-a1-m1-cC Structure of Inositol monophosphatase from Anabaena (Nostoc) sp. PCC 7120 Q8YT10 Q8YT10 1.89 X-RAY DIFFRACTION 92 0.996 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 245 246 5zhh-a1-m1-cB_5zhh-a1-m1-cA MTNLQTFLDIATEAALAAGAVLQGYLGVTAADKASEAVVLEIIRRHFPQHSILANEYLWAIDPLDGTTNYAHQYPAFCVSIGLLINGVPQVGVIYDPFHDELFRGAAGLGATRNRRPIKVSDTSELSKSLLVTGFAYDRRETPDNNYAEFCHLTHLTQGVRRSGSAALDLAHVACGRVDGYWERGISPWDVVAGVILLEEAGGKVTAYDSTPLKIATGRILATNGSIHDNLSRALMQVPPLSAWE MTNLQTFLDIATEAALAAGAVLQGYLGVTAADKASEAVVLEIIRRHFPQHSILAEDNEYLWAIDPLDGTTNYAHQYPAFCVSIGLLINGVPQVGVIYDPFHDELFRGAAGLGATRNRRPIKVSDTSELSKSLLVTGFAYDRRETPDNNYAEFCHLTHLTQGVRRSGSAALDLAHVACGRVDGYWERGISPWDVVAGVILLEEAGGKVTAYDSTPLKIATGRILATNGSIHDNLSRALMQVPPLSAW 5zi0-a1-m1-cC_5zi0-a1-m1-cD Ketoreductase LbCR mutant - M8 Q03TH6 Q03TH6 2.302 X-RAY DIFFRACTION 135 1.0 387344 (Levilactobacillus brevis ATCC 367) 387344 (Levilactobacillus brevis ATCC 367) 248 248 5zfm-a1-m1-cA_5zfm-a1-m1-cB 5zfm-a1-m1-cC_5zfm-a1-m1-cD 5zi0-a1-m1-cA_5zi0-a1-m1-cB TDRLKDKVAIITGGVAGIGLGIAECYVREGAKVVVTANHNVDGGRAAVAKFGDDVSLFVQQDVSKEADWQKVIDATIAKFGRVDILVNNAGIGGVNTAIEDLDLADWQKVIDVNLTANFLGEKAAIKAMKQTADAKGSIINVSSVAGLVGLPIDPAYSASKGGSRLLTHATALNLAQRGIDIRVNSVHPGWIDTSIIPEDLRKQIIATIPVGHMGQPQDIGEVCVYLGSDESRFANGAEFTVDGGQRA TDRLKDKVAIITGGVAGIGLGIAECYVREGAKVVVTANHNVDGGRAAVAKFGDDVSLFVQQDVSKEADWQKVIDATIAKFGRVDILVNNAGIGGVNTAIEDLDLADWQKVIDVNLTANFLGEKAAIKAMKQTADAKGSIINVSSVAGLVGLPIDPAYSASKGGSRLLTHATALNLAQRGIDIRVNSVHPGWIDTSIIPEDLRKQIIATIPVGHMGQPQDIGEVCVYLGSDESRFANGAEFTVDGGQRA 5zi1-a3-m1-cA_5zi1-a3-m1-cB Crystal structure of Bacillus thuringiensis insecticidal crystal protein Cry7Ca1 (wild type) A9Q1Y3 A9Q1Y3 2.3 X-RAY DIFFRACTION 39 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 590 590 SMIFSSISIIRTFMGFAGHGTAGGIIGLFTEVLRLLWPNKQNDLWESFMNEVEALINQEITEAVVSKALSELEGLRNALEGYTSALEAWQNNRSDKLKQLLVYERFVSTENLFKFAMPSFRSVGFEGPLLTVYAQAANLHLFLLKNAELFGAEWGMQQYEIDLFYNEQKGYVEEYTDHCVKWYKEGLNKLKNASGVKGKVWENYNRFRREMTIMVLDLLPLFPIYDARTYPMETVTELTRQIFTDPIGLTGINETKYPDWYGAASSEFVLIENRAIPKPGLFQWLTKINVRARVVEPNDRFAIWTGHSVVTQYTKSTTENTFNYGTSSGSTLSHTFDLLSKDIYQTYSIAAANKSATWYQAVPLLRLYGINSSNVLSEDAFSFSNNIPSSKCKSTYSSDQLPIELLDEPIYGDLEEYGHRLSYVSEIFKETGSGTIPVLGWTHVSVRPDNKLYPDKITQIPAVKAFETNTAGVEIIDSASTGGPILKIVNNNLPSNQVFRMRLSFSEPQKIKVRVRYAATGDGVMSFSGIAHDEYFTATMKEGEALKYSYLTMGNDYAGTAAELSMLYIIKANTSNCTIYIDKIEFIPVV SMIFSSISIIRTFMGFAGHGTAGGIIGLFTEVLRLLWPNKQNDLWESFMNEVEALINQEITEAVVSKALSELEGLRNALEGYTSALEAWQNNRSDKLKQLLVYERFVSTENLFKFAMPSFRSVGFEGPLLTVYAQAANLHLFLLKNAELFGAEWGMQQYEIDLFYNEQKGYVEEYTDHCVKWYKEGLNKLKNASGVKGKVWENYNRFRREMTIMVLDLLPLFPIYDARTYPMETVTELTRQIFTDPIGLTGINETKYPDWYGAASSEFVLIENRAIPKPGLFQWLTKINVRARVVEPNDRFAIWTGHSVVTQYTKSTTENTFNYGTSSGSTLSHTFDLLSKDIYQTYSIAAANKSATWYQAVPLLRLYGINSSNVLSEDAFSFSNNIPSSKCKSTYSSDQLPIELLDEPIYGDLEEYGHRLSYVSEIFKETGSGTIPVLGWTHVSVRPDNKLYPDKITQIPAVKAFETNTAGVEIIDSASTGGPILKIVNNNLPSNQVFRMRLSFSEPQKIKVRVRYAATGDGVMSFSGIAHDEYFTATMKEGEALKYSYLTMGNDYAGTAAELSMLYIIKANTSNCTIYIDKIEFIPVV 5zi2-a1-m1-cA_5zi2-a1-m1-cB MDH3 wild type, nad-form P32419 P32419 2 X-RAY DIFFRACTION 121 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 339 339 5zi3-a1-m1-cA_5zi3-a1-m1-cB 5zi4-a1-m1-cB_5zi4-a1-m1-cA MVKVAILGASGGVGQPLSLLLKLSPYVSELALYDIRAAEGIGKDLSHINTNSSCVGYDKDSIENTLSNAQVVLIPAGVPRKPGLTRDDLFKMNAGIVKSLVTAVGKFAPNARILVISNPVNSLVPIAVETLKKMGKFKPGNVMGVTNLDLVRAETFLVDYLMLKNPKIGQEQDKTTMHRKVTVIGGHSGETIIPIITDKSLVFQLDKQYEHFIHRVQFGGDEIVKAKQGAGSATLSMAFAGAKFAEEVLRSFHNEKPETESLSAFVYLPGLKNGKKAQQLVGDNSIEYFSLPIVLRNGSVVSIDTSVLEKLSPREEQLVNTAVKELRKNIEKGKSFILD MVKVAILGASGGVGQPLSLLLKLSPYVSELALYDIRAAEGIGKDLSHINTNSSCVGYDKDSIENTLSNAQVVLIPAGVPRKPGLTRDDLFKMNAGIVKSLVTAVGKFAPNARILVISNPVNSLVPIAVETLKKMGKFKPGNVMGVTNLDLVRAETFLVDYLMLKNPKIGQEQDKTTMHRKVTVIGGHSGETIIPIITDKSLVFQLDKQYEHFIHRVQFGGDEIVKAKQGAGSATLSMAFAGAKFAEEVLRSFHNEKPETESLSAFVYLPGLKNGKKAQQLVGDNSIEYFSLPIVLRNGSVVSIDTSVLEKLSPREEQLVNTAVKELRKNIEKGKSFILD 5zi6-a4-m1-cG_5zi6-a4-m1-cH The RING domain structure of MEX-3C Q5U5Q3 Q5U5Q3 2.2 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 5zi6-a1-m1-cA_5zi6-a1-m1-cB 5zi6-a2-m1-cC_5zi6-a2-m1-cD 5zi6-a3-m1-cE_5zi6-a3-m1-cF KHDCVICFENEVIAALVPCGHNLFCMECANKICEKRTPSCPVCQTAVTQAIQIHS KHDCVICFENEVIAALVPCGHNLFCMECANKICEKRTPSCPVCQTAVTQAIQIHS 5zi8-a1-m1-cB_5zi8-a1-m1-cA Crystal structure of the PadR-family transcriptional regulator Rv3488 of Mycobacterium tuberculosis H37Rv in complex with cadmium ion I6X7F9 I6X7F9 2.2 X-RAY DIFFRACTION 111 0.99 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 103 104 5zhc-a1-m1-cA_5zhc-a1-m1-cB 5zhv-a1-m1-cA_5zhv-a1-m1-cB 7wh4-a1-m1-cA_7wh4-a1-m1-cB AMDPEFMREFQRAAVRLHILHHAADNEVHGAWLTQELSRHGYRVSPGTLYPTLHRLEADGLLVSEQRVVDGRARRVYRATPAGRAALTEDRRALEELAREVLQ AMDPEFMREFQRAAVRLHILHHAADNEVHGAWLTQELSRHGYRVSPGTLYPTLHRLEADGLLVSEQRVVDGRARRVYRATPAGRAALTEDRRALEELAREVLGH 5zih-a1-m1-cA_5zih-a1-m1-cB Crystal structure of the red light-activated channelrhodopsin Chrimson. Q8L435 Q8L435 2.6 X-RAY DIFFRACTION 168 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 278 284 SYTLENNGSVICIPNNGQCFCLAWLHSRGTPGEKIGAQVCQWIAFSIAIALLTFYGFTCGWEEVYVCCVEVLFVTLEIFKEFSSPATVYLSTGNHAYCLRYFEWLLSCPVILIKLSNLSGLKNDYSKRTMGLIVSCVGMIVFGMAAGLATDWLKWLLYIVSCIYGGYMYFQAAKCYVEANHSVPKGHCRMVVKLMAYAYFASWGSYPILWAVGPEGLLKLSPYANSIGHSICDIIAEFWTFLAHHLRIKIHEHILIHGDIRKTTKMEIGGEEVEVEEF LFQTSYTLENNGSVICIPNNGQCFCLAWLHSRGTPGEKIGAQVCQWIAFSIAIALLTFYGFSATCGWEEVYVCCVEVLFVTLEIFKEFSSPATVYLSTGNHAYCLRYFEWLLSCPVILIKLSNLSGLKNDYSKRTMGLIVSCVGMIVFGMAAGLATDWLKWLLYIVSCIYGGYMYFQAAKCYVEANHSVPKGHCRMVVKLMAYAYFASWGSYPILWAVGPEGLLKLSPYANSIGHSICDIIAEFWTFLAHHLRIKIHEHILIHGDIRKTTKMEIGGEEVEVEEF 5ziy-a3-m1-cB_5ziy-a3-m1-cA Crystal structure of Bacillus cereus FlgL A0A164TZ51 A0A164TZ51 2.2 X-RAY DIFFRACTION 35 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 173 195 LANMEQMQKDIADSKNVLTQTENTLQGVLKSLTRADQLTVQAIGVEIDQILKQVVYLANTKEQGRYIFGGDSAENLPFTEDGTYQGGKNDVNWKLNDGYEFKAFRNGEALLSPVIKTLKQMSEAMQNGDQKALKPLLEENKQNLDGIINRTTEVGSTMNTMETFKTILSEQNV AASKSFAIQHSLANMEQMQKDIADSKNVLTQTENTLQGVLKSLTRADQLTVQALNEKELQAIGVEIDQILKQVVYLANTKEQGRYIFGGDSAENLPFTEDGTYQGGKNDVNWKLNDGYEFKAFRNGEALLSPVIKTLKQMSEAMQNGDQKALKPLLEENKQNLDGIINRTTEVGSTMNTMETFKTILSEQNVALQ 5ziz-a3-m1-cB_5ziz-a3-m1-cA Crystal structure of Xanthomonas campestris FlgL (space group H3) A0A3E1L4S6 A0A3E1L4S6 2.2 X-RAY DIFFRACTION 171 0.987 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 301 304 RALAAITRFGENANNVQNRLGLQENALAQAGDKMARVTELAVQSNNSSLSPDDRKAIASELTALRDSMVSLANSTDGTGRYLFAGTSGNAPFIKSNGNVLYNGDQTQKQVEVAPDTFVSDTLPGSEIFMRIRTGDGSVDAHANATNTGTGLLLDFSRDWNGGSYSVQFTAADTYEVRDSTNALVSTGTYKDGEDINAAGVRMRISGAPAVGDSFQIGASGTKDVFSTIDDMVAALNSDTQTPTQKAAMINTLQSSMRDIAQASSKMIDARASGGAQLSVIDNANSLLESNEVTLKTTLSSI RALAAITRFGENANNVQNRLGLQENALAQAGDKMARVTELAVQSNNSSLSPDDRKAIASELTALRDSMVSLANSTDGTGRYLFAGTSDGNAPFIKSNGNVLYNGDQTQKQVEVAPDTFVSDTLPGSEIFMRIRTGDGSVDAHANATNTGTGLLLDFSRDASSGSWNGGSYSVQFTAADTYEVRDSTNALVSTGTYKDGEDINAAGVRMRISGAPAVGDSFQIGASGTKDVFSTIDDMVAALNSDTQTPTQKAAMINTLQSSMRDIAQASSKMIDARASGGAQLSVIDNANSLLVTLKTTLSSIR 5zj0-a2-m1-cA_5zj0-a2-m2-cA Crystal structure of Xanthomonas campestris FlgL (space group C2) A0A3E1L4S6 A0A3E1L4S6 1.9 X-RAY DIFFRACTION 57 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 301 301 LDRALAAITRFGENANNVQNRLGLQENALAQAGDKARVTELAVQSNNSSLSPDDRKAIASELTALRDSVSLANSTDGTGRYLFAGTSDGNAPFIKSNGNVLYNGDQTQKQVEVAPDTFVSDTLPGSEIFRIRTGDGSVDAHANATNTGTGLLLDFSRDASSGSWNGGSYSVQFTAADTYEVRDSTNALVSTGTYKDGEDINAAGVRRISGAPAVGDSFQIGASGTKDVFSTIDDVAALNSDTQTPTQKAAINTLQSSRDIAQASSKIDARASGGAQLSVIDNANSLLESNEVTLKTTLSSI LDRALAAITRFGENANNVQNRLGLQENALAQAGDKARVTELAVQSNNSSLSPDDRKAIASELTALRDSVSLANSTDGTGRYLFAGTSDGNAPFIKSNGNVLYNGDQTQKQVEVAPDTFVSDTLPGSEIFRIRTGDGSVDAHANATNTGTGLLLDFSRDASSGSWNGGSYSVQFTAADTYEVRDSTNALVSTGTYKDGEDINAAGVRRISGAPAVGDSFQIGASGTKDVFSTIDDVAALNSDTQTPTQKAAINTLQSSRDIAQASSKIDARASGGAQLSVIDNANSLLESNEVTLKTTLSSI 5zj4-a6-m1-cB_5zj4-a6-m1-cD Guanine-specific ADP-ribosyltransferase Q9L1E4 Q9L1E4 1.49739 X-RAY DIFFRACTION 44 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 160 160 5zj4-a5-m1-cA_5zj4-a5-m1-cC 5zj5-a3-m1-cB_5zj5-a3-m1-cA ACPQFDDRTKAAADRGVDVDRITPEPVWRTTCGTLYRSDSRGPQVVFEEGFHAKDVQNGQYDVEKYVLVNQPSPYVSTSYDHDLYKTWYKSGYNYYVDAPGGIDVNKTIGDTHKWADQVEVAFPGGIQRKYIIGVCPVDRQTKTEIMSDCESNPHYQPWH ACPQFDDRTKAAADRGVDVDRITPEPVWRTTCGTLYRSDSRGPQVVFEEGFHAKDVQNGQYDVEKYVLVNQPSPYVSTSYDHDLYKTWYKSGYNYYVDAPGGIDVNKTIGDTHKWADQVEVAFPGGIQRKYIIGVCPVDRQTKTEIMSDCESNPHYQPWH 5zj6-a1-m1-cB_5zj6-a1-m1-cA Crystal structure of HCK kinase complexed with a pyrrolo-pyrimidine inhibitor 7-[trans-4-(4-methylpiperazin-1-yl)cyclohexyl]-5-(4-phenoxyphenyl)-7H-pyrrolo[2,3-d]pyrimidin-4-amine P08631 P08631 1.696 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 271 PWEKDAWEIPRESLKLEKKLGAGQFGEVWMATYNKHTKVAVKTMKPGSMSVEAFLAEANVMKTLQHDKLVKLHAVVTKEPIYIITEFMAKGSLLDFLKSDEGSKQPLPKLIDFSAQIAEGMAFIEQRNYIHRDLRAANILVSASLVCKIADFGLARVIEDNEYTAREGAKFPIKWTAPEAINFGSFTIKSDVWSFGILLMEIVTYGRIPYPGMSNPEVIRALERGYRMPRPENCPEELYNIMMRCWKNRPEERPTFEYIQSVLDDFYTAT KPWEKDAWEIPRESLKLEKKLGAGQFGEVWMATYNKHTKVAVKTMKPGSMSVEAFLAEANVMKTLQHDKLVKLHAVVTKEPIYIITEFMAKGSLLDFLKSDEGSKQPLPKLIDFSAQIAEGMAFIEQRNYIHRDLRAANILVSASLVCKIADFGLARVIEDNEYTAREGAKFPIKWTAPEAINFGSFTIKSDVWSFGILLMEIVTYGRIPYPGMSNPEVIRALERGYRMPRPENCPEELYNIMMRCWKNRPEERPTFEYIQSVLDDFYTAT 5zjm-a2-m1-cC_5zjm-a2-m3-cD Crystal structure of N-acetylneuraminate lyase from Fusobacterium nucleatum Q8RDN6 Q8RDN6 2.323 X-RAY DIFFRACTION 69 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 290 291 5zjm-a1-m1-cA_5zjm-a1-m2-cB 5zjm-a1-m2-cA_5zjm-a1-m1-cB 5zjm-a2-m3-cC_5zjm-a2-m1-cD FMKGIYSALMVPYNEDGSINEKGLREIIRYNIDKMKVDGLYVGGSTGENFMISTEEKKRVFEIAIDEAKDSVNLIAQVGSINLNEAVELGKYVTKLGYKCLSAVTPFYYKFDFSEIKDYYETIVRETGNYMIIYSIPFLTGVNMSLSQFGELFENEKIIGVKFTAGDFYLLERVRKAFPDKLIFAGFDEMLLPATVLGVDGAIGSTYNINGIRAKQIFELAKNSKIDEALKIQHTTNDLIEGILSNGLYQTIKEILKLEGVDAGYCRKPMKKISQKQIEFAKELHKKFLK GFMKGIYSALMVPYNEDGSINEKGLREIIRYNIDKMKVDGLYVGGSTGENFMISTEEKKRVFEIAIDEAKDSVNLIAQVGSINLNEAVELGKYVTKLGYKCLSAVTPFYYKFDFSEIKDYYETIVRETGNYMIIYSIPFLTGVNMSLSQFGELFENEKIIGVKFTAGDFYLLERVRKAFPDKLIFAGFDEMLLPATVLGVDGAIGSTYNINGIRAKQIFELAKNSKIDEALKIQHTTNDLIEGILSNGLYQTIKEILKLEGVDAGYCRKPMKKISQKQIEFAKELHKKFLK 5zjm-a2-m3-cC_5zjm-a2-m3-cD Crystal structure of N-acetylneuraminate lyase from Fusobacterium nucleatum Q8RDN6 Q8RDN6 2.323 X-RAY DIFFRACTION 68 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 290 291 5zjm-a1-m1-cA_5zjm-a1-m1-cB 5zjm-a1-m2-cA_5zjm-a1-m2-cB 5zjm-a2-m1-cC_5zjm-a2-m1-cD 5zka-a1-m1-cA_5zka-a1-m1-cB FMKGIYSALMVPYNEDGSINEKGLREIIRYNIDKMKVDGLYVGGSTGENFMISTEEKKRVFEIAIDEAKDSVNLIAQVGSINLNEAVELGKYVTKLGYKCLSAVTPFYYKFDFSEIKDYYETIVRETGNYMIIYSIPFLTGVNMSLSQFGELFENEKIIGVKFTAGDFYLLERVRKAFPDKLIFAGFDEMLLPATVLGVDGAIGSTYNINGIRAKQIFELAKNSKIDEALKIQHTTNDLIEGILSNGLYQTIKEILKLEGVDAGYCRKPMKKISQKQIEFAKELHKKFLK GFMKGIYSALMVPYNEDGSINEKGLREIIRYNIDKMKVDGLYVGGSTGENFMISTEEKKRVFEIAIDEAKDSVNLIAQVGSINLNEAVELGKYVTKLGYKCLSAVTPFYYKFDFSEIKDYYETIVRETGNYMIIYSIPFLTGVNMSLSQFGELFENEKIIGVKFTAGDFYLLERVRKAFPDKLIFAGFDEMLLPATVLGVDGAIGSTYNINGIRAKQIFELAKNSKIDEALKIQHTTNDLIEGILSNGLYQTIKEILKLEGVDAGYCRKPMKKISQKQIEFAKELHKKFLK 5zjn-a1-m1-cA_5zjn-a1-m1-cB Structure of N-acetylmannosamine-6-phosphate-2-epimerase from Vibrio cholerae with N-acetylmannosamine-6-phosphate Q9KR62 Q9KR62 2.66 X-RAY DIFFRACTION 145 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 220 223 5zjb-a1-m1-cA_5zjb-a1-m1-cB 5zjp-a1-m1-cA_5zjp-a1-m1-cB IEELKRFLNGQTVVSIQPVTGSPLDKTDFIVAMAIAVEQAGAKALRIEGVSNVAAVSAAVTIPIIGIVKRDLPDSPVRITPFVSDVDGLANAGATVIAFDATNRTRPESRERIAQAIKNTGCFAMADCSTFEDGLWANSQGVEIVGSTLSGYVPTVPDFQLVKAFSEAGFFTMAEGRYNTPELAAKAIESGAVAVTVGSALTRLEVVTQWFNNATQAAGE LNIEELKRFLNGQTVVSIQPVTGSPLDKTDFIVAMAIAVEQAGAKALRIEGVSNVAAVSAAVTIPIIGIVKRDLPDSPVRITPFVSDVDGLANAGATVIAFDATNRTRPESRERIAQAIKNTGCFAMADCSTFEDGLWANSQGVEIVGSTLSGYVPTVPDFQLVKAFSEAGFFTMAEGRYNTPELAAKAIESGAVAVTVGSALTRLEVVTQWFNNATQAAGER 5zkh-a1-m1-cA_5zkh-a1-m1-cB Crystal Structure of N-terminal Domain of Plasmodium falciparum p43 A0A0L7M8L6 A0A0L7M8L6 2.991 X-RAY DIFFRACTION 49 0.988 57267 (Plasmodium falciparum Dd2) 57267 (Plasmodium falciparum Dd2) 160 168 CVLTLVKDDIKSDILKLVLDYIKVTVVQVKLPEICYDKKITLQYKNKTYKDLFCTLYALIDIYDCYSELFNEDEGKVSENEEFIFHLASDKYILKQSDMKHLNDLLCEKSYIISNKHASIVDIFYFCAIHAVKERIEFSYIYRWYLHIQETLLANFSTLK CVLTLVKDDIKSDILKLVLDYIKVTVDNENVKLPEICYDKKITLQYKNKTYKDLFCTLYALIDIYDCYSELFNEDEGKVSENEEFIFHLASDKYILKQSDMKHLNDLLCEKSYIISNKHASIVDIFYFCAIHKLLDEMAVKERIEFSYIYRWYLHIQETLLANFSTLK 5zkn-a1-m1-cA_5zkn-a1-m2-cA Structure of N-acetylmannosamine-6-phosphate 2-epimerase from Fusobacterium nucleatum Q8RDN5 Q8RDN5 2.205 X-RAY DIFFRACTION 132 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 225 225 FMNKILESIRGKLIVSCQALEDEPLHSSFIMGRMAYAAYSGGAAGIRANTVEDIKEIKKNVSLPIIGIIKKVYNNSDVYITPTIKEVEDLINEGVQIIAIDATKRERPDRKDLKNFIAEIKEKYPNQLFMADISSVDEALYAEKIGFDIVGTTLVGYTDYTKNYKALEELKKVVKVVKIPVIAEGNIDTPLKAKKALEIGAFAVVVGGAITRPQQITKKFVDEMK FMNKILESIRGKLIVSCQALEDEPLHSSFIMGRMAYAAYSGGAAGIRANTVEDIKEIKKNVSLPIIGIIKKVYNNSDVYITPTIKEVEDLINEGVQIIAIDATKRERPDRKDLKNFIAEIKEKYPNQLFMADISSVDEALYAEKIGFDIVGTTLVGYTDYTKNYKALEELKKVVKVVKIPVIAEGNIDTPLKAKKALEIGAFAVVVGGAITRPQQITKKFVDEMK 5zko-a1-m1-cA_5zko-a1-m1-cC Crystal structure of the CRTC2-CREB-CRE complex P16220 P16220 3.05 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 1dh3-a1-m1-cA_1dh3-a1-m1-cC 5zk1-a1-m1-cA_5zk1-a1-m2-cA KREVRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKALKDLYC KREVRLMKNREAARECRRKKKEYVKCLENRVAVLENQNKTLIEELKALKDLYC 5zkq-a1-m1-cA_5zkq-a1-m1-cB Crystal structure of the human platelet-activating factor receptor in complex with ABT-491 P25105 P25105 2.9 X-RAY DIFFRACTION 40 0.989 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 279 399 HDSSHMDSEFRYTLFPIVYSIIFVLGVIANGYVLWVFARLFNEIKIFMVNLTMADMLFLITLPLWIVYYQNQGNWILPKFLCNVAGCLFFINTYCSVAFLGVITYNRYQAVTRPQANTRKRGISLSLVIWVAIVGAASYFLILDSTNTVPDSAGSGDVTRCFEHYEKGSVPVLIIHIFIVFSFFLVFLIILFCNLVIIRTLLMQPAEVKRRDLWMACTVLAVFIICFVPHHVVQLPWTLAELGFQDSKFHQAINDAHQVTLCLLSTNCVLNPVIYCFLT SHMDSEFRYTLFPIVYSIIFVLGVIANGYVLWVFARLYPFNEIKIFMVNLTMADMLFLITLPLWIVYYQNQGNWILPKFLCNVAGCLFFINTYCSVAFLGVITYNRYQAVTRPIQANTRKRGISLSLVIWVAIVGAASYFLILDSTNTVPDSAGSGDVTRCFEHYEKGSVPVLIIHIFIVFSFFLVFLIILFCNLVIIRTLLMQPVNIFEMLRIDEGGGSGGDEEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSRWYNQTPNRAKRVITTFRTGTWDAYAEVKRRDLWMACTVLAVFIICFVPHHVVQLPWTLAELGFQDSKFHQAINDAHQVTLCLLSTNCVLNPVIYCFLTKKF 5zkt-a1-m1-cA_5zkt-a1-m1-cB Crystal structure of TCP domain of PCF6 in Oryza sativa Q0D8K4 Q0D8K4 1.74 X-RAY DIFFRACTION 120 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 54 55 SKVYTAKGIRDRRVRLSVSTAIQFYDLQDRLGYDQPSKAIEWLIKAAAAAIDKL SKVYTAKGIRDRRVRLSVSTAIQFYDLQDRLGYDQPSKAIEWLIKAAAAAIDKLP 5zl6-a2-m1-cC_5zl6-a2-m1-cD Histidine Racemase from Leuconostoc mesenteroides subsp. sake NBRC 102480 Q03Z32 Q03Z32 2.1 X-RAY DIFFRACTION 216 1.0 1123962 (Leuconostoc mesenteroides subsp. sake) 1123962 (Leuconostoc mesenteroides subsp. sake) 372 372 5zl6-a1-m1-cA_5zl6-a1-m1-cB NYNAPHRHAVIELSQSAVVHNLKVIKENTHAKEIMAVLKANAFSHGLPEMASLSITAGATRFGMAMLDEALTLRDLGYIQPIDVLGLTDPRYARLAAERNITLAFSTKESIKAAAEQLAGTGLTLKVSLPVDTGLNRIGFKSREDLVAAIQEVSAQDTLIFQSMWTHFATADTPNVDYVDFQISEWQRLTHDLPVEPNEKHFANTGIATWYPEKINTDIVRLGIGLFGINGSVPIMSMPFELIPALSLKAKVVNSKPLKKGDAVGYGAEYHAPNDGYLITIPIGHSDGYPFNGSGMRALVADGQIGHIVGGVAMDQSMIFVTNPVAVGTTVTLIGRVGDQSITMQDLAEHTQSSIVALMNDFAPRLQRIIVS NYNAPHRHAVIELSQSAVVHNLKVIKENTHAKEIMAVLKANAFSHGLPEMASLSITAGATRFGMAMLDEALTLRDLGYIQPIDVLGLTDPRYARLAAERNITLAFSTKESIKAAAEQLAGTGLTLKVSLPVDTGLNRIGFKSREDLVAAIQEVSAQDTLIFQSMWTHFATADTPNVDYVDFQISEWQRLTHDLPVEPNEKHFANTGIATWYPEKINTDIVRLGIGLFGINGSVPIMSMPFELIPALSLKAKVVNSKPLKKGDAVGYGAEYHAPNDGYLITIPIGHSDGYPFNGSGMRALVADGQIGHIVGGVAMDQSMIFVTNPVAVGTTVTLIGRVGDQSITMQDLAEHTQSSIVALMNDFAPRLQRIIVS 5zle-a1-m1-cA_5zle-a1-m2-cA Human duodenal cytochrome b (Dcytb) in substrate free form Q53TN4 Q53TN4 2.6 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 225 5zlg-a1-m1-cA_5zlg-a1-m2-cA YWRFLALLGSALLVGFLSVIFALVWVLHYREGLGWDGSALEFNWHPVLMVTGFVFIQGIAIIVYRLPWTWKCSKLLMKSIHAGLNAVAAILAIISVVAVFENHNVNNIANMYSLHSWVGLIAVICYLLQLLSGFSVFLLPWAPLSLRAFLMPIHVYSGIVIFGTVIATALMGLTEKLIFSLRDPAYSTFPPEGVFVNTLGLLILVFGALIFWIVTRPQWKRPKEP YWRFLALLGSALLVGFLSVIFALVWVLHYREGLGWDGSALEFNWHPVLMVTGFVFIQGIAIIVYRLPWTWKCSKLLMKSIHAGLNAVAAILAIISVVAVFENHNVNNIANMYSLHSWVGLIAVICYLLQLLSGFSVFLLPWAPLSLRAFLMPIHVYSGIVIFGTVIATALMGLTEKLIFSLRDPAYSTFPPEGVFVNTLGLLILVFGALIFWIVTRPQWKRPKEP 5zln-a1-m1-cA_5zln-a1-m1-cB Crystal structure of mouse TLR9 in complex with two DNAs (CpG DNA and TCGCCA DNA) Q9EQU3 Q9EQU3 2.3 X-RAY DIFFRACTION 86 1.0 10090 (Mus musculus) 10090 (Mus musculus) 751 753 TLPAFLPCELKPHGLVDCNWLFLKSVPRFSAAASCSNITRLSLISNRIHHLHNSDFVHLSNLRQLNLKWNCPPTGLSPLHFSCHMTIEPRTFLAMRTLEELNLSYNGITTVPRLPSSLVNLSLSHTNILVLDANSLAGLYSLRVLFMDGNCYYKNPCTGAVKVTPGALLGLSNLTHLSLKYNNLTKVPRQLPPSLEYLLVSYNLIVKLGPEDLANLTSLRVLDVGGNCRRCDHAPNPCIECGQKSLHLHPETFHHLSHLEGLVLKDSSLHTLNSSWFQGLVNMSVLDLSENFLYESIQHTNAFQNLTRLRKLNLSFNYRKKVSFARLHLASSFKNLVSLQELNMNGIFFRSLNKYTLRWLADLPKLHTLHLQMNFINQAQLSIFGTFRALRFVDLSDNRISGPSTKNFMDRCKNFKFTMDLSRNNLVTIKPEMFVQLSRLQCLSLSHNSIAQAVQGSQFLPLTNLQVLDLSHNKLDLYHWKSFSELPQLQALDLSYNSQPFSMKGIGHNFSFVAHLSMLHSLSLAHNDIHTRVSSHLNSNSVRFLDFSGNGMGRMWDEGGLYLHFFQGLSGLLKLDLSQNNLHILRPQNLDNLPKSLKLLSLRDNYLSFFQWTSLSFLPNLEVLDLAGNQLKALTNGTLPNGTLLQKLDVSSNSIVSVVPAFFALAVELKEVNLSHNILKTVDRSWFGPIVMNLTVLDVRSNPLHCACGAAFVDLLLEVQTKVPGLANGVKCGSPGQLQGRSIFAQDLRLC TLPAFLPCELKPHGLVDCNWLFLKSVPRFSAAASCSNITRLSLISNRIHHLHNSDFVHLSNLRQLNLKWNCPPTGLSPLHFSCHMTIEPRTFLAMRTLEELNLSYNGITTVPRLPSSLVNLSLSHTNILVLDANSLAGLYSLRVLFMDGNCYYKNPCTGAVKVTPGALLGLSNLTHLSLKYNNLTKVPRQLPPSLEYLLVSYNLIVKLGPEDLANLTSLRVLDVGGNCRRCDHAPNPCIECGQKSLHLHPETFHHLSHLEGLVLKDSSLHTLNSSWFQGLVNMSVLDLSENFLYESIQHTNAFQNLTRLRKLNLSFNYRKKVSFARLHLASSFKNLVSLQELNMNGIFFRSLNKYTLRWLADLPKLHTLHLQMNFINQAQLSIFGTFRALRFVDLSDNRISGPSTLSKNFMDRCKNFKFTMDLSRNNLVTIKPEMFVQLSRLQCLSLSHNSIAQAVQGSQFLPLTNLQVLDLSHNKLDLYHWKSFSELPQLQALDLSYNSQPFSMKGIGHNFSFVAHLSMLHSLSLAHNDIHTRVSSHLNSNSVRFLDFSGNGMGRMWDEGGLYLHFFQGLSGLLKLDLSQNNLHILRPQNLDNLPKSLKLLSLRDNYLSFFQWTSLSFLPNLEVLDLAGNQLKALTNGTLPNGTLLQKLDVSSNSIVSVVPAFFALAVELKEVNLSHNILKTVDRSWFGPIVMNLTVLDVRSNPLHCACGAAFVDLLLEVQTKVPGLANGVKCGSPGQLQGRSIFAQDLRLC 5zlr-a1-m1-cB_5zlr-a1-m1-cA Structure of NeuC A0A154EJU5 A0A154EJU5 2.001 X-RAY DIFFRACTION 148 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 366 370 5xvs-a1-m1-cA_5xvs-a1-m1-cB 5zlt-a1-m1-cB_5zlt-a1-m1-cA 5zlt-a1-m1-cD_5zlt-a1-m1-cC MKKIAVFTGTRAEYGLLYWLMRDIQQDPELELQILATAMHYSPEHGETWKTIVKDGFEITESVEMLLSSDTSSAVVKSMGVGLLGFADALKRMQPDVLVVLGDRFEALAVTQAALIMHVPVAHLHGGEITEGAYDESIRHAITKMSNIHFAAAEEYKKRIIQLGEQPERVFNVGALGLDHIQRTTFKSISELSELYDFDFSKPYFLITYHPETNLLEENVAPLFDALKQINDVNFIFSYPNADNGNTNIVKAMLDLKAQLPDRVLLVKSFGIQNYLSVLKNALAMVGNSSSGLSEAPALQVPTVNIGDRQKGRLRCESILDVRLDENEIVEALQKAINFLGNTSQKIIEVIKTTDFKKKAPFYDLL MKKIAVFTGTRAEYGLLYWLMRDIQQDPELELQILATAMHYSPEHGETWKTIVKDGFEITESVEMLLSSDTSSAVVKSMGVGLLGFADALKRMQPDVLVVLGDRFEALAVTQAALIMHVPVAHLHGGEITEGAYDESIRHAITKMSNIHFAAAEEYKKRIIQLGEQPERVFNVGALGLDHIQRTTFKSISELSELYDFDFSKPYFLITYHPETNLLEENVAPLFDALKQINDVNFIFSYPNADNGNTNIVKAMLDLKAQLPDRVLLVKSFGIQNYLSVLKNALAMVGNSSSGLSEAPALQVPTVNIGDRQKGRLRCESILDVRLDENEIVEALQKAINFPPLGLGNTSQKIIEVIKTTDFKKKAPFYDLL 5zlt-a1-m1-cB_5zlt-a1-m1-cD Crystal structure of UDP-GlcNAc 2-epimerase NeuC complexed with UDP A0A154EJU5 A0A154EJU5 2.5 X-RAY DIFFRACTION 18 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 366 366 5zlt-a1-m1-cA_5zlt-a1-m1-cC MKKIAVFTGTRAEYGLLYWLMRDIQQDPELELQILATAMHYSPEHGETWKTIVKDGFEITESVEMLLSSDTSSAVVKSMGVGLLGFADALKRMQPDVLVVLGDRFEALAVTQAALIMHVPVAHLHGGEITEGAYDESIRHAITKMSNIHFAAAEEYKKRIIQLGEQPERVFNVGALGLDHIQRTTFKSISELSELYDFDFSKPYFLITYHPETNLLEENVAPLFDALKQINDVNFIFSYPNADNGNTNIVKAMLDLKAQLPDRVLLVKSFGIQNYLSVLKNALAMVGNSSSGLSEAPALQVPTVNIGDRQKGRLRCESILDVRLDENEIVEALQKAINFLGNTSQKIIEVIKTTDFKKKAPFYDLL MKKIAVFTGTRAEYGLLYWLMRDIQQDPELELQILATAMHYSPEHGETWKTIVKDGFEITESVEMLLSSDTSSAVVKSMGVGLLGFADALKRMQPDVLVVLGDRFEALAVTQAALIMHVPVAHLHGGEITEGAYDESIRHAITKMSNIHFAAAEEYKKRIIQLGEQPERVFNVGALGLDHIQRTTFKSISELSELYDFDFSKPYFLITYHPETNLLEENVAPLFDALKQINDVNFIFSYPNADNGNTNIVKAMLDLKAQLPDRVLLVKSFGIQNYLSVLKNALAMVGNSSSGLSEAPALQVPTVNIGDRQKGRLRCESILDVRLDENEIVEALQKAINFLGNTSQKIIEVIKTTDFKKKAPFYDLL 5zlt-a1-m1-cD_5zlt-a1-m1-cA Crystal structure of UDP-GlcNAc 2-epimerase NeuC complexed with UDP A0A154EJU5 A0A154EJU5 2.5 X-RAY DIFFRACTION 52 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 366 370 5zlt-a1-m1-cB_5zlt-a1-m1-cC MKKIAVFTGTRAEYGLLYWLMRDIQQDPELELQILATAMHYSPEHGETWKTIVKDGFEITESVEMLLSSDTSSAVVKSMGVGLLGFADALKRMQPDVLVVLGDRFEALAVTQAALIMHVPVAHLHGGEITEGAYDESIRHAITKMSNIHFAAAEEYKKRIIQLGEQPERVFNVGALGLDHIQRTTFKSISELSELYDFDFSKPYFLITYHPETNLLEENVAPLFDALKQINDVNFIFSYPNADNGNTNIVKAMLDLKAQLPDRVLLVKSFGIQNYLSVLKNALAMVGNSSSGLSEAPALQVPTVNIGDRQKGRLRCESILDVRLDENEIVEALQKAINFLGNTSQKIIEVIKTTDFKKKAPFYDLL MKKIAVFTGTRAEYGLLYWLMRDIQQDPELELQILATAMHYSPEHGETWKTIVKDGFEITESVEMLLSSDTSSAVVKSMGVGLLGFADALKRMQPDVLVVLGDRFEALAVTQAALIMHVPVAHLHGGEITEGAYDESIRHAITKMSNIHFAAAEEYKKRIIQLGEQPERVFNVGALGLDHIQRTTFKSISELSELYDFDFSKPYFLITYHPETNLLEENVAPLFDALKQINDVNFIFSYPNADNGNTNIVKAMLDLKAQLPDRVLLVKSFGIQNYLSVLKNALAMVGNSSSGLSEAPALQVPTVNIGDRQKGRLRCESILDVRLDENEIVEALQKAINFPPLGLGNTSQKIIEVIKTTDFKKKAPFYDLL 5zm5-a1-m1-cA_5zm5-a1-m2-cA Crystal structure of human ORP1-ORD in complex with cholesterol at 2.6 A resolution Q9BXW6 Q9BXW6 2.6 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 393 393 MRTSLPSPMFSRNDFSIWSILRKIGMELSKITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPGLFGKELHKVEGYIQDKSKKKLALYGKWTELYSVDPATFDAYKKNEMPVPDSESVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNEVDKDMESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKSEEDWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIYL MRTSLPSPMFSRNDFSIWSILRKIGMELSKITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPGLFGKELHKVEGYIQDKSKKKLALYGKWTELYSVDPATFDAYKKNEMPVPDSESVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNEVDKDMESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKSEEDWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIYL 5zm6-a1-m1-cB_5zm6-a1-m2-cB Crystal structure of ORP1-ORD in complex with PI(4,5)P2 Q9BXW6 Q9BXW6 2.7 X-RAY DIFFRACTION 104 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 372 372 5zm6-a1-m1-cA_5zm6-a1-m2-cA KKHRTSLPSPMFIWSILRKCITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPCKELHKVEGYIQDKSKKKLCALYGKWTECLYSVDPATFDAYKSVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNEVDKDMESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKSEEDWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIY KKHRTSLPSPMFIWSILRKCITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPCKELHKVEGYIQDKSKKKLCALYGKWTECLYSVDPATFDAYKSVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNEVDKDMESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKSEEDWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIY 5zm6-a1-m2-cB_5zm6-a1-m2-cA Crystal structure of ORP1-ORD in complex with PI(4,5)P2 Q9BXW6 Q9BXW6 2.7 X-RAY DIFFRACTION 32 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 372 392 5zm6-a1-m1-cB_5zm6-a1-m1-cA KKHRTSLPSPMFIWSILRKCITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPCKELHKVEGYIQDKSKKKLCALYGKWTECLYSVDPATFDAYKSVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNEVDKDMESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKSEEDWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIY HRTSLPSPMFSRNDFSIWSILRKCIGMELSKITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPCGLFGKELHKVEGYIQDKSKKKLCALYGKWTECLYSVDPATFDAYKVPDSESVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNEVDKDMESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKSEEDWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIY 5zm7-a1-m2-cA_5zm7-a1-m3-cA Crystal structure of ORP1-ORD in complex with cholesterol at 3.4 A resolution Q9BXW6 Q9BXW6 3.401 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 366 366 5zm7-a1-m1-cA_5zm7-a1-m2-cA 5zm7-a1-m1-cA_5zm7-a1-m3-cA RTSLPSPMSILRKCIGMELSKITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPCGELHKVEGYIQDKSKKKLCALYGKWTECLYSVDPATFDAYKVPDSVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIY RTSLPSPMSILRKCIGMELSKITMPVIFNEPLSFLQRLTEYMEHTYLIHKASSLSDPVERMQCVAAFAVSAVASQWERTGKPFNPLLGETYELVRDDLGFRLISEQVSHHPPISAFHAEGLNNDFIFHGSIYPKLKFWGKSVEAEPKGTITLELLEHNEAYTWTNPTCCVHNIIVGKLWIEQYGNVEIINHKTGDKCVLNFKPCGELHKVEGYIQDKSKKKLCALYGKWTECLYSVDPATFDAYKVPDSVFIIPGSVLLWRIAPRPPNSAQMYNFTSFAMVLNESVIPKTDCRLRPDIRAMENGEIDQASEEKKRLEEKQRAARKNRSKWKTRWFHQGPNPYNGAQDWIYSGSYWDRNYFNLPDIY 5zm8-a1-m1-cA_5zm8-a1-m4-cA Crystal structure of ORP2-ORD in complex with PI(4,5)P2 Q9H1P3 Q9H1P3 2.7 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 386 5zm8-a1-m2-cA_5zm8-a1-m3-cA KHRTSLPAPMFSRSDFSVWTILKKCVGLELSKITMPIAFNEPLSFLQRITEYMEHVYLIHRASCQPQPLERMQSVAAFAVSAVASQWERTGKPFNPLLGETYELIREDLGFRFISEQVSHHPPISAFHSEGLNHDFLFHGSIYPKLKFWGKSVEAEPRGTITLELLKHNEAYTWTNPTCCVHNVIIGKLWIEQYGTVEILNHRTGHKCVLHFKPCGLFGKELHKVEGHIQDKNKKKLFMIYGKWTECLWGIDPVSYESTVQVIPGSKLLWRINTRPPNSAQMYNFTSFTVSLNELETGMEKTLPPTDCRLRPDIRGMENGNMDLASQEKERLEEKQREARRERAKEEAEWQTRWFYPGNNPYTGTPDWLYAGDYFERNFSDCPDIY KHRTSLPAPMFSRSDFSVWTILKKCVGLELSKITMPIAFNEPLSFLQRITEYMEHVYLIHRASCQPQPLERMQSVAAFAVSAVASQWERTGKPFNPLLGETYELIREDLGFRFISEQVSHHPPISAFHSEGLNHDFLFHGSIYPKLKFWGKSVEAEPRGTITLELLKHNEAYTWTNPTCCVHNVIIGKLWIEQYGTVEILNHRTGHKCVLHFKPCGLFGKELHKVEGHIQDKNKKKLFMIYGKWTECLWGIDPVSYESTVQVIPGSKLLWRINTRPPNSAQMYNFTSFTVSLNELETGMEKTLPPTDCRLRPDIRGMENGNMDLASQEKERLEEKQREARRERAKEEAEWQTRWFYPGNNPYTGTPDWLYAGDYFERNFSDCPDIY 5zm8-a1-m2-cA_5zm8-a1-m4-cA Crystal structure of ORP2-ORD in complex with PI(4,5)P2 Q9H1P3 Q9H1P3 2.7 X-RAY DIFFRACTION 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 386 5zm8-a1-m1-cA_5zm8-a1-m3-cA KHRTSLPAPMFSRSDFSVWTILKKCVGLELSKITMPIAFNEPLSFLQRITEYMEHVYLIHRASCQPQPLERMQSVAAFAVSAVASQWERTGKPFNPLLGETYELIREDLGFRFISEQVSHHPPISAFHSEGLNHDFLFHGSIYPKLKFWGKSVEAEPRGTITLELLKHNEAYTWTNPTCCVHNVIIGKLWIEQYGTVEILNHRTGHKCVLHFKPCGLFGKELHKVEGHIQDKNKKKLFMIYGKWTECLWGIDPVSYESTVQVIPGSKLLWRINTRPPNSAQMYNFTSFTVSLNELETGMEKTLPPTDCRLRPDIRGMENGNMDLASQEKERLEEKQREARRERAKEEAEWQTRWFYPGNNPYTGTPDWLYAGDYFERNFSDCPDIY KHRTSLPAPMFSRSDFSVWTILKKCVGLELSKITMPIAFNEPLSFLQRITEYMEHVYLIHRASCQPQPLERMQSVAAFAVSAVASQWERTGKPFNPLLGETYELIREDLGFRFISEQVSHHPPISAFHSEGLNHDFLFHGSIYPKLKFWGKSVEAEPRGTITLELLKHNEAYTWTNPTCCVHNVIIGKLWIEQYGTVEILNHRTGHKCVLHFKPCGLFGKELHKVEGHIQDKNKKKLFMIYGKWTECLWGIDPVSYESTVQVIPGSKLLWRINTRPPNSAQMYNFTSFTVSLNELETGMEKTLPPTDCRLRPDIRGMENGNMDLASQEKERLEEKQREARRERAKEEAEWQTRWFYPGNNPYTGTPDWLYAGDYFERNFSDCPDIY 5zm8-a1-m3-cA_5zm8-a1-m4-cA Crystal structure of ORP2-ORD in complex with PI(4,5)P2 Q9H1P3 Q9H1P3 2.7 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 386 5zm8-a1-m1-cA_5zm8-a1-m2-cA KHRTSLPAPMFSRSDFSVWTILKKCVGLELSKITMPIAFNEPLSFLQRITEYMEHVYLIHRASCQPQPLERMQSVAAFAVSAVASQWERTGKPFNPLLGETYELIREDLGFRFISEQVSHHPPISAFHSEGLNHDFLFHGSIYPKLKFWGKSVEAEPRGTITLELLKHNEAYTWTNPTCCVHNVIIGKLWIEQYGTVEILNHRTGHKCVLHFKPCGLFGKELHKVEGHIQDKNKKKLFMIYGKWTECLWGIDPVSYESTVQVIPGSKLLWRINTRPPNSAQMYNFTSFTVSLNELETGMEKTLPPTDCRLRPDIRGMENGNMDLASQEKERLEEKQREARRERAKEEAEWQTRWFYPGNNPYTGTPDWLYAGDYFERNFSDCPDIY KHRTSLPAPMFSRSDFSVWTILKKCVGLELSKITMPIAFNEPLSFLQRITEYMEHVYLIHRASCQPQPLERMQSVAAFAVSAVASQWERTGKPFNPLLGETYELIREDLGFRFISEQVSHHPPISAFHSEGLNHDFLFHGSIYPKLKFWGKSVEAEPRGTITLELLKHNEAYTWTNPTCCVHNVIIGKLWIEQYGTVEILNHRTGHKCVLHFKPCGLFGKELHKVEGHIQDKNKKKLFMIYGKWTECLWGIDPVSYESTVQVIPGSKLLWRINTRPPNSAQMYNFTSFTVSLNELETGMEKTLPPTDCRLRPDIRGMENGNMDLASQEKERLEEKQREARRERAKEEAEWQTRWFYPGNNPYTGTPDWLYAGDYFERNFSDCPDIY 5zmd-a2-m1-cE_5zmd-a2-m1-cG Crystal structure of FTO in complex with m6dA modified ssDNA Q9C0B1 Q9C0B1 3.3 X-RAY DIFFRACTION 45 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 395 403 5zmd-a1-m1-cC_5zmd-a1-m1-cA EFYQQWQLKYPKLILREASSVSEELHKEVQEAFLTLHKHGCLFRDLVRIKGKDLLTPVSRILIGNPGCTYKYLNTRLFTVPWPVKKHTEAEIAAACETFLKLNDYLQIETIQALEELAAVDIKSRAAYNVTLLNFMDPQKMPYLKEEPYFGMGKMAVSWHHDENLVDRSAVAVYSYSCEDIWHVGFKISWDIETPGLAIPLHQGDCYFMLDDLNATHKHCVLAGSQPRFSSTHRVAECSTGTLDYILQRCQLALQNVDVSLKSFEPAVLKQGEEIHNEVEFEWLRQFWFQGNRYRKCTDWWCQPMAQLEALWKKMEGVTNAVLHEVQRNEILTAILASLTARQNLRREWHARCQSRIARTLPADQKPECRPYWEKDDASMPLPFDLTDIVSELRG EFYQQWQLKYPKLILREASSVSEELHKEVQEAFLTLHKHGCLFRDLVRIKGKDLLTPVSRILIGNPGCTYKYLNTRLFTVPWPVKGSNIKHTEAEIAAACETFLKLNDYLQIETIQALEELAAKDEVDIKSRAAYNVTLLNFMDPQKMPYLKEEPYFGMGKMAVSWHHDENLVDRSAVAVYSYSCDIWHVGFKISWDIETPGLAIPLHQGDCYFMLDDLNATHKHCVLAGSQPRFSSTHRVAECSTGTLDYILQRCQLALQNVSLKSFEPAVLKQGEEIHNEVEFEWLRQFWFQGNRYRKCTDWWCQPMAQLEALWKKMEGVTNAVLHEVKREQRNEILTAILASLTARQNLRREWHARCQSRIARTLPADQKPECRPYWEKDDASMPLPFDLTDIVSELRGQ 5zmi-a1-m1-cA_5zmi-a1-m2-cA Crystal structure of APRT from Y. pseudotuberculosis in complex with adenine. Q66DQ2 Q66DQ2 2.05 X-RAY DIFFRACTION 98 1.0 273123 (Yersinia pseudotuberculosis IP 32953) 273123 (Yersinia pseudotuberculosis IP 32953) 178 178 4mb6-a1-m1-cA_4mb6-a1-m2-cA 5b6h-a1-m1-cA_5b6h-a1-m2-cA 5y07-a1-m1-cB_5y07-a1-m1-cA 5zc7-a1-m1-cB_5zc7-a1-m1-cA 5znq-a1-m1-cA_5znq-a1-m1-cB 5zoc-a1-m1-cA_5zoc-a1-m2-cA TAQQLKYIKDSIKTIPDYPKAGILFRDVTSLLENPKAYSASIELLSEHYSESGVTKVVGTEARGFLFGAPVALALGVGFVPVRKPGKLPRETISESYELEYGTDTLEIHTDSIQPGDKVLVVDDLLATGGTIEATVKLIRRLGGEVVHAAFIINLPELGGEARLTQQGIHCYSLVSFD TAQQLKYIKDSIKTIPDYPKAGILFRDVTSLLENPKAYSASIELLSEHYSESGVTKVVGTEARGFLFGAPVALALGVGFVPVRKPGKLPRETISESYELEYGTDTLEIHTDSIQPGDKVLVVDDLLATGGTIEATVKLIRRLGGEVVHAAFIINLPELGGEARLTQQGIHCYSLVSFD 5zmm-a1-m1-cD_5zmm-a1-m1-cC Structure of the Type IV phosphorothioation-dependent restriction endonuclease ScoMcrA Q9L0M9 Q9L0M9 3.15 X-RAY DIFFRACTION 132 0.992 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 489 522 5zmm-a1-m1-cB_5zmm-a1-m1-cA RAGILQAIAEHDRIGPEAFYFLEHEGRLYDSKAIAGVAHMYKHAVAWLRREGFTIREAPKTFHRRVGDVRPAALHRPVLLLWAIGQAVARAPRLQPWSTTRDAVAPLMEKYGQVEDGVDGVRYPFWALVRDDLWLREDDYNLLRSQPEAAASAAAGLIARYFHLLPAGLLEDFGLHELLAGRWPDALRPLLGETFKDRDAIWRAYGGQKMAGIGCLADGILSAFSDDKGPYADGRIPDTTWIAYVGDGLSGDQKLTDGNELMAEHQAVGRALRYWHKPFQGQWSFETWAVIVQRRLRWGLGEDKLPRREFLWVLAPVPSPERETWPPEVLEALEADTGELHDDTGDYRPSDLALTPGAPDGTESDDEAYRRLAQKAEANAERRGQLKKPTVADKYVRDPSARGAVLKRCQKRCENPECAGHPTELTKAGLPILQVDHVNDLAKGGPDVPWNMIALCPNCHALKTYGANKVRLQRLLAATARRLHEEKLQ TRAGILQAIAEHDRIGPEAFRATLEHEGRLYDSKAIAGVAHMYHAVAWLRREGFTIREAPKTFHRRVGDVRPAMGPALHRPVLLLWAIGQAVARAPRLQPWSTTRDAVAPLMEKYGQVEDGVDGVRYPFWALVRDDLWCVEQAEELTLTSRGRRPTLESLNAVDPSAGLREDDYNLLRSQPEAAASAAAGLIARYFHLLPAGLLEDFGLHELLAGRWPDALRPLLGETFKDRDAIWRAYGGQKMAGIGCLADGILSAFSDDKGPYADGRIPDTTWIAYVGDGLSGDQKLTDGNELMAEHQAVGRALRYWHKPFQGQWSFETWAVIVQRRLRWGLGEDKLPRREFLWVLAPVPSPERETWPPEVLEALEADTGELHDDTGDYRPSDLALTPGAPGTESDDEAYRRLAQKAEANAERRGQLKKPTVADKYVRDPSARGAVLKRCQKRCENPECAGHPTELTKAGLPILQVDHVNDLAKGGPDVPWNMIALCPNCHALKTYGANKVRLQRLLAATARRLHEEKLQ 5zmm-a1-m1-cE_5zmm-a1-m1-cC Structure of the Type IV phosphorothioation-dependent restriction endonuclease ScoMcrA Q9L0M9 Q9L0M9 3.15 X-RAY DIFFRACTION 35 0.984 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 499 522 5zmm-a1-m1-cC_5zmm-a1-m1-cA 5zmm-a1-m1-cD_5zmm-a1-m1-cB GILQAIAEHDRTSYFLEHEGRLYDSKAIAGVAHMYDLKHAVAWLRREGFTIREAPKTFHRRVGDVRPAALHRPVLLLWAIGQAVARAPRLQPWSTTRDAVAPLMEKYGQVEDGVDGVRYPFWALVRDDLWCVEQAPTLESLNAVDGLREDDYNLLRSQPEAAASAAAGLIARYFHLLPAGLLEDFGLHELLAGRWPDALRPLLGETFKDRDAIWRAYGGQKMAGIGCLADGILSAFSDDKGPYADGRIPDTTWIAYVGDGLSGDQKLTDGNELMAEHQAVGRALRYWHKPFQGQWSFETWAVIVQRRLRWGLGEDKLPRREFLWVLAPVPSPERETWPPEVLEALEADTGELHDDTGDYRPSDLALTPGDGTESDDEAYRRLAQKAEANAERRGQLKKPTVADKYVRDPSARGAVLKRCQKRCENPECAGHPTELTKAGLPILQVDHVNDLAKGGPDVPWNMIALCPNCHALKTYGANKVRLQRLLAATARRLHEEKLQ TRAGILQAIAEHDRIGPEAFRATLEHEGRLYDSKAIAGVAHMYHAVAWLRREGFTIREAPKTFHRRVGDVRPAMGPALHRPVLLLWAIGQAVARAPRLQPWSTTRDAVAPLMEKYGQVEDGVDGVRYPFWALVRDDLWCVEQAEELTLTSRGRRPTLESLNAVDPSAGLREDDYNLLRSQPEAAASAAAGLIARYFHLLPAGLLEDFGLHELLAGRWPDALRPLLGETFKDRDAIWRAYGGQKMAGIGCLADGILSAFSDDKGPYADGRIPDTTWIAYVGDGLSGDQKLTDGNELMAEHQAVGRALRYWHKPFQGQWSFETWAVIVQRRLRWGLGEDKLPRREFLWVLAPVPSPERETWPPEVLEALEADTGELHDDTGDYRPSDLALTPGAPGTESDDEAYRRLAQKAEANAERRGQLKKPTVADKYVRDPSARGAVLKRCQKRCENPECAGHPTELTKAGLPILQVDHVNDLAKGGPDVPWNMIALCPNCHALKTYGANKVRLQRLLAATARRLHEEKLQ 5zmu-a2-m1-cC_5zmu-a2-m1-cD Crystal structure of a cis-epoxysuccinate hydrolase producing D(-)-tartaric acids F1LJ99 F1LJ99 1.5 X-RAY DIFFRACTION 139 1.0 454599 (Bordetella sp. BK-52) 454599 (Bordetella sp. BK-52) 280 287 5zmu-a1-m1-cA_5zmu-a1-m1-cB 5zmy-a1-m1-cB_5zmy-a1-m1-cA 5zmy-a2-m1-cD_5zmy-a2-m1-cC 5zmy-a3-m1-cE_5zmy-a3-m1-cF 5zmy-a4-m1-cH_5zmy-a4-m1-cG RTKLILEARINEYMPRRGNPHVPWTPKEIGEAAAQAREAGASIVHFHARQADGSPSHDYETYAESIREIRARSDVLVHPTLRLAHIERLCLDPALKPDFAPVDLGSTNIDRYDDVEKRYETGDRVYLNNIDTLQHFSKRLRELGVKPAFIAWTVPFTRTLDAFMDMGLVDDPAYLLFELTDCGIRGGHPGTIRGLRAHTDFLPPGRQIQWTVCNKIGNLFGPAAAAIEEGGHVAIGLGDYLYPELGTPTNGEVVQTVANMARAMGREIATPAETKEILGI RTKLILEARINEYMPRRGNPHVPWTPKEIGEAAAQAREAGASIVHFHARQADGSPSHDYETYAESIREIRARSDVLVHPTLGLGGRESRLAHIERLCLDPALKPDFAPVDLGSTNIDRYDDVEKRYETGDRVYLNNIDTLQHFSKRLRELGVKPAFIAWTVPFTRTLDAFMDMGLVDDPAYLLFELTDCGIRGGHPGTIRGLRAHTDFLPPGRQIQWTVCNKIGNLFGPAAAAIEEGGHVAIGLGDYLYPELGTPTNGEVVQTVANMARAMGREIATPAETKEILGI 5znj-a1-m1-cA_5znj-a1-m2-cA Crystal structure of a bacterial ProRS with ligands 1.84 X-RAY DIFFRACTION 142 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 563 563 5znk-a1-m1-cA_5znk-a1-m2-cA MKQSKVFIPTMRDVPSEAEAQSHRLLLKSGLIKQSTSGIYSYLPLATRVLNNITAIVRQEMERIDSVEILMPALQQAELWEESGRWGAYGPELMRLQDRHGRQFALGPTHEELVTSIVRNELKSYKQLPMTLFQIQSKFRDEKRPRFGLLRGREFIMKDAYSFHADEASLDQTYQDMYQAYSRIFERVGINARPVVADSGAIGGSHTHEFMALSAIGEDTIVYSKESDYTANIEKAEVVYEPNHKHSTVQPLEKIETPNVKTAQELADFLGRPVDEIAKTMIFKVDGEYIMVLVRGHHEINDIKLKSYFGTDNIELATQDEIVNLVGSLGPVIDKEIKIYADNFVQDLNNLVVGANEDGYHLINVNVGRDFNVDEYGDFRFILEGEKLSDGSGVAHFAEGIEVGQVFKLGTKYSESMNATFLDNQGKAQPLIMGCYGIGISRTLSAIVEQNHDDNGIVWPKSVTPFDLHLISINPKKDDQRELADALYAEFNTKFDVLYDDRQERAGVKFNDADLIGLPLRIVVGKRASEGIVEVKERLTGDSEEVHIDDLMTVITNKYDNLK MKQSKVFIPTMRDVPSEAEAQSHRLLLKSGLIKQSTSGIYSYLPLATRVLNNITAIVRQEMERIDSVEILMPALQQAELWEESGRWGAYGPELMRLQDRHGRQFALGPTHEELVTSIVRNELKSYKQLPMTLFQIQSKFRDEKRPRFGLLRGREFIMKDAYSFHADEASLDQTYQDMYQAYSRIFERVGINARPVVADSGAIGGSHTHEFMALSAIGEDTIVYSKESDYTANIEKAEVVYEPNHKHSTVQPLEKIETPNVKTAQELADFLGRPVDEIAKTMIFKVDGEYIMVLVRGHHEINDIKLKSYFGTDNIELATQDEIVNLVGSLGPVIDKEIKIYADNFVQDLNNLVVGANEDGYHLINVNVGRDFNVDEYGDFRFILEGEKLSDGSGVAHFAEGIEVGQVFKLGTKYSESMNATFLDNQGKAQPLIMGCYGIGISRTLSAIVEQNHDDNGIVWPKSVTPFDLHLISINPKKDDQRELADALYAEFNTKFDVLYDDRQERAGVKFNDADLIGLPLRIVVGKRASEGIVEVKERLTGDSEEVHIDDLMTVITNKYDNLK 5znm-a1-m1-cB_5znm-a1-m1-cA Colicin D Central Domain and C-terminal tRNase domain P17998 P17998 1.85 X-RAY DIFFRACTION 161 1.0 562 (Escherichia coli) 562 (Escherichia coli) 357 358 MHEEAVARAEAEKAKAELFSKAGVNQPPVYTQEMMERANSVMNEQGALVLNNTASSVQLAMTGTGVWTAAGDIAGNISKFFSNALEKVTSPLLMRISLGANLEAMFSLSAQMLAGQGVVIEPGATSVNLPVRGQLINSNGQLALDLLKTGNESIPAAVPVLNAVRDTATGLDKITLPAVVGAPSRTILVNPVPQPSVPTDTGNHQPVPVTPVHTGTEVKSVEMPVVGGLRDFIYWRPDAAGTGVEAVYVMLNDPLDSGRFSRKQLDKKYKHAGDFGISDTKKNRETLTKFRDAIEEHLSDKDTVEKGTYRREKGSKVYFNPNTMNVVIIKSNGEFLSGWKINPDADNGRIYLETGEL MHEEAVARAEAEKAKAELFSKAGVNQPPVYTQEMMERANSVMNEQGALVLNNTASSVQLAMTGTGVWTAAGDIAGNISKFFSNALEKVTSPLLMRISLGANLEAMFSLSAQMLAGQGVVIEPGATSVNLPVRGQLINSNGQLALDLLKTGNESIPAAVPVLNAVRDTATGLDKITLPAVVGAPSRTILVNPVPQPSVPTDTGNHQPVPVTPVHTGTEVKSVEMPVDVGGLRDFIYWRPDAAGTGVEAVYVMLNDPLDSGRFSRKQLDKKYKHAGDFGISDTKKNRETLTKFRDAIEEHLSDKDTVEKGTYRREKGSKVYFNPNTMNVVIIKSNGEFLSGWKINPDADNGRIYLETGEL 5zo2-a1-m1-cA_5zo2-a1-m1-cC Crystal structure of mouse nectin-like molecule 4 (mNecl-4) full ectodomain in complex with mouse nectin-like molecule 1 (mNecl-1) Ig1 domain, 3.3A Q8R464 Q8R464 3.29 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 196 293 LVAPENPVVEVREQAVEGGEVELSCLVPRSRPAAVLRWYRDRKELKGVSSGQENGKVWSVASTVRFRVDRKDDGGIVICEAQNQALPSGHSKQTQYVLDVQYSPTARIHASQAVVREGDTLVLTCAVTGNPRPNQIRWNRGQESLPERAEAVGETLTLPGLVSADQGTYTCEAANKHGHARALYVLVVYDPGAVVE QEVQTEQVTVAEGGVAEITCRLHQYDGSIVVIQNPARQTLFFNGTRALKDERFQLEEFSPRRVRIRLSDARLEDEGGYFCQLYTEDTHHQIATLTVLVAPENPVVEVREQAVEGGEVELSCLVPRSRPAAVLRWYRDRKELKGVSSGQENGKVWSVASTVRFRVDRKDDGGIVICEAQNQALPSGHSKQTQYVLDVQYSPTARIHASQAVVREGDTLVLTCAVTGNPRPNQIRWNRGQESLPERAEAVGETLTLPGLVSADQGTYTCEAANKHGHARALYVLVVYDPGAVVEA 5zob-a2-m1-cF_5zob-a2-m2-cD Crystal structure of Zika NS3 protease with 4-guanidinomethyl-phenylacetyl-Arg-Arg-Arg-4-amidinobenzylamide Q32ZE1 Q32ZE1 2 X-RAY DIFFRACTION 31 1.0 64320 (Zika virus) 64320 (Zika virus) 154 156 5zob-a1-m1-cH_5zob-a1-m1-cB 7vxy-a2-m1-cE_7vxy-a2-m1-cD ETTDGVYRVMTRRLLGSTQVGVGVMQEGVFHTMWHVTKGAALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGLSEVQLLAVPPGERAKNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKCGRVIGLYGNGVVIKNGSYVSAITQGKR KGETTDGVYRVMTRRLLGSTQVGVGVMQEGVFHTMWHVTKGAALRSGEGRLDPYWGDVKQDLVSYCGPWKLDAAWDGLSEVQLLAVPPGERAKNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKCGRVIGLYGNGVVIKNGSYVSAITQGKR 5zoh-a2-m1-cA_5zoh-a2-m2-cA Crystal structure of a far-red light-absorbing form of AnPixJg2_BV4 in complex with biliverdin Q8YXY7 Q8YXY7 1.6 X-RAY DIFFRACTION 64 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 174 174 MAVSKVMEKILRVSNIDKIFQTTTQEIRQLLKCDRVAVYRFNPDWSGEFVAESVGSGWVKLVGPDIKTVWEDTYLQETQGGRYRHQESTVVNDIYEAGYFSCHLEILEQFEIKAYIVVPVFAAEKLWGLLAAYQNSGTREWVEWESSFLTQVGLQFGIAISHAEYLEQTRLQSE MAVSKVMEKILRVSNIDKIFQTTTQEIRQLLKCDRVAVYRFNPDWSGEFVAESVGSGWVKLVGPDIKTVWEDTYLQETQGGRYRHQESTVVNDIYEAGYFSCHLEILEQFEIKAYIVVPVFAAEKLWGLLAAYQNSGTREWVEWESSFLTQVGLQFGIAISHAEYLEQTRLQSE 5zoi-a1-m1-cA_5zoi-a1-m1-cB Crystal Structure of alpha1,3-Fucosyltransferase O30511 O30511 3.19 X-RAY DIFFRACTION 44 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 343 343 MFQPLLDAYVESASIEKMASKSPPPLKIAVANWWGDEEIKEFKNFVLYFILSQRYTITLHQNPNEFSDLVFGNPYQNAKRVFYTGENESPNFNLFDYAIGFDELDFNDRYLRMPLYYNELHIKAESVNDTTAPYKLKDNSLYALKKPSHCFKEKHPNLCAVVNDESDPLKRGFASFVASNPNAPIRNAFNDALNSIEPVTGGGSVRNTLGYNVKNKNEFLSQYKFNLCFENTQGYGYVTEKIIDAYFSHTIPIYWGSPSVAKDFNPKSFVNVHDFKNFDEAIDYIKYLHTHKNAYLDMLYENPLNTLDGKAYFYQNLSFKKILAFFKTILDNDTIYHDNPFIF MFQPLLDAYVESASIEKMASKSPPPLKIAVANWWGDEEIKEFKNFVLYFILSQRYTITLHQNPNEFSDLVFGNPYQNAKRVFYTGENESPNFNLFDYAIGFDELDFNDRYLRMPLYYNELHIKAESVNDTTAPYKLKDNSLYALKKPSHCFKEKHPNLCAVVNDESDPLKRGFASFVASNPNAPIRNAFNDALNSIEPVTGGGSVRNTLGYNVKNKNEFLSQYKFNLCFENTQGYGYVTEKIIDAYFSHTIPIYWGSPSVAKDFNPKSFVNVHDFKNFDEAIDYIKYLHTHKNAYLDMLYENPLNTLDGKAYFYQNLSFKKILAFFKTILDNDTIYHDNPFIF 5zon-a2-m1-cD_5zon-a2-m1-cC Histidinol phosphate phosphatase from Mycobacterium tuberculosis P95189 P95189 1.94 X-RAY DIFFRACTION 109 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 247 256 5yht-a1-m1-cB_5yht-a1-m1-cA 5zon-a1-m1-cB_5zon-a1-m1-cA HDDLMLALALADRADELTRVRFGALDLRIDTKPDLTPVTDADRAVESDVRQTLGRDRPDGVLGETTFTGRQWIVDPIDGTKNFVRGVPVWASLIALLEDGVPSVGVVSAPALQRRWWAARGRGAFASVDARPHRLSVSSVAELHSASLSFSSLSGWAGLRERFIGLTDTVWRVRAYGDFLSYCLVAEGAVDIAAEPQVSVWDLAALDIVVREAGGRLTSLDGVAGPHGGSAVATNGLLHDEVLTRLN HDDLMLALALADRADELTRVRFGALDLRIDTKPDLTPVTDADRAVESDVRQTLGRDRPGDGVLGEEFGGSTTFTGRQWIVDPIDGTKNFVRGVPVWASLIALLEDGVPSVGVVSAPALQRRWWAARGRGAFASVDGARPHRLSVSSVAELHSASLSFSSLSGWARPGLRERFIGLTDTVWRVRAYGDFLSYCLVAEGAVDIAAEPQVSVWDLAALDIVVREAGGRLTSLDGVAGPHGGSAVATNGLLHDEVLTRLN 5zov-a1-m1-cA_5zov-a1-m1-cB Inward-facing conformation of L-ascorbate transporter UlaA Q9CMQ1 Q9CMQ1 3.333 X-RAY DIFFRACTION 59 1.0 747 (Pasteurella multocida) 747 (Pasteurella multocida) 399 399 DTTTVIKGTIKTIVGFMIVQAGSGFLVANFKPIIEGLSKYHNLTGAVIDPYTSMQATIQTMADNYAWVGYAVILALFLNILLVVCRRITGIRTIMLTGHIMFQQAGLVAVFYMIIGASMWETVIYTAVLMALYWGISSNIMYKPTQAVTGGAGFSIGHQQQIASWIAVKLAPKLGDKIFHDSISATALVMTVFFGIILLSKTHWFMYIFEMGLKFAVAIQIIVTGVRMFVAELSEAFKGISERVIPNSVLAIDCAAIYAFSPNAMVFGFMWGAIGQFVAVGLLLGFSSPILIIPGFIPMFFSNATIGVFANQFGGWKSVMKICFIMGIIEVLGSAWVIHLLATQGTTFNGWMGMADWALFFPPILQGIVSIPGFFFVLLTLAIVYMVFASKQLRSEEAA DTTTVIKGTIKTIVGFMIVQAGSGFLVANFKPIIEGLSKYHNLTGAVIDPYTSMQATIQTMADNYAWVGYAVILALFLNILLVVCRRITGIRTIMLTGHIMFQQAGLVAVFYMIIGASMWETVIYTAVLMALYWGISSNIMYKPTQAVTGGAGFSIGHQQQIASWIAVKLAPKLGDKIFHDSISATALVMTVFFGIILLSKTHWFMYIFEMGLKFAVAIQIIVTGVRMFVAELSEAFKGISERVIPNSVLAIDCAAIYAFSPNAMVFGFMWGAIGQFVAVGLLLGFSSPILIIPGFIPMFFSNATIGVFANQFGGWKSVMKICFIMGIIEVLGSAWVIHLLATQGTTFNGWMGMADWALFFPPILQGIVSIPGFFFVLLTLAIVYMVFASKQLRSEEAA 5zq5-a1-m1-cC_5zq5-a1-m1-cA SidE-Ubi Q6BBR6 Q6BBR6 2.487 X-RAY DIFFRACTION 139 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 808 812 5zq2-a1-m1-cC_5zq2-a1-m1-cA 5zq6-a1-m1-cC_5zq6-a1-m1-cA 5zq7-a1-m1-cC_5zq7-a1-m1-cA VPTWNGFSLYTDETVRNAARYAYDNYLGKPYTGTVEATPVNFGGQVYRQHHGLAHTLRTAYAEIIVEEARKAKLRGESLKTFADGRTLADVTPEELRKIIAQAFFVTGRDDEESSKNYEKYHEQSRDAFLKYVEENKSTLIPDVFKDEKDVKFYADVIEDKDHKWADSPAHVLVNQGHVDLVRVKQPPESYLEYYFSQLQPWIGSTATEAVFATQRQFFHATYEAVAGFDSENKEPHLVVDGLGRYVIGQDGNPIRELKFFSQKKKLEENQRYRVDEYLKLDEVQKRFPGAGKKLDGGLPGLKEYQYLQRLNSINRARCENDVDFCLGQLQTAHHQTKITPIKRAFQSSSEKARRQPNDEIAAARIVQQIANPDCIHDDHVFLNGQKLEEKFFRDLLAKCDAIVGSLLNDTDIRNIDTLQHERNTEFHSTDAKAKPVKLGETWEKTIRSGGGVTQIKHDLIFLQNDAWYHTRVNAIAQNRDKDSTFKEVLITALTPLTNKSLDTSRSPAPKTLFRGLDLSEEFKNKLINQAETIIANTTEHLFTDLSTEAFKQIKLNDFSQVSARTCASTSTNIEVPRTIFGSNTIFEILDPDGLLHPKQVGTHVSGSESEYSIYLPEDVALVPIKVSFDGKTGKGKDRHIFTLVAVKSPDFTPRHESGYAVGPLLKQTPKLEEIQRLVEQAREEPDLERVFNLQSRVARQAKFSTESGYKTFLNEKVAPVLEQSLNGLLDNNVTILGKVLSAFPSDGQWSAFNSVEARQKIQDAIKQVEKKAVLEGQILPALAQCQNALEKQNIAGALQALRNIPSL SVPTWNGFSLYTDETVRNAARYAYDNYLGKPYTGTVEATPVNFGGQVYRQHHGLAHTLRTAYAEIIVEEARKAKLRGESLKTFADGRTLADVTPEELRKIIAQAFFVTGRDDEESSKNYEKYHEQSRDAFLKYVEENKSTLIPDVFKDEKDVKFYADVIEDKDHKWADSPAHVLVNQGHVDLVRVKQPPESYLEYYFSQLQPWIGSTATEAVFATQRQFFHATYEAVAGFDSENKEPHLVVDGLGRYVIGQDGNPIREEGELKFFSQKKKLEENQRYRVDEYLKLDEVQKRFPGAGKKLDGGLPGLKEYQYLQRLNSINRARCENDVDFCLGQLQTAHHQTKITPIKRAFQSSSEKARRQPNDEIAAARIVQQIANPDCIHDDHVFLNGQKLEEKFFRDLLAKCDAIVGSLLNDTDIRNIDTLQHERNTEFHSTDAKAKPVKLGETWEKTIRSGGGVTQIKHDLIFLQNDAWYHTRVNAIAQNRDKDSTFKEVLITALTPLTNKSLDTSRSPAPKTLFRGLDLSEEFKNKLINQAETIIANTTEHLFTDLSTEAFKQIKLNDFSQVSARTCASTSTNIEVPRTIFGSNTIFEILDPDGLLHPKQVGTHVSGSESEYSIYLPEDVALVPIKVSFDGKTGKGKDRHIFTLVAVKSPDFTPRHESGYAVGPLLKQTPKLEEIQRLVEQAREEPDLERVFNLQSRVARQAKFSTESGYKTFLNEKVAPVLEQSLNGLLDNNVTILGKVLSAFPSDGQWSAFNSVEARQKIQDAIKQVEKKAVLEGQILPALAQCQNALEKQNIAGALQALRNIPSL 5zqh-a1-m1-cA_5zqh-a1-m2-cA Crystal structure of Streptococcus transcriptional regulator A5M9R0 A5M9R0 2.4 X-RAY DIFFRACTION 72 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 101 101 ETQLLKGVLEGCVLDMIGQKERYGYELVQTLREAGFDTIVGTIYPLLQKLEKNQWIRGDMRPSPDGPDRKYFSLMKEGEERVSVFWQQWDDLSQKVEGIKN ETQLLKGVLEGCVLDMIGQKERYGYELVQTLREAGFDTIVGTIYPLLQKLEKNQWIRGDMRPSPDGPDRKYFSLMKEGEERVSVFWQQWDDLSQKVEGIKN 5zqj-a1-m1-cB_5zqj-a1-m1-cA Crystal structure of beta-xylosidase from Bacillus pumilus P07129 P07129 1.73 X-RAY DIFFRACTION 124 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 533 535 5zqs-a1-m1-cB_5zqs-a1-m1-cA 5zqx-a1-m1-cB_5zqx-a1-m1-cA 5zqx-a2-m1-cD_5zqx-a2-m1-cC MKITNPVLKGFNPDPSICRAGEDYYMAVSTFEWFPGVQIYHSKDLIHWRLAARPLQKTSQLDMKGNPDSGGVWAPCLSYADGQFWLIYSDIKVVDGPFKDGHNYLVTADAVDGEWSDPVRLNSSGFDPSLFHDPSGKKYVLNMLWDHREKHHSFAGIALQEYSVSEKKLVGERKVIFKGTPIKLTEAPHLYYINDVYYLLTAEGGTRYEHAATIARSSRIDGPYEVHPDNPILTAFHAPSHPLQKCGHASIVQTHTNEWYLAHLTGRPIHSSKESIFQQRGWCPLGRETAIQKLEWKDGWPYVVGGKEGLLEVEAPAMSVKEFSPTYHIVDEFKDSSLNRHFQTLRIPFTDQIGSVTENPHHLRLYGQESLTSKFTQAFVARRWQSFYFEAETAVSFFPKNFQQAAGLVNYYNTENWTALQVTYDDALGRILELSVCENLAFSQPLIKKIIIPDEIPYVYLKVTVQRETYTYSYSFDQQEWEKIDVPLESTHLSDDFIRGGGFFTGAFVGMQCQDTSGERLPADFKYFRYEET MKITNPVLKGFNPDPSICRAGEDYYMAVSTFEWFPGVQIYHSKDLIHWRLAARPLQKTSQLDMKGNPDSGGVWAPCLSYADGQFWLIYSDIKVVDGPFKDGHNYLVTADAVDGEWSDPVRLNSSGFDPSLFHDPSGKKYVLNMLWDHREKHHSFAGIALQEYSVSEKKLVGERKVIFKGTPIKLTEAPHLYYINDVYYLLTAEGGTRYEHAATIARSSRIDGPYEVHPDNPILTAFHAPSHPLQKCGHASIVQTHTNEWYLAHLTGRPIHSSKESIFQQRGWCPLGRETAIQKLEWKDGWPYVVGGKEGLLEVEAPAMSVKEFSPTYHIVDEFKDSSLNRHFQTLRIPFTDQIGSVTENPHHLRLYGQESLTSKFTQAFVARRWQSFYFEAETAVSFFPKNFQQAAGLVNYYNTENWTALQVTYDDALGRILELSVCENLAFSQPLIKKIIIPDEIPYVYLKVTVQRETYTYSYSFDQQEWEKIDVPLESTHLSDDFIRGGGFFTGAFVGMQCQDTSGERLPADFKYFRYEETTE 5zqv-a2-m1-cB_5zqv-a2-m1-cD Crystal Structure of Protein Phosphate 1 complexed with PP1 binding domain of GM P62137 P62137 2.95 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 293 294 3n5u-a1-m1-cA_3n5u-a1-m1-cB 5zqv-a1-m1-cA_5zqv-a1-m1-cC LNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIRYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA KLNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIRYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA 5zr2-a1-m1-cA_5zr2-a1-m1-cB Crystal Structure of Phosphoserine Phosphatase Mutant (H9A) from Entamoeba histolytica in complex with Phosphoserine N9V397 N9V397 2.95 X-RAY DIFFRACTION 64 1.0 885318 (Entamoeba histolytica HM-1:IMSS-A) 885318 (Entamoeba histolytica HM-1:IMSS-A) 197 197 5zkk-a1-m1-cA_5zkk-a1-m1-cB 5zr2-a2-m2-cD_5zr2-a2-m1-cC 6m1x-a1-m1-cA_6m1x-a1-m1-cB 6m1x-a2-m2-cD_6m1x-a2-m1-cC MTKLILIRAGETEWNLLGKIQGCTDIELTPNGIQQANEVAQQIKGNFDIIYSSPLHRALITAQKIAGDKEVHLIEGMKEIPFGTWEGHTFEELNGDINYKKFLSGEDGCPFDSTGMSIASWSKKNAQLLLDLCKQNENKTIVCVSHGAWIKTSILGLLEMEPTMYHKFQLGNTGITTFIFRHGHPVLTSFNSTQHLL MTKLILIRAGETEWNLLGKIQGCTDIELTPNGIQQANEVAQQIKGNFDIIYSSPLHRALITAQKIAGDKEVHLIEGMKEIPFGTWEGHTFEELNGDINYKKFLSGEDGCPFDSTGMSIASWSKKNAQLLLDLCKQNENKTIVCVSHGAWIKTSILGLLEMEPTMYHKFQLGNTGITTFIFRHGHPVLTSFNSTQHLL 5zr4-a1-m1-cB_5zr4-a1-m1-cA Manganese-dependent transcriptional repressor A0A045JFF4 A0A045JFF4 3.1 X-RAY DIFFRACTION 35 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 181 184 QDYLKVIWTAQSESIRKLAEQGLVTLTDSGRRAALAMVRRHRLLETFLVNELGYRWDEVHDEAEVLEHAVSDRLMARIDAKLGFPQRDPHGDPIPGADGQVPTPPARQLWACRDGDTGTVARISDADPQMLRYFASIGISLDSRLRVLARREFAGMISVAIDSATVDLGSPAAQAIWVVSL AQDYLKVIWTAQEASESIRKLAEQGLVTLTDSGRRAALAMVRRHRLLETFLVNELGYRWDEVHDEAEVLEHAVSDRLMARIDAKLGFPQRDPHGDPIPGADGQVPTPPARQLWACRDGDTGTVARISDADPQMLRYFASIGISLDSRLRVLARREFAGMISVAIDSATVDLGSPAAQAIWVVSL 5zr6-a1-m1-cB_5zr6-a1-m1-cA Manganese-dependent transcriptional repressor complex with manganese I6Y1Q2 I6Y1Q2 3 X-RAY DIFFRACTION 40 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 210 214 VAQDYLKVIWTAQEWSQDKVSTKMLAERIGVSASTASESIRKLAEQGLVDAVTLTDSGRRAALAMVRRHRLLETFLVNELGYRWDEVHDEAEVLEHAVSDRLMARIDAKLGFPQRDPHGDPIPGADGQVPTPPARQLWACRDGDTGTVARISDADPQMLRYFASIGISLDSRLRVLARREFAGMISVAIDSGATVDLGSPAAQAIWVVSL VAQDYLKVIWTAQEWSQDKVSTKMLAERIGVSASTASESIRKLAEQGLVDHGAVTLTDSGRRAALAMVRRHRLLETFLVNELGYRWDEVHDEAEVLEHAVSDRLMARIDAKLGFPQRDPHGDPIPGADGQVPTPPARQLWACRDGDTGTVARISDADPQMLRYFASIGISLDSRLRVLARREFAGMISVAIDSADGATVDLGSPAAQAIWVVSL 5zrd-a1-m1-cD_5zrd-a1-m1-cA Tyrosinase from Burkholderia thailandensis (BtTYR) at low pH condition Q2T7K1 Q2T7K1 2.3 X-RAY DIFFRACTION 103 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 528 534 5zrd-a1-m1-cC_5zrd-a1-m1-cB PRVRRSVRDLQKRYDNGEKKPLEDLVRAWVGIQALPPSDPKSFFALGGYHGEPFQYRKPVDALPQDDIYPYWGGYCNHGNVLFPTWHRMYVYKLEEALQSIVPGVSMPFWDETDEYTLKHGIPSILTQEKFELDGKQIDNPLRSFVLPVALSDRLPGDGNIYEKPKGYVTVRYPLSGLVGTPEALEQTKIHNAKFPLPEKNTELLNSNVRAWLKGDSPTPGDPDPTRNGVYAKYVRCLSAPNYTVFSNTTSASVWNSSNPGLVTPVESPHNDIHLAVGGFDYGGDEIGQIAGANGDMGENNTAGMDPIFFFHHCNVDRMFWVWQKQTGHTDRLDIIRNYPGTNASDSQGPTPGFAPGESLNLTTPLNPFKKASGEAYTSEDCINIERQLGFTYGPGSLDDATPELKSLLAVPSGNSTKKLTVTGIDRAQIQGSFIMKAYASVTDANGKTREYYLGHKSILSRWNVVQCANCLTHLDIVAHFPLSAMPADDVPKAKFRVEFIHRGGGVPSAAKAAIDKVSALQPKFEVS VNAPRVRRSVRDLQKRYDNGEKKPLEDLVRAWVGIQALPPSDPKSFFALGGYHGEPFQYRKPVDALPQDDIYPYWGGYCNHGNVLFPTWHRMYVYKLEEALQSIVPGVSMPFWDETDEYTLKHGIPSILTQEKFELDGKQIDNPLRSFVLPVALSDRLPGDGNIYEKPKGYVTVRYPLSGLVGTPEALEQTKIHNAKFPLPEKNTELLNSNVRAWLKGDSPTPGDPDPTRNGVYAKYVRCLSAPNYTVFSNTTSASVWNSSNPGLVTPVESPHNDIHLAVGGFDYGGDEIGQIAGANGDMGENNTAGMDPIFFFHHCNVDRMFWVWQKQTGHTDRLDIIRNYPGTNASDSQGPTPGFAPGESLNLTTPLNPFKKASGEAYTSEDCINIERQLGFTYGPGSLDDATPELKSLLAVPSGNSTKKLTVTGIDRAQIQGSFIMKAYASVTDANGKTREYYLGHKSILSRWNVVQCANCLTHLDIVAHFPLSAMPADDVPKAKFRVEFIHRGGGVPSAAKAAIDKVSALQPKFEVSDKL 5zrd-a1-m1-cD_5zrd-a1-m1-cC Tyrosinase from Burkholderia thailandensis (BtTYR) at low pH condition Q2T7K1 Q2T7K1 2.3 X-RAY DIFFRACTION 97 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 528 529 5zrd-a1-m1-cB_5zrd-a1-m1-cA PRVRRSVRDLQKRYDNGEKKPLEDLVRAWVGIQALPPSDPKSFFALGGYHGEPFQYRKPVDALPQDDIYPYWGGYCNHGNVLFPTWHRMYVYKLEEALQSIVPGVSMPFWDETDEYTLKHGIPSILTQEKFELDGKQIDNPLRSFVLPVALSDRLPGDGNIYEKPKGYVTVRYPLSGLVGTPEALEQTKIHNAKFPLPEKNTELLNSNVRAWLKGDSPTPGDPDPTRNGVYAKYVRCLSAPNYTVFSNTTSASVWNSSNPGLVTPVESPHNDIHLAVGGFDYGGDEIGQIAGANGDMGENNTAGMDPIFFFHHCNVDRMFWVWQKQTGHTDRLDIIRNYPGTNASDSQGPTPGFAPGESLNLTTPLNPFKKASGEAYTSEDCINIERQLGFTYGPGSLDDATPELKSLLAVPSGNSTKKLTVTGIDRAQIQGSFIMKAYASVTDANGKTREYYLGHKSILSRWNVVQCANCLTHLDIVAHFPLSAMPADDVPKAKFRVEFIHRGGGVPSAAKAAIDKVSALQPKFEVS APRVRRSVRDLQKRYDNGEKKPLEDLVRAWVGIQALPPSDPKSFFALGGYHGEPFQYRKPVDALPQDDIYPYWGGYCNHGNVLFPTWHRMYVYKLEEALQSIVPGVSMPFWDETDEYTLKHGIPSILTQEKFELDGKQIDNPLRSFVLPVALSDRLPGDGNIYEKPKGYVTVRYPLSGLVGTPEALEQTKIHNAKFPLPEKNTELLNSNVRAWLKGDSPTPGDPDPTRNGVYAKYVRCLSAPNYTVFSNTTSASVWNSSNPGLVTPVESPHNDIHLAVGGFDYGGDEIGQIAGANGDMGENNTAGMDPIFFFHHCNVDRMFWVWQKQTGHTDRLDIIRNYPGTNASDSQGPTPGFAPGESLNLTTPLNPFKKASGEAYTSEDCINIERQLGFTYGPGSLDDATPELKSLLAVPSGNSTKKLTVTGIDRAQIQGSFIMKAYASVTDANGKTREYYLGHKSILSRWNVVQCANCLTHLDIVAHFPLSAMPADDVPKAKFRVEFIHRGGGVPSAAKAAIDKVSALQPKFEVS 5zru-a3-m1-cA_5zru-a3-m2-cC Crystal structure of Agl-KA catalytic domain Q0WYG9 Q0WYG9 1.833 X-RAY DIFFRACTION 65 1.0 1397 (Niallia circulans) 1397 (Niallia circulans) 576 576 HMNLVVYAQRGASMPYTRYDTDDAARGGGATLQSAPNFDQALTASEASGQRYIALPSNGSYAQWTIRPGEGGDGVTMRFTMPDSANGMGLNGSLDVYVNGVKAKTVPLTSYYSWQYFSSDHPADTPAGGRPLFRFDEVHWKMDTPLQPGDTIRIQKSGADSLEYGVDFLEIEAVPAAIARPANSVSVTDFGAVANDGQDDLAAFEAAVNAAVTSGKILYIPAGTFHLGNMWKIGSVANKINNITIMGAGIWHTNIQFTNPNQASGGISFRVTGQLDFSHIYMNSNLRSRYGEQAVYKGFMDNFGTNSKVHNVWVEHFECGFWVGDYAHTPAIIANGLVIENSRIRNNLADGVNFAQGTSNSTVRNSSIRNNGDDGLAVWTSNVNGAPAGVNNTFSYNTIENNWRAAGIAFFGGSGHKATHNLIVDTVGGSAIRMNTVFPGYHFQNNTGIVFSDTTIINSGTSRDLYNGERGAIDLEASNDPIKNVTFTNIDIINTQRSAIQFGYGGGFENIVFNNININGAGKDGVLTSRFSSPHPGAAIYTYTGNGSATFNNLTTNDIAHPNLYFIQNGFNLTIQ HMNLVVYAQRGASMPYTRYDTDDAARGGGATLQSAPNFDQALTASEASGQRYIALPSNGSYAQWTIRPGEGGDGVTMRFTMPDSANGMGLNGSLDVYVNGVKAKTVPLTSYYSWQYFSSDHPADTPAGGRPLFRFDEVHWKMDTPLQPGDTIRIQKSGADSLEYGVDFLEIEAVPAAIARPANSVSVTDFGAVANDGQDDLAAFEAAVNAAVTSGKILYIPAGTFHLGNMWKIGSVANKINNITIMGAGIWHTNIQFTNPNQASGGISFRVTGQLDFSHIYMNSNLRSRYGEQAVYKGFMDNFGTNSKVHNVWVEHFECGFWVGDYAHTPAIIANGLVIENSRIRNNLADGVNFAQGTSNSTVRNSSIRNNGDDGLAVWTSNVNGAPAGVNNTFSYNTIENNWRAAGIAFFGGSGHKATHNLIVDTVGGSAIRMNTVFPGYHFQNNTGIVFSDTTIINSGTSRDLYNGERGAIDLEASNDPIKNVTFTNIDIINTQRSAIQFGYGGGFENIVFNNININGAGKDGVLTSRFSSPHPGAAIYTYTGNGSATFNNLTTNDIAHPNLYFIQNGFNLTIQ 5zsp-a1-m1-cB_5zsp-a1-m1-cA NifS from Hydrogenimonas thermophila A0A1I5NEH3 A0A1I5NEH3 2.57 X-RAY DIFFRACTION 201 1.0 223786 (Hydrogenimonas thermophila) 223786 (Hydrogenimonas thermophila) 381 387 5zsq-a1-m1-cB_5zsq-a1-m1-cA 5zsr-a1-m1-cB_5zsr-a1-m1-cA 5zss-a1-m1-cB_5zss-a1-m1-cA 5zst-a1-m1-cB_5zst-a1-m1-cA AHMKVYLDNNATTIVDPEVKAAMDPYFTQIYGNPNSLHDFGTECHPALRKAMDQMYEAIGARDEDDIVVTSCATESNNWVLKGVYFDLIKNGDKDHIITTEVEHPSVTATCRWLEEQGVRVTYLPVNQDGVVEAHTVRDFITDKTALVSIMWANNETGAIFPVEEISEICKEKGVLFHTDGVQAIGKIPVDVIRAGVDFMSFSAHFHGPKGVGGLYIRNGHPLTSLLHGGEHMGGRRSGTLNVPGIVGMGKAMELATYYLKFEEEHVRKLRDKLEDAILEIPDTYSVGPRENRTPNTILVSVRGVEGEAMLWDLNRAGIAASTGSACASEDPIMVAVGADSELAHTAVRLSLSRFTTEEEIDYTIEQFKKAVERLRSISSS AHMKVYLDNNATTIVDPEVKAAMDPYFTQIYGNPNSLHDFGTECHPALRKAMDQMYEAIGARDEDDIVVTSCATESNNWVLKGVYFDLIKNGDKDHIITTEVEHPSVTATCRWLEEQGVRVTYLPVNQDGVVEAHTVRDFITDKTALVSIMWANNETGAIFPVEEISEICKEKGVLFHTDGVQAIGKIPVDVIRAGVDFMSFSAHFHGPKGVGGLYIRNGHPLTSLLHGGEHMGGRRSGTLNVPGIVGMGKAMELATYYLKFEEEHVRKLRDKLEDAILEIPDTYSVGPRENRTPNTILVSVRGVEGEAMLWDLNRAGIAASTGSACASEDLEANPIMVAVGADSELAHTAVRLSLSRFTTEEEIDYTIEQFKKAVERLRSISSSYA 5ztc-a1-m1-cA_5ztc-a1-m1-cB Apo structure of TetR family transcription regulator Lmo2088 of Listeria monocytogenes EGDe Q8Y5H4 Q8Y5H4 1.7 X-RAY DIFFRACTION 93 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 197 197 MRKEEIKQAALTLFANNGFEGTSLADIAGVVGLKKQSIYSHFKDKDDLFLSIMKDAKSTEIDYYRAKLRDSDLSRPDLVLSSLLFGVKELYDTDEAYQFWLRYGFYPPKHLYEVVQADITENVLQMEHEFTDLFSNWMEQKLIPMQDVETMKEAYMGILDAVIVDIVYVNDPERTEKKITALWQIFWRGITLKALNL MRKEEIKQAALTLFANNGFEGTSLADIAGVVGLKKQSIYSHFKDKDDLFLSIMKDAKSTEIDYYRAKLRDSDLSRPDLVLSSLLFGVKELYDTDEAYQFWLRYGFYPPKHLYEVVQADITENVLQMEHEFTDLFSNWMEQKLIPMQDVETMKEAYMGILDAVIVDIVYVNDPERTEKKITALWQIFWRGITLKALNL 5ztm-a1-m1-cB_5ztm-a1-m1-cA Crystal structure of MLE dsRBDs in complex with roX2 (R2H1) P24785 P24785 2.899 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 164 168 MDIKSFLYQFCAKSQIEPKFDIRQTGPKNRQRFLCEVRVEPNTYIGVGNSTNKKDAEKNACRDFVNYLVRVGKLNTNDVPAWTIENAKERLNIYKQTNNIRDDYKYTPVGPEHARSFLAELSIYVPALNRTVTARESGSNKKSASKSCALSLVRQLFHLNVIEP MDIKSFLYQFCAKSQIEPKFDIRQTGPKNRQRFLCEVRVEPNTYIGVGNSTNKKDAEKNACRDFVNYLVRVGKLNTNDVPAIHGNWTIENAKERLNIYKQTNNIRDDYKYTPVGPEHARSFLAELSIYVPALNRTVTARESGSNKKSASKSCALSLVRQLFHLNVIEP 5ztn-a1-m1-cA_5ztn-a1-m1-cB The crystal structure of human DYRK2 in complex with Curcumin Q92630 Q92630 2.496 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 395 395 7ejv-a1-m1-cA_7ejv-a1-m1-cB GVDLGTENLYFQSMGKVKATPMTPEQAMKQYMQKLTAFEHHEIFSYPEIYFLGLNAKKRQGMTGGPNNGGYDDDQGSYVQVPHDHVAYRYEVLKVIGKGSFGQVVKAYDHKVHQHVALKMVRNEKRFHRQAAEEIRILEHLRKQDKDNTMNVIHMLENFTFRNHICMTFELLSMNLYELIKKNKFQGFSLPLVRKFAHSILQCLDALHKNRIIHCDLKPENILLKQQGRSGIKVIDFGSSCYEHQRVYTIQSRFYRAPEVILGARYGMPIDMWSLGCILAELLTGYPLLPGEDEGDQLACMIELLGMPSQKLLDASKRAKNFVSKGYPRYCTVTVLNGGRSRRGKLRGPPESREWGNALKGCDDPLFLDFLKQCLEWDPAVRMTPGQALRHPWLR GVDLGTENLYFQSMGKVKATPMTPEQAMKQYMQKLTAFEHHEIFSYPEIYFLGLNAKKRQGMTGGPNNGGYDDDQGSYVQVPHDHVAYRYEVLKVIGKGSFGQVVKAYDHKVHQHVALKMVRNEKRFHRQAAEEIRILEHLRKQDKDNTMNVIHMLENFTFRNHICMTFELLSMNLYELIKKNKFQGFSLPLVRKFAHSILQCLDALHKNRIIHCDLKPENILLKQQGRSGIKVIDFGSSCYEHQRVYTIQSRFYRAPEVILGARYGMPIDMWSLGCILAELLTGYPLLPGEDEGDQLACMIELLGMPSQKLLDASKRAKNFVSKGYPRYCTVTVLNGGRSRRGKLRGPPESREWGNALKGCDDPLFLDFLKQCLEWDPAVRMTPGQALRHPWLR 5ztp-a1-m1-cA_5ztp-a1-m1-cB Carbonic anhydrase from Glaciozyma antarctica A0A384E115 A0A384E115 2.96 X-RAY DIFFRACTION 253 1.0 105987 (Glaciozyma antarctica) 105987 (Glaciozyma antarctica) 169 169 MSYAEQSLPAANEAYVAAFGDKGSLPLPPGKRVAIVGCMDARLDTFGATGLHEGDAHHIRNAGGRASDALRSLVISQELLGTREVIVIHHTDCGMLTFRSDQLHGLVKKRVAHEHFAAVDSLACLEFPDVDESIKEDVAFLKNHPLILPETVISGYRYEVETGKLVKIA MSYAEQSLPAANEAYVAAFGDKGSLPLPPGKRVAIVGCMDARLDTFGATGLHEGDAHHIRNAGGRASDALRSLVISQELLGTREVIVIHHTDCGMLTFRSDQLHGLVKKRVAHEHFAAVDSLACLEFPDVDESIKEDVAFLKNHPLILPETVISGYRYEVETGKLVKIA 5zui-a1-m2-cA_5zui-a1-m6-cA Crystal Structure of HSP104 from Chaetomium thermophilum G0S4G4 G0S4G4 2.701 X-RAY DIFFRACTION 115 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 686 686 5d4w-a1-m1-cA_5d4w-a1-m1-cB 5d4w-a1-m1-cB_5d4w-a1-m1-cC 5zui-a1-m1-cA_5zui-a1-m5-cA 5zui-a1-m2-cA_5zui-a1-m4-cA 5zui-a1-m3-cA_5zui-a1-m4-cA 5zui-a1-m3-cA_5zui-a1-m5-cA 7cg3-a1-m1-cC_7cg3-a1-m1-cD 7cg3-a1-m1-cD_7cg3-a1-m1-cE NLSKFCIDMTAMAREGKIDPVIGREEEIRRVIRILSRRTKNNPVLIGEPGVGKTTIVEGLAQRIVNADVPDNLAACKLLSLDVGALVAGSKYRGEFEERMKGVLKEIQESKETIILFVDEIHLLMGLKPMLARGQLHCIGATTLAEYRKYIEKDAAFERRFQQVLVKEPSITETISILRGLKEKYEVHHGVNIADAAIVAAANLAARYLTSRRLPDSAVDLIDEAAAAVRVARESQPEIIDSLERRLRQLKIEIHALSREKDEASKARLAQAKQDAQNVEEELRPLREKYERERQRGKAIQEAKMKLEALRVKAEDASRMGDHSRAADLQYYAIPEQEAIIKRLEAEKAAADSMITDVVGPDQINEIVARWTGIPVTRLKTSEKEKLLHMEQALSKIVVGQKEAVQSVSNAIRLQRSGLSNPNQPPSFLFCGPSGTGKTLLTKALAEFLFDDPKSMIRFDMSEYQERHSLSRMIGAPPGYVGHDAGGQLTEALRRRPFSILLFDEVEKAAKEVLTVLLQLMDDGRITDGQGRVVDAKNCIVVMTSNLGAEYLSRAIDPTTRELVMNTLRNYFLPEFLNRISSIVIFNRLTRREIRKIVDLRIAEIQKRLTDNDRNVTIKVSDEAKDKLGAQGYSPVYGARPLQRLLEKEVLNRLAILILRGQIREGEVACVELVDGKVQVLPNHPD NLSKFCIDMTAMAREGKIDPVIGREEEIRRVIRILSRRTKNNPVLIGEPGVGKTTIVEGLAQRIVNADVPDNLAACKLLSLDVGALVAGSKYRGEFEERMKGVLKEIQESKETIILFVDEIHLLMGLKPMLARGQLHCIGATTLAEYRKYIEKDAAFERRFQQVLVKEPSITETISILRGLKEKYEVHHGVNIADAAIVAAANLAARYLTSRRLPDSAVDLIDEAAAAVRVARESQPEIIDSLERRLRQLKIEIHALSREKDEASKARLAQAKQDAQNVEEELRPLREKYERERQRGKAIQEAKMKLEALRVKAEDASRMGDHSRAADLQYYAIPEQEAIIKRLEAEKAAADSMITDVVGPDQINEIVARWTGIPVTRLKTSEKEKLLHMEQALSKIVVGQKEAVQSVSNAIRLQRSGLSNPNQPPSFLFCGPSGTGKTLLTKALAEFLFDDPKSMIRFDMSEYQERHSLSRMIGAPPGYVGHDAGGQLTEALRRRPFSILLFDEVEKAAKEVLTVLLQLMDDGRITDGQGRVVDAKNCIVVMTSNLGAEYLSRAIDPTTRELVMNTLRNYFLPEFLNRISSIVIFNRLTRREIRKIVDLRIAEIQKRLTDNDRNVTIKVSDEAKDKLGAQGYSPVYGARPLQRLLEKEVLNRLAILILRGQIREGEVACVELVDGKVQVLPNHPD 5zum-a1-m1-cA_5zum-a1-m1-cB Structure of dipeptidyl-peptidase III from Corallococcus sp. strain EGB A0A5H1ZR28 A0A5H1ZR28 1.9 X-RAY DIFFRACTION 110 1.0 1521117 (Corallococcus sp. EGB) 1521117 (Corallococcus sp. EGB) 523 527 RLPDAPTLKRTARFAPVDVKVDVSKLPDAEKRALAKILQAAKIDPLFLSQAWAGNPTLLLDLVEDTTPLGKERLHAFLLNKGPWSRLDEAKPFIPGVPPKPDEGNFYPAGATKAEVEAWVKSLPEAQQHAATGFFTTVRKGPDGKFLTVPYSVEYQGELGAAKLLREAAALTQQSTLKRFLETRAEAFLSNDYYASEVAWELDASVEPTIGPYEVYEDGWFNYKAAFEAFIGVRDEAETQKLAKFSAELQELENNLPIEPALRNPKLGALAPIRVINSLYSSGDGNRGVQTAAYNLPNDERVAAEKGTKRVLKNIQEAKFQRVLVPIAKVALPAKDRKDVSFDAFFTHILHELHGLGPHNVTVAGKQTTVRQALQASSSAIEEAKADISGLWALQRLVDKGTLDKELQRTYTTFLASAFRSIRFGIDEAHGKGIALQLNHFLDTGAVKVNADGTFEVVPDKQASVTSLTNQLSLQAKGDRAAAEELLAKQGVVRPSVQKVLEKLKNVPVDIEPRYVTAESLVK RLPDAPTLKRTARFAPVDVKVDVSKLPDAEKRALAKILQAAKIDPLFLSQAWAGNPTLLLDLVEDTTPLGKERLHAFLLNKGPWSRLDEAKPFIPGVPPKPDEGNFYPAGATKAEVEAWVKSLPEAQQHAATGFFTTVRKGPDGKFLTVPYSVEYQGELGAAKLLREAAALTQQSTLKRFLETRAEAFLSNDYYASEVAWELDASVEPTIGPYEVYEDGWFNYKAAFEAFIGVRDEAETQKLAKFSAELQELENNLPIEPALRNPKLGALAPIRVINSLYSSGDGNRGVQTAAYNLPNDERVAAEKGTKRVLKNIQEAKFQRVLVPIAKVALPAKDRKDVSFDAFFTHILHELHGLGPHNVTVAGKQTTVRQALQASSSAIEEAKADISGLWALQRLVDKGTLDKELQRTYTTFLASAFRSIRFGIDEAHGKGIALQLNHFLDTGAVKVNADGTFEVVPDKQASVTSLTNQLSLQAKGDRAAAEELLAKQGVVRPSVQKVLEKLKNVPVDIEPRYVTAESLVKDFGA 5zvq-a1-m1-cA_5zvq-a1-m2-cA Crystal structure of recombination mediator protein RecR Q5SHY0 Q5SHY0 2.5 X-RAY DIFFRACTION 140 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 194 194 8ab0-a1-m1-cC_8ab0-a1-m1-cD 8bpr-a1-m1-cC_8bpr-a1-m1-cD MRYPESLLKLTRALSRLPGIGPKTAQRLALHLAFHKEEAEALAEALEGIKRVRACRECGNLAEGELCPICQDEDRDRSLLAVVESVADLYALERSGEFRGLYHVLGGALNPLEGIGPKELNLEGLFRRLEGVEEVVLATSMTVEGEATALYLAEELKKRGVRVTRPAYGLPVGGSLEYADEVTLGRALEGRRPV MRYPESLLKLTRALSRLPGIGPKTAQRLALHLAFHKEEAEALAEALEGIKRVRACRECGNLAEGELCPICQDEDRDRSLLAVVESVADLYALERSGEFRGLYHVLGGALNPLEGIGPKELNLEGLFRRLEGVEEVVLATSMTVEGEATALYLAEELKKRGVRVTRPAYGLPVGGSLEYADEVTLGRALEGRRPV 5zvt-a1-m9-cD_5zvt-a1-m9-cL Structure of RNA polymerase complex and genome within a dsRNA virus provides insights into the mechanisms of transcription and assembly Q8JU67 Q8JU67 3.3 ELECTRON MICROSCOPY 27 1.0 128987 (Grass carp reovirus) 128987 (Grass carp reovirus) 604 604 3iyl-a1-m10-cD_3iyl-a1-m10-cL 3iyl-a1-m10-cF_3iyl-a1-m5-cF 3iyl-a1-m10-cH_3iyl-a1-m6-cP 3iyl-a1-m10-cJ_3iyl-a1-m23-cB 3iyl-a1-m10-cN_3iyl-a1-m10-cR 3iyl-a1-m10-cP_3iyl-a1-m9-cH 3iyl-a1-m11-cB_3iyl-a1-m38-cJ 3iyl-a1-m11-cD_3iyl-a1-m11-cL 3iyl-a1-m11-cF_3iyl-a1-m37-cF 3iyl-a1-m11-cH_3iyl-a1-m12-cP 3iyl-a1-m11-cJ_3iyl-a1-m20-cB 3iyl-a1-m11-cN_3iyl-a1-m11-cR 3iyl-a1-m11-cP_3iyl-a1-m15-cH 3iyl-a1-m12-cB_3iyl-a1-m47-cJ 3iyl-a1-m12-cD_3iyl-a1-m12-cL 3iyl-a1-m12-cF_3iyl-a1-m46-cF 3iyl-a1-m12-cH_3iyl-a1-m13-cP 3iyl-a1-m12-cJ_3iyl-a1-m37-cB 3iyl-a1-m12-cN_3iyl-a1-m12-cR 3iyl-a1-m13-cB_3iyl-a1-m45-cJ 3iyl-a1-m13-cD_3iyl-a1-m13-cL 3iyl-a1-m13-cF_3iyl-a1-m44-cF 3iyl-a1-m13-cH_3iyl-a1-m14-cP 3iyl-a1-m13-cJ_3iyl-a1-m46-cB 3iyl-a1-m13-cN_3iyl-a1-m13-cR 3iyl-a1-m14-cB_3iyl-a1-m29-cJ 3iyl-a1-m14-cD_3iyl-a1-m14-cL 3iyl-a1-m14-cF_3iyl-a1-m28-cF 3iyl-a1-m14-cH_3iyl-a1-m15-cP 3iyl-a1-m14-cJ_3iyl-a1-m44-cB 3iyl-a1-m14-cN_3iyl-a1-m14-cR 3iyl-a1-m15-cB_3iyl-a1-m16-cJ 3iyl-a1-m15-cD_3iyl-a1-m15-cL 3iyl-a1-m15-cF_3iyl-a1-m20-cF 3iyl-a1-m15-cJ_3iyl-a1-m28-cB 3iyl-a1-m15-cN_3iyl-a1-m15-cR 3iyl-a1-m16-cB_3iyl-a1-m28-cJ 3iyl-a1-m16-cD_3iyl-a1-m16-cL 3iyl-a1-m16-cF_3iyl-a1-m27-cF 3iyl-a1-m16-cH_3iyl-a1-m17-cP 3iyl-a1-m16-cN_3iyl-a1-m16-cR 3iyl-a1-m16-cP_3iyl-a1-m20-cH 3iyl-a1-m17-cB_3iyl-a1-m52-cJ 3iyl-a1-m17-cD_3iyl-a1-m17-cL 3iyl-a1-m17-cF_3iyl-a1-m51-cF 3iyl-a1-m17-cH_3iyl-a1-m18-cP 3iyl-a1-m17-cJ_3iyl-a1-m27-cB 3iyl-a1-m17-cN_3iyl-a1-m17-cR 3iyl-a1-m18-cB_3iyl-a1-m60-cJ 3iyl-a1-m18-cD_3iyl-a1-m18-cL 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5zvt-a1-m57-cP_5zvt-a1-m57-cT 5zvt-a1-m57-cR_5zvt-a1-m57-cT 5zvt-a1-m58-cD_5zvt-a1-m58-cF 5zvt-a1-m58-cD_5zvt-a1-m58-cH 5zvt-a1-m58-cF_5zvt-a1-m58-cH 5zvt-a1-m58-cJ_5zvt-a1-m58-cL 5zvt-a1-m58-cJ_5zvt-a1-m58-cN 5zvt-a1-m58-cL_5zvt-a1-m58-cN 5zvt-a1-m58-cP_5zvt-a1-m58-cR 5zvt-a1-m58-cP_5zvt-a1-m58-cT 5zvt-a1-m58-cR_5zvt-a1-m58-cT 5zvt-a1-m59-cD_5zvt-a1-m59-cF 5zvt-a1-m59-cD_5zvt-a1-m59-cH 5zvt-a1-m59-cF_5zvt-a1-m59-cH 5zvt-a1-m59-cJ_5zvt-a1-m59-cL 5zvt-a1-m59-cJ_5zvt-a1-m59-cN 5zvt-a1-m59-cL_5zvt-a1-m59-cN 5zvt-a1-m59-cP_5zvt-a1-m59-cR 5zvt-a1-m59-cP_5zvt-a1-m59-cT 5zvt-a1-m59-cR_5zvt-a1-m59-cT 5zvt-a1-m5-cB_5zvt-a1-m6-cB 5zvt-a1-m5-cD_5zvt-a1-m5-cF 5zvt-a1-m5-cD_5zvt-a1-m5-cH 5zvt-a1-m5-cF_5zvt-a1-m5-cH 5zvt-a1-m5-cJ_5zvt-a1-m5-cL 5zvt-a1-m5-cJ_5zvt-a1-m5-cN 5zvt-a1-m5-cL_5zvt-a1-m5-cN 5zvt-a1-m5-cP_5zvt-a1-m5-cR 5zvt-a1-m5-cP_5zvt-a1-m5-cT 5zvt-a1-m5-cR_5zvt-a1-m5-cT 5zvt-a1-m60-cD_5zvt-a1-m60-cF 5zvt-a1-m60-cD_5zvt-a1-m60-cH 5zvt-a1-m60-cF_5zvt-a1-m60-cH 5zvt-a1-m60-cJ_5zvt-a1-m60-cL 5zvt-a1-m60-cJ_5zvt-a1-m60-cN 5zvt-a1-m60-cL_5zvt-a1-m60-cN 5zvt-a1-m60-cP_5zvt-a1-m60-cR 5zvt-a1-m60-cP_5zvt-a1-m60-cT 5zvt-a1-m60-cR_5zvt-a1-m60-cT 5zvt-a1-m6-cD_5zvt-a1-m6-cF 5zvt-a1-m6-cD_5zvt-a1-m6-cH 5zvt-a1-m6-cF_5zvt-a1-m6-cH 5zvt-a1-m6-cJ_5zvt-a1-m6-cL 5zvt-a1-m6-cJ_5zvt-a1-m6-cN 5zvt-a1-m6-cL_5zvt-a1-m6-cN 5zvt-a1-m6-cP_5zvt-a1-m6-cR 5zvt-a1-m6-cP_5zvt-a1-m6-cT 5zvt-a1-m6-cR_5zvt-a1-m6-cT 5zvt-a1-m7-cD_5zvt-a1-m7-cF 5zvt-a1-m7-cD_5zvt-a1-m7-cH 5zvt-a1-m7-cF_5zvt-a1-m7-cH 5zvt-a1-m7-cJ_5zvt-a1-m7-cL 5zvt-a1-m7-cJ_5zvt-a1-m7-cN 5zvt-a1-m7-cL_5zvt-a1-m7-cN 5zvt-a1-m7-cP_5zvt-a1-m7-cR 5zvt-a1-m7-cP_5zvt-a1-m7-cT 5zvt-a1-m7-cR_5zvt-a1-m7-cT 5zvt-a1-m8-cD_5zvt-a1-m8-cF 5zvt-a1-m8-cD_5zvt-a1-m8-cH 5zvt-a1-m8-cF_5zvt-a1-m8-cH 5zvt-a1-m8-cJ_5zvt-a1-m8-cL 5zvt-a1-m8-cJ_5zvt-a1-m8-cN 5zvt-a1-m8-cL_5zvt-a1-m8-cN 5zvt-a1-m8-cP_5zvt-a1-m8-cR 5zvt-a1-m8-cP_5zvt-a1-m8-cT 5zvt-a1-m8-cR_5zvt-a1-m8-cT 5zvt-a1-m9-cD_5zvt-a1-m9-cF 5zvt-a1-m9-cD_5zvt-a1-m9-cH 5zvt-a1-m9-cF_5zvt-a1-m9-cH 5zvt-a1-m9-cJ_5zvt-a1-m9-cL 5zvt-a1-m9-cJ_5zvt-a1-m9-cN 5zvt-a1-m9-cL_5zvt-a1-m9-cN 5zvt-a1-m9-cP_5zvt-a1-m9-cR 5zvt-a1-m9-cP_5zvt-a1-m9-cT PTGKLWRPVGTSVATIDSLAIVSDRFGQYSFVNEGMRETFSKALFDINMWQPLFQATKTGCGPIVLSSFTTTTSGYVGATAGDALDNPVTNGVFISTVQIMNLQRTIAARMRDVALWQKHLDTAMTMLTPDISAGSASCNWKSLLAFAKDILPLDNLCLTYPNEFYNVAIHRYPALKPGNPDTKLPDAQAHPLGEVAGAFNAATSEVGSLVGSSSTLSQAISTMAGKDLDLIEADTPLPVSVFTPSLAPRSYRPAFIKPEDAKWIAEFNNSSLIRKTLTYSGATYTVQLGPGPTRVIDMNAMIDSVLTLDVSGTILPYDTNPDLSTSVPAFVLIQTSVPIQQVTTAANITAITVVSAAGASAINLAINVRGQPRFNMLHLQATFERETITGIPYIYGLGTFLIPSPTSSSNFSNPTLMDGLLTVTPVLLRETTYKGEVVDAIVPATVMANQTSEEVASALANDAIVLVSNHLNKLANVVGDAIPVASRTDDSATSAIVSRLAVQHKLSQVGQASPTPPDYPLLWRRAKRAASMFVSNPSLALQVGIPVLTQSGMLSALTSGVGTALRTGSLGKGVTDASEKLRARQSLTVAKQAFFDQIGSLWP PTGKLWRPVGTSVATIDSLAIVSDRFGQYSFVNEGMRETFSKALFDINMWQPLFQATKTGCGPIVLSSFTTTTSGYVGATAGDALDNPVTNGVFISTVQIMNLQRTIAARMRDVALWQKHLDTAMTMLTPDISAGSASCNWKSLLAFAKDILPLDNLCLTYPNEFYNVAIHRYPALKPGNPDTKLPDAQAHPLGEVAGAFNAATSEVGSLVGSSSTLSQAISTMAGKDLDLIEADTPLPVSVFTPSLAPRSYRPAFIKPEDAKWIAEFNNSSLIRKTLTYSGATYTVQLGPGPTRVIDMNAMIDSVLTLDVSGTILPYDTNPDLSTSVPAFVLIQTSVPIQQVTTAANITAITVVSAAGASAINLAINVRGQPRFNMLHLQATFERETITGIPYIYGLGTFLIPSPTSSSNFSNPTLMDGLLTVTPVLLRETTYKGEVVDAIVPATVMANQTSEEVASALANDAIVLVSNHLNKLANVVGDAIPVASRTDDSATSAIVSRLAVQHKLSQVGQASPTPPDYPLLWRRAKRAASMFVSNPSLALQVGIPVLTQSGMLSALTSGVGTALRTGSLGKGVTDASEKLRARQSLTVAKQAFFDQIGSLWP 5zvv-a1-m1-cA_5zvv-a1-m1-cB Structure of SeMet-phAimR P0DOE3 P0DOE3 2.2 X-RAY DIFFRACTION 49 1.0 10736 (Bacillus phage phi3T) 10736 (Bacillus phage phi3T) 373 373 KLKQIKNECEKDNQLAARLAKLAGYEKVNGFYKFVNTPEKEENLGGLLKIVKNLFPDSEEQLLSEYFLELDPNKKCARQSVEYSDINQWDTLTDKIIINLCNSKNSTSQEWGKVYSLHRKLNKNEISLNDAIRESGKCKIKSAELFFSNALYAYLNIGEFGLKSTSKLLEFDDLPEGFIKESFKSRVSLEANISLNENSLLEARQHSNRAIENSNVNRICFFAYLTIGNTLIFEDYDEAKKAYIKGQKYAKNPVHQELDGALCFLSNIWKKENQWVNYNSDNIKYLQLRAFYYINQGNIEEATEILDELSSRDQDENELGFYYYYKGLISQDKTDYYKSIRYFKKSDDKYFIQLPLLQLERGADLELLNLISI KLKQIKNECEKDNQLAARLAKLAGYEKVNGFYKFVNTPEKEENLGGLLKIVKNLFPDSEEQLLSEYFLELDPNKKCARQSVEYSDINQWDTLTDKIIINLCNSKNSTSQEWGKVYSLHRKLNKNEISLNDAIRESGKCKIKSAELFFSNALYAYLNIGEFGLKSTSKLLEFDDLPEGFIKESFKSRVSLEANISLNENSLLEARQHSNRAIENSNVNRICFFAYLTIGNTLIFEDYDEAKKAYIKGQKYAKNPVHQELDGALCFLSNIWKKENQWVNYNSDNIKYLQLRAFYYINQGNIEEATEILDELSSRDQDENELGFYYYYKGLISQDKTDYYKSIRYFKKSDDKYFIQLPLLQLERGADLELLNLISI 5zw3-a1-m1-cB_5zw3-a1-m1-cA Crystal Structure of TrmR from B. subtilis O32036 O32036 2.27 X-RAY DIFFRACTION 102 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 193 207 DRYEQINDYIEALLKPRPDNVKRLEAYAEEHHVPIMEKAGMEVLLQILSVKQPKKILEIGTAIGYSAIRMALELPSAEIYTIERNEKRHEEAVNNIKEFQLDDRIHVFYGDALELADAVHVTAPYDVIFIDAAKGQYQNFFHLYEPMLSPDGVIITDNVLFIDEYNHWLMNHPDYQTAIIPVGDGLAISKKKR TDRYEQINDYIEALLKPRPDNVKRLEAYAEEHHVPIMEKAGMEVLLQILSVKQPKKILEIGTAIGYSAIRMALELPSAEIYTIERNEKRHEEAVNNIKEFQLDDRIHVFYGDALELADAVHVTAPYDVIFIDAAKGQYQNFFHLYEPMLSPDGVIITDNVLFKGLVAEDYSKVAKIDEYNHWLMNHPDYQTAIIPVGDGLAISKKKR 5zwb-a1-m1-cB_5zwb-a1-m1-cA Crystal structure of Pyridoxal kinase (PdxK) from Salmonella typhimurium in complex with ADP, PL-linked to Lys233 via a Schiff base A0A0F7J8S0 A0A0F7J8S0 2.2 X-RAY DIFFRACTION 115 0.985 28901 (Salmonella enterica) 28901 (Salmonella enterica) 268 269 5zw9-a1-m1-cB_5zw9-a1-m1-cA 5zwa-a1-m1-cA_5zwa-a1-m1-cB DNHRALQTDIVAVQSQVVYGSVGNSIAVPAIKAQGLRVTAVPTVLFSNTPHYKTFYGGIIPAEWFAGYLTALNERDALRELKAITTGYMGSADQIVLLSKWLMAIRASHPEVILVDPVIGDTDSGMYVQAEIPQAYRTHLLPQAQGLTPNVFELEMLSGKPCRTLEEAVAAAQSLLSDTLKWVVITSAPGESLETITVAVVTAQVVEVFAHPRVTELKGTGDLFCAELVSGIVQGKKLTTAAKDAAQRVLEVMTWTQQCGDELILPPA DNHRALQTDIVAVQSQVVYGSVGNSIAVPAIKAQGLRVTAVPTVLFSNTPHYKTFYGGIIPAEWFAGYLTALNERDALRELKAITTGYMGSADQIVLLSKWLMAIRASHPEVILVDPVIGDTDSGMYVQAEIPQAYRTHLLPQAQGLTPNVFELEMLSGKPCRTLEEAVAAAQSLLSDTLKWVVITSAPGESLETITVAVVTAQVVEVFAHPRVATELGTGDLFCAELVSGIVQGKKLTTAAKDAAQRVLEVMTWTQQCGCDELILPPA 5zwp-a1-m1-cA_5zwp-a1-m1-cB Crystal structure of the delta-class glutathione transferase from Musca domestica P28338 P28338 1.4 X-RAY DIFFRACTION 81 1.0 7370 (Musca domestica) 7370 (Musca domestica) 207 207 MDFYYLPGSAPCRSVLMTAKALGIELNKKLLNLQAGEHLKPEFLKINPQHTIPTLVDGDFALWESRAIMVYLVEKYGKTDSLFPKCPKKRAVINQRLYFDMGTLYKSFADYYYPQIFAKAPADPELFKKIETAFDFLNTFLKGHEYAAGDSLTVADLALLASVSTFEVASFDISKYPNVAKWYANLKTVAPGWEENWAGCLEFKKYF MDFYYLPGSAPCRSVLMTAKALGIELNKKLLNLQAGEHLKPEFLKINPQHTIPTLVDGDFALWESRAIMVYLVEKYGKTDSLFPKCPKKRAVINQRLYFDMGTLYKSFADYYYPQIFAKAPADPELFKKIETAFDFLNTFLKGHEYAAGDSLTVADLALLASVSTFEVASFDISKYPNVAKWYANLKTVAPGWEENWAGCLEFKKYF 5zwt-a1-m1-cA_5zwt-a1-m1-cB Crystal structure of the S37A mutant of apo-acyl carrier protein from Leishmania major E9AD06 E9AD06 2 X-RAY DIFFRACTION 18 1.0 5664 (Leishmania major) 5664 (Leishmania major) 83 83 5zws-a1-m1-cA_5zws-a1-m1-cB GSHMNDVLTRVLEVVKNFEKVDASKVTPESHFVKDLGLNALDVVEVVFAIEQEFILDIPDHDAEKIQSIPDAVEYIAQNPMAK GSHMNDVLTRVLEVVKNFEKVDASKVTPESHFVKDLGLNALDVVEVVFAIEQEFILDIPDHDAEKIQSIPDAVEYIAQNPMAK 5zx5-a1-m1-cC_5zx5-a1-m1-cD 3.3 angstrom structure of mouse TRPM7 with EDTA Q923J1 Q923J1 3.28 ELECTRON MICROSCOPY 173 1.0 10090 (Mus musculus) 10090 (Mus musculus) 814 814 5zx5-a1-m1-cA_5zx5-a1-m1-cB 5zx5-a1-m1-cA_5zx5-a1-m1-cD 5zx5-a1-m1-cB_5zx5-a1-m1-cC WIESTLTKRECVHACFTAYSDVKLQAIEEDAYGVRIKQLLGKGLIKAAVTTGAWILTRLRRELEKTINQQRIHARIGQGVPVVALIFEGGPNVILTVLEYLQVPVVVCEGQSEAVHLFQTMMECMKKKEDIDVAILTALLKGTNASAFDQLILTLAWDRVDIAKNHVFVYGQQWLVGSLEQAMLDALVMDRVSFVKLLIENGVSMHKFLTIPRLEELYNTKQGPTNPMLFHLIRDVKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSETKRFPYPLNELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDLVDDTSEELKQYSNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRLRPFVAHTCTQMLLSDMWMGRLNMRKNSWYKVILSILVPPAILMLEYKTKAEMSHIPQSQDAITRKFYAFYHAPIVKFWFNTLAYLGFLMLYTFVVLVKMEQLPSVQEWIVIAYIFTYAIEKVREVFMKIKVWFSDYFNVSDTIAIISFFVGFGLRFGAKWNYINAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAVNQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEEPSWSLAKDIVFHPYWMIFGEVYAYEIDVCANDSTLPTICGPGTWLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLQVKAISNIVWKYQRYHFIMAYHEKPVLPPPLIILSHIVSGPKLFLTEEDQKKLHDFEEQCVEMYFDEKDDKFNSGSEERIRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDS WIESTLTKRECVHACFTAYSDVKLQAIEEDAYGVRIKQLLGKGLIKAAVTTGAWILTRLRRELEKTINQQRIHARIGQGVPVVALIFEGGPNVILTVLEYLQVPVVVCEGQSEAVHLFQTMMECMKKKEDIDVAILTALLKGTNASAFDQLILTLAWDRVDIAKNHVFVYGQQWLVGSLEQAMLDALVMDRVSFVKLLIENGVSMHKFLTIPRLEELYNTKQGPTNPMLFHLIRDVKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSETKRFPYPLNELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDLVDDTSEELKQYSNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRLRPFVAHTCTQMLLSDMWMGRLNMRKNSWYKVILSILVPPAILMLEYKTKAEMSHIPQSQDAITRKFYAFYHAPIVKFWFNTLAYLGFLMLYTFVVLVKMEQLPSVQEWIVIAYIFTYAIEKVREVFMKIKVWFSDYFNVSDTIAIISFFVGFGLRFGAKWNYINAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAVNQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEEPSWSLAKDIVFHPYWMIFGEVYAYEIDVCANDSTLPTICGPGTWLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLQVKAISNIVWKYQRYHFIMAYHEKPVLPPPLIILSHIVSGPKLFLTEEDQKKLHDFEEQCVEMYFDEKDDKFNSGSEERIRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDS 5zxl-a1-m1-cA_5zxl-a1-m1-cD Structure of GldA from E.coli P0A9S5 P0A9S5 2.794 X-RAY DIFFRACTION 41 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 367 367 5zxl-a1-m1-cB_5zxl-a1-m1-cC MDRIIQSPGKYIQGADVINRLGEYLKPLAERWLVVGDKFVLGFAQSTVEKSFKDAGLVVEIAPFGGECSQNEIDRLRGIAETAQCGAILGIGGGKTLDTAKALAHFMGVPVAIAPTIASTDAPCSALSVIYTDEGEFDRYLLLPNNPNMVIVDTKIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVIEANTYLSGVGFESGGLAAAHAVHNGLTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALSHAVGLPITLAQLDIKEDVPAKMRIVAEAACAEGETIHNMPGGATPDQVYAALLVADQYGQRFLQEWE MDRIIQSPGKYIQGADVINRLGEYLKPLAERWLVVGDKFVLGFAQSTVEKSFKDAGLVVEIAPFGGECSQNEIDRLRGIAETAQCGAILGIGGGKTLDTAKALAHFMGVPVAIAPTIASTDAPCSALSVIYTDEGEFDRYLLLPNNPNMVIVDTKIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVIEANTYLSGVGFESGGLAAAHAVHNGLTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALSHAVGLPITLAQLDIKEDVPAKMRIVAEAACAEGETIHNMPGGATPDQVYAALLVADQYGQRFLQEWE 5zxl-a1-m1-cC_5zxl-a1-m1-cD Structure of GldA from E.coli P0A9S5 P0A9S5 2.794 X-RAY DIFFRACTION 107 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 367 367 5zxl-a1-m1-cA_5zxl-a1-m1-cB MDRIIQSPGKYIQGADVINRLGEYLKPLAERWLVVGDKFVLGFAQSTVEKSFKDAGLVVEIAPFGGECSQNEIDRLRGIAETAQCGAILGIGGGKTLDTAKALAHFMGVPVAIAPTIASTDAPCSALSVIYTDEGEFDRYLLLPNNPNMVIVDTKIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVIEANTYLSGVGFESGGLAAAHAVHNGLTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALSHAVGLPITLAQLDIKEDVPAKMRIVAEAACAEGETIHNMPGGATPDQVYAALLVADQYGQRFLQEWE MDRIIQSPGKYIQGADVINRLGEYLKPLAERWLVVGDKFVLGFAQSTVEKSFKDAGLVVEIAPFGGECSQNEIDRLRGIAETAQCGAILGIGGGKTLDTAKALAHFMGVPVAIAPTIASTDAPCSALSVIYTDEGEFDRYLLLPNNPNMVIVDTKIVAGAPARLLAAGIGDALATWFEARACSRSGATTMAGGKCTQAALALAELCYNTLLEEGEKAMLAAEQHVVTPALERVIEANTYLSGVGFESGGLAAAHAVHNGLTAIPDAHHYYHGEKVAFGTLTQLVLENAPVEEIETVAALSHAVGLPITLAQLDIKEDVPAKMRIVAEAACAEGETIHNMPGGATPDQVYAALLVADQYGQRFLQEWE 5zxn-a1-m1-cB_5zxn-a1-m1-cA Crystal structure of CurA from Vibrio vulnificus A0A4V8GZL3 A0A4V8GZL3 1.855 X-RAY DIFFRACTION 100 1.0 914127 (Vibrio vulnificus MO6-24/O) 914127 (Vibrio vulnificus MO6-24/O) 324 325 TNRQIVLASRPVGAPTADNFALTQSDIPTPAQGELLRSVYLSLDPYRGRSDAKSYAEPVGIDEVVGGTVCQVEASNHAEFEVGEWVLAYTGWQDYALSDGEGLIKLGKQPSHPSYALGVGPGFTAYGLLDIGQPKEGDTLVVAAATGAVGSVGQIGKLKGCRVIGIAGGEEKCQFAKDTLGFDECIDHKAADFAEQLAKVCHNGIDIYFENVGGKVFDAVPLLNTGARIPLCGLISQYNATSLPEGPDRSLAQLLIKRIKQGFIIFDDYGHRYGEFAADTQWLAQGKIHYREHLVQGLENAPDAFIGLLEGKNFGKVVQTNQPR PTNRQIVLASRPVGAPTADNFALTQSDIPTPAQGELLRSVYLSLDPYRGRSDAKSYAEPVGIDEVVGGTVCQVEASNHAEFEVGEWVLAYTGWQDYALSDGEGLIKLGKQPSHPSYALGVGPGFTAYGLLDIGQPKEGDTLVVAAATGAVGSVGQIGKLKGCRVIGIAGGEEKCQFAKDTLGFDECIDHKAADFAEQLAKVCHNGIDIYFENVGGKVFDAVPLLNTGARIPLCGLISQYNATSLPEGPDRSLAQLLIKRIKQGFIIFDDYGHRYGEFAADTQWLAQGKIHYREHLVQGLENAPDAFIGLLEGKNFGKVVQTNQPR 5zy8-a1-m1-cA_5zy8-a1-m1-cC Crystal structure of C terminal truncated HadBC (3R-Hydroxyacyl-ACP Dehydratase) complex from Mycobacterium tuberculosis P9WFJ9 P9WFJ9 2.899 X-RAY DIFFRACTION 21 0.985 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 133 137 LKTDIRGMIWRYPDYFIVGREQCREFARAVKCDHPAFFSEEAAADLGYDALVAPLTFVTILAKYVQLDFFRHVDVGMQIVQVDQRFVFHKPVLAGDKLWARMDIHSVDDIVVTRNLCTNDDGELVMEAYTTLM LKTDIRGMIWRYPDYFIVGREQCREFARAVKCDHPAFFSEEAAADLGYDALVAPLTFVTILAKYVQLDFFRHVDVGIVQVDQRFVFHKPVLAGDKLWARMDIHSVDERFGADIVVTRNLCTNDDGELVMEAYTTLMG 5zy9-a1-m1-cC_5zy9-a1-m1-cD Structural basis for a tRNA synthetase G3FIN0 G3FIN0 2.5 X-RAY DIFFRACTION 133 1.0 67593 (Phytophthora sojae) 67593 (Phytophthora sojae) 400 400 MDHRRLGVSEELFFFHSLSPGSGFWLPHGSAIYFKLLKFIREQYRARGYTEVITPNIFNMELWNISGHAKHYKENMFVFDVEGQEYALKPMNCPAASLMFDFRQRSYRELPIRYADCGVLHRNELSGALTGLTRVRRFQQDDAHIFCRDDQIKKEVLDFLSFMKYVYDVFGIEFNLELSTRPEKAMGELEQWERAESQLAEALDEFVGAGKWVVNPGDGAFYGPKIDIMITDALKRQHQCATVQLDFQLPIRFNLKYRTDDADNFKRPVIIHRAIYGSLERFVAVLVEHYAGKFPFWLSPRQVLIVTVGAAFVDYGYEVKDAMFRAGFDVDIDDTGKTLNKKIREGQMAHYNFILVVGAHEKETRSVNIRTRDNKVTGTKTLEEAIAMFKELEETKAADE MDHRRLGVSEELFFFHSLSPGSGFWLPHGSAIYFKLLKFIREQYRARGYTEVITPNIFNMELWNISGHAKHYKENMFVFDVEGQEYALKPMNCPAASLMFDFRQRSYRELPIRYADCGVLHRNELSGALTGLTRVRRFQQDDAHIFCRDDQIKKEVLDFLSFMKYVYDVFGIEFNLELSTRPEKAMGELEQWERAESQLAEALDEFVGAGKWVVNPGDGAFYGPKIDIMITDALKRQHQCATVQLDFQLPIRFNLKYRTDDADNFKRPVIIHRAIYGSLERFVAVLVEHYAGKFPFWLSPRQVLIVTVGAAFVDYGYEVKDAMFRAGFDVDIDDTGKTLNKKIREGQMAHYNFILVVGAHEKETRSVNIRTRDNKVTGTKTLEEAIAMFKELEETKAADE 5zy9-a1-m1-cE_5zy9-a1-m1-cD Structural basis for a tRNA synthetase G3FIN0 G3FIN0 2.5 X-RAY DIFFRACTION 76 1.0 67593 (Phytophthora sojae) 67593 (Phytophthora sojae) 398 400 HRRLGVSEELFFFHSLSPGSGFWLPHGSAIYFKLLKFIREQYRARGYTEVITPNIFNMELWNISGHAKHYKENMFVFDVEGQEYALKPMNCPAASLMFDFRQRSYRELPIRYADCGVLHRNELSGALTGLTRVRRFQQDDAHIFCRDDQIKKEVLDFLSFMKYVYDVFGIEFNLELSTRPEKAMGELEQWERAESQLAEALDEFVGAGKWVVNPGDGAFYGPKIDIMITDALKRQHQCATVQLDFQLPIRFNLKYRTDDADNFKRPVIIHRAIYGSLERFVAVLVEHYAGKFPFWLSPRQVLIVTVGAAFVDYGYEVKDAMFRAGFDVDIDDTGKTLNKKIREGQMAHYNFILVVGAHEKETRSVNIRTRDNKVTGTKTLEEAIAMFKELEETKAADE MDHRRLGVSEELFFFHSLSPGSGFWLPHGSAIYFKLLKFIREQYRARGYTEVITPNIFNMELWNISGHAKHYKENMFVFDVEGQEYALKPMNCPAASLMFDFRQRSYRELPIRYADCGVLHRNELSGALTGLTRVRRFQQDDAHIFCRDDQIKKEVLDFLSFMKYVYDVFGIEFNLELSTRPEKAMGELEQWERAESQLAEALDEFVGAGKWVVNPGDGAFYGPKIDIMITDALKRQHQCATVQLDFQLPIRFNLKYRTDDADNFKRPVIIHRAIYGSLERFVAVLVEHYAGKFPFWLSPRQVLIVTVGAAFVDYGYEVKDAMFRAGFDVDIDDTGKTLNKKIREGQMAHYNFILVVGAHEKETRSVNIRTRDNKVTGTKTLEEAIAMFKELEETKAADE 5zyf-a1-m1-cB_5zyf-a1-m1-cA Crystal structure of Streptococcus pyogenes type II-A Cas2 Q99ZW0 Q99ZW0 1.76 X-RAY DIFFRACTION 110 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 87 88 SMRMILMFDMPTDTAEERKAYRKFRKFLLSEGFIMHQFSIYSKLLLNNTANNAMIGRLREHNPNKGNITLLTVTEKQFARMIYLHGE GSMRMILMFDMPTDTAEERKAYRKFRKFLLSEGFIMHQFSIYSKLLLNNTANNAMIGRLREHNPNKGNITLLTVTEKQFARMIYLHGE 5zyo-a1-m1-cC_5zyo-a1-m1-cA Crystal Structure of domain-swapped Circular-Permuted YbeA (CP74) from Escherichia coli P0A8I8 P0A8I8 1.75 X-RAY DIFFRACTION 363 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 152 154 5zyo-a2-m1-cB_5zyo-a2-m1-cD 7cem-a1-m1-cB_7cem-a1-m1-cA 7cf7-a1-m1-cB_7cf7-a1-m1-cA 7cfy-a2-m1-cC_7cfy-a2-m1-cD WDTPQLAAELERWKLDGRDVSLLIGGPEGLSPACKAAAEQSWSLSALTLPHPLVRVLVAESLYRAWSITTNHPYHREGSMKLQLVAVGTKMPDWVQTGFTEYLRRFPKDMPFELIEIPAGKRGKNADIKRILDKEGEQMLAAAGKNRIVTLD KPWDTPQLAAELERWKLDGRDVSLLIGGPEGLSPACKAAAEQSWSLSALTLPHPLVRVLVAESLYRAWSITTNHPYHREGSMKLQLVAVGTKMPDWVQTGFTEYLRRFPKDMPFELIEIPAGKRGKNADIKRILDKEGEQMLAAAGKNRIVTLD 5zyr-a1-m1-cA_5zyr-a1-m1-cB Crystal structure of the reductase (C1) component of p-hydroxyphenylacetate 3-hydroxylase (HPAH) from Acinetobacter baumannii Q6Q271 Q6Q271 2.20001 X-RAY DIFFRACTION 397 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 306 306 5zc2-a1-m1-cA_5zc2-a1-m1-cB EKEVIDPMAFRRALGNFATGVTIMTAQTSSGERVGVTANSFNSVSLDPALVLWSIDKKSSSYRIFEEATHFGVNILSAAQIELSNRFARRSEDKFANIEFDLGVGNIPLFKNCSAAFECERYNIVEGGDHWIIIGRVVKFHDHGRSPLLYHQGAYSAVLPHPSLNMKSETAEGVFPGRLYDNMYYLLTQAVRAYQNDYQPKQLASGFRTSEARLLLVLESKTASSKCDLQREVAMPIREIEEATKILSEKGLLIDNGQHYELTEQGNACAHMLYKIAESHQEEVFAKYTVDERKLFKNMLKDLIGI EKEVIDPMAFRRALGNFATGVTIMTAQTSSGERVGVTANSFNSVSLDPALVLWSIDKKSSSYRIFEEATHFGVNILSAAQIELSNRFARRSEDKFANIEFDLGVGNIPLFKNCSAAFECERYNIVEGGDHWIIIGRVVKFHDHGRSPLLYHQGAYSAVLPHPSLNMKSETAEGVFPGRLYDNMYYLLTQAVRAYQNDYQPKQLASGFRTSEARLLLVLESKTASSKCDLQREVAMPIREIEEATKILSEKGLLIDNGQHYELTEQGNACAHMLYKIAESHQEEVFAKYTVDERKLFKNMLKDLIGI 5zz5-a2-m1-cC_5zz5-a2-m1-cD Redox-sensing transcriptional repressor Rex Q9WY16 Q9WY16 2 X-RAY DIFFRACTION 148 0.994 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 156 183 5zz5-a1-m1-cA_5zz5-a1-m1-cB 5zz6-a1-m1-cA_5zz6-a1-m1-cB 5zz6-a2-m1-cD_5zz6-a2-m1-cC 7wb3-a1-m1-cA_7wb3-a1-m1-cB LVSYYMCLERLLDNVEHLYDAIGEILGVKKEWKLVVVGAGNIGRAVANYTVMKEKGFRIIGIFDSDPSKIGKEAAPGLTVSDVSELEKFVEEHGVEIGVIAVPAEHAQEIAERLEKAGIKGILNFAPVKIKVSVPVENIDITASLRVLTFEIVRRN PVSKRLVSYYMCLERLLDEGVEVVSEELARRLDLKASQIRYNVEHLYDAIGEILGVKKEWKLVVVGAGNIGRAVANYTVMKEKGFRIIGIFDSDPSKIGKEAAPGLTVSDVSELEKFVEEHGVEIGVIAVPAEHAQEIAERLEKAGIKGILNFAPVKIKVSVPVENIDITASLRVLTFEIVRR 5zz7-a1-m1-cB_5zz7-a1-m1-cA Redox-sensing transcriptional repressor Rex Q9WY16 Q9WY16 2.45 X-RAY DIFFRACTION 139 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 203 206 PKPVSKRLVSYYMCLERLLDEGVEVVSSEELARRLDLKASQIRKDLSYFGEFGKRGVGYNVEHLYDAIGEILGVKKEWKLVVVGAGNIGRAVANYTVMKEKGFRIIGIFDSDPSKIGKEAAPGLTVSDVSELEKFVEEHGVEIGVIAVPAEHAQEIAERLEKAGIKGILNFAPVKIKVSVPVENIDITASLRVLTFEIVRRNS EKIPKPVSKRLVSYYMCLERLLDEGVEVVSSEELARRLDLKASQIRKDLSYFGEFGKRGVGYNVEHLYDAIGEILGVKKEWKLVVVGAGNIGRAVANYTVMKEKGFRIIGIFDSDPSKIGKEAAPGLTVSDVSELEKFVEEHGVEIGVIAVPAEHAQEIAERLEKAGIKGILNFAPVKIKVSVPVENIDITASLRVLTFEIVRRNS 5zzo-a3-m1-cE_5zzo-a3-m1-cF Crystal structure of CcpE regulatory domain in complex with citrate from Staphyloccocus aureus A0A0D1IHL7 A0A0D1IHL7 2.5 X-RAY DIFFRACTION 101 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 195 199 5y9q-a1-m1-cA_5y9q-a1-m1-cB 5z7h-a1-m1-cA_5z7h-a1-m1-cB 5z7h-a2-m1-cC_5z7h-a2-m1-cD 5z7h-a3-m1-cE_5z7h-a3-m1-cF 5zzo-a1-m1-cA_5zzo-a1-m1-cD 5zzo-a2-m1-cB_5zzo-a2-m1-cC 7xbe-a1-m1-cA_7xbe-a1-m2-cA EVNGTISIGCSSLIGQTLLPEVLSLYNAQFPNVEIQVQVGSTEQIKANHRDYHVMITRGNKVMNLANTHLFNDDHYFIFPVTKLPFIEFQADPIYINQIKQWYNDNLEQDYHATITVDQVATCKEMLISGVGVTILPEIMMKNISKEQFEFEKVEIDNEPLIRSTFMSYDPSMLQLPQVDSFVNLMASFVEQPKA EVNGTISIGCSSLIGQTLLPEVLSLYNAQFPNVEIQVQVGSTEQIKANHRDYHVMITRGNKVMNLANTHLFNDDHYFIFPRRDDVTKLPFIEFQADPIYINQIKQWYNDNLEQDYHATITVDQVATCKEMLISGVGVTILPEIMMKNISKEQFEFEKVEIDNEPLIRSTFMSYDPSMLQLPQVDSFVNLMASFVEQPKA 6a06-a1-m1-cB_6a06-a1-m1-cA Structure of pSTING complex B8XX90 B8XX90 1.792 X-RAY DIFFRACTION 98 0.989 9823 (Sus scrofa) 9823 (Sus scrofa) 181 188 6a03-a1-m1-cA_6a03-a1-m1-cB 6a04-a1-m1-cB_6a04-a1-m1-cA 6a05-a1-m1-cB_6a05-a1-m1-cA 6iyf-a1-m1-cB_6iyf-a1-m1-cA ANFNVAHGLAWSYYIGYLRLILPGLRARIQAYNQRHKNVLGGIGNHRLHILFPLDCGVPDDLSVADPNIRFLHELPQGRVYTNSIYELLENGQPAGVCVLEYATPLQTLFAMSQDGRAGFSREDRLEQAKLFCRTLEDILADAPEAQNNCRLIVYQEPTEGGSFSLSQEILRHLRQEEREV ANFNVAHGLAWSYYIGYLRLILPGLRARIQAYNQRHKNVLGGIGNHRLHILFPLDCGVPDDLSVADPNIRFLHELPQQSADRAGIKGRVYTNSIYELLENGQPAGVCVLEYATPLQTLFAMSQDGRAGFSREDRLEQAKLFCRTLEDILADAPEAQNNCRLIVYQEPTEGGSFSLSQEILRHLRQEER 6a0a-a1-m1-cA_6a0a-a1-m1-cC Structure of a triple-helix region of human collagen type III 1.502 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 24 PGPGPGIPGEKGPAGERGPGPGP PGPGPGIPGEKGPAGERGPGPGPG 6a0a-a1-m1-cB_6a0a-a1-m1-cC Structure of a triple-helix region of human collagen type III 1.502 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 6a0a-a1-m1-cA_6a0a-a1-m1-cB PGPGPGIPGEKGPAGERGPGPGPG PGPGPGIPGEKGPAGERGPGPGPG 6a0c-a1-m1-cA_6a0c-a1-m1-cC Structure of a triple-helix region of human collagen type III 1.501 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 PGPGPGFRGPAGPNGIPGPGPGPG PGPGPGFRGPAGPNGIPGPGPGPG 6a0c-a1-m1-cB_6a0c-a1-m1-cA Structure of a triple-helix region of human collagen type III 1.501 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 24 PGPGPGFRGPAGPNGIPGPGPGP PGPGPGFRGPAGPNGIPGPGPGPG 6a0c-a1-m1-cB_6a0c-a1-m1-cC Structure of a triple-helix region of human collagen type III 1.501 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 24 PGPGPGFRGPAGPNGIPGPGPGP PGPGPGFRGPAGPNGIPGPGPGPG 6a0k-a1-m1-cB_6a0k-a1-m1-cA Cyclic alpha-maltosyl-(1-->6)-maltose hydrolase from Arthrobacter globiformis, complex with panose D2YYE1 D2YYE1 1.94 X-RAY DIFFRACTION 91 1.0 1665 (Arthrobacter globiformis) 1665 (Arthrobacter globiformis) 442 450 5zxg-a1-m1-cB_5zxg-a1-m1-cA 6a0l-a1-m1-cA_6a0l-a1-m2-cA TAPDWLADAVFYQIFPERFANADPSLDPQNVVPWGSTPTPDNFFGGDLQGIIDHLDHIVALGANALYLTPIFEADTNHRYDAKDYFSIDHRLGTLETFHALMAECRARGIRIVLDAVLNHCGDGHWAFADVVENEADSAYVNWFSVEGFPVTAHPTPNYRTCSGCYYLPKWNAYNPEVRHHHLDVARYWIDQGIDGWRLDVPYFINHTFWREFRTAVKGKSEDLYIVAEEWRSPVEWLQGDTADGTMNYTARDLILGFTADGGIDASALAAGLNALHAEIPAGFHRGMLNLLGSHDTERVLTRHAGDVEAALLSYALLFSLEGAPMVYYGDEVGLTGDNDPGCRGAMPWNEESWNTRLLDGIRTFAAFRAHQPAMRRGRQTAVALDADTIAIVRSGGDERAAVIVHRGEGTTVDTASIPELAPLDADTVVLGPLGTASLATA VTAPDWLADAVFYQIFPERFANADPSLDPQNVVPWGSTPTPDNFFGGDLQGIIDHLDHIVALGANALYLTPIFEADTNHRYDAKDYFSIDHRLGTLETFHALMAECRARGIRIVLDAVLNHCGDGHWAFADVVENEADSAYVNWFSVEGFPVTAHPTPNYRTCSGCYYLPKWNAYNPEVRHHHLDVARYWIDQGIDGWRLDVPYFINHTFWREFRTAVKGKSEDLYIVAEEWRSPVEWLQGDTADGTMNYTARDLILGFTADGGIDASALAAGLNALHAEIPAGFHRGMLNLLGSHDTERVLTRHAGDVEAALLSYALLFSLEGAPMVYYGDEVGLTGDNDPGCRGAMPWNEESWNTRLLDGIRTFAAFRAHQPAMRRGRQTAVALDADTIAIVRSGGDERAAVIVHRGEGTTVDTASIPELAPLDADTVVLGPLGTASLATAASPGSSA 6a0n-a2-m1-cB_6a0n-a2-m3-cB The crystal structure of apo-Lpg2622 Q5ZS97 Q5ZS97 2.1 X-RAY DIFFRACTION 77 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 320 320 6a0n-a1-m1-cA_6a0n-a1-m2-cA 6a0q-a1-m1-cA_6a0q-a1-m2-cA 6a0q-a2-m1-cB_6a0q-a2-m3-cB GPLTLKGEVDVHITPLTFKLPKYELSTEAKSYLREQLSEYPKNSINSELPRKVKLGMQLTPVLDQGYHGSCVTFAVTAAIDAALGAGDYISQLCNLELGSYLAIHDKAKASGWNGSFGYWVLQQISEYGIISQNYQKLNGCAGVREYPLEDENNEGKPMSDSEFLAHSVPVSNLISWEALLKDEESFSAKADMNQIVYQIKEELAKGNRLTIGMLLDVFVGDAGAVGTNRAYNDTWMLTPEIVLDAMNGMIYAGHELVITGYDDDLEVMDEEGHVNKGVFTLRNSWSKFAGDQGDYYVTYDYVKFLAMEVMAIRMKEKAA GPLTLKGEVDVHITPLTFKLPKYELSTEAKSYLREQLSEYPKNSINSELPRKVKLGMQLTPVLDQGYHGSCVTFAVTAAIDAALGAGDYISQLCNLELGSYLAIHDKAKASGWNGSFGYWVLQQISEYGIISQNYQKLNGCAGVREYPLEDENNEGKPMSDSEFLAHSVPVSNLISWEALLKDEESFSAKADMNQIVYQIKEELAKGNRLTIGMLLDVFVGDAGAVGTNRAYNDTWMLTPEIVLDAMNGMIYAGHELVITGYDDDLEVMDEEGHVNKGVFTLRNSWSKFAGDQGDYYVTYDYVKFLAMEVMAIRMKEKAA 6a27-a1-m1-cB_6a27-a1-m1-cA Crystal structure of PprA W183R mutant form 1 O32504 O32504 1.353 X-RAY DIFFRACTION 48 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 200 202 GIYAAFDTLMSTAGVDSQIAALAASEADAGTLDAALTQSLQEAQGRWGLGLHHLRHEARLTDDGDIEILTDGRPSARVSEGFGALAQAYAPMQALDERGLSQWAALGEGYRAPGDLPLAQLKVLIEHARDFETDWSAGRGETFQRVWRKGDTLFVEVARPPEAHFTVQAFVQTLSGAAARNAEEYRAALKTAAAALEEYQ GIYAAFDTLMSTAGVDSQIAALAASEADAGTLDAALTQSLQEAQGRWGLGLHHLRHEARLTDDGDIEILTDGRPSARVSEGFGALAQAYAPMQALDERGLSQWAALGEGYRAPGDLPLAQLKVLIEHARDFETDWSAGRGETFQRVWRKGDTLFVEVARPALPEAHFTVQAFVQTLSGAAARNAEEYRAALKTAAAALEEYQ 6a28-a1-m1-cB_6a28-a1-m1-cA Crystal structure of PprA W183R mutant form 2 O32504 O32504 2.193 X-RAY DIFFRACTION 47 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 227 236 TDGIYAAFDTLSTAGVDSQIAALAASEADAGTLDAALTQSLQEAQGRWGLGLHHLRHEARLTDDGDIEILTDGRPSARVSEGFGALAQAYAPQALDERGLSQWAALGEGYRAPGDLPLAQLKVLIEHARDFETDWSAGRGETFQRVWRKGDTLFVEVARPASAEAALSDAARDVLPEAHFTVQAFVQTLSGAAARNAEEYRAALKTAAAALEEYQGVTTRQLSEVLR TDGIYAAFDTLSTAGVDSQIAALAASEADAGTLDAALTQSLQEAQGRWGLGLHHLRHEARLTDDGDIEILTDGRPSARVSEGFGALAQAYAPQALDERGLSQWAALGEGYRAPGDLPLAQLKVLIEHARDFETDWSAGRGETFQRVWRKGDTLFVEVARPASAEAALSDAARDVIASIANLAQLPEAHFTVQAFVQTLSGAAARNAEEYRAALKTAAAALEEYQGVTTRQLSEVLR 6a2a-a1-m1-cB_6a2a-a1-m1-cA Crystal structure of a synthase 2 from santalum album A0A0A0RCB5 A0A0A0RCB5 1.77 X-RAY DIFFRACTION 61 0.988 35974 (Santalum album) 35974 (Santalum album) 520 528 6a2c-a1-m1-cB_6a2c-a1-m1-cA 6a2d-a1-m1-cB_6a2d-a1-m1-cA NYPPNLWDYEFLQSLGDQCTVEEKHLKLADKLKEEVKSLIKQTMEPLTKLEFIDTVRRLGLKYQFETEVKEAVVMVSKYENDAWWIDNLHATSLRFRIMRENGIFVPQDVFERFKDTDGFKNQLCEDVKGLLSLYEASFLGWEGEDILDEARTFATSKLKSIEGKIPSPSLAKKVSHALDLPLHWRTIRYEARWFIDTYEEEEDVNLTLLRYAKLDFNIVQSFHQKEIGRLSRWWVGTGLDKMPFNGLIQSYMYAIGMLFEPNLGEVREMEAKVGALITTIDDVYDVYGTMEELELFTDITNRWDISKADQLPRNIRMPLLTMFNTSNDIGYWALKERGFNGIPCTAKVWSDQLKSYTKEAKWFHEGHKPTLEEYLDNALVSIGFPNLLVTSYLLTVENPTKEKLDYVNSLPLFVRASCILCRIINDLGTLKSIQCYMNEAGASQEVAREHIEGLVRMWWKRLNKCLFEPSPFAEPFLSFTVNVVRGSHFFYQYGDGYGNAESWTKKQGMSVLIHPIPLN ANYPPNLWDYEFLQSLGDQCTVEEKHLKLADKLKEEVKSLIKQTMEPLTKLEFIDTVRRLGLKYQFETEVKEAVVMVSKYENDAWWIDNLHATSLRFRIMRENGIFVPQDVFERFKDTDGFKNQLCEDVKGLLSLYEASFLGWEGEDILDEARTFATSKLKSIEGKIPSPSLAKKVSHALDLPLHWRTIRYEARWFIDTYEEEEDVNLTLLRYAKLDFNIVQSFHQKEIGRLSRWWVGTGLDKMPFARNGLIQSYMYAIGMLFEPNLGEVREMEAKVGALITTIDDVYDVYGTMEELELFTDITNRWDISKADQLPRNIRMPLLTMFNTSNDIGYWALKERGFNGIPCTAKVWSDQLKSYTKEAKWFHEGHKPTLEEYLDNALVSIGFPNLLVTSYLLTVENPTKEKLDYVNSLPLFVRASCILCRIINDLGTSPDEMERGDNLKSIQCYMNEAGASQEVAREHIEGLVRMWWKRLNKCLFEPSPFAEPFLSFTVNVVRGSHFFYQYAESWTKKQGMSVLIHPIPLNE 6a2f-a1-m1-cA_6a2f-a1-m1-cB Crystal structure of biosynthetic alanine racemase from Pseudomonas aeruginosa Q9HUN4 Q9HUN4 2.5 X-RAY DIFFRACTION 203 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 357 357 MRPLVATVDLSAIRHNYALAKRCAPQRQAFAVVANAYGHGAREVVTALHDDADGFAVACLEEAAEVRALHASARILLLEGCFEASEYALAGQLRLDLVIQGAEQGEAFLAAGLDIPLNVWLKLDSGMHRLGFDPAALRAWHARLRSHPGVRELNLISHFACADERNHPLTEQQLESFLGLLDLDFDQRSLANSAAVLTIPAAHMDWLRPGIMLYGSTPLADLSAAELGLKPAMSLGAQLISLREVAVGESVGYGATWIAERPARIGTVSCGYADGYPRTAPAGTPVLVGGRRAILAGRVSMDMLAVDLSDLPEARVGDPVELWGAGLSVDEVARACGTLGYELLSKVTARVPRRYSH MRPLVATVDLSAIRHNYALAKRCAPQRQAFAVVANAYGHGAREVVTALHDDADGFAVACLEEAAEVRALHASARILLLEGCFEASEYALAGQLRLDLVIQGAEQGEAFLAAGLDIPLNVWLKLDSGMHRLGFDPAALRAWHARLRSHPGVRELNLISHFACADERNHPLTEQQLESFLGLLDLDFDQRSLANSAAVLTIPAAHMDWLRPGIMLYGSTPLADLSAAELGLKPAMSLGAQLISLREVAVGESVGYGATWIAERPARIGTVSCGYADGYPRTAPAGTPVLVGGRRAILAGRVSMDMLAVDLSDLPEARVGDPVELWGAGLSVDEVARACGTLGYELLSKVTARVPRRYSH 6a2v-a1-m1-cE_6a2v-a1-m1-cD Crystal structure of Hcp protein 2.588 X-RAY DIFFRACTION 94 0.993 32022 (Campylobacter jejuni subsp. jejuni) 32022 (Campylobacter jejuni subsp. jejuni) 145 159 6a2v-a1-m1-cB_6a2v-a1-m1-cA 6a2v-a1-m1-cB_6a2v-a1-m1-cC 6a2v-a1-m1-cC_6a2v-a1-m1-cD 6a2v-a1-m1-cF_6a2v-a1-m1-cA AEPAFIKIEGSTQGLISSGASTEASIGNRYKSGHEDEIAQEVSHIVTVPRVHKPFSFTCSLNKSVPLLYNALTKGERLPTVEVHWFRTATSGGSEHFFTTKLEDAIITNIELIPNHDKTELLKVSSYRKVVWEHTAAGTSGSDDW EPAFIKIEGSTQGLISSGASTEASIGNRYKSGHEDEIAQEVSHIVTVPVDQQSGQPSGQRVHKPFSFTCSLNKSVPLLYNALTKGERLPTVEVHWFRTATSGGSEHFFTTKLEDAIITNIELIPNAQSNHDKTELLKVSSYRKVVWEHTAAGTSGSDDW 6a2v-a1-m1-cF_6a2v-a1-m1-cE Crystal structure of Hcp protein 2.588 X-RAY DIFFRACTION 80 0.993 32022 (Campylobacter jejuni subsp. jejuni) 32022 (Campylobacter jejuni subsp. jejuni) 144 145 EPAFIKIEGSTQGLISSGASTEASIGNRYKSGHEDEIAQEVSHIVTVPRVHKPFSFTCSLNKSVPLLYNALTKGERLPTVEVHWFRTATSGGSEHFFTTKLEDAIITNIELIPNADKTELLKVSSYRKVVWEHTAAGTSGSDDW AEPAFIKIEGSTQGLISSGASTEASIGNRYKSGHEDEIAQEVSHIVTVPRVHKPFSFTCSLNKSVPLLYNALTKGERLPTVEVHWFRTATSGGSEHFFTTKLEDAIITNIELIPNHDKTELLKVSSYRKVVWEHTAAGTSGSDDW 6a2w-a1-m1-cA_6a2w-a1-m2-cA Crystal structure of fucoxanthin chlorophyll a/c complex from Phaeodactylum tricornutum B7FRW2 B7FRW2 1.8 X-RAY DIFFRACTION 17 1.0 556484 (Phaeodactylum tricornutum CCAP 1055/1) 556484 (Phaeodactylum tricornutum CCAP 1055/1) 166 166 AFEDELGAQPPLGFFDPLGLVADGDQEKFDRLRYVEIKHGRISMLAVVGYLVQEAGVRLPGTIDYSGKTFAEIPNGFAAFKEIPAGGLVQLLFFIGVLESSVMRDLTGEAEFVGDFRNGAIDFGWDTFDEETQFKKRAIELNQGRAAQMGILALMVHEQLGVSLLP AFEDELGAQPPLGFFDPLGLVADGDQEKFDRLRYVEIKHGRISMLAVVGYLVQEAGVRLPGTIDYSGKTFAEIPNGFAAFKEIPAGGLVQLLFFIGVLESSVMRDLTGEAEFVGDFRNGAIDFGWDTFDEETQFKKRAIELNQGRAAQMGILALMVHEQLGVSLLP 6a34-a1-m1-cA_6a34-a1-m1-cB Crystal structure of 5-methylthioribose 1-phosphate isomerase from Pyrococcus horikoshii OT3 - Form I O58433 O58433 2.3 X-RAY DIFFRACTION 180 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 356 356 6a35-a1-m1-cA_6a35-a1-m1-cB 6a35-a2-m1-cC_6a35-a2-m1-cD MEIRYTPKELTKLPRTVEYKNKSVYMINQRLLPKEFKVEKFSKVEEVAEAIKNMTVRGAPAIGAAAGFGLALYAETSKAKTKEEFLDGFEKAYEILKNTRPTAVNLFWALNRIKKLVEEHSEDPLDEIKRLIVQEAYKIADEDVEANLRMGHYGAEVLPEGNILTHCNAGSLATVHLGTVGSVVRVMHKDGSLKLLWLDETRPVLQGARLSAWEYSYDGLNVKLIADNAAAFVMQQGFVDAIIVGADRIVANGDFANKIGTYMLAVLAREHGIPFFAVAPLSSIDMELKSGKDIPIEERSPEEVLTCGGCRIAPDVPVYNPAFDVTPHKYLTGIITDRGVVWPPFKRNLKKLFEVN MEIRYTPKELTKLPRTVEYKNKSVYMINQRLLPKEFKVEKFSKVEEVAEAIKNMTVRGAPAIGAAAGFGLALYAETSKAKTKEEFLDGFEKAYEILKNTRPTAVNLFWALNRIKKLVEEHSEDPLDEIKRLIVQEAYKIADEDVEANLRMGHYGAEVLPEGNILTHCNAGSLATVHLGTVGSVVRVMHKDGSLKLLWLDETRPVLQGARLSAWEYSYDGLNVKLIADNAAAFVMQQGFVDAIIVGADRIVANGDFANKIGTYMLAVLAREHGIPFFAVAPLSSIDMELKSGKDIPIEERSPEEVLTCGGCRIAPDVPVYNPAFDVTPHKYLTGIITDRGVVWPPFKRNLKKLFEVN 6a3k-a1-m1-cA_6a3k-a1-m2-cA Crystal structure of cytochrome c' from Shewanella benthica DB6705 A0A2Z6I6U9 A0A2Z6I6U9 1.71 X-RAY DIFFRACTION 39 1.0 126830 (Shewanella sp. DB6705) 126830 (Shewanella sp. DB6705) 129 129 6a3l-a1-m1-cA_6a3l-a1-m1-cB SNFKEADDAIHYRQSAFSLMAHNFGDMGAMLKGKKPFDSEIFAMRAQNVAALSKLPLEGFIPGSDQGETEALAKIWTEKSDFDAKMKTLQDNAAALLLASASDDKKLLKQSFMQVAKSCKGCHDVYKKD SNFKEADDAIHYRQSAFSLMAHNFGDMGAMLKGKKPFDSEIFAMRAQNVAALSKLPLEGFIPGSDQGETEALAKIWTEKSDFDAKMKTLQDNAAALLLASASDDKKLLKQSFMQVAKSCKGCHDVYKKD 6a41-a1-m2-cA_6a41-a1-m4-cA Dehalogenation enzyme A0A5H1ZR29 A0A5H1ZR29 1.97 X-RAY DIFFRACTION 105 1.0 41295 (Rhodospirillaceae) 41295 (Rhodospirillaceae) 238 238 6a41-a1-m1-cA_6a41-a1-m3-cA LLKDRVILITNVEKFAGHGTTRIALAQGATVLAHDPSFDTPSARHKYESQFPGAHALSAVEPAAVELALKRHGHIDALVNNDAYPALKAPLGEARIEDFRDALEVAVAPFRLTQLVAPSRKRKSGRIVFVSSAAPLRGIANYAPYVSARAAGNGLVSSLAKELGRDSITVNAVGSNYVENPDYFPPALLANREAAKTAQIPLGRLGKSDELGATICFLCSDGAGFITGHVLPHAGGWA LLKDRVILITNVEKFAGHGTTRIALAQGATVLAHDPSFDTPSARHKYESQFPGAHALSAVEPAAVELALKRHGHIDALVNNDAYPALKAPLGEARIEDFRDALEVAVAPFRLTQLVAPSRKRKSGRIVFVSSAAPLRGIANYAPYVSARAAGNGLVSSLAKELGRDSITVNAVGSNYVENPDYFPPALLANREAAKTAQIPLGRLGKSDELGATICFLCSDGAGFITGHVLPHAGGWA 6a41-a1-m3-cA_6a41-a1-m4-cA Dehalogenation enzyme A0A5H1ZR29 A0A5H1ZR29 1.97 X-RAY DIFFRACTION 140 1.0 41295 (Rhodospirillaceae) 41295 (Rhodospirillaceae) 238 238 6a41-a1-m1-cA_6a41-a1-m2-cA LLKDRVILITNVEKFAGHGTTRIALAQGATVLAHDPSFDTPSARHKYESQFPGAHALSAVEPAAVELALKRHGHIDALVNNDAYPALKAPLGEARIEDFRDALEVAVAPFRLTQLVAPSRKRKSGRIVFVSSAAPLRGIANYAPYVSARAAGNGLVSSLAKELGRDSITVNAVGSNYVENPDYFPPALLANREAAKTAQIPLGRLGKSDELGATICFLCSDGAGFITGHVLPHAGGWA LLKDRVILITNVEKFAGHGTTRIALAQGATVLAHDPSFDTPSARHKYESQFPGAHALSAVEPAAVELALKRHGHIDALVNNDAYPALKAPLGEARIEDFRDALEVAVAPFRLTQLVAPSRKRKSGRIVFVSSAAPLRGIANYAPYVSARAAGNGLVSSLAKELGRDSITVNAVGSNYVENPDYFPPALLANREAAKTAQIPLGRLGKSDELGATICFLCSDGAGFITGHVLPHAGGWA 6a4b-a3-m1-cE_6a4b-a3-m1-cF Structure of TREX2 in complex with a duplex DNA with 2 nucleotide 3'-overhang Q9R1A9 Q9R1A9 2.7 X-RAY DIFFRACTION 101 0.995 10090 (Mus musculus) 10090 (Mus musculus) 217 217 6a45-a1-m1-cB_6a45-a1-m1-cA 6a46-a1-m1-cB_6a46-a1-m1-cA 6a4b-a1-m1-cA_6a4b-a1-m1-cB 6a4b-a2-m1-cC_6a4b-a2-m1-cD PRAETFVFLDLEATGLPNMDPEIAEISLFAVHRSSLENPERDDSGSLVLPRVLDKLTLCMCPERPFTAKASEITGLSSESLMHCGKAGFNGAVVRTLQGFLSRQEGPICLVAHNGFDYDFPLLCTELQRLGAHLPQDTVCLDTLPALRGLDRAHSRKSYSLASLFHRYFQAEPSAAHSAEGDVHTLLLIFLHRAPELLAWADEQARSWAHIEPMYVP PRAETFVFLDLEATGLPNMDPEIAEISLFAVHRSSLENPERDDSGSLVLPRVLDKLTLCMCPERPFTAKASEITGLSSESLMHCGKAGFNGAVVRTLQGFLSRQEGPICLVAHNGFDYDFPLLCTELQRLGAHLPQDTVCLDTLPALRGLDRAHSHRKSYSLASLFHRYFQAEPSAASAEGDVHTLLLIFLHRAPELLAWADEQARSWAHIEPMYVP 6a4d-a1-m1-cB_6a4d-a1-m1-cA pNP-TMP bound Oligoribonuclease (ORN) from Colwellia psychrerythraea strain 34H Q47VZ4 Q47VZ4 2.19 X-RAY DIFFRACTION 81 1.0 167879 (Colwellia psychrerythraea 34H) 167879 (Colwellia psychrerythraea 34H) 182 184 6a4a-a1-m1-cA_6a4a-a1-m2-cA 6a4e-a1-m1-cA_6a4e-a1-m1-cC 6a4f-a1-m1-cA_6a4f-a1-m1-cB HMAGNDSNLIWLDLEMTGLEPVEDVILEIAIIITDSELNILAQGPIFAISQTDDVLDNMNPWCIEHHGKSGLTQRCRDSEVSLAHATKESLAFVQEWVPQGKSPMCGNSIGQDRRFINKYMPDFEDHFHYRNLDVSTIKELAKRWKPEVLESVVKTGAHLALDAIKESIAELKVYRELFFKL GSHMAGNDSNLIWLDLEMTGLEPVEDVILEIAIIITDSELNILAQGPIFAISQTDDVLDNMNPWCIEHHGKSGLTQRCRDSEVSLAHATKESLAFVQEWVPQGKSPMCGNSIGQDRRFINKYMPDFEDHFHYRNLDVSTIKELAKRWKPEVLESVVKTGAHLALDAIKESIAELKVYRELFFKL 6a4i-a1-m1-cB_6a4i-a1-m1-cC Crystal Structure of human TDO inhibitor complex P48775 P48775 2.65 X-RAY DIFFRACTION 32 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 309 323 4pw8-a2-m1-cF_4pw8-a2-m1-cG LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIH IYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQNMRVPYNRRKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAKEEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMN 6a4i-a1-m1-cD_6a4i-a1-m1-cB Crystal Structure of human TDO inhibitor complex P48775 P48775 2.65 X-RAY DIFFRACTION 51 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 290 309 4pw8-a2-m1-cH_4pw8-a2-m1-cF LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSKYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIHK LIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIH 6a4r-a1-m1-cB_6a4r-a1-m1-cA Crystal structure of aspartate bound peptidase E from Salmonella enterica P36936 P36936 1.828 X-RAY DIFFRACTION 108 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 230 235 6a4s-a1-m1-cB_6a4s-a1-m1-cA GSELLLLSNSTLPGKAWLEHALPLIANQLNGRRSAVFIPFAGVTQTWDEYTDKTAEVLAPLGVNVTGIHRVADPLAAIEKAEIIIVGGGNTFQLLKESRERGLLAPMADRVKRGALYIGWSAGANLACPTIRTTNDMPIVDPNGFDALDLFPLQINPHFTNALPEGHKGETREQRIRELLVVAPELTVIGLPEGNWIQVSNGQAVLGGPNTTWVFKAGEEAVALEAGHRF NLYFQGSELLLLSNSTLPGKAWLEHALPLIANQLNGRRSAVFIPFAGVTQTWDEYTDKTAEVLAPLGVNVTGIHRVADPLAAIEKAEIIIVGGGNTFQLLKESRERGLLAPMADRVKRGALYIGWSAGANLACPTIRTTNDMPIVDPNGFDALDLFPLQINPHFTNALPEGHKGETREQRIRELLVVAPELTVIGLPEGNWIQVSNGQAVLGGPNTTWVFKAGEEAVALEAGHRF 6a4v-a1-m1-cA_6a4v-a1-m1-cB Open Reading frame 49 P88987 P88987 2.2 X-RAY DIFFRACTION 84 1.0 33708 (Murid gammaherpesvirus 4) 33708 (Murid gammaherpesvirus 4) 269 270 DEFYYPSLESVVHTFCVIDTREHNRVSACLCKLQVLCKICQTLRHNLDTEPFLLPHLRELIIRHLTLLERLSTTSKFQRILDYMKLSLEANDSNLLQDLAIGTVNLLGCQSPEILSIPYDKDQPVHEWCACFLTSVDEEALRKISSMLDNKHFSYMYNFKTFLKYSLELETAFDLSTGLNVLVYWVSVFKLFSVCVQSQFLLDSLVAFNALFKNHVKELEAIVESDTSVVWAKLSNLNHLLHRLQTSNNTLVFDEILICLRGLQIYIKC DEFYYPSLESVVHTFCVIDTREHNRVSACLCKLQVLCKICQTLRHNLDTEPFLLPHLRELIIRHLTLLERLSTTSKFQRILDYMKLSLEANDSNLLQDLAIGTVNLLGCQSPEILSIPYDKDQPVHEWCACFLTSVDEEALRKISSMLDNKHFSYMYNFKTFLKYSLELETAFDLSTGLNVLVYWVSVFKLFSVCVQSQFLLDSLVAFNALFKNHVKELEAIVESDSTSVVWAKLSNLNHLLHRLQTSNNTLVFDEILICLRGLQIYIKC 6a4w-a1-m1-cA_6a4w-a1-m1-cB AcrR from Mycobacterium tuberculosis O07229 O07229 2.587 X-RAY DIFFRACTION 97 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 197 198 5d18-a1-m1-cA_5d18-a1-m2-cA 5d19-a1-m1-cA_5d19-a1-m1-cB 6a4l-a1-m1-cA_6a4l-a1-m1-cB ERSRESILDATERLMATKGYAATSISDIRDACGLAPSSIYWHFGSKEGVLAAMMERGAQRFFAAIPTWDEAHGPVEQRSERQLTELVSLQSQHPDFLRLFYLLSMERSQDPAVAAVVRRVRNTAIARFRDSITHLLPSDIPPGKADLVVAELTAFAVALSDGVYFAGHLEPDTTDVERMYRRLRQALEALIPVLLEE ERSRESILDATERLMATKGYAATSISDIRDACGLAPSSIYWHFGSKEGVLAAMMERGAQRFFAAIPTWDEAHGPVEQRSERQLTELVSLQSQHPDFLRLFYLLSMERSQDPAVAAVVRRVRNTAIARFRDSITHLLPSDIPPGKADLVVAELTAFAVALSDGVYFAGHLEPDTTDVERMYRRLRQALEALIPVLLEET 6a4x-a1-m1-cA_6a4x-a1-m2-cA Oxidase ChaP-H2 A0A124H109 A0A124H109 1.63 X-RAY DIFFRACTION 112 1.0 146536 (Streptomyces curacoi) 146536 (Streptomyces curacoi) 127 127 MTVQLNHTIVAAHDKKASARFLADILGLEVSPQYGPFIPVEIPNGVSLDYLDSRGAITPQHYAFLVSEDDFDTIFGRIREAGLTYWADPYHRRPGEINHNDGGRGAYFEDPNGHNLEILTRPYGSGG MTVQLNHTIVAAHDKKASARFLADILGLEVSPQYGPFIPVEIPNGVSLDYLDSRGAITPQHYAFLVSEDDFDTIFGRIREAGLTYWADPYHRRPGEINHNDGGRGAYFEDPNGHNLEILTRPYGSGG 6a51-a3-m1-cA_6a51-a3-m1-cB Novel Regulators CheP and CheQ Specifically Control Chemotaxis Core Gene cheVAW Transcription in Bacterial Pathogen Campylobacter jejuni Q0PBQ6 Q0PBQ6 2.6 X-RAY DIFFRACTION 47 1.0 32022 (Campylobacter jejuni subsp. jejuni) 32022 (Campylobacter jejuni subsp. jejuni) 157 158 KSLILPPNEFLDHYILNAEFHRFAGISKNAYKFWKNVEIGRYQGTRIIFLHRNCILEKHQQALRQCSGLNGFVLASAFCSFTGLAPSHLVEKNNSSIYKLLELKEICGIKFVNLKKFYDFLGLNYHQHIYIEKCHFFSPAPFEKRIKITESMCVGYY MKSLILPPNEFLDHYILNAEFHRFAGISKNAYKFWKNVEIGRYQGTRIIFLHRNCILEKHQQALRQCSGLNGFVLASAFCSFTGLAPSHLVEKNNSSIYKLLELKEICGIKFVNLKKFYDFLGLNYHQHIYIEKCHFFSPAPFEKRIKITESMCVGYY 6a52-a1-m1-cA_6a52-a1-m1-cB Oxidase ChaP-H1 A0A3F2YLV5 A0A3F2YLV5 2 X-RAY DIFFRACTION 107 1.0 263849 (Rhodococcus phenolicus) 263849 (Rhodococcus phenolicus) 124 125 AVELNHTIVHATDRDASARFLADILGLAAPKPFGPFMVVQVDNDVSLDFMGGSGPVRPQHYAFLVGDSEFDEIFGRIRERGLDHWADPGHRRPGEINTNDGGRGVYWSDPDGHSLEILTRPYGG MAVELNHTIVHATDRDASARFLADILGLAAPKPFGPFMVVQVDNDVSLDFMGGSGPVRPQHYAFLVGDSEFDEIFGRIRERGLDHWADPGHRRPGEINTNDGGRGVYWSDPDGHSLEILTRPYGG 6a53-a1-m1-cA_6a53-a1-m1-cB Crystal structure of DddK Q4FNM4 Q4FNM4 2 X-RAY DIFFRACTION 114 1.0 335992 (Candidatus Pelagibacter ubique HTCC1062) 335992 (Candidatus Pelagibacter ubique HTCC1062) 126 126 5tfz-a1-m1-cA_5tfz-a1-m1-cB 5tg0-a1-m1-cA_5tg0-a1-m2-cA 6a54-a1-m1-cA_6a54-a1-m1-cB 6a55-a1-m1-cA_6a55-a1-m1-cB MIFVKNLASVLSQEWSSTEKYPGVRWKFLIDADFDGSSGLSLGFAEIAPGGDLTLHYHSPAEIYVVTNGKGILNKSGKLETIKKGDVVYIAGNAEHALKNNGKETLEFYWIFPTDRFSEVEYFPAK MIFVKNLASVLSQEWSSTEKYPGVRWKFLIDADFDGSSGLSLGFAEIAPGGDLTLHYHSPAEIYVVTNGKGILNKSGKLETIKKGDVVYIAGNAEHALKNNGKETLEFYWIFPTDRFSEVEYFPAK 6a56-a1-m1-cA_6a56-a1-m1-cB AJLec from the Sea Anemone Anthopleura japonica A0A2Z5WLM1 A0A2Z5WLM1 1.2 X-RAY DIFFRACTION 34 1.0 67755 (Anthopleura japonica) 67755 (Anthopleura japonica) 162 162 RCGGWVKLNTAPVCFSAKGNRPGSFTPSHHGFLKSVKLRHLRGLVTCQSSTDAHDSYWGCKNRGFHNYPLNVFVTDKHNKVMFPKTGATYYLDPYVIKNRFYGVQGYNAMSPELVLQHGCNSPSDYIGPDSQLRVWYGEDLYNTMESDNSGKVCADVFGYFV RCGGWVKLNTAPVCFSAKGNRPGSFTPSHHGFLKSVKLRHLRGLVTCQSSTDAHDSYWGCKNRGFHNYPLNVFVTDKHNKVMFPKTGATYYLDPYVIKNRFYGVQGYNAMSPELVLQHGCNSPSDYIGPDSQLRVWYGEDLYNTMESDNSGKVCADVFGYFV 6a57-a1-m1-cA_6a57-a1-m2-cA Structure of histone demethylase REF6 complexed with DNA Q9STM3 Q9STM3 2.7 X-RAY DIFFRACTION 12 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 131 131 EKEEEEEEEENEEEECAAYQCNMEGCTMSFSSEKQLMLHKRNICPIKGCGKNFFSHKYLVQHQRVHSDDRPLKCPWKGCKMTFKWAWSRTEHIRVHTGARPYVCAEPDCGQTFRFVSDFSRHKRKTGHSVK EKEEEEEEEENEEEECAAYQCNMEGCTMSFSSEKQLMLHKRNICPIKGCGKNFFSHKYLVQHQRVHSDDRPLKCPWKGCKMTFKWAWSRTEHIRVHTGARPYVCAEPDCGQTFRFVSDFSRHKRKTGHSVK 6a5f-a1-m1-cA_6a5f-a1-m2-cB The structure of [4+2] and [6+4] cyclase in the biosynthetic pathway of nargenicin 2.05 X-RAY DIFFRACTION 106 1.0 1311813 (Nocardia argentinensis ATCC 31306) 1311813 (Nocardia argentinensis ATCC 31306) 151 151 TEITPELVAAAYQAVSSGDREKTALYWSEDLRFLAPGSHAQAGWRVGIDDFMSYVQGMLEASGGTWSMQPVTLLINNEDGYSIDANRIHAVRKGAPDGSTSPFDVLDISGVQMLKWENGKVVEGAGGIFGDGTTNYTQWWSPLSGDGERRY TEITPELVAAAYQAVSSGDREKTALYWSEDLRFLAPGSHAQAGWRVGIDDFMSYVQGMLEASGGTWSMQPVTLLINNEDGYSIDANRIHAVRKGAPDGSTSPFDVLDISGVQMLKWENGKVVEGAGGIFGDGTTNYTQWWSPLSGDGERRY 6a5g-a2-m1-cC_6a5g-a2-m1-cB The structure of [4+2] and [6+4] cyclase in the biosynthetic pathway of streptoseomycin 2.3 X-RAY DIFFRACTION 96 1.0 73044 (Streptomyces seoulensis) 73044 (Streptomyces seoulensis) 150 157 6a5g-a1-m1-cA_6a5g-a1-m1-cD EITQELVAAAYEAVTCGDREKTALYWSEDLRFFAPGSHAGSGWRVGIDDFLSYVQDMLAASGGSWSMQPITLLINNEDGYSVDANRIHAVREGAPKDSTSPFDVLDISGVQMLKWENGKVVEGYGGIFGDGGTNYTQWWSPVDGAGERRY EITQELVAAAYEAVTCGDREKTALYWSEDLRFFAPGSHAGSGWRVGIDDFLSYVQDMLAASGGSWSMQPITLLINNEDGYSVDANRIHAVREGAPKDSTSPFDVLDISGVQMLKWENGKVVEGYGGIFGDGGTNYTQWWSPVDGAGERRYQLAAALE 6a5h-a1-m1-cB_6a5h-a1-m2-cB The structure of [4+2] and [6+4] cyclase in the biosynthetic pathway of unidentified natural product 1.618 X-RAY DIFFRACTION 53 1.0 1206736 (Nocardia tenerifensis NBRC 101015) 1206736 (Nocardia tenerifensis NBRC 101015) 150 150 6a5h-a1-m1-cA_6a5h-a1-m2-cA EITPELVAAAYEAVSSGNREKTALYWSENLRFLAPGSHAHAGWRTGIDDFLEYVQGMLEASGGSWSMRPITLLINNDDGYSIDVNEIHAIRKGAPEGSTSPFDVLDISGVQMLKWENGKVVEGYGGVFGDGATNYTQWWSPLSGDGERRY EITPELVAAAYEAVSSGNREKTALYWSENLRFLAPGSHAHAGWRTGIDDFLEYVQGMLEASGGSWSMRPITLLINNDDGYSIDVNEIHAIRKGAPEGSTSPFDVLDISGVQMLKWENGKVVEGYGGVFGDGATNYTQWWSPLSGDGERRY 6a5h-a1-m2-cB_6a5h-a1-m1-cA The structure of [4+2] and [6+4] cyclase in the biosynthetic pathway of unidentified natural product 1.618 X-RAY DIFFRACTION 15 1.0 1206736 (Nocardia tenerifensis NBRC 101015) 1206736 (Nocardia tenerifensis NBRC 101015) 150 151 6a5h-a1-m1-cB_6a5h-a1-m2-cA EITPELVAAAYEAVSSGNREKTALYWSENLRFLAPGSHAHAGWRTGIDDFLEYVQGMLEASGGSWSMRPITLLINNDDGYSIDVNEIHAIRKGAPEGSTSPFDVLDISGVQMLKWENGKVVEGYGGVFGDGATNYTQWWSPLSGDGERRY TEITPELVAAAYEAVSSGNREKTALYWSENLRFLAPGSHAHAGWRTGIDDFLEYVQGMLEASGGSWSMRPITLLINNDDGYSIDVNEIHAIRKGAPEGSTSPFDVLDISGVQMLKWENGKVVEGYGGVFGDGATNYTQWWSPLSGDGERRY 6a5h-a1-m2-cB_6a5h-a1-m2-cA The structure of [4+2] and [6+4] cyclase in the biosynthetic pathway of unidentified natural product 1.618 X-RAY DIFFRACTION 103 1.0 1206736 (Nocardia tenerifensis NBRC 101015) 1206736 (Nocardia tenerifensis NBRC 101015) 150 151 6a5h-a1-m1-cB_6a5h-a1-m1-cA EITPELVAAAYEAVSSGNREKTALYWSENLRFLAPGSHAHAGWRTGIDDFLEYVQGMLEASGGSWSMRPITLLINNDDGYSIDVNEIHAIRKGAPEGSTSPFDVLDISGVQMLKWENGKVVEGYGGVFGDGATNYTQWWSPLSGDGERRY TEITPELVAAAYEAVSSGNREKTALYWSENLRFLAPGSHAHAGWRTGIDDFLEYVQGMLEASGGSWSMRPITLLINNDDGYSIDVNEIHAIRKGAPEGSTSPFDVLDISGVQMLKWENGKVVEGYGGVFGDGATNYTQWWSPLSGDGERRY 6a66-a1-m1-cA_6a66-a1-m2-cA Placental protein 13/galectin-13 variant R53H with Tris Q9UHV8 Q9UHV8 1.4 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 138 5xg8-a1-m1-cA_5xg8-a1-m2-cA 5y03-a1-m1-cA_5y03-a1-m2-cA 6a62-a1-m1-cA_6a62-a1-m2-cA 6a63-a1-m1-cA_6a63-a1-m2-cA 6a64-a1-m1-cA_6a64-a1-m2-cA 6a65-a1-m1-cA_6a65-a1-m2-cA SSLPVPYKLPVSLSVGSCVIIKGTPIHSFINDPQLQVDFYTDMDEDSDIAFHFRVHFGNHVVMNRREFGIWMLEETTDYVPFEDGKQFELCIYVHYNEYEIKVNGIRIYGFVHRIPPSFVKMVQVSRDISLTSVCVCN SSLPVPYKLPVSLSVGSCVIIKGTPIHSFINDPQLQVDFYTDMDEDSDIAFHFRVHFGNHVVMNRREFGIWMLEETTDYVPFEDGKQFELCIYVHYNEYEIKVNGIRIYGFVHRIPPSFVKMVQVSRDISLTSVCVCN 6a68-a1-m1-cA_6a68-a1-m2-cA the crystal structure of rat calcium-dependent activator protein for secretion (CAPS) DAMH domain Q62717 Q62717 2.901 X-RAY DIFFRACTION 105 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 159 159 GPLGSMENVGRLITPAKKLEDTIRLAELVIEVLQQNEEHHAEAFAWWSDLVEHAETFLSLFAVDDAALEVQPPDTWDSFPLFQLLNDFLRTDYNLCNGKFHKHLQDLFAPLVVRYVDLESSIAQSIHRGFERESEDLFWKLDALQTFIRDLHWPEEEFG GPLGSMENVGRLITPAKKLEDTIRLAELVIEVLQQNEEHHAEAFAWWSDLVEHAETFLSLFAVDDAALEVQPPDTWDSFPLFQLLNDFLRTDYNLCNGKFHKHLQDLFAPLVVRYVDLESSIAQSIHRGFERESEDLFWKLDALQTFIRDLHWPEEEFG 6a6a-a1-m1-cB_6a6a-a1-m1-cA VanYB in complex with D-Alanine Q47746 Q47746 2.26 X-RAY DIFFRACTION 65 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 181 183 EWSLILVNRQNPIPAQYDVELEQLSNGERIDIRISPYLQDLFDAARADGVYPIVASGYRTTEKQQEIMDEKVAEYKAKGYTSAQAKAEAETWVAVPGTSEHQLGLAVDINADGIHSTGNEVYRWLDENSYRFGFIRRYPPDKTEITGVSNEPWHYRYVGIEAATKIYHQGLCLEEYLNTEK EWSLILVNRQNPIPAQYDVELEQLSNGERIDIRISPYLQDLFDAARADGVYPIVASGYRTTEKQQEIMDEKVAEYKAKGYTSAQAKAEAETWVAVPGTSEHQLGLAVDINADGIHSTGNEVYRWLDENSYRFGFIRRYPPDKTEITGVSNEPWHYRYVGIEAATKIYHQGLCLEEYLNTEKLE 6a6b-a1-m1-cC_6a6b-a1-m1-cI cryo-em structure of alpha-synuclein fiber P37840 P37840 3.07 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 6a6b-a1-m1-cA_6a6b-a1-m1-cK 6a6b-a1-m1-cA_6a6b-a1-m1-cL 6a6b-a1-m1-cB_6a6b-a1-m1-cJ 6a6b-a1-m1-cB_6a6b-a1-m1-cK 6a6b-a1-m1-cC_6a6b-a1-m1-cJ 6a6b-a1-m1-cD_6a6b-a1-m1-cH 6a6b-a1-m1-cD_6a6b-a1-m1-cI 6a6b-a1-m1-cE_6a6b-a1-m1-cG 6a6b-a1-m1-cE_6a6b-a1-m1-cH 6a6b-a1-m1-cF_6a6b-a1-m1-cG 6cu7-a1-m1-cA_6cu7-a1-m1-cB 6cu7-a1-m1-cB_6cu7-a1-m1-cC 6cu7-a1-m1-cC_6cu7-a1-m1-cD 6cu7-a1-m1-cD_6cu7-a1-m1-cE 6cu7-a1-m1-cE_6cu7-a1-m1-cF 6cu7-a1-m1-cF_6cu7-a1-m1-cG 6cu7-a1-m1-cG_6cu7-a1-m1-cH 6cu7-a1-m1-cH_6cu7-a1-m1-cI 6cu7-a1-m1-cI_6cu7-a1-m1-cJ 6h6b-a1-m1-cA_6h6b-a1-m1-cE 6h6b-a1-m1-cA_6h6b-a1-m1-cJ 6h6b-a1-m1-cB_6h6b-a1-m1-cD 6h6b-a1-m1-cB_6h6b-a1-m1-cE 6h6b-a1-m1-cC_6h6b-a1-m1-cD 6h6b-a1-m1-cC_6h6b-a1-m1-cF 6h6b-a1-m1-cG_6h6b-a1-m1-cI 6h6b-a1-m1-cH_6h6b-a1-m1-cI 6h6b-a1-m1-cH_6h6b-a1-m1-cJ 6osj-a1-m1-cA_6osj-a1-m1-cB 6osj-a1-m1-cB_6osj-a1-m1-cC 6osj-a1-m1-cC_6osj-a1-m1-cD 6osj-a1-m1-cD_6osj-a1-m1-cE 6osj-a1-m1-cE_6osj-a1-m1-cF 6osj-a1-m1-cF_6osj-a1-m1-cG 6osj-a1-m1-cG_6osj-a1-m1-cH 6osj-a1-m1-cH_6osj-a1-m1-cI 6osj-a1-m1-cI_6osj-a1-m1-cJ 6osl-a1-m1-cA_6osl-a1-m1-cB 6osl-a1-m1-cB_6osl-a1-m1-cC 6osl-a1-m1-cC_6osl-a1-m1-cD 6osl-a1-m1-cD_6osl-a1-m1-cE 6osl-a1-m1-cE_6osl-a1-m1-cF 6osl-a1-m1-cF_6osl-a1-m1-cG 6osl-a1-m1-cG_6osl-a1-m1-cH 6osl-a1-m1-cH_6osl-a1-m1-cI 6osl-a1-m1-cI_6osl-a1-m1-cJ 7wmm-a1-m1-cA_7wmm-a1-m1-cC 7wmm-a1-m1-cA_7wmm-a1-m1-cF 7wmm-a1-m1-cB_7wmm-a1-m1-cC 7wmm-a1-m1-cB_7wmm-a1-m1-cD 7wmm-a1-m1-cE_7wmm-a1-m1-cF 7xjx-a1-m1-cA_7xjx-a1-m1-cB 7xjx-a1-m1-cA_7xjx-a1-m1-cE 7xjx-a1-m1-cB_7xjx-a1-m1-cD 7xjx-a1-m1-cC_7xjx-a1-m1-cE 7xjx-a1-m1-cD_7xjx-a1-m1-cF 7yk2-a1-m1-cA_7yk2-a1-m1-cE 7yk2-a1-m1-cA_7yk2-a1-m1-cF 7yk2-a1-m1-cB_7yk2-a1-m1-cC 7yk2-a1-m1-cB_7yk2-a1-m1-cF 7yk2-a1-m1-cC_7yk2-a1-m1-cD 7yk8-a1-m1-cB_7yk8-a1-m1-cK 7yk8-a1-m1-cB_7yk8-a1-m1-cL 7yk8-a1-m1-cE_7yk8-a1-m1-cJ 7yk8-a1-m1-cE_7yk8-a1-m1-cL 7yk8-a1-m1-cF_7yk8-a1-m1-cK VLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ VLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 6a6b-a1-m1-cK_6a6b-a1-m1-cL cryo-em structure of alpha-synuclein fiber P37840 P37840 3.07 ELECTRON MICROSCOPY 249 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 6a6b-a1-m1-cA_6a6b-a1-m1-cB 6a6b-a1-m1-cB_6a6b-a1-m1-cC 6a6b-a1-m1-cC_6a6b-a1-m1-cD 6a6b-a1-m1-cD_6a6b-a1-m1-cE 6a6b-a1-m1-cE_6a6b-a1-m1-cF 6a6b-a1-m1-cG_6a6b-a1-m1-cH 6a6b-a1-m1-cH_6a6b-a1-m1-cI 6a6b-a1-m1-cI_6a6b-a1-m1-cJ 6a6b-a1-m1-cJ_6a6b-a1-m1-cK 6cu7-a1-m1-cA_6cu7-a1-m1-cC 6cu7-a1-m1-cB_6cu7-a1-m1-cD 6cu7-a1-m1-cC_6cu7-a1-m1-cE 6cu7-a1-m1-cD_6cu7-a1-m1-cF 6cu7-a1-m1-cE_6cu7-a1-m1-cG 6cu7-a1-m1-cF_6cu7-a1-m1-cH 6cu7-a1-m1-cG_6cu7-a1-m1-cI 6cu7-a1-m1-cH_6cu7-a1-m1-cJ 6h6b-a1-m1-cA_6h6b-a1-m1-cB 6h6b-a1-m1-cA_6h6b-a1-m1-cH 6h6b-a1-m1-cB_6h6b-a1-m1-cC 6h6b-a1-m1-cD_6h6b-a1-m1-cE 6h6b-a1-m1-cD_6h6b-a1-m1-cF 6h6b-a1-m1-cE_6h6b-a1-m1-cJ 6h6b-a1-m1-cG_6h6b-a1-m1-cH 6h6b-a1-m1-cI_6h6b-a1-m1-cJ 6osj-a1-m1-cA_6osj-a1-m1-cC 6osj-a1-m1-cB_6osj-a1-m1-cD 6osj-a1-m1-cC_6osj-a1-m1-cE 6osj-a1-m1-cD_6osj-a1-m1-cF 6osj-a1-m1-cE_6osj-a1-m1-cG 6osj-a1-m1-cF_6osj-a1-m1-cH 6osj-a1-m1-cG_6osj-a1-m1-cI 6osj-a1-m1-cH_6osj-a1-m1-cJ 6osl-a1-m1-cA_6osl-a1-m1-cC 6osl-a1-m1-cB_6osl-a1-m1-cD 6osl-a1-m1-cC_6osl-a1-m1-cE 6osl-a1-m1-cD_6osl-a1-m1-cF 6osl-a1-m1-cE_6osl-a1-m1-cG 6osl-a1-m1-cF_6osl-a1-m1-cH 6osl-a1-m1-cG_6osl-a1-m1-cI 6osl-a1-m1-cH_6osl-a1-m1-cJ 7wmm-a1-m1-cA_7wmm-a1-m1-cB 7wmm-a1-m1-cA_7wmm-a1-m1-cE 7wmm-a1-m1-cC_7wmm-a1-m1-cD 7wmm-a1-m1-cC_7wmm-a1-m1-cF 7xjx-a1-m1-cA_7xjx-a1-m1-cC 7xjx-a1-m1-cA_7xjx-a1-m1-cD 7xjx-a1-m1-cB_7xjx-a1-m1-cE 7xjx-a1-m1-cB_7xjx-a1-m1-cF 7yk2-a1-m1-cA_7yk2-a1-m1-cB 7yk2-a1-m1-cB_7yk2-a1-m1-cD 7yk2-a1-m1-cC_7yk2-a1-m1-cF 7yk2-a1-m1-cE_7yk2-a1-m1-cF 7yk8-a1-m1-cB_7yk8-a1-m1-cE 7yk8-a1-m1-cB_7yk8-a1-m1-cF 7yk8-a1-m1-cJ_7yk8-a1-m1-cL 7yk8-a1-m1-cK_7yk8-a1-m1-cL VLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ VLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 6a6e-a2-m1-cC_6a6e-a2-m1-cD Crystal structure of thermostable Cysteine desulfurase (FiSufS) from thermophilic Fervidobacterium Islandicum AW-1 A0A1B0VPZ3 A0A1B0VPZ3 2.09 X-RAY DIFFRACTION 270 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 421 421 6a6e-a1-m1-cA_6a6e-a1-m1-cB 6a6g-a1-m1-cA_6a6g-a1-m1-cB HMRSTVFSDEEFSNILNDFPALKRNINGKRLVYLDNAASTLKCKSVIEKMTDFYLYHYSNIHRAVHTLASEATVAYEQAREKVANFLNASSEEIIFTSGTTMGINFLVNSLAKSGILKTEDTVLISQVEHHANLVPWVRLSKFYGFKVAYITADEKGVITNESILKTKESIPNPKVVSITGQSNVTGQEMPIELIRETFKNATLIVDGAQLVPHKKVDVKKLDVDFLVFSGHKILGPTGIGVLYGKKALLEQLEPFLYGGEMIDKVTFEDVTFNVLPYRFEAGTQHITGAVGLGYTIDYLESIGFEKVEKHVEELSNYLLEKMMELDFVEVYGPIDSSHKSLVSFNVKGVHPHDVSHILDENFGVATRSGHHAQPLMGVLAKGSKIDFPNSTVRASVYLYNTKEDIDVLIEGLKYIRRWFE HMRSTVFSDEEFSNILNDFPALKRNINGKRLVYLDNAASTLKCKSVIEKMTDFYLYHYSNIHRAVHTLASEATVAYEQAREKVANFLNASSEEIIFTSGTTMGINFLVNSLAKSGILKTEDTVLISQVEHHANLVPWVRLSKFYGFKVAYITADEKGVITNESILKTKESIPNPKVVSITGQSNVTGQEMPIELIRETFKNATLIVDGAQLVPHKKVDVKKLDVDFLVFSGHKILGPTGIGVLYGKKALLEQLEPFLYGGEMIDKVTFEDVTFNVLPYRFEAGTQHITGAVGLGYTIDYLESIGFEKVEKHVEELSNYLLEKMMELDFVEVYGPIDSSHKSLVSFNVKGVHPHDVSHILDENFGVATRSGHHAQPLMGVLAKGSKIDFPNSTVRASVYLYNTKEDIDVLIEGLKYIRRWFE 6a6f-a1-m1-cA_6a6f-a1-m1-cB Crystal structure of Putative iron-sulfur cluster assembly scaffold protein for SUF system (FiSufU) from thermophilic Fervidobacterium Islandicum AW-1 A0A1B0VLW5 A0A1B0VLW5 2.1 X-RAY DIFFRACTION 38 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 136 136 GSHMIYSEFIMDYSKLKKFHGKIENAHKVEEGKNLSCGDEVTLYFLFDGDKIVDVKFEGHGCAISQASTNVMIEQIIGKTKQEALEMMKNAENMMLGKEFDENVLGPIINFYDVKNYPMRVKCFLLPWKTLEIALK GSHMIYSEFIMDYSKLKKFHGKIENAHKVEEGKNLSCGDEVTLYFLFDGDKIVDVKFEGHGCAISQASTNVMIEQIIGKTKQEALEMMKNAENMMLGKEFDENVLGPIINFYDVKNYPMRVKCFLLPWKTLEIALK 6a6m-a1-m1-cA_6a6m-a1-m2-cA Crystal structure of an outward-open nucleotide-bound state of the eukaryotic ABC multidrug transporter CmABCB1 M1VAN7 M1VAN7 1.9 X-RAY DIFFRACTION 478 1.0 280699 (Cyanidioschyzon merolae strain 10D) 280699 (Cyanidioschyzon merolae strain 10D) 589 589 7dqv-a1-m1-cA_7dqv-a1-m2-cA 7fc9-a1-m1-cA_7fc9-a1-m2-cA TTGVTARRIFALAWSSSATMIVIGFIASILEGATLPAFAIVFGRMFAVFTKSKSQIEGETWKYSVGFVGIGVFEFIVAGSRTALFGIASERLARDLRVAAFSNLVEQDVTYFDRRKAGELGGKLNNDVQVIQYSFSKLGAVLFNLAQCVVGIIVAFIFAPALTGVLIALSPLVVLAGAAQMIEMSGNTKRSSEAYASAGSVAAEVFSNIRTTKAFEAERYETQRYGSKLDPLYRLGRRRYISDGLFFGLSMLVIFCVYALALWWGGQLIARGSLNLGNLLAAFFSAILGFMGVGQAAQVWPDVTRGLGAGGELFAMIDRVPQYRRPDPGAEVVTQPLVLKQGIVFENVHFRYPTRMNVEVLRGISLTIPNGKTVAIVGGSGAGKSTIIQLLMRFYDIEPQGGGLLLFDGTPAWNYDFHALRSQIGLVSQEPVLFSGTIRDNILYGKRDATDEEVIQALREANAYSFVMALPDGLDTEVGERGLALSGGQKQRIAIARAILKHPTLLCLDESTSALDAESEALVQEALDRMMASDGVTSVVIAHRLSTVARADLILVMQDGVVVEQGNHSELMALGPSGFYYQLVEKQLA TTGVTARRIFALAWSSSATMIVIGFIASILEGATLPAFAIVFGRMFAVFTKSKSQIEGETWKYSVGFVGIGVFEFIVAGSRTALFGIASERLARDLRVAAFSNLVEQDVTYFDRRKAGELGGKLNNDVQVIQYSFSKLGAVLFNLAQCVVGIIVAFIFAPALTGVLIALSPLVVLAGAAQMIEMSGNTKRSSEAYASAGSVAAEVFSNIRTTKAFEAERYETQRYGSKLDPLYRLGRRRYISDGLFFGLSMLVIFCVYALALWWGGQLIARGSLNLGNLLAAFFSAILGFMGVGQAAQVWPDVTRGLGAGGELFAMIDRVPQYRRPDPGAEVVTQPLVLKQGIVFENVHFRYPTRMNVEVLRGISLTIPNGKTVAIVGGSGAGKSTIIQLLMRFYDIEPQGGGLLLFDGTPAWNYDFHALRSQIGLVSQEPVLFSGTIRDNILYGKRDATDEEVIQALREANAYSFVMALPDGLDTEVGERGLALSGGQKQRIAIARAILKHPTLLCLDESTSALDAESEALVQEALDRMMASDGVTSVVIAHRLSTVARADLILVMQDGVVVEQGNHSELMALGPSGFYYQLVEKQLA 6a6x-a1-m1-cD_6a6x-a1-m1-cC The crystal structure of the Mtb MazE-MazF-mt9 complex P9WJ85 P9WJ85 2.7 X-RAY DIFFRACTION 108 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 54 75 TSTTIRVSTQTRDRLAAQARERGISMSALLTELAAQAERQAIFRAEREASHAET STSTTIRVSTQTRDRLAAQARERGISMSALLTELAAQAERQAIFRAEREASHAETTTQAVRDEDREWEGTVGDGL 6a6y-a1-m1-cB_6a6y-a1-m1-cA Crystal Structure of Asf1 from Plasmodium falciparum Q8I5H2 Q8I5H2 2.491 X-RAY DIFFRACTION 26 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 151 152 MSEVNVTKVIVNNPICDILDPFVFTIEFEALNKLEADLEWKIFYISAVQDIELDNIFLGPIERGVMMFDYAVNPPDYKNMDIDSVLGLQAILISANYKEKEFIRIAYYMNSFYKDMELRENPPVVPQYDKICRHIFVENPRIVKFSIGWDS MSEVNVTKVIVNNPICDILDPFVFTIEFEALNKLEADLEWKIFYISAVNQDIELDNIFLGPIERGVMMFDYAVNPPDYKNMDIDSVLGLQAILISANYKEKEFIRIAYYMNSFYKDMELRENPPVVPQYDKICRHIFVENPRIVKFSIGWDS 6a71-a1-m1-cB_6a71-a1-m1-cA Crystal Structure of Human ATP7B and TM Complex P35670 P35670 1.6 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 72 CSTTLIAIAGMTCASCVHSIEGMISQLEGVQQISVSLAEGTATVLYNPAVISPEELRAAIEDMGFEASVVS TCSTTLIAIAGMTCASCVHSIEGMISQLEGVQQISVSLAEGTATVLYNPAVISPEELRAAIEDMGFEASVVS 6a72-a1-m1-cA_6a72-a1-m2-cB Copper transporter protein P35670 P35670 2.1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 72 CSTTLIAIAGMTCASCVHSIEGMISQLEGVQQISVSLAEGTATVLYNPAVISPEELRAAIEDMGFEASVVS TCSTTLIAIAGMTCASCVHSIEGMISQLEGVQQISVSLAEGTATVLYNPAVISPEELRAAIEDMGFEASVVS 6a7k-a3-m1-cB_6a7k-a3-m1-cA X-ray structure of NdhS from T. elongatus Q8DL61 Q8DL61 1.9 X-RAY DIFFRACTION 49 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 59 62 DLIMTILPGMTVKVTNPNDTYYQFQGIVQRITDGKVAVLFEGGNWDKLVTFQASELEPV MATDLIMTILPGMTVKVTNPNDTYYQFQGIVQRITDGKVAVLFEGGNWDKLVTFQASELEPV 6a7s-a1-m1-cB_6a7s-a1-m2-cB Ca2+-independent C-type lectin SPL-2 from Saxidomus purpuratus A0A2Z6G7U3 A0A2Z6G7U3 2 X-RAY DIFFRACTION 58 1.0 311201 (Saxidomus purpurata) 311201 (Saxidomus purpurata) 138 138 CCSEDDCPSGWKFFGGSCYLFDEGSRGWEGSKAFCESKDASLVTVECSKEDDFIRGILSGQTAKHYYWIGARWNEEHNDYRWIDGSPFTFIGWGPGKPDNNKGCLDYLNYKEVVWQWNDHVDCENTNGPCICEIDCSD CCSEDDCPSGWKFFGGSCYLFDEGSRGWEGSKAFCESKDASLVTVECSKEDDFIRGILSGQTAKHYYWIGARWNEEHNDYRWIDGSPFTFIGWGPGKPDNNKGCLDYLNYKEVVWQWNDHVDCENTNGPCICEIDCSD 6a7v-a1-m1-cA_6a7v-a1-m1-cG Crystal structure of Mycobacterium tuberculosis VapBC11 toxin-antitoxin complex P9WFA5 P9WFA5 1.67 X-RAY DIFFRACTION 35 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 135 138 6a7v-a1-m1-cE_6a7v-a1-m1-cC ASILIDTSAWVEYFRATGSIAAVEVRRLLSEEAARIAMCEPIAMEILSGALDDNTHTTLERLVNGLPSLNVDDAIDFRAAAGIYRAARRAGETVRSINDCLIAALAIRHGARIVHRDADFDVIARITNLQAASFR HHHASILIDTSAWVEYFRATGSIAAVEVRRLLSEEAARIAMCEPIAMEILSGALDDNTHTTLERLVNGLPSLNVDDAIDFRAAAGIYRAARRAGETVRSINDCLIAALAIRHGARIVHRDADFDVIARITNLQAASFR 6a7v-a1-m1-cD_6a7v-a1-m1-cU Crystal structure of Mycobacterium tuberculosis VapBC11 toxin-antitoxin complex P9WLU3 P9WLU3 1.67 X-RAY DIFFRACTION 94 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 62 62 6a7v-a1-m1-cH_6a7v-a1-m1-cK SRTNIDIDDELAAEVMRRFGLTTKRAAVDLALRRLVGSPLSREFLLGLEGVGWEGDLDDLRS SRTNIDIDDELAAEVMRRFGLTTKRAAVDLALRRLVGSPLSREFLLGLEGVGWEGDLDDLRS 6a7v-a1-m1-cE_6a7v-a1-m1-cG Crystal structure of Mycobacterium tuberculosis VapBC11 toxin-antitoxin complex P9WFA5 P9WFA5 1.67 X-RAY DIFFRACTION 80 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 135 138 6a7v-a1-m1-cA_6a7v-a1-m1-cC ASILIDTSAWVEYFRATGSIAAVEVRRLLSEEAARIAMCEPIAMEILSGALDDNTHTTLERLVNGLPSLNVDDAIDFRAAAGIYRAARRAGETVRSINDCLIAALAIRHGARIVHRDADFDVIARITNLQAASFR HHHASILIDTSAWVEYFRATGSIAAVEVRRLLSEEAARIAMCEPIAMEILSGALDDNTHTTLERLVNGLPSLNVDDAIDFRAAAGIYRAARRAGETVRSINDCLIAALAIRHGARIVHRDADFDVIARITNLQAASFR 6a80-a1-m1-cA_6a80-a1-m1-cB Crystal Structure of putative amino acid binding periplasmic ABC transporter protein from Candidatus Liberibacter asiaticus in complex with cystine C6XGT2 C6XGT2 1.56 X-RAY DIFFRACTION 111 1.0 537021 (Candidatus Liberibacter asiaticus str. psy62) 537021 (Candidatus Liberibacter asiaticus str. psy62) 234 234 6a8s-a1-m1-cA_6a8s-a1-m1-cB 6aa1-a1-m1-cA_6aa1-a1-m1-cB 6aal-a1-m1-cA_6aal-a1-m1-cB SALRVGTDGIYPPHSFHAQDGRGELTGFDIDLIKEVAHRLNLKVEFFETAVSGLITGLDTNRYDVLVNVAITPERQKKYDFSIPYIAHRVLLVVRSDQQDIRSFKDLTDKTVAQILGTDLSRFAKELKSHLVFSHNFEQSLQLLLSKRTDATMIPDIPFFNFLERRPHDGNLFKIADRMKDNSAVAFMMRKGNNKLTRSINEILCAIHLDGTYKKIFDRYFDKNIISSVPGCSS SALRVGTDGIYPPHSFHAQDGRGELTGFDIDLIKEVAHRLNLKVEFFETAVSGLITGLDTNRYDVLVNVAITPERQKKYDFSIPYIAHRVLLVVRSDQQDIRSFKDLTDKTVAQILGTDLSRFAKELKSHLVFSHNFEQSLQLLLSKRTDATMIPDIPFFNFLERRPHDGNLFKIADRMKDNSAVAFMMRKGNNKLTRSINEILCAIHLDGTYKKIFDRYFDKNIISSVPGCSS 6a8a-a1-m1-cA_6a8a-a1-m1-cB Ribokinase from Leishmania donovani with ATP A0A3S7X0F5 A0A3S7X0F5 1.8 X-RAY DIFFRACTION 106 1.0 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 327 327 5zwy-a1-m1-cA_5zwy-a1-m1-cB 6a8b-a1-m1-cA_6a8b-a1-m1-cB 6a8c-a1-m1-cA_6a8c-a1-m1-cB RARNVRSHTGEYAPDILVVGSCFLDYVGYVDHMPQVGETMHSVSFHKGFGGKGANQAVAAGRLGAKVAMVSMVGTDGDGSDYIKELERNGVDTAYMFRTGKSSTGLAMILVDTKSSNNEIVICPNATNHFTPELLRAQTNNYERILHTGLKYLICQNEIPLPTTLDTIKEAHSRGVYTVFNSAPAPKPAEVEQIKPFLPYVSLFCPNEVEATLITGVKVTDTESAFSAIKALQQLGVRDVVITLGAAGFVLSENGAEPVHVTGKHVKAVDTTGAGDCFVGSMVYFMSRGRNLLEACKRANECAAISVTRKGTQLSYPHPSELPAGVM RARNVRSHTGEYAPDILVVGSCFLDYVGYVDHMPQVGETMHSVSFHKGFGGKGANQAVAAGRLGAKVAMVSMVGTDGDGSDYIKELERNGVDTAYMFRTGKSSTGLAMILVDTKSSNNEIVICPNATNHFTPELLRAQTNNYERILHTGLKYLICQNEIPLPTTLDTIKEAHSRGVYTVFNSAPAPKPAEVEQIKPFLPYVSLFCPNEVEATLITGVKVTDTESAFSAIKALQQLGVRDVVITLGAAGFVLSENGAEPVHVTGKHVKAVDTTGAGDCFVGSMVYFMSRGRNLLEACKRANECAAISVTRKGTQLSYPHPSELPAGVM 6a8l-a1-m1-cA_6a8l-a1-m1-cB Crystal structure of nicotinamidase/ pyrazinamidase PncA from Bacillus subtilis A0A223CGG0 A0A223CGG0 2 X-RAY DIFFRACTION 49 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 183 183 5zn8-a1-m1-cB_5zn8-a1-m1-cA MKKALICIDYTNDFAAENGALTCGEPARQIEDTIVSLTQAFIENGDYVVFAVDSHDADDDFHPETRLFPPHNINGTEGKELYGRLSPLYEKHKHAKNVNYMEKTRYSAFAGTDLELKLRERQIAELHLAGLCTDICVLHTAVDAYNKGFQIVIHQNAVASFNPEGHEWALSHFKNSIGAQVAE MKKALICIDYTNDFAAENGALTCGEPARQIEDTIVSLTQAFIENGDYVVFAVDSHDADDDFHPETRLFPPHNINGTEGKELYGRLSPLYEKHKHAKNVNYMEKTRYSAFAGTDLELKLRERQIAELHLAGLCTDICVLHTAVDAYNKGFQIVIHQNAVASFNPEGHEWALSHFKNSIGAQVAE 6a97-a1-m1-cC_6a97-a1-m1-cA Crystal structure of MHC-like MILL2 Q8HWE5 Q8HWE5 2.148 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 225 267 THTLRYNVRAHSLEGSEKTQLLVLIYVDEELFLKYNGDSRETEPLGCWICARETNNLLKVEEKLRGMMAEVINTLQATLGCERGFWHLGYDFLTFDTLTWTVQNKMFWKTHAPRADLVKTFLDDICPAHLQRYLGPPMVTVTCRNYPVGRVTLTCRAFNLYTREATLVWLQDGKPVQQKTFRSETILPSGDGTYQARVSIRVLPGQEPQFSCNLRHGNHSIMQTA THTLRYNVRAHSLEGSEKTQLLVLIYVDEELFLKYNGDSRETEPLGCWIKGHGGNETCARETNNLLKVEEKLRGMMAEVINQKSQEEGLHTLQATLGCELLSNGSTRGFWHLGYDGQNFLTFDQKTLTWTVDGPSTQQNKMFWKTHAPRADLVKTFLDDICPAHLQRYLASLRNGTGPPMVTVTCRNYPVGRVTLTCRAFNLYTREATLVWLQDGKPVQQKTFRSETILPSGDGTYQARVSIRVLPGQEPQFSCNLRHGNHSIMQTA 6a98-a2-m1-cD_6a98-a2-m1-cB Crystal structure of a cyclase from Fischerella sp. TAU A0A1P8VSL7 A0A1P8VSL7 1.82 X-RAY DIFFRACTION 76 1.0 56108 (Fischerella ambigua) 56108 (Fischerella ambigua) 199 201 6a8x-a1-m1-cA_6a8x-a1-m1-cB 6a98-a1-m1-cA_6a98-a1-m1-cC 6a99-a1-m1-cA_6a99-a1-m1-cB 6a99-a2-m1-cD_6a99-a2-m2-cC 6a9f-a1-m1-cC_6a9f-a1-m1-cA 6a9f-a2-m1-cB_6a9f-a2-m1-cD SAVSIPIKNAGFEEPSLTVEYTIDTPPGWITYDPNGLVPAKRTRITSNNGVGYTGPNSAYYNHKAPEGRNVAYVYLAQEIGSGIAGLEQTLDAVLKPNTKYTLTVDIGNSGGSFQGFPLDGFPGYRVELLAGDTVLAADQNNLYIKEKDFKTTTVTFIATPESPYLGQHLGIRLINPLQGKFSGVDFDNVRLTAEPAET SAVSIPIKNAGFEEPSLTVEDYYTIDTPPGWITYDPNGLVPAKRTRITSNNGVGYTGPNSAYYNHKAPEGRNVAYVYLAQEIGSGIAGLEQTLDAVLKPNTKYTLTVDIGNSGGSFQGFPLDGFPGYRVELLAGDTVLAADQNNLYIKEKDFKTTTVTFIATPESPYLGQHLGIRLINPLQGKFSGVDFDNVRLTAEPAET 6a9c-a1-m1-cA_6a9c-a1-m1-cB Crystal Structure c-terminal SH3 domain of Myosin IB from Entamoeba histolytica bound to EhFP10(GEF) peptide. C4LUC7 C4LUC7 1.98 X-RAY DIFFRACTION 50 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 59 66 MSKLPQVKALYPYTAANDEELSFKVGDIITILEKDEGWWKGELNGQEGWIPNNYVKEIL MSKLPQVKALYPYTAANDEELSFKVGDIITILEKDEGWWKGELNGQEGWIPNNYVKEILEHHHHHH 6a9d-a1-m1-cB_6a9d-a1-m1-cA Crystal structure of the strigolactone receptor ShHTL7 from Striga hermonthica A0A0M3PNA2 A0A0M3PNA2 2.302 X-RAY DIFFRACTION 27 1.0 68872 (Striga hermonthica) 68872 (Striga hermonthica) 266 275 SIGLAHNVTILGSGETTVVLGHGYGTDQSVWKLLVPYLVDDYKVLLYDHMGAGTTNPDYFDFDRYSSLEGYSYDLIAILEEFQVSKCIYVGHSMSSMAAAVASIFRPDLFHKLVMISPTPRLINTEEYYGGFEQKVMDETLRSLDENFKSLSLGTAPLLLACDLESAAMQEYCRTLFNMRPDIACCITRMICGLDLRPYLGHVTVPCHIIQSSNDIMVPVAVGEYLRKNLGGPSVVEVMPTEGHLPHLSMPEVTIPVVLRHIRQDI QQMGRDPMSSIGLAHNVTILGSGETTVVLGHGYGTDQSVWKLLVPYLVDDYKVLLYDHMGAGTTNPDYFDFDRYSSLEGYSYDLIAILEEFQVSKCIYVGHSMSSMAAAVASIFRPDLFHKLVMISPTPRLINTEEYYGGFEQKVMDETLRSLDENFKSLSLGTAPLLLACDLESAAMQEYCRTLFNMRPDIACCITRMICGLDLRPYLGHVTVPCHIIQSSNDIMVPVAVGEYLRKNLGGPSVVEVMPTEGHLPHLSMPEVTIPVVLRHIRQDI 6a9n-a1-m1-cA_6a9n-a1-m1-cB Crystal structure of KAS III from Propionibacterium acnes 2.099 X-RAY DIFFRACTION 296 1.0 1747 (Cutibacterium acnes) 1747 (Cutibacterium acnes) 331 331 TAIKTRPVHGYSKFLSTGSARGSRVVTNKEMCTLIDSTPEWIEQRTGITERRWATNSETVASMGTTAARTALERSGLEASQIDAIIVATVSHHRPSPSLAAYIARELGLGDAAAFDLNGAAAGFCYSTALADSMIRTGSANYVLVIGVEKLSEMTNLDDRSTAFLFSDGAGAAIIGASDEPGIGPVVWGSRSDQLKTIELEDWPTASADPNKIHPLIRMEGRAVFKWAMTDVAKRAAEAIAEAGITPADLDVFIPHQANDRITDVVSRHLKLPESVTVCHDIADMGNTSAASVPIAIDRMLQRGQAHSGDLALIIGFGAGLVYAGQVIRLP TAIKTRPVHGYSKFLSTGSARGSRVVTNKEMCTLIDSTPEWIEQRTGITERRWATNSETVASMGTTAARTALERSGLEASQIDAIIVATVSHHRPSPSLAAYIARELGLGDAAAFDLNGAAAGFCYSTALADSMIRTGSANYVLVIGVEKLSEMTNLDDRSTAFLFSDGAGAAIIGASDEPGIGPVVWGSRSDQLKTIELEDWPTASADPNKIHPLIRMEGRAVFKWAMTDVAKRAAEAIAEAGITPADLDVFIPHQANDRITDVVSRHLKLPESVTVCHDIADMGNTSAASVPIAIDRMLQRGQAHSGDLALIIGFGAGLVYAGQVIRLP 6a9p-a1-m1-cH_6a9p-a1-m1-cA Crystal structure of the human glial fibrillary acidic protein 1B domain P14136 P14136 2.51 X-RAY DIFFRACTION 21 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 101 103 6a9p-a1-m1-cB_6a9p-a1-m1-cG 6a9p-a2-m1-cE_6a9p-a2-m1-cD 6a9p-a2-m1-cF_6a9p-a2-m1-cC HMTKLADVYQAELRELRLRLDQLTANSARLEVERDNLAQDLATVRQKLQDETNLRLEAENNLAAYRQEADEATLARLDLERKIESLEEEIRFLRKIHEEEV TKLADVYQAELRELRLRLDQLTANSARLEVERDNLAQDLATVRQKLQDETNLRLEAENNLAAYRQEADEATLARLDLERKIESLEEEIRFLRKIHEEEVRELQ 6a9p-a2-m1-cE_6a9p-a2-m1-cC Crystal structure of the human glial fibrillary acidic protein 1B domain P14136 P14136 2.51 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 104 6a9p-a1-m1-cA_6a9p-a1-m1-cG TKLADVYQAELRELRLRLDQLTANSARLEVERDNLAQDLATVRQKLQDETNLRLEAENNLAAYRQEADEATLARLDLERKIESLEEEIRFLRKIHEEEVREL HMTKLADVYQAELRELRLRLDQLTANSARLEVERDNLAQDLATVRQKLQDETNLRLEAENNLAAYRQEADEATLARLDLERKIESLEEEIRFLRKIHEEEVREL 6a9p-a2-m1-cF_6a9p-a2-m1-cE Crystal structure of the human glial fibrillary acidic protein 1B domain P14136 P14136 2.51 X-RAY DIFFRACTION 145 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 100 102 6a9p-a1-m1-cA_6a9p-a1-m1-cB 6a9p-a1-m1-cH_6a9p-a1-m1-cG 6a9p-a2-m1-cC_6a9p-a2-m1-cD MTKLADVYQAELRELRLRLDQLTANSARLEVERDNLAQDLATVRQKLQDETNLRLEAENNLAAYRQEADEATLARLDLERKIESLEEEIRFLRKIHEEEV TKLADVYQAELRELRLRLDQLTANSARLEVERDNLAQDLATVRQKLQDETNLRLEAENNLAAYRQEADEATLARLDLERKIESLEEEIRFLRKIHEEEVREL 6a9y-a1-m1-cA_6a9y-a1-m2-cA The crystal structure of Mu homology domain of SGIP1 Q9BQI5 Q9BQI5 2.7 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 284 284 VDLGTENLYFQSADTLPVAAAFTETVNAYFKGADPSKCIVKITGEMVLSFPAGITRHFANNPSPAALTFRVINFSRLEHVLPNPQLLCCDNTQNDANTKEFWVNMPNLMTHLKKVSEQKPQATYYNVDMLKYQVSAQGIQSTPLNLAVNWRCEPSSTDLRIDYKYNTDAMTTAVALNNVQFLVPIDGGVTKLQAVLPPAVWNAEQQRILWKIPDISQKSENGGVGSLLARFQLSEGPSKPSPLVVQFTSEGSTLSGCDIELVGAGYRFSLIKKRFAAGKYLADN VDLGTENLYFQSADTLPVAAAFTETVNAYFKGADPSKCIVKITGEMVLSFPAGITRHFANNPSPAALTFRVINFSRLEHVLPNPQLLCCDNTQNDANTKEFWVNMPNLMTHLKKVSEQKPQATYYNVDMLKYQVSAQGIQSTPLNLAVNWRCEPSSTDLRIDYKYNTDAMTTAVALNNVQFLVPIDGGVTKLQAVLPPAVWNAEQQRILWKIPDISQKSENGGVGSLLARFQLSEGPSKPSPLVVQFTSEGSTLSGCDIELVGAGYRFSLIKKRFAAGKYLADN 6aa4-a2-m1-cA_6aa4-a2-m2-cA Crystal structure of MTH1 in complex with alpha-mangostin (cocktail No. 9) P36639 P36639 1.9 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 162 6aa3-a2-m1-cA_6aa3-a2-m2-cA 6aa5-a2-m1-cA_6aa5-a2-m2-cA ASRLYTLVLVLQPQRVLLGMKKRGFGAGRWNGFGGKVQEGETIEDGARRELQEESGLTVDALHKVGQIVFEFVGEPELMDVHVFCTDSIQGTPVESDEMRPCWFQLDQIPFKDMWPDDSYWFPLLLQKKKFHGYFKFQGQDTILDYTLREVDTVLEHHHHHH ASRLYTLVLVLQPQRVLLGMKKRGFGAGRWNGFGGKVQEGETIEDGARRELQEESGLTVDALHKVGQIVFEFVGEPELMDVHVFCTDSIQGTPVESDEMRPCWFQLDQIPFKDMWPDDSYWFPLLLQKKKFHGYFKFQGQDTILDYTLREVDTVLEHHHHHH 6aa7-a1-m1-cB_6aa7-a1-m2-cB Fluorescent protein from Acropora digitifera A0A1S7IWI8 A0A1S7IWI8 1.8 X-RAY DIFFRACTION 72 1.0 70779 (Acropora digitifera) 70779 (Acropora digitifera) 224 224 6aa7-a1-m1-cA_6aa7-a1-m2-cA KHGLTKDMTMKYRMEGCVDGHKFVITGHGNGSPFEGKQTINLCVVEGGPLPFSEDILSAVFNRVFTDYPQGMVDFFKNSCPAGYTWQRSLLFEDGAVCTASADITVSVEENCFYHESKFHGVNFPADGPVMKKMTINWEPCCEKIIPVPRQGILKGDVAMYLLLKDGGRYRCQFDTVYKAKTDSKKMPEWHFIQHKLTREDRSDAKNQKWQLAEHSVASRSALA KHGLTKDMTMKYRMEGCVDGHKFVITGHGNGSPFEGKQTINLCVVEGGPLPFSEDILSAVFNRVFTDYPQGMVDFFKNSCPAGYTWQRSLLFEDGAVCTASADITVSVEENCFYHESKFHGVNFPADGPVMKKMTINWEPCCEKIIPVPRQGILKGDVAMYLLLKDGGRYRCQFDTVYKAKTDSKKMPEWHFIQHKLTREDRSDAKNQKWQLAEHSVASRSALA 6aa7-a1-m2-cB_6aa7-a1-m2-cA Fluorescent protein from Acropora digitifera A0A1S7IWI8 A0A1S7IWI8 1.8 X-RAY DIFFRACTION 44 1.0 70779 (Acropora digitifera) 70779 (Acropora digitifera) 224 226 6aa7-a1-m1-cB_6aa7-a1-m1-cA KHGLTKDMTMKYRMEGCVDGHKFVITGHGNGSPFEGKQTINLCVVEGGPLPFSEDILSAVFNRVFTDYPQGMVDFFKNSCPAGYTWQRSLLFEDGAVCTASADITVSVEENCFYHESKFHGVNFPADGPVMKKMTINWEPCCEKIIPVPRQGILKGDVAMYLLLKDGGRYRCQFDTVYKAKTDSKKMPEWHFIQHKLTREDRSDAKNQKWQLAEHSVASRSALA LSKHGLTKDMTMKYRMEGCVDGHKFVITGHGNGSPFEGKQTINLCVVEGGPLPFSEDILSAVFNRVFTDYPQGMVDFFKNSCPAGYTWQRSLLFEDGAVCTASADITVSVEENCFYHESKFHGVNFPADGPVMKKMTINWEPCCEKIIPVPRQGILKGDVAMYLLLKDGGRYRCQFDTVYKAKTDSKKMPEWHFIQHKLTREDRSDAKNQKWQLAEHSVASRSALA 6aae-a1-m1-cA_6aae-a1-m1-cB Crystal structure of Chloramphenicol-Metabolizaing Enzyme EstDL136 G3CR02 G3CR02 1.641 X-RAY DIFFRACTION 156 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 308 314 6iey-a1-m1-cA_6iey-a1-m1-cB PLNPHVEALLQMMAQMPAPDFSVANPAEIRAVFDNLAAPPQVARVENIAISLDGRDLDARLYVPEDADERPALMVYYHGGGWVIGTLDTHDGTCRALAQKSGCAVLSIAYRLAPEYRYPAPAEDCYDALVWAKQNAATLGVDGDRLAVGGDSAGGNLAAAVAIMARDRNGPALRHQLLIYPVTDNDFTLASYAENGGGEYYLSTDGMRWFWGHYLGDTAAENAPLAAVLNVADLSGLAPATVITAEYDPLRDEGIAYAKKLDAAGVPVDAATAPGMIHGFFSMFEAVPDSWEWIERGASNLKRDLALE PLNPHVEALLQMMAQMPAPDFSVANPAEIRAVFDNLAAPPQVARVENIAISLDGRDLDARLYVPEDADERPALMVYYHGGGWVIGTLDTHDGTCRALAQKSGCAVLSIAYRLAPEYRYPAPAEDCYDALVWAKQNAATLGVDGDRLAVGGDSAGGNLAAAVAIMARDRNGPALRHQLLIYPVTDNDFTLASYAENGGGEYYLSTDGMRWFWGHYLGDTAAENAPLAAVLNVADLSGLAPATVITAEYDPLRDEGIAYAKKLDAAGVPVDAATAPGMIHGFFSMFEAVPDSWEWIERGASNLKRDLALEHHHHHH 6aag-a1-m1-cA_6aag-a1-m1-cF Crystal structure of budding yeast Atg8 complexed with the helical AIM of Hfl1. P38182 P38182 2.445 X-RAY DIFFRACTION 99 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 137 138 6aag-a1-m1-cA_6aag-a1-m1-cB 6aag-a1-m1-cB_6aag-a1-m1-cC 6aag-a1-m2-cE_6aag-a1-m2-cD 6aag-a1-m2-cE_6aag-a1-m2-cG 6aag-a1-m2-cG_6aag-a1-m1-cC PEESWEDDIAGQRTFPEDPNYPVMKSTFKSEYPFEKRKAESERIADRFPNRIPVICEKAEKSDIPEIDKRKYLVPADLTVGQFVYVIRKRIMLPPEKAIFIFVNDTLPPTAALMSAIYQEHKDKDGFLYVTYSGENT GPEESWEDDIAGQRTFPEDPNYPVMKSTFKSEYPFEKRKAESERIADRFPNRIPVICEKAEKSDIPEIDKRKYLVPADLTVGQFVYVIRKRIMLPPEKAIFIFVNDTLPPTAALMSAIYQEHKDKDGFLYVTYSGENT 6aah-a1-m1-cA_6aah-a1-m1-cB Crystal structure of JAK1 in complex with peficitinib P23458 P23458 1.83 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 283 284 VDPTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPHIADLKKEIEILRNLYHENIVKYKGICTEDGGNGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAVQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKETVKDDRDSPVFWYAPECLMQSKFYIASDVWSFGVTLHELLTYCDSDSSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTSFQNLIEGFEALLK VDPTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPNHIADLKKEIEILRNLYHENIVKYKGICTEDGGNGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAVQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKETVKDDRDSPVFWYAPECLMQSKFYIASDVWSFGVTLHELLTYCDSDSSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTSFQNLIEGFEALLK 6aak-a2-m1-cD_6aak-a2-m1-cC Crystal structure of JAK3 in complex with peficitinib P52333 P52333 2.67 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 274 6aak-a1-m1-cA_6aak-a1-m1-cB PTIFEERHLKYISQLGKGNFGSVELCRYDPLGDNTGALVAVKQLQHSGPDQQRDFQREIQILKALHSDFIVKYRGVSYSLRLVMEYLPSGCLRDFLQRHRARLDASRLLLYSSQICKGMEYLGSRRCVHRDLAARNILVESEAHVKIADFGLAKLLPLDKDVVSPIFWYAPESLSDNIFSRQSDVWSFGVVLYELFTYCDKSCSPSAEFLRMPALSRLLELLEEGQRLPAPPACPAEVHELMKLCWAPSPQDRPSFSALGPQLDML PTIFEERHLKYISQLGKGNFGSVELCRYDPLGDNTGALVAVKQLQHSGPDQQRDFQREIQILKALHSDFIVKYRGVSYSLRLVMEYLPSGCLRDFLQRHRARLDASRLLLYSSQICKGMEYLGSRRCVHRDLAARNILVESEAHVKIADFGLAKLLPLDKDVVREPGQSPIFWYAPESLSDNIFSRQSDVWSFGVVLYELFTYCDKSCSPSAEFLRMMGPALSRLLELLEEGQRLPAPPACPAEVHELMKLCWAPSPQDRPSFSALGPQLDMLW 6abh-a1-m1-cA_6abh-a1-m1-cH Structure of a natural red emitting luciferase from Phrixothrix hirtus (P1 crystal form) Q9U4U7 Q9U4U7 3.05 X-RAY DIFFRACTION 20 0.995 94779 (Phrixothrix hirtus) 94779 (Phrixothrix hirtus) 377 400 6abh-a2-m1-cC_6abh-a2-m1-cD 6ac3-a1-m1-cD_6ac3-a1-m1-cC VNGDRPRDLVFPGTAGLQLYQSLYKYSYITDGIIDAHTNEVISYAQIFETSCRLAVSLEKYGLDHNNVVAICSENNIHFFGPLIAALYQGIPMATSNDMYTEREMIGHLNISKPCLMFCSKKSLPFILKVQKHLDFLKKVIVIDSMYDINGVECVFSFVSRYTDHAFDPVKFNPKEFDPLERTALIMTSSGTTGLPKGVVISHRSITIRFVHSSDPIYGTRIAPDTSILAIAPFHHAFGLFTALAYFPVGLKIVMVKKFEGEFFLKTIQNYKIASIVVPPPIMVYLAKSPLVDEYNLSSLTEIACGGSPLGRDIADKVAKRLKVHGILQGYGLTETCSALILSPMPYVQVKKSQMLMKGYHNNPQATRDALDKDGWL VNGDRPRDLVFPGTAGLQLYQSLYKYSYITDGIIDAHTNEVISYAQIFETSCRLAVSLEKYGLDHNNVVAICSENNIHFFGPLIAALYQGIPMATSNDMYTEREMIGHLNISKPCLMFCSKKSLPFILKVQKHLDFLKKVIVIDSMYDINGVECVFSFVSRYTDHAFDPVKFNPKEFDPLERTALIMTSSGTTGLPKGVVISHRSITIRFVHSSDPIYGTRIAPDTSILAIAPFHHAFGLFTALAYFPVGLKIVMVKKFEGEFFLKTIQNYKIASIVVPPPIMVYLAKSPLVDEYNLSSLTEIACGGSPLGRDIADKVAKRLKVHGILQGYGLTETCSALILSPNDRELKKGAIGTPMPYVQFKSQMLMKGYHNNPQATRDALDKDGWLHTGDLGYYDED 6abh-a2-m1-cF_6abh-a2-m1-cD Structure of a natural red emitting luciferase from Phrixothrix hirtus (P1 crystal form) Q9U4U7 Q9U4U7 3.05 X-RAY DIFFRACTION 31 0.99 94779 (Phrixothrix hirtus) 94779 (Phrixothrix hirtus) 417 442 6abh-a1-m1-cA_6abh-a1-m1-cG 6abh-a2-m1-cE_6abh-a2-m1-cC 6ac3-a1-m1-cC_6ac3-a1-m1-cB 6ac3-a1-m1-cD_6ac3-a1-m1-cA NIVNGDRPRDLVFPGTAGLQLYQSLYKYSYITDGIIDAHTNEVISYAQIFETSCRLAVSLEKYGLDHNNVVAICSENNIHFFGPLIAALYQGIPMATSNDMYTEREMIGHLNISKPCLMFCSKKSLPFILKVQKHLDFLKKVIVIDSMYDINGVECVFSFVSRYTDHAFDPVKFNPKEFDPLERTALIMTSSGTTGLPKGVVISHRSITIRFVHSSDPIYGTRIAPDTSILAIAPFHHAFGLFTALAYFPVGLKIVMVKKFEGEFFLKTIQNYKIASIVVPPPIMVYLAKSPLVDEYNLSSLTEIACGGSPLGRDIADKVAKRLKVHGILQGYGLTETCSALILSPNDRELKKGAIGTPMPYVQVKVIDINTGKALGPRCFKSQMLMKGYHNNPQATRDALDKDGWLHTGDLGYYDE NIVNGDRPRDLVFPGTAGLQLYQSLYKYSYITDGIIDAHTNEVISYAQIFETSCRLAVSLEKYGLDHNNVVAICSENNIHFFGPLIAALYQGIPMATSNDMYTEREMIGHLNISKPCLMFCSKKSLPFILKVQKHLDFLKKVIVIDSMYDINGVECVFSFVSRYTDHAFDPVKFNPKEFDPLERTALIMTSSGTTGLPKGVVISHRSITIRFVHSSDPIYGTRIAPDTSILAIAPFHHAFGLFTALAYFPVGLKIVMVKKFEGEFFLKTIQNYKIASIVVPPPIMVYLAKSPLVDEYNLSSLTEIACGGSPLGRDIADKVAKRLKVHGILQGYGLTETCSALILSPNDRELKKTPMPYVQVKVIDINTGKALGPREKGEICFKSQMLMKGYHNNPQATRDALDKDGWLHTGDLGYYDEDRFIYVVDRLKELIKYKGYQVAPA 6abr-a1-m1-cB_6abr-a1-m1-cA Actin interacting protein 5 (Aip5, wild type) P43597 P43597 2.002 X-RAY DIFFRACTION 21 0.988 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 85 96 EPVYIYTSLAMIPRTNRLSTILTANRIPFTYRDLGTDDEARKVWKTFSKGRSLPGVVRGHNDLIGNWEEIEEANEDYKLRELIYD IRKLNEKEPVYIYTSLAGGGFHMIPRTNRLSTILTANRIPFTYRDLGTDDEARKVWKTFSKGRSLPGVVRGHNDLIGNWEEIEEANEDYKLRELIY 6abs-a1-m1-cB_6abs-a1-m1-cA Actin interacting protein 5 (Aip5, mutant) P43597 P43597 2.2 X-RAY DIFFRACTION 24 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 95 98 EIRKLNEKEPVYIYTSFHMIPRTARLCTILTANRIPFTYRDLGTDDEARKVWKTFSKGRSLPGVVRGHNDLIGNWEEIEEANEDYKLRELIYDTI TTSEIRKLNEKEPVYIYTSFHMIPRTARLCTILTANRIPFTYRDLGTDDEARKVWKTFSKGRSLPGVVRGHNDLIGNWEEIEEANEDYKLRELIYDTI 6abt-a1-m1-cA_6abt-a1-m1-cB Crystal structure of transcription factor from Listeria monocytogenes L8DXR9 L8DXR9 2.8 X-RAY DIFFRACTION 31 1.0 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 98 98 ALKGSLEGMILERISRGETYGYEITKYLNDLGFDEIVEGTVYTILVRLEKKGLVEIEKKKSELGPPRKFYTLSPAGEEELAIFWKRWDFIQGKIMQVK ALKGSLEGMILERISRGETYGYEITKYLNDLGFDEIVEGTVYTILVRLEKKGLVEIEKKKSELGPPRKFYTLSPAGEEELAIFWKRWDFIQGKIMQVK 6abw-a1-m1-cA_6abw-a1-m2-cA Crystal structure of citrate synthase (Msed_0281) from Metallosphaera sedula in complex with acetyl-CoA A4YDF6 A4YDF6 1.72 X-RAY DIFFRACTION 325 1.0 399549 (Metallosphaera sedula DSM 5348) 399549 (Metallosphaera sedula DSM 5348) 369 369 6abv-a1-m1-cA_6abv-a1-m2-cA ENVFIKTTSLTYIDGENGILRYGGYDIEDLVEHTSFEEVVHLMLYGDLPTKLQLQRLKSALDEAYEVPQQVIDMIYSLPRDSDAVGMMETAFSALSSIYGMPWNKATNRDNAVKLVARASTVVANVLRAKEGKKPAIPEPSESFAKSFLKASFSRTPTEEEVKAMDAALILYADHEVPASTTAALVTSSTLSDIYSCVVAALAALKGPLHGGAAEEAFKQFVEIGEPDMTESWFKRKIIEGKSRLMGFGHRVYKTYDPRAKIFKKYAKVISERNSDARKYFEIAQKLEELGVETFGAKHIYPNTDFYSGVVFYALGFPVYMFTSLFALSRTLGWTAHVIEYVEDQHRLIRPRALYVGPLKRDVVPIELR ENVFIKTTSLTYIDGENGILRYGGYDIEDLVEHTSFEEVVHLMLYGDLPTKLQLQRLKSALDEAYEVPQQVIDMIYSLPRDSDAVGMMETAFSALSSIYGMPWNKATNRDNAVKLVARASTVVANVLRAKEGKKPAIPEPSESFAKSFLKASFSRTPTEEEVKAMDAALILYADHEVPASTTAALVTSSTLSDIYSCVVAALAALKGPLHGGAAEEAFKQFVEIGEPDMTESWFKRKIIEGKSRLMGFGHRVYKTYDPRAKIFKKYAKVISERNSDARKYFEIAQKLEELGVETFGAKHIYPNTDFYSGVVFYALGFPVYMFTSLFALSRTLGWTAHVIEYVEDQHRLIRPRALYVGPLKRDVVPIELR 6abx-a1-m1-cA_6abx-a1-m1-cB Crystal structure of citrate synthase (Msed_1522) from Metallosphaera sedula in complex with citrate A4YGX6 A4YGX6 1.7 X-RAY DIFFRACTION 348 1.0 399549 (Metallosphaera sedula DSM 5348) 399549 (Metallosphaera sedula DSM 5348) 370 370 6aby-a1-m1-cB_6aby-a1-m1-cA MELRKGLEDIAIKETSITYIDGELGRLYYRGYSIFDLASFSNFEEVAYLLWYGKLPTRHELDDFKSRLAEERSISEDISTFVKRTAKFGNPMDILRTTVSMMGLEDRSEGDLIGKAIKMTAKIPTIISLIQRTRRNQEFVEPDPSLSHSENFLYMIRGERPSPSDTRVLDVSLMLHMDHEMNASTMACLVVASTLSDIYSSVVAGISALKGPLHGGANSEALKQFMEIETPDNVEKYVMNKLSSGQRLMGFGHRIYKTMDPRAKILKEYANQLSKNEEIKRLFEIANRVEEIGIKILGKRGIYPNVDFYSGLVFYAMGFDPDLFPTIFASARVIGWTAHVDEYLKDNKLIRPKAIYVGDLGKRYVPIEER MELRKGLEDIAIKETSITYIDGELGRLYYRGYSIFDLASFSNFEEVAYLLWYGKLPTRHELDDFKSRLAEERSISEDISTFVKRTAKFGNPMDILRTTVSMMGLEDRSEGDLIGKAIKMTAKIPTIISLIQRTRRNQEFVEPDPSLSHSENFLYMIRGERPSPSDTRVLDVSLMLHMDHEMNASTMACLVVASTLSDIYSSVVAGISALKGPLHGGANSEALKQFMEIETPDNVEKYVMNKLSSGQRLMGFGHRIYKTMDPRAKILKEYANQLSKNEEIKRLFEIANRVEEIGIKILGKRGIYPNVDFYSGLVFYAMGFDPDLFPTIFASARVIGWTAHVDEYLKDNKLIRPKAIYVGDLGKRYVPIEER 6acx-a1-m1-cB_6acx-a1-m1-cA Crystal structure of Mycobacterium smegmatis Mfd in complex with ADP + Pi at 3.5 A resolution. A0R3C5 A0R3C5 3.5 X-RAY DIFFRACTION 65 0.996 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 1168 1175 6ac6-a1-m1-cB_6ac6-a1-m1-cA 6ac8-a1-m1-cA_6ac8-a1-m1-cB SVQTPIAGLVELALSDPSLQDVIRRAADRPADLALVGPASARVLVAAALAQNGPLLVVAATGREADELTAELRGVFGDSVALFPSWETLPHERLSPGVETVGARLMLLRRLARPDDETLGAPLRVVVTTTRSLLQPMAPDLVDIEPVTLSVGAEMEFEDVVARLVDLSYTRVDMVGKRGEFAVRGGILDVFPPTAEHPVRVEFWGDEISEMRAFAIADQRSIPEVPVQTVVAVPCRELLMTDDVRERAAALAAEHPTTENTVPGTVPDMLAKLAEGIPVDGMEALLPLLHPIEPTTLTRHLPEGAPVLVCDPEKVRTRAADLIKTGREFLEASWSTAAVGGDAPIDLEALGASGFVTFEEAREAAREGGHPWWTLSQLSDESAVELDIRSAPSARGSQHNLEEIFAMLRAHVATGGYAAVVTPGIGTAHRVVEQLGEADTAATILEPGTAPKAGVVGVLKGPLCSGVVLPGANLVIITETDLTGNRVTKRRNVPLALTAGDLVVHDQHGIGKFVEMTERVVGGARREYLVLEYTDKLYVPMDSLDQLSRYVPSLSRLGGSDWANTKTKARRAVREIASELVALYAKRQSAPGHAFGPDTPWQAEMEDAFGFTETIDQLTAIQEVKSDMEKPVPMDRVICGDVGYGKTEIAVRAAFKAVQDGKQVAVLVPTTLLADQHLQTFTNRMAGFPVTVKGLSRFTDPAESRAVIEGLKDGSVDVVIGTHRLLQTGVTWKDLGLIIVDEEQRFGVEHKEHIKSMRTHVDVLTMSATPIPRTLEMSLAGIREMSTILTPPEERYPVLTYVGPHDDKQVAAALRRELLRDGQAFYIHNRVRTIDEAAARVRQLVPEARVVVAHGQMNEETLEKTVEGFWNREYDILVCTTIVETGLDISNANTLIVERADTFGLSQLHQLRGRVGRSRERGYAYFLYPPNKPLTETAYDRLATIAQNNELGAGMAVAMKDLEIRGAGNVLGAEQSGHVAGVGFDLYVRLVGEAVEAYRAAADGKDVRIDLPVDAHLPPEYIGSDRLRLEAYRRLAAAADDDAVASVVDELIDRYGPLPEPAQRLVAVARLRLLCREFGITEIGAVSASTVRLSPMVLPDSAQLRLKRMYPGGHYRATTSTVQVPLPRAGEGVGAPRIRDLELVQWVAGLVLVLNGKGQGDVDMSKFS SVQTPIAGLVELALSDPSLQDVIRRAADRPADLALVGPASARVLVAAALAQNGPLLVVAATGREADELTAELRGVFGDSVALFPSWETLPHERLSPGVETVGARLMLLRRLARPDDETLGAPLRVVVTTTRSLLQPMAPDLVDIEPVTLSVGAEMEFEDVVARLVDLSYTRVDMVGKRGEFAVRGGILDVFPPTAEHPVRVEFWGDEISEMRAFAIADQRSIPEVPVQTVVAVPCRELLMTDDVRERAAALAAEHPTTENTVPGTVPDMLAKLAEGIPVDGMEALLPLLHPIEPTTLTRHLPEGAPVLVCDPEKVRTRAADLIKTGREFLEASWSTAAVGGDAPIDLEALGASGFVTFEEAREAAREGGHPWWTLSQLSDESAVELDIRSAPSARGSQHNLEEIFAMLRAHVATGGYAAVVTPGIGTAHRVVEQLGEADTAATILEPGTAPKAGVVGVLKGPLCSGVVLPGANLVIITETDLTGNRVTAAAKRRNVVDPLALTAGDLVVHDQHGIGKFVEMTERVVGGARREYLVLEYASGTDKLYVPMDSLDQLSRYVGGEAPSLSRLGGSDWANTKTKARRAVREIASELVALYAKRQSAPGHAFGPDTPWQAEMEDAFGFTETIDQLTAIQEVKSDMEKPVPMDRVICGDVGYGKTEIAVRAAFKAVQDGKQVAVLVPTTLLADQHLQTFTNRMAGFPVTVKGLSRFTDPAESRAVIEGLKDGSVDVVIGTHRLLQTGVTWKDLGLIIVDEEQRFGVEHKEHIKSMRTHVDVLTMSATPIPRTLEMSLAGIREMSTILTPPEERYPVLTYVGPHDDKQVAAALRRELLRDGQAFYIHNRVRTIDEAAARVRQLVPEARVVVAHGQMNEETLEKTVEGFWNREYDILVCTTIVETGLDISNANTLIVERADTFGLSQLHQLRGRVGRSRERGYAYFLYPPNKPLTETAYDRLATIAQNNELGAGMAVAMKDLEIRGAGNVLGAEQSGHVAGVGFDLYVRLVGEAVEAYRAAADGDVRIDLPVDAHLPPEYIGSDRLRLEAYRRLAAAADDDAVASVVDELIDRYGPLPEPAQRLVAVARLRLLCREFGITEIGAVSASTVRLSPMVLPDSAQLRLKRMYPGGHYRATTSTVQVPLPRAGEAPRIRDLELVQWVAGLVLVLNGKGQGDVDMSKF 6add-a1-m1-cB_6add-a1-m1-cA The crystal structure of Rv2747 from Mycobacterium tuberculosis in complex with CoA and NLQ O33289 O33289 2.301 X-RAY DIFFRACTION 88 0.994 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 166 168 5yge-a1-m1-cB_5yge-a1-m1-cA 5yo2-a1-m1-cB_5yo2-a1-m1-cA PVVRRARTSDVPAIKQLVDTYAGKILLEKNLVTLYEAVQEFWVAEHPDLYGKVVGCGALHVLWSDLGEIRTVAVDPAMTGHGIGHAIVDRLLQVARDLQLQRVFVLTFETEFFARHGFTEIEGTPVTAEVFDEMCRSYDIGVAEFLDLSYVKPNILGNSRMLLVLL DCRPVVRRARTSDVPAIKQLVDTYAGKILLEKNLVTLYEAVQEFWVAEHPDLYGKVVGCGALHVLWSDLGEIRTVAVDPAMTGHGIGHAIVDRLLQVARDLQLQRVFVLTFETEFFARHGFTEIEGTPVTAEVFDEMCRSYDIGVAEFLDLSYVKPNILGNSRMLLVL 6adq-a1-m1-cY_6adq-a1-m1-cZ Respiratory Complex CIII2CIV2SOD2 from Mycobacterium smegmatis A0QQQ1 A0QQQ1 3.5 ELECTRON MICROSCOPY 116 1.0 1445611 (Mycolicibacterium smegmatis MC2 51) 1445611 (Mycolicibacterium smegmatis MC2 51) 216 216 CSPPGETASSEPGTTPAIWTGSPSPAAPSGEDHGGGHGAGAAGAGETLTAELKTADGTSVATADFQFADGFATVTIETTTPGRLTPGFHGVHIHSVGKCEANSVAPTGGAPGDFNSAGGHFQVSGHSGHPASGDLSSLQVRADGSGKLVTTTDAFTAEDLLDGAKTAIIIHEKADNFANIPPERYQQVNGAPGPDQTTMATGDAGSRVACGVISAG CSPPGETASSEPGTTPAIWTGSPSPAAPSGEDHGGGHGAGAAGAGETLTAELKTADGTSVATADFQFADGFATVTIETTTPGRLTPGFHGVHIHSVGKCEANSVAPTGGAPGDFNSAGGHFQVSGHSGHPASGDLSSLQVRADGSGKLVTTTDAFTAEDLLDGAKTAIIIHEKADNFANIPPERYQQVNGAPGPDQTTMATGDAGSRVACGVISAG 6ae2-a1-m1-cB_6ae2-a1-m1-cA Crystal structure of Csm3 of the type III-A CRISPR-Cas effector complex Q97CJ2 Q97CJ2 2.701 X-RAY DIFFRACTION 63 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 180 181 KWKYNIIYNMEIEVLTGLHIGGDSPVITTKYLINNVEPCDLPYIPGSSIKGKIRSLLENVDYKGKNGDDIVSKMFGYLTRLIIRDAFLDDGHIKSAEDARNVIEIKSERFIERVRRGTKFKGKIILSIYEGDNEEEMIKCLKTGISLLEDSYLGGNGTRGYGSVKITLGEPIKKGIDKYE KWKYNIIYNMEIEVLTGLHIGGDSPVITTKYLINNVEPCDLPYIPGSSIKGKIRSLLENVDYKGKNGDDIVSKMFGYLTRLIIRDAFLDDGHIKSAEDARNVIEIKSEPRFIERVRRGTKFKGKIILSIYEGDNEEEMIKCLKTGISLLEDSYLGGNGTRGYGSVKITLGEPIKKGIDKYE 6ae9-a1-m1-cA_6ae9-a1-m1-cB X-ray structure of the photosystem II phosphatase PBCP Q942P9 Q942P9 1.47 X-RAY DIFFRACTION 32 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 251 251 GLTIGTHLIPHPRKAETGGEDAFFVNGDDGGVFAVADGVSGWAEKDVNPALFSRELMAHTSTFLKDEEVNHDPQLLLMKAHAATTSVGSATVIIAMLEKTGILKIASVGDCGLKVIRKGQVMFSTPQEHYFDPYQLSSEAIGQTYLDALVCTVNLMEGDMIVSGSDGFFDNIFDQEIVSVISESPGVDEAAKALAELARKHSVDVTFDSPYSMEARSRGFDVPSWKKFIGGKLIGGKMNDITVIVAQVKAL GLTIGTHLIPHPRKAETGGEDAFFVNGDDGGVFAVADGVSGWAEKDVNPALFSRELMAHTSTFLKDEEVNHDPQLLLMKAHAATTSVGSATVIIAMLEKTGILKIASVGDCGLKVIRKGQVMFSTPQEHYFDPYQLSSEAIGQTYLDALVCTVNLMEGDMIVSGSDGFFDNIFDQEIVSVISESPGVDEAAKALAELARKHSVDVTFDSPYSMEARSRGFDVPSWKKFIGGKLIGGKMNDITVIVAQVKAL 6aef-a1-m1-cA_6aef-a1-m1-cB PapA2 acyl transferase R4MC47 R4MC47 2.16 X-RAY DIFFRACTION 68 1.0 1310114 (Mycobacterium tuberculosis CAS/NITR204) 1310114 (Mycobacterium tuberculosis CAS/NITR204) 458 458 FSITTLRDWTPDPGSIICWHASPTAKAKARQAPISEVPPSYQQAQHLRRYRDHVARGLDMSRLMIFTWDLPGRCNIRAMNYAINAHLRRHDTYHSWFEFDNAEHIVRHTIADPADIEVVQAEHQNMTSAELRHHIATPQPLQWDCFLFGIIQSDDHFTFYASIAHLCVDPMIVGVLFIEIHMMYSALVGGDPPIELPPAGRYDDHCVRQYADTAALTLDSARVRRWVEFAANNDGTLPHFPLPLGDLSVPHTGKLLTETLMDEQQGERFEAACVAAGARFSGGVFACAALAERELTNCETFDVVTTTDTRRTPTELRTTGWFTGLVPITVPVASGLFDSAARVAQISFDSGKDLATVPFDRVLELARPETGLRPPRPGNFVMSFLDASIAPLSTVANSDLNFRIYDEGRVSHQVSMWVNRYQHQTTVTVLFPDNPIASESVANYIAAMKSIYIRTADG FSITTLRDWTPDPGSIICWHASPTAKAKARQAPISEVPPSYQQAQHLRRYRDHVARGLDMSRLMIFTWDLPGRCNIRAMNYAINAHLRRHDTYHSWFEFDNAEHIVRHTIADPADIEVVQAEHQNMTSAELRHHIATPQPLQWDCFLFGIIQSDDHFTFYASIAHLCVDPMIVGVLFIEIHMMYSALVGGDPPIELPPAGRYDDHCVRQYADTAALTLDSARVRRWVEFAANNDGTLPHFPLPLGDLSVPHTGKLLTETLMDEQQGERFEAACVAAGARFSGGVFACAALAERELTNCETFDVVTTTDTRRTPTELRTTGWFTGLVPITVPVASGLFDSAARVAQISFDSGKDLATVPFDRVLELARPETGLRPPRPGNFVMSFLDASIAPLSTVANSDLNFRIYDEGRVSHQVSMWVNRYQHQTTVTVLFPDNPIASESVANYIAAMKSIYIRTADG 6aep-a1-m1-cB_6aep-a1-m1-cA Crystal structure of the ssDNA-binding domain of DnaT from Salmonella enterica Serovar Typhimurium LT2 at 1.84 angstrom resolution P67524 P67524 1.844 X-RAY DIFFRACTION 52 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 72 79 6aeq-a1-m1-cA_6aeq-a1-m1-cB IPCGKFAMYPAWQPDADFQRQAALWGVALREPVTAEELAAFIAYWQAEGKVFHHIQWQQKLARSVQISRSSN IPCGKFAMYPAWQPDADFQRQAALWGVALREPVTAEELAAFIAYWQAEGKVFHHIQWQQKLARSVQISRSSNGGMPQRD 6aes-a1-m1-cG_6aes-a1-m1-cH Crystal structure of Nucleoside diphosphate kinase from Pseudomonas aeruginosa at 3.55 A resolution. 3.55 X-RAY DIFFRACTION 88 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 143 143 6aes-a1-m1-cA_6aes-a1-m1-cD 6aes-a2-m1-cB_6aes-a2-m1-cC 6aes-a2-m1-cE_6aes-a2-m1-cF MALQRTLSIIKPDAVSKNVIGEILTRFEKAGLRVVAAKMVQLSEREAGGFYAEHKERPFFKDLVSFMTSGPVVVQVLEGEDAIAKNRELMGATDPKKADAGTIRADFAVSIDENAVHGSDSEASAAREIAYFFAATEVCERIR MALQRTLSIIKPDAVSKNVIGEILTRFEKAGLRVVAAKMVQLSEREAGGFYAEHKERPFFKDLVSFMTSGPVVVQVLEGEDAIAKNRELMGATDPKKADAGTIRADFAVSIDENAVHGSDSEASAAREIAYFFAATEVCERIR 6aes-a2-m1-cB_6aes-a2-m1-cF Crystal structure of Nucleoside diphosphate kinase from Pseudomonas aeruginosa at 3.55 A resolution. 3.55 X-RAY DIFFRACTION 26 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 143 143 6aes-a1-m1-cA_6aes-a1-m1-cG 6aes-a1-m1-cD_6aes-a1-m1-cH 6aes-a2-m1-cC_6aes-a2-m1-cE MALQRTLSIIKPDAVSKNVIGEILTRFEKAGLRVVAAKMVQLSEREAGGFYAEHKERPFFKDLVSFMTSGPVVVQVLEGEDAIAKNRELMGATDPKKADAGTIRADFAVSIDENAVHGSDSEASAAREIAYFFAATEVCERIR MALQRTLSIIKPDAVSKNVIGEILTRFEKAGLRVVAAKMVQLSEREAGGFYAEHKERPFFKDLVSFMTSGPVVVQVLEGEDAIAKNRELMGATDPKKADAGTIRADFAVSIDENAVHGSDSEASAAREIAYFFAATEVCERIR 6aez-a1-m2-cA_6aez-a1-m3-cA Crystal structure of human CCL5 trimer P13501 P13501 1.63 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 1rtn-a1-m1-cA_1rtn-a1-m1-cB 1rto-a1-m1-cA_1rto-a1-m1-cB 2vxw-a1-m1-cA_2vxw-a1-m1-cB SDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLSMS SDTTPCCFAYIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLSMS 6af2-a1-m1-cC_6af2-a1-m2-cB Crystal structure of N-terminus deletion mutant of Mycobacterium avium diadenosine 5',5'''-P1,P4-tetraphosphate phosphorylase Q73WE5 Q73WE5 3.001 X-RAY DIFFRACTION 42 1.0 1764 (Mycobacterium avium) 1764 (Mycobacterium avium) 138 141 EQPFTDIPQLTDEDGLVVARGELVYAVLNLYPYNPGHLMVVPYRRVSELEDLTDAESAELMSFIQKAIRVIKNVSRPHGFNVGLNLGTSAGGSLAEHLHVHVVPRWGGDANFITIIGGSKQLLRETRQLLATEWAKQS EQPFTDIPQLTDEDGLVVARGELVYAVLNLYPYNPGHLMVVPYRRVSELEDLTDAESAELMSFIQKAIRVIKNVSRPHGFNVGLNLGTSAGGSLAEHLHVHVVPRWGGDANFITIIGGSKVIPQLLRETRQLLATEWAKQS 6af4-a2-m1-cF_6af4-a2-m1-cD Toxin-Antitoxin module from Streptococcus pneumoniae A0A0H2UQ20 A0A0H2UQ20 2.65 X-RAY DIFFRACTION 90 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 91 92 6af3-a1-m1-cH_6af3-a1-m1-cB 6af3-a2-m1-cF_6af3-a2-m1-cD 6af4-a1-m1-cB_6af4-a1-m1-cH NNAIGSNWKDVRAELFSKEEILESDMRVAIMSELIEARNEKGISQKKLEEMSGVSQPVIARMETGKTSPQLDTVLKVLASLGKTLAVVPLE KNNAIGSNWKDVRAELFSKEEILESDMRVAIMSELIEARNEKGISQKKLEEMSGVSQPVIARMETGKTSPQLDTVLKVLASLGKTLAVVPLE 6afw-a1-m1-cA_6afw-a1-m1-cB Proton pyrophosphatase-T228D mutant P21616 P21616 2.185 X-RAY DIFFRACTION 244 1.0 3916 (Vigna radiata var. radiata) 3916 (Vigna radiata var. radiata) 740 740 4a01-a1-m1-cA_4a01-a1-m1-cB 5gpj-a1-m1-cB_5gpj-a1-m1-cA 5gpj-a2-m1-cC_5gpj-a2-m1-cD 6afs-a1-m1-cB_6afs-a1-m1-cA 6aft-a1-m1-cA_6aft-a1-m1-cB 6afu-a1-m1-cA_6afu-a1-m1-cB 6afv-a1-m1-cA_6afv-a1-m1-cB 6afx-a1-m1-cA_6afx-a1-m1-cB 6afy-a1-m1-cA_6afy-a1-m1-cB 6afz-a1-m1-cA_6afz-a1-m1-cB GAAILPDLGTEILIPVCAVIGIAFALFQWLLVSKVKLSAVDHNVVVKCAEIQNAISEGATSFLFTEYKYVGIFMVAFAILIFLFLGSVEGFSTSPQACSYDKTKTCKPALATAIFSTVSFLLGGVTSLVSGFLGMKIATYANARTTLEARKGVGKAFITAFRSGAVMGFLLAANGLLVLYIAINLFKIYYGDDWGGLFEAIDGYGLGGSSMALFGRVGGGIYTKAADVGADLVGKVERNIPEDDPRNPAVIADNVGDNVGDIAGMGSDLFGSYAESSCAALVVASISSFGLNHELTAMLYPLIVSSVGILVCLLTTLFATDFFEIKAVKEIEPALKKQLVISTVLMTIGVAVVSFVALPTSFTIFNFGVQKDVKSWQLFLCVAVGLWAGLIIGFVTEYYTSNAYSPVQDVADSCRTGAATNVIFGLALGYKSVIIPIFAIAISIFVSFTFAAMYGIAVAALGMLSTIATGLAIDAYGPISDNAGGIAEMAGMSHRIRERTDALDAAGNTTAAIGKGFAIGSAALVSLALFGAFVSRASITTVDVLTPKVFIGLIVGAMLPYWFSAMTMKSVGSAALKMVEEVRRQFNTIPGLMEGTAKPDYATCVKISTDASIKEMIPPGALVMLTPLVVGILFGVETLSGVLAGSLVSGVQIAISASNTGGAWDNAKKYIEAGASEHARSLGPKGSDCHKAAVIGDTIGDPLKDTSGPSLNILIKLMAVESLVFAPFFATHGGLLFKIF GAAILPDLGTEILIPVCAVIGIAFALFQWLLVSKVKLSAVDHNVVVKCAEIQNAISEGATSFLFTEYKYVGIFMVAFAILIFLFLGSVEGFSTSPQACSYDKTKTCKPALATAIFSTVSFLLGGVTSLVSGFLGMKIATYANARTTLEARKGVGKAFITAFRSGAVMGFLLAANGLLVLYIAINLFKIYYGDDWGGLFEAIDGYGLGGSSMALFGRVGGGIYTKAADVGADLVGKVERNIPEDDPRNPAVIADNVGDNVGDIAGMGSDLFGSYAESSCAALVVASISSFGLNHELTAMLYPLIVSSVGILVCLLTTLFATDFFEIKAVKEIEPALKKQLVISTVLMTIGVAVVSFVALPTSFTIFNFGVQKDVKSWQLFLCVAVGLWAGLIIGFVTEYYTSNAYSPVQDVADSCRTGAATNVIFGLALGYKSVIIPIFAIAISIFVSFTFAAMYGIAVAALGMLSTIATGLAIDAYGPISDNAGGIAEMAGMSHRIRERTDALDAAGNTTAAIGKGFAIGSAALVSLALFGAFVSRASITTVDVLTPKVFIGLIVGAMLPYWFSAMTMKSVGSAALKMVEEVRRQFNTIPGLMEGTAKPDYATCVKISTDASIKEMIPPGALVMLTPLVVGILFGVETLSGVLAGSLVSGVQIAISASNTGGAWDNAKKYIEAGASEHARSLGPKGSDCHKAAVIGDTIGDPLKDTSGPSLNILIKLMAVESLVFAPFFATHGGLLFKIF 6ag8-a2-m3-cA_6ag8-a2-m5-cA Crystal structure of Maltose O-acetyltransferase from E. coli P77791 P77791 1.34 X-RAY DIFFRACTION 67 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 182 182 1ocx-a1-m1-cA_1ocx-a1-m1-cB 1ocx-a1-m1-cA_1ocx-a1-m1-cC 1ocx-a1-m1-cB_1ocx-a1-m1-cC 6ag8-a1-m1-cC_6ag8-a1-m2-cC 6ag8-a1-m1-cC_6ag8-a1-m4-cC 6ag8-a1-m2-cC_6ag8-a1-m4-cC 6ag8-a2-m1-cA_6ag8-a2-m3-cA 6ag8-a2-m1-cA_6ag8-a2-m5-cA STEKEKMIAGELYRSADETLSRDRLRARQLIHRYNHSLAEEHTLRQQILADLFGQVTEAYIEPTFRCDYGYNIFLGNNFFANFDCVMLDVCPIRIGDNCMLAPGVHIYTATHPIDPVARNSGAELGKPVTIGNNVWIGGRAVINPGVTIGDNVVVASGAVVTKDVPDNVVVGGNPARIIKKL STEKEKMIAGELYRSADETLSRDRLRARQLIHRYNHSLAEEHTLRQQILADLFGQVTEAYIEPTFRCDYGYNIFLGNNFFANFDCVMLDVCPIRIGDNCMLAPGVHIYTATHPIDPVARNSGAELGKPVTIGNNVWIGGRAVINPGVTIGDNVVVASGAVVTKDVPDNVVVGGNPARIIKKL 6agi-a1-m1-cA_6agi-a1-m1-cB Crystal Structure of EFHA2 in Ca-binding State Q86XE3 Q86XE3 2.799 X-RAY DIFFRACTION 76 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 303 322 ATSRERRFRLFASIECEGQLFMTPYDFILAVTTDEPKVTWKSLSKQELNQMLAETPPVWKGSSKLFRNLKEKGVISYTEYLFLLCILTKPHAGFRIAFNMFDTDGNEMVDKKEFLVLQEIFRDEEKRAMLRLQLYGVTDTTLLVHFFGKKGKAELNFEDFYRFMDNLQTEVLEIEFLSYSNGMNTISEEDFAHILLRYTNVENTSVFLENVRYSIPEEKGITFDEFRSFFQFLNNLEDFAIALNMYNFASRSIGQDEFKRAVYVATGLKFSPHLVNTVFKIFDVDKDDQLSYKEFIGIMKDRL IEDLDLYATSRERRFRLFASIECEGQLFMTPYDFILAVTTDEPKVAKWKSLSKQELNQMLAETPPVWKGSSKLFRNLKEKGVISYTEYLFLLCILTKPHAGFRIAFNMFDTDGNEMVDKKEFLVLQEIFRKKNEKREIKGDEEKRAMLRLQLYGYLVTDTTLLVHFFGKKGKAELNFEDFYRFMDNLQTEVLEIEFLSYSNGMNTISEEDFAHILLRYTNVENTSVFLENVRYSIPEEKGITFDEFRSFFQFLNNLEDFAIALNMYNFASRSIGQDEFKRAVYVATGLKFSPHLVNTVFKIFDVDKDDQLSYKEFIGIMKDR 6agl-a1-m1-cA_6agl-a1-m1-cB Molecular basis for feedback inhibition of tyrosine-regulated 3-deoxy-d-arabino-heptulosonate-7-phosphate synthase from Escherichia coli P00888 P00888 2.5 X-RAY DIFFRACTION 26 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 320 320 HITDEQVLMTPEQLKAAFPLSLQQEAQIADSRKSISDIIAGRDPRLLVVCGPCSIHDPETALEYARRFKALAAEVSDSLYLVMRVYFEKPGWKGLINDPHMDGSFDVEAGLQIARKLLLELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAQPHRFVGINQAGQVALLQTQGNPDGHVILRGGKAPNYSPADVAQCEKEMEQAGLRPSLMVDCSHGNSNKDYRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGTDACISWEMTDALLREIHQDLNGQ HITDEQVLMTPEQLKAAFPLSLQQEAQIADSRKSISDIIAGRDPRLLVVCGPCSIHDPETALEYARRFKALAAEVSDSLYLVMRVYFEKPGWKGLINDPHMDGSFDVEAGLQIARKLLLELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAQPHRFVGINQAGQVALLQTQGNPDGHVILRGGKAPNYSPADVAQCEKEMEQAGLRPSLMVDCSHGNSNKDYRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGTDACISWEMTDALLREIHQDLNGQ 6agm-a2-m1-cB_6agm-a2-m3-cD Molecular basis for feedback inhibition of tyrosine-regulated 3-deoxy-d-arabino-heptulosonate-7-phosphate synthase from Escherichia coli P00888 P00888 2 X-RAY DIFFRACTION 183 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 334 334 6agm-a1-m1-cA_6agm-a1-m2-cC DALNNVHITDEQVLMTPEQLKAAFPLSLQQEAQIADSRKSISDIIAGRDPRLLVVCGPCSIHDPETALEYARRFKALAAEVSDSLYLVMRVYFEKPRTTVGWKGLINDPHMDGSFDVEAGLQIARKLLLELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAQPHRFVGINQAGQVALLQTQGNPDGHVILRGGKAPNYSPADVAQCEKEMEQAGLRPSLMVDCSHGNSNKDYRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGDACISWEMTDALLREIHQDLNGQLTARV DALNNVHITDEQVLMTPEQLKAAFPLSLQQEAQIADSRKSISDIIAGRDPRLLVVCGPCSIHDPETALEYARRFKALAAEVSDSLYLVMRVYFEKPRTTVGWKGLINDPHMDGSFDVEAGLQIARKLLLELVNMGLPLATEALDPNSPQYLGDLFSWSAIGARTTESQTHREMASGLSMPVGFKNGTDGSLATAINAMRAAAQPHRFVGINQAGQVALLQTQGNPDGHVILRGGKAPNYSPADVAQCEKEMEQAGLRPSLMVDCSHGNSNKDYRRQPAVAESVVAQIKDGNRSIIGLMIESNIHEGDACISWEMTDALLREIHQDLNGQLTARV 6agz-a1-m1-cA_6agz-a1-m1-cB Crystal structure of Old Yellow Enzyme from Pichia sp. AKU4542 A0A5H1ZR30 A0A5H1ZR30 2 X-RAY DIFFRACTION 74 0.997 4919 (Pichia) 4919 (Pichia) 386 386 PLADTNLFKPIKVGKIELKNRLVFPPTTRFRNTSDFVATDSMLSYYSQRAENNGGLLITEATFGAPQFGLYQNGPMIYTDRQVEAWKKIVEEVHKKGSHISMQLWNLGRAADPKLLKEHGLPFLAPSALYFSEESKKAAEEAGNEVQAMTLEQIEQTKKDYVNAAKNAIQKAGFDMVEVHSAHGYLLDQFIQTTANKRTDKYGGSIENRARLLLEVIDLVIEAVGADHVAVRLSPYATFQGSGGVDAEVHPIAQFGYILSELERRAKEGKRLAYVSIVEPEDNSWMLQIWKGVVLRSGGYLSEKGIAHLIKDVNADDRTLIGCSRYFTSNPDLPNRLRDGLPLTPYDRSRFYKIFSNDGYLTWGKYGEPEQPSDSAIALKTPQPLA PLADTNLFKPIKVGKIELKNRLVFPPTTRFRNTSDFVATDSMLSYYSQRAENNGGLLITEATFGAPQFGLYQNGPMIYTDRQVEAWKKIVEEVHKKGSHISMQLWNLGRAADPKLLKEHGLPFLAPSALYFSEESKKAAEEAGNEVQAMTLEQIEQTKKDYVNAAKNAIQKAGFDMVEVHSAHGYLLDQFIQTTANKRTDKYGGSIENRARLLLEVIDLVIEAVGADHVAVRLSPYATFQGSGGVDAEVHPIAQFGYILSELERRAKEGKRLAYVSIVESEDNSWMLQIWKGVVLRSGGYLSEKGIAHLIKDVNADDRTLIGCSRYFTSNPDLPNRLRDGLPLTPYDRSRFYKIFSNDGYLTWGKYGEPEQPSDSAIALKTPQPLA 6ah8-a1-m1-cA_6ah8-a1-m1-cC Marine bacterial prolidase with promiscuous organophosphorus hydrolase activity A0A1I7CHQ2 A0A1I7CHQ2 2.61 X-RAY DIFFRACTION 20 1.0 570156 (Pseudoalteromonas lipolytica) 570156 (Pseudoalteromonas lipolytica) 439 439 DKLAVLYAEHIATLQQRTRTITEREGLEGLVIHSGQAKRQFLDDMYYPFKVNPQFKAWLPVIDNPHCWIVVDGASKPKLIFYRPVDFWHKVPDEPRDFWAEYFDIELLVQPDQVEKLLPYDKANYAYIGEYLEVAQALGFSIMNPEPVMNYLHFHRAYKTQYELECLRQANRIAVEGHKAARDTFFNGGSEFDIQHAYLMATRQSENEMPYGNIVALNENCAILHYTHFEPTAPHTHHSFLIDAGANFNGYAADITRTYDFKKSGEFSDLIQVMTEHQIALGKALKPGLLYGELHLECHQRVAQVLSDFNIVKLPAADIVERGITSTFFPHGLGHHLGLQVHDMGGFMADESGTHQAPPEGHPFLRCTRLIEKNQVFTIEPGLYFIDSLLGDLAQTDNKQFINWEKVEEFKPFGGIRIEDNIIVHEDSLENMTRDLHLD DKLAVLYAEHIATLQQRTRTITEREGLEGLVIHSGQAKRQFLDDMYYPFKVNPQFKAWLPVIDNPHCWIVVDGASKPKLIFYRPVDFWHKVPDEPRDFWAEYFDIELLVQPDQVEKLLPYDKANYAYIGEYLEVAQALGFSIMNPEPVMNYLHFHRAYKTQYELECLRQANRIAVEGHKAARDTFFNGGSEFDIQHAYLMATRQSENEMPYGNIVALNENCAILHYTHFEPTAPHTHHSFLIDAGANFNGYAADITRTYDFKKSGEFSDLIQVMTEHQIALGKALKPGLLYGELHLECHQRVAQVLSDFNIVKLPAADIVERGITSTFFPHGLGHHLGLQVHDMGGFMADESGTHQAPPEGHPFLRCTRLIEKNQVFTIEPGLYFIDSLLGDLAQTDNKQFINWEKVEEFKPFGGIRIEDNIIVHEDSLENMTRDLHLD 6ahi-a1-m1-cA_6ahi-a1-m1-cB Crystal structure of O-acetylserine dependent cystathionine beta-synthase from Helicobacter pylori. P56067 P56067 1.9 X-RAY DIFFRACTION 132 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 305 305 MMIITTMQDAIGRTPVFKFTNKDYPIPLNSAIYAKLEHLNPGGSVDRLGQYLIGEGFKTGKITSKTTIIEPTAGNTGIALALVAIKHHLKTIFVVPEKFSTEKQQIMRALGALVINTPTSEGISGAIKKSKELAESIPDSYLPLQFENPDNPAAYYHTLAPEIVQELGTNLTSFVAGIGSGGTFAGTARYLKERIPAIRLIGVEPEGSILNGGEPGPHEIEGIGVEFIPPFFENLDIDGFETISDEEGFSYTRKLAKKNGLLVGSSSGAAFVAALKEAQRLPEGSQVLTIFPDVADRYLSKGIYL MMIITTMQDAIGRTPVFKFTNKDYPIPLNSAIYAKLEHLNPGGSVDRLGQYLIGEGFKTGKITSKTTIIEPTAGNTGIALALVAIKHHLKTIFVVPEKFSTEKQQIMRALGALVINTPTSEGISGAIKKSKELAESIPDSYLPLQFENPDNPAAYYHTLAPEIVQELGTNLTSFVAGIGSGGTFAGTARYLKERIPAIRLIGVEPEGSILNGGEPGPHEIEGIGVEFIPPFFENLDIDGFETISDEEGFSYTRKLAKKNGLLVGSSSGAAFVAALKEAQRLPEGSQVLTIFPDVADRYLSKGIYL 6ahv-a2-m1-cA_6ahv-a2-m2-cA Crystal structure of human RPP40 O75818 O75818 2.6 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 345 345 RHLLVCEKSNFGNHKSRHRHLVQTHYYNYRVSFLIPECGILSEELKNLVMNTGPYYFVKNLPLHELITPEFISTFIKKGSCYALTYNTHIDEDNTVALLPNGKLILSLDKDTYEETGLQGHPSQFSGRKIMKFIVSIDLMELSLNLDSKKYERISWSFKEKKPLKFDFLLAWHKTGSEESTMMSYFSKYQIQEHQPKVALSTLRDLQCPVLQSSELEGTPEVSCRALELFDWLGAVFSNVDLNNEPNNFISTYCCPEPSTVVAKAYLCTITGFILPEKICLLLEHLCHYFDEPKLAPWVTLSVQGFADSPVSWEKNEHGFRKGGEHLYNFVIFNNQDYWLQMAVG RHLLVCEKSNFGNHKSRHRHLVQTHYYNYRVSFLIPECGILSEELKNLVMNTGPYYFVKNLPLHELITPEFISTFIKKGSCYALTYNTHIDEDNTVALLPNGKLILSLDKDTYEETGLQGHPSQFSGRKIMKFIVSIDLMELSLNLDSKKYERISWSFKEKKPLKFDFLLAWHKTGSEESTMMSYFSKYQIQEHQPKVALSTLRDLQCPVLQSSELEGTPEVSCRALELFDWLGAVFSNVDLNNEPNNFISTYCCPEPSTVVAKAYLCTITGFILPEKICLLLEHLCHYFDEPKLAPWVTLSVQGFADSPVSWEKNEHGFRKGGEHLYNFVIFNNQDYWLQMAVG 6ahw-a1-m1-cA_6ahw-a1-m1-cB Crystal structure of circular-permutated YibK methyltransferase from Haemophilus influenzae P44868 P44868 1.56 X-RAY DIFFRACTION 102 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 162 162 GCPAHSQVKFKLGDYLMFGPETRGIPMSILNEMPMEQKIRIPMTANSRSMNLSNSVAVTVYEAWRQLGYKGAVNLPEVKGSMLDIVLYEPEIPQNTGNIIRLCANTGFRLHLIEPLGFTWDDKRLRRSGLDYHEFAEIKRHKTFEAFLESEKPKRLFALTTK GCPAHSQVKFKLGDYLMFGPETRGIPMSILNEMPMEQKIRIPMTANSRSMNLSNSVAVTVYEAWRQLGYKGAVNLPEVKGSMLDIVLYEPEIPQNTGNIIRLCANTGFRLHLIEPLGFTWDDKRLRRSGLDYHEFAEIKRHKTFEAFLESEKPKRLFALTTK 6ahx-a1-m1-cA_6ahx-a1-m2-cA Copper-Sensing Operon Regulator Protein (CsoRGz) S7SWX2 S7SWX2 2 X-RAY DIFFRACTION 86 1.0 213419 (Geobacillus zalihae) 213419 (Geobacillus zalihae) 60 60 KYRKQVINRLARIEGHVRAIKEMAAEGRDCPDILLQIAAVRKALDSTAKVIFADHMESCL KYRKQVINRLARIEGHVRAIKEMAAEGRDCPDILLQIAAVRKALDSTAKVIFADHMESCL 6ai9-a1-m1-cA_6ai9-a1-m1-cB Cab2 mutant-H337A complex with phosphopantothenate P40506 P40506 2.09 X-RAY DIFFRACTION 167 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 310 311 6ai8-a1-m1-cB_6ai8-a1-m1-cA 6aik-a1-m1-cB_6aik-a1-m1-cA 6aim-a1-m1-cA_6aim-a1-m1-cB 6aip-a1-m1-cA_6aip-a1-m1-cB TEEEQYFKTNPKPAYIDELIKDAKEFIDLQYSLKRNKIVLITSGGTTVPLENNTVRFIDNFSAGTRGASSAEQFLANGYSVIFLHREFSLTPYNRSFSHSINTLFLDYIDSEGKIKPEFAENVLKNKKLYDKYMEKEEKLLLLPFTTVNQYLWSLKSIAKLLNNSGCLFYLAAAVSDFFVPYSRLPQHKIQEGTTRTTPDGKLIVNLDPVPKFLRRLVESWATQAMIVSFKLETDESMLLYKCTQALDRYNHQLVIGNLLQTRNKQVIFVSPENRKGDWVRLDEKHASIEEMIIPEVIARHDKWVAHSKT TTEEEQYFKTNPKPAYIDELIKDAKEFIDLQYSLKRNKIVLITSGGTTVPLENNTVRFIDNFSAGTRGASSAEQFLANGYSVIFLHREFSLTPYNRSFSHSINTLFLDYIDSEGKIKPEFAENVLKNKKLYDKYMEKEEKLLLLPFTTVNQYLWSLKSIAKLLNNSGCLFYLAAAVSDFFVPYSRLPQHKIQEGTTRTTPDGKLIVNLDPVPKFLRRLVESWATQAMIVSFKLETDESMLLYKCTQALDRYNHQLVIGNLLQTRNKQVIFVSPENRKGDWVRLDEKHASIEEMIIPEVIARHDKWVAHSKT 6aie-a1-m1-cA_6aie-a1-m1-cB Crystal structure of a new form of RsmD-like RNA methyl transferase from Mycobacterium tuberculosis determined at 1.74 A resolution I6XFS7 I6XFS7 1.74 X-RAY DIFFRACTION 71 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 182 182 SMTRIIGGVAGGRRIAVPPRGTTDRVRESLFNIVTARRDLTGLAVLDLYAGSGALGLEALSRGAASVLFVESDQRSAAVIARNIEALGLSGATLRRGAVAAVVAAGTTSPVDLVLADPPYNVDSADVDAILAALGTNGWTREGTVAVVERATTCAPLTWPEGWRRWPQRVYGDTRLELAERL SMTRIIGGVAGGRRIAVPPRGTTDRVRESLFNIVTARRDLTGLAVLDLYAGSGALGLEALSRGAASVLFVESDQRSAAVIARNIEALGLSGATLRRGAVAAVVAAGTTSPVDLVLADPPYNVDSADVDAILAALGTNGWTREGTVAVVERATTCAPLTWPEGWRRWPQRVYGDTRLELAERL 6aie-a1-m1-cA_6aie-a1-m1-cC Crystal structure of a new form of RsmD-like RNA methyl transferase from Mycobacterium tuberculosis determined at 1.74 A resolution I6XFS7 I6XFS7 1.74 X-RAY DIFFRACTION 11 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 182 182 SMTRIIGGVAGGRRIAVPPRGTTDRVRESLFNIVTARRDLTGLAVLDLYAGSGALGLEALSRGAASVLFVESDQRSAAVIARNIEALGLSGATLRRGAVAAVVAAGTTSPVDLVLADPPYNVDSADVDAILAALGTNGWTREGTVAVVERATTCAPLTWPEGWRRWPQRVYGDTRLELAERL SMTRIIGGVAGGRRIAVPPRGTTDRVRESLFNIVTARRDLTGLAVLDLYAGSGALGLEALSRGAASVLFVESDQRSAAVIARNIEALGLSGATLRRGAVAAVVAAGTTSPVDLVLADPPYNVDSADVDAILAALGTNGWTREGTVAVVERATTCAPLTWPEGWRRWPQRVYGDTRLELAERL 6ait-a1-m1-cA_6ait-a1-m1-cB Crystal structure of E. coli BepA P66948 P66948 2.598 X-RAY DIFFRACTION 18 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 418 418 SIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDQQTWVGALGSILLAMASPQGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERFK GSIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDTWVGALGSILLAMASPQAGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERFK 6ait-a1-m1-cD_6ait-a1-m1-cB Crystal structure of E. coli BepA P66948 P66948 2.598 X-RAY DIFFRACTION 22 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 416 418 SIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDQTWVGALGSILLAMASPQGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERF GSIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDTWVGALGSILLAMASPQAGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERFK 6ait-a1-m1-cE_6ait-a1-m1-cD Crystal structure of E. coli BepA P66948 P66948 2.598 X-RAY DIFFRACTION 21 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 410 416 6ait-a1-m1-cC_6ait-a1-m1-cD 6ait-a1-m1-cE_6ait-a1-m1-cC IGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDTWVGALGSILLAMASPSFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERF SIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDQTWVGALGSILLAMASPQGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERF 6ait-a1-m1-cF_6ait-a1-m1-cE Crystal structure of E. coli BepA P66948 P66948 2.598 X-RAY DIFFRACTION 17 0.985 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 406 410 6ait-a1-m1-cC_6ait-a1-m1-cA SIGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDQTWVGALGSILLAMASPQGMISFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQAEILLTHESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERF IGQEMQMGDYYVRQLRGSAPLINDPLLTQYINSLGMRLVSHANSVKTPFHFFLINNDEINAFAFFGGNVVLHSALFRYSDNESQLASVMAHEISHVTQRHLARAMEDTWVGALGSILLAMASPSFTQQNEQEADRIGIQVLQRSGFDPQAMPTFLEKLLDQARYSSRPPEILLTHPLPESRLADARNRANQMRPMVVQSSEDFYLAKARTLGMYNSGRNQLTSDLLDEWAKGNVRQQRAAQYGRALQAMEANKYDEARKTLQPLLAAEPGNAWYLDLATDIDLGQNKANEAINRLKNARDLRTNPVLQLNLANAYLQGGQPQEAANILNRYTFNNKDDSNGWDLLAQAEAALNNRDQELAARAEGYALAGRLDQAISLLSSASSQVKLGSLQQARYDARIDQLRQLQERF 6aja-a1-m1-cA_6aja-a1-m1-cB Crystal structure of Trypanosoma brucei glycosomal isocitrate dehydrogenase in complex with NADPH, alpha-ketoglutarate and ca2+ Q387G0 Q387G0 2.85 X-RAY DIFFRACTION 239 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 410 411 6aj6-a1-m1-cA_6aj6-a1-m1-cC 6aj8-a1-m1-cA_6aj8-a1-m1-cB 6aja-a2-m1-cC_6aja-a2-m1-cD 6ajb-a1-m1-cA_6ajb-a1-m1-cB 6ajb-a2-m1-cC_6ajb-a2-m1-cD 7e3n-a1-m1-cA_7e3n-a1-m2-cA SNKISATGVLVELDGDEMTRVIWKKIKETLIFPFVNVPIEYYDLSMENRDKTEDRVTVEAAYAIKKHGVGVKCATITPDEARVKEFNLKKMWRSPNGTIRTILGGTVFREPIICSNVPRLVTTWKKPVVIGRHAFGDQYSATDAVVKEPGTFEMRFIPANGGEPKVYKVFDYKSGGVMMGMYNTDDSIRDFARSCFEFALARKWPLYLSTKNTILKHYDGRFKDIFAEMYKALYETKFKTCGIFYEHRLIDDMVAHCMRSEGGYVWACKNYDGDVQSDSLAQGFGSLGMMTSILMTPDGKTVEVEAAHGTVTRHYRDYQKGKETSTNPVASIFAWTRALAHRARVDNNNTLLEFTQRLEDVIIATIEAGAMTEDLAICIKGEKNVVRADYLNTDEFIDAVSQRLKVAMQK SNKISATGVLVELDGDEMTRVIWKKIKETLIFPFVNVPIEYYDLSMENRDKTEDRVTVEAAYAIKKHGVGVKCATITPDEARVKEFNLKKMWRSPNGTIRTILGGTVFREPIICSNVPRLVTTWKKPVVIGRHAFGDQYSATDAVVKEPGTFEMRFIPANGGEPKVYKVFDYKSGGVMMGMYNTDDSIRDFARSCFEFALARKWPLYLSTKNTILKHYDGRFKDIFAEMYKALYETKFKTCGIFYEHRLIDDMVAHCMRSEGGYVWACKNYDGDVQSDSLAQGFGSLGMMTSILMTPDGKTVEVEAAHGTVTRHYRDYQKGKETSTNPVASIFAWTRALAHRARVDNNNTLLEFTQRLEDVIIATIEAGAMTEDLAICIKGEKNVVRADYLNTDEFIDAVSQRLKVAMQKS 6ajc-a4-m1-cH_6ajc-a4-m1-cG Crystal structure of Trypanosoma cruzi cytosolic isocitrate dehydrogenase in complex with NADP+, isocitrate and ca2+ Q4E4L7 Q4E4L7 2.4 X-RAY DIFFRACTION 283 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 411 413 6ajc-a1-m1-cB_6ajc-a1-m1-cA 6ajc-a2-m1-cC_6ajc-a2-m1-cD 6ajc-a3-m1-cE_6ajc-a3-m1-cF KIKVAGTVVELDGDEMTRVIWKMIKEELIFPFLDVPIEYYDLGMENRDKTDDQVTVDAAHAIKKHGVGVKCATITPDEARVREFNLKQMWKSPNGTIRNILGGTVFREPIMCKNVPRLVTTWKHPIVIGRHAFGDQYRATDLVVNGPGTFEIHFVPESGGAAQVQKVFDFKSGGVLMGMYNTDESIKDFAKSCFEYALSKKWPLYLSTKNTILKRYDGRFKDIFAEMYKASYEADYKKAGIWYEHRLIDDMVAYAMKSEGGYVWACKNYDGDVQSDSVAQGFGSLGLMTSVLMSPDGRTVEAEAAHGTVTRHYRQHQKGEETSTNPVASIFAWTRGLMHRGKLDQNEKLVQFSMLLEKVVVSTIEAGFMTKDLAICIKGMNHVTRSDYLNTQEFIHKLADEMRKAYERSKI SQKIKVAGTVVELDGDEMTRVIWKMIKEELIFPFLDVPIEYYDLGMENRDKTDDQVTVDAAHAIKKHGVGVKCATITPDEARVREFNLKQMWKSPNGTIRNILGGTVFREPIMCKNVPRLVTTWKHPIVIGRHAFGDQYRATDLVVNGPGTFEIHFVPESGGAAQVQKVFDFKSGGVLMGMYNTDESIKDFAKSCFEYALSKKWPLYLSTKNTILKRYDGRFKDIFAEMYKASYEADYKKAGIWYEHRLIDDMVAYAMKSEGGYVWACKNYDGDVQSDSVAQGFGSLGLMTSVLMSPDGRTVEAEAAHGTVTRHYRQHQKGEETSTNPVASIFAWTRGLMHRGKLDQNEKLVQFSMLLEKVVVSTIEAGFMTKDLAICIKGMNHVTRSDYLNTQEFIHKLADEMRKAYERSKI 6ajm-a1-m1-cC_6ajm-a1-m1-cD Crystal structure of apo AtaTR J7QA90 J7QA90 2.604 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 81 81 6ajn-a1-m1-cC_6ajn-a1-m1-cD KQRIDLRLTDDDKSMIEEAAAISNQSVSQFMLNSASQRAAEVIEQHRRVILNEESWTRVMDALSNPPSPGEKLKRAAKRLQ KQRIDLRLTDDDKSMIEEAAAISNQSVSQFMLNSASQRAAEVIEQHRRVILNEESWTRVMDALSNPPSPGEKLKRAAKRLQ 6ajm-a1-m1-cF_6ajm-a1-m1-cD Crystal structure of apo AtaTR J7QA90 J7QA90 2.604 X-RAY DIFFRACTION 120 1.0 562 (Escherichia coli) 562 (Escherichia coli) 66 81 6ajm-a1-m1-cE_6ajm-a1-m1-cC 6ajn-a1-m1-cE_6ajn-a1-m1-cC 6ajn-a1-m1-cF_6ajn-a1-m1-cD KQRIDLRLTDDDKSMIEEAAAISNQSVSQFMLNSASQRAAEVIEQHRRVILNEESWTRVMDALSNP KQRIDLRLTDDDKSMIEEAAAISNQSVSQFMLNSASQRAAEVIEQHRRVILNEESWTRVMDALSNPPSPGEKLKRAAKRLQ 6ak3-a1-m1-cA_6ak3-a1-m1-cB Crystal structure of the human prostaglandin E receptor EP3 bound to prostaglandin E2 P0ABE7 P0ABE7 2.9 X-RAY DIFFRACTION 30 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 272 272 CGSVSVAFPITMLLTGFVGNALAMLLVSRSRKSFLLCIGWLALTDLVGQLLTTPVVIVVYLSKRWEHIDPGRLCTFFGLTMTVFGLSSLFIASAMAVERALAIRAPHWYASHMKTRITRAVLLGVWLASLAFALLPVLGVGQYTVQWPGTWCFISTGGNLFFASAFAFLGLLALTVTFSCNLATIKALVDRCRAKAAQWGRITTETAIQLMGIMLVLSVCWSPLLIMMLKMIFKECNFFLIAVRLASLNQILDPWVYLLLRKILLRADLKYG CGSVSVAFPITMLLTGFVGNALAMLLVSRSYRKSFLLCIGWLALTDLVGQLLTTPVVIVVYLSKRWEHIDPSGRLCTFFGLTMTVFGLSSLFIASAMAVERALAIRAPHWYASHMKTRITRAVLLGVWLASLAFALLPVLGVGQYTVQWPGTWCFISTGGNLFFASAFAFLGLLALTVTFSCNLATIKALVDRCRAKAAQWGRITTETAIQLMGIMLVLSVCWSPLLIMMLKMIFKECNFFLIAVRLASLNQILDPWVYLLLRKILLRAKYG 6akk-a1-m1-cB_6akk-a1-m2-cB Crystal structure of the second Coiled-coil domain of SIKE1 Q9BRV8 Q9BRV8 1.5 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 48 48 6akk-a1-m1-cA_6akk-a1-m2-cA GLLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVA GLLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVA 6akk-a1-m2-cB_6akk-a1-m1-cA Crystal structure of the second Coiled-coil domain of SIKE1 Q9BRV8 Q9BRV8 1.5 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 48 49 6akk-a1-m1-cB_6akk-a1-m2-cA GLLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVA GLLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVAK 6akk-a1-m2-cB_6akk-a1-m2-cA Crystal structure of the second Coiled-coil domain of SIKE1 Q9BRV8 Q9BRV8 1.5 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 48 49 6akk-a1-m1-cB_6akk-a1-m1-cA GLLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVA GLLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVAK 6akl-a1-m1-cB_6akl-a1-m1-cA Crystal structure of Striatin3 in complex with SIKE1 Coiled-coil domain Q9BRV8 Q9BRV8 1.75 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 47 52 LSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVAK STMALLSQENTQIRDLQQENRELWISLEEHQDALELIMSKYRKQMLQLMVAK 6al9-a1-m1-cA_6al9-a1-m1-cB Crystal structure of chorismate mutase from Helicobacter pylori in complex with prephenate O25064 O25064 2.3 X-RAY DIFFRACTION 130 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 90 91 DSLLENLRAEIDALDNELSDLLDKRLEIALKIALIKQESPIYCPKREQEILKRLSQRDFKHLNGEILTGFYTEVFKISRKFQENALKELK LDSLLENLRAEIDALDNELSDLLDKRLEIALKIALIKQESPIYCPKREQEILKRLSQRDFKHLNGEILTGFYTEVFKISRKFQENALKELK 6all-a1-m1-cA_6all-a1-m1-cB Crystal structure of a predicted ferric/iron (III) hydroxymate siderophore substrate binding protein from Bacillus anthracis Q81L65 Q81L65 2.47 X-RAY DIFFRACTION 50 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 286 289 ITIKHAEGETKLDKPAKKVVVLEWVYSEDLLALGVQPVGMADIKNYNKWVNTKTKPSKDVVDVGTRQQPNLEEISRLKPDLIITASFRGKAIKNELEQIAPTVMFDPSTSNNDHFAEMTETFKQIAKAVGKEEEGKKVLADMDKAFADAKAKIEKADLKDKNIAMAQAFTAKNVPTFRILTDNSLALQVTKKLGLTNTFEAGKSEPDGFKQTTVESLQSVQDSNFIYIVADEDNIFDTQLKGNPAWEELKFKKENKMYKLKGDTWIFGGPESATSLATQVADVMTA AITIKHAEGETKLDKPAKKVVVLEWVYSEDLLALGVQPVGMADIKNYNKWVNTKTKPSKDVVDVGTRQQPNLEEISRLKPDLIITASFRGKAIKNELEQIAPTVMFDPSTSNNDHFAEMTETFKQIAKAVGKEEEGKKVLADMDKAFADAKAKIEKADLKDKNIAMAQAFTAKNVPTFRILTDNSLALQVTKKLGLTNTFEAGKSEPDGFKQTTVESLQSVQDSNFIYIVADEDNIFDTQLKGNPAWEELKFKKENKMYKLKGDTWIFGGPESATSLATQVADVMTAKK 6alr-a1-m1-cA_6alr-a1-m2-cA VioC L-arginine hydroxylase bound to the vanadyl ion, L-arginine, and succinate Q6WZB0 Q6WZB0 1.55 X-RAY DIFFRACTION 57 1.0 1960 (Streptomyces vinaceus) 1960 (Streptomyces vinaceus) 337 337 6alm-a1-m1-cA_6alm-a1-m2-cA 6aln-a1-m1-cA_6aln-a1-m2-cA 6alo-a1-m1-cA_6alo-a1-m2-cA 6alp-a1-m1-cA_6alp-a1-m2-cA 6alq-a1-m1-cA_6alq-a1-m2-cA RPWSEFRLTPAEAAAAAALAARCAQRYDETDGPEFLLDAPVIAHELPRRLRTFMARARLDAWPHALVVRGNPVDDAALGSTPVHWRTARTPGSRPLSFLLMLYAGLLGDVFGWATQQDGRVVTDVLPIKGGEHTLVSSSSRQELGWHTEDAFSPYRADYVGLLSLRNPDGVATTLAGVPLDDLDERTLDVLFQERFLIRPDDSHLQVNNSTAQQGRVEFEGIAQAADRPEPVAILTGHRAAPHLRVDGDFSAPAEGDEEAAAALGTLRKLIDASLYELVLDQGDVAFIDNRRAVHGRRAFQPRYDGRDRWLKRINITRDLHRSRKAWAGDSRVLGQR RPWSEFRLTPAEAAAAAALAARCAQRYDETDGPEFLLDAPVIAHELPRRLRTFMARARLDAWPHALVVRGNPVDDAALGSTPVHWRTARTPGSRPLSFLLMLYAGLLGDVFGWATQQDGRVVTDVLPIKGGEHTLVSSSSRQELGWHTEDAFSPYRADYVGLLSLRNPDGVATTLAGVPLDDLDERTLDVLFQERFLIRPDDSHLQVNNSTAQQGRVEFEGIAQAADRPEPVAILTGHRAAPHLRVDGDFSAPAEGDEEAAAALGTLRKLIDASLYELVLDQGDVAFIDNRRAVHGRRAFQPRYDGRDRWLKRINITRDLHRSRKAWAGDSRVLGQR 6alz-a3-m1-cA_6alz-a3-m1-cB Crystal structure of Protein Phosphatase 1 bound to the natural inhibitor Tautomycetin P62136 P62136 2.208 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 294 LNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA SLNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA 6am0-a1-m1-cE_6am0-a1-m1-cA Crystal structure of K. lactis Edc1-Dcp1-Dcp2-Edc3 decapping complex with synthetic cap substrate analog Q6CIU1 Q6CIU1 2.84 X-RAY DIFFRACTION 24 1.0 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 257 260 SLPLLRPFETVSLENAVEDLVVRFILNVPPEDLSTVERVLFHFEEASWFYTDFVKLMNPYLPNLSIKSFSKIVIDICPLIWNWDITPENALVKFSNYKKTIPVRGAAIFNDSLSKILLLRGINSKHWSFPRGKIGKDEDDVACCIREVKEQTGFDLTGFIDADQYVERNMNGKNFKIFLVKGVPEDFEFKPEHKNEIQAIEWKDFKKLSKAITKNVFLVNSMIRPLSLYVKNEKRAKDENKLKLYAEEHLKSILGLN SLPLLRPFETVSLENAVEDLVVRFILNVPPEDLSTVERVLFHFEEASWFYTDFVKLMNPYLPNLSIKSFSKIVIDICPLIWNWDITPENALVKFSNYKKTIPVRGAAIFNDSLSKILLLRGINSKHWSFPRGKIGKDEDDVACCIREVKEQTGFDLTGFIDADQYVERNMNGKNFKIFLVKGVPEDFEFKPEHKNEIQAIEWKDFKKLSKAITKNEAKVFLVNSMIRPLSLYVKNEKRAKDENKLKLYAEEHLKSILGLN 6amg-a1-m1-cA_6amg-a1-m1-cB cyt P460 of Nitrosomonas sp. AL212 F9ZFJ0 F9ZFJ0 1.45 X-RAY DIFFRACTION 118 1.0 153948 (Nitrosomonas sp. AL212) 153948 (Nitrosomonas sp. AL212) 158 160 6e0x-a1-m1-cD_6e0x-a1-m1-cA 6e0x-a2-m1-cC_6e0x-a2-m1-cB 6e0y-a1-m1-cB_6e0y-a1-m1-cA 6e0y-a2-m1-cC_6e0y-a2-m1-cD 6e0z-a1-m1-cA_6e0z-a1-m1-cB 6e0z-a2-m1-cC_6e0z-a2-m1-cD 6e17-a1-m1-cA_6e17-a1-m1-cB 6e17-a2-m2-cD_6e17-a2-m1-cC 6w6n-a1-m1-cA_6w6n-a1-m1-cB LNYGSFTKEHVLLTPKGYREWVFIGASVTPNELNDDKAAFPEFHNVYIDPTSWGHWKKTGEFRDGTVIVKELAGVGSKASPSGNGYFPGEFNGIAAMVKDSKRYPERPGNWAFFGFESYEAKQGIIQTDETCAACHKEHAAHDMVFTQFYPVLRAGKP KGLNYGSFTKEHVLLTPKGYREWVFIGASVTPNELNDDKAAFPEFHNVYIDPTSWGHWKKTGEFRDGTVIVKELAGVGSKASPSGNGYFPGEFNGIAAMVKDSKRYPERPGNWAFFGFESYEAKQGIIQTDETCAACHKEHAAHDMVFTQFYPVLRAGKP 6amy-a1-m1-cB_6amy-a1-m1-cC Crystal structure of a 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase from Acinetobacter baumannii Q5DL43 Q5DL43 2.85 X-RAY DIFFRACTION 126 0.988 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 258 260 6amy-a1-m1-cB_6amy-a1-m1-cA 6amy-a1-m1-cC_6amy-a1-m1-cA SQLSTIIEQAFEDRANFTAADCPSEIRQAVEEAIAGLDNGTLRVAEKINGEWVVHQWLKKAVLLSFKLNDNKPIESCDLRFYDKVETKFSGWTEEQFKAAGVRVVPPAVARRGSFQAKNVVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEIVEGVIVEEGSVISMGVYIGQSTRIYDRETGEIHYGRVPAGSVVVPGNLPSADGKYSLYAAIIVKKVDAQ SQLSTIIEQAFEDRANFTAADCPSEIRQAVEEAIAGLDNGTLRVAEKINGEWVVHQWLKKAVLLSFKLNDNKPIESCDLRFYDKVETKFSGWTEEQFKAAGVRVVPPAVARRGSFQAKNVVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEIVEGVIVEEGSVISMGVYIGQSTRIYDRETGEIHYGRVPAGSVVVPGNLPSADGKYSLYAAIIVKKVLNDLL 6amz-a1-m2-cA_6amz-a1-m3-cA Crystal structure of a domain swapped 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase from Acinetobacter baumannii Q5DL43 Q5DL43 2.05 X-RAY DIFFRACTION 206 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 256 256 6amz-a1-m1-cA_6amz-a1-m2-cA 6amz-a1-m1-cA_6amz-a1-m3-cA MSQLSTIIEQAFEDRANFTAADCPSEIRQAVEEAIAGLDNGTLRVAEKINGEWVVHQWLKKAVLLSFKLNDNKPIESCDLRFYDKVETKFSGWTEEQFKAAGVRVVPPAVARRGSFQAKNVVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEIVEGVIVEEGSVISMGVYIGQSTRIYDRETGEIHYGRVPAGSVVVPGNLPSADGKYSLYAAIIVKKV MSQLSTIIEQAFEDRANFTAADCPSEIRQAVEEAIAGLDNGTLRVAEKINGEWVVHQWLKKAVLLSFKLNDNKPIESCDLRFYDKVETKFSGWTEEQFKAAGVRVVPPAVARRGSFQAKNVVLMPSYVNIGAYVDEGTMVDTWATVGSCAQIGKNVHLSGGVGIGGVLEPLQANPTIIEDNCFIGARSEIVEGVIVEEGSVISMGVYIGQSTRIYDRETGEIHYGRVPAGSVVVPGNLPSADGKYSLYAAIIVKKV 6an0-a1-m1-cA_6an0-a1-m2-cA Crystal Structure of Histidinol Dehydrogenase from Elizabethkingia anophelis A0A077ECF2 A0A077ECF2 1.85 X-RAY DIFFRACTION 399 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 433 433 HHHHHMQTYINPPLSEWKNLIQRPVQKAEDLQNIVLTVFEDIKNEKDKALINYTKKFDKAYLTDIRVSSDEITAAIALVSDELIQAIQMAASNIEKFHASQKENKNIIETTEGVNCWREARPIENIGIYIPGGSAPLFSTVLMLGIPAQLAGCKNITLCTPPDESGNINPAILYTANLIGIKNIYKAGGIQAIGAMTFGTETIEKADKIFGPGNQYVTAAKQIAQNFGVAIDMPAGPSEVLVIADTTANPEFVAADLLSQAEHGADSQVILLTTDENILQQTLMQVENQLTQLPRKSIASQALLQSRGIVLDSIEKCIAFSNLYAPEHLILAIENTENYTDKITSAGSVFLGNFSCESAGDYASGTNHTLPTNGYARNYSGVSLDSFIKKITFQKVTKKGIQNIGPGIEKMAEAEELFAHKHAVSVRLKSLNS HHHHHMQTYINPPLSEWKNLIQRPVQKAEDLQNIVLTVFEDIKNEKDKALINYTKKFDKAYLTDIRVSSDEITAAIALVSDELIQAIQMAASNIEKFHASQKENKNIIETTEGVNCWREARPIENIGIYIPGGSAPLFSTVLMLGIPAQLAGCKNITLCTPPDESGNINPAILYTANLIGIKNIYKAGGIQAIGAMTFGTETIEKADKIFGPGNQYVTAAKQIAQNFGVAIDMPAGPSEVLVIADTTANPEFVAADLLSQAEHGADSQVILLTTDENILQQTLMQVENQLTQLPRKSIASQALLQSRGIVLDSIEKCIAFSNLYAPEHLILAIENTENYTDKITSAGSVFLGNFSCESAGDYASGTNHTLPTNGYARNYSGVSLDSFIKKITFQKVTKKGIQNIGPGIEKMAEAEELFAHKHAVSVRLKSLNS 6ani-a1-m1-cI_6ani-a1-m1-cH Coltuximab Fab in complex with anti-Kappa VHH domain 2.4 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 216 QVQLVQPGAEVVKPGASVKLSCKTSGYTFTSNWMHWVKQAPGQGLEWIGEIDPSDSYTNYNQNFQGKAKLTVDKSTSTAYMEVSSLRSDDTAVYYCARGSNPYYYAMDYWGQGTSVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP QVQLVQPGAEVVKPGASVKLSCKTSGYTFTSNWMHWVKQAPGQGLEWIGEIDPSDSYTNYNQNFQGKAKLTVDKSTSTAYMEVSSLRSDDTAVYYCARGSNPYYYAMDYWGQGTSVTVSSASTKGPSVFPLAPSSKGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP 6ans-a2-m1-cD_6ans-a2-m1-cB Crystal structure of a putative uncharacterized protein from Burkholderia cenocepacia B4EDY7 B4EDY7 2.2 X-RAY DIFFRACTION 116 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 354 362 6ans-a1-m1-cC_6ans-a1-m1-cA RATQLLSGQTWADFCDTLKRSGEQILRTDAPDDPLTRAEGFRYLSRLRIALEHVEFADGAWPGFFSPSHETAKIGADNPDNLYQYARVDGRCEYRVTGRRGTVAYLSFGTQKGGYETDGKLQTGFLDAKQLEIAPDGSVEIVLSATPRAGNWVREPDTNALLVRQTFLDRRTETPAQLKIERIDAQARPAPLDPLALQGGLRAAQFVEQTSKLFADWAASYRPHVNALPPADQALCQSVGGDPNIYYYHSCWSLAADEALVIDVDTVPDCDFWNVQLNNYWESLDYRHFDICVNKHSARPNADGGVTVIVAATRPGSANWLDTAGHRTGTICWRWVGAAQPVHPRTRVVKLAAL TDDTRATQLLSGQTWADFCDTLKRSGEQILRTDAPDDPLTRAEGFRYLSRLRIALEHVEFADGAWPGFFSPSHETAKIGADNPDNLYQYARVDGRCEYRVTGRRGTVAYLSFGTQKGGYETDGKLQTGFLDAKQLEIAPDGSVEIVLSATPRAGNWVREPDTNALLVRQTFLDRRTETPAQLKIERIDAQARPAPLDPLALQGGLRAAQFVEQTSKLFADWAASYRPHVNALPPADQALCQSVGGDPNIYYYHSCWSLAADEALVIDVDTVPDCDFWNVQLNNYWESLDYRHFDICVNKHSARPNADGGVTVIVAATRPGSANWLDTAGHRTGTICWRWVGAAQPVHPRTRVVKLAALKEAA 6anz-a1-m1-cA_6anz-a1-m2-cA Crystal structure of a hypothetical protein from Neisseria gonorrhoeae B4RQJ2 B4RQJ2 1.6 X-RAY DIFFRACTION 103 1.0 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 144 144 HHHHHHMKTSTIVFGGFFITDNGERIQIPILENPNIKEINNFFSVSNFEKKAGVLVFRIIPEPEFGNTELTIYFEKGYYLPIIQTILEDGDIEVKNLKTENYSGNTMEILGDVYPIEHISKNISIIQDIISEFIMKNKPITIMI HHHHHHMKTSTIVFGGFFITDNGERIQIPILENPNIKEINNFFSVSNFEKKAGVLVFRIIPEPEFGNTELTIYFEKGYYLPIIQTILEDGDIEVKNLKTENYSGNTMEILGDVYPIEHISKNISIIQDIISEFIMKNKPITIMI 6ao7-a1-m1-cA_6ao7-a1-m2-cA Crystal Structure of a GNAT family acetyltransferase from Elizabethkingia anophelis with acetyl-CoA bound 1.85 X-RAY DIFFRACTION 47 1.0 1117645 (Elizabethkingia anophelis) 1117645 (Elizabethkingia anophelis) 153 153 KDNITIHPHTAGTPIPYDLLLLADPSKELIDQYLTSGELYLAKYNNEIIGCYVLYPWDFETTEIKNIAVAEKFQNQGIGGQLLKDVILKAKNKFYKKLVIGTGNSSTGQLYLYQKYGFRITDIRKNFFKDNYPEPIWENGIECTDMILLTMEL KDNITIHPHTAGTPIPYDLLLLADPSKELIDQYLTSGELYLAKYNNEIIGCYVLYPWDFETTEIKNIAVAEKFQNQGIGGQLLKDVILKAKNKFYKKLVIGTGNSSTGQLYLYQKYGFRITDIRKNFFKDNYPEPIWENGIECTDMILLTMEL 6aoa-a1-m1-cA_6aoa-a1-m2-cA Monomeric crystal structure of the E497/C566D double mutant of the guanylyl cyclase domain of the RhoGC fusion protein from the aquatic fungus Blastocladiella emersonii A0A060H1D7 A0A060H1D7 1.4 X-RAY DIFFRACTION 36 1.0 4808 (Blastocladiella emersonii) 4808 (Blastocladiella emersonii) 177 177 TEAKEYESVTVFFSDITNFTVISSRTSTKDMMATLNKLWLEYDAIAKRWGVYKVKTIGDAYLGVTGAPDVVPDHAERACNFAVDIIEMIKSFKTITGESINIRIGLNSGPVTAGVLLNPHWDLVGDTVNTASRMESTSKAGHIHISESTYHFIKSKFVTQPLDVMKMQTYWVLGRKM TEAKEYESVTVFFSDITNFTVISSRTSTKDMMATLNKLWLEYDAIAKRWGVYKVKTIGDAYLGVTGAPDVVPDHAERACNFAVDIIEMIKSFKTITGESINIRIGLNSGPVTAGVLLNPHWDLVGDTVNTASRMESTSKAGHIHISESTYHFIKSKFVTQPLDVMKMQTYWVLGRKM 6aob-a1-m1-cB_6aob-a1-m1-cA Crystal structure of non-canonical dimeric guanylyl cyclase domain of RhoGC fusion protein from the aquatic fungus Blastocladiella emersonii A0A060H1D7 A0A060H1D7 1.7 X-RAY DIFFRACTION 93 0.983 4808 (Blastocladiella emersonii) 4808 (Blastocladiella emersonii) 178 180 AKEYESVTVFFSDITNFTVISSRTSTKDMMATLNKLWLEYDAIAKRWGVYKVETIGDAYLGVTGAPDVVPDHAERACNFAVDIIEMIKSFKTITGESINIRIGLNSGPVTAGVLDLNPHWCLVGDTVNTASRMESTSKAGHIHISESTYHFIKSKFVTQPLDVMEVGKMQTYWVLGRK MTEAKEYESVTVFFSDITNFTVISSRTSTKDMMATLNKLWLEYDAIAKRWGVYKVETIGDAYLGVTGAPDVVPDHAERACNFAVDIIEMIKSFKTITGESINIRIGLNSGPVTAGVLGDLNPHWCLVGDTVNTASRMESTSKAGHIHISESTYHFIKSKFVTQPLDVMKMQTYWVLGRKM 6aon-a1-m1-cA_6aon-a1-m1-cB 1.72 Angstrom Resolution Crystal Structure of 2-Oxoglutarate Dehydrogenase Complex Subunit Dihydrolipoamide Dehydrogenase from Bordetella pertussis in Complex with FAD Q7VZ16 Q7VZ16 1.72 X-RAY DIFFRACTION 257 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 473 473 KQFDVVVIGAGPGGYIAAIRAAQLGMSVACIDAWQNGQGGPAPGGTCTNVGCIPSKALLQSSEHYEQANHHFAEHGIEVKGVSLKLDTLIGRKNTVVKQNNDGILYLFKKNKVTYFHGKGAFAGQVDGGWSIKVTGTTDADLVAKHVIVATGSSARELPGLPFDEKNILSNDGALNIGAVPKKLGVIGAGVIGLEMGSVWRRLGAEVTILEAMPEFLAAADQQVAKEALKSFAKQGLDIQTGVKIGEIKAAAKSITVPYVDAKGAEQKLVVDKLIVSIGRVPYTGGLNAEAVGLKLDERGFVAVDEDCKTNLPNVWAVGDVVRGPMLAHKAEEEGVAVAERIAGQHGHVNFATVPWVIYTSPEIAWVGKTEQQLKAEGREYKAGSFPFMANGRARALGDTTGFAKVIADAKTDEVLGVHIIGPMASELISEAVTIMEFRGAAEDIARICHAHPTLSEAVKEAALAVDKRTLNF KQFDVVVIGAGPGGYIAAIRAAQLGMSVACIDAWQNGQGGPAPGGTCTNVGCIPSKALLQSSEHYEQANHHFAEHGIEVKGVSLKLDTLIGRKNTVVKQNNDGILYLFKKNKVTYFHGKGAFAGQVDGGWSIKVTGTTDADLVAKHVIVATGSSARELPGLPFDEKNILSNDGALNIGAVPKKLGVIGAGVIGLEMGSVWRRLGAEVTILEAMPEFLAAADQQVAKEALKSFAKQGLDIQTGVKIGEIKAAAKSITVPYVDAKGAEQKLVVDKLIVSIGRVPYTGGLNAEAVGLKLDERGFVAVDEDCKTNLPNVWAVGDVVRGPMLAHKAEEEGVAVAERIAGQHGHVNFATVPWVIYTSPEIAWVGKTEQQLKAEGREYKAGSFPFMANGRARALGDTTGFAKVIADAKTDEVLGVHIIGPMASELISEAVTIMEFRGAAEDIARICHAHPTLSEAVKEAALAVDKRTLNF 6aoz-a1-m1-cB_6aoz-a1-m1-cA Crystal structure of human FLASH N-terminal domain C54S/C83A (Crystal form 1) Q9UKL3 Q9UKL3 2.1 X-RAY DIFFRACTION 95 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 69 74 6ano-a1-m1-cB_6ano-a1-m1-cA 6aoz-a2-m1-cD_6aoz-a2-m1-cC 6ap0-a1-m1-cA_6ap0-a1-m1-cB EATYNDLQVEYGKAQLQMKELMKKFKEIQAQNFSLINENQSLKKNISALIKTARVEINRKDEEISNLHL ATYNDLQVEYGKAQLQMKELMKKFKEIQAQNFSLINENQSLKKNISALIKTARVEINRKDEEISNLHLEHHHHH 6ap4-a4-m1-cG_6ap4-a4-m1-cH Crystal structure of the DNA polymerase III subunit beta from Acinetobacter baumannii V5V7W3 V5V7W3 2.95 X-RAY DIFFRACTION 83 0.997 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 378 383 6ap4-a1-m1-cA_6ap4-a1-m1-cB 6ap4-a2-m1-cC_6ap4-a2-m1-cD 6ap4-a3-m1-cF_6ap4-a3-m1-cE 6ap4-a5-m1-cI_6ap4-a5-m1-cJ 6ap4-a7-m1-cN_6ap4-a7-m1-cM 6ap4-a8-m1-cO_6ap4-a8-m1-cP HMRLKIAKESLLNVLSHVVGAVERRHTLNILSNVKIQTNAQALTITGSDLEVELVASTALSEGACLEAGETTVPARKLMEICKSLPTAALIDLQITEDQRCILKSGNSRFVLGTLPAEDYPLLTTENSQGTQVQVTQRELKRLFEKTAFAMAVQDVRFYLTGTLLEIDENQLRAVTTDGHRLALCEILASSTSSQLVQAIVPRKAVGELQRLLSIEDEQLTLLIGRELLNVTINTKEQGDITVRFTTKLIDGKFPDYRRVIPRGGDKHVLIGHDVFKQSLQRVAILSNEKLRGVFLNFNQDSLQLRANNPEQDEAIEDLAIQYQSAPLEMSFNAQYLLDVLGVLDGDDVNMSMTEANQSVLVQDPAHPDQTYVVMPMR HHHMRLKIAKESLLNVLSHVVGAVERRHTLNILSNVKIQTNAQALTITGSDLEVELVASTALSEGACLEAGETTVPARKLMEICKSLPTAALIDLQITEDQRCILKSGNSRFVLGTLPAEDYPLLTTENSQGTQVQVTQRELKRLFEKTAFAMAVQDVRFYLTGTLLEIDENQLRAVTTDGHRLALCEILASSTSSQLVQAIVPRKAVGELQRLLSIEDEQLTLLIGRELLNVTINTPSRDKEQGDITVRFTTKLIDGKFPDYRRVIPRGGDKHVLIGHDVFKQSLQRVAILSNEKLRGVFLNFNQDSLQLRANNPEQDEAIEDLAIQYQSAPLEMSFNAQYLLDVLGVLDGDDVNMSMTEANQSVLVQDPAHPDQTYVVMPM 6ape-a2-m1-cA_6ape-a2-m2-cA Crystal Structure of Bifunctional protein FolD from Helicobacter pylori B5Z6U8 B5Z6U8 1.45 X-RAY DIFFRACTION 99 1.0 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 284 284 GVVLLDGQALAYSIEKDLKNKIQIITVQVHKRPKLAVILVGKDPASITYVNMKIKACERVGMDFDLKTLQENVTEAELLSLIKDYNTDQNISGVLVQLPLPRHIDSKMVLEAIDPSKDVDGFHPLNIGKLCTQKESFLPATPMGVMRLLKHYHIEIKGKDVAIIGASNIIGKPLSMLMLNAGASVSVCHILTKDISFYTQNADIVCVGVGKPDLIKASMLKKGAVVVDIGINHLNDGRIVGDVDFTNAQKVAGFITPVPKGVGPMTIVSLLENTLIAFEKQQRK GVVLLDGQALAYSIEKDLKNKIQIITVQVHKRPKLAVILVGKDPASITYVNMKIKACERVGMDFDLKTLQENVTEAELLSLIKDYNTDQNISGVLVQLPLPRHIDSKMVLEAIDPSKDVDGFHPLNIGKLCTQKESFLPATPMGVMRLLKHYHIEIKGKDVAIIGASNIIGKPLSMLMLNAGASVSVCHILTKDISFYTQNADIVCVGVGKPDLIKASMLKKGAVVVDIGINHLNDGRIVGDVDFTNAQKVAGFITPVPKGVGPMTIVSLLENTLIAFEKQQRK 6aph-a1-m1-cA_6aph-a1-m4-cA Crystal structure of Adenosylhomocysteinase from Elizabethkingia anophelis NUHP1 in complex with NAD and Adenosine A0A077EDS4 A0A077EDS4 1.65 X-RAY DIFFRACTION 28 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 432 432 6aph-a1-m2-cA_6aph-a1-m3-cA QYVPYKVKDISLAEWGRKEIELAEAEMPGLMAIREEYGPQQPLKGARIAGCLHMTIQTAVLIETLVALGADVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGMNEEEFDWCIEQTLFFGEDRQPLNMILDDGGDLTNMVFDKYPELTKDIKGLSEETTTGVHRLYERMQNGTLVMPAINVNDSVTKSKFDNKYGCRESAVDAIRRATDVMLAGKRVVVCGFGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMEGYEVKQLDTVVDNADIIITTTGNFGIVRGEHFEKMKDKTIVCNIGHFDNEIDMAWLNKNHGATKVEIKPQVDKYNVNGNDIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWVHSDKYENKVYTLPKHLDEKVAALHLKKLGVELETLSEEQAKYIGVTVDGPFKPDYYRY QYVPYKVKDISLAEWGRKEIELAEAEMPGLMAIREEYGPQQPLKGARIAGCLHMTIQTAVLIETLVALGADVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGMNEEEFDWCIEQTLFFGEDRQPLNMILDDGGDLTNMVFDKYPELTKDIKGLSEETTTGVHRLYERMQNGTLVMPAINVNDSVTKSKFDNKYGCRESAVDAIRRATDVMLAGKRVVVCGFGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMEGYEVKQLDTVVDNADIIITTTGNFGIVRGEHFEKMKDKTIVCNIGHFDNEIDMAWLNKNHGATKVEIKPQVDKYNVNGNDIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWVHSDKYENKVYTLPKHLDEKVAALHLKKLGVELETLSEEQAKYIGVTVDGPFKPDYYRY 6aph-a1-m2-cA_6aph-a1-m4-cA Crystal structure of Adenosylhomocysteinase from Elizabethkingia anophelis NUHP1 in complex with NAD and Adenosine A0A077EDS4 A0A077EDS4 1.65 X-RAY DIFFRACTION 171 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 432 432 6aph-a1-m1-cA_6aph-a1-m3-cA QYVPYKVKDISLAEWGRKEIELAEAEMPGLMAIREEYGPQQPLKGARIAGCLHMTIQTAVLIETLVALGADVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGMNEEEFDWCIEQTLFFGEDRQPLNMILDDGGDLTNMVFDKYPELTKDIKGLSEETTTGVHRLYERMQNGTLVMPAINVNDSVTKSKFDNKYGCRESAVDAIRRATDVMLAGKRVVVCGFGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMEGYEVKQLDTVVDNADIIITTTGNFGIVRGEHFEKMKDKTIVCNIGHFDNEIDMAWLNKNHGATKVEIKPQVDKYNVNGNDIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWVHSDKYENKVYTLPKHLDEKVAALHLKKLGVELETLSEEQAKYIGVTVDGPFKPDYYRY QYVPYKVKDISLAEWGRKEIELAEAEMPGLMAIREEYGPQQPLKGARIAGCLHMTIQTAVLIETLVALGADVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGMNEEEFDWCIEQTLFFGEDRQPLNMILDDGGDLTNMVFDKYPELTKDIKGLSEETTTGVHRLYERMQNGTLVMPAINVNDSVTKSKFDNKYGCRESAVDAIRRATDVMLAGKRVVVCGFGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMEGYEVKQLDTVVDNADIIITTTGNFGIVRGEHFEKMKDKTIVCNIGHFDNEIDMAWLNKNHGATKVEIKPQVDKYNVNGNDIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWVHSDKYENKVYTLPKHLDEKVAALHLKKLGVELETLSEEQAKYIGVTVDGPFKPDYYRY 6aph-a1-m3-cA_6aph-a1-m4-cA Crystal structure of Adenosylhomocysteinase from Elizabethkingia anophelis NUHP1 in complex with NAD and Adenosine A0A077EDS4 A0A077EDS4 1.65 X-RAY DIFFRACTION 92 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 432 432 6aph-a1-m1-cA_6aph-a1-m2-cA QYVPYKVKDISLAEWGRKEIELAEAEMPGLMAIREEYGPQQPLKGARIAGCLHMTIQTAVLIETLVALGADVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGMNEEEFDWCIEQTLFFGEDRQPLNMILDDGGDLTNMVFDKYPELTKDIKGLSEETTTGVHRLYERMQNGTLVMPAINVNDSVTKSKFDNKYGCRESAVDAIRRATDVMLAGKRVVVCGFGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMEGYEVKQLDTVVDNADIIITTTGNFGIVRGEHFEKMKDKTIVCNIGHFDNEIDMAWLNKNHGATKVEIKPQVDKYNVNGNDIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWVHSDKYENKVYTLPKHLDEKVAALHLKKLGVELETLSEEQAKYIGVTVDGPFKPDYYRY QYVPYKVKDISLAEWGRKEIELAEAEMPGLMAIREEYGPQQPLKGARIAGCLHMTIQTAVLIETLVALGADVTWSSCNIFSTQDHAAAAIAAAGIPVYAWKGMNEEEFDWCIEQTLFFGEDRQPLNMILDDGGDLTNMVFDKYPELTKDIKGLSEETTTGVHRLYERMQNGTLVMPAINVNDSVTKSKFDNKYGCRESAVDAIRRATDVMLAGKRVVVCGFGDVGKGTAASFRGAGSIVTVTEIDPICALQAAMEGYEVKQLDTVVDNADIIITTTGNFGIVRGEHFEKMKDKTIVCNIGHFDNEIDMAWLNKNHGATKVEIKPQVDKYNVNGNDIIILAEGRLVNLGCATGHPSFVMSNSFSNQTLAQIELWVHSDKYENKVYTLPKHLDEKVAALHLKKLGVELETLSEEQAKYIGVTVDGPFKPDYYRY 6aq3-a3-m1-cF_6aq3-a3-m1-cE Crystal structure of a trafficking protein particle complex subunit 3 from Naegleria fowleri covalently bound to palmitic acid A0A2D0TCJ8 A0A2D0TCJ8 2.4 X-RAY DIFFRACTION 85 0.994 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 169 171 6aq3-a1-m1-cA_6aq3-a1-m1-cC 6aq3-a2-m1-cD_6aq3-a2-m1-cB NKIEKINSELLAMTYGSLVTQMLKDYEDVAAINTQLEKMGYKMGMRLIDEFMSKSGLSSGACREFKDTAESIAKVAFKMFLGINANVTNWSKDQTEYSIVFDENPLNDFVELPEPIKQKRLYYSNIICGVIRGALEMVLMRVECEYKKCPLLGDDQSEIRVRLKEYLRE KIEKINSELLAMTYGSLVTQMLKDYEDVAAINTQLEKMGYKMGMRLIDEFMSKSGLSSGACREFKDTAESIAKVAFKMFLGINANVTNWSKDQTEYSIVFDENPLNDFVELPEPIKQKRLYYSNIICGVIRGALEMVLMRVECEYKKCPLLGDDQSEIRVRLKEYLRETVP 6aqb-a1-m1-cA_6aqb-a1-m2-cB Structure of the SH3 domain of MLK3 bound to peptide generated from phage display Q16584 Q16584 1.5 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 70 PVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGAPPIPPPR PVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGAPPIPPPR 6aqh-a6-m1-cD_6aqh-a6-m1-cB Crystal Structure of Lysyl-tRNA Synthetase from Mycobacterium thermoresistibile complexed with L-lysine and Cladosporin G7CF12 G7CF12 2.35 X-RAY DIFFRACTION 285 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 489 490 6aqh-a5-m1-cA_6aqh-a5-m1-cC DLPEQFRIRQAKRADLLAQGRQPYPVDVPRTHTLLEIRQAYPDLPVDARTGEIVGVTGRVVFARNSGKLCFATLQEGDGTQLQAMISLAEVGQEALDNWKTYVDIGDIVFVHGEVITSKRGELSVLADSWQMAAKALRPLPVAHKEMSEESRVRQRYVDLIVRDQARKVARQRIAVMRAIRSALERRGFLEVETPMLQTLAGGAAARPFVTHSNALDTELYLRIAPELFLKRCLVGGFERVFELNRVFRNEGADSTHSPEFVMLETYQAYGTYDDSAVVTRELIQEVADEAIGTRQVPLPDGTVYDLDGEWESIQMYPSLSEALGEEITPDTPAETLWAIADRLGLDIPRDRGYGHGKLVEELWEHTVGAKLWAPTFVKDFPVETTPLTRSHRSIPGVTEKWDLYVRRIELATGYSELTDPIIQRERFEAQARAAAAGDDEAMALDEDFLAALEYGMPPSTGTGMGIDRLMMTLTGLSIRETVLFPIVK PDLPEQFRIRQAKRADLLAQGRQPYPVDVPRTHTLLEIRQAYPDLPVDARTGEIVGVTGRVVFARNSGKLCFATLQEGDGTQLQAMISLAEVGQEALDNWKTYVDIGDIVFVHGEVITSKRGELSVLADSWQMAAKALRPLPVAHKEMSEESRVRQRYVDLIVRDQARKVARQRIAVMRAIRSALERRGFLEVETPMLQTLAGGAAARPFVTHSNALDTELYLRIAPELFLKRCLVGGFERVFELNRVFRNEGADSTHSPEFVMLETYQAYGTYDDSAVVTRELIQEVADEAIGTRQVPLPDGTVYDLDGEWESIQMYPSLSEALGEEITPDTPAETLWAIADRLGLDIPRDRGYGHGKLVEELWEHTVGAKLWAPTFVKDFPVETTPLTRSHRSIPGVTEKWDLYVRRIELATGYSELTDPIIQRERFEAQARAAAAGDDEAMALDEDFLAALEYGMPPSTGTGMGIDRLMMTLTGLSIRETVLFPIVK 6aqj-a1-m1-cA_6aqj-a1-m1-cB Crystal structures of Staphylococcus aureus ketol-acid reductoisomerase in complex with two transition state analogs that have biocidal activity. Q2YUF3 Q2YUF3 1.373 X-RAY DIFFRACTION 451 1.0 273036 (Staphylococcus aureus RF122) 273036 (Staphylococcus aureus RF122) 326 326 5w3k-a1-m1-cA_5w3k-a1-m1-cB 6bul-a1-m1-cA_6bul-a1-m1-cB 6c55-a1-m1-cA_6c55-a1-m1-cB 6c5n-a1-m1-cA_6c5n-a1-m1-cB 6vo2-a1-m1-cA_6vo2-a1-m1-cB 7ke2-a1-m1-cA_7ke2-a1-m1-cB 7kh7-a1-m1-cA_7kh7-a1-m1-cB TTVYYDQDVKTDALQGKKIAVVGYGSQGHAHAQNLKDNGYDVVIGIRPGRSFDKAKEDGFDVFPVAEAVKQADVIMVLLPDEIQGDVYKNEIEPNLEKHNALAFAHGFNIHFGVIQPPADVDVFLVAPKGPGHLVRRTFVEGSAVPSLFGIQQDASGQARNIALSYAKGIGATRAGVIETTFKEETETDLFGEQAVLCGGVSKLIQSGFETLVEAGYQPELAYFEVLHEMKLIVDLMYEGGMENVRYSISNTAEFGDYVSGPRVITPDVKENMKAVLTDIQNGNFSNRFIEDNKNGFKEFYKLREEQHGHQIEKVGRELREMMPFI TTVYYDQDVKTDALQGKKIAVVGYGSQGHAHAQNLKDNGYDVVIGIRPGRSFDKAKEDGFDVFPVAEAVKQADVIMVLLPDEIQGDVYKNEIEPNLEKHNALAFAHGFNIHFGVIQPPADVDVFLVAPKGPGHLVRRTFVEGSAVPSLFGIQQDASGQARNIALSYAKGIGATRAGVIETTFKEETETDLFGEQAVLCGGVSKLIQSGFETLVEAGYQPELAYFEVLHEMKLIVDLMYEGGMENVRYSISNTAEFGDYVSGPRVITPDVKENMKAVLTDIQNGNFSNRFIEDNKNGFKEFYKLREEQHGHQIEKVGRELREMMPFI 6aqu-a1-m1-cA_6aqu-a1-m1-cB Crystal Structure of Plasmodium falciparum purine nucleoside phosphorylase: The M183L mutant Q8I3X4 Q8I3X4 2.6 X-RAY DIFFRACTION 78 0.995 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 219 223 NLLRHLKISKEQITPVVLVVGDPGRVDKIKVVCDSYVDLAYNREYKSVECHYKGQKFLCVSHGVGCAVCFEELCQNGAKVIIRAGSCGSLQPDLIKRGDICICNAAVREDRVSHLLIHGDFPAVGDFDVYDTLNKCAQELNVPVFNGISVSSDMYSRLEDYSKANAAVVELELATLMVIGTLRKVKTGGILIVDGCPHQLENMIKIALGACAKLATKYA NLLRHLKISKEQITPVVLVVGDPGRVDKIKVVCDSYVDLAYNREYKSVECHYKGQKFLCVSHGVGSAGCAVCFEELCQNGAKVIIRAGSCGSLQPDLIKRGDICICNAAVREDRVSHLLIHGDFPAVGDFDVYDTLNKCAQELNVPVFNGISVSSDMPSRLEDYSKANAAVVELELATLMVIGTLRKVKTGGILIVDGCPPHQLENMIKIALGACAKLATKYA 6aqz-a1-m1-cB_6aqz-a1-m1-cA Crystal structure of a gdp-l-fucose synthetase from Naegleria fowleri bound to NADP A0A2D0TCK0 A0A2D0TCK0 2.4 X-RAY DIFFRACTION 69 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 323 334 6aqy-a1-m1-cB_6aqy-a1-m1-cA 6aqy-a2-m1-cD_6aqy-a2-m1-cC 6aqy-a3-m1-cF_6aqy-a3-m1-cE 6aqz-a2-m1-cD_6aqz-a2-m1-cC REVSDQPITLTQDDVILVTGGTGLFGKAVEHIVKKEQIKGKWVFLGSKDGDLRDADACKQPFEKYRPTYVIHLAAFVNFKVSFWLDNVNMNNNILTCCYDFGVKKTISCLSTCVFPDKIEYPITEEKLHEGPPHFSNNAYAYAKRMLDMLGRWYNEKAVNEGKSCLFTSVIPTNLFGPHDNFNVEAGHVLPGLMHKCYKAQQNGTDFVVFGSGKPLRQFLYSHDAARMLLWTMFNYQSEEPIMLCVSEEDEKSIGQVAQTIKDAFNFTGNMVFDTSKADGQYKKTSSNAKFLRLNPTFQYTPFEQAIKETVQWFLENYETARK HMAQREVSDQPITLTQDDVILVTGGTGLFGKAVEHIVKKEQIKGKWVFLGSKDGDLRDADACKQPFEKYRPTYVIHLAAFVGGLFKNMNFKVSFWLDNVNMNNNILTCCYDFGVKKTISCLSTCVFPDKIEYPITEEKLHEGPPHFSNNAYAYAKRMLDMLGRWYNEKAVNEGKSCLFTSVIPTNLFGPHDNFNVEAGHVLPGLMHKCYKAQQNGTDFVVFGSGKPLRQFLYSHDAARMLLWTMFNYQSEEPIMLCVSEEDEKSIGQVAQTIKDAFNFTGNMVFDTSKADGQYKKTSSNAKFLRLNPTFQYTPFEQAIKETVQWFLENYETARK 6arh-a1-m1-cA_6arh-a1-m1-cD Crystal structure of Human NAL at a resolution of 1.6 Angstrom Q9BXD5 Q9BXD5 1.6 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 300 301 6arh-a1-m1-cC_6arh-a1-m1-cB KLQGLVAATITPMTENGEINFSVIGQYVDYLVKEQGVKNIFVNGTTGEGLSLSVSERRQVAEEWVTKGKDKLDQVIIHVGALSLKESQELAQHAAEIGADGIAVIAPFFLKPWTKDILINFLKEVAAAAPALPFYYYHIPALTGVKIRAEELLDGILDKIPTFQGLKFSDTDLLDFGQCVDQNRQQQFAFLFGVDEQLLSALVMGATGAVGSTYNYLGKKTNQMLEAFEQKDFSLALNYQFCIQRFINFVVKLGFGVSQTKAIMTLVSGIPMGPPRLPLQKASREFTDSAEAKLKSLDFL KKLQGLVAATITPMTENGEINFSVIGQYVDYLVKEQGVKNIFVNGTTGEGLSLSVSERRQVAEEWVTKGKDKLDQVIIHVGALSLKESQELAQHAAEIGADGIAVIAPFFLKPWTKDILINFLKEVAAAAPALPFYYYHIPALTGVKIRAEELLDGILDKIPTFQGLKFSDTDLLDFGQCVDQNRQQQFAFLFGVDEQLLSALVMGATGAVGSTYNYLGKKTNQMLEAFEQKDFSLALNYQFCIQRFINFVVKLGFGVSQTKAIMTLVSGIPMGPPRLPLQKASREFTDSAEAKLKSLDFL 6arh-a1-m1-cC_6arh-a1-m1-cD Crystal structure of Human NAL at a resolution of 1.6 Angstrom Q9BXD5 Q9BXD5 1.6 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 300 301 6arh-a1-m1-cA_6arh-a1-m1-cB KLQGLVAATITPMTENGEINFSVIGQYVDYLVKEQGVKNIFVNGTTGEGLSLSVSERRQVAEEWVTKGKDKLDQVIIHVGALSLKESQELAQHAAEIGADGIAVIAPFFLKPWTKDILINFLKEVAAAAPALPFYYYHIPALTGVKIRAEELLDGILDKIPTFQGLKFSDTDLLDFGQCVDQNRQQQFAFLFGVDEQLLSALVMGATGAVGSTYNYLGKKTNQMLEAFEQKDFSLALNYQFCIQRFINFVVKLGFGVSQTKAIMTLVSGIPMGPPRLPLQKASREFTDSAEAKLKSLDFL KKLQGLVAATITPMTENGEINFSVIGQYVDYLVKEQGVKNIFVNGTTGEGLSLSVSERRQVAEEWVTKGKDKLDQVIIHVGALSLKESQELAQHAAEIGADGIAVIAPFFLKPWTKDILINFLKEVAAAAPALPFYYYHIPALTGVKIRAEELLDGILDKIPTFQGLKFSDTDLLDFGQCVDQNRQQQFAFLFGVDEQLLSALVMGATGAVGSTYNYLGKKTNQMLEAFEQKDFSLALNYQFCIQRFINFVVKLGFGVSQTKAIMTLVSGIPMGPPRLPLQKASREFTDSAEAKLKSLDFL 6arx-a1-m1-cA_6arx-a1-m2-cB Crystal structure of an insecticide-resistant acetylcholinesterase mutant from the malaria vector Anopheles gambiae in the ligand-free state Q869C3 Q869C3 2.302 X-RAY DIFFRACTION 55 1.0 7165 (Anopheles gambiae) 7165 (Anopheles gambiae) 537 537 5x61-a1-m1-cA_5x61-a1-m2-cB 5ydh-a1-m1-cB_5ydh-a1-m2-cA 5ydi-a1-m1-cA_5ydi-a1-m2-cA 5ydi-a2-m1-cB_5ydi-a2-m1-cC 5ydj-a1-m1-cB_5ydj-a1-m2-cA 6ary-a1-m1-cA_6ary-a1-m2-cB NDPLVVNTDKGRIRGITVDAPSGKKVDVWLGIPYAQPPVGPLRFRHPRPAEKWTGVLNTTTPPNSCVQIVDTVFGDFPGATMWNPNTPLSEDCLYINVVAPRPRPKNAAVMLWIFGGSFYSGTATLDVYDHRALASEENVIVVSLQYRVASLGFLFLGTPEAPGNAGLFDQNLALRWVRDNIHRFGGDPSRVTLFGESAGAVSVSLHLLSALSRDLFQRAILQSGSPTAPWALVSREEATLRALRLAEAVGCPHEPSKLSDAVECLRGKDPHVLVNNEWGTLGICEFPFVPVVDGAFLDETPQRSLASGRFKKTEILTGSNTEEGYYFIIYYLTELLRKEEGVTVTREEFLQAVRELNPYVNGAARQAIVFEYTDWTEPDNPNSNRDALDKMVGDYHFTCNVNEFAQRYAEEGNNVYMYLYTHRSKGNPWPRWTGVMHGDEINYVFGEPLNPTLGYTEDEKDFSRKIMRYWSNFAKTGNPNPNTASSEFPEWPKHTAHGRHYLELGLNTSFVGRGPRLRQCAFWKKYLPQLVAATSN NDPLVVNTDKGRIRGITVDAPSGKKVDVWLGIPYAQPPVGPLRFRHPRPAEKWTGVLNTTTPPNSCVQIVDTVFGDFPGATMWNPNTPLSEDCLYINVVAPRPRPKNAAVMLWIFGGSFYSGTATLDVYDHRALASEENVIVVSLQYRVASLGFLFLGTPEAPGNAGLFDQNLALRWVRDNIHRFGGDPSRVTLFGESAGAVSVSLHLLSALSRDLFQRAILQSGSPTAPWALVSREEATLRALRLAEAVGCPHEPSKLSDAVECLRGKDPHVLVNNEWGTLGICEFPFVPVVDGAFLDETPQRSLASGRFKKTEILTGSNTEEGYYFIIYYLTELLRKEEGVTVTREEFLQAVRELNPYVNGAARQAIVFEYTDWTEPDNPNSNRDALDKMVGDYHFTCNVNEFAQRYAEEGNNVYMYLYTHRSKGNPWPRWTGVMHGDEINYVFGEPLNPTLGYTEDEKDFSRKIMRYWSNFAKTGNPNPNTASSEFPEWPKHTAHGRHYLELGLNTSFVGRGPRLRQCAFWKKYLPQLVAATSN 6as4-a1-m1-cB_6as4-a1-m1-cA Structure of a phage anti-CRISPR protein L7P7L6 L7P7L6 2 X-RAY DIFFRACTION 144 0.989 1223261 (Pseudomonas phage JBD5) 1223261 (Pseudomonas phage JBD5) 92 94 6arz-a1-m1-cB_6arz-a1-m1-cA 6arz-a2-m1-cC_6arz-a2-m2-cC 6as3-a1-m1-cC_6as3-a1-m1-cA 6as3-a2-m1-cB_6as3-a2-m1-cD 6as4-a2-m1-cC_6as4-a2-m2-cC EKKLSDAQVALVAAWRKYPDLRESLEEAASILSLIVFQAETLSDQANELANYIRRQGLEEAEGACRNIDIMRAKWVEVCGEVNQHGIRVYGD KKLSDAQVALVAAWRKYPDLRESLEEAASILSLIVFQAETLSDQANELANYIRRQGLEEAEGACRNIDIMRAKWVEVCGEVNQHGIRVYGDAID 6ask-a1-m1-cA_6ask-a1-m2-cA Crystal Structure of apo Flavin monooxygenase CmoJ (earlier YtnJ) O34974 O34974 1.69 X-RAY DIFFRACTION 205 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 430 430 1tvl-a1-m1-cA_1tvl-a1-m2-cA 1yw1-a1-m1-cA_1yw1-a1-m2-cA 6asl-a1-m1-cA_6asl-a1-m2-cA RADFIQFGAMIHGVGGTTDGWRHPDVDPSASTNIEFYMKKAQTAEKGLFSFIFIADGLFISEKSIPHFLNRFEPITILSALASVTKNIGLVGTFSTSFTEPFTISRQLMSLDHISGGRAGWNLVTSPQEGAARNHSKSNLPEHTERYEIAQEHLDVVRGLWNSWEHDAFIHNKKTGQFFDQAKLHRLNHKGKYFQVEGPLNIGRSKQGEPVVFQAGSSETGRQFAAKNADAIFTHSNSLEETKAFYADVKSRAADEGRDPSSVRIFPGISPIVADTEEEAEKKYREFAELIPIENAVTYLARFFDDYDLSVYPLDEPFPDIGDVGKNAFQSTTDRIKREAKARNLTLREVAQEMAFPRTLFIGTPERVASLIETWFNAEAADGFIVGSDIPGTLDAFVEKVIPILQERGLYRQDYRGGTLRENLGLGIPQ RADFIQFGAMIHGVGGTTDGWRHPDVDPSASTNIEFYMKKAQTAEKGLFSFIFIADGLFISEKSIPHFLNRFEPITILSALASVTKNIGLVGTFSTSFTEPFTISRQLMSLDHISGGRAGWNLVTSPQEGAARNHSKSNLPEHTERYEIAQEHLDVVRGLWNSWEHDAFIHNKKTGQFFDQAKLHRLNHKGKYFQVEGPLNIGRSKQGEPVVFQAGSSETGRQFAAKNADAIFTHSNSLEETKAFYADVKSRAADEGRDPSSVRIFPGISPIVADTEEEAEKKYREFAELIPIENAVTYLARFFDDYDLSVYPLDEPFPDIGDVGKNAFQSTTDRIKREAKARNLTLREVAQEMAFPRTLFIGTPERVASLIETWFNAEAADGFIVGSDIPGTLDAFVEKVIPILQERGLYRQDYRGGTLRENLGLGIPQ 6asy-a1-m1-cA_6asy-a1-m1-cB BiP-ATP2 P11021 P11021 1.85 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 606 606 SEDVGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFYEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLSGDQDTGDLVLLDVCPLTLGIETVGGVMTKLIPRNTVVPTKKSQIFSVGGTVTIKVYEGERPLTKDNHLLGTFDLTGIPPAPRGVPQIEVTFEIDVNGILRVTAEDKGTGNKNKITITNDQNRLTPEEIERMVNDAEKFAEEDKKLKERIDTRNELESYAYSLKNQIGDKEKLGGKLSSEDKETMEKAVEEKIEWLESHQDADIEDFKAKKKELEEIVQPIISK SEDVGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFYEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLSGDQDTGDLVLLDVCPLTLGIETVGGVMTKLIPRNTVVPTKKSQIFSVGGTVTIKVYEGERPLTKDNHLLGTFDLTGIPPAPRGVPQIEVTFEIDVNGILRVTAEDKGTGNKNKITITNDQNRLTPEEIERMVNDAEKFAEEDKKLKERIDTRNELESYAYSLKNQIGDKEKLGGKLSSEDKETMEKAVEEKIEWLESHQDADIEDFKAKKKELEEIVQPIISK 6at3-a1-m1-cB_6at3-a1-m1-cA E. coli phosphoenolpyruvate carboxykinase Y207F mutant bound to thiosulfate and oxaloacetate P22259 P22259 1.455 X-RAY DIFFRACTION 35 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 534 535 LTPQELEAYGISDVHDIVYNPSYDLLYQEELDPSLTGYERGVLTNLGAVAVDTGIFTGRSPKDKYIVRDDTTRDTFWWADKGKGKNDNKPLSPETWQHLKGLVTRQLSGKRLFVVDAFCGANPDTRLSVRFITEVAWQAHFVKNMFIRPSDEELAGFKPDFIVMNGAKCTNPQWKEQGLNSENFVAFNLTERMQLIGGTWFGGEMKKGMFSMMNYLLPLKGIASMHCSANVGEKGDVAVFFGLSGTGKTTLSTDPKRRLIGDDEHGWDDDGVFNFEGGCYAKTIKLSKEAEPEIYNAIRRDALLENVTVREDGTIDFDDGSKTENTRVSYPIYHIDNIVKPVSKAGHATKVIFLTADAFGVLPPVSRLTADQTQYHFLSGFTAKLAGTERGITEPTPTFSACFGAAFLSLHPTQYAEVLVKRMQAAGAQAYLVNTGWNGTGKRISIKDTRAIIDAILNGSLDNAETFTLPMFNLAIPTELPGVDTKILDPRNTYASPEQWQEKAETLAKLFIDNFDKYTDTPAGAALVAAGPKL LTPQELEAYGISDVHDIVYNPSYDLLYQEELDPSLTGYERGVLTNLGAVAVDTGIFTGRSPKDKYIVRDDTTRDTFWWADKGKGKNDNKPLSPETWQHLKGLVTRQLSGKRLFVVDAFCGANPDTRLSVRFITEVAWQAHFVKNMFIRPSDEELAGFKPDFIVMNGAKCTNPQWKEQGLNSENFVAFNLTERMQLIGGTWFGGEMKKGMFSMMNYLLPLKGIASMHCSANVGEKGDVAVFFGLSGTGKTTLSTDPKRRLIGDDEHGWDDDGVFNFEGGCYAKTIKLSKEAEPEIYNAIRRDALLENVTVREDGTIDFDDGSKTENTRVSYPIYHIDNIVKPVSKAGHATKVIFLTADAFGVLPPVSRLTADQTQYHFLSGFTAKLAGTERGITEPTPTFSACFGAAFLSLHPTQYAEVLVKRMQAAGAQAYLVNTGWNGTGKRISIKDTRAIIDAILNGSLDNAETFTLPMFNLAIPTELPGVDTKILDPRNTYASPEQWQEKAETLAKLFIDNFDKYTDTPAGAALVAAGPKLH 6at7-a2-m1-cB_6at7-a2-m2-cB Phenylalanine Ammonia-Lyase (PAL) from Sorghum bicolor C5XXT8 C5XXT8 2.493 X-RAY DIFFRACTION 33 1.0 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 671 671 6at7-a2-m1-cA_6at7-a2-m2-cA NGAIVESDPLNWGAAAAELSGSHLDEVKRMVAQARQPVVKIEGSTLRVGQVAAVASAKDASGVAVELDEEARPRVKASSEWILDCIAHGGDIYGVTTKDGPALQVELLRHLNAGIFGTGSDGHTLPSEVVRAAMLVRINTLLQGYSGIRFEILEAITKLLNTGVSPCLPLRGTITDLVPLSYIAGLITGRPNAQATTVDGRKVDAAEAFKIAGIEGGFFKLNPKEGLAIVNGTSVGSALAATVMYDANVLAVLSEVLSAIFCEVMNGKPEYTDHLTHKLKHHPGSIEAAAIMEHILDGSAFMKHAKKVNELDLKPKQDRYALRTSPQWLGPQIEVLRAATKSIEREVNSVNDNPVIDVHRGKALHGGNFQGTPIGVSMDNARLAIANIGKLMFAQFSELVNEFYNNGLTSNLAGSRNPSLDYGFKGTEIAMASYCSELQYLGNPITNHVQSAEQHNQDVNSLGLVSARKTAEAIDILKLMSSTYIVALCQAIDLRHLEENIKTSVKNTVTQVAKKVLTSEKELITAIDREGVFTYAEDPASASLPLMTKLRAVLVDHALSSGDEREPSVFSKITKFEEELRAVLPREVEAARVAVAEGTAPVANRIADSRSFPLYRFVREELGCVFLTGEKLKSPGEECTKVFNGINQGKLVDPMLECLKEWDGKPLPINV NGAIVESDPLNWGAAAAELSGSHLDEVKRMVAQARQPVVKIEGSTLRVGQVAAVASAKDASGVAVELDEEARPRVKASSEWILDCIAHGGDIYGVTTKDGPALQVELLRHLNAGIFGTGSDGHTLPSEVVRAAMLVRINTLLQGYSGIRFEILEAITKLLNTGVSPCLPLRGTITDLVPLSYIAGLITGRPNAQATTVDGRKVDAAEAFKIAGIEGGFFKLNPKEGLAIVNGTSVGSALAATVMYDANVLAVLSEVLSAIFCEVMNGKPEYTDHLTHKLKHHPGSIEAAAIMEHILDGSAFMKHAKKVNELDLKPKQDRYALRTSPQWLGPQIEVLRAATKSIEREVNSVNDNPVIDVHRGKALHGGNFQGTPIGVSMDNARLAIANIGKLMFAQFSELVNEFYNNGLTSNLAGSRNPSLDYGFKGTEIAMASYCSELQYLGNPITNHVQSAEQHNQDVNSLGLVSARKTAEAIDILKLMSSTYIVALCQAIDLRHLEENIKTSVKNTVTQVAKKVLTSEKELITAIDREGVFTYAEDPASASLPLMTKLRAVLVDHALSSGDEREPSVFSKITKFEEELRAVLPREVEAARVAVAEGTAPVANRIADSRSFPLYRFVREELGCVFLTGEKLKSPGEECTKVFNGINQGKLVDPMLECLKEWDGKPLPINV 6at7-a2-m2-cB_6at7-a2-m2-cA Phenylalanine Ammonia-Lyase (PAL) from Sorghum bicolor C5XXT8 C5XXT8 2.493 X-RAY DIFFRACTION 356 0.993 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 671 691 6at7-a1-m1-cB_6at7-a1-m1-cA 6at7-a2-m1-cB_6at7-a2-m1-cA NGAIVESDPLNWGAAAAELSGSHLDEVKRMVAQARQPVVKIEGSTLRVGQVAAVASAKDASGVAVELDEEARPRVKASSEWILDCIAHGGDIYGVTTKDGPALQVELLRHLNAGIFGTGSDGHTLPSEVVRAAMLVRINTLLQGYSGIRFEILEAITKLLNTGVSPCLPLRGTITDLVPLSYIAGLITGRPNAQATTVDGRKVDAAEAFKIAGIEGGFFKLNPKEGLAIVNGTSVGSALAATVMYDANVLAVLSEVLSAIFCEVMNGKPEYTDHLTHKLKHHPGSIEAAAIMEHILDGSAFMKHAKKVNELDLKPKQDRYALRTSPQWLGPQIEVLRAATKSIEREVNSVNDNPVIDVHRGKALHGGNFQGTPIGVSMDNARLAIANIGKLMFAQFSELVNEFYNNGLTSNLAGSRNPSLDYGFKGTEIAMASYCSELQYLGNPITNHVQSAEQHNQDVNSLGLVSARKTAEAIDILKLMSSTYIVALCQAIDLRHLEENIKTSVKNTVTQVAKKVLTSEKELITAIDREGVFTYAEDPASASLPLMTKLRAVLVDHALSSGDEREPSVFSKITKFEEELRAVLPREVEAARVAVAEGTAPVANRIADSRSFPLYRFVREELGCVFLTGEKLKSPGEECTKVFNGINQGKLVDPMLECLKEWDGKPLPINV ESDPLNWGAAAAELSGSHLDEVKRMVAQARQPVVKIEGSTLRVGQVAAVASAKDASGVAVELDEEARPRVKASSEWILDCIAHGGDIYGVTTGFGGTSHRRTKDGPALQVELLRHLNAGIFGTGSDGHTLPSEVVRAAMLVRINTLLQGYSGIRFEILEAITKLLNTGVSPCLPLRGTITDLVPLSYIAGLITGRPNAQATTVDGRKVDAAEAFKIAGIEGGFFKLNPKEGLAIVNGTSVGSALAATVMYDANVLAVLSEVLSAIFCEVMNGKPEYTDHLTHKLKHHPGSIEAAAIMEHILDGSAFMKHAKKVNELDPLLKPKQDRYALRTSPQWLGPQIEVLRAATKSIEREVNSVNDNPVIDVHRGKALHGGNFQGTPIGVSMDNARLAIANIGKLMFAQFSELVNEFYNNGLTSNLAGSRNPSLDYGFKGTEIAMASYCSELQYLGNPITNHVQSAEQHNQDVNSLGLVSARKTAEAIDILKLMSSTYIVALCQAIDLRHLEENIKTSVKNTVTQVAKKVLTMNPSGDLSSARFSEKELITAIDREGVFTYAEDPASASLPLMTKLRAVLVDHALSSGDAEREPSVFSKITKFEEELRAVLPREVEAARVAVAEGTAPVANRIADSRSFPLYRFVREELGCVFLTGEKLKSPGEECTKVFNGINQGKLVDPMLECLKEWDGKPLPINV 6at7-a3-m2-cB_6at7-a3-m1-cA Phenylalanine Ammonia-Lyase (PAL) from Sorghum bicolor C5XXT8 C5XXT8 2.493 X-RAY DIFFRACTION 265 0.993 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 671 691 6at7-a2-m1-cB_6at7-a2-m2-cA 6at7-a2-m2-cB_6at7-a2-m1-cA NGAIVESDPLNWGAAAAELSGSHLDEVKRMVAQARQPVVKIEGSTLRVGQVAAVASAKDASGVAVELDEEARPRVKASSEWILDCIAHGGDIYGVTTKDGPALQVELLRHLNAGIFGTGSDGHTLPSEVVRAAMLVRINTLLQGYSGIRFEILEAITKLLNTGVSPCLPLRGTITDLVPLSYIAGLITGRPNAQATTVDGRKVDAAEAFKIAGIEGGFFKLNPKEGLAIVNGTSVGSALAATVMYDANVLAVLSEVLSAIFCEVMNGKPEYTDHLTHKLKHHPGSIEAAAIMEHILDGSAFMKHAKKVNELDLKPKQDRYALRTSPQWLGPQIEVLRAATKSIEREVNSVNDNPVIDVHRGKALHGGNFQGTPIGVSMDNARLAIANIGKLMFAQFSELVNEFYNNGLTSNLAGSRNPSLDYGFKGTEIAMASYCSELQYLGNPITNHVQSAEQHNQDVNSLGLVSARKTAEAIDILKLMSSTYIVALCQAIDLRHLEENIKTSVKNTVTQVAKKVLTSEKELITAIDREGVFTYAEDPASASLPLMTKLRAVLVDHALSSGDEREPSVFSKITKFEEELRAVLPREVEAARVAVAEGTAPVANRIADSRSFPLYRFVREELGCVFLTGEKLKSPGEECTKVFNGINQGKLVDPMLECLKEWDGKPLPINV ESDPLNWGAAAAELSGSHLDEVKRMVAQARQPVVKIEGSTLRVGQVAAVASAKDASGVAVELDEEARPRVKASSEWILDCIAHGGDIYGVTTGFGGTSHRRTKDGPALQVELLRHLNAGIFGTGSDGHTLPSEVVRAAMLVRINTLLQGYSGIRFEILEAITKLLNTGVSPCLPLRGTITDLVPLSYIAGLITGRPNAQATTVDGRKVDAAEAFKIAGIEGGFFKLNPKEGLAIVNGTSVGSALAATVMYDANVLAVLSEVLSAIFCEVMNGKPEYTDHLTHKLKHHPGSIEAAAIMEHILDGSAFMKHAKKVNELDPLLKPKQDRYALRTSPQWLGPQIEVLRAATKSIEREVNSVNDNPVIDVHRGKALHGGNFQGTPIGVSMDNARLAIANIGKLMFAQFSELVNEFYNNGLTSNLAGSRNPSLDYGFKGTEIAMASYCSELQYLGNPITNHVQSAEQHNQDVNSLGLVSARKTAEAIDILKLMSSTYIVALCQAIDLRHLEENIKTSVKNTVTQVAKKVLTMNPSGDLSSARFSEKELITAIDREGVFTYAEDPASASLPLMTKLRAVLVDHALSSGDAEREPSVFSKITKFEEELRAVLPREVEAARVAVAEGTAPVANRIADSRSFPLYRFVREELGCVFLTGEKLKSPGEECTKVFNGINQGKLVDPMLECLKEWDGKPLPINV 6atl-a3-m1-cC_6atl-a3-m1-cA Exploring Cystine Dense Peptide Space to Open a Unique Molecular Toolbox P56219 P56219 1.8 X-RAY DIFFRACTION 30 1.0 6887 (Tityus serrulatus) 6887 (Tityus serrulatus) 36 37 SVVIGQRCYRSPDCYSACKKLVGKATGKCTNGRCDC GSVVIGQRCYRSPDCYSACKKLVGKATGKCTNGRCDC 6aty-a2-m2-cA_6aty-a2-m6-cA Exploring Cystine Dense Peptide Space to Open a Unique Molecular Toolbox P0CJ17 P0CJ17 1.8 X-RAY DIFFRACTION 16 1.0 172552 (Lychas mucronatus) 172552 (Lychas mucronatus) 38 38 6aty-a2-m1-cA_6aty-a2-m4-cA 6aty-a2-m3-cA_6aty-a2-m5-cA SISIGIKCSPSIDLCEGQCRIRKYFTGYCSGDTCHCSG SISIGIKCSPSIDLCEGQCRIRKYFTGYCSGDTCHCSG 6aty-a3-m1-cA_6aty-a3-m6-cA Exploring Cystine Dense Peptide Space to Open a Unique Molecular Toolbox P0CJ17 P0CJ17 1.8 X-RAY DIFFRACTION 13 1.0 172552 (Lychas mucronatus) 172552 (Lychas mucronatus) 38 38 6aty-a2-m1-cA_6aty-a2-m6-cA 6aty-a2-m2-cA_6aty-a2-m5-cA 6aty-a2-m3-cA_6aty-a2-m4-cA SISIGIKCSPSIDLCEGQCRIRKYFTGYCSGDTCHCSG SISIGIKCSPSIDLCEGQCRIRKYFTGYCSGDTCHCSG 6auj-a2-m1-cC_6auj-a2-m1-cB Crystal structure of thymidylate synthase from Elizabethkingia anophelis NUHP1 A0A077EAN3 A0A077EAN3 1.7 X-RAY DIFFRACTION 133 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 250 257 6auj-a1-m1-cA_6auj-a1-m2-cA MQNYLHLLQDILDNGSDKTDRTGTGTRSLFGYQLRYDLSKGFPLVTTKKVHLKSIIYELLWFLKGDTNIKYLKDNGVSIWDEWADENGDLGPVYGAQWRSWRGADNKVVDQISEVIDQIKKNPDSRRLIVSAWNVAEIPNMALAPHAMFQFYVADGKLSLQLYQRSADVFLGVPFNIASYALLLMMVAQVTGLQVGDYVHSFGDVHIYNNHFEQVNRQLSRDPKPLPVMKLNPDVKDIFDFKFEDFELLN HMQNYLHLLQDILDNGSDKTDRTGTGTRSLFGYQLRYDLSKGFPLVTTKKVHLKSIIYELLWFLKGDTNIKYLKDNGVSIWDEWADENGDLGPVYGAQWRSWRGADNKVVDQISEVIDQIKKNPDSRRLIVSAWNVAEIPNMALAPHAMFQFYVADGKLSLQLYQRSADVFLGVPFNIASYALLLMMVAQVTGLQVGDYVHSFGDVHIYNNHFEQVNRQLSRDPKPLPVMKLNPDVKDIFDFKFEDFELLNYDPHPG 6aun-a1-m1-cA_6aun-a1-m1-cB calcium-independent phospholipase A2 beta A0A3L7I2I8 A0A3L7I2I8 3.951 X-RAY DIFFRACTION 151 1.0 10029 (Cricetulus griseus) 10029 (Cricetulus griseus) 618 618 LVNFQQFSSQLPPFVEVLQHLSDPSWTVTHLAVESTENEEGCTPLHLACRKGDSEILVELVQYCHAQMDVTDNKGETAFHYAVQGDNSQVLQLLGKNASAGLNQVNKQGLTPLHLACQMGKQEMVRVLLLCNARCNVMGPSGFPIHTAMKFSQKGCAEMIISMDSSQIHSKDPRYGASPLHWAKNAEMARMLLKRGCDVDSTSAAGNTALHVAVMRNRFDCVMVLLTYGANAGTPGEHGNTPLHLAISKDNMEMIKALIVFGAEVDTPNDFGETPAFMASKISKQLQDLMPISPAFILSSMRDEKRIHDHLLCLDGGGVKGLVIIQLLIAIEKASGVATKDLFDWVAGTSTGGILALAILHSKSMAYMRGVYFRMKDEVFRGSRPYESGPLEEFLKREFGEHTKMTDVKKPKVMLTGTLSDRQPAELHLFRNYDAPEVIREPRFNQNINLKPPTQPADQLVWRAARSSGAAPTYFRPNGRFLDGGLLANNPTLDAMTEIHEYNQDMIRKGQGNKVKKLSIVVSLGTGRSPQVPVTCKELGKMVVDCCTDPDGRAVDRARAWSEMVGIQYFRLNPQLGSDIMLDEVNDAVLVNALWETEVYIYEHREEFQKLVQMLLSP LVNFQQFSSQLPPFVEVLQHLSDPSWTVTHLAVESTENEEGCTPLHLACRKGDSEILVELVQYCHAQMDVTDNKGETAFHYAVQGDNSQVLQLLGKNASAGLNQVNKQGLTPLHLACQMGKQEMVRVLLLCNARCNVMGPSGFPIHTAMKFSQKGCAEMIISMDSSQIHSKDPRYGASPLHWAKNAEMARMLLKRGCDVDSTSAAGNTALHVAVMRNRFDCVMVLLTYGANAGTPGEHGNTPLHLAISKDNMEMIKALIVFGAEVDTPNDFGETPAFMASKISKQLQDLMPISPAFILSSMRDEKRIHDHLLCLDGGGVKGLVIIQLLIAIEKASGVATKDLFDWVAGTSTGGILALAILHSKSMAYMRGVYFRMKDEVFRGSRPYESGPLEEFLKREFGEHTKMTDVKKPKVMLTGTLSDRQPAELHLFRNYDAPEVIREPRFNQNINLKPPTQPADQLVWRAARSSGAAPTYFRPNGRFLDGGLLANNPTLDAMTEIHEYNQDMIRKGQGNKVKKLSIVVSLGTGRSPQVPVTCKELGKMVVDCCTDPDGRAVDRARAWSEMVGIQYFRLNPQLGSDIMLDEVNDAVLVNALWETEVYIYEHREEFQKLVQMLLSP 6aw0-a1-m1-cB_6aw0-a1-m2-cA Crystal structure of CEACAM3 L44Q P40198 P40198 2.43 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 KLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSQIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSQIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY 6aw0-a2-m1-cA_6aw0-a2-m3-cA Crystal structure of CEACAM3 L44Q P40198 P40198 2.43 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSQIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSQIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY 6aw0-a2-m3-cB_6aw0-a2-m3-cA Crystal structure of CEACAM3 L44Q P40198 P40198 2.43 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 6aw0-a2-m1-cB_6aw0-a2-m1-cA KLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSQIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSQIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY 6aw1-a3-m1-cA_6aw1-a3-m2-cB Crystal structure of CEACAM3 P40198 P40198 2.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 6aw1-a3-m1-cB_6aw1-a3-m2-cA AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSLIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSLIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY 6aw1-a3-m1-cB_6aw1-a3-m2-cB Crystal structure of CEACAM3 P40198 P40198 2.1 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSLIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSLIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY 6aw1-a3-m2-cA_6aw1-a3-m2-cB Crystal structure of CEACAM3 P40198 P40198 2.1 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 4y8a-a1-m1-cA_4y8a-a1-m1-cB 6aw1-a3-m1-cA_6aw1-a3-m1-cB AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSLIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY AKLTIESMPLSVAEGKEVLLLVHNLPQHLFGYSWYKGERVDGNSLIVGYVIGTQQATPGAAYSGRETIYTNASLLIQNVTQNDIGFYTLQVIKSDLVNEEATGQFHVY 6awa-a1-m1-cA_6awa-a1-m1-cB 1.83 Angstrom Resolution Crystal Structure of Dihydrolipoyl Dehydrogenase from Pseudomonas putida in Complex with FAD and Adenosine-5'-monophosphate. Q88FB1 Q88FB1 1.83 X-RAY DIFFRACTION 253 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 475 475 5tr3-a1-m1-cA_5tr3-a1-m1-cB MTQKFDVVVIGAGPGGYVAAIKAAQLGLKTACIEKYTDAEGKLALGGTCLNVGCIPSKALLDSSWKYKEAKESFNVHGISTGEVKMDVAAMVGRKAGIVKNLTGGVATLFKANGVTSIQGHGKLLAGKKVEVTKADGTTEVIEAENVILASGSRPIDIPPAPVDQNVIVDSTGALEFQAVPKRLGVIGAGVIGLELGSVWARLGAEVTVLEALDTFLMAADTAVSKEAQKTLTKQGLDIKLGARVTGSKVNGNEVEVTYTNAEGEQKITFDKLIVAVGRRPVTTDLLASDSGVTIDERGYIFVDDYCATSVPGVYAIGDVVRGMMLAHKASEEGIMVVERIKGHKAQMNYDLIPSVIYTHPEIAWVGKTEQALKAEGVEVNVGTFPFAASGRAMAANDTGGFVKVIADAKTDRVLGVHVIGPSAAELVQQGAIAMEFGTSAEDLGMMVFSHPTLSEALHEAALAVNGGAIHVANR MTQKFDVVVIGAGPGGYVAAIKAAQLGLKTACIEKYTDAEGKLALGGTCLNVGCIPSKALLDSSWKYKEAKESFNVHGISTGEVKMDVAAMVGRKAGIVKNLTGGVATLFKANGVTSIQGHGKLLAGKKVEVTKADGTTEVIEAENVILASGSRPIDIPPAPVDQNVIVDSTGALEFQAVPKRLGVIGAGVIGLELGSVWARLGAEVTVLEALDTFLMAADTAVSKEAQKTLTKQGLDIKLGARVTGSKVNGNEVEVTYTNAEGEQKITFDKLIVAVGRRPVTTDLLASDSGVTIDERGYIFVDDYCATSVPGVYAIGDVVRGMMLAHKASEEGIMVVERIKGHKAQMNYDLIPSVIYTHPEIAWVGKTEQALKAEGVEVNVGTFPFAASGRAMAANDTGGFVKVIADAKTDRVLGVHVIGPSAAELVQQGAIAMEFGTSAEDLGMMVFSHPTLSEALHEAALAVNGGAIHVANR 6awl-a1-m1-cB_6awl-a1-m1-cA Crystal structure of human Coq9 O75208 O75208 2 X-RAY DIFFRACTION 51 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 191 217 DYESEEQLQHRILTAALEFVPAHGWTAEAIAEGAQSLGLSSAAASMFGKDGSELILHFVTQCNTRLTRVLEEEQKLVQLGQAEKRKTDQFLRDAVETRLRMLIPYIEHWPRALSILMLPHNIPSSLSLLTSMVDDMWHYAGDQSTDFNWYTRRAMLAAIYNTTELVMMQDSSPDFEDTWRFLENRVNDAMN SEEQLQHRILTAALEFVPAHGWTAEAIAEGAQSLGLSSAAASMFGKDGSELILHFVTQCNTRLTRVLEEEQKLVQLGQAEKRKTDQFLRDAVETRLRMLIPYIEHWPRALSILMLPHNIPSSLSLLTSMVDDMWHYAGDQSTDFNWYTRRAMLAAIYNTTELVMMQDSSPDFEDTWRFLENRVNDAMNMGHTAKQVKSTGEALVQGLMGAAVTLKNL 6awr-a1-m1-cA_6awr-a1-m1-cB Structure of PR 10 Allergen Ara h 8.01 in complex with ANS Q6VT83 Q6VT83 1.6 X-RAY DIFFRACTION 51 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 156 156 GVFTFEDEITSTVPPAKLYNAMKDADSITPKIIDDVKSVEIVEGNGGPGTIKKLTIVEDGETKFILHKVESIDEANYAYNYSVVGGVALPPTAEKITFETKLVEGPNGGSIGKLTLKYHTKGDAKPDEEELKKGKAKGEGLFRAIEGYVLANPTQY GVFTFEDEITSTVPPAKLYNAMKDADSITPKIIDDVKSVEIVEGNGGPGTIKKLTIVEDGETKFILHKVESIDEANYAYNYSVVGGVALPPTAEKITFETKLVEGPNGGSIGKLTLKYHTKGDAKPDEEELKKGKAKGEGLFRAIEGYVLANPTQY 6ax7-a1-m1-cB_6ax7-a1-m1-cA The crystal structure of a lysyl hydroxylase from Acanthamoeba polyphaga mimivirus Q5UQC3 Q5UQC3 2.002 X-RAY DIFFRACTION 44 0.99 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 194 195 6ax6-a1-m1-cA_6ax6-a1-m1-cB EVTLYDLPTRKEEWEKKYLHPEFLSHLQNFKDFDYTEICNDVYSFPLFTPAFCKEVIEVMDKANLWSKPTQDTQLYEVGLDKQWHYVVFNYVAPFVRHLYNNYKTKDINLAFVVKYDMERLAPHHDSSTYTLNIALNEYGKEYTAGGCEFIRHKFIWQGQKVGYATIHAGKLLAYHRALPITSGKRYILVSFVN EVTLYDLPTRKEEWEKKYLHPEFLSHLQNFKDFDYTEICNDVYSFPLFTPAFCKEVIEVMDKANLWSTQDTQLYEVGLDKQWHYVVFNYVAPFVRHLYNNYKTKDINLAFVVKYDMERQSELAPHHDSSTYTLNIALNEYGKEYTAGGCEFIRHKFIWQGQKVGYATIHAGKLLAYHRALPITSGKRYILVSFVN 6ayh-a1-m1-cA_6ayh-a1-m2-cA Salmonella enterica GusR 2.05 X-RAY DIFFRACTION 119 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 185 185 NKLTEPLPTRRILRAARQCFAENGFHSTSKTICKASDSPGTLYHHFPSKEALIEAIILEDQERALTHFREPLEGVGLVDYLVESTIAVTREDYAQRALVVEIAEGRNPQVAELTNKYHTIIASLVARFNDAQAKGEIGADVDKEAARLLLATTYGVLSDSSSAENARHVSFATTLRTMLTGLLKC NKLTEPLPTRRILRAARQCFAENGFHSTSKTICKASDSPGTLYHHFPSKEALIEAIILEDQERALTHFREPLEGVGLVDYLVESTIAVTREDYAQRALVVEIAEGRNPQVAELTNKYHTIIASLVARFNDAQAKGEIGADVDKEAARLLLATTYGVLSDSSSAENARHVSFATTLRTMLTGLLKC 6ayi-a2-m1-cD_6ayi-a2-m1-cC Escherichia coli GusR P0ACT6 P0ACT6 2.09 X-RAY DIFFRACTION 137 0.993 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 141 183 6ayi-a1-m1-cB_6ayi-a1-m1-cA SKEALIQAIILQDQERALARFREPIEGIHFVDYMVESIVSLTHEAFGQRALVVEIMAEGMRNPQVAAMLKNKHMTITEFVAQRMRDAQQKGEISPDINTAMTSRLLLDLTYGVLADIEAEDLAREASFAQGLRAMIGGILT PTRTRILNAAREIFSENGFHSASMKAICKSCAISPGTLYHHFISKEALIQAIILQDQERALARFREPIEGIHFVDYMVESIVSLTHEAFGQRALVVEIMAEGMRNPQVAAMLKNKHMTITEFVAQRMRDAQQKGEISPDINTAMTSRLLLDLTYGVLADIEAEDLAREASFAQGLRAMIGGIL 6az0-a1-m1-cB_6az0-a1-m1-cC Mitochondrial ATPase Protease YME1 B3LL85 B3LL85 3.4 ELECTRON MICROSCOPY 196 1.0 285006 (Saccharomyces cerevisiae RM11-1a) 285006 (Saccharomyces cerevisiae RM11-1a) 439 439 6az0-a1-m1-cA_6az0-a1-m1-cB 6az0-a1-m1-cA_6az0-a1-m1-cF 6az0-a1-m1-cC_6az0-a1-m1-cD 6az0-a1-m1-cD_6az0-a1-m1-cE 6az0-a1-m1-cE_6az0-a1-m1-cF KFDDVCGCDEARAELEEIVDFLKDPTKYESLGGKLPKGVLLTGPPGTGKTLLARATAGEAGVDFFFMSGSEFDEVYVGVGAKRIRDLFAQARSRAPAIIFIDQLDAIGGKRNPKDQAYAKQTLNQLLVELDGFSQTSGIIIIGATNFPEALDKALTRPGRFDKVVNVDLPDVRGRADILKHHMKKITLADNVDPTIIARGTPGLSGAELANLVNQAAVYACQKNAVSVDMSHFEWAKDKILMGAERKTMVLTDAARKATAFHEAGHAIMAKYTNGATPLYKATILPRGRALGITFQLPEMDKVDITKRECQARLDVCMGGKIAEELIYGKDNTTSGCGSDLQSATGTARAMVTQYGMSDDVGPVNLSEEWESWSNKIRDIADNEVIELLKDSEERARRLLTKKNVELHRLAQGLIEYETLDAHEIEQVCKGEKLAKLKT KFDDVCGCDEARAELEEIVDFLKDPTKYESLGGKLPKGVLLTGPPGTGKTLLARATAGEAGVDFFFMSGSEFDEVYVGVGAKRIRDLFAQARSRAPAIIFIDQLDAIGGKRNPKDQAYAKQTLNQLLVELDGFSQTSGIIIIGATNFPEALDKALTRPGRFDKVVNVDLPDVRGRADILKHHMKKITLADNVDPTIIARGTPGLSGAELANLVNQAAVYACQKNAVSVDMSHFEWAKDKILMGAERKTMVLTDAARKATAFHEAGHAIMAKYTNGATPLYKATILPRGRALGITFQLPEMDKVDITKRECQARLDVCMGGKIAEELIYGKDNTTSGCGSDLQSATGTARAMVTQYGMSDDVGPVNLSEEWESWSNKIRDIADNEVIELLKDSEERARRLLTKKNVELHRLAQGLIEYETLDAHEIEQVCKGEKLAKLKT 6az6-a1-m1-cB_6az6-a1-m1-cA Streptococcus agalactiae GntR X5K3J9 X5K3J9 1.909 X-RAY DIFFRACTION 108 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 200 203 LVEQTADRLLHLILEREYPVGAKLPNEYELAEDLDVGRSTIREAVRSLATRNILEVRQGSGTYISSKKGVSEDPLGFSLIKDTDRLTSDLFELRLLLEPRIAELVAYRITDDQLQLLEKLVGDIEDAVHAGDPKHLLLDVEFHSLAKYSGNIADSLLPVINQSIHLISDSLEAHREIIKAIREKNPVAAHDALHISVRRS LVEQTADRLLHLILEREYPVGAKLPNEYELAEDLDVGRSTIREAVRSLATRNILEVRQGSGTYISSKKGVSEDPLGFSLIKDTDRLTSDLFELRLLLEPRIAELVAYRITDDQLQLLEKLVGDIEDAVHAGDPKHLLLDVEFHSLAKYSGNIADSLLPVINQSIHLINKSDSLEAHREIIKAIREKNPVAAHDALHISVRRSA 6azh-a1-m1-cB_6azh-a1-m1-cA Clostridium perfringens putative fatty acid metabolism regulator 1.75 X-RAY DIFFRACTION 169 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 181 185 KAIFEAAINVFATSGYNGSTVDEIASKANVAKGTLYYNFKSKEEIFNFVISKGLEIWHEKLTDIENLEDEPIEKLKKLFKQFELLYENRAFFKVSQLWGKETRQDELRNKITEYIEGIERILKEAISKKQIRECDISLLAHSLFGSLISTSLYELSRDKEFNVNKVIDEITINILDGIVIK NRTKKAIFEAAINVFATSGYNGSTVDEIASKANVAKGTLYYNFKSKEEIFNFVISKGLEIWHEKLTDIENLEDEPIEKLKKLFKQFELLYENRAFFKVSQLWGKETRQDELRNKITEYIEGIERILKEAISKKQIRECDISLLAHSLFGSLISTSLYELSRDKEFNVNKVIDEITINILDGIVIK 6b04-a1-m1-cB_6b04-a1-m1-cA Crystal structure of CfFPPS2, a lepidopteran type-II farnesyl diphosphate synthase, complexed with [2-(1-methylpyridin-2-yl)-1-phosphono-ethyl]phosphonic acid (inhibitor 1b) Q1XAB1 Q1XAB1 1.83 X-RAY DIFFRACTION 134 1.0 7141 (Choristoneura fumiferana) 7141 (Choristoneura fumiferana) 338 341 6b02-a1-m1-cB_6b02-a1-m1-cA 6b04-a2-m1-cC_6b04-a2-m2-cC 6b06-a1-m1-cA_6b06-a1-m1-cB 6b06-a2-m1-cC_6b06-a2-m2-cC 6b07-a1-m1-cB_6b07-a1-m1-cA 6b07-a2-m1-cC_6b07-a2-m2-cC KKESFEDVLPSILNTITTNSELTEVPEVANWLKKVLEYNLAGGKKARGLTTLFAYEMLEKPENITEETIYLAKTLGWCVEILQGFLVMLDDIMDGSTTRRGVPCWYQLPEVGLAAVNDSSLMFSSIFYVLHAHFADKKIYTNLVELFNESLMHTSIGQHLDVTMRQKSDYSLFTIERYNAIVKYKTAYYTYQLPVCLGMLLANISDPVLHQKAEDMCLEIGKFFQIQDDYIDCYGDESLTGKMGTDIQEAKCSWLAVMALQRCSASQKIVFTTCYGSKEPAHIERIKELYKQLQLPELYAQEETRMYESLIKQAHGLPSELSPALFVRLIHMIYKRNH TKKESFEDVLPSILNTITTNSELTEVPEVANWLKKVLEYNLAGGKKARGLTTLFAYEMLEKPENITEETIYLAKTLGWCVEILQGFLVMLDDIMDGSTTRRGVPCWYQLPEVGLAAVNDSSLMFSSIFYVLHAHFADKKIYTNLVELFNESLMHTSIGQHLDVTMERRQKSDYSLFTIERYNAIVKYKTAYYTYQLPVCLGMLLANISDPVLHQKAEDMCLEIGKFFQIQDDYIDCYGDESLTGKMGTDIQEAKCSWLAVMALQRCSASQKIVFTTCYGSKEPAHIERIKELYKQLQLPELYAQEETRMYESLIKQAHGLPSELSPALFVRLIHMIYKRNH 6b17-a1-m1-cA_6b17-a1-m1-cB Design of a short thermally stable alpha-helix embedded in a macrocycle 1.25 X-RAY DIFFRACTION 11 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 TPRQARAARAAC TPRQARAARAAC 6b17-a1-m1-cA_6b17-a1-m1-cF Design of a short thermally stable alpha-helix embedded in a macrocycle 1.25 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 12 12 6b17-a1-m1-cB_6b17-a1-m1-cC 6b17-a1-m1-cD_6b17-a1-m1-cE TPRQARAARAAC TPRQARAARAAC 6b23-a1-m54-cc_6b23-a1-m9-cd Capsid protein and C-terminal part of CpmB protein in the Staphylococcus aureus pathogenicity island 1 80alpha-derived procapsid O54465 O54465 3.7 ELECTRON MICROSCOPY 17 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 33 33 6b23-a1-m10-cd_6b23-a1-m23-cc 6b23-a1-m11-cc_6b23-a1-m38-cd 6b23-a1-m11-cd_6b23-a1-m20-cc 6b23-a1-m12-cc_6b23-a1-m47-cd 6b23-a1-m12-cd_6b23-a1-m37-cc 6b23-a1-m13-cc_6b23-a1-m45-cd 6b23-a1-m13-cd_6b23-a1-m46-cc 6b23-a1-m14-cc_6b23-a1-m29-cd 6b23-a1-m14-cd_6b23-a1-m44-cc 6b23-a1-m15-cc_6b23-a1-m16-cd 6b23-a1-m15-cd_6b23-a1-m28-cc 6b23-a1-m16-cc_6b23-a1-m28-cd 6b23-a1-m17-cc_6b23-a1-m52-cd 6b23-a1-m17-cd_6b23-a1-m27-cc 6b23-a1-m18-cc_6b23-a1-m60-cd 6b23-a1-m18-cd_6b23-a1-m51-cc 6b23-a1-m19-cc_6b23-a1-m39-cd 6b23-a1-m19-cd_6b23-a1-m59-cc 6b23-a1-m1-cc_6b23-a1-m23-cd 6b23-a1-m1-cd_6b23-a1-m10-cc 6b23-a1-m20-cd_6b23-a1-m38-cc 6b23-a1-m21-cc_6b23-a1-m43-cd 6b23-a1-m21-cd_6b23-a1-m30-cc 6b23-a1-m22-cd_6b23-a1-m42-cc 6b23-a1-m24-cc_6b23-a1-m54-cd 6b23-a1-m24-cd_6b23-a1-m9-cc 6b23-a1-m25-cc_6b23-a1-m26-cd 6b23-a1-m25-cd_6b23-a1-m53-cc 6b23-a1-m26-cc_6b23-a1-m53-cd 6b23-a1-m27-cd_6b23-a1-m52-cc 6b23-a1-m29-cc_6b23-a1-m44-cd 6b23-a1-m2-cc_6b23-a1-m42-cd 6b23-a1-m2-cd_6b23-a1-m22-cc 6b23-a1-m30-cd_6b23-a1-m43-cc 6b23-a1-m31-cc_6b23-a1-m58-cd 6b23-a1-m31-cd_6b23-a1-m40-cc 6b23-a1-m32-cc_6b23-a1-m7-cd 6b23-a1-m32-cd_6b23-a1-m57-cc 6b23-a1-m33-cc_6b23-a1-m5-cd 6b23-a1-m33-cd_6b23-a1-m6-cc 6b23-a1-m34-cc_6b23-a1-m49-cd 6b23-a1-m34-cd_6b23-a1-m4-cc 6b23-a1-m35-cc_6b23-a1-m36-cd 6b23-a1-m35-cd_6b23-a1-m48-cc 6b23-a1-m36-cc_6b23-a1-m48-cd 6b23-a1-m37-cd_6b23-a1-m47-cc 6b23-a1-m39-cc_6b23-a1-m59-cd 6b23-a1-m3-cc_6b23-a1-m50-cd 6b23-a1-m3-cd_6b23-a1-m41-cc 6b23-a1-m40-cd_6b23-a1-m58-cc 6b23-a1-m41-cd_6b23-a1-m50-cc 6b23-a1-m45-cc_6b23-a1-m46-cd 6b23-a1-m4-cd_6b23-a1-m49-cc 6b23-a1-m51-cd_6b23-a1-m60-cc 6b23-a1-m55-cc_6b23-a1-m56-cd 6b23-a1-m55-cd_6b23-a1-m8-cc 6b23-a1-m56-cc_6b23-a1-m8-cd 6b23-a1-m57-cd_6b23-a1-m7-cc 6b23-a1-m5-cc_6b23-a1-m6-cd QEISSELQQSEQSKQKQYGTTLQNLAKQNRIIK QEISSELQQSEQSKQKQYGTTLQNLAKQNRIIK 6b2p-a1-m1-cA_6b2p-a1-m2-cA Dual Inhibition of the Essential Protein Kinases A and B in Mycobacterium tuberculosis P9WI81 P9WI81 3.01 X-RAY DIFFRACTION 40 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 255 255 PSHLSDRYELGEILGFGGMSEVHLARDLRLHRDVAVKVLRADLARDPSFYLRFRREAQNAAALNHPAIVAVYDTGEAETPAGPLPYIVMEYVDGVTLRDIVHTEGPMTPKRAIEVIADACQALNFSHQNGIIHRDVKPANIMISATNAVKVMDFGTAQYLSPEQARGDSVDARSDVYSLGCVLYEVLTGEPPFTGDSPVSVAYQHVREDPIPPSARHEGLSADLDAVVLKALAKNPENRYQTAAEMRADLVRVHN PSHLSDRYELGEILGFGGMSEVHLARDLRLHRDVAVKVLRADLARDPSFYLRFRREAQNAAALNHPAIVAVYDTGEAETPAGPLPYIVMEYVDGVTLRDIVHTEGPMTPKRAIEVIADACQALNFSHQNGIIHRDVKPANIMISATNAVKVMDFGTAQYLSPEQARGDSVDARSDVYSLGCVLYEVLTGEPPFTGDSPVSVAYQHVREDPIPPSARHEGLSADLDAVVLKALAKNPENRYQTAAEMRADLVRVHN 6b2q-a2-m1-cC_6b2q-a2-m1-cB Dual Inhibition of the Essential Protein Kinases A and B in Mycobacterium tuberculosis P9WI83 P9WI83 2.88 X-RAY DIFFRACTION 41 0.992 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 264 266 6b2q-a1-m1-cD_6b2q-a1-m1-cA PRVGVTLSGRYRLQRLIATGGMGQVWEAVDNRLGRRVAVKVLKSEFSSDPEFIERFRAEARTTAMLNHPGIASVHDYGESGRTAYLVMELVNGEPLNSVLKRTGRLSLRHALDMLEQTGRALQIAHAAGLVHRDVKPGNILITPTGQVKITDFGIAKAVGTAQYIAPEQALGHDASPASDVYSLGVVGYEAVSGKRPFAGDGALVAMKHIKEPPPPLPPDLPPNVRELIEITLVKNPAMRYRSGGPFADAVAAVRAGRRPPRPS PRVGVTLSGRYRLQRLIATGGMGQVWEAVDNRLGRRVAVKVLKSEFSSDPEFIERFRAEARTTAMLNHPGIASVHDYGESTAYLVMELVNGEPLNSVLKRTGRLSLRHALDMLEQTGRALQIAHAAGLVHRDVKPGNILITPTGQVKITDFGIAKAVGMVMGTAQYIAPEQALGHDASPASDVYSLGVVGYEAVSGKRPFAGDGALVAMKHIKEPPPPLPPDLPPNVRELIEITLVKNPAMRYRSGGPFADAVAAVRAGRRPPRPS 6b3i-a2-m1-cC_6b3i-a2-m2-cC Annexin A13a P27216 P27216 2.6 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 304 304 6b3i-a1-m1-cB_6b3i-a1-m1-cA GFDVDRDAKKLNKACKGMGTNEAAIIEILSGRTSDERQQIKQKYKATYGKELEEVLKSELSGNFEKTALALLDHPSEYAARQLQKAMKGLGTDESVLIEVLCTRTNKEIIAIKEAYQRLFDRSLESDVKGDTSGNLKKILVSLLQANRNEGDDVDKDLAGQDAKDLYDAGEGRWGTDELAFNEVLAKRSYKQLRATFQAYQILIGKDIEEAIEEETSGDLQKAYLTLVRCAQDCEDYFAERLYKSMKGAGTDEETLIRIIVTRAEVDLQGIKAKFQEKYQKSLSDMVRSDTSGDFRKLLVALLH GFDVDRDAKKLNKACKGMGTNEAAIIEILSGRTSDERQQIKQKYKATYGKELEEVLKSELSGNFEKTALALLDHPSEYAARQLQKAMKGLGTDESVLIEVLCTRTNKEIIAIKEAYQRLFDRSLESDVKGDTSGNLKKILVSLLQANRNEGDDVDKDLAGQDAKDLYDAGEGRWGTDELAFNEVLAKRSYKQLRATFQAYQILIGKDIEEAIEEETSGDLQKAYLTLVRCAQDCEDYFAERLYKSMKGAGTDEETLIRIIVTRAEVDLQGIKAKFQEKYQKSLSDMVRSDTSGDFRKLLVALLH 6b3o-a1-m1-cB_6b3o-a1-m1-cC Tectonic conformational changes of a coronavirus spike glycoprotein promote membrane fusion P11224 P11224 4.1 ELECTRON MICROSCOPY 386 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 344 344 6b3o-a1-m1-cA_6b3o-a1-m1-cB 6b3o-a1-m1-cA_6b3o-a1-m1-cC QSVDGLYEMQIPTNFTIGHHEEFIQTRSPKVTIDCAAFVCGDNTACRQQLVEYGSFCVNVNAILNEVMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAISASLQEILTRLEAVEAKAQIDRLINGRLTALNAYISKQLSDSTLIKVSAAQAIEKVNECVKSQTTRINFCGNGNHILSLVQNAPYGLYFIHFSYVPISFTTANVSPGLCISGDRGLAPKAGYFVQDDGEWKFTGSSYYYPEPITDKNSVIMSSCAVNYTKAPEVFLNTSIPNPPDFKEELDKWFKNQTSIAPDLSLDFEKLNVTLLDLTYEMNRIQDAIKKLNES QSVDGLYEMQIPTNFTIGHHEEFIQTRSPKVTIDCAAFVCGDNTACRQQLVEYGSFCVNVNAILNEVMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAISASLQEILTRLEAVEAKAQIDRLINGRLTALNAYISKQLSDSTLIKVSAAQAIEKVNECVKSQTTRINFCGNGNHILSLVQNAPYGLYFIHFSYVPISFTTANVSPGLCISGDRGLAPKAGYFVQDDGEWKFTGSSYYYPEPITDKNSVIMSSCAVNYTKAPEVFLNTSIPNPPDFKEELDKWFKNQTSIAPDLSLDFEKLNVTLLDLTYEMNRIQDAIKKLNES 6b40-a1-m1-cA_6b40-a1-m1-cE BbRAGL-3'TIR synaptic complex with nicked DNA refined with C2 symmetry A0A185KID9 A0A185KID9 4.3 ELECTRON MICROSCOPY 64 1.0 7741 (Branchiostoma belcheri) 7741 (Branchiostoma belcheri) 553 553 SCMTPEECLGMRLDMLMTKNQYSKEYNILKERGFSTLCPPKQLDAIEKTLMPGTARYSLEPDSVTMDFHEYVPDFPCPNTKGVRFPYAHAVAKTLEELEDEIVNGLKKLGRDPNDPTLVIHTICKDGADGMGDVSVHKEKSDHLLPDKALRFSFCVLRCSVMHKDTEVTIYEDPNPNSVRSNRPVLECIGDENDDGTVAVCVGPIECQRLLMKDKIMRVHMSDGTQRAHYLTFFNSMVDEKWDRAHGGLAGAGSKYLCTLCEAVRDEALEKAGSYKITRTLKKIEVTASKMKYESQEKDTFGVKGYPLLTTEPWERGIDATHTDINMGNYFKSLIVREMAQVHSWAKTANVKKQIVDAESKLDKHLKESLGLNPTLMMAGNYARELFKAEHADKLVALVDKPDRKSALVEVLAKFRQLRKVYRANWPLNDMSDEVRQYKAKAVEMANDLKTHFPYAPCTNYLHKVIEHVQELIEHPSGVGSVGALSSEGNEAGNKLFRQLRLGHARKGNTYNGLRDVLCTHWLYTSKTLRDKAAXXXXXXXXXXXXXXXXXXX SCMTPEECLGMRLDMLMTKNQYSKEYNILKERGFSTLCPPKQLDAIEKTLMPGTARYSLEPDSVTMDFHEYVPDFPCPNTKGVRFPYAHAVAKTLEELEDEIVNGLKKLGRDPNDPTLVIHTICKDGADGMGDVSVHKEKSDHLLPDKALRFSFCVLRCSVMHKDTEVTIYEDPNPNSVRSNRPVLECIGDENDDGTVAVCVGPIECQRLLMKDKIMRVHMSDGTQRAHYLTFFNSMVDEKWDRAHGGLAGAGSKYLCTLCEAVRDEALEKAGSYKITRTLKKIEVTASKMKYESQEKDTFGVKGYPLLTTEPWERGIDATHTDINMGNYFKSLIVREMAQVHSWAKTANVKKQIVDAESKLDKHLKESLGLNPTLMMAGNYARELFKAEHADKLVALVDKPDRKSALVEVLAKFRQLRKVYRANWPLNDMSDEVRQYKAKAVEMANDLKTHFPYAPCTNYLHKVIEHVQELIEHPSGVGSVGALSSEGNEAGNKLFRQLRLGHARKGNTYNGLRDVLCTHWLYTSKTLRDKAAXXXXXXXXXXXXXXXXXXX 6b4o-a2-m1-cC_6b4o-a2-m1-cD 1.73 Angstrom Resolution Crystal Structure of Glutathione Reductase from Enterococcus faecalis in Complex with FAD Q82Z09 Q82Z09 1.73 X-RAY DIFFRACTION 264 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 449 450 6b4o-a1-m1-cB_6b4o-a1-m1-cA MKTYDYIVIGGGSGGIASANRAGMHGANVLLIEGNEIGGTCVNVGCVPKKVMWQASSMMEMMERDTAGYGFDVEIKNFSFKQLVENREKYIDFLHGAYNRGLDSNNIERIHGYATFTGEQTIEVNGTEYTAPHILIATGGRPKKLGIPGEEYALDSNGFFALEEMPKRVVFVGAGYIAAELAGTLHGLGAETHWAFRHERPLRSFDDMLSEKVVERYQEMGMQIHPNATPAKIEKTAQNEYVITFENGESITTDAVIFGTGRQPNTDQLGLENTKVALDEKGYVKVDKFQNTTQNGIYAVGDVIGKIDLTPVAIAAGRRLSERLFNGQTDLYLDYNLVPTVVFTHPPVATIGLTEKAALEEYGEDQVKIYRSSFTPMYFALGEYRQKCDMKLICVGKEEKIVGLHGIGIGVDEMLQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR AMKTYDYIVIGGGSGGIASANRAGMHGANVLLIEGNEIGGTCVNVGCVPKKVMWQASSMMEMMERDTAGYGFDVEIKNFSFKQLVENREKYIDFLHGAYNRGLDSNNIERIHGYATFTGEQTIEVNGTEYTAPHILIATGGRPKKLGIPGEEYALDSNGFFALEEMPKRVVFVGAGYIAAELAGTLHGLGAETHWAFRHERPLRSFDDMLSEKVVERYQEMGMQIHPNATPAKIEKTAQNEYVITFENGESITTDAVIFGTGRQPNTDQLGLENTKVALDEKGYVKVDKFQNTTQNGIYAVGDVIGKIDLTPVAIAAGRRLSERLFNGQTDLYLDYNLVPTVVFTHPPVATIGLTEKAALEEYGEDQVKIYRSSFTPMYFALGEYRQKCDMKLICVGKEEKIVGLHGIGIGVDEMLQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR 6b4p-a3-m1-cB_6b4p-a3-m1-cA Crystal Structure of Peptidylprolyl Isomerase from Naegleria fowleri A0A2H4A315 A0A2H4A315 1.55 X-RAY DIFFRACTION 48 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 115 117 TDWIPISQDQRLKKKIITASDEQPPIGSKVSVHYTGTLTSGKKFDSSLDRGQPFVFTLGKGEVIRGWDLGVKSMKKGEKSYFEIPSDYAYGNNAIPGLIPANSTLMFEIELLSWK TDWIPISQDQRLKKKIITAGSSDEQPPIGSKVSVHYTGTLTSGKKFDSSLDRGQPFVFTLGKGEVIRGWDLGVKSMKKGEKSYFEIPSDYAYGNNAIPGLIPANSTLMFEIELLSWK 6b4r-a1-m1-cB_6b4r-a1-m1-cD The crystal structure of the aldehyde dehydrogenase KauB from Pseudomonas aeruginosa Q9HTP2 Q9HTP2 2.55 X-RAY DIFFRACTION 73 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 495 495 6b4r-a1-m1-cC_6b4r-a1-m1-cA TLTRADWEARAKDLKIEGRAFVNGEYSNAASGETFDCLSPVDGRFLAKVASCDLADAEQAVKVARNAFDSGAWSRLAPAKRKQTMIRFADLLLENAEELALLETLDMGKPISDSLHIDVASAANSLRWSAEAIDKIYDEVAATPHAELGLVTREPVGVVAAIVPWNFPLLMSCWKLGPALATGNSVILKPSEKSPLTAIRIAQLAVEAGIPKGVFNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMVYAGESNMKRVWLEAGGKSPNIVFADAPDLKAAAEAAAGAIAFNQGEVCTAGSRLLVERSIKDKFLPLVIEALKGWKPGNPLDPETNVGALVDTQQMNTVLSYIEAGHNDGAKLVAGGKRTLEETGGTYVEPTIFDGVTNAMKIAREEIFGPVLSVIEFEDAEEAVRIANDTPYGLAAAVWTSNLSKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL TLTRADWEARAKDLKIEGRAFVNGEYSNAASGETFDCLSPVDGRFLAKVASCDLADAEQAVKVARNAFDSGAWSRLAPAKRKQTMIRFADLLLENAEELALLETLDMGKPISDSLHIDVASAANSLRWSAEAIDKIYDEVAATPHAELGLVTREPVGVVAAIVPWNFPLLMSCWKLGPALATGNSVILKPSEKSPLTAIRIAQLAVEAGIPKGVFNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMVYAGESNMKRVWLEAGGKSPNIVFADAPDLKAAAEAAAGAIAFNQGEVCTAGSRLLVERSIKDKFLPLVIEALKGWKPGNPLDPETNVGALVDTQQMNTVLSYIEAGHNDGAKLVAGGKRTLEETGGTYVEPTIFDGVTNAMKIAREEIFGPVLSVIEFEDAEEAVRIANDTPYGLAAAVWTSNLSKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL 6b4r-a1-m1-cC_6b4r-a1-m1-cD The crystal structure of the aldehyde dehydrogenase KauB from Pseudomonas aeruginosa Q9HTP2 Q9HTP2 2.55 X-RAY DIFFRACTION 162 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 494 495 6b4r-a1-m1-cB_6b4r-a1-m1-cA TLTRADWEARAKDLKIEGRAFVNGEYSNAASGETFDCLSPVDGRFLAKVASCDLADAEQAVKVARNAFDSGAWSRLAPAKRKQTMIRFADLLLENAEELALLETLDMGKPISDSLHIDVASAANSLRWSAEAIDKIYDEVAATPHAELGLVTREPVGVVAAIVPWNFPLLMSCWKLGPALATGNSVILKPSEKSPLTAIRIAQLAVEAGIPKGVFNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMVYAGESNMKRVWLEAGGKSPNIVFADAPDLKAAAEAAAGAIAFNQGEVTAGSRLLVERSIKDKFLPLVIEALKGWKPGNPLDPETNVGALVDTQQMNTVLSYIEAGHNDGAKLVAGGKRTLEETGGTYVEPTIFDGVTNAMKIAREEIFGPVLSVIEFEDAEEAVRIANDTPYGLAAAVWTSNLSKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL TLTRADWEARAKDLKIEGRAFVNGEYSNAASGETFDCLSPVDGRFLAKVASCDLADAEQAVKVARNAFDSGAWSRLAPAKRKQTMIRFADLLLENAEELALLETLDMGKPISDSLHIDVASAANSLRWSAEAIDKIYDEVAATPHAELGLVTREPVGVVAAIVPWNFPLLMSCWKLGPALATGNSVILKPSEKSPLTAIRIAQLAVEAGIPKGVFNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMVYAGESNMKRVWLEAGGKSPNIVFADAPDLKAAAEAAAGAIAFNQGEVCTAGSRLLVERSIKDKFLPLVIEALKGWKPGNPLDPETNVGALVDTQQMNTVLSYIEAGHNDGAKLVAGGKRTLEETGGTYVEPTIFDGVTNAMKIAREEIFGPVLSVIEFEDAEEAVRIANDTPYGLAAAVWTSNLSKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL 6b4r-a1-m1-cD_6b4r-a1-m1-cA The crystal structure of the aldehyde dehydrogenase KauB from Pseudomonas aeruginosa Q9HTP2 Q9HTP2 2.55 X-RAY DIFFRACTION 42 0.998 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 495 496 6b4r-a1-m1-cC_6b4r-a1-m1-cB TLTRADWEARAKDLKIEGRAFVNGEYSNAASGETFDCLSPVDGRFLAKVASCDLADAEQAVKVARNAFDSGAWSRLAPAKRKQTMIRFADLLLENAEELALLETLDMGKPISDSLHIDVASAANSLRWSAEAIDKIYDEVAATPHAELGLVTREPVGVVAAIVPWNFPLLMSCWKLGPALATGNSVILKPSEKSPLTAIRIAQLAVEAGIPKGVFNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMVYAGESNMKRVWLEAGGKSPNIVFADAPDLKAAAEAAAGAIAFNQGEVCTAGSRLLVERSIKDKFLPLVIEALKGWKPGNPLDPETNVGALVDTQQMNTVLSYIEAGHNDGAKLVAGGKRTLEETGGTYVEPTIFDGVTNAMKIAREEIFGPVLSVIEFEDAEEAVRIANDTPYGLAAAVWTSNLSKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL MTTLTRADWEARAKDLKIEGRAFVNGEYSNAASGETFDCLSPVDGRFLAKVASCDLADAEQAVKVARNAFDSGAWSRLAPAKRKQTMIRFADLLLENAEELALLETLDMGKPISDSLHIDVASAANSLRWSAEAIDKIYDEVAATPHAELGLVTREPVGVVAAIVPWNFPLLMSCWKLGPALATGNSVILKPSEKSPLTAIRIAQLAVEAGIPKGVFNVLPGYGHTVGKALALHMDVDTLVFTGSTKIAKQLMVYAGESNMKRVWLEAGGKSPNIVFADAPDLKAAAEAAAGAIAFNQGEVTAGSRLLVERSIKDKFLPLVIEALKGWKPGNPLDPETNVGALVDTQQMNTVLSYIEAGHNDGAKLVAGGKRTLEETGGTYVEPTIFDGVTNAMKIAREEIFGPVLSVIEFEDAEEAVRIANDTPYGLAAAVWTSNLSKAHLTAKALRAGSVWVNQYDGGDMTAPFGGFKQSGNGRDKSLHAFDKYTELKATWIKL 6b4s-a1-m2-cB_6b4s-a1-m3-cB Crystal Structure of Brazil nut (Bertholletia excelsa) allergen Ber e 2 Q84ND2 Q84ND2 2.035 X-RAY DIFFRACTION 169 1.0 3645 (Bertholletia excelsa) 3645 (Bertholletia excelsa) 351 351 6b4s-a1-m1-cA_6b4s-a1-m2-cA 6b4s-a1-m1-cA_6b4s-a1-m3-cA 6b4s-a1-m1-cB_6b4s-a1-m2-cB 6b4s-a1-m1-cB_6b4s-a1-m3-cB 6b4s-a1-m2-cA_6b4s-a1-m3-cA ECRIQRLTAQEPQYRLEAEAGVSEVWDYTDQQFRCAGVAALRNTIRPQGLLLPVYTNAPKLYYVTQGRGILGVLMPGCPETFQSDQHQKVHHLKKGDIIAIPAGVALWCYNDGDEDLVTVLVQHTASDLNQLDQNPRHFFLAGNLADNVFKGFNMEALADVLGARKVRGQRGHIVRVVIRPICSATFIQNIDNPAEADFYNPRAGRLTTVNSLKVPILTFLQLSAMKGVLYENAMMAPLWRLNANSVVYAVRGEARVQIVDHRGETVFDDNLREGQMVVVPQNFVVVKQAGSRGFEWVVFNTNDNALFSTAAGRTSPLRGIPVGVLANAYRLSQEEARRIKLNRDEAVLFN ECRIQRLTAQEPQYRLEAEAGVSEVWDYTDQQFRCAGVAALRNTIRPQGLLLPVYTNAPKLYYVTQGRGILGVLMPGCPETFQSDQHQKVHHLKKGDIIAIPAGVALWCYNDGDEDLVTVLVQHTASDLNQLDQNPRHFFLAGNLADNVFKGFNMEALADVLGARKVRGQRGHIVRVVIRPICSATFIQNIDNPAEADFYNPRAGRLTTVNSLKVPILTFLQLSAMKGVLYENAMMAPLWRLNANSVVYAVRGEARVQIVDHRGETVFDDNLREGQMVVVPQNFVVVKQAGSRGFEWVVFNTNDNALFSTAAGRTSPLRGIPVGVLANAYRLSQEEARRIKLNRDEAVLFN 6b4s-a1-m3-cB_6b4s-a1-m3-cA Crystal Structure of Brazil nut (Bertholletia excelsa) allergen Ber e 2 Q84ND2 Q84ND2 2.035 X-RAY DIFFRACTION 96 1.0 3645 (Bertholletia excelsa) 3645 (Bertholletia excelsa) 351 364 6b4s-a1-m1-cB_6b4s-a1-m1-cA 6b4s-a1-m2-cB_6b4s-a1-m2-cA ECRIQRLTAQEPQYRLEAEAGVSEVWDYTDQQFRCAGVAALRNTIRPQGLLLPVYTNAPKLYYVTQGRGILGVLMPGCPETFQSDQHQKVHHLKKGDIIAIPAGVALWCYNDGDEDLVTVLVQHTASDLNQLDQNPRHFFLAGNLADNVFKGFNMEALADVLGARKVRGQRGHIVRVVIRPICSATFIQNIDNPAEADFYNPRAGRLTTVNSLKVPILTFLQLSAMKGVLYENAMMAPLWRLNANSVVYAVRGEARVQIVDHRGETVFDDNLREGQMVVVPQNFVVVKQAGSRGFEWVVFNTNDNALFSTAAGRTSPLRGIPVGVLANAYRLSQEEARRIKLNRDEAVLFN YECRIQRLTAQEPQYRLEAEAGVSEVWDYTDQQFRCAGVAALRNTIRPQGLLLPVYTNAPKLYYVTQGRGILGVLMPGCPETFQSDQHQKVHHLKKGDIIAIPAGVALWCYNDGDEDLVTVLVQHTASDLNQLDQNPRHFFLAGNLADNVFKGFNMEALADVLGFTETARKVRGEDDQRGHIVRVEQGLKVIRPICSATFIQNIDNPAEADFYNPRAGRLTTVNSLKVPILTFLQLSAMKGVLYENAMMAPLWRLNANSVVYAVRGEARVQIVDHRGETVFDDNLREGQMVVVPQNFVVVKQAGSRGFEWVVFNTNDNALFSTAAGRTSPLRGIPVGVLANAYRLSQEEARRIKLNRDEAVLFN 6b5f-a1-m1-cB_6b5f-a1-m1-cA Crystal structure of nicotinate mononucleotide-5,6-dimethylbenzimidazole phosphoribosyltransferase CobT from Yersinia enterocolitica A1JTP8 A1JTP8 1.95 X-RAY DIFFRACTION 149 1.0 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 393305 (Yersinia enterocolitica subsp. enterocolitica 8081) 336 344 GMQTLSSILRTIAPLDSKAMARATTRLDGLLKPQGSLGRLEQLAIQLAGMRGLYGHQVDRKQIIVMAADHGVYDEGVAISPRVVTMVQALNMVRGVTGVCVLAANAGAEVKIVDVGIDSDTLPGVIDMKVARGSGNIARGAAMTRQQAEDLLIASATLTLQQAAGGVKVFGVGELGMANTTPAAAMVSVFTDSDPELAVGPSEQLHHKVAVVRRAIETNQPDASDGIDVLAKVGGFDLVGMTGVMLGAAAAGLPVVLDGFLSYASALAACRIEAKVRDYLIPSHLSAEKGAVIALNHLQLEPYLQMGMRLGEGSGAALAMHLVDAACAMYNNMGSL QGMQTLSSILRTIAPLDSKAMARATTRLDGLLKPQGSLGRLEQLAIQLAGMRGLYGHQVDRKQIIVMAADHGVYDEGVAISPRVVTMVQALNMVRGVTGVCVLAANAGAEVKIVDVGIDSDTLPGVIDMKVARGSGNIARGAAMTRQQAEDLLIASATLTLQQAAGGVKVFGVGELGMANTTPAAAMVSVFTDSDPELAVGIGANFPSEQLHHKVAVVRRAIETNQPDASDGIDVLAKVGGFDLVGMTGVMLGAAAAGLPVVLDGFLSYASALAACRIEAKVRDYLIPSHLSAEKGAVIALNHLQLEPYLQMGMRLGEGSGAALAMHLVDAACAMYNNMGSLAE 6b6i-a2-m1-cC_6b6i-a2-m1-cD 2.4A resolution structure of human Norovirus GII.4 protease A0A0K2E2J2 A0A0K2E2J2 2.44 X-RAY DIFFRACTION 64 0.983 489821 (Norovirus GII.4) 489821 (Norovirus GII.4) 173 178 6b6i-a1-m1-cA_6b6i-a1-m1-cB 6b6i-a3-m1-cE_6b6i-a3-m1-cF 6b6i-a4-m1-cG_6b6i-a4-m1-cH 6nir-a1-m1-cA_6nir-a1-m1-cD 6nir-a2-m1-cB_6nir-a2-m1-cC APPSIWSRIVNFGSGWGFWVSPSLFITSTHVIPQGAKEFFGVPIKQIQVHKSGEFCRLRFPKPIRTDVTGMILEEGAPEGTVVTLLIKRSTGELMPLAARMGTHATMKIQGRTVGGQMGMLLTGSNAKSMDLGTTPGDAGCPYIYKRGNDYVVIGVHTAAARGGNTVICATQG SIWSRIVNFGSGWGFWVSPSLFITSTHVIPQGAKEFFGVPIKQIQVHKSGEFCRLRFPKPIRTDVTGMILEEGAPEGTVVTLLIKRSTGELMPLAARMGTHATMKIQGRTVGGQMGMLLTGSNAKSMDLGTTPGDAGCPYIYKRGNDYVVIGVHTAAARGGNTVICATQGGEGEATLE 6b72-a2-m1-cE_6b72-a2-m1-cC A novel HIV-1 Nef dimer interface induced by a single octyl-glucoside molecule P03407 P03407 3.2 X-RAY DIFFRACTION 68 1.0 11685 (HIV-1 M:B_ARV2/SF2) 11685 (HIV-1 M:B_ARV2/SF2) 119 122 6b72-a1-m1-cB_6b72-a1-m1-cA 6b72-a3-m1-cF_6b72-a3-m1-cD CAWLEAQEEEEVGFPVRPQVPLRPMTYKAALDISHFLKEKGGLEGLIWSQRRQEILDLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEVLVWRFDSKLAFHHMARELHPEYY CAWLEAQEEEEVGFPVRPQVPLRPMTYKAALDISHFLKEKGGLEGLIWSQRRQEILDLWIYHTQGYFPDWQNYTPGPGIRYPLTFGWCFKLVPVEEKEVLVWRFDSKLAFHHMARELHPEYY 6b79-a1-m3-cA_6b79-a1-m4-cB Curved pair of sheets formed from SOD1 residues 28-38 with familial mutation G37R. P00441 P00441 1.8 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 6b79-a1-m1-cA_6b79-a1-m2-cB KKVWGSIKRL KKVWGSIKRL 6b79-a1-m4-cA_6b79-a1-m4-cB Curved pair of sheets formed from SOD1 residues 28-38 with familial mutation G37R. P00441 P00441 1.8 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 6b79-a1-m1-cA_6b79-a1-m1-cB 6b79-a1-m2-cA_6b79-a1-m2-cB 6b79-a1-m3-cA_6b79-a1-m3-cB KKVWGSIKRL KKVWGSIKRL 6b7j-a1-m1-cB_6b7j-a1-m1-cA The crystal structure of 3-hydroxydecanoyl-(acyl carrier protein) dehydratase from Vibrio cholerae O1 biovar eltor str. N16961 A5F850 A5F850 1.44 X-RAY DIFFRACTION 119 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 173 174 AMQNKRDSYNREDLLASSQGELFGEGYPQLPAPNMLMMDRITKMSETEGEFGKGLILAELDITPDLWFFDCHFPGDPVMPGCLGLDAMWQLVGFFLGWVGGKGKGRALGVGEVKFTGQILPTAKKVTYEINMKRVVNRKLVMGLADGRVLVDGKEIYVAKDLKVGLFQDTSAF NAMQNKRDSYNREDLLASSQGELFGEGYPQLPAPNMLMMDRITKMSETEGEFGKGLILAELDITPDLWFFDCHFPGDPVMPGCLGLDAMWQLVGFFLGWVGGKGKGRALGVGEVKFTGQILPTAKKVTYEINMKRVVNRKLVMGLADGRVLVDGKEIYVAKDLKVGLFQDTSAF 6b7p-a1-m1-cA_6b7p-a1-m1-cB Crystal structure of Legionella effector sdeD (lpg2509) Q6RCQ7 Q6RCQ7 1.51 X-RAY DIFFRACTION 42 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 303 307 MPIILDSDVLEVAEYVYKTRLSQPYTEVGSEWEYNYKNPTATFAKGDGHNLQRYITIDGKQLHRPIHGLAHTMRTLMYSQLMYCSSKKQPSPHVCQDGRTIADLSELDLKKINIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEEYARKHLTHLFSEEEIRLYSRCIEDRVGDSFDGTPEGYIIHLSHMIDLMRCKSPVEVFLGVSGIVPTLIHLFGKQDGLDIMHYARGLFAATGEAVPYIDSSEWPHLGVDLSRVQRALSIVGDINVPGQEADSKKTAQAGFSVDGCYSALTSVPTPSWY MPIILDSDVLEVAEYVYKTRLSQPYTEVGSEWEYNYKNPTATFAKGDGHNLQRYITIDGKQLHRPIHGLAHTMRTLMYSQLMYCSSKKQPSPHVCQDGRTIADLSELDLKKINIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEEYARKHLTHLFSEEEIRLYSRCIEDRVGDSFDGTPEGYIIHLSHMIDLMRCKSPVEVFLGHSGVSGIVPTLIHLFGKQDGLDIMHYARGLFAATGEAVPYIDSSEWPHLGVDLSRVQRALSIVGDINVPGQEADSKKTAQAGFSVDGCYSALTSVPTPSWYE 6b82-a1-m1-cA_6b82-a1-m1-cB Zebra Fish CYP-450 17A1 Mutant Abiraterone Complex A0A8M1PIC7 A0A8M1PIC7 3.03 X-RAY DIFFRACTION 145 1.0 7955 (Danio rerio) 7955 (Danio rerio) 465 470 4r1z-a3-m1-cB_4r1z-a3-m1-cA RSPPSLPSLPIIGSLMSLVSDSPPHIFFQDLQKKYGDLYSLMMGSHKLLIVNNHHHAKEILIKKGKIFAGRPRTVTTDLLTRDGKDIAFADYSSTWKFHRKMVHGALCMFGEGSVSIEKIICREASSMCEVLTESQNLGPELTRAVTNVVCALCFNSSYKRGDAEFESMLQYSQGIVDTVAKDSLVDIFPWLQIFPNKDLRILRQCISIRDKLLQKKYEEHKVTYSDNVQRDLLDALLRAKRSSENNNSSTRDVGLTEDHVLMTVGEIFGAGVETTTTTLKWSIAYLVHNPQVQRKIQEELDSKIGKERHPQLSDRGNLPYLEATICEVMRIRPVSPLLIPHVALQDSSVGEYTVQKGTRVVINMWSLHHDEKEWKNPELFDPGRFLNEEGDGLCCPSGSYLPFGAGVRVCLGEALAKMELFLFLAWILQRFTLEMPTGQPLPDLQGKFGVVLQPKKFKVVAKVR RSPPSLPSLPIIGSLMSLVSDSPPHIFFQDLQKKYGDLYSLMMGSHKLLIVNNHHHAKEILIKKGKIFAGRPRTVTTDLLTRDGKDIAFADYSSTWKFHRKMVHGALCMFGEGSVSIEKIICREASSMCEVLTESQNSAVDLGPELTRAVTNVVCALCFNSSYKRGDAEFESMLQYSQGIVDTVAKDSLVDIFPWLQIFPNKDLRILRQCISIRDKLLQKKYEEHKVTYSDNVQRDLLDALLRAKRSSENNNSSTRDVGLTEDHVLMTVGEIFGAGVETTTTTLKWSIAYLVHNPQVQRKIQEELDSKIGKERHPQLSDRGNLPYLEATICEVMRIRPVSPLLIPHVALQDSSVGEYTVQKGTRVVINMWSLHHDEKEWKNPELFDPGRFLNEEGDGLCCPSGSYLPFGAGVRVCLGEALAKMELFLFLAWILQRFTLEMPTGQPLPDLQGKFGVVLQPKKFKVVAKVRA 6b87-a1-m1-cA_6b87-a1-m2-cA Crystal structure of transmembrane protein TMHC2_E 2.947 X-RAY DIFFRACTION 114 1.0 32630 (synthetic construct) 32630 (synthetic construct) 100 100 6b87-a2-m1-cB_6b87-a2-m3-cB 6b87-a3-m1-cC_6b87-a3-m1-cD TEIRELERSLRLQLVLAIFLLALLIVLLWLLQQLKELLRELERLQREGSSDEDVRELLREIKELVENIVYLVIIIMVLVLVIIALAVTQKYLVEELKRQD TEIRELERSLRLQLVLAIFLLALLIVLLWLLQQLKELLRELERLQREGSSDEDVRELLREIKELVENIVYLVIIIMVLVLVIIALAVTQKYLVEELKRQD 6b8h-a1-m1-ca_6b8h-a1-m1-cp Mosaic model of yeast mitochondrial ATP synthase monomer P00854 P00854 3.6 ELECTRON MICROSCOPY 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 249 249 6b2z-a1-m1-cM_6b2z-a1-m1-ca SPLDQFEIRTLFGLQSSFIDLSCLNLTTFSLYTIIVLLVITSLYTLTNNNNKIIGSRWLISQEAIYDTIMNMTKGQIGGKNWGLYFPMIFTLFMFIFIANLISMIPYSFALSAHLVFIISLSIVIWLGNTILGLYKHGWVFFSLFVPAGTPLPLVPLLVIIETLSYFARAISLGLRLGSNILAGHLLMVILAGLTFNFMLINLFTLVFGFVPLAMILAIMMLEFAIGIIQGYVWAILTASYLKDAVYLH SPLDQFEIRTLFGLQSSFIDLSCLNLTTFSLYTIIVLLVITSLYTLTNNNNKIIGSRWLISQEAIYDTIMNMTKGQIGGKNWGLYFPMIFTLFMFIFIANLISMIPYSFALSAHLVFIISLSIVIWLGNTILGLYKHGWVFFSLFVPAGTPLPLVPLLVIIETLSYFARAISLGLRLGSNILAGHLLMVILAGLTFNFMLINLFTLVFGFVPLAMILAIMMLEFAIGIIQGYVWAILTASYLKDAVYLH 6b8h-a1-m1-ci_6b8h-a1-m1-cw Mosaic model of yeast mitochondrial ATP synthase monomer P81450 P81450 3.6 ELECTRON MICROSCOPY 15 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 59 59 6b2z-a1-m1-cS_6b2z-a1-m1-ci MLKRFPTPILKVYWPFFVAGAAVYYGMSKAADLSSNTKEFINDPRNPRFAKGGKFVEVD MLKRFPTPILKVYWPFFVAGAAVYYGMSKAADLSSNTKEFINDPRNPRFAKGGKFVEVD 6b8v-a2-m1-cC_6b8v-a2-m2-cC Crystal structure of adenylyl-sulfate kinase from Cryptococcus neoformans J9VMZ3 J9VMZ3 2.55 X-RAY DIFFRACTION 72 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 164 164 6b8v-a1-m1-cA_6b8v-a1-m1-cB AVTQDERDTLLGQKGCTVWLTGLSASGKSTIATALEQHLLHKKLHAYRLDGDNIRFGLNKDLGFDQASRVENIRRIGEVSLLFALSSTISVTAFISPYISDRQLARELHEKHSSAIPFIEVFIDAPPYEAPANPEIHIRTDEVDVAGAVEIITKYLADNGLIPA AVTQDERDTLLGQKGCTVWLTGLSASGKSTIATALEQHLLHKKLHAYRLDGDNIRFGLNKDLGFDQASRVENIRRIGEVSLLFALSSTISVTAFISPYISDRQLARELHEKHSSAIPFIEVFIDAPPYEAPANPEIHIRTDEVDVAGAVEIITKYLADNGLIPA 6b8w-a1-m1-cA_6b8w-a1-m1-cB 1.9 Angstrom Resolution Crystal Structure of Cupin_2 Domain (pfam 07883) of XRE Family Transcriptional Regulator from Enterobacter cloacae. A0A0H3CJW2 A0A0H3CJW2 1.9 X-RAY DIFFRACTION 35 1.0 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 95 95 QAMVVKPLFPWDETLKFDHFSIILAPGALSESTPHEAGVIEHVVVISGELEMKIDGEWRTLYPDQGVRFAGDKPHAYRNSSSRPVHFHSLIHYPR QAMVVKPLFPWDETLKFDHFSIILAPGALSESTPHEAGVIEHVVVISGELEMKIDGEWRTLYPDQGVRFAGDKPHAYRNSSSRPVHFHSLIHYPR 6b9l-a1-m1-cB_6b9l-a1-m1-cD Crystal structure of EphA2 with peptide 135E2 P29317 P29317 3.2 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 6b9l-a1-m1-cA_6b9l-a1-m1-cC KEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKK KEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKK 6b9l-a1-m1-cC_6b9l-a1-m1-cD Crystal structure of EphA2 with peptide 135E2 P29317 P29317 3.2 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 3mbw-a1-m1-cA_3mbw-a1-m2-cA 6b9l-a1-m1-cA_6b9l-a1-m1-cB KEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKK KEVVLLDFAAAGGELGWLTHPYGKGWDLMQNIMNDMPIYMYSVCNVMSGDQDNWLRTNWVYRGEAERIFIELKFTVRDCNSFPGGASSCKETFNLYYAESDLDYGTNFQKRLFTKIDTIAPDEITVSSDFEARHVKLNVEERSVGPLTRKGFYLAFQDIGACVALLSVRVYYKK 6b9m-a1-m1-cA_6b9m-a1-m1-cC Crystal structure of UHRF1 TTD domain in complex with the polybasic region E7EZF3 E7EZF3 1.68 X-RAY DIFFRACTION 23 0.993 7955 (Danio rerio) 7955 (Danio rerio) 150 150 SLIDPGFGFYKINEFVDARDLNMGAWFEAQIVKVTKTPAEDGGPEEIVYHVKYEDYPENGVVQLRGKDVRPRARTVYQWRQLEPGMIVMVNYNPDDPKERGYWYDAEIQRKRETRTQREVFGKILLGDAGDSLNDCRIMFVTEIYKIEEP LIDPGFGFYKINEFVDARDLNMGAWFEAQIVKVTKTPAEDGGPEEIVYHVKYEDYPENGVVQLRGKDVRPRARTVYQWRQLEPGMIVMVNYNPDDPKERGYWYDAEIQRKRETRTQREVFGKILLGDAGDSLNDCRIMFVTEIYKIEEPG 6b9m-a1-m1-cB_6b9m-a1-m1-cA Crystal structure of UHRF1 TTD domain in complex with the polybasic region E7EZF3 E7EZF3 1.68 X-RAY DIFFRACTION 15 1.0 7955 (Danio rerio) 7955 (Danio rerio) 148 150 SLIDPGFGFYKINEFVDARDLNMGAWFEAQIVKVTKTPAGGPEEIVYHVKYEDYPENGVVQLRGKDVRPRARTVYQWRQLEPGMIVMVNYNPDDPKERGYWYDAEIQRKRETRTQREVFGKILLGDAGDSLNDCRIMFVTEIYKIEEP SLIDPGFGFYKINEFVDARDLNMGAWFEAQIVKVTKTPAEDGGPEEIVYHVKYEDYPENGVVQLRGKDVRPRARTVYQWRQLEPGMIVMVNYNPDDPKERGYWYDAEIQRKRETRTQREVFGKILLGDAGDSLNDCRIMFVTEIYKIEEP 6b9o-a1-m1-cA_6b9o-a1-m1-cB Structure of GH 38 Jack Bean alpha-mannosidase C0HJB3 C0HJB3 1.841 X-RAY DIFFRACTION 110 0.997 3823 (Canavalia ensiformis) 3823 (Canavalia ensiformis) 935 937 6b9p-a1-m1-cB_6b9p-a1-m1-cA MKYNTGAGTVPEQLNVHLVPHSHDDVGWLKTVDQYYVGSENYIQEACVENVLDSVVMSLQRDPNRKFVFGEMAFFHRWWLEQTPETKELVRKLVKAGQLEFVNGGWCMHDEATTHYIDMIDHTTLGHRFIQEQFNKIPRAGWQIDPFGHSAVQGYLLGAELGFDSVHFARIDYQDREKRKAEKSLEVVWRGSKTFGSSAQIFANAFPGHYGPPNGFNFEVRNNFVPLQDDPRLFDTNVEERVQNFIDAALTQAKITRTNHIMWTMGDDFQYQYAESWFKQMDKLIHHVNKDGRVNALYSTPSIYTEAKNAANQTWPLKIDDYFPYADGRNAYWTGFYTSRSALKDYVRMLSGYYLATRQLGFFAGKKSTKYHAFDLADALGIAQHHDAVSGTAKQHTTNDYAKRLAIGASKAEAVVSSSLACLTSKQSCSAPASAFSQCHLFNISYCPPTESSIPDDKSLVVVVYNPLGWSRNEIVRIPVNDANLVVKDSSGNKLEVQYVEMDDVTANLRSFYVKAYEGEVPKDADVYWSLFKASVPPLGWSTYFISELNIGPGDLKMSFSSGQLKRMYNSKTGVDIPIQQNYLWYESSEGDFSDYQASGAYIFRPNGQPPPHTSSVTRVTRGPLVDEVHQKFNSWISQVTRLYKDKDHAEIEFTIGPIPTDDGVGKEVITRMTSTMATNKEFYTDSNGRDFLKRVRDYREDWPLEVTQPVAGNYYPLNLGIYTKDEKSEFSVLVDRATGGASIKDGEVELMLHRRTIRDDGRGVGEPLDEQVCMTCEGLTVRGNYYLSIHKPAAGSRWRRTTGQEIYSPMLLAFTQENMENWKSSHSTKGIYMDPNYSLPPSVALITLEELDDGLVLLRLAHLYEPSEDAEYSTLTKVELKKLFATQKIEELREVSLSANQEKSEMKKMKWSVEGDDFVVELGPMEIRTFLLQF MKYNTGAGTVPEQLNVHLVPHSHDDVGWLKTVDQYYVGSENYIQEACVENVLDSVVMSLQRDPNRKFVFGEMAFFHRWWLEQTPETKELVRKLVKAGQLEFVNGGWCMHDEATTHYIDMIDHTTLGHRFIQEQFNKIPRAGWQIDPFGHSAVQGYLLGAELGFDSVHFARIDYQDREKRKAEKSLEVVWRGSKTFGSSAQIFANAFPGHYGPPNGFNFEVRNNFVPLQDDPRLFDTNVEERVQNFIDAALTQAKITRTNHIMWTMGDDFQYQYAESWFKQMDKLIHHVNKDGRVNALYSTPSIYTEAKNAANQTWPLKIDDYFPYADGRNAYWTGFYTSRSALKDYVRMLSGYYLATRQLGFFAGKKSTKYHAFDLADALGIAQHHDAVSGTAKQHTTNDYAKRLAIGASKAEAVVSSSLACLTSKCSAPASAFSQCHLFNISYCPPTESSIPDDKSLVVVVYNPLGWSRNEIVRIPVNDANLVVKDSSGNKLEVQYVEMDDVTANLRSFYVKAYEGEVPKDADVYWSLFKASVPPLGWSTYFISELNIGPGDLKMSFSSLTGQLKRMYNSKTGVDIPIQQNYLWYESSEGDFSDYQASGAYIFRPNGQPPPHRSSVTRVTRGPLVDEVHQKFNSWISQVTRLYKDKDHAEIEFTIGPIPTDDGVGKEVITRMTSTMATNKEFYTDSNGRDFLKRVRDYREDWPLEVTQPVAGNYYPLNLGIYTKDEKSEFSVLVDRATGGASIKDGEVELMLHRRTIRDDGRGVGEPLDEQVCMEYTCEGLTVRGNYYLSIHKPAAGSRWRRTTGQEIYSPMLLAFTQENMENWKSSHSTKGIYMDPNYSLPPSVALITLEELDDGLVLLRLAHLYEPSEDAEYSTLTKVELKKLFATQKIEELREVSLSANQEKSEMKKMKWSVEGDDFVVELGPMEIRTFLLQF 6b9r-a2-m1-cB_6b9r-a2-m1-cC Streptomyces albus HEPD with substrate 2-hydroxyethylphosphonate (2-HEP) and Fe(II) bound 1.802 X-RAY DIFFRACTION 429 1.0 1888 (Streptomyces albus) 1888 (Streptomyces albus) 442 446 6b9r-a1-m1-cA_6b9r-a1-m1-cD SDAARAARAAALLRAAANDLKRNDRAAEADLGLPPGSFGDYVSGRLPITWDLISRAAQAWPLNERDLLPIHNDTPQGLRMMRVKESEASSRIIERGGGPYYEYRDTAMSRQASYRPEWISMLRVVEDDDPDNPLVEWNKGHLLYQFTYFVGPVNYYFRSGGRSHCVPMNTGDSVWGLPFAPHSFTARSADEPAYILALTYGGELTGDAQRELATFGRAVTSSLALTPGDHGAMLRSVMAARLTTVTELADRSGLKTDRVAALCRTPARAEWPELSALAEALGVSVRELLVPHTTTEADVRIQPGRTASRWSYPGPDAPAYRFTQLAGDPLHPHTTSLAVDVLTARPDAPLPPTYQHQYLYVLGEQPVSVRWRYNGEQYDGRLEPGDSAYVIPGIEFSLSAEKPTELLMLRIGGSATPDVRFALGAMPDGAIGRYIAEDRLWY DALGSDAARAARAAALLRAAANDLKRNDRAAEADLGLPPGSFGDYVSGRLPITWDLISRAAQAWPLNERDLLPIHNDTPQGLRMMRVKESEASSRIIERGGGPYYEYRDTAMSRQASYRPEWISMLRVVEDDDPDNPLVEWNKGHLLYQFTYFVGPVNYYFRSGGRSHCVPMNTGDSVWGLPFAPHSFTARSADEPAYILALTYGGELTGDAQRELATFGRAVTSSLALTPGDHGAMLRSVMAARLTTVTELADRSGLKTDRVAALCRTPARAEWPELSALAEALGVSVRELLVPHTTTEADVRIQPGRTASRWSYPGPDAPAYRFTQLAGDPLHPHTTSLAVDVLTARPDAPLPPTYQHQYLYVLGEQPVSVRWRYNGEQYDGRLEPGDSAYVIPGIEFSLSAEKPTELLMLRIGGSATPDVRFALGAMPDGAIGRYIAEDRLWY 6b9t-a4-m1-cH_6b9t-a4-m1-cG Crystal structure of MPnS with substrate 2-hydroxyethylphosphonate (2-HEP) and Fe(II) bound A9A1T2 A9A1T2 2.35 X-RAY DIFFRACTION 442 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 442 446 6b9s-a1-m1-cB_6b9s-a1-m1-cA 6b9s-a2-m1-cC_6b9s-a2-m1-cD 6b9s-a3-m1-cF_6b9s-a3-m1-cE 6b9s-a4-m1-cH_6b9s-a4-m1-cG 6b9t-a1-m1-cB_6b9t-a1-m1-cA 6b9t-a2-m1-cC_6b9t-a2-m1-cD 6b9t-a3-m1-cE_6b9t-a3-m1-cF DSYLIRSGNNFLGILNDIKRRPEDAANELGVSIEEINSIISGKQKISPSLIEKAVNIWPVNERDFYIVSDDCSSGILIMTSQDSIKSSRIMERAGKPYYEYRDTAMSKTAPFRPEWILELCKVENNDPENPKAQWNNGHFMHQFTYFIGEVNFYYKDPEGKKHVAIMNTGDSMYITPFTPHTFTTRDGASQNGLILALTYGSKLTGDIQQELSSLSLDCGSQYALDFTNHENASLSLLEYYFELSNLTKEKFAKRTNFSMETLADFFTKKKLPTFDELKIIAKALNVNSRDLMPNDLTESKVIVKTHDQCDHWKYPESGNYEFYELASTTALPHSKAFEIDVSSSEDLNLDLKVGLHQYVYNIGDSALTINWNYENKTYQKSLNPGDSAYIKPFVPHNFRGNGKILILRIGGKISGDSQRELSFVGRENTQRAISETMQWFD DSYLIRSGNNFLGILNDIKRRPEDAANELGVSIEEINSIISGKQKISPSLIEKAVNIWPVNERDFYIVSDDCSSGILIMTSQDSIKSSRIMERAGKPYYEYRDTAMSKTAPFRPEWILELCKVENNDPENPKAQWNNGHFMHQFTYFIGEVNFYYKDPEGKKHVAIMNTGDSMYITPFTPHTFTTRDGASQNGLILALTYGSKLTGDIQQELSSLSLDCGSQYALDFTNHENASLSLLEYYFELSNLTKEKFAKRTNFSMETLADFFTKKKLPTFDELKIIAKALNVNSRDLMPNDLTESKVIVKTHDQCDHWKYPESGNYEFYELASTTALPHSKAFEIDVSSSEDLNLDLKVGLHQYVYNIGDSALTINWNYENKTYQKSLNPGDSAYIKPFVPHNFRGNGKILILRIGGKISGDSQRELSFVGRENTQRAISETMQWFDPKGS 6b9v-a1-m1-cB_6b9v-a1-m1-cA Crystal Structure of a New Diphosphatase from the PhnP Family Q1INB9 Q1INB9 1.88 X-RAY DIFFRACTION 81 0.988 204669 (Candidatus Koribacter versatilis Ellin345) 204669 (Candidatus Koribacter versatilis Ellin345) 253 254 RATLTVLGSGTSMGVPTIGCDCAVCSSSDPHDRRLRPSVMVQYDGKLVLIDTTPDFREQALREGIKKIDAIVYTHGHADHILGLDDVRPLSFPRITGGARVPLYANEKTERVLKHVFKYIIAQVEMHRVHHEAIELFGAKFIPVPVIHGETEIYGYRFGSAAYLTDFSSIPDASMEMLRGLDILFLDALRHKPHPTHSTLDNSVSIAEKLKAKHTYFTHISHDLPHEETNRQLPAGIQLAHDGLKLEFELCLE MLMRATLTVLGSGTSMGVPTIGCDCAVCSSSDPHDRRLRPSVMVQYDGKLVLIDTTPDFREQALREGIKKIDAIVYTHGHADHILGLDDVRPLSFPRITGGARVPLYANEKTERVLKHVFKYIFQVEMHRVHHEAIELFGAKFIPVPVIHGETEIYGYRFGSAAYLTDFSSIPDASMEMLRGLDILFLDALRHKPHPTHSTLDNSVSIAEKLKAKHTYFTHISHDLPHEETNRQLPAGIQLAHDGLKLEFELCL 6ba0-a1-m1-cC_6ba0-a1-m1-cD Pyrimidine-specific Ribonucleoside Hydrolase from Gardnerella vaginalis F5LUB1 F5LUB1 2.03 X-RAY DIFFRACTION 44 1.0 879307 (Gardnerella vaginalis 315-A) 879307 (Gardnerella vaginalis 315-A) 304 304 6ba0-a1-m1-cA_6ba0-a1-m1-cB MTTIILDCDPGHDDAMAILLALGNPNIDLLGVTTVGGNQSLEKVTYNARATLEMAHATNIPVHAGCDRPMIRPLEVGLDGVTLPEPTRPLDEGHAVNWIIDTIMSHEPGTITLVPTGPLTNIAMAVRLEPRIVSRVKEVVLMGGGYHVGNWSAVAEFNIKVDPEAAHVVFNEDWPITMVGLDLTHQALCTPEVQARIDAIGTPLSAFASGLMDFFRKAYKNNQDFIDPPVHDPCTVAYLIDHSVVQTRRCPVDVEIKGDLTLGMTVADLRGPEPSADKCHTQVATKLDFNKFWDLIIDALKELK MTTIILDCDPGHDDAMAILLALGNPNIDLLGVTTVGGNQSLEKVTYNARATLEMAHATNIPVHAGCDRPMIRPLEVGLDGVTLPEPTRPLDEGHAVNWIIDTIMSHEPGTITLVPTGPLTNIAMAVRLEPRIVSRVKEVVLMGGGYHVGNWSAVAEFNIKVDPEAAHVVFNEDWPITMVGLDLTHQALCTPEVQARIDAIGTPLSAFASGLMDFFRKAYKNNQDFIDPPVHDPCTVAYLIDHSVVQTRRCPVDVEIKGDLTLGMTVADLRGPEPSADKCHTQVATKLDFNKFWDLIIDALKELK 6ba0-a1-m1-cD_6ba0-a1-m1-cA Pyrimidine-specific Ribonucleoside Hydrolase from Gardnerella vaginalis F5LUB1 F5LUB1 2.03 X-RAY DIFFRACTION 71 1.0 879307 (Gardnerella vaginalis 315-A) 879307 (Gardnerella vaginalis 315-A) 304 312 6ba0-a1-m1-cC_6ba0-a1-m1-cB MTTIILDCDPGHDDAMAILLALGNPNIDLLGVTTVGGNQSLEKVTYNARATLEMAHATNIPVHAGCDRPMIRPLEVGLDGVTLPEPTRPLDEGHAVNWIIDTIMSHEPGTITLVPTGPLTNIAMAVRLEPRIVSRVKEVVLMGGGYHVGNWSAVAEFNIKVDPEAAHVVFNEDWPITMVGLDLTHQALCTPEVQARIDAIGTPLSAFASGLMDFFRKAYKNNQDFIDPPVHDPCTVAYLIDHSVVQTRRCPVDVEIKGDLTLGMTVADLRGPEPSADKCHTQVATKLDFNKFWDLIIDALKELK MTTIILDCDPGHDDAMAILLALGNPNIDLLGVTTVGGNQSLEKVTYNARATLEMAHATNIPVHAGCDRPMIRPLEVAAAVHGETGLDGVTLPEPTRPLDEGHAVNWIIDTIMSHEPGTITLVPTGPLTNIAMAVRLEPRIVSRVKEVVLMGGGYHVGNWSAVAEFNIKVDPEAAHVVFNEDWPITMVGLDLTHQALCTPEVQARIDAIGTPLSAFASGLMDFFRKAYKNNQDFIDPPVHDPCTVAYLIDHSVVQTRRCPVDVEIKGDLTLGMTVADLRGPEPSADKCHTQVATKLDFNKFWDLIIDALKELK 6ba1-a9-m1-cO_6ba1-a9-m1-cQ Purine-Preferring Ribonucleoside Hydrolase from Gardnerella vaginalis F5LUS2 F5LUS2 2.9 X-RAY DIFFRACTION 67 1.0 879307 (Gardnerella vaginalis 315-A) 879307 (Gardnerella vaginalis 315-A) 316 316 6ba1-a1-m1-cA_6ba1-a1-m1-cE 6ba1-a2-m1-cB_6ba1-a2-m1-cD 6ba1-a3-m1-cC_6ba1-a3-m1-cI 6ba1-a4-m1-cF_6ba1-a4-m1-cH 6ba1-a5-m1-cG_6ba1-a5-m1-cL 6ba1-a6-m1-cJ_6ba1-a6-m1-cP 6ba1-a7-m1-cK_6ba1-a7-m1-cN 6ba1-a8-m1-cM_6ba1-a8-m1-cR KKLILDLDTGVDDTLAISYALGSPEMELIGITGTYGNVLMEQGVRNALAITDLLGHPEVKVYKGLSHASTKDSFEVLPISAFIHGDNGIGDVEIPDSPRKAEDESAVDFIIDSVKKYGKDLVYVPTGPMTNIAAALKKAPEIKDEIGKIVLMGGALTIHGNVNAWTEANISQDPDAADILFRSGAPVTMIGLDVTLQTLLTYKETKQWRDLNTKAGKFLADMTDFYIKAYETTAPHLGGCGLHDPLAVAVAVDPTLVTTLPINMQVDVEGPTRGRTIGDVTRLNDPVKTMQVAVGVDVPRFLNEFMTRISGLAKIA KKLILDLDTGVDDTLAISYALGSPEMELIGITGTYGNVLMEQGVRNALAITDLLGHPEVKVYKGLSHASTKDSFEVLPISAFIHGDNGIGDVEIPDSPRKAEDESAVDFIIDSVKKYGKDLVYVPTGPMTNIAAALKKAPEIKDEIGKIVLMGGALTIHGNVNAWTEANISQDPDAADILFRSGAPVTMIGLDVTLQTLLTYKETKQWRDLNTKAGKFLADMTDFYIKAYETTAPHLGGCGLHDPLAVAVAVDPTLVTTLPINMQVDVEGPTRGRTIGDVTRLNDPVKTMQVAVGVDVPRFLNEFMTRISGLAKIA 6bal-a4-m1-cG_6bal-a4-m1-cH 2.1 Angstrom Resolution Crystal Structure of Malate Dehydrogenase from Haemophilus influenzae in Complex with L-Malate P44427 P44427 2.1 X-RAY DIFFRACTION 138 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 302 313 6aoo-a1-m1-cA_6aoo-a1-m1-cB 6bal-a1-m1-cA_6bal-a1-m1-cB 6bal-a2-m1-cD_6bal-a2-m1-cC 6bal-a3-m1-cE_6bal-a3-m1-cF NAMKVAVLGAAGGIGQALALLLKLQLPAGTDLSLYDIAPVTPGVAVDVSHIPTAVNVKGFSGEDPTPALEGADVVLISAGVFNINAGIVRGLIEKVAVTCPKACVGIITNPVNTTVAIAAEVLKKAGVYDKRKLFGVTTLDVLRSETFVAELKGLNVSRTSVPVIGGHSGVTILPLLSQVQYAKWNEDEIEPLTKRIQNAGTEVLNAKAGGGSATLSMAQAAARFARSLVKGLSGETVVECTYVEGDGKYARFFSQPVRLGKEGVEEILPIGPLSNFEQQALENMLPTLRADIELGEKFING NAMKVAVLGAAGGIGQALALLLKLQLPAGTDLSLYDIAPVTPGVAVDVSHIPTAVNVKGFSGEDPTPALEGADVVLISAGVARKPGMDRSDLFNINAGIVRGLIEKVAVTCPKACVGIITNPVNTTVAIAAEVLKKAGVYDKRKLFGVTTLDVLRSETFVAELKGLNVSRTSVPVIGGHSGVTILPLLSQVQYAKWNEDEIEPLTKRIQNAGTEVLNAKAGGGSATLSMAQAAARFARSLVKGLSGETVVECTYVEGDGKYARFFSQPVRLGKEGVEEILPIGPLSNFEQQALENMLPTLRADIELGEKFING 6bb9-a1-m1-cB_6bb9-a1-m1-cA The crystal structure of 4-amino-4-deoxychorismate lyase from Salmonella typhimurium LT2 Q7CQR1 Q7CQR1 2.282 X-RAY DIFFRACTION 183 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 269 270 MFLINGHAQDQLAVSDRATQFGDGSFTTARIVDGNICHLEAHLQRLQVACEKLRIAFSHWSTLRQEMTMLATGHDSGVLKVIISRGSGGRGYSAMNCQAATRILSVSAYPAYYSQWRKQGITLTLSPIPLGRNPYLAGLKHLNRLEQVLIRSHLEQTDADEALVLDSEGWVTECCAANLFWRTGDIVFTPRLDQAGVNGIMRQFCLRQLAQSPFQVLEVQAREEAVRQADEIIICNALMPIIPIRAYHGTSYSSRTLFQFLAPFCEHPN AMFLINGHAQDQLAVSDRATQFGDGSFTTARIVDGNICHLEAHLQRLQVACEKLRIAFSHWSTLRQEMTMLATGHDSGVLKVIISRGSGGRGYSAMNCQAATRILSVSAYPAYYSQWRKQGITLTLSPIPLGRNPYLAGLKHLNRLEQVLIRSHLEQTDADEALVLDSEGWVTECCAANLFWRTGDIVFTPRLDQAGVNGIMRQFCLRQLAQSPFQVLEVQAREEAVRQADEIIICNALMPIIPIRAYHGTSYSSRTLFQFLAPFCEHPN 6bba-a1-m1-cG_6bba-a1-m1-cF Crystal structure of human mitochondrial ClpP complex with acyldepsipeptide ADEP-28 Q16740 Q16740 2.796 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 190 1tg6-a1-m1-cA_1tg6-a1-m1-cG 1tg6-a1-m1-cB_1tg6-a1-m1-cA 1tg6-a1-m1-cB_1tg6-a1-m1-cC 1tg6-a1-m1-cC_1tg6-a1-m1-cD 1tg6-a1-m1-cD_1tg6-a1-m1-cE 1tg6-a1-m1-cF_1tg6-a1-m1-cE 1tg6-a1-m1-cF_1tg6-a1-m1-cG 1tg6-a2-m1-cA_1tg6-a2-m1-cG 1tg6-a2-m1-cB_1tg6-a2-m1-cA 1tg6-a2-m1-cB_1tg6-a2-m1-cC 1tg6-a2-m1-cC_1tg6-a2-m1-cD 1tg6-a2-m1-cD_1tg6-a2-m1-cE 1tg6-a2-m1-cF_1tg6-a2-m1-cE 1tg6-a2-m1-cF_1tg6-a2-m1-cG 1tg6-a2-m2-cA_1tg6-a2-m2-cG 1tg6-a2-m2-cB_1tg6-a2-m2-cA 1tg6-a2-m2-cB_1tg6-a2-m2-cC 1tg6-a2-m2-cC_1tg6-a2-m2-cD 1tg6-a2-m2-cD_1tg6-a2-m2-cE 1tg6-a2-m2-cF_1tg6-a2-m2-cE 1tg6-a2-m2-cF_1tg6-a2-m2-cG 6bba-a1-m1-cB_6bba-a1-m1-cA 6bba-a1-m1-cB_6bba-a1-m1-cC 6bba-a1-m1-cC_6bba-a1-m1-cD 6bba-a1-m1-cE_6bba-a1-m1-cD 6bba-a1-m1-cE_6bba-a1-m1-cF 6bba-a1-m1-cG_6bba-a1-m1-cA 6dl7-a1-m1-cA_6dl7-a1-m1-cG 6dl7-a1-m1-cB_6dl7-a1-m1-cA 6dl7-a1-m1-cB_6dl7-a1-m1-cC 6dl7-a1-m1-cD_6dl7-a1-m1-cC 6dl7-a1-m1-cD_6dl7-a1-m1-cE 6dl7-a1-m1-cF_6dl7-a1-m1-cE 6dl7-a1-m1-cF_6dl7-a1-m1-cG 6h23-a1-m1-cA_6h23-a1-m1-cB 6h23-a1-m1-cA_6h23-a1-m1-cG 6h23-a1-m1-cB_6h23-a1-m1-cC 6h23-a1-m1-cD_6h23-a1-m1-cC 6h23-a1-m1-cD_6h23-a1-m1-cE 6h23-a1-m1-cE_6h23-a1-m1-cF 6h23-a1-m1-cF_6h23-a1-m1-cG 6h23-a1-m1-cH_6h23-a1-m1-cI 6h23-a1-m1-cH_6h23-a1-m1-cN 6h23-a1-m1-cJ_6h23-a1-m1-cI 6h23-a1-m1-cJ_6h23-a1-m1-cK 6h23-a1-m1-cK_6h23-a1-m1-cL 6h23-a1-m1-cL_6h23-a1-m1-cM 6h23-a1-m1-cM_6h23-a1-m1-cN 7uvm-a1-m1-cA_7uvm-a1-m1-cG 7uvm-a1-m1-cB_7uvm-a1-m1-cA 7uvm-a1-m1-cB_7uvm-a1-m1-cC 7uvm-a1-m1-cC_7uvm-a1-m1-cD 7uvm-a1-m1-cD_7uvm-a1-m1-cE 7uvm-a1-m1-cE_7uvm-a1-m1-cF 7uvm-a1-m1-cG_7uvm-a1-m1-cF 7uvm-a1-m2-cA_7uvm-a1-m2-cG 7uvm-a1-m2-cB_7uvm-a1-m2-cA 7uvm-a1-m2-cB_7uvm-a1-m2-cC 7uvm-a1-m2-cC_7uvm-a1-m2-cD 7uvm-a1-m2-cD_7uvm-a1-m2-cE 7uvm-a1-m2-cE_7uvm-a1-m2-cF 7uvm-a1-m2-cG_7uvm-a1-m2-cF 7uvn-a1-m1-cA_7uvn-a1-m1-cB 7uvn-a1-m1-cA_7uvn-a1-m1-cG 7uvn-a1-m1-cC_7uvn-a1-m1-cB 7uvn-a1-m1-cC_7uvn-a1-m1-cD 7uvn-a1-m1-cE_7uvn-a1-m1-cD 7uvn-a1-m1-cE_7uvn-a1-m1-cF 7uvn-a1-m1-cG_7uvn-a1-m1-cF 7uvn-a1-m2-cA_7uvn-a1-m2-cB 7uvn-a1-m2-cA_7uvn-a1-m2-cG 7uvn-a1-m2-cC_7uvn-a1-m2-cB 7uvn-a1-m2-cC_7uvn-a1-m2-cD 7uvn-a1-m2-cE_7uvn-a1-m2-cD 7uvn-a1-m2-cE_7uvn-a1-m2-cF 7uvn-a1-m2-cG_7uvn-a1-m2-cF 7uvr-a1-m1-cB_7uvr-a1-m1-cA 7uvr-a1-m1-cC_7uvr-a1-m1-cB 7uvr-a1-m1-cC_7uvr-a1-m1-cD 7uvr-a1-m1-cE_7uvr-a1-m1-cD 7uvr-a1-m1-cE_7uvr-a1-m1-cF 7uvr-a1-m1-cG_7uvr-a1-m1-cA 7uvr-a1-m1-cG_7uvr-a1-m1-cF 7uvr-a1-m2-cB_7uvr-a1-m2-cA 7uvr-a1-m2-cC_7uvr-a1-m2-cB 7uvr-a1-m2-cC_7uvr-a1-m2-cD 7uvr-a1-m2-cE_7uvr-a1-m2-cD 7uvr-a1-m2-cE_7uvr-a1-m2-cF 7uvr-a1-m2-cG_7uvr-a1-m2-cA 7uvr-a1-m2-cG_7uvr-a1-m2-cF 7uvu-a1-m1-cA_7uvu-a1-m1-cB 7uvu-a1-m1-cA_7uvu-a1-m1-cG 7uvu-a1-m1-cB_7uvu-a1-m1-cC 7uvu-a1-m1-cC_7uvu-a1-m1-cD 7uvu-a1-m1-cD_7uvu-a1-m1-cE 7uvu-a1-m1-cE_7uvu-a1-m1-cF 7uvu-a1-m1-cG_7uvu-a1-m1-cF 7uvu-a1-m2-cA_7uvu-a1-m2-cB 7uvu-a1-m2-cA_7uvu-a1-m2-cG 7uvu-a1-m2-cB_7uvu-a1-m2-cC 7uvu-a1-m2-cC_7uvu-a1-m2-cD 7uvu-a1-m2-cD_7uvu-a1-m2-cE 7uvu-a1-m2-cE_7uvu-a1-m2-cF 7uvu-a1-m2-cG_7uvu-a1-m2-cF 7uw0-a1-m1-cB_7uw0-a1-m1-cA 7uw0-a1-m1-cB_7uw0-a1-m1-cC 7uw0-a1-m1-cC_7uw0-a1-m1-cD 7uw0-a1-m1-cD_7uw0-a1-m1-cE 7uw0-a1-m1-cE_7uw0-a1-m1-cF 7uw0-a1-m1-cG_7uw0-a1-m1-cA 7uw0-a1-m1-cG_7uw0-a1-m1-cF 7uw0-a1-m2-cB_7uw0-a1-m2-cA 7uw0-a1-m2-cB_7uw0-a1-m2-cC 7uw0-a1-m2-cC_7uw0-a1-m2-cD 7uw0-a1-m2-cD_7uw0-a1-m2-cE 7uw0-a1-m2-cE_7uw0-a1-m2-cF 7uw0-a1-m2-cG_7uw0-a1-m2-cA 7uw0-a1-m2-cG_7uw0-a1-m2-cF 7vp9-a1-m1-cA_7vp9-a1-m1-cB 7vp9-a1-m1-cA_7vp9-a1-m1-cG 7vp9-a1-m1-cC_7vp9-a1-m1-cB 7vp9-a1-m1-cC_7vp9-a1-m1-cD 7vp9-a1-m1-cD_7vp9-a1-m1-cE 7vp9-a1-m1-cE_7vp9-a1-m1-cF 7vp9-a1-m1-cG_7vp9-a1-m1-cF 7vp9-a1-m1-cI_7vp9-a1-m1-cH 7vp9-a1-m1-cI_7vp9-a1-m1-cJ 7vp9-a1-m1-cK_7vp9-a1-m1-cJ 7vp9-a1-m1-cK_7vp9-a1-m1-cL 7vp9-a1-m1-cL_7vp9-a1-m1-cM 7vp9-a1-m1-cM_7vp9-a1-m1-cN 7vp9-a1-m1-cN_7vp9-a1-m1-cH 7wh5-a1-m1-cA_7wh5-a1-m1-cB 7wh5-a1-m1-cA_7wh5-a1-m1-cG 7wh5-a1-m1-cC_7wh5-a1-m1-cB 7wh5-a1-m1-cC_7wh5-a1-m1-cD 7wh5-a1-m1-cD_7wh5-a1-m1-cE 7wh5-a1-m1-cE_7wh5-a1-m1-cF 7wh5-a1-m1-cG_7wh5-a1-m1-cF 7wh5-a1-m1-cH_7wh5-a1-m1-cI 7wh5-a1-m1-cJ_7wh5-a1-m1-cI 7wh5-a1-m1-cJ_7wh5-a1-m1-cK 7wh5-a1-m1-cL_7wh5-a1-m1-cK 7wh5-a1-m1-cM_7wh5-a1-m1-cL 7wh5-a1-m1-cM_7wh5-a1-m1-cN 7wh5-a1-m1-cN_7wh5-a1-m1-cH SLIPIVVEQTGRGERAYDIYSRLLRERIVCVMGPIDDSVASLVIAQLLFLQSESNKKPIHMYINSPGGVVTAGLAIYDTMQYILNPICTWCVGQAASMGSLLLAAGTPGMRHSLPNSRIMIHQPSATDIAIQAEEIMKLKKQLYNIYAKHTKQSLQVIESAMERDRYMSPMEAQEFGILDKVLVHPPQ SLIPIVVEQTGRGERAYDIYSRLLRERIVCVMGPIDDSVASLVIAQLLFLQSESNKKPIHMYINSPGGVVTAGLAIYDTMQYILNPICTWCVGQAASMGSLLLAAGTPGMRHSLPNSRIMIHQPSGQATDIAIQAEEIMKLKKQLYNIYAKHTKQSLQVIESAMERDRYMSPMEAQEFGILDKVLVHPPQ 6bbe-a1-m2-cA_6bbe-a1-m3-cA Structure of N-glycosylated porcine surfactant protein-D Q9N1X4 Q9N1X4 1.898 X-RAY DIFFRACTION 50 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 155 155 4dn8-a1-m1-cA_4dn8-a1-m2-cA 4dn8-a1-m3-cA_4dn8-a1-m1-cA 4dn8-a1-m3-cA_4dn8-a1-m2-cA 6bbd-a1-m1-cA_6bbd-a1-m2-cA 6bbd-a1-m1-cA_6bbd-a1-m3-cA 6bbd-a1-m2-cA_6bbd-a1-m3-cA 6bbe-a1-m1-cA_6bbe-a1-m2-cA 6bbe-a1-m1-cA_6bbe-a1-m3-cA ITALRQQVETLQGQVQRLQKAFSQYKKVELFPNGRGVGEKIFKTGGFEKTFQDAQQVCTQAGGQMASPRSETENEALSQLVTAQNKAAFLSMTDIKTEGNFTYPTGEPLVYANWAPGEPNNNGGSSGAENCVEIFPNGKWNDKACGELRLVICEF ITALRQQVETLQGQVQRLQKAFSQYKKVELFPNGRGVGEKIFKTGGFEKTFQDAQQVCTQAGGQMASPRSETENEALSQLVTAQNKAAFLSMTDIKTEGNFTYPTGEPLVYANWAPGEPNNNGGSSGAENCVEIFPNGKWNDKACGELRLVICEF 6bd1-a2-m1-cE_6bd1-a2-m1-cF Complex of 14-3-3 theta with an IRSp53 peptide phosphorylated at S366 P27348 P27348 2.35 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 2btp-a1-m1-cB_2btp-a1-m1-cA 5iqp-a1-m1-cB_5iqp-a1-m1-cA 6bcr-a1-m1-cA_6bcr-a1-m1-cB 6bcr-a2-m1-cF_6bcr-a2-m1-cE 6bcy-a1-m1-cA_6bcy-a1-m1-cB 6bcy-a2-m1-cE_6bcy-a2-m1-cF 6bd1-a1-m1-cA_6bd1-a1-m1-cB 6bd2-a1-m1-cA_6bd2-a1-m1-cB 6bqt-a1-m1-cB_6bqt-a1-m1-cA 6bqt-a2-m1-cD_6bqt-a2-m1-cE 6bqt-a3-m1-cH_6bqt-a3-m1-cG 6bqt-a4-m1-cK_6bqt-a4-m1-cJ 6kzg-a1-m1-cA_6kzg-a1-m1-cB 6kzh-a1-m1-cA_6kzh-a1-m1-cB MEKTELIQKAKLAEQAERYDDMATCMKAVTEQGAELSNEERNLLSVAYKNVVGGRRSAWRVISSIEQKTDTSDKKLQLIKDYREKVESELRSICTTVLELLDKYLIANATNPESKVFYLKMKGDYFRYLAEVACGDDRKQTIDNSQGAYQEAFDISKKEMQPTHPIRLGLALNFSVFYYEILNNPELACTLAKTAFDEAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTS MEKTELIQKAKLAEQAERYDDMATCMKAVTEQGAELSNEERNLLSVAYKNVVGGRRSAWRVISSIEQKTDTSDKKLQLIKDYREKVESELRSICTTVLELLDKYLIANATNPESKVFYLKMKGDYFRYLAEVACGDDRKQTIDNSQGAYQEAFDISKKEMQPTHPIRLGLALNFSVFYYEILNNPELACTLAKTAFDEAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTS 6bdc-a1-m2-cA_6bdc-a1-m6-cA Structure of Hcp1 from Flavobacterium johnsoniae A5FET8 A5FET8 2.496 X-RAY DIFFRACTION 81 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 118 118 6bdc-a1-m1-cA_6bdc-a1-m5-cA 6bdc-a1-m1-cA_6bdc-a1-m6-cA 6bdc-a1-m2-cA_6bdc-a1-m4-cA 6bdc-a1-m3-cA_6bdc-a1-m4-cA 6bdc-a1-m3-cA_6bdc-a1-m5-cA FLTSLTVAGKDYKVLNVSYDLAQETDASGRPSTVTRGGRIIEVESTGSTELFEWTNNFERKDGSVKFIKRDSNATLKELKFTEAYVKYKENFDHNSENPLTETFISARKISGGGEFDN FLTSLTVAGKDYKVLNVSYDLAQETDASGRPSTVTRGGRIIEVESTGSTELFEWTNNFERKDGSVKFIKRDSNATLKELKFTEAYVKYKENFDHNSENPLTETFISARKISGGGEFDN 6bdp-a2-m1-cA_6bdp-a2-m2-cA Schistosoma mansoni (Blood Fluke) Sulfotransferase/CIDD-0000071 (Compound 9c) Complex G4VLE5 G4VLE5 1.43 X-RAY DIFFRACTION 86 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 251 251 4mua-a2-m1-cA_4mua-a2-m2-cA 4mub-a2-m1-cA_4mub-a2-m2-cA 5byj-a2-m1-cA_5byj-a2-m2-cA 5byk-a2-m1-cA_5byk-a2-m2-cA 6b4z-a2-m1-cA_6b4z-a2-m2-cA 6b50-a2-m1-cA_6b50-a2-m2-cA 6bdq-a2-m1-cA_6bdq-a2-m2-cA 6bdr-a2-m1-cA_6bdr-a2-m2-cA 6bds-a2-m1-cA_6bds-a2-m2-cA GAMIESSTTIQVISAGLPRTGTKSLKNALEIIYHKPCYHMFEIIFNKQSDIIKWQNLIHDSHMTTKTIAIYDKLKELLDGYIATTDLPTCGFYKDLMNIYPNAKVLLTIRDKYDWLHSLRKVVLPKSNDPWKLKIEEGDKVLGLNSDFYKLTEDSLKFAFQKDDLNFDDDQVLLECYDEYNRLVQETVPSDRLLVLRLGDGWEPLCKFLNVEIPNGIDYPVNSHHQMTQLTEQLIKYKSLDAIIHMFPDLI GAMIESSTTIQVISAGLPRTGTKSLKNALEIIYHKPCYHMFEIIFNKQSDIIKWQNLIHDSHMTTKTIAIYDKLKELLDGYIATTDLPTCGFYKDLMNIYPNAKVLLTIRDKYDWLHSLRKVVLPKSNDPWKLKIEEGDKVLGLNSDFYKLTEDSLKFAFQKDDLNFDDDQVLLECYDEYNRLVQETVPSDRLLVLRLGDGWEPLCKFLNVEIPNGIDYPVNSHHQMTQLTEQLIKYKSLDAIIHMFPDLI 6bej-a1-m1-cA_6bej-a1-m1-cE Crystal structure of manganese superoxide dismutase from Xanthomonas citri Q8PJZ1 Q8PJZ1 1.894 X-RAY DIFFRACTION 48 1.0 346 (Xanthomonas citri) 346 (Xanthomonas citri) 201 201 AYTLPQLPYAYDALEPNIDAQTMEIHHTKHHQTYINNVNAALEGTEYADLPIEELVSKLKSLPENLQGPVRNNGGGHANHSLFWTVLSPNGGGEPKGEVAKAIDKDLGGFEKFKEAFTKAAVSRFGSGWAWLSVTPDKKLVVESTANQDSPLFEGNTPILGLDVWEHAYYLKYQNRRPEYIGAFYNAVNWEEVERRYHAAI AYTLPQLPYAYDALEPNIDAQTMEIHHTKHHQTYINNVNAALEGTEYADLPIEELVSKLKSLPENLQGPVRNNGGGHANHSLFWTVLSPNGGGEPKGEVAKAIDKDLGGFEKFKEAFTKAAVSRFGSGWAWLSVTPDKKLVVESTANQDSPLFEGNTPILGLDVWEHAYYLKYQNRRPEYIGAFYNAVNWEEVERRYHAAI 6bfu-a1-m1-cB_6bfu-a1-m1-cC Glycan shield and fusion activation of a deltacoronavirus spike glycoprotein fine-tuned for enteric infections A0A140ESF1 A0A140ESF1 3.5 ELECTRON MICROSCOPY 418 1.0 1586324 (Porcine deltacoronavirus) 1586324 (Porcine deltacoronavirus) 964 964 6b7n-a1-m1-cA_6b7n-a1-m1-cB 6b7n-a1-m1-cA_6b7n-a1-m1-cC 6b7n-a1-m1-cB_6b7n-a1-m1-cC 6bfu-a1-m1-cA_6bfu-a1-m1-cB 6bfu-a1-m1-cA_6bfu-a1-m1-cC NFDVGVLPGYPTKNVNLFSPLTNSTLPINGLHRSYQPLMLNCLTKITNHTLSMYLLPSEIQTYSCGGAMVKYQTHDAVRIILDLTATDHISVEVVGQHGENYVFVCSEQFNYTTALHNSTFFSLNSELYCFTNNTYLGILPPDLTDFTVYRTGQFYANGYLLGTLPITVNYVRLYRGHLSANSAHFALANLTDTLITLTNTTISQITYCDKSVVDSIACQRSSHEVEDGFYSDPKSAVRARQRTIVTLPKLPELEVVQLNISAHMDFGEARLDSVTINGNTSYCVTKPYFRLETNFMCTGCTMNLRTDTCSFDLSAVNNGMSFSQFCLSTESGACEMKIIVTYVWNYLLRQRLYVTAVEGQTHTGTTSVHATDTSSVITDVCTDYTIYGVSGTGIIKPSDLLLHNGIAFTSPTGELYAFKNITTGKTLQVLPCETPSQLIVINNTVVGAITSSNSTENNRFTTTIVTPTFFYSTNATTFNCTKPVLSYGPISVCSDGAIVGTSTLQNTRPSIVSLYDGEVEIPSAFSLSVQTEYLQVQAEQVIVDCPQYVCNGNSRCLQLLAQYTSACSNIEAALHSSAQLDSREIINMFQTSTQSLQLANITNFKGDYNFSSILTTRIGGRSAIEDLLFNKVVTDQDYKSCSRDMAIADLVCSQYYNGIMVLPGVVDAEKMAMYTGSLTGAMVFGGLTAAAAIPFATAVQARLNYVALQTNVLQENQKILAESFNQAVGNISLALSSVNDAIQQTSEALNTVAIAIKKIQTVVNQQGEALSHLTAQLSNNFQAISTSIQDIYNRLEEVEANQQVDRLITGRLAALNAYVTQLLNQMSQIRQSRLLAQQKINECVKSQSPRYGFCGNGTHIFSLTQTAPNGIFFMHAVLVPNKFTRVNASAGICVDNTRGYSLQPQLILYQFNNSWRVTPRNMYEPRLPRQADFIQLTDCSVTFYNTTAANLPNIIPDIIDVNQ NFDVGVLPGYPTKNVNLFSPLTNSTLPINGLHRSYQPLMLNCLTKITNHTLSMYLLPSEIQTYSCGGAMVKYQTHDAVRIILDLTATDHISVEVVGQHGENYVFVCSEQFNYTTALHNSTFFSLNSELYCFTNNTYLGILPPDLTDFTVYRTGQFYANGYLLGTLPITVNYVRLYRGHLSANSAHFALANLTDTLITLTNTTISQITYCDKSVVDSIACQRSSHEVEDGFYSDPKSAVRARQRTIVTLPKLPELEVVQLNISAHMDFGEARLDSVTINGNTSYCVTKPYFRLETNFMCTGCTMNLRTDTCSFDLSAVNNGMSFSQFCLSTESGACEMKIIVTYVWNYLLRQRLYVTAVEGQTHTGTTSVHATDTSSVITDVCTDYTIYGVSGTGIIKPSDLLLHNGIAFTSPTGELYAFKNITTGKTLQVLPCETPSQLIVINNTVVGAITSSNSTENNRFTTTIVTPTFFYSTNATTFNCTKPVLSYGPISVCSDGAIVGTSTLQNTRPSIVSLYDGEVEIPSAFSLSVQTEYLQVQAEQVIVDCPQYVCNGNSRCLQLLAQYTSACSNIEAALHSSAQLDSREIINMFQTSTQSLQLANITNFKGDYNFSSILTTRIGGRSAIEDLLFNKVVTDQDYKSCSRDMAIADLVCSQYYNGIMVLPGVVDAEKMAMYTGSLTGAMVFGGLTAAAAIPFATAVQARLNYVALQTNVLQENQKILAESFNQAVGNISLALSSVNDAIQQTSEALNTVAIAIKKIQTVVNQQGEALSHLTAQLSNNFQAISTSIQDIYNRLEEVEANQQVDRLITGRLAALNAYVTQLLNQMSQIRQSRLLAQQKINECVKSQSPRYGFCGNGTHIFSLTQTAPNGIFFMHAVLVPNKFTRVNASAGICVDNTRGYSLQPQLILYQFNNSWRVTPRNMYEPRLPRQADFIQLTDCSVTFYNTTAANLPNIIPDIIDVNQ 6bhc-a1-m1-cA_6bhc-a1-m2-cA Crystal structure of pseduokinase PEAK1 (Sugen Kinase 269) Q9H792 Q9H792 2.3 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 371 371 EVVGKIRSLHTDALKKLAVKCEDLFMAGQKDQLRFGVDSWSDFRLTSDKPCCEAGDAVYYTASYAKDPLNNYAVKICKSHSLAVRQSLAVHFNIQQDCGHFLAEVPNRLLPWEDKQRSHVVVITREVPCLTVADFVRDSLAQHGKSPDLYERQVCLLLLQLCSGLEHLKPYHVTHCDLRLENLLLVHYQPTRLIVSNFSQAKQKRDQSRLAPEIITAKKCDEFQTGILIYEMLHLPNPFDENPELKEREYTRADLPRIPFRSPYSRGLQQLASCLLNPNPSERILISDAKGILQCLLWGPREDLFQTFTACPSLVQRNTLLQNWLDIKRTLLMIKFAEKSLDGISLEDWLCAQYLAFATTDSLSCIVKILL EVVGKIRSLHTDALKKLAVKCEDLFMAGQKDQLRFGVDSWSDFRLTSDKPCCEAGDAVYYTASYAKDPLNNYAVKICKSHSLAVRQSLAVHFNIQQDCGHFLAEVPNRLLPWEDKQRSHVVVITREVPCLTVADFVRDSLAQHGKSPDLYERQVCLLLLQLCSGLEHLKPYHVTHCDLRLENLLLVHYQPTRLIVSNFSQAKQKRDQSRLAPEIITAKKCDEFQTGILIYEMLHLPNPFDENPELKEREYTRADLPRIPFRSPYSRGLQQLASCLLNPNPSERILISDAKGILQCLLWGPREDLFQTFTACPSLVQRNTLLQNWLDIKRTLLMIKFAEKSLDGISLEDWLCAQYLAFATTDSLSCIVKILL 6bhf-a1-m1-cA_6bhf-a1-m2-cA Crystal structure of the petidylprolyl cis,trans-isomerase from Helicobacter pylori P56112 P56112 2.09 X-RAY DIFFRACTION 137 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 249 249 GVLATVDGRPITKSDFDMDFDKLKEKEKETLIDQAIRTALVENEAKTEKLDSTPEFKAMMEAVKKQALVEFWAKKQAEEVKKVQIPEKEMQDFYNANKDQLFVKQEAHARHILVKTEDEAKRIISEIDKQPKAKKEAKFIELANRDTIDPNSKNAQNGGDLGKFQKNQMAPDFSKAAFALTPGDYTKTPVKTEFGYHIIYLISKDSPVTYTYEQAKPTIKGMLQEKLFQERMNQRIEELRKHAKIVINK GVLATVDGRPITKSDFDMDFDKLKEKEKETLIDQAIRTALVENEAKTEKLDSTPEFKAMMEAVKKQALVEFWAKKQAEEVKKVQIPEKEMQDFYNANKDQLFVKQEAHARHILVKTEDEAKRIISEIDKQPKAKKEAKFIELANRDTIDPNSKNAQNGGDLGKFQKNQMAPDFSKAAFALTPGDYTKTPVKTEFGYHIIYLISKDSPVTYTYEQAKPTIKGMLQEKLFQERMNQRIEELRKHAKIVINK 6bhp-a1-m1-cA_6bhp-a1-m1-cC Crystal structure of the Chlamydomonas reinhardtii LCI1 channel Q39583 Q39583 3.209 X-RAY DIFFRACTION 62 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 170 170 6bhp-a1-m1-cA_6bhp-a1-m1-cB 6bhp-a1-m1-cB_6bhp-a1-m1-cC GLNKFIYVGLVISQLLTLAAYVVVTAGAALLQKKANTLTLFDTQEGIDKYTPVYKEVFTATTYIIAYPQQPQYQFQYQWWIIQFELFVFLLTAACTVFPSIIKRMRPVALTFIASALVLVMDNINAIFFLLRNETAKAVFDDYRIATAQAGLIMVGVANGLTIFFLGSYD GLNKFIYVGLVISQLLTLAAYVVVTAGAALLQKKANTLTLFDTQEGIDKYTPVYKEVFTATTYIIAYPQQPQYQFQYQWWIIQFELFVFLLTAACTVFPSIIKRMRPVALTFIASALVLVMDNINAIFFLLRNETAKAVFDDYRIATAQAGLIMVGVANGLTIFFLGSYD 6bhw-a2-m1-cE_6bhw-a2-m1-cG B. subtilis SsbA P37455 P37455 2.208 X-RAY DIFFRACTION 10 0.99 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 99 101 HMLNRVVLVGRLTKDPELRYTPNGAAVATFTLAVNRTFEREADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYENQQGQRVFVTEVQAESVQFL MLNRVVLVGRLTKDPELRYTPNGAAVATFTLAVNRTFTGEREADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYENQQGQRVFVTEVQAESVQFLE 6bhw-a2-m1-cF_6bhw-a2-m1-cE B. subtilis SsbA P37455 P37455 2.208 X-RAY DIFFRACTION 95 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 96 99 6bhw-a1-m1-cD_6bhw-a1-m1-cC 6bhx-a1-m1-cB_6bhx-a1-m1-cC HMLNRVVLVGRLTKDPELRYTPNGAAVATFTLAVNRTFEADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYENQQGQRVFVTEVQAESVQF HMLNRVVLVGRLTKDPELRYTPNGAAVATFTLAVNRTFEREADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYENQQGQRVFVTEVQAESVQFL 6bhx-a1-m1-cA_6bhx-a1-m1-cC B. subtilis SsbA with DNA P37455 P37455 2.936 X-RAY DIFFRACTION 24 0.99 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 98 102 6bhw-a1-m1-cB_6bhw-a1-m1-cC 6bhw-a2-m1-cF_6bhw-a2-m1-cG GSHMLNRVVLVGRLTKDPELRYTPNGAAVATFTLAVNRTFTEADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYGQRVFVTEVQAESVQFLEP GSHMLNRVVLVGRLTKDPELRYTPNGAAVATFTLAVNRTFREADFINCVTWRRQAENVANFLKKGSLAGVDGRLQTRNYENQQGQRVFVTEVQAESVQFLEP 6bhy-a1-m2-cB_6bhy-a1-m1-cA Mouse Immunoglobulin G 2c Fc fragment with single GlcNAc Q58E56 Q58E56 2.04 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 209 6bhq-a1-m1-cB_6bhq-a1-m1-cA GPSVFIFPPKIKDVLMISLSPMVTCVVVDVSEDDPDVQISWFVNNVEVHTAQTQTHREDYNSTLRVVSALPIQHQDWMSGKEFKCKVNNRALPSPIEKTISKPRGPVRAPQVYVLPPPAEEMTKKEFSLTCMITGFLPAEIAVDWTSNGRTEQNYKNTATVLDSDGSYFMYSKLRVQKSTWERGSLFACSVVHEGLHNHLTTKTISR GPSVFIFPPKIKDVLMISLSPMVTCVVVDVSEDDPDVQISWFVNNVEVHTAQTQTHREDYNSTLRVVSALPIQHQDWMSGKEFKCKVNNRALPSPIEKTISKPRGPVRAPQVYVLPPPAEEMTKKEFSLTCMITGFLPAEIAVDWTSNGRTEQNYKNTATVLDSDGSYFMYSKLRVQKSTWERGSLFACSVVHEGLHNHLTTKTISRSL 6bi4-a2-m1-cB_6bi4-a2-m1-cC 2.9 Angstrom Resolution Crystal Structure of dTDP-Glucose 4,6-dehydratase (rfbB) from Bacillus anthracis str. Ames in Complex with NAD. A0A6L7HMN5 A0A6L7HMN5 2.91 X-RAY DIFFRACTION 64 1.0 198094 (Bacillus anthracis str. Ames) 198094 (Bacillus anthracis str. Ames) 305 306 6bi4-a1-m1-cD_6bi4-a1-m1-cA ANILVTGGAGFIGSNFVHYLQSYETYKIINFDALTYSGNLNNVKSIQDHPNYYFVKGEIQNGELLEHVIKERDVQVIVNFAAESIPFYDTNVIGTVTLLELVKKYPHIKLVQVSTDEVYGSLGKTGRFTEETPLAPNSPYSSSKASADIALAYYKTYQLPVIVTRCSNNYGPYQYPEKLIPLVTNALEGKKLPLYGDGLNVRDWLHVTDHCSAIDVVLHKGRVGEVYNIGGNNEKTNVEVVEQIITLLGKTKKDIEYVTGHDRRYAINAEKKNEFDWEPKYTFEQGLQETVQWYEKNEEWWKPLK ANILVTGGAGFIGSNFVHYLQSYETYKIINFDALTYSGNLNNVKSIQDHPNYYFVKGEIQNGELLEHVIKERDVQVIVNFAAESIPFYDTNVIGTVTLLELVKKYPHIKLVQVSTDEVYGSLGKTGRFTEETPLAPNSPYSSSKASADIALAYYKTYQLPVIVTRCSNNYGPYQYPEKLIPLVTNALEGKKLPLYGDGLNVRDWLHVTDHCSAIDVVLHKGRVGEVYNIGGNNEKTNVEVVEQIITLLGKTKKDIEYVTDGHDRRYAINAEKKNEFDWEPKYTFEQGLQETVQWYEKNEEWWKPLK 6bie-a1-m1-cA_6bie-a1-m2-cB MISREADING CHAPERONE-SUBSTRATE COMPLEXES FROM RANDOM NOISE P77754 P77754 1.77 X-RAY DIFFRACTION 11 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 97 97 SFKDLNLTDAQKQQIREIMKGQRDQMKRPPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLAHMETQNKIYNILTPEQKKQFNANFEKRLT SFKDLNLTDAQKQQIREIMKGQRDQMKRPPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLAHMETQNKIYNILTPEQKKQFNANFEKRLT 6bie-a2-m1-cA_6bie-a2-m4-cA MISREADING CHAPERONE-SUBSTRATE COMPLEXES FROM RANDOM NOISE P77754 P77754 1.77 X-RAY DIFFRACTION 15 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 97 97 SFKDLNLTDAQKQQIREIMKGQRDQMKRPPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLAHMETQNKIYNILTPEQKKQFNANFEKRLT SFKDLNLTDAQKQQIREIMKGQRDQMKRPPLEERRAMHDIIASDTFDKVKAEAQIAKMEEQRKANMLAHMETQNKIYNILTPEQKKQFNANFEKRLT 6bii-a1-m1-cA_6bii-a1-m1-cB Crystal Structure of Pyrococcus yayanosii Glyoxylate Hydroxypyruvate Reductase in complex with NADP and malonate (re-refinement of 5AOW) F8AEA4 F8AEA4 2 X-RAY DIFFRACTION 237 1.0 529709 (Pyrococcus yayanosii CH1) 529709 (Pyrococcus yayanosii CH1) 332 332 KPKVLITRAIPENGIELLREHFEVEVWEHEHEIPREVLLEKVKDVDALVTMLSEKIDREVFDAAPRLRIVANYAVGYDNIDIEEATKRGIYVTNTPDVLTDATADLAWALLLAAARHVVKGDKFVRSGEWKRRGIAWHPKMFLGYDVYGKTIGIVGFGRIGQAIAKRAKGFGMRILYTARSRKPEAEKELGAEFKPLEELLRESDFVVLAVPLTKETYHMINEERLRLMKPTAVLVNVARGKVVDTKALIRALKEGWIAAAGLDVFEEEPYYDEELFALDNVVLTPHIGSATFGAREGMAELVAKNLIAFKNGEVPPTLVNREVLKVRRPGF KPKVLITRAIPENGIELLREHFEVEVWEHEHEIPREVLLEKVKDVDALVTMLSEKIDREVFDAAPRLRIVANYAVGYDNIDIEEATKRGIYVTNTPDVLTDATADLAWALLLAAARHVVKGDKFVRSGEWKRRGIAWHPKMFLGYDVYGKTIGIVGFGRIGQAIAKRAKGFGMRILYTARSRKPEAEKELGAEFKPLEELLRESDFVVLAVPLTKETYHMINEERLRLMKPTAVLVNVARGKVVDTKALIRALKEGWIAAAGLDVFEEEPYYDEELFALDNVVLTPHIGSATFGAREGMAELVAKNLIAFKNGEVPPTLVNREVLKVRRPGF 6bja-a1-m1-cA_6bja-a1-m4-cA Crystal structure of Acat5 thiolase from Ascaris suum in complex with coenzyme A F1L3N8 F1L3N8 1.60001 X-RAY DIFFRACTION 42 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 381 381 6bja-a1-m2-cA_6bja-a1-m3-cA KDVYILSAVRTPIASFRSTLTSLSAVDLGIVVTKEAIKRSLLPSSAIEETIVGNVLSAGLGQNIARQISIASEIPKSSQCVTINKVSSSMKAIIMGAQAIQVGYRRIVVALGSESMSNAPFYVPRGEIPFGGVQLVDALQRDGLMDSIEYQPMGLCAEKTVKDYAFTREQLDAYAIESYRKAEHAWKEGAFNKEVVPVSVVVLTEDEEYKRLIPEKVPALHPAFLKDGSGTITAANASTINDGAAACVLASGEVVQEGRLKPIAKVLSYAEAGVEPIDFTVAPALAVKQLLSQSGLDEESIALWEINEAFSVTGLAFIKELRLDPKRVNVRGGAVALGHPLGASGARIVVTLVHALKSDELGVAAICNGGGEASAILIKKL KDVYILSAVRTPIASFRSTLTSLSAVDLGIVVTKEAIKRSLLPSSAIEETIVGNVLSAGLGQNIARQISIASEIPKSSQCVTINKVSSSMKAIIMGAQAIQVGYRRIVVALGSESMSNAPFYVPRGEIPFGGVQLVDALQRDGLMDSIEYQPMGLCAEKTVKDYAFTREQLDAYAIESYRKAEHAWKEGAFNKEVVPVSVVVLTEDEEYKRLIPEKVPALHPAFLKDGSGTITAANASTINDGAAACVLASGEVVQEGRLKPIAKVLSYAEAGVEPIDFTVAPALAVKQLLSQSGLDEESIALWEINEAFSVTGLAFIKELRLDPKRVNVRGGAVALGHPLGASGARIVVTLVHALKSDELGVAAICNGGGEASAILIKKL 6bja-a1-m2-cA_6bja-a1-m4-cA Crystal structure of Acat5 thiolase from Ascaris suum in complex with coenzyme A F1L3N8 F1L3N8 1.60001 X-RAY DIFFRACTION 14 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 381 381 6bja-a1-m1-cA_6bja-a1-m3-cA KDVYILSAVRTPIASFRSTLTSLSAVDLGIVVTKEAIKRSLLPSSAIEETIVGNVLSAGLGQNIARQISIASEIPKSSQCVTINKVSSSMKAIIMGAQAIQVGYRRIVVALGSESMSNAPFYVPRGEIPFGGVQLVDALQRDGLMDSIEYQPMGLCAEKTVKDYAFTREQLDAYAIESYRKAEHAWKEGAFNKEVVPVSVVVLTEDEEYKRLIPEKVPALHPAFLKDGSGTITAANASTINDGAAACVLASGEVVQEGRLKPIAKVLSYAEAGVEPIDFTVAPALAVKQLLSQSGLDEESIALWEINEAFSVTGLAFIKELRLDPKRVNVRGGAVALGHPLGASGARIVVTLVHALKSDELGVAAICNGGGEASAILIKKL KDVYILSAVRTPIASFRSTLTSLSAVDLGIVVTKEAIKRSLLPSSAIEETIVGNVLSAGLGQNIARQISIASEIPKSSQCVTINKVSSSMKAIIMGAQAIQVGYRRIVVALGSESMSNAPFYVPRGEIPFGGVQLVDALQRDGLMDSIEYQPMGLCAEKTVKDYAFTREQLDAYAIESYRKAEHAWKEGAFNKEVVPVSVVVLTEDEEYKRLIPEKVPALHPAFLKDGSGTITAANASTINDGAAACVLASGEVVQEGRLKPIAKVLSYAEAGVEPIDFTVAPALAVKQLLSQSGLDEESIALWEINEAFSVTGLAFIKELRLDPKRVNVRGGAVALGHPLGASGARIVVTLVHALKSDELGVAAICNGGGEASAILIKKL 6bja-a1-m3-cA_6bja-a1-m4-cA Crystal structure of Acat5 thiolase from Ascaris suum in complex with coenzyme A F1L3N8 F1L3N8 1.60001 X-RAY DIFFRACTION 189 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 381 381 6bja-a1-m1-cA_6bja-a1-m2-cA KDVYILSAVRTPIASFRSTLTSLSAVDLGIVVTKEAIKRSLLPSSAIEETIVGNVLSAGLGQNIARQISIASEIPKSSQCVTINKVSSSMKAIIMGAQAIQVGYRRIVVALGSESMSNAPFYVPRGEIPFGGVQLVDALQRDGLMDSIEYQPMGLCAEKTVKDYAFTREQLDAYAIESYRKAEHAWKEGAFNKEVVPVSVVVLTEDEEYKRLIPEKVPALHPAFLKDGSGTITAANASTINDGAAACVLASGEVVQEGRLKPIAKVLSYAEAGVEPIDFTVAPALAVKQLLSQSGLDEESIALWEINEAFSVTGLAFIKELRLDPKRVNVRGGAVALGHPLGASGARIVVTLVHALKSDELGVAAICNGGGEASAILIKKL KDVYILSAVRTPIASFRSTLTSLSAVDLGIVVTKEAIKRSLLPSSAIEETIVGNVLSAGLGQNIARQISIASEIPKSSQCVTINKVSSSMKAIIMGAQAIQVGYRRIVVALGSESMSNAPFYVPRGEIPFGGVQLVDALQRDGLMDSIEYQPMGLCAEKTVKDYAFTREQLDAYAIESYRKAEHAWKEGAFNKEVVPVSVVVLTEDEEYKRLIPEKVPALHPAFLKDGSGTITAANASTINDGAAACVLASGEVVQEGRLKPIAKVLSYAEAGVEPIDFTVAPALAVKQLLSQSGLDEESIALWEINEAFSVTGLAFIKELRLDPKRVNVRGGAVALGHPLGASGARIVVTLVHALKSDELGVAAICNGGGEASAILIKKL 6bje-a3-m2-cB_6bje-a3-m1-cA Crystal Structure of Lysophospholipase A2 Conjugated with Phenylmethylsulfonyl Fluoride O95372 O95372 2.7 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 220 6bje-a3-m1-cB_6bje-a3-m2-cA LLTDAATVSGAERETAAVIFLHGLGDTGHSWADALSTIRLPHVKYICPHAPRIPVTLNMKMVMPSWFDLMGLSPDAPEDEAGIKKAAENIKALIEHEMKNGIPANRIVLGGFSQGGALSLYTALTCPHPLAGIVALSCWLPLHRANGSAKDLAILQCHGELDPMVPVRFGALTAEKLRSVVTPARVQFKTYPGVMHSSCPQEMAAVKEFLEKLLPPV LLTDAATVSGAERETAAVIFLHGLGDTGHSWADALSTIRLPHVKYICPHAPRIPVTLNMKMVMPSWFDLMGLSPDAPEDEAGIKKAAENIKALIEHEMKNGIPANRIVLGGFSQGGALSLYTALTCPHPLAGIVALSCWLPLHRAFPQNGSAKDLAILQCHGELDPMVPVRFGALTAEKLRSVVTPARVQFKTYPGVMHSSCPQEMAAVKEFLEKLLPPV 6bje-a4-m1-cB_6bje-a4-m1-cA Crystal Structure of Lysophospholipase A2 Conjugated with Phenylmethylsulfonyl Fluoride O95372 O95372 2.7 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 217 220 6bje-a3-m1-cB_6bje-a3-m1-cA 6bje-a3-m2-cB_6bje-a3-m2-cA LLTDAATVSGAERETAAVIFLHGLGDTGHSWADALSTIRLPHVKYICPHAPRIPVTLNMKMVMPSWFDLMGLSPDAPEDEAGIKKAAENIKALIEHEMKNGIPANRIVLGGFSQGGALSLYTALTCPHPLAGIVALSCWLPLHRANGSAKDLAILQCHGELDPMVPVRFGALTAEKLRSVVTPARVQFKTYPGVMHSSCPQEMAAVKEFLEKLLPPV LLTDAATVSGAERETAAVIFLHGLGDTGHSWADALSTIRLPHVKYICPHAPRIPVTLNMKMVMPSWFDLMGLSPDAPEDEAGIKKAAENIKALIEHEMKNGIPANRIVLGGFSQGGALSLYTALTCPHPLAGIVALSCWLPLHRAFPQNGSAKDLAILQCHGELDPMVPVRFGALTAEKLRSVVTPARVQFKTYPGVMHSSCPQEMAAVKEFLEKLLPPV 6bjo-a1-m1-cB_6bjo-a1-m1-cA PICK1 PDZ domain in complex with the small molecule inhibitor BIO124. Q9NRD5 Q9NRD5 1.75 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 86 2gzv-a2-m1-cA_2gzv-a2-m2-cA 6ar4-a1-m1-cA_6ar4-a1-m1-cB 6bjn-a1-m1-cA_6bjn-a1-m1-cB VPGKVTLQKDAQNLIGISIGGGAYCPCLYIVQVFDNTPAALDGTVAAGDEITGVNGRSIKGKTKVEVAKMIQEVKGEVTIHYNKL VPGKVTLQKDAQNLIGISIGGGAQYCPCLYIVQVFDNTPAALDGTVAAGDEITGVNGRSIKGKTKVEVAKMIQEVKGEVTIHYNKL 6bkj-a1-m1-cF_6bkj-a1-m1-cA Crystal Structure of Human Calpain-3 Protease Core in Complex with Leupeptin P20807 3.2 X-RAY DIFFRACTION 13 1.0 66430 (Streptomyces roseus) 9606 (Homo sapiens) 2 307 6bkj-a2-m1-cG_6bkj-a2-m1-cB 6bkj-a3-m1-cH_6bkj-a3-m1-cC 6bkj-a4-m1-cI_6bkj-a4-m1-cD LL KEKTFEQLHKKCLEKKVLYVDPEFPPDETSLFYSQKFPIQFVWKRPPEICENPRFIIDGANRTDICQGELGDCWFLAAIACLTLNQHLLFRVIPHDQSFIENYAGIFHFQFWRYGEWVDVVIDDCLPTYNNQLVFTKSNHRNEFWSALLEKAYAKLHGSYEALKGGNTTEAMEDFTGGVAEFFEIRDAPSDMYKIMKKAIERGSLMGCSIDDGTRMACGLVRGHAYSVTGLDEVPFKGEKVKLVRLRNPWGQVEWNGSWSDRWKDWSFVDKDEKARLQHQVTEDGEFWMSYEDFIYHFTKLEICNLT 6bl7-a1-m1-cB_6bl7-a1-m1-cA S. cerevisiae stu2 coiled coil domain P46675 P46675 2.5 X-RAY DIFFRACTION 115 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 93 94 EKLIEEYKYRLQKLQNDEIWTKERQSLLEKNNTENYKIEIKENELREQLKEAQSKLNEKNIQLRSKEIDVNKLSDRVLSLENELRNEIELDRN NEKLIEEYKYRLQKLQNDEIWTKERQSLLEKNNTENYKIEIKENELREQLKEAQSKLNEKNIQLRSKEIDVNKLSDRVLSLENELRNEIELDRN 6blg-a2-m1-cA_6blg-a2-m2-cA Crystal Structure of Sugar Transaminase from Klebsiella pneumoniae Complexed with PLP A6TGH9 A6TGH9 2.102 X-RAY DIFFRACTION 173 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 375 375 MIPFNAPPVVGTELDYMQSAMNSGKLCGDGGFTRRCQQWMEQRFGTAKALLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDIRRDTMNIDETLIEAAITDKTRAIVPVHYAGVACEMDTIMAIADKYNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETNYTAGGEGGATLINDRTLVERAEIIREKGTNRSQFFRGLVDKYTWRDIGSSYLMSDLQAAYLWAQLEAAERINQQRLALWQNYYDALLPLARAGRIELPTVPADCGQNAHMFYIKLRDIEDRSRLIAWLKEAEILAVFHYIPLHSCPAGEQFGEFRGEDRYTTQESERLVRLPLFYNLSVVNQRTVINSLLSYFS MIPFNAPPVVGTELDYMQSAMNSGKLCGDGGFTRRCQQWMEQRFGTAKALLTPSCTASLEMAALLLDIQPGDEVIMPSYTFVSTANAFVLRGAKIVFVDIRRDTMNIDETLIEAAITDKTRAIVPVHYAGVACEMDTIMAIADKYNLFVVEDAAQGVMSTYKGRALGTIGHIGCFSFHETNYTAGGEGGATLINDRTLVERAEIIREKGTNRSQFFRGLVDKYTWRDIGSSYLMSDLQAAYLWAQLEAAERINQQRLALWQNYYDALLPLARAGRIELPTVPADCGQNAHMFYIKLRDIEDRSRLIAWLKEAEILAVFHYIPLHSCPAGEQFGEFRGEDRYTTQESERLVRLPLFYNLSVVNQRTVINSLLSYFS 6blj-a1-m1-cB_6blj-a1-m1-cA Crystal structure of cytoplasmic Serine-tRNA ligase from Naegleria fowleri in complex with AMP 2.1 X-RAY DIFFRACTION 34 0.984 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 435 473 HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGKSKKQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEVGNRMKNKVPLGDDLELPKEVTDDVYALFTKEALEQGSLAKLNTNQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN 6blj-a1-m1-cC_6blj-a1-m1-cB Crystal structure of cytoplasmic Serine-tRNA ligase from Naegleria fowleri in complex with AMP 2.1 X-RAY DIFFRACTION 16 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 431 435 HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGKSKKQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN 6blj-a1-m2-cB_6blj-a1-m1-cA Crystal structure of cytoplasmic Serine-tRNA ligase from Naegleria fowleri in complex with AMP 2.1 X-RAY DIFFRACTION 26 0.984 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 435 473 HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGKSKKQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEVGNRMKNKVPLGDDLELPKEVTDDVYALFTKEALEQGSLAKLNTNQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN 6blj-a2-m1-cC_6blj-a2-m1-cA Crystal structure of cytoplasmic Serine-tRNA ligase from Naegleria fowleri in complex with AMP 2.1 X-RAY DIFFRACTION 178 0.993 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 431 473 6blj-a1-m1-cC_6blj-a1-m1-cA HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEVGNRMKNKVPLGDDLELPKEVTDDVYALFTKEALEQGSLAKLNTNQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN 6blj-a3-m1-cB_6blj-a3-m2-cB Crystal structure of cytoplasmic Serine-tRNA ligase from Naegleria fowleri in complex with AMP 2.1 X-RAY DIFFRACTION 164 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 435 435 6blj-a1-m1-cB_6blj-a1-m2-cB HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGKSKKQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN HHHMLDINLFREYKGGNPEIIRESQRRRFADVTLVDKVIELDEVWRATIGKLNHIKSFTGIISKEQLKKLSTYITEVHIKNSEEEVKQKEKERDDVLLQIGNIVHETVVVSDNEDNNGIVRMVGNPRPKVDPETGYKCLKHIDIMRKLGGLATEEGTQVGGGRGYFLLGDLVRMNLALQNYAIDFLAKKGYMPIYTPFFMTKEQMKKVAQLSQFDEELYTVTGEGEDKYLIATSEQPIAAFHLEKRFDESELPIKYCGMSTCFRKEVGAHGKDTLGIFRVHQFEKIEQFVVTSPKDNKSWEMFDEMIGNSEAFYQSLGIPYRVVNIVSGALNNAAAKKFDLEAWFPGADEGNEYRELVSCSNCTDYQTRRLEVKYGKSKKQGSEVEFCHMLNSTLTATSRTLCCIVENYQTPEGVNVPEVLQPYMGGTKFIKFKN 6blm-a1-m1-cA_6blm-a1-m1-cB Crystal Structure of Native Fused 4-OT Q392K7 Q392K7 1.488 X-RAY DIFFRACTION 106 1.0 482957 (Burkholderia lata) 482957 (Burkholderia lata) 127 127 6ogm-a1-m1-cF_6ogm-a1-m1-cE 6ogm-a2-m1-cL_6ogm-a2-m1-cK PTLEVFLPAGHDDARKAELIARLTGATVDSIGAPIESVRVLLTELPATHIGLGGRSAADGAPPSLPVIVAILIAGRTDEQKRALIAALSETSASVLDAPLQATRVMIKDIPNTDFGIGGQTARALGR PTLEVFLPAGHDDARKAELIARLTGATVDSIGAPIESVRVLLTELPATHIGLGGRSAADGAPPSLPVIVAILIAGRTDEQKRALIAALSETSASVLDAPLQATRVMIKDIPNTDFGIGGQTARALGR 6blm-a1-m1-cA_6blm-a1-m1-cC Crystal Structure of Native Fused 4-OT Q392K7 Q392K7 1.488 X-RAY DIFFRACTION 104 1.0 482957 (Burkholderia lata) 482957 (Burkholderia lata) 127 127 PTLEVFLPAGHDDARKAELIARLTGATVDSIGAPIESVRVLLTELPATHIGLGGRSAADGAPPSLPVIVAILIAGRTDEQKRALIAALSETSASVLDAPLQATRVMIKDIPNTDFGIGGQTARALGR PTLEVFLPAGHDDARKAELIARLTGATVDSIGAPIESVRVLLTELPATHIGLGGRSAADGAPPSLPVIVAILIAGRTDEQKRALIAALSETSASVLDAPLQATRVMIKDIPNTDFGIGGQTARALGR 6blm-a1-m1-cB_6blm-a1-m1-cC Crystal Structure of Native Fused 4-OT Q392K7 Q392K7 1.488 X-RAY DIFFRACTION 101 1.0 482957 (Burkholderia lata) 482957 (Burkholderia lata) 127 127 6ogm-a1-m1-cB_6ogm-a1-m1-cD 6ogm-a2-m1-cH_6ogm-a2-m1-cJ PTLEVFLPAGHDDARKAELIARLTGATVDSIGAPIESVRVLLTELPATHIGLGGRSAADGAPPSLPVIVAILIAGRTDEQKRALIAALSETSASVLDAPLQATRVMIKDIPNTDFGIGGQTARALGR PTLEVFLPAGHDDARKAELIARLTGATVDSIGAPIESVRVLLTELPATHIGLGGRSAADGAPPSLPVIVAILIAGRTDEQKRALIAALSETSASVLDAPLQATRVMIKDIPNTDFGIGGQTARALGR 6bm9-a2-m1-cC_6bm9-a2-m1-cD Directed evolutionary changes in MBL super family - VIM-2 Round 10 Q5U7L7 Q5U7L7 2.19 X-RAY DIFFRACTION 327 0.996 562 (Escherichia coli) 562 (Escherichia coli) 224 225 6bm9-a1-m1-cB_6bm9-a1-m1-cA EYPTASEIPDGEVRLYQIADGVWSHIAAQAYPSNGLIVRDGDELLLIDTAWGAKNTAALLAEIEKQIGLPVTRAVSTHFHDDRVGGVDVLRAAGVATYASPSTRRLAKVEGTEIPTHSLEGLSSSGDAVRFGPVELFYPGAAHSPDNLIVYVPSARVLYGGCAIYELSRTSAGNVAAADLAEWPTSIERIQQHYPEAQFVIPGHGLPGGLDLLKHTSDVVKAHT EYPTASEIPDGEVRLYQIADGVWSHIAAQPYPSNGLIVRDGDELLLIDTAWGAKNTAALLAEIEKQIGLPVTRAVSTHFHDDRVGGVDVLRAAGVATYASPSTRRLAKVEGTEIPTHSLEGLSSSGDAVRFGPVELFYPGAAHSPDNLIVYVPSARVLYGGCAIYELSRTSAGNVAAADLAEWPTSIERIQQHYPEAQFVIPGHGLPGGLDLLKHTSDVVKAHTN 6bma-a1-m1-cA_6bma-a1-m1-cB The crystal structure of indole-3-glycerol phosphate synthase from Campylobacter jejuni subsp. jejuni NCTC 11168 Q9PI11 Q9PI11 1.98 X-RAY DIFFRACTION 110 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 259 259 AMILDKIFEKTKEDLKERKLKLPYDMLGRSLASNPFFPKDVIKALKRVEKEVKIIAEVKKASPSKGVIREDFDPLSIALNYEKNKAAAISVLTEPHFFKGSLEYLSLIRRYTQIPLLRKDFIFDEYQILEALVYGADFVLLIAKMLSMKELKKLLEFARHLGLEALVEIHDKEDLSKAIFAGADIIGINHRNLEDFTMDMSLCEKLIPQIPNSKIIIAESGLENKEFLEHLQNLGVDAFLIGEYFMREKDEGKALKALL AMILDKIFEKTKEDLKERKLKLPYDMLGRSLASNPFFPKDVIKALKRVEKEVKIIAEVKKASPSKGVIREDFDPLSIALNYEKNKAAAISVLTEPHFFKGSLEYLSLIRRYTQIPLLRKDFIFDEYQILEALVYGADFVLLIAKMLSMKELKKLLEFARHLGLEALVEIHDKEDLSKAIFAGADIIGINHRNLEDFTMDMSLCEKLIPQIPNSKIIIAESGLENKEFLEHLQNLGVDAFLIGEYFMREKDEGKALKALL 6bmc-a1-m1-cA_6bmc-a1-m1-cB The structure of a dimeric type II DAH7PS associated with pyocyanin biosynthesis in Pseudomonas aeruginosa G3XCJ9 G3XCJ9 2.7 X-RAY DIFFRACTION 50 0.995 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 380 380 MDDLLQRVRRCEALQQPEWGDPSRLRDVQAYLRGSPALIRAGDILALRATLARVARGEALVVQCGDCAEDMDDHHAENVARKAAVLELLAGALRLAGRRPVIRVGRIAGQYAKPRSKPHEQTLPVYRGDMVNGREAHAEQRRADPQRILKGYAAARNIMRHLGWDAASASPVWTSHEMLLLDYELSMLREDEQRRVYLGSTHWPWIGERTRQVDGAHVALLAEVLNPVACKVGPEIGRDQLLALCERLDPRREPGRLTLIARMGAQKVGERLPPLVEAVRAAGHPVIWLSDPMHGNTIVAPCGNKTRLVRSIAEEVAAFRLAVSGSGGVAAGLHLETTPDDVTECVADSSGLHQVSRHYTSLCDPRLNPWQALSAVMAWS MDDLLQRVRRCEALQQPEWGDPSRLRDVQAYLRGSPALIRAGDILALRATLARVARGEALVVQCGDCAEDMDDHHAENVARKAAVLELLAGALRLAGRRPVIRVGRIAGQYAKPRSKPHEQEQTLPVYRGDMVNGREAHAEQRRADPQRILKGYAAARNIMRHLGWDAASPVWTSHEMLLLDYELSMLREDEQRRVYLGSTHWPWIGERTRQVDGAHVALLAEVLNPVACKVGPEIGRDQLLALCERLDPRREPGRLTLIARMGAQKVGERLPPLVEAVRAAGHPVIWLSDPMHGNTIVAPCGNKTRLVRSIAEEVAAFRLAVSGSGGVAAGLHLETTPDDVTECVADSSGLHQVSRHYTSLCDPRLNPWQALSAVMAWS 6bmf-a1-m1-cC_6bmf-a1-m1-cD Vps4p-Vta1p complex with peptide binding to the central pore of Vps4p P52917 P52917 3.2 ELECTRON MICROSCOPY 101 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 285 285 6bmf-a1-m1-cA_6bmf-a1-m1-cB 6bmf-a1-m1-cB_6bmf-a1-m1-cC 6bmf-a1-m1-cE_6bmf-a1-m1-cD NKKLRGALSSAILSEKPNVKWEDVAGLEGAKEALKEAVILPVKFPHLFKGNRKPTSGILLYGPPGTGKSYLAKAVATEANSTFFSVSSSDLVSKWMGESEKLVKQLFAMARENKPSIIFIDEVDALTGTRGEGESEASRRIKTELLVQMNGVGNDSQGVLVLGATNIPWQLDSAIRRRFERRIYIPLPDLAARTTMFEINVGDTPCVLTKEDYRTLGAMTEGYSGSDIAVVVKDALMQPIRKIQSAPDLTIKDFLKAIKSTRPTVNEDDLLKQEQFTRDFGQEGN NKKLRGALSSAILSEKPNVKWEDVAGLEGAKEALKEAVILPVKFPHLFKGNRKPTSGILLYGPPGTGKSYLAKAVATEANSTFFSVSSSDLVSKWMGESEKLVKQLFAMARENKPSIIFIDEVDALTGTRGEGESEASRRIKTELLVQMNGVGNDSQGVLVLGATNIPWQLDSAIRRRFERRIYIPLPDLAARTTMFEINVGDTPCVLTKEDYRTLGAMTEGYSGSDIAVVVKDALMQPIRKIQSAPDLTIKDFLKAIKSTRPTVNEDDLLKQEQFTRDFGQEGN 6bmn-a1-m1-cA_6bmn-a1-m1-cB Structure of human DHHC20 palmitoyltransferase, space group P63 Q5W0Z9 Q5W0Z9 2.25 X-RAY DIFFRACTION 21 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 289 293 6bml-a1-m1-cA_6bml-a1-m1-cB TLWRCCQRVVGWVPVLFITFVVVWSYYAYVVELCVFTIFGNEENGKTVVYLVAFHLFFVMFVWSYWMTIFTSPASPSKEFYLSNSEKERYEKEFSQERQQEILRRAARALPIYTTSASKTIRYCEKCQLIKPDRAHHCSACDSCILKMDHHCPWVNNCVGFSNYKFFLLFLLYSLLYCLFVAATVLEYFIKFWTTDTRAKFHVLFLFFVSAMFFISVLSLFSYHCWLVGKNRTTIESFRAPTFSYGPDGNGFSLGCSKNWRQVFGDEKKYWLLPIFSSLGDGCSFPTRL LWRCCQRVVGWVPVLFITFVVVWSYYAYVVELCVFTIFGNEENGKTVVYLVAFHLFFVMFVWSYWMTIFTSPASPSKEFYLSNSEKERYEKEFSQERQQEILRRAARALPIYTTSASKTIRYCEKCQLIKPDRAHHCSACDSCILKMDHHPWVNNCVGFSNYKFFLLFLLYSLLYCLFVAATVLEYFIKFWTNELTDTRAKFHVLFLFFVSAMFFISVLSLFSYHCWLVGKNRTTIESFRAPTFSYGPDGNGFSLGCSKNWRQVFGDEKKYWLLPIFSSLGDGCSFPTRLVGM 6bmq-a1-m1-cA_6bmq-a1-m2-cA Crystal structure of Arabidopsis Dehydroquinate dehydratase-shikimate dehydrogenase (T381G mutant) in complex with tartrate and shikimate Q9SQT8 Q9SQT8 2.077 X-RAY DIFFRACTION 77 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 498 498 2o7q-a2-m1-cA_2o7q-a2-m2-cA 2o7s-a2-m1-cA_2o7s-a2-m2-cA 6bmb-a2-m1-cA_6bmb-a2-m2-cA VKNPSLICAPVMADSIDKMVIETSKAHELGADLVEIRLDWLKDFNPLEDLKTIIKKSPLPTLFTYRPKWEGGQYEGDENERRDVLRLAMELGADYIDVELQVASEFIKSIDGKKPGKFKVIVSSHNYQNTPSVEDLDGLVARIQQTGADIVKIATTAVDIADVARMFHITSKAQVPTIGLVMGERGLMSRILCSKFGGYLTFGTLDSSKVSAPGQPTIKDLLDLYNFRRIGPDTKVYGIIGKPVSHSKSPIVHNQAFKSVDFNGVYVHLLVDNLVSFLQAYSSSDFAGFSCGIPHKEAALQCCDEVDPLAKSIGAVNTILRRKSDGKLLGYNTDCIGSISAIEDGLTVVVIGAGGAGKALAYGAKEKGAKVVIANRTYERELAEAIGALSLTDLDNYEDGMVLANTTSMGMQPNVEETPISKDALKHYALVFDAVYTPRITRLLREAEESGAITVSGSEMFVRQAYEQFEIFTGLPAPKELYWQIMSKYGSRENLYFQ VKNPSLICAPVMADSIDKMVIETSKAHELGADLVEIRLDWLKDFNPLEDLKTIIKKSPLPTLFTYRPKWEGGQYEGDENERRDVLRLAMELGADYIDVELQVASEFIKSIDGKKPGKFKVIVSSHNYQNTPSVEDLDGLVARIQQTGADIVKIATTAVDIADVARMFHITSKAQVPTIGLVMGERGLMSRILCSKFGGYLTFGTLDSSKVSAPGQPTIKDLLDLYNFRRIGPDTKVYGIIGKPVSHSKSPIVHNQAFKSVDFNGVYVHLLVDNLVSFLQAYSSSDFAGFSCGIPHKEAALQCCDEVDPLAKSIGAVNTILRRKSDGKLLGYNTDCIGSISAIEDGLTVVVIGAGGAGKALAYGAKEKGAKVVIANRTYERELAEAIGALSLTDLDNYEDGMVLANTTSMGMQPNVEETPISKDALKHYALVFDAVYTPRITRLLREAEESGAITVSGSEMFVRQAYEQFEIFTGLPAPKELYWQIMSKYGSRENLYFQ 6bn1-a2-m1-cA_6bn1-a2-m3-cA Salvador Hippo SARAH domain complex Q8T0S6 Q8T0S6 2.6 X-RAY DIFFRACTION 20 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 54 54 GEFEFLKFLTFDDLNQRLCNIDHEMELEIEQLNKKYNAKRQPIVDAMNAKRKRQ GEFEFLKFLTFDDLNQRLCNIDHEMELEIEQLNKKYNAKRQPIVDAMNAKRKRQ 6bn2-a1-m1-cA_6bn2-a1-m2-cA Crystal structure of Acetyl-CoA acetyltransferase from Elizabethkingia anophelis NUHP1 A0A077EEP0 A0A077EEP0 1.65 X-RAY DIFFRACTION 206 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 391 391 MKEVFIVSAVRTPMGSFMGSLSGVPATQLGAVAIKGALDKINLNPAEIQDVYMGNVLQAGEGQAPAKQAALGAGLPNTTPTTAVNKVASGMKAVMMAAQAVKAGDVEAIVAGGMENMSQVPHYIDGRNGVKLGDIKLQDGLLKDGLTDVYSKQHMGNAELCAKEYNITREEQDAFAIQSYERSAKAWSEGKFKEEVVPVSIPQRKGEPIIFAEDEEYKNVKFDRIPTLPTVFQKENGTVTAANASTLNDGASALVLMSKEKMESLGLKPLAKIVSYADAAQAPEWFTTAPAKALPIALAKANLTINDIDFFEFNEAFSVVGLANNKILGLDAAKVNVNGGAVALGHPLGSSGSRIIVTLINVLKQNNAKYGAAAICNGGGGASAIVIENIK MKEVFIVSAVRTPMGSFMGSLSGVPATQLGAVAIKGALDKINLNPAEIQDVYMGNVLQAGEGQAPAKQAALGAGLPNTTPTTAVNKVASGMKAVMMAAQAVKAGDVEAIVAGGMENMSQVPHYIDGRNGVKLGDIKLQDGLLKDGLTDVYSKQHMGNAELCAKEYNITREEQDAFAIQSYERSAKAWSEGKFKEEVVPVSIPQRKGEPIIFAEDEEYKNVKFDRIPTLPTVFQKENGTVTAANASTLNDGASALVLMSKEKMESLGLKPLAKIVSYADAAQAPEWFTTAPAKALPIALAKANLTINDIDFFEFNEAFSVVGLANNKILGLDAAKVNVNGGAVALGHPLGSSGSRIIVTLINVLKQNNAKYGAAAICNGGGGASAIVIENIK 6bnd-a1-m1-cA_6bnd-a1-m1-cB Crystal structure of the intrinsic colistin resistance enzyme ICR(Mc) from Moraxella catarrhalis, catalytic domain, Thr315Ala mutant mono-zinc and phosphoethanolamine complex A0A1E9VP98 A0A1E9VP98 1.66 X-RAY DIFFRACTION 76 1.0 1715217 (Moraxella sp. HMSC061H09) 1715217 (Moraxella sp. HMSC061H09) 335 335 TETIMHANDAIQKTTASTRKPRLVVMVVGETARADHASFNGYQRATFPHMDKLIGLGQVHNFGNVTSCGTSAAYSVPCMFSYLGAEKYDVDTADYHENVIDTLDRLGVAILWRDNNSDSKGVMNRLPAKQYQDYKNSPLQGGNNTICHTNPYDECRDVGMLVDLDDHVKAHANQDILIVLHQMGNHGPAYYKRYDDEFAQFLPVCTSSELAECERQTVINAYDNALLATDDFLKQTIDWLAAQTHADTAMLYLSDHGESLGEKGVYLHGMPKAFAPKEQLSIPALLWLGADTPFAVANSPTAGFSHDAITPTLLNLFDVSTQATADKTAFVNPLD TETIMHANDAIQKTTASTRKPRLVVMVVGETARADHASFNGYQRATFPHMDKLIGLGQVHNFGNVTSCGTSAAYSVPCMFSYLGAEKYDVDTADYHENVIDTLDRLGVAILWRDNNSDSKGVMNRLPAKQYQDYKNSPLQGGNNTICHTNPYDECRDVGMLVDLDDHVKAHANQDILIVLHQMGNHGPAYYKRYDDEFAQFLPVCTSSELAECERQTVINAYDNALLATDDFLKQTIDWLAAQTHADTAMLYLSDHGESLGEKGVYLHGMPKAFAPKEQLSIPALLWLGADTPFAVANSPTAGFSHDAITPTLLNLFDVSTQATADKTAFVNPLD 6bng-a1-m1-cB_6bng-a1-m2-cB Structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Acinetobacter baumannii B7H226 B7H226 2.2 X-RAY DIFFRACTION 89 1.0 557600 (Acinetobacter baumannii AB307-0294) 557600 (Acinetobacter baumannii AB307-0294) 270 270 6bng-a1-m1-cA_6bng-a1-m2-cA KPQEVVRLGDIQMANHLPFVLFGGMNVLESKDLAFEIAETYIDICKRLDIPYVFKASFDKANRSSLHSFRGPGLEKGIEWLGDIKKHFNVPIITDVHEPYQAAPVAEVADIIQLPAFLSRQTDLVEAMAKTQAIINIKKAQFLAPHEMRHILHKCLEAGNDKLILCERGSAFGYNNLVVDMLGFDIMKEMNVPVFFDVTHALQTPRRAQITTLARAGMATGLAGLFLESHPDPDKCDGPSALRLSQLEPFLAQLKELDTLVKGFKKLDTH KPQEVVRLGDIQMANHLPFVLFGGMNVLESKDLAFEIAETYIDICKRLDIPYVFKASFDKANRSSLHSFRGPGLEKGIEWLGDIKKHFNVPIITDVHEPYQAAPVAEVADIIQLPAFLSRQTDLVEAMAKTQAIINIKKAQFLAPHEMRHILHKCLEAGNDKLILCERGSAFGYNNLVVDMLGFDIMKEMNVPVFFDVTHALQTPRRAQITTLARAGMATGLAGLFLESHPDPDKCDGPSALRLSQLEPFLAQLKELDTLVKGFKKLDTH 6bng-a1-m2-cB_6bng-a1-m1-cA Structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Acinetobacter baumannii B7H226 B7H226 2.2 X-RAY DIFFRACTION 11 1.0 557600 (Acinetobacter baumannii AB307-0294) 557600 (Acinetobacter baumannii AB307-0294) 270 277 6bng-a1-m1-cB_6bng-a1-m2-cA KPQEVVRLGDIQMANHLPFVLFGGMNVLESKDLAFEIAETYIDICKRLDIPYVFKASFDKANRSSLHSFRGPGLEKGIEWLGDIKKHFNVPIITDVHEPYQAAPVAEVADIIQLPAFLSRQTDLVEAMAKTQAIINIKKAQFLAPHEMRHILHKCLEAGNDKLILCERGSAFGYNNLVVDMLGFDIMKEMNVPVFFDVTHALQTPRRAQITTLARAGMATGLAGLFLESHPDPDKCDGPSALRLSQLEPFLAQLKELDTLVKGFKKLDTH HHKPQEVVRLGDIQMANHLPFVLFGGMNVLESKDLAFEIAETYIDICKRLDIPYVFKASFDKANRSSLHSFRGPGLEKGIEWLGDIKKHFNVPIITDVHEPYQAAPVAEVADIIQLPAFLSRQTDLVEAMAKTQAIINIKKAQFLAPHEMRHILHKCLEAGNDKLILCERGSAFGYNNLVVDMLGFDIMKEMNVPVFFDVTHALQTPGGGRRAQITTLARAGMATGLAGLFLESHPDPDKAKCDGPSALRLSQLEPFLAQLKELDTLVKGFKKLDTH 6bng-a1-m2-cB_6bng-a1-m2-cA Structure of 2-dehydro-3-deoxyphosphooctonate aldolase from Acinetobacter baumannii B7H226 B7H226 2.2 X-RAY DIFFRACTION 115 1.0 557600 (Acinetobacter baumannii AB307-0294) 557600 (Acinetobacter baumannii AB307-0294) 270 277 6bng-a1-m1-cB_6bng-a1-m1-cA KPQEVVRLGDIQMANHLPFVLFGGMNVLESKDLAFEIAETYIDICKRLDIPYVFKASFDKANRSSLHSFRGPGLEKGIEWLGDIKKHFNVPIITDVHEPYQAAPVAEVADIIQLPAFLSRQTDLVEAMAKTQAIINIKKAQFLAPHEMRHILHKCLEAGNDKLILCERGSAFGYNNLVVDMLGFDIMKEMNVPVFFDVTHALQTPRRAQITTLARAGMATGLAGLFLESHPDPDKCDGPSALRLSQLEPFLAQLKELDTLVKGFKKLDTH HHKPQEVVRLGDIQMANHLPFVLFGGMNVLESKDLAFEIAETYIDICKRLDIPYVFKASFDKANRSSLHSFRGPGLEKGIEWLGDIKKHFNVPIITDVHEPYQAAPVAEVADIIQLPAFLSRQTDLVEAMAKTQAIINIKKAQFLAPHEMRHILHKCLEAGNDKLILCERGSAFGYNNLVVDMLGFDIMKEMNVPVFFDVTHALQTPGGGRRAQITTLARAGMATGLAGLFLESHPDPDKAKCDGPSALRLSQLEPFLAQLKELDTLVKGFKKLDTH 6bo6-a1-m1-cA_6bo6-a1-m4-cA Eubacterium eligens beta-glucuronidase bound to UNC4917 glucuronic acid conjugate C4Z6Z2 C4Z6Z2 2.801 X-RAY DIFFRACTION 63 1.0 515620 ([Eubacterium] eligens ATCC 27750) 515620 ([Eubacterium] eligens ATCC 27750) 493 493 6bo6-a1-m2-cA_6bo6-a1-m3-cA SDLSGVWDFKLDNGKGFEEKWYEKPLKDADTMPVPASYNDLKEGTDFRDHYGWVFYQRNISVLRCAAVTHYAMIYLNGKLICEHKGGFLPFEVELNDDLQDGDNLLTIAVNNVIDYTTLPVGGKANMMPQNNPNFDFFNYCGITRPVKIYLWQPLNAYLYKIYTLPYGVRSVRVDGTKFLINEKPFYFKGYGKHEDTFPNGRGINLPMNTKDISIMKWQHANSFRTSHYPYSEEMMRLCDEEGIVVIDETTAVGVNLQFGGGANFGGERIGTFDKEHGVQTQEHHKDVIRDLISRDKNHACVVMWSIANEPDSAAEGAYDYFKPLYDLARELDPQKRPCTLVSVQGTTADTDCSSQLSDVICLNRYYGWYFGGPDLEVSEIGLRKELSDWGKLGKPVMFTEYGADTVSGLHDTTSVMYTEEYQVEYYEMNNKVFDEFDFVVGEQAWNFADFATSQSLLRVQGNKKGLFTRDRKPKMVAHYFRNRWSTIPEFGY SDLSGVWDFKLDNGKGFEEKWYEKPLKDADTMPVPASYNDLKEGTDFRDHYGWVFYQRNISVLRCAAVTHYAMIYLNGKLICEHKGGFLPFEVELNDDLQDGDNLLTIAVNNVIDYTTLPVGGKANMMPQNNPNFDFFNYCGITRPVKIYLWQPLNAYLYKIYTLPYGVRSVRVDGTKFLINEKPFYFKGYGKHEDTFPNGRGINLPMNTKDISIMKWQHANSFRTSHYPYSEEMMRLCDEEGIVVIDETTAVGVNLQFGGGANFGGERIGTFDKEHGVQTQEHHKDVIRDLISRDKNHACVVMWSIANEPDSAAEGAYDYFKPLYDLARELDPQKRPCTLVSVQGTTADTDCSSQLSDVICLNRYYGWYFGGPDLEVSEIGLRKELSDWGKLGKPVMFTEYGADTVSGLHDTTSVMYTEEYQVEYYEMNNKVFDEFDFVVGEQAWNFADFATSQSLLRVQGNKKGLFTRDRKPKMVAHYFRNRWSTIPEFGY 6bo6-a1-m2-cA_6bo6-a1-m4-cA Eubacterium eligens beta-glucuronidase bound to UNC4917 glucuronic acid conjugate C4Z6Z2 C4Z6Z2 2.801 X-RAY DIFFRACTION 38 1.0 515620 ([Eubacterium] eligens ATCC 27750) 515620 ([Eubacterium] eligens ATCC 27750) 493 493 6bo6-a1-m1-cA_6bo6-a1-m3-cA SDLSGVWDFKLDNGKGFEEKWYEKPLKDADTMPVPASYNDLKEGTDFRDHYGWVFYQRNISVLRCAAVTHYAMIYLNGKLICEHKGGFLPFEVELNDDLQDGDNLLTIAVNNVIDYTTLPVGGKANMMPQNNPNFDFFNYCGITRPVKIYLWQPLNAYLYKIYTLPYGVRSVRVDGTKFLINEKPFYFKGYGKHEDTFPNGRGINLPMNTKDISIMKWQHANSFRTSHYPYSEEMMRLCDEEGIVVIDETTAVGVNLQFGGGANFGGERIGTFDKEHGVQTQEHHKDVIRDLISRDKNHACVVMWSIANEPDSAAEGAYDYFKPLYDLARELDPQKRPCTLVSVQGTTADTDCSSQLSDVICLNRYYGWYFGGPDLEVSEIGLRKELSDWGKLGKPVMFTEYGADTVSGLHDTTSVMYTEEYQVEYYEMNNKVFDEFDFVVGEQAWNFADFATSQSLLRVQGNKKGLFTRDRKPKMVAHYFRNRWSTIPEFGY SDLSGVWDFKLDNGKGFEEKWYEKPLKDADTMPVPASYNDLKEGTDFRDHYGWVFYQRNISVLRCAAVTHYAMIYLNGKLICEHKGGFLPFEVELNDDLQDGDNLLTIAVNNVIDYTTLPVGGKANMMPQNNPNFDFFNYCGITRPVKIYLWQPLNAYLYKIYTLPYGVRSVRVDGTKFLINEKPFYFKGYGKHEDTFPNGRGINLPMNTKDISIMKWQHANSFRTSHYPYSEEMMRLCDEEGIVVIDETTAVGVNLQFGGGANFGGERIGTFDKEHGVQTQEHHKDVIRDLISRDKNHACVVMWSIANEPDSAAEGAYDYFKPLYDLARELDPQKRPCTLVSVQGTTADTDCSSQLSDVICLNRYYGWYFGGPDLEVSEIGLRKELSDWGKLGKPVMFTEYGADTVSGLHDTTSVMYTEEYQVEYYEMNNKVFDEFDFVVGEQAWNFADFATSQSLLRVQGNKKGLFTRDRKPKMVAHYFRNRWSTIPEFGY 6bo6-a1-m3-cA_6bo6-a1-m4-cA Eubacterium eligens beta-glucuronidase bound to UNC4917 glucuronic acid conjugate C4Z6Z2 C4Z6Z2 2.801 X-RAY DIFFRACTION 92 1.0 515620 ([Eubacterium] eligens ATCC 27750) 515620 ([Eubacterium] eligens ATCC 27750) 493 493 6bo6-a1-m1-cA_6bo6-a1-m2-cA SDLSGVWDFKLDNGKGFEEKWYEKPLKDADTMPVPASYNDLKEGTDFRDHYGWVFYQRNISVLRCAAVTHYAMIYLNGKLICEHKGGFLPFEVELNDDLQDGDNLLTIAVNNVIDYTTLPVGGKANMMPQNNPNFDFFNYCGITRPVKIYLWQPLNAYLYKIYTLPYGVRSVRVDGTKFLINEKPFYFKGYGKHEDTFPNGRGINLPMNTKDISIMKWQHANSFRTSHYPYSEEMMRLCDEEGIVVIDETTAVGVNLQFGGGANFGGERIGTFDKEHGVQTQEHHKDVIRDLISRDKNHACVVMWSIANEPDSAAEGAYDYFKPLYDLARELDPQKRPCTLVSVQGTTADTDCSSQLSDVICLNRYYGWYFGGPDLEVSEIGLRKELSDWGKLGKPVMFTEYGADTVSGLHDTTSVMYTEEYQVEYYEMNNKVFDEFDFVVGEQAWNFADFATSQSLLRVQGNKKGLFTRDRKPKMVAHYFRNRWSTIPEFGY SDLSGVWDFKLDNGKGFEEKWYEKPLKDADTMPVPASYNDLKEGTDFRDHYGWVFYQRNISVLRCAAVTHYAMIYLNGKLICEHKGGFLPFEVELNDDLQDGDNLLTIAVNNVIDYTTLPVGGKANMMPQNNPNFDFFNYCGITRPVKIYLWQPLNAYLYKIYTLPYGVRSVRVDGTKFLINEKPFYFKGYGKHEDTFPNGRGINLPMNTKDISIMKWQHANSFRTSHYPYSEEMMRLCDEEGIVVIDETTAVGVNLQFGGGANFGGERIGTFDKEHGVQTQEHHKDVIRDLISRDKNHACVVMWSIANEPDSAAEGAYDYFKPLYDLARELDPQKRPCTLVSVQGTTADTDCSSQLSDVICLNRYYGWYFGGPDLEVSEIGLRKELSDWGKLGKPVMFTEYGADTVSGLHDTTSVMYTEEYQVEYYEMNNKVFDEFDFVVGEQAWNFADFATSQSLLRVQGNKKGLFTRDRKPKMVAHYFRNRWSTIPEFGY 6boc-a1-m1-cA_6boc-a1-m1-cD Influenza A M2 transmembrane domain bound to rimantadine in the Inward(open) conformation Q9Q0L9 Q9Q0L9 2.25 X-RAY DIFFRACTION 29 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 25 25 3bkd-a1-m1-cE_3bkd-a1-m1-cF 3bkd-a1-m1-cE_3bkd-a1-m1-cH 3bkd-a1-m1-cF_3bkd-a1-m1-cG 3bkd-a2-m1-cA_3bkd-a2-m1-cB 3bkd-a2-m1-cA_3bkd-a2-m1-cD 3bkd-a2-m1-cB_3bkd-a2-m1-cC 3c9j-a1-m1-cA_3c9j-a1-m1-cB 3c9j-a1-m1-cA_3c9j-a1-m1-cD 3c9j-a1-m1-cB_3c9j-a1-m1-cC 3c9j-a1-m1-cC_3c9j-a1-m1-cD 6boc-a1-m1-cA_6boc-a1-m1-cB 6boc-a1-m1-cB_6boc-a1-m1-cC 6boc-a1-m1-cC_6boc-a1-m1-cD SSDPLVVAASIIGILHLILWILDRL SSDPLVVAASIIGILHLILWILDRL 6bp9-a1-m1-cA_6bp9-a1-m1-cB HSPB5 alpha-crystallin domain mutant R120G-ACD P02511 P02511 NOT SOLUTION NMR 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 GLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHGKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV GLSEMRLEKDRFSVNLDVKHFSPEELKVKVLGDVIEVHGKHEERQDEHGFISREFHGKYRIPADVDPLTITSSLSSDGVLTVNGPRKQV 6bph-a1-m1-cA_6bph-a1-m2-cA Crystal structure of the chromodomain of RBBP1 P29374 P29374 1.85 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 MEPCLTGTKVKVKYGRGKTQKIYEASIKSTEIDDGEVLYLVHYYGWNVRYDEWVKADRIIWPLDKG MEPCLTGTKVKVKYGRGKTQKIYEASIKSTEIDDGEVLYLVHYYGWNVRYDEWVKADRIIWPLDKG 6bpy-a1-m1-cB_6bpy-a1-m1-cA Aspergillus fumigatus Thioredoxin Reductase A0A229Y1X4 A0A229Y1X4 3.201 X-RAY DIFFRACTION 111 0.997 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 319 324 MVHTKVVIIGSGPAAHTAAIYLSRAELKPVLYEGMLGQLTTTTDIENFPGFPDGIGGAELMENMRKQSIRFGTEVITETISRVDLSSKPFKLWTEWNDGPDKEPACTADAVIIATGANARRLNLPGEETYWQNGISACAVCDGAVPIFRNKPLYVIGGGDSAAEEAMFLAKYGSSVTVLVRRDKLRASKAMAKRLLAHPKVTVRFNTVATEVLGEKKPNGLMTHLRIKNTVTGEEEIVDANGLFYAVGHDPATALVKGQIDLDEDGYIITKPGTSYTSREGVFACGDVQDKRYRQAITSAGSGCIAALEAEKFIAEAES VHTKVVIIGSGPAAHTAAIYLSRAELKPVLYEGMLANTAAGGQLTTTTDIENFPGFPDGIGGAELMENMRKQSIRFGTEVITETISRVDLSSKPFKLWTEWNDGPDKEPACTADAVIIATGANARRLNLPGEETYWQNGISACAVCDGAVPIFRNKPLYVIGGGDSAAEEAMFLAKYGSSVTVLVRRDKLRASKAMAKRLLAHPKVTVRFNTVATEVLGEKKPNGLMTHLRIKNTVTGEEEIVDANGLFYAVGHDPATALVKGQIDLDEDGYIITKPGTSYTSREGVFACGDVQDKRYRQAITSAGSGCIAALEAEKFIAEAES 6bpz-a1-m1-cB_6bpz-a1-m1-cC Structure of the mechanically activated ion channel Piezo1 E2JF22 E2JF22 3.8 ELECTRON MICROSCOPY 143 1.0 10090 (Mus musculus) 10090 (Mus musculus) 900 900 6bpz-a1-m1-cA_6bpz-a1-m1-cB 6bpz-a1-m1-cA_6bpz-a1-m1-cC PNPIPNFIHCRSYLDMLKVAVFRYLFWLVLVVVFVAGATRISIFGLGYLLACFYLLLFGTTLLQKDTRAQLVLWDCLILYNVTVIISKNMLSLLSCIIWDSICFFFLLLQRRIFLSHYFLHVSADLKATALQASRGFALYNAANLKSINFHRQIEEKSLAQLKRQMKRIRAKQEKYRQSQAHATVIHSGDYFLFESXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPELEEAERFEAQQGRTLRLLRAGYQCVAAHSELLCYFIIILNHMVTASAASLVLPVLVFLWAMLTIPRPSKRFWMTAIVFTEVMVVTKYLFYIKYDLVQLMALFFHRSQLLCYGLWDPLQRFFHDILHTKYRAATDVYALMFLADIVDIIIIIFGFPQAFLFMLLVQFGTMVIDRALYLRKTVLGKLAFQVVLVVAIHIWMFFIQNAVAQLWYFVKCIYFALSAYQIRCGYPTRILGNFLTKKYNHLNLFLFQGFRLVPFLVELRAVMDWVWTDTTLSLSNWMCVEDIYANIFIIKCSRETEKKYPQPKGQKKKKIVKYGMGGLIILFLIAIIWFPLLFMSGVVNQPIDVTVTLKLGGYEPLFTMSAQQPSIVPFTPQAYEELSQQFDPYPLAMQFISQYSPEDIVTAQIEGSSGALWRISPPSRAQMKQELYNGTADITLRFTWNFQRDLAKGGTVEYTNEKHTLELAPNSTARRQLAQLLEGRPDQSVVIPHLFPKYIRAPNGPEANPVKQLQPDEEEDYLGVRIQLRREQVSDFLEWWVIELQDCKADCNLLPMVIFSDKVSPIVGLYVSIVLVVGKFVRGFFSEISHSIMFEELPCVDRILKLCQDIFLVRETRELELEEELYAKLIFLYRSPETMIKWTR PNPIPNFIHCRSYLDMLKVAVFRYLFWLVLVVVFVAGATRISIFGLGYLLACFYLLLFGTTLLQKDTRAQLVLWDCLILYNVTVIISKNMLSLLSCIIWDSICFFFLLLQRRIFLSHYFLHVSADLKATALQASRGFALYNAANLKSINFHRQIEEKSLAQLKRQMKRIRAKQEKYRQSQAHATVIHSGDYFLFESXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPELEEAERFEAQQGRTLRLLRAGYQCVAAHSELLCYFIIILNHMVTASAASLVLPVLVFLWAMLTIPRPSKRFWMTAIVFTEVMVVTKYLFYIKYDLVQLMALFFHRSQLLCYGLWDPLQRFFHDILHTKYRAATDVYALMFLADIVDIIIIIFGFPQAFLFMLLVQFGTMVIDRALYLRKTVLGKLAFQVVLVVAIHIWMFFIQNAVAQLWYFVKCIYFALSAYQIRCGYPTRILGNFLTKKYNHLNLFLFQGFRLVPFLVELRAVMDWVWTDTTLSLSNWMCVEDIYANIFIIKCSRETEKKYPQPKGQKKKKIVKYGMGGLIILFLIAIIWFPLLFMSGVVNQPIDVTVTLKLGGYEPLFTMSAQQPSIVPFTPQAYEELSQQFDPYPLAMQFISQYSPEDIVTAQIEGSSGALWRISPPSRAQMKQELYNGTADITLRFTWNFQRDLAKGGTVEYTNEKHTLELAPNSTARRQLAQLLEGRPDQSVVIPHLFPKYIRAPNGPEANPVKQLQPDEEEDYLGVRIQLRREQVSDFLEWWVIELQDCKADCNLLPMVIFSDKVSPIVGLYVSIVLVVGKFVRGFFSEISHSIMFEELPCVDRILKLCQDIFLVRETRELELEEELYAKLIFLYRSPETMIKWTR 6bq1-a1-m1-cA_6bq1-a1-m1-cE Human PI4KIIIa lipid kinase complex P42356 P42356 3.6 ELECTRON MICROSCOPY 233 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1509 1510 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMMQCVIAVADKVFDAFLNMMADKAKTKENEEELERHAQFLLVNFNHIHKRIRRVADKYLSGLVDKFPHLLWSGTVLKTMLDILQTLSLSLSADIHKDQPYYDIPDAPYRITVPDTYEARESIVKDFAARCGMILQEAMKWAPTVTKSHLQEYLNKHQNWVSGLSQHTGLAMATESILHFAGYNKQNTTLGATQLSERPACVKKDYSNFMASLNLRNRYAGEVYGMIRFDLNKMMVQDLHSALDRSHPQHYTQAMFKLTAMLISSKDCDPQLLHHLCWGPLRMFNEHGMETALACWEWLLAGKDGVEVPFMREMAGAWHMTVEQKFGLFSAEIKEADPLAASEASQPKPCPPEVTPHYIWIDFLVQRFEIAKYCSSDQVEIFSSLLQRSMSLNIGGAKGSMNRHVAAIGPRFKLLTLGLSLLHADVVPNATIRNVLREKIYSTAFDYFSCPPKFPTQGEKRLREDISIMIKFWTAMFSDKKRGSQLHKYYMKRRTLLLSLLATEIERLITWYNPLSAPELELDQAGENSVANWRSKYISLSEKQWKDNVNLAWSISPYLAVQLPARFKNTEAIGNEVTRLVRLDPGAVSDVPEAIKFLVTWHTIDADAPELSHVLCWAPTDPPTGLSYFSSMYPPHPLTAQYGVKVLRSFPPDAILFYIPQIVQALRYDKMGYVREYILWAASKSQLLAHQFIWNMKTNIYLDEEGHQKDPDIGDLLDQLVEEITGSLSGPAKDFYQREFDFFNKITNVSAIIKPYPKGDERKKACLSALSEVKVQPGCYLPSNPEAIVLDIDYPMQSAAKAPYLAKFWQAAIFKVGDDCRQDMLALQIIDLFKNIFQLVGLDLFVFPYRVVATAPGCGVIECIPDCTSRDQLGMYDYFTRQYGDESTLAFQQARYNFIRSMAAYSLLLFLLQIKDRHNGNIMLDKKGHIIHIDFGFMFESDIKLTDEMVMIMGGKMEATPFKWFMEMCVRGYLAVRPYMDAVVSLVTLMLDTGLPCFRGQTIKLLKHRFSPNMTEREAANFIMKVIQSCFLSN XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMMQCVIAVADKVFDAFLNMMADKAKTKENEEELERHAQFLLVNFNHIHKRIRRVADKYLSGLVDKFPHLLWSGTVLKTMLDILQTLSLSLSADIHKDQPYYDIPDAPYRITVPDTYEARESIVKDFAARCGMILQEAMKWAPTVTKSHLQEYLNKHQNWVSGLSQHTGLAMATESILHFAGYNKQNTTLGATQLSERPACVKKDYSNFMASLNLRNRYAGEVYGMIRFDLNKMMVQDLHSALDRSHPQHYTQAMFKLTAMLISSKDCDPQLLHHLCWGPLRMFNEHGMETALACWEWLLAGKDGVEVPFMREMAGAWHMTVEQKFGLFSAEIKEADPLAASEASQPKPCPPEVTPHYIWIDFLVQRFEIAKYCSSDQVEIFSSLLQRSMSLNIGGAKGSMNRHVAAIGPRFKLLTLGLSLLHADVVPNATIRNVLREKIYSTAFDYFSCPPKFPTQGEKRLREDISIMIKFWTAMFSDKKRGSQLHKYYMKRRTLLLSLLATEIERLITWYNPLSAPELELDQAGENSVANWRSKYISLSEKQWKDNVNLAWSISPYLAVQLPARFKNTEAIGNEVTRLVRLDPGAVSDVPEAIKFLVTWHTIDADAPELSHVLCWAPTDPPTGLSYFSSMYPPHPLTAQYGVKVLRSFPPDAILFYIPQIVQALRYDKMGYVREYILWAASKSQLLAHQFIWNMKTNIYLDEEGHQKDPDIGDLLDQLVEEITGSLSGPAKDFYQREFDFFNKITNVSAIIKPYPKGDERKKACLSALSEVKVQPGCYLPSNPEAIVLDIDYPMQSAAKAPYLAKFWQAAIFKVGDDCRQDMLALQIIDLFKNIFQLVGLDLFVFPYRVVATAPGCGVIECIPDCTSRDQLGMYDYFTRQYGDESTLAFQQARYNFIRSMAAYSLLLFLLQIKDRHNGNIMLDKKGHIIHIDFGFMFESDIKLTDEMVMIMGGKMEATPFKWFMEMCVRGYLAVRPYMDAVVSLVTLMLDTGLPCFRGQTIKLLKHRFSPNMTEREAANFIMKVIQSCFLSN 6bq9-a1-m1-cA_6bq9-a1-m2-cA 2.55 Angstrom Resolution Crystal Structure of N-terminal Fragment (residues 1-493) of DNA Topoisomerase IV Subunit A from Pseudomonas putida Q88DB5 Q88DB5 2.55 X-RAY DIFFRACTION 104 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 457 457 DRALPHIGDGLKPVQRRIVYAMSELGLDADAKHKKSARTVGDVLGKFHPHGDSACYEAMVLMAQPFSYRYTLVDGQGNWGAPDDPKSFAAMRYTEARLSRYAEVLLSEVGQGTVDWVPNFDGTLQEPAVLPARLPNILLNGTTGIAVGMATDVPPHNLREVASACVRLLDEPKATIEQLCEHIQGPDYPTEAEIVTPRAEILKMYESGRGSIRMRAVYRVEDGDIVVTALPHQVSGAKVLEQIAAQMQAKKLPMVADLRDESDHENPCRIVIIPRSNRVDVDELMQHLFATTDLESTYRVNVNIIGLDGRPQLKNLRTLLVEWLEFRTNTVRRRLQHRLDKVEKRLHLLDGLLTAFLNLDEVIHIIRTEEYPKQALIERFELTEIQADYILETRLRQLARLEEMKIRGEQDELLKEQAKLQALLGSEAKLRKLVRSELIKDAETYGDDRRSPIVARA DRALPHIGDGLKPVQRRIVYAMSELGLDADAKHKKSARTVGDVLGKFHPHGDSACYEAMVLMAQPFSYRYTLVDGQGNWGAPDDPKSFAAMRYTEARLSRYAEVLLSEVGQGTVDWVPNFDGTLQEPAVLPARLPNILLNGTTGIAVGMATDVPPHNLREVASACVRLLDEPKATIEQLCEHIQGPDYPTEAEIVTPRAEILKMYESGRGSIRMRAVYRVEDGDIVVTALPHQVSGAKVLEQIAAQMQAKKLPMVADLRDESDHENPCRIVIIPRSNRVDVDELMQHLFATTDLESTYRVNVNIIGLDGRPQLKNLRTLLVEWLEFRTNTVRRRLQHRLDKVEKRLHLLDGLLTAFLNLDEVIHIIRTEEYPKQALIERFELTEIQADYILETRLRQLARLEEMKIRGEQDELLKEQAKLQALLGSEAKLRKLVRSELIKDAETYGDDRRSPIVARA 6bqc-a1-m1-cA_6bqc-a1-m2-cA Cyclopropane fatty acid synthase from E. coli P0A9H7 P0A9H7 2.073 X-RAY DIFFRACTION 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 348 348 DNWYRIANELLSRAGIAINGSAPADIRVKNPDFFKRVLQEGSLGLGESYMDGWWECDRLDMFFSKVLRAGLENQLPHHFKDTLRIADLGNDLFSRMLDPFMQYSCAYWKDADNLESAQQAKLKMICEKLQLKPGMRVLDIGCGWGGLAHYMASNYDVSVVGVTISAEQQKMAQERCEGLDVTILLQDYRDLNDQFDRIVSVGMFEHVGPKNYDTYFAVVDRNLKPEGIFLLHTIGSKKTDLNVDPWINKYIFPNGCLPSVRQIAQSSEPHFVMEDWHNFGADYDTTLMAWYERFLAAWPEIADNYSERFKRMFTYYLNACAGAFRARDIQLWQVVFSRGVENGLRVAR DNWYRIANELLSRAGIAINGSAPADIRVKNPDFFKRVLQEGSLGLGESYMDGWWECDRLDMFFSKVLRAGLENQLPHHFKDTLRIADLGNDLFSRMLDPFMQYSCAYWKDADNLESAQQAKLKMICEKLQLKPGMRVLDIGCGWGGLAHYMASNYDVSVVGVTISAEQQKMAQERCEGLDVTILLQDYRDLNDQFDRIVSVGMFEHVGPKNYDTYFAVVDRNLKPEGIFLLHTIGSKKTDLNVDPWINKYIFPNGCLPSVRQIAQSSEPHFVMEDWHNFGADYDTTLMAWYERFLAAWPEIADNYSERFKRMFTYYLNACAGAFRARDIQLWQVVFSRGVENGLRVAR 6bql-a2-m1-cA_6bql-a2-m2-cA Crystal Structure of the Human CAMKK2B in complex with TAE-226 Q96RR4 Q96RR4 2 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 6bku-a2-m1-cA_6bku-a2-m2-cA SMQLNQYTLKDEIGKGSYGVVKLAYNENDNTYYAMKVLSKKKLIRQAGFPRRPIQPRGPIEQVYQEIAILKKLDHPNVVKLVEVLDDPNEDHLYMVFELVNQGPVMEVPTLKPLSEDQARFYFQDLIKGIEYLHYQKIIHRDIKPSNLLVGEDGHIKIADFGVSNEFKGSDALLSNTVGTPAFMAPESLSETRKIFSGKALDVWAMGVTLYCFVFGQCPFMDERIMCLHSKIKSQALEFPDQPDIAEDLKDLITRMLDKNPESRIVVPEIKLHPWVTR SMQLNQYTLKDEIGKGSYGVVKLAYNENDNTYYAMKVLSKKKLIRQAGFPRRPIQPRGPIEQVYQEIAILKKLDHPNVVKLVEVLDDPNEDHLYMVFELVNQGPVMEVPTLKPLSEDQARFYFQDLIKGIEYLHYQKIIHRDIKPSNLLVGEDGHIKIADFGVSNEFKGSDALLSNTVGTPAFMAPESLSETRKIFSGKALDVWAMGVTLYCFVFGQCPFMDERIMCLHSKIKSQALEFPDQPDIAEDLKDLITRMLDKNPESRIVVPEIKLHPWVTR 6bqo-a2-m1-cC_6bqo-a2-m2-cC Structure of a dual topology fluoride channel with monobody S8 2.8 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 SSVPTKLEVVAATPTSLLISWDAPAVTVDHYVITYGETGAYWSYQEFTVPGSKSTATISGLKPGVDYTITVYANPYSDAPIYYSYHSPISINYRT SSVPTKLEVVAATPTSLLISWDAPAVTVDHYVITYGETGAYWSYQEFTVPGSKSTATISGLKPGVDYTITVYANPYSDAPIYYSYHSPISINYRT 6bqo-a2-m2-cA_6bqo-a2-m2-cB Structure of a dual topology fluoride channel with monobody S8 Q7VYU0 Q7VYU0 2.8 X-RAY DIFFRACTION 152 1.0 257313 (Bordetella pertussis Tohama I) 257313 (Bordetella pertussis Tohama I) 126 128 5a40-a1-m1-cB_5a40-a1-m1-cA 5a40-a2-m1-cD_5a40-a2-m1-cC 5nkq-a1-m1-cB_5nkq-a1-m1-cA 5nkq-a2-m1-cD_5nkq-a2-m1-cC 6bqo-a1-m1-cA_6bqo-a1-m1-cB 6bqo-a2-m1-cA_6bqo-a2-m1-cB TYAPLNFIAIGIGATLGAWLRWVLGLKLNGAGWPWGTLTANLVGGYLIGVMVALIASHPEWPAWIRLAAVTGFLGGLTTFSTFSAETVDMLCRGVYATAAAYAGASLAGSLAMTGLGLATVRLLLR MLTYAPLNFIAIGIGATLGAWLRWVLGLKLNGAGWPWGTLTANLVGGYLIGVMVALIASHPEWPAWIRLAAVTGFLGGLTTFSTFSAETVDMLCRGVYATAAAYAGASLAGSLAMTGLGLATVRLLLR 6br7-a1-m1-cA_6br7-a1-m1-cB Beryllium fluorinated receiver domain of BfmR from Acinetobacter baumannii A0A014C6J9 A0A014C6J9 1.86 X-RAY DIFFRACTION 49 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 121 125 5e3j-a1-m1-cA_5e3j-a1-m1-cB 5hm6-a1-m1-cA_5hm6-a1-m1-cB EKLPKILIVEDDERLARLTQEYLIRNGLEVGVETDGNRAIRRIISEQPDLVVLDVMLPGADGLTVCREVRPHYHQPILMLTARTEDMDQVLGLEMGADDYVAKPVQPRVLLARIRALLRRT EEKLPKILIVEDDERLARLTQEYLIRNGLEVGVETDGNRAIRRIISEQPDLVVLDVMLPGADGLTVCREVRPHYHQPILMLTARTEDMDQVLGLEMGADDYVAKPVQPRVLLARIRALLRRTDKT 6brg-a5-m1-cC_6brg-a5-m1-cD The SAM domain of mouse SAMHD1 is critical for its activation and regulation Q60710 Q60710 3.5 X-RAY DIFFRACTION 92 1.0 10090 (Mus musculus) 10090 (Mus musculus) 500 500 6brg-a2-m1-cA_6brg-a2-m1-cB 6brh-a2-m1-cA_6brh-a2-m1-cB 6brk-a2-m1-cA_6brk-a2-m2-cA TDLRTWEPEDVCSFLENRGFREKKVLDIFRDNKIAGSFLPFLDEDRLEDLGVSSLEERKKMIECIQQLSQSRIDLMKVFNDPIHGHIEFHPLLIRIIDTPQFQRLRYIKQLGGGYYVFPGASHNRFEHSLGVGYLAGCLVRALAEKQPELQISERDILCVQIAGLCHDLGHGPFSHMFDGRFIPRARPEKKWKHEQGSIEMFEHLVNSNELKLVMKNYGLVPEEDITFIKEQIMGPLWPYKGRPATKSFLYEIVSNKRNGIDVDKWDYFARDCHHLGIQNNFDYKRFIKFARICEVEYKVYIRKVKHICSREKEVGNLYDMFHTRNCLHRRAYQHKISNLIDIMITDAFLKADPYVEITGTAGKKFRISTAIDDMEAFTKLTDNIFLEVLHSTDPQLSEAQSILRNIECRNLYKYLGETQPKREKIRKEEYERLPQEVAKAKPVELKAEDFIVDVINVDRVHFYEQLIRVYCKKKDGKSLDAAGKHFVQWCALRDFTKPQ TDLRTWEPEDVCSFLENRGFREKKVLDIFRDNKIAGSFLPFLDEDRLEDLGVSSLEERKKMIECIQQLSQSRIDLMKVFNDPIHGHIEFHPLLIRIIDTPQFQRLRYIKQLGGGYYVFPGASHNRFEHSLGVGYLAGCLVRALAEKQPELQISERDILCVQIAGLCHDLGHGPFSHMFDGRFIPRARPEKKWKHEQGSIEMFEHLVNSNELKLVMKNYGLVPEEDITFIKEQIMGPLWPYKGRPATKSFLYEIVSNKRNGIDVDKWDYFARDCHHLGIQNNFDYKRFIKFARICEVEYKVYIRKVKHICSREKEVGNLYDMFHTRNCLHRRAYQHKISNLIDIMITDAFLKADPYVEITGTAGKKFRISTAIDDMEAFTKLTDNIFLEVLHSTDPQLSEAQSILRNIECRNLYKYLGETQPKREKIRKEEYERLPQEVAKAKPVELKAEDFIVDVINVDRVHFYEQLIRVYCKKKDGKSLDAAGKHFVQWCALRDFTKPQ 6brm-a4-m1-cH_6brm-a4-m1-cG The crystal structure of isothiocyanate hydrolase from Delia radicum gut bacteria A0A0N7FW12 A0A0N7FW12 2.55 X-RAY DIFFRACTION 44 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 256 261 6brm-a1-m1-cA_6brm-a1-m1-cB 6brm-a2-m1-cD_6brm-a2-m1-cC 6brm-a3-m1-cE_6brm-a3-m1-cF MKLTQIRNATLVLQYAGKKFLIDPMLAEKEAWFAGSARRNPMVALPVPVEDLLAVDAVILTHTHTDHWDEAAQQAVPKDMLIYTQDEKDAALIRSQGFFNIRVLKDENHFVDGLTIYKTDGQHGSNELYADAQLGDLLGDACGLVFTHHDEKTIYIAGDTVWVKPYVKSLQRFKPEIVVLNTGYAVNDLYGPIIMGKEDTLRTLKMLPTATIVASHMESINHCLLTRAELREFSLEHGIEDKILIPADGETMAFSA MKLTQIRNATLVLQYAGKKFLIDPMLAEKEAWDGFAGSARPHLRNPMVALPVPVEDLLAVDAVILTHTHTDHWDEAAQQAVPKDMLIYTQDEKDAALIRSQGFFNIRVLKDENHFVDGLTIYKTDGQHGSNELYADAQLGDLLGDACGLVFTHHDEKTIYIAGDTVWVKPYVKSLQRFKPEIVVLNTGYAVNDLYGPIIMGKEDTLRTLKMLPTATIVASHMESINHCLLTRAELREFSLEHGIEDKILIPADGETMAFSA 6brt-a4-m1-cF_6brt-a4-m1-cH F-box protein CTH with hydrolase A0A0D9Z3K8 A0A0D9Z3K8 2.393 X-RAY DIFFRACTION 52 1.0 40148 (Oryza glumipatula) 40148 (Oryza glumipatula) 265 265 6brt-a1-m1-cE_6brt-a1-m1-cA 6brt-a2-m1-cG_6brt-a2-m1-cB 6brt-a3-m1-cC_6brt-a3-m1-cD ASLLQILNVRVVGSGERVVVLSHGFGTDQSAWSRVLPYLTRDHRVVLYDLVCAGSVNPDHFDFRRYDNLDAYVDDLLAILDALRIPRCAFVGHSVSAMIGILASIRRPDLFAKLVLIGASPRFLNDSDYHGGFELEEIQQVFDAMGANYSAWATGYAPLAVGADVPAAVQEFSRTLFNMRPDISLHVCQTVFKTDLRGVLGMVRAPCVVVQTTRDVSVPASVAAYLKAHLGGRTTVEFLQTEGHLPHLSAPSLLAQVLRRALARY ASLLQILNVRVVGSGERVVVLSHGFGTDQSAWSRVLPYLTRDHRVVLYDLVCAGSVNPDHFDFRRYDNLDAYVDDLLAILDALRIPRCAFVGHSVSAMIGILASIRRPDLFAKLVLIGASPRFLNDSDYHGGFELEEIQQVFDAMGANYSAWATGYAPLAVGADVPAAVQEFSRTLFNMRPDISLHVCQTVFKTDLRGVLGMVRAPCVVVQTTRDVSVPASVAAYLKAHLGGRTTVEFLQTEGHLPHLSAPSLLAQVLRRALARY 6bsu-a1-m1-cA_6bsu-a1-m1-cB Crystal structure of xyloglucan xylosyltransferase I Q9LZJ3 Q9LZJ3 1.497 X-RAY DIFFRACTION 137 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 337 337 6bsv-a1-m1-cA_6bsv-a1-m1-cB 6bsw-a1-m1-cA_6bsw-a1-m1-cB PYSLGPKISDWDEQRRDWLKQNPSFPNFVAPNKPRVLLVTGSAPKPCENPVGDHYLLKSIKNKIDYCRIHGIEIFYNMALLDAEMAGFWAKLPLIRKLLLSHPEIEFLWWMDSDAMFTDMVFELPWERYKDYNLVMHGWNEMVYDQKNWIGLNTGSFLLRNSQWSLDLLDAWAPMGPKGKIREEAGKVLTRELKDRPAFEADDQSAMVYLLATEREKWGGKVYLESGYYLHGYWGILVDRYEEMIENHKPGFGDHRWPLVTHFVGCKPCGKFGDYPVERCLRQMDRAFNFGDNQILQMYGFTHKSLGSRRVKPTRNQTDRPLDAKDEFGLLHPPFKA PYSLGPKISDWDEQRRDWLKQNPSFPNFVAPNKPRVLLVTGSAPKPCENPVGDHYLLKSIKNKIDYCRIHGIEIFYNMALLDAEMAGFWAKLPLIRKLLLSHPEIEFLWWMDSDAMFTDMVFELPWERYKDYNLVMHGWNEMVYDQKNWIGLNTGSFLLRNSQWSLDLLDAWAPMGPKGKIREEAGKVLTRELKDRPAFEADDQSAMVYLLATEREKWGGKVYLESGYYLHGYWGILVDRYEEMIENHKPGFGDHRWPLVTHFVGCKPCGKFGDYPVERCLRQMDRAFNFGDNQILQMYGFTHKSLGSRRVKPTRNQTDRPLDAKDEFGLLHPPFKA 6bsy-a1-m1-cB_6bsy-a1-m1-cA HIV-1 Rev assembly domain (residues 1-69) P04616 P04616 2.25 X-RAY DIFFRACTION 33 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 55 58 DLLKAVRLIKFLYQSNPPPNPEGTRQARRNRRRRWRERQRQIHSISERILSTYLG SDEDLLKAVRLIKFLYQSNPPPNPEGTRQARRNRRRRWRERQRQIHSISERILSTYLG 6bsz-a1-m1-cB_6bsz-a1-m1-cA Human mGlu8 Receptor complexed with glutamate O00222 O00222 2.65 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 433 445 6bt5-a1-m1-cB_6bt5-a1-m1-cA HSIRVDGDIILGGLFPVHAKGERGVPCGELKKEKGIHRLEAMLYAIDQINKDPDLLSNITLGVRILDTCSRDTYALEQSLTFVQAKISGVIGAAASSVSIMVANILRLFKIPQISYASTAPELSDNTRYDFFSRVVPPDSYQAQAMVDIVTALGWNYVSTLASEGNYGESGVEAFTQISREIGGVSIAQSQKIPREPRPGEFEKIIKRLLETPNARAVIMFANEDDIRRILEAAKKLQQSGHFLWIGSDSWGSKIAPVYQQEEIAEGAVTILPKRASIDGFDRYFRSRTLANNRRNVWFAEFWEENFGCKLKCTGLERIARDSSYEQEGKVQFVIDAVYSMAYALHNMHKDLCPGYIGLCPRMSTIDGKELLGYIRAVNFNGSAGTPVTFNENGDAPGRYDIFQYQITNKSTEYKVIGHWTNQLHLKVEDMQW AHSIRVDGDIILGGLFPVHAKGERGVPCGELKKEKGIHRLEAMLYAIDQINKDPDLLSNITLGVRILDTCSRDTYALEQSLTFVQAKISGVIGAAASSVSIMVANILRLFKIPQISYASTAPELSDNTRYDFFSRVVPPDSYQAQAMVDIVTALGWNYVSTLASEGNYGESGVEAFTQISREIGGVSIAQSQKIPREPRPGEFEKIIKRLLETPNARAVIMFANEDDIRRILEAAKKLQQSGHFLWIGSDSWGSKIAPVYQQEEIAEGAVTILPKRASIDGFDRYFRSRTLANNRRNVWFAEFWEENFGCKLKCTGLERIARDSSYEQEGKVQFVIDAVYSMAYALHNMHKDLCPGYIGLCPRMSTIDGKELLGYIRAVNFNGSAGTPVTFNENGDAPGRYDIFQYQITNKSTEYKVIGHWTNQLHLKVEDMQWAHREHTHPASE 6btd-a1-m2-cA_6btd-a1-m4-cA Crystal structure of deoxyribose-phosphate aldolase from Bacillus Thuringiensis involved in dispatching the ubiquitous radical SAM enzyme byproduct 5-deoxyribose A0A231I520 A0A231I520 1.551 X-RAY DIFFRACTION 52 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 203 203 6btd-a1-m1-cA_6btd-a1-m3-cA 6btd-a1-m1-cA_6btd-a1-m4-cA 6btd-a1-m2-cA_6btd-a1-m3-cA 6btg-a1-m1-cA_6btg-a1-m3-cA 6btg-a1-m1-cA_6btg-a1-m4-cA 6btg-a1-m2-cA_6btg-a1-m3-cA 6btg-a1-m2-cA_6btg-a1-m4-cA MLLQKEREEIVAYGKKMISSGLTKGTGGNISIFNREQGLVAISPSGLEYYETKPEDVVILNLDGEVIEGERKPSSELDMHLIYYRKREDINALVHTHSPYAKTIASLGWELPAVSYLIAFAGPNVRCAPYETFGTKQLADAAFEGMIDRRAVLLANHGLIAGANNIKMAFTVAEEIEFCAQIYYQTKSIGEPKLLPEDEMENL MLLQKEREEIVAYGKKMISSGLTKGTGGNISIFNREQGLVAISPSGLEYYETKPEDVVILNLDGEVIEGERKPSSELDMHLIYYRKREDINALVHTHSPYAKTIASLGWELPAVSYLIAFAGPNVRCAPYETFGTKQLADAAFEGMIDRRAVLLANHGLIAGANNIKMAFTVAEEIEFCAQIYYQTKSIGEPKLLPEDEMENL 6bu2-a1-m1-cA_6bu2-a1-m1-cB Crystal structure of methylmalonyl-CoA epimerase from Mycobacterium tuberculosis L7N6B1 L7N6B1 1.997 X-RAY DIFFRACTION 158 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 150 151 HARHMLATSLVTGLDHVGIAVADLDVAIEWYHDHLGMILVHEEINDDQGIREALLAVPGSAAQIQLMAPLDESSVIAKFLDKRGPGIQQLACRVSDLDAMCRRLRSQGVRLVYETARRGTANSRINFIHPKDAGGVLIELVEPAPKLAAA HARHMLATSLVTGLDHVGIAVADLDVAIEWYHDHLGMILVHEEINDDQGIREALLAVPGSAAQIQLMAPLDESSVIAKFLDKRGPGIQQLACRVSDLDAMCRRLRSQGVRLVYETARRGTANSRINFIHPKDAGGVLIELVEPAPKLAAAL 6bus-a1-m1-c1_6bus-a1-m1-c2 Extended E2 DNA-binding domain of the Bovine Papillomavirus-1 P03122 P03122 1.9 X-RAY DIFFRACTION 76 1.0 92 92 1dbd-a1-m1-cA_1dbd-a1-m1-cB 2bop-a1-m1-cA_2bop-a1-m2-cA 6bus-a2-m1-c4_6bus-a2-m1-c3 HLLKAGGSCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFTVADNGAERQGQAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF HLLKAGGSCFALISGTANQVKCYRFRVKKNHRHRYENCTTTWFTVADNGAERQGQAQILITFGSPSQRQDFLKHVPLPPGMNISGFTASLDF 6bvc-a1-m1-cA_6bvc-a1-m2-cA Crystal structure of AAC(3)-Ia in complex with coenzyme A Q53396 Q53396 1.808 X-RAY DIFFRACTION 215 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 154 154 1bo4-a1-m1-cB_1bo4-a1-m1-cA MGIIRTCRLGPDQVKSMRAALDLFGREFGDVATYSQHQPDSDYLGNLLRSKTFIALAAFDQEAVVGALAAYVLPKFEQPRSEIYIYDLAVSGEHRRQGIATALINLLKHEANALGAYVIYVQADYGDDPAVALYTKLGIREEVMHFDIDPSTAT MGIIRTCRLGPDQVKSMRAALDLFGREFGDVATYSQHQPDSDYLGNLLRSKTFIALAAFDQEAVVGALAAYVLPKFEQPRSEIYIYDLAVSGEHRRQGIATALINLLKHEANALGAYVIYVQADYGDDPAVALYTKLGIREEVMHFDIDPSTAT 6bvd-a1-m1-cB_6bvd-a1-m1-cA Structure of Botulinum Neurotoxin Serotype HA Light Chain A0A384E125 A0A384E125 2.09 X-RAY DIFFRACTION 56 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 425 429 MPVVINSFNYDDPVNDNTIIYIRPPYYETSNTYFKAFQIMDNVWIIPERYRLGIDPSLFNPPVSLKAGSDGYFDPNYLSTNTEKNKYLQIMIKLFKRINSKPAGQILLEEIKNAIPYLGNSYTQEEQFTTNNRTVSFNVKLANGNIVQQMANLIIWGPGPDLTTNKTGGIIYSPYQSMEATPYKDGFGSIMTVEFSPEYATAFNDISSPSLFIKDPALILMHELIHVLHGLYGTYITEYKITPNVVQSYMKVTKPITSAEFLTFGGRDRNIVPQSIQSQLYNKVLSDYKRIASRLNKVNTATALINIDEFKNLYEWKYQFAKDSNGVYSVDLNKFEQLYKKIYSFTEFNLAYEFKIKTRLGYLAENFGPFYLPNLLDDSIYTEVDGFNIGALSINYQGQNIGSDINSIKKLQGQGVVSRVVRLCS MPVVINSFNYDDPVNDNTIIYIRPPYYETSNTYFKAFQIMDNVWIIPERYRLGIDPSLFNPPVSLKAGSDGYFDPNYLSTNTEKNKYLQIMIKLFKRINSKPAGQILLEEIKNAIPYLGNSYTQEEQFTTNNRTVSFNVKLANGNIVQQMANLIIWGPGPDLTTNKTGGIIYSPYQSMEATPYKDGFGSIMTVEFSPEYATAFNDISIASHSPSLFIKDPALILMHELIHVLHGLYGTYITEYKITPNVVQSYMKVTKPITSAEFLTFGGRDRNIVPQSIQSQLYNKVLSDYKRIASRLNKVNTATALINIDEFKNLYEWKYQFAKDSNGVYSVDLNKFEQLYKKIYSFTEFNLAYEFKIKTRLGYLAENFGPFYLPNLLDDSIYTEVDGFNIGALSINYQGQNIGSDINSIKKLQGQGVVSRVVRLCS 6bve-a1-m1-cA_6bve-a1-m1-cB Triosephosphate isomerase of Synechocystis in complex with 2-Phosphoglycolic acid Q59994 Q59994 1.78 X-RAY DIFFRACTION 133 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 242 242 MRKIIIAGNWKMHKTQAEAQAFLQGFKPLIEDAAESREVVLCVPFTDLSGMSQQLHGGRVRLGAQNVHWEASGAYTGEISAAMLTEIGIHYVVIGHSERRQYFGETDETANLRVLAAQKAGLIPILCVGESKAQRDAGETEQVIVDQVKKGLVNVDQSNLVIAYEPIWAIGTGDTCAATEANRVIGLIREQLTNSQVTIQYGGSVNANNVDEIMAQPEIDGALVGGASLEPQSFARIVNFQP MRKIIIAGNWKMHKTQAEAQAFLQGFKPLIEDAAESREVVLCVPFTDLSGMSQQLHGGRVRLGAQNVHWEASGAYTGEISAAMLTEIGIHYVVIGHSERRQYFGETDETANLRVLAAQKAGLIPILCVGESKAQRDAGETEQVIVDQVKKGLVNVDQSNLVIAYEPIWAIGTGDTCAATEANRVIGLIREQLTNSQVTIQYGGSVNANNVDEIMAQPEIDGALVGGASLEPQSFARIVNFQP 6bw6-a2-m1-cC_6bw6-a2-m1-cD Human GPT (DPAGT1) H129 variant in complex with tunicamycin Q9H3H5 Q9H3H5 2.95 X-RAY DIFFRACTION 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 365 369 5o5e-a1-m1-cA_5o5e-a1-m2-cA 6bw5-a1-m1-cB_6bw5-a1-m1-cA 6bw5-a2-m1-cD_6bw5-a2-m1-cC 6bw6-a1-m1-cA_6bw6-a1-m1-cB 6fm9-a1-m1-cA_6fm9-a1-m2-cA 6fwz-a1-m1-cA_6fwz-a1-m2-cA PMPLLINLIVSLLGFVATVTLIPAFRGHFIAARLCGQDLNKTSRQQIPESQGVISGAVFLIILFCFIPFPFLNCAFPHHEFVALIGALLAICCMIFLGFADDVLNLRWRHKLLLHTAASLPLLMVYFTNFGNTTIVHLDLGILYYVYMGLLAVFCTNAINILAGINGLEAGQSLVISASIIVFNLVELEGDCRDDHVFSLYFMIPFFFTTLGLLYHNWYPSRVFVGDTFCYFAGMTFAVVGILGHFSKTMLLFFMPQVFNFLYSLPQLLHIIPCPRHRIPRLNIKTGKLEMSYSKFKTKSLSFLGTFILKVAESLQLVTVHQCNNMTLINLLLKVLGPIHERNLTLLLLLLQILGSAITFSIRYQ PMPLLINLIVSLLGFVATVTLIPAFRGHFIAARLCGQDLNKTSRQQIPESQGVISGAVFLIILFCFIPFPFLNCAFPHHEFVALIGALLAICCMIFLGFADDVLNLRWRHKLLLHTAASLPLLMVYFTNFGNTTIVVHLDLGILYYVYMGLLAVFCTNAINILAGINGLEAGQSLVISASIIVFNLVELEGDCRDDHVFSLYFMIPFFFTTLGLLYHNWYPSRVFVGDTFCYFAGMTFAVVGILGHFSKTMLLFFMPQVFNFLYSLPQLLHIIPCPRHRIPRLNIKTGKLEMSYSKFKTKSLSFLGTFILKVAESLQLVTVHQTECNNMTLINLLLKVLGPIHERNLTLLLLLLQILGSAITFSIRYQL 6bwc-a1-m1-cE_6bwc-a1-m1-cA X-ray structure of Pen from Bacillus thuringiensis J3UJH9 J3UJH9 2.7 X-RAY DIFFRACTION 10 0.988 1218175 (Bacillus thuringiensis HD-771) 1218175 (Bacillus thuringiensis HD-771) 322 324 6bwc-a1-m1-cB_6bwc-a1-m1-cD 6bwc-a1-m1-cB_6bwc-a1-m1-cF MFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKNRNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSNAAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPLAKRAKAGFYRSDNQNAISKEELRNLILNQQLLT MFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSNAAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPLGTQYENAKRAKAGFYRSDQNAISKEELRNLILNQQLL 6bwc-a1-m1-cE_6bwc-a1-m1-cD X-ray structure of Pen from Bacillus thuringiensis J3UJH9 J3UJH9 2.7 X-RAY DIFFRACTION 59 0.997 1218175 (Bacillus thuringiensis HD-771) 1218175 (Bacillus thuringiensis HD-771) 322 324 6bwc-a1-m1-cB_6bwc-a1-m1-cC 6bwc-a1-m1-cF_6bwc-a1-m1-cA MFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKNRNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSNAAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPLAKRAKAGFYRSDNQNAISKEELRNLILNQQLLT MFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKNRNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSNAAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKLYGENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPLAKRAKAGFYRSDNQNAISKEELRNLILNQQLL 6bwc-a1-m1-cE_6bwc-a1-m1-cF X-ray structure of Pen from Bacillus thuringiensis J3UJH9 J3UJH9 2.7 X-RAY DIFFRACTION 89 0.984 1218175 (Bacillus thuringiensis HD-771) 1218175 (Bacillus thuringiensis HD-771) 322 323 6bwc-a1-m1-cB_6bwc-a1-m1-cA 6bwc-a1-m1-cD_6bwc-a1-m1-cC MFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKNRNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSNAAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPLAKRAKAGFYRSDNQNAISKEELRNLILNQQLLT HMFFKDKNVLIIGGTGTIGKSILSNVLQEKPKVVRVFSRSEYNQFLLQEEFRDKRNIRYLIGDIRNYDRVFSAMENIDYVFHVAAMKHVSFCEYNPFEAVLTNIFGTQNVIKAAIAQKVKKVVFTSSNAAISPTNNYGATKLTAERLITSAEYSKGSSETTFTSVRFGNVMGSRGSVIPLFENQIKENQKITVTDLSMSRFMMTLNQATMLTIEAMKIAKGGETFILKMPVISLNDLSEVMIEEVTKENIKIEEIGLKPGEKMYEELMTHDESLQAFELPDMFIIPSPTQYENAKRAKAGFYRSDNAISKEELRNLILNQQLL 6bwe-a1-m1-cB_6bwe-a1-m1-cA Sortase A from Corynebacterium diphtheriae, lid mutant Q6NF82 Q6NF82 1.85 X-RAY DIFFRACTION 71 1.0 257309 (Corynebacterium diphtheriae NCTC 13129) 257309 (Corynebacterium diphtheriae NCTC 13129) 185 188 SPAVRDSVLEAARQYNTSVVGFPIASKNSGPYLDYLQQLNPQRAERPVIASISIPTIDAHLPIYHGTDTATLEHGLGHLYGSALPVGGTGTHPVITGHSGLANATLFDNLEDVKEHDPIYITVQGETLKYEVDAINVVLPEDTKLLAPDPNKDQITLITTPYAVNSHRLLVRAHRVDLDPNDPNL EVDSPAVRDSVLEAARQYNTSVVGFPIASKNSGPYLDYLQQLNPQRAERPVIASISIPTIDAHLPIYHGTDTATLEHGLGHLYGSALPVGGTGTHPVITGHSGLANATLFDNLEDVKEHDPIYITVQGETLKYEVDAINVVLPEDTKLLAPDPNKDQITLITTPYAVNSHRLLVRAHRVDLDPNDPNL 6bwf-a1-m1-cC_6bwf-a1-m1-cD 4.1 angstrom Mg2+-unbound structure of mouse TRPM7 Q923J1 Q923J1 4.1 ELECTRON MICROSCOPY 151 1.0 10090 (Mus musculus) 10090 (Mus musculus) 766 766 6bwd-a1-m1-cA_6bwd-a1-m1-cB 6bwd-a1-m1-cA_6bwd-a1-m1-cD 6bwd-a1-m1-cB_6bwd-a1-m1-cC 6bwd-a1-m1-cC_6bwd-a1-m1-cD 6bwf-a1-m1-cA_6bwf-a1-m1-cB 6bwf-a1-m1-cA_6bwf-a1-m1-cD 6bwf-a1-m1-cB_6bwf-a1-m1-cC XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXKFLTIPRLEELYNTKQGPTNPMLFHLIYKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSLGGNNRRSGRNTSSSTPQLRKSHKMRHNHFIKTAQPYRPKMDSMEEGKKKRTKDRFPYPLNELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDSEELKQYSNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRRPFVAHTCTQMLLSDMWMGRLNMWYKVILSILVPPAILMLEYKTKAEMSHIPQSQDAHQRKFYAFYHAPIVKFWFNTLAYLGFLMLYTFVVLVKMEQLPSVQEWIVIAYIFTYAIEKVREVFQKIKVWFSDYFNVSDTIAIISFFVGFGLRFGAKWNYINAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAVNQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEEPSWSLAKDIVFHPYWMIFGEVYAYEIDVCANDSTLPTICGPGTWLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLQVKAISNIVWKYQRYHFIMAYHEKPVLPPPLIILSHGPKLFLTEEDQKKLHDFEEQCVEMYFDEKDDKFNSGSEERIRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQI XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXKFLTIPRLEELYNTKQGPTNPMLFHLIYKITLIDIGLVIEYLMGGTYRCTYTRKRFRLIYNSLGGNNRRSGRNTSSSTPQLRKSHKMRHNHFIKTAQPYRPKMDSMEEGKKKRTKDRFPYPLNELLIWACLMKRQVMARFLWQHGEESMAKALVACKIYRSMAYEAKQSDSEELKQYSNDFGQLAVELLEQSFRQDETMAMKLLTYELKNWSNSTCLKLAVSSRRPFVAHTCTQMLLSDMWMGRLNMWYKVILSILVPPAILMLEYKTKAEMSHIPQSQDAHQRKFYAFYHAPIVKFWFNTLAYLGFLMLYTFVVLVKMEQLPSVQEWIVIAYIFTYAIEKVREVFQKIKVWFSDYFNVSDTIAIISFFVGFGLRFGAKWNYINAYDNHVFVAGRLIYCLNIIFWYVRLLDFLAVNQQAGPYVMMIGKMVANMFYIVVIMALVLLSFGVPRKAILYPHEEPSWSLAKDIVFHPYWMIFGEVYAYEIDVCANDSTLPTICGPGTWLTPFLQAVYLFVQYIIMVNLLIAFFNNVYLQVKAISNIVWKYQRYHFIMAYHEKPVLPPPLIILSHGPKLFLTEEDQKKLHDFEEQCVEMYFDEKDDKFNSGSEERIRVTFERVEQMSIQIKEVGDRVNYIKRSLQSLDSQI 6bwi-a1-m1-cC_6bwi-a1-m1-cD 3.7 angstrom cryoEM structure of full length human TRPM4 Q8TD43 Q8TD43 3.7 ELECTRON MICROSCOPY 156 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 816 816 6bwi-a1-m1-cA_6bwi-a1-m1-cB 6bwi-a1-m1-cA_6bwi-a1-m1-cD 6bwi-a1-m1-cB_6bwi-a1-m1-cC XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDELRLAVAWNRVDIAQSELFRGDIQWRSFHLEASLMDALLNDRPEFVRLLISHLGHFLTPMRLAQLYSAAPSNSLIRNLLDQASGFGESMYLLSDKATSWSDLLLWALLLNRAQMAMYFWEMGSNAVSSALGACLLLRVMARLEPDAEEAARRKDLAFKFEGMGVDLFGECYRSSEVRAARLLLRRCPLWGDATCLQLAMQADARAFFAQDGVQSLLTQKWWGDMASTTPIWALVLAFFCPPLIYTRLITFRCLRRWFHFWGAPVTIFMGNVVSYLLFLLLFSRVLLVDFQPAPPGSLELLLYFWAFTLLCEELRQGLASLSQRLRLYLADSWNQCDLVALTCFLLGVGCRLTPGLYHLGRTVLCIDFMVFTVRLLHIFTVNKQLGPKIVIVSKMMKDVFFFLFFLGVWLVAYGVATEGLLRPRDSDFPSILRRVFYRPYLQIFGQIPQEDMDVALMEHSNCSSEPGFWAHPPGAQAGTCVSQYANWLVVLLLVIFLLVANILLVNLLIAMFSYTFGKVQGNSDLYWKAQRYRLIREFHSRPALAPPFIVISHLRLLLRQLKEAERKLLTWESVHKENFLLARARDKRESDSERLKRTSQKVDLALKQLGHIREYEQRLKV XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDELRLAVAWNRVDIAQSELFRGDIQWRSFHLEASLMDALLNDRPEFVRLLISHLGHFLTPMRLAQLYSAAPSNSLIRNLLDQASGFGESMYLLSDKATSWSDLLLWALLLNRAQMAMYFWEMGSNAVSSALGACLLLRVMARLEPDAEEAARRKDLAFKFEGMGVDLFGECYRSSEVRAARLLLRRCPLWGDATCLQLAMQADARAFFAQDGVQSLLTQKWWGDMASTTPIWALVLAFFCPPLIYTRLITFRCLRRWFHFWGAPVTIFMGNVVSYLLFLLLFSRVLLVDFQPAPPGSLELLLYFWAFTLLCEELRQGLASLSQRLRLYLADSWNQCDLVALTCFLLGVGCRLTPGLYHLGRTVLCIDFMVFTVRLLHIFTVNKQLGPKIVIVSKMMKDVFFFLFFLGVWLVAYGVATEGLLRPRDSDFPSILRRVFYRPYLQIFGQIPQEDMDVALMEHSNCSSEPGFWAHPPGAQAGTCVSQYANWLVVLLLVIFLLVANILLVNLLIAMFSYTFGKVQGNSDLYWKAQRYRLIREFHSRPALAPPFIVISHLRLLLRQLKEAERKLLTWESVHKENFLLARARDKRESDSERLKRTSQKVDLALKQLGHIREYEQRLKV 6bwl-a1-m1-cA_6bwl-a1-m2-cA X-ray structure of Pal from Bacillus thuringiensis Q3ESA4 Q3ESA4 1.45 X-RAY DIFFRACTION 111 1.0 339854 (Bacillus thuringiensis serovar israelensis ATCC 35646) 339854 (Bacillus thuringiensis serovar israelensis ATCC 35646) 313 313 MKILVTGGAGFIGRWVVKRLLQDKHEVWILDNLANSTTANITEFAHDLNLKQCIQGDIKDKKLVAQLFENNSFDLCYHLAASINVQDSIDDARATFENDTIGTFNLLEQCLNYDVKMVFMSTCMVYDKATNIQGISELDPIKPASPYAGSKIAAENMVLSYYYAYKLPVVVIRPFNTYGPFQKTGGEGGVVAIFINNKLDNVPLNIYGDGKQTRDLLYVEDCADFVVAAGYSAKANGHIINAGTGQDISINKLAELISGNKVSIQHVTHIHPQSEIQKLLCNYEKAKTILNWEPKVSLEDGVIKTEEWIKSLK MKILVTGGAGFIGRWVVKRLLQDKHEVWILDNLANSTTANITEFAHDLNLKQCIQGDIKDKKLVAQLFENNSFDLCYHLAASINVQDSIDDARATFENDTIGTFNLLEQCLNYDVKMVFMSTCMVYDKATNIQGISELDPIKPASPYAGSKIAAENMVLSYYYAYKLPVVVIRPFNTYGPFQKTGGEGGVVAIFINNKLDNVPLNIYGDGKQTRDLLYVEDCADFVVAAGYSAKANGHIINAGTGQDISINKLAELISGNKVSIQHVTHIHPQSEIQKLLCNYEKAKTILNWEPKVSLEDGVIKTEEWIKSLK 6bwt-a1-m1-cC_6bwt-a1-m1-cB 2.45 Angstrom Resolution Crystal Structure Thioredoxin Reductase from Francisella tularensis. Q5NHG5 Q5NHG5 2.45 X-RAY DIFFRACTION 102 0.996 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 277 278 NHHKLIILGSGPAGYTAAIYAARANLKPVIITGMQFDTQIVYDTINAVDLQNKPFKLVGEVEQYTCDTLIIATGATAKYLGLESEEKFMGKGVSACATCDGFFYKNKDVAVVGGGNTAVEEALFLSNIAKSVTLIHRRDTLRSEKILIDKLMEKAQHGNINIIWNTTLEEVLGDDMGVNALRIKNIKTNEESQMGVAGVFIAIGHTPNTSIFAGQLEMENGYIKVKSGLAGDATQTNIKGVFAAGDVADHVYKQAVTSAGTGCMAALDAEKYLDNLD ANHHKLIILGSGPAGYTAAIYAARANLKPVIITGMQRFDTQIVYDTINAVDLQNKPFKLVGEVEQYTCDTLIIATGATAKYLGLESEEKFMGKGVSACATCDGFFYKNKDVAVVGGGNTAVEEALFLSNIAKSVTLIHRRDTLRSEKILIDKLMEKAQHGNINIIWNTTLEEVLGDDMGVNALRIKNIKTNEESQMGVAGVFIAIGHTPNTSIFAGQLEMENGYIKVKSGLAGDATQTNIKGVFAAGDVADHVYKQAVTSAGTGCMAALDAEKYLDNL 6bwt-a1-m1-cD_6bwt-a1-m1-cB 2.45 Angstrom Resolution Crystal Structure Thioredoxin Reductase from Francisella tularensis. Q5NHG5 Q5NHG5 2.45 X-RAY DIFFRACTION 19 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 275 278 6bwt-a1-m1-cA_6bwt-a1-m1-cC NHHKLIILGSGPAGYTAAIYAARANLKPVIITGMQDTQIVYDTINAVDLQNKPFKLVGEVEQYTCDTLIIATGATAKYLGLESEEKFMGKGVSACATCDGFFYKNKDVAVVGGGNTAVEEALFLSNIAKSVTLIHRRDTLRSEKILIDKLMEKAQHGNINIIWNTTLEEVLGDDMGVNALRIKNIKTNEESQMGVAGVFIAIGHTPNTSIFAGQLEMENGYIKVKSGLAGDATQTNIKGVFAAGDVADHVYKQAVTSAGTGCMAALDAEKYLDNL ANHHKLIILGSGPAGYTAAIYAARANLKPVIITGMQRFDTQIVYDTINAVDLQNKPFKLVGEVEQYTCDTLIIATGATAKYLGLESEEKFMGKGVSACATCDGFFYKNKDVAVVGGGNTAVEEALFLSNIAKSVTLIHRRDTLRSEKILIDKLMEKAQHGNINIIWNTTLEEVLGDDMGVNALRIKNIKTNEESQMGVAGVFIAIGHTPNTSIFAGQLEMENGYIKVKSGLAGDATQTNIKGVFAAGDVADHVYKQAVTSAGTGCMAALDAEKYLDNL 6bwt-a1-m1-cD_6bwt-a1-m1-cC 2.45 Angstrom Resolution Crystal Structure Thioredoxin Reductase from Francisella tularensis. Q5NHG5 Q5NHG5 2.45 X-RAY DIFFRACTION 81 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 275 277 6bwt-a1-m1-cA_6bwt-a1-m1-cB NHHKLIILGSGPAGYTAAIYAARANLKPVIITGMQDTQIVYDTINAVDLQNKPFKLVGEVEQYTCDTLIIATGATAKYLGLESEEKFMGKGVSACATCDGFFYKNKDVAVVGGGNTAVEEALFLSNIAKSVTLIHRRDTLRSEKILIDKLMEKAQHGNINIIWNTTLEEVLGDDMGVNALRIKNIKTNEESQMGVAGVFIAIGHTPNTSIFAGQLEMENGYIKVKSGLAGDATQTNIKGVFAAGDVADHVYKQAVTSAGTGCMAALDAEKYLDNL NHHKLIILGSGPAGYTAAIYAARANLKPVIITGMQFDTQIVYDTINAVDLQNKPFKLVGEVEQYTCDTLIIATGATAKYLGLESEEKFMGKGVSACATCDGFFYKNKDVAVVGGGNTAVEEALFLSNIAKSVTLIHRRDTLRSEKILIDKLMEKAQHGNINIIWNTTLEEVLGDDMGVNALRIKNIKTNEESQMGVAGVFIAIGHTPNTSIFAGQLEMENGYIKVKSGLAGDATQTNIKGVFAAGDVADHVYKQAVTSAGTGCMAALDAEKYLDNLD 6bwz-a1-m8-cA_6bwz-a1-m9-cA SYSGYS from low-complexity domain of FUS, residues 37-42 P35637 P35637 1.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6bwz-a1-m10-cA_6bwz-a1-m9-cA 6bwz-a1-m1-cA_6bwz-a1-m2-cA 6bwz-a1-m2-cA_6bwz-a1-m3-cA 6bwz-a1-m3-cA_6bwz-a1-m4-cA 6bwz-a1-m4-cA_6bwz-a1-m5-cA 6bwz-a1-m6-cA_6bwz-a1-m7-cA 6bwz-a1-m7-cA_6bwz-a1-m8-cA SYSGYS SYSGYS 6bx3-a1-m1-cN_6bx3-a1-m1-cM Structure of histone H3k4 methyltransferase Q03323 Q03323 4.3 ELECTRON MICROSCOPY 52 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 40 42 TRKYLNTNVTPHLLAGMRLIAVQQPEDPLRVLGEYLIEQS TRKYLNTNVTPHLLAGMRLIAVQQPEDPLRVLGEYLIEQSNI 6bx7-a1-m1-cA_6bx7-a1-m2-cA Crystal Structure of Human Protocadherin-1 EC1-4 Q08174 Q08174 2.85 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 429 429 6mga-a1-m1-cA_6mga-a1-m2-cA VVYKVPEEQPPNTLIGSLAADLYKLEVGAPYLRVDGKTGDIFTTETSIDREGLRECQNQLPGDPCILEFEVSITDLVQNGSPRLLEGQIEVQDINDNTPNFASPVITLAIPENTNIGSLFPIPLASDRDAGPNGVASYELQAGPEAQELFGLQVAEDQEEKQPQLIVMGNLDRERWDSYDLTIKVQDGGSPPRASSALLRVTVLDTNDNAPKFERPSYEAELSENSPIGHSVIQVKANDSDQGANAEIEYTFHQAPEVVRRLLRLDRNTGLITVQGPVDREDLSTLRFSVLAKDRGTNPKSARAQVVVTVKDMNDNAPTIEIRGIGLVTHQDGMANISEDVAEETAVALVQVSDRDEGENAAVTCVVAGDVPFQLRQASDSKKKYFLQTTTPLDYEKVKDYTIEIVAVDSGNPPLSSTNSLKVQVVDVN VVYKVPEEQPPNTLIGSLAADLYKLEVGAPYLRVDGKTGDIFTTETSIDREGLRECQNQLPGDPCILEFEVSITDLVQNGSPRLLEGQIEVQDINDNTPNFASPVITLAIPENTNIGSLFPIPLASDRDAGPNGVASYELQAGPEAQELFGLQVAEDQEEKQPQLIVMGNLDRERWDSYDLTIKVQDGGSPPRASSALLRVTVLDTNDNAPKFERPSYEAELSENSPIGHSVIQVKANDSDQGANAEIEYTFHQAPEVVRRLLRLDRNTGLITVQGPVDREDLSTLRFSVLAKDRGTNPKSARAQVVVTVKDMNDNAPTIEIRGIGLVTHQDGMANISEDVAEETAVALVQVSDRDEGENAAVTCVVAGDVPFQLRQASDSKKKYFLQTTTPLDYEKVKDYTIEIVAVDSGNPPLSSTNSLKVQVVDVN 6bxn-a1-m1-cA_6bxn-a1-m1-cB Crystal structure of Candidatus Methanoperedens nitroreducens Dph2 with 4Fe-4S cluster and SAM A0A062UZ78 A0A062UZ78 2.079 X-RAY DIFFRACTION 103 1.0 1392998 (Candidatus Methanoperedens nitroreducens) 1392998 (Candidatus Methanoperedens nitroreducens) 294 316 6bxm-a1-m1-cB_6bxm-a1-m1-cA 6bxo-a1-m1-cB_6bxo-a1-m1-cA DLERILKTIKDKNCKKVGLQFPEGLKRQAINIAREIEEKTRANVIISGNPCFGACDIDTILAGSVDILFHFGHAGMGEYENVVFIEARSNIDIIPAVLLKANRIGLITTVQHVHKLEEACKVCVIGKGDPIYPGQVLGCNFTAARVEEFIYIGSGIFHPLGVAIATKKRVIAADPVEVSPERFLRKRGGYIAKATGAKIFGIIVSTKSGQYRMKLAQKLKEIADKHGKIGYIILMDLVTPEQLLAFKADAYVNTACPRITIDDAERFHAPVLTPQEFEIVLGERRWENMEMDEM DLERILKTIKDKNCKKVGLQFPEGLKRQAINIAREIEEKTRANVIISGNPCFGACDIDTILAGSVDILFHFGHAGMGEYENVVFIEARSNIDIIPAVKTALNLLKANRIGLITTVQHVHKLEEACKVIKEYGKECVIGKGDPRAIYPGQVLGCNFTAARVDCEEFIYIGSGIFHPLGVAIATKKRVIAADPFLNQAVEVSPERFLRKRGGYIAKATGAKIFGIIVSTKSGQYRMKLAQKLKEIADKHGKIGYIILMDLVTPEQLLAFKADAYVNTACPRITIDDAERFHAPVLTPQEFEIVLGERRWENMEMDEMI 6bxv-a1-m7-cA_6bxv-a1-m9-cA SYSSYGQS from low-complexity domain of FUS, residues 54-61 P35637 P35637 1.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 6bxv-a1-m10-cA_6bxv-a1-m8-cA 6bxv-a1-m1-cA_6bxv-a1-m2-cA 6bxv-a1-m1-cA_6bxv-a1-m3-cA 6bxv-a1-m2-cA_6bxv-a1-m5-cA 6bxv-a1-m3-cA_6bxv-a1-m4-cA 6bxv-a1-m6-cA_6bxv-a1-m9-cA 6bxv-a1-m7-cA_6bxv-a1-m8-cA SYSSYGQS SYSSYGQS 6bxx-a1-m6-cA_6bxx-a1-m9-cA GYNGFG from low-complexity domain of hnRNPA1, residues 243-248 P09651 P09651 1.1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6bxx-a1-m10-cA_6bxx-a1-m9-cA 6bxx-a1-m1-cA_6bxx-a1-m2-cA 6bxx-a1-m1-cA_6bxx-a1-m3-cA 6bxx-a1-m2-cA_6bxx-a1-m5-cA 6bxx-a1-m3-cA_6bxx-a1-m4-cA 6bxx-a1-m6-cA_6bxx-a1-m7-cA 6bxx-a1-m7-cA_6bxx-a1-m8-cA GYNGFG GYNGFG 6bxz-a1-m1-cA_6bxz-a1-m1-cC Crystal Structure of Pig Protocadherin-15 EC10-MAD12 F1SD06 F1SD06 2.09 X-RAY DIFFRACTION 54 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 317 334 6c13-a1-m1-cA_6c13-a1-m1-cB 6c14-a1-m1-cA_6c14-a1-m1-cC IPRFTQEEYRPPPVSELAAKGTMVGLISAAAINQSIVYSIVSGNEEDKFGINNITGVIYVNAPLDYETRTSYVLRVQADSSNTAKVYIEIQDENDHPPVFQKKFYIGGVSEDARMFASVLRVKATDKDTGNYSAMAYRLIIPPIKEGKEGFVVETYTGLIKTAMLFHNMRRSYFKFQVIATDDYGKGLSGKADVLVSVVNQLDMQVIVSNVPPTLVEKKIEDLTEILDRYVQEQIPGAKVVVESIGARRHGDAFSLEDYTKCDLTVYAIDPQTNRAVDRNELFKFLDGKLLDINKDFQPYYGEGGRILEIRTPEAVT GEIPRFTQEEYRPPPVSELAAKGTMVGLISAAAINQSIVYSIVSGNEEDKFGINNITGVIYVNAPLDYETRTSYVLRVQADSLEVVLANLRVPSKSNTAKVYIEIQDENDHPPVFQKKFYIGGVSEDARMFASVLRVKATDKDTGNYSAMAYRLIIPPIKEGKEGFVVETYTGLIKTAMLFHNMRRSYFKFQVIATDDYGKGLSGKADVLVSVVNQLDMQVIVSNVPPTLVEKKIEDLTEILDRYVQEQIPGAKVVVESIGARRHGDAFSLEDYTKCDLTVYAIDPQTNRAVDRNELFKFLDGKLLDINKDFQPYYGEGGRILEIRTPEAVTSI 6byg-a1-m1-cA_6byg-a1-m1-cB Crystal structure of the nucleophile mutant (E575A) of the GH2 exo-beta-mannanase from Xanthomonas axonopodis pv. citri Q8PI23 Q8PI23 1.999 X-RAY DIFFRACTION 85 0.998 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 856 858 6bye-a1-m1-cA_6bye-a1-m1-cB 6byi-a1-m1-cA_6byi-a1-m1-cB SHMTAVTLDGGWRVRLVPGQEQGKTYPKAAAWLPAQVPGAVQTDLIAAKIVPDPFYRDNEGKIQWAGLSDWQYQTRFTVDAATLKREHVELVFDGLDTFAEVTLNGKQLLSADNMFRQWRVDAKSLLKRGDNLLEVKLYSPIKKIQPWLAKQPYALPGAYDSAFGDEPEARHSSTYVRKAPYNFGWDWGPRMVNAGIWKDVRVEAWDAVRVDGLHIAQQRVDAHSAQVQAQLDLQAGRSGPVQVTLDVLGPDGQKVGQFTQDAVVDPGQNRVDLAVRIANPKRWFPAGYGAQDRYTFVASVRDADGDSQQIKRVTGLRSVELRREKDRFGKSMEIVINGIPIFAKGANLIPLDAFPARVTHERMRSTLQDARDANMNMLRMWGGGHYQDDYFYDVADELGIMIWQDFMFGGAVPPYDVEFRENTRQEAIEQVKRLRDHPSLVLWCGNNEVQTGWENWGDRVKFKQSVDPEERTRIERGMTTLFGTVFREVVATYDSDVPYWATSPGTDFDGAADQTNDGDMHYWKVWGGPALPVTEYLNVTPRFMSAYGLQSFPDMRTVRAFAEPGDMDPESPVMRVHQKFDKGNGNKRLMLYIRREFGEPKDFESFVYLSQLMQAEGINIAASHLRASRPQSMGSLYWQLNDVWPGASWSSVDYYGRWKALHYHARRFYAPEMIAALRNDKGQTEVSLVSDRTTPLTARWRMRVMGMDGKVLSKREEKASVNALSSQHVGNFSDKQLLGSADPKRTYAVFELLDGDTLLSREVVFFAPAKQLALPAAKIDSQWRADGDGYALTLTSDTLAREVWLSFGDVDATLSDNAFDLLPGEPLTVRVTSKAALAQLQSALQVRDLAATLAG SHMTAVTLDGGWRVRLVPGQEQGKTYPKAAAWLPAQVPGAVQTDLIAAKIVPDPFYRDNEGKIQWAGLSDWQYQTRFTVDAATLKREHVELVFDGLDTFAEVTLNGKQLLSADNMFRQWRVDAKSLLKRGDNLLEVKLYSPIKKIQPWLAKQPYALPGAYDSAFGDEPEARHSSTYVRKAPYNFGWDWGPRMVNAGIWKDVRVEAWDAVRVDGLHIAQQRVDAHSAQVQAQLDLQAGRSGPVQVTLDVLGPDGQKVGQFTQDAVVDPGQNRVDLAVRIANPKRWFPAGYGAQDRYTFVASVRDADSQQIKRVTGLRSVELRREKDRFGKSMEIVINGIPIFAKGANLIPLDAFPARVTHERMRSTLQDARDANMNMLRMWGGGHYQDDYFYDVADELGIMIWQDFMFGGAVPPYDVEFRENTRQEAIEQVKRLRDHPSLVLWCGNNEVQTGWENWGDRVKFKQSVDPEERTRIERGMTTLFGTVFREVVATYDSDVPYWATSPGTDFDGAADQTNDGDMHYWKVWGGPALPVTEYLNVTPRFMSAYGLQSFPDMRTVRAFAEPGDMDPESPVMRVHQKFDKGNGNKRLMLYIRREFGEPKDFESFVYLSQLMQAEGINIAASHLRASRPQSMGSLYWQLNDVWPGASWSSVDYYGRWKALHYHARRFYAPEMIAALRNDKGQTEVSLVSDRTTPLTARWRMRVMGMDGKVLSKREEKASVNALSSQHVGNFSDKQLLGSADPKRTYAVFELLDGDTLLSREVVFFAPAKQLALPAAKIDSQWRADGDGYALTLTSDTLAREVWLSFGDVDATLSDNAFDLLPGEPLTVRVTSKAALAQLQSALQVRDLAATLAGAPPE 6bym-a1-m1-cB_6bym-a1-m1-cA Crystal structure of the sterol-bound second StART domain of yeast Lam4 P38800 P38800 2.2 X-RAY DIFFRACTION 51 0.99 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 195 200 PMTLPKMEPSSHAPTEPDIQKDKDDSIIRENENIPAPLGTVVQLLFGSNTEYMQKVITRDKNNVNVETIPKFTPSLVEGGSRHYEYTKKLNNSIGPKQTKCLLTESIEHMDINNYVLVTQTTKTPDVPSGSNFAVESKIFLFWGQHDTTNMTVITKINWTSKSFLKGAIEKGSVEGQKVSVDYMLSELRDIISRA TLPKMEPSSHAPTEPDIQKDKDDSIIRENENIPAPLGTVVQLLFGSNTEYMQKVITRDKNNVNVETIPKFTPSLVEGGSRHYEYTKKLNNSIGPKQTKCLLTESIEHMDINNYVLVTQTTKTPDVPSGSNFAVESKIFLFWGQHDTTNMTVITKINWTSKSFLKGAIEKGSVEGQKVSVDYMLSELRDIISRAKSKKPVK 6byq-a1-m1-cA_6byq-a1-m2-cA Crystal structure of Tyrosine-tRNA ligase from Helicobacter pylori G27 B5Z7D7 B5Z7D7 2.2 X-RAY DIFFRACTION 102 1.0 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 313 313 HHHMEQKISVALKEIKRGANEIIGLEYIEKLVRKYYETNERFIVKAGFDPTAPDLHLGHTVLIQKLALLQQYGARVKFLIGDFTAMIGTRKPLNREQVLENAKTYEEQIYKILDQKHTEVCFNSTWLDALGAKGMIELCAKFSVARMLERDDFAKRHKENRPISIVEFLYPLLQGYDSVAMGADIELGGNDQKFNLLVGRFLQRAYGLNKEQSIITMPLLEGLDGVQKMSKSLGNYVGITEEPNAMFGKIMSVSDDLMWRYYTLLSAKTLEEIEDLKHGILNQTLHPKAVKEDLAGEIVARYYDNDQAFKAKE HHHMEQKISVALKEIKRGANEIIGLEYIEKLVRKYYETNERFIVKAGFDPTAPDLHLGHTVLIQKLALLQQYGARVKFLIGDFTAMIGTRKPLNREQVLENAKTYEEQIYKILDQKHTEVCFNSTWLDALGAKGMIELCAKFSVARMLERDDFAKRHKENRPISIVEFLYPLLQGYDSVAMGADIELGGNDQKFNLLVGRFLQRAYGLNKEQSIITMPLLEGLDGVQKMSKSLGNYVGITEEPNAMFGKIMSVSDDLMWRYYTLLSAKTLEEIEDLKHGILNQTLHPKAVKEDLAGEIVARYYDNDQAFKAKE 6bz0-a2-m1-cC_6bz0-a2-m1-cD 1.83 Angstrom Resolution Crystal Structure of Dihydrolipoyl Dehydrogenase from Acinetobacter baumannii in Complex with FAD. D0CDT4 D0CDT4 1.83 X-RAY DIFFRACTION 264 0.998 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 468 469 6bz0-a1-m1-cA_6bz0-a1-m1-cB FDLVVIGGGPGGYEAAIRAAQLGFKVACIEKRIHNGKPSLGGTCLNVGCIPSKALLDSSHRYEDTVHHLADHGITTGEVNFDLAKLLARKDKIVDQLTGGIDQLLKGNGIEWLKGTGKLLAGKKVEFVPHEGETQILEPKYVILASGSVPVNIPVAPVDQDIIVDSTGALNFPEVPKRLGVIGAGVIGLELGSVWRRLGAEVVVFEAMDAFLPMADKALSKEYQKILTKQGLDIRIGAKVSGTEVNGREVTVKYTQAGEDKEQTFDKLIVCVGRKAYAEGLLAEDSGIKLTERGLVEVNDHCATSVEGVYAIGDLVRGPMLAHKAMEEGVMAVERIHGHAAQVNYDTIISIIYTHPEAAWVGLTEEQAKEKGHEVKTGQFGFAVNGRALAAGEGAGFVKFVADAKTDRLLGMHVIGPAASDIVHQGMIALEFVSSVEDLQLMTFGHPTFSEVVHEAALAVDGRAIHAI QQFDLVVIGGGPGGYEAAIRAAQLGFKVACIEKRIHNGKPSLGGTCLNVGCIPSKALLDSSHRYEDTVHHLADHGITTGEVNFDLAKLLARKDKIVDQLTGGIDQLLKGNGIEWLKGTGKLLAGKKVEFVPHEGETQILEPKYVILASGSVPVNIPVAPVDQDIIVDSTGALNFPEVPKRLGVIGAGVIGLELGSVWRRLGAEVVVFEAMDAFLPMADKALSKEYQKILTKQGLDIRIGAKVSGTEVNGREVTVKYTQAGEDKEQTFDKLIVCVGRKAYAEGLLAEDSGIKLTERGLVEVNDHCATSVEGVYAIGDLVRGPMLAHKAMEEGVMAVERIHGHAAQVNYDTIISIIYTHPEAAWVGLTEEQAKEKGHEVKTGQFGFAVNGRALAAGEGAGFVKFVADAKTDRLLGMHVIGPAASDIVHQGMIALEFVSSVEDLQLMTFGHPTFSEVVHEAALAVDGRAIHA 6bzb-a3-m1-cB_6bzb-a3-m1-cA Crystal Structure of Glucose-6-phosphate Isomerase from Elizabethkingia anophelis A0A077EQ93 A0A077EQ93 1.6 X-RAY DIFFRACTION 488 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 546 547 6bzc-a3-m1-cB_6bzc-a3-m1-cA SLNTINPTETKAWAQLKEHFAETDFDLKQLFTEDKSRFSEFSIQKENLLFDFSKNLVDKKAFQLLLALAEECHLNDAIEKMFTGDLINQTENRAVLHTALRNFGEEKIVVNGKSIDEDVQRVLNQMKIFSEKIISGEHKGFSGKEITDVVNIGIGGSDLGPVMVCSALKHYRTRLNTHFVSNVDGNHIAEVVKNLNPETTLFIIASKTFTTQETMTNALSAKEWFLKAGKEEDVAKHFVALSTNIEAVKNFGIAEENIFEFWDWVGGRYSLWSAIGLSIVLAVGYDNFEKLLRGAQDTDKHFRNTEFKNNIPVLMGVLGVWYRNFFDASSYAILPYSQYLDRFAAYLQQGDMESNGKSVDRNGEFVDYETGPIIWGEPGTNGQHAFYQLIHQGTELIPADFIAYAKANNNLSDHQDKLMSNFFAQTEALAFGKTKEQVITELKASGKNEEEIAFLTNFKTFTGNTPTNSFIFEELTPFTLGQLIAFYEHKIFVQGVIWNIFSFDQWGVELGKALANKILPELENTAEITSHDSSTNGLINFYKKHK MSLNTINPTETKAWAQLKEHFAETDFDLKQLFTEDKSRFSEFSIQKENLLFDFSKNLVDKKAFQLLLALAEECHLNDAIEKMFTGDLINQTENRAVLHTALRNFGEEKIVVNGKSIDEDVQRVLNQMKIFSEKIISGEHKGFSGKEITDVVNIGIGGSDLGPVMVCSALKHYRTRLNTHFVSNVDGNHIAEVVKNLNPETTLFIIASKTFTTQETMTNALSAKEWFLKAGKEEDVAKHFVALSTNIEAVKNFGIAEENIFEFWDWVGGRYSLWSAIGLSIVLAVGYDNFEKLLRGAQDTDKHFRNTEFKNNIPVLMGVLGVWYRNFFDASSYAILPYSQYLDRFAAYLQQGDMESNGKSVDRNGEFVDYETGPIIWGEPGTNGQHAFYQLIHQGTELIPADFIAYAKANNNLSDHQDKLMSNFFAQTEALAFGKTKEQVITELKASGKNEEEIAFLTNFKTFTGNTPTNSFIFEELTPFTLGQLIAFYEHKIFVQGVIWNIFSFDQWGVELGKALANKILPELENTAEITSHDSSTNGLINFYKKHK 6bzh-a1-m1-cD_6bzh-a1-m1-cA Structure of mouse RIG-I tandem CARDs Q6Q899 Q6Q899 2.5 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 191 6bzh-a1-m1-cA_6bzh-a1-m1-cC 6bzh-a1-m1-cC_6bzh-a1-m1-cB RQTAEQRQNLQAFRDYIKKILDPTYILSYMSSWLEDEEVQYIQAEKNNKGPMEAASLFLQYLLKLQSEGWFQAFLDALYHAGYCGLCEAIESWDFQKIEKLEEHRLLLRRLEPEFKATVDPNDILSELSECLINQECEEIRQIRDTKGRMAGAEKMAECLIRSDKENWPKVLQLALEKDNSKFSELWIV SARQTAEQRQNLQAFRDYIKKILDPTYILSYMSSWLEDEEVQYIQAEKNNKGPMEAASLFLQYLLKLQSEGWFQAFLDALYHAGYCGLCEAIESWDFQKIEKLEEHRLLLRRLEPEFKATVDPNDILSELSECLINQECEEIRQIRDTKGRMAGAEKMAECLIRSDKENWPKVLQLALEKDNSKFSELWIV 6bzh-a1-m1-cD_6bzh-a1-m1-cB Structure of mouse RIG-I tandem CARDs Q6Q899 Q6Q899 2.5 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 192 RQTAEQRQNLQAFRDYIKKILDPTYILSYMSSWLEDEEVQYIQAEKNNKGPMEAASLFLQYLLKLQSEGWFQAFLDALYHAGYCGLCEAIESWDFQKIEKLEEHRLLLRRLEPEFKATVDPNDILSELSECLINQECEEIRQIRDTKGRMAGAEKMAECLIRSDKENWPKVLQLALEKDNSKFSELWIV SSARQTAEQRQNLQAFRDYIKKILDPTYILSYMSSWLEDEEVQYIQAEKNNKGPMEAASLFLQYLLKLQSEGWFQAFLDALYHAGYCGLCEAIESWDFQKIEKLEEHRLLLRRLEPEFKATVDPNDILSELSECLINQECEEIRQIRDTKGRMAGAEKMAECLIRSDKENWPKVLQLALEKDNSKFSELWIV 6bzm-a1-m3-cA_6bzm-a1-m5-cA GFGNFGTS from low-complexity/FG repeat domain of Nup98, residues 116-123 P52948 P52948 0.9 ELECTRON CRYSTALLOGRAPHY 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 6bzm-a1-m1-cA_6bzm-a1-m2-cA 6bzm-a1-m1-cA_6bzm-a1-m3-cA 6bzm-a1-m2-cA_6bzm-a1-m4-cA GFGNFGTS GFGNFGTS 6bzm-a1-m3-cB_6bzm-a1-m5-cB GFGNFGTS from low-complexity/FG repeat domain of Nup98, residues 116-123 P52948 P52948 0.9 ELECTRON CRYSTALLOGRAPHY 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 8 6bzm-a1-m1-cB_6bzm-a1-m2-cB 6bzm-a1-m1-cB_6bzm-a1-m3-cB 6bzm-a1-m2-cB_6bzm-a1-m4-cB GFGNFGTS GFGNFGTS 6bzp-a1-m3-cA_6bzp-a1-m5-cA STGGYG from low-complexity domain of FUS, residues 77-82 P35637 P35637 1.1 ELECTRON CRYSTALLOGRAPHY 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6bzp-a1-m1-cA_6bzp-a1-m2-cA 6bzp-a1-m1-cA_6bzp-a1-m3-cA 6bzp-a1-m2-cA_6bzp-a1-m4-cA STGGYG STGGYG 6bzp-a1-m3-cB_6bzp-a1-m5-cB STGGYG from low-complexity domain of FUS, residues 77-82 P35637 P35637 1.1 ELECTRON CRYSTALLOGRAPHY 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6bzp-a1-m1-cB_6bzp-a1-m2-cB 6bzp-a1-m1-cB_6bzp-a1-m3-cB 6bzp-a1-m2-cB_6bzp-a1-m4-cB STGGYG STGGYG 6c07-a1-m1-cC_6c07-a1-m1-cA Crystal Structure of S-Adenosylmethionine synthetase (MetK/Mat) from Cryptosporidium parvum Q5CYE4 Q5CYE4 1.85 X-RAY DIFFRACTION 43 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 374 376 EQFLFSSESVCSGHPDKLCDQISDAILDACLEQDPESFVACETCTKTGFIMVFGEITTKANVNYERVVRETVKEIGYDSEEKGLDYKTMDVIIKLEQQNVEDIGAGDQGMMFGYATNETKELMPLTHVLATSITRELDYIRVKGVSSRVGWLRPDGKAQVTVEYNCKHGVLIPKRIHTILVSVQHDENIENEEIREFVLENVIKKVCPSDLMDKETRILINPSGRFTIGGPAADAGLTGRKIIVDTYGGWGAHGGGAFSGKDATKVDRSGAYMARLVAKSIVFSGLCSRCLVQVSYGIGIARPLSLYINTFGTAKDGYNDAKLLEIVNKVFDFRPGILIKQLNLKSPIFKKTSSGGHFGRSEEEFLWEKPIILQ EQFLFSSESVCSGHPDKLCDQISDAILDACLEQDPESFVACETCTKTGFIMVFGEITTKANVNYERVVRETVKEIGYDSEEKGLDYKTMDVIIKLEQQDKNVEDIGAGDQGMMFGYATNETKELMPLTHVLATSITRELDYIRVKGVSSRVGWLRPDGKAQVTVEYNCKHGVLIPKRIHTILVSVQHDENIENEEIREFVLENVIKKVCPSDLMDKETRILINPSGRFTIGGPAADAGLTGRKIIVDTYGGWGAHGGGAFSGKDATKVDRSGAYMARLVAKSIVFSGLCSRCLVQVSYGIGIARPLSLYINTFGTAKDGYNDAKLLEIVNKVFDFRPGILIKQLNLKSPIFKKTSSGGHFGRSEEEFLWEKPIILQ 6c0b-a2-m3-cA_6c0b-a2-m4-cA Structural basis for recognition of frizzled proteins by Clostridium difficile toxin B P18177 P18177 2.5 X-RAY DIFFRACTION 109 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 506 506 STNIRINLDSNTRSFIVPIKLSYSFYGSGGTYALSLSQYNMGINIELSESDVWIIDVDNVVRDVTIESDKIKKGDLIEGILSTLSIEENKIILNSHEINFSGEVNGSNGFVSLTFSILEGINAIIEVDLLSKSYKLLISGELKILMLNSNHIQQKIDYIGFNSELQKNIPYSFVDSEGKENGFINGSTKEGLFVSELPDVVLISKVYMDDSKPSFGYYSNNLKDVKVITKDNVNILTGYYLKDDIKISLSLTLQDEKTIKLNSVHLDESGVAEILKFMNRKGSTNTSDSLMSFLESMNIKSIFVNFLQSNIKFILDANFIISGTTSIGQFEFICDENNNIQPYFIKFNTLETNYTLYVGNRQNMIVEPNYDSSTVINFSQKYLYGIDSCVNKVVISPNIYTDEINITPVYETNNTYPEVIVLDANYINEKINVNINDLSIRYVWSNDGNDFILMSTSEENKVSQVKIRFVNVFKDKTLANKLSFNFSDKQDVPVSEIILSFTPSYY STNIRINLDSNTRSFIVPIKLSYSFYGSGGTYALSLSQYNMGINIELSESDVWIIDVDNVVRDVTIESDKIKKGDLIEGILSTLSIEENKIILNSHEINFSGEVNGSNGFVSLTFSILEGINAIIEVDLLSKSYKLLISGELKILMLNSNHIQQKIDYIGFNSELQKNIPYSFVDSEGKENGFINGSTKEGLFVSELPDVVLISKVYMDDSKPSFGYYSNNLKDVKVITKDNVNILTGYYLKDDIKISLSLTLQDEKTIKLNSVHLDESGVAEILKFMNRKGSTNTSDSLMSFLESMNIKSIFVNFLQSNIKFILDANFIISGTTSIGQFEFICDENNNIQPYFIKFNTLETNYTLYVGNRQNMIVEPNYDSSTVINFSQKYLYGIDSCVNKVVISPNIYTDEINITPVYETNNTYPEVIVLDANYINEKINVNINDLSIRYVWSNDGNDFILMSTSEENKVSQVKIRFVNVFKDKTLANKLSFNFSDKQDVPVSEIILSFTPSYY 6c0d-a1-m1-cA_6c0d-a1-m2-cA Crystal structure of an Amidase (hydantoinase/carbamoylase family) from Burkholderia phymatum B2JR29 B2JR29 1.8 X-RAY DIFFRACTION 155 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 404 404 EDFPRIDPIRLLDDLKTLRSFGATGPGVVRLSLSPVDIDARRWLAGRMTDAGLDAAIDGVGTVFGRSRKPGPALVIGSHSDTQPTGGWLDGALGVIYGLEIARALGECEATREFAVDVASWIDEEGTFSSFLGSRSFVGDAIDDSLRSARNHEGLLLGDALAQAGLANTPRVTLDRKRQRAYLEPHIEQGGRLEASAKLIGVVTTIVGIREFQLRFIGQRNHAGTTPMAIRRDAGAALVAFIAHIDDAFGRLADADTVWTVGRIDLDPGSFSVVPGKAVLHLQFRDANPNRLHAMENALVALVDEWNGQHLVRAELIACEGAEEPVTMDAALQQHLAQAADALAPGQWMHMPSGASHDAQVIAQHIPACMLFVPSIIEDTAEQHIVLGCEVAARAAARIAGALR EDFPRIDPIRLLDDLKTLRSFGATGPGVVRLSLSPVDIDARRWLAGRMTDAGLDAAIDGVGTVFGRSRKPGPALVIGSHSDTQPTGGWLDGALGVIYGLEIARALGECEATREFAVDVASWIDEEGTFSSFLGSRSFVGDAIDDSLRSARNHEGLLLGDALAQAGLANTPRVTLDRKRQRAYLEPHIEQGGRLEASAKLIGVVTTIVGIREFQLRFIGQRNHAGTTPMAIRRDAGAALVAFIAHIDDAFGRLADADTVWTVGRIDLDPGSFSVVPGKAVLHLQFRDANPNRLHAMENALVALVDEWNGQHLVRAELIACEGAEEPVTMDAALQQHLAQAADALAPGQWMHMPSGASHDAQVIAQHIPACMLFVPSIIEDTAEQHIVLGCEVAARAAARIAGALR 6c0e-a3-m1-cA_6c0e-a3-m2-cA Crystal Structure of Isocitrate Dehydrogenase from Legionella pneumophila with bound NADPH with an alpha-ketoglutarate adduct Q5ZXB6 Q5ZXB6 1.7 X-RAY DIFFRACTION 32 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 419 419 SMTYDKIKVPAQGEAITVAADHSLHVPDNPIIPFIEGDGIGVDVTPPMIRVVDAAVQKAYGNKRKISWMEVYAGEKATKVYGGDQWLPKETLDAMKKYVVSIKGPLTTPVGGGIRSLNVAIRQDMDLYVCLRPIRYFNGVPSPVREPWKTDMVIFRENSEDIYAGIEWQADTPEAKKVIQFLTKEMGVKKIRFPEHCGIGVKPVSREGTTRLVKAAIQYAIDNDRSTVTLVHKGNIMKFTEGAFKDWGYQVARDSFGAKEYQGGPWMEFKNPKTGKQIIINDVIADAFLQQILLRPEDYSVIATLNLNGDYISDALAAQVGGIGIAPGANISDQMAVFEATHGTAPKYAGQNKVNPGSIILSAEMMLRHMGWYEAADLIIRGMEGAIEAKTVTYDFERGMQGATLVSSSGFADAMIKHM SMTYDKIKVPAQGEAITVAADHSLHVPDNPIIPFIEGDGIGVDVTPPMIRVVDAAVQKAYGNKRKISWMEVYAGEKATKVYGGDQWLPKETLDAMKKYVVSIKGPLTTPVGGGIRSLNVAIRQDMDLYVCLRPIRYFNGVPSPVREPWKTDMVIFRENSEDIYAGIEWQADTPEAKKVIQFLTKEMGVKKIRFPEHCGIGVKPVSREGTTRLVKAAIQYAIDNDRSTVTLVHKGNIMKFTEGAFKDWGYQVARDSFGAKEYQGGPWMEFKNPKTGKQIIINDVIADAFLQQILLRPEDYSVIATLNLNGDYISDALAAQVGGIGIAPGANISDQMAVFEATHGTAPKYAGQNKVNPGSIILSAEMMLRHMGWYEAADLIIRGMEGAIEAKTVTYDFERGMQGATLVSSSGFADAMIKHM 6c0e-a3-m2-cB_6c0e-a3-m2-cA Crystal Structure of Isocitrate Dehydrogenase from Legionella pneumophila with bound NADPH with an alpha-ketoglutarate adduct Q5ZXB6 Q5ZXB6 1.7 X-RAY DIFFRACTION 286 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 414 419 6c0e-a3-m1-cB_6c0e-a3-m1-cA MTYDKIKVPAQGEAITVSLHVPDNPIIPFIEGDGIGVDVTPPMIRVVDAAVQKAYGNKRKISWMEVYAGEKATKVYGGDQWLPKETLDAMKKYVVSIKGPLTTPVGGGIRSLNVAIRQDMDLYVCLRPIRYFNGVPSPVREPWKTDMVIFRENSEDIYAGIEWQADTPEAKKVIQFLTKEMGVKKIRFPEHCGIGVKPVSREGTTRLVKAAIQYAIDNDRSTVTLVHKGNIMKFTEGAFKDWGYQVARDSFGAKEYQGGPWMEFKNPKTGKQIIINDVIADAFLQQILLRPEDYSVIATLNLNGDYISDALAAQVGGIGIAPGANISDQMAVFEATHGTAPKYAGQNKVNPGSIILSAEMMLRHMGWYEAADLIIRGMEGAIEAKTVTYDFERGMQGATLVSSSGFADAMIKHM SMTYDKIKVPAQGEAITVAADHSLHVPDNPIIPFIEGDGIGVDVTPPMIRVVDAAVQKAYGNKRKISWMEVYAGEKATKVYGGDQWLPKETLDAMKKYVVSIKGPLTTPVGGGIRSLNVAIRQDMDLYVCLRPIRYFNGVPSPVREPWKTDMVIFRENSEDIYAGIEWQADTPEAKKVIQFLTKEMGVKKIRFPEHCGIGVKPVSREGTTRLVKAAIQYAIDNDRSTVTLVHKGNIMKFTEGAFKDWGYQVARDSFGAKEYQGGPWMEFKNPKTGKQIIINDVIADAFLQQILLRPEDYSVIATLNLNGDYISDALAAQVGGIGIAPGANISDQMAVFEATHGTAPKYAGQNKVNPGSIILSAEMMLRHMGWYEAADLIIRGMEGAIEAKTVTYDFERGMQGATLVSSSGFADAMIKHM 6c0y-a4-m1-cD_6c0y-a4-m1-cH Lysinoalanine synthase, DurN, from duramycin biosynthesis bound to duramycin A0A3F2YLX1 A0A3F2YLX1 1.66 X-RAY DIFFRACTION 201 1.0 53446 (Streptomyces cinnamoneus) 53446 (Streptomyces cinnamoneus) 108 108 6c0g-a1-m1-cA_6c0g-a1-m2-cB 6c0h-a1-m1-cB_6c0h-a1-m1-cA 6c0y-a1-m1-cA_6c0y-a1-m1-cE 6c0y-a2-m1-cB_6c0y-a2-m1-cF 6c0y-a3-m1-cC_6c0y-a3-m1-cG DVDIIRRIQELMVLCSLLPPDGKLREALELALALHEEPALARITPLTNLHPFATKAWLETLWLGEGVSSEEKELVAWQNKSENMGPAIRELKNAEQQSGITLVARLTS DVDIIRRIQELMVLCSLLPPDGKLREALELALALHEEPALARITPLTNLHPFATKAWLETLWLGEGVSSEEKELVAWQNKSENMGPAIRELKNAEQQSGITLVARLTS 6c14-a1-m1-cB_6c14-a1-m1-cD CryoEM structure of mouse PCDH15-1EC-LHFPL5 complex Q4KL25 Q4KL25 4.5 ELECTRON MICROSCOPY 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 164 164 HTNYVRNSRAVGVMWGTLTICFSVLVMALFIQPYWIGDSVQAGYFGLFSYCVGNVLSSELICKGGPLDFSSIPSRAFKTAMFFVALAMFLIIGSIICFSLFFVCNTATVYKICAWMQLAAATGLMIGCLVYPDGWGHCTIRWAFMLAILSIGDALILSFLAFVL HTNYVRNSRAVGVMWGTLTICFSVLVMALFIQPYWIGDSVQAGYFGLFSYCVGNVLSSELICKGGPLDFSSIPSRAFKTAMFFVALAMFLIIGSIICFSLFFVCNTATVYKICAWMQLAAATGLMIGCLVYPDGWGHCTIRWAFMLAILSIGDALILSFLAFVL 6c25-a1-m1-cA_6c25-a1-m2-cA Crystal structure of Adenylosuccinate synthetase from Legionella pneumophila Philadelphia 1 in complex with GDP Q8RNM2 Q8RNM2 1.9 X-RAY DIFFRACTION 109 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 394 394 6bs7-a1-m1-cA_6bs7-a1-m2-cA MGKNVVVLGTQWGDEGKGKIVDLLTQDAQVVVRYQGGHNAGHTLKITVLRLIPSGMLRPNVTCYIANGVVLSPQALLSEIKELEGNGINVRERLRISLACPLILPYHIALDKARETHRGIGPAYEDKVARRALRVGDLFHRDRFANKLTELLDYHNFVLTQYFKQPAVDLESLLGESLQWAEELRPMVCDVSACLHEHRKQGENILFEGASVINGAGFGPRYIDYVLGITKAYTTRVGGGPFPTELLDDVGKRIAERGQEFGAVTGRPRRCGWFDAVLLKRSIELNSISGLCVTKLDVLDGLEVLRIAVAYKDRDGNILSRPPLAADDFNDLLPVYEELPGWQESTADVTVMSDLPANARAYLKRIEEILGIPIDMLSTGPERDSTITLRGPFL MGKNVVVLGTQWGDEGKGKIVDLLTQDAQVVVRYQGGHNAGHTLKITVLRLIPSGMLRPNVTCYIANGVVLSPQALLSEIKELEGNGINVRERLRISLACPLILPYHIALDKARETHRGIGPAYEDKVARRALRVGDLFHRDRFANKLTELLDYHNFVLTQYFKQPAVDLESLLGESLQWAEELRPMVCDVSACLHEHRKQGENILFEGASVINGAGFGPRYIDYVLGITKAYTTRVGGGPFPTELLDDVGKRIAERGQEFGAVTGRPRRCGWFDAVLLKRSIELNSISGLCVTKLDVLDGLEVLRIAVAYKDRDGNILSRPPLAADDFNDLLPVYEELPGWQESTADVTVMSDLPANARAYLKRIEEILGIPIDMLSTGPERDSTITLRGPFL 6c28-a2-m3-cC_6c28-a2-m1-cB Transcriptional repressor, CouR, bound to p-coumaroyl-CoA Q6N8V9 Q6N8V9 2.09 X-RAY DIFFRACTION 180 1.0 258594 (Rhodopseudomonas palustris CGA009) 258594 (Rhodopseudomonas palustris CGA009) 135 138 6c28-a1-m1-cC_6c28-a1-m2-cB 6c28-a3-m1-cD_6c28-a3-m1-cA 6c2s-a1-m1-cA_6c2s-a1-m1-cD 6c2s-a2-m1-cB_6c2s-a2-m1-cC 6c9t-a1-m1-cA_6c9t-a1-m1-cB ELKMGELSELLGYALKRAQLRVFEDFLHCVAPVQLTPAQFSVLLLLDANPGRNQTEIATTLGILRPNFVAMLDALEGRGLCVRTRILMLTDKGRATLARAKKLVATRHEDRLTELLGRDNRDALLSMLATIAREF ELKMGELSELLGYALKRAQLRVFEDFLHCVAPVQLTPAQFSVLLLLDANPGRNQTEIATTLGILRPNFVAMLDALEGRGLCVRTRSPHILMLTDKGRATLARAKKLVATRHEDRLTELLGRDNRDALLSMLATIAREF 6c2z-a1-m1-cA_6c2z-a1-m2-cA Crystal Structures of Cystathionine beta-Synthase from Saccharomyces cerevisiae: the Structure of the PLP-Aminoacrylate Intermediate P32582 P32582 1.37 X-RAY DIFFRACTION 146 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 345 345 6c2h-a1-m1-cA_6c2h-a1-m2-cA 6c2q-a1-m1-cA_6c2q-a1-m2-cA 6c4p-a1-m1-cA_6c4p-a1-m2-cA SEQQADSRHNVIDLVGNTPLIALKKLPKALGIKPQIYAKLELYNPGGSIKDRIAKSMVEEAEASGRIHPSRSTLIEPTSGNTGIGLALIGAIKGYRTIITLPEKMSNEKVSVLKALGAEIIRTPTAAAWDSPESHIGVAKKLEKEIPGAVILDQYNNMMNPEAHYFGTGREIQRQLEDLNLFDNLRAVVAGAGTGGTISGISKYLKEQNDKIQIVGADPFGSILAQPENLNKTDITDYKVEGIGYDFVPQVLDRKLIDVWYKTDDKPSFKYARQLISNEGVLVGGSSGSAFTAVVKYCEDHPELTEDDVIVAIFPDSIRSYLTKFVDDEWLKKNNLWDDDVLARF SEQQADSRHNVIDLVGNTPLIALKKLPKALGIKPQIYAKLELYNPGGSIKDRIAKSMVEEAEASGRIHPSRSTLIEPTSGNTGIGLALIGAIKGYRTIITLPEKMSNEKVSVLKALGAEIIRTPTAAAWDSPESHIGVAKKLEKEIPGAVILDQYNNMMNPEAHYFGTGREIQRQLEDLNLFDNLRAVVAGAGTGGTISGISKYLKEQNDKIQIVGADPFGSILAQPENLNKTDITDYKVEGIGYDFVPQVLDRKLIDVWYKTDDKPSFKYARQLISNEGVLVGGSSGSAFTAVVKYCEDHPELTEDDVIVAIFPDSIRSYLTKFVDDEWLKKNNLWDDDVLARF 6c30-a1-m1-cA_6c30-a1-m2-cB Mycobacterium smegmatis RimJ (apo form) 1.397 X-RAY DIFFRACTION 42 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 213 213 SAVHPGWPDTVGPLRVPAGVVGLRPVRMRDAAAWSRIRLADQHHLEPWEPMTGMDWKVRHAVTSWPSICSGLRAEARHGRMLPFVIELDGEFVGQLTIGNVTHGALRSAWIGYWVASSRTGGGIATAALAMGLDHCFTAVQLHRIEATVRPENTPSRAVLAHVGFREEGLLKRYLEVDGAWRDHLLVAITAEELPQSAAHRLVAAGRAEWCAA SAVHPGWPDTVGPLRVPAGVVGLRPVRMRDAAAWSRIRLADQHHLEPWEPMTGMDWKVRHAVTSWPSICSGLRAEARHGRMLPFVIELDGEFVGQLTIGNVTHGALRSAWIGYWVASSRTGGGIATAALAMGLDHCFTAVQLHRIEATVRPENTPSRAVLAHVGFREEGLLKRYLEVDGAWRDHLLVAITAEELPQSAAHRLVAAGRAEWCAA 6c3c-a1-m1-cA_6c3c-a1-m1-cB PLP-dependent L-arginine hydroxylase RohP quinonoid I complex G8WNK6 G8WNK6 1.5 X-RAY DIFFRACTION 106 1.0 1003195 (Streptantibioticus cattleyicolor NRRL 8057 = DSM 46488) 1003195 (Streptantibioticus cattleyicolor NRRL 8057 = DSM 46488) 365 366 6c3a-a1-m1-cB_6c3a-a1-m1-cA 6c3b-a1-m1-cA_6c3b-a1-m1-cB 6c3d-a1-m1-cA_6c3d-a1-m1-cB MKYNLADAHTHQRQSASQQSIVSRLPQLWYEAEEGLQATYEKRFTEAFFQLHRQPTALVKNKTMLSYAASISTMVAGMFLKKERLAVTLIEPCFDNLYDVLANMDVPLYPIDESVFYDVDRIYPELERRVRTDALFLVDPNNPTGFSLLRHGRKGFEEVVRFCKDHDKLLLIDFCFASFTLFEPELARFDMYELLENSGVRYLAIEDTGKTWPVQDAKCALITASDDIWETVYNLHTSVLLNVSPFVLNMLTQYVRDSAADRLASVREVLTRNRECARKTLDGSILEYQEPVVKVSVAWFRVDHPELTATDVHRLLSADGVYVLPGRYFYWSEPSKGDAYVRMALAREPEMFADAMALTRQVLDR MKYNLADAHTHQRQSASQQSIVSRLPQLWYEAEEGLQATYEKRFTEAFFQLHRQPTALVKNKTMLSYAASISTMVAGMFLKKERLAVTLIEPCFDNLYDVLANMDVPLYPIDESVFYDVDRIYPELERRVRTDALFLVDPNNPTGFSLLRHGRKGFEEVVRFCKDHDKLLLIDFCFASFTLFEPELARFDMYELLENSGVRYLAIEDTGKTWPVQDAKCALITASDDIWETVYNLHTSVLLNVSPFVLNMLTQYVRDSAADRLASVREVLTRNRECARKTLDGSILEYQEPVVKVSVAWFRVDHPELTATDVHRLLSADGVYVLPGRYFYWSEPSKGDAYVRMALAREPEMFADAMALTRQVLDRH 6c3r-a1-m1-cA_6c3r-a1-m1-cB Cricket paralysis virus RNAi suppressor protein CrPV-1A Q9IJX4 Q9IJX4 2.6 X-RAY DIFFRACTION 82 1.0 928300 (Cricket paralysis virus Teleogryllus commodus/Australia/CrPVVIC/1968) 928300 (Cricket paralysis virus Teleogryllus commodus/Australia/CrPVVIC/1968) 141 141 INSLEELAAQELIAAQFEGNLDGFFCTFYVQSKPQLLDLESECYCMDDFDCGCDRIKREEELRKLIFLTSDVYGYNFEEWKGLVWKFVQNYCPEHRYGSTFGNGLLIVSPRFFMDHLDWFQQWKLVSSNDECRAFLRKRTQ INSLEELAAQELIAAQFEGNLDGFFCTFYVQSKPQLLDLESECYCMDDFDCGCDRIKREEELRKLIFLTSDVYGYNFEEWKGLVWKFVQNYCPEHRYGSTFGNGLLIVSPRFFMDHLDWFQQWKLVSSNDECRAFLRKRTQ 6c45-a2-m1-cD_6c45-a2-m1-cC Crystal structure of human inorganic pyrophosphatase in the P212121 space group Q15181 Q15181 2.388 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 285 6c45-a1-m1-cB_6c45-a1-m1-cA 7cmo-a1-m1-cA_7cmo-a1-m1-cB 7cmo-a2-m1-cC_7cmo-a2-m1-cD FSTEERAAPFSLEYRVFLKNEKGQYISPFHDIPIYADKDVFHMVVEVPRWSNAKMEIATKDPLNPIKQDVKKGKLRYVANLFPYKGYIWNYGAIPQTWEDPGHNDKHTGCCGDNDPIDVCEIGSKVCARGEIIGVKVLGILAMIDEGETDWKVIAINVDDPDAANYNDINDVKRLKPGYLEATVDWFRRYKVPDGKPENEFAFNAEFKDKDFAIDIIKSTHDHWKALVTKKTNGKGISCMNTTLSESPFKCDPDAARAIVDALPPPCESACTVPTDVDKWFH GFSTEERAAPFSLEYRVFLKNEKGQYISPFHDIPIYADKDVFHMVVEVPRWSNAKMEIATKDPLNPIKQDVKKGKLRYVANLFPYKGYIWNYGAIPQTWEDPGHNDKHTGCCGDNDPIDVCEIGSKVCARGEIIGVKVLGILAMIDEGETDWKVIAINVDDPDAANYNDINDVKRLKPGYLEATVDWFRRYKVPDGKPENEFAFNAEFKDKDFAIDIIKSTHDHWKALVTKKTNGKGISCMNTTLSESPFKCDPDAARAIVDALPPPCESACTVPTDVDKWFHHQ 6c46-a1-m1-cA_6c46-a1-m1-cB Crystal structure of dTDP-4-dehydrorhamnose 3,5-epimerase from Elizabethkingia anophelis NUHP1 A0A077ENB9 A0A077ENB9 1.95 X-RAY DIFFRACTION 77 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 183 183 6c46-a2-m1-cC_6c46-a2-m1-cD 6c46-a3-m1-cE_6c46-a3-m2-cE HHMKLVKTPLKDCYIIEPTVFEDERGYFYEKYNEKKFEELTGLNGHFVQDNISKSSYGVLRGLHLQKGKHAQAKLVSCLEGRVWDVAVDLRENSETFGKCYGMELSAENKLQFYVPRGFAHGFVVLSETAVFSYKCDNFYNKESEGSVKFNDSDLSIDWKIPEADMILSEKDQNAPAFKDKNY HHMKLVKTPLKDCYIIEPTVFEDERGYFYEKYNEKKFEELTGLNGHFVQDNISKSSYGVLRGLHLQKGKHAQAKLVSCLEGRVWDVAVDLRENSETFGKCYGMELSAENKLQFYVPRGFAHGFVVLSETAVFSYKCDNFYNKESEGSVKFNDSDLSIDWKIPEADMILSEKDQNAPAFKDKNY 6c4m-a1-m1-cC_6c4m-a1-m2-cC Yersinopine dehydrogenase (YpODH) - NADP+ bound Q8CKU7 Q8CKU7 1.94 X-RAY DIFFRACTION 64 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 418 418 6c4l-a1-m1-cC_6c4l-a1-m2-cC MHNTLPTLILGAGPAAIQLAVDISATGDARLGLYNRPSTKGERLKQYLALTPTLYLQGTGKAQATQKESSVTIDCYIDQLAQAVGDWQRLILAVPADHYYAVLQQIPWAALPQLKSVILLSSSMGSGLMVQNLLNAAGKRDVEVISLSSYYADTKYIQPYRAYTKAFKQRIYLANQWGNAGSAEMSWLTAVLARHHIDTLPCSNLLAAERFSITNYVHPPLALADTTLQALFYPEQRSQYLYKTQPEGPVCPAVIADLAGLADDYKRLLNRLGVEEINLLRFLNDDNYPVPASMVSRRWIDEFPQLPPLEQQYALFVRYTALLVDFSAVKVATVYQDANALWHLPRVPLEDVHKLRTLLLLAGALDVVMPTAQRLLQRFQQALKAFIDRVGEEHCHPSLLGDDCDRQAAIIEQQWRSQ MHNTLPTLILGAGPAAIQLAVDISATGDARLGLYNRPSTKGERLKQYLALTPTLYLQGTGKAQATQKESSVTIDCYIDQLAQAVGDWQRLILAVPADHYYAVLQQIPWAALPQLKSVILLSSSMGSGLMVQNLLNAAGKRDVEVISLSSYYADTKYIQPYRAYTKAFKQRIYLANQWGNAGSAEMSWLTAVLARHHIDTLPCSNLLAAERFSITNYVHPPLALADTTLQALFYPEQRSQYLYKTQPEGPVCPAVIADLAGLADDYKRLLNRLGVEEINLLRFLNDDNYPVPASMVSRRWIDEFPQLPPLEQQYALFVRYTALLVDFSAVKVATVYQDANALWHLPRVPLEDVHKLRTLLLLAGALDVVMPTAQRLLQRFQQALKAFIDRVGEEHCHPSLLGDDCDRQAAIIEQQWRSQ 6c4q-a2-m1-cA_6c4q-a2-m2-cA 1.16 Angstrom Resolution Crystal Structure of Acyl Carrier Protein Domain (residues 1-100) of Polyketide Synthase Pks13 from Mycobacterium tuberculosis I6X8D2 I6X8D2 1.16 X-RAY DIFFRACTION 55 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 82 82 APAERAELTVPERQWLRNWVGKAVGKAPDSIDESVPVELGLSSRDAVAAADIEDLTGVTLSVAVAFAHPTIESLATRIIEGE APAERAELTVPERQWLRNWVGKAVGKAPDSIDESVPVELGLSSRDAVAAADIEDLTGVTLSVAVAFAHPTIESLATRIIEGE 6c4x-a1-m1-cB_6c4x-a1-m1-cD Cross-alpha Amyloid-like Structure alphaAmmem 3.55 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 24 6c4x-a1-m1-cC_6c4x-a1-m1-cE 6c4x-a1-m1-cD_6c4x-a1-m1-cF 6c4x-a1-m1-cF_6c4x-a1-m1-cH SKLLLLLIILSEALHLAILLLIKW SKLLLLLIILSEALHLAILLLIKW 6c4x-a1-m1-cE_6c4x-a1-m1-cG Cross-alpha Amyloid-like Structure alphaAmmem 3.55 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 25 6c4x-a1-m1-cA_6c4x-a1-m1-cC SKLLLLLIILSEALHLAILLLIKW SKLLLLLIILSEALHLAILLLIKWG 6c4x-a1-m1-cG_6c4x-a1-m1-cH Cross-alpha Amyloid-like Structure alphaAmmem 3.55 X-RAY DIFFRACTION 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 25 25 6c4x-a1-m1-cA_6c4x-a1-m1-cB 6c4x-a1-m1-cC_6c4x-a1-m1-cD 6c4x-a1-m1-cE_6c4x-a1-m1-cF SKLLLLLIILSEALHLAILLLIKWG SKLLLLLIILSEALHLAILLLIKWG 6c52-a1-m1-cA_6c52-a1-m1-cD Cross-alpha Amyloid-like Structure alphaTet 1.6 X-RAY DIFFRACTION 31 1.0 32630 (synthetic construct) 32630 (synthetic construct) 25 25 6c52-a1-m1-cB_6c52-a1-m1-cC SKLEELRRKLQEAEHKARELQEKWG SKLEELRRKLQEAEHKARELQEKWG 6c52-a1-m1-cC_6c52-a1-m1-cD Cross-alpha Amyloid-like Structure alphaTet 1.6 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 25 25 6c52-a1-m1-cA_6c52-a1-m1-cB SKLEELRRKLQEAEHKARELQEKWG SKLEELRRKLQEAEHKARELQEKWG 6c5b-a1-m1-cA_6c5b-a1-m1-cB Crystal Structure Analysis of LaPhzM A0A172J1V3 A0A172J1V3 1.42 X-RAY DIFFRACTION 206 1.0 84531 (Lysobacter antibioticus) 84531 (Lysobacter antibioticus) 332 332 VPLSSILLQMITGYWVTQSLYVAAKLGIADLVADAPKPIEELAAKTGAKAPLLKRVLRTIASIGVFTETEPGIFGITPLAALLRSGTPDSMRPQAIMHGEEQYRAWADVLHNVQTGETAFEKEFGTSYFGYLAKHPEADRVFNEAQAGYTKQVAHAVVDAYDFSPFKTVIDIGAGYGPLLSAILRSQPEARGILFDQPHVAQAAGKRLAEAGVGDRCGTVGGDFFVEVPADGDVYILSLLLHDWDDQRSIEILRNCRRAMPAHGKLLIVELVLPEGEEPFFGKWLDLHMLVLLGAQERTADEFKTLFAASGFALERVLPTASGLSIVEARPI VPLSSILLQMITGYWVTQSLYVAAKLGIADLVADAPKPIEELAAKTGAKAPLLKRVLRTIASIGVFTETEPGIFGITPLAALLRSGTPDSMRPQAIMHGEEQYRAWADVLHNVQTGETAFEKEFGTSYFGYLAKHPEADRVFNEAQAGYTKQVAHAVVDAYDFSPFKTVIDIGAGYGPLLSAILRSQPEARGILFDQPHVAQAAGKRLAEAGVGDRCGTVGGDFFVEVPADGDVYILSLLLHDWDDQRSIEILRNCRRAMPAHGKLLIVELVLPEGEEPFFGKWLDLHMLVLLGAQERTADEFKTLFAASGFALERVLPTASGLSIVEARPI 6c5c-a1-m1-cB_6c5c-a1-m1-cA Crystal structure of the 3-dehydroquinate synthase (DHQS) domain of Aro1 from Candida albicans SC5314 in complex with NADH Q5AME2 Q5AME2 1.85 X-RAY DIFFRACTION 69 0.99 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 383 385 SNAMSIEKVPILGKETIHVGYGIADHIVREVIANLASSTYVIVTDTNMARTPQYSKLTDDFKTNLSEKRPESRLLTYCVSPGENNKNRATKAAVEDFLLQQGCTRDTVILAVGGGVIGDMIGFVAATFMRGVRVVQVPTTLLAMVDSSVGGKTAIDTPLGKNFIGAFHQPEYVFCDVSFLETLPARQFINGMAEVVKTAAIWNEEEFTRLENFSKKFLSVVTSKKPDLQSIKAELVKTVLESVRVKAGVVSSDEKEAGLRNLLNFGHTIGHAIEAVLTPEALHGECVSIGMIKEAELSRYLGILPPVAVARLSKCLVAYGLPVSIDDKEFLKKVGPKRHYVEIDILLKKMASKIRCVLLEKIGKCYQLKAHQVSKQDLSFVLT SNAMSIEKVPILGKETIHVGYGIADHIVREVIANLASSTYVIVTDTNMARTPQYSKLTDDFKTNLSEKRPESRLLTYCVSPGENNKNRATKAAVEDFLLQQGCTRDTVILAVGGGVIGDMIGFVAATFMRGVRVVQVPTTLLAMVDSSVGGKTAIDTPLGKNFIGAFHQPEYVFCDVSFLETLPARQFINGMAEVVKTAAIWNEEEFTRLENFSKKFLSVVTSKKPDLQSIKAELVKTVLESVRVKAGVVSSDEAGLRNLLNFGHTIGHAIEAVLTPEALHGECVSIGMIKEAELSRYLGILPPVAVARLSKCLVAYGLPVSIDDKEFLKKVGPKRHYVEIDILLKKMAIDKKNDIRCVLLEKIGKCYQLKAHQVSKQDLSFVLT 6c5d-a2-m1-cC_6c5d-a2-m1-cD N-terminal domain of Helicobacter pylori LlaJI.R1 Q9ZMQ4 Q9ZMQ4 1.97 X-RAY DIFFRACTION 47 1.0 85963 (Helicobacter pylori J99) 85963 (Helicobacter pylori J99) 119 129 6c5d-a1-m1-cA_6c5d-a1-m1-cB KVYLRKIDNQILHNKRISIKKGILEHFFDKANNQDEVDSGILSNYNDKVSILLATDPRLGGGIKRIISAEVDKIKENRLDYELKIDDILLFTYISYKKYTLEIILLADTRYNVLNGLIN KVYLRKIDNQILHNKRISIKKGILEHFFDKANNQDEVDSGILSNYNDKVSILLATDPRLGGGIKRIISAEVDKIKENRLDYELKIDDILLFTYISYKKYTLEIILLADTRYNVLNGLINNSKHLLVFSE 6c5r-a1-m1-cA_6c5r-a1-m1-cG Crystal structure of the soluble domain of the mitochondrial calcium uniporter E9DVV4 E9DVV4 3.09608 X-RAY DIFFRACTION 19 0.993 655827 (Metarhizium acridum CQMa 102) 655827 (Metarhizium acridum CQMa 102) 142 153 RLLTTPTRLLKLILPALLVHPQQPLSYLERLIQAEIPPEIIFRAEWVRWSGSTEIGDFIRDAARGREFSVTIEGHAEELRVAVPSFKDRTYYMRMRLRRMSQEIDQMATVKREAKWDQLVHDANGLRREIKFAATEYGVEWD KGRLLTTPTRLLKLILPEPLALLVHPQQPLSYLERLIQAEIPPLEKLPEIIFRAEAHWVRWSGSTEIGDFIRDAARGREFSVTIEGHAEELRVAVPSFKDRTYYMRMRLRRMSQEIDQMATVKREAKWDQLVHDANGLRREIKFAATEYGVEW 6c5r-a2-m1-cC_6c5r-a2-m1-cE Crystal structure of the soluble domain of the mitochondrial calcium uniporter E9DVV4 E9DVV4 3.09608 X-RAY DIFFRACTION 20 0.986 655827 (Metarhizium acridum CQMa 102) 655827 (Metarhizium acridum CQMa 102) 141 159 KGRLLTTPTRLLKLILPIPFHPLALLVHPQQPLSYLERLIQAEIWSGSTEIGDFIRDAARGREFSVTIEGHAEELRVAVPSFKDRTYYMRMRLRRMSQEIDQMATVKREAKWDQLVHDANGLRREIKFAATEYGVEWDEMK TKGRLLTTPTRLLKLILPIPFEPLALLVHPQQPLSYLERLIQAEIPPDREKLPEIIFRAEWVRWSGSTEIGDFIRDAARGREFSVTIEGHAEELRVAVPSFKDRTYYMRMRLRRMSQEIDQMATVKREAKWDQLVHDANGLRREIKFAATEYGVEWDEM 6c5z-a1-m1-cB_6c5z-a1-m1-cF Human UDP-Glucose Dehydrogenase A225L substitutuion with UDP-glucose and NADH bound O60701 O60701 2.95 X-RAY DIFFRACTION 33 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 323 459 6c5z-a1-m1-cB_6c5z-a1-m1-cD AADLKEACARRIVTESTVPAESIRRIFDAQVLSNPEFAIDLKNPDRVLIGGDQRAVQALCAVYEHWVPREKILTTNTWSSELSKLAANLFLAQRISSINSISALCEATGADVEEVATAIGMDQRIGNKFLKASVGFGGSCFQKDVLNLVYLCEALNLPEVARYWQQVIDMNDYQRRRFASRIIDSLFNTVTDKKIAILGFAFKKDTGDTRESSSIYISKYLMDEGAHLHIYDPKVPREQIVVDLSHDQVSRLVTISKDPYEACDGAHAVVICTEWDMFKELDYERIHKKMLKPAFIFDGRRVLDGLHNELQTIGFQIETIGKK FEIKKICCIGAGYVGGPTCSVIAHMCPEIRVTVVDVNESRINAWNSPTLPIYEPGLKEVVESCRGKNLFFSTNIDDAIKEADLVFISVNTPTKTYGMGKGRAADLKYIEACARRIVQNSNGYKIVTEKSTVPVRAAESIRRIFDANTKPNLNLQVLSNPEFLAEGTAIKDLKNPDRVLIGGDETPEGQRAVQALCAVYEHWVPREKILTTNTWSSELSKLAANLFLAQRISSINSISALCEATGADVEEVATAIGMDQRIGNKFLKASVGFGGSCFQKDVLNLVYLCEALNLPEVARYWQQVIDMNDYQRRRFASRIIDSLFNTVTDKKIAILGFAFKKDTGDTRESSSIYISKYLMDEGAHLHIYDPKVPREQIVVDLSHDQVSRLVTISKDPYEACDGAHAVVICTEWDMFKELDYERIHKKMLKPAFIFDGRRVLDGLHNELQTIGFQIETIGKKV 6c62-a2-m1-cD_6c62-a2-m3-cD An unexpected vestigial protein complex reveals the evolutionary origins of an s-triazine catabolic enzyme. A0A384E126 A0A384E126 1.95 X-RAY DIFFRACTION 15 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 66 66 MTETEIFAYIEAASIAIGIPLEPARARAVAHHFSRTALLAEMLESVPLSPESELAEIYRPAPFPAE MTETEIFAYIEAASIAIGIPLEPARARAVAHHFSRTALLAEMLESVPLSPESELAEIYRPAPFPAE 6c62-a2-m3-cA_6c62-a2-m4-cB An unexpected vestigial protein complex reveals the evolutionary origins of an s-triazine catabolic enzyme. Q936X3 Q936X3 1.95 X-RAY DIFFRACTION 38 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 456 456 6c62-a1-m1-cA_6c62-a1-m2-cB 6c62-a2-m1-cA_6c62-a2-m2-cB 6c6g-a1-m1-cA_6c6g-a1-m2-cB MKTVEIIEGIASGRTSARDVCEEALATIGATDGLINAFTCRTVERARAEADAIDVRRARGEVLPPLAGLPYAVKNLFDIEGVTTLAGSKINRTLPPARADAVLVQRLKAAGAVLLGGLNMDEFAYGFTTENTHYGPTRNPHDTGRIAGGSSGGSGAAIAAGQVPLSLGSDTNGSIRVPASLCGVWGLKPTFGRLSRRGTYPFVHSIDHLGPLADSVEGLALAYDAMQGPDPLDPGSASRIQPSVPVLSQGIAGLRIGVLGGWFRDNAGPAARAAVDVAALTLGASEVVMWPDAEIGRAAAFVITASEGGCLHLDDLRIRPQDFEPLSVDRFISGVLQPVAWYLRAQRFRRVYRDKVNALFRDWDILIAPATPISAPAIGTEWIEVNGTRHPCRPAMGLLTQPVSFAGCPVVAAPTWPGENDGMPIGVQLIAAPWNESLCLRAGKVLQDTGIARLKC MKTVEIIEGIASGRTSARDVCEEALATIGATDGLINAFTCRTVERARAEADAIDVRRARGEVLPPLAGLPYAVKNLFDIEGVTTLAGSKINRTLPPARADAVLVQRLKAAGAVLLGGLNMDEFAYGFTTENTHYGPTRNPHDTGRIAGGSSGGSGAAIAAGQVPLSLGSDTNGSIRVPASLCGVWGLKPTFGRLSRRGTYPFVHSIDHLGPLADSVEGLALAYDAMQGPDPLDPGSASRIQPSVPVLSQGIAGLRIGVLGGWFRDNAGPAARAAVDVAALTLGASEVVMWPDAEIGRAAAFVITASEGGCLHLDDLRIRPQDFEPLSVDRFISGVLQPVAWYLRAQRFRRVYRDKVNALFRDWDILIAPATPISAPAIGTEWIEVNGTRHPCRPAMGLLTQPVSFAGCPVVAAPTWPGENDGMPIGVQLIAAPWNESLCLRAGKVLQDTGIARLKC 6c62-a2-m3-cD_6c62-a2-m4-cC An unexpected vestigial protein complex reveals the evolutionary origins of an s-triazine catabolic enzyme. A0A384E126 A0A384E126 1.95 X-RAY DIFFRACTION 40 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 66 66 6c62-a1-m1-cD_6c62-a1-m2-cC 6c62-a2-m1-cD_6c62-a2-m2-cC 6c6g-a1-m1-cD_6c6g-a1-m2-cC MTETEIFAYIEAASIAIGIPLEPARARAVAHHFSRTALLAEMLESVPLSPESELAEIYRPAPFPAE MTETEIFAYIEAASIAIGIPLEPARARAVAHHFSRTALLAEMLESVPLSPESELAEIYRPAPFPAE 6c66-a1-m1-cK_6c66-a1-m1-cI CRISPR RNA-guided surveillance complex, pre-nicking Q47PJ2 Q47PJ2 3.66 ELECTRON MICROSCOPY 33 0.988 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 165 177 5u07-a1-m1-cB_5u07-a1-m1-cJ 5u0a-a1-m1-cL_5u0a-a1-m1-cJ SDYILQHADALVKRVSKLIVNEPAARAALRRGVMLAAHRVVAPYVPVHAVERAFYAVAAIMAAQPRSARDQRPNLGVSLAQAVFDKGLNADSTEQRLHLIARQNLDGVHRHLPRLVLYLRSDQVHIDWGILIRDLARWGHTPRHVAREWVQDYHRTLETLTRQAE YILQHADALVKRVSKLIVNEPAARAALRRGVGLAPEDPRMLAAHRVVAPYVPVVHAVERAFYAVAAIMAAQPRSARDQEAEARRPNLGVSLAQAVFDKGLNADSTEQRLHLIARQNLDGVHRHLPRLVLYLRSDQVHIDWGILIRDLARWGHTPRHVAREWVQDYHRTLETLTRQAE 6c6b-a3-m1-cD_6c6b-a3-m1-cE Co-crystal structure of adenylyl-sulfate kinase from Cryptococcus neoformans bound to ADP J9VMZ3 J9VMZ3 2 X-RAY DIFFRACTION 80 0.995 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 191 192 6c6b-a1-m1-cA_6c6b-a1-m1-cB 6c6b-a2-m1-cC_6c6b-a2-m1-cF HPGAVTQDERDTLLGQKGCTVWLTGLSASGKSTIATALEQHLLHKKLHAYRLDGDNIRFGLNKDLGFDQASRVENIRRIGEVSLLFALSSTISVTAFISPYISDRQLARELHEKHSSAIPFIEVFIDAPLSVVEQRDPKGLYKKIKDFTGISAPYEAPANPEIHIRTDEVDVAGAVEIITKYLADNGLIPA HPGAVTQDERDTLLGQKGCTVWLTGLSASGKSTIATALEQHLLHKKLHAYRLDGDNIRFGLNKDLGFDQASRVENIRRIGEVSLLFALSSTISVTAFISPYISDRQLARELHEKHSSAIPFIEVFIDAPLSVVEQRDPKGLYKKAEIKDFTGISAPYEAPANPEIHIRTDEVDVAGAVEIITKYLADNGLIP 6c6n-a1-m1-cA_6c6n-a1-m1-cB Human squalene epoxidase (SQLE, squalene monooxygenase) structure with FAD and Cmpd-4"" Q14534 Q14534 2.3 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 450 450 6c6p-a1-m1-cA_6c6p-a1-m1-cB 6c6r-a1-m1-cB_6c6r-a1-m1-cA NDPEVIIVGAGVLGSALAAVLSRDGRKVTVIERDLKEPDRIVGEFLQPGGYHVLKDLGLGDTVEGLDAQVVNGYMIHDQESKSEVQIPYPLSENNQVQSGRAFHHGRFIMSLRKAAMAEPNAKFIEGVVLQLLEEDDVVMGVQYKDKETGDIKELHAPLTVVADGLFSKFRKSLVSNKVSVSSHFVGFLMKNAPQFKANHAELILANPSPVLIYQISSSETRVLVDIRGEMPRNLREYMVEKIYPQIPDHLKEPFLEATDNSHLRSMPASFLPPSSVKKRGVLLLGDAYNMRHPLTGGGMTVAFKDIKLWRKLLKGIPDLYDDAAIFEAKKSFYWARKTSHSFVVNILAQALYELFSATDDSLHQLRKACFLYFKLGGECVAGPVGLLSVLSPNPLVLIGHFFAVAIYAVYFCFKSEPWITKPRALLSSGAVLYKACSVIFPLIYSEMKY NDPEVIIVGAGVLGSALAAVLSRDGRKVTVIERDLKEPDRIVGEFLQPGGYHVLKDLGLGDTVEGLDAQVVNGYMIHDQESKSEVQIPYPLSENNQVQSGRAFHHGRFIMSLRKAAMAEPNAKFIEGVVLQLLEEDDVVMGVQYKDKETGDIKELHAPLTVVADGLFSKFRKSLVSNKVSVSSHFVGFLMKNAPQFKANHAELILANPSPVLIYQISSSETRVLVDIRGEMPRNLREYMVEKIYPQIPDHLKEPFLEATDNSHLRSMPASFLPPSSVKKRGVLLLGDAYNMRHPLTGGGMTVAFKDIKLWRKLLKGIPDLYDDAAIFEAKKSFYWARKTSHSFVVNILAQALYELFSATDDSLHQLRKACFLYFKLGGECVAGPVGLLSVLSPNPLVLIGHFFAVAIYAVYFCFKSEPWITKPRALLSSGAVLYKACSVIFPLIYSEMKY 6c70-a1-m1-cC_6c70-a1-m1-cD Cryo-EM structure of Orco B0FAQ4 B0FAQ4 3.5 ELECTRON MICROSCOPY 53 1.0 490712 (Apocrypta bakeri) 490712 (Apocrypta bakeri) 388 388 6c70-a1-m1-cA_6c70-a1-m1-cB 6c70-a1-m1-cA_6c70-a1-m1-cD 6c70-a1-m1-cB_6c70-a1-m1-cC FKHQGLVADLLPNIRVMQGVGHFMFNYYSEGKKFPHRIYCIVTLLLLLLQYGMMAVNLMMESDDVDDLTANTITMLFFLHPIVKMIYFPVRSKIFYKTLAIWNNPNSHPLFAESNARFHALAITKMRRLLFCVAGATIFSVISWTGITFIEDSPIPRLMIRTFYPFNAMSGAGHVFALIYQFYYLVISMAVSNSLDVLFCSWLLFACEQLQHLKAIMKPLMELSATGLTKKQEMLVRSAIKYWVERHKHVVRLVTAVGDAYGVALLLHMLTTTITLTLLAYQATKVNGVNVYAATVIGYLLYTLGQVFLFCIFGNRLIEESSSVMEAAYSCHWYDGSEEAKTFVQIVCQQCQKAMSISGAKFFTVSLDLFASVLGAVVTYFMVLVQLK FKHQGLVADLLPNIRVMQGVGHFMFNYYSEGKKFPHRIYCIVTLLLLLLQYGMMAVNLMMESDDVDDLTANTITMLFFLHPIVKMIYFPVRSKIFYKTLAIWNNPNSHPLFAESNARFHALAITKMRRLLFCVAGATIFSVISWTGITFIEDSPIPRLMIRTFYPFNAMSGAGHVFALIYQFYYLVISMAVSNSLDVLFCSWLLFACEQLQHLKAIMKPLMELSATGLTKKQEMLVRSAIKYWVERHKHVVRLVTAVGDAYGVALLLHMLTTTITLTLLAYQATKVNGVNVYAATVIGYLLYTLGQVFLFCIFGNRLIEESSSVMEAAYSCHWYDGSEEAKTFVQIVCQQCQKAMSISGAKFFTVSLDLFASVLGAVVTYFMVLVQLK 6c72-a1-m1-cB_6c72-a1-m1-cC Crystal structure of a tailspike protein gp49 from Acinetobacter baumannii bacteriophage Fri1, a capsular polysaccharide depolymerase A0A0H4TJ34 A0A0H4TJ34 2.396 X-RAY DIFFRACTION 260 1.0 1647373 (Acinetobacter phage Fri1) 1647373 (Acinetobacter phage Fri1) 579 579 6c72-a1-m1-cA_6c72-a1-m1-cB 6c72-a1-m1-cA_6c72-a1-m1-cC SVQVDSVNALRKVKGLFHNQKATTTSYVAGTGFGGATYLWDANNTATDDGLSVIRVTGAATGAWLLQVHNKVLHATQAGLRAELLESDLIDQTTILQKCVDYMALIGGGVVQLPKGHIYAKAMAKSNVEVRGTFDSFVSVGSEADINNLRTVVQTATYKHGTFWHSSDGSQVYLVPENVTGAGVSNLKMLGSRLGSTSSNCGFGIKIIGDSFTAKWVDTSGFRLEGLYIRGKDGVSCSNHYFENCNFLDARRNTAALVYCHDVTFKNCTFQQLKPELTWVYLFDIEPNPATTDTVYNVTLINCVFNALASAGAEPTVLVKEQNTPTGSPNVKFLNCRFKGKATIRNNCANGWKDCIVDNCEFDTLAFSTTTTGYVITSGRFTNNTLWGKDLKGFSYNTLVTGDFLIEGNRFQDTTFENNIVATQASFGVNTFLGTATVIQPVDRRTITQQYRNLPDISGVKSPINDAYFNTEIRNFNLDLNFKEVLTVPLRSGCKITITGADATTNAGSKAYVELFVNSDNSTTITAHNEVINDPLYGVKYSWSGRTLSLAGITLSANTFIVKVDVFSALPQYSKVTWL SVQVDSVNALRKVKGLFHNQKATTTSYVAGTGFGGATYLWDANNTATDDGLSVIRVTGAATGAWLLQVHNKVLHATQAGLRAELLESDLIDQTTILQKCVDYMALIGGGVVQLPKGHIYAKAMAKSNVEVRGTFDSFVSVGSEADINNLRTVVQTATYKHGTFWHSSDGSQVYLVPENVTGAGVSNLKMLGSRLGSTSSNCGFGIKIIGDSFTAKWVDTSGFRLEGLYIRGKDGVSCSNHYFENCNFLDARRNTAALVYCHDVTFKNCTFQQLKPELTWVYLFDIEPNPATTDTVYNVTLINCVFNALASAGAEPTVLVKEQNTPTGSPNVKFLNCRFKGKATIRNNCANGWKDCIVDNCEFDTLAFSTTTTGYVITSGRFTNNTLWGKDLKGFSYNTLVTGDFLIEGNRFQDTTFENNIVATQASFGVNTFLGTATVIQPVDRRTITQQYRNLPDISGVKSPINDAYFNTEIRNFNLDLNFKEVLTVPLRSGCKITITGADATTNAGSKAYVELFVNSDNSTTITAHNEVINDPLYGVKYSWSGRTLSLAGITLSANTFIVKVDVFSALPQYSKVTWL 6c76-a1-m1-cA_6c76-a1-m1-cB Structure of Iron containing alcohol dehydrogenase from Thermococcus thioreducens in an orthorhombic crystal form A0A0Q2QQL1 A0A0Q2QQL1 2.1 X-RAY DIFFRACTION 68 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 378 378 6c75-a1-m1-cA_6c75-a1-m1-cB 6c7l-a1-m1-cA_6c7l-a1-m2-cA MFWLKTRIIEGEGSLSRLSREVKGHERVLILASGSMKRHGFLSEAEDYVKEAGAEVFSIAGLPAEPSVEVIEEFLPKVREFGPDLLVAMGGGSVIDTTKALKVFYDAPELNFGEIAFIDRFSKPKPVPRLKTLLIAIPSTSGAGSEVSGASVLKKGGVKYNIVTPEIAPDVAILDPRLPRTMPPEVARNSGLDVLVHGIEAYTTKVASPFSDAMAIKAIKTVYRWLPLSVKGDEEARARVHYAATMAGIAFLNARLGLCHAMSHKAAWIGPHGLLNAVFLPYVMEFNASKSDYARRRYAEIARELGFQTAKDLIEVVKELNEMLGVPKLGELVDEETFASKVEEMAEKTYHDGLIAFNPVEPKPEEIKELYLKAYRGE MFWLKTRIIEGEGSLSRLSREVKGHERVLILASGSMKRHGFLSEAEDYVKEAGAEVFSIAGLPAEPSVEVIEEFLPKVREFGPDLLVAMGGGSVIDTTKALKVFYDAPELNFGEIAFIDRFSKPKPVPRLKTLLIAIPSTSGAGSEVSGASVLKKGGVKYNIVTPEIAPDVAILDPRLPRTMPPEVARNSGLDVLVHGIEAYTTKVASPFSDAMAIKAIKTVYRWLPLSVKGDEEARARVHYAATMAGIAFLNARLGLCHAMSHKAAWIGPHGLLNAVFLPYVMEFNASKSDYARRRYAEIARELGFQTAKDLIEVVKELNEMLGVPKLGELVDEETFASKVEEMAEKTYHDGLIAFNPVEPKPEEIKELYLKAYRGE 6c7n-a1-m1-cD_6c7n-a1-m1-cC Monoclinic form of malic enzyme from sorghum at 2 angstroms resolution Q84LQ5 Q84LQ5 2 X-RAY DIFFRACTION 149 0.997 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 389 477 EELPVMPWATSVASGYTLLRDPRHNKGLAFTERERDAHYLRGLLPPAVVSQELQIKKFMNNLRQYQLPIQCYMAMMNLQETDERLFYKLLIENVVELLPYVYTPTVGEACQKYGSIFGRPQGLYVSLKDKGRVLEVLRNWPHRNVQVICVTDGERILGLGDLGCQGMGIPVGKLALYTALGGVDPSACLPITIDVGTNNEKLLNDEFYIGLRQKRARGEEYDELMEEFMAAVKTFYGEKVLIQFEDFANHNAFDLLEKYSKTHLVFNDDIQGTASVVLAGLLAGEAGTGIAELIALEQSNNAYIFPGLGLGLVISGAVRVHEDMLLAASAALADQFPPFTNIRKISAYIAAAVAAKAYELGLATRLPPPKDLVAYAESCMYSPVYRNYQ ELPVMPWATSVASGYTLLRDPRHNKGLAFTERERDAHYLRGLLPPAVVSQELQIKKFMNNLRQYQLPIQCYMAMMNLQETDERLFYKLLIENVVELLPYVYTPTVGEACQKYGSIFGRPQGLYVSLKDKGRVLEVLRNWPHRNVQVICVTDGERILGLGDLGCQGMGIPVGKLALYTALGGVDPSACLPITIDVGTNNEKLLNDEFYIGLRQKRARGEEYDELMEEFMAAVKTFYGEKVLIQFEDFANHNAFDLLEKYSKTHLVFNDDIQGTASVVLAGLLAALQTYLFLGAGEAGTGIAELIALEMSVWLVDLWATLYDAVQSIKPTVLIGTSGTFTKEIVEAMASINERPIIFSLSHSECTAEQAYTWTQGRAVFASGSPPGQSNNAYIFPGLGLGLVISGAVRVHEDMLLAASAALADQAFPPFTNIRKISAYIAAAVAAKAYELGLATRLPPPKDLVAYAESCMYSPVYRNYQ 6c87-a1-m1-cB_6c87-a1-m1-cA Crystal structure of rab gdp dissociation inhibitor alpha from Naegleria fowleri A0A2R2JFX6 A0A2R2JFX6 2.6 X-RAY DIFFRACTION 14 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 441 442 MNEEYDVVVLGTGLTECVISGLLSVSGKKVLHMDRNPYYGGESASLNLDQMFEKFRGQDAKPPASLGRSRDYNIDLIPKFLMANGKLVKILRMTGVTRYNMEFALVEGSFVYHKGEIHKVPITPTEVAKTPLLGFFEKLKAKKLVSYLYDYDQNNPKTHQGFDCSKDTMDKIYKYYGVSEDTTDFLGHAVALYTDDSYMTTVPALEVIERMRLYEDSLNMYGKSPYVYPMYGLGELPQVFARLCAVYGGTYMLDKKVDRIVYDDNGHVVGVESGGEVAKCKMVVGDPSYFPEKVRKTGKVIRVICILSHPVKSTENAKSSQIIFPQKQTGRKHDIYCCVTSFTHHVAPNGKYIAIVSTTVESDNPENEVKVVLDLLNPIDEKFVYILDTYAPLEDGKKDGVFISKSYDATTHFESCAVDIVDIYERITGEKFDWNKKPVEP MNEEYDVVVLGTGLTECVISGLLSVSGKKVLHMDRNPYYGGESASLNLDQMFEKFRGQDAKPPASLGRSRDYNIDLIPKFLMANGKLVKILRMTGVTRYNMEFALVEGSFVYHKGEIHKVPITPTEVAKTPLLGFFEKLKAKKLVSYLYDYDQNNPKTHQGFDCSKDTMDKIYKYYGVSEDTTDFLGHAVALYTDDSYMTTVPALEVIERMRLYEDSLNMYGKSPYVYPMYGLGELPQVFARLCAVYGGTYMLDKKVDRIVYDDNGHVVGVESGGEVAKCKMVVGDPSYFPEKVRKTGKVIRVICILSHPVKSTENAKSSQIIFPQKQTGRKHDIYCCVTSFTHHVAPNGKYIAIVSTTVESDNPENEVKVVLDLLNPIDEKFVYILDTYAPLEDGKKDGVFISKSYDATTHFESCAVDIVDIYERITGEKFDWNKKPVEPQ 6c87-a1-m1-cB_6c87-a1-m1-cD Crystal structure of rab gdp dissociation inhibitor alpha from Naegleria fowleri A0A2R2JFX6 A0A2R2JFX6 2.6 X-RAY DIFFRACTION 29 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 441 441 6c87-a1-m1-cC_6c87-a1-m1-cA MNEEYDVVVLGTGLTECVISGLLSVSGKKVLHMDRNPYYGGESASLNLDQMFEKFRGQDAKPPASLGRSRDYNIDLIPKFLMANGKLVKILRMTGVTRYNMEFALVEGSFVYHKGEIHKVPITPTEVAKTPLLGFFEKLKAKKLVSYLYDYDQNNPKTHQGFDCSKDTMDKIYKYYGVSEDTTDFLGHAVALYTDDSYMTTVPALEVIERMRLYEDSLNMYGKSPYVYPMYGLGELPQVFARLCAVYGGTYMLDKKVDRIVYDDNGHVVGVESGGEVAKCKMVVGDPSYFPEKVRKTGKVIRVICILSHPVKSTENAKSSQIIFPQKQTGRKHDIYCCVTSFTHHVAPNGKYIAIVSTTVESDNPENEVKVVLDLLNPIDEKFVYILDTYAPLEDGKKDGVFISKSYDATTHFESCAVDIVDIYERITGEKFDWNKKPVEP MNEEYDVVVLGTGLTECVISGLLSVSGKKVLHMDRNPYYGGESASLNLDQMFEKFRGQDAKPPASLGRSRDYNIDLIPKFLMANGKLVKILRMTGVTRYNMEFALVEGSFVYHKGEIHKVPITPTEVAKTPLLGFFEKLKAKKLVSYLYDYDQNNPKTHQGFDCSKDTMDKIYKYYGVSEDTTDFLGHAVALYTDDSYMTTVPALEVIERMRLYEDSLNMYGKSPYVYPMYGLGELPQVFARLCAVYGGTYMLDKKVDRIVYDDNGHVVGVESGGEVAKCKMVVGDPSYFPEKVRKTGKVIRVICILSHPVKSTENAKSSQIIFPQKQTGRKHDIYCCVTSFTHHVAPNGKYIAIVSTTVESDNPENEVKVVLDLLNPIDEKFVYILDTYAPLEDGKKDGVFISKSYDATTHFESCAVDIVDIYERITGEKFDWNKKPVEP 6c8c-a1-m1-cB_6c8c-a1-m1-cA Chimeric Pol kappa RIR Rev1 C-terminal domain in complex with JHRE06 Q920Q2 Q920Q2 1.5 X-RAY DIFFRACTION 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 119 MKSFFDKKRSERISNGGFRPAAPNLAGAVEFSDVKTLLKEWITTISDPMEEDILQVVRYCTDLIEEKDLEKLDLVIKYMKRLMQQSVWNMAFDFILDNVQVVLQQTYGSTLKVT SHMKSFFDKKRSERISNGGFRPAAPNLAGAVEFSDVKTLLKEWITTISDPMEEDILQVVRYCTDLIEEKDLEKLDLVIKYMKRLMQQSVESVWNMAFDFILDNVQVVLQQTYGSTLKVT 6c8q-a3-m1-cD_6c8q-a3-m1-cF Crystal structure of NAD synthetase (NadE) from Enterococcus faecalis in complex with NAD+ Q830Y9 Q830Y9 2.583 X-RAY DIFFRACTION 179 0.996 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 264 264 6c8q-a1-m1-cB_6c8q-a1-m1-cA 6c8q-a2-m1-cC_6c8q-a2-m1-cG 6c8q-a4-m1-cE_6c8q-a4-m1-cH TTLQEKIIQELGVLPTIDPKEEVRKSIDFLKAYLTKHPFLKTFVLGISGGQDSTLAGRLAQLAMTEMREETGDMSYQFIAIRLPYGEQADEADAQAALAFIQPDVSLRVDIKPAVDAMVGSLENAGVQISDFNKGNMKARQRMITQYAVAGENAGAVIGTDHAAENVTAFFTKYGDGGADILPLFRLNKRQGKALLKELGAPEALYLKPLVADEVALGVTYDAIDDYLEGKKVSETDQQTIENWYKKGQHKRHLPITIFDDFWK MTTLQEKIIQELGVLPTIDPKEEVRKSIDFLKAYLTKHPFLKTFVLGISGGQDSTLAGRLAQLAMTEMREETGDMSYQFIAIRLPYGEQADEADAQAALAFIQPDVSLRVDIKPAVDAMVGSLENAGVQISDFNKGNMKARQRMITQYAVAGENAGAVIGTDHAAENVTAFFTKYGDGGADILPLFRLNKRQGKALLKELGAPEALYLPLVADEVALGVTYDAIDDYLEGKKVSETDQQTIENWYKKGQHKRHLPITIFDDFWK 6c8r-a1-m1-cB_6c8r-a1-m1-cA Loganic acid O-methyltransferase complexed with SAH and loganic acid B2KPR3 B2KPR3 1.951 X-RAY DIFFRACTION 67 0.997 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 356 358 6c8s-a1-m1-cA_6c8s-a1-m1-cB AVEAHPMKGGDDSHSYSQNSCYQKGVIDAAKAVIVEAVNEKLDLENNPIFDPIKPFRIADFGCSTGPNTFHAMQNIVESVETKYKSLQKTPEFHVFFNDHVNNDFNVLFRSLPPNREFFAAGVPGSFYTRVFPKNSIHFAHCSYALHWLSKVPKEIQDKNSLAYNKGRIHYTGTEKHVVKAYFGQFQRDFEGFLKARAQEIVVGGLMVIQIPGLPSGEVLFSRTGAGLLHFLLGTSLMELVNKGIINEESVDSFNLPQYHPSVEDLEMVIEMNDCFTIERVGTLPHPMKNLPFDVQRTSLQVRAIMECILTEHFGENILDPLFEIYTKNLQENFHVFDKEIRKDADLYLVLKRKGN VEAHPMKGGDDSHSYSQNSCYQKGVIDAAKAVIVEAVNEKLDLENNPIFDPIKPFRIADFGCSTGPNTFHAMQNIVESVETKYKSLQKTPEFHVFFNDHVNNDFNVLFRSLPPNREFFAAGVPGSFYTRVFPKNSIHFAHCSYALHWLSKVPKEIQDKNSLAYNKGRIHYTGTEKHVVKAYFGQFQRDFEGFLKARAQEIVVGGLMVIQIPGLPSGEVLFSRTGAGLLHFLLGTSLMELVNKGIINEESVDSFNLPQYHPSVEDLEMVIEMNDCFTIERVGTLPHPMKNLPFDVQRTSLQVRAIMECILTEHFGENILDPLFEIYTKNLQENFHVFDKEIRKDADLYLVLKRKGNLEH 6c8w-a1-m1-cA_6c8w-a1-m2-cB Crystal structure of Aspartate Semialdehyde Dehydrogenase with NADP from Blastomyces dermatitidis C5GC63 C5GC63 2.6 X-RAY DIFFRACTION 54 1.0 559298 (Blastomyces gilchristii SLH14081) 559298 (Blastomyces gilchristii SLH14081) 357 357 6c8w-a1-m1-cB_6c8w-a1-m2-cA SKKRCGVLGATGAVGTRFILLLEQSPLLELVAVGASERSAGKKYRDAVRWKQASPMPASVADLTVRRCAPSEFSDCDIIFSGLDPVAAGDIEMAFLKANFAVFSNAKNYRLDPIVPLVVPLVNAGHIDVIPAQRKHYGLDKGLIVCNSNCAVVGLVIPAKALIQKFGPIESVSMVTMQAVSGAGPGVSSMDIFDNIVPFIPGEEGKIATESRKILGNLNPDLAGFSDQQPLQVSVACNRVPVLDGHTVCASLRFVNRPAPTASQVRDALREYKSEVQLLGCPSAPRQAIHVLDDVDRPQPRLDRDTEAGYACSVGRIREDDSGVFDIQFVALSHNTVLGASGSSILNAESAILKGYI SKKRCGVLGATGAVGTRFILLLEQSPLLELVAVGASERSAGKKYRDAVRWKQASPMPASVADLTVRRCAPSEFSDCDIIFSGLDPVAAGDIEMAFLKANFAVFSNAKNYRLDPIVPLVVPLVNAGHIDVIPAQRKHYGLDKGLIVCNSNCAVVGLVIPAKALIQKFGPIESVSMVTMQAVSGAGPGVSSMDIFDNIVPFIPGEEGKIATESRKILGNLNPDLAGFSDQQPLQVSVACNRVPVLDGHTVCASLRFVNRPAPTASQVRDALREYKSEVQLLGCPSAPRQAIHVLDDVDRPQPRLDRDTEAGYACSVGRIREDDSGVFDIQFVALSHNTVLGASGSSILNAESAILKGYI 6c8w-a1-m1-cB_6c8w-a1-m2-cB Crystal structure of Aspartate Semialdehyde Dehydrogenase with NADP from Blastomyces dermatitidis C5GC63 C5GC63 2.6 X-RAY DIFFRACTION 19 1.0 559298 (Blastomyces gilchristii SLH14081) 559298 (Blastomyces gilchristii SLH14081) 357 357 6c8w-a1-m1-cA_6c8w-a1-m2-cA SKKRCGVLGATGAVGTRFILLLEQSPLLELVAVGASERSAGKKYRDAVRWKQASPMPASVADLTVRRCAPSEFSDCDIIFSGLDPVAAGDIEMAFLKANFAVFSNAKNYRLDPIVPLVVPLVNAGHIDVIPAQRKHYGLDKGLIVCNSNCAVVGLVIPAKALIQKFGPIESVSMVTMQAVSGAGPGVSSMDIFDNIVPFIPGEEGKIATESRKILGNLNPDLAGFSDQQPLQVSVACNRVPVLDGHTVCASLRFVNRPAPTASQVRDALREYKSEVQLLGCPSAPRQAIHVLDDVDRPQPRLDRDTEAGYACSVGRIREDDSGVFDIQFVALSHNTVLGASGSSILNAESAILKGYI SKKRCGVLGATGAVGTRFILLLEQSPLLELVAVGASERSAGKKYRDAVRWKQASPMPASVADLTVRRCAPSEFSDCDIIFSGLDPVAAGDIEMAFLKANFAVFSNAKNYRLDPIVPLVVPLVNAGHIDVIPAQRKHYGLDKGLIVCNSNCAVVGLVIPAKALIQKFGPIESVSMVTMQAVSGAGPGVSSMDIFDNIVPFIPGEEGKIATESRKILGNLNPDLAGFSDQQPLQVSVACNRVPVLDGHTVCASLRFVNRPAPTASQVRDALREYKSEVQLLGCPSAPRQAIHVLDDVDRPQPRLDRDTEAGYACSVGRIREDDSGVFDIQFVALSHNTVLGASGSSILNAESAILKGYI 6c8w-a1-m2-cA_6c8w-a1-m2-cB Crystal structure of Aspartate Semialdehyde Dehydrogenase with NADP from Blastomyces dermatitidis C5GC63 C5GC63 2.6 X-RAY DIFFRACTION 139 1.0 559298 (Blastomyces gilchristii SLH14081) 559298 (Blastomyces gilchristii SLH14081) 357 357 6c85-a1-m1-cA_6c85-a1-m1-cB 6c8w-a1-m1-cA_6c8w-a1-m1-cB SKKRCGVLGATGAVGTRFILLLEQSPLLELVAVGASERSAGKKYRDAVRWKQASPMPASVADLTVRRCAPSEFSDCDIIFSGLDPVAAGDIEMAFLKANFAVFSNAKNYRLDPIVPLVVPLVNAGHIDVIPAQRKHYGLDKGLIVCNSNCAVVGLVIPAKALIQKFGPIESVSMVTMQAVSGAGPGVSSMDIFDNIVPFIPGEEGKIATESRKILGNLNPDLAGFSDQQPLQVSVACNRVPVLDGHTVCASLRFVNRPAPTASQVRDALREYKSEVQLLGCPSAPRQAIHVLDDVDRPQPRLDRDTEAGYACSVGRIREDDSGVFDIQFVALSHNTVLGASGSSILNAESAILKGYI SKKRCGVLGATGAVGTRFILLLEQSPLLELVAVGASERSAGKKYRDAVRWKQASPMPASVADLTVRRCAPSEFSDCDIIFSGLDPVAAGDIEMAFLKANFAVFSNAKNYRLDPIVPLVVPLVNAGHIDVIPAQRKHYGLDKGLIVCNSNCAVVGLVIPAKALIQKFGPIESVSMVTMQAVSGAGPGVSSMDIFDNIVPFIPGEEGKIATESRKILGNLNPDLAGFSDQQPLQVSVACNRVPVLDGHTVCASLRFVNRPAPTASQVRDALREYKSEVQLLGCPSAPRQAIHVLDDVDRPQPRLDRDTEAGYACSVGRIREDDSGVFDIQFVALSHNTVLGASGSSILNAESAILKGYI 6c8z-a1-m1-cA_6c8z-a1-m2-cA Last common ancestor of ADP-dependent phosphofructokinases from Methanosarcinales 2.86 X-RAY DIFFRACTION 35 1.0 94695 (Methanosarcinales) 94695 (Methanosarcinales) 488 488 MDISEWEKRYNEAYSDISKSLKKVKGIFVAYNSNIDAIKHIDEDDIEKLLEQVDAKEVQERIMEYPRQIDSPADFVARLIISMRDGKAAEVPTYTTDIHEWLTDNLGFDEARMGGQAGIISNLLANMGIKNVIAYVPWLSKEQAEYFVDSENLLHPVVENGKLELKHPKEAYNPDNKPKVNWIIEFSKGLEVKFAGEKIVVPRDNRLIVSSRPPWIRIDMSEELYEHLPEIGKNIDGAILSGYQMIKEEYEDGKTYKDYVEKAVNVIKRLKEGNPDIRIHVEFTSIQNKLIRKAILKDIVRKHVHSLGLDTVEVANALNVLGYEELAYSVIKKDENAIVALYEGAVILLHELKLERVHVHSLGYYICVVSKDSPVSPEDHRKSLLFASTVAAARALLGNINSLDDIEAGLDVPVSEQGYNQLEKLEKYLVRRGICTLEDFENGCICTPNHDVIIIPTKVVEKPVATVGIGDTISAAAFVSVLAKMKKK MDISEWEKRYNEAYSDISKSLKKVKGIFVAYNSNIDAIKHIDEDDIEKLLEQVDAKEVQERIMEYPRQIDSPADFVARLIISMRDGKAAEVPTYTTDIHEWLTDNLGFDEARMGGQAGIISNLLANMGIKNVIAYVPWLSKEQAEYFVDSENLLHPVVENGKLELKHPKEAYNPDNKPKVNWIIEFSKGLEVKFAGEKIVVPRDNRLIVSSRPPWIRIDMSEELYEHLPEIGKNIDGAILSGYQMIKEEYEDGKTYKDYVEKAVNVIKRLKEGNPDIRIHVEFTSIQNKLIRKAILKDIVRKHVHSLGLDTVEVANALNVLGYEELAYSVIKKDENAIVALYEGAVILLHELKLERVHVHSLGYYICVVSKDSPVSPEDHRKSLLFASTVAAARALLGNINSLDDIEAGLDVPVSEQGYNQLEKLEKYLVRRGICTLEDFENGCICTPNHDVIIIPTKVVEKPVATVGIGDTISAAAFVSVLAKMKKK 6c9a-a1-m1-cA_6c9a-a1-m1-cB Cryo-EM structure of mouse TPC1 channel in the PtdIns(3,5)P2-bound state Q9EQJ0 Q9EQJ0 3.2 ELECTRON MICROSCOPY 158 1.0 10090 (Mus musculus) 10090 (Mus musculus) 723 723 6c96-a1-m1-cA_6c96-a1-m1-cB HNWEMNYQEAAIYLQEGQNNDKFFTHPKDARALAAYLFVHNHFFYMMELLTALLLLLLSLCESPAVPVLKLHTYVHATLELFALMVVVFELCMKLRWLGFHTFVRHKRTMVKTSVLVVQFIEAIVVLVRQTSHVRVTRALRCIFLVDCRYCGGVRRNLRQIFQSLPPFMDILLLLLFFMIIFAILGFYLFSTNPSDPYFSTLENSIVNLFVLLTTANFPDVMMPSYSRNPWSCVFFIVYLSIELYFIMNLLLAVVFDTFNDIEKHKFKSLLLHKRTAIQHAYGLLASQRRPAGISYRQFEGLMRFYKPRMSARERFLTFKALNQSNTPLLSLKDFYDIYEVAALQWKAKRNRQHWFDELPRTAFLIFKGINILVNSKAFQYFMYLVVAVNGVWILVETFMLKGGNFTSKHVPWSYLVFLTIYGVELFMKVAGLGPVEYLSSGWNLFDFSVTAFAFLGLLALTLNMEPFYFIVVLRPLQLLRLFKLKKRYRNVLDTMFELLPRMASLGLTLLTFYYSFAIVGMEFFNGRLTPNCCNTSTVADAYRFINHTVGNKTKVEEGYYYLNNFDNILNSFVTLFELTVVNNWYIIMEGVTSQTSHWSRLYFMTFYIVTMVVMTIIVAFILEAFVFRMNYSRKSGIVIEKEMSKEELMAVLELYREERGTSSDVTRLLDTLSQMEKYQQNSMVFLGRRSRTKSDLSLKMYQEEIQEWYEEHAREQEQQKLR HNWEMNYQEAAIYLQEGQNNDKFFTHPKDARALAAYLFVHNHFFYMMELLTALLLLLLSLCESPAVPVLKLHTYVHATLELFALMVVVFELCMKLRWLGFHTFVRHKRTMVKTSVLVVQFIEAIVVLVRQTSHVRVTRALRCIFLVDCRYCGGVRRNLRQIFQSLPPFMDILLLLLFFMIIFAILGFYLFSTNPSDPYFSTLENSIVNLFVLLTTANFPDVMMPSYSRNPWSCVFFIVYLSIELYFIMNLLLAVVFDTFNDIEKHKFKSLLLHKRTAIQHAYGLLASQRRPAGISYRQFEGLMRFYKPRMSARERFLTFKALNQSNTPLLSLKDFYDIYEVAALQWKAKRNRQHWFDELPRTAFLIFKGINILVNSKAFQYFMYLVVAVNGVWILVETFMLKGGNFTSKHVPWSYLVFLTIYGVELFMKVAGLGPVEYLSSGWNLFDFSVTAFAFLGLLALTLNMEPFYFIVVLRPLQLLRLFKLKKRYRNVLDTMFELLPRMASLGLTLLTFYYSFAIVGMEFFNGRLTPNCCNTSTVADAYRFINHTVGNKTKVEEGYYYLNNFDNILNSFVTLFELTVVNNWYIIMEGVTSQTSHWSRLYFMTFYIVTMVVMTIIVAFILEAFVFRMNYSRKSGIVIEKEMSKEELMAVLELYREERGTSSDVTRLLDTLSQMEKYQQNSMVFLGRRSRTKSDLSLKMYQEEIQEWYEEHAREQEQQKLR 6c9e-a1-m1-cA_6c9e-a1-m1-cB Crystal structure of Cysteine desulfurase from Legionella pneumophila Philadelphia 1 Q5ZXX6 Q5ZXX6 1.55 X-RAY DIFFRACTION 279 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 404 405 SFDVNKIRKDFPVLHQKINEYDLVYFDNAATTQKPKAVIDAIAQFYEKDNSNVHRGVHALSVRATEMYEAARAKVKRFINARSPRECIFVRGTTEAINLVAQSLVAPRILPDEEILITHMEHHSNIVPWQMVCKKMGCKLQVAPISLNGEVILEEFERKLNENTKMVAINYASNSLGTINPVKTMIKMAHEVGAKVLLDGAQATAHLIVDVQDLDCDFYAFSGHMYGPTGIGVLWGKEELLNSMTPYQGGGEMINSVSFEATEYAAIPHKFEAGTPNIAGAIGLAAAIDYIWSLDLDAIAEYETQLLNYATKAIEAVKGYNIIGTAANKVPIISFVHGKIHAHDIGTILDSEGIAIRSGHHCTMPLMDFYDVAATSRISMSFYNTFKEIDYCMEALQRVKEVFA TSFDVNKIRKDFPVLHQKINEYDLVYFDNAATTQKPKAVIDAIAQFYEKDNSNVHRGVHALSVRATEMYEAARAKVKRFINARSPRECIFVRGTTEAINLVAQSLVAPRILPDEEILITHMEHHSNIVPWQMVCKKMGCKLQVAPISLNGEVILEEFERKLNENTKMVAINYASNSLGTINPVKTMIKMAHEVGAKVLLDGAQATAHLIVDVQDLDCDFYAFSGHMYGPTGIGVLWGKEELLNSMTPYQGGGEMINSVSFEATEYAAIPHKFEAGTPNIAGAIGLAAAIDYIWSLDLDAIAEYETQLLNYATKAIEAVKGYNIIGTAANKVPIISFVHGKIHAHDIGTILDSEGIAIRSGHHCTMPLMDFYDVAATSRISMSFYNTFKEIDYCMEALQRVKEVFA 6c9u-a1-m1-cA_6c9u-a1-m2-cA Crystal structure of [KS3][AT3] didomain from module 3 of 6-deoxyerthronolide B synthase in complex with antibody fragment (Fab) Q03132 Q03132 2.09 X-RAY DIFFRACTION 271 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 896 896 2qo3-a1-m1-cA_2qo3-a1-m1-cB 7m7e-a1-m1-cA_7m7e-a1-m1-cB MVTDSEKVAEYLRRATLDLRAARQRIRELESDPIAIVSMACRLPGGVNTPQRLWELLREGGETLSGFPTDRGWDLARLHHPDPDNPGTSYVDKGGFLDDAAGFDAEFFGVSPREAAAMDPQQRLLLETSWELVENAGIDPHSLRGTATGVFLGVAKFGYGEDTAAAEDVEGYSVTGVAPAVASGRISYTMGLEGPSISVDTASSSLVALHLAVESLRKGESSMAVVGGAAVMATPGVFVDFSRQRALAADGRSKAFGAGADGFGFSEGVTLVLLERLSEARRNGHEVLAVVRGSALNQDGASNGLSAPSGPAQRRVIRQALESCGLEPGDVDAVEAHGTGTALGDPIEANALLDTYGRDRDADRPLWLGSVKSNIGHTQAAAGVTGLLKVVLALRNGELPATLHVEEPTPHVDWSSGGVALLAGNQPWRRGERTRRAAVSAFGISGTNAHVIVEEAPERDGRPVPLVVSARSTAALRAQAAQIAELLERPDADLAGVGLGLATTRARHEHRAAVVASTREEAVRGLREIAAGAATADAVVEGVTEVDGRNVVFLFPGQGSQWAGMGAELLSSSPVFAGKIRACDESMAPMQDWKVSDVLRQAPGAPGLDRVDVVQPVLFAVMVSLAELWRSYGVEPAAVVGHSQGEIAAAHVAGALTLEDAAKLVVGRSRLMRSLSGEGGMAAVGEAAVRERLRPWQDVAAVNGPRSVVVSGEPGALRAFSEDCAAEGIRVRDIDVDYASHSPQIERVREELLETTGDIAPRPARVTFHSTVESRSMDGTELDARYWYRNLRETVRFADAVTRLAESGYDAFIEVSPHPVVVQAVEEAVEEADGAEDAVVVGSLHRDGGDLSAFLRSMATAHVSGVDIRWDVALPGAAPFALPTYPFQRKRYWLQP MVTDSEKVAEYLRRATLDLRAARQRIRELESDPIAIVSMACRLPGGVNTPQRLWELLREGGETLSGFPTDRGWDLARLHHPDPDNPGTSYVDKGGFLDDAAGFDAEFFGVSPREAAAMDPQQRLLLETSWELVENAGIDPHSLRGTATGVFLGVAKFGYGEDTAAAEDVEGYSVTGVAPAVASGRISYTMGLEGPSISVDTASSSLVALHLAVESLRKGESSMAVVGGAAVMATPGVFVDFSRQRALAADGRSKAFGAGADGFGFSEGVTLVLLERLSEARRNGHEVLAVVRGSALNQDGASNGLSAPSGPAQRRVIRQALESCGLEPGDVDAVEAHGTGTALGDPIEANALLDTYGRDRDADRPLWLGSVKSNIGHTQAAAGVTGLLKVVLALRNGELPATLHVEEPTPHVDWSSGGVALLAGNQPWRRGERTRRAAVSAFGISGTNAHVIVEEAPERDGRPVPLVVSARSTAALRAQAAQIAELLERPDADLAGVGLGLATTRARHEHRAAVVASTREEAVRGLREIAAGAATADAVVEGVTEVDGRNVVFLFPGQGSQWAGMGAELLSSSPVFAGKIRACDESMAPMQDWKVSDVLRQAPGAPGLDRVDVVQPVLFAVMVSLAELWRSYGVEPAAVVGHSQGEIAAAHVAGALTLEDAAKLVVGRSRLMRSLSGEGGMAAVGEAAVRERLRPWQDVAAVNGPRSVVVSGEPGALRAFSEDCAAEGIRVRDIDVDYASHSPQIERVREELLETTGDIAPRPARVTFHSTVESRSMDGTELDARYWYRNLRETVRFADAVTRLAESGYDAFIEVSPHPVVVQAVEEAVEEADGAEDAVVVGSLHRDGGDLSAFLRSMATAHVSGVDIRWDVALPGAAPFALPTYPFQRKRYWLQP 6ca3-a3-m1-cB_6ca3-a3-m1-cA THE CRYSTAL STRUCTURE OF THE W169Y MUTANT OF ALPHA-GLUCOSIDASE (GH 31) FROM RUMINOCOCCUS OBEUM ATCC 29174 in complex with miglitol A5ZY13 A5ZY13 1.743 X-RAY DIFFRACTION 140 1.0 411459 (Blautia obeum ATCC 29174) 411459 (Blautia obeum ATCC 29174) 665 666 3m46-a1-m1-cB_3m46-a1-m1-cA 3m6d-a1-m1-cA_3m6d-a1-m1-cB 3mkk-a1-m1-cA_3mkk-a1-m1-cB 3n04-a1-m1-cA_3n04-a1-m1-cB 3nsx-a1-m1-cA_3nsx-a1-m1-cB 3nuk-a1-m1-cB_3nuk-a1-m1-cA 3pha-a1-m1-cA_3pha-a1-m1-cB 3pha-a2-m1-cC_3pha-a2-m1-cD 3poc-a1-m1-cA_3poc-a1-m1-cB 6c9x-a3-m1-cB_6c9x-a3-m1-cA 6c9z-a3-m1-cB_6c9z-a3-m1-cA 6ca1-a3-m1-cA_6ca1-a3-m1-cB NAMIRKYRYGAPFDTEALTEKIETAEEAFPYGEISQKEGFAFTYIMDEDDIVYGLGESNRGINKRGYCYISNCTDDPIHTEDKRSLYGAHNFIIVSGKTTFGLFFDYPSKLTFDIGYTRMDTLKVSCENADLDIYVIEGENAYDIVKQFRRVIGRSYIPPKFAFGFGQSRYGYTTKEDFRAVAKGYRENHIPIDMIYMDIDYMQDFKDFTVNEKNFPDFPEFVKEMKDQELRLIPIIDAGVKVEKGYEVYEEGVKNNYFCKREDGSDFVAAVWPGDTHFPDMLNPEARKWFGDKYRFLIDQGIEGFWNDMNEPAIFYSSEGLAEAKEFAGEFAKDTEGKIHPWAMQAKMKDIVNSPEDYKRFYHNVNGKKIRHDKVHNLFGYNMTRAAGEAFERIDPEKRFLMFSRSSYIGMHRYGGIWMGDNKSWWSHILLNLKMLPSLNMCGFMYTGADLGGFGDDTTRDLLLRFLALGVFTPLMRDHAAEGTREQECYQFENIEDFRSVINARYRLVPYLYSEYMKAALNDDMYFKPLGFVYPDDKMAIRVEDQLMLGNEIMIAPVYEQNARGRYVYLPEEMKFIKFMPDGSISEEVLEKGVHYVDVALNEVPLFIRSGKCIPVAEAAECVKDIDTENMQLIGYEGSSYTLYEDDGIHKDYDKKENYRVLTK SNAMIRKYRYGAPFDTEALTEKIETAEEAFPYGEISQKEGFAFTYIMDEDDIVYGLGESNRGINKRGYCYISNCTDDPIHTEDKRSLYGAHNFIIVSGKTTFGLFFDYPSKLTFDIGYTRMDTLKVSCENADLDIYVIEGENAYDIVKQFRRVIGRSYIPPKFAFGFGQSRYGYTTKEDFRAVAKGYRENHIPIDMIYMDIDYMQDFKDFTVNEKNFPDFPEFVKEMKDQELRLIPIIDAGVKVEKGYEVYEEGVKNNYFCKREDGSDFVAAVWPGDTHFPDMLNPEARKWFGDKYRFLIDQGIEGFWNDMNEPAIFYSSEGLAEAKEFAGEFAKDTEGKIHPWAMQAKMKDIVNSPEDYKRFYHNVNGKKIRHDKVHNLFGYNMTRAAGEAFERIDPEKRFLMFSRSSYIGMHRYGGIWMGDNKSWWSHILLNLKMLPSLNMCGFMYTGADLGGFGDDTTRDLLLRFLALGVFTPLMRDHAAEGTREQECYQFENIEDFRSVINARYRLVPYLYSEYMKAALNDDMYFKPLGFVYPDDKMAIRVEDQLMLGNEIMIAPVYEQNARGRYVYLPEEMKFIKFMPDGSISEEVLEKGVHYVDVALNEVPLFIRSGKCIPVAEAAECVKDIDTENMQLIGYEGSSYTLYEDDGIHKDYDKKENYRVLTK 6ca8-a1-m1-cA_6ca8-a1-m2-cA Crystal structure of Plasmodium falciparum topoisomerase II DNA-binding, cleavage and re-ligation domain Q7Z2D0 Q7Z2D0 2.331 X-RAY DIFFRACTION 278 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 731 731 RERIIGIPKLEDANDAGSKYSQECTLILTEGDSAKTSCLAGLSIVGRDKYGVFPLKGKLLNVRDASFKQLMDNKEIQNIFRIMGLDITDKNKDDIKGLRYGSLMIMTDQDYDGSHIKGLLINMIHKFWPSLLKHKGFLSEFVTPIVKVQKGSQEYSFFTIAEYEQWKENTNLLGWKIKYYKGLGTSTDREFKQYFSDIKNHKIMFLWTGDRDGDSIDMAFSKKRIEDRKLWLQNFILGSYVDHKEKDLSYYDFVNKELIYYSRYDTERSIPNIMDGWKPGQRKVLYGCFKRNLRNECKVAQLVGYIAEHSAYHHGESSLQQTIINMAQTFVGSNNINFLEPCGQFGSRKEGGKDASAARYIFTKLASSTRSIFNEYDDPILKYLNEEGQKIEPQYYIPVIPTILVNGCEGIGTGYSSFIPNYNYKDIIDNIKRYINKEPLIPMVPWYKDFKGRIESNGKTGYETIGIINKIDNDTLEITELPIKKWTQDYKEFLEELLTDEKHQLILDYIDNSSHEDICFTIKMDPAKLQKAEEEGLEKVFKLKSTLTTTNMTLFDPNLKLQRYSTELDILKEFCYQRLKAYENRKSYLISKLEKEKRIISNKTKFILAIVNNELIVNKKKKKVLVEELYRKGYDPYKDINKEEIFEQELEDNEEIIAGITVKDYDYLLSMPIFSLTLEKVEDLLTQLKEKERELEILRNITVETMWLKDIEKVEEAIEFQRNVELSNREE RERIIGIPKLEDANDAGSKYSQECTLILTEGDSAKTSCLAGLSIVGRDKYGVFPLKGKLLNVRDASFKQLMDNKEIQNIFRIMGLDITDKNKDDIKGLRYGSLMIMTDQDYDGSHIKGLLINMIHKFWPSLLKHKGFLSEFVTPIVKVQKGSQEYSFFTIAEYEQWKENTNLLGWKIKYYKGLGTSTDREFKQYFSDIKNHKIMFLWTGDRDGDSIDMAFSKKRIEDRKLWLQNFILGSYVDHKEKDLSYYDFVNKELIYYSRYDTERSIPNIMDGWKPGQRKVLYGCFKRNLRNECKVAQLVGYIAEHSAYHHGESSLQQTIINMAQTFVGSNNINFLEPCGQFGSRKEGGKDASAARYIFTKLASSTRSIFNEYDDPILKYLNEEGQKIEPQYYIPVIPTILVNGCEGIGTGYSSFIPNYNYKDIIDNIKRYINKEPLIPMVPWYKDFKGRIESNGKTGYETIGIINKIDNDTLEITELPIKKWTQDYKEFLEELLTDEKHQLILDYIDNSSHEDICFTIKMDPAKLQKAEEEGLEKVFKLKSTLTTTNMTLFDPNLKLQRYSTELDILKEFCYQRLKAYENRKSYLISKLEKEKRIISNKTKFILAIVNNELIVNKKKKKVLVEELYRKGYDPYKDINKEEIFEQELEDNEEIIAGITVKDYDYLLSMPIFSLTLEKVEDLLTQLKEKERELEILRNITVETMWLKDIEKVEEAIEFQRNVELSNREE 6caa-a1-m1-cA_6caa-a1-m1-cB CryoEM structure of human SLC4A4 sodium-coupled acid-base transporter NBCe1 Q9Y6R1 Q9Y6R1 3.9 ELECTRON MICROSCOPY 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 477 477 GLIKDIKRKAPFFASDFYDALNIQALSAILFIYLATVTNAITFGGLLGDATDNMQGVLESFLGTAVSGAIFCLFAGQPLTILSSTGPVLVFERLLFNFSKDNNFDYLEFRLWIGLWSAFLCLILVATDASFLVQYFTRFTEEGFSSLISFIFIYDAFKKMIKLADYYPINSNFKVGYNTLFSVGNNCNFVPDITLMSFILFLGTYTSSMALKKFKTSPYFPTTARKLISDFAIILSILIFCVIDALVGVDTPKLIVPWVCLAAAIPALLVTILIFMDQQITAVIVNRKEHKLKKGAGYHLDLFWVAILMVICSLMALPWYVAATVISIAHIDSLKMEFLGVREQRVTGTLVFILTGLSVFMAPILKFIPMPVLYGVFLYMGVASLNGVQFMDRLKLLLMPLKHQPDFIYLRHVPLRRVHLFTFLQVLCLALLWILKSTVAAIIFPVMILALVAVRKGMDYLFSQHDLSFLDDVIPEK GLIKDIKRKAPFFASDFYDALNIQALSAILFIYLATVTNAITFGGLLGDATDNMQGVLESFLGTAVSGAIFCLFAGQPLTILSSTGPVLVFERLLFNFSKDNNFDYLEFRLWIGLWSAFLCLILVATDASFLVQYFTRFTEEGFSSLISFIFIYDAFKKMIKLADYYPINSNFKVGYNTLFSVGNNCNFVPDITLMSFILFLGTYTSSMALKKFKTSPYFPTTARKLISDFAIILSILIFCVIDALVGVDTPKLIVPWVCLAAAIPALLVTILIFMDQQITAVIVNRKEHKLKKGAGYHLDLFWVAILMVICSLMALPWYVAATVISIAHIDSLKMEFLGVREQRVTGTLVFILTGLSVFMAPILKFIPMPVLYGVFLYMGVASLNGVQFMDRLKLLLMPLKHQPDFIYLRHVPLRRVHLFTFLQVLCLALLWILKSTVAAIIFPVMILALVAVRKGMDYLFSQHDLSFLDDVIPEK 6cb2-a1-m1-cA_6cb2-a1-m2-cA Crystal structure of Escherichia coli UppP P60933 P60933 2 X-RAY DIFFRACTION 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 270 270 MHSLLIAAILGVVEGLTEFLPVSSTGHMIIVGHLLGFEGDTAKTFEVVIQLGSILAVVVMFWRRLFGLIGIHFGRPLQHEGESKGRLTLIHILLGMIPAVVLGLLFHDTIKSLFNPINVMYALVVGGLLLIAAECLKPKEPRAPGLDDMTYRQAFMIGCFQCLALWPGFSRSGATISGGMLMGVSRYAASEFSFLLAVPMMMGATALDLYKSWGFLTSGDIPMFAVGFITAFVVALIAIKTFLQLIKRISFIPFAIYRFIVAAAVYVVFF MHSLLIAAILGVVEGLTEFLPVSSTGHMIIVGHLLGFEGDTAKTFEVVIQLGSILAVVVMFWRRLFGLIGIHFGRPLQHEGESKGRLTLIHILLGMIPAVVLGLLFHDTIKSLFNPINVMYALVVGGLLLIAAECLKPKEPRAPGLDDMTYRQAFMIGCFQCLALWPGFSRSGATISGGMLMGVSRYAASEFSFLLAVPMMMGATALDLYKSWGFLTSGDIPMFAVGFITAFVVALIAIKTFLQLIKRISFIPFAIYRFIVAAAVYVVFF 6cb9-a1-m8-cA_6cb9-a1-m9-cA Segment AALQSS from the low complexity domain of TDP-43, residues 328-333 1.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6cb9-a1-m10-cA_6cb9-a1-m7-cA 6cb9-a1-m1-cA_6cb9-a1-m2-cA 6cb9-a1-m1-cA_6cb9-a1-m3-cA 6cb9-a1-m2-cA_6cb9-a1-m4-cA 6cb9-a1-m3-cA_6cb9-a1-m5-cA 6cb9-a1-m6-cA_6cb9-a1-m7-cA 6cb9-a1-m6-cA_6cb9-a1-m9-cA AALQSS AALQSS 6cbn-a1-m1-cA_6cbn-a1-m1-cB x-ray structure of NeoB from streptomyces fradiae in complex with PLP and neomycin (as the external aldimine) at pH 7.5 Q53U08 Q53U08 1.35 X-RAY DIFFRACTION 306 1.0 1906 (Streptomyces fradiae) 1906 (Streptomyces fradiae) 409 409 6cbk-a1-m1-cA_6cbk-a1-m1-cB 6cbk-a2-m1-cC_6cbk-a2-m1-cD 6cbl-a1-m1-cA_6cbl-a1-m1-cB 6cbl-a2-m1-cC_6cbl-a2-m1-cD 6cbl-a3-m1-cE_6cbl-a3-m1-cF 6cbl-a4-m1-cG_6cbl-a4-m1-cH 6cbm-a1-m1-cA_6cbm-a1-m1-cB SLLAEFPTCPRDEKDRPRVFTAASGAWLTDESGFRWIDFDNARGSILLGHGDPVVAEAVARAATGADGTATGWSRRVDAVLERLHALCGGEVVGLFRSGTAAVRAAVLAVREATGRPLLLSAGYHGYDPMWYPSEAPLEPNADGVVDFFFDLGLLRELLRAPERVAAVVVSPDHMHLSPGWYRELRRLCSAAGVVLVADEVKVGLRYAPGLSTAELLAPDVWVVAKGMANGHAVSAVGGSRRLLKPLKEVSFTSFFEPTILAAADAALARVATGEPQRAVREAGDRFLRHARKALDDASLPVEIAGDGTFFQFVPATEELEEALYGAANAEGLLFYAGDNQGVSAAFDEAVLGEAERRFARVCERLAPYAGGEPVGDAARYRVAWNVMDGLRQAPRDREETTGLLARLL SLLAEFPTCPRDEKDRPRVFTAASGAWLTDESGFRWIDFDNARGSILLGHGDPVVAEAVARAATGADGTATGWSRRVDAVLERLHALCGGEVVGLFRSGTAAVRAAVLAVREATGRPLLLSAGYHGYDPMWYPSEAPLEPNADGVVDFFFDLGLLRELLRAPERVAAVVVSPDHMHLSPGWYRELRRLCSAAGVVLVADEVKVGLRYAPGLSTAELLAPDVWVVAKGMANGHAVSAVGGSRRLLKPLKEVSFTSFFEPTILAAADAALARVATGEPQRAVREAGDRFLRHARKALDDASLPVEIAGDGTFFQFVPATEELEEALYGAANAEGLLFYAGDNQGVSAAFDEAVLGEAERRFARVCERLAPYAGGEPVGDAARYRVAWNVMDGLRQAPRDREETTGLLARLL 6cbo-a2-m1-cD_6cbo-a2-m1-cC X-ray structure of GenB1 from micromonospora echinospora in complex with neamine and PLP (as the external aldimine) Q70KD9 Q70KD9 1.6 X-RAY DIFFRACTION 314 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 409 411 5z83-a1-m1-cA_5z83-a1-m1-cB 5z8a-a1-m1-cA_5z8a-a1-m1-cB 5z8k-a1-m1-cA_5z8k-a1-m1-cB 6cbo-a1-m1-cB_6cbo-a1-m1-cA AGKLLAQEPTCPRDADGRPRVFVEGSGAYLTDPDGRRWIDFDNARGSVVLGHGDEEVAEAIARAARGRSGVGTAWSPVLDSLLGQLQEVCGGDVVGLYRTGTAALRSVTCAVRDARDRSIVLSSGYHGYDPMWHCDEPFTPNQHGIVEFLFDLDVLAEWLSRPEQVAAVVISPDHMHLGERWYTEFTRLTKEADVPVIADEVKVGLRYRAGLSTPLLDPAVWIVAKCLANGSPVAAVGGDAHLLAALEDVSFTSYFEPTAMAAATTTLRRMATGEPQQAIRAAGDRFIAHTRAAFANAGVPIDLAGNGNLFQFVCADDEVADAFHAAAAAEGLLFFEGDNQTPSAAFTDEVVEDACGRIDRVSAALTGRFTDRELTEESWYASAWGAMDGLADRPRTREETTAIVERLW GAGKLLAQEPTCPRDADGRPRVFVEGSGAYLTDPDGRRWIDFDNARGSVVLGHGDEEVAEAIARAARGRSGVGTAWSPVLDSLLGQLQEVCGGDVVGLYRTGTAALRSVTCAVRDARDRSIVLSSGYHGYDPMWHCDEPFTPNQHGIVEFLFDLDVLAEWLSRPEQVAAVVISPDHMHLGERWYTEFTRLTKEADVPVIADEVKVGLRYRAGLSTPLLDPAVWIVAKCLANGSPVAAVGGDAHLLAALEDVSFTSYFEPTAMAAATTTLRRMATGEPQQAIRAAGDRFIAHTRAAFANAGVPIDLAGNGNLFQFVCADDEVADAFHAAAAAEGLLFFEGDNQTPSAAFTDEVVEDACGRIDRVSAALTGRFTDRELTEESWYASAWGAMDGLADRPRTREETTAIVERLWE 6cc0-a1-m1-cB_6cc0-a1-m1-cA Crystal structure of QscR bound to C12-homoserine lactone Q9RMS5 Q9RMS5 2.5 X-RAY DIFFRACTION 96 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 233 234 3szt-a1-m1-cB_3szt-a1-m1-cA 6cbq-a1-m1-cA_6cbq-a1-m1-cB REGYLEILSRITTEEEFFSLVLEICGNYGFEFFSFGARAPFPLTAPKYHFLSNYPGEWKSRYISEDYTSIDPIVRHGLLEYTPLIWNGEDFQENRFFWEEALHHGIRHGWSIPVRGKYGLISMLSLVRSSESIAATEILEKESFLLWITSMLQATFGDLLAPRIVPESNVRLTARETEMLKWTAVGKTYGEIGLILSIDQRTVKFHIVNAMRKLNSSNKAEATMKAYAIGLLN EREGYLEILSRITTEEEFFSLVLEICGNYGFEFFSFGARAPFPLTAPKYHFLSNYPGEWKSRYISEDYTSIDPIVRHGLLEYTPLIWNGEDFQENRFFWEEALHHGIRHGWSIPVRGKYGLISMLSLVRSSESIAATEILEKESFLLWITSMLQATFGDLLAPRIVPESNVRLTARETEMLKWTAVGKTYGEIGLILSIDQRTVKFHIVNAMRKLNSSNKAEATMKAYAIGLLN 6ccb-a2-m3-cB_6ccb-a2-m5-cB Crystal structure of 253-11 SOSIP trimer in complex with 10-1074 Fab B2YFS0 B2YFS0 6.5 X-RAY DIFFRACTION 63 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 131 131 6ccb-a1-m1-cA_6ccb-a1-m2-cA 6ccb-a1-m1-cA_6ccb-a1-m4-cA 6ccb-a1-m2-cA_6ccb-a1-m4-cA 6ccb-a2-m1-cB_6ccb-a2-m3-cB 6ccb-a2-m1-cB_6ccb-a2-m5-cB LGAAGSTMGAASITLTVQARQLLSGIVQQQSNLRLTVWGIKQLQARVLALERYLKDQQLLGIWGCSGKLICCTNVLWNTTWSNKTYNDIWDNMTWLQWDKEISNYTDIIYGLIEESQIQQEKNEQDLLALD LGAAGSTMGAASITLTVQARQLLSGIVQQQSNLRLTVWGIKQLQARVLALERYLKDQQLLGIWGCSGKLICCTNVLWNTTWSNKTYNDIWDNMTWLQWDKEISNYTDIIYGLIEESQIQQEKNEQDLLALD 6ccb-a2-m5-cG_6ccb-a2-m3-cG Crystal structure of 253-11 SOSIP trimer in complex with 10-1074 Fab B2YFS0 B2YFS0 6.5 X-RAY DIFFRACTION 47 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 440 440 6ccb-a1-m1-cC_6ccb-a1-m2-cC 6ccb-a1-m4-cC_6ccb-a1-m1-cC 6ccb-a1-m4-cC_6ccb-a1-m2-cC 6ccb-a2-m1-cG_6ccb-a2-m3-cG 6ccb-a2-m5-cG_6ccb-a2-m1-cG LWVTVYYGVPVWKDAVTTLFCASDAKAYSTEVHNVWATHACVPTDPNPQEMPLENVTENFNVWKNDMVEQMHEDIINLWDQSLKPCVKLTPLCVTLNCSNFSGEIKNCSFNVTTGLKDKKQKMDALFHRRDVVQINSYYMLISCNTSTMAQACPKITFEPIPIHYCAPAGFAILKCKDKGFNGTGSCKNVSTVQCTHGIKPVVTTQLLLNGSTAEEEIVIRSENITDNARTIIVQLTKPININCTRPGNNTRKSVRIGPGQTFYATGAIIGNIRQAHCNVSKTEWNDTLRQVAEQLSKHFPNATTITFANASGGDLEITTHSFNCGGEFFYCNTSKLFSSTWDNSNETITLQCKIKQIINMWQQVGRAMYAPPIQGEIRCESNITGLLLTRDGGANSSTNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRV LWVTVYYGVPVWKDAVTTLFCASDAKAYSTEVHNVWATHACVPTDPNPQEMPLENVTENFNVWKNDMVEQMHEDIINLWDQSLKPCVKLTPLCVTLNCSNFSGEIKNCSFNVTTGLKDKKQKMDALFHRRDVVQINSYYMLISCNTSTMAQACPKITFEPIPIHYCAPAGFAILKCKDKGFNGTGSCKNVSTVQCTHGIKPVVTTQLLLNGSTAEEEIVIRSENITDNARTIIVQLTKPININCTRPGNNTRKSVRIGPGQTFYATGAIIGNIRQAHCNVSKTEWNDTLRQVAEQLSKHFPNATTITFANASGGDLEITTHSFNCGGEFFYCNTSKLFSSTWDNSNETITLQCKIKQIINMWQQVGRAMYAPPIQGEIRCESNITGLLLTRDGGANSSTNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRV 6cdb-a3-m2-cB_6cdb-a3-m4-cB Crystal Structure of V66L CzrA in the Zn(II)bound state O85142 O85142 1.99 X-RAY DIFFRACTION 102 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 95 95 1r1u-a1-m1-cB_1r1u-a1-m1-cA 1r1u-a2-m1-cD_1r1u-a2-m1-cC 1r1v-a1-m1-cA_1r1v-a1-m2-cA 1r1v-a2-m1-cB_1r1v-a2-m2-cB 1r1v-a3-m1-cA_1r1v-a3-m2-cA 1r1v-a3-m1-cB_1r1v-a3-m2-cB 2kjc-a1-m1-cA_2kjc-a1-m1-cB 2m30-a1-m1-cA_2m30-a1-m1-cB 4ggg-a1-m1-cA_4ggg-a1-m2-cA 4ggg-a2-m1-cB_4ggg-a2-m2-cB 6cda-a1-m1-cA_6cda-a1-m2-cA 6cdb-a1-m1-cA_6cdb-a1-m3-cA 6cdb-a2-m1-cB_6cdb-a2-m3-cB 6cdb-a3-m1-cA_6cdb-a3-m3-cA INTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSLHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPK INTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSLHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPK 6cdb-a3-m4-cB_6cdb-a3-m3-cA Crystal Structure of V66L CzrA in the Zn(II)bound state O85142 O85142 1.99 X-RAY DIFFRACTION 15 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 95 97 6cdb-a3-m2-cB_6cdb-a3-m1-cA INTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSLHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPK SEINTDTLERVTEIFKALGDYNRIRIMELLSVSEASVGHISHQLNLSQSNVSHQLKLLKSLHLVKAKRQGQSMIYSLDDIHVATMLKQAIHHANHPK 6ce2-a1-m1-cA_6ce2-a1-m1-cB Crystal structure of Myotoxin I (MjTX-I) from Bothrops moojeni complexed to inhibitor suramin P82114 P82114 2.15 X-RAY DIFFRACTION 35 1.0 98334 (Bothrops moojeni) 98334 (Bothrops moojeni) 121 121 SLVELGKMILQETGKNPVKSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTNCNPKKDRYSYDWKNKTIVCGEENPCLKQLCECDKAVAICLRENKGTYNKKRDVYLKPFCDKGRDC SLVELGKMILQETGKNPVKSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTNCNPKKDRYSYDWKNKTIVCGEENPCLKQLCECDKAVAICLRENKGTYNKKRDVYLKPFCDKGRDC 6cep-a1-m1-cB_6cep-a1-m1-cC Sus scrofa heart L-lactate dehydrogenase ternary complex with NADH and oxamate P00336 P00336 2 X-RAY DIFFRACTION 101 0.997 9823 (Sus scrofa) 9823 (Sus scrofa) 322 331 1i0z-a1-m1-cA_1i0z-a1-m2-cB 1i0z-a1-m1-cB_1i0z-a1-m2-cA 1t2f-a1-m1-cA_1t2f-a1-m1-cC 1t2f-a1-m1-cB_1t2f-a1-m1-cD 5ldh-a1-m1-cA_5ldh-a1-m2-cA 5ldh-a1-m2-cB_5ldh-a1-m1-cB 6cep-a1-m1-cD_6cep-a1-m1-cA 7dbj-a1-m1-cA_7dbj-a1-m1-cD 7dbj-a1-m1-cB_7dbj-a1-m1-cC 7dbk-a1-m1-cA_7dbk-a1-m1-cD 7dbk-a1-m1-cB_7dbk-a1-m1-cC 7dbk-a2-m1-cE_7dbk-a2-m1-cH 7dbk-a2-m1-cF_7dbk-a2-m1-cG ATLKEKLIAPVAEEETTIPNNKITVVGVGQVGMACAISILGKSLTDELALVDVLEDKLKGEMMDLQHGSLFLQTPKIVADKDYSVTANSKIVVVTAGVRVQRNVNVFKFIIPQIVKYSPDCIIIVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDSARFRYLMAEKLGVHPSSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPEMGTDNDSENWKEVHKMVVESAYEVIKLKGYTNWAIGLSVADLIESMLKNLSRIHPVSTMVQGMYGIENEVFLSLPCVLNARGLTSVINQKLKDDEVAQLKNSADTLWGIQKDLKD ATLKEKLIAPVAEEETTIPNNKITVVGVGQVGMACAISILGKSLTDELALVDVLEDKLKGEMMDLQHGSLFLQTPKIVADKDYSVTANSKIVVVTAGVRQQEGESRLNLVQRNVNVFKFIIPQIVKYSPDCIIIVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDSARFRYLMAEKLGVHPSSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPEMGTDNDSENWKEVHKMVVESAYEVIKLKGYTNWAIGLSVADLIESMLKNLSRIHPVSTMVQGMYGIENEVFLSLPCVLNARGLTSVINQKLKDDEVAQLKNSADTLWGIQKDLK 6cep-a1-m1-cD_6cep-a1-m1-cB Sus scrofa heart L-lactate dehydrogenase ternary complex with NADH and oxamate P00336 P00336 2 X-RAY DIFFRACTION 81 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 317 322 1i0z-a1-m1-cA_1i0z-a1-m2-cA 1i0z-a1-m1-cB_1i0z-a1-m2-cB 1t2f-a1-m1-cA_1t2f-a1-m1-cD 1t2f-a1-m1-cB_1t2f-a1-m1-cC 5ldh-a1-m1-cB_5ldh-a1-m2-cA 5ldh-a1-m2-cB_5ldh-a1-m1-cA 6cep-a1-m1-cA_6cep-a1-m1-cC 7dbj-a1-m1-cA_7dbj-a1-m1-cC 7dbj-a1-m1-cB_7dbj-a1-m1-cD 7dbk-a1-m1-cA_7dbk-a1-m1-cC 7dbk-a1-m1-cB_7dbk-a1-m1-cD 7dbk-a2-m1-cE_7dbk-a2-m1-cG 7dbk-a2-m1-cF_7dbk-a2-m1-cH ATLKEKLIAPVATIPNNKITVVGVGQVGMACAISILGKSLTDELALVDVLEDKLKGEMMDLQHGSLFLQTPKIVADKDYSVTANSKIVVVTAGVVQRNVNVFKFIIPQIVKYSPDCIIIVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDSARFRYLMAEKLGVHPSSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPEMGTDNDSENWKEVHKMVVESAYEVIKLKGYTNWAIGLSVADLIESMLKNLSRIHPVSTMVQGMYGIENEVFLSLPCVLNARGLTSVINQKLKDDEVAQLKNSADTLWGIQKDLKD ATLKEKLIAPVAEEETTIPNNKITVVGVGQVGMACAISILGKSLTDELALVDVLEDKLKGEMMDLQHGSLFLQTPKIVADKDYSVTANSKIVVVTAGVRVQRNVNVFKFIIPQIVKYSPDCIIIVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDSARFRYLMAEKLGVHPSSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPEMGTDNDSENWKEVHKMVVESAYEVIKLKGYTNWAIGLSVADLIESMLKNLSRIHPVSTMVQGMYGIENEVFLSLPCVLNARGLTSVINQKLKDDEVAQLKNSADTLWGIQKDLKD 6cep-a1-m1-cD_6cep-a1-m1-cC Sus scrofa heart L-lactate dehydrogenase ternary complex with NADH and oxamate P00336 P00336 2 X-RAY DIFFRACTION 165 0.997 9823 (Sus scrofa) 9823 (Sus scrofa) 317 331 1i0z-a1-m1-cA_1i0z-a1-m1-cB 1i0z-a1-m2-cA_1i0z-a1-m2-cB 1t2f-a1-m1-cA_1t2f-a1-m1-cB 1t2f-a1-m1-cC_1t2f-a1-m1-cD 5ldh-a1-m1-cA_5ldh-a1-m1-cB 5ldh-a1-m2-cB_5ldh-a1-m2-cA 6cep-a1-m1-cB_6cep-a1-m1-cA 7dbj-a1-m1-cA_7dbj-a1-m1-cB 7dbj-a1-m1-cC_7dbj-a1-m1-cD 7dbk-a1-m1-cA_7dbk-a1-m1-cB 7dbk-a1-m1-cC_7dbk-a1-m1-cD 7dbk-a2-m1-cE_7dbk-a2-m1-cF 7dbk-a2-m1-cG_7dbk-a2-m1-cH ATLKEKLIAPVATIPNNKITVVGVGQVGMACAISILGKSLTDELALVDVLEDKLKGEMMDLQHGSLFLQTPKIVADKDYSVTANSKIVVVTAGVVQRNVNVFKFIIPQIVKYSPDCIIIVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDSARFRYLMAEKLGVHPSSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPEMGTDNDSENWKEVHKMVVESAYEVIKLKGYTNWAIGLSVADLIESMLKNLSRIHPVSTMVQGMYGIENEVFLSLPCVLNARGLTSVINQKLKDDEVAQLKNSADTLWGIQKDLKD ATLKEKLIAPVAEEETTIPNNKITVVGVGQVGMACAISILGKSLTDELALVDVLEDKLKGEMMDLQHGSLFLQTPKIVADKDYSVTANSKIVVVTAGVRQQEGESRLNLVQRNVNVFKFIIPQIVKYSPDCIIIVVSNPVDILTYVTWKLSGLPKHRVIGSGCNLDSARFRYLMAEKLGVHPSSCHGWILGEHGDSSVAVWSGVNVAGVSLQELNPEMGTDNDSENWKEVHKMVVESAYEVIKLKGYTNWAIGLSVADLIESMLKNLSRIHPVSTMVQGMYGIENEVFLSLPCVLNARGLTSVINQKLKDDEVAQLKNSADTLWGIQKDLK 6cew-a1-m4-cA_6cew-a1-m6-cB Segment AMMAAA from the low complexity domain of TDP-43, residues 321-326 1.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6cew-a1-m1-cA_6cew-a1-m3-cB 6cew-a1-m1-cB_6cew-a1-m2-cA 6cew-a1-m4-cB_6cew-a1-m5-cA AMMAAA AMMAAA 6cew-a1-m6-cA_6cew-a1-m6-cB Segment AMMAAA from the low complexity domain of TDP-43, residues 321-326 1.2 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6cew-a1-m1-cA_6cew-a1-m1-cB 6cew-a1-m2-cA_6cew-a1-m2-cB 6cew-a1-m3-cA_6cew-a1-m3-cB 6cew-a1-m4-cA_6cew-a1-m4-cB 6cew-a1-m5-cA_6cew-a1-m5-cB AMMAAA AMMAAA 6cf4-a1-m8-cA_6cf4-a1-m9-cA Segment NFGTFS, with familial mutation A315T and phosphorylated threonine, from the low complexity domain of TDP-43, residues 312-317 Q13148 Q13148 0.75 ELECTRON CRYSTALLOGRAPHY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 5 5 6cf4-a1-m10-cA_6cf4-a1-m9-cA 6cf4-a1-m1-cA_6cf4-a1-m2-cA 6cf4-a1-m1-cA_6cf4-a1-m4-cA 6cf4-a1-m2-cA_6cf4-a1-m3-cA 6cf4-a1-m4-cA_6cf4-a1-m5-cA 6cf4-a1-m6-cA_6cf4-a1-m7-cA 6cf4-a1-m7-cA_6cf4-a1-m8-cA NFGFS NFGFS 6cf6-a1-m1-cB_6cf6-a1-m1-cA RNF146 TBM-Tankyrase ARC2-3 complex Q6PFX9 Q6PFX9 1.93 X-RAY DIFFRACTION 154 1.0 10090 (Mus musculus) 10090 (Mus musculus) 319 320 3utm-a1-m1-cB_3utm-a1-m1-cA 5hkp-a1-m1-cB_5hkp-a1-m1-cA DPSAKAVLTGEYKKDELLEAARSGNEEKLMALLTPLNVNCHASDGRKSTPLHLAAGYNRVRIVQLLLQHGADVHAKDKGGLVPLHNACSYGHYEVTELLLKHGACVNAMDLWQFTPLHEAASKNRVEVCSLLLSHGADPTLVNCHGKSAVDMAPTPELRERLTYEFKGHSLLQAAREADLAKVKKTLALEIINFKQPQSHETALHCAVASLHPKRKQVAELLLRKGANVNEKNKDFMTPLHVAAERAHNDVMEVLHKHGAKMNALDSLGQTALHRAALAGHLQTCRLLLSYGSDPSIISLQGFTAAQMGNEAVQQILSE ADPSAKAVLTGEYKKDELLEAARSGNEEKLMALLTPLNVNCHASDGRKSTPLHLAAGYNRVRIVQLLLQHGADVHAKDKGGLVPLHNACSYGHYEVTELLLKHGACVNAMDLWQFTPLHEAASKNRVEVCSLLLSHGADPTLVNCHGKSAVDMAPTPELRERLTYEFKGHSLLQAAREADLAKVKKTLALEIINFKQPQSHETALHCAVASLHPKRKQVAELLLRKGANVNEKNKDFMTPLHVAAERAHNDVMEVLHKHGAKMNALDSLGQTALHRAALAGHLQTCRLLLSYGSDPSIISLQGFTAAQMGNEAVQQILSE 6cfg-a1-m3-cA_6cfg-a1-m2-cA Crystal structure of the A/Vietnam/1203/2004 (H5N1) influenza virus hemagglutinin in complex with small molecule JNJ4796 Q5EP31 Q5EP31 2.32 X-RAY DIFFRACTION 37 1.0 284218 (Influenza A virus (A/Viet Nam/1203/2004(H5N1))) 284218 (Influenza A virus (A/Viet Nam/1203/2004(H5N1))) 324 324 1jsm-a2-m1-cA_1jsm-a2-m2-cA 1jsm-a2-m1-cA_1jsm-a2-m3-cA 1jsm-a2-m2-cA_1jsm-a2-m3-cA 1jso-a2-m1-cA_1jso-a2-m2-cA 1jso-a2-m1-cA_1jso-a2-m3-cA 1jso-a2-m2-cA_1jso-a2-m3-cA 2fk0-a1-m1-cA_2fk0-a1-m1-cC 2fk0-a1-m1-cE_2fk0-a1-m1-cA 2fk0-a1-m1-cE_2fk0-a1-m1-cC 2fk0-a2-m1-cG_2fk0-a2-m1-cI 2fk0-a2-m1-cK_2fk0-a2-m1-cG 2fk0-a2-m1-cK_2fk0-a2-m1-cI 2fk0-a3-m1-cM_2fk0-a3-m2-cM 2fk0-a3-m3-cM_2fk0-a3-m1-cM 2fk0-a3-m3-cM_2fk0-a3-m2-cM 2fk0-a4-m1-cO_2fk0-a4-m4-cO 2fk0-a4-m5-cO_2fk0-a4-m1-cO 2fk0-a4-m5-cO_2fk0-a4-m4-cO 2fk0-a5-m1-cQ_2fk0-a5-m6-cQ 2fk0-a5-m7-cQ_2fk0-a5-m1-cQ 2fk0-a5-m7-cQ_2fk0-a5-m6-cQ 2ibx-a1-m1-cA_2ibx-a1-m1-cC 2ibx-a1-m1-cA_2ibx-a1-m1-cE 2ibx-a1-m1-cC_2ibx-a1-m1-cE 3fku-a1-m1-cA_3fku-a1-m1-cC 3fku-a1-m1-cA_3fku-a1-m1-cE 3fku-a1-m1-cC_3fku-a1-m1-cE 3fku-a2-m1-cG_3fku-a2-m1-cI 3fku-a2-m1-cG_3fku-a2-m1-cK 3fku-a2-m1-cI_3fku-a2-m1-cK 3gbm-a1-m1-cA_3gbm-a1-m2-cA 3gbm-a1-m3-cA_3gbm-a1-m1-cA 3gbm-a1-m3-cA_3gbm-a1-m2-cA 3gbm-a2-m1-cC_3gbm-a2-m4-cC 3gbm-a2-m5-cC_3gbm-a2-m1-cC 3gbm-a2-m5-cC_3gbm-a2-m4-cC 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6cf5-a1-m1-cC_6cf5-a1-m1-cA 6cf5-a1-m1-cE_6cf5-a1-m1-cA 6cf5-a1-m1-cE_6cf5-a1-m1-cC 6cfg-a1-m1-cA_6cfg-a1-m2-cA 6cfg-a1-m3-cA_6cfg-a1-m1-cA 6e3h-a1-m1-cA_6e3h-a1-m2-cA 6e3h-a1-m3-cA_6e3h-a1-m1-cA 6e3h-a1-m3-cA_6e3h-a1-m2-cA 6e7g-a1-m1-cA_6e7g-a1-m1-cC 6e7g-a1-m1-cE_6e7g-a1-m1-cA 6e7g-a1-m1-cE_6e7g-a1-m1-cC 6e7h-a1-m1-cC_6e7h-a1-m1-cA 6e7h-a1-m1-cE_6e7h-a1-m1-cA 6e7h-a1-m1-cE_6e7h-a1-m1-cC 6pcx-a1-m1-cA_6pcx-a1-m2-cA 6pcx-a1-m1-cA_6pcx-a1-m3-cA 6pcx-a1-m2-cA_6pcx-a1-m3-cA 6pd3-a1-m1-cA_6pd3-a1-m2-cA 6pd3-a1-m1-cA_6pd3-a1-m3-cA 6pd3-a1-m2-cA_6pd3-a1-m3-cA 6pd5-a1-m1-cA_6pd5-a1-m2-cA 6pd5-a1-m1-cA_6pd5-a1-m3-cA 6pd5-a1-m2-cA_6pd5-a1-m3-cA 6pd6-a1-m1-cA_6pd6-a1-m2-cA 6pd6-a1-m1-cA_6pd6-a1-m3-cA 6pd6-a1-m2-cA_6pd6-a1-m3-cA 6vmz-a1-m1-cA_6vmz-a1-m1-cC 6vmz-a1-m1-cA_6vmz-a1-m1-cE 6vmz-a1-m1-cC_6vmz-a1-m1-cE 7dea-a1-m1-cA_7dea-a1-m1-cC 7dea-a1-m1-cA_7dea-a1-m1-cE 7dea-a1-m1-cC_7dea-a1-m1-cE 7deb-a1-m1-cA_7deb-a1-m1-cB 7deb-a1-m1-cA_7deb-a1-m1-cC 7deb-a1-m1-cB_7deb-a1-m1-cC 7wl5-a1-m1-cA_7wl5-a1-m1-cC 7wl5-a1-m1-cA_7wl5-a1-m1-cE 7wl5-a1-m1-cC_7wl5-a1-m1-cE DPGDQICIGYHANNSTEQVDTIMEKNVTVTHAQDILEKKHNGKLCDLDGVKPLILRDCSVAGWLLGNPMCDEFINVPEWSYIVEKANPVNDLCYPGDFNDYEELKHLLSRINHFEKIQIIPKSSWSSHEASLGVSSACPYQGKSSFFRNVVWLIKKNSTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTKLYQNPTTYISVGTSTLNQRLVPRIATRSKVNGQSGRMEFFWTILKPNDAINFESNGNFIAPEYAYKIVKKGDSTIMKSELEYGNCNTKCQTPMGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNSP DPGDQICIGYHANNSTEQVDTIMEKNVTVTHAQDILEKKHNGKLCDLDGVKPLILRDCSVAGWLLGNPMCDEFINVPEWSYIVEKANPVNDLCYPGDFNDYEELKHLLSRINHFEKIQIIPKSSWSSHEASLGVSSACPYQGKSSFFRNVVWLIKKNSTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTKLYQNPTTYISVGTSTLNQRLVPRIATRSKVNGQSGRMEFFWTILKPNDAINFESNGNFIAPEYAYKIVKKGDSTIMKSELEYGNCNTKCQTPMGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNSP 6cfr-a1-m1-cA_6cfr-a1-m2-cA Structure of Human alpha-Phosphomannomutase 1 containing mutation R183I Q92871 Q92871 2.07 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 2fuc-a1-m1-cA_2fuc-a1-m2-cA 2fue-a1-m1-cA_2fue-a1-m2-cA 6cfs-a1-m1-cA_6cfs-a1-m2-cA 6cfu-a1-m1-cA_6cfu-a1-m2-cA ERVLCLFDVDGTLTPARQKIDPEVAAFLQKLRSRVQIGVVGGSDYCKIAEQLGDGDEVIEKFDYVFAENGTVQYKHGRLLSKQTIQNHLGEELLQDLINFCLSYMALLRLPKKRGTFIEFRNGMLNISPIGRSCTLEERIEFSELDKKEKIREKFVEALKTEFAGKGLRFSIGGMISFDVFPEGWDKRYCLDSLDQDSFDTIHFFGNETSPGGNDFEIFADPRTVGHSVVSPQDTVQRCREIFFP ERVLCLFDVDGTLTPARQKIDPEVAAFLQKLRSRVQIGVVGGSDYCKIAEQLGDGDEVIEKFDYVFAENGTVQYKHGRLLSKQTIQNHLGEELLQDLINFCLSYMALLRLPKKRGTFIEFRNGMLNISPIGRSCTLEERIEFSELDKKEKIREKFVEALKTEFAGKGLRFSIGGMISFDVFPEGWDKRYCLDSLDQDSFDTIHFFGNETSPGGNDFEIFADPRTVGHSVVSPQDTVQRCREIFFP 6cg6-a1-m1-cA_6cg6-a1-m2-cA mouse cadherin-10 EC1-2 adhesive fragment P70408 P70408 2.707 X-RAY DIFFRACTION 59 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 207 GWMWNQFFLLEEYTGSDYQYVGKLHSDQDKGDGSLKYILSGDGAGTLFIIDEKTGDIHATRRIDREEKAFYTLRAQAINRRTLRPVEPESEFVIKIHDINDNEPTFPEEIYTASVPEMSVVGTSVVQVTATDADDPSYGNSARVIYSILQGQPYFSVEPETGIIRTALPNMNRENKEQYQVVIQAKDMGGQMGGLSGTTTVNITLTD GWMWNQFFLLEEYTGSDYQYVGKLHSDQDKGDGSLKYILSGDGAGTLFIIDEKTGDIHATRRIDREEKAFYTLRAQAINRRTLRPVEPESEFVIKIHDINDNEPTFPEEIYTASVPEMSVVGTSVVQVTATDADDPSYGNSARVIYSILQGQPYFSVEPETGIIRTALPNMNRENKEQYQVVIQAKDMGGQMGGLSGTTTVNITLTD 6cg7-a1-m1-cA_6cg7-a1-m1-cB mouse cadherin-22 EC1-2 adhesive fragment Q9WTP5 Q9WTP5 2.705 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 207 GWVWNQFFVVEEYTGTEPLYVGKIHSDSDEGDGTIKYTISGEGAGTIFLIDELTGDIHATERLDREQKTFYTLRAQARDRATNRLLEPESEFIIKVQDINDSEPRFLHGPYIGSVAELSPTGTSVMQVMASDADDPTYGSSARLVYSVLDGEHHFTVDPKTGVIRTAVPDLDRESQERYEVVIQATDMAGQLGGLSGSTTVTIVVTD GWVWNQFFVVEEYTGTEPLYVGKIHSDSDEGDGTIKYTISGEGAGTIFLIDELTGDIHATERLDREQKTFYTLRAQARDRATNRLLEPESEFIIKVQDINDSEPRFLHGPYIGSVAELSPTGTSVMQVMASDADDPTYGSSARLVYSVLDGEHHFTVDPKTGVIRTAVPDLDRESQERYEVVIQATDMAGQLGGLSGSTTVTIVVTD 6cg9-a1-m1-cA_6cg9-a1-m1-cB Crystal structure of Triosephosphate Isomerase from Zea mays (mexican corn) P12863 P12863 1.8 X-RAY DIFFRACTION 121 1.0 4577 (Zea mays) 4577 (Zea mays) 249 254 GRKFFVGGNWKCNGTTDQVEKIVKTLNEGQVPPSDVVEVVVSPPYVFLPVVKSQLRQEFHVAAQNCWVKKGGAFTGEVSAEMLVNLGVPWVILGHSERRALLGESNEFVGDKVAYALSQGLKVIACVGETLEQREAGSTMDVVAAQTKAIAEKIKDWSNVVVAYEPVWAIGTGKVATPAQAQEVHASLRDWLKTNASPEVAESTRIIYGGSVTAANCKELAAQPDVDGFLVGGASLKPEFIDIINAATV GSHMGRKFFVGGNWKCNGTTDQVEKIVKTLNEGQVPPSDVVEVVVSPPYVFLPVVKSQLRQEFHVAAQNCWVKKGGAFTGEVSAEMLVNLGVPWVILGHSERRALLGESNEFVGDKVAYALSQGLKVIACVGETLEQREAGSTMDVVAAQTKAIAEKIKDWSNVVVAYEPVWAIGTGKVATPAQAQEVHASLRDWLKTNASPEVAESTRIIYGGSVTAANCKELAAQPDVDGFLVGGASLKPEFIDIINAATVK 6cgb-a1-m1-cA_6cgb-a1-m2-cA chimera of mouse cadherin-11 EC1 and mouse cadherin-6 EC2 P97326 P97326 2.994 X-RAY DIFFRACTION 59 1.0 10090 (Mus musculus) 10090 (Mus musculus) 204 204 GWVWNQFFVIEEYTGPDPVLVGRLHSDIDSGDGNIKYILSGEGAGTIFVIDDKSGNIHATKTLDREERAQYTLMAQAVDRDTNRPLEPPSEFIVKVQDINDNEPIFTKDVYTATVPEMADVGTFVVQVTATDADDPTYGNSAKVVYSILQGQPYFSVESETGIIKTALLNMNREQYQVVIQAKDMGGQMGGLSGTTTVNITLTD GWVWNQFFVIEEYTGPDPVLVGRLHSDIDSGDGNIKYILSGEGAGTIFVIDDKSGNIHATKTLDREERAQYTLMAQAVDRDTNRPLEPPSEFIVKVQDINDNEPIFTKDVYTATVPEMADVGTFVVQVTATDADDPTYGNSAKVVYSILQGQPYFSVESETGIIKTALLNMNREQYQVVIQAKDMGGQMGGLSGTTTVNITLTD 6cgo-a1-m1-cB_6cgo-a1-m1-cA Molecular basis for condensation domain-mediated chain release from the enacyloxin polyketide synthase Q0B313 Q0B313 2 X-RAY DIFFRACTION 148 1.0 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 508 520 QGIDPFTMTIPALLSELQARGITLSLADGELSFRAPKGALTPADRATLSARREAIVAYLAAKAARRTDPVTITPSAELRPSLLQELWWHWYGLPPRQLNQERLPLVKLFPGVTAGRVAEALRAIVARHHTLRSSFHEEDGRLTVTLNEAAALPIEFVEADGTLPREELEPALKAQAAEYAARQLPLDGQWLLRARVVSLAPDQSLLLCVFHHIIVDAASLLLILAELDARLADPPRALPAAAQFLDYAAWERAWMADPARQPLIDYWARRFRALPELVGPLTGRSLAWQPGSKVDHRFVIPAAQLRRMQAAATRLQTSLFSALLSAFGVALARWSGSERVPVRCVGDLRTSPELANLVGYLVCSDVIEIHAPAKADFVSILKASEIESHSAMMLRVPTLMRHPLHRGGSGIEDPRGIAATINMFSVRIPDERADPPWPPQLTRSAGEPWPIPLPSIYLRLIDYGHALEGSLELNDTLLTAAEQAALIEALFDALDRFLLQAPLTTEVL FQGIDPFTMTIPALLSELQARGITLSLADGELSFRAPKGALTPADRATLSARREAIVAYLAAKAARRTDPVTITPSAELRPSLLQELWWHWYGLPPRQLNQERLPLVKLFPGVTAGRVAEALRAIVARHHTLRSSFHEEDGRLTVTLNEAAALPIEFVEADGTLPREELEPALKAQAAEYAARQLPLDGQWLLRARVVSLAPDQSLLLCVFHHIIVDAASLLLILAELDARLADPPRALPAAAQFLDYAAWERAWMADPARQPLIDYWARRFRALPELVGPLTGRSLAWQPGSKVDHRFVIPAAQLRRMQAAATRLQTSLFSALLSAFGVALARWSGSERVPVRCVGDLRTSPELANLVGYLVCSDVIEIHAPAKADFVSILKASEIESHSAMMLRVPTLMRHPLHRGGSGIEDPRGIAATINMFSVRIPGAGAPLDERADPPWPPQLTRSAGEPWPIPLPSIYLRLIDYGHALEGSLELNDTLLTAAEQAALIEALFDALDRFLLQAAPAAAPLTTEVL 6cgs-a1-m1-cA_6cgs-a1-m1-cB mouse cadherin-7 EC1-2 adhesive fragment Q8BM92 Q8BM92 1.72 X-RAY DIFFRACTION 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 207 SWVWNQFFVLEEYMGSDPLYVGKLHSDVDKGDGSIKYILSGEGASSIFIIDENTGDIHATKRLDREEQAYYTLRAQALDRLTNKPVEPESEFVIKIQDINDNEPKFLDGPYTAGVPEMSPVGTSVVQVTATDADDPTYGNSARVVYSILQGQPYFSVEPKTGVIKTALPNMDREAKDQYLLVIQAKDMVGQNGGLSGTTSVTVTLTD SWVWNQFFVLEEYMGSDPLYVGKLHSDVDKGDGSIKYILSGEGASSIFIIDENTGDIHATKRLDREEQAYYTLRAQALDRLTNKPVEPESEFVIKIQDINDNEPKFLDGPYTAGVPEMSPVGTSVVQVTATDADDPTYGNSARVVYSILQGQPYFSVEPKTGVIKTALPNMDREAKDQYLLVIQAKDMVGQNGGLSGTTSVTVTLTD 6cgu-a2-m1-cC_6cgu-a2-m1-cB mouse cadherin-6 EC1-2 adhesive fragment P97326 P97326 1.9 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 206 207 6cgu-a1-m1-cA_6cgu-a1-m1-cD SWMWNQFFLLEEYTGSDYQYVGKLSDQDRGDGSLKYILSGDGAGDLFIINENTGDIQATKRLDREEKPVYILRAQAVNRRTGRPVEPESEFIIKIHDINDNEPIFTKDVYTATVPEMADVGTFVVQVTATDADDPTYGNSAKVVYSILQGQPYFSVESETGIIKTALLNMDRENREQYQVVIQAKDMGGQMGGLSGTTTVNITLTD SWMWNQFFLLEEYTGSDYQYVGKLHSDQDRGDGSLKYILSGDGAGDLFIINENTGDIQATKRLDREEKPVYILRAQAVNRRTGRPVEPESEFIIKIHDINDNEPIFTKDVYTATVPEMADVGTFVVQVTATDADDPTYGNSAKVVYSILQGQPYFSVESETGIIKTALLNMDRENREQYQVVIQAKDMGGQMGGLSGTTTVNITLTD 6cgy-a1-m1-cA_6cgy-a1-m1-cH Structure of the Quorum Quenching lactonase from Alicyclobacillus acidoterrestris bound to a phosphate anion T0BMH6 T0BMH6 1.65 X-RAY DIFFRACTION 22 1.0 1356854 (Alicyclobacillus acidoterrestris ATCC 49025) 1356854 (Alicyclobacillus acidoterrestris ATCC 49025) 276 276 AQPKLYVMDNGRMRMDKNWMIAMHNPATIANPNAPTEFIEFPIYTVLIDHPEGKILFDTSCNPDSMGAQGRWGEATQSMFPWTASEECYLHNRLEQLKVRPEDIKFVIASHLHLDHAGCLEMFTNATIIVHEDEFSGALQTYARNQTEGAYIWGDIDAWIKNNLNWRTIKRDEDNIVLAEGIKILNFGSGHAWGMLGLHVQLPEKGGIILASDAVYSAESYGPPIKPPGIIYDSLGFVRSVEKIKRIAKETNSEVWFGHDSEQFKRFRKSTEGYYE AQPKLYVMDNGRMRMDKNWMIAMHNPATIANPNAPTEFIEFPIYTVLIDHPEGKILFDTSCNPDSMGAQGRWGEATQSMFPWTASEECYLHNRLEQLKVRPEDIKFVIASHLHLDHAGCLEMFTNATIIVHEDEFSGALQTYARNQTEGAYIWGDIDAWIKNNLNWRTIKRDEDNIVLAEGIKILNFGSGHAWGMLGLHVQLPEKGGIILASDAVYSAESYGPPIKPPGIIYDSLGFVRSVEKIKRIAKETNSEVWFGHDSEQFKRFRKSTEGYYE 6cgy-a1-m1-cL_6cgy-a1-m1-cH Structure of the Quorum Quenching lactonase from Alicyclobacillus acidoterrestris bound to a phosphate anion T0BMH6 T0BMH6 1.65 X-RAY DIFFRACTION 38 1.0 1356854 (Alicyclobacillus acidoterrestris ATCC 49025) 1356854 (Alicyclobacillus acidoterrestris ATCC 49025) 275 276 QPKLYVMDNGRMRMDKNWMIAMHNPATIANPNAPTEFIEFPIYTVLIDHPEGKILFDTSCNPDSMGAQGRWGEATQSMFPWTASEECYLHNRLEQLKVRPEDIKFVIASHLHLDHAGCLEMFTNATIIVHEDEFSGALQTYARNQTEGAYIWGDIDAWIKNNLNWRTIKRDEDNIVLAEGIKILNFGSGHAWGMLGLHVQLPEKGGIILASDAVYSAESYGPPIKPPGIIYDSLGFVRSVEKIKRIAKETNSEVWFGHDSEQFKRFRKSTEGYYE AQPKLYVMDNGRMRMDKNWMIAMHNPATIANPNAPTEFIEFPIYTVLIDHPEGKILFDTSCNPDSMGAQGRWGEATQSMFPWTASEECYLHNRLEQLKVRPEDIKFVIASHLHLDHAGCLEMFTNATIIVHEDEFSGALQTYARNQTEGAYIWGDIDAWIKNNLNWRTIKRDEDNIVLAEGIKILNFGSGHAWGMLGLHVQLPEKGGIILASDAVYSAESYGPPIKPPGIIYDSLGFVRSVEKIKRIAKETNSEVWFGHDSEQFKRFRKSTEGYYE 6cgz-a2-m1-cC_6cgz-a2-m2-cC Structure of the Quorum Quenching lactonase from Alicyclobacillus acidoterrestris bound to C6-AHL T0BMH6 T0BMH6 1.8 X-RAY DIFFRACTION 98 1.0 1356854 (Alicyclobacillus acidoterrestris ATCC 49025) 1356854 (Alicyclobacillus acidoterrestris ATCC 49025) 275 275 6cgz-a1-m1-cA_6cgz-a1-m1-cB 6ch0-a1-m1-cI_6ch0-a1-m3-cC 6ch0-a2-m1-cF_6ch0-a2-m2-cF QPKLYVMDNGRMRMDKNWMIAMHNPATIANPNAPTEFIEFPIYTVLIDHPEGKILFDTSCNPDSMGAQGRWGEATQSMFPWTASEECYLHNRLEQLKVRPEDIKFVIASHLHLDHAGCLEMFTNATIIVHEDEFSGALQTYARNQTEGAYIWGDIDAWIKNNLNWRTIKRDEDNIVLAEGIKILNFGSGHAWGMLGLHVQLPEKGGIILASDAVYSAESYGPPIKPPGIIYDSLGFVRSVEKIKRIAKETNSEVWFGHDSEQFKRFRKSTEGYYE QPKLYVMDNGRMRMDKNWMIAMHNPATIANPNAPTEFIEFPIYTVLIDHPEGKILFDTSCNPDSMGAQGRWGEATQSMFPWTASEECYLHNRLEQLKVRPEDIKFVIASHLHLDHAGCLEMFTNATIIVHEDEFSGALQTYARNQTEGAYIWGDIDAWIKNNLNWRTIKRDEDNIVLAEGIKILNFGSGHAWGMLGLHVQLPEKGGIILASDAVYSAESYGPPIKPPGIIYDSLGFVRSVEKIKRIAKETNSEVWFGHDSEQFKRFRKSTEGYYE 6chj-a1-m1-cA_6chj-a1-m1-cB Wax ester synthase/diacylglycerol acyltransferase from Marinobacter aquaeolei VT8 A1TX06 A1TX06 2.428 X-RAY DIFFRACTION 81 0.995 351348 (Marinobacter nauticus VT8) 351348 (Marinobacter nauticus VT8) 396 411 TPLNPTDQLFLWLEKRQQPMHVGGLQLFSFPEGAPDDYVAQLADQLRQKTEVTAPFNQRLSYRLGQPVWVEDEHLDLEHHFRFEALPTPGRIRELLSFVSAEHSHLMDRERPMWEVHLIEGLKDRQFALYTKVHHSLVDGVSAMRMATRMLSENPDEHGMPPIWDLPTIPTVAKELLKTINQARKDPAPRCMLNQKITGSRRFAAQSWCLKRIRAVCEAYGTTVNDVVTAMCAAALRTYLMNQDALPEKPLVAFVPVGVILASLHTDVQEAGERLLKIHHGMEEAKQRYVNYTALTLAPAAFHLLTGLAPKWQTFNVVISNVPGPSRPLYWNGAKLEGMYPVSIDMDRLALNMTLTSYNDQVEFGLIGCRRTLPSLQRMLDYLEQGLAELELNAGL MTPLNPTDQLFLWLEKRQQPMHVGGLQLFSFPEGAPDDYVAQLADQLRQKTEVTAPFNQRLSYRLGQPVWVEDEHLDLEHHFRFEALPTPGRIRELLSFVSAEHSHLMDRERPMWEVHLIEGLKDRQFALYTKVHHSLVDGVSAMRMATRMLSENPDEHGMPPIWDLPGLSGRQLGTIPTVAKELLKTINQARKAPRCMLNQKITGSRRFAAQSWCLKRIRAVCEAYGTTVNDVVTAMCAAALRTYLMNQDALPEKPLVAFVPVGVILASLHTDVQEAGERLLKIHHGMEEAKQRYRHMSPEEIVNYTALTLAPAAFHLLTGLAPKWQTFNVVISNVPGPSRPLYWNGAKLEGMYPVSIDMDRLALNMTLTSYNDQVEFGLIGCRRTLPSLQRMLDYLEQGLAELELNAGL 6chs-a1-m1-cI_6chs-a1-m1-cJ Cdc48-Npl4 complex in the presence of ATP-gamma-S G0S6Y2 G0S6Y2 4.3 ELECTRON MICROSCOPY 189 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 550 550 6chs-a1-m1-cD_6chs-a1-m1-cE 6chs-a1-m1-cD_6chs-a1-m1-cJ 6chs-a1-m1-cE_6chs-a1-m1-cF 6chs-a1-m1-cF_6chs-a1-m1-cH 6chs-a1-m1-cH_6chs-a1-m1-cI NEVGYDDIGGCRKQLAQIREMVELPLRHPQLFKSIGIKPPRGVLLYGPPGTGKTLMARAVANETGAFFFLINGPEIMSKMAGESESNLRKAFEEAEKNSPAIIFIDEIDSIAPKREKTNGEVERRVVSQLLTLMDGMKARSNVVVMAATNRPNSIDPALRRFGRFDREVDIGIPDPTGRLEILQIHTKNMKLADDVDLEQIAAETHGYVGSDLAALCSEAAMQQIREKMDLIDLDEDTIDAEVLDSLGVTMDNFRYALGVSNPSALREVAVVEVPNVRWEDIGGLEQVKQELKEQVQYPVDHPEKFLKFGLSPSRGVLFYGPPGTGKTMLAKAVANECAANFISVKGPELLSMWFGESESNIRDIFDKARAAAPCVVFLDELDSIAKARGGSIGDAGGASDRVVNQLLTEMDGMTSKKNVFVIGATNRPEQLDPALCRPGRLDQLIYVPLPDEAGRLSILKAQLRKTPVSKDVDLAYIASKTHGFSGADLAFITQRAVKLAIKESIAAEIEPVPELTKRHFEEAMRDARRSVSDVEIRRYEAFAQQMKNA NEVGYDDIGGCRKQLAQIREMVELPLRHPQLFKSIGIKPPRGVLLYGPPGTGKTLMARAVANETGAFFFLINGPEIMSKMAGESESNLRKAFEEAEKNSPAIIFIDEIDSIAPKREKTNGEVERRVVSQLLTLMDGMKARSNVVVMAATNRPNSIDPALRRFGRFDREVDIGIPDPTGRLEILQIHTKNMKLADDVDLEQIAAETHGYVGSDLAALCSEAAMQQIREKMDLIDLDEDTIDAEVLDSLGVTMDNFRYALGVSNPSALREVAVVEVPNVRWEDIGGLEQVKQELKEQVQYPVDHPEKFLKFGLSPSRGVLFYGPPGTGKTMLAKAVANECAANFISVKGPELLSMWFGESESNIRDIFDKARAAAPCVVFLDELDSIAKARGGSIGDAGGASDRVVNQLLTEMDGMTSKKNVFVIGATNRPEQLDPALCRPGRLDQLIYVPLPDEAGRLSILKAQLRKTPVSKDVDLAYIASKTHGFSGADLAFITQRAVKLAIKESIAAEIEPVPELTKRHFEEAMRDARRSVSDVEIRRYEAFAQQMKNA 6chy-a3-m1-cB_6chy-a3-m2-cB STRUCTURE OF CHEMOTAXIS PROTEIN CHEY P0AE67 P0AE67 2.33 X-RAY DIFFRACTION 19 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 128 128 ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVIAEAKKENIIAAAQAGASGWVVKPFTAATLEEKLNKIFEKLGM ADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSALPVLMVIAEAKKENIIAAAQAGASGWVVKPFTAATLEEKLNKIFEKLGM 6ciu-a1-m1-cD_6ciu-a1-m1-cB Structure of a Thr-rich interface in an Azami Green tetramer Q60I25 Q60I25 1.7 X-RAY DIFFRACTION 88 1.0 46745 (Galaxea fascicularis) 46745 (Galaxea fascicularis) 218 219 6ciu-a1-m1-cA_6ciu-a1-m1-cC VIKPEMKIKLCMRGTVNGHNFVIEGEGKGNPYEGTQILDLNVTEGAPLPFAYDILTTVFNRAFTKYPADIQDYFKQTFPEGYHWERSMTYEDQGICTATSNISMRGDCFFYDITFTGTNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLKGDVNMALLLEGGGHYRCDFKTTYKAKKDVRLPDYHFVDHRIEILKHDKDYNKVKLYENAVARYSMLPSQ SVIKPEMKIKLCMRGTVNGHNFVIEGEGKGNPYEGTQILDLNVTEGAPLPFAYDILTTVFNRAFTKYPADIQDYFKQTFPEGYHWERSMTYEDQGICTATSNISMRGDCFFYDITFTGTNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLKGDVNMALLLEGGGHYRCDFKTTYKAKKDVRLPDYHFVDHRIEILKHDKDYNKVKLYENAVARYSMLPSQ 6ciu-a1-m1-cD_6ciu-a1-m1-cC Structure of a Thr-rich interface in an Azami Green tetramer Q60I25 Q60I25 1.7 X-RAY DIFFRACTION 81 1.0 46745 (Galaxea fascicularis) 46745 (Galaxea fascicularis) 218 220 3adf-a3-m1-cB_3adf-a3-m1-cA 6ciu-a1-m1-cB_6ciu-a1-m1-cA VIKPEMKIKLCMRGTVNGHNFVIEGEGKGNPYEGTQILDLNVTEGAPLPFAYDILTTVFNRAFTKYPADIQDYFKQTFPEGYHWERSMTYEDQGICTATSNISMRGDCFFYDITFTGTNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLKGDVNMALLLEGGGHYRCDFKTTYKAKKDVRLPDYHFVDHRIEILKHDKDYNKVKLYENAVARYSMLPSQ VIKPEMKIKLCMRGTVNGHNFVIEGEGKGNPYEGTQILDLNVTEGAPLPFAYDILTTVFNRAFTKYPADIQDYFKQTFPEGYHWERSMTYEDQGICTATSNISMRGDCFFYDITFTGTNFPPNGPVMQKKTLKWEPSTEKMYVRDGVLKGDVNMALLLEGGGHYRCDFKTTYKAKKDVRLPDYHFVDHRIEILKHDKDYNKVKLYENAVARYSMLPSQAK 6cjc-a1-m1-cA_6cjc-a1-m2-cB CRYSTAL STRUCTURE OF A FC FRAGMENT LALA MUTANT (L234A, L235A) OF HUMAN IGG1 (CRYSTAL FORM 3) Q6MZV7 Q6MZV7 2.575 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 207 GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSHEDPEVKFNWYVDGVEVHNAKTKPREEQYNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKALPAPIEKTISKAKGQPREPQVYTLPPSREEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSL 6cjl-a1-m1-cB_6cjl-a1-m1-cA Candida albicans Hsp90 nucleotide binding domain in complex with radicicol P46598 P46598 1.6972 X-RAY DIFFRACTION 65 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 212 214 QGETHEFTAEISQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPSQLESEPELFIRIIPQKDQKVLEIRDSGIGMTKADLVNNLGTIAKSGTKSFMEALSAGADVSMIGQFGVGFYSLFLVADHVQVISKHNDDEQYVWESNGKFTVTLDETNERLGRGTMLRLFLKEDQLEYLEEKRIKEVVKKHSEFVAYPIQLVVTKEVEK QGETHEFTAEISQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPSQLESEPELFIRIIPQKDQKVLEIRDSGIGMTKADLVNNLGTIAKSGTKSFMEALSAGADVSMIGQFGVGFYSLFLVADHVQVISKHNDDEQYVWESNAGGKFTVTLDETNERLGRGTMLRLFLKEDQLEYLEEKRIKEVVKKHSEFVAYPIQLVVTKEVEK 6cjs-a1-m1-cA_6cjs-a1-m2-cA Candida albicans Hsp90 nucleotide binding domain in complex with AUY922 P46598 P46598 1.9 X-RAY DIFFRACTION 81 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 218 218 NLYFQGETHEFTAEISQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPSQLESEPELFIRIIPQKDQKVLEIRDSGIGMTKADLVNNLGTIAKSGTKSFMEALSAGADVSMIGQFGVGFYSLFLVADHVQVISKHNDDEQYVWESNAGGKFTVTLDETNERLGRGTMLRLFLKEDQLEYLEEKRIKEVVKKHSEFVAYPIQLVVTKEVEK NLYFQGETHEFTAEISQLMSLIINTVYSNKEIFLRELISNASDALDKIRYQALSDPSQLESEPELFIRIIPQKDQKVLEIRDSGIGMTKADLVNNLGTIAKSGTKSFMEALSAGADVSMIGQFGVGFYSLFLVADHVQVISKHNDDEQYVWESNAGGKFTVTLDETNERLGRGTMLRLFLKEDQLEYLEEKRIKEVVKKHSEFVAYPIQLVVTKEVEK 6ck1-a1-m1-cA_6ck1-a1-m1-cD Crystal structure of Paracoccus denitrificans AztD A1B2F4 A1B2F4 2.15 X-RAY DIFFRACTION 12 0.997 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 375 375 HEDVTLYRVFVGDHEKGQVTAFDLAEPDHRWTFPTTGQVKLYSVAGGAVVAAVQSDADTVQFIRSGISFHDHGDHRDIEVGDPAAIDASLTGPRPFHLVEHDGKVVLNYDQGGYAEILDGHALAEGKAEPGRFPQARAHHGFVAPLGGNWLSTVASDESVPRLGLQAFDAEGNPAGNLATCTGIHGEAFSGAYLAAGCKEGVLTVKAGANGSEYKLLPYPADLPQGVTTGTLLGSTGIQVFLGNYGPDGLVVIDPVDEPHYRYIKLPFRRVDFALDPAKPSTGYVLTEDGSLHRIDLLKAEIVASAKVTEPYSMDGHWNDPRPRIAMAGDEIVVTDPNAGLVRRIATEDLSERGTVPVEGKPYNIAVTGGSGVTH HEDVTLYRVFVGDHEKGQVTAFDLAEPDHRWTFPTTGQVKLYSVAGGAVVAAVQSDADTVQFIRSGISFHDHGDHRDIEVGDPAAIDASLTGPRPFHLVEHDGKVVLNYDQGGYAEILDGHALAEGKAEPGRFPQARAHHGFVAPLGGNWLSTVASDEKVPRLGLQAFDAEGNPAGNLATCTGIHGEAFSGAYLAAGCKEGVLTVKAGANGSEYKLLPYPADLPQGVTTGTLLGSTGIQVFLGNYGPDGLVVIDPVDEPHYRYIKLPFRRVDFALDPAKPSTGYVLTEDGSLHRIDLLKAEIVASAKVTEPYSMDGHWNDPRPRIAMAGDEIVVTDPNAGLVRRIATEDLSERGTVPVEGKPYNIAVTGGSGVTH 6ck1-a1-m1-cC_6ck1-a1-m1-cA Crystal structure of Paracoccus denitrificans AztD A1B2F4 A1B2F4 2.15 X-RAY DIFFRACTION 38 0.995 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 366 375 6ck1-a1-m1-cB_6ck1-a1-m1-cA TLYRVFVGDHEKGQVTAFDLAEPDHRWTFPTTGQVKLYSVAGGAVVAAVQSDADTVQFIRSGISFDIEVGDPAAIDASLTGPRPFHLVEHDGKVVLNYDQGGYAEILDGHALAEGKAEPGRFPQARAHHGFVAPLGGNWLSTVASDEKVSVPRLGLQAFDAEGNPAGNLATCTGIHGEAFSGAYLAAGCKEGVLTVKAGANGSEYKLLPYPADLPQGVTTGTLLGSTGIQVFLGNYGPDGLVVIDPVDEPHYRYIKLPFRRVDFALDPAKPSTGYVLTEDGSLHRIDLLKAEIVASAKVTEPYSMDGHWNDPRPRIAMAGDEIVVTDPNAGLVRRIATEDLSERGTVPVEGKPYNIAVTGGSGVTH HEDVTLYRVFVGDHEKGQVTAFDLAEPDHRWTFPTTGQVKLYSVAGGAVVAAVQSDADTVQFIRSGISFHDHGDHRDIEVGDPAAIDASLTGPRPFHLVEHDGKVVLNYDQGGYAEILDGHALAEGKAEPGRFPQARAHHGFVAPLGGNWLSTVASDESVPRLGLQAFDAEGNPAGNLATCTGIHGEAFSGAYLAAGCKEGVLTVKAGANGSEYKLLPYPADLPQGVTTGTLLGSTGIQVFLGNYGPDGLVVIDPVDEPHYRYIKLPFRRVDFALDPAKPSTGYVLTEDGSLHRIDLLKAEIVASAKVTEPYSMDGHWNDPRPRIAMAGDEIVVTDPNAGLVRRIATEDLSERGTVPVEGKPYNIAVTGGSGVTH 6ck7-a2-m1-cC_6ck7-a2-m1-cD Crystal structure of a peptide deformylase from Legionella pneumophila bound to actinonin Q5ZSC4 Q5ZSC4 1.65 X-RAY DIFFRACTION 58 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 172 172 6ck7-a1-m1-cA_6ck7-a1-m1-cB HHMAIRKILYLPDERLRKIAKPVETFDESLQTLINDMFDTMYDARGVGLAAPQIGVSLRLSVIDIVGDKKEQIVIVNPEIVSSHGEKEFEEGCLSVPGAYDTVVRAEKVTVKALDRFGKPFEITGEGLLAECLQHEIDHMNGKLFVDMLSPLKRMMARRKLDKFKRLQARKP HHMAIRKILYLPDERLRKIAKPVETFDESLQTLINDMFDTMYDARGVGLAAPQIGVSLRLSVIDIVGDKKEQIVIVNPEIVSSHGEKEFEEGCLSVPGAYDTVVRAEKVTVKALDRFGKPFEITGEGLLAECLQHEIDHMNGKLFVDMLSPLKRMMARRKLDKFKRLQARKP 6ckm-a1-m1-cA_6ckm-a1-m2-cA N. meningitidis CMP-sialic acid synthetase in the presence of CMP-sialic acid and Ca2+ P0A0Z8 P0A0Z8 1.543 X-RAY DIFFRACTION 100 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 225 225 1eyr-a1-m1-cB_1eyr-a1-m1-cA 1ezi-a1-m1-cB_1ezi-a1-m1-cA 6ckj-a1-m1-cA_6ckj-a1-m2-cA 6ckk-a1-m1-cA_6ckk-a1-m1-cB 6ckl-a1-m1-cA_6ckl-a1-m1-cB 6ckl-a2-m1-cC_6ckl-a2-m2-cC MEKQNIAVILARQNSKGLPLKNLRKMNGISLLGHTINAAISSKCFDRIIVSTDGGLIAEEAKNFGVEVVLRPAELASDTASSISGVIHALETIGSNSGTVTLLQPTSPLRTGAHIREAFSLFDEKIKGSVVSACPMEHHPLKTLLQINNGEYAPMRHLSDLEQPRQQLPQAFRPNGAIYINDTASLIANNCFFIAPTKLYIMSHQDSIDIDTELDLQQAENILNH MEKQNIAVILARQNSKGLPLKNLRKMNGISLLGHTINAAISSKCFDRIIVSTDGGLIAEEAKNFGVEVVLRPAELASDTASSISGVIHALETIGSNSGTVTLLQPTSPLRTGAHIREAFSLFDEKIKGSVVSACPMEHHPLKTLLQINNGEYAPMRHLSDLEQPRQQLPQAFRPNGAIYINDTASLIANNCFFIAPTKLYIMSHQDSIDIDTELDLQQAENILNH 6ckn-a1-m1-cA_6ckn-a1-m1-cB Crystal structure of an AF10 fragment P55197 P55197 2.49 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 ASIEQLLERQWSEGQQFLLEQGTPSDILGLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLS ASIEQLLERQWSEGQQFLLEQGTPSDILGLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLS 6cko-a1-m1-cA_6cko-a1-m4-cB Crystal structure of an AF10 fragment P55197 P55197 2 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 67 6cko-a1-m2-cA_6cko-a1-m3-cB ASIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLS AASIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLS 6ckt-a1-m2-cA_6ckt-a1-m3-cA Crystal structure of 2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-succinyltransferase from Legionella pneumophila Philadelphia 1 Q5ZX45 Q5ZX45 1.8 X-RAY DIFFRACTION 129 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 273 273 6ckt-a1-m1-cA_6ckt-a1-m2-cA 6ckt-a1-m1-cA_6ckt-a1-m3-cA HHMNSLQDLIEQAFENRQNLSLDTASSDLINAINEVLSGLDNGQFRVAEKINGEWTVHQWLKKAVLLSFKLFPNQIIDAGFCKFYDKIPLKYTDCSNEQFQQSGVRVVPHAMVRRGAYIAKNTVLMPSYVNIGAYIDEGVMVDTWATVGSCAQIGKNVHISGGAGIGGVLEPLQANPTIIEDNCFIGARSEIVEGVIVEKNSVISMGVFLGQSTKIYNRITGEVSYGRIPAGSVVVAGNLPSHDGSHSLYCAVIVKQVDEKTRAKVSINDLLR HHMNSLQDLIEQAFENRQNLSLDTASSDLINAINEVLSGLDNGQFRVAEKINGEWTVHQWLKKAVLLSFKLFPNQIIDAGFCKFYDKIPLKYTDCSNEQFQQSGVRVVPHAMVRRGAYIAKNTVLMPSYVNIGAYIDEGVMVDTWATVGSCAQIGKNVHISGGAGIGGVLEPLQANPTIIEDNCFIGARSEIVEGVIVEKNSVISMGVFLGQSTKIYNRITGEVSYGRIPAGSVVVAGNLPSHDGSHSLYCAVIVKQVDEKTRAKVSINDLLR 6cky-a1-m1-cB_6cky-a1-m1-cA Crystal structure of UcmS2 A0A140E9J7 A0A140E9J7 1.8 X-RAY DIFFRACTION 122 1.0 1048205 (Streptomyces uncialis) 1048205 (Streptomyces uncialis) 133 135 MRARLSHVTIPVLDQDSAKAFYTEKLGFEVRNDMTIGELRWLTVGPKDEPEVEMVLRKVGPPEYDEETTAHFRDLIAKGVIGVGVLHVENTRATYERLRQAGVTFVQEPVKRPFGTEAVFRDDSGNWFSLNDS MRARLSHVTIPVLDQDSAKAFYTEKLGFEVRNDMTIGELRWLTVGPKDEPEVEMVLRKVGPPEYDEETTAHFRDLIAKGVIGVGVLHVENTRATYERLRQAGVTFVQEPVKRPFGTEAVFRDDSGNWFSLNDSRG 6cl5-a1-m1-cA_6cl5-a1-m1-cC Structure of P. aeruginosa R1 pyocin fiber PALES_06171 comprising C-terminal residues 323-701 Q9KW03 Q9KW03 2.324 X-RAY DIFFRACTION 420 1.0 557722 (Pseudomonas aeruginosa LESB58) 557722 (Pseudomonas aeruginosa LESB58) 374 374 6cl5-a1-m1-cA_6cl5-a1-m1-cB 6cl5-a1-m1-cB_6cl5-a1-m1-cC 6cl5-a2-m1-cD_6cl5-a2-m1-cE 6cl5-a2-m1-cD_6cl5-a2-m1-cF 6cl5-a2-m1-cE_6cl5-a2-m1-cF 6cxb-a1-m1-cA_6cxb-a1-m2-cA 6cxb-a1-m1-cA_6cxb-a1-m3-cA 6cxb-a1-m2-cA_6cxb-a1-m3-cA ALAATDIPGLDASKLVSGVLAEQRLPVFARGLATAVSNSSDPNTATVPLMLTNHANGPVAGRYFYIQSMFYPDQNGNASQIATSYNATSEMYVRVSYAANPSIREWLPWQRCDIGGSFTKTTDGSIGNGVNINSFVNSGWWLQSTSEWAAGGANYPVGLAGLLIVYRAHADHIYQTYVTLNGSTYSRCCYAGSWRPWRQNWDDGNFDPASYLPKAGFTWAALPGKPATFPPSGHNHDTSQITSGILPLARGGLGANTAAGARNNIGAGVPATASRALNGWWKDNDTGLIVQWMQVNVGDHPGGIIDRTLTFPIAFPSACLHVVPTVKEVGRPATSASTVTVADVSVSNTGCVIVSSEYYGLAQNYGIRVMAIGY ALAATDIPGLDASKLVSGVLAEQRLPVFARGLATAVSNSSDPNTATVPLMLTNHANGPVAGRYFYIQSMFYPDQNGNASQIATSYNATSEMYVRVSYAANPSIREWLPWQRCDIGGSFTKTTDGSIGNGVNINSFVNSGWWLQSTSEWAAGGANYPVGLAGLLIVYRAHADHIYQTYVTLNGSTYSRCCYAGSWRPWRQNWDDGNFDPASYLPKAGFTWAALPGKPATFPPSGHNHDTSQITSGILPLARGGLGANTAAGARNNIGAGVPATASRALNGWWKDNDTGLIVQWMQVNVGDHPGGIIDRTLTFPIAFPSACLHVVPTVKEVGRPATSASTVTVADVSVSNTGCVIVSSEYYGLAQNYGIRVMAIGY 6clu-a6-m1-cC_6clu-a6-m1-cD Staphylococcus aureus Dihydropteroate Synthase (saDHPS) F17L E208K double mutant structure O05701 O05701 1.95 X-RAY DIFFRACTION 100 0.991 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 230 251 TKTKIMGILNVNVESAVTRVKAMMDEGADIIDVGITVEEELNRVLPVVEAIVGFDVKISVDTFRSEVAEACLKLGVDIINDQWAGLYDHRMFQVVAKYDAEIVLMHNGEPVVEEMLTSLLAQAHQAKIAGIPSNKIWLDPGIGFAKTRNEEAEVMARLDELVATEYPVLLATSRKRFTKKMMTPVERDEVTAATTAYGIMKGVRAVRVHNVELNAKLAKGIDFLKENENA TKTKIMGILNVTPDSLSDGGKFNNVESAVTRVKAMMDEGADIIDVGGVEEELNRVLPVVEAIVGFDVKISVDTFRSEVAEACLKLGVDIINDQWAGLYDHRMFQVVAKYDAEIVLMHNGNGNRDEPVVEEMLTSLLAQAHQAKIAGIPSNKIWLDPGIGFAKTRNEEAEVMARLDELVATEYPVLLATSRKRFTKKMMGYDTTPVERDEVTAATTAYGIMKGVRAVRVHNVELNAKLAKGIDFLKENENAR 6clv-a6-m1-cB_6clv-a6-m1-cC Staphylococcus aureus Dihydropteroate Synthase (saDHPS) F17L E208K double mutant structure O05701 O05701 2.3 X-RAY DIFFRACTION 94 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 249 257 1ad1-a1-m1-cB_1ad1-a1-m1-cA 1ad4-a1-m1-cB_1ad4-a1-m1-cA 4hb7-a1-m1-cA_4hb7-a1-m1-cB 6clu-a5-m1-cB_6clu-a5-m1-cA 6clv-a5-m1-cD_6clv-a5-m1-cA TKTKIMGILNVVESAVTRVKAMMDEGADIIDVGGVSTRPGHEMITVEEELNRVLPVVEAIVGFDVKISVDTFRSEVAEACLKLGVDIINDQWAGLYDHRMFQVVAKYDAEIVLMHNGNGNRDEPVVEEMLTSLLAQAHQAKIAGIPSNKIWLDPGIGFAKTRNEEAEVMARLDELVATEYPVLLATSRKRFTKKMMGYDTTPVERDEVTAATTAYGIMKGVRAVRVHNVELNAKLAKGIDFLKENENAR TKTKIMGILNVTPDSLSNVESAVTRVKAMMDEGADIIDVGGVSTRPGHEMITVEEELNRVLPVVEAIVGFDVKISVDTFRSEVAEACLKLGVDIINDQWAGLYDHRMFQVVAKYDAEIVLMHNGNGNRDEPVVEEMLTSLLAQAHQAKIAGIPSNKIWLDPGIGFAKTRNEEAEVMARLDELVATEYPVLLATSRKRFTKKMMGYDTTPVERDEVTAATTAYGIMKGVRAVRVHNVELNAKLAKGIDFLKENENARH 6clx-a1-m1-cA_6clx-a1-m1-cB Crystal structure of TnmH in complex with SAM A0A125SA05 A0A125SA05 2.73 X-RAY DIFFRACTION 186 1.0 1703937 (Streptomyces sp. CB03234) 1703937 (Streptomyces sp. CB03234) 332 334 6clw-a1-m1-cA_6clw-a1-m1-cB ADDDAFVHLLRLKDTTPWALRAVVTLGVPDLVAEGEKDVSELAQRSGAVPDALRRVLRLLARRGVFTEPRPAVFGPTGLSRLLQSDHPRSRPWLDLEGPVARGDRTCVHILEALRTGGPVHERTYGRPVWEDLAARPALGAAFDAAAQRASWIAGDVAAGFDWSAVRHVDVGGGTGGVLAEVLRARPGLKGTLLDRAPTVAAGREAWGASEAGQRCTFSGGSFFDTLPSGADACLLVNVLHDWADEHALAVLRRCAEAVGPRGRVLIAEHLVEEGAGGPGAAGLAELDLVLVYGGRERRLDELADLAGKAGLRIGDVSTPRGLSLVVCEAET ADDDAFVHLLRLKDTTPWALRAVVTLGVPDLVAEGEKDVSELAQRSGAVPDALRRVLRLLARRGVFTEPRPAVFGPTGLSRLLQSDHPRSRPWLDLEGPVARGDRTCVHILEALRTGGPVHERTYGRPVWEDLAARPALGAAFDAAAQRASWIAGDVAAGFDWSAVRHVDVGGGTGGVLAEVLRARPGLKGTLLDRAPTVAAGREAWGASEAGQRCTFSGGSFFDTLPSGADACLLVNVLHDWADEHALAVLRRCAEAVGPRGRVLIAEHLVEEGAGGPGAAGLAELDLVLVYGGRERRLDELADLAGKAGLRIGDVSTPRGLSLVVCEAETSA 6cm1-a1-m1-cB_6cm1-a1-m1-cC MT1-MMP HPX Domain with Blade 2 Loop Bound to Nanodiscs P02647 P02647 NOT SOLUTION NMR 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 6clz-a1-m1-cB_6clz-a1-m1-cC STFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ STFSKLREQLGPVTQEFWDNLEKETEGLRQEMSKDLEEVKAKVQPYLDDFQKKWQEEMELYRQKVEPYLDDFQKKWQEEMELYRQKVEPLRAELQEGARQKLHELQEKLSPLGEEMRDRARAHVDALRTHLAPYSDELRQRLAARLEALKENGGARLAEYHAKATEHLSTLSEKAKPALEDLRQGLLPVLESFKVSFLSALEEYTKKLNTQ 6cmk-a1-m1-cB_6cmk-a1-m1-cA Crystal structure of Citrobacter koseri AztD A8AF35 A8AF35 1.732 X-RAY DIFFRACTION 108 1.0 290338 (Citrobacter koseri ATCC BAA-895) 290338 (Citrobacter koseri ATCC BAA-895) 373 375 VTAWRLFIADHDKPVVNVIDALDGDKLATFNVKGPANLSRSESGATIFAIQGSAGVVSTIASGIAFHDHGDHADIDIDAPKLLPLELTGKKPGHFVERQGKIAQWFDGEDSAQILGESAVLKGQKNITKVNVVAPHHGVAVPYDNYAVVSIPNPDDASKRPVGARVVDLQGKKVGDDALCPGLHGSAGSGDTFALSCETGLLLITQKNAAPVIRHLPYAKTLPEGSTSTLIGGKGMQYFIGNYGPDRIILVDPTESDSFRLIQLPTRRVHFVVDPVRAKFAYVFTEDGKLNQIDVLKGEISQSVRVTDPYSMDGHWNDPRPRIAVADNKIYVTDPLKSKIIVLDATSFKKTSEISVEGQPFNIVAVGGSGKVH EDVTAWRLFIADHDKPVVNVIDALDGDKLATFNVKGPANLSRSESGATIFAIQGSAGVVSTIASGIAFHDHGDHADIDIDAPKLLPLELTGKKPGHFVERQGKIAQWFDGEDSAQILGESAVLKGQKNITKVNVVAPHHGVAVPYDNYAVVSIPNPDDASKRPVGARVVDLQGKKVGDDALCPGLHGSAGSGDTFALSCETGLLLITQKNAAPVIRHLPYAKTLPEGSTSTLIGGKGMQYFIGNYGPDRIILVDPTESDSFRLIQLPTRRVHFVVDPVRAKFAYVFTEDGKLNQIDVLKGEISQSVRVTDPYSMDGHWNDPRPRIAVADNKIYVTDPLKSKIIVLDATSFKKTSEISVEGQPFNIVAVGGSGKVH 6cmv-a1-m1-cA_6cmv-a1-m1-cB Crystal structure of Archaeal Biofilm Regulator (AbfR2) from Sulfolobus acidocaldarius Q4J9G1 Q4J9G1 2.45 X-RAY DIFFRACTION 55 1.0 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 111 112 6cmv-a2-m1-cD_6cmv-a2-m1-cC 6cmv-a3-m1-cE_6cmv-a3-m1-cF KKTQIEKLLEFYGLNEKEVQLIFRLLYSDTKLNIEELAEEFKVSKALISKSLSELANKGLIEREKVSNEGRKGRPIYVYYVDREQLFKRISRDLEELVQASIAKLKEYIFK KKTQIEKLLEFYGLNEKEVQLIFRLLYSDTKLNIEELAEEFKVSKALISKSLSELANKGLIEREKVSNEGRKGRPIYVYYVDREQLFKRISRDLEELVQASIAKLKEYIFKS 6cmz-a2-m1-cD_6cmz-a2-m1-cC 2.3 Angstrom Resolution Crystal Structure of Dihydrolipoamide Dehydrogenase from Burkholderia cenocepacia in Complex with FAD and NAD B4EEF2 B4EEF2 2.3 X-RAY DIFFRACTION 258 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 459 462 6cmz-a1-m1-cB_6cmz-a1-m1-cA KNEHTTLLVIGGGPGGYVAAIRAGQLGIPTVLVERDRLGGTCLNIGCIPSKALIHVADAFEQACGHAGEGALGIRVRAPEIDIAKSVAWKDGIVDRLTRGVGALLKKSGVRVLHGEARVIDGKTVEVVSAGHAVRIGCEHLLLATGSEPVELPSMPFGGHVVSSTDALSPATLPKRLVVVGAGYIGLELGIVYRKLGVDVSVVEAAERVLPAYDAELVRPVADSLARLGVRLWLGHKVLGLDKHGAVRVQAADGAEQTLPADRVLVAVGRRPRVDGFGLETLMLDRNGRALRIDDTCRTSMRNVWAIGDVAGEPMLAHRAMAQGEMVAELIAGRRRQFMPAAIPAVCFTDPEIVTAGWSPDDAHAAGVDCLSASFPFAANGRAMTLQATDGFVRVVARRDNHLIVGWQAVGRGVSELAAAFSQSLEMGARLEDIGGTIHAHPTLGEALQEAALRALGHA KNEHTTLLVIGGGPGGYVAAIRAGQLGIPTVLVERDRLGGTCLNIGCIPSKALIHVADAFEQACGHAGEGALGIRVRAPEIDIAKSVAWKDGIVDRLTRGVGALLKKSGVRVLHGEARVIDGKTVEVVSAGHAVRIGCEHLLLATGSEPVELPSMPFGGHVVSSTDALSPATLPKRLVVVGAGYIGLELGIVYRKLGVDVSVVEAAERVLPAYDAELVRPVADSLARLGVRLWLGHKVLGLDKHGAVRVQAADGAEQTLPADRVLVAVGRRPRVDGFGLETLMLDRNGRALRIDDTCRTSMRNVWAIGDVAGEPMLAHRAMAQGEMVAELIAGRRRQFMPAAIPAVCFTDPEIVTAGWSPDDAHAAGVDCLSASFPFAANGRAMTLQATDGFVRVVARRDNHLIVGWQAVGRGVSELAAAFSQSLEMGARLEDIGGTIHAHPTLGEALQEAALRALGHALHV 6cn2-a1-m1-cA_6cn2-a1-m2-cA Crystal structure of zebrafish Phosphatidylinositol-4-phosphate 5- kinase alpha isoform D236N with bound ATP/Ca2+ Q503I3 Q503I3 3.102 X-RAY DIFFRACTION 52 1.0 7955 (Danio rerio) 7955 (Danio rerio) 300 300 4tz7-a1-m1-cA_4tz7-a1-m2-cA 5e3s-a1-m1-cA_5e3s-a1-m2-cA 5e3t-a1-m1-cA_5e3t-a1-m2-cA 5e3u-a1-m1-cA_5e3u-a1-m2-cA 6cmw-a1-m1-cA_6cmw-a1-m2-cA 6cn3-a1-m1-cA_6cn3-a1-m2-cA TSSALKGAIQLGITHSVGSLSQKPERDVLMQDFEVVESIFFPSQGSSSTPGHHHGDFKFKTYAPIAFRYFREMFGIRPDDYLYSLCNEPLIELSSLFYVSSDDEFIIKTVQHKEAEFLQTLLPGYFMNLNQNMRTLLPKFYGLYCVQADGKNIRIVVMNNLLPRAVPMHLKFNLKGSTYKRRASPKERSKGVPTYKDLDFMQDMPEGILLENDHYTALSRTMQRDCRVLQSFKIMDYSLLVGIHILHMGGIPAFNSKGERLLVFIGIIDILQSYRTVSVHRPSFYADRFQKFMCSTVFRK TSSALKGAIQLGITHSVGSLSQKPERDVLMQDFEVVESIFFPSQGSSSTPGHHHGDFKFKTYAPIAFRYFREMFGIRPDDYLYSLCNEPLIELSSLFYVSSDDEFIIKTVQHKEAEFLQTLLPGYFMNLNQNMRTLLPKFYGLYCVQADGKNIRIVVMNNLLPRAVPMHLKFNLKGSTYKRRASPKERSKGVPTYKDLDFMQDMPEGILLENDHYTALSRTMQRDCRVLQSFKIMDYSLLVGIHILHMGGIPAFNSKGERLLVFIGIIDILQSYRTVSVHRPSFYADRFQKFMCSTVFRK 6cn7-a3-m1-cE_6cn7-a3-m1-cF The structure of aerobactin synthetase IucC from a hypervirulent pathotype of Klebsiella pneumoniae Q6U605 Q6U605 2.45 X-RAY DIFFRACTION 57 0.991 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 539 540 6cn7-a1-m1-cA_6cn7-a1-m1-cC 6cn7-a2-m1-cD_6cn7-a2-m1-cB 6cn7-a4-m1-cG_6cn7-a4-m1-cH NHKDWDFVNRQLVAKMLAELEYEQVFHAESQGDGRYCINLPGAQWRFSAERGIWGWLWIDAQTLRCADEPVLAQTLLMQLKPVLSMSDATVAEHMQDLYATLLGDLQLLKARRGLSASDLIDLDADRLQCLLSGHPKFAFNKGRRGWGKEALERYAPEYANTFRLHWLAVKREHMVWRCDGSLTIGTLLAAAMDPQEFARFNQVWQDNGLDNDWLPLPVHPWQWQQKISLDFIADLAEGRMVSLGEFGDLWLAQQSLRTLTNASRQGGLDIKLPLTIYPLASRWLQQVFATDATLKQSGAVILGEPAAGYVSHRYQEMLGVIWRENPCRWLKPDESPILMATLMECDENNQPLIGAYIDRSGLDAETWLTQLFRVVVVPLYHLLCRYGVALIAHGQNITLAMKKGVPQRVLLKDFQGDMRLVKDAFPEMDSLPQEVRDVTARLSADYLIHDLQTGHFVTVLRFVSPLMARLGVPERRFYQLLAAVLSDYMQEHPQMSARFALFSLFKPQIIRVVLNPVKLTWLPNYLEDLQNPLWLATR NHKDWDFVNRQLVAKMLAELEYEQVFHAESQGDGRYCINLPGAQWRFSAERGIWGWLWIDAQTLRCADEPVLAQTLLMQLKPVLSMSDATVAEHMQDLYATLLGDLQLLKARRGLSASDLIDLDADRLQCLLSGHPKFAFNKGRRGWGKEALERYAPEYANTFRLHWLAVKREHMVWRCDGSLTIGTLLAAAMDPQEFARFNQVWQDNGLDNDWLPLPVHPWQWQQKISLDFIADLAEGRMVSLGEFGDLWLAQQSLRTLTNASRQGGLDIKLPLTIYYIAAGPLASRWLQQVFATDATLKQSGAVILGEPAAGYVSHYRYQEMLGVIWRENPCRWLKPDESPILMATLMECDENNQPLIGAYIDRSGLDAETWLTQLFRVVVVPLYHLLCRYGVALIAHGQNITLAMKKGVPQRVLLKDFQGDMRLVKDAFPEMDSLPQEVRDVTARLSADYLIHDLQTGHFVTVLRFVSPLMARLGVPERRFYQLLAAVLSDYMQEHPQMSARFALFSLFKPQIIRVVLNPVKLTWEDLQNPLWLATR 6cn8-a1-m1-cB_6cn8-a1-m1-cA High-resolution structure of ClpC1-NTD binding to Rufomycin-I P9WPC9 1.4 X-RAY DIFFRACTION 11 1.0 1893 (Streptomyces atratus) 1773 (Mycobacterium tuberculosis) 2 152 AL MFERFTDRARRVVVLAQEEARMLNHNYIGTEHILLGLIHEGEGVAAKSLESLGISLEGVRSQVEEIIGQGQQAPSGHIPFTPRAKKVLELSLREALQLGHNYIGTEHILLGLIREGEGVAAQVLVKLGAELTRVRQQVIQLLSGYKLAAALE 6cnk-a1-m1-cB_6cnk-a1-m1-cA Structure of the 3alpha2beta stiochiometry of the human Alpha4Beta2 nicotinic receptor P43681 P43681 3.9 ELECTRON MICROSCOPY 138 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 366 370 HAEERLLKKLFSGYNKWSRPVANISDVVLVRFGLSIAQLIDVDEKNQMMTTNVWVKQEWHDYKLRWDPADYENVTSIRIPSELIWRPDIVLYNNADGDFAVTHLTKAHLFHDGRVQWTPPAIYKSSCSIDVTFFPFDQQNCTMKFGSWTYDKAKIDLVNMHSRVDQLDFWESGEWVIVDAVGTYNTRKYECCAEIYPDITYAFVIRRLPLFYTINLIIPCLLISCLTVLVFYLPSECGEKITLCISVLLSLTVFLLLITEIIPSTSLVIPLIGEYLLFTMIFVTLSIVITVFVLNVHHRSPRTHTMPTWVRRVFLDIVPRLLLMKRFERSVKEDWKYVAMVIDRIFLWMFIIVCLLGTVGLFLPPW ETRAHAEERLLKKLFSGYNKWSRPVANISDVVLVRFGLSIAQLIDVDEKNQMMTTNVWVKQEWHDYKLRWDPADYENVTSIRIPSELIWRPDIVLYNNADGDFAVTHLTKAHLFHDGRVQWTPPAIYKSSCSIDVTFFPFDQQNCTMKFGSWTYDKAKIDLVNMHSRVDQLDFWESGEWVIVDAVGTYNTRKYECCAEIYPDITYAFVIRRLPLFYTINLIIPCLLISCLTVLVFYLPSECGEKITLCISVLLSLTVFLLLITEIIPSTSLVIPLIGEYLLFTMIFVTLSIVITVFVLNVHHRSPRTHTMPTWVRRVFLDIVPRLLLMKRFERSVKEDWKYVAMVIDRIFLWMFIIVCLLGTVGLFLPPW 6cnz-a3-m1-cF_6cnz-a3-m1-cD Crystal Structure of Chorismate Mutase from Burkholderia thailandensis A0A1B4JXW9 A0A1B4JXW9 2.15 X-RAY DIFFRACTION 74 1.0 57975 (Burkholderia thailandensis) 57975 (Burkholderia thailandensis) 158 160 6cnz-a1-m1-cE_6cnz-a1-m1-cA 6cnz-a2-m1-cB_6cnz-a2-m1-cC DTALTNLVALASQRLALAEPVAHWKWINRKPISDPPREAALLTDVEKRATANGVDPAYARTFFDDQIAASKQLQNALFATWRATHGPEGPAPDLATSTRPQLDRLTQSLIAALARVAPLRDAPDCPSRLARSIANWKTLTRYDSAQKDALGTALSHVC DDTALTNLVALASQRLALAEPVAHWKWINRKPISDPPREAALLTDVEKRATANGVDPAYARTFFDDQIAASKQLQNALFATWRATHGPEGPAPDLATSTRPQLDRLTQSLIAALARVAPLRDAPDCPSRLARSIANWKTLTRYDSAQKDALGTALSHVCA 6co1-a2-m1-cD_6co1-a2-m1-cC Structure of human TIRR in complex with 53BP1 Tudor domains Q9BRJ7 Q9BRJ7 2.179 X-RAY DIFFRACTION 101 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 201 202 3kvh-a1-m1-cA_3kvh-a1-m2-cA 4zg0-a1-m1-cA_4zg0-a1-m1-cB 5z78-a1-m1-cB_5z78-a1-m1-cA 5zcj-a1-m1-cA_5zcj-a1-m1-cB 6co1-a1-m1-cB_6co1-a1-m1-cA 6d0l-a1-m1-cB_6d0l-a1-m1-cA VPELKQISRVEAMRLGPGWSHSCHAMLYAANPGQLFGRIPMRFSVLMQMRFDGLLGFPGGFVDRRFWSLEDGLNRVLGLGLGCLRLTEADYLSSHLTEGPHRVVAHLYARQLTLEQLHAVEISAVHSRDHGLEVLGLVRVPLYTQKDRVGGFPNFLSNAFVSTAKCQLLFALKVLNMMPEEKLVEALAAATEKQKKALEKL VPELKQISRVEAMRLGPGWSHSCHAMLYAANPGQLFGRIPMRFSVLMQMRFDGLLGFPGGFVDRRFWSLEDGLNRVLGLGLGCLRLTEADYLSSHLTEGPHRVVAHLYARQLTLEQLHAVEISAVHSRDHGLEVLGLVRVPLYTQKDRVGGFPNFLSNAFVSTAKCQLLFALKVLNMMPEEKLVEALAAATEKQKKALEKLL 6co7-a1-m1-cC_6co7-a1-m1-cD Structure of the nvTRPM2 channel in complex with Ca2+ A7T1N0 A7T1N0 3.07 ELECTRON MICROSCOPY 268 1.0 45351 (Nematostella vectensis) 45351 (Nematostella vectensis) 1061 1061 6co7-a1-m1-cA_6co7-a1-m1-cB 6co7-a1-m1-cA_6co7-a1-m1-cD 6co7-a1-m1-cB_6co7-a1-m1-cC FTPLYDGGDSSHVHLNKFSRRECIRFVPKCTTKHPTNAYGEIDFEGYGGQKRAPYLRMSHDTDANLVITLMLKRWNLEIPNLVISVTGGAKSFVLKPRLREMFRRGLIKAAKTTGAWIITGGTNTGVMKHVGEAVKEQQLMFGSDTQVNVIGIATWGIVDKQSDLISEKNGKYPALYSMEPTPGHQGAMLDPNHSHFFLVDDGTEGKYGVEIGMRSRIEEAIMKVKTDSRSEAGSIGVPVVLLVLEGGPNTVATMYELIKKKVPAVVIDGSGRAASVVGFAYNHTIKRNVDGQTINVIDPQYEDEVRAKVVEVFGAKGADKTYSMIKDVLEDEKMISVYSLDGEISQDIDLAILKALLKANRSSPVAQLNLALAWNRIDLAKSDIFTEEQQWTTETLSAAMLTALLDDKAEFAELFLQNGLSMREFLSLDILCKLYAEVPGNTTIKPLLQKEMGKRQVKTIDMDVVGEVIEELMGDMFESYYRKDGHYFGIDPLPTPYLDVFLWAVLCNRRELARVLWEAGREPMAAALMASRLLKRMASRAQEDNTITDISSDLYDHARLFEERAVGVLDECFNENETLSQTLLVRELDHYSRMTALELAVSAESQDFIAHTSCQVLLTRLWMGTMAMNTRWWKVLVCLYLPVLIFPIIYFVPDEQHERQAAEREHQKSLNQDDSMEVIMRNKKLGFCDRIMHFYSAPFSKFVGNVVGYLAFIFLYAYVVLFNFPRFDPAKTLGGIHPTEIVLYFWVFTILIEEIRQLAAKPPKYIKDKVSVYFSDTWNFVDIFSLTVFIIAIILRFFTNSRIFTASRIILSLDIIFFIVRSLQIFSVNRLLGPKLVMIQKMMQDLAQFIIILAVFTIAYGIALHAVMFPSPGIYARNNTWVTITSVVQYPYWQMYGELFLDEIQGEKPKEFGEVDPDGRWLSPLLLAIYMVFTNILLLNLLIAIFNYTFERVQEDSDKVWKFQRYDLVQEYHSRPVFAPPLVLLGHILIFIRWVWRTMKIGLSPAEMEQMDNWEFQAAEMYIHQQQQKNSGTLEERVRALGDRVDCINSQLNRVLDSMS FTPLYDGGDSSHVHLNKFSRRECIRFVPKCTTKHPTNAYGEIDFEGYGGQKRAPYLRMSHDTDANLVITLMLKRWNLEIPNLVISVTGGAKSFVLKPRLREMFRRGLIKAAKTTGAWIITGGTNTGVMKHVGEAVKEQQLMFGSDTQVNVIGIATWGIVDKQSDLISEKNGKYPALYSMEPTPGHQGAMLDPNHSHFFLVDDGTEGKYGVEIGMRSRIEEAIMKVKTDSRSEAGSIGVPVVLLVLEGGPNTVATMYELIKKKVPAVVIDGSGRAASVVGFAYNHTIKRNVDGQTINVIDPQYEDEVRAKVVEVFGAKGADKTYSMIKDVLEDEKMISVYSLDGEISQDIDLAILKALLKANRSSPVAQLNLALAWNRIDLAKSDIFTEEQQWTTETLSAAMLTALLDDKAEFAELFLQNGLSMREFLSLDILCKLYAEVPGNTTIKPLLQKEMGKRQVKTIDMDVVGEVIEELMGDMFESYYRKDGHYFGIDPLPTPYLDVFLWAVLCNRRELARVLWEAGREPMAAALMASRLLKRMASRAQEDNTITDISSDLYDHARLFEERAVGVLDECFNENETLSQTLLVRELDHYSRMTALELAVSAESQDFIAHTSCQVLLTRLWMGTMAMNTRWWKVLVCLYLPVLIFPIIYFVPDEQHERQAAEREHQKSLNQDDSMEVIMRNKKLGFCDRIMHFYSAPFSKFVGNVVGYLAFIFLYAYVVLFNFPRFDPAKTLGGIHPTEIVLYFWVFTILIEEIRQLAAKPPKYIKDKVSVYFSDTWNFVDIFSLTVFIIAIILRFFTNSRIFTASRIILSLDIIFFIVRSLQIFSVNRLLGPKLVMIQKMMQDLAQFIIILAVFTIAYGIALHAVMFPSPGIYARNNTWVTITSVVQYPYWQMYGELFLDEIQGEKPKEFGEVDPDGRWLSPLLLAIYMVFTNILLLNLLIAIFNYTFERVQEDSDKVWKFQRYDLVQEYHSRPVFAPPLVLLGHILIFIRWVWRTMKIGLSPAEMEQMDNWEFQAAEMYIHQQQQKNSGTLEERVRALGDRVDCINSQLNRVLDSMS 6cof-a1-m1-cA_6cof-a1-m1-cB AtHNL enantioselectivity mutant At-A9-H7 Apo, Y13C,Y121L,P126F,L128W,C131T,A209I Q9LFT6 Q9LFT6 1.52 X-RAY DIFFRACTION 53 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 259 259 3dqz-a1-m1-cB_3dqz-a1-m1-cA 3dqz-a2-m1-cD_3dqz-a2-m1-cC 6cob-a1-m1-cA_6cob-a1-m1-cB 6coc-a1-m1-cB_6coc-a1-m1-cA 6cod-a1-m1-cA_6cod-a1-m1-cB 6coe-a1-m1-cA_6coe-a1-m1-cB 6cog-a1-m1-cA_6cog-a1-m1-cB 6coh-a1-m1-cA_6coh-a1-m1-cB 6coi-a1-m1-cB_6coi-a1-m1-cA MERKHHFVLVHNACHGAWIWYKLKPLLESAGHRVTAVELAASGIDPRPIQAVETVDEYSKPLIETLKSLPENEEVILVGFSFGGINIALAADIFPAKIKVLVFLNAFLPDTTHVPSHVLDKLMEMFGGWGDTEFSSHETRNGTMSLLKMGPKFMKARLYQNCPIEDYELAKMLHRQGSFFTEDLSKKEKFSEEGYGSVQRVYVMSSEDKIIPCDFIRWMIDNFNVSKVYEIDGGDHMVMLSKPQKLFDSLSAIATDYMG MERKHHFVLVHNACHGAWIWYKLKPLLESAGHRVTAVELAASGIDPRPIQAVETVDEYSKPLIETLKSLPENEEVILVGFSFGGINIALAADIFPAKIKVLVFLNAFLPDTTHVPSHVLDKLMEMFGGWGDTEFSSHETRNGTMSLLKMGPKFMKARLYQNCPIEDYELAKMLHRQGSFFTEDLSKKEKFSEEGYGSVQRVYVMSSEDKIIPCDFIRWMIDNFNVSKVYEIDGGDHMVMLSKPQKLFDSLSAIATDYMG 6coj-a1-m1-cA_6coj-a1-m2-cA Crystal structure of Rhodococcus jostii RHA1 IpdAB E105A COCHEA-COA complex Q0S7P9 Q0S7P9 1.4 X-RAY DIFFRACTION 63 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 295 295 6co6-a1-m1-cA_6co6-a1-m2-cA 6co9-a1-m1-cA_6co9-a1-m2-cA VSKRDKRISLDDAVGELRSGMTIGIGGWGSRRKPMALVRALLRSDVTDLTVVTYGGPDLGLLCSAGKVTKAYYGFVSLDSAPFYDPWFAKARTAGEIAVREMDAGMVKCGLEAAAARLPFLPIRAGLGSDVRRFWGDELRTVTSPYPDASGKSETLIAMPALNLDAALVHLNLGDKHGNAAYTGVDPYFDDLYCAAAEKRFVSVERVVETEELVKTVPLQNLILNRMMVDGVVEAPNGAHFTLAGDSYGRDEKFQRHYAESAKTPQAWQQFVATYLSGSEDDYQAAVKKFAEEQA VSKRDKRISLDDAVGELRSGMTIGIGGWGSRRKPMALVRALLRSDVTDLTVVTYGGPDLGLLCSAGKVTKAYYGFVSLDSAPFYDPWFAKARTAGEIAVREMDAGMVKCGLEAAAARLPFLPIRAGLGSDVRRFWGDELRTVTSPYPDASGKSETLIAMPALNLDAALVHLNLGDKHGNAAYTGVDPYFDDLYCAAAEKRFVSVERVVETEELVKTVPLQNLILNRMMVDGVVEAPNGAHFTLAGDSYGRDEKFQRHYAESAKTPQAWQQFVATYLSGSEDDYQAAVKKFAEEQA 6con-a2-m1-cE_6con-a2-m1-cG Crystal structure of Mycobacterium tuberculosis IpdAB P9WPW1 P9WPW1 2.1 X-RAY DIFFRACTION 65 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 292 292 6con-a1-m1-cA_6con-a1-m1-cC MPDKRTALDDAVAQLRSGMTIGIAGWGSRRKPMAFVRAILRSDVTDLTVVTYGGPDLGLLCSAGKVKRVYYGFVSLDSPPFYDPWFAHARTSGAIEAREMDEGMLRCGLQAAAQRLPFLPIRAGLGSSVPQFWAGELQTVTSPYPAPGGGYETLIAMPALRLDAAFAHLNLGDSHGNAAYTGIDPYFDDLFLMAAERRFLSVERIVATEELVKSVPPQALLVNRMMVDAIVEAPGGAHFTTAAPDYGRDEQFQRHYAEAASTQVGWQQFVHTYLSGTEADYQAAVHNFGASR MPDKRTALDDAVAQLRSGMTIGIAGWGSRRKPMAFVRAILRSDVTDLTVVTYGGPDLGLLCSAGKVKRVYYGFVSLDSPPFYDPWFAHARTSGAIEAREMDEGMLRCGLQAAAQRLPFLPIRAGLGSSVPQFWAGELQTVTSPYPAPGGGYETLIAMPALRLDAAFAHLNLGDSHGNAAYTGIDPYFDDLFLMAAERRFLSVERIVATEELVKSVPPQALLVNRMMVDAIVEAPGGAHFTTAAPDYGRDEQFQRHYAEAASTQVGWQQFVHTYLSGTEADYQAAVHNFGASR 6coz-a1-m1-cA_6coz-a1-m1-cB Human CLC-1 chloride ion channel, C-terminal cytosolic domain P35523 P35523 3.36 ELECTRON MICROSCOPY 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 160 PDLGWNQLSKYTIFVEDIMVRDVKFVSASYTYGELRTLLQTTTVKTLPLVDSKDSMILLGSVERSELQALLQRHLCPERRMSPEEIEAWEQEQLSQPVCFDSCCIDQSPFQLVEQTTLHKTHTLFSLLGLHLAYVTSMGKLRGVLALEELQKAIEGHTKS PDLGWNQLSKYTIFVEDIMVRDVKFVSASYTYGELRTLLQTTTVKTLPLVDSKDSMILLGSVERSELQALLQRHLCPERRMSPEEIEAWEQEQLSQPVCFDSCCIDQSPFQLVEQTTLHKTHTLFSLLGLHLAYVTSMGKLRGVLALEELQKAIEGHTKS 6cpd-a1-m1-cA_6cpd-a1-m1-cB Crystal structure of PmoD soluble domain from Methylocystis sp. ATCC 49242 (Rockwell) A0A452CSS7 A0A452CSS7 1.903 X-RAY DIFFRACTION 79 1.0 622637 (Methylocystis sp. ATCC 49242) 622637 (Methylocystis sp. ATCC 49242) 126 127 GNMCMVMFGYDMIHITVFQPDKSRSEYCDEIPATGRTIMAFDIENPAFRDLPLELRIIRDPLTPVLPTGEKELDALTELHLPAKKYSKGTFSVEHNFANNGHYIGLVTLTRESGQQETAQFKFMVG MGNMCMVMFGYDMIHITVFQPDKSRSEYCDEIPATGRTIMAFDIENPAFRDLPLELRIIRDPLTPVLPTGEKELDALTELHLPAKKYSKGTFSVEHNFANNGHYIGLVTLTRESGQQETAQFKFMVG 6cq7-a2-m1-cA_6cq7-a2-m2-cA The SH3 domain of MLK3 in complex with poly-proline peptide derived from Htt Q16584 Q16584 2 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 73 NPVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGPPPPGPAVAE NPVWTALFDYEPSGQDELALRKGDRVEVLSRDAAISGDEGWWAGQVGGQVGIFPSNYVSRGGGPPPPGPAVAE 6cq9-a1-m1-cA_6cq9-a1-m1-cB K2P2.1(TREK-1):ML402 complex P97438 P97438 2.8 X-RAY DIFFRACTION 315 0.982 10090 (Mus musculus) 10090 (Mus musculus) 276 282 6cq6-a1-m1-cA_6cq6-a1-m1-cB 6cq8-a1-m1-cA_6cq8-a1-m1-cB 6v37-a1-m1-cA_6v37-a1-m1-cB 6v3i-a1-m1-cA_6v3i-a1-m1-cB 6w84-a1-m1-cA_6w84-a1-m1-cB SDSAINVMKWKTVSTIFLVVVLYLIIGATVFKALEQPQEISQRTTIVIQREKFLRAHPCVSDQELDELIQQIVAAINAGSHWDLGSSFFFAGTVITTIGFGNISPRTEGGKIFCIIYALLGIPLFGFLLAGVGDQLGTIFGKGIAKVEDTFIKWNVSQTKIRIISTIIFILFGCVLFVALPAVIFKHIEGWSALDAIYFVVITLTTIGFGDYVAGGSDIEYLDFYKPVVWFWILVGLAYFAAVLSMIGDWLRVIAKKTKEAVGEFRAHAAEWTANV SDSAINVMKWKTVSTIFLVVVLYLIIGATVFKALEQPQEISQRTTIVIQREKFLRAHPCVSDQELDELIQQIVAAINAGIIPLGASSNQVSHWDLGSSFFFAGTVITTIGFGNISPRTEGGKIFCIIYALLGIPLFGFLLAGVGDQLGTIFGKGIAKVEDTFIKWNVSQTKIRIISTIIFILFGCVLFVALPAVIFKHIEGWSALDAIYFVVITLTTIGFGDYVAGGSDIEYLDFYKPVVWFWILVGLAYFAAVLSMIGDWLRVIAKKTKEAVGEFRAHAAE 6cqb-a1-m1-cA_6cqb-a1-m1-cB Crystal Structure of Piper methysticum Chalcone Synthase A0A384E133 A0A384E133 2.91 X-RAY DIFFRACTION 144 1.0 130404 (Piper methysticum) 130404 (Piper methysticum) 381 381 AAQRARGPATVLAIGTAAPANVVYQADYPDYYFRITKSEHMTELKEKFRRMCDKSMITKRHMHLSEELLKNNPDICAYMAPSLDARQDMVVVEVPKLGKEAAAKAIKEWGRPKSAITHLIFCTTSGVDMPGADFQLTKLLGLCPSVRRTMLYQQGCFAGGTVLRLAKDLAENNAGARVLVVCSEITAVTFRGPSETHLDSMVGQALFGDGASAIIVGADPDPVIERPLFQIVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLKEAFAPLGIDDWNSIFWIVHPGGPAILDQVEAKLRLKVEKLKTTRTVLSEYGNMSSACVLFILDEMRRNSMEEGKATTGEGLHWGVLFGFGPGLTVETVVLHSLPI AAQRARGPATVLAIGTAAPANVVYQADYPDYYFRITKSEHMTELKEKFRRMCDKSMITKRHMHLSEELLKNNPDICAYMAPSLDARQDMVVVEVPKLGKEAAAKAIKEWGRPKSAITHLIFCTTSGVDMPGADFQLTKLLGLCPSVRRTMLYQQGCFAGGTVLRLAKDLAENNAGARVLVVCSEITAVTFRGPSETHLDSMVGQALFGDGASAIIVGADPDPVIERPLFQIVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLKEAFAPLGIDDWNSIFWIVHPGGPAILDQVEAKLRLKVEKLKTTRTVLSEYGNMSSACVLFILDEMRRNSMEEGKATTGEGLHWGVLFGFGPGLTVETVVLHSLPI 6cqk-a1-m1-cD_6cqk-a1-m1-cB Crystal Structure of mitochondrial single-stranded DNA binding proteins from S. cerevisiae, Rim1 (Form1) P32445 P32445 2.8 X-RAY DIFFRACTION 12 0.989 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 87 93 MDFSKMSIVGRIGSEFTEHTNRYLKYSIASQPRQTNWYNITVFNEPQINFLTEYVRKGALVYVEADAANVFGTTLSLVQKDINLLKN DFSKMSIVGRIGSEFTEHTSANNNRYLKYSIASQPRQTNWYNITVFNEPQINFLTEYVRKGALVYVEADAANYVFEGTTLSLVQKDINLLKNG 6cqo-a1-m1-cG_6cqo-a1-m1-cA Crystal Structure of mitochondrial single-stranded DNA binding proteins from S. cerevisiae (SeMet Labeled), Rim1 (Form2) P32445 P32445 2.8 X-RAY DIFFRACTION 67 0.989 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 87 93 6cqm-a1-m1-cG_6cqm-a1-m1-cA 6cqm-a2-m3-cH_6cqm-a2-m1-cE 6cqo-a4-m2-cH_6cqo-a4-m1-cE DFSKSIVGRIGSEFTEHYLKYSIASQPRRDGQTNWYNITVFNEPQINFLTEYVRKGALVYVEADAANYVFGTTLSLVQKDINLLKNG DFSKSIVGRIGSEFTEHTSANNRYLKYSIASQPRRDGQTNWYNITVFNEPQINFLTEYVRKGALVYVEADAANYVGTTLSLVQKDINLLKNGK 6cqs-a2-m1-cA_6cqs-a2-m2-cA Sediminispirochaeta smaragdinae SPS-1 metallo-beta-lactamase E1R245 E1R245 1.7 X-RAY DIFFRACTION 25 1.0 573413 (Sediminispirochaeta smaragdinae DSM 11293) 573413 (Sediminispirochaeta smaragdinae DSM 11293) 242 242 YPVIRLNDELEVREILPNAFVITHKFPWGGNSLVVLIGEKYAVFVDTPYTPEATENVLDWINKQYGNRQFIEINTGYHVDNLGGNDALLHRNIPIIGSDKTVSLLRERGEATRQLTMGWLEGPGNEKFLKRHETIPYVGPSQIFQLTEGYHFTVGDEPIEVFFPGETHAPDNIVVYFPERKILFGGCMLRVGNGTGNRADANMDTWKSSVERLRDFDCVAVIPGHGIRFDPGVIENTISVLP YPVIRLNDELEVREILPNAFVITHKFPWGGNSLVVLIGEKYAVFVDTPYTPEATENVLDWINKQYGNRQFIEINTGYHVDNLGGNDALLHRNIPIIGSDKTVSLLRERGEATRQLTMGWLEGPGNEKFLKRHETIPYVGPSQIFQLTEGYHFTVGDEPIEVFFPGETHAPDNIVVYFPERKILFGGCMLRVGNGTGNRADANMDTWKSSVERLRDFDCVAVIPGHGIRFDPGVIENTISVLP 6cri-a1-m1-cU_6cri-a1-m1-cV Structure of the cargo bound AP-1:Arf1:tetherin-Nef stable closed trimer P84077 P84077 6.8 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 163 163 6cri-a1-m1-cH_6cri-a1-m1-cU EMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGLDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDELRDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLSNQLRN EMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGLDKIRPLWRHYFQNTQGLIFVVDSNDRERVNEAREELMRMLAEDELRDAVLLVFANKQDLPNAMNAAEITDKLGLHSLRHRNWYIQATCATSGDGLYEGLDWLSNQLRN 6crn-a1-m1-cB_6crn-a1-m1-cD Structure of the USP15 deubiquitinase domain in complex with a high-affinity first-generation Ubv Q9Y4E8 Q9Y4E8 2.5 X-RAY DIFFRACTION 14 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 332 343 SEPGRNNEQPGLCGLSNLGNTCFMNSAIQCLSNTPPLTEYFLNDKYQEELNFDNPLGMRGEIAKSYAELIKQMWSGKFSYVTPRAFKTQVGRFAPQFSGCQELLAFLLDGLHEDLNRIRKKPYIQLKDADGRPDKVVAEEAWENHLKRNDSIIVDIFHGLFKSTLVCPECAKISVTFDPFCYLTLPLPMPKKPFVKLKDCIELFTTKEKLGAEDPWYCPNCKEHQQATKKLDLWSLPPVLVVHLKRFSDKLDTLVDFPINDLDMSEFLINPNAGPCRYNLIAVSNHYGGHYTAFAKNKDDGKWYYFDDSSVSTASEDQIVSKAAYVLFYQRQ GRNNEQPGLCGLSNLGNTCFMNSAIQCLSNTPPLTEYFLNDKYQEELNFDNPLGMRGEIAKSYAELIKQMWSGKFSYVTPRAFKTQVGRFAPQFSQQQDCQELLAFLLDGLHEDLNRIRKKPYIQLKDADGRPDKVVAEEAWENHLKRNDSIIVDIFHGLFKSTLVCPECAKISVTFDPFCYLTLPLPMPKKPFVKLKDCIELFTTKEKLEDPWYCPNCKEHQQATKKLDLWSLPPVLVVHLKRFSYSRYMRDKLDTLVDFPINDLDMSEFLINPNAGPCRYNLIAVSNHYGGMGGGHYTAFAKNKDDGKWYYFDDSSVSTASEDQIVSKAAYVLFYQRQDSS 6crv-a1-m1-cB_6crv-a1-m1-cC SARS Spike Glycoprotein, Stabilized variant, C3 symmetry P10104 P10104 3.2 ELECTRON MICROSCOPY 257 1.0 694009 (Severe acute respiratory syndrome-related coronavirus) 694009 (Severe acute respiratory syndrome-related coronavirus) 881 881 6crv-a1-m1-cA_6crv-a1-m1-cB 6crv-a1-m1-cA_6crv-a1-m1-cC 6cs2-a1-m1-cA_6cs2-a1-m1-cB 6cs2-a1-m1-cA_6cs2-a1-m1-cC 8h16-a1-m1-cA_8h16-a1-m1-cB 8h16-a1-m1-cA_8h16-a1-m1-cC RCTTFDDVQAPNYTQHTSSMRGVYYPDEIFRSDTLYLTQDLFLPFYSNVTGFHTINHTFGNPVIPFKDGIYFAATEKSNVVRGWVFGSTMNNKSQSVIIINNSTNVVIRACNFELCDNPFFAVSKPMGTQTHTMIFDNAFNCTFEYISDAFSLDVSEKSGNFKHLREFVFKNKDGFLYVYKGYQPIDVVRDLPSGFNTLKPIFKLPLGINITNFRAILTAFSPIWGTSAAAYFVGYLKPTTFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCAFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYHTVKSIVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVTQYGECLGDILICAQKFNGLTVLPPLLTDDMIAAYTAALVSGTATAGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVY RCTTFDDVQAPNYTQHTSSMRGVYYPDEIFRSDTLYLTQDLFLPFYSNVTGFHTINHTFGNPVIPFKDGIYFAATEKSNVVRGWVFGSTMNNKSQSVIIINNSTNVVIRACNFELCDNPFFAVSKPMGTQTHTMIFDNAFNCTFEYISDAFSLDVSEKSGNFKHLREFVFKNKDGFLYVYKGYQPIDVVRDLPSGFNTLKPIFKLPLGINITNFRAILTAFSPIWGTSAAAYFVGYLKPTTFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCAFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYHTVKSIVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVTQYGECLGDILICAQKFNGLTVLPPLLTDDMIAAYTAALVSGTATAGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVY 6csm-a2-m1-cC_6csm-a2-m1-cD Crystal structure of the natural light-gated anion channel GtACR1 L1J207 L1J207 2.9 X-RAY DIFFRACTION 84 1.0 905079 (Guillardia theta CCMP2712) 905079 (Guillardia theta CCMP2712) 270 277 6csm-a1-m1-cB_6csm-a1-m1-cA 6edq-a1-m1-cA_6edq-a1-m1-cB 7l1e-a1-m1-cA_7l1e-a1-m1-cB ITCDPAIYGEWSRENQFCVEKSLITLDGIKYVQLVMAVVSACQVFFMVTRAPKVPWEAIYLPTTEMITYSLAFTGNGYIRVANGKYLPWARMASWLCTCPIMLGLVSNMALVKYKSIPLNPMMIAASSICTVFGITASVVLDPLHVWLYCFISSIFFIFEMVVAFAIFAITIHDFQTIGSPMSLKVVERLKLMRIVFYVSWMAYPILWSFSSTGACIMSENTSSVLYLLGDALCKNTYGILLWATTWGLLNGKWDRDYVKGRNVDGTLMP ITCDPAIYGEWSRENQFCVEKSLITLDGIKYVQLVMAVVSACQVFFMVTRAPKVPWEAIYLPTTEMITYSLAFTGNGYIRVANGKYLPWARMASWLCTCPIMLGLVSNMALVKYKSIPLNPMMIAASSICTVFGITASVVLDPLHVWLYCFISSIFFIFEMVVAFAIFAITIHDFQTIGSPMSLKVVERLKLMRIVFYVSWMAYPILWSFSSTGACIMSENTSSVLYLLGDALCKNTYGILLWATTWGLLNGKWDRDYVKGRNVDGTLMPEYEQDLE 6cst-a1-m1-cB_6cst-a1-m1-cA Structure of human DNA polymerase kappa with DNA Q9UBT6 Q9UBT6 2 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 446 GLNDNKAGMEGLDKEKINKIIMEATKGSRFYGNELKKEKQVNQRIENMMQQKAQITSQQLRKAQLQVDRFAMELEQSRNLSNTIVHIDMDAFYAAVEMRDNPELKDKPIAVGSMSMLSTSNYHARRFGVRAAMPGFIAKRLCPQLIIVPPNFDKYRAVSKEVKEILADYDPNFMAMSLDEAYLNITKHLEERQNWPEDKRRYFIKNSVVFGTSAQEVVKEIRFRIEQKTTLTASAGIAPNTMLAKVCSDKNKPNGQYQILPNRQAVMDFIKDLPIRKVSGIGKVTEKMLKALGIITCTELYQQRALLSLLFSETSWHYFLHISLGLGSTHLTRDGERKSMSVERTFSEINKAEEQYSLCQELCSELAQDLQKERLKGRTVTIKLKNVNFEVKTRASTVSSVVSTAEEIFAIAKELLKTEIDADFPHPLRLRLMGVRISSFPN LLRMGLNDNKAGMEGLDKEKINKIIMEATKGSRFYGNELKKEKQVNQRIENMMQQKAQITSQQLRKAQLQVDRFAMELEQSRNLSNTIVHIDMDAFYAAVEMRDNPELKDKPIAVGSMSMLSTSNYHARRFGVRAAMPGFIAKRLCPQLIIVPPNFDKYRAVSKEVKEILADYDPNFMAMSLDEAYLNITKHLEERQNWPEDKRRYFIKNSVVFGTSAQEVVKEIRFRIEQKTTLTASAGIAPNTMLAKVCSDKNKPNGQYQILPNRQAVMDFIKDLPIRKVSGIGKVTEKMLKALGIITCTELYQQRALLSLLFSETSWHYFLHISLGLGSTHLTRDGERKSMSVERTFSEINKAEEQYSLCQELCSELAQDLQKERLKGRTVTIKLKNVNFEVKTRASTVSSVVSTAEEIFAIAKELLKTEIDADFPHPLRLRLMGVRISSFPN 6csv-a1-m1-cC_6csv-a1-m1-cA The structure of the Cep63-Cep152 heterotetrameric complex O94986 O94986 2.5 X-RAY DIFFRACTION 112 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 88 90 6csu-a1-m1-cB_6csu-a1-m1-cD AHMTRFLEEEELRSHHILERLDAHIEELKRESEKTVRQFTALKGALEELRGQYIKAVKKIKCDMLRYIQESKERAAEMVKAEVLRERQ AHMTRFLEEEELRSHHILERLDAHIEELKRESEKTVRQFTALKGSEGALEELRGQYIKAVKKIKCDMLRYIQESKERAAEMVKAEVLRER 6ct6-a1-m1-cA_6ct6-a1-m1-cB Crystal structure of lactate dehydrogenase from Eimeria maxima with NADH and oxamate U6M598 U6M598 1.705 X-RAY DIFFRACTION 147 1.0 5804 (Eimeria maxima) 5804 (Eimeria maxima) 321 331 AVFNKRPKIALVGSGMIGGTMAFLCSLKELGDVVLFDVVPNMPMGKAMDLCHNSSVVDNGITVYGSNSYECLTNADVVIITAGITKWSRMDLLPVNIKIMREVGGAIKKYCPNAFIINITNPLDVMVAAVQEAANVPKHMICGMAGMLDSSRLRRMIADCLHVSPHDVQGMVIGVHGDNMLPLMRYITINGIPIQEFINKGLINKEDINNIYNKTKQAGGDIVRLLGQGSAYYAPGTSAILMAESYLKDKKRLFVSSCYLNGQYNVNNHYLGVPCIIGGKGIEQIIELDLNQEEKKLLQGSIDEVLEMQKAIAALDAGKLE AVFEQNKRPKIALVGSGMIGGTMAFLCSLKELGDVVLFDVVPNMPMGKAMDLCHNSSVVDNGITVYGSNSYECLTNADVVIITAGITKIPGKWSRMDLLPVNIKIMREVGGAIKKYCPNAFIINITNPLDVMVAAVQEAANVPKHMICGMAGMLDSSRLRRMIADCLHVSPHDVQGMVIGVHGDNMLPLMRYITINGIPIQEFINKGLINKEDINNIYNKTKQAGGDIVRLLGQGSAYYAPGTSAILMAESYLKDKKRLFVSSCYLNGQYNVNNHYLGVPCIIGGKGIEQIIELDLNQEEKKLLQGSIDEVLEMQKAIAALDAGKLEHHHH 6cty-a3-m1-cD_6cty-a3-m1-cC Crystal structure of dihydroorotase pyrC from Yersinia pestis in complex with zinc and malate at 2.4 A resolution Q8ZFU4 Q8ZFU4 2.41 X-RAY DIFFRACTION 67 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 340 350 6cty-a1-m1-cE_6cty-a1-m1-cA 6cty-a2-m1-cB_6cty-a2-m1-cF PQTLKIRRPDDWHIHLRDDEMLSTVLPYTSEVFARAIVMPNLAQPITTVASAIAYRERILAAVPAGHKFTPLMTCYLTNSLDAKELTTGFEQGVFTAALYPANATTNSTHGVSDIPAIYPLFEQMQKIGMPLLIHGEVTDAAVDIFDREARFIDQILEPIRQKFPELKIVFEHITTKDAADYVLAGNRFLGATVTPQHLMFNRNHMLVGGIRPHLFCLPILKRSTHQQALRAAVASGSDRFFLGTDSAPHAKHRKESSGAGVFNAPAALPAYASVFEELNALQHLEAFCALNGPRFYGLPVNDDVVELVRTPFLQPEEIPLGNESVIPFLAGQTLNWSVK YFQSNAMTAQPQTLKIRRPDDWHIHLRDDEMLSTVLPYTSEVFARAIVMPNLAQPITTVASAIAYRERILAAVPAGHKFTPLMTCYLTNSLDAKELTTGFEQGVFTAALYPANATTNSTHGVSDIPAIYPLFEQMQKIGMPLLIHGEVTDAAVDIFDREARFIDQILEPIRQKFPELKIVFEHITTKDAADYVLAGNRFLGATVTPQHLMFNRNHMLVGGIRPHLFCLPILKRSTHQQALRAAVASGSDRFFLGTDSAPHAKHRKESSGAGVFNAPAALPAYASVFEELNALQHLEAFCALNGPRFYGLPVNDDVVELVRTPFLQPEEIPLGNESVIPFLAGQTLNWSVK 6cu7-a1-m1-cF_6cu7-a1-m1-cJ Alpha Synuclein fibril formed by full length protein - Rod Polymorph P37840 P37840 3.5 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 6cu7-a1-m1-cA_6cu7-a1-m1-cE 6cu7-a1-m1-cB_6cu7-a1-m1-cF 6cu7-a1-m1-cC_6cu7-a1-m1-cG 6cu7-a1-m1-cD_6cu7-a1-m1-cH 6cu7-a1-m1-cE_6cu7-a1-m1-cI LYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK LYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK 6cu8-a1-m1-cF_6cu8-a1-m1-cJ Alpha Synuclein fibril formed by full length protein - Twister Polymorph P37840 P37840 3.6 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 6cu8-a1-m1-cA_6cu8-a1-m1-cE 6cu8-a1-m1-cB_6cu8-a1-m1-cF 6cu8-a1-m1-cC_6cu8-a1-m1-cG 6cu8-a1-m1-cD_6cu8-a1-m1-cH 6cu8-a1-m1-cE_6cu8-a1-m1-cI KTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVE KTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVE 6cu8-a1-m1-cH_6cu8-a1-m1-cJ Alpha Synuclein fibril formed by full length protein - Twister Polymorph P37840 P37840 3.6 ELECTRON MICROSCOPY 152 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 6cu8-a1-m1-cA_6cu8-a1-m1-cC 6cu8-a1-m1-cB_6cu8-a1-m1-cD 6cu8-a1-m1-cC_6cu8-a1-m1-cE 6cu8-a1-m1-cD_6cu8-a1-m1-cF 6cu8-a1-m1-cE_6cu8-a1-m1-cG 6cu8-a1-m1-cF_6cu8-a1-m1-cH 6cu8-a1-m1-cG_6cu8-a1-m1-cI KTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVE KTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVE 6cu8-a1-m1-cI_6cu8-a1-m1-cJ Alpha Synuclein fibril formed by full length protein - Twister Polymorph P37840 P37840 3.6 ELECTRON MICROSCOPY 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 6cu8-a1-m1-cA_6cu8-a1-m1-cB 6cu8-a1-m1-cB_6cu8-a1-m1-cC 6cu8-a1-m1-cC_6cu8-a1-m1-cD 6cu8-a1-m1-cD_6cu8-a1-m1-cE 6cu8-a1-m1-cE_6cu8-a1-m1-cF 6cu8-a1-m1-cF_6cu8-a1-m1-cG 6cu8-a1-m1-cG_6cu8-a1-m1-cH 6cu8-a1-m1-cH_6cu8-a1-m1-cI KTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVE KTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVE 6cuj-a1-m1-cB_6cuj-a1-m1-cA Crystal structure of the C-terminal domain of neisserial heparin binding antigen (NHBA) Q9JPP1 Q9JPP1 1.805 X-RAY DIFFRACTION 79 0.993 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 146 152 IFAPEGNYRYLTYGAEKLPGGSYALRVQGEPAKGEMLAGTAVYNGEVLHFHTENGRPYPTRGRFAAKVDFGSKSVDGIIDSGDDLHMGTQKFKAAIDGNGFKGTWTENGGGDVSGRFYGPAGEEVAGKYSYRPGGFGVFAGKKEQD GNIFAPEGNYRYLTYGAEKLPGGSYALRVQGEPAKGEMLAGTAVYNGEVLHFHTENGRPYPTRGRFAAKVDFGSKSVDGIIDSGDDLHMGTQKFKAAIDGNGFKGTWTENGGGDVSGRFYGPAGEEVAGKYSYRPTDAEKGGFGVFAGKKEQ 6cum-a1-m1-cA_6cum-a1-m2-cA Crystal structure of a C-terminal proteolytic fragment of a protein annotated as an LAO/AO transport system ATPase but likely MeaB and MMAA-like GTPase from Mycobacterium smegmatis A0R1T8 A0R1T8 1.6 X-RAY DIFFRACTION 101 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 51 51 DTPERRRARARSQILSLAQTLLRNHADLDRLSAAVADGSSDAYTAAERLFA DTPERRRARARSQILSLAQTLLRNHADLDRLSAAVADGSSDAYTAAERLFA 6cuq-a1-m1-cC_6cuq-a1-m1-cB Crystal structure of Macrophage migration inhibitory factor-like protein (EhMIF) from Entamoeba histolytica C4LV00 C4LV00 2.45 X-RAY DIFFRACTION 104 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 115 117 6cuq-a1-m1-cA_6cuq-a1-m1-cB 6cuq-a1-m1-cA_6cuq-a1-m1-cC HHMPHALITLSADITEEIKKEIAHESMKILSEVIGKPISYCATQVVTSVGGFGGKIVKSAFIDIKSISGLKGKQEGLSDRYCKLLEQKAGIEGGNIYLNFTEMTGNNWGYDHSTF HHHHMPHALITLSADITEEIKKEIAHESMKILSEVIGKPISYCATQVVTSVGGFGGKIVKSAFIDIKSISGLKGKQEGLSDRYCKLLEQKAGIEGGNIYLNFTEMTGNNWGYDHSTF 6cv0-a1-m1-cB_6cv0-a1-m1-cC Cryo-electron microscopy structure of infectious bronchitis coronavirus spike protein F4MIW6 F4MIW6 3.93 ELECTRON MICROSCOPY 363 1.0 11120 (Infectious bronchitis virus) 11120 (Infectious bronchitis virus) 993 993 6cv0-a1-m1-cA_6cv0-a1-m1-cB 6cv0-a1-m1-cA_6cv0-a1-m1-cC YDSSSYVYYYQSAFRPPNGWHLHGGAYAVVNISSESNNAGSSPGCIVGTIHGGRVVNASSIAMTAPSSGMAWSSSQFCTAHCNFSDTTVFVTHCYKYDGCPITGMLQKNFLRVSAMKNGQLFYNLTVSVAKYPTFKSFQCVNNLTSVYLNGDLVYTSNETTDVTSAGVYFKAGGPITYKVMREVKALAYFVNGTAQDVILCDGSPRGLLACQYNTGNFSDGFYPFINSSLVKQKFIVYRENSVNTTFTLHNFTFHNETGANPNPSGVQNIQTYQTQTAQSGYYNFNFSFLSSFVYKESNFMYGSYHPSCNFRLETINNGLWFNSLSVSIAYGPLQGGCKQSVFSGRATCCYAYSYGGPSLCKGVYSGELDLNFECGLLVYVTKSGGSRIQTATEPPVITRHNYNNITLNTCVDYNIYGRTGQGFITNVTDSAVSYNYLADAGLAILDTSGSIDIFVVQGEYGLTYYKVNPCEDVNQQFVVSGGKLVGILTSRNETGSQLLENQFYIKITNGTRRFRRSITENVANCPYVSYGKFCIKPDGSIATIVPKQLEQFVAPLLNVTENVLIPNSFNLTVTDEYIQTRMDKVQINCLQYVCGNSLDCRDLFQQYGPVCDNILSVVNSIGQKEDMELLNFYSSTKPAGFNTPFLSNVSTGEFNISLLLTTPSSPRRRSFIEDLLFTSVAYKNCTAGPLGFLKDLACAREYNGLLVLPPIITAEMQTLYTSSLVASMAFGGITAAGAIPFATQLQARINHLGITQSLLLKNQEKIAASFNKAIGRMQEGFRSTSLALQQIQHVVNKQNAILTETMASLNKNFGAISSLIQEIYQQLDAIQANAQVDRLITGRLSSLSVLASAKQAEHIRVSQQRELATQKINECVKSQSIRYSFCGNGRHVLTIPQNAPNGIVFIHFSYTPDSFVNVTAIVGFCVKPANASQYAIVPANGRGIFIQVNGSYYITARDMYMPRAITAGDIVTLTSCQANYVSVNKTVITTFV YDSSSYVYYYQSAFRPPNGWHLHGGAYAVVNISSESNNAGSSPGCIVGTIHGGRVVNASSIAMTAPSSGMAWSSSQFCTAHCNFSDTTVFVTHCYKYDGCPITGMLQKNFLRVSAMKNGQLFYNLTVSVAKYPTFKSFQCVNNLTSVYLNGDLVYTSNETTDVTSAGVYFKAGGPITYKVMREVKALAYFVNGTAQDVILCDGSPRGLLACQYNTGNFSDGFYPFINSSLVKQKFIVYRENSVNTTFTLHNFTFHNETGANPNPSGVQNIQTYQTQTAQSGYYNFNFSFLSSFVYKESNFMYGSYHPSCNFRLETINNGLWFNSLSVSIAYGPLQGGCKQSVFSGRATCCYAYSYGGPSLCKGVYSGELDLNFECGLLVYVTKSGGSRIQTATEPPVITRHNYNNITLNTCVDYNIYGRTGQGFITNVTDSAVSYNYLADAGLAILDTSGSIDIFVVQGEYGLTYYKVNPCEDVNQQFVVSGGKLVGILTSRNETGSQLLENQFYIKITNGTRRFRRSITENVANCPYVSYGKFCIKPDGSIATIVPKQLEQFVAPLLNVTENVLIPNSFNLTVTDEYIQTRMDKVQINCLQYVCGNSLDCRDLFQQYGPVCDNILSVVNSIGQKEDMELLNFYSSTKPAGFNTPFLSNVSTGEFNISLLLTTPSSPRRRSFIEDLLFTSVAYKNCTAGPLGFLKDLACAREYNGLLVLPPIITAEMQTLYTSSLVASMAFGGITAAGAIPFATQLQARINHLGITQSLLLKNQEKIAASFNKAIGRMQEGFRSTSLALQQIQHVVNKQNAILTETMASLNKNFGAISSLIQEIYQQLDAIQANAQVDRLITGRLSSLSVLASAKQAEHIRVSQQRELATQKINECVKSQSIRYSFCGNGRHVLTIPQNAPNGIVFIHFSYTPDSFVNVTAIVGFCVKPANASQYAIVPANGRGIFIQVNGSYYITARDMYMPRAITAGDIVTLTSCQANYVSVNKTVITTFV 6cvc-a2-m1-cA_6cvc-a2-m2-cA Mycobacterium marinum cytochrome P450 CYP124A1 in the substrate-free form B2HHT9 B2HHT9 2.2 X-RAY DIFFRACTION 81 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 422 422 LLPRVNGTPPPEVPLADIELGSLEFWGRDDDFRDGAFATLRREAPISFWPPIELAGLTAGKGHWALTKHDDIHFASRHPEIFHSSPNIVIHDQTPELAEYFGSMIVLDDPRHQRLRSIVSRAFTPKVVARIEASVRERAHRLVAAMIENHPDGQADLVSELAGPLPLQIICDMMGIPEEDHEQIFHWTNVILGFGDPDLTTDFDEFLQVSMAIGGYATALADDRRVNHHGDLTTSLVEAEVDGERLSSSEIAMFFILLVVAGNETTRNAISHGMLALSRYPDERAKWWSDFDGLAATAVEEIVRWASPVVYMRRTLSQDVDLRGTKMAAGDKVTLWYCSANRDEEKFADPWTFDVTRNPNPQVGFGGGGAHFCLGANLARREIRVVFDELRRQMPDVVATEEPARLLSQFIHGIKRLPVAWS LLPRVNGTPPPEVPLADIELGSLEFWGRDDDFRDGAFATLRREAPISFWPPIELAGLTAGKGHWALTKHDDIHFASRHPEIFHSSPNIVIHDQTPELAEYFGSMIVLDDPRHQRLRSIVSRAFTPKVVARIEASVRERAHRLVAAMIENHPDGQADLVSELAGPLPLQIICDMMGIPEEDHEQIFHWTNVILGFGDPDLTTDFDEFLQVSMAIGGYATALADDRRVNHHGDLTTSLVEAEVDGERLSSSEIAMFFILLVVAGNETTRNAISHGMLALSRYPDERAKWWSDFDGLAATAVEEIVRWASPVVYMRRTLSQDVDLRGTKMAAGDKVTLWYCSANRDEEKFADPWTFDVTRNPNPQVGFGGGGAHFCLGANLARREIRVVFDELRRQMPDVVATEEPARLLSQFIHGIKRLPVAWS 6cvd-a1-m1-cA_6cvd-a1-m1-cB High resolution crystal structure of FtsY-NG domain of E. coli bound to fragment 1 P10121 P10121 1.78 X-RAY DIFFRACTION 45 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 302 303 6cqp-a1-m1-cB_6cqp-a1-m1-cA 6cs8-a1-m1-cA_6cs8-a1-m1-cB 6dlx-a1-m1-cA_6dlx-a1-m1-cB GFARLKRSLLKTKENLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITNLTEGASRKQLRDAEALYGLLKEEMGEILAKVDEPLNVEGKAPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARNIDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVEAPHEVMLTIDASTGQNAVSQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFKADDFIEALFARE GFARLKRSLLKTKENLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITNLTEGASRKQLRDAEALYGLLKEEMGEILAKVDEPLNVEGKAPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARNIDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVEAPHEVMLTIDASTGQNAVSQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFKADDFIEALFARED 6cvl-a1-m1-cA_6cvl-a1-m1-cB Crystal structure of the Escherichia coli ATPgS-bound MetNI methionine ABC transporter in complex with its MetQ binding protein P31547 P31547 2.953 X-RAY DIFFRACTION 102 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 215 215 MSEPMMWLLVRGVWETLAMTFVSGFFGFVIGLPVGVLLYVTRPGQIIANAKLYRTVSAIVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPMQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFAGDRIVRAVT MSEPMMWLLVRGVWETLAMTFVSGFFGFVIGLPVGVLLYVTRPGQIIANAKLYRTVSAIVNIFRSIPFIILLVWMIPFTRVIVGTSIGLQAAIVPLTVGAAPFIARMVENALLEIPTGLIEASRAMGATPMQIVRKVLLPEALPGLVNAATITLITLVGYSAMGGAVGAGGLGQIGYQYGYIGYNATVMNTVLVLLVILVYLIQFAGDRIVRAVT 6cvl-a1-m1-cC_6cvl-a1-m1-cD Crystal structure of the Escherichia coli ATPgS-bound MetNI methionine ABC transporter in complex with its MetQ binding protein P30750 P30750 2.953 X-RAY DIFFRACTION 198 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 343 344 3dhx-a1-m1-cA_3dhx-a1-m1-cB HMIKLSNITKVFHQGTRTIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVLVDGQELTTLSESELTKARRQIGMIFQHFNLLSSRTVFGNVALPLELDNTPKDEVKRRVTELLSLVGLGDKHDSYPSNLSGGQKQRVAIARALASNPKVLLCQATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGELIEQDTVSEVFSHPKTPLAQKFIQSTLHLDIPEDYQERLQAEPFTDCVPMLRLEFTGQSVDAPLLSETARRFNVNNAIISAQMDYAGGVKFGIMLTEMHGTQQDTQAAIAWLQEHHVKVEVLGYV HMIKLSNITKVFHQGTRTIQALNNVSLHVPAGQIYGVIGASGAGKSTLIRCVNLLERPTEGSVLVDGQELTTLSESELTKARRQIGMIFQHFNLLSSRTVFGNVALPLELDNTPKDEVKRRVTELLSLVGLGDKHDSYPSNLSGGQKQRVAIARALASNPKVLLCDQATSALDPATTRSILELLKDINRRLGLTILLITHEMDVVKRICDCVAVISNGELIEQDTVSEVFSHPKTPLAQKFIQSTLHLDIPEDYQERLQAEPFTDCVPMLRLEFTGQSVDAPLLSETARRFNVNNAIISAQMDYAGGVKFGIMLTEMHGTQQDTQAAIAWLQEHHVKVEVLGYV 6cvo-a1-m1-cA_6cvo-a1-m1-cB Human Aprataxin (Aptx) bound to nicked RNA-DNA, AMP and Zn product complex Q7Z2E3 Q7Z2E3 2.4 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 178 GHWSQGLKISMQDPKMQVYKDEQVVVIKDKYPKARYHWLVLPWTSISSLKAVAREHLELLKHMHTVGEKVIVDFAGSSKLRFRLGYHAIPSMSHVHLHVISQDFDSPCLKNKKHWNSFNTEYFLESQAVIEMVQEAGRVTVRDGMPELLKLPLRCHECQQLLPSIPQLKEHLRKH HMGHWSQGLKISMQDPKMQVYKDEQVVVIKDKYPKARYHWLVLPWTSISSLKAVAREHLELLKHMHTVGEKVIVDFAGSSKLRFRLGYHAIPSMSHVHLHVISQDFDSPCLKNKKHWNSFNTEYFLESQAVIEMVQEAGRVTVRDGMPELLKLPLRCHECQQLLPSIPQLKEHLRKHW 6cw0-a1-m2-cB_6cw0-a1-m1-cA Crystal structure of Cryptosporidium parvum bromodomain cgd2_2690 A3FQ86 A3FQ86 1.38 X-RAY DIFFRACTION 43 1.0 5807 (Cryptosporidium parvum) 5807 (Cryptosporidium parvum) 103 104 DYSREYSEVLLQLKELQDSEAFLEPVNWKKLGLDDYPDIVKNPMDLKTIGKKIKANFYTKAEQFWADIDLIWHNCQLYNHESSEVYQQSIRMQDAANNLRDML EDYSREYSEVLLQLKELQDSEAFLEPVNWKKLGLDDYPDIVKNPMDLKTIGKKIKANFYTKAEQFWADIDLIWHNCQLYNHESSEVYQQSIRMQDAANNLRDML 6cw5-a1-m1-cA_6cw5-a1-m2-cA Crystal structure of Ribokinase from Cryptococcus neoformans var. grubii serotype A J9VQ51 J9VQ51 1.8 X-RAY DIFFRACTION 74 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 314 314 SSRCLVRGSVNIDEFFHLPHIVRPGETISSTGLTKRAGGKGANQAFAVARAGGQVELDGAIGDDGIWVKEMLESAGVGTDKLKIVKDEVTGRAVIQSAADGENSIVLHAGANYYLPSPTPTTSLATYTHLLVQNEVPLSSTLAYLTAAGQSSPPLTSVFNPSPMLTPAQLREFPWKHLSWLIVNEGELGDLLLAFGSSANPGEAKEDELQAKASAGILELHENDYFSKNVGIICTLGAKGILCYEPGKEVGYLPAAKLQNPVKDTTGAGDCFAGYFVAGLMSGKSLQDALKTCLVACGICVENEGAMESVPTLN SSRCLVRGSVNIDEFFHLPHIVRPGETISSTGLTKRAGGKGANQAFAVARAGGQVELDGAIGDDGIWVKEMLESAGVGTDKLKIVKDEVTGRAVIQSAADGENSIVLHAGANYYLPSPTPTTSLATYTHLLVQNEVPLSSTLAYLTAAGQSSPPLTSVFNPSPMLTPAQLREFPWKHLSWLIVNEGELGDLLLAFGSSANPGEAKEDELQAKASAGILELHENDYFSKNVGIICTLGAKGILCYEPGKEVGYLPAAKLQNPVKDTTGAGDCFAGYFVAGLMSGKSLQDALKTCLVACGICVENEGAMESVPTLN 6cwq-a1-m1-cB_6cwq-a1-m1-cA X-ray crystal structure of Flavobacterium johnsoniae dimanganese(II) ribonucleotide reductase beta subunit (as-isolated) A5FCJ5 A5FCJ5 1.9 X-RAY DIFFRACTION 67 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 302 308 6cwp-a1-m1-cA_6cwp-a1-m1-cB GAMSIFDKRVNYKPFEYPEVLQFTEAINKAYWVHTEVDFTADTQDFHAHLSLAEKTAVKNSLLAIAQIEVAVKSFWGNIYEHFPKPEFNGLGSTFAECEFRHSEAYSRLLEVLGYNDEFEKLLDVPVIRRRVDYLSNVLKDTKSQDNRKYMVSLILFSILIENVSLFSQFAILLSFTRFKGYMKNVSNIIAWTSIDEQIHANGGIYIINKIREEFPDYFDEETLALVRETVKDSIAVESDILDWIFEEGEIESIKKGDLVNFMKFRIDESLKQINIPVIFDVKVEDYKALAWFEEEVFANSL GAMSIFDKRVNYKPFEYPEVLQFTEAINKAYWVHTEVDFTADTQDFHAHLSLAEKTAVKNSLLAIAQIEVAVKSFWGNIYEHFPKPEFNGLGSTFAECEFRHSEAYSRLLEVLGYNDEFEKLLDVPVIRRRVDYLSNVLKDTKSQDNRKYMVSLILFSILIENVSLFSQFAILLSFTRFKGYMKNVSNIIAWTSIDEQIHANGGIYIINKIREEFPDYFDEETLALVRETVKDSIAVESDILDWIFEEGEIESIKKGDLVNFMKFRIDESLKQINIPVIFDVKVEDYKALAWFEEEVFANSLDDFFAK 6cww-a3-m1-cB_6cww-a3-m2-cA Cs H-NOX mutant with unnatural amino acid 4-cyano-L-phenylalanine at site 5 Q8RBX6 Q8RBX6 1.851 X-RAY DIFFRACTION 42 1.0 911092 (Caldanaerobacter subterraneus) 911092 (Caldanaerobacter subterraneus) 184 184 MKGTVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPPRLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFEY MKGTVGTWIKTLRDLYGNDVVDESLKSVGWEPDRVITPLEDIDDDEVRRIFAKVSEKTGKNVNEIWREVGRQNIKTFSEWFPSYFAGRRLVNFLMMMDEVHLQLTKMIKGATPPRLIAKPVAKDAIEMEYVSKRKMYDYFLGLIEGSSKFFKEEISVEEVERGEKDGFSRLKVRIKFKNPVFEY 6cxh-a1-m2-cA_6cxh-a1-m3-cA Crystal structure of particulate methane monooxygenase from Methylomicrobium alcaliphilum 20Z G4SZ64 G4SZ64 2.704 X-RAY DIFFRACTION 33 1.0 1091494 (Methylotuvimicrobium alcaliphilum 20Z) 1091494 (Methylotuvimicrobium alcaliphilum 20Z) 382 382 6cxh-a1-m1-cA_6cxh-a1-m2-cA 6cxh-a1-m1-cA_6cxh-a1-m3-cA 7s4l-a1-m1-cA_7s4l-a1-m1-cD 7s4l-a1-m1-cA_7s4l-a1-m1-cE 7s4l-a1-m1-cD_7s4l-a1-m1-cE HGEKSQAAFMRMRTIHWFDLNWSKDQVSVNETMSISGKFHVFAGWPETVDKPEVAFLNIGIPGPVFIRAGSWIGGQLVPRSVSLELGETYEFKVLLKARRPGDWHVHTMMNVQGGGPIIGPGKWVTITGSMGDFKNPITTLTGETIDLETYALDGVYGWHLFWYLLGVAWMVYWCRKPVFIPRRIAVDAGKADSLITPTDKKVGMAFAAGTLAIVAVSMGQANEKYPVTTPLQAGLMRGIKSLELPQPTVSVKVVDASYRVPGRAMQMTLEITNNGDSAVRLAEFNTASVRFLDADVYEDDTNYPDDLLAEEGLSVSDNSPLAPGETRTVDVTASDAAWEVYRLADLIYDPDSRFAGLLFFIDEDGNRQMTMVDAPLIPTFI HGEKSQAAFMRMRTIHWFDLNWSKDQVSVNETMSISGKFHVFAGWPETVDKPEVAFLNIGIPGPVFIRAGSWIGGQLVPRSVSLELGETYEFKVLLKARRPGDWHVHTMMNVQGGGPIIGPGKWVTITGSMGDFKNPITTLTGETIDLETYALDGVYGWHLFWYLLGVAWMVYWCRKPVFIPRRIAVDAGKADSLITPTDKKVGMAFAAGTLAIVAVSMGQANEKYPVTTPLQAGLMRGIKSLELPQPTVSVKVVDASYRVPGRAMQMTLEITNNGDSAVRLAEFNTASVRFLDADVYEDDTNYPDDLLAEEGLSVSDNSPLAPGETRTVDVTASDAAWEVYRLADLIYDPDSRFAGLLFFIDEDGNRQMTMVDAPLIPTFI 6cxo-a3-m3-cA_6cxo-a3-m4-cA Complement component-9 P06683 P06683 2.2 X-RAY DIFFRACTION 34 1.0 10090 (Mus musculus) 10090 (Mus musculus) 465 465 6cxo-a3-m1-cB_6cxo-a3-m2-cB PIPIDCRMSPWSEWSECDPCLKQRFRSRSILAFGQFNGKSCVDVLGDRQGCEPTQECEEIQENCGNDFQCETGRCIKRRLLCNGDNDCGDYSDENDCDDDPRTPCRDRVAEESELGLTAGYGINILGMEPLRTPFDNEFYNGLCDRVRDEKTYYRKPWNVVSLIYETKADKSFRTENYDEHLEVFKAINREKTSNFNADFALKFSATEVPEFKFSYFMGKNFRRLSSYFSQSKKMFVHLRGVVQLGRFVMRNRDVVLRSTFLDDVKALPTSYEKGEYFGFLETYGTHYSTSGSLGGQYEIVYVLDKASMKEKGVDLNDVKHCLGFNMDLGCIKTVDITRDNIIDDVISFIRGGTREQAILLKEKILRGDKTFDKTDFANWASSLANAPALISQRMSPIYNLIPLKIKDAYIKKQNLEKAVEDYIDEFSTKRCYPCLNGGTIILLDGQCLCSCPMMFRGMACEIHQ PIPIDCRMSPWSEWSECDPCLKQRFRSRSILAFGQFNGKSCVDVLGDRQGCEPTQECEEIQENCGNDFQCETGRCIKRRLLCNGDNDCGDYSDENDCDDDPRTPCRDRVAEESELGLTAGYGINILGMEPLRTPFDNEFYNGLCDRVRDEKTYYRKPWNVVSLIYETKADKSFRTENYDEHLEVFKAINREKTSNFNADFALKFSATEVPEFKFSYFMGKNFRRLSSYFSQSKKMFVHLRGVVQLGRFVMRNRDVVLRSTFLDDVKALPTSYEKGEYFGFLETYGTHYSTSGSLGGQYEIVYVLDKASMKEKGVDLNDVKHCLGFNMDLGCIKTVDITRDNIIDDVISFIRGGTREQAILLKEKILRGDKTFDKTDFANWASSLANAPALISQRMSPIYNLIPLKIKDAYIKKQNLEKAVEDYIDEFSTKRCYPCLNGGTIILLDGQCLCSCPMMFRGMACEIHQ 6cxs-a2-m1-cB_6cxs-a2-m2-cB Crystal Structure of Clostridium perfringens beta-glucuronidase bound with a novel, potent inhibitor 4-(8-(piperazin-1-yl)-1,2,3,4-tetrahydro-[1,2,3]triazino[4',5':4,5]thieno[2,3-c]isoquinolin-5-yl)morpholine Q8XP19 Q8XP19 2.8 X-RAY DIFFRACTION 79 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 599 599 6cxs-a2-m1-cA_6cxs-a2-m2-cA SNAMLYPIITESRQLIDLSGIWKFKLNEGNGLTEELSKAPLEDTIEMAVPSSYNDLVESQEVRDHVGWVWYERNFTIPKTLLNERIVLRFGSATHEAKVYLNGELLVEHKGGFTPFEAEINDLLVSGDNRLTVAVNNIIDETTLPVGLVKEVEVDGKKVIKNSVNFDFFNYAGIHRPVKIYTTPKSYIEDITIVTDFKENNGYVNYEVQAVGKCNIKVTIIDEENNIVAEGEGKEGKLTINNVHLWEPMNAYLYKLKVELLDDEEIIDTYFEEFGVRTVEVKDGKFLINNKPFYFKGFGKHEDSYVNGRGINEAINIKDFNLMKWIGANSFRTSHYPYSEEIMRLADREGIVVIDETPAVGLHLNFMATGFAPKRDTWKEIGTKEAHERILRELVSRDKNHPCVVMWSVANEPDSDSEGAKEYFEPLIKLTKELDPQKRPVTVVTYLMSTPDRCKVGDIVDVLCLNRYYGWYVAGGDLEEAKRMLEDELKGWEERCPKTPIMFTEYGADTVAGLHDTVPVMFTEEYQVEYYKANHEVMDKCKNFVGEQVWNFADFATSQGIIRVQGNKKGIFTRERKPKMIAHSLRERWTNIPEFGYKK SNAMLYPIITESRQLIDLSGIWKFKLNEGNGLTEELSKAPLEDTIEMAVPSSYNDLVESQEVRDHVGWVWYERNFTIPKTLLNERIVLRFGSATHEAKVYLNGELLVEHKGGFTPFEAEINDLLVSGDNRLTVAVNNIIDETTLPVGLVKEVEVDGKKVIKNSVNFDFFNYAGIHRPVKIYTTPKSYIEDITIVTDFKENNGYVNYEVQAVGKCNIKVTIIDEENNIVAEGEGKEGKLTINNVHLWEPMNAYLYKLKVELLDDEEIIDTYFEEFGVRTVEVKDGKFLINNKPFYFKGFGKHEDSYVNGRGINEAINIKDFNLMKWIGANSFRTSHYPYSEEIMRLADREGIVVIDETPAVGLHLNFMATGFAPKRDTWKEIGTKEAHERILRELVSRDKNHPCVVMWSVANEPDSDSEGAKEYFEPLIKLTKELDPQKRPVTVVTYLMSTPDRCKVGDIVDVLCLNRYYGWYVAGGDLEEAKRMLEDELKGWEERCPKTPIMFTEYGADTVAGLHDTVPVMFTEEYQVEYYKANHEVMDKCKNFVGEQVWNFADFATSQGIIRVQGNKKGIFTRERKPKMIAHSLRERWTNIPEFGYKK 6cxs-a2-m2-cA_6cxs-a2-m2-cB Crystal Structure of Clostridium perfringens beta-glucuronidase bound with a novel, potent inhibitor 4-(8-(piperazin-1-yl)-1,2,3,4-tetrahydro-[1,2,3]triazino[4',5':4,5]thieno[2,3-c]isoquinolin-5-yl)morpholine Q8XP19 Q8XP19 2.8 X-RAY DIFFRACTION 141 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 598 599 6cxs-a1-m1-cA_6cxs-a1-m1-cB 6cxs-a2-m1-cA_6cxs-a2-m1-cB SNAMLYPIITESRQLIDLSGIWKFKLNEGNGLTEELSKAPLEDTIEMAVPSSYNDLVESQEVRDHVGWVWYERNFTIPKTLLNERIVLRFGSATHEAKVYLNGELLVEHKGGFTPFEAEINDLLVSGDNRLTVAVNNIIDETTLPVGLVKEVEVDGKKVIKNSVNFDFFNYAGIHRPVKIYTTPKSYIEDITIVTDFKENNGYVNYEVQAVGKCNIKVTIIDEENNIVAEGEGKEGKLTINNVHLWEPMNAYLYKLKVELLDDEEIIDTYFEEFGVRTVEVKDGKFLINNKPFYFKGFGKHEDSYVNGRGINEAINIKDFNLMKWIGANSFRTSHYPYSEEIMRLADREGIVVIDETPAVGLHLNFMATGFPKRDTWKEIGTKEAHERILRELVSRDKNHPCVVMWSVANEPDSDSEGAKEYFEPLIKLTKELDPQKRPVTVVTYLMSTPDRCKVGDIVDVLCLNRYYGWYVAGGDLEEAKRMLEDELKGWEERCPKTPIMFTEYGADTVAGLHDTVPVMFTEEYQVEYYKANHEVMDKCKNFVGEQVWNFADFATSQGIIRVQGNKKGIFTRERKPKMIAHSLRERWTNIPEFGYKK SNAMLYPIITESRQLIDLSGIWKFKLNEGNGLTEELSKAPLEDTIEMAVPSSYNDLVESQEVRDHVGWVWYERNFTIPKTLLNERIVLRFGSATHEAKVYLNGELLVEHKGGFTPFEAEINDLLVSGDNRLTVAVNNIIDETTLPVGLVKEVEVDGKKVIKNSVNFDFFNYAGIHRPVKIYTTPKSYIEDITIVTDFKENNGYVNYEVQAVGKCNIKVTIIDEENNIVAEGEGKEGKLTINNVHLWEPMNAYLYKLKVELLDDEEIIDTYFEEFGVRTVEVKDGKFLINNKPFYFKGFGKHEDSYVNGRGINEAINIKDFNLMKWIGANSFRTSHYPYSEEIMRLADREGIVVIDETPAVGLHLNFMATGFAPKRDTWKEIGTKEAHERILRELVSRDKNHPCVVMWSVANEPDSDSEGAKEYFEPLIKLTKELDPQKRPVTVVTYLMSTPDRCKVGDIVDVLCLNRYYGWYVAGGDLEEAKRMLEDELKGWEERCPKTPIMFTEYGADTVAGLHDTVPVMFTEEYQVEYYKANHEVMDKCKNFVGEQVWNFADFATSQGIIRVQGNKKGIFTRERKPKMIAHSLRERWTNIPEFGYKK 6cxt-a1-m2-cB_6cxt-a1-m4-cB Crystal structure of FAD-dependent dehydrogenase F2K077 F2K077 1.9 X-RAY DIFFRACTION 125 1.0 717774 (Marinomonas mediterranea MMB-1) 717774 (Marinomonas mediterranea MMB-1) 372 372 6cxt-a1-m1-cB_6cxt-a1-m3-cB 6cy8-a1-m1-cB_6cy8-a1-m3-cB 6cy8-a1-m2-cB_6cy8-a1-m4-cB MNFEWTHEQAELFEHALRFGKELGFPRDNWNALGDFGYFGLPIPEKYAKDGSGFDILTTIKIIEGLGQSCTDTGLLFAGAAHTFACSMPILEHGSETLKHQLLPDLATGRKIAANAISEASAGSDISNLATTAQKEGDYYVLNGGKSYVTNGSIADYYVVYATTNKKHGYLGQTAFVVPRNTPGISVGNDYHKLGLRSAPLNQVFFDNCTIHKDYALGREGQGARIFAASMDWERCCLFAIFVGAMQRDLNQCIEYANTRMQGDKTISRFQAVSHRIADMGVRLESARLMLYYAAWQKSQDVDNTKAVAMSKLAISEAFVQSGIDSIRVHGALGYLDEGRVNNSIKDALGSVLFSGTSDIQRELICNRLGLL MNFEWTHEQAELFEHALRFGKELGFPRDNWNALGDFGYFGLPIPEKYAKDGSGFDILTTIKIIEGLGQSCTDTGLLFAGAAHTFACSMPILEHGSETLKHQLLPDLATGRKIAANAISEASAGSDISNLATTAQKEGDYYVLNGGKSYVTNGSIADYYVVYATTNKKHGYLGQTAFVVPRNTPGISVGNDYHKLGLRSAPLNQVFFDNCTIHKDYALGREGQGARIFAASMDWERCCLFAIFVGAMQRDLNQCIEYANTRMQGDKTISRFQAVSHRIADMGVRLESARLMLYYAAWQKSQDVDNTKAVAMSKLAISEAFVQSGIDSIRVHGALGYLDEGRVNNSIKDALGSVLFSGTSDIQRELICNRLGLL 6cxt-a1-m3-cB_6cxt-a1-m4-cB Crystal structure of FAD-dependent dehydrogenase F2K077 F2K077 1.9 X-RAY DIFFRACTION 109 1.0 717774 (Marinomonas mediterranea MMB-1) 717774 (Marinomonas mediterranea MMB-1) 372 372 6cxt-a1-m1-cB_6cxt-a1-m2-cB 6cy8-a1-m1-cB_6cy8-a1-m2-cB 6cy8-a1-m3-cB_6cy8-a1-m4-cB MNFEWTHEQAELFEHALRFGKELGFPRDNWNALGDFGYFGLPIPEKYAKDGSGFDILTTIKIIEGLGQSCTDTGLLFAGAAHTFACSMPILEHGSETLKHQLLPDLATGRKIAANAISEASAGSDISNLATTAQKEGDYYVLNGGKSYVTNGSIADYYVVYATTNKKHGYLGQTAFVVPRNTPGISVGNDYHKLGLRSAPLNQVFFDNCTIHKDYALGREGQGARIFAASMDWERCCLFAIFVGAMQRDLNQCIEYANTRMQGDKTISRFQAVSHRIADMGVRLESARLMLYYAAWQKSQDVDNTKAVAMSKLAISEAFVQSGIDSIRVHGALGYLDEGRVNNSIKDALGSVLFSGTSDIQRELICNRLGLL MNFEWTHEQAELFEHALRFGKELGFPRDNWNALGDFGYFGLPIPEKYAKDGSGFDILTTIKIIEGLGQSCTDTGLLFAGAAHTFACSMPILEHGSETLKHQLLPDLATGRKIAANAISEASAGSDISNLATTAQKEGDYYVLNGGKSYVTNGSIADYYVVYATTNKKHGYLGQTAFVVPRNTPGISVGNDYHKLGLRSAPLNQVFFDNCTIHKDYALGREGQGARIFAASMDWERCCLFAIFVGAMQRDLNQCIEYANTRMQGDKTISRFQAVSHRIADMGVRLESARLMLYYAAWQKSQDVDNTKAVAMSKLAISEAFVQSGIDSIRVHGALGYLDEGRVNNSIKDALGSVLFSGTSDIQRELICNRLGLL 6cy5-a1-m1-cA_6cy5-a1-m1-cB Crystal structure of Signal recognition particle receptor FtsY from Elizabethkingia anophelis in complex with GDP A0A077EFA5 A0A077EFA5 1.7 X-RAY DIFFRACTION 18 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 316 318 6cy1-a1-m1-cB_6cy1-a1-m1-cA MVSWFKKIFKKEEKESLDKGLEKSSQSFFDKVSRAVVGKSKVDDEVLDDLEEVLIASDVGVETTVKIIRRIEERVARDKYVNVAELNNILREEISGLLLENPHAGTQNKTKKPYVIMVVGVNGVGKTTTIGKLAHQFKSEGLKVVLGAADTFRAAAVDQLVIWSERVGVPIVKQAMGSDPASVAFDTVQSAVSQDADVVIIDTAGRLHNKVNLMNELSKIKRVMQKVVPDAPHEVLLVLDGSTGQNAFEQAKQFTAATEVTALAVTKLDGTARGGVVIGISDQFQVPVKYIGVGEKMQDLQLFNGTEFVDSFFKKR MVSWFKKIFKKEEKESLDKGLEKSSQSFFDKVSRAVVGKSKVDDEVLDDLEEVLIASDVGVETTVKIIRRIEERVARDKYVNVAELNNILREEISGLLLENPHAGTQNIDKTKKPYVIMVVGVNGVGKTTTIGKLAHQFKSEGLKVVLGAADTFRAAAVDQLVIWSERVGVPIVKQAMGSDPASVAFDTVQSAVSQDADVVIIDTAGRLHNKVNLMNELSKIKRVMQKVVPDAPHEVLLVLDGSTGQNAFEQAKQFTAATEVTALAVTKLDGTARGGVVIGISDQFQVPVKYIGVGEKMQDLQLFNGTEFVDSFFKKR 6cy6-a1-m11-cA_6cy6-a1-m9-cA Crystal structure of spermidine/spermine N-acetyltransferase SpeG from Escherichia coli in complex with tris(hydroxymethyl)aminomethane. P0A951 P0A951 1.75 X-RAY DIFFRACTION 40 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 169 169 3wr7-a1-m1-cA_3wr7-a1-m2-cC 3wr7-a1-m1-cA_3wr7-a1-m3-cC 3wr7-a1-m1-cB_3wr7-a1-m2-cD 3wr7-a1-m1-cB_3wr7-a1-m3-cD 3wr7-a1-m1-cC_3wr7-a1-m2-cA 3wr7-a1-m1-cC_3wr7-a1-m3-cA 3wr7-a1-m1-cD_3wr7-a1-m2-cB 3wr7-a1-m1-cD_3wr7-a1-m3-cB 3wr7-a1-m2-cA_3wr7-a1-m3-cC 3wr7-a1-m2-cB_3wr7-a1-m3-cD 3wr7-a1-m2-cC_3wr7-a1-m3-cA 3wr7-a1-m2-cD_3wr7-a1-m3-cB 4r9m-a1-m1-cB_4r9m-a1-m1-cC 4r9m-a1-m1-cB_4r9m-a1-m2-cA 4r9m-a1-m1-cC_4r9m-a1-m1-cA 4r9m-a1-m2-cB_4r9m-a1-m1-cA 4r9m-a1-m2-cB_4r9m-a1-m2-cC 4r9m-a1-m2-cC_4r9m-a1-m2-cA 4r9m-a1-m3-cB_4r9m-a1-m3-cC 4r9m-a1-m3-cB_4r9m-a1-m4-cA 4r9m-a1-m3-cC_4r9m-a1-m3-cA 4r9m-a1-m4-cB_4r9m-a1-m3-cA 4r9m-a1-m4-cB_4r9m-a1-m4-cC 4r9m-a1-m4-cC_4r9m-a1-m4-cA 6cy6-a1-m10-cA_6cy6-a1-m8-cA 6cy6-a1-m10-cA_6cy6-a1-m9-cA 6cy6-a1-m11-cA_6cy6-a1-m7-cA 6cy6-a1-m12-cA_6cy6-a1-m7-cA 6cy6-a1-m12-cA_6cy6-a1-m8-cA 6cy6-a1-m1-cA_6cy6-a1-m5-cA 6cy6-a1-m1-cA_6cy6-a1-m6-cA 6cy6-a1-m2-cA_6cy6-a1-m4-cA 6cy6-a1-m2-cA_6cy6-a1-m6-cA 6cy6-a1-m3-cA_6cy6-a1-m4-cA 6cy6-a1-m3-cA_6cy6-a1-m5-cA HSVKLRPLEREDLRYVHQLDNNASVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAEH HSVKLRPLEREDLRYVHQLDNNASVMRYWFEEPYEAFVELSDLYDKHIHDQSERRFVVECDGEKAGLVELVEINHVHRRAEFQIIISPEYQGKGLATRAAKLAMDYGFTVLNLYKLYLIVDKENEKAIHIYRKLGFSVEGELMHEFFINGQYRNAIRMCIFQHQYLAEH 6cyb-a1-m1-cA_6cyb-a1-m1-cB PDE2 in complex with compound 7 O00408 O00408 1.62 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 343 347 6cyc-a1-m1-cA_6cyc-a1-m1-cB 6cyd-a1-m1-cA_6cyd-a1-m1-cB SLYKKAGFYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL STSLYKKAGFDEYTKLLHDGIQPVAAIDSNFASFTYTPRSLPEDDTSMAILSMLQDMNFINNYKIDCPTLARFCLMVKKGYRDPPYHNWMHAFSVSHFCYLLYKNLELTNYLEDIEIFALFISCMCHDLDHRGTNNSFQVASKSVLAALYSSEGSVMERHHFAQAIAILNTHGCNIFDHFSRKDYQRMLDLMRDIILATDLAHHLRIFKDLQKMAEVGYDRNNKQHHRLLLCLLMTSCDLSDQTKGWKTTRKIAELIYKEFFSQGDLEKAMGNRPMEMMDREKAYIPELQISFMEHIAMPIYKLLQDLFPKAAELYERVASNREHWTKVSHKFTIRGLPSNNSLDFL 6cyz-a1-m1-cA_6cyz-a1-m1-cB Mycobacterial homoserine kinase ThrB in complex with AMPPNP B1MLU6 B1MLU6 2.04 X-RAY DIFFRACTION 114 1.0 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 295 295 SEVLPAGLATTVLVPASSANLGPGFDSLGIALSLYDEIEVNTTESGLKVAVEGQGAGEVPLDGSHLVVRAIERGLAAGGAAAPGLIVQCHNKIPHSRGLGSSAAAAVAGLGVANGLLAKAGRAVLSDDVLVQLASEFEGHPDNAAASVLGGAVVSWSETTPIYAATRLDVHPDIKIVAAIPETRVLLPQAVTHVDARFNISRVALLTVALTARPDLLMTATEDRLHQPQRASAMPASADVLAYLRSQGVAAVLSGAGPAVLALTTVDLPDSAVKYAEDQGFSLVAMAVSAGVSVR SEVLPAGLATTVLVPASSANLGPGFDSLGIALSLYDEIEVNTTESGLKVAVEGQGAGEVPLDGSHLVVRAIERGLAAGGAAAPGLIVQCHNKIPHSRGLGSSAAAAVAGLGVANGLLAKAGRAVLSDDVLVQLASEFEGHPDNAAASVLGGAVVSWSETTPIYAATRLDVHPDIKIVAAIPETRVLLPQAVTHVDARFNISRVALLTVALTARPDLLMTATEDRLHQPQRASAMPASADVLAYLRSQGVAAVLSGAGPAVLALTTVDLPDSAVKYAEDQGFSLVAMAVSAGVSVR 6czy-a1-m1-cB_6czy-a1-m1-cA Crystal structure of Arabidopsis thaliana phosphoserine aminotransferase isoform 1 (AtPSAT1) in complex with Pyridoxamine-5'-phosphate (PMP) Q96255 Q96255 1.75 X-RAY DIFFRACTION 193 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 361 362 6czx-a1-m1-cB_6czx-a1-m1-cA 6czx-a2-m1-cC_6czx-a2-m1-cD 6czy-a2-m1-cC_6czy-a2-m1-cD 6czz-a1-m1-cA_6czz-a1-m1-cB 6czz-a2-m1-cC_6czz-a2-m1-cD NARVFNFAAGPATLPENVLLKAQADLYNWRGSGMSVMEMSHRGKEFLSIIQKAESDLRQLLEIPQEYSVLFLQGGATTQFAALPLNLCKSDDTVDFVVTGSWGDKAVKEAKKYCKTNVIWSGKSEKYTKVPSFEELEQTPDAKYLHICANETIHGVEFKDYPVPKNGFLVADMSSNFCSKPVDVSKFGVIYGGAQKNVGPSGVTIVIIRKDLIGNAQDITPVMLDYKIHDENSSLYNTPPCFGIYMCGLVFEDLLEQGGLKEVEKKNQRKADLLYNAIEESNGFFRCPVEKSVRSLMNVPFTLEKSELEAEFIKEAAKEKMVQLKGHRSVGGMRASIYNAMPLAGVEKLVAFMKDFQAKHA SNARVFNFAAGPATLPENVLLKAQADLYNWRGSGMSVMEMSHRGKEFLSIIQKAESDLRQLLEIPQEYSVLFLQGGATTQFAALPLNLCKSDDTVDFVVTGSWGDKAVKEAKKYCKTNVIWSGKSEKYTKVPSFEELEQTPDAKYLHICANETIHGVEFKDYPVPKNGFLVADMSSNFCSKPVDVSKFGVIYGGAQKNVGPSGVTIVIIRKDLIGNAQDITPVMLDYKIHDENSSLYNTPPCFGIYMCGLVFEDLLEQGGLKEVEKKNQRKADLLYNAIEESNGFFRCPVEKSVRSLMNVPFTLEKSELEAEFIKEAAKEKMVQLKGHRSVGGMRASIYNAMPLAGVEKLVAFMKDFQAKHA 6d00-a1-m1-c1_6d00-a1-m1-c6 Calcarisporiella thermophila Hsp104 A0A452CSQ7 A0A452CSQ7 4.0 ELECTRON MICROSCOPY 54 1.0 911321 (Calcarisporiella thermophila) 911321 (Calcarisporiella thermophila) 804 804 SSMQFTDKATETLNAAAKYAAENSHVQLHPSHVAVVMLDEENSLFRSILEKAGGDVVSIERGFKKIMVRQPHSPELAKLLHYAHEHMKKQRDLYIAQDHLILALADLPSMAQVLKEGGVTKKSLENAVTHVRGAYEALSKYCIDLTELAASGKLDPVIGRDEIISRVIRVLSRRTKNNPCLVGEPGVGKTAIAEGLANRIVKGDIPSSLQKKVYSLDIGSLLAGAGEFEERLKAVLKELKEAQAIVFIDEIHTVLGAAIDAANLLKPMLARGELRCIGATTLTEYRQYVEKDPAFERRFQLVMVEEPSVTDTISILRGLKERYETHHGVRIADAAIVAAAQLAARYITQRFMPDKAIDLIDEACANTRVQLDSQPEAIDKLERRHLQLEVEATALEKEKDAASKQRLQEVRAEMARIQEELRPLKMKYESEKGRLDEIRNLSQRLDELKAKAEDAERRYDLARAADIRYYAIPDLEKRLAQLQAEKSQADAERADGLLAEVVGPDQIMEVVSRWTGIPVSNLQRSEKEKLLHMEEYMKQHVVGQDEAIKAICDAIRLSRTGLQNRNRPLASFLFLGPTGCGKTLCVKELAAFLFNDPGAIVRIDMSEYMEKHAVSRLGQLTEAVRRRPYTVVLFDEMEKAHKDVSNLLLQILDDGHCTDSKGRRVDFKNTIIVMTSNLTKNAVLATARRHFANEFINRIDELIVFNRLTPSNIRKIVDVRLKEVQERLDEKQITLDVDDKAKDLLAQQGFDPVYGARPLNRLIQHALLTQLSRLLLDGGVRPGEIAKVTVDQEGEIIVIRNHGI SSMQFTDKATETLNAAAKYAAENSHVQLHPSHVAVVMLDEENSLFRSILEKAGGDVVSIERGFKKIMVRQPHSPELAKLLHYAHEHMKKQRDLYIAQDHLILALADLPSMAQVLKEGGVTKKSLENAVTHVRGAYEALSKYCIDLTELAASGKLDPVIGRDEIISRVIRVLSRRTKNNPCLVGEPGVGKTAIAEGLANRIVKGDIPSSLQKKVYSLDIGSLLAGAGEFEERLKAVLKELKEAQAIVFIDEIHTVLGAAIDAANLLKPMLARGELRCIGATTLTEYRQYVEKDPAFERRFQLVMVEEPSVTDTISILRGLKERYETHHGVRIADAAIVAAAQLAARYITQRFMPDKAIDLIDEACANTRVQLDSQPEAIDKLERRHLQLEVEATALEKEKDAASKQRLQEVRAEMARIQEELRPLKMKYESEKGRLDEIRNLSQRLDELKAKAEDAERRYDLARAADIRYYAIPDLEKRLAQLQAEKSQADAERADGLLAEVVGPDQIMEVVSRWTGIPVSNLQRSEKEKLLHMEEYMKQHVVGQDEAIKAICDAIRLSRTGLQNRNRPLASFLFLGPTGCGKTLCVKELAAFLFNDPGAIVRIDMSEYMEKHAVSRLGQLTEAVRRRPYTVVLFDEMEKAHKDVSNLLLQILDDGHCTDSKGRRVDFKNTIIVMTSNLTKNAVLATARRHFANEFINRIDELIVFNRLTPSNIRKIVDVRLKEVQERLDEKQITLDVDDKAKDLLAQQGFDPVYGARPLNRLIQHALLTQLSRLLLDGGVRPGEIAKVTVDQEGEIIVIRNHGI 6d00-a1-m1-c3_6d00-a1-m1-c4 Calcarisporiella thermophila Hsp104 A0A452CSQ7 A0A452CSQ7 4.0 ELECTRON MICROSCOPY 156 1.0 911321 (Calcarisporiella thermophila) 911321 (Calcarisporiella thermophila) 804 804 6d00-a1-m1-c1_6d00-a1-m1-c2 6d00-a1-m1-c2_6d00-a1-m1-c3 6d00-a1-m1-c4_6d00-a1-m1-c5 6d00-a1-m1-c5_6d00-a1-m1-c6 SSMQFTDKATETLNAAAKYAAENSHVQLHPSHVAVVMLDEENSLFRSILEKAGGDVVSIERGFKKIMVRQPHSPELAKLLHYAHEHMKKQRDLYIAQDHLILALADLPSMAQVLKEGGVTKKSLENAVTHVRGAYEALSKYCIDLTELAASGKLDPVIGRDEIISRVIRVLSRRTKNNPCLVGEPGVGKTAIAEGLANRIVKGDIPSSLQKKVYSLDIGSLLAGAGEFEERLKAVLKELKEAQAIVFIDEIHTVLGAAIDAANLLKPMLARGELRCIGATTLTEYRQYVEKDPAFERRFQLVMVEEPSVTDTISILRGLKERYETHHGVRIADAAIVAAAQLAARYITQRFMPDKAIDLIDEACANTRVQLDSQPEAIDKLERRHLQLEVEATALEKEKDAASKQRLQEVRAEMARIQEELRPLKMKYESEKGRLDEIRNLSQRLDELKAKAEDAERRYDLARAADIRYYAIPDLEKRLAQLQAEKSQADAERADGLLAEVVGPDQIMEVVSRWTGIPVSNLQRSEKEKLLHMEEYMKQHVVGQDEAIKAICDAIRLSRTGLQNRNRPLASFLFLGPTGCGKTLCVKELAAFLFNDPGAIVRIDMSEYMEKHAVSRLGQLTEAVRRRPYTVVLFDEMEKAHKDVSNLLLQILDDGHCTDSKGRRVDFKNTIIVMTSNLTKNAVLATARRHFANEFINRIDELIVFNRLTPSNIRKIVDVRLKEVQERLDEKQITLDVDDKAKDLLAQQGFDPVYGARPLNRLIQHALLTQLSRLLLDGGVRPGEIAKVTVDQEGEIIVIRNHGI SSMQFTDKATETLNAAAKYAAENSHVQLHPSHVAVVMLDEENSLFRSILEKAGGDVVSIERGFKKIMVRQPHSPELAKLLHYAHEHMKKQRDLYIAQDHLILALADLPSMAQVLKEGGVTKKSLENAVTHVRGAYEALSKYCIDLTELAASGKLDPVIGRDEIISRVIRVLSRRTKNNPCLVGEPGVGKTAIAEGLANRIVKGDIPSSLQKKVYSLDIGSLLAGAGEFEERLKAVLKELKEAQAIVFIDEIHTVLGAAIDAANLLKPMLARGELRCIGATTLTEYRQYVEKDPAFERRFQLVMVEEPSVTDTISILRGLKERYETHHGVRIADAAIVAAAQLAARYITQRFMPDKAIDLIDEACANTRVQLDSQPEAIDKLERRHLQLEVEATALEKEKDAASKQRLQEVRAEMARIQEELRPLKMKYESEKGRLDEIRNLSQRLDELKAKAEDAERRYDLARAADIRYYAIPDLEKRLAQLQAEKSQADAERADGLLAEVVGPDQIMEVVSRWTGIPVSNLQRSEKEKLLHMEEYMKQHVVGQDEAIKAICDAIRLSRTGLQNRNRPLASFLFLGPTGCGKTLCVKELAAFLFNDPGAIVRIDMSEYMEKHAVSRLGQLTEAVRRRPYTVVLFDEMEKAHKDVSNLLLQILDDGHCTDSKGRRVDFKNTIIVMTSNLTKNAVLATARRHFANEFINRIDELIVFNRLTPSNIRKIVDVRLKEVQERLDEKQITLDVDDKAKDLLAQQGFDPVYGARPLNRLIQHALLTQLSRLLLDGGVRPGEIAKVTVDQEGEIIVIRNHGI 6d0j-a1-m1-cA_6d0j-a1-m1-cB Crystal structure of a CLC-type fluoride/proton antiporter C9CPP6 C9CPP6 3 X-RAY DIFFRACTION 76 1.0 565654 (Enterococcus casseliflavus EC10) 565654 (Enterococcus casseliflavus EC10) 395 396 6d0k-a1-m1-cA_6d0k-a1-m1-cB 6d0n-a1-m1-cA_6d0n-a1-m1-cB ETTYFELTALGLLSLVIGVLAGAVDTFFGKILLFLSAFRESHFLPLILFLPIIGICFTYLFQKYGDRSPQGMNLVFLVGQEEEKDIPLRLIPFVMVGTWLTHLFGGSAGREGVAVQLGATIANRLGNWVRLEKYASTLIMIGMAAGFAGLFETPIAATFFALEVLVIGKFSHHALLPALLAAFTASTTSQWLGLEKFSLMLPQSVDLTIPVFLKLLVIGLIFGMVGGSFAGCLETMKRIMKRRFPNPLWRIGIGALALVLLFVLLYQGRYSGLGTNLISASFTNQPIYSYDWLLKLVLTVLTISSGFLGGEVTPLFAIGSSLGVVLAPLFGLPIELVAALGYASVFGSATSTLFAPIFIGGEVFGFQNLPFFVIVCSVAYFISKPYSIYPLQKTS ETTYFELTALGLLSLVIGVLAGAVDTFFGKILLFLSAFRESHFLPLILFLPIIGICFTYLFQKYGDRSPQGMNLVFLVGQEEEKDIPLRLIPFVMVGTWLTHLFGGSAGREGVAVQLGATIANRLGNWVRLEKYASTLIMIGMAAGFAGLFETPIAATFFALEVLVIGKFSHHALLPALLAAFTASTTSQWLGLEKFSLMLPQSVDLTIPVFLKLLVIGLIFGMVGGSFAGCLETMKRIMKRRFPNPLWRIGIGALALVLLFVLLYQGRYSGLGTNLISASFTNQPIYSYDWLLKLVLTVLTISSGFLGGEVTPLFAIGSSLGVVLAPLFGLPIELVAALGYASVFGSATSTLFAPIFIGGEVFGFQNLPFFVIVCSVAYFISKPYSIYPLQKTSA 6d0o-a1-m1-cA_6d0o-a1-m1-cD rdpA dioxygenase holoenzyme Q8KSC8 Q8KSC8 2.3 X-RAY DIFFRACTION 50 0.993 1219045 (Sphingobium herbicidovorans NBRC 16415) 1219045 (Sphingobium herbicidovorans NBRC 16415) 274 289 6d0o-a1-m1-cB_6d0o-a1-m1-cC QRFERIAVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPLLKSIEGYPEVQMIRRIGDDWHTDSTFLDAPPAAVVMRAIDVPEHGGDTGFLSMYTAWETLSPTMQATIEGLNVVHSATRVFGSLYQAQNRMDVDAGDRETVHPLVVTHPGSGRKGLYVNQVYCQRIEGMSEKESEPLLSFLFAHATKPEFTCRVRWKKDQVVVWDNLCTMHYAINDYHGQTRILHRTTVGGVRPARHHHHH RFERIAVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPLLKSIEGYPEVQMIRREGDESGRVIGDDWHTDSTFLDAPPAAVVMRAIDVPEHGGDTGFLSMYTAWETLSPTMQATIEGLNVVHSATRVFGSLYQAQNRRFSNTSVKVMDVDAGDRETVHPLVVTHPGSGRKGLYVNQVYCQRIEGMSEKESEPLLSFLFAHATKPEFTCRVRWKKDQVVVWDNLCTMHYAINDYHGQTRILHRTTVGGVRPARHHHH 6d0o-a1-m1-cB_6d0o-a1-m1-cA rdpA dioxygenase holoenzyme Q8KSC8 Q8KSC8 2.3 X-RAY DIFFRACTION 51 1.0 1219045 (Sphingobium herbicidovorans NBRC 16415) 1219045 (Sphingobium herbicidovorans NBRC 16415) 267 274 RFERIAVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPLLKSIEGYPEVQMIRRGDDWHTDSTFLDAPPAAVVMRAIDVPEHGGDTGFLSMYTAWETLSPTMQATIEGLNVVHSATRVFGSLYQAQNDVDAGDRETVHPLVVTHPGSGRKGLYVNQVYCQRIEGMSEKESEPLLSFLFAHATKPEFTCRVRWKKDQVVVWDNLCTMHYAINDYHGQTRILHRTTVGGVRPARHH QRFERIAVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPLLKSIEGYPEVQMIRRIGDDWHTDSTFLDAPPAAVVMRAIDVPEHGGDTGFLSMYTAWETLSPTMQATIEGLNVVHSATRVFGSLYQAQNRMDVDAGDRETVHPLVVTHPGSGRKGLYVNQVYCQRIEGMSEKESEPLLSFLFAHATKPEFTCRVRWKKDQVVVWDNLCTMHYAINDYHGQTRILHRTTVGGVRPARHHHHH 6d0o-a1-m1-cB_6d0o-a1-m1-cD rdpA dioxygenase holoenzyme Q8KSC8 Q8KSC8 2.3 X-RAY DIFFRACTION 13 1.0 1219045 (Sphingobium herbicidovorans NBRC 16415) 1219045 (Sphingobium herbicidovorans NBRC 16415) 267 289 6d0o-a1-m1-cA_6d0o-a1-m1-cC RFERIAVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPLLKSIEGYPEVQMIRRGDDWHTDSTFLDAPPAAVVMRAIDVPEHGGDTGFLSMYTAWETLSPTMQATIEGLNVVHSATRVFGSLYQAQNDVDAGDRETVHPLVVTHPGSGRKGLYVNQVYCQRIEGMSEKESEPLLSFLFAHATKPEFTCRVRWKKDQVVVWDNLCTMHYAINDYHGQTRILHRTTVGGVRPARHH RFERIAVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPLLKSIEGYPEVQMIRREGDESGRVIGDDWHTDSTFLDAPPAAVVMRAIDVPEHGGDTGFLSMYTAWETLSPTMQATIEGLNVVHSATRVFGSLYQAQNRRFSNTSVKVMDVDAGDRETVHPLVVTHPGSGRKGLYVNQVYCQRIEGMSEKESEPLLSFLFAHATKPEFTCRVRWKKDQVVVWDNLCTMHYAINDYHGQTRILHRTTVGGVRPARHHHH 6d1p-a1-m1-cB_6d1p-a1-m1-cA Apo structure of Bacteroides uniformis beta-glucuronidase 3 A0A078SSU5 A0A078SSU5 2.35 X-RAY DIFFRACTION 138 0.999 1339349 (Bacteroides uniformis str. 3978 T3 ii) 1339349 (Bacteroides uniformis str. 3978 T3 ii) 779 781 LIPTDRKQRLTEHWEFIRQDMGSIWEVMRPITGAGKPETVPLWQKVTLPHCFNAEDAVDPDVNYYQGPGWYRTMLNIENPYTNGRTCLEFEGAGQKTEVYVYTTRIASHVGGYDEWKADITEAVEAFRRTPLCRERFGGKIPIAIRCDNSRDTEMIPSDMSDFNLYGGLYRYVNLVYTPAVHFEQIRIEATTDEKGKQGSISIDIAFGGLKEFSLRVFSPEGKEVNSISSELSSYQISLKRPQLWSPHSPALYTCVAELIDNGDTLRTTQHFGFRHFRFEEKGPFYLNGERLLLRGTHRHEDHAGVGAALTEEMMRTEMQQIKEMGANFIRLGHYQQSGIILRLCDELGLLVWEEIPWCRGGLGGESYKNQARRMLTNMIEQHRNHPSVILWGLGNENDWPGDFQTFEKDSIRAFMGELHDLAHRLDPTRSTAIRRCEFCKDIVDVYSPTIWAGWYGRRFRNYREMETAGINATTRFLHAEWGGDSHAGRHMEVNKEKGIDNFDIEAADRNGDWSESYIIRLFDWHLKEQETMPRLTGSLFWTFKDFSTPLRPDNPIPYVNQKGVVQRDGTPKESYYVFQSYWSSKPMLHIYGHSWPVRWGKPGEPKEILVYSNCPEVELFVNGVSQGRKKRNSQDFPAAGLRWNVPLREGNNKITATGYDGKLRLDDEIQQEYQTRTWGKPSRILLTQTAQDAETILVQAELIDENGIRCLDACQFIEFGCTDSEALLRNQGTAQGSRRIQAANGRASIRVNKQHAPVVVSASDSKRILKTALISVSG LIPTDRKQRLTEHWEFIRQDMGSIWEVMRPITGAGKPETVPLWQKVTLPHCFNAEDAVDPDVNYYQGPGWYRTMLNIENPYTNGRTCLEFEGAGQKTEVYVYTTRIASHVGGYDEWKADITEAVEAFRRTPLCRERFGGKIPIAIRCDNSRDTEMIPSDMSDFNLYGGLYRYVNLVYTPAVHFEQIRIEATTDEKGKQGSISIDIAFGGLKEFSLRVFSPEGKEVNSISSELTEISSYQISLKRPQLWSPHSPALYTCVAELIDNGDTLRTTQHFGFRHFRFEEKGPFYLNGERLLLRGTHRHEDHAGVGAALTEEMMRTEMQQIKEMGANFIRLGHYQQSGIILRLCDELGLLVWEEIPWCRGGLGGESYKNQARRMLTNMIEQHRNHPSVILWGLGNENDWPGDFQTFEKDSIRAFMGELHDLAHRLDPTRSTAIRRCEFCKDIVDVYSPTIWAGWYGRRFRNYREMETAGINATTRFLHAEWGGDSHAGRHMEVNKEKGIDNFDIEAADRNGDWSESYIIRLFDWHLKEQETMPRLTGSLFWTFKDFSTPLRPDNPIPYVNQKGVVQRDGTPKESYYVFQSYWSSKPMLHIYGHSWPVRWGKPGEPKEILVYSNCPEVELFVNGVSQGRKKRNSQDFPAAGLRWNVPLREGNNKITATGYDGKLRLDDEIQQEYQTRTWGKPSRILLTQTAQDAETILVQAELIDENGIRCLDACQFIEFGCTDSEALLRNQGTAQGSRRIQAANGRASIRVNKQHAPVVVSASDSKRILKTALISVS 6d25-a2-m1-cD_6d25-a2-m1-cF Crystal structure of the GH51 arabinofuranosidase from Xanthomonas axonopodis pv. citri Q8PMY9 Q8PMY9 1.91 X-RAY DIFFRACTION 58 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 493 493 6d25-a1-m1-cB_6d25-a1-m1-cA 6d25-a1-m1-cB_6d25-a1-m1-cC 6d25-a1-m1-cC_6d25-a1-m1-cA 6d25-a2-m1-cD_6d25-a2-m1-cE 6d25-a2-m1-cF_6d25-a2-m1-cE EVKVNGTLRVDQPGAQVSRQLFGQFAEHLGTGIYGGVWVGEESPIPNTHGYRNDVVAALKAIAVPNIRWPGGCFADEYHWRDGVGTPAKRPIRVNTHWGGVEESNRFGTHEFMDFTELLGTQAYIAGNVGDAAPEEIAQWAEYMTAPTRSSLANERRANGRDAPWQVPYFGVGNELWGCGGNMRVEYAADVFRRYQTFVKSPASQKILKIAPGPSDDDYHWTEVMMREASKFMDGLSMHYYTIPGGWPPRASSTTFDEAAWIQTLSRTLVMDELITKHSAIMDKYDPAKKVALVVDEWGTWYAPLPGTNPGFLQQQNSLRDALVASLNFDIFSQHAERVRMANIAQMVNVLQAMILTDGDKMVLTPTYHVFALYKPYQDATHLPLQLQTPQYRHGDTQVPAVHGSAVKAKDGHVYIALTNLDASASATVSVQVEGLPLRAVEGQILTAPAIATYNTYAQPQAVAPVAFKGARVQGKTVNVALPAHSIVMLKLQ EVKVNGTLRVDQPGAQVSRQLFGQFAEHLGTGIYGGVWVGEESPIPNTHGYRNDVVAALKAIAVPNIRWPGGCFADEYHWRDGVGTPAKRPIRVNTHWGGVEESNRFGTHEFMDFTELLGTQAYIAGNVGDAAPEEIAQWAEYMTAPTRSSLANERRANGRDAPWQVPYFGVGNELWGCGGNMRVEYAADVFRRYQTFVKSPASQKILKIAPGPSDDDYHWTEVMMREASKFMDGLSMHYYTIPGGWPPRASSTTFDEAAWIQTLSRTLVMDELITKHSAIMDKYDPAKKVALVVDEWGTWYAPLPGTNPGFLQQQNSLRDALVASLNFDIFSQHAERVRMANIAQMVNVLQAMILTDGDKMVLTPTYHVFALYKPYQDATHLPLQLQTPQYRHGDTQVPAVHGSAVKAKDGHVYIALTNLDASASATVSVQVEGLPLRAVEGQILTAPAIATYNTYAQPQAVAPVAFKGARVQGKTVNVALPAHSIVMLKLQ 6d2w-a1-m1-cB_6d2w-a1-m1-cA Crystal structure of Prevotella bryantii endo-beta-mannanase/endo-beta-glucanase PbGH26A-GH5A D8DY19 D8DY19 2.1 X-RAY DIFFRACTION 44 1.0 752555 (Prevotella bryantii B14) 752555 (Prevotella bryantii B14) 685 687 GVFLADASANDAAKKLYKYLRLVYGNKILSGMMAHVAWNHDEADKIHVLTGKYPAINCYDFIHIAVPNQGSNGWINYNDITPVTEWADAGGIVSLMWHFNVPQNENTTIGADGSGQGINSSQTTFKASHALVSGTWENKFFMEQMENVANVILKLQDAGIVALWRPFHEAAGNATLKSGANWGKAWFWWGEDGPDVYKQLWHTMFNYFSNKGIHNLIWEWTSQNYNGDSDIYNNDDDWYPGDAYVDIIGRDLYGTTAVQQYSEYSQLKGRYPSKMIALAECGVNNSTITADVEQAWNAGAKWLNFMPWYGESMPSDEWWTKVMNENVVITRDEINQNATYMEESAQSAVDNFGLGFNLGNTLDANGCGTGKPVATYETFWGQPETTQDMMTFLMQNGFNAVRIPVTWYEHMDAEGNVDEAWMMRVKAIVEYAMNAGLYAIVNVHHDTAAGSGAWIKADTDVYAATKEKFKKLWTQIANALADYDQHLLFEGYNEMLDGNNSWDEPQKASGYEALNNYAQDFVDAVRATGGNNATRNLIVNTYAAAKGENVLNNFMLPTDAVNNHLIVQVHSYDPWNFFNTKTTWDSECHNTLTEIFSALSKKFTTIPYIIGEYGTHGESDISVSKSSPAEKIKLAADQAADMVKLAKDHHSATFYWMSIFDGSDRIQPQWSLPTVVEAMQEAYNN VSGVFLADASANDAAKKLYKYLRLVYGNKILSGMMAHVAWNHDEADKIHVLTGKYPAINCYDFIHIAVPNQGSNGWINYNDITPVTEWADAGGIVSLMWHFNVPQNENTTIGADGSGQGINSSQTTFKASHALVSGTWENKFFMEQMENVANVILKLQDAGIVALWRPFHEAAGNATLKSGANWGKAWFWWGEDGPDVYKQLWHTMFNYFSNKGIHNLIWEWTSQNYNGDSDIYNNDDDWYPGDAYVDIIGRDLYGTTAVQQYSEYSQLKGRYPSKMIALAECGVNNSTITADVEQAWNAGAKWLNFMPWYGESMPSDEWWTKVMNENVVITRDEINQNATYMEESAQSAVDNFGLGFNLGNTLDANGCGTGKPVATYETFWGQPETTQDMMTFLMQNGFNAVRIPVTWYEHMDAEGNVDEAWMMRVKAIVEYAMNAGLYAIVNVHHDTAAGSGAWIKADTDVYAATKEKFKKLWTQIANALADYDQHLLFEGYNEMLDGNNSWDEPQKASGYEALNNYAQDFVDAVRATGGNNATRNLIVNTYAAAKGENVLNNFMLPTDAVNNHLIVQVHSYDPWNFFNTKTTWDSECHNTLTEIFSALSKKFTTIPYIIGEYGTHGESDISVSKSSPAEKIKLAADQAADMVKLAKDHHSATFYWMSIFDGSDRIQPQWSLPTVVEAMQEAYNN 6d3h-a2-m3-cI_6d3h-a2-m1-cM FT_T dioxygenase with bound dichlorprop Q8KSC8 Q8KSC8 2.03 X-RAY DIFFRACTION 50 1.0 76947 (Sphingobium herbicidovorans) 76947 (Sphingobium herbicidovorans) 286 287 6d3i-a1-m2-cG_6d3i-a1-m1-cA NKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRREANESSRFIGDDWHTDSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSATKVFGSLYQATNWRFSNTSVKVMDVDAGDRETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATKFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR TNKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRREANESSRFIGDDWHTDSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSATKVFGSLYQATNWRFSNTSVKVMDVDAGDRETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATKFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR 6d3i-a1-m1-cD_6d3i-a1-m1-cA ftv7 dioxygenase with 2,4-D bound Q8KSC8 Q8KSC8 3.196 X-RAY DIFFRACTION 59 1.0 76947 (Sphingobium herbicidovorans) 76947 (Sphingobium herbicidovorans) 285 286 KYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRREANESSRYIGDDWHADSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSATKVFGSLYQATNWRFSNTSVKVMDVDAGDRETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATQFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR NKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRREANESSRYIGDDWHADSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSATKVFGSLYQATNWRFSNTSVKVMDVDAGDRETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATQFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR 6d3j-a1-m1-cA_6d3j-a1-m4-cA FT_T dioxygenase holoenzyme Q8KSC8 Q8KSC8 3 X-RAY DIFFRACTION 50 1.0 76947 (Sphingobium herbicidovorans) 76947 (Sphingobium herbicidovorans) 247 247 6d3j-a1-m2-cA_6d3j-a1-m3-cA NKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRIGDDWHTDSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSAETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATKFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR NKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRIGDDWHTDSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSAETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATKFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR 6d3j-a1-m2-cA_6d3j-a1-m4-cA FT_T dioxygenase holoenzyme Q8KSC8 Q8KSC8 3 X-RAY DIFFRACTION 57 1.0 76947 (Sphingobium herbicidovorans) 76947 (Sphingobium herbicidovorans) 247 247 6d3j-a1-m1-cA_6d3j-a1-m3-cA NKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRIGDDWHTDSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSAETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATKFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR NKYRFIDVQPLTGVLGAEITGVDLREPLDDSTWNEILDAFHTYQVIYFPGQAITNEQHIAFSRRFGPVDPVPILKSIEGYPEVQMIRIGDDWHTDSTFLDAPPAAVVMRAIEVPEYGGDTGFLSMYSAWETLSPTMQATIEGLNVVHSAETVHPLVVTHPVTGRRALYCNQVYCQKIQGMTDAESKSLLQFLYEHATKFDFTCRVRWKKDQVLVWDNLCTMHRAVPDYAGKFRYLTRTTVAGDKPSR 6d3k-a1-m1-cB_6d3k-a1-m1-cA Crystal structure of unphosphorylated human PKR kinase domain in complex with ADP P19525 P19525 2.6 X-RAY DIFFRACTION 68 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 254 258 6d3l-a2-m1-cA_6d3l-a2-m3-cA TKYTVDKRFGMDFKEIELIGSGGFGQVFKAKHRIDGKTYVIKRVKYNNEKAEREVKALAKLDHVNIVHYNGCWDGFDYDRSKTKCLFIQMEFCDKGTLEQWIEKRRGEKLDKVLALELFEQITKGVDYIHSKKLIHRDLKPSNIFLVDTKQVKIGDFGLVTSLTLRYMSPEQISSQDYGKEVDLYALGLILAELLHVCDTAFETSKFFTDLRDGIISDIFDKKEKTLLQKLLSKKPEDRPNTSEILRTLTVWKK KYTVDKRFGMDFKEIELIGSGGFGQVFKAKHRIDGKTYVIKRVKYNNEKAEREVKALAKLDHVNIVHYNGCWDGFDYDPRSKTKCLFIQMEFCDKGTLEQWIEKRRGEKLDKVLALELFEQITKGVDYIHSKKLIHRDLKPSNIFLVDTKQVKIGDFGLVTSLKTLRYMSPEQISSQDYGKEVDLYALGLILAELLHVCDTAFETSKFFTDLRDGIISDIFDKKEKTLLQKLLSKKPEDRPNTSEILRTLTVWKKSPE 6d3k-a2-m1-cB_6d3k-a2-m1-cC Crystal structure of unphosphorylated human PKR kinase domain in complex with ADP P19525 P19525 2.6 X-RAY DIFFRACTION 54 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 254 258 2a19-a1-m1-cC_2a19-a1-m1-cB 2a1a-a1-m1-cB_2a1a-a1-m2-cB 6d3l-a1-m1-cA_6d3l-a1-m2-cA TKYTVDKRFGMDFKEIELIGSGGFGQVFKAKHRIDGKTYVIKRVKYNNEKAEREVKALAKLDHVNIVHYNGCWDGFDYDRSKTKCLFIQMEFCDKGTLEQWIEKRRGEKLDKVLALELFEQITKGVDYIHSKKLIHRDLKPSNIFLVDTKQVKIGDFGLVTSLTLRYMSPEQISSQDYGKEVDLYALGLILAELLHVCDTAFETSKFFTDLRDGIISDIFDKKEKTLLQKLLSKKPEDRPNTSEILRTLTVWKK YTVDKRFGMDFKEIELIGSGGFGQVFKAKHRIDGKTYVIKRVKYNNEKAEREVKALAKLDHVNIVHYNGCWDGFDYDKTKCLFIQMEFCDKGTLEQWIEKRRGEKLDKVLALELFEQITKGVDYIHSKKLIHRDLKPSNIFLVDTKQVKIGDFGLVTSLKNDGKRTGTLRYMSPEQISSQDYGKEVDLYALGLILAELLHVCDTAFETSKFFTDLRDGIISDIFDKKEKTLLQKLLSKKPEDRPNTSEILRTLTVWKK 6d3v-a1-m1-cA_6d3v-a1-m1-cB Chromosomal trehalose-6-phosphate phosphatase from P. aeruginosa A0A1S1GKD7 A0A1S1GKD7 1.8 X-RAY DIFFRACTION 84 1.0 1608908 (Pseudomonas sp. HMSC75E02) 1608908 (Pseudomonas sp. HMSC75E02) 251 251 6cj0-a1-m1-cA_6cj0-a1-m1-cB 6d3w-a1-m1-cA_6d3w-a1-m1-cB GHMGTNRPLVFVDLDDTLFQTSRKMVEGTPRTTATLDVHGQPNGYMNPIQHSFISWLLASADVVPVTARDVEAYSRVKLPFTEGAICSHGGVMLHSDGSLDQDWHGQMAKSLWAFQDRLPALSEATLRIGKDMGYSLRGWVVEEEGLRHYVVTKQNESDDAVLSKVLAEVQARGMLEGMHIHANGNNLAFLPKGLAKRLAVQEWLRRDAKINGDRPVLGFGDSITDLGFMGLCHMWATPARSQLAKAVEEM GHMGTNRPLVFVDLDDTLFQTSRKMVEGTPRTTATLDVHGQPNGYMNPIQHSFISWLLASADVVPVTARDVEAYSRVKLPFTEGAICSHGGVMLHSDGSLDQDWHGQMAKSLWAFQDRLPALSEATLRIGKDMGYSLRGWVVEEEGLRHYVVTKQNESDDAVLSKVLAEVQARGMLEGMHIHANGNNLAFLPKGLAKRLAVQEWLRRDAKINGDRPVLGFGDSITDLGFMGLCHMWATPARSQLAKAVEEM 6d42-a2-m3-cB_6d42-a2-m7-cB Crystal structure of the KCa3.1 C-terminal four-helix bundle (with copper) O15554 O15554 1.75014 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 38 38 6d42-a1-m1-cA_6d42-a1-m4-cA 6d42-a1-m1-cA_6d42-a1-m6-cA 6d42-a1-m2-cA_6d42-a1-m4-cA 6d42-a1-m2-cA_6d42-a1-m6-cA 6d42-a2-m1-cB_6d42-a2-m5-cB 6d42-a2-m1-cB_6d42-a2-m7-cB 6d42-a2-m3-cB_6d42-a2-m5-cB ILYDLQQNLSSSHRALEKQIDTLAGKLDALTELLSTAL ILYDLQQNLSSSHRALEKQIDTLAGKLDALTELLSTAL 6d4n-a1-m1-cA_6d4n-a1-m1-cB Crystal structure of a Fc fragment of Rhesus macaque (Macaca mulatta) IgG4 3.25 X-RAY DIFFRACTION 64 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 208 208 6d4m-a1-m1-cA_6d4m-a1-m1-cB GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAQTKPRERQFNSTYRVVSVLTVTHQDWLNGKEYTCKVSNKGLPAPIEKTISKAKGQPREPQVYILPPPQEELTKNQVSLTCLVTGFYPSDIAVEWESNGQPENTYKTTPPVLDSDGSYLLYSKLTVNKSRWQPGNIFTCSVMHEALHNHYTQKSLSVS GPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAQTKPRERQFNSTYRVVSVLTVTHQDWLNGKEYTCKVSNKGLPAPIEKTISKAKGQPREPQVYILPPPQEELTKNQVSLTCLVTGFYPSDIAVEWESNGQPENTYKTTPPVLDSDGSYLLYSKLTVNKSRWQPGNIFTCSVMHEALHNHYTQKSLSVS 6d52-a1-m1-cB_6d52-a1-m1-cA Superoxide dismutase SodCI of Salmonella enterica serovar Typhimurium at 1.6 Angstrom resolution E8XDJ8 E8XDJ8 1.6 X-RAY DIFFRACTION 48 1.0 909946 (Salmonella enterica subsp. enterica serovar Typhimurium str. ST4/74) 909946 (Salmonella enterica subsp. enterica serovar Typhimurium str. ST4/74) 156 157 1eqw-a1-m1-cC_1eqw-a1-m1-cA 1eqw-a2-m1-cD_1eqw-a2-m1-cB 6d52-a2-m1-cC_6d52-a2-m1-cD 6vbs-a1-m1-cA_6vbs-a1-m1-cE 6vbs-a2-m1-cB_6vbs-a2-m1-cD 6vbs-a3-m1-cF_6vbs-a3-m1-cC 6vbt-a1-m1-cB_6vbt-a1-m1-cA ENTLTVKMNDALSSGTGENIGEITVSETPYGLLFTPHLNGLTPGIHGFHVHTNPSCMPGMKDGKEVPALMAGGHLDPEKTGKHLGPYNDKGHLGDLPGLVVNADGTATYPLLAPRLKSLSELKGHSLMIHKGGDNYSDKPAPLGGGGARFACGVIE ENTLTVKMNDALSSGTGENIGEITVSETPYGLLFTPHLNGLTPGIHGFHVHTNPSCMPGMKDGKEVPALMAGGHLDPEKTGKHLGPYNDKGHLGDLPGLVVNADGTATYPLLAPRLKSLSELKGHSLMIHKGGDNYSDKPAPLGGGGARFACGVIEK 6d63-a1-m1-cA_6d63-a1-m1-cB The structure of AtzH: a little known member of the atrazine breakdown pathway A0A0V8SMU2 A0A0V8SMU2 2.3 X-RAY DIFFRACTION 97 1.0 47660 (Pseudomonas sp. ADP) 47660 (Pseudomonas sp. ADP) 127 128 6bjt-a1-m1-cA_6bjt-a1-m1-cB 6bju-a1-m1-cB_6bju-a1-m1-cA 6bju-a2-m1-cD_6bju-a2-m1-cC 6d63-a2-m1-cD_6d63-a2-m1-cC 6d63-a3-m1-cE_6d63-a3-m1-cF 6d63-a4-m1-cG_6d63-a4-m1-cH 6d63-a5-m1-cI_6d63-a5-m1-cJ 6d63-a6-m1-cK_6d63-a6-m1-cL EMQINLPEVHAEVTAQFVRYEKALTSNDTAVLNELFWNSPQTLRYGATENLYGYEAIAGFRATRSPNNLEKEIVRTVITTYGHDFATANIEFRRLSHSQLTGRQSQTWMRTSQGWRVVAAHVSLIAL LEMQINLPEVHAEVTAQFVRYEKALTSNDTAVLNELFWNSPQTLRYGATENLYGYEAIAGFRATRSPNNLEKEIVRTVITTYGHDFATANIEFRRLSHSQLTGRQSQTWMRTSQGWRVVAAHVSLIAL 6d6j-a1-m1-cA_6d6j-a1-m1-cB Crystal structure of HIT family hydrolase from Legionella pneumophila Philadelphia 1 Q5ZRW1 Q5ZRW1 1.35 X-RAY DIFFRACTION 164 0.991 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 112 112 NCLFCKIAQGEIPATVVFEDKNILAFRDIRPQAPTHLLIIPKKHIATINDVNDDDSELLANILIRAKKLAQAEGLSEMGYRLVFNVNSGGGQEVYHIHLHLLGGRQMTWPPG MNCLFCKIAQGEIPATVVFEDKNILAFRDIPQAPTHLLIIPKKHIATINDVNDDDSELLANILIRAKKLAQAEGLSEMGYRLVFNVNSGGGQEVYHIHLHLLGGRQMTWPPG 6d6k-a2-m2-cB_6d6k-a2-m3-cB Structure of polyribonucleotide nucleotidyltransferase from Acinetobacter baumannii B0VLR7 B0VLR7 2.5 X-RAY DIFFRACTION 112 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 552 552 6d6k-a1-m1-cA_6d6k-a1-m2-cA 6d6k-a1-m1-cA_6d6k-a1-m3-cA 6d6k-a1-m2-cA_6d6k-a1-m3-cA 6d6k-a2-m1-cB_6d6k-a2-m2-cB 6d6k-a2-m1-cB_6d6k-a2-m3-cB SMFNIVRKEFQFGQHQVVLETGRVARQANTVLITMGGVTVLVAVVAAPTAKAGQDFFPLTVNYQEKQYAAGRIPGGYGKREGRASEAETLISRLIDRPIRPLFPEGYYNEIQVTATVVSSDKTMEADIAAMLGTSAALAIAGTPFRGPIGAARVGLINGEYVLNPNFEQMAQSDLDLVVAGTESAVLMVESEAKELSEDQMLGAVLFGHDEMQIAIQAINEFAAAAGAKPSDWVAPAHNEELRAKLKEAFEAKISEAYTIAVKQDRYAALDALHAEAVAQFVPGIADEVDYLFEDLKYRTVRDNILSGKPRIDGRDTKTVRALDVQVGVLERAHGSALFTRGETQALVTTTLGNTRDALMVDTLAGTKTDNFMLHYNFPAYSVGETGRESGPKRREIGHGRLARRGVQAVLPAADRFPYVIRIVSDITESNGSSSMASVCGASLSLMDAGVPLKAPVAGIAMGLVKEGERFAVLSDILGDEDHLGDMDFKVAGSANGITALQMDIKIEGITEEIMEVALNQAFAGRMHILNEMNKVISRARPEISMHAPTFE SMFNIVRKEFQFGQHQVVLETGRVARQANTVLITMGGVTVLVAVVAAPTAKAGQDFFPLTVNYQEKQYAAGRIPGGYGKREGRASEAETLISRLIDRPIRPLFPEGYYNEIQVTATVVSSDKTMEADIAAMLGTSAALAIAGTPFRGPIGAARVGLINGEYVLNPNFEQMAQSDLDLVVAGTESAVLMVESEAKELSEDQMLGAVLFGHDEMQIAIQAINEFAAAAGAKPSDWVAPAHNEELRAKLKEAFEAKISEAYTIAVKQDRYAALDALHAEAVAQFVPGIADEVDYLFEDLKYRTVRDNILSGKPRIDGRDTKTVRALDVQVGVLERAHGSALFTRGETQALVTTTLGNTRDALMVDTLAGTKTDNFMLHYNFPAYSVGETGRESGPKRREIGHGRLARRGVQAVLPAADRFPYVIRIVSDITESNGSSSMASVCGASLSLMDAGVPLKAPVAGIAMGLVKEGERFAVLSDILGDEDHLGDMDFKVAGSANGITALQMDIKIEGITEEIMEVALNQAFAGRMHILNEMNKVISRARPEISMHAPTFE 6d6s-a1-m1-cA_6d6s-a1-m1-cB Solution structure of Trigger Factor dimer P0A850 P0A850 NOT SOLUTION NMR 150 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 432 432 MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA MQVSVETTQGLGRRVTITIAADSIETAVKSELVNVAKKVRIDGFRKGKVPMNIVAQRYGASVRQDVLGDLMSRNFIDAIIKEKINPAGAPTYVPGEYKLGEDFTYSVEFEVYPEVELQGLEAIEVEKPIVEVTDADVDGMLDTLRKQQATWKEKDGAVEAEDRVTIDFTGSVDGEEFEGGKASDFVLAMGQGRMIPGFEDGIKGHKAGEEFTIDVTFPEEYHAENLKGKAAKFAINLKKVEERELPELTAEFIKRFGVEDGSVEGLRAEVRKNMERELKSAIRNRVKSQAIEGLVKANDIDVPAALIDSEIDVLRRQAAQRFGGNEKQALELPRELFEEQAKRRVVVGLLLGEVIRTNELKADEERVKGLIEEMASAYEDPKEVIEFYSKNKELMDNMRNVALEEQAVEAVLAKAKVTEKETTFNELMNQQA 6d6y-a1-m1-cA_6d6y-a1-m2-cA AprA Methyltransferase 2 - GNAT didomain in complex with SAH A0A1U7N2Z8 A0A1U7N2Z8 2.246 X-RAY DIFFRACTION 79 1.0 207920 (Moorena bouillonii) 207920 (Moorena bouillonii) 511 511 KYQIRYATVNDIPNLLKCATFNQPVNEPFFQVLLKQTPTAHLLLEYQGELVAAIFTETKNSNEVLGIREFLVRTSVENWQVLAKDLLEFVEQWGVVKPGIKEIEGLLKYHEAISNFQKSKWYQSSVLNKKLIEKITLHELATLELCNLMAPEYELEAFAARWLLRVFQDMGVFLREGESYQESELVSQLNISPRYQRLLGALLQILHKRGILKIEKDRVFTLARCKTFALENISSEVSAFYDYFSEKYPAHLSWLTVVKRCLEKYPLILRGEVDVNEVVFTDGDMELFAGLFLGHRVADYFNELLADGVCWEVEQRLLEEKRAQPIRILEIGAGTGGVTGILLEKLASHAEQIEFWFTDISSVFTRYGESKFKQFPWVKYQTFDIEKSLDAQGIKSESFDVVIANNVLHNTKLIHQTLNNSNSLLNTGGLLALLEFTQPIDILLYFGGLLQGFWLFEDPEYRLEVGCLLSIPLWQKVLSDCGFDEIIPLGLPCEMHALSKARESVIFARKH KYQIRYATVNDIPNLLKCATFNQPVNEPFFQVLLKQTPTAHLLLEYQGELVAAIFTETKNSNEVLGIREFLVRTSVENWQVLAKDLLEFVEQWGVVKPGIKEIEGLLKYHEAISNFQKSKWYQSSVLNKKLIEKITLHELATLELCNLMAPEYELEAFAARWLLRVFQDMGVFLREGESYQESELVSQLNISPRYQRLLGALLQILHKRGILKIEKDRVFTLARCKTFALENISSEVSAFYDYFSEKYPAHLSWLTVVKRCLEKYPLILRGEVDVNEVVFTDGDMELFAGLFLGHRVADYFNELLADGVCWEVEQRLLEEKRAQPIRILEIGAGTGGVTGILLEKLASHAEQIEFWFTDISSVFTRYGESKFKQFPWVKYQTFDIEKSLDAQGIKSESFDVVIANNVLHNTKLIHQTLNNSNSLLNTGGLLALLEFTQPIDILLYFGGLLQGFWLFEDPEYRLEVGCLLSIPLWQKVLSDCGFDEIIPLGLPCEMHALSKARESVIFARKH 6d71-a1-m1-cB_6d71-a1-m1-cA Crystal Structure of the Human Miro1 N-terminal GTPase bound to GTP Q8IXI2 Q8IXI2 1.71808 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 172 DVRILLVGEPRVGKTSLIMSLVSEEFPEEVPPRAEEITIPADVTPERVPTHIVDYSEAEQSDEQLHQEISQANVICIVYAVNNKHSIDKVTSRWIPLINERTDKDSRLPLILVGNKSDLVEYSSMETILPIMNQYTEIETCVESAKNLKNISELFYYAQKAVLPTGP DVRILLVGEPRVGKTSLIMSLVSEEFPEEVPPRAEEITIPADVTPERVPTHIVDYSEAEQSDEQLHQEISQANVICIVYAVNNKHSIDKVTSRWIPLINERTDKDSRLPLILVGNKSDLVEYSSMETILPIMNQYTEIETCVECSAKNLKNISELFYYAQKAVLHPTGPLYC 6d79-a1-m1-cA_6d79-a1-m1-cB Structure of CysZ, a sulfate permease from Pseudomonas Fragi A0A0X8F058 A0A0X8F058 3.501 X-RAY DIFFRACTION 43 1.0 1134475 (Pseudomonas fragi A22) 1134475 (Pseudomonas fragi A22) 204 205 GPQYLREGLKLVLSPGLRLFVLLPLLINLVLFVGLIYFAGHQFSLWPLFVVLVALVFFTFTLANIIAAPFNGFLSEKVEAVVRGVDNSPPFSWGELIAVPRTLARERKLGYFLPRAIALLILSFIPVLNLVAAPLWLIFGVWAIQYIDYPADNHKLGWNELAWLREKRWQSLSFGGIVYLVLLIPVVNILPAAVAGATLFWVRE GPQYLREGLKLVLSPGLRLFVLLPLLINLVLFVGLIYFAGHQFSLLWPLFVVLVALVFFTFTLANIIAAPFNGFLSEKVEAVVRGVDNSPPFSWGELIAVPRTLARERKLGYFLPRAIALLILSFIPVLNLVAAPLWLIFGVWAIQYIDYPADNHKLGWNELAWLREKRWQSLSFGGIVYLVLLIPVVNILPAAVAGATLFWVRE 6d7j-a1-m1-cD_6d7j-a1-m1-cA The Crystal Structure of Parabacteroides merdae Beta-Glucuronidase (GUS) with Glycerol in Active-Site K5ZWV5 K5ZWV5 2.24 X-RAY DIFFRACTION 38 0.999 999420 (Parabacteroides merdae CL03T12C32) 999420 (Parabacteroides merdae CL03T12C32) 787 799 6d7j-a1-m1-cB_6d7j-a1-m1-cC 6dxu-a1-m1-cA_6dxu-a1-m1-cD 6dxu-a1-m1-cB_6dxu-a1-m1-cC SNAKVPAMNKIRLTNNWEYLKGDLGGIWEAVRPAAPGSSEAVPIWQPVTLPHCFNAEDAVDPDVNYYEGPGWYKTLLAIDNPYRNGRIVLDFDGAGQKTDVYVYTTHVGSHVGGYDSWNVDITDAVKAFLGSKDAERFKGKVPLSIRCDNSRDLEMIPSDLADFNIYGGLYRYLNLVYLPEVSFEQIHLESSLSSNLKEGILKVKTSFYNPEDIRKADVTVSVYDVDRKPVFSKTLEGILPLGDQLLAKMKIKNPVLWDVDVPQLYTCELTVKTPDQTFTTEERFGFRHTEFKDKGPFFLNGKRLLLRGTHRHEDHAGVAQAMTEDMMRREMRMMKDMGVNFIRLGHYQQSEIILDLCDELGILVWEEIPWCRGGLGGDVYKKQARRMLANMIVQHHNHPAVIIWGLGNENDWPNDFNTFDKSAIRAFMKELHDMAHRLDDTRMTAIRRCEFCNDIVDVYSPSIWAGWYRGVFTDYKSISEQEMQKVKHFLHVEWGGDSHARRHSEDAFYNLKPRASRDGDWSESYVVRLIDWHLKEQETMPWLTGTAYWPFKDFSTPVRPDNPVPYVNQKGVVERDFTPKESYYVFQSYWTEKPMIHIYGHTWPVRWGGKDDRKEILVYSNCDEVELFVNGVSQGVKRRNSQDYPAAGLRWNCVYQEGMNEIRAVGVKKKEKKEVSDVIRQEYQTAKWDKEAACQVSLLSEEGDTALVQVQLIDKNGIRCLSSKKQITFEIAGDGSLICNLGTSTGSRKVQAYNGRALIRIKRNEGNSVVAVKSEGLPTAFLELKS NAKVPAMNKIRLTNNWEYLKGDLGGIWEAVRPAAPGSSEAVPIWQPVTLPHCFNAEDAVDPDVNYYEGPGWYKTLLAIDNPYRNGRIVLDFDGAGQKTDVYVYTTHVGSHVGGYDSWNVDITDAVKAFLGSKDAERFKGKVPLSIRCDNSRDLEMIPSDLADFNIYGGLYRYLNLVYLPEVSFEQIHLESSLSSNLKEGILKVKTSFYNPEDIRKADVTVSVYDVDRKPVFSKTLEGILPLGDQLLAKMKIKNPVLWDVDVPQLYTCELTVKTPDQTFTTEERFGFRHTEFKDKGPFFLNGKRLLLRGTHRHEDHAGVAQAMTEDMMRREMRMMKDMGVNFIRLGHYQQSEIILDLCDELGILVWEEIPWCRGGLGGDVYKKQARRMLANMIVQHHNHPAVIIWGLGNENDWPNDFNTFDKSAIRAFMKELHDMAHRLDDTRMTAIRRCEFCNDIVDVYSPSIWAGWYRGVFTDYKSISEQEMQKVKHFLHVEWGGDSHARRHSEDAFYNLKNIEGDASLYGGVPRASRDGDWSESYVVRLIDWHLKEQETMPWLTGTAYWPFKDFSTPVRPDNPVPYVNQKGVVERDFTPKESYYVFQSYWTEKPMIHIYGHTWPVRWGGKDDRKEILVYSNCDEVELFVNGVSQGVKRRNSQDYPAAGLRWNCVYQEGMNEIRAVGVKKKEKKEVSDVIRQEYQTAKWDKEAACQVSLLSEEGDTALVQVQLIDKNGIRCLSSKKQITFEIAGDGSLICNLGTSTGSRKVQAYNGRALIRIKRNEGNSVVAVKSEGLPTAFLELKSP 6d7j-a3-m1-cD_6d7j-a3-m1-cC The Crystal Structure of Parabacteroides merdae Beta-Glucuronidase (GUS) with Glycerol in Active-Site K5ZWV5 K5ZWV5 2.24 X-RAY DIFFRACTION 137 1.0 999420 (Parabacteroides merdae CL03T12C32) 999420 (Parabacteroides merdae CL03T12C32) 787 789 6d7j-a1-m1-cB_6d7j-a1-m1-cA 6d7j-a1-m1-cD_6d7j-a1-m1-cC 6d7j-a2-m1-cB_6d7j-a2-m1-cA 6dxu-a1-m1-cA_6dxu-a1-m1-cB 6dxu-a1-m1-cD_6dxu-a1-m1-cC SNAKVPAMNKIRLTNNWEYLKGDLGGIWEAVRPAAPGSSEAVPIWQPVTLPHCFNAEDAVDPDVNYYEGPGWYKTLLAIDNPYRNGRIVLDFDGAGQKTDVYVYTTHVGSHVGGYDSWNVDITDAVKAFLGSKDAERFKGKVPLSIRCDNSRDLEMIPSDLADFNIYGGLYRYLNLVYLPEVSFEQIHLESSLSSNLKEGILKVKTSFYNPEDIRKADVTVSVYDVDRKPVFSKTLEGILPLGDQLLAKMKIKNPVLWDVDVPQLYTCELTVKTPDQTFTTEERFGFRHTEFKDKGPFFLNGKRLLLRGTHRHEDHAGVAQAMTEDMMRREMRMMKDMGVNFIRLGHYQQSEIILDLCDELGILVWEEIPWCRGGLGGDVYKKQARRMLANMIVQHHNHPAVIIWGLGNENDWPNDFNTFDKSAIRAFMKELHDMAHRLDDTRMTAIRRCEFCNDIVDVYSPSIWAGWYRGVFTDYKSISEQEMQKVKHFLHVEWGGDSHARRHSEDAFYNLKPRASRDGDWSESYVVRLIDWHLKEQETMPWLTGTAYWPFKDFSTPVRPDNPVPYVNQKGVVERDFTPKESYYVFQSYWTEKPMIHIYGHTWPVRWGGKDDRKEILVYSNCDEVELFVNGVSQGVKRRNSQDYPAAGLRWNCVYQEGMNEIRAVGVKKKEKKEVSDVIRQEYQTAKWDKEAACQVSLLSEEGDTALVQVQLIDKNGIRCLSSKKQITFEIAGDGSLICNLGTSTGSRKVQAYNGRALIRIKRNEGNSVVAVKSEGLPTAFLELKS SNAKVPAMNKIRLTNNWEYLKGDLGGIWEAVRPAAPGSSEAVPIWQPVTLPHCFNAEDAVDPDVNYYEGPGWYKTLLAIDNPYRNGRIVLDFDGAGQKTDVYVYTTHVGSHVGGYDSWNVDITDAVKAFLGSKDAERFKGKVPLSIRCDNSRDLEMIPSDLADFNIYGGLYRYLNLVYLPEVSFEQIHLESSLSSNLKEGILKVKTSFYNPEDIRKADVTVSVYDVDRKPVFSKTLEGILPLGDQLLAKMKIKNPVLWDVDVPQLYTCELTVKTPDQTFTTEERFGFRHTEFKDKGPFFLNGKRLLLRGTHRHEDHAGVAQAMTEDMMRREMRMMKDMGVNFIRLGHYQQSEIILDLCDELGILVWEEIPWCRGGLGGDVYKKQARRMLANMIVQHHNHPAVIIWGLGNENDWPNDFNTFDKSAIRAFMKELHDMAHRLDDTRMTAIRRCEFCNDIVDVYSPSIWAGWYRGVFTDYKSISEQEMQKVKHFLHVEWGGDSHARRHSEDAFYNLKVPRASRDGDWSESYVVRLIDWHLKEQETMPWLTGTAYWPFKDFSTPVRPDNPVPYVNQKGVVERDFTPKESYYVFQSYWTEKPMIHIYGHTWPVRWGGKDDRKEILVYSNCDEVELFVNGVSQGVKRRNSQDYPAAGLRWNCVYQEGMNEIRAVGVKKKEKKEVSDVIRQEYQTAKWDKEAACQVSLLSEEGDTALVQVQLIDKNGIRCLSSKKQITFEIAGDGSLICNLGTSTGSRKVQAYNGRALIRIKRNEGNSVVAVKSEGLPTAFLELKSP 6d80-a1-m1-cD_6d80-a1-m1-cA Cryo-EM structure of the mitochondrial calcium uniporter from N. fischeri bound to saposin A1CWT6 A1CWT6 5.0 ELECTRON MICROSCOPY 62 0.993 36630 (Aspergillus fischeri) 36630 (Aspergillus fischeri) 269 275 6d7w-a1-m1-cC_6d7w-a1-m1-cB 6d7w-a1-m1-cD_6d7w-a1-m1-cA 6d80-a1-m1-cB_6d80-a1-m1-cC DTIAGKLLTTPSRLFKLLIPLTTINRKDIEQIAILIHPQQPLSHLERLIQSEVPPIEDENGQKRPPFVSFIALRFIRWSQSTEIGDFIRDAARAKEFIVTIEGAPAGLEQIHVAVPSFDERTYFLRMRLRKISRRIQGLAEIKHECDALAHRGAQRVALGGFGILAFWWYIVYKLTFETDLGWDTMEPVTYLVSLSTLMGGYLWFLYHNREDFTINARQKKLYQMKGIDLQVWESLIDEANAIRREIKNIAAEYDVDWDERKDEQDDRV DTIAGKLLTTPSRLFKLLIPLTTINRKDIEQIAILIHPQQPLSHLERLIQSEVPPIEDENGQKRPPFVSFIALQLEQQRFIRWSQSTEIGDFIRDAARAKEFIVTIEGAPAGLEQIHVAVPSFDERTYFLRMRLRKISRRIQGLAEIKHECDALAHRGAQRVALGGFGILAFWWYIVYKLTFETDLGWDTMEPVTYLVSLSTLMGGYLWFLYHNREISYTINARQKKLYQMKGIDLQVWESLIDEANAIRREIKNIAAEYDVDWDERKDEQDDRV 6d80-a1-m1-cD_6d80-a1-m1-cC Cryo-EM structure of the mitochondrial calcium uniporter from N. fischeri bound to saposin A1CWT6 A1CWT6 5.0 ELECTRON MICROSCOPY 74 0.993 36630 (Aspergillus fischeri) 36630 (Aspergillus fischeri) 269 274 6d7w-a1-m1-cC_6d7w-a1-m1-cA 6d7w-a1-m1-cD_6d7w-a1-m1-cB 6d80-a1-m1-cB_6d80-a1-m1-cA DTIAGKLLTTPSRLFKLLIPLTTINRKDIEQIAILIHPQQPLSHLERLIQSEVPPIEDENGQKRPPFVSFIALRFIRWSQSTEIGDFIRDAARAKEFIVTIEGAPAGLEQIHVAVPSFDERTYFLRMRLRKISRRIQGLAEIKHECDALAHRGAQRVALGGFGILAFWWYIVYKLTFETDLGWDTMEPVTYLVSLSTLMGGYLWFLYHNREDFTINARQKKLYQMKGIDLQVWESLIDEANAIRREIKNIAAEYDVDWDERKDEQDDRV DTIAGKLLTTPSRLFKLLIPLTTINRKDIEQIAILIHPQQPLSHLERLIQSEVPPIEDENGQKRPPFVSFIALQLEQRFIRWSQSTEIGDFIRDAARAKEFIVTIEGAPAGLEQIHVAVPSFDERTYFLRMRLRKISRRIQGLAEIKHECDALAHRGAQRVALGGFGILAFWWYIVYKLTFETDLGWDTMEPVTYLVSLSTLMGGYLWFLYHNREISYTINARQKKLYQMKGIDLQVWESLIDEANAIRREIKNIAAEYDVDWDERKDEQDDRV 6d85-a1-m1-cB_6d85-a1-m1-cA Structure of the Bovine p85a BH domain E217K mutant P23727 P23727 2.203 X-RAY DIFFRACTION 41 1.0 9913 (Bos taurus) 9913 (Bos taurus) 176 181 6d81-a1-m1-cB_6d81-a1-m1-cA 6d82-a1-m1-cB_6d82-a1-m1-cA 6d86-a1-m1-cB_6d86-a1-m1-cA 6d87-a1-m1-cA_6d87-a1-m1-cB 6mrp-a1-m1-cB_6mrp-a1-m1-cA STLPDLAEQFAPPDVAPPLLIKLVEAIEKKGLESTLYRTQSSSNPAELRQLLDCLDLEMFDVHVLADAFKRYLLDLPNPVIPVAVSSELISLAPEVQSSKEYIQLLKKLIRSPSIPHQYWLTLQYLLKHFFKLSQTSSKNLLNARVLSELFSPLLFRFPENTEHLIKIIEILISTE STLPDLAEQFAPPDVAPPLLIKLVEAIEKKGLESTLYRTQSSSNPAELRQLLDCLDLEMFDVHVLADAFKRYLLDLPNPVIPVAVSSELISLAPEVQSSKEYIQLLKKLIRSPSIPHQYWLTLQYLLKHFFKLSQTSSKNLLNARVLSELFSPLLFRFPAASSENTEHLIKIIEILISTEW 6d8k-a1-m1-cD_6d8k-a1-m1-cB Bacteroides multiple species beta-glucuronidase A0A139KTC9 A0A139KTC9 2.65 X-RAY DIFFRACTION 136 1.0 28116 (Bacteroides ovatus) 28116 (Bacteroides ovatus) 375 571 6d8k-a1-m1-cC_6d8k-a1-m1-cA NITNVYGRDIRSLNGKWNAIIDLYDQGRGMKVYRNQSPKGNTDFYEYSFQGGLRLNVPGDWNSQTPELKYYEGTVWYARHFDAKRLTHKRQFLYFGAVSYRCRVYLNGAEIGSHEGGFTPFQIEVTDLLNEGENFIAIEVNNRRTKDAIPAMSFDWWNYGGITRDVLLVTTPQTYLEDYSFHEEIPQRMGRAFSEADAAMLLNEAKALGVNMIRLAHYPQNEYTVRLAEKMGFILWQEIPVWQGIDFTNNNTRKKAQRMLSEMIKRDQNRCAVGYWGIANETLETGKQLDTTRLYVAAFFGGEALYGQSGDENVASSWSEEYQARLYRDNISPWILFDFRSPFRFHPTNQDGWNRKGLVSDQGIRKKAWYLMREY QNITNVYGRDIRSLNGKWNAIIDLYDQGRGMKVYRNQSPKGNTDFYEYSFQGGLRLNVPGDWNSQTPELKYYEGTVWYARHFDAKRLTHKRQFLYFGAVSYRCRVYLNGAEIGSHEGGFTPFQIEVTDLLNEGENFIAIEVNNRRTKDAIPAMSFDWWNYGGITRDVLLVTTPQTYLEDYFIQLDKESPNRMIAKVALSDKKAGEKITVSIPELKTSIDMLTDAEGKAETVFNIKKLERWSSENPKLYEVIVSSANDRVEEQIGFRNITVKGTDIYLNGKPTFMCSISFHEEIPQRMGRAFSEADAAMLLNEAKALGVNMIRLAHYPQNEYTVRLAEKMGFILWQEIPVWQGIDFTNNNTRKKAQRMLSEMIKRDQNRCAVGYWGIANETQPSKARNEFLTSLLETGKQLDTTRLYVAAFDLVRFNREKKRFVMEDSFTSQLDVVAVNKYMGWYHPWPIEPENAVWEVIPDKPLIISEFGGEALYGQSGDENVASSWSEEYQARLYRDNIRMFDNIPNLRGVSPWILFDFRSPFRFHPTNQDGWNRKGLVSDQGIRKKAWYLMREYYKTKF 6d8k-a1-m1-cD_6d8k-a1-m1-cC Bacteroides multiple species beta-glucuronidase A0A139KTC9 A0A139KTC9 2.65 X-RAY DIFFRACTION 72 1.0 28116 (Bacteroides ovatus) 28116 (Bacteroides ovatus) 375 569 6d8k-a1-m1-cA_6d8k-a1-m1-cB NITNVYGRDIRSLNGKWNAIIDLYDQGRGMKVYRNQSPKGNTDFYEYSFQGGLRLNVPGDWNSQTPELKYYEGTVWYARHFDAKRLTHKRQFLYFGAVSYRCRVYLNGAEIGSHEGGFTPFQIEVTDLLNEGENFIAIEVNNRRTKDAIPAMSFDWWNYGGITRDVLLVTTPQTYLEDYSFHEEIPQRMGRAFSEADAAMLLNEAKALGVNMIRLAHYPQNEYTVRLAEKMGFILWQEIPVWQGIDFTNNNTRKKAQRMLSEMIKRDQNRCAVGYWGIANETLETGKQLDTTRLYVAAFFGGEALYGQSGDENVASSWSEEYQARLYRDNISPWILFDFRSPFRFHPTNQDGWNRKGLVSDQGIRKKAWYLMREY NITNVYGRDIRSLNGKWNAIIDLYDQGRGMKVYRNQSPKGNTDFYEYSFQGGLRLNVPGDWNSQTPELKYYEGTVWYARHFDAKRLTHKRQFLYFGAVSYRCRVYLNGAEIGSHEGGFTPFQIEVTDLLNEGENFIAIEVNNRRTKDAIPAMSFDWWNYGGITRDVLLVTTPQTYLEDYFIQLDKESPNRMIAKVALSDKKAGEKITVSIPELKTSIDMLTDAEGKAETVFNIKKLERWSSENPKLYEVIVSSANDRVEEQIGFRNITVKGTDIYLNGKPTFMCSISFHEEIPQRMGRAFSEADAAMLLNEAKALGVNMIRLAHYPQNEYTVRLAEKMGFILWQEIPVWQGIDFTNNNTRKKAQRMLSEMIKRDQNRCAVGYWGIANETQPSKARNEFLTSLLETGKQLDTTRLYVAAFDLVRFNREKKRFVMEDSFTSQLDVVAVNKYMGWYHPWPIEPENAVWEVIPDKPLIISEFGGEALYGQSGDENVASSWSEEYQARLYRDNIRMFDNIPNLRGVSPWILFDFRSPFRFHPTNQDGWNRKGLVSDQGIRKKAWYLMREYYKTK 6d9n-a1-m1-cA_6d9n-a1-m1-cB Crystal structure of an organic hydroperoxide resistance protein from Elizabethkingia anophelis with crystallant-derived thiocyanate bound A0A077EDR1 A0A077EDR1 1.2 X-RAY DIFFRACTION 310 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 140 143 MKTLYTIGATATGGRNGHVKSDNGVLEFEVRYPKGLGGANDDYANPEMLFAAGYSACFDSALNLVIKSAKIKTGETTVTAKVGIGQIENGGFGLEVELHANIPGVTIEEAQDLIEKAHQVCPYSNATRGNIEVKLTVSNN HHHMKTLYTIGATATGGRNGHVKSDNGVLEFEVRYPKGLGGANDDYANPEMLFAAGYSACFDSALNLVIKSAKIKTGETTVTAKVGIGQIENGGFGLEVELHANIPGVTIEEAQDLIEKAHQVCPYSNATRGNIEVKLTVSNN 6d9q-a1-m1-cB_6d9q-a1-m1-cD The sulfate-bound crystal structure of HPRT (hypoxanthine phosphoribosyltransferase) B9ZW32 B9ZW32 2.056 X-RAY DIFFRACTION 85 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 180 180 3h83-a1-m1-cB_3h83-a1-m1-cA 3h83-a1-m1-cC_3h83-a1-m1-cD 3hvu-a1-m1-cA_3hvu-a1-m1-cC 3hvu-a1-m1-cB_3hvu-a1-m1-cD 3kb8-a1-m1-cB_3kb8-a1-m1-cA 3kb8-a1-m1-cC_3kb8-a1-m1-cD 6d9q-a1-m1-cA_6d9q-a1-m1-cC 6d9r-a1-m1-cA_6d9r-a1-m1-cB 6d9s-a1-m1-cA_6d9s-a1-m2-cB 6d9s-a1-m1-cB_6d9s-a1-m2-cA AMMNQDIEKVLISEEQIQEKVLELGAIIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYS AMMNQDIEKVLISEEQIQEKVLELGAIIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYS 6d9s-a1-m2-cA_6d9s-a1-m2-cB The (p)ppGpp-bound crystal structure of HPRT (hypoxanthine phosphoribosyltransferase) B9ZW32 B9ZW32 2.105 X-RAY DIFFRACTION 44 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 180 180 3h83-a1-m1-cC_3h83-a1-m1-cB 3h83-a1-m1-cD_3h83-a1-m1-cA 3hvu-a1-m1-cA_3hvu-a1-m1-cB 3hvu-a1-m1-cC_3hvu-a1-m1-cD 3kb8-a1-m1-cC_3kb8-a1-m1-cB 3kb8-a1-m1-cD_3kb8-a1-m1-cA 6d9q-a1-m1-cB_6d9q-a1-m1-cA 6d9q-a1-m1-cD_6d9q-a1-m1-cC 6d9s-a1-m1-cA_6d9s-a1-m1-cB AMMNQDIEKVLISEEQIQEKVLELGAIIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYS AMMNQDIEKVLISEEQIQEKVLELGAIIAEDYKNTVPLAIGVLKGAMPFMADLLKRTDTYLEMDFMAVSSYGHSTVSTGEVKILKDLDTSVEGRDILIVEDIIDSGLTLSYLVDLFKYRKAKSVKIVTLLDKPTGRKVDLKADYVGFTVPHEFVVGYGLDYKEQYRNLPYVGVLKPSVYS 6d9t-a1-m1-cA_6d9t-a1-m2-cA BshA from Staphylococcus aureus complexed with UDP A0A068A5A2 A0A068A5A2 2 X-RAY DIFFRACTION 127 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 376 376 6n1x-a1-m1-cA_6n1x-a1-m2-cA 6n1x-a1-m3-cA_6n1x-a1-m4-cA QGHMKIGITCYPSMGGSGIIATELGIKLAERGHEVHFITSNIPFRIRKPLPNMIFHQVEVNQYAVFQYPPYDITLSTKIAEVIKEYDLDLLHMHYAVPHAICGILAREMSGKDIKIMTTLHGTDITVLGYDHSLQGAIKFGIEKSDIVTSVSKSLAQETHEIIETNKEIIPIYNFVRENEFPTKHNTALKSQFGIAPDEKVLIHVSNFRQVKRIDTIIETFAKVREKIPSKLILLGDGPELVPMRQLTKELNVEEDVLFLGKQDCVSEFYQLSDLVLLLSEKESFGLTLLEAMKTGVVPIGSNAGGIKEVIKHGETGFVVDVGDCDSASDYAIRLLEDKVLYNKLQKNMLADIAERFGSELITDQYEYYYQKMLNE QGHMKIGITCYPSMGGSGIIATELGIKLAERGHEVHFITSNIPFRIRKPLPNMIFHQVEVNQYAVFQYPPYDITLSTKIAEVIKEYDLDLLHMHYAVPHAICGILAREMSGKDIKIMTTLHGTDITVLGYDHSLQGAIKFGIEKSDIVTSVSKSLAQETHEIIETNKEIIPIYNFVRENEFPTKHNTALKSQFGIAPDEKVLIHVSNFRQVKRIDTIIETFAKVREKIPSKLILLGDGPELVPMRQLTKELNVEEDVLFLGKQDCVSEFYQLSDLVLLLSEKESFGLTLLEAMKTGVVPIGSNAGGIKEVIKHGETGFVVDVGDCDSASDYAIRLLEDKVLYNKLQKNMLADIAERFGSELITDQYEYYYQKMLNE 6d9y-a1-m1-cA_6d9y-a1-m2-cB Crystal structure of a short chain dehydrogenase/reductase SDR from Burkholderia phymatum with partially occupied NAD B2JLJ0 B2JLJ0 1.3 X-RAY DIFFRACTION 16 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 251 251 6d9y-a1-m1-cB_6d9y-a1-m2-cA HMNRIDLEGRVVVITGGARGIGYAVAQRALRSGAAVALWDLDAERLARSERELAELGKVCAVTVDQTKEAQIEAAVGKTLAAFGAIDVLINCAGITGGNGTTWELEPDVWRQVIDVNLIGPYLVCRAVVPQMLKQGYGRIVNIASVAGKEGNPNASHYSASKAGLIGLTKSLGKELATKNILVNAVTPAAAKTEIFDSMKQEHIDYMLSKIPMNRFLLPDEAASLILWLGSEDCAFSTGSVFDLSGGRATY HMNRIDLEGRVVVITGGARGIGYAVAQRALRSGAAVALWDLDAERLARSERELAELGKVCAVTVDQTKEAQIEAAVGKTLAAFGAIDVLINCAGITGGNGTTWELEPDVWRQVIDVNLIGPYLVCRAVVPQMLKQGYGRIVNIASVAGKEGNPNASHYSASKAGLIGLTKSLGKELATKNILVNAVTPAAAKTEIFDSMKQEHIDYMLSKIPMNRFLLPDEAASLILWLGSEDCAFSTGSVFDLSGGRATY 6d9y-a1-m1-cB_6d9y-a1-m2-cB Crystal structure of a short chain dehydrogenase/reductase SDR from Burkholderia phymatum with partially occupied NAD B2JLJ0 B2JLJ0 1.3 X-RAY DIFFRACTION 127 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 251 251 6d9y-a1-m1-cA_6d9y-a1-m2-cA HMNRIDLEGRVVVITGGARGIGYAVAQRALRSGAAVALWDLDAERLARSERELAELGKVCAVTVDQTKEAQIEAAVGKTLAAFGAIDVLINCAGITGGNGTTWELEPDVWRQVIDVNLIGPYLVCRAVVPQMLKQGYGRIVNIASVAGKEGNPNASHYSASKAGLIGLTKSLGKELATKNILVNAVTPAAAKTEIFDSMKQEHIDYMLSKIPMNRFLLPDEAASLILWLGSEDCAFSTGSVFDLSGGRATY HMNRIDLEGRVVVITGGARGIGYAVAQRALRSGAAVALWDLDAERLARSERELAELGKVCAVTVDQTKEAQIEAAVGKTLAAFGAIDVLINCAGITGGNGTTWELEPDVWRQVIDVNLIGPYLVCRAVVPQMLKQGYGRIVNIASVAGKEGNPNASHYSASKAGLIGLTKSLGKELATKNILVNAVTPAAAKTEIFDSMKQEHIDYMLSKIPMNRFLLPDEAASLILWLGSEDCAFSTGSVFDLSGGRATY 6d9y-a1-m2-cA_6d9y-a1-m2-cB Crystal structure of a short chain dehydrogenase/reductase SDR from Burkholderia phymatum with partially occupied NAD B2JLJ0 B2JLJ0 1.3 X-RAY DIFFRACTION 133 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 251 251 6d9y-a1-m1-cA_6d9y-a1-m1-cB HMNRIDLEGRVVVITGGARGIGYAVAQRALRSGAAVALWDLDAERLARSERELAELGKVCAVTVDQTKEAQIEAAVGKTLAAFGAIDVLINCAGITGGNGTTWELEPDVWRQVIDVNLIGPYLVCRAVVPQMLKQGYGRIVNIASVAGKEGNPNASHYSASKAGLIGLTKSLGKELATKNILVNAVTPAAAKTEIFDSMKQEHIDYMLSKIPMNRFLLPDEAASLILWLGSEDCAFSTGSVFDLSGGRATY HMNRIDLEGRVVVITGGARGIGYAVAQRALRSGAAVALWDLDAERLARSERELAELGKVCAVTVDQTKEAQIEAAVGKTLAAFGAIDVLINCAGITGGNGTTWELEPDVWRQVIDVNLIGPYLVCRAVVPQMLKQGYGRIVNIASVAGKEGNPNASHYSASKAGLIGLTKSLGKELATKNILVNAVTPAAAKTEIFDSMKQEHIDYMLSKIPMNRFLLPDEAASLILWLGSEDCAFSTGSVFDLSGGRATY 6dao-a1-m1-cB_6dao-a1-m2-cB NahE WT selenomethionine Q51947 Q51947 1.939 X-RAY DIFFRACTION 117 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 313 313 6dao-a2-m1-cA_6dao-a2-m2-cA 8do5-a1-m1-cA_8do5-a1-m2-cA 8do5-a1-m1-cB_8do5-a1-m2-cB TTRLTAEDINGAWTIPTPSTPDASDWRSTNTVDLDETARIVEELIAAGVNGILSGTFGECATLTWEEKRDYVSTVVETIRGRVPYFCGTTALNTREVIRQTRELIDIGANGTLGVPWVKDLPTAVQFYRDVAGAVPEAAIAIYANPEAFKFDFPRPFWAESKIPQVVTAKYLGIGLDLDLKLAPNIRFLPHEDDYYAAARINPERITAFWSSGACGPATAILRDEVERAKSTGDWIKAKAISDDRAADSTLFPRGDFSEFSKYNIGLEKARDAAGWLKAGPCRPPYNLVPEDYLVGAQKSGKAWAALHAKYSK TTRLTAEDINGAWTIPTPSTPDASDWRSTNTVDLDETARIVEELIAAGVNGILSGTFGECATLTWEEKRDYVSTVVETIRGRVPYFCGTTALNTREVIRQTRELIDIGANGTLGVPWVKDLPTAVQFYRDVAGAVPEAAIAIYANPEAFKFDFPRPFWAESKIPQVVTAKYLGIGLDLDLKLAPNIRFLPHEDDYYAAARINPERITAFWSSGACGPATAILRDEVERAKSTGDWIKAKAISDDRAADSTLFPRGDFSEFSKYNIGLEKARDAAGWLKAGPCRPPYNLVPEDYLVGAQKSGKAWAALHAKYSK 6daq-a1-m1-cA_6daq-a1-m1-cD PhdJ bound to substrate intermediate Q6H2K0 Q6H2K0 2 X-RAY DIFFRACTION 26 1.0 110539 (Mycolicibacterium vanbaalenii) 110539 (Mycolicibacterium vanbaalenii) 322 322 6dan-a1-m1-cA_6dan-a1-m1-cB 6dan-a1-m1-cD_6dan-a1-m1-cC 6daq-a1-m1-cB_6daq-a1-m1-cC DTKLTVDDITGVVGIIPTPSIPTADQPGTAFSVDLDEAATLADAMVRGGVDVLMTTGTFGECASLTWDELQSFVATVVDAVAGRIPVFAGATTLNTRDTIARGRRLGELGADGLFVGRPMWLPLDDAGIVRFYRDVAEAVPNMALVVYDNPGAFKGKIGTPAYEALSQIPQVVAAHLGLLSGSAFLSDLRAVSGRVRLLPLETDWYYFARLFPEEVTACWSGNVACGPAPVTHLRDLIRARRWDDCQALTDELEGALETLYPGGNFAEFLKYSIQIDNAQFQAAGFMRTGPTRPPYTEVPESYLAGGREAGKNWAALQQRYA DTKLTVDDITGVVGIIPTPSIPTADQPGTAFSVDLDEAATLADAMVRGGVDVLMTTGTFGECASLTWDELQSFVATVVDAVAGRIPVFAGATTLNTRDTIARGRRLGELGADGLFVGRPMWLPLDDAGIVRFYRDVAEAVPNMALVVYDNPGAFKGKIGTPAYEALSQIPQVVAAHLGLLSGSAFLSDLRAVSGRVRLLPLETDWYYFARLFPEEVTACWSGNVACGPAPVTHLRDLIRARRWDDCQALTDELEGALETLYPGGNFAEFLKYSIQIDNAQFQAAGFMRTGPTRPPYTEVPESYLAGGREAGKNWAALQQRYA 6daq-a1-m1-cC_6daq-a1-m1-cD PhdJ bound to substrate intermediate Q6H2K0 Q6H2K0 2 X-RAY DIFFRACTION 129 1.0 110539 (Mycolicibacterium vanbaalenii) 110539 (Mycolicibacterium vanbaalenii) 322 322 6dan-a1-m1-cA_6dan-a1-m1-cC 6dan-a1-m1-cD_6dan-a1-m1-cB 6daq-a1-m1-cA_6daq-a1-m1-cB DTKLTVDDITGVVGIIPTPSIPTADQPGTAFSVDLDEAATLADAMVRGGVDVLMTTGTFGECASLTWDELQSFVATVVDAVAGRIPVFAGATTLNTRDTIARGRRLGELGADGLFVGRPMWLPLDDAGIVRFYRDVAEAVPNMALVVYDNPGAFKGKIGTPAYEALSQIPQVVAAHLGLLSGSAFLSDLRAVSGRVRLLPLETDWYYFARLFPEEVTACWSGNVACGPAPVTHLRDLIRARRWDDCQALTDELEGALETLYPGGNFAEFLKYSIQIDNAQFQAAGFMRTGPTRPPYTEVPESYLAGGREAGKNWAALQQRYA DTKLTVDDITGVVGIIPTPSIPTADQPGTAFSVDLDEAATLADAMVRGGVDVLMTTGTFGECASLTWDELQSFVATVVDAVAGRIPVFAGATTLNTRDTIARGRRLGELGADGLFVGRPMWLPLDDAGIVRFYRDVAEAVPNMALVVYDNPGAFKGKIGTPAYEALSQIPQVVAAHLGLLSGSAFLSDLRAVSGRVRLLPLETDWYYFARLFPEEVTACWSGNVACGPAPVTHLRDLIRARRWDDCQALTDELEGALETLYPGGNFAEFLKYSIQIDNAQFQAAGFMRTGPTRPPYTEVPESYLAGGREAGKNWAALQQRYA 6dat-a2-m1-cC_6dat-a2-m1-cD ETS1 in complex with synthetic SRR mimic P27577 P27577 2.35003 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 135 135 6dat-a1-m1-cA_6dat-a1-m1-cB GTFKDYVRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHAMLDVK GTFKDYVRDRADLNKDKPVIPAAALAGYTGSGPIQLWQFLLELLTDKSCQSFISWTGDGWEFKLSDPDEVARRWGKRKNKPKMNYEKLSRGLRYYYDKNIIHKTAGKRYVYRFVCDLQSLLGYTPEELHAMLDVK 6daw-a1-m1-cB_6daw-a1-m1-cA X-ray crystal structure of NapI L-arginine desaturase bound to Fe(II), L-arginine, and acetate S4TL40 S4TL40 2.1 X-RAY DIFFRACTION 72 1.0 68232 (Streptomyces lusitanus) 68232 (Streptomyces lusitanus) 341 342 VPRGSHMMIRYVDLDAAEGAALDELTRSVLRDHGASSSPSLLDDLSLVAHRMPPRLIRELRRFRTAEEASCLVVRGLPVDDRRLGPTPLDWREPPREPESEVHEVFLTLATAHLGDIFGWSTLQNGRLVHDVLPVPSHENDQSGHGTVELAWHTEDGFHPYRCDYLLLLGLRNHDAVPTGVAGVDQVVLSDEHREVLSQPRFLIRPDTEHLRHARTLAADRGSPHAVQLMQDEPEPCAVLFGHPDRPYLRIDPAFMSPLPGDPEAAAALEALTAELQRNLTDVVLSPGDLLVIDNYRVVHGRAAFKARFDGTDRWLKKAVVTRDLRKSRAHRKSAAERVLL AVPRGSHMMIRYVDLDAAEGAALDELTRSVLRDHGASSSPSLLDDLSLVAHRMPPRLIRELRRFRTAEEASCLVVRGLPVDDRRLGPTPLDWREPPREPESEVHEVFLTLATAHLGDIFGWSTLQNGRLVHDVLPVPSHENDQSGHGTVELAWHTEDGFHPYRCDYLLLLGLRNHDAVPTGVAGVDQVVLSDEHREVLSQPRFLIRPDTEHLRHARTLAADRGSPHAVQLMQDEPEPCAVLFGHPDRPYLRIDPAFMSPLPGDPEAAAALEALTAELQRNLTDVVLSPGDLLVIDNYRVVHGRAAFKARFDGTDRWLKKAVVTRDLRKSRAHRKSAAERVLL 6day-a1-m1-cA_6day-a1-m1-cD Xanthomonas albilineans Dihydropteroate synthase with 4-aminobenzoic acid at 1.65 A D2UDM3 D2UDM3 1.65 X-RAY DIFFRACTION 46 1.0 380358 (Xanthomonas albilineans GPE PC73) 380358 (Xanthomonas albilineans GPE PC73) 259 273 SPRLDCAGRILTLDRPRVMGIVNVTPDSFTHTTVEAAVAHGLRLAEEGADLLDIGGESAVPVEEELRRVIPVIERLVAQTALPLSVDTFKPEVMRAAVAAGAGMINDVQALRQPGALDAVADLRVPVVLMHMPPHYDDVVAEVHRFLVERIFAAEMAGIDKRRLLIDPGFGFGKSTADNVQLLAHLPRLCELGVPVLAGLSRKRSIGELTGRELPEQRVAGSVAAHLLAAQRGALLLRVHDVAATVDALTVWQAVQAVP TSPRLDCAGRILTLDRPRVMGIVNVTPDSFSDGGTHTTVEAAVAHGLRLAEEGADLLDIGGESTRPGATAVPVEEELRRVIPVIERLVAQTALPLSVDTFKPEVMRAAVAAGAGMINDVQALRQPGALDAVADLRVPVVLMHMPGDAPHYDDVVAEVHRFLVERIFAAEMAGIDKRRLLIDPGFGFGKSTADNVQLLAHLPRLCELGVPVLAGLSRKRSIGELTGRELPEQRVAGSVAAHLLAAQRGALLLRVHDVAATVDALTVWQAVQAVP 6day-a2-m1-cB_6day-a2-m1-cD Xanthomonas albilineans Dihydropteroate synthase with 4-aminobenzoic acid at 1.65 A D2UDM3 D2UDM3 1.65 X-RAY DIFFRACTION 24 1.0 380358 (Xanthomonas albilineans GPE PC73) 380358 (Xanthomonas albilineans GPE PC73) 269 273 6day-a1-m1-cB_6day-a1-m1-cD SPRLDCAGRILTLDRPRVMGIVNVTPDSFSDGGTHTTVEAAVAHGLRLAEEGADLLDIGGESTRPGATAVPVEEELRRVIPVIERLVAQTALPLSVDTFKPEVMRAAVAAGAGMINDVQALRQPGALDAVADLRVPVVLMHMPPHYDDVVAEVHRFLVERIFAAEMAGIDKRRLLIDPGFGFGKSTADNVQLLAHLPRLCELGVPVLAGLSRKRSIGELTGRELPEQRVAGSVAAHLLAAQRGALLLRVHDVAATVDALTVWQAVQAVP TSPRLDCAGRILTLDRPRVMGIVNVTPDSFSDGGTHTTVEAAVAHGLRLAEEGADLLDIGGESTRPGATAVPVEEELRRVIPVIERLVAQTALPLSVDTFKPEVMRAAVAAGAGMINDVQALRQPGALDAVADLRVPVVLMHMPGDAPHYDDVVAEVHRFLVERIFAAEMAGIDKRRLLIDPGFGFGKSTADNVQLLAHLPRLCELGVPVLAGLSRKRSIGELTGRELPEQRVAGSVAAHLLAAQRGALLLRVHDVAATVDALTVWQAVQAVP 6day-a2-m1-cC_6day-a2-m1-cD Xanthomonas albilineans Dihydropteroate synthase with 4-aminobenzoic acid at 1.65 A D2UDM3 D2UDM3 1.65 X-RAY DIFFRACTION 85 0.989 380358 (Xanthomonas albilineans GPE PC73) 380358 (Xanthomonas albilineans GPE PC73) 264 273 6day-a1-m1-cA_6day-a1-m1-cB 6day-a1-m1-cC_6day-a1-m1-cD 6ofw-a1-m1-cA_6ofw-a1-m1-cB 6q62-a2-m1-cD_6q62-a2-m1-cC DTSPRLDCAGRILTLDRPRVMGIVNVTPDSFTHTTVEAAVAHGLRLAEEGADLLDIGGESVPVEEELRRVIPVIERLVAQTALPLSVDTFKPEVMRAAVAAGAGMINDVQALRQPGALDAVADLRVPVVLMHMPAGSAPHYDDVVAEVHRFLVERIFAAEMAGIDKRRLLIDPGFGFGKSTADNVQLLAHLPRLCELGVPVLAGLSRKRSIGELTGRELPEQRVAGSVAAHLLAAQRGALLLRVHDVAATVDALTVWQAVQAVP TSPRLDCAGRILTLDRPRVMGIVNVTPDSFSDGGTHTTVEAAVAHGLRLAEEGADLLDIGGESTRPGATAVPVEEELRRVIPVIERLVAQTALPLSVDTFKPEVMRAAVAAGAGMINDVQALRQPGALDAVADLRVPVVLMHMPGDAPHYDDVVAEVHRFLVERIFAAEMAGIDKRRLLIDPGFGFGKSTADNVQLLAHLPRLCELGVPVLAGLSRKRSIGELTGRELPEQRVAGSVAAHLLAAQRGALLLRVHDVAATVDALTVWQAVQAVP 6db1-a1-m1-cB_6db1-a1-m1-cA 2.0 Angstrom Resolution Crystal Structure of N-Terminal Ligand-Binding Domain of Putative Methyl-Accepting Chemotaxis Protein from Salmonella enterica Q8ZM14 Q8ZM14 2 X-RAY DIFFRACTION 40 0.992 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 128 130 NDIDRHLVRQTVLSQGNDQYFRFVTRLSRADVKIGGGTPDFAPARQSLENRQKLEEKALSPGPNPDISREVLSNWQALLEKGVVPQQLAQQGSLTAWSEHASTVTPALSRAFGASAERFSHEAGALDN DIDRHLVRQTVLSQGNDQYFRFVTRLSRADVKIGGGTPDFAPARQSLENRQKLEEKALSPGPNPDISREVLSNWQALLEKGVVPQQLAQQGSLTAWSEHASTVTPALSRAFGASAERFSHEAGALDNTRV 6dbb-a3-m1-cC_6dbb-a3-m3-cC Crystal structure of a Putative aldehyde dehydrogenase family protein Burkholderia cenocepacia J2315 in complex with partially reduced NADH B4EIN4 B4EIN4 2.1 X-RAY DIFFRACTION 240 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 502 502 6dbb-a1-m1-cA_6dbb-a1-m2-cA 6dbb-a2-m1-cB_6dbb-a2-m2-cB QFNDILAALDIDLAQWKGNALTARSPLDGATLATLAVDTPADAERKIDAAHDAFLKWRTVPAPVRGELVRVFGNVLREHKAELGRLVTLEAGKITSEGLGEVQEMIDICDFAVGLSRQLYGLTIASERPGHRMMETWHPIGVCGVISAFNFPVAVWAWNAALAFVCGDSVVWKPSEKTPLTAIACHVLLQKALREFEKTHPGVAPAELGQLVLGMRDVGEVLTASKKVPVVSATGSVRMGQEVAKVLSQRLARGILELGGNNGMIVAPSADLDLVVRAVTFAAVGTAGQRCTTLRRLIVHRSLVEQLLPRIEKAYASVKVGNPLEEGTLVGPLVDRASFDAMQKALADAREQGGEVKGGERVDVGHADAYYVRPAIVRMPKQSAVVERETFAPILYVMVYDNFDDAIDVHNAVPQGLSSAIFTNDMREAEQFMSAAGSDCGIVNVNIGTSGAEIGGAFGGEKETGGGRESGSDAWKAYMRRATNTINYSRQLPLAQGVKFDV QFNDILAALDIDLAQWKGNALTARSPLDGATLATLAVDTPADAERKIDAAHDAFLKWRTVPAPVRGELVRVFGNVLREHKAELGRLVTLEAGKITSEGLGEVQEMIDICDFAVGLSRQLYGLTIASERPGHRMMETWHPIGVCGVISAFNFPVAVWAWNAALAFVCGDSVVWKPSEKTPLTAIACHVLLQKALREFEKTHPGVAPAELGQLVLGMRDVGEVLTASKKVPVVSATGSVRMGQEVAKVLSQRLARGILELGGNNGMIVAPSADLDLVVRAVTFAAVGTAGQRCTTLRRLIVHRSLVEQLLPRIEKAYASVKVGNPLEEGTLVGPLVDRASFDAMQKALADAREQGGEVKGGERVDVGHADAYYVRPAIVRMPKQSAVVERETFAPILYVMVYDNFDDAIDVHNAVPQGLSSAIFTNDMREAEQFMSAAGSDCGIVNVNIGTSGAEIGGAFGGEKETGGGRESGSDAWKAYMRRATNTINYSRQLPLAQGVKFDV 6dbp-a1-m1-cB_6dbp-a1-m1-cA RNA-recognition motif 1 of human MSI2 Q96DH6 Q96DH6 1.603 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 84 6nty-a1-m1-cB_6nty-a1-m1-cA MKMFIGGLSWQTSPDSLRDYFSKFGEIRECMVMRDPTTKRSRGFGFVTFADPASVDKVLGQPHHELDSKTIDPKVAFPRRAQ MKMFIGGLSWQTSPDSLRDYFSKFGEIRECMVMRDPTTKRSRGFGFVTFADPASVDKVLGQPHHELDSKTIDPKVAFPRRAQPK 6dc0-a1-m1-cA_6dc0-a1-m1-cB Tribbles (TRIB1) pseudokinase fused to CCAAT-enhancer binding protein (C/EBPalpha) degron P49715 P49715 2.8 X-RAY DIFFRACTION 125 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 265 270 PSRIADYLLLPLAEREHVSRALCIHTGRELRCKVFPIKHYQDKIRPYIQLPSHSNITGIVEVILGETKAYVFFEKDFGDMHSYVRSRKRLREEEAARLFKQIVSAVAHCHQSAIVLGDLKLRKFVFSTEERTQLRLESLEDTHIMKGEDDALSDKHGCPAYVSPEILNTTGTYSGKAADVWSLGVMLYTLLVGRYPFHDSDPSALFSKIRRGQFCIPEHISPKARCLIRSLLRREPSERLTAPEILLHPWFESVEHETSIDISAY SRIADYLLLPLAEHVSRALCTGRELRCKVFPIKHYQDKIRPYIQLPSHSNITGIVEVILGETKAYVFFEKDFGDMHSYVRSRKRLREEEAARLFKQIVSAVAHCHQSAIVLGDLKLRKFVFSTEERTQLRLESLEDTHIMKGEDDALSDKHGCPAYVSPEILNTTGTYSGKAADVWSLGVMLYTLLVGRYPFHDSDPSALFSKIRRGQFCIPEHISPKARCLIRSLLRREPSERLTAPEILLHPWFESVLICEHETSIDISAYIDPAAFN 6dcc-a2-m2-cA_6dcc-a2-m3-cA Structure of methylphosphate capping enzyme methyltransferase domain in complex with 5' end of 7SK RNA Q7L2J0 Q7L2J0 2.1 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 6dcc-a2-m1-cA_6dcc-a2-m2-cA 6dcc-a2-m1-cA_6dcc-a2-m3-cA KFQYGNYCKYYGYRNPSCEDGRLRVLKPEWFRGRDVLDLGCNVGHLTLSIACKWGPSRMVGLDIDSRLIHSARQNIRHYLSVFPNNVVFVTGNYVLDRDDLVEAQTPEYDVVLCLSLTKWVHLNWGDEGLKRMFRRIYRHLRPGGILVLEPQPWSSYGKRKTLTETIYKNYYRIQLKPEQFSSYLTSPDVGFSSYELVATPHNTSKGFQRPVYLFHKARSP KFQYGNYCKYYGYRNPSCEDGRLRVLKPEWFRGRDVLDLGCNVGHLTLSIACKWGPSRMVGLDIDSRLIHSARQNIRHYLSVFPNNVVFVTGNYVLDRDDLVEAQTPEYDVVLCLSLTKWVHLNWGDEGLKRMFRRIYRHLRPGGILVLEPQPWSSYGKRKTLTETIYKNYYRIQLKPEQFSSYLTSPDVGFSSYELVATPHNTSKGFQRPVYLFHKARSP 6dcl-a1-m1-cB_6dcl-a1-m1-cA Crystal structure of UP1 bound to pri-miRNA-18a terminal loop P09651 P09651 2.497 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 182 KEPEQLRKLFIGGLSFETTDESLRSHFEQWGTLTDCVVMRDPNTKRSRGFGFVTYATVEEVDAAMNARPHKVDGRVVEPKRAVSREDSQRPGAHLTVKKIFVGGIKEDTEEHHLRDYFEQYGKIEVIEIMTDKRGFAFVTFDDHDSVDKIVIQKYHTVNGHNCEVRKALSK PKEPEQLRKLFIGGLSFETTDESLRSHFEQWGTLTDCVVMRDPNTKRSRGFGFVTYATVEEVDAAMNARPHKVDGRVVEPKRAVSREDSQRPGAHLTVKKIFVGGIKEDTEEHHLRDYFEQYGKIEVIEIMTDRGSGKKRGFAFVTFDDHDSVDKIVIQKYHTVNGHNCEVRKALSKQEMAS 6dcq-a1-m1-cB_6dcq-a1-m1-cF Ectodomain of full length, wild type HIV-1 glycoprotein clone PC64M18C043 in complex with PGT151 Fab A0A2H4K974 A0A2H4K974 3.1 ELECTRON MICROSCOPY 55 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 122 139 AVGIGAVLFGFLGAAGSTMGAASLTLTVQARQLLSGIVGIKQLQARVLAVERYLSDQQLLGIWGCSGKLICTTNVPWNSSWSNKSQDEIWNNMTWLQWDKEISNYTDTIYYLIEKSQNQQEV AVGIGAVLFGFLGAAGSTMGAASLTLTVQARQLLSGIVQQQLRLTVWGIKQLQARVLAVERYLSDQQLLGIWGCSGKLICTTNVPWNSSWSNKSQDEIWNNMTWLQWDKEISNYTDTIYYLIEKSQNQQEVNEKDLLAL 6dcq-a1-m1-cE_6dcq-a1-m1-cC Ectodomain of full length, wild type HIV-1 glycoprotein clone PC64M18C043 in complex with PGT151 Fab A0A2H4K974 A0A2H4K974 3.1 ELECTRON MICROSCOPY 31 0.998 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 448 452 6dcq-a1-m1-cA_6dcq-a1-m1-cC 6dcq-a1-m1-cA_6dcq-a1-m1-cE NNLWVTVYYGVPVWRDAETTLFCASDAKAYDTEVHNVWATHACVPTDPSPQEIHLANVTEKFDMWKNSMVEQMHTDIISLWDESLKPCVKLTPLCITLNCTNITRNLTEEGKEELKNCSFNATTELRDKIQKVHSLFYRLDLVELNNTSMYRLINCNTSAITQACPKVSFEPIPIHYCAPAGFAILKCREKEFNGTGPCKKVSTVQCTHGIKPVVSTQLLLNGSLAEGKVKIRCENISNNAKTILVQLTTPVRINCTRPSNNTRTSIRIGPGQSFYATGDIIGDIRKAYCNVSESEWKEALGKVVEQLRNHFNKTITFASSSGGDLEITTHSFNCGGEFFYCNTSSLFNSTWDGNVPNGTITLPCRIKQIINMWQRTGQAMYAPPIPGKIRCDSNITGLILIRDNESETFRPGGGDMRNNWRSELYKYKVVKIDPLGVAPTGAKRRVV NNLWVTVYYGVPVWRDAETTLFCASDAKAYDTEVHNVWATHACVPTDPSPQEIHLANVTEKFDMWKNSMVEQMHTDIISLWDESLKPCVKLTPLCITLNCTNITRGNLTEEGKEELKNCSFNATTELRDKIQKVHSLFYRLDLVELNTSMYRLINCNTSAITQACPKVSFEPIPIHYCAPAGFAILKCREKEFNGTGPCKKVSTVQCTHGIKPVVSTQLLLNGSLAEGKVKIRCENISNNAKTILVQLTTPVRINCTRPSNNTRTSIRIGPGQSFYATGDIIGDIRKAYCNVSESEWKEALGKVVEQLRNHFNKTITFASSSGGDLEITTHSFNCGGEFFYCNTSSLFNSTWDGNSAVPNGTITLPCRIKQIINMWQRTGQAMYAPPIPGKIRCDSNITGLILIRDNNNESETFRPGGGDMRNNWRSELYKYKVVKIDPLGVAPTGAKRRVV 6dd9-a1-m1-cB_6dd9-a1-m1-cA Structure of mouse SYCP3, P1 form P70281 P70281 2.3 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 120 121 6dd8-a1-m1-cB_6dd8-a1-m1-cA YTKASFKASNQKIEQIWKTQQEEIQKLNNEYSQQFNVLQQWELDIQKFEEQGEKLSNLFRQQQKIFQQSRIVQSQRKAIKQIHEQFIKSLEDVEKNNDNLFTGTQSELKKEALQKKVETQ EYTKASFKASNQKIEQIWKTQQEEIQKLNNEYSQQFNVLQQWELDIQKFEEQGEKLSNLFRQQQKIFQQSRIVQSQRKAIKQIHEQFIKSLEDVEKNNDNLFTGTQSELKKEALQKKVETQ 6dd9-a1-m1-cD_6dd9-a1-m1-cA Structure of mouse SYCP3, P1 form P70281 P70281 2.3 X-RAY DIFFRACTION 123 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 121 6dd8-a1-m1-cD_6dd8-a1-m1-cA EYTKASFKASNQKIEQIWKTQQEEIQKLNNEYSQQFNVLQQWELDIQKFEEQGEKLSNLFRQQQKIFQQSRIVQSQRKAIKQIHEQFIKSLEDVEKNNTQSELKKEALQKKVET EYTKASFKASNQKIEQIWKTQQEEIQKLNNEYSQQFNVLQQWELDIQKFEEQGEKLSNLFRQQQKIFQQSRIVQSQRKAIKQIHEQFIKSLEDVEKNNDNLFTGTQSELKKEALQKKVETQ 6dd9-a1-m1-cD_6dd9-a1-m1-cB Structure of mouse SYCP3, P1 form P70281 P70281 2.3 X-RAY DIFFRACTION 32 0.991 10090 (Mus musculus) 10090 (Mus musculus) 114 120 EYTKASFKASNQKIEQIWKTQQEEIQKLNNEYSQQFNVLQQWELDIQKFEEQGEKLSNLFRQQQKIFQQSRIVQSQRKAIKQIHEQFIKSLEDVEKNNTQSELKKEALQKKVET YTKASFKASNQKIEQIWKTQQEEIQKLNNEYSQQFNVLQQWELDIQKFEEQGEKLSNLFRQQQKIFQQSRIVQSQRKAIKQIHEQFIKSLEDVEKNNDNLFTGTQSELKKEALQKKVETQ 6ddf-a1-m1-cD_6ddf-a1-m1-cR Mu Opioid Receptor-Gi Protein Complex P42866 3.5 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 10090 (Mus musculus) 2 281 6dde-a1-m1-cD_6dde-a1-m1-cR 8efq-a1-m1-cP_8efq-a1-m1-cR YG MVTAITIMALYSIVCVVGLFGNFLVMYVIVRYTKMKTATNIYIFNLALADALATSTLPFQSVNYLMGTWPFGNILCKIVISIDYYNMFTSIFTLCTMSVDRYIAVCHPVKALDFRTPRNAKIVNVCNWILSSAIGLPVMFMATTKYRQGSIDCTLTFSHPTWYWENLLKICVFIFAFIMPVLIITVCYGLMILRLKSVRMLSGSKEKDRNLRRITRMVLVVVAVFIVCWTPIHIYVIIKALITIPETTFQTVSWHFCIALGYTNSCLNPVLYAFLDENFKR 6ddi-a2-m1-cC_6ddi-a2-m2-cC Crystal Structure of the human BRD2 BD1 bromodomain in complex with a Tetrahydroquinoline analogue P25440 P25440 1.5 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 1x0j-a1-m1-cB_1x0j-a1-m1-cA 1x0j-a2-m1-cC_1x0j-a2-m2-cC 2dvq-a1-m1-cB_2dvq-a1-m1-cA 2dvq-a2-m1-cC_2dvq-a2-m2-cC 2dvr-a1-m1-cB_2dvr-a1-m1-cA 2dvr-a2-m1-cC_2dvr-a2-m2-cC 2dvs-a1-m1-cB_2dvs-a1-m1-cA 2dvs-a2-m1-cC_2dvs-a2-m2-cC 2ydw-a1-m1-cB_2ydw-a1-m2-cB 2ydw-a2-m1-cA_2ydw-a2-m1-cC 2yek-a1-m1-cB_2yek-a1-m1-cA 2yek-a2-m1-cC_2yek-a2-m2-cC 3aqa-a4-m1-cB_3aqa-a4-m1-cA 3aqa-a5-m1-cC_3aqa-a5-m2-cC 4a9e-a1-m1-cA_4a9e-a1-m1-cB 4a9e-a2-m1-cC_4a9e-a2-m2-cC 4a9f-a1-m1-cA_4a9f-a1-m1-cB 4a9f-a2-m1-cC_4a9f-a2-m2-cC 4a9h-a1-m1-cB_4a9h-a1-m1-cA 4a9h-a2-m1-cC_4a9h-a2-m2-cC 4a9i-a1-m1-cA_4a9i-a1-m1-cB 4a9i-a2-m1-cC_4a9i-a2-m2-cC 4a9j-a1-m1-cC_4a9j-a1-m2-cC 4a9j-a2-m1-cA_4a9j-a2-m1-cB 4a9m-a1-m1-cA_4a9m-a1-m1-cB 4a9m-a2-m1-cC_4a9m-a2-m2-cC 4a9n-a1-m1-cA_4a9n-a1-m1-cB 4a9n-a2-m1-cC_4a9n-a2-m2-cC 4a9o-a1-m1-cB_4a9o-a1-m1-cA 4a9o-a2-m1-cC_4a9o-a2-m2-cC 4akn-a1-m1-cB_4akn-a1-m1-cA 4akn-a2-m1-cC_4akn-a2-m2-cC 4alh-a1-m1-cA_4alh-a1-m1-cB 4alh-a2-m1-cC_4alh-a2-m2-cC 6db0-a1-m1-cA_6db0-a1-m1-cB 6db0-a2-m1-cC_6db0-a2-m2-cC 6ddi-a1-m1-cB_6ddi-a1-m1-cA 6jke-a1-m1-cB_6jke-a1-m1-cA 6jke-a2-m1-cC_6jke-a2-m2-cC 6k05-a1-m1-cB_6k05-a1-m1-cA 6k05-a2-m1-cC_6k05-a2-m2-cC 6ony-a1-m1-cB_6ony-a1-m1-cA 6tq1-a1-m1-cAAA_6tq1-a1-m1-cBBB 6tq1-a2-m1-cCCC_6tq1-a2-m2-cCCC 6tq2-a1-m1-cAAA_6tq2-a1-m1-cBBB 6tq2-a2-m1-cCCC_6tq2-a2-m2-cCCC 7dpn-a1-m1-cB_7dpn-a1-m1-cA 7env-a1-m1-cB_7env-a1-m1-cA 7env-a2-m1-cC_7env-a2-m2-cC 7vrh-a1-m1-cB_7vrh-a1-m1-cA 7vrh-a2-m1-cC_7vrh-a2-m2-cC 7vrk-a1-m1-cB_7vrk-a1-m1-cA 7vrk-a2-m1-cC_7vrk-a2-m2-cC 7vro-a1-m1-cB_7vro-a1-m1-cA 7vro-a2-m1-cC_7vro-a2-m2-cC 7vrz-a1-m1-cB_7vrz-a1-m1-cA 7vrz-a2-m1-cC_7vrz-a2-m2-cC 7vsf-a1-m1-cB_7vsf-a1-m1-cA 7vsf-a2-m1-cC_7vsf-a2-m2-cC TNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQ TNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQ 6de6-a1-m1-cB_6de6-a1-m1-cA 2.1 A resolution structure of histamine dehydrogenase from Rhizobium sp. 4-9 Q60I59 Q60I59 2.1 X-RAY DIFFRACTION 224 0.997 192498 (Rhizobium sp. 4-9) 192498 (Rhizobium sp. 4-9) 652 689 RDNKYDILFEPVRIGPHIAKNRFYQVPHCNGGGYRDPSAAAAMRGIKSEGGWGVIFTEQTEMHHTSEITPFIELRLWEDKDIPGLRRMSDAMKVHGALAGIQLAYSGINGPNFYTKEVPLAPSALPIRTFTNDPVQARALDKQDIKNLRRWFVNAAKRSKIAGFDLICLYGAHGFGIFQHFLSRATNQRTDEYGGSLENRSRFAREVVEDIKEAVGDTTAITMRVSREFVEMNANLPDLWDLAVKGIRELSSKPVVGVGRSPDVMARMVRQGVLDFIGCARPSIADPFLPKKIEEGRIEDIRECIGCNICITGDMTMSISRCTQNPTFMEEWRKGWHPERMNAKGDSNTVLVVGAGPAGLEATRALSLRGYDVTLAEATTTLGGRVARERLLPGLSAWGRVVDYRQYQISQRTNVETYFDSRLTAEDVLGFGFEHVAIATGSHWRRDGVARQHVVPMPIDPSMTVWTPDDIMAKVHPENLSGKTVVVYDDDHYYMGGVMAEVMAKAGAKVILVTSSAYVSDWTRNTLEQGAIHVRLDDLGVDIRLNRGVTAIRAGEVETNCVYTGKRSAIGCDAVLMVASRTSEDQLFNDLIARQGDWPDAGIKSVKIIGDAAAPAPIAWATYAGHRYARELDTPDIGDDLPFRREVTQLEP NKYDILFEPVRIGPHIAKNRFYQVPHCNGGGYRDPSAAAAMRGIKSEGGWGVIFTEQTEMHHTSEITPFIELRLWEDKDIPGLRRMSDAMKVHGALAGIQLAYSGINGPNFYTKEVPLAPSALPIRTFTNDPVQARALDKQDIKNLRRWFVNAAKRSKIAGFDLICLYGAHGFGIFQHFLSRATNQRTDEYGGSLENRSRFAREVVEDIKEAVGDTTAITMRVSLDETIGELGFSNAEVREFVEMNANLPDLWDLAQGTWEDCSGPSRFKEEGAQEILVKGIRELSSKPVVGVGRFTSPDVMARMVRQGVLDFIGCARPSIADPFLPKKIEEGRIEDIRECIGCNICITGDMTMSISRCTQNPTFMEEWRKGWHPERMNAKGDSNTVLVVGAGPAGLEATRALSLRGYDVTLAEATTTLGGRVARERLLPGLSAWGRVVDYRQYQISQRTNVETYFDSRLTAEDVLGFGFEHVAIATGSHWRRDGVARQHVVPMPIDPSMTVWTPDDIMAKVHPENLSGKTVVVYDDDHYYMGGVMAEVMAKAGAKVILVTSSAYVSDWTRNTLEQGAIHVRLDDLGVDIRLNRGVTAIRAGEVETNCVYTGKRSAIGCDAVLMVASRTSEDQLFNDLIARQGDWPDAGIKSVKIIGDAAAPAPIAWATYAGHRYARELDTPDIGDDLPFRREVTQLEP 6deb-a1-m1-cA_6deb-a1-m1-cB Crystal Structure of Bifunctional Enzyme FolD-Methylenetetrahydrofolate Dehydrogenase/Cyclohydrolase in the Complex with Methotrexate from Campylobacter jejuni Q0PA35 Q0PA35 1.7 X-RAY DIFFRACTION 92 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 284 284 3p2o-a1-m1-cB_3p2o-a1-m1-cA 6de8-a1-m1-cA_6de8-a1-m1-cB 6de8-a2-m1-cA_6de8-a2-m1-cB 6de8-a2-m2-cA_6de8-a2-m2-cB NAMTLLDGKALSAKIKEELKEKNQFLKSKGIESCLAVILVGDNPASQTYVKSKAKACEECGIKSLVYHLNENITQNELLALINTLNHDDSVHGILVQLPLPDHICKDLILESIISSKDVDGFHPINVGYLNLGLESGFLPCTPLGVMKLLKAYEIDLEGKDAVIIGASNIVGRPMATMLLNAGATVSVCHIKTKDLSLYTRQADLIIVAAGCVNLLRSDMVKEGVIVVDVGINRLESGKIVGDVDFEEVSKKSSYITPVPGGVGPMTIAMLLENTVKSAKNRLN NAMTLLDGKALSAKIKEELKEKNQFLKSKGIESCLAVILVGDNPASQTYVKSKAKACEECGIKSLVYHLNENITQNELLALINTLNHDDSVHGILVQLPLPDHICKDLILESIISSKDVDGFHPINVGYLNLGLESGFLPCTPLGVMKLLKAYEIDLEGKDAVIIGASNIVGRPMATMLLNAGATVSVCHIKTKDLSLYTRQADLIIVAAGCVNLLRSDMVKEGVIVVDVGINRLESGKIVGDVDFEEVSKKSSYITPVPGGVGPMTIAMLLENTVKSAKNRLN 6dfd-a1-m1-cB_6dfd-a1-m1-cA Crystal structure of CNNM3 cyclic nucleotide-binding homology domain Q8NE01 Q8NE01 1.901 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 133 LLLATQRFLSREVDVFSPLRSEKVLLHLLKHPSVNQEVRFDESNRLATHHYLYQRSQPVDYFILILQGRVEVEIGKEGLKFENGAFTYYGVSALYCPDYTVRALSDLQLIKVTRLQYLNALA YKVTISPQLLLATQRFLSREVDVFSPLRSEKVLLHLLKHPSVNQEVRFDESNRLATHHYLYQRSQPVDYFILILQGRVEVEIGKEGLKFENGAFTYYGVSALYCPDYTVRALSDLQLIKVTRLQYLNALATRA 6dft-a3-m1-cI_6dft-a3-m1-cK Trypanosoma brucei deoxyhypusine synthase Q38BX0 Q38BX0 3.5 X-RAY DIFFRACTION 17 0.997 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 364 381 6dft-a1-m1-cC_6dft-a1-m1-cA KQVVVGPNQEDLHSAEAVLNRYSTVGFQASNLARAFSICEMMLTPQSPSPQPTLFVGVTANLFGTGCREAIRFLCTECVPLPNGVEPAALKPSPCDSRALIHVLVVSGGAMEHDIRRACESYKLSTDCHFGNVRYNSSGVASRNLFSCVMRCLVKRLAEAQRKEKANRDVCSWAITPSTLWYMAGLWMADIFTEALQETGEVTDEKVASEEGLKRAKSTVLYWAARNGVPIFSPSLTDGDIMEFILTAGDTGVPLLQLDLVADIHRLNRLAMRSRRTGMMILGGGVVKHHVCNANLMRNGADYAVFLNNAQEFDGSDAGARPGEAVSWGKLRLDSTAVKVYSEVTIVFPLIVVHVFVAWVRMMR KQVVVGPNQEDLHSAEAVLNRYSTVGFQASNLARAFSICEMMLTPQSPSPSPVMVQPTLFVGVTANLFGTGCREAIRFLCTECVPLPNGVEPAGALKPSPCDSRALIHVLVVSGGAMEHDIRRACESYKLSDCHFGNVRYNSSGVASRNLFSCVMRCLVKRLAEAQRKEKANREAAPIPEAYYDVCSWAITPSTLWYMAGLWMADIFTEALQETGEVTDEKVASEEGLKRAKSTVLYWAARNGVPIFSPSLTDGDIMEFILTAGDTGVPLLQLDLVADIHRLNRLAMRSRRTGMMILGGGVVKHHVCNANLMRNGADYAVFLNNAQEFDGSDAGARPGEAVSWGKLRLDSTAVKVYSEVTIVFPLIVVHVFVAWVRMMRSK 6dft-a3-m1-cJ_6dft-a3-m1-cL Trypanosoma brucei deoxyhypusine synthase Q4GZD1 Q4GZD1 3.5 X-RAY DIFFRACTION 18 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 316 317 6dft-a1-m1-cB_6dft-a1-m1-cD 6dft-a2-m1-cH_6dft-a2-m1-cF SRVIGDLDYSNLLNIGQEEAIRCVLNAYPNIGLEATNLGRARRIVQRALNDNGMDGNKVMLAYTSNLISSGLRDTFACLARENRIGAVVTTAGGVEEDVIKCLGDTLVGDFALNDHALRNNGLNRVGNLLVPNDNYRNFEDFFVPLLRRLHEQQRDSRWTTKTTPSQIIAEIGAALESVRPNDCGSSLIYWCYRNDIPVFSPAFTDGSMGDMIYFYNYSRKGLVVDPVPDVRRLRQLGCGRITCIVLGAGLPKHHLLRNVQADAVVYVTTGSDADGCESSCNVMADRANGLLSPNCDVVRVHGDATIISPLLLLRS SRVIGDLDYSNLLNIGQEEAIRCVLNAYPNIGLEATNLGRARRIVQRALNDNGMDGNKVMLAYTSNLISSGLRDTFACLARENRIGAVVTTAGGVEEDVIKCLGDTLVGDFALNDHALRNNGLNRVGNLLVPNDNYRNFEDFFVPLLRRLHEQQRDSRWTTKTTPSQIIAEIGAALESVRPNDCGSSLIYWCYRNDIPVFSPAFTDGSMGDMIYFYNYSRKGLVVDPVPDVRRLRQLGCVGRITCIVLGAGLPKHHLLRNVQADAVVYVTTGSDADGCESSCNVMADRANGLLSPNCDVVRVHGDATIISPLLLLRS 6dfu-a1-m1-cB_6dfu-a1-m1-cA Tryptophan--tRNA ligase from Haemophilus influenzae. P43835 P43835 2.05 X-RAY DIFFRACTION 158 0.997 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 331 332 AKPIVFSGVQPSGELTIGNYLGALRNWVKMQEDYECIFCVVDLHAITVRQDPVALRKATLDVLALYLACGIDPNKSTIFVQSHVPEHTQLSWVLNCYTYFGEMSRMTQFKDKSARYAENINVGLFDYPVLMAADILLYQAKSVPVGDDQKQHLEITRDIANRFNALYGNIFTIPEIFIGGARIMSLQDPEKKMSKSDDNRNNVVTLLEDPKSVAKKIKRAVTDSDEPPVVRYDVQNKAGVSNLLDILSAVTDKPIADLEKEFEGKMYGHLKTAVADEVSTLLASLQERFHQYRNDETLLDNILRQGAEKARAKAQETLAKVYEAVGFVAAK KPIVFSGVQPSGELTIGNYLGALRNWVKMQEDYECIFCVVDLHAITVRQDPVALRKATLDVLALYLACGIDPNKSTIFVQSHVPEHTQLSWVLNCYTYFGEMSRMTQFKDKSARYAENINVGLFDYPVLMAADILLYQAKSVPVGDDQKQHLEITRDIANRFNALYGNIFTIPEIFIGKAGARIMSLQDPEKKMSKSDDNRNNVVTLLEDPKSVAKKIKRAVTDSDEPPVVRYDVQNKAGVSNLLDILSAVTDKPIADLEKEFEGKMYGHLKTAVADEVSTLLASLQERFHQYRNDETLLDNILRQGAEKARAKAQETLAKVYEAVGFVAAK 6dgb-a1-m1-cB_6dgb-a1-m1-cA Crystal structure of the C-terminal catalytic domain of IS1535 TnpA, an IS607-like serine recombinase I6WZS4 I6WZS4 2.52 X-RAY DIFFRACTION 129 0.992 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 132 133 GVVLYARVSSHDRRSDLDRQVARLTAWATERDLGVGVVCEVGSGLGKRPKLRRILSDPDARVIVVEHRDRLARFGVEHLEAALSAQGRRIVVADPDDLVCDMIEVLTGMCARLYGRRGARNRAMRAVTEAKR VVLYARVSSHDRRSDLDRQVARLTAWATERDLGVGQVVCEVGSGLGKRPKLRRILSDPDARVIVVEHRDRLARFGVEHLEAALSAQGRRIVVADPDDLVCDMIEVLTGMCARLYGRRGARNRAMRAVTEAKRE 6dgc-a2-m1-cD_6dgc-a2-m1-cC Crystal structure of the C-terminal catalytic domain of ISC1926 TnpA, an IS607-like serine recombinase Q5MPE7 Q5MPE7 2.92 X-RAY DIFFRACTION 72 0.986 303364 (Sulfolobus sp. L00 11) 303364 (Sulfolobus sp. L00 11) 141 142 6dgc-a1-m1-cB_6dgc-a1-m1-cA IRAVIYARVSSSDQKEDLERQINYLTNYATAKGYKVVEVLKDIASGLNTQRKGLLKLFKLVEGRSVDVVLITYKDRLTRFGFEYIEELFSTMGVKIEVVFGTQELVEDLISIITSFAGKIYGMRSHKKTVLVQGVKKLIGE IRAVIYARVSSSDQKEDLERQINYLTNYATAKGYKVVEVLKDIASGLNTQRKGLLKLFKLVEGRSVDVVLITYKDRLTRFGFEYIEELFSTMGVKIEVVKDATQELVEDLISIITSFAGKIYGMRSHKKTVLVQGVKKLIGE 6dgi-a1-m1-cB_6dgi-a1-m2-cA The crystal structure of D-alanyl-alanine synthetase A from Vibrio cholerae O1 biovar eltor str. N16961 Q9KM17 Q9KM17 2.3 X-RAY DIFFRACTION 95 0.997 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 320 325 TKTTILLLCGGGSSEHEISLVSANYIQQQLELTPEFHVIRVEKKEGWFSEQGALVYLDTNSATLNSDKASYPIDFVVPCIHGFPGETGDIQSLELAGIPYLGCGPEASANSFNKITSKLWYDALDIPNTPYLFLTQNTPSSIDKAKQAFGHWGSIFVKAARQGSSVGCYKVTTEDQIAPAIEAAFGFSEQVLVEQAVKPRELEVSAYENGKLYISKPGEVIAPEGTFYSYEEKYSRTVLEAENLTEKHKELIQTYAERVFIHKLRHLSRIDFFLTQEGQIYLNEVNTFPGTPISFPKLEHNGHRFSEFLVQCVTNTLVNA ATKTTILLLCGGGSSEHEISLVSANYIQQQLELTPEFHVIRVEKKEGWFSEQGALVYLDTNSATLNSDKASYPIDFVVPCIHGFPGETGDIQSLELAGIPYLGCGPEASANSFNKITSKLWYDALDIPNTPYLFLTQNTPSSIDKAKQAFGHWGSIFVKAARQGSSVGCYKVTTEDQIAPAIEAAFGFSEQVLVEQAVKPRELEVSAYENGKLYISKPGEVIAPEGTFYSYEEKYSANSHARTVLEAENLTEKHKELIQTYAERVFIHKLRHLSRIDFFLTQEGQIYLNEVNTFPGTPISFPKLEHNGHRFSEFLVQCVTNTLVN 6dgm-a3-m1-cA_6dgm-a3-m1-cB Streptococcus pyogenes phosphoglycerol transferase GacH in complex with sn-glycerol-1-phosphate Q48UA4 Q48UA4 1.49 X-RAY DIFFRACTION 79 1.0 293653 (Streptococcus pyogenes MGAS5005) 293653 (Streptococcus pyogenes MGAS5005) 381 382 GAMEKPTNYSQETIASIAQKYQKLAEDINKDRKNNIADQTVIYLLSESLSDPDRVSNVTVSHDVLPNIKAIKNSTTAGLMQSDSYGGGTANMEFQTLTSLPFYNFSSSVSVLYSEVFPKMAKPHTISEFYQGKNRIAMHPASANNFNRKTVYSNLGFSKFLALSGSKDKFKNIENVGLLTSDKTVYNNILSLINPSESQFFSVITMQNHIPWSSDYPEEIVAEGKNFTEEENHNLTSYARLLSFTDKETRAFLEKLTQINKPITVVFYGDHLPGLYPDSAFNKHIENKYLTDYFIWSNGTNEKKNHPLINSSDFTAALFEHTDSKVSPYYALLTEVLNKASVDKSPDSPEVKAIQNDLKNIQYDVTIGKGYLLKHKTFFKI GAMEKPTNYSQETIASIAQKYQKLAEDINKDRKNNIADQTVIYLLSESLSDPDRVSNVTVSHDVLPNIKAIKNSTTAGLMQSDSYGGGTANMEFQTLTSLPFYNFSSSVSVLYSEVFPKMAKPHTISEFYQGKNRIAMHPASANNFNRKTVYSNLGFSKFLALSGSKDKFKNIENVGLLTSDKTVYNNILSLINPSESQFFSVITMQNHIPWSSDYPEEIVAEGKNFTEEENHNLTSYARLLSFTDKETRAFLEKLTQINKPITVVFYGDHLPGLYPDSAFNKHIENKYLTDYFIWSNGTNEKKNHPLINSSDFTAALFEHTDSKVSPYYALLTEVLNKASVDKSPDSPEVKAIQNDLKNIQYDVTIGKGYLLKHKTFFKIS 6dhi-a2-m1-cD_6dhi-a2-m1-cB Butelase 1: Auto-Catalytic Cleavage as an Evolutionary Constraint for Macrocyclizing Endopeptidases A0A060D9Z7 A0A060D9Z7 3.1 X-RAY DIFFRACTION 28 1.0 43366 (Clitoria ternatea) 43366 (Clitoria ternatea) 405 430 6dhi-a1-m1-cA_6dhi-a1-m1-cC GTRWAVLVAGSKGYVNYRHQADVCHAYQILKKGGLKDENIIVFMYDDIAYNESNPHPGVIINHPYGSDVYKGVPKDYVGEDINPPNFYAVLLANKSALTGTGSGKVLDSGPNDHVFIYYTHGGAGVLGMPSKPYIAASDLNDVLKKKHASGTYKSIVFYVESCESGSMFDGLLPEDHNIYVMGASDTGESSWVTYCPLQHPSPPPEYDVCVGDLFSVAWLEDCDVHNLQTETFQQQYEVVKNKHVVQYGDVGLSKQTLFVYMGVSQRDADLIHYWEKYRRAPEGSSRKAEAKKQLREVMAHRMHIDNSVKHIGKLLFGIEKGHKMLNNVRPAGLPVVDDWDCFKTLIRTFETHCGSLSEYGMKHMRSFANLCNAGIRKEQMAEASAQACVSIPDNPWSSLHAGFS GTRWAVLVAGSKGYVNYRHQADVCHAYQILKKGGLKDENIIVFMYDDIAYNESNPHPGVIINHPYGSDVYKGVPKDYVGEDINPPNFYAVLLANKSALTGTGSGKVLDSGPNDHVFIYYTHGGAGVLGMPSKPYIAASDLNDVLKKKHASGTYKSIVFYVESCESGSMFDGLLPEDHNIYVMGASDTGESSWVTYCPLQHPSPPPEYDVCVGDLFSVAWLEDCDVHNLQTETFQQQYEVVKNKTIVALIEDGTHVVQYGDVGLSKQTLFVYMGTDPANDNNTFTPRKAVSQRDADLIHYWEKYRRAPEGSSRKAEAKKQLREVMAHRMHIDNSVKHIGKLLFGIEKGHKMLNNVRPAGLPVVDDWDCFKTLIRTFETHCGSLSEYGMKHMRSFANLCNAGIRKEQMAEASAQACVSIPDNPWSSLHAGFS 6dhm-a1-m1-cC_6dhm-a1-m1-cD Bovine glutamate dehydrogenase complexed with zinc P00366 P00366 3 X-RAY DIFFRACTION 10 1.0 9913 (Bos taurus) 9913 (Bos taurus) 495 495 1nqt-a1-m1-cB_1nqt-a1-m1-cE 1nqt-a2-m1-cJ_1nqt-a2-m1-cL 1nqt-a3-m1-cB_1nqt-a3-m1-cE 1nqt-a3-m1-cJ_1nqt-a3-m1-cL 1nr7-a2-m1-cH_1nr7-a2-m1-cK 1nr7-a3-m1-cH_1nr7-a3-m1-cK 3etd-a1-m1-cA_3etd-a1-m1-cE 3etd-a1-m1-cB_3etd-a1-m1-cC 3etd-a1-m1-cD_3etd-a1-m1-cF 3etg-a1-m1-cA_3etg-a1-m1-cE 3etg-a1-m1-cB_3etg-a1-m1-cC 3etg-a1-m1-cD_3etg-a1-m1-cF 3jcz-a1-m1-cA_3jcz-a1-m1-cF 3jcz-a1-m1-cB_3jcz-a1-m1-cE 3jcz-a1-m1-cC_3jcz-a1-m1-cD 3jd0-a1-m1-cA_3jd0-a1-m1-cF 3jd0-a1-m1-cB_3jd0-a1-m1-cE 3jd0-a1-m1-cC_3jd0-a1-m1-cD 3jd1-a1-m1-cA_3jd1-a1-m1-cF 3jd1-a1-m1-cB_3jd1-a1-m1-cE 3jd1-a1-m1-cC_3jd1-a1-m1-cD 3jd2-a1-m1-cA_3jd2-a1-m1-cF 3jd2-a1-m1-cB_3jd2-a1-m1-cE 3jd2-a1-m1-cC_3jd2-a1-m1-cD 3jd3-a1-m1-cA_3jd3-a1-m1-cF 3jd3-a1-m1-cB_3jd3-a1-m1-cE 3jd3-a1-m1-cC_3jd3-a1-m1-cD 3jd4-a1-m1-cA_3jd4-a1-m1-cF 3jd4-a1-m1-cB_3jd4-a1-m1-cE 3jd4-a1-m1-cC_3jd4-a1-m1-cD 6dhd-a1-m1-cB_6dhd-a1-m1-cF 6dhl-a1-m1-cA_6dhl-a1-m1-cE 6dhl-a1-m1-cB_6dhl-a1-m1-cC 6dhl-a1-m1-cD_6dhl-a1-m1-cF 6dhl-a2-m1-cG_6dhl-a2-m1-cK 6dhl-a2-m1-cH_6dhl-a2-m1-cI 6dhl-a2-m1-cJ_6dhl-a2-m1-cL 6dhm-a1-m1-cA_6dhm-a1-m1-cE 6dhm-a1-m1-cB_6dhm-a1-m1-cF 6dhn-a1-m1-cA_6dhn-a1-m1-cE 6dhn-a1-m1-cB_6dhn-a1-m1-cF 6dhn-a1-m1-cC_6dhn-a1-m1-cD 6dqg-a1-m1-cB_6dqg-a1-m1-cE 6dqg-a1-m1-cD_6dqg-a1-m1-cF 7uzm-a1-m1-cA_7uzm-a1-m1-cD 7uzm-a1-m1-cB_7uzm-a1-m1-cF 7uzm-a1-m1-cC_7uzm-a1-m1-cE 7vda-a1-m1-cA_7vda-a1-m1-cC 7vda-a1-m1-cB_7vda-a1-m1-cE 7vda-a1-m1-cD_7vda-a1-m1-cF 8ar7-a1-m1-cA_8ar7-a1-m1-cF 8ar7-a1-m1-cB_8ar7-a1-m1-cE 8ar7-a1-m1-cC_8ar7-a1-m1-cD 8ar8-a1-m1-cC_8ar8-a1-m1-cD 8ar8-a1-m1-cE_8ar8-a1-m1-cB 8ar8-a1-m1-cF_8ar8-a1-m1-cA ADREDDPNFFKMVEGFFDRGASIVEDKLVEDLKTRETEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGVDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFAVQGFGNVGLHSMRYLHRFGAKCVAVGESDGSIWNPDGIDPKELEDFKLQHGTILGFPKAKIYEGSILEVDCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFRVYNE ADREDDPNFFKMVEGFFDRGASIVEDKLVEDLKTRETEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTDNELEKITRRFTMELAKKGFIGPGVDVPAPDMSTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFGDKTFAVQGFGNVGLHSMRYLHRFGAKCVAVGESDGSIWNPDGIDPKELEDFKLQHGTILGFPKAKIYEGSILEVDCDILIPAASEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNIMVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLMSVQESLERKFGKHGGTIPIVPTAEFQDRISGASEKDIVHSGLAYTMERSARQIMRTAMKYNLGLDLRTAAYVNAIEKVFRVYNE 6dhv-a1-m1-cA_6dhv-a1-m1-cB Structure of Arabidopsis Fatty Acid Amide Hydrolase Q7XJJ7 Q7XJJ7 2.099 X-RAY DIFFRACTION 118 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 594 597 6dii-a1-m1-cA_6dii-a1-m1-cB 6dii-a2-m1-cC_6dii-a2-m1-cD 6dii-a3-m1-cE_6dii-a3-m1-cF 6dii-a4-m1-cG_6dii-a4-m1-cH 6dii-a5-m1-cI_6dii-a5-m1-cJ 6dii-a6-m1-cK_6dii-a6-m1-cL YQVMKRASEVDLSTVKYKAETMKAPHLTGLSFKLFVNLLEAPLIGSLIVDYLKKDNGMTKIFRNTVIPEEPMFRPEFPSQEPEHDVVIVGEDESPIDRLETALKCLPQYDPSRSFRYWKIRDYAYAYRSKLTTPLQVAKRIISIIEEFGYDKPPTPFLIRFDANEVIKQAEASTRRFEQGNPISVLDGIFVTIKDDIDCLPHPTNGGTTWLHEDRSVEKDSAVVSKLRSCGAILLGKANMHELGMGTTGNNSNYGTTRNPHDPKRYTGGSSSGSAAIVAAGLCSAALGTDGGGSVRIPSALCGITGLKTTYGRTDMTGSLCEGGTVEIIGPLASSLEDAFLVYAAILGSSSADRYNLKPSPPCFPKLLSHNGSNAIGSLRLGKYTKWFNDVSSSDISDKCEDILKLLSNNHGCKVVEIVVPELEEMRAAHVISIGSPTLSSLTPYCEAGKNSKLSYDTRTSFAIFRSFSASDYIAAQCLRRRLMEYHLNIFKDVDVIVTPTTGMTAPVIPPDALKNGETNIQVTTDLMRFVLAANLLGFPAISVPVGYDKEGLPIGLQIMGRPWAEATVLGLAAAVEELAPVTKKPAIFYDILN MGKYQVMKRASEVDLSTVKYKAETMKAPHLTGLSFKLFVNLLEAPLIGSLIVDYLKKDNGMTKIFRNTVIPEEPMFRPEFPSQEPEHDVVIVGEDESPIDRLETALKCLPQYDPSRSFRYWKIRDYAYAYRSKLTTPLQVAKRIISIIEEFGYDKPPTPFLIRFDANEVIKQAEASTRRFEQGNPISVLDGIFVTIKDDIDCLPHPTNGGTTWLHEDRSVEKDSAVVSKLRSCGAILLGKANMHELGMGTTGNNSNYGTTRNPHDPKRYTGGSSSGSAAIVAAGLCSAALGTDGGGSVRIPSALCGITGLKTTYGRTDMTGSLCEGGTVEIIGPLASSLEDAFLVYAAILGSSSADRYNLKPSPPCFPKLLSHNGSNAIGSLRLGKYTKWFNDVSSSDISDKCEDILKLLSNNHGCKVVEIVVPELEEMRAAHVISIGSPTLSSLTPYCEAGKNSKLSYDTRTSFAIFRSFSASDYIAAQCLRRRLMEYHLNIFKDVDVIVTPTTGMTAPVIPPDALKNGETNIQVTTDLMRFVLAANLLGFPAISVPVGYDKEGLPIGLQIMGRPWAEATVLGLAAAVEELAPVTKKPAIFYDILN 6dio-a3-m5-cB_6dio-a3-m2-cC Structure of class II HMG-CoA reductase from Delftia acidovorans with NAD bound A9BQX8 A9BQX8 2.14 X-RAY DIFFRACTION 82 1.0 80866 (Delftia acidovorans) 80866 (Delftia acidovorans) 427 428 6dio-a3-m1-cA_6dio-a3-m5-cA 6dio-a3-m1-cB_6dio-a3-m3-cC VADSRLPNFRALTPAQRRDFLADACGLSDAERALLAAPGALPLALADGMIENVFGSFELPLGVAGNFRVNGRDVLVPMAVEEPSVVAAASYMAKLAREDGGFQTSSTLPLMRAQVQVLGVTDPHGARLAVLQARAQIIERANSRDKVLIGLGGGCKDIEVHVFPDTPRGPMLVVHLIVDVRDAMGANTVNTMAESVAPLVEKITGGSVRLRILSNLADLRLARARVRLTPQTLATQDRSGEEIIEGVLDAYTFAAIDPYRAATHNKGIMNGIDPVIVATGNDWRAVEAGAHAYASRSGSYTSLTRWEKDAGGALVGSIELPMPVGLVGGATKTHPLARLALKIMDLQSAQQLGEIAAAVGLAQNLGALRALATEGIQRGHMALHARNIALVAGATGDEVDAVARQLAAEHDVRTDRALEVLAALRAR VADSRLPNFRALTPAQRRDFLADACGLSDAERALLAAPGALPLALADGMIENVFGSFELPLGVAGNFRVNGRDVLVPMAVEEPSVVAAASYMAKLAREDGGFQTSSTLPLMRAQVQVLGVTDPHGARLAVLQARAQIIERANSRDKVLIGLGGGCKDIEVHVFPDTPRGPMLVVHLIVDVRDAMGANTVNTMAESVAPLVEKITGGSVRLRILSNLADLRLARARVRLTPQTLATQDRSGEEIIEGVLDAYTFAAIDPYRAATHNKGIMNGIDPVIVATGNDWRAVEAGAHAYASRSGSYTSLTRWEKDAGGALVGSIELPMPVGLVGGATKTHPLARLALKIMDLQSAQQLGEIAAAVGLAQNLGALRALATEGIQRGHMALHARNIALVAGATGDEVDAVARQLAAEHDVRTDRALEVLAALRARA 6diy-a1-m7-cA_6diy-a1-m8-cA YTFGQ segment from Human Immunoglobulin Light-Chain Variable Domain, Residues 96-100, assembled as an amyloid fibril 0.9 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 5 5 6diy-a1-m1-cA_6diy-a1-m3-cA 6diy-a1-m1-cA_6diy-a1-m4-cA 6diy-a1-m2-cA_6diy-a1-m3-cA 6diy-a1-m5-cA_6diy-a1-m6-cA 6diy-a1-m5-cA_6diy-a1-m7-cA YTFGQ YTFGQ 6dj0-a1-m3-cB_6dj0-a1-m4-cA ASLTVS segment from Human Immunoglobulin Light-Chain Variable Domain, Residues 73-78, assembled as an amyloid fibril 1.3 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6dj0-a1-m1-cB_6dj0-a1-m2-cA ASLTVS ASLTVS 6dj0-a1-m4-cA_6dj0-a1-m4-cB ASLTVS segment from Human Immunoglobulin Light-Chain Variable Domain, Residues 73-78, assembled as an amyloid fibril 1.3 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6dj0-a1-m1-cA_6dj0-a1-m1-cB 6dj0-a1-m2-cA_6dj0-a1-m2-cB 6dj0-a1-m3-cA_6dj0-a1-m3-cB ASLTVS ASLTVS 6dj8-a1-m1-cB_6dj8-a1-m1-cA Structure of DNA polymerase III subunit beta from Borrelia burgdorferi in complex with a natural product P33761 P33761 2.05 X-RAY DIFFRACTION 75 0.995 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 376 384 NTFFICETNQIMNEIEKAKGIILNRNMNDIWSALLIEVKKSNLIIKSTDRNIFFESTISIVSETDFKVLINASNFYDAVKAFNFYKKIKIVFNENNSKLEIMGEEYEDHLKEPTFSYEEIENYNYDMVNEDYTFGIEIKQKSFKKVINRIAFSAHLDESKNVLNGVYFSKDEDSKLLLVSTNGHRMSICKTEVIVEEDVNFIVPVKIFNFLKHLMSGEGMVKIKFSDKKFYVEFDNYKIACSLINGNYPDYKSIIPKEQKNKSLVSLGILKDRLARVNLYVDKSRKLVLTFSELQLKLLGEDLITGRKGEFFIKDPNYLYDGADEVMAINISYFVEAISVFETSKIEIQFNSGNVLKLSEPENFNFTHLIMPMSLG HMLHNTFFICETNQIMNEIEKAKGIILNRNMNDIWSALLIEVKKSNLIIKSTDRNIFFESTISIVSETDFKVLINASNFYDAVKAFNFYKKIKIVFNENNSKLEIMGELNDEKEEYEDHLKEPTFSYEEIENYNYDMEDYTFGIEIKQKSFKKVINRIAFSAHLDESKNVLNGVYFSKDEDSKLLLVSTNGHRMSICKTEVIVEEDVNFIVPVKIFNFLKHLMSGEGMVKIKFSDKKFYVEFDNYKIACSLINGNYPDYKSIIPKEQKNKSLVSLGILKDRLARVNLYVDKSRKLVLTFSELQLKLLGEDLITGRKGEFFIKDPNYLYDGADEVMAINISYFVEAISVFETSKIEIQFNSGNVLKLSEPENFNFTHLIMPMSLG 6dj9-a3-m1-cJ_6dj9-a3-m1-cI Structure of the USP15 DUSP domain in complex with a high-affinity Ubiquitin Variant (UbV) 3.1 X-RAY DIFFRACTION 140 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 78 6dj9-a1-m1-cG_6dj9-a1-m1-cL 6dj9-a2-m8-cK_6dj9-a2-m1-cH MQIFVSTAWFCGKLITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIQKESGLQLHRRLRP GMQIFVSTAWFCGKLITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIQKESGLQLHRRLRP 6dj9-a5-m1-cB_6dj9-a5-m6-cF Structure of the USP15 DUSP domain in complex with a high-affinity Ubiquitin Variant (UbV) Q9Y4E8 Q9Y4E8 3.1 X-RAY DIFFRACTION 77 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 123 131 6dj9-a4-m1-cD_6dj9-a4-m2-cA 6dj9-a4-m2-cD_6dj9-a4-m5-cA 6dj9-a4-m5-cD_6dj9-a4-m1-cA 6dj9-a5-m3-cB_6dj9-a5-m1-cF 6dj9-a5-m6-cB_6dj9-a5-m3-cF AADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLDGSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL AEGGAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLT 6dj9-a5-m6-cB_6dj9-a5-m6-cF Structure of the USP15 DUSP domain in complex with a high-affinity Ubiquitin Variant (UbV) Q9Y4E8 Q9Y4E8 3.1 X-RAY DIFFRACTION 26 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 123 131 6dj9-a4-m1-cD_6dj9-a4-m1-cA 6dj9-a4-m2-cD_6dj9-a4-m2-cA 6dj9-a4-m5-cD_6dj9-a4-m5-cA 6dj9-a5-m1-cB_6dj9-a5-m1-cF 6dj9-a5-m3-cB_6dj9-a5-m3-cF AADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLDGSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYL AEGGAADLDTQRSDIATLLKTSLRKGDTWYLVDSRWFKQWKKYVGFDSWDKYQMGDQNVYPGPIDNSGLLKDAQSLKEHLIDELDYILLPTEGWNKLVSWYTLMEGQEPIARKVVEQGMFVKHCKVEVYLT 6djk-a1-m1-cA_6djk-a1-m2-cA Structure of DNA polymerase III subunit beta from Rickettsia typhi in complex with a natural product Q68WW0 Q68WW0 1.85 X-RAY DIFFRACTION 84 1.0 257363 (Rickettsia typhi str. Wilmington) 257363 (Rickettsia typhi str. Wilmington) 376 376 6d46-a1-m1-cA_6d46-a1-m2-cA HMLKLIVETKTLVQSLGFARSVVPEYANIKLSAKDGNLELSSTNMDLYLSQKIAVQVLSEGEITVSTQTLSDIVRKLPDSELTLTELDIMKLEIKGQNCQFNLFTLPVSSFPAMDSIKPEVSFKISCADFAKIIESTKFSISLDETRYNLNGIYLHIKDKEFFAASTDGHRLSISWITLEEKIKNFGVILPQKSAEEILKIVKDLKNIHEDIEILLSSNKIKFICNENTILLSKLIDGTFPDYSAFIPKSSISKLVINRKIFADSIERIAIITVEKFRAIKLSLSRKTLEISAVGEARGNAKEIITASQDKESFYEYNCDESLVIGFNPQYLEDVLKAVKSNLVELYFSDISASAPVLIKFPQNPKDIFVIMPVKV HMLKLIVETKTLVQSLGFARSVVPEYANIKLSAKDGNLELSSTNMDLYLSQKIAVQVLSEGEITVSTQTLSDIVRKLPDSELTLTELDIMKLEIKGQNCQFNLFTLPVSSFPAMDSIKPEVSFKISCADFAKIIESTKFSISLDETRYNLNGIYLHIKDKEFFAASTDGHRLSISWITLEEKIKNFGVILPQKSAEEILKIVKDLKNIHEDIEILLSSNKIKFICNENTILLSKLIDGTFPDYSAFIPKSSISKLVINRKIFADSIERIAIITVEKFRAIKLSLSRKTLEISAVGEARGNAKEIITASQDKESFYEYNCDESLVIGFNPQYLEDVLKAVKSNLVELYFSDISASAPVLIKFPQNPKDIFVIMPVKV 6djs-a1-m1-cC_6djs-a1-m1-cD Hybrid model of TRPC3 in GDN Q13507 Q13507 5.8 ELECTRON MICROSCOPY 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 490 490 6djs-a1-m1-cA_6djs-a1-m1-cB 6djs-a1-m1-cA_6djs-a1-m1-cD 6djs-a1-m1-cB_6djs-a1-m1-cC TAEEERFLDAAEYGNIPVVRKMLEESKTLNVNCVDYMGQNALQLAVGNEHLEVTELLLKKENLARIGDALLLAISKGYVRIVEAILNHPGFAITPIILAAHCQKYEVVHMLLMKGARCGDCMEKQRHDSFSHSRSRINAYKGLASPAYLSLSSEDPVLTALELSNELAKLANIEKEFKNDYRKLSMQCKDFVVGVLDLCRDSEEVEAILNGDLESAEPLEVHRHKASLSRVKLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTRYQQIMKRLIKRYVLKAQVDKENDEVNEGELKEIKQDISSLRYELL TAEEERFLDAAEYGNIPVVRKMLEESKTLNVNCVDYMGQNALQLAVGNEHLEVTELLLKKENLARIGDALLLAISKGYVRIVEAILNHPGFAITPIILAAHCQKYEVVHMLLMKGARCGDCMEKQRHDSFSHSRSRINAYKGLASPAYLSLSSEDPVLTALELSNELAKLANIEKEFKNDYRKLSMQCKDFVVGVLDLCRDSEEVEAILNGDLESAEPLEVHRHKASLSRVKLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTRYQQIMKRLIKRYVLKAQVDKENDEVNEGELKEIKQDISSLRYELL 6dk3-a2-m1-cA_6dk3-a2-m2-cA HUMAN MITOCHONDRIAL SERINE HYDROXYMETHYLTRANSFERASe 2 P34897 P34897 2.04 X-RAY DIFFRACTION 207 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 423 423 6r8f-a1-m1-cK_6r8f-a1-m1-cL GWTGQESLSDSDPEMWELLQREKDRQCRGLELIASENFCSRAALEALGSCLNNKYSEGEVVDEIELLCQRRALEAFDLDPAQWGVNVQPYSGSPANLAVYTALLQPHDRIMGLDPYKLNPKTGLIDYNQLALTARLFRPRLIIAGTSAYARLIDYARMREVCDEVKAHLLADMAHISGLVAAKVIPSPFKHADIVTTTTHKTLRGTRSGLIFYRKGVKAVDPGREIPYTFEDRINFAVFPSLQGGPHNHAIAAVAVALKQACTPMFREYSLQVLKNARAMADALLERGYSLVSGGTDNHLVLVDLRPKGLDGARAERVLELVSITANKNTCPGDRSAITPGGLRLGAPALTSRQFREDDFRRVVDFIDEGVNIGLEVKSKTAKLQDFKSFLLKDSETSQRLANLRQRVEQFARAFPMPGFDEH GWTGQESLSDSDPEMWELLQREKDRQCRGLELIASENFCSRAALEALGSCLNNKYSEGEVVDEIELLCQRRALEAFDLDPAQWGVNVQPYSGSPANLAVYTALLQPHDRIMGLDPYKLNPKTGLIDYNQLALTARLFRPRLIIAGTSAYARLIDYARMREVCDEVKAHLLADMAHISGLVAAKVIPSPFKHADIVTTTTHKTLRGTRSGLIFYRKGVKAVDPGREIPYTFEDRINFAVFPSLQGGPHNHAIAAVAVALKQACTPMFREYSLQVLKNARAMADALLERGYSLVSGGTDNHLVLVDLRPKGLDGARAERVLELVSITANKNTCPGDRSAITPGGLRLGAPALTSRQFREDDFRRVVDFIDEGVNIGLEVKSKTAKLQDFKSFLLKDSETSQRLANLRQRVEQFARAFPMPGFDEH 6dk4-a1-m2-cB_6dk4-a1-m1-cA Crystal structure of Campylobacter jejuni peroxide stress regulator Q0PBI7 Q0PBI7 2.71 X-RAY DIFFRACTION 87 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 113 135 LCVLKILKRHEHPNIDELYIEIKKEYSLATVYKNLNTLQEQGLVVEINVLQKTCYDIYEEEHIHVVCTKCGGIEDLSFKDAKLYEYQEHLEKKIGNLVNHLSVCAYVDNCKKC MELLQMLKKHELKATPQRLCVLKILKRHEHPNIDELYIEIKKEYPSISLATVYKNLNTLQEQGLVVEINVLNQKTCYDIYEEEHIHVVCTKCGGIEDLSFKDAKLYEYQEHLEKKIGNLVNHLSVCAYVDNCKKC 6dk7-a4-m1-cG_6dk7-a4-m1-cH RetS histidine kinase region with cobalt Q9HUV7 Q9HUV7 2.6 X-RAY DIFFRACTION 108 0.996 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 225 225 6dk7-a1-m1-cA_6dk7-a1-m1-cB 6dk7-a2-m1-cC_6dk7-a2-m1-cD 6dk7-a3-m1-cF_6dk7-a3-m1-cE 6dk8-a1-m1-cA_6dk8-a1-m1-cB 6dk8-a2-m1-cD_6dk8-a2-m1-cC 6dk8-a3-m1-cF_6dk8-a3-m1-cE 6dk8-a4-m1-cG_6dk8-a4-m1-cH EFLAKISHEIRTPMNGVLGMTELLLGTPLSAKQRDYVQTIHSAGNELLTLINEILDISKLESGQIELDEVQFDLNALIEDCLDIFRVKAEQQRIELISFTQPQVPRVIGGDPTRLRQVVLSLLDNAFKQTEEGEILLVVALDDQGETPRLRIAVQDSGHPFDAKEREALLTAELHSGDFLSASKLGSHLGLIIARQLVRLMGGEFGIQSGSQGTTLSLTLPLDPQ AEFLAKISHEIRTPMNGVLGMTELLLGTPLSAKQRDYVQTIHSAGNELLTLINEILDISKLESGQIELDEVQFDLNALIEDCLDIFRVKAEQQRIELISFTQPQVPRVIGGDPTRLRQVVLSLLDNAFKQTEEGEILLVVALDDQGETPRLRIAVQDSGHPFDAKEREALLTAELHSGDFLSASKLGSHLGLIIARQLVRLMGGEFGIQSGQGTTLSLTLPLDPQ 6dkh-a2-m1-cB_6dkh-a2-m1-cC The crystal structure of L-idonate 5-dehydrogenase from Escherichia coli str. K-12 substr. MG1655 P39346 P39346 2.608 X-RAY DIFFRACTION 121 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 345 346 6dkh-a1-m1-cA_6dkh-a1-m1-cD NAMQVKTQSCVVAGKKTVAVTEQTIDWNNNGTLVQITRGGICGSDLHYYQEGKVGNFMIKAPMVLGHEVIGKVIHSDSSELHEGQTVAINPSKPCGHCKYCIEHNENQCTDMRFFGSAMYFPHVDGGFTRYKMVETSQCVPYPAKADEKVMAFAEPLAVAIHAAHQAGELQGKRVFISGVGPIGCLIVSAVKTLGAAEIVCADVSPRSLSLGKEMGADVLVNPQNDDMDHWKAEKGYFDVSFEVSGHPSSVNTCLEVTRARGVMVQVGMGGAMAEFPMMTLIGKEISLRGSFRFTSEFNTAVSWLANGVINPLPLLSAEYPFTDLEEALRFAGDKTQAAKVQLVF SNAMQVKTQSCVVAGKKTVAVTEQTIDWNNNGTLVQITRGGICGSDLHYYQEGKVGNFMIKAPMVLGHEVIGKVIHSDSSELHEGQTVAINPSKPCGHCKYCIEHNENQCTDMRFFGSAMYFPHVDGGFTRYKMVETSQCVPYPAKADEKVMAFAEPLAVAIHAAHQAGELQGKRVFISGVGPIGCLIVSAVKTLGAAEIVCADVSPRSLSLGKEMGADVLVNPQNDDMDHWKAEKGYFDVSFEVSGHPSSVNTCLEVTRARGVMVQVGMGGAMAEFPMMTLIGKEISLRGSFRFTSEFNTAVSWLANGVINPLPLLSAEYPFTDLEEALRFAGDKTQAAKVQLVF 6dkk-a1-m1-cA_6dkk-a1-m1-cB Structure of BoNT P0DPI0 P0DPI0 2.7 X-RAY DIFFRACTION 181 1.0 441770 (Clostridium botulinum A str. ATCC 19397) 441770 (Clostridium botulinum A str. ATCC 19397) 313 326 GPKYTMFHYLRAQEFEHGKSRIALTNSVNEALLNPSRVYTFFSSDYVKKVNKATEAAMFLGWVEQLVYDFTDETSEVSTTDKIADITIIIPYIGPALNIGNMLYKDDFVGALIFSGAVILLEFIPEIAIPVLGTFALVSYIANKVLTVQTIDNALSKRNEKWDEVYKYIVTNWLAKVNTQIDLIRKKMKEALENQAEATKAIINYQYNQYTEEEKNNINFNIDDLSSKLNESINKAMININKFLNQCSVSYLMNSMIPYGVKRLEDFDASLKDALLKYIYDNRGTLIGQVDRLKDKVNNTLSTDIPFQLSKYV GPKYTMFHYLRAQEFEHGKSRIALTNSVNEALLNPSRVYTFFSSDYVKKVNKATEAAMFLGWVEQLVYDFTDETSEVSTTDKIADITIIIPYIGPALNIGNMLYKDDFVGALIFSGAVILLEFIPEIAIPVLGTFALVSYIANKVLTVQTIDNALSKRNEKWDEVYKYIVTNWLAKVNTQIDLIRKKMKEALENQAEATKAIINYQYNQYTEEEKNNINFNIDDLSSKLNESINKAMININKFLNQCSVSYLMNSMIPYGVKRLEDFDASLKDALLKYIYDNRGTLIGQVDRLKDKVNNTLSTDIPFQLSKYVDNQRLLSTFTEYI 6dky-a1-m1-cA_6dky-a1-m1-cB Crystal structure of ribifolin, an orbitide from Jatropha ribifolia 1.239 X-RAY DIFFRACTION 11 1.0 3995 (Jatropha) 3995 (Jatropha) 8 8 ILGSIILG ILGSIILG 6dlc-a1-m1-cA_6dlc-a1-m2-cA Designed protein DHD1:234_A, Designed protein DHD1:234_B 3.261 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 32630 (synthetic construct) 105 105 LYKLKTFLENLRRHLDRLDKHIKQLRDILSENPEDERVKDAIDLSERSVRIVKTVIKIFEDSVRKKEKRPDDKELDKLLDTLEKILQTATKIIDDANKLLEYLRR LYKLKTFLENLRRHLDRLDKHIKQLRDILSENPEDERVKDAIDLSERSVRIVKTVIKIFEDSVRKKEKRPDDKELDKLLDTLEKILQTATKIIDDANKLLEYLRR 6dlc-a1-m1-cB_6dlc-a1-m2-cB Designed protein DHD1:234_A, Designed protein DHD1:234_B 3.261 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 32630 (synthetic construct) 33 33 GDPKVVETYVELLKRHEKAVKELLEIAKTHAKK GDPKVVETYVELLKRHEKAVKELLEIAKTHAKK 6dle-a1-m1-cA_6dle-a1-m1-cB Crystal structure of IgLON5 homodimer A6NGN9 A6NGN9 3.994 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 271 271 PADNYTVCEGDNATLSCFIDEHVTRVAWLNRSNILYAGNDRWTSDPRVRLLINTPEEFSILITEVGLGDEGLYTCSFQTRHQPYTTQVYLIVHVPARIVNISSPVTVNEGGNVNLLCLAVGRPEPTVTWRQLRDGFTSEGEILEISDIQRGQAGEYECVTHNGVNSAPDSRRVLVTVNYPPTITDVTSARTALGRAALLRCEAMAVPPADFQWYKDDRLLSSGTAEGLKVQTERTRSMLLFANVSARHYGNYTCRAANRLGASSASMRLLR PADNYTVCEGDNATLSCFIDEHVTRVAWLNRSNILYAGNDRWTSDPRVRLLINTPEEFSILITEVGLGDEGLYTCSFQTRHQPYTTQVYLIVHVPARIVNISSPVTVNEGGNVNLLCLAVGRPEPTVTWRQLRDGFTSEGEILEISDIQRGQAGEYECVTHNGVNSAPDSRRVLVTVNYPPTITDVTSARTALGRAALLRCEAMAVPPADFQWYKDDRLLSSGTAEGLKVQTERTRSMLLFANVSARHYGNYTCRAANRLGASSASMRLLR 6dlf-a1-m1-cB_6dlf-a1-m1-cA Crystal structure of NTRI homodimer Q9P121 Q9P121 3.446 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 234 236 MDNVTVRQGESATLRCTIDNRVTRVAWLNRSTILYAGNDKWCLDPRVVLLSNTQTQYSIEIQNVDVYDEGPYTCSVQTDNHPKTSRVHLIVQVSPKIVEISSDISINEGNNISLTCIATGRPEPTVTWRHISPKAVGFVSEDEYLEIQGITREQSGDYECSASNDVAAPVVRRVKVTVNYPPYISTLQCEASAVPSAEFQWYKKVENRPFLSKLINYTCVASNKLGHTNASIML AMDNVTVRQGESATLRCTIDNRVTRVAWLNRSTILYAGNDKWCLDPRVVLLSNTQTQYSIEIQNVDVYDEGPYTCSVQTDNHPKTSRVHLIVQVSPKIVEISSDISINEGNNISLTCIATGRPEPTVTWRHISPKAVGFVSEDEYLEIQGITREQSGDYECSASNDVAAPVVRRVKVTVNYPPYISTLQCEASAVPSAEFQWYKKVENRPFLSKLIGNYTCVASNKLGHTNASIML 6dll-a2-m1-cC_6dll-a2-m1-cD 2.2 Angstrom Resolution Crystal Structure of P-Hydroxybenzoate Hydroxylase from Pseudomonas putida in Complex with FAD. Q88H28 Q88H28 2.2 X-RAY DIFFRACTION 60 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 397 397 6dll-a1-m1-cA_6dll-a1-m1-cB NAMKTQVAIIGAGPSGLLLGQLLHKAGIDNIIVERQTAEYVLGRIRAGVLEQGTVDLLREAGVAERMDREGLVHEGVELLVGGRRQRLDLKALTGGKTVMVYGQTEVTRDLMQAREASGAPIIYSAANVQPHELKGEKPYLTFEKDGRVQRIDCDYIAGCDGFHGISRQSIPEGVLKQYERVYPFGWLGLLSDTPPVNHELIYAHHERGFALCSQRSQTRSRYYLQVPLQDRVEEWSDERFWDELKARLPAEVAADLVTGPALEKSIAPLRSLVVEPMQYGHLFLVGDAAHIVPPTGAKGLNLAASDVNYLYRILVKVYHEGRVDLLAQYSPLALRRVWKGERFSWFMTQLLHDFGSHKDAWDQKMQEADREYFLTSPAGLVNIAENYVGLPFEEVA NAMKTQVAIIGAGPSGLLLGQLLHKAGIDNIIVERQTAEYVLGRIRAGVLEQGTVDLLREAGVAERMDREGLVHEGVELLVGGRRQRLDLKALTGGKTVMVYGQTEVTRDLMQAREASGAPIIYSAANVQPHELKGEKPYLTFEKDGRVQRIDCDYIAGCDGFHGISRQSIPEGVLKQYERVYPFGWLGLLSDTPPVNHELIYAHHERGFALCSQRSQTRSRYYLQVPLQDRVEEWSDERFWDELKARLPAEVAADLVTGPALEKSIAPLRSLVVEPMQYGHLFLVGDAAHIVPPTGAKGLNLAASDVNYLYRILVKVYHEGRVDLLAQYSPLALRRVWKGERFSWFMTQLLHDFGSHKDAWDQKMQEADREYFLTSPAGLVNIAENYVGLPFEEVA 6dly-a1-m1-cA_6dly-a1-m1-cB Crystal structure of DNA polymerase III subunit beta from Mycobacterium marinum in complex with a natural product B2HI47 B2HI47 2.1 X-RAY DIFFRACTION 77 0.997 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 375 384 6d47-a1-m1-cA_6d47-a1-m2-cA TDLKFRLVRESFADAVSWVAKNLPTRPAVPVLSGVLLTGSDEGLTISGFDYEVSAEVRVPAEIASPGTVLVSGRLLSDITRALPNKPVDFYVDGNRVALTCGNARFSLPTMAVEDYPTLPTLPEDTGTLPAELFSEAIGQVAIAAGRDDTLPMLTGIRVEISGEKVVLAATDRFRLAVRELTWNALSPDIEAAVLVPAKTLGEAAKASEVRLSLGAGMGVGKDGLLGISGDGKRSTTRLLDAEFPKFRQLLPAEHTAVASADVAELTEAIKLVALVADRGAQVRMEFADGMLRLSAGADDVGRAEEDIAVEFAGQPLTIAFNPTYLIDGLASLHSERVSFGFTTPGKPALLRPADQGPFAAVPTDYVYLLMPVRL TDLKFRLVRESFADAVSWVAKNLPTRPAVPVLSGVLLTGSDEGLTISGFDYEVSAEVRVPAEIASPGTVLVSGRLLSDITRALPNKPVDFYVDGNRVALTCGNARFSLPTMAVEDYPTLPTLPEDTGTLPAELFSEAIGQVAIAAGRDDTLPMLTGIRVEISGEKVVLAATDRFRLAVRELTWNALSPDIEAAVLVPAKTLGEAAKDGSEVRLSLGAGMGVGKDGLLGISGDGKRSTTRLLDAEFPKFRQLLPAEHTAVASADVAELTEAIKLVALVADRGAQVRMEFADGMLRLSAGADDVGRAEEDIAVEFAGQPLTIAFNPTYLIDGLASLHSERVSFGFTTPGKPALLRPASAEDRIVDQGPFAAVPTDYVYLLMPVRLP 6dm4-a2-m1-cC_6dm4-a2-m1-cD Crystal structure of the SH2 domain from RavO (Lpg1129) from Legionella pneumophila in complex with Homo sapiens Shc1 phospho-Tyr317 peptide Q5ZWF6 Q5ZWF6 1.9 X-RAY DIFFRACTION 36 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 119 119 6dm4-a1-m1-cA_6dm4-a1-m1-cB SEKIYKVMEEIFVDRHYKENIRTGEEVKQYFSKSKAEFILRWSSANESDTENKYVFIAASFQASDGIHSIRYGINKNGELFSINTASNKVTPIDILPLGVMATLTQHITQNKELIEKAL SEKIYKVMEEIFVDRHYKENIRTGEEVKQYFSKSKAEFILRWSSANESDTENKYVFIAASFQASDGIHSIRYGINKNGELFSINTASNKVTPIDILPLGVMATLTQHITQNKELIEKAL 6dmq-a4-m1-cG_6dmq-a4-m1-cH Crystal structure of the T27A mutant of human alpha defensin HNP4. P12838 P12838 1.7 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 6dmm-a1-m1-cB_6dmm-a1-m1-cA 6dmm-a2-m1-cD_6dmm-a2-m1-cC 6dmm-a3-m1-cF_6dmm-a3-m1-cE 6dmm-a4-m1-cG_6dmm-a4-m1-cH 6dmm-a5-m1-cI_6dmm-a5-m1-cJ 6dmm-a6-m1-cK_6dmm-a6-m1-cL 6dmq-a1-m1-cA_6dmq-a1-m1-cB 6dmq-a2-m1-cC_6dmq-a2-m1-cD 6dmq-a3-m1-cE_6dmq-a3-m1-cF VCSCRLVFCRRTELRVGNCLIGGVSFAYCCT VCSCRLVFCRRTELRVGNCLIGGVSFAYCCT 6dnf-a1-m1-cA_6dnf-a1-m1-cD Cryo-EM structure of the mitochondrial calcium uniporter MCU from the fungus Cyphellophora europaea W2SDE2 W2SDE2 3.2 ELECTRON MICROSCOPY 69 1.0 1220924 (Cyphellophora europaea CBS 101466) 1220924 (Cyphellophora europaea CBS 101466) 225 225 6dnf-a1-m1-cB_6dnf-a1-m1-cC TTPSRLLKLVLPLSTVDHAPLALLVHPQQPLSYLERLIQAELPEGEGKDEGEFVRWSPSTEIGDFIRDAARAKEFEVEIEGSPGVIKVAVPSFNDRTYYLRQRLRRTSRKISKLAAIKEECDKAAHRGAQRIALAGCGGLIGYWYIVYRLTFETDLGWDVMEPVTYLVGLSTLIGGYMWFLWHNRLYQAKGFSLQDWEGYLEEANAMRREIKAVASEYDVDWNET TTPSRLLKLVLPLSTVDHAPLALLVHPQQPLSYLERLIQAELPEGEGKDEGEFVRWSPSTEIGDFIRDAARAKEFEVEIEGSPGVIKVAVPSFNDRTYYLRQRLRRTSRKISKLAAIKEECDKAAHRGAQRIALAGCGGLIGYWYIVYRLTFETDLGWDVMEPVTYLVGLSTLIGGYMWFLWHNRLYQAKGFSLQDWEGYLEEANAMRREIKAVASEYDVDWNET 6dnf-a1-m1-cC_6dnf-a1-m1-cD Cryo-EM structure of the mitochondrial calcium uniporter MCU from the fungus Cyphellophora europaea W2SDE2 W2SDE2 3.2 ELECTRON MICROSCOPY 48 1.0 1220924 (Cyphellophora europaea CBS 101466) 1220924 (Cyphellophora europaea CBS 101466) 225 225 6dnf-a1-m1-cA_6dnf-a1-m1-cB TTPSRLLKLVLPLSTVDHAPLALLVHPQQPLSYLERLIQAELPEGEGKDEGEFVRWSPSTEIGDFIRDAARAKEFEVEIEGSPGVIKVAVPSFNDRTYYLRQRLRRTSRKISKLAAIKEECDKAAHRGAQRIALAGCGGLIGYWYIVYRLTFETDLGWDVMEPVTYLVGLSTLIGGYMWFLWHNRLYQAKGFSLQDWEGYLEEANAMRREIKAVASEYDVDWNET TTPSRLLKLVLPLSTVDHAPLALLVHPQQPLSYLERLIQAELPEGEGKDEGEFVRWSPSTEIGDFIRDAARAKEFEVEIEGSPGVIKVAVPSFNDRTYYLRQRLRRTSRKISKLAAIKEECDKAAHRGAQRIALAGCGGLIGYWYIVYRLTFETDLGWDVMEPVTYLVGLSTLIGGYMWFLWHNRLYQAKGFSLQDWEGYLEEANAMRREIKAVASEYDVDWNET 6dnt-a1-m1-cA_6dnt-a1-m2-cA UDP-N-acetylglucosamine 4-epimerase from Methanobrevibacter ruminantium M1 in complex with UDP-N-acetylmuramic acid D3E402 D3E402 1.66 X-RAY DIFFRACTION 85 1.0 634498 (Methanobrevibacter ruminantium M1) 634498 (Methanobrevibacter ruminantium M1) 310 310 MKDKNVVVTGGLGFIGSHIVDALIDDNKVTIIDNLSSGKMENLNNPNHENLTIIKEDLMDADLEKILKDKDYVFHLAALASVPGSVAEPLRYNQNNIDASLKLFIACKNNNIKKVIFSSSSAVYGENPNMPLKESENFLPCSPYAAQKASCELYLKSFHESYGLDYVALRYFNVFGPRQDENSPYAAVIPKFISAILNGESPVIYGDGEQSRDFIYVKEIAKANILSAESDYNGVINVALGKSMTINRLFEIISDVLESDIDVKYLDERPGDIKHSLADISNLDKISFKPDEDKFEEQLRETVKWFISQM MKDKNVVVTGGLGFIGSHIVDALIDDNKVTIIDNLSSGKMENLNNPNHENLTIIKEDLMDADLEKILKDKDYVFHLAALASVPGSVAEPLRYNQNNIDASLKLFIACKNNNIKKVIFSSSSAVYGENPNMPLKESENFLPCSPYAAQKASCELYLKSFHESYGLDYVALRYFNVFGPRQDENSPYAAVIPKFISAILNGESPVIYGDGEQSRDFIYVKEIAKANILSAESDYNGVINVALGKSMTINRLFEIISDVLESDIDVKYLDERPGDIKHSLADISNLDKISFKPDEDKFEEQLRETVKWFISQM 6dnz-a1-m1-cB_6dnz-a1-m1-cD Trypanosoma brucei PRMT1 enzyme-prozyme heterotetrameric complex with AdoHcy Q38BP3 Q38BP3 2.384 X-RAY DIFFRACTION 14 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 311 311 RISGNLSCIHDRVRLRAYESVLRSIKGKSVLHLGCGGLVSIAARSLASAVVAVDRSAIVDAAQVVANKNGLNNISFFRGALVDVVQNFPVRQFDVIICEWGPFLINDPLLEEALYARNNLLASNGVCPDSSSIHVVGVSDYCFHDTVEFWGNVYGFKEPKALVQREVECRVPTSSIVTTTCLAHTVNIASINNLDDKSSLNDFVVPFSVRATKDTTVNFLTFYIDARFTNPHDPGANFVLGVRPGGTNPWTETSVALHEPLPLKGGEVLSGELKVCLLNPTRGITTVEVTARTSGNVVNIETKGTYNYQRY RISGNLSCIHDRVRLRAYESVLRSIKGKSVLHLGCGGLVSIAARSLASAVVAVDRSAIVDAAQVVANKNGLNNISFFRGALVDVVQNFPVRQFDVIICEWGPFLINDPLLEEALYARNNLLASNGVCPDSSSIHVVGVSDYCFHDTVEFWGNVYGFKEPKALVQREVECRVPTSSIVTTTCLAHTVNIASINNLDDKSSLNDFVVPFSVRATKDTTVNFLTFYIDARFTNPHDPGANFVLGVRPGGTNPWTETSVALHEPLPLKGGEVLSGELKVCLLNPTRGITTVEVTARTSGNVVNIETKGTYNYQRY 6do1-a2-m1-cF_6do1-a2-m1-cD Structure of nanobody-stabilized angiotensin II type 1 receptor bound to S1I8 2.901 X-RAY DIFFRACTION 49 1.0 32630 (synthetic construct) 32630 (synthetic construct) 75 126 SGGGLVQSLRLSCAASDIMGWYRRELVASITDGGSTDYADSVKGRFTISRDNAKNTVYLQMNSPEDTAVYYCAAV QVQLQESGGGLVQAGGSLRLSCAASGNIFDVDIMGWYRQAPGKERELVASITDGGSTDYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAAVAYPDIPTYFDYDSDNFYWGQGTQVTVSS 6do2-a1-m1-cA_6do2-a1-m1-cB Crystal structure of human GRP78 in complex with 7-deaza-2'-C-methyladenosine P11021 P11021 1.7 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 382 382 DVGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFYEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLSG DVGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFYEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLSG 6dq4-a2-m1-cA_6dq4-a2-m2-cA LINKED KDM5A JMJ DOMAIN BOUND TO THE INHIBITOR GSK-J1 P29375 P29375 1.392 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 312 312 6dq5-a2-m1-cA_6dq5-a2-m2-cA 6dq6-a2-m1-cA_6dq6-a2-m2-cA 6dqd-a2-m1-cA_6dqd-a2-m2-cA 6dqe-a2-m1-cA_6dqe-a2-m2-cA AEFVPPPECPVFEPSWEEFTDPLSFIGRIRPLAEKTGICKIRPPKDWQPPFACEVKSFRFTPRVQRLNELEAMTRPREAFGFEQAVREYTLQSFGEMADNFKSDYFNMPVHMVPTELVEKEFWRLVSSIEEDVIVEYGADISSKDFGSGFPVKDGRRKILPEEEEYALSGWNLNNMPVLEQSVLAHINVMKVPWLYVGMCFSSFCWHIEDHWSYSINYLHWGEPKTWYGVPSHAAEQLEEVMRELAPELFESQPDLLHQLVTIMNPNVLMEHGVPVYRTNQCAGEFVVTFPRAYHSGFNQGYNFAEAVNFCT AEFVPPPECPVFEPSWEEFTDPLSFIGRIRPLAEKTGICKIRPPKDWQPPFACEVKSFRFTPRVQRLNELEAMTRPREAFGFEQAVREYTLQSFGEMADNFKSDYFNMPVHMVPTELVEKEFWRLVSSIEEDVIVEYGADISSKDFGSGFPVKDGRRKILPEEEEYALSGWNLNNMPVLEQSVLAHINVMKVPWLYVGMCFSSFCWHIEDHWSYSINYLHWGEPKTWYGVPSHAAEQLEEVMRELAPELFESQPDLLHQLVTIMNPNVLMEHGVPVYRTNQCAGEFVVTFPRAYHSGFNQGYNFAEAVNFCT 6dql-a1-m1-cB_6dql-a1-m1-cA Crystal structure of Regulator of Proteinase B RopB complexed with SIP D3KVD8 D3KVD8 3.3 X-RAY DIFFRACTION 40 1.0 1314 (Streptococcus pyogenes) 1314 (Streptococcus pyogenes) 226 227 NVDEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLRYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLSL NVDEFLFISNNFKQYKEFIDMDTAKHYFECRNIEGLNHILDSYKDSKSTKEKNLFALVKVLLATLTEEDCLTERTYLSNYLINIETWSHYETVLFNNCMFIFESCFIEMVFSKVILNLDKYNTLRYYGNESIRMFVNMLILFIQRQEYDKASEILAKIEDYQLNDDCLYERCCVSFFDGIIGLINGKEGAEQKCVQILEIFQLLNCKTIHHMFQTYLEAIKHKLSLE 6dqw-a2-m1-cD_6dqw-a2-m1-cC Flavobacterium johnsoniae class Id ribonucleotide reductase alpha subuint A5FCJ4 A5FCJ4 2.6 X-RAY DIFFRACTION 47 0.995 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 392 499 6dqw-a1-m1-cA_6dqw-a1-m1-cB WWKNSILNYLLTVEGAIDRICTAAARRLYKPELKESFVEMIERGWMSISSPVWANMGTGLPISCFNVHVPDKIEGITHKLGEVIMQTKIGGGTSGYFGELRGAVSFMKLFDTAMDTISGAFAAYLDDHPDIEEFLKIKSGNPIQNLFTGICVPDYWMQEMDKRQIWAKVLESRQQKGLPYIFFSDNVNKNKPQVYKDQNLRINASNLCSEIMLPSTHDESFICCLSSMNLELYEEWAVKLAIFFLDAVLQEFIEKTEGNYYLSAANKFAKRHRALGLGVLGWHSYLQIFKHISDKADKASQELARIYGEPELLKGYGRRNTTTMAIAPTTSSSAIQTSPGFSFKEISQLEIVQQAGIRQKFVDQGQSLNLAIKDVNRLMIEAWQQGVKSLYY KMWWKNSESEQILNRGYLLKGETVEGAIDRICTAAARRLYKPELKESFVEMIERGWMSISSPVWANMGTGLPISCFNVHVPDKIEGITHKLGEVIMQTKIGGGTSGYFGELRERSGAVSFMKLFDTAMDTISGAFAAYLDIDHPDIEEFLKIKSIGNPIQNLFTGICVPDYWMQEMIDGDADKRQIWAKVLESRQQKGLPYIFFSDNVNKNKPQVYKDQNLRINASNLCSEIMLPSTHDESFICCLSSMNLELYEEWKDTEAVKLAIFFLDAVLQEFIEKTEGNYYLSAANKFAKRHRALGLGVLGWHSYLQKNMIPFEGMEAKMKTTEIFKHISDKADKASQELARIYGEPELLKGYGRRNTTTMAIAPTTSSSAILGQTSPGIEPFSSNYYMRKNKYLKKLLEEKGLDNEEVWRGIMLNGGSVQHMSQLTQQEKDVFKTFKEISQLEIVQQAGIRQKFVDQGQSLNLNIPAELAIKDVNRLMIEAWQQGVKSLYYQR 6dqx-a1-m1-cA_6dqx-a1-m2-cA Actinobacillus ureae class Id ribonucleotide reductase alpha subunit E8KJ17 E8KJ17 1.76 X-RAY DIFFRACTION 53 1.0 887324 (Actinobacillus ureae ATCC 25976) 887324 (Actinobacillus ureae ATCC 25976) 520 520 TRPDFEWLNEDSRLFLQRGYLLEGTTALERIRFIAEHAEHKLGIEGYADKFYHYMARGYFSLSSPIWSNFGLDRGLPISCFGSYIGDSIHEIMVTTAEVGMMSKIGGGTSAYFGDIRPRGSAIKSDGSFNFSKLFDTVIDVISQGQFAGYIDIEHGDIDEWLDIHTEGNPIQLMYYGVCVGHDWLESMKAGDPYKRQLWAKLLQRKTETGIPYLFFKDNANAGRPDVYKDKNMTVHASNLCTEIMLPSSNDESFVCCLSSMNLLYFDEWKDTEAPEVLTYFLDVVMSEFIEKSKDMPFLDRAHRFATRHRALGLGVLGWHSYLQANNIAFDSFQAMQKNNLIFKTLQEKTLKASQELAKRFGEPEILKGYGRRNTTLMSIAPTKSSSFILGSVSPSVEPFKSNYYYKNPFLEKLLQEKGLDTEEIWESILHNDGSVQHLEQLTDEEKEVFKTFSEISQLSVIQQAAQRQKYIDQGQSINIMVHPATPARDLNQLYLTAEELGLKSIYYQYSMSANLLSCS TRPDFEWLNEDSRLFLQRGYLLEGTTALERIRFIAEHAEHKLGIEGYADKFYHYMARGYFSLSSPIWSNFGLDRGLPISCFGSYIGDSIHEIMVTTAEVGMMSKIGGGTSAYFGDIRPRGSAIKSDGSFNFSKLFDTVIDVISQGQFAGYIDIEHGDIDEWLDIHTEGNPIQLMYYGVCVGHDWLESMKAGDPYKRQLWAKLLQRKTETGIPYLFFKDNANAGRPDVYKDKNMTVHASNLCTEIMLPSSNDESFVCCLSSMNLLYFDEWKDTEAPEVLTYFLDVVMSEFIEKSKDMPFLDRAHRFATRHRALGLGVLGWHSYLQANNIAFDSFQAMQKNNLIFKTLQEKTLKASQELAKRFGEPEILKGYGRRNTTLMSIAPTKSSSFILGSVSPSVEPFKSNYYYKNPFLEKLLQEKGLDTEEIWESILHNDGSVQHLEQLTDEEKEVFKTFSEISQLSVIQQAAQRQKYIDQGQSINIMVHPATPARDLNQLYLTAEELGLKSIYYQYSMSANLLSCS 6dru-a1-m1-cB_6dru-a1-m2-cB Xylosidase from Aspergillus niger A2QTU5 A2QTU5 2.7 X-RAY DIFFRACTION 115 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 717 717 6dru-a1-m1-cA_6dru-a1-m2-cA YFAPNSTGLRIQHGFETILIQPFGYDGFRVRAWPFRPPSGNEISFIYDPPIEGYEDTAHGMSYDTATTGTEPRTLRNGNIILRTTGWGGTTAGYRLSFYRVNDDGSETLLTNEYAPLKSLNPRYYYWPGPGAEFSAEFSFSATPDEQIYGTGTQQDHMINKKGSVIDMVNFNSYIPTPVFMSNKGYAFIWNMPAEGRMEFGTLRTRFTAASTTLVDYVIVAAQPGDYDTLQQRISALTGRAPAPPDFSLGYIQSKLRYENQTEVELLAQNFHDRNIPVSMIVIDYQSWAHQGDWALDPRLWPNVAQMSARVKNLTGAEMMASLWPSVADDSVNYAALQANGLLSATRDGPGTTDSWNGSYIRNYDSTNPSARKFLWSMLKKNYYDKGIKNFWIDQADGGALGEAYENNGQSTYIESIPFTLPNVNYAAGTQLSVGKLYPWAHQQAIEEGFRNATDTKEGSACDHVSLSRSGYIGSQRFCSMIWSGDTTSVWDTLAVQVASGLSAAATGWGWWTVDAGGFEVDSTVWWSGNIDTPEYRELYVRWLAWTTFLPFMRTHGSRTCYFQDAYTCANEPWSYGASNTPIIVSYIHLRYQLGAYLKSIFNQFHLTGRSIMRPLYMDFEKTDPKISQLVSSNSNYTTQQYMFGPRLLVSPVTLPNVTEWPVYLPQTGQNNTKPWTYWWTNETYAGGQVVKVPAPLQHIPVFHLGSREELLSGNVF YFAPNSTGLRIQHGFETILIQPFGYDGFRVRAWPFRPPSGNEISFIYDPPIEGYEDTAHGMSYDTATTGTEPRTLRNGNIILRTTGWGGTTAGYRLSFYRVNDDGSETLLTNEYAPLKSLNPRYYYWPGPGAEFSAEFSFSATPDEQIYGTGTQQDHMINKKGSVIDMVNFNSYIPTPVFMSNKGYAFIWNMPAEGRMEFGTLRTRFTAASTTLVDYVIVAAQPGDYDTLQQRISALTGRAPAPPDFSLGYIQSKLRYENQTEVELLAQNFHDRNIPVSMIVIDYQSWAHQGDWALDPRLWPNVAQMSARVKNLTGAEMMASLWPSVADDSVNYAALQANGLLSATRDGPGTTDSWNGSYIRNYDSTNPSARKFLWSMLKKNYYDKGIKNFWIDQADGGALGEAYENNGQSTYIESIPFTLPNVNYAAGTQLSVGKLYPWAHQQAIEEGFRNATDTKEGSACDHVSLSRSGYIGSQRFCSMIWSGDTTSVWDTLAVQVASGLSAAATGWGWWTVDAGGFEVDSTVWWSGNIDTPEYRELYVRWLAWTTFLPFMRTHGSRTCYFQDAYTCANEPWSYGASNTPIIVSYIHLRYQLGAYLKSIFNQFHLTGRSIMRPLYMDFEKTDPKISQLVSSNSNYTTQQYMFGPRLLVSPVTLPNVTEWPVYLPQTGQNNTKPWTYWWTNETYAGGQVVKVPAPLQHIPVFHLGSREELLSGNVF 6dru-a1-m2-cB_6dru-a1-m1-cA Xylosidase from Aspergillus niger A2QTU5 A2QTU5 2.7 X-RAY DIFFRACTION 87 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 717 718 6dru-a1-m1-cB_6dru-a1-m2-cA YFAPNSTGLRIQHGFETILIQPFGYDGFRVRAWPFRPPSGNEISFIYDPPIEGYEDTAHGMSYDTATTGTEPRTLRNGNIILRTTGWGGTTAGYRLSFYRVNDDGSETLLTNEYAPLKSLNPRYYYWPGPGAEFSAEFSFSATPDEQIYGTGTQQDHMINKKGSVIDMVNFNSYIPTPVFMSNKGYAFIWNMPAEGRMEFGTLRTRFTAASTTLVDYVIVAAQPGDYDTLQQRISALTGRAPAPPDFSLGYIQSKLRYENQTEVELLAQNFHDRNIPVSMIVIDYQSWAHQGDWALDPRLWPNVAQMSARVKNLTGAEMMASLWPSVADDSVNYAALQANGLLSATRDGPGTTDSWNGSYIRNYDSTNPSARKFLWSMLKKNYYDKGIKNFWIDQADGGALGEAYENNGQSTYIESIPFTLPNVNYAAGTQLSVGKLYPWAHQQAIEEGFRNATDTKEGSACDHVSLSRSGYIGSQRFCSMIWSGDTTSVWDTLAVQVASGLSAAATGWGWWTVDAGGFEVDSTVWWSGNIDTPEYRELYVRWLAWTTFLPFMRTHGSRTCYFQDAYTCANEPWSYGASNTPIIVSYIHLRYQLGAYLKSIFNQFHLTGRSIMRPLYMDFEKTDPKISQLVSSNSNYTTQQYMFGPRLLVSPVTLPNVTEWPVYLPQTGQNNTKPWTYWWTNETYAGGQVVKVPAPLQHIPVFHLGSREELLSGNVF TYFAPNSTGLRIQHGFETILIQPFGYDGFRVRAWPFRPPSGNEISFIYDPPIEGYEDTAHGMSYDTATTGTEPRTLRNGNIILRTTGWGGTTAGYRLSFYRVNDDGSETLLTNEYAPLKSLNPRYYYWPGPGAEFSAEFSFSATPDEQIYGTGTQQDHMINKKGSVIDMVNFNSYIPTPVFMSNKGYAFIWNMPAEGRMEFGTLRTRFTAASTTLVDYVIVAAQPGDYDTLQQRISALTGRAPAPPDFSLGYIQSKLRYENQTEVELLAQNFHDRNIPVSMIVIDYQSWAHQGDWALDPRLWPNVAQMSARVKNLTGAEMMASLWPSVADDSVNYAALQANGLLSATRDGPGTTDSWNGSYIRNYDSTNPSARKFLWSMLKKNYYDKGIKNFWIDQADGGALGEAYENNGQSTYIESIPFTLPNVNYAAGTQLSVGKLYPWAHQQAIEEGFRNATDTKEGSACDHVSLSRSGYIGSQRFCSMIWSGDTTSVWDTLAVQVASGLSAAATGWGWWTVDAGGFEVDSTVWWSGNIDTPEYRELYVRWLAWTTFLPFMRTHGSRTCYFQDAYTCANEPWSYGASNTPIIVSYIHLRYQLGAYLKSIFNQFHLTGRSIMRPLYMDFEKTDPKISQLVSSNSNYTTQQYMFGPRLLVSPVTLPNVTEWPVYLPQTGQNNTKPWTYWWTNETYAGGQVVKVPAPLQHIPVFHLGSREELLSGNVF 6dru-a2-m1-cB_6dru-a2-m1-cA Xylosidase from Aspergillus niger A2QTU5 A2QTU5 2.7 X-RAY DIFFRACTION 145 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 717 718 6dru-a1-m1-cB_6dru-a1-m1-cA 6dru-a1-m2-cB_6dru-a1-m2-cA YFAPNSTGLRIQHGFETILIQPFGYDGFRVRAWPFRPPSGNEISFIYDPPIEGYEDTAHGMSYDTATTGTEPRTLRNGNIILRTTGWGGTTAGYRLSFYRVNDDGSETLLTNEYAPLKSLNPRYYYWPGPGAEFSAEFSFSATPDEQIYGTGTQQDHMINKKGSVIDMVNFNSYIPTPVFMSNKGYAFIWNMPAEGRMEFGTLRTRFTAASTTLVDYVIVAAQPGDYDTLQQRISALTGRAPAPPDFSLGYIQSKLRYENQTEVELLAQNFHDRNIPVSMIVIDYQSWAHQGDWALDPRLWPNVAQMSARVKNLTGAEMMASLWPSVADDSVNYAALQANGLLSATRDGPGTTDSWNGSYIRNYDSTNPSARKFLWSMLKKNYYDKGIKNFWIDQADGGALGEAYENNGQSTYIESIPFTLPNVNYAAGTQLSVGKLYPWAHQQAIEEGFRNATDTKEGSACDHVSLSRSGYIGSQRFCSMIWSGDTTSVWDTLAVQVASGLSAAATGWGWWTVDAGGFEVDSTVWWSGNIDTPEYRELYVRWLAWTTFLPFMRTHGSRTCYFQDAYTCANEPWSYGASNTPIIVSYIHLRYQLGAYLKSIFNQFHLTGRSIMRPLYMDFEKTDPKISQLVSSNSNYTTQQYMFGPRLLVSPVTLPNVTEWPVYLPQTGQNNTKPWTYWWTNETYAGGQVVKVPAPLQHIPVFHLGSREELLSGNVF TYFAPNSTGLRIQHGFETILIQPFGYDGFRVRAWPFRPPSGNEISFIYDPPIEGYEDTAHGMSYDTATTGTEPRTLRNGNIILRTTGWGGTTAGYRLSFYRVNDDGSETLLTNEYAPLKSLNPRYYYWPGPGAEFSAEFSFSATPDEQIYGTGTQQDHMINKKGSVIDMVNFNSYIPTPVFMSNKGYAFIWNMPAEGRMEFGTLRTRFTAASTTLVDYVIVAAQPGDYDTLQQRISALTGRAPAPPDFSLGYIQSKLRYENQTEVELLAQNFHDRNIPVSMIVIDYQSWAHQGDWALDPRLWPNVAQMSARVKNLTGAEMMASLWPSVADDSVNYAALQANGLLSATRDGPGTTDSWNGSYIRNYDSTNPSARKFLWSMLKKNYYDKGIKNFWIDQADGGALGEAYENNGQSTYIESIPFTLPNVNYAAGTQLSVGKLYPWAHQQAIEEGFRNATDTKEGSACDHVSLSRSGYIGSQRFCSMIWSGDTTSVWDTLAVQVASGLSAAATGWGWWTVDAGGFEVDSTVWWSGNIDTPEYRELYVRWLAWTTFLPFMRTHGSRTCYFQDAYTCANEPWSYGASNTPIIVSYIHLRYQLGAYLKSIFNQFHLTGRSIMRPLYMDFEKTDPKISQLVSSNSNYTTQQYMFGPRLLVSPVTLPNVTEWPVYLPQTGQNNTKPWTYWWTNETYAGGQVVKVPAPLQHIPVFHLGSREELLSGNVF 6ds6-a1-m1-cA_6ds6-a1-m2-cA Crystal structure of p300 ZZ domain in complex with histone H3 peptide Q09472 Q09472 1.95 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 53 53 ARTKQTQDRFVYTCNECKHHVETRWHCTVCEDYDLCITCYNTKNHDHKMEKLG ARTKQTQDRFVYTCNECKHHVETRWHCTVCEDYDLCITCYNTKNHDHKMEKLG 6ds7-a1-m1-cA_6ds7-a1-m1-cB Crystal structure of MhuD R26S mutant with two hemes bound per active site P9WKH3 P9WKH3 1.9 X-RAY DIFFRACTION 124 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 99 99 3hx9-a1-m1-cB_3hx9-a1-m1-cA 4nl5-a1-m1-cB_4nl5-a1-m1-cA 6ds8-a1-m1-cA_6ds8-a1-m1-cB PVVKINAIEVPAGAGPELEKRFAHSAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAAHAGHRANPVATGASLLEFEVVLDVGG PVVKINAIEVPAGAGPELEKRFAHSAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAAHAGHRANPVATGASLLEFEVVLDVGG 6dt0-a1-m1-cA_6dt0-a1-m1-cD Cryo-EM structure of a mitochondrial calcium uniporter Q7S4I4 Q7S4I4 3.7 ELECTRON MICROSCOPY 52 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 236 236 6dt0-a1-m1-cB_6dt0-a1-m1-cC AKGKLLTTPTRLLKLILPLPIQPLALLIHPQQPLSYVERLIQAELPPVKIPNVYFRAWVRWSSSTEMGDFIRDAARGREFAIEIEGYNIEMRVSVPSFGDRTYYMRQRLRKMSSEIDGLAKIKHECDLLAHRSAHRLAKGGFGLLAGWWGVVYYVTFHTEFGWDLVEPVTYLAGLTTIMGGYLWFLYINRRQHALYEMKGFDIERWEQLVQDANALRREIRVIAVEYDVDWDETRD AKGKLLTTPTRLLKLILPLPIQPLALLIHPQQPLSYVERLIQAELPPVKIPNVYFRAWVRWSSSTEMGDFIRDAARGREFAIEIEGYNIEMRVSVPSFGDRTYYMRQRLRKMSSEIDGLAKIKHECDLLAHRSAHRLAKGGFGLLAGWWGVVYYVTFHTEFGWDLVEPVTYLAGLTTIMGGYLWFLYINRRQHALYEMKGFDIERWEQLVQDANALRREIRVIAVEYDVDWDETRD 6dt0-a1-m1-cC_6dt0-a1-m1-cD Cryo-EM structure of a mitochondrial calcium uniporter Q7S4I4 Q7S4I4 3.7 ELECTRON MICROSCOPY 74 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 236 236 6dt0-a1-m1-cA_6dt0-a1-m1-cB AKGKLLTTPTRLLKLILPLPIQPLALLIHPQQPLSYVERLIQAELPPVKIPNVYFRAWVRWSSSTEMGDFIRDAARGREFAIEIEGYNIEMRVSVPSFGDRTYYMRQRLRKMSSEIDGLAKIKHECDLLAHRSAHRLAKGGFGLLAGWWGVVYYVTFHTEFGWDLVEPVTYLAGLTTIMGGYLWFLYINRRQHALYEMKGFDIERWEQLVQDANALRREIRVIAVEYDVDWDETRD AKGKLLTTPTRLLKLILPLPIQPLALLIHPQQPLSYVERLIQAELPPVKIPNVYFRAWVRWSSSTEMGDFIRDAARGREFAIEIEGYNIEMRVSVPSFGDRTYYMRQRLRKMSSEIDGLAKIKHECDLLAHRSAHRLAKGGFGLLAGWWGVVYYVTFHTEFGWDLVEPVTYLAGLTTIMGGYLWFLYINRRQHALYEMKGFDIERWEQLVQDANALRREIRVIAVEYDVDWDETRD 6dt3-a1-m1-cA_6dt3-a1-m1-cB 1.2 Angstrom Resolution Crystal Structure of Nucleoside Triphosphatase NudI from Klebsiella pneumoniae in Complex with HEPES A0A1W1Q5B1 A0A1W1Q5B1 1.2 X-RAY DIFFRACTION 45 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 140 141 NARQRTIVCPLIENEGHYLLCKAADRGVFPGQWALSGGGVEPGERIEEALRREIREELGEKLILTHIAPWCFRDDTRVKTYPDGHQETIYIYLIFNCVSANRDVTINEEFDDYAWVKAEDLKNYDLNAATRVTLSLKGLL SNARQRTIVCPLIENEGHYLLCKAADRGVFPGQWALSGGGVEPGERIEEALRREIREELGEKLILTHIAPWCFRDDTRVKTYPDGHQETIYIYLIFNCVSANRDVTINEEFDDYAWVKAEDLKNYDLNAATRVTLSLKGLL 6dtf-a1-m1-cB_6dtf-a1-m1-cA Crystal structure of Haemophilus influenzae OppA complex with KKK Q4QLH0 1.75 X-RAY DIFFRACTION 25 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 3 514 KKK TQLDEKQHIVINNGAEPQSFDPHKTEGVPESNVAYQLLEGLVTSDSEGKLQPGAAESWENTPDFKTWTFHLRKDAKWSNGDPVTAHDFVFAWRRLVDPATAAPYASYLSYLQVENAQDIIDGKKKPAELGVEAKDDYTFVVHATNPVPYAVSLTTHQSLLPLPQKVVEKLGDAWVKKENYVGNGAYKLANHIINEKIEFERNPLYWNDKETVINSATFLAIENPSTDVARYRAGDLDMTSYGLPPEQFAKLKKELLGEVYVTRTLGTYSYELNNKKAPFDNVNIRKALNLSLDRNVITDKVLGQGQTPTYVFTPTYIEEGHLIQQPAYSKEPMAQRNEEAIKLLEEAGYSKANPLKFSILYNTNENHKKVAIAAASMWKANTKGLIDVKLENQEWKTYIDSRRAGRYDVARAGWHADYNQATTFGNYFLSNSSNNTAKYANPEYDKAMAESYAATDAEGRAKAYAKAEEILGKDYGIVPIFNYVNPRLVKPYVKGYSGKDPQDHIYLRNLYIIK 6du6-a1-m1-cA_6du6-a1-m1-cD Crystal structure of the pyruvate kinase (PK1) from the mosquito Aedes aegypti Q16F38 Q16F38 3.513 X-RAY DIFFRACTION 78 0.992 7159 (Aedes aegypti) 7159 (Aedes aegypti) 503 505 6du6-a1-m1-cB_6du6-a1-m1-cC SVSHLEHMCSLDIDSQTAFVRLSGIICTIGPASVAPEMLEKMMATGMNIARLNFSHGSHEYHANTIKNIREAVDNYSKKQGKPFPLAIALDTKGPEIRTGLITGEVELKKGEQIQLTTDKDHLEKGSKDKIFVDYVNIVKVVKKGDRVFVDDGLISLVVDSISGDTLTCTVENGGLLGSRKGVNLPGVPVDLPAVSEKDKSDLQFGVEQGVDVIFASFIRNAAALKEIRTILGEKGKNIKIISKIENQQGMQNLDAIIAASDGIMVARGDLGIEIPAEKVFLAQKSMIARCNRAGKPVICATQMLESMIKKPRPTRAEISDVANAIIDGADCVMLSGETAKGEYPLECVLTMAKTCKEAEAALWHRNLFNDLVNTTPTPLDTASSIAIAASEAAAKSRAAAVIVITTSGRSAHLISKYRPRCPIIAVTRFAQTARQCHLYRGILPVIYEQQALEDWLKDVDARVQYGMDFGKERGFLKPGNPVVVVTGWKQGSGFTNTIRIVN SVSHLEHMCSLDIDSQTAFVRLSGIICTIGPASVAPEMLEKMMATGMNIARLNFSHGSHEYHANTIKNIREAVDNYSKKQGKPFPLAIALDTKGPEIRTGLIEGSGTGEVELKKGEQIQLTTDKDHLEKGSKDKIFVDYVNIVKVVKKGDRVFVDDGLISLVVDSISGDTLTCTVENGGLLGSRKGVNLPGVPVDLPAVSEKDKSDLQFGVEQGVDVIFASFIRNAAALKEIRTILGEKGKNIKIISKIENQQGMQNLDAIIAASDGIMVARGDLGIEIPAEKVFLAQKSMIARCNRAGKPVICATQMLESMIKKPRPTRAEISDVANAIIDGADCVMLSGETAKGEYPLECVLTMAKTCKEAEAALWHRNLFNDLVNTTPTPLDTASSIAIAASEAAAKSRAAAVIVITTSGRSAHLISKYRPRCPIIAVTRFAQTARQCHLYRGILPVIYEQQALEDWLKDVDARVQYGMDFGKERGFLKPGNPVVVVTGWKFTNTIRIVNVE 6du6-a1-m1-cD_6du6-a1-m1-cB Crystal structure of the pyruvate kinase (PK1) from the mosquito Aedes aegypti Q16F38 Q16F38 3.513 X-RAY DIFFRACTION 194 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 505 509 6du6-a1-m1-cA_6du6-a1-m1-cC SVSHLEHMCSLDIDSQTAFVRLSGIICTIGPASVAPEMLEKMMATGMNIARLNFSHGSHEYHANTIKNIREAVDNYSKKQGKPFPLAIALDTKGPEIRTGLIEGSGTGEVELKKGEQIQLTTDKDHLEKGSKDKIFVDYVNIVKVVKKGDRVFVDDGLISLVVDSISGDTLTCTVENGGLLGSRKGVNLPGVPVDLPAVSEKDKSDLQFGVEQGVDVIFASFIRNAAALKEIRTILGEKGKNIKIISKIENQQGMQNLDAIIAASDGIMVARGDLGIEIPAEKVFLAQKSMIARCNRAGKPVICATQMLESMIKKPRPTRAEISDVANAIIDGADCVMLSGETAKGEYPLECVLTMAKTCKEAEAALWHRNLFNDLVNTTPTPLDTASSIAIAASEAAAKSRAAAVIVITTSGRSAHLISKYRPRCPIIAVTRFAQTARQCHLYRGILPVIYEQQALEDWLKDVDARVQYGMDFGKERGFLKPGNPVVVVTGWKFTNTIRIVNVE SVSHLEHMCSLDIDSQTAFVRLSGIICTIGPASVAPEMLEKMMATGMNIARLNFSHGSHEYHANTIKNIREAVDNYSKKQGKPFPLAIALDTKGPEIRTGLIEGSGTGEVELKKGEQIQLTTDKDHLEKGSKDKIFVDYVNIVKVVKKGDRVFVDDGLISLVVDSISGDTLTCTVENGGLLGSRKGVNLPGVPVDLPAVSEKDKSDLQFGVEQGVDVIFASFIRNAAALKEIRTILGEKGKNIKIISKIENQQGMQNLDAIIAASDGIMVARGDLGIEIPAEKVFLAQKSMIARCNRAGKPVICATQMLESMIKKPRPTRAEISDVANAIIDGADCVMLSGETAKGEYPLECVLTMAKTCKEAEAALWHRNLFNDLVNTTPTPLDTASSIAIAASEAAAKSRAAAVIVITTSGRSAHLISKYRPRCPIIAVTRFAQTARQCHLYRGILPVIYEQQALEDWLKDVDARVQYGMDFGKERGFLKPGNPVVVVTGWKQGSGFTNTIRIVNVE 6du7-a4-m1-cH_6du7-a4-m1-cG Glutathione reductase from Streptococcus pneumoniae A0A0U0ARX4 A0A0U0ARX4 2.56 X-RAY DIFFRACTION 251 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 446 448 6du7-a1-m1-cA_6du7-a1-m1-cF 6du7-a2-m1-cB_6du7-a2-m1-cC 6du7-a3-m1-cE_6du7-a3-m1-cD REYDIIAIGGGSGGIATMNRAGEHGAQAAVIEEKKLGGTCVNVGCVPKKIMWYGAQIAETFHQFGEDYGFKTTDLNFDFATLRRNRESYIDRARSSYDGSFKRNGVDLIEGHAEFVDSHTVSVNGELIRAKHIVIATGAHPSIPNIPGAELGGSSDDVFAWEELPESVAILGAGYIAVELAGVLHTFGVKTDLFVRRDRPLRGFDSYIVEGLVKEMERTNLPLHTHKVPVKLEKTTDGITIHFEDGTSHTASQVIWATGRRPNVKGLQLEKAGVTLNERGFIQVDEYQNTVVEGIYALDVTGEKELTPVAIKAGRTLSERLFNGKTTAKMDYSTIPTVVFSHPAIGTVGLTEEQAIKEYGQDQIKVYKSSFASMYSACTRNRQESRFKLITAGSEEKVVGLHGIGYGVDEMIQGFAVAIKMGATKADFDATVAIHPTSSEEFVTMR MREYDIIAIGGGSGGIATMNRAGEHGAQAAVIEEKKLGGTCVNVGCVPKKIMWYGAQIAETFHQFGEDYGFKTTDLNFDFATLRRNRESYIDRARSSYDGSFKRNGVDLIEGHAEFVDSHTVSVNGELIRAKHIVIATGAHPSIPNIPGAELGGSSDDVFAWEELPESVAILGAGYIAVELAGVLHTFGVKTDLFVRRDRPLRGFDSYIVEGLVKEMERTNLPLHTHKVPVKLEKTTDGITIHFEDGTSHTASQVIWATGRRPNVKGLQLEKAGVTLNERGFIQVDEYQNTVVEGIYALGDVTGEKELTPVAIKAGRTLSERLFNGKTTAKMDYSTIPTVVFSHPAIGTVGLTEEQAIKEYGQDQIKVYKSSFASMYSACTRNRQESRFKLITAGSEEKVVGLHGIGYGVDEMIQGFAVAIKMGATKADFDATVAIHPTSSEEFVTMR 6du8-a1-m1-cC_6du8-a1-m1-cD Human Polycsytin 2-l1 Q9P0L9 Q9P0L9 3.11 ELECTRON MICROSCOPY 138 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 421 421 6du8-a1-m1-cA_6du8-a1-m1-cB 6du8-a1-m1-cA_6du8-a1-m1-cC 6du8-a1-m1-cB_6du8-a1-m1-cD LRELLVYIVFLVDICLLTYGMTSSSAYYYTKVMSELFLHTPSDTGVSFQAISSMADFWDFAQGPLLDSLYWTGHGSHSFIYYENMLLGVPRLRQLKVRNDSCVVHEDFREDILSCYDVYSPDKEEQLPFGPFNGTAWTYHSQDELGGFSHWGRLTSYSGGGYYLDLPGSRQGSAEALRALQEGLWLDRGTRVVFIDFSVYNANINLFCVLRLVVEFPATGGAIPSWQIRTVKLIRFIVGCEVIFCVFIFYYVVEEILELHIHRLRYSIWNILDLVVILLSIVAVGFHIFRTLEVNRLMGKLLQQPNTYADFEFLAFWQTQYNNMNAVNLFFAWIKIFKYFAVMFFIVFFAYAQLGYLLFGTQVENFSTFIKCIFTQFRIILGDFDYNAIDNANRILGPAYFVTYVFFVFFVLLNMFLAIIN LRELLVYIVFLVDICLLTYGMTSSSAYYYTKVMSELFLHTPSDTGVSFQAISSMADFWDFAQGPLLDSLYWTGHGSHSFIYYENMLLGVPRLRQLKVRNDSCVVHEDFREDILSCYDVYSPDKEEQLPFGPFNGTAWTYHSQDELGGFSHWGRLTSYSGGGYYLDLPGSRQGSAEALRALQEGLWLDRGTRVVFIDFSVYNANINLFCVLRLVVEFPATGGAIPSWQIRTVKLIRFIVGCEVIFCVFIFYYVVEEILELHIHRLRYSIWNILDLVVILLSIVAVGFHIFRTLEVNRLMGKLLQQPNTYADFEFLAFWQTQYNNMNAVNLFFAWIKIFKYFAVMFFIVFFAYAQLGYLLFGTQVENFSTFIKCIFTQFRIILGDFDYNAIDNANRILGPAYFVTYVFFVFFVLLNMFLAIIN 6duw-a1-m1-cA_6duw-a1-m2-cA Crystal structure of the alpha-N-catenin actin-binding domain H1 mutant P26232 P26232 2.2 X-RAY DIFFRACTION 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 4k1o-a2-m1-cA_4k1o-a2-m2-cA 6duy-a1-m2-cB_6duy-a1-m1-cA SGSAQLPQEEKAKIAEQVEIFHQEKSKLDAEVAKWDDSGNDIIVLAKQMCMIMMEMTDFTRGKGPLKNTSDVINAAKKIAEAGSRMDKLARAVADQCPDSACKQDLLAYLQRIALYCHQLNICSKVKAEVQNLGGELIVSGLDSATSLIQAAKNLMNAVVLTVKASYVASTKYQKVYGTAAVNSPVVSWKMK SGSAQLPQEEKAKIAEQVEIFHQEKSKLDAEVAKWDDSGNDIIVLAKQMCMIMMEMTDFTRGKGPLKNTSDVINAAKKIAEAGSRMDKLARAVADQCPDSACKQDLLAYLQRIALYCHQLNICSKVKAEVQNLGGELIVSGLDSATSLIQAAKNLMNAVVLTVKASYVASTKYQKVYGTAAVNSPVVSWKMK 6dux-a1-m1-cB_6dux-a1-m1-cA 2.25 Angstrom Resolution Crystal Structure of 6-phospho-alpha-glucosidase from Klebsiella pneumoniae in Complex with NAD. Q9AGA6 Q9AGA6 2.25 X-RAY DIFFRACTION 50 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 415 418 KKFSVVIAGGGSTFTPGIVLLLANQDRFPLRSLKFYDNDGARQETIAEACKVILKEQAPEIEFSYTTDPQAAFTDVDFVAHIRVGKYPREQDEKIPLRHGVLGQETCGPGGIAYGRSIGGVLELVDYEKYSPNAWLNYSNPAAIVAEATRRLRPNAKILNICDPIGIEGRAQIVGLKDRKQRVRYYGLNHFGWWTSIEDLDGNDLPKLREYVAKYGYVPPSNDTFAKAKDVQALDPQTPNTYLKYYLFPDYVVAHSNPERTRANEVDHREKNVFSACRAIIAAGKSTAGDLEIDEHASYIVDLATAIAFNTQERLLIVPNNGAIHNFDADAVEIPCLVGHNGPEPLTVGDIPHFQKGLSQQVAVEKLVVDAWEQRSYHKLWQAITLSKTVPSASVAKAILDDLIAANKDYWPELH KKFSVVIAGGGSTFTPGIVLLLANQDRFPLRSLKFYDNDGARQETIAEACKVILKEQAPEIEFSYTTDPQAAFTDVDFVAHIRVGKYPREQDEKIPLRHGVLGQETCGPGGIAYGRSIGGVLELVDYEKYSPNAWLNYSNPAAIVAEATRRLRPNAKILNICDPIGIEGRAQIVGLKDRKQRVRYYGLNHFGWWTSIEDLDGNDLPKLREYVAKYGYVPPSASWNDTFAKAKDVQALDPQTPNTYLKYYLFPDYVVAHSNPERTRANEVDHREKNVFSACRAIIAAGKSTAGDLEIDEHASYIVDLATAIAFNTQERLLIVPNNGAIHNFDADAVEIPCLVGHNGPEPLTVGDIPHFQKGLSQQVAVEKLVVDAWEQRSYHKLWQAITLSKTVPSASVAKAILDDLIAANKDYWPELH 6dv2-a3-m1-cE_6dv2-a3-m1-cF Crystal Structure of Human Mitochondrial Trifunctional Protein P55084 P55084 3.6 X-RAY DIFFRACTION 156 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 423 425 5zqz-a1-m1-cB_5zqz-a1-m1-cD 5zrv-a1-m1-cB_5zrv-a1-m1-cD 5zrv-a1-m1-cF_5zrv-a1-m1-cH 6dv2-a1-m1-cB_6dv2-a1-m1-cA 6dv2-a2-m1-cC_6dv2-a2-m1-cD TKKTLAKPNIRNVVVVDGVRTPFLLSGTSYKDLMPHDLARAALTGLLHRTSVPKEVVDYIIFGTVIQEVKTSNVAREAALGAGFSDKTPAHTVTMACISANQAMTTGVGLIASGQCDVIVAGGVELMSDVPIRHSRKMRKSMGQRLSLISKFRFNFLAPELPAVSEFSTSETMGHSADRLAAAFAVSRLEQDEYALRSHSLAKKAQDEGLLSDVVPFKVPGKDTVTKDNGIRPSSLEQMAKLKPAFIKPYGTVTAANSSFLTDGASAMLIMAEEKALAMGYKPKAYLRDFMYVSQDPKDQLLLGPTYATPKVLEKAGLTMNDIDAFEFHEAFSGQILANFKAMDSDWFAENYMGRKTKVGLPPLEKFNNWGGSLSLGHPFGATGCRLVMAAANRLRKEGGQYGLVAACAAGGQGHAMIVEAYP TKKTLAKPNIRNVVVVDGVRTPFLLSGTSYKDLMPHDLARAALTGLLHRTSVPKEVVDYIIFGTVIQEVKTSNVAREAALGAGFSDKTPAHTVTMACISANQAMTTGVGLIASGQCDVIVAGGVELMSDVPIRHSRKMRKLMLMGQRLSLISKFRFNFLAPELPAVSEFSTSETMGHSADRLAAAFAVSRLEQDEYALRSHSLAKKAQDEGLLSDVVPFKVPGKDTVTKDNGIRPSSLEQMAKLKPAFIKPYGTVTAANSSFLTDGASAMLIMAEEKALAMGYKPKAYLRDFMYVSQDPKDQLLLGPTYATPKVLEKAGLTMNDIDAFEFHEAFSGQILANFKAMDSDWFAENYMGRKTKVGLPPLEKFNNWGGSLSLGHPFGATGCRLVMAAANRLRKEGGQYGLVAACAAGGQGHAMIVEAYP 6dv5-a1-m1-cF_6dv5-a1-m1-cU Oligomeric complex of a Hsp27 24-mer at 3.6 A resolution P04792 P04792 3.58 X-RAY DIFFRACTION 47 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 163 175 6dv5-a1-m1-cN_6dv5-a1-m1-cS RVPFSLLRDPFRDWYPHSRLFDQAFGPRLPEEWSQWLGGSSWPGYVRAPAYSRALSRQLSSGRWRVSLDVNHFAPDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLPPGVDPTQVSSSLSPEGTLTVEAPMPKQSNEITIPVTFESRAQLGETAAK MTERRVPFSLLRGPSWDPFRDWYPHSRLFDQAFGLPRLPEEWSQWLGGSSWPGYVRPAYSRALSRQLSSGRWRVSLDVNHFAPDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLPPGVDPTQVSSSLSPEGTLTVEAPMPKQSNEITIPVTFESRAQLGGPEAATAAK 6dv5-a1-m1-cJ_6dv5-a1-m1-cK Oligomeric complex of a Hsp27 24-mer at 3.6 A resolution P04792 P04792 3.58 X-RAY DIFFRACTION 169 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 162 175 6dv5-a1-m1-cR_6dv5-a1-m1-cS 6dv5-a1-m1-cT_6dv5-a1-m1-cU TERVPFSLLRDPFRDWYPHSRLFDQAFGLPRLPEEWSQWLGGSSWPGYVRAPAYSRALSRQRWRVSLDVNHFAPDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLPPGVDPTQVSSSLSPEGTLTVEAPMPKQSNEITIPVTFESRAQLGETAAK MTERRVPFSLLRGPSWDPFRDWYPHSRLFDQAFGLPRLPEEWSQWLGGSSWPGYVRPAYSRALSRQLSSGRWRVSLDVNHFAPDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLPPGVDPTQVSSSLSPEGTLTVEAPMPQSNEITIPVTFESRAQLEAAKSDETAAK 6dv5-a1-m1-cP_6dv5-a1-m1-cX Oligomeric complex of a Hsp27 24-mer at 3.6 A resolution P04792 P04792 3.58 X-RAY DIFFRACTION 21 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 164 166 6dv5-a1-m1-cF_6dv5-a1-m1-cL 6dv5-a1-m1-cF_6dv5-a1-m1-cT 6dv5-a1-m1-cJ_6dv5-a1-m1-cR 6dv5-a1-m1-cN_6dv5-a1-m1-cR MTERVPFSLLRDPFRDWYPHSRLFDQAFGLPRLPEEWSQWLGGSSWPGYVRAPAYSRALSRSGRWRVSLDVNHFAPDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLPPGVDPTQVSSSLSPEGTLTVEAPMPKQSNEITIPVTFESRAQLGETAAK MTERVPFSLLRDPFRDWYPHSRLFDQFGLPRLPEEWSQWLGGSSWPGYVRAPAYSRALSRQLSSGRWRVSLDVNHFAPDELTVKTKDGVVEITGKHEERQDEHGYISRCFTRKYTLPPGVDPTQVSSSLSPEGTLTVEAPMPKQSNEITIPVTFESRAQLGETAAK 6dvi-a2-m1-cD_6dvi-a2-m7-cB Wild-type Lactate Monooxygenase from Mycobacterium smegmatis P21795 P21795 2.3 X-RAY DIFFRACTION 13 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 338 394 6dvi-a2-m3-cD_6dvi-a2-m5-cB MSNWGDYENEIYGQGLVGVAPTLPMSYADWEAHAQQALPPGVLSYVAGGSGDEHTQRANVEAFKHWGLMPRMLMAATERDLSVELWGKTWAAPMFFAPIGVIALCAQDGHGDAASAQASARTGVPYITSTLAVSSLEDIRKHAGDTPAYFQLYYPEDRDLAESFIRRAEEAGYDGLVITLDTWIFGWRPRDCLTNYVTDPVFQKKMPVILKGIQHPDDARRAVDSGVDGIYCSNHGGRQANGGLPALDCLPEVVKASGDTPVLFDSGIRTGADVVKALAMGASAVGIGRPYAWGAALGGSKGIEHVARSLLAEADLIMAVDGYRNLKELTIDALRPTR MSNWGDYENEIYGQGLVGVAPTLPMSYADWEAHAQQALPPGVLSYVAGGSGDEHTQRANVEAFKHWGLMPRMLMAATERDLSVELWGKTWAAPMFFAPIGVIALCAQDGHGDAASAQASARTGVPYITSTLAVSSLEDIRKHAGDTPAYFQLYYPEDRDLAESFIRRAEEAGYDGLVITLDTWIFGWRPRDLTISNFPFLRGLCLTNYVTDPVFQKKFKAHSGVEAEGLRDNPRLAADFWHGLFGHSVTWEDIDWVRSITKMPVILKGIQHPDDARRAVDSGVDGIYCSNHGGRQANGGLPALDCLPEVVKASGDTPVLFDSGIRTGADVVKALAMGASAVGIGRPYAWGAALGGSKGIEHVARSLLAEADLIMAVDGYRNLKELTIDALRPTR 6dvi-a2-m3-cD_6dvi-a2-m7-cD Wild-type Lactate Monooxygenase from Mycobacterium smegmatis P21795 P21795 2.3 X-RAY DIFFRACTION 94 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 338 338 6dvi-a2-m1-cD_6dvi-a2-m5-cD 6dvi-a2-m1-cD_6dvi-a2-m7-cD 6dvi-a2-m3-cD_6dvi-a2-m5-cD MSNWGDYENEIYGQGLVGVAPTLPMSYADWEAHAQQALPPGVLSYVAGGSGDEHTQRANVEAFKHWGLMPRMLMAATERDLSVELWGKTWAAPMFFAPIGVIALCAQDGHGDAASAQASARTGVPYITSTLAVSSLEDIRKHAGDTPAYFQLYYPEDRDLAESFIRRAEEAGYDGLVITLDTWIFGWRPRDCLTNYVTDPVFQKKMPVILKGIQHPDDARRAVDSGVDGIYCSNHGGRQANGGLPALDCLPEVVKASGDTPVLFDSGIRTGADVVKALAMGASAVGIGRPYAWGAALGGSKGIEHVARSLLAEADLIMAVDGYRNLKELTIDALRPTR MSNWGDYENEIYGQGLVGVAPTLPMSYADWEAHAQQALPPGVLSYVAGGSGDEHTQRANVEAFKHWGLMPRMLMAATERDLSVELWGKTWAAPMFFAPIGVIALCAQDGHGDAASAQASARTGVPYITSTLAVSSLEDIRKHAGDTPAYFQLYYPEDRDLAESFIRRAEEAGYDGLVITLDTWIFGWRPRDCLTNYVTDPVFQKKMPVILKGIQHPDDARRAVDSGVDGIYCSNHGGRQANGGLPALDCLPEVVKASGDTPVLFDSGIRTGADVVKALAMGASAVGIGRPYAWGAALGGSKGIEHVARSLLAEADLIMAVDGYRNLKELTIDALRPTR 6dvs-a1-m1-cA_6dvs-a1-m2-cA Crystal structure of Pseudomonas stutzeri D-phenylglycine aminotransferase Q6VY99 Q6VY99 1.821 X-RAY DIFFRACTION 188 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 397 397 2cy8-a2-m1-cA_2cy8-a2-m2-cA SILNDYKRKTEGSVFWAQRARSVMPDDPHGLFISDAQGVHKTDVDGNVYLDFFGGHGALVLGHGHPRVNAAIAEALSHGVQYAASHPLEVRWAERIVAAFPSIRKLRFTGSGTETTLLALRVARAFTGRRMILRIATHYAKNTLLIRPDDIEGMREVFAQHGSDIAAFIAEPVGSHFGVTPVSDSFLREGAELARQYGALFILDEVISGFRVGNHGMQALLDVQPDLTCLAKASAGGLPGGILGGREDVMGVLSTFTGNPITAAAAIAAIDTILEDDVCAKINDLGQFAREAMNHLFARKGLNWLAYGRFSGFHLMPGLPPNTTDTGSITRAEVARPDVKMIAAMRMALILEGVDIGGRGSVFLSAQHEREHVEHLVTTFDRVLDRLADENLLSWQP SILNDYKRKTEGSVFWAQRARSVMPDDPHGLFISDAQGVHKTDVDGNVYLDFFGGHGALVLGHGHPRVNAAIAEALSHGVQYAASHPLEVRWAERIVAAFPSIRKLRFTGSGTETTLLALRVARAFTGRRMILRIATHYAKNTLLIRPDDIEGMREVFAQHGSDIAAFIAEPVGSHFGVTPVSDSFLREGAELARQYGALFILDEVISGFRVGNHGMQALLDVQPDLTCLAKASAGGLPGGILGGREDVMGVLSTFTGNPITAAAAIAAIDTILEDDVCAKINDLGQFAREAMNHLFARKGLNWLAYGRFSGFHLMPGLPPNTTDTGSITRAEVARPDVKMIAAMRMALILEGVDIGGRGSVFLSAQHEREHVEHLVTTFDRVLDRLADENLLSWQP 6dvu-a1-m1-cA_6dvu-a1-m2-cB Structure of the Monoclinic-1 (Monocl-1) Crystal Form of Human Apolipoprotein C1 P02654 P02654 1.8 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 53 6dxr-a1-m1-cA_6dxr-a1-m2-cB SSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLKI DVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLKI 6dwb-a1-m1-cC_6dwb-a1-m1-cN Structure of the Salmonella SPI-1 type III secretion injectisome needle filament P41784 P41784 3.3 ELECTRON MICROSCOPY 22 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 78 78 2lpz-a1-m1-cA_2lpz-a1-m1-cL 2lpz-a1-m1-cB_2lpz-a1-m1-cM 2lpz-a1-m1-cC_2lpz-a1-m1-cN 2lpz-a1-m1-cD_2lpz-a1-m1-cO 2lpz-a1-m1-cE_2lpz-a1-m1-cP 2lpz-a1-m1-cF_2lpz-a1-m1-cQ 2lpz-a1-m1-cG_2lpz-a1-m1-cR 2lpz-a1-m1-cH_2lpz-a1-m1-cS 2lpz-a1-m1-cI_2lpz-a1-m1-cT 2lpz-a1-m1-cJ_2lpz-a1-m1-cU 2lpz-a1-m1-cK_2lpz-a1-m1-cV 2lpz-a1-m1-cL_2lpz-a1-m1-cW 2lpz-a1-m1-cM_2lpz-a1-m1-cX 2lpz-a1-m1-cN_2lpz-a1-m1-cY 2lpz-a1-m1-cO_2lpz-a1-m1-cZ 2lpz-a1-m1-cP_2lpz-a1-m1-ca 2lpz-a1-m1-cQ_2lpz-a1-m1-cb 2lpz-a1-m1-cR_2lpz-a1-m1-cc 2mex-a1-m1-cA_2mex-a1-m1-cD 6dwb-a1-m1-cA_6dwb-a1-m1-cL 6dwb-a1-m1-cB_6dwb-a1-m1-cM 6dwb-a1-m1-cD_6dwb-a1-m1-cO 6dwb-a1-m1-cE_6dwb-a1-m1-cP 6dwb-a1-m1-cF_6dwb-a1-m1-cQ 6dwb-a1-m1-cG_6dwb-a1-m1-cR 6dwb-a1-m1-cH_6dwb-a1-m1-cS 6dwb-a1-m1-cI_6dwb-a1-m1-cT 6dwb-a1-m1-cJ_6dwb-a1-m1-cU 6dwb-a1-m1-cK_6dwb-a1-m1-cV 6dwb-a1-m1-cL_6dwb-a1-m1-cW 6dwb-a1-m1-cM_6dwb-a1-m1-cX 6dwb-a1-m1-cN_6dwb-a1-m1-cY 6dwb-a1-m1-cO_6dwb-a1-m1-cZ 6dwb-a1-m1-cP_6dwb-a1-m1-ca 6dwb-a1-m1-cQ_6dwb-a1-m1-cb 6dwb-a1-m1-cR_6dwb-a1-m1-cc 6dwb-a1-m1-cS_6dwb-a1-m1-cd 6ofe-a1-m1-cA_6ofe-a1-m1-cP 6ofe-a1-m1-cB_6ofe-a1-m1-cN 6ofe-a1-m1-cC_6ofe-a1-m1-cM 6ofe-a1-m1-cD_6ofe-a1-m1-cO 6ofe-a1-m1-cE_6ofe-a1-m1-cL 6ofe-a1-m1-cF_6ofe-a1-m1-cQ 6ofe-a1-m1-cG_6ofe-a1-m1-cR 6ofe-a1-m1-cH_6ofe-a1-m1-cS 6ofe-a1-m1-cI_6ofe-a1-m1-cT 6off-a1-m1-cA_6off-a1-m1-cL 6off-a1-m1-cB_6off-a1-m1-cM 6off-a1-m1-cC_6off-a1-m1-cN 6off-a1-m1-cD_6off-a1-m1-cO 6off-a1-m1-cE_6off-a1-m1-cP 6off-a1-m1-cF_6off-a1-m1-cR 6off-a1-m1-cG_6off-a1-m1-cQ 6ofg-a1-m1-cA_6ofg-a1-m1-cL 6ofg-a1-m1-cB_6ofg-a1-m1-cM 6ofg-a1-m1-cC_6ofg-a1-m1-cN 6ofg-a1-m1-cD_6ofg-a1-m1-cO 6ofg-a1-m1-cE_6ofg-a1-m1-cP 6ofg-a1-m1-cJ_6ofg-a1-m1-cR 6ofg-a1-m1-cK_6ofg-a1-m1-cQ 6ofh-a1-m1-cD_6ofh-a1-m1-cM 6ofh-a1-m1-cE_6ofh-a1-m1-cP 6ofh-a1-m1-cF_6ofh-a1-m1-cQ 6ofh-a1-m1-cG_6ofh-a1-m1-cR 6ofh-a1-m1-cH_6ofh-a1-m1-cS 6ofh-a1-m1-cI_6ofh-a1-m1-cT 6ofh-a1-m1-cN_6ofh-a1-m1-cU 6ofh-a1-m1-cO_6ofh-a1-m1-cV 6q15-a1-m1-cAX_6q15-a1-m1-cBI 6q15-a1-m1-cAY_6q15-a1-m1-cBJ 6q15-a1-m1-cAZ_6q15-a1-m1-cBK 6q15-a1-m1-cBA_6q15-a1-m1-cBL 6q15-a1-m1-cBB_6q15-a1-m1-cBM 6q15-a1-m1-cBC_6q15-a1-m1-cBN 6q15-a1-m1-cBD_6q15-a1-m1-cBO 6q15-a1-m1-cBE_6q15-a1-m1-cBP 6q15-a1-m1-cBF_6q15-a1-m1-cBQ 6q15-a1-m1-cBG_6q15-a1-m1-cBR 6q15-a1-m1-cBH_6q15-a1-m1-cBS 6q15-a1-m1-cBI_6q15-a1-m1-cBT 6q15-a1-m1-cBJ_6q15-a1-m1-cBU 6q15-a1-m1-cBK_6q15-a1-m1-cBV 6znh-a1-m1-cA_6znh-a1-m1-cL 6znh-a1-m1-cA_6znh-a1-m1-cW 6znh-a1-m1-cB_6znh-a1-m1-cV 6znh-a1-m1-cC_6znh-a1-m1-cU 6znh-a1-m1-cD_6znh-a1-m1-cT 6znh-a1-m1-cE_6znh-a1-m1-cS 6znh-a1-m1-cF_6znh-a1-m1-cR 6znh-a1-m1-cG_6znh-a1-m1-cQ 6znh-a1-m1-cH_6znh-a1-m1-cP 6znh-a1-m1-cI_6znh-a1-m1-cO 6znh-a1-m1-cJ_6znh-a1-m1-cN 6znh-a1-m1-cK_6znh-a1-m1-cM 7ah9-a1-m1-c2F_7ah9-a1-m1-c2Q 7ah9-a1-m1-c2G_7ah9-a1-m1-c2R 7ah9-a1-m1-c2H_7ah9-a1-m1-c2S 7ah9-a1-m1-c2I_7ah9-a1-m1-c2T 7ah9-a1-m1-c2J_7ah9-a1-m1-c2U 7ah9-a1-m1-c2K_7ah9-a1-m1-c2V 7ah9-a1-m1-c2L_7ah9-a1-m1-c2W 7ah9-a1-m1-c2M_7ah9-a1-m1-c2X 7ah9-a1-m1-c2N_7ah9-a1-m1-c2Y 7ah9-a1-m1-c2O_7ah9-a1-m1-c2Z 7ah9-a1-m1-c2P_7ah9-a1-m1-c3A 7ah9-a1-m1-c2Q_7ah9-a1-m1-c3B 7ah9-a1-m1-c2S_7ah9-a1-m1-c3D 7ah9-a1-m1-c2U_7ah9-a1-m1-c3F 7ah9-a1-m1-c2V_7ah9-a1-m1-c3G 7ah9-a1-m1-c2X_7ah9-a1-m1-c3I 7ah9-a1-m1-c2Y_7ah9-a1-m1-c3J 7ah9-a1-m1-c2Z_7ah9-a1-m1-c3K 7ah9-a1-m1-c3C_7ah9-a1-m1-c2R 7ah9-a1-m1-c3C_7ah9-a1-m1-c3N 7ah9-a1-m1-c3E_7ah9-a1-m1-c2T 7ah9-a1-m1-c3H_7ah9-a1-m1-c2W 7ah9-a1-m1-c3L_7ah9-a1-m1-c3A 7ah9-a1-m1-c3L_7ah9-a1-m1-c3W 7ah9-a1-m1-c3M_7ah9-a1-m1-c3B 7ah9-a1-m1-c3O_7ah9-a1-m1-c3D 7ah9-a1-m1-c3O_7ah9-a1-m1-c3Z 7ah9-a1-m1-c3P_7ah9-a1-m1-c3E 7ah9-a1-m1-c3P_7ah9-a1-m1-c4A 7ah9-a1-m1-c3Q_7ah9-a1-m1-c3F 7ah9-a1-m1-c3Q_7ah9-a1-m1-c4B 7ah9-a1-m1-c3R_7ah9-a1-m1-c3G 7ah9-a1-m1-c3R_7ah9-a1-m1-c4C 7ah9-a1-m1-c3S_7ah9-a1-m1-c3H 7ah9-a1-m1-c3S_7ah9-a1-m1-c4D 7ah9-a1-m1-c3T_7ah9-a1-m1-c3I 7ah9-a1-m1-c3T_7ah9-a1-m1-c4E 7ah9-a1-m1-c3U_7ah9-a1-m1-c3J 7ah9-a1-m1-c3U_7ah9-a1-m1-c4F 7ah9-a1-m1-c3V_7ah9-a1-m1-c3K 7ah9-a1-m1-c3V_7ah9-a1-m1-c4G 7ah9-a1-m1-c3W_7ah9-a1-m1-c4H 7ah9-a1-m1-c3X_7ah9-a1-m1-c3M 7ah9-a1-m1-c3X_7ah9-a1-m1-c4I 7ah9-a1-m1-c3Y_7ah9-a1-m1-c3N 7ah9-a1-m1-c3Y_7ah9-a1-m1-c4J 7ah9-a1-m1-c3Z_7ah9-a1-m1-c4K 7ah9-a1-m1-c4A_7ah9-a1-m1-c4L 7ah9-a1-m1-c4B_7ah9-a1-m1-c4M 7ah9-a1-m1-c4C_7ah9-a1-m1-c4N 7ah9-a1-m1-c4D_7ah9-a1-m1-c4O 7ah9-a1-m1-c4E_7ah9-a1-m1-c4P 7ah9-a1-m1-c4F_7ah9-a1-m1-c4Q 7ah9-a1-m1-c4G_7ah9-a1-m1-c4R 7ah9-a1-m1-c4H_7ah9-a1-m1-c4S 7ah9-a1-m1-c4I_7ah9-a1-m1-c4T 7ahi-a1-m1-c2F_7ahi-a1-m1-c2Q 7ahi-a1-m1-c2G_7ahi-a1-m1-c2R 7ahi-a1-m1-c2H_7ahi-a1-m1-c2S 7ahi-a1-m1-c2I_7ahi-a1-m1-c2T 7ahi-a1-m1-c2J_7ahi-a1-m1-c2U 7ahi-a1-m1-c2K_7ahi-a1-m1-c2V 7ahi-a1-m1-c2L_7ahi-a1-m1-c2W 7ahi-a1-m1-c2M_7ahi-a1-m1-c2X 7ahi-a1-m1-c2N_7ahi-a1-m1-c2Y 7ahi-a1-m1-c2O_7ahi-a1-m1-c2Z 7ahi-a1-m1-c2P_7ahi-a1-m1-c3A 7ahi-a1-m1-c2Q_7ahi-a1-m1-c3B 7ahi-a1-m1-c2S_7ahi-a1-m1-c3D 7ahi-a1-m1-c2U_7ahi-a1-m1-c3F 7ahi-a1-m1-c2V_7ahi-a1-m1-c3G 7ahi-a1-m1-c2X_7ahi-a1-m1-c3I 7ahi-a1-m1-c2Y_7ahi-a1-m1-c3J 7ahi-a1-m1-c2Z_7ahi-a1-m1-c3K 7ahi-a1-m1-c3C_7ahi-a1-m1-c2R 7ahi-a1-m1-c3C_7ahi-a1-m1-c3N 7ahi-a1-m1-c3E_7ahi-a1-m1-c2T 7ahi-a1-m1-c3H_7ahi-a1-m1-c2W 7ahi-a1-m1-c3L_7ahi-a1-m1-c3A 7ahi-a1-m1-c3L_7ahi-a1-m1-c3W 7ahi-a1-m1-c3M_7ahi-a1-m1-c3B 7ahi-a1-m1-c3O_7ahi-a1-m1-c3D 7ahi-a1-m1-c3O_7ahi-a1-m1-c3Z 7ahi-a1-m1-c3P_7ahi-a1-m1-c3E 7ahi-a1-m1-c3P_7ahi-a1-m1-c4A 7ahi-a1-m1-c3Q_7ahi-a1-m1-c3F 7ahi-a1-m1-c3Q_7ahi-a1-m1-c4B 7ahi-a1-m1-c3R_7ahi-a1-m1-c3G 7ahi-a1-m1-c3R_7ahi-a1-m1-c4C 7ahi-a1-m1-c3S_7ahi-a1-m1-c3H 7ahi-a1-m1-c3S_7ahi-a1-m1-c4D 7ahi-a1-m1-c3T_7ahi-a1-m1-c3I 7ahi-a1-m1-c3T_7ahi-a1-m1-c4E 7ahi-a1-m1-c3U_7ahi-a1-m1-c3J 7ahi-a1-m1-c3U_7ahi-a1-m1-c4F 7ahi-a1-m1-c3V_7ahi-a1-m1-c3K 7ahi-a1-m1-c3V_7ahi-a1-m1-c4G 7ahi-a1-m1-c3W_7ahi-a1-m1-c4H 7ahi-a1-m1-c3X_7ahi-a1-m1-c3M 7ahi-a1-m1-c3X_7ahi-a1-m1-c4I 7ahi-a1-m1-c3Y_7ahi-a1-m1-c3N 7ahi-a1-m1-c3Y_7ahi-a1-m1-c4J 7ahi-a1-m1-c3Z_7ahi-a1-m1-c4K 7ahi-a1-m1-c4A_7ahi-a1-m1-c4L 7ahi-a1-m1-c4B_7ahi-a1-m1-c4M 7ahi-a1-m1-c4C_7ahi-a1-m1-c4N 7ahi-a1-m1-c4D_7ahi-a1-m1-c4O 7ahi-a1-m1-c4E_7ahi-a1-m1-c4P 7ahi-a1-m1-c4F_7ahi-a1-m1-c4Q 7ahi-a1-m1-c4G_7ahi-a1-m1-c4R 7ahi-a1-m1-c4H_7ahi-a1-m1-c4S 7ahi-a1-m1-c4I_7ahi-a1-m1-c4T 7rye-a1-m1-cA_7rye-a1-m1-cQ 7rye-a1-m1-cE_7rye-a1-m1-cU 7rye-a1-m1-cG_7rye-a1-m1-cD 7rye-a1-m1-cH_7rye-a1-m1-cP 7rye-a1-m1-cI_7rye-a1-m1-cM 7rye-a1-m1-cJ_7rye-a1-m1-cN 7rye-a1-m1-cT_7rye-a1-m1-cC 7rye-a1-m1-cW_7rye-a1-m1-cS TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 6dwb-a1-m1-cE_6dwb-a1-m1-cJ Structure of the Salmonella SPI-1 type III secretion injectisome needle filament P41784 P41784 3.3 ELECTRON MICROSCOPY 36 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 78 78 2lpz-a1-m1-cA_2lpz-a1-m1-cF 2lpz-a1-m1-cB_2lpz-a1-m1-cG 2lpz-a1-m1-cC_2lpz-a1-m1-cH 2lpz-a1-m1-cD_2lpz-a1-m1-cI 2lpz-a1-m1-cE_2lpz-a1-m1-cJ 2lpz-a1-m1-cF_2lpz-a1-m1-cK 2lpz-a1-m1-cG_2lpz-a1-m1-cL 2lpz-a1-m1-cH_2lpz-a1-m1-cM 2lpz-a1-m1-cI_2lpz-a1-m1-cN 2lpz-a1-m1-cJ_2lpz-a1-m1-cO 2lpz-a1-m1-cK_2lpz-a1-m1-cP 2lpz-a1-m1-cL_2lpz-a1-m1-cQ 2lpz-a1-m1-cM_2lpz-a1-m1-cR 2lpz-a1-m1-cN_2lpz-a1-m1-cS 2lpz-a1-m1-cO_2lpz-a1-m1-cT 2lpz-a1-m1-cP_2lpz-a1-m1-cU 2lpz-a1-m1-cQ_2lpz-a1-m1-cV 2lpz-a1-m1-cR_2lpz-a1-m1-cW 2lpz-a1-m1-cS_2lpz-a1-m1-cX 2lpz-a1-m1-cT_2lpz-a1-m1-cY 2lpz-a1-m1-cU_2lpz-a1-m1-cZ 2lpz-a1-m1-cV_2lpz-a1-m1-ca 2lpz-a1-m1-cW_2lpz-a1-m1-cb 2lpz-a1-m1-cX_2lpz-a1-m1-cc 2mex-a1-m1-cA_2mex-a1-m1-cC 2mex-a1-m1-cB_2mex-a1-m1-cD 6dwb-a1-m1-cA_6dwb-a1-m1-cF 6dwb-a1-m1-cB_6dwb-a1-m1-cG 6dwb-a1-m1-cC_6dwb-a1-m1-cH 6dwb-a1-m1-cD_6dwb-a1-m1-cI 6dwb-a1-m1-cF_6dwb-a1-m1-cK 6dwb-a1-m1-cG_6dwb-a1-m1-cL 6dwb-a1-m1-cH_6dwb-a1-m1-cM 6dwb-a1-m1-cI_6dwb-a1-m1-cN 6dwb-a1-m1-cJ_6dwb-a1-m1-cO 6dwb-a1-m1-cK_6dwb-a1-m1-cP 6dwb-a1-m1-cL_6dwb-a1-m1-cQ 6dwb-a1-m1-cM_6dwb-a1-m1-cR 6dwb-a1-m1-cN_6dwb-a1-m1-cS 6dwb-a1-m1-cO_6dwb-a1-m1-cT 6dwb-a1-m1-cP_6dwb-a1-m1-cU 6dwb-a1-m1-cQ_6dwb-a1-m1-cV 6dwb-a1-m1-cR_6dwb-a1-m1-cW 6dwb-a1-m1-cS_6dwb-a1-m1-cX 6dwb-a1-m1-cT_6dwb-a1-m1-cY 6dwb-a1-m1-cU_6dwb-a1-m1-cZ 6dwb-a1-m1-cV_6dwb-a1-m1-ca 6dwb-a1-m1-cW_6dwb-a1-m1-cb 6dwb-a1-m1-cX_6dwb-a1-m1-cc 6dwb-a1-m1-cY_6dwb-a1-m1-cd 6pep-a1-m1-cAS_6pep-a1-m1-cAX 6pep-a1-m1-cAT_6pep-a1-m1-cAY 6q15-a1-m1-cAS_6q15-a1-m1-cAX 6q15-a1-m1-cAT_6q15-a1-m1-cAY 6q15-a1-m1-cAU_6q15-a1-m1-cAZ 6q15-a1-m1-cAV_6q15-a1-m1-cBA 6q15-a1-m1-cAW_6q15-a1-m1-cBB 6q15-a1-m1-cAX_6q15-a1-m1-cBC 6q15-a1-m1-cAY_6q15-a1-m1-cBD 6q15-a1-m1-cAZ_6q15-a1-m1-cBE 6q15-a1-m1-cBA_6q15-a1-m1-cBF 6q15-a1-m1-cBB_6q15-a1-m1-cBG 6q15-a1-m1-cBC_6q15-a1-m1-cBH 6q15-a1-m1-cBD_6q15-a1-m1-cBI 6q15-a1-m1-cBE_6q15-a1-m1-cBJ 6q15-a1-m1-cBF_6q15-a1-m1-cBK 6q15-a1-m1-cBG_6q15-a1-m1-cBL 6q15-a1-m1-cBH_6q15-a1-m1-cBM 6q15-a1-m1-cBI_6q15-a1-m1-cBN 6q15-a1-m1-cBJ_6q15-a1-m1-cBO 6q15-a1-m1-cBK_6q15-a1-m1-cBP 6q15-a1-m1-cBL_6q15-a1-m1-cBQ 6q15-a1-m1-cBM_6q15-a1-m1-cBR 6q15-a1-m1-cBN_6q15-a1-m1-cBS 6q15-a1-m1-cBO_6q15-a1-m1-cBT 6q15-a1-m1-cBP_6q15-a1-m1-cBU 6q15-a1-m1-cBQ_6q15-a1-m1-cBV 6q16-a1-m1-cAS_6q16-a1-m1-cAX 6q16-a1-m1-cAT_6q16-a1-m1-cAY 6znh-a1-m1-cA_6znh-a1-m1-cF 6znh-a1-m1-cA_6znh-a1-m1-cQ 6znh-a1-m1-cB_6znh-a1-m1-cG 6znh-a1-m1-cB_6znh-a1-m1-cP 6znh-a1-m1-cC_6znh-a1-m1-cH 6znh-a1-m1-cC_6znh-a1-m1-cO 6znh-a1-m1-cD_6znh-a1-m1-cI 6znh-a1-m1-cD_6znh-a1-m1-cN 6znh-a1-m1-cE_6znh-a1-m1-cJ 6znh-a1-m1-cE_6znh-a1-m1-cM 6znh-a1-m1-cF_6znh-a1-m1-cK 6znh-a1-m1-cG_6znh-a1-m1-cL 6znh-a1-m1-cM_6znh-a1-m1-cR 6znh-a1-m1-cN_6znh-a1-m1-cS 6znh-a1-m1-cO_6znh-a1-m1-cT 6znh-a1-m1-cP_6znh-a1-m1-cU 6znh-a1-m1-cQ_6znh-a1-m1-cV 6znh-a1-m1-cR_6znh-a1-m1-cW 7agx-a1-m1-c2A_7agx-a1-m1-c2F 7agx-a1-m1-c2B_7agx-a1-m1-c2G 7agx-a1-m1-c2C_7agx-a1-m1-c2H 7agx-a1-m1-c2D_7agx-a1-m1-c2I 7agx-a1-m1-c2E_7agx-a1-m1-c2J 7agx-a1-m1-c2F_7agx-a1-m1-c2K 7ah9-a1-m1-c2A_7ah9-a1-m1-c2F 7ah9-a1-m1-c2B_7ah9-a1-m1-c2G 7ah9-a1-m1-c2C_7ah9-a1-m1-c2H 7ah9-a1-m1-c2F_7ah9-a1-m1-c2K 7ah9-a1-m1-c2G_7ah9-a1-m1-c2L 7ah9-a1-m1-c2H_7ah9-a1-m1-c2M 7ah9-a1-m1-c2I_7ah9-a1-m1-c2D 7ah9-a1-m1-c2I_7ah9-a1-m1-c2N 7ah9-a1-m1-c2J_7ah9-a1-m1-c2O 7ah9-a1-m1-c2K_7ah9-a1-m1-c2P 7ah9-a1-m1-c2L_7ah9-a1-m1-c2Q 7ah9-a1-m1-c2M_7ah9-a1-m1-c2R 7ah9-a1-m1-c2N_7ah9-a1-m1-c2S 7ah9-a1-m1-c2O_7ah9-a1-m1-c2T 7ah9-a1-m1-c2P_7ah9-a1-m1-c2U 7ah9-a1-m1-c2Q_7ah9-a1-m1-c2V 7ah9-a1-m1-c2R_7ah9-a1-m1-c2W 7ah9-a1-m1-c2S_7ah9-a1-m1-c2X 7ah9-a1-m1-c2U_7ah9-a1-m1-c2Z 7ah9-a1-m1-c2V_7ah9-a1-m1-c3A 7ah9-a1-m1-c2W_7ah9-a1-m1-c3B 7ah9-a1-m1-c2X_7ah9-a1-m1-c3C 7ah9-a1-m1-c2Y_7ah9-a1-m1-c2T 7ah9-a1-m1-c2Y_7ah9-a1-m1-c3D 7ah9-a1-m1-c2Z_7ah9-a1-m1-c3E 7ah9-a1-m1-c3B_7ah9-a1-m1-c3G 7ah9-a1-m1-c3C_7ah9-a1-m1-c3H 7ah9-a1-m1-c3D_7ah9-a1-m1-c3I 7ah9-a1-m1-c3E_7ah9-a1-m1-c3J 7ah9-a1-m1-c3F_7ah9-a1-m1-c3A 7ah9-a1-m1-c3F_7ah9-a1-m1-c3K 7ah9-a1-m1-c3H_7ah9-a1-m1-c3M 7ah9-a1-m1-c3I_7ah9-a1-m1-c3N 7ah9-a1-m1-c3L_7ah9-a1-m1-c3G 7ah9-a1-m1-c3L_7ah9-a1-m1-c3Q 7ah9-a1-m1-c3O_7ah9-a1-m1-c3J 7ah9-a1-m1-c3O_7ah9-a1-m1-c3T 7ah9-a1-m1-c3P_7ah9-a1-m1-c3K 7ah9-a1-m1-c3P_7ah9-a1-m1-c3U 7ah9-a1-m1-c3Q_7ah9-a1-m1-c3V 7ah9-a1-m1-c3R_7ah9-a1-m1-c3M 7ah9-a1-m1-c3R_7ah9-a1-m1-c3W 7ah9-a1-m1-c3S_7ah9-a1-m1-c3N 7ah9-a1-m1-c3S_7ah9-a1-m1-c3X 7ah9-a1-m1-c3T_7ah9-a1-m1-c3Y 7ah9-a1-m1-c3U_7ah9-a1-m1-c3Z 7ah9-a1-m1-c3V_7ah9-a1-m1-c4A 7ah9-a1-m1-c3W_7ah9-a1-m1-c4B 7ah9-a1-m1-c3X_7ah9-a1-m1-c4C 7ah9-a1-m1-c3Y_7ah9-a1-m1-c4D 7ah9-a1-m1-c3Z_7ah9-a1-m1-c4E 7ah9-a1-m1-c4A_7ah9-a1-m1-c4F 7ah9-a1-m1-c4B_7ah9-a1-m1-c4G 7ah9-a1-m1-c4C_7ah9-a1-m1-c4H 7ah9-a1-m1-c4D_7ah9-a1-m1-c4I 7ah9-a1-m1-c4E_7ah9-a1-m1-c4J 7ah9-a1-m1-c4F_7ah9-a1-m1-c4K 7ah9-a1-m1-c4G_7ah9-a1-m1-c4L 7ah9-a1-m1-c4H_7ah9-a1-m1-c4M 7ah9-a1-m1-c4I_7ah9-a1-m1-c4N 7ah9-a1-m1-c4J_7ah9-a1-m1-c4O 7ah9-a1-m1-c4K_7ah9-a1-m1-c4P 7ah9-a1-m1-c4L_7ah9-a1-m1-c4Q 7ah9-a1-m1-c4M_7ah9-a1-m1-c4R 7ah9-a1-m1-c4N_7ah9-a1-m1-c4S 7ahi-a1-m1-c2A_7ahi-a1-m1-c2F 7ahi-a1-m1-c2B_7ahi-a1-m1-c2G 7ahi-a1-m1-c2C_7ahi-a1-m1-c2H 7ahi-a1-m1-c2F_7ahi-a1-m1-c2K 7ahi-a1-m1-c2G_7ahi-a1-m1-c2L 7ahi-a1-m1-c2H_7ahi-a1-m1-c2M 7ahi-a1-m1-c2I_7ahi-a1-m1-c2D 7ahi-a1-m1-c2I_7ahi-a1-m1-c2N 7ahi-a1-m1-c2J_7ahi-a1-m1-c2O 7ahi-a1-m1-c2K_7ahi-a1-m1-c2P 7ahi-a1-m1-c2L_7ahi-a1-m1-c2Q 7ahi-a1-m1-c2M_7ahi-a1-m1-c2R 7ahi-a1-m1-c2N_7ahi-a1-m1-c2S 7ahi-a1-m1-c2O_7ahi-a1-m1-c2T 7ahi-a1-m1-c2P_7ahi-a1-m1-c2U 7ahi-a1-m1-c2Q_7ahi-a1-m1-c2V 7ahi-a1-m1-c2R_7ahi-a1-m1-c2W 7ahi-a1-m1-c2S_7ahi-a1-m1-c2X 7ahi-a1-m1-c2U_7ahi-a1-m1-c2Z 7ahi-a1-m1-c2V_7ahi-a1-m1-c3A 7ahi-a1-m1-c2W_7ahi-a1-m1-c3B 7ahi-a1-m1-c2X_7ahi-a1-m1-c3C 7ahi-a1-m1-c2Y_7ahi-a1-m1-c2T 7ahi-a1-m1-c2Y_7ahi-a1-m1-c3D 7ahi-a1-m1-c2Z_7ahi-a1-m1-c3E 7ahi-a1-m1-c3B_7ahi-a1-m1-c3G 7ahi-a1-m1-c3C_7ahi-a1-m1-c3H 7ahi-a1-m1-c3D_7ahi-a1-m1-c3I 7ahi-a1-m1-c3E_7ahi-a1-m1-c3J 7ahi-a1-m1-c3F_7ahi-a1-m1-c3A 7ahi-a1-m1-c3F_7ahi-a1-m1-c3K 7ahi-a1-m1-c3H_7ahi-a1-m1-c3M 7ahi-a1-m1-c3I_7ahi-a1-m1-c3N 7ahi-a1-m1-c3L_7ahi-a1-m1-c3G 7ahi-a1-m1-c3L_7ahi-a1-m1-c3Q 7ahi-a1-m1-c3O_7ahi-a1-m1-c3J 7ahi-a1-m1-c3O_7ahi-a1-m1-c3T 7ahi-a1-m1-c3P_7ahi-a1-m1-c3K 7ahi-a1-m1-c3P_7ahi-a1-m1-c3U 7ahi-a1-m1-c3Q_7ahi-a1-m1-c3V 7ahi-a1-m1-c3R_7ahi-a1-m1-c3M 7ahi-a1-m1-c3R_7ahi-a1-m1-c3W 7ahi-a1-m1-c3S_7ahi-a1-m1-c3N 7ahi-a1-m1-c3S_7ahi-a1-m1-c3X 7ahi-a1-m1-c3T_7ahi-a1-m1-c3Y 7ahi-a1-m1-c3U_7ahi-a1-m1-c3Z 7ahi-a1-m1-c3V_7ahi-a1-m1-c4A 7ahi-a1-m1-c3W_7ahi-a1-m1-c4B 7ahi-a1-m1-c3X_7ahi-a1-m1-c4C 7ahi-a1-m1-c3Y_7ahi-a1-m1-c4D 7ahi-a1-m1-c3Z_7ahi-a1-m1-c4E 7ahi-a1-m1-c4A_7ahi-a1-m1-c4F 7ahi-a1-m1-c4B_7ahi-a1-m1-c4G 7ahi-a1-m1-c4C_7ahi-a1-m1-c4H 7ahi-a1-m1-c4D_7ahi-a1-m1-c4I 7ahi-a1-m1-c4E_7ahi-a1-m1-c4J 7ahi-a1-m1-c4F_7ahi-a1-m1-c4K 7ahi-a1-m1-c4G_7ahi-a1-m1-c4L 7ahi-a1-m1-c4H_7ahi-a1-m1-c4M 7ahi-a1-m1-c4I_7ahi-a1-m1-c4N 7ahi-a1-m1-c4J_7ahi-a1-m1-c4O 7ahi-a1-m1-c4K_7ahi-a1-m1-c4P 7ahi-a1-m1-c4L_7ahi-a1-m1-c4Q 7ahi-a1-m1-c4M_7ahi-a1-m1-c4R 7ahi-a1-m1-c4N_7ahi-a1-m1-c4S TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 6dwv-a2-m1-cA_6dwv-a2-m2-cD Crystal structure of the LigJ Hydratase in the Apo state G2IQQ5 G2IQQ5 2.2 X-RAY DIFFRACTION 187 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 339 339 6dwv-a1-m1-cB_6dwv-a1-m1-cC 6dxq-a1-m2-cC_6dxq-a1-m1-cA 6dxq-a2-m3-cD_6dxq-a2-m1-cB 6dxs-a1-m1-cA_6dxs-a1-m1-cD 6dxs-a2-m1-cB_6dxs-a2-m2-cC MIIDCHGHYTVLPKAHDEWREQQKAAFKAGQPAPPYPEISDDEIRETIEANQLRLIKERGADMTIFSPRASAMAPHVGDQSVAVPWAQACNNLIARVVDLFPETFAGVCMLPQSPEADMTSSIAELERCVNELGFIGCNLNPDPGGGHFKHPPLTDRFWYPFYEKMVELDVPAMIHVSGSCNPAMHATGAYYLAADTIAFMQLLQGNLFADFPTLRFIIPHGGGAVPYHWGRFRGLADMLKQPSLDTLLMNNVFFDTCVYHQPGINLLADVIDNKNILFGSEMVGAVRGIDPTTGHYFDDTKRYIDALDISDQERHAIFEGNTRRVFPRLDAKLKARGL MIIDCHGHYTVLPKAHDEWREQQKAAFKAGQPAPPYPEISDDEIRETIEANQLRLIKERGADMTIFSPRASAMAPHVGDQSVAVPWAQACNNLIARVVDLFPETFAGVCMLPQSPEADMTSSIAELERCVNELGFIGCNLNPDPGGGHFKHPPLTDRFWYPFYEKMVELDVPAMIHVSGSCNPAMHATGAYYLAADTIAFMQLLQGNLFADFPTLRFIIPHGGGAVPYHWGRFRGLADMLKQPSLDTLLMNNVFFDTCVYHQPGINLLADVIDNKNILFGSEMVGAVRGIDPTTGHYFDDTKRYIDALDISDQERHAIFEGNTRRVFPRLDAKLKARGL 6dww-a1-m1-cA_6dww-a1-m2-cA Hermes transposase deletion dimer complex with (A/T) DNA and Mn2+ Q25438 Q25438 2.851 X-RAY DIFFRACTION 271 1.0 7370 (Musca domestica) 7370 (Musca domestica) 483 483 4d1q-a1-m1-cA_4d1q-a1-m1-cB 4d1q-a1-m1-cG_4d1q-a1-m1-cH 4d1q-a1-m2-cA_4d1q-a1-m2-cB 4d1q-a1-m2-cG_4d1q-a1-m2-cH 6dwy-a1-m1-cA_6dwy-a1-m2-cA 6dwz-a1-m1-cA_6dwz-a1-m1-cE 6dx0-a1-m1-cA_6dx0-a1-m2-cA RELKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDMIKFFIKVGAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALISREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNMPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTMLRSILDNWESVIQILSEAGETQRIVHINKSIIQTMVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHMQQEKVAQIKEFCLSKMEDLELINRMSSFPVSPSDEFEFYRKEIVILSEDFKVMEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK RELKTVSADCKKEAIEKCAQWVVRDCRPFSAVSGSGFIDMIKFFIKVGAEYGEHVNVEELLPSPITLSRKVTSDAKEKKALISREIKSAVEKDGASATIDLWTDNYIKRNFLGVTLHYHENNELRDLILGLKSLDFERSTAENIYKKLKAIFSQFNVEDLSSIKFVTDRGANVVKSLANNIRINCSSHLLSNVLENSFEETPELNMPILACKNIVKYFKKANLQHRLRSSLKSECPTRWNSTYTMLRSILDNWESVIQILSEAGETQRIVHINKSIIQTMVNILDGFERIFKELQTCSSPSLCFVVPSILKVKEICSPDVGDVADIAKLKVNIIKNVRIIWEENLSIWHYTAFFFYPPALHMQQEKVAQIKEFCLSKMEDLELINRMSSFPVSPSDEFEFYRKEIVILSEDFKVMEWWNLNSKKYPKLSKLALSLLSIPASSAASERTFSLAGNIITEKRNRIGQQTVDSLLFLNSFYKNFCK 6dx5-a1-m1-cB_6dx5-a1-m2-cA Crystal structure of the viral OTU domain protease from Farallon virus A0A191KW96 A0A191KW96 2.224 X-RAY DIFFRACTION 44 1.0 248053 (Farallon virus) 248053 (Farallon virus) 169 169 EDINWQLFGPNLYTSMVKIAIPDFFERIRVKGDGNCFFRAFAYLFFDTEEMWDTVKGTALGYARQHWSECHGAKGVYNYRAENEIKSTENVTRRGLDLYLEDATKEGYWGGTDEAEMLASALNVTIVIWNVNTDMKVLDVQKFGTDSVPRAFNIVRCGAHFDALKLINQ EDINWQLFGPNLYTSMVKIAIPDFFERIRVKGDGNCFFRAFAYLFFDTEEMWDTVKGTALGYARQHWSECHGAKGVYNYRAENEIKSTENVTRRGLDLYLEDATKEGYWGGTDEAEMLASALNVTIVIWNVNTDMKVLDVQKFGTDSVPRAFNIVRCGAHFDALKLINQ 6dx7-a3-m1-cE_6dx7-a3-m1-cF Crystal structure of chalcone synthase from Physcomitrella patens Q2VAZ3 Q2VAZ3 2.61 X-RAY DIFFRACTION 186 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 387 387 6dx7-a1-m1-cA_6dx7-a1-m1-cB 6dx7-a2-m1-cC_6dx7-a2-m2-cD RAALPRAQPRAEGPACVLGIGTAVPPAEFLQSEYPEFFFNITNCGEKEALKAKFKRICDKSGIRKRHMFLTEEVLKANPGICTYMEPSLNVRHDIVVVQVPKLAAEAAQKAIKEWGGRKSDITHIVFATTSGVNMPGADHALAKLLGLKPTVKRVMMYQTGCFGGASVLRVAKDLAENNKGARVLAVASEVTAVTYRAPSENHLDGLVGSALFGDGAGVYVVGSDPKPEVEKPLFEVHWAGETILPESDGAIDGHLTEAGLIFHLMKDVPGLISKNIEKFLNEARKPVGSPAWNEMFWAVHPGGPAILDQVEAKLKLTKDKMQGSRDILSEFGNMSSASVLFVLDQIRHRSVKMGASTLGEGSEFGFFIGFGPGLTLEVLVLRAAPN RAALPRAQPRAEGPACVLGIGTAVPPAEFLQSEYPEFFFNITNCGEKEALKAKFKRICDKSGIRKRHMFLTEEVLKANPGICTYMEPSLNVRHDIVVVQVPKLAAEAAQKAIKEWGGRKSDITHIVFATTSGVNMPGADHALAKLLGLKPTVKRVMMYQTGCFGGASVLRVAKDLAENNKGARVLAVASEVTAVTYRAPSENHLDGLVGSALFGDGAGVYVVGSDPKPEVEKPLFEVHWAGETILPESDGAIDGHLTEAGLIFHLMKDVPGLISKNIEKFLNEARKPVGSPAWNEMFWAVHPGGPAILDQVEAKLKLTKDKMQGSRDILSEFGNMSSASVLFVLDQIRHRSVKMGASTLGEGSEFGFFIGFGPGLTLEVLVLRAAPN 6dx9-a1-m1-cB_6dx9-a1-m1-cA Crystal structure of chalcone synthase from Equisetum arvense Q9MBB1 Q9MBB1 1.5 X-RAY DIFFRACTION 173 1.0 3258 (Equisetum arvense) 3258 (Equisetum arvense) 390 391 RLAQRANGPATVLAIGTANPANVFEQSSYPDFYFDITNSQHMTELKLKFSRMCQKSGIKKRYMHLNSEILKANPSLCAYWEKSLDVRQDIAVVEVPKLGKEASLKAIKEWGQPKSKITHLVFCTTSGVDMPGADWALTKLLGLRPSVKRLMMYQQGFAGGTVLRVAKDVAENNKGARVLVVCSEITCVTFRGPSETHLDSLVGQALFGDGAAAVILGSDPLPEENPCFELHWSGSNILPDSDGAIDGHLREVGLTFHLMKDVPGIISKNIGKVLNDAFRSAFDESGNAEDRPASVNDIFWIAHPGGPAILDQVEEKMKLAPEKMRATRDVLSEYGNMSSACVLFIMDHMRRMSAQNKLQTTGEGLDWGVLLGFGPGLTVETVLLKSIRLA RLAQRANGPATVLAIGTANPANVFEQSSYPDFYFDITNSQHMTELKLKFSRMCQKSGIKKRYMHLNSEILKANPSLCAYWEKSLDVRQDIAVVEVPKLGKEASLKAIKEWGQPKSKITHLVFCTTSGVDMPGADWALTKLLGLRPSVKRLMMYQQGFAGGTVLRVAKDVAENNKGARVLVVCSEITCVTFRGPSETHLDSLVGQALFGDGAAAVILGSDPLPEENPCFELHWSGSNILPDSDGAIDGHLREVGLTFHLMKDVPGIISKNIGKVLNDAFRSAFDESGNAEDRPASVNDIFWIAHPGGPAILDQVEEKMKLAPEKMRATRDVLSEYGNMSSACVLFIMDHMRRMSAQNKLQTTGEGLDWGVLLGFGPGLTVETVLLKSIRLAC 6dxa-a1-m1-cA_6dxa-a1-m1-cB Crystal structure of chalcone synthase from Pinus sylvestris P30079 P30079 2.01 X-RAY DIFFRACTION 190 0.997 3349 (Pinus sylvestris) 3349 (Pinus sylvestris) 390 390 GMMKDLEAFRKAQRADGPATILAIGTATPPNAVDQSSYPDYYFKITNSEHMTELKEKFRRMCDKSAIKKRYMYLTEEILKENPKVCEYMAPSLDARQDMVVVEVPRLGKEAAAKAIKEWGQPKSKITHVIFCTTSGVDMPGADYQLTKLLGLRPSVKRVMMYQQGFAGGTVLRVAKDLAENNRGARVLVVCSEITAVTFRGPSDTHLDSMVGQALFGDGAAALIVGADPVPEVEKPCFELMWTAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLVEAFQQFGISDWNQLFWIAHPGGPAILDQVEAKLNLDPKKLSATRQVLSDYGNMSSACVHFILDEMRKSSKEKGCSTTGEGLDVGVLFGFGPGLTVETVVLKSVPL AGMMKDLEAFRKAQRADGPATILAIGTATPPNAVDQSSYPDYYFKITNSEHMTELKEKFRRMCDKSAIKKRYMYLTEEILKENPKVCEYMAPSLDARQDMVVVEVPRLGKEAAAKAIKEWGQPKSKITHVIFCTTSGVDMPGADYQLTKLLGLRPSVKRVMMYQQGFAGGTVLRVAKDLAENNRGARVLVVCSEITAVTFRGPSDTHLDSMVGQALFGDGAAALIVGADPVPEVEKPCFELMWTAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLVEAFQQFGISDWNQLFWIAHPGGPAILDQVEAKLNLDPKKLSATRQVLSDYGNMSSAVHFILDEMRKSSKEKGCSTTGEGLDVGVLFGFGPGLTVETVVLKSVPL 6dxb-a2-m1-cD_6dxb-a2-m1-cB Crystal structure of chalcone synthase from Arabidopsis thaliana P13114 P13114 1.549 X-RAY DIFFRACTION 176 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 387 388 6dxb-a1-m1-cC_6dxb-a1-m1-cA 6dxd-a1-m1-cA_6dxd-a1-m1-cC 6dxd-a2-m1-cB_6dxd-a2-m1-cD 6dxe-a1-m1-cA_6dxe-a1-m1-cC SLDEIRQAQRADGPAGILAIGTANPENHVLQAEYPDYYFRITNSEHMTDLKEKFKRMCDKSTIRKRHMHLTEEFLKENPHMCAYMAPSLDTRQDIVVVEVPKLGKEAAVKAIKEWGQPKSKITHVVFCTTSGVDMPGADYQLTKLLGLRPSVKRLMMYQQGFAGGTVLRIAKDLAENNRGARVLVVCSEITAVTFRGPSDTHLDSLVGQALFSDGAAALIVGSDPDTSVGEKPIFEMVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIVKSLDEAFKPLGISDWNSLFWIAHPGGPAILDQVEIKLGLKEEKMRATRHVLSEYGNMSSACVLFILDEMRRKSAKDGVATTGEGLEWGVLFGFGPGLTVETVVLHSVPL SSLDEIRQAQRADGPAGILAIGTANPENHVLQAEYPDYYFRITNSEHMTDLKEKFKRMCDKSTIRKRHMHLTEEFLKENPHMCAYMAPSLDTRQDIVVVEVPKLGKEAAVKAIKEWGQPKSKITHVVFCTTSGVDMPGADYQLTKLLGLRPSVKRLMMYQQGFAGGTVLRIAKDLAENNRGARVLVVCSEITAVTFRGPSDTHLDSLVGQALFSDGAAALIVGSDPDTSVGEKPIFEMVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIVKSLDEAFKPLGISDWNSLFWIAHPGGPAILDQVEIKLGLKEEKMRATRHVLSEYGNMSSACVLFILDEMRRKSAKDGVATTGEGLEWGVLFGFGPGLTVETVVLHSVPL 6dxc-a1-m1-cA_6dxc-a1-m1-cB Crystal structure of chalcone synthase from Selaginella moellendorffii - S340C mutant D8S128 D8S128 1.54 X-RAY DIFFRACTION 138 1.0 88036 (Selaginella moellendorffii) 88036 (Selaginella moellendorffii) 377 377 6dx8-a1-m1-cA_6dx8-a1-m1-cB 6dxf-a1-m1-cA_6dxf-a1-m1-cB SGKATVLAVGTAVPPKEFDQSTYPDFYFNVTNCNDKVELKGKFQRICDRSGIKKRHFYLDEEILKANPGMCTYMGASLDVRQNIAVREVPKLAKEAALKAIKEWGQPKSKITHLVFGTTSGVDMPGADFQLLKLLGLRPNVKRIMLYQQGSAGATVTRVAKDLAENNPGARVLVACSEVTAVTFRAPSETHLDGLVGAALFGDGAAALIIGSNPTPVEKPLFEVHWSGQCVLPDSDGAILGHLREAGLVFHLLKDVPGIISKNIEKLLAEPLDYVKSVDEASPAYTDLFWVVHPGGPAILDQVEAKLKLDKDRMQATRDVLAQYGNMSSACVLFVLDQMRKRSVELNKDTTGDGLKWGVMLGFGPGLTVETLLLKSI SGKATVLAVGTAVPPKEFDQSTYPDFYFNVTNCNDKVELKGKFQRICDRSGIKKRHFYLDEEILKANPGMCTYMGASLDVRQNIAVREVPKLAKEAALKAIKEWGQPKSKITHLVFGTTSGVDMPGADFQLLKLLGLRPNVKRIMLYQQGSAGATVTRVAKDLAENNPGARVLVACSEVTAVTFRAPSETHLDGLVGAALFGDGAAALIIGSNPTPVEKPLFEVHWSGQCVLPDSDGAILGHLREAGLVFHLLKDVPGIISKNIEKLLAEPLDYVKSVDEASPAYTDLFWVVHPGGPAILDQVEAKLKLDKDRMQATRDVLAQYGNMSSACVLFVLDQMRKRSVELNKDTTGDGLKWGVMLGFGPGLTVETLLLKSI 6dxp-a2-m1-cC_6dxp-a2-m1-cD The crystal structure of an FMN-dependent NADH-azoreductase from Klebsiella pneumoniae A6TCS9 A6TCS9 2.478 X-RAY DIFFRACTION 122 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 200 205 6dxp-a1-m1-cB_6dxp-a1-m1-cA 7n2w-a1-m1-cA_7n2w-a1-m1-cB 7n2w-a2-m1-cC_7n2w-a2-m1-cD ANVLVLKSSINGETSLTNQLINEFLAARQAAGHGDRLIEHDLSAMALPTLDRPLFAALRGAVDPQPAIREAVALSDQLIAELKASDLLVIGAPMYNLNVPTDLKKWFDLVARARETFRYTESWPQGLVEGVRAVVVSSRGGIHQGETTDAVTPYLRAVLGLMGIQEVEFIYAEGLDNRPHGRDAGIASARAQIARLAVPA YFQSMANVLVLKSSINGETSLTNQLINEFLAARQAAGHGDRLIEHDLSAMALPTLDRPLFAALRGAVDPQPAIREAVALSDQLIAELKASDLLVIGAPMYNLNVPTDLKKWFDLVARARETFRYTESWPQGLVEGVRAVVVSSRGGIHQGETTDAVTPYLRAVLGLMGIQEVEFIYAEGLDNRPHGRDAGIASARAQIARLAVPA 6dz6-a1-m1-cB_6dz6-a1-m1-cA Structure of the Orthorhombic (Orthrhmb) Crystal Form of Human Apolipoprotein C1 P02654 P02654 3 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 50 52 SSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLK DVSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLK 6dzg-a1-m1-cA_6dzg-a1-m1-cD Crystal structure of polyphosphate kinase 2 class I (SMc02148) in complex with ADP Q92SA6 Q92SA6 1.87 X-RAY DIFFRACTION 54 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 279 279 3czq-a1-m1-cB_3czq-a1-m1-cA 3czq-a1-m1-cC_3czq-a1-m1-cD 6dzg-a1-m1-cB_6dzg-a1-m1-cC GSRAVELEIDGRSRIFDIDDPDLPKWIDEEAFRSDDYPYKKKLDREEYEETLTKLQIELVKVQFWQATGKRVAVFEGRDAAGKGGAIHATTANNPRSARVVALTKPTETERGQWYFQRYVATFPTAGEFVLFDRSWYNRAGVEPVGFCTPDQYEQFLKEAPRFEEIANEGIHLFKFWINIGREQLKRFHDRRHDPLKIWKLSPDIAALSKWDDYTGKRDRLKETHTEHGPWAVIRGNDKRRSRINVIRHLTKLDYDGKDEAAIGEVDEKILGSGPGFLR GSRAVELEIDGRSRIFDIDDPDLPKWIDEEAFRSDDYPYKKKLDREEYEETLTKLQIELVKVQFWQATGKRVAVFEGRDAAGKGGAIHATTANNPRSARVVALTKPTETERGQWYFQRYVATFPTAGEFVLFDRSWYNRAGVEPVGFCTPDQYEQFLKEAPRFEEIANEGIHLFKFWINIGREQLKRFHDRRHDPLKIWKLSPDIAALSKWDDYTGKRDRLKETHTEHGPWAVIRGNDKRRSRINVIRHLTKLDYDGKDEAAIGEVDEKILGSGPGFLR 6dzg-a1-m1-cC_6dzg-a1-m1-cD Crystal structure of polyphosphate kinase 2 class I (SMc02148) in complex with ADP Q92SA6 Q92SA6 1.87 X-RAY DIFFRACTION 48 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 279 279 3czq-a1-m1-cC_3czq-a1-m1-cA 3czq-a1-m1-cD_3czq-a1-m1-cB 6dzg-a1-m1-cA_6dzg-a1-m1-cB GSRAVELEIDGRSRIFDIDDPDLPKWIDEEAFRSDDYPYKKKLDREEYEETLTKLQIELVKVQFWQATGKRVAVFEGRDAAGKGGAIHATTANNPRSARVVALTKPTETERGQWYFQRYVATFPTAGEFVLFDRSWYNRAGVEPVGFCTPDQYEQFLKEAPRFEEIANEGIHLFKFWINIGREQLKRFHDRRHDPLKIWKLSPDIAALSKWDDYTGKRDRLKETHTEHGPWAVIRGNDKRRSRINVIRHLTKLDYDGKDEAAIGEVDEKILGSGPGFLR GSRAVELEIDGRSRIFDIDDPDLPKWIDEEAFRSDDYPYKKKLDREEYEETLTKLQIELVKVQFWQATGKRVAVFEGRDAAGKGGAIHATTANNPRSARVVALTKPTETERGQWYFQRYVATFPTAGEFVLFDRSWYNRAGVEPVGFCTPDQYEQFLKEAPRFEEIANEGIHLFKFWINIGREQLKRFHDRRHDPLKIWKLSPDIAALSKWDDYTGKRDRLKETHTEHGPWAVIRGNDKRRSRINVIRHLTKLDYDGKDEAAIGEVDEKILGSGPGFLR 6dzs-a2-m1-cD_6dzs-a2-m1-cC Mycobacterial homoserine dehydrogenase ThrA in complex with NADP K5BJC9 K5BJC9 2.62 X-RAY DIFFRACTION 188 1.0 1122247 (Mycolicibacterium hassiacum DSM 44199) 1122247 (Mycolicibacterium hassiacum DSM 44199) 426 428 6dzs-a1-m1-cB_6dzs-a1-m1-cA KPIGVAVLGLGNVGSEVVRIIDESATDLAARIGAPLQLRGIGVRRVSADRGVPVELLTDNIEELVSRDDVDIVVELMGPVEPARKAILTALEQGKSVVTANKALMSVSTGELAQAAEAAHVDLYFEAAVAGAIPVIRPLTQSLAGDTVTRVAGIVNGTTNYILSAMDSTGADYGDALAEASALGYAEADPTADVEGYDAAAKAAILASIAFHTRVTADDVYREGITKVTAADFASARALGCTIKLLAICERLTSDDGHQSVSARVYPALVPLTHPLAAVNGAFNAVVVEAEAAGRLMFYGQGAGGAPTASAVMGDVVMAARNRVQGGRGPRESKYAKLPISPIGDIPTRYYVSMRVADRPGVLAAVATEFGNRSVSIAEVRQEGIGARLVVVTHKATDAALSETVKALASLDVVQSVDSVIRMEGT KPIGVAVLGLGNVGSEVVRIIDESATDLAARIGAPLQLRGIGVRRVSADRGVPVELLTDNIEELVSRDDVDIVVELMGPVEPARKAILTALEQGKSVVTANKALMSVSTGELAQAAEAAHVDLYFEAAVAGAIPVIRPLTQSLAGDTVTRVAGIVNGTTNYILSAMDSTGADYGDALAEASALGYAEADPTADVEGYDAAAKAAILASIAFHTRVTADDVYREGITKVTAADFASARALGCTIKLLAICERLTSDDGHQSVSARVYPALVPLTHPLAAVNGAFNAVVVEAEAAGRLMFYGQGAGGAPTASAVMGDVVMAARNRVQGGRGPRESKYAKLPISPIGDIPTRYYVSMRVADRPGVLAAVATEFGNRSVSIAEVRQEGIDDGARLVVVTHKATDAALSETVKALASLDVVQSVDSVIRMEGT 6e00-a1-m1-cO_6e00-a1-m1-cP Structure of a N-Me-p-iodo-D-Phe1,N-Me-D-Gln4,Lys10-teixobactin analogue 2.2 X-RAY DIFFRACTION 10 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 7 7 ISISAKI ISISAKI 6e00-a1-m1-cc_6e00-a1-m1-cd Structure of a N-Me-p-iodo-D-Phe1,N-Me-D-Gln4,Lys10-teixobactin analogue 2.2 X-RAY DIFFRACTION 10 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 7 7 ISISAKI ISISAKI 6e00-a1-m1-cg_6e00-a1-m1-ch Structure of a N-Me-p-iodo-D-Phe1,N-Me-D-Gln4,Lys10-teixobactin analogue 2.2 X-RAY DIFFRACTION 11 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 7 7 6e00-a1-m1-cG_6e00-a1-m1-cH ISISAKI ISISAKI 6e00-a1-m1-ck_6e00-a1-m1-cl Structure of a N-Me-p-iodo-D-Phe1,N-Me-D-Gln4,Lys10-teixobactin analogue 2.2 X-RAY DIFFRACTION 10 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 7 7 6e00-a1-m1-ce_6e00-a1-m1-cf ISISAKI ISISAKI 6e00-a1-m1-cm_6e00-a1-m1-cn Structure of a N-Me-p-iodo-D-Phe1,N-Me-D-Gln4,Lys10-teixobactin analogue 2.2 X-RAY DIFFRACTION 10 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 7 7 ISISAKI ISISAKI 6e07-a3-m1-cB_6e07-a3-m1-cN Crystal structure of Canton G6PD in complex with structural NADP P11413 P11413 2.6 X-RAY DIFFRACTION 176 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 485 486 1qki-a1-m1-cA_1qki-a1-m1-cB 1qki-a1-m1-cC_1qki-a1-m1-cD 1qki-a2-m1-cE_1qki-a2-m1-cF 1qki-a2-m1-cG_1qki-a2-m1-cH 2bh9-a1-m1-cA_2bh9-a1-m2-cA 2bhl-a1-m1-cA_2bhl-a1-m1-cB 2bhl-a1-m2-cA_2bhl-a1-m2-cB 5ukw-a1-m1-cA_5ukw-a1-m3-cA 5ukw-a1-m2-cA_5ukw-a1-m4-cA 6e07-a1-m1-cL_6e07-a1-m1-cC 6e07-a2-m1-cF_6e07-a2-m1-cW 6e07-a4-m1-cT_6e07-a4-m1-cQ 6jyu-a1-m1-cA_6jyu-a1-m2-cA 7snf-a1-m1-cA_7snf-a1-m1-cB 7sng-a1-m1-cA_7sng-a1-m1-cB 7sng-a1-m1-cC_7sng-a1-m1-cD 7snh-a1-m1-cA_7snh-a1-m1-cB 7snh-a1-m1-cC_7snh-a1-m1-cD 7sni-a1-m1-cA_7sni-a1-m1-cB 7sni-a1-m1-cC_7sni-a1-m1-cD 7toe-a1-m1-cA_7toe-a1-m1-cB 7toe-a1-m1-cC_7toe-a1-m1-cD 7tof-a1-m1-cA_7tof-a1-m1-cB 7uag-a1-m1-cA_7uag-a1-m1-cB 7ual-a1-m1-cA_7ual-a1-m1-cB 7ual-a1-m1-cC_7ual-a1-m1-cD 7uc2-a1-m1-cA_7uc2-a1-m1-cB 7uc2-a1-m1-cC_7uc2-a1-m1-cD SDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPASTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGEGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAGDIFHQQCKRNELVIRVQPNEAVYTKMMTKKPGMFFNPEESELDLTYGNRYKNVKLPDAYERLILDVFCGSQMHFVRSDELLEAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVGFQYEGTYKWVNPH QSDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPASTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGEGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAGDIFHQQCKRNELVIRVQPNEAVYTKMMTKKPGMFFNPEESELDLTYGNRYKNVKLPDAYERLILDVFCGSQMHFVRSDELLEAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVGFQYEGTYKWVNPH 6e09-a1-m1-cA_6e09-a1-m1-cD Crystal Structure of Helicobacter pylori TlpA Chemoreceptor Ligand Binding Domain A0A1U9IS38 A0A1U9IS38 2.3 X-RAY DIFFRACTION 64 1.0 102617 (Helicobacter pylori SS1) 102617 (Helicobacter pylori SS1) 246 250 6e09-a2-m1-cB_6e09-a2-m1-cC 6e0a-a1-m1-cA_6e0a-a1-m1-cB SLNSRVKEILKENTLRSQDSLHFKVKEVQGVLENTYTSGIVKELPKDTKREIKIHLLKNFILANSHVAGVSFFKNREDLRLTLLRDNDTIKLENPLAQKAKNKEISKSLPYYRKPNGAEVYGVDILLPLLNENAQEVVGALVFISIDSFSNEITKNRSDLFLIGVKGKVLLSANKSLQDKPIAEIYKSVPKATNEVLTILENGSKATLEYLDPFSHKENFLAVETFKLGKAESKDNLNWIALIIEK SLNSRVKEILKENTLRSQDSLHFKVKEVQGVLENTYTSGIVKELPKDTKREIKIHLLKNFILANSHVAGVSFFKNREDLRLTLLRDNDTIKLENPSLAQKAKNKEISKSLPYYRKPNGAEVYGVDILLPLLNENAQEVVGALVFISIDSFSNEITKNRSDLFLIGVKGKVLLSANKSLQDKPIAEIYKSVPKATNEVLTILENGSKATLEYLDPFSHKENFLAVETFKLGKAESKDNLNWIALIIEKDKV 6e1j-a1-m1-cB_6e1j-a1-m1-cA Crystal Structure of Methylthioalkylmalate Synthase (BjuMAM1.1) from Brassica juncea C5J4P1 C5J4P1 2.096 X-RAY DIFFRACTION 266 1.0 3707 (Brassica juncea) 3707 (Brassica juncea) 408 409 ERWPEYIPNKLPDKNYVRVFDTTLRDGEQSPGAALTPPQKIEIARQLAKLRVDIMEVGFPVSSEEEFETIQTIAKTVGNEVDEETGYIPVICVIARSKERDIKAAWESVKYAKRPRIVIFTSTSDIHLKYKLKMTREEVVDMVASSIRFAKSLGFEDIEFGCEDGGRSDKDYICTVFEEAIKAGATTLACPDTVGINMPHEYGKLVRYIKANTPGIDDVIFSAHCHNDLGVATANTIAGICAGARQVEVTINGIGERSGNAPLEEVVMALKCRGAFVMGGVYTRIDTRQIMATSKMVQEYTGLYVQPHKPIVGANCFVHESGIHQDGILKNRSTYEIISPEDVGVVKSQNSGIVLGKLSGRHAVKGRLKELGYEISDEKLNEVFSRFRDLTKQKKRVTDDDLKALVTC VERWPEYIPNKLPDKNYVRVFDTTLRDGEQSPGAALTPPQKIEIARQLAKLRVDIMEVGFPVSSEEEFETIQTIAKTVGNEVDEETGYIPVICVIARSKERDIKAAWESVKYAKRPRIVIFTSTSDIHLKYKLKMTREEVVDMVASSIRFAKSLGFEDIEFGCEDGGRSDKDYICTVFEEAIKAGATTLACPDTVGINMPHEYGKLVRYIKANTPGIDDVIFSAHCHNDLGVATANTIAGICAGARQVEVTINGIGERSGNAPLEEVVMALKCRGAFVMGGVYTRIDTRQIMATSKMVQEYTGLYVQPHKPIVGANCFVHESGIHQDGILKNRSTYEIISPEDVGVVKSQNSGIVLGKLSGRHAVKGRLKELGYEISDEKLNEVFSRFRDLTKQKKRVTDDDLKALVTC 6e1m-a1-m1-cA_6e1m-a1-m1-cB Structure of AtTPC1(DDE) reconstituted in saposin A Q94KI8 Q94KI8 3.3 ELECTRON MICROSCOPY 154 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 533 533 6e1k-a1-m1-cA_6e1k-a1-m1-cB EAIHGPFQKAAALVDLAEDGIGLPVEILDQSSFGESARYYFIFTRLDLIWSLNYFALLFLNFFEQPLWCEKNPKPSCKDRDYYYLGELPYLTNAESIIYEVITLAILLVHTFFPISYEGSRIFWTSRLNLVKVACVVILFVDVLVDFLYPFRIAPYVRVIIFILSIRELRDTLVLLSGMLGTYLNILALWMLFLLFASWIAFVMFENTQQGLTVFTSYGATLYQMFILFTTSNNPDVWIPAYKSSRWSSVFFVLYVLIGVYFVTNLILAVVYDSFKEQLAKQVSGMDQMKRRMLEKAFGLIDSDKNGEIDKNQCIKLFEQLTNYRTLPKISKEEFGLIFDELDDTRDFKINKDEFADLCQAIALRFQKEEVPSVQRYRAFIATFITLIPSLMPYLGTIFCVLCIYCSIGVQVFGGLVNAGNKKLFETELAEDDYLLFNFNDYPNGMVTLFNLLVMGNWQVWMESYKDLTGTWWSITYFVSFYVITILLLLNLVVAFVLEAFFTELDLEEEEKCQGQDSQEKRNRRRSAGSKSR EAIHGPFQKAAALVDLAEDGIGLPVEILDQSSFGESARYYFIFTRLDLIWSLNYFALLFLNFFEQPLWCEKNPKPSCKDRDYYYLGELPYLTNAESIIYEVITLAILLVHTFFPISYEGSRIFWTSRLNLVKVACVVILFVDVLVDFLYPFRIAPYVRVIIFILSIRELRDTLVLLSGMLGTYLNILALWMLFLLFASWIAFVMFENTQQGLTVFTSYGATLYQMFILFTTSNNPDVWIPAYKSSRWSSVFFVLYVLIGVYFVTNLILAVVYDSFKEQLAKQVSGMDQMKRRMLEKAFGLIDSDKNGEIDKNQCIKLFEQLTNYRTLPKISKEEFGLIFDELDDTRDFKINKDEFADLCQAIALRFQKEEVPSVQRYRAFIATFITLIPSLMPYLGTIFCVLCIYCSIGVQVFGGLVNAGNKKLFETELAEDDYLLFNFNDYPNGMVTLFNLLVMGNWQVWMESYKDLTGTWWSITYFVSFYVITILLLLNLVVAFVLEAFFTELDLEEEEKCQGQDSQEKRNRRRSAGSKSR 6e1r-a2-m1-cE_6e1r-a2-m1-cF Crystal structure of the Acinetobacter phage vB_ApiP_P1 tailspike protein A0A221SBY4 A0A221SBY4 2.693 X-RAY DIFFRACTION 301 1.0 2016052 (Acinetobacter phage vB_ApiP_P1) 2016052 (Acinetobacter phage vB_ApiP_P1) 533 533 6e1r-a1-m1-cA_6e1r-a1-m1-cC 6e1r-a1-m1-cB_6e1r-a1-m1-cA 6e1r-a1-m1-cB_6e1r-a1-m1-cC 6e1r-a2-m1-cD_6e1r-a2-m1-cE 6e1r-a2-m1-cD_6e1r-a2-m1-cF LNLKGVVNSKVELEGLSGSDGQVVLTGYYAGQYGGDHFKYDSTQALINNGVTVINGWVKQFSAGVLTVSACGADPSASDHSAALDLAVNTATSLKRKLVVDFDLRVNTTTELDATLRIEGDGGAVQFSRSITATADIPIFTVKAGFSSESSYFGKLFKASTGGTATAFRSTSNGYLSQSTFDHCVFDRSLRYGIDANLILCDFQKCDFGTYSTTNSIGFKAIRSLGVVGTREPNANTFYNCIFRKGTDDCIEWDSYGTQWHFFACDLEQNLCTEALIKCTASSPIFVGGYIEANTSTPYVIKTLGNSATGFVPLIKFQGIHNRPCSVAIGKNTANYPKYIFEGCYGQLISAVVESSTGVLNDVALIENSIANHFTLATGGSIGDIRTLTPSGFNADSRNFQAAKITNLTSYKHNYKKTINRDFTVGSSVGVASLSHPSISGASYGGRLLVNAIFGTTAAAGTNSAVYELLVTSVGTAKYISQIGSAGLTSGAAASHPSFTWSINSSNVLVATAVGSTAGRFAEVFTTGNVQAT LNLKGVVNSKVELEGLSGSDGQVVLTGYYAGQYGGDHFKYDSTQALINNGVTVINGWVKQFSAGVLTVSACGADPSASDHSAALDLAVNTATSLKRKLVVDFDLRVNTTTELDATLRIEGDGGAVQFSRSITATADIPIFTVKAGFSSESSYFGKLFKASTGGTATAFRSTSNGYLSQSTFDHCVFDRSLRYGIDANLILCDFQKCDFGTYSTTNSIGFKAIRSLGVVGTREPNANTFYNCIFRKGTDDCIEWDSYGTQWHFFACDLEQNLCTEALIKCTASSPIFVGGYIEANTSTPYVIKTLGNSATGFVPLIKFQGIHNRPCSVAIGKNTANYPKYIFEGCYGQLISAVVESSTGVLNDVALIENSIANHFTLATGGSIGDIRTLTPSGFNADSRNFQAAKITNLTSYKHNYKKTINRDFTVGSSVGVASLSHPSISGASYGGRLLVNAIFGTTAAAGTNSAVYELLVTSVGTAKYISQIGSAGLTSGAAASHPSFTWSINSSNVLVATAVGSTAGRFAEVFTTGNVQAT 6e20-a1-m1-cA_6e20-a1-m1-cB Crystal structure of the Dario rerio galectin-1-L2 Q6TGN5 Q6TGN5 2 X-RAY DIFFRACTION 49 1.0 7955 (Danio rerio) 7955 (Danio rerio) 130 131 AGVLIQNMSFKVGQTLTITGVPKPDSTNFAINIGHSPEDIALHMNPRFDAHGDQTIVCNSFQSGSWEEHRDDNFPFIQDKEFQIKITFTNEEFLVTLPDGSEIHFPNRQGSEKYKYMYFEGEVRIQGVEI AGVLIQNMSFKVGQTLTITGVPKPDSTNFAINIGHSPEDIALHMNPRFDAHGDQTIVCNSFQSGSWEEHRDDNFPFIQDKEFQIKITFTNEEFLVTLPDGSEIHFPNRQGSEKYKYMYFEGEVRIQGVEIK 6e2j-a2-m1-cA_6e2j-a2-m4-cA Crystal structure of the heterocomplex between human keratin 1 coil 1B containing S233L mutation and wild-type human keratin 10 coil 1B P04264 P04264 2.386 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 6e2j-a2-m2-cA_6e2j-a2-m3-cA MNLEPYFELFINNLRRRVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVDLQAKLDNLQQEIDFLTALYQAELSQMQTQIS MNLEPYFELFINNLRRRVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVDLQAKLDNLQQEIDFLTALYQAELSQMQTQIS 6e2j-a2-m2-cA_6e2j-a2-m4-cA Crystal structure of the heterocomplex between human keratin 1 coil 1B containing S233L mutation and wild-type human keratin 10 coil 1B P04264 P04264 2.386 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 6e2j-a1-m1-cA_6e2j-a1-m3-cA 6e2j-a2-m1-cA_6e2j-a2-m3-cA 6ec0-a1-m1-cA_6ec0-a1-m2-cA MNLEPYFELFINNLRRRVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVDLQAKLDNLQQEIDFLTALYQAELSQMQTQIS MNLEPYFELFINNLRRRVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVDLQAKLDNLQQEIDFLTALYQAELSQMQTQIS 6e2j-a2-m2-cB_6e2j-a2-m4-cB Crystal structure of the heterocomplex between human keratin 1 coil 1B containing S233L mutation and wild-type human keratin 10 coil 1B P13645 P13645 2.386 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 6e2j-a1-m1-cB_6e2j-a1-m3-cB 6e2j-a2-m1-cB_6e2j-a2-m3-cB GSDYSKYYKTIDDLKNQILNLTTDNANILLQIDNARLAADDFRLKYENEVALRQSVEADINGLRRVLDELTLTKADLEMQIESLTEELAYLKKNHEEEMKDLRN GSDYSKYYKTIDDLKNQILNLTTDNANILLQIDNARLAADDFRLKYENEVALRQSVEADINGLRRVLDELTLTKADLEMQIESLTEELAYLKKNHEEEMKDLRN 6e2j-a2-m3-cA_6e2j-a2-m4-cA Crystal structure of the heterocomplex between human keratin 1 coil 1B containing S233L mutation and wild-type human keratin 10 coil 1B P04264 P04264 2.386 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 6e2j-a2-m1-cA_6e2j-a2-m2-cA MNLEPYFELFINNLRRRVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVDLQAKLDNLQQEIDFLTALYQAELSQMQTQIS MNLEPYFELFINNLRRRVDQLKSDQSRLDSELKNMQDMVEDYRNKYEDEINKRTNAENEFVTIKKDVDGAYMTKVDLQAKLDNLQQEIDFLTALYQAELSQMQTQIS 6e2o-a1-m1-cB_6e2o-a1-m1-cA ASK1 kinase domain complex with inhibitor Q99683 Q99683 2.389 X-RAY DIFFRACTION 60 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 263 2clq-a1-m1-cA_2clq-a1-m2-cA 2clq-a2-m1-cB_2clq-a2-m3-cB 6e2m-a1-m1-cB_6e2m-a1-m1-cA 6e2n-a1-m1-cB_6e2n-a1-m1-cA 6oyt-a2-m1-cB_6oyt-a2-m1-cD 6oyw-a1-m1-cC_6oyw-a1-m2-cA 6oyw-a2-m1-cB_6oyw-a2-m3-cD LEYDYEYDENGDRVVLGKGTYGIVYAGRDLSNQVRIAIKEIPESQPLHEEIALHKHLKHKNIVQYLGSFSENGFIKIFMEQVPGGSLSALLRSKWGPLKDNEQTIGFYTKQILEGLKYLHDNQIVHRDIKGDNVLINTYSGVLKISDFGTSKRLTGTLQYMAPEIIDKYGKAADIWSLGCTIIEMATGKPPFYELGEPQAAMFKVGMFKVHPEIPESMSAEAKAFILKCFEPDPDKRACANDLLVDEFLK LLEYDYEYDENGDRVVLGKGTYGIVYAGRDLSNQVRIAIKEIPESRYSQPLHEEIALHKHLKHKNIVQYLGSFSENGFIKIFMEQVPGGSLSALLRSKWGPLKDNEQTIGFYTKQILEGLKYLHDNQIVHRDIKGDNVLINTYSGVLKISDFGTSKRLACTEFTGTLQYMAPEIIDKGPRGYGKAADIWSLGCTIIEMATGKPPFYELGEPQAAMFKVGMFKVHPEIPESMSAEAKAFILKCFEPDPDKRACANDLLVDEFLK 6e2w-a1-m1-cA_6e2w-a1-m2-cA MDDEF in complex with MVAPP, ADP, sulfate and cobalt Q9FD68 Q9FD68 1.95 X-RAY DIFFRACTION 66 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 327 327 6e2s-a1-m1-cA_6e2s-a1-m2-cA 6e2t-a1-m1-cA_6e2t-a1-m2-cA 6e2u-a1-m1-cA_6e2u-a1-m2-cA 6e2v-a1-m1-cA_6e2v-a1-m2-cA 6e2y-a1-m1-cA_6e2y-a1-m2-cA AMLSGKARAHTNIALIKYWGKANEEYILPMNSSLSLTLDAFYTETTVTFDAHYSEDVFILNGILQNEKQTKKVKEFLNLVRQQADCTWFAKVESQNFVPTAAGLASSASGLAALAGACNVALGLNLSAKDLSRLARRGSGSACRSIFGGFAQWNKGHSDETSFAENIPANNWENELAMLFILINDGEKDVSSRDGMKRTVETSSFYQGWLDNVEKDLSQVHEAIKTKDFPRLGEIIEANGLRMHGTTLGAVPPFTYWSPGSLQAMALVRQARAKGIPCYFTMDAGPNVKVLVEKKNLEALKTFLSEHFSKEQLVPAFAGPGIELFET AMLSGKARAHTNIALIKYWGKANEEYILPMNSSLSLTLDAFYTETTVTFDAHYSEDVFILNGILQNEKQTKKVKEFLNLVRQQADCTWFAKVESQNFVPTAAGLASSASGLAALAGACNVALGLNLSAKDLSRLARRGSGSACRSIFGGFAQWNKGHSDETSFAENIPANNWENELAMLFILINDGEKDVSSRDGMKRTVETSSFYQGWLDNVEKDLSQVHEAIKTKDFPRLGEIIEANGLRMHGTTLGAVPPFTYWSPGSLQAMALVRQARAKGIPCYFTMDAGPNVKVLVEKKNLEALKTFLSEHFSKEQLVPAFAGPGIELFET 6e4b-a2-m1-cD_6e4b-a2-m1-cC The crystal structure of a putative alpha-ribazole-5'-P phosphatase from Escherichia coli str. K-12 substr. MG1655 P52086 P52086 2.55 X-RAY DIFFRACTION 61 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 198 203 6e4b-a1-m1-cA_6e4b-a1-m1-cB AMRLWLIRHGETQANIDGLYSGHAPTPLTARGIEQAQNLHTLLHGVSFDLVLCSELERAQHTARLVLSDRQLPVQIIPELNEMFFGDWEMRHHRDLMQEDAENYSAWCNDWQPTNGEGFQAFSQRVERFIARLSEFQHYQNILVVSHQGVLSLLIARLIGMPAEAMWHFRVDQGCWSAIDINQKFATLRVLNSRAIGV NAMRLWLIRHGETQANIDGLYSGHAPTPLTARGIEQAQNLHTLLHGVSFDLVLCSELERAQHTARLVLSDRQLPVQIIPELNEMFFGDWEMRHHRDLMQEDAENYSAWCNDWQHAIPTNGEGFQAFSQRVERFIARLSEFQHYQNILVVSHQGVLSLLIARLIGMPAEAMWHFRVDQGCWSAIDINQKFATLRVLNSRAIGVE 6e4h-a1-m1-cA_6e4h-a1-m1-cB Solution NMR Structure of the Colied-coil PALB2 Homodimer Q3U0P1 Q3U0P1 NOT SOLUTION NMR 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 62 62 MEELSGKPLSYAEKEKLKEKLAFLKKEYSRTLARLQRAKRAEKAKNSKKAIEDGVPQPEALE MEELSGKPLSYAEKEKLKEKLAFLKKEYSRTLARLQRAKRAEKAKNSKKAIEDGVPQPEALE 6e4u-a2-m1-cA_6e4u-a2-m2-cA Structure of AMPK bound to activator P54645 P54645 3.27 X-RAY DIFFRACTION 26 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 365 365 4qfg-a2-m1-cA_4qfg-a2-m2-cA 4qfr-a2-m1-cA_4qfr-a2-m2-cA 4qfs-a2-m1-cA_4qfs-a2-m2-cA 5t5t-a2-m1-cA_5t5t-a2-m2-cA 5ufu-a2-m1-cA_5ufu-a2-m2-cA 6e4t-a2-m1-cA_6e4t-a2-m2-cA 6e4w-a2-m1-cA_6e4w-a2-m2-cA GRVKIGHYILGDTLGVGTFGKVKVGKHELTGHKVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGEFLRSCGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRATIKDIREHEWFKQDLPKYLFPEKWHLGIRSQSRPNDIMAEVCRAIKQLDYEWKVVNPYYLRVRRKNPVTSTFSKMSLQLYQVDSRTYLLDFRSIDDPGSHTIEFFEMCANLIKILAQ GRVKIGHYILGDTLGVGTFGKVKVGKHELTGHKVAVKILNRQKIRSLDVVGKIRREIQNLKLFRHPHIIKLYQVISTPSDIFMVMEYVSGGELFDYICKNGRLDEKESRRLFQQILSGVDYCHRHMVVHRDLKPENVLLDAHMNAKIADFGLSNMMSDGEFLRSCGSPNYAAPEVISGRLYAGPEVDIWSSGVILYALLCGTLPFDDDHVPTLFKKICDGIFYTPQYLNPSVISLLKHMLQVDPMKRATIKDIREHEWFKQDLPKYLFPEKWHLGIRSQSRPNDIMAEVCRAIKQLDYEWKVVNPYYLRVRRKNPVTSTFSKMSLQLYQVDSRTYLLDFRSIDDPGSHTIEFFEMCANLIKILAQ 6e5u-a2-m1-cE_6e5u-a2-m1-cG Crystal structure of the mRNA export receptor NXF1/NXT1 in complex with influenza virus NS1 protein Q9UBU9 Q9UBU9 3.8 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 339 339 6e5u-a1-m1-cA_6e5u-a1-m1-cC KPEQVEQLKLIMSKRYDGSQQALDLKGLRSDPDLVAQNIDVVLNRRSCMAATLRIIEENIPELLSLNLSNNRLYRLDDMSSIVQKAPNLKILNLSGNELKSERELDKIKGLKLEELWLDGNSLCDTFRDQSTYISAIRERFPKLLRLDGHELPPPIAFDVEAPTTLPPCKGSYFGTENLKSLVLHFLQQYYAIYDSGDRQGLLDAYHDGACCSLSIPFISSLAEYFKDSRNVKKLKDPTLRFRLLKHTRLNVVAFLNELPKTQHDVNSFVVDISAQTSTLLCFSVNGVFKEVDGKSRDSLRAFTRTFIAVPASNSGLCIVNDELFVRNASSEEIQRAFA KPEQVEQLKLIMSKRYDGSQQALDLKGLRSDPDLVAQNIDVVLNRRSCMAATLRIIEENIPELLSLNLSNNRLYRLDDMSSIVQKAPNLKILNLSGNELKSERELDKIKGLKLEELWLDGNSLCDTFRDQSTYISAIRERFPKLLRLDGHELPPPIAFDVEAPTTLPPCKGSYFGTENLKSLVLHFLQQYYAIYDSGDRQGLLDAYHDGACCSLSIPFISSLAEYFKDSRNVKKLKDPTLRFRLLKHTRLNVVAFLNELPKTQHDVNSFVVDISAQTSTLLCFSVNGVFKEVDGKSRDSLRAFTRTFIAVPASNSGLCIVNDELFVRNASSEEIQRAFA 6e6b-a1-m1-cB_6e6b-a1-m1-cA Crystal structure of the Protocadherin GammaB4 extracellular domain Q91XX6 Q91XX6 4.52 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 625 633 QIRYKIPEEMPTGSVVGNLAKDLGFSVQELPTRKLRISSEKPYFSVSSESGELLVSSRLDREQICGKKLMCALEFEAVAENPLNFYHLSVELEDINDHTPKFAHTSFELQISESSKPGTRFILGSAHDADIGTNSLQNYQLSPNDHFSLVNKEKSDGSKYPEMILKTALDREKQKLYHLTLTALDFGHPPLNSTAQIQVLVTDANDNPPVFSQDIYRVSLPENVYPGTTVLRVVATDQDEGVNSEITFSFSQFNLDSNTGEITTLHTLDFEEVKEYSLVLEAKDGGGMIAQCTVEIEVLDENDNVPEVLFQSLPDLIMEDAEPGTYIALLKTRDKDSGRNGEVICKLEGGAPFKILTSSGNTYKLVTDGVLDREQNPEYNITIRATDKGDPPLSSSSSVTLHIGDVNDNAPVFTKVSYLVHVAENNPPGASIAQVSASDPDLGANGQVTYYIIASDLEPESLWSYVTINAQSGVLFAQRAFDHEQLRSFQLTLQARDHGSPTLSANVSMRLLVGDRNDNAPRVLYPTLEPDGSALFDMVPRSAEPGYLVTKVVAVDADSGHNAWLSYHVLQASDPGLFSLGLRTGEVRTARALGDRDSARQRLLVAVRDGGQPPLSATATLHLIF QIRYKIPEEMPTGSVVGNLAKDLGFSVQELPTRKLRISSEKPYFSVSSESGELLVSSRLDREQICGKKLMCALEFEAVAENPLNFYHLSVELEDINDHTPKFAHTSFELQISESSKPGTRFILGSAHDADIGTNSLQNYQLSPNDHFSLVNKEKSDGSKYPEMILKTALDREKQKLYHLTLTALDFGHPPLNSTAQIQVLVTDANDNPPVFSQDIYRVSLPENVYPGTTVLRVVATDQDEGVNSEITFSFSEAGQVTQFNLDSNTGEITTLHTLDFEEVKEYSLVLEAKDGGGMIAQCTVEIEVLDENDNVPEVLFQSLPDLIMEDAEPGTYIALLKTRDKDSGRNGEVICKLEGGAPFKILTSSGNTYKLVTDGVLDREQNPEYNITIRATDKGDPPLSSSSSVTLHIGDVNDNAPVFTKVSYLVHVAENNPPGASIAQVSASDPDLGANGQVTYYIIASDLEPESLWSYVTINAQSGVLFAQRAFDHEQLRSFQLTLQARDHGSPTLSANVSMRLLVGDRNDNAPRVLYPTLEPDGSALFDMVPRSAEPGYLVTKVVAVDADSGHNAWLSYHVLQASDPGLFSLGLRTGEVRTARALGDRDSARQRLLVAVRDGGQPPLSATATLHLIFAD 6e7o-a1-m1-cB_6e7o-a1-m1-cA Crystal structure of deglycosylated human EPDR1 Q9UM22 Q9UM22 3 X-RAY DIFFRACTION 98 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 161 167 6e8n-a1-m1-cB_6e8n-a1-m1-cA 6jld-a1-m1-cB_6jld-a1-m1-cA 6jld-a2-m1-cD_6jld-a2-m1-cC PRPCQAPQQWEGRQVMYQQSSGRNSRALLSYDGLNQRVRVLDELFEYILLYKDGVMFQIDQATKQCSKMTLTQPWDPLDIPQNSTFEDQYSIGGPQEQITVQEWSDRKSYETWIGIYTVKDCYPVQETFTINYSVILSTRFFDIQLGIKDPSVFTPPSTCQ APRPCQAPQQWEGRQVMYQQSSGRNSRALLSYDGLNQRVRVLDERKRLFEYILLYKDGVMFQIDQATKQCSKMTLTQPWDPLDIPQNSTFEDQYSIGGPQEQITVQEWSDRKYETWIGIYTVKDCYPVQETFTINYSVILSTRFFDIQLGIKDPSVFTPPSTCQMAQ 6e85-a1-m1-cB_6e85-a1-m1-cA 1.25 Angstrom Resolution Crystal Structure of 4-hydroxythreonine-4-phosphate Dehydrogenase from Klebsiella pneumoniae. A0A1Y0PY16 A0A1Y0PY16 1.25 X-RAY DIFFRACTION 103 1.0 72407 (Klebsiella pneumoniae subsp. pneumoniae) 72407 (Klebsiella pneumoniae subsp. pneumoniae) 325 331 SKMIAVTMGDPAGIGPEIIIKSLAEGALSGAPVVVVGCAQTLRRILALNITPRAELRIIDHPAEASFSPATINVIDEPLSDPQGLRPGEVQAQAGDLAFRCIRRATALALEGAVAAIATAPLNKEALHLAGHAYPGHTELLAHLTQTTDYAMVLYTEKLKVIHITTHISLRQFLDTLNQPRIETVIGVADRFLRRVGYPRPRIAVAGVNPHAGENGLFGDEEIRIVAPAVAAMRAKGVEVTGPCPPDTVFMQCHEGMYDMVVAMYHDQGHIPLKLLGFYGVNITAGLPFIRTSADHGTAFDIAWTGKAKSESMATSIELAMHIAQ SNAMSKMIAVTMGDPAGIGPEIIIKSLAEGALSGAPVVVVGCAQTLRRILALNITPRAELRIIDHPAEASFSPATINVIDEPLSDPQGLRPGEVQAQAGDLAFRCIRRATALALEGAVAAIATAPLNKEALHLAGHAYPGHTELLAHLTQTTDYAMVLYTEKLKVIHITTHISLRQFLDTLNQPRIETVIGVADRFLRRVGYPRPRIAVAGVNPHAGENGLFGDEEIRIVAPAVAAMRAKGVEVTGPCPPDTVFMQCHEGMYDMVVAMYHDQGHIPLKLLGFYDGVNITAGLPFIRTSADHGTAFDIAWTGKAKSESMATSIELAMHIAQE 6e88-a1-m1-cC_6e88-a1-m1-cM Cryo-EM structure of C. elegans GDP-microtubule P34690 P34690 4.8 ELECTRON MICROSCOPY 18 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 434 434 6e88-a1-m1-cA_6e88-a1-m1-cH 6e88-a1-m1-cA_6e88-a1-m1-cI 6e88-a1-m1-cC_6e88-a1-m1-cL MREVISIHVGQAGVQIGNACWELYCLEHGIQPDGTMPTQSTNEGESFTTFFSDTGSGRYVPRSIFVDLEPTVVDEIRTGTYKKLFHPEQMITGKEDAANNYARGHYTVGKELIDTVLDRIRRLADNCSGLQGFFVFHSFGGGTGSGFTSLLMERLSVDYGKKSKLEFSIYPAPQVSTAVVEPYNSILTTHTTLEHSDCAFMVDNEAIYDICRRNLDVERPSYTNLNRIISQVVSSITASLRFDGALNVDLNEFQTNLVPYPRIHFPLAAYTPLISAEKAYHEALSVSDITNSCFEPANQMVKCDPRHGKYMAVCLLYRGDVVPKDVNTAIAAIKTKRTIQFVDWCPTGFKVGINYQPPTVVPGGDLAKVPRAVCMLSNTTAIAEAWSRLDYKFDLMYAKRAFVHWYVGEGMEEGEFTEAREDLAALEKDYEEVG MREVISIHVGQAGVQIGNACWELYCLEHGIQPDGTMPTQSTNEGESFTTFFSDTGSGRYVPRSIFVDLEPTVVDEIRTGTYKKLFHPEQMITGKEDAANNYARGHYTVGKELIDTVLDRIRRLADNCSGLQGFFVFHSFGGGTGSGFTSLLMERLSVDYGKKSKLEFSIYPAPQVSTAVVEPYNSILTTHTTLEHSDCAFMVDNEAIYDICRRNLDVERPSYTNLNRIISQVVSSITASLRFDGALNVDLNEFQTNLVPYPRIHFPLAAYTPLISAEKAYHEALSVSDITNSCFEPANQMVKCDPRHGKYMAVCLLYRGDVVPKDVNTAIAAIKTKRTIQFVDWCPTGFKVGINYQPPTVVPGGDLAKVPRAVCMLSNTTAIAEAWSRLDYKFDLMYAKRAFVHWYVGEGMEEGEFTEAREDLAALEKDYEEVG 6e8a-a2-m1-cB_6e8a-a2-m2-cB Crystal structure of DcrB from Salmonella enterica at 1.92 Angstroms resolution Q7CPJ3 Q7CPJ3 1.92 X-RAY DIFFRACTION 174 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 143 143 6e8a-a1-m1-cA_6e8a-a1-m3-cA GQPISLMDGKLSFSLPADMTDQSGKLQANNMHVYSDPTGQKAVIVIVGDNTDEALPVLANRLLEQQRSRDPQLQVVTNKSIELKGHTLQQLDSIISAKGQTAYSSIVLGKVDNQLLTIQVTLPADNQQKAQTTAENIINTLVI GQPISLMDGKLSFSLPADMTDQSGKLQANNMHVYSDPTGQKAVIVIVGDNTDEALPVLANRLLEQQRSRDPQLQVVTNKSIELKGHTLQQLDSIISAKGQTAYSSIVLGKVDNQLLTIQVTLPADNQQKAQTTAENIINTLVI 6e8l-a3-m1-cD_6e8l-a3-m1-cF Crystal Structure of Alkyl hydroperoxidase D (AhpD) from Streptococcus pneumoniae (Strain D39/ NCTC 7466) A0A0H2ZNM1 A0A0H2ZNM1 2.3 X-RAY DIFFRACTION 144 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 180 182 6e8l-a1-m1-cA_6e8l-a1-m1-cB 6e8l-a2-m1-cE_6e8l-a2-m1-cC TFTIHTVESAPAEVKEILETVEKDNNGYIPNLIGLLANAPTVLEAYQIVSSIHRRNSLTPVEREVVQITAAVTNGCAFCVAGHTAFSIKQIQMNDDLIQALRNRTPIETDPKLDTLAKFTLAVINTKGRVGDEALSEFLEAGYTQQNALDVVFGVSLAILCNYANNLANTPINPELQPYA PTTFTIHTVESAPAEVKEILETVEKDNNGYIPNLIGLLANAPTVLEAYQIVSSIHRRNSLTPVEREVVQITAAVTNGCAFCVAGHTAFSIKQIQMNDDLIQALRNRTPIETDPKLDTLAKFTLAVINTKGRVGDEALSEFLEAGYTQQNALDVVFGVSLAILCNYANNLANTPINPELQPYA 6e9z-a1-m1-cA_6e9z-a1-m1-cH DHF119 filament 3.4 ELECTRON MICROSCOPY 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 225 225 6e9z-a1-m1-cB_6e9z-a1-m1-cD 6e9z-a1-m1-cC_6e9z-a1-m1-cF PEDELKRVEKLVKEAEALLIVAKIKGSKRDLEKALRTAEEAAREAVKVLVQALLEGDPEVALRAVELVVRVAELLLRIAKESGSREALLRALIVAEEAAKLAKMVLELAEKQGDPEVALRAVELVVRVAELLLRIAKESGSEEALERALRVAEEAARLAKRVLELAEEQGDPLVAKMAVELVKRVAELLERIARESGSEEAKERAERVREEARELQERVKELRER PEDELKRVEKLVKEAEALLIVAKIKGSKRDLEKALRTAEEAAREAVKVLVQALLEGDPEVALRAVELVVRVAELLLRIAKESGSREALLRALIVAEEAAKLAKMVLELAEKQGDPEVALRAVELVVRVAELLLRIAKESGSEEALERALRVAEEAARLAKRVLELAEEQGDPLVAKMAVELVKRVAELLERIARESGSEEAKERAERVREEARELQERVKELRER 6e9z-a1-m1-cH_6e9z-a1-m1-cI DHF119 filament 3.4 ELECTRON MICROSCOPY 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 225 225 6e9z-a1-m1-cA_6e9z-a1-m1-cE 6e9z-a1-m1-cB_6e9z-a1-m1-cG 6e9z-a1-m1-cC_6e9z-a1-m1-cI 6e9z-a1-m1-cD_6e9z-a1-m1-cE 6e9z-a1-m1-cF_6e9z-a1-m1-cG PEDELKRVEKLVKEAEALLIVAKIKGSKRDLEKALRTAEEAAREAVKVLVQALLEGDPEVALRAVELVVRVAELLLRIAKESGSREALLRALIVAEEAAKLAKMVLELAEKQGDPEVALRAVELVVRVAELLLRIAKESGSEEALERALRVAEEAARLAKRVLELAEEQGDPLVAKMAVELVKRVAELLERIARESGSEEAKERAERVREEARELQERVKELRER PEDELKRVEKLVKEAEALLIVAKIKGSKRDLEKALRTAEEAAREAVKVLVQALLEGDPEVALRAVELVVRVAELLLRIAKESGSREALLRALIVAEEAAKLAKMVLELAEKQGDPEVALRAVELVVRVAELLLRIAKESGSEEALERALRVAEEAARLAKRVLELAEEQGDPLVAKMAVELVKRVAELLERIARESGSEEAKERAERVREEARELQERVKELRER 6eaz-a1-m1-cB_6eaz-a1-m1-cA Apo structure of the mitochondrial calcium uniporter protein MICU2 Q8CD10 Q8CD10 2.504 X-RAY DIFFRACTION 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 328 335 KLSLRKQRFMQFSSLEHDGEYYMTPRDFLFSVMFEQVERKTLVKKLAKKDIEDVLSGIQTARCGSTFFRDLGDKGVISYTEYLFLLTILTKPHSGFHVAFKMLDVDGNEMIERKEFVKLQKIISKQGVNTTLQVRFFGKRGEKKLHYKEFRRFMENLQTEVQEMEFLQFSKGLNFMRKEDFAEWLLFFTNTENKDIYWRNVREKLSVGESISLDEFKSFCHFTTHLEDFAIAMQMFSLAHRPVRLAEFKRAVKVATGQELSDNLLDTVFKIFDLDGDECLSHGEFLGVLKNRMHRGLWVSQQQSVQEYWKCVKKESIKGVKEAWRQQA YLGPIEKLSLRKQRFMQFSSLEHDGEYYMTPRDFLFSVMFEQVERKTLVKKLAKKDIEDVLSGIQTARCGSTFFRDLGDKGVISYTEYLFLLTILTKPHSGFHVAFKMLDVDGNEMIERKEFVKLQKIISKQPGVNTTLQVRFFGKRGEKKLHYKEFRRFMENLQTEVQEMEFLQFSKGLNFMRKEDFAEWLLFFTNTENKDIYWRNVREKLSVGESISLDEFKSFCHFTTHLEDFAIAMQMFSLAHRPVRLAEFKRAVKVATGQELSDNLLDTVFKIFDLDGDECLSHGEFLGVLKNRMHRGLWVSQQQSVQEYWKCVKKESIKGVKEAWRQQA 6eb4-a2-m1-cC_6eb4-a2-m1-cD OhrB (Organic Hydroperoxide Resistance protein) from Chromobacterium violaceum Q7NV52 Q7NV52 2.1 X-RAY DIFFRACTION 306 1.0 536 (Chromobacterium violaceum) 536 (Chromobacterium violaceum) 140 140 6eb4-a1-m1-cB_6eb4-a1-m1-cA 6ebc-a1-m1-cA_6ebc-a1-m1-cC 6ebc-a2-m1-cD_6ebc-a2-m1-cB 6ebd-a1-m1-cA_6ebd-a1-m1-cB 6ebd-a2-m1-cD_6ebd-a2-m1-cC 6ebg-a1-m1-cA_6ebg-a1-m1-cB 6ebg-a2-m1-cC_6ebg-a2-m1-cD SIETILYRTQATVSGGREGNAESSDGALKVQLSTPRELGGAGGPGTNPEQLFAAGYAACFLGSLKFVAAKRKTTLSADASVSCGVGIGTLPSGFGLEVELQIRLPGLSDEEARQLIEQAHIVCPYSDATRGNIDVRLRLA SIETILYRTQATVSGGREGNAESSDGALKVQLSTPRELGGAGGPGTNPEQLFAAGYAACFLGSLKFVAAKRKTTLSADASVSCGVGIGTLPSGFGLEVELQIRLPGLSDEEARQLIEQAHIVCPYSDATRGNIDVRLRLA 6ebm-a1-m1-cF_6ebm-a1-m1-cH The voltage-activated Kv1.2-2.1 paddle chimera channel in lipid nanodiscs, transmembrane domain of subunit alpha P63142 P63142 4.0 ELECTRON MICROSCOPY 91 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 298 298 6ebm-a1-m1-cB_6ebm-a1-m1-cD 6ebm-a1-m1-cB_6ebm-a1-m1-cH 6ebm-a1-m1-cD_6ebm-a1-m1-cF EEAMEMFREDEGYIKEEERPLPENEFQRQVWLLFEYPESSGPARIIAIVSVMVILISIVSFCLETLPIFRDENEDMHGGGVTFHTYSQSTIGYQQSTSFTDPFFIVETLCIIWFSFEFLVRFFACPSKAGFFTNIMNIIDIVAIIPYYVTIFLTESNKSVLQFQNVRRVVQIFRIMRILRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET EEAMEMFREDEGYIKEEERPLPENEFQRQVWLLFEYPESSGPARIIAIVSVMVILISIVSFCLETLPIFRDENEDMHGGGVTFHTYSQSTIGYQQSTSFTDPFFIVETLCIIWFSFEFLVRFFACPSKAGFFTNIMNIIDIVAIIPYYVTIFLTESNKSVLQFQNVRRVVQIFRIMRILRIFKLSRHSKGLQILGQTLKASMRELGLLIFFLFIGVILFSSAVYFAEADERDSQFPSIPDAFWWAVVSMTTVGYGDMVPTTIGGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET 6ebn-a1-m1-cB_6ebn-a1-m1-cA Crystal structure of Psilocybe cubensis noncanonical aromatic amino acid decarboxylase A0A4P1LYB6 A0A4P1LYB6 1.96631 X-RAY DIFFRACTION 620 1.0 181762 (Psilocybe cubensis) 181762 (Psilocybe cubensis) 957 960 VPSSDDHERISALFLGPKAENAAFLQQWLTTVVAQQKAARDAYFPDDNAFITTDMQTSPAFAQTTKVIASNLTELLTALGERSIPFFSPRYSGHMSVDQSLPAILGFLSTTFYNPNNVAFEASPFTTLIEEEVGLQLSEMLGYNRLNNTEKPLAWGHIASGGTVANLEAMWAARNLKFYPLSLRDASAEGAEMEFIRDTFSVKTCVGDKKLLKDCSPWELLNLHVSTILDMPDRLHDEYNISPQFLEKVMRKYIIQSTNKDTLMQRWGLTQQPVVLSPSTNHYSWPKAAAVLGIGSDNLRNVPVDIQAHMDINELDRMLKICLDEETPVYQVVAVIGTTEEGGVDRITEILKLRQKYEALGLSFAIHADAAWGGYFATMLPKDTLGRNRTRLPKEDTTSGFVPHVGLREESALQLSHIKYADSITIDPHAGYVPYPAGALCYRDGRMRYLLTWSAPYLAQGNEGQSIGIYGIEGSKPGAAASAVFMAHETIGLTPSGYGNLLGQAMFTCRRYAAHWSAMSTDTTSFTVTPFNPIPADIDPNADPAKVEEQKQFIRDRILFKSNEEIYNDSEAMELLHQLGSDLNINVFACNFRDRDNNLNTDVEEANWLNNRIFQRFSVTSAEENPLETPFFLSSTTLKQSEYGVCATEVKRRMGLVGDQDVIVLRNVVMSPFTTTNDFVGTLANTFQKIVEEEVEYARIRNDMKPSIHTFLLHGSGEQYYLVHTPTIHMASGRRQIILSVNVEGQVRQAVEAVIVHNTVPLRLDEIVDGGSFDGILTIGKRKTSFKVKISNIKVVKKRSLMTEDLESAYPSLMPFYFYGTQGHAHLDHVITVVPNIHLSAGEIQYKFDDEVSSEDLAKGLIVVAENVHEASMQPFPLMKDFKITNQFFFSSGQILRVKVYRDPYPASTMDPIPLHDIKNQPVVTQGTITLVGNIYVDSDALNVASEPTADEDAAHV VPSSDDHERISALFLGPKAENAAFLQQWLTTVVAQQKAARDAYFPDDNAFITTDMQTSPAFAQTTKVIASNLTELLTALGERSIPFFSPRYSGHMSVDQSLPAILGFLSTTFYNPNNVAFEASPFTTLIEEEVGLQLSEMLGYNRLNNTEKPLAWGHIASGGTVANLEAMWAARNLKFYPLSLRDASAEGAEMEFIRDTFSVKTCVGDKKLLKDCSPWELLNLHVSTILDMPDRLHDEYNISPQFLEKVMRKYIIQSTNKDTLMQRWGLTQQPVVLSPSTNHYSWPKAAAVLGIGSDNLRNVPVDIQAHMDINELDRMLKICLDEETPVYQVVAVIGTTEEGGVDRITEILKLRQKYEALGLSFAIHADAAWGGYFATMLPKDTLGRNRTRLPKEDTTSGFVPHVGLREESALQLSHIKYADSITIDPHAGYVPYPAGALCYRDGRMRYLLTWSAPYLAQGNEGQSIGIYGIEGSKPGAAASAVFMAHETIGLTPSGYGNLLGQAMFTCRRYAAHWSAMSTDTTSFTVTPFNPIPADIDPNADPAKVEEQKQFIRDRILFKSNEEIYNDSEAMELLHQLGSDLNINVFACNFRDRDNNLNTDVEEANWLNNRIFQRFSVTSAEENPLETPFFLSSTTLKQSEYGVCATEVKRRMGLVGDQDVIVLRNVVMSPFTTTNDFVGTLANTFQKIVEEEVEYARIRNDMKPSIHTFLLHGSGEQYYLVHTPTIHMASGRRQIILSVNVEGQVRQAVEAVIVHNTVPLRLDEIVDGGSFDGILTIGKRKTSFKVKISNIKVVKKRSLMTEDLESAYPSLMPFYFYGTQGHAHLDHVITVVPNIHLSAGEIQYKFDDEVSSEDLAKGLIVVAENVHEASMQPFPLMKDFKITNQFFFSSGQILRVKVYRDPYPASTMDPIPLHDIKNQPVVTQGTITLVGNIYVDSDALNVASEPTADEDAAHVPHA 6ebo-a1-m1-cB_6ebo-a1-m1-cA Crystal Structure of the Class Ie Ribonucleotide Reductase Beta Subunit from Aerococcus urinae in Unactivated Form F2I8X9 F2I8X9 1.58 X-RAY DIFFRACTION 197 1.0 866775 (Aerococcus urinae ACS-120-V-Col10a) 866775 (Aerococcus urinae ACS-120-V-Col10a) 303 311 6ebo-a2-m1-cC_6ebo-a2-m2-cD 6ebp-a1-m1-cA_6ebp-a1-m1-cB 6ebp-a2-m1-cC_6ebp-a2-m2-cD 6ebz-a1-m1-cB_6ebz-a1-m1-cA 6ebz-a2-m1-cC_6ebz-a2-m2-cD 7mmt-a1-m1-cA_7mmt-a1-m1-cB 7mmu-a1-m1-cA_7mmu-a1-m1-cB 7mmv-a1-m1-cA_7mmv-a1-m1-cB 7mmw-a1-m1-cB_7mmw-a1-m1-cA NYYDRSVSPVEYAYFDQSQNMRAINWNKIVDEKDLEVWNRVTQNFWLPENIPVSNDLPSWNELDDDWQQLITRTFTGLTLLDTVQSSIGDVAQIKNSLTEQEQVIYANFAFMVGVHARSYGTIFSTLCTSEQIEEAHEWVVDNEALQARPKALIPFYTADDPLKSKIAAALMPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNFYSGYKYQLKVAKLSPEKQAEMKQFVFDLLDKMIGLEKTYLHQLYDGFGLADEAIRFSLYNAGKFLQNLGYESPFTKEETRIAPEVFAQLSA NYYDRSVSPVEYAYFDQSQNMRAINWNKIVDEKDLEVWNRVTQNFWLPENIPVSNDLPSWNELDDDWQQLITRTFTGLTLLDTVQSSIGDVAQIKNSLTEQEQVIYANFAFMVGVHARSYGTIFSTLCTSEQIEEAHEWVVDNEALQARPKALIPFYTADDPLKSKIAAALMPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNFYSGYKYQLKVAKLSPEKQAEMKQFVFDLLDKMIGLEKTYLHQLYDGFGLADEAIRFSLYNAGKFLQNLGYESPFTKEETRIAPEVFAQLSARADENHDF 6ebq-a1-m1-cB_6ebq-a1-m1-cA Crystal Structure of the Flavoprotein NrdI from Aerococcus urinae in Oxidized Form F2I8Y0 F2I8Y0 1.95 X-RAY DIFFRACTION 52 1.0 1376 (Aerococcus urinae) 1376 (Aerococcus urinae) 123 138 IVYFSTQSNNTHRFVQKLDAESIRIPIDEEERIKVDEDYVLIVPTYSGGAVPKQVIHFLNDPDNRKHCLGVISSGNTNFGDSFAIAGPVISYKLKVPLLYQFELIGTKEDVEEVNRIISETFN ELIVYFSTQSNNTHRFVQKLDAESIRIPIDEEERIKVDEDYVLIVPTYSGGKVTDAGQVDAHGAVPKQVIHFLNDPDNRKHCLGVISSGNTNFGDSFAIAGPVISYKLKVPLLYQFELIGTKEDVEEVNRIISETFNA 6eca-a1-m1-cA_6eca-a1-m2-cB Lactobacillus rhamnosus Beta-glucuronidase A0A2A5L2J1 A0A2A5L2J1 2.853 X-RAY DIFFRACTION 32 1.0 47715 (Lacticaseibacillus rhamnosus) 47715 (Lacticaseibacillus rhamnosus) 590 592 6eca-a1-m2-cA_6eca-a1-m1-cB TSLLYPVTNDQRTDQKLDGLWQFKFDEAGEGEKSGWETGFHDGVSMPVPASFNDFFTDKASREYTGDFWYSRNFFVPSAAKGKALFLRFDAVTHRATIFVNGKEIRTHEGGFLPFAADISEAVKYGAENTVVVKGNNELSREALPAGDTITLRNGKKMVRPFFDFYNYSGLNRSVHLLSLPQERVLDYTTTFALAGNDATVNYTVETNGDAPVTVSLADADGQVVATAQGKQGALQVQNAHLWQVRNAYLYTLTIQLGDDTQTPLDTYTDRIGIRTIKISGTDILVNDKPIYLKGFGRHEDSPFAGRAFDLNVEKKDFALMKWIGANSFRTSHYPYDEQVYKIADEEGFLLTDEVPAVGFKMASFFKGPWLKKLHERHIDQIRDLIKRDKNHPSVLAWSLFNEPDTIDENAVPYFKQIFDESKDLDPQGRPRTFTLSEDDTIETSKVLDFPDFYMLNRYPGWYHFGGYQISDGEAGLRDEMDKWQKAGVKKPVVFTEFGADTEAGLHKLPSVMWTEEYQVEVLKMFSRVFDDYDFIKGEQVWNLADFQTVEGNMRVNGNKKGIFTRDRQPKAAAFFYHDRWNKLPLDYKA METSLLYPVTNDQRTDQKLDGLWQFKFDEAGEGEKSGWETGFHDGVSMPVPASFNDFFTDKASREYTGDFWYSRNFFVPSAAKGKALFLRFDAVTHRATIFVNGKEIRTHEGGFLPFAADISEAVKYGAENTVVVKGNNELSREALPAGDTITLRNGKKMVRPFFDFYNYSGLNRSVHLLSLPQERVLDYTTTFALAGNDATVNYTVETNGDAPVTVSLADADGQVVATAQGKQGALQVQNAHLWQVRNAYLYTLTIQLGDDTQTPLDTYTDRIGIRTIKISGTDILVNDKPIYLKGFGRHEDSPFAGRAFDLNVEKKDFALMKWIGANSFRTSHYPYDEQVYKIADEEGFLLTDEVPAVGFKMASFFKGPWLKKLHERHIDQIRDLIKRDKNHPSVLAWSLFNEPDTIDENAVPYFKQIFDESKDLDPQGRPRTFTLSEDDTIETSKVLDFPDFYMLNRYPGWYHFGGYQISDGEAGLRDEMDKWQKAGVKKPVVFTEFGADTEAGLHKLPSVMWTEEYQVEVLKMFSRVFDDYDFIKGEQVWNLADFQTVEGNMRVNGNKKGIFTRDRQPKAAAFFYHDRWNKLPLDYKA 6eca-a1-m1-cB_6eca-a1-m2-cB Lactobacillus rhamnosus Beta-glucuronidase A0A2A5L2J1 A0A2A5L2J1 2.853 X-RAY DIFFRACTION 103 1.0 47715 (Lacticaseibacillus rhamnosus) 47715 (Lacticaseibacillus rhamnosus) 592 592 6eca-a1-m1-cA_6eca-a1-m2-cA METSLLYPVTNDQRTDQKLDGLWQFKFDEAGEGEKSGWETGFHDGVSMPVPASFNDFFTDKASREYTGDFWYSRNFFVPSAAKGKALFLRFDAVTHRATIFVNGKEIRTHEGGFLPFAADISEAVKYGAENTVVVKGNNELSREALPAGDTITLRNGKKMVRPFFDFYNYSGLNRSVHLLSLPQERVLDYTTTFALAGNDATVNYTVETNGDAPVTVSLADADGQVVATAQGKQGALQVQNAHLWQVRNAYLYTLTIQLGDDTQTPLDTYTDRIGIRTIKISGTDILVNDKPIYLKGFGRHEDSPFAGRAFDLNVEKKDFALMKWIGANSFRTSHYPYDEQVYKIADEEGFLLTDEVPAVGFKMASFFKGPWLKKLHERHIDQIRDLIKRDKNHPSVLAWSLFNEPDTIDENAVPYFKQIFDESKDLDPQGRPRTFTLSEDDTIETSKVLDFPDFYMLNRYPGWYHFGGYQISDGEAGLRDEMDKWQKAGVKKPVVFTEFGADTEAGLHKLPSVMWTEEYQVEVLKMFSRVFDDYDFIKGEQVWNLADFQTVEGNMRVNGNKKGIFTRDRQPKAAAFFYHDRWNKLPLDYKA METSLLYPVTNDQRTDQKLDGLWQFKFDEAGEGEKSGWETGFHDGVSMPVPASFNDFFTDKASREYTGDFWYSRNFFVPSAAKGKALFLRFDAVTHRATIFVNGKEIRTHEGGFLPFAADISEAVKYGAENTVVVKGNNELSREALPAGDTITLRNGKKMVRPFFDFYNYSGLNRSVHLLSLPQERVLDYTTTFALAGNDATVNYTVETNGDAPVTVSLADADGQVVATAQGKQGALQVQNAHLWQVRNAYLYTLTIQLGDDTQTPLDTYTDRIGIRTIKISGTDILVNDKPIYLKGFGRHEDSPFAGRAFDLNVEKKDFALMKWIGANSFRTSHYPYDEQVYKIADEEGFLLTDEVPAVGFKMASFFKGPWLKKLHERHIDQIRDLIKRDKNHPSVLAWSLFNEPDTIDENAVPYFKQIFDESKDLDPQGRPRTFTLSEDDTIETSKVLDFPDFYMLNRYPGWYHFGGYQISDGEAGLRDEMDKWQKAGVKKPVVFTEFGADTEAGLHKLPSVMWTEEYQVEVLKMFSRVFDDYDFIKGEQVWNLADFQTVEGNMRVNGNKKGIFTRDRQPKAAAFFYHDRWNKLPLDYKA 6eca-a1-m2-cA_6eca-a1-m2-cB Lactobacillus rhamnosus Beta-glucuronidase A0A2A5L2J1 A0A2A5L2J1 2.853 X-RAY DIFFRACTION 93 1.0 47715 (Lacticaseibacillus rhamnosus) 47715 (Lacticaseibacillus rhamnosus) 590 592 6eca-a1-m1-cA_6eca-a1-m1-cB TSLLYPVTNDQRTDQKLDGLWQFKFDEAGEGEKSGWETGFHDGVSMPVPASFNDFFTDKASREYTGDFWYSRNFFVPSAAKGKALFLRFDAVTHRATIFVNGKEIRTHEGGFLPFAADISEAVKYGAENTVVVKGNNELSREALPAGDTITLRNGKKMVRPFFDFYNYSGLNRSVHLLSLPQERVLDYTTTFALAGNDATVNYTVETNGDAPVTVSLADADGQVVATAQGKQGALQVQNAHLWQVRNAYLYTLTIQLGDDTQTPLDTYTDRIGIRTIKISGTDILVNDKPIYLKGFGRHEDSPFAGRAFDLNVEKKDFALMKWIGANSFRTSHYPYDEQVYKIADEEGFLLTDEVPAVGFKMASFFKGPWLKKLHERHIDQIRDLIKRDKNHPSVLAWSLFNEPDTIDENAVPYFKQIFDESKDLDPQGRPRTFTLSEDDTIETSKVLDFPDFYMLNRYPGWYHFGGYQISDGEAGLRDEMDKWQKAGVKKPVVFTEFGADTEAGLHKLPSVMWTEEYQVEVLKMFSRVFDDYDFIKGEQVWNLADFQTVEGNMRVNGNKKGIFTRDRQPKAAAFFYHDRWNKLPLDYKA METSLLYPVTNDQRTDQKLDGLWQFKFDEAGEGEKSGWETGFHDGVSMPVPASFNDFFTDKASREYTGDFWYSRNFFVPSAAKGKALFLRFDAVTHRATIFVNGKEIRTHEGGFLPFAADISEAVKYGAENTVVVKGNNELSREALPAGDTITLRNGKKMVRPFFDFYNYSGLNRSVHLLSLPQERVLDYTTTFALAGNDATVNYTVETNGDAPVTVSLADADGQVVATAQGKQGALQVQNAHLWQVRNAYLYTLTIQLGDDTQTPLDTYTDRIGIRTIKISGTDILVNDKPIYLKGFGRHEDSPFAGRAFDLNVEKKDFALMKWIGANSFRTSHYPYDEQVYKIADEEGFLLTDEVPAVGFKMASFFKGPWLKKLHERHIDQIRDLIKRDKNHPSVLAWSLFNEPDTIDENAVPYFKQIFDESKDLDPQGRPRTFTLSEDDTIETSKVLDFPDFYMLNRYPGWYHFGGYQISDGEAGLRDEMDKWQKAGVKKPVVFTEFGADTEAGLHKLPSVMWTEEYQVEVLKMFSRVFDDYDFIKGEQVWNLADFQTVEGNMRVNGNKKGIFTRDRQPKAAAFFYHDRWNKLPLDYKA 6ecf-a1-m1-cG_6ecf-a1-m1-cA Vlm2 thioesterase domain with genetically encoded 2,3-diaminopropionic acid bound with a dodecadepsipeptide, space group P1 Q1PSF3 2.5 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 285482 (Streptomyces tsusimaensis) 1 250 6ece-a1-m1-cC_6ece-a1-m1-cA 6ecf-a2-m1-cI_6ecf-a2-m1-cB 6ecf-a3-m1-cH_6ecf-a3-m1-cC 6ecf-a4-m1-cK_6ecf-a4-m1-cD 6ecf-a5-m1-cJ_6ecf-a5-m1-cE 6ecf-a6-m1-cL_6ecf-a6-m1-cF V DPTAKLVRLNPRGGDGPGIVFAPPAGGTVLGYIELARHLKGFGEIHGVEAPGLGAGETPVYPSFEEMVQFCSDSAAGVAGDGVYIGGHLGGHIAFYLATMLLDRGIRPKGLIILDTPPRLTEEETKVFILAMKDLPYEEAKQLLLDRAKNDPRVSAFLSEDYLDRFLRLQMHQLMYSRDVVLPQRKLDIPIHVFRTKNHAPEVARLFSAWENYAAGEVTFVDIPGDHATMLRAPHVSEVAQLLDRHCGLP 6eci-a4-m1-cG_6eci-a4-m1-cH Structure of the FAD binding protein MSMEG_5243 from Mycobacterium smegmatis I7GF07 I7GF07 2.69 X-RAY DIFFRACTION 55 0.981 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 108 120 AVTILSATECWDLLKSVALGRIVTTVDNTSHIFPINFVVQNRTVLFRTAEGTKLVSAAINNNVLFEADDHDVEQGWSVIVRGVARTVRDEATHWVRVLPTQITGRRFR TILSATECWDLLKSVALGRIVTTVDNTSHIFPINFVVQNRTVLFRTAEGTKLVSAAINNNVLFEADDHDVEQGWSVIVRGVARTVRDEADLAEAQRAELLPWKTHWVRVLPTQITGRRFR 6eci-a7-m1-cM_6eci-a7-m1-cN Structure of the FAD binding protein MSMEG_5243 from Mycobacterium smegmatis I7GF07 I7GF07 2.69 X-RAY DIFFRACTION 66 0.992 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 120 125 6eci-a10-m1-cT_6eci-a10-m1-cS 6eci-a1-m1-cA_6eci-a1-m1-cB 6eci-a2-m1-cD_6eci-a2-m1-cC 6eci-a5-m1-cI_6eci-a5-m1-cJ 6eci-a6-m1-cL_6eci-a6-m1-cK 6eci-a8-m1-cO_6eci-a8-m1-cP VTILSATECWDLLKSVALGRIVTTVDNTSHIFPINFVVQNRTVLFRTAEGTKLVSAAINNNVLFEADDHDVEQGWSVIVRGVARTVRDEADLAEAQRAELLPTHWVRVLPTQITGRRFRF TILSATECWDLLKSVALGRIVTTVDNTSHIFPINFVVQNRTVLFRTAEGTKLVSAAINNNVLFEADDHDVEQGWSVIVRGVARTVRDEADLAEAQRAELLPWTATAKTHWVRVLPTQITGRRFRF 6ecm-a1-m1-cA_6ecm-a1-m2-cA Crystal Structure of SNX15 PX domain in domain swapped conformation Q9NRS6 Q9NRS6 2.353 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 98 FLRHYTVSDPRTHPKGYTEYKVTAQFISVKEVVVWKRYSDFRKLHGDLAYTHRNLFRRLEEFASVIEERRKGAEDLLRFTVHIPALNNSPQLKEFFRG FLRHYTVSDPRTHPKGYTEYKVTAQFISVKEVVVWKRYSDFRKLHGDLAYTHRNLFRRLEEFASVIEERRKGAEDLLRFTVHIPALNNSPQLKEFFRG 6ecw-a1-m1-cB_6ecw-a1-m1-cA StiD O-MT residues 956-1266 Q8RJY3 Q8RJY3 1.7 X-RAY DIFFRACTION 63 1.0 41 (Stigmatella aurantiaca) 41 (Stigmatella aurantiaca) 280 281 6ecu-a1-m1-cA_6ecu-a1-m1-cB 6ecv-a1-m1-cB_6ecv-a1-m1-cA DESYLTFGVLNEKQPGFSWLRVAYGLDPSEERMRLLLHSQRALRNVLLDSVDFSRAKSVWDFGCGYASDIIALGERHSHLKLHGHTLSSEQAELGLRKIEARGLGGRVQVLRRDSSKDAPLESAYDVILGFEVATHIKEKRSLFQNLSSHLREGGFMLLADFIANSGSSYNVTPSQWVELLSEHGLRLVECVDVSQEVANFLFDADFDANLTQLETSVGISAIEKRNYQAMRNFGAALERKILSYVLFIAQKDSHVRSTYLRHINQKWVEAPAPYAAREL VDESYLTFGVLNEKQPGFSWLRVAYGLDPSEERMRLLLHSQRALRNVLLDSVDFSRAKSVWDFGCGYASDIIALGERHSHLKLHGHTLSSEQAELGLRKIEARGLGGRVQVLRRDSSKDAPLESAYDVILGFEVATHIKEKRSLFQNLSSHLREGGFMLLADFIANSGSSYNVTPSQWVELLSEHGLRLVECVDVSQEVANFLFDADFDANLTQLETSVGISAIEKRNYQAMRNFGAALERKILSYVLFIAQKDSHVRSTYLRHINQKWVEAPAPYAAREL 6ecy-a1-m1-cA_6ecy-a1-m1-cB OhrA (Organic Hydroperoxide Resistance protein) wild type from chromobacterium violaceum Q7P1K4 Q7P1K4 1.4 X-RAY DIFFRACTION 328 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 143 155 6ed0-a1-m1-cB_6ed0-a1-m1-cA HMNPLQKVLYTAEATATGGRDGRAESSDGALQVKLSTPRELGGLGGDGTNPEQLFAAGYSACFIGALKVAAQQAGVRLPAEVSVTGKVSIGPIAHGFGIAAKLAVSLPGLERDAGLRLIEAAHGICPYSNATRGNIEVELTLA HHHSSGLVPRGSHMNPLQKVLYTAEATATGGRDGRAESSDGALQVKLSTPRELGGLGGDGTNPEQLFAAGYSACFIGALKVAAQQAGVRLPAEVSVTGKVSIGPIAHGFGIAAKLAVSLPGLERDAGLRLIEAAHGICPYSNATRGNIEVELTLA 6ed1-a2-m1-cB_6ed1-a2-m1-cC Bacteroides dorei Beta-glucuronidase C3R9X4 C3R9X4 2.9 X-RAY DIFFRACTION 196 1.0 357276 (Phocaeicola dorei) 357276 (Phocaeicola dorei) 860 860 6ed1-a1-m1-cA_6ed1-a1-m2-cD FQSNASEISITDSWKYKAENDERFSSMDWNDSDWVTVDLPHTWNAGDVIDEQRGYRRGISWYRKKLFIPSEARDKKITLRFDGVASKADVYLNGKLLKTHLGAYTAFGVDITDICEVGKENLLAVKVDNSSSLGEILPPVSGDFSIFGGIYRRVFLQWTEKVHFVTEPYAAVPVRIQTPEVSVSEASMQIVAFLKNDFTDTKHVHVNVFLCDEMNRIVKEKQLKLKLIPGRKYPISTSVGRIENPHLWSPELPYLYTVKVQVCDAKNGEMYQEVISPVGFRWFSVDKTGFYLNGKYLKLRGAARHQDYAGLGTAIPVEMNRRDMRLLKEMGANFVRISHYPQDPEIYRACDELGLIVWSEICVVNEVRKNTAFAHNCKEMLKEMILQNYNHPSVVLWGAMNELWDYHKQAIALARELEALKKELDPYRLSCVAFHAFTWEKPYTQSSKEMFSISDVNGVNVYESWYQGDSATIAPMFDKFCSYSTAKPRFLSEFGAGSDERIHSYTPRTFDFTPEFQLDFNRRYINEMEKRPDYIGYSIWNLVDFQVDGRGDSKPNLNQKGMLTEDRRKKEIYYYCQARWSDIPMIHIAGADWTKRVEICDDSINVRKISVFSNQKTVELIHNGKSLGVREVVNGEAVFAVPFINGENLLDARSGALSDRLKIQMKLLSSRLTDSDVLLDGLCINLGQEHCYFIDPQLQEIWIPDKPYTKGSWGYMDGKPFNSWPGSSHDGVRYGVGADIKNTFLEPLFQTFLIGTTCYRLDVPDGVYEIGFYFTEPFSKDERKNIVRTGVSAEGQRVFDVSVNGEKLIDSLNLADSYGEQTAVVKTLVVNVRNHEGLEILLSPQKGQGVISGLKVKKIR FQSNASEISITDSWKYKAENDERFSSMDWNDSDWVTVDLPHTWNAGDVIDEQRGYRRGISWYRKKLFIPSEARDKKITLRFDGVASKADVYLNGKLLKTHLGAYTAFGVDITDICEVGKENLLAVKVDNSSSLGEILPPVSGDFSIFGGIYRRVFLQWTEKVHFVTEPYAAVPVRIQTPEVSVSEASMQIVAFLKNDFTDTKHVHVNVFLCDEMNRIVKEKQLKLKLIPGRKYPISTSVGRIENPHLWSPELPYLYTVKVQVCDAKNGEMYQEVISPVGFRWFSVDKTGFYLNGKYLKLRGAARHQDYAGLGTAIPVEMNRRDMRLLKEMGANFVRISHYPQDPEIYRACDELGLIVWSEICVVNEVRKNTAFAHNCKEMLKEMILQNYNHPSVVLWGAMNELWDYHKQAIALARELEALKKELDPYRLSCVAFHAFTWEKPYTQSSKEMFSISDVNGVNVYESWYQGDSATIAPMFDKFCSYSTAKPRFLSEFGAGSDERIHSYTPRTFDFTPEFQLDFNRRYINEMEKRPDYIGYSIWNLVDFQVDGRGDSKPNLNQKGMLTEDRRKKEIYYYCQARWSDIPMIHIAGADWTKRVEICDDSINVRKISVFSNQKTVELIHNGKSLGVREVVNGEAVFAVPFINGENLLDARSGALSDRLKIQMKLLSSRLTDSDVLLDGLCINLGQEHCYFIDPQLQEIWIPDKPYTKGSWGYMDGKPFNSWPGSSHDGVRYGVGADIKNTFLEPLFQTFLIGTTCYRLDVPDGVYEIGFYFTEPFSKDERKNIVRTGVSAEGQRVFDVSVNGEKLIDSLNLADSYGEQTAVVKTLVVNVRNHEGLEILLSPQKGQGVISGLKVKKIR 6ed2-a1-m1-cA_6ed2-a1-m4-cA Faecalibacterium prausnitzii beta-glucuronidase C7H4D2 C7H4D2 2.3 X-RAY DIFFRACTION 95 1.0 411483 (Faecalibacterium duncaniae) 411483 (Faecalibacterium duncaniae) 591 591 6ed2-a1-m2-cA_6ed2-a1-m3-cA AMNRSLLYPRATTTRRLIGLDGMWRFSFDPESKGVEAGWALDLPSSLSMPVPASFCDLFTDKASREYCGDFWYETSFFVPAEWSGWDIVLRFGSVTHRARVFVNGVEVAQHEGGFLPFDATVTNIVRYNQFNKLSVLANNELSETMLPAGTTCTLADGRKIAAPYFDFYNYAGIHRPVWLMALPKERVLDYSTRYRLTETGAEIDYTVSTNGPHPVTVELYDGTTRVAESSGTTGTLVVKNARLWNVHAAYLYDLVIRIHEGSAVVDEYLDRIGIRTFEIRHGRFLLNGSPVYLRGFGRHEDADIRGRGLDLPTVKRDFELMKWIGANCFRTSHYPYAEEIYQMADEEGFLIIDEVPAVGFMQGFFEKETTPALLKNHKAALTDMIDRDKNHPSVIAWSLLNEPQCTSAGTEEYFKPLFELARRLDPQKRPRTYTVLMTSLPDTSKGQRFADFVSLNRYYGWYVLGGAGLADAEAAFHHEMDGWAKVLHGRPLIFTEYGTDNLSGAHKLPSVMWSAEYQNEYLEMTHAVFDHYDFVQGELVWNFADFQTTEGILRVDGNKKGIFTRQRQPKDAAYLFRKRWTTLPVDFKKR AMNRSLLYPRATTTRRLIGLDGMWRFSFDPESKGVEAGWALDLPSSLSMPVPASFCDLFTDKASREYCGDFWYETSFFVPAEWSGWDIVLRFGSVTHRARVFVNGVEVAQHEGGFLPFDATVTNIVRYNQFNKLSVLANNELSETMLPAGTTCTLADGRKIAAPYFDFYNYAGIHRPVWLMALPKERVLDYSTRYRLTETGAEIDYTVSTNGPHPVTVELYDGTTRVAESSGTTGTLVVKNARLWNVHAAYLYDLVIRIHEGSAVVDEYLDRIGIRTFEIRHGRFLLNGSPVYLRGFGRHEDADIRGRGLDLPTVKRDFELMKWIGANCFRTSHYPYAEEIYQMADEEGFLIIDEVPAVGFMQGFFEKETTPALLKNHKAALTDMIDRDKNHPSVIAWSLLNEPQCTSAGTEEYFKPLFELARRLDPQKRPRTYTVLMTSLPDTSKGQRFADFVSLNRYYGWYVLGGAGLADAEAAFHHEMDGWAKVLHGRPLIFTEYGTDNLSGAHKLPSVMWSAEYQNEYLEMTHAVFDHYDFVQGELVWNFADFQTTEGILRVDGNKKGIFTRQRQPKDAAYLFRKRWTTLPVDFKKR 6ed2-a1-m2-cA_6ed2-a1-m4-cA Faecalibacterium prausnitzii beta-glucuronidase C7H4D2 C7H4D2 2.3 X-RAY DIFFRACTION 28 1.0 411483 (Faecalibacterium duncaniae) 411483 (Faecalibacterium duncaniae) 591 591 6ed2-a1-m1-cA_6ed2-a1-m3-cA AMNRSLLYPRATTTRRLIGLDGMWRFSFDPESKGVEAGWALDLPSSLSMPVPASFCDLFTDKASREYCGDFWYETSFFVPAEWSGWDIVLRFGSVTHRARVFVNGVEVAQHEGGFLPFDATVTNIVRYNQFNKLSVLANNELSETMLPAGTTCTLADGRKIAAPYFDFYNYAGIHRPVWLMALPKERVLDYSTRYRLTETGAEIDYTVSTNGPHPVTVELYDGTTRVAESSGTTGTLVVKNARLWNVHAAYLYDLVIRIHEGSAVVDEYLDRIGIRTFEIRHGRFLLNGSPVYLRGFGRHEDADIRGRGLDLPTVKRDFELMKWIGANCFRTSHYPYAEEIYQMADEEGFLIIDEVPAVGFMQGFFEKETTPALLKNHKAALTDMIDRDKNHPSVIAWSLLNEPQCTSAGTEEYFKPLFELARRLDPQKRPRTYTVLMTSLPDTSKGQRFADFVSLNRYYGWYVLGGAGLADAEAAFHHEMDGWAKVLHGRPLIFTEYGTDNLSGAHKLPSVMWSAEYQNEYLEMTHAVFDHYDFVQGELVWNFADFQTTEGILRVDGNKKGIFTRQRQPKDAAYLFRKRWTTLPVDFKKR AMNRSLLYPRATTTRRLIGLDGMWRFSFDPESKGVEAGWALDLPSSLSMPVPASFCDLFTDKASREYCGDFWYETSFFVPAEWSGWDIVLRFGSVTHRARVFVNGVEVAQHEGGFLPFDATVTNIVRYNQFNKLSVLANNELSETMLPAGTTCTLADGRKIAAPYFDFYNYAGIHRPVWLMALPKERVLDYSTRYRLTETGAEIDYTVSTNGPHPVTVELYDGTTRVAESSGTTGTLVVKNARLWNVHAAYLYDLVIRIHEGSAVVDEYLDRIGIRTFEIRHGRFLLNGSPVYLRGFGRHEDADIRGRGLDLPTVKRDFELMKWIGANCFRTSHYPYAEEIYQMADEEGFLIIDEVPAVGFMQGFFEKETTPALLKNHKAALTDMIDRDKNHPSVIAWSLLNEPQCTSAGTEEYFKPLFELARRLDPQKRPRTYTVLMTSLPDTSKGQRFADFVSLNRYYGWYVLGGAGLADAEAAFHHEMDGWAKVLHGRPLIFTEYGTDNLSGAHKLPSVMWSAEYQNEYLEMTHAVFDHYDFVQGELVWNFADFQTTEGILRVDGNKKGIFTRQRQPKDAAYLFRKRWTTLPVDFKKR 6ed2-a1-m3-cA_6ed2-a1-m4-cA Faecalibacterium prausnitzii beta-glucuronidase C7H4D2 C7H4D2 2.3 X-RAY DIFFRACTION 96 1.0 411483 (Faecalibacterium duncaniae) 411483 (Faecalibacterium duncaniae) 591 591 6ed2-a1-m1-cA_6ed2-a1-m2-cA AMNRSLLYPRATTTRRLIGLDGMWRFSFDPESKGVEAGWALDLPSSLSMPVPASFCDLFTDKASREYCGDFWYETSFFVPAEWSGWDIVLRFGSVTHRARVFVNGVEVAQHEGGFLPFDATVTNIVRYNQFNKLSVLANNELSETMLPAGTTCTLADGRKIAAPYFDFYNYAGIHRPVWLMALPKERVLDYSTRYRLTETGAEIDYTVSTNGPHPVTVELYDGTTRVAESSGTTGTLVVKNARLWNVHAAYLYDLVIRIHEGSAVVDEYLDRIGIRTFEIRHGRFLLNGSPVYLRGFGRHEDADIRGRGLDLPTVKRDFELMKWIGANCFRTSHYPYAEEIYQMADEEGFLIIDEVPAVGFMQGFFEKETTPALLKNHKAALTDMIDRDKNHPSVIAWSLLNEPQCTSAGTEEYFKPLFELARRLDPQKRPRTYTVLMTSLPDTSKGQRFADFVSLNRYYGWYVLGGAGLADAEAAFHHEMDGWAKVLHGRPLIFTEYGTDNLSGAHKLPSVMWSAEYQNEYLEMTHAVFDHYDFVQGELVWNFADFQTTEGILRVDGNKKGIFTRQRQPKDAAYLFRKRWTTLPVDFKKR AMNRSLLYPRATTTRRLIGLDGMWRFSFDPESKGVEAGWALDLPSSLSMPVPASFCDLFTDKASREYCGDFWYETSFFVPAEWSGWDIVLRFGSVTHRARVFVNGVEVAQHEGGFLPFDATVTNIVRYNQFNKLSVLANNELSETMLPAGTTCTLADGRKIAAPYFDFYNYAGIHRPVWLMALPKERVLDYSTRYRLTETGAEIDYTVSTNGPHPVTVELYDGTTRVAESSGTTGTLVVKNARLWNVHAAYLYDLVIRIHEGSAVVDEYLDRIGIRTFEIRHGRFLLNGSPVYLRGFGRHEDADIRGRGLDLPTVKRDFELMKWIGANCFRTSHYPYAEEIYQMADEEGFLIIDEVPAVGFMQGFFEKETTPALLKNHKAALTDMIDRDKNHPSVIAWSLLNEPQCTSAGTEEYFKPLFELARRLDPQKRPRTYTVLMTSLPDTSKGQRFADFVSLNRYYGWYVLGGAGLADAEAAFHHEMDGWAKVLHGRPLIFTEYGTDNLSGAHKLPSVMWSAEYQNEYLEMTHAVFDHYDFVQGELVWNFADFQTTEGILRVDGNKKGIFTRQRQPKDAAYLFRKRWTTLPVDFKKR 6edi-a1-m1-cA_6edi-a1-m1-cB Crystal structure of Leishmania braziliensis glucokinase A4HPA0 A4HPA0 1.85 X-RAY DIFFRACTION 155 1.0 420245 (Leishmania braziliensis MHOM/BR/75/M2904) 420245 (Leishmania braziliensis MHOM/BR/75/M2904) 394 394 MVQTKEIALEQLALTLTGDASWSSGPIYVVCDVGGTSARVGFSQASQHDRSGLHIIYVRFKVTKSDIRQLLEFFDEVLQHLKKNLPDHGASFLRRVASGAVSVPGPVTNGQLAGPFNNLKGIARLVDYPVELFPKGRSALLNDLEAGAYGVLALSNAGILSDYFKVMWKGTQWDALSEGKPAGSTIGRGRCMVVAPGTGVGSSLIHYVGVSDSYIVLALECGSLSMSWCANEDSKYVQALAGYMASKGLDSTVAPIWEAASNGAGLEFNYAYAKEGQKASAPLKSAPEVAKLAKSGSDTAAIAAVDRLYKNLIGLTAETTMQFLPLTCVLMGDNVVANSFYFEKPENVKRLQARLHEHAMERQFKFLSRTTFLRQVSSVNINLLGCLGFGSQLS MVQTKEIALEQLALTLTGDASWSSGPIYVVCDVGGTSARVGFSQASQHDRSGLHIIYVRFKVTKSDIRQLLEFFDEVLQHLKKNLPDHGASFLRRVASGAVSVPGPVTNGQLAGPFNNLKGIARLVDYPVELFPKGRSALLNDLEAGAYGVLALSNAGILSDYFKVMWKGTQWDALSEGKPAGSTIGRGRCMVVAPGTGVGSSLIHYVGVSDSYIVLALECGSLSMSWCANEDSKYVQALAGYMASKGLDSTVAPIWEAASNGAGLEFNYAYAKEGQKASAPLKSAPEVAKLAKSGSDTAAIAAVDRLYKNLIGLTAETTMQFLPLTCVLMGDNVVANSFYFEKPENVKRLQARLHEHAMERQFKFLSRTTFLRQVSSVNINLLGCLGFGSQLS 6eei-a1-m1-cA_6eei-a1-m1-cB Crystal structure of Arabidopsis thaliana phenylacetaldehyde synthase in complex with L-phenylalanine Q8RY79 Q8RY79 1.99001 X-RAY DIFFRACTION 435 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 464 470 VLKPMDSEQLREYGHLMVDFIADYYKTIEDFPVLSQVQPGYLHKLLPDSAPDHPETLDQVLDDVRAKILPGVTHWQSPSFFAYYPSNSSVAGFLGEMLSAGLGIVGFSWVTSPAATELEMIVLDWVAKLLNLPEQFMSKGNGGGVIQGSASEAVLVVLIAARDKVLRSVGKNALEKLVVYSSDQTHSALQKACQIAGIHPENCRVLTTDSSTNYALRPESLQEAVSRDLEAGLIPFFLCANVGTTSSTAVDPLAALGIANSNGIWFHVDAAYAGSACICPEYRQYIDGVETADSFNMNAHWFLTNFDCSLLWVKDQDSLTLALSTNPLVVDYKDWQIPLGRRFRSLKLWMVLRLYGSETLKSYIRNHIKLAKEFEQLVSQDPNFEIVTPRIFALVCFRLVPVKCNNRNRELLDAVNSSGKLFMSHTALSGKIVLRCAIGAPLTEEKHVKEAWKIIQEEASYLLH VLKPMDSEQLREYGHLMVDFIADYYKTIEDFPVLSQVQPGYLHKLLPDSAPDHPETLDQVLDDVRAKILPGVTHWQSPSFFAYYPSNSSVAGFLGEMLSAGLGIVGFSWVTSPAATELEMIVLDWVAKLLNLPEQFMSKGNGGGVIQGSASEAVLVVLIAARDKVLRSVGKNALEKLVVYSSDQTHSALQKACQIAGIHPENCRVLTTDSSTNYALRPESLQEAVSRDLEAGLIPFFLCANVGTTSSTAVDPLAALGKIANSNGIWFHVDAAYAGSACICPEYRQYIDGVETADSFNMNAHWFLTNFDCSLLWVKDQDSLTLALSTNPEFLLVVDYKDWQIPLGRRFRSLKLWMVLRLYGSETLKSYIRNHIKLAKEFEQLVSQDPNFEIVTPRIFALVCFRLVPVKDECNNRNRELLDAVNSSGKLFMSHTALSGKIVLRCAIGAPLTEEKHVKEAWKIIQEEASYLLH 6eem-a1-m1-cA_6eem-a1-m1-cB Crystal structure of Papaver somniferum tyrosine decarboxylase in complex with L-tyrosine O82415 O82415 2.61001 X-RAY DIFFRACTION 456 0.998 3469 (Papaver somniferum) 3469 (Papaver somniferum) 487 487 QNPLDPDEFRRQGHMIIDFLADYYKNVEKYPVRSQVEPGYLKKRLPESAPYNPESIETILEDVTNDIIPGLTHWQSPNYFAYFPSSGSIAGFLGEMLSTGFNVVGFNWMSSPAATELESIVMNWLGQMLTLPKSFLFSSDGGGGGVLQGTTCEAILCTLTAARDKMLNKIGRENINKLVVYASDQTHCALQKAAQIAGINPKNVRAIKTSKATNFGLSPNSLQSAILADIESGLVPLFLCATVGTTSSTAVDPIGPLCAVAKLYGIWVHIDAAYAGSACICPEFRHFIDGVEDADSFSLNAHKWFFTTLDCCCLWVKDSDSLVKALSTSPEYLKNQVIDYKDWQIALSRRFRSMKLWLVLRSYGVANLRTFLRSHVKMAKHFQGLIGMDNRFEIVVPRTFAMVCFRLKPTAIFKQKIVDNDYIEDQTNEVNVKLLESVNASGKIYMTHAVVGGVYMIRFAVGATLTEERHVTGAWKVVQEHTDAILG QNPLDPDEFRRQGHMIIDFLADYYKNVEKYPVRSQVEPGYLKKRLPESAPYNPESIETILEDVTNDIIPGLTHWQSPNYFAYFPSSGSIAGFLGEMLSTGFNVVGFNWMSSPAATELESIVMNWLGQMLTLPKSFLFSSDGGGGGVLQGTTCEAILCTLTAARDKMLNKIGRENINKLVVYASDQTHCALQKAAQIAGINPKNVRAIKTSKATNFGLSPNSLQSAILADIESGLVPLFLCATVGTTSSTAVDPIGPLCAVAKLYGIWVHIDAAYAGSACICPEFRHFIDGVEDADSFSLNAHWFFTTLDCCCLWVKDSDSLVKALSTSPEYLKNKQVIDYKDWQIALSRRFRSMKLWLVLRSYGVANLRTFLRSHVKMAKHFQGLIGMDNRFEIVVPRTFAMVCFRLKPTAIFKQKIVDNDYIEDQTNEVNVKLLESVNASGKIYMTHAVVGGVYMIRFAVGATLTEERHVTGAWKVVQEHTDAILG 6eep-a1-m1-cB_6eep-a1-m1-cA Crystal Structure of Ribose-5-phosphate Isomerase from Legionella pneumophila Q5ZZB7 Q5ZZB7 1.85 X-RAY DIFFRACTION 81 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 217 218 6mc0-a1-m1-cB_6mc0-a1-m1-cA HMSELKIKAAKAAIAYIEDDMVIGVGTGSTVNFFIKELAAIKHKIEACVASSKATEALLRAEGIPVIDLNSVQDLPIYVDGADEVNERGEMIKGGGGALTREKIVANVATQFICIVDESKVVKRLGEFPVAVEVIPMARSFVARQIVKLGGDPEYREGFVTDNGNIILDVFNLSFSTPMALEDSLNVIPGVVENGVFAKRLADKVLVASASGVNNLK HHMSELKIKAAKAAIAYIEDDMVIGVGTGSTVNFFIKELAAIKHKIEACVASSKATEALLRAEGIPVIDLNSVQDLPIYVDGADEVNERGEMIKGGGGALTREKIVANVATQFICIVDESKVVKRLGEFPVAVEVIPMARSFVARQIVKLGGDPEYREGFVTDNGNIILDVFNLSFSTPMALEDSLNVIPGVVENGVFAKRLADKVLVASASGVNNLK 6eeq-a1-m1-cA_6eeq-a1-m2-cA Crystal structure of Rhodiola rosea 4-hydroxyphenylacetaldehyde synthase A0A2I6B3P0 A0A2I6B3P0 2.60009 X-RAY DIFFRACTION 411 1.0 203015 (Rhodiola rosea) 203015 (Rhodiola rosea) 466 466 NPMDLTELSTESKLVVDFITQYYQTLETRPVQPRVKPGFLTGQLPDKAPFHGESMEVILSDVNEKIVPGLTHWQSPNFHAYFPASSSNAGLLGELLCSGLSVIGFTWSSSPAATELENVVVDWMAKMLNLPSSFCFSGGGGGVLQANTCEAVLCTLAAARDKALNRVGDDQINKLVLYCSDQTHFTIHKGAKLIGIRSKNIKSITTKKENEFKLCPNDLRDAIRSDLEAGLVPFYVCGTIGTTALGVVDPIKELGKVAREFDLWLHVDGAYGGSACICPEFQHYLDGVDLVDSISMNAHWLLSNLDCCFLWLQSPNALIESLAAEMVDYKDWQISLSRRFRAIKMWMVIRRYGVSNLIEHIRSDVSMAVRFEEMVAADDRFEIVFPRKFALVCFKLSSEKTPPGRDSELTRELMERVNSSGKAYLSGVQMGRIFFIRCVIGSSLTEERHVDNLWRLIQETAQSIVS NPMDLTELSTESKLVVDFITQYYQTLETRPVQPRVKPGFLTGQLPDKAPFHGESMEVILSDVNEKIVPGLTHWQSPNFHAYFPASSSNAGLLGELLCSGLSVIGFTWSSSPAATELENVVVDWMAKMLNLPSSFCFSGGGGGVLQANTCEAVLCTLAAARDKALNRVGDDQINKLVLYCSDQTHFTIHKGAKLIGIRSKNIKSITTKKENEFKLCPNDLRDAIRSDLEAGLVPFYVCGTIGTTALGVVDPIKELGKVAREFDLWLHVDGAYGGSACICPEFQHYLDGVDLVDSISMNAHWLLSNLDCCFLWLQSPNALIESLAAEMVDYKDWQISLSRRFRAIKMWMVIRRYGVSNLIEHIRSDVSMAVRFEEMVAADDRFEIVFPRKFALVCFKLSSEKTPPGRDSELTRELMERVNSSGKAYLSGVQMGRIFFIRCVIGSSLTEERHVDNLWRLIQETAQSIVS 6eev-a1-m1-cA_6eev-a1-m2-cA Structure of class II HMG-CoA reductase from Delftia acidovorans with mevalonate bound A9BQX8 A9BQX8 1.49 X-RAY DIFFRACTION 389 1.0 80866 (Delftia acidovorans) 80866 (Delftia acidovorans) 374 374 6dio-a1-m1-cA_6dio-a1-m1-cB 6dio-a2-m1-cC_6dio-a2-m4-cC 6dio-a3-m1-cA_6dio-a3-m1-cB 6dio-a3-m2-cC_6dio-a3-m3-cC 6dio-a3-m5-cA_6dio-a3-m5-cB 6eeu-a1-m1-cA_6eeu-a1-m2-cA ADSRLPNFRALTPAQRRDFLADACGLSDAERALLAAPGALPLALADGMIENVFGSFELPLGVAGNFRVNGRDVLVPMAVEEPSVVAAASYMAKLAREDGGFQTSSTLPLMRAQVQVLGVTDPHGARLAVLQARAQIIERANSRDKVLIGLGGGCKDIEVHVFPDTPRGPMLVVHLIVDVRDAMGANTVNTMAESVAPLVEKITGGSVRLRILSNLADLRLARARVRLTPQTLATQDRSGEEIIEGVLDAYTFAAIDPYRAATHNKGIMNGIDPVIVATGNDWRAVEAGAHAYASRSGSYTSLTRWEKDAGGALVGSIELPMPVGLVGGATKTHPLARLALKIMDLQSAQQLGEIAAAVGLAQNLGALRALATEG ADSRLPNFRALTPAQRRDFLADACGLSDAERALLAAPGALPLALADGMIENVFGSFELPLGVAGNFRVNGRDVLVPMAVEEPSVVAAASYMAKLAREDGGFQTSSTLPLMRAQVQVLGVTDPHGARLAVLQARAQIIERANSRDKVLIGLGGGCKDIEVHVFPDTPRGPMLVVHLIVDVRDAMGANTVNTMAESVAPLVEKITGGSVRLRILSNLADLRLARARVRLTPQTLATQDRSGEEIIEGVLDAYTFAAIDPYRAATHNKGIMNGIDPVIVATGNDWRAVEAGAHAYASRSGSYTSLTRWEKDAGGALVGSIELPMPVGLVGGATKTHPLARLALKIMDLQSAQQLGEIAAAVGLAQNLGALRALATEG 6eew-a2-m1-cD_6eew-a2-m1-cC Crystal structure of Catharanthus roseus tryptophan decarboxylase in complex with L-tryptophan P17770 P17770 2.05002 X-RAY DIFFRACTION 408 1.0 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 463 466 6eew-a1-m1-cB_6eew-a1-m1-cA FKPLEAEEFRKQAHRMVDFIADYYKNVETYPVLSEVEPGYLRKRIPETAPYLPEPLDDIMKDIQKDIIPGMTNWMSPNFYAFFPATVSSAAFLGEMLSTALNSVGFTWVSSPAATELEMIVMDWLAQILKLPKSFMFSGTGGGVIQNTTSESILCTIIAARERALEKLGPDSIGKLVCYGSDQTHTMFPKTCKLAGIYPNNIRLIPTTVETDFGISPQVLRKMVEDDVAAGYVPLFLCATLGTTSTTATDPVDSLSEIANEFGIWIHVDAAYAGSACICPEFRHYLDGIERVDSLSLSPHWLLAYLDCTCLWVKQPHLLLRALTTVVDFKNWQIATGRKFRSLKLWLILRSYGVVNLQSHIRSDVAMAKMFEEWVRSDSRFEIVVPRNFSLVCFRLKPDVSSLHVEEVNKKLLDMLNSTGRVYMTHTIVGGIYMLRLAVGSSLTEEHHVRRVWDLIQKLTDDL FKPLEAEEFRKQAHRMVDFIADYYKNVETYPVLSEVEPGYLRKRIPETAPYLPEPLDDIMKDIQKDIIPGMTNWMSPNFYAFFPATVSSAAFLGEMLSTALNSVGFTWVSSPAATELEMIVMDWLAQILKLPKSFMFSGTGGGVIQNTTSESILCTIIAARERALEKLGPDSIGKLVCYGSDQTHTMFPKTCKLAGIYPNNIRLIPTTVETDFGISPQVLRKMVEDDVAAGYVPLFLCATLGTTSTTATDPVDSLSEIANEFGIWIHVDAAYAGSACICPEFRHYLDGIERVDSLSLSPHWLLAYLDCTCLWVKQPHLLLRALTTNDKVVDFKNWQIATGRKFRSLKLWLILRSYGVVNLQSHIRSDVAMAKMFEEWVRSDSRFEIVVPRNFSLVCFRLKPDVSSLHVEEVNKKLLDMLNSTGRVYMTHTIVGGIYMLRLAVGSSLTEEHHVRRVWDLIQKLTDDL 6ef9-a2-m1-cA_6ef9-a2-m2-cA GspB Siglec domain Q939N5 Q939N5 1.3 X-RAY DIFFRACTION 60 1.0 1302 (Streptococcus gordonii) 1302 (Streptococcus gordonii) 122 122 TERPVVNVPSEITVYRGESFEYFATVTDNSNAFDLAKTVVRWLYSNQPGRGTEWLQYSVTQVGNQLKVRIFGNVPIDTTIGDYTRYVVATDAAGNVNATQTEMGNAAVDKTSVNGQFKLIIR TERPVVNVPSEITVYRGESFEYFATVTDNSNAFDLAKTVVRWLYSNQPGRGTEWLQYSVTQVGNQLKVRIFGNVPIDTTIGDYTRYVVATDAAGNVNATQTEMGNAAVDKTSVNGQFKLIIR 6efn-a1-m1-cA_6efn-a1-m2-cA Structure of a RiPP maturase, SkfB O31423 O31423 1.291 X-RAY DIFFRACTION 118 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 383 383 PELAVHLQPHGAVMIDRKSMFYFRLSGRGAQLAFLLSKNKNLHKTARIWEIMKKEEMSADQLKEELSAHPFTEAWTEGLLDQPLHVSGSLDSYLPISCTLQLTNACNLSCSFCYASSGKPYPEELSSEQWILVMQKLAAHGVADITLTGGEAKLIKGFKELVVVASSLFTNVNVFSNGLNWRDEEVELLSHLGNVSVQISIDGMDNTHDQLRGRKGGFKESMNTIKKLSEANIPVIVAMTINESNADEVSDVVEQCANAGAFIFRAGKTLSVGRATEGFKALDIDFEEMVQIQLREARHKWGDRLNIIDWETDFCTPGYLAWYIRADGYVTPCQLEDLPLGHILEDSMADIGSPARLLQLKCEAKNCKCIGKIELSEPDLPFQ PELAVHLQPHGAVMIDRKSMFYFRLSGRGAQLAFLLSKNKNLHKTARIWEIMKKEEMSADQLKEELSAHPFTEAWTEGLLDQPLHVSGSLDSYLPISCTLQLTNACNLSCSFCYASSGKPYPEELSSEQWILVMQKLAAHGVADITLTGGEAKLIKGFKELVVVASSLFTNVNVFSNGLNWRDEEVELLSHLGNVSVQISIDGMDNTHDQLRGRKGGFKESMNTIKKLSEANIPVIVAMTINESNADEVSDVVEQCANAGAFIFRAGKTLSVGRATEGFKALDIDFEEMVQIQLREARHKWGDRLNIIDWETDFCTPGYLAWYIRADGYVTPCQLEDLPLGHILEDSMADIGSPARLLQLKCEAKNCKCIGKIELSEPDLPFQ 6efy-a1-m1-cA_6efy-a1-m2-cA Crystal Structure of DIP-Alpha Ig1-3 Q9W4R3 Q9W4R3 2.9 X-RAY DIFFRACTION 66 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 303 303 FQPEFVESISNVSVAVGRDATFTCHVRHLGGYRVGWLKADTKAIQAIHENVITHNPRVTVSHLDQNTWNLHIKAVSEEDRGGYMCQLNTDPMKSQIGFLDVVIPPDFISEDTSSDVIVPEGSSVRLTCRARGYPEPIVTWRREDGNEIVLKDNVGTKTLAPSFRGEVLKLSKISRNEMGSYLCIASNGVPPSVSKRISLSIHFHPVIQVPNQLVGAPLGTDVQIECHVEASPKSINYWIKDTGEMIVTSGKYHVQESSQSMYETKMSMIVRKFQKDDVGSYRCIAKNSLGEVDSSIRLYEIPH FQPEFVESISNVSVAVGRDATFTCHVRHLGGYRVGWLKADTKAIQAIHENVITHNPRVTVSHLDQNTWNLHIKAVSEEDRGGYMCQLNTDPMKSQIGFLDVVIPPDFISEDTSSDVIVPEGSSVRLTCRARGYPEPIVTWRREDGNEIVLKDNVGTKTLAPSFRGEVLKLSKISRNEMGSYLCIASNGVPPSVSKRISLSIHFHPVIQVPNQLVGAPLGTDVQIECHVEASPKSINYWIKDTGEMIVTSGKYHVQESSQSMYETKMSMIVRKFQKDDVGSYRCIAKNSLGEVDSSIRLYEIPH 6efz-a1-m1-cA_6efz-a1-m2-cA Crystal Structure of DIP-Theta Ig1-3 Q9VMN6 Q9VMN6 3.499 X-RAY DIFFRACTION 55 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 296 296 DLPKFGELLQNVTVPVSREAVLQCVVDNLQTYKIAWLRVDTQTILTIQNHVITKNHRMSITHAEKRAWILRIRDVKESDKGWYMCQINTDPMKSQVGYLDVVVPPDILDYPTSTDMVIREGSNVTLKCAATGSPTPTITWRREGGELIPLPNGAEAVAYNGSFLTIAKVNRLNMGAYLCIASNGIPPTVSKRVMLIVHFPPMIWIQNQLVGAALTQNITLECQSEAYPKSINYWMKNDTIIVPGERFVPETFESGYKITMRLTIYEVDIQDFGAYRCVAKNSLGDTDGAIKLYHIP DLPKFGELLQNVTVPVSREAVLQCVVDNLQTYKIAWLRVDTQTILTIQNHVITKNHRMSITHAEKRAWILRIRDVKESDKGWYMCQINTDPMKSQVGYLDVVVPPDILDYPTSTDMVIREGSNVTLKCAATGSPTPTITWRREGGELIPLPNGAEAVAYNGSFLTIAKVNRLNMGAYLCIASNGIPPTVSKRVMLIVHFPPMIWIQNQLVGAALTQNITLECQSEAYPKSINYWMKNDTIIVPGERFVPETFESGYKITMRLTIYEVDIQDFGAYRCVAKNSLGDTDGAIKLYHIP 6eg2-a1-m1-cA_6eg2-a1-m2-cA Crystal structure of human BRM in complex with compound 16 P51531 P51531 2.98 X-RAY DIFFRACTION 41 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 619 619 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAAHAISERVEKQSALLINGTLKHYQLQGLEWMVSLYNNNLNGILADEMGLGKTIQTIALITYLMEHKRLNGPYLIIVPLSTLSNWTYEFDKWAPSVVKISYKGTPAMRRSLVPQLRSGKFNVLLTTYEYIIKDKHILAKIRWKYMIVDEGHRMKNHHCKLTQVLNTHYVAPRRILLTGTPLQNKLPELWALLNFLLPTIFKSCSTFEQWFNAPFAMTGERVDLNEEETILIIRRLHKVLRPFLLRRLKKEVE KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYAAGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQTNAAAAHAISERVEKQSALLINGTLKHYQLQGLEWMVSLYNNNLNGILADEMGLGKTIQTIALITYLMEHKRLNGPYLIIVPLSTLSNWTYEFDKWAPSVVKISYKGTPAMRRSLVPQLRSGKFNVLLTTYEYIIKDKHILAKIRWKYMIVDEGHRMKNHHCKLTQVLNTHYVAPRRILLTGTPLQNKLPELWALLNFLLPTIFKSCSTFEQWFNAPFAMTGERVDLNEEETILIIRRLHKVLRPFLLRRLKKEVE 6eg7-a1-m1-cB_6eg7-a1-m1-cA BbvCI B2 dimer with I3C clusters Q5D6Y4 Q5D6Y4 3 X-RAY DIFFRACTION 70 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 276 279 PLVYTHGGKLERKSKKDKTASKVFEEFGVMEAYNCWKEASLCIQQRDKDSVLKLVAALNTYKDAVEPIFDSRLNSAQEVLQPSILEEFFEYLFSRIDSIVGVNIPIRHPAKGYLSLSFNPHNIETLIQSPEYTVRAKDHDFIIGGSAKLTIQGHGGEGETTNIVVPAVAIECKRYLERNMLDECAGTAERLKRATPYCLYFVVAEYLKLDDGAPELTEIDEIYILRHQRNSERNKPGFKPNPIDGELIWDLYQEVMNHLGKIWWDPNSALQRGKVF PLVYTHGGKLERKSKKDKTASKVFEEFGVMEAYNCWKEASLCIQQRDKDSVLKLVAALNTYKDAVEPIFDSRLNSAQEVLQPSILEEFFEYLFSRIDSIVGVNIPIRHPAKGYLSLSFNPHNIETLIQSPEYTVRAKDHDFIIGGSAKLTIQGHGGEGETTNIVVPAVAIECKRYLERNMLDECAGTAERLKRATPYCLYFVVAEYLKLDDGAPELTEIDEIYILRHQRNSERNKPGFKPNPIDGELIWDLYQEVMNHLGKIWWDPNSALQRGKVFNRP 6egk-a1-m1-cB_6egk-a1-m1-cA T181N Cucumene Synthase D5SLU6 D5SLU6 1.96 X-RAY DIFFRACTION 108 0.993 300 307 6m7f-a1-m1-cB_6m7f-a1-m1-cA 6m7f-a2-m1-cD_6m7f-a2-m1-cC FDLPWPLRKHPGVAGAREHCLGWLAAQGLAGLTAETFVTWQLDELAGYFFPRATQEGLELATDLMVWYFAPFDDQFRDPRRTAGVCAGLAEVLYGVPEPGPVASSPVGRALGDLWRRSCTGMSPFWRTRARHNWTGYLAAHTAESVPRYHGRTVDAAYCVRQRGYANSSHVIMDLIERTGGFEVPAMVWHHPVLVELRTLTSEMIGISNDLCSAEKEEADGDLSNNLLLVLENHEGLDRPEAIERARALTAERVARFLDVERAVTDVDCLLDGAGREAVRRFVEGLHDLVRGDNEWERTT FDLPWPLRKHPGVAGAREHCLGWLAAQGLATAETFVTWQLDELAGYFFPRATQEGLELATDLMVWYFAPFDDQFDGALGRDPRRTAGVCAGLAEVLYGVPEPGPVASSPVGRALGDLWRRSCTGMSPFWRTRARHNWTGYLAAHTAESVPRYHGRTVDAAYCVRQRGYANSSHVIMDLIERTGGFEVPAMVWHHPVLVELRTLTSEMIGISNDLCSAEKEEADGDLSNNLLLVLENHEGLDRPEAIERARALTAERVARFLDVERAVTDVDCLLDGAGREAVRRFVEGLHDLVRGDNEWERTTGRYQ 6ehf-a1-m2-cA_6ehf-a1-m3-cA OmpT (in-vitro folded), an outer membrane protein Vibrio cholerae (trimer form) A0A0H3AME7 A0A0H3AME7 2.72 X-RAY DIFFRACTION 66 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 318 318 6ehf-a1-m1-cA_6ehf-a1-m2-cA 6ehf-a1-m1-cA_6ehf-a1-m3-cA DAGTVDFYGQLRTELKFLEDKDPTIGSGSSRAGVDANYTVNDSLALQGKVEFALKDSGDMYVRNHILGVKTNFGKFSFGKQWTTSDDVYGADYSYFFGGTGLRYGTLSDALHDSQVKYVYEADSFWVKAGYGFPEDNAKQELAELYVGATFGDLAVHAGGGQNRDKAFKVGSNTVGTTTDIKADVTNSYFEVTGEYTIGDALIGVTYYNAELDVENNPLVIDEDAISVAGTYKVADKTKLYAGYEYVMQEANTGADEDGTLVYLGVEYKFASWARVYAEYGYGDGTTLGYTNKGSDAEVKATKVDSANNFGIGARYYW DAGTVDFYGQLRTELKFLEDKDPTIGSGSSRAGVDANYTVNDSLALQGKVEFALKDSGDMYVRNHILGVKTNFGKFSFGKQWTTSDDVYGADYSYFFGGTGLRYGTLSDALHDSQVKYVYEADSFWVKAGYGFPEDNAKQELAELYVGATFGDLAVHAGGGQNRDKAFKVGSNTVGTTTDIKADVTNSYFEVTGEYTIGDALIGVTYYNAELDVENNPLVIDEDAISVAGTYKVADKTKLYAGYEYVMQEANTGADEDGTLVYLGVEYKFASWARVYAEYGYGDGTTLGYTNKGSDAEVKATKVDSANNFGIGARYYW 6ehi-a6-m1-cK_6ehi-a6-m1-cL NucT from Helicobacter pylori A0A1V3AA65 A0A1V3AA65 1.58 X-RAY DIFFRACTION 137 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 159 159 6ehi-a1-m1-cB_6ehi-a1-m1-cA 6ehi-a2-m1-cC_6ehi-a2-m1-cD 6ehi-a3-m1-cG_6ehi-a3-m1-cE 6ehi-a4-m1-cF_6ehi-a4-m1-cH 6ehi-a5-m1-cI_6ehi-a5-m1-cJ EFKNSLFVLPYEQRDALNSLISGISSARESVKIAIYSFTHRDIARAIKSVASRGIKVQIIYDYESNHNNKQSTIGYLDKYPNTKVCLLKGLKAKNGNYYGIMNQKVAIIDDKIVFLGSANWSKNAFENNYEVLLKTDDTETILKAKSYYQKMLESCVGF EFKNSLFVLPYEQRDALNSLISGISSARESVKIAIYSFTHRDIARAIKSVASRGIKVQIIYDYESNHNNKQSTIGYLDKYPNTKVCLLKGLKAKNGNYYGIMNQKVAIIDDKIVFLGSANWSKNAFENNYEVLLKTDDTETILKAKSYYQKMLESCVGF 6eid-a2-m1-cB_6eid-a2-m3-cB Crystal structure of wild-type Channelrhodopsin 2 Q8RUT8 Q8RUT8 2.39 X-RAY DIFFRACTION 109 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 250 250 6eid-a1-m1-cA_6eid-a1-m2-cA 6eig-a1-m1-cA_6eig-a1-m2-cA 6eig-a2-m1-cB_6eig-a2-m3-cB EDQCYCAGWIESRGTNGAQTASNVLQWLAAGFSILLLMFYAYQTWKSTCGWEEIYVCAIEMVKVILEFFFEFKNPSMLYLATGHRVQWLRYAEWLLTCPVILIHLSNLTGLSNDYSRRTMGLLVSDIGTIVWGATSAMATGYVKVIFFCLGLCYGANTFFHAAKAYIEGYHTVPKGRCRQVVTGMAWLFFVSWGMFPILFILGPEGFGVLSVYGSTVGHTIIDLMSNCWGLLGHYLRVLIHEHILIHGDI EDQCYCAGWIESRGTNGAQTASNVLQWLAAGFSILLLMFYAYQTWKSTCGWEEIYVCAIEMVKVILEFFFEFKNPSMLYLATGHRVQWLRYAEWLLTCPVILIHLSNLTGLSNDYSRRTMGLLVSDIGTIVWGATSAMATGYVKVIFFCLGLCYGANTFFHAAKAYIEGYHTVPKGRCRQVVTGMAWLFFVSWGMFPILFILGPEGFGVLSVYGSTVGHTIIDLMSNCWGLLGHYLRVLIHEHILIHGDI 6ejf-a1-m1-cN_6ejf-a1-m1-cO Thermus thermophilus PilF ATPase (apoprotein form) Q5SLC9 Q5SLC9 8.0 ELECTRON MICROSCOPY 11 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 137 137 6ejf-a1-m1-cJ_6ejf-a1-m1-cK QKDLKLGELLLQKGWISREALEEALVEQEKTGDLLGRILVRKGLPEEALYRALAEQKGLEFLESTEGIVPDPSAALLLLRSDALRYGAVPIGFQNGEVEVVLSDPRHKEAVAQLLNRPARFYLALPQAWEELFRRAY QKDLKLGELLLQKGWISREALEEALVEQEKTGDLLGRILVRKGLPEEALYRALAEQKGLEFLESTEGIVPDPSAALLLLRSDALRYGAVPIGFQNGEVEVVLSDPRHKEAVAQLLNRPARFYLALPQAWEELFRRAY 6ejf-a1-m1-cQ_6ejf-a1-m1-cR Thermus thermophilus PilF ATPase (apoprotein form) Q5SLC9 Q5SLC9 8.0 ELECTRON MICROSCOPY 13 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 146 146 6ejf-a1-m1-cH_6ejf-a1-m1-cI LPRAKPLGEILVELGLARPEDVEEALQKQRRGGGRLEDTLVQSGKLRPEALAQAVATQLGYPYVDPEEDPPDPGAPLLLPEDLCRRYGVFPHRLEGNRLVLLMKDPRNILALDDVRLALKRKGLNYEVAPAVATEAAITKLIERFY LPRAKPLGEILVELGLARPEDVEEALQKQRRGGGRLEDTLVQSGKLRPEALAQAVATQLGYPYVDPEEDPPDPGAPLLLPEDLCRRYGVFPHRLEGNRLVLLMKDPRNILALDDVRLALKRKGLNYEVAPAVATEAAITKLIERFY 6ejn-a1-m1-cC_6ejn-a1-m1-cD The KLC2 TPR domain bound to the JIP3 leucine zipper domain Q9ESN9 Q9ESN9 3.2 X-RAY DIFFRACTION 84 0.983 10090 (Mus musculus) 10090 (Mus musculus) 60 61 RMGKEVGNLLLENSQLLETKNALNVVKNDLIAKVDQLSGEQEVLKGELEAAKQAKVKLEN MGKEVGNLLLENSQLLETKNALNVVKNDLIAKVDQLSGEQEVLKGELEAAKQAKVKLENRI 6ejt-a1-m1-cA_6ejt-a1-m1-cB Nuclease NucB from Bacillus licheniformis in P21 space group Q65J43 Q65J43 1.7 X-RAY DIFFRACTION 24 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 109 109 ARYDDILYFPASRYPETGAHISDAIKAGHSDVCTIERSGADKRRQESLKGIPTKPGFDRDEWPMAMCEEGGKGASVRYVSSSDNRGAGSWVGNRLSGFADGTRILFIVQ ARYDDILYFPASRYPETGAHISDAIKAGHSDVCTIERSGADKRRQESLKGIPTKPGFDRDEWPMAMCEEGGKGASVRYVSSSDNRGAGSWVGNRLSGFADGTRILFIVQ 6ejv-a1-m1-cA_6ejv-a1-m1-cB Nuclease NucB from Bacillus licheniformis in sulphate free conditions Q65J43 Q65J43 1.75 X-RAY DIFFRACTION 30 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 109 109 ARYDDILYFPASRYPETGAHISDAIKAGHSDVCTIERSGADKRRQESLKGIPTKPGFDRDEWPMAMCEEGGKGASVRYVSSSDNRGAGSWVGNRLSGFADGTRILFIVQ ARYDDILYFPASRYPETGAHISDAIKAGHSDVCTIERSGADKRRQESLKGIPTKPGFDRDEWPMAMCEEGGKGASVRYVSSSDNRGAGSWVGNRLSGFADGTRILFIVQ 6eka-a1-m1-cD_6eka-a1-m1-cE Solid-state MAS NMR structure of the HELLF prion amyloid fibrils B2B1E9 B2B1E9 NOT SOLID-STATE NMR 95 1.0 515849 (Podospora anserina S mat+) 515849 (Podospora anserina S mat+) 53 53 6eka-a1-m1-cA_6eka-a1-m1-cB 6eka-a1-m1-cB_6eka-a1-m1-cC 6eka-a1-m1-cC_6eka-a1-m1-cD GQKFGEMKTDDHSIAMQGIVGVAQPGVDQSFGSLTTTKSSRAFQGQMDAGSFS GQKFGEMKTDDHSIAMQGIVGVAQPGVDQSFGSLTTTKSSRAFQGQMDAGSFS 6eki-a4-m1-cC_6eki-a4-m1-cE Structure of a hyperthermostable carbonic anhydrase identified from an active hydrothermal vent chimney 2.555 X-RAY DIFFRACTION 78 1.0 309805 (Persephonella marina) 309805 (Persephonella marina) 222 222 6eki-a1-m1-cD_6eki-a1-m2-cA 6eki-a2-m1-cA_6eki-a2-m3-cD 6eki-a3-m1-cB_6eki-a3-m1-cF HWSYHGETGPQHWGDLKNEYIMCKIGKNQSPVDISRIVEAELEKIKINYSSGGSSITNNGHTIKVSYEPGSYIIVDGIRFELKQFHFHAPSEHTIKGKSYPFEAHFVHADKDGNLAVIGVIFKEGKKNPIIEKIWENLPEAGKTIKLAHKINAYDLLPKKKKYYRYSGSLTTPPCSEGVRWIVMEEEMELSKEQIEKFRKLMGGDTNRPVQPLNARMIMEMD HWSYHGETGPQHWGDLKNEYIMCKIGKNQSPVDISRIVEAELEKIKINYSSGGSSITNNGHTIKVSYEPGSYIIVDGIRFELKQFHFHAPSEHTIKGKSYPFEAHFVHADKDGNLAVIGVIFKEGKKNPIIEKIWENLPEAGKTIKLAHKINAYDLLPKKKKYYRYSGSLTTPPCSEGVRWIVMEEEMELSKEQIEKFRKLMGGDTNRPVQPLNARMIMEMD 6eko-a1-m1-cA_6eko-a1-m1-cB Crystal structure of Type IIP restriction endonuclease PfoI with cognate DNA A0A452CST9 A0A452CST9 2.284 X-RAY DIFFRACTION 105 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 303 303 6ek1-a1-m1-cA_6ek1-a1-m2-cA QKYRLYEKDGSPVQDFNRFVKGWLDIEFGLKEHQPPKVFDTIRDKYNEAIEAVVLSGVAPRTAHKAALSTLTELLFGHDLAKELSARLDIQPIGVGGFRSAHSQAFAKNVGENFVNLVYALACILKDNDDVLVDKGLPPHLKKALTLSRECRIKDTLREIKIPIEGDLCVFSRSNHNAIVISAATRLKEVFHIGTWALFSDVAKDEYCLNKWGLKVESSESLKDTYVFATADINKDGARSQGCDVERETPRNLIADASFFDYVFVSKGIGHVSSDLSLKYGRESLFHELGCIIDIEQKFDILL QKYRLYEKDGSPVQDFNRFVKGWLDIEFGLKEHQPPKVFDTIRDKYNEAIEAVVLSGVAPRTAHKAALSTLTELLFGHDLAKELSARLDIQPIGVGGFRSAHSQAFAKNVGENFVNLVYALACILKDNDDVLVDKGLPPHLKKALTLSRECRIKDTLREIKIPIEGDLCVFSRSNHNAIVISAATRLKEVFHIGTWALFSDVAKDEYCLNKWGLKVESSESLKDTYVFATADINKDGARSQGCDVERETPRNLIADASFFDYVFVSKGIGHVSSDLSLKYGRESLFHELGCIIDIEQKFDILL 6ekr-a1-m1-cA_6ekr-a1-m2-cA Crystal structure of Type IIP restriction endonuclease Kpn2I Q93K38 Q93K38 2.88 X-RAY DIFFRACTION 73 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 296 296 DILKEKIDVASRLYNLNLDHIPATLQVIEHALLLKNNAGYGYFGSFNGKNTQEYHSFTFNGEYSRPVRDDLFITDYDFFVSGFREFNESLRDIGSKWSSFDSRRANKIIYTSVSVACCFDLWKSGSRKTPGTFFEIFAAVLKWIPDEIFSKHIPLIDQLESDDESIDPSSVSTDIVIKSAYANASVVIPLKITTRERIVQPFAQQRILDSYFGNGVYFSFLACISETQQDKKKKKVNHICVPGTIRLYQKYLSSLSGYYCDIPERYLERDLTDIIPVRTGDFLFDIYSFFRSQGAA DILKEKIDVASRLYNLNLDHIPATLQVIEHALLLKNNAGYGYFGSFNGKNTQEYHSFTFNGEYSRPVRDDLFITDYDFFVSGFREFNESLRDIGSKWSSFDSRRANKIIYTSVSVACCFDLWKSGSRKTPGTFFEIFAAVLKWIPDEIFSKHIPLIDQLESDDESIDPSSVSTDIVIKSAYANASVVIPLKITTRERIVQPFAQQRILDSYFGNGVYFSFLACISETQQDKKKKKVNHICVPGTIRLYQKYLSSLSGYYCDIPERYLERDLTDIIPVRTGDFLFDIYSFFRSQGAA 6el1-a1-m1-cS_6el1-a1-m1-cT YaxAB pore complex A1JM52 A1JM52 6.1 ELECTRON MICROSCOPY 30 1.0 630 (Yersinia enterocolitica) 630 (Yersinia enterocolitica) 332 332 6el1-a1-m1-cK_6el1-a1-m1-cL 6el1-a1-m1-cK_6el1-a1-m1-cO 6el1-a1-m1-cL_6el1-a1-m1-cM 6el1-a1-m1-cM_6el1-a1-m1-cN 6el1-a1-m1-cN_6el1-a1-m1-cP 6el1-a1-m1-cO_6el1-a1-m1-cT 6el1-a1-m1-cP_6el1-a1-m1-cQ 6el1-a1-m1-cQ_6el1-a1-m1-cR 6el1-a1-m1-cR_6el1-a1-m1-cS LSYPDINFKIFSQGVKNISHLAQFKTTGVEVLQEKALRVSLYSQRLDVIVRESLSSLQVKLENTLALTYFTTLEEIDEALISQDIDEESKSEMRKERINIIKNLSNDITQLKQLFIEKTELLDKSSSDLHNVVIIEGTDKVLQAEQLRQKQLTEDIATKELERKEIEKKRDKIIEALDVIREHNLVDAFKDLIPTGENLSELDLAKPEIELLKQSLEITKKLLGQFSEGLKYIDLTDARKKLDNQIDTASTRLTELNRQLEQSEKLIAGVNAVIKIDQEKSAVVVEAEKLSRAWHIFIHEITALQGTSLNEVELSKPLIKQQIYLESLIKQL LSYPDINFKIFSQGVKNISHLAQFKTTGVEVLQEKALRVSLYSQRLDVIVRESLSSLQVKLENTLALTYFTTLEEIDEALISQDIDEESKSEMRKERINIIKNLSNDITQLKQLFIEKTELLDKSSSDLHNVVIIEGTDKVLQAEQLRQKQLTEDIATKELERKEIEKKRDKIIEALDVIREHNLVDAFKDLIPTGENLSELDLAKPEIELLKQSLEITKKLLGQFSEGLKYIDLTDARKKLDNQIDTASTRLTELNRQLEQSEKLIAGVNAVIKIDQEKSAVVVEAEKLSRAWHIFIHEITALQGTSLNEVELSKPLIKQQIYLESLIKQL 6el3-a3-m1-cB_6el3-a3-m1-cA Structure of Progesterone 5beta-Reductase from Arabidopsis thaliana in complex with NADP Q9STX2 Q9STX2 1.899 X-RAY DIFFRACTION 42 0.994 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 350 351 6el3-a1-m1-cC_6el3-a1-m1-cD 6el3-a2-m1-cE_6el3-a2-m1-cF FESVALIIGVTGIVGNSLAEILPLSDTPGGPWVYGVARRPRPTWNADHPIDYIQCDVSDAEDTRSLSPLTDVTHVFYVTWTNRESESENCEANGSMLRNVLQAIIPYAPNLRHVCLQTGTHYLGPFTNVDGPRHDPPFTEDMPRLQIQNFYYTQEDILFEEIKIETVTWSIHRPNMIFGFSPYSLMNIVGTLCVYAAICHEGSPLLFPGSKAWEGFMTASDADLIAEQQIWAAVDPYAKNEAFNCNNADIFWHLWILAEQFGIEEYGFEEGKNLGLVEMMKGERVWEEMVENQLQEKLEEVGVWWFADVILGVEGMIDSMNKSKEYGFLGFRNSNNSFISWIDKYAFIVP FESVALIIGVTGIVGNSLAEILPLSDTPGGPWVYGVARRPRPTWNADHPIDYIQCDVSDAEDTRSLSPLTDVTHVFYVTWTNRESESENCEANGSMLRNVLQAIIPYAPNLRHVCLQTGTHYLGPFTNVDGPRHDPPFTEDMPRLQIQNFYYTQEDILFEEIKIETVTWSIHRPNMIFGFSPYSLMNIVGTLCVYAAICHEGSPLLFPGSAWEGFMTASDADLIAEQQIWAAVDPYANEAFNCNNADIFWHLWILAEQFGIEEYGFEEGKNLGLVEMMKGERVWEEMVKENQLQEKKLEEVGVWWFADVILGVEGMIDSMNKSKEYGFLGFRNSNNSFISWIDKYAFKIVP 6elq-a2-m1-cB_6elq-a2-m2-cB Carbon Monoxide Dehydrogenase IV from Carboxydothermus hydrogenoformans Q3AE44 Q3AE44 2.52 X-RAY DIFFRACTION 309 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 630 630 6elq-a1-m1-cA_6elq-a1-m1-cX SKLSVDPVIPNLYRKAREEGISTVFDRYEAQQPQCGFGLTGLCCRHCVQGPCRIDPFGEGPQAGICGATAEVITARNLLRQVTAGAAAHVDHAYDVLEVLEQIAQGTESYSIKDQEKLKQVAFTLGIDTANKTEQEIVEEMCQIIYRDFANSGATPMTYLKANSPRERLETWEKLGVLPRNPDREIREALHQTTMGMDADPVNLILKTIRLGLVDGFAGLKLATDLQDIIFGTPQPVVTEANLGVLKEDYVNIIVHGHVPLLSEKIVEWSRKLEDEAKKAGAKGINLAGICCTGNEVLMRQGVPLATNFLAQELAIITGAVDLMVVDVQCIMPSLAEIAACYHTRLVTTMPIVKIPGAEHVPFTTETADEASQQIVRMAIESYQKRNPAKVYIPREKAKVVAGFSVEAIVKALAKLNPDDPLKPLIDNIVSGNILGVVATVGCNNVKVKHDWFHIELVKELIKNNVLVVTTGCSAHALAKAGLMDPAAAEWAGEGLRAVLTAIGTANDLGGPLPPVLHMGSCVDNSRIGDLVIAVANYLKVSPKDLPIAASAPEYQHEKALSIGTWAVAMGIMTHLGVVPPVVGSSKVTRILTQDAEALIGGKFYVETDPYKAAAGIIEHIKAKRALLNL SKLSVDPVIPNLYRKAREEGISTVFDRYEAQQPQCGFGLTGLCCRHCVQGPCRIDPFGEGPQAGICGATAEVITARNLLRQVTAGAAAHVDHAYDVLEVLEQIAQGTESYSIKDQEKLKQVAFTLGIDTANKTEQEIVEEMCQIIYRDFANSGATPMTYLKANSPRERLETWEKLGVLPRNPDREIREALHQTTMGMDADPVNLILKTIRLGLVDGFAGLKLATDLQDIIFGTPQPVVTEANLGVLKEDYVNIIVHGHVPLLSEKIVEWSRKLEDEAKKAGAKGINLAGICCTGNEVLMRQGVPLATNFLAQELAIITGAVDLMVVDVQCIMPSLAEIAACYHTRLVTTMPIVKIPGAEHVPFTTETADEASQQIVRMAIESYQKRNPAKVYIPREKAKVVAGFSVEAIVKALAKLNPDDPLKPLIDNIVSGNILGVVATVGCNNVKVKHDWFHIELVKELIKNNVLVVTTGCSAHALAKAGLMDPAAAEWAGEGLRAVLTAIGTANDLGGPLPPVLHMGSCVDNSRIGDLVIAVANYLKVSPKDLPIAASAPEYQHEKALSIGTWAVAMGIMTHLGVVPPVVGSSKVTRILTQDAEALIGGKFYVETDPYKAAAGIIEHIKAKRALLNL 6emj-a1-m1-cL_6emj-a1-m1-cB FAB Fragment. AbVance: Increasing our knowledge of antibody structural space to enable faster and better decision making in antibody drug discovery 2.3 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 213 DIQMTQSPSSLSASVGDRVTITCRASQDINNYLNWYQQKPGKAPKLLIYYTSRLHSGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCQQGSTLPFTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR DIQMTQSPSSLSASVGDRVTITCRASQDINNYLNWYQQKPGKAPKLLIYYTSRLHSGVPSRFSGSGSGTDFTFTISSLQPEDIATYYCQQGSTLPFTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE 6emk-a1-m1-cA_6emk-a1-m1-cC Cryo-EM Structure of Saccharomyces cerevisiae Target of Rapamycin Complex 2 P32600 P32600 8.0 ELECTRON MICROSCOPY 110 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 2262 2262 TTFSTLNLIFDKLKSDVPQERASGANELSTTLTSLAREVSAEQFQRFSNSLNNKIFELIHGFTSSEKIGGILAVDTLISFYLSTEELPNQTSRLANYLRVLIPSSDIEVMRLAANTLGRLTVPGGTLTSDFVEFEVRTCIDWLTLTADNNSSSSKLEYRRHAALLIIKALADNSPYLLYPYVNSILDNIWVPLRDAKLIIRLDAAVALGKCLTIIQDRDPALGKQWFQRLFQGCTHGLSLNTNDSVHATLLVFRELLSLKAPYLRDKYDDIYKSTMKYKEYKFDVIRREVYAILPLLAAFDPAIFTKKYLDRIMVHYLRYLKNIDMNAANNSDKPFILVSIGDIAFEVGSSISPYMTLILDNIREGLRTKFKVRKQFEKDLFYCIGKLACALGPAFAKHLNKDLLNLMLNCPMSDHMQETLMILNEKIPSLESTVNSRILNLLSISLSGEKFIQSNQYDFNNQFSIEKARKSRNQSFMKKTGESNDDITDAQILIQCFKMLQLIHHQYSLTEFVRLITISYIEHEDSSVRKLAALTSCDLFIKDDICKQTSVHALHSVSEVLSKLLMIAITDPVAEIRLEILQHLGSNFDPQLAQPDNLRLLFMALNDEIFGIQLEAIKIIGRLSSVNPAYVVPSLRKTLLELLTQLKFSNMPKKKEESATLLCTLINSSDEVAKPYIDPILDVILPKCQDASSAVASTALKVLGELSVVGGKEMTRYLKELMPLIINTFQDQSNSFKRDAALTTLGQLAASSGYVVGPLLDYPELLGILINILKTENNPHIRRGTVRLIGEYYPTVVIHNLMKILNDPSLSIHHTAAIQAIMHIFQNLGLRCVSFLDQIIPGIILVMRSCPPSQLDFYFQQLGSLISIVKQHIRPHVEKIYGVIREFFPIIKLQITIISVIESISKALEGEFKRFVPETLTFFLDILENDQSNKRIVPIRILKSLVTFGPNLEDYSHLIMPIVVRMTEYSAGSLKKISIITLGRLAKNINLSEMSSRIVQALVRILNNGDRELTKATMNTLSLLLLQLGTDFVVFVPVINKALLRNRIQHSVYDQLVNKLLNNECLPTNIIFDKENEVPERKNYEDEMQVTKLPVNQNILKNAWYCSQQKTKEDWQEWIRRLSIQLLKESPSACLRSCSSLVSVYYPLARELFNASFSSCWVELQTSYQEDLVEFMEHDDKPLPIPIHTLGKYAQKCHAFAKALHYKEVEFLEEPKNSTIEALISINNQLHQTDSAIGILKHAQQHNELQLKETWYEKLQRWEDALAAYNEKEAAGEDSVEVMMGKLRSLYALGEWEELSKLASEKWGTAKPEVKKAMAPLAAGAAWGLEQWDEIAQYTSVMKSQSPDKEFYDAILCLHRNNFKKAEVHIFNARDLLVTELSALVNESYNRAYNVVVRAQIIAELEEIIKYKKLPQNSDKRLTMRETWNTRLLGCQKNIDVWQRILRVRSLVIKPKEDAQVRIKFANLCRKSGRMALAKKVLNTLLEETDDPDHPNTAKASPPVVYAQLKYLWATGLQDEALKQLINFTSRMAHDLVEDYTKLLARCFLKQGEWRVCLQPKWRLSNPDSILGSYLLATHFDNTWYKAWHNWALANFEVISSNLIHRHVIPAIKGFFHSISLSESSSLQDALRLLTLWFTFGGIPEATQAMHEGFNLIQIGTWLEVLPQLISRIHQPNQIVSRSLLSLLSDLGKAHPQALVYPLMVAIKSESLSRQKAALSIIEKMRIHSPVLVDQAELVSHELIRMAVLWHEQWYEGLDDASRQFFGEHNTEKMFAALEPLYEMLKRGPETLREISFQNSFGRDLNDAYEWLMNYKKSKDVSNLNQAWDIYYNVFRKIGKQLPQLQTLELQHVSPKLLSAHDLELAVPGTRASGGKPIVKISKFEPVFSVISSKQRPRKFCIKGSDGKDYKYVLKGHEDIRQDSLVMQLFGLVNTLLQNDAECFRRHLDIQQYPAIPLSPKSGLLGWVPNSDTFHVLIREHREAKKIPLNIEHWVMLQMAPDYDNLTLLQKVEVFTYALNNTEGQDLYKVLWLKSRSSETWLERRTTYTRSLAVMSMTGYILGLGDRHPSNLMLDRITGKVIHIDFGDCFEAAILREKFPEKVPFRLTRMLTYAMEVSGIEGSFRITCENVMKVLRDNKGSLMAILEAFAFDPLINWGFDLPTKKIEEETGIQLPVMNANELLSNGAITEEEVQRVENEHKNAIRNARAMLVLKRITDKLTGNDIRRFNDLDVPEQVDKLIQQATSVENLCQHYIGWCPFW TTFSTLNLIFDKLKSDVPQERASGANELSTTLTSLAREVSAEQFQRFSNSLNNKIFELIHGFTSSEKIGGILAVDTLISFYLSTEELPNQTSRLANYLRVLIPSSDIEVMRLAANTLGRLTVPGGTLTSDFVEFEVRTCIDWLTLTADNNSSSSKLEYRRHAALLIIKALADNSPYLLYPYVNSILDNIWVPLRDAKLIIRLDAAVALGKCLTIIQDRDPALGKQWFQRLFQGCTHGLSLNTNDSVHATLLVFRELLSLKAPYLRDKYDDIYKSTMKYKEYKFDVIRREVYAILPLLAAFDPAIFTKKYLDRIMVHYLRYLKNIDMNAANNSDKPFILVSIGDIAFEVGSSISPYMTLILDNIREGLRTKFKVRKQFEKDLFYCIGKLACALGPAFAKHLNKDLLNLMLNCPMSDHMQETLMILNEKIPSLESTVNSRILNLLSISLSGEKFIQSNQYDFNNQFSIEKARKSRNQSFMKKTGESNDDITDAQILIQCFKMLQLIHHQYSLTEFVRLITISYIEHEDSSVRKLAALTSCDLFIKDDICKQTSVHALHSVSEVLSKLLMIAITDPVAEIRLEILQHLGSNFDPQLAQPDNLRLLFMALNDEIFGIQLEAIKIIGRLSSVNPAYVVPSLRKTLLELLTQLKFSNMPKKKEESATLLCTLINSSDEVAKPYIDPILDVILPKCQDASSAVASTALKVLGELSVVGGKEMTRYLKELMPLIINTFQDQSNSFKRDAALTTLGQLAASSGYVVGPLLDYPELLGILINILKTENNPHIRRGTVRLIGEYYPTVVIHNLMKILNDPSLSIHHTAAIQAIMHIFQNLGLRCVSFLDQIIPGIILVMRSCPPSQLDFYFQQLGSLISIVKQHIRPHVEKIYGVIREFFPIIKLQITIISVIESISKALEGEFKRFVPETLTFFLDILENDQSNKRIVPIRILKSLVTFGPNLEDYSHLIMPIVVRMTEYSAGSLKKISIITLGRLAKNINLSEMSSRIVQALVRILNNGDRELTKATMNTLSLLLLQLGTDFVVFVPVINKALLRNRIQHSVYDQLVNKLLNNECLPTNIIFDKENEVPERKNYEDEMQVTKLPVNQNILKNAWYCSQQKTKEDWQEWIRRLSIQLLKESPSACLRSCSSLVSVYYPLARELFNASFSSCWVELQTSYQEDLVEFMEHDDKPLPIPIHTLGKYAQKCHAFAKALHYKEVEFLEEPKNSTIEALISINNQLHQTDSAIGILKHAQQHNELQLKETWYEKLQRWEDALAAYNEKEAAGEDSVEVMMGKLRSLYALGEWEELSKLASEKWGTAKPEVKKAMAPLAAGAAWGLEQWDEIAQYTSVMKSQSPDKEFYDAILCLHRNNFKKAEVHIFNARDLLVTELSALVNESYNRAYNVVVRAQIIAELEEIIKYKKLPQNSDKRLTMRETWNTRLLGCQKNIDVWQRILRVRSLVIKPKEDAQVRIKFANLCRKSGRMALAKKVLNTLLEETDDPDHPNTAKASPPVVYAQLKYLWATGLQDEALKQLINFTSRMAHDLVEDYTKLLARCFLKQGEWRVCLQPKWRLSNPDSILGSYLLATHFDNTWYKAWHNWALANFEVISSNLIHRHVIPAIKGFFHSISLSESSSLQDALRLLTLWFTFGGIPEATQAMHEGFNLIQIGTWLEVLPQLISRIHQPNQIVSRSLLSLLSDLGKAHPQALVYPLMVAIKSESLSRQKAALSIIEKMRIHSPVLVDQAELVSHELIRMAVLWHEQWYEGLDDASRQFFGEHNTEKMFAALEPLYEMLKRGPETLREISFQNSFGRDLNDAYEWLMNYKKSKDVSNLNQAWDIYYNVFRKIGKQLPQLQTLELQHVSPKLLSAHDLELAVPGTRASGGKPIVKISKFEPVFSVISSKQRPRKFCIKGSDGKDYKYVLKGHEDIRQDSLVMQLFGLVNTLLQNDAECFRRHLDIQQYPAIPLSPKSGLLGWVPNSDTFHVLIREHREAKKIPLNIEHWVMLQMAPDYDNLTLLQKVEVFTYALNNTEGQDLYKVLWLKSRSSETWLERRTTYTRSLAVMSMTGYILGLGDRHPSNLMLDRITGKVIHIDFGDCFEAAILREKFPEKVPFRLTRMLTYAMEVSGIEGSFRITCENVMKVLRDNKGSLMAILEAFAFDPLINWGFDLPTKKIEEETGIQLPVMNANELLSNGAITEEEVQRVENEHKNAIRNARAMLVLKRITDKLTGNDIRRFNDLDVPEQVDKLIQQATSVENLCQHYIGWCPFW 6en1-a1-m1-cA_6en1-a1-m1-cB Structure of the Tn1549 transposon Integrase (aa 82-397, R225K) in complex with a circular intermediate DNA (CI6a-DNA) Q7BP35 Q7BP35 2.67 X-RAY DIFFRACTION 95 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 316 316 6emy-a1-m1-cA_6emy-a1-m1-cB 6emz-a1-m1-cA_6emz-a1-m1-cB 6en0-a1-m1-cA_6en0-a1-m1-cB 6en2-a1-m1-cA_6en2-a1-m1-cB SMTVCQLYAKQIRHRGNVKHNTKLGRERLMRILEQDRLGSCPIDSVKLSDAKEWALRMKEKGLSYKTINNDKRSLKAAFYTAIQDDCIRKNPFDFQLSDVLDDDTEPKVPLTPAQEESFLSFIQGDKVYQKHYDAIVILLGTGLKISELCGLTDKDLDFENRVIIVSHQLLRNTGVGYYIDEPKTQSGVRKIPMNEEVYQAFQRVIKNRKGAKPFIIDGYANFLFLKQNGYPMTAVDYGGMFGRLVKKYNKSHEEALPKTTTPHAMRHTFCTRLANAGMNPKALQYIMGHSNITMTLNYYAHATFDSARAEMERLA SMTVCQLYAKQIRHRGNVKHNTKLGRERLMRILEQDRLGSCPIDSVKLSDAKEWALRMKEKGLSYKTINNDKRSLKAAFYTAIQDDCIRKNPFDFQLSDVLDDDTEPKVPLTPAQEESFLSFIQGDKVYQKHYDAIVILLGTGLKISELCGLTDKDLDFENRVIIVSHQLLRNTGVGYYIDEPKTQSGVRKIPMNEEVYQAFQRVIKNRKGAKPFIIDGYANFLFLKQNGYPMTAVDYGGMFGRLVKKYNKSHEEALPKTTTPHAMRHTFCTRLANAGMNPKALQYIMGHSNITMTLNYYAHATFDSARAEMERLA 6en8-a1-m1-cB_6en8-a1-m1-cA SaFadR in complex with dsDNA Q4J9S1 Q4J9S1 3.29 X-RAY DIFFRACTION 89 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 177 184 6el2-a1-m1-cA_6el2-a1-m1-cB 6en8-a1-m1-cD_6en8-a1-m1-cC 6en8-a1-m1-cF_6en8-a1-m1-cE KESLNKILDSVELIADKGFLSTSINDITSKAGVAYGLFYFYFKSKHDILDEIIRQFNRNRYYLKTYTQNLDSRIDVEKVGKKFLEWNENKKYYKIFIETQVHRPDIYKWHFKLAERYTTGLSEARRGEIINVDPELLSYVLIGIAHLGKRYVLWSNSGLTLKQQRDLDLIIENLTPR PKTEKGKESLNKILDASVELIADKGFLSTSINDITSKAGVAYGLFYFYFKSKHDILDEIIRQFNRNRYYLKTYTQNLDSRIDVEKVGKKFLEWNENKKYYKIFIETQVHRPDIYKWHFKLAERYTTGLSEARRGEIINVDPELLSYVLIGIAHLGKRYVLWSNSGLTLKQQRDLDLIIENLTPR 6ene-a1-m1-cB_6ene-a1-m1-cC OmpF orthologue from Enterobacter cloacae (OmpE35) A0A0M7H8A9 A0A0M7H8A9 2.3 X-RAY DIFFRACTION 125 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 329 329 6ene-a1-m1-cA_6ene-a1-m1-cB 6ene-a1-m1-cA_6ene-a1-m1-cC AEIYNKDGNKLDLYGKAVGLHYFSDNDGNDGDKTYARLGFKGETKINDQLTGYGQWEYNFQGNNSEGADAQSGNKTRLAFAGLKFGDAGSFDYGRNYGLVYDAIGITDMLPEFGGDTGVSDNFFSGRTGGLATYRNSGFFGLVDGLNFGVQYLGKNERTDALRSNGDGWATSLSYDFDGFGIVGAYGAADRTNAQQNLQWGKGDKAEQWATGLKYDANNIYLAALYGEMRNAARLDNGFANKTQDFSVVAQYQFDFGLRPSIAYYKSKAKDVEGIGDEDYINYIDIGATYYFNKNMSTYVDYQINQLKDDNKLGINNDDTVAVGLVYQF AEIYNKDGNKLDLYGKAVGLHYFSDNDGNDGDKTYARLGFKGETKINDQLTGYGQWEYNFQGNNSEGADAQSGNKTRLAFAGLKFGDAGSFDYGRNYGLVYDAIGITDMLPEFGGDTGVSDNFFSGRTGGLATYRNSGFFGLVDGLNFGVQYLGKNERTDALRSNGDGWATSLSYDFDGFGIVGAYGAADRTNAQQNLQWGKGDKAEQWATGLKYDANNIYLAALYGEMRNAARLDNGFANKTQDFSVVAQYQFDFGLRPSIAYYKSKAKDVEGIGDEDYINYIDIGATYYFNKNMSTYVDYQINQLKDDNKLGINNDDTVAVGLVYQF 6enh-a1-m1-cA_6enh-a1-m2-cA Crystal structure of the 43K ATPase domain of Thermus thermophilus gyrase B in complex with an aminocoumarin Q5SHZ4 Q5SHZ4 1.94 X-RAY DIFFRACTION 10 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 366 366 SAIRVLKGLEGVRHRPAMYIGGTGVEGYHHLFKEILDNAVDEALAGYATEILVRLNEDGSLTVEDNGRGIPVDLMPEEGKPAVEVIYTTLHSGVGASVVNALSEWTVVEVFREGKHHRIAFSRGEVTEPLRVVGEAPRGKTGTRVTFKPDPEIFGNLRFDPSKIRARLREVAYLVAGLKLVFQDRQHGKEEVFLDKGGVASFAKALAEGEDLLYEKPFLIRGTHGEVEVEVGFLHTQGYNAEILTYANMIPTRDGGTHLTAFKSAYSRALNQYAKKAGLNKEKGPQPTGDDLLEGLYAVVSVKLPNPQFEGGKLLNPEAGTAVGQVVYERLLEILEENPRIAKAVYEKALRAAQAREAARKARELV SAIRVLKGLEGVRHRPAMYIGGTGVEGYHHLFKEILDNAVDEALAGYATEILVRLNEDGSLTVEDNGRGIPVDLMPEEGKPAVEVIYTTLHSGVGASVVNALSEWTVVEVFREGKHHRIAFSRGEVTEPLRVVGEAPRGKTGTRVTFKPDPEIFGNLRFDPSKIRARLREVAYLVAGLKLVFQDRQHGKEEVFLDKGGVASFAKALAEGEDLLYEKPFLIRGTHGEVEVEVGFLHTQGYNAEILTYANMIPTRDGGTHLTAFKSAYSRALNQYAKKAGLNKEKGPQPTGDDLLEGLYAVVSVKLPNPQFEGGKLLNPEAGTAVGQVVYERLLEILEENPRIAKAVYEKALRAAQAREAARKARELV 6enz-a1-m1-cB_6enz-a1-m1-cA Crystal structure of mouse GADL1 Q80WP8 Q80WP8 3 X-RAY DIFFRACTION 481 1.0 10090 (Mus musculus) 10090 (Mus musculus) 486 487 VDGVVLNGPQTDVKAGEKFVEEACRLIMEEVVLKATDVNEKVCEWQPPEQLRQLLDLEMRDTGESQDKLLKLCQDVIHFSVKTNHPRFFNQLYAGLDYYSLAARIITEALNPSIYTYEVSPVFLLVEEAVLKKMIECVGWKEGDGIFNPGGSVSNMCAMNLARYRHCPDIKEKGLSGLPRLILFTSAECHYSMKKAASFLGIGTQNVYFVETDGRGKMIPEDLEKQIWQARQEGAVPFLVCATSGTTVLGAFDPLDEIAEVCERHGLWLHVDASWGGSALVSRKHRRLLHGIHRADSVAWNPHKMLMAGIQCSALLVKDKSDLLKKCYSAKADKFYDVSYDTGDKSIQCSRRPDAFKFWMTWKALGTSGLEERVNRAFALSRYLVDEIKKREGFKLLMEPEYTNVCFWYIPPSLREMEEGPEFWRKLSLVAPAIKEKMMKKGSLMLGYQPHRGKVNFFRQVVISPQVSREDMDFLLDEIDSLGRDM VDGVVLNGPQTDVKAGEKFVEEACRLIMEEVVLKATDVNEKVCEWQPPEQLRQLLDLEMRDTGESQDKLLKLCQDVIHFSVKTNHPRFFNQLYAGLDYYSLAARIITEALNPSIYTYEVSPVFLLVEEAVLKKMIECVGWKEGDGIFNPGGSVSNMCAMNLARYRHCPDIKEKGLSGLPRLILFTSAECHYSMKKAASFLGIGTQNVYFVETDGRGKMIPEDLEKQIWQARQEGAVPFLVCATSGTTVLGAFDPLDEIAEVCERHGLWLHVDASWGGSALVSRKHRRLLHGIHRADSVAWNPHKMLMAGIQCSALLVKDKSDLLKKCYSAKATDKFYDVSYDTGDKSIQCSRRPDAFKFWMTWKALGTSGLEERVNRAFALSRYLVDEIKKREGFKLLMEPEYTNVCFWYIPPSLREMEEGPEFWRKLSLVAPAIKEKMMKKGSLMLGYQPHRGKVNFFRQVVISPQVSREDMDFLLDEIDSLGRDM 6eoa-a1-m2-cA_6eoa-a1-m3-cA Crystal Structure of HAL3 from Cryptococcus neoformans J9VGI2 J9VGI2 2.18 X-RAY DIFFRACTION 36 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 193 193 6eoa-a1-m1-cA_6eoa-a1-m2-cA 6eoa-a1-m1-cA_6eoa-a1-m3-cA DGIFRVVLITSGSVASIKAPDIVGALVKSPNIDVQVVATKASTYFYSQEDVDNSVRSALNLPDGQTGEHFGVRVWTDEDEWSGEPILHIELRRWADLVVIAPCSADLLAKIAGGICDSLATSLLRALGPSTPVIVCPAMNTYMYQHRLTTRHLAVVQEDLGYLVSGPQGGPGKMTDWRDIVSLIEGFATMHQD DGIFRVVLITSGSVASIKAPDIVGALVKSPNIDVQVVATKASTYFYSQEDVDNSVRSALNLPDGQTGEHFGVRVWTDEDEWSGEPILHIELRRWADLVVIAPCSADLLAKIAGGICDSLATSLLRALGPSTPVIVCPAMNTYMYQHRLTTRHLAVVQEDLGYLVSGPQGGPGKMTDWRDIVSLIEGFATMHQD 6eoh-a1-m1-cB_6eoh-a1-m1-cA Reductive Aminase from Aspergillus terreus in complex with NADPH and ethyl levulinate Q0CCT3 Q0CCT3 1.85 X-RAY DIFFRACTION 333 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 284 285 5ojl-a1-m1-cA_5ojl-a1-m2-cA 6eod-a1-m1-cH_6eod-a1-m1-cA 6eod-a2-m1-cG_6eod-a2-m1-cB 6eod-a3-m1-cC_6eod-a3-m1-cD 6eod-a4-m1-cF_6eod-a4-m1-cE 6eoi-a1-m1-cA_6eoi-a1-m1-cB 6h7p-a1-m1-cA_6h7p-a1-m1-cB TTTKLTIFGLGAMGTAMATQFLKQGHTPTVWNRTAAKANPLVEQGAHLAATIPAAIAASPLLIFCLLDNAAVEQTLAAGPPSLAGKTILNLTNGTPSQARRLATLASARGARYFHGGIMATPDMIGAPHAVILYSGGETYASVEGVLAVLGSGKYLGDDAGSASLHDLALLSGMYGLFAGFLHATALVRSEGVSATEFLGLLAPWLQAMTGYLGLLARQIDDGVYTAQTSNLEMQLVALENACAASREQGVSAEVMLPLKGLVERAVREGRGGHDISSLIDYFR TTTKLTIFGLGAMGTAMATQFLKQGHTPTVWNRTAAKANPLVEQGAHLAATIPAAIAASPLLIFCLLDNAAVEQTLAAGPPSLAGKTILNLTNGTPSQARRLATLASARGARYFHGGIMATPDMIGAPHAVILYSGGAETYASVEGVLAVLGSGKYLGDDAGSASLHDLALLSGMYGLFAGFLHATALVRSEGVSATEFLGLLAPWLQAMTGYLGLLARQIDDGVYTAQTSNLEMQLVALENACAASREQGVSAEVMLPLKGLVERAVREGRGGHDISSLIDYFR 6eow-a2-m1-cC_6eow-a2-m2-cD Structure of Raspberry Ketone Synthase with Hydroxybenzalacetone G1FCG0 G1FCG0 1.8 X-RAY DIFFRACTION 92 0.988 32247 (Rubus idaeus) 32247 (Rubus idaeus) 327 330 6eow-a1-m1-cB_6eow-a1-m1-cA QVSNKQVIFRDYVTGFPKESDMELTTRSITLKLLLKNLYLSCDPYMRARMTNLSYVDSFKPGSPIIGYGVARVLESGNPKFNPGDLVWGFTGWEEYSVITLFKIHNTDVPLSYYTGLLGMPGMTAYAGFYEICSPKKGETVYVSAASGAVGQLVGQFAKLTGCYVVGSAGSKEKVDLLKNKFGFDEAFNYKEEADLDAALRRYFPDGIDIYFENVGGKMLDAVLPNMRPKGRIAVCGMISQYNLEQPEGVRNLMALIVKQVRMEGFMVFSYYHLYGKFLETVLPYIKQGKITYVEDVVDGLDNAPAALIGLYSGRNVGKQVVVVSRE VSNKQVIFRDYVTGFPKESDMELTTRSITLKSTGLLLKNLYLSCDPYMRARMTNVDSFKPGSPIIGYGVARVLESGNPKFNPGDLVWGFTGWEEYSVITATESLFKIHNTDVPLSYYTGLLGMPGMTAYAGFYEICSPKKGETVYVSAASGAVGQLVGQFAKLTGCYVVGSAGSKEKVDLLKNKFGFDEAFNYKEEADLDAALRRYFPDGIDIYFENVGGKMLDAVLPNMRPKGRIAVCGMISQYNLEQPEGVRNLMALIVKQVRMEGFMVFSYYHLYGKFLETVLPYIKQGKITYVEDVVDGLDNAPAALIGLYSGRNVGKQVVVVSRE 6ep3-a1-m1-cA_6ep3-a1-m1-cB Lar controls the expression of the Listeria monocytogenes agr system and mediates virulence. Q8Y982 Q8Y982 2.2 X-RAY DIFFRACTION 62 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 215 218 NKFKTLDKMVYNLLLEKIKNGELVPNEHLAEEKLAREFGVSRSPLRKAIATLTAQGIVSYHENSGAVLNDCIVDADRYVQLMETIEIFVDAAIAKAAHFGYEMDLEKLYARMQEMERFSYLTDLENYFDAHHRFILCLISFAENPYQVRIVKQIFFQMVHFSDGINMFKSVEIREWTNKKSNQIYELLAEGKIELARKTIKSMFAELTIQAYRLE NKFKTLDKMVYNLLLEKIKNGELVPNEHLAEEKLAREFGVSRSPLRKAIATLTAQGIVSYHENSGAVLNDCIVDADRYVQLMETIEIFVDAAIAKAAHFGYEMDLEKLYARMQEMERFSYLTDLENYFDAHHRFILCLISFAENPYQVRIVKQIFFQMVHFSDGINMFKSVEIREWTNKKSNQIYELLAEGKIELARKTIKSMFAELTIQAYRLEHHH 6ep6-a1-m1-cA_6ep6-a1-m1-cB ARABIDOPSIS THALIANA GSTU23, reduced Q9M9F1 Q9M9F1 1.592 X-RAY DIFFRACTION 50 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 212 216 5o84-a1-m1-cA_5o84-a1-m2-cA 6ep7-a1-m1-cA_6ep7-a1-m1-cB EIILLDYWASMYGMRTRIALEEKKVKYEYREEDLSNKSPLLLQMNPIHKKIPVLIHEGKPICESIIQVQYIDELWPDTNPILPSDPYQRAQARFWADYIDKKTYVPCKALWSESGEKQEAAKIEFIEVLKTLDSELGDKYYFGGNEFGLVDIAFIGFYSWFRTYEEVANLSIVLEFPKLMAWAQRCLKRESVAKALPDSDKVLKSVSDHRKI EIILLDYWASMYGMRTRIALEEKKVKYEYREEDLSNKSPLLLQMNPIHKKIPVLIHEGKPICESIIQVQYIDELWPDTNPILPSDPYQRAQARFWADYIDKKTYVPCKALWSESGEKQEAAKIEFIEVLKTLDSELGDKYYFGGNEFGLVDIAFIGFYSWFRTYEEVANLSIVLEFPKLMAWAQRCLKRESVAKALPDSDKVLKSVSDHRKIILGI 6eqo-a1-m1-cB_6eqo-a1-m1-cA Tri-functional propionyl-CoA synthase of Erythrobacter sp. NAP1 with bound NADP+ and phosphomethylphosphonic acid adenylate ester A3WE14 A3WE14 2.7 X-RAY DIFFRACTION 251 1.0 237727 (Erythrobacter sp. NAP1) 237727 (Erythrobacter sp. NAP1) 1803 1804 ISDRDHFQRLREECRSDPGEFHGRLAKREICWLIENPAWAFYDDAAETWTGWDASSAAPITLDLPESFEPWERAFNDDDPPNWRWFEGGLTSTAFNEVDRHVLSGHGDEAAMIFEGDRWNMASEGGRGGPVDSEVISRRKLLLESAKCALALKALGLEAGDRIALNMPSIPEQIYWTEGAKRMGIVYTPVFGGFSDKTLSDRIADAGARVVVTADGSYRNAQMVPFKPSYTDPALDNFIAVPVAMELLGQALEVVAPEHAGLIRSEVAGLLDGEVTVERSDVMRGVGKALTAIASGEAAGGAMTPRQAAQLRIAIASALVDSPPRVDAVVVVKHTAQPDLPWNEARDHWSHDLTAAAGEELLKAARDAGFDVADEEALLALSDTEFVRAIWAGAPVLAVDAEYPNFIIYTSGSTGKPKGVVHVHGGYASGVAATMPAAFGAEPGDVMYVVADPGWITGQSYQIAASLLSRVTTVITEGSPVFPHAGRFASIIERYGVNVFKAGVTFLKSVMQNPENLKDIQRYDLSSLKVATFCAEPVSPAVQAFAMEHITHRYINSYWATEHGGMVWTHFADADGFPLEADAHTYPLPWIMGDVWVEDADGSSNGPVEYERDTPWRVAEDGEKGEIVIALPYPYLTRTIWGDVENFTVEHVGNLARVAGGWRGDEVRYADTYWRRWKGAWAYTQGDFAMRHPDGSFSLHGRSDDVINVSGHRIGTEEIEGAILRDKALDPNSPVGNVIVIGAPHSQKGVTPIAFVTPVEGRRLTQDDKRRLTDLVRTEKGAVAVPQDFIELSEFPETRSGKYMRRMVRAVVEGGEVLRNPESLDELARAVDGWKRRQSLSDTQALFERYRFFTIQYNLVAPGKRVATVTVKNPPVNALNERALDELVIIAEHLARKDDVAAVVFTGSGTASFVAGADIRQMLEEVNSVEEAKALPDNAQLAFRTIEEMDKPCIAAIQGVALGGGMEFALACHYRVAEPKARFGQPEINLRLLPGYGGTQRLPRLLADGGGETGLRDALDLILGGRAIDADAALAVGAVDALADGSDNALSHAHAMVREFVRSGDDSALGKAFAARKTQTQSWHEPASIDLDAVLEDEFLQRILNQLEWAGRDKAGERALDAVRTGWTQGMTAGLECEAQRFAEAIIDPEGGKTGIQQFMDKQSPPLPVRRDGVWEDDQHEATKTALIEAGDLLPLGAPFYPGVTAIPPKQLAFGIARDPDTGAPRFGPPETHERELVVNTPKPGANEALIYLLSSEVNFNDIWALTGIPVSPFDAHDEDVQITGSGGLALVAALGSELKEEGRLQVGDLVSVYSGTSELLSPLAGDDPMYAGFAIQGYETKTGSHAQFLTVQGPQLHRPPADLTLEQAGAYTLNLGTVARCLFTTLEIQAGKTAFVEGSATGTGLDALKSSVRTGLAVTGLVSSEDRAEFVKSHGSVGAINRKDPEIADCFTPVPDDPDEARQWEADGEKLLDAYRETNGGKLADYVVSHAGERAFPRSFQLLAEGGRLAFYGASSGYHFSFMGKGGEARPDEMLARANLRGGESVLLYYGPGSHELADEKGLEMVEAARLMKARMVIVTTSDGQREFLQSLGLEDAVEGIVSIEGLKRRLSDFHWPDTLPRLPDARTDIENFKIGVRAYQQNTMKPFGTAVGKLLRSPGNPRGVPDLVIERAGQDTLGVSTSLVKPFGGRVIYAEEMAGRRYTFYAPQVWTRQRRIYMPSAEIFGTHLCNAYEVTMMNEMVAAGLLDVTEPTMVPWEGLPEAHQAMWDNRHSGATYVVNHALPAMGLTTKDELLEYWVAAQ ISDRDHFQRLREECRSDPGEFHGRLAKREICWLIEGNPAWAFYDDAAETWTGWDASSAAPITLDLPESFEPWERAFNDDDPPNWRWFEGGLTSTAFNEVDRHVLSGHGDEAAMIFEGDRWNMASEGGRGGPVDSEVISRRKLLLESAKCALALKALGLEAGDRIALNMPSIPEQIYWTEGAKRMGIVYTPVFGGFSDKTLSDRIADAGARVVVTADGSYRNAQMVPFKPSYTDPALDNFIAVPVAMELLGQALEVVAPEHAGLIRSEVAGLLDGEVTVERSDVMRGVGKALTAIASGEAAGGAMTPRQAAQLRIAIASALVDSPPRVDAVVVVKHTAQPDLPWNEARDHWSHDLTAAAGEELLKAARDAGFDVADEEALLALSDTEFVRAIWAGAPVLAVDAEYPNFIIYTSGSTGKPKGVVHVHGGYASGVAATMPAAFGAEPGDVMYVVADPGWITGQSYQIAASLLSRVTTVITEGSPVFPHAGRFASIIERYGVNVFKAGVTFLKSVMQNPENLKDIQRYDLSSLKVATFCAEPVSPAVQAFAMEHITHRYINSYWATEHGGMVWTHFADADGFPLEADAHTYPLPWIMGDVWVEDADGSSNGPVEYERDTPWRVAEDGEKGEIVIALPYPYLTRTIWGDVENFTVEHVGNLARVAGGWRGDEVRYADTYWRRWKGAWAYTQGDFAMRHPDGSFSLHGRSDDVINVSGHRIGTEEIEGAILRDKALDPNSPVGNVIVIGAPHSQKGVTPIAFVTPVEGRRLTQDDKRRLTDLVRTEKGAVAVPQDFIELSEFPETRSGKYMRRMVRAVVEGGEVLRNPESLDELARAVDGWKRRQSLSDTQALFERYRFFTIQYNLVAPGKRVATVTVKNPPVNALNERALDELVIIAEHLARKDDVAAVVFTGSGTASFVAGADIRQMLEEVNSVEEAKALPDNAQLAFRTIEEMDKPCIAAIQGVALGGGMEFALACHYRVAEPKARFGQPEINLRLLPGYGGTQRLPRLLADGGGETGLRDALDLILGGRAIDADAALAVGAVDALADGSDNALSHAHAMVREFVRSGDDSALGKAFAARKTQTQSWHEPASIDLDAVLEDEFLQRILNQLEWAGRDKAGERALDAVRTGWTQGMTAGLECEAQRFAEAIIDPEGGKTGIQQFMDKQSPPLPVRRDGVWEDDQHEATKTALIEAGDLLPLGAPFYPGVTAIPPKQLAFGIARDPDTGAPRFGPPETHERELVVNTPKPGANEALIYLLSSEVNFNDIWALTGIPVSPFDAHDEDVQITGSGGLALVAALGSELKEEGRLQVGDLVSVYSGTSELLSPLAGDDPMYAGFAIQGYETKTGSHAQFLTVQGPQLHRPPADLTLEQAGAYTLNLGTVARCLFTTLEIQAGKTAFVEGSATGTGLDALKSSVRTGLAVTGLVSSEDRAEFVKSHGSVGAINRKDPEIADCFTPVPDDPDEARQWEADGEKLLDAYRETNGGKLADYVVSHAGERAFPRSFQLLAEGGRLAFYGASSGYHFSFMGKGGEARPDEMLARANLRGGESVLLYYGPGSHELADEKGLEMVEAARLMKARMVIVTTSDGQREFLQSLGLEDAVEGIVSIEGLKRRLSDFHWPDTLPRLPDARTDIENFKIGVRAYQQNTMKPFGTAVGKLLRSPGNPRGVPDLVIERAGQDTLGVSTSLVKPFGGRVIYAEEMAGRRYTFYAPQVWTRQRRIYMPSAEIFGTHLCNAYEVTMMNEMVAAGLLDVTEPTMVPWEGLPEAHQAMWDNRHSGATYVVNHALPAMGLTTKDELLEYWVAAQ 6er4-a1-m1-cB_6er4-a1-m1-cA Ruminococcus gnavus IT-sialidase CBM40 bound to alpha2,6 sialyllactose A7B557 A7B557 1.3 X-RAY DIFFRACTION 63 1.0 411470 ([Ruminococcus] gnavus ATCC 29149) 411470 ([Ruminococcus] gnavus ATCC 29149) 189 194 6er2-a1-m1-cA_6er2-a1-m1-cB 6er3-a1-m1-cA_6er3-a1-m1-cB GSVLQKEGIEISEGTGYDLSKEPGAATVKALEQGTIVISYKTTSENAIQSLLSVGNGTKGNQDRHFHLYITNAGGVGMELRNTDGEFKYTLDCPAAVRGSYKGERVSNTVALKADKENKQYKLFANGELIATLDQEAFKFISDITGVDNVMLGGTMRQGTVAYPFGGSIERMQVYRDVLSDDELIAVTG MADIGSVLQKEGIEISEGTGYDLSKEPGAATVKALEQGTIVISYKTTSENAIQSLLSVGNGTKGNQDRHFHLYITNAGGVGMELRNTDGEFKYTLDCPAAVRGSYKGERVSNTVALKADKENKQYKLFANGELIATLDQEAFKFISDITGVDNVMLGGTMRQGTVAYPFGGSIERMQVYRDVLSDDELIAVTGK 6erd-a2-m1-cC_6erd-a2-m1-cD Crystal structure of a putative acetyltransferase from Bacillus cereus species. Q81D84 Q81D84 2 X-RAY DIFFRACTION 61 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 160 165 6erd-a1-m1-cB_6erd-a1-m1-cA LVIKLESFKKSDFKQLINWINSEEFLIQWSGNAFTFPLDEQQLEKYIESANTLAFKVVDEETSDVIGHISLGQIDNINKSARIGKVLVGNRSIGKHKAVLHIAFDELKLHRVTLGVYDFNTSAISCYEKIGFVKEGLLRESKRVGETYWNLWESLEYEWK LVIKLESFKKSDFKQLINWINSEEFLIQWSGNAFTFPLDEQQLEKYIESANTLAFKVVDEETSDVIGHISLGQIDNINKSARIGKVLVGNTKRGRSIGKHKAVLHIAFDELKLHRVTLGVYDFNTSAISCYEKIGFVKEGLLRESKRVGETYWNLWESLEYEWKK 6erk-a1-m1-cB_6erk-a1-m1-cA Crystal structure of diaminopelargonic acid aminotransferase from Psychrobacter cryohalolentis Q1QDV8 Q1QDV8 1.6 X-RAY DIFFRACTION 337 0.995 335284 (Psychrobacter cryohalolentis K5) 335284 (Psychrobacter cryohalolentis K5) 418 420 GHMTTVSTNDFDQQHLWHPYASLPPTYPNIVIDRAEGIYIVTEDGTRLIDGMSSWWASVHGYNHPKLNAAMIEQLGKMAHVMFGGLTHQPAIDLGKKLLSIVPAGLDAIFYADSGSIAVEVALKMALQYQIAAKRPSKCQFASTHSGYYGDTWHAMSVCDPMQHFVAAPPMGFERDLTQSEREALTEFFVKNSDKLAGFIIEPIIQGAGGMRFYSPQYLQLLRKLCDEYDVLLIADEIATGFGRSGKLFACEHAAISPDIMTIGKALTGGYMTFAATLSTREIADTISQSDYPALMHGPTFMGNPLACAVACASIDLIVSYDIEARTENMQAIMNEQLAPAVSLEGVKEVRCLGAVAVIELNEAVDMPIFQTLLINNGIWVRPFGKLVYIMPPYVITDDELTTLCQALLKVVSSYLTR MTTVSTNDFDQQHLWHPYASLPPTYPNIVIDRAEGIYIVTEDGTRLIDGMSSWWASVHGYNHPKLNAAMIEQLGKMAHVMFGGLTHQPAIDLGKKLLSIVPAGLDAIFYADSGSIAVEVALKMALQYQIAAKRPSKCQFASTHSGYYGDTWHAMSVCDKQLPMQHFVAAPPMGFERDLTQSEREALTEFFVKNSDKLAGFIIEPIIQGAGGMRFYSPQYLQLLRKLCDEYDVLLIADEIATGFGRSGKLFACEHAAISPDIMTIGKALTGGYMTFAATLSTREIADTISQSDYPALMHGPTFMGNPLACAVACASIDLIVSYDIEARTENMQAIMNEQLAPAVSLEGVKEVRCLGAVAVIELNEAVDMPIFQTLLINNGIWVRPFGKLVYIMPPYVITDDELTTLCQALLKVVSSYLTRK 6es4-a1-m1-cB_6es4-a1-m1-cA A cryptic RNA-binding domain mediates Syncrip recognition and exosomal partitioning of miRNA targets A0A0B4KHI4 A0A0B4KHI4 2.2 X-RAY DIFFRACTION 55 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 204 206 GERTEDYPKLLEYGLDKKVAGKLDEIYKTGKLAHAELDERALDALKEFPVDGALNVLGQFLESNLEHVSNKSAYLCGVMKTYRGPDEDKIKKILERTGYTLDVTTGQRKYGGPPPHWEGNVPGNGCEVFCGKIPKDMYEDELIPLFENGIIWDLRLMMDPMTGTNRGYAFVTFTNREAAVNAVRQLDNHEIKPGKCLKINISVP GERTEDYPKLLEYGLDKKVAGKLDEIYKTGKLAHAELDERALDALKEFPVDGALNVLGQFLESNLEHVSNKSAYLCGVMKTYRQKGPDEDKIKKILERTGYTLDVTTGQRKYGGPPPHWEGNVPGNGCEVFCGKIPKDMYEDELIPLFENGIIWDLRLMMDPMTGTNRGYAFVTFTNREAAVNAVRQLDNHEIKPGKCLKINISVP 6es9-a1-m1-cA_6es9-a1-m1-cB Methylsuccinyl-CoA dehydrogenase of Paracoccus denitrificans with bound flavin adenine dinucleotide A1B5Y0 A1B5Y0 1.37 X-RAY DIFFRACTION 180 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 545 545 MPADTPSALLALAGEALPELESLQSRATEALRALVAPAGKPQPALLEQHQHAAHALSWLTTYVESIRQLSGWAGRLAEAGNLGRIEALILQIGLGEYLGQIAGGIPMSQTEFARLSDLELDWQPGEAAAKLMRGNTAPARAELARLMQDNHGRATFGATGLDEDLEMIRDQFRRYAEERVIPNAHEWHLKDQLIPMEIIEELAELGVFGLTIPEEFGGLGLSKASMVVVTEELSRGYIGVGSLGTRSEIAAELILCGGTEAQKAKWLPGLASGEILSTAVFTEPNTGSDLGSLRTRAVRDGEDWVVTGNKTWITHAQRTHVMTLLARTDPETTDWRGLSMFLAEKEPGTDDDPFPTPGMTGGEIEVLGYRGMKEYELGFDGFRIKGENLLGGEPGRGFKQLMETFESARIQTAARAVGVAQSAAEIGMRYAVDRKQFGKSLIEFPRVADKLAMMAVEIMIARQLTYFSAWEKDHGRRCDLEAGMAKLLGARVAWAAADNALQIHGGNGFALEYAISRVLCDARILNIFEGAAEIQAQVIARRLLD MPADTPSALLALAGEALPELESLQSRATEALRALVAPAGKPQPALLEQHQHAAHALSWLTTYVESIRQLSGWAGRLAEAGNLGRIEALILQIGLGEYLGQIAGGIPMSQTEFARLSDLELDWQPGEAAAKLMRGNTAPARAELARLMQDNHGRATFGATGLDEDLEMIRDQFRRYAEERVIPNAHEWHLKDQLIPMEIIEELAELGVFGLTIPEEFGGLGLSKASMVVVTEELSRGYIGVGSLGTRSEIAAELILCGGTEAQKAKWLPGLASGEILSTAVFTEPNTGSDLGSLRTRAVRDGEDWVVTGNKTWITHAQRTHVMTLLARTDPETTDWRGLSMFLAEKEPGTDDDPFPTPGMTGGEIEVLGYRGMKEYELGFDGFRIKGENLLGGEPGRGFKQLMETFESARIQTAARAVGVAQSAAEIGMRYAVDRKQFGKSLIEFPRVADKLAMMAVEIMIARQLTYFSAWEKDHGRRCDLEAGMAKLLGARVAWAAADNALQIHGGNGFALEYAISRVLCDARILNIFEGAAEIQAQVIARRLLD 6esl-a1-m1-cA_6esl-a1-m1-cB Crystal structure of the Legionella pneumoppila LapA Q5ZRR6 Q5ZRR6 1.87 X-RAY DIFFRACTION 143 0.994 446 (Legionella pneumophila) 446 (Legionella pneumophila) 359 360 SPVHEQLQVPQCLAAKITVPHKILAENKEFKIIDVLSSDVETLTILADKVSCGHFVNVSHKLQQQSAQKLLQGVSKLVYEIKHEEEVNAALKEIVSDNIWQTLTHMTSYYNRSATKDTGVETANWLKSKFEQMAVEYGRTDTSTFFVKTGWYKQPSLVTVIGKDIKAPAIVIGAHMDTLDGRMPGAGDDGSGSSSIMEAARVILSSKTTFKRPIYFIWYAAEERGLVGSQHVVQHFQEQSIPVKAVVQFDMTGYRNDANDPTMWVFTDYTDRDLSNYLAKLIDHYIHVPVDYSRCGYGCSDHASWNEEDIPAAFPCETSFADHNPYIHTSSDKMDLLNLEHMTNFSKLAVAFAIELASE VHEQLQVPQCLAAKITVPHKILAENKEFKIIDVLSSDVETLTILADKVSCGHFVNVSHKLQQQSAQKLLQGVSKLHKDVYEIKHEEEVNAALKEIVSDNIWQTLTHMTSYYNRSATKDTGVETANWLKSKFEQMAVEYGRTDTSTFFVKTGWYKQPSLVTVIGKDIKAPAIVIGAHMDTLDGRMPGAGDDGSGSSSIMEAARVILSSKTTFKRPIYFIWYAAEERGLVGSQHVVQHFQEQSIPVKAVVQFDMTGYRNDANDPTMWVFTDYTDRDLSNYLAKLIDHYIHVPVDYSRCGYGCSDHASWNEEDIPAAFPCETSFADHNPYIHTSSDKMDLLNLEHMTNFSKLAVAFAIELASE 6et5-a1-m1-cr_6et5-a1-m1-cu Reaction centre light harvesting complex 1 from Blc. virids P04124 P04124 2.87 ELECTRON MICROSCOPY 11 1.0 1079 (Blastochloris viridis) 1079 (Blastochloris viridis) 55 55 6et5-a1-m1-c1_6et5-a1-m1-c4 6et5-a1-m1-c4_6et5-a1-m1-c7 6et5-a1-m1-cG_6et5-a1-m1-cN 6et5-a1-m1-cl_6et5-a1-m1-co 6et5-a1-m1-cN_6et5-a1-m1-cQ 6et5-a1-m1-cQ_6et5-a1-m1-cT 6et5-a1-m1-cT_6et5-a1-m1-cW 6et5-a1-m1-cZ_6et5-a1-m1-cc ADLKPSLTGLTEEEAKEFHGIFVTSTVLYLATAVIVHYLVWTARPWIAPIPKGWV ADLKPSLTGLTEEEAKEFHGIFVTSTVLYLATAVIVHYLVWTARPWIAPIPKGWV 6et9-a1-m1-cC_6et9-a1-m1-cA Structure of the acetoacetyl-CoA-thiolase/HMG-CoA-synthase complex from Methanothermococcus thermolithotrophicus at 2.75 A A0A384E138 A0A384E138 2.75 X-RAY DIFFRACTION 202 1.0 2186 (Methanothermococcus thermolithotrophicus) 2186 (Methanothermococcus thermolithotrophicus) 389 392 6esq-a1-m1-cA_6esq-a1-m1-cC 6esq-a1-m1-cB_6esq-a1-m1-cD 6et9-a1-m1-cB_6et9-a1-m1-cD MRDVAIIGYGQTKFGELWEDSFRDLIVEAGVKAIKDANVDGGDIDAMYIGNMSGGLFVGQEHIASLIADHAGLNPVPCTRVEAACASGSLALRSAVLSVASGHHDVVLAGGVEKMTDVEDATAAIASASDQEWEAFFGATFPSLYAMMARRYMYQYGLTIEELSMWSVIAHENATKNKYAQFGFKTTLEQVMNASPVADPLTLMHCSPVSDGASALIVCDADKAEEFAPKDEIIYIKASTQASDTIALHDREDMTTLNAAKVASEKAYKLAKIAPEKIDVAEVHDCFAINGLILVEDLGFCKKGDAGKVIDEGKDYDDFVTVNPSGGLKAAGHALGATGIRQVGELYWQLKQDKECKDRQATIKNGYGIAANVGGTGGTVCVHLLSDKR MRDVAIIGYGQTKFGELWEDSFRDLIVEAGVKAIKDANVDGGDIDAMYIGNMSGGLFVGQEHIASLIADHAGLNPVPCTRVEAACASGSLALRSAVLSVASGHHDVVLAGGVEKMTDVEDATAAIASASDQEWEAFFGATFPSLYAMMARRYMYQYGLTIEELSMWSVIAHENATKNKYAQFGFKTTLEQVMNASPVADPLTLMHCSPVSDGASALIVCDADKAEEFAPKDEIIYIKASTQASDTIALHDREDMTTLNAAKVASEKAYKLAKIAPEKIDVAEVHDCFAINGLILVEDLGFCKKGDAGKVIDEGKIRIDYDDFVTVNPSGGLKAAGHALGATGIRQVGELYWQLKQDKECKDRQATIKNGYGIAANVGGTGGTVCVHLLSDKR 6et9-a1-m1-cI_6et9-a1-m1-cL Structure of the acetoacetyl-CoA-thiolase/HMG-CoA-synthase complex from Methanothermococcus thermolithotrophicus at 2.75 A A0A384E143 A0A384E143 2.75 X-RAY DIFFRACTION 47 1.0 2186 (Methanothermococcus thermolithotrophicus) 2186 (Methanothermococcus thermolithotrophicus) 347 347 6esq-a1-m1-cI_6esq-a1-m1-cL 6esq-a1-m1-cK_6esq-a1-m1-cJ 6et9-a1-m1-cK_6et9-a1-m1-cJ DIGIVGYGSYIPKYRIKVEEIAKVWGKDPEAIKKGLVVNEKSVPSPDEDTATIAVEAARNAVKRAGINAEKIGAVYVGSESHPYAVKPTSATVAEAIGATPDLTAADLEFACKAGTAGIQMCMGLVGSGLIEYGMAIGADTAQGAPGDALEYTASAGGAAYIIGNKKDEMIAVFNGTYSYTTDTPDFWRREGQSYPKHGGRFTGEPAYFKHVLNAAKGIMEKMGTTVKDYDYCVFHQPNGKFYIKAAKSLGFTNEQYKYGLLTPYLGNTYSGAVPLGLSNILDHAEEGARILAVSYGSGAGSDAFDITVTERIKEVVDKAPKTLDLLNRKKYIDYAVYVKYRGKIKI DIGIVGYGSYIPKYRIKVEEIAKVWGKDPEAIKKGLVVNEKSVPSPDEDTATIAVEAARNAVKRAGINAEKIGAVYVGSESHPYAVKPTSATVAEAIGATPDLTAADLEFACKAGTAGIQMCMGLVGSGLIEYGMAIGADTAQGAPGDALEYTASAGGAAYIIGNKKDEMIAVFNGTYSYTTDTPDFWRREGQSYPKHGGRFTGEPAYFKHVLNAAKGIMEKMGTTVKDYDYCVFHQPNGKFYIKAAKSLGFTNEQYKYGLLTPYLGNTYSGAVPLGLSNILDHAEEGARILAVSYGSGAGSDAFDITVTERIKEVVDKAPKTLDLLNRKKYIDYAVYVKYRGKIKI 6et9-a1-m1-cL_6et9-a1-m1-cJ Structure of the acetoacetyl-CoA-thiolase/HMG-CoA-synthase complex from Methanothermococcus thermolithotrophicus at 2.75 A A0A384E143 A0A384E143 2.75 X-RAY DIFFRACTION 203 1.0 2186 (Methanothermococcus thermolithotrophicus) 2186 (Methanothermococcus thermolithotrophicus) 347 348 6esq-a1-m1-cI_6esq-a1-m1-cK 6esq-a1-m1-cL_6esq-a1-m1-cJ 6et9-a1-m1-cI_6et9-a1-m1-cK DIGIVGYGSYIPKYRIKVEEIAKVWGKDPEAIKKGLVVNEKSVPSPDEDTATIAVEAARNAVKRAGINAEKIGAVYVGSESHPYAVKPTSATVAEAIGATPDLTAADLEFACKAGTAGIQMCMGLVGSGLIEYGMAIGADTAQGAPGDALEYTASAGGAAYIIGNKKDEMIAVFNGTYSYTTDTPDFWRREGQSYPKHGGRFTGEPAYFKHVLNAAKGIMEKMGTTVKDYDYCVFHQPNGKFYIKAAKSLGFTNEQYKYGLLTPYLGNTYSGAVPLGLSNILDHAEEGARILAVSYGSGAGSDAFDITVTERIKEVVDKAPKTLDLLNRKKYIDYAVYVKYRGKIKI KDIGIVGYGSYIPKYRIKVEEIAKVWGKDPEAIKKGLVVNEKSVPSPDEDTATIAVEAARNAVKRAGINAEKIGAVYVGSESHPYAVKPTSATVAEAIGATPDLTAADLEFACKAGTAGIQMCMGLVGSGLIEYGMAIGADTAQGAPGDALEYTASAGGAAYIIGNKKDEMIAVFNGTYSYTTDTPDFWRREGQSYPKHGGRFTGEPAYFKHVLNAAKGIMEKMGTTVKDYDYCVFHQPNGKFYIKAAKSLGFTNEQYKYGLLTPYLGNTYSGAVPLGLSNILDHAEEGARILAVSYGSGAGSDAFDITVTERIKEVVDKAPKTLDLLNRKKYIDYAVYVKYRGKIKI 6eu4-a1-m1-cB_6eu4-a1-m1-cC Structure of Acinetobacter phage vb_AbaP_AS12 gp42 tailspike A0A218KRF6 A0A218KRF6 1.794 X-RAY DIFFRACTION 381 1.0 1932885 (Acinetobacter phage vB_AbaP_AS12) 1932885 (Acinetobacter phage vB_AbaP_AS12) 577 577 6eu4-a1-m1-cA_6eu4-a1-m1-cB 6eu4-a1-m1-cA_6eu4-a1-m1-cC VDVKIVNTVADLESLTANDGVAYVKGYYQPTNFALAKPYVGGGHRIYVASRAAENDGFLCINGWVLQIENNTVSPEHAGAKLNTPSFDSAIPIQKVLISGCKVRLNGLYHTSVPVYYNSNTTIEGTGELDCGFIKTTNNTLSLGNRTINGKINFDVDAIVAIPRVGDWYAQNNHLSGFTLQYDSALPTKGIGLYAPLIALSTYKSILTKNTFEGIKSVDAWCTWERVQASASSRSFIFGHTGTAWTPNNTTQTFIGCWATDAGLYGWDLNKQGCTISCGADFVGADGSPAKALFKIVYSNVTVTCNEHLHAQNFLYAEGSEVNISNFNGQAIYNKYKPATSSWNNNNSFCVVSNSKVKLTGGSFGFAYNSSDPTQGANCSALAYVEGGSVFEVSPETTFAVPLEEIGISSLTAFTKLGVYYTTNASVDAYVKGVRYQDGAKFSGLVDSYLSTSAKSLGNESITNLRGSLGNAVLVQSSTANATVANGFPSSGVPYLVQQWSSAAGNNSYNAQLAFAISSASATFWLRTGDYGQAYASWCRLYHYRDSLIPAATNTYDLGSSGSTFRNAYLQNAVTVV VDVKIVNTVADLESLTANDGVAYVKGYYQPTNFALAKPYVGGGHRIYVASRAAENDGFLCINGWVLQIENNTVSPEHAGAKLNTPSFDSAIPIQKVLISGCKVRLNGLYHTSVPVYYNSNTTIEGTGELDCGFIKTTNNTLSLGNRTINGKINFDVDAIVAIPRVGDWYAQNNHLSGFTLQYDSALPTKGIGLYAPLIALSTYKSILTKNTFEGIKSVDAWCTWERVQASASSRSFIFGHTGTAWTPNNTTQTFIGCWATDAGLYGWDLNKQGCTISCGADFVGADGSPAKALFKIVYSNVTVTCNEHLHAQNFLYAEGSEVNISNFNGQAIYNKYKPATSSWNNNNSFCVVSNSKVKLTGGSFGFAYNSSDPTQGANCSALAYVEGGSVFEVSPETTFAVPLEEIGISSLTAFTKLGVYYTTNASVDAYVKGVRYQDGAKFSGLVDSYLSTSAKSLGNESITNLRGSLGNAVLVQSSTANATVANGFPSSGVPYLVQQWSSAAGNNSYNAQLAFAISSASATFWLRTGDYGQAYASWCRLYHYRDSLIPAATNTYDLGSSGSTFRNAYLQNAVTVV 6eu6-a1-m2-cA_6eu6-a1-m3-cA Sensor Amt Protein Q1Q357 Q1Q357 1.98 X-RAY DIFFRACTION 127 1.0 174633 (Candidatus Kuenenia stuttgartiensis) 174633 (Candidatus Kuenenia stuttgartiensis) 405 405 6eu6-a1-m1-cA_6eu6-a1-m2-cA 6eu6-a1-m1-cA_6eu6-a1-m3-cA MENIQININHLWVIMAACMVFLMQLGFTSYETGFSQSKNAISIALRNLVDTLISSLVFFSVGFGFMFGKSYMGLIGIDLFFANDLALHPNTLSYSFFFFQMVFASTAATILTGAIAERSGFIPNIAGTAFIVAIIYPIFGHWAWGNLFSPDQTGWLKELGFIDFAGATVVHSIGGWFAMAAAIMVGPRIDKYNPDGSSNRIGLHNVPLATLGTFFLWFGWFGFNGGSLLRVSVNIGLVILNTNMAAASAGVSALIFIYATRKRIEAGSLFTAILAGLVAITASSNMVTPVSAVAIGLITGILAIIAEGFIEKTLKIDDPVSAIAVHGVGGVIGTLCVAIFAQKSYLLAENGSRMHQLGIQALGVIVAFSWSFGLGMLFFLCLKKVKRLRVTPEEEKRGLNVAEAA MENIQININHLWVIMAACMVFLMQLGFTSYETGFSQSKNAISIALRNLVDTLISSLVFFSVGFGFMFGKSYMGLIGIDLFFANDLALHPNTLSYSFFFFQMVFASTAATILTGAIAERSGFIPNIAGTAFIVAIIYPIFGHWAWGNLFSPDQTGWLKELGFIDFAGATVVHSIGGWFAMAAAIMVGPRIDKYNPDGSSNRIGLHNVPLATLGTFFLWFGWFGFNGGSLLRVSVNIGLVILNTNMAAASAGVSALIFIYATRKRIEAGSLFTAILAGLVAITASSNMVTPVSAVAIGLITGILAIIAEGFIEKTLKIDDPVSAIAVHGVGGVIGTLCVAIFAQKSYLLAENGSRMHQLGIQALGVIVAFSWSFGLGMLFFLCLKKVKRLRVTPEEEKRGLNVAEAA 6eu9-a1-m1-cC_6eu9-a1-m2-cA Crystal structure of Platynereis dumerilii RAR ligand-binding domain in complex with all-trans retinoic acid A0A384E144 A0A384E144 2.69 X-RAY DIFFRACTION 30 1.0 6359 (Platynereis dumerilii) 6359 (Platynereis dumerilii) 217 227 ELTEDEEEMVEKILKAHEETFPYLTDDDKYRLTQILWERVSELSTKAIANVVDFGKQVPVFTQLSTNDQITLLKAACLEIIILRLASRYDDKEDTMSFSNGLTLTQQQLEVGGFGTLTPTIFKFARSLVELSVDTAEYAMLSLICLISGDRSGLEHPEKVEQKQEPILETLKHYVRKRRPDSPHSFAKLLLKLTDLRSLSVKGAERVLQPPLILEML ELTEDEEEMVEKILKAHEETFPYLTDDDKYRLTQILWERVSELSTKAIANVVDFGKQVPVFTQLSTNDQITLLKAACLEIIILRLASRYDDKEDTMSFSNGLTLTQQQLEVGGFGTLTPTIFKFARSLVELSVDTAEYAMLSLICLISGDRSGLEHPEKVEQKQEPILETLKHYVRKRRPDSPHSFAKLLLKLTDLRSLSVKGAERVLQLRMEMPGELPPLILEMLD 6eu9-a2-m1-cB_6eu9-a2-m3-cD Crystal structure of Platynereis dumerilii RAR ligand-binding domain in complex with all-trans retinoic acid A0A384E144 A0A384E144 2.69 X-RAY DIFFRACTION 103 1.0 6359 (Platynereis dumerilii) 6359 (Platynereis dumerilii) 227 227 ELTEDEEEMVEKILKAHEETFPYLTDDDKYRLTQILWERVSELSTKAIANVVDFGKQVPVFTQLSTNDQITLLKAACLEIIILRLASRYDDKEDTMSFSNGLTLTQQQLEVGGFGTLTPTIFKFARSLVELSVDTAEYAMLSLICLISGDRSGLEHPEKVEQKQEPILETLKHYVRKRRPDSPHSFAKLLLKLTDLRSLSVKGAERVLQLRMEMPGELPPLILEMLD ELTEDEEEMVEKILKAHEETFPYLTDDDKYRLTQILWERVSELSTKAIANVVDFGKQVPVFTQLSTNDQITLLKAACLEIIILRLASRYDDKEDTMSFSNGLTLTQQQLEVGGFGTLTPTIFKFARSLVELSVDTAEYAMLSLICLISGDRSGLEHPEKVEQKQEPILETLKHYVRKRRPDSPHSFAKLLLKLTDLRSLSVKGAERVLQLRMEMPGELPPLILEMLD 6eua-a1-m1-cB_6eua-a1-m1-cA The fibrinogen-like domain of human Angptl3 Q9Y5C1 Q9Y5C1 2.095 X-RAY DIFFRACTION 35 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 201 202 6eua-a1-m1-cC_6eua-a1-m1-cA 6eua-a1-m1-cC_6eua-a1-m1-cB MIPAECTTIYNRGEHTSGMYAIRPSNSQVFHVYCDVISGSPWTLIQHRIDGSQNFNETWENYKYGFGRLDGEFWLGLEKIYSIVKQSNYVLRIELEDWKDNKHYIEYSFYLGNHETNYTLHLVAITGNVPNAIPENKDLVFSTWDHKAHFNCPEGYSGGWWWHDECGENNLNGKYNRGLSWKSQNGRLYSIKSTKMLIHPT MIPAECTTIYNRGEHTSGMYAIRPSNSQVFHVYCDVISGSPWTLIQHRIDGSQNFNETWENYKYGFGRLDGEFWLGLEKIYSIVKQSNYVLRIELEDWKDNKHYIEYSFYLGNHETNYTLHLVAITGNVPNAIPENKDLVFSTWDHKAFNCPEGYSGGWWWHDECGENNLNGKYNKRGLSWKSQNGRLYSIKSTKMLIHPTD 6eun-a1-m1-cB_6eun-a1-m1-cC Crystal structure of Neisseria meningitidis vaccine antigen NadA variant 3 P0DV44 P0DV44 2.45 X-RAY DIFFRACTION 114 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 145 145 6eun-a1-m1-cB_6eun-a1-m1-cA 6eun-a1-m1-cC_6eun-a1-m1-cA 6eup-a1-m1-cA_6eup-a1-m1-cB 6eup-a1-m1-cA_6eup-a1-m1-cC 6eup-a1-m1-cB_6eup-a1-m1-cC DDVKKAATVAIAAAYNNGQEINGFKAGETIYDIDEDGTITKKDATAADVEADDFKGLGLKKVVTNLTKTVNENKQNVDAKVKAAESEIEKLTTKLADTDAALADTDAALDATTNALNKLGENITTFAEETKTNIVKIDEKLEAAS DDVKKAATVAIAAAYNNGQEINGFKAGETIYDIDEDGTITKKDATAADVEADDFKGLGLKKVVTNLTKTVNENKQNVDAKVKAAESEIEKLTTKLADTDAALADTDAALDATTNALNKLGENITTFAEETKTNIVKIDEKLEAAS 6eus-a2-m1-cE_6eus-a2-m1-cF Crystal structure of the outer membrane channel DcaP of Acinetobacter baumannii A0A0B9X9I7 A0A0B9X9I7 2.2 X-RAY DIFFRACTION 136 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 342 342 6eus-a1-m1-cA_6eus-a1-m1-cB 6eus-a1-m1-cA_6eus-a1-m1-cC 6eus-a1-m1-cB_6eus-a1-m1-cC 6eus-a2-m1-cD_6eus-a2-m1-cE 6eus-a2-m1-cD_6eus-a2-m1-cF LAGFKSKAGADVNLYGFVRGDANYIIEGADNDFGDVSKSDGKTHDKLRATAKTTRLGLDFNTPVGDDKVGGKIEVDFAGSTTDSNGSLRIRHAYLTYNNWLFGQTTSNFLSNHAPEIDFSTNIGGGTKRVPQVRYNYKLGPTTQLFVSAEKGDSTTSVTGDSIKYSLPALTAKITQGYAEGRGSASARVLVENYKSQLADDDKTGWGVAVGTDFKVSDPKFADASYVVGDNSYLYGSNSPYAVDGNSIEQNEFVAVQVGGTYKILPNLRSTLAYGAQFSDDGTDYARLNASANEKVQQAWINFIYTPVKPIDLGVEYVNGKRDTFDGKSYKDNRVGLAKYSF LAGFKSKAGADVNLYGFVRGDANYIIEGADNDFGDVSKSDGKTHDKLRATAKTTRLGLDFNTPVGDDKVGGKIEVDFAGSTTDSNGSLRIRHAYLTYNNWLFGQTTSNFLSNHAPEIDFSTNIGGGTKRVPQVRYNYKLGPTTQLFVSAEKGDSTTSVTGDSIKYSLPALTAKITQGYAEGRGSASARVLVENYKSQLADDDKTGWGVAVGTDFKVSDPKFADASYVVGDNSYLYGSNSPYAVDGNSIEQNEFVAVQVGGTYKILPNLRSTLAYGAQFSDDGTDYARLNASANEKVQQAWINFIYTPVKPIDLGVEYVNGKRDTFDGKSYKDNRVGLAKYSF 6evs-a1-m2-cB_6evs-a1-m3-cB Characterization of 2-deoxyribosyltransferase from psychrotolerant bacterium Bacillus psychrosaccharolyticus: a suitable biocatalyst for the industrial synthesis of antiviral and antitumoral nucleosides A0A3G5BRZ6 A0A3G5BRZ6 1.9 X-RAY DIFFRACTION 21 1.0 1407 (Peribacillus psychrosaccharolyticus) 1407 (Peribacillus psychrosaccharolyticus) 137 137 6evs-a1-m1-cA_6evs-a1-m2-cA 6evs-a1-m1-cA_6evs-a1-m3-cA 6evs-a1-m1-cB_6evs-a1-m2-cB 6evs-a1-m1-cB_6evs-a1-m3-cB 6evs-a1-m2-cA_6evs-a1-m3-cA AKIYLASPFFNEEQLKHVSKAEQVLRDLGHTVFSPRENQLPEVEFGSFEWRTFVFKNDLEHIKWADITFGIIGDNYDDTGTAWELGASYILGKPVMLFSPTGEIINLMITDSLHAYFEDWNDVENYDFATLPIKPYL AKIYLASPFFNEEQLKHVSKAEQVLRDLGHTVFSPRENQLPEVEFGSFEWRTFVFKNDLEHIKWADITFGIIGDNYDDTGTAWELGASYILGKPVMLFSPTGEIINLMITDSLHAYFEDWNDVENYDFATLPIKPYL 6evs-a1-m3-cA_6evs-a1-m3-cB Characterization of 2-deoxyribosyltransferase from psychrotolerant bacterium Bacillus psychrosaccharolyticus: a suitable biocatalyst for the industrial synthesis of antiviral and antitumoral nucleosides A0A3G5BRZ6 A0A3G5BRZ6 1.9 X-RAY DIFFRACTION 82 1.0 1407 (Peribacillus psychrosaccharolyticus) 1407 (Peribacillus psychrosaccharolyticus) 137 137 6evs-a1-m1-cA_6evs-a1-m1-cB 6evs-a1-m2-cA_6evs-a1-m2-cB AKIYLASPFFNEEQLKHVSKAEQVLRDLGHTVFSPRENQLPEVEFGSFEWRTFVFKNDLEHIKWADITFGIIGDNYDDTGTAWELGASYILGKPVMLFSPTGEIINLMITDSLHAYFEDWNDVENYDFATLPIKPYL AKIYLASPFFNEEQLKHVSKAEQVLRDLGHTVFSPRENQLPEVEFGSFEWRTFVFKNDLEHIKWADITFGIIGDNYDDTGTAWELGASYILGKPVMLFSPTGEIINLMITDSLHAYFEDWNDVENYDFATLPIKPYL 6ewm-a1-m1-cA_6ewm-a1-m1-cF Crystal structure of heme free PORPHYROMONAS GINGIVALIS HEME-BINDING PROTEIN HMUY A2I2W2 A2I2W2 1.4 X-RAY DIFFRACTION 76 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 183 183 PEAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK PEAVTKTVTIDASKYETWQYFSFSKGEVVNVTDYKNDLNWDMALHRYDVRLNCGESGKGKGGAVFSGKTEMDQATTVPTDGYTVDVLGRITVKYEMGPDGHQMEYEEQGFSEVITGKKNAQGFASGGWLEFSHGPAGPTYKLSKRVFFVRGADGNIAKVQFTDYQDAELKKGVITFTYTYPVK 6ewq-a1-m1-cB_6ewq-a1-m1-cA Putative sugar aminotransferase Spr1654 from Streptococcus pneumoniae, PLP-form A0A0H2URM1 A0A0H2URM1 2.2 X-RAY DIFFRACTION 157 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 392 401 6ewj-a1-m1-cB_6ewj-a1-m1-cA 6ewj-a2-m1-cC_6ewj-a2-m1-cD 6ewq-a2-m1-cD_6ewq-a2-m1-cC 6ewr-a1-m1-cB_6ewr-a1-m1-cA 6ewr-a2-m1-cD_6ewr-a2-m1-cC YNIPFSPPDITEAEITEVVDTLRSGWITTGPKTKELERRLSLYTQTPKTVCLNSATAALELILRVLEVGPGDEVIVPAMTYTASCSVITHVGATPVMVDIQADTFEMDYDLLEQAITEKTKVIIPVELAGIVCDYDRLFQVVEKKRDFFTASSKWQKAFNRIVIVSDSAHALGSTYKGQPSGSIADFTSFSFHAVKNFTTAEGGSATWKANPVIDDEEMYKEFQILSLHGQTGSWEYDIVTPAYKCNMTDIMASLGLVQLDRYPSLLQRRKDIVDRYDSGFAGSRIHPLAHKTETVESSRHLYITRVEGASLEERNLIIQELAKAGIASNVHYKPLPLLTAYKNLGFDMTNYPKAYAFFENEITLPLHTKLSDEEVDYIIETFKTVSEKVLT YNIPFSPPDITEAEITEVVDTLRSGWITTGPKTKELERRLSLYTQTPKTVCLNSATAALELILRVLEVGPGDEVIVPAMTYTASCSVITHVGATPVMVDIQADTFEMDYDLLEQAITEKTKVIIPVELAGIVCDYDRLFQVVEKKRDFFTASSKWQKAFNRIVIVSDSAHALGSTYKGQPSGSIADFTSFSFHAVKNFTTAEGGSATWKANPVIDDEEMYKEFQILSLHGQTKDALAKMQLGSWEYDIVTPAYKCNMTDIMASLGLVQLDRYPSLLQRRKDIVDRYDSGFAGSRIHPLAHKTETVESSRHLYITRVEGASLEERNLIIQELAKAGIASNVHYKPLPLLTAYKNLGFDMTNYPKAYAFFENEITLPLHTKLSDEEVDYIIETFKTVSEKVLT 6ewx-a1-m1-cA_6ewx-a1-m2-cA Structure of Pragmin pseudo-kinase reveals a dimerization mechanism to regulate protein tyrosine phosphorylation and nuclear transcription D3ZMK9 D3ZMK9 2.771 X-RAY DIFFRACTION 22 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 359 359 LLSSISSKEGTYAKLGGLYTQSLARLVTKCEDLFMGELRFDENSWSLFKLICPCCDSGDAIYYGATCSKDPDSIYAVKICKTPVPVHFNIQQDCGHFVASVPSSMLQEQDCVVVITREVPHQTASDFVRDSVASHRAEPEVYERRVCFLLLQLCNGLEHLKEHGIIHRDLCLENLLLVHCNPHLPRLIISNFLKAKQKQARLAPEIVSASQYRKFDEFQTGILIYELLHQPNPFERREDLPPLPTLSLYSPGLQQLAHLLLEADPIKRIRIGEAKRVLQCLLWGPRRELVEQPCPSEEVLCNTLHNWIDMKRALMMMKFAEKAVERRRGVELEDWLCCQYLASAEPGALLQSLKLLQLL LLSSISSKEGTYAKLGGLYTQSLARLVTKCEDLFMGELRFDENSWSLFKLICPCCDSGDAIYYGATCSKDPDSIYAVKICKTPVPVHFNIQQDCGHFVASVPSSMLQEQDCVVVITREVPHQTASDFVRDSVASHRAEPEVYERRVCFLLLQLCNGLEHLKEHGIIHRDLCLENLLLVHCNPHLPRLIISNFLKAKQKQARLAPEIVSASQYRKFDEFQTGILIYELLHQPNPFERREDLPPLPTLSLYSPGLQQLAHLLLEADPIKRIRIGEAKRVLQCLLWGPRRELVEQPCPSEEVLCNTLHNWIDMKRALMMMKFAEKAVERRRGVELEDWLCCQYLASAEPGALLQSLKLLQLL 6exa-a1-m1-cA_6exa-a1-m1-cB Crystal structure of DotM cytoplasmic domain (residues 153-380), double mutant R196E/R197E Q5ZYC7 Q5ZYC7 1.79 X-RAY DIFFRACTION 45 0.995 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 217 224 5x1u-a1-m1-cA_5x1u-a1-m1-cB 6exb-a1-m1-cA_6exb-a1-m1-cB 6exd-a1-m1-cA_6exd-a1-m2-cB 6exe-a1-m1-cA_6exe-a1-m1-cB WAMALTPMEFARKYNLLRKDDPVPGEEMTAGIEEGDAKRVFTMQLGPYWDGFERCSPQAYALSAVFMARMNRDRDAANNILKVLDKTFVDGKPDFSVARPVMKKYQNSELVQEVVAKHAYVLTVIASLLEAAREDGVVPSSEFLWLKPVDRRLWYMLNCVGRQTPYSEVAGPFAHWKAEKEMGRRSLVPMIDEAIRALEIAVKEVRLTPRQMEELEP KGPWAMALTPMEFARKYNLLRKDDALLDNPVPGEEMTAGIEEGDAKRVFTMQLGPYWDGFERCSPQAYALSAVFMARMNRDRDAANNILKVLDKTFVDGKPDFSVARPVMKKYQNSELVQEVVAKHAYVLTVIASLLEAAREDGVVPSSEFLWLKPVDRRLWYMLNCVGRQTPYSEVAGPFAHWKAEKEMGRRSLVPMIDEAIRALEIAVKEVRLTPRQMEELE 6exc-a1-m1-cB_6exc-a1-m1-cA Crystal structure of DotM cytoplasmic domain (residues 153-380),R314E/R315E Q5ZYC7 Q5ZYC7 2.16 X-RAY DIFFRACTION 26 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 207 219 PWAMALTPMEFARKYNLLRKDTAGIRRGDAKRVFTMQLGPYWDGFERCSPQAYALSAVFMARMNRDRDAANNILKVLDKTFVDGKPDFSVARPVMKKYQNSELVQEVVAKHAYVLTVIASLLEAAREDGVVPSSEFLWLKPVDEELWYMLNCVGRQTPYSEVAGPFAHWKAEKEMGRRSLVPMIDEAIRALEIAVKEVRLTPRQMEE PWAMALTPMEFARKYNLLRKDDAPVPGEEMTAGIRRGDAKRVFTMQLGPYWDGFERCSPQAYALSAVFMARMNRDRDAANNILKVLDKTFVDGKPDFSVARPVMKKYQNSELVQEVVAKHAYVLTVIASLLEAAREDGVVPSSEFLWLKPVDEELWYMLNCVGRQTPYSEVAGPFAHWKAEKEMGRRSLVPMIDEAIRALEIAVKEVRLTPRQMEELEP 6ey4-a1-m1-cA_6ey4-a1-m2-cA Periplasmic domain (residues 36-513) of GldM Q5EGM3 Q5EGM3 2 X-RAY DIFFRACTION 498 1.0 986 (Flavobacterium johnsoniae) 986 (Flavobacterium johnsoniae) 483 483 LYFQSFGLMNEKFEAANTSSVTTNESLLTSLDQKAAEAKGEFAKAAETAHKVQAASKEFYDYIGTLKTQAVKGFEVDKETGKMPYEAMDRGDNIDDWFTGDGYTKKGNEIIAKIEKYKSDIKAALGTDKKYAGIISEVEKKFDVSDVKNKEGIKEKYLAYHFKGFPAIASAAKLSAWQNDVKKTEADVYNSALGKAAVAAASYSNYQAIVVLDKNAYFQGEKVTGKVVLGRYDENTKPTSFQGPGQIVNGQAVISLTAGGVGEQDINGQFTFLEDGKNIPLKFSGKYVVVPRPNSATISADKMNVVYRGVVNPISVSFAGVDANKIVASAPGLSSAGKPGKYNMSPGQGTEATISVTGTLPNGDKVTDKKTFRIKGIPGPTGTIRGEMGVVKGPKSNLEIATIGAKLLDFDFEVGLDVVGFNMKIAGQPTVVVTGNKMNAQCKSVLARAGKGDQVTISEIKTKLVGAGSYLLPRTAPVIYEIQ LYFQSFGLMNEKFEAANTSSVTTNESLLTSLDQKAAEAKGEFAKAAETAHKVQAASKEFYDYIGTLKTQAVKGFEVDKETGKMPYEAMDRGDNIDDWFTGDGYTKKGNEIIAKIEKYKSDIKAALGTDKKYAGIISEVEKKFDVSDVKNKEGIKEKYLAYHFKGFPAIASAAKLSAWQNDVKKTEADVYNSALGKAAVAAASYSNYQAIVVLDKNAYFQGEKVTGKVVLGRYDENTKPTSFQGPGQIVNGQAVISLTAGGVGEQDINGQFTFLEDGKNIPLKFSGKYVVVPRPNSATISADKMNVVYRGVVNPISVSFAGVDANKIVASAPGLSSAGKPGKYNMSPGQGTEATISVTGTLPNGDKVTDKKTFRIKGIPGPTGTIRGEMGVVKGPKSNLEIATIGAKLLDFDFEVGLDVVGFNMKIAGQPTVVVTGNKMNAQCKSVLARAGKGDQVTISEIKTKLVGAGSYLLPRTAPVIYEIQ 6ey5-a1-m1-cA_6ey5-a1-m1-cB C-terminal part (residues 224-515) of PorM B2RLE8 B2RLE8 2.85 X-RAY DIFFRACTION 387 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 292 293 VNSITAQVIPQSQIVMSGDTYKANIVLSSVDTTQRPDVFVNGKLLSPENMGLFTATAGAPGTYPVKGYIEMMGNDGVKIRRDFESEYFVTEPMASVAPTMMNVLYAGIDNPINIAVPGVAQQNVSATINNGTLTRRGNLWIARPTKVGSEAIISVTAQSGGRTIQMAKTTLRVRALPDPLPYIEYKDVQGNTKRFKGGRLGKREILAAGGIKAALDDDLLEVNYTVVKFQLVFYDSMGNSIPEVSDGASFSERQKRQIQNLGKGKRFYVTEVIARGPDGIERKIPAIEVIVN RVNSITAQVIPQSQIVMSGDTYKANIVLSSVDTTQRPDVFVNGKLLSPENMGLFTATAGAPGTYPVKGYIEMMGNDGVKIRRDFESEYFVTEPMASVAPTMMNVLYAGIDNPINIAVPGVAQQNVSATINNGTLTRRGNLWIARPTKVGSEAIISVTAQSGGRTIQMAKTTLRVRALPDPLPYIEYKDVQGNTKRFKGGRLGKREILAAGGIKAALDDDLLEVNYTVVKFQLVFYDSMGNSIPEVSDGASFSERQKRQIQNLGKGKRFYVTEVIARGPDGIERKIPAIEVIVN 6eyu-a1-m1-cC_6eyu-a1-m1-cB Crystal structure of the inward H(+) pump xenorhodopsin G0QG75 G0QG75 2.5 X-RAY DIFFRACTION 41 1.0 889948 (Candidatus Nanosalina sp. J07AB43) 889948 (Candidatus Nanosalina sp. J07AB43) 229 232 6eyu-a1-m1-cA_6eyu-a1-m1-cB 6eyu-a1-m1-cC_6eyu-a1-m1-cA MVYEAITAGGFGSQPFILAYIITAMISGLLFLYLPRKLDVPQKFGIIHFFIVVWSGLMYTNFLNQSFLSDYAWYMDWMVSTPLILLALGLTAFHGADTKRYDLLGALLGAEFTLVITGLLAQAQGSITPYYVGVLLLLGVVYLLAKPFREIAEESSDGLARAYKILAGYIGIFFLSYPTVWYISGIDALPGSLNILDPTQTSIALVVLPFFCKQVYGFLDMYLIHKAEL MVYEAITAGGFGSQPFILAYIITAMISGLLFLYLPRKLDVPQKFGIIHFFIVVWSGLMYTNFLNQSFLSDYAWYMDWMVSTPLILLALGLTAFHGADTKRYDLLGALLGAEFTLVITGLLAQAQGSITPYYVGVLLLLGVVYLLAKPFREIAEESSDGLARAYKILAGYIGIFFLSYPTVWYISGIDALPGSLNILDPTQTSIALVVLPFFCKQVYGFLDMYLIHKAELEHH 6eyx-a1-m1-cB_6eyx-a1-m1-cA Anti-CRISPR AcrIIa6 tetragonal form Q9XJC1 Q9XJC1 1.96 X-RAY DIFFRACTION 105 1.0 90410 (Moineauvirus DT1) 90410 (Moineauvirus DT1) 177 183 6eyy-a1-m1-cA_6eyy-a1-m1-cB 6rj9-a1-m1-cA_6rj9-a1-m1-cB 6rja-a1-m1-cA_6rja-a1-m1-cB 6rjg-a1-m1-cA_6rjg-a1-m1-cB MKINDDIKELILEYMSRYFKFENDFYKLPGIKFTDANWQKFKNGGTDIEKMGAARVNAMLDCLFDDFELAMIGKAQTNYYNDNSLKMNMPFYTYYDMFKKQQLLKWLKNNRDDVIGGTGRMYTASGNYIANAYLEVALESSSLGSGSYMLQMRFKDYSPSGRQNRLEWIENNLENIR MKINDDIKELILEYMSRYFKFENDFYKLPGIKFTDANWQKFKNGGTDIEKMGAARVNAMLDCLFDDFELAMIGKAQTNYYNDNSLKMNMPFYTYYDMFKKQQLLKWLKNNRDDVIGGTGRMYTASGNYIANAYLEVALESSSLGSGSYMLQMRFKDYSKGQEPIPSGRQNRLEWIENNLENIR 6ezl-a1-m1-cA_6ezl-a1-m1-cB Crystal structure of aspartate aminotransferase from Trypanosoma cruzi at 2.07 Angstrom resolution Q4D080 Q4D080 2.07 X-RAY DIFFRACTION 198 0.995 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 392 392 RCLWNNIAALPADPIFSASLVAKKAPEPKADLIIGAYRDAEGHPYPLNVVRKAEQRLLYLPMSGYAPFIEESLKIAYGDSVARENVVGIQGLSGTGSLSIGACFLARVLSRDTPVYISDPTWPNHYAVMAAANLTDLRKYRYYDNAKRCIDFDGLLEDLNGAPEGSIVILHACAHNPTGMDPTHEQWAKILEVFQARRLIPFFDSAYQGYATGSLDNDAYSIRLFARQGMEMLLAQSYSKNMGLYAERVGVCSIVTANPKKAPLIKSQLETIVRSQYSTPPAHGARVAYLVLSDPELRAGWEQELRVMSTRVLEMRQALYDGLKRLGTPGSWEHIIQQVGMFSYLGLTKAQCEKLIERRVFVLPSGRANMAGLTKRSVELLVKGIDEVVRTV CLWNNIAALPADPIFSASLVAKKAPEPKADLIIGAYRDAEGHPYPLNVVRKAEQRLLELPMSGYAPFIEESLKIAYGDSVARENVVGIQGLSGTGSLSIGACFLARVLSRDTPVYISDPTWPNHYAVMAAANLTDLRKYRYYDNAKRCIDFDGLLEDLNGAPEGSIVILHACAHNPTGMDPTHEQWAKILEVFQARRLIPFFDSAYQGYATGSLDNDAYSIRLFARQGMEMLLAQSYSKNMGLYAERVGVCSIVTANPKKAPLIKSQLETIVRSQYSTPPAHGARVAYLVLSDPELRAGWEQELRVMSTRVLEMRQALYDGLKRLGTPGSWEHIIQQVGMFSYLGLTKAQCEKLIERRVFVLPSGRANMAGLTKRSVELLVKGIDEVVRTVT 6ezu-a1-m1-cB_6ezu-a1-m1-cA Schistosoma mansoni Phosphodiesterase 4A 2.04 X-RAY DIFFRACTION 32 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 324 333 LPIHGVETPNDNELEERFSLCLDEWGVDIFEIDRLSNGHALTTVAYRIFQKRDLLKTFCIDPHVFVRYLLRVESTYHADVPYHNSMHAADVLQTAHFLLQAEALDDVFSDLEILAVLFAAAIHDVDHPGVTNQFLINTGHELALQYNDASVLENHHLYMAFKILTEKDCDIFANLGGKKRQTLRRMVIELVLATDMSKHMSLLADLRTMVETNLDNYADRIQILQNMIHCADLSNPAKPLRLYRKWTGRLIEEFFRQGDKERELSLEISPMCDRESVEVEKSQVSFIDFVCHPLWETWCDLVHPCAQLILDTLEDNRDWYECHI LPIHGVETPNDNELEERFSLCLDEWGVDIFEIDRLSNGHALTTVAYRIFQKRDLLKTFCIDPHVFVRYLLRVESTYHADVPYHNSMHAADVLQTAHFLLQAEALDDVFSDLEILAVLFAAAIHDVDHPGVTNQFLINTGHELALQYNDASVLENHHLYMAFKILTEKDCDIFANLGGKKRQTLRRMVIELVLATDMSKHMSLLADLRTMVETKKVSGSGMLNLDNYADRIQILQNMIHCADLSNPAKPLRLYRKWTGRLIEEFFRQGDKERELSLEISPMCDRESVEVEKSQVSFIDFVCHPLWETWCDLVHPCAQLILDTLEDNRDWYECHI 6ezx-a1-m1-cB_6ezx-a1-m1-cA CATHEPSIN L IN COMPLEX WITH (3S,14E)-19-chloro-N-(1-cyanocyclopropyl)-5-oxo-17-oxa-4-azatricyclo[16.2.2.06,11]docosa-1(21),6,8,10,14,18(22),19-heptaene-3-carboxamide P07711 P07711 2.34 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 217 APRSVDWREKGYVTPVKNQGQCGSCWAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLVVGYGFENNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV APRSVDWREKGYVTPVKNQGQCGSCWAFSATGALEGQMFRKTGRLISLSEQNLVDCSGPQGNEGCNGGLMDYAFQYVQDNGGLDSEESYPYEATEESCKYNPKYSVANDTGFVDIPKQEKALMKAVATVGPISVAIDAGHESFLFYKEGIYFEPDCSSEDMDHGVLVVGYGFESDNNKYWLVKNSWGEEWGMGGYVKMAKDRRNHCGIASAASYPTV 6f03-a2-m1-cC_6f03-a2-m1-cD The crystal structure of secreted antigen BPSL2520 Q63S01 Q63S01 2.2 X-RAY DIFFRACTION 212 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 155 156 6f03-a1-m1-cA_6f03-a1-m1-cB PIDADKKAAIKDLLDAIDAPKLVSAIANSAEQSKQLVPAILSDALSENKTLNDKQKQAAVPTLQKNAVPKLVDGAGKVFGTQQFTNDAQAQYDAYAKYYSTSEIKDLTTFYKSPTGRKFIQVQDQVGRDVVNGLQKYPQAIKATRDQADKEVAAV PIDADKKAAIKDLLDAIDAPKLVSAIANSAEQSKQLVPAILSDALSENKTLNDKQKQAAVPTLQKNAVPKLVDGAGKVFGTQQFTNDAQAQYDAYAKYYSTSEIKDLTTFYKSPTGRKFIQVQDQVGRDVVNGLQKYPQAIKATRDQADKEVAAVK 6f04-a1-m1-cA_6f04-a1-m2-cA N-acetylglucosamine-2-epimerase A0A452CSU8 A0A452CSU8 1.699 X-RAY DIFFRACTION 75 1.0 457941 (Nostoc sp. KVJ10) 457941 (Nostoc sp. KVJ10) 382 382 YNFQALAELYKNALLNDVLSFWEKYSLDWQQGGYFTCLDREGKIYDTDKFIWLQNRQVWTFSMLYNQLEKRENWLKIASNGANFLAQHGRDSDGNWYFALTREGKPLVHPYNIFSDCFAAMAFSKYALAGGEEWAKDVAMQAYNNVLRRKDNPKGTRPMKSLAVPMILANLTLEMEWLLPKETLENVLAETVREVMTDFLDQERGLMYENVAPDGSHIDCFEGRLINPGHGIEAMWFIMDIARRQNDTKTINQAVDVVLNILNFAWDSEYGGLYYFMDADGHPPQQLEWDQKLWWVHLESLVALAMGYRLTGREACWEWYQKMHDYAWSHFADSEYGEWFGYLNRRGEVLLNLKGGKWKGCFHVPRALYLCWQQFEAIATPL YNFQALAELYKNALLNDVLSFWEKYSLDWQQGGYFTCLDREGKIYDTDKFIWLQNRQVWTFSMLYNQLEKRENWLKIASNGANFLAQHGRDSDGNWYFALTREGKPLVHPYNIFSDCFAAMAFSKYALAGGEEWAKDVAMQAYNNVLRRKDNPKGTRPMKSLAVPMILANLTLEMEWLLPKETLENVLAETVREVMTDFLDQERGLMYENVAPDGSHIDCFEGRLINPGHGIEAMWFIMDIARRQNDTKTINQAVDVVLNILNFAWDSEYGGLYYFMDADGHPPQQLEWDQKLWWVHLESLVALAMGYRLTGREACWEWYQKMHDYAWSHFADSEYGEWFGYLNRRGEVLLNLKGGKWKGCFHVPRALYLCWQQFEAIATPL 6f05-a5-m1-cJ_6f05-a5-m1-cF ARABIDOPSIS THALIANA GSTF9, GSO3 BOUND O80852 O80852 2.2 X-RAY DIFFRACTION 83 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 193 203 6ezy-a1-m1-cA_6ezy-a1-m1-cB 6f01-a1-m1-cA_6f01-a1-m1-cB 6f05-a1-m2-cC_6f05-a1-m1-cI 6f05-a2-m1-cA_6f05-a2-m1-cB 6f05-a3-m1-cC_6f05-a3-m3-cI 6f05-a4-m1-cD_6f05-a4-m1-cE 6f05-a6-m1-cG_6f05-a6-m1-cH VLKVYGPHFASPKRALVTLIEKGVAFETIPVDLMKGEHKQPAYLALQPFGTVPAVVDGDYKIFESRAVMRYVAEKYRSQGPDLLGKTVEDRGQVEQWLDVEATTYHPPLLNLTKESEEKLAGVLDVYEAHLSKSKYLAGDFVSLADLAHLPFTDYLVGPIGKAYMIKDRKHVSAWWDDISSRPAWKETVAKYS VLKVYGPHFASPKRALVTLIEKGVAFETIPVDLMKGEHKQPAYLALQPFGTVPAVVDGDYKIFESRAVMRYVAEKYRSQGPDLLGKTVEDRGQVEQWLDVEATTYHPPLLNLTLHISDEKLIKESEEKLAGVLDVYEAHLSKSKYLAGDFVSLADLAHLPFTDYLVGPIGKAYMIKDRKHVSAWWDDISSRPAWKETVAKYSF 6f0h-a1-m3-cA_6f0h-a1-m3-cC Crystal structure ASF1-ip4 Q9Y294 Q9Y294 1.98 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 153 6f0h-a1-m1-cA_6f0h-a1-m1-cC 6f0h-a1-m1-cA_6f0h-a1-m2-cC 6f0h-a1-m2-cA_6f0h-a1-m2-cC 6f0h-a1-m2-cA_6f0h-a1-m3-cC 6f0h-a1-m3-cA_6f0h-a1-m1-cC AKVQVNNVVVLDNPSPFYNPFQFEITFECIEDLSEDLEWKIIYVGSAESEEYDQVLDSVLVGPVPAGRHMFVFQADAPNPGLIPDADAVGVTVVLITCTYRGQEFIRVGYYVNNEYTETELRENPPVKPDFSKLQRNILASNPRVTRFHINW AKVQVNNVVVLDNPSPFYNPFQFEITFECIEDLSEDLEWKIIYVGSAESEEYDQVLDSVLVGPVPAGRHMFVFQADAPNPGLIPDADAVGVTVVLITCTYRGQEFIRVGYYVNNEYTETELRENPPVKPDFSKLQRNILASNPRVTRFHINWE 6f1c-a1-m1-cC_6f1c-a1-m1-cA C1rC1s complex P00736 P00736 4.2 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 287 291 IPQKLFGEVTSPLFPKPYPNNFETTTVITVPTGYRVKLVFQQFDLEPSEGCFYDYVKISADKKSLGRFCGQLGSPLGNPPGKKEFMSQGNKMLLTFHTDFSNEENGTIMFYKGFLAYYQAVDLDECASRSKSGEEDPQPQCQHLCHNYVGGYFCSCRPGYELQEDTHSCQAECSSELYTEASGYISSLEYPRSYPPDLRCNYSIRVERGLTLHLKFLEPFDIDDHQQVHCPYDQLQIYANGKNIGEFCGKQRPPDLDTSSNAVDLLFFTDESGDSRGWKLRYTTEII SIPIPQKLFGEVTSPLFPKPYPNNFETTTVITVPTGYRVKLVFQQFDLEPSEGCFYDYVKISADKKSLGRFCGQLGSPLGNPPGKKEFMSQGNKMLLTFHTDFSNEENGTIMFYKGFLAYYQAVDLDECASRSKSGEEDPQPQCQHLCHNYVGGYFCSCRPGYELQEDTHSCQAECSSELYTEASGYISSLEYPRSYPPDLRCNYSIRVERGLTLHLKFLEPFDIDDHQQVHCPYDQLQIYANGKNIGEFCGKQRPPDLDTSSNAVDLLFFTDESGDSRGWKLRYTTEIIK 6f1e-a1-m1-cB_6f1e-a1-m1-cA Crystal structure of olive flounder [Paralichthys olivaceus] interferon gamma at 2.3 Angstrom resolution B3IXK1 B3IXK1 2.296 X-RAY DIFFRACTION 215 0.992 8255 (Paralichthys olivaceus) 8255 (Paralichthys olivaceus) 127 143 ARMNKTIQNLLQHYNISNKDRFNGKPVFPKEPRMETKMLFMGGVLETYEKLIGQMLEQLPNTSVRTDLNYILKKVQELRTNRFKEQSKLLQGLHDLGDIKMNNFIIQSKALWELQWMYEEASSLSNN HIPARMNKTIQNLLQHYNISNKDRFNGKPVFPKEPLSGRMETKMLFMGGVLETYEKLIGQMLEQLPNSVRTDLNYILKKVQELRTNRFKEQSKLLQGLHDLGDIKMNNFIIQSKALWELQWMYEEASSLSNNTKMQRRRRRRR 6f1j-a1-m1-cA_6f1j-a1-m1-cB Structure of a Talaromyces pinophilus GH62 Arabinofuranosidase in complex with AraDNJ at 1.25A resolution A0A2H5BN17 A0A2H5BN17 1.25 X-RAY DIFFRACTION 35 1.0 128442 (Talaromyces pinophilus) 128442 (Talaromyces pinophilus) 301 302 GCALPSTYKWTSTGPLASPKSGLVALRDYSHVIYNGQHLVYGSTANTAGSYGSMNFGLFSDWSEMSSASQNTMSTGAVAPTIFYFAPKSVWILAYQWGPYAFSYRTSTDPSNANGWSSPQPLFTGTISGSSTGVIDQTVIGDSENMYLFFAGDNGHIYRASMPIGDFPGSFGSASTIVLSDSTNNLFEAVEVYTVEGQNQYLMIVEAIGANGRYFRSFTASSLGGTWTAQASTESNPFAGKANSGATWTNDISSGDLVRTNPDQTQTIDACNLQFLYQGRSTSSGGDYNLLPYQPGLLTLA SGCALPSTYKWTSTGPLASPKSGLVALRDYSHVIYNGQHLVYGSTANTAGSYGSMNFGLFSDWSEMSSASQNTMSTGAVAPTIFYFAPKSVWILAYQWGPYAFSYRTSTDPSNANGWSSPQPLFTGTISGSSTGVIDQTVIGDSENMYLFFAGDNGHIYRASMPIGDFPGSFGSASTIVLSDSTNNLFEAVEVYTVEGQNQYLMIVEAIGANGRYFRSFTASSLGGTWTAQASTESNPFAGKANSGATWTNDISSGDLVRTNPDQTQTIDACNLQFLYQGRSTSSGGDYNLLPYQPGLLTLA 6f1k-a1-m12-cA_6f1k-a1-m3-cA Structure of ARTD2/PARP2 WGR domain bound to double strand DNA without 5'phosphate Q9UGN5 Q9UGN5 2.2 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 6f1k-a1-m10-cA_6f1k-a1-m2-cA 6f1k-a1-m1-cA_6f1k-a1-m11-cA KAPVDPECTAKVGKAHVYCEGNDVYDVMLNQTNLQFNNNKYYLIQLLEDDAQRNFSVWMRWGRVGKMGQHSLVACSGNLNKAKEIFQKKFLDKTKNNWEDREKFEKVPGKYDMLQMDYA KAPVDPECTAKVGKAHVYCEGNDVYDVMLNQTNLQFNNNKYYLIQLLEDDAQRNFSVWMRWGRVGKMGQHSLVACSGNLNKAKEIFQKKFLDKTKNNWEDREKFEKVPGKYDMLQMDYA 6f1t-a1-m1-ce_6f1t-a1-m1-cf Cryo-EM structure of two dynein tail domains bound to dynactin and BICDR1 Q14204 Q14204 3.5 ELECTRON MICROSCOPY 191 0.999 9606 (Homo sapiens) 9606 (Homo sapiens) 926 929 5owo-a1-m1-cB_5owo-a1-m1-cC 6f38-a1-m1-ce_6f38-a1-m1-cf 6f3a-a1-m1-ce_6f3a-a1-m1-cf VQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLEESYSAVMGIVSEVEQYVKV AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXLEESYSAVMGIVSEVEQYVKV 6f1t-a1-m1-co_6f1t-a1-m1-cp Cryo-EM structure of two dynein tail domains bound to dynactin and BICDR1 Q13409 Q13409 3.5 ELECTRON MICROSCOPY 17 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 397 401 6f38-a1-m1-co_6f38-a1-m1-cp 6f3a-a1-m1-cg_6f3a-a1-m1-ch 7z8f-a1-m1-co_7z8f-a1-m1-cp LTEEEKQQILHSEEFLSFFDHSTRIVERALSEQINIKLSLNRQFFDERWSKHRVVSCLDWSSQYPELLVASYNNNEDAPHEPDGVALVWNMKYKKTTPEYVFHCQSAVMSATFAKFHPNLVVGGTYSGQIVLWDNRSNKRTPVQRTPLSAAAHTHPVYCVNVVGTQNAHNLISISTDGKICSWSLDMLSHPQDSMELVHKQSKAVAVTSMSFPVGDVNNFVVGSEEGSVYTACRHGSKAGISEMFEGHQGPITGIHCHAAVGAVDFSHLFVTSSFDWTVKLWSTKNNKPLYSFEDNAGYVYDVMWSPTHPALFACVDGMGRLDLWNLNNDTEVPTASISVEGNPALNRVRWTHSGREIAVGDSEGQIVIYDVGEQIAVPRNDEWARFGRTLAEINAN LTEEEKQQILHSEEFLSFFDHSTRIVERALSEQINIFFDYSGRKLSLNRQFFDERWSKHRVVSCLDWSSQYPELLVASYNNNEDAPHEPDGVALVWNMKYKKTTPEYVFHCQSAVMSATFAKFHPNLVVGGTYSGQIVLWDNRSNKRTPVQRTPLSAAAHTHPVYCVNVVGTQNAHNLISISTDGKICSWSLDMLSHPQDSMELVHKQSKAVAVTSMSFPVGDVNNFVVGSEEGSVYTACRHGSKAGISEMFEGHQGPITGIHCHAAVGAVDFSHLFVTSSFDWTVKLWSTKNNKPLYSFEDNAGYVYDVMWSPTHPALFACVDGMGRLDLWNLNNDTEVPTASISVEGNPALNRVRWTHSGREIAVGDSEGQIVIYDVGEQIAVPRNDEWARFGRTLAEI 6f2r-a1-m1-cD_6f2r-a1-m1-cC A heterotetramer of human HspB2 and HspB3 Q16082 Q16082 3.9 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 121 6f2r-a2-m1-cF_6f2r-a2-m1-cG 6f2r-a3-m1-cJ_6f2r-a3-m1-cK SEGKFQAFLDVSHFTPDEVTVRTVDNLLEVSARHPQRLDRHGFVSREFCRTYVLPADVDPWRVRAALSHDGILNLEAPRG XXXXXXXXXXXXXXXXXXXXXELRLSEGKFQAFLDVSHFTPDEVTVRTVDNLLEVSARHPQRLDRHGFVSREFCRTYVLPADVDPWRVRAALSHDGILNLEAPRGGRHLDTEVNEVYISLL 6f35-a1-m1-cA_6f35-a1-m1-cB Crystal structure of the aspartate aminotranferase from Rhizobium meliloti P58350 P58350 1.9 X-RAY DIFFRACTION 202 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 400 400 GFQPASRISSIGVSEILKIGARAAAMKREGKPVIILGAGEPDFDTPEHVKQAASDAIHRGETKYTALDGTPELKKAIREKFQRENGLAYELDEITVATGAKQILFNAMMASLDPGDEVIIPTPYWTSYSDIVHICEGKPVLIACDASSGFRLTAEKLEAAITPRTRWVLLNSPSNPSGAAYSAADYRPLLEVLLRHPHVWLLVDDMYEHIVYDGFRFVTPAQLEPGLKNRTLTVNGVSKAYAMTGWRIGYAGGPRELIKAMAVVQSQATSCPSSISQAASVVALNGPQDFLKERTESFQRRRDLVVNGLNAIDGLDCRVPEGAFYTFSGCAGVLGKVTPSGKRIKTDTDFCAYLLEDAHVAVVPGSAFGLSPFFRISYATSEAELKEALERIAAACDRLS GFQPASRISSIGVSEILKIGARAAAMKREGKPVIILGAGEPDFDTPEHVKQAASDAIHRGETKYTALDGTPELKKAIREKFQRENGLAYELDEITVATGAKQILFNAMMASLDPGDEVIIPTPYWTSYSDIVHICEGKPVLIACDASSGFRLTAEKLEAAITPRTRWVLLNSPSNPSGAAYSAADYRPLLEVLLRHPHVWLLVDDMYEHIVYDGFRFVTPAQLEPGLKNRTLTVNGVSKAYAMTGWRIGYAGGPRELIKAMAVVQSQATSCPSSISQAASVVALNGPQDFLKERTESFQRRRDLVVNGLNAIDGLDCRVPEGAFYTFSGCAGVLGKVTPSGKRIKTDTDFCAYLLEDAHVAVVPGSAFGLSPFFRISYATSEAELKEALERIAAACDRLS 6f38-a1-m1-cg_6f38-a1-m1-ch Cryo-EM structure of two dynein tail domains bound to dynactin and HOOK3 Q13409 Q13409 6.7 ELECTRON MICROSCOPY 74 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 397 400 6f1t-a1-m1-cg_6f1t-a1-m1-ch 7z8f-a1-m1-cg_7z8f-a1-m1-ch LTEEEKQQILHSEEFLSFFDHSTRIVERALSEQINIKLSLNRQFFDERWSKHRVVSCLDWSSQYPELLVASYNNNEDAPHEPDGVALVWNMKYKKTTPEYVFHCQSAVMSATFAKFHPNLVVGGTYSGQIVLWDNRSNKRTPVQRTPLSAAAHTHPVYCVNVVGTQNAHNLISISTDGKICSWSLDMLSHPQDSMELVHKQSKAVAVTSMSFPVGDVNNFVVGSEEGSVYTACRHGSKAGISEMFEGHQGPITGIHCHAAVGAVDFSHLFVTSSFDWTVKLWSTKNNKPLYSFEDNAGYVYDVMWSPTHPALFACVDGMGRLDLWNLNNDTEVPTASISVEGNPALNRVRWTHSGREIAVGDSEGQIVIYDVGEQIAVPRNDEWARFGRTLAEINAN LTEEKQQILHSEEFLSFFDHSTRIVERALSEQINIFFDYSGRKLSLNRQFFDERWSKHRVVSCLDWSSQYPELLVASYNNNEDAPHEPDGVALVWNMKYKKTTPEYVFHCQSAVMSATFAKFHPNLVVGGTYSGQIVLWDNRSNKRTPVQRTPLSAAAHTHPVYCVNVVGTQNAHNLISISTDGKICSWSLDMLSHPQDSMELVHKQSKAVAVTSMSFPVGDVNNFVVGSEEGSVYTACRHGSKAGISEMFEGHQGPITGIHCHAAVGAVDFSHLFVTSSFDWTVKLWSTKNNKPLYSFEDNAGYVYDVMWSPTHPALFACVDGMGRLDLWNLNNDTEVPTASISVEGNPALNRVRWTHSGREIAVGDSEGQIVIYDVGEQIAVPRNDEWARFGRTLAEI 6f38-a1-m1-ck_6f38-a1-m1-cl Cryo-EM structure of two dynein tail domains bound to dynactin and HOOK3 Q9NP97 Q9NP97 6.7 ELECTRON MICROSCOPY 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 EVEETLKRLQSQKGVQGIIVVNTEGIPIKSTMDNPTTTQYASLMHSFILKARSTVRDIDPQNDLTFLRIRSKKNEIMVAPDKDYFLIVIQNPT EVEETLKRLQSQKGVQGIIVVNTEGIPIKSTMDNPTTTQYASLMHSFILKARSTVRDIDPQNDLTFLRIRSKKNEIMVAPDKDYFLIVIQNPT 6f38-a1-m1-cm_6f38-a1-m1-cf Cryo-EM structure of two dynein tail domains bound to dynactin and HOOK3 Q14204 Q14204 6.7 ELECTRON MICROSCOPY 36 0.999 9606 (Homo sapiens) 9606 (Homo sapiens) 926 929 6f1t-a1-m1-cm_6f1t-a1-m1-cf VQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKV AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKV 6f39-a1-m1-cA_6f39-a1-m1-cB C1r homodimer CUB1-EGF-CUB2 P00736 P00736 5.801 X-RAY DIFFRACTION 36 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 275 280 PQKLFGEVTSPLFPKPYPNNFETTTVITVPTGYRVKLVFFDLEPSEGCFYDYVKISKSLGRFCGQLGSPLGNPPGKKEFMSQGNKMLLTFHTDFSNEENGTIYKGFLAYYQDLDECASRSKSGEEDPQPQCQHLCHNYVGGYFCSCRPGYELQEDTHSCQECSSELYTEASGYISSLEYPRSYPPDLRCNYSIRVERGLTLHLKFLEPFDIDDHQQVHCPYDQLQIYANGKNIGEFCGKQRPPDLDTSSNAVDLLFFTDESGDSRGWKLRYTTEI PQKLFGEVTSPLFPKPYPNNFETTTVITVPTGYRVKLVFFDLEPSEGCFYDYVKISADKKSLGRFCGQLGSPLGNPPGKKEFMSQGNKMLLTFHTDFSNEENGTIMYKGFLAYYQAVDLDECASRSKSGEEDPQPQCQHLCHNYVGGYFCSCRPGYELQEDTHSCQECSSELYTEASGYISSLEYPRSYPPDLRCNYSIRVERGLTLHLKFLEPFDIDDHQQVHCPYDQLQIYANGKNIGEFCGKQRPPDLDTSSNAVDLLFFTDESGDSRGWKLRYTTE 6f45-a1-m1-cA_6f45-a1-m1-cC Crystal structure of the gp37-gp38 adhesin tip complex of the bacteriophage S16 long tail fiber M1EAS5 M1EAS5 1.70356 X-RAY DIFFRACTION 147 1.0 1087482 (Salmonella phage vB_SenM-S16) 1087482 (Salmonella phage vB_SenM-S16) 68 69 6f45-a1-m1-cA_6f45-a1-m1-cB 6f45-a1-m1-cC_6f45-a1-m1-cB SASIAIGDNDTGLRWGGDGIVQIVANNAIVGGWNSTDIFTEAGKHITSNGNLNQWGGGAIYCRDLNVS GSASIAIGDNDTGLRWGGDGIVQIVANNAIVGGWNSTDIFTEAGKHITSNGNLNQWGGGAIYCRDLNVS 6f56-a1-m1-cA_6f56-a1-m1-cD Mutant of Human N-myristoyltransferase with bound myristoyl-CoA P30419 P30419 1.9402 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 382 382 RSYQFWDTQPVPKLGEVVNTHGPVEPDKDNIRQEPYTLPQGFTWDALDLGDRGVLKELYTLLNENYVEDDDNMFRFDYSPEFLLWALRPPGWLPQWHCGVRVVSSRKLVGFISAIPANIHIYDTEKKMVEINFLCVHKKLRSKRVAPVLIREITRRVHLEGIFQAVYTAGVVLPKPVGTCQYFHRSLNPRKLIEVKFSHLSRNMTMQRTMKLYRLPETPKTAGLRPMETKDIPVVHQLLTRYLKQFHLTPVMSQEEVEHWFYPQENIIDTFVVENANGEVTDFLSFYTLPSTIMNHPTHKSLKAAYSFYNVHTQTPLLDLMSDALVLAKMKGFDVFNMVDLMENKTFVEKLKFGIGDGHLQYYLYNWKCPSMGAEKVGLVML RSYQFWDTQPVPKLGEVVNTHGPVEPDKDNIRQEPYTLPQGFTWDALDLGDRGVLKELYTLLNENYVEDDDNMFRFDYSPEFLLWALRPPGWLPQWHCGVRVVSSRKLVGFISAIPANIHIYDTEKKMVEINFLCVHKKLRSKRVAPVLIREITRRVHLEGIFQAVYTAGVVLPKPVGTCQYFHRSLNPRKLIEVKFSHLSRNMTMQRTMKLYRLPETPKTAGLRPMETKDIPVVHQLLTRYLKQFHLTPVMSQEEVEHWFYPQENIIDTFVVENANGEVTDFLSFYTLPSTIMNHPTHKSLKAAYSFYNVHTQTPLLDLMSDALVLAKMKGFDVFNMVDLMENKTFVEKLKFGIGDGHLQYYLYNWKCPSMGAEKVGLVML 6f56-a1-m1-cC_6f56-a1-m1-cD Mutant of Human N-myristoyltransferase with bound myristoyl-CoA P30419 P30419 1.9402 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 382 382 6f56-a1-m1-cA_6f56-a1-m1-cB 6pav-a1-m1-cA_6pav-a1-m1-cB RSYQFWDTQPVPKLGEVVNTHGPVEPDKDNIRQEPYTLPQGFTWDALDLGDRGVLKELYTLLNENYVEDDDNMFRFDYSPEFLLWALRPPGWLPQWHCGVRVVSSRKLVGFISAIPANIHIYDTEKKMVEINFLCVHKKLRSKRVAPVLIREITRRVHLEGIFQAVYTAGVVLPKPVGTCQYFHRSLNPRKLIEVKFSHLSRNMTMQRTMKLYRLPETPKTAGLRPMETKDIPVVHQLLTRYLKQFHLTPVMSQEEVEHWFYPQENIIDTFVVENANGEVTDFLSFYTLPSTIMNHPTHKSLKAAYSFYNVHTQTPLLDLMSDALVLAKMKGFDVFNMVDLMENKTFVEKLKFGIGDGHLQYYLYNWKCPSMGAEKVGLVML RSYQFWDTQPVPKLGEVVNTHGPVEPDKDNIRQEPYTLPQGFTWDALDLGDRGVLKELYTLLNENYVEDDDNMFRFDYSPEFLLWALRPPGWLPQWHCGVRVVSSRKLVGFISAIPANIHIYDTEKKMVEINFLCVHKKLRSKRVAPVLIREITRRVHLEGIFQAVYTAGVVLPKPVGTCQYFHRSLNPRKLIEVKFSHLSRNMTMQRTMKLYRLPETPKTAGLRPMETKDIPVVHQLLTRYLKQFHLTPVMSQEEVEHWFYPQENIIDTFVVENANGEVTDFLSFYTLPSTIMNHPTHKSLKAAYSFYNVHTQTPLLDLMSDALVLAKMKGFDVFNMVDLMENKTFVEKLKFGIGDGHLQYYLYNWKCPSMGAEKVGLVML 6f58-a1-m1-cB_6f58-a1-m1-cA Crystal structure of human Brachyury (T) in complex with DNA O15178 O15178 2.253 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 175 180 GELRVGLEESELWLRFKELTNEMIVTKNGRRMFPVLKVNVSGLDPNAMYSFLLDFVAADNHRWKYVNGEWVPGAPSCVYIHPDSPNFGAHWMKAPVSFSKVKLTNKLNGGGQIMLNSLHKYEPRIHIVRVGGPQRMITSHCFPETQFIAVTAYQNEEITALKIKYNPFAKAFLDA GELRVGLEESELWLRFKELTNEMIVTKNGRRMFPVLKVNVSGLDPNAMYSFLLDFVAADNHRWKYVNGEWVPGAPSCVYIHPDSPNFGAHWMKAPVSFSKVKLTNKLNGGGQIMLNSLHKYEPRIHIVRVGGPQRMITSHCFPETQFIAVTAYQNEEITALKIKYNPFAKAFLDAKERSH 6f5n-a1-m1-cA_6f5n-a1-m1-cB Nickel-Bound Crystal Structure of a GB1 Variant 2.2 X-RAY DIFFRACTION 25 1.0 1301 (Streptococcus) 1301 (Streptococcus) 56 56 MQFKLILNGKTLKGVITIEAVDHAEAEKFFKQYANDNGVDGEWTYDEATHTFTVTE MQFKLILNGKTLKGVITIEAVDHAEAEKFFKQYANDNGVDGEWTYDEATHTFTVTE 6f5v-a2-m1-cC_6f5v-a2-m1-cD Crystal structure of the prephenate aminotransferase from Arabidopsis thaliana Q9SIE1 Q9SIE1 1.7 X-RAY DIFFRACTION 187 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 399 403 5wmh-a1-m1-cA_5wmh-a1-m1-cB 5wmh-a2-m1-cD_5wmh-a2-m1-cC 5wmh-a3-m1-cF_5wmh-a3-m1-cE 5wmi-a1-m1-cA_5wmi-a1-m2-cA 5wmk-a1-m1-cA_5wmk-a1-m2-cA 5wml-a1-m1-cB_5wml-a1-m1-cA 6f5v-a1-m1-cA_6f5v-a1-m1-cB SLSPRVQSLKPSKTMVITDLAATLVQSGVPVIRLAAGEPDFDTPKVVAEAGINAIREGFTRYTLNAGITELREAICRKLKEENGLSYAPDQILVSNGAKQSLLQAVLAVCSPGDEVIIPAPYWVSYTEQARLADATPVVIPTKISNNFLLDPKDLESKLTEKSRLLILCSPSNPTGSVYPKSLLEEIARIIAKHPRLLVLSDEIYEHIIYAPATHTSFASLPDMYERTLTVNGFSKAFAMTGWRLGYLAGPKHIVAACSKLQGQVSSGASSIAQKAGVAALGLGKAGGETVAEMVKAYRERRDFLVKSLGDIKGVKISEPQGAFYLFIDFSAYYGSEAEGFGLINDSSSLALYFLDKFQVAMVPGDAFGDDSCIRISYATSLDVLQAAVEKIRKALEPL SVDMSLSPRVQSLKPSKTMVITDLAATLVQSGVPVIRLAAGEPDFDTPKVVAEAGINAIREGFTRYTLNAGITELREAICRKLKEENGLSYAPDQILVSNGAKQSLLQAVLAVCSPGDEVIIPAPYWVSYTEQARLADATPVVIPTKISNNFLLDPKDLESKLTEKSRLLILCSPSNPTGSVYPKSLLEEIARIIAKHPRLLVLSDEIYEHIIYAPATHTSFASLPDMYERTLTVNGFSKAFAMTGWRLGYLAGPKHIVAACSKLQGQVSSGASSIAQKAGVAALGLGKAGGETVAEMVKAYRERRDFLVKSLGDIKGVKISEPQGAFYLFIDFSAYYGSEAEGFGLINDSSSLALYFLDKFQVAMVPGDAFGDDSCIRISYATSLDVLQAAVEKIRKALEPL 6f5z-a1-m1-cA_6f5z-a1-m1-cB Complex between the Haloferax volcanii Trm112 methyltransferase activator and the Hvo_0019 putative methyltransferase D4GYL4 D4GYL4 1.35 X-RAY DIFFRACTION 61 0.991 309800 (Haloferax volcanii DS2) 309800 (Haloferax volcanii DS2) 226 228 SVRDEFDAWAADGRDKGMEDRHWHTAKHALARMPVEEGDTVVDLGTGSGYALRALRDTKGIGRGFGLDGSPEMVQNARAYTDTDDLSFLVGDFDDLPFDDDSVDHVWSMEAFYYAADPHHTLEEIARILKPGGTFYCAVNYYEENVHSHEWQEHISIDMTRWSHAEYREAFRDAGLHVAEQDSIADLDIDIPAATEFPTDDWETREAMVERYRTFGTLLTVGVAPH SVRDEFDAWAARDKGMEDRHWHTAKHALARMPVEEGDTVVDLGTGSGYALRALRDTKGIGRGFGLDGSPEMVQNARAYTDTDDLSFLVGDFDDLPFDDDSVDHVWSMEAFYYAADPHHTLEEIARILKPGGTFYCAVNYYEENVHSHEWQEHISIDMTRWSHAEYREAFRDAGLHVAEQDSIADLDIDIPAATEFPTDDWETREAMVERYRTFGTLLTVGVAPHHHHH 6f6p-a1-m1-cB_6f6p-a1-m1-cD Crystal structure of tetrameric human Rabin8 GEF domain Q96QF0 Q96QF0 2.45 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 98 6f6p-a1-m1-cC_6f6p-a1-m1-cA SVLEVREKGYERLKEELAKAQRELKLKDEECERLSKVRDQLGQELEELTASLFEEAHKMVREANIKQATAEKQLKEAQGKIDVLQAEVAALKTLVLS PSVLEVREKGYERLKEELAKAQRELKLKDEECERLSKVRDQLGQELEELTASLFEEAHKMVREANIKQATAEKQLKEAQGKIDVLQAEVAALKTLVLS 6f6p-a1-m1-cC_6f6p-a1-m1-cD Crystal structure of tetrameric human Rabin8 GEF domain Q96QF0 Q96QF0 2.45 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 98 6f6p-a1-m1-cB_6f6p-a1-m1-cA EKGYERLKEELAKAQRELKLKDEECERLSKVRDQLGQELEELTASLFEEAHKMVREANIKQATAEKQLKEAQGKIDVLQAEVAALKTLV PSVLEVREKGYERLKEELAKAQRELKLKDEECERLSKVRDQLGQELEELTASLFEEAHKMVREANIKQATAEKQLKEAQGKIDVLQAEVAALKTLVLS 6f70-a1-m1-cA_6f70-a1-m1-cB Crystal structure of glutathione transferase Omega 6S from Trametes versicolor A0A384E158 A0A384E158 1.48 X-RAY DIFFRACTION 55 1.0 5325 (Trametes versicolor) 5325 (Trametes versicolor) 242 242 6f71-a1-m1-cA_6f71-a1-m1-cB 6f71-a2-m1-cD_6f71-a2-m1-cC SAQKRITLYMASASPFPHRVRLALEEAHATYEMIHISLVDKQDWYQKKVYPDRAQVPYLIYGGPELHPDEAPSPDAAKIPESLVILEFLADLFPAAHLLPSDPVLRARARLFTTAVETELLPAQKAFFLMGGPPDAMLAALDALQARLPPAGGFAAGPQWSIADAAVMPILLRLRMSVTLEVGFFAPGAAPVVRAALESPRFARLQRYIADNVARPSMAATWDEAAVKAEFVGRFEKLRSLK SAQKRITLYMASASPFPHRVRLALEEAHATYEMIHISLVDKQDWYQKKVYPDRAQVPYLIYGGPELHPDEAPSPDAAKIPESLVILEFLADLFPAAHLLPSDPVLRARARLFTTAVETELLPAQKAFFLMGGPPDAMLAALDALQARLPPAGGFAAGPQWSIADAAVMPILLRLRMSVTLEVGFFAPGAAPVVRAALESPRFARLQRYIADNVARPSMAATWDEAAVKAEFVGRFEKLRSLK 6f77-a3-m1-cE_6f77-a3-m1-cF Crystal structure of the prephenate aminotransferase from Rhizobium meliloti Q02635 Q02635 1.794 X-RAY DIFFRACTION 175 1.0 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 399 399 6f77-a1-m1-cB_6f77-a1-m1-cA 6f77-a2-m1-cC_6f77-a2-m1-cD AFLADALSRVKPSATIAVSQKARELKAKGRDVIGLGAGEPDFDTPDNIKKAAIDAIDRGETKYTPVSGIPELREAIAKKFKRENNLDYTAAQTIVGTGGKQILFNAFMATLNPGDEVVIPAPYWVSYPEMVALCGGTPVFVPTRQENNFKLKAEDLDRAITPKTKWFVFNSPSNPSGAAYSHEELKALTDVLMKHPHVWVLTDDMYEHLTYGDFRFATPVEVEPGLYERTLTMNGVSKAYAMTGWRIGYAAGPLHLIKAMDMIQGQQTSGAASIAQWAAVEALNGPQDFIGRNKEIFQGRRDLVVSMLNQAKGISCPTPEGAFYVYPSCAGLIGKTAPSGKVIETDEDFVSELLETEGVAVVHGSAFGLGPNFRISYATSEALLEEACRRIQRFCAACR AFLADALSRVKPSATIAVSQKARELKAKGRDVIGLGAGEPDFDTPDNIKKAAIDAIDRGETKYTPVSGIPELREAIAKKFKRENNLDYTAAQTIVGTGGKQILFNAFMATLNPGDEVVIPAPYWVSYPEMVALCGGTPVFVPTRQENNFKLKAEDLDRAITPKTKWFVFNSPSNPSGAAYSHEELKALTDVLMKHPHVWVLTDDMYEHLTYGDFRFATPVEVEPGLYERTLTMNGVSKAYAMTGWRIGYAAGPLHLIKAMDMIQGQQTSGAASIAQWAAVEALNGPQDFIGRNKEIFQGRRDLVVSMLNQAKGISCPTPEGAFYVYPSCAGLIGKTAPSGKVIETDEDFVSELLETEGVAVVHGSAFGLGPNFRISYATSEALLEEACRRIQRFCAACR 6f7d-a1-m2-cA_6f7d-a1-m3-cA Crystal structure of Dettilon tailspike protein (gp208) A0A0C5PVE3 A0A0C5PVE3 1.634 X-RAY DIFFRACTION 235 1.0 454798 (Salmonella phage Det7) 454798 (Salmonella phage Det7) 538 538 6f7d-a1-m1-cA_6f7d-a1-m2-cA 6f7d-a1-m1-cA_6f7d-a1-m3-cA 6f7k-a1-m1-cA_6f7k-a1-m1-cF 6f7k-a1-m1-cA_6f7k-a1-m1-cG 6f7k-a1-m1-cF_6f7k-a1-m1-cG 6f7k-a2-m1-cB_6f7k-a2-m1-cC 6f7k-a2-m1-cB_6f7k-a2-m1-cD 6f7k-a2-m1-cC_6f7k-a2-m1-cD GVINFSHADTYGNDSVGAHLQNVVYPTDAPFNAATDGTTDTTVAIKSAIAHCISKGKKLVLNHLFMITDTLVISDGLHVECLTSDSGVKSDVPAGKFAVKITGANSGWFGGKILGKNLPESTTVRQDGVLFDENAEYCFITGTEVTGFFAKGLHTSDADGVGYGIYDKGYGTLISKCYANSKFCVALGGTEGRVLKNRITNNYLTSGEAKPWSWASNYWDGIVSENAHRYVIAFNDVSACGQSGIYFGGNGGYSTDNIIVNNTVYACWNRGIDMGLFSEKSATNDVLRNIIKGNNTYNNRENNIWLAGVSNCSVVGNTSWFDTNYDVIFAGYPGGHICISLASGANGEACVGNTIDSNTCIDPRGNAGITVPTGATGNVFGSGNNLSQAGAIYIASPDLITSNRFELAVTGSFTPVLLPESGSITLSSSSTGVFRATGNRIDFSVTVNVSSISSPSGNLNIAYLPGMSGKTSSTSMFIIDYWNDLTLSSGVIPLASLNLENQDQITVYRTDGGRVLYDFSSLMKSTSSFILKGFVDFN GVINFSHADTYGNDSVGAHLQNVVYPTDAPFNAATDGTTDTTVAIKSAIAHCISKGKKLVLNHLFMITDTLVISDGLHVECLTSDSGVKSDVPAGKFAVKITGANSGWFGGKILGKNLPESTTVRQDGVLFDENAEYCFITGTEVTGFFAKGLHTSDADGVGYGIYDKGYGTLISKCYANSKFCVALGGTEGRVLKNRITNNYLTSGEAKPWSWASNYWDGIVSENAHRYVIAFNDVSACGQSGIYFGGNGGYSTDNIIVNNTVYACWNRGIDMGLFSEKSATNDVLRNIIKGNNTYNNRENNIWLAGVSNCSVVGNTSWFDTNYDVIFAGYPGGHICISLASGANGEACVGNTIDSNTCIDPRGNAGITVPTGATGNVFGSGNNLSQAGAIYIASPDLITSNRFELAVTGSFTPVLLPESGSITLSSSSTGVFRATGNRIDFSVTVNVSSISSPSGNLNIAYLPGMSGKTSSTSMFIIDYWNDLTLSSGVIPLASLNLENQDQITVYRTDGGRVLYDFSSLMKSTSSFILKGFVDFN 6f7h-a1-m1-cC_6f7h-a1-m1-cD Crystal structure of human AQP10 Q96PS8 Q96PS8 2.304 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 256 6f7h-a1-m1-cA_6f7h-a1-m1-cB 6f7h-a1-m1-cA_6f7h-a1-m1-cD 6f7h-a1-m1-cB_6f7h-a1-m1-cC IRSLLARQCLAEFLGVFVLMLLTQGAVAQAVTSGETKGNFFTMFLAGSLAVTIAIYVGGNVSGAHLNPAFSLAMCIVGRLPWVKLPIYILVQLLSAFCASGATYVLYHDALQNYTGGNLTVTGPKETASIFATYPAPYLSLNNGFLDQVLGTGMLIVGLLAILDRRNKGVPAGLEPVVVGMLILALGLSMGANCGIPLNPARDLGPRLFTYVAGWGPEVFSAGNGWWWVPVVAPLVGATVGTATYQLLVALHH HLRIRSLLARQCLAEFLGVFVLMLLTQGAVAQAVTSGETKGNFFTMFLAGSLAVTIAIYVGGNVSGAHLNPAFSLAMCIVGRLPWVKLPIYILVQLLSAFCASGATYVLYHDALQNYTGGNLTVTGPKETASIFATYPAPYLSLNNGFLDQVLGTGMLIVGLLAILDRRNKGVPAGLEPVVVGMLILALGLSMGANCGIPLNPARDLGPRLFTYVAGWGPEVFSAGNGWWWVPVVAPLVGATVGTATYQLLVALHH 6f7l-a1-m1-cB_6f7l-a1-m1-cA Crystal structure of LkcE R326Q mutant in complex with its substrate Q83X90 Q83X90 2.5 X-RAY DIFFRACTION 67 1.0 1928 (Streptomyces rochei) 1928 (Streptomyces rochei) 428 431 6f32-a1-m1-cB_6f32-a1-m1-cA 6f7v-a1-m1-cA_6f7v-a1-m1-cB 6fjh-a1-m1-cA_6fjh-a1-m1-cB VEAKSRIAVVGGGGSGSVAAWLLARRHDVTLFEADEYLGGHAYSHPVETDQGTLHVDMGVEHFNEKLSPNLFRLLTDFGIGTYVAPSSVHVDFPGEQQSWNNLDFLGELREELHEEFDRFHQEMNQLPTQMSIGEYLDKHGYSKSFKYKAMNPILSIYSGCHAPSLDYNLMYVALSFSMNLLSFFSAGYWRKAQGGIHSYLARIESDLGERVRLNTPVEAVVPTQSGVTVLAGGQEHHFDQVVFATHADVTLRLLRTSDQQYRDLLGDFAYVPVESVLHQDESWLSPAGGGAYCQFRMPEGFELARAEEQMGSLTQNCNVLHPYRKVSSPILITFDPQEDVDPERVIVRREWKLPQLRPVDVRRKKRLHEIQGLNGLWFCGTDTSVTGHEGAIVSGMVIADRLGVPHPFPDDAPAAAQFRGIKEFMGV VVEAKSRIAVVGGGGSGSVAAWLLARRHDVTLFEADEYLGGHAYSHPVETDQGTLHVDMGVEHFNEKLSPNLFRLLTDFGIGTYVAPSSVHVDFPGEQQSWNNLDFLGELREELHEEFDRFHQEMNQLPTSKQMSIGEYLDKHGYSKSFKYKAMNPILSIYSGCHAPSLDYNLMYVALSFSMNLLSFFSAGYWRKAQGGIHSYLARIESDLGERVRLNTPVEAVVPTQSGVTVLAGGQEHHFDQVVFATHADVTLRLLRTSDQQYRDLLGDFAYVPVESVLHQDESWLSPAGGGAYCQFRMPEGFELARAEEQMGSLTQNCNVLHPYRKVSSPILITFDPQEDVDPERVIVRREWKLPQLRPVDVRRKKRLHEIQGLNGLWFCGTDTSVTGHEGAIVSGMVIADRLGVPHPFPDDAPAAAQFRGIKEFMGV 6f7u-a1-m1-cA_6f7u-a1-m2-cA Molecular Mechanism of ATP versus GTP Selectivity of Adenylate Kinase P69441 P69441 1.4 X-RAY DIFFRACTION 50 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 214 214 4ake-a1-m1-cA_4ake-a1-m1-cB MRIILLGAPGAGKGTQAQFIMEKYGIPQISTGDMLRAAVKSGSELGKQAKDIMDAGKLVTDELVIALVKERIAQEDCRNGFLLDGFPRTIPQADAMKEAGINVDYVLEFDVPDELIVDRIVGRRVHAPSGRVYHVKFNPPKVEGKDDVTGEELTTRKDDQEETVRKRLVEYHQMTAPLIGYYSKEAEAGNTKYAKVDGTKPVAEVRADLEKILG MRIILLGAPGAGKGTQAQFIMEKYGIPQISTGDMLRAAVKSGSELGKQAKDIMDAGKLVTDELVIALVKERIAQEDCRNGFLLDGFPRTIPQADAMKEAGINVDYVLEFDVPDELIVDRIVGRRVHAPSGRVYHVKFNPPKVEGKDDVTGEELTTRKDDQEETVRKRLVEYHQMTAPLIGYYSKEAEAGNTKYAKVDGTKPVAEVRADLEKILG 6f8h-a2-m3-cC_6f8h-a2-m1-cB antitoxin GraA 2.002 X-RAY DIFFRACTION 107 0.989 303 (Pseudomonas putida) 303 (Pseudomonas putida) 93 94 6f8h-a1-m2-cD_6f8h-a1-m1-cA 6f8s-a1-m1-cA_6f8s-a1-m1-cC 6fix-a1-m1-cA_6fix-a1-m1-cB 6fix-a1-m1-cE_6fix-a1-m1-cD GMRPIHPGEILREEFQKEMGFSAAALARALGVATPTVNNILRERGGVSADMALRLSICLDTTPEFWLNLQTAFDLRTAEQQHGDEIIGSVQRL MRPIHPGEILREEFQKEMGFSAAALARALGVATPTVNNILRERGGVSADMALRLSICLDTTPEFWLNLQTAFDLRTAEQQHGDEIIGSVQRLVA 6f8l-a1-m1-cM_6f8l-a1-m1-cQ Thermus thermophilus PilF ATPase (AMPPNP-bound form) Q5SLC9 Q5SLC9 8.0 ELECTRON MICROSCOPY 15 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 146 146 6ejf-a1-m1-cG_6ejf-a1-m1-cH 6ejf-a1-m1-cM_6ejf-a1-m1-cQ 6f8l-a1-m1-cG_6f8l-a1-m1-cH LPRAKPLGEILVELGLARPEDVEEALQKQRRGGGRLEDTLVQSGKLRPEALAQAVATQLGYPYVDPEEDPPDPGAPLLLPEDLCRRYGVFPHRLEGNRLVLLMKDPRNILALDDVRLALKRKGLNYEVAPAVATEAAITKLIERFY LPRAKPLGEILVELGLARPEDVEEALQKQRRGGGRLEDTLVQSGKLRPEALAQAVATQLGYPYVDPEEDPPDPGAPLLLPEDLCRRYGVFPHRLEGNRLVLLMKDPRNILALDDVRLALKRKGLNYEVAPAVATEAAITKLIERFY 6f90-a1-m1-cA_6f90-a1-m2-cA Structure of the family GH92 alpha-mannosidase BT3130 from Bacteroides thetaiotaomicron in complex with Mannoimidazole (ManI) Q8A325 Q8A325 2.4 X-RAY DIFFRACTION 87 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 714 714 6f8z-a1-m1-cA_6f8z-a1-m2-cA 6f8z-a2-m1-cC_6f8z-a2-m1-cB 6f90-a2-m1-cC_6f90-a2-m1-cB AGEITKYVNPFIGTGAIDGGLSGNNYPGATSPFGMIQLSPDTSEAPNWGDASGYDYNRNTIFGFSHTRLSGTGASDLIDITLMPTSSGRTSSAFTHDEEKARPGYYQVMLKDENINAELTTTQRNGIHRYQYPAGKDAEIILDMDHSADKGSWGRRIINSQIRILNDHAVEGYRIITGWAKLRKIYFYMEFSSPILTSTLRDGGRVHENTAVINGTNLHGCFRFGQLNGKPLTCKVALSSVSMENARQNMEQEAPHWDFDRYVAAADADWEKQLGKIEVKGTEVQKEIFYTALYHTMIQPNTMSDVNGEYMAADYTTRKVANNETHYTTFSLWDTFRASHPLYTLLEPERVTDFVKSMIRQYEYYGYLPIWQLWGQDNYCMIGNHSIPVITDAILKGIPGIDMEKAYEAVYNSSVTSHPNSPFEVWEKYGFMPENIQTQSVSITLEQAFDDWCVAQLAAKLNKDADYQRFHKRSEYYRNLFHPKTKFFQSKNDKGEWIEPFDPYQYGGNGGHPFTEGNAWQYFWYVPHNIQALMELTGGTKAFEQKLDTFFTSTYKSMNHNASGFVGQYAHGNEPSHHVAYLYNFAGQPWKTQKYVSHILNTLYNNTSSGYAGNDDCGQMSAWYVFSAMGFYPVNPADGRYIIGSPLLDECTLKLAGNKEFRIRTIRKSPEDIYIQSVTLNGKKHKDFFITHQDIMNGGTMVFKMGKKPSGWGK AGEITKYVNPFIGTGAIDGGLSGNNYPGATSPFGMIQLSPDTSEAPNWGDASGYDYNRNTIFGFSHTRLSGTGASDLIDITLMPTSSGRTSSAFTHDEEKARPGYYQVMLKDENINAELTTTQRNGIHRYQYPAGKDAEIILDMDHSADKGSWGRRIINSQIRILNDHAVEGYRIITGWAKLRKIYFYMEFSSPILTSTLRDGGRVHENTAVINGTNLHGCFRFGQLNGKPLTCKVALSSVSMENARQNMEQEAPHWDFDRYVAAADADWEKQLGKIEVKGTEVQKEIFYTALYHTMIQPNTMSDVNGEYMAADYTTRKVANNETHYTTFSLWDTFRASHPLYTLLEPERVTDFVKSMIRQYEYYGYLPIWQLWGQDNYCMIGNHSIPVITDAILKGIPGIDMEKAYEAVYNSSVTSHPNSPFEVWEKYGFMPENIQTQSVSITLEQAFDDWCVAQLAAKLNKDADYQRFHKRSEYYRNLFHPKTKFFQSKNDKGEWIEPFDPYQYGGNGGHPFTEGNAWQYFWYVPHNIQALMELTGGTKAFEQKLDTFFTSTYKSMNHNASGFVGQYAHGNEPSHHVAYLYNFAGQPWKTQKYVSHILNTLYNNTSSGYAGNDDCGQMSAWYVFSAMGFYPVNPADGRYIIGSPLLDECTLKLAGNKEFRIRTIRKSPEDIYIQSVTLNGKKHKDFFITHQDIMNGGTMVFKMGKKPSGWGK 6f91-a4-m1-cF_6f91-a4-m1-cG Structure of the family GH92 alpha-mannosidase BT3965 from Bacteroides thetaiotaomicron Q8A0Q6 Q8A0Q6 1.8 X-RAY DIFFRACTION 88 0.999 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 736 742 6f91-a1-m1-cA_6f91-a1-m2-cH 6f91-a2-m1-cB_6f91-a2-m1-cE 6f91-a3-m1-cD_6f91-a3-m3-cC 6f91-a5-m4-cA_6f91-a5-m1-cH 6f91-a6-m5-cD_6f91-a6-m1-cC 6f92-a1-m1-cA_6f92-a1-m1-cD 6f92-a2-m1-cC_6f92-a2-m1-cB EKLTDYVNPFVGTDGYGNVYPGAQIPFGGIQISPDTDSRFYDAASGYKYNHLTLMGFSLTHLSGTGIPDLGDFLFIPGTGEMKLEPGTHEDPDQGYRSRYSHDKEWASPNYYAVELADYGVKAEMTSGVRSGMFRFTYPESDNAFIMIDMNHTLWQSCEWSNLRMINDSTITGYKLVKGWGPERHVYFTATFSKKLTGLRFVQDKKPVIYNTSRFRSSYEAWGKNLMACISFDTKAGEEVTVKTAISAVSTDGARNNMKELDGLTFNELRAKGEALWEKELGKYTLTADRKTKETFYTSAYHAALHPFIFQDSDGQFRGLDKNIEKAEGFTNYTVFSLWDTYRALHPWFNLVQQEVNADIANSMLAHYDKSVEKMLPIWSFYGNETWCMIGYHAVSVLADMIVKEVKGFDYERAYEAMKTTAMNSNYDCLPEYREMGYVPFDKEAESVSKTLEYAYDDYCIAQAAKKLGKEDDYHYFLNRALSYQTLIDPETKYMRGRDSKGDWRTPFTPVAYWGDITEGFTMQYTWYVPQDVQGYINEAGKELFRKRLDELFTVEQGRIGAYWHGNEPCHHVAYLYNYLKEPWKCQKWIRTIVDRFYGNTPDALSGNDDCGQMSAWYMFNCIGFYPVAPSSNIYNIGSPCAEAITVRMSNGKNIEMTADNWSPKNLYVKELYVNGKKYDKSYLTYDDIRDGVKLRFVMSGKPNYKRAVSDEAVPPSISLPEKTMKYKSSIGFLEH EKLTDYVNPFVGTDGYGNVYPGAQIPFGGIQISPDTDSRFYDAASGYKYNHLTLMGFSLTHLSGTGIPDLGDFLFIPGTGEMKLEPGTHEDPDQGYRSRYSHDKEWASPNYYAVELADYGVKAEMTSGVRSGMFRFTYPESDNAFIMIDMNHTLWQSCEWSNLRMINDSTITGYKLVKGWGPERHVYFTATFSKKLTGLRFVQDKKPVIYNTSRFRSSYEAWGKNLMACISFDTKAGEEVTVKTAISAVSTDGARNNMKELDGLTFNELRAKGEALWEKELGKYTLTADRKTKETFYTSAYHAALHPFIFQDSDGQFRGLDKNIEKAEGFTNYTVFSLWDTYRALHPWFNLVQQEVNADIANSMLAHYDKSVEKMLPIWSFYGNETWCMIGYHAVSVLADMIVKEVKGFDYERAYEAMKTTAMNSNYDCLPEYREMGYVPFDKEAESVSKTLEYAYDDYCIAQAAKKLGKEDDYHYFLNRALSYQTLIDPETKYMRGRDSKGDWRTPFTPVAWGDITEGFTMQYTWYVPQDVQGYINEAGKELFRKRLDELFTVELPQGRIGAYWHGNEPCHHVAYLYNYLKEPWKCQKWIRTIVDRFYGNTPDALSGNDDCGQMSAWYMFNCIGFYPVAPSSNIYNIGSPCAEAITVRMSNGKNIEMTADNWSPKNLYVKELYVNGKKYDKSYLTYDDIRDGVKLRFVMSGKPNYKRAVSDEAVPPSISLPEKTMKYKSSIGFLEHHHHHH 6f97-a1-m1-cB_6f97-a1-m1-cA Crystal structure of the V465T mutant of 5-(Hydroxymethyl)furfural Oxidase (HMFO) E4QP00 E4QP00 1.9 X-RAY DIFFRACTION 53 1.0 887061 (Methylovorus sp. MP688) 887061 (Methylovorus sp. MP688) 487 520 IFDYVIVGGGTAGSVLANRLSARPENRVLLIEAGIDTKFFWPNLTIHRAAEHPGITREPQFYEQGRLLGGGSVVSNRGLPRDYDEWQALGADGWDWQGVLPYFIKTERDADYGDDPLHGNAGPIPIGRVDSRHWSDFTVAATQALEAAGLPNIHDQNARFDDGYFPPAFTLKSAARGYLDASVRVRPNLSLWTESRVLKLLTTGNAITGVSVLRGRETLQVQAREVILTAGALQSPAILLRTGIGPAADLHALGIPVLADRPGVGRNLWEHSSIGVVAPLTEQARADASTHQLGIRASSGVDPATPSDLFLHIGADPVSGLASAVFWVNKPSSTGWLKLKDADPFSYPDVDFNLLSDPRDLGRLKAGLRLITHYFAAPSLAKYGLALALSRFAAPQPGGPLLNDLLQDEAALERYLRTNVGGTWHASGTARIGRADDSQAVVDKAGRVYGVTGLRVADASIMPTVPTANTNLPTLMLAEKIADAILT IFDYVIVGGGTAGSVLANRLSARPENRVLLIEAGIDTPENNIPPEIHDGLRPWLPRLSGDKFFWPNLTIHRAAEHPGITREPQFYEQGRLLGGGSSVNMVVSNRGLPRDYDEWQALGADGWDWQGVLPYFIKTERDADYGDDPLHGNAGPIPIGRVDSRHWSDFTVAATQALEAAGLPNIHDQNARFDDGYFPPAFTLKGEERFSAARGYLDASVRVRPNLSLWTESRVLKLLTTGNAITGVSVLRGRETLQVQAREVILTAGALQSPAILLRTGIGPAADLHALGIPVLADRPGVGRNLWEHSSIGVVAPLTEQARADASTGHQLGIRASSGVDPATPSDLFLHIGADPVSGLASAVFWVNKPSSTGWLKLKDADPFSYPDVDFNLLSDPRDLGRLKAGLRLITHYFAAPSLAKYGLALALSRFAAPQPGGPLLNDLLQDEAALERYLRTNVGGTWHASGTARIGRADDSQAVVDKAGRVYGVTGLRVADASIMPTVPTANTNLPTLMLAEKIADAILT 6f9i-a1-m1-cA_6f9i-a1-m1-cB Crystal structure of KLC2 bound to the second tryptophan-acidic motif peptide from calsyntenin-1 Q91YS4 Q91YS4 3.993 X-RAY DIFFRACTION 21 1.0 10090 (Mus musculus) 10090 (Mus musculus) 261 264 ARLRTLHNLVIQYASQGRYEVAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKDAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLSNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSVNGENKPIWMHAEEREESDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRS PARLRTLHNLVIQYASQGRYEVAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKDAAHLLNDALAIREKTLGKDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKFHPDVAKQLSNLALLCQNQGKAEEVEYYYRRALEIYATRLGPDDPNVAKTKNNLASCYLKQGKYQDAETLYKEILTRAHEKEFGSVNGENKPIWMHAEEREESVDSPTVNTTLRSLGALYRRQGKLEAAHTLEDCASRSR 6f9m-a1-m1-cA_6f9m-a1-m1-cB The LIPY/F-motif in an intracellular subtilisin protease is involved in inhibition A0A3B6UEW8 A0A3B6UEW8 1.298 X-RAY DIFFRACTION 54 0.997 1038856 (Planococcus plakortidis) 1038856 (Planococcus plakortidis) 293 294 NIHLIPYRVEQVTAAPPRIPEGVRMIQAPELWESAEHGKGNVVAVLDTGCQTDHPDLTARIAGGRNFTHDDGGDPERFEDYNGHGTHVAGTVAASLRDEEGVVGVAPLADLLVVKVLDKEGSGSYEGIIAGIHYAIDWRGPEGQKTTVISMSLGGPEDHPELYEAVKRAVDAGIPVICAAGTDEFAYPGAYGEVIQVGAVDFDRRINEIDLVAPGINIYSTYLEGKYASLSGTSMATPHVSGALALIRNISEREFDRELTEAELYAQLVRRTIPLGYPKTAEGNGLLALDILN NIHLIPYRVEQVTAAPPRIPEGVRMIQAPELWESAEHGKGNVVAVLDTGCQTDHPDLTARIAGGRNFTHDDGGDPERFEDYNGHGTHVAGTVAASLRDEEGVVGVAPLADLLVVKVLDKEGSGSYEGIIAGIHYAIDWRGPEGQKTTVISMSLGGPEDHPELYEAVKRAVDAGIPVICAAGDEFAYPGAYGEVIQVGAVDFDRRIANNEIDLVAPGINIYSTYLEGKYASLSGTSMATPHVSGALALIRNISEREFDRELTEAELYAQLVRRTIPLGYPKTAEGNGLLALDILN 6f9q-a1-m1-cA_6f9q-a1-m1-cD Binary complex of a 7S-cis-cis-nepetalactol cyclase from Nepeta mussinii with NAD+ A0A3Q8GLE8 A0A3Q8GLE8 1.4 X-RAY DIFFRACTION 131 1.0 257 258 6f9q-a1-m1-cB_6f9q-a1-m1-cC KKKLEGKVAIVTGGASGIGEATARLFVKYGARAVVIADIQSELGRSVAESIGKERCSFVQCDVADEEQVKSMIEWTATTYGGLDVMFSNAGVLNSAAQTVKDLDLPLFDKVMRVNTRGAAVCVKQAARKMVELGRGGSIICNAGSSAVRGAHGVTDYVMSKHAVIGLVRSASMQLGAHSIRVNSVSPMAVATPLTRNQGISTPDDVQKFLMPFISLKGVPPTAEQVAEAAAFLGSDEAAFVTGHDLPVDGGVLCMPF KKKLEGKVAIVTGGASGIGEATARLFVKYGARAVVIADIQSELGRSVAESIGKERCSFVQCDVADEEQVKSMIEWTATTYGGLDVMFSNAGVLNSAAQTVKDLDLPLFDKVMRVNTRGAAVCVKQAARKMVELGRGGSIICNAGSSAVRGAHGVTDYVMSKHAVIGLVRSASMQLGAHSIRVNSVSPMAVATPLTRNQGISTPDDVQKFLMPFISLKGVPPTAEQVAEAAAFLGSDEAAFVTGHDLPVDGGVLCMPFL 6f9q-a1-m1-cD_6f9q-a1-m1-cC Binary complex of a 7S-cis-cis-nepetalactol cyclase from Nepeta mussinii with NAD+ A0A3Q8GLE8 A0A3Q8GLE8 1.4 X-RAY DIFFRACTION 106 1.0 258 260 6f9q-a1-m1-cA_6f9q-a1-m1-cB KKKLEGKVAIVTGGASGIGEATARLFVKYGARAVVIADIQSELGRSVAESIGKERCSFVQCDVADEEQVKSMIEWTATTYGGLDVMFSNAGVLNSAAQTVKDLDLPLFDKVMRVNTRGAAVCVKQAARKMVELGRGGSIICNAGSSAVRGAHGVTDYVMSKHAVIGLVRSASMQLGAHSIRVNSVSPMAVATPLTRNQGISTPDDVQKFLMPFISLKGVPPTAEQVAEAAAFLGSDEAAFVTGHDLPVDGGVLCMPFL MMKKKLEGKVAIVTGGASGIGEATARLFVKYGARAVVIADIQSELGRSVAESIGKERCSFVQCDVADEEQVKSMIEWTATTYGGLDVMFSNAGVLNSAAQTVKDLDLPLFDKVMRVNTRGAAVCVKQAARKMVELGRGGSIICNAGSSAVRGAHGVTDYVMSKHAVIGLVRSASMQLGAHSIRVNSVSPMAVATPLTRNQGISTPDDVQKFLMPFISLKGVPPTAEQVAEAAAFLGSDEAAFVTGHDLPVDGGVLCMPFL 6f9s-a1-m1-cA_6f9s-a1-m2-cA Crystal structure of the C-terminal RecA domain of DDX6 in complex with a conserved peptide from LSM14 P26196 P26196 3.03 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 167 ELTLKGVTQYYAYVTERQKVHCLNTLFSRLQINQSIIFCNSSQRVELLAKKISQLGYSCFYIHAKMRQEHRNRVFHDFRNGLCRNLVCTDLFTRGIDIQAVNVVINFDFPKLAETYLHRIGRSGRFGHLGLAINLITYDDRFNLKSIEEQLGTEIKPIPSNIDKSLY ELTLKGVTQYYAYVTERQKVHCLNTLFSRLQINQSIIFCNSSQRVELLAKKISQLGYSCFYIHAKMRQEHRNRVFHDFRNGLCRNLVCTDLFTRGIDIQAVNVVINFDFPKLAETYLHRIGRSGRFGHLGLAINLITYDDRFNLKSIEEQLGTEIKPIPSNIDKSLY 6f9w-a1-m1-cB_6f9w-a1-m2-cB Crystal structure of the LSM domain of LSM14 in complex with a C-terminal peptide of 4E-T Q9NRA8 Q9NRA8 2.623 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 GLAKWFGSDLQQPLPSPAKVISVDELEYRQ GLAKWFGSDLQQPLPSPAKVISVDELEYRQ 6fah-a1-m1-cD_6fah-a1-m2-cD Molecular basis of the flavin-based electron-bifurcating caffeyl-CoA reductase reaction H6LGM6 H6LGM6 3.133 X-RAY DIFFRACTION 99 1.0 931626 (Acetobacterium woodii DSM 1030) 931626 (Acetobacterium woodii DSM 1030) 379 379 6fah-a1-m1-cC_6fah-a1-m2-cC MYFSEQNKMIRKLARDFAEKELTTEILDEVEESGEFPQEILDKMAKFGFFGIKIPKSLGGSGGDHMSYVICMEEFARVSGVASVYLSSPNSLAGGPLLLSGTEEQIEKYLKPIITGKKKLAFALTEPGAGSDAGGMSTTAVDMGDYYLLNGRKTFITMAPLCDDAVIYAKTDMSKGTRGISAFIVDLKSEGVSMGKNEHKMGLIGCATSDIIMEDVKVPKENRLGEVNKGFSNAMKTLDVGRLGVASQSIGVAQGALDEAIKYAKERKQFGKRIADFQAIAFMIADMATKLEAAKLLVYNAASLMDNKKNATKEASMAKFYASEICNEICAKAVQIHGGYGYIKEYKVERMYRDCRVFTIYEGTSQVQQMVISGMLLKK MYFSEQNKMIRKLARDFAEKELTTEILDEVEESGEFPQEILDKMAKFGFFGIKIPKSLGGSGGDHMSYVICMEEFARVSGVASVYLSSPNSLAGGPLLLSGTEEQIEKYLKPIITGKKKLAFALTEPGAGSDAGGMSTTAVDMGDYYLLNGRKTFITMAPLCDDAVIYAKTDMSKGTRGISAFIVDLKSEGVSMGKNEHKMGLIGCATSDIIMEDVKVPKENRLGEVNKGFSNAMKTLDVGRLGVASQSIGVAQGALDEAIKYAKERKQFGKRIADFQAIAFMIADMATKLEAAKLLVYNAASLMDNKKNATKEASMAKFYASEICNEICAKAVQIHGGYGYIKEYKVERMYRDCRVFTIYEGTSQVQQMVISGMLLKK 6fah-a1-m2-cC_6fah-a1-m2-cD Molecular basis of the flavin-based electron-bifurcating caffeyl-CoA reductase reaction H6LGM6 H6LGM6 3.133 X-RAY DIFFRACTION 86 1.0 931626 (Acetobacterium woodii DSM 1030) 931626 (Acetobacterium woodii DSM 1030) 379 379 6fah-a1-m1-cC_6fah-a1-m1-cD MYFSEQNKMIRKLARDFAEKELTTEILDEVEESGEFPQEILDKMAKFGFFGIKIPKSLGGSGGDHMSYVICMEEFARVSGVASVYLSSPNSLAGGPLLLSGTEEQIEKYLKPIITGKKKLAFALTEPGAGSDAGGMSTTAVDMGDYYLLNGRKTFITMAPLCDDAVIYAKTDMSKGTRGISAFIVDLKSEGVSMGKNEHKMGLIGCATSDIIMEDVKVPKENRLGEVNKGFSNAMKTLDVGRLGVASQSIGVAQGALDEAIKYAKERKQFGKRIADFQAIAFMIADMATKLEAAKLLVYNAASLMDNKKNATKEASMAKFYASEICNEICAKAVQIHGGYGYIKEYKVERMYRDCRVFTIYEGTSQVQQMVISGMLLKK MYFSEQNKMIRKLARDFAEKELTTEILDEVEESGEFPQEILDKMAKFGFFGIKIPKSLGGSGGDHMSYVICMEEFARVSGVASVYLSSPNSLAGGPLLLSGTEEQIEKYLKPIITGKKKLAFALTEPGAGSDAGGMSTTAVDMGDYYLLNGRKTFITMAPLCDDAVIYAKTDMSKGTRGISAFIVDLKSEGVSMGKNEHKMGLIGCATSDIIMEDVKVPKENRLGEVNKGFSNAMKTLDVGRLGVASQSIGVAQGALDEAIKYAKERKQFGKRIADFQAIAFMIADMATKLEAAKLLVYNAASLMDNKKNATKEASMAKFYASEICNEICAKAVQIHGGYGYIKEYKVERMYRDCRVFTIYEGTSQVQQMVISGMLLKK 6fan-a3-m1-cB_6fan-a3-m1-cF Crystal structure of putative CooT from Carboxydothermus hydrogenoformans Q3AFN4 Q3AFN4 2 X-RAY DIFFRACTION 62 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 61 62 6fan-a1-m1-cE_6fan-a1-m2-cA 6fan-a2-m1-cA_6fan-a2-m3-cE 6fan-a4-m1-cD_6fan-a4-m1-cC CEASAFIVNGDKEELFLERVDKLIPTEEGLLLENIFGQRKVIKAKIKRLELVDHRILLERE GCEASAFIVNGDKEELFLERVDKLIPTEEGLLLENIFGQRKVIKAKIKRLELVDHRILLERE 6fb4-a1-m1-cA_6fb4-a1-m1-cB human KIBRA C2 domain mutant C771A Q8IX03 Q8IX03 2.41563 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 SGATRIQIALKYDEKNKQFAILIIQLSNLSALLQQQDQKVNIRVAVLPCSESTTCLFRTRPLDASDTLVFNEVFWVSMSYPALHQKTLRVDVCTTDRSHLEECLGGAQISLAEVARSGERSTRWYNLLS SGATRIQIALKYDEKNKQFAILIIQLSNLSALLQQQDQKVNIRVAVLPCSESTTCLFRTRPLDASDTLVFNEVFWVSMSYPALHQKTLRVDVCTTDRSHLEECLGGAQISLAEVARSGERSTRWYNLLS 6fbm-a1-m1-cA_6fbm-a1-m1-cD Crystal structure of GNIP1Aa from Chromobacterium piscinae A0A140EEF9 A0A140EEF9 2.5 X-RAY DIFFRACTION 39 1.0 686831 (Chromobacterium piscinae) 686831 (Chromobacterium piscinae) 521 521 6fbm-a1-m1-cB_6fbm-a1-m1-cC QLGNLPGVTSMGMGYDVNGLYASPESLLGQPLFDFGGELDSIEIEGRSYTFPRSMHVHTYFHSDFKQDVSKEIEEYREKMSQHVGVSGRYKLFSASLSVDFTTTDQQLTEITYSSTREAHVLWYISLPGAATLRSMLRRDFRDDLNNPNMPAMELFKRYGPYYISEAAVGGRLDYSAASKTLKMDSSQSLSTTAEMSYKALVGEIKIEHGSEMEKQVNSFRSNSTIRLTATGGKPGMTDRILHGPDSQQAFSQWAESLLDYATLMDFSTESLQPIWALADKPERRVELEDAFPEFMKQSQQSIPKVDKVLLMDARPPMVKAGEDSGSGASEDLAVFNPSTSNGYKMVGQFGQRNHASVADGHAPIFKDLFDLGVLKAPVGWQRVWDDAGSGKSKDYACWRAIPPQGYRALGDVMMLATSGYNPPNLPDYVCVHQSLCADVQTLQNRVWWDKGTGARKDVSLWQPGAAGAVASSCFAGVPNYNNPPNSGDIERLRGSIACVKTSAIASMQEMKSMLSQHQGM QLGNLPGVTSMGMGYDVNGLYASPESLLGQPLFDFGGELDSIEIEGRSYTFPRSMHVHTYFHSDFKQDVSKEIEEYREKMSQHVGVSGRYKLFSASLSVDFTTTDQQLTEITYSSTREAHVLWYISLPGAATLRSMLRRDFRDDLNNPNMPAMELFKRYGPYYISEAAVGGRLDYSAASKTLKMDSSQSLSTTAEMSYKALVGEIKIEHGSEMEKQVNSFRSNSTIRLTATGGKPGMTDRILHGPDSQQAFSQWAESLLDYATLMDFSTESLQPIWALADKPERRVELEDAFPEFMKQSQQSIPKVDKVLLMDARPPMVKAGEDSGSGASEDLAVFNPSTSNGYKMVGQFGQRNHASVADGHAPIFKDLFDLGVLKAPVGWQRVWDDAGSGKSKDYACWRAIPPQGYRALGDVMMLATSGYNPPNLPDYVCVHQSLCADVQTLQNRVWWDKGTGARKDVSLWQPGAAGAVASSCFAGVPNYNNPPNSGDIERLRGSIACVKTSAIASMQEMKSMLSQHQGM 6fbm-a1-m1-cC_6fbm-a1-m1-cD Crystal structure of GNIP1Aa from Chromobacterium piscinae A0A140EEF9 A0A140EEF9 2.5 X-RAY DIFFRACTION 50 1.0 686831 (Chromobacterium piscinae) 686831 (Chromobacterium piscinae) 521 521 QLGNLPGVTSMGMGYDVNGLYASPESLLGQPLFDFGGELDSIEIEGRSYTFPRSMHVHTYFHSDFKQDVSKEIEEYREKMSQHVGVSGRYKLFSASLSVDFTTTDQQLTEITYSSTREAHVLWYISLPGAATLRSMLRRDFRDDLNNPNMPAMELFKRYGPYYISEAAVGGRLDYSAASKTLKMDSSQSLSTTAEMSYKALVGEIKIEHGSEMEKQVNSFRSNSTIRLTATGGKPGMTDRILHGPDSQQAFSQWAESLLDYATLMDFSTESLQPIWALADKPERRVELEDAFPEFMKQSQQSIPKVDKVLLMDARPPMVKAGEDSGSGASEDLAVFNPSTSNGYKMVGQFGQRNHASVADGHAPIFKDLFDLGVLKAPVGWQRVWDDAGSGKSKDYACWRAIPPQGYRALGDVMMLATSGYNPPNLPDYVCVHQSLCADVQTLQNRVWWDKGTGARKDVSLWQPGAAGAVASSCFAGVPNYNNPPNSGDIERLRGSIACVKTSAIASMQEMKSMLSQHQGM QLGNLPGVTSMGMGYDVNGLYASPESLLGQPLFDFGGELDSIEIEGRSYTFPRSMHVHTYFHSDFKQDVSKEIEEYREKMSQHVGVSGRYKLFSASLSVDFTTTDQQLTEITYSSTREAHVLWYISLPGAATLRSMLRRDFRDDLNNPNMPAMELFKRYGPYYISEAAVGGRLDYSAASKTLKMDSSQSLSTTAEMSYKALVGEIKIEHGSEMEKQVNSFRSNSTIRLTATGGKPGMTDRILHGPDSQQAFSQWAESLLDYATLMDFSTESLQPIWALADKPERRVELEDAFPEFMKQSQQSIPKVDKVLLMDARPPMVKAGEDSGSGASEDLAVFNPSTSNGYKMVGQFGQRNHASVADGHAPIFKDLFDLGVLKAPVGWQRVWDDAGSGKSKDYACWRAIPPQGYRALGDVMMLATSGYNPPNLPDYVCVHQSLCADVQTLQNRVWWDKGTGARKDVSLWQPGAAGAVASSCFAGVPNYNNPPNSGDIERLRGSIACVKTSAIASMQEMKSMLSQHQGM 6fbq-a1-m1-cA_6fbq-a1-m1-cB Crystal Structure of the Human Retinoid X Receptor DNA-Binding Domain Bound to the Human MEp DR1 Response Element, pH 7.0 P19793 P19793 1.6 X-RAY DIFFRACTION 14 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 80 81 4cn7-a1-m1-cE_4cn7-a1-m1-cF FTKHICAICGDRSSGKHYGVYSCEGCKGFFKRTVRKDLTYTCRDNKDCLIDKRQRNRCQYCRYQKCLAMGMKREAVQEER TKHICAICGDRSSGKHYGVYSCEGCKGFFKRTVRKDLTYTCRDNKDCLIDKRQRNRCQYCRYQKCLAMGMKREAVQEERQR 6fcg-a1-m1-cD_6fcg-a1-m1-cF Crystal structure of an endo-laminarinase from Formosa Hel1_33_131 A0A1D7Y259 A0A1D7Y259 2.6 X-RAY DIFFRACTION 42 1.0 1336794 (Formosa sp. Hel1_33_131) 1336794 (Formosa sp. Hel1_33_131) 393 393 6fcg-a1-m1-cA_6fcg-a1-m1-cE 6fcg-a1-m1-cB_6fcg-a1-m1-cC VTAKDILGNSKYLAISYGGYRKKSRDFQPSIEELKEDMKILHAMNIRILRTYNVRLAHTSNILKAIRELKNEDANFEMYMMVGAWIDCKNAWTDQPLNHHEESENNASEIDRAVALAQEFPDIVKVIAVGNEAMVKWAASYFVQPAVILKWVNHLQALKKKGDLSKDLWITSSDNFASWGGGDPQYHVEDLTKLIEAVDYLSVHTYPMHDTHYNPIFWGVFGDETELSSLKRIDIAMNRAKTYAVSQSDSVASYIKSLGINKPIHIGETGWASFSNGYYGAKGSKATDEYKEAIFYNHIREWTNEANMSCFYFEAFDEPWKDAHNSGGSENHFGLFTVDGKAKYVLWDLVDKGVFEGLTRGGNPITKTYNGNKEALFLEVELPPVKKEITKNH VTAKDILGNSKYLAISYGGYRKKSRDFQPSIEELKEDMKILHAMNIRILRTYNVRLAHTSNILKAIRELKNEDANFEMYMMVGAWIDCKNAWTDQPLNHHEESENNASEIDRAVALAQEFPDIVKVIAVGNEAMVKWAASYFVQPAVILKWVNHLQALKKKGDLSKDLWITSSDNFASWGGGDPQYHVEDLTKLIEAVDYLSVHTYPMHDTHYNPIFWGVFGDETELSSLKRIDIAMNRAKTYAVSQSDSVASYIKSLGINKPIHIGETGWASFSNGYYGAKGSKATDEYKEAIFYNHIREWTNEANMSCFYFEAFDEPWKDAHNSGGSENHFGLFTVDGKAKYVLWDLVDKGVFEGLTRGGNPITKTYNGNKEALFLEVELPPVKKEITKNH 6fcg-a1-m1-cE_6fcg-a1-m1-cF Crystal structure of an endo-laminarinase from Formosa Hel1_33_131 A0A1D7Y259 A0A1D7Y259 2.6 X-RAY DIFFRACTION 58 1.0 1336794 (Formosa sp. Hel1_33_131) 1336794 (Formosa sp. Hel1_33_131) 393 393 6fcg-a1-m1-cA_6fcg-a1-m1-cC 6fcg-a1-m1-cA_6fcg-a1-m1-cD 6fcg-a1-m1-cB_6fcg-a1-m1-cE 6fcg-a1-m1-cB_6fcg-a1-m1-cF 6fcg-a1-m1-cC_6fcg-a1-m1-cD VTAKDILGNSKYLAISYGGYRKKSRDFQPSIEELKEDMKILHAMNIRILRTYNVRLAHTSNILKAIRELKNEDANFEMYMMVGAWIDCKNAWTDQPLNHHEESENNASEIDRAVALAQEFPDIVKVIAVGNEAMVKWAASYFVQPAVILKWVNHLQALKKKGDLSKDLWITSSDNFASWGGGDPQYHVEDLTKLIEAVDYLSVHTYPMHDTHYNPIFWGVFGDETELSSLKRIDIAMNRAKTYAVSQSDSVASYIKSLGINKPIHIGETGWASFSNGYYGAKGSKATDEYKEAIFYNHIREWTNEANMSCFYFEAFDEPWKDAHNSGGSENHFGLFTVDGKAKYVLWDLVDKGVFEGLTRGGNPITKTYNGNKEALFLEVELPPVKKEITKNH VTAKDILGNSKYLAISYGGYRKKSRDFQPSIEELKEDMKILHAMNIRILRTYNVRLAHTSNILKAIRELKNEDANFEMYMMVGAWIDCKNAWTDQPLNHHEESENNASEIDRAVALAQEFPDIVKVIAVGNEAMVKWAASYFVQPAVILKWVNHLQALKKKGDLSKDLWITSSDNFASWGGGDPQYHVEDLTKLIEAVDYLSVHTYPMHDTHYNPIFWGVFGDETELSSLKRIDIAMNRAKTYAVSQSDSVASYIKSLGINKPIHIGETGWASFSNGYYGAKGSKATDEYKEAIFYNHIREWTNEANMSCFYFEAFDEPWKDAHNSGGSENHFGLFTVDGKAKYVLWDLVDKGVFEGLTRGGNPITKTYNGNKEALFLEVELPPVKKEITKNH 6fco-a2-m1-cB_6fco-a2-m1-cC Structural and functional characterisation of Frataxin (FXN) like protein from Chaetomium thermophilum G0S1Z8 G0S1Z8 2.03 X-RAY DIFFRACTION 80 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 118 121 6fco-a1-m1-cD_6fco-a1-m1-cA MADITTAEYHRLADEYLDALLSRLEELQDEREDVDVEYQSGVLTLNMGPEVGTYVINKQPPNKQIWLSSPKSGPKRYDYVITGEGQNEKQDTAVGEWVYLRDGSTLNQLLLEEIGVDL SMADITTAEYHRLADEYLDALLSRLEELQDEREDVDVEYQSGVLTLNMGPEVGTYVINKQPPNKQIWLSSPKSGPKRYDYVITGEGQNEKQDTAVGEWVYLRDGSTLNQLLLEEIGVDLNV 6fco-a3-m1-cE_6fco-a3-m1-cF Structural and functional characterisation of Frataxin (FXN) like protein from Chaetomium thermophilum G0S1Z8 G0S1Z8 2.03 X-RAY DIFFRACTION 83 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 107 107 MADITTAEYHRLADEYLDALLSRLEELQDEREDVDVEYQSGVLTLNMGPEVGTYVINKQPPNKQIWLSSPKSGPKRYDYVIGEWVYLRDGSTLNQLLLEEIGVDLNV MADITTAEYHRLADEYLDALLSRLEELQDEREDVDVEYQSGVLTLNMGPEVGTYVINKQPPNKQIWLSSPKSGPKRYDYVIGEWVYLRDGSTLNQLLLEEIGVDLNV 6fcx-a1-m1-cB_6fcx-a1-m1-cA Structure of human 5,10-methylenetetrahydrofolate reductase (MTHFR) P42898 P42898 2.5 X-RAY DIFFRACTION 83 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 590 596 RHERLREKMRRRLESGDKWFSLEFFPPRTAEGAVNLISRFDRMAAGGPLYIDVTWHPAGDPGSDKETSSMMIASTAVNYCGLETILHMTCCRQRLEEITGHLHKAKQLGLKNIMALRGDPFNYAVDLVKHIRSEFGDYFDICVAGYPKGHPGSFEADLKHLKEKVSADFIITQLFFEADTFFRFVKACTDMGITCPIVPGIFPIQGYHSLRQLVKLSKLEVPQEIKDVIEPIKDNDAAIRNYGIELAVSLCQELLASGGLHFYTLNREMATTEVLKRLGMWTEDPRRPLPWALSAHPKRREEDVRPIFWASRPKSYIYRTQEWDEFPNGRWGNSSSPAFGELKDYYLFYLKSKSPKEELLKMWGEELTSEASVFEVFVLYLSGEPNRNGHKVTCLPWNDEPLAAETSLLKEELLRVNRQGILTINSQPNINGKPSSDPIVGWGPSGGYVFQKAYLEFFTSRETAEALLQVLKKYELRVNYHLVNVKGENITNAPELQPNAVTWGIFPGREIIQPTVVDPVSFMFWKDEAFALWIEQWGKLYEEESPSRTIIQYIHDNYFLVNLVDNDFPLDNCLWQVVEDTLELLNAENL ERHERLREKMRRRLESGDKWFSLEFFPPRTAEGAVNLISRFDRMAAGGPLYIDVTWHPAGDPGSDKETSSMMIASTAVNYCGLETILHMTCCRQRLEEITGHLHKAKQLGLKNIMALRGDPFNYAVDLVKHIRSEFGDYFDICVAGYPKGHPEAGSFEADLKHLKEKVSAGADFIITQLFFEADTFFRFVKACTDMGITCPIVPGIFPIQGYHSLRQLVKLSKLEVPQEIKDVIEPIKDNDAAIRNYGIELAVSLCQELLASGLVPGLHFYTLNREMATTEVLKRLGMWTEDPRRPLPWALSAHPKRREEDVRPIFWASRPKSYIYRTQEWDEFPNGRWGNFGELKDYYLFYLKSKSPKEELLKMWGEELTSEASVFEVFVLYLSGEPNRNGHKVTCLPWNDEPLAAETSLLKEELLRVNRQGILTINSQPNINGKPSSDPIVGWGPSGGYVFQKAYLEFFTSRETAEALLQVLKKYELRVNYHLVNVKGENITNAPELQPNAVTWGIFPGREIIQPTVVDPVSFMFWKDEAFALWIEQWGKLYEEESPSRTIIQYIHDNYFLVNLVDNDFPLDNCLWQVVEDTLELLNAENLYFQ 6fd5-a1-m1-cB_6fd5-a1-m1-cA Crystal Structure of Human APRT-Tyr105Phe variant in complex with Adenine, PRPP and Mg2+, 14 days post crystallization (with AMP and PPi products partially generated) P07741 P07741 1.55 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 173 1ore-a1-m1-cA_1ore-a1-m2-cA 1zn7-a1-m1-cA_1zn7-a1-m1-cB 1zn8-a1-m1-cA_1zn8-a1-m1-cB 1zn9-a1-m1-cA_1zn9-a1-m1-cB 4x44-a1-m1-cA_4x44-a1-m2-cA 4x45-a1-m1-cB_4x45-a1-m1-cA 6fch-a1-m1-cA_6fch-a1-m1-cB 6fci-a1-m1-cD_6fci-a1-m1-cA 6fci-a2-m1-cB_6fci-a2-m1-cC 6fcl-a1-m1-cB_6fcl-a1-m1-cA 6fd4-a1-m1-cB_6fd4-a1-m1-cA 6fd6-a1-m1-cA_6fd6-a1-m1-cB 6hgp-a1-m1-cB_6hgp-a1-m1-cA 6hgq-a1-m1-cB_6hgq-a1-m1-cA 6hgq-a2-m1-cD_6hgq-a2-m1-cC 6hgr-a1-m1-cA_6hgr-a1-m1-cB 6hgs-a1-m1-cB_6hgs-a1-m1-cA 6hgs-a2-m1-cB_6hgs-a2-m1-cA SELQLVEQRIRSFPDFPTPGVVFRDISPVLKDPASFRAAIGLLARHLKATHGGRIDYIAGLDSRGFLFGPSLAQELGLGCVLIRKRGKLPGPTLWASYAELEIQKDALEPGQRVVVVDDLLATGGTMNAACELLGRLQAEVLECVSLVELTSLKGREKLAPVPFFSLLQYE DSELQLVEQRIRSFPDFPTPGVVFRDISPVLKDPASFRAAIGLLARHLKATHGGRIDYIAGLDSRGFLFGPSLAQELGLGCVLIRKRGKLPGPTLWASYSAELEIQKDALEPGQRVVVVDDLLATGGTMNAACELLGRLQAEVLECVSLVELTSLKGREKLAPVPFFSLLQYE 6fd8-a1-m1-cA_6fd8-a1-m2-cB Gamma-s crystallin dimer P22914 P22914 2.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 174 GTKITFYEDKNFQGRRYDCDCDCADFHTYLSRCNSIKVEGGTWAVYERPNFAGYMYILPQGEYPEYQRWMGLNDRLSSCRAVHLPSGGQYKIQIFEKGDFSGQMYETTEDCPSIMEQFHMREIHSCKVLEGVWIFYELPNYRGRQYLLDKKEYRKPIDWGAASPAVQSFRRIVE GTKITFYEDKNFQGRRYDCDCDCADFHTYLSRCNSIKVEGGTWAVYERPNFAGYMYILPQGEYPEYQRWMGLNDRLSSCRAVHLPSGGQYKIQIFEKGDFSGQMYETTEDCPSIMEQFHMREIHSCKVLEGVWIFYELPNYRGRQYLLDKKEYRKPIDWGAASPAVQSFRRIVE 6fde-a1-m1-cA_6fde-a1-m2-cA Crystal Structure of the HHD2 Domain of Whirlin : 3-helix conformation Q80VW5 Q80VW5 1.85 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 68 68 ARHLLTEQERATMMYYLAQYRGGTISVEAMVMALFELLNTHAKFSLLSEVRSIISPQDLDRFDHLVLR ARHLLTEQERATMMYYLAQYRGGTISVEAMVMALFELLNTHAKFSLLSEVRSIISPQDLDRFDHLVLR 6fdg-a1-m1-cB_6fdg-a1-m1-cD Novel crystal structure of DHNA-CoA Thioesterase from Staphylococcus aureus A0A166E508 A0A166E508 1.3 X-RAY DIFFRACTION 22 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 149 149 6fdg-a1-m1-cA_6fdg-a1-m1-cC MIYSITEIEARYAETDKMGVIYHGNYATWFEVARLDYISKLGFSYADMEKQGIISPVTDLNVNYKKSIFYPEKVKVKTWVEKYSRLRSVYKYEIFNEKGELATTGSTELICIKEDTFKPIRLDRYFPDWHEAYSKVQALNNEGKIVEIM MIYSITEIEARYAETDKMGVIYHGNYATWFEVARLDYISKLGFSYADMEKQGIISPVTDLNVNYKKSIFYPEKVKVKTWVEKYSRLRSVYKYEIFNEKGELATTGSTELICIKEDTFKPIRLDRYFPDWHEAYSKVQALNNEGKIVEIM 6fdg-a1-m1-cD_6fdg-a1-m1-cA Novel crystal structure of DHNA-CoA Thioesterase from Staphylococcus aureus A0A166E508 A0A166E508 1.3 X-RAY DIFFRACTION 24 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 149 155 6fdg-a1-m1-cB_6fdg-a1-m1-cC MIYSITEIEARYAETDKMGVIYHGNYATWFEVARLDYISKLGFSYADMEKQGIISPVTDLNVNYKKSIFYPEKVKVKTWVEKYSRLRSVYKYEIFNEKGELATTGSTELICIKEDTFKPIRLDRYFPDWHEAYSKVQALNNEGKIVEIM MIYSITEIEARYAETDKMGVIYHGNYATWFEVARLDYISKLGFSYADMEKQGIISPVTDLNVNYKKSIFYPEKVKVKTWVEKYSRLRSVYKYEIFNEKGELATTGSTELICIKEDTFKPIRLDRYFPDWHEAYSKVQALNNEGKIVEIMDGIDSL 6fdg-a1-m1-cD_6fdg-a1-m1-cC Novel crystal structure of DHNA-CoA Thioesterase from Staphylococcus aureus A0A166E508 A0A166E508 1.3 X-RAY DIFFRACTION 57 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 149 155 6fdg-a1-m1-cB_6fdg-a1-m1-cA MIYSITEIEARYAETDKMGVIYHGNYATWFEVARLDYISKLGFSYADMEKQGIISPVTDLNVNYKKSIFYPEKVKVKTWVEKYSRLRSVYKYEIFNEKGELATTGSTELICIKEDTFKPIRLDRYFPDWHEAYSKVQALNNEGKIVEIM MIYSITEIEARYAETDKMGVIYHGNYATWFEVARLDYISKLGFSYADMEKQGIISPVTDLNVNYKKSIFYPEKVKVKTWVEKYSRLRSVYKYEIFNEKGELATTGSTELICIKEDTFKPIRLDRYFPDWHEAYSKVQALNNEGKIVEIMDGIDSL 6fe4-a1-m1-cJ_6fe4-a1-m1-cI Crystal structure of the complex between Shiga toxin Stx2 B subunit and neutralising Nb113 3 X-RAY DIFFRACTION 14 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 116 119 6fe4-a1-m1-cG_6fe4-a1-m1-cF 6fe4-a1-m1-cG_6fe4-a1-m1-cH 6fe4-a1-m1-cH_6fe4-a1-m1-cI 6fe4-a1-m1-cJ_6fe4-a1-m1-cF QVQLQESGGGLVQPGGSLRLSCAASGFTFSSYYMSWVRQAPGKGPEWVSGINTGGVGTRYADSVKGRFTISRDNAKNTLYLQMNSLKPEDTALYYCAIGEGGNRNYWGQGTQVTVS QVQLQESGGGLVQPGGSLRLSCAASGFTFSSYYMSWVRQAPGKGPEWVSGINTGGVGTRYADSVKGRFTISRDNAKNTLYLQMNSLKPEDTALYYCAIGEGGNRNYWGQGTQVTVSSHH 6fey-a1-m1-cA_6fey-a1-m1-cB Crystal structure of Drosophila neural ectodermal development factor Imp-L2 with Drosophila DILP5 insulin Q09024 Q09024 3.48 X-RAY DIFFRACTION 88 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 196 207 DWLKFTKTPPTKLQQADGATIEIVCEMMGSQVPSIQWVVGHLPRSELDDLDAIVRVRSSHIIDHVLSEARTYTCVGRTGSKTIYASTVVHPPRSTPEKTYPGAQKPRIIYTEKTHLDLMGSNIQLPCRVHARPRAEITWLNNENKEIVQGHRHRVLANGDLLISEIKWEDMGNYKCIARNVVGKDTADTFVYPVLN RAFEADWLKFTKTPPTKLQQADGATIEIVCEMMGSQVPSIQWVVGHLPRSELDDLDSAIVRVRSSHIIDHVLSEARTYTCVGRTGSKTIYASTVVHPPRSSRLTPEKTYPGAQKPRIIYTEKTHLDLMGSNIQLPCRVHARPRAEITWLNNENKEIVQGHRHRVLANGDLLISEIKWEDMGNYKCIARNVVGKDTADTFVYPVLNEE 6ff2-a1-m1-cA_6ff2-a1-m1-cB CopZ metallochaperone Q2FV63 Q2FV63 1.3 X-RAY DIFFRACTION 17 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 67 67 SQEILNVEGMSCGHCKSAVESALNNIDGVTSADVNLENGQVSVQYDDSKVAVSQMKDAIEDQGYDVV SQEILNVEGMSCGHCKSAVESALNNIDGVTSADVNLENGQVSVQYDDSKVAVSQMKDAIEDQGYDVV 6ff6-a1-m1-cA_6ff6-a1-m2-cA Crystal structure of novel repeat protein BRIC1 2.5 X-RAY DIFFRACTION 86 1.0 32630 (synthetic construct) 32630 (synthetic construct) 222 222 FYQTFFDEADELLADMEQHLLDLVPESPDAEQLNAIFRAAHSIKGGAGTFGFTMLQYAVELMENMLDFARRGEMQLNTDIINLFLELKDLMQRMLDYYKNKPQSFYQAFFDMADVMLKVMEQLLKLDAAMLNAIFRAAHFIKGAAGTFGFTILQETTHLMENLLDEARRGEMQLNTDIINLFLETKDIMQEQLDAYKNSEEPDAASFEYICNALRQLALEAK FYQTFFDEADELLADMEQHLLDLVPESPDAEQLNAIFRAAHSIKGGAGTFGFTMLQYAVELMENMLDFARRGEMQLNTDIINLFLELKDLMQRMLDYYKNKPQSFYQAFFDMADVMLKVMEQLLKLDAAMLNAIFRAAHFIKGAAGTFGFTILQETTHLMENLLDEARRGEMQLNTDIINLFLETKDIMQEQLDAYKNSEEPDAASFEYICNALRQLALEAK 6ff7-a1-m1-cN_6ff7-a1-m1-cz human Bact spliceosome core structure Q9Y3B4 Q9Y3B4 4.5 ELECTRON MICROSCOPY 871 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 RLPPEVNRILYIRNLPYKITAEEMYDIFGKYGPIRQIRVGNTPETRGTAYVVYEDIFDAKNACDHLSGFNVCNRYLVVLYYNANRAFQKMDTKKKEEQLKL RLPPEVNRILYIRNLPYKITAEEMYDIFGKYGPIRQIRVGNTPETRGTAYVVYEDIFDAKNACDHLSGFNVCNRYLVVLYYNANRAFQKMDTKKKEEQLKL 6ffy-a1-m1-cA_6ffy-a1-m2-cA Structure of the mouse SorCS2-NGF complex Q9EPR5 Q9EPR5 3.9 X-RAY DIFFRACTION 122 1.0 10090 (Mus musculus) 10090 (Mus musculus) 918 918 QVSLISTSFVLKGDATHNQAMVHWTGENSSVILILTKYYHADMGKVLESSLWRSSDFGTTYTKLTLQPGVTTVIDNFYICPAKIILVSSSLGDREQSLFLSTDEGATFQKYPVPFLVETLLFHPKEEDKVLAYTKDSKLYVSSDLGKKWTLLQERVTKDHVFWAVSGVDDDPNLVHVEAQDLSGGYRYYTCLIYNCHIAPFSGPIDRGSLTVQDEYIFLKATSTNRTKYYVSYRRSDFVLMKLPKYALPKDLQIISTDEQQVFVAVQEWNQVDTYNLYQSDLRGVRYSLVLENVRSSRQAEENVVIDILEVRGVKGVFLANQKVDGKVTTVITYNKGRDWDYLRPPSTDMNGKPTNCQPPDCYLHLHLRWADNPYVSGTVHTKDTAPGLIMGAGNLGSQLVEYKEEMYITSDCGHTWRQVFEEEHHVLYLDHGGVIAAIKDTSIPLKILKFSVDEGHTWSTHNFTSTSVFVDGLLSEPGDETLVMTVFGHISFRSDWELVKVDFRPSFPRQCGEDDYSSWDLTDLQGDHCIMGQQRSYRKRKSTSWCVKGRSFTSALTSRVCKCRDSDFLCDYGFERSSSSESTANKCSANFWFNPLSPPEDCVLGQTYTSSLGYRKVVSNVCEGGVDLQQSPVQLQCPLQAPRGLQVSIRGEAVAVRPREDVLFVVRQEQGDVLTTKYQVDLGDGFKAMYVNLTLTGEPIRHHYESPGIYRVSVRAENMAGHDEAVLFVQVNSPLQALYLEVVPVIGVNQEVNLTAVLLNPNLTVFYWWIGHSLQPLLSLDNSVTTKFTDAGDVRVTVQAACGNSVLQDSRLVRVLDQFQVVPLRFSRELDTFNPNTPEWREDVGLVVTRLLSKETSIPEELLVTVVKPGLPTIADLYVLLPLTSDKRLAAVQQALNSHRISFILRGGLRILVELRD QVSLISTSFVLKGDATHNQAMVHWTGENSSVILILTKYYHADMGKVLESSLWRSSDFGTTYTKLTLQPGVTTVIDNFYICPAKIILVSSSLGDREQSLFLSTDEGATFQKYPVPFLVETLLFHPKEEDKVLAYTKDSKLYVSSDLGKKWTLLQERVTKDHVFWAVSGVDDDPNLVHVEAQDLSGGYRYYTCLIYNCHIAPFSGPIDRGSLTVQDEYIFLKATSTNRTKYYVSYRRSDFVLMKLPKYALPKDLQIISTDEQQVFVAVQEWNQVDTYNLYQSDLRGVRYSLVLENVRSSRQAEENVVIDILEVRGVKGVFLANQKVDGKVTTVITYNKGRDWDYLRPPSTDMNGKPTNCQPPDCYLHLHLRWADNPYVSGTVHTKDTAPGLIMGAGNLGSQLVEYKEEMYITSDCGHTWRQVFEEEHHVLYLDHGGVIAAIKDTSIPLKILKFSVDEGHTWSTHNFTSTSVFVDGLLSEPGDETLVMTVFGHISFRSDWELVKVDFRPSFPRQCGEDDYSSWDLTDLQGDHCIMGQQRSYRKRKSTSWCVKGRSFTSALTSRVCKCRDSDFLCDYGFERSSSSESTANKCSANFWFNPLSPPEDCVLGQTYTSSLGYRKVVSNVCEGGVDLQQSPVQLQCPLQAPRGLQVSIRGEAVAVRPREDVLFVVRQEQGDVLTTKYQVDLGDGFKAMYVNLTLTGEPIRHHYESPGIYRVSVRAENMAGHDEAVLFVQVNSPLQALYLEVVPVIGVNQEVNLTAVLLNPNLTVFYWWIGHSLQPLLSLDNSVTTKFTDAGDVRVTVQAACGNSVLQDSRLVRVLDQFQVVPLRFSRELDTFNPNTPEWREDVGLVVTRLLSKETSIPEELLVTVVKPGLPTIADLYVLLPLTSDKRLAAVQQALNSHRISFILRGGLRILVELRD 6fg9-a1-m1-cA_6fg9-a1-m1-cB Mouse SORCS2 ectodomain (sortilin related VPS10 domain containing receptor 2) Q9EPR5 Q9EPR5 4.2 X-RAY DIFFRACTION 136 0.993 10090 (Mus musculus) 10090 (Mus musculus) 915 918 QVSLISTSFVLKGDATHNQAMVHWTGENSSVILILTKYYHADMGKVLESSLWRSSDFGTTYTKLTLQPGVTTVIDNFYICPAKIILVSSSLGDREQSLFLSTDEGATFQKYPVPFLVETLLFHPKEEDKVLAYTKDSKLYVSSDLGKKWTLLQERVTKDHVFWAVSGVDDDPNLVHVEAQDLSGGYRYYTCLIYNCSAQPHIAPFSGPIDRGSLTVQDEYIFLKATSTNRTKYYVSYRRSDFVLMKLPKYALPKDLQIISTDEQQVFVAVQEWNQVDTYNLYQSDLRGVRYSLVLENVRSSRQAEENVVIDILEVRGVKGVFLANQKVDGKVTTVITYNKGRDWDYLRPPSTDMNGKPTNCQPPDCYLHLHLRWADNVHTKDTAPGLIMGAGNLGSQLVEYKEEMYITSDCGHTWRQVFEEEHHVLYLDHGGVIAAIKDTSIPLKILKFSVDEGHTWSTHNFTSTSVFVDGLLSEPTLVMTVFGHISFRSDWELVKVDFRPSFPRQCGEDDYSSWDLTDLQGDHCIMGQQRSYRKRKSTSWCVKGRSFTSALTSRVCKCRDSDFLCDYGFERSSSSESTANKCSANFWFNPLSPPEDCVLGQTYTSSLGYRKVVSNVCEGGVDLQQSPVQLQCPLQAPRGLQVSIRGEAVAVRPREDVLFVVRQEQGDVLTTKYQVDLGDGFKAMYVNLTLTGEPIRHHYESPGIYRVSVRAENMAGHDEAVLFVQVNSPLQALYLEVVPVIGVNQEVNLTAVLLPLNPNLTVFYWWIGHSLQPLLSLDNSVTTKFTDAGDVRVTVQAACGNSVLQDSRLVRVLDQFQVVPLRFSRELDTFNPNTPEWREDVGLVVTRLLSKETSIPEELLVTVVKPGLPTIADLYVLLPLTSDKRLAAVQQALNSHRISFILRGGLRILVELRD QVSLISTSFVLKGDATHNQAMVHWTGENSSVILILTKYYHADMGKVLESSLWRSSDFGTTYTKLTLQPGVTTVIDNFYICPAKIILVSSSLGDREQSLFLSTDEGATFQKYPVPFLVETLLFHPKEEDKVLAYTKDSKLYVSSDLGKKWTLLQERVTKDHVFWAVSGVDDDPNLVHVEAQDLSGGYRYYTCLIYNCSIAPFSGPIDRGSLTVQDEYIFLKATSTNRTKYYVSYRRSDFVLMKLPKYALPKDLQIISTDEQQVFVAVQEWNQVDTYNLYQSDLRGVRYSLVLENVRSSRQAEENVVIDILEVRGVKGVFLANQKVDGKVTTVITYNKGRDWDYLRPPSTDMNGKPTNCQPPDCYLHLHLRWADNPYVSGTVHTKDTAPGLIMGAGNLGSQLVEYKEEMYITSDCGHTWRQVFEEEHHVLYLDHGGVIAAIKDTSIPLKILKFSVDEGHTWSTHNFTSTSVFVDGLLSEPGDETLVMTVFGHISFRSDWELVKVDFRPSFPRQCGEDDYSSWDLTDLQGDHCIMGQQRSYRKRKSTSWCVKGRSFTSALTSRVCKCRDSDFLCDYGFERSSSSESTKCSANFWFNPLSPPEDCVLGQTYTSSLGYRKVVSNVCEGGVDLQQSPVQLQCPLQAPRGLQVSIRGEAVAVRPREDVLFVVRQEQGDVLTTKYQVDLGDGFKAMYVNLTLTGEPIRHHYESPGIYRVSVRAENMAGHDEAVLFVQVNSPLQALYLEVVPVIGVNQEVNLTAVLLPLNPNLTVFYWWIGHSLQPLLSLDNSVTTKFTDAGDVRVTVQAACGNSVLQDSRLVRVLDQFQVVPLRFSRELDTFNPNTPEWREDVGLVVTRLLSKETSIPEELLVTVVKPGLPTIADLYVLLPLTSDKRLAAVQQALNSHRISFILRGGLRILVELRD 6fga-a4-m1-cG_6fga-a4-m1-cH Crystal structure of TRIM21 E3 ligase, RING domain in complex with its cognate E2 conjugating enzyme UBE2E1 P19474 P19474 2.82 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 5olm-a1-m1-cA_5olm-a1-m1-cB 6fga-a1-m1-cA_6fga-a1-m1-cE 6fga-a2-m1-cB_6fga-a2-m1-cC 6fga-a3-m1-cD_6fga-a3-m1-cF 6s53-a1-m1-cA_6s53-a1-m1-cB 6s53-a2-m1-cH_6s53-a2-m1-cG RLTMMWEEVTCPICLDPFVEPVSIECGHSFCQECISQVGKGGGSVCPVCRQRFLLKNLRPNRQLANMVNNLKEISQE RLTMMWEEVTCPICLDPFVEPVSIECGHSFCQECISQVGKGGGSVCPVCRQRFLLKNLRPNRQLANMVNNLKEISQE 6fgk-a1-m1-cB_6fgk-a1-m1-cD Crystal structure of the small alarmone synthethase 2 from Bacillus subtilis P39583 P39583 3.2 X-RAY DIFFRACTION 59 0.995 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 184 185 6fgk-a1-m1-cC_6fgk-a1-m1-cA EDWKNELLVYKFALDALDTKFSIISQEYNGHNPIEHTKSRVKSFESIVNKLMRKGCEEHIHDIAGVRIICSFISDIYNVVNVLKQHEDLRIVKVKDYIQTPKPNGYRSLHLIIEMPVNLTNRVEYVKAEIQIRTIAMDFWASLEHKIYYKLNNDVPKQLTDELKEAAEIAHYLDEKMLGIKKEV MEDWKNELLVYKFALDALDTKFSIISQEYNGHNPIEHTKSRVKSFESIVNKLMRKGCKEHIHDIAGVRIICSFISDIYNVVNVLKQHEDLRIVKVKDYIQTPKPNGYRSLHLIIEMPVNLTNRVEYVKAEIQIRTIAMDFWASLEHKIYYKLNNDVPKQLTDELKEAAEIAHYLDEKMLGIKKEV 6fgk-a1-m1-cC_6fgk-a1-m1-cD Crystal structure of the small alarmone synthethase 2 from Bacillus subtilis P39583 P39583 3.2 X-RAY DIFFRACTION 53 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 181 185 6fgk-a1-m1-cA_6fgk-a1-m1-cB WKNELLVYKFALDALDTKFSIISQEYNGHNPIEHTKSRVKSFESIVNKLMRKGCEHIHDIAGVRIICSFISDIYNVVNVLKQHEDLRIVKVKDYIQTPKPNGYRSLHLIIEMPVNLTNRVEYVKAEIQIRTIAMDFWASLEHKIYYKLNNDVPKQLTDELKEAAEIAHYLDEKMLGIKKEV MEDWKNELLVYKFALDALDTKFSIISQEYNGHNPIEHTKSRVKSFESIVNKLMRKGCKEHIHDIAGVRIICSFISDIYNVVNVLKQHEDLRIVKVKDYIQTPKPNGYRSLHLIIEMPVNLTNRVEYVKAEIQIRTIAMDFWASLEHKIYYKLNNDVPKQLTDELKEAAEIAHYLDEKMLGIKKEV 6fgr-a1-m1-cA_6fgr-a1-m6-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 6fgr-a1-m1-cA_6fgr-a1-m5-cA IIKIIK IIKIIK 6fgr-a1-m1-cB_6fgr-a1-m6-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 6fgr-a1-m1-cB_6fgr-a1-m5-cB IIKIIK IIKIIK 6fgr-a1-m2-cA_6fgr-a1-m3-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m2-cB_6fgr-a1-m3-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m3-cA_6fgr-a1-m4-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m3-cB_6fgr-a1-m4-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m4-cA_6fgr-a1-m5-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m4-cB_6fgr-a1-m5-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m6-cA_6fgr-a1-m7-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m6-cB_6fgr-a1-m7-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m7-cA_6fgr-a1-m8-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m7-cB_6fgr-a1-m8-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m8-cA_6fgr-a1-m9-cA Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fgr-a1-m8-cB_6fgr-a1-m9-cB Crystal Structure of the Amyloid-like IIKIIK Segment from the S. aureus Biofilm-associated PSMalpha4 H9BRQ8 H9BRQ8 1.5 X-RAY DIFFRACTION 16 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 6 6 IIKIIK IIKIIK 6fh2-a1-m1-cB_6fh2-a1-m1-cA Protein arginine kinase McsB in the AMP-PN-bound state P0DMM5 P0DMM5 2.7 X-RAY DIFFRACTION 45 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 304 353 6fh1-a1-m1-cB_6fh1-a1-m1-cA 6fh3-a1-m1-cB_6fh3-a1-m1-cA NTAVSAWMSQEGPNSDIVLSSRIRLARNSEEAKQIVALFERAFRFELLKMSELQPIEKRVLVEKHLISPHLAEDSPFGACLLSENEEISIMINEEDHIRIQCLFPGLQLAEALEAASELDDWIEGHVNTGLRASVMMHLPALVLTQQINRIIPAINQLGLVVRGTYGEGSEALGNIFQISNKSEEDIVADLHTIVEQLIAQERAARQALVKTLGIQLEDKVFRSYGILANCRVIDSKEAAQCLSDVRLGIDLGYIKNVSRNILNELMILTQPGFLQQYAGGVLRPEERDVRRAALIRERLRMET GKFFNTAVSAWMSQEGPNSDIVLSSRIRLARNIVDFRFPTLFSSEEAKQIVALFERAFVHRPYGEAGRFELLKMSELQPIEKRVLVEKHLISPHLAEDSPFGACLLSENEEISIMINEEDHIRIQCLFPGLQLAEALEAASELDDWIEGHVNYAFDERLGYLTSCPTNVGTGLRASVMMHLPALVLTQQINRIIPAINQLGLVVRGTYGEGSEALGNIFQISNQITLGKSEEDIVADLHTIVEQLIAQERAARQALVKTLGIQLEDKVFRSYGILANCRVIDSKEAAQCLSDVRLGIDLGYIKNVSRNILNELMILTQPGFLQQYAGGVLRPEERDVRRAALIRERLRMETRL 6fh4-a2-m1-cD_6fh4-a2-m1-cC CtsR C-terminal domain with bound phospho-arginine A0A0C3K8Q6 A0A0C3K8Q6 2.49 X-RAY DIFFRACTION 61 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 76 78 6fh4-a1-m1-cA_6fh4-a1-m1-cB NNEVVLINNIISQINTHLSQAASDDIILRLLEDKVISEREAKMMVSVMDRSVLHIDLPERDELRARMMKAMLTSLK MNNEVVLINNIISQINTHLSQAASDDIILRLLEDKVISEREAKMMVSVMDRSVLHIDLPERDELRARMMKAMLTSLKL 6fhf-a1-m2-cA_6fhf-a1-m3-cA Highly active enzymes by automated modular backbone assembly and sequence design 1.85 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 360 360 6fhf-a1-m1-cA_6fhf-a1-m2-cA 6fhf-a1-m1-cA_6fhf-a1-m3-cA GSEFKPHISALNAPSLAQRYKDYFYIGAAVEPYQTTKEKDAKMLQRHFNMIVAENAMKPAALEPTEGNFQWADADRIVQFAKENGMELRFHTLVWHNQTPDWFFLDREGKPMVEETDPQKREENRELLLQRLENHIRAVVLRYKDDIKNWDVVNEVVEPNDPGGMRNSPWYQITGTEYIEVAFRAAREAGGEDIKLYMNDYNTEQEPKREYIYRLIKKLLEKGVPIDGVGHQAHVTIDRPPVDEIKKTIQRFADLGLDNQITELDVSLYGWPPRPAYPTYDAIPEERFQAQADRYRQLFELFEELKDHISAVTFWGIADNHTWLDDRAREYNDGVGKDAPFVFDPNYRVKPAYWAIINHK GSEFKPHISALNAPSLAQRYKDYFYIGAAVEPYQTTKEKDAKMLQRHFNMIVAENAMKPAALEPTEGNFQWADADRIVQFAKENGMELRFHTLVWHNQTPDWFFLDREGKPMVEETDPQKREENRELLLQRLENHIRAVVLRYKDDIKNWDVVNEVVEPNDPGGMRNSPWYQITGTEYIEVAFRAAREAGGEDIKLYMNDYNTEQEPKREYIYRLIKKLLEKGVPIDGVGHQAHVTIDRPPVDEIKKTIQRFADLGLDNQITELDVSLYGWPPRPAYPTYDAIPEERFQAQADRYRQLFELFEELKDHISAVTFWGIADNHTWLDDRAREYNDGVGKDAPFVFDPNYRVKPAYWAIINHK 6fhg-a1-m1-cB_6fhg-a1-m1-cA Crystal structure of the Ts2631 endolysin from Thermus scotoductus phage with the unique N-terminal moiety responsible for peptidoglycan anchoring A0A088FLK9 A0A088FLK9 1.95 X-RAY DIFFRACTION 84 1.0 1542447 (Thermus phage 2631) 1542447 (Thermus phage 2631) 153 156 MRILEPWNRWYRQKRAYRVRLTPIHYVVLHHTAGPENQTPEAIKRYHEEARGWPHIGYHYLVYRDGRVYKTLPNNAVPICVREFNPVSICVAAVGDFSAGVWPDDAPGWRALWELKQALAKAYPKALFVLHKNLVPTECPGRLTWELIQRKGG MRILEPWNRWYRQKRAYRVRLTPIHYVVLHHTAGPENQTPEAIKRYHEEARGWPHIGYHYLVYRDGRVYKTLPNNAVPICVREFNPVSICVAAVGDFSAGVWPDDAPGWRALWELKQALAKAYPKALFVLHKNLVPTECPGRLTWELIQRKGGGGQ 6fhm-a1-m1-cB_6fhm-a1-m1-cA Crystal structure of the F47E mutant of the lipoprotein localization factor, LolA P61316 P61316 2.39 X-RAY DIFFRACTION 300 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 185 193 ASMDAASDLKSRLDKVSSFHASFTQKVTDGSGAAVQEGQGDLWVKRPNLENWHMTQPDESILVSDGKTLWFYNPFVEQATATWLKDATGNTPFMLIARNQSSDWQQYNIKQNGDDFVLTPKASNGNLKQFTINVGRDGTIHQFSAVEQDDQRSSYQLKSQQNGAVDAAKFTFTPPQGVTVDDQRK LVPRGSHMASMDAASDLKSRLDKVSSFHASFTQKVTDGSGAAVQEGQGDLWVKRPNLENWHMTQPDESILVSDGKTLWFYNPFVEQATATWLKDATGNTPFMLIARNQSSDWQQYNIKQNGDDFVLTPKASNGNLKQFTINVGRDGTIHQFSAVEQDDQRSSYQLKSQQNGAVDAAKFTFTPPQGVTVDDQRK 6fhv-a1-m3-cA_6fhv-a1-m6-cA Crystal structure of Penicillium oxalicum Glucoamylase S7ZIW0 S7ZIW0 2 X-RAY DIFFRACTION 41 1.0 933388 (Penicillium oxalicum 114-2) 933388 (Penicillium oxalicum 114-2) 585 585 6fhv-a1-m1-cA_6fhv-a1-m5-cA 6fhv-a1-m2-cA_6fhv-a1-m4-cA LTPFIHKEGERSLQGILDNLGGRGKKTPGTAAGLFIASPNTENPNYYYTWTRDSALTAKCLIDLFEDSVFPIDRKYLETGIRDYVSSQAILQSVSNPSGTLKDGSGLGEPKFEIDLNPFSGAWGRPQRDGPALRATAMITYANYLISHGQKSDVSQVMWPIIANDLAYVGQYWNNTGFDLWEEVDGSSFFTIAVQHRALVEGSQLAKKLGKSCDACDSQPPQILCFLQSFWNGKYITSNINTQASRSGIDLDSVLGSIHTFDPEAACDDATFQPCSARALANHKVYVDSFRSIYKINAGLAEGSAANVGRYPEDVYQGGNPWYLATLGASELLYDALYQWDRLGKLEVSETSLSFFKDFDATVKIGSYSRNSKTYKKLTQSIKSYADGFIQLVQQYTPSNGSLAEQYDRNTAAPLSANDLTWSFASFLTATQRRDAVVPPSWGAKSANKVPTTCSASPVVGTYKAPTATFSSKTKCVPAKDIVPITFYLIENTYYGENVFMSGNITALGNWDAKKGFPLTANLYTQDQNLWFASVEFIPAGTPFEYKYYKVEPNGDITWEKGPNRVFVAPTGCPVQPHSNDVWQF LTPFIHKEGERSLQGILDNLGGRGKKTPGTAAGLFIASPNTENPNYYYTWTRDSALTAKCLIDLFEDSVFPIDRKYLETGIRDYVSSQAILQSVSNPSGTLKDGSGLGEPKFEIDLNPFSGAWGRPQRDGPALRATAMITYANYLISHGQKSDVSQVMWPIIANDLAYVGQYWNNTGFDLWEEVDGSSFFTIAVQHRALVEGSQLAKKLGKSCDACDSQPPQILCFLQSFWNGKYITSNINTQASRSGIDLDSVLGSIHTFDPEAACDDATFQPCSARALANHKVYVDSFRSIYKINAGLAEGSAANVGRYPEDVYQGGNPWYLATLGASELLYDALYQWDRLGKLEVSETSLSFFKDFDATVKIGSYSRNSKTYKKLTQSIKSYADGFIQLVQQYTPSNGSLAEQYDRNTAAPLSANDLTWSFASFLTATQRRDAVVPPSWGAKSANKVPTTCSASPVVGTYKAPTATFSSKTKCVPAKDIVPITFYLIENTYYGENVFMSGNITALGNWDAKKGFPLTANLYTQDQNLWFASVEFIPAGTPFEYKYYKVEPNGDITWEKGPNRVFVAPTGCPVQPHSNDVWQF 6fhv-a1-m5-cA_6fhv-a1-m6-cA Crystal structure of Penicillium oxalicum Glucoamylase S7ZIW0 S7ZIW0 2 X-RAY DIFFRACTION 70 1.0 933388 (Penicillium oxalicum 114-2) 933388 (Penicillium oxalicum 114-2) 585 585 6fhv-a1-m1-cA_6fhv-a1-m2-cA 6fhv-a1-m1-cA_6fhv-a1-m3-cA 6fhv-a1-m2-cA_6fhv-a1-m3-cA 6fhv-a1-m4-cA_6fhv-a1-m5-cA 6fhv-a1-m4-cA_6fhv-a1-m6-cA LTPFIHKEGERSLQGILDNLGGRGKKTPGTAAGLFIASPNTENPNYYYTWTRDSALTAKCLIDLFEDSVFPIDRKYLETGIRDYVSSQAILQSVSNPSGTLKDGSGLGEPKFEIDLNPFSGAWGRPQRDGPALRATAMITYANYLISHGQKSDVSQVMWPIIANDLAYVGQYWNNTGFDLWEEVDGSSFFTIAVQHRALVEGSQLAKKLGKSCDACDSQPPQILCFLQSFWNGKYITSNINTQASRSGIDLDSVLGSIHTFDPEAACDDATFQPCSARALANHKVYVDSFRSIYKINAGLAEGSAANVGRYPEDVYQGGNPWYLATLGASELLYDALYQWDRLGKLEVSETSLSFFKDFDATVKIGSYSRNSKTYKKLTQSIKSYADGFIQLVQQYTPSNGSLAEQYDRNTAAPLSANDLTWSFASFLTATQRRDAVVPPSWGAKSANKVPTTCSASPVVGTYKAPTATFSSKTKCVPAKDIVPITFYLIENTYYGENVFMSGNITALGNWDAKKGFPLTANLYTQDQNLWFASVEFIPAGTPFEYKYYKVEPNGDITWEKGPNRVFVAPTGCPVQPHSNDVWQF LTPFIHKEGERSLQGILDNLGGRGKKTPGTAAGLFIASPNTENPNYYYTWTRDSALTAKCLIDLFEDSVFPIDRKYLETGIRDYVSSQAILQSVSNPSGTLKDGSGLGEPKFEIDLNPFSGAWGRPQRDGPALRATAMITYANYLISHGQKSDVSQVMWPIIANDLAYVGQYWNNTGFDLWEEVDGSSFFTIAVQHRALVEGSQLAKKLGKSCDACDSQPPQILCFLQSFWNGKYITSNINTQASRSGIDLDSVLGSIHTFDPEAACDDATFQPCSARALANHKVYVDSFRSIYKINAGLAEGSAANVGRYPEDVYQGGNPWYLATLGASELLYDALYQWDRLGKLEVSETSLSFFKDFDATVKIGSYSRNSKTYKKLTQSIKSYADGFIQLVQQYTPSNGSLAEQYDRNTAAPLSANDLTWSFASFLTATQRRDAVVPPSWGAKSANKVPTTCSASPVVGTYKAPTATFSSKTKCVPAKDIVPITFYLIENTYYGENVFMSGNITALGNWDAKKGFPLTANLYTQDQNLWFASVEFIPAGTPFEYKYYKVEPNGDITWEKGPNRVFVAPTGCPVQPHSNDVWQF 6fi9-a4-m1-cG_6fi9-a4-m1-cH Crystal Structure of a zinc-responsive MarR family member, Lactococcus lactis ZitR A2RNS2 A2RNS2 2.8 X-RAY DIFFRACTION 122 1.0 416870 (Lactococcus cremoris subsp. cremoris MG1363) 416870 (Lactococcus cremoris subsp. cremoris MG1363) 144 144 6fi9-a1-m1-cA_6fi9-a1-m1-cB 6fi9-a2-m1-cC_6fi9-a2-m1-cD 6fi9-a3-m1-cE_6fi9-a3-m1-cF ALRNQIEQFLGAIMQFAENKHEILLGECESNVKLTSTQEHILMILAAEVSTNARIAEQLKISPAAVTKALKKLQEQELIKSSRATNDERVVLWSLTEKAIPVAKEHAAHHEKTLSTYQELGDKFTDEEQKVISQFLSVLTEEFR ALRNQIEQFLGAIMQFAENKHEILLGECESNVKLTSTQEHILMILAAEVSTNARIAEQLKISPAAVTKALKKLQEQELIKSSRATNDERVVLWSLTEKAIPVAKEHAAHHEKTLSTYQELGDKFTDEEQKVISQFLSVLTEEFR 6fia-a2-m1-cE_6fia-a2-m1-cF Structure of the human LINE-1 ORF1p coiled coil domain Q9UN81 Q9UN81 2.65 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 6fia-a1-m1-cB_6fia-a1-m1-cA 6fia-a1-m1-cC_6fia-a1-m1-cA 6fia-a1-m1-cC_6fia-a1-m1-cB 6fia-a2-m1-cE_6fia-a2-m1-cD 6fia-a2-m1-cF_6fia-a2-m1-cD EVENFEKNLEECITRITNTEKCLKELMELKTKARELREECRSLRSRCDQLEERVSAAEDEINEIKREGKFREKRIKRNEQSLQEIWDY EVENFEKNLEECITRITNTEKCLKELMELKTKARELREECRSLRSRCDQLEERVSAAEDEINEIKREGKFREKRIKRNEQSLQEIWDY 6fig-a1-m1-cB_6fig-a1-m1-cA Crystal structure of the ANX1 ectodomain from Arabidopsis thaliana Q9SR05 Q9SR05 1.48 X-RAY DIFFRACTION 46 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 385 386 5y96-a1-m1-cA_5y96-a1-m1-cB GQDLALSCGTSEASADQDKKKWEPDTKFLKTGNSIHATATYQDPSLLSTVPYMTARIFTAPATYEIPIKGDKRHLLRLYFYPSTYTGLNISNSYFTVEANDVTLLSNFSAAITCQALTQAYLVKEYSLAPTDKDVLSIKFTPSDKYRDAFAFINGIEVIQMPELFDTAALVGFTDQTMDAKTANLQSMFRLNVGGQDIPGSQDSGGLTRTWYNDAPYIFSAGLGVTLQASNNFRINYQNMPVSIAPADIYKTARSQGPNGDINLKSNLTWMFQIDKNFTYILRLHFCEFQLSKINQKVFNIYINNRTAQADTTPADIIGWTGEKGIPMYKDYAIYVDANNGGEEITLQMTPSTFGQPEYYDSSLNGLEIFKMDTMKNLAGPNPEP GQDLALSCGTSEASADQDKKKWEPDTKFLKTGNSIHATATYQDPSLLSTVPYMTARIFTAPATYEIPIKGDKRHLLRLYFYPSTYTGLNISNSYFTVEANDVTLLSNFSAAITCQALTQAYLVKEYSLAPTDKDVLSIKFTPSDKYRDAFAFINGIEVIQMPELFDTAALVGFTDQTMDAKTANLQSMFRLNVGGQDIPGSQDSGGLTRTWYNDAPYIFSAGLGVTLQASNNFRINYQNMPVSIAPADIYKTARSQGPNGDINLKSNLTWMFQIDKNFTYILRLHFCEFQLSKINQKVFNIYINNRTAQADTTPADIIGWTGEKGIPMYKDYAIYVDANNGGEEITLQMTPSTFGQPEYYDSSLNGLEIFKMDTMKNLAGPNPEPS 6fij-a1-m1-cA_6fij-a1-m1-cB Structure of the loading/condensing region (SAT-KS-MAT) of the cercosporin fungal non-reducing polyketide synthase (NR-PKS) CTB1 Q6DQW3 Q6DQW3 2.77 X-RAY DIFFRACTION 509 0.999 29003 (Cercospora nicotianae) 29003 (Cercospora nicotianae) 1275 1275 6fik-a1-m1-cA_6fik-a1-m1-cB AQMRVVAFGDQTYDCSEAVSQLLRVRDDAIVVDFLERAPAVLKAELARLSSEQQEETPRFATLAELVPRYRAGTLNPAVSQALTCIAQLGLFIRQHSSGQEAYPTAHDSCITGVCTGALTAVAVGSASSVTALVPLALHTVAVAVRLGARAWEIGSCLADARRGANGRYASWTSAVGGISPQDLQDRISAYTAEQALASVSVPYLSAAVGPGQSSVSAAPVILDAFLSTLLRPLTTTRLPITAPYHAPHLFTAKDVQHVTDCLPPSEAWPTVRIPIISFSRDEAVSRGASFPAAMSEAVRDCLIRPIALDRMAVSIANHARDLGKDSVLPSPIALSFSDKLGPQVNSHLPGSKSIPSAIGAEQQPMAKSPIAILAASGRFPQSSSMDQFWDVLINGVDTHELVPPTRWNAATHVSEDPKAKNVSGTGFGCWLHEAGEFDAAYFNMSPREAPQVDPAQRLALLTATEALEQAGVVPNRTSSTQKNRVGVWYGATSNDWMETNSAQNVDTYFIPGGNRAFIPGRVNYFHKFSGPSYTIDTACSSSLAALHMACNALWRGEVDTAIVGGTNVLTNPDMTAGLDAGHFLSRSGNCKTFDDEADGYCRGEAVVTLILKRLPDAQADKDPIQASILGIATNHSAEAASITRPHAGAQQDLFQQVLTETGLTANDISVCEMHGTGTQAGDSGETTSVVETLAPLNRSGSAVRTTPLYIGAVKSNVGHAESAAGVSSLAKILLMLKHSKIPPHVGIKTKLNHRLPDLAARNTHIARSEVPWPRPKNGKRRVLLNNFSAAGGNTCLVLEDAPEPEDSQEVDPREHHIVALSAKTPDSMVNNLTNMITWIDKHSGDSLATLPQLSYTTTARRVHHRHRAVATGTDLLQIRSSLQEQLDRRVSGERSIPHPPNGPSFVLAFTGQGSAFAGMGVDLYKRFASFRSDIARYDQICEGMSLPSIKAMFEDEKVFSTASPTLQQLTHVCFQMALYRLWKSLGVQAKAVVGHSLGEYAALYAAGVLSQSDTLYLVGRRAQLMEKHLSQGTHAMLAVRAKEEAIVAAIDGPPGEAYEFSCRNGEQRNVLGGTVAQIQAAKAALEAKKIRCQYLDTPMAFHTGQVDPILPELLQVAAACSIQDPQIPVISPAYGKVIRSAKDFQPEYFTHHCRSSVNMVDALQSAVEEGLLDKNVIGLEIGPGPVVTQFVKEAVGTTMQTFASINKDKDTWQLMTQALAKFYLAGASVEWSRYHEDFPGAQKVLELPAYGWALKNYWLQYVNDWSLRKGDPAV AQMRVVAFGDQTYDCSEAVSQLLRVRDDAIVVDFLERAPAVLKAELARLSSEQQEETPRFATLAELVPRYRAGTLNPAVSQALTCIAQLGLFIRQHSSGQEAYPTAHDSCITGVCTGALTAVAVGSASSVTALVPLALHTVAVAVRLGARAWEIGSCLADARRGANGRYASWTSAVGGISPQDLQDRISAYTAEQALASVSVPYLSAAVGPGQSSVSAAPVILDAFLSTLLRPLTTTRLPITAPYHAPHLFTAKDVQHVTDCLPPSEAWPTVRIPIISFSRDEAVSRGASFPAAMSEAVRDCLIRPIALDRMAVSIANHARDLGKDSVLPSPIALSFSDKLGPQVNSHLPTSKSIPSAIGAEQQPMAKSPIAILAASGRFPQSSSMDQFWDVLINGVDTHELVPPTRWNAATHVSEDPKAKNVSGTGFGCWLHEAGEFDAAYFNMSPREAPQVDPAQRLALLTATEALEQAGVVPNRTSSTQKNRVGVWYGATSNDWMETNSAQNVDTYFIPGGNRAFIPGRVNYFHKFSGPSYTIDTACSSSLAALHMACNALWRGEVDTAIVGGTNVLTNPDMTAGLDAGHFLSRSGNCKTFDDEADGYCRGEAVVTLILKRLPDAQADKDPIQASILGIATNHSAEAASITRPHAGAQQDLFQQVLTETGLTANDISVCEMHGTGTQAGDSGETTSVVETLAPLNRSGSAVRTTPLYIGAVKSNVGHAESAAGVSSLAKILLMLKHSKIPPHVGIKTKLNHRLPDLAARNTHIARSEVPWPRPKNGKRRVLLNNFSAAGGNTCLVLEDAPEPEDSQEVDPREHHIVALSAKTPDSMVNNLTNMITWIDKHSGDSLATLPQLSYTTTARRVHHRHRAVATGTDLLQIRSSLQEQLDRRVSGERSIPHPPNGPSFVLAFTGQGSAFAGMGVDLYKRFASFRSDIARYDQICEGMSLPSIKAMFEDEKVFSTASPTLQQLTHVCFQMALYRLWKSLGVQAKAVVGHSLGEYAALYAAGVLSQSDTLYLVGRRAQLMEKHLSQGTHAMLAVRAKEEAIVAAIDGPPGEAYEFSCRNGEQRNVLGGTVAQIQAAKAALEAKKIRCQYLDTPMAFHTGQVDPILPELLQVAAACSIQDPQIPVISPAYGKVIRSAKDFQPEYFTHHCRSSVNMVDALQSAVEEGLLDKNVIGLEIGPGPVVTQFVKEAVGTTMQTFASINKDKDTWQLMTQALAKFYLAGASVEWSRYHEDFPGAQKVLELPAYGWALKNYWLQYVNDWSLRKGDPAV 6fiv-a1-m1-cA_6fiv-a1-m2-cA STRUCTURAL STUDIES OF HIV AND FIV PROTEASES COMPLEXED WITH AN EFFICIENT INHIBITOR OF FIV PR P16088 P16088 1.9 X-RAY DIFFRACTION 137 1.0 11674 (Feline immunodeficiency virus (isolate Petaluma)) 11674 (Feline immunodeficiency virus (isolate Petaluma)) 112 112 1b11-a1-m1-cA_1b11-a1-m2-cA 1fiv-a1-m1-cA_1fiv-a1-m2-cA 2fiv-a1-m1-cA_2fiv-a1-m1-cB 3fiv-a1-m1-cA_3fiv-a1-m1-cB 3ogp-a1-m1-cA_3ogp-a1-m1-cB 3ogq-a1-m1-cA_3ogq-a1-m1-cB 4fiv-a1-m1-cA_4fiv-a1-m2-cA 5fiv-a1-m1-cA_5fiv-a1-m2-cA GTTTTLEKRPEILIFVNGYPIKFLLDTGADITILNRRDFQVKNSIENGRQNMIGVGGGKRGTNYINVHLEIRDENYKTQCIFGNVCVLEDNSLIVPLLGRDNMIKFNIRLVM GTTTTLEKRPEILIFVNGYPIKFLLDTGADITILNRRDFQVKNSIENGRQNMIGVGGGKRGTNYINVHLEIRDENYKTQCIFGNVCVLEDNSLIVPLLGRDNMIKFNIRLVM 6fiy-a1-m1-cA_6fiy-a1-m1-cB Crystal structure of a dye-decolorizing peroxidase D143AR232A variant from Klebsiella pneumoniae (KpDyP) A0A0W8ATM9 A0A0W8ATM9 1.09 X-RAY DIFFRACTION 61 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 299 303 6fks-a1-m1-cA_6fks-a1-m1-cB 6fkt-a1-m1-cA_6fkt-a1-m1-cB 6fl2-a1-m1-cA_6fl2-a1-m1-cB 6rpd-a1-m1-cB_6rpd-a1-m1-cA 6rpe-a1-m1-cB_6rpe-a1-m1-cA 6rr8-a1-m1-cB_6rr8-a1-m1-cA SQVQSGILPEHCRAAIWIEANLKGDVNALREASKIFVDNVATFQAKFPDAKLGAVVAFGNNVWRQLSGGEGADELKDFPVYGKGLAPSTQYDLLIHILSARHEVNFSVAQAALAAFGDAIDVKEEIHGFRWVEERDLSGFVAGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVPDQEMMIGRTKDANEEIDGDERPVTSHLSRVDLKEDGKGLKIVAQSLPYGTASGTHGLYFCAYCARLYNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLERIQALG PLGMSQVQSGILPEHCRAAIWIEANLKGDVNALREASKIFVDNVATFQAKFPDAKLGAVVAFGNNVWRQLSGGEGADELKDFPVYGKGLAPSTQYDLLIHILSARHEVNFSVAQAALAAFGDAIDVKEEIHGFRWVEERDLSGFVAGTENPAGEETRREVAVIKDGVDAGGSYVFVQRWEHNLKQLNRMSVPDQEMMIGRTKDANEEIDGDERPVTSHLSRVDLKEDGKGLKIVAQSLPYGTASGTHGLYFCAYCARLYNIEQQLLSMFGDTDGKRDAMLRFTKPVTGGYYFAPSLERIQALG 6fjq-a2-m2-cB_6fjq-a2-m3-cB Adenovirus species 48, fiber knob protein A4ZKK6 A4ZKK6 2.91 X-RAY DIFFRACTION 90 1.0 39641 (Human adenovirus 48) 39641 (Human adenovirus 48) 195 195 6fjq-a1-m1-cA_6fjq-a1-m2-cA 6fjq-a1-m1-cA_6fjq-a1-m3-cA 6fjq-a1-m2-cA_6fjq-a1-m3-cA 6fjq-a2-m1-cB_6fjq-a2-m2-cB 6fjq-a2-m1-cB_6fjq-a2-m3-cB DKLTLWTTPDPSPNCKIDQDKDSKLTFVLTKCGSQILANMSLLVVKGKFSMINNKVNGTDDYKKFTIKLLFDEKGVLLKDSSLDKEYWNYRSNNNNVGSAYEEAVGFMPSTTAYPKPPTPPTNPTTPLEKSQAKNKYVSNVYLGGQAGNPVATTVSFNKETGCTYSITFDFAWNKTYENVQFDSSFLTFSYIAQE DKLTLWTTPDPSPNCKIDQDKDSKLTFVLTKCGSQILANMSLLVVKGKFSMINNKVNGTDDYKKFTIKLLFDEKGVLLKDSSLDKEYWNYRSNNNNVGSAYEEAVGFMPSTTAYPKPPTPPTNPTTPLEKSQAKNKYVSNVYLGGQAGNPVATTVSFNKETGCTYSITFDFAWNKTYENVQFDSSFLTFSYIAQE 6fju-a1-m1-cB_6fju-a1-m1-cA Rpn11 homolog from Caldiarchaeum Subterraneum E6N8B9 E6N8B9 1.65 X-RAY DIFFRACTION 82 1.0 311458 (Candidatus Caldarchaeum subterraneum) 311458 (Candidatus Caldarchaeum subterraneum) 173 176 HMRVRIYPLALAKVVKHAASSLQREVAGLLVGKSAGKVLEIWDAVTGEQYGTYVQLDEMVMAKVAEELSKSDKNLYIVGWYHSHPGLDVFLSPTDIDTQKRYQAMFSKAVALVVDPVDYAKTRRISSLKFKVFQISKEGRVVSLPVSIGVHRAKLLESTFHALSTFDFMHILG HMRVRIYPLALAKVVKHAASSLQREVAGLLVGKSAGKVLEIWDAVTGEQYGTPAYVQLDEMVMAKVAEELSKSDKNLYIVGWYHSHPGLDVFLSPTDIDTQKRYQAMFSKAVALVVDPVDYAKTRRISSLKFKVFQISKEGRVVSLPVSIGVHRAKLLESTFHALSTFDFMHILGE 6fjw-a1-m1-cA_6fjw-a1-m2-cA Streptococcus thermophilus Cas6 A0A0A7HF73 A0A0A7HF73 2.7 X-RAY DIFFRACTION 24 1.0 1308 (Streptococcus thermophilus) 1308 (Streptococcus thermophilus) 231 231 KKLVFTFKRIDHPAQDLAVKFHGFLEQLDSDYVDYLHQQQTNPYATKVIQGKENTQWVVHLLTDDHEDKVFTLLQIKEVSLNDLPKLSVEKVEIQELGADKLLEIFNSEENQTYFSIIFETPTGFKSQGSYVIFPSRLIFQSLQKYGRLVENQPEIEEDTLDYLSEHSTITNYRLETSYFRVRQRIPAFRGKLTFKVQGAKTLKAYVKLLTFGEYSGLGKTSLGGGIKLEE KKLVFTFKRIDHPAQDLAVKFHGFLEQLDSDYVDYLHQQQTNPYATKVIQGKENTQWVVHLLTDDHEDKVFTLLQIKEVSLNDLPKLSVEKVEIQELGADKLLEIFNSEENQTYFSIIFETPTGFKSQGSYVIFPSRLIFQSLQKYGRLVENQPEIEEDTLDYLSEHSTITNYRLETSYFRVRQRIPAFRGKLTFKVQGAKTLKAYVKLLTFGEYSGLGKTSLGGGIKLEE 6fk0-a1-m1-cB_6fk0-a1-m1-cA Xray structure of domain-swapped cystatin E dimer Q15828 Q15828 2.9 X-RAY DIFFRACTION 245 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 111 113 VGELRDLSPDDPQVQKAAQAAVASYNMGSNSIYYFRDTHIIKAQSQLVAGIKYFLTMEMGSTDCRKTVDLTTCPLAAGAQQEKLRCDFEVLVVPWQNSSQLLKHNCVQMLE VGELRDLSPDDPQVQKAAQAAVASYNMGSNSIYYFRDTHIIKAQSQLVAGIKYFLTMEMGSTDCRKTGDHVDLTTCPLAAGAQQEKLRCDFEVLVVPWQNSSQLLKHNCVQML 6fkg-a1-m3-cA_6fkg-a1-m3-cB Crystal structure of the M.tuberculosis MbcT-MbcA toxin-antitoxin complex. P9WLP9 P9WLP9 1.8 X-RAY DIFFRACTION 16 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 182 183 6fkg-a1-m1-cA_6fkg-a1-m1-cB 6fkg-a1-m2-cA_6fkg-a1-m2-cB LDEGLVQRIDARGTIEWSETCYRYTGAHRDALSGEGARRFGGRWNPPLLFPAIYLADSAQACMVEVERAAQAASTTAEKMLEAAYRLHTIDVTDLAVLDLTTPQAREAVGLENDDIYGDDWSGCQAVGHAAWFLHMQGVLVPAAGGVGLVVTAYEQRTRPGQLQLRQSVDLTPALYQELRAT ALDEGLVQRIDARGTIEWSETCYRYTGAHRDALSGEGARRFGGRWNPPLLFPAIYLADSAQACMVEVERAAQAASTTAEKMLEAAYRLHTIDVTDLAVLDLTTPQAREAVGLENDDIYGDDWSGCQAVGHAAWFLHMQGVLVPAAGGVGLVVTAYEQRTRPGQLQLRQSVDLTPALYQELRAT 6fko-a1-m1-cA_6fko-a1-m1-cB Deoxyguanylosuccinate synthase (DgsS) quaternary structure with ATP, dGMP, hadacidin at 2.1 Angstrom resolution G3FFN6 G3FFN6 2.1 X-RAY DIFFRACTION 157 1.0 1076759 (Vibrio phage phiVC8) 1076759 (Vibrio phage phiVC8) 343 343 6fm1-a1-m1-cA_6fm1-a1-m1-cB 6rm2-a1-m1-cA_6rm2-a1-m1-cB 6rm2-a1-m2-cA_6rm2-a1-m2-cB 6rm2-a2-m1-cA_6rm2-a2-m1-cB MENVDLVIDLQFGSTGKGLIAGYLAEKNGYDTVINANMPNAGHTYINAEGRKWMHKVLPNGIVSPNLKRVMLGAGSVFSINRLMEEIEMSKDLLHDKVAILIHPMATVLDEEAHKKAEVGIATSIGSTGQGSMAAMVEKLQRDPTNNTIVARDVAQYDGRIAQYVCTVEEWDMALMASERILAEGAQGFSLSLNQEFYPYCTSRDCTPARFLADMGIPLPMLNKVIGTARCHPIRVGGTSGGHYPDQEELTWEQLGQVPELTTVTKKVRRVFSFSFIQMQKAMWTCQPDEVFLNFCNYLSPMGWQDIVHQIEVAAQSRYCDAEVKYLGFGPTFNDVELREDVM MENVDLVIDLQFGSTGKGLIAGYLAEKNGYDTVINANMPNAGHTYINAEGRKWMHKVLPNGIVSPNLKRVMLGAGSVFSINRLMEEIEMSKDLLHDKVAILIHPMATVLDEEAHKKAEVGIATSIGSTGQGSMAAMVEKLQRDPTNNTIVARDVAQYDGRIAQYVCTVEEWDMALMASERILAEGAQGFSLSLNQEFYPYCTSRDCTPARFLADMGIPLPMLNKVIGTARCHPIRVGGTSGGHYPDQEELTWEQLGQVPELTTVTKKVRRVFSFSFIQMQKAMWTCQPDEVFLNFCNYLSPMGWQDIVHQIEVAAQSRYCDAEVKYLGFGPTFNDVELREDVM 6fkw-a2-m1-cB_6fkw-a2-m1-cD Europium-containing methanol dehydrogenase I0JWN7 I0JWN7 1.4 X-RAY DIFFRACTION 88 1.0 1156937 (Methylacidiphilum fumariolicum SolV) 1156937 (Methylacidiphilum fumariolicum SolV) 576 576 4mae-a1-m1-cA_4mae-a1-m1-cB 6fkw-a1-m1-cA_6fkw-a1-m1-cC NDELIKLEKEPGQWVMQNKNYANTRYSELNQINTKNVSRLRLAWSFSTGALRGHEGGPLVVGTTMYVHSAYPNHVYALDLTQKPYAIKWQYTPVQNSQAVAVACCDVVNRGLAYANGKIFMTTLDGQIIALDANTGKELWKMKHADVTKGETITGAPLVVKDKVLVGVSGGEFGVRGRVGAYDINTGNRVWLAYSQGPDEEVLLDSDFNKEFPQHGGPGDGTKTWPGEQWKLGGGTTWGWYSYDPALDLFYYGTSNPGTWNAEQRKGGDNKWSCTIFARRPDTGKARWAYQMTPWDSWDYDGVNEMILPDLTVKGKKTPCLVHFDRNGFGYVLDRRTGQLIEAQPFVYVNWAKEISKENDRPVEIPEKRTKQGVDTKGICPNSMGGKDQQPAAFSPQTGLFYVPTNNMCMNYEGVEATYTAGAPYVGANVLMYSGHEGKDDYYGAFICYDALKGKRVWEIHEHFPVWSGPVVTAGGLAFYGTMDGWFKAVDIKTGKVLWQQKLGSGIIGNPITFLGPDKKQYVAVYSGVGGWFGIAVAQNLPPDDPYAGLGAVGVAYQAGLPKATTVGGELYVFAL NDELIKLEKEPGQWVMQNKNYANTRYSELNQINTKNVSRLRLAWSFSTGALRGHEGGPLVVGTTMYVHSAYPNHVYALDLTQKPYAIKWQYTPVQNSQAVAVACCDVVNRGLAYANGKIFMTTLDGQIIALDANTGKELWKMKHADVTKGETITGAPLVVKDKVLVGVSGGEFGVRGRVGAYDINTGNRVWLAYSQGPDEEVLLDSDFNKEFPQHGGPGDGTKTWPGEQWKLGGGTTWGWYSYDPALDLFYYGTSNPGTWNAEQRKGGDNKWSCTIFARRPDTGKARWAYQMTPWDSWDYDGVNEMILPDLTVKGKKTPCLVHFDRNGFGYVLDRRTGQLIEAQPFVYVNWAKEISKENDRPVEIPEKRTKQGVDTKGICPNSMGGKDQQPAAFSPQTGLFYVPTNNMCMNYEGVEATYTAGAPYVGANVLMYSGHEGKDDYYGAFICYDALKGKRVWEIHEHFPVWSGPVVTAGGLAFYGTMDGWFKAVDIKTGKVLWQQKLGSGIIGNPITFLGPDKKQYVAVYSGVGGWFGIAVAQNLPPDDPYAGLGAVGVAYQAGLPKATTVGGELYVFAL 6fln-a2-m1-cE_6fln-a2-m2-cE Crystal structure of the human TRIM25 coiled-coil and PRYSPRY domains Q14258 Q14258 3.6 X-RAY DIFFRACTION 332 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 364 4cfg-a1-m1-cB_4cfg-a1-m1-cA 4ltb-a1-m1-cA_4ltb-a1-m1-cB 5nt1-a1-m1-cA_5nt1-a1-m2-cA 5nt1-a2-m1-cI_5nt1-a2-m2-cE 5nt1-a3-m1-cE_5nt1-a3-m2-cI 5nt2-a1-m1-cA_5nt2-a1-m1-cV 5nt2-a1-m1-cI_5nt2-a1-m1-cN 6fln-a1-m1-cA_6fln-a1-m1-cB ASLSQASADLEATLRHKLTVMYSQINGASRALDDVRNRQQDVRMTANRKVEQLQQEYTEMKALLDASETTSTRKIKEEEKRVNSKFDTIYQILLKKKSEIQTLKEEIEQSLTKRDEFEFLEKASKLRGISTKPVYIPEVELNHKLIKGIHQSTIDLKNELKQCIGRLQTSLKAKVLETFLAKSRPELLEYYIKVILDYNTAHNKVALSECYTVASVAEMPQNYRPHPQRFTYCSQVLGLHCYKKGIHYWEVELQKNNFCGVGICYGSMNRQGPESRLGRNSASWCVEWFNTKISAWHNNVEKTLPSTKATRVGVLLNCDHGFVIFFAVADKVHLMYKFRVDFTEALYPAFWVFSAGATLSICSP ASLSQASADLEATLRHKLTVMYSQINGASRALDDVRNRQQDVRMTANRKVEQLQQEYTEMKALLDASETTSTRKIKEEEKRVNSKFDTIYQILLKKKSEIQTLKEEIEQSLTKRDEFEFLEKASKLRGISTKPVYIPEVELNHKLIKGIHQSTIDLKNELKQCIGRLQTSLKAKVLETFLAKSRPELLEYYIKVILDYNTAHNKVALSECYTVASVAEMPQNYRPHPQRFTYCSQVLGLHCYKKGIHYWEVELQKNNFCGVGICYGSMNRQGPESRLGRNSASWCVEWFNTKISAWHNNVEKTLPSTKATRVGVLLNCDHGFVIFFAVADKVHLMYKFRVDFTEALYPAFWVFSAGATLSICSP 6fls-a2-m1-cC_6fls-a2-m1-cD Pentapeptide repeat family protein from Clostridium botulinum 2.8 X-RAY DIFFRACTION 75 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 216 217 6fls-a1-m1-cA_6fls-a1-m1-cB MSISNPRIPADLIMVDDFSSYAQGYLYEEIPITQIKIYGEHIEYFDFSKSEINTSIFENCTFLDCSFEGASFVDVVFQNCNLSNSNFTDAYFERCQFIACKCVGVNMIDTIFKQTSMQRSNFQYSYFDKAKMTDIAFEDIDFTEVSITEAKLKRFKAKNSHFIKNNFFKTMLTGVDFTKNELVAPTVSSPPIEFQGAKISMVQAADLIGLWGIIVE MSISNPRIPADLIMVDDFSSYAQGYLYEEIPITQIKIYGEHIEYFDFSKSEINTSIFENCTFLDCSFEGASFVDVVFQNCNLSNSNFTDAYFERCQFIACKCVGVNMIDTIFKQTSMQRSNFQYSYFDKAKMTDIAFEDIDFTEVSITEAKLKRFKAKNSHFIKNNFFKTMLTGVDFTKNELVAPTVSSPPIEFQGAKISMVQAADLIGLWGIIVEQ 6fm3-a1-m1-cA_6fm3-a1-m2-cA Deoxyguanylosuccinate synthase (DgsS) structure with ADP at 1.9 Angstrom resolution G3FFN6 G3FFN6 1.95 X-RAY DIFFRACTION 152 1.0 1076759 (Vibrio phage phiVC8) 1076759 (Vibrio phage phiVC8) 304 304 HMENVDLVIDLQFGSTGKGLIAGYLAEKNGYDTVINANMPNAGHTYINAEGRKWMHKVLPNGIVSPNLKRVMLGAGSVFSINRLMEEIEMSKDLLHDKVAILIHPMATVLDESMAAMVEKLQRDPTNNTIVARDVAQYDGRIAQYVCTVEEWDMALMASERILAEGAQGFSLSLNQEFYPYCTSRDCTPARFLADMGIPLPMLNKVIGTARCHPIRVSGGHYPDQEELVRRVFSFSFIQMQKAMWTCQPDEVFLNFCNYLSPMGWQDIVHQIEVAAQSRYCDAEVKYLGFGPTFNDVELREDVM HMENVDLVIDLQFGSTGKGLIAGYLAEKNGYDTVINANMPNAGHTYINAEGRKWMHKVLPNGIVSPNLKRVMLGAGSVFSINRLMEEIEMSKDLLHDKVAILIHPMATVLDESMAAMVEKLQRDPTNNTIVARDVAQYDGRIAQYVCTVEEWDMALMASERILAEGAQGFSLSLNQEFYPYCTSRDCTPARFLADMGIPLPMLNKVIGTARCHPIRVSGGHYPDQEELVRRVFSFSFIQMQKAMWTCQPDEVFLNFCNYLSPMGWQDIVHQIEVAAQSRYCDAEVKYLGFGPTFNDVELREDVM 6fmg-a2-m1-cB_6fmg-a2-m1-cC Structure of the Mannose Transporter IIA Domain from Streptococcus pneumoniae A0A0T8BTT4 A0A0T8BTT4 1.8 X-RAY DIFFRACTION 157 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 140 140 6fmg-a1-m1-cA_6fmg-a1-m1-cD MGSIGIIIASHGEFAAGIHQSGSMIFGEQEKVQVVTFMPNEGPDDLYAKFNNAVAAFDAEDEVLVLADLWSGSPFNQASRVMGENPERKFAIITGLNLPMLIQAYTERLMDAAAGVEKVAANIIKEAKDGIKALPEELNP MGSIGIIIASHGEFAAGIHQSGSMIFGEQEKVQVVTFMPNEGPDDLYAKFNNAVAAFDAEDEVLVLADLWSGSPFNQASRVMGENPERKFAIITGLNLPMLIQAYTERLMDAAAGVEKVAANIIKEAKDGIKALPEELNP 6fn6-a1-m1-cB_6fn6-a1-m1-cA Modifying region (DH-ER-KR) of an insect fatty acid synthase (FAS) Q9VQL7 Q9VQL7 2.7 X-RAY DIFFRACTION 143 0.998 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1089 1093 ETIVEVDLSKEDDAFLAGHTIDGRILFPATGYMTLAWQTFAKMQGSEFHKTPVVMENLVFHRATILNKNAVVKFGINFFDGTGAFEICESGSLAVSGKITIPESIDNEELPLEEQTPSAVAKELGTNDVYKELRLRGYDYGGIFRGIVRSDTVASTGKLQWVDNWISFMDTMLQFSILSKNLRELYLPTRIERAVINPAKHFELLSALTKEEQVETGLPVQWYSDINVIKSAGVELRGLKANLAQRRPGTQAPPTLERYQFVPNINTTDLNENSEKARLHALDVAIQVIIENSSGAVKLKGVELANGRNPDVLVANRLLQIIEGEPVLTGDVAVVTSNNNEETITAALGDSGVRVVSKDVLKEPVEQNCHFVFGIDVLSRPDTKTLENSIASIRENGFLILEETLPTYTKTGRALLTKFGFVAVQEQSLGATRVLVLARKAVDLKTRKSVVVVATEQNFNWVDDLKAALATAATEEQYVYVVCQGEELFGAVGLMTCIKNENGGKLARLVFVQDAKAEKFSLTSTLYRQQLEKDLISNVLKNGAWGTFRHLKLETQQATLQVEHAYVNALVKGDLASLKWIEAAQNLETCTVYYAPINFRDVMLTSGKLAADALPGDLAEQDCVLGLEFAGRDTQGRRVMAMVPAKSLATTCVASKRMMWQIPEKWTMEEASTVPCVYSTVYYALVVRGQMKKGEKILIHAGSGGVGQAAISVALAHGLTVFTTVGSKEKREFLLKRFPKLQERNIGNSRDTSFEQLVLRETKGRGVDLVLNSLSEEKLQASIRCLGLNGRFLEIGKFDLSNNSPLGMSVFLKNTSFHGILLDSVMEGEEEMQNQVVSLVAEGIKTGAVVPLPTSVFNDQQVEQAFRFMASGKHIGKVVIKVRDEEAGKKALQPKPRLINAIPRTYMHPEKSYILVGGLGGFGLELTNWLVTRGARYIVLTSRSGVKTGYQGLMIRRWQERGVKVVIDTSDVTTAAGAKKLLENSNKLALVGGIFNLAAVLDPKVTATKYLDQFSRDICTELDYFICFSSVQTNYGLANSAMERICEQRQVSGFPGTAIQWGAHPVVASMLEVLFQGPHPAFLYKVVSH ETIVEVDLSKEDDAFLAGHTIDGRILFPATGYMTLAWQTFAKMQGSEFHKTPVVMENLVFHRATILNKNAVVKFGINFFDGTGAFEICESGSLAVSGKITIPESIDNEELPLEEQTPSAVAKELGTNDVYKELRLRGYDYGGIFRGIVRSDTVASTGKLQWVDNWISFMDTMLQFSILSKNLRELYLPTRIERAVINPAKHFELLSALTKEEQVETGLPVQWYSDINVIKSAGVELRGLKANLAQRRPGTQAPPTLERYQFVPNINTTDLNENSEKARLHALDVAIQVIIENSSGAVKLKGVELANGRNPDVLVANRLLQIIEGEPVLTGDVAVVTSNNNEETITAALGDSGVRVVSKDVLKEPVEQNCHFVFGIDVLSRPDTKTLENSIASIRENGFLILEETLPTYTKTGRALLTKFGFVAVQEQSLGATRVLVLARKAVDLKTRKSVVVVATEQNFNWVDDLKAALATAATEEQYVYVVCQGEELFGAVGLMTCIKNENGGKLARLVFVQDAKAEKFSLTSTLYRQQLEKDLISNVLKNGAWGTFRHLKLETQQATLQVEHAYVNALVKGDLASLKWIEAAQADDKNLETCTVYYAPINFRDVMLTSGKLAADALPGDLAEQDCVLGLEFAGRDTQGRRVMAMVPAKSLATTCVASKRMMWQIPEKWTMEEASTVPCVYSTVYYALVVRGQMKKGEKILIHAGSGGVGQAAISVALAHGLTVFTTVGSKEKREFLLKRFPKLQERNIGNSRDTSFEQLVLRETKGRGVDLVLNSLSEEKLQASIRCLGLNGRFLEIGKFDLSNNSPLGMSVFLKNTSFHGILLDSVMEGEEEMQNQVVSLVAEGIKTGAVVPLPTSVFNDQQVEQAFRFMASGKHIGKVVIKVRDEEAGKKALQPKPRLINAIPRTYMHPEKSYILVGGLGGFGLELTNWLVTRGARYIVLTSRSGVKTGYQGLMIRRWQERGVKVVIDTSDVTTAAGAKKLLENSNKLALVGGIFNLAAVLDPKVTATKYLDQFSRDICTELDYFICFSSVSQTNYGLANSAMERICEQRQVSGFPGTAIQWHPVVASMLEVLFQGPHPAFLYKVVSHH 6fnd-a2-m1-cD_6fnd-a2-m1-cC Crystal structure of Toxoplasma gondii AKMT B9Q0K5 B9Q0K5 2.101 X-RAY DIFFRACTION 83 0.993 1130821 (Toxoplasma gondii TgCatPRC2) 1130821 (Toxoplasma gondii TgCatPRC2) 408 410 6fnd-a1-m1-cB_6fnd-a1-m1-cA MANPLAPYTLPQIATVQVHVPGGRCLYTHDLEPGSIIFVETPVLVAIPSLDEELWSVLTEINDEEALELPPVWHLAAICSLTMLDDEKICLDKWVPDPDRAPSDDVLRVINRAGLQVHPLYERMLMVWRYNSFGHHTEQHGLVLYNRISMMAHSCRATACWHYGEDDAFILRARVLQAGDELTISYIGDDDLFSTNVRREVYGWLFTCQCVRCAAPVDNARGFRCPLCGTGAMFFTEDGETTSSACTICQAFPTQETIQEYLDFEQAYVDRLAETDKSDVPDAELVYNQATRVFAQHWVLYQLHTILFEGYRDAGNSESASFHQMERIYVSQVMPLASYTLAWLYEEMGDTMLNKAEESGPEVPAHLNVISRHFEDAYNLLYILCGEDHDYTVAAGTKTACEERLPAS ANPLAPYTLPQIATKVQVKHVPGGRCLYTHDLEPGSIIFVETPVLVAIPSLDEELWSVLTEINDEEALELPPVWHLAAICSLTMLDDEKKICLDKWVPDPDRAPSDDVLRVINRAGLQVHPKLYERMLMVWRYNSFGHHTEQHGLVLYNRISMMAHSCRATACWHYGEDDAFILRARVLQAGDELTISYIGDDDLFSTNVRREVYGWLFTCQCVRCAAPVDNARGFRCPLCGTGAMFFKTEDGETTSSACTICQAFPTQETIQEYLDFEQAYVDRLAETDSDVPDAELVYNQATRVFAQHWVLYQLHTILFEGYRDAGNSESASFHQMERIYVSQVMPLASYTLAWLYEEMGDTMLNKAEESGPEVPAHLNVISRHFEDAYNLLYILCGEDHDYTVAAGTKTACEERLPA 6fnz-a2-m1-cD_6fnz-a2-m1-cB Crystal Structure of domain-swapped C-terminal domain of human doublecortin O43602 O43602 2.23 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 81 6fnz-a1-m1-cC_6fnz-a1-m1-cA FVRPKLVTIIRSGVKPRKAVRVLLNKKTAHSFEQVLTDITEAIKLETGVVKKLYTLDGKQVTCLHDFFGDDDVFIACGP KDFVRPKLVTIIRSGVKPRKAVRVLLNKKTAHSFEQVLTDITEAIKLETGVVKKLYTLDGKQVTCLHDFFGDDDVFIACGP 6fog-a4-m1-cD_6fog-a4-m1-cB X-ray structure of homo sapiens Fumarylacetoacetate hydrolase domain containing protein 1 (FAHD1) in complex with inhibitor oxalate at 1.94A resolution. Q6P587 Q6P587 1.94 X-RAY DIFFRACTION 90 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 215 217 1saw-a1-m1-cA_1saw-a1-m1-cB 6fog-a1-m1-cC_6fog-a1-m1-cA 6fog-a2-m1-cE_6fog-a2-m1-cG 6fog-a3-m1-cF_6fog-a3-m1-cH 6foh-a1-m1-cA_6foh-a1-m1-cB PLSRFWEWGKNIVCVGRNYADHVREMRSAVLSEPVLFLKPSTAYAPEGSPILMPAYTRNLHHELELGVVMGKRCRAVPEAAAMDYVGGYALCLDMTARDVQDECKKKGLPWTLAKSFTASCPVSAFVPKEKIPDPHKLKLWLKVNGELRQEGETSSMIFSIPYIISYVSKIITLEEGDIILTGTPKGVGPVKENDEIEAGIHGLVSMTFKVEKPE ASRPLSRFWEWGKNIVCVGRNYADHVREMRSAVLSEPVLFLKPSTAYAPEGSPILMPAYTRNLHHELELGVVMGKRCRAVPEAAAMDYVGGYALCLDMTARDVQDECKKKGLPWTLAKSFTASCPVSAFVPKEKIPDPHKLKLWLKVNGELRQEGETSSMIFSIPYIISYVSKIITLEEGDIILTGTPKGVGPVKENDEIEAGIHGLVSMTFKVEKP 6fon-a1-m1-cA_6fon-a1-m1-cC Elongated conformer of the human copper chaperone for SOD1 complexed with human SOD1 O14618 O14618 3.05 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 252 252 QGTLCTLEFAVQMTSQSSVDAVRKSLQGVAGVQDVEVHLEDQMVLVHTTLPSQEVQALLEGTGRQAVLKGMGSGQLQNLGAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSAGLFQNPKQICSCDGLTIWEERGRPI QGTLCTLEFAVQMTSQSSVDAVRKSLQGVAGVQDVEVHLEDQMVLVHTTLPSQEVQALLEGTGRQAVLKGMGSGQLQNLGAAVAILGGPGTVQGVVRFLQLTPERCLIEGTIDGLEPGLHGLHVHQYGDLTNNCNSCGNHFNPDGASHGGPQDSDRHRGDLGNVRADADGRAIFRMEDEQLKVWDVIGRSLIIDEGEDDLGRGGHPLSKITGNSGERLACGIIARSAGLFQNPKQICSCDGLTIWEERGRPI 6foo-a1-m1-cC_6foo-a1-m1-cD Structure of Ryanodine Receptor 1 in nanodiscs in the presence of calcium and ATP P11716 P11716 8.2 ELECTRON MICROSCOPY 140 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 4168 4168 6foo-a1-m1-cA_6foo-a1-m1-cB 6foo-a1-m1-cA_6foo-a1-m1-cD 6foo-a1-m1-cB_6foo-a1-m1-cC QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAALPAEAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGENEEVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAALPAEAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGENEEVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 6fp5-a1-m1-cA_6fp5-a1-m1-cB Crystal structure of ZAD-domain of CG2712 protein from D.melanogaster Q960Q9 Q960Q9 2 X-RAY DIFFRACTION 70 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 84 86 MDALCRVCHTASPRCLPLFKPLDDPISGKPATLASILSYCSGLEILEAELFLPHHICPDCVAKLRLSLEFKRSVHRMDRILRQT SPMDALCRVCHTASPRCLPLFKPLDDPISGKPATLASILSYCSGLEILEAELFLPHHICPDCVAKLRLSLEFKRSVHRMDRILRQT 6fpd-a1-m1-cA_6fpd-a1-m2-cA AB21 protein from Agaricus bisporus A0A384E160 A0A384E160 2.5 X-RAY DIFFRACTION 96 1.0 5341 (Agaricus bisporus) 5341 (Agaricus bisporus) 191 191 IDFPFAHEDVVQKTVDDVRTLSNMSAAADQGVHDVNHSSKTLAERYKDDITALAVLPPRVDEFAKSFNDILWAGRTSATHGVSRITDFVDVTVVGIVEDIKTPEDRDEAVIELNAIAGQKSKPVDGFPGATRRLDGIWNTSSTDAANIAKVLAIEKTVKELTTAFSPAKAGYKKVQEALRAYASSITKLAA IDFPFAHEDVVQKTVDDVRTLSNMSAAADQGVHDVNHSSKTLAERYKDDITALAVLPPRVDEFAKSFNDILWAGRTSATHGVSRITDFVDVTVVGIVEDIKTPEDRDEAVIELNAIAGQKSKPVDGFPGATRRLDGIWNTSSTDAANIAKVLAIEKTVKELTTAFSPAKAGYKKVQEALRAYASSITKLAA 6fpg-a1-m1-cC_6fpg-a1-m1-cB Structure of the Ustilago maydis chorismate mutase 1 in complex with a Zea mays kiwellin A0A0D1DWQ2 A0A0D1DWQ2 1.8 X-RAY DIFFRACTION 130 1.0 237631 (Ustilago maydis 521) 237631 (Ustilago maydis 521) 262 264 6fpf-a1-m1-cC_6fpf-a1-m1-cA 6fpf-a2-m1-cE_6fpf-a2-m1-cD 6fpg-a2-m1-cG_6fpg-a2-m1-cF 6ti2-a1-m1-cB_6ti2-a1-m1-cC SEAAEIEAGDRLDALRDQLQRYETPIIQTILARSALGGRAPSEQDEVRAALSRNAFEPSEVISEWLQTESGARFRSTRPLPPAVEFITPVVLSRDTVLDKPVVGKGIFPIGRRPQDPTNMDEFLDTSLLSLNQSSTVDLASAVSLDVSLLHLVSARVLLGYPIALAKFDWLHDNFCHILTNTTLSKSQKLANIIQQLTDHKQEVNVLSRVEQKSKSLSHLFRNDIPYPPHTQDRILRLFQAYLIPITTQIEAAAILDHANKC GKSEAAEIEAGDRLDALRDQLQRYETPIIQTILARSALGGRAPSEQDEVRAALSRNAFEPSEVISEWLQTESGARFRSTRPLPPAVEFITPVVLSRDTVLDKPVVGKGIFPIGRRPQDPTNMDEFLDTSLLSLNQSSTVDLASAVSLDVSLLHLVSARVLLGYPIALAKFDWLHDNFCHILTNTTLSKSQKLANIIQQLTDHKQEVNVLSRVEQKSKSLSHLFRNDIPYPPHTQDRILRLFQAYLIPITTQIEAAAILDHANKC 6fpl-a1-m1-cA_6fpl-a1-m2-cA TETR(D) E147A MUTANT IN COMPLEX WITH TETRACYCLINE AND MAGNESIUM P0ACT4 P0ACT4 1.602 X-RAY DIFFRACTION 168 1.0 562 (Escherichia coli) 562 (Escherichia coli) 198 198 1bjz-a1-m1-cA_1bjz-a1-m2-cA 1ork-a1-m1-cA_1ork-a1-m2-cA 1qpi-a1-m1-cA_1qpi-a1-m2-cA 2fj1-a1-m1-cA_2fj1-a1-m2-cA 2o7o-a1-m1-cA_2o7o-a1-m2-cA 2tct-a1-m1-cA_2tct-a1-m2-cA 2trt-a1-m1-cA_2trt-a1-m2-cA 2vke-a1-m1-cA_2vke-a1-m2-cA 2vkv-a1-m1-cA_2vkv-a1-m2-cA 2x6o-a1-m1-cA_2x6o-a1-m2-cA 2x9d-a1-m1-cA_2x9d-a1-m2-cA 2xb5-a1-m1-cA_2xb5-a1-m2-cA 2xpu-a1-m1-cA_2xpu-a1-m2-cA 2xpv-a1-m1-cA_2xpv-a1-m2-cA 2xpw-a1-m1-cA_2xpw-a1-m2-cA 2xrl-a1-m1-cA_2xrl-a1-m2-cA 3fk6-a1-m1-cB_3fk6-a1-m1-cA 3fk7-a1-m1-cB_3fk7-a1-m1-cA 4abz-a1-m1-cAAA_4abz-a1-m2-cAAA 4aux-a1-m1-cA_4aux-a1-m2-cA 4b1r-a1-m1-cA_4b1r-a1-m2-cA 4b3a-a1-m1-cA_4b3a-a1-m2-cA 4d7m-a1-m1-cA_4d7m-a1-m2-cA 4d7n-a1-m1-cA_4d7n-a1-m2-cA 4v2g-a1-m1-cB_4v2g-a1-m1-cA 5fkk-a1-m1-cB_5fkk-a1-m1-cA 5fkl-a1-m1-cA_5fkl-a1-m2-cA 5fkm-a1-m1-cA_5fkm-a1-m2-cA 5fkn-a1-m1-cA_5fkn-a1-m1-cB 5fko-a1-m1-cA_5fko-a1-m2-cA 6fpm-a1-m1-cA_6fpm-a1-m2-cA 6fts-a1-m1-cA_6fts-a1-m2-cA 6qjw-a1-m1-cA_6qjw-a1-m2-cA 6qjx-a1-m1-cA_6qjx-a1-m2-cA 6rbl-a1-m1-cA_6rbl-a1-m2-cA 6rbm-a1-m1-cA_6rbm-a1-m2-cA 6rcr-a1-m1-cA_6rcr-a1-m2-cA 6rgx-a1-m1-cB_6rgx-a1-m1-cA 6yr1-a1-m1-cAAA_6yr1-a1-m2-cAAA 6yr2-a1-m1-cBBB_6yr2-a1-m1-cAAA SRLNRESVIDAALELLNETGIDGLTTRKLAQKLGIEQPTLYWHVKNKRALLDALAVEILARHHDYSLPAAGESWQSFLRNNAMSFRRALLRYRDGAKVHLGTRPDEKQYDTVETQLRFMTENGFSLRDGLYAISAVSHFTLGAVLAQQEHTAALNLPPLLREALQIMDSDDGEQAFLHGLESLIRGFEVQLTALLQIV SRLNRESVIDAALELLNETGIDGLTTRKLAQKLGIEQPTLYWHVKNKRALLDALAVEILARHHDYSLPAAGESWQSFLRNNAMSFRRALLRYRDGAKVHLGTRPDEKQYDTVETQLRFMTENGFSLRDGLYAISAVSHFTLGAVLAQQEHTAALNLPPLLREALQIMDSDDGEQAFLHGLESLIRGFEVQLTALLQIV 6fqm-a1-m1-cC_6fqm-a1-m1-cA 3.06A COMPLEX OF S.AUREUS GYRASE with imidazopyrazinone T1 AND DNA Q99XG5 Q99XG5 3.06 X-RAY DIFFRACTION 117 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 480 481 2xct-a2-m1-cU_2xct-a2-m1-cS 5cdo-a1-m1-cC_5cdo-a1-m1-cA NERNITSEMRESFLDYAMSVIVARALPDVRDGLKPVHRRILYGLNEQGMTPDKSYKKSARIVGDVMGKYHPHGDSSIYEAMVRMAQDFSYRYPLVDGQGNFGSMDGDGAAAMRTEARMTKITLELLRDINKDTIDFIDNYDGNEREPSVLPARFPNLLANGASGIAVGMATNIPPHNLTELINGVLSLSKNPDISIAELMEDIEGPDFPTAGLILGKSGIRRAYETGRGSIQMRSRAVIEERGGGRQRIVVTEIPFQVNKARMIEKIAELVRDKKIDGITDLRDETSLRTGVRVVIDVRKDANASVILNNLYKQTPLQTSFGVNMIALVNGRPKLINLKEALVHYLEHQKTVVRRRTQYNLRKAKDRAHILEGLRIALDHIDEIISTIRESDTDKVAMESLQQRFKLSEKQAQAILDMRLRRLTGLERDKIEAEYNELLNYISELETILADEEVLLQLVRDELTEIRDRFGDDRRTEIQL INERNITSEMRESFLDYAMSVIVARALPDVRDGLKPVHRRILYGLNEQGMTPDKSYKKSARIVGDVMGKYHPHGDSSIYEAMVRMAQDFSYRYPLVDGQGNFGSMDGDGAAAMRTEARMTKITLELLRDINKDTIDFIDNYDGNEREPSVLPARFPNLLANGASGIAVGMATNIPPHNLTELINGVLSLSKNPDISIAELMEDIEGPDFPTAGLILGKSGIRRAYETGRGSIQMRSRAVIEERGGGRQRIVVTEIPFQVNKARMIEKIAELVRDKKIDGITDLRDETSLRTGVRVVIDVRKDANASVILNNLYKQTPLQTSFGVNMIALVNGRPKLINLKEALVHYLEHQKTVVRRRTQYNLRKAKDRAHILEGLRIALDHIDEIISTIRESDTDKVAMESLQQRFKLSEKQAQAILDMRLRRLTGLERDKIEAEYNELLNYISELETILADEEVLLQLVRDELTEIRDRFGDDRRTEIQL 6fqq-a1-m1-cB_6fqq-a1-m1-cD Crystal structure of TALE homeobox domain transcription factor TGIF1 double alanine mutant bound to its consensus DNA Q15583 Q15583 3.25 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 63 GNLPKESVQILRDWLYEHRYNAYPSEQEKALLSQQTHLSTLQVCNWFINARRRLLPDMLRK AAGNLPKESVQILRDWLYEHRYNAYPSEQEKALLSQQTHLSTLQVCNWFINARRRLLPDMLRK 6fqr-a1-m1-cA_6fqr-a1-m1-cB Crystal structure of IMP3 RRM12 in complex with RNA (CCCC) O00425 O00425 2.1 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 158 160 SMNKLYIGNLSENAAPSDLESIFKDAKIPVSGPFLVKTGYAFVDCPDESWALKAIEALSGKIELHGKPIEVEHSVPKRQRIRKLQIRNIPPHLQWEVLDSLLVQYGVVESCEQVNTDSETAVVNVTYSSKDQARQALDKLNGFQLENFTLKVAYIPDE SMNKLYIGNLSENAAPSDLESIFKDAKIPVSGPFLVKTGYAFVDCPDESWALKAIEALSGKIELHGKPIEVEHSVPKRQRIRKLQIRNIPPHLQWEVLDSLLVQYGVVESCEQVNTDSETAVVNVTYSSKDQARQALDKLNGFQLENFTLKVAYIPDEMA 6fqx-a2-m1-cC_6fqx-a2-m1-cD Plasmodium falciparum 6-phosphogluconate dehydrogenase in its apo form, in complex with its cofactor NADP+ and in complex with its substrate 6-phosphogluconate Q8IKT2 Q8IKT2 2.8 X-RAY DIFFRACTION 341 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 468 468 6fqx-a1-m1-cA_6fqx-a1-m1-cB 6fqx-a3-m1-cE_6fqx-a3-m1-cF 6fqx-a4-m1-cG_6fqx-a4-m1-cH 6fqy-a1-m1-cB_6fqy-a1-m1-cA 6fqz-a1-m1-cA_6fqz-a1-m1-cB MCDIGLIGLAVMGQNLSLNISSKGFKIGVYNRTYERTEETMKRAKEENLVVYGYKTVEELINNLKKPRKVILLIKAGPAVDENISNILKHFEKGDIIIDGGNEWYINSERRIKLCKEKDVEYLAMGVSGGEAGARYGCSFMPGGSKYAYDCVKEILEKCSAQVGNSPCVTYIGPGSSGNYVKMVHNGIEYGDMQLISESYVIMKHILKYDNQKLSEVFNKWNEGILNSYLIEITANILAKKDDLTNNYLVDMILDIAGAKGTGKWTMLEATERGIPCPTMCAALDARNISVFKELRTKAESNFNKDNILIDPNEDLNDFENDLLNALYCCKIISYTQGLFLLKQVSEEMNWKLNLGEIARIWRGGCIIRAVFLDRIANAYKNNEKLELLFLDNEFSDDIKNKLPSLRKIVLMATKYSIPIPAFSASLAYFQMVTSQNLPLNLVQAQRDYFGSHTYRRTDREGNYHTLW MCDIGLIGLAVMGQNLSLNISSKGFKIGVYNRTYERTEETMKRAKEENLVVYGYKTVEELINNLKKPRKVILLIKAGPAVDENISNILKHFEKGDIIIDGGNEWYINSERRIKLCKEKDVEYLAMGVSGGEAGARYGCSFMPGGSKYAYDCVKEILEKCSAQVGNSPCVTYIGPGSSGNYVKMVHNGIEYGDMQLISESYVIMKHILKYDNQKLSEVFNKWNEGILNSYLIEITANILAKKDDLTNNYLVDMILDIAGAKGTGKWTMLEATERGIPCPTMCAALDARNISVFKELRTKAESNFNKDNILIDPNEDLNDFENDLLNALYCCKIISYTQGLFLLKQVSEEMNWKLNLGEIARIWRGGCIIRAVFLDRIANAYKNNEKLELLFLDNEFSDDIKNKLPSLRKIVLMATKYSIPIPAFSASLAYFQMVTSQNLPLNLVQAQRDYFGSHTYRRTDREGNYHTLW 6frg-a1-m1-cA_6frg-a1-m2-cA Crystal structure of G-1F mutant of Ssp DnaB Mini-Intein variant M86 Q55418 Q55418 1.535 X-RAY DIFFRACTION 69 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 158 158 SFAISGDSLISLASTGKRVPIKDLLGEKDFEIWAINEQTMKLESAKVSRVFCTGKKLVYTLKTRLGRTIKATANHRFLTIDGWKRLDELSLKEHIALPRKLESSSLQLAPEIEKLPQSDIYWDPIVSITETGVEEVFDLTVPGLRNFVANDIIVHASI SFAISGDSLISLASTGKRVPIKDLLGEKDFEIWAINEQTMKLESAKVSRVFCTGKKLVYTLKTRLGRTIKATANHRFLTIDGWKRLDELSLKEHIALPRKLESSSLQLAPEIEKLPQSDIYWDPIVSITETGVEEVFDLTVPGLRNFVANDIIVHASI 6fri-a2-m1-cD_6fri-a2-m1-cC Structure of LuxB from Photobacterium leiognathi P09141 P09141 2.297 X-RAY DIFFRACTION 128 1.0 553611 (Photobacterium leiognathi) 553611 (Photobacterium leiognathi) 321 323 6fri-a1-m1-cA_6fri-a1-m1-cB MNFGLFFLNFQLKGMTSEAVLDNMIDTIALVDKDEYHFKTAFVNEHHFSKNGIVGAPMTAASFLLGLTERLHIGSLNQVITTHHPVRIAEEASLLDQMSDGRFILGLSDCVSDFEMDFFKRQRDSQQQQFEACYEILNDGITTNYCYANNDFYNFPKISINPHCISKENLKQYILATSMGVVEWAAKKGLPLTYRWSDTLAEKENYYQRYLTVAAENNVDITHVDHQFPLLVNINPDRDIAKQEMRDYIRGYIAEAYPNTDQEEKIEELIKQHAVGTEDEYYESSKYALEKTGSKNVLLSFESMKNKAAVIDLINMVNEKI MNFGLFFLNFQLKGMTSEAVLDNMIDTIALVDKDEYHFKTAFVNEHHFSKNGIVGAPMTAASFLLGLTERLHIGSLNQVITTHHPVRIAEEASLLDQMSDGRFILGLSDCVSDFEMDFFKRQRDSQQQQFEACYEILNDGITTNYCYANNDFYNFPKISINPHCISKENLKQYILATSMGVVEWAAKKGLPLTYRWSDTLAEKENYYQRYLTVAAENNVDITHVDHQFPLLVNINPDRDIAKQEMRDYIRGYIAEAYPNTDQEEKIEELIKQHAVGTEDEYYESSKYALEKTGSKNVLLSFESMKNKAAVIDLINMVNEKIKK 6frl-a1-m1-cA_6frl-a1-m1-cB BrvH, a flavin-dependent halogenase from Brevundimonas sp. BAL3 B4WBL8 B4WBL8 2.5 X-RAY DIFFRACTION 88 0.998 391600 (Brevundimonas sp. BAL3) 391600 (Brevundimonas sp. BAL3) 491 492 DPRIRSVVIVGGGTAGWMTAAALVQHFRTAPLKITVVESSVGEATIPTIRRFYGQLGLRDDDVMRATQATCKLGIRFLDWSGPGSDFIHPFGLYGQDVKGIGFHHYWLKQRRAGDAAPLAAYSLGAALAAGGKFTLPSPHPPSQLSVFDWALHLDAGLFAQHLRAYAEAGGCARIDARIRSVELRPEDGFVRALTLDDGREVEGDLFVDCSGFKGLVIGEALGVGFEDWGRWLPCDAAYAVQSENRPGDAPAPFTRVTARSAGWQWGIPLRHRAGNGLVFSSAHLSDDQALAELMPHLLGDPLTEPRRIPFRPGRRSQAWAKNCVAIGLSSGFLEPLESTSIALIETGIERLKALFPDRRFAQPILDEFNDQTAREMERVRDFIILHYKLNRRTDTDFWRDCREMPVPETLERKIALWTARGQFVRYRWEMFHPASWLAIYDGFGLYPDHHDPAVDAMDPAYLARSLAEMRANIADLVARTPEHAQFLAGL DPRIRSVVIVGGGTAGWMTAAALVQHFRTAPLKITVVESVGEATIPTIRRFYGQLGLRDDDVMRATQATCKLGIRFLDWSGPGSDFIHPFGLYGQDVKGIGFHHYWLKQRRAGDAAPLAAYSLGAALAAGGKFTLPSPHPPSQLSVFDWALHLDAGLFAQHLRAYAEAGGCARIDARIRSVELRPEDGFVRALTLDDGREVEGDLFVDCSGFKGLVIGEALGVGFEDWGRWLPCDAAYAVQSENRPGDAPAPFTRVTARSAGWQWGIPLRHRAGNGLVFSSAHLSDDQALAELMPHLLGDPLTEPRRIPFRPGRRSQAWAKNCVAIGLSSGFLEPLESTSIALIETGIERLKALFPDRRFAQPILDEFNDQTAREMERVRDFIILHYKLNRRTDTDFWRDCREMPVPETLERKIALWTARGQFVRYRWEMFHPASWLAIYDGFGLYPDHHDPAVDAMDPAYLARSLAEMRANIADLVARTPEHAQFLAGLDP 6ft5-a1-m1-cA_6ft5-a1-m2-cA Structure of A3_A3, an artificial bi-domain protein based on two identical alphaRep A3 domains 1.94 X-RAY DIFFRACTION 48 1.0 32630 (synthetic construct) 32630 (synthetic construct) 185 185 3ltj-a2-m1-cA_3ltj-a2-m2-cA 3ltm-a1-m1-cB_3ltm-a1-m1-cA PEKVEMYIKNLQDDSYYVRRAAAYALGKIGDERAVEPLIKALKDEDAWVRRAAADALGQIGDERAVEPLIKALKDEDGWVRQSAAVALGQIGDERAVEPLIKALKDEDWFVRIAAAFALGEIGDERAVEPLIKALKDEDGWVRQSAADALGEIGGERVRAAMEKLAETGTGFARKVAVNYLETHK PEKVEMYIKNLQDDSYYVRRAAAYALGKIGDERAVEPLIKALKDEDAWVRRAAADALGQIGDERAVEPLIKALKDEDGWVRQSAAVALGQIGDERAVEPLIKALKDEDWFVRIAAAFALGEIGDERAVEPLIKALKDEDGWVRQSAADALGEIGGERVRAAMEKLAETGTGFARKVAVNYLETHK 6fte-a1-m1-cB_6fte-a1-m2-cB Crystal structure of an (R)-selective amine transaminase from Exophiala xenobiotica A0A0D2C5V9 A0A0D2C5V9 1.52 X-RAY DIFFRACTION 126 1.0 348802 (Exophiala xenobiotica) 348802 (Exophiala xenobiotica) 321 321 MATMEKVFAGYEARQKVLEASTNPFAKGVAWVEGKLVPVNEARIPLMDQGFLHSDLTYDVPSVWDGRFFRLDDHLDRFELSCSKMRFKMPLPRQEVKRILVDMVAKSGIKDAFVEIIVTRGLKGVRGLKAGESLTNNLYMWIQPYIWVMEPEMQRTGGSAIIARTVKRTSPGSMDPTVKNLQWGDLTRGMLEAQDRGADYPFLTDGDGNITEGSGFNIVFIKDGVLYTPDRGVLKGVTRKSVADAAKANGIEMRIEFVPTEMAYQCDECFMCTTAGGVMPITSMDGQPIGDGKVGPVTKEIWDGYWAMHYDDKYSFKIDYE MATMEKVFAGYEARQKVLEASTNPFAKGVAWVEGKLVPVNEARIPLMDQGFLHSDLTYDVPSVWDGRFFRLDDHLDRFELSCSKMRFKMPLPRQEVKRILVDMVAKSGIKDAFVEIIVTRGLKGVRGLKAGESLTNNLYMWIQPYIWVMEPEMQRTGGSAIIARTVKRTSPGSMDPTVKNLQWGDLTRGMLEAQDRGADYPFLTDGDGNITEGSGFNIVFIKDGVLYTPDRGVLKGVTRKSVADAAKANGIEMRIEFVPTEMAYQCDECFMCTTAGGVMPITSMDGQPIGDGKVGPVTKEIWDGYWAMHYDDKYSFKIDYE 6fto-a1-m1-cA_6fto-a1-m1-cB Crystal structure of the Chp2 chromoshadow domain in complex with N-terminal domain of chromatin remodeler Mit1 O42934 O42934 1.6 X-RAY DIFFRACTION 33 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 66 66 MKPPFQKKSWEDLVDCVKTVQQLDNGKLIAKIKWKNGYVSTHDNIIIHQKCPLKIIEYYEAHIKFT MKPPFQKKSWEDLVDCVKTVQQLDNGKLIAKIKWKNGYVSTHDNIIIHQKCPLKIIEYYEAHIKFT 6ftq-a1-m1-cA_6ftq-a1-m2-cA Crystal structure of human beta-ureidopropionase (beta-alanine synthase) - mutant T299C Q9UBR1 Q9UBR1 2.08 X-RAY DIFFRACTION 201 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 331 331 ELRKLDLPREAFEAASREDFELQGYAFEAAEEQLRRPRIVHVGLVQNRIPLPANAPVAEQVSALHRRIKAIVEVAAMCGVNIICFQEAWTMPFAFCTREKLPWTEFAESAEDGPTTRFCQKLAKNHDMVVVSPILERDSEHGDVLWNTAVVISNSGAVLGKTRKNHIPRMEGNLGHPVFQTQFGRIAVNIYGRHHPLNWLMYSINGAEIIFNPSATIGALSESLWPIEARNAAIANHCFTCAINRVGTEHFPNEFCSGYFYGSSYVAAPDSSRTPGLSRSRDGLLVAKLDLNLCQQVNDVWNFKMTGRYEMYARELAEAVKSNYSPTIVKE ELRKLDLPREAFEAASREDFELQGYAFEAAEEQLRRPRIVHVGLVQNRIPLPANAPVAEQVSALHRRIKAIVEVAAMCGVNIICFQEAWTMPFAFCTREKLPWTEFAESAEDGPTTRFCQKLAKNHDMVVVSPILERDSEHGDVLWNTAVVISNSGAVLGKTRKNHIPRMEGNLGHPVFQTQFGRIAVNIYGRHHPLNWLMYSINGAEIIFNPSATIGALSESLWPIEARNAAIANHCFTCAINRVGTEHFPNEFCSGYFYGSSYVAAPDSSRTPGLSRSRDGLLVAKLDLNLCQQVNDVWNFKMTGRYEMYARELAEAVKSNYSPTIVKE 6fue-a2-m1-cE_6fue-a2-m1-cF Periplasmic coiled coil domain of the FapF amyloid transporter C4IN73 C4IN73 1.78 X-RAY DIFFRACTION 35 1.0 452680 (Pseudomonas sp. UK4) 452680 (Pseudomonas sp. UK4) 36 37 6fue-a1-m1-cA_6fue-a1-m1-cB 6fue-a1-m1-cA_6fue-a1-m1-cC 6fue-a1-m1-cB_6fue-a1-m1-cC VDIETLKQELLELKQRYEAQQKALAVLEQRVRQVED DVDIETLKQELLELKQRYEAQQKALAVLEQRVRQVED 6fv3-a2-m1-cD_6fv3-a2-m1-cC Crystal structure of N-acetyl-D-glucosamine-6-phosphate deacetylase from Mycobacterium smegmatis. A0QU89 A0QU89 2.58 X-RAY DIFFRACTION 66 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 350 378 6fv3-a1-m1-cA_6fv3-a1-m1-cB 6fv4-a1-m1-cA_6fv4-a1-m1-cB HMLLTADTVLTGTELLRPGWLEIASDRVVAVGAGAPPAQADRNLGAATVVPGFVDTHLHGGGGGNFSAATDDETARAVALHRAHGSTTLVASLVTAGPEDLLRQVSGLARQVRAGLIDGIHLEGPWLSTLRCGAHQPVLMRDPDPGEIGRVLDAGEGTVRMVTIAPERDGALAAIAQLVNAGVVAAVGHTEATYDQTRAAIDAGATVGTHLFNAMRPIDRREPGPAVALTEDSRVTVEMIVDGVHVAPAIYRHITQTVGPERLSLITDAMAATGMSSTATMEQVFRLAVAHCGLPRDDALSLAVRQACVNPARALGLPAAGLAAGARADLVVLDHDLAVTAVMRAGEWVV HMLLTADTVLTGTELLRPGWLEIASDRVVAVGAGAPPAQADRNLGAATVVPGFVDTHLHGGGGGNFSAATDDETARAVALHRAHGSTTLVASLVTAGPEDLLRQVSGLARQVRAGLIDGIHLEGPWLSTLRCGAHQPVLMRDPDPGEIGRVLDAGEGTVRMVTIAPERDGALAAIAQLVNAGVVAAVGHTEATYDQTRAAIDAGATVGTHLFNAMRPIDRREPGPAVALTEDSRVTVEMIVDGVHVAPAIYRHITQTVGPERLSLITDAMAATGMSDGVYRLGPLDIDVVAGVARVAGTDTIAGSTATMEQVFRLAVAHCGLPRDDALSLAVRQACVNPARALGLPAAGLAAGARADLVVLDHDLAVTAVMRAGEWVV 6fv5-a1-m1-cA_6fv5-a1-m1-cB QTRT2, the non-catalytic subunit of murine tRNA-Guanine Transglycosylase B8ZXI1 B8ZXI1 2.179 X-RAY DIFFRACTION 106 1.0 10090 (Mus musculus) 10090 (Mus musculus) 377 382 MKLSLIKVVNGCRLGKIQNLGDCTVDIPGCLLYTRTGSAPHLTHQTLRNIHGVPGIAQLTLSSLAEHHEVLAEYKKGVGSFIGMPESLFYCSLHDPVTPGPAGYVTSKSVSVWGFGGRVEMTVSKFMAIQEALQPDWFQCLSDGEASCAETTSIKRARKSVDRSLLFLDSCLRLQEESEVLQKSVIIGVIEGGDVMEERLRSARETAKRPVGGFLLDGFQGDPAVTETRLHLLSSVTAELPEDKPRLICGVSRPDEVLECIERGVDLFESFFPYQVTERGCALTFTFDEMTSFEINLKEKKYQEDFDPLVRGCSCYCCKNHTRAYIHHLLMTNELLAGVLLMMHNFEHYFGFFCSIREALKNDTLAQLKELICRQMF RMMKLSLIKVVNGCRLGKIQNLGKAGDCTVDIPGCLLYTRTGSAPHLTHQTLRNIHGVPGIAQLTLSSLAEHHEVLAEYKKGVGSFIGMPESLFYCSLHDPVTPGPAGYVTSKSVSVWGFGGRVEMTVSKFMAIQEALQPDWFQCLSDGEASCAETTSIKRARKSVDRSLLFLDSCLRLQEESEVLQKSVIIGVIEGGDVMEERLRSARETAKRPVGGFLLDGFQGDPAVTETRLHLLSSVTAELPEDKPRLICGVSRPDEVLECIERGVDLFESFFPYQVTERGCALTFTFDEMTSFEINLKEKKYQEDFDPLVRGCSCYCCKNHTRAYIHHLLMTNELLAGVLLMMHNFEHYFGFFCSIREALKNDTLAQLKELICRQMF 6fws-a1-m1-cB_6fws-a1-m1-cA Structure of DinG in complex with ssDNA and ADPBeF P27296 P27296 2.5 X-RAY DIFFRACTION 35 1.0 562 (Escherichia coli) 562 (Escherichia coli) 683 686 ALTAALKAQIAAWYKALQEQIPDFIPRAPQRQMIADVAKTLAGEEGRHLAIEAPTGVGKTLSYLIPGIAIAREEQKTLVVSTANVALQDQIYSKDLPLLKKIIPDLKFTAAFGRGRYVCPRNLTALASTEPTQQDLLAFLDDELTPNNQEEQKRCAKLKGDLDTYKWDGLRDHTDIAIDDDLWRRLSTCPFFVARREIQEAEVVVANHALVMAAMESEAVLPDPKNLLLVLDEGHHLPDVARDALEMSAEITAPWYRLQLDLFTKLVATCMEQFRPKTIPPLAIPERLNAHCEELYELIASLNNILNLYMPAGQEAEHRFAMGELPDEVLEICQRLAKLTEMLRGLAELFLNDLSEKDIVRLHRLILQMNRALGMFEAQSKLWRLASLAQSSGAPVTKWATREEREGQLHLWFHCVGIRVSDQLERLLWRSIPHIIVTSATLRSLNSFSRLQEMSGLKEKAGDRFVALDSPFNHCEQGKIVIPRMRVEPSIDNEEQHIAEMAAFFREQVESKKHLGMLVLFASGRAMQRFLDYVTDLRLMLLVQGDQPRYRLVELHRKRVANGERSVLVGLQSFAEGLDLKGDLLSQVHIHKIAFPPIDSPVVITEGEWLKSLNRYPFEVQSLPSASFNLIQQVGRLIRSHGCWGEVVIYDKRLLTKNYGKRLLDALPVFPIEQPEVPEGIVK MALTAALKAQIAAWYKALQEQIPDFIPRAPQRQMIADVAKTLAGEEGRHLAIEAPTGVGKTLSYLIPGIAIAREEQKTLVVSTANVALQDQIYSKDLPLLKKIIPDLKFTAAFGRGRYVCPRNLTALASTEPTQQDLLAFLDDELTPNNQEEQKRCAKLKGDLDTYKWDGLRDHTDIAIDDDLWRRLSTECPFFVARREIQEAEVVVANHALVMAAMESEAVLPDPKNLLLVLDEGHHLPDVARDALEMSAEITAPWYRLQLDLFTKLVATCMEQFRPKTIPPLAIPERLNAHCEELYELIASLNNILNLYMPAGQEAEHRFAMGELPDEVLEICQRLAKLTEMLRGLAELFLNDLSEKTDIVRLHRLILQMNRALGMFEAQSKLWRLASLAQSSGAPVTKWATREEREGQLHLWFHCVGIRVSDQLERLLWRSIPHIIVTSATLRSLNSFSRLQEMSGLKEKAGDRFVALDSPFNHCEQGKIVIPRMRVEPSIDNEEQHIAEMAAFFREQVESKKHLGMLVLFASGRAMQRFLDYVTDLRLMLLVQGDQPRYRLVELHRKRVANGERSVLVGLQSFAEGLDLKGDLLSQVHIHKIAFPPIDSPVVITEGEWLKSLNRYPFEVQSLPSASFNLIQQVGRLIRSHGCWGEVVIYDKRLLTKNYGKRLLDALPVFPIEQPEVPEGIVK 6fwu-a1-m1-cB_6fwu-a1-m1-cA Crystal structure of human wild type beta-1,4-galactosyltransferase-1 (B4GalT1) in apo-closed dimeric form P15291 P15291 2.35 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 253 SLPACPEESPLLVGPMLIEFNMPVDLELVAKQNPNVKMGGRYAPRDCVSPHKVAIIIPFRNRQEHLKYWLYYLHPVLQRQQLDYGIYVINQAGDTIFNRAKLLNVGFQEALKDYDYTCFVFSDVDLIPMNDHNAYRCFSQPRHISVAMDKFGFSLPYVQYFGGVSALSKQQFLTINGFPNNYWGWGGEDDDIFNRLVFRGMSISRPNAVVGRCRMIRETMLSDGLNSLTYQVLDVQRYPLYTQITVDIGTP SLPACPEESPLLVGPMLIEFNMPVDLELVAKQNPNVKMGGRYAPRDCVSPHKVAIIIPFRNRQEHLKYWLYYLHPVLQRQQLDYGIYVINQAGDTIFNRAKLLNVGFQEALKDYDYTCFVFSDVDLIPMNDHNAYRCFSQPRHISVAMDKFGFSLPYVQYFGGVSALSKQQFLTINGFPNNYWGWGGEDDDIFNRLVFRGMSISRPNAVVGRCRMIRHSETMLSDGLNSLTYQVLDVQRYPLYTQITVDIGTP 6fx5-a1-m1-cA_6fx5-a1-m1-cB MITF dimerization mutant Q08874 Q08874 2.05 X-RAY DIFFRACTION 96 0.986 10090 (Mus musculus) 10090 (Mus musculus) 72 74 INDRIKELGTLIPKSNDPDMRWNKGTILKASVDYIRKLQQRAKDLENRQKKLEHANRHLLLRVQELEMQARA RFNINDRIKELGTLIPKSNDPDMRWNKGTILKASVDYIRKLQQRAKDLENRQKKLEHANRHLLLRVQELEMQAR 6fxa-a3-m1-cE_6fxa-a3-m1-cF Dimerization domain of TP901-1 CI repressor O48503 O48503 1.5 X-RAY DIFFRACTION 82 1.0 35345 (Lactococcus phage TP901-1) 35345 (Lactococcus phage TP901-1) 35 35 6fxa-a1-m1-cA_6fxa-a1-m1-cB 6fxa-a2-m1-cD_6fxa-a2-m1-cC ENIEETITVMKKLEEPRQKVVLDTAKIQLKEQDEQ ENIEETITVMKKLEEPRQKVVLDTAKIQLKEQDEQ 6fxc-a1-m1-cAv_6fxc-a1-m1-cBv The cryo-EM structure of hibernating 100S ribosome dimer from pathogenic Staphylococcus aureus Q2YSH7 Q2YSH7 6.76 ELECTRON MICROSCOPY 68 1.0 273036 (Staphylococcus aureus RF122) 273036 (Staphylococcus aureus RF122) 162 162 IRFEIHGDNLTITDAIRNYIEEKIGKLERYFNDVPNAVAHVKVKTYSNSATKIEVTIPLKNVTLRAEERNDDLYAGIDLINNKLERQVRKYKTRINRKSRDRGDQIEIIRSKEFSLKPMDSEEAVLQMNLLGHDFFVFTDRETDGTSIVYRRKDGKYGLIQT IRFEIHGDNLTITDAIRNYIEEKIGKLERYFNDVPNAVAHVKVKTYSNSATKIEVTIPLKNVTLRAEERNDDLYAGIDLINNKLERQVRKYKTRINRKSRDRGDQIEIIRSKEFSLKPMDSEEAVLQMNLLGHDFFVFTDRETDGTSIVYRRKDGKYGLIQT 6fxd-a1-m1-cA_6fxd-a1-m2-cA Crystal structure of MupZ from Pseudomonas fluorescens H7CRF0 H7CRF0 1.45 X-RAY DIFFRACTION 57 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 128 128 VLFQGPMNRTCMAMPYFEIPERHLEAFKAYCAVFIEKTSKEPGCLYYGFSFNGTQGHCREVYSDAQGLLNHLVNIAELNSEAFHLASIVRYEVHGPREELDKLRGPLAFMKPQFFELEQCFSRPSVVA VLFQGPMNRTCMAMPYFEIPERHLEAFKAYCAVFIEKTSKEPGCLYYGFSFNGTQGHCREVYSDAQGLLNHLVNIAELNSEAFHLASIVRYEVHGPREELDKLRGPLAFMKPQFFELEQCFSRPSVVA 6fxd-a1-m2-cB_6fxd-a1-m2-cA Crystal structure of MupZ from Pseudomonas fluorescens H7CRF0 H7CRF0 1.45 X-RAY DIFFRACTION 119 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 121 128 6fxd-a1-m1-cB_6fxd-a1-m1-cA NRTCMAMPYFEIPERHLEAFKAYCAVFIEKTSKEPGCLYYGFSFNGTQGHCREVYSDAQGLLNHLVNIAELNSEAFHLASIVRYEVHGPREELDKLRGPLAFMKPQFFELEQCFSRPSVVA VLFQGPMNRTCMAMPYFEIPERHLEAFKAYCAVFIEKTSKEPGCLYYGFSFNGTQGHCREVYSDAQGLLNHLVNIAELNSEAFHLASIVRYEVHGPREELDKLRGPLAFMKPQFFELEQCFSRPSVVA 6fxf-a1-m1-cA_6fxf-a1-m2-cA Crystal structure of the SAM domain of murine SLy1 Q8K352 Q8K352 2.05 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 65 65 6g8o-a1-m1-cA_6g8o-a1-m1-cB GPKTLHELLERIGLEEHTSTLLLNGYQTLEDFKELRETHLNELNIMDPQHRAKLLTAAELLLDYD GPKTLHELLERIGLEEHTSTLLLNGYQTLEDFKELRETHLNELNIMDPQHRAKLLTAAELLLDYD 6fxs-a1-m1-cA_6fxs-a1-m2-cB Structure of Trypanosoma brucei type B ribose 5-phosphate isomerase Q384D1 Q384D1 2.01 X-RAY DIFFRACTION 18 0.993 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 148 149 6fxs-a1-m2-cA_6fxs-a1-m1-cB MTRKVAIGADHIGFPIHESIVRYVREAGEEFEPVYIGPHSLERVDYPDYALNVARMVARGEADVGILVGSGIGMSIAANKVPGIRAALCFDHYTAVMARQHNDANVVCLGERTTGPAVLREIIMTFLQTPYSGEDRHTQRLEKIKAAE TRKVAIGADHIGFPIHESIVRYVREAGEEFEPVYIGPHSLERVDYPDYALNVARMVARGEADVGILVCGSGIGMSIAANKVPGIRAALCFDHYTAVMARQHNDANVVCLGERTTGPAVLREIIMTFLQTPYSGEDRHTQRLEKIKAAES 6fxs-a1-m1-cB_6fxs-a1-m2-cB Structure of Trypanosoma brucei type B ribose 5-phosphate isomerase Q384D1 Q384D1 2.01 X-RAY DIFFRACTION 26 1.0 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 149 149 6fxs-a1-m1-cA_6fxs-a1-m2-cA TRKVAIGADHIGFPIHESIVRYVREAGEEFEPVYIGPHSLERVDYPDYALNVARMVARGEADVGILVCGSGIGMSIAANKVPGIRAALCFDHYTAVMARQHNDANVVCLGERTTGPAVLREIIMTFLQTPYSGEDRHTQRLEKIKAAES TRKVAIGADHIGFPIHESIVRYVREAGEEFEPVYIGPHSLERVDYPDYALNVARMVARGEADVGILVCGSGIGMSIAANKVPGIRAALCFDHYTAVMARQHNDANVVCLGERTTGPAVLREIIMTFLQTPYSGEDRHTQRLEKIKAAES 6fxs-a1-m2-cA_6fxs-a1-m2-cB Structure of Trypanosoma brucei type B ribose 5-phosphate isomerase Q384D1 Q384D1 2.01 X-RAY DIFFRACTION 113 0.993 185431 (Trypanosoma brucei brucei TREU927) 185431 (Trypanosoma brucei brucei TREU927) 148 149 6fxs-a1-m1-cA_6fxs-a1-m1-cB MTRKVAIGADHIGFPIHESIVRYVREAGEEFEPVYIGPHSLERVDYPDYALNVARMVARGEADVGILVGSGIGMSIAANKVPGIRAALCFDHYTAVMARQHNDANVVCLGERTTGPAVLREIIMTFLQTPYSGEDRHTQRLEKIKAAE TRKVAIGADHIGFPIHESIVRYVREAGEEFEPVYIGPHSLERVDYPDYALNVARMVARGEADVGILVCGSGIGMSIAANKVPGIRAALCFDHYTAVMARQHNDANVVCLGERTTGPAVLREIIMTFLQTPYSGEDRHTQRLEKIKAAES 6fxw-a1-m1-cA_6fxw-a1-m4-cA Structure of Leishmania infantum type B ribose 5-phosphate isomerase A4I3S4 A4I3S4 1.57 X-RAY DIFFRACTION 121 1.0 5671 (Leishmania infantum) 5671 (Leishmania infantum) 153 153 6fxw-a1-m2-cA_6fxw-a1-m3-cA MPKRVALGCDHAAYATHQEIMDMVNASGAASKVMYMGPSSDTSVDYPDYAAQVCEAILKGEADTGILVCGTGIGMSIAANKFRGIRAALCYDHVTAQLSRQHNNAHILCIGVRTSGMEVIRDIIETFLTTEPLAEGRHGNRVDKITVIEEEQM MPKRVALGCDHAAYATHQEIMDMVNASGAASKVMYMGPSSDTSVDYPDYAAQVCEAILKGEADTGILVCGTGIGMSIAANKFRGIRAALCYDHVTAQLSRQHNNAHILCIGVRTSGMEVIRDIIETFLTTEPLAEGRHGNRVDKITVIEEEQM 6fxw-a1-m2-cA_6fxw-a1-m4-cA Structure of Leishmania infantum type B ribose 5-phosphate isomerase A4I3S4 A4I3S4 1.57 X-RAY DIFFRACTION 20 1.0 5671 (Leishmania infantum) 5671 (Leishmania infantum) 153 153 6fxw-a1-m1-cA_6fxw-a1-m3-cA MPKRVALGCDHAAYATHQEIMDMVNASGAASKVMYMGPSSDTSVDYPDYAAQVCEAILKGEADTGILVCGTGIGMSIAANKFRGIRAALCYDHVTAQLSRQHNNAHILCIGVRTSGMEVIRDIIETFLTTEPLAEGRHGNRVDKITVIEEEQM MPKRVALGCDHAAYATHQEIMDMVNASGAASKVMYMGPSSDTSVDYPDYAAQVCEAILKGEADTGILVCGTGIGMSIAANKFRGIRAALCYDHVTAQLSRQHNNAHILCIGVRTSGMEVIRDIIETFLTTEPLAEGRHGNRVDKITVIEEEQM 6fxw-a1-m3-cA_6fxw-a1-m4-cA Structure of Leishmania infantum type B ribose 5-phosphate isomerase A4I3S4 A4I3S4 1.57 X-RAY DIFFRACTION 23 1.0 5671 (Leishmania infantum) 5671 (Leishmania infantum) 153 153 6fxw-a1-m1-cA_6fxw-a1-m2-cA MPKRVALGCDHAAYATHQEIMDMVNASGAASKVMYMGPSSDTSVDYPDYAAQVCEAILKGEADTGILVCGTGIGMSIAANKFRGIRAALCYDHVTAQLSRQHNNAHILCIGVRTSGMEVIRDIIETFLTTEPLAEGRHGNRVDKITVIEEEQM MPKRVALGCDHAAYATHQEIMDMVNASGAASKVMYMGPSSDTSVDYPDYAAQVCEAILKGEADTGILVCGTGIGMSIAANKFRGIRAALCYDHVTAQLSRQHNNAHILCIGVRTSGMEVIRDIIETFLTTEPLAEGRHGNRVDKITVIEEEQM 6fyq-a1-m1-cA_6fyq-a1-m2-cA The crystal structure of a new transaminase from the marine bacterium Virgibacillus A0A4P1LYG1 A0A4P1LYG1 2 X-RAY DIFFRACTION 457 1.0 1473 (Virgibacillus pantothenticus) 1473 (Virgibacillus pantothenticus) 443 443 RSLTELDKKHFIHPFSSIQEQQHKGAKVIMKEGDGIYLTDVTGKTYIDGVSSLWNVNVGHGRVELAEAAAQQMKKMAFSSAFSTFSHEPAIRLAEKIASITPEGLNAVFFTSGGSESNDSAVKLVRHYWKIQGKPNKRKIISLKRSYHGVAAASTSVTGIPEFWGMAGHMMTDFLHVDTHYNNTTEQAVQSLCQAIEEAGPETIAAFFAEPVQGAGGVIIPPEDYFLRIREVCNAYGILFVADEVITGFGRTGKMFGIENWDVIPDVMTFAKGVTSGYFPLGGVVVSDPIHEVLKEKSVGTLFHGFTYSGHPTAAAVALKNIAIIKEERLVENSKRMGDALLHGLKKVKNRLEIVGDVRFVGLLGAVELMQNPATNKPFSSNLQVAPKVIEALHELGVICRSVTYDHTNIICLAPPLIINQKQVDKLVEVIYEAILKVQQQLG RSLTELDKKHFIHPFSSIQEQQHKGAKVIMKEGDGIYLTDVTGKTYIDGVSSLWNVNVGHGRVELAEAAAQQMKKMAFSSAFSTFSHEPAIRLAEKIASITPEGLNAVFFTSGGSESNDSAVKLVRHYWKIQGKPNKRKIISLKRSYHGVAAASTSVTGIPEFWGMAGHMMTDFLHVDTHYNNTTEQAVQSLCQAIEEAGPETIAAFFAEPVQGAGGVIIPPEDYFLRIREVCNAYGILFVADEVITGFGRTGKMFGIENWDVIPDVMTFAKGVTSGYFPLGGVVVSDPIHEVLKEKSVGTLFHGFTYSGHPTAAAVALKNIAIIKEERLVENSKRMGDALLHGLKKVKNRLEIVGDVRFVGLLGAVELMQNPATNKPFSSNLQVAPKVIEALHELGVICRSVTYDHTNIICLAPPLIINQKQVDKLVEVIYEAILKVQQQLG 6fzi-a1-m1-cA_6fzi-a1-m1-cD Crystal Structure of a Clostridial Dehydrogenase at 2.55 Angstroems Resolution Q0STD4 Q0STD4 2.55 X-RAY DIFFRACTION 30 1.0 289380 (Clostridium perfringens SM101) 289380 (Clostridium perfringens SM101) 331 332 6fzi-a1-m1-cC_6fzi-a1-m1-cB MVKVAINGFGRIGRLALRLMIDNPEFEVVAINDLTDAKTLAHLFKYDSAQGRFNGEIEVKEGAFVVNGKEIKVTAKSNPAELPWGELGVDVVLECTGFFASKEKASAHLTAGAKKVVISAPAGNDLPTVVYNVNHDILDGSEDVISGASCTTNCLAPMAKALNDNFGLNKGFMTTIHAYTNDQNTLDAPHKKGDLRRARAAAANIVPNSTGAAKAIGLVIPELAGKLDGNAQRVPVITGSLTELVCTLDKKVTVEEVNAAMKAASNESFGYTEDPIVSSDVIGISFGSLFDATQTKIMEVDGQQLVKVASWYDNEASYTNQLIRTLKCLVS MVKVAINGFGRIGRLALRLMIDNPEFEVVAINDLTDAKTLAHLFKYDSAQGRFNGEIEVKEGAFVVNGKEIKVTAKSNPAELPWGELGVDVVLECTGFFASKEKASAHLTAGAKKVVISAPAGNDLPTVVYNVNHDILDGSEDVISGASCTTNCLAPMAKALNDNFGLNKGFMTTIHAYTNDQNTLDAPHKKGDLRRARAAAANIVPNSTGAAKAIGLVIPELAGKLDGNAQRVPVITGSLTELVCTLDKKVTVEEVNAAMKAASNESFGYTEDPIVSSDVIGISFGSLFDATQTKIMEVDGQQLVKVASWYDNEASYTNQLIRTLKCLVSK 6fzi-a1-m1-cB_6fzi-a1-m1-cD Crystal Structure of a Clostridial Dehydrogenase at 2.55 Angstroems Resolution Q0STD4 Q0STD4 2.55 X-RAY DIFFRACTION 139 1.0 289380 (Clostridium perfringens SM101) 289380 (Clostridium perfringens SM101) 332 332 6fzi-a1-m1-cA_6fzi-a1-m1-cC MVKVAINGFGRIGRLALRLMIDNPEFEVVAINDLTDAKTLAHLFKYDSAQGRFNGEIEVKEGAFVVNGKEIKVTAKSNPAELPWGELGVDVVLECTGFFASKEKASAHLTAGAKKVVISAPAGNDLPTVVYNVNHDILDGSEDVISGASCTTNCLAPMAKALNDNFGLNKGFMTTIHAYTNDQNTLDAPHKKGDLRRARAAAANIVPNSTGAAKAIGLVIPELAGKLDGNAQRVPVITGSLTELVCTLDKKVTVEEVNAAMKAASNESFGYTEDPIVSSDVIGISFGSLFDATQTKIMEVDGQQLVKVASWYDNEASYTNQLIRTLKCLVSK MVKVAINGFGRIGRLALRLMIDNPEFEVVAINDLTDAKTLAHLFKYDSAQGRFNGEIEVKEGAFVVNGKEIKVTAKSNPAELPWGELGVDVVLECTGFFASKEKASAHLTAGAKKVVISAPAGNDLPTVVYNVNHDILDGSEDVISGASCTTNCLAPMAKALNDNFGLNKGFMTTIHAYTNDQNTLDAPHKKGDLRRARAAAANIVPNSTGAAKAIGLVIPELAGKLDGNAQRVPVITGSLTELVCTLDKKVTVEEVNAAMKAASNESFGYTEDPIVSSDVIGISFGSLFDATQTKIMEVDGQQLVKVASWYDNEASYTNQLIRTLKCLVSK 6fzi-a1-m1-cC_6fzi-a1-m1-cD Crystal Structure of a Clostridial Dehydrogenase at 2.55 Angstroems Resolution Q0STD4 Q0STD4 2.55 X-RAY DIFFRACTION 107 1.0 289380 (Clostridium perfringens SM101) 289380 (Clostridium perfringens SM101) 331 332 6fzi-a1-m1-cA_6fzi-a1-m1-cB VKVAINGFGRIGRLALRLMIDNPEFEVVAINDLTDAKTLAHLFKYDSAQGRFNGEIEVKEGAFVVNGKEIKVTAKSNPAELPWGELGVDVVLECTGFFASKEKASAHLTAGAKKVVISAPAGNDLPTVVYNVNHDILDGSEDVISGASCTTNCLAPMAKALNDNFGLNKGFMTTIHAYTNDQNTLDAPHKKGDLRRARAAAANIVPNSTGAAKAIGLVIPELAGKLDGNAQRVPVITGSLTELVCTLDKKVTVEEVNAAMKAASNESFGYTEDPIVSSDVIGISFGSLFDATQTKIMEVDGQQLVKVASWYDNEASYTNQLIRTLKCLVSK MVKVAINGFGRIGRLALRLMIDNPEFEVVAINDLTDAKTLAHLFKYDSAQGRFNGEIEVKEGAFVVNGKEIKVTAKSNPAELPWGELGVDVVLECTGFFASKEKASAHLTAGAKKVVISAPAGNDLPTVVYNVNHDILDGSEDVISGASCTTNCLAPMAKALNDNFGLNKGFMTTIHAYTNDQNTLDAPHKKGDLRRARAAAANIVPNSTGAAKAIGLVIPELAGKLDGNAQRVPVITGSLTELVCTLDKKVTVEEVNAAMKAASNESFGYTEDPIVSSDVIGISFGSLFDATQTKIMEVDGQQLVKVASWYDNEASYTNQLIRTLKCLVSK 6fzo-a1-m1-cD_6fzo-a1-m1-cA SMURFP-Y56F mutant 2.3 X-RAY DIFFRACTION 88 1.0 32630 (synthetic construct) 32630 (synthetic construct) 131 133 6fzo-a1-m1-cB_6fzo-a1-m1-cC TSEQRVNIATLLTENKKKIVDKASQDLWRRHPDLIAPGGIAFSQRDRALCLRDFGWFLHLITFCLLAGDKGPIESIGLISIREMYNSLGVPVPAMMESIRCLKEASLSLLDEEDANETAPYFDYIIKAMSH KTSEQRVNIATLLTENKKKIVDKASQDLWRRHPDLIAPGGIAFSQRDRALCLRDFGWFLHLITFCLLAGDKGPIESIGLISIREMYNSLGVPVPAMMESIRCLKEASLSLLDEEDANETAPYFDYIIKAMSHH 6fzo-a1-m1-cD_6fzo-a1-m1-cB SMURFP-Y56F mutant 2.3 X-RAY DIFFRACTION 50 1.0 32630 (synthetic construct) 32630 (synthetic construct) 131 133 6fzo-a1-m1-cA_6fzo-a1-m1-cC TSEQRVNIATLLTENKKKIVDKASQDLWRRHPDLIAPGGIAFSQRDRALCLRDFGWFLHLITFCLLAGDKGPIESIGLISIREMYNSLGVPVPAMMESIRCLKEASLSLLDEEDANETAPYFDYIIKAMSH MKTSEQRVNIATLLTENKKKIVDKASQDLWRRHPDLIAPGGIAFSQRDRALCLRDFGWFLHLITFCLLAGDKGPIESIGLISIREMYNSLGVPVPAMMESIRCLKEASLSLLDEEDANETAPYFDYIIKAMSH 6fzs-a1-m1-cA_6fzs-a1-m2-cB Crystal structure of Smad5-MH1 bound to the GGCGC site. Q99717 Q99717 2.31 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 127 5x6m-a1-m1-cE_5x6m-a1-m1-cB 5x6m-a1-m1-cF_5x6m-a1-m1-cA 6fzt-a1-m2-cB_6fzt-a1-m1-cA FTSPAVKRLLGWKQGDEEEKWAEKAVDALVKKLKKKKGAMEELEKALSSPGQPSKCVTIPRSLDGRLQVSHRKGLPHVIYCRVWRWPDLQSHHELKPLDICEFPFGSKQKEVCINPYHYKRVESP FTSPAVKRLLGWKQGDEEEKWAEKAVDALVKKLKKKKGAMEELEKALSSPGQPSKCVTIPRSLDGRLQVSHRKGLPHVIYCRVWRWPDLQSHHELKPLDICEFPFGSKQKEVCINPYHYKRVESPVL 6g0k-a1-m1-cB_6g0k-a1-m1-cA Crystal structure of Enterococcus faecium D63r Penicillin-Binding protein 5 (PBP5fm) Q47759 Q47759 2.9 X-RAY DIFFRACTION 132 0.995 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 609 629 ETQAVEAGEKTVEQFVQALNKGDYNKAAGMASKKAANKSALSEKEILEKYQNIYGAADVKGLEISNLKVDKKDDSTYSFSYKAKMNTSLGELKDLSYKGTLDRNDGKTTINWQPNLVFPEMEGNDKVSLTTQEATRGNILDRNGEPLATTGKLKQLGVVIKAIASAFDLTEDAINQAISQSWVQPDYFVPLKIIATIQEVDGRYYPLGEAAAQLIGYVGDITAEDIDKNPELSSNGKIGRSGLEMAFDKDLRGTTGGKLSITDTDGVEKKVLIEHEVQNGKDIKLTIDAKAQKTAFDSLGGKAGSTVATTPKTGDLLALASSPSYDPNKMTNGISQEDYKAYEENPEQPFISRFATGYAPGSTFKMITAAIGLDNGTIDPNEVLTINGLKWQKDSSWGSYQVTRVSDVSHVDLKTALIYSDNIYMAQETLKMGEKNFRAGLDKFIFGEDLDLPISMNPAQISNEESFNSDILLADTGYGQGELLINPIQQAAMYSVFANNGTLVYPKLIADKETKDKKNVIGETAVQTIVPDLREVVQDVNGTAHSLSALGIPLAAKTGTAEKENSFLFAFNPDNQGYMMVSMLENKEDDDSATKRAPELLQYLNQNYQ TQAVEAGEKTVEQFVQALNKGDYNKAAGMASKKAANKSALSEKEILEKYQNIYGAADVKGLEISNLKVDKKDDSTYSFSYKAKMNTSLGELKDLSYKGTLDRNDGKTTINWQPNLVFPEMEGNDKVSLTTQEATRGNILDRNGEPLATTGKLKQLGVVPSKLGDGDEKTANIKAIASAFDLTEDAINQAISQSWVQPDYFVPLKIIDGATPELPAGATIQEVDGRYYPLGEAAAQLIGYVGDITAEDIDKNPELSSNGKIGRSGLEMAFDKDLRGTTGGKLSITDTDGVEKKVLIEHEVQNGKDIKLTIDAKAQKTAFDSLGGKAGSTVATTPKTGDLLALASSPSYDPNKMTNGISQEDYKAYEENPEQPFISRFATGYAPGSTFKMITAAIGLDNGTIDPNEVLTINGLKWQKDSSWGSYQVTRVSDVSHVDLKTALIYSDNIYMAQETLKMGEKNFRAGLDKFIFGEDLDLPISMNPAQISNEESFNSDILLADTGYGQGELLINPIQQAAMYSVFANNGTLVYPKLIADKETKDKKNVIGETAVQTIVPDLREVVQDVNGTAHSLSALGIPLAAKTGTAENSFLFAFNPDNQGYMMVSMLENKEDDDSATKRAPELLQYLNQNYQ 6g0k-a1-m1-cC_6g0k-a1-m1-cA Crystal structure of Enterococcus faecium D63r Penicillin-Binding protein 5 (PBP5fm) Q47759 Q47759 2.9 X-RAY DIFFRACTION 128 0.997 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 595 629 TQAVEAGEKTVEQFVQALNKGDYNKAAGMASKKAANKSALSEKEILEKYQNIYGAADVKGLEISNLKVDKKDDSTYSFSYKAKMNTSLGELKDLSYKGTLDRNDGKTTINWQPNLVFPEMEGNDKVSLTTQEATRGNILDRNGEPLATTGKLKQLGVVDAINQAISQSWVQPDYFVPLKIATIQEVDGRYYPLGEAAAQLIGYVGDITAEDIDKNPELSSNGKIGRSGLEMAFDKDLRGTTGGKLSITDTDGVEKKVLIEHEVQNGKDIKLTIDAKAQKTAFDSLGGKAGSTVATTPKTGDLLALASSPSYDPNKMTNGISQEDYKAYEENPEQPFISRFATGYAPGSTFKMITAAIGLDNGTIDPNEVLTINGLKWQKDSSWGSYQVTRVSDVSHVDLKTALIYSDNIYMAQETLKMGEKNFRAGLDKFIFGEDLDLPISMNPAQISNEESFNSDILLADTGYGQGELLINPIQQAAMYSVFANNGTLVYPKLIADKETKDKKNVIGETAVQTIVPDLREVVQDVNGTAHSLSALGIPLAAKTGTAEKENSFLFAFNPDNQGYMMVSMLENKEDDDSATKRAPELLQYLNQNYQ TQAVEAGEKTVEQFVQALNKGDYNKAAGMASKKAANKSALSEKEILEKYQNIYGAADVKGLEISNLKVDKKDDSTYSFSYKAKMNTSLGELKDLSYKGTLDRNDGKTTINWQPNLVFPEMEGNDKVSLTTQEATRGNILDRNGEPLATTGKLKQLGVVPSKLGDGDEKTANIKAIASAFDLTEDAINQAISQSWVQPDYFVPLKIIDGATPELPAGATIQEVDGRYYPLGEAAAQLIGYVGDITAEDIDKNPELSSNGKIGRSGLEMAFDKDLRGTTGGKLSITDTDGVEKKVLIEHEVQNGKDIKLTIDAKAQKTAFDSLGGKAGSTVATTPKTGDLLALASSPSYDPNKMTNGISQEDYKAYEENPEQPFISRFATGYAPGSTFKMITAAIGLDNGTIDPNEVLTINGLKWQKDSSWGSYQVTRVSDVSHVDLKTALIYSDNIYMAQETLKMGEKNFRAGLDKFIFGEDLDLPISMNPAQISNEESFNSDILLADTGYGQGELLINPIQQAAMYSVFANNGTLVYPKLIADKETKDKKNVIGETAVQTIVPDLREVVQDVNGTAHSLSALGIPLAAKTGTAENSFLFAFNPDNQGYMMVSMLENKEDDDSATKRAPELLQYLNQNYQ 6g13-a2-m1-cB_6g13-a2-m1-cD C-terminal domain of MERS-CoV nucleocapsid A0A0D3MU51 A0A0D3MU51 1.97 X-RAY DIFFRACTION 207 1.0 1335626 (Middle East respiratory syndrome-related coronavirus) 1335626 (Middle East respiratory syndrome-related coronavirus) 113 114 6g13-a1-m1-cA_6g13-a1-m1-cC KMRHKRTSTKSFNMVQAFGLRGPGDLQGNFGDLQLNKLGTEDPRWPQIAELAPTASAFMGMSQFKLTHQNNDDGNPVYFLRYSGAIKLDPKNPNYNKWLELLEQNIDAYKTFP NKMRHKRTSTKSFNMVQAFGLRGPGDLQGNFGDLQLNKLGTEDPRWPQIAELAPTASAFMGMSQFKLTHQNNDDGNPVYFLRYSGAIKLDPKNPNYNKWLELLEQNIDAYKTFP 6g1f-a3-m1-cE_6g1f-a3-m1-cF Crystal structure of D-phenylglycine aninotransferase (D-PhgAT) from Pseudomonas stutzeri with PLP internal aldimine Q6VY99 Q6VY99 2.248 X-RAY DIFFRACTION 358 0.993 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 437 437 6g1f-a1-m1-cC_6g1f-a1-m1-cA 6g1f-a2-m1-cB_6g1f-a2-m1-cD GSILNDYKRKTEGSVFWAQRARSVMPDGVTADTRVFDPHGLFISDAQGVHKTDVDGNVYLDFFGGHGALVLGHGHPRVNAAIAEALSHGVQYAASHPLEVRWAERIVAAFPSIRKLRFTGSGTETTLLALRVARAFTGRRMILRIATHYHGWHDFSASGYNSHFPAPGVLPEIAKNTLLIRPDDIEGMREVFAQHGSDIAAFIAEPVGSHFGVTPVSDSFLREGAELARQYGALFILDEVISGFRVGNHGMQALLDVQPDLTCLAASAGGLPGGILGGREDVMGVLSRGSDRKVLHQGTFTGNPITAAAAIAAIDTILEDDVCAKINDLGQFAREAMNHLFARKGLNWLAYGRFSGFHLMPGLPPNTTDTGSITRAEVARPDVKMIAAMRMALILEGVDIGGRGSVFLSAQHEREHVEHLVTTFDRVLDRLADENLL GSILNDYKRKTEGSVFWAQRARSVMPDGVTADTRVFDPHGLFISDAQGVHKTDVDGNVYLDFFGGHGALVLGHGHPRVNAAIAEALSHGVQYAASHPLEVRWAERIVAAFPSIRKLRFTGSGTETTLLALRVARAFTGRRMILRIATHYHGWHDFSASGYNSHFDGQPAPGVLPEIAKNTLLIRPDDIEGMREVFAQHGSDIAAFIAEPVGSHFGVTPVSDSFLREGAELARQYGALFILDEVISGFRVGNHGMQALLDVQPDLTCLAASAGGLPGGILGGREDVMGVLSRGSDRKVLHQGTFTGNPITAAAAIAAIDTILEDDVCAKINDLGQFAREAMNHLFARKGLNWLAYGRFSGFHLMPGLPPNTTDTGSITRAEVARPDVKMIAAMRMALILEGVDIGGRGSVFLSAQHEREHVEHLVTTFDRVLDRLADE 6g1m-a2-m1-cD_6g1m-a2-m1-cC Amine Dehydrogenase from Petrotoga mobilis; open and closed form A9BHL2 A9BHL2 2.32 X-RAY DIFFRACTION 152 1.0 403833 (Petrotoga mobilis SJ95) 403833 (Petrotoga mobilis SJ95) 334 335 6g1h-a1-m2-cA_6g1h-a1-m1-cA 6g1m-a1-m1-cB_6g1m-a1-m1-cA SYKVGIWGFGAMGSGIAKNILSKKNLKLVGVHDFREEYIEKDVGELLGLGKIGIKVYPDPITMVKQTDPDLVVIATNSFISVVKDQIISILKENKNVITIAEEMAFPFSKDPKAANEIDTVAKDHNVSVLGTGVNPGFVLDTLIITLTGICLNVQRIKAARINDLSPFGPTVMETQGVGTTPEEFKQGIKSGKIGHIGFEQSIHMIAKALGWEIDRIEQKREPIISNVMRETKYVKVQPGMVAGCNHTAKAFYKNELLIELEHPQQVLPHLENVQTGDYITIQGDPDISMGINPEIPGGKGTIAIATNMIPSVVEARPGLLTMVDLPIPRALLA SYKVGIWGFGAMGSGIAKNILSKKNLKLVGVHDFREEYIEKDVGELLGLGKIGIKVYPDPITMVKQTDPDLVVIATNSFISVVKDQIISILKENKNVITIAEEMAFPFSKDPKAANEIDTVAKDHNVSVLGTGVNPGFVLDTLIITLTGICLNVQRIKAARINDLSPFGPTVMETQGVGTTPEEFKQGIKSGKIVGHIGFEQSIHMIAKALGWEIDRIEQKREPIISNVMRETKYVKVQPGMVAGCNHTAKAFYKNELLIELEHPQQVLPHLENVQTGDYITIQGDPDISMGINPEIPGGKGTIAIATNMIPSVVEARPGLLTMVDLPIPRALLA 6g1o-a1-m1-cA_6g1o-a1-m4-cA Structure of Pseudomonas aeruginosa Isocitrate Lyase, ICL Q9I0K4 Q9I0K4 1.882 X-RAY DIFFRACTION 83 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 486 486 6g1o-a1-m2-cA_6g1o-a1-m3-cA MSAYQNEIKAVAALKEKNGSSWSAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTGLDAARAAGDKAKEAELLAQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHIDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTNEPGDLGDLYNSFLDCEEISESELGNGDVVIKREGKLLRPKRLASNLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKAMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAFVAEGKDVSAYDRNKLMSVEYDDTELAKVADEKIRTFQRDGSAHAGIFHHLITLPTYHTAALSTDNLAKGYFADEGMLAYVKGVQRQE MSAYQNEIKAVAALKEKNGSSWSAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTGLDAARAAGDKAKEAELLAQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHIDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTNEPGDLGDLYNSFLDCEEISESELGNGDVVIKREGKLLRPKRLASNLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKAMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAFVAEGKDVSAYDRNKLMSVEYDDTELAKVADEKIRTFQRDGSAHAGIFHHLITLPTYHTAALSTDNLAKGYFADEGMLAYVKGVQRQE 6g1o-a1-m2-cA_6g1o-a1-m4-cA Structure of Pseudomonas aeruginosa Isocitrate Lyase, ICL Q9I0K4 Q9I0K4 1.882 X-RAY DIFFRACTION 201 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 486 486 6g1o-a1-m1-cA_6g1o-a1-m3-cA MSAYQNEIKAVAALKEKNGSSWSAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTGLDAARAAGDKAKEAELLAQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHIDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTNEPGDLGDLYNSFLDCEEISESELGNGDVVIKREGKLLRPKRLASNLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKAMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAFVAEGKDVSAYDRNKLMSVEYDDTELAKVADEKIRTFQRDGSAHAGIFHHLITLPTYHTAALSTDNLAKGYFADEGMLAYVKGVQRQE MSAYQNEIKAVAALKEKNGSSWSAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTGLDAARAAGDKAKEAELLAQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHIDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTNEPGDLGDLYNSFLDCEEISESELGNGDVVIKREGKLLRPKRLASNLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKAMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAFVAEGKDVSAYDRNKLMSVEYDDTELAKVADEKIRTFQRDGSAHAGIFHHLITLPTYHTAALSTDNLAKGYFADEGMLAYVKGVQRQE 6g1o-a1-m3-cA_6g1o-a1-m4-cA Structure of Pseudomonas aeruginosa Isocitrate Lyase, ICL Q9I0K4 Q9I0K4 1.882 X-RAY DIFFRACTION 117 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 486 486 6g1o-a1-m1-cA_6g1o-a1-m2-cA MSAYQNEIKAVAALKEKNGSSWSAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTGLDAARAAGDKAKEAELLAQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHIDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTNEPGDLGDLYNSFLDCEEISESELGNGDVVIKREGKLLRPKRLASNLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKAMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAFVAEGKDVSAYDRNKLMSVEYDDTELAKVADEKIRTFQRDGSAHAGIFHHLITLPTYHTAALSTDNLAKGYFADEGMLAYVKGVQRQE MSAYQNEIKAVAALKEKNGSSWSAINPEYAARMRIQNRFKTGLDIAKYTAAIMRKDMAEYDADSSVYTQSLGCWHGFIGQQKLISIKKHLKTTNKRYLYLSGWMVAALRSDFGPLPDQSMHEKTAVSGLIEELYTFLRQADARELDLLFTGLDAARAAGDKAKEAELLAQIDNFETHVVPIIADIDAGFGNAEATYLLAKKMIEAGACCIQIENQVSDEKQCGHQDGKVTVPHIDFLAKINAVRYAFLELGVDDGVIVARTDSLGAGLTKQIAVTNEPGDLGDLYNSFLDCEEISESELGNGDVVIKREGKLLRPKRLASNLFQFRKGTGEDRCVLDCITSLQNGADLLWIETEKPHVGQIKAMVDRIREVIPNAKLVYNNSPSFNWTLNFRQQVFDAFVAEGKDVSAYDRNKLMSVEYDDTELAKVADEKIRTFQRDGSAHAGIFHHLITLPTYHTAALSTDNLAKGYFADEGMLAYVKGVQRQE 6g2g-a1-m1-cA_6g2g-a1-m1-cB Fe-S assembly Cfd1 G0SH86 G0SH86 2.57 X-RAY DIFFRACTION 47 0.996 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 270 273 MSLSQVKHIILVLSGKGGVGKSSVTTQLALSLSQAGYSVGVLDVDLTGPSIPRMFAVEDAKVKQGSGGWLPVVVHEANPSTGIGSLRVMSLGFLLPWRGPKKTAMVRQFMSDVLWDELDFLLVDTPPGTSDEHISLAETLLQEARPGQLSGAIVVTTPQAVATADVRKELNFCKKTGIRVLGVVENMSGFVCPNCSECTNIFSSGGGEIMANDFNVRFLGRVPIDPQFLVLIETGKRPRYPSLLVDKYRDCSLAPIFRAITADVVVAVEQ MSLSQVKHIILVLSGKGGVGKSSVTTQLALSLSQAGYSVGVLDVDLTGPSIPRMFAVEDAKVKQGSGGWLPVVVHEANPSTGIGSLRVMSLGFLLWRGPKKTAMVRQFMSDVLWDELDFLLVDTPPGTSDEHISLAETLLQEARPGQLSGAIVVTTPQAVATADVRKELNFCKKTGIRVLGVVENMSGFVCPNCSECTNIFSSGGGEIMANDFNVRFLGRVPIDPQFLVLIETGKRPRYPTPNSSLLVDKYRDCSLAPIFRAITADVVVAVEQ 6g2u-a1-m1-cB_6g2u-a1-m1-cE Crystal structure of the human glutamate dehydrogenase 2 (hGDH2) P49448 P49448 2.93429 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 491 492 PNFFKMVEGFFDRGASIVEDKLVKDLRTQESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTENELEKITRRFTMELAKKGFIGPGVDVPAPDMNTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFRDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEVDCDILIPAATEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNILVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLLSVQESLERKFGKHGGTIPIVPTAEFQDSISGASEKDIVHSALAYTMERSARQIMHTAMKYNLGLDLRTAAYVNAIEKVFKVYSEAG DPNFFKMVEGFFDRGASIVEDKLVKDLRTQESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTENELEKITRRFTMELAKKGFIGPGVDVPAPDMNTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFRDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEVDCDILIPAATEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNILVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLLSVQESLERKFGKHGGTIPIVPTAEFQDSISGASEKDIVHSALAYTMERSARQIMHTAMKYNLGLDLRTAAYVNAIEKVFKVYSEAG 6g2u-a1-m1-cE_6g2u-a1-m1-cA Crystal structure of the human glutamate dehydrogenase 2 (hGDH2) P49448 P49448 2.93429 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 492 494 DPNFFKMVEGFFDRGASIVEDKLVKDLRTQESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTENELEKITRRFTMELAKKGFIGPGVDVPAPDMNTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFRDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEVDCDILIPAATEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNILVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLLSVQESLERKFGKHGGTIPIVPTAEFQDSISGASEKDIVHSALAYTMERSARQIMHTAMKYNLGLDLRTAAYVNAIEKVFKVYSEAG EDDPNFFKMVEGFFDRGASIVEDKLVKDLRTQESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTENELEKITRRFTMELAKKGFIGPGVDVPAPDMNTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFRDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEVDCDILIPAATEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNILVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLLSVQESLERKFGKHGGTIPIVPTAEFQDSISGASEKDIVHSALAYTMERSARQIMHTAMKYNLGLDLRTAAYVNAIEKVFKVYSEAG 6g2u-a1-m1-cE_6g2u-a1-m1-cD Crystal structure of the human glutamate dehydrogenase 2 (hGDH2) P49448 P49448 2.93429 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 492 496 DPNFFKMVEGFFDRGASIVEDKLVKDLRTQESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTENELEKITRRFTMELAKKGFIGPGVDVPAPDMNTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFRDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEVDCDILIPAATEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNILVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLLSVQESLERKFGKHGGTIPIVPTAEFQDSISGASEKDIVHSALAYTMERSARQIMHTAMKYNLGLDLRTAAYVNAIEKVFKVYSEAG EDDPNFFKMVEGFFDRGASIVEDKLVKDLRTQESEEQKRNRVRGILRIIKPCNHVLSLSFPIRRDDGSWEVIEGYRAQHSQHRTPCKGGIRYSTDVSVDEVKALASLMTYKCAVVDVPFGGAKAGVKINPKNYTENELEKITRRFTMELAKKGFIGPGVDVPAPDMNTGEREMSWIADTYASTIGHYDINAHACVTGKPISQGGIHGRISATGRGVFHGIENFINEASYMSILGMTPGFRDKTFVVQGFGNVGLHSMRYLHRFGAKCIAVGESDGSIWNPDGIDPKELEDFKLQHGSILGFPKAKPYEGSILEVDCDILIPAATEKQLTKSNAPRVKAKIIAEGANGPTTPEADKIFLERNILVIPDLYLNAGGVTVSYFEWLKNLNHVSYGRLTFKYERDSNYHLLLSVQESLERKFGKHGGTIPIVPTAEFQDSISGASEKDIVHSALAYTMERSARQIMHTAMKYNLGLDLRTAAYVNAIEKVFKVYSEAGVT 6g31-a1-m1-cE_6g31-a1-m1-cF Crystal structure of human geranylgeranyl diphosphate synthase mutant D188Y bound to zoledronate O95749 O95749 3 X-RAY DIFFRACTION 112 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 249 285 QETVQRILLEPYKYLLQLAFNHWLKVPEDKLQIIIEVTEMLHNASLLIDDIEDNSKLRRGFPVAHSIYGIPSVINSANYVYFLGLEKVLTLDHQDAVKLFTRQLLELHQGQGLDIYWRDNYTCPTEEEYKAMVLQKTGGLFGLAVGLMQLFSDYKNTLGLFFQIRYDYANLHSFCEDLTEGKFSFPTIHAIWSRPTQVQNILRQRTENIDIKKYCVHYGSFEYTRNTLKELEAKPELVALVKHLSKMFK ETVQRILLEPYKYLLQLPGKQVRTKLSQAFNHWLKVPEDKLQIIIEVTEMLHNASLLIDDIEDNSKLRRGFPVAHSIYGIPSVINSANYVYFLGLEKVLTLDHQDAVKLFTRQLLELHQGQGLDIYWRDNYTCPTEEEYKAMVLQKTGGLFGLAVGLMQLFSDYKEDLKPLLNTLGLFFQIRYDYANLHSKSFCEDLTEGKFSFPTIHAIWSRPESTQVQNILRQRTENIDIKKYCVHYLEDVGSFEYTRNTLKELEAKAYKQIDARGGNPELVALVKHLSKMFK 6g44-a1-m1-cB_6g44-a1-m1-cC Crystal structure of mavirus major capsid protein lacking the C-terminal domain A0A1L4BK98 A0A1L4BK98 1.5 X-RAY DIFFRACTION 280 0.998 1932923 (Cafeteriavirus-dependent mavirus) 1932923 (Cafeteriavirus-dependent mavirus) 511 513 6g43-a1-m1-cA_6g43-a1-m1-cB 6g43-a1-m1-cA_6g43-a1-m1-cC 6g43-a1-m1-cB_6g43-a1-m1-cC 6g44-a1-m1-cA_6g44-a1-m1-cB 6g44-a1-m1-cA_6g44-a1-m1-cC 6g45-a1-m1-cA_6g45-a1-m1-cB 6g45-a1-m1-cA_6g45-a1-m1-cC 6g45-a1-m1-cB_6g45-a1-m1-cC NTPPELDTVLQAPYAYNWPTSKNVKIASRIGIPYSTFQTIQPVSDAPNNGIGQITFNQPLGNLTGGAPRLRVSFTAEIKNILADSSLKDQIGLKSFPVNRSIPVAVINMNGKTFTSYPAQLIKLHQYNADPLELALLSPCSDVDEYNKIKAVSMNNPYRQGTESTDSRMSRGLGCNYAYYIHPRAAGSTSVKIDFVVDEALVANPTQYKNIKDPVPFRNLNTFKVILDGQFKPENMIGIADDVKLVAGKADFEVDITGFKINMLVQNWVAPLEIGDIPKTIIYNTPLISLEGNISSMCLNTKDPYGIPGERNKHILTTHSMAMNNVPSMFAVMVSQETPTKKFAPDQLAGIIGLEIKVDSDVGIFRELEQQQLYELSSSNGYNKRFSCFSGALANGLTVADPAVAAGNKFKEAIFGAGSVIFFRPSDLGLKDYNVMANANKSINMQVQATFVTPEAAGTGAHYKLEVFSIRDNLTYSFEDGTFMDDLTLYTPDQLLRSPLKLTKLMRVMGG MGMNTPPELDTVLQAPYAYNWPTSKNVKIASRIGIPYSTFQTIQPVSDAPNNGIGQITFNQPLGNLTGGAPRLRVSFTAEIKNILADSSLKDQIGLKSFPVNRSIPVAVINMNGKTFTSYPAQLIKLHQYNADPLELALLSPCSDVDEYNKIKAVSMNNPYRQGTESTDSRMSRGLGCNYAYYIHPRAAGSTSVKIDFVVDEALVANPTQYKNIKDPVPFRNLNTFKVILDGQFKPENMIGIADDVKLVAGKADFEVDITGFKINMLVQNWVAPLEIGDIPKTIIYNTPLISLEGNISSMCLNTKDPYGIPGERNKHILTTHSMAMNNVPSMFAVMVSQETPTKKFAPDQLAGIIGLEIKVDSDVGIFRELEQQQLYELSSSNGYNKRFSCFSGALANGLTVADPAVAAGNKFKEAIFGAGSVIFFRPSDLGLKDYNVMANANKSINMQVQATFVTPEAAGTGAHYKLEVFSIRDNLTYSFEDGTFMDDLTLYTPDQLLRSPLKLTLMRVMGG 6g56-a1-m1-cA_6g56-a1-m1-cB Apo-structure of the alanine racemase from Staphylococcus aureus P63479 P63479 2.15 X-RAY DIFFRACTION 227 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 381 382 3oo2-a1-m1-cB_3oo2-a1-m1-cA 4a3q-a1-m1-cA_4a3q-a1-m1-cB 6g58-a1-m1-cA_6g58-a1-m1-cB 6g59-a1-m1-cB_6g59-a1-m1-cA SDKYYRSAYMNVDLNAVASNFKVFSTLHPNKTVMAVVKANAYGLGSVKVARHLMENGATFFAVATLDEAIELRMHGITAKILVLGVLPAKDIDKAIQHRVALTVPSKQWLKEAIKNISGEQEKKLWLHIKLDTGMGRLGIKDTNTYQEVIEIIQQYEQLVFEGVFTHFACADEPGDMTTEQYQRFKDMVNEAIKPEYIHCQNSAGSLLMDCQFCNAIRPGISLYGYYPSEYVQQKVKVHLKPSVQLIANVVQTKTLQAGESVSYGATYTATDPTTIALLPIGYADGYLRIMQGSFVNVNGHQCEVIGRVCMDQTIVKVPDQVKAGDSVILIDNHRESPQSVEVVAEKQHTINYEVLCNLSRRLPRIYHDGDQRFVTNELLK FSDKYYRSAYMNVDLNAVASNFKVFSTLHPNKTVMAVVKANAYGLGSVKVARHLMENGATFFAVATLDEAIELRMHGITAKILVLGVLPAKDIDKAIQHRVALTVPSKQWLKEAIKNISGEQEKKLWLHIKLDTGMGRLGIKDTNTYQEVIEIIQQYEQLVFEGVFTHFACADEPGDMTTEQYQRFKDMVNEAIKPEYIHCQNSAGSLLMDCQFCNAIRPGISLYGYYPSEYVQQKVKVHLKPSVQLIANVVQTKTLQAGESVSYGATYTATDPTTIALLPIGYADGYLRIMQGSFVNVNGHQCEVIGRVCMDQTIVKVPDQVKAGDSVILIDNHRESPQSVEVVAEKQHTINYEVLCNLSRRLPRIYHDGDQRFVTNELLK 6g57-a1-m1-cD_6g57-a1-m1-cB Structure of the H1 domain of human KCTD8 Q6ZWB6 Q6ZWB6 2.8 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 93 RSGFLTLGYRGSYVARIMVCGRIALAKEVFGDTLNSRFYLKFTYLEQAFDRLSEAGFHMVACNSSGTAKIWSSYTEYIFFRP RSGFLTLGYRGSYRVARIMVCGRIALAKEVFGDTLNESRDYTSRFYLKFTYLEQAFDRLSEAGFHMVACNSSGTAAFVDKIWSSYTEYIFFRP 6g57-a1-m1-cD_6g57-a1-m1-cC Structure of the H1 domain of human KCTD8 Q6ZWB6 Q6ZWB6 2.8 X-RAY DIFFRACTION 37 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 82 88 RSGFLTLGYRGSYVARIMVCGRIALAKEVFGDTLNSRFYLKFTYLEQAFDRLSEAGFHMVACNSSGTAKIWSSYTEYIFFRP RSGFLTLGYRGSYTTARIMVCGRIALAKEVFGDTLNESSRFYLKFTYLEQAFDRLSEAGFHMVACNSSGTAAFDKIWSSYTEYIFFRP 6g65-a1-m1-cA_6g65-a1-m2-cC Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g65-a1-m1-cA_6g65-a1-m1-cB GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a1-m1-cB_6g65-a1-m1-cC Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a1-m1-cC_6g65-a1-m2-cA Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a1-m2-cA_6g65-a1-m2-cB Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a1-m2-cB_6g65-a1-m2-cC Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a2-m1-cD_6g65-a2-m2-cF Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 51 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g65-a2-m1-cD_6g65-a2-m1-cE GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a2-m1-cE_6g65-a2-m1-cF Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a2-m1-cF_6g65-a2-m2-cD Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 51 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a2-m2-cD_6g65-a2-m2-cE Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a2-m2-cE_6g65-a2-m2-cF Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a3-m1-cG_6g65-a3-m3-cI Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 53 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g65-a3-m1-cG_6g65-a3-m1-cH GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a3-m1-cH_6g65-a3-m1-cI Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 50 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a3-m1-cI_6g65-a3-m3-cG Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 53 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a3-m3-cG_6g65-a3-m3-cH Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a3-m3-cH_6g65-a3-m3-cI Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 50 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a4-m1-cJ_6g65-a4-m3-cL Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g65-a4-m1-cJ_6g65-a4-m1-cK GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a4-m1-cK_6g65-a4-m1-cL Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a4-m1-cL_6g65-a4-m3-cJ Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a4-m3-cJ_6g65-a4-m3-cK Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g65-a4-m3-cK_6g65-a4-m3-cL Crystal structure of a parallel six-helix coiled coil CC-Type2-VV 1.15 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG GEVAQAVKEVAKAVKEVAWAVKEVAQAVKG 6g66-a1-m1-cA_6g66-a1-m1-cG Crystal structure of a parallel seven-helix coiled coil CC-Type2-IV 1.6 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g66-a1-m1-cA_6g66-a1-m1-cB GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG 6g66-a1-m1-cB_6g66-a1-m1-cC Crystal structure of a parallel seven-helix coiled coil CC-Type2-IV 1.6 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG 6g66-a1-m1-cC_6g66-a1-m1-cD Crystal structure of a parallel seven-helix coiled coil CC-Type2-IV 1.6 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG 6g66-a1-m1-cD_6g66-a1-m1-cE Crystal structure of a parallel seven-helix coiled coil CC-Type2-IV 1.6 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG 6g66-a1-m1-cE_6g66-a1-m1-cF Crystal structure of a parallel seven-helix coiled coil CC-Type2-IV 1.6 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG 6g66-a1-m1-cF_6g66-a1-m1-cG Crystal structure of a parallel seven-helix coiled coil CC-Type2-IV 1.6 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG GEVAQAIKEVAKAIKEVAWAIKEVAQAIKG 6g67-a1-m1-cA_6g67-a1-m3-cB Crystal structure of a parallel eight-helix coiled coil CC-Type2-II 1.77 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g67-a1-m1-cA_6g67-a1-m1-cB GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG 6g67-a1-m1-cB_6g67-a1-m4-cA Crystal structure of a parallel eight-helix coiled coil CC-Type2-II 1.77 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG 6g67-a1-m2-cA_6g67-a1-m4-cB Crystal structure of a parallel eight-helix coiled coil CC-Type2-II 1.77 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g67-a1-m2-cA_6g67-a1-m2-cB GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG 6g67-a1-m2-cB_6g67-a1-m3-cA Crystal structure of a parallel eight-helix coiled coil CC-Type2-II 1.77 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG 6g67-a1-m3-cA_6g67-a1-m3-cB Crystal structure of a parallel eight-helix coiled coil CC-Type2-II 1.77 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG 6g67-a1-m4-cA_6g67-a1-m4-cB Crystal structure of a parallel eight-helix coiled coil CC-Type2-II 1.77 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG GEIAQAIKEIAKAIKEIAWAIKEIAQAIKG 6g6d-a1-m1-cA_6g6d-a1-m1-cB Crystal structure of a parallel six-helix coiled coil CC-Type2-LL-Sg 2.05 X-RAY DIFFRACTION 69 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GELAQSLKELAKSLKELAWSLKELAQSLKG GELAQSLKELAKSLKELAWSLKELAQSLKG 6g6d-a1-m1-cA_6g6d-a1-m2-cC Crystal structure of a parallel six-helix coiled coil CC-Type2-LL-Sg 2.05 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GELAQSLKELAKSLKELAWSLKELAQSLKG GELAQSLKELAKSLKELAWSLKELAQSLKG 6g6d-a1-m1-cB_6g6d-a1-m1-cC Crystal structure of a parallel six-helix coiled coil CC-Type2-LL-Sg 2.05 X-RAY DIFFRACTION 62 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GELAQSLKELAKSLKELAWSLKELAQSLKG GELAQSLKELAKSLKELAWSLKELAQSLKG 6g6d-a1-m1-cC_6g6d-a1-m2-cA Crystal structure of a parallel six-helix coiled coil CC-Type2-LL-Sg 2.05 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GELAQSLKELAKSLKELAWSLKELAQSLKG GELAQSLKELAKSLKELAWSLKELAQSLKG 6g6d-a1-m2-cA_6g6d-a1-m2-cB Crystal structure of a parallel six-helix coiled coil CC-Type2-LL-Sg 2.05 X-RAY DIFFRACTION 69 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GELAQSLKELAKSLKELAWSLKELAQSLKG GELAQSLKELAKSLKELAWSLKELAQSLKG 6g6d-a1-m2-cB_6g6d-a1-m2-cC Crystal structure of a parallel six-helix coiled coil CC-Type2-LL-Sg 2.05 X-RAY DIFFRACTION 62 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GELAQSLKELAKSLKELAWSLKELAQSLKG GELAQSLKELAKSLKELAWSLKELAQSLKG 6g6e-a1-m1-cA_6g6e-a1-m1-cB Crystal structure of a parallel seven-helix coiled coil CC-Type2-deLI 1.26 X-RAY DIFFRACTION 36 1.0 32630 (synthetic construct) 32630 (synthetic construct) 26 26 6g6e-a1-m1-cA_6g6e-a1-m1-cG 6g6e-a1-m1-cB_6g6e-a1-m1-cC 6g6e-a1-m1-cC_6g6e-a1-m1-cD 6g6e-a1-m1-cD_6g6e-a1-m1-cE 6g6e-a1-m1-cE_6g6e-a1-m1-cF 6g6e-a1-m1-cF_6g6e-a1-m1-cG GEIAQAKEIAKAKEIAWAKEIAQAKG GEIAQAKEIAKAKEIAWAKEIAQAKG 6g6f-a1-m1-cA_6g6f-a1-m1-cG Crystal structure of a parallel eight-helix coiled coil CC-Type2-LF 1.7 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g6f-a1-m1-cE_6g6f-a1-m1-cC GEFAQALKEFAKALKEFAWALKEFAQALKG GEFAQALKEFAKALKEFAWALKEFAQALKG 6g6f-a1-m1-cB_6g6f-a1-m1-cC Crystal structure of a parallel eight-helix coiled coil CC-Type2-LF 1.7 X-RAY DIFFRACTION 71 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6g6f-a1-m1-cA_6g6f-a1-m1-cB 6g6f-a1-m1-cD_6g6f-a1-m1-cC 6g6f-a1-m1-cE_6g6f-a1-m1-cF 6g6f-a1-m1-cF_6g6f-a1-m1-cG 6g6f-a1-m1-cH_6g6f-a1-m1-cG GEFAQALKEFAKALKEFAWALKEFAQALKG GEFAQALKEFAKALKEFAWALKEFAQALKG 6g6f-a1-m1-cH_6g6f-a1-m1-cA Crystal structure of a parallel eight-helix coiled coil CC-Type2-LF 1.7 X-RAY DIFFRACTION 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 30 6g6f-a1-m1-cD_6g6f-a1-m1-cE GEFAQALKEFAKALKEFAWALKEFAQALK GEFAQALKEFAKALKEFAWALKEFAQALKG 6g6h-a1-m1-cC_6g6h-a1-m1-cD Crystal structure of an antiparallel five-helix coiled coil 5H2L_2.1-I9L 1.7 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 33 33 6g6h-a1-m1-cA_6g6h-a1-m1-cB TQEYLLKELMKLLKEQIKLLKEQIKMLKELEKQ TQEYLLKELMKLLKEQIKLLKEQIKMLKELEKQ 6g6h-a1-m1-cD_6g6h-a1-m1-cE Crystal structure of an antiparallel five-helix coiled coil 5H2L_2.1-I9L 1.7 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 33 33 6g6h-a1-m1-cB_6g6h-a1-m1-cC TQEYLLKELMKLLKEQIKLLKEQIKMLKELEKQ TQEYLLKELMKLLKEQIKLLKEQIKMLKELEKQ 6g6q-a6-m1-cK_6g6q-a6-m1-cL Crystal structure of the computationally designed Ika4 protein 2.5 X-RAY DIFFRACTION 132 1.0 32630 (synthetic construct) 32630 (synthetic construct) 156 157 6g6q-a1-m1-cB_6g6q-a1-m1-cA 6g6q-a2-m1-cD_6g6q-a2-m1-cC 6g6q-a3-m1-cF_6g6q-a3-m1-cE 6g6q-a4-m1-cG_6g6q-a4-m1-cH 6g6q-a5-m1-cI_6g6q-a5-m1-cJ ELVSLEGHQSAITALAFSKNIVVSGAADGTIKVWDILTGQLLRDHDGHQSEVTALQFKDNIVVSGAKDGTVKVWYIGTGQELVSLEGHQSAITALAFSKNIVVSGAADGTIKVWDILTGQLLRDHDGHQSEVTALQFKDNIVVSGAKDGTVKVWYI QELVSLEGHQSAITALAFSKNIVVSGAADGTIKVWDILTGQLLRDHDGHQSEVTALQFKDNIVVSGAKDGTVKVWYIGTGQELVSLEGHQSAITALAFSKNIVVSGAADGTIKVWDILTGQLLRDHDGHQSEVTALQFKDNIVVSGAKDGTVKVWYI 6g6s-a1-m1-cB_6g6s-a1-m1-cA Crystal structure of human Acinus RNA recognition motif domain Q9UKV3 Q9UKV3 1.65 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 95 GKISNIVHISNLVRPFTLGQLKELLGRTGTLVEEAFWIDKIKSHCFVTYSTVEEAVATRTALHGVKWPQSNPKFLCADYAEQDELDYHRGL GSGKISNIVHISNLVRPFTLGQLKELLGRTGTLVEEAFWIDKIKSHCFVTYSTVEEAVATRTALHGVKWPQSNPKFLCADYAEQDELDYHRGLLV 6g6v-a1-m1-cA_6g6v-a1-m6-cA Phosphopantetheine adenylyltransferase from Mycobacterium tuberculosis in complex with 4-(2-carboxybenzoyl)-2-nitrobenzoic acid at 1.9A resolution. P9WPA5 P9WPA5 1.942 X-RAY DIFFRACTION 15 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 151 151 3nba-a1-m1-cA_3nba-a1-m3-cC 3nba-a1-m1-cC_3nba-a1-m2-cA 3nba-a1-m2-cC_3nba-a1-m3-cA 3nba-a2-m1-cB_3nba-a2-m4-cD 3nba-a2-m1-cD_3nba-a2-m5-cB 3nba-a2-m4-cB_3nba-a2-m5-cD 3rba-a1-m1-cA_3rba-a1-m6-cA 3rba-a1-m2-cA_3rba-a1-m5-cA 3rba-a1-m3-cA_3rba-a1-m4-cA 3uc5-a1-m1-cA_3uc5-a1-m5-cA 3uc5-a1-m2-cA_3uc5-a1-m4-cA 3uc5-a1-m3-cA_3uc5-a1-m6-cA 6g6v-a1-m2-cA_6g6v-a1-m5-cA 6g6v-a1-m3-cA_6g6v-a1-m4-cA 6qmh-a1-m1-cA_6qmh-a1-m6-cA 6qmh-a1-m2-cA_6qmh-a1-m5-cA 6qmh-a1-m3-cA_6qmh-a1-m4-cA MTGAVCPGSFDPVTLGHVDIFERAAAQFDEVVVAILGMFDLDERIAMVKESTTHLPNLRVQVGHGLVVDFVRSCGMTAIVKGLRTGTDFEYELQMAQMNKHIAGVDTFFVATAPRYSFVSSSLAKEVAMLGGDVSELLPEPVNRRLRDRLN MTGAVCPGSFDPVTLGHVDIFERAAAQFDEVVVAILGMFDLDERIAMVKESTTHLPNLRVQVGHGLVVDFVRSCGMTAIVKGLRTGTDFEYELQMAQMNKHIAGVDTFFVATAPRYSFVSSSLAKEVAMLGGDVSELLPEPVNRRLRDRLN 6g70-a1-m1-cA_6g70-a1-m1-cB Structure of murine Prpf39 Q8K2Z2 Q8K2Z2 3.3 X-RAY DIFFRACTION 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 509 510 DFPPEFEKFWKTVEMNPQDFTGWVYLLQYVEQENHLMAARKAFDKFFVHYPYCYGYWKKYADLEKRHDNIKQSDEVYRRGLQAIPLSVDLWIHYINFLKETLDPGDQETNTTIRGTFEHAVLAAGTDFRSDKLWEMYINWENEQGNLREVTAVYDRILGIPTQLYSHHFQRFKEHVQNNLPRDLLTGEQFIQLRRELASVNTDPAKLITEIENMRHRIIEIHQEMFNYNEHEVSKRWTFEEGIKRPYFHVKPLEKAQLKNWKEYLEFEIENGTHERVVVLFERCVISCALYEEFWIKYAKYMENHSIEGVRHVFSRACTVHLPKKPMAHMLWAAFEEQQGNINEARIILRTFEECVLGLAMVRLRRVSLERRHGNMEEAEHLLQDAIKNAKSNNESSFYAIKLARHLFKIQKNLPKSRKVLLEAIEKDKENTKLYLNLLEMEYSCDLKQNEENILNCFDKAIHGSLPIKMRITFSQRKVEFLEDFGSDVNKLLNAYDEHQTLLKEQDTL DFPPEFEKFWKTVEMNPQDFTGWVYLLQYVEQENHLMAARKAFDKFFVHYPYCYGYWKKYADLEKRHDNIKQSDEVYRRGLQAIPLSVDLWIHYINFLKETLDPGDQETNTTIRGTFEHAVLAAGTDFRSDKLWEMYINWENEQGNLREVTAVYDRILGIPTQLYSHHFQRFKEHVQNNLPRDLLTGEQFIQLRRELASVNGTDPAKLITEIENMRHRIIEIHQEMFNYNEHEVSKRWTFEEGIKRPYFHVKPLEKAQLKNWKEYLEFEIENGTHERVVVLFERCVISCALYEEFWIKYAKYMENHSIEGVRHVFSRACTVHLPKKPMAHMLWAAFEEQQGNINEARIILRTFEECVLGLAMVRLRRVSLERRHGNMEEAEHLLQDAIKNAKSNNESSFYAIKLARHLFKIQKNLPKSRKVLLEAIEKDKENTKLYLNLLEMEYSCDLKQNEENILNCFDKAIHGSLPIKMRITFSQRKVEFLEDFGSDVNKLLNAYDEHQTLLKEQDTL 6g84-a1-m1-cA_6g84-a1-m2-cB Structure of Cdc14 bound to CBK1 PxL motif Q00684 Q00684 2.47 X-RAY DIFFRACTION 13 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 356 368 6g84-a1-m2-cA_6g84-a1-m1-cB VYLDNTIEFLRGRVYLGAYDYTPEDTDELVFFTVEDAIFYNSFHLDFGPMNIGHLYRFAVIFHEILNDPENANKAVVFYSSASTRQRANAACMLCCYMILVQAWTPHQVLQPLAQVDPPFMPFRDAGYSNADFEITIQDVVYGVWRAKEKGLIDLHSFNLESYEKYEHVEFGDFNVLTPDFIAFASPQEDHLNQPFKSVLNFFANNNVQLVVRLNSHLYNKKHFEDIGIQHLDLIFEDGTCPDLSIVKNFVGAAETIIKRGGKIAVHCKAGLGRTGCLIGAHLIYTYGFTANECIGFLRFIRPGMVVGPQQHWLYLHQNDFREWKYTTRISLKPSEAIGGLYPLISLEEYRLQKKK SVYLDNTIEFLRGRVYLGAYDYTPEDTDELVFFTVEDAIFYNSFHLDFGPMNIGHLYRFAVIFHEILNDPENANKAVVFYSSASTRQRANAACMLCCYMILVQAWTPHQVLQPLAQVDPPFMPFRDAGYSNADFEITIQDVVYGVWRAKEKGLIDLHSFNLESYEKYEHVEFGDFNVLTPDFIAFASPQEDHPKGYLATKSSHLNQPFKSVLNFFANNNVQLVVRLNSHLYNKKHFEDIGIQHLDLIFEDGTCPDLSIVKNFVGAAETIIKRGGKIAVHCKAGLGRTGCLIGAHLIYTYGFTANECIGFLRFIRPGMVVGPQQHWLYLHQNDFREWKYTTRISLKPSEAIGGLYPLISLEEYRLQKKK 6g84-a1-m1-cB_6g84-a1-m2-cB Structure of Cdc14 bound to CBK1 PxL motif Q00684 Q00684 2.47 X-RAY DIFFRACTION 27 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 368 368 6g84-a1-m1-cA_6g84-a1-m2-cA SVYLDNTIEFLRGRVYLGAYDYTPEDTDELVFFTVEDAIFYNSFHLDFGPMNIGHLYRFAVIFHEILNDPENANKAVVFYSSASTRQRANAACMLCCYMILVQAWTPHQVLQPLAQVDPPFMPFRDAGYSNADFEITIQDVVYGVWRAKEKGLIDLHSFNLESYEKYEHVEFGDFNVLTPDFIAFASPQEDHPKGYLATKSSHLNQPFKSVLNFFANNNVQLVVRLNSHLYNKKHFEDIGIQHLDLIFEDGTCPDLSIVKNFVGAAETIIKRGGKIAVHCKAGLGRTGCLIGAHLIYTYGFTANECIGFLRFIRPGMVVGPQQHWLYLHQNDFREWKYTTRISLKPSEAIGGLYPLISLEEYRLQKKK SVYLDNTIEFLRGRVYLGAYDYTPEDTDELVFFTVEDAIFYNSFHLDFGPMNIGHLYRFAVIFHEILNDPENANKAVVFYSSASTRQRANAACMLCCYMILVQAWTPHQVLQPLAQVDPPFMPFRDAGYSNADFEITIQDVVYGVWRAKEKGLIDLHSFNLESYEKYEHVEFGDFNVLTPDFIAFASPQEDHPKGYLATKSSHLNQPFKSVLNFFANNNVQLVVRLNSHLYNKKHFEDIGIQHLDLIFEDGTCPDLSIVKNFVGAAETIIKRGGKIAVHCKAGLGRTGCLIGAHLIYTYGFTANECIGFLRFIRPGMVVGPQQHWLYLHQNDFREWKYTTRISLKPSEAIGGLYPLISLEEYRLQKKK 6g84-a1-m2-cA_6g84-a1-m2-cB Structure of Cdc14 bound to CBK1 PxL motif Q00684 Q00684 2.47 X-RAY DIFFRACTION 90 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 356 368 6g84-a1-m1-cA_6g84-a1-m1-cB 6g85-a1-m1-cB_6g85-a1-m1-cA 6g86-a1-m1-cA_6g86-a1-m1-cB VYLDNTIEFLRGRVYLGAYDYTPEDTDELVFFTVEDAIFYNSFHLDFGPMNIGHLYRFAVIFHEILNDPENANKAVVFYSSASTRQRANAACMLCCYMILVQAWTPHQVLQPLAQVDPPFMPFRDAGYSNADFEITIQDVVYGVWRAKEKGLIDLHSFNLESYEKYEHVEFGDFNVLTPDFIAFASPQEDHLNQPFKSVLNFFANNNVQLVVRLNSHLYNKKHFEDIGIQHLDLIFEDGTCPDLSIVKNFVGAAETIIKRGGKIAVHCKAGLGRTGCLIGAHLIYTYGFTANECIGFLRFIRPGMVVGPQQHWLYLHQNDFREWKYTTRISLKPSEAIGGLYPLISLEEYRLQKKK SVYLDNTIEFLRGRVYLGAYDYTPEDTDELVFFTVEDAIFYNSFHLDFGPMNIGHLYRFAVIFHEILNDPENANKAVVFYSSASTRQRANAACMLCCYMILVQAWTPHQVLQPLAQVDPPFMPFRDAGYSNADFEITIQDVVYGVWRAKEKGLIDLHSFNLESYEKYEHVEFGDFNVLTPDFIAFASPQEDHPKGYLATKSSHLNQPFKSVLNFFANNNVQLVVRLNSHLYNKKHFEDIGIQHLDLIFEDGTCPDLSIVKNFVGAAETIIKRGGKIAVHCKAGLGRTGCLIGAHLIYTYGFTANECIGFLRFIRPGMVVGPQQHWLYLHQNDFREWKYTTRISLKPSEAIGGLYPLISLEEYRLQKKK 6g8g-a2-m1-cC_6g8g-a2-m1-cD Flavonoid-responsive Regulator FrrA in complex with Genistein 2.6 X-RAY DIFFRACTION 84 1.0 1355477 (Bradyrhizobium diazoefficiens) 1355477 (Bradyrhizobium diazoefficiens) 192 192 6g87-a1-m1-cA_6g87-a1-m1-cB 6g87-a2-m1-cC_6g87-a2-m1-cD 6g8g-a1-m1-cB_6g8g-a1-m1-cA 6g8h-a1-m1-cCCC_6g8h-a1-m1-cDDD 6g8h-a2-m1-cAAA_6g8h-a2-m1-cBBB AGRKDIVIRAAWQLFLEQGFSATSDAIAKAAGVSKATLYAYFPSKEALFASLIVAECESLQRDLPVPKLSAGLSEALRDFARQYLHTFIHRKDVAFVRIIANESGRFPVLARLFYESGPEATIRRLAQFLEEARAARVLEFDDPEAANQFLSLVRGELPLLIVLGLSDLTEEAIEQEIEAGLKFFLKACQPR AGRKDIVIRAAWQLFLEQGFSATSDAIAKAAGVSKATLYAYFPSKEALFASLIVAECESLQRDLPVPKLSAGLSEALRDFARQYLHTFIHRKDVAFVRIIANESGRFPVLARLFYESGPEATIRRLAQFLEEARAARVLEFDDPEAANQFLSLVRGELPLLIVLGLSDLTEEAIEQEIEAGLKFFLKACQPR 6g8w-a1-m1-cB_6g8w-a1-m1-cA Crystal Structures of the Single PDZ Domains from GRASP65 and their Interaction with the Golgin GM130 Q9BQQ3 Q9BQQ3 2.12 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 92 EQVWHVLDVEPSSPAALAGLRPYTDYVVGSDFFTLIESHEGKPLKLMVYNSKSDSCREVTVTPNAAWGGEGSLGCGIGYGYLHRIPT SEQVWHVLDVEPSSPAALAGLRPYTDYVVGSDQSEDFFTLIESHEGKPLKLMVYNSKSDSCREVTVTPNAAWGGEGSLGCGIGYGYLHRIPT 6g94-a1-m1-cB_6g94-a1-m1-cA Structure of E. coli hydrogenase-1 C19G variant in complex with cytochrome b P0AAM1 P0AAM1 2.5 X-RAY DIFFRACTION 16 0.994 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 160 172 FEAPVRIWHWLTVLCMAVLMVTGYFIGKPLPSVSGEATYLFYMGYIRLIHFSAGMVFTVVLLMRIYWAFVWWQGVWYEIRWYLFPIAQAAMFGYFLMSVFMIITGFALYSEHSQYAIFAPFRYVVEFFYWTGGNSMDIHSWHRLGMWLIGAFVIGHVYMA FEAPVRIWHWLTVLCMAVLMVTGYFIGKPLPSVSGEATYLFYMGYIRLIHFSAGMVFTVVLLMRIYWAFVGNRYSRSWWQGVWYEIRWYLNPIAQAAMFGYFLMSVFMIITGFALYSEHSQYAIFAPFRYVVEFFYWTGGNSMDIHSWHRLGMWLIGAFVIGHVYMALREDI 6g96-a1-m1-cB_6g96-a1-m1-cA Crystal structure of TacT3 (tRNA acetylating toxin) from Salmonella Q7CPW9 Q7CPW9 1.47661 X-RAY DIFFRACTION 102 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 174 175 7ak9-a1-m1-cA_7ak9-a1-m1-cB MFTDWHEAAIGKTHNRMNFDCGDADLNQFLQRHARQNHEKGTTKTYVALDNSDVTRIHGFYSVSPASLIYAQVPGAISKGLGRYDVPVFRLGRLAVDKSMQGQGLGAQLLLSAGKRCIQAALQVGGVALLIDAKNKQVCDWFKGFGAVPLNDQPLSLLLSFKTLYAALSASGRL SMFTDWHEAAIGKTHNRMNFDCGDADLNQFLQRHARQNHEKGTTKTYVALDNSDVTRIHGFYSVSPASLIYAQVPGAISKGLGRYDVPVFRLGRLAVDKSMQGQGLGAQLLLSAGKRCIQAALQVGGVALLIDAKNKQVCDWFKGFGAVPLNDQPLSLLLSFKTLYAALSASGRL 6g9c-a1-m1-cA_6g9c-a1-m1-cB Crystal structure of immunomodulatory active chitinase from Trichuris suis, TsES1 A0A085LU44 A0A085LU44 1.74 X-RAY DIFFRACTION 31 1.0 68888 (Trichuris suis) 68888 (Trichuris suis) 368 368 KYVRGCYFTNWAQYRPGNGKYNPEHYQANLCEYIFYAFAKLNDDFTVDQFEWNDIDVLYPGVMKQKSSQPDLKVLLSLGGWNAGTATFKKMAATYSNRAKFISSLVSFLQQNKFDGFDLDWEYPESSDKENYLLLCQEILAKFEEVAKCTSTSRLLFTAAVSANPKTVDAGYDVPALAKVLDFVNLMCYDFHGAWETQTGINSPLYSRKEDSSEFKMWNVEQSSKYWSDKGMPKKQIIIGLPTYGRGWTLSDASKTDIGAPAQGSSTATEYLREAGVISYYEVCQKLSSGAKRVWDDESKTPYLVQGNQWFSYDDVESMKAKINWIKQENYGGAFVWTLDYDDFLGSFCTEHNGKKYPLISLMQEILG KYVRGCYFTNWAQYRPGNGKYNPEHYQANLCEYIFYAFAKLNDDFTVDQFEWNDIDVLYPGVMKQKSSQPDLKVLLSLGGWNAGTATFKKMAATYSNRAKFISSLVSFLQQNKFDGFDLDWEYPESSDKENYLLLCQEILAKFEEVAKCTSTSRLLFTAAVSANPKTVDAGYDVPALAKVLDFVNLMCYDFHGAWETQTGINSPLYSRKEDSSEFKMWNVEQSSKYWSDKGMPKKQIIIGLPTYGRGWTLSDASKTDIGAPAQGSSTATEYLREAGVISYYEVCQKLSSGAKRVWDDESKTPYLVQGNQWFSYDDVESMKAKINWIKQENYGGAFVWTLDYDDFLGSFCTEHNGKKYPLISLMQEILG 6gak-a1-m1-cA_6gak-a1-m1-cB Crystal structure of the T1L reovirus sigma1 coiled coil tail (chloride) P04506 P04506 1.43 X-RAY DIFFRACTION 120 1.0 10884 (Mammalian orthoreovirus 1 Lang) 10884 (Mammalian orthoreovirus 1 Lang) 130 131 6gaj-a1-m1-cA_6gaj-a1-m1-cB 6gaj-a1-m1-cA_6gaj-a1-m1-cC 6gaj-a1-m1-cB_6gaj-a1-m1-cC 6gak-a1-m1-cA_6gak-a1-m1-cC 6gak-a1-m1-cB_6gak-a1-m1-cC 6gao-a1-m1-cA_6gao-a1-m1-cB EEIKKQVQVNVDDIRAANIKLDGLGRQIADISNSISTIESRLGEMDNRLVGISSQVTQLSNSVSQNTQSISSLGDRINAVEPRVDSLDTVTSNLTGRTSTLEADVGSLRTELAALTTRVTTEVTRLDGLI AEEIKKQVQVNVDDIRAANIKLDGLGRQIADISNSISTIESRLGEMDNRLVGISSQVTQLSNSVSQNTQSISSLGDRINAVEPRVDSLDTVTSNLTGRTSTLEADVGSLRTELAALTTRVTTEVTRLDGLI 6gao-a1-m1-cC_6gao-a1-m1-cB Crystal structure of the T1L reovirus sigma1 coiled coil tail and body P04506 P04506 2.101 X-RAY DIFFRACTION 270 1.0 10884 (Mammalian orthoreovirus 1 Lang) 10884 (Mammalian orthoreovirus 1 Lang) 221 225 6gao-a1-m1-cC_6gao-a1-m1-cA MEEIKKQVQVNVDDIRAANIKLDGLGRQIADISNSISTIESRLGEMDNRLVGISSQVTQLSNSVSQNTQSISSLGDRINAVEPRVDSLDTVTSNLTGRTSTLEADVGSLRTELAALTTRVTTEVTRLDGLINSGQNSIGELSTRLSNVETSMVTTAGRGLQKNGNTLNVIVGNGMWFNSSNQLQLDLSGQSKGVGFVGTGMVVKIDTNYFAYNSNGEITLV GSHMEEIKKQVQVNVDDIRAANIKLDGLGRQIADISNSISTIESRLGEMDNRLVGISSQVTQLSNSVSQNTQSISSLGDRINAVEPRVDSLDTVTSNLTGRTSTLEADVGSLRTELAALTTRVTTEVTRLDGLINSGQNSIGELSTRLSNVETSMVTTAGRGLQKNGNTLNVIVGNGMWFNSSNQLQLDLSGQSKGVGFVGTGMVVKIDTNYFAYNSNGEITLVS 6gap-a1-m1-cC_6gap-a1-m1-cB Crystal structure of the T3D reovirus sigma1 coiled coil tail and body P03528 P03528 2.15 X-RAY DIFFRACTION 261 1.0 10886 (Mammalian orthoreovirus 3 Dearing) 10886 (Mammalian orthoreovirus 3 Dearing) 213 214 6gap-a1-m1-cB_6gap-a1-m1-cA 6gap-a1-m1-cC_6gap-a1-m1-cA GLESRVSALEKTSQIHSDTILRITQGLDDANKRIIALEQSRDDLVASVSDAQLAISRLESSIGALQTVVNGLDSSVTQLGARVGQLETGLAELRVDHDNLVARVDTAERNIGSLTTELSTLTLRVTSIQADFESRISTLERTAVTSAGAPLSIRNNRMTMGLNDGLTLSGNNLAIRLPGNTGLNIQNGGLQFRFNTDQFQIVNNNLTLKTTVF GLESRVSALEKTSQIHSDTILRITQGLDDANKRIIALEQSRDDLVASVSDAQLAISRLESSIGALQTVVNGLDSSVTQLGARVGQLETGLAELRVDHDNLVARVDTAERNIGSLTTELSTLTLRVTSIQADFESRISTLERTAVTSAGAPLSIRNNRMTMGLNDGLTLSGNNLAIRLPGNTGLNIQNGGLQFRFNTDQFQIVNNNLTLKTTVFD 6gaq-a3-m1-cA_6gaq-a3-m1-cB Crystal structure of oxidised Flavodoxin 2 from Bacillus cereus Q81AM1 Q81AM1 2.5 X-RAY DIFFRACTION 56 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 146 146 AKILIAYASMSGNTESIADLIKVSLDAFDHEVVLQEMEGMDAEELLAYDGIILGSYTWGDGELPFEAEDFHDDLENIDLAGKKVAVFGSGDTAYELFCEAVTIFEERLVERGAELVQEGLKIELAPEDEEDVEKCSNFAIAFAEKF AKILIAYASMSGNTESIADLIKVSLDAFDHEVVLQEMEGMDAEELLAYDGIILGSYTWGDGELPFEAEDFHDDLENIDLAGKKVAVFGSGDTAYELFCEAVTIFEERLVERGAELVQEGLKIELAPEDEEDVEKCSNFAIAFAEKF 6gar-a1-m1-cB_6gar-a1-m1-cA Crystal structure of oxidised ferredoxin/flavodoxin NADP+ oxidoreductase 1 (FNR1) from Bacillus cereus Q81IK1 Q81IK1 2.4 X-RAY DIFFRACTION 155 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 343 346 ELFDVTVIGGGPAGLYSAFYSGLREMRTKIIEFHPHLGGKIHVYPEKMIWDVGGLLPVTGDKLIEQLVQQGLTFKPEVVLDTKVESIIRNQDGTFTLKTSTGEEHFSKTVIVATGSGILKPQKLSIEGAERFEVSNLNYTVKSLKRFKGKTVIISGGGNSAVDWANELEPIAKKVYVTYRKEELSGHEAQVKQLMNSSAECFFNTSITKLIAGDNHEAIEYVELTNHETGEVSHLPIDEVIINHGYERDITLLENSELDVAIIDNYYIAGNANSESSVDGLYAAGDILKHEGKLHLIAGAFQDAGNAVNKAKQFIQPDASEYGMVSSHNEVFKKRNRELIKQM EELFDVTVIGGGPAGLYSAFYSGLREMRTKIIEFHPHLGGKIHVYPEKMIWDVGGLLPVTGDKLIEQLVQQGLTFKPEVVLDTKVESIIRNQDGTFTLKTSTGEEHFSKTVIVATGSGILKPQKLSIEGAERFEVSNLNYTVKSLKRFKGKTVIISGGGNSAVDWANELEPIAKKVYVTYRKEELSGHEAQVKQLMNSSAECFFNTSITKLIAGDNHEAIEYVELTNHETGEVSHLPIDEVIINHGYERDITLLENSELDVAIIDNYYIAGNANSESSVDGLYAAGDILKHEGKLHLIAGAFQDAGNAVNKAKQFIQPDASEYGMVSSHNEVFKKRNRELIKQMMK 6gas-a2-m1-cD_6gas-a2-m1-cC Crystal structure of oxidised ferredoxin/flavodoxin NADP+ oxidoreductase 2 (FNR2) from Bacillus cereus Q816D9 Q816D9 2.4 X-RAY DIFFRACTION 146 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 326 327 6gas-a1-m1-cA_6gas-a1-m1-cB NQKVYDITIIGGGPTGLFTAFYGGMRQASVKIIESLPQLGGQLSALYPEKYIYDVAGFPKVRAQELVDNLKEQMKKFDPTVCLEEAVDTLEKQADGIFKLVTNKQTHYSKSVIITAGNGAFQPRRLELEGTAKYEKKNLHYFVDDMNKFAGKRVVVFGGGDSAVDWTMMLEPIAEKVTIVHRRDKFRAHEHSVENLMNSRAEVSTPYVPVELIGDDKIEQVVLQHVKTEEKVIIDVDDVIVNYGFVSSLGPIKNWGLDIQKNSILVNSKMETNIPGIYAAGDICTYEGKVKLIACGFGEAPTAVNNAKAYFDPNAKLQPMHSSSMF ENQKVYDITIIGGGPTGLFTAFYGGMRQASVKIIESLPQLGGQLSALYPEKYIYDVAGFPKVRAQELVDNLKEQMKKFDPTVCLEEAVDTLEKQADGIFKLVTNKQTHYSKSVIITAGNGAFQPRRLELEGTAKYEKKNLHYFVDDMNKFAGKRVVVFGGGDSAVDWTMMLEPIAEKVTIVHRRDKFRAHEHSVENLMNSRAEVSTPYVPVELIGDDKIEQVVLQHVKTEEKVIIDVDDVIVNYGFVSSLGPIKNWGLDIQKNSILVNSKMETNIPGIYAAGDICTYEGKVKLIACGFGEAPTAVNNAKAYFDPNAKLQPMHSSSMF 6gay-a1-m1-cB_6gay-a1-m1-cA A fast recovering full-length LOV protein (DsLOV) from the marine phototrophic bacterium Dinoroseobacter shibae (Dark state) - M49I mutant A8LP63 A8LP63 1.86 X-RAY DIFFRACTION 67 1.0 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 108 110 EMSVVFSDPSQPDNPIIYVSDAFLVQTGYTLEEVLGRNCRFLQGPDTNPHAVEAIRQGLKAETRFTIDILNYRKDGSAFVNRLRIRPIYDPEGNLMFFAGAQNPVLEH EAEMSVVFSDPSQPDNPIIYVSDAFLVQTGYTLEEVLGRNCRFLQGPDTNPHAVEAIRQGLKAETRFTIDILNYRKDGSAFVNRLRIRPIYDPEGNLMFFAGAQNPVLEH 6gbq-a1-m1-cB_6gbq-a1-m1-cC Crystal Structure of the oligomerization domain of Vp35 from Reston virus Q8JPY0 Q8JPY0 2.43 X-RAY DIFFRACTION 92 1.0 186539 (Reston ebolavirus) 186539 (Reston ebolavirus) 65 69 6gbr-a1-m1-cB_6gbr-a1-m1-cC LKKVEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEH LKKVEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHHHHH 6gbq-a1-m1-cD_6gbq-a1-m1-cA Crystal Structure of the oligomerization domain of Vp35 from Reston virus Q8JPY0 Q8JPY0 2.43 X-RAY DIFFRACTION 88 0.985 186539 (Reston ebolavirus) 186539 (Reston ebolavirus) 68 70 6gbr-a1-m1-cA_6gbr-a1-m1-cD MLKKVEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHHH LKKVEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHHHHHH 6gbq-a2-m1-cH_6gbq-a2-m1-cF Crystal Structure of the oligomerization domain of Vp35 from Reston virus Q8JPY0 Q8JPY0 2.43 X-RAY DIFFRACTION 11 1.0 186539 (Reston ebolavirus) 186539 (Reston ebolavirus) 63 67 6gbq-a1-m1-cC_6gbq-a1-m1-cA EDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHHH VEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHHHHHH 6gbr-a1-m1-cB_6gbr-a1-m1-cA Crystal Structure of the oligomerization domain of VP35 from Reston virus, mercury derivative Q8JPY0 Q8JPY0 3.15 X-RAY DIFFRACTION 54 1.0 186539 (Reston ebolavirus) 186539 (Reston ebolavirus) 66 67 6gbq-a1-m1-cB_6gbq-a1-m1-cA 6gbq-a1-m1-cD_6gbq-a1-m1-cC 6gbr-a1-m1-cD_6gbr-a1-m1-cC LKKVEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHH LKKVEDTLTMLVNATSRQNAAIEALENRLSTLESSLKPIQDMGKVISSLNRSCAEMVAKYDLLEHHH 6gbs-a1-m1-cA_6gbs-a1-m1-cB Crystal Structure of the C. themophilum Scavenger Decapping Enzyme DcpS apo form G0S8A3 G0S8A3 1.946 X-RAY DIFFRACTION 332 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 330 333 MDAKRSAEALVPRFQFERLLNQDQAGRRSALYGAIDGQPALLILERAPFPTSTAYLGRAANTLRALTNLGANDIYHWYLASSGVIEIPVEESDDEFADLKINLIYPCTEKHVKKYSKQGVRFVTETPEIYRDYVRPYMQAQREAGRLNWVYNIIEGRKEVEDVIYRTPYGQDPEEGFLLLPDLNWDRKTVEALHLLGIVERRDLWSLRDLKKKHLPWLRHMREKLIEATTKVYPTVEADQLKLYLHYQPTYYHLNIHIVHVQLEAGATQATGKAVGLESVMEQLEHMHVGPEDGDGSDVGMDRVTMCYTLGEASDLWVDVFEPLKRKKQA MDAKRSAEALVPRFQFERLLNQDQAGRRSALYGAIDGQPALLILERAPFPTSTAYLGRAANTLRALTNLGANDIYHWYLASSGVIEIPVEESEGTDDEFADLKINLIYPCTEKHVKKYSKQGVRFVTETPEIYRDYVRPYMQAQREAGRLNWVYNIIEGRKEVEDVIYRTPYGQDPEEGFLLLPDLNWDRKTVEALHLLGIVERRDLWSLRDLKKKHLPWLRHMREKLIEATTKVYPTVEADQLKLYLHYQPTYYHLNIHIVHVQLEAGATQATGKAVGLESVMEQLEHMHVGPEDGDGSDVGMDRVTMCYTLGEASDLWVDVFEPLKRKKQA 6gbu-a1-m1-cE_6gbu-a1-m1-cG Crystal structure of the second SH3 domain of FCHSD2 (SH3-2) in complex with the fourth SH3 domain of ITSN1 (SH3d) O94868 O94868 3.44 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 42 54 VKALYDYEGQTDDELSFPEGAIIRILWEGEFNGRIGVFPSVL VKALYDYEGQTDDELSFPEGAIIRILNKENQDDDGFWEGEFNGRIGVFPSVLVE 6gbu-a1-m1-cH_6gbu-a1-m1-cD Crystal structure of the second SH3 domain of FCHSD2 (SH3-2) in complex with the fourth SH3 domain of ITSN1 (SH3d) Q15811 Q15811 3.44 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 64 6gbu-a1-m1-cB_6gbu-a1-m1-cF PEIAQVIASYTATGPEQLTLAPGQLILIRKKNPGGWWEGELQARGKKRQIGWFPANYVKLLSP KPEIAQVIASYTATGPEQLTLAPGQLILIRKKNPGGWWEGELQARGKKRQIGWFPANYVKLLSP 6gbv-a1-m1-cA_6gbv-a1-m2-cA A fast recovering full-length LOV protein (DsLOV) from the marine phototrophic bacterium Dinoroseobacter shibae (Dark state) - M49T mutant A8LP63 A8LP63 1.63 X-RAY DIFFRACTION 64 1.0 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 120 120 4kuk-a1-m1-cA_4kuk-a1-m2-cA 4kuo-a1-m1-cA_4kuo-a1-m2-cA 6gb3-a1-m1-cA_6gb3-a1-m2-cA 6gba-a1-m1-cA_6gba-a1-m2-cA 7zqu-a1-m1-cA_7zqu-a1-m2-cA DIADLRALLDEDEAEMSVVFSDPSQPDNPTIYVSDAFLVQTGYTLEEVLGRNCRFLQGPDTNPHAVEAIRQGLKAETRFTIDILNYRKDGSAFVNRLRIRPIYDPEGNLMFFAGAQNPVL DIADLRALLDEDEAEMSVVFSDPSQPDNPTIYVSDAFLVQTGYTLEEVLGRNCRFLQGPDTNPHAVEAIRQGLKAETRFTIDILNYRKDGSAFVNRLRIRPIYDPEGNLMFFAGAQNPVL 6gc5-a1-m1-cB_6gc5-a1-m1-cA Molecular basis for AU-rich element recognition and dimerization by the HuR C-terminal RRM Q15717 Q15717 1.9 X-RAY DIFFRACTION 39 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 76 79 GWCIFIYNLGQDADEGILWQMFGPFGAVTNVKVIRDKCKGFGFVTMTNYEEAAMAIASLNGYRLGDKILQVSFKTN GWCIFIYNLGQDADEGILWQMFGPFGAVTNVKVIRDFNTNKCKGFGFVTMTNYEEAAMAIASLNGYRLGDKILQVSFKT 6gc9-a1-m1-cB_6gc9-a1-m1-cA Crystal structure of glutathione transferase Xi 1 from Trametes versicolor A0A3F2YM26 A0A3F2YM26 3.2 X-RAY DIFFRACTION 84 1.0 5325 (Trametes versicolor) 5325 (Trametes versicolor) 292 300 PSVFRNFVEKGGAFAPEKGRYHLYVSYACPWATRTLIVRKIKGLEEFIDVSVVSPRMGAHGWPFANVDAFPGADADPLFGAEHVKDLYMRVNPDYEGRFTVPILWDKKTSAIVNNESSEIIRMFNTAFNDQLPSDKAAIDLYPEALRGEIDGINEWVYDTVNNGVYKSGFATSQKAYEAAVVPLFESLDRLEKILTGKDYLVGDQLTEADIRLFVTIVRFDPVYVGHFKCNIRTIRDGYPAIDLWMRKLYWNNSAFSSTCNFEHIKTHYYWSHPQINPHRVVPVGPIPNILP SFNRKPSVFRNFVEKGGAFAPEKGRYHLYVSYACPWATRTLIVRKIKGLEEFIDVSVVSPRMGAHGWPFANVDAFPGADADPLFGAEHVKDLYMRVNPDYEGRFTVPILWDKKTSAIVNNESSEIIRMFNTAFNDQLPSDKAAIDLYPEALRGEIDGINEWVYDTVNNGVYKSGFATSQKAYEAAVVPLFESLDRLEKILTGKDYLVGDQLTEADIRLFVTIVRFDPVYVGHFKCNIRTIRDGYPAIDLWMRKLYWNNSAFSSTCNFEHIKTHYYWSHPQINPHRVVPVGPIPNILPLHH 6gcb-a1-m1-cB_6gcb-a1-m1-cA Crystal structure of glutathione transferase Xi 3 from Trametes versicolor in complex with glutathione A0A3F2YM27 A0A3F2YM27 1.795 X-RAY DIFFRACTION 81 1.0 5325 (Trametes versicolor) 5325 (Trametes versicolor) 291 293 6gca-a1-m1-cB_6gca-a1-m1-cA 6gcc-a1-m1-cB_6gcc-a1-m1-cA 6hta-a1-m1-cB_6hta-a1-m1-cA STFRRFIEKGGEFEPEKGRYHLYVAYSCPWATRTLIVRKIKGLEEIVGVTIVSPLFSAHGWPFGDVSPFPGAEADPFYNAQYVRDLYLRADPKYEGRFTVPVLWDKKTETVVNNESSEIIRIFNTAFNEFLPADKAAIHLYPEALKSEIDEINEWVYDTVNNGVYKAGFATTQQAYEAAVIPLFESLDRLEKILTGKDYLVGDQLTEADVRLFVTIIRFDPAYVGHFKCNLRTIRDGYPAIHLWLRKLYWNNSAFSETCKFDHIKASYYAQKNVNPTLVVPLGPIPNILPL KASTFRRFIEKGGEFEPEKGRYHLYVAYSCPWATRTLIVRKIKGLEEIVGVTIVSPLFSAHGWPFGDVSPFPGAEADPFYNAQYVRDLYLRADPKYEGRFTVPVLWDKKTETVVNNESSEIIRIFNTAFNEFLPADKAAIHLYPEALKSEIDEINEWVYDTVNNGVYKAGFATTQQAYEAAVIPLFESLDRLEKILTGKDYLVGDQLTEADVRLFVTIIRFDPAYVGHFKCNLRTIRDGYPAIHLWLRKLYWNNSAFSETCKFDHIKASYYAQKNVNPTLVVPLGPIPNILPL 6gcv-a2-m1-cC_6gcv-a2-m2-cC Ligand binding domain (LBD) of the p. aeruginosa nitrate receptor McpN Q9I055 Q9I055 1.3 X-RAY DIFFRACTION 82 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 123 123 6gcv-a1-m1-cB_6gcv-a1-m1-cA SISPETINVAGAQRMLSQKMAREALQLRLGAGDPKALAATIAQYERSAADLDAGNAERNVSRMGAPEIAAQRQKVAQIWGYRAMLDQVAQPASQVDLRGFSQYSTELLGELNNLVSLMSARAD SISPETINVAGAQRMLSQKMAREALQLRLGAGDPKALAATIAQYERSAADLDAGNAERNVSRMGAPEIAAQRQKVAQIWGYRAMLDQVAQPASQVDLRGFSQYSTELLGELNNLVSLMSARAD 6gd1-a1-m1-cB_6gd1-a1-m1-cA Structure of HuR RRM3 Q15717 Q15717 2.01 X-RAY DIFFRACTION 105 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 187 190 SDKIIHLTDDSFDTDVLKADAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAMGWCIFIYNLGQDADEGILWQMFGPFGAVTNVKVIRDFNTNKCKGFGFVTMTNYEEAAMAIASLNGYRLGDKILQVSFKT SDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGAMGWCIFIYNLGQDADEGILWQMFGPFGAVTNVKVIRDFNTNKCKGFGFVTMTNYEEAAMAIASLNGYRLGDKILQVSFKT 6gd4-a1-m1-cA_6gd4-a1-m1-cB Trypanosoma brucei PTR1 in complex with inhibitor 4c (F188) O76290 O76290 1.42 X-RAY DIFFRACTION 103 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 249 249 2x9v-a1-m1-cA_2x9v-a1-m1-cB 2yhu-a1-m1-cB_2yhu-a1-m1-cA 2yhu-a1-m1-cD_2yhu-a1-m1-cC 3bmn-a1-m1-cA_3bmn-a1-m1-cB 3bmo-a1-m1-cB_3bmo-a1-m1-cA 4clo-a1-m1-cD_4clo-a1-m1-cC 4clr-a1-m1-cA_4clr-a1-m1-cB 4cm1-a1-m1-cC_4cm1-a1-m1-cD 4cm4-a1-m1-cA_4cm4-a1-m1-cB 4cm8-a1-m1-cA_4cm8-a1-m1-cB 4cmi-a1-m1-cD_4cmi-a1-m1-cC 4cmk-a1-m1-cA_4cmk-a1-m1-cB 4wcd-a1-m1-cA_4wcd-a1-m1-cB 6gcl-a1-m1-cB_6gcl-a1-m1-cA 6gd0-a1-m1-cB_6gd0-a1-m1-cA 6gd0-a1-m1-cC_6gd0-a1-m1-cD 6gd4-a1-m1-cC_6gd4-a1-m1-cD 6rx0-a1-m1-cC_6rx0-a1-m1-cD 7opj-a1-m1-cB_7opj-a1-m1-cA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVQGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA EAPAAVVTGAAKRIGRAIAVKLHQTGYRVVIHYHNSAEAAVSLADELNKERSNTAVVCQADLTNSNVLPASCEEIINSCFRAFGRCDVLVNNASAFYPTPLVQGKTVETQVAELIGTNAIAPFLLTMSFAQRQSNLSIVNLCDAMVDQPMAFSLYNMGKHALVGLTQSAALELAPYGIRVNGVAPGVSLLPVAMGEEEKDKWRRKVPLGRREASAEQIADAVIFLVSGSAQYITGSIIKVDGGLSLVHA 6gdj-a1-m1-cB_6gdj-a1-m1-cA Crystal structure of Mto2 twin-cysteine dimerisation domain Q9USP7 Q9USP7 1.5 X-RAY DIFFRACTION 76 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 69 71 PAPLSTMQTALMRLRTYHPSPIILKPVEQAVNHAITLVNTSPSSVVDALCRSLAELCLGLVQEAIDASI PAPLSTMQTALMRLRTYHPSPIILKPVEQAVNHAITLVNTSPSSVVDALCRSLAELCLGLVQEAIDASILS 6gdt-a2-m1-cC_6gdt-a2-m3-cB Crystal structure of exo-glucosidase/glucosaminidase VC0615 from Vibrio Cholerae Q9KUA8 Q9KUA8 3.17 X-RAY DIFFRACTION 86 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 566 566 6gdt-a1-m1-cA_6gdt-a1-m2-cD MLLLTNHIGYETQGPKQAVLLCGQTQLMDDCVLLVCARSHQTVAKLAIEWHGKVDNWHQGQFHRIDFSDFTTPGDYYLRLEHTHSATFTIARGVLMQRTFSDVLHYFKSQRCSGQFDQQDKQVPLLSTSTTADVHGGWYDASGDVSKYLSHLSYANYLNPQQTPLVVWNMLKGLAVLQHHSGFASFSRTRLKDEALFGADFLRRMQNSEGFFYMTVFDKWSKDTKQREICAYATQQGHKSDDYQAGFRQGGGMAIAALAAAARLDTHGEFTQADYLQAAENGYWHLKEHNLAYLNDGVENIIDEYCALLACCELYRTTENDQYLAQAREWAQRLAKRQCSDEQIAHYWSATSNGERPYFHASDAGLPVIALCEYLNIETDTANYAQLQRVVEQACQFELAITQQVSNPFGYPRQYVKGVESAKRTSFFIAQDNESGYWWQGENARLASLASMAYLAQPHLSTAIAKPLEQWSQNALNWIVGLNPYNMCMLDGHGHNNPDYLPHLGFFNAKGGVCNGITAGFDDPRDIAFNPAGQKDDMLQNWRWGEQWIPHGAWYLLAIISQFAHF MLLLTNHIGYETQGPKQAVLLCGQTQLMDDCVLLVCARSHQTVAKLAIEWHGKVDNWHQGQFHRIDFSDFTTPGDYYLRLEHTHSATFTIARGVLMQRTFSDVLHYFKSQRCSGQFDQQDKQVPLLSTSTTADVHGGWYDASGDVSKYLSHLSYANYLNPQQTPLVVWNMLKGLAVLQHHSGFASFSRTRLKDEALFGADFLRRMQNSEGFFYMTVFDKWSKDTKQREICAYATQQGHKSDDYQAGFRQGGGMAIAALAAAARLDTHGEFTQADYLQAAENGYWHLKEHNLAYLNDGVENIIDEYCALLACCELYRTTENDQYLAQAREWAQRLAKRQCSDEQIAHYWSATSNGERPYFHASDAGLPVIALCEYLNIETDTANYAQLQRVVEQACQFELAITQQVSNPFGYPRQYVKGVESAKRTSFFIAQDNESGYWWQGENARLASLASMAYLAQPHLSTAIAKPLEQWSQNALNWIVGLNPYNMCMLDGHGHNNPDYLPHLGFFNAKGGVCNGITAGFDDPRDIAFNPAGQKDDMLQNWRWGEQWIPHGAWYLLAIISQFAHF 6gef-a1-m1-cE_6gef-a1-m1-cF X-ray structure of the Yersinia pseudotuberculosis ATPase DotB A0A0U1QTI9 A0A0U1QTI9 2.75 X-RAY DIFFRACTION 105 1.0 349747 (Yersinia pseudotuberculosis IP 31758) 349747 (Yersinia pseudotuberculosis IP 31758) 385 386 6gef-a1-m1-cB_6gef-a1-m1-cA 6gef-a1-m1-cB_6gef-a1-m1-cC 6gef-a1-m1-cD_6gef-a1-m1-cE PLHLPILEFKTEYRYPSTFEHEAQFKDTVLEFLAHEASDIIIKQGVAISAKVKGTLCTLSTRTLNFNEIERIALWASGSSSVLTELASKKLINTRYEVFHPTKLTTGGQKQRFGYRVNISPVYIQGKTTAEIVMRSIPLDPLPLADIGLSPELVNQMCPDNGIVMVAGKTSSGKSTTFSSIIRYIMENDTPIKGHLLTHEDPIEFVYDNIKSAHSIIAQSQIPEQFSSFAIANQEALRRTPNLIMIGELRDKQSIESAFEAANTGHPVFATVHSQNCSAVMRRLISRFDESVRGAAIYDLVETTRFIMAQTLVRKTDGNLVAAREYLNFTTDIREQLLSLSDMGKVASEVRRLVDEFGHPFSLEAERLHSDGIIDGHVAKRLSMM PLHLPILEFKTEYRYPSTFEHEAQFKDTVLEFLAHEASDIIIKQGVAISAKVKGTLCTLSTRTLNFNEIERIALWASGSSSVLTELASKKLINTRYEVFHPTKLTTGGQKQRFGYRVNISPVYIQGKTTAEIVMRSIPLDPLPLADIGLSPELVNQMCPDNGIVMVAGKTSSGKSTTFSSIIRYIMENDTPIKGHLLTHEDPIEFVYDNIKSAHSIIAQSQIPEQFSSFAIANQEALRRTPNLIMIGELRDKQSIESAFEAANTGHPVFATVHSQNCSAVMRRLISRFDESVRGAAIYDLVETTRFIMAQTLVRKTDGNLVAAREYLNFTTDIREQLLSLSDMGKVASEVRRLVDEFGHPFSLEAERLHSDGIIDGHVAKRLSMMS 6gef-a1-m1-cF_6gef-a1-m1-cA X-ray structure of the Yersinia pseudotuberculosis ATPase DotB A0A0U1QTI9 A0A0U1QTI9 2.75 X-RAY DIFFRACTION 95 1.0 349747 (Yersinia pseudotuberculosis IP 31758) 349747 (Yersinia pseudotuberculosis IP 31758) 386 388 6gef-a1-m1-cC_6gef-a1-m1-cD PLHLPILEFKTEYRYPSTFEHEAQFKDTVLEFLAHEASDIIIKQGVAISAKVKGTLCTLSTRTLNFNEIERIALWASGSSSVLTELASKKLINTRYEVFHPTKLTTGGQKQRFGYRVNISPVYIQGKTTAEIVMRSIPLDPLPLADIGLSPELVNQMCPDNGIVMVAGKTSSGKSTTFSSIIRYIMENDTPIKGHLLTHEDPIEFVYDNIKSAHSIIAQSQIPEQFSSFAIANQEALRRTPNLIMIGELRDKQSIESAFEAANTGHPVFATVHSQNCSAVMRRLISRFDESVRGAAIYDLVETTRFIMAQTLVRKTDGNLVAAREYLNFTTDIREQLLSLSDMGKVASEVRRLVDEFGHPFSLEAERLHSDGIIDGHVAKRLSMMS REPLHLPILEFKTEYRYPSTFEHEAQFKDTVLEFLAHEASDIIIKQGVAISAKVKGTLCTLSTRTLNFNEIERIALWASGSSSVLTELASKKLINTRYEVFHPTKLTTGGQKQRFGYRVNISPVYIQGKTTAEIVMRSIPLDPLPLADIGLSPELVNQMCPDNGIVMVAGKTSSGKSTTFSSIIRYIMENDTPIKGHLLTHEDPIEFVYDNIKSAHSIIAQSQIPEQFSSFAIANQEALRRTPNLIMIGELRDKQSIESAFEAANTGHPVFATVHSQNCSAVMRRLISRFDESVRGAAIYDLVETTRFIMAQTLVRKTDGNLVAAREYLNFTTDIREQLLSLSDMGKVASEVRRLVDEFGHPFSLEAERLHSDGIIDGHVAKRLSMMS 6gem-a1-m1-cA_6gem-a1-m1-cC FeII-Dependent Halogenase Wi-WelO15 A0A075X7F9 A0A075X7F9 3.462 X-RAY DIFFRACTION 58 1.0 1524912 (Westiella intricata UH HT-29-1) 1524912 (Westiella intricata UH HT-29-1) 280 280 ALHFLDINATEVKKYPTAIQDIIINRSFDGMIIRGVFPRDTMEQVARCLEEGNDGGMKSILNKNEEFGTKVAQIYGHAIVGQSPDLKDYFASSAIFRQACRTMFQGSPDFEEQVESIFHSLSELPVEIPTGPEGQTYTPATIRLLLEGREIAVHVGNDFLLMPAANHLKTLLDLSDQLSYFIPLTVPEAGGELVVYSLEWNPQEASKYAQMQEYMDDVESKIKSNQSQSVAYAPGPGDMLLFNGGRYYHRVSEVIGNSPRRTIGGFLAFSKQRNKIYYWS ALHFLDINATEVKKYPTAIQDIIINRSFDGMIIRGVFPRDTMEQVARCLEEGNDGGMKSILNKNEEFGTKVAQIYGHAIVGQSPDLKDYFASSAIFRQACRTMFQGSPDFEEQVESIFHSLSELPVEIPTGPEGQTYTPATIRLLLEGREIAVHVGNDFLLMPAANHLKTLLDLSDQLSYFIPLTVPEAGGELVVYSLEWNPQEASKYAQMQEYMDDVESKIKSNQSQSVAYAPGPGDMLLFNGGRYYHRVSEVIGNSPRRTIGGFLAFSKQRNKIYYWS 6gem-a1-m1-cA_6gem-a1-m1-cD FeII-Dependent Halogenase Wi-WelO15 A0A075X7F9 A0A075X7F9 3.462 X-RAY DIFFRACTION 60 1.0 1524912 (Westiella intricata UH HT-29-1) 1524912 (Westiella intricata UH HT-29-1) 280 280 6gem-a1-m1-cB_6gem-a1-m1-cC ALHFLDINATEVKKYPTAIQDIIINRSFDGMIIRGVFPRDTMEQVARCLEEGNDGGMKSILNKNEEFGTKVAQIYGHAIVGQSPDLKDYFASSAIFRQACRTMFQGSPDFEEQVESIFHSLSELPVEIPTGPEGQTYTPATIRLLLEGREIAVHVGNDFLLMPAANHLKTLLDLSDQLSYFIPLTVPEAGGELVVYSLEWNPQEASKYAQMQEYMDDVESKIKSNQSQSVAYAPGPGDMLLFNGGRYYHRVSEVIGNSPRRTIGGFLAFSKQRNKIYYWS ALHFLDINATEVKKYPTAIQDIIINRSFDGMIIRGVFPRDTMEQVARCLEEGNDGGMKSILNKNEEFGTKVAQIYGHAIVGQSPDLKDYFASSAIFRQACRTMFQGSPDFEEQVESIFHSLSELPVEIPTGPEGQTYTPATIRLLLEGREIAVHVGNDFLLMPAANHLKTLLDLSDQLSYFIPLTVPEAGGELVVYSLEWNPQEASKYAQMQEYMDDVESKIKSNQSQSVAYAPGPGDMLLFNGGRYYHRVSEVIGNSPRRTIGGFLAFSKQRNKIYYWS 6gen-a1-m1-cU_6gen-a1-m1-cW Chromatin remodeller-nucleosome complex at 4.5 A resolution. Q12464 Q12464 3.6 ELECTRON MICROSCOPY 14 0.998 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 430 433 6gej-a1-m1-cU_6gej-a1-m1-cW 6gej-a1-m1-cU_6gej-a1-m1-cY 6gej-a1-m1-cW_6gej-a1-m1-cY KSLSLIAAHSHITGLGLDENLQPRPTSEGMVGQLQARRAAGVILKMVQNGTIAGRAVLVAGPPSTGKTALAMGVSQSLGKDVPFTAIAGSEIFSLELSKTEALTQAFRKSIGIKIKEETELIEGEVVEIQIDRSITGGHKQGKLTIKTTDMETIYELGNKMIDGLTKEKVLAGDVISIDKASGKITKLGRSVQCPEGELQKRKTVVHTVSLHEIDVINSRTQGFLALFTGDTGEIRSEVRDQINTKVAEWKEEGKAEIVPGVLFIDEVHMLDIECFSFINRALEDEFAPIVMMATNRGVSKTRGTNYKSPHGLPLDLLDRSIIITTKSYNEQEIKTILSIRAQEEEVELSSDALDLLTKTGVETSLRYSSNLISVAQQIAMKRKNNTVEVEDVKRAYLLFLDSARSVKYVQENESQYIDDQGNVQISIAK LKSLSLIAAHSHITGLGLDENLQPRPTSEGMVGQLQARRAAGVILKMVQNGTIAGRAVLVAGPPSTGKTALAMGVSQSLGKDVPFTAIAGSEIFSLELSKTEALTQAFRKSIGIKIKEETELIEGEVVEIQIDRSITGGHKQGKLTIKTTDMETIYELGNKMIDGLTKEKVLAGDVISIDKASGKITKLGRSFAFVQCPEGELQKRKTVVHTVSLHEIDVINSRTQGFLALFTGDTGEIRSEVRDQINTKVAEWKEEGKAEIVPGVLFIDEVHMLDIECFSFINRALEDEFAPIVMMATNRGVSKTRGTNYKSPHGLPLDLLDRSIIITTKSYNEQEIKTILSIRAQEEEVELSSDALDLLTKTGVETSLRYSSNLISVAQQIAMKRKNNTVEVEDVKRAYLLFLDSARSVKYVQENESQYIDDQGNVQISIA 6gf7-a1-m1-cB_6gf7-a1-m1-cA Molecular basis of egg coat filament cross-linking: Zn-SAD structure of the partially deglycosylated ZP1 ZP-N1 domain homodimer A0A140JXP0 A0A140JXP0 2.7 X-RAY DIFFRACTION 32 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 103 105 LLQYHYDCGDFGMQLLAYPTRGRTVHFKVLDEFGTRFEVANCSICMHWLNTGEDGGLIFSAGYEGCHVLVKDGRYVLRVQLEEMLLSGVVAASYEVQMTCPRP PALLQYHYDCGDFGMQLLAYPTRGRTVHFKVLDEFGTRFEVANCSICMHWLNTGEDGGLIFSAGYEGCHVLVKDGRYVLRVQLEEMLLSGVVAASYEVQMTCPRP 6gf8-a1-m1-cA_6gf8-a1-m3-cA Molecular basis of egg coat filament cross-linking: structure of the glycosylated ZP1 ZP-N1 domain homodimer A0A140JXP0 A0A140JXP0 3.1 X-RAY DIFFRACTION 31 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 103 103 LLQYHYDCGDFGMQLLAYPTRGRTVHFKVLDEFGTRFEVANCSICMHWLNTGEDGGLIFSAGYEGCHVLVKDGRYVLRVQLEEMLLSGVVAASYEVQMTCPRP LLQYHYDCGDFGMQLLAYPTRGRTVHFKVLDEFGTRFEVANCSICMHWLNTGEDGGLIFSAGYEGCHVLVKDGRYVLRVQLEEMLLSGVVAASYEVQMTCPRP 6gf8-a2-m1-cB_6gf8-a2-m2-cB Molecular basis of egg coat filament cross-linking: structure of the glycosylated ZP1 ZP-N1 domain homodimer A0A140JXP0 A0A140JXP0 3.1 X-RAY DIFFRACTION 36 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 105 105 PALLQYHYDCGDFGMQLLAYPTRGRTVHFKVLDEFGTRFEVANCSICMHWLNTGEDGGLIFSAGYEGCHVLVKDGRYVLRVQLEEMLLSGVVAASYEVQMTCPRP PALLQYHYDCGDFGMQLLAYPTRGRTVHFKVLDEFGTRFEVANCSICMHWLNTGEDGGLIFSAGYEGCHVLVKDGRYVLRVQLEEMLLSGVVAASYEVQMTCPRP 6gfc-a2-m1-cC_6gfc-a2-m1-cD Structure of the BTB/POZ domain of human 90K H9FUB4 H9FUB4 3.3 X-RAY DIFFRACTION 94 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 119 123 6gfb-a1-m1-cA_6gfb-a1-m1-cB 6gfc-a1-m1-cA_6gfc-a1-m1-cB STHTLDLSRELSEVLGQIFDSQQGCDLSISVSVQGEDALGFCGHTIILTANLEAQALWKEPGSNVTMSVDAECVPMVRDFLRYFYSRRIDIALSSVKCFHKLASAYGAKQLQGYCASLF RSTHTLDLSRELSEVLGQIFDSQQGCDLSISVSVQGEDALGFCGHTIILTANLEAQALWKEPGSNVTMSVDAECVPMVRDFLRYFYSRRIDIALSSVKCFHKLASAYGAKQLQGYCASLFAIL 6gfc-a3-m1-cF_6gfc-a3-m1-cG Structure of the BTB/POZ domain of human 90K H9FUB4 H9FUB4 3.3 X-RAY DIFFRACTION 92 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 109 124 RSTHTLDLSRELSEVLGQIFDSQQGCDLSIFCGHTIILTANLEAQALWKEPGSNVTMSVDAECVPMVRDFLRYFYSRRIDIALSSVKCFHKLASAYGAKQLQGYCASLF RSTHTLDLSRELSEVLGQIFDSQQGCDLSISVSVQGEDALGFCGHTIILTANLEAQALWKEPGSNVTMSVDAECVPMVRDFLRYFYSRRIDIALSSVKCFHKLASAYGAKQLQGYCASLFAILS 6gfe-a1-m1-cK_6gfe-a1-m1-cH High-resolution Structure of a therapeutic full-length anti-NPRA Antibody with exceptional Conformational Diversity 1.8 X-RAY DIFFRACTION 66 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 426 429 QVELQQSGPGLVKPSQTLSLTCAISGDSVSSRSASWSWIRQSPGRGLEWLGRTYYRSHWYYEYAQSVKSRITINPDTSKNQFSLQLNSVTPEDTAVYYCARMDVPSFRYFDVWGQGTLVTVSSASTKGPSVFPLAPCSSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAKTKPREEQFNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKGLPSSIEKTISKAKGQPREPQVYTLPPSQEEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSRLTVDKSRWQEGNVFSCSVMHEALHNHYTQKSLSLS QVELQQSGPGLVKPSQTLSLTCAISGDSVSSRSASWSWIRQSPGRGLEWLGRTYYRSHWYYEYAQSVKSRITINPDTSKNQFSLQLNSVTPEDTAVYYCARMDVPSFRYFDVWGQGTLVTVSSASTKGPSVFPLAPCSSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPEVQFNWYVDGVEVHNAKTKPREEQFNSTYRVVSVLTVLHQDWLNGKEYKCKVSNKGLPSSIEKTISKAKGQPREPQVYTLPPSQEEMTKNQVSLTCLVKGFYPSDIAVEWESNGQPENNYKTTPPVLDSDGSFFLYSRLTVDKSRWQEGNVFSCSVMHEALHNHYTQKSLSLS 6gff-a1-m1-cA_6gff-a1-m1-cC Structure of GARP (LRRC32) in complex with latent TGF-beta1 and MHG-8 Fab P01137 P01137 3.1 X-RAY DIFFRACTION 24 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 168 209 LSTCKTIDMELVKRKRIEAIRGQILSKLRLASPPSQGEVPPGPLPEAVLALYNSTRDRVEPEADYYAKEVTRVLIYMFFNTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQLSNRLLAPSDSPEWLSFDVTGVVRQWLSEGFRLSAHCSCNRPFLLLMATPLE TCKTIDMELVKRKRIEAIRGQILSKLRLASPPSQGEVPPGPLPEAVLALYNSTRDRVPEADYYAKEVTRVLMVETHNEIYDKFKQSTHSIYMFFNTSELREAVPEPVLLSRAELRLLRLKLKVEQHVELYQKYSNNSWRYLSNRLLAPSDSPEWLSFDVTGVVRQWLSRGGEIEGFRLSAHCSCDSRDNRPFLLLMATPLERAQHLQSS 6gfl-a1-m1-cB_6gfl-a1-m1-cA Crystal structure of the Escherichia coli nucleosidase PpnN (apo form) P0ADR8 P0ADR8 2.48 X-RAY DIFFRACTION 60 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 429 431 AITHISPLGSMDMLSQLEVDMLKRTASSDLYQLFRNCSLAVLNSGSLTDNSKELLSRFENFDINVLRRERGVKLELINPPEEAFVDGRIIRALQANLFAVLRDILFVYGQIHDNSVHITNLVFSILRNARALHVGEAPNMVVCWGGHSINENEYLYARRVGNQLGLRELNICTGCGPGAMEAPMKGAAVGHAQQRYKDSRFIGMTEPSIIAAEPPNPLVNELIIMPDIEKRLEAFVRIAHGIIIFPGGVGTAEELLYLLGILMNPANKDQVLPLILTGPKESADYFRVLDEFVVHTLGENARRHYRIIIDDAAEVARQMKKSMPLVKENRRDTGDAYSFNWSMRIAPDLQMPFEPSHENMANLKLYPDQPVEVLAADLRRAFSGIVAGNVKEVGIRAIEEFGPYKINGDKEIMRRMDDLLQGFVAQHRM AITHISPLGSMDMLSQLEVDMLKRTASSDLYQLFRNCSLAVLNSGSLTDNSKELLSRFENFDINVLRRERGVKLELINPPEEAFVDGRIIRALQANLFAVLRDILFVYGQIHLDNSVHITNLVFSILRNARALHVGEAPNMVVCWGGHSINENEYLYARRVGNQLGLRELNICTGCGPGAMEAPMKGAAVGHAQQRYKDSRFIGMTEPSIIAAEPPNPLVNELIIMPDIEKRLEAFVRIAHGIIIFPGGVGTAEELLYLLGILMNPANKDQVLPLILTGPKESADYFRVLDEFVVHTLGENARRHYRIIIDDAAEVARQMKKSMPLVKENRRDTGDAYSFNWSMRIAPDLQMPFEPSHENMANLKLYPDQPVEVLAADLRRAFSGIVAGNVKEVGIRAIEEFGPYKINGDKEIMRRMDDLLQGFVAQHRMK 6gg2-a1-m1-cA_6gg2-a1-m2-cA The structure of FsqB from Aspergillus fumigatus, a flavoenzyme of the amine oxidase family Q4WD43 Q4WD43 2.598 X-RAY DIFFRACTION 141 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 494 494 SIPNSFIIVGSGVFGLSLAYALSLDDRFADKKIILVDRWNFEPPNATGSVHNPAAANADTSRVIRRDYPHGPYASLALEAMKHWRGKFGENNRYVNQRLLFSGEGSSLTTPPKALETVNYIKKAYAISCELTPGGRDAVQVLDSLDEVRAFLGNTPSHPPHLPVNKDPAARDLRGYVSNDCGWADAGASIEWLRQEVLRLGRVECVVGEVESLVYSDDQRAVKGVKLVDGKVLTAELTVIAAGARSSHILGIPKLCDVYSEFVAYIQLTKEEADELRRRQWPILVNCHRGVFAVGPDHDNCLKFGHFSYSGIVDVLREASIQVPTRPDGWEAQQKYWSDPRFAFGGEVKVSALGDVDDYENPAAQRALADYRLFLLELLGPTGLQGVDTLGLDQSDNLLNNIANRPFTRVRKCWYNDTPALDFVVDYHPSYGKTLFVATGGCDHAFKFLPIIGEKTLALILRNRGDSAVSLPAGVEPSLEELSELWRFPVELLQ SIPNSFIIVGSGVFGLSLAYALSLDDRFADKKIILVDRWNFEPPNATGSVHNPAAANADTSRVIRRDYPHGPYASLALEAMKHWRGKFGENNRYVNQRLLFSGEGSSLTTPPKALETVNYIKKAYAISCELTPGGRDAVQVLDSLDEVRAFLGNTPSHPPHLPVNKDPAARDLRGYVSNDCGWADAGASIEWLRQEVLRLGRVECVVGEVESLVYSDDQRAVKGVKLVDGKVLTAELTVIAAGARSSHILGIPKLCDVYSEFVAYIQLTKEEADELRRRQWPILVNCHRGVFAVGPDHDNCLKFGHFSYSGIVDVLREASIQVPTRPDGWEAQQKYWSDPRFAFGGEVKVSALGDVDDYENPAAQRALADYRLFLLELLGPTGLQGVDTLGLDQSDNLLNNIANRPFTRVRKCWYNDTPALDFVVDYHPSYGKTLFVATGGCDHAFKFLPIIGEKTLALILRNRGDSAVSLPAGVEPSLEELSELWRFPVELLQ 6ggo-a1-m1-cB_6ggo-a1-m1-cA Crystal structure of Salmonella zinc metalloprotease effector GtgA A0A0F6AZI6 A0A0F6AZI6 2.6 X-RAY DIFFRACTION 21 0.995 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 198 199 VFPDLPEHQDNPSQLRLQHDGLATDDKARLEPMCLAEYLISGPGGMDPDIEIDDDTYDECREVLSRILEDAYTQSGTFRRLMNYAYDQELHDVEQRWLLGAGENFGTTVTDEDLESSEGRKVIALNLDDTSIPEYYESNDGPQQFDTTRSFIHQVVHALTHLQDKEDSNPRGPVVEYTNIILKEMGHTSPPRIAYEFS SKVFPDLPEHQDNPSQLRLQHDGLATDDKARLEPMCLAEYLISGPGGMDPDIEIDDDTYDECREVLSRILEDAYTQSGTFRRLMNYAYDQELHDVEQRWLLGAGENFGTTVTDEDLESSEGRKVIALNLDDSIPEYYESNDGPQQFDTTRSFIHQVVHALTHLQDKEDSNPRGPVVEYTNIILKEMGHTSPPRIAYEFS 6gh3-a1-m1-cB_6gh3-a1-m1-cA Paenibacillus sp. YM1 laminaribiose phosphorylase with alpha-man-1-phosphate bound D7UT17 D7UT17 1.82 X-RAY DIFFRACTION 201 0.997 856729 (Paenibacillus sp. YM1) 856729 (Paenibacillus sp. YM1) 899 902 6ggy-a1-m1-cB_6ggy-a1-m1-cA 6gh2-a1-m1-cB_6gh2-a1-m1-cA KGWKFQGEQGEFRLEQPEHNSYLYFPLVNEAGMMSAVTPNLHGEITSGHNTFLMEPVSAESLHNSKASRNFWVFIEGYGAWSVSGNSARQNAARFTGEEERSAVEAGFLWHAVTRENEKAGLKARTVSFVPVTDDKIELMRVTLTNTGNAPLKLTPTAAIPLYGRSADDLRDHRHVTSLLHRIFTSEYGIEVQPALSFDERGHRVNKVTYGVFGAEAGGTAPAGFFPVTEDFIGEGGALDWPEAVVANREPDAQAGTAVEGYEAVGALRFAPVELAPGKSVSYVVAMVISGDRIDVGRYAADYLAAGRFDALLEQNRAYWRDKLDTVRFSSGDGEQDLWMKWVTLQPILRRLYGNSFLPYHDYGRGGRGWRDLWQDCLALMVMEPAEVRHLLLNNYAGVRMDGSNATIIGAGPGEFVADRPRVWMDHGAWPLMTTLLYLHQSGDLDLLFQPQSYFRDVFVKRCRERDASWTPEQGNKLLTADGQIYEGTILEHILLQNIVPFFNVGEHGNIKLEGADWNDGLDLAPERGESVAFTAFYASNLMELSELLLELQKRTGKDSLDIAEEMALLLDTLGKPISYDSIQEKRSLLDRYYDAVTPRVSGKKLLLDIRKVAEDLKRKADWAVAHLRGSEWIQSKEGYAWFNGYYNNDGERVEGDHPDGVRMTLTGQVFAIMGGVATDEQTEKISQAVNRYLKDERIGYRLNSRFGGIQQNLGRAFGFAFGHKENGAMFSHMTVMYANALYKRGFVQEGFEVLDSIYRLSADFENSRIYPGVPEYINERGRGMYTYLTGSASWLLLTQLTEVYGVKGRFGDLRLEPKLVQAQFDGSGEAAVETLFAGRMLRVVYRNPQAAEHGQYRVDSVSLNGQSVDCQAGCLIGRSLIEALPADGVHELIVTLGR KGWKFQGEQGEFRLEQPEHNSYLYFPLVNEAGMMSAVTPNLHGEITSGHNTFLMEPVSAESLHNSKASRNFWVFIEGYGAWSVSGNSARQNAARFTGEEERSAVEAGFLWHAVTRENEKAGLKARTVSFVPVTDDKIELMRVTLTNTGNAPLKLTPTAAIPLYGRSADDLRDHRHVTSLLHRIFTSEYGIEVQPALSFDERGHRVNKVTYGVFGAEAGGTAPAGFFPVTEDFIGEGGALDWPEAVVANREPDAQAGTAVEGYEAVGALRFAPVELAPGKSVSYVVAMVISGDRIDVGRYAADYLAAGRFDALLEQNRAYWRDKLDTVRFSSGDGEQDLWMKWVTLQPILRRLYGNSFLPYHDYGRGGRGWRDLWQDCLALMVMEPAEVRHLLLNNYAGVRMDGSNATIIGAGPGEFVADRNNIPRVWMDHGAWPLMTTLLYLHQSGDLDLLFQPQSYFRDVFVKRCRERDASWTPEQGNKLLTADGQIYEGTILEHILLQNIVPFFNVGEHGNIKLEGADWNDGLDLAPERGESVAFTAFYASNLMELSELLLELQKRTGKDSLDIAEEMALLLDTLGKPISYDSIQEKRSLLDRYYDAVTPRVSGKKLLLDIRKVAEDLKRKADWAVAHLRGSEWIQSKEGYAWFNGYYNNDGERVEGDHPDGVRMTLTGQVFAIMGGVATDEQTEKISQAVNRYLKDERIGYRLNSRFGGIQQNLGRAFGFAFGHKENGAMFSHMTVMYANALYKRGFVQEGFEVLDSIYRLSADFENSRIYPGVPEYINERGRGMYTYLTGSASWLLLTQLTEVYGVKGRFGDLRLEPKLVQAQFDGSGEAAVETLFAGRMLRVVYRNPQAAEHGQYRVDSVSLNGQSVDCCLIGRSLIEALPADGVHELIVTLGRNIS 6ghc-a1-m1-cA_6ghc-a1-m1-cB Modification dependent EcoKMcrA restriction endonuclease P24200 P24200 2.85 X-RAY DIFFRACTION 246 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 286 HHHHEFMHVFDNNGIELKAECSIGEEDGVYGLILESWGPGDRNKDYNIALDYIIERLVDSGVSQVVVYLASSSVRKHMHSLDERKIHPGEYFTLIGNSPRDIRLKMCGYQAYFSRTGRKEIPSGNRTKRILINVPGIYSDSFWASIIRGELSELSQPTDDESLLNMRVSKLIKKTLSQPEGSRKPVEVERLQKVYVRDPMVEAWILQQSKGICENCGKNAPFYLNDGNPYLEVHHVIPLSSGGADTTDNCVALCPNCHRELHYSKNAKELIEMLYVNINRLQK GHHHHHHEFMHVFDNNGIELKAECSIGEEDGVYGLILESWGPGDRNKDYNIALDYIIERLVDSGVSQVVVYLASSSVRKHMHSLDERKIHPGEYFTLIGNSPRDIRLKMCGYQAYFSRTGRKEIPSGNRTKRILINVPGIYSDSFWASIIRGELSELSQPTDDESLLNMRVSKLIKKTLSQPEGSRKPVEVERLQKVYVRDPMVEAWILQQSKGICENCGKNAPFYLNDGNPYLEVHHVIPLSSGGADTTDNCVALCPNCHRELHYSKNAKELIEMLYVNINRLQK 6ghf-a1-m1-cB_6ghf-a1-m1-cA Crystal structure of a GST variant 3.52 X-RAY DIFFRACTION 51 1.0 32630 (synthetic construct) 32630 (synthetic construct) 208 210 EEVKVYGMMASPFVSRVEIALKLKGVEYKYELEKFGNFSDTLIKYNPVYKKVPVFVHNDRPISESLVILEYIDETWKQNPLLPSDPYKRALVRFWTKFIDDKCLSAARKATFSIDEKEREKGIEETEEAFQILENELKDKFFGGDEIGIVDIAGIFIAFWFPIVQEATRLKLFTSEKFPKLHKWSEDLSNHPIVKEILPPRESLLAYF EEVKVYGMMASPFVSRVEIALKLKGVEYKYELEKFGNFSDTLIKYNPVYKKVPVFVHNDRPISESLVILEYIDETWKQNPLLPSDPYKRALVRFWTKFIDDKCLSAARKATFSIDEKEREKGIEETEEAFQILENELKDKFFGGDEIGIVDIAGIFIAFWFPIVQEATRLKLFTSEKFPKLHKWSEDLSNHPIVKEILPPRESLLAYFKA 6ghs-a1-m1-cA_6ghs-a1-m2-cA Modification dependent TagI restriction endonuclease A0A3F2YM30 A0A3F2YM30 2.92 X-RAY DIFFRACTION 111 1.0 37925 (Thermocrispum agreste) 37925 (Thermocrispum agreste) 285 285 AYKRTFGHIPGHPEGSTYSNRRQVQKAGLHAHLQAGISGTAKQGADAIVLNGGYPDDRDYGDEIIYTGHGGQDPVTKKQIRDQDLDDPGNAGLVRSQLEGLPVRVIRGAGGEKPYSPSSGYRYDGLYKVVAHWFANHEDAPQFRVCQFQLVKIYDQVAAGVVVDNPVRSAQVVKNVKGWHKHRCQVCGIVIEVDVGPYSQGAHIRPLGRKHGGPDVESNMLCLCPNDHVRFDNGALYITDDLKVVNALNGEVIGPLRVHPRHVIDLDHIRYHRSQLPNIPLEGSS AYKRTFGHIPGHPEGSTYSNRRQVQKAGLHAHLQAGISGTAKQGADAIVLNGGYPDDRDYGDEIIYTGHGGQDPVTKKQIRDQDLDDPGNAGLVRSQLEGLPVRVIRGAGGEKPYSPSSGYRYDGLYKVVAHWFANHEDAPQFRVCQFQLVKIYDQVAAGVVVDNPVRSAQVVKNVKGWHKHRCQVCGIVIEVDVGPYSQGAHIRPLGRKHGGPDVESNMLCLCPNDHVRFDNGALYITDDLKVVNALNGEVIGPLRVHPRHVIDLDHIRYHRSQLPNIPLEGSS 6ghu-a1-m1-cA_6ghu-a1-m1-cB Crystal structure of the periplasmic domain of XcpY, oP crystal form. P25060 P25060 2 X-RAY DIFFRACTION 56 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 78 78 5n7l-a1-m1-cA_5n7l-a1-m2-cA QLLGLLGQAATVIGGEPTVSVEQLDFSAARGDVALQVRAPGFDVLERLRSRLSESGLAVQLGSASRDGSTVSARLVIG QLLGLLGQAATVIGGEPTVSVEQLDFSAARGDVALQVRAPGFDVLERLRSRLSESGLAVQLGSASRDGSTVSARLVIG 6gib-a1-m1-cA_6gib-a1-m1-cB Crystal structure of glutathione transferase Omega 2S from Trametes versicolor A0A452CSY5 A0A452CSY5 2.194 X-RAY DIFFRACTION 65 1.0 5325 (Trametes versicolor) 5325 (Trametes versicolor) 231 237 6gic-a1-m1-cA_6gic-a1-m1-cB 6ht6-a1-m1-cA_6ht6-a1-m1-cB CTEQITLYTTTFSPYGHRAHIALEEAGAEYTLCQINVKPEWYKRVNPLGKVPAITFGGPQVPPDEPSPESEKLVESLALLEFVADVFPEAKLLPASPVQRARARAFIAIYQNYLHDQFRDAFFRGEPVGPFLQALETLQSALPPAGFAVGEWSLAEAAVAPFLARMMLYLDAGLGKYSEADGETMRAALASERFARISQYVRDIRARASFVKSWGGDDVQLEAAKAIPMLR CTEQITLYTTTFSPYGHRAHIALEEAGAEYTLCQINVHRDKPEWYKRVNPLGKVPAITFGGPQVPPDEPSPESEKLVESLALLEFVADVFPEAKLLPASPVQRARARAFIAIYQNYLHDQFRDAFFRGEPVGPFLQALETLQSALPPAGFAVGEWSLAEAAVAPFLARMMLYLDAGLGKYSEADGETMRAALASERFARISQYVRDIRARASFVKSWGGDDVQLEAAKAIPMLRRPA 6gin-a1-m1-cA_6gin-a1-m1-cB Crystal structure of the ACVR1 (ALK2) kinase in complex with an Quinazolinone based ALK2 inhibitor with a 4-morpholinophenyl solvent accessible group. Q04771 Q04771 2.2 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 296 296 VARDITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGTQGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKID VARDITLLECVGKGRYGEVWRGSWQGENVAVKIFSSRDEKSWFRETELYNTVMLRHENILGFIASDMTSRHSSTQLWLITHYHEMGSLYDYLQLTTLDTVSCLRIVLSIASGLAHLHIEIFGTQGKPAIAHRDLKSKNILVKKNGQCCIADLGLAVMHSQSTNQLDVGNNPRVGTKRYMAPEVLDETIQVDCFDSYKRVDIWAFGLVLWEVARRMVSNGIVEDYKPPFYDVVPNDPSFEDMRKVVCVDQQRPNIPNRWFSDPTLTSLAKLMKECWYQNPSARLTALRIKKTLTKID 6gio-a2-m1-cA_6gio-a2-m1-cC Structure of Amino Acid Amide Racemase from Ochrobactrum anthropi Q06K28 Q06K28 1.87 X-RAY DIFFRACTION 404 1.0 529 (Brucella anthropi) 529 (Brucella anthropi) 433 436 6gio-a1-m1-cD_6gio-a1-m1-cB LSLRERDARVIAEIGRLRFSPLSLIGGKGNRLIEEGGRSILDLSGSAGPAALGYGHPAIVEAVEKSVRDMAGASLLLYPNEAAVSLAEDLLRITPGNGERRVWFGHSGSDANDCAVRVLTAATKRSRIISFIGSYHGNLTGSMGISGHTAMTHTLPRPGVLLLPYPDPFRPRFSAEAVLELLDYHFATSCPPEQVAAVFIEPILSDGGLVVPPPAFLEALQDRCRKHGILVVVDEVKVGLGRTGLMHCFQHEGLEPDMVVFGKGLGGGLPLSAVVGPQWVMDHAPAFVLQTTAGNPVATAAGRAVLNTIERQGLAQRSERVGGIFADRLRRLSDKHSIIGDVRGRGLAIGVDLVSDRGSREPAPVTTTAKIIYRGYQLGAAFTYVGLNANVLEFMPPLTLTEPEIDEAADIVDQAIGDVLDGKVADSDVAHFM QTPLSLRERDARVIAEIGRLRFSPLSLIGGKGNRLIEEGGRSILDLSGSAGPAALGYGHPAIVEAVEKSVRDMAGASLLLYPNEAAVSLAEDLLRITPGNGERRVWFGHSGSDANDCAVRVLTAATKRSRIISFIGSYHGNLTGSMGISGHTAMTHTLPRPGVLLLPYPDPFRPRFSAEAVLELLDYHFATSCPPEQVAAVFIEPILSDGGLVVPPPAFLEALQDRCRKHGILVVVDEVKVGLGRTGLMHCFQHEGLEPDMVVFGKGLGGGLPLSAVVGPQWVMDHAPAFVLQTTAGNPVATAAGRAVLNTIERQGLAQRSERVGGIFADRLRRLSDKHSIIGDVRGRGLAIGVDLVSDRGSREPAPVTTTAKIIYRGYQLGAAFTYVGLNANVLEFMPPLTLTEPEIDEAADIVDQAIGDVLDGKVADSDVAHFM 6gir-a1-m1-cA_6gir-a1-m2-cA Arabidopsis thaliana cytosolic seryl-tRNA synthetase Q39230 Q39230 2.343 X-RAY DIFFRACTION 158 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 406 406 MVDINLFRENNPEIIRESQRRRFASVEIVDEIIKLDKEWRQRQFEVDSFRKEFNKLNKQVAQLSEIIQQTEKNKQDSTAKEAEVREAYAALKAKLEQVGNLVHDSVPVDKDEANNLVIKLWGEKRFSTPGLKLKNHVDLVELLGIADTKRGAEIAGARGFFLKGDGLMLNQALINFGLTFLKKRGFTGLQPPFFMRKDVMAKCEELYKVTGEGDDKYLIATAEQPLCAYHIDEWIHPTELPLRYAGYSSCFRKEAGLGIFRVHQFEKIEQFCITGPNENASWEMLDEMMKNSEDFYQALKLPYQIVSIVSGALNDAAAKKYDLEAWFPSSETFRELVSCSNCTDYQARRLEIRYQTKQYVHMLNSTLTATERTICCILENYQREDGVDIPEVLQPFMGGETFLPFK MVDINLFRENNPEIIRESQRRRFASVEIVDEIIKLDKEWRQRQFEVDSFRKEFNKLNKQVAQLSEIIQQTEKNKQDSTAKEAEVREAYAALKAKLEQVGNLVHDSVPVDKDEANNLVIKLWGEKRFSTPGLKLKNHVDLVELLGIADTKRGAEIAGARGFFLKGDGLMLNQALINFGLTFLKKRGFTGLQPPFFMRKDVMAKCEELYKVTGEGDDKYLIATAEQPLCAYHIDEWIHPTELPLRYAGYSSCFRKEAGLGIFRVHQFEKIEQFCITGPNENASWEMLDEMMKNSEDFYQALKLPYQIVSIVSGALNDAAAKKYDLEAWFPSSETFRELVSCSNCTDYQARRLEIRYQTKQYVHMLNSTLTATERTICCILENYQREDGVDIPEVLQPFMGGETFLPFK 6giw-a1-m1-cB_6giw-a1-m1-cC Water-soluble Chlorophyll Protein (WSCP) from Lepidium virginicum (Mutation L91P) with Chlorophyll-a O04797 O04797 2.8 X-RAY DIFFRACTION 32 0.994 59292 (Lepidium virginicum) 59292 (Lepidium virginicum) 155 157 2dre-a1-m1-cA_2dre-a1-m1-cD 2dre-a1-m1-cB_2dre-a1-m1-cC 6giw-a1-m1-cA_6giw-a1-m1-cD 6gix-a1-m1-cA_6gix-a1-m1-cD 6gix-a1-m1-cB_6gix-a1-m1-cC 6s2y-a1-m1-cA_6s2y-a1-m1-cD 6s2y-a1-m1-cB_6s2y-a1-m1-cC EEPVKDTNGNPLKIETRYFIQPASGGGLVPANVDLSHLCPLGIVRTSLPYQPGLPVTISTPNDVLTNTNIAITFDAPIWPCPSSKTWTVDSSSEEKYIITGGDPKSGESFFRIEKYGNGKNTYKLVGKSVGSTKSLWGPALVLNDAFPIKFREVD EPVKDTNGNPLKIETRYFIQPASGGGLVPANVDLSHLCPLGIVRTSLPYQPGLPVTISTPNDVLTNTNIAITFDAPIWPCPSSKTWTVDSSSEEKYIITGGDPKSGESFFRIEKYGNGKNTYKLVRYGKSVGSTKSLWGPALVLNDNAFPIKFREVD 6gj1-a1-m1-cB_6gj1-a1-m1-cA The baseplate complex from the type VI secretion system B7LFT7 B7LFT7 4.7 ELECTRON MICROSCOPY 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 583 584 6giy-a1-m1-cB_6giy-a1-m1-cA 6n38-a1-m1-cI_6n38-a1-m1-cH LTLRYFDAEMRYLREAGKAFAQAHPDRAAMLDLDKAGTPDPCVERLFEGFAFSMGRLRQKIDDDLPELTESLVSMLWPHYLRTIPSLSVVALTPRLSVMKMAETVPAGLEVTSRPVGPGNTVCRYRTTRAIPLNPLAVEKVVMTTEPDGRSVLKIGFACSELADWSQVDLHRLSLYLAAEAPVSSTLHLMMTKRLAALYLRLPGNDERIRIDGWFSPGGFAEEDRLWPKGDSAFSGYQLLLEYFTFREKFMFVHLNGLENVSLPAGISGFDLEVVLSQPWPADLPVTDDALCLHCVPVINLFTLEADPLIINGLESEYLLRPKRLQDGYTEIYSVDAVTGSGRTGSAEYVPFTSFRHRGGMLRHDAPERYYHTRVKRGVTGMYDTWLILGGQRWEADRMPERETLSLRITGTNGQLPRRALQSTLLDRCEQVLQAPVSVRNLCKPTLPVYPPTEDRFHWRVMSHLGTGFLNMLSSAEVLRGTLALYNWRDDELNHRRLDAILAVQHHRIQRFEKGFLLRGLDVEVTLDGNGFAGEGDIHLFGEMLNRFLALYADMNQFNQLTLIVQPEGKCIRWKENHNPRLP LTLRYFDAEMRYLREAGKAFAQAHPDRAAMLDLDKAGTPDPCVERLFEGFAFSMGRLRQKIDDDLPELTESLVSMLWPHYLRTIPSLSVVALTPRLSVMKMAETVPAGLEVTSRPVGPGNTVCRYRTTRAIPLNPLAVEKVVMTTEPDGRSVLKIGFACSELADWSQVDLHRLSLYLAAEAPVSSTLHLMMTKRLAALYLRLPGNDERIRIDGWFSPGGFAEEDRLWPKGDSAFSGYQLLLEYFTFREKFMFVHLNGLENVSLPAGISGFDLEVVLSQPWPADLPVTDDALCLHCVPVINLFTLEADPLIINGLESEYLLRPKRLQDGYTEIYSVDAVTGSGRTGSAEYVPFTSFRHRGGMLRHDAPERYYHTRVKRGVTGMYDTWLILGGQRWEADRMPERETLSLRITGTNGQLPRRALQSTLLDRCEQVLQAPVSVRNLCKPTLPVYPPTEDRFHWRVMSHLGTGFLNMLSSAEVLRGTLALYNWRDDELNHRRLDAILAVQHHRIQRFEKGFLLRGLDVEVTLDGNGFAGEGDIHLFGEMLNRFLALYADMNQFNQLTLIVQPEGKCIRWKENHNPRLPG 6gje-a1-m1-cB_6gje-a1-m1-cC Structure of the Amnionless(20-357)-Cubilin(36-135) complex O60494 O60494 2.3 X-RAY DIFFRACTION 105 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 82 83 QQPRMATERGNLVFLTGSAQNIEFRTGSLGKIKLNDEDLSECLHQIQKNKEDIIELKGSAIGLPQNISSQIYQLNSKLVDLE NLQQPRMATERGNLVFLTGSAQNIEFRTGSLGKIKLNDEDLSECLHQIQKNKEDIIELKGSAIGLPQNISSQIYQLNSKLVDL 6gje-a1-m1-cD_6gje-a1-m1-cC Structure of the Amnionless(20-357)-Cubilin(36-135) complex O60494 O60494 2.3 X-RAY DIFFRACTION 115 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 83 NLQQPRMATERGNLVFLTGSAQNIEFRTGSLGKIKLNDEDLSECLHQIQKNKEDIIELKGSAIGLPQNISSQIYQLNSKLVD NLQQPRMATERGNLVFLTGSAQNIEFRTGSLGKIKLNDEDLSECLHQIQKNKEDIIELKGSAIGLPQNISSQIYQLNSKLVDL 6gjq-a2-m1-cC_6gjq-a2-m2-cG human NBD1 of CFTR in complex with nanobody T27 P13569 P13569 2.49 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 187 6gjq-a1-m1-cA_6gjq-a1-m1-cE DINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSRISFCPQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFPEKDNTVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNL DINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSRISFCPQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFPEKDNTVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNLQ 6gjt-a1-m1-cC_6gjt-a1-m1-cB Chlamydia protein Pgp3 studied at high resolution in a new crystal form P0CE18 P0CE18 1.98 X-RAY DIFFRACTION 92 0.988 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 169 178 6gjt-a1-m1-cB_6gjt-a1-m1-cA 6gjt-a1-m1-cC_6gjt-a1-m1-cA 6gjt-a2-m1-cD_6gjt-a2-m1-cE 6gjt-a2-m1-cF_6gjt-a2-m1-cD 6gjt-a2-m1-cF_6gjt-a2-m1-cE SGFYLYNTQNCVFADNTTDPSLGLLKAFNNFPITNKIQCNGLFTPRNIETLLGGTEIGKFTVTPKSSGSMFLVSADIIASRMEGGVVLALVREGDSKPYAISYGYSSGVPNLCSLRTRIINTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQ GNSGFYLYNTQNCVFATVQDILDKITTDPSLGLLKAFNNFPITNKIQCNGLFTPRNIETLLGGTEIGKFTVTPKSSGSMFLVSADIIASRMEGGVVLALVREGDSKPYAISYGYSSGVPNLCSLRTRIINTGLTPTTYSLRVGGLESGVVWVNALSNGNDILGITNTSNVSFLEVIPQ 6gjw-a2-m1-cB_6gjw-a2-m1-cC Structure of XIAP-BIR1 domain in complex with an NF023 analog P98170 P98170 1.9 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 78 4mtz-a1-m1-cC_4mtz-a1-m1-cA 4mtz-a2-m1-cB_4mtz-a2-m1-cD 6gjw-a1-m1-cA_6gjw-a1-m1-cD EEFVEEFNRLKTFANFPSGSPVSASTLARAGFLYTGEGDTVRCFSCHAAVDRWQYGDSAVGRHRKVSPNCRFINGFYL EEFVEEFNRLKTFANFPSGSPVSASTLARAGFLYTGEGDTVRCFSCHAAVDRWQYGDSAVGRHRKVSPNCRFINGFYL 6gk9-a1-m1-cC_6gk9-a1-m1-cD Inhibited structure of IMPDH from Pseudomonas aeruginosa Q9HXM5 Q9HXM5 2.54 X-RAY DIFFRACTION 118 0.997 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 381 424 MLRISQEALTFDDVLLIPGYSEVLPKDVSLKTRLTRGIELNIPLVSAAMDTVTEARLAIAMAQEGGIGIIHKNMGIEQQAAEVRKVKKHETAIVRDPVTIELLQMAREYGFTGRDLMTPKDKLVTGTPLEEMKAKLYENRIEKMLLVTFRDIEKAKTYPLASKDEQGRLRVGAAVGTGADTGERVAALVAAGVDVVVVDTAHGHSKGVIERVRWVKQTFPDVQVIGGNIATAEAAKALAEAGADAVKVGIGPGSICTTRIVAGVGVPQISAIANVAAALEGTGVPLIADGGIRFSGDLAKAMVAGAYCVMMGSMFAGTEEAPGEIELFQGRSYKSYVPYKGALSAIVHQLMGGLRAAMGYTGSADIQQMRTQPQFVRITGA MLRISQEALTFDDVLLIPGYSEVLPKDVSLKTRLTRGIELNIPLVSAAMDTVTEARLAIAMAQEGGIGIIHKNMGIEQQAAEVRKVKKHETAIVRDPVTVTPSTKIIELLQMAREYGFSGFPVVEQGELVGIVTGRDLRDTVAAIMTPKDKLVTAREGTPLEEMKAKLYENRIEKMLVVDENFYLRGLVTFRDIEKAKTYPLASKDEQGRLRVGAAVGTGADTGERVAALVAAGVDVVVVDTAHGHSKGVIERVRWVKQTFPDVQVIGGNIATAEAAKALAEAGADAVKVGIGPGSICTTRIVAGVGVPQISAIANVAAALEGTGVPLIADGGIRFSGDLAKAMVAGAYCVMMGSMFAGTEEAPGEIELFQGRSYKSYGRVPYKGALSAIVHQLMGGLRAAMGYTGSADIQQMRTQPQFVRITG 6gk9-a1-m1-cC_6gk9-a1-m1-cE Inhibited structure of IMPDH from Pseudomonas aeruginosa Q9HXM5 Q9HXM5 2.54 X-RAY DIFFRACTION 71 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 381 424 MLRISQEALTFDDVLLIPGYSEVLPKDVSLKTRLTRGIELNIPLVSAAMDTVTEARLAIAMAQEGGIGIIHKNMGIEQQAAEVRKVKKHETAIVRDPVTIELLQMAREYGFTGRDLMTPKDKLVTGTPLEEMKAKLYENRIEKMLLVTFRDIEKAKTYPLASKDEQGRLRVGAAVGTGADTGERVAALVAAGVDVVVVDTAHGHSKGVIERVRWVKQTFPDVQVIGGNIATAEAAKALAEAGADAVKVGIGPGSICTTRIVAGVGVPQISAIANVAAALEGTGVPLIADGGIRFSGDLAKAMVAGAYCVMMGSMFAGTEEAPGEIELFQGRSYKSYVPYKGALSAIVHQLMGGLRAAMGYTGSADIQQMRTQPQFVRITGA MLRISQEALTFDDVLLIPGYSEVLPKDVSLKTRLTRGIELNIPLVSAAMDTVTEARLAIAMAQEGGIGIIHKNMGIEQQAAEVRKVKKHETAIVRDPVTVTPSTKIIELLQMAREYGFSGFPVVEQGELVGIVTGRDLRDTVAAIMTPKDKLVTAREGTPLEEMKAKLYENRIEKMLVVDENFYLRGLVTFRDIEKAKTYPLASKDEQGRLRVGAAVGTGADTGERVAALVAAGVDVVVVDTAHGHSKGVIERVRWVKQTFPDVQVIGGNIATAEAAKALAEAGADAVKVGIGPGSICTTRIVAGVGVPQISAIANVAAALEGTGVPLIADGGIRFSGDLAKAMVAGAYCVMMGSMFAGTEEAPGEIELFQGRSYKSYRVPYKGALSAIVHQLMGGLRAAMGYTGSADIQQMRTQPQFVRITGA 6gkd-a1-m1-cF_6gkd-a1-m1-cR human NBD1 of CFTR in complex with nanobodies D12 and G3a P13569 P13569 2.99 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 215 6gkd-a1-m1-cF_6gkd-a1-m1-cI TEVVMENVTAFWETPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNL TEVVMENVTAFWEEGGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNL 6gkd-a1-m1-cI_6gkd-a1-m1-cR human NBD1 of CFTR in complex with nanobodies D12 and G3a P13569 P13569 2.99 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 215 6gkd-a1-m1-cL_6gkd-a1-m1-cA 6gkd-a1-m1-cL_6gkd-a1-m1-cO 6gkd-a1-m1-cO_6gkd-a1-m1-cA EVVMENVTAFWEEGGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNL TEVVMENVTAFWEEGGTPVLKDINFKIERGQLLAVAGSTGAGKTSLLMMIMGELEPSEGKIKHSGRISFCSQFSWIMPGTIKENIIFGVSYDEYRYRSVIKACQLEEDISKFAEKDNIVLGEGGITLSGGQRARISLARAVYKDADLYLLDSPFGYLDVLTEKEIFESCVCKLMANKTRILVTSKMEHLKKADKILILHEGSSYFYGTFSELQNL 6gkd-a1-m1-cT_6gkd-a1-m1-cN human NBD1 of CFTR in complex with nanobodies D12 and G3a 2.99 X-RAY DIFFRACTION 24 1.0 9844 (Lama glama) 9844 (Lama glama) 123 124 6gkd-a1-m1-cC_6gkd-a1-m1-cH 6gkd-a1-m1-cK_6gkd-a1-m1-cQ QVQLQESGGGLVQAGGSLRLSCTASGRAFSWYVMGWFRQAPGKEREFVATVSGNGSRRDYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAASSTYYYTDPEKYDYWGQGTQVTVSS QVQLQESGGGLVQAGGSLRLSCTASGRAFSWYVMGWFRQAPGKEREFVATVSGNGSRRDYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAASSTYYYTDPEKYDYWGQGTQVTVSSA 6gke-a1-m1-cA_6gke-a1-m2-cA Aleuria aurantia lectin AAL N224Q mutant in complex with Fucalpha1-6GlcNAc P18891 P18891 1.08 X-RAY DIFFRACTION 67 1.0 5188 (Aleuria aurantia) 5188 (Aleuria aurantia) 309 309 1iub-a1-m1-cA_1iub-a1-m2-cA 1iuc-a1-m1-cA_1iuc-a1-m2-cA 1ofz-a1-m1-cA_1ofz-a1-m1-cB 5mxc-a1-m1-cA_5mxc-a1-m2-cA PTEFLYTSKIAAISWAARQQRVYFQDLNGKIREAQRGGDNPWTGGSSQNVIGEAKLFSPLAAVTWKSAQGIQIRVYCVNKDNILSEFVYDGSKWITGQLGSVGVKVGSNSKLAALQWGGSESAPPNIRVYYQKSNGSGSSIHEYVWSGKWTAGASFGSTVPGTGIGATAIGPGRLRIYYQATDNKIREHCWDSNSWYVGGFSASASAGVSIAAISWGSTPQIRVYWQKGREELYEAAYGGSWNTPGQIKDASRPTPSLPDTFIAANSSGNIDISVFFQASGVSLQQWQWISGKGWSIGAVVPTGTPAGW PTEFLYTSKIAAISWAARQQRVYFQDLNGKIREAQRGGDNPWTGGSSQNVIGEAKLFSPLAAVTWKSAQGIQIRVYCVNKDNILSEFVYDGSKWITGQLGSVGVKVGSNSKLAALQWGGSESAPPNIRVYYQKSNGSGSSIHEYVWSGKWTAGASFGSTVPGTGIGATAIGPGRLRIYYQATDNKIREHCWDSNSWYVGGFSASASAGVSIAAISWGSTPQIRVYWQKGREELYEAAYGGSWNTPGQIKDASRPTPSLPDTFIAANSSGNIDISVFFQASGVSLQQWQWISGKGWSIGAVVPTGTPAGW 6gkv-a1-m1-cB_6gkv-a1-m1-cA Crystal structure of Coclaurine N-Methyltransferase (CNMT) bound to N-methylheliamine and SAH Q948P7 Q948P7 2.35 X-RAY DIFFRACTION 63 1.0 3442 (Coptis japonica) 3442 (Coptis japonica) 347 351 6gkz-a1-m1-cD_6gkz-a1-m1-cA 6gkz-a2-m1-cC_6gkz-a2-m2-cB AAIVELLKQLELGLVPYDDIKQLIRRELARRLQWGYKPTYEEQIAEIQNLTHSLRQMKIATEVETLDSQLYEIPIEFLKIMNGSNLKGSCCYFKEDSTTLDEAEIAMLDLYCERAQIQDGQSVLDLGCGQGALTLHVAQKYKNCRVTAVTNSVSQKEYIEEESRRRNLLNVEVKLADITTHEMAETYDRILVIELFEHMKNYELLLRKISEWISKDGLLFLEHICHKTFAYHYEPLDDDDWFTEYVFPAGTMIIPSASFFLYFQDDVSVVNHWTLSGKHFSRTNEEWLKRLDANLDVIKPMFETLMGNEEEAVKLINYWRGFCLSGMEMFGYNNGEEWMASHVLFKK QTKKAAIVELLKQLELGLVPYDDIKQLIRRELARRLQWGYKPTYEEQIAEIQNLTHSLRQMKIATEVETLDSQLYEIPIEFLKIMNGSNLKGSCCYFKEDSTTLDEAEIAMLDLYCERAQIQDGQSVLDLGCGQGALTLHVAQKYKNCRVTAVTNSVSQKEYIEEESRRRNLLNVEVKLADITTHEMAETYDRILVIELFEHMKNYELLLRKISEWISKDGLLFLEHICHKTFAYHYEPLDDDDWFTEYVFPAGTMIIPSASFFLYFQDDVSVVNHWTLSGKHFSRTNEEWLKRLDANLDVIKPMFETLMGNEEEAVKLINYWRGFCLSGMEMFGYNNGEEWMASHVLFKK 6gky-a1-m1-cB_6gky-a1-m2-cA Crystal structure of Coclaurine N-Methyltransferase (CNMT) bound to N-methylheliamine and SAH Q948P7 Q948P7 2.847 X-RAY DIFFRACTION 13 1.0 3442 (Coptis japonica) 3442 (Coptis japonica) 351 351 QTKKAAIVELLKQLELGLVPYDDIKQLIRRELARRLQWGYKPTYEEQIAEIQNLTHSLRQMKIATEVETLDSQLYEIPIEFLKIMNGSNLKGSCCYFKEDSTTLDEAEIAMLDLYCERAQIQDGQSVLDLGCGQGALTLHVAQKYKNCRVTAVTNSVSQKEYIEEESRRRNLLNVEVKLADITTHEMAETYDRILVIELFEHMKNYELLLRKISEWISKDGLLFLEHICHKTFAYHYEPLDDDDWFTEYVFPAGTMIIPSASFFLYFQDDVSVVNHWTLSGKHFSRTNEEWLKRLDANLDVIKPMFETLMGNEEEAVKLINYWRGFCLSGMEMFGYNNGEEWMASHVLFKK QTKKAAIVELLKQLELGLVPYDDIKQLIRRELARRLQWGYKPTYEEQIAEIQNLTHSLRQMKIATEVETLDSQLYEIPIEFLKIMNGSNLKGSCCYFKEDSTTLDEAEIAMLDLYCERAQIQDGQSVLDLGCGQGALTLHVAQKYKNCRVTAVTNSVSQKEYIEEESRRRNLLNVEVKLADITTHEMAETYDRILVIELFEHMKNYELLLRKISEWISKDGLLFLEHICHKTFAYHYEPLDDDDWFTEYVFPAGTMIIPSASFFLYFQDDVSVVNHWTLSGKHFSRTNEEWLKRLDANLDVIKPMFETLMGNEEEAVKLINYWRGFCLSGMEMFGYNNGEEWMASHVLFKK 6gma-a2-m1-cC_6gma-a2-m1-cD Crystal structure of the FIP200 C-terminal region Q8TDY2 Q8TDY2 3.2 X-RAY DIFFRACTION 74 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 131 6gma-a1-m1-cA_6gma-a1-m1-cB GAARIMLLERTLQLKEEENKRLNQRLMSQSMSSVSSRHSEKIAIRDFQVGDLVLIILDERHDNYVLFTVSPTLYFLHSESLPALDLKPRPWVLGKVMEKEYCQAKKAQNRFKVPLGTKFYRVKAVSWNKK GAARIMLLERTLQLKEEENKRLNQRLMSQSMSSVSSRHSEKIAIRDFQVGDLVLIILDERHDNYVLFTVSPTLYFLHSESLPALDLKPRRPWVLGKVMEKEYCQAKKAQNRFKVPLGTKFYRVKAVSWNKK 6gn6-a1-m1-cD_6gn6-a1-m1-cF Alpha-L-fucosidase isoenzyme 1 from Paenibacillus thiaminolyticus E3PQQ9 E3PQQ9 2.2 X-RAY DIFFRACTION 33 1.0 49283 (Paenibacillus thiaminolyticus) 49283 (Paenibacillus thiaminolyticus) 425 428 6gn6-a1-m1-cA_6gn6-a1-m1-cC 6gn6-a1-m1-cA_6gn6-a1-m1-cE 6gn6-a1-m1-cB_6gn6-a1-m1-cD 6gn6-a1-m1-cB_6gn6-a1-m1-cF 6gn6-a1-m1-cC_6gn6-a1-m1-cE HMTLTAREQRIQWFNHDRFGMFIHWGLYAIPARGEWVRSFERIPVEDYEKYFNSFNPVNYDPKAWAKAAKAAGMKYAVMTTKHHDGFCLFDSALTDYKATNTPAGRDLIREYADAFRAEGLKVGFYYSIIDWHHPDYPAYGDRQHPMRDNAEFKDRPQDFNRYLDYMHGQVKELLTNYGTIDVLWFDFSYEDMTGEKWKATELVKMIRELQPNVLIDNRLGGNIKAREPEIYAGDFASPEQLLPPHGIVNEDGKPLPWEACITLNHHWGYHAHDRDYKTPKQVVRGLVECVSKNGNMLLNVGPNAKGEIPQLSLDVLGEVGAWMRANGDSIYGCGAAALSKPEWGRYTQKGNKLYAHILDRGIGPIALQGLNGRVKEARLLADGAEVNIQTPWNAVDYPDYLFVNIPTAQLPDDFNTVIELTLED EGRHMTLTAREQRIQWFNHDRFGMFIHWGLYAIPARGEWVRSFERIPVEDYEKYFNSFNPVNYDPKAWAKAAKAAGMKYAVMTTKHHDGFCLFDSALTDYKATNTPAGRDLIREYADAFRAEGLKVGFYYSIIDWHHPDYPAYGDRQHPMRDNAEFKDRPQDFNRYLDYMHGQVKELLTNYGTIDVLWFDFSYEDMTGEKWKATELVKMIRELQPNVLIDNRLGGNIKAREPEIYAGDFASPEQLLPPHGIVNEDGKPLPWEACITLNHHWGYHAHDRDYKTPKQVVRGLVECVSKNGNMLLNVGPNAKGEIPQLSLDVLGEVGAWMRANGDSIYGCGAAALSKPEWGRYTQKGNKLYAHILDRGIGPIALQGLNGRVKEARLLADGAEVNIQTPWNAVDYPDYLFVNIPTAQLPDDFNTVIELTLED 6gn6-a1-m1-cE_6gn6-a1-m1-cF Alpha-L-fucosidase isoenzyme 1 from Paenibacillus thiaminolyticus E3PQQ9 E3PQQ9 2.2 X-RAY DIFFRACTION 89 1.0 49283 (Paenibacillus thiaminolyticus) 49283 (Paenibacillus thiaminolyticus) 421 428 6gn6-a1-m1-cA_6gn6-a1-m1-cB 6gn6-a1-m1-cC_6gn6-a1-m1-cD TAREQRIQWFNHDRFGMFIHWGLYAIPARGEWVRSFERIPVEDYEKYFNSFNPVNYDPKAWAKAAKAAGMKYAVMTTKHHDGFCLFDSALTDYKATNTPAGRDLIREYADAFRAEGLKVGFYYSIIDWHHPDYPAYGDRQHPMRDNAEFKDRPQDFNRYLDYMHGQVKELLTNYGTIDVLWFDFSYEDMTGEKWKATELVKMIRELQPNVLIDNRLGGNIKAREPEIYAGDFASPEQLLPPHGIVNEDGKPLPWEACITLNHHWGYHAHDRDYKTPKQVVRGLVECVSKNGNMLLNVGPNAKGEIPQLSLDVLGEVGAWMRANGDSIYGCGAAALSKPEWGRYTQKGNKLYAHILDRGIGPIALQGLNGRVKEARLLADGAEVNIQTPWNAVDYPDYLFVNIPTAQLPDDFNTVIELTLED EGRHMTLTAREQRIQWFNHDRFGMFIHWGLYAIPARGEWVRSFERIPVEDYEKYFNSFNPVNYDPKAWAKAAKAAGMKYAVMTTKHHDGFCLFDSALTDYKATNTPAGRDLIREYADAFRAEGLKVGFYYSIIDWHHPDYPAYGDRQHPMRDNAEFKDRPQDFNRYLDYMHGQVKELLTNYGTIDVLWFDFSYEDMTGEKWKATELVKMIRELQPNVLIDNRLGGNIKAREPEIYAGDFASPEQLLPPHGIVNEDGKPLPWEACITLNHHWGYHAHDRDYKTPKQVVRGLVECVSKNGNMLLNVGPNAKGEIPQLSLDVLGEVGAWMRANGDSIYGCGAAALSKPEWGRYTQKGNKLYAHILDRGIGPIALQGLNGRVKEARLLADGAEVNIQTPWNAVDYPDYLFVNIPTAQLPDDFNTVIELTLED 6gna-a1-m1-cA_6gna-a1-m2-cA Crystal structure of a Ferredoxin-Flavin Thioredoxin Reductase from Clostridium acetobutylicum at 1.3 A resolution Q97EM8 Q97EM8 1.295 X-RAY DIFFRACTION 96 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 284 284 6gnb-a1-m1-cA_6gnb-a1-m2-cA 6gnd-a1-m1-cA_6gnd-a1-m1-cG 6gnd-a2-m1-cC_6gnd-a2-m2-cE HMERYDIAIIGSGPAGLASAINAKTRKSVIVFGSSDLSKKLTLAPVINNYLGFYGIRGAELQEKFKEHIDNMGIQIENVKVNNIYAMGEYFSIMTSKDTYEASKVILAMGMEHTKPLKGEDKFLGRGVGYCATCDAPLYKGKIVTIVGYNKEAESEANYLAELASKVYYVPRYKDEYQLVSAVEIVKDVPVEIVGDKKVEKLKLKSRELETDGVFVLKDSAPPEQLVPGLYVEDGHIKVNRKMETNIDGCYAAGDCTGKPYQYMKAVGEGQVAALNAVEKLYTK HMERYDIAIIGSGPAGLASAINAKTRKSVIVFGSSDLSKKLTLAPVINNYLGFYGIRGAELQEKFKEHIDNMGIQIENVKVNNIYAMGEYFSIMTSKDTYEASKVILAMGMEHTKPLKGEDKFLGRGVGYCATCDAPLYKGKIVTIVGYNKEAESEANYLAELASKVYYVPRYKDEYQLVSAVEIVKDVPVEIVGDKKVEKLKLKSRELETDGVFVLKDSAPPEQLVPGLYVEDGHIKVNRKMETNIDGCYAAGDCTGKPYQYMKAVGEGQVAALNAVEKLYTK 6gnc-a1-m1-cA_6gnc-a1-m2-cA Crystal structure of a Ferredoxin-Flavin Thioredoxin Reductase from Clostridium acetobutylicum at 1.64 A resolution Q97IU2 Q97IU2 1.639 X-RAY DIFFRACTION 103 1.0 272562 (Clostridium acetobutylicum ATCC 824) 272562 (Clostridium acetobutylicum ATCC 824) 287 287 MDRYDIAIIGSGPAGLSAAINAVIRNKKVILFGSDNLSNKLLKAPKINNYLGIYDVSGKELKEKFLEHLKYMNIEIKNEKVNSVYSMGDYFALSLNQKMYEATSIIIASGVEFSKPLNGEDELLGKGVGYCATCDAPLYKGKTVAIVGYTKEAEEEANYVSELAGKLYYIPMYKDKVSLKEVIEVVEDKPISILGKDKVSGLQMSKGEINTDAVFIIKDSVSPGKLVPGLLMNGEHIAVDIDMKTNIEGCFAAGDCAGRPYQYIKSAGQGQIAALSAVSYIDKIKLN MDRYDIAIIGSGPAGLSAAINAVIRNKKVILFGSDNLSNKLLKAPKINNYLGIYDVSGKELKEKFLEHLKYMNIEIKNEKVNSVYSMGDYFALSLNQKMYEATSIIIASGVEFSKPLNGEDELLGKGVGYCATCDAPLYKGKTVAIVGYTKEAEEEANYVSELAGKLYYIPMYKDKVSLKEVIEVVEDKPISILGKDKVSGLQMSKGEINTDAVFIIKDSVSPGKLVPGLLMNGEHIAVDIDMKTNIEGCFAAGDCAGRPYQYIKSAGQGQIAALSAVSYIDKIKLN 6gno-a1-m1-cA_6gno-a1-m2-cA Crystal Structure Of Sea Bream Transthyretin in complex with Tetrabromobisphenol A (TBBPA) Q9PTT3 Q9PTT3 1.65 X-RAY DIFFRACTION 27 1.0 8175 (Sparus aurata) 8175 (Sparus aurata) 114 114 1oo2-a1-m1-cA_1oo2-a1-m1-cC 1oo2-a1-m1-cB_1oo2-a1-m1-cD 1sn0-a1-m1-cC_1sn0-a1-m1-cA 1sn0-a1-m1-cD_1sn0-a1-m1-cB 1sn2-a1-m1-cC_1sn2-a1-m1-cA 1sn2-a1-m1-cD_1sn2-a1-m1-cB 1sn5-a1-m1-cC_1sn5-a1-m1-cA 1sn5-a1-m1-cD_1sn5-a1-m1-cB 6gnm-a1-m1-cB_6gnm-a1-m1-cD 6gnm-a1-m1-cC_6gnm-a1-m1-cA 6gno-a1-m1-cB_6gno-a1-m2-cB 6gnp-a1-m1-cA_6gnp-a1-m1-cC 6gnp-a1-m1-cD_6gnp-a1-m1-cB 6gnr-a1-m1-cA_6gnr-a1-m2-cA 6gnr-a1-m1-cB_6gnr-a1-m2-cB 6gnw-a1-m1-cA_6gnw-a1-m1-cC 6gnw-a1-m1-cD_6gnw-a1-m1-cB 6gon-a1-m1-cA_6gon-a1-m1-cC 6gon-a1-m1-cB_6gon-a1-m1-cD 6goo-a1-m1-cA_6goo-a1-m2-cA 6goo-a1-m1-cB_6goo-a1-m2-cB CPLMVKILDAVKGTPAGSVALKVSQKTADGGWTQIATGVTDATGEIHNLITEQQFPAGVYRVEFDTKAYWTNQGSTPFHEVAEVVFDAHPEGHRHYTLALLLSPFSYTTTAVVS CPLMVKILDAVKGTPAGSVALKVSQKTADGGWTQIATGVTDATGEIHNLITEQQFPAGVYRVEFDTKAYWTNQGSTPFHEVAEVVFDAHPEGHRHYTLALLLSPFSYTTTAVVS 6gno-a1-m1-cA_6gno-a1-m2-cB Crystal Structure Of Sea Bream Transthyretin in complex with Tetrabromobisphenol A (TBBPA) Q9PTT3 Q9PTT3 1.65 X-RAY DIFFRACTION 39 1.0 8175 (Sparus aurata) 8175 (Sparus aurata) 114 114 1oo2-a1-m1-cA_1oo2-a1-m1-cD 1oo2-a1-m1-cB_1oo2-a1-m1-cC 1sn0-a1-m1-cC_1sn0-a1-m1-cB 1sn0-a1-m1-cD_1sn0-a1-m1-cA 1sn2-a1-m1-cC_1sn2-a1-m1-cB 1sn2-a1-m1-cD_1sn2-a1-m1-cA 1sn5-a1-m1-cC_1sn5-a1-m1-cB 1sn5-a1-m1-cD_1sn5-a1-m1-cA 6gnm-a1-m1-cB_6gnm-a1-m1-cC 6gnm-a1-m1-cD_6gnm-a1-m1-cA 6gno-a1-m1-cB_6gno-a1-m2-cA 6gnp-a1-m1-cA_6gnp-a1-m1-cD 6gnp-a1-m1-cC_6gnp-a1-m1-cB 6gnr-a1-m1-cB_6gnr-a1-m2-cA 6gnr-a1-m2-cB_6gnr-a1-m1-cA 6gnw-a1-m1-cA_6gnw-a1-m1-cD 6gnw-a1-m1-cC_6gnw-a1-m1-cB 6gon-a1-m1-cA_6gon-a1-m1-cD 6gon-a1-m1-cB_6gon-a1-m1-cC 6goo-a1-m1-cA_6goo-a1-m2-cB 6goo-a1-m1-cB_6goo-a1-m2-cA CPLMVKILDAVKGTPAGSVALKVSQKTADGGWTQIATGVTDATGEIHNLITEQQFPAGVYRVEFDTKAYWTNQGSTPFHEVAEVVFDAHPEGHRHYTLALLLSPFSYTTTAVVS CPLMVKILDAVKGTPAGSVALKVSQKTADGGWTQIATGVTDATGEIHNLITEQQFPAGVYRVEFDTKAYWTNQGSTPFHEVAEVVFDAHPEGHRHYTLALLLSPFSYTTTAVVS 6gno-a1-m2-cA_6gno-a1-m2-cB Crystal Structure Of Sea Bream Transthyretin in complex with Tetrabromobisphenol A (TBBPA) Q9PTT3 Q9PTT3 1.65 X-RAY DIFFRACTION 52 1.0 8175 (Sparus aurata) 8175 (Sparus aurata) 114 114 1oo2-a1-m1-cA_1oo2-a1-m1-cB 1oo2-a1-m1-cC_1oo2-a1-m1-cD 1sn0-a1-m1-cB_1sn0-a1-m1-cA 1sn0-a1-m1-cD_1sn0-a1-m1-cC 1sn2-a1-m1-cB_1sn2-a1-m1-cA 1sn2-a1-m1-cD_1sn2-a1-m1-cC 1sn5-a1-m1-cB_1sn5-a1-m1-cA 1sn5-a1-m1-cD_1sn5-a1-m1-cC 6gnm-a1-m1-cB_6gnm-a1-m1-cA 6gnm-a1-m1-cC_6gnm-a1-m1-cD 6gno-a1-m1-cA_6gno-a1-m1-cB 6gnp-a1-m1-cA_6gnp-a1-m1-cB 6gnp-a1-m1-cC_6gnp-a1-m1-cD 6gnr-a1-m1-cB_6gnr-a1-m1-cA 6gnr-a1-m2-cB_6gnr-a1-m2-cA 6gnw-a1-m1-cA_6gnw-a1-m1-cB 6gnw-a1-m1-cC_6gnw-a1-m1-cD 6gon-a1-m1-cA_6gon-a1-m1-cB 6gon-a1-m1-cC_6gon-a1-m1-cD 6goo-a1-m1-cA_6goo-a1-m1-cB 6goo-a1-m2-cA_6goo-a1-m2-cB CPLMVKILDAVKGTPAGSVALKVSQKTADGGWTQIATGVTDATGEIHNLITEQQFPAGVYRVEFDTKAYWTNQGSTPFHEVAEVVFDAHPEGHRHYTLALLLSPFSYTTTAVVS CPLMVKILDAVKGTPAGSVALKVSQKTADGGWTQIATGVTDATGEIHNLITEQQFPAGVYRVEFDTKAYWTNQGSTPFHEVAEVVFDAHPEGHRHYTLALLLSPFSYTTTAVVS 6gny-a1-m1-cA_6gny-a1-m1-cC Crystal structure of the MAJIN-TERB2 heterotetrameric complex Q3KP22 Q3KP22 1.85 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 107 6gnx-a1-m1-cA_6gnx-a1-m1-cC SLKPFTYPFPETRFLHAGPNVYKFKIRYGKSIRGEEIENKEVITQELEDSVRVVLGNLDNLQPFATEHFIVFPYKSKWERVSHLKFKHGEIILIPYPFVFTLYVE SMSLKPFTYPFPETRFLHAGPNVYKFKIRYGKSIRGEEIENKEVITQELEDSVRVVLGNLDNLQPFATEHFIVFPYKSKWERVSHLKFKHGEIILIPYPFVFTLYVE 6gp3-a1-m1-cB_6gp3-a1-m1-cA Ribonucleotide Reductase class Ie R2 from Mesoplasma florum, inactive form Q6F0T5 Q6F0T5 1.23 X-RAY DIFFRACTION 208 0.994 265311 (Mesoplasma florum L1) 265311 (Mesoplasma florum L1) 313 318 6gp2-a1-m1-cB_6gp2-a1-m1-cA SMAKIKNQYYNESVSPIEYAQQGFKGKMRSVNWNVVNDEKDLEVWNRITQNFWLPEKIPVSNDLTSWRTLTPEWQELITRTFTGLTLLDTIQATVGDVAQVPNSLTDHEQVIYTNFAFMVAVHARSYGSIFSTLCSSEQIEEAHEWVINTETLQERAKALIPYYVNDDPLKSKVAAALMPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNYYSGYKYQKKVAKLSPEKQAEMKEFVFKLLYELIDLEKAYLKELYEDFGLADDAIRFSVYNAGKFLQNLGYDSPFTEEETRIEPEIFTQLSAWEF GHMASIKNQYYNESVSPIEYAQQGFKGKMRSVNWNVVNDEKDLEVWNRITQNFWLPEKIPVSNDLTSWRTLTPEWQELITRTFTGLTLLDTIQATVGDVAQVPNSLTDHEQVIYTNFAFMVAVHARSYGSIFSTLCSSEQIEEAHEWVINTETLQERAKALIPYYVNDDPLKSKVAAALMPGFLLYGGFYLPFYLSARGKLPNTSDIIRLILRDKVIHNYYSGYKYQKKVAKLSPEKQAEMKEFVFKLLYELIDLEKAYLKELYEDFGLADDAIRFSVYNAGKFLQNLGYDSPFTEEETRIEPEIFTQLSARADDWEF 6gp7-a1-m1-cA_6gp7-a1-m1-cB Cell division regulator, B. subtilis GpsB, in complex with peptide fragment of Penicillin Binding Protein PBP1A P0CI74 P0CI74 1.95002 X-RAY DIFFRACTION 107 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 58 59 4ug3-a1-m1-cB_4ug3-a1-m1-cA 4ug3-a2-m1-cD_4ug3-a2-m1-cC 6gpz-a1-m1-cB_6gpz-a1-m1-cA KVKLSAKEILEKEFKTGVRGYKQEDVDKFLDMIIKDYETFHQEIEELQQENLQLKKQL KVKLSAKEILEKEFKTGVRGYKQEDVDKFLDMIIKDYETFHQEIEELQQENLQLKKQLE 6gq8-a1-m1-cA_6gq8-a1-m1-cD Superoxide reductase from Nanoarchaeum equitans Q74MF3 Q74MF3 1.9 X-RAY DIFFRACTION 113 1.0 228908 (Nanoarchaeum equitans Kin4-M) 228908 (Nanoarchaeum equitans Kin4-M) 109 109 6gq8-a1-m1-cB_6gq8-a1-m1-cC MIKTEYNPKHSPIIEIEKEGELYKITIEVGKEVKHPNEPSHHIQWVDLYFEPEGKEPTHIARIEFKAHGEYNNYTEPKAIVYAKLEGKGKLIAISYCTLHGLWKTEKEL MIKTEYNPKHSPIIEIEKEGELYKITIEVGKEVKHPNEPSHHIQWVDLYFEPEGKEPTHIARIEFKAHGEYNNYTEPKAIVYAKLEGKGKLIAISYCTLHGLWKTEKEL 6gq8-a1-m1-cB_6gq8-a1-m1-cD Superoxide reductase from Nanoarchaeum equitans Q74MF3 Q74MF3 1.9 X-RAY DIFFRACTION 14 1.0 228908 (Nanoarchaeum equitans Kin4-M) 228908 (Nanoarchaeum equitans Kin4-M) 109 109 6gq8-a1-m1-cA_6gq8-a1-m1-cC MIKTEYNPKHSPIIEIEKEGELYKITIEVGKEVKHPNEPSHHIQWVDLYFEPEGKEPTHIARIEFKAHGEYNNYTEPKAIVYAKLEGKGKLIAISYCTLHGLWKTEKEL MIKTEYNPKHSPIIEIEKEGELYKITIEVGKEVKHPNEPSHHIQWVDLYFEPEGKEPTHIARIEFKAHGEYNNYTEPKAIVYAKLEGKGKLIAISYCTLHGLWKTEKEL 6gq8-a1-m1-cC_6gq8-a1-m1-cD Superoxide reductase from Nanoarchaeum equitans Q74MF3 Q74MF3 1.9 X-RAY DIFFRACTION 27 1.0 228908 (Nanoarchaeum equitans Kin4-M) 228908 (Nanoarchaeum equitans Kin4-M) 109 109 6gq8-a1-m1-cA_6gq8-a1-m1-cB MIKTEYNPKHSPIIEIEKEGELYKITIEVGKEVKHPNEPSHHIQWVDLYFEPEGKEPTHIARIEFKAHGEYNNYTEPKAIVYAKLEGKGKLIAISYCTLHGLWKTEKEL MIKTEYNPKHSPIIEIEKEGELYKITIEVGKEVKHPNEPSHHIQWVDLYFEPEGKEPTHIARIEFKAHGEYNNYTEPKAIVYAKLEGKGKLIAISYCTLHGLWKTEKEL 6gqa-a1-m1-cC_6gqa-a1-m1-cB Cell division regulator S. pneumoniae GpsB Q8DR57 Q8DR57 1.9 X-RAY DIFFRACTION 16 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 58 60 GAIIFSAKDIFEQEFGREVRGYNKVEVDEFLDDVIKDYETYAALVKSLRQEIADLKEE GAIIFSAKDIFEQEFGREVRGYNKVEVDEFLDDVIKDYETYAALVKSLRQEIADLKEELT 6gqa-a1-m1-cC_6gqa-a1-m1-cD Cell division regulator S. pneumoniae GpsB Q8DR57 Q8DR57 1.9 X-RAY DIFFRACTION 106 1.0 171101 (Streptococcus pneumoniae R6) 171101 (Streptococcus pneumoniae R6) 58 58 6gqa-a1-m1-cA_6gqa-a1-m1-cB 6gqn-a1-m1-cA_6gqn-a1-m1-cB GAIIFSAKDIFEQEFGREVRGYNKVEVDEFLDDVIKDYETYAALVKSLRQEIADLKEE GAIIFSAKDIFEQEFGREVRGYNKVEVDEFLDDVIKDYETYAALVKSLRQEIADLKEE 6gqd-a1-m1-cA_6gqd-a1-m2-cA Structure of human galactose-1-phosphate uridylyltransferase (GALT), with crystallization epitope mutations A21Y:A22T:T23P:R25L P07902 P07902 1.523 X-RAY DIFFRACTION 240 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 344 5in3-a1-m1-cA_5in3-a1-m1-cB YTPFLANDHQHIRYNPLQDEWVLVSAHRMKRPWQGQLLKTVPRHDPLNPLCPGAIRANGEVNPQYDSTFLFDNDFPALQPDAPSPGPSDHPLFQAKSARGVCKVMCFHPWSDVTLPLMSVPEIRAVVDAWASVTEELGAQYPWVQIFENKGAMMGCSNPHPHCQVWASSFLPDIAQREERSQQAYKSQHGEPLLMEYSRQELLRKERLVLTSEHWLVLVPFWATWPYQTLLLPRRHVRRLPELTPAERDDLASIMKKLLTKYDNLFETSFPYSMGWHGAPTGSEAGANWDHWQLHAHYYPPLLRSATVRKFMVGYEMLAQAQRDLTPEQAAERLRALPEVHYHL YTPFLANDHQHIRYNPLQDEWVLVSAHRMKRPWQGQLLKTVPRHDPLNPLCPGAIRANGEVNPQYDSTFLFDNDFPALQPDAPSPGPSDHPLFQAKSARGVCKVMCFHPWSDVTLPLMSVPEIRAVVDAWASVTEELGAQYPWVQIFENKGAMMGCSNPHPHCQVWASSFLPDIAQREERSQQAYKSQHGEPLLMEYSRQELLRKERLVLTSEHWLVLVPFWATWPYQTLLLPRRHVRRLPELTPAERDDLASIMKKLLTKYDNLFETSFPYSMGWHGAPTGSEAGANWDHWQLHAHYYPPLLRSATVRKFMVGYEMLAQAQRDLTPEQAAERLRALPEVHYHL 6grh-a1-m1-cC_6grh-a1-m2-cC E. coli Microcin synthetase McbBCD complex with truncated pro-MccB17 bound P23185 P23185 1.85 X-RAY DIFFRACTION 339 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 266 266 6gos-a1-m1-cC_6gos-a1-m2-cC 6grg-a1-m1-cC_6grg-a1-m2-cC 6gri-a1-m1-cC_6gri-a1-m2-cC SKHELSLVEVTHYTDPEVLAIVKDFHVRGNFASLPEFAERTFVSAVPLAHLEKFENKEVLFRPGFSSVINISSSHNFSRERLPSGINFCDKNKLSIRTIEKLLVNAFSSPDPGSVRRPYPSGGALYPIEVFLCRLSENTENWQAGTNVYHYLPLSQALEPVATCNTQSLYRSLSGGDSERLGKPHFALVYCIIFEKALFKYRYRGYRMALMETGSMYQNAVLVADQIGLKNRVWAGYTDSYVAKTMNLDQRTVAPLIVQFFGDVND SKHELSLVEVTHYTDPEVLAIVKDFHVRGNFASLPEFAERTFVSAVPLAHLEKFENKEVLFRPGFSSVINISSSHNFSRERLPSGINFCDKNKLSIRTIEKLLVNAFSSPDPGSVRRPYPSGGALYPIEVFLCRLSENTENWQAGTNVYHYLPLSQALEPVATCNTQSLYRSLSGGDSERLGKPHFALVYCIIFEKALFKYRYRGYRMALMETGSMYQNAVLVADQIGLKNRVWAGYTDSYVAKTMNLDQRTVAPLIVQFFGDVND 6grr-a1-m1-cA_6grr-a1-m1-cB Crystal structure of Escherichia coli amine oxidase mutant I342F/E573Q P46883 P46883 1.7 X-RAY DIFFRACTION 492 1.0 562 (Escherichia coli) 562 (Escherichia coli) 718 720 1d6u-a1-m1-cA_1d6u-a1-m1-cB 1d6y-a1-m1-cA_1d6y-a1-m1-cB 1d6z-a1-m1-cA_1d6z-a1-m1-cB 1dyu-a1-m1-cA_1dyu-a1-m1-cB 1jrq-a1-m1-cA_1jrq-a1-m1-cB 1lvn-a1-m1-cA_1lvn-a1-m1-cB 1oac-a1-m1-cA_1oac-a1-m1-cB 1qaf-a1-m1-cA_1qaf-a1-m1-cB 1qak-a1-m1-cA_1qak-a1-m1-cB 1qal-a1-m1-cA_1qal-a1-m1-cB 1spu-a1-m1-cA_1spu-a1-m1-cB 2w0q-a1-m1-cA_2w0q-a1-m1-cB 2wgq-a1-m1-cA_2wgq-a1-m1-cB 2wo0-a1-m1-cA_2wo0-a1-m1-cB 2wof-a1-m1-cA_2wof-a1-m1-cB 2woh-a1-m1-cA_2woh-a1-m1-cB 6ezz-a1-m1-cA_6ezz-a1-m1-cB MVPMDKTLKEFGADVQWDDYAQLFTLIKDGAYVKVKPGAQTAIVNGQPLALQVPVVMKDNKAWVSDTFINDVFQSGLDQTFQVEKRPHPLNALTADEIKQAVEIVKASADFKPNTRFTEISLLPPDKEAVWAFALENKPVDQPRKADVIMLDGKHIIEAVVDLQNNKLLSWQPIKDAHGMVLLDDFASVQNIINNSEEFAAAVKKRGITDAKKVITTPLTVGYFDGKDGLKQDARLLKVISYLDVGDGNYWAHPIENLVAVVDLEQKKIVKIEEGPVVPVPMTARPFDGRDRVAPAVKPMQIIEPEGKNYTITGDMIHWRNWDFHLSMNSRVGPMFSTVTYNDNGTKRKVMYEGSLGGMIVPYGDPDIGWYFKAYLDSGDYGMGTLTSPIARGKDAPSNAVLLNETIADYTGVPMEIPRAIAVFERYAGPEYKHQEMGQPNVSTERRELVVRWISTVGNYDYIFDWIFHENGTIGIDAGATGIEAVKGVKAKTMHDETAKDDTRYGTLIDHNIVGTTHQHIYNFRLDLDVDGENNSLVAMDPVVKPNTAGGPRTSTMQVNQYNIGNQQDAAQKFDPGTIRLLSNPNKENRMGNPVSYQIIPYAGGTHPVAKGAQFAPDEWIYHRLSFMDKQLWVTRYHPGERFPEGKYPNRSTHDTGLGQYSKDNESLDNTDAVVWMTTGTTHVARAEEWPIMPTEWVHTLLKPWNFFDETPTLGALK HMVPMDKTLKEFGADVQWDDYAQLFTLIKDGAYVKVKPGAQTAIVNGQPLALQVPVVMKDNKAWVSDTFINDVFQSGLDQTFQVEKRPHPLNALTADEIKQAVEIVKASADFKPNTRFTEISLLPPDKEAVWAFALENKPVDQPRKADVIMLDGKHIIEAVVDLQNNKLLSWQPIKDAHGMVLLDDFASVQNIINNSEEFAAAVKKRGITDAKKVITTPLTVGYFDGKDGLKQDARLLKVISYLDVGDGNYWAHPIENLVAVVDLEQKKIVKIEEGPVVPVPMTARPFDGRDRVAPAVKPMQIIEPEGKNYTITGDMIHWRNWDFHLSMNSRVGPMFSTVTYNDNGTKRKVMYEGSLGGMIVPYGDPDIGWYFKAYLDSGDYGMGTLTSPIARGKDAPSNAVLLNETIADYTGVPMEIPRAIAVFERYAGPEYKHQEMGQPNVSTERRELVVRWISTVGNYDYIFDWIFHENGTIGIDAGATGIEAVKGVKAKTMHDETAKDDTRYGTLIDHNIVGTTHQHIYNFRLDLDVDGENNSLVAMDPVVKPNTAGGPRTSTMQVNQYNIGNQQDAAQKFDPGTIRLLSNPNKENRMGNPVSYQIIPYAGGTHPVAKGAQFAPDEWIYHRLSFMDKQLWVTRYHPGERFPEGKYPNRSTHDTGLGQYSKDNESLDNTDAVVWMTTGTTHVARAEEWPIMPTEWVHTLLKPWNFFDETPTLGALKK 6grs-a1-m1-cA_6grs-a1-m1-cB Paired immunoglobulin-like receptor B (PirB) or Leukocyte immunoglobulin-like receptor subfamily B member 3 (LILRB3) full extracellular domain Q8K4V6 Q8K4V6 3.4 X-RAY DIFFRACTION 127 0.991 10090 (Mus musculus) 10090 (Mus musculus) 578 587 PILRVQPDSVVSRWTKVTFFCEETIGANEYRLYKDLYKTVTKNKQKPANKAEFSLSNVDLSNAGQYECSYSTQYKSSGYSDPLKLVVTGHYWTPSLLAQASPVVTSGGYVTLQCESWHNDHKFILTVEGPQKLSWTQDSQYNYSTRKYHALFSVGPVTPNQRWICRCYSYDRNRPYVWSPPSESVELLVSGNLQKPTIKAEPGSVITSKRAMTIWCQGNLDAEVYFLHNEGSQKTQSTQTLQQPGNKGKFFIPSMTRQHAGQYRCYCYGSAGWSQPSDTLELVVTGIYEHYKPRLSVLPSPVVTAGGNMTLHCASDFHYDKFILTKEDKKFGNSLDTEHISSSRQYRALFIIGPTTPTHTGTFRCYGYFKNAPQLWSVPSDLQQILISGLSKKPSLLTHQGHILDPGMTLTLQCYSDINYDRFALHKVGGADIMQHSSQQTDTGFSVANFTLGYVSSSTGGQYRCYGAHNLSSEWSASSEPLDILITGQLPLTPSLSVKPNHTVHVSLLCWSMDSVDTFILSKEQQPLRLKSKSHDQQSQAEFSMSAVTSHLSGTYRCYGAQNSSFYLLSSASAPVEL LPKPILRVQPDSVVSRWTKVTFFCEETIGANEYRLYKDGKLYKTVTKNNKAEFSLSNVDLSNAGQYECSYSTQYKSSGYSDPLKLVVTGHYWTPSLLAQASPVVTSGGYVTLQCESWHNDHKFILTVEGPQKLSWTQDSQYNYSTRKYHALFSVGPVTPNQRWICRCYSYDRNRPYVWSPPSESVELLVSGNLQKPTIKAEPGSVITSKRAMTIWCQGNLDAEVYFLHNEGSQKTQSTQTLQQPGNKGKFFIPSMTRQHAGQYRCYCYGSAGWSQPSDTLELVVTGIYEHYKPRLSVLPSPVVTAGGNMTLHCASDFHYDKFILTKEDKKFGNSLDTEHISSSRQYRALFIIGPTTPTHTGTFRCYGYFKNAPQLWSVPSDLQQILISGLSKKPSLLTHQGHILDPGMTLTLQCYSDINYDRFALHKVGGADIMQHSSQQTDTGFSVANFTLGYVSSSTGGQYRCYGAHNLSSEWSASSEPLDILITGQLPLTPSLSVKPNHTVHSGETVSLLCWSMDSVDTFILSKEGSAQQPLRLKSKSHDQQSQAEFSMSAVTSHLSGTYRCYGAQNSSFYLLSSASAPVELTV 6grz-a1-m1-cB_6grz-a1-m1-cA Crystal structure of the light chain dimer mH6 2.1 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 215 5mud-a1-m1-cA_5mud-a1-m1-cB SVLTQPPSVSAAPGQKVTISCSGNNSNIGKNYVSWYQQLPGRTPKLIMYENNKRSSGIPDRFSGSKSGNSATLTITGLQTGDEADYYCGVWDSSLSGGVFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTEC QSVLTQPPSVSAAPGQKVTISCSGNNSNIGKNYVSWYQQLPGRTPKLIMYENNKRSSGIPDRFSGSKSGNSATLTITGLQTGDEADYYCGVWDSSLSGGVFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTEC 6gsc-a1-m1-cA_6gsc-a1-m1-cB Sphingobacterium sp. T2 manganese superoxide dismutase catalyses the oxidative demethylation of polymeric lignin via generation of hydroxyl radical A0A0M3KL50 A0A0M3KL50 1.32 X-RAY DIFFRACTION 48 1.0 258 (Sphingobacterium spiritivorum) 258 (Sphingobacterium spiritivorum) 205 206 5a9g-a1-m1-cA_5a9g-a1-m1-cB 6gsb-a1-m1-cA_6gsb-a1-m1-cB DPFTQFKQTPLPYAYDALEGAIDAKTMEIHYSKHHAGYTANLNKAIAGTPAEKESIENILAKVSQYSDAVRNNAGGHYNHELFWSILTPNKGTKPSAALQKAIDETFGSLDALKEKINAAGAARFGSGWAWLIVDNGGKLQVTSTPNQDNPLMDFTKEKGTPILGIDVWEHAYYLRYQNKRADYLTTIWDVINWEEVSARYEKAL DPFTQFKQTPLPYAYDALEGAIDAKTMEIHYSKHHAGYTANLNKAIAGTPAEKESIENILAKVSQYSDAVRNNAGGHYNHELFWSILTPNKGTKPSAALQKAIDETFGSLDALKEKINAAGAARFGSGWAWLIVDNGGKLQVTSTPNQDNPLMDFTKEKGTPILGIDVWEHAYYLRYQNKRADYLTTIWDVINWEEVSARYEKALK 6gsi-a1-m3-cG_6gsi-a1-m3-cH Feline Calicivirus Strain F9 bound to a soluble ectodomain fragment of feline junctional adhesion molecule A - leading to assembly of a portal structure at a unique three-fold axis. Q2WGK2 Q2WGK2 3.75 ELECTRON MICROSCOPY 37 0.995 9685 (Felis catus) 9685 (Felis catus) 200 200 6gsi-a1-m1-cE_6gsi-a1-m1-cF 6gsi-a1-m1-cG_6gsi-a1-m1-cH 6gsi-a1-m2-cE_6gsi-a1-m2-cF 6gsi-a1-m2-cG_6gsi-a1-m2-cH 6gsi-a1-m3-cE_6gsi-a1-m3-cF VYTSEPDVRVPEDKPAKLSCSYSGFSNPRVEWKFAHGDITSLVCYKNKITASYADRVTFSHSGITFHSVTRKDTGTYTCMVSDDGGNTYGEVSVQLTVLVPPSKPTVHIPSSATIGSRAVLTCSEKDGSPPSEYYWFKDGVRMPLEPKGNRAFSNSSYSLNEKTGELVFDPVSAWDTGEYTCEAQNGYGMPMRSEAVRME AVYTSEPDVRVPEDKPAKLSCSYSGFSNPRVEWKFAHGDITSLVCYKNKITASYADRVTFSHSGITFHSVTRKDTGTYTCMVSDDGGNTYGEVSVQLTVLVPPSKPTVHIPSSATIGSRAVLTCSEKDGSPPSEYYWFKDGVRMPLEPKGNRAFSNSSYSLNEKTGELVFDPVSAWDTGEYTCEAQNGYGMPMRSEAVRM 6gto-a1-m1-cA_6gto-a1-m2-cA Structure of the AtaR antitoxin J7QA90 J7QA90 2.97 X-RAY DIFFRACTION 82 1.0 562 (Escherichia coli) 562 (Escherichia coli) 62 62 IDLRLTDDDKSMIEEAAAISNQSVSQFMLNSASQRAAEVIEQHRRVILNEESWTRVMDALSN IDLRLTDDDKSMIEEAAAISNQSVSQFMLNSASQRAAEVIEQHRRVILNEESWTRVMDALSN 6gu1-a1-m1-cA_6gu1-a1-m1-cB SFI3 effector protein from the oomycete plant pathogen Phytophthora infestans D0N6D2 D0N6D2 1.7 X-RAY DIFFRACTION 77 1.0 403677 (Phytophthora infestans T30-4) 403677 (Phytophthora infestans T30-4) 55 55 AAWRINYRAWYKAKLTPTQVKTVLGVSQAEMNNVAKQLQRLYLGYYSFYTAMEKK AAWRINYRAWYKAKLTPTQVKTVLGVSQAEMNNVAKQLQRLYLGYYSFYTAMEKK 6gua-a4-m1-cH_6gua-a4-m1-cG Xylulose 5-phosphate phosphoketolase from Lactococcus lactis Q9CFH4 Q9CFH4 1.95 X-RAY DIFFRACTION, SOLUTION SCATTERING 375 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 819 820 6gua-a1-m1-cB_6gua-a1-m1-cA 6gua-a2-m1-cC_6gua-a2-m1-cD 6gua-a3-m1-cE_6gua-a3-m1-cF EYNSEAYLKKLDKWWRAATYLGAGMIFLKENPLFSVTGTPIKAENLKANPIGHWGTVSGQTFLYAHANRLINKYDQKMFYMGGPGHGGQAMVVPSYLDGSYTEAYPEITQDLEGMSRLFKRFSFPGGIGSHMTAQTPGSLHEGGELGYVLSHATGAILDQPEQIAFAVVGDGEAETGPLMTSWHSIKFINPKNDGAILPILDLNGFKISNPTLFARTSDVDIRKFFEGLGYSPRYIENDDIHDYMAYHKLAAEVFDKAIEDIHQIQKDAREDNRYQNGEIPAWPIVIARLPKGWGGPRYNDWSGPKFDGKGMPIEHSFRAHQVPLPLSSKNMGTLPEFVKWMTSYQPETLFNADGSLKEELRDFAPKGEMRMASNPVTNGGVDSSNLVLPDWQEFANPISENNRGKLLPDTNDNMDMNVLSKYFAEIVKLNPTRFRLFGPDETMSNRFWEMFKVTNRQWMQVIKNPNDEFISPEGRIIDSQLSEHQAEGWLEGYTLTGRTGAFASYESFLRVVDSMLTQHFKWIRQAADQKWRHDYPSLNVISTSTVFQQDHNGYTHQDPGMLTHLAEKKSDFIRQYLPADGNTLLAVFDRAFQDRSKINHIVASKQPRQQWFTKEEAEKLATDGIATIDWASTAKDGEAVDLVFASAGAEPTIETLAALHLVNEVFPQAKFRYVNVVELGRLQKKKGALNQERELSDEEFEKYFGPSGTPVIFGFHGYEDLIESIFYQRGHDGLIVHGYREDGDITTTYDMRVYSELDRFHQAIDAMQVLYVNRKVNQGLAKAFIDRMKRTLVKHFEVTRNEGVDIPDFTEWVWSDLK EYNSEAYLKKLDKWWRAATYLGAGMIFLKENPLFSVTGTPIKAENLKANPIGHWGTVSGQTFLYAHANRLINKYDQKMFYMGGPGHGGQAMVVPSYLDGSYTEAYPEITQDLEGMSRLFKRFSFPGGIGSHMTAQTPGSLHEGGELGYVLSHATGAILDQPEQIAFAVVGDGEAETGPLMTSWHSIKFINPKNDGAILPILDLNGFKISNPTLFARTSDVDIRKFFEGLGYSPRYIENDDIHDYMAYHKLAAEVFDKAIEDIHQIQKDAREDNRYQNGEIPAWPIVIARLPKGWGGPRYNDWSGPKFDGKGMPIEHSFRAHQVPLPLSSKNMGTLPEFVKWMTSYQPETLFNADGSLKEELRDFAPKGEMRMASNPVTNGGVDSSNLVLPDWQEFANPISENNRGKLLPDTNDNMDMNVLSKYFAEIVKLNPTRFRLFGPDETMSNRFWEMFKVTNRQWMQVIKNPNDEFISPEGRIIDSQLSEHQAEGWLEGYTLTGRTGAFASYESFLRVVDSMLTQHFKWIRQAADQKWRHDYPSLNVISTSTVFQQDHNGYTHQDPGMLTHLAEKKSDFIRQYLPADGNTLLAVFDRAFQDRSKINHIVASKQPRQQWFTKEEAEKLATDGIATIDWASTAKDGEAVDLVFASAGAEPTIETLAALHLVNEVFPQAKFRYVNVVELGRLQKKKGALNQERELSDEEFEKYFGPSGTPVIFGFHGYEDLIESIFYQRGHDGLIVHGYREDGDITTTYDMRVYSELDRFHQAIDAMQVLYVNRKVNQGLAKAFIDRMKRTLVKHFEVTRNEGVDIPDFTEWVWSDLKK 6gug-a1-m1-cB_6gug-a1-m1-cA Siderophore hydrolase EstB mutant S148A from Aspergillus fumigatus Q4WF29 Q4WF29 1.45 X-RAY DIFFRACTION 127 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 275 281 6gud-a1-m1-cB_6gud-a1-m1-cA 6gui-a1-m1-cA_6gui-a1-m1-cB 6gul-a1-m1-cB_6gul-a1-m1-cA 6gur-a1-m1-cA_6gur-a1-m1-cB PLPNSEQFYLENDRGEPYLIQVSWPLHWEDKQTGRGPLPIIYIVDGNALFLTATEAAWRRAAASHFAGGGIIVAIGYPLKGKLYDARRRSFDLTPPTACAPVGYGGADVFLDFIENSVRPAVQARFPQVSLAREALYGHAYGGLLALHALFTRPQSFDCYIASSPSIWWNSLCILHEAKAFVETSPSLMVSWGSWEQHPPRWADELLDHYEARKRTAAELRMADNALDLCAMLHGCSRLHALIKTEYEGEDHTSVMSCSVSRGLTMFFEDWPFHQ PTPVPLPNSEQFYLENDRGEPYLIQVSWPLHWEDKQTGRGPLPIIYIVDGNALFLTATEAAWRRAAASHFAGGGIIVAIGYPLKGKLYDARRRSFDLTPPTACAPVGYGGADVFLDFIENSVRPAVQARFPQVSLAREALYGHAYGGLLALHALFTRPQSFDCYIASSPSIWWNSLCILHEAKAFVETQSPSLMVSWGSWEQHPPRWADELLDHYEARKRTAAELRMADNALDLCAMLHGCSRLHALIKTEYEGEDHTSVMSCSVSRGLTMFFEDWPFHQS 6gun-a2-m2-cC_6gun-a2-m1-cD Siderophore hydrolase EstB from Aspergillus nidulans A0A3F2YM31 A0A3F2YM31 2 X-RAY DIFFRACTION 170 0.993 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 290 298 6gun-a1-m1-cB_6gun-a1-m1-cA PAVVSLPSSEQFYLNNSRGERYLIQVSWPLHWKDHKPDTDRNDVPLIYIVDGNALFLTATEALWRRSADSHYCGGGIVVAIGYPLEGTGKVYHRVRRGFDLTVPTPDSPVEGHGGADILLDFIAETVRPAVRERFPDVSVSREALYGHSYGGLFALHALFTRPSMFDAYIASSPSIWWNGRCILNEAKAFTRKEKKLPSLMMYLGGLEQDPRRWNDEPDESWEGRKRDAEAFNMKVNLLELMGLIRGCTRLHAVSFSEYAGEDHGTVMACSLGRGFSTFMEDWPVPREES IDKPAVVSLPSSEQFYLNNSRGERYLIQVSWPLHWKDHKPDTDRNDVPLIYIVDGNALFLTATEALWRRSADSHYCGGGIVVAIGYPLEGTGKVYHRVRRGFDLTVPTPDSPVEGHGGADILLDFIAETVRPAVRERFPDVSVSREALYGHSYGGLFALHALFTRPSMFDAYIASSPSIWWNGRCILNEAKAFTRKIGAYTNGEKKLPSLMMYLGGLEQDPRRWNDEPDESWEGRKRDAEAFNMKVNLLELMGLIRGCTRLHAVSFSEYAGEDHGTVMACSLGRGFSTFMEDWPVPRE 6guo-a2-m1-cC_6guo-a2-m2-cD Siderophore hydrolase EstA from Aspergillus nidulans Q5AV79 Q5AV79 1.75 X-RAY DIFFRACTION 185 1.0 162425 (Aspergillus nidulans) 162425 (Aspergillus nidulans) 298 303 6guo-a1-m1-cA_6guo-a1-m1-cB THWAFSPIQPGAARNMAAWQIAGKKDGPYQIDVSWPLTWSESGDASGKSANAVYLVDGNALFLTATETLRRRESHRPSETGTVVIAIGYPITDSVFSPRRSYDLTPPCDHYIPPESPKPEAHGGADEFLTFIAEIVRPFVELKVFPRVSFGRTALFGHSYGGLFALHALFTKPSSFDVYLAASPSIWWNNRSILTEARRFISGAALFSSAHPVLRLSFGSREQYPVRQRVESDEMFKRRQRAAEQRRMNDNCEELYSELLASGRLCKLEVKEYLDEDHGSVIGPALSGGIMFLSNLSA STHWAFSPIQPGAARNMAAWQIAGKKDGPYQIDVSWPLTWSESGDASGKSANAVYLVDGNALFLTATETLRRRESHRPSETGTVVIAIGYPITDSVFSPRRSYDLTPPCDHYIPPEGPDGSPKPEAHGGADEFLTFIAEIVRPFVELKVFPRVSFGRTALFGHSYGGLFALHALFTKPSSFDVYLAASPSIWWNNRSILTEARRFISGAALFSSAHPVLRLSFGSREQYPVRQRVESDEMFKRRQRAAEQRRMNDNCEELYSELLASGRLCKLEVKEYLDEDHGSVIGPALSGGIMFLSNLSA 6gup-a1-m1-cB_6gup-a1-m1-cA Siderophore hydrolase EstB from Aspergillus fumigatus Q4WF56 Q4WF56 1.85 X-RAY DIFFRACTION 98 0.997 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 321 340 WPKGGLPGILHHYTETLVTFEYTTTTTRKPHSLLFVGGLGDGLATTSYLADLAHALQPTEWSLFTLTLTSSYQSGHLDRDTNEIAQCLKYIKEYKTEKFGGSASSGKIVLMGHSTGSQCVLHYLSRPHVERMPLDGAIMQAPVSDREAIQWVLAEGLGDRTPAEIRPVFEKLTSMAREAATDVLLPLAMTSLVYPAHTPLSARRFLSLTSPESPSEDDLFSSDLSDEQLGKTFGMIREQGLLRGKLMVLFSGADQSVPAWVDKDTLLSRWRNATDHNGEAAIWDENSGIIPNASHALSNDDQAEPRNFLVNKVLGYLSALV WPKGGLPGILHHYTETLVTFEYTTTTTRKPHSLLFVGGLGDGLATTSYLADLAHALQPTEWSLFTLTLTSSYQSWGLGHLDRDTNEIAQCLKYIKEYKTEKFGGSASSGKIVLMGHSTGSQCVLHYLSRPNPHTHTVERMPLDGAIMQAPVSDREAIQWVLAEGLGDRTPAEIRPVFEKLTSMAREAARDADAGTDVLLPLAMTSLVYPAHTPLSARRFLSLTSPESPESPSEDDLFSSDLSDEQLGKTFGMIREQGLLRGKLMVLFSGADQSVPAWVDKDTLLSRWRNATDHNGEAAIWDENSGIIPNASHALSNDDQAEPRNFLVNKVLGYLSALVKA 6guv-a1-m1-cA_6guv-a1-m2-cA BTB domain of mouse PATZ1 Q5NBY9 Q5NBY9 2.29 X-RAY DIFFRACTION 151 1.0 10090 (Mus musculus) 10090 (Mus musculus) 134 134 ALEVLFQGPGSGCYTYQVSRHSTEMLHNLNQQRKNGGRFCDVLLRVGDESFPAHRAVLAACSEYFESVFSAQLMHTISSKVFGDILDFAYTSRIVVRLESFPELMTAAKFLLMRSVIEICQEVIKQSNVQILVP ALEVLFQGPGSGCYTYQVSRHSTEMLHNLNQQRKNGGRFCDVLLRVGDESFPAHRAVLAACSEYFESVFSAQLMHTISSKVFGDILDFAYTSRIVVRLESFPELMTAAKFLLMRSVIEICQEVIKQSNVQILVP 6guw-a1-m1-cA_6guw-a1-m2-cA BTB domain of zebrafish PATZ1 X1WGP9 X1WGP9 1.8 X-RAY DIFFRACTION 126 1.0 7955 (Danio rerio) 7955 (Danio rerio) 118 118 SYTYQVSKHSAEMLHNLNGQRKDGGRFCDVILRVGEESFPAHKAVLAACSEYFESVFSCGKELEMHTISPKVFRDILDFAYTSKIVVRLECFPELMTAAKFLLMRSVIEICQEVIKQS SYTYQVSKHSAEMLHNLNGQRKDGGRFCDVILRVGEESFPAHKAVLAACSEYFESVFSCGKELEMHTISPKVFRDILDFAYTSKIVVRLECFPELMTAAKFLLMRSVIEICQEVIKQS 6gvb-a2-m1-cC_6gvb-a2-m1-cD Crystal structure of Cutibacterium acnes exo-beta-1,4-mannosidase 1.8 X-RAY DIFFRACTION 97 1.0 1747 (Cutibacterium acnes) 1747 (Cutibacterium acnes) 394 394 6gvb-a1-m1-cB_6gvb-a1-m1-cA MKIGANYTPSQGWFHSWLDLDIDATRRDFEGIAQLGLDHVRLFPLWPLLQPNRGLVRPRALDDVVSVVRAAGEFDLEVTVDALNGHLSSYDFLPPWVITWHTSNLFTDPLVKAGQTDLISQLATRLREEPNATGMTVGNEFPQYAALAPGHHHPTRSECTVDDAQTWLETMLGTMRDQWPDGRFWFGFDDDLWFVDDHPFTPRHAVTQGSATTVHSWVFAQVGPRFGEGHPALTWFPRYLLELARAWSHDPERPLWLQEVGAPRTHVPDSSSAAFMTTTMASLTSTPGLEAITWWCSHDVSRDLLDFPELEYSLGLFTNDGKPKPEALALSDMLPDLHNAQPQHQLDEPLEFSANWDTGAGRSVCSPMGDLFAQWVDQAEQTGRAPRLALRPTP MKIGANYTPSQGWFHSWLDLDIDATRRDFEGIAQLGLDHVRLFPLWPLLQPNRGLVRPRALDDVVSVVRAAGEFDLEVTVDALNGHLSSYDFLPPWVITWHTSNLFTDPLVKAGQTDLISQLATRLREEPNATGMTVGNEFPQYAALAPGHHHPTRSECTVDDAQTWLETMLGTMRDQWPDGRFWFGFDDDLWFVDDHPFTPRHAVTQGSATTVHSWVFAQVGPRFGEGHPALTWFPRYLLELARAWSHDPERPLWLQEVGAPRTHVPDSSSAAFMTTTMASLTSTPGLEAITWWCSHDVSRDLLDFPELEYSLGLFTNDGKPKPEALALSDMLPDLHNAQPQHQLDEPLEFSANWDTGAGRSVCSPMGDLFAQWVDQAEQTGRAPRLALRPTP 6gve-a1-m1-cB_6gve-a1-m1-cL GAPDH-CP12-PRK complex Q8DHN2 Q8DHN2 3.9 ELECTRON MICROSCOPY 59 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 319 319 6gve-a1-m1-cG_6gve-a1-m1-cJ RVVLIGVAGDSGCGKSTFLRRLADLFGEDFMTVICLDDYHSLDRKQRKEMGITALDPRANNFDLMYEQIKALKNGESIMKPIYNHETGTIDPPEKVDPNHVIVIEGLHPLYDERVRSLIDFSVYLDISDDVKIAWKIKRDMAERGHSYEDVIASINARRPDFMAYIDPQKQYADVVLQILPSQLAKEEKVGNILRVRMLQREGIPGFEPVYLFDEGSTITWIPCGRKLTCSYPGIRLSYGPDEYYGHPVSVLEVDGRFEKLDELIYIESHLSNTSTKHYGEVTELLLKHRDYPGSDNGSGLFQVLTGLKMRATYERLTS RVVLIGVAGDSGCGKSTFLRRLADLFGEDFMTVICLDDYHSLDRKQRKEMGITALDPRANNFDLMYEQIKALKNGESIMKPIYNHETGTIDPPEKVDPNHVIVIEGLHPLYDERVRSLIDFSVYLDISDDVKIAWKIKRDMAERGHSYEDVIASINARRPDFMAYIDPQKQYADVVLQILPSQLAKEEKVGNILRVRMLQREGIPGFEPVYLFDEGSTITWIPCGRKLTCSYPGIRLSYGPDEYYGHPVSVLEVDGRFEKLDELIYIESHLSNTSTKHYGEVTELLLKHRDYPGSDNGSGLFQVLTGLKMRATYERLTS 6gvw-a1-m1-cA_6gvw-a1-m1-cF Crystal structure of the BRCA1-A complex Q8BPZ8 Q8BPZ8 3.75 X-RAY DIFFRACTION 67 0.997 10090 (Mus musculus) 10090 (Mus musculus) 312 320 GESTLGVLSGFVLGALTFHHLNTDSDTEGFLLGEMKGEAKNSITDSQMDNVKVVYTIDIQKYIPCYRLFSFYNSLGEVNEHALKKVLSNVRKTVVGWYKFRRHSDQIMTFREQLLHRNLQTHLSSPELVFLLLTPSITTESCSTHCLEHALYKPQRGLFHRVPLVVTNLGMSDQLGYKTEPASCTSTVFSRAVRTHSSQFFNEDGSLKEVHKINEMYAAVQEELKSICQKVEQSEREVEKLLMDVNQLKEVRRTQQARATPQENILLCQALRTFFPESEVLHSCVISLKNRHISPSGCNVNHHVDVVDQLTL MEGESTLGVLSGFVLGALTFHHLNTDSDTEGFLLGEMKGEAKNSITDSQMDNVKVVYTIDIQKYIPCYRLFSFYNSLGEVNEHALKKVLSNVRKTVVGWYKFRRHSDQIMTFREQLLHRNLQTHLSSPELVFLLLTPSITTESCSTHCLEHALYKPQRGLFHRVPLVVTNLGMSDQLGYKTEPASCTSTVFSRAVRTHSSQFFNEDGSLKEVHKINEMYAAVQEELKSICQKVEQSEREVEKLLMDVNQLKEVRRTQQARATGQENILLCQALRTFFPESEVLHSCVISLKNRHISPSGCNVNHHVDVVDQLTLMVEYVY 6gvw-a1-m1-cB_6gvw-a1-m1-cG Crystal structure of the BRCA1-A complex P46737 P46737 3.75 X-RAY DIFFRACTION 42 1.0 10090 (Mus musculus) 10090 (Mus musculus) 262 262 6h3c-a1-m1-cB_6h3c-a1-m1-cG 6r8f-a1-m1-cA_6r8f-a1-m1-cC AVQAVHLESDAFLVCLNHALSTEKEEVMGLCIGELNDDIIRIVHIHSVIILRRSDKRKDRVEISPEQLSAASTEAERLAELTGRPMRVVGWYHSHPHITVWPSHVDVRTQAMYQMMDQGFVGLIFSCFIEDKNTKTGRVLYTCFQSIQAQKSSEYERIEIPIHIVPHITIGKVCLESAVELPKILCQEEQDAYRRIHSLTHLDSVTKIHNGSVFTKNLCSQMSAVSGPLLQWLEDRLEQNQQHLQELQQEKEELMEELSSLE AVQAVHLESDAFLVCLNHALSTEKEEVMGLCIGELNDDIIRIVHIHSVIILRRSDKRKDRVEISPEQLSAASTEAERLAELTGRPMRVVGWYHSHPHITVWPSHVDVRTQAMYQMMDQGFVGLIFSCFIEDKNTKTGRVLYTCFQSIQAQKSSEYERIEIPIHIVPHITIGKVCLESAVELPKILCQEEQDAYRRIHSLTHLDSVTKIHNGSVFTKNLCSQMSAVSGPLLQWLEDRLEQNQQHLQELQQEKEELMEELSSLE 6gw3-a2-m1-cD_6gw3-a2-m1-cC Structure of TKS from Cannabis sativa in complex with CoA B1Q2B6 B1Q2B6 1.39 X-RAY DIFFRACTION 141 1.0 3483 (Cannabis sativa) 3483 (Cannabis sativa) 379 381 6gw3-a1-m1-cA_6gw3-a1-m1-cB 7w6g-a1-m1-cC_7w6g-a1-m1-cA 7w6g-a2-m1-cB_7w6g-a2-m1-cD LRAEGPASVLAIGTANPENILLQDEFPDYYFRVTKSEHMTQLKEKFRKICDKSMIRKRNCFLNEEHLKQNPRLVEHEMQTLDARQDMLVVEVPKLGKDACAKAIKEWGQPKSKITHLIFTSASTTDMPGADYHCAKLLGLSPSVKRVMMYQLGYGGGTVLRIAKDIAENNKGARVLAVCCDIMACLFRGPSESDLELLVGQAIFGDGAAAVIVGAEPDESVGERPIFELVSTGQTILPNSEGTIGGHIREAGLIFDLHKDVPMLISNNIEKCLIEAFTPIGISDWNSIFWITHPGGKAILDKVEEKLHLKSDKFVDSRHVLSEHGNMSSSTVLFVMDELRKRSLEEGKSTTGDGFEWGVLFGFGPGLTVERVVVRSVPI LRAEGPASVLAIGTANPENILLQDEFPDYYFRVTKSEHMTQLKEKFRKICDKSMIRKRNCFLNEEHLKQNPRLVEHEMQTLDARQDMLVVEVPKLGKDACAKAIKEWGQPKSKITHLIFTSASTTDMPGADYHCAKLLGLSPSVKRVMMYQLGYGGGTVLRIAKDIAENNKGARVLAVCCDIMACLFRGPSESDLELLVGQAIFGDGAAAVIVGAEPDESVGERPIFELVSTGQTILPNSEGTIGGHIREAGLIFDLHKDVPMLISNNIEKCLIEAFTPIGISDWNSIFWITHPGGKAILDKVEEKLHLKSDKFVDSRHVLSEHGNMSSSTVLFVMDELRKRSLEEGKSTTGDGFEWGVLFGFGPGLTVERVVVRSVPIKY 6gw6-a1-m1-cA_6gw6-a1-m1-cD Structure of the Pseudomonas putida RES-Xre toxin-antitoxin complex Q88K57 Q88K57 2.205 X-RAY DIFFRACTION 119 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 145 145 MILWRISAYADLSGTGGLRVSGAWHQAGRPVVYAATSPPGAMLEVLVHLEIDPEDFPTTMRLLRIELPDTVSQAQLPALQPGWSAQPELTRTLGNRFLDDCSALLLPVPSAIMPSTTNYLFNPRHPQAQSAKIQVEDFTPDSRLF MILWRISAYADLSGTGGLRVSGAWHQAGRPVVYAATSPPGAMLEVLVHLEIDPEDFPTTMRLLRIELPDTVSQAQLPALQPGWSAQPELTRTLGNRFLDDCSALLLPVPSAIMPSTTNYLFNPRHPQAQSAKIQVEDFTPDSRLF 6gw6-a1-m1-cE_6gw6-a1-m1-cF Structure of the Pseudomonas putida RES-Xre toxin-antitoxin complex Q88K58 Q88K58 2.205 X-RAY DIFFRACTION 71 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 149 149 6gw6-a1-m1-cB_6gw6-a1-m1-cC MLAEVLRDNGYHEYRARLQALLDIPELASDFEIHTRITDGFAATWLVKLTERGVLTPVERDQIIPLRTLKSRIERDQPLTVDESDRLFRSAHITAMAEAVFGEAGKAKRWLSKPKERFSGLTPMQMLTTQQGTTQVEEMLLQIAEGYGL MLAEVLRDNGYHEYRARLQALLDIPELASDFEIHTRITDGFAATWLVKLTERGVLTPVERDQIIPLRTLKSRIERDQPLTVDESDRLFRSAHITAMAEAVFGEAGKAKRWLSKPKERFSGLTPMQMLTTQQGTTQVEEMLLQIAEGYGL 6gwi-a1-m1-cA_6gwi-a1-m1-cB The crystal structure of Halomonas elongata amino-transferase E1V913 E1V913 2 X-RAY DIFFRACTION 429 1.0 768066 (Halomonas elongata DSM 2581) 768066 (Halomonas elongata DSM 2581) 449 450 QTQDYQALDRAHHLHPFTDFKALGEEGSRVVTHAEGVYIHDSEGNRILDGMAGLWCVNLGYGRRELVEAATAQLEQLPYYNTFFKTTHPPAVRLAEKLCDLAPAHINRVFFTGSGSEANDTVLRMVRRYWALKGQPDKQWIIGRENAYHGSTLAGMSLGGMAPMHAQGGPCVPGIAHIRQPYWFGEGRDMSPEAFGQTCAEALEEKILELGEEKVAAFIAEPVQGAGGAIMPPESYWPAVKKVLAKYDILLVADEVICGFGRLGEWFGSQHYGLEPDLMPIAKGLSSGYLPIGGVLVGDRVAETLIEEGGEFFHGFTYSGHPTCAAVALKNLELLEAEGVVDRVRDDLGPYLAERWASLVDHPIVGEARSLGLMGALELVADKTTGQRFDKSLGAGNLCRDLCFANGLVMRSVGDTMIISPPLVIRREEIDELVELARRALDETARQLT MQTQDYQALDRAHHLHPFTDFKALGEEGSRVVTHAEGVYIHDSEGNRILDGMAGLWCVNLGYGRRELVEAATAQLEQLPYYNTFFKTTHPPAVRLAEKLCDLAPAHINRVFFTGSGSEANDTVLRMVRRYWALKGQPDKQWIIGRENAYHGSTLAGMSLGGMAPMHAQGGPCVPGIAHIRQPYWFGEGRDMSPEAFGQTCAEALEEKILELGEEKVAAFIAEPVQGAGGAIMPPESYWPAVKKVLAKYDILLVADEVICGFGRLGEWFGSQHYGLEPDLMPIAKGLSSGYLPIGGVLVGDRVAETLIEEGGEFFHGFTYSGHPTCAAVALKNLELLEAEGVVDRVRDDLGPYLAERWASLVDHPIVGEARSLGLMGALELVADKTTGQRFDKSLGAGNLCRDLCFANGLVMRSVGDTMIISPPLVIRREEIDELVELARRALDETARQLT 6gwr-a1-m1-cB_6gwr-a1-m1-cA Structure of the kinase domain of human DDR1 in complex with a potent and selective inhibitor of DDR1 and DDR2 Q08345 Q08345 2.07 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 300 RVDFPRSRLRFKEKLGEGQFGEVHLCEVDSPQDLVSPLLVAVKILRPDATKNARNDFLKEVKIMSRLKDPNIIRLLGVCVQDDPLCMITDYMENGDLNQFLSAHQLEDKAAGPTISYPMLLHVAAQIASGMRYLATLNFVHRDLATRNCLVGENFTIKIADFGMSRNLYAGDYYRVQGRAVLPIRWMAWECILMGKFTTASDVWAFGVTLWEVLMLCRAQPFGQLTDEQVIENAGEFFRDQGRQVYLSRPPACPQGLYELMLRCWSRESEQRPPFSQLHRFLAED MPRVDFPRSRLRFKEKLGEGQFGEVHLCEVDSPQDLVSLDFPLGHPLLVAVKILRPDATKNARNDFLKEVKIMSRLKDPNIIRLLGVCVQDDPLCMITDYMENGDLNQFLSAHQLEDKAAEQGPTISYPMLLHVAAQIASGMRYLATLNFVHRDLATRNCLVGENFTIKIADFGMSRNLYAGDYYRVQGRAVLPIRWMAWECILMGKFTTASDVWAFGVTLWEVLMLCRAQPFGQLTDEQVIENAGEFFRDQGRQVYLSRPPACPQGLYELMLRCWSRESEQRPPFSQLHRFLAEDALNT 6gwu-a1-m1-cD_6gwu-a1-m1-cA Carbonic anhydrase CaNce103p from Candida albicans Q5AJ71 Q5AJ71 2.2 X-RAY DIFFRACTION 29 1.0 5476 (Candida albicans) 5476 (Candida albicans) 202 208 6gwu-a1-m1-cC_6gwu-a1-m1-cB FPFTLSSESTLQDFLNNNKFFVDSIKHNHGNQIFDLNGQGQSPHTLWIGCSDSRAGDQCLATLPGEIFVHRNIANIVNANDISSQGVIQFAIDVLKVKKIIVCGHTDCGGIWASLSKKKIGGVLDLWLNPVRHIRAANLKLLEEYNQDPKLKAKKLAELNVISSVTALKRHPSASVALKKNEIEVWGMLYDVATGYLSQVEI NFPFTLSSESTLQDFLNNNKFFVDSIKHNHGNQIFDLNGQGQSPHTLWIGCSDSRAGDQCLATLPGEIFVHRNIANIVNANDISSQGVIQFAIDVLKVKKIIVCGHTDCGGIWASLSKKKIGGVLDLWLNPVRHIRAANLKLLEEYNQDPKLKAKKLAELNVISSVTALKRHPSASVALKKNEIEVWGMLYDVATGYLSQVEIPQDEF 6gwu-a1-m1-cD_6gwu-a1-m1-cB Carbonic anhydrase CaNce103p from Candida albicans Q5AJ71 Q5AJ71 2.2 X-RAY DIFFRACTION 11 1.0 5476 (Candida albicans) 5476 (Candida albicans) 202 205 FPFTLSSESTLQDFLNNNKFFVDSIKHNHGNQIFDLNGQGQSPHTLWIGCSDSRAGDQCLATLPGEIFVHRNIANIVNANDISSQGVIQFAIDVLKVKKIIVCGHTDCGGIWASLSKKKIGGVLDLWLNPVRHIRAANLKLLEEYNQDPKLKAKKLAELNVISSVTALKRHPSASVALKKNEIEVWGMLYDVATGYLSQVEI NFPFTLSSESTLQDFLNNNKFFVDSIKHNHGNQIFDLNGQGQSPHTLWIGCSDSRAGDQCLATLPGEIFVHRNIANIVNANDISSQGVIQFAIDVLKVKKIIVCGHTDCGGIWASLSKKKIGGVLDLWLNPVRHIRAANLKLLEEYNQDPKLKAKKLAELNVISSVTALKRHPSASVALKKNEIEVWGMLYDVATGYLSQVEIPQ 6gwu-a1-m1-cD_6gwu-a1-m1-cC Carbonic anhydrase CaNce103p from Candida albicans Q5AJ71 Q5AJ71 2.2 X-RAY DIFFRACTION 242 1.0 5476 (Candida albicans) 5476 (Candida albicans) 202 204 6gwu-a1-m1-cB_6gwu-a1-m1-cA FPFTLSSESTLQDFLNNNKFFVDSIKHNHGNQIFDLNGQGQSPHTLWIGCSDSRAGDQCLATLPGEIFVHRNIANIVNANDISSQGVIQFAIDVLKVKKIIVCGHTDCGGIWASLSKKKIGGVLDLWLNPVRHIRAANLKLLEEYNQDPKLKAKKLAELNVISSVTALKRHPSASVALKKNEIEVWGMLYDVATGYLSQVEI NFPFTLSSESTLQDFLNNNKFFVDSIKHNHGNQIFDLNGQGQSPHTLWIGCSDSRAGDQCLATLPGEIFVHRNIANIVNANDISSQGVIQFAIDVLKVKKIIVCGHTDCGGIWASLSKKKIGGVLDLWLNPVRHIRAANLKLLEEYNQDPKLKAKKLAELNVISSVTALKRHPSASVALKKNEIEVWGMLYDVATGYLSQVEIP 6gxs-a2-m1-cC_6gxs-a2-m1-cB Crystal structure of CV39L lectin from Chromobacterium violaceum at 1.8 A resolution Q7NZ70 Q7NZ70 1.8 X-RAY DIFFRACTION 155 1.0 243365 (Chromobacterium violaceum ATCC 12472) 243365 (Chromobacterium violaceum ATCC 12472) 361 363 6gxs-a1-m1-cA_6gxs-a1-m1-cD SSQFHGLAIGNGNSNYLQVLGLANITDTAYLTDWQDSGGNWHAGFALPVPSDYPKGHFFQLTTGVGNSNYLQVLGAGEDGNPYLVSWQDGSGKWHGGMPLPKPSGYSGGPLVTGIGNSNYLQVIGARVESSPYLVAWQDNGGNWHAGMPLPNPSGYAGGFQQLATGNGNDHFLQVVGVGNDGNAYLVTWQNAQGQWSPGFALPKPSGYSGTFTQLATGVGNGNFLQVLGIGTDGNAYLVAWQDNGGNWHPGFALPKPSGYNGTFAKLVTGIGNSNYLQVFGIGSNGVAYLVSWQDSGGNWHGGLTLPQPSGYNGSFSQLAAGNGNSHYLQVVGTDAQGNVYLVSWQDSEGKWHAGFELPRA SSSQFHGLAIGNGNSNYLQVLGLANITDTAYLTDWQDSGGNWHAGFALPVPSDYPKGHFFQLTTGVGNSNYLQVLGAGEDGNPYLVSWQDGSGKWHGGMPLPKPSGYSGGPLVTGIGNSNYLQVIGARVESSPYLVAWQDNGGNWHAGMPLPNPSGYAGGFQQLATGNGNDHFLQVVGVGNDGNAYLVTWQNAQGQWSPGFALPKPSGYSGTFTQLATGVGNGNFLQVLGIGTDGNAYLVAWQDNGGNWHPGFALPKPSGYNGTFAKLVTGIGNSNYLQVFGIGSNGVAYLVSWQDSGGNWHGGLTLPQPSGYNGSFSQLAAGNGNSHYLQVVGTDAQGNVYLVSWQDSEGKWHAGFELPRAS 6gxy-a1-m1-cA_6gxy-a1-m1-cB Tryparedoxin from Trypanosoma brucei in complex with CFT O77404 O77404 1.8 X-RAY DIFFRACTION 17 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 145 146 MGSGLAKYLPGATNLLSKSGEVSLGSLVGKTVFLYFSASWCPPCRGFTPVLAEFYEKHHVAKNFEVVLISWDENESDFHDYYGKMPWLALPFDQRSTVSELGKTFGVESIPTLITINADTGAIIGTQARTRVIEDPDGANFPWPN GMGSGLAKYLPGATNLLSKSGEVSLGSLVGKTVFLYFSASWCPPCRGFTPVLAEFYEKHHVAKNFEVVLISWDENESDFHDYYGKMPWLALPFDQRSTVSELGKTFGVESIPTLITINADTGAIIGTQARTRVIEDPDGANFPWPN 6gyg-a1-m1-cA_6gyg-a1-m1-cB X-ray structure of the apo form of the establishement gene regulator Reg576 of the G+ plasmid p576 1.98 X-RAY DIFFRACTION 126 1.0 293387 (Bacillus altitudinis) 293387 (Bacillus altitudinis) 59 61 RKNIKLTEPIFNKLKALMKVKDVKQYELIEIILDFYVTNKLSEKEREFFNYQLEELRKE FRKNIKLTEPIFNKLKALMKVKDVKQYELIEIILDFYVTNKLSEKEREFFNYQLEELRKEE 6gyh-a1-m2-cA_6gyh-a1-m3-cA Crystal structure of the light-driven proton pump Coccomyxa subellipsoidea Rhodopsin CsR I0YUS5 I0YUS5 2 X-RAY DIFFRACTION 23 1.0 574566 (Coccomyxa subellipsoidea C-169) 574566 (Coccomyxa subellipsoidea C-169) 225 225 6gyh-a1-m1-cA_6gyh-a1-m2-cA 6gyh-a1-m1-cA_6gyh-a1-m3-cA AVHQIGEGGLVMYWVTFGLMAFSALAFAVMTFTRPLNKRSHGYITLAIVTIAAIAYYAMAASGGKALVSNPDGNLRDIYYARYIDWFFTTPLLLLDIILLTGIPIGVTLWIVLADVAMIMLGLFGALSTNSYRWGYYGVSCAFFFVVLWGLFFPGAKGARARGGQVPGLYFGLAGYLALLWFGYPIVWGLAEGSDYISVTAEAASYAGLDIAAKVVFGWAVMLSH AVHQIGEGGLVMYWVTFGLMAFSALAFAVMTFTRPLNKRSHGYITLAIVTIAAIAYYAMAASGGKALVSNPDGNLRDIYYARYIDWFFTTPLLLLDIILLTGIPIGVTLWIVLADVAMIMLGLFGALSTNSYRWGYYGVSCAFFFVVLWGLFFPGAKGARARGGQVPGLYFGLAGYLALLWFGYPIVWGLAEGSDYISVTAEAASYAGLDIAAKVVFGWAVMLSH 6gyj-a1-m1-cB_6gyj-a1-m1-cA Mouse thymidylate synthase crystal soaked in phenolphthalein P07607 P07607 1.75 X-RAY DIFFRACTION 120 1.0 10090 (Mus musculus) 10090 (Mus musculus) 278 280 1hzw-a1-m1-cB_1hzw-a1-m1-cA 1i00-a1-m1-cA_1i00-a1-m1-cB 1ju6-a1-m1-cA_1ju6-a1-m1-cB 1ju6-a2-m1-cC_1ju6-a2-m1-cD 1juj-a1-m1-cA_1juj-a1-m1-cB 1juj-a2-m1-cC_1juj-a2-m1-cD 1rts-a1-m1-cA_1rts-a1-m1-cB 2rd8-a1-m1-cB_2rd8-a1-m1-cA 2rda-a1-m1-cB_2rda-a1-m1-cA 2rda-a2-m1-cC_2rda-a2-m2-cC 2rda-a3-m1-cD_2rda-a3-m3-cD 2rda-a4-m1-cE_2rda-a4-m1-cF 2tsr-a1-m1-cA_2tsr-a1-m1-cB 2tsr-a2-m1-cC_2tsr-a2-m1-cD 3ed7-a1-m1-cA_3ed7-a1-m2-cA 3ehi-a1-m1-cX_3ehi-a1-m2-cX 3ejl-a1-m1-cA_3ejl-a1-m1-cB 3ejl-a2-m1-cC_3ejl-a2-m1-cD 3gg5-a1-m1-cB_3gg5-a1-m1-cA 3gg5-a2-m1-cC_3gg5-a2-m1-cD 3gh0-a1-m1-cA_3gh0-a1-m2-cA 3h9k-a1-m1-cA_3h9k-a1-m1-cB 3h9k-a2-m1-cC_3h9k-a2-m2-cC 3h9k-a3-m1-cD_3h9k-a3-m1-cE 3hb8-a1-m1-cA_3hb8-a1-m1-cB 3hb8-a2-m1-cC_3hb8-a2-m2-cC 3hb8-a3-m1-cD_3hb8-a3-m1-cE 3ihi-a1-m1-cA_3ihi-a1-m1-cB 3n5e-a1-m1-cA_3n5e-a1-m1-cB 3n5e-a1-m1-cD_3n5e-a1-m1-cA 3ob7-a1-m1-cA_3ob7-a1-m1-cB 3ob7-a2-m1-cC_3ob7-a2-m2-cC 3ob7-a3-m1-cE_3ob7-a3-m1-cD 4e5o-a1-m1-cA_4e5o-a1-m1-cB 4e5o-a2-m1-cC_4e5o-a2-m1-cD 4e5o-a3-m1-cF_4e5o-a3-m1-cE 4eb4-a1-m1-cA_4eb4-a1-m1-cB 4eb4-a2-m1-cC_4eb4-a2-m1-cD 4eb4-a3-m1-cA_4eb4-a3-m1-cB 4eb4-a3-m2-cC_4eb4-a3-m2-cD 4ein-a1-m1-cA_4ein-a1-m1-cB 4ez8-a1-m1-cA_4ez8-a1-m2-cA 4g2o-a2-m1-cX_4g2o-a2-m2-cX 4g6w-a2-m1-cX_4g6w-a2-m2-cX 4gd7-a2-m1-cA_4gd7-a2-m2-cA 4h1i-a1-m1-cA_4h1i-a1-m1-cC 4h1i-a2-m1-cB_4h1i-a2-m1-cD 4o1x-a1-m1-cC_4o1x-a1-m1-cA 4o1x-a2-m1-cD_4o1x-a2-m1-cB 5fct-a1-m1-cA_5fct-a1-m1-cB 5wrn-a1-m1-cB_5wrn-a1-m1-cA 5wrn-a2-m1-cC_5wrn-a2-m1-cD 5wrn-a3-m1-cF_5wrn-a3-m1-cE 5x4x-a1-m1-cA_5x4x-a1-m2-cA 5x4y-a1-m1-cA_5x4y-a1-m2-cA 5x5a-a1-m1-cD_5x5a-a1-m1-cA 5x5a-a2-m1-cE_5x5a-a2-m1-cB 5x5a-a3-m1-cF_5x5a-a3-m1-cC 5x5d-a1-m1-cD_5x5d-a1-m1-cA 5x5d-a2-m1-cE_5x5d-a2-m1-cB 5x5d-a3-m1-cF_5x5d-a3-m1-cC 5x5q-a1-m1-cD_5x5q-a1-m1-cA 5x5q-a2-m1-cE_5x5q-a2-m1-cB 5x5q-a3-m1-cF_5x5q-a3-m1-cC 5x66-a1-m1-cA_5x66-a1-m1-cD 5x66-a2-m1-cE_5x66-a2-m1-cB 5x66-a3-m1-cC_5x66-a3-m1-cF 5x67-a1-m1-cA_5x67-a1-m1-cB 5x69-a1-m1-cD_5x69-a1-m1-cA 5x69-a2-m1-cE_5x69-a2-m1-cB 6f6z-a1-m1-cA_6f6z-a1-m1-cB 6gko-a1-m1-cB_6gko-a1-m1-cA 6ojv-a2-m1-cA_6ojv-a2-m1-cD 6pf3-a1-m1-cA_6pf3-a1-m1-cC 6pf3-a2-m1-cB_6pf3-a2-m2-cB 6pf3-a3-m1-cD_6pf3-a3-m3-cD 6pf4-a1-m1-cB_6pf4-a1-m1-cD 6pf4-a2-m1-cA_6pf4-a2-m2-cC 6pf5-a1-m1-cA_6pf5-a1-m4-cD 6pf5-a2-m1-cB_6pf5-a2-m2-cB 6pf5-a3-m1-cC_6pf5-a3-m3-cC 6pf6-a1-m1-cA_6pf6-a1-m1-cB 6pf6-a2-m2-cD_6pf6-a2-m1-cC 6qxg-a1-m1-cB_6qxg-a1-m1-cA 6qxg-a2-m1-cC_6qxg-a2-m2-cC 6r2e-a1-m1-cA_6r2e-a1-m1-cB 6r2e-a2-m1-cC_6r2e-a2-m1-cD 6r2e-a3-m1-cE_6r2e-a3-m1-cF 6r2e-a4-m1-cG_6r2e-a4-m1-cH 6y08-a1-m1-cB_6y08-a1-m1-cA 6zxo-a1-m1-cA_6zxo-a1-m1-cB 6zxo-a2-m1-cC_6zxo-a2-m1-cD 6zxo-a3-m1-cF_6zxo-a3-m1-cE HGELQYLRQVEHILRCGFKKEDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVRIWDANGSRDFLDSLGFSARQEGDLGPVYGFQWRHFGAEYKDMDSDYSGQGVDQLQKVIDTIKTNPDDRRIIMCAWNPKDLPLMALPPCHALCQFYVVNGELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLQPGDFVHTLGDAHIYLNHIEPLKIQLQREPRPFPKLKILRKVETIDDFKVEDFQIEGYNPHP RHGELQYLRQVEHILRCGFKKEDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVRIWDANGSRDFLDSLGFSARQEGDLGPVYGFQWRHFGAEYKDMDSDYSGQGVDQLQKVIDTIKTNPDDRRIIMCAWNPKDLPLMALPPCHALCQFYVVNGELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLQPGDFVHTLGDAHIYLNHIEPLKIQLQREPRPFPKLKILRKVETIDDFKVEDFQIEGYNPHPT 6gyr-a2-m1-cB_6gyr-a2-m1-cD Transcription factor dimerization activates the p300 acetyltransferase Q09472 Q09472 3.1 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 583 584 4bhw-a1-m1-cA_4bhw-a1-m1-cB 6gyr-a1-m2-cC_6gyr-a1-m1-cA AKKIFKPEELRQALMPTLEALYRQDPESLPFRQPVDPQLLGIPDYFDIVKSPMDLSTIKRKLDTGQYQEPWQYVDDIWLMFNNAWLYNRKTSRVYKYCSKLSEVFEQEIDPVMQSLGYCCGRKLEFSPQTLCCYGKQLCTIPRDATYYSYQNRYHFCEKCFNEIQGESVSLGDDPSQPQTTINKEQFSKRKNDTLDPELFVECTECGRKMHQICVLHHEIIWPAGFVCDGCLKKSARTRKENKFSAKRLPSTRLGTFLENRVNDFLRRQNHPESGEVTVRVVHASDKTVEVKPGMKARFVDSGEMAESFPYRTKALFAFEEIDGVDLCFFGMHVQEYGSDCPPPNQRRVYISYLDSVHFFRPKCLRTAVYHEILIGYLEYVKKLGYTTGHIWACPPSEGDDYIFHCHPPDQKIPKPKRLQEWFKKMLDKAVSERIVHDYKDIFKQATEDRLTSAKELPYFEGDFWPNVLEESIKELEQEEEERKREENTPGMPNVSNDLSQKLYATMEKHKEVFFVIRLIAGPAANSLPPIVDPDPLIPCDLMDGRDAFLTLARDKHLEFSSLRRAQWSTMCMLVELHTQSQD AKKIFKPEELRQALMPTLEALYRQDPESLPFRQPVDPQLLGIPDYFDIVKSPMDLSTIKRKLDTGQYQEPWQYVDDIWLMFNNAWLYNRKTSRVYKYCSKLSEVFEQEIDPVMQSLGYCCGRKLEFSPQTLCCYGKQLCTIPRDATYYSYQNRYHFCEKCFNEIQGESVSLGDDPSQPQTTINKEQFSKRKNDTLDPELFVECTECGRKMHQICVLHHEIIWPAGFVCDGCLKKSARTRKENKFSAKRLPSTRLGTFLENRVNDFLRRQNHPESGEVTVRVVHASDKTVEVKPGMKARFVDSGEMAESFPYRTKALFAFEEIDGVDLCFFGMHVQEYGSDCPPPNQRRVYISYLDSVHFFRPKCLRTAVYHEILIGYLEYVKKLGYTTGHIWACPPSEGDDYIFHCHPPDQKIPKPKRLQEWFKKMLDKAVSERIVHDYKDIFKQATEDRLTSAKELPYFEGDFWPNVLEESIKELEQEEEERKREENTKPGMPNVSNDLSQKLYATMEKHKEVFFVIRLIAGPAANSLPPIVDPDPLIPCDLMDGRDAFLTLARDKHLEFSSLRRAQWSTMCMLVELHTQSQD 6gys-a1-m1-cE_6gys-a1-m1-cL Cryo-EM structure of the CBF3-CEN3 complex of the budding yeast kinetochore P32504 P32504 4.4 ELECTRON MICROSCOPY 14 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 506 506 EDRFQELVDSLKPRTAHQYKTYYTKYIQWCQLNQIIPTNSVPYKDLPISAELIHWFLLDTLITDDKPGEKREETEDLDEEEENSFKIATLKKIIGSLNFLSKLCKVHENPNANIDTKYLESVTKLHTHWIDSQKAITTNETNNTNTQVLCPPLLKVSLNLWNPETNHLSEKFFKTCSEKLRFLVDFQLRSYLNLSFEERSKIRFGSLKLGKRDRDAIIYHKVTHSAEKKDTPGHHQLLALLPQDCPFICPQTTLAAYLYLRFYGIPSVSKGDGFPNLNADENGSLLQDIPILRGKSLTTYPREETFSNYYTTVFRYCHLPYKRREYFNKCNLVYPTWDEDTFRTFFNEENHGNWLEQPEAFAFPDKIPFDFKKIMNFKSPYTSYSTNAKKDPFPPPKDLLVQIFPEIDEYKRHDYEGLSQNSRDFLDLMEVLRERFLSNLPWIYKFFPNHDIFQDPIFGNSDFQSYFNDKTIHSKGSPILSFDILPGFNKIYKNKTNFYSLLIERP EDRFQELVDSLKPRTAHQYKTYYTKYIQWCQLNQIIPTNSVPYKDLPISAELIHWFLLDTLITDDKPGEKREETEDLDEEEENSFKIATLKKIIGSLNFLSKLCKVHENPNANIDTKYLESVTKLHTHWIDSQKAITTNETNNTNTQVLCPPLLKVSLNLWNPETNHLSEKFFKTCSEKLRFLVDFQLRSYLNLSFEERSKIRFGSLKLGKRDRDAIIYHKVTHSAEKKDTPGHHQLLALLPQDCPFICPQTTLAAYLYLRFYGIPSVSKGDGFPNLNADENGSLLQDIPILRGKSLTTYPREETFSNYYTTVFRYCHLPYKRREYFNKCNLVYPTWDEDTFRTFFNEENHGNWLEQPEAFAFPDKIPFDFKKIMNFKSPYTSYSTNAKKDPFPPPKDLLVQIFPEIDEYKRHDYEGLSQNSRDFLDLMEVLRERFLSNLPWIYKFFPNHDIFQDPIFGNSDFQSYFNDKTIHSKGSPILSFDILPGFNKIYKNKTNFYSLLIERP 6gyt-a1-m1-cA_6gyt-a1-m1-cB Transcription factor dimerization activates the p300 acetyltransferase Q09472 Q09472 2.5 X-RAY DIFFRACTION 35 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 161 168 KIFKPEELRQALMPTLEALYRQDPESLPFRQPVDPQLLGIPDYFDIVKSPMDLSTIKRKLDTGQYQEPWQYVDDIWLMFNNAWLYNRKTSRVYKYCSKLSEVFEQEIDPVMQSLGYCCGRKLGELFVECTECGRKMHQICVLHHEIIWPAGFVCDGCLKKS AGKAFKPEELRQALMPTLEALYRQDPESLPFRQPVDPQLLGIPDYFDIVKSPMDLSTIKRKLDTGQYQEPWQYVDDIWLMFNNAWLYNRKTSAVYKYCSKLSEVFEQEIDPVMQSLGYCCGRKLGELFVECTECGRKMHQICVLHHEIIWPAGFVCDGCLKKSARTRK 6gyw-a1-m1-cA_6gyw-a1-m1-cB Crystal structure of DacA from Staphylococcus aureus 1.7 X-RAY DIFFRACTION 63 0.993 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 150 151 6gyx-a1-m1-cA_6gyx-a1-m1-cB 6gyy-a1-m1-cA_6gyy-a1-m1-cB YSKDEEKLIQSVSKAVQYMAKRRIGALIVFEKETGLQDYIETGIAMDSNISQELLINVFIPNTPLHDGAMIIQGTKIAAAASYLPLSDSPKISSLGTRHRAAVGISEVSDAFTVIVSEETGDISVTFDGKLRRDISNEIFEELLAEHWFG SKDEEKLIQSVSKAVQYMAKRRIGALIVFEKETGLQDYIETGIAMDSNISQELLINVFIPNTPLHDGAMIIQGTKIAAAASYLPLSDSPKISKSLGTRHRAAVGISEVSDAFTVIVSEETGDISVTFDGKLRRDISNEIFEELLAEHWFGT 6gyz-a1-m1-cB_6gyz-a1-m1-cA Crystal structure of GlmM from Staphylococcus aureus A0A0D6H967 A0A0D6H967 3 X-RAY DIFFRACTION 107 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 446 447 KYFGTDGVRGVANQELTPELAFKLGRYGGYVLAHNKGEPRVLVGRDTRVSGEMLESALIAGLISIGAEVMRLGIISTPGVAYLTRDMGAELGVMISASHNPVADNGIKFFGSDGFKLSDEQENEIEALLDQENPELPRPVGNDIVHYSDYFEGAQKYLSYLKSTVDVNFEGLKIALDGANGSTSSLAPFLFGDLEADTETIGCSPDGYNINEKCGSTHPEKLAEKVVETESDFGLAFDGDGDRIIAVDENGQIVDGDQIMFIIGQEMHKNQELNNDMIVSTVMSNLGFYKALEQEGIKSNKTKVGDRYVVEEMRRGNYNLGGEQSGHIVMMDYNTTGDGLLTGIQLASVIKMTGKSLSELAGQMKKYPQSLINVRVTDKYRVEENVDVKEVMTKVEVEMNGEGRILVRPSGTEPLVRVMVEAATDEDAERFAQQIADVVQDKMGLD KYFGTDGVRGVANQELTPELAFKLGRYGGYVLAHNKGEPRVLVGRDTRVSGEMLESALIAGLISIGAEVMRLGIISTPGVAYLTRDMGAELGVMISASHNPVADNGIKFFGSDGFKLSDEQENEIEALLDQENPELPRPVGNDIVHYSDYFEGAQKYLSYLKSTVDVNFEGLKIALDGANGSTSSLAPFLFGDLEADTETIGCSPDGYNINEKCGSTHPEKLAEKVVETESDFGLAFDGDGDRIIAVDENGQIVDGDQIMFIIGQEMHKNQELNNDMIVSTVMSNLGFYKALEQEGIKSNKTKVGDRYVVEEMRRGNYNLGGEQSGHIVMMDYNTTGDGLLTGIQLASVIKMTGKSLSELAGQMKKYPQSLINVRVTDKYRVEENVDVKEVMTKVEVEMNGEGRILVRPSGTEPLVRVMVEAATDEDAERFAQQIADVVQDKMGLDK 6gz1-a1-m1-cA_6gz1-a1-m2-cA Crystal Structure of the LeuO Effector Binding Domain P10151 P10151 1.74 X-RAY DIFFRACTION 123 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 193 193 6gz0-a1-m1-cA_6gz0-a1-m2-cA 6gz2-a1-m1-cA_6gz2-a1-m2-cA RVFHLCVCDPLDSILTSQIYNHIEQIAPNIHVMFKSSLNQETEFVISYEDFHFTSVPLFKDEMVLVASKNHPTIKGPLLKHDVYNEQHAAVSLDRFASFSQPWYDTVDKQASIAYQGMAMMSVLSVVSQTHLVAIAPRWLAEEFAESLELQVLPLPLKQNSRTCYLSWHEAAGRDKGHQWMEEQLVSICKRLE RVFHLCVCDPLDSILTSQIYNHIEQIAPNIHVMFKSSLNQETEFVISYEDFHFTSVPLFKDEMVLVASKNHPTIKGPLLKHDVYNEQHAAVSLDRFASFSQPWYDTVDKQASIAYQGMAMMSVLSVVSQTHLVAIAPRWLAEEFAESLELQVLPLPLKQNSRTCYLSWHEAAGRDKGHQWMEEQLVSICKRLE 6gzc-a1-m1-cC_6gzc-a1-m1-cA heterotetrameric katanin p60:p80 complex Q8BG40 Q8BG40 2 X-RAY DIFFRACTION 96 0.988 10090 (Mus musculus) 10090 (Mus musculus) 162 165 LVDEDAMSQIRKGHDTMFVVLTSRHKNLDTVRAVWTTGDIKTSVDSAVAINDLSVVVDLLNIVNQKASLWALDLCTTVLPQIEKLLQSKYESYVQTGCTSLKLILQAFLPLITDILAAVDISREERLHKCRLCFKQLKSISGLVKSKSGGSAFRELHLLMAS VDEDAMSQIRKGHDTMFVVLTSRHKNLDTVRAVWTTGDIKTSVDSAVAINDLSVVVDLLNIVNQKASLWALDLCTTVLPQIEKLLQSKYESYVQTGCTSLKLILQAFLPLITDILAAPDISREERLHKCRLCFKQLKSISGLVKSKSGLSGSAFRELHLLMASLD 6gzf-a1-m1-cB_6gzf-a1-m1-cA Xi Class GST from Natrialba magadii D3SS28 D3SS28 2.614 X-RAY DIFFRACTION 68 0.991 547559 (Natrialba magadii ATCC 43099) 547559 (Natrialba magadii ATCC 43099) 320 327 HHHHHHMNMLVDGEWRTDAFERQATTFRNWVQDDSDARFQPEAGRYHLYVSYACPWAHRTLVTRTLKGLEDAISVSVVDPYRAEDGWQFTPEKEGCTHDHVHDVDYLRELYVRAAPDVTCRVTVPVLWDTEEDTIVNNESEEIMRMFDTEFDEFADHTVDLYPEGYQEKVDQIIDNIYEPINNGVYRAGFATEQEPYDEAVAELFGALAHWDDVLADQRYLAGDRLTEADIAMFTTLVRFDNVYHTHFMCNVQYIREFDNLWPYLRDLYQTHGIAETVEMDHITEHYYTTHPDVNPHRIVARGPDLDFEAPHSRDELAGE MHHHHHHMNMLVDGEWRTDAHELTAGDGSFERQATTFRNWVQDDSDARFQPEAGRYHLYVSYACPWAHRTLVTRTLKGLEDAISVSVVDPYRAEDGWQFTPEKEGCTHDHVHDVDYLRELYVRAAPDVTCRVTVPVLWDTEEDTIVNNESEEIMRMFDTEFDEFADHTVDLYPEGYQEKVDQIIDNIYEPINNGVYRAGFATEQEPYDEAVAELFGALAHWDDVLADQRYLAGDRLTEADIAMFTTLVRFDNVYHTHFMCNVQYIREFDNLWPYLRDLYQTHGIAETVEMDHITEHYYTTHPDVNPHRIVARGPDLDFEAPHSRDEL 6gzw-a1-m1-cA_6gzw-a1-m1-cB Ferric DtpA from Streptomyces lividans 1.41 X-RAY DIFFRACTION 197 0.997 1200984 (Streptomyces lividans 1326) 1200984 (Streptomyces lividans 1326) 369 370 4gt2-a1-m1-cB_4gt2-a1-m1-cA 4gt2-a2-m1-cG_4gt2-a2-m1-cE 5map-a1-m1-cA_5map-a1-m1-cB 5mjh-a1-m1-cA_5mjh-a1-m1-cB ATPLTSLGSEQAMFHGKHQPGITTPQARGHLVAFDLAAGAGRKEAAALLRRWSDTARRLMAGEPAGSRDTDVARDAGPSSLTVTFGFGHSFFGRTGLEKQRPVALDPLPDFSSDHLDKNRSNGDLWVQIGADDALVAFHALRAIQRDAGAAARVRWQMNGFNRSPGATAHPMTARNLMGQVDGTRNPKPGEADFDRRIFVPEGPAWMANGSYVVVRRIRMLLDDWEELSLKAQEDVIGRRKSDGAPLSGGSGATESTEMDLEKTDGSGELVVPINAHARITRPDQNGGAAMVRRPFSYHDGFDADGVPDAGLLFVCWQADPLRGFVPVQRKLDRGDALSQFIRHEASGLFAVPGGAAEGEYVGQRLLEG ATPLTSLGSEQAMFHGKHQPGITTPMQARGHLVAFDLAAGAGRKEAAALLRRWSDTARRLMAGEPAGSRDTDVARDAGPSSLTVTFGFGHSFFGRTGLEKQRPVALDPLPDFSSDHLDKNRSNGDLWVQIGADDALVAFHALRAIQRDAGAAARVRWQMNGFNRSPGATAHPMTARNLMGQVDGTRNPKPGEADFDRRIFVPEPPAWMANGSYVVVRRIRMLLDDWEELSLKAQEDVIGRRKSDGAPLSGGSGATESTEMDLEKTDGSGELVVPINAHARITRPDQNGGAAMVRRPFSYHDGFDADGVPDAGLLFVCWQADPLRGFVPVQRKLDRGDALSQFIRHEASGLFAVPGGAAEGEYVGQRLLEG 6gzx-a1-m1-cW4_6gzx-a1-m1-cX3 T. thermophilus hibernating 100S ribosome (ice) Q5SIS0 Q5SIS0 4.57 ELECTRON MICROSCOPY 175 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 57 57 PRIVRVKRFEMKPMDPEEAAFQMEALGHSFFVFRNAKTDEINVIYRRKDGNYGLIEP PRIVRVKRFEMKPMDPEEAAFQMEALGHSFFVFRNAKTDEINVIYRRKDGNYGLIEP 6gzz-a1-m1-cW4_6gzz-a1-m1-cX3 T. thermophilus hibernating 100S ribosome (amc) Q5SIS0 Q5SIS0 4.13 ELECTRON MICROSCOPY 78 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 57 57 PRIVRVKRFEMKPMDPEEAAFQMEALGHSFFVFRNAKTDEINVIYRRKDGNYGLIEP PRIVRVKRFEMKPMDPEEAAFQMEALGHSFFVFRNAKTDEINVIYRRKDGNYGLIEP 6h00-a1-m1-cA_6h00-a1-m2-cA Crystal structure of human pyridoxine 5-phophate oxidase, R116Q variant Q9NVS9 Q9NVS9 1.66 X-RAY DIFFRACTION 178 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 1nrg-a1-m1-cA_1nrg-a1-m2-cA 3hy8-a1-m1-cA_3hy8-a1-m2-cA THLTSLDPVKQFAAWFEEAVQCPDIGEANAMCLATCTRDGKPSARMLLLKGFGKDGFRFFTNFESQKGKELDSNPFASLVFYWEPLNRQVRVEGPVKKLPEEEAECYFHSRPKSSQIGAVVSHQSSVIPDREYLRKKNEELEQLYQDQEVPKPKSWGGYVLYPQVMEFWQGQTNRLHDRIVFRRGLGPMTHRGEEDWLYERLAP THLTSLDPVKQFAAWFEEAVQCPDIGEANAMCLATCTRDGKPSARMLLLKGFGKDGFRFFTNFESQKGKELDSNPFASLVFYWEPLNRQVRVEGPVKKLPEEEAECYFHSRPKSSQIGAVVSHQSSVIPDREYLRKKNEELEQLYQDQEVPKPKSWGGYVLYPQVMEFWQGQTNRLHDRIVFRRGLGPMTHRGEEDWLYERLAP 6h0n-a1-m1-cB_6h0n-a1-m1-cA The structure of wild-type Arabidopsis thaliana UDP-apiose/UDP-xylose synthase in complex with NAD+ and UDP Q9ZUY6 Q9ZUY6 3.02 X-RAY DIFFRACTION 128 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 370 377 6h0p-a1-m1-cB_6h0p-a1-m1-cA RVDLDGKPIQPLTICMIGAGGFIGSHLCEKLLTETPHKVLALDVYNDKIKHLLERIQFHRINIKHDSRLEGLVKMADLIINLAAICTPADYNTRPLDTIYSNFIDALPVVKYCSENNKRLIHFSTCEVYGKTIGSFLPKDHPLRDDPAFYVLKEDISPCIFGSIEKQRWSYACAKQLIERLVYAEGAENGLEFTIVRPFNWIGPRMDFIPGIDGPSEGVPRVLACFSNNLLRREPLKLVDGGESQRTFVYINDAIEAVLLMIENPERANGHIFNVGNPNNEVTVRQLAEMMTEVYAKVSGEGAIESPTVDVSSKEFYGEGYDDSDKRIPDMTIINRQLGWNPKTSLWDLLESTLTYQHRTYAEAVKKATS VDLDGKPIQPLTICMIGAGGFIGSHLCEKLLTETPHKVLALDVYNDKIKHLLEPDTVEWSGRIQFHRINIKHDSRLEGLVKMADLIINLAAICTPADYNTRPLDTIYSNFIDALPVVKYCSENNKRLIHFSTCEVYGKTIGSFLPKDHPLRDDPAFYVLKEDISPCIFGSIEKQRWSYACAKQLIERLVYAEGAENGLEFTIVRPFNWIGPRMDFIPGIDGPSEGVPRVLACFSNNLLRREPLKLVDGGESQRTFVYINDAIEAVLLMIENPERANGHIFNVGNPNNEVTVRQLAEMMTEVYAKVSGEGAIESPTVDVSSKEFYGEGYDDSDKRIPDMTIINRQLGWNPKTSLWDLLESTLTYQHRTYAEAVKKATS 6h1w-a1-m1-cA_6h1w-a1-m1-cB Crystal Structure of protein MJ1004 from Mathanocaldococcus jannaschii Q58410 Q58410 2.394 X-RAY DIFFRACTION 119 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 198 203 KVRDLDKNFAKIYVDETVEDAINLLKKKKRFSAPIVDKEDRLVGWVTTLELLGISEKDFKKPITEFRPVEEVITVYEDDEARNVVLKFVKYKVVSIPVLTRDGRVIGVRNCDVVKTLAKLYEIPVYKIFKELHNHIGDISWEELEAAAVVTKRTGEDITPQEYEERIKKTTFGKAIWACGGLEKFFVGLIEIGVALAR KVRDLDKNFAKIYVDETVEDAINLLKKKKRFSAPIVDKEDRLVGWVTTLELLGISEKDFKKPITEFRPVEEVITVYEDDEARNVVLKFVKYKVVSIPVLTRDGRVIGVRNCDVVKTLAKLYEIPVYKIFKELHNHIGDISWEELEAAAVVTKRTGEDITPQEYEERIKKTTFGKAIWACGGLEKFFVGLIEIGVALARKLAKR 6h26-a1-m1-cA_6h26-a1-m2-cA Rabbit muscle phosphoglycerate mutase G1U7S4 G1U7S4 1.288 X-RAY DIFFRACTION 28 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 243 243 ATHRLVMVRHGESTWNQENRFCGWFDAELSEKGAEEAKRGAVAIKDAKMEFDICYTSVLKRAIRTLWTILDGTDQMWLPVVRTWRLNERHYGGLTGLNKAETAAKHGEEQVKIWRRSFDIPPPPMDEKHPYYTSISKERRYAGLKPGELPTCESLKDTIARALPFWNEEIAPQIKAGKRVLIAAHGNSLRGIVKHLEGMSDQAIMELNLPTGIPIVYELDQALKPTKPMRFLGDEETVRKAME ATHRLVMVRHGESTWNQENRFCGWFDAELSEKGAEEAKRGAVAIKDAKMEFDICYTSVLKRAIRTLWTILDGTDQMWLPVVRTWRLNERHYGGLTGLNKAETAAKHGEEQVKIWRRSFDIPPPPMDEKHPYYTSISKERRYAGLKPGELPTCESLKDTIARALPFWNEEIAPQIKAGKRVLIAAHGNSLRGIVKHLEGMSDQAIMELNLPTGIPIVYELDQALKPTKPMRFLGDEETVRKAME 6h2d-a1-m1-cQ_6h2d-a1-m1-cS Structure of the soluble AhlC of the tripartite alpha-pore forming toxin, AHL, from Aeromonas hydrophila. A0KLE2 A0KLE2 2.62 X-RAY DIFFRACTION 42 0.99 197 224 ILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLVQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIANFFTAALTEVRTLQVDA ILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLLGGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIAELARLFFTAALTEVRTLQVDA 6h2d-a1-m1-cR_6h2d-a1-m1-cP Structure of the soluble AhlC of the tripartite alpha-pore forming toxin, AHL, from Aeromonas hydrophila. A0KLE2 A0KLE2 2.62 X-RAY DIFFRACTION 42 0.994 177 215 ILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLG ILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQLQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLPGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLRLFFTAALTEVRTLQVD 6h2d-a1-m1-cR_6h2d-a1-m1-cS Structure of the soluble AhlC of the tripartite alpha-pore forming toxin, AHL, from Aeromonas hydrophila. A0KLE2 A0KLE2 2.62 X-RAY DIFFRACTION 80 1.0 177 224 ILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLG ILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLLGGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIAELARLFFTAALTEVRTLQVDA 6h2l-a1-m1-cA_6h2l-a1-m1-cB Receptor-binding domain of Proteus mirabilis Uroepithelial Cell Adhesin UcaD21-217 B4EV65 B4EV65 1.5 X-RAY DIFFRACTION 55 1.0 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 190 201 GANDHVPSPITINTSTLPVVVIGPAHTYPRVIGELTGTSNQYIFNGGSLIALMRGKFTPTLPKIGKITYNFRQQSSDFDIFDTGVPGLGIIIGMAGYWPATPLVPINSSSIYIDPVAANTNPNAYNGATGSFGARLYVAFVATGRLPNGYVTIPTKQLGHILLESNRASLNNKRLTAPVMLNGGRIQVQS GANDHVPSPITINTSTLPVVVIGPADAHTYPRVIGELTGTSNQYIFNGGSLIALMRGKFTPTLPKIGKITYNFRQTQSSDFDIFDTGVPGLGIIIGMAGYWPATPLVPINSSSIYIDPVAANTNPNAYNGATGSFGARLYVAFVATGRLPNGYVTIPTKQLGHILLESNRASLNNKRLTAPVMLNGGRIQVQSQAHHHHHH 6h3d-a1-m1-cA_6h3d-a1-m2-cA Staphylopine dehydrogenase in complex with xNA A0A0H3JT80 A0A0H3JT80 2.05 X-RAY DIFFRACTION 87 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 428 428 6c4r-a1-m1-cA_6c4r-a1-m2-cA 6c4t-a1-m1-cA_6c4t-a1-m2-cA 6gmz-a1-m1-cA_6gmz-a1-m2-cA 6h31-a1-m1-cA_6h31-a1-m1-cB 6h3f-a1-m1-cA_6h3f-a1-m2-cA SKLLMIGTGPVAIQLANICYLKSDYEIDMVGRASTSEKSKRLYQAYKKEKQFEVKIQNEAHQHLEGKFEINRLYKDVKNVKGEYETVVMACTADAYYDTLQQLSLETLQSVKHVILISPTFGSQMIVEQFMSKFSQDIEVISFSTYLGDTRIVDKEAPNHVLTTGVKKKLYMGSTHSNSTMCQRISALAEQLKIQLEVVESPLHAETRNSSLYVHPPLFMNDFSLKAIFEGTDVPVYVYKLFPEGPITMTLIREMRLMWKEMMAILQAFRVPSVNLLQFMVKENYPVRPETLDEGDIEHFEILPDILQEYLLYVRYTAILIDPFSQPDENGHYFDFSAVPFKQVYKNEQDVVQIPRMPSEDYYRTAMIQHIGKMLGIKTPMIDQFLTRYEASCQAYKDMHQDQQLSSQFNTNLFEGDKALVTKFLEIN SKLLMIGTGPVAIQLANICYLKSDYEIDMVGRASTSEKSKRLYQAYKKEKQFEVKIQNEAHQHLEGKFEINRLYKDVKNVKGEYETVVMACTADAYYDTLQQLSLETLQSVKHVILISPTFGSQMIVEQFMSKFSQDIEVISFSTYLGDTRIVDKEAPNHVLTTGVKKKLYMGSTHSNSTMCQRISALAEQLKIQLEVVESPLHAETRNSSLYVHPPLFMNDFSLKAIFEGTDVPVYVYKLFPEGPITMTLIREMRLMWKEMMAILQAFRVPSVNLLQFMVKENYPVRPETLDEGDIEHFEILPDILQEYLLYVRYTAILIDPFSQPDENGHYFDFSAVPFKQVYKNEQDVVQIPRMPSEDYYRTAMIQHIGKMLGIKTPMIDQFLTRYEASCQAYKDMHQDQQLSSQFNTNLFEGDKALVTKFLEIN 6h3p-a1-m1-cA_6h3p-a1-m1-cB Crystal structure of the cytoplasmic chorismate mutase from Zea mays B4FUP5 B4FUP5 2.7 X-RAY DIFFRACTION 96 1.0 4577 (Zea mays) 4577 (Zea mays) 245 245 LSLAAVRDALVRLEDSVVFALIERARHPRNAPAYAPAATAGEHSLVEFFVREAEALNAKAGHYQKPEDVPFFPQDLPSPLFPTKPSPKVLHPFASLVTVNDAIWKMYFDELLPLFTVDGDDASYAQTVALDLACLQVLSQRIHIGKYVAEVKFKDAPQEYSRLIKEKDSNSLMDMLTFKAVEEKVKKRVEKKARTFGQNVTLDDNATAGDSECKVDPKVLSKLYDQWVMPLTKDVEVEYLLRRLD LSLAAVRDALVRLEDSVVFALIERARHPRNAPAYAPAATAGEHSLVEFFVREAEALNAKAGHYQKPEDVPFFPQDLPSPLFPTKPSPKVLHPFASLVTVNDAIWKMYFDELLPLFTVDGDDASYAQTVALDLACLQVLSQRIHIGKYVAEVKFKDAPQEYSRLIKEKDSNSLMDMLTFKAVEEKVKKRVEKKARTFGQNVTLDDNATAGDSECKVDPKVLSKLYDQWVMPLTKDVEVEYLLRRLD 6h3v-a1-m2-cA_6h3v-a1-m3-cA Bunyamwera Virus Glycoprotein Gc Head Domain P04505 P04505 2.9 X-RAY DIFFRACTION 59 1.0 35304 (Bunyamwera virus) 35304 (Bunyamwera virus) 240 240 6h3v-a1-m1-cA_6h3v-a1-m2-cA 6h3v-a1-m1-cA_6h3v-a1-m3-cA EEDCWKNEELKEDCVGPLIAPKDCTDKDHKTYLSEASLLATAKKITQVDAENVEILGKTMESAIRVIERQKTYHRMHLLEAVFLNKHCDYYKMFEHNSGYSQVKWRMMIKTQHFDICALQANSPFCAQCIADNSCAQGSWEFDTHMNSTYSSKVDNFKHDFSLFLRIFEAAFPGTAYVHLLTNIKEKKPYQAVSMIEKIKKKFPNNKLLIGYLDFGKYLLGLSHASTYELQQRQLDKLYQ EEDCWKNEELKEDCVGPLIAPKDCTDKDHKTYLSEASLLATAKKITQVDAENVEILGKTMESAIRVIERQKTYHRMHLLEAVFLNKHCDYYKMFEHNSGYSQVKWRMMIKTQHFDICALQANSPFCAQCIADNSCAQGSWEFDTHMNSTYSSKVDNFKHDFSLFLRIFEAAFPGTAYVHLLTNIKEKKPYQAVSMIEKIKKKFPNNKLLIGYLDFGKYLLGLSHASTYELQQRQLDKLYQ 6h3w-a1-m2-cA_6h3w-a1-m3-cA La Crosse Virus Glycoprotein Gc Head Domain Q8JPR1 Q8JPR1 2.098 X-RAY DIFFRACTION 46 1.0 796210 (La Crosse virus L78) 796210 (La Crosse virus L78) 246 246 6h3w-a1-m1-cA_6h3w-a1-m2-cA 6h3w-a1-m1-cA_6h3w-a1-m3-cA GGGDFTTCLETESINWNCTGPFLNLGNCQKQQKKEPYTNIATQLKGLKAISVLDVPIITGIPDDIAGALRYIEEKEDFHVQLTIEYAMLSKYCDYYTQFSDNSGYSQTTWRVYLRSHDFEACILYPNQHFCRCVKNGEKCSSSNWDFANEMKDYYSGKQTKFDKDLNLALTALHHAFRGTSSAYIATMLSKKSNDDLIAYTNKIKTKFPGNALLKAIIDYIAYMKSLPGMANFKYDEFWDELLYKP GGGDFTTCLETESINWNCTGPFLNLGNCQKQQKKEPYTNIATQLKGLKAISVLDVPIITGIPDDIAGALRYIEEKEDFHVQLTIEYAMLSKYCDYYTQFSDNSGYSQTTWRVYLRSHDFEACILYPNQHFCRCVKNGEKCSSSNWDFANEMKDYYSGKQTKFDKDLNLALTALHHAFRGTSSAYIATMLSKKSNDDLIAYTNKIKTKFPGNALLKAIIDYIAYMKSLPGMANFKYDEFWDELLYKP 6h40-a1-m1-cA_6h40-a1-m2-cA High resolution structure of MeT1 from Mycobacterium hassiacum in complex with 3-methoxy-1,2-propanediol. K5B7F3 K5B7F3 1.053 X-RAY DIFFRACTION 84 1.0 1122247 (Mycolicibacterium hassiacum DSM 44199) 1122247 (Mycolicibacterium hassiacum DSM 44199) 220 220 6g7d-a1-m1-cA_6g7d-a1-m2-cA 6g80-a1-m1-cA_6g80-a1-m1-cB 6g80-a2-m1-cC_6g80-a2-m2-cM TDIRDTDALFALADRVTGFMPADEGRTLYETAVRYLGDGVGVEIGTYCGKSTVLLGAAARQTGGVVFTVDHHHGSEEHQPGWEYHDPSLVDPVTGLFDTLPRLRHTLDEADLYDHVVAVVGKSAVVARGWRTPLRFLFIDGGHTEEAAQRDFDGWARWVEVGGALVIHDVFPDPKDGGQAPFHIYQRALNTGDFREVNAYGSMRVLERTSGIAGQPLKLA TDIRDTDALFALADRVTGFMPADEGRTLYETAVRYLGDGVGVEIGTYCGKSTVLLGAAARQTGGVVFTVDHHHGSEEHQPGWEYHDPSLVDPVTGLFDTLPRLRHTLDEADLYDHVVAVVGKSAVVARGWRTPLRFLFIDGGHTEEAAQRDFDGWARWVEVGGALVIHDVFPDPKDGGQAPFHIYQRALNTGDFREVNAYGSMRVLERTSGIAGQPLKLA 6h4e-a1-m1-cB_6h4e-a1-m2-cB Proteus mirabilis N-acetylneuraminate lyase B4EZY4 B4EZY4 1.561 X-RAY DIFFRACTION 83 1.0 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 295 295 6h4e-a1-m1-cA_6h4e-a1-m2-cA NKLSGLIAAPHTPFAADGSVNYPVIDDIAKHLIATGVTGAYVLGTTGEGIHCSVEERKKVAERWVTASQGQLDLIIHTGALSIADTLELARHAETLDIKATSVIGPCFFKPSHVDDLVEYCRLAAASAPSKGFYYYHSTMSGLSIDMEKFLQAAGKVIPNLSGMKFNSPDMYEFQRCLRVEGGKYDIPFGVDEFIPAGLACGALSAVGSTYNYAAPLYLELIEKFNQGDHQGVADCMDKVIAIIRVLVEYGGVAAGKVAMQLHGIDVGAPRRPLRPLTAEQKADALAKFKAANFL NKLSGLIAAPHTPFAADGSVNYPVIDDIAKHLIATGVTGAYVLGTTGEGIHCSVEERKKVAERWVTASQGQLDLIIHTGALSIADTLELARHAETLDIKATSVIGPCFFKPSHVDDLVEYCRLAAASAPSKGFYYYHSTMSGLSIDMEKFLQAAGKVIPNLSGMKFNSPDMYEFQRCLRVEGGKYDIPFGVDEFIPAGLACGALSAVGSTYNYAAPLYLELIEKFNQGDHQGVADCMDKVIAIIRVLVEYGGVAAGKVAMQLHGIDVGAPRRPLRPLTAEQKADALAKFKAANFL 6h4e-a1-m2-cA_6h4e-a1-m2-cB Proteus mirabilis N-acetylneuraminate lyase B4EZY4 B4EZY4 1.561 X-RAY DIFFRACTION 68 1.0 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 295 295 6h4e-a1-m1-cA_6h4e-a1-m1-cB NKLSGLIAAPHTPFAADGSVNYPVIDDIAKHLIATGVTGAYVLGTTGEGIHCSVEERKKVAERWVTASQGQLDLIIHTGALSIADTLELARHAETLDIKATSVIGPCFFKPSHVDDLVEYCRLAAASAPSKGFYYYHSTMSGLSIDMEKFLQAAGKVIPNLSGMKFNSPDMYEFQRCLRVEGGKYDIPFGVDEFIPAGLACGALSAVGSTYNYAAPLYLELIEKFNQGDHQGVADCMDKVIAIIRVLVEYGGVAAGKVAMQLHGIDVGAPRRPLRPLTAEQKADALAKFKAANFL NKLSGLIAAPHTPFAADGSVNYPVIDDIAKHLIATGVTGAYVLGTTGEGIHCSVEERKKVAERWVTASQGQLDLIIHTGALSIADTLELARHAETLDIKATSVIGPCFFKPSHVDDLVEYCRLAAASAPSKGFYYYHSTMSGLSIDMEKFLQAAGKVIPNLSGMKFNSPDMYEFQRCLRVEGGKYDIPFGVDEFIPAGLACGALSAVGSTYNYAAPLYLELIEKFNQGDHQGVADCMDKVIAIIRVLVEYGGVAAGKVAMQLHGIDVGAPRRPLRPLTAEQKADALAKFKAANFL 6h56-a1-m1-cB_6h56-a1-m1-cA Effector domain of Pseudomonas aeruginosa VgrG2b Q9I6M7 Q9I6M7 3.2 X-RAY DIFFRACTION 58 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 179 181 ASAVAGIAAAVGAAVAVGKLLGGPDAEAGRALSEGEISLAKGVFGDSIDYSTVRLRDEDYVPWQGKDYVMAPNGHIYFGEELRGVADWSLESLQRQGLFIHEMTHVWQHQHGVNVLLVGAYQQARQFLLGDQYAYRLEPGKTLKDYNIEQQGDIVRDYFLAANAFGEASANSRFAGVLK SPASAVAGIAAAVGAAVAVGKLLGGPDAEAGRALSEGEISLAKGVFGDSIDYSTVRLRDEDYVPWQGKDYVMAPNGHIYFGEELRGVADWSLESLQRQGLFIHEMTHVWQHQHGVNVLLVGAYQQARQFLLGDQYAYRLEPGKTLKDYNIEQQGDIVRDYFLAANAFGEASANSRFAGVLK 6h59-a1-m1-cB_6h59-a1-m1-cA Crystal structure of Mycobacterium tuberculosis phosphatidylinositol phosphate synthase (PgsA1) with CDP-DAG bound P9WPG7 P9WPG7 1.8 X-RAY DIFFRACTION 159 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 196 199 6h53-a1-m1-cA_6h53-a1-m1-cB ITTPIARGLLRVGLTPDVVTILGTTASVAGALTLFPMGKLFAGACVVWFFVLFDMLDGAMARERGGGTRFGAVLDATCDRISDGAVFCGLLWWIAFHMRDRPLVIATLICLVTSQVISYIKARAEASGLRGDGGFIERPERLIIVLTGAGVSDFPFVPWPPALSVGMWLLAVASVITCVQRLHTVWTSPGAIDRMA ARITTPIARGLLRVGLTPDVVTILGTTASVAGALTLFPMGKLFAGACVVWFFVLFDMLDGAMARERGGGTRFGAVLDATCDRISDGAVFCGLLWWIAFHMRDRPLVIATLICLVTSQVISYIKARAEASGLRGDGGFIERPERLIIVLTGAGVSDFPFVPWPPALSVGMWLLAVASVITCVQRLHTVWTSPGAIDRMAI 6h5j-a1-m1-cA_6h5j-a1-m2-cA Crystal structure of DHQ1 from Salmonella typhi covalently modified by ligand 4 P24670 P24670 1.4 X-RAY DIFFRACTION 68 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 252 252 1gqn-a1-m1-cA_1gqn-a1-m2-cA 1l9w-a1-m1-cA_1l9w-a1-m1-cB 1l9w-a2-m1-cC_1l9w-a2-m1-cD 1qfe-a1-m1-cA_1qfe-a1-m1-cB 4clm-a1-m1-cA_4clm-a1-m1-cB 4cnn-a1-m1-cA_4cnn-a1-m1-cB 4cno-a1-m2-cD_4cno-a1-m1-cC 4cno-a2-m1-cA_4cno-a2-m3-cB 4cno-a3-m1-cB_4cno-a3-m4-cA 4cno-a4-m1-cD_4cno-a4-m5-cC 4cnp-a1-m1-cA_4cnp-a1-m1-cB 4uio-a1-m1-cA_4uio-a1-m2-cA 6h5c-a1-m1-cA_6h5c-a1-m1-cB 6h5d-a1-m1-cA_6h5d-a1-m1-cB 6h5g-a1-m1-cA_6h5g-a1-m2-cA 6sfe-a1-m1-cA_6sfe-a1-m1-cB MKTVTVKNLIIGEGMPKIIVSLMGRDINSVKAEALAYREATFDILEWRVDHFMDIASTQSVLTAARVIRDAMPDIPLLFTFRSAKEGGEQTITTQHYLTLNRAAIDSGLVDMIDLELFTGDADVKATVDYAHAHNVYVVMSNHDFHQTPSAEEMVLRLRKMQALGADIPKIAVMPQSKHDVLTLLTATLEMQQHYADRPVITMSMAKEGVISRLAGEVFGSAATFGAVKQASAPGQIAVNDLRSVLMILHNA MKTVTVKNLIIGEGMPKIIVSLMGRDINSVKAEALAYREATFDILEWRVDHFMDIASTQSVLTAARVIRDAMPDIPLLFTFRSAKEGGEQTITTQHYLTLNRAAIDSGLVDMIDLELFTGDADVKATVDYAHAHNVYVVMSNHDFHQTPSAEEMVLRLRKMQALGADIPKIAVMPQSKHDVLTLLTATLEMQQHYADRPVITMSMAKEGVISRLAGEVFGSAATFGAVKQASAPGQIAVNDLRSVLMILHNA 6h5l-a1-m2-cB_6h5l-a1-m6-cB Kuenenia stuttgartiensis reducing HAO-like protein complex Kustc0457/Kustc0458 Q1PVE1 Q1PVE1 2.6 X-RAY DIFFRACTION 36 1.0 174633 (Candidatus Kuenenia stuttgartiensis) 174633 (Candidatus Kuenenia stuttgartiensis) 220 220 6h5l-a1-m1-cB_6h5l-a1-m4-cB 6h5l-a1-m3-cB_6h5l-a1-m5-cB IEIPKEVTEEGKNVYKKYCAPCHGEEGGGDGLLSRSMLPKPRNFTLGAYKFRTTPSGSLPTDEDIYRTISYGVPNSTMIPWDILTEEQRASVVPVLKSFSEAFEYREPEPSVDVGLPLRPTERTILAGKKIYEEKLECWKCHGVEGRGDGPSASEQEDDFGFPIKPFDFTTGKFKGGNSPTDVYLRFTTGLNGTPMPSFAKELSDDERWYLTHYVMSLVQ IEIPKEVTEEGKNVYKKYCAPCHGEEGGGDGLLSRSMLPKPRNFTLGAYKFRTTPSGSLPTDEDIYRTISYGVPNSTMIPWDILTEEQRASVVPVLKSFSEAFEYREPEPSVDVGLPLRPTERTILAGKKIYEEKLECWKCHGVEGRGDGPSASEQEDDFGFPIKPFDFTTGKFKGGNSPTDVYLRFTTGLNGTPMPSFAKELSDDERWYLTHYVMSLVQ 6h5l-a1-m5-cA_6h5l-a1-m6-cA Kuenenia stuttgartiensis reducing HAO-like protein complex Kustc0457/Kustc0458 A0A2C9CG41 A0A2C9CG41 2.6 X-RAY DIFFRACTION 150 1.0 174633 (Candidatus Kuenenia stuttgartiensis) 174633 (Candidatus Kuenenia stuttgartiensis) 506 506 6h5l-a1-m1-cA_6h5l-a1-m2-cA 6h5l-a1-m1-cA_6h5l-a1-m3-cA 6h5l-a1-m2-cA_6h5l-a1-m3-cA 6h5l-a1-m4-cA_6h5l-a1-m5-cA 6h5l-a1-m4-cA_6h5l-a1-m6-cA IPPPDLYKDTPAWYQAVYKDNVGLSEGSGPFTKYFKAQMLDMYWQPNRHYEPMENLDHSIFIEQERRDLCVICHEEATPGIVADWRSSGHKHPKSTPYLSSKTAQIEKNVGRVLDEVHCFDCHADTEKNQIRMPTGEVCGGCHRQQFDEFLREREVGRPNHLQSWEANTIVPWYAEAARRGYLYGQHGCDMCHSGAEKCDVCHTRHKFSAVEGRQPEACMTCHMGPDHPDAESYGESKHGKIYEKEEEHYDFTKPLVEVRPGEDYRTPTCQYCHMYEKHGRFIHNPVMKGIWRMGTVPPSNLEYTSSLKDYPYGIKIIADKIDIYSEENVAKRSYWLEVCAKCHSDRFADTYLKSLDQFMFQAHTLADQAQKIVEDLIADGLLYPDAANRDPYPLSDGIVKELSADFLGEPVYNAFKTLQGKFPVVGPILGVYGMFLQMQDNPSDIENMYNRLWFWYKLQGYKGTAHAQQDVSWWWGQAPMMMEMTRIQAEAARLRRLAGIEKTIS IPPPDLYKDTPAWYQAVYKDNVGLSEGSGPFTKYFKAQMLDMYWQPNRHYEPMENLDHSIFIEQERRDLCVICHEEATPGIVADWRSSGHKHPKSTPYLSSKTAQIEKNVGRVLDEVHCFDCHADTEKNQIRMPTGEVCGGCHRQQFDEFLREREVGRPNHLQSWEANTIVPWYAEAARRGYLYGQHGCDMCHSGAEKCDVCHTRHKFSAVEGRQPEACMTCHMGPDHPDAESYGESKHGKIYEKEEEHYDFTKPLVEVRPGEDYRTPTCQYCHMYEKHGRFIHNPVMKGIWRMGTVPPSNLEYTSSLKDYPYGIKIIADKIDIYSEENVAKRSYWLEVCAKCHSDRFADTYLKSLDQFMFQAHTLADQAQKIVEDLIADGLLYPDAANRDPYPLSDGIVKELSADFLGEPVYNAFKTLQGKFPVVGPILGVYGMFLQMQDNPSDIENMYNRLWFWYKLQGYKGTAHAQQDVSWWWGQAPMMMEMTRIQAEAARLRRLAGIEKTIS 6h62-a1-m1-cB_6h62-a1-m1-cA QTRT1, the catalytic subunit of murine tRNA-Guanine Transglycosylase Q9JMA2 Q9JMA2 2.684 X-RAY DIFFRACTION 59 0.997 10090 (Mus musculus) 10090 (Mus musculus) 366 370 SAPRIMRLVAECSRSGARAGELRLPHGTVATPVFMPVGTQATMKGITTEQLDSLGCRICLGNGLHGFMNWPHNLLTDSGGFQMSEVTEEGVHFRSPYDGEETLLSPERSVEIQNALGSDIIMQLDHVVSTGPLVEEAMHRSVRWLDRCIAAHKHPDKQNLFAIIQGGLNADLRTTCLKEMTKRDVPGFAIGGLSGGESKAQFWKMVALSTSMLPKDKPRYLMGVGYATDLVVCVALGCDMFDCVYPTRTARFGSALVPTGNLQLKKKQYAKDFSPINPECPCPTCQTHSRAFLHALLHSDNTTALHHLTVHNIAYQLQLLSAVRSSILEQRFPDFVRNFMRTMYGDHSLCPAWAVEALASVGIMLT ESAPRIMRLVAECSRSGARAGELRLPHGTVATPVFMPVGTQATMKGITTEQLDSLGCRICLGNTGLHGFMNWPHNLLTDSGGFQMSEVTEEGVHFRSPYDGEETLLSPERSVEIQNALGSDIIMQLDHVVSSTVTGPLVEEAMHRSVRWLDRCIAAHKHPDKQNLFAIIQGGLNADLRTTCLKEMTKRDVPGFAIGGLSGGESKAQFWKMVALSTSMLPKDKPRYLMGVGYATDLVVCVALGCDMFDCVYPTRTARFGSALVPTGNLQLKKKQYAKDFSPINPECPCPTCQTHSRAFLHALLHSDNTTALHHLTVHNIAYQLQLLSAVRSSILEQRFPDFVRNFMRTMYGDHSLCPAWAVEALASVGIML 6h65-a4-m1-cD_6h65-a4-m2-cF Crystal structure of the branched-chain-amino-acid aminotransferase from Haliangium ochraceum D0LR31 D0LR31 2.35 X-RAY DIFFRACTION 143 1.0 502025 (Haliangium ochraceum DSM 14365) 502025 (Haliangium ochraceum DSM 14365) 305 306 6h65-a1-m1-cA_6h65-a1-m2-cA 6h65-a2-m1-cB_6h65-a2-m3-cB 6h65-a3-m3-cE_6h65-a3-m1-cC PPRYGWMNGQCIPWDQCSLHVSTQAAFFGASLFEGVRAYWNAEREQLYVFRLDEHLRRLEQSAKMLRMKLSMPIADIRQGVLELLRANEFRSDVHLYVASYFGINHDPDPLFPTDDTGVYVTGTAVSRLPLVHTGISACMSSWRRISDDSVPPRIKIGANYQNSRLAQTEARVNGYHTSVLLNSRGKVSETPGACLLMVRDGRVISPPVTADILESVTRKTLMSLSEAELDSPVIERDMDRTELYIAEEVFLCGTIAEILPVTTIDRIQVGDGEVGPVTRRLQELYFGVTSGQLEAYKSWLLPVY APPRYGWMNGQCIPWDQCSLHVSTQAAFFGASLFEGVRAYWNAEREQLYVFRLDEHLRRLEQSAKMLRMKLSMPIADIRQGVLELLRANEFRSDVHLYVASYFGINHDPDPLFPTDDTGVYVTGTAVSRLPLVHTGISACMSSWRRISDDSVPPRIKIGANYQNSRLAQTEARVNGYHTSVLLNSRGKVSETPGACLLMVRDGRVISPPVTADILESVTRKTLMSLSEAELDSPVIERDMDRTELYIAEEVFLCGTIAEILPVTTIDRIQVGDGEVGPVTRRLQELYFGVTSGQLEAYKSWLLPVY 6h6o-a1-m1-cB_6h6o-a1-m1-cA UbiJ-SCP2 Ubiquinone synthesis protein P0ADP7 P0ADP7 1.7 X-RAY DIFFRACTION 51 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 116 121 6h6n-a1-m1-cB_6h6n-a1-m1-cA FKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEFD EMPFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEFDPA 6h6p-a1-m1-cB_6h6p-a1-m1-cD UbiJ-SCP2 Ubiquinone synthesis protein P0ADP7 P0ADP7 2.5 X-RAY DIFFRACTION 36 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 114 117 6h6p-a1-m1-cA_6h6p-a1-m1-cC PFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLA MPFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEF 6h6p-a1-m1-cC_6h6p-a1-m1-cD UbiJ-SCP2 Ubiquinone synthesis protein P0ADP7 P0ADP7 2.5 X-RAY DIFFRACTION 34 0.991 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 117 117 6h6p-a1-m1-cB_6h6p-a1-m1-cA PFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEFD MPFKPLVTAGIESLLNTFLYRSPALKTARSRLLGKVLRVEVKGFSTSLILVFSERQVDVLGEWAGDADCTVIAYASVLPKLRDRQQLTALIRSGELEVQGDIQVVQNFVALADLAEF 6h6v-a1-m1-cD_6h6v-a1-m1-cF Structure of the UbiD-class enzyme HmfF from Pelotomaculum thermopropionicum in complex with FMN A5D4Z9 A5D4Z9 2.66 X-RAY DIFFRACTION 195 1.0 370438 (Pelotomaculum thermopropionicum SI) 370438 (Pelotomaculum thermopropionicum SI) 439 441 6h6v-a1-m1-cA_6h6v-a1-m1-cE 6h6v-a1-m1-cB_6h6v-a1-m1-cC 6h6x-a1-m1-cB_6h6x-a1-m1-cA HSLREWLAFLEGKGKLKRVRKEVDPVFEIAALGKQADGICSLLFERVKGYAVPVVTGLAGDRELFAAASVPVEGLEKLAAAVENPVPCRLVSPDGAPVKECIIRENIDLLKLPIPTHHAGDAGPYITAAILIARDPDSGVRNVSIHRLQVTGPDRLGILILPRHLWHFFGKAERAGRPLEIALAIGVHPAVLLASQATTRLGVDELEIASALLPQPLELVKCETVDVEVPAGAEIVIEGKILPGVREVEGPFGEYPRYYGPAAPRPVVEVTAVTHRRQPVYHTIIPASREHLLLGGIAREAVLLQTVRQAVPTVKNVHLTPGGSCRYHAVISIEKKHEGEAKNAIFAAFTSSSEVKHVVVVDHEINIFDPEEVEWAVATRCQAGRDVFIVKDAGNRLDPSSRDGVSDKGIDATIPLNLPGERFERISIPGLDKIKLADY HSLREWLAFLEGKGKLKRVRKEVDPVFEIAALGKQADGICSLLFERVKGYAVPVVTGLAGDRELFAAASVPVEGLEKLAAAVENPVPCRLVSPDGAPVKECIIRENIDLLKLPIPTHHAGDAGPYITAAILIARDPDSGVRNVSIHRLQVTGPDRLGILILPRHLWHFFGKAERAGRPLEIALAIGVHPAVLLASQATTRLGVDELEIASALLPQPLELVKCETVDVEVPAGAEIVIEGKILPGVREVEGPFGEYPRYYGPAAPRPVVEVTAVTHRRQPVYHTIIPASREHLLLGGIAREAVLLQTVRQAVPTVKNVHLTPGGSCRYHAVISIEKKHEGEAKNAIFAAFTSSSEVKHVVVVDHEINIFDPEEVEWAVATRCQAGRDVFIVKDAGNRLDPSSRDGVSDKGIDATIPLNLPGERFERISIPGLDKIKLADYLE 6h6v-a1-m1-cE_6h6v-a1-m1-cF Structure of the UbiD-class enzyme HmfF from Pelotomaculum thermopropionicum in complex with FMN A5D4Z9 A5D4Z9 2.66 X-RAY DIFFRACTION 70 1.0 370438 (Pelotomaculum thermopropionicum SI) 370438 (Pelotomaculum thermopropionicum SI) 440 441 6h6v-a1-m1-cA_6h6v-a1-m1-cC 6h6v-a1-m1-cD_6h6v-a1-m1-cB HSLREWLAFLEGKGKLKRVRKEVDPVFEIAALGKQADGICSLLFERVKGYAVPVVTGLAGDRELFAAASVPVEGLEKLAAAVENPVPCRLVSPDGAPVKECIIRENIDLLKLPIPTHHAGDAGPYITAAILIARDPDSGVRNVSIHRLQVTGPDRLGILILPRHLWHFFGKAERAGRPLEIALAIGVHPAVLLASQATTRLGVDELEIASALLPQPLELVKCETVDVEVPAGAEIVIEGKILPGVREVEGPFGEYPRYYGPAAPRPVVEVTAVTHRRQPVYHTIIPASREHLLLGGIAREAVLLQTVRQAVPTVKNVHLTPGGSCRYHAVISIEKKHEGEAKNAIFAAFTSSSEVKHVVVVDHEINIFDPEEVEWAVATRCQAGRDVFIVKDAGNRLDPSSRDGVSDKGIDATIPLNLPGERFERISIPGLDKIKLADYL HSLREWLAFLEGKGKLKRVRKEVDPVFEIAALGKQADGICSLLFERVKGYAVPVVTGLAGDRELFAAASVPVEGLEKLAAAVENPVPCRLVSPDGAPVKECIIRENIDLLKLPIPTHHAGDAGPYITAAILIARDPDSGVRNVSIHRLQVTGPDRLGILILPRHLWHFFGKAERAGRPLEIALAIGVHPAVLLASQATTRLGVDELEIASALLPQPLELVKCETVDVEVPAGAEIVIEGKILPGVREVEGPFGEYPRYYGPAAPRPVVEVTAVTHRRQPVYHTIIPASREHLLLGGIAREAVLLQTVRQAVPTVKNVHLTPGGSCRYHAVISIEKKHEGEAKNAIFAAFTSSSEVKHVVVVDHEINIFDPEEVEWAVATRCQAGRDVFIVKDAGNRLDPSSRDGVSDKGIDATIPLNLPGERFERISIPGLDKIKLADYLE 6h7b-a1-m1-cC_6h7b-a1-m1-cA Structure of Leishmania PABP1 (domain J) complexed with a peptide containing the PAM2 motif of eIF4E4. E9AFX7 E9AFX7 1.89 X-RAY DIFFRACTION 22 1.0 5664 (Leishmania major) 5664 (Leishmania major) 77 78 6h7a-a1-m1-cB_6h7a-a1-m1-cA LPPITPQELESMSPQEQRAALGDRLFLKVYEIAPELAPKITGMFLEMKPKEAYELLNDQKRLEERVTEALCVLKAHQ LPPITPQELESMSPQEQRAALGDRLFLKVYEIAPELAPKITGMFLEMKPKEAYELLNDQKRLEERVTEALCVLKAHQT 6h7g-a1-m1-cB_6h7g-a1-m1-cA Crystal structure of redox-sensitive phosphoribulokinase (PRK) from the green algae Chlamydomonas reinhardtii P19824 P19824 2.6 X-RAY DIFFRACTION 44 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 336 340 DKTVVIGLAADSGCGKSTFMRRMTSIFGGVPKPPAGGNPDSNTLISDMTTVICLDDYHCLDRNGRKVKGVTALAPEAQNFDLMYNQVKALKEGKSVDKPIYNHVSGLIDAPEKIESPPILVIEGLHPFYDKRVAELLDFKIYLDISDDIKFAWKIQRDMAERGHSLESIKSSIAARKPDFDAYIDPQKKDADMIIQVLPTQLVPDDKGQYLRVRLIMKEGSKMFDPVYLFDEGSTISWIPCGRKLTCSFPGIKMFYGPDTWYGQEVSVLEMDGQFDKLEELIYVESHLSNTSAKFYGEITQQMLKNSGFPGSNNGTGLFQTIVGLKVREVYERIVK HMDKDKTVVIGLAADSGCGKSTFMRRMTSIFGGVPKPPAGGNPDSNTLISDMTTVICLDDYHCLDRNGRKVKGVTALAPEAQNFDLMYNQVKALKEGKSVDKPIYNHVSGLIDAPEKIESPPILVIEGLHPFYDKRVAELLDFKIYLDISDDIKFAWKIQRDMAERGHSLESIKSSIAARKPDFDAYIDPQKKDADMIIQVLPTQLVPDDKGQYLRVRLIMKEGSKMFDPVYLFDEGSTISWIPCGRKLTCSFPGIKMFYGPDTWYGQEVSVLEMDGQFDKLEELIYVESHLSNTSAKFYGEITQQMLKNSGFPGSNNGTGLFQTIVGLKVREVYERIVK 6h7h-a1-m1-cB_6h7h-a1-m1-cA Crystal structure of redox-sensitive phosphoribulokinase (PRK) from Arabidopsis thaliana P25697 P25697 2.471 X-RAY DIFFRACTION 49 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 336 339 TIVIGLAADSGCGKSTFMRRLTSVFGGAAKPPKGGNPDSNTLISDTTTVICLDDYHSLDRYGRKEQKVTALDPRANDFDLMYEQVKALKNGIAVEKPIYNHVTGLLDPPELIQPPKILVIEGLHPMFDERVRDLLDFSIYLDISNEVKFAWKIQRDMAERGHSLESIKASIEARKPDFDAFIDPQKQYADAVIEVLPTTLIPDDNEGKVLRVRLIMKEGVKYFSPVYLFDEGSTISWIPCGRKLTCSYPGIKFNYEPDSYFDHEVSVLEMDGQFDRLDELIYVESHLSNLSTKFYGEVTQQMLKHADFPGSNNGTGLFQTIVGLKIRDLYEQLIAN TIVIGLAADSGCGKSTFMRRLTSVFGGAAKPPKGGNPDSNTLISDTTTVICLDDYHSLDRYGRKEQKVTALDPRANDFDLMYEQVKALKNGIAVEKPIYNHVTGLLDPPELIQPPKILVIEGLHPMFDERVRDLLDFSIYLDISNEVKFAWKIQRDMAERGHSLESIKASIEARKPDFDAFIDPQKQYADAVIEVLPTTLIPDDNEGKVLRVRLIMKEGVKYFSPVYLFDEGSTISWIPCGRKLTCSYPGIKFNYEPDSYFDHEVSVLEMDGQFDRLDELIYVESHLSNLSTKFYGEVTQQMLKHADFPGSNNGTGLFQTIVGLKIRDLYEQLIANKAT 6h7x-a1-m2-cA_6h7x-a1-m6-cA First X-ray structure of full-length human RuvB-Like 2. Q9Y230 Q9Y230 2.892 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 371 371 6h7x-a1-m1-cA_6h7x-a1-m5-cA 6h7x-a1-m1-cA_6h7x-a1-m6-cA 6h7x-a1-m2-cA_6h7x-a1-m4-cA 6h7x-a1-m3-cA_6h7x-a1-m4-cA 6h7x-a1-m3-cA_6h7x-a1-m5-cA SQGMVGQLAARRAAGVVLEMIREGKIAGRAVLIAGQPGTGKTAIAMGMAQALGPDTPFTAIAGSEIFSLEMSKTEALTQAFRRSIGVRIKEETEIIEGEVVEIQIKLTLKTTEMETIYDLGTKMIESLTKQAGDVITIDKATGKIPDGELQKRKEVVHTVSLHEIDVINSGFLALFSGDTGEIKSEVREQINAKVAEWREEGKAEIIPGVLFIDEVHMLDIESFSFLNRALESDMAPVLIMATNRGITRIRGTSYQSPHGIPIDLLDRLLIVSTTPYSEKDTKQILRIRCEEEDVEMSEDAYTVLTRIGLETSLRYAIQLITAASLVCRKRKGTEVQVDDIKRVYSLFLDESRSTQYMKEYQDAFLFNELK SQGMVGQLAARRAAGVVLEMIREGKIAGRAVLIAGQPGTGKTAIAMGMAQALGPDTPFTAIAGSEIFSLEMSKTEALTQAFRRSIGVRIKEETEIIEGEVVEIQIKLTLKTTEMETIYDLGTKMIESLTKQAGDVITIDKATGKIPDGELQKRKEVVHTVSLHEIDVINSGFLALFSGDTGEIKSEVREQINAKVAEWREEGKAEIIPGVLFIDEVHMLDIESFSFLNRALESDMAPVLIMATNRGITRIRGTSYQSPHGIPIDLLDRLLIVSTTPYSEKDTKQILRIRCEEEDVEMSEDAYTVLTRIGLETSLRYAIQLITAASLVCRKRKGTEVQVDDIKRVYSLFLDESRSTQYMKEYQDAFLFNELK 6h86-a1-m1-cA_6h86-a1-m1-cB Rebuilt and re-refined PDB entry 4R3Q: Crystal structure of SYCE3 B5KM66 B5KM66 1.901 X-RAY DIFFRACTION 143 1.0 10090 (Mus musculus) 10090 (Mus musculus) 76 76 4r3q-a1-m1-cA_4r3q-a1-m1-cB SYDNMLKMLSDLNKDLEKLLEEMEKISVQATWMAYDMVVMRTNPTLAESMRRLEDAFLNCKEEMEKNWQELLTETK SYDNMLKMLSDLNKDLEKLLEEMEKISVQATWMAYDMVVMRTNPTLAESMRRLEDAFLNCKEEMEKNWQELLTETK 6h9l-a1-m1-cA_6h9l-a1-m1-cB Kcr_0859 delta TM from Korarchaeum cryptofilum B1L576 B1L576 2.19 X-RAY DIFFRACTION 134 1.0 374847 (Candidatus Korarchaeum cryptofilum OPF8) 374847 (Candidatus Korarchaeum cryptofilum OPF8) 125 127 SNGRQLLEELRKDEELRRALAEELIPEVLRNRELRRAILLALSREATKEDIEALRKATKEDIEDLREATKEDIEALRKATKEDIEALREDIEALRKATKENEKLEAELKSYVDARVIELKSYIDT SNGRQLLEELRKDEELRRALAEELIPEVLRNRELRRAILLALSREATKEDIEALRKATKEDIEDLREATKEDIEALRKATKEDIEALREDIEALRKATKENEKLEAELKSYVDARVIELKSYIDTRL 6h9l-a1-m1-cA_6h9l-a1-m1-cC Kcr_0859 delta TM from Korarchaeum cryptofilum B1L576 B1L576 2.19 X-RAY DIFFRACTION 136 0.992 374847 (Candidatus Korarchaeum cryptofilum OPF8) 374847 (Candidatus Korarchaeum cryptofilum OPF8) 125 126 SNGRQLLEELRKDEELRRALAEELIPEVLRNRELRRAILLALSREATKEDIEALRKATKEDIEDLREATKEDIEALRKATKEDIEALREDIEALRKATKENEKLEAELKSYVDARVIELKSYIDT NGRQLLEELRKDEELRRALAEELIPEVLRNRELRRAILLALSREATKEDIEALRKATKEDIEDLREATKEDIEALRKATKEDIEALREDIEALRKATKENEKLEAELKSYVDARVIELKSYIDTRL 6h9l-a1-m1-cC_6h9l-a1-m1-cB Kcr_0859 delta TM from Korarchaeum cryptofilum B1L576 B1L576 2.19 X-RAY DIFFRACTION 137 1.0 374847 (Candidatus Korarchaeum cryptofilum OPF8) 374847 (Candidatus Korarchaeum cryptofilum OPF8) 126 127 NGRQLLEELRKDEELRRALAEELIPEVLRNRELRRAILLALSREATKEDIEALRKATKEDIEDLREATKEDIEALRKATKEDIEALREDIEALRKATKENEKLEAELKSYVDARVIELKSYIDTRL SNGRQLLEELRKDEELRRALAEELIPEVLRNRELRRAILLALSREATKEDIEALRKATKEDIEDLREATKEDIEALRKATKEDIEALREDIEALRKATKENEKLEAELKSYVDARVIELKSYIDTRL 6h9m-a1-m1-cB_6h9m-a1-m1-cC Coiled-coil domain-containing protein 90B residues 43-125 from Homo sapiens fused to a GCN4 adaptor P03069 P03069 2.1 X-RAY DIFFRACTION 96 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 94 94 6h9m-a1-m1-cA_6h9m-a1-m1-cB 6h9m-a1-m1-cA_6h9m-a1-m1-cC DTHALVQDLETHGFDKTQAETIVSALTALSNVSLDTIYKEMVTQAQQEITVQQLMAHLDAIRKDMKQLEWKVEELLSKVYHLENEVARLKKLVG DTHALVQDLETHGFDKTQAETIVSALTALSNVSLDTIYKEMVTQAQQEITVQQLMAHLDAIRKDMKQLEWKVEELLSKVYHLENEVARLKKLVG 6h9s-a1-m1-cA_6h9s-a1-m2-cB Crystal dimeric structure of Petrotoga mobilis lactate dehydrogenase with NADH A9BGZ9 A9BGZ9 1.9 X-RAY DIFFRACTION 76 1.0 403833 (Petrotoga mobilis SJ95) 403833 (Petrotoga mobilis SJ95) 289 292 6h9s-a1-m2-cA_6h9s-a1-m1-cB MKISIIGTGRVGSSTAFALINAAVADEIVLYDLNKEMAEGEALDLLHATTFHKRMIIRAGEYSDIEGSDIVLITAGAATRLDLTIKNAKIIKGISENIKKYAPNTLIINITNPVDVMSYVVWKVTGFESNRVIGTGTILDTARLRALIGKNCGVSPMSVHAYIIGEHGDSELAAWSSAMIGGVPIKGFCDLSKIFDDVKNSAYTIISKKGATNYGIASATTALVESIIKNEGRVYTPSVLLDDVYIGYPAVINKDGVERTIDITLNDEETEKFESSKSIIKEYLESIKN MKISIIGTGRVGSSTAFALINAAVADEIVLYDLNKEMAEGEALDLLHATTFHKRMIIRAGEYSDIEGSDIVLITAGAAETRLDLTIKNAKIIKGISENIKKYAPNTLIINITNPVDVMSYVVWKVTGFESNRVIGTGTILDTARLRALIGKNCGVSPMSVHAYIIGEHGDSELAAWSSAMIGGVPIKGFCDLSKIFDDVKNSAYTIISKKGATNYGIASATTALVESIIKNEGRVYTPSVLLDDVYIGYPAVINKDGVERTIDITLNDEETEKFESSKSIIKEYLESIKNLL 6h9s-a1-m2-cA_6h9s-a1-m2-cB Crystal dimeric structure of Petrotoga mobilis lactate dehydrogenase with NADH A9BGZ9 A9BGZ9 1.9 X-RAY DIFFRACTION 114 1.0 403833 (Petrotoga mobilis SJ95) 403833 (Petrotoga mobilis SJ95) 289 292 6h9s-a1-m1-cA_6h9s-a1-m1-cB MKISIIGTGRVGSSTAFALINAAVADEIVLYDLNKEMAEGEALDLLHATTFHKRMIIRAGEYSDIEGSDIVLITAGAATRLDLTIKNAKIIKGISENIKKYAPNTLIINITNPVDVMSYVVWKVTGFESNRVIGTGTILDTARLRALIGKNCGVSPMSVHAYIIGEHGDSELAAWSSAMIGGVPIKGFCDLSKIFDDVKNSAYTIISKKGATNYGIASATTALVESIIKNEGRVYTPSVLLDDVYIGYPAVINKDGVERTIDITLNDEETEKFESSKSIIKEYLESIKN MKISIIGTGRVGSSTAFALINAAVADEIVLYDLNKEMAEGEALDLLHATTFHKRMIIRAGEYSDIEGSDIVLITAGAAETRLDLTIKNAKIIKGISENIKKYAPNTLIINITNPVDVMSYVVWKVTGFESNRVIGTGTILDTARLRALIGKNCGVSPMSVHAYIIGEHGDSELAAWSSAMIGGVPIKGFCDLSKIFDDVKNSAYTIISKKGATNYGIASATTALVESIIKNEGRVYTPSVLLDDVYIGYPAVINKDGVERTIDITLNDEETEKFESSKSIIKEYLESIKNLL 6h9x-a1-m1-cA_6h9x-a1-m2-cA Klebsiella pneumoniae Seryl-tRNA Synthetase in Complex with the Intermediate Analog 5'-O-(N-(L-Seryl)-Sulfamoyl)Adenosine W9BNU9 W9BNU9 2.1 X-RAY DIFFRACTION 164 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 428 428 6hhy-a1-m1-cA_6hhy-a1-m2-cA 6hhz-a1-m1-cA_6hhz-a1-m2-cA 6hi0-a1-m1-cA_6hi0-a1-m2-cA 6r1m-a1-m1-cA_6r1m-a1-m1-cB 6r1o-a1-m1-cA_6r1o-a1-m2-cA 6s30-a1-m1-cA_6s30-a1-m2-cA 7ap1-a1-m1-cA_7ap1-a1-m2-cA MLDPNLLRTEPDAVAEKLARRGFKLDVDKLRALEERRKVLQVQTENLQAERNSRSKSIGQAKARDIEPLRLEVNKLGEQLDAAKSELETLLAEIRDIALAIPNIPHDDVPVGRDENDNVEVSRWGTPRQFDFEVRDHVTLGEMHGGLDFAAAVKLTGSRFVVMKGQLARLHRALAQFMLDLHTEQHGYSENYVPYLVNQDTLYGTGQLPKFAGDLFHTRPLEEEADSSNYALIPTAEVPLTNLVRDEIIDEDDLPIKMTAHTPCFRSEAGSYGRDTRGLIRMHQFDKVEMVQIVRPEDSMAALEEMTGHAEKVLQLLGLPYRKVALCTGDMGFSACKTYDLEVWVPAQNTYREISSCSNVWDFQARRMQARCRSKSDKKTRLVHTLNGSGLAVGRTLVALMENYQQADGRIEIPEVLRPYMRGLEYIG MLDPNLLRTEPDAVAEKLARRGFKLDVDKLRALEERRKVLQVQTENLQAERNSRSKSIGQAKARDIEPLRLEVNKLGEQLDAAKSELETLLAEIRDIALAIPNIPHDDVPVGRDENDNVEVSRWGTPRQFDFEVRDHVTLGEMHGGLDFAAAVKLTGSRFVVMKGQLARLHRALAQFMLDLHTEQHGYSENYVPYLVNQDTLYGTGQLPKFAGDLFHTRPLEEEADSSNYALIPTAEVPLTNLVRDEIIDEDDLPIKMTAHTPCFRSEAGSYGRDTRGLIRMHQFDKVEMVQIVRPEDSMAALEEMTGHAEKVLQLLGLPYRKVALCTGDMGFSACKTYDLEVWVPAQNTYREISSCSNVWDFQARRMQARCRSKSDKKTRLVHTLNGSGLAVGRTLVALMENYQQADGRIEIPEVLRPYMRGLEYIG 6hat-a1-m1-cA_6hat-a1-m1-cB Globular domain of herpesvirus saimiri ORF57 P13199 P13199 1.856 X-RAY DIFFRACTION 213 1.0 10383 (Herpesvirus saimiri (strain 11)) 10383 (Herpesvirus saimiri (strain 11)) 264 266 6hau-a1-m1-cA_6hau-a1-m1-cB LLKLFDISILPKSGEPKLFLPVPSLPCQEAEKTNDKYVLAAQRAHDVPISSKQLTANLLPVKFKPLLSIVRYTPNYYYWVSRKETIASANLCTVAAFLDESLCWGQQYLKNDFIFSENGKDIILDTSSALLSQLVHKIKLPFCHCLQTTPQDHIVKQVCYLIASNNRILDAVRYLQTSVIKSPIVLLLAYAVCLPAAIICTKNETQLYSHCRILKEYRPGDVNILHESLTQHLNKCPSSTCAYTTRAIVGTKANTTGLFFLPTQ GPLLKLFDISILPKSGEPKLFLPVPSLPCQEAEKTNDKYVLAAQRAHDVPISSKQLTANLLPVKFKPLLSIVRYTPNYYYWVSRKETIASANLCTVAAFLDESLCWGQQYLKNDFIFSENGKDIILDTSSALLSQLVHKIKLPFCHCLQTTPQDHIVKQVCYLIASNNRILDAVRYLQTSVIKSPIVLLLAYAVCLPAAIICTKNETQLYSHCRILKEYRPGDVNILHESLTQHLNKCPSSTCAYTTRAIVGTKANTTGLFFLPTQ 6hav-a1-m1-cA_6hav-a1-m2-cA Crystal structure of [Fe]-hydrogenase (Hmd) from Methanococcus aeolicus in complex with FeGP and methenyl-tetrahydromethanopterin (close form A) at 1.06 A resolution A6UVT1 A6UVT1 1.06 X-RAY DIFFRACTION 351 1.0 419665 (Methanococcus aeolicus Nankai-3) 419665 (Methanococcus aeolicus Nankai-3) 341 341 6hac-a1-m1-cA_6hac-a1-m2-cA 6hae-a1-m1-cA_6hae-a1-m1-cK MKVAILGAGCYRSHAACGITNFSRAAEVANKVGIPEITMTHSTITMGAELLHLVDEIDEVVVSDPFAEEPGLIIIDEFDCKEVMEAHLAGKAEDVMPAIRDAVKAKAKDSPKPPKGCIHFVNPEKVGLKVTSDDREAIEGADIVITWLPKGGSQPAIIEKFVDAIKEGAIVTHACTIPTPKFAKIFKDLGREDLNIVSFHPGCVPEMKGQVYLSEGYASEEAVEKLYKIAKISRGTAFKMPANLISPVCDMGSAVTAPVYAAILSYRDAVTNILGAPADFAQMMADEAITQMLELMRNEGIQNMENKLNPGALTGTADSMCFGPLSELLPASLKVLEEHKK MKVAILGAGCYRSHAACGITNFSRAAEVANKVGIPEITMTHSTITMGAELLHLVDEIDEVVVSDPFAEEPGLIIIDEFDCKEVMEAHLAGKAEDVMPAIRDAVKAKAKDSPKPPKGCIHFVNPEKVGLKVTSDDREAIEGADIVITWLPKGGSQPAIIEKFVDAIKEGAIVTHACTIPTPKFAKIFKDLGREDLNIVSFHPGCVPEMKGQVYLSEGYASEEAVEKLYKIAKISRGTAFKMPANLISPVCDMGSAVTAPVYAAILSYRDAVTNILGAPADFAQMMADEAITQMLELMRNEGIQNMENKLNPGALTGTADSMCFGPLSELLPASLKVLEEHKK 6haz-a1-m1-cA_6haz-a1-m1-cB Crystal structure of the bromodomain of human SMARCA2 in complex with SMARCA-BD ligand P51531 P51531 1.31 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 113 113 PNPPKLTKQMNAIIDTVINYKDSSGRQLSEVFIQLPSRKELPEYYELIRKPVDFKKIKERIRNHKYRSLGDLEKDVMLLCHNAQTFNLEGSQIYEDSIVLQSVFKSARQKIAK PNPPKLTKQMNAIIDTVINYKDSSGRQLSEVFIQLPSRKELPEYYELIRKPVDFKKIKERIRNHKYRSLGDLEKDVMLLCHNAQTFNLEGSQIYEDSIVLQSVFKSARQKIAK 6hbe-a1-m1-cB_6hbe-a1-m1-cC Cu-containing nitrite reductase (NirK) from Thermus scotoductus SA-01 E8PLV7 E8PLV7 1.63 X-RAY DIFFRACTION 175 1.0 743525 (Thermus scotoductus SA-01) 743525 (Thermus scotoductus SA-01) 425 427 6hbe-a1-m1-cA_6hbe-a1-m1-cB 6hbe-a1-m1-cA_6hbe-a1-m1-cC AERHFTLEARSSIFEVDQGVYLRGFSFNDMSPGPMLVVEEGDTVHITLRNLDNVTHGLSIHAANTQTSRFLGNVQPGETREFSFTADFPGVFMYHCAPGGHGIMAHTMGGQFGMIVVEPKEKYRMERELGRGPDLKLYIIQSEAYASGRDFYDGKALYVMFNGRNFRYVDEPIPVRPGDYLRIYFLNVGPNLTSTLHVVGGIFEYMYYQGNPKNLVVGAQTALAGPSDSWVIEWRVPPVEGDYTLVTHVFGTAIKGALGILRAKKDAPRIPEVRAEGVPGVKEIPASAKRVVDPYGLASPGHEHTVRVPLDPALAQPVAVGAKALEPLPVTVQMVGNSFYPKVLEIPVGTTVEFVNEDVFDLLEGERTGRHDAVVIDVQGPEPFVTPKLGHGERYRITFTKPGEYVYICSIHPYMKGIIRVYEPL AERHFTLEARSSIFEVDQGVYLRGFSFNDMSPGPMLVVEEGDTVHITLRNLDNVTHGLSIHAANTQTSRFLGNVQPGETREFSFTADFPGVFMYHCAPGGHGIMAHTMGGQFGMIVVEPKEKYRMERELGRGPDLKLYIIQSEAYASGRDFYDGKALYVMFNGRNFRYVDEPIPVRPGDYLRIYFLNVGPNLTSTLHVVGGIFEYMYYQGNPKNLVVGAQTALAGPSDSWVIEWRVPPVEGDYTLVTHVFGTAIKGALGILRAKKDAPRIPEVRAEGVPGVKEIPASAKRVVDPYGLASPGHEHTVRVPLDPALAQPVAVGAKALEPLPVTVQMVGNSFYPKVLEIPVGTTVEFVNEDVFDLLEGERTGRHDAVVIDVQGPEPFVTPKLGHGERYRITFTKPGEYVYICSIHPYMKGIIRVYEPLSQ 6hbv-a1-m1-cB_6hbv-a1-m1-cA Structure of PLP internal aldimine form of Sphingopyxis sp. MTA144 FumI protein D2D3B2 D2D3B2 1.65 X-RAY DIFFRACTION 335 1.0 33050 (Sphingopyxis macrogoltabida) 33050 (Sphingopyxis macrogoltabida) 411 414 6hbs-a1-m1-cA_6hbs-a1-m1-cB GTRQKDLRERAERVIPGGMYGHESTRLLPPEFPQFFRRALGARIWDADEQPYIDYMCAYGPNLLGYRQSEIEAAADAQRLLGDTMTGPSEIMVNLAEAFVGMVRHADWAMFCKNGSDATSTAMVLARAHTGRKTILCAKGAYHGASPWNTPHTAGILASDRVHVAYYTYNDAQSLSDAFKAHDGDIAAVFATPFRHEVFEDQALAQLEFARTARKCCDETGALLVVDDVRAGFRVARDCSWTHLGIEPDLSCWGKCFANGYPISALLGSNKARDAARDIFVTGSFWFSAVPMAAAIETLRIIRETPYLETLIASGAALRAGLEAQSQRHGLELKQTGPAQMPQIFFADDPDFRIGYAWAAACLKGGVYVHPYHNMFLSAAHTVDDVTETLEATDRAFSAVLRDFASLQPHP GTRQKDLRERAERVIPGGMYGHESTRLLPPEFPQFFRRALGARIWDADEQPYIDYMCAYGPNLLGYRQSEIEAAADAQRLLGDTMTGPSEIMVNLAEAFVGMVRHADWAMFCKNGSDATSTAMVLARAHTGRKTILCAKGAYHGASPWNTPHTAGILASDRVHVAYYTYNDAQSLSDAFKAHDGDIAAVFATPFRHEVFEDQALAQLEFARTARKCCDETGALLVVDDVRAGFRVARDCSWTHLGIEPDLSCWGKCFANGYPISALLGSNKARDAARDIFVTGSFWFSAVPMAAAIETLRIIRETPYLETLIASGAALRAGLEAQSQRHGLELKQTGPAQMPQIFFADDPDFRIGYAWAAACLKGGVYVHPYHNMFLSAAHTVDDVTETLEATDRAFSAVLRDFASLQPHPILM 6hbz-a1-m1-cA_6hbz-a1-m1-cB Bdellovibrio bacteriovorus DgcB Full-length Q6MPU8 Q6MPU8 1.79 X-RAY DIFFRACTION 62 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 269 270 VPPAIVVLIGPPGYVGKQYPITASDIVIGRSVESQVYIDDKSLSRSHAKFAVNGSEVSVIDLGSTNKTIVNGQVIPPLASCLLKNNDQIKTGNVIFKFLEKGSYDRAQKDALTGAHSKGALLDKGPEAMKRAEVLNEPFSLVTFDIDHFKKINDSYGHPGGDYVLKELCRIVITKLIRSNDFFARYGGEEFVLLLSGSPSKTAGEVGERIRQTIEAHDFTFEGKKIPVTISVGVATKLPNETEWTQVYDRADKALYQSKQGGRNRTTIV VPPAIVVLIGPPGYVGKQYPITASDIVIGRSVESQVYIDDKSLSRSHAKFAVNGSEVSVIDLGSTNKTIVNGQVIPPLASCLLKNNDQIKTGNVIFKFLEKGSYDRAQKDALTGAHSKGALLDKGPEAMKRAEVLNEPFSLVTFDIDHFKKINDSYGHPGGDYVLKELCRIVITKLIRSNDFFARYGGEEFVLLLSGSPSKTAGEVGERIRQTIEAHDFTFEGKKIPVTISVGVATKLPNETEWTQVYDRADKALYQSKQGGRNRTTIVA 6hc7-a4-m1-cB_6hc7-a4-m1-cC The crystal structure of BSAP, a zinc aminopeptidase from Bacillus subtilis (medium resolution) P25152 P25152 2.5 X-RAY DIFFRACTION 14 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 406 406 6hc7-a4-m1-cA_6hc7-a4-m1-cB RELPFKAKHAYSTISQLSEAIGPRIAGTAAEKKSALLIASSMRKLKLDVKVQRFNIPDRLEGTLSSAGRDILLQAASGSAPTEEQGLTAPLYNAGLGYQKDFTADAKGKIALISRGDLTYYEKAKNAEAAGAKAVIIYNNKESLVPMTPNLSGNKVGIPVVGIKKEDGEALTQQKEATLKLKAFTNQTSQNIIGIKKPKNIKHPDIVYVTAHYDSVPFSPGANDNGSGTSVMLEMARVLKSVPSDKEIRFIAFGAEELGLLGSSHYVDHLSEKELKRSEVNFNLDMVGTSWEKASELYVNTLDGQSNYVWESSRTAAEKIGFDSLSLTQGGSSDHVPFHEAGIDSANFIWGDPETEEVEPWYHTPEDSIEHISKERLQQAGDLVTAAVYEAVKKKAKASDIFEDIK RELPFKAKHAYSTISQLSEAIGPRIAGTAAEKKSALLIASSMRKLKLDVKVQRFNIPDRLEGTLSSAGRDILLQAASGSAPTEEQGLTAPLYNAGLGYQKDFTADAKGKIALISRGDLTYYEKAKNAEAAGAKAVIIYNNKESLVPMTPNLSGNKVGIPVVGIKKEDGEALTQQKEATLKLKAFTNQTSQNIIGIKKPKNIKHPDIVYVTAHYDSVPFSPGANDNGSGTSVMLEMARVLKSVPSDKEIRFIAFGAEELGLLGSSHYVDHLSEKELKRSEVNFNLDMVGTSWEKASELYVNTLDGQSNYVWESSRTAAEKIGFDSLSLTQGGSSDHVPFHEAGIDSANFIWGDPETEEVEPWYHTPEDSIEHISKERLQQAGDLVTAAVYEAVKKKAKASDIFEDIK 6hcd-a1-m1-cB_6hcd-a1-m1-cA Structure of universal stress protein from Archaeoglobus fulgidus O29432 O29432 1.9 X-RAY DIFFRACTION 50 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 131 132 3qtb-a1-m1-cA_3qtb-a1-m1-cB YPIVVAVDKKSDRAERVLRFAAEEARLRGVPVYVVHSLPGGGRTKDEDIIEAKETLSWAVSIIRKEGAEGEEHLLVRGKEPPDDIVDFADEVDAIAIVIGIRKRSPTGKLIFGSVARDVILKANKPVICIK IYPIVVAVDKKSDRAERVLRFAAEEARLRGVPVYVVHSLPGGGRTKDEDIIEAKETLSWAVSIIRKEGAEGEEHLLVRGKEPPDDIVDFADEVDAIAIVIGIRKRSPTGKLIFGSVARDVILKANKPVICIK 6hci-a1-m1-cA_6hci-a1-m1-cD Crystal structure of titin M3 domain Q8WZ42 Q8WZ42 2.12 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 6hci-a1-m1-cC_6hci-a1-m1-cB TLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRDTLPEDTGYYRVTATNTAGSTSCQAHLQVERL TLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRDTLPEDTGYYRVTATNTAGSTSCQAHLQVERL 6hci-a1-m1-cC_6hci-a1-m1-cD Crystal structure of titin M3 domain Q8WZ42 Q8WZ42 2.12 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 97 6hci-a1-m1-cA_6hci-a1-m1-cB TLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRDTLPEDTGYYRVTATNTAGSTSCQAHLQVER TLRPMFKRLLANAECQEGQSVCFEIRVSGIPPPTLKWEKDGQPLSLGPNIEIIHEGLDYYALHIRDTLPEDTGYYRVTATNTAGSTSCQAHLQVERL 6hcp-a1-m1-cB_6hcp-a1-m1-cC Crystal structure of BauA, the Ferric preacinetobactin receptor from Acinetobacter baumannii Q76HJ9 Q76HJ9 1.83 X-RAY DIFFRACTION 35 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 671 671 6h7f-a1-m1-cA_6h7f-a1-m1-cB 6h7f-a1-m1-cA_6h7f-a1-m1-cC 6h7f-a1-m1-cB_6h7f-a1-m1-cC 6hcp-a1-m1-cA_6hcp-a1-m1-cB 6hcp-a1-m1-cA_6hcp-a1-m1-cC DTYAGGQVATSSNVGFLGSKKFLDTPFNTISYTDKYIEDKQAKDITEVIAATDPSIYTNGASGGWSENYYIRGYASSTNDMSMNGLFGITPFYRTSPEMFGRVEVLKGPSALLNGMPPAGSVGGTVNLVTKYAADEPFARLTTTYMSDAQFGGHVDVGRRFGENKEFGVRINGMYRDGDAAVNDQSKESRLFSLGLDWQGENARVFVDAYDALDHVDGVTRGVNVSTAVGIPKPPKADTLLSPDWGSVETKDKGAMIRGEYDFSDQLMAYAAYGQSTTEYKYNGASAGTITSSTGTLSSTLGQLAFDVDKKSADAGFKGKFETGSVKHQWVANATYYNHTQDDYGYRIIPGFSDPVITNIYDPNPNWGPKPEFTPPFLFHSTLSTSSFGLADTLSFAQDKVQLTLGLRHQTVKATSSVNTLPENAKSATTPGVALLIKATDKISVYANYIEGLTKGDQAPATASNPGEIFPPQKTKQQELGLKVDLGTFAHTLSAFEITKPSSYLDPSKLVNNLPTFVSDGEQRNRGIEWSFFGSPIEHVRLMGGFTYLDPELTKTKSGGNDGHTAVAVPKNQAKLGAEWDTQVAQGTLTLSGNINAVSKQYINAENTLSVPGRTLLDVGARYSTKVEDHPVTFRANIYNLTNKAYWAQPQLTNLALGAPRTYMLSVSYDF DTYAGGQVATSSNVGFLGSKKFLDTPFNTISYTDKYIEDKQAKDITEVIAATDPSIYTNGASGGWSENYYIRGYASSTNDMSMNGLFGITPFYRTSPEMFGRVEVLKGPSALLNGMPPAGSVGGTVNLVTKYAADEPFARLTTTYMSDAQFGGHVDVGRRFGENKEFGVRINGMYRDGDAAVNDQSKESRLFSLGLDWQGENARVFVDAYDALDHVDGVTRGVNVSTAVGIPKPPKADTLLSPDWGSVETKDKGAMIRGEYDFSDQLMAYAAYGQSTTEYKYNGASAGTITSSTGTLSSTLGQLAFDVDKKSADAGFKGKFETGSVKHQWVANATYYNHTQDDYGYRIIPGFSDPVITNIYDPNPNWGPKPEFTPPFLFHSTLSTSSFGLADTLSFAQDKVQLTLGLRHQTVKATSSVNTLPENAKSATTPGVALLIKATDKISVYANYIEGLTKGDQAPATASNPGEIFPPQKTKQQELGLKVDLGTFAHTLSAFEITKPSSYLDPSKLVNNLPTFVSDGEQRNRGIEWSFFGSPIEHVRLMGGFTYLDPELTKTKSGGNDGHTAVAVPKNQAKLGAEWDTQVAQGTLTLSGNINAVSKQYINAENTLSVPGRTLLDVGARYSTKVEDHPVTFRANIYNLTNKAYWAQPQLTNLALGAPRTYMLSVSYDF 6hcz-a1-m1-cA_6hcz-a1-m1-cB Sjoegren syndrome/scleroderma autoantigen 1 (SSSCA1) O60232 O60232 2.3 X-RAY DIFFRACTION 61 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 65 65 SWEPPTEAETKVLQARRERQDRISRLMGDYLLRGYRMLGETCADCGTILLQDKQRKIYCVACQEL WEPPTEAETKVLQARRERQDRISRLMGDYLLRGYRMLGETCADCGTILLQDKQRKIYCVACQELD 6hd1-a1-m1-cB_6hd1-a1-m1-cC human STEAP4 bound to NADPH, FAD and heme. Q687X5 Q687X5 3.8 ELECTRON MICROSCOPY 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 436 436 6hcy-a1-m1-cA_6hcy-a1-m1-cB 6hcy-a1-m1-cA_6hcy-a1-m1-cC 6hcy-a1-m1-cB_6hcy-a1-m1-cC 6hd1-a1-m1-cA_6hd1-a1-m1-cB 6hd1-a1-m1-cA_6hd1-a1-m1-cC QETVCIFGTGDFGRSLGLKMLQCGYSVVFGSRNPQKTTLLPSGAEVLSYSEAAKKSGIIIIAIHREHYDFLTELTEVLNGKILVDISNNLKINQYPESNAEYLAHLVPGAHVVKAFNTISAWALQSGALDASRQVFVCGNDSKAKQRVMDIVRNLGLTPMDQGSLMAAKEIEKYPLQLFPMWRFPFYLSAVLCVFLFFYCVIRDVIYPYVYEKKDNTFRMAISIPNRIFPITALTLLALVYLPGVIAAILQLYRGTKYRRFPDWLDHWMLCRKQLGLVALGFAFLHVLYTLVIPIRYYVRWRLGNLTVTQAILKKENPFSTSSAWLSDSYVALGILGFFLFVLLGITSLPSVSNAVNWREFRFVQSKLGYLTLILCTAHTLVYGGKRFLSPSNLRWYLPAAYVLGLIIPCTVLVIKFVLIMPCVDNTLTRIRQGWE QETVCIFGTGDFGRSLGLKMLQCGYSVVFGSRNPQKTTLLPSGAEVLSYSEAAKKSGIIIIAIHREHYDFLTELTEVLNGKILVDISNNLKINQYPESNAEYLAHLVPGAHVVKAFNTISAWALQSGALDASRQVFVCGNDSKAKQRVMDIVRNLGLTPMDQGSLMAAKEIEKYPLQLFPMWRFPFYLSAVLCVFLFFYCVIRDVIYPYVYEKKDNTFRMAISIPNRIFPITALTLLALVYLPGVIAAILQLYRGTKYRRFPDWLDHWMLCRKQLGLVALGFAFLHVLYTLVIPIRYYVRWRLGNLTVTQAILKKENPFSTSSAWLSDSYVALGILGFFLFVLLGITSLPSVSNAVNWREFRFVQSKLGYLTLILCTAHTLVYGGKRFLSPSNLRWYLPAAYVLGLIIPCTVLVIKFVLIMPCVDNTLTRIRQGWE 6hdd-a1-m1-cA_6hdd-a1-m1-cG OBP chaperonin in the nucleotide-free state G9I9H9 G9I9H9 4.5 ELECTRON MICROSCOPY 102 1.0 1124849 (Pseudomonas phage OBP) 1124849 (Pseudomonas phage OBP) 515 515 6hdd-a1-m1-cB_6hdd-a1-m1-cC 6hdd-a1-m1-cD_6hdd-a1-m1-cE 6hdd-a1-m1-cE_6hdd-a1-m1-cF TEISFTNKNDTREIVDEVVENAFSSVCSTMGPNGNYVVINQLNSPKVTKDGVSVARALDFNEARRNMIAKIITEPSIKTDAEVGDGTTTTVFITYHLYQKFKDAMSFANTRYLDTLIKQVLQYIGTLIQPGEIESEMFRNMLLTSSNYEEEIVDKILDIYREHKNPNIHLEKSPMLPADEVKMTKEIYFEGSFPIETQVPANGAYVVGPEKVGVVLIDGSIRAYPTQLINALLNRFIDNPVVLMARNFEPEVIAAINNENQRLGTSRIFAYKVNAAGLLGAGTIDDLGRLLNIGPVFDVNSVDPALVKYNDVTLWLGRKGILLDKSIEEVESRADSILEGLDNRYEALGIIERQTPIGRELNRRIGRLRANNVTIKVTGVTVSDASERWARYEDVMKAARTGQQFGVIPGIGYGYLMASKWLEANVPQQSDEKLEKCRIGLIEVLRAQYEHLTGHDGSAENPIFIDLVTGQESDTPMNVYDNAAATMIALEGAWQTAKTLGKISNVMGRSNTNYA TEISFTNKNDTREIVDEVVENAFSSVCSTMGPNGNYVVINQLNSPKVTKDGVSVARALDFNEARRNMIAKIITEPSIKTDAEVGDGTTTTVFITYHLYQKFKDAMSFANTRYLDTLIKQVLQYIGTLIQPGEIESEMFRNMLLTSSNYEEEIVDKILDIYREHKNPNIHLEKSPMLPADEVKMTKEIYFEGSFPIETQVPANGAYVVGPEKVGVVLIDGSIRAYPTQLINALLNRFIDNPVVLMARNFEPEVIAAINNENQRLGTSRIFAYKVNAAGLLGAGTIDDLGRLLNIGPVFDVNSVDPALVKYNDVTLWLGRKGILLDKSIEEVESRADSILEGLDNRYEALGIIERQTPIGRELNRRIGRLRANNVTIKVTGVTVSDASERWARYEDVMKAARTGQQFGVIPGIGYGYLMASKWLEANVPQQSDEKLEKCRIGLIEVLRAQYEHLTGHDGSAENPIFIDLVTGQESDTPMNVYDNAAATMIALEGAWQTAKTLGKISNVMGRSNTNYA 6hdd-a1-m1-cF_6hdd-a1-m1-cG OBP chaperonin in the nucleotide-free state G9I9H9 G9I9H9 4.5 ELECTRON MICROSCOPY 114 1.0 1124849 (Pseudomonas phage OBP) 1124849 (Pseudomonas phage OBP) 515 515 6hdd-a1-m1-cA_6hdd-a1-m1-cB 6hdd-a1-m1-cC_6hdd-a1-m1-cD TEISFTNKNDTREIVDEVVENAFSSVCSTMGPNGNYVVINQLNSPKVTKDGVSVARALDFNEARRNMIAKIITEPSIKTDAEVGDGTTTTVFITYHLYQKFKDAMSFANTRYLDTLIKQVLQYIGTLIQPGEIESEMFRNMLLTSSNYEEEIVDKILDIYREHKNPNIHLEKSPMLPADEVKMTKEIYFEGSFPIETQVPANGAYVVGPEKVGVVLIDGSIRAYPTQLINALLNRFIDNPVVLMARNFEPEVIAAINNENQRLGTSRIFAYKVNAAGLLGAGTIDDLGRLLNIGPVFDVNSVDPALVKYNDVTLWLGRKGILLDKSIEEVESRADSILEGLDNRYEALGIIERQTPIGRELNRRIGRLRANNVTIKVTGVTVSDASERWARYEDVMKAARTGQQFGVIPGIGYGYLMASKWLEANVPQQSDEKLEKCRIGLIEVLRAQYEHLTGHDGSAENPIFIDLVTGQESDTPMNVYDNAAATMIALEGAWQTAKTLGKISNVMGRSNTNYA TEISFTNKNDTREIVDEVVENAFSSVCSTMGPNGNYVVINQLNSPKVTKDGVSVARALDFNEARRNMIAKIITEPSIKTDAEVGDGTTTTVFITYHLYQKFKDAMSFANTRYLDTLIKQVLQYIGTLIQPGEIESEMFRNMLLTSSNYEEEIVDKILDIYREHKNPNIHLEKSPMLPADEVKMTKEIYFEGSFPIETQVPANGAYVVGPEKVGVVLIDGSIRAYPTQLINALLNRFIDNPVVLMARNFEPEVIAAINNENQRLGTSRIFAYKVNAAGLLGAGTIDDLGRLLNIGPVFDVNSVDPALVKYNDVTLWLGRKGILLDKSIEEVESRADSILEGLDNRYEALGIIERQTPIGRELNRRIGRLRANNVTIKVTGVTVSDASERWARYEDVMKAARTGQQFGVIPGIGYGYLMASKWLEANVPQQSDEKLEKCRIGLIEVLRAQYEHLTGHDGSAENPIFIDLVTGQESDTPMNVYDNAAATMIALEGAWQTAKTLGKISNVMGRSNTNYA 6hdy-a1-m1-cA_6hdy-a1-m2-cA Crystal structure of 2-Hydroxyisobutyryl-CoA Ligase (HCL) in the postadenylation state in complex with S3-HB-AMP I3VE75 I3VE75 2.2 X-RAY DIFFRACTION 94 1.0 391953 (Aquincola tertiaricarbonis) 391953 (Aquincola tertiaricarbonis) 474 474 6hdw-a1-m1-cA_6hdw-a1-m2-cA 6hdx-a1-m1-cA_6hdx-a1-m2-cA 6he0-a1-m1-cA_6he0-a1-m2-cA 6he2-a1-m1-cB_6he2-a1-m1-cA SGMEEWNFPVEYDENYLPPADSRYWFPRRETMPAAERDKAILGRLQQVCQYAWEHAPFYRRKWEEAGFQPSQLKSLEDFEARVPVVKKTDLRESQAAHPPFGDYVCVPNSEIFHVHGTSRPTAFGIGRADWRAIANAHARIMWGMGIRPGDLVCVAAVFSLYMGSWGALAGAERLRAKAFPFGAGAPGMSARLVQWLDTMKPAAFYGTPSYAIHLAEVAREEKLNPRNFGLKCLFFSGEPGASVPGVKDRIEEAYGAKVYDCGSMAEMSPFMNVAGTEQSNDGMLCWQDIIYTEVCDPANMRRVPYGQRGTPVYTHLERTSQPMIRLLSGDLTLWTNDENPCGRTYPRLPQGIFGRIDDMFTIRGENIYPSEIDAALNQMSGYGGEHRIVITRESAMDELLLRVEPSESVHAAGAAALETFRTEASHRVQTVLGVRAKVELVAPNSIARTDFKARRVIDDREVFRALNQQLQSS SGMEEWNFPVEYDENYLPPADSRYWFPRRETMPAAERDKAILGRLQQVCQYAWEHAPFYRRKWEEAGFQPSQLKSLEDFEARVPVVKKTDLRESQAAHPPFGDYVCVPNSEIFHVHGTSRPTAFGIGRADWRAIANAHARIMWGMGIRPGDLVCVAAVFSLYMGSWGALAGAERLRAKAFPFGAGAPGMSARLVQWLDTMKPAAFYGTPSYAIHLAEVAREEKLNPRNFGLKCLFFSGEPGASVPGVKDRIEEAYGAKVYDCGSMAEMSPFMNVAGTEQSNDGMLCWQDIIYTEVCDPANMRRVPYGQRGTPVYTHLERTSQPMIRLLSGDLTLWTNDENPCGRTYPRLPQGIFGRIDDMFTIRGENIYPSEIDAALNQMSGYGGEHRIVITRESAMDELLLRVEPSESVHAAGAAALETFRTEASHRVQTVLGVRAKVELVAPNSIARTDFKARRVIDDREVFRALNQQLQSS 6hdz-a1-m1-cB_6hdz-a1-m1-cA Pseudomonas aeruginosa Seryl-tRNA Synthetase in Complex with 5'-O-(N-(L-seryl)-Sulfamoyl)uridine Q9I0M6 Q9I0M6 2.06 X-RAY DIFFRACTION 137 0.995 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 377 421 6he1-a1-m1-cB_6he1-a1-m1-cA 6he3-a1-m1-cB_6he3-a1-m1-cA MLDPKLVRTQPQEVAARLATRGFQLDVARIEALEEQRKSVQTRDAIQGELDAMLLGIPNLPHESVPVGADEDANVEVRRWGTPKTFDFEVKDHVALGERHGWLDFETAAKLSGARFALMRGPIARLHRALAQFMINLHTAEHGYEEAYTPYLVQAPALQGTGQLPKFEEDLFKIGRDGEADLYLIPTAEVSLTNIVSGQILDAKQLPLKFVAHTPCFRSEAGADTRGMIRQHQFDKVEMVQIVDPATSYEALEGLTANAERVLQLLELPYRVLALCTGDMGFGSTKTYDLEVWVPSQDKYREISSCSNCGDFQARRMQARYRNPETGKPELVHTLNGSGLAVGRTLVAVLENYQQADGSIRVPEVLKPYMAGIEVIG MLDPKLVRTQPQEVAARLATRGFQLDVARIEALEEQRKSVQTRTEQLQAERNARSKAIGQAKQRGEDIAPLLADVDRMGSELEEGKRQLDAIQGELDAMLLGIPNLPHESVPVGADEDANVEVRRWGTPKTFDFEVKDHVALGERHGWLDFETAAKLSGARFALMRGPIARLHRALAQFMINLHTAEHGYEEAYTPYLVQAPALQGTGQLPKFEEDLFKIGRDGEADLYLIPTAEVSLTNIVSGQILDAKQLPLKFVAHTPCFRSEADTRGMIRQHQFDKVEMVQIVDPATSYEALEGLTANAERVLQLLELPYRVLALCTGDMGFGSTKTYDLEVWVPSQDKYREISSCSNCGDFQARRMQARYRNPETGKPELVHTLNGSGLAVGRTLVAVLENYQQADGSIRVPEVLKPYMAGIEVIG 6hee-a1-m2-cB_6hee-a1-m1-cA Crystal structure of Extracellular Domain 1 (ECD1) of FtsX from S. pneumonie in complex with undecyl-maltoside Q04LE4 Q04LE4 2.3 X-RAY DIFFRACTION 22 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 100 116 IENNVRVVVYIRKDVEDNSQTIEKEGQTVDYHKVYDSLKNVTFSSKEEQYEKLTEIMGDNWKIFEGDANPLYDAYIVAPNDVKTIAEDAKKIEGVSEVQD LATDIENNVRVVVYIRKDVEDNSQTIEKEGQTVTNNDYHKVYDSLKNMSTVKSVTFSSKEEQYEKLTEIMGDNWKIFEGDANPLYDAYIVEANAPNDVKTIAEDAKKIEGVSEVQD 6hee-a2-m1-cB_6hee-a2-m1-cA Crystal structure of Extracellular Domain 1 (ECD1) of FtsX from S. pneumonie in complex with undecyl-maltoside Q04LE4 Q04LE4 2.3 X-RAY DIFFRACTION 38 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 100 116 IENNVRVVVYIRKDVEDNSQTIEKEGQTVDYHKVYDSLKNVTFSSKEEQYEKLTEIMGDNWKIFEGDANPLYDAYIVAPNDVKTIAEDAKKIEGVSEVQD LATDIENNVRVVVYIRKDVEDNSQTIEKEGQTVTNNDYHKVYDSLKNMSTVKSVTFSSKEEQYEKLTEIMGDNWKIFEGDANPLYDAYIVEANAPNDVKTIAEDAKKIEGVSEVQD 6hek-a1-m1-cA_6hek-a1-m1-cC Structure of human USP28 bound to Ubiquitin-PA Q96RU2 Q96RU2 3.03 X-RAY DIFFRACTION 83 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 453 459 6h4h-a1-m2-cB_6h4h-a1-m1-cA 6hej-a1-m1-cB_6hej-a1-m1-cA PNPNDWRRVDGWPVGLKNVGNTCWFSAVIQSLFQLPEFRRLVLSYSLPQNVLENCRSHTEKRNIMFMQELQYLFALMMGSNRKFVDPSAALDLLKGAFREEQQQDVSEFTHKLLDWLEDAFQLAVNVNSPRENPMVQLFYGTFLTEGVREGKPFCNNETFGQYPLQVNGYRNLDECLEGAMVEYGQERWFTKLPPVLTFELSRFEFNQSLGQPEKIHNKLEFPQIIYMDRYMYRSKELIRNKRECIRKLKEEIKILQQKLERYVKYGSGPARFPLPDMLKYVIEFASTKQPAPRTVTDEEINFVKTCLQRWRSEIEQDIQDLKTCIASTTQTIEQMYCDPLLRQVPYRLHAVLVHEGQANAGHYWAYIYNQPRQSWLKYNDISVTESSWEEVERDSYGGLRNVSAYCLMYINDKLESDQMSEVEALSVELKHYIQEDNWRFEQEVEEWEEEQS PNPNDWRRVDGWPVGLKNVGNTCWFSAVIQSLFQLPEFRRLVLSYSLPQNVLENCRSHTEKRNIMFMQELQYLFALMMGSNRKFVDPSAALDLLKGAFREEQQQDVSEFTHKLLDWLEDAFQLAVNVNSSENPMVQLFYGTFLTEGVREGKPFCNNETFGQYPLQVNGYRNLDECLEGAMVEGDVVKYGQERWFTKLPPVLTFELSRFEFNQSLGQPEKIHNKLEFPQIIYMDRYMYRSKELIRNKRECIRKLKEEIKILQQKLERYVKYGSGPARFPLPDMLKYVIEFASTKPAMEMPSQPAPRTVTDEEINFVKTCLQRWRSEIEQDIQDLKTCIASTTQTIEQMYCDPLLRQVPYRLHAVLVHEGQANAGHYWAYIYNQPRQSWLKYNDISVTESSWEEVERDSYGGLRNVSAYCLMYINDKDQMSEVEALSVELKHYIQEDNWRFEQEVEEWEEE 6hf1-a1-m1-cB_6hf1-a1-m1-cE Mutant oxidoreductase fragment of mouse QSOX1 in complex with an antibody Fab 1.94 X-RAY DIFFRACTION 16 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 212 QIVLTQSPAIMSASPGEKVTISCSASSSVSYMYWYHQKPGSSPKPWIYRTSNLASGVPARFSGSGSGTSYSLTISSMEAEDAATYYCQQYHSYPLTFGAGTKLELKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRG QIVLTQSPAIMSASPGEKVTISCSASSSVSYMYWYHQKPGSSPKPWIYRTSNLASGVPARFSGSGSGTSYSLTISSMEAEDAATYYCQQYHSYPLTFGAGTKLELKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE 6hf1-a1-m1-cC_6hf1-a1-m1-cF Mutant oxidoreductase fragment of mouse QSOX1 in complex with an antibody Fab 1.94 X-RAY DIFFRACTION 40 0.995 10090 (Mus musculus) 10090 (Mus musculus) 209 210 QVQLQQSGPELVKPGASVKISCKASGYSFTSYYIHWVKQRPGQGLEWIGWIYPGSYNTEYSEKFKGKATLTADTSSSTAYMQLSSLTSEDSAVYYCARSEDWFAYWGQGTLVTVSASTKGPSVFPLAPGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEP QVQLQQSGPELVKPGASVKISCKASGYSFTSYYIHWVKQRPGQGLEWIGWIYPGSYNTEYSEKFKGKATLTADTSSSTAYMQLSSLTSEDSAVYYCARSEDWFAYWGQGTLVTVSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPK 6hfg-a1-m1-cB_6hfg-a1-m2-cB Structure of the REC114 PH domain Q9CWH4 Q9CWH4 2.5 X-RAY DIFFRACTION 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 AMGEVSQWSLKRYGRFMLGSPTWKVFESSEESGSLVLTIVVSGHFFISQGQTLLEGFSLIGSKNWLKIVRRMDCLLFGTMFRVQFSGESKEEALERCCGCVQTLAQYVTVQEPD AMGEVSQWSLKRYGRFMLGSPTWKVFESSEESGSLVLTIVVSGHFFISQGQTLLEGFSLIGSKNWLKIVRRMDCLLFGTMFRVQFSGESKEEALERCCGCVQTLAQYVTVQEPD 6hfj-a1-m1-cA_6hfj-a1-m2-cA Human dihydroorotase mutant F1563A co-crystallized with carbamoyl aspartate at pH 7.5 P27708 P27708 1.2 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 361 361 6hfd-a1-m1-cA_6hfd-a1-m2-cA 6hfe-a1-m1-cA_6hfe-a1-m2-cA 6hff-a1-m1-cA_6hff-a1-m2-cA 6hfh-a1-m1-cA_6hfh-a1-m2-cA 6hfi-a1-m1-cA_6hfi-a1-m2-cA 6hfk-a1-m1-cA_6hfk-a1-m2-cA 6hfl-a1-m1-cA_6hfl-a1-m2-cA 6hfr-a1-m1-cA_6hfr-a1-m2-cA 6hfs-a1-m1-cA_6hfs-a1-m2-cA 6hg2-a1-m1-cA_6hg2-a1-m2-cA KLVRLPGLIDVHVHLREPGGTHKEDFASGTAAALAGGITMVCAMPNTRPPIIDAPALALAQKLAEAGARCDFALFLGASSENAGTLGTVAGSAAGLLYLNETASELRLDSVVQWMEHFETWPSHLPIVAHAEQQTVAAVLMVAQLTQRSVHICHVARKEEILLIKAAKARGLPVTCEVAPHHLFLSHDDLERLGPGKGEVRPELGSRQDVEALWENMAVIDCFASDHAPHTLEEKCGSRPPPGFPGLETMLPLLLTAVSEGRLSLDDLLQRLHHNPRRIFHLPPQEDTYVEVDLEHEWTIPSHMPFSKAHWTPFEGQKVKGTVRRVVLRGEVAYIDGQVLVPPGYGQDVRKWPQGAVPQLP KLVRLPGLIDVHVHLREPGGTHKEDFASGTAAALAGGITMVCAMPNTRPPIIDAPALALAQKLAEAGARCDFALFLGASSENAGTLGTVAGSAAGLLYLNETASELRLDSVVQWMEHFETWPSHLPIVAHAEQQTVAAVLMVAQLTQRSVHICHVARKEEILLIKAAKARGLPVTCEVAPHHLFLSHDDLERLGPGKGEVRPELGSRQDVEALWENMAVIDCFASDHAPHTLEEKCGSRPPPGFPGLETMLPLLLTAVSEGRLSLDDLLQRLHHNPRRIFHLPPQEDTYVEVDLEHEWTIPSHMPFSKAHWTPFEGQKVKGTVRRVVLRGEVAYIDGQVLVPPGYGQDVRKWPQGAVPQLP 6hg7-a1-m1-cA_6hg7-a1-m1-cB Crystal structure of a collagen II fragment containing the binding site of PEDF and COMP, (POG)4-LKG HRG FTG LQG-POG(4) P02458 P02458 1 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 PGPGPGPGLKGHRGFTGLQGPGPGPGPG PGPGPGPGLKGHRGFTGLQGPGPGPGPG 6hg7-a1-m1-cB_6hg7-a1-m1-cC Crystal structure of a collagen II fragment containing the binding site of PEDF and COMP, (POG)4-LKG HRG FTG LQG-POG(4) P02458 P02458 1 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 6hg7-a1-m1-cA_6hg7-a1-m1-cC PGPGPGPGLKGHRGFTGLQGPGPGPGPG PGPGPGPGLKGHRGFTGLQGPGPGPGPG 6hgb-a1-m1-cD_6hgb-a1-m1-cC Influenza A virus N6 neuraminidase native structure (Duck/England/56). Q6XV27 Q6XV27 1.5 X-RAY DIFFRACTION 104 1.0 383550 (Influenza A virus (A/duck/England/1/1956(H11N6))) 383550 (Influenza A virus (A/duck/England/1/1956(H11N6))) 387 389 1v0z-a1-m1-cA_1v0z-a1-m1-cB 1v0z-a1-m1-cA_1v0z-a1-m1-cC 1v0z-a1-m1-cB_1v0z-a1-m1-cD 1v0z-a1-m1-cC_1v0z-a1-m1-cD 1w1x-a1-m1-cA_1w1x-a1-m1-cB 1w1x-a1-m1-cA_1w1x-a1-m1-cC 1w1x-a1-m1-cB_1w1x-a1-m1-cD 1w1x-a1-m1-cC_1w1x-a1-m1-cD 1w20-a1-m1-cA_1w20-a1-m1-cB 1w20-a1-m1-cA_1w20-a1-m1-cC 1w20-a1-m1-cB_1w20-a1-m1-cD 1w20-a1-m1-cC_1w20-a1-m1-cD 1w21-a1-m1-cA_1w21-a1-m1-cB 1w21-a1-m1-cA_1w21-a1-m1-cC 1w21-a1-m1-cB_1w21-a1-m1-cD 1w21-a1-m1-cC_1w21-a1-m1-cD 2cml-a1-m1-cA_2cml-a1-m1-cB 2cml-a1-m1-cA_2cml-a1-m1-cC 2cml-a1-m1-cB_2cml-a1-m1-cD 2cml-a1-m1-cC_2cml-a1-m1-cD 4qn4-a1-m1-cA_4qn4-a1-m3-cA 4qn4-a1-m1-cA_4qn4-a1-m4-cA 4qn4-a1-m2-cA_4qn4-a1-m3-cA 4qn4-a1-m2-cA_4qn4-a1-m4-cA 4qn4-a2-m1-cB_4qn4-a2-m3-cB 4qn4-a2-m1-cB_4qn4-a2-m4-cB 4qn4-a2-m2-cB_4qn4-a2-m3-cB 4qn4-a2-m2-cB_4qn4-a2-m4-cB 4qn6-a1-m1-cA_4qn6-a1-m3-cA 4qn6-a1-m1-cA_4qn6-a1-m4-cA 4qn6-a1-m2-cA_4qn6-a1-m3-cA 4qn6-a1-m2-cA_4qn6-a1-m4-cA 4qn6-a2-m1-cB_4qn6-a2-m3-cB 4qn6-a2-m1-cB_4qn6-a2-m4-cB 4qn6-a2-m2-cB_4qn6-a2-m3-cB 4qn6-a2-m2-cB_4qn6-a2-m4-cB 5hum-a1-m1-cA_5hum-a1-m1-cC 5hum-a1-m1-cA_5hum-a1-m1-cD 5hum-a1-m1-cB_5hum-a1-m1-cC 5hum-a1-m1-cB_5hum-a1-m1-cD 6hfy-a1-m1-cA_6hfy-a1-m1-cB 6hfy-a1-m1-cA_6hfy-a1-m1-cC 6hfy-a1-m1-cB_6hfy-a1-m1-cD 6hfy-a1-m1-cC_6hfy-a1-m1-cD 6hg5-a1-m1-cA_6hg5-a1-m1-cB 6hg5-a1-m1-cB_6hg5-a1-m1-cD 6hg5-a1-m1-cC_6hg5-a1-m1-cA 6hg5-a1-m1-cC_6hg5-a1-m1-cD 6hgb-a1-m1-cA_6hgb-a1-m1-cB 6hgb-a1-m1-cA_6hgb-a1-m1-cC 6hgb-a1-m1-cD_6hgb-a1-m1-cB RTFLNLTKPLCEVNSWHILSKDNAIRIGEDAHILVTREPYLSCDPQGCRMFALSQGTTLRGRHANGTIHDRSPFRALISWEMGQAPSPYNTRVECIGWSSTSCHDGMSRMSIMSGPNNNAAVVWYGGRPITEIPSWAGNILRTQESECVCHKGVCPVVMTDGPANNRAATKIIYFKEGKIQKIEELAGNAQHIEECSCYGAGGVIKCICRDNWKGANRPVITIDPEMMTHTSKYLCSKVLTDTSRPNDPTNGNCDAPITGGSPDPGVKGFAFLDGENSWLGRTISKDSRSGYEMLKVPNAETDIQSGPISNQVIVNNQNWSGYSGAFIDYWANKECFNPCFYVELIRGRPKESSVLWTSNSIVALCGSKKRLGSWSWHDGAEIIYFE RTFLNLTKPLCEVNSWHILSKDNAIRIGEDAHILVTREPYLSCDPQGCRMFALSQGTTLRGRHANGTIHDRSPFRALISWEMGQAPSPYNTRVECIGWSSTSCHDGMSRMSICMSGPNNNASAVVWYGGRPITEIPSWAGNILRTQESECVCHKGVCPVVMTDGPANNRAATKIIYFKEGKIQKIEELAGNAQHIEECSCYGAGGVIKCICRDNWKGANRPVITIDPEMMTHTSKYLCSKVLTDTSRPNDPTNGNCDAPITGGSPDPGVKGFAFLDGENSWLGRTISKDSRSGYEMLKVPNAETDIQSGPISNQVIVNNQNWSGYSGAFIDYWANKECFNPCFYVELIRGRPKESSVLWTSNSIVALCGSKKRLGSWSWHDGAEIIYFE 6hhb-a2-m1-cB_6hhb-a2-m1-cD Structure of iron bound IbpS from Dickeya dadantii E0SCP7 E0SCP7 1.8 X-RAY DIFFRACTION 56 1.0 198628 (Dickeya dadantii 3937) 198628 (Dickeya dadantii 3937) 345 345 6hhb-a1-m1-cA_6hhb-a1-m1-cC ATVAPDTRSLDEIYQSALKEGGTVTVYAGGDVQSQQAGFKQAFENRFPGIKLNVIVDYSKYHDARIDNQLATDTLIPDVVQLQTVQDFPRWKKQGVLLNYKPVGWDKVYPEFRDADGAWIGAYVIAFSNLVNTQLLNEKSWPREANDYLRPDLKGNLILAYPNDDDAVLFWYKQIVDKYGWEFVEKLQEQDPVYVRGTNVPGAQITTGKYSATFTSSGALVPAAGSVTRFVLPKTDPFVSWAQRAAIFKQAKHPESAKLYLSWLLDPQTQTQVSRMWSVRTDVAPPAGYKHIWEYSNTRPQAFADFMSDRGAVERFRAQMSLYVGEAKGDPTPGWLGLHPEVPLA ATVAPDTRSLDEIYQSALKEGGTVTVYAGGDVQSQQAGFKQAFENRFPGIKLNVIVDYSKYHDARIDNQLATDTLIPDVVQLQTVQDFPRWKKQGVLLNYKPVGWDKVYPEFRDADGAWIGAYVIAFSNLVNTQLLNEKSWPREANDYLRPDLKGNLILAYPNDDDAVLFWYKQIVDKYGWEFVEKLQEQDPVYVRGTNVPGAQITTGKYSATFTSSGALVPAAGSVTRFVLPKTDPFVSWAQRAAIFKQAKHPESAKLYLSWLLDPQTQTQVSRMWSVRTDVAPPAGYKHIWEYSNTRPQAFADFMSDRGAVERFRAQMSLYVGEAKGDPTPGWLGLHPEVPLA 6hhk-a2-m1-cC_6hhk-a2-m2-cC Structure of gp105 of Listeria bacteriophage A511 A8AST9 A8AST9 2.38 X-RAY DIFFRACTION 110 1.0 40523 (Pecentumvirus A511) 40523 (Pecentumvirus A511) 172 172 6hhk-a1-m1-cA_6hhk-a1-m1-cB GSAIATYNAHVYAALNLKSKVDTTFAIGKTTAWTDETNPPEPDPNATGLTEVIGYKKLKTSLCRPQRTGETPTLPTVSYGNKTWVLVPDAQAYTEGAKWLYCEAEFVGDELPVGTYRQVGVFTDLAPKSGVTKPNLLPSEVANVGVLQFFENKQFQNRTPQVTARERFVAEL GSAIATYNAHVYAALNLKSKVDTTFAIGKTTAWTDETNPPEPDPNATGLTEVIGYKKLKTSLCRPQRTGETPTLPTVSYGNKTWVLVPDAQAYTEGAKWLYCEAEFVGDELPVGTYRQVGVFTDLAPKSGVTKPNLLPSEVANVGVLQFFENKQFQNRTPQVTARERFVAEL 6hhn-a1-m1-cA_6hhn-a1-m2-cA Crystal structure of L-rhamnose mutarotase FA22100 from Formosa agariphila T2KM13 T2KM13 1.47 X-RAY DIFFRACTION 94 1.0 320324 (Formosa agariphila) 320324 (Formosa agariphila) 99 99 SERLAFKMKLNKGQKQAYKERHDQLWPELKQLLKDNGVSEYSIFIDEETNTLFAFQKVSGDLANNEIVKKWWDFMADIMQVNPDNSPVSIPLEEVFYME SERLAFKMKLNKGQKQAYKERHDQLWPELKQLLKDNGVSEYSIFIDEETNTLFAFQKVSGDLANNEIVKKWWDFMADIMQVNPDNSPVSIPLEEVFYME 6hhx-a1-m1-cA_6hhx-a1-m1-cB Structure of T. thermophilus AspRS in Complex with 5'-O-(N-(L-aspartyl)-sulfamoyl)cytidine Q5SKD2 Q5SKD2 2.1 X-RAY DIFFRACTION 321 0.998 274 (Thermus thermophilus) 274 (Thermus thermophilus) 574 580 1g51-a1-m1-cA_1g51-a1-m1-cB 1l0w-a1-m1-cA_1l0w-a1-m1-cB 6hhv-a1-m1-cA_6hhv-a1-m1-cB 6hhw-a1-m1-cA_6hhw-a1-m1-cB 6sjc-a1-m1-cA_6sjc-a1-m1-cB 7ap4-a1-m1-cA_7ap4-a1-m1-cB GMRRTHYAGSLRETHVGEEVVLEGWVNRRRDLGGLIFLDLRDREGLVQLVAHPASPAYATAERVRPEWVVRAKGLVRLRPEPNPRLATGRVEVELSALEVLAEAKTPPFPVDAGWRGEEEKEASEELRLKYRYLDLRRRRMQENLRLRHRVIKAIWDFLDREGFVQVETPFLTKSTPEGARDFLVPYRHEPGLFYALPQSPQLFKQMLMVAGLDRYFQIARCFRDEDLRADRQPDFTQLDLEMSFVEVEDVLELNERLMAHVFREALGVELPLPFPRLSYEEAMERYGSDKPDLRFGLELKEVGPLFRQSGFRVFQEAESVKALALPKALSRKEVAELEEVAKRHKAQGLAWARVEEGGFSGGVAKFLEPVREALLQATEARPGDTLLFVAGPRKVAATALGAVRLRAADLLGLKREGFRFLWVVDFPLLEWAWTYMHHPFTSPHPEDLPLLEKDPGRVRALAYDLVLNGVEVGGGSIRIHDPRLQARVFRLLGIGEEEQREKFGFFLEALEYGAPPHGGIAWGLDRLLALMTGSPSIREVIAFPKNKEGKDPLTGAPSPVPEEQLRELGLMVV GMRRTHYAGSLRETHVGEEVVLEGWVNRRRDLGGLIFLDLRDREGLVQLVAHPASPAYATAERVRPEWVVRAKGLVRLRPEPNPRLATGRVEVELSALEVLAEAKTPPFPVDAGWRGEEEKEASEELRLKYRYLDLRRRRMQENLRLRHRVIKAIWDFLDREGFVQVETPFLTKSPEGARDFLVPYRHEPGLFYALPQSPQLFKQMLMVAGLDRYFQIARCFRDEDLRADRQPDFTQLDLEMSFVEVEDVLELNERLMAHVFREALGVELPLPFPRLSYEEAMERYGSDKPDLRFGLELKEVGPLFRQSGFRVFQEAESVKALALPKALSRKEVAELEEVAKRHKAQGLAWARVEEGGFSGGVAKFLEPVREALLQATEARPGDTLLFVAGPRKVAATALGAVRLRAADLLGLKREGFRFLWVVDFPLLEWDEEEEAWTYMHHPFTSPHPEDLPLLEKDPGRVRALAYDLVLNGVEVGGGSIRIHDPRLQARVFRLLGIGEEEQREKFGFFLEALEYGAPPHGGIAWGLDRLLALMTGSPSIREVIAFPKNKEGKDPLTGAPSPVPEEQLRELGLMVVRP 6hit-a1-m1-cB_6hit-a1-m1-cD The crystal structure of haemoglobin from Atlantic cod B3F9D7 B3F9D7 2.5 X-RAY DIFFRACTION 15 1.0 8049 (Gadus morhua) 8049 (Gadus morhua) 145 145 VEWTDSERAIITSIFSNLDYEEIGRKSLCRCLIVYPWTQRYFGAFGNLYNAETILANPLIAAHGTKILHGLDRALKNMDDIKNTYAELSLLHSDKLHVDPDNFRLLADCLTVVIAAKMGSAFTVDTQVAWQKFLSVVVSALGRQY VEWTDSERAIITSIFSNLDYEEIGRKSLCRCLIVYPWTQRYFGAFGNLYNAETILANPLIAAHGTKILHGLDRALKNMDDIKNTYAELSLLHSDKLHVDPDNFRLLADCLTVVIAAKMGSAFTVDTQVAWQKFLSVVVSALGRQY 6hiu-a1-m1-cA_6hiu-a1-m1-cB Cytochrome P460 from Methylococcus capsulatus (Bath) G1UBD9 G1UBD9 1.36 X-RAY DIFFRACTION 124 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 143 143 PAAAPNGISLPAGYKDWKMIGVSSRIEQNNLRAILGNDIAVKAAREGRTHPWPDGAILVKLSWKKSTHELFPSAEVPGDFTQADFMVKDAAKYASTGGWGYARWLGMEQKPYGANADFAQECMGCHSGAKAADYVFTHPAKLP PAAAPNGISLPAGYKDWKMIGVSSRIEQNNLRAILGNDIAVKAAREGRTHPWPDGAILVKLSWKKSTHELFPSAEVPGDFTQADFMVKDAAKYASTGGWGYARWLGMEQKPYGANADFAQECMGCHSGAKAADYVFTHPAKLP 6hjo-a1-m1-cA_6hjo-a1-m1-cB Myxococcus xanthus MglA bound to GDP Q1DB04 Q1DB04 1.98 X-RAY DIFFRACTION 25 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 191 191 SFINYSSREINCKIVYYGPGLCGKTTNLQYIYNKTAAETKGKLISLSTETDRTLFFDFLPLSLGEIRGFKTRFHLYTVPGQVFYDASRKLILKGVDGVVFVADSQIERMEANMESLENLRINLAEQGYDLNKIPYVIQYNKRDLPNAVTVEEMRKALNHRNIPEYQAVAPTGVGVFDTLKAVAKLVLTELK SFINYSSREINCKIVYYGPGLCGKTTNLQYIYNKTAAETKGKLISLSTETDRTLFFDFLPLSLGEIRGFKTRFHLYTVPGQVFYDASRKLILKGVDGVVFVADSQIERMEANMESLENLRINLAEQGYDLNKIPYVIQYNKRDLPNAVTVEEMRKALNHRNIPEYQAVAPTGVGVFDTLKAVAKLVLTELK 6hjs-a1-m1-cA_6hjs-a1-m1-cB Crystal structure of glutathione transferase Omega 1C from Trametes versicolor R7S6N2 R7S6N2 1.612 X-RAY DIFFRACTION 58 1.0 717944 (Trametes versicolor FP-101664 SS1) 717944 (Trametes versicolor FP-101664 SS1) 236 236 PERITLYTAKICPFAQRAEIALAEAKAEFTPFQIDLSNKPEWYAPKVNPASKVPAIAYGGPEVPPDQPSPESVKLAESLVLVEFVADLFPNSGILSSDPVTRAQTRFFIEGVSSKLIPAWYAYFLRGASVDDLYTAAEYVQSLLPAEGFAVGKFSAADIAIAPFLARARVSLVNEIGKYPEGDGKKVWAALTSGKFARLGKYAEDLFARESFSSTFDEDYVTKAFSARFADLRSKH PERITLYTAKICPFAQRAEIALAEAKAEFTPFQIDLSNKPEWYAPKVNPASKVPAIAYGGPEVPPDQPSPESVKLAESLVLVEFVADLFPNSGILSSDPVTRAQTRFFIEGVSSKLIPAWYAYFLRGASVDDLYTAAEYVQSLLPAEGFAVGKFSAADIAIAPFLARARVSLVNEIGKYPEGDGKKVWAALTSGKFARLGKYAEDLFARESFSSTFDEDYVTKAFSARFADLRSKH 6hjw-a1-m1-cA_6hjw-a1-m1-cB Crystal structure of the chloroplast chorismate mutase from Zea mays B4FNK8 B4FNK8 2.5 X-RAY DIFFRACTION 109 0.992 4577 (Zea mays) 4577 (Zea mays) 240 245 ERVDRSEILTLDSIRQVLIRLEDSIIFGLLERAQFCYNADTYDSNAFHMGSLVEYMVRETEKLHAQVGRYKSPDEHPFFPEDLPEPRLPPMQYPRVLHPIADSININKEIWKMYFDELLPRLVKKGSDGNAGSSALCDTTCLQALSKRIHYGKFVAEAKFQESPEAYMPAIIAQDRDQLMHLLTYETVERAIEHRVEAKAKIFGQEVYKIVPSLVAELYSYRIMPLTKEVQIAYLLKRLD RVDRSEILTLDSIRQVLIRLEDSIIFGLLERAQFCYNADTYDSNAFHMDGFGGSLVEYMVRETEKLHAQVGRYKSPDEHPFFPEDLPEPRLPPMQYPRVLHPIADSININKEIWKMYFDELLPRLVKKGSDGNAGSSALCDTTCLQALSKRIHYGKFVAEAKFQESPEAYMPAIIAQDRDQLMHLLTYETVERAIEHRVEAKAKIFGQEYKIVPSLVAELYSYRIMPLTKEVQIAYLLKRLDHHH 6hk5-a2-m1-cC_6hk5-a2-m1-cB X-ray structure of a truncated mutant of the metallochaperone CooJ with a high-affinity nickel-binding site P72321 P72321 2.042 X-RAY DIFFRACTION 91 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 61 64 6hk5-a1-m1-cC_6hk5-a1-m1-cB 6hk5-a1-m1-cE_6hk5-a1-m1-cG 6hk5-a3-m1-cE_6hk5-a3-m1-cG 6hk5-a4-m1-cD_6hk5-a4-m1-cA 6hk5-a4-m1-cH_6hk5-a4-m1-cF 6hk5-a5-m1-cD_6hk5-a5-m1-cA 6hk5-a6-m1-cH_6hk5-a6-m1-cF ERGRKRLGIYLAHFLDHVEGHGEIGVQRDALAEDARLGALIDRALADAVARASLNAVLRDL ESPERGRKRLGIYLAHFLDHVEGHGEIGVQRDALAEDARLGALIDRALADAVARASLNAVLRDL 6hk5-a4-m1-cF_6hk5-a4-m1-cD X-ray structure of a truncated mutant of the metallochaperone CooJ with a high-affinity nickel-binding site P72321 P72321 2.042 X-RAY DIFFRACTION 16 0.983 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 59 62 6hk5-a1-m1-cC_6hk5-a1-m1-cG GRKRLGIYLAHFLDHVEGHGEIGVQRDALAEDARLGALIDRALADAVARASLNAVLRDL SPERGRKRLGIYLAHFLDHVEGHGEIGVQRDALAEDARLGALIDRALADAVARASLNAVLRD 6hk6-a3-m1-cE_6hk6-a3-m1-cD Human RIOK2 bound to inhibitor Q9BVS4 Q9BVS4 2.35 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 290 6fdm-a1-m1-cB_6fdm-a1-m1-cA 6fdm-a2-m1-cD_6fdm-a2-m1-cC 6fdn-a1-m1-cA_6fdn-a1-m1-cB 6hk6-a1-m1-cA_6hk6-a1-m1-cB 6hk6-a2-m1-cF_6hk6-a2-m1-cC 6hk6-a4-m1-cG_6hk6-a4-m1-cJ 6hk6-a5-m1-cH_6hk6-a5-m2-cI 7vbt-a1-m1-cB_7vbt-a1-m1-cA GKVNVAKLRYMSRDDFRVLTAVEMGMKNHEIVPGSLIASIASLKHGGCNKVLRELVKHKLIAWERTKTVQGYRLTNAGYDYLALKTLSSRQVVESVGNQMGVGKESDIYIVANEEGQQFALKLHRLGRTSFRNLNVSWLYLSRLSAMKEFAYMKALYERKFPVPKPIDYNRHAVVMELINGYPLCQIHHVEDPASVYDEAMELIVKLANHGLIHGDFNEFNLILDESDHITMIDFPQMVSTSHPNAEWYFDRDVKCIKDFFMKRFSYESELFPTFKDIRREDTLDVEVS GKVNVAKLRYMSRDDFRVLTAVEMGMKNHEIVPGSLIASIASLKHGGCNKVLRELVKHKLIAWERTKTVQGYRLTNAGYDYLALKTLSSRQVVESVGNQMGVGKESDIYIVANEEGQQFALKLHRLGRTSFRNLHNVSWLYLSRLSAMKEFAYMKALYERKFPVPKPIDYNRHAVVMELINGYPLCQIHHVEDPASVYDEAMELIVKLANHGLIHGDFNEFNLILDESDHITMIDFPQMVSTSHPNAEWYFDRDVKCIKDFFMKRFSYESELFPTFKDIRREDTLDVEVS 6hlk-a1-m1-cA_6hlk-a1-m2-cA Hijacking the Hijackers: Escherichia coli Pathogenicity Islands Redirect Helper Phage Packaging for Their Own Benefit. A0A5H1ZR32 A0A5H1ZR32 2.42 X-RAY DIFFRACTION 77 1.0 562 (Escherichia coli) 562 (Escherichia coli) 127 127 6hn7-a1-m1-cA_6hn7-a1-m2-cA FLSQQEIADQFGVDRTTVRAWTKRGLPFIEGDKGKPGRYQLGHVLFWVRGQEGLKELGTGELHPLDCIHSREILSVGEEEDKQEYEKKFNKGLEIYGYSPDEIAQARGRAQGIEIGRELTLKRLKKH FLSQQEIADQFGVDRTTVRAWTKRGLPFIEGDKGKPGRYQLGHVLFWVRGQEGLKELGTGELHPLDCIHSREILSVGEEEDKQEYEKKFNKGLEIYGYSPDEIAQARGRAQGIEIGRELTLKRLKKH 6hlu-a1-m1-cB_6hlu-a1-m1-cA Crystal structure of the LRR-Roc-COR domain of the Chlorobium tepidum Roco protein Q8KC98 Q8KC98 3.29 X-RAY DIFFRACTION 142 0.996 1097 (Chlorobaculum tepidum) 1097 (Chlorobaculum tepidum) 896 908 3dpt-a2-m1-cA_3dpt-a2-m2-cB 3dpt-a3-m3-cA_3dpt-a3-m1-cB SDLDVIRQIEQELGMQLEPVDKLKWYSKGYKLDKDQRVTAIGLYDCGSDTLDRIIQPLESLKSLSELSLSSNQITDISPLASLNSLSMLWLDRNQITDIAPLASLNSLSMLWLFGNKISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELSLSGNNISDIAPLESLKSLTELSLSSNQITDIAPLASLKSLTELSLSSNQISDIAPLESLKSLTELQLSRNQISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELQLSRNQISDIAPLESLNSLSKLWLNGNQITDIAPLASLNSLTELELSSNQITDIAPLASLKSLSTLWLSSNQISDIAPLASLESLSELSLSSNQISDISPLASLNSLTGFDVRRNPIKRLPETITGFDMEILWNDFSSSGFITFFDNPLESPPPEIVKQGKEAVRQYFQSIEEARSKGEALVHLQEIKVHLIGDGMAGKTSLLKQLILNVVTKQAPNIKGLENDDELKECLFHFWDFGGQEIMHASHQFFMTRSSVYMLLLDSRTDSNKHYWLRHIEKYGGKSPVIVVMNKIDENPSYNIEQKKINERFPAIENRFHRISCVESIAKSLKSAVLHPDSIYGTPLAPSWIKVKEKLVEATTAQRYLNRTEVEKICNDSGITDPGERKTLLGYLNNLGIVLYFEALDLSEIYVLDPHWVTIGVYRIINSSKTKNGHLNTSALGYILYTLLEQRYLLDIMKQFELCYDEGKGLFIIPSNLPTQIDNEPEITFIMKYDYLPSTIIPRLMIAMQHQILDRMQWRYGMVLKSQDHEGALAKVVAETKDSTITIAIQGEPRCKREYLSIIWYEIKKINANFTNLDVKEFIPLPGHPDELVEYKELLGLEKMGRDEYVSGKLEKVFSVSKMLDSVISKE SDLDVIRQIEQELGMQLEPVDKLKWYSKGYKLDKDQRVTAIGLYDCGSDTLDRIIQPLESLKSLSELSLSSNQITDISPLASLNSLSMLWLDRNQITDIAPLASLNSLSMLWLFGNKISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELSLSGNNISDIAPLESLKSLTELSLSSNQITDIAPLASLKSLTELSLSSNQISDIAPLESLKSLTELQLSRNQISDIAPLESLKSLTELQLSSNQITDIAPLASLKSLTELQLSRNQISDIAPLESLNSLSKLWLNGNQITDIAPLASLNSLTELELSSNQITDIAPLASLKSLSTLWLSSNQISDIAPLASLESLSELSLSSNQISDISPLASLNSLTGFDVRRNPIKRLPETITGFDMEILWNDFSSSGFITFFDNPLESPPPEIVKQGKEAVRQYFQSIEEARSKGEALVHLQEIKVHLIGDGMAGKTSLLKQLIGEGLNVVTKQAPNIKGLENDDELKECLFHFWDFGGQEIMHASHQFFMTRSSVYMLLLDSRTDSNKHYWLRHIEKYGGKSPVIVVMNKIDENPSYNIEQKKINERFPAIENRFHRISCVESIAKSLKSAVLHPDSIYGTPLAPSWIKVKEKLVEATTAQRYLNRTEVEKICNDSGITDPGERKTLLGYLNNLGIVLYFEALDLSEIYVLDPHWVTIGVYRIINSSKTKNGHLNTSALGYILNEEQKFTYTLLEQRYLLDIMKQFELCYDEGKGLFIIPSNLPTQIDITEGEPLRFIMKYDYLPSTIIPRLMIAMQHQILDRMQWRYGMVLKSQDHEGALAKVVAETKDSTITIAIQGEPRCKREYLSIIWYEIKKINANFTNLDVKEFIPLPGHPDELVEYKELLGLEKMGRDEYVSGKLEKVFSVSKMLDSVISKE 6hmj-a2-m1-cD_6hmj-a2-m1-cC Structure of an RNA-binding Light-Oxygen-Voltage Receptor C8XJT7 C8XJT7 2.51 X-RAY DIFFRACTION 250 0.983 479431 (Nakamurella multipartita DSM 44233) 479431 (Nakamurella multipartita DSM 44233) 353 355 6hmj-a1-m1-cB_6hmj-a1-m1-cA SFGSFVLDAGSARFVGSDELALVLGFAPGDVVLTPAVVLAHLHPDDRLEWQAGLQRCLATGRPVVVNHLLLTAEAEPRPAMTTLTALTEQDRVRAVTGVITDLSDRVRRATEAEIRQAVRAAAATRSEIDQAKGIVMAAFDVDADQAFALLKWHSSQSNRKLRDLATGMIEGLAAANSALPLRRRLSTVFTDMGCPAPSTKGWTVPVTDPPTSGLIPTALLPGILTRAAHDASVAITVADVTAPDQPLVYANPAFERLTGYAAAEVLGRNCRFLQAESGDPHERSAIRSAIANGDAVTTLIRNFRQDGHAFWNEFHLSPVRNGAGRVTHYIGYQLDVTERVERDQQLEQLASL SFGSFVLDAGSARFVGSDELALVLGFAPGDVVLTPAVVLAHLHPDDRLEWQAGLQRCLATGRPVVVNHLLLTAEAEPRPAMTTLTALVRAVTGVITDLSDRVRRATEAEIRQAVRAAAATRSEIDQAKGIVMAAFDVDADQAFALLKWHSSQSNRKLRDLATGMIEGLAAANSALPLRRRLSTVFTDMGCPAPSTKGWTVPVTLPPTSGLIPTALLPGILTRAAHDASVAITVADVTAPDQPLVYANPAFERLTGYAAAEVLGRNCRFLQAESGDPHERSAIRSAIANGDAVTTLIRNFRQDGHAFWNEFHLSPVRNGAGRVTHYIGYQLDVTERVERDQQLEQLASLEHHHHHH 6hnd-a1-m1-cA_6hnd-a1-m1-cB Crystal structure of the aromatic aminotransferase Aro9 from C. Albicans A0A1D8PMC5 A0A1D8PMC5 2.23 X-RAY DIFFRACTION 342 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 467 470 6hnv-a1-m1-cA_6hnv-a1-m1-cB SDPTHLISKRAAGRTSVDKPPANFKPHEKPLALSYGMPNHGFFPIDSIDVNLVDYPFQKITPQSTVHISRHTTDPKLIDLARGLQYAAVEGHAPLLQFARDFIIRTHKPNYDDWNVFITTGASDGLNKAADVFLDDGDVILVEEFTFSPFLRFSDNAGAKAVPVKINFDNDSDGIDLTQFVDLLENWEKHYPNLPKPKALYTIATGQNPTGFTQSLEFRKKIYDLAVKYDFAIIEDDPYGYLTLPKYEKPNDLEIDDYLKNHLTPSYLELDTTGRVLRVETFSKLFAPGLRLGFIVGHKEVIDAVKNYSDVVNRGASGLTQTIVNNVIQENFKGVDGWLEWILKMRLNYSYRKDLLLYSIFESQAYKKGYVDVIDPKAGMFVTFKINLPKDVDVLQKMKLLLWKLISYGILVVPGYNMTVDLEFSKDRSNFFRLCYALANNDEEILESGKRLTDAVYEFFSNGLEFH SDPTHLISKRAAGRTSVPSDKPPANFKPHEKPLALSYGMPNHGFFPIDSIDVNLVDYPFQKIHTPQSTVHISRHTTDPKLIDLARGLQYAAVEGHAPLLQFARDFIIRTHKPNYDDWNVFITTGASDGLNKAADVFLDDGDVILVEEFTFSPFLRFSDNAGAKAVPVKINFDNDSDGIDLTQFVDLLENWEKHYPNLPKPKALYTIATGQNPTGFTQSLEFRKKIYDLAVKYDFAIIEDDPYGYLTLPKYEKPNDLEIDDYLKNHLTPSYLELDTTGRVLRVETFSKLFAPGLRLGFIVGHKEVIDAVKNYSDVVNRGASGLTQTIVNNVIQENFKGVDGWLEWILKMRLNYSYRKDLLLYSIFESQAYKKGYVDVIDPKAGMFVTFKINLPKDVDVLQKMKLLLWKLISYGILVVPGYNMTVDLEFSKDRSNFFRLCYALANNDEEILESGKRLTDAVYEFFSNGLEFH 6hnn-a3-m1-cF_6hnn-a3-m1-cE Crystal structure of wild-type IdmH, a putative polyketide cyclase from Streptomyces antibioticus C5HV10 C5HV10 2.7 X-RAY DIFFRACTION 91 1.0 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 136 138 6hnl-a1-m1-cA_6hnl-a1-m1-cB 6hnm-a1-m1-cA_6hnm-a1-m1-cB 6hnn-a1-m1-cB_6hnn-a1-m1-cA 6hnn-a2-m1-cC_6hnn-a2-m1-cD 6hnn-a4-m1-cG_6hnn-a4-m1-cH 6hnn-a5-m1-cJ_6hnn-a5-m1-cI QPSDTIAGLYEAFNSGDLETLRELIAPDAVIHLPGTAGDAEHPPGTPRDREGWLGVWQFTQAFFPDMTATVQDIVQTGDLVATRCVARGTHSIEFMGVPPTGRPFEMTMLNMSRVRDGRIVEHWTISDNVTMLAQL QPSDTIAGLYEAFNSGDLETLRELIAPDAVIHLPGTAGDAEHPPGTPRDREGWLGVWQFTQAFFPDMTATVQDIVQTGDLVATRCVARGTHSIEFMGVPPTGRPFEMTMLNMSRVRDGRIVEHWTISDNVTMLAQLGV 6hns-a2-m1-cB_6hns-a2-m3-cB Structure of Nitrincola lacisaponensis flavin-containing monooxygenase (FMO) in complex with FAD and NADP+ A0A063Y6V3 A0A063Y6V3 1.84 X-RAY DIFFRACTION 101 1.0 267850 (Nitrincola lacisaponensis) 267850 (Nitrincola lacisaponensis) 442 442 6hns-a1-m1-cA_6hns-a1-m2-cA TRVAIIGAGPCGLAQLRAFQSAAAKGAAIPELVCFEKQSDWGGMWNYTWRTGVDEHGEPVHGSMYRYLWSNGPKECLEFADYTFDEHFGRPIGSYPPREVLWDYIKGRVEKAGVRDYIRFNTAVRQVSYDETSGLFSVTVQDHSNNRVYTETFDYVVNACGHFSTPNTPYFEGFERFGGRVLHAHDFRDALEFKDKDILVVGSSYSAEDIGSQCYKYGARSITSCYRSAPMGYQWPQNWEEKPLLQRVDSDTAWFADGSHKRIDAIILCTGYQHHFPFLPDSLRLITENRLWPLKLYKGIFWEDNPKFLYLGMQDQWYSFNMFDAQAWYARDVILGRISLPGKAEMQAENQAWREREEKLQTAQEMFEFQGSYIQHLIDATDYPSFDIQAVNETFLAWKHDKYEDIMGYRNKCYRSLMTGTLATPHHTPWLDALDDSLEAYL TRVAIIGAGPCGLAQLRAFQSAAAKGAAIPELVCFEKQSDWGGMWNYTWRTGVDEHGEPVHGSMYRYLWSNGPKECLEFADYTFDEHFGRPIGSYPPREVLWDYIKGRVEKAGVRDYIRFNTAVRQVSYDETSGLFSVTVQDHSNNRVYTETFDYVVNACGHFSTPNTPYFEGFERFGGRVLHAHDFRDALEFKDKDILVVGSSYSAEDIGSQCYKYGARSITSCYRSAPMGYQWPQNWEEKPLLQRVDSDTAWFADGSHKRIDAIILCTGYQHHFPFLPDSLRLITENRLWPLKLYKGIFWEDNPKFLYLGMQDQWYSFNMFDAQAWYARDVILGRISLPGKAEMQAENQAWREREEKLQTAQEMFEFQGSYIQHLIDATDYPSFDIQAVNETFLAWKHDKYEDIMGYRNKCYRSLMTGTLATPHHTPWLDALDDSLEAYL 6hnu-a1-m1-cA_6hnu-a1-m1-cB Crystal structure of the aminotransferase Aro8 from C. Albicans with ligands C4YJ02 C4YJ02 1.8 X-RAY DIFFRACTION 345 1.0 294748 (Candida albicans WO-1) 294748 (Candida albicans WO-1) 479 480 6hnb-a1-m1-cB_6hnb-a1-m1-cA KPQAKDLTHLLSNESKARQTSPLKGIFKYYKQPGITFLGGGLPLSDYFPFEKVTADIPTPSFSGGIGAPIEGENKTTIEVFKKAADNVPDQIELARSLQYGSTFGLPEFLQFIKEHTDMVHKVPYENWDVIVSVGNTEAWDSTLRTFCSKGDTILVEEYTFSSALESANGQGVNTVPVTMDEFGIIPEKLEELMSRWVGNKPKFLYTICTGQNPTGSSLSAERRKQIYDIACKYDFLIIEDEPYYFLQMETYTKDKAAREGKAVHDHDEFLKALVPSFISLDVEGRVVRLDSFSKVLAPGLRLGWIVGQKDLLERYVRLHEVSVQNPSGFSEALANALLRKWGHSGYLDWLIGLRAEYTHKRDVAIDALDQFVPKEVSSFNPPVAGMFFTVTLDASKHPKYKEFLEDPLKVEAAVHEQAIKQGCLLAPGSWFKAEGQSSPPQKNKTHIFFRGTYAAVPLDQLVVGLEKFGKAVRAEFGL TKPQAKDLTHLLSNESKARQTSPLKGIFKYYKQPGITFLGGGLPLSDYFPFEKVTADIPTPSFSGGIGAPIEGENKTTIEVFKKAADNVPDQIELARSLQYGSTFGLPEFLQFIKEHTDMVHKVPYENWDVIVSVGNTEAWDSTLRTFCSKGDTILVEEYTFSSALESANGQGVNTVPVTMDEFGIIPEKLEELMSRWVGNKPKFLYTICTGQNPTGSSLSAERRKQIYDIACKYDFLIIEDEPYYFLQMETYTKDKAAREGKAVHDHDEFLKALVPSFISLDVEGRVVRLDSFSKVLAPGLRLGWIVGQKDLLERYVRLHEVSVQNPSGFSEALANALLRKWGHSGYLDWLIGLRAEYTHKRDVAIDALDQFVPKEVSSFNPPVAGMFFTVTLDASKHPKYKEFLEDPLKVEAAVHEQAIKQGCLLAPGSWFKAEGQSSPPQKNKTHIFFRGTYAAVPLDQLVVGLEKFGKAVRAEFGL 6hpq-a1-m1-cA_6hpq-a1-m1-cB Crystal structure of human Pif1 helicase in complex with AMP-PNP, brominated crystal form. Q9H611 Q9H611 1.43 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 416 416 MQLSEEQAAVLRAVLKGQSIFFTGSAGTGKSYLLKRILGSLPPTGTVATASTGVAACHIGGTTLHAFAGIGSGQAPLAQCVALAQRPGVRQGWLNCQRLVIDEISMVEADLFDKLEAVARAVRQQNKPFGGIQLIICGDFLQLPPVTKGSQPPRFCFQSKSWKRCVPVTLELTKVWRQADQTFISLLQAVRLGRCSDEVTRQLQATASHKVGRDGIVATRLCTHQDDVALTNERRLQELPGKVHRFEAMDSNPELASTLDAQCPVSQLLQLKLGAQVMLVKNLSVSRGLVNGARGVVVGFEAEGRGLPQVRFLCGVTEVIHADRWTVQATGGQLLSRQQLPLQLAWAMSIHKSQGMTLDCVEISLGRVFASGQAYVALSRARSLQGLRVLDFDPMAVRCDPRVLHFYATLRRGRSL MQLSEEQAAVLRAVLKGQSIFFTGSAGTGKSYLLKRILGSLPPTGTVATASTGVAACHIGGTTLHAFAGIGSGQAPLAQCVALAQRPGVRQGWLNCQRLVIDEISMVEADLFDKLEAVARAVRQQNKPFGGIQLIICGDFLQLPPVTKGSQPPRFCFQSKSWKRCVPVTLELTKVWRQADQTFISLLQAVRLGRCSDEVTRQLQATASHKVGRDGIVATRLCTHQDDVALTNERRLQELPGKVHRFEAMDSNPELASTLDAQCPVSQLLQLKLGAQVMLVKNLSVSRGLVNGARGVVVGFEAEGRGLPQVRFLCGVTEVIHADRWTVQATGGQLLSRQQLPLQLAWAMSIHKSQGMTLDCVEISLGRVFASGQAYVALSRARSLQGLRVLDFDPMAVRCDPRVLHFYATLRRGRSL 6hq3-a2-m1-cB_6hq3-a2-m1-cC Structure of EAL Enzyme Bd1971 - halfsite-occupied form Q6MLN6 Q6MLN6 2.79 X-RAY DIFFRACTION 71 0.991 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 107 109 6hq2-a1-m1-cB_6hq2-a1-m1-cA 6hq3-a1-m1-cD_6hq3-a1-m1-cA AQSVDIHKDQIIFSEGDAGDCAYIIEKGRVLIYLTKDKEEIPLTILGEGEIFGEMALIDNQNRSASVRALEDVRLAIVTKQQVLERVSTADKVVQLLMRVLLKRLRR QSVDIHKDQIIFSEGDAGDCAYIIEKGRVLIYLTKDKEEIPLTILGEGEIFGEMALIDNQNRSASVRALEDVRLAIVTKQQVLERVSTADKVVQLLMRVLLKRLRRKNI 6hq6-a1-m1-cB_6hq6-a1-m1-cA Bacterial beta-1,3-oligosaccharide phosphorylase from GH149 2.05 X-RAY DIFFRACTION 282 1.0 256318 (metagenome) 256318 (metagenome) 1133 1135 6hq8-a1-m1-cA_6hq8-a1-m1-cB SITMDMVSMNGEMFYKIANNDAMRPFFMTIVSDSNHWMFVSSNGGLTAGRKNAEYALFPYYTDDKITESADITGSKSIFQIQYNNELIVWEPFSERFTNKFKITRNLYKNYYGNKIIFEEINEDLGLTYRYQWCSSNQFGFVRKSELSNHSKNVYEISLLDGIQNIMPYGVSSDLQSSTSNLVDAYKRSELHPKSGLGIFALSAIIVDKAEPSEALKANIAWSLGLNNPKYLVSSLQLNHFRNGKSISPEDDIKGEKGAYFLNTVMTLEANTQKEWMIIANVNQDHSDIIAITETIQNNKKIAEDINTDIELGTKRLIELNASSDALQLTADNLRDTRHFSNTLFNIMRGGIFDNNYQIEKGDFSNYIKKANKLVFDKIDLNALGEIFSLNDLNEFASKQKDVDFDRLALEYLPLKFSRRHGDPSRPWNKFSINTQSEIDGSKVLDYEGNWRDIFQNWEALAHSFPNFIDSMIHKFLNASTFDGYNPYRVTKEGFDWETIWSYIGYWGDHQIIYLLKFLEFIEKHQPGKLHSYFESECFVYAAVPYTIKPYEEILNNPKDTIGYNHEWEKVINERKKSIGADGALLKSNDKSIYHVNFIEKILATVLAKMSNFIPEAGIWLNTQRPEWNDANNALVGNGVSMVTLYYLRRFLKFFDQLLENSTLENIKISNEMVEFYHKVRETLMENQHLLAGSISDTDRKVILDKLGNAAADYRFQIYNSGFWGKKRTHSMQGLKNFTKVSLQFIDHSIKANQRPDKLYHAYNLMSVEKNKEIAISYLSEMLEGQVAVLSSGFLSSKENLAVLDGLKNSALFREDQYSYLLYPNKELPKFLDKNTISKEAVSKSELLSLLVSKSNKQVIEKDSIGEYHFNGEFNNASNLKQALEDLSQQNEYKDLVAKESKTVEAIFEDVFNHKAFTGRSGTFYGYEGLGSIYWHMVSKLQLAVLECCLKAVEEKESEEVIGRLLEHYYEINEGIGVHKSPSLYGAFPTDAYSHTPAGKGAQQPGMTGQVKEDILSRFGELGIFVKNGCLELNPCLLRKDEFLKEAKTFDYVTVNFQHQSLELVEKSLAFTYCQIPIIYKIANQKCIEVFTNDGKSAKAASLILDKQTSQDVFGRTGIINKIEVSILESDLR SITMDMVSMNGEMFYKIANNDAMRPFFMTIVSDSNHWMFVSSNGGLTAGRKNAEYALFPYYTDDKITESADITGSKSIFQIQYNNELIVWEPFSERFTNKFKITRNLYKNYYGNKIIFEEINEDLGLTYRYQWCSSNQFGFVRKSELSNHSKNVYEISLLDGIQNIMPYGVSSDLQSSTSNLVDAYKRSELHPKSGLGIFALSAIIVDKAEPSEALKANIAWSLGLNNPKYLVSSLQLNHFRNGKSISPEDDIKGEKGAYFLNTVMTLEANTQKEWMIIANVNQDHSDIIAITETIQNNKKIAEDINTDIELGTKRLIELNASSDALQLTADNLRDTRHFSNTLFNIMRGGIFDNNYQIEKGDFSNYIKKANKLVFDKIDLNALGEIFSLNDLNEFASKQKDVDFDRLALEYLPLKFSRRHGDPSRPWNKFSINTQSEIDGSKVLDYEGNWRDIFQNWEALAHSFPNFIDSMIHKFLNASTFDGYNPYRVTKEGFDWETIEPWSYIGYWGDHQIIYLLKFLEFIEKHQPGKLHSYFESECFVYAAVPYTIKPYEEILNNPKDTIGYNHEWEKVINERKKSIGADGALLKSNDKSIYHVNFIEKILATVLAKMSNFIPEAGIWLNTQRPEWNDANNALVGNGVSMVTLYYLRRFLKFFDQLLENSTLENIKISNEMVEFYHKVRETLMENQHLLAGSISDTDRKVILDKLGNAAADYRFQIYNSGFWGKKRTHSMQGLKNFTKVSLQFIDHSIKANQRPDKLYHAYNLMSVEKNKEIAISYLSEMLEGQVAVLSSGFLSSKENLAVLDGLKNSALFREDQYSYLLYPNKELPKFLDKNTISKEAVSKSELLSLLVSKSNKQVIEKDSIGEYHFNGEFNNASNLKQALEDLSQQNEYKDLVAKESKTVEAIFEDVFNHKAFTGRSGTFYGYEGLGSIYWHMVSKLQLAVLECCLKAVEEKESEEVIGRLLEHYYEINEGIGVHKSPSLYGAFPTDAYSHTPAGKGAQQPGMTGQVKEDILSRFGELGIFVKNGCLELNPCLLRKDEFLKEAKTFDYVTVNFQHQSLELVEKSLAFTYCQIPIIYKIANQKCIEVFTNDGKSAKAASLILDKQTSQDVFGRTGIINKIEVSILESDLR 6hq7-a1-m1-cB_6hq7-a1-m1-cA Structure of EAL Enzyme Bd1971 - cGMP bound form Q6MLN6 Q6MLN6 2.46 X-RAY DIFFRACTION 204 0.995 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 372 377 6hq4-a1-m1-cB_6hq4-a1-m1-cA 6hq5-a1-m1-cA_6hq5-a1-m1-cB QSVDIHKDQIIFSEGDAGDCAYIIEKGRVLIYLTKDKEEIPLTILGEGEIFGEMALIDNQNRSASVRALEDVRLAIVTKQQVLERVSTADKVVQLLMRVLLKRLRRGTQSALDQIKLENQIFQAFQNKEFELFYQPIVNLKNKTITGCEALLRWNSPQHGLVSPNLFIDIIENSSMVIPIGHWIINQALKDLRTIQDQLRLNKKERMADDFMMSINISGRQFTHSDFVNNLEDLREKHDLHTQNIKLEMTERIMMDGAIAIDALNQCRSLGYAISIDDFGTGFSGLQYLTQMPISFLKIDRSFVMKILSDPKSKAVVSSIIHLAHAMDIEVIAEGIEHHEEALVLETLGARFGQGYLFSKPVDLGRFLKLIK QSVDIHKDQIIFSEGDAGDCAYIIEKGRVLIYLTKDKEEIPLTILGEGEIFGEMALIDNQNRSASVRALEDVRLAIVTKQQVLERVSTADKVVQLLMRVLLKRLRRPGGSRISSALDQIKLENQIFQAFQNKEFELFYQPIVNLKNKTITGCEALLRWNSPQHGLVSPNLFIDIIENSSMVIPIGHWIINQALKDLRTIQDQLRLNKKERMADDFMMSINISGRQFTHSDFVNNLEDLREKHDLHTQNIKLEMTERIMMDGAIAIDALNQCRSLGYAISIDDFGTGFSGLQYLTQMPISFLKIDRSFVMKILSDPKSKAVVSSIIHLAHAMDIEVIAEGIEHHEEALVLETLGARFGQGYLFSKPVDLGRFLKLIKL 6hqa-a1-m1-cC_6hqa-a1-m1-cB Molecular structure of promoter-bound yeast TFIID C4R4L4 C4R4L4 7.1 ELECTRON MICROSCOPY 27 1.0 644223 (Komagataella phaffii GS115) 644223 (Komagataella phaffii GS115) 136 522 PATIKRGYSILKSWCESSLDFYRPELEKFLYPVFVHCYLDLIARGYPSHAREFYDKFSKDHSVLHEYEISKLGGISLKEHLQENDVAKIFRSHKFKVLIGRTTFNLLLYFLNENDAVGGGVVLRLINQYIEPVITT PATIKRGYSILKSWCESSLDFYRPELEKFLYPVFVHCYLDLIARGYPSHAREFYDKFSKDHSVLHEYEISKLGGISLKEHLQENDVAKIFRSHKFKVLIGRTTFNLLLYFLNENDAVGGGVVLRLINQYIEPVITTSDENNPSKDTLPLPLKSAQDLRNDIAMIQDSRAKIKLSAAQASLPSVCMYTFHNTNNDLTCLKFNDDSTMVASGFQDSFIKLWSIDGSPLRSLLKNDPYNQQNNDGVAVKGSRRLVGHSGAVYGVDFSPDNRYLISCSEDKTVRLWSLDTYTCLVSYKGHSSSVWDVKFSPMGHYFATASHDQTARLWSCDHIYPLRIFAGHLNDVDCVEFHPNSTYLFTGSSDKTARMWDIARGECVRVFMGHSGAINCLAVSPDGRWLASAGEDSVVCLWDISTGRRIKAMRGHGRSSIYSLAFSREGTVLVSTGADNSVRVWDVKKNTNSPSAQPEPINDVTAQGIQKKTEDLRRRKEIVATNDHMSVYFTKKTPVYTVHFTRRNLCLAGGVF 6hqf-a1-m1-cA_6hqf-a1-m2-cA Structure of Phenylalanine ammonia-lyase from Petroselinum crispum in complex with (R)-APEP P24481 P24481 1.76 X-RAY DIFFRACTION 28 1.0 4043 (Petroselinum crispum) 4043 (Petroselinum crispum) 672 672 1w27-a1-m1-cA_1w27-a1-m2-cA 1w27-a1-m1-cB_1w27-a1-m2-cB 6f6t-a1-m1-cA_6f6t-a1-m2-cA 6f6t-a1-m1-cB_6f6t-a1-m2-cB 6h2o-a1-m1-cA_6h2o-a1-m2-cA 6h2o-a1-m1-cB_6h2o-a1-m2-cB 6hqf-a1-m1-cB_6hqf-a1-m2-cB 6rgs-a1-m1-cA_6rgs-a1-m2-cA 6rgs-a1-m1-cB_6rgs-a1-m2-cB EDPLYWGIAAEAMTGSHLDEVKKMVAEYRKPVVKLGGETLTISQVAAISARDGSGVTVELSEAARAGVKASSDWVMDSMNKGTDSYGVTTGFGATSHRRTKQGGALQKELIRFLNAGIFGNGSDNTLPHSATRAAMLVRINTLLQGYSGIRFEILEAITKFLNQNITPCLPLRGTITDLVPLSYIAGLLTGRPNSKAVGPTGVILSPEEAFKLAGVEGGFFELQPKEGLALVNGTAVGSGMASMVLFEANILAVLAEVMSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIMEHILDGSAYVKAAKQDRYALRTSPQWLGPQIEVIRSSTKMIEREINSVNDNPLIDVSRNKAIHGGNFQGTPIGVSMDNTRLAIAAIGKLMFAQFSELVNDFYNNGLPSNLSGGRNPSLDYGFKGAEIAMASYCSELQFLANPVTNHVQSAEQHNQDVNSLGLISSRKTSEAVEILKLMSTTFLVGLCQAIDLRHLEENLKSTVKNTVSSVAKRVLTMGHPSRFCEKDLLRVVDREYIFAYIDDPCSATYPLMQKLRQTLVEHALKNGDNERNLSTSIFQKIATFEDELKALLPKEVESARAALESGNPAIPNRIEECRSYPLYKFVRKELGTEYLTGEKVTSPGEEFEKVFIAMSKGEIIDPLLESLESWNGAPLPIS EDPLYWGIAAEAMTGSHLDEVKKMVAEYRKPVVKLGGETLTISQVAAISARDGSGVTVELSEAARAGVKASSDWVMDSMNKGTDSYGVTTGFGATSHRRTKQGGALQKELIRFLNAGIFGNGSDNTLPHSATRAAMLVRINTLLQGYSGIRFEILEAITKFLNQNITPCLPLRGTITDLVPLSYIAGLLTGRPNSKAVGPTGVILSPEEAFKLAGVEGGFFELQPKEGLALVNGTAVGSGMASMVLFEANILAVLAEVMSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIMEHILDGSAYVKAAKQDRYALRTSPQWLGPQIEVIRSSTKMIEREINSVNDNPLIDVSRNKAIHGGNFQGTPIGVSMDNTRLAIAAIGKLMFAQFSELVNDFYNNGLPSNLSGGRNPSLDYGFKGAEIAMASYCSELQFLANPVTNHVQSAEQHNQDVNSLGLISSRKTSEAVEILKLMSTTFLVGLCQAIDLRHLEENLKSTVKNTVSSVAKRVLTMGHPSRFCEKDLLRVVDREYIFAYIDDPCSATYPLMQKLRQTLVEHALKNGDNERNLSTSIFQKIATFEDELKALLPKEVESARAALESGNPAIPNRIEECRSYPLYKFVRKELGTEYLTGEKVTSPGEEFEKVFIAMSKGEIIDPLLESLESWNGAPLPIS 6hqf-a1-m1-cA_6hqf-a1-m2-cB Structure of Phenylalanine ammonia-lyase from Petroselinum crispum in complex with (R)-APEP P24481 P24481 1.76 X-RAY DIFFRACTION 322 0.996 4043 (Petroselinum crispum) 4043 (Petroselinum crispum) 672 672 1w27-a1-m1-cA_1w27-a1-m1-cB 1w27-a1-m2-cA_1w27-a1-m2-cB 6f6t-a1-m1-cA_6f6t-a1-m2-cB 6f6t-a1-m2-cA_6f6t-a1-m1-cB 6h2o-a1-m1-cA_6h2o-a1-m2-cB 6h2o-a1-m2-cA_6h2o-a1-m1-cB 6hqf-a1-m1-cB_6hqf-a1-m2-cA 6rgs-a1-m1-cB_6rgs-a1-m1-cA 6rgs-a1-m2-cB_6rgs-a1-m2-cA EDPLYWGIAAEAMTGSHLDEVKKMVAEYRKPVVKLGGETLTISQVAAISARDGSGVTVELSEAARAGVKASSDWVMDSMNKGTDSYGVTTGFGATSHRRTKQGGALQKELIRFLNAGIFGNGSDNTLPHSATRAAMLVRINTLLQGYSGIRFEILEAITKFLNQNITPCLPLRGTITDLVPLSYIAGLLTGRPNSKAVGPTGVILSPEEAFKLAGVEGGFFELQPKEGLALVNGTAVGSGMASMVLFEANILAVLAEVMSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIMEHILDGSAYVKAAKQDRYALRTSPQWLGPQIEVIRSSTKMIEREINSVNDNPLIDVSRNKAIHGGNFQGTPIGVSMDNTRLAIAAIGKLMFAQFSELVNDFYNNGLPSNLSGGRNPSLDYGFKGAEIAMASYCSELQFLANPVTNHVQSAEQHNQDVNSLGLISSRKTSEAVEILKLMSTTFLVGLCQAIDLRHLEENLKSTVKNTVSSVAKRVLTMGHPSRFCEKDLLRVVDREYIFAYIDDPCSATYPLMQKLRQTLVEHALKNGDNERNLSTSIFQKIATFEDELKALLPKEVESARAALESGNPAIPNRIEECRSYPLYKFVRKELGTEYLTGEKVTSPGEEFEKVFIAMSKGEIIDPLLESLESWNGAPLPIS EDPLYWGIAAEAMTGSHLDEVKKMVAEYRKPVVKLGGETLTISQVAAISARDGSGVTVELSEAARAGVKASSDWVMDSMNKGTDSYGVTTGFGATSHRRTKQGGALQKELIRFLNAGIFGNGSDNTLPHSATRAAMLVRINTLLQGYSGIRFEILEAITKFLNQNITPCLPLRGTITDLVPLSYIAGLLTGRPNSKAVGPTGVILSPEEAFKLAGVEGGFFELQPKEGLALVNGTAVGSGMASMVLFEANILAVLAEVMSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIMEHILDGSAYVKAAQKLQDRYALRTSPQWLGPQIEVIRSSTKMIEREINSVNDNPLIDVSRNKAIHGGNFQGTPIGVSMDNTRLAIAAIGKLMFAQFSELVNDFYNNGLPSNLSGGRNPSLDYGFKGAEIAMASYCSELQFLANPVTNHVQSAEQHNQDVNSLGLISSRKTSEAVEILKLMSTTFLVGLCQAIDLRHLEENLKSTVKNTVSSVAKRVLTMGSRFCEKDLLRVVDREYIFAYIDDPCSATYPLMQKLRQTLVEHALKNGDNERNLSTSIFQKIATFEDELKALLPKEVESARAALESGNPAIPNRIEECRSYPLYKFVRKELGTEYLTGEKVTSPGEEFEKVFIAMSKGEIIDPLLESLESWNGAPLPIS 6hqf-a1-m2-cA_6hqf-a1-m2-cB Structure of Phenylalanine ammonia-lyase from Petroselinum crispum in complex with (R)-APEP P24481 P24481 1.76 X-RAY DIFFRACTION 293 0.996 4043 (Petroselinum crispum) 4043 (Petroselinum crispum) 672 672 1w27-a1-m1-cA_1w27-a1-m2-cB 1w27-a1-m1-cB_1w27-a1-m2-cA 6f6t-a1-m1-cA_6f6t-a1-m1-cB 6f6t-a1-m2-cA_6f6t-a1-m2-cB 6h2o-a1-m1-cA_6h2o-a1-m1-cB 6h2o-a1-m2-cA_6h2o-a1-m2-cB 6hqf-a1-m1-cA_6hqf-a1-m1-cB 6rgs-a1-m1-cB_6rgs-a1-m2-cA 6rgs-a1-m2-cB_6rgs-a1-m1-cA EDPLYWGIAAEAMTGSHLDEVKKMVAEYRKPVVKLGGETLTISQVAAISARDGSGVTVELSEAARAGVKASSDWVMDSMNKGTDSYGVTTGFGATSHRRTKQGGALQKELIRFLNAGIFGNGSDNTLPHSATRAAMLVRINTLLQGYSGIRFEILEAITKFLNQNITPCLPLRGTITDLVPLSYIAGLLTGRPNSKAVGPTGVILSPEEAFKLAGVEGGFFELQPKEGLALVNGTAVGSGMASMVLFEANILAVLAEVMSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIMEHILDGSAYVKAAKQDRYALRTSPQWLGPQIEVIRSSTKMIEREINSVNDNPLIDVSRNKAIHGGNFQGTPIGVSMDNTRLAIAAIGKLMFAQFSELVNDFYNNGLPSNLSGGRNPSLDYGFKGAEIAMASYCSELQFLANPVTNHVQSAEQHNQDVNSLGLISSRKTSEAVEILKLMSTTFLVGLCQAIDLRHLEENLKSTVKNTVSSVAKRVLTMGHPSRFCEKDLLRVVDREYIFAYIDDPCSATYPLMQKLRQTLVEHALKNGDNERNLSTSIFQKIATFEDELKALLPKEVESARAALESGNPAIPNRIEECRSYPLYKFVRKELGTEYLTGEKVTSPGEEFEKVFIAMSKGEIIDPLLESLESWNGAPLPIS EDPLYWGIAAEAMTGSHLDEVKKMVAEYRKPVVKLGGETLTISQVAAISARDGSGVTVELSEAARAGVKASSDWVMDSMNKGTDSYGVTTGFGATSHRRTKQGGALQKELIRFLNAGIFGNGSDNTLPHSATRAAMLVRINTLLQGYSGIRFEILEAITKFLNQNITPCLPLRGTITDLVPLSYIAGLLTGRPNSKAVGPTGVILSPEEAFKLAGVEGGFFELQPKEGLALVNGTAVGSGMASMVLFEANILAVLAEVMSAIFAEVMQGKPEFTDHLTHKLKHHPGQIEAAAIMEHILDGSAYVKAAQKLQDRYALRTSPQWLGPQIEVIRSSTKMIEREINSVNDNPLIDVSRNKAIHGGNFQGTPIGVSMDNTRLAIAAIGKLMFAQFSELVNDFYNNGLPSNLSGGRNPSLDYGFKGAEIAMASYCSELQFLANPVTNHVQSAEQHNQDVNSLGLISSRKTSEAVEILKLMSTTFLVGLCQAIDLRHLEENLKSTVKNTVSSVAKRVLTMGSRFCEKDLLRVVDREYIFAYIDDPCSATYPLMQKLRQTLVEHALKNGDNERNLSTSIFQKIATFEDELKALLPKEVESARAALESGNPAIPNRIEECRSYPLYKFVRKELGTEYLTGEKVTSPGEEFEKVFIAMSKGEIIDPLLESLESWNGAPLPIS 6hqv-a1-m1-cB_6hqv-a1-m1-cA Pentafunctional AROM Complex from Chaetomium thermophilum G0S061 G0S061 3 X-RAY DIFFRACTION 148 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 1499 1517 EPTRIAILGKEDIIVDHGIWLNFVAHDLLQTLPSSTYVLITDTNLYTTYVPPFQAVFEAAAPRDVRLLTYAIPPGEYSKSRETKAEIEDWLSHACTRDTVIIALGGGVIGDIGYVAATFRGVRFVQVPTTLLAVDSSIGGKTAIDTPGKNLIGAFWQPRRIYIDLAFLETLPVREFINGAEVIKTAAIWNETEFTALEENAAAILEAVRSKASSPAARLAPIRHILKRIVLGSARVKAEVVSADEREGGLRNLLNFGHSIGHAYEAILAPQVLHGECVAIGVKEAELARYLGVLRPSAVARLTKLIASYDLPTSVHDKRIAKLSAGKECPVDVLLQKAVDKKNEGRKKKIVLLSAIGKTYEKKATVVDDRAIRLVLSPSVRVTPGVPKGLSVTVTPPGSKSISNRALVLAALGEGTTRIHGLLHSDDVQYLAAIEQLHGADFSWEDAGEILVVTGKGGKLQASKEPLYLGNAGTASRFLTSVVALCAPSAVSSTVLTGNARKVRPIGALVDALRANGVGVKYLEKEKSLPVEVDAAGGFAGGVIELAATVSSQYVSSILAAPYAHQPVTLRLVGGKPISQPYIDTIAASFGIKVERSAEDPNTYLIPKGVYKNPPEYVVESDASSATYPLAVAAITGTTCTIPNIGSESLQGDARFAVEVLRPGCAVEQTATSTTVTGPPIGTLKAIPHVDEPTDAFLTAAVLAAVADGTTQITGIANQRVKECNRIAAKDQLAKFGVQCNELEDGIEVIGKPYQELRNPVEGIYCYDDHRVASHSVLSTISPHPVLILERECTAKTWPGWWDILSQFFKVQLDGEEDPTGTDRSIFIVGRGAGKSTAGRWSELLKRPLVDLDAELERREGTIPEIIRGERGWEGFRQAELELLQDVIKNQSKGYIFSCGGGIVETEAARKLLIDYHKNGGPVLLVHRDNIREVYERRKPWFYECSNLQYHSPHEDGSEALLQPPADFARFVKLIAGQSTHLEDVRAKKHSFFVSLTVPNVADALDIIPRVVVGSDAVELRVDLLESYEPEFVARQVALLRAAAQVPIVYTVRTQSQGGKFPDEDYDLALRLYQTGLRSGVEYLDLETPDHILQAVTDAKGFTSIIASHHDPQCKLSWKSGSWIPFYNKALQYGDVIKLVGVAREADNFALTNFKAKLAAHDNKPIALNGTAGKLSRVLNGFLTPVSHPALPSKAAPGQLSATEIRQALSLIGEIEPKSFYLFGKPISASRSPALHNTLFYKTGLPHHYSRFETDEASKALESLIRSPDFGGASVTIPLKLDIPLLDSATDAARTIGAVNTIIPQTRDGSTTTLVGDNTDWRGVHALLHSSGSGSVVQRTAAPRGAAVVGSGGTARAAIYALHDLGFAPIWIVARSEERVAELVRGFDGYDLRRTSPHQGKDNPSVVISTIPATQPIDPSREVIVEVLKHGHPSAEGKVLLEAYQPPRTPLTLAEDQGWRTVGGLEVLAAQGWYQFQLWTGITPLYEEARAAVGEDSVE EPTRIAILGKEDIIVDHGIWLNFVAHDLLQTLPSSTYVLITDTNLYTTYVPPFQAVFEAAAPRDVRLLTYAIPPGEYSKSRETKAEIEDWLSHACTRDTVIIALGGGVIGDIGYVAATFRGVRFVQVPTTLLAVDSSIGGKTAIDTPGKNLIGAFWQPRRIYIDLAFLETLPVREFINGAEVIKTAAIWNETEFTALEENAAAILEAVRSKASSPAARLAPIRHILKRIVLGSARVKAEVVSADEREGGLRNLLNFGHSIGHAYEAILAPQVLHGECVAIGVKEAELARYLGVLRPSAVARLTKLIASYDLPTSVHDKRIAKLSAGKECPVDVLLQKAVDKKNEGRKKKIVLLSAIGKTYEKKATVVDDRAIRLVLSPSVRVTPGVPKGLSVTVTPPGSKSISNRALVLAALGEGTTRIHGLLHSDDVQYLAAIEQLHGADFSWEDAGEILVVTGKGGKLQASKEPLYLGNAGTASRFLTSVVALCAPSAVSSTVLTGNARKVRPIGALVDALRANGVGVKYLEKEKSLPVEVDAAGGFAGGVIELAATVSSQYVSSILAAPYAHQPVTLRLVGGKPISQPYIDTIAASFGIKVERSAEDPNTYLIPKGVYKNPPEYVVESDASSATYPLAVAAITGTTCTIPNIGSESLQGDARFAVEVLRPGCAVEQTATSTTVTGPPIGTLKAIPHVDEPTDAFLTAAVLAAVADGTTQITGIANQRVKECNRIAAKDQLAKFGVQCNELEDGIEVIGKPYQELRNPVEGIYCYDDHRVASHSVLSTISPHPVLILERECTAKTWPGWWDILSQFFKVQLDGEEDPTGTDRSIFIVGRGAGKSTAGRWSELLKRPLVDLDAELERREGTIPEIIRGERGWEGFRQAELELLQDVIKNQSKGYIFSCGGGIVETEAARKLLIDYHKNGGPVLLVHRDTDQVVEYLRDKTRPAYSENIREVYERRKPWFYECSNLQYHSPHEDGSEALLQPPADFARFVKLIAGQSTHLEDVRAKKHSFFVSLTVPNVADALDIIPRVVVGSDAVELRVDLLESYEPEFVARQVALLRAAAQVPIVYTVRTQSQGGKFPDEDYDLALRLYQTGLRSGVEYLDLETPDHILQAVTDAKGFTSIIASHHDPQCKLSWKSGSWIPFYNKALQYGDVIKLVGVAREADNFALTNFKAKLAAHDNKPIALNGTAGKLSRVLNGFLTPVSHPALPSKAAPGQLSATEIRQALSLIGEIEPKSFYLFGKPISASRSPALHNTLFYKTGLPHHYSRFETDEASKALESLIRSPDFGGASVTIPLKLDIPLLDSATDAARTIGAVNTIIPQTRDGSTTTLVGDNTDWRGVHALLHSSGSGSVVQRTAAPRGAAVVGSGGTARAAIYALHDLGFAPIWIVARSEERVAELVRGFDGYDLRRTSPHQGKDNPSVVISTIPATQPIDPSREVIVEVLKHGHPSAEGKVLLEAYQPPRTPLTLAEDQGWRTVGGLEVLAAQGWYQFQLWTGITPLYEEARAAVGEDSVE 6hqz-a1-m1-cA_6hqz-a1-m1-cB Crystal structure of the type III effector protein AvrRpt2 from Erwinia amylovora, a C70 family cysteine protease A0A2U7NR52 A0A2U7NR52 1.8 X-RAY DIFFRACTION 24 1.0 552 (Erwinia amylovora) 552 (Erwinia amylovora) 154 154 NGFRLNHVPYVSQQNERMGCWYACTRMLGHSISSGPRLGLPELYDSSGPQGLQQREDVLRLMRNENLAEVSLPESRQFSANELGNLLCRHGPIMFGWQTPAGSWHMSVLTGIDKPNDAIIFHDPQRGPDLTMPLDSFNQRLAWRVPHAMLYSEN NGFRLNHVPYVSQQNERMGCWYACTRMLGHSISSGPRLGLPELYDSSGPQGLQQREDVLRLMRNENLAEVSLPESRQFSANELGNLLCRHGPIMFGWQTPAGSWHMSVLTGIDKPNDAIIFHDPQRGPDLTMPLDSFNQRLAWRVPHAMLYSEN 6hrd-a3-m1-cE_6hrd-a3-m1-cF Crystal structure of M. tuberculosis FadB2 (Rv0468) P9WNP7 P9WNP7 2.11 X-RAY DIFFRACTION 104 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 285 285 6hrd-a1-m1-cA_6hrd-a1-m1-cB 6hrd-a2-m1-cC_6hrd-a2-m1-cD DAIQRVGVVGAGQMGSGIAEVSARAGVEVTVFEPAEALITAGRNRIVKSLERAVSAGKVTERERDRALGLLTFTTDLNDLSDRQLVIEAVVEDEAVKSEIFAELDRVVTDPDAVLASNTSSIPIMKVAAATKQPQRVLGLHFFNPVPVLPLVELVRTLVTDEAAAARTEEFASTVLGKQVVRCSDRSGFVVNALLVPYLLSAIRMVEAGFATVEDVDKAVVAGLSHPMGPLRLSDLVGLDTLKLIADKMFEEFKEPHYGPPPLLLRMVEAGQLGKKSGRGFYTYA DAIQRVGVVGAGQMGSGIAEVSARAGVEVTVFEPAEALITAGRNRIVKSLERAVSAGKVTERERDRALGLLTFTTDLNDLSDRQLVIEAVVEDEAVKSEIFAELDRVVTDPDAVLASNTSSIPIMKVAAATKQPQRVLGLHFFNPVPVLPLVELVRTLVTDEAAAARTEEFASTVLGKQVVRCSDRSGFVVNALLVPYLLSAIRMVEAGFATVEDVDKAVVAGLSHPMGPLRLSDLVGLDTLKLIADKMFEEFKEPHYGPPPLLLRMVEAGQLGKKSGRGFYTYA 6hs3-a1-m1-cA_6hs3-a1-m1-cB Crystal structure of an ABC transporter related protein from Burkholderia pseudomallei Q63XK6 Q63XK6 2.4 X-RAY DIFFRACTION 47 0.984 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 246 247 TSSLVVRNLKKRYGSRTVVKDVSLDVKSGEVVGLLGPNGAGKTTSFYMIVGLVPLDAGDISLNGSPISLMPIHKRASLGLSYLPQEASVFRKLTVEQNVRAVLELQHDENGKRLSKDAIGARTEALLEELQIAHLRENPALSLSGGERRRVEIARALASNPSFILLDEPFAGVDPIAVLEIQKIVKFLKQRNIGVLITDHNVRETLGICDHAYIISDGSVLASGAPKEIIENESVRRVYLGEHFRM QPAGTTSSLVVRNLKKRYGSRTVVKDVSLDVKSGEVVGLLGPNGAGKTTSFYMIVGLVPLDAGDISLNGSPISLMPIHKRASLGLSYLPQEASVFRKLTVEQNVRAVLELQHDGKRLSKDAIGARTEALLEELQIAHLRENPALSLSGGERRRVEIARALASNPSFILLDEPFAGVDPIAVLEIQKIVKFLKQRNIGVLITDHNVRETLGICDHAYIISDGSVLASGAPKEIIENESVRRVYLGEHF 6hsa-a1-m2-cA_6hsa-a1-m3-cA The crystal structure of type II Dehydroquinase from Butyrivibrio crossotus DSM 2876 D4S0D1 D4S0D1 0.92 X-RAY DIFFRACTION 49 1.0 511680 (Butyrivibrio crossotus DSM 2876) 511680 (Butyrivibrio crossotus DSM 2876) 145 145 6hs8-a1-m1-cA_6hs8-a1-m2-cA 6hs8-a1-m1-cA_6hs8-a1-m3-cA 6hs8-a1-m2-cA_6hs8-a1-m3-cA 6hs9-a1-m1-cA_6hs9-a1-m2-cA 6hs9-a1-m1-cA_6hs9-a1-m3-cA 6hs9-a1-m2-cA_6hs9-a1-m3-cA 6hsa-a1-m1-cA_6hsa-a1-m2-cA 6hsa-a1-m1-cA_6hsa-a1-m3-cA GSHMKILVINGPNLNFLGIREKNIYGNENYEYLVNMINEYCKSKNIEVECYQSNHEGAIIDKIQEAYFNGTDGIVINPGAYTHYSYAIRDALASVSHIKKIEVHISNVNEREEFRHISVTEPVCNGQIVGQGLKGYIMAIDMLNS GSHMKILVINGPNLNFLGIREKNIYGNENYEYLVNMINEYCKSKNIEVECYQSNHEGAIIDKIQEAYFNGTDGIVINPGAYTHYSYAIRDALASVSHIKKIEVHISNVNEREEFRHISVTEPVCNGQIVGQGLKGYIMAIDMLNS 6hsp-a2-m1-cB_6hsp-a2-m2-cB Crystal structure of the zebrafish peroxisomal SCP2-thiolase (type-1) in complex with CoA and octanoyl-CoA Q6P4V5 Q6P4V5 1.73 X-RAY DIFFRACTION 179 1.0 7955 (Danio rerio) 7955 (Danio rerio) 389 389 6hrv-a2-m1-cB_6hrv-a2-m2-cB NRVFVIGVGMTKFEKPGARDIDYPDMAKEAGQRALADAGIKYSAIQQACVGYVYGDSTCGQRAIYHSLGLSGIPIINVNNNCSTGSTALFMGRQLIQGGLADCVLALGFEKMEYMDRTNPMDKHMEVMINRYGLAAVPAAPQMFGNAGREHMEKYGTKPEHFAKVAWKNHKHSTNNPYSQFQDEYSLEQVIDSRKVFEFLTLLQCCPTSDGAGAAVLASESFVRRNGLEKKAVEIVAQEMVTDLSTTFEENSCMKMVGYDMTRLAAERCYDTAGVKPSDVDVIELHDCFSANELITYEALGLCPEGKAGELIDRGDNTYGGKWVINPSGGLISKGHPLGATGLAQCAELCWQLRAEAGPRQVPGAKLALQHNIGLGGAVVVTLYKMGFP NRVFVIGVGMTKFEKPGARDIDYPDMAKEAGQRALADAGIKYSAIQQACVGYVYGDSTCGQRAIYHSLGLSGIPIINVNNNCSTGSTALFMGRQLIQGGLADCVLALGFEKMEYMDRTNPMDKHMEVMINRYGLAAVPAAPQMFGNAGREHMEKYGTKPEHFAKVAWKNHKHSTNNPYSQFQDEYSLEQVIDSRKVFEFLTLLQCCPTSDGAGAAVLASESFVRRNGLEKKAVEIVAQEMVTDLSTTFEENSCMKMVGYDMTRLAAERCYDTAGVKPSDVDVIELHDCFSANELITYEALGLCPEGKAGELIDRGDNTYGGKWVINPSGGLISKGHPLGATGLAQCAELCWQLRAEAGPRQVPGAKLALQHNIGLGGAVVVTLYKMGFP 6hsv-a2-m1-cC_6hsv-a2-m1-cD Engineered higher-order assembly of Cholera Toxin B subunits via the addition of C-terminal parallel coiled-coiled domains P01556 P01556 2.45 X-RAY DIFFRACTION 82 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 97 103 3efx-a1-m1-cD_3efx-a1-m1-cE 3efx-a1-m1-cD_3efx-a1-m1-cH 3efx-a1-m1-cF_3efx-a1-m1-cE 6hsv-a1-m1-cC_6hsv-a1-m1-cD 6hsv-a1-m2-cC_6hsv-a1-m2-cD 6hsv-a1-m3-cC_6hsv-a1-m3-cD 6hsv-a1-m4-cC_6hsv-a1-m4-cD 6hsv-a1-m5-cC_6hsv-a1-m5-cD 6hsv-a1-m6-cC_6hsv-a1-m6-cD TPQNITDLCAEYHNTQIYTLNDKIFSYTESLAGKREMAIITFKNGAIFQVEVPSQKKAIERMKDTLRIAYLTEAKVEKLCVWNNKTPHAIAAISMAN TPQNITDLCAEYHNTQIYTLNDKIFSYTESLAGKREMAIITFKNGAIFQVEVPGSQHIDSQKKAIERMKDTLRIAYLTEAKVEKLCVWNNKTPHAIAAISMAN 6htj-a1-m1-cB_6htj-a1-m1-cA Crystal structure of the translation recovery factor Trf from Sulfolobus solfataricus Q97VU8 Q97VU8 1.65 X-RAY DIFFRACTION 43 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 118 119 REEEIRELYFKYFDENKLPFIQCNKCGHKFYYPRVLCPKCGSSDIEVRFSKGLGKIFAMTKVYRKDGSYVIYGIVELEEGFRMYSNIIEESQADINRKVEVIFKEINGKKYPLFKTVT MREEEIRELYFKYFDENKLPFIQCNKCGHKFYYPRVLCPKCGSSDIEVRFSKGLGKIFAMTKVYRKDGSYVIYGIVELEEGFRMYSNIIEESQADINRKVEVIFKEINGKKYPLFKTVT 6hto-a1-m1-cB_6hto-a1-m1-cA Tryptophan lyase 'empty state' C6FX51 C6FX51 1.45 X-RAY DIFFRACTION 72 0.997 1885 (Streptomyces actuosus) 1885 (Streptomyces actuosus) 379 380 4r33-a1-m1-cA_4r33-a1-m2-cA 4r33-a2-m1-cB_4r33-a2-m3-cB 4r34-a1-m1-cA_4r34-a1-m2-cA 4r34-a2-m1-cB_4r34-a2-m3-cB 6htk-a1-m1-cA_6htk-a1-m2-cA 6htk-a2-m1-cB_6htk-a2-m3-cB 6htm-a1-m1-cA_6htm-a1-m2-cA 6htm-a2-m1-cB_6htm-a2-m3-cB GDFVLPELEDVRAEAATVDTRAVLALAEGEEPAESRAAVALALWEDRSIGTAELQAAAEARCGARRPRLHTFVPLYTTNYCDSECKMCSMRKGNHRLDRKFSGRKEITEQLEILYHHEGVRGVGFLTGEYEDKHTRLASAFRIGWAIRTALDLGFERVYFNIGSMEQDEIDVLGEWIGREDPVTMCVFQESYDRETYRRFMGKTSVGVPKADFDRRVVSFDRWLDAGYRYVNPGVLVGLHDDLSAELVSLVAHGDHLRSRGATADLSVPRMRPAMKSRDTTRVGDDDYLRLMSVVAFTCPEQRLVLTTREPQEFQDVALGLAGVISPGSPDVAPYRAGCEARNDEKSSQFLVADLRRPRHILGRIEASGTPVDHFVNPA TGDFVLPELEDVRAEAATVDTRAVLALAEEEPAESRAAVALALWEDRSIGTAELQAAAEARCGARRPRLHTFVPLYTTNYCDSECKMCSMRKGNHRLDRKFSGRKEITEQLEILYHHEGVRGVGFLTGEYEDKHTRLASAFRIGWAIRTALDLGFERVYFNIGSMEQDEIDVLGEWIGREDPVTMCVFQESYDRETYRRFMGKTSVGVPKADFDRRVVSFDRWLDAGYRYVNPGVLVGLHDDLSAELVSLVAHGDHLRSRGATADLSVPRMRPAMKSRDTTRVGDDDYLRLMSVVAFTCPEQRLVLTTREPQEFQDVALGLAGVISPGSPDVAPYRAGCEARNDEKSSQFLVADLRRPRHILGRIEASGTPVDHFVNPAG 6htw-a1-m1-cH_6htw-a1-m1-cB Crystal structure of an ancient sequence-reconstructed Elongation factor Tu (node 184) 1.8 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 356 385 KPHVNIGTIGHVDHGKTTLTAAITKTLTAHVEYETENRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFLNKCDMVDDEELLELVEMEVRELLSEYEFPGDDIPIIRGSALKALEGENEWVDKIWELMDAVDSYIPTPERDVDKPFLMPVEDVFTITGRGTVATGRVERGTVKVGDEVEIVGLRDTRKTVVTGVEMFRKLLDEGMAGDNVGVLLRGIQREDVERGQVLAKPGSIKPHTKFEAEVYVLTKEEGGRHTPFFNGYRPQFYFRTTDVTGVITLPEGVEMVMPGDNVTMTVELIHPIAMEEGLRFAIREGGRTVGAGVVSKII KPHVNIGTIGHVDHGKTTLTAAITKTLAAKGKAEARAYDQIDKAPEEKARGITINTAHVEYETENRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLARQVGVPYIVVFLNKCDMVDDEELLELVEMEVRELLSEYEFPGDDIPIIRGSALKALEGENEWVDKIWELMDAVDSYIPTPERDVDKPFLMPVEDVFTITGRGTVATGRVERGTVKVGDEVEIVGLRDTRKTVVTGVEMFRKLLDEGMAGDNVGVLLRGIQREDVERGQVLAKPGSIKPHTKFEAEVYVLTKEEGGRHTPFFNGYRPQFYFRTTDVTGVITLPEGVEMVMPGDNVTMTVELIHPIAMEEGLRFAIREGGRTVGAGVVSKIIE 6hud-a1-m1-cC_6hud-a1-m1-cD Cryo-EM structure of cardiac amyloid fibrils from an immunoglobulin light chain (AL) amyloidosis patient. 4.0 ELECTRON MICROSCOPY 274 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 6hud-a1-m1-cA_6hud-a1-m1-cB 6hud-a1-m1-cA_6hud-a1-m1-cC 6hud-a1-m1-cB_6hud-a1-m1-cC 6hud-a1-m1-cB_6hud-a1-m1-cD 6hud-a1-m1-cC_6hud-a1-m1-cE 6hud-a1-m1-cD_6hud-a1-m1-cE NFMLTQPHSVSESPGKTLTISCTGSSASIASHYVQWYSIDSSSNSASLTISGLKTEDEADYYCQSYDGNNHWVFGGG NFMLTQPHSVSESPGKTLTISCTGSSASIASHYVQWYSIDSSSNSASLTISGLKTEDEADYYCQSYDGNNHWVFGGG 6huh-a1-m1-cA_6huh-a1-m1-cB CRYSTAL STRUCTURE OF OXA-427 class D BETA-LACTAMASE A0A1Y6M6D7 A0A1Y6M6D7 2.78 X-RAY DIFFRACTION 13 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 241 241 TGCMLFADGSGKPFSAQGDCASQLPPASTFIPLALMGYDSGFLVDEQLPALPFKAGDPDFLPEWKQTTTPSRWMTYSVIWYSQRLTEWLGAARFQQYVDRFDYGNRDLSGNPGKHDGLTQAWLSSSLAISPQEQARFLGKLVSGKLPVSAQTLQHTANILRQPDIDGWQIHGKTGTGYPKLLDGSLDRDQQIGWFVGWASKQDQKLIFVHTVIQKPGKQFASLRAREEVFAALPEQLKKLV TGCMLFADGSGKPFSAQGDCASQLPPASTFIPLALMGYDSGFLVDEQLPALPFKAGDPDFLPEWKQTTTPSRWMTYSVIWYSQRLTEWLGAARFQQYVDRFDYGNRDLSGNPGKHDGLTQAWLSSSLAISPQEQARFLGKLVSGKLPVSAQTLQHTANILRQPDIDGWQIHGKTGTGYPKLLDGSLDRDQQIGWFVGWASKQDQKLIFVHTVIQKPGKQFASLRAREEVFAALPEQLKKLV 6hun-a1-m1-cA_6hun-a1-m2-cA Dimeric Archeal Rubisco from Hyperthermus butylicus A2BK54 A2BK54 1.802 X-RAY DIFFRACTION 313 1.0 415426 (Hyperthermus butylicus DSM 5456) 415426 (Hyperthermus butylicus DSM 5456) 428 428 SIYLEFVDESYKPGKDEVIAVFRVTPAQGISIKDAAGRIAAESSVGTWTTLSVKPSWFEKLKAKAYRFHDLGDGSWLVWVAYPVELFEEGSIPNFASSILGNIFGMKAIAGLRVEDVYFPPSYLETFPGPNKGIQGVREILGIKDRPILATVPKPKLGYTPEEYGRVAYEILIGGIDLVKDDENFASQPFCRFEARLKEVMKAIDRAEKETGERKGYLANVTAPIREMEKRIKLVADYGNKFIMIDFLTAGWAALQHARELAEEYDLAIHGHRAFHAAFTRNPKHGVSMFLVAKLARMAGVDHVHVGTPMDAKTREVLEHTRIVREQYYRPKEGDLFHLEQPWSNIKPVFPVASGGLHPGTLPEVIRVMGKDIIMQVGGGVLGHPDGPEAGARAVRQAVEAAMKGISLDEYAREHRELARALEKWGYV SIYLEFVDESYKPGKDEVIAVFRVTPAQGISIKDAAGRIAAESSVGTWTTLSVKPSWFEKLKAKAYRFHDLGDGSWLVWVAYPVELFEEGSIPNFASSILGNIFGMKAIAGLRVEDVYFPPSYLETFPGPNKGIQGVREILGIKDRPILATVPKPKLGYTPEEYGRVAYEILIGGIDLVKDDENFASQPFCRFEARLKEVMKAIDRAEKETGERKGYLANVTAPIREMEKRIKLVADYGNKFIMIDFLTAGWAALQHARELAEEYDLAIHGHRAFHAAFTRNPKHGVSMFLVAKLARMAGVDHVHVGTPMDAKTREVLEHTRIVREQYYRPKEGDLFHLEQPWSNIKPVFPVASGGLHPGTLPEVIRVMGKDIIMQVGGGVLGHPDGPEAGARAVRQAVEAAMKGISLDEYAREHRELARALEKWGYV 6huw-a1-m1-cB_6huw-a1-m1-cA Crystal structure of CdaA from Bacillus subtilis Q45589 Q45589 2.8 X-RAY DIFFRACTION 66 0.993 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 144 146 7ojs-a1-m1-cH_7ojs-a1-m1-cI 7ojs-a2-m1-cD_7ojs-a2-m1-cE 7ojs-a3-m1-cK_7ojs-a3-m1-cL 7olh-a1-m1-cI_7olh-a1-m1-cJ 7olh-a2-m1-cH_7olh-a2-m1-cG 7olh-a3-m1-cL_7olh-a3-m1-cK EAQQKTIEAITKAINYMAKRRIGALLTIERDTGMGDYIETGIPLNAKVSSELLINIFIPNTPLHDGAVIMKNNEIAAAACYLPLSESPKELGTRHRAAVGISEVTDSLTIIVSEETGGVSVAKNGDLHRELTEEALKEMLEAEF EAQQKTIEAITKAINYMAKRRIGALLTIERDTGMGDYIETGIPLNAKVSSELLINIFIPNTPLHDGAVIMKNNEIAAAACYLPLSESPFISKELGTRHRAAVGISEVTDSLTIIVSEETGGVSVAKNGDLHRELTEEALKEMLEAE 6huy-a2-m1-cC_6huy-a2-m1-cD HmdII from Desulfurobacterium thermolithotrophum reconstitued with Fe-guanylylpyridinol (FeGP) cofactor and co-crystallized with methenyl-tetrahydrofolate form A F0S2B6 F0S2B6 2.25 X-RAY DIFFRACTION 515 0.997 868864 (Desulfurobacterium thermolithotrophum DSM 11699) 868864 (Desulfurobacterium thermolithotrophum DSM 11699) 351 354 6huy-a1-m1-cA_6huy-a1-m1-cB 6huz-a1-m1-cA_6huz-a1-m2-cA MRVTVYGFGSLNYYSNKLNVPEKLGGEPPYGGSAMAVEFAKAGHDVTLSDPNIDKVPDEIRKKVEDAGVKLTTDDIEAAKEAEVAILFTPFRGGVTFKIAETILPYLVENAVICTTCTMSILVLNSYLQNAIFLEGREDIGFSTMHPAAIPGTPQHKHYLIATNELLRKPIVTEEQIEKLKKLATDTGKEAYLLPAELVSPVGDMGIVTTAIAFAGAIEYYKVSRDILKTKRSMTEFQIAQSLQVISSLVTKYGLEGLIKLLNVDAMKASLQSMILDKNEQPLTVTASKLLEKIEETIPELIKEAENFSPSEPTYTSAPSPMLVEHMEDLVGDDVLKGILRESWKKFYENV MRVTVYGFGSLNYYSNKLNVPEKLGGEPPYGGSAMAVEFAKAGHDVTLSDPNIDKVPDEIRKKVEDAGVKLTTDDIEAAKEAEVAILFTPFRGGVTFKIAETILPYLVENAVICTTTMSILVLNSYLQNAIFLEGREDIGFSTMHPAAIPGTPQHKHYLIATNELLRKPIVTEEQIEKLKKLATDTGKEAYLLPAELVSPVGDMGIVTTAIAFAGAIEYYKVSRDILKTKRSMTEFQIAQSLQVISSLVTKYGLEGLIKLLNVDAMKASLQSMILDKNEQPLTVTASKLLEKIEETIPELIKEAENFSPSEPTYTSAPSPMLVEHMEDLVGDDVLKGILRESWKKFYENVSERN 6hvl-a1-m1-cA_6hvl-a1-m2-cA CdaA complex with c-di-AMP and AMP Q8Y5E4 Q8Y5E4 2.8 X-RAY DIFFRACTION 36 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 158 158 LGSYGSRIEREQHHLIESIEKSTQYMAKRRIGALISVARDTGMDDYIETGIPLNAKISSQLLINIFIPNTPLHDGAVIIKGNEIASAASYLPLSDSPFLSKELGTRHRAALGISEVTDSITIVVSEETGGISLTKGGELFRDVSEEELHKILLKELVT LGSYGSRIEREQHHLIESIEKSTQYMAKRRIGALISVARDTGMDDYIETGIPLNAKISSQLLINIFIPNTPLHDGAVIIKGNEIASAASYLPLSDSPFLSKELGTRHRAALGISEVTDSITIVVSEETGGISLTKGGELFRDVSEEELHKILLKELVT 6hvn-a1-m1-cB_6hvn-a1-m1-cA CdaA-APO Y187A Mutant Q8Y5E4 Q8Y5E4 2.234 X-RAY DIFFRACTION 62 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 159 175 IEREQHHLIESIEKSTQYMAKRRIGALISVARDTGMDDYIETGIPLNAKISSQLLINIFIPNTPLHDGAVIIKGNEIASAASALPLSDSPFLSKELGTRHRAALGISEVTDSITIVVSEETGGISLTKGGELFRDVSEEELHKILLKELVTVAKKPSIF GPLGSYGSRIEREQHHLIESIEKSTQYMAKRRIGALISVARDTGMDDYIETGIPLNAKISSQLLINIFIPNTPLHDGAVIIKGNEIASAASALPLSDSPFLSKELGTRHRAALGISEVTDSITIVVSEETGGISLTKGGELFRDVSEEELHKILLKELVTVTAKKPSIFSKWKGG 6hwe-a1-m1-cJ_6hwe-a1-m1-cX Yeast 20S proteasome beta2-G45A mutant in complex with carfilzomib P22141 P22141 2.3 X-RAY DIFFRACTION 42 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 195 195 1fnt-a1-m1-cK_1fnt-a1-m1-cY 1g0u-a1-m1-cX_1g0u-a1-m1-cJ 1g65-a1-m1-cX_1g65-a1-m1-cJ 1jd2-a1-m1-cQ_1jd2-a1-m1-cJ 1ryp-a1-m1-cK_1ryp-a1-m1-cY 1z7q-a1-m1-cK_1z7q-a1-m1-cY 2f16-a1-m1-cX_2f16-a1-m1-cJ 2fak-a1-m1-cX_2fak-a1-m1-cJ 2gpl-a1-m1-cX_2gpl-a1-m1-cJ 2zcy-a1-m1-cX_2zcy-a1-m1-cJ 3bdm-a1-m1-cX_3bdm-a1-m1-cJ 3d29-a1-m1-cX_3d29-a1-m1-cJ 3dy3-a1-m1-cX_3dy3-a1-m1-cJ 3dy4-a1-m1-cX_3dy4-a1-m1-cJ 3e47-a1-m1-cX_3e47-a1-m1-cJ 3gpj-a1-m1-cX_3gpj-a1-m1-cJ 3gpt-a1-m1-cX_3gpt-a1-m1-cJ 3gpw-a1-m1-cX_3gpw-a1-m1-cJ 3hye-a1-m1-cX_3hye-a1-m1-cJ 3jco-a1-m1-c6_3jco-a1-m1-ck 3jcp-a1-m1-c6_3jcp-a1-m1-ck 3mg0-a1-m1-cX_3mg0-a1-m1-cJ 3mg4-a1-m1-cX_3mg4-a1-m1-cJ 3mg6-a1-m1-cX_3mg6-a1-m1-cJ 3mg7-a1-m1-cX_3mg7-a1-m1-cJ 3mg8-a1-m1-cX_3mg8-a1-m1-cJ 3nzj-a1-m1-cX_3nzj-a1-m1-cJ 3nzw-a1-m1-cX_3nzw-a1-m1-cJ 3nzx-a1-m1-cX_3nzx-a1-m1-cJ 3oeu-a1-m1-cX_3oeu-a1-m1-cJ 3oev-a1-m1-cX_3oev-a1-m1-cJ 3okj-a1-m1-cX_3okj-a1-m1-cJ 3sdi-a1-m1-cX_3sdi-a1-m1-cJ 3sdk-a1-m1-cX_3sdk-a1-m1-cJ 3shj-a1-m1-cX_3shj-a1-m1-cJ 3tdd-a1-m1-cX_3tdd-a1-m1-cJ 3un4-a1-m1-cJ_3un4-a1-m1-cX 3un8-a1-m1-cJ_3un8-a1-m1-cX 3wxr-a1-m1-cK_3wxr-a1-m1-cY 4eu2-a1-m1-cK_4eu2-a1-m1-cY 4fzc-a1-m1-cJ_4fzc-a1-m1-cX 4fzg-a1-m1-cJ_4fzg-a1-m1-cX 4g4s-a1-m1-cK_4g4s-a1-m2-cK 4gk7-a1-m1-cJ_4gk7-a1-m1-cX 4hnp-a1-m1-cJ_4hnp-a1-m1-cX 4hrc-a1-m1-cJ_4hrc-a1-m1-cX 4hrd-a1-m1-cJ_4hrd-a1-m1-cX 4inr-a1-m1-cJ_4inr-a1-m1-cX 4int-a1-m1-cJ_4int-a1-m1-cX 4inu-a1-m1-cJ_4inu-a1-m1-cX 4j70-a1-m1-cJ_4j70-a1-m1-cX 4jsq-a1-m1-cJ_4jsq-a1-m1-cX 4jsu-a1-m1-cJ_4jsu-a1-m1-cX 4jt0-a1-m1-cJ_4jt0-a1-m1-cX 4lqi-a1-m1-cX_4lqi-a1-m1-cJ 4ltc-a1-m1-cJ_4ltc-a1-m1-cX 4nnn-a1-m1-cJ_4nnn-a1-m1-cX 4nnw-a1-m1-cJ_4nnw-a1-m1-cX 4no1-a1-m1-cJ_4no1-a1-m1-cX 4no6-a1-m1-cJ_4no6-a1-m1-cX 4no8-a1-m1-cJ_4no8-a1-m1-cX 4no9-a1-m1-cJ_4no9-a1-m1-cX 4q1s-a1-m1-cJ_4q1s-a1-m1-cX 4qby-a1-m1-cJ_4qby-a1-m1-cX 4qlq-a1-m1-cJ_4qlq-a1-m1-cX 4qls-a1-m1-cJ_4qls-a1-m1-cX 4qlt-a1-m1-cJ_4qlt-a1-m1-cX 4qlu-a1-m1-cJ_4qlu-a1-m1-cX 4qlv-a1-m1-cJ_4qlv-a1-m1-cX 4qux-a1-m1-cJ_4qux-a1-m1-cX 4quy-a1-m1-cJ_4quy-a1-m1-cX 4qv0-a1-m1-cJ_4qv0-a1-m1-cX 4qv1-a1-m1-cJ_4qv1-a1-m1-cX 4qv3-a1-m1-cJ_4qv3-a1-m1-cX 4qv4-a1-m1-cJ_4qv4-a1-m1-cX 4qv5-a1-m1-cJ_4qv5-a1-m1-cX 4qv6-a1-m1-cJ_4qv6-a1-m1-cX 4qv7-a1-m1-cJ_4qv7-a1-m1-cX 4qv8-a1-m1-cJ_4qv8-a1-m1-cX 4qv9-a1-m1-cJ_4qv9-a1-m1-cX 4qvl-a1-m1-cJ_4qvl-a1-m1-cX 4qvm-a1-m1-cJ_4qvm-a1-m1-cX 4qvn-a1-m1-cJ_4qvn-a1-m1-cX 4qvp-a1-m1-cJ_4qvp-a1-m1-cX 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6h39-a1-m1-cJ_6h39-a1-m1-cX 6htb-a1-m1-cJ_6htb-a1-m1-cX 6htc-a1-m1-cJ_6htc-a1-m1-cX 6htd-a1-m1-cJ_6htd-a1-m1-cX 6htp-a1-m1-cJ_6htp-a1-m1-cX 6htr-a1-m1-cJ_6htr-a1-m1-cX 6hub-a1-m1-cJ_6hub-a1-m1-cX 6huc-a1-m1-cJ_6huc-a1-m1-cX 6huq-a1-m1-cJ_6huq-a1-m1-cX 6huu-a1-m1-cJ_6huu-a1-m1-cX 6huv-a1-m1-cJ_6huv-a1-m1-cX 6hv3-a1-m1-cJ_6hv3-a1-m1-cX 6hv4-a1-m1-cJ_6hv4-a1-m1-cX 6hv5-a1-m1-cJ_6hv5-a1-m1-cX 6hv7-a1-m1-cJ_6hv7-a1-m1-cX 6hva-a1-m1-cJ_6hva-a1-m1-cX 6hvr-a1-m1-cJ_6hvr-a1-m1-cX 6hvs-a1-m1-cJ_6hvs-a1-m1-cX 6hvt-a1-m1-cJ_6hvt-a1-m1-cX 6hvu-a1-m1-cJ_6hvu-a1-m1-cX 6hvv-a1-m1-cJ_6hvv-a1-m1-cX 6hvw-a1-m1-cJ_6hvw-a1-m1-cX 6hvx-a1-m1-cJ_6hvx-a1-m1-cX 6hvy-a1-m1-cJ_6hvy-a1-m1-cX 6hw0-a1-m1-cJ_6hw0-a1-m1-cX 6hw3-a1-m1-cJ_6hw3-a1-m1-cX 6hw4-a1-m1-cJ_6hw4-a1-m1-cX 6hw5-a1-m1-cJ_6hw5-a1-m1-cX 6hw6-a1-m1-cJ_6hw6-a1-m1-cX 6hw7-a1-m1-cJ_6hw7-a1-m1-cX 6hw8-a1-m1-cJ_6hw8-a1-m1-cX 6hw9-a1-m1-cJ_6hw9-a1-m1-cX 6hwa-a1-m1-cJ_6hwa-a1-m1-cX 6hwb-a1-m1-cJ_6hwb-a1-m1-cX 6hwc-a1-m1-cJ_6hwc-a1-m1-cX 6hwd-a1-m1-cJ_6hwd-a1-m1-cX 6hwf-a1-m1-cJ_6hwf-a1-m1-cX 6j2c-a1-m1-c4_6j2c-a1-m1-cg 6j2n-a1-m1-c4_6j2n-a1-m1-cg 6j2q-a1-m1-c4_6j2q-a1-m1-cg 6j2x-a1-m1-c4_6j2x-a1-m1-cg 6j30-a1-m1-c4_6j30-a1-m1-cg 6zou-a1-m1-cJ_6zou-a1-m1-cX 6zp6-a1-m1-cJ_6zp6-a1-m1-cX 6zp8-a1-m1-cJ_6zp8-a1-m1-cX 7ls5-a1-m1-cK_7ls5-a1-m1-cY 7o2l-a1-m1-cJ_7o2l-a1-m1-cX 7qo3-a1-m1-c4_7qo3-a1-m1-ck 7qo5-a1-m1-c4_7qo5-a1-m1-ck 7qo6-a1-m1-c4_7qo6-a1-m1-ck 7tej-a1-m1-cK_7tej-a1-m1-cY 7teo-a1-m1-cK_7teo-a1-m1-cY MDIILGIRVQDSVILASSKAVTRGISVLKDSDDKTRQLSPHTLMSFAGEAGDTVQFAEYIQANIQLYSIREDYELSPQAVSSFVRQELAKSIRSRRPYQVNVLIGGYDKKKNKPELYQIDYLGTKVELPYGAHGYSGFYTFSLLDHHYRPDMTTEEGLDLLKLCVQELEKRMPMDFKGVIVKIVDKDGIRQVDDF MDIILGIRVQDSVILASSKAVTRGISVLKDSDDKTRQLSPHTLMSFAGEAGDTVQFAEYIQANIQLYSIREDYELSPQAVSSFVRQELAKSIRSRRPYQVNVLIGGYDKKKNKPELYQIDYLGTKVELPYGAHGYSGFYTFSLLDHHYRPDMTTEEGLDLLKLCVQELEKRMPMDFKGVIVKIVDKDGIRQVDDF 6hwi-a1-m6-cA_6hwi-a1-m6-cB Immature M-PMV capsid hexamer structure in intact virus particles P07570 P07570 7.2 ELECTRON MICROSCOPY 72 1.0 11855 (Mason-Pfizer monkey virus) 11855 (Mason-Pfizer monkey virus) 200 200 4ard-a1-m1-cA_4ard-a1-m1-cB 6hwi-a1-m1-cA_6hwi-a1-m1-cB 6hwi-a1-m2-cA_6hwi-a1-m2-cB 6hwi-a1-m3-cA_6hwi-a1-m3-cB 6hwi-a1-m4-cA_6hwi-a1-m4-cB 6hwi-a1-m5-cA_6hwi-a1-m5-cB GFDFAVIKELKTAASQYGATAPYTLAIVESVADNWLTPTDWNTLVRAVLSGGDHLLWKSEFFENCRDTAKRNQQAGNGWDFDMLTGSGNYSSTDAQMQYDPGLFAQIQAAATKAWRKLPVKGDPGASLTGVKQGPDEPFADFVHRLITTAGRIFGSAEAGVDYVKQLAYENANPACQAAIRPYRKKTDLTGYIRLCSDIG GFDFAVIKELKTAASQYGATAPYTLAIVESVADNWLTPTDWNTLVRAVLSGGDHLLWKSEFFENCRDTAKRNQQAGNGWDFDMLTGSGNYSSTDAQMQYDPGLFAQIQAAATKAWRKLPVKGDPGASLTGVKQGPDEPFADFVHRLITTAGRIFGSAEAGVDYVKQLAYENANPACQAAIRPYRKKTDLTGYIRLCSDIG 6hwk-a1-m1-cA_6hwk-a1-m1-cD Glucosamine kinase (crystal form B) A0A1H7TQR5 A0A1H7TQR5 2.688 X-RAY DIFFRACTION 12 0.981 235985 (Streptacidiphilus jiangxiensis) 235985 (Streptacidiphilus jiangxiensis) 412 416 NWSELVAAADPALVLPSAVPGPLRLDALLDLGEGHAVGVVRSADAARWTVPLVRDRSRPGDGTAEHLVAALARTPDAAFVLEAFTGAAPVTGERGINESVIVGECAVVKWAVRLPAEGEPGSPAAQRIAALARGGFTEMPRPWGLLTLAEGAQPVLLASVVAYLPGALDGWDWAVDDVRRLARGELTMDQALLPAAQLGTLTARMHAALAARGRTPATAADVAAWGVRMREELDEAVASVPGAEGERLKAWAPRIADVYAELDALAGTPLIDVHGDFHVGQILRADGRYAVVDFDGNPVLPADQRAARQPAALDVVGMTASLDHVGRVVVFRTPDVDPAPVRAWIAAAQRSFLDAYRTTLARLDADDLFDDRLLTPLRYAQEVREYLYAVRHLPHWVYVPDLSLTDLLPERL PNWSELVAAADPALVLPSGERVPGPLRLDALLDLGEGHAVGVVRSADAARWTVPLVRDGAGGVRRSRPGDGTAEHLVAALARAAFVLEAFTGAAPVTGERGIIVSVIVGECAVVKWAVRLPAEGEPGSPAAQRIAALARGGFTEMPRPWGLLTLAEGAQPVLLASVVAYLPGALDGWDWAVDDVRRLARGELTMDQALLPAAQLGTLTARMHAALAARGRTPATAADVAAWGVRMREELDEAVASVPGAEGERLKAWAPRIADVYAELDALAGTPLIDVHGDFHVGQILRADGRYAVVDFDGNPVLPADQRAARQPAALDVVGMTASLDHVGRVVVFRTPDVDPAPVRAWIAAAQRSFLDAYRTTLARLDADDLFDDRLLTPLRYAQEVREYLYAVRHLPHWVYVPDLSLTDLLPE 6hwr-a2-m1-cA_6hwr-a2-m1-cB Red kidney bean purple acid phosphatase in complex with adenosine divanadate P80366 P80366 1.95 X-RAY DIFFRACTION 107 0.998 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 424 425 1kbp-a1-m1-cB_1kbp-a1-m1-cC 1kbp-a1-m2-cB_1kbp-a1-m2-cC 1kbp-a2-m1-cA_1kbp-a2-m3-cA 1kbp-a2-m1-cD_1kbp-a2-m3-cD 2qfp-a1-m1-cA_2qfp-a1-m1-cB 2qfp-a2-m1-cC_2qfp-a2-m1-cD 2qfr-a1-m1-cA_2qfr-a1-m1-cB 3kbp-a1-m1-cA_3kbp-a1-m2-cA 3kbp-a2-m1-cB_3kbp-a2-m1-cC 3kbp-a3-m1-cD_3kbp-a3-m2-cD 3kbp-a4-m1-cB_3kbp-a4-m1-cC 3kbp-a4-m3-cB_3kbp-a4-m3-cC 3kbp-a5-m1-cA_3kbp-a5-m2-cA 3kbp-a5-m1-cD_3kbp-a5-m2-cD 4dhl-a1-m1-cD_4dhl-a1-m1-cA 4dhl-a2-m1-cC_4dhl-a2-m1-cB 4dsy-a1-m1-cA_4dsy-a1-m1-cD 4dsy-a1-m1-cC_4dsy-a1-m1-cB 4dsy-a2-m1-cA_4dsy-a2-m1-cD 4dsy-a2-m1-cC_4dsy-a2-m1-cB 4dt2-a1-m1-cA_4dt2-a1-m1-cD 4dt2-a2-m1-cB_4dt2-a2-m1-cC 4kbp-a1-m1-cA_4kbp-a1-m2-cA 4kbp-a2-m1-cB_4kbp-a2-m1-cC 4kbp-a3-m1-cD_4kbp-a3-m2-cD 4kbp-a4-m1-cA_4kbp-a4-m2-cA 4kbp-a4-m1-cD_4kbp-a4-m2-cD 4kbp-a5-m1-cB_4kbp-a5-m1-cC 4kbp-a5-m3-cB_4kbp-a5-m3-cC 6g46-a1-m1-cC_6g46-a1-m1-cB 6g46-a1-m1-cD_6g46-a1-m1-cA 6hwr-a1-m1-cC_6hwr-a1-m1-cD 6of5-a1-m1-cC_6of5-a1-m1-cB 6of5-a1-m1-cD_6of5-a1-m1-cA 6of5-a2-m1-cD_6of5-a2-m1-cA 6of5-a3-m1-cC_6of5-a3-m1-cB 6ofd-a1-m1-cC_6ofd-a1-m1-cB 6ofd-a1-m1-cD_6ofd-a1-m1-cA 6ofd-a2-m1-cD_6ofd-a2-m1-cA 6ofd-a3-m1-cC_6ofd-a3-m1-cB 6py9-a1-m1-cC_6py9-a1-m1-cB 6py9-a1-m1-cD_6py9-a1-m1-cA 6vj7-a1-m1-cA_6vj7-a1-m1-cD 6vj7-a1-m1-cC_6vj7-a1-m1-cB KNRDMPLDSDVFRVPPGYNAPQQVHITQGDLVGRAMIISWVTMDEPGSSAVRYWSEKNGRKRIAKGKMSTYRFFNYSSGFIHHTTIRKLKYNTKYYYEVGLRNTTRRFSFITPPQTGLDVPYTFGLIGDLGQSFDSNTTLSHYELSPKKGQTVLFVGDLSYADRYPNHDNVRWDTWGRFTERSVAYQPWIWTAGNHEIEFAPEINETEPFKPFSYRYHVPYEASQSTSPFWYSIKRASAHIIVLSSYSAYGRGTPQYTWLKKELRKVKRSETPWLIVLMHSPLYNSYNHHFMEGEAMRTKFEAWFVKYKVDVVFAGHVHAYERSERVSNIAYKITNGLCTPVKDQSAPVYITIGDAGNYGVIDSNMIQPQPEYSAFREASFGHGMFDIKNRTHAHFSWNRNQDGVAVEADSVWFFNRHWYPVDD NRDMPLDSDVFRVPPGYNAPQQVHITQGDLVGRAMIISWVTMDEPGSSAVRYWSEKNGRKRIAKGKMSTYRFFNYSSGFIHHTTIRKLKYNTKYYYEVGLRNTTRRFSFITPPQTGLDVPYTFGLIGDLGQSFDSNTTLSHYELSPKKGQTVLFVGDLSYADRYPNHDNVRWDTWGRFTERSVAYQPWIWTAGNHEIEFAPEINETEPFKPFSYRYHVPYEASQSTSPFWYSIKRASAHIIVLSSYSAYGRGTPQYTWLKKELRKVKRSETPWLIVLMHSPLYNSYNHHFMEGEAMRTKFEAWFVKYKVDVVFAGHVHAYERSERVSNIAYKITNGLCTPVKDQSAPVYITIGDAGNYGVIDSNMIQPQPEYSAFREASFGHGMFDIKNRTHAHFSWNRNQDGVAVEADSVWFFNRHWYPVDDST 6hx9-a1-m1-cB_6hx9-a1-m1-cA Putrescine transaminase from Pseudomonas putida A0A1X0Z7H5 A0A1X0Z7H5 2.05 X-RAY DIFFRACTION 151 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 383 384 PRIITKAQGVHLWDSEGHKILDGMAGLWCVAVGYGREELVQAAEKQMRELPYYNLFFQTAHPPALELAKAITDVAPEGMTHVFFTGSGSEGNDTVLRMVRHYWALKGKPHKQTIIGRINGGIVHIPQPYWFGEGGDMTPDAFGIWAAEQLEKKILEVGEDNVAAFIAEPIQGAGGVIIPPETYWPKVKEILAKYDILFVADEVICGFGRTGEWFGSDYYDLKPDLMTIAKGLTSGYIPMGGVIVRDKVAKVISESGHPVAAAVGLENLRILRDEQIVEKARTEAAPYLQKRLRELQDHPLVGEVRGLGMLGAIELVKDKATRSRYEGKGVGMICRTFCFENGLIMRAVGDTMIIAPPLVISHAEIDELVEKARKCLDLTLEAI PRIITKAQGVHLWDSEGHKILDGMAGLWCVAVGYGREELVQAAEKQMRELPYYNLFFQTAHPPALELAKAITDVAPEGMTHVFFTGSGSEGNDTVLRMVRHYWALKGKPHKQTIIGRINGGIVHIPQPYWFGEGGDMTPDAFGIWAAEQLEKKILEVGEDNVAAFIAEPIQGAGGVIIPPETYWPKVKEILAKYDILFVADEVICGFGRTGEWFGSDYYDLKPDLMTIAKGLTSGYIPMGGVIVRDKVAKVISEGSGHPVAAAVGLENLRILRDEQIVEKARTEAAPYLQKRLRELQDHPLVGEVRGLGMLGAIELVKDKATRSRYEGKGVGMICRTFCFENGLIMRAVGDTMIIAPPLVISHAEIDELVEKARKCLDLTLEAI 6hxa-a1-m1-cA_6hxa-a1-m2-cA AntI from P. luminescens catalyses terminal polyketide shortening in the biosynthesis of anthraquinones Q7MZT8 Q7MZT8 1.85 X-RAY DIFFRACTION 128 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 375 375 PNRISPELLATCGYFMPRIFFLNSQYAPQVHWGDVVAALSHFPAGNLDLSSEEFWYEWMINWSKVGDSYINIANSAKSEVSHVRALRSAAACYHWAEFMYFSDRSRKIQLREYIRSCFLSSIKYSDLLVDHQYIVVDKFHMPFFLIFPKGYKEEENHPLPCVILSNGLDSMTEIEILSLAEFFLGKNMAVAIFDGPGQGINLGKSPIAIDMELYVSSIVKLLEDDARINSNLLCFLGISFGGYFALRVAQRIGDKFCCIVNLSGGPEIAEFDKLPRRLKEDFQFAFMQDNSHMQSIFDEIKLDISLPCKTKVFTVHGELDDIFQIDKVKKLDQLWGDNHQLLCYESEAHVCLNKINEYMIQVSDWVSEQFWLNGY PNRISPELLATCGYFMPRIFFLNSQYAPQVHWGDVVAALSHFPAGNLDLSSEEFWYEWMINWSKVGDSYINIANSAKSEVSHVRALRSAAACYHWAEFMYFSDRSRKIQLREYIRSCFLSSIKYSDLLVDHQYIVVDKFHMPFFLIFPKGYKEEENHPLPCVILSNGLDSMTEIEILSLAEFFLGKNMAVAIFDGPGQGINLGKSPIAIDMELYVSSIVKLLEDDARINSNLLCFLGISFGGYFALRVAQRIGDKFCCIVNLSGGPEIAEFDKLPRRLKEDFQFAFMQDNSHMQSIFDEIKLDISLPCKTKVFTVHGELDDIFQIDKVKKLDQLWGDNHQLLCYESEAHVCLNKINEYMIQVSDWVSEQFWLNGY 6hxp-a1-m1-cA_6hxp-a1-m4-cA Structure of citryl-CoA lyase from Hydrogenobacter thermophilus Q75VX1 Q75VX1 1.45 X-RAY DIFFRACTION 250 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 256 256 6hxp-a1-m2-cA_6hxp-a1-m3-cA RIWKTGITQHIGHETYIRGYRLLDLVGNLSFAQAIYLILKGELPTERESRMMEAMLVSVIDHGIAPPSAIAARSVASGGNSLNVGVAAGVLAFGSAHGGALEDAMRFIQEGVSSKRSVEDIVKEYLETKKPIPGYGHRYYKDFDPRTKRLMDIARVLEFYGEHCKFAEDVAEEIGRQKGKKLVLNVDGAIAAIASEMGFDWRLGKGFFIIGRVPGLVAHVYEELTTEKPFSKRLDEERDVEYTGSPPRELPQELKK RIWKTGITQHIGHETYIRGYRLLDLVGNLSFAQAIYLILKGELPTERESRMMEAMLVSVIDHGIAPPSAIAARSVASGGNSLNVGVAAGVLAFGSAHGGALEDAMRFIQEGVSSKRSVEDIVKEYLETKKPIPGYGHRYYKDFDPRTKRLMDIARVLEFYGEHCKFAEDVAEEIGRQKGKKLVLNVDGAIAAIASEMGFDWRLGKGFFIIGRVPGLVAHVYEELTTEKPFSKRLDEERDVEYTGSPPRELPQELKK 6hxp-a1-m2-cA_6hxp-a1-m4-cA Structure of citryl-CoA lyase from Hydrogenobacter thermophilus Q75VX1 Q75VX1 1.45 X-RAY DIFFRACTION 114 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 256 256 6hxp-a1-m1-cA_6hxp-a1-m3-cA RIWKTGITQHIGHETYIRGYRLLDLVGNLSFAQAIYLILKGELPTERESRMMEAMLVSVIDHGIAPPSAIAARSVASGGNSLNVGVAAGVLAFGSAHGGALEDAMRFIQEGVSSKRSVEDIVKEYLETKKPIPGYGHRYYKDFDPRTKRLMDIARVLEFYGEHCKFAEDVAEEIGRQKGKKLVLNVDGAIAAIASEMGFDWRLGKGFFIIGRVPGLVAHVYEELTTEKPFSKRLDEERDVEYTGSPPRELPQELKK RIWKTGITQHIGHETYIRGYRLLDLVGNLSFAQAIYLILKGELPTERESRMMEAMLVSVIDHGIAPPSAIAARSVASGGNSLNVGVAAGVLAFGSAHGGALEDAMRFIQEGVSSKRSVEDIVKEYLETKKPIPGYGHRYYKDFDPRTKRLMDIARVLEFYGEHCKFAEDVAEEIGRQKGKKLVLNVDGAIAAIASEMGFDWRLGKGFFIIGRVPGLVAHVYEELTTEKPFSKRLDEERDVEYTGSPPRELPQELKK 6hxp-a1-m3-cA_6hxp-a1-m4-cA Structure of citryl-CoA lyase from Hydrogenobacter thermophilus Q75VX1 Q75VX1 1.45 X-RAY DIFFRACTION 124 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 256 256 6hxp-a1-m1-cA_6hxp-a1-m2-cA RIWKTGITQHIGHETYIRGYRLLDLVGNLSFAQAIYLILKGELPTERESRMMEAMLVSVIDHGIAPPSAIAARSVASGGNSLNVGVAAGVLAFGSAHGGALEDAMRFIQEGVSSKRSVEDIVKEYLETKKPIPGYGHRYYKDFDPRTKRLMDIARVLEFYGEHCKFAEDVAEEIGRQKGKKLVLNVDGAIAAIASEMGFDWRLGKGFFIIGRVPGLVAHVYEELTTEKPFSKRLDEERDVEYTGSPPRELPQELKK RIWKTGITQHIGHETYIRGYRLLDLVGNLSFAQAIYLILKGELPTERESRMMEAMLVSVIDHGIAPPSAIAARSVASGGNSLNVGVAAGVLAFGSAHGGALEDAMRFIQEGVSSKRSVEDIVKEYLETKKPIPGYGHRYYKDFDPRTKRLMDIARVLEFYGEHCKFAEDVAEEIGRQKGKKLVLNVDGAIAAIASEMGFDWRLGKGFFIIGRVPGLVAHVYEELTTEKPFSKRLDEERDVEYTGSPPRELPQELKK 6hxt-a2-m1-cB_6hxt-a2-m1-cC Crystal structure of the head domain of human CCDC61 Q9Y6R9 Q9Y6R9 2.55 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 124 6hxt-a1-m1-cA_6hxt-a1-m2-cA PAGLQVDYVFRGVEHAVRVVSGQVLELEVEDRTADQWRGEFDAGFIEDLTHKTGNFKQFNIFCHLESALTQSSESVTLDLLTYTDLESLRNNSKRYLILIYSVEFDRIHYPLPLPYQ PAGLQVDYVFRGVEHAVRVVSGQVLELEVEDRTADQWRGEFDAGFIEDLTHKTGNFKQFNIFCHLESALTQSSESVTLDLLTYTDLESLRNSAQLNSKRYLILIYSVEFDRIHYPLPLPYQGKP 6hxy-a1-m1-cB_6hxy-a1-m2-cB Crystal structure of the head and coiled-coil domains of zebrafish CCDC61 Q08CF3 Q08CF3 2.9 X-RAY DIFFRACTION 45 1.0 7955 (Danio rerio) 7955 (Danio rerio) 153 153 EVGTVVQEEMKFRGSEFAVKVEMAERLLIVEISDVVTADQWRGEFGPAYIEDLTRKTGNFKQFPVFCSMLESAVHKSSDSVTLDLLTYSDLELLRNRKAPQSPALSAKRYLILIYTVEFDRIHYPLPLPYLGKPDPAELQKEIRALRSELKTL EVGTVVQEEMKFRGSEFAVKVEMAERLLIVEISDVVTADQWRGEFGPAYIEDLTRKTGNFKQFPVFCSMLESAVHKSSDSVTLDLLTYSDLELLRNRKAPQSPALSAKRYLILIYTVEFDRIHYPLPLPYLGKPDPAELQKEIRALRSELKTL 6hxy-a1-m2-cA_6hxy-a1-m2-cB Crystal structure of the head and coiled-coil domains of zebrafish CCDC61 Q08CF3 Q08CF3 2.9 X-RAY DIFFRACTION 63 1.0 7955 (Danio rerio) 7955 (Danio rerio) 147 153 6hxy-a1-m1-cA_6hxy-a1-m1-cB VGTVVQEEMKFRGSEFAVKVEMAERLLIVEISDVVTADQWRGEFGPAYIEDLTRKTGNFKQFPVFCSMLESAVHKSSDSVTLDLLTYSDLELLRQSPALSAKRYLILIYTVEFDRIHYPLPLPYLGKPDPAELQKEIRALRSELKTL EVGTVVQEEMKFRGSEFAVKVEMAERLLIVEISDVVTADQWRGEFGPAYIEDLTRKTGNFKQFPVFCSMLESAVHKSSDSVTLDLLTYSDLELLRNRKAPQSPALSAKRYLILIYTVEFDRIHYPLPLPYLGKPDPAELQKEIRALRSELKTL 6hyh-a1-m1-cA_6hyh-a1-m2-cA Crystal structure of MSMEG_1712 from Mycobacterium smegmatis in complex with Beta-D-Fucofuranose A0QT50 A0QT50 2.5 X-RAY DIFFRACTION 33 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 304 304 ALTLGFAQVGAESGWRTANTESIKSAAEEAGVNLKFADANGEQEKQISAIRSFIQQGVDVIAFSPVVRTGWDAVLQETKNAGIPVILTDRAVDTQDTDVYKTFIGADFIEEGRRAGQWVADQYASATGPVNIVQLEGTTGADPAIDRKTGFAEGISKNPNLKIVASQTGDFTRSGGKQVMEAFLKSTPQIDVVFAQNDDMGLGAMEAIEAAGKKPGTDIKIVAVDATHDGMQALADGKFNYIVECNPLLGPELMDLAKKVAAGEPVPERVVTPDEAFDQAQAKAALPNRQYKLAAALEHHHHHH ALTLGFAQVGAESGWRTANTESIKSAAEEAGVNLKFADANGEQEKQISAIRSFIQQGVDVIAFSPVVRTGWDAVLQETKNAGIPVILTDRAVDTQDTDVYKTFIGADFIEEGRRAGQWVADQYASATGPVNIVQLEGTTGADPAIDRKTGFAEGISKNPNLKIVASQTGDFTRSGGKQVMEAFLKSTPQIDVVFAQNDDMGLGAMEAIEAAGKKPGTDIKIVAVDATHDGMQALADGKFNYIVECNPLLGPELMDLAKKVAAGEPVPERVVTPDEAFDQAQAKAALPNRQYKLAAALEHHHHHH 6hyh-a1-m1-cA_6hyh-a1-m2-cB Crystal structure of MSMEG_1712 from Mycobacterium smegmatis in complex with Beta-D-Fucofuranose A0QT50 A0QT50 2.5 X-RAY DIFFRACTION 17 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 304 304 6hyh-a1-m1-cB_6hyh-a1-m2-cA ALTLGFAQVGAESGWRTANTESIKSAAEEAGVNLKFADANGEQEKQISAIRSFIQQGVDVIAFSPVVRTGWDAVLQETKNAGIPVILTDRAVDTQDTDVYKTFIGADFIEEGRRAGQWVADQYASATGPVNIVQLEGTTGADPAIDRKTGFAEGISKNPNLKIVASQTGDFTRSGGKQVMEAFLKSTPQIDVVFAQNDDMGLGAMEAIEAAGKKPGTDIKIVAVDATHDGMQALADGKFNYIVECNPLLGPELMDLAKKVAAGEPVPERVVTPDEAFDQAQAKAALPNRQYKLAAALEHHHHHH ALTLGFAQVGAESGWRTANTESIKSAAEEAGVNLKFADANGEQEKQISAIRSFIQQGVDVIAFSPVVRTGWDAVLQETKNAGIPVILTDRAVDTQDTDVYKTFIGADFIEEGRRAGQWVADQYASATGPVNIVQLEGTTGADPAIDRKTGFAEGISKNPNLKIVASQTGDFTRSGGKQVMEAFLKSTPQIDVVFAQNDDMGLGAMEAIEAAGKKPGTDIKIVAVDATHDGMQALADGKFNYIVECNPLLGPELMDLAKKVAAGEPVPERVVTPDEAFDQAQAKAALPNRQYKLAAALEHHHHHH 6hyh-a1-m2-cA_6hyh-a1-m2-cB Crystal structure of MSMEG_1712 from Mycobacterium smegmatis in complex with Beta-D-Fucofuranose A0QT50 A0QT50 2.5 X-RAY DIFFRACTION 40 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 304 304 6hyh-a1-m1-cA_6hyh-a1-m1-cB ALTLGFAQVGAESGWRTANTESIKSAAEEAGVNLKFADANGEQEKQISAIRSFIQQGVDVIAFSPVVRTGWDAVLQETKNAGIPVILTDRAVDTQDTDVYKTFIGADFIEEGRRAGQWVADQYASATGPVNIVQLEGTTGADPAIDRKTGFAEGISKNPNLKIVASQTGDFTRSGGKQVMEAFLKSTPQIDVVFAQNDDMGLGAMEAIEAAGKKPGTDIKIVAVDATHDGMQALADGKFNYIVECNPLLGPELMDLAKKVAAGEPVPERVVTPDEAFDQAQAKAALPNRQYKLAAALEHHHHHH ALTLGFAQVGAESGWRTANTESIKSAAEEAGVNLKFADANGEQEKQISAIRSFIQQGVDVIAFSPVVRTGWDAVLQETKNAGIPVILTDRAVDTQDTDVYKTFIGADFIEEGRRAGQWVADQYASATGPVNIVQLEGTTGADPAIDRKTGFAEGISKNPNLKIVASQTGDFTRSGGKQVMEAFLKSTPQIDVVFAQNDDMGLGAMEAIEAAGKKPGTDIKIVAVDATHDGMQALADGKFNYIVECNPLLGPELMDLAKKVAAGEPVPERVVTPDEAFDQAQAKAALPNRQYKLAAALEHHHHHH 6hz4-a1-m1-cN_6hz4-a1-m1-cM Structure of McrBC without DNA binding domains (one half of the full complex) P15006 P15006 3.6 ELECTRON MICROSCOPY 82 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 152 336 6hz5-a1-m1-cM_6hz5-a1-m1-cN 6hz6-a1-m1-cM_6hz6-a1-m1-cN 6hz7-a1-m1-cM_6hz7-a1-m1-cN 6hz8-a1-m1-cM_6hz8-a1-m1-cN 6hz9-a1-m1-cM_6hz9-a1-m1-cN NEKEMSLLYQKFLYEFCRRELTSANTTRSYLKWDASSISDQSLNLLPRMETDITIRSSEKILIVDAKYYKSIFSREKFHSQNLYQLMNYLWSLKPENGENIGGLLIYPHVDTAVKHRYKINGFDIGLCTVNLGQEWPCIHQELLDIFDEYLK QPVIPVRNIYYMLTYAWGYANLEAIPGNNLLDILGYVLNKGVLQLSRRGLELDYNPNTEIIPGIKGRIEFAKTIRGFHLNHGKTVSTFDMLNEDTLANRIIKSTLAILIKHEKLNSTIRDEARSLYRKLPGISTLHLTPQHFSYLNGGKNTRYYKFVISVCKFIVNNSIPGQNKGHYRFYDFERNEKEMSLLYQKFLYEFCRRELTSANTTRSYLKWDASSISDQSLNLLPRMETDITIRSSEKILIVDAKYYKSIFSREKFHSQNLYQLMNYLWSLKPENGENIGGLLIYPHVDTAVKHRYKINGFDIGLCTVNLGQEWPCIHQELLDIFDEYLK 6hzk-a1-m1-cB_6hzk-a1-m1-cA Crystal structure of redox-inhibited phosphoribulokinase from Synechococcus sp. (strain PCC 6301) A0A0H3K6J7 A0A0H3K6J7 2.4 X-RAY DIFFRACTION 62 1.0 269084 (Synechococcus elongatus PCC 6301) 269084 (Synechococcus elongatus PCC 6301) 295 329 6hzl-a1-m1-cB_6hzl-a1-m1-cA PDRVVLIGVAGSTFLNRLADLFGTELMTVICLDDYHSLDRKGRKEAGVTALDPRANNFDLMYEQVKALKNGETIMKPIYNHETGLIDPPEKIEPNRIIVIEGLHPLYDERVRELLDFSVYLDIEARRPDFKAYIEPQRGHADIVIRVMPTQLIPNDTERKVLRVQLIQREGRDGFEPAYLFDEGSTIQWTPCGRKLTCSYPGIRLAYGPDTYYGHEVSVLEVDGQFENLEEMIYVEGHLSKTDTQYYGELTHLLLQHKDYPGSNNGTGLFQVLTGLKMRAAYERLTSQAAPVAAS PDRVVLIGVAGDSGCGKSTFLNRLADLFGTELMTVICLDDYHSLDRKGRKEAGVTALDPRANNFDLMYEQVKALKNGETIMKPIYNHETGLIDPPEKIEPNRIIVIEGLHPLYDERVRELLDFSVYLDIDDEVKIAWKIQRDMAERGHSYEDVLASIEARRPDFKAYIEPQRGHADIVIRVMPTQLIPNDTERKVLRVQLIQREGRDGFEPAYLFDEGSTIQWTPCGRKLTCSYPGIRLAYGPDTYYGHEVSVLEVDGQFENLEEMIYVEGHLSKTDTQYYGELTHLLLQHKDYPGSNNGTGLFQVLTGLKMRAAYERLTSQAAPVAAS 6hzy-a1-m1-cB_6hzy-a1-m1-cA Crystal structure of a bacterial fucosidase with inhibitor FucPUG Q8A3I4 Q8A3I4 1.7 X-RAY DIFFRACTION 68 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 437 438 2wvt-a1-m1-cA_2wvt-a1-m1-cB IPLKYGATNEGKRQDPAMQKFRDNRLGAFIHWGLYAIPGGEWNGKVYGGAAEWLKSWAKVPADEWLKLMDQWNPTKFDAKKWAKMAKEMGTKYVKITTKHHEGFCLWPSKYTKYTVANTPYKRDILGELVKAYNDEGIDVHFYFSVMDWSNPDYRYDIKSKEDSIAFSRFLEFTDNQLKELATRYPTVKDFWFDGTWDASVKKNGWWTAHAEQMLKELVPGVAINSRLRADDKGKRHFDSNGRLMGDYESGYERRLPDPVKDLKVTQWDWEACMTIPENQWGYHKDWSLSYVKTPIEVIDRIVHAVSMGGNMVVNFGPQADGDFRPEEKAMATAIGKWMNRYGKAVYACDYAGFEKQDWGYYTRGKNDEVYMVVFNQPYSERLIVKTPKGITVEKATLLTTGEDITVVETTRNEYNVSVPKKNPGEPYVIQLKVRAA IPLKYGATNEGKRQDPAMQKFRDNRLGAFIHWGLYAIPGGEWNGKVYGGAAEWLKSWAKVPADEWLKLMDQWNPTKFDAKKWAKMAKEMGTKYVKITTKHHEGFCLWPSKYTKYTVANTPYKRDILGELVKAYNDEGIDVHFYFSVMDWSNPDYRYDIKSKEDSIAFSRFLEFTDNQLKELATRYPTVKDFWFDGTWDASVKKNGWWTAHAEQMLKELVPGVAINSRLRADDKGKRHFDSNGRLMGDYESGYERRLPDPVKDLKVTQWDWEACMTIPENQWGYHKDWSLSYVKTPIEVIDRIVHAVSMGGNMVVNFGPQADGDFRPEEKAMATAIGKWMNRYGKAVYACDYAGFEKQDWGYYTRGKNDEVYMVVFNQPYSERLIVKTPKGITVEKATLLTTGEDITVVETTRNEYNVSVPKKNPGEPYVIQLKVRAAK 6i01-a1-m1-cA_6i01-a1-m1-cB Structure of human D-glucuronyl C5 epimerase in complex with substrate O94923 O94923 2.1 X-RAY DIFFRACTION 191 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 512 516 6hzz-a1-m1-cA_6hzz-a1-m1-cB 6i02-a1-m1-cA_6i02-a1-m1-cB LKYEEIDCLINDEHTIKGRREGNEVFLPFTWVEKYFDVYGKVVQYDGYDRFEFSHSYSKVYAQRAPYHPDGVFMSFEGYNVEVRDRVKCISGVEGVPLSTQWGPQGYFYPIQIAQYGLSHYSKNLTEKPPHIEVYETAEDRDNDWTVPKGCFMANVADKSRFTNVKQFIAPETSEGVSLQLGNTKDFIISFDLKFLTNGSVSVVLETTEKNQLFTIHYVSNAQLIAFKERDIYYGIGPRTSWSTVTRDLVTDLRKGVGLSNTKAVKPTKIMPKKVVRLIAKGKGFLDNITISTTAHMAAFFAASDWLVRNQDEKGGWPIMVTRKLGEGFKSLEPGWYSAMAQGQAISTLVRAYLLTKDHIFLNSALRATAPYKFLSEQHGVKAVFMNKHDWYEEYPTTPSSFVLNGFMYSLIGLYDLKETAGEKLGKEARSLYERGMESLKAMLPLYDTGSGTIYDLRHFMLGIAPNLARWDFHTTHINQLQLLSTIDESPVFKEFVKRWKSYLKGSRAKHN LKYEEIDCLINDEHTIKGRREGNEVFLPFTWVEKYFDVYGKVVQYDGYDRFEFSHSYSKVYAQRAPYHPDGVFMSFEGYNVEVRDRVKCISGVEGVPLSTQWGPQGYFYPIQIAQYGLSHYSKNLTEKPPHIEVYETAEDRDKNKPNDWTVPKGCFMANVADKSRFTNVKQFIAPETSEGVSLQLGNTKDFIISFDLKFLTNGSVSVVLETTEKNQLFTIHYVSNAQLIAFKERDIYYGIGPRTSWSTVTRDLVTDLRKGVGLSNTKAVKPTKIMPKKVVRLIAKGKGFLDNITISTTAHMAAFFAASDWLVRNQDEKGGWPIMVTRKLGEGFKSLEPGWYSAMAQGQAISTLVRAYLLTKDHIFLNSALRATAPYKFLSEQHGVKAVFMNKHDWYEEYPTTPSSFVLNGFMYSLIGLYDLKETAGEKLGKEARSLYERGMESLKAMLPLYDTGSGTIYDLRHFMLGIAPNLARWDFHTTHINQLQLLSTIDESPVFKEFVKRWKSYLKGSRAKHN 6i0i-a1-m1-cB_6i0i-a1-m1-cA Structure of the streptomyces subtilisin and TAMP inhibitor (SSTI) P83544 P83544 1.448 X-RAY DIFFRACTION 87 1.0 1223523 (Streptomyces mobaraensis NBRC 13819 = DSM 40847) 1223523 (Streptomyces mobaraensis NBRC 13819 = DSM 40847) 106 108 YAPSALVLTVGQGDKAASAGVQRAVTLNCMPKPSGTHPDARGACDQLRAASGNFAEITKIGTACTKEWNPFVVTAEGVWEGQRVKYEHTFANPCEMKAGKGTVFEF YAPSALVLTVGQGDKAASAGVQRAVTLNCMPKPSGTHPDARGACDQLRAASGNFAEITKIKSGTACTKEWNPFVVTAEGVWEGQRVKYEHTFANPCEMKAGKGTVFEF 6i1a-a1-m1-cA_6i1a-a1-m1-cB Crystal structure of rutinosidase from Aspergillus niger G3YFQ1 G3YFQ1 1.27 X-RAY DIFFRACTION 32 1.0 5061 (Aspergillus niger) 5061 (Aspergillus niger) 358 358 SYIDWRTFKGNGVNLGGWLEQESTIDSLFWDKYSGGASDEWGLCEHLGSQCGPVLEHRYATLITKADIDKLASGGITVLRIPTTYAAWIDLPSSQLYSGNQTAYLKEIADYAIKTYNMHIIIDTHSLPGGVNGLTIGEATGHWYWFYNETHFNYSMQVIDQVINFIQTSGSPQSYTLEPINEPADNNTNMVVFGTPLALTDHGAAWVLKYIRAVVQRVESVNPNIPVMFQGSFKYPQYWEGDFPASTNLVFDTHHYYYEHMDSSSENLPEYILADAREKSGTGKFPVFVGEWAIQATYNNTLALRKRNVLAGLETWSSFSQGSSYWTAKFTGNTSVAGQGEQKDYWCYETFIDEGYFN SYIDWRTFKGNGVNLGGWLEQESTIDSLFWDKYSGGASDEWGLCEHLGSQCGPVLEHRYATLITKADIDKLASGGITVLRIPTTYAAWIDLPSSQLYSGNQTAYLKEIADYAIKTYNMHIIIDTHSLPGGVNGLTIGEATGHWYWFYNETHFNYSMQVIDQVINFIQTSGSPQSYTLEPINEPADNNTNMVVFGTPLALTDHGAAWVLKYIRAVVQRVESVNPNIPVMFQGSFKYPQYWEGDFPASTNLVFDTHHYYYEHMDSSSENLPEYILADAREKSGTGKFPVFVGEWAIQATYNNTLALRKRNVLAGLETWSSFSQGSSYWTAKFTGNTSVAGQGEQKDYWCYETFIDEGYFN 6i1j-a2-m1-cA_6i1j-a2-m6-cA Selective formation of trinuclear transition metal centers in a trimeric helical peptide 2.35 X-RAY DIFFRACTION 17 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6i1j-a2-m2-cA_6i1j-a2-m5-cA 6i1j-a2-m3-cA_6i1j-a2-m4-cA GEIAAIKQEIAAHKKEHAAIKWEIAAIKQG GEIAAIKQEIAAHKKEHAAIKWEIAAIKQG 6i1j-a2-m2-cA_6i1j-a2-m6-cA Selective formation of trinuclear transition metal centers in a trimeric helical peptide 2.35 X-RAY DIFFRACTION 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6i1j-a2-m1-cA_6i1j-a2-m4-cA 6i1j-a2-m3-cA_6i1j-a2-m5-cA GEIAAIKQEIAAHKKEHAAIKWEIAAIKQG GEIAAIKQEIAAHKKEHAAIKWEIAAIKQG 6i1r-a1-m1-cA_6i1r-a1-m1-cB Crystal structure of CMP bound CST in an outward facing conformation B4FZ94 B4FZ94 2.8 X-RAY DIFFRACTION 64 1.0 4577 (Zea mays) 4577 (Zea mays) 309 310 MQWYLVAALLTILTSSQGILTTLSQSNYDYATIPFLAELFKLSVSGFFLWKECRTSPSVRMTKEWRSVRLYVVPSVIYLIHNNVQFATLTYVDPSTYQIMGNLKIVTTGILFRLVLKRKLSNIQWMAIVLLAVGTTTSQVKGCGDSPCDSLFSAPLEGYLLGILSACLSALAGVYTEYLMKKNNDSLYWQNVQLYTFGVIFNMGWLIYGDFKAGFELGPWWQRLFNGYSITTWMVVFNLGSTGLLVSWLMKYSDNIVKVYSTSMAMLLTMVLSIYLFSVKATIQLFLGIIICIISLQMYFMPVHMLIEL MQWYLVAALLTILTSSQGILTTLSQSNNYDYATIPFLAELFKLSVSGFFLWKECRTSPSVRMTKEWRSVRLYVVPSVIYLIHNNVQFATLTYVDPSTYQIMGNLKIVTTGILFRLVLKRKLSNIQWMAIVLLAVGTTTSQVKGCGDSPCDSLFSAPLEGYLLGILSACLSALAGVYTEYLMKKNNDSLYWQNVQLYTFGVIFNMGWLIYGDFKAGFELGPWWQRLFNGYSITTWMVVFNLGSTGLLVSWLMKYSDNIVKVYSTSMAMLLTMVLSIYLFSVKATIQLFLGIIICIISLQMYFMPVHMLIEL 6i2m-a1-m1-cA_6i2m-a1-m2-cA Crystal structure of vaccinia virus protein A55 BTB-Back domain in complex with human Cullin-3 N-terminus P24768 P24768 2.3 X-RAY DIFFRACTION 75 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 196 196 MNNSSELIAVINGFRNSGRFCDISIVINDERINAHKLILSGASEYFSILFSNNFIDSNEYEVNLSHLDYQSVNDLIDYIYGIPLSLTNDNVKYILSTADFLQIGSAITECENYILKNLCSKNCIDFYIYADKYNNKKIESASFNTILQNILRLINDENFKYLTEESMIKILSDDMLNIKNEDFAPLILIKWLESTQ MNNSSELIAVINGFRNSGRFCDISIVINDERINAHKLILSGASEYFSILFSNNFIDSNEYEVNLSHLDYQSVNDLIDYIYGIPLSLTNDNVKYILSTADFLQIGSAITECENYILKNLCSKNCIDFYIYADKYNNKKIESASFNTILQNILRLINDENFKYLTEESMIKILSDDMLNIKNEDFAPLILIKWLESTQ 6i2v-a1-m2-cA_6i2v-a1-m4-cA Pilotin from Vibrio vulnificus type 2 secretion system, EpsS. A0A1V8MYF4 A0A1V8MYF4 1.75 X-RAY DIFFRACTION 22 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 110 110 6i2v-a1-m1-cA_6i2v-a1-m3-cA NGEKERQLELMASNRAGVLSAGLPIEYGPLKVMRISSSKNIVEIMMIYNTDATGAKPTQELLSTSVSKYCEDATVRNQLDMGLMYRIKIRNSRGQLIIDEMVTAASCQPQ NGEKERQLELMASNRAGVLSAGLPIEYGPLKVMRISSSKNIVEIMMIYNTDATGAKPTQELLSTSVSKYCEDATVRNQLDMGLMYRIKIRNSRGQLIIDEMVTAASCQPQ 6i2v-a1-m3-cA_6i2v-a1-m4-cA Pilotin from Vibrio vulnificus type 2 secretion system, EpsS. A0A1V8MYF4 A0A1V8MYF4 1.75 X-RAY DIFFRACTION 33 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 110 110 6i2v-a1-m1-cA_6i2v-a1-m2-cA NGEKERQLELMASNRAGVLSAGLPIEYGPLKVMRISSSKNIVEIMMIYNTDATGAKPTQELLSTSVSKYCEDATVRNQLDMGLMYRIKIRNSRGQLIIDEMVTAASCQPQ NGEKERQLELMASNRAGVLSAGLPIEYGPLKVMRISSSKNIVEIMMIYNTDATGAKPTQELLSTSVSKYCEDATVRNQLDMGLMYRIKIRNSRGQLIIDEMVTAASCQPQ 6i35-a2-m1-cC_6i35-a2-m1-cD Crystal structure of human glycine decarboxylase (P-protein) bound with pyridoxyl-glycine-5'-monophosphate P23378 P23378 2 X-RAY DIFFRACTION 233 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 953 954 6i33-a1-m1-cB_6i33-a1-m1-cA 6i34-a1-m1-cA_6i34-a1-m1-cB 6i34-a2-m1-cC_6i34-a2-m1-cD 6i35-a1-m1-cA_6i35-a1-m1-cB ASRLLERLLPRHDDFARRHIGPGDKDQREMLQTLGLASIDELIEKTVPANIRLKRPLKMEDPVCENEILATLHAISSKNQIWRSYIGMGYYNCSVPQTILRNLLENSGWITQYTPYQPEVSQGRLESLLNYQTMVCDITGLDMANASLLDEGTAAAEALQLCYRHNKRRKFLVDPRCHPQTIAVVQTRAKYTGVLTELKLPCEMDFSGKDVSGVLFQYPDTEGKVEDFTELVERAHQSGSLACCATDLLALCILRPPGEFGVDIALGSSQRFGVPLGYGGPHAAFFAVRESLVRMMPGRMVGVTRDATGKEVYRLALQTREQHIRRDKATSNICTAQALLANMAAMFAIYHGSHGLEHIARRVHNATLILSEGLKRAGHQLQHDLFFDTLKIQCGCSVKEVLGRAAQRQINFRLFEDGTLGISLDETVNEKDLDDLLWIFGCESSAELVAESMRGIPGSVFKRTSPFLTHQVFNSYHSETNIVRYMKKLENKDISLVHSMIPLGSCTMKLNSSSELAPITWKEFANIHPFVPLDQAQGYQQLFRELEKDLCELTGYDQVCFQPNSGAQGEYAGLATIRAYLNQKGEGHRTVCLIPKSAHGTNPASAHMAGMKIQPVEVDKYGNIDAVHLKAMVDKHKENLAAIMITYPSTNGVFEENISDVCDLIHQHGGQVYLDGANMNAQVGICRPGDFGSDVSHLNLHKTFCIPHGGGGPGMGPIGVKKHLAPFLPNHPVISLKRNEDACPVGTVSAAPWGSSSILPISWAYIKMMGGKGLKQATETAILNANYMAKRLETHYRILFRGARGYVGHEFILDTRPFKKSANIEAVDVAKRLQDYGFHAPTMSWPVAGTLMVEPTESEDKAELDRFCDAMISIRQEIADIEEGRIDPRVNPLKMSPHSLTCVTSSHWDRPYSREVAAFPLPFVKPENKFWPTIARIDDIYGDQHLVCTCPPM RLLERLLPRHDDFARRHIGPGDKDQREMLQTLGLASIDELIEKTVPANIRLKRPLKMEDPVCENEILATLHAISSKNQIWRSYIGMGYYNCSVPQTILRNLLENSGWITQYTPYQPEVSQGRLESLLNYQTMVCDITGLDMANASLLDEGTAAAEALQLCYRHNKRRKFLVDPRCHPQTIAVVQTRAKYTGVLTELKLPCEMDFSGKDVSGVLFQYPDTEGKVEDFTELVERAHQSGSLACCATDLLALCILRPPGEFGVDIALGSSQRFGVPLGYGGPHAAFFAVRESLVRMMPGRMVGVTRDATGKEVYRLALQTREQHIRRDKATSNICTAQALLANMAAMFAIYHGSHGLEHIARRVHNATLILSEGLKRAGHQLQHDLFFDTLKIQCGCSVKEVLGRAAQRQINFRLFEDGTLGISLDETVNEKDLDDLLWIFGCESSAELVAESMGEECRGIPGSVFKRTSPFLTHQVFNSYHSETNIVRYMKKLENKDISLVHSMIPLGSCTMKLNSSSELAPITWKEFANIHPFVPLDQAQGYQQLFRELEKDLCELTGYDQVCFQPNSGAQGEYAGLATIRAYLNQKGEGHRTVCLIPKSAHGTNPASAHMAGMKIQPVEVDKYGNIDAVHLKAMVDKHKENLAAIMITYPSTNGVFEENISDVCDLIHQHGGQVYLDGANMNAQVGICRPGDFGSDVSHLNLHKTFCIPHGGGGPGMGPIGVKKHLAPFLPNHPVISLKRNEDACPVGTVSAAPWGSSSILPISWAYIKMMGGKGLKQATETAILNANYMAKRLETHYRILFRGARGYVGHEFILDTRPFKKSANIEAVDVAKRLQDYGFHAPTMSWPVAGTLMVEPTESEDKAELDRFCDAMISIRQEIADIEEGRIDPRVNPLKMSPHSLTCVTSSHWDRPYSREVAAFPLPFVKPENKFWPTIARIDDIYGDQHLVCTCPP 6i3v-a1-m1-cB_6i3v-a1-m2-cF x-ray structure of the human mitochondrial PRELID1 in complex with TRIAP1 Q9Y255 Q9Y255 1.98 X-RAY DIFFRACTION 165 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 182 6i3y-a1-m1-cC_6i3y-a1-m2-cF QMVKYFLGQSVLRSSWDQVFAAFWQRYPNPYSKHVLTEDIVHREVTPDQKLLSRRLLTKTNRMPRWAERLFPANVAHSVYVLEDSIVDPQNQTMTTFTWNINHARLMVVEERSVYSVNSDNSGWTEIRREAWVSSSLFGVSRAVQEFGLARFKSNVTKTMKGFEYILAKLQGE HHHHHHSDQMVKYFLGQSVLRSSWDQVFAAFWQRYPNPYSKHVLTEDIVHREVTPDQKLLSRRLLTKTNRMPRWAERLFPANVAHSVYVLEDSIVDPQNQTMTTFTWNINHARLMVVEERSVYSVNSDNSGWTEIRREAWVSSSLFGVSRAVQEFGLARFKSNVTKTMKGFEYILAKLQGEA 6i4y-a1-m1-cB_6i4y-a1-m2-cB X-ray structure of the human mitochondrial PRELID3b-TRIAP1 complex Q9Y3B1 Q9Y3B1 2.91 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 DKMKIWTSEHVFDHPWETVTTAAMQKYPNPMNPSVVGVDVLDRHIDPSGKLHSHRLLSTEWGLPSIVKSLIGAARTKTYVQEHSVVDPVEKTMELKSTNISFTNMVSVDERLIYKPHPQDPEKTVLTQEAIITVKGVSLSSYLEGLMASTISSNASKGREAMEWVIHKLNAEI DKMKIWTSEHVFDHPWETVTTAAMQKYPNPMNPSVVGVDVLDRHIDPSGKLHSHRLLSTEWGLPSIVKSLIGAARTKTYVQEHSVVDPVEKTMELKSTNISFTNMVSVDERLIYKPHPQDPEKTVLTQEAIITVKGVSLSSYLEGLMASTISSNASKGREAMEWVIHKLNAEI 6i50-a1-m2-cA_6i50-a1-m3-cA Structure of Eiger TNF from S. frugiperda A0A2H1VTZ0 A0A2H1VTZ0 1.69 X-RAY DIFFRACTION 79 1.0 7108 (Spodoptera frugiperda) 7108 (Spodoptera frugiperda) 157 157 6i50-a1-m1-cA_6i50-a1-m2-cA 6i50-a1-m1-cA_6i50-a1-m3-cA RPFIAAHFHGNTSGLVRVSHDAPHDVWYPAPWTVASPHPRPTLTRTGHVHVHHTGVYLVYVQIYYLDSHDTISWVLHRTNADIEGRETLLQCAQSSYSTEPIDKPNSCFSAAALFLKAGDRLAVRNTAGDRHSLMQPEKSFIGLVKLADAEDPTQEL RPFIAAHFHGNTSGLVRVSHDAPHDVWYPAPWTVASPHPRPTLTRTGHVHVHHTGVYLVYVQIYYLDSHDTISWVLHRTNADIEGRETLLQCAQSSYSTEPIDKPNSCFSAAALFLKAGDRLAVRNTAGDRHSLMQPEKSFIGLVKLADAEDPTQEL 6i5b-a1-m1-cB_6i5b-a1-m1-cA Crystal Structure of Outer Cell Wall Cytochrome OcwA D5XBK3 D5XBK3 2.2 X-RAY DIFFRACTION 49 1.0 635013 (Thermincola potens JR) 635013 (Thermincola potens JR) 483 484 TEYVGDEACKTCHSDVHSAWSETSHGNFIKDVTKDPKALPGNFEGNYPKMLNFKAEDIQYVLLGKPGALKVQELVGKKGTFGVPADDYPVMWASWDAGKGEWEIEVEAIGEGTPWLSTCAGCHVTGLTVPTDKNPKAAKAFAGFGITCEQCHGPGAKHIKNPQGEKMVISYDAENCGQCHSRGDSVAKTPDGKPFGYPYNDEGQYVPGKKLADYYTVVSVEGDKEGKLFWPTKHAKNSHHLQYPEWLMTGHATALETLKGNGHAQDRCLKCHSAEAYLAKEGTTVTMNDAKLGVTCQVCHASHDPAATKEAFLRKPKTEICTQCHNAEGGIVAGKEVHHPHKEMNEGKIGLGFPDSPSVMYKAGVTCVDCHMPKTAGPKASHLMKVVMPKDGKANGMPDSCSSCHPGASQDYLQNVIDTWQNDIKGRLAKVKAKLDAKKAAANSQAYKEALTYYSIVAADGSNGVHNYDLAVKLLTAAEQKLQ NTEYVGDEACKTCHSDVHSAWSETSHGNFIKDVTKDPKALPGNFEGNYPKMLNFKAEDIQYVLLGKPGALKVQELVGKKGTFGVPADDYPVMWASWDAGKGEWEIEVEAIGEGTPWLSTCAGCHVTGLTVPTDKNPKAAKAFAGFGITCEQCHGPGAKHIKNPQGEKMVISYDAENCGQCHSRGDSVAKTPDGKPFGYPYNDEGQYVPGKKLADYYTVVSVEGDKEGKLFWPTKHAKNSHHLQYPEWLMTGHATALETLKGNGHAQDRCLKCHSAEAYLAKEGTTVTMNDAKLGVTCQVCHASHDPAATKEAFLRKPKTEICTQCHNAEGGIVAGKEVHHPHKEMNEGKIGLGFPDSPSVMYKAGVTCVDCHMPKTAGPKASHLMKVVMPKDGKANGMPDSCSSCHPGASQDYLQNVIDTWQNDIKGRLAKVKAKLDAKKAAANSQAYKEALTYYSIVAADGSNGVHNYDLAVKLLTAAEQKLQ 6i5j-a2-m1-cL_6i5j-a2-m1-cJ Crystal structure of SOCS2:Elongin C:Elongin B in complex with growth hormone receptor peptide 2.8 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 9 PDTSIHI PVPDTSIHI 6i5n-a1-m1-cK_6i5n-a1-m1-cI Crystal structure of SOCS2:Elongin C:Elongin B in complex with growth hormone receptor peptide 1.98 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 8 9 6i5j-a1-m1-cK_6i5j-a1-m1-cI VPDTSIHI PVPDTSIHI 6i5n-a2-m1-cL_6i5n-a2-m1-cJ Crystal structure of SOCS2:Elongin C:Elongin B in complex with growth hormone receptor peptide 1.98 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 9 PDTSIHI PVPDTSIHI 6i5o-a1-m1-cD_6i5o-a1-m1-cE Crystal structure of SPBc2 prophage-derived protein YomS O31965 O31965 1.33 X-RAY DIFFRACTION 79 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 112 112 6i5o-a1-m1-cA_6i5o-a1-m1-cB 6i5o-a1-m1-cA_6i5o-a1-m1-cE 6i5o-a1-m1-cB_6i5o-a1-m1-cC 6i5o-a1-m1-cC_6i5o-a1-m1-cD NVVITIPDKTSFTFHEAATSPSEGEEFVVGHFRELTVKISGSSTSREIKFYAVDENGEKTALSGTNKTDFQLGSSTLNTNEYWDFDIAGLFKVMFEVVSVTGDVTVKGIVVS NVVITIPDKTSFTFHEAATSPSEGEEFVVGHFRELTVKISGSSTSREIKFYAVDENGEKTALSGTNKTDFQLGSSTLNTNEYWDFDIAGLFKVMFEVVSVTGDVTVKGIVVS 6i5x-a2-m1-cB_6i5x-a2-m1-cC Crystal structure of Aspergillus fumigatus phosphomannomutase A0A229XZQ5 A0A229XZQ5 2.2 X-RAY DIFFRACTION 69 1.0 746128 (Aspergillus fumigatus) 746128 (Aspergillus fumigatus) 261 261 6i5x-a1-m1-cA_6i5x-a1-m1-cD GSALQDRPIKNTICLFDVDETLTPARRAVTPEMLMLLSQLRHKCAIGYVGGSNLAKQQEQLGTGATDVTSLFDFCFPENGLMAFRLGKPLASTSFIEWIGEEKYQKLVNFILRYFADLQLPKKRGTFIEFRNGMINVSPIGRNASVEERNEFEAYDKEHHIRTDMVNALKKEFPDYGLTYSIGGQISFDVFPTGWDKTYCLRHVEAEKEISGVEYTTIHFFGDKCFPGGNDYEIYSDPRTIGHSVHGPEDTMKQLKELFQL GSALQDRPIKNTICLFDVDETLTPARRAVTPEMLMLLSQLRHKCAIGYVGGSNLAKQQEQLGTGATDVTSLFDFCFPENGLMAFRLGKPLASTSFIEWIGEEKYQKLVNFILRYFADLQLPKKRGTFIEFRNGMINVSPIGRNASVEERNEFEAYDKEHHIRTDMVNALKKEFPDYGLTYSIGGQISFDVFPTGWDKTYCLRHVEAEKEISGVEYTTIHFFGDKCFPGGNDYEIYSDPRTIGHSVHGPEDTMKQLKELFQL 6i6g-a1-m1-cA_6i6g-a1-m1-cB Dehaloperoxidase B from Amphitrite ornata - complex with 5-bromoindole Q9NAV7 Q9NAV7 1.85 X-RAY DIFFRACTION 27 1.0 129555 (Amphitrite ornata) 129555 (Amphitrite ornata) 137 137 5k1l-a1-m1-cA_5k1l-a1-m1-cB 5lk9-a1-m1-cA_5lk9-a1-m1-cB 5lkv-a1-m1-cA_5lkv-a1-m1-cB 5llz-a1-m1-cA_5llz-a1-m1-cB 5v5j-a1-m1-cA_5v5j-a1-m1-cB 5v5q-a1-m1-cA_5v5q-a1-m1-cB 5v5r-a1-m1-cA_5v5r-a1-m1-cB 6cre-a1-m1-cA_6cre-a1-m1-cB 6i7f-a1-m1-cA_6i7f-a1-m1-cB 7adf-a1-m1-cA_7adf-a1-m1-cB 7kfm-a1-m1-cA_7kfm-a1-m1-cB GFKQDIATLRGDLRTYAQDIFLAFLNKYPDEKRNFKNYVGKSDQELKSMAKFGDHTEKVFNLMMEVADRATDCVPLASDASTLVQMKQHSGLTTGNFEKLFVALVEYMRASGQSFDSQSWDRFGKNLVSALSSAGMK GFKQDIATLRGDLRTYAQDIFLAFLNKYPDEKRNFKNYVGKSDQELKSMAKFGDHTEKVFNLMMEVADRATDCVPLASDASTLVQMKQHSGLTTGNFEKLFVALVEYMRASGQSFDSQSWDRFGKNLVSALSSAGMK 6i6m-a1-m1-cA_6i6m-a1-m1-cB Papaver somniferum O-methyltransferase 1 I3V6A7 I3V6A7 1.2 X-RAY DIFFRACTION 259 0.997 3469 (Papaver somniferum) 3469 (Papaver somniferum) 343 357 6i5q-a1-m1-cA_6i5q-a1-m1-cB 6i5q-a2-m1-cC_6i5q-a2-m1-cD 6i5z-a1-m1-cA_6i5z-a1-m1-cD 6i5z-a2-m1-cC_6i5z-a2-m1-cB 6i6k-a1-m1-cA_6i6k-a1-m1-cB 6i6l-a1-m1-cA_6i6l-a1-m1-cB 6i6n-a1-m1-cA_6i6n-a1-m1-cB VCYLSETANLGKLICIPMALRAAMELNVFQLISKFGTDAKVSASEIASKMPNAKNNPEAAMYLDRILRLLGASSILSVSTEKLYGLTNSSCCLVPRQEDGVSLVEELLFTSDKVVVDSFFKLKCVVEEKDSVPFEVAHGAKIFEYAATEPRMNQVFNDGMAVFSIVVFEAVFRVYDGFLDMKELLDVGGGIGTSVSKIVAKYPLIRGVNFDLPHVISVAPQYPGVEHVAGDMFEEVPKGQNMLLKWVLHAWGDERCVKLLKNCWNSLPVGGKVLIIEFVLPNELGNNAESFNALIPDLLLMALNPGGKERTISEYDDLGKAAGFIKTIPIPISNGLHVIEFHK CYLSETANLGKLICIPMALRAAMELNVFQLISKFGTDAKVSASEIASKMPNAKNNPEAAMYLDRILRLLGASSILSVSTTAASINRGGDDVVVHEKLYGLTNSSCCLVPRQEDGVSLVEELLFTSDKVVVDSFFKLKCVVEEKDSVPFEVAHGAKIFEYAATEPRMNQVFNDGMAVFSIVVFEAVFRVYDGFLDMKELLDVGGGIGTSVSKIVAKYPLIRGVNFDLPHVISVAPQYPGVEHVAGDMFEEVPKGQNMLLKWVLHAWGDERCVKLLKNCWNSLPVGGKVLIIEFVLPNELGNNAESFNALIPDLLLMALNPGGKERTISEYDDLGKAAGFIKTIPIPISNGLHVIEFHK 6i6z-a1-m1-cA_6i6z-a1-m1-cB Crystal structure of the human CARBOXYPEPTIDASE A1 in complex with the PHOSPHINIC INHIBITOR Acetyl-Tyr-Ala-Y(PO2CH2)-homoPhe-OH P15085 P15085 1.72 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 306 307 4uee-a1-m1-cB_4uee-a1-m1-cA STDTFNYATYHTLEEIYDFLDLLVAENPHLVSKIQIGNTYEGRPIYVLKFSTGGSKRPAIWIDTGIHSREWVTQASGVWFAKKITQDYGQDAAFTAILDTLDIFLEIVTNPDGFAFTHSTNRMWRKTRSHTAGSLCIGVDPNRNWDAGFGLSGASSNPCSETYHGKFANSEVEVKSIVDFVKDHGNIKAFISIHSYSQLLMYPYGYKTEPVPDQDELDQLSKAAVTALASLYGTKFNYGSIIKAIYQASGSTIDWTYSQGIKYSFTFELRDTGRYGFLLPASQIIPTAKETWLALLTIMEHTLNHP RSTDTFNYATYHTLEEIYDFLDLLVAENPHLVSKIQIGNTYEGRPIYVLKFSTGGSKRPAIWIDTGIHSREWVTQASGVWFAKKITQDYGQDAAFTAILDTLDIFLEIVTNPDGFAFTHSTNRMWRKTRSHTAGSLCIGVDPNRNWDAGFGLSGASSNPCSETYHGKFANSEVEVKSIVDFVKDHGNIKAFISIHSYSQLLMYPYGYKTEPVPDQDELDQLSKAAVTALASLYGTKFNYGSIIKAIYQASGSTIDWTYSQGIKYSFTFELRDTGRYGFLLPASQIIPTAKETWLALLTIMEHTLNHP 6i73-a1-m1-cA_6i73-a1-m1-cB Structure of Fragaria ananassa O-methyltransferase in complex with S-adenosylhomocysteine and protocatechuic aldehyde Q9M602 Q9M602 1.35 X-RAY DIFFRACTION 299 1.0 3747 (Fragaria x ananassa) 3747 (Fragaria x ananassa) 353 353 6i70-a1-m1-cA_6i70-a1-m1-cB 6i71-a1-m1-cA_6i71-a1-m1-cB 6i72-a1-m1-cA_6i72-a1-m1-cB 6yjw-a1-m1-cA_6yjw-a1-m1-cB AVSDEEANLFAMQLASASVLPMVLKAAIELDLLEIMAKAGPGSFLSPSDLASQLPTKNPEAPVMLDRMLRLLASYSILTCSLRTLPDGKVERLYCLGPVCKFLTKNEDGVSIAALCLMNQDKVLVESWYHLKDAVLDGGIPFNKAYGMTAFDYHGTDPRFNKVFNKGMADHSTITMKKILETYKGFEGLKSIVDVGGGTGAVVNMIVSKYPSIKGINFDLPHVIEDAPQYPGVQHVGGDMFVSVPKGNAIFMKWICHDWSDEHCIKFLKNCYAALPDDGKVILAECILPVAPDTSLATKGVVHMDVIMLAHNPGGKERTEQEFEALAKGSGFQGIRVCCDAFNTYVIEFLKKI AVSDEEANLFAMQLASASVLPMVLKAAIELDLLEIMAKAGPGSFLSPSDLASQLPTKNPEAPVMLDRMLRLLASYSILTCSLRTLPDGKVERLYCLGPVCKFLTKNEDGVSIAALCLMNQDKVLVESWYHLKDAVLDGGIPFNKAYGMTAFDYHGTDPRFNKVFNKGMADHSTITMKKILETYKGFEGLKSIVDVGGGTGAVVNMIVSKYPSIKGINFDLPHVIEDAPQYPGVQHVGGDMFVSVPKGNAIFMKWICHDWSDEHCIKFLKNCYAALPDDGKVILAECILPVAPDTSLATKGVVHMDVIMLAHNPGGKERTEQEFEALAKGSGFQGIRVCCDAFNTYVIEFLKKI 6i7o-a1-m1-cO_6i7o-a1-m1-cOb The structure of a di-ribosome (disome) as a unit for RQC and NGD quality control pathways recognition. P38011 P38011 5.3 ELECTRON MICROSCOPY 17 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 313 313 LVLRGTLEGHNGWVTSLATSAGQPNLLLSASRDKTLISWKLTGDDQKFGVPVRSFKGHSHIVQDCTLTADGAYALSASWDKTLRLWDVATGETYQRFVGHKSDVMSVDIDKKASMIISGSRDKTIKVWTIKGQCLATLLGHNDWVSQVRVVPNEAADDDSVTIISAGNDKMVKAWNLNQFQIEADFIGHNSNINTLTASPDGTLIASAGKDGEIMLWNLAAKKAMYTLSAQDEVFSLAFSPNRYWLAAATATGIKVFSLDPQYLVDDLRPEFAGYSKAAEPHAVSLAWSADGQTLFAGYTDNVIRVWQVMTAN LVLRGTLEGHNGWVTSLATSAGQPNLLLSASRDKTLISWKLTGDDQKFGVPVRSFKGHSHIVQDCTLTADGAYALSASWDKTLRLWDVATGETYQRFVGHKSDVMSVDIDKKASMIISGSRDKTIKVWTIKGQCLATLLGHNDWVSQVRVVPNEAADDDSVTIISAGNDKMVKAWNLNQFQIEADFIGHNSNINTLTASPDGTLIASAGKDGEIMLWNLAAKKAMYTLSAQDEVFSLAFSPNRYWLAAATATGIKVFSLDPQYLVDDLRPEFAGYSKAAEPHAVSLAWSADGQTLFAGYTDNVIRVWQVMTAN 6i8v-a1-m1-cA_6i8v-a1-m2-cA KtrC with ATP bound P39760 P39760 1.991 X-RAY DIFFRACTION 157 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 216 216 KEFAVIGLGRFGGSICKALSEEGVEVMAMDIDEDKVNEYAKIASHAVIGDSTDESVLKNLGLRNFDHVIVAIGENIQASILTTLILKELGVHTITVKAQNDYHEKVLSKIGADHIVHPERDMAKRIAHNIVSNNVLDYLELSEEHSLVEIVANSRLAGNTLLDLDIRAKYGINIVAIKRGKEVIVSPLATEVIHQEDILIVIGSVTDISRFEKRVL KEFAVIGLGRFGGSICKALSEEGVEVMAMDIDEDKVNEYAKIASHAVIGDSTDESVLKNLGLRNFDHVIVAIGENIQASILTTLILKELGVHTITVKAQNDYHEKVLSKIGADHIVHPERDMAKRIAHNIVSNNVLDYLELSEEHSLVEIVANSRLAGNTLLDLDIRAKYGINIVAIKRGKEVIVSPLATEVIHQEDILIVIGSVTDISRFEKRVL 6i97-a1-m1-cB_6i97-a1-m1-cA Structure of the ferrioxamine B transporter FoxA from Pseudomonas aeruginosa in complex with ferrioxamine B and a C-terminal TonB fragment Q9I116 Q9I116 3.35 X-RAY DIFFRACTION 141 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 759 763 EQARPYAIPAGQLGDVLNRFAREAGITLSATPAQTGGYSSQGLRGSFTVQQGLARLLADTPLEAEDQGDGSFVLREAPDVLNMQAVEVFALGNDGYLATHSQIATKTSKPLLETSQTVSVITREQIDDTASKTVQQAMRYTPGIFTGQVGASNRYDYVVMRGFADNSVDNIYLDGLKAMGDSGTFSSMQVDPYFLERIDVLKGPSSVLYGRSLPGGLVALTSKKPLYEDYRQITGSIGNMGQKEMGFDFSGPLDEEKRIAYRLIGLGKGSDTQFDHVKEERYAIAPTLAIDFSDDTTLTLQGYLQHDPNGGYHGGVPADGTLSHHNGRHISREFFDGEPSKDDFDRTQRMFGYQLEHRIDDVWSARQNFRYLDSDVDLSQVYAYGWSASEPNKLNRYFSGAREHLQAYIVDNMLQAEFATGAARHTLLTGLDYQRRRTVVDWRSGSASALDAFNPVYGDDAISYFPDDNHTRRLEQTGVYLQDLIDIDQWRFSLGLRQDWVSVTDKNRSTGSKADDDWEKFTGRIGALYLFDNGLAPYVSYSESFNPNAYSDASGTPLAPTEGKQWELGLKFQAPGSNSFYTASLFHITQENVASKEPQDNFYTSVGEVRSQGLELEAHTQLSDNLKLLGSYTYTDITYTKSLDGNQGHTPNQAPKHMASLWADYAFDAGPLSGLSIGGGARYVGETWADKENTLRVPDYTLVDARIGYDLGKLGLKGLDVSLNANNLLDKDYVASCYSLDFCYFGEKRNVTATVNYQF EQARPYAIPAGQLGDVLNRFAREAGITLSATPAQTGGYSSQGLRGSFTVQQGLARLLADTPLEAEDQGDGSFVLREAPAKDGDVLNMQAVEVFALGNDGYLATHSQIATKTSKPLLETSQTVSVITREQIDDTASKTVQQAMRYTPGIFTGQVGASNRYDYVVMRGFADNSVDNIYLDGLKAMGDSGTFSSMQVDPYFLERIDVLKGPSSVLYGRSLPGGLVALTSKKPLYEDYRQITGSIGNMGQKEMGFDFSGPLDEEKRIAYRLIGLGKGSDTQFDHVKEERYAIAPTLAIDFSDDTTLTLQGYLQHDPNGGYHGGVPADGTLSHHNGRHISREFFDGEPSKDDFDRTQRMFGYQLEHRIDDVWSARQNFRYLDSDVDLSQVYAYGWSASEPNKLNRYFSGAREHLQAYIVDNMLQAEFATGAARHTLLTGLDYQRRRTVVDWRSGSASALDAFNPVYGDDAISYFPDDNHTRRLEQTGVYLQDLIDIDQWRFSLGLRQDWVSVTDKNRSTGSKADDDWEKFTGRIGALYLFDNGLAPYVSYSESFNPNAYSDASGTPLAPTEGKQWELGLKFQAPGSNSFYTASLFHITQENVASKEPQDNFYTSVGEVRSQGLELEAHTQLSDNLKLLGSYTYTDITYTKSLDGNQGHTPNQAPKHMASLWADYAFDAGPLSGLSIGGGARYVGETWADKENTLRVPDYTLVDARIGYDLGKLGLKGLDVSLNANNLLDKDYVASCYSLDFCYFGEKRNVTATVNYQF 6ia6-a1-m1-cA_6ia6-a1-m2-cA Crystal structure of the bacterial Dehalococcoides mccartyi Elp3 with desulfo-CoA A0A1C7D1B7 A0A1C7D1B7 2.7 X-RAY DIFFRACTION 50 1.0 1193806 (Dehalococcoides mccartyi BTF08) 1193806 (Dehalococcoides mccartyi BTF08) 388 388 GVTPVAVMTKPLPCPGKCIYCPTFAATPQSYTPESPAVLRAKSCEYQAYKQVALRLRIIQDMGHPTDKVELIIMGGTFLSADITYQYGFIKDCYDALNGVVAGSLEEAKTINETAQHRCVGLCIETRPDICGKAEIQRMIDFGTTRVELGVQMLDDDIYKLVERGHRVSDVAEATCLLREYGLKVHYHWMPGLPGSSPEKDLALSRMVFEDPRFCPDGLKLYPTMVVEGTILEQWWKEGRYTPYPNGTMTGLIADIKALVPPYVRISRVRCIREPTLRRLDYPASGGKEIFLSFEDASDTLYGLLRLRIPCASLPVLGQKYGAKTGLVRALHVGGRGLGRKLLAEAECLARDEFGLDSLAILSGVGAREYYRSLGYELVAGYMCKHLD GVTPVAVMTKPLPCPGKCIYCPTFAATPQSYTPESPAVLRAKSCEYQAYKQVALRLRIIQDMGHPTDKVELIIMGGTFLSADITYQYGFIKDCYDALNGVVAGSLEEAKTINETAQHRCVGLCIETRPDICGKAEIQRMIDFGTTRVELGVQMLDDDIYKLVERGHRVSDVAEATCLLREYGLKVHYHWMPGLPGSSPEKDLALSRMVFEDPRFCPDGLKLYPTMVVEGTILEQWWKEGRYTPYPNGTMTGLIADIKALVPPYVRISRVRCIREPTLRRLDYPASGGKEIFLSFEDASDTLYGLLRLRIPCASLPVLGQKYGAKTGLVRALHVGGRGLGRKLLAEAECLARDEFGLDSLAILSGVGAREYYRSLGYELVAGYMCKHLD 6iak-a3-m1-cE_6iak-a3-m1-cF The crystal structure of the chicken CREB3 bZIP F1P542 F1P542 3.95 X-RAY DIFFRACTION 55 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 67 71 6iak-a1-m1-cB_6iak-a1-m1-cA ERLLKKVRRKIRNKQSAQDSRRRKKIYVDGLENRVAACTAQNHELQKKVQLLQKQNMSLLEQLRKLQ TKAEERLLKKVRRKIRNKQSAQDSRRRKKIYVDGLENRVAACTAQNHELQKKVQLLQKQNMSLLEQLRKLQ 6iak-a4-m1-cG_6iak-a4-m2-cG The crystal structure of the chicken CREB3 bZIP F1P542 F1P542 3.95 X-RAY DIFFRACTION 30 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 37 37 6iak-a2-m1-cC_6iak-a2-m1-cD IRNKQSAQDSRRRKKIYVDGLENRVAACTAQNHELQK IRNKQSAQDSRRRKKIYVDGLENRVAACTAQNHELQK 6iaq-a2-m1-cB_6iaq-a2-m1-cD Structure of Amine Dehydrogenase from Mycobacterium smegmatis A0A8B4R7U8 A0A8B4R7U8 1.91 X-RAY DIFFRACTION 124 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 336 339 6iaq-a1-m1-cC_6iaq-a1-m1-cA HHSDIRAVVYGVGAMNSIVAGMLLDKGVQIVGAIARSPQKVGQDLGDLLGLGRQLGVAVSDDAAEVLEQTHPDIAVIAVNSYLTDAVEQLRICAEHGVNAVTLSEEMLYPWETSPELSAELDALAKSTGATLTGTGYQDTFWVNMIALLMGTAHRIDTVRGKASWNVDDFGPELATAQQVGRTVAEFDEWVRGAQRPPTFGRNVLDALVADTGLTVKSITTATRPDIASAAMRSEALGIDLAPGDVIGFTDIDRIETEEGPVFEFEMSGRVYGPGEGDINEWTIEGEPNLFLSNGTVPTQTTTCTQMVNRIPDVIAAPPGIVTVDRLPRLRYRPQF HHHHHSDIRAVVYGVGAMNSIVAGMLLDKGVQIVGAIARSPQKVGQDLGDLLGLGRQLGVAVSDDAAEVLEQTHPDIAVIAVNSYLTDAVEQLRICAEHGVNAVTLSEEMLYPWETSPELSAELDALAKSTGATLTGTGYQDTFWVNMIALLMGTAHRIDTVRGKASWNVDDFGPELATAQQVGRTVAEFDEWVRGAQRPPTFGRNVLDALVADTGLTVKSITTATRPDIASAAMRSEALGIDLAPGDVIGFTDIDRIETEEGPVFEFEMSGRVYGPGEGDINEWTIEGEPNLFLSNGTVPTQTTTCTQMVNRIPDVIAAPPGIVTVDRLPRLRYRPQF 6ib8-a1-m1-cA_6ib8-a1-m1-cB Structure of a complex of SuhB and NusA AR2 domain P0ADG4 P0ADG4 1.646 X-RAY DIFFRACTION 89 1.0 562 (Escherichia coli) 562 (Escherichia coli) 259 270 6ib7-a1-m1-cA_6ib7-a1-m2-cA 6tqn-a1-m1-cT_6tqn-a1-m1-cS 6tqo-a1-m1-cT_6tqo-a1-m1-cS MHPMLNIAVRAARKAGNLIAKNYETPDAVEASFVTNVDKAAEAVIIDTIRKSYPQHTIITEESGELEGTDQDVQWVIDPLDGTTNFIKRLPHFAVSIAVRIKGRTEVAVVYDPMRNELFTATRGQGAQLNGYRLRGSTARDLDGTILATGFPFKAKQYATTYINIVGKLFNECADFRRTGSAALDLAYVAAGRVDGFFEIGLRPWDFAAGELLVREAGGIVSDFTGGHNYMLTGNIVAGNPRVVKAMLANMRDELSDAL GAMAMHPMLNIAVRAARKAGNLIAKNYETPDAVEASQKGSNDFVTNVDKAAEAVIIDTIRKSYPQHTIITEESGELEGTDQDVQWVIDPLDGTTNFIKRLPHFAVSIAVRIKGRTEVAVVYDPMRNELFTATRGQGAQLNGYRLRGSTARDLDGTILATGFPFKAKQYATTYINIVGKLFNECADFRRTGSAALDLAYVAAGRVDGFFEIGLRPWDFAAGELLVREAGGIVSDFTGGHNYMLTGNIVAGNPRVVKAMLANMRDELSDALK 6ic3-a1-m1-cG_6ic3-a1-m1-cH AL amyloid fibril from a lambda 1 light chain 3.3 ELECTRON MICROSCOPY 368 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 6ic3-a1-m1-cA_6ic3-a1-m1-cB 6ic3-a1-m1-cB_6ic3-a1-m1-cC 6ic3-a1-m1-cC_6ic3-a1-m1-cD 6ic3-a1-m1-cD_6ic3-a1-m1-cE 6ic3-a1-m1-cE_6ic3-a1-m1-cF 6ic3-a1-m1-cF_6ic3-a1-m1-cG GQRVTISCSGRSSNIGRNLVKWYQQFPGTAPKLLIYSNDQRPSGVPDRFSGSKSGTSASLAVSGLQSEDEADYYCAAWDATLNAWVFGGGT GQRVTISCSGRSSNIGRNLVKWYQQFPGTAPKLLIYSNDQRPSGVPDRFSGSKSGTSASLAVSGLQSEDEADYYCAAWDATLNAWVFGGGT 6icl-a1-m3-cA_6icl-a1-m6-cA Pseudomonas putida CBB5 NdmB H9N290 H9N290 2.1 X-RAY DIFFRACTION 38 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 338 338 6icl-a1-m1-cA_6icl-a1-m5-cA 6icl-a1-m2-cA_6icl-a1-m4-cA KPLLEDKTYLRHFWHPVCTLNEFERANASGHGPMGVTLLGEKLVLARLNSKIIAAADRCAHRSAQLSIGRVCSNAGKDYLECPYHGWRYDEAGACQLIPACPDKSISPRAKISSFDCEVKYDIVWVRLDNSFDCTQIPYLSDFDNPDMQVIVADSYIWETVAERRWENFTDFSHFAFVHPGTLYDPFFASHPTVYVNRVDGELQFKLAPPPMGDFTYRCTMPYSVNLEIKLWKDDSRFVLWTTASPVDNKSCRNFMIIVREKDNQPDHMHLAFQKRVLDEDQPVIESQWPLEIQTSEVSVATDKISVQFRKWHKELSLSAVEGREAFRDSVLTNVIEE KPLLEDKTYLRHFWHPVCTLNEFERANASGHGPMGVTLLGEKLVLARLNSKIIAAADRCAHRSAQLSIGRVCSNAGKDYLECPYHGWRYDEAGACQLIPACPDKSISPRAKISSFDCEVKYDIVWVRLDNSFDCTQIPYLSDFDNPDMQVIVADSYIWETVAERRWENFTDFSHFAFVHPGTLYDPFFASHPTVYVNRVDGELQFKLAPPPMGDFTYRCTMPYSVNLEIKLWKDDSRFVLWTTASPVDNKSCRNFMIIVREKDNQPDHMHLAFQKRVLDEDQPVIESQWPLEIQTSEVSVATDKISVQFRKWHKELSLSAVEGREAFRDSVLTNVIEE 6icl-a1-m5-cA_6icl-a1-m6-cA Pseudomonas putida CBB5 NdmB H9N290 H9N290 2.1 X-RAY DIFFRACTION 67 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 338 338 6icl-a1-m1-cA_6icl-a1-m2-cA 6icl-a1-m1-cA_6icl-a1-m3-cA 6icl-a1-m2-cA_6icl-a1-m3-cA 6icl-a1-m4-cA_6icl-a1-m5-cA 6icl-a1-m4-cA_6icl-a1-m6-cA KPLLEDKTYLRHFWHPVCTLNEFERANASGHGPMGVTLLGEKLVLARLNSKIIAAADRCAHRSAQLSIGRVCSNAGKDYLECPYHGWRYDEAGACQLIPACPDKSISPRAKISSFDCEVKYDIVWVRLDNSFDCTQIPYLSDFDNPDMQVIVADSYIWETVAERRWENFTDFSHFAFVHPGTLYDPFFASHPTVYVNRVDGELQFKLAPPPMGDFTYRCTMPYSVNLEIKLWKDDSRFVLWTTASPVDNKSCRNFMIIVREKDNQPDHMHLAFQKRVLDEDQPVIESQWPLEIQTSEVSVATDKISVQFRKWHKELSLSAVEGREAFRDSVLTNVIEE KPLLEDKTYLRHFWHPVCTLNEFERANASGHGPMGVTLLGEKLVLARLNSKIIAAADRCAHRSAQLSIGRVCSNAGKDYLECPYHGWRYDEAGACQLIPACPDKSISPRAKISSFDCEVKYDIVWVRLDNSFDCTQIPYLSDFDNPDMQVIVADSYIWETVAERRWENFTDFSHFAFVHPGTLYDPFFASHPTVYVNRVDGELQFKLAPPPMGDFTYRCTMPYSVNLEIKLWKDDSRFVLWTTASPVDNKSCRNFMIIVREKDNQPDHMHLAFQKRVLDEDQPVIESQWPLEIQTSEVSVATDKISVQFRKWHKELSLSAVEGREAFRDSVLTNVIEE 6idc-a1-m1-cA_6idc-a1-m2-cA Loop deletion and proline insertion mutant (deleting six residues and inserted six proline residues) P0CL66 P0CL66 2.007 X-RAY DIFFRACTION 131 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 251 251 GSHMKNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGAVSVELNDTPPPPPPKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK GSHMKNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGAVSVELNDTPPPPPPKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK 6ide-a1-m1-cA_6ide-a1-m1-cB Crystal structure of the Vibrio cholera VqmA-Ligand-DNA complex provides molecular mechanisms for drug design 2.51 X-RAY DIFFRACTION 200 0.991 666 (Vibrio cholerae) 666 (Vibrio cholerae) 226 228 PNHLTLEQISLFKQLPGYWGCKDLNSVFVYANQAYGELIGLKRAEDCIGRTDFEMPSPTAACAAEFQQQDRYVIETGHSVKVLDIHPYPDGHWHAHIFTKTPWRDSQGKIQGTIFFGQDLTDTAILEVGHWVCRATGLSTTLKLTARESEVLFLLLYGKKPQHIARVMGISIKTVEGYEAKLRSKFGALSKDQLIDLALDRGFGSVIPKTLLRKQLSVVLSDHTIP PNHLTLEQISLFKQLPGYWGCKDLNSVFVYANQAYGELIGLKRAEDCIGRTDFEMPSPTAACAAEFQQQDRYVIETGHSVKVLDIHPYPDGHWHAHIFTKTPWRDSQGKIQGTIFFGQDLTDTAILEVGHWVCRATGLSTSTTFTLKLTARESEVLFLLLYGKKPQHIARVMGISIKTVEGYEAKLRSKFGALSKDQLIDLALDRGFGSVIPKTLLRKQLSVVLSDHT 6idi-a1-m9-cA_6idi-a1-m9-cB Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 8.0. A9LID6 A9LID6 12.0 ELECTRON MICROSCOPY 24 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 492 492 6idi-a1-m10-cA_6idi-a1-m10-cB 6idi-a1-m11-cA_6idi-a1-m11-cB 6idi-a1-m12-cA_6idi-a1-m12-cB 6idi-a1-m13-cA_6idi-a1-m13-cB 6idi-a1-m14-cA_6idi-a1-m14-cB 6idi-a1-m15-cA_6idi-a1-m15-cB 6idi-a1-m16-cA_6idi-a1-m16-cB 6idi-a1-m17-cA_6idi-a1-m17-cB 6idi-a1-m18-cA_6idi-a1-m18-cB 6idi-a1-m19-cA_6idi-a1-m19-cB 6idi-a1-m1-cA_6idi-a1-m1-cB 6idi-a1-m20-cA_6idi-a1-m20-cB 6idi-a1-m21-cA_6idi-a1-m21-cB 6idi-a1-m22-cA_6idi-a1-m22-cB 6idi-a1-m23-cA_6idi-a1-m23-cB 6idi-a1-m24-cA_6idi-a1-m24-cB 6idi-a1-m25-cA_6idi-a1-m25-cB 6idi-a1-m26-cA_6idi-a1-m26-cB 6idi-a1-m27-cA_6idi-a1-m27-cB 6idi-a1-m28-cA_6idi-a1-m28-cB 6idi-a1-m29-cA_6idi-a1-m29-cB 6idi-a1-m2-cA_6idi-a1-m2-cB 6idi-a1-m30-cA_6idi-a1-m30-cB 6idi-a1-m31-cA_6idi-a1-m31-cB 6idi-a1-m32-cA_6idi-a1-m32-cB 6idi-a1-m33-cA_6idi-a1-m33-cB 6idi-a1-m34-cA_6idi-a1-m34-cB 6idi-a1-m35-cA_6idi-a1-m35-cB 6idi-a1-m36-cA_6idi-a1-m36-cB 6idi-a1-m37-cA_6idi-a1-m37-cB 6idi-a1-m38-cA_6idi-a1-m38-cB 6idi-a1-m39-cA_6idi-a1-m39-cB 6idi-a1-m3-cA_6idi-a1-m3-cB 6idi-a1-m40-cA_6idi-a1-m40-cB 6idi-a1-m41-cA_6idi-a1-m41-cB 6idi-a1-m42-cA_6idi-a1-m42-cB 6idi-a1-m43-cA_6idi-a1-m43-cB 6idi-a1-m44-cA_6idi-a1-m44-cB 6idi-a1-m45-cA_6idi-a1-m45-cB 6idi-a1-m46-cA_6idi-a1-m46-cB 6idi-a1-m47-cA_6idi-a1-m47-cB 6idi-a1-m48-cA_6idi-a1-m48-cB 6idi-a1-m49-cA_6idi-a1-m49-cB 6idi-a1-m4-cA_6idi-a1-m4-cB 6idi-a1-m50-cA_6idi-a1-m50-cB 6idi-a1-m51-cA_6idi-a1-m51-cB 6idi-a1-m52-cA_6idi-a1-m52-cB 6idi-a1-m53-cA_6idi-a1-m53-cB 6idi-a1-m54-cA_6idi-a1-m54-cB 6idi-a1-m55-cA_6idi-a1-m55-cB 6idi-a1-m56-cA_6idi-a1-m56-cB 6idi-a1-m57-cA_6idi-a1-m57-cB 6idi-a1-m58-cA_6idi-a1-m58-cB 6idi-a1-m59-cA_6idi-a1-m59-cB 6idi-a1-m5-cA_6idi-a1-m5-cB 6idi-a1-m60-cA_6idi-a1-m60-cB 6idi-a1-m6-cA_6idi-a1-m6-cB 6idi-a1-m7-cA_6idi-a1-m7-cB 6idi-a1-m8-cA_6idi-a1-m8-cB RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGSAYTALFSGVSWVMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGAVVQA RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGSAYTALFSGVSWVMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGAVVQA 6idi-a1-m9-cB_6idi-a1-m9-cC Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 8.0. A9LID6 A9LID6 12.0 ELECTRON MICROSCOPY 11 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 492 492 6idi-a1-m10-cB_6idi-a1-m10-cC 6idi-a1-m11-cB_6idi-a1-m11-cC 6idi-a1-m12-cB_6idi-a1-m12-cC 6idi-a1-m13-cB_6idi-a1-m13-cC 6idi-a1-m14-cB_6idi-a1-m14-cC 6idi-a1-m15-cB_6idi-a1-m15-cC 6idi-a1-m16-cB_6idi-a1-m16-cC 6idi-a1-m17-cB_6idi-a1-m17-cC 6idi-a1-m18-cB_6idi-a1-m18-cC 6idi-a1-m19-cB_6idi-a1-m19-cC 6idi-a1-m1-cB_6idi-a1-m1-cC 6idi-a1-m20-cB_6idi-a1-m20-cC 6idi-a1-m21-cB_6idi-a1-m21-cC 6idi-a1-m22-cB_6idi-a1-m22-cC 6idi-a1-m23-cB_6idi-a1-m23-cC 6idi-a1-m24-cB_6idi-a1-m24-cC 6idi-a1-m25-cB_6idi-a1-m25-cC 6idi-a1-m26-cB_6idi-a1-m26-cC 6idi-a1-m27-cB_6idi-a1-m27-cC 6idi-a1-m28-cB_6idi-a1-m28-cC 6idi-a1-m29-cB_6idi-a1-m29-cC 6idi-a1-m2-cB_6idi-a1-m2-cC 6idi-a1-m30-cB_6idi-a1-m30-cC 6idi-a1-m31-cB_6idi-a1-m31-cC 6idi-a1-m32-cB_6idi-a1-m32-cC 6idi-a1-m33-cB_6idi-a1-m33-cC 6idi-a1-m34-cB_6idi-a1-m34-cC 6idi-a1-m35-cB_6idi-a1-m35-cC 6idi-a1-m36-cB_6idi-a1-m36-cC 6idi-a1-m37-cB_6idi-a1-m37-cC 6idi-a1-m38-cB_6idi-a1-m38-cC 6idi-a1-m39-cB_6idi-a1-m39-cC 6idi-a1-m3-cB_6idi-a1-m3-cC 6idi-a1-m40-cB_6idi-a1-m40-cC 6idi-a1-m41-cB_6idi-a1-m41-cC 6idi-a1-m42-cB_6idi-a1-m42-cC 6idi-a1-m43-cB_6idi-a1-m43-cC 6idi-a1-m44-cB_6idi-a1-m44-cC 6idi-a1-m45-cB_6idi-a1-m45-cC 6idi-a1-m46-cB_6idi-a1-m46-cC 6idi-a1-m47-cB_6idi-a1-m47-cC 6idi-a1-m48-cB_6idi-a1-m48-cC 6idi-a1-m49-cB_6idi-a1-m49-cC 6idi-a1-m4-cB_6idi-a1-m4-cC 6idi-a1-m50-cB_6idi-a1-m50-cC 6idi-a1-m51-cB_6idi-a1-m51-cC 6idi-a1-m52-cB_6idi-a1-m52-cC 6idi-a1-m53-cB_6idi-a1-m53-cC 6idi-a1-m54-cB_6idi-a1-m54-cC 6idi-a1-m55-cB_6idi-a1-m55-cC 6idi-a1-m56-cB_6idi-a1-m56-cC 6idi-a1-m57-cB_6idi-a1-m57-cC 6idi-a1-m58-cB_6idi-a1-m58-cC 6idi-a1-m59-cB_6idi-a1-m59-cC 6idi-a1-m5-cB_6idi-a1-m5-cC 6idi-a1-m60-cB_6idi-a1-m60-cC 6idi-a1-m6-cB_6idi-a1-m6-cC 6idi-a1-m7-cB_6idi-a1-m7-cC 6idi-a1-m8-cB_6idi-a1-m8-cC RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGSAYTALFSGVSWVMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGAVVQA RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSSIGKMFEATARGARRMAILGDTAWDFGSVGGVLNSLGKMVHQIFGSAYTALFSGVSWVMKIGIGVLLTWIGLNSKNTSMSFSCIAIGIITLYLGAVVQA 6idk-a1-m54-cA_6idk-a1-m9-cA Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class I particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 11 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 394 394 6idk-a1-m10-cA_6idk-a1-m23-cA 6idk-a1-m11-cA_6idk-a1-m20-cA 6idk-a1-m11-cA_6idk-a1-m38-cA 6idk-a1-m12-cA_6idk-a1-m37-cA 6idk-a1-m12-cA_6idk-a1-m47-cA 6idk-a1-m13-cA_6idk-a1-m45-cA 6idk-a1-m13-cA_6idk-a1-m46-cA 6idk-a1-m14-cA_6idk-a1-m29-cA 6idk-a1-m14-cA_6idk-a1-m44-cA 6idk-a1-m15-cA_6idk-a1-m16-cA 6idk-a1-m15-cA_6idk-a1-m28-cA 6idk-a1-m16-cA_6idk-a1-m28-cA 6idk-a1-m17-cA_6idk-a1-m27-cA 6idk-a1-m17-cA_6idk-a1-m52-cA 6idk-a1-m18-cA_6idk-a1-m51-cA 6idk-a1-m18-cA_6idk-a1-m60-cA 6idk-a1-m19-cA_6idk-a1-m39-cA 6idk-a1-m19-cA_6idk-a1-m59-cA 6idk-a1-m1-cA_6idk-a1-m10-cA 6idk-a1-m1-cA_6idk-a1-m23-cA 6idk-a1-m20-cA_6idk-a1-m38-cA 6idk-a1-m21-cA_6idk-a1-m30-cA 6idk-a1-m21-cA_6idk-a1-m43-cA 6idk-a1-m22-cA_6idk-a1-m42-cA 6idk-a1-m24-cA_6idk-a1-m54-cA 6idk-a1-m24-cA_6idk-a1-m9-cA 6idk-a1-m25-cA_6idk-a1-m26-cA 6idk-a1-m25-cA_6idk-a1-m53-cA 6idk-a1-m26-cA_6idk-a1-m53-cA 6idk-a1-m27-cA_6idk-a1-m52-cA 6idk-a1-m29-cA_6idk-a1-m44-cA 6idk-a1-m2-cA_6idk-a1-m22-cA 6idk-a1-m2-cA_6idk-a1-m42-cA 6idk-a1-m30-cA_6idk-a1-m43-cA 6idk-a1-m31-cA_6idk-a1-m40-cA 6idk-a1-m31-cA_6idk-a1-m58-cA 6idk-a1-m32-cA_6idk-a1-m57-cA 6idk-a1-m32-cA_6idk-a1-m7-cA 6idk-a1-m33-cA_6idk-a1-m5-cA 6idk-a1-m33-cA_6idk-a1-m6-cA 6idk-a1-m34-cA_6idk-a1-m49-cA 6idk-a1-m34-cA_6idk-a1-m4-cA 6idk-a1-m35-cA_6idk-a1-m36-cA 6idk-a1-m35-cA_6idk-a1-m48-cA 6idk-a1-m36-cA_6idk-a1-m48-cA 6idk-a1-m37-cA_6idk-a1-m47-cA 6idk-a1-m39-cA_6idk-a1-m59-cA 6idk-a1-m3-cA_6idk-a1-m41-cA 6idk-a1-m3-cA_6idk-a1-m50-cA 6idk-a1-m40-cA_6idk-a1-m58-cA 6idk-a1-m41-cA_6idk-a1-m50-cA 6idk-a1-m45-cA_6idk-a1-m46-cA 6idk-a1-m4-cA_6idk-a1-m49-cA 6idk-a1-m51-cA_6idk-a1-m60-cA 6idk-a1-m55-cA_6idk-a1-m56-cA 6idk-a1-m55-cA_6idk-a1-m8-cA 6idk-a1-m56-cA_6idk-a1-m8-cA 6idk-a1-m57-cA_6idk-a1-m7-cA 6idk-a1-m5-cA_6idk-a1-m6-cA RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSS RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSS 6idk-a1-m55-cC_6idk-a1-m9-cC Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class I particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 200 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 394 394 6idk-a1-m10-cC_6idk-a1-m24-cC 6idk-a1-m11-cC_6idk-a1-m16-cC 6idk-a1-m12-cC_6idk-a1-m38-cC 6idk-a1-m13-cC_6idk-a1-m47-cC 6idk-a1-m14-cC_6idk-a1-m45-cC 6idk-a1-m15-cC_6idk-a1-m29-cC 6idk-a1-m17-cC_6idk-a1-m28-cC 6idk-a1-m18-cC_6idk-a1-m52-cC 6idk-a1-m19-cC_6idk-a1-m60-cC 6idk-a1-m1-cC_6idk-a1-m6-cC 6idk-a1-m20-cC_6idk-a1-m39-cC 6idk-a1-m21-cC_6idk-a1-m26-cC 6idk-a1-m22-cC_6idk-a1-m43-cC 6idk-a1-m25-cC_6idk-a1-m54-cC 6idk-a1-m27-cC_6idk-a1-m53-cC 6idk-a1-m2-cC_6idk-a1-m23-cC 6idk-a1-m30-cC_6idk-a1-m44-cC 6idk-a1-m31-cC_6idk-a1-m36-cC 6idk-a1-m32-cC_6idk-a1-m58-cC 6idk-a1-m33-cC_6idk-a1-m7-cC 6idk-a1-m34-cC_6idk-a1-m5-cC 6idk-a1-m35-cC_6idk-a1-m49-cC 6idk-a1-m37-cC_6idk-a1-m48-cC 6idk-a1-m3-cC_6idk-a1-m42-cC 6idk-a1-m40-cC_6idk-a1-m59-cC 6idk-a1-m41-cC_6idk-a1-m46-cC 6idk-a1-m4-cC_6idk-a1-m50-cC 6idk-a1-m51-cC_6idk-a1-m56-cC 6idk-a1-m57-cC_6idk-a1-m8-cC RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSS RCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKGSS 6idk-a1-m8-cA_6idk-a1-m9-cA Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class I particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 33 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 394 394 6idk-a1-m10-cA_6idk-a1-m6-cA 6idk-a1-m10-cA_6idk-a1-m9-cA 6idk-a1-m11-cA_6idk-a1-m12-cA 6idk-a1-m11-cA_6idk-a1-m15-cA 6idk-a1-m12-cA_6idk-a1-m13-cA 6idk-a1-m13-cA_6idk-a1-m14-cA 6idk-a1-m14-cA_6idk-a1-m15-cA 6idk-a1-m16-cA_6idk-a1-m17-cA 6idk-a1-m16-cA_6idk-a1-m20-cA 6idk-a1-m17-cA_6idk-a1-m18-cA 6idk-a1-m18-cA_6idk-a1-m19-cA 6idk-a1-m19-cA_6idk-a1-m20-cA 6idk-a1-m1-cA_6idk-a1-m2-cA 6idk-a1-m1-cA_6idk-a1-m5-cA 6idk-a1-m21-cA_6idk-a1-m22-cA 6idk-a1-m21-cA_6idk-a1-m25-cA 6idk-a1-m22-cA_6idk-a1-m23-cA 6idk-a1-m23-cA_6idk-a1-m24-cA 6idk-a1-m24-cA_6idk-a1-m25-cA 6idk-a1-m26-cA_6idk-a1-m27-cA 6idk-a1-m26-cA_6idk-a1-m30-cA 6idk-a1-m27-cA_6idk-a1-m28-cA 6idk-a1-m28-cA_6idk-a1-m29-cA 6idk-a1-m29-cA_6idk-a1-m30-cA 6idk-a1-m2-cA_6idk-a1-m3-cA 6idk-a1-m31-cA_6idk-a1-m32-cA 6idk-a1-m31-cA_6idk-a1-m35-cA 6idk-a1-m32-cA_6idk-a1-m33-cA 6idk-a1-m33-cA_6idk-a1-m34-cA 6idk-a1-m34-cA_6idk-a1-m35-cA 6idk-a1-m36-cA_6idk-a1-m37-cA 6idk-a1-m36-cA_6idk-a1-m40-cA 6idk-a1-m37-cA_6idk-a1-m38-cA 6idk-a1-m38-cA_6idk-a1-m39-cA 6idk-a1-m39-cA_6idk-a1-m40-cA 6idk-a1-m3-cA_6idk-a1-m4-cA 6idk-a1-m41-cA_6idk-a1-m42-cA 6idk-a1-m41-cA_6idk-a1-m45-cA 6idk-a1-m42-cA_6idk-a1-m43-cA 6idk-a1-m43-cA_6idk-a1-m44-cA 6idk-a1-m44-cA_6idk-a1-m45-cA 6idk-a1-m46-cA_6idk-a1-m47-cA 6idk-a1-m46-cA_6idk-a1-m50-cA 6idk-a1-m47-cA_6idk-a1-m48-cA 6idk-a1-m48-cA_6idk-a1-m49-cA 6idk-a1-m49-cA_6idk-a1-m50-cA 6idk-a1-m4-cA_6idk-a1-m5-cA 6idk-a1-m51-cA_6idk-a1-m52-cA 6idk-a1-m51-cA_6idk-a1-m55-cA 6idk-a1-m52-cA_6idk-a1-m53-cA 6idk-a1-m53-cA_6idk-a1-m54-cA 6idk-a1-m54-cA_6idk-a1-m55-cA 6idk-a1-m56-cA_6idk-a1-m57-cA 6idk-a1-m56-cA_6idk-a1-m60-cA 6idk-a1-m57-cA_6idk-a1-m58-cA 6idk-a1-m58-cA_6idk-a1-m59-cA 6idk-a1-m59-cA_6idk-a1-m60-cA 6idk-a1-m6-cA_6idk-a1-m7-cA 6idk-a1-m7-cA_6idk-a1-m8-cA 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virus type 3) 11069 (Dengue virus type 3) 394 394 6idk-a1-m10-cA_6idk-a1-m10-cC 6idk-a1-m11-cA_6idk-a1-m11-cC 6idk-a1-m12-cA_6idk-a1-m12-cC 6idk-a1-m13-cA_6idk-a1-m13-cC 6idk-a1-m14-cA_6idk-a1-m14-cC 6idk-a1-m15-cA_6idk-a1-m15-cC 6idk-a1-m16-cA_6idk-a1-m16-cC 6idk-a1-m17-cA_6idk-a1-m17-cC 6idk-a1-m18-cA_6idk-a1-m18-cC 6idk-a1-m19-cA_6idk-a1-m19-cC 6idk-a1-m1-cA_6idk-a1-m1-cC 6idk-a1-m20-cA_6idk-a1-m20-cC 6idk-a1-m21-cA_6idk-a1-m21-cC 6idk-a1-m22-cA_6idk-a1-m22-cC 6idk-a1-m23-cA_6idk-a1-m23-cC 6idk-a1-m24-cA_6idk-a1-m24-cC 6idk-a1-m25-cA_6idk-a1-m25-cC 6idk-a1-m26-cA_6idk-a1-m26-cC 6idk-a1-m27-cA_6idk-a1-m27-cC 6idk-a1-m28-cA_6idk-a1-m28-cC 6idk-a1-m29-cA_6idk-a1-m29-cC 6idk-a1-m2-cA_6idk-a1-m2-cC 6idk-a1-m30-cA_6idk-a1-m30-cC 6idk-a1-m31-cA_6idk-a1-m31-cC 6idk-a1-m32-cA_6idk-a1-m32-cC 6idk-a1-m33-cA_6idk-a1-m33-cC 6idk-a1-m34-cA_6idk-a1-m34-cC 6idk-a1-m35-cA_6idk-a1-m35-cC 6idk-a1-m36-cA_6idk-a1-m36-cC 6idk-a1-m37-cA_6idk-a1-m37-cC 6idk-a1-m38-cA_6idk-a1-m38-cC 6idk-a1-m39-cA_6idk-a1-m39-cC 6idk-a1-m3-cA_6idk-a1-m3-cC 6idk-a1-m40-cA_6idk-a1-m40-cC 6idk-a1-m41-cA_6idk-a1-m41-cC 6idk-a1-m42-cA_6idk-a1-m42-cC 6idk-a1-m43-cA_6idk-a1-m43-cC 6idk-a1-m44-cA_6idk-a1-m44-cC 6idk-a1-m45-cA_6idk-a1-m45-cC 6idk-a1-m46-cA_6idk-a1-m46-cC 6idk-a1-m47-cA_6idk-a1-m47-cC 6idk-a1-m48-cA_6idk-a1-m48-cC 6idk-a1-m49-cA_6idk-a1-m49-cC 6idk-a1-m4-cA_6idk-a1-m4-cC 6idk-a1-m50-cA_6idk-a1-m50-cC 6idk-a1-m51-cA_6idk-a1-m51-cC 6idk-a1-m52-cA_6idk-a1-m52-cC 6idk-a1-m53-cA_6idk-a1-m53-cC 6idk-a1-m54-cA_6idk-a1-m54-cC 6idk-a1-m55-cA_6idk-a1-m55-cC 6idk-a1-m56-cA_6idk-a1-m56-cC 6idk-a1-m57-cA_6idk-a1-m57-cC 6idk-a1-m58-cA_6idk-a1-m58-cC 6idk-a1-m59-cA_6idk-a1-m59-cC 6idk-a1-m5-cA_6idk-a1-m5-cC 6idk-a1-m60-cA_6idk-a1-m60-cC 6idk-a1-m6-cA_6idk-a1-m6-cC 6idk-a1-m7-cA_6idk-a1-m7-cC 6idk-a1-m8-cA_6idk-a1-m8-cC 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virus type 3) 11069 (Dengue virus type 3) 394 394 6idk-a1-m10-cB_6idk-a1-m10-cC 6idk-a1-m11-cB_6idk-a1-m11-cC 6idk-a1-m12-cB_6idk-a1-m12-cC 6idk-a1-m13-cB_6idk-a1-m13-cC 6idk-a1-m14-cB_6idk-a1-m14-cC 6idk-a1-m15-cB_6idk-a1-m15-cC 6idk-a1-m16-cB_6idk-a1-m16-cC 6idk-a1-m17-cB_6idk-a1-m17-cC 6idk-a1-m18-cB_6idk-a1-m18-cC 6idk-a1-m19-cB_6idk-a1-m19-cC 6idk-a1-m1-cB_6idk-a1-m1-cC 6idk-a1-m20-cB_6idk-a1-m20-cC 6idk-a1-m21-cB_6idk-a1-m21-cC 6idk-a1-m22-cB_6idk-a1-m22-cC 6idk-a1-m23-cB_6idk-a1-m23-cC 6idk-a1-m24-cB_6idk-a1-m24-cC 6idk-a1-m25-cB_6idk-a1-m25-cC 6idk-a1-m26-cB_6idk-a1-m26-cC 6idk-a1-m27-cB_6idk-a1-m27-cC 6idk-a1-m28-cB_6idk-a1-m28-cC 6idk-a1-m29-cB_6idk-a1-m29-cC 6idk-a1-m2-cB_6idk-a1-m2-cC 6idk-a1-m30-cB_6idk-a1-m30-cC 6idk-a1-m31-cB_6idk-a1-m31-cC 6idk-a1-m32-cB_6idk-a1-m32-cC 6idk-a1-m33-cB_6idk-a1-m33-cC 6idk-a1-m34-cB_6idk-a1-m34-cC 6idk-a1-m35-cB_6idk-a1-m35-cC 6idk-a1-m36-cB_6idk-a1-m36-cC 6idk-a1-m37-cB_6idk-a1-m37-cC 6idk-a1-m38-cB_6idk-a1-m38-cC 6idk-a1-m39-cB_6idk-a1-m39-cC 6idk-a1-m3-cB_6idk-a1-m3-cC 6idk-a1-m40-cB_6idk-a1-m40-cC 6idk-a1-m41-cB_6idk-a1-m41-cC 6idk-a1-m42-cB_6idk-a1-m42-cC 6idk-a1-m43-cB_6idk-a1-m43-cC 6idk-a1-m44-cB_6idk-a1-m44-cC 6idk-a1-m45-cB_6idk-a1-m45-cC 6idk-a1-m46-cB_6idk-a1-m46-cC 6idk-a1-m47-cB_6idk-a1-m47-cC 6idk-a1-m48-cB_6idk-a1-m48-cC 6idk-a1-m49-cB_6idk-a1-m49-cC 6idk-a1-m4-cB_6idk-a1-m4-cC 6idk-a1-m50-cB_6idk-a1-m50-cC 6idk-a1-m51-cB_6idk-a1-m51-cC 6idk-a1-m52-cB_6idk-a1-m52-cC 6idk-a1-m53-cB_6idk-a1-m53-cC 6idk-a1-m54-cB_6idk-a1-m54-cC 6idk-a1-m55-cB_6idk-a1-m55-cC 6idk-a1-m56-cB_6idk-a1-m56-cC 6idk-a1-m57-cB_6idk-a1-m57-cC 6idk-a1-m58-cB_6idk-a1-m58-cC 6idk-a1-m59-cB_6idk-a1-m59-cC 6idk-a1-m5-cB_6idk-a1-m5-cC 6idk-a1-m60-cB_6idk-a1-m60-cC 6idk-a1-m6-cB_6idk-a1-m6-cC 6idk-a1-m7-cB_6idk-a1-m7-cC 6idk-a1-m8-cB_6idk-a1-m8-cC 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(Dengue virus type 3) 11069 (Dengue virus type 3) 393 393 6idl-a1-m10-cC_6idl-a1-m6-cA 6idl-a1-m11-cA_6idl-a1-m15-cC 6idl-a1-m11-cC_6idl-a1-m12-cA 6idl-a1-m12-cC_6idl-a1-m13-cA 6idl-a1-m13-cC_6idl-a1-m14-cA 6idl-a1-m14-cC_6idl-a1-m15-cA 6idl-a1-m16-cA_6idl-a1-m20-cC 6idl-a1-m16-cC_6idl-a1-m17-cA 6idl-a1-m17-cC_6idl-a1-m18-cA 6idl-a1-m18-cC_6idl-a1-m19-cA 6idl-a1-m19-cC_6idl-a1-m20-cA 6idl-a1-m1-cA_6idl-a1-m5-cC 6idl-a1-m1-cC_6idl-a1-m2-cA 6idl-a1-m21-cA_6idl-a1-m25-cC 6idl-a1-m21-cC_6idl-a1-m22-cA 6idl-a1-m22-cC_6idl-a1-m23-cA 6idl-a1-m23-cC_6idl-a1-m24-cA 6idl-a1-m24-cC_6idl-a1-m25-cA 6idl-a1-m26-cA_6idl-a1-m30-cC 6idl-a1-m26-cC_6idl-a1-m27-cA 6idl-a1-m27-cC_6idl-a1-m28-cA 6idl-a1-m28-cC_6idl-a1-m29-cA 6idl-a1-m29-cC_6idl-a1-m30-cA 6idl-a1-m2-cC_6idl-a1-m3-cA 6idl-a1-m31-cA_6idl-a1-m35-cC 6idl-a1-m31-cC_6idl-a1-m32-cA 6idl-a1-m32-cC_6idl-a1-m33-cA 6idl-a1-m33-cC_6idl-a1-m34-cA 6idl-a1-m34-cC_6idl-a1-m35-cA 6idl-a1-m36-cA_6idl-a1-m40-cC 6idl-a1-m36-cC_6idl-a1-m37-cA 6idl-a1-m37-cC_6idl-a1-m38-cA 6idl-a1-m38-cC_6idl-a1-m39-cA 6idl-a1-m39-cC_6idl-a1-m40-cA 6idl-a1-m3-cC_6idl-a1-m4-cA 6idl-a1-m41-cA_6idl-a1-m45-cC 6idl-a1-m41-cC_6idl-a1-m42-cA 6idl-a1-m42-cC_6idl-a1-m43-cA 6idl-a1-m43-cC_6idl-a1-m44-cA 6idl-a1-m44-cC_6idl-a1-m45-cA 6idl-a1-m46-cA_6idl-a1-m50-cC 6idl-a1-m46-cC_6idl-a1-m47-cA 6idl-a1-m47-cC_6idl-a1-m48-cA 6idl-a1-m48-cC_6idl-a1-m49-cA 6idl-a1-m49-cC_6idl-a1-m50-cA 6idl-a1-m4-cC_6idl-a1-m5-cA 6idl-a1-m51-cA_6idl-a1-m55-cC 6idl-a1-m51-cC_6idl-a1-m52-cA 6idl-a1-m52-cC_6idl-a1-m53-cA 6idl-a1-m53-cC_6idl-a1-m54-cA 6idl-a1-m54-cC_6idl-a1-m55-cA 6idl-a1-m56-cA_6idl-a1-m60-cC 6idl-a1-m56-cC_6idl-a1-m57-cA 6idl-a1-m57-cC_6idl-a1-m58-cA 6idl-a1-m58-cC_6idl-a1-m59-cA 6idl-a1-m59-cC_6idl-a1-m60-cA 6idl-a1-m6-cC_6idl-a1-m7-cA 6idl-a1-m7-cC_6idl-a1-m8-cA 6idl-a1-m8-cC_6idl-a1-m9-cA MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG 6idl-a1-m54-cC_6idl-a1-m9-cC Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class II particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 68 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 393 393 6idl-a1-m10-cC_6idl-a1-m23-cC 6idl-a1-m11-cC_6idl-a1-m20-cC 6idl-a1-m11-cC_6idl-a1-m38-cC 6idl-a1-m12-cC_6idl-a1-m37-cC 6idl-a1-m12-cC_6idl-a1-m47-cC 6idl-a1-m13-cC_6idl-a1-m45-cC 6idl-a1-m13-cC_6idl-a1-m46-cC 6idl-a1-m14-cC_6idl-a1-m29-cC 6idl-a1-m14-cC_6idl-a1-m44-cC 6idl-a1-m15-cC_6idl-a1-m16-cC 6idl-a1-m15-cC_6idl-a1-m28-cC 6idl-a1-m16-cC_6idl-a1-m28-cC 6idl-a1-m17-cC_6idl-a1-m27-cC 6idl-a1-m17-cC_6idl-a1-m52-cC 6idl-a1-m18-cC_6idl-a1-m51-cC 6idl-a1-m18-cC_6idl-a1-m60-cC 6idl-a1-m19-cC_6idl-a1-m39-cC 6idl-a1-m19-cC_6idl-a1-m59-cC 6idl-a1-m1-cC_6idl-a1-m10-cC 6idl-a1-m1-cC_6idl-a1-m23-cC 6idl-a1-m20-cC_6idl-a1-m38-cC 6idl-a1-m21-cC_6idl-a1-m30-cC 6idl-a1-m21-cC_6idl-a1-m43-cC 6idl-a1-m22-cC_6idl-a1-m42-cC 6idl-a1-m24-cC_6idl-a1-m54-cC 6idl-a1-m24-cC_6idl-a1-m9-cC 6idl-a1-m25-cC_6idl-a1-m26-cC 6idl-a1-m25-cC_6idl-a1-m53-cC 6idl-a1-m26-cC_6idl-a1-m53-cC 6idl-a1-m27-cC_6idl-a1-m52-cC 6idl-a1-m29-cC_6idl-a1-m44-cC 6idl-a1-m2-cC_6idl-a1-m22-cC 6idl-a1-m2-cC_6idl-a1-m42-cC 6idl-a1-m30-cC_6idl-a1-m43-cC 6idl-a1-m31-cC_6idl-a1-m40-cC 6idl-a1-m31-cC_6idl-a1-m58-cC 6idl-a1-m32-cC_6idl-a1-m57-cC 6idl-a1-m32-cC_6idl-a1-m7-cC 6idl-a1-m33-cC_6idl-a1-m5-cC 6idl-a1-m33-cC_6idl-a1-m6-cC 6idl-a1-m34-cC_6idl-a1-m49-cC 6idl-a1-m34-cC_6idl-a1-m4-cC 6idl-a1-m35-cC_6idl-a1-m36-cC 6idl-a1-m35-cC_6idl-a1-m48-cC 6idl-a1-m36-cC_6idl-a1-m48-cC 6idl-a1-m37-cC_6idl-a1-m47-cC 6idl-a1-m39-cC_6idl-a1-m59-cC 6idl-a1-m3-cC_6idl-a1-m41-cC 6idl-a1-m3-cC_6idl-a1-m50-cC 6idl-a1-m40-cC_6idl-a1-m58-cC 6idl-a1-m41-cC_6idl-a1-m50-cC 6idl-a1-m45-cC_6idl-a1-m46-cC 6idl-a1-m4-cC_6idl-a1-m49-cC 6idl-a1-m51-cC_6idl-a1-m60-cC 6idl-a1-m55-cC_6idl-a1-m56-cC 6idl-a1-m55-cC_6idl-a1-m8-cC 6idl-a1-m56-cC_6idl-a1-m8-cC 6idl-a1-m57-cC_6idl-a1-m7-cC 6idl-a1-m5-cC_6idl-a1-m6-cC MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG 6idl-a1-m55-cA_6idl-a1-m9-cB Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class II particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 35 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 393 393 6idl-a1-m10-cA_6idl-a1-m24-cB 6idl-a1-m10-cB_6idl-a1-m24-cA 6idl-a1-m11-cA_6idl-a1-m16-cB 6idl-a1-m11-cB_6idl-a1-m16-cA 6idl-a1-m12-cA_6idl-a1-m38-cB 6idl-a1-m12-cB_6idl-a1-m38-cA 6idl-a1-m13-cA_6idl-a1-m47-cB 6idl-a1-m13-cB_6idl-a1-m47-cA 6idl-a1-m14-cA_6idl-a1-m45-cB 6idl-a1-m14-cB_6idl-a1-m45-cA 6idl-a1-m15-cA_6idl-a1-m29-cB 6idl-a1-m15-cB_6idl-a1-m29-cA 6idl-a1-m17-cA_6idl-a1-m28-cB 6idl-a1-m17-cB_6idl-a1-m28-cA 6idl-a1-m18-cA_6idl-a1-m52-cB 6idl-a1-m18-cB_6idl-a1-m52-cA 6idl-a1-m19-cA_6idl-a1-m60-cB 6idl-a1-m19-cB_6idl-a1-m60-cA 6idl-a1-m1-cA_6idl-a1-m6-cB 6idl-a1-m1-cB_6idl-a1-m6-cA 6idl-a1-m20-cA_6idl-a1-m39-cB 6idl-a1-m20-cB_6idl-a1-m39-cA 6idl-a1-m21-cA_6idl-a1-m26-cB 6idl-a1-m21-cB_6idl-a1-m26-cA 6idl-a1-m22-cA_6idl-a1-m43-cB 6idl-a1-m22-cB_6idl-a1-m43-cA 6idl-a1-m25-cA_6idl-a1-m54-cB 6idl-a1-m25-cB_6idl-a1-m54-cA 6idl-a1-m27-cA_6idl-a1-m53-cB 6idl-a1-m27-cB_6idl-a1-m53-cA 6idl-a1-m2-cA_6idl-a1-m23-cB 6idl-a1-m2-cB_6idl-a1-m23-cA 6idl-a1-m30-cA_6idl-a1-m44-cB 6idl-a1-m30-cB_6idl-a1-m44-cA 6idl-a1-m31-cA_6idl-a1-m36-cB 6idl-a1-m31-cB_6idl-a1-m36-cA 6idl-a1-m32-cA_6idl-a1-m58-cB 6idl-a1-m32-cB_6idl-a1-m58-cA 6idl-a1-m33-cA_6idl-a1-m7-cB 6idl-a1-m33-cB_6idl-a1-m7-cA 6idl-a1-m34-cA_6idl-a1-m5-cB 6idl-a1-m34-cB_6idl-a1-m5-cA 6idl-a1-m35-cA_6idl-a1-m49-cB 6idl-a1-m35-cB_6idl-a1-m49-cA 6idl-a1-m37-cA_6idl-a1-m48-cB 6idl-a1-m37-cB_6idl-a1-m48-cA 6idl-a1-m3-cA_6idl-a1-m42-cB 6idl-a1-m3-cB_6idl-a1-m42-cA 6idl-a1-m40-cA_6idl-a1-m59-cB 6idl-a1-m40-cB_6idl-a1-m59-cA 6idl-a1-m41-cA_6idl-a1-m46-cB 6idl-a1-m41-cB_6idl-a1-m46-cA 6idl-a1-m4-cA_6idl-a1-m50-cB 6idl-a1-m4-cB_6idl-a1-m50-cA 6idl-a1-m51-cA_6idl-a1-m56-cB 6idl-a1-m51-cB_6idl-a1-m56-cA 6idl-a1-m55-cB_6idl-a1-m9-cA 6idl-a1-m57-cA_6idl-a1-m8-cB 6idl-a1-m57-cB_6idl-a1-m8-cA MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG 6idl-a1-m55-cB_6idl-a1-m9-cB Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class II particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 102 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 393 393 6idl-a1-m10-cB_6idl-a1-m24-cB 6idl-a1-m11-cB_6idl-a1-m16-cB 6idl-a1-m12-cB_6idl-a1-m38-cB 6idl-a1-m13-cB_6idl-a1-m47-cB 6idl-a1-m14-cB_6idl-a1-m45-cB 6idl-a1-m15-cB_6idl-a1-m29-cB 6idl-a1-m17-cB_6idl-a1-m28-cB 6idl-a1-m18-cB_6idl-a1-m52-cB 6idl-a1-m19-cB_6idl-a1-m60-cB 6idl-a1-m1-cB_6idl-a1-m6-cB 6idl-a1-m20-cB_6idl-a1-m39-cB 6idl-a1-m21-cB_6idl-a1-m26-cB 6idl-a1-m22-cB_6idl-a1-m43-cB 6idl-a1-m25-cB_6idl-a1-m54-cB 6idl-a1-m27-cB_6idl-a1-m53-cB 6idl-a1-m2-cB_6idl-a1-m23-cB 6idl-a1-m30-cB_6idl-a1-m44-cB 6idl-a1-m31-cB_6idl-a1-m36-cB 6idl-a1-m32-cB_6idl-a1-m58-cB 6idl-a1-m33-cB_6idl-a1-m7-cB 6idl-a1-m34-cB_6idl-a1-m5-cB 6idl-a1-m35-cB_6idl-a1-m49-cB 6idl-a1-m37-cB_6idl-a1-m48-cB 6idl-a1-m3-cB_6idl-a1-m42-cB 6idl-a1-m40-cB_6idl-a1-m59-cB 6idl-a1-m41-cB_6idl-a1-m46-cB 6idl-a1-m4-cB_6idl-a1-m50-cB 6idl-a1-m51-cB_6idl-a1-m56-cB 6idl-a1-m57-cB_6idl-a1-m8-cB MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG 6idl-a1-m8-cA_6idl-a1-m9-cA Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class II particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 43 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 393 393 6idl-a1-m10-cA_6idl-a1-m6-cA 6idl-a1-m10-cA_6idl-a1-m9-cA 6idl-a1-m11-cA_6idl-a1-m12-cA 6idl-a1-m11-cA_6idl-a1-m15-cA 6idl-a1-m12-cA_6idl-a1-m13-cA 6idl-a1-m13-cA_6idl-a1-m14-cA 6idl-a1-m14-cA_6idl-a1-m15-cA 6idl-a1-m16-cA_6idl-a1-m17-cA 6idl-a1-m16-cA_6idl-a1-m20-cA 6idl-a1-m17-cA_6idl-a1-m18-cA 6idl-a1-m18-cA_6idl-a1-m19-cA 6idl-a1-m19-cA_6idl-a1-m20-cA 6idl-a1-m1-cA_6idl-a1-m2-cA 6idl-a1-m1-cA_6idl-a1-m5-cA 6idl-a1-m21-cA_6idl-a1-m22-cA 6idl-a1-m21-cA_6idl-a1-m25-cA 6idl-a1-m22-cA_6idl-a1-m23-cA 6idl-a1-m23-cA_6idl-a1-m24-cA 6idl-a1-m24-cA_6idl-a1-m25-cA 6idl-a1-m26-cA_6idl-a1-m27-cA 6idl-a1-m26-cA_6idl-a1-m30-cA 6idl-a1-m27-cA_6idl-a1-m28-cA 6idl-a1-m28-cA_6idl-a1-m29-cA 6idl-a1-m29-cA_6idl-a1-m30-cA 6idl-a1-m2-cA_6idl-a1-m3-cA 6idl-a1-m31-cA_6idl-a1-m32-cA 6idl-a1-m31-cA_6idl-a1-m35-cA 6idl-a1-m32-cA_6idl-a1-m33-cA 6idl-a1-m33-cA_6idl-a1-m34-cA 6idl-a1-m34-cA_6idl-a1-m35-cA 6idl-a1-m36-cA_6idl-a1-m37-cA 6idl-a1-m36-cA_6idl-a1-m40-cA 6idl-a1-m37-cA_6idl-a1-m38-cA 6idl-a1-m38-cA_6idl-a1-m39-cA 6idl-a1-m39-cA_6idl-a1-m40-cA 6idl-a1-m3-cA_6idl-a1-m4-cA 6idl-a1-m41-cA_6idl-a1-m42-cA 6idl-a1-m41-cA_6idl-a1-m45-cA 6idl-a1-m42-cA_6idl-a1-m43-cA 6idl-a1-m43-cA_6idl-a1-m44-cA 6idl-a1-m44-cA_6idl-a1-m45-cA 6idl-a1-m46-cA_6idl-a1-m47-cA 6idl-a1-m46-cA_6idl-a1-m50-cA 6idl-a1-m47-cA_6idl-a1-m48-cA 6idl-a1-m48-cA_6idl-a1-m49-cA 6idl-a1-m49-cA_6idl-a1-m50-cA 6idl-a1-m4-cA_6idl-a1-m5-cA 6idl-a1-m51-cA_6idl-a1-m52-cA 6idl-a1-m51-cA_6idl-a1-m55-cA 6idl-a1-m52-cA_6idl-a1-m53-cA 6idl-a1-m53-cA_6idl-a1-m54-cA 6idl-a1-m54-cA_6idl-a1-m55-cA 6idl-a1-m56-cA_6idl-a1-m57-cA 6idl-a1-m56-cA_6idl-a1-m60-cA 6idl-a1-m57-cA_6idl-a1-m58-cA 6idl-a1-m58-cA_6idl-a1-m59-cA 6idl-a1-m59-cA_6idl-a1-m60-cA 6idl-a1-m6-cA_6idl-a1-m7-cA 6idl-a1-m7-cA_6idl-a1-m8-cA MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG 6idl-a1-m9-cA_6idl-a1-m9-cC Cryo-EM structure of Immature Dengue virus serotype 3 in complex with human antibody 1H10 Fab at pH 5.0 (Class II particle) A9LID6 A9LID6 25.0 ELECTRON MICROSCOPY 89 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 393 393 6idl-a1-m10-cA_6idl-a1-m10-cC 6idl-a1-m11-cA_6idl-a1-m11-cC 6idl-a1-m12-cA_6idl-a1-m12-cC 6idl-a1-m13-cA_6idl-a1-m13-cC 6idl-a1-m14-cA_6idl-a1-m14-cC 6idl-a1-m15-cA_6idl-a1-m15-cC 6idl-a1-m16-cA_6idl-a1-m16-cC 6idl-a1-m17-cA_6idl-a1-m17-cC 6idl-a1-m18-cA_6idl-a1-m18-cC 6idl-a1-m19-cA_6idl-a1-m19-cC 6idl-a1-m1-cA_6idl-a1-m1-cC 6idl-a1-m20-cA_6idl-a1-m20-cC 6idl-a1-m21-cA_6idl-a1-m21-cC 6idl-a1-m22-cA_6idl-a1-m22-cC 6idl-a1-m23-cA_6idl-a1-m23-cC 6idl-a1-m24-cA_6idl-a1-m24-cC 6idl-a1-m25-cA_6idl-a1-m25-cC 6idl-a1-m26-cA_6idl-a1-m26-cC 6idl-a1-m27-cA_6idl-a1-m27-cC 6idl-a1-m28-cA_6idl-a1-m28-cC 6idl-a1-m29-cA_6idl-a1-m29-cC 6idl-a1-m2-cA_6idl-a1-m2-cC 6idl-a1-m30-cA_6idl-a1-m30-cC 6idl-a1-m31-cA_6idl-a1-m31-cC 6idl-a1-m32-cA_6idl-a1-m32-cC 6idl-a1-m33-cA_6idl-a1-m33-cC 6idl-a1-m34-cA_6idl-a1-m34-cC 6idl-a1-m35-cA_6idl-a1-m35-cC 6idl-a1-m36-cA_6idl-a1-m36-cC 6idl-a1-m37-cA_6idl-a1-m37-cC 6idl-a1-m38-cA_6idl-a1-m38-cC 6idl-a1-m39-cA_6idl-a1-m39-cC 6idl-a1-m3-cA_6idl-a1-m3-cC 6idl-a1-m40-cA_6idl-a1-m40-cC 6idl-a1-m41-cA_6idl-a1-m41-cC 6idl-a1-m42-cA_6idl-a1-m42-cC 6idl-a1-m43-cA_6idl-a1-m43-cC 6idl-a1-m44-cA_6idl-a1-m44-cC 6idl-a1-m45-cA_6idl-a1-m45-cC 6idl-a1-m46-cA_6idl-a1-m46-cC 6idl-a1-m47-cA_6idl-a1-m47-cC 6idl-a1-m48-cA_6idl-a1-m48-cC 6idl-a1-m49-cA_6idl-a1-m49-cC 6idl-a1-m4-cA_6idl-a1-m4-cC 6idl-a1-m50-cA_6idl-a1-m50-cC 6idl-a1-m51-cA_6idl-a1-m51-cC 6idl-a1-m52-cA_6idl-a1-m52-cC 6idl-a1-m53-cA_6idl-a1-m53-cC 6idl-a1-m54-cA_6idl-a1-m54-cC 6idl-a1-m55-cA_6idl-a1-m55-cC 6idl-a1-m56-cA_6idl-a1-m56-cC 6idl-a1-m57-cA_6idl-a1-m57-cC 6idl-a1-m58-cA_6idl-a1-m58-cC 6idl-a1-m59-cA_6idl-a1-m59-cC 6idl-a1-m5-cA_6idl-a1-m5-cC 6idl-a1-m60-cA_6idl-a1-m60-cC 6idl-a1-m6-cA_6idl-a1-m6-cC 6idl-a1-m7-cA_6idl-a1-m7-cC 6idl-a1-m8-cA_6idl-a1-m8-cC MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAVLPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLEPIEGKVVQYENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTTEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWASGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCTNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDNALKINWYKKG 6idv-a1-m1-cA_6idv-a1-m1-cB Peptide Asparaginyl Ligases from Viola yedoensis A0A509GV09 A0A509GV09 2.4 X-RAY DIFFRACTION 60 0.998 316493 (Viola philippica) 316493 (Viola philippica) 425 425 IGTRWAVLIAGSKGYHNYRHQADVCHMYQILRKGGVKDENIIVFMYDDIAYNESNPFPGIIINKPGGENVYKGVPKDYTGEDINNVNFLAAILGNKSAIIGGSGKVLDTSPNDHIFIYYAHGAPGKIGMPSKPYLYADDLVDTLKQKAATGTYKSMVFYVEACNAGSMFEGLLPEGTNIYAMAASNSTEGSWITYCPGTPDFPPEFDVCLGDLWSITFLEDCDAHNLRTETVHQQFELVKKKIAYASTVSQYGDIPISKDSLSVYMGTDPANDNRTFVPLKVIHQHDADLYHIWCKYNMAPEGSSKKIEAQKQLLELMSHRAHVDNSITLIGKLLFGVNKASKVLNTVRPVGQPLVDDWQCLKAMIRTFETHCGSLSEYGMKHTLSFANMCNAGIQKEQLAEAAAQACVTFPSNPYSSLAEGFSA GTRWAVLIAGSKGYHNYRHQADVCHMYQILRKGGVKDENIIVFMYDDIAYNESNPFPGIIINKPGGENVYKGVPKDYTGEDINNVNFLAAILGNKSAIIGGSGKVLDTSPNDHIFIYYAHGAPGKIGMPSKPYLYADDLVDTLKQKAATGTYKSMVFYVEACNAGSMFEGLLPEGTNIYAMAASNSTEGSWITYCPGTPDFPPEFDVCLGDLWSITFLEDCDAHNLRTETVHQQFELVKKKIAYASTVSQYGDIPISKDSLSVYMGTDPANDNRTFVDPLKVIHQHDADLYHIWCKYNMAPEGSSKKIEAQKQLLELMSHRAHVDNSITLIGKLLFGVNKASKVLNTVRPVGQPLVDDWQCLKAMIRTFETHCGSLSEYGMKHTLSFANMCNAGIQKEQLAEAAAQACVTFPSNPYSSLAEGFSA 6ie0-a2-m1-cB_6ie0-a2-m1-cD X-ray crystal structure of 2R,3R-butanediol dehydrogenase from Bacillus subtilis O34788 O34788 2.976 X-RAY DIFFRACTION 98 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 347 347 6ie0-a1-m1-cA_6ie0-a1-m1-cC SMKAARWHNQKDIRIEHIEEPKTEPGKVKIKVKWCGICGSDLHEYLGGPIFIPVDKPHPLTNETAPVTMGHEFSGEVVEVGEGVENYKVGDRVVVEPIFATHGHQGAYNLDEQMGFLGLAGGGGGFSEYVSVDEELLFKLPDELSYEQGALVEPSAVALYAVRSSKLKAGDKAAVFGCGPIGLLVIEALKAAGATDIYAVELSPERQQKAEELGAIIVDPSKTDDVVAEIAERTGGGVDVAFEVTGVPVVLRQAIQSTTIAGETVIVSIWEKGAEIHPNDIVIKERTVKGIIGYRDIFPAVLSLMKEGYFSADKLVTKKIVLDDLIEEGFGALIKEKSQVKILVRPN SMKAARWHNQKDIRIEHIEEPKTEPGKVKIKVKWCGICGSDLHEYLGGPIFIPVDKPHPLTNETAPVTMGHEFSGEVVEVGEGVENYKVGDRVVVEPIFATHGHQGAYNLDEQMGFLGLAGGGGGFSEYVSVDEELLFKLPDELSYEQGALVEPSAVALYAVRSSKLKAGDKAAVFGCGPIGLLVIEALKAAGATDIYAVELSPERQQKAEELGAIIVDPSKTDDVVAEIAERTGGGVDVAFEVTGVPVVLRQAIQSTTIAGETVIVSIWEKGAEIHPNDIVIKERTVKGIIGYRDIFPAVLSLMKEGYFSADKLVTKKIVLDDLIEEGFGALIKEKSQVKILVRPN 6iei-a1-m1-cA_6iei-a1-m2-cA Loop deletion and proline insertion mutant (deleting six residues and inserted five proline residues) P0CL66 P0CL66 2.4 X-RAY DIFFRACTION 123 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 250 250 GSHMKNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGAVSVELNDTPPPPPKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK GSHMKNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGAVSVELNDTPPPPPKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK 6iej-a2-m1-cC_6iej-a2-m2-cC The C2 domain of cytosolic phospholipase A2 alpha bound to phosphatidylcholine P49147 P49147 2.206 X-RAY DIFFRACTION 26 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 126 126 6iej-a1-m1-cA_6iej-a1-m1-cB SYSHVFTVTVRKATNVTKGAIGDMLDTPDPYVELFIPSAPDCRKRTKHFNNDVNPVWNETFEFILDPNQDNVLEVTLMDANYVMDETLGMATFPISSLKLGEKKEVQLTFNNVTEMTLELSLEVCS SYSHVFTVTVRKATNVTKGAIGDMLDTPDPYVELFIPSAPDCRKRTKHFNNDVNPVWNETFEFILDPNQDNVLEVTLMDANYVMDETLGMATFPISSLKLGEKKEVQLTFNNVTEMTLELSLEVCS 6ier-a2-m1-cA_6ier-a2-m2-cA Apo structure of a beta-glucosidase 1317 A0A5H1ZR35 A0A5H1ZR35 2.246 X-RAY DIFFRACTION 65 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 402 402 GFLWGSAGAAYQIEGGNVASDLWVVEHVQPTIFREASGDAVDAYHRVFDDIALAASLGFNAHRFSIEWSRIEPEKGQISLAAIAYYRRVLEAIRSHGMTPVVTLHHFTSPRWFAAAGGFETRDGIEPFVRYAEIVSRHLGDLFGVVATFNEPNLGGLMSWGSLSKQIRPIVQASRASAARAVNSDKFAPLVLGDFRIQTPIIIEAHERAYDVIRRETGGRTPVGLTIAVNDERAGTPDAGLDAKLEDAVLPWVRARGDFIGVQNYTYALVGKDADLPNPEGVELTQMNYPFAPEALEGAIRLVARHTDKPIYVTENGVATEDDARRVAFIDRAVPAVFACMRDGIDVRGYIHWSFLDNWEWFAGFGPKFGLVAVDRTTFERTPKPSAAHLGRLARAGLPGDL GFLWGSAGAAYQIEGGNVASDLWVVEHVQPTIFREASGDAVDAYHRVFDDIALAASLGFNAHRFSIEWSRIEPEKGQISLAAIAYYRRVLEAIRSHGMTPVVTLHHFTSPRWFAAAGGFETRDGIEPFVRYAEIVSRHLGDLFGVVATFNEPNLGGLMSWGSLSKQIRPIVQASRASAARAVNSDKFAPLVLGDFRIQTPIIIEAHERAYDVIRRETGGRTPVGLTIAVNDERAGTPDAGLDAKLEDAVLPWVRARGDFIGVQNYTYALVGKDADLPNPEGVELTQMNYPFAPEALEGAIRLVARHTDKPIYVTENGVATEDDARRVAFIDRAVPAVFACMRDGIDVRGYIHWSFLDNWEWFAGFGPKFGLVAVDRTTFERTPKPSAAHLGRLARAGLPGDL 6iev-a1-m1-cB_6iev-a1-m1-cA Crystal structure of a designed protein 2.25 X-RAY DIFFRACTION 33 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 105 111 PSPHVIMSLEELREATASNRISVIVFTLPDSKRSNEIKEKLRKLAEVFPDVDTYSVDTSTNPEAREWYNITSVPTFVIEKGGEPLGEVKGPDIDKLRVTLDELLA NVKPSPHVIMSLEELREATASNRISVIVFTLPDSKRSNEIKEKLRKLAEVFPDVDTYSVDTSTNPEAREWYNITSVPTFVIEKGGEPLGEVKGPDIDKLRVTLDELLARKL 6iev-a1-m1-cB_6iev-a1-m1-cC Crystal structure of a designed protein 2.25 X-RAY DIFFRACTION 17 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 105 105 PSPHVIMSLEELREATASNRISVIVFTLPDSKRSNEIKEKLRKLAEVFPDVDTYSVDTSTNPEAREWYNITSVPTFVIEKGGEPLGEVKGPDIDKLRVTLDELLA PSPHVIMSLEELREATASNRISVIVFTLPDSKRSNEIKEKLRKLAEVFPDVDTYSVDTSTNPEAREWYNITSVPTFVIEKGGEPLGEVKGPDIDKLRVTLDELLA 6iev-a1-m1-cC_6iev-a1-m1-cA Crystal structure of a designed protein 2.25 X-RAY DIFFRACTION 12 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 105 111 PSPHVIMSLEELREATASNRISVIVFTLPDSKRSNEIKEKLRKLAEVFPDVDTYSVDTSTNPEAREWYNITSVPTFVIEKGGEPLGEVKGPDIDKLRVTLDELLA NVKPSPHVIMSLEELREATASNRISVIVFTLPDSKRSNEIKEKLRKLAEVFPDVDTYSVDTSTNPEAREWYNITSVPTFVIEKGGEPLGEVKGPDIDKLRVTLDELLARKL 6if6-a1-m1-cA_6if6-a1-m2-cA Structure of the periplasmic domain of SflA A0A1W6TB41 A0A1W6TB41 1.9 X-RAY DIFFRACTION 102 1.0 663 (Vibrio alginolyticus) 663 (Vibrio alginolyticus) 131 131 SQAPNDPIEQYEYAQQLLASNKAEASPDTRYWLEQSANQGYLPAQKQLANDFAKGINGEKNETQALYWLTSIALNDPTDQGFLLANFIQRNQDKVTTSQLTEALYQMASQHNPAAEQAYNQLLEQRFNQLR SQAPNDPIEQYEYAQQLLASNKAEASPDTRYWLEQSANQGYLPAQKQLANDFAKGINGEKNETQALYWLTSIALNDPTDQGFLLANFIQRNQDKVTTSQLTEALYQMASQHNPAAEQAYNQLLEQRFNQLR 6ifa-a1-m1-cA_6ifa-a1-m1-cB Structure of beta-trefoil lectin from Entamoeba histolytica N9TFI9 N9TFI9 1.9 X-RAY DIFFRACTION 16 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 126 126 6ifa-a2-m1-cC_6ifa-a2-m2-cC 6ifb-a1-m1-cA_6ifb-a1-m1-cB EAHTLVTPEGNVIDIQGASQENGANAIIYPRHGGENQLFFIDKQIGWIISVFSRKALTVKENMHDIVQSDYCSLSRQQWIFEDNPDGTTIIRCYENPELVLSVTGNIDKVCLSPFTREAHQLWRIE EAHTLVTPEGNVIDIQGASQENGANAIIYPRHGGENQLFFIDKQIGWIISVFSRKALTVKENMHDIVQSDYCSLSRQQWIFEDNPDGTTIIRCYENPELVLSVTGNIDKVCLSPFTREAHQLWRIE 6ifc-a2-m1-cE_6ifc-a2-m1-cG Crystal structure of VapBC from Salmonella typhimurium Q8ZM86 Q8ZM86 1.99 X-RAY DIFFRACTION 97 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 132 132 6ifc-a1-m1-cA_6ifc-a1-m1-cC 6ifm-a1-m1-cA_6ifm-a1-m1-cC 6ifm-a1-m1-cE_6ifm-a1-m1-cG MLKFMLDTNTCIFTIKNKPEHIRERFNLNTSRMCISSITLMELIYGAEKSLAPERNLAVVEGFISRLEVLDYDTQAAIHTGQIRAELARKGTPVGPYDQMIAGHAGSRGLVVVTNNLREFERIPGIRIEDWC MLKFMLDTNTCIFTIKNKPEHIRERFNLNTSRMCISSITLMELIYGAEKSLAPERNLAVVEGFISRLEVLDYDTQAAIHTGQIRAELARKGTPVGPYDQMIAGHAGSRGLVVVTNNLREFERIPGIRIEDWC 6ifd-a2-m1-cD_6ifd-a2-m1-cC Crystal Structure of CMP-N-acetylneuraminate Synthetase from Vibrio cholerae in complex with CDP and Mg2+. 2.3 X-RAY DIFFRACTION 122 0.995 666 (Vibrio cholerae) 666 (Vibrio cholerae) 218 227 6ifd-a1-m1-cA_6ifd-a1-m1-cB 6ifi-a1-m1-cA_6ifi-a1-m1-cB NEYVALITARKNVLPLHGIPLIGWTIKAAQGCSYISKVFVSTDDYEIAKISEGLGALVINRPEELATDTASSIDVILHAISWLEQKEVQKYEGMILLQPTSPLRTSHHIKEAIELYEKTAAKFVISVFEPTHTPIKSYLENDDGTISGLYSNEAPYQRRQDLPRAYQPNGAIYAFSIDEFKLNNHFPRNKVFPYVMSEVESADIDTLEDLRKVEEQLK MSNEYVALITARGGSKGLLRKNVLPLHGIPLIGWTIKAAQGCSYISKVFVSTDDYEIAKISEGLGALVINRPEELATDTASSIDVILHAISWLEQKEVQKYEGMILLQPTSPLRTSHHIKEAIELYEKTAAKFVISVFEPTHTPIKSYLENDDGTISGLYSNEAPYQRRQDLPRAYQPNGAIYAFSIDEFKLNNHFPRNKVFPYVMSEVESADIDTLEDLRKVEEQL 6ife-a1-m1-cB_6ife-a1-m1-cA A Glycoside Hydrolase Family 43 beta-Xylosidase A0A4V8GZZ0 A0A4V8GZZ0 1.804 X-RAY DIFFRACTION 128 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 534 535 MKITNPVLKGFNPDPSICRVGEDYYMAVSTFEWFPGVQIYHSKDLVHWRLAARPLQKTSQLDMKGNPDSGGVWAPCLSYADGQFWLIYSDIKVVDGPFKDGHNYLVTASEVDGDWSEPILLNSSGFDPSLFHDHSGKKYVLNMLWDHREKHHSFAGIALQEYSVAEKKLIGQRKVIFKGTPIKLTEAPHLYHIGDYYYLLTAEGGTRYEHAATIARSSHIEGPYEVHPDNPIVSAFHVPEHPLQKCGHASIVQTHTNEWYLAHLTGRPIQSSKESIFQQRGWCPLGRETAIQKLEWKDGWPYVVGGKEGTLEVEAPKIEEKVFAPTYHTVDEFKESTLNRHFQTLRIPFTDQIGSLTEKPQHLRLFGRESLTSKFTQAFVARRWQSFYFEAETAVSFFPENFQQAAGLVNYYNTENWTALQVTYDEELGRTLELSVCQNLAFSQPLTHKIIIPDEVTYVYLKVTVRKETYKYSYSFDQKEWKEIDVPFESIHLSDDFIRGGGFFTGAFVGMQCQDTSGERLPADFHYFRYEETD MKITNPVLKGFNPDPSICRVGEDYYMAVSTFEWFPGVQIYHSKDLVHWRLAARPLQKTSQLDMKGNPDSGGVWAPCLSYADGQFWLIYSDIKVVDGPFKDGHNYLVTASEVDGDWSEPILLNSSGFDPSLFHDHSGKKYVLNMLWDHREKHHSFAGIALQEYSVAEKKLIGQRKVIFKGTPIKLTEAPHLYHIGDYYYLLTAEGGTRYEHAATIARSSHIEGPYEVHPDNPIVSAFHVPEHPLQKCGHASIVQTHTNEWYLAHLTGRPIQSSKESIFQQRGWCPLGRETAIQKLEWKDGWPYVVGGKEGTLEVEAPKIEEKVFAPTYHTVDEFKESTLNRHFQTLRIPFTDQIGSLTEKPQHLRLFGRESLTSKFTQAFVARRWQSFYFEAETAVSFFPENFQQAAGLVNYYNTENWTALQVTYDEELGRTLELSVCQNLAFSQPLTHKIIIPDEVTYVYLKVTVRKETYKYSYSFDQKEWKEIDVPFESIHLSDDFIRGGGFFTGAFVGMQCQDTSGERLPADFHYFRYEETDE 6ifm-a1-m1-cB_6ifm-a1-m1-cH Crystal structure of DNA bound VapBC from Salmonella typhimurium Q7CPV2 Q7CPV2 2.804 X-RAY DIFFRACTION 128 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 68 68 6ifm-a1-m1-cD_6ifm-a1-m1-cF MHTTLFFSNRTQAVRLPKSISFPEDVKHVEIIAVGRSRIITPVGESWDSWFDGEGASTDFMSTREQPA MHTTLFFSNRTQAVRLPKSISFPEDVKHVEIIAVGRSRIITPVGESWDSWFDGEGASTDFMSTREQPA 6ifm-a1-m1-cC_6ifm-a1-m1-cG Crystal structure of DNA bound VapBC from Salmonella typhimurium Q8ZM86 Q8ZM86 2.804 X-RAY DIFFRACTION 23 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 132 132 MLKFMLDTNTCIFTIKNKPEHIRERFNLNTSRMCISSITLMELIYGAEKSLAPERNLAVVEGFISRLEVLDYDTQAAIHTGQIRAELARKGTPVGPYDQMIAGHAGSRGLVVVTNNLREFERIPGIRIEDWC MLKFMLDTNTCIFTIKNKPEHIRERFNLNTSRMCISSITLMELIYGAEKSLAPERNLAVVEGFISRLEVLDYDTQAAIHTGQIRAELARKGTPVGPYDQMIAGHAGSRGLVVVTNNLREFERIPGIRIEDWC 6ifn-a1-m1-cD_6ifn-a1-m1-cC Crystal structure of Type III-A CRISPR Csm complex 2.9 X-RAY DIFFRACTION 29 0.992 767463 (Streptococcus thermophilus ND03) 767463 (Streptococcus thermophilus ND03) 123 124 6ifk-a1-m1-cC_6ifk-a1-m1-cD 6ifl-a1-m1-cB_6ifl-a1-m1-cC 6ifr-a1-m1-cC_6ifr-a1-m1-cD 6ifu-a1-m1-cB_6ifu-a1-m1-cC 6ify-a1-m1-cC_6ify-a1-m1-cD 6ifz-a1-m1-cC_6ifz-a1-m1-cD 6ig0-a1-m1-cC_6ig0-a1-m1-cD LTDENYVDIAEKAILKLERNTRNRKNPDAFFLTTSKLRNLLSLTSTLFDESKVKEYDALLDRIAYLRVQFVYQAGREIAVKDLIEKAQILEALKEIKDRETLQRFCRYMEALVAYFKFYGGKD TILTDENYVDIAEKAILKLERNTRNRKNPDAFFLTTSKLRNLLSLTSTLFDESKVKEYDALLDRIAYLRVQFVYQAGREIAVKDLIEKAQILEALKEIKDRETLQRFCRYMEALVAYFKFYGGK 6ig4-a1-m1-cB_6ig4-a1-m1-cA Structure of mitochondrial CDP-DAG synthase Tam41, delta 74 O74339 O74339 2.261 X-RAY DIFFRACTION 69 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 272 277 6ig2-a1-m1-cA_6ig2-a1-m1-cB 6ig2-a2-m1-cC_6ig2-a2-m1-cD CTVAQLLKQNLLTFENQRIQPEEELKENLTKVVNYFQAPIDVAVGYGSGVFRQNPMIDFIFQVEDPVKWHKINLQQNPSHYSFVKNVSTLQESFGTGVYYNTHVEVEGNIIKYGVTSKKDVYEDLKNWNTMYLAGRFQKPVVILKGEDEFYKENSYNLSSALHVGLLMLADRFTEFDLYKTIVSLSYLGDIRMSFFAENPRKVENIVSKQIAFFRKLYLPLLYAEPGVHFIESSEVLKSMDPSDNSRYLSFHQNITKDSISRLLNGLPLNLV CTVAQLLKQNLLTFENQRIQPEEELKENLTKVVNYFQAPIDVAVGYGSGVFRQNPMIDFIFQVEDPVKWHKINLQQNPSHYSFVKNFGPGFVSTLQESFGTGVYYNTHVEVEGNIIKYGVTSKKDVYEDLKNWNTMYLAGRFQKPVVILKGEDEFYKENSYNLSSALHVGLLMLADRFTEFDLYKTIVSLSYLGDIRMSFFAENPRKVENIVSKQIAFFRKLYLPLLYAEPGVHFIESSEVLKSMDPSDNSRYLSFHQNITKDSISRLLNGLPLNLV 6igd-a1-m1-cC_6igd-a1-m1-cA Crystal structure of HPV58/33 chimeric L1 pentamer P26535 P26535 2.5 X-RAY DIFFRACTION 256 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 415 416 5y9c-a1-m1-cA_5y9c-a1-m1-cB 5y9c-a1-m1-cC_5y9c-a1-m1-cA 5y9c-a1-m1-cD_5y9c-a1-m1-cC 5y9c-a1-m1-cD_5y9c-a1-m1-cE 5y9c-a1-m1-cE_5y9c-a1-m1-cB 5y9e-a1-m1-cB_5y9e-a1-m1-cA 5y9e-a1-m1-cB_5y9e-a1-m1-cE 5y9e-a1-m1-cC_5y9e-a1-m1-cA 5y9e-a1-m1-cC_5y9e-a1-m1-cD 5y9e-a1-m1-cD_5y9e-a1-m1-cE 6igc-a1-m1-cC_6igc-a1-m1-cD 6igc-a2-m1-cG_6igc-a2-m1-cF 6igc-a2-m1-cH_6igc-a2-m1-cF 6igc-a2-m1-cI_6igc-a2-m1-cJ 6igc-a3-m1-cK_6igc-a3-m1-cM 6igc-a3-m1-cL_6igc-a3-m1-cK 6igc-a4-m1-cP_6igc-a4-m1-cR 6igc-a4-m1-cQ_6igc-a4-m1-cP 6igc-a4-m1-cS_6igc-a4-m1-cT 6igc-a5-m1-cU_6igc-a5-m1-cV 6igc-a5-m1-cU_6igc-a5-m1-cW 6igc-a5-m1-cX_6igc-a5-m1-cY 6igc-a6-m1-ca_6igc-a6-m1-cZ 6igc-a6-m1-cc_6igc-a6-m1-cd 6igc-a6-m1-cZ_6igc-a6-m1-cb 6igc-a7-m1-cf_6igc-a7-m1-ce 6igc-a7-m1-cg_6igc-a7-m1-ce 6igc-a7-m1-ch_6igc-a7-m1-ci 6igc-a8-m1-cj_6igc-a8-m1-cl 6igc-a8-m1-ck_6igc-a8-m1-cj 6igc-a8-m1-cm_6igc-a8-m1-cn 6igd-a1-m1-cB_6igd-a1-m1-cA 6igd-a1-m1-cB_6igd-a1-m1-cE 6igd-a1-m1-cC_6igd-a1-m1-cD 6igd-a1-m1-cD_6igd-a1-m1-cE 6igd-a2-m1-cG_6igd-a2-m1-cF 6igd-a2-m1-cG_6igd-a2-m1-cJ 6igd-a2-m1-cH_6igd-a2-m1-cF 6igd-a2-m1-cI_6igd-a2-m1-cJ 7dn5-a1-m10-cA_7dn5-a1-m10-cB 7dn5-a1-m10-cA_7dn5-a1-m10-cE 7dn5-a1-m10-cB_7dn5-a1-m10-cC 7dn5-a1-m10-cD_7dn5-a1-m10-cC 7dn5-a1-m10-cD_7dn5-a1-m10-cE 7dn5-a1-m10-cF_7dn5-a1-m6-cF 7dn5-a1-m10-cF_7dn5-a1-m9-cF 7dn5-a1-m11-cA_7dn5-a1-m11-cB 7dn5-a1-m11-cA_7dn5-a1-m11-cE 7dn5-a1-m11-cB_7dn5-a1-m11-cC 7dn5-a1-m11-cD_7dn5-a1-m11-cC 7dn5-a1-m11-cD_7dn5-a1-m11-cE 7dn5-a1-m11-cF_7dn5-a1-m12-cF 7dn5-a1-m11-cF_7dn5-a1-m15-cF 7dn5-a1-m12-cA_7dn5-a1-m12-cB 7dn5-a1-m12-cA_7dn5-a1-m12-cE 7dn5-a1-m12-cB_7dn5-a1-m12-cC 7dn5-a1-m12-cD_7dn5-a1-m12-cC 7dn5-a1-m12-cD_7dn5-a1-m12-cE 7dn5-a1-m12-cF_7dn5-a1-m13-cF 7dn5-a1-m13-cA_7dn5-a1-m13-cB 7dn5-a1-m13-cA_7dn5-a1-m13-cE 7dn5-a1-m13-cB_7dn5-a1-m13-cC 7dn5-a1-m13-cD_7dn5-a1-m13-cC 7dn5-a1-m13-cD_7dn5-a1-m13-cE 7dn5-a1-m13-cF_7dn5-a1-m14-cF 7dn5-a1-m14-cA_7dn5-a1-m14-cB 7dn5-a1-m14-cA_7dn5-a1-m14-cE 7dn5-a1-m14-cB_7dn5-a1-m14-cC 7dn5-a1-m14-cD_7dn5-a1-m14-cC 7dn5-a1-m14-cD_7dn5-a1-m14-cE 7dn5-a1-m14-cF_7dn5-a1-m15-cF 7dn5-a1-m15-cA_7dn5-a1-m15-cB 7dn5-a1-m15-cA_7dn5-a1-m15-cE 7dn5-a1-m15-cB_7dn5-a1-m15-cC 7dn5-a1-m15-cD_7dn5-a1-m15-cC 7dn5-a1-m15-cD_7dn5-a1-m15-cE 7dn5-a1-m16-cA_7dn5-a1-m16-cB 7dn5-a1-m16-cA_7dn5-a1-m16-cE 7dn5-a1-m16-cB_7dn5-a1-m16-cC 7dn5-a1-m16-cD_7dn5-a1-m16-cC 7dn5-a1-m16-cD_7dn5-a1-m16-cE 7dn5-a1-m16-cF_7dn5-a1-m17-cF 7dn5-a1-m16-cF_7dn5-a1-m20-cF 7dn5-a1-m17-cA_7dn5-a1-m17-cB 7dn5-a1-m17-cA_7dn5-a1-m17-cE 7dn5-a1-m17-cB_7dn5-a1-m17-cC 7dn5-a1-m17-cD_7dn5-a1-m17-cC 7dn5-a1-m17-cD_7dn5-a1-m17-cE 7dn5-a1-m17-cF_7dn5-a1-m18-cF 7dn5-a1-m18-cA_7dn5-a1-m18-cB 7dn5-a1-m18-cA_7dn5-a1-m18-cE 7dn5-a1-m18-cB_7dn5-a1-m18-cC 7dn5-a1-m18-cD_7dn5-a1-m18-cC 7dn5-a1-m18-cD_7dn5-a1-m18-cE 7dn5-a1-m18-cF_7dn5-a1-m19-cF 7dn5-a1-m19-cA_7dn5-a1-m19-cB 7dn5-a1-m19-cA_7dn5-a1-m19-cE 7dn5-a1-m19-cB_7dn5-a1-m19-cC 7dn5-a1-m19-cD_7dn5-a1-m19-cC 7dn5-a1-m19-cD_7dn5-a1-m19-cE 7dn5-a1-m19-cF_7dn5-a1-m20-cF 7dn5-a1-m1-cA_7dn5-a1-m1-cB 7dn5-a1-m1-cA_7dn5-a1-m1-cE 7dn5-a1-m1-cB_7dn5-a1-m1-cC 7dn5-a1-m1-cD_7dn5-a1-m1-cC 7dn5-a1-m1-cD_7dn5-a1-m1-cE 7dn5-a1-m1-cF_7dn5-a1-m2-cF 7dn5-a1-m1-cF_7dn5-a1-m5-cF 7dn5-a1-m20-cA_7dn5-a1-m20-cB 7dn5-a1-m20-cA_7dn5-a1-m20-cE 7dn5-a1-m20-cB_7dn5-a1-m20-cC 7dn5-a1-m20-cD_7dn5-a1-m20-cC 7dn5-a1-m20-cD_7dn5-a1-m20-cE 7dn5-a1-m21-cA_7dn5-a1-m21-cB 7dn5-a1-m21-cA_7dn5-a1-m21-cE 7dn5-a1-m21-cB_7dn5-a1-m21-cC 7dn5-a1-m21-cD_7dn5-a1-m21-cC 7dn5-a1-m21-cD_7dn5-a1-m21-cE 7dn5-a1-m21-cF_7dn5-a1-m22-cF 7dn5-a1-m21-cF_7dn5-a1-m25-cF 7dn5-a1-m22-cA_7dn5-a1-m22-cB 7dn5-a1-m22-cA_7dn5-a1-m22-cE 7dn5-a1-m22-cB_7dn5-a1-m22-cC 7dn5-a1-m22-cD_7dn5-a1-m22-cC 7dn5-a1-m22-cD_7dn5-a1-m22-cE 7dn5-a1-m22-cF_7dn5-a1-m23-cF 7dn5-a1-m23-cA_7dn5-a1-m23-cB 7dn5-a1-m23-cA_7dn5-a1-m23-cE 7dn5-a1-m23-cB_7dn5-a1-m23-cC 7dn5-a1-m23-cD_7dn5-a1-m23-cC 7dn5-a1-m23-cD_7dn5-a1-m23-cE 7dn5-a1-m23-cF_7dn5-a1-m24-cF 7dn5-a1-m24-cA_7dn5-a1-m24-cB 7dn5-a1-m24-cA_7dn5-a1-m24-cE 7dn5-a1-m24-cB_7dn5-a1-m24-cC 7dn5-a1-m24-cD_7dn5-a1-m24-cC 7dn5-a1-m24-cD_7dn5-a1-m24-cE 7dn5-a1-m24-cF_7dn5-a1-m25-cF 7dn5-a1-m25-cA_7dn5-a1-m25-cB 7dn5-a1-m25-cA_7dn5-a1-m25-cE 7dn5-a1-m25-cB_7dn5-a1-m25-cC 7dn5-a1-m25-cD_7dn5-a1-m25-cC 7dn5-a1-m25-cD_7dn5-a1-m25-cE 7dn5-a1-m26-cA_7dn5-a1-m26-cB 7dn5-a1-m26-cA_7dn5-a1-m26-cE 7dn5-a1-m26-cB_7dn5-a1-m26-cC 7dn5-a1-m26-cD_7dn5-a1-m26-cC 7dn5-a1-m26-cD_7dn5-a1-m26-cE 7dn5-a1-m26-cF_7dn5-a1-m27-cF 7dn5-a1-m26-cF_7dn5-a1-m30-cF 7dn5-a1-m27-cA_7dn5-a1-m27-cB 7dn5-a1-m27-cA_7dn5-a1-m27-cE 7dn5-a1-m27-cB_7dn5-a1-m27-cC 7dn5-a1-m27-cD_7dn5-a1-m27-cC 7dn5-a1-m27-cD_7dn5-a1-m27-cE 7dn5-a1-m27-cF_7dn5-a1-m28-cF 7dn5-a1-m28-cA_7dn5-a1-m28-cB 7dn5-a1-m28-cA_7dn5-a1-m28-cE 7dn5-a1-m28-cB_7dn5-a1-m28-cC 7dn5-a1-m28-cD_7dn5-a1-m28-cC 7dn5-a1-m28-cD_7dn5-a1-m28-cE 7dn5-a1-m28-cF_7dn5-a1-m29-cF 7dn5-a1-m29-cA_7dn5-a1-m29-cB 7dn5-a1-m29-cA_7dn5-a1-m29-cE 7dn5-a1-m29-cB_7dn5-a1-m29-cC 7dn5-a1-m29-cD_7dn5-a1-m29-cC 7dn5-a1-m29-cD_7dn5-a1-m29-cE 7dn5-a1-m29-cF_7dn5-a1-m30-cF 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7dn5-a1-m51-cF_7dn5-a1-m54-cF 7dn5-a1-m52-cA_7dn5-a1-m52-cC 7dn5-a1-m52-cB_7dn5-a1-m52-cE 7dn5-a1-m52-cC_7dn5-a1-m52-cE 7dn5-a1-m52-cD_7dn5-a1-m52-cA 7dn5-a1-m52-cD_7dn5-a1-m52-cB 7dn5-a1-m52-cF_7dn5-a1-m54-cF 7dn5-a1-m52-cF_7dn5-a1-m55-cF 7dn5-a1-m53-cA_7dn5-a1-m53-cC 7dn5-a1-m53-cB_7dn5-a1-m53-cE 7dn5-a1-m53-cC_7dn5-a1-m53-cE 7dn5-a1-m53-cD_7dn5-a1-m53-cA 7dn5-a1-m53-cD_7dn5-a1-m53-cB 7dn5-a1-m53-cF_7dn5-a1-m55-cF 7dn5-a1-m54-cA_7dn5-a1-m54-cC 7dn5-a1-m54-cB_7dn5-a1-m54-cE 7dn5-a1-m54-cC_7dn5-a1-m54-cE 7dn5-a1-m54-cD_7dn5-a1-m54-cA 7dn5-a1-m54-cD_7dn5-a1-m54-cB 7dn5-a1-m55-cA_7dn5-a1-m55-cC 7dn5-a1-m55-cB_7dn5-a1-m55-cE 7dn5-a1-m55-cC_7dn5-a1-m55-cE 7dn5-a1-m55-cD_7dn5-a1-m55-cA 7dn5-a1-m55-cD_7dn5-a1-m55-cB 7dn5-a1-m56-cA_7dn5-a1-m56-cC 7dn5-a1-m56-cB_7dn5-a1-m56-cE 7dn5-a1-m56-cC_7dn5-a1-m56-cE 7dn5-a1-m56-cD_7dn5-a1-m56-cA 7dn5-a1-m56-cD_7dn5-a1-m56-cB 7dn5-a1-m56-cF_7dn5-a1-m58-cF 7dn5-a1-m56-cF_7dn5-a1-m59-cF 7dn5-a1-m57-cA_7dn5-a1-m57-cC 7dn5-a1-m57-cB_7dn5-a1-m57-cE 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7dn5-a1-m7-cB_7dn5-a1-m7-cE 7dn5-a1-m7-cC_7dn5-a1-m7-cE 7dn5-a1-m7-cD_7dn5-a1-m7-cA 7dn5-a1-m7-cD_7dn5-a1-m7-cB 7dn5-a1-m7-cF_7dn5-a1-m9-cF 7dn5-a1-m8-cA_7dn5-a1-m8-cC 7dn5-a1-m8-cB_7dn5-a1-m8-cE 7dn5-a1-m8-cC_7dn5-a1-m8-cE 7dn5-a1-m8-cD_7dn5-a1-m8-cA 7dn5-a1-m8-cD_7dn5-a1-m8-cB 7dn5-a1-m9-cA_7dn5-a1-m9-cC 7dn5-a1-m9-cB_7dn5-a1-m9-cE 7dn5-a1-m9-cC_7dn5-a1-m9-cE 7dn5-a1-m9-cD_7dn5-a1-m9-cA 7dn5-a1-m9-cD_7dn5-a1-m9-cB 7dnh-a1-m1-cA_7dnh-a1-m1-cC 7dnh-a1-m1-cB_7dnh-a1-m1-cE 7dnh-a1-m1-cC_7dnh-a1-m1-cE 7dnh-a1-m1-cD_7dnh-a1-m1-cA 7dnh-a1-m1-cD_7dnh-a1-m1-cB 7dnk-a1-m1-cA_7dnk-a1-m1-cC 7dnk-a1-m1-cB_7dnk-a1-m1-cE 7dnk-a1-m1-cC_7dnk-a1-m1-cE 7dnk-a1-m1-cD_7dnk-a1-m1-cB 7dnl-a1-m1-cB_7dnl-a1-m1-cE 7dnl-a1-m1-cC_7dnl-a1-m1-cE 7dnl-a1-m1-cD_7dnl-a1-m1-cA 7dnl-a1-m1-cD_7dnl-a1-m1-cB KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKNPTNAKKLLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKESTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKNPTNAKKLLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVASTDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKESTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 6ige-a1-m1-cC_6ige-a1-m1-cB Crystal structure of Human Papillomavirus type 33 pentamer P06416 P06416 2.9 X-RAY DIFFRACTION 10 0.998 10586 (human papillomavirus 33) 10586 (human papillomavirus 33) 412 413 6ige-a1-m1-cB_6ige-a1-m1-cD 6ige-a1-m1-cC_6ige-a1-m1-cE 6ige-a2-m1-cG_6ige-a2-m1-cI 6ige-a2-m1-cH_6ige-a2-m1-cG SKVVSTDEYVSRTSIYYYAGSSRLLAVGHPYFSIKNPTKLLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGISGHPLLNKFDDTETGNKYPGQPGADNRECLSMDYKQTQLCLLGCKPPTGEHWGKGVASNDCPPLELINTIIEDGDMVDTGFGCMDFKTLQANKSDVPIDICGSTCKYPDYLKMTSEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGTTASIQSSAFFPTPSGSMVTSESQLFNKPYWLQRAQGHNNGICWGNQVFVTVVDTTRSTNMTLCTQVTSDSTYKNENFKEYIRHVEEYDLQFVFQLCKVTLTAEVMTYIHAMNPDILEDWQFDPLGKYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL SKVVSTDEYVSRTSIYYYAGSSRLLAVGHPYFSIKNPTKLLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGISGHPLLNKFDDTETGNKYPGQPGADNRECLSMDYKQTQLCLLGCKPPTGEHWGKGVANDCPPLELINTIIEDGDMVDTGFGCMDFKTLQANKSDVPIDICGSTCKYPDYLKMTSEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGTTASIQSSAFFPTPSGSMVTSESQLFNKPYWLQRAQGHNNGICWGNQVFVTVVDTTRSTNMTLCTQVTSDSTYKNENFKEYIRHVEEYDLQFVFQLCKVTLTAEVMTYIHAMNPDILEDWQFGEDPLGKYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL 6ige-a2-m1-cJ_6ige-a2-m1-cI Crystal structure of Human Papillomavirus type 33 pentamer P06416 P06416 2.9 X-RAY DIFFRACTION 260 0.988 10586 (human papillomavirus 33) 10586 (human papillomavirus 33) 412 419 6ige-a1-m1-cB_6ige-a1-m1-cE 6ige-a1-m1-cC_6ige-a1-m1-cD 6ige-a2-m1-cJ_6ige-a2-m1-cG SKVVSTDEYVSRTSIYYYAGSSRLLAVGHPYFSIKNPTNAKKLLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGISGHPLLNKFDDTETGNKYPGQPGADNRECLSMDYKQTQLCLLGCKPPTGEHWGKGVDCPPLELINTIIEDGDMVDTGFGCMDFKTLQANKSDVPIDICGSTCKYPDYLKMTSEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGTTASIQSSAFFPTPSGSMVTSESQLFNKPYWLQRAQGHNNGICWGNQVFVTVVDTTRSTNMTLCTQVTSDSTYKNENFKEYIRHVEEYDLQFVFQLCKVTLTAEVMTYIHAMNPDILEDWQFDPLGKYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL SKVVSTDEYVSRTSIYYYAGSSRLLAVGHPYFSIKNKLLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGISGHPLLNKFDDTETGNKYPGQPGADNRECLSMDYKQTQLCLLGCKPPTGEHWGKGVASTNAAPANDCPPLELINTIIEDGDMVDTGFGCMDFKTLQANKSDVPIDICGSTCKYPDYLKMTSEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGTTASIQSSAFFPTPSGSMVTSESQLFNKPYWLQRAQGHNNGICWGNQVFVTVVDTTRSTNMTLCTQVTSDSTYKNENFKEYIRHVEEYDLQFVFQLCKVTLTAEVMTYIHAMNPDILEDWQFGLTDPLGKYTFWEVDLKEKFSADLDQFPLGRKFLLQAGL 6igg-a1-m1-cA_6igg-a1-m2-cA Crystal structure of FT condition 1 Q9SXZ2 Q9SXZ2 1 X-RAY DIFFRACTION 33 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 170 170 ISHMSINIRDPLIVSRVVGDVLDPFNRSITLKVTYGQREVTNGLDLRPSQVQNKPRVEIGGEDLRNFYTLVMVDPDVPSPSNPHLREYLHWLVTDIPATTGTTFGNEIVSYENPSPTAGIHRVVFILFRQLGRQTVYAPGWRQNFNTREFAEIYNLGLPVAAVFYNSQRE ISHMSINIRDPLIVSRVVGDVLDPFNRSITLKVTYGQREVTNGLDLRPSQVQNKPRVEIGGEDLRNFYTLVMVDPDVPSPSNPHLREYLHWLVTDIPATTGTTFGNEIVSYENPSPTAGIHRVVFILFRQLGRQTVYAPGWRQNFNTREFAEIYNLGLPVAAVFYNSQRE 6igo-a1-m1-cA_6igo-a1-m1-cC Crystal structure of myelin protein zero-like protein 1 (MPZL1) O95297 O95297 2.746 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 122 6igo-a2-m1-cB_6igo-a2-m1-cD 6igo-a3-m1-cE_6igo-a3-m2-cF LEVYTPKEIFVANGTQGKLTCKFKSTSTTGGLTSVSWSFQPEGADTTVSFFHYSQGQVYLGNYPPFKDRISWAGDLDKKDASINIENMQFIHNGTYICDVKNPPDIVVQPGHIRLYVVEK ALEVYTPKEIFVANGTQGKLTCKFKSTSTTGGLTSVSWSFQPEGADTTVSFFHYSQGQVYLGNYPPFKDRISWAGDLDKKDASINIENMQFIHNGTYICDVKNPPDIVVQPGHIRLYVVEKE 6igs-a2-m1-cD_6igs-a2-m1-cC Crystal structure of HPRT from F. tularensis with Zinc Q5NI77 Q5NI77 2.16 X-RAY DIFFRACTION 74 1.0 263 (Francisella tularensis) 263 (Francisella tularensis) 158 163 6igs-a1-m1-cA_6igs-a1-m1-cB TYSAENTEVYITSQQLEQAVTRLAEQINQDYSGQQVTLVCVLKGSFMFFADLVRKLRIDLRTQFITASSKEEYVKDKNIIIIEDIVDTGHTYHKLIEGIGKYNPKTLKFATLLFKPARLERDVKLDYVCFEIEDKFIVGYGLDFDEKYRELPYIGLIK TYSAENTEVYITSQQLEQAVTRLAEQINQDYSGQQVTLVCVLKGSFMFFADLVRKLRIDLRTQFITASSYGTSLKEEYVKDKNIIIIEDIVDTGHTYHKLIEGIGKYNPKTLKFATLLFKPARLERDVKLDYVCFEIEDKFIVGYGLDFDEKYRELPYIGLIK 6igt-a1-m1-cC_6igt-a1-m1-cD MPZL1 mutant - V145G, Q146K, P147T and G148S O95297 O95297 2.404 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 116 LEVYTPKEIFVANGTQGKLTCKFKSTSGGLTSVSWSFQPEGADTTVSFFHYSQGQVYLGNYPPFKDRISWAGDLDKKDASINIENMQFIHNGTYICDVKNPVGKTSHIRLYVVEKE LEVYTPKEIFVANGTQGKLTCKFKSTSGGLTSVSWSFQPEGADTTVSFFHYSQGQVYLGNYPPFKDRISWAGDLDKKDASINIENMQFIHNGTYICDVKNPVGKTSHIRLYVVEKE 6igt-a1-m1-cD_6igt-a1-m1-cA MPZL1 mutant - V145G, Q146K, P147T and G148S O95297 O95297 2.404 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 116 117 6igt-a1-m1-cC_6igt-a1-m1-cB LEVYTPKEIFVANGTQGKLTCKFKSTSGGLTSVSWSFQPEGADTTVSFFHYSQGQVYLGNYPPFKDRISWAGDLDKKDASINIENMQFIHNGTYICDVKNPVGKTSHIRLYVVEKE LEVYTPKEIFVANGTQGKLTCKFKSTSGGLTSVSWSFQPEGADTTVSFFHYSQGQVYLGNYPPFKDRISWAGDLDKKDASINIENMQFIHNGTYICDVKNPPVGKTSHIRLYVVEKE 6igv-a1-m1-cA_6igv-a1-m2-cA Kif5b stalk I coiled-coil Q61768 Q61768 2.999 X-RAY DIFFRACTION 132 1.0 10090 (Mus musculus) 10090 (Mus musculus) 118 118 6ign-a1-m1-cA_6ign-a1-m2-cA VEKLKTQMLDQEELLASTRRDQDNMQAELNRLQAENDASKEEVKEVLQALEELAVNYDQKSQEVEDKTKEYELLSDELNQKSATLASIDAELQKLKEMTNHQKKRAAEMMASLLKDLA VEKLKTQMLDQEELLASTRRDQDNMQAELNRLQAENDASKEEVKEVLQALEELAVNYDQKSQEVEDKTKEYELLSDELNQKSATLASIDAELQKLKEMTNHQKKRAAEMMASLLKDLA 6ihe-a1-m1-cA_6ihe-a1-m2-cB Crystal structure of Malate dehydrogenase from Metallosphaera sedula A0A088E2H7 A0A088E2H7 1.9 X-RAY DIFFRACTION 11 1.0 43687 (Metallosphaera sedula) 43687 (Metallosphaera sedula) 303 303 6ihe-a1-m1-cB_6ihe-a1-m2-cA AKVGFIGAGKIGQTIAYSALVSGAVDEAVIYDIIPELPDKFEHELRHAFATKGIKANVLGTNSLDDVSGMDIVVISAGKPRKPGMSRRDLFVDNAKIMIDLAQKLPSKNPGAIYLMVANPVDMMASVFMKYSKQFTISAGDQVETMRMRSFIAKKLKIPVTSVDGFVGGEHGEDAVVLWSTVKIKGKPVDEFNINKDEVSDYVKKIPGEIIRVIGGTTWGPGTIIADIIKSIAFSENRVMSIATPKEYEKEIIHVSAPTVVGSSIGPSLESLLDEKDRWHLNSAMKDFYEAYKENLKQLEQAT AKVGFIGAGKIGQTIAYSALVSGAVDEAVIYDIIPELPDKFEHELRHAFATKGIKANVLGTNSLDDVSGMDIVVISAGKPRKPGMSRRDLFVDNAKIMIDLAQKLPSKNPGAIYLMVANPVDMMASVFMKYSKQFTISAGDQVETMRMRSFIAKKLKIPVTSVDGFVGGEHGEDAVVLWSTVKIKGKPVDEFNINKDEVSDYVKKIPGEIIRVIGGTTWGPGTIIADIIKSIAFSENRVMSIATPKEYEKEIIHVSAPTVVGSSIGPSLESLLDEKDRWHLNSAMKDFYEAYKENLKQLEQAT 6ihe-a1-m1-cB_6ihe-a1-m2-cB Crystal structure of Malate dehydrogenase from Metallosphaera sedula A0A088E2H7 A0A088E2H7 1.9 X-RAY DIFFRACTION 135 1.0 43687 (Metallosphaera sedula) 43687 (Metallosphaera sedula) 303 303 6ihd-a1-m1-cA_6ihd-a1-m1-cB 6ihd-a1-m2-cA_6ihd-a1-m2-cB 6ihe-a1-m1-cA_6ihe-a1-m2-cA AKVGFIGAGKIGQTIAYSALVSGAVDEAVIYDIIPELPDKFEHELRHAFATKGIKANVLGTNSLDDVSGMDIVVISAGKPRKPGMSRRDLFVDNAKIMIDLAQKLPSKNPGAIYLMVANPVDMMASVFMKYSKQFTISAGDQVETMRMRSFIAKKLKIPVTSVDGFVGGEHGEDAVVLWSTVKIKGKPVDEFNINKDEVSDYVKKIPGEIIRVIGGTTWGPGTIIADIIKSIAFSENRVMSIATPKEYEKEIIHVSAPTVVGSSIGPSLESLLDEKDRWHLNSAMKDFYEAYKENLKQLEQAT AKVGFIGAGKIGQTIAYSALVSGAVDEAVIYDIIPELPDKFEHELRHAFATKGIKANVLGTNSLDDVSGMDIVVISAGKPRKPGMSRRDLFVDNAKIMIDLAQKLPSKNPGAIYLMVANPVDMMASVFMKYSKQFTISAGDQVETMRMRSFIAKKLKIPVTSVDGFVGGEHGEDAVVLWSTVKIKGKPVDEFNINKDEVSDYVKKIPGEIIRVIGGTTWGPGTIIADIIKSIAFSENRVMSIATPKEYEKEIIHVSAPTVVGSSIGPSLESLLDEKDRWHLNSAMKDFYEAYKENLKQLEQAT 6ihe-a1-m2-cA_6ihe-a1-m2-cB Crystal structure of Malate dehydrogenase from Metallosphaera sedula A0A088E2H7 A0A088E2H7 1.9 X-RAY DIFFRACTION 78 1.0 43687 (Metallosphaera sedula) 43687 (Metallosphaera sedula) 303 303 6ihd-a1-m1-cA_6ihd-a1-m2-cA 6ihd-a1-m1-cB_6ihd-a1-m2-cB 6ihe-a1-m1-cA_6ihe-a1-m1-cB AKVGFIGAGKIGQTIAYSALVSGAVDEAVIYDIIPELPDKFEHELRHAFATKGIKANVLGTNSLDDVSGMDIVVISAGKPRKPGMSRRDLFVDNAKIMIDLAQKLPSKNPGAIYLMVANPVDMMASVFMKYSKQFTISAGDQVETMRMRSFIAKKLKIPVTSVDGFVGGEHGEDAVVLWSTVKIKGKPVDEFNINKDEVSDYVKKIPGEIIRVIGGTTWGPGTIIADIIKSIAFSENRVMSIATPKEYEKEIIHVSAPTVVGSSIGPSLESLLDEKDRWHLNSAMKDFYEAYKENLKQLEQAT AKVGFIGAGKIGQTIAYSALVSGAVDEAVIYDIIPELPDKFEHELRHAFATKGIKANVLGTNSLDDVSGMDIVVISAGKPRKPGMSRRDLFVDNAKIMIDLAQKLPSKNPGAIYLMVANPVDMMASVFMKYSKQFTISAGDQVETMRMRSFIAKKLKIPVTSVDGFVGGEHGEDAVVLWSTVKIKGKPVDEFNINKDEVSDYVKKIPGEIIRVIGGTTWGPGTIIADIIKSIAFSENRVMSIATPKEYEKEIIHVSAPTVVGSSIGPSLESLLDEKDRWHLNSAMKDFYEAYKENLKQLEQAT 6iht-a1-m1-cX_6iht-a1-m1-cA Crystal structure of bacterial serine phosphatase bound with phosphorylated peptide Q9RL81 1.569 X-RAY DIFFRACTION 19 1.0 160651 (Peptide display vector fth1) 1280 (Staphylococcus aureus) 2 243 GG HMEAQFFTDTGQHRDKNEDAGGIFYNQTNQQLLVLCDGMGGHKAGEVASKFVTDELKSRFEAENLIEQHQAENWLRNNIKDINFQLYHYAQENAEYKGMGTTCVCALVFEKSVVIANVGDSRAYVINSRQIEQITSDHSFVNHLVLTGQITPEEAFTHPQRNIITKVMGTDKRVSPDLFIKRLNFYDYLLLNSDGLTDYVKDNEIKRLLVKEGTIEDHGDQLMQLALDNHSKDNVTFILAAIE 6ii4-a2-m3-cF_6ii4-a2-m5-cF Crystal structure of H7 hemagglutinin from A/Anhui/1/2013 in complex with a human neutralizing antibody L4A-14 3.3 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 6ii4-a1-m1-cL_6ii4-a1-m2-cL 6ii4-a1-m1-cL_6ii4-a1-m4-cL 6ii4-a1-m2-cL_6ii4-a1-m4-cL 6ii4-a2-m1-cF_6ii4-a2-m3-cF 6ii4-a2-m1-cF_6ii4-a2-m5-cF NFMLTQPHSVSESPGKTVTISCTRSSGSIASNYVQWYQQRPGSSPTTVIYEYNQRPSGVPDRFSGSIDSSSNSASLTISGLKTEDEADYYCQSYDSANRVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP NFMLTQPHSVSESPGKTVTISCTRSSGSIASNYVQWYQQRPGSSPTTVIYEYNQRPSGVPDRFSGSIDSSSNSASLTISGLKTEDEADYYCQSYDSANRVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP 6iih-a1-m1-cB_6iih-a1-m1-cA crystal structure of mitochondrial calcium uptake 2(MICU2) Q8IYU8 Q8IYU8 1.958 X-RAY DIFFRACTION 114 0.998 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 437 446 6agh-a1-m2-cB_6agh-a1-m1-cA MNIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYHMLRKQRFMQFSSLEHEGEYYMTPRDFLFSVMFEQMEKKLTKKDIEDTLSGIQTAGCGSTFFRDLGDKGLISYTEYLFLLTILTKPHSGFHVAFKMLDTDGNEMIEKREFFKNTTLQMRFFGKRGQRKLHYKEFRRFMENLQTEIQEMEFLQFSKGLSFMRKEDFAEWLLFFTNTENKDIYWKNVREKLSAGESISLDEFKSFCHFTTHLEDFAIAMQMFSLAHRPVRLAEFKRAVKVATGQELSNNILDTVFKIFDLDGDECLSHEEFLGVLKNR MNIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYHMLRKQRFMQFSSLEHEGEYYMTPRDFLFSVMFEQMTSVKKLTKKDIEDTLSGIQTAGCGSTFFRDLGDKGLISYTEYLFLLTILTKPHSGFHVAFKMLDTDGNEMIEKREFFKLINTTLQMRFFGKRGQRKLHYKEFRRFMENLQTEIQEMEFLQFSKGLSFMRKEDFAEWLLFFTNTENKDIYWKNVREKLSAGESISLDEFKSFCHFTTHLEDFAIAMQMFSLAHRPVRLAEFKRAVKVATGQELSNNILDTVFKIFDLDGDECLSHEEFLGVLKNRMHRGL 6iik-a1-m1-cB_6iik-a1-m1-cA USP14 catalytic domain with IU1 P54578 P54578 1.97 X-RAY DIFFRACTION 36 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 334 335 2ayo-a2-m1-cA_2ayo-a2-m2-cA 6iil-a1-m1-cB_6iil-a1-m1-cA 6iim-a1-m1-cB_6iim-a1-m1-cA 6iin-a1-m1-cB_6iin-a1-m1-cA ELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALRASGEMASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKKYEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPRRVE ELPCGLTNLGNTCYMNATVQCIRSVPELKDALKRYAGALRASGEMASAQYITAALRDLFDSMDKTSSSIPPIILLQFLHMAFPQFAEKGEQGQYLQQDANECWIQMMRVLQQKLEAIEDKSLIDQFFGVEFETTMKCTESEEEEVTKGKENQLQLSCFINQEVKYLFTGLKLRLQEEITKQSPTLQRNALYIKSSKISRLPAYLTIQMVRFFNAKVLKDVKFPLMLDMYELCTPELQEKMVSFRSKFKDLYEPFSFADDIGSNNCGYYDLQAVLTHQGRSSSSGHYVSWVKRKQDEWIKFDDDKVSIVTPEDILRLSGGGDWHIAYVLLYGPRRV 6iiq-a1-m1-cB_6iiq-a1-m1-cA Complex structure of the HRP3 PWWP domain with a 16-bp TA-rich DNA Q9Y3E1 Q9Y3E1 1.85 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 99 ARPRPREYKAGDLVFAKMKGYPHWPARIDELPEGAVKPPANKYPIFFFGTHETAFLGPKDLFPYKEYKDKFGKSNKRKGFNEGLWEIENNPGVKFTGY MARPRPREYKAGDLVFAKMKGYPHWPARIDELPEGAVKPPANKYPIFFFGTHETAFLGPKDLFPYKEYKDKFGKSNKRKGFNEGLWEIENNPGVKFTGY 6ijb-a1-m1-cA_6ijb-a1-m1-cB Structure of 3-methylmercaptopropionate CoA ligase mutant K523A in complex with AMP and MMPA 2.111 X-RAY DIFFRACTION 207 1.0 644107 (Ruegeria lacuscaerulensis ITI-1157) 644107 (Ruegeria lacuscaerulensis ITI-1157) 533 538 6ihk-a1-m2-cA_6ihk-a1-m1-cB MLGQMMTQPLLISSLIDHAARYHGQTEIVSVETDGTVTRTNWGEIAANARRMGSALTKLGLQPQDRIGTLAWNNRRHLEIYYAASGAGFVCHTINPRLFPEQLVYIINHAQDRVLFFDATFLPLVAAIRDQLTEVKHFVLMGPRNEDALQQIPGLEFYDELIETGDTDFEWPVFDENTASSLCYTHPKGVLYSHRSTVLHSFASNTRDVIGYSAMDVVMPVVPMFHVNAWGSPYGCAMSGAQMVLPGPDLHGEALVNLIDTYGVTLAMGVPTIWQGLLAHAAKCGTKLESLERTVIGGAACPPSMIATFREKYGVDTVHAWGMSEMSPLGTANIPLAKHRKLPIEEQHKLRENQGRPPFGVELKIVDDDGNDLPHDGVTQGDLMVRGHWVLDSYFQLKDQELLQDGWFATGDVATLDPDGYMTIRDRSKDIIKSGGEWISSVELENIAVAHPKLATAAVIGVPHPKWDERPLLVAVKAEGEDPSEAELLEFFDGKIAKWQVPDKVVFVDALPLNATGAVLKRKLRDEFKDALT MLGQMMTQPLLISSLIDHAARYHGQTEIVSVETDGTVTRTNWGEIAANARRMGSALTKLGLQPQDRIGTLAWNNRRHLEIYYAASGAGFVCHTINPRLFPEQLVYIINHAQDRVLFFDATFLPLVAAIRDQLTEVKHFVLMGPRNEDALQQIPGLEFYDELIETGDTDFEWPVFDENTASSLCYTSGTTGHPKGVLYSHRSTVLHSFASNTRDVIGYSAMDVVMPVVPMFHVNAWGSPYGCAMSGAQMVLPGPDLHGEALVNLIDTYGVTLAMGVPTIWQGLLAHAAKCGTKLESLERTVIGGAACPPSMIATFREKYGVDTVHAWGMSEMSPLGTANIPLAKHRKLPIEEQHKLRENQGRPPFGVELKIVDDDGNDLPHDGVTQGDLMVRGHWVLDSYFQLKDQELLQDGWFATGDVATLDPDGYMTIRDRSKDIIKSGGEWISSVELENIAVAHPKLATAAVIGVPHPKWDERPLLVAVKAEGEDPSEAELLEFFDGKIAKWQVPDKVVFVDALPLNATGAVLKRKLRDEFKDALT 6ijc-a1-m1-cA_6ijc-a1-m1-cB Structure of MMPA-CoA dehydrogenase from Roseovarius nubinhibens ISM A3SI50 A3SI50 2.3 X-RAY DIFFRACTION 157 1.0 89187 (Roseovarius nubinhibens ISM) 89187 (Roseovarius nubinhibens ISM) 560 562 TRYTAPTQDIQYLLHDVLDVANDPTPGYAELEPDFTSAVLEEAGKIAGEVLHPLNAVGDQEGCVLENGVVRPPKGFKEAFDQVREGGWTALDLPEQYGGQNMPYLLGTAVGEMFSGANQAFTMYQGLTHGAASAILVHGTDQQKDTYLPKMFSCDWTGTMNLTEPHCGTDLGLMRSKAVPQDDGSYAISGQKIFISAGEHDMAENIIHLVLAKIPGGPEGIKGVSLFIVPKFLVKEDGSLGERNGVKCSKIEEKMGIHGNSTCVMDYDGAKGWLLGEEHKGMRAMFTMMNEARIGVGMQGLAQAEVAYQNALDYARDVHPDIRRNLLDQKSFIEGARAFLLWGAQMIDRAERGKDEAAHGMVSLLTPVIKGFLTDEGYDMTVQAQQVYGGHGYIEETGMSQFTRDARIAMIYEGANGVQALDLVGRKLAQDGGKHVMAFFDLVKGFIKEAGTDGAMAEFTEPLKSASKDLQSAGMFFMQNGMKNPNAALAGSYDFMHLFGHVCLGLMWGRMAEASLKALAEGRGDANFHETKLATARFYMTRRLPATKLHLARIESGADP TRYTAPTQDIQYLLHDVLDVANDPTPGYAELEPDFTSAVLEEAGKIAGEVLHPLNAVGDQEGCVLENGVVRPPKGFKEAFDQVREGGWTALDLPEQYGGQNMPYLLGTAVGEMFSGANQAFTMYQGLTHGAASAILVHGTDQQKDTYLPKMFSCDWTGTMNLTEPHCGTDLGLMRSKAVPQDDGSYAISGQKIFISAGEHDMAENIIHLVLAKIPGGPEGIKGVSLFIVPKFLVKEDGSLGERNGVKCSKIEEKMGIHGNSTCVMDYDGAKGWLLGEEHKGMRAMFTMMNEARIGVGMQGLAQAEVAYQNALDYARDVHPDIRRNLLDQKSFIEGARAFLLWGAQMIDRAERGKDEAAHGMVSLLTPVIKGFLTDEGYDMTVQAQQVYGGHGYIEETGMSQFTRDARIAMIYEGANGVQALDLVGRKLAQDGGKHVMAFFDLVKGFIKEAGTDGAMAEFTEPLKSASKDLQSAGMFFMQNGMKNPNAALAGSYDFMHLFGHVCLGLMWGRMAEASLKALAEGRGDANFHETKLATARFYMTRRLPATKLHLARIESGADPVM 6ije-a1-m1-cA_6ije-a1-m1-cB Crystal structure of the type VI amidase immunity (Tai4) from Agrobacterium tumefaciens A0A083ZID3 A0A083ZID3 1.55 X-RAY DIFFRACTION 108 0.99 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 100 100 6ijf-a1-m1-cB_6ijf-a1-m1-cA ERTWIFSGAELKQAIEGKLAPDVSDPEMRRLVSVAKSSAYIAGVADLTSGSDWCGAGAVAPHELTDRIYTYLGDMPAEKLDEQAATLVREALKVSFPCEQ AERTWIFSGAELKQAIEGKLAPDVSDPEMRRLVSVAKSSAYIAGVADLTSGSDWCGAGAVAPHELTDRIYTYLGDMPAEKLDEQAATLVREALKVSFPCE 6ijk-a2-m3-cB_6ijk-a2-m5-cB Enoyl-CoA hydratase/isomerase family protein from Cupriavidus necator H16 Q0K371 Q0K371 2 X-RAY DIFFRACTION 163 1.0 381666 (Cupriavidus necator H16) 381666 (Cupriavidus necator H16) 269 269 6ijk-a1-m1-cA_6ijk-a1-m2-cA 6ijk-a1-m1-cA_6ijk-a1-m4-cA 6ijk-a1-m2-cA_6ijk-a1-m4-cA 6ijk-a2-m1-cB_6ijk-a2-m3-cB 6ijk-a2-m1-cB_6ijk-a2-m5-cB SFETLRYAVADGVATITLHRPDQLNAFTAQMMHELIAAFDATDADDNVRAVIVTGSGRAFCAGADLSAHRDGGGRVSLRIFRSLKPVIAAVNGAAVGVGVTMQLPMDIRLASTDAKFGFVFARRGITPEAASSWFLSRVVGISTALEWCYTGRVFSAQEAHERGLVRSLHAPEDLLPAAQAIAREIAANAAPVSVAISRQLIWRMAGASHPMEAHKLDSRAIQSRGRSADVKEGVSAFLEKRPAAFPETVSHDMPDFFDWTSEPPFILE SFETLRYAVADGVATITLHRPDQLNAFTAQMMHELIAAFDATDADDNVRAVIVTGSGRAFCAGADLSAHRDGGGRVSLRIFRSLKPVIAAVNGAAVGVGVTMQLPMDIRLASTDAKFGFVFARRGITPEAASSWFLSRVVGISTALEWCYTGRVFSAQEAHERGLVRSLHAPEDLLPAAQAIAREIAANAAPVSVAISRQLIWRMAGASHPMEAHKLDSRAIQSRGRSADVKEGVSAFLEKRPAAFPETVSHDMPDFFDWTSEPPFILE 6ijz-a1-m1-cA_6ijz-a1-m1-cB Structure of a plant cation channel Q5XEZ5 Q5XEZ5 3.68 ELECTRON MICROSCOPY 72 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 683 683 TLQDIGVSAGINILSAFVFFIIFAVLRLQPFNDRVYFSKWYLKGLRMKFLNWMPEALKMPEPELIDHAGLDSVVYLRIYWLGLKIFTPIAVLAWAVLVPVNWTNNTLEMAKQLRNVTSSDIDKLSVSNIPEYSMRFWTHIVMAYAFTIWTCYVLMKEYETIANMRLQFVASEARRPDQFTVLVRNVPPDADESVSELVEHFFLVNHPDHYLTHQVVCNANKLADLVKKKKKLQNWLDYYQLKYARNNSQRIMVVDAIEHYIAEIDKISKEISKEREEVVNDPKAIMPAAFVSFKTRWAAAVCAQTQQTRNPTQWLTEWAPEPRDVFWSNLAIPYVSLTVRRLIMHVAFFFLTFFFIVPIAFVQSLATIEGIVKAAPFLKFIVDDKFMKSVIQGFLPGIALKLFLAFLPSILMIMSKFEGFTSISSLERRAAFRYYIFNLVNVFLASVIAGAAFEQLNSFLNQSANQIPKTIGVAIPMKATFFITYIMVDGWAGVAGEILMLKPLIMFHLKNAFLVKTDKDREEAMDPGSIGFNTGEPRIQLYFLLGLVYAPVTPMLLPFILVFFALAYIVYRHQIINVYNQEYESAAAFWPDVHGRVIAALVISQLLLMGLLGTKHAALAAPFLIALPVLTIGFHHFCKGRYEPAFIRYPLQEAMMKDTLETAREPNLNLKGYLQNAYVHPVF TLQDIGVSAGINILSAFVFFIIFAVLRLQPFNDRVYFSKWYLKGLRMKFLNWMPEALKMPEPELIDHAGLDSVVYLRIYWLGLKIFTPIAVLAWAVLVPVNWTNNTLEMAKQLRNVTSSDIDKLSVSNIPEYSMRFWTHIVMAYAFTIWTCYVLMKEYETIANMRLQFVASEARRPDQFTVLVRNVPPDADESVSELVEHFFLVNHPDHYLTHQVVCNANKLADLVKKKKKLQNWLDYYQLKYARNNSQRIMVVDAIEHYIAEIDKISKEISKEREEVVNDPKAIMPAAFVSFKTRWAAAVCAQTQQTRNPTQWLTEWAPEPRDVFWSNLAIPYVSLTVRRLIMHVAFFFLTFFFIVPIAFVQSLATIEGIVKAAPFLKFIVDDKFMKSVIQGFLPGIALKLFLAFLPSILMIMSKFEGFTSISSLERRAAFRYYIFNLVNVFLASVIAGAAFEQLNSFLNQSANQIPKTIGVAIPMKATFFITYIMVDGWAGVAGEILMLKPLIMFHLKNAFLVKTDKDREEAMDPGSIGFNTGEPRIQLYFLLGLVYAPVTPMLLPFILVFFALAYIVYRHQIINVYNQEYESAAAFWPDVHGRVIAALVISQLLLMGLLGTKHAALAAPFLIALPVLTIGFHHFCKGRYEPAFIRYPLQEAMMKDTLETAREPNLNLKGYLQNAYVHPVF 6ikj-a1-m1-cB_6ikj-a1-m1-cA Crystal structure of YfiB(F48S) Q9I4L6 Q9I4L6 1.76 X-RAY DIFFRACTION 24 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 134 135 GLSAEQIAVLQEQGSELRDEGWEFGMSSKVLFGNNLDRLNPDSRNTLTKIARALLAVDIDKVRLEGHTDNYGDEGYNQKLSERRAESVAAVFREAGMPAANIEVRGLGMSKPVADNKTRAGRSENRRVAIIVPA GLSAEQIAVLQEQGSELRDEGWEFGMSSKVLFGNNLDRLNPDSRNTLTKIARALLAVDIDKVRLEGHTDNYGDEGYNQKLSERRAESVAAVFREAGMPAANIEVRGLGMSKPVADNKTRAGRSENRRVAIIVPAE 6ikn-a2-m1-cC_6ikn-a2-m1-cD Crystal structure of the GAS7 F-BAR domain Q60780 Q60780 3 X-RAY DIFFRACTION 230 1.0 10090 (Mus musculus) 10090 (Mus musculus) 293 293 6ikn-a1-m1-cB_6ikn-a1-m1-cA 6iko-a1-m1-cA_6iko-a1-m1-cB NTITINCVTFPHPDTPEQQLLKPTEWSYCDYFWADKKDPQGNGTVAGFELLLQKQLKGKQQKESEFIRERIKIEEEYAKNLAKLSQNSLAAQEEGSLGEAWAQVKKSLADEAEVHLKFSAKLHSEVEKPLNFRENFKKDKKCDHHIADLRKQLASRYASVEKARKALTERQKDLEKTQQLEIKLSNKTEEDIKKARRKSTQAGDDLRCVDLYNQAQSKWFEEVTTTLELERLEVERVEIRQHLCQYTQLRHETDFNQSTVEPVDQLLRKVDPAKDRELWVREHKTGNIRPVDE NTITINCVTFPHPDTPEQQLLKPTEWSYCDYFWADKKDPQGNGTVAGFELLLQKQLKGKQQKESEFIRERIKIEEEYAKNLAKLSQNSLAAQEEGSLGEAWAQVKKSLADEAEVHLKFSAKLHSEVEKPLNFRENFKKDKKCDHHIADLRKQLASRYASVEKARKALTERQKDLEKTQQLEIKLSNKTEEDIKKARRKSTQAGDDLRCVDLYNQAQSKWFEEVTTTLELERLEVERVEIRQHLCQYTQLRHETDFNQSTVEPVDQLLRKVDPAKDRELWVREHKTGNIRPVDE 6ils-a1-m1-cA_6ils-a1-m1-cB Structure of Arabidopsis thaliana Ribokinase complexed with Ribose and ATP A1A6H3 A1A6H3 1.8 X-RAY DIFFRACTION 123 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 312 313 6ilr-a1-m1-cA_6ilr-a1-m1-cB 6ilt-a1-m1-cA_6ilt-a1-m1-cB MAPPLVVVGSANADIYVEIERLPKEGETISAKTGQTLAGGKGANQAACGAKLMYPTYFVGRLGEDAHGKLIAEALGDDGCGVHLDYVRSVNNEPTGHAVVMLQSDGQNSIIIVGGANMKAWPEIMSDDDLEIVRNAGIVLLQREIPDSINIQVAKAVKKAGVPVILDVGGMDTPIPNELLDSIDILSPNETELSRLTGMPTETFEQISQAVAKCHKLGVKQVLVKLGSKGSALFIQGEKPIQQSIIPAAQVVDTTGAGDTFTAAFAVAMVEGKSHEECLRFAAAAASLCVQVKGAIPSMPDRKSVLKLLKFS MAPPLVVVGSANADIYVEIERLPKEGETISAKTGQTLAGGKGANQAACGAKLMYPTYFVGRLGEDAHGKLIAEALGDDGCGVHLDYVRSVNNEPTGHAVVMLQSDGQNSIIIVGGANMKAWPEIMSDDDLEIVRNAGIVLLQREIPDSINIQVAKAVKKAGVPVILDVGGMDTPIPNELLDSIDILSPNETELSRLTGMPTETFEQISQAVAKCHKLGVKQVLVKLGSKGSALFIQGEKPIQQSIIPAAQVVDTTGAGDTFTAAFAVAMVEGKSHEECLRFAAAAASLCVQVKGAIPSMPDRKSVLKLLKFSI 6im3-a3-m1-cE_6im3-a3-m3-cD Crystal structure of a highly thermostable carbonic anhydrase from Persephonella marina EX-H1 C0QRB5 C0QRB5 2 X-RAY DIFFRACTION 77 1.0 123214 (Persephonella marina EX-H1) 123214 (Persephonella marina EX-H1) 222 222 6im1-a1-m1-cA_6im1-a1-m1-cB 6im1-a2-m1-cF_6im1-a2-m2-cC 6im1-a3-m1-cE_6im1-a3-m3-cD 6im3-a1-m1-cA_6im3-a1-m1-cB 6im3-a2-m1-cF_6im3-a2-m2-cC GWSYHGEHGPEHWGDLKDEYIMCKIGKNQSPVDINRIVDAKLKPIKIEYRAGATKVLNNGHTIKVSYEPGSYIVVDGIKFELKQFHFHAPSEHKLKGQHYPFEAHFVHADKHGNLAVIGVFFKEGRENPILEKIWKVMPENAGEEVKLAHKINAEDLLPKDRDYYRYSGSLTTPPCSEGVRWIVMEEEMEMSKEQIEKFRKIMGGDTNRPVQPLNARMIMEK GWSYHGEHGPEHWGDLKDEYIMCKIGKNQSPVDINRIVDAKLKPIKIEYRAGATKVLNNGHTIKVSYEPGSYIVVDGIKFELKQFHFHAPSEHKLKGQHYPFEAHFVHADKHGNLAVIGVFFKEGRENPILEKIWKVMPENAGEEVKLAHKINAEDLLPKDRDYYRYSGSLTTPPCSEGVRWIVMEEEMEMSKEQIEKFRKIMGGDTNRPVQPLNARMIMEK 6imj-a1-m1-cB_6imj-a1-m1-cA The crystal structure of Se-AsfvLIG:DNA complex P35970 P35970 2.554 X-RAY DIFFRACTION 22 0.998 10497 (African swine fever virus) 10497 (African swine fever virus) 405 406 LNQFPGQYSNNIFCFPPIESETKSGKKASWIICVQVVQHNTIIPITDEFSTDVKDAVAEIFTKFFVEEGAVRISKTRVTEGKNLGKKNATTVVHQAFKDALSKYNRHARQKRRGIPPLVKYFNIIPKTFFEEETDPIVQRKRNGVRAVACQQGDGCILLYSRTEKEFLGLDNIKKELKQLYLFIDVRVYLDGELYLHRKPLQWIAGQANAKSSELHFYVFDCFWSDQLQPSNKRQQLLTNIFKQKEDLTFIHQVENFSVKNVDEALRLKAQFIKEGYEGAIVRNANGPYEPGYNNYHSAHLAKLKPLLDAEFILVDYTQGKKGKDLGAILWVCELPNKKRFVVTPKHLTYADRYALFQKLTPALFKKHLYGKELTVEYAELSPTGIPLQARAVGFREPINVLEII LNQFPGQYSNNIFCFPPIESETKSGKKASWIICVQVVQHNTIIPITDEFSTDVKDAVAEIFTKFFVEEGAVRISKTRVTEGKNLGKKNATTVVHQAFKDALSKYNRHARQKRRGIPPLVKYFNIIPKTFFEEETDPIVQRKRNGVRAVACQQGDGCILLYSRTEKEFLGLDNIKKELKQLYLFIDVRVYLDGELYLHRKPLQWIAGQANAKTDSSELHFYVFDCFWSDQLQPSNKRQQLLTNIFKQKEDLTFIHQVENFSVKNVDEALRLKAQFIKEGYEGAIVRNANGPYEPGYNNYHSAHLAKLKPLLDAEFILVDYTQGKKGKDLGAILWVCELPNKKRFVVTPKHLTYADRYALFQKLTPALFKKHLYGKELTVEYAELSPGIPLQARAVGFREPINVLEII 6imq-a2-m1-cC_6imq-a2-m1-cD Crystal structure of PML B1-box multimers P29590 P29590 2.06 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 49 49 6imq-a1-m1-cA_6imq-a1-m1-cB SRQIVDAQAVCTRCKESADFWCFECEQLLCAKCFEAHQWFLKHEARPLA SRQIVDAQAVCTRCKESADFWCFECEQLLCAKCFEAHQWFLKHEARPLA 6inc-a1-m1-cA_6inc-a1-m2-cA Crystal structure of an acetolactate decarboxylase from Klebsiella pneumoniae W9BHF3 W9BHF3 1.604 X-RAY DIFFRACTION 64 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 218 218 5yho-a1-m1-cB_5yho-a1-m1-cA 6inb-a1-m1-cA_6inb-a1-m2-cA 6j92-a1-m1-cB_6j92-a1-m1-cA SVLYQTSLMSALLSGVYEGSTTIADLLKHGDFGLGTFNELDGELIAFSSQVYQLRADGSARNAQPEQKTPFAVMTWFQPQYRKTFDHPVSRQQLHEVIDQQIPSDNLFCALRIDGHFRHAHTRTVPRQTPPYRAMTDVLDDQPVFRFNQREGVLVGFRTPQHMQGINVAGYHEHFITDDRKGGGHLLDYQLDHGVLTFGEIHKLMIDLPADSAFLQAN SVLYQTSLMSALLSGVYEGSTTIADLLKHGDFGLGTFNELDGELIAFSSQVYQLRADGSARNAQPEQKTPFAVMTWFQPQYRKTFDHPVSRQQLHEVIDQQIPSDNLFCALRIDGHFRHAHTRTVPRQTPPYRAMTDVLDDQPVFRFNQREGVLVGFRTPQHMQGINVAGYHEHFITDDRKGGGHLLDYQLDHGVLTFGEIHKLMIDLPADSAFLQAN 6inx-a1-m1-cA_6inx-a1-m2-cA Structural insights into a novel glycoside hydrolase family 18 N-acetylglucosaminidase from Paenibacillus barengoltzii A0A482G4C5 A0A482G4C5 1.429 X-RAY DIFFRACTION 87 1.0 343517 (Paenibacillus barengoltzii) 343517 (Paenibacillus barengoltzii) 339 339 NYVVAGYVSDRHLPELTKEELKKLTHINIAFGHVREDRIQTGHLQNLKLLPELKRENPDLTILLSVGGWSAGGFSEAASTEAGRQAMAESAVRAVTEYALDGVDLDWEYPCYAEAGIAASPDDKANFTLLLRTMREALDRQGERDGRHYWLTIAAGADQYYIDGTEMAEVQRYLDFVQLMTYDMRGGFQTLTGHHTNLYTGTGDLFRISVDASVNLFVRAGVPKEKIVIGAAFYSRMWKDVPNVNRGLYQMSPGSGGYGPDFTELAAEYIDRNGFVRYWDEEAKAPYLFDGQTFISYDDEMSIRYKCDYVKAQELAGVMFWEYGCDRTHRLLDALYQGL NYVVAGYVSDRHLPELTKEELKKLTHINIAFGHVREDRIQTGHLQNLKLLPELKRENPDLTILLSVGGWSAGGFSEAASTEAGRQAMAESAVRAVTEYALDGVDLDWEYPCYAEAGIAASPDDKANFTLLLRTMREALDRQGERDGRHYWLTIAAGADQYYIDGTEMAEVQRYLDFVQLMTYDMRGGFQTLTGHHTNLYTGTGDLFRISVDASVNLFVRAGVPKEKIVIGAAFYSRMWKDVPNVNRGLYQMSPGSGGYGPDFTELAAEYIDRNGFVRYWDEEAKAPYLFDGQTFISYDDEMSIRYKCDYVKAQELAGVMFWEYGCDRTHRLLDALYQGL 6io1-a1-m1-cA_6io1-a1-m1-cB Crystal structure of a novel thermostable (S)-enantioselective omega-transaminase from Thermomicrobium roseum B9L0K9 B9L0K9 1.803 X-RAY DIFFRACTION 438 0.998 309801 (Thermomicrobium roseum DSM 5159) 309801 (Thermomicrobium roseum DSM 5159) 447 448 VETWNAAELVAKDIAHHLHPLTNLYQLRREGPLVLVRGEGVWVWDAEGKRYLDGFAGLWNVNIGHGRRELAEAAREQMERVAFVPTFFGLASPPTIELAARLAELFPGPLDHFQFTSGGAESNETAIKIARYYWWLKGQPERVKILSRRMAYHGIAALSATGVPAYWEGFGPRPPGFIHLTAPYKYRFGEGLTDEEFVARLVQELEETIEREGSETIAAFIGEPVQGAGGVVVPPDGYWPAIAAVLRKYGILLILDEVITGFGRTGTLFGMQQYGVQPDIVTFAKGITSGYVPLGGVGVSDEIAETLASADRVFMHGFTYSGHPVACAVALRNLDILLAERLWENAAASGAYLLQELKRLEERPYVGEVRGKGLMLLVEVVRDKASKEKFPPEFKLGPKLEAATRRRGIIVRCTPDGIVMAPPLTISRAECDVLIEGVAAALSDVLD ETWNAAELVAKDIAHHLHPLTNLYQLRREGPLVLVRGEGVWVWDAEGKRYLDGFAGLWNVNIGHGRRELAEAAREQMERVAFVPTFFGLASPPTIELAARLAELFPGPLDHFQFTSGGAESNETAIKIARYYWWLKGQPERVKILSRRMAYHGIAMGALSATGVPAYWEGFGPRPPGFIHLTAPYKYRFGEGLTDEEFVARLVQELEETIEREGSETIAAFIGEPVQGAGGVVVPPDGYWPAIAAVLRKYGILLILDEVITGFGRTGTLFGMQQYGVQPDIVTFAKGITSGYVPLGGVGVSDEIAETLASADRVFMHGFTYSGHPVACAVALRNLDILLAERLWENAAASGAYLLQELKRLEERPYVGEVRGKGLMLLVEVVRDKASKEKFPPEFKLGPKLEAATRRRGIIVRCTPDGIVMAPPLTISRAECDVLIEGVAAALSDVLD 6iog-a1-m1-cA_6iog-a1-m1-cB Crystal structure of Homoserine O-acetyltransferase from Mycobacterium smegmatis ATCC 19420 A0QSZ0 A0QSZ0 1.55 X-RAY DIFFRACTION 149 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 366 374 6ioh-a1-m1-cB_6ioh-a1-m1-cA 6ioi-a1-m1-cA_6ioi-a1-m1-cB ATVPLPAEGEIGLVHIGALTLENGTVLPDVTIAVQRWGELAPDRGNVVMVLHALTGDSHVTGPAGDGHPTAGWWDGVAGPGAPIDTDHWCAIATNVLGGCRGSTGPGSLAPDGKPWGSRFPQITIRDQVAADRAALAALGITEVAAVVGGSMGGARALEWLVTHPDDVRAGLVLAVGARATADQIGTQSTQVAAIKADPDWQGGDYHGTGRAPTEGMEIARRFAHLTYRGEEELDDRFANTPQDDEDPLTGGRYAVQSYLEYQGGKLARRFDPGTYVVLSDALSSHDVGRGRGGVEAALRSCPVPVVVGGITSDRLYPIRLQQELAELLPGCQGLDVVDSIYGHDGFLVETELVGKLIRRTLELAQ ATVPLPAEGEIGLVHIGALTLENGTVLPDVTIAVQRWGELAPDRGNVVMVLHALTGDSHVTGPAGDGHPTAGWWDGVAGPGAPIDTDHWCAIATNVLGGCRGSTGPGSLAPDGKPWGSRFPQITIRDQVAADRAALAALGITEVAAVVGGSMGGARALEWLVTHPDDVRAGLVLAVGARATADQIGTQSTQVAAIKADPDWQGGDYHGTGRAPTEGMEIARRFAHLTYRGEEELDDRFANTPQDDEDPLTGGRYAVQSYLEYQGGKLARRFDPGTYVVLSDALSSHDVGRGRGGVEAALRSCPVPVVVGGITSDRLYPIRLQQELAELLPGCQGLDVVDSIYGHDGFLVETELVGKLIRRTLELAQRLEHHHHH 6ior-a1-m1-cA_6ior-a1-m1-cB The ligand binding domain of Mlp24 with asparagine Q9KQ43 Q9KQ43 2.5 X-RAY DIFFRACTION 51 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 241 241 6iop-a1-m1-cB_6iop-a1-m1-cA 6ioq-a1-m1-cA_6ioq-a1-m2-cA 6ior-a2-m1-cC_6ior-a2-m1-cD 6ios-a1-m1-cA_6ios-a1-m2-cA 6iot-a1-m1-cA_6iot-a1-m1-cD 6iot-a2-m1-cB_6iot-a2-m1-cC 6iou-a1-m1-cA_6iou-a1-m2-cB GSVREEIESLVQDSLMEMVKGVKNTIESDLASKKGLAQSTTEILQLDPTNKAFAKSVLESPNLKGSFLAIGLGYESDATVVENDDGWEPNADYDPRKRPWYVDAKRERKLVVTEPYVDISTKKIIISIGTPVYQQSNFVGAMFYDVELTQLAQLVNSVNLFDAGYLFITTKDGVTIAHPNAENNGEKFSQFLPNVDLKEGTQRIELDGKYYLVKFAQVPSESWYIGAVVDESIAFAMVDDL GSVREEIESLVQDSLMEMVKGVKNTIESDLASKKGLAQSTTEILQLDPTNKAFAKSVLESPNLKGSFLAIGLGYESDATVVENDDGWEPNADYDPRKRPWYVDAKRERKLVVTEPYVDISTKKIIISIGTPVYQQSNFVGAMFYDVELTQLAQLVNSVNLFDAGYLFITTKDGVTIAHPNAENNGEKFSQFLPNVDLKEGTQRIELDGKYYLVKFAQVPSESWYIGAVVDESIAFAMVDDL 6iow-a1-m1-cA_6iow-a1-m1-cB Crystal structure of Porphyromonas gingivalis phosphotransacetylase B2RK03 B2RK03 1.7 X-RAY DIFFRACTION 136 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 339 340 6iox-a1-m1-cB_6iox-a1-m1-cA GPLGSDLIQDVIRRAQENKQRIVLPEGLEPRTLEAADRLMADKVVNIILIGNVDSVKAKVAELGLKNLDEAVIIDPNNHPKKQQYTDLLLQIRQKKGLTPEKAAELVENPLYLGCLIVKSGDADGLIAGAQNTTGDVLRPALQVIKTAPGMTSVSGTFLLFTKAKEYGKDGLLLVADCAVIPNPTADELAQIAVATARTAKAIADIEPRVAMLSFSTKGSAKHEMTDKVVEATRMAQEMAPDLLIDGEMQADAALVERVAALKAPGSNVAGKANVLVFPTLEVGNIAYKLVERLGHAEAVGPILQGMAAPVNDLSRGCSVEDIYRMVAITANQAIAAKE GPLGSDLIQDVIRRAQENKQRIVLPEGLEPRTLEAADRLMADKVVNIILIGNVDSVKAKVAELGLKNLDEAVIIDPNNHPKKQQYTDLLLQIRQKKGLTPEKAAELVENPLYLGCLIVKSGDADGLIAGAQNTTGDVLRPALQVIKTAPGMTSVSGTFLLFTKAKEYGKDGLLLVADCAVIPNPTADELAQIAVATARTAKAIADIEPRVAMLSFSTKGSAKHEMTDKVVEATRMAQEMAPDLLIDGEMQADAALVERVAALKAPGSNVAGKANVLVFPTLEVGNIAYKLVERLGHAEAVGPILQGMAAPVNDLSRGCSVEDIYRMVAITANQAIAAKEQ 6ioy-a2-m1-cC_6ioy-a2-m1-cD Crystal structure of Porphyromonas gingivalis acetate kinase B2RK02 B2RK02 1.94 X-RAY DIFFRACTION 250 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 398 398 6ioy-a1-m1-cA_6ioy-a1-m1-cB ASKVLVLNCGSSSVKYKLLEMPKGDVLAQGGVEKLGLPGSFLKLTMPNGEKVVLEKDMPEHTIAVEFILSVLKDDKYGCIKSYEEIDAVGHRLVHGGEKFSNSVEITPEVIAKVEECIPLAPLHNPANLKGVVAIEKLLPGIRQVGVFDTAFFQTMPEHVYRYALPYDMCNKHGVRRYGFHGTSHRYVSARACEILGLDYDKTRIITAHIGNGASIAAIKNGKALDVSLGMTPVEGLMMGTRSGDVDPGVLTFLMEAEGLQAAGISELINKKSGVLGVSGVSSDLREIEDAIKNGNERATLAMTMYDYRIKKYVGAYAAAMGGVDVLVFTGGVGENQYTTREKVCTDMEFMGIVFDSKVNEGMRGKEMVISKPESKVTVIVVPTDEEYMIASDTMTIL ASKVLVLNCGSSSVKYKLLEMPKGDVLAQGGVEKLGLPGSFLKLTMPNGEKVVLEKDMPEHTIAVEFILSVLKDDKYGCIKSYEEIDAVGHRLVHGGEKFSNSVEITPEVIAKVEECIPLAPLHNPANLKGVVAIEKLLPGIRQVGVFDTAFFQTMPEHVYRYALPYDMCNKHGVRRYGFHGTSHRYVSARACEILGLDYDKTRIITAHIGNGASIAAIKNGKALDVSLGMTPVEGLMMGTRSGDVDPGVLTFLMEAEGLQAAGISELINKKSGVLGVSGVSSDLREIEDAIKNGNERATLAMTMYDYRIKKYVGAYAAAMGGVDVLVFTGGVGENQYTTREKVCTDMEFMGIVFDSKVNEGMRGKEMVISKPESKVTVIVVPTDEEYMIASDTMTIL 6ipw-a2-m1-cC_6ipw-a2-m1-cD Crystal structure of CqsB2 from Streptomyces exfoliatus in complex with the product, 1-(2-hydroxypropyl)-2-methyl-carbazole-3,4-dione A0A5A4PV77 A0A5A4PV77 2.1 X-RAY DIFFRACTION 266 1.0 1905 (Streptomyces exfoliatus) 1905 (Streptomyces exfoliatus) 221 221 6ipv-a1-m1-cA_6ipv-a1-m1-cB 6ipv-a2-m1-cC_6ipv-a2-m1-cD 6ipw-a1-m1-cA_6ipw-a1-m1-cB SQRVPDESGLAQNYVLDRSDLQGLDLVWNENTGMDDMMKLMESKTKETYDHGEIFGQYCSLAEHINVPYDIVFEYAANARSLEEWTYSIRNMKHLGGGLYRADEMIQPNTDIYIRAEAQKGPEHGLVVYPCAWDQGHELWMRYYMTIIDSSKVLDKPGTVVLWTNCKHPYYDRSTENVPDYIAEGRARTDRVWVGDIWPVFHAGHSIEMGNLKRILEHRFG SQRVPDESGLAQNYVLDRSDLQGLDLVWNENTGMDDMMKLMESKTKETYDHGEIFGQYCSLAEHINVPYDIVFEYAANARSLEEWTYSIRNMKHLGGGLYRADEMIQPNTDIYIRAEAQKGPEHGLVVYPCAWDQGHELWMRYYMTIIDSSKVLDKPGTVVLWTNCKHPYYDRSTENVPDYIAEGRARTDRVWVGDIWPVFHAGHSIEMGNLKRILEHRFG 6iq1-a2-m1-cC_6iq1-a2-m1-cB Crystal structure of histidine triad nucleotide-binding protein from Candida albicans Q59WG0 Q59WG0 2.485 X-RAY DIFFRACTION 244 0.993 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 144 145 6iq1-a1-m1-cA_6iq1-a1-m1-cD SCIFCKIIKGEIPSFKLIETAKTYSFLDIQPIAEAHVLIIPKHHGAKLHNIPDDYLSDILPVVKKLTKVLKLDENNTPEGEGYNVLQNNGRIAHQVVDHVHFHLIPKKDEATGLGVGWPAEATDFDKLGKLHEKLKEELAKVDE HASCIFCKIIKGEIPSFKLIETAKTYSFLDIQPIAEAHVLIIPKHHGAKLHNIPDDYLSDILPVVKKLTKVLKLDENNTPEGEGYNVLQNNGRIAHQVVDHVHFHLIPKKDEATGLGVGWPAEATDFDKLGKLHEKLKEELAKVD 6iqe-a1-m1-cA_6iqe-a1-m2-cA Human prohibitin 2 Q99623 Q99623 1.701 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 59 GSFSREYTAAVEAKQVAQQEAQRAQFLVEKAKQEQRQKIVQAEGEAEAAKMLGEALSKN GSFSREYTAAVEAKQVAQQEAQRAQFLVEKAKQEQRQKIVQAEGEAEAAKMLGEALSKN 6iqs-a1-m1-cA_6iqs-a1-m1-cB Crystal structure of Prc with L245A and L340G mutations in complex with NlpI P0AFB1 P0AFB1 2.69 X-RAY DIFFRACTION 78 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 256 259 1xnf-a1-m1-cA_1xnf-a1-m1-cB 6iqq-a1-m1-cA_6iqq-a1-m1-cB 6iqu-a1-m1-cA_6iqu-a1-m2-cA SEVLAVPLQPTLQQEVILARMEQILASRALTDDERAQLLYERGVLYDSLGLRALARNDFSQALAIRPDMPEVFNYLGIYLTQAGNFDAAYEAFDSVLELDPTYNYAHLNRGIALYYGGRDKLAQDDLLAFYQDDPNDPFRSLWLYLAEQKLDEKQAKEVLKQHFEKSDKEQWGWNIVEFYLGNISEQTLMERLKADATDNTSLAEHLSETNFYLGKYYLSLGDLDSATALFKLAVANNVHNFVEHRYALLELSLLG KSEVLAVPLQPTLQQEVILARMEQILASRALTDDERAQLLYERGVLYDSLGLRALARNDFSQALAIRPDMPEVFNYLGIYLTQAGNFDAAYEAFDSVLELDPTYNYAHLNRGIALYYGGRDKLAQDDLLAFYQDDPNDPFRSLWLYLAEQKLDEKQAKEVLKQHFEKSDKEQWGWNIVEFYLGNISEQTLMERLKADATDNTSLAEHLSETNFYLGKYYLSLGDLDSATALFKLAVANNVHNFVEHRYALLELSLLGQD 6iqt-a2-m1-cC_6iqt-a2-m1-cD Crystal Structure of CagV, a VirB8 homolog of T4SS from Helicobacter pylori Strain 26695 O25265 O25265 1.922 X-RAY DIFFRACTION 41 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 126 129 6iqt-a1-m1-cB_6iqt-a1-m1-cA EAVVDSATSKFVSLLFGYSKNSLRDRKDQLQYCDVSFQTQARFNENIRQFVDKVRAEAIISSNIQREKVKNSPLTRLTFFITIKITPDTENYEYITKKQVTIYYDFALIINPFGFKVFDIQITDLQ VNSEAVVDSATSKFVSLLFGYSKNSLRDRKDQLQYCDVSFQTQARFNENIRQFVDKVRAEAIISSNIQREKVKNSPLTRLTFFITIKITPDTENYEYITKKQVTIYYDFALIINPFGFKVFDIQITDLQ 6irp-a1-m1-cA_6irp-a1-m1-cB Crystal structure of HigA from Shigella flexneri P67703 P67703 1.954 X-RAY DIFFRACTION 86 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 133 133 IAIADILQAGEKLTAVAPFLAGIQNEEQYTQALELVDHLLLNDPENPLLDLVCAKITAWEESAPEFAEFNAAQAPGGIAVIRTLDQYGLTLSDLPEIGSKSVSRVLSGKRKLTLEHAKKLATRFGISPALFID IAIADILQAGEKLTAVAPFLAGIQNEEQYTQALELVDHLLLNDPENPLLDLVCAKITAWEESAPEFAEFNAAQAPGGIAVIRTLDQYGLTLSDLPEIGSKSVSRVLSGKRKLTLEHAKKLATRFGISPALFID 6iru-a2-m1-cB_6iru-a2-m1-cC Crystal structure of Peptidase E from Deinococcus radiodurans in P6422 space group Q9RVF9 Q9RVF9 2.7 X-RAY DIFFRACTION 75 0.995 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 201 202 6a4t-a1-m1-cA_6a4t-a1-m1-cB 6iru-a1-m1-cA_6iru-a1-m2-cA VRLLLTSFQHPSMAQFIGGKRVAYIPDAARSYADFVQKEREGLEKQGLELINLPLSHTDLAAVETTLNAVDGVYVAGGETFDLLQVLRSTGSDKVITRRVRQGLPYIGCSAGSVVAGPTIEAVSLMDSPDIAPDLKDYTGLGLTELAVIPHASGSISQFPIETIADTVRTYGERWPLCLLRDGQALWIEDGEVRLLNLEHH VRLLLTSFQHPSMAQFIGGKRVAYIPDAARSYADAPFVQKEREGLEKQGLELINLPLSHTDLAAVETTLNAVDGVYVAGGETFDLLQVLRSTGSDKVITRRVRQGLPYIGCSAGSVVAGPTIEAVSLMDSPDIAPDLKDYTGLGLTELAVIPHASGSISQFPIETIADTVRTYGERWPLCLLRDGQALWIEDGEVRLLNLEH 6is1-a2-m1-cD_6is1-a2-m1-cB Crystal Structure of Staphylococcus aureus response regulator ArlR receiver domain in complex with BeF3 and Mg Q2YY03 Q2YY03 1.59 X-RAY DIFFRACTION 49 1.0 273036 (Staphylococcus aureus RF122) 273036 (Staphylococcus aureus RF122) 119 121 6is1-a1-m1-cC_6is1-a1-m1-cA 6is1-a3-m1-cE_6is1-a3-m1-cF 6is1-a4-m1-cG_6is1-a4-m1-cH HTQILIVEDEQNLARFLELELTHENYNVDTEYDGQDGLDKALSHYYDLIILDLMLPSINGLEICRKIRQQQSTPIIIITAKSDTYDKVAGLDYGADDYIVKPFDIEELLARIRAILRRQ HHTQILIVEDEQNLARFLELELTHENYNVDTEYDGQDGLDKALSHYYDLIILDLMLPSINGLEICRKIRQQQSTPIIIITAKSDTYDKVAGLDYGADDYIVKPFDIEELLARIRAILRRQP 6is5-a1-m1-cC_6is5-a1-m1-cD P domain of GII.3-TV24 with A-tetrasaccharide complex Q66296 Q66296 2.501 X-RAY DIFFRACTION 139 1.0 194422 (Minireovirus) 194422 (Minireovirus) 301 303 6ir5-a1-m1-cA_6ir5-a1-m1-cC 6ir5-a1-m1-cB_6ir5-a1-m1-cD 6is5-a1-m1-cA_6is5-a1-m1-cB TKPFTLPILTISEMSNSRFPVPIDSLHTSPTENIVVQCQNGRVTLDGELMGTTQLLPSQICAFRGTLTRSLFNYYWHIQLDNLNGTPYDPAEDIPAPLGTPDFRGKVFGVASQRNPDSTTRAHEAKVDTTSGRFTPKLGSLEITTESDDFDPNQPTKFTPVGVGVDNEAEFQQWSLPNYSGQFTHNMNLAPAVAPNFPGEQLLFFRSQLPSSGGRSNGVLDCLVPQEWVQHFYQESAPAQTQVALVRYVNPDTGRVLFEAKLHKLGFMTIAKNGDSPITVPPNGYFRFESWVNPFYTLAPM KTKPFTLPILTISEMSNSRFPVPIDSLHTSPTENIVVQCQNGRVTLDGELMGTTQLLPSQICAFRGTLTRSTLFNYYWHIQLDNLNGTPYDPAEDIPAPLGTPDFRGKVFGVASQRNPDSTTRAHEAKVDTTSGRFTPKLGSLEITTESDDFDPNQPTKFTPVGVGVDNEAEFQQWSLPNYSGQFTHNMNLAPAVAPNFPGEQLLFFRSQLPSSGGRSNGVLDCLVPQEWVQHFYQESAPAQTQVALVRYVNPDTGRVLFEAKLHKLGFMTIAKNGDSPITVPPNGYFRFESWVNPFYTLAPM 6is5-a1-m1-cD_6is5-a1-m1-cB P domain of GII.3-TV24 with A-tetrasaccharide complex Q66296 Q66296 2.501 X-RAY DIFFRACTION 56 1.0 194422 (Minireovirus) 194422 (Minireovirus) 303 304 6ir5-a1-m1-cD_6ir5-a1-m1-cC KTKPFTLPILTISEMSNSRFPVPIDSLHTSPTENIVVQCQNGRVTLDGELMGTTQLLPSQICAFRGTLTRSTLFNYYWHIQLDNLNGTPYDPAEDIPAPLGTPDFRGKVFGVASQRNPDSTTRAHEAKVDTTSGRFTPKLGSLEITTESDDFDPNQPTKFTPVGVGVDNEAEFQQWSLPNYSGQFTHNMNLAPAVAPNFPGEQLLFFRSQLPSSGGRSNGVLDCLVPQEWVQHFYQESAPAQTQVALVRYVNPDTGRVLFEAKLHKLGFMTIAKNGDSPITVPPNGYFRFESWVNPFYTLAPM SKTKPFTLPILTISEMSNSRFPVPIDSLHTSPTENIVVQCQNGRVTLDGELMGTTQLLPSQICAFRGTLTRSTLFNYYWHIQLDNLNGTPYDPAEDIPAPLGTPDFRGKVFGVASQRNPDSTTRAHEAKVDTTSGRFTPKLGSLEITTESDDFDPNQPTKFTPVGVGVDNEAEFQQWSLPNYSGQFTHNMNLAPAVAPNFPGEQLLFFRSQLPSSGGRSNGVLDCLVPQEWVQHFYQESAPAQTQVALVRYVNPDTGRVLFEAKLHKLGFMTIAKNGDSPITVPPNGYFRFESWVNPFYTLAPM 6is8-a1-m1-cA_6is8-a1-m1-cB Crystal structure of ZmMoc1 D115N mutant in complex with Holliday junction B4FCI7 B4FCI7 1.68 X-RAY DIFFRACTION 85 1.0 4577 (Zea mays) 4577 (Zea mays) 163 163 6is9-a1-m1-cB_6is9-a1-m1-cA 6jrf-a1-m1-cA_6jrf-a1-m1-cB 6jrg-a1-m1-cA_6jrg-a1-m1-cB 6lcm-a1-m1-cC_6lcm-a1-m2-cC GWVIGVNPDIGGAIAVLSPDGSSQVFDNPFVHIVVSEVIRKRLDTKSIIQLLRGLDAPPGTTAYIEKSSPFPTDGKQGWWSTGFSYGLWIASLVASGFSVVPIASQTWKAYFGLMRSETPKDDSRQAASILFPDKDQSLKLKKHHGRAEALLLAAYGKGLVLP GWVIGVNPDIGGAIAVLSPDGSSQVFDNPFVHIVVSEVIRKRLDTKSIIQLLRGLDAPPGTTAYIEKSSPFPTDGKQGWWSTGFSYGLWIASLVASGFSVVPIASQTWKAYFGLMRSETPKDDSRQAASILFPDKDQSLKLKKHHGRAEALLLAAYGKGLVLP 6isb-a1-m1-cB_6isb-a1-m1-cA crystal structure of human CD226 Q15762 Q15762 2.5 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 221 VLWHTSVPFAENMSLECVYPSMGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNSTMASNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSDSFEAAVPSNSHIVSEPGKNVTLTCQPQMTWPVQAVRWEKIQPRQIDLLTYCNLVNFTSKFPRQIVSNCSHGRWSVIVIPDVTVSDSGLYRCYLQASAGENETFVMRLTVA VLWHTSVPFAENMSLECVYPSMGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNSTMASNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSDSFEAAVPSNSHIVSEPGKNVTLTCQPQMTWPVQAVRWEKIQPRQIDLLTYCNLVHGRNFTSKFPRQIVSNCSHGRWSVIVIPDVTVSDSGLYRCYLQASAGENETFVMRLTVA 6isb-a1-m1-cC_6isb-a1-m1-cA crystal structure of human CD226 Q15762 Q15762 2.5 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 221 VLWHTSVPFAENMSLECVYGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNSTMASNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSD VLWHTSVPFAENMSLECVYPSMGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNSTMASNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSDSFEAAVPSNSHIVSEPGKNVTLTCQPQMTWPVQAVRWEKIQPRQIDLLTYCNLVHGRNFTSKFPRQIVSNCSHGRWSVIVIPDVTVSDSGLYRCYLQASAGENETFVMRLTVA 6isb-a1-m1-cC_6isb-a1-m1-cB crystal structure of human CD226 Q15762 Q15762 2.5 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 218 VLWHTSVPFAENMSLECVYGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNSTMASNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSD VLWHTSVPFAENMSLECVYPSMGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNSTMASNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSDSFEAAVPSNSHIVSEPGKNVTLTCQPQMTWPVQAVRWEKIQPRQIDLLTYCNLVNFTSKFPRQIVSNCSHGRWSVIVIPDVTVSDSGLYRCYLQASAGENETFVMRLTVA 6isl-a1-m1-cA_6isl-a1-m2-cB SnoaL-like cyclase XimE with its product xiamenmycin B U5Q2N8 U5Q2N8 1.77 X-RAY DIFFRACTION 54 1.0 1093097 (Streptomyces xiamenensis 318) 1093097 (Streptomyces xiamenensis 318) 120 120 6isk-a1-m1-cA_6isk-a1-m2-cB THTALDRYMELADRAVRDPSALAELPTIFAPDATVTLRDEPVTGMPAIMEFYRVFVAAVAESKHYWTTTILEDGTIESHWVVAARRADGSLMTAAGVEHATVDTDGLITNLRNRYTRTPG THTALDRYMELADRAVRDPSALAELPTIFAPDATVTLRDEPVTGMPAIMEFYRVFVAAVAESKHYWTTTILEDGTIESHWVVAARRADGSLMTAAGVEHATVDTDGLITNLRNRYTRTPG 6ist-a1-m1-cD_6ist-a1-m1-cC Crystal structure of a wild type endolysin LysIME-EF1 S5MRN1 S5MRN1 1.75 X-RAY DIFFRACTION 42 1.0 1351735 (Enterococcus phage IMEEF1) 1351735 (Enterococcus phage IMEEF1) 70 213 6ist-a1-m1-cB_6ist-a1-m1-cD MFIYYKRTKQGSTEQWFVIGGKRIYLPTMTYVNEANDLIKRYGGNTNVTTYNHDNFGLKMMEAALPQVKV MVKLNDVLSYVNGLVGKGVDADGWYGTQCMDLTVDVMQRFFGWRPYGNAIALVDQPLPAGFQRIRTTSSTQIKAGDVMIWGLGYYAQYGHTGIATEDGRADGTFVSVDQNWINPSLEVGSPAAAIHHNMDGVWGVIRPPYEAAMFIYYKRTKQGSTEQWFVIGGKRIYLPTMTYVNEANDLIKRYGGNTNVTTYNHDNFGLKMMEAALPQVKV 6isv-a1-m1-cA_6isv-a1-m2-cB Structure of acetophenone reductase from Geotrichum candidum NBRC 4597 in complex with NAD M5A8V4 M5A8V4 2.5 X-RAY DIFFRACTION 107 1.0 1173061 (Geotrichum candidum) 1173061 (Geotrichum candidum) 340 341 6isv-a1-m2-cA_6isv-a1-m1-cB KVPETHKGYVFTSGSSRLTLKDVPTYKPGPGEVLLKLEASGVCHSDLHILQGSFPIPSNSVLGHEITGTVVAYGLGVDPKTYPEGQLYAAHGPNPCGSCRECRSGKDNLCHAENRTNYGLGYPGGYQQYTLAKVHNLIKVPDGVGAAIAAVTTDAVLTPYHAFKKADINGLSKILIIGLGGLGINAVQIAKAMGAHVTAYDLKESSRQLARQFGADVVLESLTLDDASKEYDFVADIVSIQSTFDLALKQVKSNGLVIPLGLGSPKLTFDQNDLLVREIRILGSFWGTSLDQAEVFDLVKSGAFKPQVETGKFKDLNEILEKLEKGQIKSRLVLTDFDDI GKVPETHKGYVFTSGSSRLTLKDVPTYKPGPGEVLLKLEASGVCHSDLHILQGSFPIPSNSVLGHEITGTVVAYGLGVDPKTYPEGQLYAAHGPNPCGSCRECRSGKDNLCHAENRTNYGLGYPGGYQQYTLAKVHNLIKVPDGVGAAIAAVTTDAVLTPYHAFKKADINGLSKILIIGLGGLGINAVQIAKAMGAHVTAYDLKESSRQLARQFGADVVLESLTLDDASKEYDFVADIVSIQSTFDLALKQVKSNGLVIPLGLGSPKLTFDQNDLLVREIRILGSFWGTSLDQAEVFDLVKSGAFKPQVETGKFKDLNEILEKLEKGQIKSRLVLTDFDDI 6isv-a1-m1-cB_6isv-a1-m2-cB Structure of acetophenone reductase from Geotrichum candidum NBRC 4597 in complex with NAD M5A8V4 M5A8V4 2.5 X-RAY DIFFRACTION 28 1.0 1173061 (Geotrichum candidum) 1173061 (Geotrichum candidum) 341 341 6isv-a1-m1-cA_6isv-a1-m2-cA GKVPETHKGYVFTSGSSRLTLKDVPTYKPGPGEVLLKLEASGVCHSDLHILQGSFPIPSNSVLGHEITGTVVAYGLGVDPKTYPEGQLYAAHGPNPCGSCRECRSGKDNLCHAENRTNYGLGYPGGYQQYTLAKVHNLIKVPDGVGAAIAAVTTDAVLTPYHAFKKADINGLSKILIIGLGGLGINAVQIAKAMGAHVTAYDLKESSRQLARQFGADVVLESLTLDDASKEYDFVADIVSIQSTFDLALKQVKSNGLVIPLGLGSPKLTFDQNDLLVREIRILGSFWGTSLDQAEVFDLVKSGAFKPQVETGKFKDLNEILEKLEKGQIKSRLVLTDFDDI GKVPETHKGYVFTSGSSRLTLKDVPTYKPGPGEVLLKLEASGVCHSDLHILQGSFPIPSNSVLGHEITGTVVAYGLGVDPKTYPEGQLYAAHGPNPCGSCRECRSGKDNLCHAENRTNYGLGYPGGYQQYTLAKVHNLIKVPDGVGAAIAAVTTDAVLTPYHAFKKADINGLSKILIIGLGGLGINAVQIAKAMGAHVTAYDLKESSRQLARQFGADVVLESLTLDDASKEYDFVADIVSIQSTFDLALKQVKSNGLVIPLGLGSPKLTFDQNDLLVREIRILGSFWGTSLDQAEVFDLVKSGAFKPQVETGKFKDLNEILEKLEKGQIKSRLVLTDFDDI 6isv-a1-m2-cA_6isv-a1-m2-cB Structure of acetophenone reductase from Geotrichum candidum NBRC 4597 in complex with NAD M5A8V4 M5A8V4 2.5 X-RAY DIFFRACTION 33 1.0 1173061 (Geotrichum candidum) 1173061 (Geotrichum candidum) 340 341 6isv-a1-m1-cA_6isv-a1-m1-cB KVPETHKGYVFTSGSSRLTLKDVPTYKPGPGEVLLKLEASGVCHSDLHILQGSFPIPSNSVLGHEITGTVVAYGLGVDPKTYPEGQLYAAHGPNPCGSCRECRSGKDNLCHAENRTNYGLGYPGGYQQYTLAKVHNLIKVPDGVGAAIAAVTTDAVLTPYHAFKKADINGLSKILIIGLGGLGINAVQIAKAMGAHVTAYDLKESSRQLARQFGADVVLESLTLDDASKEYDFVADIVSIQSTFDLALKQVKSNGLVIPLGLGSPKLTFDQNDLLVREIRILGSFWGTSLDQAEVFDLVKSGAFKPQVETGKFKDLNEILEKLEKGQIKSRLVLTDFDDI GKVPETHKGYVFTSGSSRLTLKDVPTYKPGPGEVLLKLEASGVCHSDLHILQGSFPIPSNSVLGHEITGTVVAYGLGVDPKTYPEGQLYAAHGPNPCGSCRECRSGKDNLCHAENRTNYGLGYPGGYQQYTLAKVHNLIKVPDGVGAAIAAVTTDAVLTPYHAFKKADINGLSKILIIGLGGLGINAVQIAKAMGAHVTAYDLKESSRQLARQFGADVVLESLTLDDASKEYDFVADIVSIQSTFDLALKQVKSNGLVIPLGLGSPKLTFDQNDLLVREIRILGSFWGTSLDQAEVFDLVKSGAFKPQVETGKFKDLNEILEKLEKGQIKSRLVLTDFDDI 6itd-a1-m1-cA_6itd-a1-m2-cA Crystal structure of BioU (K124A) from Synechocystis sp.PCC6803 in complex with the analog of reaction intermediate, 3-(1-aminoethyl)-nonanedioic acid Q55650 Q55650 2 X-RAY DIFFRACTION 160 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 328 328 6ir4-a1-m1-cA_6ir4-a1-m2-cA 6k36-a1-m1-cA_6k36-a1-m2-cA 6k37-a1-m1-cA_6k37-a1-m2-cA 6k38-a1-m1-cA_6k38-a1-m2-cA NSLAPLRVGILGFGGLGQAAARLLAPKQEMKLVAVADRHGYLYDADGIDVDNAVQAYTQQGSVGKAKKGQMSEQSIEDLIGEGEVDGYFLALPNLPNTFMADVTRQFIASGWQGVLVDALARTSAVEQLITLREDLAQAGITYMTGCGATPGLLTAAAAIASQSFQEIHQVKITFGVGIANWEAYRATIREDIAHMPGYNVDKAQAMTDAEVAALLDQTNGILALEDMEHADDIMLELAGICHRDQVTVGGVVDTRNPKKPLSTHVKITGRTFEGKISSHTFTLGDETSMAANVCGPAFGYLKAGYGLHRQGLKGLFTAADVMPKFVR NSLAPLRVGILGFGGLGQAAARLLAPKQEMKLVAVADRHGYLYDADGIDVDNAVQAYTQQGSVGKAKKGQMSEQSIEDLIGEGEVDGYFLALPNLPNTFMADVTRQFIASGWQGVLVDALARTSAVEQLITLREDLAQAGITYMTGCGATPGLLTAAAAIASQSFQEIHQVKITFGVGIANWEAYRATIREDIAHMPGYNVDKAQAMTDAEVAALLDQTNGILALEDMEHADDIMLELAGICHRDQVTVGGVVDTRNPKKPLSTHVKITGRTFEGKISSHTFTLGDETSMAANVCGPAFGYLKAGYGLHRQGLKGLFTAADVMPKFVR 6itk-a1-m1-cA_6itk-a1-m1-cB Crystal structure of malate dehydrogenase from Corynebacterium glutamicum ATCC 13032 in complex with NAD and malate Q8NN33 Q8NN33 2 X-RAY DIFFRACTION 126 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 318 318 STKKVTVTGAAGQISYSLLWRIANGEVFGTDTPVELKLLEIPQALGGAEGVAMELLDSAFPLLRNITITADANEAFDGANAAFLVGAKPERADLLANNGKIFGPQGKAINDNAADDIRVLVVGNPANTNALIASAAAPDVPASRFNAMMRLDHNRAISQLATKLGRGSAEFNNIVVWGNHSATQFPDITYATVGGEKVTDLVDHDWYVEEFIPRVANRGAEIIEVRGKSSAASAASSAIDHMRDWVQGTEAWSSAAIPSTGAYGIPEGIFVGLPTVSRNGEWEIVEGLEISDFQRARIDANAQELQAEREAVRDLLLE STKKVTVTGAAGQISYSLLWRIANGEVFGTDTPVELKLLEIPQALGGAEGVAMELLDSAFPLLRNITITADANEAFDGANAAFLVGAKPERADLLANNGKIFGPQGKAINDNAADDIRVLVVGNPANTNALIASAAAPDVPASRFNAMMRLDHNRAISQLATKLGRGSAEFNNIVVWGNHSATQFPDITYATVGGEKVTDLVDHDWYVEEFIPRVANRGAEIIEVRGKSSAASAASSAIDHMRDWVQGTEAWSSAAIPSTGAYGIPEGIFVGLPTVSRNGEWEIVEGLEISDFQRARIDANAQELQAEREAVRDLLLE 6itl-a1-m1-cA_6itl-a1-m2-cA Crystal structure of malate dehydrogenase from Mannheimia succiniciproducens in complex with NAD Q65T37 Q65T37 1.97 X-RAY DIFFRACTION 136 1.0 221988 ([Mannheimia] succiniciproducens MBEL55E) 221988 ([Mannheimia] succiniciproducens MBEL55E) 312 312 MKVAVLGAAGGIGQALALLLKLQLPAGSSLSLYDVAPVTPGVAKDLSHIPTDVVVEGFAGTDPSEALKGADIVLISAGVARKPGMTRADLFGVNAGIIRSLTEKVAEQCPKACVGIITNPVNAMVAIAAEVLKKAGVYDKRKLFGITTLDILRAETFIAELKGLDPTRVTIPVIGGHSGVTILPLLSQVQNVEWSSEEEIIALTHRIQNAGTEVVEAKAGGGSATLSMAQAAARFALALVKASQGAKVVECAYVEGDGKYARFFAQPVRLGTEGVEEYLTLGKLSAFEEKALNAMLETLQGDIKSGEDFING MKVAVLGAAGGIGQALALLLKLQLPAGSSLSLYDVAPVTPGVAKDLSHIPTDVVVEGFAGTDPSEALKGADIVLISAGVARKPGMTRADLFGVNAGIIRSLTEKVAEQCPKACVGIITNPVNAMVAIAAEVLKKAGVYDKRKLFGITTLDILRAETFIAELKGLDPTRVTIPVIGGHSGVTILPLLSQVQNVEWSSEEEIIALTHRIQNAGTEVVEAKAGGGSATLSMAQAAARFALALVKASQGAKVVECAYVEGDGKYARFFAQPVRLGTEGVEEYLTLGKLSAFEEKALNAMLETLQGDIKSGEDFING 6itp-a1-m1-cA_6itp-a1-m1-cB Crystal structure of cortisol complexed with its nanobody at pH 3.5 1.572 X-RAY DIFFRACTION 40 1.0 9837 (Camelus bactrianus) 9837 (Camelus bactrianus) 125 125 QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPTEREGVAATYTAGSGTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPTEREGVAATYTAGSGTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS 6itq-a1-m1-cA_6itq-a1-m1-cC Crystal structure of cortisol complexed with its nanobody at pH 10.5 1.526 X-RAY DIFFRACTION 63 1.0 9837 (Camelus bactrianus) 9837 (Camelus bactrianus) 122 125 QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPREGVAATYTAGSTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPGTEREGVAATYTAGSTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS 6itq-a1-m1-cB_6itq-a1-m1-cA Crystal structure of cortisol complexed with its nanobody at pH 10.5 1.526 X-RAY DIFFRACTION 35 1.0 9837 (Camelus bactrianus) 9837 (Camelus bactrianus) 120 122 QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQREGVAATYTAGSTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPREGVAATYTAGSTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS 6itq-a1-m1-cD_6itq-a1-m1-cC Crystal structure of cortisol complexed with its nanobody at pH 10.5 1.526 X-RAY DIFFRACTION 42 1.0 9837 (Camelus bactrianus) 9837 (Camelus bactrianus) 122 125 QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPREGVAATYTAGSTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS QVQLQESGGGSVQAGGSLRLSCVVSGNTGSTGYWAWFRQGPGTEREGVAATYTAGSTSMTYYADSVKGRFTISQDNAKKTLYLQMNSLKPEDTGMYRCASTRFAGRWYRDSEYRAWGQGTQVTVS 6itx-a1-m1-cB_6itx-a1-m1-cC Structure of the C-terminal head domain of the avian adenovirus EDSV fiber O11424 O11424 2.75 X-RAY DIFFRACTION 88 1.0 130329 (Duck adenovirus 1) 130329 (Duck adenovirus 1) 216 217 6itx-a1-m1-cB_6itx-a1-m1-cA 6itx-a1-m1-cC_6itx-a1-m1-cA 6itx-a2-m1-cE_6itx-a2-m1-cD 6itx-a2-m1-cE_6itx-a2-m1-cF 6itx-a2-m1-cF_6itx-a2-m1-cD VSPTQTPLTRIISMGNNLFDSGYEIFASCPQNKAAKVAGYVYLTSVGGLVHGTIQIKATAGYWFTGGNSVQESIRFGLVLCPFSARDPTANLSGWPAPVVWSGDSNTPLYFAANAISYTNNRVNLAVTGNFYKEETELPGYTRHSFCPTGTTGMNFTGGNLYVCPCTVNTGATTLNAIYMVFVITQSALGTNFFASNTPPNTFFLTPPIPFTYVGA KVSPTQTPLTRIISMGNNLFDSGYEIFASCPQNKAAKVAGYVYLTSVGGLVHGTIQIKATAGYWFTGGNSVQESIRFGLVLCPFSARDPTANLSGWPAPVVWSGDSNTPLYFAANAISYTNNRVNLAVTGNFYKEETELPGYTRHSFCPTGTTGMNFTGGNLYVCPCTVNTGATTLNAIYMVFVITQSALGTNFFASNTPPNTFFLTPPIPFTYVGA 6ity-a1-m1-cA_6ity-a1-m1-cB CTX-M-64 sulbactam complex C8CP57 C8CP57 2.14 X-RAY DIFFRACTION 40 1.0 562 (Escherichia coli) 562 (Escherichia coli) 260 260 5zb7-a1-m1-cA_5zb7-a1-m1-cB 6j25-a1-m1-cA_6j25-a1-m1-cB 6j2b-a1-m1-cA_6j2b-a1-m1-cB 6j2k-a1-m1-cA_6j2k-a1-m1-cB 6j2o-a1-m1-cA_6j2o-a1-m1-cB 6unb-a1-m1-cB_6unb-a1-m1-cA ADVQQKLAELERQSGGRLGVALINTADNSQILYRADERFPMCSTSKVMAAAAVLKQSETQKQLLNQPVEIKPADLVNYNPIAEKHVNGTMTLAELSAAALQYSDNTAMNKLIAQLGGPGGVTAFARAIGDETFRLDRTEPTLNTAIPGDPRDTTTPRAMAQTLRQLTLGHALGETQRAQLVTWLKGNTTGAASIRAGLPASWVVGDKTGSGGYGTTNDIAVIWPKDRAPLILVTYFTQPQPKAESRRDVLASAAKIVTDG ADVQQKLAELERQSGGRLGVALINTADNSQILYRADERFPMCSTSKVMAAAAVLKQSETQKQLLNQPVEIKPADLVNYNPIAEKHVNGTMTLAELSAAALQYSDNTAMNKLIAQLGGPGGVTAFARAIGDETFRLDRTEPTLNTAIPGDPRDTTTPRAMAQTLRQLTLGHALGETQRAQLVTWLKGNTTGAASIRAGLPASWVVGDKTGSGGYGTTNDIAVIWPKDRAPLILVTYFTQPQPKAESRRDVLASAAKIVTDG 6iud-a1-m1-cC_6iud-a1-m1-cD Structure of Helicobacter pylori Soj-ADP complex bound to DNA O25759 O25759 2.506 X-RAY DIFFRACTION 90 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 264 264 6iub-a1-m1-cA_6iub-a1-m1-cB 6iuc-a1-m1-cA_6iuc-a1-m1-cB 6iuc-a1-m1-cC_6iuc-a1-m1-cD 6iud-a1-m1-cA_6iud-a1-m1-cB MMSEIIAVANQKGGVGKTTTAVNLAASLAVHEKKILLIDFDPQANATSSLGFRRDKIDYDIYHVLIGRKQISQVILKTQMPFLDLVPSNLGLAGFEKTFYDSQDENKRGELMLKNALESVVGLYDYIIIDSPPALGPLTINSLSAAHSVIIPIQCEFFALEGTKLLLNTIRMLQKSTNPKLKIRGFLPTMHVPQLNLTKGVLAELFKYFDSEFFRDSATGEYIMIPKSVKLAESPSFGKPILLYDIKSNGSIAYQKLAQSILQG MMSEIIAVANQKGGVGKTTTAVNLAASLAVHEKKILLIDFDPQANATSSLGFRRDKIDYDIYHVLIGRKQISQVILKTQMPFLDLVPSNLGLAGFEKTFYDSQDENKRGELMLKNALESVVGLYDYIIIDSPPALGPLTINSLSAAHSVIIPIQCEFFALEGTKLLLNTIRMLQKSTNPKLKIRGFLPTMHVPQLNLTKGVLAELFKYFDSEFFRDSATGEYIMIPKSVKLAESPSFGKPILLYDIKSNGSIAYQKLAQSILQG 6iuf-a1-m1-cB_6iuf-a1-m1-cA Crystal structure of Anti-CRISPR protein AcrVA5 A0A0U2B867 A0A0U2B867 2.052 X-RAY DIFFRACTION 63 1.0 386891 (Moraxella bovoculi) 386891 (Moraxella bovoculi) 95 96 LGSMKIELSGGYICYSIEEDEVTIDMVEVTTKRQGIGSQLIDMVKDVAREVGLPIGLYAYPQDDSISQEDLIEFYFSNDFEYDPDDVDGRLMRWS PLGSMKIELSGGYICYSIEEDEVTIDMVEVTTKRQGIGSQLIDMVKDVAREVGLPIGLYAYPQDDSISQEDLIEFYFSNDFEYDPDDVDGRLMRWS 6iul-a1-m1-cA_6iul-a1-m1-cB Crystal structure of Lamprey immune protein K7WEH5 K7WEH5 2.25 X-RAY DIFFRACTION 110 1.0 980415 (Lethenteron camtschaticum) 980415 (Lethenteron camtschaticum) 314 314 5zu4-a1-m1-cA_5zu4-a1-m1-cB HMVYPTTLHIIGGQGGNAFSFNGQENAATLQKLSVSVGGWQVRGVQVWLTDGRRETFGAMDSSAKEFEFESGEFIKSLSLWGNGAGTRLGAIKFITSRSREFFAKMTDWGLKTEYKIDVGSGICLGVQGRGGSDIDSMGFIFINAIKSSVIQDMKYPTMHQILPNVQMEEIKEMEYKNDTSIVQSYTFESSKKIIKKSSWSTTNKIESTFSLSVKAGIPEVMEVETGFSFTVGSESTHAVEESEEKTETLTFPVTVPTHKTVTVVANIGRADIDLPYTALLRITCVNGASLDAPLSGIYKGLTYTKMTAVATES HMVYPTTLHIIGGQGGNAFSFNGQENAATLQKLSVSVGGWQVRGVQVWLTDGRRETFGAMDSSAKEFEFESGEFIKSLSLWGNGAGTRLGAIKFITSRSREFFAKMTDWGLKTEYKIDVGSGICLGVQGRGGSDIDSMGFIFINAIKSSVIQDMKYPTMHQILPNVQMEEIKEMEYKNDTSIVQSYTFESSKKIIKKSSWSTTNKIESTFSLSVKAGIPEVMEVETGFSFTVGSESTHAVEESEEKTETLTFPVTVPTHKTVTVVANIGRADIDLPYTALLRITCVNGASLDAPLSGIYKGLTYTKMTAVATES 6ius-a2-m1-cB_6ius-a2-m2-cB A higher kcat Rubisco O68486 O68486 2.12 X-RAY DIFFRACTION 282 1.0 54396 (endosymbiont of Riftia pachyptila) 54396 (endosymbiont of Riftia pachyptila) 419 419 6ius-a1-m1-cC_6ius-a1-m1-cA LDQTNRYSDLSLKEDELIASGDYVLCAYLMKPKSGYGYLEAAAHFAAESSTGTVDALVYEIDEAKELMKIAYPVDLFDINIIDGRAMLASFLTLTIGNNQGMGDIEYAKMLDFYMPPKYLRLYDGPAVNIQDMWRILGRPIENGGYIAGTIIKPKLGLRPEPFAEAAYQFWLGGDFIKNDEPQGNQPFSPMKKTIPLVADAMRRAQDETGEAKLFSANITADDPAEMIARGEFVLETFGFEASQVAFLVDGYVAGPTAVATARRNFPNQFLHFHRAGHGAVTSPQSKRGYTAFVHIKMTRLLGASGMHVGTLIAYMIERDSADGPFYHQEWAGMKPTTPIISGGMNALRLPGFFENLGHGNVINTAGGGTYGHIDSPAAGAVSLRQAYECWKEGADPVEYAKEHKEFARAFESFPHDAD LDQTNRYSDLSLKEDELIASGDYVLCAYLMKPKSGYGYLEAAAHFAAESSTGTVDALVYEIDEAKELMKIAYPVDLFDINIIDGRAMLASFLTLTIGNNQGMGDIEYAKMLDFYMPPKYLRLYDGPAVNIQDMWRILGRPIENGGYIAGTIIKPKLGLRPEPFAEAAYQFWLGGDFIKNDEPQGNQPFSPMKKTIPLVADAMRRAQDETGEAKLFSANITADDPAEMIARGEFVLETFGFEASQVAFLVDGYVAGPTAVATARRNFPNQFLHFHRAGHGAVTSPQSKRGYTAFVHIKMTRLLGASGMHVGTLIAYMIERDSADGPFYHQEWAGMKPTTPIISGGMNALRLPGFFENLGHGNVINTAGGGTYGHIDSPAAGAVSLRQAYECWKEGADPVEYAKEHKEFARAFESFPHDAD 6iuy-a1-m1-cB_6iuy-a1-m1-cA Structure of DsGPDH of Dunaliella salina Q52ZA0 Q52ZA0 2.2 X-RAY DIFFRACTION 122 0.992 3046 (Dunaliella salina) 3046 (Dunaliella salina) 531 585 LYFQSEPSEQVLDLWQQADAVCFDVDRTVTTDASVGRFLEEHPAHTRLVPGVENLIAALKARGVEVFLISGGFREMALPIASHLKIPAKNVFCNTMSSHFKSRAIERIRRKYPYNNIIMVGDGFSDLEAMQGSPDGADAFICFGGVMQRPAVASQADWFVRSYDELMAKLKRYKVTMVGSGAWACTAVRMVAQSTAEAAQLPGSVFEKEVTMWVHEEKHSGRNLIEYINENHENPIYLPGIDLGENVKATSDLIEAVRGADALIFCAPHQFMHGICKQLAAARVVGRGVKAISLTKGMRVRAEGPQLISQMVSRILGIDCSVLMGANIAGDIAKEELSEAVIAYANRESGSLWQQLFQRPYFAINLLADVPGAEMCGTLKNIVAVGAGIGDGLGVGPNSKASILRQGLSEMRKFCKFISPSVRDDTFFESCGVADLIASSYGGRNRRVAEAWAQKRIAGDDQVTFEKLEKEMLNGQKLQGVLTSDEVQEILHARGWELEFPLFTTINRIIHGEVPPTMILRYRVACSMPSM SEPSEQVLDLWQQADAVCFDVDRTVTTDASVGLLAKFMGIEDEAQSLTEQANRGEINLTKAFEDRLAKLNFTPTDIDRFLEEHPAHTRLVPGVENLIAALKARGVEVFLISGGFREMALPIASHLKIPAKNVFCNTMSWQLDDHGEPVRLSHFKSRAIERIRRKYPYNNIIMVGDGFSDLEAMQGSPDGADAFICFGGVMQRPAVASQADWFVRSYDELMAKLKRYKVTMVGSGAWACTAVRMVAQSTAEAAQLPGSVFEKEVTMWVHEEKHSGRNLIEYINENHENPIYLPGIDLGENVKATSDLIEAVRGADALIFCAPHQFMHGICKQLAAARVVGRGVKAISLTKGMRVRAEGPQLISQMVSRILGIDCSVLMGANIAGDIAKEELSEAVIAYANRESGSLWQQLFQRPYFAINLLADVPGAEMCGTLKNIVAVGAGIGDGLGVGPNSKASILRQGLSEMRKFCKFISPSVRDDTFFESCGVADLIASSYGGRNRRVAEAWAQKRIAGDDQVTFEKLEKEMLNGQKLQGVLTSDEVQEILHARGWELEFPLFTTINRIIHGEVPPTMILRYRVACSMPSMP 6iva-a1-m1-cC_6iva-a1-m1-cE Crystal structure of the S. typhimurium oxaloacetate decarboxylase beta-gamma sub-complex Q8ZRY4 Q8ZRY4 4.403 X-RAY DIFFRACTION 85 1.0 59201 (Salmonella enterica subsp. enterica) 59201 (Salmonella enterica subsp. enterica) 420 420 6iva-a1-m1-cA_6iva-a1-m1-cC 6iva-a1-m1-cA_6iva-a1-m1-cE 6iww-a1-m1-cA_6iww-a1-m1-cC 6iww-a1-m1-cA_6iww-a1-m1-cE 6iww-a1-m1-cC_6iww-a1-m1-cE LMHLGAGQAIMLLVSLLLLWLAIAKKFEPLLLLPIGFGGLLSNIPEAGMALTALESLLAHHDAGQLAVIAAKLNCAPDVHAIKEALALALPSVQGQMENLAVDMGYTPGVLALFYKVAIGSGVAPLVIFMGVGAMTDFGPLLANPRTLLLGAAAQFGIFATVLGALTLNYFGLISFTLPQAAAIGIIGGADGPTAIYLSGKLAPELLGAIAVAAYSYMALVPLIQPPIMRALTSEKERKIRMVQLRTVSKREKILFPVVLLLLVALLLPDAAPLLGMFCFGNLMRESGVVERLSDTVQNGLINIVTIFLGLSVGAKLVADKFLQPQTLGILLLGVIAFGIGTAAGVLMAKLLNLCSKNKINPLIGSAGVSAVPMAARVSNKVGLESDAQNFLLMHAMGPNVAGVIGSAIAAGVMLKYVLA LMHLGAGQAIMLLVSLLLLWLAIAKKFEPLLLLPIGFGGLLSNIPEAGMALTALESLLAHHDAGQLAVIAAKLNCAPDVHAIKEALALALPSVQGQMENLAVDMGYTPGVLALFYKVAIGSGVAPLVIFMGVGAMTDFGPLLANPRTLLLGAAAQFGIFATVLGALTLNYFGLISFTLPQAAAIGIIGGADGPTAIYLSGKLAPELLGAIAVAAYSYMALVPLIQPPIMRALTSEKERKIRMVQLRTVSKREKILFPVVLLLLVALLLPDAAPLLGMFCFGNLMRESGVVERLSDTVQNGLINIVTIFLGLSVGAKLVADKFLQPQTLGILLLGVIAFGIGTAAGVLMAKLLNLCSKNKINPLIGSAGVSAVPMAARVSNKVGLESDAQNFLLMHAMGPNVAGVIGSAIAAGVMLKYVLA 6ive-a1-m1-cA_6ive-a1-m1-cC Molecular structure of a thermostable and a Zinc ion binding gamma-class carbonic anhydrase Q5SH51 Q5SH51 2.3 X-RAY DIFFRACTION 88 0.994 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 168 168 6ive-a1-m1-cB_6ive-a1-m1-cA 6ive-a1-m1-cB_6ive-a1-m1-cC 6ive-a2-m1-cD_6ive-a2-m1-cE 6ive-a2-m1-cD_6ive-a2-m1-cF 6ive-a2-m1-cE_6ive-a2-m1-cF SVYRFEDKTPAVHPTAFIAPGAYVVGAVEVGEGASIWFGAVVRGDLERVVVGPGTNVQDGAVLHADPGFPCLLGPEVTVGHRAVVHGAVVEEGALVGMGAVVLNGARIGKNAVVGAGAVVPPGMEVPEGRLALGVPARVVRPIDPPGNAPRYRALAERYRKALFPVAT MSVYRFEDKTPAVHPTAFIAPGAYVVGAVEVGEGASIWFGAVVRGDLERVVVGPGTNVQDGAVLHADPGFPCLLGPEVTVGHRAVVHGAVVEEGALVGMGAVVLNGARIGKNAVVGAGAVVPPGMEVPEGRLALGVPARVVRPIDPPGNAPRYRALAERYRKALFPVA 6iwd-a1-m1-cB_6iwd-a1-m2-cB The PTP domain of human PTPN14 in a complex with the CR3 domain of HPV18 E7 P06788 P06788 1.8 X-RAY DIFFRACTION 72 1.0 333761 (human papillomavirus 18) 333761 (human papillomavirus 18) 49 49 EPQRHTMLCMCCKCEARIELVVESSADDLRAFQQLFLNTLSFVCPWCAS EPQRHTMLCMCCKCEARIELVVESSADDLRAFQQLFLNTLSFVCPWCAS 6iwj-a1-m1-cA_6iwj-a1-m1-cB A designed domain swapped dimer Q8TYK3 Q8TYK3 NOT SOLUTION NMR 132 1.0 190192 (Methanopyrus kandleri AV19) 190192 (Methanopyrus kandleri AV19) 79 79 VPSRFEDVRVVQVVAGWRVSVKIAETEEGEVVTVKAEFDECREIGEETGIPPREVKAMVEAAARVGGWVDLKEREIKVQ VPSRFEDVRVVQVVAGWRVSVKIAETEEGEVVTVKAEFDECREIGEETGIPPREVKAMVEAAARVGGWVDLKEREIKVQ 6iwm-a1-m2-cB_6iwm-a1-m1-cA Structural insight into probable lipid transfer mechanism of non-specific lipid transfer protein via intermediate structures in Solanum melongena A0A247D6Y2 A0A247D6Y2 1.98 X-RAY DIFFRACTION 49 1.0 4111 (Solanum melongena) 4111 (Solanum melongena) 90 92 6iwn-a1-m1-cA_6iwn-a1-m2-cB VTCGQVDANLAPCVPFLTQGGEPGAACCSGVKTLNGNAQSPDDRKTACNCIKAAANRYPNLKDDAAQSLPSKCGISLNVPISRTINCDTI AVTCGQVDANLAPCVPFLTQGGEPGAACCSGVKTLNGNAQSPDDRKTACNCIKAAANRYPNLKDDAAQSLPSKCGISLNVPISRTINCDTIS 6iwo-a1-m1-cB_6iwo-a1-m2-cA Structural insight into probable lipid transfer mechanism of non-specific lipid transfer protein via intermediate structures in Solanum melongena A0A247D6Y2 A0A247D6Y2 2.35 X-RAY DIFFRACTION 30 1.0 4111 (Solanum melongena) 4111 (Solanum melongena) 90 92 VTCGQVDANLAPCVPFLTQGGEPGAACCSGVKTLNGNAQSPDDRKTACNCIKAAANRYPNLKDDAAQSLPSKCGISLNVPISRTINCDTI AVTCGQVDANLAPCVPFLTQGGEPGAACCSGVKTLNGNAQSPDDRKTACNCIKAAANRYPNLKDDAAQSLPSKCGISLNVPISRTINCDTIS 6iwr-a3-m1-cE_6iwr-a3-m2-cF Crystal structure of GalNAc-T7 with UDP, GalNAc and Mn2+ Q86SF2 Q86SF2 2.604 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 546 546 6iwq-a1-m1-cA_6iwq-a1-m1-cC 6iwq-a2-m1-cB_6iwq-a2-m1-cD 6iwq-a3-m1-cE_6iwq-a3-m2-cF 6iwr-a1-m1-cA_6iwr-a1-m1-cB 6iwr-a2-m1-cD_6iwr-a2-m1-cC YLTFKPQTFTYHDPVLRPGILGNFEPKEPEPPGVVGGPGEKAKPLVLGPEFKQAIQASIKEFGFNMVASDMISLDRSVNDLRQEECKYWHYDENLLTSSVVIVFHNEGWSTLMRTVHSVIKRTPRKYLAEIVLIDDFSNKEHLKEKLDEYIKLWNGLVKVFRNERREGLIQARSIGAQKAKLGQVLIYLDAHCEVAVNWYAPLVAPISKDRTICTVPLIDVINGNTYEIIPQGGGDEDGYARGAWDWSMLWKRVPLTPQEKRLRKTKTEPYRSPAMAGGLFAIEREFFFELGLYDPGLQIWGGENFEISYKIWQCGGKLLFVPCSRVGHIYRLEGWQGNPPPIYVGSSPTLKNYVRVVEVWWDEYKDYFYASRPESQALPYGDISELKKFREDHNCKSFKWFMEEIAYDITSHYPLPPKNVDWGEIRGFETAYCIDSMGKTNGGFVELGPCHRMGGNQLFRINEANQLMQYDQCLTKGADGSKVMITHCNLNEFKEWQYFKNLHRFTHIPSGKCLDRSEVLHQVFISNCDSSKTTQKWEMNNIHSV YLTFKPQTFTYHDPVLRPGILGNFEPKEPEPPGVVGGPGEKAKPLVLGPEFKQAIQASIKEFGFNMVASDMISLDRSVNDLRQEECKYWHYDENLLTSSVVIVFHNEGWSTLMRTVHSVIKRTPRKYLAEIVLIDDFSNKEHLKEKLDEYIKLWNGLVKVFRNERREGLIQARSIGAQKAKLGQVLIYLDAHCEVAVNWYAPLVAPISKDRTICTVPLIDVINGNTYEIIPQGGGDEDGYARGAWDWSMLWKRVPLTPQEKRLRKTKTEPYRSPAMAGGLFAIEREFFFELGLYDPGLQIWGGENFEISYKIWQCGGKLLFVPCSRVGHIYRLEGWQGNPPPIYVGSSPTLKNYVRVVEVWWDEYKDYFYASRPESQALPYGDISELKKFREDHNCKSFKWFMEEIAYDITSHYPLPPKNVDWGEIRGFETAYCIDSMGKTNGGFVELGPCHRMGGNQLFRINEANQLMQYDQCLTKGADGSKVMITHCNLNEFKEWQYFKNLHRFTHIPSGKCLDRSEVLHQVFISNCDSSKTTQKWEMNNIHSV 6iwv-a1-m1-cA_6iwv-a1-m2-cA Crystal structure of a single strand DNA binding protein P81877 P81877 1.52 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 66 AVPSDSQAREKLALYVYEYLLHVGAQKSAQTFLSEIRWEKNITLGEPPGFLHSWWCVFWDLYCAAP AVPSDSQAREKLALYVYEYLLHVGAQKSAQTFLSEIRWEKNITLGEPPGFLHSWWCVFWDLYCAAP 6iwy-a2-m1-cA_6iwy-a2-m2-cA Crystal structure of the flagellar cap protein FliD from Helicobacter pylori P96786 P96786 2.6 X-RAY DIFFRACTION 88 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 366 366 VTGDALSASDIKVDVQNLAQGDINELGAKFSSRDDIFSQVDTTLKFYTQNKDYAVNIKAGMTLGDVAQSITDATNGEVMGIVMKTGGNDPYQLMVNTKNTGEDNRVYFGSHLQSTLTNKNALSLGVDGSGKSEVSLNLKGADGNMHEVPIMLELPESASIKQKNTAIQKAMEQALENDPNFKNLIANGDISIDTLHGGESLIINDRRGGNIEVKGSKAKELGFLQTTTQESDLLKSSRTIKEGKLEGVVSLNGQKLNTDAIIQAINAKEGLSAFKNAEGKLVINSKTGMLTIKGEDALGKASLKDLGLNAGMVQSYEASQNTLFMSKNLQKASDSAFTYITRPTNEVNVNITLEQTTEPNKPAIIS VTGDALSASDIKVDVQNLAQGDINELGAKFSSRDDIFSQVDTTLKFYTQNKDYAVNIKAGMTLGDVAQSITDATNGEVMGIVMKTGGNDPYQLMVNTKNTGEDNRVYFGSHLQSTLTNKNALSLGVDGSGKSEVSLNLKGADGNMHEVPIMLELPESASIKQKNTAIQKAMEQALENDPNFKNLIANGDISIDTLHGGESLIINDRRGGNIEVKGSKAKELGFLQTTTQESDLLKSSRTIKEGKLEGVVSLNGQKLNTDAIIQAINAKEGLSAFKNAEGKLVINSKTGMLTIKGEDALGKASLKDLGLNAGMVQSYEASQNTLFMSKNLQKASDSAFTYITRPTNEVNVNITLEQTTEPNKPAIIS 6ix4-a1-m1-cA_6ix4-a1-m1-cB Structure of an epoxide hydrolase from Aspergillus usamii E001 (AuEH2) at 1.51 Angstroms resolution T2B4K5 T2B4K5 1.511 X-RAY DIFFRACTION 209 1.0 186680 (Aspergillus usamii) 186680 (Aspergillus usamii) 386 395 LAYSNIPLGATVIPSPFQVHISDEQIEELQLLVKLSKLAPPTYEGLQQDRRYGITNEWLANAKEAWKSFDWRPAESRINSFPQFTYDIEGLTIHFVALFSEKKDAIPIVLLHGWPGSFLEFLPVLTSIRDKYSPETLPYHIVVPSLPGYTFSSGPPLDVNFNGEDTARVINKVMLNLGFEDGYVAQGGDIGSKIGRILAVDHDACKAVHLNACYMGKPSSITEEDKRALARAQWFATFGSGYAVEHGTRPSTIGNALSTSPVALLSWIGEKFLDWAGETIPLETILESVTLYWFTETFPRSIYHYRENFPPPKLRHTEDPRWYIRKPFGFSYYPMELVPTPRAWVETTGNLVFWQAHEKGGHFAALERPQDYLDDLTAFCEQVWAG AFMALAYSNIPLGATVIPSPFQVHISDEQIEELQLLVKLSKLAPPTYEGLQQDRRYGITNEWLANAKEAWKSFDWRPAESRINSFPQFTYDIEGLTIHFVALFSEKKDAIPIVLLHGWPGSFLEFLPVLTSIRDKYSPETLPYHIVVPSLPGYTFSSGPPLDVNFNGEDTARVINKVMLNLGFEDGYVAQGGDIGSKIGRILAVDHDACKAVHLNACYMGKPSSIPDTAITEEDKRALARAQWFATFGSGYAVEHGTRPSTIGNALSTSPVALLSWIGEKFLDWAGETIPLETILESVTLYWFTETFPRSIYHYRENFPPPKLRHTEDPRWYIRKPFGFSYYPMELVPTPRAWVETTGNLVFWQAHEKGGHFAALERPQDYLDDLTAFCEQVWAG 6ixh-a1-m1-cJ_6ixh-a1-m1-cE Type VI secretion system membrane core complex B7LFS8 B7LFS8 4.0 ELECTRON MICROSCOPY 40 0.992 585055 (Escherichia coli 55989) 585055 (Escherichia coli 55989) 133 135 6hs7-a1-m1-cF_6hs7-a1-m1-cH 6hs7-a1-m1-cI_6hs7-a1-m1-cK 6hs7-a1-m1-cL_6hs7-a1-m1-cN 6hs7-a1-m1-cO_6hs7-a1-m1-cQ 6hs7-a1-m1-cR_6hs7-a1-m1-cT 6ixh-a1-m1-cF_6ixh-a1-m1-cA 6ixh-a1-m1-cG_6ixh-a1-m1-cB 6ixh-a1-m1-cH_6ixh-a1-m1-cC 6ixh-a1-m1-cI_6ixh-a1-m1-cD YRQIKTLHLDIRAREAINTSAAGIPLSVVVRIYQLKDNRSFDSADYQALFTGDNEILAGDIIAQKDVWLQPGGSVAVDMPLDDAAKFTGVAAMFLEPDQKKNTWRVVLGRDELEPDTPRLIEVSGNTLTLLPV RQIKTLHLDIRAREAINTSAAGIPLSVVVRIYQLKDNRSFDSADYQALFTGDNEILAGDIIAQKDVWLQPGGSVAVDMPLDDAAKFTGVAAMFLEPDQKKNTWRVVLGRDELEPDTPRLIEVSGNTLTLLPVKDK 6iy0-a4-m1-cG_6iy0-a4-m1-cH Crystal structure of conserved hypothetical protein SAV0927 from Staphylococcus aureus subsp. aureus Mu50 A0A0H3JQV2 A0A0H3JQV2 2.5 X-RAY DIFFRACTION 100 1.0 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 83 83 6iy0-a2-m1-cD_6iy0-a2-m1-cC 6iy0-a3-m1-cE_6iy0-a3-m1-cF IDYLYDDNEESQVQFVGFVGEHSRYDLLVHTNRHYGKTLVLNQTNKFGIIGTDDLKEEGYIAHILGVNAEEGDEITEYLNEVI IDYLYDDNEESQVQFVGFVGEHSRYDLLVHTNRHYGKTLVLNQTNKFGIIGTDDLKEEGYIAHILGVNAEEGDEITEYLNEVI 6iy6-a2-m1-cG_6iy6-a2-m1-cH Crystal structure of human cytosolic aspartyl-tRNA synthetase (DRS) in complex with glutathion-S transferase (GST) domains from Aminoacyl tRNA synthase complex-interacting multifunctional protein 2 (AIMP2) and glutamyl-prolyl-tRNA synthetase (EPRS) P14868 P14868 3.6 X-RAY DIFFRACTION 252 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 417 417 4j15-a1-m1-cB_4j15-a1-m1-cA 6iy6-a1-m1-cB_6iy6-a1-m1-cA DYAKERYGISSMIQSQEKPDRVLVRVRDLTIQKADEVVWVRARVHTSRAKGKQCFLVLRQQQFNVQALVAVGDHASKQMVKFAANINKESIVDVEGVVRKVNQKIGSCTQQDVELHVQKIYVISLAEPRLPLRLDNRVIDLRTSTSQAVFRLQSGICHLFRETLINKGFVEIQTPKIISSPQLYKQMCICADFEKVFSIGPVFHLTEFVGLDIEMAFNYHYHEVMEEIADTMVQIFKGLQERFQTEIQTVNKQFPCEPFKFLEPTLRLEYCEALAMLREAGVEMGDEDDLSTPNEKLLGHLVKEKYDTDFYILDKYPLAVRPFYTMPDPRNPKQSNSYDMFMRGEEILSGAQRIHDPQLLTERALHHGIDLEKIKAYIDSFRFGAPPHAGGGIGLERVTMLFLGLHNVRQTSMFPRD DYAKERYGISSMIQSQEKPDRVLVRVRDLTIQKADEVVWVRARVHTSRAKGKQCFLVLRQQQFNVQALVAVGDHASKQMVKFAANINKESIVDVEGVVRKVNQKIGSCTQQDVELHVQKIYVISLAEPRLPLRLDNRVIDLRTSTSQAVFRLQSGICHLFRETLINKGFVEIQTPKIISSPQLYKQMCICADFEKVFSIGPVFHLTEFVGLDIEMAFNYHYHEVMEEIADTMVQIFKGLQERFQTEIQTVNKQFPCEPFKFLEPTLRLEYCEALAMLREAGVEMGDEDDLSTPNEKLLGHLVKEKYDTDFYILDKYPLAVRPFYTMPDPRNPKQSNSYDMFMRGEEILSGAQRIHDPQLLTERALHHGIDLEKIKAYIDSFRFGAPPHAGGGIGLERVTMLFLGLHNVRQTSMFPRD 6iy8-a1-m1-cA_6iy8-a1-m1-cD DmpR-phenol complex of Pseudomonas putida Q7WSM9 Q7WSM9 3.42 X-RAY DIFFRACTION 74 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 469 469 6iy8-a1-m1-cB_6iy8-a1-m1-cC MDPEFTNLIHFQSTEGKIWLGEQRMLLLQVSAMASFRREMVNTLGIERAKGFFLRQGYQSGLKDAELARKLRPNASEYDMFLAGPQLHSLKGLVKVRPTEVDIDKESGRFYAEMEWIDSFEVEISQTDLGQMQDPVCWTLLGYACAYSSAFMGREIIFKEVSCRGCGGDKCRVIGKPAEEWDDVASFKQYFKNDPIIEELYELQSQLVSLRTNLDKQEGQYYGIGQTPAYQTVRNMMDKAAQGKVSVLLLGETGVGKEVIARSVHLRSKRAAEPFVAVNCAAIPPDLIESELFGVEKGAFTGATQSRMGRFERADKGTIFLDEVIELSPRAQASLLRVLQEGELERVGDNRTRKIDVRVIAATHEDLAEAVKAGRFRADLYYRLNVFPVAIPALRERREDIPLLVEHFLQRFHQEYGKRTLGLSDKALEACLHYSWPGNIRELENVIERGIILTDPNESISVQALFPRA MDPEFTNLIHFQSTEGKIWLGEQRMLLLQVSAMASFRREMVNTLGIERAKGFFLRQGYQSGLKDAELARKLRPNASEYDMFLAGPQLHSLKGLVKVRPTEVDIDKESGRFYAEMEWIDSFEVEISQTDLGQMQDPVCWTLLGYACAYSSAFMGREIIFKEVSCRGCGGDKCRVIGKPAEEWDDVASFKQYFKNDPIIEELYELQSQLVSLRTNLDKQEGQYYGIGQTPAYQTVRNMMDKAAQGKVSVLLLGETGVGKEVIARSVHLRSKRAAEPFVAVNCAAIPPDLIESELFGVEKGAFTGATQSRMGRFERADKGTIFLDEVIELSPRAQASLLRVLQEGELERVGDNRTRKIDVRVIAATHEDLAEAVKAGRFRADLYYRLNVFPVAIPALRERREDIPLLVEHFLQRFHQEYGKRTLGLSDKALEACLHYSWPGNIRELENVIERGIILTDPNESISVQALFPRA 6iy8-a1-m1-cB_6iy8-a1-m1-cD DmpR-phenol complex of Pseudomonas putida Q7WSM9 Q7WSM9 3.42 X-RAY DIFFRACTION 101 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 465 469 6iy8-a1-m1-cC_6iy8-a1-m1-cA FTNLIHFQSTEGKIWLGEQRMLLLQVSAMASFRREMVNTLGIERAKGFFLRQGYQSGLKDAELARKLRPNASEYDMFLAGPQLHSLKGLVKVRPTEVDIDKESGRFYAEMEWIDSFEVEISQTDLGQMQDPVCWTLLGYACAYSSAFMGREIIFKEVSCRGCGGDKCRVIGKPAEEWDDVASFKQYFKNDPIIEELYELQSQLVSLRTNLDKQEGQYYGIGQTPAYQTVRNMMDKAAQGKVSVLLLGETGVGKEVIARSVHLRSKRAAEPFVAVNCAAIPPDLIESELFGVEKGAFTGATQSRMGRFERADKGTIFLDEVIELSPRAQASLLRVLQEGELERVGDNRTRKIDVRVIAATHEDLAEAVKAGRFRADLYYRLNVFPVAIPALRERREDIPLLVEHFLQRFHQEYGKRTLGLSDKALEACLHYSWPGNIRELENVIERGIILTDPNESISVQALFPRA MDPEFTNLIHFQSTEGKIWLGEQRMLLLQVSAMASFRREMVNTLGIERAKGFFLRQGYQSGLKDAELARKLRPNASEYDMFLAGPQLHSLKGLVKVRPTEVDIDKESGRFYAEMEWIDSFEVEISQTDLGQMQDPVCWTLLGYACAYSSAFMGREIIFKEVSCRGCGGDKCRVIGKPAEEWDDVASFKQYFKNDPIIEELYELQSQLVSLRTNLDKQEGQYYGIGQTPAYQTVRNMMDKAAQGKVSVLLLGETGVGKEVIARSVHLRSKRAAEPFVAVNCAAIPPDLIESELFGVEKGAFTGATQSRMGRFERADKGTIFLDEVIELSPRAQASLLRVLQEGELERVGDNRTRKIDVRVIAATHEDLAEAVKAGRFRADLYYRLNVFPVAIPALRERREDIPLLVEHFLQRFHQEYGKRTLGLSDKALEACLHYSWPGNIRELENVIERGIILTDPNESISVQALFPRA 6iy8-a1-m1-cC_6iy8-a1-m1-cD DmpR-phenol complex of Pseudomonas putida Q7WSM9 Q7WSM9 3.42 X-RAY DIFFRACTION 205 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 468 469 6iy8-a1-m1-cB_6iy8-a1-m1-cA DPEFTNLIHFQSTEGKIWLGEQRMLLLQVSAMASFRREMVNTLGIERAKGFFLRQGYQSGLKDAELARKLRPNASEYDMFLAGPQLHSLKGLVKVRPTEVDIDKESGRFYAEMEWIDSFEVEISQTDLGQMQDPVCWTLLGYACAYSSAFMGREIIFKEVSCRGCGGDKCRVIGKPAEEWDDVASFKQYFKNDPIIEELYELQSQLVSLRTNLDKQEGQYYGIGQTPAYQTVRNMMDKAAQGKVSVLLLGETGVGKEVIARSVHLRSKRAAEPFVAVNCAAIPPDLIESELFGVEKGAFTGATQSRMGRFERADKGTIFLDEVIELSPRAQASLLRVLQEGELERVGDNRTRKIDVRVIAATHEDLAEAVKAGRFRADLYYRLNVFPVAIPALRERREDIPLLVEHFLQRFHQEYGKRTLGLSDKALEACLHYSWPGNIRELENVIERGIILTDPNESISVQALFPRA MDPEFTNLIHFQSTEGKIWLGEQRMLLLQVSAMASFRREMVNTLGIERAKGFFLRQGYQSGLKDAELARKLRPNASEYDMFLAGPQLHSLKGLVKVRPTEVDIDKESGRFYAEMEWIDSFEVEISQTDLGQMQDPVCWTLLGYACAYSSAFMGREIIFKEVSCRGCGGDKCRVIGKPAEEWDDVASFKQYFKNDPIIEELYELQSQLVSLRTNLDKQEGQYYGIGQTPAYQTVRNMMDKAAQGKVSVLLLGETGVGKEVIARSVHLRSKRAAEPFVAVNCAAIPPDLIESELFGVEKGAFTGATQSRMGRFERADKGTIFLDEVIELSPRAQASLLRVLQEGELERVGDNRTRKIDVRVIAATHEDLAEAVKAGRFRADLYYRLNVFPVAIPALRERREDIPLLVEHFLQRFHQEYGKRTLGLSDKALEACLHYSWPGNIRELENVIERGIILTDPNESISVQALFPRA 6iya-a2-m1-cC_6iya-a2-m1-cD Structure of the DNA binding domain of antitoxin CopASO Q8EGZ2 Q8EGZ2 3 X-RAY DIFFRACTION 105 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 45 48 6iya-a1-m1-cA_6iya-a1-m1-cB 6iya-a3-m1-cE_6iya-a3-m2-cE 6iya-a4-m1-cF_6iya-a4-m2-cF 7etr-a1-m1-cB_7etr-a1-m1-cA KPVSVKLDADIKARVEHLAETRKRSSHWMMREAIREYVEREEKRE TIKPVSVKLDADIKARVEHLAETRKRSSHWMMREAIREYVEREEKREA 6iyh-a1-m1-cB_6iyh-a1-m2-cB X-ray sequence and high resolution crystal structure of Persian sturgeon methemoglobin A0A1X8XL86 A0A1X8XL86 1.7 X-RAY DIFFRACTION 10 1.0 61968 (Acipenser persicus) 61968 (Acipenser persicus) 145 145 6iyi-a1-m1-cB_6iyi-a1-m2-cB EWTDSERFAITTLWAKVNVESVGAQALVRLLVVYPWTQRYFGAFGNISDAAAIAGNAQVHAHGKTVLDSVGNAIAHMDDVADAFTALSTFHSETLHVDPDNFQHFGDCLSIVLAATFGTAYTPDVQAAWQKMIAVIISALSKEYH EWTDSERFAITTLWAKVNVESVGAQALVRLLVVYPWTQRYFGAFGNISDAAAIAGNAQVHAHGKTVLDSVGNAIAHMDDVADAFTALSTFHSETLHVDPDNFQHFGDCLSIVLAATFGTAYTPDVQAAWQKMIAVIISALSKEYH 6iym-a1-m1-cA_6iym-a1-m1-cB Fumarylacetoacetate hydrolase (EaFAH) from psychrophilic Exiguobacterium antarcticum K0A9N9 K0A9N9 2.1 X-RAY DIFFRACTION 93 1.0 1087448 (Exiguobacterium antarcticum B7) 1087448 (Exiguobacterium antarcticum B7) 277 277 SMKWFRFEQDGRARIGVEEAGHRYDVTPQVYTDSLLEVIVRGFEMDVDLDVAPRLTDHVRLLAPYLPPRNVICVGKNYADHIKEMDTAGAGKFVLFTKAPSSIVGPFDPIERHADLTQQLDYEGELAIIIGTTGRDLTPENALEHVFGYSIINDVTARDLQKEHVQFFRGKSLDGFCPFGPVIVTEDAFDPADVLVETRVNGELRQSGSTKLMLRDVVTILTEVSRGMTLEAGDVIATGTPAGVGHGMKPPVYLQDGDVIDVSIEGIGHLQNQVKAR SMKWFRFEQDGRARIGVEEAGHRYDVTPQVYTDSLLEVIVRGFEMDVDLDVAPRLTDHVRLLAPYLPPRNVICVGKNYADHIKEMDTAGAGKFVLFTKAPSSIVGPFDPIERHADLTQQLDYEGELAIIIGTTGRDLTPENALEHVFGYSIINDVTARDLQKEHVQFFRGKSLDGFCPFGPVIVTEDAFDPADVLVETRVNGELRQSGSTKLMLRDVVTILTEVSRGMTLEAGDVIATGTPAGVGHGMKPPVYLQDGDVIDVSIEGIGHLQNQVKAR 6iyo-a1-m1-cB_6iyo-a1-m1-cA Crystal Structure of the acyltransferase domain from the second module of the salinomycin polyketide synthase H1ZZT3 H1ZZT3 2.2 X-RAY DIFFRACTION 297 1.0 67257 (Streptomyces albus subsp. albus) 67257 (Streptomyces albus subsp. albus) 415 421 AGLVAWPLSARGERALRGQAGRLADWADAGTGLSATASALVHRRSALEHRAVVTADSLEGQLAALRALAAGEEAPGLRQGQLPATQGRLAFLFSGQGAQRAGMGRELYAAEPVFAAAFDEVCAAFGEDLRERIFTARQEELDRTGTTQPALFAIEVALFRLVESLGVRPDFVAGHSIGELAAAHVAGVLSLPDACRLVAARGQLMEALPEGGAMVSVRATEDEVRAHLTGRVDVAAVNGPESVVLSGEEAAVEEIAGRLAEAGRKTRRLRVSHAFHSPLMEPMLDAFRRVAEELTYQAPSVPVVSNLTGEQVTAFDAAYWVEHVRRAVRFADGIGFLASRGVTRFVELGPDGVLTAMAQETLTDPETLLLPVLRKDRPEPEAFLDALAQAWTRGVDVDWAARYGPEQSTGVSLPT AGLVAWPLSARGERALRGQAGRLADWADAGTGLSATASALVHRRSALEHRAVVTADSLEGQLAALRALAAGEEAPGLRQGQLPATQGRLAFLFSGQGAQRAGMGRELYAAEPVFAAAFDEVCAAFGEDLRERIFTARQEELDRTGTTQPALFAIEVALFRLVESLGVRPDFVAGHSIGELAAAHVAGVLSLPDACRLVAARGQLMEALPEGGAMVSVRATEDEVRAHLAEFTGRVDVAAVNGPESVVLSGEEAAVEEIAGRLAEAGRKTRRLRVSHAFHSPLMEPMLDAFRRVAEELTYQAPSVPVVSNLTGEQVTAFDAAYWVEHVRRAVRFADGIGFLASRGVTRFVELGPDGVLTAMAQETLTDPETLLLPVLRKDRPEPEAFLDALAQAWTRGVDVDWAARYGPEQSTGVSLPTYAF 6iys-a1-m1-cO_6iys-a1-m2-cO Loop deletion and proline insertion mutant (deleting six residues and inserted three proline residues) P0CL66 P0CL66 3 X-RAY DIFFRACTION 121 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 245 245 MKNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGAVSVELNDTPPPKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK MKNSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSKDKSSTEEKFNEKGEVSEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGAVSVELNDTPPPKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK 6iz2-a2-m1-cB_6iz2-a2-m3-cB Crystal structure of DinB/YfiT protein DR0053 from D. radiodurans R1 Q9RY97 Q9RY97 2.069 X-RAY DIFFRACTION 82 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 144 144 6iz2-a1-m1-cA_6iz2-a1-m2-cA LLLSPAELLAHWQGHRDLTRRVIEAFPEEGFAAHHAPDMRPFQAMACELAGMVEYQLDWFRRGQPTWELPGRAELLAWWDKLTAELGAEVPQVSTEMWATPATTPFGKMSPLMSVMYLIDNEVHHRGQGYVYLRELGVTPPAFY LLLSPAELLAHWQGHRDLTRRVIEAFPEEGFAAHHAPDMRPFQAMACELAGMVEYQLDWFRRGQPTWELPGRAELLAWWDKLTAELGAEVPQVSTEMWATPATTPFGKMSPLMSVMYLIDNEVHHRGQGYVYLRELGVTPPAFY 6ize-a1-m1-cA_6ize-a1-m1-cB Dimeric human TCTP P13693 P13693 2.29 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 143 5o9m-a1-m1-cA_5o9m-a1-m1-cB 6izb-a1-m1-cA_6izb-a1-m2-cA 6ize-a2-m1-cC_6ize-a2-m1-cD MIIYRDLISHDEMFSDIYKIREIADGLCLEVEGKMVSITGVDIVMNHHLQETSFTKEAYKKYIKDYMKSIKGKLEEQRPERVKPFMTGAAEQIKHILANFKNYQFFIGENMNPDGMVALLDYREDGVTPYMIFFKDGLEMEKC MIIYRDLISHDEMFSDIYKIREIADGLCLEVEGKMVSITGVDIVMNHHLQETSFTKEAYKKYIKDYMKSIKGKLEEQRPERVKPFMTGAAEQIKHILANFKNYQFFIGENMNPDGMVALLDYREDGVTPYMIFFKDGLEMEKC 6j05-a1-m1-cB_6j05-a1-m1-cA Structures of two ArsR As(III)-responsive repressors: implications for the mechanism of derepression B7J952 B7J952 1.86 X-RAY DIFFRACTION 77 0.989 920 (Acidithiobacillus ferrooxidans) 920 (Acidithiobacillus ferrooxidans) 90 101 LQDPAQIVARLEALASPVRLEIFRLLVEQEPTGLVSGDIAEHLGQPHNGISFHLKNLQHAGLVTVQREGRYQRYRAAMPVVRALVAYLTE QDPAQIVARLEALASPVRLEIFRLLVEQEPTGLVSGDIAEHLGQPHNGISFHLKNLQHAGLVTVQREGRYQRYRAAMPVVRALVAYLTENCCHGTRDCALS 6j0e-a1-m1-cA_6j0e-a1-m1-cB Structures of two ArsR As(III)-responsive repressors: implications for the mechanism of derepression A0A5H1ZR36 A0A5H1ZR36 1.6 X-RAY DIFFRACTION 173 0.992 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 124 125 TTLHTIQLANPTECCTTGPLSSDESEHYADLFKVLGDPVRLRILSQLAAGGCGPVSVNELTDLMGLSQPTISHHLKKMTEAGFLDRVPEGRVVLHRVRPELFAELRTVLQIGSMELLEHHHHHH TLHTIQLANPTECCTLATGPLSSDESEHYADLFKVLGDPVRLRILSQLAAGGCGPVSVNELTDLMGLSQPTISHHLKKMTEAGFLDRVPEGRVVLHRVRPELFAELRTVLQIGSMELLEHHHHHH 6j0f-a1-m1-cE_6j0f-a1-m1-cF Cryo-EM Structure of an Extracellular Contractile Injection System, PVC sheath/tube terminator in extended state B6VNM9 B6VNM9 3.8 ELECTRON MICROSCOPY 104 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 272 272 6j0f-a1-m1-cA_6j0f-a1-m1-cB 6j0f-a1-m1-cA_6j0f-a1-m1-cF 6j0f-a1-m1-cB_6j0f-a1-m1-cC 6j0f-a1-m1-cC_6j0f-a1-m1-cD 6j0f-a1-m1-cD_6j0f-a1-m1-cE LNTQTIIDVNKAMDAMLRAYLNQDIAIRFDLPELDTMQSDAMVSIFLYDIHEDLQLRSAESRGFDVYAGRLLPGWVNIKCNYLITYWEASQPDNQAIQVMSQVLNALINNRQLAGIPGAYTQVVPPKESLNSLGNFWQSLGNRPRLSLNYSVTVPVSLNDGQDSATPVTAVSSTVEQTASLSQEVVSHALRELLITELGGGEDNRLVLSKVELSAVKETMTQDMIILLSVSGITRQEYLKEIDNIFDRWVNNAEVICGIRIESITKDNLVGI LNTQTIIDVNKAMDAMLRAYLNQDIAIRFDLPELDTMQSDAMVSIFLYDIHEDLQLRSAESRGFDVYAGRLLPGWVNIKCNYLITYWEASQPDNQAIQVMSQVLNALINNRQLAGIPGAYTQVVPPKESLNSLGNFWQSLGNRPRLSLNYSVTVPVSLNDGQDSATPVTAVSSTVEQTASLSQEVVSHALRELLITELGGGEDNRLVLSKVELSAVKETMTQDMIILLSVSGITRQEYLKEIDNIFDRWVNNAEVICGIRIESITKDNLVGI 6j0k-a1-m1-cA_6j0k-a1-m1-cB Crystal structure of intracellular B30.2 domain of BTN3A3 mutant in complex with HMBPP O00478 O00478 2 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 191 AGAAYHEWKMALFKPADVILDPDTANAILLVSEDQRSVQRAEEPRDLPDNPERFEWHYCVLGCENFTSGRHYWEVEVGDRKEWHIGVCSKNVERKKGWVKMTPENGYWTMGLTDGNKYRALTEPRTNLKLPEPPRKVGIFLDYETGEISFYNATDGSHIYTFPHASFSEPLYPVFRILTLEPTALTICPIP AGAAYHEWKMALFKPADVILDPDTANAILLVSEDQRSVQRAEEPRDLPDNPERFEWHYCVLGCENFTSGRHYWEVEVGDRKEWHIGVCSKNVERKKGWVKMTPENGYWTMGLTDGNKYRALTEPRTNLKLPEPPRKVGIFLDYETGEISFYNATDGSHIYTFPHASFSEPLYPVFRILTLEPTALTICPIP 6j0l-a3-m1-cB_6j0l-a3-m2-cB Crystal structure of intracellular B30.2 domain of BTN3A3 mutant in complex with sulfate ion O00478 O00478 1.95 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 6j0l-a3-m1-cA_6j0l-a3-m2-cA AYHEWKMALFKPADVILDPDTANAILLVSEDQRSVQRAEEPRDLPDNPERFEWHYCVLGCENFTSGRHYWEVEVGDRKEWHIGVCSKNVERKKGWVKMTPENGYWTMGLTDGNKYRALTEPRTNLKLPEPPRKVGIFLDYETGEISFYNATDGSHIYTFPHASFSEPLYPVFRILTLEPTALTICPI AYHEWKMALFKPADVILDPDTANAILLVSEDQRSVQRAEEPRDLPDNPERFEWHYCVLGCENFTSGRHYWEVEVGDRKEWHIGVCSKNVERKKGWVKMTPENGYWTMGLTDGNKYRALTEPRTNLKLPEPPRKVGIFLDYETGEISFYNATDGSHIYTFPHASFSEPLYPVFRILTLEPTALTICPI 6j0l-a3-m2-cA_6j0l-a3-m2-cB Crystal structure of intracellular B30.2 domain of BTN3A3 mutant in complex with sulfate ion O00478 O00478 1.95 X-RAY DIFFRACTION 16 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 187 187 6j0l-a3-m1-cA_6j0l-a3-m1-cB YHEWKMALFKPADVILDPDTANAILLVSEDQRSVQRAEEPRDLPDNPERFEWHYCVLGCENFTSGRHYWEVEVGDRKEWHIGVCSKNVERKKGWVKMTPENGYWTMGLTDGNKYRALTEPRTNLKLPEPPRKVGIFLDYETGEISFYNATDGSHIYTFPHASFSEPLYPVFRILTLEPTALTICPIP AYHEWKMALFKPADVILDPDTANAILLVSEDQRSVQRAEEPRDLPDNPERFEWHYCVLGCENFTSGRHYWEVEVGDRKEWHIGVCSKNVERKKGWVKMTPENGYWTMGLTDGNKYRALTEPRTNLKLPEPPRKVGIFLDYETGEISFYNATDGSHIYTFPHASFSEPLYPVFRILTLEPTALTICPI 6j0m-a1-m1-cB_6j0m-a1-m1-cC Cryo-EM Structure of an Extracellular Contractile Injection System, PVC baseplate in extended state (reconstructed with C3 symmetry) B6VNN7 B6VNN7 3.9 ELECTRON MICROSCOPY 386 1.0 291112 (Photorhabdus asymbiotica) 291112 (Photorhabdus asymbiotica) 535 535 6j0m-a1-m1-cA_6j0m-a1-m1-cB 6j0m-a1-m1-cA_6j0m-a1-m1-cC SHQLKIIADGKALSLLAAVDVDTCYRVNSIPSATLKLSVPDRPLSSFSQTDVQTELAHCQVGKTLRLELIDGSKKWVLFNGLITRKALRIKNKQLLLTLVVKHRLQLMVDTQHSQLFKDKSEKAILSTLLNQTGINARFGKIAALDQKHEQMVQFRCSDWHFLLCRLSATGAWLLPAIEDVQFVQPDALKSNSAYTLKSRGDENKDIVVKDAYWQFDNQINPALLEVSGWDISKQQVQSGGRYGKIALGKAALSPDGLASLNKTGWDICYSSPLTTQESGYLAQGLLLNQRISGVTGEFLLKGDGRYQLGDNIQLTGFGSQLDGTASITEVRHRLNRRIDWETTVSIGLQHEYLPILDAPELHIATVAKYQQDSAVLNRIPIILPVLNRPNEFLWARLGKPYASHESGFCFYPEPGDEVIIGFFENDPRYPVILGAMHNPKNKAPFEPTQDNREKVLIVKKGEAQQQLVIDGKEKMIRINAGENQIMLQQDKDISLSTKKELTLKAQTMNATMDKSLAMSGKNSVEIKGAKINLT SHQLKIIADGKALSLLAAVDVDTCYRVNSIPSATLKLSVPDRPLSSFSQTDVQTELAHCQVGKTLRLELIDGSKKWVLFNGLITRKALRIKNKQLLLTLVVKHRLQLMVDTQHSQLFKDKSEKAILSTLLNQTGINARFGKIAALDQKHEQMVQFRCSDWHFLLCRLSATGAWLLPAIEDVQFVQPDALKSNSAYTLKSRGDENKDIVVKDAYWQFDNQINPALLEVSGWDISKQQVQSGGRYGKIALGKAALSPDGLASLNKTGWDICYSSPLTTQESGYLAQGLLLNQRISGVTGEFLLKGDGRYQLGDNIQLTGFGSQLDGTASITEVRHRLNRRIDWETTVSIGLQHEYLPILDAPELHIATVAKYQQDSAVLNRIPIILPVLNRPNEFLWARLGKPYASHESGFCFYPEPGDEVIIGFFENDPRYPVILGAMHNPKNKAPFEPTQDNREKVLIVKKGEAQQQLVIDGKEKMIRINAGENQIMLQQDKDISLSTKKELTLKAQTMNATMDKSLAMSGKNSVEIKGAKINLT 6j0n-a1-m1-cN_6j0n-a1-m1-cO Cryo-EM Structure of an Extracellular Contractile Injection System, baseplate in extended state, refined in C6 symmetry B6VNN4 B6VNN4 3.5 ELECTRON MICROSCOPY 10 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 602 602 6j0n-a1-m1-cJ_6j0n-a1-m1-cK 6j0n-a1-m1-cJ_6j0n-a1-m1-cO 6j0n-a1-m1-cK_6j0n-a1-m1-cL 6j0n-a1-m1-cL_6j0n-a1-m1-cM 6j0n-a1-m1-cM_6j0n-a1-m1-cN ELNELTNKLSNLVPMTDFKLDNRASLQLLKYIEAYTKIIPFNSGDKYWNDFFFMSGNTPEKLAKLYQKEIEPNGELLPQQAFLLAVLRLLETPISLLNVLPAAHRELYYRELLGLSSHAAQPDQVALSMELNSTVMEQLLPEGTLFEAGQDEQGNALQYALDASLLANRGYISDLRWLRNDGEKQWVTSAPWDLQAQVSLPSDGIRLFGKTNSDQQVFGGVLITSMYHLTPFGYSSDIEPLEENPALYLGFTDVKPGQTLALYWKLKSPQQPTVSWYYLDQHNQWAELDSWVSDGTQNLYQDGTWHVELPVDASNQAEQMPVGRYWLRAVVEVPAHEGALGKAPWLYGLIYNAMTATLVNVDSISDSHFLTPLPASSIQRPVEPIIVLASVNQPWASWGGRIPESYSAFFERIAQNLSHRNRSLTWGNMVTLLKERYVSIFDVKYPGNDELTRVPALEQQQLTVIPANRYNDSDDSLRPVLNPARLQEMADWLQQKDSPWASIEVRNPEYLDVKIHYEVIFKPDVNEDFGYRQLQQQLCEVYMPWSIDEQRPVVLNNSINYFQLLATIQQQPLVERVTRLTLHRATASVEAKDNEVLILVWE ELNELTNKLSNLVPMTDFKLDNRASLQLLKYIEAYTKIIPFNSGDKYWNDFFFMSGNTPEKLAKLYQKEIEPNGELLPQQAFLLAVLRLLETPISLLNVLPAAHRELYYRELLGLSSHAAQPDQVALSMELNSTVMEQLLPEGTLFEAGQDEQGNALQYALDASLLANRGYISDLRWLRNDGEKQWVTSAPWDLQAQVSLPSDGIRLFGKTNSDQQVFGGVLITSMYHLTPFGYSSDIEPLEENPALYLGFTDVKPGQTLALYWKLKSPQQPTVSWYYLDQHNQWAELDSWVSDGTQNLYQDGTWHVELPVDASNQAEQMPVGRYWLRAVVEVPAHEGALGKAPWLYGLIYNAMTATLVNVDSISDSHFLTPLPASSIQRPVEPIIVLASVNQPWASWGGRIPESYSAFFERIAQNLSHRNRSLTWGNMVTLLKERYVSIFDVKYPGNDELTRVPALEQQQLTVIPANRYNDSDDSLRPVLNPARLQEMADWLQQKDSPWASIEVRNPEYLDVKIHYEVIFKPDVNEDFGYRQLQQQLCEVYMPWSIDEQRPVVLNNSINYFQLLATIQQQPLVERVTRLTLHRATASVEAKDNEVLILVWE 6j0n-a1-m1-cT_6j0n-a1-m1-cU Cryo-EM Structure of an Extracellular Contractile Injection System, baseplate in extended state, refined in C6 symmetry B6VNN3 B6VNN3 3.5 ELECTRON MICROSCOPY 37 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 780 780 6j0n-a1-m1-cP_6j0n-a1-m1-cQ 6j0n-a1-m1-cP_6j0n-a1-m1-cU 6j0n-a1-m1-cQ_6j0n-a1-m1-cR 6j0n-a1-m1-cR_6j0n-a1-m1-cS 6j0n-a1-m1-cS_6j0n-a1-m1-cT ALFHSVKDDIHFDTLLEQAHQVIEKQAEKLWSDTAEHDPGITFLQGISYGVSDLAYRHTLPLKDLLTPAPDEQQQEGIFPAEFGPHNTLTCGPVTADDYRKALLDLHSSDSLDGTQQDEGDFLFRSVQLVREPEKQRYTYWYAKEFTLRGNYWLYLEPTRWTQGNIAAATRQLTEFLTKNRNIGESVSNIIWLQPVDLPLLLDVELDDDVGAQDVPGIFAAVYSTAEQYLMPGAQRYRTEVLQNAGMSNDQIFEGPLLEHGWIPELPAARDYTQRLTLNLSRLVNSLLEIEGIKHVNRLRLDDSFDKTAIEPVKGDTWSWSIKEGYYPRLWGEDPLNQLAQQNGPLRVIAKGGISVSVSKEQIQASLPSQSLIQNEPVILAYGQHRDVGSYYPVSDTLPPCYGLQHSLSESEHLLPLHQFMLPFEQLLACGCQQIAMLPRLLAFQREGYEVWGDQWPFKSGSVNDDAHQDYAPALKDLLGQIALDSDHELDIINYLLGYFGTQRAPRTFTTQLDDFRAVQQGYLAQQPTLTYHRSNIRIDQVSSLQKRIAARMGLGGELFKPQPDLSQLPFYLIEHRALLPVKKLFWQNSPVWMEDMGYRLAYASDQSSLPVQRRLTRTVQTPFPPMVVVGSEITLLKQVGIVNLKKAESEKLYAKVVSFNSTLAFPTSEEAWRYSWYFSGEKYERTDRFSFVISVVVNSDLIKLPGVDPYKLEEWVKETILTEFPAHISMIIHWMDREAFLNFANTYQRWQNNGTPLGDAAYSILESLTLGKLPSALKG ALFHSVKDDIHFDTLLEQAHQVIEKQAEKLWSDTAEHDPGITFLQGISYGVSDLAYRHTLPLKDLLTPAPDEQQQEGIFPAEFGPHNTLTCGPVTADDYRKALLDLHSSDSLDGTQQDEGDFLFRSVQLVREPEKQRYTYWYAKEFTLRGNYWLYLEPTRWTQGNIAAATRQLTEFLTKNRNIGESVSNIIWLQPVDLPLLLDVELDDDVGAQDVPGIFAAVYSTAEQYLMPGAQRYRTEVLQNAGMSNDQIFEGPLLEHGWIPELPAARDYTQRLTLNLSRLVNSLLEIEGIKHVNRLRLDDSFDKTAIEPVKGDTWSWSIKEGYYPRLWGEDPLNQLAQQNGPLRVIAKGGISVSVSKEQIQASLPSQSLIQNEPVILAYGQHRDVGSYYPVSDTLPPCYGLQHSLSESEHLLPLHQFMLPFEQLLACGCQQIAMLPRLLAFQREGYEVWGDQWPFKSGSVNDDAHQDYAPALKDLLGQIALDSDHELDIINYLLGYFGTQRAPRTFTTQLDDFRAVQQGYLAQQPTLTYHRSNIRIDQVSSLQKRIAARMGLGGELFKPQPDLSQLPFYLIEHRALLPVKKLFWQNSPVWMEDMGYRLAYASDQSSLPVQRRLTRTVQTPFPPMVVVGSEITLLKQVGIVNLKKAESEKLYAKVVSFNSTLAFPTSEEAWRYSWYFSGEKYERTDRFSFVISVVVNSDLIKLPGVDPYKLEEWVKETILTEFPAHISMIIHWMDREAFLNFANTYQRWQNNGTPLGDAAYSILESLTLGKLPSALKG 6j0n-a1-m1-cZ_6j0n-a1-m1-ca Cryo-EM Structure of an Extracellular Contractile Injection System, baseplate in extended state, refined in C6 symmetry B6VNP1 B6VNP1 3.5 ELECTRON MICROSCOPY 50 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 393 393 6j0n-a1-m1-cV_6j0n-a1-m1-ca 6j0n-a1-m1-cV_6j0n-a1-m1-cW 6j0n-a1-m1-cW_6j0n-a1-m1-cX 6j0n-a1-m1-cX_6j0n-a1-m1-cY 6j0n-a1-m1-cY_6j0n-a1-m1-cZ MERLQPGVTLTESIITMGQQEIPSAVPVFIGYTVRYPEQSEASVRIDSLAEYTSLFGDDHVMMFAVRHYFDNGGQQAFVLPLKDNMPSVEMTTAEAENLIAALRSATVSEAIGGHSQITLILVPDMARLNDSDIVSLWSQGWEALLQLSQVRPNLFVLLDAPDNVEQAQKCMTTLSSDYRQWGAAYWPRLETTYQKIFQGTVLSPTAAVAAVIQRTDNDAGVWKAPANIALSQVIRPVKSYLQGSVLFNSSGTSLNVIRSFPGKGIRVWGCRTLENTDNTQWRYLQTRRLVSYVTAHLTQLARMYVFEPNNELTWMKLKGQSYNWLRQLWLQGGLYGSQEDEAFNILLGVNETMTEDDVRAGKMIMKVELAVLFPAEFIEISLVFNTQTEALS MERLQPGVTLTESIITMGQQEIPSAVPVFIGYTVRYPEQSEASVRIDSLAEYTSLFGDDHVMMFAVRHYFDNGGQQAFVLPLKDNMPSVEMTTAEAENLIAALRSATVSEAIGGHSQITLILVPDMARLNDSDIVSLWSQGWEALLQLSQVRPNLFVLLDAPDNVEQAQKCMTTLSSDYRQWGAAYWPRLETTYQKIFQGTVLSPTAAVAAVIQRTDNDAGVWKAPANIALSQVIRPVKSYLQGSVLFNSSGTSLNVIRSFPGKGIRVWGCRTLENTDNTQWRYLQTRRLVSYVTAHLTQLARMYVFEPNNELTWMKLKGQSYNWLRQLWLQGGLYGSQEDEAFNILLGVNETMTEDDVRAGKMIMKVELAVLFPAEFIEISLVFNTQTEALS 6j0n-a1-m1-cf_6j0n-a1-m1-cg Cryo-EM Structure of an Extracellular Contractile Injection System, baseplate in extended state, refined in C6 symmetry B6VNN8 B6VNN8 3.5 ELECTRON MICROSCOPY 111 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 223 223 6j0n-a1-m1-cb_6j0n-a1-m1-cc 6j0n-a1-m1-cb_6j0n-a1-m1-cg 6j0n-a1-m1-cc_6j0n-a1-m1-cd 6j0n-a1-m1-cd_6j0n-a1-m1-ce 6j0n-a1-m1-ce_6j0n-a1-m1-cf LIERGLAKLTINAYKDREGKIRAGTLQAMYNPDSLQLDYQTDYQQSQAINSEKQSSIYVQAKPAGLSLELIFDATMPGNKTPIEEQLMQLKQLCSVDATSNETRFLQVKWGKMRWESRGYFAGRAKSLSVNYTLFDRDATPLRVRVILALVADESLVLQETEQNLQSPAKIALRIQDGVSLALMAASTASTLSGGVDYLTLAWQNGLDNLNGFVPGEILQATR LIERGLAKLTINAYKDREGKIRAGTLQAMYNPDSLQLDYQTDYQQSQAINSEKQSSIYVQAKPAGLSLELIFDATMPGNKTPIEEQLMQLKQLCSVDATSNETRFLQVKWGKMRWESRGYFAGRAKSLSVNYTLFDRDATPLRVRVILALVADESLVLQETEQNLQSPAKIALRIQDGVSLALMAASTASTLSGGVDYLTLAWQNGLDNLNGFVPGEILQATR 6j0n-a1-m1-cr_6j0n-a1-m1-cs Cryo-EM Structure of an Extracellular Contractile Injection System, baseplate in extended state, refined in C6 symmetry B6VNP0 B6VNP0 3.5 ELECTRON MICROSCOPY 115 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 148 148 6j0n-a1-m1-cn_6j0n-a1-m1-co 6j0n-a1-m1-cn_6j0n-a1-m1-cs 6j0n-a1-m1-co_6j0n-a1-m1-cp 6j0n-a1-m1-cp_6j0n-a1-m1-cq 6j0n-a1-m1-cq_6j0n-a1-m1-cr YTPVVSHRFMASFIFNRIPDPLDIRFQRISGLSRELQVTQYSEGGENARNNYLAEKIQHGTLTLERGVMTVSPLTWMFDRVLSGEKIAYADVVVMLLNENSLPLSSWTLSNALPVRWQTSDFDANSNAILVNTLELRYQDMRWLGVKI YTPVVSHRFMASFIFNRIPDPLDIRFQRISGLSRELQVTQYSEGGENARNNYLAEKIQHGTLTLERGVMTVSPLTWMFDRVLSGEKIAYADVVVMLLNENSLPLSSWTLSNALPVRWQTSDFDANSNAILVNTLELRYQDMRWLGVKI 6j0n-a1-m1-cx_6j0n-a1-m1-cy Cryo-EM Structure of an Extracellular Contractile Injection System, baseplate in extended state, refined in C6 symmetry B6VNP2 B6VNP2 3.5 ELECTRON MICROSCOPY 47 1.0 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 553480 (Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949) 401 401 6j0n-a1-m1-ct_6j0n-a1-m1-cu 6j0n-a1-m1-ct_6j0n-a1-m1-cy 6j0n-a1-m1-cu_6j0n-a1-m1-cv 6j0n-a1-m1-cv_6j0n-a1-m1-cw 6j0n-a1-m1-cw_6j0n-a1-m1-cx LKAPGVYIEEDASLALSVSNSATAVPVFIGKFTPTVVDSIQVCTRISNWLEFTSSFSLAPTVEIVVIETINLSPAVEALRLYFQNGGGACYIYPLNDAEDELVLAAIPEVIEQKGDITLLVCPELDLDYKTKIYGAVSSLLNDNKVGYFLIADSNDGESVSGVWNSAKAAAYYPQLETNLKFSTLPKNLDELRTINEALAQDIDARLLEEKQRAVIIPPSAAIAGIYCQTDNRRGVWKAPANVALTGIGSLLDKVDDERQGEMNDKGINVIRSFTDRGFMVWGARTCVDAANISWRYIPVRRLFNSVERDIRQALRAVLFETNSQPTWVRAKAAVDQYLYTLWQKNALMGARPEEAYFVQIGQDITMSEADIKQGKMIMTVGLAAVRPAEFIILQFTQDVV LKAPGVYIEEDASLALSVSNSATAVPVFIGKFTPTVVDSIQVCTRISNWLEFTSSFSLAPTVEIVVIETINLSPAVEALRLYFQNGGGACYIYPLNDAEDELVLAAIPEVIEQKGDITLLVCPELDLDYKTKIYGAVSSLLNDNKVGYFLIADSNDGESVSGVWNSAKAAAYYPQLETNLKFSTLPKNLDELRTINEALAQDIDARLLEEKQRAVIIPPSAAIAGIYCQTDNRRGVWKAPANVALTGIGSLLDKVDDERQGEMNDKGINVIRSFTDRGFMVWGARTCVDAANISWRYIPVRRLFNSVERDIRQALRAVLFETNSQPTWVRAKAAVDQYLYTLWQKNALMGARPEEAYFVQIGQDITMSEADIKQGKMIMTVGLAAVRPAEFIILQFTQDVV 6j0q-a1-m1-cA_6j0q-a1-m1-cB Crystal structure of P domain from GII.11 swine norovirus Q8QY02 Q8QY02 2 X-RAY DIFFRACTION 155 1.0 186636 (Norwalk-like virus Sw/NLV/VA34/1998/NL) 186636 (Norwalk-like virus Sw/NLV/VA34/1998/NL) 307 308 KPFSLPSLTLDELSNSRFPAPIVQLYTNPHDNLVVQPQNGRCTIDGLLQGTTQLVSCNVCSFRGTLGDGQPAMAFNIQREIMLENLDGSPYDPTDDIPAVLGSPDFQGVVFGILSQRNTDGQTRAHEAKVDTRLARFAPKLGFVVATVENTDFHANQPCRFTPVGLGGDNNRDFNQWGLPAYGGALTNNTNLAPPVMPVYPGEQLLFFRSQLPSSGGVVGGWLDCLLPQEWVQHFFQESATSQSDVALVRYINPTTGRVLFEAKLHKQGFLTVAASGSYPLVVPADGYFRFESWVNQFYTLAPMGNG TKPFSLPSLTLDELSNSRFPAPIVQLYTNPHDNLVVQPQNGRCTIDGLLQGTTQLVSCNVCSFRGTLGDGQPAMAFNIQREIMLENLDGSPYDPTDDIPAVLGSPDFQGVVFGILSQRNTDGQTRAHEAKVDTRLARFAPKLGFVVATVENTDFHANQPCRFTPVGLGGDNNRDFNQWGLPAYGGALTNNTNLAPPVMPVYPGEQLLFFRSQLPSSGGVVGGWLDCLLPQEWVQHFFQESATSQSDVALVRYINPTTGRVLFEAKLHKQGFLTVAASGSYPLVVPADGYFRFESWVNQFYTLAPMGNG 6j0t-a1-m1-cA_6j0t-a1-m1-cB The crystal structure of exoinulinase INU1 W0T408 W0T408 2.8 X-RAY DIFFRACTION 188 0.994 1003335 (Kluyveromyces marxianus DMKU3-1042) 1003335 (Kluyveromyces marxianus DMKU3-1042) 507 512 TTFSLNRPSVHFTPSHGWMNDPNGLWYDAKEEDWHLYYQYNPAATIWGTPLYWGHAVSKDLTSWTDYGASLGPGSDDAGAFSGSMVIDYNNTSGFFNSSVDPRQRAVAVWTLSKGPSQAQHISYSLDGGYTFQHYSDNAVLDINSSNFRDPKVFWHEGRWIMAVAESQVFSVLFYSSPNLKNWTLESNFTHHGWTGTQYECPGLVKVPYDSVPDSAWVLFVSINPGGPLGGSVTQYFVGDFNGTHFTPIDDQTRFLDMGKDYYALQTFFNTPNEKDVYGIAWASNWQYAQQAPTDPWRSSMSLVRQFTLKDFSTNPNSADVVLNSQPVLNYDALRKNGTTYSITNYTVTSENGKKIKLDNPSGSLEFHLEYVFNGSPDIKSNVFADLSLYFKGNNDDNEYLRLGYETNGGAFFLDRGHTKIPFVKENLFFNHQLAVTNPVSNYTTNVFDVYGVIDKNIIELYFDNGNVVSTNTFFFSTNNVIGEIDIKSPYDKAYTINSFNVTQFNV TTFSLNRPSVHFTPSHGWMNDPNGLWYDAKEEDWHLYYQYNPAATIWGTPLYWGHAVSKDLTSWTDYGASLGPGSDDAGAFSGSMVIDYNNTSGFFNSSVDPRQRAVAVWTLSKGPSQAQHISYSLDGGYTFQHYSDNAVLDINSSNFRDPKVFWHEGENGEDGRWIMAVAESQVFSVLFYSSPNLKNWTLESNFTHHGWTGTQYECPGLVKVPYDSVADPDSAWVLFVSINPGGPLGGSVTQYFVGDFNGTHFTPIDDQTRFLDMGKDYYALQTFFNTPNEKDVYGIAWASNWQYAQQAPTDPWRSSMSLVRQFTLKDFSTNPNSADVVLNSQPVLNYDALRKNGTTYSITNYTVTSKKIKLDNPSGSLEFHLEYVFNGSPDIKSNVFADLSLYFKGNNDDNEYLRLGYETNGGAFFLDRGHTKIPFVKENLFFNHQLAVTNPVSNYTTNVFDVYGVIDKNIIELYFDNGNVVSTNTFFFSTNNVIGEIDIKSPYDKAYTINSFNVTQFNV 6j0z-a1-m1-cC_6j0z-a1-m2-cC Crystal structure of AlpK Q6VMI4 Q6VMI4 2.889 X-RAY DIFFRACTION 59 1.0 1889 (Streptomyces ambofaciens) 1889 (Streptomyces ambofaciens) 488 488 EFYDSDVVVVGAGPTGLMLAGELRLAGVSVVVLDKLAEPIKESRALGFSARTIEEFAQRGLMDRFGEVGVIPVGHFGGVPLDYQVIEGGSYGARGIPQARTEGILGGWARELGAEVRRGYEVTAIEDTGTSVTVEAAGADGSPLSLRARYVVGCDGARSSVRKLAGIDFPGTEPAIELRFADVAGVQLRPRFSGERVPGGMVMVLPMGPDRCRVIYFDSSQPLRTAPEAITFEEVADSWQRLTGEDISGATPLWVSSATDVSRQAAQYRKGRVFLAGDAAHIHLPIGAQGMSAGVQDAVNLGWKLALDISGRAPQGLLDTYHSERHPVGQRILTNTLAQRILYLGGDEITPMREVLAELMGSHVSVQRHLAGMVTGLDIRHDVGEGDHPLLGRRLPDRELVVDGEKIPFYSLLRPGRAVLLELGGDRGLRTAAAGWADRVDLVAAEFDGCEAPVDGILVRPDGYVAWVAALGADGLTTALDRWFGPTA EFYDSDVVVVGAGPTGLMLAGELRLAGVSVVVLDKLAEPIKESRALGFSARTIEEFAQRGLMDRFGEVGVIPVGHFGGVPLDYQVIEGGSYGARGIPQARTEGILGGWARELGAEVRRGYEVTAIEDTGTSVTVEAAGADGSPLSLRARYVVGCDGARSSVRKLAGIDFPGTEPAIELRFADVAGVQLRPRFSGERVPGGMVMVLPMGPDRCRVIYFDSSQPLRTAPEAITFEEVADSWQRLTGEDISGATPLWVSSATDVSRQAAQYRKGRVFLAGDAAHIHLPIGAQGMSAGVQDAVNLGWKLALDISGRAPQGLLDTYHSERHPVGQRILTNTLAQRILYLGGDEITPMREVLAELMGSHVSVQRHLAGMVTGLDIRHDVGEGDHPLLGRRLPDRELVVDGEKIPFYSLLRPGRAVLLELGGDRGLRTAAAGWADRVDLVAAEFDGCEAPVDGILVRPDGYVAWVAALGADGLTTALDRWFGPTA 6j1k-a1-m1-cB_6j1k-a1-m1-cA Crystal structure of ribose-5-phosphate isomerase A from Ochrobactrum sp. CSL1 A6X0Q4 A6X0Q4 2.824 X-RAY DIFFRACTION 100 1.0 42190 (Ochrobactrum sp.) 42190 (Ochrobactrum sp.) 226 230 KLKIAAAAEALTHVKDGMRLGIGTGSTAEEFVRLLADKVSNGFKIIGVPTSERTAKLCKELGVPLTTLDETPHLDLTVDGADEVDTNLSLIKGGGGALLREKIVAAASDAMIVIADSSKVVETLGRFPLPVEVNRFGLGATMRAIEEAAAKCGLAGPLALRLKDGSPFVTDGGHYIVDASFGRIPDPKTLSDALFAIPGVVEHGLFIGLARAAVVAGNDGIRTMNR EARKLKIAAAAEALTHVKDGMRLGIGTGSTAEEFVRLLADKVSNGFKIIGVPTSERTAKLCKELGVPLTTLDETPHLDLTVDGADEVDTNLSLIKGGGGALLREKIVAAASDAMIVIADSSKVVETLGRFPLPVEVNRFGLGATMRAIEEAAAKCGLAGPLALRLKDGSPFVTDGGHYIVDASFGRIPDPKTLSDALFAIPGVVEHGLFIGLARAAVVAGNDGIRTMNRS 6j1m-a1-m1-cB_6j1m-a1-m1-cA Anisodus acutangulus type III polyketide sythase AaPKS2 in complex with 4-carboxy-3-oxobutanoyl covalent to C166 2.001 X-RAY DIFFRACTION 141 1.0 402998 (Anisodus acutangulus) 402998 (Anisodus acutangulus) 376 381 6j1n-a1-m1-cB_6j1n-a1-m1-cA EGPALVLAIGTATPSHWIDQSSYPDYYFRVTNSDHLVDLKEKFRRICSRTMIKKRHMLLTEEILKKNPNLCSFSEPSLDIRQDILVSEIPKLGKEAALKAIQEWAQPKSTITHLVFCTRSGVDMPGADYQLIKLLGLGPSVQRLMMYQQGCFAGGTMLRLAKDLAENNKGARILVICAESSAIGFRGPSESHVDNLVAQALFGDGAAAIIVGSNPKPGLEKPVFEIVSAAQTFVPNGDCHLALHLREMGLTFHCTKDVPPTIAKNVESCLTKALEPLGISDWNSLFWILHPGGNAIVDQVENKLGLEHEKLRATRNILRDFGNMSSACVLFILDEIRKKSARDGLKTTGEGLDFGVLLSFGPGLTIETVVLHSKPI KSQRSEGPALVLAIGTATPSHWIDQSSYPDYYFRVTNSDHLVDLKEKFRRICSRTMIKKRHMLLTEEILKKNPNLCSFSEPSLDIRQDILVSEIPKLGKEAALKAIQEWAQPKSTITHLVFCTRSGVDMPGADYQLIKLLGLGPSVQRLMMYQQGCFAGGTMLRLAKDLAENNKGARILVICAESSAIGFRGPSESHVDNLVAQALFGDGAAAIIVGSNPKPGLEKPVFEIVSAAQTFVPNGDCHLALHLREMGLTFHCTKDVPPTIAKNVESCLTKALEPLGISDWNSLFWILHPGGNAIVDQVENKLGLEHEKLRATRNILRDFGNMSSACVLFILDEIRKKSARDGLKTTGEGLDFGVLLSFGPGLTIETVVLHSKPI 6j27-a2-m1-cC_6j27-a2-m1-cD Crystal structure of the branched-chain polyamine synthase from Thermus thermophilus (Tth-BpsA) in complex with N4-aminopropylspermidine and 5'-methylthioadenosine Q72L89 Q72L89 1.66 X-RAY DIFFRACTION 161 1.0 262724 (Thermus thermophilus HB27) 262724 (Thermus thermophilus HB27) 343 344 6j27-a1-m1-cA_6j27-a1-m1-cB 6j28-a1-m1-cA_6j28-a1-m1-cC 6j28-a2-m1-cB_6j28-a2-m1-cD NKEALVQVAEEVRRATGLPVGWRDVERTLGALRATRDLWEAVRLSRVPLRFLVPIWEGLARRGLLRVEEGLDLLAEVPAPRPGEAACPACEGRGLVGERLPGRAAERFLAWAKERPEAIQDFDQGYVTPESTLARVALAWNWGDLEGKEVLVLGDDDLTGLAAALTGLPKRVVVLDADPRIVRFLERAAKAEGLPLEAHVHDLREPLPEAWVHAFHTFFTDPVEGPLGLQAFVGRGLLALEGEGCAGYVGLTHVEASLAKWADFQRFLLENGAVITELRDGFHVYENWGYIEQMRAWPWLPVKRRPEKPWYTSALIRLELLRRADLENARVEGDLQDEEATTY VNKEALVQVAEEVRRATGLPVGWRDVERTLGALRATRDLWEAVRLSRVPLRFLVPIWEGLARRGLLRVEEGLDLLAEVPAPRPGEAACPACEGRGLVGERLPGRAAERFLAWAKERPEAIQDFDQGYVTPESTLARVALAWNWGDLEGKEVLVLGDDDLTGLAAALTGLPKRVVVLDADPRIVRFLERAAKAEGLPLEAHVHDLREPLPEAWVHAFHTFFTDPVEGPLGLQAFVGRGLLALEGEGCAGYVGLTHVEASLAKWADFQRFLLENGAVITELRDGFHVYENWGYIEQMRAWPWLPVKRRPEKPWYTSALIRLELLRRADLENARVEGDLQDEEATTY 6j2l-a1-m1-cB_6j2l-a1-m1-cA Crystal structure of Bi-functional enzyme P37793 P37793 2.17 X-RAY DIFFRACTION 217 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 185 200 6j22-a1-m1-cB_6j22-a1-m1-cA TEQQRRELDWEKTDGLMPVIVQHAVSGEVLMLGYMNPEALDKTIESGKVTFFSRTKQRLWIKGETSGNFLNVVSIAPDCDNDTLLVLANPIGPSSCFGNTAHQWLFLYQLEQLLAERKYADLYASGTKRIAQKVGEEGVETALAATVHDRFELTNEASDLMYHLLVLLQDQDLDLTTVIENLHKR LTEQQRRELDWEKTDGLMPVIVQHAVSGEVLMLGYMNPEALDKTIESGKVTFFSRTKQRLWIKGETSGNFLNVVSIAPDCDNDTLLVLANPIGPTCHKGTSSCFGNTAHQWLFLYQLEQLLAERKYADPETSYTAKLYASGTKRIAQKVGEEGVETALAATVHDRFELTNEASDLMYHLLVLLQDQDLDLTTVIENLHKR 6j2v-a1-m1-cB_6j2v-a1-m1-cD GABA aminotransferase from Corynebacterium glutamicum Q8NT35 Q8NT35 1.9 X-RAY DIFFRACTION 57 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 440 440 6j2v-a1-m1-cA_6j2v-a1-m1-cC LSYRIPQSRTVAEQVPGPKSKALDERRQAAVARALAPGLPGYVVDADGGILADADGNRFIDLASGIAVTTVGGSNAAVAKAVGAAAARFTHTCFMVSPYETYVAMAERLNALTPGDHDKKSALFNSGAEAVENAVKVARAYTGKGAVVVFDNAYHGRTNLTMAMTAKNRPYKSGFGPLAADVYRAPMSYPLRDGLSGPEAAERAISVIESQVGAENLACVVIEPIQGEGGFIVPAPGFLAAISTWCRENDVVFIADEIQSGFLRTGDWFASDAEGVIPDVITTAKGIAGGMPLSAVTGRAEIMDAPGPGALGGTYGGNPVACAAALAAIEVMEQADLKTRAQEIETIIRDEFAQLSAFPEVAEIRGRGAMMAIELIDATGRPNAALTAAVAARAKAEGVLLLTCGTDGNVIRLLPPLVIAEDTLRDGLQVLVAALERETA LSYRIPQSRTVAEQVPGPKSKALDERRQAAVARALAPGLPGYVVDADGGILADADGNRFIDLASGIAVTTVGGSNAAVAKAVGAAAARFTHTCFMVSPYETYVAMAERLNALTPGDHDKKSALFNSGAEAVENAVKVARAYTGKGAVVVFDNAYHGRTNLTMAMTAKNRPYKSGFGPLAADVYRAPMSYPLRDGLSGPEAAERAISVIESQVGAENLACVVIEPIQGEGGFIVPAPGFLAAISTWCRENDVVFIADEIQSGFLRTGDWFASDAEGVIPDVITTAKGIAGGMPLSAVTGRAEIMDAPGPGALGGTYGGNPVACAAALAAIEVMEQADLKTRAQEIETIIRDEFAQLSAFPEVAEIRGRGAMMAIELIDATGRPNAALTAAVAARAKAEGVLLLTCGTDGNVIRLLPPLVIAEDTLRDGLQVLVAALERETA 6j2v-a3-m1-cC_6j2v-a3-m1-cD GABA aminotransferase from Corynebacterium glutamicum Q8NT35 Q8NT35 1.9 X-RAY DIFFRACTION 430 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 440 440 6j2v-a1-m1-cA_6j2v-a1-m1-cB 6j2v-a1-m1-cC_6j2v-a1-m1-cD 6j2v-a2-m1-cA_6j2v-a2-m1-cB LSYRIPQSRTVAEQVPGPKSKALDERRQAAVARALAPGLPGYVVDADGGILADADGNRFIDLASGIAVTTVGGSNAAVAKAVGAAAARFTHTCFMVSPYETYVAMAERLNALTPGDHDKKSALFNSGAEAVENAVKVARAYTGKGAVVVFDNAYHGRTNLTMAMTAKNRPYKSGFGPLAADVYRAPMSYPLRDGLSGPEAAERAISVIESQVGAENLACVVIEPIQGEGGFIVPAPGFLAAISTWCRENDVVFIADEIQSGFLRTGDWFASDAEGVIPDVITTAKGIAGGMPLSAVTGRAEIMDAPGPGALGGTYGGNPVACAAALAAIEVMEQADLKTRAQEIETIIRDEFAQLSAFPEVAEIRGRGAMMAIELIDATGRPNAALTAAVAARAKAEGVLLLTCGTDGNVIRLLPPLVIAEDTLRDGLQVLVAALERETA LSYRIPQSRTVAEQVPGPKSKALDERRQAAVARALAPGLPGYVVDADGGILADADGNRFIDLASGIAVTTVGGSNAAVAKAVGAAAARFTHTCFMVSPYETYVAMAERLNALTPGDHDKKSALFNSGAEAVENAVKVARAYTGKGAVVVFDNAYHGRTNLTMAMTAKNRPYKSGFGPLAADVYRAPMSYPLRDGLSGPEAAERAISVIESQVGAENLACVVIEPIQGEGGFIVPAPGFLAAISTWCRENDVVFIADEIQSGFLRTGDWFASDAEGVIPDVITTAKGIAGGMPLSAVTGRAEIMDAPGPGALGGTYGGNPVACAAALAAIEVMEQADLKTRAQEIETIIRDEFAQLSAFPEVAEIRGRGAMMAIELIDATGRPNAALTAAVAARAKAEGVLLLTCGTDGNVIRLLPPLVIAEDTLRDGLQVLVAALERETA 6j2z-a1-m1-cF_6j2z-a1-m1-cH AtFKBP53 N-terminal Nucleoplasmin Domain Q93ZG9 Q93ZG9 2.4 X-RAY DIFFRACTION 70 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 82 96 GFWGLEVKPGKPQAYNPKKIHVTQATLGTGLSKEKSVIQCSIPIALCSLLPNKIECCPLNLEEPVEFTVTGDRSIHLSGFLE GFWGLEVKPGKPQAYNPKNEQGKIHVTQATLGTGLSKEKSVIQCSIGDKAPIALCSLLPNKIECCPLNLEFDDDDEPVEFTVTGDRSIHLSGFLEY 6j2z-a2-m1-cA_6j2z-a2-m1-cC AtFKBP53 N-terminal Nucleoplasmin Domain Q93ZG9 Q93ZG9 2.4 X-RAY DIFFRACTION 71 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 96 96 6j2z-a1-m1-cG_6j2z-a1-m1-cJ 6j2z-a1-m1-cH_6j2z-a1-m1-cI 6j2z-a1-m1-cJ_6j2z-a1-m1-cI 6j2z-a2-m1-cA_6j2z-a2-m1-cB 6j2z-a2-m1-cC_6j2z-a2-m1-cD 6j2z-a2-m1-cD_6j2z-a2-m1-cE 6j2z-a2-m1-cE_6j2z-a2-m1-cB GFWGLEVKPGKPQAYNPKNEQGKIHVTQATLGTGLSKEKSVIQCSIGDKAPIALCSLLPNKIECCPLNLEFDDDDEPVEFTVTGDRSIHLSGFLEY GFWGLEVKPGKPQAYNPKNEQGKIHVTQATLGTGLSKEKSVIQCSIGDKAPIALCSLLPNKIECCPLNLEFDDDDEPVEFTVTGDRSIHLSGFLEY 6j32-a2-m2-cC_6j32-a2-m3-cC Crystal Structure Analysis of the Glycotransferase of kitacinnamycin A0A514S208 A0A514S208 2.5 X-RAY DIFFRACTION 53 1.0 2063 (Kitasatospora) 2063 (Kitasatospora) 385 385 6j32-a1-m1-cA_6j32-a1-m1-cB 6j32-a1-m1-cA_6j32-a1-m1-cD 6j32-a1-m1-cD_6j32-a1-m1-cB 6j32-a2-m1-cC_6j32-a2-m2-cC 6j32-a2-m1-cC_6j32-a2-m3-cC PRPGHIAMVSVPSRGHLHPSLELIRELVARGHRVTYANDPSVAAAVTETGAELVPYTSALPSDQIAQMDVFLDDAVGMLPQLRAAYEEDRPDVFLYDVLAYPARVLAMNWGIPSIQISPTWVMPEKYRERMAPVVEQLKQDPRGAAHYRRFDAWLEDSGVPGIDAGDLVNLPERSLVLVPRFLQPDADDVDEKRFTFIGPCLGRRAHQGDWKRPAGAEKVALVSLGSHLTNQLPFYETCVEVFAALPDWHLVLQIGRHVDAGELGELPPNVEVHNWVPQLAVLEQADVFVTHGGMGGIQEGLFSGVPMVVAPQANDQPANAESVVGLGIARRIDIATVTPDRLRAAVVELASDPAVAERLSGLRRELRAHGGTMRAADLIERQLP PRPGHIAMVSVPSRGHLHPSLELIRELVARGHRVTYANDPSVAAAVTETGAELVPYTSALPSDQIAQMDVFLDDAVGMLPQLRAAYEEDRPDVFLYDVLAYPARVLAMNWGIPSIQISPTWVMPEKYRERMAPVVEQLKQDPRGAAHYRRFDAWLEDSGVPGIDAGDLVNLPERSLVLVPRFLQPDADDVDEKRFTFIGPCLGRRAHQGDWKRPAGAEKVALVSLGSHLTNQLPFYETCVEVFAALPDWHLVLQIGRHVDAGELGELPPNVEVHNWVPQLAVLEQADVFVTHGGMGGIQEGLFSGVPMVVAPQANDQPANAESVVGLGIARRIDIATVTPDRLRAAVVELASDPAVAERLSGLRRELRAHGGTMRAADLIERQLP 6j36-a1-m4-cB_6j36-a1-m1-cA crystal structure of Mycoplasma hyopneumoniae Enolase A0A223MA21 A0A223MA21 2.301 X-RAY DIFFRACTION 84 1.0 2099 (Mesomycoplasma hyopneumoniae) 2099 (Mesomycoplasma hyopneumoniae) 447 459 6j36-a1-m1-cB_6j36-a1-m3-cA 6j36-a1-m2-cB_6j36-a1-m4-cA 6j36-a1-m3-cB_6j36-a1-m2-cA SKITKVFAREILDSRGNPTIQVDVYTLAGGFGSAIVPSGASTGSREALELRDTNTKYADNWYGQKGVMTAVDNVNNIIAPEIIGLCCKNQRLIDQKIIELDGTPNKEKLGANAILGVSLAVAKAAANELRMPLFRYLGGTNPTLMPVPMLNVINGGEHASNTLDFQEFMIMPLGFRTFKEALQAANKVFHNLAKLLKKSGFETQVGDEGGFAPNFNSHEQALDFLVDAIKESGFNPGFKGENAVAIAIDAAASEFYNGQKYVFKKLKAASLKFEFNSEELLNYYGQLLAKYPIISIEDGFAESDWQGFIAFNQKYGNNHQIVGDDLTVTNVEILKKAINLKAINSILIKLNQIGTLSETLDAIHLAQKSGMTAVISHRSGESEDTTIADLAVAVSSGQIKTGSLSRTDRIAKYNRLLVIEEYLNSYAKADYIGREVFYNLKKLEHHH SKITKVFAREILDSRGNPTIQVDVYTLAGGFGSAIVPSGASTGSREALELRDTNTKYADNWYGQKGVMTAVDNVNNIIAPEIIGLCCKNQRLIDQKIIELDGTPNKEKLGANAILGVSLAVAKAAANELRMPLFRYLGGTNPTLMPVPMLNVINGGEHASNTLDFQEFMIMPLGFRTFKEALQAANKVFHNLAKLLKKSGFETQVGDEGGFAPNFNSHEQALDFLVDAIKESGFNPGFKGENAVAIAIDAAASEFYNGQKYVFKKLKAASLSKNQADLDEKFEFNSEELLNYYGQLLAKYPIISIEDGFAESDWQGFIAFNQKYGNNHQIVGDDLTVTNVEILKKAINLKAINSILIKLNQIGTLSETLDAIHLAQKSGMTAVISHRSGESEDTTIADLAVAVSSGQIKTGSLSRTDRIAKYNRLLVIEEYLNSYAKADYIGREVFYNLKKLEHHHHHH 6j36-a1-m4-cB_6j36-a1-m4-cA crystal structure of Mycoplasma hyopneumoniae Enolase A0A223MA21 A0A223MA21 2.301 X-RAY DIFFRACTION 112 1.0 2099 (Mesomycoplasma hyopneumoniae) 2099 (Mesomycoplasma hyopneumoniae) 447 459 6j36-a1-m1-cB_6j36-a1-m1-cA 6j36-a1-m2-cB_6j36-a1-m2-cA 6j36-a1-m3-cB_6j36-a1-m3-cA SKITKVFAREILDSRGNPTIQVDVYTLAGGFGSAIVPSGASTGSREALELRDTNTKYADNWYGQKGVMTAVDNVNNIIAPEIIGLCCKNQRLIDQKIIELDGTPNKEKLGANAILGVSLAVAKAAANELRMPLFRYLGGTNPTLMPVPMLNVINGGEHASNTLDFQEFMIMPLGFRTFKEALQAANKVFHNLAKLLKKSGFETQVGDEGGFAPNFNSHEQALDFLVDAIKESGFNPGFKGENAVAIAIDAAASEFYNGQKYVFKKLKAASLKFEFNSEELLNYYGQLLAKYPIISIEDGFAESDWQGFIAFNQKYGNNHQIVGDDLTVTNVEILKKAINLKAINSILIKLNQIGTLSETLDAIHLAQKSGMTAVISHRSGESEDTTIADLAVAVSSGQIKTGSLSRTDRIAKYNRLLVIEEYLNSYAKADYIGREVFYNLKKLEHHH SKITKVFAREILDSRGNPTIQVDVYTLAGGFGSAIVPSGASTGSREALELRDTNTKYADNWYGQKGVMTAVDNVNNIIAPEIIGLCCKNQRLIDQKIIELDGTPNKEKLGANAILGVSLAVAKAAANELRMPLFRYLGGTNPTLMPVPMLNVINGGEHASNTLDFQEFMIMPLGFRTFKEALQAANKVFHNLAKLLKKSGFETQVGDEGGFAPNFNSHEQALDFLVDAIKESGFNPGFKGENAVAIAIDAAASEFYNGQKYVFKKLKAASLSKNQADLDEKFEFNSEELLNYYGQLLAKYPIISIEDGFAESDWQGFIAFNQKYGNNHQIVGDDLTVTNVEILKKAINLKAINSILIKLNQIGTLSETLDAIHLAQKSGMTAVISHRSGESEDTTIADLAVAVSSGQIKTGSLSRTDRIAKYNRLLVIEEYLNSYAKADYIGREVFYNLKKLEHHHHHH 6j38-a1-m2-cB_6j38-a1-m1-cA Crystal structure of CmiS2 X5IYZ1 X5IYZ1 2.3 X-RAY DIFFRACTION 66 1.0 1321967 (Streptomyces sp. MJ635-86F5) 1321967 (Streptomyces sp. MJ635-86F5) 356 368 6j39-a1-m2-cB_6j39-a1-m1-cA MHVVVVGGGVIGLSVAWQALERGLRVTVVDPEPASKASHVSAGMLPAAQEDLLRLCLASRERYPSFVKELEAVSGTSAGYRRDGVLDAAFDDESLAALDGLRNFLAPLGVAVAPLNARRCREHEPMLAESVRGGLLGPDDGAVNPRELTAALLAAIDVRGGTLIRRRATEFLATPGVLLENGCAVHGDRVVLSAGCWTHRLAGLPAGAVPEIAPAKGQILRLRSAAPFLRRATRAVTGVYLVPRTDGELVVGATYEERDYDTTVTAGGVAELLGKVLAVLPGAAELELAETAAGLRPGSPDGLPVLGWTAVPNLLVATGHSRIGVQLAPITADVMGEMLVTGRTPEVAKAFAVDRF MHVVVVGGGVIGLSVAWQALERGLRVTVVDPEPASKASHVSAGMLPAANEMLYSQEDLLRLCLASRERYPSFVKELEAVSGTSAGYRRDGVLDAAFDDESLAALDGLRNFLAPLGVAVAPLNARRCREHEPMLAESVRGGLLGPDDGAVNPRELTAALLAAIDVRGGTLIRRRATEFLADERTPGVLLENGCAVHGDRVVLSAGCWTHRLAGLPAGAVPEIAPAKGQILRLRSAAPFLRRATRAVTRGSGVYLVPRTDGELVVGATYEERDYDTTVTAGGVAELLGKVLAVLPGAAELELAETAAGLRPGSPDGLPVLGWTAVPNLLVATGHSRIGVQLAPITADVMGEMLVTGRTPEVAKAFAVDRF 6j3a-a1-m1-cA_6j3a-a1-m2-cB Structure of LmbA2991HD A0A1B1MKD3 A0A1B1MKD3 2.38 X-RAY DIFFRACTION 135 1.0 1915 (Streptomyces lincolnensis) 1915 (Streptomyces lincolnensis) 580 580 MFTTRPTLQGTFGMVSSTHWLASQSAMAVLEDGGNAYDAAVAGAFVLHVVEPHLNGPAGEVPILLAPAGGEVRVLCGQGVAPAGATVAHYKGLGLDLVPGTGPLAAAVPGAFDAWMLLLRDHGTKPLADVLKYAVGYAEHGHAPVENVGVTVETVRELFETEWTTSADVYLPGGKAPRPGELLRNPTLAATWKRLLAEVAGAGDREAQIEAAREVWRTGFIAEALVRQARRPTMDTSGERHTGTLTAADLAGWSATYEAPATYDWNGWTVCKAGPWSQGPVLLQQLALLPPELPEYGSADYVHLLVEGCKLAMADREAWYGDAAEVPLDELLSAEYNAGRRELVGDKASHELRPGSPGGRTARLSAHADLVATGEPGFDPLGATCHLDVVDRWGNMVAATPSGGWLQSNPVVPELGFPLGTRLQMTWLEEGLPNSLTPGRRPRTTLTPSIALRDGIPVMAFGTPGGDQQDQWQLHFFLAVALRARVRGGLDLQGAIDAPNWHNDSFPGSFYPRGMRPGSVTVEARMDPGIAAELRRRGHEVTVGPPWSEGRLCAVARDPRTGILSAAANPRGMQGYAVGR MFTTRPTLQGTFGMVSSTHWLASQSAMAVLEDGGNAYDAAVAGAFVLHVVEPHLNGPAGEVPILLAPAGGEVRVLCGQGVAPAGATVAHYKGLGLDLVPGTGPLAAAVPGAFDAWMLLLRDHGTKPLADVLKYAVGYAEHGHAPVENVGVTVETVRELFETEWTTSADVYLPGGKAPRPGELLRNPTLAATWKRLLAEVAGAGDREAQIEAAREVWRTGFIAEALVRQARRPTMDTSGERHTGTLTAADLAGWSATYEAPATYDWNGWTVCKAGPWSQGPVLLQQLALLPPELPEYGSADYVHLLVEGCKLAMADREAWYGDAAEVPLDELLSAEYNAGRRELVGDKASHELRPGSPGGRTARLSAHADLVATGEPGFDPLGATCHLDVVDRWGNMVAATPSGGWLQSNPVVPELGFPLGTRLQMTWLEEGLPNSLTPGRRPRTTLTPSIALRDGIPVMAFGTPGGDQQDQWQLHFFLAVALRARVRGGLDLQGAIDAPNWHNDSFPGSFYPRGMRPGSVTVEARMDPGIAAELRRRGHEVTVGPPWSEGRLCAVARDPRTGILSAAANPRGMQGYAVGR 6j3e-a1-m1-cA_6j3e-a1-m1-cB Crystal structure of an apo form of the glutathione S-transferase, CsGST63524, of Ceriporiopsis subvermispora M2R618 M2R618 2.455 X-RAY DIFFRACTION 105 1.0 914234 (Gelatoporia subvermispora B) 914234 (Gelatoporia subvermispora B) 254 254 6j3f-a1-m1-cA_6j3f-a1-m1-cB NVIQFYDIPGNATPDKAWSPNTWKTRYTLNFKGIPYKTIWVEYPDIASVCKEIGAEPTSIRPDGPYYTLPVIHDPSTGKTISDSAAIARYLDKTYPDTPVVIPPETDALHAAFNFAFSEAIVRALAPIMLPATNAQLNPRSEEFFRRTREESAGGVKLEDWAPPGSEKRAKAWEKIRAGFGQIAKWLSADGNDKLLFLGDKVSYADITIVGWVIWVKRVLGPDSAEWKDFETWDDGKWAKQLALFEKYEVVPDA NVIQFYDIPGNATPDKAWSPNTWKTRYTLNFKGIPYKTIWVEYPDIASVCKEIGAEPTSIRPDGPYYTLPVIHDPSTGKTISDSAAIARYLDKTYPDTPVVIPPETDALHAAFNFAFSEAIVRALAPIMLPATNAQLNPRSEEFFRRTREESAGGVKLEDWAPPGSEKRAKAWEKIRAGFGQIAKWLSADGNDKLLFLGDKVSYADITIVGWVIWVKRVLGPDSAEWKDFETWDDGKWAKQLALFEKYEVVPDA 6j3g-a1-m1-cB_6j3g-a1-m1-cA Crystal structure of an apo form of the glutathione S-transferase, CsGST83044, of Ceriporiopsis subvermispora M2QJS8 M2QJS8 1.95 X-RAY DIFFRACTION 71 1.0 914234 (Gelatoporia subvermispora B) 914234 (Gelatoporia subvermispora B) 257 265 6j3h-a1-m1-cB_6j3h-a1-m1-cA 6j3h-a2-m1-cD_6j3h-a2-m1-cC HMIQQIHFYDIPRNRDEDDRTWNPNTSKTRLTLTYKRLPYKTIWVEYPDIERVCKEIGAEPSAFGLLKEGKPYYSLPVIHDPNTGTTISDSIRIARYLDKTYPDTPAVIPAELEAFHAVFEDAFWDTIFMPLFPFLVPAACPQLNPRSEAYFRETREGKFGSILGGKMENWAPTGPVRDDRWKALQAGFTKMAGWLSADGQERPFFMGEKLCYTDIVVGAWLISVKKVFGSDHPEWLQVEKWDGGRWSRLVQVVENF SGLVPRGSHMIQQIHFYDIPRNRDEDDRTWNPNTSKTRLTLTYKRLPYKTIWVEYPDIERVCKEIGAEPSAFGLLKEGKPYYSLPVIHDPNTGTTISDSIRIARYLDKTYPDTPAVIPAELEAFHAVFEDAFWDTIFMPLFPFLVPAACPQLNPRSEAYFRETREGKFGSILGGKMENWAPTGPVRDDRWKALQAGFTKMAGWLSADGQERPFFMGEKLCYTDIVVGAWLISVKKVFGSDHPEWLQVEKWDGGRWSRLVQVVENF 6j3z-a1-m1-cM_6j3z-a1-m1-cm Structure of C2S1M1-type PSII-FCPII supercomplex from diatom 3.6 ELECTRON MICROSCOPY 67 1.0 184592 (Chaetoceros gracilis) 184592 (Chaetoceros gracilis) 42 42 6j3y-a1-m1-cM_6j3y-a1-m1-cm 6j40-a1-m1-cM_6j40-a1-m1-cm 6jlu-a1-m1-cM_6jlu-a1-m1-cm 7vd5-a1-m1-cM_7vd5-a1-m1-cm EVQFGAYLAVLLGTFLPALFLVNLFIQTEARKAGKAGGQDSD EVQFGAYLAVLLGTFLPALFLVNLFIQTEARKAGKAGGQDSD 6j40-a1-m1-c36_6j40-a1-m1-c37 Structure of C2S2M2-type PSII-FCPII supercomplex from diatom 3.8 ELECTRON MICROSCOPY 16 1.0 184592 (Chaetoceros gracilis) 184592 (Chaetoceros gracilis) 176 176 6j3z-a1-m1-c16_6j3z-a1-m1-c17 6j40-a1-m1-c16_6j40-a1-m1-c17 SEIELGVTEPLGVYDPLGWLESEPEAFERRRAVERKHGRVAMAAVVGTIVHNNHIVFDGYLSPSNNLKFSDIPTGVDGIRAIPTAGLAQILAFFALVELAWMPASKYDGDYGVGYFGTDIKDPEEKARKLNVELNNGRAAMMGIMGNMVAEVLTGQTMYEQYASGHISPFGDGQGV SEIELGVTEPLGVYDPLGWLESEPEAFERRRAVERKHGRVAMAAVVGTIVHNNHIVFDGYLSPSNNLKFSDIPTGVDGIRAIPTAGLAQILAFFALVELAWMPASKYDGDYGVGYFGTDIKDPEEKARKLNVELNNGRAAMMGIMGNMVAEVLTGQTMYEQYASGHISPFGDGQGV 6j4c-a1-m1-cA_6j4c-a1-m2-cA Crystal structure of MarH, an epimerase for biosynthesis of Maremycins in Streptomyces, under 10 mM ZnSO4 X2D812 X2D812 1.58 X-RAY DIFFRACTION 109 1.0 1462558 (Streptomyces sp. B9173) 1462558 (Streptomyces sp. B9173) 123 123 6j4b-a1-m1-cA_6j4b-a1-m2-cA 6j4d-a1-m1-cA_6j4d-a1-m2-cA PADPEIVEGLPIPLAVAGHHQPAPFYLTADMFGGLPVQLAGGELSTLVGKPVAAPHTHPVDELYLLVSPNKGGARIEVQLDGRRHELLSPAVMRIPAGSEHCFLTLEAEVGSYCFGILLGDRL PADPEIVEGLPIPLAVAGHHQPAPFYLTADMFGGLPVQLAGGELSTLVGKPVAAPHTHPVDELYLLVSPNKGGARIEVQLDGRRHELLSPAVMRIPAGSEHCFLTLEAEVGSYCFGILLGDRL 6j4k-a1-m1-cB_6j4k-a1-m1-cA Structural basis for the target DNA recognition and binding by the MYB domain of phosphate starvation response 1 Q94CL7 Q94CL7 1.58 X-RAY DIFFRACTION 35 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 58 60 GKARMRWTPELHEAFVEAVNSLGGSERATPKGVLKIMKVEGLTIYHVKSHLQKYRTAR GKARMRWTPELHEAFVEAVNSLGGSERATPKGVLKIMKVEGLTIYHVKSHLQKYRTARYR 6j52-a2-m1-cD_6j52-a2-m1-cC Crystal structure of CARD-only protein in frog virus 3 W8SPG9 W8SPG9 2.504 X-RAY DIFFRACTION 229 1.0 10493 (Frog virus 3) 10493 (Frog virus 3) 93 94 6j52-a1-m1-cA_6j52-a1-m1-cB MQNFGAQEMRKGRLAFVRLSKLETLQNLIDKMLAERVFNKGEAADILESNDIRADIARALIDSVTKKGDVACSLFAGAIARQDVVLADAMGIS MQNFGAQEMRKGRLAFVRLSKLETLQNLIDKMLAERVFNKGEAADILESNDIRADIARALIDSVTKKGDVACSLFAGAIARQDVVLADAMGISQ 6j5c-a1-m1-cA_6j5c-a1-m2-cA Louping ill virus envelope protein P22338 P22338 3.6 X-RAY DIFFRACTION 79 1.0 11086 (Louping ill virus) 11086 (Louping ill virus) 376 376 RCTHLEGTTRVTLVLELGGCVTITAEGKPSMDVWLDAIYQESPAKTREYCLHAKLSETKVAARCPTMGPAVLTEERQIGTVCKRDQSDRGWGNHCGLFGKGSIVACVKAACEAKKKATGYVYDANKIVYTVKVEPHTRKTATFTVSSEKTILTLGEYGDVSLLCRVASGVDLAQTIILELDKTAEHLPTAWQVHRDWFNDLALPWKHDGNPHWNNAERLVEFGAPHAVKMDVYNLGDQTGVLLRALAGVPVAHIEGNKYHLKSGHVTCEVGLEKLKMKGLTYTMCDKSKFAWKRTPTDSGHDTVVMEVTFSGSKPCRIPVRAVAHGSPDVNVAMLITPNPTIENDGGGFIEMQLPPGDNIIYVGELSHQWFQTGSS RCTHLEGTTRVTLVLELGGCVTITAEGKPSMDVWLDAIYQESPAKTREYCLHAKLSETKVAARCPTMGPAVLTEERQIGTVCKRDQSDRGWGNHCGLFGKGSIVACVKAACEAKKKATGYVYDANKIVYTVKVEPHTRKTATFTVSSEKTILTLGEYGDVSLLCRVASGVDLAQTIILELDKTAEHLPTAWQVHRDWFNDLALPWKHDGNPHWNNAERLVEFGAPHAVKMDVYNLGDQTGVLLRALAGVPVAHIEGNKYHLKSGHVTCEVGLEKLKMKGLTYTMCDKSKFAWKRTPTDSGHDTVVMEVTFSGSKPCRIPVRAVAHGSPDVNVAMLITPNPTIENDGGGFIEMQLPPGDNIIYVGELSHQWFQTGSS 6j5k-a1-m1-cCJ_6j5k-a1-m1-cJ Cryo-EM structure of the mammalian ATP synthase tetramer bound with inhibitory protein IF1 Q29307 Q29307 6.2 ELECTRON MICROSCOPY 41 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 75 78 6j5k-a1-m1-cBJ_6j5k-a1-m1-cAJ SSDTPEGVRSGAGAVRDAGGAFGKKEQADEERYFRARAREQLAALKKHHENEISHHVKEIERLQKEIERHKQSIK SSDTPEGVRSGAGAVRDAGGAFGKKEQADEERYFRARAREQLAALKKHHENEISHHVKEIERLQKEIERHKQSIKKLK 6j5x-a1-m1-cA_6j5x-a1-m1-cB Crystal structure of fumarylpyruvate hydrolase from Corynebacterium glutamicum in complex with Mn2+ and pyruvate Q8NLC0 Q8NLC0 1.79 X-RAY DIFFRACTION 96 1.0 1718 (Corynebacterium glutamicum) 1718 (Corynebacterium glutamicum) 280 280 6j57-a1-m1-cA_6j57-a1-m1-cB MRLATIRTNGTTIAARVESENTATTIEGFANVGELLQESNWRELAENAAGEAVTFENKELDAVVPAPKKIVCVGLNYANHIKEMGRDLPDTPTLFVKFPDALIGPFDDVVVPEWANKALDWEGEMAVIIGKRARRVKQADAAEYIAGYAVMNDYTTRDFQYAAPAKTPQWHQGKSLEKSAGFGPWMTTPDSFEFGGELATYLEGEKVQSTPTNDLVFSPEKLIEYITHIYPLDAGDVIVTGTPGGVGHARNPQRYIGDGETVKVEIAGLGFIENKTVFEL MRLATIRTNGTTIAARVESENTATTIEGFANVGELLQESNWRELAENAAGEAVTFENKELDAVVPAPKKIVCVGLNYANHIKEMGRDLPDTPTLFVKFPDALIGPFDDVVVPEWANKALDWEGEMAVIIGKRARRVKQADAAEYIAGYAVMNDYTTRDFQYAAPAKTPQWHQGKSLEKSAGFGPWMTTPDSFEFGGELATYLEGEKVQSTPTNDLVFSPEKLIEYITHIYPLDAGDVIVTGTPGGVGHARNPQRYIGDGETVKVEIAGLGFIENKTVFEL 6j61-a1-m1-cA_6j61-a1-m1-cD Crystal Structure of Thymidylate Synthase, Thy1, from Thermus thermophilus having an Extra C Terminal Domain Q5SJB8 Q5SJB8 2.5 X-RAY DIFFRACTION 105 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 242 242 6j61-a1-m1-cB_6j61-a1-m1-cC LTIPVLDKGFVRLVDQMGDDRAIVQAARVSYGEGTKTVREDAALIDYLMRHRHTSPFEMVVFKFHVKAPIFVARQWFRHRTASVNEISGRYSILKEEFYEPEAFRKQLLRKVQQEAYGAYRALLEKGVAREMARMVLPLNLYTEFYWKQDLHNLFHFLKLRLAPEAQWEIRQYARAIAEIVKERVPLAWAAFEEHLLEGAFLSRTELRALRGLLTPEVYEKALSSLGLGGSRLKEALEKVFG LTIPVLDKGFVRLVDQMGDDRAIVQAARVSYGEGTKTVREDAALIDYLMRHRHTSPFEMVVFKFHVKAPIFVARQWFRHRTASVNEISGRYSILKEEFYEPEAFRKQLLRKVQQEAYGAYRALLEKGVAREMARMVLPLNLYTEFYWKQDLHNLFHFLKLRLAPEAQWEIRQYARAIAEIVKERVPLAWAAFEEHLLEGAFLSRTELRALRGLLTPEVYEKALSSLGLGGSRLKEALEKVFG 6j61-a1-m1-cB_6j61-a1-m1-cD Crystal Structure of Thymidylate Synthase, Thy1, from Thermus thermophilus having an Extra C Terminal Domain Q5SJB8 Q5SJB8 2.5 X-RAY DIFFRACTION 106 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 239 242 6j61-a1-m1-cC_6j61-a1-m1-cA LTIPVLDKGFVRLVDQMGDDRAIVQAARVSYGEGTKTVREDAALIDYLMRHRHTSPFEMVVFKFHVKAPIFVARQWFRHRTASVNEISGRYSILKEEFYEPEAFRLLRKVQQEAYGAYRALLEKGVAREMARMVLPLNLYTEFYWKQDLHNLFHFLKLRLAPEAQWEIRQYARAIAEIVKERVPLAWAAFEEHLLEGAFLSRTELRALRGLLTPEVYEKALSSLGLGGSRLKEALEKVF LTIPVLDKGFVRLVDQMGDDRAIVQAARVSYGEGTKTVREDAALIDYLMRHRHTSPFEMVVFKFHVKAPIFVARQWFRHRTASVNEISGRYSILKEEFYEPEAFRKQLLRKVQQEAYGAYRALLEKGVAREMARMVLPLNLYTEFYWKQDLHNLFHFLKLRLAPEAQWEIRQYARAIAEIVKERVPLAWAAFEEHLLEGAFLSRTELRALRGLLTPEVYEKALSSLGLGGSRLKEALEKVFG 6j61-a1-m1-cC_6j61-a1-m1-cD Crystal Structure of Thymidylate Synthase, Thy1, from Thermus thermophilus having an Extra C Terminal Domain Q5SJB8 Q5SJB8 2.5 X-RAY DIFFRACTION 69 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 240 242 6j61-a1-m1-cB_6j61-a1-m1-cA LTIPVLDKGFVRLVDQMGDDRAIVQAARVSYGEGTKTVREDAALIDYLMRHRHTSPFEMVVFKFHVKAPIFVARQWFRHRTASVNEISGRYSILKEEFYEPEAFRLLRKVQQEAYGAYRALLEKGVAREMARMVLPLNLYTEFYWKQDLHNLFHFLKLRLAPEAQWEIRQYARAIAEIVKERVPLAWAAFEEHLLEGAFLSRTELRALRGLLTPEVYEKALSSLGLGGSRLKEALEKVFG LTIPVLDKGFVRLVDQMGDDRAIVQAARVSYGEGTKTVREDAALIDYLMRHRHTSPFEMVVFKFHVKAPIFVARQWFRHRTASVNEISGRYSILKEEFYEPEAFRKQLLRKVQQEAYGAYRALLEKGVAREMARMVLPLNLYTEFYWKQDLHNLFHFLKLRLAPEAQWEIRQYARAIAEIVKERVPLAWAAFEEHLLEGAFLSRTELRALRGLLTPEVYEKALSSLGLGGSRLKEALEKVFG 6j66-a1-m1-cA_6j66-a1-m1-cB Chondroitin sulfate/dermatan sulfate endolytic 4-O-sulfatase A0A0C5AQI9 A0A0C5AQI9 1.953 X-RAY DIFFRACTION 122 1.0 1540143 (Vibrio sp. FC509) 1540143 (Vibrio sp. FC509) 474 475 KKPNLLIVFPDEMRAHTLGFMNQDRSYTPNLNKFAKESAVLKQAVSNFPLTPFRGMLMTGQYPYRNGIQGNSHTAMPGNFGGKDFGIELKKSTRTWSDILKDQGYSMGYIGKWHLDTPEAPFIPSYNNPMEGRYWNDWTAPDRRHGFDFWYAYGTYDKHLTPIYWTNETPRDQPIKVNQWSPEHEADIAIKYLRNENGHYRDRDKPFTLVVSMNPPHSPYDQVPQKYLDKFDGETSRSLNTRPNVQWDQEYLEGYGPEYFKEYMAMVHGVDDQFGRIIDELDRLGLTEDTLVVFFSDHGCCMGSNGKPTKNVHYEEAMRIPMMFRWPGKLTPRQDDLLFSAPDIYPTLFGLMGLEELIPDTVEGTNFAKTVSGIEGDTRPTSQLYTFMPYGGQSYGRRGVRTDRYTLMIDRKIAKPLTFVLHDNQNDPYQMTNIANDNQELIAQLIEKELIPWLELTGDPWRPTEVPASVAKAY KKPNLLIVFPDEMRAHTLGFMNQDRSYTPNLNKFAKESAVLKQAVSNFPLTPFRGMLMTGQYPYRNGIQGNSHTAMPGNFGGKDFGIELKKSTRTWSDILKDQGYSMGYIGKWHLDTPEAPFIPSYNNPMEGRYWNDWTAPDRRHGFDFWYAYGTYDKHLTPIYWTNETPRDQPIKVNQWSPEHEADIAIKYLRNENGHYRDRDKPFTLVVSMNPPHSPYDQVPQKYLDKFDGETSRSLNTRPNVQWDQEYLEGYGPEYFKEYMAMVHGVDDQFGRIIDELDRLGLTEDTLVVFFSDHGCCMGSNGKPTKNVHYEEAMRIPMMFRWPGKLTPRQDDLLFSAPDIYPTLFGLMGLEELIPDTVEGTNFAKTVSGIEGDTRPTSQLYTFMPYGGQSYGRRGVRTDRYTLMIDRKIAKPLTFVLHDNQNDPYQMTNIANDNQELIAQLIEKELIPWLELTGDPWRPTEVPASVAKAYT 6j6a-a1-m1-cA_6j6a-a1-m1-cB Crystal structure of TldE from Thermococcus kodakarensis Q5JD94 Q5JD94 2.353 X-RAY DIFFRACTION 95 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 442 442 AAMENLIRFGEKFFDELEIAVYRSRDIEASVELNEISMASTRSGALTIIRGIKDKRLGLAIVDSDEPEKVKEAIEQAAKMAKLNSPDEKWVSLPEPGKYREKPKPNYELKEASPDILVEKLVKGIKLAREKDKNAVVAGGAGGVSWEERHVLNSHGLDVFQEGGAAYMYLEIVGRKGSVVTPGIFDFDARRDLNLDVEGIVERAVQKVQWAYNVVPSKNEEVPLIFGPWAIAGLFSYTLLPAFSGERLVKETTPLAGKVGEKIASEVITLYDDPFHPLSLRPTIADDEGVPTRKNVLIENGAFKGFVWDNYWAKIYGTESTGNGKRDIRSGGINIGFHSVVIENGKRSLEDIIGEIDRGYLVDGLQGAHSSNPDNGNFAVTANPAFLIEDGEVKGSAVFLIAGNVYELLQQASEVSKEQTVMPFMNTMITPHIKFENVKIAG AAMENLIRFGEKFFDELEIAVYRSRDIEASVELNEISMASTRSGALTIIRGIKDKRLGLAIVDSDEPEKVKEAIEQAAKMAKLNSPDEKWVSLPEPGKYREKPKPNYELKEASPDILVEKLVKGIKLAREKDKNAVVAGGAGGVSWEERHVLNSHGLDVFQEGGAAYMYLEIVGRKGSVVTPGIFDFDARRDLNLDVEGIVERAVQKVQWAYNVVPSKNEEVPLIFGPWAIAGLFSYTLLPAFSGERLVKETTPLAGKVGEKIASEVITLYDDPFHPLSLRPTIADDEGVPTRKNVLIENGAFKGFVWDNYWAKIYGTESTGNGKRDIRSGGINIGFHSVVIENGKRSLEDIIGEIDRGYLVDGLQGAHSSNPDNGNFAVTANPAFLIEDGEVKGSAVFLIAGNVYELLQQASEVSKEQTVMPFMNTMITPHIKFENVKIAG 6j6f-a1-m1-cB_6j6f-a1-m1-cA Ligand binding domain 1 and 2 of Talaromyces marneffei Mp1 protein A0A093VKV7 A0A093VKV7 4.2 X-RAY DIFFRACTION 244 0.997 1077442 (Talaromyces marneffei PM1) 1077442 (Talaromyces marneffei PM1) 310 312 3l1n-a2-m1-cA_3l1n-a2-m2-cA VNVFKKVLENIGNAVTQFNNDILAYTGGDANHLIHDGDAIIKATENGLQELGPQPPLSLTEALALVGPVQGVNKLIMKTVDHLIEKKGPLVGGGYGPQVKASLQKQAHAAVTLSELVSSKVPSPLAPISKQLSDQVAQALQKGIEAFSISARQATKVKRDISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAGT QRDVNVFKKVLENIGNAVTQFNNDILAYTGGDANHLIHDGDAIIKATENGLQELGPQPPLSLTEALALVGPVQGVNKLIMKTVDHLIEKKGPLVGGGYGPQVKASLQKQAHAAVTLSELVSSKVPSPLAPISKQLSDQVAQALQKGIEAFSISARQATKVKRDISAFQKVIQDISLAVNKFNVDIERYVGGDASHLLADGNVLIKATLDGVQSLQNEPPLSSMEALALVGPVQDLSNQILLAIQNLIDKKEPLVQAGFGGKVENNLRQQEEAAQKLSELVSTKVPHELADISRQLSDGIAAGIKKGIDAFAG 6j6i-a1-m1-cL_6j6i-a1-m1-cO Reconstitution and structure of a plant NLR resistosome conferring immunity Q38834 Q38834 3.7 ELECTRON MICROSCOPY 115 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 790 790 6j5t-a1-m1-cC_6j5t-a1-m1-cF 6j5t-a1-m1-cC_6j5t-a1-m1-cG 6j5t-a1-m1-cF_6j5t-a1-m1-cL 6j5t-a1-m1-cG_6j5t-a1-m1-cO 6j5t-a1-m1-cL_6j5t-a1-m1-cO 6j6i-a1-m1-cC_6j6i-a1-m1-cF 6j6i-a1-m1-cC_6j6i-a1-m1-cG 6j6i-a1-m1-cF_6j6i-a1-m1-cL 6j6i-a1-m1-cG_6j6i-a1-m1-cO TVSDYRKQLEDLQSELKYMQSFLKDAERQKRTNETLRTLVADLRELVYEAEDILVDCQLQYKKSKRLQEINERITKIKSQVEPYFEFITPDRWSSPVYDHTQVVGLEGDKRKIKEWLFRSNDSQLLIMAFVGMGGLGKTTIAQEVFNDKEIEHRFERRIWVSVSQTFTEEQIMRSILRNLGDASVGDDIGTLLRKIQQYLLGKRYLIVMDDVWDKNLSWWDKIYQGLPRGQGGSVIVTTRSESVAKRVQARDDKTHRPELLSPDNSWLLFCNVAFAANDGTCERPELEDVGKEIVTKCKGLPLTIKAVGGLLLCKDHVYHEWRRIAEHFQDELRGNTSETDNVMSSLQLSYDELPSHLKSCILTLSLYPEDCVIPKQQLVHGWIGEGFVMWRNGRSATESGEDCFSGLTNRCLIEVVDKTYSGTIITCKIHDMVRDLVIDIAKKDSFSNPEGLNCRHLGISGNFDEKQIKVNHKLRGVVSTTKTGEVNKLNSDLAKKFTDCKYLRVLDISKSIFDAPLSEILDEIASLQHLACLSLSNTHPLIQFPRSMEDLHNLQILDASYCQNLKQLQPCIVLFKKLLVLDMTNCGSLECFPKGIGSLVKLEVLLGFKPARSNNGCKLSEVKNLTNLRKLGLSLTRGDQIEEEELDSLINLSKLMSISINCYDSYGDDLITKIDALTPPHQLHELSLQFYPGKSSPSWLSPHKLPMLRYMSICSGNLVKMQEPFWGNENTHWRIEGLMLSSLSDLDMDWEVLQQSMPYLRTVTANWCPELESFAIEDVGFRGGVWMKT TVSDYRKQLEDLQSELKYMQSFLKDAERQKRTNETLRTLVADLRELVYEAEDILVDCQLQYKKSKRLQEINERITKIKSQVEPYFEFITPDRWSSPVYDHTQVVGLEGDKRKIKEWLFRSNDSQLLIMAFVGMGGLGKTTIAQEVFNDKEIEHRFERRIWVSVSQTFTEEQIMRSILRNLGDASVGDDIGTLLRKIQQYLLGKRYLIVMDDVWDKNLSWWDKIYQGLPRGQGGSVIVTTRSESVAKRVQARDDKTHRPELLSPDNSWLLFCNVAFAANDGTCERPELEDVGKEIVTKCKGLPLTIKAVGGLLLCKDHVYHEWRRIAEHFQDELRGNTSETDNVMSSLQLSYDELPSHLKSCILTLSLYPEDCVIPKQQLVHGWIGEGFVMWRNGRSATESGEDCFSGLTNRCLIEVVDKTYSGTIITCKIHDMVRDLVIDIAKKDSFSNPEGLNCRHLGISGNFDEKQIKVNHKLRGVVSTTKTGEVNKLNSDLAKKFTDCKYLRVLDISKSIFDAPLSEILDEIASLQHLACLSLSNTHPLIQFPRSMEDLHNLQILDASYCQNLKQLQPCIVLFKKLLVLDMTNCGSLECFPKGIGSLVKLEVLLGFKPARSNNGCKLSEVKNLTNLRKLGLSLTRGDQIEEEELDSLINLSKLMSISINCYDSYGDDLITKIDALTPPHQLHELSLQFYPGKSSPSWLSPHKLPMLRYMSICSGNLVKMQEPFWGNENTHWRIEGLMLSSLSDLDMDWEVLQQSMPYLRTVTANWCPELESFAIEDVGFRGGVWMKT 6j6t-a1-m1-cA_6j6t-a1-m1-cB Crystal Structure of HDA15 HD domain Q8GXJ1 Q8GXJ1 2.36 X-RAY DIFFRACTION 43 0.992 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 353 356 SSTAVGFDERMLLHSEFEVKAQPHPERPDRLRAIAASLATAGVFPGRCLPINAREITKQELQMVHTSEHVDAVDTTSQLLYSYFTSDTYANEYSARAARLAAGLCADLATDIFTGRVKNGFALVRPPGHHAGVRHAMGFCLHNNAAVAALVAQAAGAKKVLIVDWDVHHGNGTQEIFEQNKSVLYISLHRHEGGNFYPGTGAADEVGSNGGEGYCVNVPWSCGGVGDKDYIFAFQHVVLPIASAFSPDFVIISAGFDAARGDPLGCCDVTPAGYSRMTQMLGDLCGGKMLVILEGGYNLRSISASATAVIKVLLGELPIATTPSVAGLQTVLDVLNIQLEFWPSLAISYSKLL ATSSTAVGFDERMLLHSEFEVKAQPHPERPDRLRAIAASLATAGVFPGRCLPINAREITKQELQMVHTSEHVDAVDTTSQLLYSYFTSDTYANEYSARAARLAAGLCADLATDIFTGRVKNGFALVRPPGHHAGVRHAMGFCLHNNAAVAALVAQAAGAKKVLIVDWDVHHGNGTQEIFEQNKSVLYISLHRHEGGNFYPGTGAADEVGSNGGEGYCVNVPWSCGGVGDKDYIFAFQHVVLPIASAFSPDFVIISAGFDAARGDPLGCCDVTPAGYSRMTQMLGDLCGGKMLVILEGGYNLRSISASATAVIKVLLGEATTPSVAGLQTVLDVLNIQLEFWPSLAISYSKLLSELE 6j6t-a1-m1-cD_6j6t-a1-m1-cA Crystal Structure of HDA15 HD domain Q8GXJ1 Q8GXJ1 2.36 X-RAY DIFFRACTION 39 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 351 353 6j6t-a1-m1-cC_6j6t-a1-m1-cB TSSTAVGFDERMLLHSEFEVKAQPHPERPDRLRAIAASLATAGVFPGRCLPINAREITKQELQMVHTSEHVDAVDTTSQLLYSYFTSDTYANEYSARAARLAAGLCADLATDIFTGRVKNGFALVRPPGHHAGVRHAMGFCLHNNAAVAALVAQAAGAKKVLIVDWDVHHGNGTQEIFEQNKSVLYISLHRHEGGNFYPGTGAADEVGSNGGEGYCVNVPWSCGGVGDKDYIFAFQHVVLPIASAFSPDFVIISAGFDAARGDPLGCCDVTPAGYSRMTQMLGDLCGGKMLVILEGGYNLRSISASATAVIKVLLGETPSVAGLQTVLDVLNIQLEFWPSLAISYSKLLSE SSTAVGFDERMLLHSEFEVKAQPHPERPDRLRAIAASLATAGVFPGRCLPINAREITKQELQMVHTSEHVDAVDTTSQLLYSYFTSDTYANEYSARAARLAAGLCADLATDIFTGRVKNGFALVRPPGHHAGVRHAMGFCLHNNAAVAALVAQAAGAKKVLIVDWDVHHGNGTQEIFEQNKSVLYISLHRHEGGNFYPGTGAADEVGSNGGEGYCVNVPWSCGGVGDKDYIFAFQHVVLPIASAFSPDFVIISAGFDAARGDPLGCCDVTPAGYSRMTQMLGDLCGGKMLVILEGGYNLRSISASATAVIKVLLGELPIATTPSVAGLQTVLDVLNIQLEFWPSLAISYSKLL 6j6t-a1-m1-cD_6j6t-a1-m1-cB Crystal Structure of HDA15 HD domain Q8GXJ1 Q8GXJ1 2.36 X-RAY DIFFRACTION 18 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 351 356 6j6t-a1-m1-cC_6j6t-a1-m1-cA TSSTAVGFDERMLLHSEFEVKAQPHPERPDRLRAIAASLATAGVFPGRCLPINAREITKQELQMVHTSEHVDAVDTTSQLLYSYFTSDTYANEYSARAARLAAGLCADLATDIFTGRVKNGFALVRPPGHHAGVRHAMGFCLHNNAAVAALVAQAAGAKKVLIVDWDVHHGNGTQEIFEQNKSVLYISLHRHEGGNFYPGTGAADEVGSNGGEGYCVNVPWSCGGVGDKDYIFAFQHVVLPIASAFSPDFVIISAGFDAARGDPLGCCDVTPAGYSRMTQMLGDLCGGKMLVILEGGYNLRSISASATAVIKVLLGETPSVAGLQTVLDVLNIQLEFWPSLAISYSKLLSE ATSSTAVGFDERMLLHSEFEVKAQPHPERPDRLRAIAASLATAGVFPGRCLPINAREITKQELQMVHTSEHVDAVDTTSQLLYSYFTSDTYANEYSARAARLAAGLCADLATDIFTGRVKNGFALVRPPGHHAGVRHAMGFCLHNNAAVAALVAQAAGAKKVLIVDWDVHHGNGTQEIFEQNKSVLYISLHRHEGGNFYPGTGAADEVGSNGGEGYCVNVPWSCGGVGDKDYIFAFQHVVLPIASAFSPDFVIISAGFDAARGDPLGCCDVTPAGYSRMTQMLGDLCGGKMLVILEGGYNLRSISASATAVIKVLLGEATTPSVAGLQTVLDVLNIQLEFWPSLAISYSKLLSELE 6j6u-a1-m1-cB_6j6u-a1-m1-cA Rat PTPRZ D1-D2 domain Q62656 Q62656 3.32 X-RAY DIFFRACTION 68 0.992 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 514 534 AIPIKHFPKHVADLHASNGFTEEFETLKETADSSNHPHKNRYVNIVAYDHSRVKTDYINANYVDGYNRPKAYIAAQGPLKSTAEDFWRMIWEHNVEVIVMITNLVEKGRRKCDQYWPTDGSEELVNQKNVQVLAYYTVRNFTLRNTRLVTQYHYTQWPDMGVPEYSLPVLAFVRKTAQAKRHAVGPVVVHCSAGVGRTGTYIVLDSMLQQIQHEGTVNIFGFLKHIRSQRNYLVQTEEQYVFIHDTLVEAILSKETEVPDSHIHSYVNTLLKTKLEKQFQLLSQSDYSTALKQCNREKNRTIIPVERSRVGISDYINASYIMGYYQSNEFIITQHPLLHTIKDFWRMIWDHNAQLVVMIPFVYWPNKDEPINCESFKVTLMSEEHKCLSNEEKLIVQDFILEATQDDYVLEVRHFQCPKWPNPDSPISKTFELISIIKEEAANRDGPMIVHDEHGGVTAGTFCALTTLMHQLEKENSMDVYQVAKMINLMRPGVFTDIEQYQFLYKVVLSLVST AIPIKHFPKHVADLHASNGFTEEFETLKEFTADSSNHPDNKHKNRYVNIVAYDHSRVKLTQLAGKLTDYINANYVDGYNRPKAYIAAQGPLKSTAEDFWRMIWEHNVEVIVMITNLVEKGRRKCDQYWPTDGSEEYGSFLVNQKNVQVLAYYTVRNFTLRNTKIGRLVTQYHYTQWPDMGVPEYSLPVLAFVRKTAQAKRHAVGPVVVHCSAGVGRTGTYIVLDSMLQQIQHEGTVNIFGFLKHIRSQRNYLVQTEEQYVFIHDTLVEAILSKETEVPDSHIHSYVNTLLISGKTKLEKQFQLLSQSTALKQCNREKNRTSSIIPVERSRVGISDYINASYIMGYYQSNEFIITQHPLLHTIKDFWRMIWDHNAQLVVMIPFVYWPNKDEPINCESFKVTLMSEEHKCLSNEEKLIVQDFILEATQDDYVLEVRHFQCPKWPNPDSPISKTFELISIIKEEAANRDGPMIVHDEHGGVTAGTFCALTTLMHQLEKENSMDVYQVAKMINLMRPGVFTDIEQYQFLYKVVLSLVS 6j6w-a1-m1-cA_6j6w-a1-m2-cB Mutant K23N of heat shock factor 4-DBD Q9ULV5 Q9ULV5 1.693 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 6j6w-a1-m1-cB_6j6w-a1-m2-cA VPAFLGNLWALVGDPGTDHLIRWSPSGTSFLVSDQSRFAKEVLPQYFKHSNMASFVRQLNMYGFRKVVSIEDHVEFQHPSFVRGREQLLERVRR VPAFLGNLWALVGDPGTDHLIRWSPSGTSFLVSDQSRFAKEVLPQYFKHSNMASFVRQLNMYGFRKVVSIEDHVEFQHPSFVRGREQLLERVRR 6j6w-a1-m2-cA_6j6w-a1-m2-cB Mutant K23N of heat shock factor 4-DBD Q9ULV5 Q9ULV5 1.693 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 94 6j6v-a1-m1-cA_6j6v-a1-m2-cA 6j6w-a1-m1-cA_6j6w-a1-m1-cB VPAFLGNLWALVGDPGTDHLIRWSPSGTSFLVSDQSRFAKEVLPQYFKHSNMASFVRQLNMYGFRKVVSIEDHVEFQHPSFVRGREQLLERVRR VPAFLGNLWALVGDPGTDHLIRWSPSGTSFLVSDQSRFAKEVLPQYFKHSNMASFVRQLNMYGFRKVVSIEDHVEFQHPSFVRGREQLLERVRR 6j75-a2-m1-cC_6j75-a2-m1-cD Structure of 3,6-anhydro-L-galactose Dehydrogenase A0A090SK43 A0A090SK43 2.695 X-RAY DIFFRACTION 151 1.0 990271 (Vibrio variabilis) 990271 (Vibrio variabilis) 477 477 6j75-a1-m1-cA_6j75-a1-m1-cB 6j76-a1-m1-cA_6j76-a1-m1-cB QYQMYVGGEWIDASNGQTEPVVSPINEEVLAYIQDADASDAERVLAVATTAQKEWAKQPARQRAEVLRKFAQLIRDNKQYLAELLVKEQGKLLKVALGEVEATSTFIEYACDWARQMDGDIVKSDNANEQIMIHKIPRGVVVAITAWNFPLALAGRKIGPALVAGNSIVVKPTSETPLATLELGYLAEQAGIPAGVLNIVTGGGRTLGNELVGHRMTNMVSMTGSTPAGQSIIRASANNMAHVQLELGGKAPFIVMEDADLEQAAAAALHSRFDNCGQVCTCNERMYVHGAVYDEFMRIFMGKVEAIKVGDPMDPASDMGPKVNANELAHMEELVAEAVDEGATVLFGGKKLEGPEFEKGFWFEPTVLTNVTQDMTIVHEESFGPILPVIKFDSFDEVIEYANDSDYGLAAMICTQNMHYINRLLTELESGEIYVNRGHGEQHQGFHNGYKLSGTGGEDGKYGFEQYLEKKTFYINY QYQMYVGGEWIDASNGQTEPVVSPINEEVLAYIQDADASDAERVLAVATTAQKEWAKQPARQRAEVLRKFAQLIRDNKQYLAELLVKEQGKLLKVALGEVEATSTFIEYACDWARQMDGDIVKSDNANEQIMIHKIPRGVVVAITAWNFPLALAGRKIGPALVAGNSIVVKPTSETPLATLELGYLAEQAGIPAGVLNIVTGGGRTLGNELVGHRMTNMVSMTGSTPAGQSIIRASANNMAHVQLELGGKAPFIVMEDADLEQAAAAALHSRFDNCGQVCTCNERMYVHGAVYDEFMRIFMGKVEAIKVGDPMDPASDMGPKVNANELAHMEELVAEAVDEGATVLFGGKKLEGPEFEKGFWFEPTVLTNVTQDMTIVHEESFGPILPVIKFDSFDEVIEYANDSDYGLAAMICTQNMHYINRLLTELESGEIYVNRGHGEQHQGFHNGYKLSGTGGEDGKYGFEQYLEKKTFYINY 6j7c-a1-m1-cA_6j7c-a1-m2-cA Crystal structure of proline racemase-like protein from Thermococcus litoralis in complex with proline H3ZMH5 H3ZMH5 2.7 X-RAY DIFFRACTION 132 1.0 523849 (Thermococcus litoralis DSM 5473) 523849 (Thermococcus litoralis DSM 5473) 331 331 LFADHVFHVVDTHTEGEPTRIVLSGVNVKGEDIIEKREYFKEHYDWIRTALLHEPRGHSDQFGAVLVPSDIADFGVIYMDTSGYLDMCGHATMGVATVLVELGIIEKKEPYTTVKLETPAGLVEAKAKVKGGVVKEVTVVDVPSFYVGEFVIEYPGRGKIKVDVAFGGNFYVIADARDLGLRVRREYIKELIPTALKLIKVANEQIKVQHPRKGVQNRINLAMLTDEPEREDSDGKNVVIWGEGSVDRSPCGTGSASRVATLYSKGILKEGDIFVHESILGTQFRIKIVGTTKIGEYTAIIPEITGSAYITKISQDIISKNDPLWKGFLLR LFADHVFHVVDTHTEGEPTRIVLSGVNVKGEDIIEKREYFKEHYDWIRTALLHEPRGHSDQFGAVLVPSDIADFGVIYMDTSGYLDMCGHATMGVATVLVELGIIEKKEPYTTVKLETPAGLVEAKAKVKGGVVKEVTVVDVPSFYVGEFVIEYPGRGKIKVDVAFGGNFYVIADARDLGLRVRREYIKELIPTALKLIKVANEQIKVQHPRKGVQNRINLAMLTDEPEREDSDGKNVVIWGEGSVDRSPCGTGSASRVATLYSKGILKEGDIFVHESILGTQFRIKIVGTTKIGEYTAIIPEITGSAYITKISQDIISKNDPLWKGFLLR 6j80-a1-m1-cA_6j80-a1-m1-cB Human mitochondrial Oligoribonuclease in complex with poly-dT DNA Q9Y3B8 Q9Y3B8 1.812 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 181 SMAQRMVWVDLEIIEMACLITDSDLNILAEGPNLIIKQPTITLQQAEYEFLSFVRQQTPPGLCPLAGNSVHEDKKFLDKYMPQFMKHLHYRIIDVSTVKELCRRWYPEEYEFAPSHRALDAISESIKELQFYRNNIFK AASMAQRMVWVDLEMTGLDIEKDQIIEMACLITDSDLNILAEGPNLIIKQPDELLDSMSDWCKEHHGKSGLTKAVKESTITLQQAEYEFLSFVRQQTPPGLCPLAGNSVHEDKKFLDKYMPQFMKHLHYRIIDVSTVKELCRRWYPEEYEFAPKKAASHRALDAISESIKELQFYRNNIFK 6j8l-a1-m1-cA_6j8l-a1-m1-cB Phytophthora sojae effector PsAvh240 inhibits a host aspartic protease secretion to promote infection E0W4T1 E0W4T1 2.3 X-RAY DIFFRACTION 38 1.0 67593 (Phytophthora sojae) 67593 (Phytophthora sojae) 132 132 LGYNTVQLWRMRRTANKLMNGKLTTQKEAALKKWMASQQDKFLAKWLKSSSVYPDQVYSKLGLTKLGASAKSSPNYQLYEKYTEALLQRWTNFKASPDTVYKSLRLDKLGAKAPQSPSYPMYEKYLQTFFRN LGYNTVQLWRMRRTANKLMNGKLTTQKEAALKKWMASQQDKFLAKWLKSSSVYPDQVYSKLGLTKLGASAKSSPNYQLYEKYTEALLQRWTNFKASPDTVYKSLRLDKLGAKAPQSPSYPMYEKYLQTFFRN 6j94-a1-m1-cA_6j94-a1-m1-cB Crystal structure of CYP97A3 Q93VK5 Q93VK5 2.401 X-RAY DIFFRACTION 80 0.998 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 457 457 RNEAFFIPLYELFLTYGGIFRLTFGPKSFLIVSDPSIAKHILKDNAKAYSKGILAEILDFVMGKGLIPADGEIWRRRRRAIVPALHQKYVAAMISLFGEASDRLCQKLDAAALKGEEVEMESLFSRLTLDIIGKAVFNYDFDSLTNDTGVIEAVYTVLREAEDRSVSPIPVWDIPIWKDISPRQRKVATSLKLINDTLDDLIATCKRMVEEEELQFHEEYMNERDPSILHFLLASGDDVSSKQLRDDLMTMLIAGHETSAAVLTWTFYLLTTEPSVVAKLQEEVDSVIGDRFPTIQDMKKLKYTTRVMNESLRLYPQPPVLIRRSIDNDILGEYPIKRGEDIFISVWNLHRSPLHWDDAEKFNPERWPLDGPNPNETNQNFSYLPFGGGPRKCIGDMFASFENVVAIAMLIRRFNFQIAPGAPPVKMTTGATIHTTEGLKLTVTKRTKPLDIPSVPI NEAFFIPLYELFLTYGGIFRLTFGPKSFLIVSDPSIAKHILKDNAKAYSKGILAEILDFVMGKGLIPADGEIWRRRRRAIVPALHQKYVAAMISLFGEASDRLCQKLDAAALKGEEVEMESLFSRLTLDIIGKAVFNYDFDSLTNDTGVIEAVYTVLREAEDRSVSPIPVWDIPIWKDISPRQRKVATSLKLINDTLDDLIATCKRMVEEEELQFHEEYMNERDPSILHFLLASGDDVSSKQLRDDLMTMLIAGHETSAAVLTWTFYLLTTEPSVVAKLQEEVDSVIGDRFPTIQDMKKLKYTTRVMNESLRLYPQPPVLIRRSIDNDILGEYPIKRGEDIFISVWNLHRSPLHWDDAEKFNPERWPLDGPNPNETNQNFSYLPFGGGPRKCIGDMFASFENVVAIAMLIRRFNFQIAPGAPPVKMTTGATIHTTEGLKLTVTKRTKPLDIPSVPIL 6j9f-a1-m1-cB_6j9f-a1-m1-cA Cryo-EM structure of Xanthomonos oryzae transcription elongation complex with the bacteriophage protein P7 B2SQT4 B2SQT4 3.95 ELECTRON MICROSCOPY 76 0.99 360094 (Xanthomonas oryzae pv. oryzae PXO99A) 360094 (Xanthomonas oryzae pv. oryzae PXO99A) 203 215 6j9e-a1-m1-cB_6j9e-a1-m1-cA LRPRGPQIERLTDNRAKVVIEPLERGYGHTLGNALRRVLLSSIPGFAITEVEIDGVLHEYTTVEGLQEDVLDVLLNLKDVAIRMHSGDSATLSLSKQVTAADIRTDHNVEIINGDHVICHLTKDTALNMRLKIERGFGYQPALMLDASFSPVRRVAYAVEAARVEQRTDLDKLVIDIETNGTIDAEEAVRTAADILSDQLSVF PRGPQIERLTDNRAKVVIEPLERGYGHTLGNALRRVLLSSIPGFAITEVEIDGVLHEYTTVEGLQEDVLDVLLNLKDVAIRMHSGDSATLSLSKQGPGTVTAADIRTDHNVEIINGDHVICHLTKDTALNMRLKIERGFGYQPAAARRRTIGRLMLDASFSPVRRVAYAVEAARVEQRTDLDKLVIDIETNGTIDAEEAVRTAADILSDQLSVFG 6j9r-a1-m1-cA_6j9r-a1-m1-cB Coiled-coil Domain of Drosophila TRIM Protein Brat Q8MQJ9 Q8MQJ9 2.5 X-RAY DIFFRACTION 118 0.984 663279 (Drosophila melanogaster American nodavirus (ANV) SW-2009a) 663279 (Drosophila melanogaster American nodavirus (ANV) SW-2009a) 123 124 SALQTLLADRGKIGEIVGIAGNSDQNLTKVKLQYQKAHNELNETHQFFASLDERKTELLKELETLYTAKVNSNNSWQQRSRDLIDKGLATCEAVERSPAPPSSLLTEALLLRKSLEQQLQTGI NESALQTLLADRGKIGEIVAGNSDQNLTKVKLQYQKAHNELNETHQFFASLDERKTELLKELETLYTAKVNSNNSWQQRSRDLIDKGLATCEAVERSPAPPSSLLTEALLLRKSLEQQLQTGIQ 6jbh-a1-m1-cA_6jbh-a1-m1-cB Cryo-EM structure and transport mechanism of a wall teichoic acid ABC transporter 3.94 ELECTRON MICROSCOPY 67 1.0 122960 (Alicyclobacillus herbarius) 122960 (Alicyclobacillus herbarius) 264 264 EHAVIVENVTKKYKLFKRTSERLLDMILPGGYGEDFYALRNVSFTADKGDVIGIVGVNGSGKSTLSNIIAGILPPTSGTIKIDGQASLIAISSGLNNQLTGRENIELKCLMLGFSKKQIRAMEPDIIEFADIGKFIDQPVKTYSSGMKSRLGFAISVNIDPDVLVIDEALSVGDQTFADKCLDKMNEFKERGKTIFFISHSIGQVKSFCEKALWLEYGEVRGYGTVAEIIPQYEKFLKEYRAMSDKEKRQYKERVMRKQQGEFL EHAVIVENVTKKYKLFKRTSERLLDMILPGGYGEDFYALRNVSFTADKGDVIGIVGVNGSGKSTLSNIIAGILPPTSGTIKIDGQASLIAISSGLNNQLTGRENIELKCLMLGFSKKQIRAMEPDIIEFADIGKFIDQPVKTYSSGMKSRLGFAISVNIDPDVLVIDEALSVGDQTFADKCLDKMNEFKERGKTIFFISHSIGQVKSFCEKALWLEYGEVRGYGTVAEIIPQYEKFLKEYRAMSDKEKRQYKERVMRKQQGEFL 6jbh-a1-m1-cC_6jbh-a1-m1-cD Cryo-EM structure and transport mechanism of a wall teichoic acid ABC transporter 3.94 ELECTRON MICROSCOPY 47 1.0 122960 (Alicyclobacillus herbarius) 122960 (Alicyclobacillus herbarius) 267 267 MRSAVTVLMEHIRNLYLIRRLSLFELKSDNSNQYLGILWEIINPMIQIAIYWFVFGYGIRGRHPVGHIPFILWMLAGMTVWFFVNQAVLQASKSVYTRIRMVAQMNFPISVIPTYVITAKFYQHLMLLAVIFIIFQFTPYHVSVYLVQLPYYMFGLLALLVSFSLITSTLATVVRDVQMIVQSLVRILLYLTPLLWDPSHLPHLVQVIMRLNPLYYIVEGYRSALLGTSWYLVDHASYTVYFWVVVILFFVFGSMVHLKFRAHFVDY MRSAVTVLMEHIRNLYLIRRLSLFELKSDNSNQYLGILWEIINPMIQIAIYWFVFGYGIRGRHPVGHIPFILWMLAGMTVWFFVNQAVLQASKSVYTRIRMVAQMNFPISVIPTYVITAKFYQHLMLLAVIFIIFQFTPYHVSVYLVQLPYYMFGLLALLVSFSLITSTLATVVRDVQMIVQSLVRILLYLTPLLWDPSHLPHLVQVIMRLNPLYYIVEGYRSALLGTSWYLVDHASYTVYFWVVVILFFVFGSMVHLKFRAHFVDY 6jbj-a1-m1-cA_6jbj-a1-m1-cB Cryo-EM structure of human lysosomal cobalamin exporter ABCD4 O14678 O14678 3.6 ELECTRON MICROSCOPY 453 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 565 565 RPRLDLQFLQRFLQILKVLFPSWSSQNALMFLTLLCLTLLEQFVIYQVGLIPSQYYGVLGNKDLEGFKTLTFLAVMLIVLNSTLKSFDQFTCNLLYVSWRKDLTEHLHRLYFRGRAYYTLNVLRDDIDNPDQRISQDVERFCRQLSSMASKLIISPFTLVYYTYQCFQSTGWLGPVSIFGYFILGTVVNKTLMGPIVMKLVHQEKLEGDFRFKHMQIRVNAEPAAFYRAGHVEHMRTDRRLQRLLQTQRELMSKELWLYIGINTFDYLGSILSYVVIAIPIFSGVYGDLSPAELSTLVSKNAFVCIYLISCFTQLIDLSTTLSDVAGYTHRIGQLRETLLDMSLDTAFLLERVSISAPSSDKPLIKDLSLKISEGQSLLITGNTGTGKTSLLRVLGGLWTSTRGSVQMLTDFGPHGVLFLPQKPFFTDGTLREQVIYPLKEVYPDSGSADDERILRFLELAGLSNLVARTEGLDQQVDWNWYDVLSPGEMQRLSFARLFYLQPKYAVLDQATSALTEEVESELYRIGQQLGMTFISVGHRQSLEKFHSLVLKLCGGGRWELMRIK RPRLDLQFLQRFLQILKVLFPSWSSQNALMFLTLLCLTLLEQFVIYQVGLIPSQYYGVLGNKDLEGFKTLTFLAVMLIVLNSTLKSFDQFTCNLLYVSWRKDLTEHLHRLYFRGRAYYTLNVLRDDIDNPDQRISQDVERFCRQLSSMASKLIISPFTLVYYTYQCFQSTGWLGPVSIFGYFILGTVVNKTLMGPIVMKLVHQEKLEGDFRFKHMQIRVNAEPAAFYRAGHVEHMRTDRRLQRLLQTQRELMSKELWLYIGINTFDYLGSILSYVVIAIPIFSGVYGDLSPAELSTLVSKNAFVCIYLISCFTQLIDLSTTLSDVAGYTHRIGQLRETLLDMSLDTAFLLERVSISAPSSDKPLIKDLSLKISEGQSLLITGNTGTGKTSLLRVLGGLWTSTRGSVQMLTDFGPHGVLFLPQKPFFTDGTLREQVIYPLKEVYPDSGSADDERILRFLELAGLSNLVARTEGLDQQVDWNWYDVLSPGEMQRLSFARLFYLQPKYAVLDQATSALTEEVESELYRIGQQLGMTFISVGHRQSLEKFHSLVLKLCGGGRWELMRIK 6jbx-a1-m1-cB_6jbx-a1-m1-cA Crystal structure of Streptococcus pneumoniae FabT in complex with DNA Q8DR18 Q8DR18 2.2 X-RAY DIFFRACTION 132 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 143 146 DYQRINEYLTSIFNNVLVIEEVNLRGSRFKDISIKEMHTIDVIGKAPDVTPSQVSKELMVTLGTVTTSLNNLERKGYIERVRSEQDRRVVHLHLTKKGRLIHRLHKRFHKAMVEKIIDGMSEEEIAVMGKGLTNLYQFLEDLK HHMDYQRINEYLTSIFNNVLVIEEVNLRGSRFKDISIKEMHTIDVIGKAPDVTPSQVSKELMVTLGTVTTSLNNLERKGYIERVRSEQDRRVVHLHLTKKGRLIHRLHKRFHKAMVEKIIDGMSEEEIAVMGKGLTNLYQFLEDLK 6jbz-a1-m1-cA_6jbz-a1-m1-cC Structural analysis of molybdopterin synthases from two mycobacteria pathogens A0A045HUW8 A0A045HUW8 2.603 X-RAY DIFFRACTION 87 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 141 141 MTQVLRAALTDQPIFLAEHEELVSHRSAGAIVGFVGMIRDRDGGRGVLRLEYSAHPSAAQVLADLVAEVAEESSGVRAVAASHRIGVLQVGEAALVAAVAADHRRAAFGTCAHLVETIKARLPVWKHQFFEDGTDEWVGSV MTQVLRAALTDQPIFLAEHEELVSHRSAGAIVGFVGMIRDRDGGRGVLRLEYSAHPSAAQVLADLVAEVAEESSGVRAVAASHRIGVLQVGEAALVAAVAADHRRAAFGTCAHLVETIKARLPVWKHQFFEDGTDEWVGSV 6jc0-a1-m1-cB_6jc0-a1-m1-cD Structural analysis of molybdopterin synthases from two mycobacteria pathogens I7FL16 I7FL16 2.1 X-RAY DIFFRACTION 79 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 137 141 SAEIVRVELTEDPISLTEYEALVAAGAVVGFAGVVRDHDGGRSVLRLEYSAHPTAQRTLEEVAEEIAAQSDGVRAIAVSHRIGPLKIGDAALVAAVAADHRRAAFETCARLVDVVKERLPVWKHQHFADGTDEWVNS MSAEIVRVELTEDPISLTEYEALVAHEAAGAVVGFAGVVRDHDGGRSVLRLEYSAHPTAQRTLEEVAEEIAAQSDGVRAIAVSHRIGPLKIGDAALVAAVAADHRRAAFETCARLVDVVKERLPVWKHQHFADGTDEWVNS 6jc4-a2-m1-cB_6jc4-a2-m1-cC Crystal structure of the urease accessory protein UreF from Klebsiella pneumoniae A6TE44 A6TE44 2.3 X-RAY DIFFRACTION 107 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 200 200 6jc4-a1-m1-cA_6jc4-a1-m1-cD MSTAEQRLRLMQLASSNLPVGGYSWSQGLEWAVEAGWVPDVAAFERWQRRQMTEGFFTVDLPLFARLYRACEQGDIAAAQRWTAYLLACRETRELREEERNRGAAFARLLSDWQPDCPPPWRSLCQQSQLAGMAWLGVRWRIALPEMALSLGYSWIESAVMAGVKLVPFGQQAAQQLILRLCDHYAAEMPRALAAPDGDI MSTAEQRLRLMQLASSNLPVGGYSWSQGLEWAVEAGWVPDVAAFERWQRRQMTEGFFTVDLPLFARLYRACEQGDIAAAQRWTAYLLACRETRELREEERNRGAAFARLLSDWQPDCPPPWRSLCQQSQLAGMAWLGVRWRIALPEMALSLGYSWIESAVMAGVKLVPFGQQAAQQLILRLCDHYAAEMPRALAAPDGDI 6jcl-a4-m1-cF_6jcl-a4-m1-cE Crystal structure of cofactor-bound Rv0187 from MTB O07431 O07431 1.644 X-RAY DIFFRACTION 137 0.995 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 216 217 6jcl-a1-m1-cB_6jcl-a1-m1-cA 6jcl-a2-m1-cD_6jcl-a2-m1-cC 6jcl-a3-m1-cH_6jcl-a3-m1-cG 6jcm-a1-m1-cA_6jcm-a1-m1-cB 6jcm-a2-m1-cC_6jcm-a2-m1-cD QQPNPPDVDAFLDSTLVGDDPALAAALAASDAAELPRIAVSAQQGKFLCLLAGAIQARRVLEIGTLGGFSTIWLARGAGPQGRVVTLEYQPKHAEVARVNLQRAGVADRVEVVVGPALDTLPTLAGGPFDLVFIDADKENNVAYIQWAIRLARRGAVIVVDNVIRGGGILAESDDADAVAARRTLQMMGEHPGLDATAIQTVGRKGWDGFALALVR QPNPPDVDAFLDSTLVGDDPALAAALAASDAAELPRIAVSAQQGKFLCLLAGAIQARRVLEIGTLGGFSTIWLARGAGPQGRVVTLEYQPKHAEVARVNLQRAGVADRVEVVVGPALDTLPTLAGGPFDLVFIDADKENNVAYIQWAIRLARRGAVIVVDNVIRGGGILAESDDADAVAARRTLQMMGEHPGLDATAIQTVGRKGWDGFALALVREN 6jcn-a1-m1-cA_6jcn-a1-m1-cB Yeast dehydrodolichyl diphosphate synthase complex subunit NUS1 Q12063 Q12063 1.998 X-RAY DIFFRACTION 100 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 207 207 KIPKRLAAILEVKPVGDVGGGVTGLLNDASEIVAWTVSAGIKHLMLYDYDGILQRNVPELRMEIHSNLAKYFGPAHVPNYAVKIPHSNKIFYNLDGIEEKDKIAIEISLLSNRDGRETIVDLTKTMAELAAVNELSVSDITMDLVDSELKQLVGPEPDLLLYFGPSLDLQGFPPWHIRLTEFYWEKDNNEVIYSVFIRGLRQYAGCK KIPKRLAAILEVKPVGDVGGGVTGLLNDASEIVAWTVSAGIKHLMLYDYDGILQRNVPELRMEIHSNLAKYFGPAHVPNYAVKIPHSNKIFYNLDGIEEKDKIAIEISLLSNRDGRETIVDLTKTMAELAAVNELSVSDITMDLVDSELKQLVGPEPDLLLYFGPSLDLQGFPPWHIRLTEFYWEKDNNEVIYSVFIRGLRQYAGCK 6jdc-a1-m1-cA_6jdc-a1-m2-cA Crystal structure of N-acetyl mannosmaine kinase in complex with ManNAc from Haemophilus influenzae Q4QP43 Q4QP43 2.271 X-RAY DIFFRACTION 114 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 269 269 6jdb-a1-m1-cA_6jdb-a1-m2-cA MRCLALDIGGTKIAAAIVKNGEIEQRQQIHTPRENVVEGMHQALGKLLADYEGQFDYVAVASTGIINNGILSALNPKNLGGLAEFPLKASIAKHTDKPIGLLNDAQAATYAEYQLQNFEQVSNFVFITVSTGVGGGIVLNQILQTGSRGIAGHIGHTLADPNGAICGCGRRGCVEAIASGRAIEAVSSATALVERSAKAIANLIADLVISLDIQKIAIGGSVGLAEGYLSLVEKYLQDFPSIYCCEIETAKFGQDAGLIGAAYWVKDVL MRCLALDIGGTKIAAAIVKNGEIEQRQQIHTPRENVVEGMHQALGKLLADYEGQFDYVAVASTGIINNGILSALNPKNLGGLAEFPLKASIAKHTDKPIGLLNDAQAATYAEYQLQNFEQVSNFVFITVSTGVGGGIVLNQILQTGSRGIAGHIGHTLADPNGAICGCGRRGCVEAIASGRAIEAVSSATALVERSAKAIANLIADLVISLDIQKIAIGGSVGLAEGYLSLVEKYLQDFPSIYCCEIETAKFGQDAGLIGAAYWVKDVL 6jdh-a1-m1-cB_6jdh-a1-m1-cA Crystal structure of N-acetyl mannosmaine kinase from Pasteurella multocida A0A2K0XYW4 A0A2K0XYW4 1.9 X-RAY DIFFRACTION 112 1.0 747 (Pasteurella multocida) 747 (Pasteurella multocida) 291 293 6jda-a1-m1-cA_6jda-a1-m2-cA 6jdo-a1-m1-cB_6jdo-a1-m1-cA MRCLALDIGGTKIASAIVTDGKIEQRQQIATPQADAANAMHDTLANILALYAGQFDYVAVASTGIINHGVLTALNPKNLGGLAEFPLKESIARHTDKPIGLLNDVQAAACAEYKDEDKNAVQNFVFITVSTGVGGGIILERRLLTEPNGVAGHIGHTLADPNGPVCGCGRVGCVEAVAAGRAIEAVSSQWNPPCTPKQAFELFRKNDEKATALIQRSASAIANLIADLVIGLDVQKVVVGGSVGLAEGYLPLVKQYLNTMPHFYHCTVEQARHGQDAGLLGAAWWVADCLK MRCLALDIGGTKIASAIVTDGKIEQRQQIATPQADAANAMHDTLANILALYAGQFDYVAVASTGIINHGVLTALNPKNLGGLAEFPLKESIARHTDKPIGLLNDVQAAACAEYKDEDKNAVQNFVFITVSTGVGGGIILERRLLTEPNGVAGHIGHTLADPNGPVCGCGRVGCVEAVAAGRAIEAVSSQWNPPCTPKQAFELFRKNDEKATALIQRSASAIANLIADLVIGLDVQKVVVGGSVGLAEGYLPLVKQYLNTMPHFYHCTVEQARHGQDAGLLGAAWWVADCLKQG 6jec-a1-m1-cA_6jec-a1-m1-cC Structure of a triple-helix region of human collagen type II P08123 P08123 2.049 X-RAY DIFFRACTION 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 24 6jec-a1-m1-cA_6jec-a1-m1-cB 6jec-a1-m1-cB_6jec-a1-m1-cC PGPGPGRAGEPGLQGPAGPGPGP PGPGPGRAGEPGLQGPAGPGPGPG 6jf6-a1-m1-cA_6jf6-a1-m1-cC Met-ala-ser bound crystal structure of class I type b peptide deformylase from Acinetobacter baumannii 2.35 X-RAY DIFFRACTION 18 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 159 159 MSVVLPVAKRGEDILKLIAAPVSANELNSNWLYQLADAMHATMLERNGVGIAAPQVYISKRVIIVASRPNPRYPDAPEMNAVVMVNPEILEFSSEMCLGEEGCLSVPDERGQVERAEMVKVKYLTLQGEMVETVFQGFPARIVQHEVDHLNGILFVERI MSVVLPVAKRGEDILKLIAAPVSANELNSNWLYQLADAMHATMLERNGVGIAAPQVYISKRVIIVASRPNPRYPDAPEMNAVVMVNPEILEFSSEMCLGEEGCLSVPDERGQVERAEMVKVKYLTLQGEMVETVFQGFPARIVQHEVDHLNGILFVERI 6jf8-a1-m1-cB_6jf8-a1-m1-cA K4U bound crystal structure of class I type b peptide deformylase from Acinetobacter baumannii 1.7 X-RAY DIFFRACTION 67 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 158 159 6jf3-a1-m1-cB_6jf3-a1-m1-cA 6jf4-a1-m1-cA_6jf4-a1-m1-cB 6jf5-a1-m1-cA_6jf5-a1-m1-cB 6jf6-a1-m1-cA_6jf6-a1-m1-cB 6jf6-a1-m1-cD_6jf6-a1-m1-cC 6jf7-a1-m1-cA_6jf7-a1-m1-cB 6jf8-a2-m1-cD_6jf8-a2-m1-cC SVVLPVAKRGEDILKLIAAPVSANELNSNWLYQLADAMHATMLERNGVGIAAPQVYISKRVIIVASRPNPRYPDAPEMNAVVMVNPEILEFSSEMCLGEEGCLSVPERGQVERAEMVKVKYLTLQGEMVETVFQGFPARIVQHEVDHLNGILFVERIS SVVLPVAKRGEDILKLIAAPVSANELNSNWLYQLADAMHATMLERNGVGIAAPQVYISKRVIIVASRPNPRYPDAPEMNAVVMVNPEILEFSSEMCLGEEGCLSVPDERGQVERAEMVKVKYLTLQGEMVETVFQGFPARIVQHEVDHLNGILFVERIS 6jg3-a1-m1-cB_6jg3-a1-m1-cD Cryo-EM structure of RyR2 (Ca2+ alone dataset) 6.1 ELECTRON MICROSCOPY 119 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3477 3477 6jg3-a1-m1-cA_6jg3-a1-m1-cC 6jg3-a1-m1-cA_6jg3-a1-m1-cD 6jg3-a1-m1-cB_6jg3-a1-m1-cC QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANTFMMKTAQGGGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVRDQLLDFHEDLMTHCGIELDSDLTIRGRLLSLVEKVTYLTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVRMGKEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGFPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDVDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANTFMMKTAQGGGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVRDQLLDFHEDLMTHCGIELDSDLTIRGRLLSLVEKVTYLTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVRMGKEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGFPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDVDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 6jgf-a1-m1-cA_6jgf-a1-m2-cA Crystal structure of Se-Met CadR from P. putida with a 21 residue C-terminal truncation Q93TP7 Q93TP7 2.15 X-RAY DIFFRACTION 126 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 115 115 6jgv-a1-m1-cA_6jgv-a1-m1-cB KIGELAKATDCAVETIRYYEREQLLPEPLYTQAHVERLTFIRNCRTLDTLDEIRSLLRLRDSPDDSGSVNALIDEHIEHVQARIDGLVALQEQLVELRRRCNAQGAECAILQQLE KIGELAKATDCAVETIRYYEREQLLPEPLYTQAHVERLTFIRNCRTLDTLDEIRSLLRLRDSPDDSGSVNALIDEHIEHVQARIDGLVALQEQLVELRRRCNAQGAECAILQQLE 6jgw-a1-m1-cB_6jgw-a1-m1-cA Crystal structure of the transcriptional regulator CadR from P. putida in complex with DNA Q93TP7 Q93TP7 2.8 X-RAY DIFFRACTION 112 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 116 125 MKIGELAKATDCAVETIRYYEREQLLPEPARSDGNYRLYTQAHVERLTFIRNCRTLDMTLDEIRSLLRLRDSPDDSGSVNALIDEHIEHVQARIDGLVALQEQLVELRRRCNAQGA MKIGELAKATDCAVETIRYYEREQLLPEPARSDGNYRLYTQAHVERLTFIRNCRTLDMTLDEIRSLLRLRDSPDDSGSVNALIDEHIEHVQARIDGLVALQEQLVELRRRCNAQGAECAILQQLE 6jgz-a1-m1-cF_6jgz-a1-m1-cH Structure of RyR2 (F/P/Ca2+ dataset) 4.6 ELECTRON MICROSCOPY 158 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3485 3485 6jgz-a1-m1-cB_6jgz-a1-m1-cD 6jgz-a1-m1-cB_6jgz-a1-m1-cH 6jgz-a1-m1-cD_6jgz-a1-m1-cF QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANTFMMKTAQGGGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVRDQLLDFHEDLMTHCGIELDSDLTIRGRLLSLVEKVTYLTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVRMGKEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGFPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLPLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANTFMMKTAQGGGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVRDQLLDFHEDLMTHCGIELDSDLTIRGRLLSLVEKVTYLTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVRMGKEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGFPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLPLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 6jh6-a1-m1-cF_6jh6-a1-m1-cH Structure of RyR2 (F/A/Ca2+ dataset) 4.8 ELECTRON MICROSCOPY 165 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3454 3454 6jh6-a1-m1-cB_6jh6-a1-m1-cD 6jh6-a1-m1-cB_6jh6-a1-m1-cH 6jh6-a1-m1-cD_6jh6-a1-m1-cF QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANTGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKALPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVRDQLLDFHEDLMTHCGIELDSDLTIRGRLLSLVEKVTYLTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVRMGKEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGFPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANTGHRTLLYGHAILLRHSYSGMYLCCLSTSRSSTDKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSGSEAAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKALPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVRDQLLDFHEDLMTHCGIELDSDLTIRGRLLSLVEKVTYLTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVRMGKEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGFPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAEAIRIRSILRSLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 6jhk-a3-m1-cD_6jhk-a3-m3-cE Crystal Structure of Bacillus subtilis RsbS P42410 P42410 3.101 X-RAY DIFFRACTION 36 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 114 114 6jhk-a1-m4-cB_6jhk-a1-m1-cA 6jhk-a2-m1-cC_6jhk-a2-m2-cC KIPILKLYNCLLVSIQWELDDQTALTFQEDLLNKIYETGANGVVIDLTSVDMIDFIAKVLGDVITMSKLMGAKVVLTGIQPAVAVTLIELGIALEEIETALDLEQGLETLKREL KIPILKLYNCLLVSIQWELDDQTALTFQEDLLNKIYETGANGVVIDLTSVDMIDFIAKVLGDVITMSKLMGAKVVLTGIQPAVAVTLIELGIALEEIETALDLEQGLETLKREL 6jhk-a4-m1-cD_6jhk-a4-m1-cE Crystal Structure of Bacillus subtilis RsbS P42410 P42410 3.101 X-RAY DIFFRACTION 44 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 114 114 6jhk-a4-m1-cB_6jhk-a4-m1-cA 6jhk-a4-m1-cB_6jhk-a4-m1-cC 6jhk-a4-m1-cC_6jhk-a4-m1-cD 6jhk-a4-m1-cE_6jhk-a4-m1-cA KIPILKLYNCLLVSIQWELDDQTALTFQEDLLNKIYETGANGVVIDLTSVDMIDFIAKVLGDVITMSKLMGAKVVLTGIQPAVAVTLIELGIALEEIETALDLEQGLETLKREL KIPILKLYNCLLVSIQWELDDQTALTFQEDLLNKIYETGANGVVIDLTSVDMIDFIAKVLGDVITMSKLMGAKVVLTGIQPAVAVTLIELGIALEEIETALDLEQGLETLKREL 6jho-a1-m1-cA_6jho-a1-m1-cB The complex crystal structure of Cagbeta with CagZ revealed a novel regulatory mechanism for T4SS coupling ATPase in Helicobacter pylori O25261 O25261 2.1 X-RAY DIFFRACTION 22 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 200 200 GSELGFNEAERQKILDSNSSLMGNANEVRDKFIQNYASSLKDSNDPQDFLRRVQELRINMQKNFISFDVYYNYLNNLVLASYNRCKQEKTFAESTIKNELTLGEFVAEISDNFNNFMCDEVARISDLVASYLPREYLPPFIDGNMMGVAFQILGIDDFGRKLNEIVQDIGTKYIILSKNKTYLTSLERAKLITQLKLNLE GSELGFNEAERQKILDSNSSLMGNANEVRDKFIQNYASSLKDSNDPQDFLRRVQELRINMQKNFISFDVYYNYLNNLVLASYNRCKQEKTFAESTIKNELTLGEFVAEISDNFNNFMCDEVARISDLVASYLPREYLPPFIDGNMMGVAFQILGIDDFGRKLNEIVQDIGTKYIILSKNKTYLTSLERAKLITQLKLNLE 6jhp-a1-m1-cA_6jhp-a1-m1-cD Crystal structure of the glycoside hydrolase family 36 alpha-galactosidase from Paecilomyces thermophila A0A2Z4HIN9 A0A2Z4HIN9 2.559 X-RAY DIFFRACTION 207 1.0 566408 (Paecilomyces sp. 'thermophila') 566408 (Paecilomyces sp. 'thermophila') 716 716 6jhp-a1-m1-cB_6jhp-a1-m1-cC NAIVVDGTTFALHGAGMSYVFHANTTTGDLITDHYGASVSGALPSPPEPVVNGWVGMIGRTRREFPDQGRGDFRIPAVRIRQTAGYAVSDLRYQGHEVRDGKPGLPGLPATFGEAGDVTTLVVHLYDNHSAVAADLSYSVFPEFDAVVRSVNITNKGNGNITIEHLASMSVDFPFEDLDLLGLRGDWAREAHRMRRRVEYGVQGFGSSTGYSSHLHNPFFVLAHPSTTESQGEAWGFNLTYTGSFSAQVEKGSQGLTRALIGFNPDQLSWTLGPGETLTSPECVSVYSSDGIGGMSRKFHRLYRKHLIRSKYATLDRPPLLNSWEGVYFDYNQTGIERLARQSAALGIRLFVMDDGWFGNKYPRTSDKAGLGDWTPNPDRFPDGLEPVVERITNLPVNGTAGEKLRFGIWVEPEMVNPNSSLYREHPDWVLHAGSYPRTERRNQLVLNLALPEVQDFIIDFMTNLLNSADISYVKWDNNRGMHEMPSTRTYHEYMLGLYRVLDTLSARFPDVLWEGCASGGGRFDAGILHYFPQIWTSDNTDGVDRITIQFGTSLAYPPSTMGAHLSAVPNHQTSRTVPLEFRAHVAMMGGSFGLELDPATLQDDPEVRRLIKLAEKVNPLVINGDLYRLRLPEESQWPAALFVAEDGSQAVLFYFQVGPNVNHAAPWVRLQGLDPEARYTVDGNATYKGATLMNLGLQFTFDSEYGSKVVFLEKQ NAIVVDGTTFALHGAGMSYVFHANTTTGDLITDHYGASVSGALPSPPEPVVNGWVGMIGRTRREFPDQGRGDFRIPAVRIRQTAGYAVSDLRYQGHEVRDGKPGLPGLPATFGEAGDVTTLVVHLYDNHSAVAADLSYSVFPEFDAVVRSVNITNKGNGNITIEHLASMSVDFPFEDLDLLGLRGDWAREAHRMRRRVEYGVQGFGSSTGYSSHLHNPFFVLAHPSTTESQGEAWGFNLTYTGSFSAQVEKGSQGLTRALIGFNPDQLSWTLGPGETLTSPECVSVYSSDGIGGMSRKFHRLYRKHLIRSKYATLDRPPLLNSWEGVYFDYNQTGIERLARQSAALGIRLFVMDDGWFGNKYPRTSDKAGLGDWTPNPDRFPDGLEPVVERITNLPVNGTAGEKLRFGIWVEPEMVNPNSSLYREHPDWVLHAGSYPRTERRNQLVLNLALPEVQDFIIDFMTNLLNSADISYVKWDNNRGMHEMPSTRTYHEYMLGLYRVLDTLSARFPDVLWEGCASGGGRFDAGILHYFPQIWTSDNTDGVDRITIQFGTSLAYPPSTMGAHLSAVPNHQTSRTVPLEFRAHVAMMGGSFGLELDPATLQDDPEVRRLIKLAEKVNPLVINGDLYRLRLPEESQWPAALFVAEDGSQAVLFYFQVGPNVNHAAPWVRLQGLDPEARYTVDGNATYKGATLMNLGLQFTFDSEYGSKVVFLEKQ 6jhp-a1-m1-cB_6jhp-a1-m1-cD Crystal structure of the glycoside hydrolase family 36 alpha-galactosidase from Paecilomyces thermophila A0A2Z4HIN9 A0A2Z4HIN9 2.559 X-RAY DIFFRACTION 43 1.0 566408 (Paecilomyces sp. 'thermophila') 566408 (Paecilomyces sp. 'thermophila') 716 716 6jhp-a1-m1-cA_6jhp-a1-m1-cC NAIVVDGTTFALHGAGMSYVFHANTTTGDLITDHYGASVSGALPSPPEPVVNGWVGMIGRTRREFPDQGRGDFRIPAVRIRQTAGYAVSDLRYQGHEVRDGKPGLPGLPATFGEAGDVTTLVVHLYDNHSAVAADLSYSVFPEFDAVVRSVNITNKGNGNITIEHLASMSVDFPFEDLDLLGLRGDWAREAHRMRRRVEYGVQGFGSSTGYSSHLHNPFFVLAHPSTTESQGEAWGFNLTYTGSFSAQVEKGSQGLTRALIGFNPDQLSWTLGPGETLTSPECVSVYSSDGIGGMSRKFHRLYRKHLIRSKYATLDRPPLLNSWEGVYFDYNQTGIERLARQSAALGIRLFVMDDGWFGNKYPRTSDKAGLGDWTPNPDRFPDGLEPVVERITNLPVNGTAGEKLRFGIWVEPEMVNPNSSLYREHPDWVLHAGSYPRTERRNQLVLNLALPEVQDFIIDFMTNLLNSADISYVKWDNNRGMHEMPSTRTYHEYMLGLYRVLDTLSARFPDVLWEGCASGGGRFDAGILHYFPQIWTSDNTDGVDRITIQFGTSLAYPPSTMGAHLSAVPNHQTSRTVPLEFRAHVAMMGGSFGLELDPATLQDDPEVRRLIKLAEKVNPLVINGDLYRLRLPEESQWPAALFVAEDGSQAVLFYFQVGPNVNHAAPWVRLQGLDPEARYTVDGNATYKGATLMNLGLQFTFDSEYGSKVVFLEKQ NAIVVDGTTFALHGAGMSYVFHANTTTGDLITDHYGASVSGALPSPPEPVVNGWVGMIGRTRREFPDQGRGDFRIPAVRIRQTAGYAVSDLRYQGHEVRDGKPGLPGLPATFGEAGDVTTLVVHLYDNHSAVAADLSYSVFPEFDAVVRSVNITNKGNGNITIEHLASMSVDFPFEDLDLLGLRGDWAREAHRMRRRVEYGVQGFGSSTGYSSHLHNPFFVLAHPSTTESQGEAWGFNLTYTGSFSAQVEKGSQGLTRALIGFNPDQLSWTLGPGETLTSPECVSVYSSDGIGGMSRKFHRLYRKHLIRSKYATLDRPPLLNSWEGVYFDYNQTGIERLARQSAALGIRLFVMDDGWFGNKYPRTSDKAGLGDWTPNPDRFPDGLEPVVERITNLPVNGTAGEKLRFGIWVEPEMVNPNSSLYREHPDWVLHAGSYPRTERRNQLVLNLALPEVQDFIIDFMTNLLNSADISYVKWDNNRGMHEMPSTRTYHEYMLGLYRVLDTLSARFPDVLWEGCASGGGRFDAGILHYFPQIWTSDNTDGVDRITIQFGTSLAYPPSTMGAHLSAVPNHQTSRTVPLEFRAHVAMMGGSFGLELDPATLQDDPEVRRLIKLAEKVNPLVINGDLYRLRLPEESQWPAALFVAEDGSQAVLFYFQVGPNVNHAAPWVRLQGLDPEARYTVDGNATYKGATLMNLGLQFTFDSEYGSKVVFLEKQ 6jhp-a1-m1-cC_6jhp-a1-m1-cD Crystal structure of the glycoside hydrolase family 36 alpha-galactosidase from Paecilomyces thermophila A0A2Z4HIN9 A0A2Z4HIN9 2.559 X-RAY DIFFRACTION 142 1.0 566408 (Paecilomyces sp. 'thermophila') 566408 (Paecilomyces sp. 'thermophila') 716 716 6jhp-a1-m1-cA_6jhp-a1-m1-cB NAIVVDGTTFALHGAGMSYVFHANTTTGDLITDHYGASVSGALPSPPEPVVNGWVGMIGRTRREFPDQGRGDFRIPAVRIRQTAGYAVSDLRYQGHEVRDGKPGLPGLPATFGEAGDVTTLVVHLYDNHSAVAADLSYSVFPEFDAVVRSVNITNKGNGNITIEHLASMSVDFPFEDLDLLGLRGDWAREAHRMRRRVEYGVQGFGSSTGYSSHLHNPFFVLAHPSTTESQGEAWGFNLTYTGSFSAQVEKGSQGLTRALIGFNPDQLSWTLGPGETLTSPECVSVYSSDGIGGMSRKFHRLYRKHLIRSKYATLDRPPLLNSWEGVYFDYNQTGIERLARQSAALGIRLFVMDDGWFGNKYPRTSDKAGLGDWTPNPDRFPDGLEPVVERITNLPVNGTAGEKLRFGIWVEPEMVNPNSSLYREHPDWVLHAGSYPRTERRNQLVLNLALPEVQDFIIDFMTNLLNSADISYVKWDNNRGMHEMPSTRTYHEYMLGLYRVLDTLSARFPDVLWEGCASGGGRFDAGILHYFPQIWTSDNTDGVDRITIQFGTSLAYPPSTMGAHLSAVPNHQTSRTVPLEFRAHVAMMGGSFGLELDPATLQDDPEVRRLIKLAEKVNPLVINGDLYRLRLPEESQWPAALFVAEDGSQAVLFYFQVGPNVNHAAPWVRLQGLDPEARYTVDGNATYKGATLMNLGLQFTFDSEYGSKVVFLEKQ NAIVVDGTTFALHGAGMSYVFHANTTTGDLITDHYGASVSGALPSPPEPVVNGWVGMIGRTRREFPDQGRGDFRIPAVRIRQTAGYAVSDLRYQGHEVRDGKPGLPGLPATFGEAGDVTTLVVHLYDNHSAVAADLSYSVFPEFDAVVRSVNITNKGNGNITIEHLASMSVDFPFEDLDLLGLRGDWAREAHRMRRRVEYGVQGFGSSTGYSSHLHNPFFVLAHPSTTESQGEAWGFNLTYTGSFSAQVEKGSQGLTRALIGFNPDQLSWTLGPGETLTSPECVSVYSSDGIGGMSRKFHRLYRKHLIRSKYATLDRPPLLNSWEGVYFDYNQTGIERLARQSAALGIRLFVMDDGWFGNKYPRTSDKAGLGDWTPNPDRFPDGLEPVVERITNLPVNGTAGEKLRFGIWVEPEMVNPNSSLYREHPDWVLHAGSYPRTERRNQLVLNLALPEVQDFIIDFMTNLLNSADISYVKWDNNRGMHEMPSTRTYHEYMLGLYRVLDTLSARFPDVLWEGCASGGGRFDAGILHYFPQIWTSDNTDGVDRITIQFGTSLAYPPSTMGAHLSAVPNHQTSRTVPLEFRAHVAMMGGSFGLELDPATLQDDPEVRRLIKLAEKVNPLVINGDLYRLRLPEESQWPAALFVAEDGSQAVLFYFQVGPNVNHAAPWVRLQGLDPEARYTVDGNATYKGATLMNLGLQFTFDSEYGSKVVFLEKQ 6jhu-a1-m1-cA_6jhu-a1-m2-cA Crystal Structure Of Biotin Protein Ligase From Leishmania Major in complex with Biotinyl-5-AMP Q4Q6F6 Q4Q6F6 1.97 X-RAY DIFFRACTION 129 1.0 5664 (Leishmania major) 5664 (Leishmania major) 247 247 7dbs-a1-m1-cA_7dbs-a1-m2-cA CPPNIHFLEEVTSTMDVARTMRATAGGKAFAVVAAEQTAGRGTGGRTWTSPKGNLYMTVGVPQLCLKEELVPVLPLICGLACRRAVLEVLHLDGALAKASVAADAAKAVATKWPNDIIYNHKKIGGTLIESDGDYLIIGIGMNIAVAPQMTDREATMINTIAEDFGVKSCPPRDLANAIWCHLFDICSEWTRELVIESFDKVMDKSLKLHKRLPGGRDPEELTAVSLNSWGHLKVRHADGTVEDLSA CPPNIHFLEEVTSTMDVARTMRATAGGKAFAVVAAEQTAGRGTGGRTWTSPKGNLYMTVGVPQLCLKEELVPVLPLICGLACRRAVLEVLHLDGALAKASVAADAAKAVATKWPNDIIYNHKKIGGTLIESDGDYLIIGIGMNIAVAPQMTDREATMINTIAEDFGVKSCPPRDLANAIWCHLFDICSEWTRELVIESFDKVMDKSLKLHKRLPGGRDPEELTAVSLNSWGHLKVRHADGTVEDLSA 6jhv-a1-m1-cA_6jhv-a1-m1-cB Structure of anti-CRISPR AcrIIC3 A0A425B395 A0A425B395 2.321 X-RAY DIFFRACTION 20 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 114 114 FKRAIIFTSFNGFEKVSRTEKRRLAKIINARVSIIDEYLRAKDTNASLDGQYRAFLFNDESPATEFLAKLKAFAESCTGISIDAWEIEESEYVRLPVERRDFLAAANGKEIFKI FKRAIIFTSFNGFEKVSRTEKRRLAKIINARVSIIDEYLRAKDTNASLDGQYRAFLFNDESPATEFLAKLKAFAESCTGISIDAWEIEESEYVRLPVERRDFLAAANGKEIFKI 6jhz-a1-m1-cB_6jhz-a1-m1-cA Crystal structure of cas2 Q73QW4 Q73QW4 1.999 X-RAY DIFFRACTION 107 1.0 243275 (Treponema denticola ATCC 35405) 243275 (Treponema denticola ATCC 35405) 91 93 8ia4-a1-m1-cB_8ia4-a1-m1-cA RVIVFFDLPVITPENRHNYSVFRKYLIKSGFIMQQKSVYSKLVLNLTNRDSIVKSIEKNKPPEGLVEVLTVTEKQYAKMEIIIGESKTEYL MRVIVFFDLPVITPENRHNYSVFRKYLIKSGFIMQQKSVYSKLVLNLTNRDSIVKSIEKNKPPEGLVEVLTVTEKQYAKMEIIIGESKTEYLN 6ji8-a1-m1-cG_6ji8-a1-m1-cJ Structure of RyR2 (F/apoCaM dataset) 3.6 ELECTRON MICROSCOPY 147 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3511 3511 6ji8-a1-m1-cA_6ji8-a1-m1-cD 6ji8-a1-m1-cA_6ji8-a1-m1-cJ 6ji8-a1-m1-cD_6ji8-a1-m1-cG QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKLRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDENKKHGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVMQALNMECPCPEEIRDQLLDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAPEMHLIHAAKGEAIRIRSILRSLIPLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDVDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSSKQRKRAVVACFRMAPLYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGLGMKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKLRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDENKKHGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVMQALNMECPCPEEIRDQLLDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAPEMHLIHAAKGEAIRIRSILRSLIPLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDVDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSSKQRKRAVVACFRMAPLYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGLGMKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 6jie-a1-m1-cA_6jie-a1-m1-cB YaeO bound to Magnesium from Vibrio cholerae O395 A0A0H3ADN9 A0A0H3ADN9 1.75 X-RAY DIFFRACTION 28 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 77 77 SQYDYIELACLFHLPVKLTMKSGEVYYGVAADTQRNSQKQECIALRGEEETWLLETDQLSSMEALSEQPHFSVIHFK SQYDYIELACLFHLPVKLTMKSGEVYYGVAADTQRNSQKQECIALRGEEETWLLETDQLSSMEALSEQPHFSVIHFK 6jif-a1-m1-cA_6jif-a1-m1-cB Crystal Structures of Branched-Chain Aminotransferase from Pseudomonas sp. UW4 K9NJ94 K9NJ94 1.7 X-RAY DIFFRACTION 201 1.0 1207075 (Pseudomonas sp. UW4) 1207075 (Pseudomonas sp. UW4) 333 334 NWDKLGFDYIKTDKRYLSYFRNGEWDKGTLTEDNVLHISEGSTALHYGQQCFEGMKAYRCKDGSINLFRPDQNALRMQRSCARLLMPQVDTEQFIEACKAVVRANERFIPPYGTGGALYLRPFVIGVGDNIGVRTAPEFIFSIFCIPVGAYFKGGLTPHNFQISSYDRAAPQGTGAAKVGGNYAASLMPGSKAKKAHFADAIYLDPMTHTKIEEVGSANFFGITHDNKFVTPNSPSVLPGITRLSLIELAKTRLGMEVVEGDVFIDKLSDFKEAGACGTAAVITPIGGIDYNDHLHVFHSETEVGPVTQKLYKELTGVQTGDIEAPAGWIVKV INWDKLGFDYIKTDKRYLSYFRNGEWDKGTLTEDNVLHISEGSTALHYGQQCFEGMKAYRCKDGSINLFRPDQNALRMQRSCARLLMPQVDTEQFIEACKAVVRANERFIPPYGTGGALYLRPFVIGVGDNIGVRTAPEFIFSIFCIPVGAYFKGGLTPHNFQISSYDRAAPQGTGAAKVGGNYAASLMPGSKAKKAHFADAIYLDPMTHTKIEEVGSANFFGITHDNKFVTPNSPSVLPGITRLSLIELAKTRLGMEVVEGDVFIDKLSDFKEAGACGTAAVITPIGGIDYNDHLHVFHSETEVGPVTQKLYKELTGVQTGDIEAPAGWIVKV 6jii-a1-m1-cH_6jii-a1-m1-cK Structure of RyR2 (F/A/C/L-Ca2+/apo-CaM-M dataset) 4.2 ELECTRON MICROSCOPY 109 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3508 3508 6jii-a1-m1-cB_6jii-a1-m1-cE 6jii-a1-m1-cB_6jii-a1-m1-cK 6jii-a1-m1-cE_6jii-a1-m1-cH QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKLRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDENKKHGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVMQALNECPCPEEIRDQLLDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAPEMHLIHAAKGEAIRIRSILRSLIPLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSSKQRKRAVVACFRMAPLYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGLGMKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKEKLRKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDENKKHGLPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVMQALNECPCPEEIRDQLLDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVGLASPAMRGSTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAPEMHLIHAAKGEAIRIRSILRSLIPLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLGFLPDLRAAASLTDMALALNRYLCTAVLPLLAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSRPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGTSVERQRSALGECLAAFAGAAFLETHLDKHNIYSSKQRKRAVVACFRMAPLYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGLGMKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVSVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGSAVLNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 6jij-a2-m1-cC_6jij-a2-m2-cC The Crystal Structure of Main Protease from Mouse Hepatitis Virus A59 in Complex with an inhibitor P0C6X9 P0C6X9 2.65 X-RAY DIFFRACTION 124 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 298 298 6jij-a1-m1-cA_6jij-a1-m1-c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jit-a2-m1-cB_6jit-a2-m1-cC Complex structure of an imine reductase at 2.05 Angstrom resolution D3Q3R0 D3Q3R0 2.052 X-RAY DIFFRACTION 323 0.99 446470 (Stackebrandtia nassauensis DSM 44728) 446470 (Stackebrandtia nassauensis DSM 44728) 287 292 6jit-a1-m1-cA_6jit-a1-m2-cA 6jiz-a1-m1-cA_6jiz-a1-m2-cA 6jiz-a2-m1-cB_6jiz-a2-m1-cC KSPVTLIGLGPMGQAMVRTLLGQGHPVTVWNRTPSRAEPLVVEGARLAASPTEAVASSDLVILSLTDYQAMYDILSTAESALAGRTIVNLSSDDPDVTREAAKWAAKHGATFIAGGVMIPAAYVFYSGPKSAFDAHEPVLRHIGGPRFLGEDTGLAQLYYLAHLDVLLTTLASVVHATALVSAAGVDEAAFAPEAIRMVIETGQMLAAEAETGLELARNLASGNHPGELATAVMMGATADHIVSAAKGSGVDLVLPEAVKSLYDRTVAAGHGKDSWTAMYEIIKKKA KKSPVTLIGLGPMGQAMVRTLLGQGHPVTVWNRTPSRAEPLVVEGARLAASPTEAVASSDLVILSLTDYQAMYDILSTAESALAGRTIVNLSSDDPDVTREAAKWAAKHGATFIAGGVMIPAPTVGTEAAYVFYSGPKSAFDAHEPVLRHIGGPRFLGEDTGLAQLYYLAHLDVLLTTLASVVHATALVSAAGVDEAAFAPEAIRMVIETGQMLAAEAEELARNLASGNHPGELATAVMMGATADHIVSAAKGSGVDLVLPEAVKSLYDRTVAAGHGKDSWTAMYEIIKKKA 6jiw-a1-m1-cA_6jiw-a1-m2-cA Crystal structure of S. aureus CntK with C72S mutation A0A0H3JU78 A0A0H3JU78 1.58 X-RAY DIFFRACTION 50 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 255 255 6jis-a1-m1-cA_6jis-a1-m2-cA QVIEFSKYNPSGNTILVHSKHDASEYASIANQLAATHVCCEQVGFIENDFHLVSGNEFSGNATSYIHHLQESHLLKDQQFKVKVSGCSDLVQCAIHDCQYYEVQPQAHRVVPTTINGNHSWKALEIIYETYVHYVIPVKQVTTEIQHLVEAFVREQQWSHKYKTVGLFDEQRQFLQPLIYIPEIQSLIWENSCGSGTASIGVFNNYQRNDACKDFTVHQPGGSILVTSKRCHQLGYQTSIKGQVTTVATGKAYIE QVIEFSKYNPSGNTILVHSKHDASEYASIANQLAATHVCCEQVGFIENDFHLVSGNEFSGNATSYIHHLQESHLLKDQQFKVKVSGCSDLVQCAIHDCQYYEVQPQAHRVVPTTINGNHSWKALEIIYETYVHYVIPVKQVTTEIQHLVEAFVREQQWSHKYKTVGLFDEQRQFLQPLIYIPEIQSLIWENSCGSGTASIGVFNNYQRNDACKDFTVHQPGGSILVTSKRCHQLGYQTSIKGQVTTVATGKAYIE 6jix-a2-m1-cC_6jix-a2-m1-cA The cyrstal structure of taurine:2-oxoglutarate aminotransferase from Bifidobacterium kashiwanohense, in complex with PLP and glutamate A0A0A7I435 A0A0A7I435 2.647 X-RAY DIFFRACTION 407 1.0 1447716 (Bifidobacterium kashiwanohense PV20-2) 1447716 (Bifidobacterium kashiwanohense PV20-2) 446 447 6jix-a1-m1-cB_6jix-a1-m1-cD MEELTGEEVASLHSEYVMQSWHKQGGPVKPIKKADGIYFWDYDGKRYTDMSSLLVCSNLGHELPEIVDAIKEQADNMCFMAPAYASEPKSRLAKMLVDVADPDFYQRVFFTNGGADSNENAIKMARMVTGRPKIFSCYRSYHGSTIGASNASGDWRRFATELGGSAPGFVHFMNPNMYEDGYTRGVDDATVTADYLHRLDEQLQYEGPDSVAAILMESIVGANGVILPPEGYMEGVRALCDKYGILMICDEVMAGFGRTGKMFAWQNFDVKPDMFTFAKGVTCGYVPLGGVVVSKRISDYFTDHVLQCGLTYSGHTLACAAGVAAVNYYLEHDVCAHVKEMEGILKPFLESMVEKHKCVGEARCIGLFSALTIVKNKETRELMAPYHTPNSVMPQIMAKLMDLGFSTFGRETNINICPPLIITAEQLEEELPKLDKVLTWVDENLC MEELTGEEVASLHSEYVMQSWHKQGGPVKPIKKADGIYFWDYDGKRYTDMSSLLVCSNLGHELPEIVDAIKEQADNMCFMAPAYASEPKSRLAKMLVDVADPDFYQRVFFTNGGADSNENAIKMARMVTGRPKIFSCYRSYHGSTIGASNASGDWRRFATELGGSAPGFVHFMNPNMYEDGYTRGVDDATVTADYLHRLDEQLQYEGPDSVAAILMESIVGANGVILPPEGYMEGVRALCDKYGILMICDEVMAGFGRTGKMFAWQNFDVKPDMFTFAKGVTCGYVPLGGVVVSKRISDYFTDHVLQCGLTYSGHTLACAAGVAAVNYYLEHDVCAHVKEMEGILKPFLESMVEKHKCVGEARCIGLFSALTIVKNKETRELMAPYHTPNSVMPQIMAKLMDLGFSTFGRETNINICPPLIITAEQLEEELPKLDKVLTWVDENLCD 6jjj-a1-m1-cB_6jjj-a1-m1-cF Trimeric structure of Kupffer cell C-type lectin receptor Clec4f P70194 P70194 2.792 X-RAY DIFFRACTION 29 1.0 10090 (Mus musculus) 10090 (Mus musculus) 151 151 6jjj-a1-m1-cA_6jjj-a1-m1-cB 6jjj-a1-m1-cA_6jjj-a1-m1-cF EAVAAQKQEQKTQNQVLQLIAQNWKYFNGNFYYFSRDKKPWREAEKFCTSQGAHLASVTSQEEQAFLVQTTSSGDHWIGLTDQGTEGIWRWVDGTPFNNAQSKGFWGKNQPDNWRHRNGEREDCVHVRQQWNDMACGSSYPWVCKKSTGWS EAVAAQKQEQKTQNQVLQLIAQNWKYFNGNFYYFSRDKKPWREAEKFCTSQGAHLASVTSQEEQAFLVQTTSSGDHWIGLTDQGTEGIWRWVDGTPFNNAQSKGFWGKNQPDNWRHRNGEREDCVHVRQQWNDMACGSSYPWVCKKSTGWS 6jjj-a1-m1-cD_6jjj-a1-m1-cF Trimeric structure of Kupffer cell C-type lectin receptor Clec4f P70194 P70194 2.792 X-RAY DIFFRACTION 50 1.0 10090 (Mus musculus) 10090 (Mus musculus) 151 151 6jjj-a1-m1-cA_6jjj-a1-m1-cE 6jjj-a1-m1-cB_6jjj-a1-m1-cC EAVAAQKQEQKTQNQVLQLIAQNWKYFNGNFYYFSRDKKPWREAEKFCTSQGAHLASVTSQEEQAFLVQTTSSGDHWIGLTDQGTEGIWRWVDGTPFNNAQSKGFWGKNQPDNWRHRNGEREDCVHVRQQWNDMACGSSYPWVCKKSTGWS EAVAAQKQEQKTQNQVLQLIAQNWKYFNGNFYYFSRDKKPWREAEKFCTSQGAHLASVTSQEEQAFLVQTTSSGDHWIGLTDQGTEGIWRWVDGTPFNNAQSKGFWGKNQPDNWRHRNGEREDCVHVRQQWNDMACGSSYPWVCKKSTGWS 6jjk-a1-m2-cA_6jjk-a1-m2-cB Crystal structure of the DegP dodecamer with a modulator P0C0V0 P0C0V0 3.6 X-RAY DIFFRACTION 87 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 381 392 3otp-a1-m1-cA_3otp-a1-m1-cB 3otp-a1-m1-cA_3otp-a1-m1-cC 3otp-a1-m1-cD_3otp-a1-m1-cE 3otp-a1-m1-cF_3otp-a1-m1-cD 3otp-a1-m1-cF_3otp-a1-m1-cE 3otp-a1-m2-cA_3otp-a1-m2-cB 3otp-a1-m2-cA_3otp-a1-m2-cC 3otp-a1-m2-cD_3otp-a1-m2-cE 3otp-a1-m2-cF_3otp-a1-m2-cD 3otp-a1-m2-cF_3otp-a1-m2-cE 6jjk-a1-m1-cA_6jjk-a1-m1-cB 6jjk-a1-m1-cA_6jjk-a1-m1-cC 6jjk-a1-m1-cD_6jjk-a1-m1-cE 6jjk-a1-m1-cF_6jjk-a1-m1-cD 6jjk-a1-m1-cF_6jjk-a1-m1-cE 6jjk-a1-m2-cA_6jjk-a1-m2-cC 6jjk-a1-m2-cD_6jjk-a1-m2-cE 6jjk-a1-m2-cF_6jjk-a1-m2-cD 6jjk-a1-m2-cF_6jjk-a1-m2-cE 6jjl-a1-m1-cA_6jjl-a1-m1-cB 6jjl-a1-m1-cA_6jjl-a1-m1-cC 6jjl-a1-m1-cD_6jjl-a1-m1-cE 6jjl-a1-m1-cF_6jjl-a1-m1-cD 6jjl-a1-m1-cF_6jjl-a1-m1-cE 6jjl-a1-m2-cA_6jjl-a1-m2-cB 6jjl-a1-m2-cA_6jjl-a1-m2-cC 6jjl-a1-m2-cD_6jjl-a1-m2-cE 6jjl-a1-m2-cF_6jjl-a1-m2-cD 6jjl-a1-m2-cF_6jjl-a1-m2-cE 6jjo-a1-m1-cA_6jjo-a1-m1-cB 6jjo-a1-m1-cA_6jjo-a1-m1-cC 6jjo-a1-m1-cD_6jjo-a1-m1-cE 6jjo-a1-m1-cF_6jjo-a1-m1-cD 6jjo-a1-m1-cF_6jjo-a1-m1-cE 6jjo-a1-m2-cA_6jjo-a1-m2-cB 6jjo-a1-m2-cA_6jjo-a1-m2-cC 6jjo-a1-m2-cD_6jjo-a1-m2-cE 6jjo-a1-m2-cF_6jjo-a1-m2-cD 6jjo-a1-m2-cF_6jjo-a1-m2-cE 8f0a-a1-m1-cA_8f0a-a1-m1-cB 8f0a-a1-m1-cA_8f0a-a1-m1-cC 8f0a-a1-m1-cB_8f0a-a1-m1-cC 8f0u-a1-m10-cA_8f0u-a1-m3-cA 8f0u-a1-m10-cA_8f0u-a1-m8-cA 8f0u-a1-m11-cA_8f0u-a1-m4-cA 8f0u-a1-m11-cA_8f0u-a1-m6-cA 8f0u-a1-m12-cA_8f0u-a1-m2-cA 8f0u-a1-m12-cA_8f0u-a1-m7-cA 8f0u-a1-m1-cA_8f0u-a1-m5-cA 8f0u-a1-m1-cA_8f0u-a1-m9-cA 8f0u-a1-m2-cA_8f0u-a1-m7-cA 8f0u-a1-m3-cA_8f0u-a1-m8-cA 8f0u-a1-m4-cA_8f0u-a1-m6-cA 8f0u-a1-m5-cA_8f0u-a1-m9-cA 8f1t-a1-m1-cA_8f1t-a1-m1-cB 8f1t-a1-m1-cA_8f1t-a1-m1-cC 8f1t-a1-m1-cB_8f1t-a1-m1-cC 8f1t-a1-m2-cA_8f1t-a1-m2-cB 8f1t-a1-m2-cA_8f1t-a1-m2-cC 8f1t-a1-m2-cB_8f1t-a1-m2-cC 8f1t-a1-m3-cA_8f1t-a1-m3-cB 8f1t-a1-m3-cA_8f1t-a1-m3-cC 8f1t-a1-m3-cB_8f1t-a1-m3-cC 8f1t-a1-m4-cA_8f1t-a1-m4-cB 8f1t-a1-m4-cA_8f1t-a1-m4-cC 8f1t-a1-m4-cB_8f1t-a1-m4-cC 8f1t-a1-m5-cA_8f1t-a1-m5-cB 8f1t-a1-m5-cA_8f1t-a1-m5-cC 8f1t-a1-m5-cB_8f1t-a1-m5-cC 8f1t-a1-m6-cA_8f1t-a1-m6-cB 8f1t-a1-m6-cA_8f1t-a1-m6-cC 8f1t-a1-m6-cB_8f1t-a1-m6-cC 8f1u-a1-m1-cA_8f1u-a1-m1-cB 8f1u-a1-m1-cA_8f1u-a1-m1-cC 8f1u-a1-m1-cB_8f1u-a1-m1-cC 8f1u-a1-m2-cA_8f1u-a1-m2-cB 8f1u-a1-m2-cA_8f1u-a1-m2-cC 8f1u-a1-m2-cB_8f1u-a1-m2-cC 8f1u-a1-m3-cA_8f1u-a1-m3-cB 8f1u-a1-m3-cA_8f1u-a1-m3-cC 8f1u-a1-m3-cB_8f1u-a1-m3-cC 8f1u-a1-m4-cA_8f1u-a1-m4-cB 8f1u-a1-m4-cA_8f1u-a1-m4-cC 8f1u-a1-m4-cB_8f1u-a1-m4-cC 8f1u-a1-m5-cA_8f1u-a1-m5-cB 8f1u-a1-m5-cA_8f1u-a1-m5-cC 8f1u-a1-m5-cB_8f1u-a1-m5-cC 8f1u-a1-m6-cA_8f1u-a1-m6-cB 8f1u-a1-m6-cA_8f1u-a1-m6-cC 8f1u-a1-m6-cB_8f1u-a1-m6-cC 8f1u-a1-m7-cA_8f1u-a1-m7-cB 8f1u-a1-m7-cA_8f1u-a1-m7-cC 8f1u-a1-m7-cB_8f1u-a1-m7-cC 8f1u-a1-m8-cA_8f1u-a1-m8-cB 8f1u-a1-m8-cA_8f1u-a1-m8-cC 8f1u-a1-m8-cB_8f1u-a1-m8-cC 8f21-a1-m10-cA_8f21-a1-m10-cB 8f21-a1-m10-cA_8f21-a1-m10-cC 8f21-a1-m10-cB_8f21-a1-m10-cC 8f21-a1-m1-cA_8f21-a1-m1-cB 8f21-a1-m1-cA_8f21-a1-m1-cC 8f21-a1-m1-cB_8f21-a1-m1-cC 8f21-a1-m2-cA_8f21-a1-m2-cB 8f21-a1-m2-cA_8f21-a1-m2-cC 8f21-a1-m2-cB_8f21-a1-m2-cC 8f21-a1-m3-cA_8f21-a1-m3-cB 8f21-a1-m3-cA_8f21-a1-m3-cC 8f21-a1-m3-cB_8f21-a1-m3-cC 8f21-a1-m4-cA_8f21-a1-m4-cB 8f21-a1-m4-cA_8f21-a1-m4-cC 8f21-a1-m4-cB_8f21-a1-m4-cC 8f21-a1-m5-cA_8f21-a1-m5-cB 8f21-a1-m5-cA_8f21-a1-m5-cC 8f21-a1-m5-cB_8f21-a1-m5-cC 8f21-a1-m6-cA_8f21-a1-m6-cB 8f21-a1-m6-cA_8f21-a1-m6-cC 8f21-a1-m6-cB_8f21-a1-m6-cC 8f21-a1-m7-cA_8f21-a1-m7-cB 8f21-a1-m7-cA_8f21-a1-m7-cC 8f21-a1-m7-cB_8f21-a1-m7-cC 8f21-a1-m8-cA_8f21-a1-m8-cB 8f21-a1-m8-cA_8f21-a1-m8-cC 8f21-a1-m8-cB_8f21-a1-m8-cC 8f21-a1-m9-cA_8f21-a1-m9-cB 8f21-a1-m9-cA_8f21-a1-m9-cC 8f21-a1-m9-cB_8f21-a1-m9-cC 8f26-a1-m10-cA_8f26-a1-m23-cA 8f26-a1-m11-cA_8f26-a1-m20-cA 8f26-a1-m11-cA_8f26-a1-m38-cA 8f26-a1-m12-cA_8f26-a1-m37-cA 8f26-a1-m12-cA_8f26-a1-m47-cA 8f26-a1-m13-cA_8f26-a1-m45-cA 8f26-a1-m13-cA_8f26-a1-m46-cA 8f26-a1-m14-cA_8f26-a1-m29-cA 8f26-a1-m14-cA_8f26-a1-m44-cA 8f26-a1-m15-cA_8f26-a1-m16-cA 8f26-a1-m15-cA_8f26-a1-m28-cA 8f26-a1-m16-cA_8f26-a1-m28-cA 8f26-a1-m17-cA_8f26-a1-m27-cA 8f26-a1-m17-cA_8f26-a1-m52-cA 8f26-a1-m18-cA_8f26-a1-m51-cA 8f26-a1-m18-cA_8f26-a1-m60-cA 8f26-a1-m19-cA_8f26-a1-m39-cA 8f26-a1-m19-cA_8f26-a1-m59-cA 8f26-a1-m1-cA_8f26-a1-m10-cA 8f26-a1-m1-cA_8f26-a1-m23-cA 8f26-a1-m20-cA_8f26-a1-m38-cA 8f26-a1-m21-cA_8f26-a1-m30-cA 8f26-a1-m21-cA_8f26-a1-m43-cA 8f26-a1-m22-cA_8f26-a1-m42-cA 8f26-a1-m24-cA_8f26-a1-m54-cA 8f26-a1-m24-cA_8f26-a1-m9-cA 8f26-a1-m25-cA_8f26-a1-m26-cA 8f26-a1-m25-cA_8f26-a1-m53-cA 8f26-a1-m26-cA_8f26-a1-m53-cA 8f26-a1-m27-cA_8f26-a1-m52-cA 8f26-a1-m29-cA_8f26-a1-m44-cA 8f26-a1-m2-cA_8f26-a1-m22-cA 8f26-a1-m2-cA_8f26-a1-m42-cA 8f26-a1-m30-cA_8f26-a1-m43-cA 8f26-a1-m31-cA_8f26-a1-m40-cA 8f26-a1-m31-cA_8f26-a1-m58-cA 8f26-a1-m32-cA_8f26-a1-m57-cA 8f26-a1-m32-cA_8f26-a1-m7-cA 8f26-a1-m33-cA_8f26-a1-m5-cA 8f26-a1-m33-cA_8f26-a1-m6-cA 8f26-a1-m34-cA_8f26-a1-m49-cA 8f26-a1-m34-cA_8f26-a1-m4-cA 8f26-a1-m35-cA_8f26-a1-m36-cA 8f26-a1-m35-cA_8f26-a1-m48-cA 8f26-a1-m36-cA_8f26-a1-m48-cA 8f26-a1-m37-cA_8f26-a1-m47-cA 8f26-a1-m39-cA_8f26-a1-m59-cA 8f26-a1-m3-cA_8f26-a1-m41-cA 8f26-a1-m3-cA_8f26-a1-m50-cA 8f26-a1-m40-cA_8f26-a1-m58-cA 8f26-a1-m41-cA_8f26-a1-m50-cA 8f26-a1-m45-cA_8f26-a1-m46-cA 8f26-a1-m4-cA_8f26-a1-m49-cA 8f26-a1-m51-cA_8f26-a1-m60-cA 8f26-a1-m54-cA_8f26-a1-m9-cA 8f26-a1-m55-cA_8f26-a1-m56-cA 8f26-a1-m55-cA_8f26-a1-m8-cA 8f26-a1-m56-cA_8f26-a1-m8-cA 8f26-a1-m57-cA_8f26-a1-m7-cA 8f26-a1-m5-cA_8f26-a1-m6-cA AQQMPSLAPMLEKVMPSVVSINVEQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ QMPSLAPMLEKVMPSVVSINVEGSTQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQNQVDSSSIFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ 6jjm-a1-m1-cA_6jjm-a1-m1-cB Crystal structure of Mumps virus hemagglutinin-neuraminidase bound to the oligosaccharide portion of the GM2 ganglioside Q9WAF5 Q9WAF5 2.049 X-RAY DIFFRACTION 156 1.0 452 452 5b2c-a1-m1-cA_5b2c-a1-m1-cB 5b2d-a1-m1-cA_5b2d-a1-m1-cB 6jjn-a1-m1-cA_6jjn-a1-m1-cB IPLVNDLRFINGINKFIIEDYATHDFSIGHPLNMPSFIPTATSPNGCTRIPSFSLGKTHWCYTHNVINANCKDHTSSNQYISMGILVQTASGYPMFKTLKIQYLSDGLNRKSCSIATVPDGCAMYCYVSTQLETDDYAGSSPPTQKLTLLFYNDTVTERTISPTGLEGNWATLVPGVGSGIYFENKLIFPAYGGVLPNSTLGVKSAREFFRPVNPYNPCSGPQQDLDQRALRSYFPSYFSNRRVQSAFLVCAWNQILVTNCELVVPSNNQTLMGAEGRVLLINNRLLYYQRSTSWWPYELLYEISFTFTNSGQSSVNMSWIPIYSFTRPGSGNCSGENVCPTACVSGVYLDPWPLTPYSHQSGINRNFYFTGALLNSSTTRVNPTLYVSALNNLKVLAPYGNQGLFASYTTTTCFQDTGDASVYCVYIMELASNIVGEFQILPVLTRLTITG IPLVNDLRFINGINKFIIEDYATHDFSIGHPLNMPSFIPTATSPNGCTRIPSFSLGKTHWCYTHNVINANCKDHTSSNQYISMGILVQTASGYPMFKTLKIQYLSDGLNRKSCSIATVPDGCAMYCYVSTQLETDDYAGSSPPTQKLTLLFYNDTVTERTISPTGLEGNWATLVPGVGSGIYFENKLIFPAYGGVLPNSTLGVKSAREFFRPVNPYNPCSGPQQDLDQRALRSYFPSYFSNRRVQSAFLVCAWNQILVTNCELVVPSNNQTLMGAEGRVLLINNRLLYYQRSTSWWPYELLYEISFTFTNSGQSSVNMSWIPIYSFTRPGSGNCSGENVCPTACVSGVYLDPWPLTPYSHQSGINRNFYFTGALLNSSTTRVNPTLYVSALNNLKVLAPYGNQGLFASYTTTTCFQDTGDASVYCVYIMELASNIVGEFQILPVLTRLTITG 6jjo-a1-m2-cA_6jjo-a1-m2-cE Crystal structure of the DegP dodecamer with a modulator P0C0V0 P0C0V0 4.157 X-RAY DIFFRACTION 35 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 381 388 3otp-a1-m1-cA_3otp-a1-m1-cE 3otp-a1-m1-cC_3otp-a1-m2-cD 3otp-a1-m1-cF_3otp-a1-m2-cA 3otp-a1-m2-cA_3otp-a1-m2-cE 3otp-a1-m2-cC_3otp-a1-m1-cD 3otp-a1-m2-cF_3otp-a1-m1-cA 6jjk-a1-m1-cA_6jjk-a1-m1-cE 6jjk-a1-m1-cC_6jjk-a1-m2-cD 6jjk-a1-m1-cF_6jjk-a1-m2-cA 6jjk-a1-m2-cA_6jjk-a1-m2-cE 6jjk-a1-m2-cC_6jjk-a1-m1-cD 6jjk-a1-m2-cF_6jjk-a1-m1-cA 6jjl-a1-m1-cA_6jjl-a1-m1-cE 6jjl-a1-m1-cC_6jjl-a1-m2-cD 6jjl-a1-m1-cF_6jjl-a1-m2-cA 6jjl-a1-m2-cA_6jjl-a1-m2-cE 6jjl-a1-m2-cC_6jjl-a1-m1-cD 6jjl-a1-m2-cF_6jjl-a1-m1-cA 6jjo-a1-m1-cA_6jjo-a1-m1-cE 6jjo-a1-m1-cC_6jjo-a1-m2-cD 6jjo-a1-m1-cF_6jjo-a1-m2-cA 6jjo-a1-m2-cC_6jjo-a1-m1-cD 6jjo-a1-m2-cF_6jjo-a1-m1-cA AQQMPSLAPMLEKVMPSVVSINVEQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ QMPSLAPMLEKVMPSVVSINVEGSTQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQSSSIFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ 6jjo-a1-m2-cF_6jjo-a1-m1-cE Crystal structure of the DegP dodecamer with a modulator P0C0V0 P0C0V0 4.157 X-RAY DIFFRACTION 38 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 379 388 3otp-a1-m1-cC_3otp-a1-m2-cB 3otp-a1-m1-cF_3otp-a1-m2-cE 3otp-a1-m2-cF_3otp-a1-m1-cE 6jjk-a1-m1-cC_6jjk-a1-m2-cB 6jjk-a1-m1-cF_6jjk-a1-m2-cE 6jjk-a1-m2-cF_6jjk-a1-m1-cE 6jjl-a1-m1-cC_6jjl-a1-m2-cB 6jjl-a1-m1-cF_6jjl-a1-m2-cE 6jjl-a1-m2-cF_6jjl-a1-m1-cE 6jjo-a1-m1-cC_6jjo-a1-m2-cB 6jjo-a1-m1-cF_6jjo-a1-m2-cE QMPSLAPMLEKVMPSVVSINVEQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ QMPSLAPMLEKVMPSVVSINVEGSTQKFMALGSGVIIDADKGYVVTNNHVVDNATVIKVQLSDGRKFDAKMVGKDPRSDIALIQIQNPKNLTAIKMADSDALRVGDYTVAIGNPFGLGETVTSGIVSALGRSGLNAENYENFIQTDAAINRGNAGGALVNLNGELIGINTAILAPDGGNIGIGFAIPSNMVKNLTSQMVEYGQVKRGELGIMGTELNSELAKAMKVDAQRGAFVSQVLPNSSAAKAGIKAGDVITSLNGKPISSFAALRAQVGTMPVGSKLTLGLLRDGKQVNVNLELQQSSQSSSIFNGIEGAEMSNKGKDQGVVVNNVKTGTPAAQIGLKKGDVIIGANQQAVKNIAELRKVLDSKPSVLALNIQRGDSTIYLLMQ 6jjs-a1-m1-cA_6jjs-a1-m4-cA Crystal structure of an enzyme from Penicillium herquei in condition2 A0A1S6PUA4 A0A1S6PUA4 1.62 X-RAY DIFFRACTION 89 1.0 69774 (Penicillium herquei) 69774 (Penicillium herquei) 130 130 6jjs-a1-m2-cA_6jjs-a1-m3-cA 6jjt-a1-m1-cA_6jjt-a1-m1-cB 6jjt-a1-m1-cC_6jjt-a1-m1-cD RPTPPNLEFLFSANLTKGPAYIYDQSDAQIKALQTLTGGIIAGPNFDGTVIGGTALSTRGADGTIRADAHYLIQTSDGANILVTESAAIPYVAVLFDTSSEKYNWLNNVTAWGTPPNLNEINFLEYWQIE RPTPPNLEFLFSANLTKGPAYIYDQSDAQIKALQTLTGGIIAGPNFDGTVIGGTALSTRGADGTIRADAHYLIQTSDGANILVTESAAIPYVAVLFDTSSEKYNWLNNVTAWGTPPNLNEINFLEYWQIE 6jjt-a1-m1-cA_6jjt-a1-m1-cD Crystal structure of an enzyme from Penicillium herquei in condition1 A0A1S6PUA4 A0A1S6PUA4 1.33 X-RAY DIFFRACTION 15 1.0 69774 (Penicillium herquei) 69774 (Penicillium herquei) 130 133 RPTPPNLEFLFSANLTKGPAYIYDQSDAQIKALQTLTGGIIAGPNFDGTVIGGTALSTRGADGTIRADAHYLIQTSDGANILVTESAAIPYVAVLFDTSSEKYNWLNNVTAWGTPPNLNEINFLEYWQIE LGSRPTPPNLEFLFSANLTKGPAYIYDQSDAQIKALQTLTGGIIAGPNFDGTVIGGTALSTRGADGTIRADAHYLIQTSDGANILVTESAAIPYVAVLFDTSSEKYNWLNNVTAWGTPPNLNEINFLEYWQIE 6jjt-a1-m1-cB_6jjt-a1-m1-cD Crystal structure of an enzyme from Penicillium herquei in condition1 A0A1S6PUA4 A0A1S6PUA4 1.33 X-RAY DIFFRACTION 72 1.0 69774 (Penicillium herquei) 69774 (Penicillium herquei) 130 133 6jjs-a1-m1-cA_6jjs-a1-m3-cA 6jjs-a1-m2-cA_6jjs-a1-m4-cA 6jjt-a1-m1-cA_6jjt-a1-m1-cC RPTPPNLEFLFSANLTKGPAYIYDQSDAQIKALQTLTGGIIAGPNFDGTVIGGTALSTRGADGTIRADAHYLIQTSDGANILVTESAAIPYVAVLFDTSSEKYNWLNNVTAWGTPPNLNEINFLEYWQIE LGSRPTPPNLEFLFSANLTKGPAYIYDQSDAQIKALQTLTGGIIAGPNFDGTVIGGTALSTRGADGTIRADAHYLIQTSDGANILVTESAAIPYVAVLFDTSSEKYNWLNNVTAWGTPPNLNEINFLEYWQIE 6jkg-a1-m1-cB_6jkg-a1-m1-cA The NAD+-free form of human NSDHL Q15738 Q15738 2.9 X-RAY DIFFRACTION 159 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 216 6jkh-a1-m1-cB_6jkh-a1-m1-cA QAKRCTVIGGSGFLGQHMVEQLLARGYAVNVFDIQQGFDNPQVRFFLGDLCSRQDLYPALKGVNTVFHCASPPNKELFYRVNYIGTKNVIETCKEAGVQKLILTSSASVIFEPIDYYTETKILQERAVLGANDPEKNFLTTAIRPHGIPQLVPILIEAARNGKMKFVIGNGKNLVDFTFVENVVHGHILAAEQLSRDSTLGGKAFHILEHH NQAKRCTVIGGSGFLGQHMVEQLLARGYAVNVFDIQQGFDNPQVRFFLGDLCSRQDLYPALKGVNTVFHCASPPPSSNNKELFYRVNYIGTKNVIETCKEAGVQKLILTSSASVIFEPIDYYTETKILQERAVLGANDPEKNFLTTAIRPHGIPQLVPILIEAARNGKMKFVIGNGKNLVDFTFVENVVHGHILAAEQLSRDSTLGGKAFHILEHH 6jkl-a1-m1-cA_6jkl-a1-m1-cB Structure of a triple-helix region of human collagen type II 2.148 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 PGPGPGDDGPSGAEGPGPGPG PGPGPGDDGPSGAEGPGPGPG 6jkl-a1-m1-cB_6jkl-a1-m1-cC Structure of a triple-helix region of human collagen type II 2.148 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 6jkl-a1-m1-cA_6jkl-a1-m1-cC PGPGPGDDGPSGAEGPGPGPG PGPGPGDDGPSGAEGPGPGPG 6jko-a1-m1-cA_6jko-a1-m2-cC Crystal structure of sulfoacetaldehyde reductase from Bifidobacterium kashiwanohense A0A0A7I0A5 A0A0A7I0A5 1.9 X-RAY DIFFRACTION 80 1.0 1447716 (Bifidobacterium kashiwanohense PV20-2) 1447716 (Bifidobacterium kashiwanohense PV20-2) 376 376 6jko-a2-m1-cB_6jko-a2-m3-cD 6jkp-a1-m1-cA_6jkp-a1-m2-cB 6jkp-a2-m1-cC_6jkp-a2-m3-cD GMLWDYAQPVTIRFGKGRAMEIKDIAEAMGLHDGIMVTPKFFVDSGEAQRLIDASDGAVSTVFTDFSPNPDVTEVDACAEIIRKNHCEFVVAMGGGSAMDVSKAAASICLTDDSIADYHGTGKAMPQKHLPIIALPTTAGTGSEVTCVSVLTNRKLGKKAPIVSDGFFPSVAIVDPELTYSVPPKITASTGMDVLSQAIEGFWSKGHQPICDSCAAHAAKLVFKYLPIAVAEPHNEEAREKMCEASVIAGLAFTLPKTTSSHACSFPLTNIHGIPHGEACGLTLDYFARINKDAQHGRVQEFARGIGFKDVDAMADAIHDLKVRIGMRTGLKDLNLTEEQIADLVRISRHPNLYNNPVEITDDMLDTMYHYLASTD GMLWDYAQPVTIRFGKGRAMEIKDIAEAMGLHDGIMVTPKFFVDSGEAQRLIDASDGAVSTVFTDFSPNPDVTEVDACAEIIRKNHCEFVVAMGGGSAMDVSKAAASICLTDDSIADYHGTGKAMPQKHLPIIALPTTAGTGSEVTCVSVLTNRKLGKKAPIVSDGFFPSVAIVDPELTYSVPPKITASTGMDVLSQAIEGFWSKGHQPICDSCAAHAAKLVFKYLPIAVAEPHNEEAREKMCEASVIAGLAFTLPKTTSSHACSFPLTNIHGIPHGEACGLTLDYFARINKDAQHGRVQEFARGIGFKDVDAMADAIHDLKVRIGMRTGLKDLNLTEEQIADLVRISRHPNLYNNPVEITDDMLDTMYHYLASTD 6jku-a1-m1-cD_6jku-a1-m1-cB Crystal structure of N-acetylglucosamine-6-phosphate deacetylase from Pasteurella Multocida Q9CMF5 Q9CMF5 1.95 X-RAY DIFFRACTION 32 1.0 747 (Pasteurella multocida) 747 (Pasteurella multocida) 379 385 6jku-a1-m1-cC_6jku-a1-m1-cA FMYAFVNAVIYTAKDVLYGKALVVDGDKISAILPVEDVPENLQKIDLQGNNLTAGFIDLQLNGCGGVMFNEDISVKTLEIMQETNLKSGTTSYLPTFITSPDEGMKDAVKVMREYLTQYKNQALGLHFEGPYLSVEKKGVHREEYIRAISPEMKTFLCDNADVITKITLAAENPTAQYIPDFVEKGIIVSLGHSNATYDVAQQAIEKGASFATHLHNAMSPISSGRAMGVVGAVLDSDIYTGIIVDGLHVDYGNIRLDKKVKGDKLCIVTDATAAAGADIDSFVFVGKTVYVRDGKCYDSNGTLGGAAITMIESVKNAVQEVGIPLDETLRMCNYYPAKAIGVDHKLGSIEVGKIANLTAFTNDFNVLGTAVNGEWKAN LYKKAGFMYAFVNAVIYTAKDVLYGKALVVDGDKISAILPVEDVPENLQKIDLQGNNLTAGFIDLQLNGCGGVMFNEDISVKTLEIMQETNLKSGTTSYLPTFITSPDEGMKDAVKVMREYLTQYKNQALGLHFEGPYLSVEKKGVHREEYIRAISPEMKTFLCDNADVITKITLAAENPTAQYIPDFVEKGIIVSLGHSNATYDVAQQAIEKGASFATHLHNAMSPISSGRAMGVVGAVLDSDIYTGIIVDGLHVDYGNIRLDKKVKGDKLCIVTDATAAAGADIDSFVFVGKTVYVRDGKCYDSNGTLGGAAITMIESVKNAVQEVGIPLDETLRMCNYYPAKAIGVDHKLGSIEVGKIANLTAFTNDFNVLGTAVNGEWKAN 6jku-a1-m1-cD_6jku-a1-m1-cC Crystal structure of N-acetylglucosamine-6-phosphate deacetylase from Pasteurella Multocida Q9CMF5 Q9CMF5 1.95 X-RAY DIFFRACTION 66 1.0 747 (Pasteurella multocida) 747 (Pasteurella multocida) 379 380 6jku-a1-m1-cA_6jku-a1-m1-cB FMYAFVNAVIYTAKDVLYGKALVVDGDKISAILPVEDVPENLQKIDLQGNNLTAGFIDLQLNGCGGVMFNEDISVKTLEIMQETNLKSGTTSYLPTFITSPDEGMKDAVKVMREYLTQYKNQALGLHFEGPYLSVEKKGVHREEYIRAISPEMKTFLCDNADVITKITLAAENPTAQYIPDFVEKGIIVSLGHSNATYDVAQQAIEKGASFATHLHNAMSPISSGRAMGVVGAVLDSDIYTGIIVDGLHVDYGNIRLDKKVKGDKLCIVTDATAAAGADIDSFVFVGKTVYVRDGKCYDSNGTLGGAAITMIESVKNAVQEVGIPLDETLRMCNYYPAKAIGVDHKLGSIEVGKIANLTAFTNDFNVLGTAVNGEWKAN GFMYAFVNAVIYTAKDVLYGKALVVDGDKISAILPVEDVPENLQKIDLQGNNLTAGFIDLQLNGCGGVMFNEDISVKTLEIMQETNLKSGTTSYLPTFITSPDEGMKDAVKVMREYLTQYKNQALGLHFEGPYLSVEKKGVHREEYIRAISPEMKTFLCDNADVITKITLAAENPTAQYIPDFVEKGIIVSLGHSNATYDVAQQAIEKGASFATHLHNAMSPISSGRAMGVVGAVLDSDIYTGIIVDGLHVDYGNIRLDKKVKGDKLCIVTDATAAAGADIDSFVFVGKTVYVRDGKCYDSNGTLGGAAITMIESVKNAVQEVGIPLDETLRMCNYYPAKAIGVDHKLGSIEVGKIANLTAFTNDFNVLGTAVNGEWKAN 6jl9-a1-m1-cA_6jl9-a1-m2-cA Crystal structure of a frog ependymin related protein F6VRB7 F6VRB7 2 X-RAY DIFFRACTION 131 1.0 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 189 189 6l9x-a1-m1-cA_6l9x-a1-m2-cA HHHHHHPVTPCEAPLQWEGRIVLYDHNTGKNTRATVTYDAILQRIRILEEKKSFVPCKRFFEYIFLYQEAVMFQIEQVTKICSKNTLTEPWDPYDIPENSTYEDQYYIGGPGDQIPVQEWSDRKPARKYETWVGVYTVKDCYPVQETYTKNDSMTTSTRFFDIKLGISDPSVFNPPSTCEAAQPLLMSG HHHHHHPVTPCEAPLQWEGRIVLYDHNTGKNTRATVTYDAILQRIRILEEKKSFVPCKRFFEYIFLYQEAVMFQIEQVTKICSKNTLTEPWDPYDIPENSTYEDQYYIGGPGDQIPVQEWSDRKPARKYETWVGVYTVKDCYPVQETYTKNDSMTTSTRFFDIKLGISDPSVFNPPSTCEAAQPLLMSG 6jla-a2-m1-cB_6jla-a2-m1-cC Crystal structure of a mouse ependymin related protein Q99M71 Q99M71 2.4 X-RAY DIFFRACTION 132 1.0 10090 (Mus musculus) 10090 (Mus musculus) 182 184 6jla-a1-m1-cA_6jla-a1-m1-cD PQPCQAPQQWEGRQVLYQQSSGHNNRALVSYDGLNQRVRVLDERKALIPCKRLFEYILLYKEGVMFQIEQATKQCAKIPLVESWDPLDIPQNSTFEDQYSIGGPQEQILVQEWSDRRTARSYETWIGVYTAKDCYPVQETFIRNYTVVMSTRFFDVQLGIKDPSVFTPPSTCQAAQPEKMSD PQPCQAPQQWEGRQVLYQQSSGHNNRALVSYDGLNQRVRVLDERKALIPCKRLFEYILLYKEGVMFQIEQATKQCAKIPLVESWDPLDIPQNSTFEDQYSIGGPQEQILVQEWSDRRTARSYETWIGVYTAKDCYPVQETFIRNYTVVMSTRFFDVQLGIKDPSVFTPPSTCQAAQPEKMSDGC 6jlh-a1-m1-cC_6jlh-a1-m1-cA Structure of SCGN in complex with a Snap25 peptide Q5XJX1 Q5XJX1 2.37 X-RAY DIFFRACTION 83 1.0 7955 (Danio rerio) 7955 (Danio rerio) 246 251 GFLQIWQHFDADDNGYIEGKELDDFFRHLKKLQPKDKITDERVQQIKKSFSAYDATFDGRLQIEELANILPQEENFLLIFRREAPLDNSVEFKIWRKYDADSSGYISAAELKNFLKDLFLQHKKKIPPNKLDEYTDAKIFDKNKDGRLDLNDLARILALQENFLLQFKDASSQVERKRDFEKIFAHYDVSRTGALEGPEVDGFVKDELVRPSISGGDLDKFRECLLTHCDNKDGKIQKSELALCLG NLDAAGFLQIWQHFDADDNGYIEGKELDDFFRHLKKLQPKDKITDERVQQIKKSFSAYDATFDGRLQIEELANILPQEENFLLIFRREAPLDNSVEFKIWRKYDADSSGYISAAELKNFLKDLFLQHKKKIPPNKLDEYTDAKIFDKNKDGRLDLNDLARILALQENFLLQFKDASSQVERKRDFEKIFAHYDVSRTGALEGPEVDGFVKDELVRPSISGGDLDKFRECLLTHCDNKDGKIQKSELALCLG 6jlz-a1-m1-cB_6jlz-a1-m1-cA P-eIF2a - eIF2B complex Q9USP0 Q9USP0 3.35 X-RAY DIFFRACTION 206 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 315 317 5b04-a1-m1-cA_5b04-a1-m1-cB 6jly-a1-m1-cA_6jly-a1-m1-cB GEFDIVQVYKKFLQDDPEITMPVAAIEALVQLLSRSQAKTISEFMDILQNGSNTLKEGVQNNISLSAGCDIFQRFVTRSLHDVGDFEQCKRHLVENGKLFIQRARACRQRIAHLGYPLIRDGSVILTHGFSRGVAAVLLAAAKRHVRFKVFVTESRPSGSGCLMTRTLKNACIPTCMVLDSAVSFTMNRVDLVLVGAEGVVENGGLINQIGTFQLAVFAKHAHKPFYAVAESHKFVRMFPLSQYDIPFSRPILEFDDPSPETVAIHNELIMNEEQIRNNPTLDVTPPEFVSGLITDLGIIDSKSGVSEELIKLYL QGEFDIVQVYKKFLQDDPEITMPVAAIEALVQLLSRSQAKTISEFMDILQNGSNTLKEGVQNNISLSAGCDIFQRFVTRSLHDVGDFEQCKRHLVENGKLFIQRARACRQRIAHLGYPLIRDGSVILTHGFSRGVAAVLLAAAKRHVRFKVFVTESRPSGSGCLMTRTLKNACIPTCMVLDSAVSFTMNRVDLVLVGAEGVVENGGLINQIGTFQLAVFAKHAHKPFYAVAESHKFVRMFPLSQYDIPFSRPILEFDDPSPETVHAIHNELIMNEEQIRNNPTLDVTPPEFVSGLITDLGIIDSKSGVSEELIKLYL 6jmi-a1-m1-cD_6jmi-a1-m1-cA Crystal structure of M.tuberculosis Rv0081 P9WMI7 P9WMI7 2.896 X-RAY DIFFRACTION 102 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 83 100 EPLYKLKAEFFKTLAHPARIRILELLVERDRSVGELDVGLNLSQQLGVLRRAGVVAYSIAAPDIAELLAVARKVLARVLSDRV SEPLYKLKAEFFKTLAHPARIRILELLVERDRSVGELLSSDVGLESSNLSQQLGVLRRAGVVAARRDGNAMIYSIAAPDIAELLAVARKVLARVLSDRVA 6jn2-a1-m1-cA_6jn2-a1-m4-cA Crystal structure of the coiled-coil domains of human DOT1L in complex with AF10 P55197 P55197 3.6 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 6jn2-a1-m2-cA_6jn2-a1-m3-cA SIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLSVP SIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLSVP 6jn2-a1-m2-cA_6jn2-a1-m4-cA Crystal structure of the coiled-coil domains of human DOT1L in complex with AF10 P55197 P55197 3.6 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 6jn2-a1-m1-cA_6jn2-a1-m3-cA SIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLSVP SIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLSVP 6jn2-a1-m3-cA_6jn2-a1-m4-cA Crystal structure of the coiled-coil domains of human DOT1L in complex with AF10 P55197 P55197 3.6 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 6jn2-a1-m1-cA_6jn2-a1-m2-cA SIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLSVP SIEQLLERQWSEGQQFLLEQGTPSDILGMLKSLHQLQVENRRLEEQIKNLTAKKERLQLLNAQLSVP 6jni-a2-m1-cC_6jni-a2-m1-cD Crystal structure of the transcriptional regulator CadR from P. putida in complex with Zinc(II) and DNA Q93TP7 Q93TP7 2.9 X-RAY DIFFRACTION 150 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 128 145 6jgx-a1-m1-cB_6jgx-a1-m1-cA 6jni-a1-m1-cB_6jni-a1-m1-cA 6jyw-a1-m1-cB_6jyw-a1-m1-cA MKIGELAKATDCAVETIRYYEREQLLPEPARSDGNYRLYTQAHVERLTFIRNCRTLDMTLDEIRSLLRLRDSPDDSCGSVNALIDEHIEHVQARIDGLVALQEQLVELRRRCCAILQQLETNGAVSVP MKIGELAKATDCAVETIRYYEREQLLPEPARSDGNYRLYTQAHVERLTFIRNCRTLDMTLDEIRSLLRLRDSPDDSCGSVNALIDEHIEHVQARIDGLVALQEQLVELRRRCNAQGAECAILQQLETNGAVSVPETEHSHVGRSH 6jnp-a1-m1-cA_6jnp-a1-m2-cD Structure of ExoT-SpcS Complex from Pseudomonas aeruginosa in 2.2 Angstrom Q9I788 Q9I788 2.261 X-RAY DIFFRACTION 16 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 57 57 RLGEVEARQVATPREAQQLAQRQEAPKGEGLLSRLGAALARPFVAIIEWLGKLLGSR RLGEVEARQVATPREAQQLAQRQEAPKGEGLLSRLGAALARPFVAIIEWLGKLLGSR 6jo3-a1-m1-cA_6jo3-a1-m2-cA Crystal structure of (S)-3-O-geranylgeranylglyceryl phosphate synthase from Thermoplasma acidophilum in complex with substrate sn-glycerol-1-phosphate Q9HJH3 Q9HJH3 2.35 X-RAY DIFFRACTION 86 1.0 273075 (Thermoplasma acidophilum DSM 1728) 273075 (Thermoplasma acidophilum DSM 1728) 247 247 MMTVLEDMLRKTRNGKVHMTLIDPGAKPPQECARIAEEAEMAGTDFIMVGGSTDIDSRAMDEAISAIKAKTDLKVIIFPGSSLMISPKADAIFFMSLLNSGSLEYVVGHQVKAAIPLSAMKIEKIPMAYLVFDPGMTVGRVGKAHLIPRDDEKTALSYALAAQYFGFRLVYFEAGSGSPYHVGENVVRRVKQELDIPVIVGGGIRTPEAAKALAQAGADMIVTGTIAERSVNVYEALHPIVESIKEV MMTVLEDMLRKTRNGKVHMTLIDPGAKPPQECARIAEEAEMAGTDFIMVGGSTDIDSRAMDEAISAIKAKTDLKVIIFPGSSLMISPKADAIFFMSLLNSGSLEYVVGHQVKAAIPLSAMKIEKIPMAYLVFDPGMTVGRVGKAHLIPRDDEKTALSYALAAQYFGFRLVYFEAGSGSPYHVGENVVRRVKQELDIPVIVGGGIRTPEAAKALAQAGADMIVTGTIAERSVNVYEALHPIVESIKEV 6jof-a1-m1-cA_6jof-a1-m2-cA Crystal structure of TrmD from Mycobacterium tuberculosis in complex with active-site inhibitor P9WFY7 P9WFY7 2.2 X-RAY DIFFRACTION 245 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 206 206 5zhi-a1-m1-cA_5zhi-a1-m1-cB 5zhj-a1-m1-cA_5zhj-a1-m2-cA 5zhk-a1-m1-cA_5zhk-a1-m2-cA 5zhl-a1-m1-cA_5zhl-a1-m2-cA MRIDIVTIFPACLDPLRQSLPGKAIESGLVDLNVHDLRRWTHDVHHSVDDAPYGGGPGMVMKAPVWGEALDEICSSETLLIVPTPAGVLFTQATAQRWTTESHLVFACGRYEGIDQRVVQDAARRMRVEEVSIGDYVLPGGESAAVVMVEAVLRLLAGLEGPSYTRPASWRGLDVPEVLLSGDHARIAAWRREVSLQRTRERRPDL MRIDIVTIFPACLDPLRQSLPGKAIESGLVDLNVHDLRRWTHDVHHSVDDAPYGGGPGMVMKAPVWGEALDEICSSETLLIVPTPAGVLFTQATAQRWTTESHLVFACGRYEGIDQRVVQDAARRMRVEEVSIGDYVLPGGESAAVVMVEAVLRLLAGLEGPSYTRPASWRGLDVPEVLLSGDHARIAAWRREVSLQRTRERRPDL 6jov-a1-m1-cC_6jov-a1-m1-cD Crystal structure of a hypothetical Fe Superoxide dismutase 1.941 X-RAY DIFFRACTION 51 1.0 32630 (synthetic construct) 32630 (synthetic construct) 198 198 6jov-a1-m1-cA_6jov-a1-m1-cB MTHTLPNLPYDIAALEPHISAKTLTFHHGKHHQAYVTNLNNLIQNTELANKTLEEIIHATAKNPEKAGIFNNAAQVWNHTFFWNCMKPQGGGQPTGDLKAMIDKTFGSYEAFAADFKQAAITQFGSGWAWLVVERGVLRIMKTPNADLPMVHGATALLTCDVWEHAYYLDYQNRRPDYVDTFLSHLVNWDFASALLNG MTHTLPNLPYDIAALEPHISAKTLTFHHGKHHQAYVTNLNNLIQNTELANKTLEEIIHATAKNPEKAGIFNNAAQVWNHTFFWNCMKPQGGGQPTGDLKAMIDKTFGSYEAFAADFKQAAITQFGSGWAWLVVERGVLRIMKTPNADLPMVHGATALLTCDVWEHAYYLDYQNRRPDYVDTFLSHLVNWDFASALLNG 6jow-a2-m1-cC_6jow-a2-m1-cD Exo-beta-D-glucosaminidase from Pyrococcus furiosus Q8U3U2 Q8U3U2 1.75 X-RAY DIFFRACTION 174 1.0 2261 (Pyrococcus furiosus) 2261 (Pyrococcus furiosus) 762 762 6jow-a1-m1-cA_6jow-a1-m1-cB RIVVYGGTLQYFRVPRNSWERMLKKMKSHGLNTIDTYIAWNWHEPQEGLFDFTGETHPQRDLVGFLDLAQKLGFYVIIRPGPYICGEWKNGGIPEWLINSHPEILAKGPNGTLPRDIYYPPITYLHPTYLEYVMKWYENVFPIIKEYLYSNGGPIINVTIDDEPSYWETIFQAFLTDYNEIVVKENGIWHSWLKENYQLDELEERYGQKFSDYAEIVPPTSFSEPLPKILDWHHFKIWMINEYVRILYEKIKKYVDVPISILDPYLLLAAWKEFYLYVTKHKLDIHLWTEFWYSFYRTFDFKEDRLGHLYYKTGVYRYYINKLKTPPLSIETQTSLANVIEKDEAELLYALLPALGIHNINYYLYVGGENPKGYESHNGATWDVYSPIGLDGRERQHVEPIKWIGEFLKSNMDFIESQLKPKVAFGMYEPYEALSMWGHRPESFEESVNLQEYLFGERGLLTLLAMSNVPFDVIDLELSTVEEMLQYEQIWIYSLDFMSREVQEKLARYVEEGGNLVILPTLPSLDENMKPYTKLRDFLGIEVEKAKARDNMRLIPYISVDAEEIDRMVVRNVVREVKGGKAIAWVGDKVVGVMVRKGKGSAVVLGFRLQYYSSYHDLHRKFVDKILQLQGIERDFEVSNRDIIVIPRGNYLVVVNPRDDKVTGKVRYRGVEFNVELNKRGVLYIPINVEINGIKVLYATATPVGRGEGTIRFRNHLANVTEIAINGKIKEVSGGYILQEKSSGEKNIYVIKHESETFEIRV RIVVYGGTLQYFRVPRNSWERMLKKMKSHGLNTIDTYIAWNWHEPQEGLFDFTGETHPQRDLVGFLDLAQKLGFYVIIRPGPYICGEWKNGGIPEWLINSHPEILAKGPNGTLPRDIYYPPITYLHPTYLEYVMKWYENVFPIIKEYLYSNGGPIINVTIDDEPSYWETIFQAFLTDYNEIVVKENGIWHSWLKENYQLDELEERYGQKFSDYAEIVPPTSFSEPLPKILDWHHFKIWMINEYVRILYEKIKKYVDVPISILDPYLLLAAWKEFYLYVTKHKLDIHLWTEFWYSFYRTFDFKEDRLGHLYYKTGVYRYYINKLKTPPLSIETQTSLANVIEKDEAELLYALLPALGIHNINYYLYVGGENPKGYESHNGATWDVYSPIGLDGRERQHVEPIKWIGEFLKSNMDFIESQLKPKVAFGMYEPYEALSMWGHRPESFEESVNLQEYLFGERGLLTLLAMSNVPFDVIDLELSTVEEMLQYEQIWIYSLDFMSREVQEKLARYVEEGGNLVILPTLPSLDENMKPYTKLRDFLGIEVEKAKARDNMRLIPYISVDAEEIDRMVVRNVVREVKGGKAIAWVGDKVVGVMVRKGKGSAVVLGFRLQYYSSYHDLHRKFVDKILQLQGIERDFEVSNRDIIVIPRGNYLVVVNPRDDKVTGKVRYRGVEFNVELNKRGVLYIPINVEINGIKVLYATATPVGRGEGTIRFRNHLANVTEIAINGKIKEVSGGYILQEKSSGEKNIYVIKHESETFEIRV 6jp9-a2-m1-cC_6jp9-a2-m1-cD Crsytal structure of a XMP complexed ATPPase subunit of M. jannaschii GMP synthetase Q58531 Q58531 2.1 X-RAY DIFFRACTION 125 0.993 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 274 298 6jp9-a1-m1-cB_6jp9-a1-m1-cA DPKKFIDEAVEEIKQQIIALSGGVDSSVAAVTHKAIGDKLTAVFVDTGLMRKGEREEVEKTFRDKLGLNLIVVDAKDRFLNALKGVTDPEEKRKIIGKLFIDVFEEIEDILVQGTIAVLEVVEPLRELYKDEVRLLAKELGLPDSIVYRQPFPGPGLAVRVLGEVTEEKLNICREANAIVEEEVKKANLDKDLWQYFAVVLDCKATGVKGDEREYNWIVALRMVKSLDAMTAHVPEIPFDLLKRISKRITSEIPNVARVVFDITDKPPATIEFE MFDPKKFIDEAVEEIKQQISDRKAIIALSGGVDSSVAAVLTHKAIGDKLTAVFVDTGLMRKGEREEVEKTFRDKLGLNLIVVDAKDRFLNALKGVTDPEEKRKIIGKLFIDVFEEIAEDIKAEVLVQGTIAPDWHNVALPHGMVLEVVEPLRELYKDEVRLLAKELGLPDSIVYRQPFPGPGLAVRVLGEVTEEKLNICREANAIVEEEVKKANLDKDLWQYFAVVLDCKATGVDEREYNWIVALRMVKSLDAMTAHVPEIPFDLLKRISKRITSEIPNVARVVFDITDKPPATIEFE 6jpd-a1-m1-cD_6jpd-a1-m1-cE Mouse receptor-interacting protein kinase 3 (RIP3) amyloid structure by solid-state NMR Q9QZL0 Q9QZL0 NOT SOLID-STATE NMR 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 21 21 6jpd-a1-m1-cA_6jpd-a1-m1-cB 6jpd-a1-m1-cB_6jpd-a1-m1-cC 6jpd-a1-m1-cC_6jpd-a1-m1-cD VFNNCSEVQIGNYNSLVAPPR VFNNCSEVQIGNYNSLVAPPR 6jpf-a1-m1-cA_6jpf-a1-m1-cB Structure of atOSCA1.1 channel at 3.52A Q9XEA1 Q9XEA1 3.52 ELECTRON MICROSCOPY 96 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 610 610 LKDIGVSAGINILTAFIFFIIFAFLRLQPFNDRVYFSKWYLRGLRSSLKFLHWMPEALKMPERELIDHAGLDSVVYLRIYWLGLKIFAPIAMLAWAVLVPVNSNRFWAHIIMAYAFTIWTCYMLMKEYETVANMRLQFLASEGRRPDQFTVLVRNVPPDPDETVSELVEHFFLVNHPDNYLTHQVVCNANKLADLVSKKTKLQNWLDYYQLKYTRNNSQIRPAIEHYIAEVDKTSKEIAEERENVVNDQKSVMPASFVSFKTRWAAAVCAQTTQTRNPTEWLTEWAAEPRDIYWPNLAIPYVSLTVRRLVMNVAFFFLTFFFIIPIAFVQSLATIKSLIQGLLAGIALKLFLIFLPAILMTMSKFEGFTSVSFLERRSASRYYIFNLVNVFLGSVIAGAAFEQLKTIGMAIPMKATFFITYIMVDGWAGVAGEILMLKPLIIYHLKNAFEEAMNPGSIGFNTGEPQIQLYFLLGLVYAPVTPMLLPFILVFFALAYVVYRHQIINVYNQEYESAAAFWPDVHGRVITALIISQLLLMGLLGTKHAASAAPFLIALPVITIGFHRFCKGRFEPAFVRYPLQEAMMKDTLERAREPNLNLKGYLQDAYIHPV LKDIGVSAGINILTAFIFFIIFAFLRLQPFNDRVYFSKWYLRGLRSSLKFLHWMPEALKMPERELIDHAGLDSVVYLRIYWLGLKIFAPIAMLAWAVLVPVNSNRFWAHIIMAYAFTIWTCYMLMKEYETVANMRLQFLASEGRRPDQFTVLVRNVPPDPDETVSELVEHFFLVNHPDNYLTHQVVCNANKLADLVSKKTKLQNWLDYYQLKYTRNNSQIRPAIEHYIAEVDKTSKEIAEERENVVNDQKSVMPASFVSFKTRWAAAVCAQTTQTRNPTEWLTEWAAEPRDIYWPNLAIPYVSLTVRRLVMNVAFFFLTFFFIIPIAFVQSLATIKSLIQGLLAGIALKLFLIFLPAILMTMSKFEGFTSVSFLERRSASRYYIFNLVNVFLGSVIAGAAFEQLKTIGMAIPMKATFFITYIMVDGWAGVAGEILMLKPLIIYHLKNAFEEAMNPGSIGFNTGEPQIQLYFLLGLVYAPVTPMLLPFILVFFALAYVVYRHQIINVYNQEYESAAAFWPDVHGRVITALIISQLLLMGLLGTKHAASAAPFLIALPVITIGFHRFCKGRFEPAFVRYPLQEAMMKDTLERAREPNLNLKGYLQDAYIHPV 6jpk-a1-m1-cB_6jpk-a1-m1-cA Crystal structure of S. pombe aspartate aminotransferase O42652 O42652 2.102 X-RAY DIFFRACTION 199 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 408 409 SDYGFANIEEAKADAIFKLNAQYHQDEDPKKVNMSVGAYRDDTGKPWILPAVKKASKIVEEQASFNHEYLPIAGLPRFTKAAAEVLFRPNPHLLSEDRVASMQSVSGTGANFLAASFIETFYVKHTGAHVYISNPTWPVHRTLWEKLGVTVETYPYWDAKNRSFDYEGMLSTIKSAPEGSIFLLHACAHNPTGIDPTREQWLSIFESLLSRKHLVVFDIAYQGFASGDLNRDSWALNEFVKYNKDFFVCQSFAKNMGLYGERTGCMHYVAKDASTKNKVLSQLCIVQRNTISNPPAYGARIAAEILNSPQLFAEWEQDLKTMSSRIIEMRKRLRDSLVALKTPGSWDHITQQIGMFSFTGLTPAQVQFCQERYHLYFSANGRISMAGLNNSNVEHVAQAFNHAVRELP SDYGFANIEEAKADAIFKLNAQYHQDEDPKKVNMSVGAYRDDTGKPWILPAVKKASKIVEEQASFNHEYLPIAGLPRFTKAAAEVLFRPNPHLLSEDRVASMQSVSGTGANFLAASFIETFYVKHTGAHVYISNPTWPVHRTLWEKLGVTVETYPYWDAKNRSFDYEGMLSTIKSAPEGSIFLLHACAHNPTGIDPTREQWLSIFESLLSRKHLVVFDIAYQGFASGDLNRDSWALNEFVKYNKDFFVCQSFAKNMGLYGERTGCMHYVAKDASTKNKVLSQLCIVQRNTISNPPAYGARIAAEILNSPQLFAEWEQDLKTMSSRIIEMRKRLRDSLVALKTPGSWDHITQQIGMFSFTGLTPAQVQFCQERYHLYFSANGRISMAGLNNSNVEHVAQAFNHAVRELPL 6jpr-a1-m1-cC_6jpr-a1-m1-cK Crystal structure of Phycocyanin from Nostoc sp. R76DM A0A5H1ZR40 A0A5H1ZR40 2.35 X-RAY DIFFRACTION 78 1.0 1177 (Nostoc) 1177 (Nostoc) 162 162 6jpr-a1-m1-cA_6jpr-a1-m1-cG 6jpr-a1-m1-cE_6jpr-a1-m1-cI KKTPLTEAISAADSQGRYLSSTEIQVAFGRFRQAPASLQAAKSLSANASRLTEGAAQAVYNKFPYTTQQQGPNFAYDQRGKAKCVRDVGYYLRIITYALVVGGTGPLDDYLISGLAEINKTFDLSPSWYIEALKYIKANHGLSGDPAVEANSYIDYVINTLS KKTPLTEAISAADSQGRYLSSTEIQVAFGRFRQAPASLQAAKSLSANASRLTEGAAQAVYNKFPYTTQQQGPNFAYDQRGKAKCVRDVGYYLRIITYALVVGGTGPLDDYLISGLAEINKTFDLSPSWYIEALKYIKANHGLSGDPAVEANSYIDYVINTLS 6jpr-a1-m1-cE_6jpr-a1-m1-cK Crystal structure of Phycocyanin from Nostoc sp. R76DM A0A5H1ZR40 A0A5H1ZR40 2.35 X-RAY DIFFRACTION 26 1.0 1177 (Nostoc) 1177 (Nostoc) 162 162 6jpr-a1-m1-cA_6jpr-a1-m1-cI 6jpr-a1-m1-cC_6jpr-a1-m1-cG KKTPLTEAISAADSQGRYLSSTEIQVAFGRFRQAPASLQAAKSLSANASRLTEGAAQAVYNKFPYTTQQQGPNFAYDQRGKAKCVRDVGYYLRIITYALVVGGTGPLDDYLISGLAEINKTFDLSPSWYIEALKYIKANHGLSGDPAVEANSYIDYVINTLS KKTPLTEAISAADSQGRYLSSTEIQVAFGRFRQAPASLQAAKSLSANASRLTEGAAQAVYNKFPYTTQQQGPNFAYDQRGKAKCVRDVGYYLRIITYALVVGGTGPLDDYLISGLAEINKTFDLSPSWYIEALKYIKANHGLSGDPAVEANSYIDYVINTLS 6jpr-a1-m1-cJ_6jpr-a1-m1-cL Crystal structure of Phycocyanin from Nostoc sp. R76DM A0A5H1ZR41 A0A5H1ZR41 2.35 X-RAY DIFFRACTION 10 1.0 1177 (Nostoc) 1177 (Nostoc) 171 171 6jpr-a1-m1-cB_6jpr-a1-m1-cD 6jpr-a1-m1-cB_6jpr-a1-m1-cF 6jpr-a1-m1-cD_6jpr-a1-m1-cF 6jpr-a1-m1-cH_6jpr-a1-m1-cJ 6jpr-a1-m1-cH_6jpr-a1-m1-cL MLDAFAKVVAQADTRGEYLTDAQLDALSELVKEGNKRADAVNRITSNASAIVAAAVRDLWAEQPQLIAPGGAYTSRRAAACIRDLDIILRYVTYAIFAGDSSVLDDRALNGLRETYLALGTPGASVAVGIQKLKDASLKIVNDPNGITRGDCSALAAEIASYFDRAAAAVA MLDAFAKVVAQADTRGEYLTDAQLDALSELVKEGNKRADAVNRITSNASAIVAAAVRDLWAEQPQLIAPGGAYTSRRAAACIRDLDIILRYVTYAIFAGDSSVLDDRALNGLRETYLALGTPGASVAVGIQKLKDASLKIVNDPNGITRGDCSALAAEIASYFDRAAAAVA 6jpt-a1-m1-cA_6jpt-a1-m2-cA Crystal structure of human PAC3 homodimer (trigonal form) Q9BT73 Q9BT73 0.96 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 121 121 2z5e-a1-m1-cA_2z5e-a1-m1-cB EDTPLVISKQKTEVVCGVPTQVVCTAFSSHILVVVTQFGKMGTLVSLEPSSVASDVSKPVLTTKVLLGQDEPLIHVFAKNLVAFVSQEAGNRAVLLAVAVKDKSMEGLKALREVIRVCQVW EDTPLVISKQKTEVVCGVPTQVVCTAFSSHILVVVTQFGKMGTLVSLEPSSVASDVSKPVLTTKVLLGQDEPLIHVFAKNLVAFVSQEAGNRAVLLAVAVKDKSMEGLKALREVIRVCQVW 6jpv-a1-m2-cB_6jpv-a1-m1-cA Structural analysis of AIMP2-DX2 and HSP70 interaction Q13155 Q13155 2.15001 X-RAY DIFFRACTION 115 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 152 153 SDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSMYRLPNVH SDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSMYRLPNVHG 6jq1-a1-m1-cA_6jq1-a1-m1-cB Crystal Structure of DdrO from Deinococcus geothermalis Q1J1J5 Q1J1J5 2.3 X-RAY DIFFRACTION 144 1.0 319795 (Deinococcus geothermalis DSM 11300) 319795 (Deinococcus geothermalis DSM 11300) 129 130 6rnx-a1-m1-cA_6rnx-a1-m1-cB HMKLHERLRELRSERGLRLKDVAETAGISVPYLSDLERGRTNPSLETLQTLAGAYSITVHDLLEGVEFYGDSTEGALPKGLADLVADPLLGSQITPDWVRTLSRIELRGKRPRDKQDWYEIYLHLKRIL HMKLHERLRELRSERGLRLKDVAETAGISVPYLSDLERGRTNPSLETLQTLAGAYSITVHDLLEGVEFYGDSTEGALPKGLADLVADPLLGSQITPDWVRTLSRIELRGKRPRDKQDWYEIYLHLKRILG 6jqa-a1-m1-cC_6jqa-a1-m1-cD Crystal structure of phyllogen, a phyllody inducing effector protein of phytoplasma. X5IFG3 X5IFG3 2.402 X-RAY DIFFRACTION 37 1.0 428984 (Onion yellows phytoplasma OY-W) 428984 (Onion yellows phytoplasma OY-W) 78 79 6jqa-a1-m1-cA_6jqa-a1-m1-cB NNQNITNSIEENIINLKKIRKNAVKKINTEREIQQLSNNDPNKNTLLALKQNLENLIHNQKEQLKTQKLLKTLNDENN NNQNITNYSIEENIINLKKIRKNAVKKINTEREIQQLSNNDPNKNTLLALKQNLENLIHNQKEQLKTQKLLKTLNDENN 6jqa-a1-m1-cD_6jqa-a1-m1-cA Crystal structure of phyllogen, a phyllody inducing effector protein of phytoplasma. X5IFG3 X5IFG3 2.402 X-RAY DIFFRACTION 24 0.987 428984 (Onion yellows phytoplasma OY-W) 428984 (Onion yellows phytoplasma OY-W) 79 82 NNQNITNYSIEENIINLKKIRKNAVKKINTEREIQQLSNNDPNKNTLLALKQNLENLIHNQKEQLKTQKLLKTLNDENN SASNNNQNITNSIEENIINLKKIRKNAVKKINTEREIQQLSNNDPNKNTLLALKQNLENLIHNQKEQLKTQKLLKTLNDENN 6jqa-a1-m1-cD_6jqa-a1-m1-cB Crystal structure of phyllogen, a phyllody inducing effector protein of phytoplasma. X5IFG3 X5IFG3 2.402 X-RAY DIFFRACTION 31 0.987 428984 (Onion yellows phytoplasma OY-W) 428984 (Onion yellows phytoplasma OY-W) 79 85 6jqa-a1-m1-cC_6jqa-a1-m1-cA NNQNITNYSIEENIINLKKIRKNAVKKINTEREIQQLSNNDPNKNTLLALKQNLENLIHNQKEQLKTQKLLKTLNDENN DIASASNNNQNITNSIEENIINLKKIRKNAVKKINTEREIQQLSNNDPNKNTLLALKQNLENLIHNQKEQLKTQKLLKTLNDENN 6jqd-a1-m1-cA_6jqd-a1-m1-cB The structural basis of the beta-carbonic anhydrase CafC (L25G and L78G mutant) of the filamentous fungus Aspergillus fumigatus Q4WPJ0 Q4WPJ0 1.69 X-RAY DIFFRACTION 244 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 164 164 6jqc-a1-m1-cA_6jqc-a1-m1-cB MTNVADIEAANAQYAAAFTKGHLPGPPKRKLAVVTCMDARIDVFSVLGLTEGDAHVIRNAGGRASEALRSLIISQRLGGTEEVVVIHHTDCGMLTFSDEDIRAKIREELGEDASDIKFLPFRDLEASVREDVRFLRGSRLVQGNVTGYVYEVERGRLVRLDVSD MTNVADIEAANAQYAAAFTKGHLPGPPKRKLAVVTCMDARIDVFSVLGLTEGDAHVIRNAGGRASEALRSLIISQRLGGTEEVVVIHHTDCGMLTFSDEDIRAKIREELGEDASDIKFLPFRDLEASVREDVRFLRGSRLVQGNVTGYVYEVERGRLVRLDVSD 6jqw-a1-m1-cA_6jqw-a1-m1-cB Crystal structure of a hydrogenase from Trichosporon moniliiforme P0CT50 P0CT50 1.437 X-RAY DIFFRACTION 196 1.0 1895941 (Cutaneotrichosporon moniliiforme) 1895941 (Cutaneotrichosporon moniliiforme) 352 352 6jqx-a1-m1-cB_6jqx-a1-m1-cA GSMRGKVSLEEAFELPKFAAQTKEKAELYIAPNNRDRYFEEILNPCGNRLELSNKHGIGYTIYSIYSPGPQGWTERAECEEYARECNDYISGEIANHKDRMGAFAALSMHDPKQASEELTRCVKELGFLGALVNDVQHAGPEGETHIFYDQPEWDIFWQTCVDLDVPFYLHPEPPFGSYLRNQYEGRKYLIGPPVSFANGVSLHVLGMIVNGVFDRFPKLKVILGHLGEHIPGDFWRIEHWFEHCSRPLAKSRGDVFAEKPLLHYFRNNIWLTTSGNFSTETLKFCVEHVGAERILFSVDSPYEHIDVGCGWYDDNAKAIMEAVGGEKAYKDIGRDNAKKLFKLGKFYDSEA GSMRGKVSLEEAFELPKFAAQTKEKAELYIAPNNRDRYFEEILNPCGNRLELSNKHGIGYTIYSIYSPGPQGWTERAECEEYARECNDYISGEIANHKDRMGAFAALSMHDPKQASEELTRCVKELGFLGALVNDVQHAGPEGETHIFYDQPEWDIFWQTCVDLDVPFYLHPEPPFGSYLRNQYEGRKYLIGPPVSFANGVSLHVLGMIVNGVFDRFPKLKVILGHLGEHIPGDFWRIEHWFEHCSRPLAKSRGDVFAEKPLLHYFRNNIWLTTSGNFSTETLKFCVEHVGAERILFSVDSPYEHIDVGCGWYDDNAKAIMEAVGGEKAYKDIGRDNAKKLFKLGKFYDSEA 6jqy-a2-m1-cD_6jqy-a2-m1-cC Crystal structure of N-terminal domain of VapB46 antitoxin from Mycobacterium tuberculosis P9WF13 P9WF13 1.643 X-RAY DIFFRACTION 66 1.0 83331 (Mycobacterium tuberculosis CDC1551) 83331 (Mycobacterium tuberculosis CDC1551) 43 44 6jqy-a1-m1-cB_6jqy-a1-m1-cA TMTSVGVRALRQQASELLRRVEAGETIEITDRGRPVALLSPLP TMTSVGVRALRQQASELLRRVEAGETIEITDRGRPVALLSPLPQ 6jre-a1-m1-cB_6jre-a1-m2-cB Structure of N-terminal domain of Plasmodium vivax p43 (PfNTD) solved by Co-SAD phasing A0A0J9VJU0 A0A0J9VJU0 2.59 X-RAY DIFFRACTION 54 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 166 166 5zke-a1-m1-cA_5zke-a1-m1-cB 5zkf-a1-m1-cA_5zkf-a1-m1-cB 5zkf-a2-m1-cC_5zkf-a2-m2-cD VLTLVQDDVKSDILKLVLDFIKAVVVVAFPEVRHEKKISFQYKDKQYKELFCTLYAIIDIYDCYNELFNEDEGKVSENEEFIFHLASDKFKLKQLDMKHLNDLLCEKSYIVSNRHASIVDIFYFCSVYKPLSEMPAKERVEISHIYRWFLHIQETLVGKFTTLKKL VLTLVQDDVKSDILKLVLDFIKAVVVVAFPEVRHEKKISFQYKDKQYKELFCTLYAIIDIYDCYNELFNEDEGKVSENEEFIFHLASDKFKLKQLDMKHLNDLLCEKSYIVSNRHASIVDIFYFCSVYKPLSEMPAKERVEISHIYRWFLHIQETLVGKFTTLKKL 6jri-a2-m1-cE_6jri-a2-m1-cD Crystal structure of Nanobody 3.101 X-RAY DIFFRACTION 22 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 119 127 6jri-a1-m1-cA_6jri-a1-m2-cB 6jri-a1-m2-cG_6jri-a1-m1-cC 6jri-a2-m1-cF_6jri-a2-m1-cH VQLVESGGGLVQAGGSLRLSCTASGFTFDDYTMGWFRQAPGKEREGVSYTGWSTTYYTDSVKGRFTISRDNAKNTLYLQMNSLKPEDTAMYYCAAARYRQVRWTDFIYWGQGTQVTVSS VQLVESGGGLVQAGGSLRLSCTASGFTFDDYTMGWFRQAPGKEREGVSYTGWSMSGSTTYYTDSVKGRFTISRDNAKNTLYLQMNSLKPEDTAMYYCAAARYRGIGSQVRWTDFIYWGQGTQVTVSS 6jri-a2-m1-cE_6jri-a2-m1-cH Crystal structure of Nanobody 3.101 X-RAY DIFFRACTION 55 0.992 30538 (Vicugna pacos) 30538 (Vicugna pacos) 119 120 6jri-a1-m1-cA_6jri-a1-m1-cC 6jri-a1-m2-cG_6jri-a1-m2-cB 6jri-a2-m1-cF_6jri-a2-m1-cD VQLVESGGGLVQAGGSLRLSCTASGFTFDDYTMGWFRQAPGKEREGVSYTGWSTTYYTDSVKGRFTISRDNAKNTLYLQMNSLKPEDTAMYYCAAARYRQVRWTDFIYWGQGTQVTVSS VQLVESGGGLVQAGGSLRLSCTASGFTFDDYTMGWFRQAPGKEREGVSYTGWGSTTYYTDSVKGRFTISRDNAKNTLYLQMNSLKPEDTAMYYCAAARYSQVRWTDFIYWGQGTQVTVSS 6jri-a2-m1-cH_6jri-a2-m1-cD Crystal structure of Nanobody 3.101 X-RAY DIFFRACTION 38 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 120 127 6jri-a1-m1-cC_6jri-a1-m2-cB VQLVESGGGLVQAGGSLRLSCTASGFTFDDYTMGWFRQAPGKEREGVSYTGWGSTTYYTDSVKGRFTISRDNAKNTLYLQMNSLKPEDTAMYYCAAARYSQVRWTDFIYWGQGTQVTVSS VQLVESGGGLVQAGGSLRLSCTASGFTFDDYTMGWFRQAPGKEREGVSYTGWSMSGSTTYYTDSVKGRFTISRDNAKNTLYLQMNSLKPEDTAMYYCAAARYRGIGSQVRWTDFIYWGQGTQVTVSS 6jrl-a1-m1-cA_6jrl-a1-m2-cA Crystal structure of Drosophila alpha methyldopa-resistant protein/3,4-dihydroxyphenylacetaldehyde synthase P18486 P18486 2.2 X-RAY DIFFRACTION 383 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 464 464 MDAKEFREFGKAAIDYIADYLENIRDDDVLPNVEPGYLLDLLPTEMPEEPEAWKDVLGDISRVIKPGLTHWQSPHMHAYYPTSTSYPSIVGEMLASGFGVIGFSWICSPACTELEVVVMDWLAKFLKLPAHFQHASDGPGGGVIQGSASEAVLVAVLAAREQAVANYRESHPELSESEVRGRLVAYSSDQSNSCIEKAGVLAAMPIRLLPAGEDFVLRGDTLRGAIEEDVAAGRIPVICVATLGTTGTCAYDDIESLSAVCEEFKVWLHVDAAYAGGAFALEECSDLRKGLDRVDSLNFNLHFMLVNFDCSAMWLRDANKVVDSFNQIPDFRHWQIPLGRRFRALKVWITFRTLGAEGLRNHVRKHIELAKQFEQLVLKDSRFELVAPRALGLVCFRPKGDNEITTQLLQRLMDRKKIYMVKAEHAGRQFLRFVVCGMDTKASDIDFAWQEIESQLTDLQAEQS MDAKEFREFGKAAIDYIADYLENIRDDDVLPNVEPGYLLDLLPTEMPEEPEAWKDVLGDISRVIKPGLTHWQSPHMHAYYPTSTSYPSIVGEMLASGFGVIGFSWICSPACTELEVVVMDWLAKFLKLPAHFQHASDGPGGGVIQGSASEAVLVAVLAAREQAVANYRESHPELSESEVRGRLVAYSSDQSNSCIEKAGVLAAMPIRLLPAGEDFVLRGDTLRGAIEEDVAAGRIPVICVATLGTTGTCAYDDIESLSAVCEEFKVWLHVDAAYAGGAFALEECSDLRKGLDRVDSLNFNLHFMLVNFDCSAMWLRDANKVVDSFNQIPDFRHWQIPLGRRFRALKVWITFRTLGAEGLRNHVRKHIELAKQFEQLVLKDSRFELVAPRALGLVCFRPKGDNEITTQLLQRLMDRKKIYMVKAEHAGRQFLRFVVCGMDTKASDIDFAWQEIESQLTDLQAEQS 6jrq-a2-m1-cC_6jrq-a2-m1-cD Crystal structure of adenylosuccinate synthetase, PurA, from Thermus thermophilus Q5SLS1 Q5SLS1 2.1 X-RAY DIFFRACTION 139 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 407 407 6jrq-a1-m1-cA_6jrq-a1-m1-cB PGIAIIGAQWGDEGKGKVVDVLAREADYVIRYQGGANAGHTVVAEGKVFKLNLLPSGVIHPHAVNVLGDGMVIDPFRFQEEVEGLRKEGFDPKILVSERAHLVLPHHKHVESRHNFVGTTGRGIGPAYSDRARRVGIRAGDLLDEATLRERVRRLLAEKPNSTREAGWDTEEKALADLHRMREILSPYIADTGSLLREAWRKGKRLLFEGAQATLLDLNYGTYPYVTSSHPTVGGILVGTGLSHKAITKVYGVAKAYTTRVGEGPFPTELQGELAHHLREKGGEYGTTTGRPRRVGWLDLVALRYACEVNGFDGLVLTKLDVLSGLEKVKVAVEYLDGARPGEASPEAVRYLELPGWGDLSHVKRREDLPANLLRYLELVEEHTGVPVVLFSTSPRREDTFGAVSWV PGIAIIGAQWGDEGKGKVVDVLAREADYVIRYQGGANAGHTVVAEGKVFKLNLLPSGVIHPHAVNVLGDGMVIDPFRFQEEVEGLRKEGFDPKILVSERAHLVLPHHKHVESRHNFVGTTGRGIGPAYSDRARRVGIRAGDLLDEATLRERVRRLLAEKPNSTREAGWDTEEKALADLHRMREILSPYIADTGSLLREAWRKGKRLLFEGAQATLLDLNYGTYPYVTSSHPTVGGILVGTGLSHKAITKVYGVAKAYTTRVGEGPFPTELQGELAHHLREKGGEYGTTTGRPRRVGWLDLVALRYACEVNGFDGLVLTKLDVLSGLEKVKVAVEYLDGARPGEASPEAVRYLELPGWGDLSHVKRREDLPANLLRYLELVEEHTGVPVVLFSTSPRREDTFGAVSWV 6jrs-a1-m1-cG_6jrs-a1-m1-cJ Structure of RyR2 (*F/A/C/L-Ca2+/Ca2+-CaM dataset) 3.7 ELECTRON MICROSCOPY 103 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3488 3488 6jrr-a1-m1-cA_6jrr-a1-m1-cC 6jrr-a1-m1-cA_6jrr-a1-m1-cG 6jrr-a1-m1-cC_6jrr-a1-m1-cE 6jrr-a1-m1-cE_6jrr-a1-m1-cG 6jrs-a1-m1-cA_6jrs-a1-m1-cD 6jrs-a1-m1-cA_6jrs-a1-m1-cJ 6jrs-a1-m1-cD_6jrs-a1-m1-cG QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKERKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVMQALCPCPEEIRDQLLDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAPEMHLIHAAKGEAIRIRSILRSLIPLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLEVGFLPDLRAAASLTDMALALNRYLCTAVLPLLLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGVERQRSALGECLAAFAGAAFLETHLDKHNIYSLLSKQRKRAVVACFRMAPLYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGLGGSGEKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE QFLRTDDEVVLQCTATIHKEQQKLCLAAEGFGNRLCFLESTSNSKNVPPDLSICTFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHSYSGMYLCCLSTSRKLAFDVGLQEDTTGEACWWTIHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSYLHVDAAFQQTLWSVAPISSAQGYLIGGDVLRLLHGECLTVPSGEHEQRRTVHYEGGAVSVHARSLWRLETLRVAWSGSHIRWGQPFRLRHVTTGKYLSLMEDKSLLLMDKEKADVKSTAFTFRSSKERKEVDGMGTSEIKYGDSVCFIQHIGTGLWLTYQSSIQRKAIMHHEGHMDDGLNLSRSQHEESRTARVIRSTVFLFNRFIRGLDALSKKAKASTVDLPIESVSLSLQDLIGYFHPPDEHLEHEDKQNRLRALKNRQNLFQEEGMINLVLECIDRLHVYSSVAGREAGESWKSILNSLYELLAALIRGNRKNCAQFSGSLDWLISRLERLEASSGILEVLHCVLVESPEALNIIKEGHIKSIISLLDKHGRNHKVLDVLCSLCVCHGVAVRSNQHLICDNLLPGRDLLLQTRLVNHVSSMRPNIFLGKKWYYELMVDHTEPFVTAEATHLRVGWASTEGYSPYPGGGEEWGGNGVGDDLFSYGFDGLHLWSGCIARTVSSPNQHLLRTDDVISCCLDLSAPSISFRINGQPVQGMFENFNIDGLFFPVVSFSAGIKVRFLLGEFKFLPPPGYAPCYEAVLPKEKLKVEHSREYKQERTYTRDLLGPTVSAFTPIPVDTSQIVLPPHLERIREKLAENIHELWVMNKIELGWQYGPVRDDNKRQHPCLVEFSKLPEQERNYNLQMSLETLKTLLALGCHVGISDEHAYQLTSGYKPAPMDLSFIKLTPSQEAMVDKLAENAHNVWARDRIRQRRNPRLVPYALLDDRTKKSNKDSLREAVRTLLGYGYNLEARFRIFRAEKTYAVKAGRWYFEFEAVTAGDMRVGWSRPGCQPDQELGSDERAFAFDGFKAQRWHQGNEHYGRSWQAGDVVGCMVDMTEHTMMFTLNGEILLDDSGSELAFKDFDVGDGFIPVCSLGVAQVGRMNFGKDVSTLKYFTICGLQEGYEPFAVNTNRDITMWLSKRLPQFLQVPSSHEHIEVTRIDVTQKSFGSQNSSTDIMFYRLSMPIECTYYYSVRIFPNVWVGWITSDFHQYDTAFDLVTVTLGDEKGKVHESIKRSNYMVCANNGLEIGCVVGLLTFTANGKDLSTYYQVEPSTKLFPAVFAQATSPNVFQFEAGLFKSEHKNPVPQCPPRLHVQFLSHVLWSRMPNQFLKVDVSRISERQGWLVQCLEPLQFMSLHIPEENRSVDILELTEQEELLKFHYHTLRLYSAVCALGNHRVAHALCSHVDEPQLLYAIENKYMPGLLRAGYYDLLIDIHLSSYATARLMMNNEFIVPMTEETKSITLFPDPGIGLSTSLRPRMQFSSPSFVSINNECYQYSPEFPLDILKAKTIQMLTEAVQEGSLHARDPVGGTTEFLFVPLIKLFYTLLIMGIFHNEDLKHILQLIEPSGLLQMKLPEPVKLQMCLLLQYLCDCQVRHRIEAIVAFSDDFVAKLQDNQRFRYNEVMQALCPCPEEIRDQLLDFHEDLMTHCGIELDLTIRGRLLSLVEKVTYTLQQLISETMVRWAQESVIEDPELVRAMFVLLHRQYDGIGGLVRALPKTYTINGVSVEDTINLLASLGQIRSLLSVEEEKLMIRGLGDIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGPKMVANCCRFLCYFCRISRQNQKAMFDHLSYLLENSSVTPLDVAAASVMDNNELALALREPDLEKVVRYLAGCGLPVEGERYLDFLRFAVFCNGESVEENANVVVRLLIRRPEGLLAAMEEAIKIGNAIMTFYAALIDLLGRCAPEMHLIHAAKGEAIRIRSILRSLIPLGDLVGVISIAFQFCPDHKAAMVLFLDRVYVQDFLLHLLEVGFLPDLRAAASLTDMALALNRYLCTAVLPLLLFAGTEHHASLIDSLLHTVKGCSLTKAQRDSIEVCLLSPSMMQHLLRRLVFDVPLLNKMPLKLLTNHYERCWKYYCLPGGASEEELHLSRKLFWGIFDALYEQELFKLALPCLSAVAGALPNFNPQPVDTSNITIPEKLEYFINKYAEHSHDKWSMDKLANGWIYGEIYSDSSKVQPLMKPYKLLSEKEKEIYRWPIKESLKTMLAWGWRIERTREGDAAHGYSPRAIDMSNVTLSRDLHAMAEMMAENYHNIWAKKKKLELESKGGGNHPLLVPYDTLTAKEKAKDREKAQDILKFLQINGYAVSRGYFLSAASRPLCSGGHASNKEKEMVFCKLGVLVRHRISLFGNDATLHILGQTLDARTVMKTGLESVKFLDNAAEDLEKTMENLKQGQFTTTVALLPMLSSLFEHIGQHQFLEDVQVSCYRILTSLYALGVERQRSALGECLAAFAGAAFLETHLDKHNIYSLLSKQRKRAVVACFRMAPLYNLPRHRAVNLFLQGYEKSWIETEEHYFEDKLIEDLAKPRVDPLHQLILLFSRTALTEKCKLEEDFLYMAYADIMAKSCSFEEKEMEKQKLLYQQARLHDRGAAEMVLQTISASKGETGPMVAATLKLGIAILNGGNSTVQQKMLEYLKEKKDVGFFQSLAGLMQSCSVLDLNAFERQNKAEGLGGSGEKVLQDDEFTCDLFRFLQLLCEGHNSDFQNYLRTQTGNNTTVNIIISTVDYLLRVQESISDFYWYYSGKDVIDEQGQRNFSKAIQVAKQVFNTLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMQMKLSQDSSQIELLKELMDLQKDMVVMLLSMLEGNVVNGTIGKQMVDMLVESSNNVEMILKFFDMFLKLKDLTSSDTFKEYDPDGKGVISKRDFHKAMESHKHYTQSETEFLLSCAETDENETLDYEEFVKRFHEPAKDIGFNVAVLLTNLSEHMPNDTRLQTFLELAESVLNYFQPFLGRIEIMGSAKRIERVYFEISESSRTQWEKPQVKESKRQFIFDVVNEGGEKEKMELFVNFCEDTIFEMQLAAQIIAYQQKLLNYFARNFYNMRMLALFVAFAINFILLFYKVVHYVLEESSGYMEPTLRILAILHTVISFFCIIGYYCLKVPLVIFKREKEVARKLEFDGLYITEQPSEDDIKGQWDRLVINTQSFPNNYWDKFVKRKVMDKYGEFYGRDRISELLGNSIDVKYQMWKLGVVFTDNSFLYLAWYMTMSVLGHYNNFFFAAHLLDIAMGFKTLRTILSSVTHNGKQLVLTVGLLAVVVYLYTVVAFNFFRKFYNKSEDGDTPDMKCDDMLTCYMFHMYVGVRAGGGIGDEIEDPAGDEYEIYRIIFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGNDYFDTVPHGFETHTLQEHNLANYLFFLMYLINKDETEHTGQESYVWKMYQERCWEFFPAGDCFRKQYE 6jsd-a1-m1-cB_6jsd-a1-m1-cA Crystal structure of the domain-swapped dimer H434A variant of the C-terminal domain of HtaA from Corynebacterium glutamicum Q8NTB9 Q8NTB9 2.042 X-RAY DIFFRACTION 269 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 162 165 SLGVTQASAQWGVKASFQNYIRGSIANGSWTLNGVGFDNQQFQFSGNSGAVDAENKTGSINFPGSIHFTGAGGILDMQIANIEISFNGNSGELIADVVSSDMDGNSTNYGRTVVGTLNFSALNVSATEASGSASVSLSSQAFADFYTPGTQLDPISFSATLG SLGVTQASAQWGVKASFQNYIRGSIANGSWTLNGVGFDNQQFQFSGNSGAVDAENKTGSINFPGSIHFTGAGGILDMQIANIEISFNGNSGELIADVVSSDMDGNSTNYGRTVVGTLNFSALNVSATEASGSASVSLSQSGSQAFADFYTPGTQLDPISFSATLG 6jsi-a1-m1-cD_6jsi-a1-m1-cE Co-purified Fatty Acid Synthase P19097 P19097 4.7 ELECTRON MICROSCOPY 16 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1321 1321 6jsh-a1-m1-cA_6jsh-a1-m1-cD 6jsh-a1-m1-cA_6jsh-a1-m1-cE 6jsh-a1-m1-cD_6jsh-a1-m1-cE 6jsi-a1-m1-cA_6jsi-a1-m1-cD 6jsi-a1-m1-cA_6jsi-a1-m1-cE 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 6jsj-a1-m1-cC_6jsj-a1-m1-cA Structural analysis of a trimeric assembly of the mitochondrial dynamin-like GTPase Mgm1 P32266 P32266 3.2 X-RAY DIFFRACTION 60 0.997 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 619 625 6jsj-a1-m1-cB_6jsj-a1-m1-cA 6jsj-a1-m1-cC_6jsj-a1-m1-cB MLNLTKQMIEIRTILNKVDSSSAHLTLPSIVVIGSQSSGKSSVLESIVGREFLPKGSRPIELTLVNTPNSNNVTADFPSMRLYNIKDFKEVKRMLMELNMEEPIQLTIKSSRVPDLSLVDLPGYITKIRDLCEKYLTAPNIILAISAADVDLANSSALKASKAADPKGLRTIGVITKLDLVDPEKARSILNNKKYPLSMGYVGVITKTENTNGLKQIVSHQFEKAYFKENKKYFTNCQVSTKKLREKLIKILEISMSNALEPTSTLIQQELDDTSYLFKVEFNDRHLTPKSYLLNNIDVLKLGIKEFQEKFHRNELKSILRAELDQKVLDVLATRYWKDDNLQDLSSSKLESDTDMLYWHKKLELASSGLTKMGIGRLSTMLTTNAILKELDNILESTQLKNHELIKDLVSNTAINVLNSKYYSTADQVENCIKPFKYEIDLEERDWSLARQHSINLIKEELRQCNSRYQAIKNAVGSKKLANVMGYLENESKLLLERGSEAIFLDKRCKVLSFRLKMLKNKCHSTIEKDRCPEVFLSAVSDKLTSTAVLFLNVELLSDFFYNFPIELDRRLTLLGDEQVEMFAKEDPKISRHIELQKRKELLELALEKIDSILVFKKS MLNLTKQMIEIRTILNKVDSSSAHLTLPSIVVIGSQSSGKSSVLESIVGREFLPKMVTRRPIELTLVNTPNSNNVTADFPSMRLYNIKDFKEVKRMLMELNMEEPIQLTIKSSRVPDLSLVDLPGYIQVETKIRDLCEKYLTAPNIILAISAADVDLANSSALKASKAADPKGLRTIGVITKLDLVDPEKARSILNNKKYPLSMGYVGVITKTENTNGLKQIVSHQFEKAYFKENKKYFTNCQVSTKKLREKLIKILEISMSNALEPTSTLIQQELDDTSYLFKVEFNDRHLTPKSYLLNNIDVLKLGIKEFQEKFHRNELKSILRAELDQKVLDVLATRYWKDDNLQDLSSSKLESDTDMLYWHKKLELASSGLTKMGIGRLSTMLTTNAILKELDNILESTQLKNHELIKDLVSNTAINVLNSKYYSTADQVENCIKPFKYEIDLEERDWSLARQHSINLIKEELRQCNSRYQAIKNAVGSKKLANVMGYLENESNKLLLERGSEAIFLDKRCKVLSFRLKMLKNKCHSTIEKDRCPEVFLSAVSDKLTSTAVLFLNVELLSDFFYNFPIELDRRLTLLGDEQVEMFAKEDPKISRHIELQKRKELLELALEKIDSILVFKKS 6jsx-a1-m1-cA_6jsx-a1-m1-cB Structure of a flagellin protein, HpFlaG A0A0B2DZ94 A0A0B2DZ94 2.7 X-RAY DIFFRACTION 92 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 73 73 DQYKPKLELLSERLNEEMKRIGTDINFSYNDTIKGLVVSVKDANGDKVIREIPSKEAVELMQRMRDVIGIIFD DQYKPKLELLSERLNEEMKRIGTDINFSYNDTIKGLVVSVKDANGDKVIREIPSKEAVELMQRMRDVIGIIFD 6jtg-a1-m1-cA_6jtg-a1-m2-cA Structural insights into G domain dimerization and pathogenic mutations of OPA1 O60313 O60313 2.4 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 SLIDMYSEVLDVLSDYDASYNTQDHLPRVVVVGDQSAGKTSVLEMIAQARIFPRGSGEMMTRSPVKVTLSEGPHHVALFKDSSREFDLTKEEDLAALRHEIELRMRKNVKEGCTVSPETISLNVKGPGLQRMVLVDLPGVINTVTSGMAPDTKETIFSISKAYMQNPNAIILCIQDGSVDAERSIVTDLVSQMDPHGRRTIFVLTKVDLAEKNVASPSRIQQIIEGKLFPMKALGYFAVVTGKGNSSESIEAIREYEEEFFQNSKLLKTSMLKAHQVTTRNLSLAVSDCFWKMVRESVEQQADSFKATRFNLEVREIQEKLDAFIEALHQ SLIDMYSEVLDVLSDYDASYNTQDHLPRVVVVGDQSAGKTSVLEMIAQARIFPRGSGEMMTRSPVKVTLSEGPHHVALFKDSSREFDLTKEEDLAALRHEIELRMRKNVKEGCTVSPETISLNVKGPGLQRMVLVDLPGVINTVTSGMAPDTKETIFSISKAYMQNPNAIILCIQDGSVDAERSIVTDLVSQMDPHGRRTIFVLTKVDLAEKNVASPSRIQQIIEGKLFPMKALGYFAVVTGKGNSSESIEAIREYEEEFFQNSKLLKTSMLKAHQVTTRNLSLAVSDCFWKMVRESVEQQADSFKATRFNLEVREIQEKLDAFIEALHQ 6jtl-a1-m1-cA_6jtl-a1-m1-cB Crystal structure of NagZ from Neisseria gonorrhoeae in complex with zinc ion Q5FA94 Q5FA94 2.4 X-RAY DIFFRACTION 59 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 333 337 6jti-a1-m1-cA_6jti-a1-m1-cC 6jti-a2-m1-cF_6jti-a2-m1-cB 6jti-a3-m1-cE_6jti-a3-m1-cD 6jtj-a1-m1-cA_6jtj-a1-m1-cC 6jtj-a2-m1-cF_6jtj-a2-m1-cB 6jtj-a3-m1-cE_6jtj-a3-m1-cD 6jtk-a1-m1-cA_6jtk-a1-m1-cC 6jtk-a2-m1-cF_6jtk-a2-m1-cB 6jtk-a3-m1-cE_6jtk-a3-m1-cD VPHIPRGPVMADIAAFRLTEEEKQRLLDPAIGGIILFRRNFQNIEQLKTLTAEIKALRTPELIIAVDHEGGRVQRFIEGFTRLPAMNVLGQIWDKDGASAAETAAGQVGRVLATELSACGIDLSFTPVLDLDWGNCAVIGNRSFHRNPEAVARLALALQKGLAKGGMKSCGKHFPGHGFVEGDPEDGRSLDELEAADLAPFRIMSREGMAAVMPAHVVYPQVDTKPAGFSEIWLKQILRRDIGFKGVIFSDDLTMGIKERARISFEAGCDIVLVCNRPDLVDELRDGFTIPDNQDLAGRWQYMENSLGHEAVQAVMQTMGFQAAQAFVAGLAS VPHIPRGPVMADIAAFRLTEEEKQRLLDPAIGGIILFRRNFQNIEQLKTLTAEIKALRTPELIIAVDHEGGRVQRFIEGFTRLPAMNVLGQIWDKDGASAAETAAGQVGRVLATELSACGIDLSFTPVLDLDWGNCAVIGNRSFHRNPEAVARLALALQKGLAKGGMKSCGKHFPGHGFVEGDSVLPEDGRSLDELEAADLAPFRIMSREGMAAVMPAHVVYPQVDTKPAGFSEIWLKQILRRDIGFKGVIFSDDLTMGGIKERARISFEAGCDIVLVCNRPDLVDELRDGFTIPDNQDLAGRWQYMENSLGHEAVQAVMQTMGFQAAQAFVAGLAS 6jtz-a1-m1-cB_6jtz-a1-m1-cA Crystal Structure of hRecQ1_D2-Zn-WH containing mutation on beta-hairpin P46063 P46063 2.797 X-RAY DIFFRACTION 112 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 303 NRPNLYYEVRQKPSNTEDFIEDIVKLINGRYKGQSGIIYCFSQKDSEQVTVSLQNLGIHAGAYHANLEPEDKTTVHRKWSANEIQVVVATVAFGMGIDKPDVRFVIHHSMSKSMENYYQESGRAGRDDMKADCILYYGFGDIFRISSMVVMENVGQQKLYEMVSYCQNISKCRRVLMAQHFDACNKMCDNCCKDSAFERKNITEYCRDLIKILKQAEELNEKLTPLKLIDSWMGKGAAKLRVAGVVAPTLPREDLEKIIAHFLIQQYLKEDYSAAISYLKIGPKANLLNNEAHAITMQVTK NRPNLYYEVRQKPSNTEDFIEDIVKLINGRYKGQSGIIYCFSQKDSEQVTVSLQNLGIHAGAYHANLEPEDKTTVHRKWSANEIQVVVATVAFGMGIDKPDVRFVIHHSMSKSMENYYQESGRAGRDDMKADCILYYGFGDIFRISSMVVMENVGQQKLYEMVSYCQNISKCRRVLMAQHFDEVACNKMCDNCCKDSAFERKNITEYCRDLIKILKQAEELNEKLTPLKLIDSWMGKGAAKLRVAGVVAPTLPREDLEKIIAHFLIQQYLKEDYSAAISYLKIGPKANLLNNEAHAITMQVTK 6ju6-a1-m1-cB_6ju6-a1-m1-cA Aspergillus oryzae active-tyrosinase copper-depleted C92A mutant A0A1S9DK56 A0A1S9DK56 1.5 X-RAY DIFFRACTION 71 0.986 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 429 437 3w6q-a1-m1-cB_3w6q-a1-m1-cA 3w6q-a2-m1-cC_3w6q-a2-m1-cD 3w6w-a1-m1-cB_3w6w-a1-m1-cA 6ju7-a1-m1-cA_6ju7-a1-m1-cB 6ju8-a1-m1-cB_6ju8-a1-m1-cA 6ju9-a1-m1-cB_6ju9-a1-m1-cA GSPYLITGIPKDPKHPLPIRKDIDDWYLEQTSAGSNRIQLTLFVEALTVIQNRPLNDQLSYFRLAGIHGAPWTEWDGVPGGQKNPTGFAVHNNYTFPTWHRVYVTLYEQVIYEAMLDFIKQNVPQNGKADWENEAKQWRLPYWDFARFARHGDELRLPILVTMPMVKVLVPGQPGKQLSKPNPLYRFQMQTLMGTLERPYAITSQKTEEHGWSFDLPFDKCQSTTKYGLLENYNADVWADGGQNWLRANLALNEHPWYQNLDGWDSVPTLQDMTFRLLTTGGLNWGEFSSTRYDQAPKNWMNLEAIHNNVHNWVGGFMFSRPGRHDLKLWGAGHMSSVPVAAYDPIFWLHHCNIDRLTAIWQTVNSGSWFNDDKSKVSKDDDLRPFHRFCKVVFFRSDDVKDWRSLNYDYAITKDASRIRKEISDLYGQ SPYLITGIPKDPKHPLPIRKDIDDWYLEQTSAGSNRIQLTLFVEALTVIQNRPLNDQLSYFRLAGIHGAPWTEWDGVPGGQKDSKGNPTGFAVHNNYTFPTWHRVYVTLYEQVIYEAMLDFIKQNVPQNGKADWENEAKQWRLPYWDFARFARHGGDELRLPILVTMPMVKVLVPGQPGKQLSKPNPLYRFQMQTLMGTLERPYAITSQKTEEHGWSFDLPFDKCQSTTKYGLLENYNADVWADGGQNWLRANLALNEHPWYQNLDGWDSVPTLQDMTFRLLTTGGLNWGEFSSTRYDDKKEENWMNLEAIHNNVHNWVGGFMFSRPGRHDLKLWGAGHMSSVPVAAYDPIFWLHHCNIDRLTAIWQTVNSGSWFNDDKSKVSKDDDLRPFHRFCEKTRKVVFFRSDDVKDWRSLNYDYAITKDASRIRKEISDLYG 6juf-a1-m1-cB_6juf-a1-m1-cA SspB crystal structure B5GPM3 B5GPM3 1.587 X-RAY DIFFRACTION 99 1.0 340 344 6lb9-a1-m1-cB_6lb9-a1-m1-cA SRLAEAAHSSFARHETFAPRFGWLHKAYMQVQSNPEAFLADDAPVQLGVGKNMVYAMRYWSRAFKLTREHYGDDTNSRAMLSYPTWEARWLLDEDGADPYLEELGSLWLLHWWLLSSRPGTKSWAPSWYVAFHLAPFSRFTLADLTQVIVRHVNLSFPEGPVEASIAKDVDCITKMYVPAQRLRGEDLLSCPFRELGLMEQVGGSSEWEFTSGSRPSLPARIIAYACLDYAARTTRNAGSISLARLANEPGAPGRAFRIREADIAAALEKVAASHQELQLVEAVGQRSLTFTSGPFDLAWDVLDEQYDNVRSRPNFPTREDWARRYPKLAEAEKRELKQL DSRLAEAAHSSFARHETFAPRFGWLHKAYMQVQSNPEAFLADDAPVQLGVGKNMVYAMRYWSRAFKLTREHYGDDTNSRAMLSYPTWEARWLLDEDGADPYLEELGSLWLLHWWLLSSRPGTKSWAPSWYVAFHLAPFSRFTLADLTQVIVRHVNLSFPEGPVEASIAKDVDCITKMYVPAQRLRGGEDLLSCPFRELGLMEQVGQRGSSEWEFTSGSRPSLPARIIAYACLDYAARTTRNAGSISLARLANEPGAPGRAFRIREADIAAALEKVAASHQELQLVEAVGQRSLTFTSGPFDLAWDVLDEQYDNVRSRPNFPTREDWARRYPKLAEAEKRELKQL 6juv-a1-m1-cA_6juv-a1-m3-cA Crytsal structure of ScpB derived from Pyrococcus yayanosii F8AFC4 F8AFC4 3.043 X-RAY DIFFRACTION 112 1.0 529709 (Pyrococcus yayanosii CH1) 529709 (Pyrococcus yayanosii CH1) 188 188 VDGLLEDKALVEAALFVAGRPLSLKELSKALGIKSLEYLEKLIELIASEYEERKSAIEVVKVLGDKWVQLKQEYSQKVIHLPKPELRAGELKTLALIAYLQPVEQSKIIKLRGSQAYEHIKKLLEGLIYAEPYERTKLLGTTQKFAELYGFPENDPELIKEAFKKVIHSEYADLEKIEKNNRKDKREE VDGLLEDKALVEAALFVAGRPLSLKELSKALGIKSLEYLEKLIELIASEYEERKSAIEVVKVLGDKWVQLKQEYSQKVIHLPKPELRAGELKTLALIAYLQPVEQSKIIKLRGSQAYEHIKKLLEGLIYAEPYERTKLLGTTQKFAELYGFPENDPELIKEAFKKVIHSEYADLEKIEKNNRKDKREE 6juv-a2-m1-cB_6juv-a2-m2-cB Crytsal structure of ScpB derived from Pyrococcus yayanosii F8AFC4 F8AFC4 3.043 X-RAY DIFFRACTION 85 1.0 529709 (Pyrococcus yayanosii CH1) 529709 (Pyrococcus yayanosii CH1) 183 183 DGLLEDKALVEAALFVAGRPLSLKELSKALGIKSLEYLEKLIELIASEYEERKSAIEVVKVLGDKWVQLKQEYSQKVIHLPKPELRAGELKTLALIAYLQPVEQSKIIKLRGSQAYEHIKKLLEGLIYAEPYERTKLLGTTQKFAELYGFPENDPELIKEAFKKVIHSEYADLEKIEKNNRKD DGLLEDKALVEAALFVAGRPLSLKELSKALGIKSLEYLEKLIELIASEYEERKSAIEVVKVLGDKWVQLKQEYSQKVIHLPKPELRAGELKTLALIAYLQPVEQSKIIKLRGSQAYEHIKKLLEGLIYAEPYERTKLLGTTQKFAELYGFPENDPELIKEAFKKVIHSEYADLEKIEKNNRKD 6juy-a1-m1-cD_6juy-a1-m1-cA Crystal Structure of ArgZ, apo structure, an Arginine Dihydrolase from the Ornithine-Ammonia Cycle in Cyanobacteria P74535 P74535 2.97 X-RAY DIFFRACTION 72 0.997 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 623 639 6juy-a1-m1-cB_6juy-a1-m1-cC DDIRILMCPPSQERAVEQWKKLHQTIKECAIVDLVKPAKGWPDMVFTANAGLVLGENVVLSRFYHKERQGEEPYFKAWFEENGFTVYELPQDLPFEGAGDALFDREGRWLWAGYGFRSELDSHPYIAKWLDTEVVSLRLIDERFYHLDTCFCPLSGGYLLYYPPAFDAYSNRVIEMRIPPEKRIIVEELDAVNFACNAVNVNDIIIMNLVSRTLKEKLAEAGFKVRETPLTEFLKAGGAAKCLTLRVTEPILATVSIESRVIRMEGHLLDAGILNQALDLVVENSGSFRVLNFNLGVERNSTSSAEVRVSAPSHQIMEEIMTELIDLGAVPPPQELCDINTETVTQGGVAPDDFYVSTIYPTEVRVNCEWVQVTGQRMDAAIVVTSNPPSARCVLLRDLQVGDRVMVGVEGIRTIRVELLVEQIAWEMRQIRDQGGKIVVTAGPVVIHTGGAQHLSHLVREGYVHALLGGNAIAVHDIEQATMGTSHRHHLKIINSVRRYGGIRQAVEAGFISKGVMYECVKNNIPYCLAGSIRDDGPLPDTEMNLVRAQSRYSELIQGADMILMLSSMLHSIGVGNMTPSGVKMVCVDINPAVVTGSVESVGVVTDVGLFLSLLVRQLQQLT DDIRILMCPPDSSQERAVEQWKKLHQTIKECAIVDLVKPAKGWPDMVFTANAGLVLGENVVLSRFYHKERQGEEPYFKAWFEENGFTVYELPQDLPFEGAGDALFDREGRWLWAGYGFRSELDSHPYIAKWLDTEVVSLRLIDERFYHLDTCFCPLSGGYLLYYPPAFDAYSNRVIEMRIPPEKRIIVEELDAVNFACNAVNVNDIIIMNLVSRTLKEKLAEAGFKVRETPLTEFLKAGGAAKCLTLRVTEPILPDVHATVSIESRVIRMEGHLLDAGILNQALDLVVENSGSFRVLNFNLGVERNSTSSAEVRVSAPSHQIMEEIMTELIDLGAVPPPQELCDINTETVTQGGVAPDDFYVSTIYPTEVRVNCEWVQVTGQRMDAAIVVTSNPPSARCVLLRDLQVGDRVMVGVEGIRTISERRVELLVEQIAWEMRQIRDQGGKIVVTAGPVVIHTGGAQHLSHLVREGYVHALLGGNAIAVHDIEQATMGTSLGVDMGHRHHLKIINSVRRYGGIRQAVEAGFISKGVMYECVKNNIPYCLAGSIRDDGPLPDTEMNLVRAQSRYSELIQGADMILMLSSMLHSIGVGNMTPSGVKMVCVDINPAVVTKLVESVGVVTDVGLFLSLLVRQLQQLTR 6juy-a1-m1-cD_6juy-a1-m1-cB Crystal Structure of ArgZ, apo structure, an Arginine Dihydrolase from the Ornithine-Ammonia Cycle in Cyanobacteria P74535 P74535 2.97 X-RAY DIFFRACTION 22 0.994 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 623 637 6juy-a1-m1-cA_6juy-a1-m1-cC DDIRILMCPPSQERAVEQWKKLHQTIKECAIVDLVKPAKGWPDMVFTANAGLVLGENVVLSRFYHKERQGEEPYFKAWFEENGFTVYELPQDLPFEGAGDALFDREGRWLWAGYGFRSELDSHPYIAKWLDTEVVSLRLIDERFYHLDTCFCPLSGGYLLYYPPAFDAYSNRVIEMRIPPEKRIIVEELDAVNFACNAVNVNDIIIMNLVSRTLKEKLAEAGFKVRETPLTEFLKAGGAAKCLTLRVTEPILATVSIESRVIRMEGHLLDAGILNQALDLVVENSGSFRVLNFNLGVERNSTSSAEVRVSAPSHQIMEEIMTELIDLGAVPPPQELCDINTETVTQGGVAPDDFYVSTIYPTEVRVNCEWVQVTGQRMDAAIVVTSNPPSARCVLLRDLQVGDRVMVGVEGIRTIRVELLVEQIAWEMRQIRDQGGKIVVTAGPVVIHTGGAQHLSHLVREGYVHALLGGNAIAVHDIEQATMGTSHRHHLKIINSVRRYGGIRQAVEAGFISKGVMYECVKNNIPYCLAGSIRDDGPLPDTEMNLVRAQSRYSELIQGADMILMLSSMLHSIGVGNMTPSGVKMVCVDINPAVVTGSVESVGVVTDVGLFLSLLVRQLQQLT DDIRILMCPPDSQERAVEQWKKLHQTIKECAIVDLVKPAKGWPDMVFTANAGLVLGENVVLSRFYHKERQGEEPYFKAWFEENGFTVYELPQDLPFEGAGDALFDREGRWLWAGYGFRSELDSHPYIAKWLDTEVVSLRLIDERFYHLDTCFCPLSGGYLLYYPPAFDAYSNRVIEMRIPPEKRIIVEELDAVNFACNAVNVNDIIIMNLVSRTLKEKLAEAGFKVRETPLTEFLKAGGAAKCLTLRVTEPILPDVHATVSIESRVIRMEGHLLDAGILNQALDLVVENSGSFRVLNFNLGVERNSTSSAEVRVSAPSHQIMEEIMTELIDLGAVPPPQELCDINTETVTQGGVAPDDFYVSTIYPTEVRVNCEWVQVTGQRMDAAIVVTSNPPSARCVLLRDLQVGDRVMVGVEGIRTIKVSSERRVELLVEQIAWEMRQIRDQGGKIVVTAGPVVIHTGGAQHLSHLVREGYVHALLGGNAIAVHDIEQATMGTSLGHRHHLKIINSVRRYGGIRQAVEAGFISKGVMYECVKNNIPYCLAGSIRDDGPLPDTEMNLVRAQSRYSELIQGADMILMLSSMLHSIGVGNMTPSGVKMVCVDINPAVVTKLSDSVGVVTDVGLFLSLLVRQLQQLTR 6juy-a1-m1-cD_6juy-a1-m1-cC Crystal Structure of ArgZ, apo structure, an Arginine Dihydrolase from the Ornithine-Ammonia Cycle in Cyanobacteria P74535 P74535 2.97 X-RAY DIFFRACTION 128 0.995 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 623 656 6juy-a1-m1-cB_6juy-a1-m1-cA DDIRILMCPPSQERAVEQWKKLHQTIKECAIVDLVKPAKGWPDMVFTANAGLVLGENVVLSRFYHKERQGEEPYFKAWFEENGFTVYELPQDLPFEGAGDALFDREGRWLWAGYGFRSELDSHPYIAKWLDTEVVSLRLIDERFYHLDTCFCPLSGGYLLYYPPAFDAYSNRVIEMRIPPEKRIIVEELDAVNFACNAVNVNDIIIMNLVSRTLKEKLAEAGFKVRETPLTEFLKAGGAAKCLTLRVTEPILATVSIESRVIRMEGHLLDAGILNQALDLVVENSGSFRVLNFNLGVERNSTSSAEVRVSAPSHQIMEEIMTELIDLGAVPPPQELCDINTETVTQGGVAPDDFYVSTIYPTEVRVNCEWVQVTGQRMDAAIVVTSNPPSARCVLLRDLQVGDRVMVGVEGIRTIRVELLVEQIAWEMRQIRDQGGKIVVTAGPVVIHTGGAQHLSHLVREGYVHALLGGNAIAVHDIEQATMGTSHRHHLKIINSVRRYGGIRQAVEAGFISKGVMYECVKNNIPYCLAGSIRDDGPLPDTEMNLVRAQSRYSELIQGADMILMLSSMLHSIGVGNMTPSGVKMVCVDINPAVVTGSVESVGVVTDVGLFLSLLVRQLQQLT DIRILMCPPDHYDVDYVINPWMEGNIHKSSQERAVEQWKKLHQTIKECAIVDLVKPAKGWPDMVFTANAGLVLGENVVLSRFYHKERQGEEPYFKAWFEENGFTVYELPQDLPFEGAGDALFDREGRWLWAGYGFRSELDSHPYIAKWLDTEVVSLRLIDERFYHLDTCFCPLSGGYLLYYPPAFDAYSNRVIEMRIPPEKRIIVEELDAVNFACNAVNVNDIIIMNLVSRTLKEKLAEAGFKVRETPLTEFLKAGGAAKCLTLRVTEPILPDVHATVSIESRVIRMEGHLLDAGILNQALDLVVENSGSFRVLNFNLGVERNSTSSAEVRVSAPSHQIMEEIMTELIDLGAVPPPQELCDINTETVTQGGVAPDDFYVSTIYPTEVRVNCEWVQVTGQRMDAAIVVTSNPPSARCVLLRDLQVGDRVMVGVEGIRTIKSSERRVELLVEQIAWEMRQIRDQGGKIVVTAGPVVIHTGGAQHLSHLVREGYVHALLGGNAIAVHDIEQATMGTSLGHRHHLKIINSVRRYGGIRQAVEAGFISKGVMYECVKNNIPYCLAGSIRDDGPLPDTEMNLVRAQSRYSELIQGADMILMLSSMLHSIGVGNMTPSGVKMVCVDINPAVVTKLVESVGVVTDVGLFLSLLVRQLQQLTRPY 6jvu-a1-m1-cE_6jvu-a1-m1-cB Crystal structure of Klebsiella pneumoniae CysE in complex with L-cysteine A6TFK2 A6TFK2 2.8 X-RAY DIFFRACTION 32 1.0 1328388 (Klebsiella pneumoniae MGH 78578) 1328388 (Klebsiella pneumoniae MGH 78578) 251 253 1t3d-a1-m1-cA_1t3d-a1-m2-cC 1t3d-a1-m1-cB_1t3d-a1-m2-cB 1t3d-a1-m1-cC_1t3d-a1-m2-cA 6jvu-a1-m1-cC_6jvu-a1-m1-cD 6jvu-a1-m1-cF_6jvu-a1-m1-cA 7e3y-a1-m1-cB_7e3y-a1-m2-cC 7e3y-a1-m1-cC_7e3y-a1-m2-cB DIVWNNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWTQGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPESDKPAMDMD ELDIVWNNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWTQGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPESDKPAMDMD 6jvu-a1-m1-cF_6jvu-a1-m1-cB Crystal structure of Klebsiella pneumoniae CysE in complex with L-cysteine A6TFK2 A6TFK2 2.8 X-RAY DIFFRACTION 22 1.0 1328388 (Klebsiella pneumoniae MGH 78578) 1328388 (Klebsiella pneumoniae MGH 78578) 251 253 1t3d-a1-m1-cA_1t3d-a1-m2-cA 1t3d-a1-m1-cB_1t3d-a1-m2-cC 1t3d-a1-m1-cC_1t3d-a1-m2-cB 6jvu-a1-m1-cA_6jvu-a1-m1-cD 6jvu-a1-m1-cE_6jvu-a1-m1-cC 7e3y-a1-m1-cA_7e3y-a1-m2-cC 7e3y-a1-m1-cB_7e3y-a1-m2-cB 7e3y-a1-m1-cC_7e3y-a1-m2-cA LDIVWNNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWTQGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPESDKPAMDM ELDIVWNNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWTQGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPESDKPAMDMD 6jvv-a1-m1-cA_6jvv-a1-m1-cB Crystal structure of maleylpyruvate hydrolase from Sphingobium.sp SYK-6 G2IPX5 G2IPX5 1.51 X-RAY DIFFRACTION 86 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 259 266 6jvw-a1-m1-cA_6jvw-a1-m1-cB MRLARFDGGRLGVVIGDEIADITALTGADPAQWPDMNMIRLIRDFEGLRGAIEAALPGLARIPLAQVSLETPVPWPNKIIAYPVNYHAGFFLKPGSALSGPTDPVVLPAVPGREVHHESELAIIIGKTCRSVAREDWKDVVFGYACLLDMVVRGRVFRKAYDTFCPVGPWITTADAVNDPATLDMKLWVNDDLRQKANTRDLVLDIPGMIATASAVMTLQPGDIIATGTPEGVGPVVDGDRIRIVIDQVGEMAVDVVQG MRLARFDGGRLGVVIGDEIADITALTGADPAQWPDMNMIRLIRDFEGLRGAIEAALPGLARIPLAQVSLETPVPWPNKIIAYPVNYHAHGRENQGFFLKPGSALSGPTDPVVLPAVPGREVHHESELAIIIGKTCRSVAREDWKDVVFGYACLLDMVVRGRRVFRKAYDTFCPVGPWITTADAVNDPATLDMKLWVNDDLRQKANTRDLVLDIPGMIATASAVMTLQPGDIIATGTPEGVGPVVDGDRIRIVIDQVGEMAVDVVQG 6jwk-a1-m1-cA_6jwk-a1-m1-cB Crystal structure of maleylpyruvate isomerase from Pseudomonas aeruginosa PAO1 Q9I109 Q9I109 1.86 X-RAY DIFFRACTION 91 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 191 193 MQLYSFFNSSTSYRVRIALALKGLDYQVVPLPTLVDADGRRFSQSLAIIDYLDAVQPEPRLIPLDPLHRAQALELALLVACDIHPLNNVRVLKYLTQVLGIDAEDRQRWYAHWVAEGLAAAETLLNRHRRGAFFAGAAAGIVECCLVPQLANARRMGCDLAPYPALLELEGRCLALEAFQRASPERQPDYL MQLYSFFNSSTSYRVRIALALKGLDYQVVPVALPTLVDADGRRFSQSLAIIDYLDAVQPEPRLIPLDPLHRAQALELALLVACDIHPLNNVRVLKYLTQVLGIDAEDRQRWYAHWVAEGLAAAETLLNRHRRGAFFAGAAAGIVECCLVPQLANARRMGCDLAPYPALLELEGRCLALEAFQRASPERQPDYL 6jws-a1-m1-cA_6jws-a1-m1-cB Crystal structure of Plasmodium falciparum HPPK-DHPS A437G with Pteroate Q25704 Q25704 2.3 X-RAY DIFFRACTION 137 0.996 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 551 589 6jwq-a1-m1-cA_6jwq-a1-m1-cB 6jwt-a1-m1-cA_6jwt-a1-m1-cB 6jww-a1-m1-cA_6jww-a1-m1-cB 6jwz-a1-m1-cA_6jwz-a1-m1-cB 6kcm-a1-m1-cA_6kcm-a1-m1-cB QELILSEENKTNIAVLNLGTNDRRNAVLILETALHLVEKYLGKIINTSYLYETVPVNYINELMQNLEESKYEENKELIDKCEEYETFLKNGKVDNSILKEVNVENYLLECNNIIVKNDEIMKSYFYNLTVVVKTFVNDPLSMLVVIKYIEELMKIIDIDILFFNDFTIFMKNIKLEKNMIYKILSKYIHLEDPQEIINNMVDNIEFLSIPHVYTTHRYSILLCLNDMIPEYKHNVLNNTIRCLYNKYVSRMKEQYNINIKENNKRIYVLKDRISYLKEKTNIVGILNVNVEPKRAVQRMFEMINEGASVIDIGGESSGPFVIPNPKISERDLVVPVLQLFQKEWNDIKNKIVKCDAKPIISIDTINYNVFKECVDNDLVDILNDISACTNNPEIIKLLKKKNKFYSVVLMHKRGNPHTMDKLTNYDNLVYDIKNYLEQRLNFLVLNGIPRYRILFDIGLGFAKKHDQSIKLLQNIHVYDEYPLFIGYSRKRFIAHCMNDDKDQLLYQKNICGGLAIASYSYYKKVDLIRVHDVLETKSVLDVLTKIDQVKD QELILSEENKTNIAVLNLGTNDRRNAVLILETALHLVEKYLGKIINTSYLYETVPEYIVNYINELMQNLEESKYEENKELIDKCEEYETFLKNGKVDNSILKEVNVENYLLECNNIIVKNDEIMKNSYFYNLTVVVKTFVNDPLSMLVVIKYIEELMKIIDIDILFFNDFTIFMKNIKLEKNMIYKILSKYIHLEPQEIINNMVDNIEFLSIPHVYTTHRYSILLCLNDMIPEYKHNVLNNTIRCLYNKYVSRMKEQYNINIKENNKRIYVLKDRISYLKEKTNIVGILNVNYDSFSDGGIFVEPKRAVQRMFEMINEGASVIDIGGESSGPFVIPNPKISERDLVVPVLQLFQKEWNDIKNKIVKCDAKPIISIDTINYNVFKECVDNDLVDILNDISACTNNPEIIKLLKKKNKFYSVVLMHKRGNPHTMDKLTNYDNLVYDIKNYLEQRLNFLVLNGIPRYRILFDIGLGFAKKHDQSIKLLQNIHVYDEYPLFIGYSRKRFIAHCMNHNWMFQMNYMRKDKDQLLYQKNICGGLAIASYSYYKKVDLIRVHDVLETKSVLDVLTKIDQVKDPNSSSVDKLAAALE 6jx2-a2-m1-cD_6jx2-a2-m1-cC Crystal structure of Ketol-acid reductoisomerase from Corynebacterium glutamicum Q57179 Q57179 2.6 X-RAY DIFFRACTION 394 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 322 324 6jx2-a1-m1-cA_6jx2-a1-m1-cB IELLYDADADLSLIQGRKVAIVGYGSQGHAHSQNLRDSGVEVVIGLREGSKSAEKAKEAGFEVKTTAEAAAWADVIMLLAPDTSQAEIFTNDIEPNLNAGDALLFGHGLNIHFDLIKPADDIIVGMVAPKGPGHLVRRQFVDGKGVPCLIAVDQDPTGTAQALTLSYAAAIGGARAGVIPTTFEAETVTDLFGEQAVLCGGTEELVKVGFEVLTEAGYEPEMAYFEVLHELKLIVDLMFEGGISNMNYSVSDTAEFGGYLSGPRVIDADTKSRMKDILTDIQDGTFTKRLIANVENGNTELEGLRASYNNHPIEETGAKLRD AIELLYDADADLSLIQGRKVAIVGYGSQGHAHSQNLRDSGVEVVIGLREGSKSAEKAKEAGFEVKTTAEAAAWADVIMLLAPDTSQAEIFTNDIEPNLNAGDALLFGHGLNIHFDLIKPADDIIVGMVAPKGPGHLVRRQFVDGKGVPCLIAVDQDPTGTAQALTLSYAAAIGGARAGVIPTTFEAETVTDLFGEQAVLCGGTEELVKVGFEVLTEAGYEPEMAYFEVLHELKLIVDLMFEGGISNMNYSVSDTAEFGGYLSGPRVIDADTKSRMKDILTDIQDGTFTKRLIANVENGNTELEGLRASYNNHPIEETGAKLRDL 6jx6-a1-m1-cC_6jx6-a1-m1-cA Tetrameric form of Smac Q9NR28 Q9NR28 2.805 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 153 MRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELRQKTQE ALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELRQKTQEEG 6jx7-a1-m1-cB_6jx7-a1-m1-cC Cryo-EM structure of spike protein of feline infectious peritonitis virus strain UU4 P10104 P10104 3.31 ELECTRON MICROSCOPY 395 1.0 454952 (Feline coronavirus UU4) 454952 (Feline coronavirus UU4) 1245 1245 6jx7-a1-m1-cA_6jx7-a1-m1-cB 6jx7-a1-m1-cA_6jx7-a1-m1-cC YCDHEDNCGWYNFVYNNKVGPNAKYSYINTQNLNIPNVHGVYFDVREHNSDGVWDQIDRVGLLIAIHGTSHYSLLMVLQDGVEASQPHVAVKICHWNPGNISTYHQFDVNLGDGGQCVFNQRFSLDTVLTANDFYGFQWTDTYVDIYLGGTITKVWVVNDWSVVEASISSHWNALNYGYYIQFVNRTTYYAYNSTGGSNYTHLQLTECHTDYCAGYAKNVFVPIDGKIPEGFSFSNWFLLTDKSTLVQGRVLSSQPVFVQCLRPVPTWSNNTAVVHFKNDVFCPNVTADVLRFNLNFSDTDVYTDSTTDDQLHFTFEDNTTASITCYSSNSYLCFANFSHSSVSRQFLGILPPTVREFAFGRDGSIFVNGYKYFSLQPIKSVNFSISSVENYGFWTIAYTNYTDVMVDVNGTVITRLFYCDSPLNRIKCQQLKHELPDGFYSASMLVKKDLPKTFVTMPQFYNWMNVTLHVVLNDIEKKADIILAGAPELASLADIHFEIAQANGSVVNVTSVCVQARQLALFYKYTSLQGLYTYSNLVQLQNYDCPFSPQQFNNYLQFETLCFDVSPAVAGCKWSLVHDVKWRTQFATITVSYKDGAMITTMPKAQLGFQDISNIVKDECTDYNIYGFQGTGIIRSTTSRLVAGLYYTSASGDLLGFKISTTGEIFTVVPCDLTAQAAVINDEIVGAITATNQTDLFEFVNHSTVNTYTMPQFYYITKWNNGTSSNCTSVITYSSFAICNTGEIKYVNVTHVEIVDDSVGVIKPVSTGNITIPKNFTVAVQAEYVQIQVKPVAVDCAKYVCNGNRHCLNLLTQYTSACQTIENSLNLGARLESLMLNDMITVSDRSLEFATVDKFNTTALGGEKLGGLYFDGLSSLLPPRVGMRSAVEDLLFNKVVTSGLGTVDDDYKKCSAGTDVADLVCAQYYNGIMVLPGVVDYNKMAMYTASLIGGMALGSITSAVAVPFSMQVQARLNYVALQTDVLQENQKILANAFNNAIGNITLALGKVSNAITTVSDGFNSMASALTKIQSVVNQQGEALSHLISQLQKNFQAISSSIAEIYNRLEKVEADAQVDRLITGRLAALNAYVAQTLTQYAEVKASRQLAMEKVNECVKSQSDRYGFCGNGTHLFSLVNSAPDGLLFFHTVLLPTEWEEVTAWSGICVNDTYAYLLKDFDHSIFSYNGTYMVTPRNMFQPRKPQMSDFVQITSCEVTFLNTTHTTFQEIVIDYIDINKTIADMLEQYHS YCDHEDNCGWYNFVYNNKVGPNAKYSYINTQNLNIPNVHGVYFDVREHNSDGVWDQIDRVGLLIAIHGTSHYSLLMVLQDGVEASQPHVAVKICHWNPGNISTYHQFDVNLGDGGQCVFNQRFSLDTVLTANDFYGFQWTDTYVDIYLGGTITKVWVVNDWSVVEASISSHWNALNYGYYIQFVNRTTYYAYNSTGGSNYTHLQLTECHTDYCAGYAKNVFVPIDGKIPEGFSFSNWFLLTDKSTLVQGRVLSSQPVFVQCLRPVPTWSNNTAVVHFKNDVFCPNVTADVLRFNLNFSDTDVYTDSTTDDQLHFTFEDNTTASITCYSSNSYLCFANFSHSSVSRQFLGILPPTVREFAFGRDGSIFVNGYKYFSLQPIKSVNFSISSVENYGFWTIAYTNYTDVMVDVNGTVITRLFYCDSPLNRIKCQQLKHELPDGFYSASMLVKKDLPKTFVTMPQFYNWMNVTLHVVLNDIEKKADIILAGAPELASLADIHFEIAQANGSVVNVTSVCVQARQLALFYKYTSLQGLYTYSNLVQLQNYDCPFSPQQFNNYLQFETLCFDVSPAVAGCKWSLVHDVKWRTQFATITVSYKDGAMITTMPKAQLGFQDISNIVKDECTDYNIYGFQGTGIIRSTTSRLVAGLYYTSASGDLLGFKISTTGEIFTVVPCDLTAQAAVINDEIVGAITATNQTDLFEFVNHSTVNTYTMPQFYYITKWNNGTSSNCTSVITYSSFAICNTGEIKYVNVTHVEIVDDSVGVIKPVSTGNITIPKNFTVAVQAEYVQIQVKPVAVDCAKYVCNGNRHCLNLLTQYTSACQTIENSLNLGARLESLMLNDMITVSDRSLEFATVDKFNTTALGGEKLGGLYFDGLSSLLPPRVGMRSAVEDLLFNKVVTSGLGTVDDDYKKCSAGTDVADLVCAQYYNGIMVLPGVVDYNKMAMYTASLIGGMALGSITSAVAVPFSMQVQARLNYVALQTDVLQENQKILANAFNNAIGNITLALGKVSNAITTVSDGFNSMASALTKIQSVVNQQGEALSHLISQLQKNFQAISSSIAEIYNRLEKVEADAQVDRLITGRLAALNAYVAQTLTQYAEVKASRQLAMEKVNECVKSQSDRYGFCGNGTHLFSLVNSAPDGLLFFHTVLLPTEWEEVTAWSGICVNDTYAYLLKDFDHSIFSYNGTYMVTPRNMFQPRKPQMSDFVQITSCEVTFLNTTHTTFQEIVIDYIDINKTIADMLEQYHS 6jxn-a1-m1-cA_6jxn-a1-m1-cD Crystal Structure of Indigo reductase from Bacillus smithii type strain DSM 4216 G9QLG5 G9QLG5 1.97 X-RAY DIFFRACTION 83 1.0 1479 (Bacillus smithii) 1479 (Bacillus smithii) 211 212 6jxn-a2-m1-cC_6jxn-a2-m1-cB 6jxs-a1-m1-cA_6jxs-a1-m1-cC 6jxs-a2-m1-cB_6jxs-a2-m1-cD HMAKVLYITAHPLDETQSYSMAVGKAFIDTYKEVNPNDEVIHIDLYKENIPQIDADVFSGWGKLQSGKGFEELTAEEKAKVGRLAELSDQFVAADKYVFVTPMWNFSFPPVMKAYIDSVAVAGKTFKYTEGSVGLLTDKKALHIQASGGIYSEGPAAEMEMGHRYLQAIMNFFGVPSFEGLFVEGQNAMPDKAQEIKEKAIARAKDLAHTF HMAKVLYITAHPLDETQSYSMAVGKAFIDTYKEVNPNDEVIHIDLYKENIPQIDADVFSGWGKLQSGKGFEELTAEEKAKVGRLAELSDQFVAADKYVFVTPMWNFSFPPVMKAYIDSVAVAGKTFKYTEQGSVGLLTDKKALHIQASGGIYSEGPAAEMEMGHRYLQAIMNFFGVPSFEGLFVEGQNAMPDKAQEIKEKAIARAKDLAHTF 6jy1-a1-m1-cA_6jy1-a1-m2-cA Crystal Structure of a Group II pyridoxal dependent decarboxylase, LLP-bound form from Methanocaldococcus jannaschii at 1.72 A Q60358 Q60358 1.72 X-RAY DIFFRACTION 302 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 389 389 3f9t-a1-m1-cB_3f9t-a1-m1-cA 6ldr-a1-m1-cA_6ldr-a1-m2-cA 6lds-a1-m1-cA_6lds-a1-m2-cA 6ldt-a1-m1-cA_6ldt-a1-m2-cA 6m4y-a1-m1-cA_6m4y-a1-m2-cA RNMQEKGVSEKEILEELKKYRSLDLKYEDGNIFGSMCSNVLPITRKIVDIFLETNLGDPGLFKGTKLLEEKAVALLGSLLNNKDAYGHIVSGGTEANLMALRCIKNIWREKRRKGLSKNEHPKIIVPITAHFSFEKGREMMDLEYIYAPIKEDYTIDEKFVKDAVEDYDVDGIIGIAGTTELGTIDNIEELSKIAKENNIYIHVDAAFGGLVIPFLDDKYKKKGVNYKFDFSLGVDSITIDPHMGHCPIPSGGILFKDIGYKRYLDVDAPYLQATILGTRVGFGGACTYAVLRYLGREGQRKIVNECMENTLYLYKKLKENNFKPVIEPILNIVAIEDEDYKEVCKKLRDRGIYVSVCNCVKALRIVVMPHIKREHIDNFIEILNSIKR RNMQEKGVSEKEILEELKKYRSLDLKYEDGNIFGSMCSNVLPITRKIVDIFLETNLGDPGLFKGTKLLEEKAVALLGSLLNNKDAYGHIVSGGTEANLMALRCIKNIWREKRRKGLSKNEHPKIIVPITAHFSFEKGREMMDLEYIYAPIKEDYTIDEKFVKDAVEDYDVDGIIGIAGTTELGTIDNIEELSKIAKENNIYIHVDAAFGGLVIPFLDDKYKKKGVNYKFDFSLGVDSITIDPHMGHCPIPSGGILFKDIGYKRYLDVDAPYLQATILGTRVGFGGACTYAVLRYLGREGQRKIVNECMENTLYLYKKLKENNFKPVIEPILNIVAIEDEDYKEVCKKLRDRGIYVSVCNCVKALRIVVMPHIKREHIDNFIEILNSIKR 6jy5-a1-m1-cB_6jy5-a1-m1-cD Structure of CsoS4B from Halothiobacillus neapolitanus O85044 O85044 2.15 X-RAY DIFFRACTION 81 1.0 927 (Halothiobacillus neapolitanus) 927 (Halothiobacillus neapolitanus) 82 82 6jy5-a1-m1-cA_6jy5-a1-m1-cC 6jy5-a1-m1-cA_6jy5-a1-m1-cD 6jy5-a1-m1-cE_6jy5-a1-m1-cB 6jy5-a1-m1-cE_6jy5-a1-m1-cC MEVMRVRSDLIATRRIPGLKNISLRVMEDATGKVSVACDPIGVPEGCWVFTISGSAARFGVGDFEILTDLTIGGIIDLEHHH MEVMRVRSDLIATRRIPGLKNISLRVMEDATGKVSVACDPIGVPEGCWVFTISGSAARFGVGDFEILTDLTIGGIIDLEHHH 6jyg-a1-m1-cB_6jyg-a1-m1-cF Crystal Structure of L-threonine dehydrogenase from Phytophthora infestans D0N3N0 D0N3N0 2.31 X-RAY DIFFRACTION 19 1.0 403677 (Phytophthora infestans T30-4) 403677 (Phytophthora infestans T30-4) 306 307 6jyg-a1-m1-cE_6jyg-a1-m1-cA SRILVTGGTGQIGMELVPYMRQLFGADTIVNSDIKAPGDGNFVYCDVQDRDSMARIVTEQGVDTIVHMASLLSAVGEANPSLALSVNTRGIQNVLELAKQYQLRVFAPSTIAVFGPSTPQDETPDTTIMRPTTMYGLTKVHVELLGEYYYNKFGVDFRSVRYPGVISSEALPGGGTTDYAVEIFYEALKHGKYTCFLNRDAKLPMMYMPDCLKATMGLINAPNDCLSQRTYNITAVSFTPEEIVASIQKVMPSFQCDYKPDFRQQIAETWPRSIDDSIARKDWNWQHDFDLDSMVEDMLVKLDAKL SRILVTGGTGQIGMELVPYMRQLFGADTIVNSDIKAPGRDGNFVYCDVQDRDSMARIVTEQGVDTIVHMASLLSAVGEANPSLALSVNTRGIQNVLELAKQYQLRVFAPSTIAVFGPSTPQDETPDTTIMRPTTMYGLTKVHVELLGEYYYNKFGVDFRSVRYPGVISSEALPGGGTTDYAVEIFYEALKHGKYTCFLNRDAKLPMMYMPDCLKATMGLINAPNDCLSQRTYNITAVSFTPEEIVASIQKVMPSFQCDYKPDFRQQIAETWPRSIDDSIARKDWNWQHDFDLDSMVEDMLVKLDAKL 6jyg-a1-m1-cD_6jyg-a1-m1-cF Crystal Structure of L-threonine dehydrogenase from Phytophthora infestans D0N3N0 D0N3N0 2.31 X-RAY DIFFRACTION 61 1.0 403677 (Phytophthora infestans T30-4) 403677 (Phytophthora infestans T30-4) 307 307 6jyg-a1-m1-cE_6jyg-a1-m1-cC SRILVTGGTGQIGMELVPYMRQLFGADTIVNSDIKAPGRDGNFVYCDVQDRDSMARIVTEQGVDTIVHMASLLSAVGEANPSLALSVNTRGIQNVLELAKQYQLRVFAPSTIAVFGPSTPQDETPDTTIMRPTTMYGLTKVHVELLGEYYYNKFGVDFRSVRYPGVISSEALPGGGTTDYAVEIFYEALKHGKYTCFLNRDAKLPMMYMPDCLKATMGLINAPNDCLSQRTYNITAVSFTPEEIVASIQKVMPSFQCDYKPDFRQQIAETWPRSIDDSIARKDWNWQHDFDLDSMVEDMLVKLDAKL SRILVTGGTGQIGMELVPYMRQLFGADTIVNSDIKAPGRDGNFVYCDVQDRDSMARIVTEQGVDTIVHMASLLSAVGEANPSLALSVNTRGIQNVLELAKQYQLRVFAPSTIAVFGPSTPQDETPDTTIMRPTTMYGLTKVHVELLGEYYYNKFGVDFRSVRYPGVISSEALPGGGTTDYAVEIFYEALKHGKYTCFLNRDAKLPMMYMPDCLKATMGLINAPNDCLSQRTYNITAVSFTPEEIVASIQKVMPSFQCDYKPDFRQQIAETWPRSIDDSIARKDWNWQHDFDLDSMVEDMLVKLDAKL 6jyi-a1-m1-cB_6jyi-a1-m1-cA Crystal structure of the PadR-like transcriptional regulator BC1756 from Bacillus cereus Q81F45 Q81F45 1.92 X-RAY DIFFRACTION 154 0.981 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 159 166 KGRDVVLGLLQKELSGYDIKIVFEDVFTHFFDGSFGIYPTLRQLENEGKIKKEVVKKYFITDEGREEFYQYQTPVEKDVLRSDFLRYFGNYSDDVTIKKWIKDEIERKEAYIADLRLKYEKWRVGITFVEEISLDVGIASYSAQVETLKKKLEELEAKE GSAKDPKGRDVVLGLLQKELSGYDIKIVFEDVFTHFFDGSFGIYPTLRQLENEGKIKKEVVQKPNKKYFITDEGREEFYQYQTPVEKDVLRSDFLRYFGNYSDDVTIKKWIKDEIERKEAYIADLRLKYEKWRVGITFVEEISLDVGIASYSAQVETLKKKLEELE 6jyr-a1-m1-cA_6jyr-a1-m1-cB GII.13/21 noroviruses recognize glycans with a terminal beta-galactose via an unconventional glycan binding site A0A509GV48 A0A509GV48 1.501 X-RAY DIFFRACTION 179 1.0 308 308 5zv9-a1-m1-cA_5zv9-a1-m1-cB 5zvc-a1-m1-cA_5zvc-a1-m1-cB 6jyn-a1-m1-cA_6jyn-a1-m1-cB 6jyn-a2-m1-cC_6jyn-a2-m1-cD 6jyo-a1-m1-cA_6jyo-a1-m1-cC 6jyo-a2-m1-cD_6jyo-a2-m1-cB 6jyr-a2-m1-cC_6jyr-a2-m2-cD 6jys-a1-m1-cA_6jys-a1-m1-cD 6jys-a2-m1-cB_6jys-a2-m2-cC TKSFTLPILTISEMTNSRFPIPIEQLYTAPNETNVVQCQNGRCTLDGELQGTTQLLSSAICSYRGRTLANNDSWDQNLLQLSYPNGASYDPTDEVPAPLGTQDFSGILYGVLTQDNVTEGTGEAKNAKGIYISTTSGKFTPKIGSIGLHSITGDVHHNQQSRFTPVGIAVNENTPFKQWVLPHYSGSLALNTNLAPAVAPTFPGEQLLFFRSRVPCVQGLHGQDAFIDCLLPQEWVNHFYQEAAPSQTDVALIRFVNPDTGRTLFEAKLHRSGFITVSHTGNYPLVIPPNGHFRFDSWVNQFYSLAPM TKSFTLPILTISEMTNSRFPIPIEQLYTAPNETNVVQCQNGRCTLDGELQGTTQLLSSAICSYRGRTLANNDSWDQNLLQLSYPNGASYDPTDEVPAPLGTQDFSGILYGVLTQDNVTEGTGEAKNAKGIYISTTSGKFTPKIGSIGLHSITGDVHHNQQSRFTPVGIAVNENTPFKQWVLPHYSGSLALNTNLAPAVAPTFPGEQLLFFRSRVPCVQGLHGQDAFIDCLLPQEWVNHFYQEAAPSQTDVALIRFVNPDTGRTLFEAKLHRSGFITVSHTGNYPLVIPPNGHFRFDSWVNQFYSLAPM 6jyx-a1-m1-cA_6jyx-a1-m1-cB Structure of CbpJ from Streptococcus Pneumoniae TIGR4 A0A0H2UNH0 A0A0H2UNH0 2 X-RAY DIFFRACTION 72 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 292 293 GWQFVQENGRTYYKKGDLKETYWRVIDGKYYYFDSLSGEMVVGWQYIPFPSKGSTIGPYPNGIRLEGFPKSEWYYFDKNGVLQEFVGWKTLEIKTKDSVGRKYGEKRKRYYTNYYFNQNHSLETGWLYDQSNWYYLAKTEINGENYLGGERRAGWINDDSTWYYLDPTTGIMQTGWQYLGNKWYYLRSSGAMATGWYQEGTTWYYLDHPNGDMKTGWQNLGNKWYYLRSSGAMATGWYQDGSTWYYLNAGNGDMKTGWFQVNGNWYYAYSSGALAVNTTVDGYSVNYNGEWV GWQFVQENGRTYYKKGDLKETYWRVIDGKYYYFDSLSGEMVVGWQYIPFPSKGSTIGPYPNGIRLEGFPKSEWYYFDKNGVLQEFVGWKTLEIKTKDSVGRKYGEKRKRYYTNYYFNQNHSLETGWLYDQSNWYYLAKTEINGENYLGGERRAGWINDDSTWYYLDPTTGIMQTGWQYLGNKWYYLRSSGAMATGWYQEGTTWYYLDHPNGDMKTGWQNLGNKWYYLRSSGAMATGWYQDGSTWYYLNAGNGDMKTGWFQVNGNWYYAYSSGALAVNTTVDGYSVNYNGEWVR 6jyy-a1-m1-cA_6jyy-a1-m1-cC Crystal structure of the 5-(Hydroxyethyl)-methylthiazole Kinase ThiM from Klebsiella pneumonia A6TBJ8 A6TBJ8 2 X-RAY DIFFRACTION 72 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 231 233 6jyy-a1-m1-cA_6jyy-a1-m1-cB 6jyy-a1-m1-cC_6jyy-a1-m1-cB 6k28-a1-m1-cA_6k28-a1-m1-cC 6k28-a1-m1-cB_6k28-a1-m1-cA 6k28-a1-m1-cB_6k28-a1-m1-cC PVAHLRHLLRAHSPLVHCMTNDVVQTFTANVLLAVGASPAMVIDPREAAQFAAIADALLINVGTLTEDRAVAMRAAVEHARQAGKPWTLDPVAVGALTVRTAFCHELLALQPAAIRGNASEILALAGAAAALPAAQALARRLATVVAVTGEVDYVTDGERVLSVAGGNPLMTRVVGTGCALSAVVAASAALPGDRLENVAAACGLMKQAGEIAARQGGPGSFIPAFLDALY APVAHLRHLLRAHSPLVHCMTNDVVQTFTANVLLAVGASPAMVIDPREAAQFAAIADALLINVGTLTEDRAVAMRAAVEHARQAGKPWTLDPVAVGALTVRTAFCHELLALQPAAIRGNASEILALAGMAAAALPAAQALARRLATVVAVTGEVDYVTDGERVLSVAGGNPLMTRVVGTGCALSAVVAASAALPGDRLENVAAACGLMKQAGEIAARQGGPGSFIPAFLDALY 6jza-a1-m1-cA_6jza-a1-m2-cA Structure of Fstl1 Q62356 Q62356 2.3 X-RAY DIFFRACTION 104 1.0 10090 (Mus musculus) 10090 (Mus musculus) 81 81 PWEEPRSKSKICANVFCGAGRECAVTEKGEPTCLCIEQCKPHKRPVCGSNGKTYLNHCELHRDACLTGSKIQVDYDGHCKE PWEEPRSKSKICANVFCGAGRECAVTEKGEPTCLCIEQCKPHKRPVCGSNGKTYLNHCELHRDACLTGSKIQVDYDGHCKE 6jzl-a1-m1-cA_6jzl-a1-m1-cB S-formylglutathione hydrolase homolog from a psychrophilic bacterium of Shewanella frigidimarina Q07XK4 Q07XK4 2.32 X-RAY DIFFRACTION 56 1.0 56812 (Shewanella frigidimarina) 56812 (Shewanella frigidimarina) 276 278 IENMSVNKSFGGWHKQYSHQSQTLNCEMRFAIYLPPQASSGKKVPVLYWLSGLTCTDENFMQKAGAQALAAELGIAIVAPDTSPRGENVADDEGYDLGKGAGFYVNATQAPWNRHYRMYDYVVDELPKLIESMFPVSDKRSIAGHSMGGHGALVIALRNADAYQSVSAFSPISNPINCPWGKKALTAYLGRDSATWMEYDASVLMRQATQFVPALVDQGDADNFLVEQLKPEVLEAAAKVKGYPLELNYREGYDHSYYFISSFIENHLRFHAEHLG MTIENMSVNKSFGGWHKQYSHQSQTLNCEMRFAIYLPPQASSGKKVPVLYWLSGLTCTDENFMQKAGAQALAAELGIAIVAPDTSPRGENVADDEGYDLGKGAGFYVNATQAPWNRHYRMYDYVVDELPKLIESMFPVSDKRSIAGHSMGGHGALVIALRNADAYQSVSAFSPISNPINCPWGKKALTAYLGRDSATWMEYDASVLMRQATQFVPALVDQGDADNFLVEQLKPEVLEAAAKVKGYPLELNYREGYDHSYYFISSFIENHLRFHAEHLG 6jzo-a1-m1-cC_6jzo-a1-m1-cD Structure of the mouse TRPC4 ion channel Q9QUQ5 Q9QUQ5 3.28 ELECTRON MICROSCOPY 255 1.0 10090 (Mus musculus) 10090 (Mus musculus) 663 663 5z96-a1-m1-cB_5z96-a1-m1-cA 5z96-a1-m1-cB_5z96-a1-m1-cC 5z96-a1-m1-cC_5z96-a1-m1-cD 5z96-a1-m1-cD_5z96-a1-m1-cA 6jzo-a1-m1-cB_6jzo-a1-m1-cA 6jzo-a1-m1-cB_6jzo-a1-m1-cC 6jzo-a1-m1-cD_6jzo-a1-m1-cA RDRIPLRIVRAESELSPSEKAYLNAVEKGDYASVKKSLEEAEIYFKININCIDPLGRTALLIAIENENLELIELLLSFNVYVGDALLHAIRKEVVGAVELLLNHKQFSEFTPDITPIILAAHTNNYEIIKLLVQKGVSVPRPHEVDSLRHSRSRLNIYKALASPSLIALSSEDPFLTAFQLSWELQELSKVENEFKSEYEELSRQCKQFAKDLLDQTRSSRELEIILNYRDDLARLKLAIKYRQKEFVAQPNCQQLLASRWYDEFPGWRRRHWAVKMVTCFIIGLLFPVFSVCYLIAPKSPLGLFIRKPFIKFICHTASYLTFLFLLLLASQHNRQGPPPTIVEWMILPWVLGFIWGEIKQMWDGGLQDYIHDWWNLMDFVMNSLYLATISLKIVAFVKYSNPRESWDMWHPTLVAEALFAIANIFSSLRLISLFTANSHLGPLQISLGRMLLDILKFLFIYCLVLLAFANGLNQLYFYYEETKGLSCKGIRCEKQNNAFSTLFETLQSLFWSIFGLINLYVTNVKAQHEFTEFVGATMFGTYNVISLVVLLNMLIAMMNNSYQLIADHADIEWKFARTKLWMSYFEEGGTLPTPFNVIIGRRAADNLRRHHQYQEVMRNLVKRYVAAMIREAKTEEGLTEENVKELKQDISSFRFEVLGLLR RDRIPLRIVRAESELSPSEKAYLNAVEKGDYASVKKSLEEAEIYFKININCIDPLGRTALLIAIENENLELIELLLSFNVYVGDALLHAIRKEVVGAVELLLNHKQFSEFTPDITPIILAAHTNNYEIIKLLVQKGVSVPRPHEVDSLRHSRSRLNIYKALASPSLIALSSEDPFLTAFQLSWELQELSKVENEFKSEYEELSRQCKQFAKDLLDQTRSSRELEIILNYRDDLARLKLAIKYRQKEFVAQPNCQQLLASRWYDEFPGWRRRHWAVKMVTCFIIGLLFPVFSVCYLIAPKSPLGLFIRKPFIKFICHTASYLTFLFLLLLASQHNRQGPPPTIVEWMILPWVLGFIWGEIKQMWDGGLQDYIHDWWNLMDFVMNSLYLATISLKIVAFVKYSNPRESWDMWHPTLVAEALFAIANIFSSLRLISLFTANSHLGPLQISLGRMLLDILKFLFIYCLVLLAFANGLNQLYFYYEETKGLSCKGIRCEKQNNAFSTLFETLQSLFWSIFGLINLYVTNVKAQHEFTEFVGATMFGTYNVISLVVLLNMLIAMMNNSYQLIADHADIEWKFARTKLWMSYFEEGGTLPTPFNVIIGRRAADNLRRHHQYQEVMRNLVKRYVAAMIREAKTEEGLTEENVKELKQDISSFRFEVLGLLR 6k0b-a1-m1-cA_6k0b-a1-m1-cB cryo-EM structure of archaeal Ribonuclease P with mature tRNA Q57917 Q57917 4.3 ELECTRON MICROSCOPY 25 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 126 126 6k0a-a1-m1-cA_6k0a-a1-m1-cB IEMLKTLPPTLREKKRYIAFKILYDEELKEGEVVNLIRKAVLEYYGSWGTSKANPWLVYYDFPYGILRCQRDNVDYVKASLILIREFKEKPVNIICLGVSGTIRKAKIKFLGIKKPKRWFVIRRER IEMLKTLPPTLREKKRYIAFKILYDEELKEGEVVNLIRKAVLEYYGSWGTSKANPWLVYYDFPYGILRCQRDNVDYVKASLILIREFKEKPVNIICLGVSGTIRKAKIKFLGIKKPKRWFVIRRER 6k0i-a1-m1-cA_6k0i-a1-m2-cA Crystal Structure of UDP-glucose 4-epimerase from Bifidobacterium longum in complex with NAD+ and UDP-Glc E8MF10 E8MF10 1.8 X-RAY DIFFRACTION 61 1.0 565042 (Bifidobacterium longum subsp. longum JCM 1217) 565042 (Bifidobacterium longum subsp. longum JCM 1217) 335 335 6k0g-a1-m1-cA_6k0g-a1-m2-cA 6k0h-a1-m1-cA_6k0h-a1-m2-cA TTVLVTGGAGFIATHTDIELLNKGYDVISVDNYGNSSPVALERVEQITGKPVKRYDGDVRDEALMERVFAENNIDWVIHFAGLKAVGESVAKPIEYYDNNLYSTLVLLKVMKKHNVKKIIFSSSATVYGTPKELPITEETPTGGTTNPYGTSKLFQEQILRDVHVADPSWTIVLLRYFNPVGAHESGLLGEDPKGIPANLTPYVAKVAVGELKEVQVYGDDYDTPDGTGVRDYIHVVDLAKGHVAVIDHIDKEGVFVYNLGTGHGYSVLEVIKAYEKAAGHPIPYAIKPRRPGDIAACYADASKAEKELGWKAELTIDDMAASSLNWQTKNPNGF TTVLVTGGAGFIATHTDIELLNKGYDVISVDNYGNSSPVALERVEQITGKPVKRYDGDVRDEALMERVFAENNIDWVIHFAGLKAVGESVAKPIEYYDNNLYSTLVLLKVMKKHNVKKIIFSSSATVYGTPKELPITEETPTGGTTNPYGTSKLFQEQILRDVHVADPSWTIVLLRYFNPVGAHESGLLGEDPKGIPANLTPYVAKVAVGELKEVQVYGDDYDTPDGTGVRDYIHVVDLAKGHVAVIDHIDKEGVFVYNLGTGHGYSVLEVIKAYEKAAGHPIPYAIKPRRPGDIAACYADASKAEKELGWKAELTIDDMAASSLNWQTKNPNGF 6k0k-a1-m1-cB_6k0k-a1-m1-cA Crystal structure of Escherichia coli pyruvate kinase II P21599 P21599 2.68 X-RAY DIFFRACTION 92 1.0 562 (Escherichia coli) 562 (Escherichia coli) 478 479 RRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGSPEDHKMRADKVREIAAKLGRHVAILGDLQGPKIRVSTFKEGKVFLNIGDKFLLDANLGKGEGDKEKVGIDYKGLPADVVPGDILLLDDGRVQLKVLEVQGMKVFTEVTVGGPLSNNKGINKLGGGLSAEALTEKDKADIKTAALIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCSQDAMDDIILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRAVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKIPSINVSKHRLDVQFDNVEEAIAMSAMYAANHLKGVTAIITMTESGRTALMTSRISSGLPIFAMSRHERTLNLTALYRGVTPVHFDSANDGVAAASEAVNLLRDKGYLMSGDLVIVTQGDVMSTVGSTNTTRILTVE SRRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGSPEDHKMRADKVREIAAKLGRHVAILGDLQGPKIRVSTFKEGKVFLNIGDKFLLDANLGKGEGDKEKVGIDYKGLPADVVPGDILLLDDGRVQLKVLEVQGMKVFTEVTVGGPLSNNKGINKLGGGLSAEALTEKDKADIKTAALIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCSQDAMDDIILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRAVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKIPSINVSKHRLDVQFDNVEEAIAMSAMYAANHLKGVTAIITMTESGRTALMTSRISSGLPIFAMSRHERTLNLTALYRGVTPVHFDSANDGVAAASEAVNLLRDKGYLMSGDLVIVTQGDVMSTVGSTNTTRILTVE 6k0k-a2-m1-cD_6k0k-a2-m1-cC Crystal structure of Escherichia coli pyruvate kinase II P21599 P21599 2.68 X-RAY DIFFRACTION 85 1.0 562 (Escherichia coli) 562 (Escherichia coli) 392 397 SRRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGSPEDHKMRADKVREIAAKLGRHVAILGDLQGPKIRVINKLGGGLSAEALTEKDKADIKTAALIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCSQDAMDDIILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRAVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKKHRLDVQFDNVEEAIAMSAMYAANHLKGVTAIITMTESGRTALMTSRISSGLPIFAMSRHERTLNLTALYRGVTPVHFDSANDGVAAASEAVNLLRDKGYLMSGDLVIVTQGDVMSTVGSTNTTRILTVEALG SRRLRRTKIVTTLGPATDRDNNLEKVIAAGANVVRMNFSHGSPEDHKMRADKVREIAAKLGRHVAILGDLQGPKIRVGINKLGGGLSAEALTEKDKADIKTAALIGVDYLAVSFPRCGEDLNYARRLARDAGCDAKIVAKVERAEAVCSQDAMDDIILASDVVMVARGDLGVEIGDPELVGIQKALIRRARQLNRAVITATQMMESMITNPMPTRAEVMDVANAVLDGTDAVMLSAETAAGQYPSETVAAMARVCLGAEKIPSSKHRLDVQFDNVEEAIAMSAMYAANHLKGVTAIITMTESGRTALMTSRISSGLPIFAMSRHERTLNLTALYRGVTPVHFDSANDGVAAASEAVNLLRDKGYLMSGDLVIVTQGDVMSTVGSTNTTRILTVEALG 6k0w-a2-m1-cC_6k0w-a2-m1-cA DNA methyltransferase in complex with sinefungin O25315 O25315 2.65 X-RAY DIFFRACTION 130 0.998 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 433 528 GYELTWTGKGFANALYSEPCQKQLKLQESFTPQSKHPNNAIIIGDNLDALKLLKSAYSEKIKMIYIDPPYNTGNDEFIYPDNFRQDYQKILREVSESLKFFKNTQGSGTHSGWLSFMLPRLKLARDLLKEDGVIFISIDDNECANLKILCDEIFGEDNFVGDFIRKTKSTTNDAKIGLNYQHEFLLCYAKDKNYTNLLGGEKNQKTFDSLIFSDNCYMNQAATKELLNLGMGEYFTYPKGVEFMKKIILHSTTPNEGDIILDFFAGSGTTVHAVMELNAEDKGNREFILVQIDEEIKEDESAYDFCKKELKSAKPVISDITIERVKRAAQKISQLSKDSGLDLGFKVYTLQDDLTPFDKALNLALQCGKTLNQALEIIIKDKLYKCEDAYFCIVCDEEAQEYLAKSKNEMIFLDGYEELEAFLNLNASFKERL GYELTWTGKGFANALYSEPCQKQLKLQESFTPQTSASKHPNNAIIIGDNLDALKLLKSAYSEKIKMIYIDPPYNTGNDEFIYPDNFRQDYQKILREESESLKFFKNTQGSGTHSGWLSFMLPRLKLARDLLKEDGVIFISIDDNECANLKILCDEIFGEDNFVGDFIRKTKSTTNDAKIGLNYQHEFLLCYAKDKNYTNLLGGEKNLEPDNDPNGAWINDNPSAKSGNMKTGYFGVTNPYTNKVDYPPVGMFWRFSQNTIQKHIDEGRICFKKEHKDNERGFIYKRYLKDLKTTQKTFDSLIFSDNCYMNQAATKELLNLGMGEYFTYPKGVEFMKKIILHSTTPNEGDIILDFFAGSGTTVHAVMELNAEDKGNREFILVQIDEEIKEDESAYDFCKKELKSAKPVISDITIERVKRAAQKISQLSKDSGLDLGFKVYTLQDKSDLTPFDKALNLALQCGKTLNQALEIIIKDKLYKCEDAYFCIVCDEEAQEYLAKSKNEMIFLDGYEEIDLEAFLNLNASFKERL 6k10-a1-m1-cA_6k10-a1-m2-cA Non substrate bound state of Staphylococcus Aureus AldH Q2FWX9 Q2FWX9 1.78962 X-RAY DIFFRACTION 306 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 458 458 6k0z-a1-m1-cA_6k0z-a1-m2-cA NIIEQKFYDSKAFFNTQQTKDISFRKEQLKKLSKAIKSYESDILEALYTDLGKNKVEAYATEIGITLKSIKIARKELKNWTKTKNVDTPLYLFPTKSYIKKEPYGTVLIIAPFNYPFQLVFEPLIGAIAAGNTAIIKPSELTPNVARVIKRLINETFDANYIEVIEGGIEETQTLIHLPFDYVFFTGSENVGKIVYQAASENLVPVTLEMGGKSPVIVDETANIKVASERICFGKFTNAGQTSVAPDYILVHESVKDDLITALSKTLREFYGQNIQQSPDYGRIVNLKHYHRLTSLLNSAQMNIVFGGHSDEDERYIEPTLLDHVTSDSAIMQEEIFGPILPILTYQSLDEAIAFIHQRPKPLSLYLFSEDENATQRVINELSFGGGAINDTLMHLANPKLPFGGVGASGMGRYHGKYSFDTFTHEKSYIFKSTRLESGVHLPPYKGKFKYIKAFFKN NIIEQKFYDSKAFFNTQQTKDISFRKEQLKKLSKAIKSYESDILEALYTDLGKNKVEAYATEIGITLKSIKIARKELKNWTKTKNVDTPLYLFPTKSYIKKEPYGTVLIIAPFNYPFQLVFEPLIGAIAAGNTAIIKPSELTPNVARVIKRLINETFDANYIEVIEGGIEETQTLIHLPFDYVFFTGSENVGKIVYQAASENLVPVTLEMGGKSPVIVDETANIKVASERICFGKFTNAGQTSVAPDYILVHESVKDDLITALSKTLREFYGQNIQQSPDYGRIVNLKHYHRLTSLLNSAQMNIVFGGHSDEDERYIEPTLLDHVTSDSAIMQEEIFGPILPILTYQSLDEAIAFIHQRPKPLSLYLFSEDENATQRVINELSFGGGAINDTLMHLANPKLPFGGVGASGMGRYHGKYSFDTFTHEKSYIFKSTRLESGVHLPPYKGKFKYIKAFFKN 6k12-a1-m1-cA_6k12-a1-m2-cA Babesia microti lactate dehydrogenase apo form (BmLDH) I7J7V6 I7J7V6 2.794 X-RAY DIFFRACTION 114 1.0 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 297 297 6k12-a1-m1-cF_6k12-a1-m2-cF 6k12-a2-m1-cB_6k12-a2-m1-cC NKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL NKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k12-a1-m2-cF_6k12-a1-m2-cA Babesia microti lactate dehydrogenase apo form (BmLDH) I7J7V6 I7J7V6 2.794 X-RAY DIFFRACTION 95 0.992 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 265 297 6k12-a1-m1-cF_6k12-a1-m1-cA 6k12-a2-m1-cE_6k12-a2-m1-cB NKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKEMMDLQQGSLFLKTPNIIAGKELTANSKLVVVTAGIIPNVVKYSPCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKKLTVEEEQQLKNSAETITQKDIQL NKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k12-a2-m1-cD_6k12-a2-m1-cC Babesia microti lactate dehydrogenase apo form (BmLDH) I7J7V6 I7J7V6 2.794 X-RAY DIFFRACTION 90 0.989 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 265 280 NKITVIGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLNIIAGKDYELTANSKLVVVTFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSHKKVTESAYEIILKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL NKITVIGVGAVGMACAFSILNKELADELVLIVVEDKLKGEMMDLQQGSLFLKTIIAGKDYELTANSKLVVVTAGVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k12-a2-m1-cE_6k12-a2-m1-cD Babesia microti lactate dehydrogenase apo form (BmLDH) I7J7V6 I7J7V6 2.794 X-RAY DIFFRACTION 95 0.984 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 244 265 NKITVIGAVGMACAFSILNKELADELVLIDVDKLKGEMMDLQQGSLFLKTNIIAGKDYELTANSKLVVVTAGPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGGDSSVPILSGLNIAGMSTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL NKITVIGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLNIIAGKDYELTANSKLVVVTFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSHKKVTESAYEIILKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k13-a1-m1-cB_6k13-a1-m2-cB Crystal Structure Basis for BmLDH Complex I7J7V6 I7J7V6 1.89 X-RAY DIFFRACTION 109 1.0 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 323 323 6k13-a1-m1-cA_6k13-a1-m2-cA SMHSLKEEFLIRLTNEDLNASNKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTPNIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNLDMCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL SMHSLKEEFLIRLTNEDLNASNKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTPNIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNLDMCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k13-a1-m2-cB_6k13-a1-m1-cA Crystal Structure Basis for BmLDH Complex I7J7V6 I7J7V6 1.89 X-RAY DIFFRACTION 92 0.997 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 323 332 6k13-a1-m1-cB_6k13-a1-m2-cA SMHSLKEEFLIRLTNEDLNASNKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTPNIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNLDMCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL MHSLKEEFLIRLTNEDLNASNKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTPNIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNLHTDIDTVFIKDMCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k13-a1-m2-cB_6k13-a1-m2-cA Crystal Structure Basis for BmLDH Complex I7J7V6 I7J7V6 1.89 X-RAY DIFFRACTION 146 0.997 1133968 (Babesia microti strain RI) 1133968 (Babesia microti strain RI) 323 332 6k13-a1-m1-cB_6k13-a1-m1-cA SMHSLKEEFLIRLTNEDLNASNKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTPNIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNLDMCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL MHSLKEEFLIRLTNEDLNASNKITVIGVGAVGMACAFSILNKELADELVLIDVVEDKLKGEMMDLQQGSLFLKTPNIIAGKDYELTANSKLVVVTAGARQQEGESRLNLVQRNVNIFKFIIPNVVKYSPDCILLIVSNPVDILTYVAWKLSGFPLNRVIGSGCNLDSARFRYLVSEMIGIHPSNFHGCILGEHGDSSVPILSGLNIAGMSIKNLHTDIDTVFIKDMCKDVHKKVTESAYEIIKLKGYTSWAIGLSVGDLSCSLIKNLRKVHPVSTLVKGQFGIDNEVFLSVPCVLGRNGISEVFKPKLTVEEEQQLKNSAETIWNTQKDIQL 6k1c-a1-m1-cB_6k1c-a1-m1-cA Crystal structure of EXD2 exonuclease domain soaked in Mg and dGMP Q9NVH0 Q9NVH0 2.45 X-RAY DIFFRACTION 285 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 194 6k17-a1-m1-cB_6k17-a1-m1-cA 6k18-a1-m1-cB_6k18-a1-m1-cA 6k19-a1-m1-cB_6k19-a1-m1-cA 6k1a-a1-m1-cA_6k1a-a1-m1-cB 6k1b-a1-m1-cB_6k1b-a1-m1-cA 6k1d-a1-m1-cA_6k1d-a1-m1-cB 6k1e-a1-m1-cA_6k1e-a1-m1-cB AKVVTVSQEAEWDQIEPLLRSELEDFPVLGIDCEWVNASPLSLLQMASPSGLCVLVRLPKLICGGKTLPRTLLDILADGTILKVGVGCSEDASKLLQDYGLVVRGCLDLRYLAMRQRNNLLCNGLSLKSLAETVLNFPLLRCSNWDAETLTEDQVIYAARDAQISVALFLHLLGYSWRKVLEKCQGVVDIPFR AKVVTVSQEAEWDQIEPLLRSELEDFPVLGIDCEWVNASPLSLLQMASPSGLCVLVRLPKLICGGKTLPRTLLDILADGTILKVGVGCSEDASKLLQDYGLVVRGCLDLRYLAMRQRNNLLCNGLSLKSLAETVLNFPLLRCSNWDAETLTEDQVIYAARDAQISVALFLHLLGYSWRKVLEKCQGVVDIPFRS 6k1h-a1-m1-cE_6k1h-a1-m1-cY Structure of membrane protein P69801 P69801 3.52 ELECTRON MICROSCOPY 37 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 247 247 6k1h-a1-m1-cB_6k1h-a1-m1-cE 6k1h-a1-m1-cB_6k1h-a1-m1-cY EITTLQIVLVFIVACIAGMGSILDEFQFHRPLIACTLVGIVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTILVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAADNGNLTAISWIHVSSLFLQAMRVAIPAVIVALSVGTSEVQNMLNAIPEVVTNGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGTVMAVLYIQLSPKYNRV EITTLQIVLVFIVACIAGMGSILDEFQFHRPLIACTLVGIVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTILVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAADNGNLTAISWIHVSSLFLQAMRVAIPAVIVALSVGTSEVQNMLNAIPEVVTNGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGTVMAVLYIQLSPKYNRV 6k2e-a1-m1-cB_6k2e-a1-m1-cA Crystal structure of cas2 2.8 X-RAY DIFFRACTION 99 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 87 88 SHMYVIVVYDVNVERVNRVHKLLKTYLFWRQNSVFEGELSKAQLYELEMRLKRIVKEDDSVLIYIFPGKNFDLHVVGRDKSPVEMII GSHMYVIVVYDVNVERVNRVHKLLKTYLFWRQNSVFEGELSKAQLYELEMRLKRIVKEDDSVLIYIFPGKNFDLHVVGRDKSPVEMII 6k2f-a1-m1-cA_6k2f-a1-m1-cB Structure of Eh TWINFILIN N9V330 N9V330 1.55 X-RAY DIFFRACTION 32 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 138 138 AIELSTDLINKFKDMNSSGNGRFIQATIVDETINIKAIEQGTSDFDADLDLVLKYLVEGEPSYILFRTETRDDITNGYKWLLLAYIPDRAKVRMKMLYSSTKARFRTTLGGSTFLYEIHGTVFSDFGKSGYEAFLRHE AIELSTDLINKFKDMNSSGNGRFIQATIVDETINIKAIEQGTSDFDADLDLVLKYLVEGEPSYILFRTETRDDITNGYKWLLLAYIPDRAKVRMKMLYSSTKARFRTTLGGSTFLYEIHGTVFSDFGKSGYEAFLRHE 6k2l-a1-m1-cB_6k2l-a1-m1-cA Crystal structure of the Siderophore-interacting protein SipS from Aeromonas hydrophila A0KMJ5 A0KMJ5 2.5 X-RAY DIFFRACTION 30 1.0 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 224 248 PVNRPRLLTVKHIQDVSPHLRRICLTSPELADYPGGAHIKIMLPQPGQAHAVLPPSQRPIMRTFTIRAFRREALELDIDFALHGPASRFANEVKPGDLLAISGPGLQPASHYYMVGDLTALPAISAMAEVMPADARGHIALLVPYQEDVQDLSLPAGVTLRWFVGSPEETAPLVEYFTSLPLEEQQSYFWFGGEEGLVVPMRRHVRRTLEVDRTRVYAVPYWRH PVNRPRLLTVKHIQDVSPHLRRICLTSPELADYPFGGAHIKIMLPQPGQAHAVLPDPSQRPIMRTFTIRAFRREALELDIDFALHGDGGPASRFANEVKPGDLLAISGPGPMLQPASHYYMVGDLTALPAISAMAEVMPADARGHIALLVPYQEDVQDLSLPAGVTLRWFVGSPEETAPLVEYFTSLPLEEQQSYFWFGGEEGLVVPMRRHVRRTLEVDRTRVYAVPYWRHGKDEEAYHHARHDVMDS 6k2q-a2-m1-cC_6k2q-a2-m1-cD Aeromonas hydrophila MtaN-2 complexed with adenine A0KIZ1 A0KIZ1 2 X-RAY DIFFRACTION 120 1.0 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 380703 (Aeromonas hydrophila subsp. hydrophila ATCC 7966) 227 228 6if8-a1-m1-cA_6if8-a1-m1-cB 6if8-a2-m1-cC_6if8-a2-m1-cD 6k2q-a1-m1-cA_6k2q-a1-m1-cB AMDPEFMKVGIIGAMEQEVALLRSQMSNPTTLQLGGCEFYQGTLAGKEVILTRSGIGKVAASVATSLLLEKFAPDCVINTGSAGGFAQDLHIGDVVIASEMRFHDVDVTAFGYEMGQMAQQPAAFPCDETLIAVAQDCKVGLICTGDQFMCKPDAIAKARADFPQMLAVEMEGAAIGQVCHMFKVPYLVVRAMSDIAGKEQVESFDAFIEVAGKHSAEVIIKMLGKL GAMDPEFMKVGIIGAMEQEVALLRSQMSNPTTLQLGGCEFYQGTLAGKEVILTRSGIGKVAASVATSLLLEKFAPDCVINTGSAGGFAQDLHIGDVVIASEMRFHDVDVTAFGYEMGQMAQQPAAFPCDETLIAVAQDCKVGLICTGDQFMCKPDAIAKARADFPQMLAVEMEGAAIGQVCHMFKVPYLVVRAMSDIAGKEQVESFDAFIEVAGKHSAEVIIKMLGKL 6k2y-a1-m1-cB_6k2y-a1-m1-cA Human Galectin-14 Q8TCE9 Q8TCE9 1.57 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 138 6k2z-a1-m1-cB_6k2z-a1-m1-cA SLPVPYTLPVSLPVGSCVIITGTPILTFVKDPQLEVNFYTGMDEDSDIAFQFRLHFGHPAIMNSCVFGIWRYEEKCYYLPFEDGKPFELCIYVRHKEYKVMVNGQRIYNFAHRFPPASVKMLQVFRDISLTRVLISD SSLPVPYTLPVSLPVGSCVIITGTPILTFVKDPQLEVNFYTGMDEDSDIAFQFRLHFGHPAIMNSCVFGIWRYEEKCYYLPFEDGKPFELCIYVRHKEYKVMVNGQRIYNFAHRFPPASVKMLQVFRDISLTRVLISD 6k31-a1-m1-cB_6k31-a1-m1-cA Crystal structure of pyrophosphate-dependent phosphoenolpyruvate carboxykinase (PPi-PEPCK) 2.6 X-RAY DIFFRACTION 40 0.995 1659 (Actinomyces israelii) 1659 (Actinomyces israelii) 1092 1093 SANSAIALRLELLGAPVPRLVAPILARQRELTRRLANRPCAADRRIQAFLDSYLDGAAAQPKLPGATLVLDQPGLARALSLPVDATSFTSDYVESYRVLSGVLHNPRNDRRTTAGVFHVAEGGLPIPDDKKAVPRDVFARVLAAAVDAPDDLTLPWASTQADPARCFVSLLLRPVVVPEVPGFSAERSEIRFIAPGGLVSNLDFVEGIFGNGGDPYLPENDASLAPESWTGHTGCVILAPHLTRLTKKELGLPAWEEATERQRRDGCWRGADELYNDGKAFKLVARDERGVIVTIIADNYYGYCKKEVKTQISYSANLFGCVEEEHSGGALAFPRYNLGQEYTDVHTPAGATVERVLARNPGRFEARADGSAVLLDDDGRPDEGIVLVPAGAHFSRTQTVTWDRADGREASIPLLADRVYIAPGGYRVHAKHREGDATQWHLVGTAPWATQAHKPATVSGGGKSEISKSLLDAFVFGEAYVGDVDADLDAVQKILDPILSERRSLGSVIKLLTPSSYTEEYNAFLESIPAHIKELIFTVKRYYQPGWGADWRSHFSVGIINGRKGNSLRLDGEVIKVNLRVGFEDDGAWRLLSLRPDFSPAAKVQTEDDITSSIVAPGGLESTAGSSVSRKFVTNCESLLFQRPDDAIVRGYDKQTERDSGTGLFISNYQPLTPADARAVADAPGLSRFTEPQELVRRAAAIPEAADPREETYWTSTANPRLVGGAPTRNPRYLQVRPDIANPRDVALADLSIHLYRDAPLAAPARHGVDVVAAGRRNNPPEPGVPALCAYNPLHYELPELFEFISSTGKSPSTTGAGSEGALTKSPFNALPPVYDLNAALLSYALGGYDGWLSSAGYIGPKVKVAHDISLLVPEIFSRTPQERDARALIEAGYLERLEDFDHEGRRIEASRLGYRNAAFATAYFGRIFLHPDVVFTEELRPELQDPAIFADSVEVIVATHRAVAKHYVDDGSIQWAVPPLKALLEIYSGRSEEGWTLSSPELRALFERENILASDWYAERVDAKVERDRKQAESAIAALTRFTTTQGNEEVTERLDIEGRLASARAWLDEVTSPAYRAHLVGTLGLQPSLA PTNSANSAIALRLELLGAPVPETDRLVAPILARQRELTRRLANRPCAADRRIQAFLDSYLDGAAAQPKLPGATLVLDQPGLARALSLPVDATSFTSDYVESYRVLSGVLHNPRNDRRTTAGVFHVAEGGLPIPDDKKAVPRDVFARVLAAAVDAPDDLTLPWASTQADPARCFVSLLLRPVVVPEVPGFSAERSEIRFIAPGGLVSNLDFVEGIFGNGGDPYLPENDASLAPESWTGHTGCVILAPHLTRLTKKELGLPAWEEATERQRRDGCWRGADELYNDGKAFKLVARDERGVIVTIIADNYYGYCKKEVKTQISYSANLFGCVEEEHSGGALAFPRYNLGQEYTDVHTPAGATVERVLARNPGRFEARADGSAVLLDDDGRPDEGIVLVPAGAHFSRTQTVTWDRREASIPLLADRVYIAPGGYRVHAKHREGDATQWHLVGTAPWATQAHKPATVSGGGKSEISKSLLDAFVFGEAYVGDVDADLDAVQKILDPILSERRSLGSVIKLLTPSSYTEEYNAFLESIPAHIKELIFTVKRYYQPGWGADWRSHFSVGIINGRKGNSLRLDGEVIKVNLRVGFEDDGAWRLLSLRPDFSPAAKVQTEDDITSSIVAPGGLESTAGSSVSRKFVTNCESLLFQRPDDAIVRGYDKQTERDSGTGLFISNYQPLTPADARAVADAPGLSRFTEPQELVRRAAAIPEAPREETYWTSTANPRLVGGAPTRNPRYLQVRPDIANPRDVALADLSIHLYRDAPLAAPARHGVDVVAAGRRNNPPEPGVPALCAYNPLHYELPELFEFISSTGKSPSTTGAGSEGALTKSPFNALPPVYDLNAALLSYALGGYDGWLSSAGYIGPKVKVAHDISLLVPEIFSRTPQERDARALIEAGYLERLEDFDHEGRRIEASRLGYRNAAFATAYFGRIFLHPDVVFTEELRPELQDPAIFADSVEVIVATHRAVAKHYVDDGSIQWAVPPLKALLEIYSGRSEEGWTLSSPELRALFERENILASDWYAERVDAKVERDRKQAESAIAALTRFTTTQGNEEVTERLDIEGRLASARAWLDEVTSPAYRAHLVGTLGLQPSLA 6k39-a1-m1-cA_6k39-a1-m1-cB Structural analysis of AIMP2-DX2 and HSP70 interaction Q13155 Q13155 1.39814 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 151 152 DVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSYRLPNVHG SDVAPLSLGLETAGGVMTALIKRNSTIPTKQTQIFTTYSDNQPGVLIQVYEGERAMTKDNNLLGRFELSGIPPAPRGVPQIEVTFDIDANGILNVTATDKSTGKANKITITNDKGRLSKEEIERMVQEAEKYKAEDEVQRERVSYRLPNVHG 6k3c-a1-m1-cB_6k3c-a1-m1-cA Crystal structure of class I PHA synthase (PhaC) mutant from Chromobacterium sp. USM2 bound to Coenzyme A. E1APK1 E1APK1 3.074 X-RAY DIFFRACTION 48 1.0 611307 (Chromobacterium sp. USM2) 611307 (Chromobacterium sp. USM2) 351 388 IGKNLVVTPGEVVFRNELIELIQYTPTTEKVHEKPLLFVPPCINKYYLMDLQPDNSMVRHFVGQGYRVFLVSWRSAVPEMKNFTWETYIEKGVFAAAEAVQKITKQPTMNALGFCVGGVILTTALCVAQAKGLKYFDSATFMTSLIDHAEPGEISFFIDEALVASREAKMEIGRTFASLRANDLVWNYVVNNYLLGKTPAPFDLLYWNNDAVDLPLPMHTFMLRQFYINNALITPGAITLCGVPIDISKIDIPVYMFAARENHIVLWSSAYSGLKYLSGTPSRRFVLGASGHKRNYWTNEQLPVNPEEWLEGAQSHPGSWWKDWDAWLAPQSGKQVPAPKMLGSKEFPPLQ PFQIGKNLVVTPGEVVFRNELIELIQYTPTTEKVHEKPLLFVPPCINKYYLMDLQPDNSMVRHFVGQGYRVFLVSWRSAVPEMKNFTWETYIEKGVFAAAEAVQKITKQPTMNALGFCVGGVILTTALCVAQAKGLKYFDSATFMTSLIDHAEPGEISFFIDEALVASREAKMAAGGIISGKEIGRTFASLRANDLVWNYVVNNYLLGKTPAPFDLLYWNNDAVDLPLPMHTFMLRQFYINNALITPGAITLCGVPIDISKIDIPVYMFAARENHIVLWSSAYSGLKYLSGTPSRRFVLGASGHIAGSINPVTKDKRNYWTNEQLPVNPEEWLEGAQSHPGSWWKDWDAWLAPQSGKQVPAPKMLGSKEFPPLQPAPGSYVLAKAMPP 6k3g-a1-m1-cB_6k3g-a1-m2-cB Crystal structure of 10-Hydroxygeraniol Dehydrogenase from Cantharanthus roseus in complex with NADP+ Q6V4H0 Q6V4H0 2.41 X-RAY DIFFRACTION 104 1.0 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 356 356 6kj5-a1-m1-cA_6kj5-a1-m2-cA SPEVEHPVKAFGWAARDTSGHLSPFHFSRRATGEHDVQFKVLYCGICHSDLHMIKNEWGFTKYPIVPGHEIVGIVTEVGSKVEKFKVGDKVGVGCLVGSCRKCDMCTKDLENYCPGQILTYSATYTDGTTTYGGYSDLMVADEHFVIRWPENLPMDIGAPLLCAGITTYSPLRYFGLDKPGTHVGVVGLGGLGHVAVKFAKAFGAKVTVISTSESKKQEALEKLGADSFLVSRDPEQMKAAAASLDGIIDTVSAIHPIMPLLSILKSHGKLILVGAPEKPLELPSFPLIAGRKIIAGSAIGGLKETQEMIDFAAKHNVLPDVELVSMDYVNTAMERLLKADVKYRFVIDVANTLKS SPEVEHPVKAFGWAARDTSGHLSPFHFSRRATGEHDVQFKVLYCGICHSDLHMIKNEWGFTKYPIVPGHEIVGIVTEVGSKVEKFKVGDKVGVGCLVGSCRKCDMCTKDLENYCPGQILTYSATYTDGTTTYGGYSDLMVADEHFVIRWPENLPMDIGAPLLCAGITTYSPLRYFGLDKPGTHVGVVGLGGLGHVAVKFAKAFGAKVTVISTSESKKQEALEKLGADSFLVSRDPEQMKAAAASLDGIIDTVSAIHPIMPLLSILKSHGKLILVGAPEKPLELPSFPLIAGRKIIAGSAIGGLKETQEMIDFAAKHNVLPDVELVSMDYVNTAMERLLKADVKYRFVIDVANTLKS 6k40-a6-m1-cI_6k40-a6-m1-cJ Crystal structure of alkyl hydroperoxide reductase from D. radiodurans R1 Q9RTJ7 Q9RTJ7 2.27 X-RAY DIFFRACTION 58 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 185 185 6k40-a1-m1-cA_6k40-a1-m1-cG 6k40-a2-m1-cB_6k40-a2-m1-cE 6k40-a3-m1-cD_6k40-a3-m1-cC 6k40-a4-m1-cF_6k40-a4-m1-cL 6k40-a5-m1-cH_6k40-a5-m1-cK RLSFLAVPTEDNAHEGVKKLWSKAEANMGFVPNVFRAQALNGEQFLAWWNYFNLLVNKEGGLSNAERELLAVVVSGLNRCVYCAVSHGAALREFSGDAVKADAVAVNWRQAELSEREQAMCAYAEKLTLRPAEMTEADLAPLRAAGLSDEAILEAVQVIAMFNMTNRVSSALGFVPNPEYHIQSR RLSFLAVPTEDNAHEGVKKLWSKAEANMGFVPNVFRAQALNGEQFLAWWNYFNLLVNKEGGLSNAERELLAVVVSGLNRCVYCAVSHGAALREFSGDAVKADAVAVNWRQAELSEREQAMCAYAEKLTLRPAEMTEADLAPLRAAGLSDEAILEAVQVIAMFNMTNRVSSALGFVPNPEYHIQSR 6k4e-a1-m1-cA_6k4e-a1-m1-cB SiaA-PP2C domain of Pseudomonas aeruginosa Q9I6W0 Q9I6W0 2.094 X-RAY DIFFRACTION 86 0.988 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 245 246 REMAAAQKKIGDSLDYASLIQRAILPDRQLSATLGEHHFILWKPRDVVGGDFYVYREQADGYLIGVVDCAGHGVPGALMTMLARAAIDHAIEAVGSRDPAAILGETDQAMRSMLLATNMDAGLVWVDRRRRQLAFAGAKISLYASDGEEVQELKGARRAIGDKYRNIEVPLAPGWTFYLSTDGFLDQAGGEHGFGFGSRRFADMLRDHARQPLPEQAEAFVATLAEYQGEHPQRDDITILSFRFD MAAAQKKIGDSLDYASLIQRAILPDRQLSATLGEHHFILWKPRDVVGGDFYVYREQADGYLIGVVDCAGHGVPGALMTMLARAAIDHAIEAVGSRDPAAILGETDQAMRSMLSALATNMDAGLVWVDRRRRQLAFAGAKISLYASDGEEVQELKGARRAIGDGDYRNIEVPLAPGWTFYLSTDGFLDQAGGEHGFGFGSRRFADMLRDHARQPLPEQAEAFVATLAEYQGEHPQRDDITILSFRFD 6k5e-a1-m1-cA_6k5e-a1-m1-cE Crystal structure of BioH from Klebsiella pneumonia A6TF35 A6TF35 2.257 X-RAY DIFFRACTION 54 0.988 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 252 252 DIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQVAIMRPERVQALVTVASSPCFAARDDWPGIKPEVLAGFQQQLSDDFQRTVERFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRQALVRLPMPFLRLYGRLDGLVPRIVPLLDWPESESILFDKAAHAPFVSHPAAFCEPLLALKTRLG MNDIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQVAIMRPERVQALVTVASSPCFAARWPGIKPEVLAGFQQQLSDDFQRTVERFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRQALVLPMPFLRLYGRLDGLVPRKIVPLLDWPESESILFDKAAHAPFVSHPAAFCEPLLALKTRLG 6k5e-a2-m1-cC_6k5e-a2-m1-cD Crystal structure of BioH from Klebsiella pneumonia A6TF35 A6TF35 2.257 X-RAY DIFFRACTION 36 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 244 252 6k5e-a1-m1-cA_6k5e-a1-m1-cB DIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQVAIMRPERVQALVTVASSPCFAARDWPGIKPEVLAGFQDDFTVEFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRQALVRLPMPFLRLYGRLDGLVPRKVPLLDWPESESILFDKAAHAPFVSHPAAFCEPLLALKTRLG DIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQVAIMRPERVQALVTVASSPCFAARDWPGIKPEVLAGFQQQLSDDFQRTVERFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRQALVRLPMPFLRLYGRLDGLVPRKIVPLLDWPESESILFDKAAHAPFVSHPAAFCEPLLALKTRLG 6k5e-a2-m1-cF_6k5e-a2-m1-cD Crystal structure of BioH from Klebsiella pneumonia A6TF35 A6TF35 2.257 X-RAY DIFFRACTION 21 0.987 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 235 252 6k5e-a1-m1-cE_6k5e-a1-m1-cB DIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQVAIMRPERVQALVTVASSPCFAARDDWPGIKPEVLAGFQQQLFQTVFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRPMPFLRLYGRLDGLVPKIVPLLDESILFDKAAHAPFVSHPAAFCEPLLALKTRL DIWWQTIGEGDCHLVLLHGWGLNAQVWDCITPQLASHFTLHLVDLPGYGRSGGFGAMSLEAMAQRVLEQAPPQAVWLGWSLGGLVASQVAIMRPERVQALVTVASSPCFAARDWPGIKPEVLAGFQQQLSDDFQRTVERFLALQTMGTESARQDARALKQAVLSLPMPSAEALNGGLEILRTVDLRQALVRLPMPFLRLYGRLDGLVPRKIVPLLDWPESESILFDKAAHAPFVSHPAAFCEPLLALKTRLG 6k5g-a2-m1-cC_6k5g-a2-m1-cD Structural and catalytic analysis of two diverse uridine phosphorylases in the oomycete Phytophthora capsici A0A410UCT3 A0A410UCT3 1.574 X-RAY DIFFRACTION 161 1.0 763924 (Phytophthora capsici LT1534) 763924 (Phytophthora capsici LT1534) 288 300 6k5g-a1-m1-cB_6k5g-a1-m1-cA 6k5h-a1-m1-cA_6k5h-a1-m1-cD 6k5h-a2-m1-cB_6k5h-a2-m1-cC 6k5k-a1-m1-cA_6k5k-a1-m1-cC 6k5k-a2-m1-cD_6k5k-a2-m1-cB 6k8p-a1-m1-cB_6k8p-a1-m1-cA 6k8p-a2-m1-cD_6k8p-a2-m1-cC MPTHSDGTVLHLGLRAGQVANRIVSVGSLGRAKVLAQLLDEGHFETFESARGFTTYSGKVKGVPVSIVATGMGVPNMDFVVRETRAVVNGPMTIIRFGTCGAVREEVPPGSVVVNGKGSIMVTRNPDAFFPGASEEDCYRVSRVMPSSSTLSKALVASMEDKLTALRAEPVIAASSDCDALRVFDGLNATACSFYSSQGRLDSNFDDRNEKLVEDLTTAHPDLYTVEMETFHLLDLAQRSRGSIQATAAVLVVANRLSGQIVESEVLEALESFWGGVVLQTIVSTPLD MAYQNTNAMPTHSDGTVLHLGLRAGQVANRIVSVGSLGRAKVLAQLLDEGHFETFESARGFTTYSGKVKGVPVSIVATGMGVPNMDFVVRETRAVVNGPMTIIRFGTCGAVREEVPPGSVVVNGKGSIMVTRNPDAFFPGASEEDCYRVSRVMPSSSTLSKALVASMEDKLTALRAEPVIAASSDCDALRVFDGLNATACSFYSSQGRLDSNFDDRNEKLVEDLTTAHPDLYTVEMETFHLLDLAQRSRGSIQATAAVLVVANRLSGQIVESEVLEALESFWGGVVLQTIVSTPLDAAAL 6k5l-a1-m1-cB_6k5l-a1-m1-cA The crystal structure of isocitrate dehydrogenase kinase/phosphatase wtih two Mn2+ from E. coli P11071 P11071 2.55 X-RAY DIFFRACTION 64 1.0 1045010 (Escherichia coli O157) 1045010 (Escherichia coli O157) 555 565 GLELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKNRIHLYDHHVGLVVEQLRCITDAEFLLRVKEHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPERRFRTIPRPLAKDFHPDHGWESLLMRVISDLPLRLHWQNKSRDIHYIIRHLTETLGPENLSKSHLQVANELFYRNKAAWLVGKLITPSGTLPFLLPIHQTDDGELFIDTCLTTTAEASIVFGFARSYFMVYAPLPAALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLVYLQGCNEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDKFAPQKEMSAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRHISPALMELLLQEAAEKITDLGEQIVIRHLYIERRMVPLNIWLEQVEGQQLRDAIEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRDIPPPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLFRADYWRALQNRIREGHVEDVYAYRRRQRFSVRYG MPRGLELLIAQTILQGFDAQYGRFLEVTSGAQQRFEQADWHAVQQAMKNRIHLYDHHVGLVVEQLRCITNGQSTDAEFLLRVKEHYTRLLPDYPRFEIAESFFNSVYCRLFDHRSLTPERLFIFSSQPERRFRTIPRPLAKDFHPDHGWESLLMRVISDLPLRLHWQNKSRDIHYIIRHLTETLGPENLSKSHLQVANELFYRNKAAWLVGKLITPSGTLPFLLPIHQTDDGELFIDTCLTTTAEASIVFGFARSYFMVYAPLPAALVEWLREILPGKTTAELYMAIGCQKHAKTESYREYLVYLQGCNEQFIEAPGIRGMVMLVFTLPGFDRVFKVIKDKFAPQKEMSAAHVRACYQLVKEHDRVGRMADTQEFENFVLEKRHISPALMELLLQEAAEKITDLGEQIVIRHLYIERRMVPLNIWLEQVEGQQLRDAIEEYGNAIRQLAAANIFPGDMLFKNFGVTRHGRVVFYDYDEICYMTEVNFRDIPPPRPWYSVSPGDVFPEEFRHWLCADPRIGPLFEEMHADLFRADYWRALQNRIREGHVEDVYAYRRRQRFSVRYG 6k5p-a3-m1-cD_6k5p-a3-m1-cA Structure of mosquito-larvicidal Binary toxin receptor, Cqm1 B0X223 B0X223 1.805 X-RAY DIFFRACTION 41 1.0 7176 (Culex quinquefasciatus) 7176 (Culex quinquefasciatus) 529 531 6k5p-a3-m1-cB_6k5p-a3-m1-cC KDWYQHATFYQIYPRSFLDSNGDGIGDLAGITSKMKYLADIGIDATWLSPPFKSPLKDFGYDVSDFYAIQPEYGNLTDFDKLVEESHKNGIKLMLDFIPNHSSDQHEWFVKSVVRDPEYSDFYVWRPPATGGGPPNNWISVFGGSAWTYNQARGEYYLHQFTPQQPDLNYRNPKVLAEMTKMLFFWLDRGVDGFRLDAINHMFEDEQFRDEPLSGWGQPGEYDSLDHIYTKDIPDVYDVVYNWRDQMDKYSAEKGRTIILMTEAYSSIEGTMLYYESADRKRQGAHMPFNFQLIYDFKKEQNAVGLKSSIDWWMNNMPARHTPSWVAGSHDHSRVASRVGLDRVDQVMTLLHTLPGTSITYYGEEVAMQDFKEAQQFDNRDPNRTPMQWDSSTSAGFSTNTNTWLRVHPDYARYNVDVMQKNPQSTFHHFQHLTKLRRHRTMQSGEYVHKTVGTKVYALLRELRGEDSFLTVLNMAGAEDTVDLGDFVNLPQKMRVEVAQPNSKSKAGNEVDISKLTLGPYDSVVLRAT SKDWYQHATFYQIYPRSFLDSNGDGIGDLAGITSKMKYLADIGIDATWLSPPFKSPLKDFGYDVSDFYAIQPEYGNLTDFDKLVEESHKNGIKLMLDFIPNHSSDQHEWFVKSVVRDPEYSDFYVWRPPATGGGPPNNWISVFGGSAWTYNQARGEYYLHQFTPQQPDLNYRNPKVLAEMTKMLFFWLDRGVDGFRLDAINHMFEDEQFRDEPLSGWGQPGEYDSLDHIYTKDIPDVYDVVYNWRDQMDKYSAEKGRTIILMTEAYSSIEGTMLYYESADRKRQGAHMPFNFQLIYDFKKEQNAVGLKSSIDWWMNNMPARHTPSWVAGSHDHSRVASRVGLDRVDQVMTLLHTLPGTSITYYGEEVAMQDFKEAQQFDNRDPNRTPMQWDSSTSAGFSTNTNTWLRVHPDYARYNVDVMQKNPQSTFHHFQHLTKLRRHRTMQSGEYVHKTVGTKVYALLRELRGEDSFLTVLNMAGAEDTVDLGDFVNLPQKMRVEVAQPNSKSKAGNEVDISKLTLGPYDSVVLRATV 6k5p-a3-m1-cD_6k5p-a3-m1-cC Structure of mosquito-larvicidal Binary toxin receptor, Cqm1 B0X223 B0X223 1.805 X-RAY DIFFRACTION 84 1.0 7176 (Culex quinquefasciatus) 7176 (Culex quinquefasciatus) 529 531 6k5p-a1-m1-cA_6k5p-a1-m1-cB 6k5p-a2-m1-cD_6k5p-a2-m1-cC 6k5p-a3-m1-cA_6k5p-a3-m1-cB KDWYQHATFYQIYPRSFLDSNGDGIGDLAGITSKMKYLADIGIDATWLSPPFKSPLKDFGYDVSDFYAIQPEYGNLTDFDKLVEESHKNGIKLMLDFIPNHSSDQHEWFVKSVVRDPEYSDFYVWRPPATGGGPPNNWISVFGGSAWTYNQARGEYYLHQFTPQQPDLNYRNPKVLAEMTKMLFFWLDRGVDGFRLDAINHMFEDEQFRDEPLSGWGQPGEYDSLDHIYTKDIPDVYDVVYNWRDQMDKYSAEKGRTIILMTEAYSSIEGTMLYYESADRKRQGAHMPFNFQLIYDFKKEQNAVGLKSSIDWWMNNMPARHTPSWVAGSHDHSRVASRVGLDRVDQVMTLLHTLPGTSITYYGEEVAMQDFKEAQQFDNRDPNRTPMQWDSSTSAGFSTNTNTWLRVHPDYARYNVDVMQKNPQSTFHHFQHLTKLRRHRTMQSGEYVHKTVGTKVYALLRELRGEDSFLTVLNMAGAEDTVDLGDFVNLPQKMRVEVAQPNSKSKAGNEVDISKLTLGPYDSVVLRAT SKDWYQHATFYQIYPRSFLDSNGDGIGDLAGITSKMKYLADIGIDATWLSPPFKSPLKDFGYDVSDFYAIQPEYGNLTDFDKLVEESHKNGIKLMLDFIPNHSSDQHEWFVKSVVRDPEYSDFYVWRPPATGGGPPNNWISVFGGSAWTYNQARGEYYLHQFTPQQPDLNYRNPKVLAEMTKMLFFWLDRGVDGFRLDAINHMFEDEQFRDEPLSGWGQPGEYDSLDHIYTKDIPDVYDVVYNWRDQMDKYSAEKGRTIILMTEAYSSIEGTMLYYESADRKRQGAHMPFNFQLIYDFKKEQNAVGLKSSIDWWMNNMPARHTPSWVAGSHDHSRVASRVGLDRVDQVMTLLHTLPGTSITYYGEEVAMQDFKEAQQFDNRDPNRTPMQWDSSTSAGFSTNTNTWLRVHPDYARYNVDVMQKNPQSTFHHFQHLTKLRRHRTMQSGEYVHKTVGTKVYALLRELRGEDSFLTVLNMAGAEDTVDLGDFVNLPQKMRVEVAQPNSKSKAGNEVDISKLTLGPYDSVVLRATV 6k5s-a2-m1-cD_6k5s-a2-m1-cB Crystal structure of the Helical domain of S. pombe Tbf1 Q6E434 Q6E434 1.904 X-RAY DIFFRACTION 57 0.995 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 215 216 6k5s-a1-m2-cC_6k5s-a1-m1-cA LGSRTSLIPTLGNLSNIILSILGKPVQEASAIVTNPASEMGMAFTKVMNMFRMVKDIYTEESFIYSSAIGMRTPSQRSTTRRANLAIFLAAVYGALQIGFFHLNENFLEVFAPDESNILTNQGTLYMELKTQAYISAMAQAERPKGDILNDLFPSDMAHRFLIRRKLTYVEKQIIEKCTARKERLANFSPQEALNEVYPWGKFLSEIACYIHNNY GSRTSLIPTLGNLSNIILSILGKPVQEASAIVTNPASEMGMAFTKVMNMFRMVKDIYTEESFIYSSAIGMRTPSQRSTTRRANLAIFLAAVYGALQIGFFHLNENFLEVFAPDESNILTNQGTLYMELKTQAYISAMAQAERPKGDILNDLFPSDMAHRFLIRRNAKLTYVEKQIIEKCTARKERLANFSPQEALNEVYPWGKFLSEIACYIHNNY 6k5v-a1-m1-cB_6k5v-a1-m1-cA Structure of CSY4 Apo-form P20115 P20115 2.69 X-RAY DIFFRACTION 383 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 430 433 6k5v-a2-m1-cD_6k5v-a2-m1-cC 6k5v-a3-m1-cE_6k5v-a3-m1-cF LDLKSQLQELIPEQQDRLKKLKSEHGKVQLGNITVDMVIGGMRGMTGLLWETSLLDPEEGIRFRGLSIPECQKVLPTAQSGAEPLPEGLLWLLLTGKVPSKEQVEALSKDLANRAAVPDYVYNAIDALPSTAHPMTQFASGVMALQVQSEFQKAYENGIHKSKFWEPTYEDCLNLIARVPVVAAYVYRRMYKNGDSIPSDKSLDYGANFSHMLGFDDEKVKELMRLYITIHSDHEGGNVSAHTGHLVGSALSDPYLSFAAALNGLAGPLHGLANQEVLLWIKSVVEECGEDISKEQLKEYVWKTLNSGKVIPGYGHGVLRNTDPRYVCQREFALKHLPDDPLFQLVSKLYEVVPPVLTELGKVKNPWPNVDAHSGVLLNHYGLTEARYYTVLFGVSRSLGICSQLIWDRALGLALERPKSVTMDWLEAHC DLDLKSQLQELIPEQQDRLKKLKSEHGKVQLGNITVDMVIGGMRGMTGLLWETSLLDPEEGIRFRGLSIPECQKVLPTAQSGAEPLPEGLLWLLLTGKVPSKEQVEALSKDLANRAAVPDYVYNAIDALPSTAHPMTQFASGVMALQVQSEFQKAYENGIHKSKFWEPTYEDCLNLIARVPVVAAYVYRRMYKNGDSIPSDKSLDYGANFSHMLGFDDEKVKELMRLYITIHSDHEGGNVSAHTGHLVGSALSDPYLSFAAALNGLAGPLHGLANQEVLLWIKSVVEECGEDISKEQLKEYVWKTLNSGKVIPGYGHGVLRNTDPRYVCQREFALKHLPDDPLFQLVSKLYEVVPPVLTELGKVKNPWPNVDAHSGVLLNHYGLTEARYYTVLFGVSRSLGICSQLIWDRALGLALERPKSVTMDWLEAHCKK 6k62-a1-m1-cA_6k62-a1-m2-cB Crystal structure of Xanthomonas PcrK A0A0H2X6K9 A0A0H2X6K9 2.55 X-RAY DIFFRACTION 68 1.0 314565 (Xanthomonas campestris pv. campestris str. 8004) 314565 (Xanthomonas campestris pv. campestris str. 8004) 255 260 RRFDMVVRVLARNISERMYTFEHGLRGARGAVIGAGSDVISRDRFTRYSRSRDYPREFPGVLGYGYIHRVAAADEAAFLDAARADGAPDIQRRLLAPWDGERFIVLYFEPESSGNRPLGLDVASEPRRRIAAIAAARSGQPTMTSPVSLSGYQTPSEGGFLVLLPVYREGMPLQTPQQRMDATTGWAYAPLSVKQMLESTLGDRDDVAISLSDREDTQHTFYRSGIAAPESMRRAAHTQLLPIYGRTWVLTARPT ELERERRFDMVVRVLARNISERMYTFEHGLRGARGAVIGAGSDVISRDRFTRYSRSRDYPREFPGVLGYGYIHRVAAADEAAFLDAARADGAPDIQRRLLAPWDGERFIVLYFEPESSGNRPLGLDVASEPRRRIAAIAAARSGQPTMTSPVSLSGYQTPSEGGFLVLLPVYREGMPLQTPQQRMDATTGWAYAPLSVKQMLESTLGDRDDVAISLSDREDTQHTFYRSGIAAPESMRRAAHTQLLPIYGRTWVLTARPT 6k63-a2-m1-cD_6k63-a2-m1-cC The crystal structure of cytidine deaminase from Klebsiella pneumoniae A6TBN1 A6TBN1 2.073 X-RAY DIFFRACTION 136 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 291 292 6k63-a1-m1-cB_6k63-a1-m1-cA RFQAALTTLAADLQAAIAPMLADPHFPALLEADQVATLQHATGLDEDALAFALLPLAAACARPDLSHFNVGAIARGVSGRWYFGGNMEFLGATMQQTVHAEQSAISHAWLRGETSLRAITVNYTPCGHCRQFMNELNSGLALRIHLPGREAHALEHYLPDAFGPKDLEIKTLLMDEQDHGFPVSGDALTQAAIQAANRCHAPYSHSPSGVALELKDGTIFSGSYAENAAFNPTLPPLQGALNLLSLNGYDYPAIQRAILAEKADAALIQWDATVATLKALGCHNIERVLLG SRFQAALTTLAADLQAAIAPMLADPHFPALLEADQVATLQHATGLDEDALAFALLPLAAACARPDLSHFNVGAIARGVSGRWYFGGNMEFLGATMQQTVHAEQSAISHAWLRGETSLRAITVNYTPCGHCRQFMNELNSGLALRIHLPGREAHALEHYLPDAFGPKDLEIKTLLMDEQDHGFPVSGDALTQAAIQAANRCHAPYSHSPSGVALELKDGTIFSGSYAENAAFNPTLPPLQGALNLLSLNGYDYPAIQRAILAEKADAALIQWDATVATLKALGCHNIERVLLG 6k64-a1-m1-cA_6k64-a1-m1-cB Application of anti-helix antibodies in protein structure determination (8188-3LRH) 1.933 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 PVLTQSPSVSAAPRQRVTISVSGSNSNIGSNTVNWIQQLPGRAPELLMYDDDLLAPGVSDRFSGSRSGTSASLTISGLQSEDEADYYAATWDDSLNGWVFGGGTKVTVL PVLTQSPSVSAAPRQRVTISVSGSNSNIGSNTVNWIQQLPGRAPELLMYDDDLLAPGVSDRFSGSRSGTSASLTISGLQSEDEADYYAATWDDSLNGWVFGGGTKVTVL 6k6l-a1-m1-cA_6k6l-a1-m1-cB YGL082W-catalytic domain P53155 P53155 1.77 X-RAY DIFFRACTION 100 0.992 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 259 263 VTFLTKNVQINGTQFKILLQNGQGECALIALANVLLISPAHARYAQEISRLVRGKETVTLNELVQTLADMGVQNPKQQLLQILPQLYSGLNINPEFNGSFEDGVEMSIFRLYNVGIVHGWIIDGDNDPNSYEHVSKYSYMGAQKVLVQSYEIQKNNAQFENSEQIQSDAPYLKSFLARSATQLTEYGLTHLREILVERSYAVLFRNDHFCTLYKNNGELFTLVTDPTYRNRKDINWQSLKSVNGSQDSYYTGNFIPTSL VTFLTKNVQINGTQFKILLQNGQGECALIALANVLLISPAHARYAQEISRLVRGKETVTLNELVQTLADMGVQNPNGTDVDKQQLLQILPQLYSGLNINPEFNGSFEDGVEMSIFRLYNVGIVHGWIIDGDNDPNSYEHVSKYSYMGAQKVLVQSYEIQKNNAQFENSEQIQSDAPYLKSFLARSATQLTEYGLTHLREILVERSYAVLFRNDHFCTLYKNNGELFTLVTDPTYRNRKDINWQSLKSVNGSQDSYYTGNFIPT 6k6s-a1-m1-cB_6k6s-a1-m1-cA Structure of RNase J1 from Staphylococcus epidermidis Q8CT16 Q8CT16 2.993 X-RAY DIFFRACTION 44 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 441 443 HSNEVGVYALGGLGEVGKNTYAVEYKDEIVIIDAGIKFPDDNLLGIDYVIPDYTYLEQNQDKIVGLFITHGHEDHIGGVPFLLKQINVPIYGGPLALGLIRNKLEEHHLLRTTELHEIDESSVIKSKHFEISFYLTTHSIPEAYGVIVDTPEGKIVHTGDFKFDFTPVGEPANIAKMAQLGHEGVLCLLSDSTNALVPDFTLSEREVGQNVDKIFRNCKGRIIFATFASNIYRVQQAVEAAIKYNRKIVTFGRSMENNIKIGMELGYIKAPPETFIEPNKINSVPKHELLILCTGSQGEPMAALSRIANGTHKQIKIIPEDTVVFSSSPIPGNTKSINRTINALYKAGADVIHSKISNIHTSGHGSQGDQQLMLRLIQPKYFLPIHGEYRMLKAHGETGVQCGVDEDNVFIFDIGDVLALTHDSARKAGRIPSGNVLVDGS LHSNEVGVYALGGLGEVGKNTYAVEYKDEIVIIDAGIKFPDDNLLGIDYVIPDYTYLEQNQDKIVGLFITHGHEDHIGGVPFLLKQINVPIYGGPLALGLIRNKLEEHHLLRTTELHEIDESSVIKSKHFEISFYLTTHSIPEAYGVIVDTPEGKIVHTGDFKFDFTPVGEPANIAKMAQLGHEGVLCLLSDSTNALVPDFTLSEREVGQNVDKIFRNCKGRIIFATFASNIYRVQQAVEAAIKYNRKIVTFGRSMENNIKIGMELGYIKAPPETFIEPNKINSVPKHELLILCTGSQGEPMAALSRIANGTHKQIKIIPEDTVVFSSSPIPGNTKSINRTINALYKAGADVIHSKISNIHTSGHGSQGDQQLMLRLIQPKYFLPIHGEYRMLKAHGETGVQCGVDEDNVFIFDIGDVLALTHDSARKAGRIPSGNVLVDGSG 6k6t-a1-m1-cA_6k6t-a1-m1-cD Crystal structure of a standalone versatile EAL protein from Vibrio cholerae O395 - c-di-IMP bound form A0A0H3AJ04 A0A0H3AJ04 2.2 X-RAY DIFFRACTION 91 1.0 345073 (Vibrio cholerae O395) 345073 (Vibrio cholerae O395) 237 237 6ifq-a1-m1-cA_6ifq-a1-m1-cB 6ih1-a1-m1-cA_6ih1-a1-m1-cC 6ih1-a2-m1-cB_6ih1-a2-m1-cD 6ih7-a1-m1-cA_6ih7-a1-m1-cB 6ij2-a1-m1-cA_6ij2-a1-m1-cD 6ij2-a2-m1-cB_6ij2-a2-m1-cC 6k6t-a2-m1-cB_6k6t-a2-m2-cC SLDFDFTMAFQPIVNCRTKEIFGYEALVRGLNNESAYSVISRVNEDNRYLFDQMCRVKAIALAAKLGLTSKLSINFLPNAIYVPERCIRTTLEAAKRYQFPIENIMFEFTEAERVEDVNHIKRIVEYYKSLGFQTAIDDFGSGYSGLNLLADFQTNIVKVDMGLIRNIHADQVRQSIMKNCLKLFSDLNIQPLAEGVESHAEFAWLKAAGVELMQGYYFAKPGFESLPSVNPEFSEA SLDFDFTMAFQPIVNCRTKEIFGYEALVRGLNNESAYSVISRVNEDNRYLFDQMCRVKAIALAAKLGLTSKLSINFLPNAIYVPERCIRTTLEAAKRYQFPIENIMFEFTEAERVEDVNHIKRIVEYYKSLGFQTAIDDFGSGYSGLNLLADFQTNIVKVDMGLIRNIHADQVRQSIMKNCLKLFSDLNIQPLAEGVESHAEFAWLKAAGVELMQGYYFAKPGFESLPSVNPEFSEA 6k7c-a1-m1-cA_6k7c-a1-m1-cC Dimeric Shewanella violacea cytochrome c5 D4ZE39 D4ZE39 1.15 X-RAY DIFFRACTION 102 1.0 60217 (Shewanella violacea) 60217 (Shewanella violacea) 76 76 QEGKAVYDKACHICHSMGVAGAPKAHDAAAWEPRIAQGLDTLVSTVKTGKGAMPPGGMCTDCTDEDYKSAIEYMSK QEGKAVYDKACHICHSMGVAGAPKAHDAAAWEPRIAQGLDTLVSTVKTGKGAMPPGGMCTDCTDEDYKSAIEYMSK 6k7s-a1-m1-cA_6k7s-a1-m1-cB Crystal structure of thymidylate synthase from shrimp A0A423U5Z1 A0A423U5Z1 1.56 X-RAY DIFFRACTION 117 0.989 6689 (Penaeus vannamei) 6689 (Penaeus vannamei) 278 286 6k7q-a1-m1-cB_6k7q-a1-m1-cA 6k7q-a2-m1-cD_6k7q-a2-m1-cC 6k7q-a3-m1-cE_6k7q-a3-m1-cF 6k7q-a4-m1-cG_6k7q-a4-m1-cH 6k7q-a5-m1-cI_6k7q-a5-m1-cJ 6k7q-a6-m1-cK_6k7q-a6-m1-cL 6k7q-a7-m1-cM_6k7q-a7-m1-cN 6k7q-a8-m1-cP_6k7q-a8-m1-cO 6k7r-a1-m1-cA_6k7r-a1-m1-cB MRHDEYQYLDLIRQIMRTGNRKGDRTGTGTISMFGAQMRYSLRDGIFPLLTTKRVFWRGVAEELLWFVRGSTNAKELQEKDIHIWDGNSSREEGDLGPVYGFQWRHFGAPYADMHTDYTGQGVDQLQQVIDTIKNNPDDRRIIMCAWNPVDVPKMALPPCHCLCQFYVANGELSCQLYQRSADMGLGVPFNIASYALLTYMIAHVTDLKPGDFVHTLGDAHVYSNHCEALEEQLKREPRPFPSLKIKRKVENISDFKFEDFELDGYKPHPKIKMEMAV MRHDEYQYLDLIRQIMRTGNRKGTGTGTISMFGAQMRYSLRDGIFPLLTTKRVFWRGVAEELLWFVRGSTNAKELQEKDIHIWDGNSSKEFLNKMGFHDREEGDLGPVYGFQWRHFGAPYADMHTDYTGQGVDQLQQVIDTIKNNPDDRRIIMCAWNPVDVPKMALPPCHCLCQFYVANGELSCQLYQRSADMGLGVPFNIASYALLTYMIAHVTDLKPGDFVHTLGDAHVYSNHCEALEEQLKREPRPFPSLKIKRKVENISDFKFEDFELDGYKPHPKIKMEMA 6k7y-a1-m1-cJ_6k7y-a1-m1-cW Intact human mitochondrial calcium uniporter complex with MICU1/MICU2 subunits Q8IYU8 Q8IYU8 3.6 ELECTRON MICROSCOPY 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 319 319 6wdo-a1-m1-cR_6wdo-a1-m1-cT 6xjv-a1-m1-cR_6xjv-a1-m1-cT PSLRKQRFMQFSSLEHEGEYYMTPRDFLFSVMFEQMERKTSVKKLTKKDIEDTLSGIQTAGCGSTFFRDLGDKGLISYTEYLFLLTILTKPHSGFHVAFKMLDTDGNEMIEKREFFKLQKIISKQDDLMEINTTLQMRFFGKRGQRKLHYKEFRRFMENLQTEIQEMEFLQFSKGLSFMRKEDFAEWLLFFTNTENKDIYWKNVREKLSAGESISLDEFKSFCHFTTHLEDFAIAMQMFSLAHRPVRLAEFKRAVKVATGQELSNNILDTVFKIFDLDGDECLSHEEFLGVLKNRMHRGLWVPQHQSIQEYWKCVKKES PSLRKQRFMQFSSLEHEGEYYMTPRDFLFSVMFEQMERKTSVKKLTKKDIEDTLSGIQTAGCGSTFFRDLGDKGLISYTEYLFLLTILTKPHSGFHVAFKMLDTDGNEMIEKREFFKLQKIISKQDDLMEINTTLQMRFFGKRGQRKLHYKEFRRFMENLQTEIQEMEFLQFSKGLSFMRKEDFAEWLLFFTNTENKDIYWKNVREKLSAGESISLDEFKSFCHFTTHLEDFAIAMQMFSLAHRPVRLAEFKRAVKVATGQELSNNILDTVFKIFDLDGDECLSHEEFLGVLKNRMHRGLWVPQHQSIQEYWKCVKKES 6k88-a1-m1-cA_6k88-a1-m1-cB RGLG1 MIDAS binds calcium ion Q9SS90 Q9SS90 1.788 X-RAY DIFFRACTION 35 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 227 228 SNLIVGIDFTKSNEWTGAKSFNRKSLHHLSNTPNPYEQAITIIGRTLAAFDEDNLIPCYGFGDASTHDQDVFSFYPEGRFCNGFEEVLARYREIVPQLKLAGPTSFAPIIEMAMTVVEQSQYHVLVIIADGQVTRSVDTEHGRLSPQEQKTVDAIVKASTLPLSIVLVGVGDGPWDMMQEFDDNIPARAFDNFQFVNFTEIMSKNKDQSRKETEFALSALMEIPPQY SNLIVGIDFTKSNEWTGAKSFNRKSLHHLSNTPNPYEQAITIIGRTLAAFDEDNLIPCYGFGDASTHDQDVFSFYPEGRFCNGFEEVLARYREIVPQLKLAGPTSFAPIIEMAMTVVEQSGQYHVLVIIADGQVTRSVDTEHGRLSPQEQKTVDAIVKASTLPLSIVLVGVGDGPWDMMQEFDDNIPARAFDNFQFVNFTEIMSKNKDQSRKETEFALSALMEIPPQY 6k8e-a1-m1-cA_6k8e-a1-m1-cD Global regulatory element SarX Q2G0D1 Q2G0D1 2.002 X-RAY DIFFRACTION 26 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 112 114 5hs5-a1-m1-cA_5hs5-a1-m1-cB ETLLGFYKQYKALSEYIDKKYKLSLNDLAVLDLTMKHCKDEKVLMQSFLKTAMDELDLSRTKLLVSIRRLIEKERLSKVRSSKDERKIYIYLNNDDISKFNALFEDVEQFLN KLETLLGFYKQYKALSEYIDKKYKLSLNDLAVLDLTMKHCKDEKVLMQSFLKTAMDELDLSRTKLLVSIRRLIEKERLSKVRSSKDERKIYIYLNNDDISKFNALFEDVEQFLN 6k8h-a1-m1-cA_6k8h-a1-m1-cB Crystal structure of an omega-transaminase from Sphaerobacter thermophilus D1C218 D1C218 1.9 X-RAY DIFFRACTION 414 1.0 479434 (Sphaerobacter thermophilus DSM 20745) 479434 (Sphaerobacter thermophilus DSM 20745) 438 441 GNVYREPGSAAADLFERARRVLPGGNTRTTVYSAPYPPYAARGRGAVIVDADGEERLDFVNNYTALIHGHADPDINEAVIRQLADGVAFAMPTEHEIALAELLTERVPSLQQVRFTNSGTEAVMMAIKAARAYTGRPRIAKFDGCYHGSYDFAEVSTQSSGKPGEDGFPVATPYTGGTPQAVLDSVVVLPFNDIDGTERLIEQHRDELAAVLIDPNPRSLGLYPAEPAFLQRLREITRAYGIVLIFDEVISLRSDYGGMQSVLGVTPDLTAMGKIIGGGFPVGAVGGSAEVMSVFDPTGGPPRAPHGGTFNANPVTMVAGLTAMRKLTPAEFDRLATLGQQLRAGVEEVLREAGVPGQVTGYGSLFHIHLHQRPLADYRNSVLSAQERAFVGRVHEALMGRGIFITPALFGCLSTPMGVPEVEAFVDAFAAALQDARG GGNVYREPGSAAADLFERARRVLPGGNTRTTVYSAPYPPYAARGRGAVIVDADGEERLDFVNNYTALIHGHADPDINEAVIRQLADGVAFAMPTEHEIALAELLTERVPSLQQVRFTNSGTEAVMMAIKAARAYTGRPRIAKFDGCYHGSYDFAEVSTQSSGKPGEDGFPVATPYTGGTPQAVLDSVVVLPFNDIDGTERLIEQHRDELAAVLIDPNPRSLGLYPAEPAFLQRLREITRAYGIVLIFDEVISLRSDYGGMQSVLGVTPDLTAMGKIIGGGFPVGAVGGSAEVMSVFDPTGGPPRAPHGGTFNANPVTMVAGLTAMRKLTPAEFDRLATLGQQLRAGVEEVLREAGVPGQVTGYGSLFHIHLHQRPLADYRNSVLSAQERAFVGRVHEALMGRGIFITPALFGCLSTPMGVPEVEAFVDAFAAALQDARGLE 6k8s-a1-m1-cA_6k8s-a1-m1-cB Crystal structure of C-domain of baterial malonyl-CoA reductase A0A1A7BFR5 A0A1A7BFR5 1.8 X-RAY DIFFRACTION 206 1.0 1300349 (Erythrobacter dokdonensis DSW-74) 1300349 (Erythrobacter dokdonensis DSW-74) 662 662 6k8t-a1-m1-cA_6k8t-a1-m1-cB 6k8u-a1-m1-cB_6k8u-a1-m1-cA FSENITGLHLGKVALITGGSAGIGGQVARLLALAGGKVMMVARRESELAVARARIVSELEDIGFAGVERRVQTLANVDVSNFESLKGAVDATLKAFGRIDYLINNAGVAGAEDMVVDMGVDAWDYTLDANLVSNYFLMHHVAPLMKAQGSGYILNVSSYFGGEKYLAVAYPNRADYAVSKAGQRAMVESMARYLGPEVQFNAIAPGPVDGDRLSGTGGKPGLFERRGKLILENKRLNAVHAAAIKAIRRGVRVEAVLARLARNDTVKMSHDTNNPRELRELALACAREGDGTCTWDQYLLTPQIAAALVSRLRQAGLFLDAPEWSERPVTEDGDWLLRVPPEDAPFLPADKIAAEAKKVGGGVLSKLYLGKMPTEHDVAQATVFFLADRAVSGETFMPSGGLSVERSTTERELFGSPKQERLDQMRGKTVWIIGEHLVDYLAETARAFIEDCHAANVVLITRTAEGFDAVEAQLDEDVAQSLTSLVVSSDIEAAMDEALSQWGRPTTILSTPFTALPGKLFEAQDPLTPDEFREVVADNLTHHFRVSRRASLYDDCQLVLTSPDVAMGDKSPAFALANFIKTTLHAFTATLAVENERLVHDVPVNQINLTRRVQSEEPRDLDEHLEEVRRFARAVLLVGAPLPDAEDSRYRARIYRGMSMTV FSENITGLHLGKVALITGGSAGIGGQVARLLALAGGKVMMVARRESELAVARARIVSELEDIGFAGVERRVQTLANVDVSNFESLKGAVDATLKAFGRIDYLINNAGVAGAEDMVVDMGVDAWDYTLDANLVSNYFLMHHVAPLMKAQGSGYILNVSSYFGGEKYLAVAYPNRADYAVSKAGQRAMVESMARYLGPEVQFNAIAPGPVDGDRLSGTGGKPGLFERRGKLILENKRLNAVHAAAIKAIRRGVRVEAVLARLARNDTVKMSHDTNNPRELRELALACAREGDGTCTWDQYLLTPQIAAALVSRLRQAGLFLDAPEWSERPVTEDGDWLLRVPPEDAPFLPADKIAAEAKKVGGGVLSKLYLGKMPTEHDVAQATVFFLADRAVSGETFMPSGGLSVERSTTERELFGSPKQERLDQMRGKTVWIIGEHLVDYLAETARAFIEDCHAANVVLITRTAEGFDAVEAQLDEDVAQSLTSLVVSSDIEAAMDEALSQWGRPTTILSTPFTALPGKLFEAQDPLTPDEFREVVADNLTHHFRVSRRASLYDDCQLVLTSPDVAMGDKSPAFALANFIKTTLHAFTATLAVENERLVHDVPVNQINLTRRVQSEEPRDLDEHLEEVRRFARAVLLVGAPLPDAEDSRYRARIYRGMSMTV 6k8v-a1-m1-cA_6k8v-a1-m1-cB Crystal structure of N-domain of baterial malonyl-CoA reductase A0A1A7BFR5 A0A1A7BFR5 2.2 X-RAY DIFFRACTION 156 1.0 1300349 (Erythrobacter dokdonensis DSW-74) 1300349 (Erythrobacter dokdonensis DSW-74) 545 545 6k8w-a1-m1-cA_6k8w-a1-m1-cB PGRLAGKIAVVTGAAGNLGGHIVTHYLAEGATVVMTGRTPDRTKAAADALLKSTGADPSRLATVALDGGDIASVRAAIAEVVQKFGRIDILVNNAGSAGPKQPIENLPLSPEELAALQKTGSTDSETVADALRNIFGVAWNVARVAAPHIPEGGSIINVSTIFSRTPYYARAAYVVPKAAMNAWSRELSLELGPKGIRVNLVYPGPIESERIRSVFAAMDAARGDEAGTTATQFFDMMSLERATGGNEKAKTFPTPEDIATTCVFLGSDESAAYNGHDFEVTHGMSVRKEQRSTYLARPTMRSMDGTGLAVLIAAGDDWEEALEIAQVQLACGAQVVLGLPRAADVAIAEKRCKALGLTEGLSIIRFSRKDPAAMEAALEEYTRGGTPISGALFMPALGAGELSGAVTEAEDNAVEALMDAELAGNMALARTMSRYWKRHDNLLQPPRFVFVSHASDGKGDIYGHILRAATEQLIRIWRDESEIDTAHGRRRQAEWGNQIVRFTNTEAENIRFTAGHAARILLKESKLGEITLYVPANIGEATGA PGRLAGKIAVVTGAAGNLGGHIVTHYLAEGATVVMTGRTPDRTKAAADALLKSTGADPSRLATVALDGGDIASVRAAIAEVVQKFGRIDILVNNAGSAGPKQPIENLPLSPEELAALQKTGSTDSETVADALRNIFGVAWNVARVAAPHIPEGGSIINVSTIFSRTPYYARAAYVVPKAAMNAWSRELSLELGPKGIRVNLVYPGPIESERIRSVFAAMDAARGDEAGTTATQFFDMMSLERATGGNEKAKTFPTPEDIATTCVFLGSDESAAYNGHDFEVTHGMSVRKEQRSTYLARPTMRSMDGTGLAVLIAAGDDWEEALEIAQVQLACGAQVVLGLPRAADVAIAEKRCKALGLTEGLSIIRFSRKDPAAMEAALEEYTRGGTPISGALFMPALGAGELSGAVTEAEDNAVEALMDAELAGNMALARTMSRYWKRHDNLLQPPRFVFVSHASDGKGDIYGHILRAATEQLIRIWRDESEIDTAHGRRRQAEWGNQIVRFTNTEAENIRFTAGHAARILLKESKLGEITLYVPANIGEATGA 6k90-a1-m1-cB_6k90-a1-m1-cA Pyridoxal Kinase from Leishmania donovani in complex with ADP and Pyridoxamine A0A3S7X3C0 A0A3S7X3C0 1.9 X-RAY DIFFRACTION 122 0.993 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 287 295 6k8z-a1-m1-cA_6k8z-a1-m1-cB 6k91-a1-m1-cB_6k91-a1-m1-cA 6k92-a1-m1-cA_6k92-a1-m1-cB DKHVLSIQSHVTHGYVGNKAATFPLQLHGFDVDAINTVSLSNHSGYPVIKGHRMDLEEFTTIMEGLRANDFLSDYAYVLTGYINNRDIVRQVAATVAEIREARQKQGKKDAVFFCDPVMGDDGRLYCKEEVVEAYRELLTHADVATPNYFEASILSTVEVKDLASAIEAANWFHTQGTPTVVIKSFAMADDPTHLRFLLSCRDTGSTKRYTGVVPYHEGRYTGTGDVFAASLVAFAHSDPMDLAVGKAMGVLQDLIKATIERRELRVTSYPDRLQHPSSVALVTPLP DKHVLSIQSHVTHGYVGNKAATFPLQLHGFDVDAINTVSLSNHSGYPVIKGHRMDLEEFTTIMEGLRANDFLSDYAYVLTGYINNRDIVRQVAATVAEIREARQKQGKKDAVFFCDPVMGDDGRLYCKEEVVEAYRELLTHADVATPNYFEASILSTVEVKDLASAIEAANWFHTQGTPTVVIKSFADDPTHLRFLLSCRDTGSTKRYTGVVPYHEGRYTGTGDVFAASLVAFAHSDPMDLAVGKAMGVLQDLIKATIERGGSGKATLSSRELRVTSYPDRLQHPSSVALVTPLP 6k95-a2-m1-cB_6k95-a2-m2-cC Crystal structural of human glutathione-specific gamma-glutamylcyclotransferase 2 (ChaC2) Q8WUX2 Q8WUX2 2.29 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 172 174 6k95-a1-m1-cA_6k95-a1-m3-cA WVFGYGSLIWKVDFPYQDKLVGYITNYSRRFWQGSTDHRGVPGKPGRVVTLVEDPAGCVWGVAYRLPVGKEEEVKAYLDFGEGYRTTTVIFYPKDPTTKPFSVLLYIGTCDNPDYLGPAPLEDIAEQIFNAAGPSGRNTEYLFELANSIRNLVPEEADEHLFALEKLVKERL MWVFGYGSLIWKVDFPYQDKLVGYITNYSRRFWQGSTDHRGVPGKPGRVVTLVEDPAGCVWGVAYRLPVGKEEEVKAYLDFGEGYRTTTVIFYPKDPTTKPFSVLLYIGTCDNPDYLGPAPLEDIAEQIFNAAGPSGRNTEYLFELANSIRNLVPEEADEHLFALEKLVKERLE 6k96-a1-m1-cB_6k96-a1-m2-cB Crystal structure of Ari2 A0A1B4ZC85 A0A1B4ZC85 2.5 X-RAY DIFFRACTION 158 1.0 212427 (Streptomyces citricolor) 212427 (Streptomyces citricolor) 343 343 6k96-a1-m1-cA_6k96-a1-m2-cA ESIRLAVAGVGNNISALFQGAELYRKMSAEGVAEADFPGIKRPRIGGIGVSDLTFVAAFDLHPNKVGVPFKDAVLAEPNNYPLLGVELPDPGFSVDAGLTEEDADPSSPAFRRIVERLRESKAEVLLYSLPTGLQWAAIAYARAALEAKVAFVNCTPELVARTPELLEEFEKAGVPLIGDDLASHLGTSVVHRALLGLLSERGLSLASSYQLNLGGNEDFRNLRRQSKINALAVDTSNVEVIPSAGYVAHLKDHKVAMLNIEGLGWAGTPVSIDLKLKVQDSSNAAGVIIDLIRIAAAARRVGFGGFSAAAVKVLKSPAGGHPSYTSEDVAEAYRQLDAVTEA ESIRLAVAGVGNNISALFQGAELYRKMSAEGVAEADFPGIKRPRIGGIGVSDLTFVAAFDLHPNKVGVPFKDAVLAEPNNYPLLGVELPDPGFSVDAGLTEEDADPSSPAFRRIVERLRESKAEVLLYSLPTGLQWAAIAYARAALEAKVAFVNCTPELVARTPELLEEFEKAGVPLIGDDLASHLGTSVVHRALLGLLSERGLSLASSYQLNLGGNEDFRNLRRQSKINALAVDTSNVEVIPSAGYVAHLKDHKVAMLNIEGLGWAGTPVSIDLKLKVQDSSNAAGVIIDLIRIAAAARRVGFGGFSAAAVKVLKSPAGGHPSYTSEDVAEAYRQLDAVTEA 6k96-a1-m2-cA_6k96-a1-m2-cB Crystal structure of Ari2 A0A1B4ZC85 A0A1B4ZC85 2.5 X-RAY DIFFRACTION 41 0.997 212427 (Streptomyces citricolor) 212427 (Streptomyces citricolor) 333 343 6k96-a1-m1-cA_6k96-a1-m1-cB ESIRLAVAGVGNNISALFQGAELYRKMSAEGVAEADFPGIKRPRIGGIGVSDLTFVAAFDLHPNKVGVPFKDAVLAEPNNYPLLGVELPDPGFSVDAGLTEEDADPSSPAFRRIVERLRESKAEVLLYSLPTGLQWAAIAYARAALEAKVAFVNCTPELVARTPELLEEFEKAGVPLIGDDLASHLGTSVVHRALLGLLSERGLSLASSYQLNLGGNEDFRNLRTSNVEVIPSAGYVAHLKDHKVAMLNIEGLGWAGTPVSIDLKLKVQDSSNAAGVIIDLIRIAAAARRVGFGGFSAAAVKVLKSPAGGHPSYTSEDVAEAYRQLDAVTEAM ESIRLAVAGVGNNISALFQGAELYRKMSAEGVAEADFPGIKRPRIGGIGVSDLTFVAAFDLHPNKVGVPFKDAVLAEPNNYPLLGVELPDPGFSVDAGLTEEDADPSSPAFRRIVERLRESKAEVLLYSLPTGLQWAAIAYARAALEAKVAFVNCTPELVARTPELLEEFEKAGVPLIGDDLASHLGTSVVHRALLGLLSERGLSLASSYQLNLGGNEDFRNLRRQSKINALAVDTSNVEVIPSAGYVAHLKDHKVAMLNIEGLGWAGTPVSIDLKLKVQDSSNAAGVIIDLIRIAAAARRVGFGGFSAAAVKVLKSPAGGHPSYTSEDVAEAYRQLDAVTEA 6k97-a1-m1-cB_6k97-a1-m1-cA Crystal structure of fusion DH domain X5IY86 X5IY86 2.5 X-RAY DIFFRACTION 80 0.996 1321967 (Streptomyces sp. MJ635-86F5) 1321967 (Streptomyces sp. MJ635-86F5) 267 272 AAGLGLEATEHPLLATATELPDGGYLFTGRLALREHPWLADHTIAGTTIVPGTAFVELALHAADIAGCDEITELVLHTPLVLSTQSSSLLQVAVGPADPSGARSLTIRSHGEDVRLWVEHADGSIGPDAWDTAGLYARLADRGFQYGETFRGLRAAWSSGEDIYADVEVGAPASSPKPEAFHVHPALLDAALHAALGPLLDGGLFLPFALRRVRVHHSGAKSLRVHITPDGDKSVSLSAVDAAGNAVVSVGSVALRPVSSAQLAAAA AAGLGLEATEHPLLATATELPDGGYLFTGRLALREHPWLADHTIAGTTIVPGTAFVELALHAADIAGCDEITELVLHTPLVLSTQSSSLLQVAVGPADPSGARSLTIRSHGEDVRLWVEHADGSIGPPPGGDAWDTAGLYARLADRGFQYGETFRGLRAAWSSGEDIYADVEVGAPASSPKPEAFHVHPALLDAALHAALGPLLDGEEGLFLPFALRRVRVHHSGAKSLRVHITPDGDKSVSLSAVDAAGNAVVSVGSVALRPVSSAQLAAA 6k9l-a1-m1-cB_6k9l-a1-m1-cA 4.27 Angstrom resolution cryo-EM structure of human dimeric ATM kinase Q13315 Q13315 4.27 ELECTRON MICROSCOPY 190 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2551 2552 5np0-a1-m1-cA_5np0-a1-m1-cB SLVLNDLLICCRQLEHDRATERKKEVEKFKRLIRDPETIKHLDRDAVFRFLQKYIQKETECLRIAKKKMQEISSLVKYFIKCANRRAPRLKCQELLNYIMDTVKSNILLKDILSVRKYWCEISQQQWLELFSVYFRLYLKPSQDVHRVLVARIIHAVTKGCCSQTDGLNSKFLDFFSKAIQCARQEKSSSGLNHILAALTIFLKTLAVNFRIRVCELGDEILPTLLYIWTQHRLNDSLKEVIIELFQLQIYSTKWRSILYNLYDLLVNEISHNIAVKENLIELMADICHQVFNPWLQIATQLISKLSPLLMILSQLLPQQRHGERTPYVLRCLTEVALCQDKRSNLESSQKSDLLKLWNKIWCITFRGISSEQIQAENFGLLGAIIQGSLVEVDREFWKLFTGSACRPAVCCLTLALTTSVKMGIEQNMCEVNRSFSLKESIMKWLLFYQLEGDLENFPHLVLEKILVSLTMKNCKAAMNFFQSVPECEHHQKDKEELSFSEVEELFLQTTFDKMDFLTFSVHQNLKESLDRCLLGLSEQLLNNYSSEITNSETLVRCSRLLVGVLGCYCYMGVIAEEEAYKSELFQKAKSLMQCAGESITASFIKKPFDRGEVESMEDDTNGNLMEVEDQSSMNLFNDYSQSTIGAINPLAEEYLAADIRRKLLMLIDSHLHMYLMLLKELPGEEYPLPMEDVLELLKPLSNVCSLYRRCKTILNHVLHVVKNLGQSNMDSENTRDAQGQFLTVIGAFKYIFSVRMALVNCLKTLLEADPYSKWAILNVMGKDFPVNEVFTQFLADNHHQVRMLAAESSRLLKALPLKLQQTAFENAYLKAQEGMREMSHSAENPETLDEIYNRKSVLLTLIAVVLSCSPICEKQALFALCVKKVLEKVSETFGMASHLDYLVLEWLFILLNYTNIEDFYRSCYKVLIPHLVIRSHFDEVKSIQEDWKSLLTDCFPKILVNILPYFAYEGTRDSGMAQQHLFISNLPEIVVELLMTLHEPANSSASQSTDLCDFSGDLDPAPNPPHFPSHVIKATFAYISNCHKTKLSKSPDSYQKILLAICEQAAETNNVYKKHRILKIYHLFVSLLLKDIKSGLGGAWAFVLRDVIYTLIHYINQRPSCIMDVSLRSFSLCCDLLSQVALENHLHVIVGTLIPLVYEQVEVQKQVLDLLKYLVIDNKDNENLYITIKLLDPFPDHVVFKDLRITQQKIKYSRGLEEINHFLSVSVYDALPLTRLEGLKDLRRQLELHKDQMVDIMRASQDNPQDGIMVKLVVNLLQLSKMAINHTGEKEVLEAVGSCLGEVGPIDFSTIAIQHSKDASYTKALKLFEDKELQWTFIMLTYLNNTLVEDCVKVRSAAVTCLKNILATKTGHSFWEIYKMTTDPMLAYLQPFRTSPLSENHDIWIKTLTCAFLDSGGTKCEILQLLKPMCEVKTDFCQTVLPYLIHDILLQDTNESWRNLLSTHVQGFFTSCLRFSQTSRSTTPANLDSESEHFFRCCLDKKSQRTMLAVVDYMRRQKRPSSGTIFNDAFWLDLNYLEVAKVAQSCAAHFTALLYAEIYADKKSMDDQEEETGISLQDLLLEIYRSIGEPDSLYGCGGGKMLQPITRLRTYEHEAMWGKALVTYDLETAIPSSTRQAGIIQALQNLGLCHILSVYLKGLDYELEELHYQAAWRNMQWDHCTSVSSYHESLYNALQSLRDREFSTFYESLKYARVKEVEEMCKRSLESVYSLYPTLSRLQAIGELESIGELFSRSVTHRQLSEVYIKWQKHSQLLKDSDFSFQEPIMALRTVILEILMEKEMDNSQRECIKDILTKHLVELSILARTFKNTQLPERAIFQIKQYNSVSCGVSEWQLEEAQVFWAKKEQSLALSILKQMIKKLDASCAPSLKLTYTECLRVCGNWLAETCLENPAVIMQTYLEKAVEVASDELRNGKMKAFLSLARFSDTQYQRIENYMKSSEFENKQALLKRAKRYTVKVQRELELDELALRALKEDRKRFLCKAVENYINCLLSGEEHDMWVFRLCSLWLENSGVSEVNGMMKRDGMKIPTYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLISRISMDHPHHTLFIILALANANRDEFLDEDRTEAANRIICTIRSRRPQMVRSVEALCDAYIILANLDATQWKTQRKGINIPADQPITKLKNLEDVVVPTMEIKVDHTGEYGNLVTIQSFKAEFRLAGGVNLPKIIDCVGSDGKERRQLVKGRDDLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEFLVNNEDGAHKRYRPNDFSAFQCQKKMMEVQKFEEKYEVFMDVCQNFQPVFRYFCMEKFLDPAIWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMEVMRNSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQRPEDETELDQSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAIDPKNLSRLFPGWKA SLVLNDLLICCRQLEHDRATERKKEVEKFKRLIRDPETIKHLDRDAVFRFLQKYIQKETECLRIAKKKMQEISSLVKYFIKCANRRAPRLKCQELLNYIMDTVKDSNILLKDILSVRKYWCEISQQQWLELFSVYFRLYLKPSQDVHRVLVARIIHAVTKGCCSQTDGLNSKFLDFFSKAIQCARQEKSSSGLNHILAALTIFLKTLAVNFRIRVCELGDEILPTLLYIWTQHRLNDSLKEVIIELFQLQIYSTKWRSILYNLYDLLVNEISHNIAVKENLIELMADICHQVFNPWLQIATQLISKLSPLLMILSQLLPQQRHGERTPYVLRCLTEVALCQDKRSNLESSQKSDLLKLWNKIWCITFRGISSEQIQAENFGLLGAIIQGSLVEVDREFWKLFTGSACRPAVCCLTLALTTSVKMGIEQNMCEVNRSFSLKESIMKWLLFYQLEGDLENFPHLVLEKILVSLTMKNCKAAMNFFQSVPECEHHQKDKEELSFSEVEELFLQTTFDKMDFLTFSVHQNLKESLDRCLLGLSEQLLNNYSSEITNSETLVRCSRLLVGVLGCYCYMGVIAEEEAYKSELFQKAKSLMQCAGESITASFIKKPFDRGEVESMEDDTNGNLMEVEDQSSMNLFNDYSQSTIGAINPLAEEYLAADIRRKLLMLIDSHLHMYLMLLKELPGEEYPLPMEDVLELLKPLSNVCSLYRRCKTILNHVLHVVKNLGQSNMDSENTRDAQGQFLTVIGAFKYIFSVRMALVNCLKTLLEADPYSKWAILNVMGKDFPVNEVFTQFLADNHHQVRMLAAESSRLLKALPLKLQQTAFENAYLKAQEGMREMSHSAENPETLDEIYNRKSVLLTLIAVVLSCSPICEKQALFALCVKKVLEKVSETFGMASHLDYLVLEWLFILLNYTNIEDFYRSCYKVLIPHLVIRSHFDEVKSIQEDWKSLLTDCFPKILVNILPYFAYEGTRDSGMAQQHLFISNLPEIVVELLMTLHEPANSSASQSTDLCDFSGDLDPAPNPPHFPSHVIKATFAYISNCHKTKLSKSPDSYQKILLAICEQAAETNNVYKKHRILKIYHLFVSLLLKDIKSGLGGAWAFVLRDVIYTLIHYINQRPSCIMDVSLRSFSLCCDLLSQVALENHLHVIVGTLIPLVYEQVEVQKQVLDLLKYLVIDNKDNENLYITIKLLDPFPDHVVFKDLRITQQKIKYSRGLEEINHFLSVSVYDALPLTRLEGLKDLRRQLELHKDQMVDIMRASQDNPQDGIMVKLVVNLLQLSKMAINHTGEKEVLEAVGSCLGEVGPIDFSTIAIQHSKDASYTKALKLFEDKELQWTFIMLTYLNNTLVEDCVKVRSAAVTCLKNILATKTGHSFWEIYKMTTDPMLAYLQPFRTSPLSENHDIWIKTLTCAFLDSGGTKCEILQLLKPMCEVKTDFCQTVLPYLIHDILLQDTNESWRNLLSTHVQGFFTSCLRFSQTSRSTTPANLDSESEHFFRCCLDKKSQRTMLAVVDYMRRQKRPSSGTIFNDAFWLDLNYLEVAKVAQSCAAHFTALLYAEIYADKKSMDDQEEETGISLQDLLLEIYRSIGEPDSLYGCGGGKMLQPITRLRTYEHEAMWGKALVTYDLETAIPSSTRQAGIIQALQNLGLCHILSVYLKGLDYELEELHYQAAWRNMQWDHCTSVSSYHESLYNALQSLRDREFSTFYESLKYARVKEVEEMCKRSLESVYSLYPTLSRLQAIGELESIGELFSRSVTHRQLSEVYIKWQKHSQLLKDSDFSFQEPIMALRTVILEILMEKEMDNSQRECIKDILTKHLVELSILARTFKNTQLPERAIFQIKQYNSVSCGVSEWQLEEAQVFWAKKEQSLALSILKQMIKKLDASCAPSLKLTYTECLRVCGNWLAETCLENPAVIMQTYLEKAVEVASDELRNGKMKAFLSLARFSDTQYQRIENYMKSSEFENKQALLKRAKRYTVKVQRELELDELALRALKEDRKRFLCKAVENYINCLLSGEEHDMWVFRLCSLWLENSGVSEVNGMMKRDGMKIPTYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLISRISMDHPHHTLFIILALANANRDEFLDEDRTEAANRIICTIRSRRPQMVRSVEALCDAYIILANLDATQWKTQRKGINIPADQPITKLKNLEDVVVPTMEIKVDHTGEYGNLVTIQSFKAEFRLAGGVNLPKIIDCVGSDGKERRQLVKGRDDLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEFLVNNEDGAHKRYRPNDFSAFQCQKKMMEVQKFEEKYEVFMDVCQNFQPVFRYFCMEKFLDPAIWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMEVMRNSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQRPEDETELDQSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAIDPKNLSRLFPGWKA 6k9z-a1-m1-cB_6k9z-a1-m1-cA STRUCTURE OF URIDYLYLTRANSFERASE MUTANT Q8ZXN7 Q8ZXN7 1.78 X-RAY DIFFRACTION 220 1.0 178306 (Pyrobaculum aerophilum str. IM2) 178306 (Pyrobaculum aerophilum str. IM2) 301 309 6k5z-a1-m1-cA_6k5z-a1-m1-cB MEIRKDPFTGEYILVSPCPFCPGAPETGRGWDVLILPNRYPVVTENPPEPTAEDLYEVIPARGSSLVVVETPQHDVDDLSDLPLGQIKKILTAVAEAQRKAEKEGNAAYFLFFRNKGKEIGVSLTHPFSQIYILPVVPPRVRAELQASYEWYVKHGSCLHCRIVEKEEKRLVFQNRNWKAFVPFYAKWPHEVHIYPKRHRSLLTELTDEEVADLAEALKITLCALKQVAGIPMPYIMVLHQAPLPRPTQYYHLHFEIYGMYRPDGKLKHAAGAELGASLFTLDTTPEETAARIKAALQKCL MEIRKDPFTGEYILVSPQPEGACPFCPGAPETGRGWDVLILPNRYPVVTENPPEPTAEDLYEVIPARGSSLVVVETPQHDVDDLSDLPLGQIKKILTAVAEAQRKAEKEGNAAYFLFFRNKGKEIGVSLTHPFSQIYILPVVPPRVRAELQASYEWYVKHGSCLHCRIVEKEEKRLVFQNRNWKAFVPFYAKWPHEVHIYPKRHRSLLTELTDEEVADLAEALKITLCALKQVAGIPMPYIMVLHQAPLPRPTQYYHLHFEIYGMYRPDGKLKHAAGAELGASLFTLDTTPEETAARIKAALQKCLKHS 6ka2-a2-m1-cD_6ka2-a2-m1-cC Crystal structure of a Thebaine synthase from Papaver somniferum in complex with TBN A0A2U9GGW3 A0A2U9GGW3 2.35 X-RAY DIFFRACTION 64 1.0 3469 (Papaver somniferum) 3469 (Papaver somniferum) 145 150 6ka2-a1-m1-cA_6ka2-a1-m1-cB 6ka3-a1-m1-cA_6ka3-a1-m1-cB 6ka3-a2-m1-cD_6ka3-a2-m1-cC SGLVGKLSTELEVDCDAEKYYNMYKHGEDVKKAVPHLCVDVKIISGDPTSSGCIKEWNVNIDGKTIRSVEETTHDDETKTLRHRVFEGDVMKDFKKFDTIMVVNPKGCVVTRSIEYEKTNENSPTPFDYLQFGHQAIEDMNKYLR SGLVGKLSTELEVDCDAEKYYNMYKHGEDVKKAVPHLCVDVKIISGDPTSSGCIKEWNVNIDGKTIRSVEETTHDDETKTLRHRVFEGDVMKDFKKFDTIMVVNPKPDGNGCVVTRSIEYEKTNENSPTPFDYLQFGHQAIEDMNKYLRD 6ka4-a1-m1-cA_6ka4-a1-m1-cD Cryo-EM structure of the AtMLKL3 tetramer Q9LMN2 Q9LMN2 3.4 ELECTRON MICROSCOPY 63 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 534 534 6ka4-a1-m1-cB_6ka4-a1-m1-cC MDQFREIGEVLGSIRALMVFKDSIQINQRQCSLLLDLFTAAYESISVSMRSNLRFKEKNTKWKILEQPLRELLWVVREGEAYVRMSLEPKLGFWAKAIVLHSNRDCTELHIHNLLSCLPIIVEAIETASEVSGWDEEEMSKKRLVHSNKYMKQWNDSQMFTWKFGREYLVTEDFCNRFESAWTEDRWILIKELQEKKQSGSSKHERKMADFLLKHLGDGNESPKLFPSSLLDNTKDYQVKKRLQYKEITWLGESFALRHFFGDIDALLPQITPLLSLSHPNIVYYLCGFTDEEKKECFLVMELMRKTLGMHIKEVCTLSLPVAVDLMLQIALGMEYLHSKRIYHGELNPSNILVKPRSNQSGDGYLLGKIFGFGLNSVPFIWYSPEVLEEQKYSDKSDVYSFGMVSFELLTGKVPFEDSHLQGDKMSRNIRAGERPLFPFNSPKFITNLTKRCWHADPNQRPTFSSISRILRYIKRFLALNPECYSSIAPTVDYCEIETKLLQKLSWESTELTKVSQVPFQMFAYRVVERAKTC MDQFREIGEVLGSIRALMVFKDSIQINQRQCSLLLDLFTAAYESISVSMRSNLRFKEKNTKWKILEQPLRELLWVVREGEAYVRMSLEPKLGFWAKAIVLHSNRDCTELHIHNLLSCLPIIVEAIETASEVSGWDEEEMSKKRLVHSNKYMKQWNDSQMFTWKFGREYLVTEDFCNRFESAWTEDRWILIKELQEKKQSGSSKHERKMADFLLKHLGDGNESPKLFPSSLLDNTKDYQVKKRLQYKEITWLGESFALRHFFGDIDALLPQITPLLSLSHPNIVYYLCGFTDEEKKECFLVMELMRKTLGMHIKEVCTLSLPVAVDLMLQIALGMEYLHSKRIYHGELNPSNILVKPRSNQSGDGYLLGKIFGFGLNSVPFIWYSPEVLEEQKYSDKSDVYSFGMVSFELLTGKVPFEDSHLQGDKMSRNIRAGERPLFPFNSPKFITNLTKRCWHADPNQRPTFSSISRILRYIKRFLALNPECYSSIAPTVDYCEIETKLLQKLSWESTELTKVSQVPFQMFAYRVVERAKTC 6ka4-a1-m1-cB_6ka4-a1-m1-cD Cryo-EM structure of the AtMLKL3 tetramer Q9LMN2 Q9LMN2 3.4 ELECTRON MICROSCOPY 33 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 534 534 6ka4-a1-m1-cA_6ka4-a1-m1-cC MDQFREIGEVLGSIRALMVFKDSIQINQRQCSLLLDLFTAAYESISVSMRSNLRFKEKNTKWKILEQPLRELLWVVREGEAYVRMSLEPKLGFWAKAIVLHSNRDCTELHIHNLLSCLPIIVEAIETASEVSGWDEEEMSKKRLVHSNKYMKQWNDSQMFTWKFGREYLVTEDFCNRFESAWTEDRWILIKELQEKKQSGSSKHERKMADFLLKHLGDGNESPKLFPSSLLDNTKDYQVKKRLQYKEITWLGESFALRHFFGDIDALLPQITPLLSLSHPNIVYYLCGFTDEEKKECFLVMELMRKTLGMHIKEVCTLSLPVAVDLMLQIALGMEYLHSKRIYHGELNPSNILVKPRSNQSGDGYLLGKIFGFGLNSVPFIWYSPEVLEEQKYSDKSDVYSFGMVSFELLTGKVPFEDSHLQGDKMSRNIRAGERPLFPFNSPKFITNLTKRCWHADPNQRPTFSSISRILRYIKRFLALNPECYSSIAPTVDYCEIETKLLQKLSWESTELTKVSQVPFQMFAYRVVERAKTC MDQFREIGEVLGSIRALMVFKDSIQINQRQCSLLLDLFTAAYESISVSMRSNLRFKEKNTKWKILEQPLRELLWVVREGEAYVRMSLEPKLGFWAKAIVLHSNRDCTELHIHNLLSCLPIIVEAIETASEVSGWDEEEMSKKRLVHSNKYMKQWNDSQMFTWKFGREYLVTEDFCNRFESAWTEDRWILIKELQEKKQSGSSKHERKMADFLLKHLGDGNESPKLFPSSLLDNTKDYQVKKRLQYKEITWLGESFALRHFFGDIDALLPQITPLLSLSHPNIVYYLCGFTDEEKKECFLVMELMRKTLGMHIKEVCTLSLPVAVDLMLQIALGMEYLHSKRIYHGELNPSNILVKPRSNQSGDGYLLGKIFGFGLNSVPFIWYSPEVLEEQKYSDKSDVYSFGMVSFELLTGKVPFEDSHLQGDKMSRNIRAGERPLFPFNSPKFITNLTKRCWHADPNQRPTFSSISRILRYIKRFLALNPECYSSIAPTVDYCEIETKLLQKLSWESTELTKVSQVPFQMFAYRVVERAKTC 6ka4-a1-m1-cC_6ka4-a1-m1-cD Cryo-EM structure of the AtMLKL3 tetramer Q9LMN2 Q9LMN2 3.4 ELECTRON MICROSCOPY 15 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 534 534 6ka4-a1-m1-cA_6ka4-a1-m1-cB MDQFREIGEVLGSIRALMVFKDSIQINQRQCSLLLDLFTAAYESISVSMRSNLRFKEKNTKWKILEQPLRELLWVVREGEAYVRMSLEPKLGFWAKAIVLHSNRDCTELHIHNLLSCLPIIVEAIETASEVSGWDEEEMSKKRLVHSNKYMKQWNDSQMFTWKFGREYLVTEDFCNRFESAWTEDRWILIKELQEKKQSGSSKHERKMADFLLKHLGDGNESPKLFPSSLLDNTKDYQVKKRLQYKEITWLGESFALRHFFGDIDALLPQITPLLSLSHPNIVYYLCGFTDEEKKECFLVMELMRKTLGMHIKEVCTLSLPVAVDLMLQIALGMEYLHSKRIYHGELNPSNILVKPRSNQSGDGYLLGKIFGFGLNSVPFIWYSPEVLEEQKYSDKSDVYSFGMVSFELLTGKVPFEDSHLQGDKMSRNIRAGERPLFPFNSPKFITNLTKRCWHADPNQRPTFSSISRILRYIKRFLALNPECYSSIAPTVDYCEIETKLLQKLSWESTELTKVSQVPFQMFAYRVVERAKTC MDQFREIGEVLGSIRALMVFKDSIQINQRQCSLLLDLFTAAYESISVSMRSNLRFKEKNTKWKILEQPLRELLWVVREGEAYVRMSLEPKLGFWAKAIVLHSNRDCTELHIHNLLSCLPIIVEAIETASEVSGWDEEEMSKKRLVHSNKYMKQWNDSQMFTWKFGREYLVTEDFCNRFESAWTEDRWILIKELQEKKQSGSSKHERKMADFLLKHLGDGNESPKLFPSSLLDNTKDYQVKKRLQYKEITWLGESFALRHFFGDIDALLPQITPLLSLSHPNIVYYLCGFTDEEKKECFLVMELMRKTLGMHIKEVCTLSLPVAVDLMLQIALGMEYLHSKRIYHGELNPSNILVKPRSNQSGDGYLLGKIFGFGLNSVPFIWYSPEVLEEQKYSDKSDVYSFGMVSFELLTGKVPFEDSHLQGDKMSRNIRAGERPLFPFNSPKFITNLTKRCWHADPNQRPTFSSISRILRYIKRFLALNPECYSSIAPTVDYCEIETKLLQKLSWESTELTKVSQVPFQMFAYRVVERAKTC 6kaf-a1-m1-cM_6kaf-a1-m1-cm C2S2M2N2-type PSII-LHCII P92277 P92277 3.73 ELECTRON MICROSCOPY 37 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 32 32 6kac-a1-m1-cM_6kac-a1-m1-cm 6kad-a1-m1-cM_6kad-a1-m1-cm EVNIYGLTATALFIIIPTSFLLILYVKTASTQ EVNIYGLTATALFIIIPTSFLLILYVKTASTQ 6kaf-a1-m1-cN_6kaf-a1-m1-cU C2S2M2N2-type PSII-LHCII Q93WL4 Q93WL4 3.73 ELECTRON MICROSCOPY 40 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 217 218 6kad-a1-m1-c2_6kad-a1-m1-c3 6kad-a1-m1-c8_6kad-a1-m1-c9 6kaf-a1-m1-c1_6kaf-a1-m1-c2 6kaf-a1-m1-c1_6kaf-a1-m1-c3 6kaf-a1-m1-c2_6kaf-a1-m1-c3 6kaf-a1-m1-c4_6kaf-a1-m1-c5 6kaf-a1-m1-c4_6kaf-a1-m1-c6 6kaf-a1-m1-c5_6kaf-a1-m1-c6 6kaf-a1-m1-cn_6kaf-a1-m1-cg 6kaf-a1-m1-cN_6kaf-a1-m1-cG 6kaf-a1-m1-cn_6kaf-a1-m1-cu 6kaf-a1-m1-cp_6kaf-a1-m1-cq 6kaf-a1-m1-cP_6kaf-a1-m1-cQ 6kaf-a1-m1-cp_6kaf-a1-m1-cv 6kaf-a1-m1-cP_6kaf-a1-m1-cV 6kaf-a1-m1-cu_6kaf-a1-m1-cg 6kaf-a1-m1-cU_6kaf-a1-m1-cG 6kaf-a1-m1-cv_6kaf-a1-m1-cq 6kaf-a1-m1-cV_6kaf-a1-m1-cQ 7d0j-a1-m1-cP_7d0j-a1-m1-cR 7d0j-a1-m1-cQ_7d0j-a1-m1-cR 7d0j-a1-m1-cT_7d0j-a1-m1-cU 7dz8-a1-m1-cY_7dz8-a1-m1-cZ 7e0h-a1-m1-cY_7e0h-a1-m1-cZ IEFYGPNRAKWGPYSENATPAYLTGEFPGDYGWDTAGLSADPETFKRYRELELIHARWAMLGALGCITPELLAKSGTQFGEAVWFKAGAQIFSEGGLDYLGNPSLVHAQNIVATLAVQVILMGLVEGYRVNGGPAGEGLDPLYPGESFDPLGLADDPDTFAELKVKEIKNGRLAMFSMFGFFVQAIVTGKGPIQNLDDHLSNPTVNNAFAFATKFTP IEFYGPNRAKWLGPYSENATPAYLTGEFPGDYGWDTAGLSADPETFKRYRELELIHARWAMLGALGCITPELLAKSGTQFGEAVWFKAGAQIFSEGGLDYLGNPSLVHAQNIVATLAVQVILMGLVEGYRVNGGPAGEGLDPLYPGESFDPLGLADDPDTFAELKVKEIKNGRLAMFSMFGFFVQAIVTGKGPIQNLDDHLSNPTVNNAFAFATKFTP 6kbi-a1-m1-cA_6kbi-a1-m2-cB Crystal structure of ErbB3 N418Q mutant P21860 P21860 3 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 550 588 AVCPGRCEVVMGNLEIVLTGHNADLSFLQWIREVTGYVLVAMNEFSTLPLPNLRVVRGTQVYDGKFAIFVMLNYNTNSSHALRQLRLTQLTEILSGGVYIEKNDKLCHMDTIDWRDIVRDRDAEIVVKDNGRSCPPCHEVCKGRCWGPGSEDCQTLTKTICAPQCNGHCFGPNPNQCCHDECAGGCSGPQDTDCFACRHFNDSGACVPRCPQPLVYNKLTFQLEPNPHTKYQYGGVCVASCPHNFVVDQTSCVRACPPDKMEVDKNGLKMCEPCGGLCPKACEGTGSGSRFQTVDSSNIDGFVNCTKILGNLDFLITGLNGDPWHKIPALDPEKLNVFRTVREITGYLNIQSWPPHMHNFSVFSNLTTIGGRSLYNRGFSLLIMKNLQVTSLGFRSLKEISAGRIYISANRQLCYHHSLNWTKVLRGPTEERLDIKHNRPRRDCVAEGKVCDPLCSSGGCWGPGPGQCLSCRNYSRGGVCVTHCNFLNGEPREFAHEAECFSCHPECQPMEGTATCNGSGSDTCAQCAHFRDGPHCVSSCPHGVLGAKGP NSQAVCPGTLYERCEVVMGNLEIVLTGHNADLSFLQWIREVTGYVLVAMNEFSTLPLPNLRVVRGTQVYDGKFAIFVMLNYNTNSSHALRQLRLTQLTEILSGGVYIEKNDKLCHMDTIDWRDIVRDRDAEIVVKDNGRSCPPCHEVCKGRCWGPGSEDCQTLTKTICAPQCNGHCFGPNPNQCCHDECAGGCSGPQDTDCFACRHFNDSGACVPRCPQPLVYNKLTFQLEPNPHTKYQYGGVCVASCPHNFVVDQTSCVRACPPDKMEVDKNGLKMCEPCGGLCPKACEGTGSGSRFQTVDSSNIDGFVNCTKILGNLDFLITGLNGDPWHKIPALDPEKLNVFRTVREITGYLNIQSWPPHMHNFSVFSNLTTIGGRSLYNRGFSLLIMKNLQVTSLGFRSLKEISAGRIYISANRQLCYHHSLNWTKVLRGPTEERLDIKHNRPRRDCVAEGKVCDPLCSSGGCWGPGPGQCLSCRNYSRGGVCVTHCNFLNGEPREFAHEAECFSCHPECQPMEGTATCNGSGSDTCAQCAHFRDGPHCVSSCPHGVLGAKGPIYKYPDVQNECRPCHENCTQGCKGPELQDCL 6kbn-a1-m1-cA_6kbn-a1-m1-cC Crystal structure of Vac8 (del 19-33) bound to Atg13 P39968 P39968 3.2 X-RAY DIFFRACTION 46 0.998 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 498 504 GPLKALTTLVYSDNLNLQRSAALAFAEITEKYVRQVSREVLEPILILLQSQDPQIQVAACAALGNLAVNNENKLLIVEMGGLEPLINQMMGDNVEVQCNAVGCITNLATRDDNKHKIATSGALIPLTKLAKSKHIRVQRNATGALLNMTHSEENRKELVNAGAVPVLVSLLSSTDPDVQYYCTTALSNIAVDEANRKKLAQTEPRLVSKLVSLMDSPSSRVKCQATLALRNLASDTSYQLEIVRAGGLPHLVKLIQSDSIPLVLASVACIRNISIHPLNEGLIVDAGFLKPLVRLLDYKDSEEIQCHAVSTLRNLAASSEKNRKEFFESGAVEKCKELALDSPVSVQSEISACFAILALADVSKLDLLEANILDALIPMTFSQNQEVSGNAAAALANLCSRVNNYTKIIEAWDRPNEGIRGFLIRFLKSDYATFEHIALWTILQLLESHNDKVEDLVKNDDDIINGVRKMADVTFERLQRSGDASLELYNITQQILQF PLKALTTLVYSDNLNLQRSAALAFAEITEKYVRQVSREVLEPILILLQSQDPQIQVAACAALGNLAVNNENKLLIVEMGGLEPLINQMMGDNVEVQCNAVGCITNLATRDDNKHKIATSGALIPLTKLAKSKHIRVQRNATGALLNMTHSEENRKELVNAGAVPVLVSLLSSTDPDVQYYCTTALSNIAVDEANRKKLAQTEPRLVSKLVSLMDSPSSRVKCQATLALRNLASDTSYQLEIVRAGGLPHLVKLIQSDSIPLVLASVACIRNISIHPLNEGLIVDAGFLKPLVRLLDYKDSEEIQCHAVSTLRNLAASSEKNRKEFFESGAVEKCKELALDSPVSVQSEISACFAILALADVSKLDLLEANILDALIPMTFSQNQEVSGNAAAALANLCSRVNNYTKIIEAWDRPNEGIRGFLIRFLKSDYATFEHIALWTILQLLESHNDKVEDLVKNDDDIINGVRKMADVTFERLQRSGIDVKEDASLELYNITQQILQFLH 6kbw-a1-m1-cA_6kbw-a1-m1-cB Crystal structure of Tmm from Myroides profundi D25 A0A0B5RNJ4 A0A0B5RNJ4 1.686 X-RAY DIFFRACTION 90 1.0 480520 (Myroides profundi) 480520 (Myroides profundi) 446 446 MLNLKVGIIGAGPSGLAMLRAFESEQKKGNPIPEIKCYEKQDNWGGMWNYTWRTGVGKYGEPIHGSMYKYLWSNGPKECLEFSDYTFMEHFKQPISSYPPREVLFDYIQGRIKQSNARDFIKFNTVARWVDYLEDKKQFRVIFDDLVKNETFEEYFDYLVVGTGHFSTPNMPYFKGIDSFPGTVMHAHDFRGADQFIDKDILLIGSSYSAEDIGVQCFKHGSKSVTISYRTNPIGAKWPKGIEEKPIVTHFEDNVAHFKDGSKKEYDAVILCTGYQHKFPFLPDNLRLKTKNNLYPDNLYKGVVFNENERLIFLGMQDQYYTFNMFDTQAWFARDYMLGRIALPNKEIRDKDIAKWVELEKTSVTGEEHVDFQTDYIKELIEMTDYPTFDLDRVAEMFKSWLNDKETNILNYRDKVYTSVMTGVTAEEHHTPWMKELDDSLERYLD MLNLKVGIIGAGPSGLAMLRAFESEQKKGNPIPEIKCYEKQDNWGGMWNYTWRTGVGKYGEPIHGSMYKYLWSNGPKECLEFSDYTFMEHFKQPISSYPPREVLFDYIQGRIKQSNARDFIKFNTVARWVDYLEDKKQFRVIFDDLVKNETFEEYFDYLVVGTGHFSTPNMPYFKGIDSFPGTVMHAHDFRGADQFIDKDILLIGSSYSAEDIGVQCFKHGSKSVTISYRTNPIGAKWPKGIEEKPIVTHFEDNVAHFKDGSKKEYDAVILCTGYQHKFPFLPDNLRLKTKNNLYPDNLYKGVVFNENERLIFLGMQDQYYTFNMFDTQAWFARDYMLGRIALPNKEIRDKDIAKWVELEKTSVTGEEHVDFQTDYIKELIEMTDYPTFDLDRVAEMFKSWLNDKETNILNYRDKVYTSVMTGVTAEEHHTPWMKELDDSLERYLD 6kcf-a1-m2-cC_6kcf-a1-m1-cA Structure of Inosine 5'-monophosphate Dehydrogenase from Candidatus Liberibacter asiaticus str. psy62 C6XG59 C6XG59 2.55 X-RAY DIFFRACTION 93 1.0 537021 (Candidatus Liberibacter asiaticus str. psy62) 537021 (Candidatus Liberibacter asiaticus str. psy62) 280 286 6kcf-a1-m1-cA_6kcf-a1-m1-cB 6kcf-a1-m2-cC_6kcf-a1-m2-cD 6kcf-a1-m2-cD_6kcf-a1-m1-cB VALTFDDVLLRPEFSNVLPRDIDISTRIAKDFTLNLPIMSAAMDQVTDSRLAIAMAQAGGLGVIHRNFSPSEQVAQVHQVKKFTKDSKGRLRVAAAVSVADRVGPLFDVNVDLVVVDTAHGHSQKVLDAVVQIKKNFPSLLVMAGNIATAEGALALIDAGADIIKVGCTTRVVTGVGCPQLSAIMSVVEVAERAGVAIVADGGIRFSGDIAKAIAAGSACVMIGSLLAGTDESPPYKGPIASVLHQMSGGLKSSMGYVGASNIEEFQKKANFIRVSVAGL VALTFDDVLLRPEFSNVLPRDIDISTRIAKDFTLNLPIMSAAMDQVTDSRLAIAMAQAGGLGVIHRNFSPSEQVAQVHQVKKFPNATKDSKGRLRVAAAVSVADRVGPLFDVNVDLVVVDTAHGHSQKVLDAVVQIKKNFPSLLVMAGNIATAEGALALIDAGADIIKVGCTTRVVTGVGCPQLSAIMSVVEVAERAGVAIVADGGIRFSGDIAKAIAAGSACVMIGSLLAGTDESPGDIPYKGPIASVLHQMSGGLKSSMGYVGASNIEEFQKKANFIRVSVAGL 6kcx-a1-m1-cA_6kcx-a1-m2-cA Crystal structure of citrate complex of alpha-glucuronidase (TM0752)from Thermotoga maritima Q9WZL1 Q9WZL1 1.933 X-RAY DIFFRACTION 67 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 470 470 1vjt-a1-m1-cA_1vjt-a1-m2-cA 3u95-a1-m1-cA_3u95-a1-m1-cB 3u95-a2-m1-cC_3u95-a2-m1-cD 3u95-a3-m1-cE_3u95-a3-m1-cF 7br4-a1-m1-cA_7br4-a1-m2-cA 7brf-a1-m1-cA_7brf-a1-m2-cA 7ctd-a1-m1-cA_7ctd-a1-m2-cA 7ctl-a1-m1-cA_7ctl-a1-m2-cA 7ctm-a1-m1-cA_7ctm-a1-m2-cA HMKISIIGAGSVRFALQLVGDIAQTEELSREDTHIYMMDVHERRLNASYILARKYVEELNSPVKIVKTSSLDEAIDGADFIINTAYPYDPRYHDSGSQRWDEVTKVGEKHGYYRGIDSQELNMVSTYTYVLSSYPDMKLALEIAEKMKKMAPKAYLMQTANPVFEITQAVRRWTGANIVGFCHGVAGVYEVFEKLDLDPEEVDWQVAGVNHGIWLNRFRYRGEDAYPLLDEWIEKKLPEWEPKNPWDTQMSPAAMDMYKFYGMLPIGDTVRNGSWKYHYNLETKKKWFGKFGGIDNEVERPKFHEQLRRARERLIKLAEEVQQNPGMKLTEEHPEIFPKGKLSGEQHIPFINAIANNKRVRLFLNVENQGTLKDFPDDVVMELPVWVDCCGIHREKVEPDLTHRIKIFYLWPRILRMEWNLEAYISRDRKVLEEILIRDPRTKSYEQIVQVLDEIFNLPFNEELRRYYKE HMKISIIGAGSVRFALQLVGDIAQTEELSREDTHIYMMDVHERRLNASYILARKYVEELNSPVKIVKTSSLDEAIDGADFIINTAYPYDPRYHDSGSQRWDEVTKVGEKHGYYRGIDSQELNMVSTYTYVLSSYPDMKLALEIAEKMKKMAPKAYLMQTANPVFEITQAVRRWTGANIVGFCHGVAGVYEVFEKLDLDPEEVDWQVAGVNHGIWLNRFRYRGEDAYPLLDEWIEKKLPEWEPKNPWDTQMSPAAMDMYKFYGMLPIGDTVRNGSWKYHYNLETKKKWFGKFGGIDNEVERPKFHEQLRRARERLIKLAEEVQQNPGMKLTEEHPEIFPKGKLSGEQHIPFINAIANNKRVRLFLNVENQGTLKDFPDDVVMELPVWVDCCGIHREKVEPDLTHRIKIFYLWPRILRMEWNLEAYISRDRKVLEEILIRDPRTKSYEQIVQVLDEIFNLPFNEELRRYYKE 6kd3-a1-m1-cA_6kd3-a1-m1-cB Structural and catalytic analysis of two diverse uridine phosphorylases in the oomycete Phytophthora capsici. 2.764 X-RAY DIFFRACTION 206 1.0 763924 (Phytophthora capsici LT1534) 763924 (Phytophthora capsici LT1534) 294 294 TAQVHVRNSHILEMHSDVLFHIGLTCSRQQVANTFGDVKFFITGGSAERMTHFAQSVAKELGITTPYGYQLAPIGSTSRYTLFKVGPVLVANHGIGMPSISILLHEVTKLLEYAGAHGATYIRMGTSGGIGVEPGTVVITSEGVNNKLESVDEVAVLGSTVRRPSICSPEVREEIITAAKEVGLPYAVGKTLSCNDFYEGQGRLDGAICEYTLEDKMAFLQKLADAGVRNIEMEARLMAGFCHKLNIPVAVVCVTLLNRLNGDQVLSSHETLQDFERRPGAVLLHYIKSKVNAS TAQVHVRNSHILEMHSDVLFHIGLTCSRQQVANTFGDVKFFITGGSAERMTHFAQSVAKELGITTPYGYQLAPIGSTSRYTLFKVGPVLVANHGIGMPSISILLHEVTKLLEYAGAHGATYIRMGTSGGIGVEPGTVVITSEGVNNKLESVDEVAVLGSTVRRPSICSPEVREEIITAAKEVGLPYAVGKTLSCNDFYEGQGRLDGAICEYTLEDKMAFLQKLADAGVRNIEMEARLMAGFCHKLNIPVAVVCVTLLNRLNGDQVLSSHETLQDFERRPGAVLLHYIKSKVNAS 6kd7-a1-m5-cA_6kd7-a1-m6-cA Crystal structure of geranylgeranyl pyrophosphate synthase L7W5I6 L7W5I6 2 X-RAY DIFFRACTION 25 1.0 592029 (Nonlabens dokdonensis DSW-6) 592029 (Nonlabens dokdonensis DSW-6) 327 327 6kd7-a1-m1-cA_6kd7-a1-m2-cA 6kd7-a1-m1-cA_6kd7-a1-m3-cA 6kd7-a1-m2-cA_6kd7-a1-m3-cA 6kd7-a1-m4-cA_6kd7-a1-m5-cA 6kd7-a1-m4-cA_6kd7-a1-m6-cA MNTLKSLRTTFLEELKSKVTATEPAGLYDPVHYILDLGGKRLRPLLTLMSAEMYGATAKDAMNAAIAVEVFHNFTLLHDDIMDAADLRRGKETVHKKWDVNTGILTGDAMLIMAYRLFEDYDKDKFYQLNKVFSRTALEVCEGQQHDVDFETRDDVSVPEYLNMIKLKTSVLVGCALQMGAIIAGVDEKEQELIYDYGINLGLAFQLMDDYLDAFGDPETFGKEVGGDIRENKKTYLYLKSIENNDCATELKEWFALHFENMTEEQIDEKKETVKVFFEQSGGAKATLDAIESYTQKALKNIEELSIAPESKKQLTDFSLQLMGRKS MNTLKSLRTTFLEELKSKVTATEPAGLYDPVHYILDLGGKRLRPLLTLMSAEMYGATAKDAMNAAIAVEVFHNFTLLHDDIMDAADLRRGKETVHKKWDVNTGILTGDAMLIMAYRLFEDYDKDKFYQLNKVFSRTALEVCEGQQHDVDFETRDDVSVPEYLNMIKLKTSVLVGCALQMGAIIAGVDEKEQELIYDYGINLGLAFQLMDDYLDAFGDPETFGKEVGGDIRENKKTYLYLKSIENNDCATELKEWFALHFENMTEEQIDEKKETVKVFFEQSGGAKATLDAIESYTQKALKNIEELSIAPESKKQLTDFSLQLMGRKS 6kd7-a2-m1-cA_6kd7-a2-m4-cA Crystal structure of geranylgeranyl pyrophosphate synthase L7W5I6 L7W5I6 2 X-RAY DIFFRACTION 110 1.0 592029 (Nonlabens dokdonensis DSW-6) 592029 (Nonlabens dokdonensis DSW-6) 327 327 6kd7-a1-m1-cA_6kd7-a1-m4-cA 6kd7-a1-m2-cA_6kd7-a1-m6-cA 6kd7-a1-m3-cA_6kd7-a1-m5-cA MNTLKSLRTTFLEELKSKVTATEPAGLYDPVHYILDLGGKRLRPLLTLMSAEMYGATAKDAMNAAIAVEVFHNFTLLHDDIMDAADLRRGKETVHKKWDVNTGILTGDAMLIMAYRLFEDYDKDKFYQLNKVFSRTALEVCEGQQHDVDFETRDDVSVPEYLNMIKLKTSVLVGCALQMGAIIAGVDEKEQELIYDYGINLGLAFQLMDDYLDAFGDPETFGKEVGGDIRENKKTYLYLKSIENNDCATELKEWFALHFENMTEEQIDEKKETVKVFFEQSGGAKATLDAIESYTQKALKNIEELSIAPESKKQLTDFSLQLMGRKS MNTLKSLRTTFLEELKSKVTATEPAGLYDPVHYILDLGGKRLRPLLTLMSAEMYGATAKDAMNAAIAVEVFHNFTLLHDDIMDAADLRRGKETVHKKWDVNTGILTGDAMLIMAYRLFEDYDKDKFYQLNKVFSRTALEVCEGQQHDVDFETRDDVSVPEYLNMIKLKTSVLVGCALQMGAIIAGVDEKEQELIYDYGINLGLAFQLMDDYLDAFGDPETFGKEVGGDIRENKKTYLYLKSIENNDCATELKEWFALHFENMTEEQIDEKKETVKVFFEQSGGAKATLDAIESYTQKALKNIEELSIAPESKKQLTDFSLQLMGRKS 6ke1-a1-m1-cB_6ke1-a1-m1-cA Crystal structure of TtCas1 Q53WG8 Q53WG8 3.39 X-RAY DIFFRACTION 135 0.984 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 255 260 LSYLYVEHAVVEREAGGIGIYDQEGLTLAPVAGLGVLFLGPGTRITHAAVRLLAENGCTVAWVGEGMARFYAQGLGDTRSAARFYRQARAWADPALHLEVVMRLYRMRFSEPLPEGLTLEQVRGLEGVRVRNAYARWSRETGVPWYGRAADPVNRALSAGASYLYGLAHAAIVSLGFSPALGFIHTGKLLSFVYDIADLYKADYLVPAAFRTVAESEEAVERRVRRALREAIQEGRLLERMAEDLLNLFRGLGLP FRDGLSYLYVEHAVVEREAGGIGIYDQEGLTLAPVAGLGVLFLGPGTRITHAAVRLLAENGCTVAWVGEGMARFYAQGLGDTRSAARFYRQARAWADPALHLEVVMRLYRMRFSEPLPEGLTLEQVRGLEGVRVRNAYARWSRETGVPWYGRSYDRGADPVNRALSAGASYLYGLAHAAIVSLGFSPALGFIHTGKLLSFVYDIADLYKADYLVPAAFRTVAESEEAVERRVRRALREAIQEGRLLERMAEDLLNLFRGL 6ket-a1-m1-cB_6ket-a1-m1-cA Flavin-utilizing Monooxygenase (OX) Domain of Hybrid Polyketide/Non-Ribosomal Peptide Synthetase A0A0A0WDC6 A0A0A0WDC6 1.6 X-RAY DIFFRACTION 175 1.0 1382618 (Cylindrospermum alatosporum CCALA 988) 1382618 (Cylindrospermum alatosporum CCALA 988) 332 348 TVQFSLYYFGNYESEFSHDKYNLLFAGAKYADQHGFTAVWIPERHFHAFGGFSPNPSVIAAAIARETKQIQIRSGSVVLPLHHPIRVVEEWSVVDNLSQGRVGISFASGWNPNDFALAPQSFGNHRELMFQGIETVRKLWRGEFIQVQNGVGKSISVQAFPRPMQAELPDWITVVNNPETYIKAGEMGSGVLTNLMGQSIEDLAENIALYRESLEKHGYNPASGKVTVLLHTFVGQDLEQTREIARQPLCDYLKSSVALFQNLVKSQGLSAAYNRYVQSSALIGTPASCAEVIAKLQAIGVDEVACLIDFGVNTPAVVESLPDLNALRELCQ TVQFSLYYFGNYESEFSHDKYNLLFAGAKYADQHGFTAVWIPERHFHAFGGFSPNPSVIAAAIARETKQIQIRSGSVVLPLHHPIRVVEEWSVVDNLSQGRVGISFASGWNPNDFALAPQSFGNHRELMFQGIETVRKLWRGEFIQVQNGVGKSISVQAFPRPMQAELPDWITVVNNPETYIKAGEMGSGVLTNLMGQSIEDLAENIALYRESLEKHGYNPASGKVTVLLHTFVGQDLEQTREIARQPLCDYLKSSVALFQNLVKSQGLQVDFDQMTADDQDYILSAAYNRYVQSSALIGTPASCAEVIAKLQAIGVDEVACLIDFGVNTPAVVESLPDLNALRELCQ 6kew-a1-m1-cA_6kew-a1-m1-cB Crystal structure of oxidized phosphoribulokinase from Arabidopsis thaliana P25697 P25697 2.29 X-RAY DIFFRACTION 35 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 342 343 6kex-a1-m1-cC_6kex-a1-m1-cA 6kex-a2-m1-cB_6kex-a2-m2-cD ETIVIGLAADSGCGKSTFMRRLTSVFGGAAKPPKGGNPDSNTLISDTTTVICLDDYHSLDRYGRKEQKVTALDPRANDFDLMYEQVKALKNGIAVEKPIYNHVTGLLDPPELIQPPKILVIEGLHPMFDERVRDLLDFSIYLDISNEVKFAWKIQRDMAERGHSLESIKASIEARKPDFDAFIDPQKQYADAVIEVLPTTLIPDDNEGKVLRVRLIMKEGVKYFSPVYLFDEGSTISWIPCGRKLTCSYPGIKFNYEPDSYFDHEVSVLEMDGQFDRLDELIYVESHLSNLSTKFYGEVTQQMLKHADFPGSNNGTGLFQTIVGLKIRDLYEQLIANKATAR ETIVIGLAADSGCGKSTFMRRLTSVFGGAAKPPKGGNPDSNTLISDTTTVICLDDYHSLDRYGRKEQKVTALDPRANDFDLMYEQVKALKNGIAVEKPIYNHVTGLLDPPELIQPPKILVIEGLHPMFDERVRDLLDFSIYLDISNEVKFAWKIQRDMAERGHSLESIKASIEARKPDFDAFIDPQKQYADAVIEVLPTTLIPDDNEGKVLRVRLIMKEGVKYFSPVYLFDEGSTISWIPCGRKLTCSYPGIKFNYEPDSYFDHEVSVLEMDGQFDRLDELIYVESHLSNLSTKFYGEVTQQMLKHADFPGSNNGTGLFQTIVGLKIRDLYEQLIANKATARA 6kfa-a1-m1-cA_6kfa-a1-m2-cA Hydroxynitrile lyase from the millipede, Chamberlinius hualienensis bound with acetate A0A0H5BR52 A0A0H5BR52 1.5 X-RAY DIFFRACTION 127 1.0 1551368 (Chamberlinius hualienensis) 1551368 (Chamberlinius hualienensis) 162 162 6jhc-a1-m1-cA_6jhc-a1-m2-cA 6kfb-a1-m1-cA_6kfb-a1-m2-cA 6kfc-a1-m1-cA_6kfc-a1-m2-cA 6kfd-a1-m1-cA_6kfd-a1-m2-cA 6kfe-a1-m1-cA_6kfe-a1-m2-cA LTCDQLPKAAINPIQEFIDSNPLEFEYVLTETFECTTRIYVQPARWSTTKAPTALDIKGTQIMAYDFVGGPENSAHLNECHTGDKQVWYFQYTNLLTDNGSSYCAYRCNGTEIIEYKCASNNNGTDPLQHQAMEVAKTVPNGDKIHYAKSNCPETHGCFAFY LTCDQLPKAAINPIQEFIDSNPLEFEYVLTETFECTTRIYVQPARWSTTKAPTALDIKGTQIMAYDFVGGPENSAHLNECHTGDKQVWYFQYTNLLTDNGSSYCAYRCNGTEIIEYKCASNNNGTDPLQHQAMEVAKTVPNGDKIHYAKSNCPETHGCFAFY 6kfm-a1-m1-cA_6kfm-a1-m1-cB Amino-transferase (AMT) Domain of Hybrid Polyketide/Non-Ribosomal Peptide Synthetase Q9R9J1 Q9R9J1 1.7 X-RAY DIFFRACTION 402 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 449 449 6kfr-a1-m1-cA_6kfr-a1-m1-cB 6kfu-a1-m1-cA_6kfu-a1-m2-cA YTPQQRQYLESFIEKYVDKTKGSKQYTDETRFAHANNRNLSSFRSYWKEMVYPIIAERSDGSRMWDIDGNEYIDITMGFGVNLFGHHPSFITQTVVDSTHSALPPLGPMSNVAGEVADRIRACTGVERVAFYNSGTEAVMVALRLARAATGRTKVVVFAGSYHGTFDGVLGVANTKGGAEPANPLAPGIPQSFMNDLIILHYNHPDSLDVIRNLGNELAAVLVEPVQSRRPDLQPESFLKELRAITQQSGTALIMDEIITGFRIGLGGAQEWFDIQADLVTYGKIIGGGQPLGIVAGKAEFMNTIDGGTWQYGDDSYPTDEAKRTFVAGTFNTHPLTMRMSLAVLRYLQAEGETLYERLNQKTTYLVDQLNSYFEQSQVPIRMVQFGSLFRFVSSVDNDLFFYHLNYKGVYVWEGRNCFLSTAHTSDDIAYIIQAVQETVKDLRRGGFI YTPQQRQYLESFIEKYVDKTKGSKQYTDETRFAHANNRNLSSFRSYWKEMVYPIIAERSDGSRMWDIDGNEYIDITMGFGVNLFGHHPSFITQTVVDSTHSALPPLGPMSNVAGEVADRIRACTGVERVAFYNSGTEAVMVALRLARAATGRTKVVVFAGSYHGTFDGVLGVANTKGGAEPANPLAPGIPQSFMNDLIILHYNHPDSLDVIRNLGNELAAVLVEPVQSRRPDLQPESFLKELRAITQQSGTALIMDEIITGFRIGLGGAQEWFDIQADLVTYGKIIGGGQPLGIVAGKAEFMNTIDGGTWQYGDDSYPTDEAKRTFVAGTFNTHPLTMRMSLAVLRYLQAEGETLYERLNQKTTYLVDQLNSYFEQSQVPIRMVQFGSLFRFVSSVDNDLFFYHLNYKGVYVWEGRNCFLSTAHTSDDIAYIIQAVQETVKDLRRGGFI 6kfs-a1-m1-cA_6kfs-a1-m2-cA Structure of CCM related protein B7FR28 B7FR28 1.2 X-RAY DIFFRACTION 168 1.0 2850 (Phaeodactylum tricornutum) 2850 (Phaeodactylum tricornutum) 248 248 FETTMAKVQQAFPGAATNDQLVAKTKSALSRFGFGSNSLVATSFCSDEVNRPLETDFAKEFKDTFSLGGLAGFPFSGVTGFGAMAKHIPDGGSCLVVYGPHVGVDLDGNVGTVNRRGREKGGTCCGSAVAAAGYISKVFNGEADPAPAVPESSMDAQQLYVGNMLLPYAERIGNAQDAMVELPYATYEPLDDLMQKIVAKGCGKVGGDGKIALLGGLQINTPAGCPDYFLPLRFEVRDNQNNVLDNLL FETTMAKVQQAFPGAATNDQLVAKTKSALSRFGFGSNSLVATSFCSDEVNRPLETDFAKEFKDTFSLGGLAGFPFSGVTGFGAMAKHIPDGGSCLVVYGPHVGVDLDGNVGTVNRRGREKGGTCCGSAVAAAGYISKVFNGEADPAPAVPESSMDAQQLYVGNMLLPYAERIGNAQDAMVELPYATYEPLDDLMQKIVAKGCGKVGGDGKIALLGGLQINTPAGCPDYFLPLRFEVRDNQNNVLDNLL 6kg7-a1-m1-cB_6kg7-a1-m1-cC Cryo-EM Structure of the Mammalian Tactile Channel Piezo2 Q8CD54 Q8CD54 3.8 ELECTRON MICROSCOPY 164 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1817 1817 6kg7-a1-m1-cA_6kg7-a1-m1-cB 6kg7-a1-m1-cA_6kg7-a1-m1-cC GLIFRLLLPICLAVACAFRYNGLSFVYLIYLLLIPLFSEPTKATMQGHTGRLLQSLCITSLSFLLLHIIFHIVFVPDIGMFIASLTIWLVCRTLRRFASVASKLKEFIGNMITTAGKVVVTILLGSSGMMLPSLTSAVYFFVFLGLCTWWSWCRTFDPLLFGCLCVLLAIFTAGHLIGLYLYQFQFFQEAVPPNDYYWYHHANPILLLVMYYTLATLIRIWLQEAVFQFIMKQSYICALIAMMAWSITYHSWLTFVLLIWSCTLWMIRNRRKYAMISSPFMVVYANLLLVLQYIWSFELPEIKKVPGFLEKKEPGELASKILFTITFWLLLRQHLTEQKALREKEALLSIMKVLGNLVVALFIKYWIYVCGGMFFFVSFEGKIVMYKIIYMVLFLFCVALYQVHYEWWRKILKYFWMSVVIYTMLVLIFIYTYQFENFPGLWQNMTGLKKEKLEDLGLKQFTVAELFTRIFIPTSFLLVCILHLHYFHDRFLELTDLKTVLFLKFLEYFHKLQVFMWWILELHIIKIVSSYIIWVTVKEVSLFNYVFLISWAFALPYAKLRRAASSVCTVWTCVIIVCKMLYQLQTIKPENFSVNCSLPNENQTNIPLHELNKSLLYSAPVDPTEWVGLRKSSPLLVYLRNNLLMLAILAFEVTVYRHQEYYRGRNNLTAPVSKTIFHDITRLHLDDGLINCAKYFVNYFFYKFGLETCFLMSVNVIGQRMDFYAMIHACWLIGVLYRRRRKAIAEVWPKYCCFLACIITFQYFVCIGIPPAPCRDYPWRFKGAYFNDNIIKWLYFPDFIVRPNPVFLVYDFMLLLCASLQRQIFEDENKAAVRIMAGDNVEICMNLDAASFSQHNPVPDFIHCRSYLDMSKVIIFSYLFWFVLTIIFITGTTRISIFCMGYLVACFYFLLFGGDLLLKPIKSILRYWDWLIAYNVFVITMKNILSIAGIIWDSICFAFLLLQRRVFMSYYFLHVVADIKASQILASRGAELFQATIVKAVKARIEEEKKSMDQLKRQMDRIKARQQKYKKGKERVDHASMVRSGDYYLFETDSEEFTWVLFLATVDSFTTWLNSISREHIDISTVLRIERCMLTREIKKGNVPTRESIHMYYQNHLTASDLLMSKMFHDDELEESEKFYVDQPRFLLLFYAMYNTLVARSEMVCYFVIILNHMTSASIITLLLPILIFLWAMLSVPRPSRRFWMMAIVYTEVAIVVKYFFQFGNIIGVEKKEGYVLYDLIQLLALFFHRSILKCHGLWDEQIYVPIRQFFYDLIHPDYSAVTDVYVLMFLADTVDFIIIVFGFWAFGVPGPFLVMVLIQFGTMVVDRALYLRKTVLGKVIFQVILVFGIHFWMFFILPGVTERKFSQNLVAQLWYFVKCVYFGLSAYQIRCGYPTRVLGNFLTKSYNYVNLFLFQGFRLVPFLTELRAVMDWVWTDTTLSLSSWICVEDIYAHIFILKCWRESEKRYPQPRGQKKKKAVKYGMGGMIIVLLICIVWFPLLFGVINQPLDVSVTITLGGYQPIFTMSAQQSQLKVMDNSKYNEFLKSFGPNSGAMQFLENYEREDVTVAELEGNSNSLWTISPPSKQKMIQELTDPNSCFSVVFSWSIQRNMTLGAKAEIATDKLSFPLAVATRNSIAKMIAGNDTESSNTPVTIEKIYPYYVKAPSDSNSKPIKQLLSENNFMNITIILFRDNVTKSNSEWWVLNLTGSRIFNQGSQALELVVFNDKVSPPSGIMGLYASVVLVIGKFVREFFSGISHSIMFEELPNVDRILKLCTDIFLVRETGELELEEDLYAKLIFLYRSPETMIKWTREKTN GLIFRLLLPICLAVACAFRYNGLSFVYLIYLLLIPLFSEPTKATMQGHTGRLLQSLCITSLSFLLLHIIFHIVFVPDIGMFIASLTIWLVCRTLRRFASVASKLKEFIGNMITTAGKVVVTILLGSSGMMLPSLTSAVYFFVFLGLCTWWSWCRTFDPLLFGCLCVLLAIFTAGHLIGLYLYQFQFFQEAVPPNDYYWYHHANPILLLVMYYTLATLIRIWLQEAVFQFIMKQSYICALIAMMAWSITYHSWLTFVLLIWSCTLWMIRNRRKYAMISSPFMVVYANLLLVLQYIWSFELPEIKKVPGFLEKKEPGELASKILFTITFWLLLRQHLTEQKALREKEALLSIMKVLGNLVVALFIKYWIYVCGGMFFFVSFEGKIVMYKIIYMVLFLFCVALYQVHYEWWRKILKYFWMSVVIYTMLVLIFIYTYQFENFPGLWQNMTGLKKEKLEDLGLKQFTVAELFTRIFIPTSFLLVCILHLHYFHDRFLELTDLKTVLFLKFLEYFHKLQVFMWWILELHIIKIVSSYIIWVTVKEVSLFNYVFLISWAFALPYAKLRRAASSVCTVWTCVIIVCKMLYQLQTIKPENFSVNCSLPNENQTNIPLHELNKSLLYSAPVDPTEWVGLRKSSPLLVYLRNNLLMLAILAFEVTVYRHQEYYRGRNNLTAPVSKTIFHDITRLHLDDGLINCAKYFVNYFFYKFGLETCFLMSVNVIGQRMDFYAMIHACWLIGVLYRRRRKAIAEVWPKYCCFLACIITFQYFVCIGIPPAPCRDYPWRFKGAYFNDNIIKWLYFPDFIVRPNPVFLVYDFMLLLCASLQRQIFEDENKAAVRIMAGDNVEICMNLDAASFSQHNPVPDFIHCRSYLDMSKVIIFSYLFWFVLTIIFITGTTRISIFCMGYLVACFYFLLFGGDLLLKPIKSILRYWDWLIAYNVFVITMKNILSIAGIIWDSICFAFLLLQRRVFMSYYFLHVVADIKASQILASRGAELFQATIVKAVKARIEEEKKSMDQLKRQMDRIKARQQKYKKGKERVDHASMVRSGDYYLFETDSEEFTWVLFLATVDSFTTWLNSISREHIDISTVLRIERCMLTREIKKGNVPTRESIHMYYQNHLTASDLLMSKMFHDDELEESEKFYVDQPRFLLLFYAMYNTLVARSEMVCYFVIILNHMTSASIITLLLPILIFLWAMLSVPRPSRRFWMMAIVYTEVAIVVKYFFQFGNIIGVEKKEGYVLYDLIQLLALFFHRSILKCHGLWDEQIYVPIRQFFYDLIHPDYSAVTDVYVLMFLADTVDFIIIVFGFWAFGVPGPFLVMVLIQFGTMVVDRALYLRKTVLGKVIFQVILVFGIHFWMFFILPGVTERKFSQNLVAQLWYFVKCVYFGLSAYQIRCGYPTRVLGNFLTKSYNYVNLFLFQGFRLVPFLTELRAVMDWVWTDTTLSLSSWICVEDIYAHIFILKCWRESEKRYPQPRGQKKKKAVKYGMGGMIIVLLICIVWFPLLFGVINQPLDVSVTITLGGYQPIFTMSAQQSQLKVMDNSKYNEFLKSFGPNSGAMQFLENYEREDVTVAELEGNSNSLWTISPPSKQKMIQELTDPNSCFSVVFSWSIQRNMTLGAKAEIATDKLSFPLAVATRNSIAKMIAGNDTESSNTPVTIEKIYPYYVKAPSDSNSKPIKQLLSENNFMNITIILFRDNVTKSNSEWWVLNLTGSRIFNQGSQALELVVFNDKVSPPSGIMGLYASVVLVIGKFVREFFSGISHSIMFEELPNVDRILKLCTDIFLVRETGELELEEDLYAKLIFLYRSPETMIKWTREKTN 6kga-a1-m1-cB_6kga-a1-m1-cC Structure of Ovalbumin from Emu (Dromaius novaehollandiae) E2RVI8 E2RVI8 3.3 X-RAY DIFFRACTION 201 1.0 8790 (Dromaius novaehollandiae) 8790 (Dromaius novaehollandiae) 387 387 6kga-a1-m1-cA_6kga-a1-m1-cB 6kga-a1-m1-cA_6kga-a1-m1-cC GSIGAASTEFCFDMFKELKVHHVNENIIYSPLSIISILSMVFLGARENTKTQMEKVIHFDKITGFGESLESQCGTSVSVHASLKDILSEITKPSDNYSLSLASKLYAEETYPVLPEYLQCIKELYKGSLETVSFQTAADQARELINSWVETQTNGVIKNFLQPGSVDPQTEMVLVDAIYFKGTWEKAFKDEDTQEVPFRITEQESKPVQMMYQAGSFKVATVAAEKMKILELPYASGELSMFVLLPDDISGLEQLETTISIEKLSEWTSSNMMEDRKMKVYLPHMKIEEKYNLTSVLVALGMTDLFSPSANLSGISTAQTLKMSEAIHGAYVEIYEAGSEMATSTGVLVEAASVSEEFRVDHPFLFLIKHNPSNSILFFGRCIFPHH GSIGAASTEFCFDMFKELKVHHVNENIIYSPLSIISILSMVFLGARENTKTQMEKVIHFDKITGFGESLESQCGTSVSVHASLKDILSEITKPSDNYSLSLASKLYAEETYPVLPEYLQCIKELYKGSLETVSFQTAADQARELINSWVETQTNGVIKNFLQPGSVDPQTEMVLVDAIYFKGTWEKAFKDEDTQEVPFRITEQESKPVQMMYQAGSFKVATVAAEKMKILELPYASGELSMFVLLPDDISGLEQLETTISIEKLSEWTSSNMMEDRKMKVYLPHMKIEEKYNLTSVLVALGMTDLFSPSANLSGISTAQTLKMSEAIHGAYVEIYEAGSEMATSTGVLVEAASVSEEFRVDHPFLFLIKHNPSNSILFFGRCIFPHH 6kgi-a1-m1-cB_6kgi-a1-m2-cB RLGS-yUbr1 Ubr box P19812 P19812 1.04 X-RAY DIFFRACTION 46 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 86 86 RLGSGDVHKHTGRNCGRKFKIGEPLYRCHECGCDDTCVLCIHCFNPKDHVNHHVCTDICTEFTSGICDCGDEEAWNSPLHCKAEEQ RLGSGDVHKHTGRNCGRKFKIGEPLYRCHECGCDDTCVLCIHCFNPKDHVNHHVCTDICTEFTSGICDCGDEEAWNSPLHCKAEEQ 6kgj-a1-m1-cA_6kgj-a1-m1-cB M1Q-hNTAQ1 C28S Q96HA8 Q96HA8 1.8 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 202 QEGNGPAAVHYQPASPPRDACVYSSCYSEENVWKLCEYIKNHDQYPLEECYAVFISNERKMIPIWKQQARPGDGPVIWDYHVVLLHVSSGGQSFIYDLDTVLPFPCLFDTYVEDAIKSDDDIHPQFRRKFRVICADSYLKNFASDRSHMKDSSGNWREPPPPYPCIETGDSKMNLNDFISMDPKVGWGAVYTLSEFTHRFGS QEGNGPAAVHYQPASPPRDACVYSSCYSEENVWKLCEYIKNHDQYPLEECYAVFISNERKMIPIWKQQARPGDGPVIWDYHVVLLHVSSGGQSFIYDLDTVLPFPCLFDTYVEDAIKSDDDIHPQFRRKFRVICADSYLKNFASDRSHMKDSSGNWREPPPPYPCIETGDSKMNLNDFISMDPKVGWGAVYTLSEFTHRFGS 6kho-a1-m1-cB_6kho-a1-m1-cA Crystal structure of Oryza sativa TDC with PLP Q6ZJK7 Q6ZJK7 1.972 X-RAY DIFFRACTION 480 0.992 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 475 490 6khn-a1-m1-cB_6khn-a1-m1-cA 6khp-a1-m1-cB_6khp-a1-m1-cA 6khp-a1-m2-cB_6khp-a1-m2-cA TFQPLNADDVRSYLHKAVDFISDYYKSVESMPVLPNVKPGYLQDELRASPPTYSAPFDVTMKELRSSVVPGMTHWASPNFFAFFPSTNSAAAIAGDLIASAMNTVGFTWQASPAATEMEVLALDWLAQMLNLPTSFMNRTGEGRGTGGGVILGTTSEAMLVTLVAARDAALRRSGSDGVAGLHRLAVYAADQTHSTFFKACRLAGFDPANIRSIPTGAETDYGLDPARLLEAMQADADAGLVPTYVCATVGTTSSNAVDPVGAVADVAARFAAWVHVDAAYAGSACICPEFRHHLDGVERVDSISMSPHKWLMTCLDCTCLYVRDTHRLEVTDLKDMQVGVGRRFRGLKLWMVMRTYGVAKLQEHIRSDVAMAKVFEDLVRGDDRFEVVVPRNFALVCFRIRAGAGAAAATEEDADEANRELMERLNKTGKAYVAHTVVGGRFVLRFAVGSSLQEEHHVRSAWELIKKTTTEMMN TFQPLNADDVRSYLHKAVDFISDYYKSVESMPVLPNVKPGYLQDELRASPPTYSAPFDVTMKELRSSVVPGMTHWASPNFFAFFPSTNSAAAIAGDLIASAMNTVGFTWQASPAATEMEVLALDWLAQMLNLPTSFMNGRGTGGGVILGTTSEAMLVTLVAARDAALRRSGSDGVAGLHRLAVYAADQTHSTFFKACRLAGFDPANIRSIPTGAETDYGLDPARLLEAMQADADAGLVPTYVCATVGTTSSNAVDPVGAVADVAARFAAWVHVDAAYAGSACICPEFRHHLDGVERVDSISMSPHKWLMTCLDCTCLYVRDTHRLTGSLETNPEYLKNHASDSGEVTDLKDMQVGVGRRFRGLKLWMVMRTYGVAKLQEHIRSDVAMAKVFEDLVRGDDRFEVVVPRNFALVCFRIRAGAGAAAATEEDADEANRELMERLNKTGKAYVAHTVVGGRFVLRFAVGSSLQEEHHVRSAWELIKKTTTEMMN 6khp-a1-m1-cA_6khp-a1-m2-cA Crystal structure of Oryza sativa TDC with PLP and tryptamine Q6ZJK7 Q6ZJK7 2.299 X-RAY DIFFRACTION 32 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 490 490 TFQPLNADDVRSYLHKAVDFISDYYKSVESMPVLPNVKPGYLQDELRASPPTYSAPFDVTMKELRSSVVPGMTHWASPNFFAFFPSTNSAAAIAGDLIASAMNTVGFTWQASPAATEMEVLALDWLAQMLNLPTSFMNGRGTGGGVILGTTSEAMLVTLVAARDAALRRSGSDGVAGLHRLAVYAADQTHSTFFKACRLAGFDPANIRSIPTGAETDYGLDPARLLEAMQADADAGLVPTYVCATVGTTSSNAVDPVGAVADVAARFAAWVHVDAAYAGSACICPEFRHHLDGVERVDSISMSPHKWLMTCLDCTCLYVRDTHRLTGSLETNPEYLKNHASDSGEVTDLKDMQVGVGRRFRGLKLWMVMRTYGVAKLQEHIRSDVAMAKVFEDLVRGDDRFEVVVPRNFALVCFRIRAGAGAAAATEEDADEANRELMERLNKTGKAYVAHTVVGGRFVLRFAVGSSLQEEHHVRSAWELIKKTTTEMMN TFQPLNADDVRSYLHKAVDFISDYYKSVESMPVLPNVKPGYLQDELRASPPTYSAPFDVTMKELRSSVVPGMTHWASPNFFAFFPSTNSAAAIAGDLIASAMNTVGFTWQASPAATEMEVLALDWLAQMLNLPTSFMNGRGTGGGVILGTTSEAMLVTLVAARDAALRRSGSDGVAGLHRLAVYAADQTHSTFFKACRLAGFDPANIRSIPTGAETDYGLDPARLLEAMQADADAGLVPTYVCATVGTTSSNAVDPVGAVADVAARFAAWVHVDAAYAGSACICPEFRHHLDGVERVDSISMSPHKWLMTCLDCTCLYVRDTHRLTGSLETNPEYLKNHASDSGEVTDLKDMQVGVGRRFRGLKLWMVMRTYGVAKLQEHIRSDVAMAKVFEDLVRGDDRFEVVVPRNFALVCFRIRAGAGAAAATEEDADEANRELMERLNKTGKAYVAHTVVGGRFVLRFAVGSSLQEEHHVRSAWELIKKTTTEMMN 6khr-a1-m2-cB_6khr-a1-m1-cA Structure of glycinamide-RNase-transformylase T from Mycobacterium tuberculosis P95197 P95197 2.786 X-RAY DIFFRACTION 80 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 320 349 RRVMLLGSAEPSRELAIALQGLGAEVIAVDGYVGAPAHRIADQSVVVTMTDAEELTAVIRRLQPDFLVTVTAAVSVDALDAVEQACTELVPNARAVRCTADREGLRRLAADQLGLPTAPFWFVGLLVSPVPRVCAESVVEIEFLVTMIVVCSQGPNGPLIEFCAPIGHRDADAGELESWQPQKLSTAALDAAKSIAARIVKALGGRGVFGVELMINGDEVYFADVTVCPAGSAWVTVRSQRLSVFELQARAILGLAVDTLMISPGAARVINPPADALTGALGVPESDVVIFGRGLGVALATAPEVAIARERAREVASRLN RRVMLLGSAEPSRELAIALQGLGAEVIAVDGYVGAPAHRIADQSVVVTMTDAEELTAVIRRLQPDFLVTVTAAVSVDALDAVEQECTELVPNARAVRCTADREGLRRLAADQLGLPTAPFWFVGSLGELQAVAVHAGFPLLVSPVGSSVVAGPAGHQVQPRVCAESVVEIEFLVTMIVVCSQGPNGPLIEFCAPIGHRDADAGELESWQPQKLSTAALDAAKSIAARIVKALGGRGVFGVELMINGDEVYFADVTVCPAGSAWVTVRSQRLSVFELQARAILGLAVDTLMISPGAARVINPPADALTGALGVPESDVVIFGRGLGVALATAPEVAIARERAREVASRLN 6kht-a1-m1-cB_6kht-a1-m1-cC Chimeric beta-glucosidase Cel1b-H13 G0RIF5 G0RIF5 3.305 X-RAY DIFFRACTION 39 1.0 431241 (Trichoderma reesei QM6a) 431241 (Trichoderma reesei QM6a) 477 477 6kht-a1-m1-cA_6kht-a1-m1-cB 6kht-a1-m1-cA_6kht-a1-m1-cC SLALPNDFEWGFATAAYQIEGAVKEGGRGPSIWDTYCHLEPSRTNGANGDVACDHYHRYDEDFDLLTKYGAKAYRFSLSWSRIIPLGGRLDPVNEEGIEFYSKLIDALLRRGITPWVTLYHWDLPQALHDRYGGWLNVEEVQLDFERYARLCFERFGDRVQNWITINEPWIQAIYGYATGSNAPGRSSINKHSTEGDTATEPWLAGKAQIMSHARAVAVYSRDFRPSQKGQIGISLNGDYYEPWDSNEPRDKEAAERRMEFHIGWFANPIFLKKDYPESMKKQLGERLPALTPADFAILNAGETDFYGMNYYTSQYARHLDGPVPETDYLGAIHEHQENKDGSPVGEESGLAWLRSCPDMFRKHLARVYGLYGKPIYITENGCPCPGCEEAVNDPFRIRYFDSHLDSISKAITQDGVVVKGYFAWALLDNLEWSDGYGPRFGVTFTDYTTLKRTPKKSALVLKDMFAARQIPEELAH SLALPNDFEWGFATAAYQIEGAVKEGGRGPSIWDTYCHLEPSRTNGANGDVACDHYHRYDEDFDLLTKYGAKAYRFSLSWSRIIPLGGRLDPVNEEGIEFYSKLIDALLRRGITPWVTLYHWDLPQALHDRYGGWLNVEEVQLDFERYARLCFERFGDRVQNWITINEPWIQAIYGYATGSNAPGRSSINKHSTEGDTATEPWLAGKAQIMSHARAVAVYSRDFRPSQKGQIGISLNGDYYEPWDSNEPRDKEAAERRMEFHIGWFANPIFLKKDYPESMKKQLGERLPALTPADFAILNAGETDFYGMNYYTSQYARHLDGPVPETDYLGAIHEHQENKDGSPVGEESGLAWLRSCPDMFRKHLARVYGLYGKPIYITENGCPCPGCEEAVNDPFRIRYFDSHLDSISKAITQDGVVVKGYFAWALLDNLEWSDGYGPRFGVTFTDYTTLKRTPKKSALVLKDMFAARQIPEELAH 6khx-a1-m1-cF_6khx-a1-m1-cI Crystal structure of Prx from Akkermansia muciniphila A0A2N8HPY4 A0A2N8HPY4 2.58 X-RAY DIFFRACTION 68 1.0 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 211 211 6khx-a1-m1-cA_6khx-a1-m1-cC 6khx-a1-m1-cD_6khx-a1-m1-cG 6khx-a1-m1-cE_6khx-a1-m1-cB 6khx-a1-m1-cH_6khx-a1-m1-cJ MLLIGKPAPHFSANAVVNGTIVPDFSLDQFKGKKYVILFFYPKDFTFVCPTELIGFQEALGEFDKRDVAVVGCSTDSEFSHWAWVNTPRDQGGIQGVSYPIVSDINKTISADYGVLAGDEEIDEDGNVEVNGELIAYRGLFLIDKDGIVRHQLINDFPLGRSIDEAIRVVDALQHFELYGEVCPLGWHKGEAAMTPSHEGVASYLSKLEHH MLLIGKPAPHFSANAVVNGTIVPDFSLDQFKGKKYVILFFYPKDFTFVCPTELIGFQEALGEFDKRDVAVVGCSTDSEFSHWAWVNTPRDQGGIQGVSYPIVSDINKTISADYGVLAGDEEIDEDGNVEVNGELIAYRGLFLIDKDGIVRHQLINDFPLGRSIDEAIRVVDALQHFELYGEVCPLGWHKGEAAMTPSHEGVASYLSKLEHH 6khx-a1-m1-cH_6khx-a1-m1-cG Crystal structure of Prx from Akkermansia muciniphila A0A2N8HPY4 A0A2N8HPY4 2.58 X-RAY DIFFRACTION 200 1.0 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 203 209 6khx-a1-m1-cA_6khx-a1-m1-cB 6khx-a1-m1-cD_6khx-a1-m1-cC 6khx-a1-m1-cE_6khx-a1-m1-cF 6khx-a1-m1-cJ_6khx-a1-m1-cI MLLIGKPAPHFSANAVVNGTIVPDFSLDQFKGKKYVILFFYPKDFTFVCPTELIGFQEALGEFDKRDVAVVGCSTDSEFSHWAWVNTPRDQGGIQGVSYPIVSDINKTISADYGVLAGDENVEVNGELIAYRGLFLIDKDGIVRHQLINDFPLGRSIDEAIRVVDALQHFELYGEVCPLGWHKGEAAMTPSHEGVASYLSKLE MLLIGKPAPHFSANAVVNGTIVPDFSLDQFKGKKYVILFFYPKDFTFVCPTELIGFQEALGEFDKRDVAVVGCSTDSEFSHWAWVNTPRDQGGIQGVSYPIVSDINKTISADYGVLAGDEEIDEDGNVEVNGELIAYRGLFLIDKDGIVRHQLINDFPLGRSIDEAIRVVDALQHFELYGEVCPLGWHKGEAAMTPSHEGVASYLSKLE 6ki2-a1-m1-cA_6ki2-a1-m1-cB The STAS domain of cyanobacteria bicarbonate transporter BicA Q55415 Q55415 2.197 X-RAY DIFFRACTION 282 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 144 144 SGSKISALQSKAVKSISDADDEILLSANEKRWLDEGNGRVLLFQLSGPIFGVAKAIAREHNAIQECAAIVFDLSDVPHLGVDASLALENAIEEAAEKGRAVYIVGATGQTKRRLEKLQVFRFVPESNCYDDRSEALKDAVLALG SGSKISALQSKAVKSISDADDEILLSANEKRWLDEGNGRVLLFQLSGPIFGVAKAIAREHNAIQECAAIVFDLSDVPHLGVDASLALENAIEEAAEKGRAVYIVGATGQTKRRLEKLQVFRFVPESNCYDDRSEALKDAVLALG 6kig-a1-m1-cV_6kig-a1-m1-cn Structure of cyanobacterial photosystem I-IsiA supercomplex P95822 P95822 2.9 ELECTRON MICROSCOPY 34 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 164 164 6kif-a1-m1-cL_6kif-a1-m1-cn 6kif-a1-m1-cL_6kif-a1-m1-cV 6kif-a1-m1-cV_6kif-a1-m1-cn 6kig-a1-m1-cL_6kig-a1-m1-cn 6kig-a1-m1-cL_6kig-a1-m1-cV QDVIANGGTPEIGNLATPINSSPFTRTFINALPIYRRGLSSNRRGLEIGMAHGFLLYGPFSILGPLRNTETAGSAGLLATVGLVVILTVCLSLYGNAGSGPSAAESTVTTPNPPQELFTKEGWSEFTSGFILGGLGGAFFAFYLASTPYVQPLVKIAAGVWSVH QDVIANGGTPEIGNLATPINSSPFTRTFINALPIYRRGLSSNRRGLEIGMAHGFLLYGPFSILGPLRNTETAGSAGLLATVGLVVILTVCLSLYGNAGSGPSAAESTVTTPNPPQELFTKEGWSEFTSGFILGGLGGAFFAFYLASTPYVQPLVKIAAGVWSVH 6kjt-a1-m1-cA_6kjt-a1-m1-cB Functional and structural insights into the unusual oxyanion hole-like geometry in macrolactin acyltransferase selective for dicarboxylic acyl donors A0A0U1X4V6 A0A0U1X4V6 2.113 X-RAY DIFFRACTION 20 1.0 86667 (Jeotgalibacillus marinus) 86667 (Jeotgalibacillus marinus) 358 358 NPAFDMKQINALNGHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQKEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDTLKEEVCVISEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGINLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIEL NPAFDMKQINALNGHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQKEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDTLKEEVCVISEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGINLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIEL 6kjt-a1-m1-cA_6kjt-a1-m1-cC Functional and structural insights into the unusual oxyanion hole-like geometry in macrolactin acyltransferase selective for dicarboxylic acyl donors A0A0U1X4V6 A0A0U1X4V6 2.113 X-RAY DIFFRACTION 18 1.0 86667 (Jeotgalibacillus marinus) 86667 (Jeotgalibacillus marinus) 358 359 NPAFDMKQINALNGHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQKEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDTLKEEVCVISEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGINLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIEL NPAFDMKQINALNGHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQKEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDTLKEEVCVISEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGINLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIELE 6kjt-a1-m1-cD_6kjt-a1-m1-cC Functional and structural insights into the unusual oxyanion hole-like geometry in macrolactin acyltransferase selective for dicarboxylic acyl donors A0A0U1X4V6 A0A0U1X4V6 2.113 X-RAY DIFFRACTION 59 1.0 86667 (Jeotgalibacillus marinus) 86667 (Jeotgalibacillus marinus) 358 359 NPAFDMKQINALNGHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQKEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDTLKEEVCVISEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGINLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIEL NPAFDMKQINALNGHYQTMIDNGDLQCASYMMSRGGEVFAAESLGEFTGGQKEKQTFQLDTIREIGSLTKVFTAVAVMQLVEKGLLDLKMPVKLILPAFDKPGFGEIKILHLLTHTAGLSFELDIQKAEGIDLTNEEEWINYLVSTPLEYGVDEAWNYSRTGFVILGIIISKVTGVSYEQYVTKHIIEALGLERTYFYVPDTLKEEVCVISEHECVQLEKSHHPYFPNKATSGLYSSLRDIWKLAEMFRNKGRLKDKKLLGRKTVEAMLRNQIKPGLPFYFFGAPREEGGFGLGINLWPAGDHYFMTEGTFSHLGMGWCGMFSDPAEDFTYVFFTPISEFHPHAVLTPLNIVWAGIELE 6kju-a1-m1-cA_6kju-a1-m1-cB Huge conformation shift of Vibrio cholerae VqmA dimer in the absence of target DNA provides insight into DNA-binding mechanisms of LuxR-type receptors Q9KKM5 Q9KKM5 1.75 X-RAY DIFFRACTION 160 0.991 666 (Vibrio cholerae) 666 (Vibrio cholerae) 221 227 LTLEQISLFKQLPGYWGCKDLNSVFVYANQAYGELIGLKRAEDCIGRTDFEMPSPTAACAAEFQQQDRYVIETGHSVKVLDIHPYPDGHWHAHIFTKTPWRDSQGKIQGTIFFGQDLTDTAILEVGHWVCRARDTLKLTARESEVLFLLLYGKKPQHIARVMGISIKTVEGYEAKLRSKFGALSKDQLIDLALDRGFGSVIPKTLLRKQLSVVLSDHTIPK HLTLEQISLFKQLPGYWGCKDLNSVFVYANQAYGELIGLKRAEDCIGRTDFEMPSPTAACAAEFQQQDRYVIETGHSVKVLDIHPYPDGHWHAHIFTKTPWRDSQGKIQGTIFFGQDLTDTAILEVGHWVCRATGLSTSTTLKLTARESEVLFLLLYGKKPQHIARVMGISIKTVEGYEAKLRSKFGALSKDQLIDLALDRGFGSVIPKTLLRKQLSVVLSDHTIPK 6kkm-a1-m2-cG_6kkm-a1-m2-cH Crystal structure of RbcL-Raf1 complex from Anabaena sp. PCC 7120 Q8YLP6 Q8YLP6 3 X-RAY DIFFRACTION 171 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 329 332 6kkm-a1-m1-cF_6kkm-a1-m1-cE 6kkm-a1-m1-cG_6kkm-a1-m1-cH 6kkm-a1-m2-cF_6kkm-a1-m2-cE 6lrr-a1-m1-cI_6lrr-a1-m1-cJ 6lrr-a1-m1-cK_6lrr-a1-m1-cL 6lrr-a1-m1-cM_6lrr-a1-m1-cN 6lrr-a1-m1-cO_6lrr-a1-m1-cP ELAQELLRKLRQKQGNWVEWGQAIASLQKSGYNPQDIFEATGFEPVQQNQVIVGSQVYNSLEKSGASAATLAHYATRGSDVLYELRLLTHEERAAAGDLTFTHKVDADEAREIAKAIKDFSRFRILPEGFSNHPGDAVAYQAWKLARQYSDLQERSRLIARGLRFAHSETARKQIEQLLVDAPIPPFFRFDTEDELPRIVPVVGQLPLKAEELKAVPLVEEIEPFRLVKFSGEQAWVALPGWQVLLAAEDPVTILATSDRFPKQNQTEPGPVLVVVDRSQREWNDFSYFVVDHDGELDFQWFETKPEFPILGKVIILVRPRKDSWQIDE ELAQELLRKLRQKQGNWVEWGQAIASLQKSGYNPQDIFEATGFEPVQQNQVIVGSQVYNSLEKSGASAATLAHYATRGSDVLYELRLLTHEERAAAGDLTFTHKVDADEAREIAKAIKDFSRFRILPEGFSNHPGDAVAYQAWKLARQYSDLQERSRLIARGLRFAHSETARKQIEQLLVDQRPAPIPPFFRFDTEDELPRIVPVVGQLPLKAEELKAVPLVEEIEPFRLVKFSGEQAWVALPGWQVLLAAEDPVTILATSDRFPKQNQTEPGPVLVVVDRSQREWNDFSYFVVDHDGELDFQWFETKPEFPILGKVIILVRPRKDSWQIDE 6kkn-a1-m1-cA_6kkn-a1-m2-cA Crystal structure of RuBisCO accumulation factor Raf1 from Anabaena sp. PCC 7120 Q8YLP6 Q8YLP6 2.85 X-RAY DIFFRACTION 189 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 332 332 NELAQELLRKLRQKQGNWVEWGQAIASLQKSGYNPQDIFEATGFEPVQQNQVIVGSQVYNSLEKSGASAATLAHYATRGSDVLYELRLLTHEERAAAGDLTFTHKVDADEAREIAKAIKDFSRFRILPEGFSNHPGDAVAYQAWKLARQYSDLQERSRLIARGLRFAHSETARKQIEQLLVDFTVVSQRPAPIPPFFRFDTEDELPRIVPVVGQLPLKAEELKAVPLVEEIEPFRLVKFSGEQAWVALPGWQVLLAAEDPVTILATSDRFPKQNQTEPGPVLVVVDRSQREWNDFSYFVVDHDGELDFQWFETKPEFPILGKVIILVRPRRI NELAQELLRKLRQKQGNWVEWGQAIASLQKSGYNPQDIFEATGFEPVQQNQVIVGSQVYNSLEKSGASAATLAHYATRGSDVLYELRLLTHEERAAAGDLTFTHKVDADEAREIAKAIKDFSRFRILPEGFSNHPGDAVAYQAWKLARQYSDLQERSRLIARGLRFAHSETARKQIEQLLVDFTVVSQRPAPIPPFFRFDTEDELPRIVPVVGQLPLKAEELKAVPLVEEIEPFRLVKFSGEQAWVALPGWQVLLAAEDPVTILATSDRFPKQNQTEPGPVLVVVDRSQREWNDFSYFVVDHDGELDFQWFETKPEFPILGKVIILVRPRRI 6kko-a1-m1-cB_6kko-a1-m1-cA The crystal structure of SiaB-SiaC complex from Pseudomonas aeruginosa Q9I6W1 Q9I6W1 2.099 X-RAY DIFFRACTION 132 0.994 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 164 167 SETLDLLARESYTRQRILLCFNGPISRSLIEEIGHALRNYLHAEQAKPSEADVFAVYIETQNIRHYANLKGYGEHEAAATVAIARNEDGHYVVSAGNLVERDDGQSLVRSIQAIANLDKAALKAAYKEQLRGAGLGLLDIARKSSEPLAASLKERAFFSLRAVI ETLDLLARESYTRQRILLCFNGPISRSLIEEIGHALRNYLHAEQAKPSEADVFAVYIETQNIRHYANLKGYGEHEAAATVAIARNEDGHYVVSAGNLVERDDGQSLVRSIQAIANLDKAALKAAYKEQLRGAGLGLLDIARKSSEPLAASLKEQPDGRAFFSLRAVI 6kku-a1-m1-cA_6kku-a1-m1-cB human KCC1 structure determined in NaCl and GDN Q9UP95 Q9UP95 3.5 ELECTRON MICROSCOPY 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 537 537 6kkr-a1-m1-cA_6kkr-a1-m1-cB 6kkt-a1-m1-cA_6kkt-a1-m1-cB 7tti-a1-m1-cA_7tti-a1-m1-cB PSMGTLMGVYLPCLQNIFGVILFLRLTWMVGTAGVLQALLIVLICCCCTLLTAISMSAIATNGVVPAGGSYFMISRSLGPEFGGAVGLCFYLGTTFAAAMYILGAIEILLTYIAPPAAIFYPSGAHDTSNATLNNMRVYGTIFLTFMTLVVFVGVKYVNKFASLFLACVIISILSIYAGGIKSIFDPPVFPVCMLGNRTLSRDQFDICAKTAVVDNETVATQLWSFFCHSPNLTTDSCDPYFMLNNVTEIPGIPGAAAGVLQENLWSAYLEKGDIVEKHGLPSADAPSLKESLPLYVVADIATSFTVLVGIFFPSVTGIMAGSNRSGDLRDAQKSIPVGTILAIITTSLVYFSSVVLFGACIEGVVLRDKYGDGVSRNLVVGTLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIAKDNIIPFLRVFGHGKVNGEPTWALLLTALIAELGILIASLDMVAPILSMFFLMCYLFVNLACAVQTLLRTPNWRPRFKYYHWALSFLGMSLCLALMFVSSWYYALVAMLIAGMIYKYI PSMGTLMGVYLPCLQNIFGVILFLRLTWMVGTAGVLQALLIVLICCCCTLLTAISMSAIATNGVVPAGGSYFMISRSLGPEFGGAVGLCFYLGTTFAAAMYILGAIEILLTYIAPPAAIFYPSGAHDTSNATLNNMRVYGTIFLTFMTLVVFVGVKYVNKFASLFLACVIISILSIYAGGIKSIFDPPVFPVCMLGNRTLSRDQFDICAKTAVVDNETVATQLWSFFCHSPNLTTDSCDPYFMLNNVTEIPGIPGAAAGVLQENLWSAYLEKGDIVEKHGLPSADAPSLKESLPLYVVADIATSFTVLVGIFFPSVTGIMAGSNRSGDLRDAQKSIPVGTILAIITTSLVYFSSVVLFGACIEGVVLRDKYGDGVSRNLVVGTLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIAKDNIIPFLRVFGHGKVNGEPTWALLLTALIAELGILIASLDMVAPILSMFFLMCYLFVNLACAVQTLLRTPNWRPRFKYYHWALSFLGMSLCLALMFVSSWYYALVAMLIAGMIYKYI 6klv-a1-m1-cB_6klv-a1-m1-cE Hyperthermophilic respiratory Complex III O66459 O66459 3.2 ELECTRON MICROSCOPY 85 1.0 63363 (Aquifex aeolicus) 63363 (Aquifex aeolicus) 395 395 6kls-a1-m1-cB_6kls-a1-m1-cE IVDWIDERAHVREIYRTQMVEYKVAKNLTFPYVFGILALVTFAIQIISGMVLILYYKPSIADAFDSATYSIMGEIPFGWLFRHIHATGANFFMAIVYLHMFTGIYYNAYKRPRELVWIVGWLIYFVLILTALSGYLLPWGQLSYWGFIVTTEIPGSLADAPILKPIFKAIAETIVLWMKGGYVVTDVTLGRVFGSHVLIYPLILLALVGIHLYLVRAAGISNPEGIEYDKKKNPDKFVPFHPYMTLKEGAYVMWYLAVFFFFVFFHISHFLPPENFEPANPLKTPAHIAPEWYLLGYYEVFRSIPSKFWGFVAFNALLLLLLLLPFLDFSPLKSARRRPLFFVMFVIFMISSMALTILGTMPPTPQNAKLGLIFAALVFAFFISLPIISFIEYGW IVDWIDERAHVREIYRTQMVEYKVAKNLTFPYVFGILALVTFAIQIISGMVLILYYKPSIADAFDSATYSIMGEIPFGWLFRHIHATGANFFMAIVYLHMFTGIYYNAYKRPRELVWIVGWLIYFVLILTALSGYLLPWGQLSYWGFIVTTEIPGSLADAPILKPIFKAIAETIVLWMKGGYVVTDVTLGRVFGSHVLIYPLILLALVGIHLYLVRAAGISNPEGIEYDKKKNPDKFVPFHPYMTLKEGAYVMWYLAVFFFFVFFHISHFLPPENFEPANPLKTPAHIAPEWYLLGYYEVFRSIPSKFWGFVAFNALLLLLLLLPFLDFSPLKSARRRPLFFVMFVIFMISSMALTILGTMPPTPQNAKLGLIFAALVFAFFISLPIISFIEYGW 6klv-a1-m1-cC_6klv-a1-m1-cF Hyperthermophilic respiratory Complex III O66458 O66458 3.2 ELECTRON MICROSCOPY 32 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 236 236 6kls-a1-m1-cC_6kls-a1-m1-cF TWGLIKTIFFAGSTLVFFFLLWFYNPFKHVEHYEVDEEVKAIIDNPWKKTESGKTIAEEGRELFIASCSSCHSLRYDGIYIMSVAANPKWKNIEKTSGRPVYRFGTLYKDRFFVPKDVYEAFAHDDIQGLKASLGQVPPDLSSMYLARGEGYLYQFILNPQKVLPGTTMPQLFNPQFDPQAKEKVAKIVAYMKSVNTPPPKESAKRTVMGVIVIAYFIVMGLLLWKYRENLLKRLG TWGLIKTIFFAGSTLVFFFLLWFYNPFKHVEHYEVDEEVKAIIDNPWKKTESGKTIAEEGRELFIASCSSCHSLRYDGIYIMSVAANPKWKNIEKTSGRPVYRFGTLYKDRFFVPKDVYEAFAHDDIQGLKASLGQVPPDLSSMYLARGEGYLYQFILNPQKVLPGTTMPQLFNPQFDPQAKEKVAKIVAYMKSVNTPPPKESAKRTVMGVIVIAYFIVMGLLLWKYRENLLKRLG 6km8-a1-m2-cA_6km8-a1-m3-cA Crystal Structure of Momordica charantia 7S globulin 3.099 X-RAY DIFFRACTION 173 1.0 3673 (Momordica charantia) 3673 (Momordica charantia) 345 345 6km8-a1-m1-cA_6km8-a1-m2-cA 6km8-a1-m1-cA_6km8-a1-m3-cA HNPYYFHEHSFQSRFRSEDGHWRVLERFSQRSDVLRGIENNRFAILEARPQTFIIPHHLDAETVLLVVRGRAAITTVVQETKRESYNAERGDVMVIPAGATIYLVNHENEDLQIVKLIQPINNPGEFKDYLSAGGEDQSYYTVFSNDVLEAALDIPRDRLERVFKQGKIIKGRALIKLENQTPVYSNQYGQMFEACPDEFPQLQRTNVAAAIVDIKQGGMMVPHFNSRATWAVFVAEGAGSFEMACPHLSSRFERVAGHLSPGGLLVVPAGHPIAVMASPKENLRLVGFGINAQNNLRNFLAGKENIMNEVDQEAKELTFNIKGKEADEIFKSQRESFFTKGPVG HNPYYFHEHSFQSRFRSEDGHWRVLERFSQRSDVLRGIENNRFAILEARPQTFIIPHHLDAETVLLVVRGRAAITTVVQETKRESYNAERGDVMVIPAGATIYLVNHENEDLQIVKLIQPINNPGEFKDYLSAGGEDQSYYTVFSNDVLEAALDIPRDRLERVFKQGKIIKGRALIKLENQTPVYSNQYGQMFEACPDEFPQLQRTNVAAAIVDIKQGGMMVPHFNSRATWAVFVAEGAGSFEMACPHLSSRFERVAGHLSPGGLLVVPAGHPIAVMASPKENLRLVGFGINAQNNLRNFLAGKENIMNEVDQEAKELTFNIKGKEADEIFKSQRESFFTKGPVG 6kma-a2-m1-cD_6kma-a2-m1-cC Crystal structure of SucA with glycolaldehyde-1-13C from Vibrio vulnificus A0A3Q0L1E1 A0A3Q0L1E1 2.282 X-RAY DIFFRACTION 371 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 836 839 6km9-a1-m1-cA_6km9-a1-m1-cB 6kma-a1-m1-cB_6kma-a1-m1-cA DAKQVKVLQLINAYRFRGHEAAELDPLGLWQRPTVAELDPAFHNLTEDDFEETFNVGSFAVGQETMPLKDIYTALKKTYCGSIGAEYMHMTDTEQKRWIQQRLESVVGQPSFDKDEKRTFLAELTAAEGLERYLGAKFPGAKRFSLEGGDAMIPMMKELIRHAGRSGMREVVIGMAHRGRLNMLVNVLGKKPQDLFDEFAGKGTGDVKYHQGFSADFATPGGDVHLALAFNPSHLEIVNPVVMGSVRARQDRLGDDDGSKVLPITIHGDSAIAGQGVVAETFNMSQARGFCVGGTVRVVVNNQVGFTTSNPRDTRSTMYCTDIAKMVQAPIFHVNADDPEAVAFVTRIALDYRNEFKRDVVIDLVCYRRHGHNEADEPNATQPLMYQKIKKHPTPRKLYADVLIDRNECDIETATQMVNEYRDALDHGEVVVKEWRPMAYLGHEWDTPWSNTYDKQRLVELGKRLCQYPESHTLHSRVSKLYNDRTAMTNGEKELDWGMAETLAYATLVDDGKRIRISGQDSGRGTFFHRHAVLHNQNDASTYVPLANIHDKQGPFEVFDSVLSEEAVLAFEYGYATAEPSGLTLWEAQFGDFANGAQVVIDQFISSGEQKWARLCGLTMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVVVPSTPAQVYHMIRRQVVRPMRRPLIVMSPKSLLRHPLCTSSLDDLANGTFMPAIPEIDELDPAKVKRVVFCSGKVYFDLLEQRRNNEQDDVAIVRIEQLYPFPMDDVKAAIAPYVNVEDFVWCQEEPQNQGAWYCSQHNFRAAIPAGTELKYAGRPASASPAVGYMSVHLKQQKALIDDALNV VDAKQVKVLQLINAYRFRGHEAAELDPLGLWQRPTVAELDPAFHNLTEDDFEETFNVGSFAVGQETMPLKDIYTALKKTYCGSIGAEYMHMTDTEQKRWIQQRLESVVGQPSFDKDEKRTFLAELTAAEGLERYLGAKFPGAKRFSLEGGDAMIPMMKELIRHAGRSGMREVVIGMAHRGRLNMLVNVLGKKPQDLFDEFAGKSWGTGDVKYHQGFSADFATPGGDVHLALAFNPSHLEIVNPVVMGSVRARQDRLGDDDGSKVLPITIHGDSAIAGQGVVAETFNMSQARGFCVGGTVRVVVNNQVGFTTSNPRDTRSTMYCTDIAKMVQAPIFHVNADDPEAVAFVTRIALDYRNEFKRDVVIDLVCYRRHGHNEADEPNATQPLMYQKIKKHPTPRKLYADVLIDRNECDIETATQMVNEYRDALDHGEVVVKEWRPMAYLGHEWDTPWSNTYDKQRLVELGKRLCQYPESHTLHSRVSKLYNDRTAMTNGEKELDWGMAETLAYATLVDDGKRIRISGQDSGRGTFFHRHAVLHNQNDASTYVPLANIHDKQGPFEVFDSVLSEEAVLAFEYGYATAEPSGLTLWEAQFGDFANGAQVVIDQFISSGEQKWARLCGLTMLLPHGYEGQGPEHSSARLERYLQLCAEQNMQVVVPSTPAQVYHMIRRQVVRPMRRPLIVMSPKSLLRHPLCTSSLDDLANGTFMPAIPEIDELDPAKVKRVVFCSGKVYFDLLEQRRNNEQDDVAIVRIEQLYPFPMDDVKAAIAPYVNVEDFVWCQEEPQNQGAWYCSQHNFRAAIPAGTELKYAGRPASASPAVGYMSVHLKQQKALIDDALNV 6kmf-a1-m1-cB_6kmf-a1-m1-cC FimA type V pilus from P.gingivalis B2RH54 B2RH54 3.6 ELECTRON MICROSCOPY 175 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 337 337 6kmf-a1-m1-cA_6kmf-a1-m1-cB 6kmf-a1-m1-cD_6kmf-a1-m1-cC AFGVGDDESKVAKLTVMVYNGEQQEAIKSAENATKVEDIKCSAGQRTLVVMANTGAMELVGKTLAEVKALTTELTAENQEAAGLIMTAEPKTIVLKAGKNYIGYSGTGEGNHIENDPLKIKRVHARMAFTEIKVQMSAAYDNIYTFVPEKIYGLIAKKQSNLFGATLVNADANYLTGSLTTFNGAYTPANYANVPWLSRNYVAPAADAPQGFYVLENDYSANGGTIHPTILCVYGKLQKNGADLAGADLAAAQAANWVDAEGKTYYPVLVNFNSNNYTYDSNYTPKNKIERNHKYDIKLTITGPGTNNPENPITESAHLNVQCTVAEWVLVGQNATW AFGVGDDESKVAKLTVMVYNGEQQEAIKSAENATKVEDIKCSAGQRTLVVMANTGAMELVGKTLAEVKALTTELTAENQEAAGLIMTAEPKTIVLKAGKNYIGYSGTGEGNHIENDPLKIKRVHARMAFTEIKVQMSAAYDNIYTFVPEKIYGLIAKKQSNLFGATLVNADANYLTGSLTTFNGAYTPANYANVPWLSRNYVAPAADAPQGFYVLENDYSANGGTIHPTILCVYGKLQKNGADLAGADLAAAQAANWVDAEGKTYYPVLVNFNSNNYTYDSNYTPKNKIERNHKYDIKLTITGPGTNNPENPITESAHLNVQCTVAEWVLVGQNATW 6kmo-a1-m1-cB_6kmo-a1-m1-cA Crystal structure of a novel esterase CinB from Enterobacter asburiae 1.45 X-RAY DIFFRACTION 181 1.0 61645 (Enterobacter asburiae) 61645 (Enterobacter asburiae) 327 330 TLTAILISSVFASAANTPTPTAGVQAFLNVLNSGGKPMEQMTPQEARQVLIGAQQGAKLPPAQVSEKTIQVNGQAIKLKIVKPENASGTLPAFMFFHGGGWVLGDFPTHERLIRDLVRASGAAAVYVDYTPSPEAHFPVAINQAYEATKWVAEHGQEIGVDGSRLGLVGNSVGGNMVASVALQAKQFNGPKIRYNVMLWPVTDANFDTASYNQFENGYFLSKNMMKWFWDNYTTSAADRNNILASPLRASTAQLKGFPETLIQTAELDVLRDEGEAFGRKLDAAGVPVTVRYNGMIHDYGLLNPLSQEPTVKVALEQAGAALHEHLK TLTAILISSVFASAAANTPTPTAGVQAFLNVLNSGKGKPMEQMTPQEARQVLIGAQQGAKLPPAQVSEKTIQVNGQAIKLKIVKPENASGTLPAFMFFHGGGWVLGDFPTHERLIRDLVRASGAAAVYVDYTPSPEAHFPVAINQAYEATKWVAEHGQEIGVDGSRLGLVGNSVGGNMVASVALQAKQFNGPKIRYNVMLWPVTDANFDTASYNQFENGYFLSKNMMKWFWDNYTTSAADRNNILASPLRASTAQLKGFPETLIQTAELDVLRDEGEAFGRKLDAAGVPVTVTRYNGMIHDYGLLNPLSQEPTVKVALEQAGAALHEHLK 6kmw-a1-m1-cbL_6kmw-a1-m1-ccL Structure of PSI from H. hongdechloris grown under white light condition A0A1Z3HS05 A0A1Z3HS05 2.35 ELECTRON MICROSCOPY 53 1.0 1641165 (Halomicronema hongdechloris C2206) 1641165 (Halomicronema hongdechloris C2206) 144 144 6kmw-a1-m1-caL_6kmw-a1-m1-cbL 6kmw-a1-m1-caL_6kmw-a1-m1-ccL GHLSTPISDSAFVRSFIGNLPAYRKGMAPITRGLEIGLAHGYFLVGPEIIVGALRDYAPAPYLGGLVTAIAIVLLGTTGMGAHGLVSLKPVAESSPKTDALMTSEGWSEMTAGFFLGGMSGAFMAYFLLSHFSEIDAIFRGFVN GHLSTPISDSAFVRSFIGNLPAYRKGMAPITRGLEIGLAHGYFLVGPEIIVGALRDYAPAPYLGGLVTAIAIVLLGTTGMGAHGLVSLKPVAESSPKTDALMTSEGWSEMTAGFFLGGMSGAFMAYFLLSHFSEIDAIFRGFVN 6kmx-a1-m1-cbL_6kmx-a1-m1-ccL Structure of PSI from H. hongdechloris grown under far-red light condition A0A1Z3HIQ7 A0A1Z3HIQ7 2.41 ELECTRON MICROSCOPY 39 1.0 1641165 (Halomicronema hongdechloris C2206) 1641165 (Halomicronema hongdechloris C2206) 172 172 6kmx-a1-m1-caL_6kmx-a1-m1-cbL 6kmx-a1-m1-caL_6kmx-a1-m1-ccL TWVDAYDQKDIIQPYRGNPELGNLATPVNSSNLVKTYINNLPAYRPGLTPFLRGLEIGMAHGYFLVGPEVVVGPLRETAHGANLSGLITAIYITVSACLGISIFALATFQGDPRGAYNSNSPDRLRPLRSKDGWFQLSGGILLGSMGGAIFAYVLLENFGDLDAILRGAVNV TWVDAYDQKDIIQPYRGNPELGNLATPVNSSNLVKTYINNLPAYRPGLTPFLRGLEIGMAHGYFLVGPEVVVGPLRETAHGANLSGLITAIYITVSACLGISIFALATFQGDPRGAYNSNSPDRLRPLRSKDGWFQLSGGILLGSMGGAIFAYVLLENFGDLDAILRGAVNV 6kmz-a2-m1-cC_6kmz-a2-m1-cD caspase-4 P22/P10 C258A in complex with human GSDMD-C domain P49662 P49662 3.61 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 173 173 6kmz-a1-m1-cA_6kmz-a1-m1-cB ALKLCPHEEFLRLCKERAEEIYPIKERNNRTRLALIICNTEFDHLPPRNGADFDITGMKELLEGLDYSVDVEENLTARDMESALRAFATRPEHKSSDSTFLVLMSHGILEGICGTVHDEKKPDVLLYDTIFQIFNNRNCLSLKDKPKVIIVQAARGANRGELWVRDSENLEED ALKLCPHEEFLRLCKERAEEIYPIKERNNRTRLALIICNTEFDHLPPRNGADFDITGMKELLEGLDYSVDVEENLTARDMESALRAFATRPEHKSSDSTFLVLMSHGILEGICGTVHDEKKPDVLLYDTIFQIFNNRNCLSLKDKPKVIIVQAARGANRGELWVRDSENLEED 6kmz-a2-m1-cc_6kmz-a2-m1-cd caspase-4 P22/P10 C258A in complex with human GSDMD-C domain P49662 P49662 3.61 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 88 6kmz-a1-m1-ca_6kmz-a1-m1-cb AVYKTHVEKDFIAFCSSTPHNVSWRDSTMGSIFITQLITCFQKYSWCCHLEEVFRKVQQSFETPRAKAQMPTIERLSMTRYFYLFPGN AVYKTHVEKDFIAFCSSTPHNVSWRDSTMGSIFITQLITCFQKYSWCCHLEEVFRKVQQSFETPRAKAQMPTIERLSMTRYFYLFPGN 6kni-a1-m1-cA_6kni-a1-m1-cB Crystal structure of SbnH in complex with the cofactor PLP, a PLP-dependent decarboxylase in Staphyloferrin B biothesynthesis A0A0H3JPF2 A0A0H3JPF2 1.97 X-RAY DIFFRACTION 201 0.997 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 381 381 6knh-a1-m1-cB_6knh-a1-m1-cA 6knh-a2-m1-cC_6knh-a2-m2-cC 6kni-a2-m1-cC_6kni-a2-m2-cC 6knk-a1-m1-cA_6knk-a1-m1-cB 6knk-a2-m1-cC_6knk-a2-m2-cC RIVQPVIEQLKAQSHPVCHYIYDLVGLEHHLQHITSSLPSNCQMYYAMKANSERTILDTISQYVEGFEVASQGEIAKGLAFKPANHIIFGGPGKTDEELRYAVSEGVQRIHVESMHELQRLNAILEDEDKTQHILLRVNLAPTQFGISEDEVDDVIEAALVMPNIHLDGFHFHSISNNLDSNLHVDVVKLYFKKAKSWSEKHRFPLKHINLGGGIGVNYADLTSQFEWDNFVENFKTLIVEQEMEDVTLNFECGRFIVAHIGYYVTEVLDIKKVHGAWYAILRGGTQQFRLPVSWQHNHPFEIYRYKDNPYSFEKVSISRQDTTLVGQLCTPKDVFAREVQIDAISTGDVIVFKYAGAYGWSISHHDFLSHPHPEFIYLTQ MRIVQPVIEQLKAQSHPVCHYIYDLVGLEHHLQHITSSLPSNCQMYYAMKANSERTILDTISQYVEGFEVASQGEIAKGLAFKPANHIIFGGPGKTDEELRYAVSEGVQRIHVESMHELQRLNAILEDEDKTQHILLRVNLAPTQFGISEDEVDDVIEAALVMPNIHLDGFHFHSISNNLDSNLHVDVVKLYFKKAKSWSEKHRFPLKHINLGGGIGVNYADLTSQFEWDNFVENFKTLIVEQEMEDVTLNFECGRFIVAHIGYYVTEVLDIKKVHGAWYAILRGGTQQFRLPVSWQHNHPFEIYRYKDNPYSFEKVSISRQDTTLVGQLCTPKDVFAREVQIDAISTGDVIVFKYAGAYGWSISHHDFLSHPHPEFIYLT 6kns-a1-m1-cA_6kns-a1-m2-cA Crystal structure of the metallo-beta-lactamase fold protein YhfI from Bacillus subtilis (space group I4122) E0TYN8 E0TYN8 2.15 X-RAY DIFFRACTION 107 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 246 246 6kns-a2-m1-cB_6kns-a2-m2-cB 6kns-a3-m1-cC_6kns-a3-m2-cC 6kns-a4-m1-cD_6kns-a4-m2-cD 6knt-a1-m1-cB_6knt-a1-m1-cA 6knt-a2-m1-cC_6knt-a2-m1-cD DPMKVTVIGCYGGFPAANEATSGYLFQSGDYSLLVDCGSAVLSKLFGYVPAEKLDAVILSHYHHDHIADIGPLQFAKQVGSFLGKGEHTLPIYGHDADIEQFQKLTYKTHTKGIAFQPDQPLTAGPFTITFLKTIHPVTCYAMRITDGSHTVVYTADSSYQDSFIPFSENADLLISECNFYADQDGTSAGHMNSLEAGRIAKEAGAGELLLTHLPHFGVHDNLRKEAKTVFSGEVNIAKSGFVWEG DPMKVTVIGCYGGFPAANEATSGYLFQSGDYSLLVDCGSAVLSKLFGYVPAEKLDAVILSHYHHDHIADIGPLQFAKQVGSFLGKGEHTLPIYGHDADIEQFQKLTYKTHTKGIAFQPDQPLTAGPFTITFLKTIHPVTCYAMRITDGSHTVVYTADSSYQDSFIPFSENADLLISECNFYADQDGTSAGHMNSLEAGRIAKEAGAGELLLTHLPHFGVHDNLRKEAKTVFSGEVNIAKSGFVWEG 6kny-a3-m3-cB_6kny-a3-m4-cB Structure of Amuc_1100 without transmembrane region from Akkermansia muciniphila B2UR41 B2UR41 2.1 X-RAY DIFFRACTION 52 1.0 349741 (Akkermansia muciniphila ATCC BAA-835) 349741 (Akkermansia muciniphila ATCC BAA-835) 190 190 GSLETAYKPFLASSALVPTTPTAFQNELKTFRDSLISSCKKKNILITDTSSWLGFQVYSTQAPSVQAASTLGFELKAINSLVNKLAECGLSKFIKVYRPQLPIETPAPWTPMPLEIAFQGDRESVLKAMNAITGMQDYLFTVNSIRIRNERMMPPPIAAPAIQQVIKPYMGKEQVFVQVSLNLVHFNQPK GSLETAYKPFLASSALVPTTPTAFQNELKTFRDSLISSCKKKNILITDTSSWLGFQVYSTQAPSVQAASTLGFELKAINSLVNKLAECGLSKFIKVYRPQLPIETPAPWTPMPLEIAFQGDRESVLKAMNAITGMQDYLFTVNSIRIRNERMMPPPIAAPAIQQVIKPYMGKEQVFVQVSLNLVHFNQPK 6ko7-a2-m1-cD_6ko7-a2-m1-cC Crystal structure of the Ethidium bound RamR determined with XtaLAB Synergy Q8ZR43 Q8ZR43 1.7 X-RAY DIFFRACTION 67 1.0 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 588858 (Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S) 183 186 3vvx-a1-m1-cB_3vvx-a1-m1-cA 3vvy-a1-m1-cA_3vvy-a1-m1-cB 3vvy-a2-m1-cD_3vvy-a2-m1-cC 3vvz-a1-m1-cA_3vvz-a1-m1-cB 3vvz-a2-m1-cC_3vvz-a2-m1-cD 3vw0-a1-m1-cA_3vw0-a1-m1-cB 3vw0-a2-m1-cC_3vw0-a2-m1-cD 3vw1-a1-m1-cA_3vw1-a1-m1-cB 3vw1-a2-m1-cD_3vw1-a2-m1-cC 3vw2-a1-m1-cA_3vw2-a1-m1-cB 3vw2-a2-m1-cD_3vw2-a2-m1-cC 6ie8-a1-m1-cA_6ie8-a1-m2-cA 6ie9-a1-m1-cA_6ie9-a1-m2-cA 6ko7-a1-m1-cA_6ko7-a1-m1-cB 6ko8-a1-m1-cA_6ko8-a1-m2-cA 6ko9-a1-m1-cA_6ko9-a1-m1-cB 6ko9-a2-m1-cC_6ko9-a2-m1-cD 7n4w-a1-m1-cA_7n4w-a1-m2-cA 7n4z-a1-m1-cA_7n4z-a1-m1-cC 7n4z-a2-m1-cD_7n4z-a2-m1-cB 7n53-a1-m1-cA_7n53-a1-m1-cB 7n54-a1-m1-cA_7n54-a1-m1-cB 7n54-a2-m1-cC_7n54-a2-m1-cD DKKQALLEAATQAIAQSGIAASTAVIARNAGVAEGTLFRYFATKDELINTLYLHLKQDLCQSMIMELDRSITDAKMMTRFIWNSYISWGLNHPARHRAIRQLAVSEKLTKETEQRADDMFPELRDLCHRSVLMVFMSDEYRAFGDGLFLALAETTMDFAARDPARAGEYIALGFEAMWRALTR SEDKKQALLEAATQAIAQSGIAASTAVIARNAGVAEGTLFRYFATKDELINTLYLHLKQDLCQSMIMELDRSITDAKMMTRFIWNSYISWGLNHPARHRAIRQLAVSEKLTKETEQRADDMFPELRDLCHRSVLMVFMSDEYRAFGDGLFLALAETTMDFAARDPARAGEYIALGFEAMWRALTRE 6koi-a2-m1-cC_6koi-a2-m1-cD Crystal structure of SNX11-PXe domain in dimer form. Q9Y5W9 Q9Y5W9 3.5 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 145 6koi-a10-m1-cS_6koi-a10-m1-cT 6koi-a12-m1-cW_6koi-a12-m1-cX 6koi-a4-m1-cG_6koi-a4-m1-cH 6koi-a6-m1-cK_6koi-a6-m1-cL EVITVRVQDPRVQNEGSWNSYVDYKIFLHTNSKAFTAKTSCVRRRYREFVWLRKQLQRNAGLVPVPELPGKSTFFGTSDEFIEKRRQGLQHFLEKVLQSVVLLSDSQLHLFLQSQLSVPEIEACVQ EEVITVRVQDPRVQNEGSWNSYVDYKIFLHTNSKAFTAKTSCVRRRYREFVWLRKQLQRNAGLVPVPELPGKSTFFGTSDEFIEKRRQGLQHFLEKVLQSVVLLSDSQLHLFLQSQLSVPEIEACVQGRSTTVSDAILRYASNLE 6kos-a1-m1-cB_6kos-a1-m1-cA Crystal structure of SUWA (Super WA20), a hyper-stable de novo protein with a dimeric bisecting topology 2 X-RAY DIFFRACTION 191 1.0 32630 (synthetic construct) 32630 (synthetic construct) 97 101 KLNKLVEHIKELLQQLNKNWHRLQSNLHDMLQQMEQLFQEFQHFMQGNQDDGKLQNMIHEMQQFMNQLDNHLQSLSDTVHHFHNKLQELMNNFHHLV MYGKLNKLVEHIKELLQQLNKNWHRLQSNLHDMLQQMEQLFQEFQHFMQGNQDDGKLQNMIHEMQQFMNQLDNHLQSLSDTVHHFHNKLQELMNNFHHLVH 6kpb-a1-m1-cC_6kpb-a1-m2-cC The crystal structure of the JACKDAW/IDD10 bound to the homodimeric SCL3 Q9LPR8 Q9LPR8 2.4 X-RAY DIFFRACTION 101 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 378 378 6kpd-a1-m1-cC_6kpd-a1-m2-cC LKPEERGLYLIHLLLTCANHVASGSLQNANAALEQLSHLASPDGDTMQRIAAYFTEALANRILKSWPGLYKALNATQTRTNNVSEEIHVRRLFFEMFPILKVSYLLTNRAILEAMEGEKMVHVIDLDASEPAQWLALLQAFNSRPEGPPHLRITGVHHQKEVLEQMAHRLIEEAEKLDIPFQFNPVVSRLDCLNVEQLRVKTGEALAVSSVLQLHTFLASSSGRTDSFLNAIWGLSPKVMVVTEQDSDHNGSTLMERLLESLYTYAALFDCLETKVPRTSQDRIKVEKMLFGEEIKNIISCEGFERRERHEKLEKWSQRIDLAGFGNVPLSYYAMLQARRLLQGCGFDGYRIKEESGCAVICWQDRPLYSVSAWRCRK LKPEERGLYLIHLLLTCANHVASGSLQNANAALEQLSHLASPDGDTMQRIAAYFTEALANRILKSWPGLYKALNATQTRTNNVSEEIHVRRLFFEMFPILKVSYLLTNRAILEAMEGEKMVHVIDLDASEPAQWLALLQAFNSRPEGPPHLRITGVHHQKEVLEQMAHRLIEEAEKLDIPFQFNPVVSRLDCLNVEQLRVKTGEALAVSSVLQLHTFLASSSGRTDSFLNAIWGLSPKVMVVTEQDSDHNGSTLMERLLESLYTYAALFDCLETKVPRTSQDRIKVEKMLFGEEIKNIISCEGFERRERHEKLEKWSQRIDLAGFGNVPLSYYAMLQARRLLQGCGFDGYRIKEESGCAVICWQDRPLYSVSAWRCRK 6kqb-a1-m1-cA_6kqb-a1-m1-cB A long chain secondary alcohol dehydrogenase of Micrococcus luteus A0A4U1L6L9 A0A4U1L6L9 2.261 X-RAY DIFFRACTION 137 1.0 1270 (Micrococcus luteus) 1270 (Micrococcus luteus) 310 310 MSEFTRFEQVAVLGTGVLGSQIIMQAAYHGKKVMAYDAVPAALEGIERRWAWIRQGYEADLGEGYDPQRFDEAIARITPTSDLGEALADADIVIEAVPENLELKRKVWAQVGELAPATTLFATNTSSLLPSDFADASGHPERFLALHYANRIWAQNTAEVMGTAATSPEAVAGALQFAEETGMVPVHVRKEIPGYFLNSLLIPWLQAGSKLYMHGVGNPADIDRTWRVATGNERGPFQTYDIVGFHVAANVSRNTGVDWQLGFAELLEKSIAEGHSGVADGQGFYRYGPDGENLGPVEDWNLGDKDTPLG MSEFTRFEQVAVLGTGVLGSQIIMQAAYHGKKVMAYDAVPAALEGIERRWAWIRQGYEADLGEGYDPQRFDEAIARITPTSDLGEALADADIVIEAVPENLELKRKVWAQVGELAPATTLFATNTSSLLPSDFADASGHPERFLALHYANRIWAQNTAEVMGTAATSPEAVAGALQFAEETGMVPVHVRKEIPGYFLNSLLIPWLQAGSKLYMHGVGNPADIDRTWRVATGNERGPFQTYDIVGFHVAANVSRNTGVDWQLGFAELLEKSIAEGHSGVADGQGFYRYGPDGENLGPVEDWNLGDKDTPLG 6kqp-a1-m1-cA_6kqp-a1-m2-cA NSD1 SET domain in complex with SAM Q96L73 Q96L73 2.4 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 DKKPPPYKHIKVNRPIGRVQIFTADLSEIPRCNCKATDENPCGIDSECINRMLLYECHPTVCPAGGRCQNQCFSKRQYPEVEIFRTLQRGWGLRTKTDIKKGEFVNEYVGELIDEEECRARIRYAQEHDITNFYMLTLDKDRIIDAGPKGNYARFMNHCCQPNCETQKWSVNGDTRVGLFALSDIKAGTELTFNYNLECLGNGKTVCKCGAPNCSGFLGV DKKPPPYKHIKVNRPIGRVQIFTADLSEIPRCNCKATDENPCGIDSECINRMLLYECHPTVCPAGGRCQNQCFSKRQYPEVEIFRTLQRGWGLRTKTDIKKGEFVNEYVGELIDEEECRARIRYAQEHDITNFYMLTLDKDRIIDAGPKGNYARFMNHCCQPNCETQKWSVNGDTRVGLFALSDIKAGTELTFNYNLECLGNGKTVCKCGAPNCSGFLGV 6kqr-a1-m1-cF_6kqr-a1-m1-cG A pre-assembled molecular-helical Cascade backbone of Csy3 subunits from Zymomonas mobilis Q5NPQ2 Q5NPQ2 2.899 X-RAY DIFFRACTION 114 1.0 120045 (Zymomonas mobilis subsp. mobilis) 120045 (Zymomonas mobilis subsp. mobilis) 334 334 6kqr-a1-m1-cA_6kqr-a1-m1-cB 6kqr-a1-m1-cB_6kqr-a1-m1-cC 6kqr-a1-m1-cC_6kqr-a1-m1-cD 6kqr-a1-m1-cD_6kqr-a1-m1-cE 6kqr-a1-m1-cE_6kqr-a1-m1-cF ASVLSFERKLDPSDALFFSGNWSNKSDDKAWQPIHLREKSVRGTISNRLKKGEADPAKLNAAIEKPNLQTVDVATLPFDSDTLKVEFTLRVLGGVGEPAACNSMEYRSKLVATISHYIDTHGLDILGNRYAANLANGRFLWRNRLGADAISIQITRLSGDESTLVGVFDALAHPLRQFEEKSVSEELEALAKLITAGLAGQEHVLLRVKAFIRMGEGQEVFPSQELLLDKGKSTKSRFLYSVGQDEKAIAAIHSQKIGNALRTIDTWYPDAEINGPIAVEPYGSVTTQGVAYRQPKAKKDFYSLLDAWVLKDKEPTIEDQHFVAAVLVRGGVFG ASVLSFERKLDPSDALFFSGNWSNKSDDKAWQPIHLREKSVRGTISNRLKKGEADPAKLNAAIEKPNLQTVDVATLPFDSDTLKVEFTLRVLGGVGEPAACNSMEYRSKLVATISHYIDTHGLDILGNRYAANLANGRFLWRNRLGADAISIQITRLSGDESTLVGVFDALAHPLRQFEEKSVSEELEALAKLITAGLAGQEHVLLRVKAFIRMGEGQEVFPSQELLLDKGKSTKSRFLYSVGQDEKAIAAIHSQKIGNALRTIDTWYPDAEINGPIAVEPYGSVTTQGVAYRQPKAKKDFYSLLDAWVLKDKEPTIEDQHFVAAVLVRGGVFG 6kr0-a2-m1-cD_6kr0-a2-m1-cC Crystal structure of HL homo-diabody 2.3 X-RAY DIFFRACTION 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 227 6kr0-a1-m1-cA_6kr0-a1-m1-cB EVQLVESGGGLVQPGGSLRLSCAASGYSFTGYTMNWVRQAPGKGLEWVALINPYKGVSTYNQKFKDRFTISVDKSKNTAYLQMNSLRAEDTAVYYCARSGYYGDSDWYFDVWGQGTLVTVQMTQSPSSLSASVGDRVTITCRASQDLATDVAWYQQKPGKAPKLLIYSASFLYSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQSEPEPYTFGQGTKVE EVQLVESGGGLVQPGGSLRLSCAASGYSFTGYTMNWVRQAPGKGLEWVALINPYKGVSTYNQKFKDRFTISVDKSKNTAYLQMNSLRAEDTAVYYCARSGYYGDSDWYFDVWGQGTLVTVSSQMTQSPSSLSASVGDRVTITCRASQDLATDVAWYQQKPGKAPKLLIYSASFLYSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQSEPEPYTFGQGTKVEIK 6kr5-a1-m1-cA_6kr5-a1-m1-cB Crystal structure of O-Acetyl Serine Sulfhydrylase isoform 3 from Entamoeba histolytica Q401L7 Q401L7 1.544 X-RAY DIFFRACTION 197 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 335 336 NITINTPRKRIYHNILETIGGTPLVELHGVTDHPSIKKNTKILVKLECFNPMSSVKDRVGFNIIYQAIKDGRLKPGMEIIEATSGNTGIGLCQAGAVFGYPVNIVMPSTMSVERQMIMKAFGANLVLSDGTKGMPGAIAKYEELIKQHPNKYFPANQFGNPDNTAAHVYTANEIWEDTNGEVDIIVSAVGTAGTVIGVGENLKKKKKGVKVVAVEPAESAVLSGKPKGPHGIQGIGAGFVTDIYKKEVVDEITPIKTQDAWKMARAVVKYDGIMCGMSSGAAILAGLKEAGKVENEGKTIVIILPDCGERYLSTDLYKTIEEGTKQQVLDSLLLH NITINTPRKRIYHNILETIGGTPLVELHGVTDHPSIKKNTKILVKLECFNPMSSVKDRVGFNIIYQAIKDGRLKPGMEIIEATSGNTGIGLCQAGAVFGYPVNIVMPSTMSVERQMIMKAFGANLVLSDGTKGMPGAIAKYEELIKQHPNKYFPANQFGNPDNTAAHVYTANEIWEDTNGEVDIIVSAVGTAGTVIGVGENLKKKKKGVKVVAVEPAESAVLSGKPKGPHGIQGIGAGFVTDIYKKEVVDEITPIKTQDAWKMARAVVKYDGIMCGMSSGAAILAGLKEAGKVENEGKTIVIILPDCGERYLSTDLYKTIEEGTKQQVLDSLLLHH 6kru-a1-m1-cA_6kru-a1-m1-cB Crystal structure of mouse IgG2b Fc P01867 P01867 2.3 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 208 208 2rgs-a1-m1-cA_2rgs-a1-m1-cB 6kru-a2-m1-cD_6kru-a2-m1-cC 6kru-a3-m1-cE_6kru-a3-m1-cF 6krv-a1-m1-cB_6krv-a1-m1-cA 6krv-a2-m1-cC_6krv-a2-m3-cC GPSVFIFPPNIKDVLMISLTPKVTCVVVDVSEDDPDVQISWFVNNVEVHTAQTQTHREDYNSTIRVVSTLPIQHQDWMSGKEFKCKVNNKDLPSPIERTISKIKGLVRAPQVYILPPPAEQLSRKDVSLTCLVVGFNPGDISVEWTSNGHTEENYKDTAPVLDSDGSYFIYSKLNMKTSKWEKTDSFSCNVRHEGLKNYYLKKTISRS GPSVFIFPPNIKDVLMISLTPKVTCVVVDVSEDDPDVQISWFVNNVEVHTAQTQTHREDYNSTIRVVSTLPIQHQDWMSGKEFKCKVNNKDLPSPIERTISKIKGLVRAPQVYILPPPAEQLSRKDVSLTCLVVGFNPGDISVEWTSNGHTEENYKDTAPVLDSDGSYFIYSKLNMKTSKWEKTDSFSCNVRHEGLKNYYLKKTISRS 6kse-a1-m1-cA_6kse-a1-m1-cB Crystal Structure of E447A Acyl-CoA Dehydrogenase FadE5 mutant from Mycobacteria tuberculosisin complex with C18CoA O53666 O53666 1.998 X-RAY DIFFRACTION 271 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 607 607 MSHYRSNVRDQVFNLFEVLGVDKALGHGEFSDVDVDTARDMLAEVSRLAEGPVAESFVEGDRNPPVFDPKTHSVMLPESFKKSVNAMLEAGWDKVGIDEALGGMPMPKAVVWALHEHILGANPAVWMYAGGAGFAQILYHLGTEEQKKWAVLAAERGWGSTMVLTEPDAGSDVGAARTKAVQQADGSWHIDGVKRFITSGDSGDLFENIFHLVLARPEGAGPGTKGLSLYFVPKFLFDVETGEPGERNGVFVTNVEHKMGLKVSATCELAFGQHGVPAKGWLVGEVHNGIAQMFEVIEQARMMVGTKAIATLSTGYLNALQYAKSRVQGADLTQMTDKTAPRVTITHHPDVRRSLMTQKAYAEGLRALYLYTATFQDAAVAEVVHGVDAKLAVKVNDLMLPVVKGVGSEQAYAKLTESLQTLGGSGFLQDYPIEQYIRDAKIDSLYAGTTAIQAQDFFFRKIVRDKGVALAHVSGQIQEFVDSGRLKTERALLAKALTDVQGMAAALTGYLMAAQQDVTSLYKVGLGSVRFLMSVGDLIIGWLLQRQAAVAVAALDAGATGDERSFYEGKVAVASFFAKNFLPLLTSTREVIETLDNDIMELDEAAF MSHYRSNVRDQVFNLFEVLGVDKALGHGEFSDVDVDTARDMLAEVSRLAEGPVAESFVEGDRNPPVFDPKTHSVMLPESFKKSVNAMLEAGWDKVGIDEALGGMPMPKAVVWALHEHILGANPAVWMYAGGAGFAQILYHLGTEEQKKWAVLAAERGWGSTMVLTEPDAGSDVGAARTKAVQQADGSWHIDGVKRFITSGDSGDLFENIFHLVLARPEGAGPGTKGLSLYFVPKFLFDVETGEPGERNGVFVTNVEHKMGLKVSATCELAFGQHGVPAKGWLVGEVHNGIAQMFEVIEQARMMVGTKAIATLSTGYLNALQYAKSRVQGADLTQMTDKTAPRVTITHHPDVRRSLMTQKAYAEGLRALYLYTATFQDAAVAEVVHGVDAKLAVKVNDLMLPVVKGVGSEQAYAKLTESLQTLGGSGFLQDYPIEQYIRDAKIDSLYAGTTAIQAQDFFFRKIVRDKGVALAHVSGQIQEFVDSGRLKTERALLAKALTDVQGMAAALTGYLMAAQQDVTSLYKVGLGSVRFLMSVGDLIIGWLLQRQAAVAVAALDAGATGDERSFYEGKVAVASFFAKNFLPLLTSTREVIETLDNDIMELDEAAF 6ksi-a1-m1-cA_6ksi-a1-m1-cB Staphylococcus aureus lipase - native A0A0U1MWF9 A0A0U1MWF9 2.08 X-RAY DIFFRACTION 14 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 382 382 QPLNKYPVVFVHGFLGLVGDNAPALYPNYWGGNKFKVIEELRKQGYNVHQASVSAFGSNYDRAVQLYYYIKGGRVDYGAAHAAKYGHERYGKTYKGIMPNWEPGKKVHLVGHSMGGQTIRLMEEFLRNGNKEEIAYHQAHGGEISPLFTGGHNNMVASITTLATPHNGSQAADKFGNTEAVRKIMFALNRFMGNKYSNIDLGLTQWGFKQLPNESYIDYIKRVSKSKIWTSDDNAAYDLTLDGSAKLNNMTSMNPNITYTTYTGVSSHTGPLGYENPDLGTFFLMDTTSRIIGHDAREEWRKNDGVVPVISSLHPSNQPFVNVTNNEPATRRGIWQVKPILQGWDHVDFIGVDFLDFKRKGSELANFYIGIINDLLSVEATE QPLNKYPVVFVHGFLGLVGDNAPALYPNYWGGNKFKVIEELRKQGYNVHQASVSAFGSNYDRAVQLYYYIKGGRVDYGAAHAAKYGHERYGKTYKGIMPNWEPGKKVHLVGHSMGGQTIRLMEEFLRNGNKEEIAYHQAHGGEISPLFTGGHNNMVASITTLATPHNGSQAADKFGNTEAVRKIMFALNRFMGNKYSNIDLGLTQWGFKQLPNESYIDYIKRVSKSKIWTSDDNAAYDLTLDGSAKLNNMTSMNPNITYTTYTGVSSHTGPLGYENPDLGTFFLMDTTSRIIGHDAREEWRKNDGVVPVISSLHPSNQPFVNVTNNEPATRRGIWQVKPILQGWDHVDFIGVDFLDFKRKGSELANFYIGIINDLLSVEATE 6ksl-a1-m1-cA_6ksl-a1-m1-cB Staphylococcus aureus lipase - S116A inactive mutant A0A0U1MWF9 A0A0U1MWF9 2.59 X-RAY DIFFRACTION 38 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 382 382 QPLNKYPVVFVHGFLGLVGDNAPALYPNYWGGNKFKVIEELRKQGYNVHQASVSAFGSNYDRAVQLYYYIKGGRVDYGAAHAAKYGHERYGKTYKGIMPNWEPGKKVHLVGHAMGGQTIRLMEEFLRNGNKEEIAYHQAHGGEISPLFTGGHNNMVASITTLATPHNGSQAADKFGNTEAVRKIMFALNRFMGNKYSNIDLGLTQWGFKQLPNESYIDYIKRVSKSKIWTSDDNAAYDLTLDGSAKLNNMTSMNPNITYTTYTGVSSHTGPLGYENPDLGTFFLMDTTSRIIGHDAREEWRKNDGVVPVISSLHPSNQPFVNVTNNEPATRRGIWQVKPILQGWDHVDFIGVDFLDFKRKGSELANFYIGIINDLLSVEATE QPLNKYPVVFVHGFLGLVGDNAPALYPNYWGGNKFKVIEELRKQGYNVHQASVSAFGSNYDRAVQLYYYIKGGRVDYGAAHAAKYGHERYGKTYKGIMPNWEPGKKVHLVGHAMGGQTIRLMEEFLRNGNKEEIAYHQAHGGEISPLFTGGHNNMVASITTLATPHNGSQAADKFGNTEAVRKIMFALNRFMGNKYSNIDLGLTQWGFKQLPNESYIDYIKRVSKSKIWTSDDNAAYDLTLDGSAKLNNMTSMNPNITYTTYTGVSSHTGPLGYENPDLGTFFLMDTTSRIIGHDAREEWRKNDGVVPVISSLHPSNQPFVNVTNNEPATRRGIWQVKPILQGWDHVDFIGVDFLDFKRKGSELANFYIGIINDLLSVEATE 6ksw-a1-m1-cB_6ksw-a1-m1-cC Cryo-EM structure of the human concentrative nucleoside transporter CNT3 Q9HAS3 Q9HAS3 3.6 ELECTRON MICROSCOPY 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 513 513 6ksw-a1-m1-cA_6ksw-a1-m1-cB 6ksw-a1-m1-cA_6ksw-a1-m1-cC TLRHIIWGILLAGYLVMVISACVLNFHRALPLFVITVAAIFFVVWDHLMAKYEHRIDEMLSPGRRLLNSHWFWLKWVIWSSLVLAVIFWLAFDTAKLGQQQLVSFGGLIMYIVLLFLFSKYPTRVYWRPVLWGIGLQFLLGLLILRTDPGFIAFDWLGRQVQTFLEYTDAGASFVFGEKYKDHFFAFKVLPIVVFFSTVMSMLYYLGLMQWIIRKVGWIMLVTTGSSPIESVVASGNIFVGQTESPLLVRPYLPYITKSELHAIMTAGFSTIAGSVLGAYISFGVPSSHLLTASVMSAPASLAAAKLFWPETEKPKITLKNAMKMEDSGNLLEAATQGASSSISLVANIAVNLIAFLALLSFMNSALSWFGNMFDYPQLSFELICSYIFMPFSFMMGVEWQDSFMVARLIGYKTFFNEFVAYEHLSKWIHLRKEGGPKFVNGVQQYISIRSEIIATYALCGFANIGSLGIVIGGLTSMAPSRKRDIASGAVRALIAGTVACFMTACIAGILSS TLRHIIWGILLAGYLVMVISACVLNFHRALPLFVITVAAIFFVVWDHLMAKYEHRIDEMLSPGRRLLNSHWFWLKWVIWSSLVLAVIFWLAFDTAKLGQQQLVSFGGLIMYIVLLFLFSKYPTRVYWRPVLWGIGLQFLLGLLILRTDPGFIAFDWLGRQVQTFLEYTDAGASFVFGEKYKDHFFAFKVLPIVVFFSTVMSMLYYLGLMQWIIRKVGWIMLVTTGSSPIESVVASGNIFVGQTESPLLVRPYLPYITKSELHAIMTAGFSTIAGSVLGAYISFGVPSSHLLTASVMSAPASLAAAKLFWPETEKPKITLKNAMKMEDSGNLLEAATQGASSSISLVANIAVNLIAFLALLSFMNSALSWFGNMFDYPQLSFELICSYIFMPFSFMMGVEWQDSFMVARLIGYKTFFNEFVAYEHLSKWIHLRKEGGPKFVNGVQQYISIRSEIIATYALCGFANIGSLGIVIGGLTSMAPSRKRDIASGAVRALIAGTVACFMTACIAGILSS 6ksy-a2-m2-cC_6ksy-a2-m1-cB Crystal structure of arginase from Zymomonas mobilis ZM4 Q5NQE9 Q5NQE9 1.649 X-RAY DIFFRACTION 142 1.0 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 264203 (Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821) 284 289 6ksy-a1-m1-cA_6ksy-a1-m1-cD KPLRLIFPQWQGGDNPPYYLGSQLLAWLSPDPKGAVEEVPVPKPTGEPLQEENGIVGRSILIDQLSEARQLIEKHTPDSLVVLGGDCLVSLAPFSWLLEKYKDKLGILWIDSHPDVQTPKEYKNAHAHVLGELMGNGDSDFTRTVKHPVSPQKIMIAGIHDPLPYEANFISEHKIQTCSPEQVRSGAQPVLDWIKNEKIEYLAIHIDLDVLDPHNFRSVLFAKPGRGQHDFGDVAEGKLNIPDVVKLANQAASISKAVGLTIAEHLPWDALNLKNMLEELPLIG SSINKPLRLIFPQWQGGDNPPYYLGSQLLAWLSPDPKGAVEEVPVPKPTGEPLQEENGIVGRSILIDQLSEARQLIEKHTPDSLVVLGGDCLVSLAPFSWLLEKYKDKLGILWIDSHPDVQTPKEYKNAHAHVLGELMGNGDSDFTRTVKHPVSPQKIMIAGIHDPLPYEANFISEHKIQTCSPEQVRSGAQPVLDWIKNEKIEYLAIHIDLDVLDPHNFRSVLFAKPGRGQHDFGDVAEGKLNIPDVVKLANQAASISKAVGLTIAEHLPWDALNLKNMLEELPLIGK 6kta-a1-m1-cB_6kta-a1-m1-cA Crystal structure of B. halodurans MntR in apo form Q9K943 Q9K943 2.3 X-RAY DIFFRACTION 83 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 137 138 6ktb-a1-m1-cA_6ktb-a1-m1-cB MPTPSMEDYLERIYLLIEEKGYARVSDIAEALEVHPSSVTKMVQKLDKSDYLVYERYRGLILTAKGKKIGKRLVYRHDLLEDFLKMIGVDSDHIYEDVEGIEHHLSWDAIDRIGDLVQYFQEDPSRLNDLREVQKKN MPTPSMEDYLERIYLLIEEKGYARVSDIAEALEVHPSSVTKMVQKLDKSDYLVYERYRGLILTAKGKKIGKRLVYRHDLLEDFLKMIGVDSDHIYEDVEGIEHHLSWDAIDRIGDLVQYFQEDPSRLNDLREVQKKNE 6ktq-a1-m1-cB_6ktq-a1-m1-cA Crystal structure of catalytic domain of homocitrate synthase from Sulfolobus acidocaldarius (SaHCS(dRAM)) in complex with alpha-ketoglutarate/Zn2+/CoA Q4J989 Q4J989 1.98 X-RAY DIFFRACTION 11 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 398 399 KHHHHHHHHGGLVPRGSLHMKVGILDSTLREGEQTPGVVFTTDQRVEIAKALSDIGVQMIEAGHPAVSPDIYEGIRRIIKLKREGVIKSEIVAHSRAVKRDIEVGAEIEADRIAIFYGISDTHLKAKHHTTRDEALRSIAETVSYAKSHGVKVRFTAEDATRADYQYLLEVIKTVRDAGADRVSIADTVGVLYPSRTRELFKDLTSRFPDIEFDIHAHNDLGMAVANVLAAAEGGATIIHTTLNGLGERVGIAPLQVVAAALKYHFGIEVVDLKKLSEVASLVEKYSGIALPPNFPITGDYAFVHKAGVHVAGVLNDPKTYEFLPPETFGRSRDYVIDKYTGKHAVKDRFDRLGVKLTDSEIDQVLAKIKSNPNVRFYRDVDLLELAESVTGRLEHHH KHHHHHHHHGGLVPRGSLHMKVGILDSTLREGEQTPGVVFTTDQRVEIAKALSDIGVQMIEAGHPAVSPDIYEGIRRIIKLKREGVIKSEIVAHSRAVKRDIEVGAEIEADRIAIFYGISDTHLKAKHHTTRDEALRSIAETVSYAKSHGVKVRFTAEDATRADYQYLLEVIKTVRDAGADRVSIADTVGVLYPSRTRELFKDLTSRFPDIEFDIHAHNDLGMAVANVLAAAEGGATIIHTTLNGLGERVGIAPLQVVAAALKYHFGIEVVDLKKLSEVASLVEKYSGIALPPNFPITGDYAFVHKAGVHVAGVLNDPKTYEFLPPETFGRSRDYVIDKYTGKHAVKDRFDRLGVKLTDSEIDQVLAKIKSNPNVRFYRDVDLLELAESVTGRLEHHHH 6kty-a1-m2-cA_6kty-a1-m4-cA Crystal structure of the flagellar cap protein FliD from Bdellovibrio bacteriovorus Q6MQ71 Q6MQ71 1.99 X-RAY DIFFRACTION 73 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 176 176 6kty-a1-m1-cA_6kty-a1-m3-cA 6kty-a1-m1-cA_6kty-a1-m4-cA 6kty-a1-m2-cA_6kty-a1-m3-cA FLSGDPNIVDGQPGDYAIEVVQLAQKPAAMSNGFPDKDQTQIGVGYIKFETPEGTKEVYINGSNSTLDGVMKQINAANVGLKAQVVEDRKDQENPFKLLVSGLSTGNDSQVTFPKIYLLDGDQDMYFEESRKAQNAKVKVDGFEIELPDNKSTDLVPGVTLDFKSAAPGREIRLSV FLSGDPNIVDGQPGDYAIEVVQLAQKPAAMSNGFPDKDQTQIGVGYIKFETPEGTKEVYINGSNSTLDGVMKQINAANVGLKAQVVEDRKDQENPFKLLVSGLSTGNDSQVTFPKIYLLDGDQDMYFEESRKAQNAKVKVDGFEIELPDNKSTDLVPGVTLDFKSAAPGREIRLSV 6ku3-a1-m1-cD_6ku3-a1-m1-cA Crystal structure of gibberellin 2-oxidase3 (GA2ox3)in rice Q8S0S6 Q8S0S6 2.15 X-RAY DIFFRACTION 32 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 310 317 6ku3-a1-m1-cC_6ku3-a1-m1-cB HIPLLRSPDPGDVFSGVPVVDLGSPGAARAVVDACERYGFFKVVNHGVATDTMDKAESEAVRFFSQTQPDKDRSGPAYPFGYGSKRIGFNGDMGWLEYLLLALDDASLADACTVPSCAVFRAALNEYISGVRKVAVRVMEAMSEGLGIAQADALSALVTAEGSDQVFRVNHYPPCRALQGLGCSVTGFGEHTDPQLVSVLRSNGTSGLQIALRDGQWVSVPSDRDSFFVNVGDSLQVLTNGRFKSVKHRVVANSLKSRVSFIYFGGPPLAQRIAPLPQLLSLYKEFTWDEYKKAAYKSRLGDNRLAQFEK VDHIPLLRSPDPGDVFSGVPVVDLGSPGAARAVVDACERYGFFKVVNHGVATDTMDKAESEAVRFFSQTQPDKDRSGPAYPFGYGSKRIGFNGDMGWLEYLLLALDDASLADACTVPSCAVFRAALNEYISGVRKVAVRVMEAMSEGLGIAQADALSALVTAEGSDQVFRVNHYPPCRALQGLGCSVTGFGEHTDPQLVSVLRSNGTSGLQIALRDGQWVSVPSDRDSFFVNVGDSLQVLTNGRFKSVKHRVVANSLKSRVSFIYFGGPPLAQRIAPLPQLLGEGEQSLYKEFTWDEYKKAAYKSRLGDNRLAQFEK 6ku3-a1-m1-cD_6ku3-a1-m1-cC Crystal structure of gibberellin 2-oxidase3 (GA2ox3)in rice Q8S0S6 Q8S0S6 2.15 X-RAY DIFFRACTION 30 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 310 317 6ku3-a1-m1-cA_6ku3-a1-m1-cB HIPLLRSPDPGDVFSGVPVVDLGSPGAARAVVDACERYGFFKVVNHGVATDTMDKAESEAVRFFSQTQPDKDRSGPAYPFGYGSKRIGFNGDMGWLEYLLLALDDASLADACTVPSCAVFRAALNEYISGVRKVAVRVMEAMSEGLGIAQADALSALVTAEGSDQVFRVNHYPPCRALQGLGCSVTGFGEHTDPQLVSVLRSNGTSGLQIALRDGQWVSVPSDRDSFFVNVGDSLQVLTNGRFKSVKHRVVANSLKSRVSFIYFGGPPLAQRIAPLPQLLSLYKEFTWDEYKKAAYKSRLGDNRLAQFEK DHIPLLRSPDPGDVFSGVPVVDLGSPGAARAVVDACERYGFFKVVNHGVATDTMDKAESEAVRFFSQTQPDKDRSGPAYPFGYGSKRIGFNGDMGWLEYLLLALDDASLADACTVPSCAVFRAALNEYISGVRKVAVRVMEAMSEGLGIAQADALSALVTAEGSDQVFRVNHYPPCRALQGLGCSVTGFGEHTDPQLVSVLRSNGTSGLQIALRDGQWVSVPSDRDSFFVNVGDSLQVLTNGRFKSVKHRVVANSLKSRVSFIYFGGPPLAQRIAPLPQLLGEGEQSLYKEFTWDEYKKAAYKSRLGDNRLAQFEKK 6ku5-a2-m2-cB_6ku5-a2-m3-cB Notothenia coriiceps TRAF5 3.299 X-RAY DIFFRACTION 45 1.0 8208 (Notothenia coriiceps) 8208 (Notothenia coriiceps) 207 207 6ku5-a1-m1-cA_6ku5-a1-m2-cA 6ku5-a1-m1-cA_6ku5-a1-m3-cA 6ku5-a1-m2-cA_6ku5-a1-m3-cA 6ku5-a2-m1-cB_6ku5-a2-m2-cB 6ku5-a2-m1-cB_6ku5-a2-m3-cB SAAEALREHLGTLEEKMKRHSGLLDIHATQLRTHSEHLQELEATSNDGKLIWKIEDFRNKRESEVKGHPPCLSSVPFHTGPCGYKMASKVYLNGDGEGRGTHLSLYVVLMVGDFDALLPWPFRQTVALSVLDQSGAGNHQSLSFKPDLTSKSFQRPTDEKAGNVAVGFSCFIPLIKLEEPQNATYVKEDTMFVKVKVDMVGLEQLLE SAAEALREHLGTLEEKMKRHSGLLDIHATQLRTHSEHLQELEATSNDGKLIWKIEDFRNKRESEVKGHPPCLSSVPFHTGPCGYKMASKVYLNGDGEGRGTHLSLYVVLMVGDFDALLPWPFRQTVALSVLDQSGAGNHQSLSFKPDLTSKSFQRPTDEKAGNVAVGFSCFIPLIKLEEPQNATYVKEDTMFVKVKVDMVGLEQLLE 6ku9-a1-m1-cB_6ku9-a1-m1-cC Structure of the African swine fever virus major capsid protein p72 P22776 P22776 2.67 ELECTRON MICROSCOPY 169 1.0 10497 (African swine fever virus) 10497 (African swine fever virus) 487 487 6ku9-a1-m1-cA_6ku9-a1-m1-cB 6ku9-a1-m1-cA_6ku9-a1-m1-cC GFEYNKVRPHTGTPTLGNKLTFGIPQYGDFFHDMVGHHILGACHSSWQDAPIQGTSQMGAHGQLQTFPRNGYDWDNQTPLEGAVYTLVDPFGRPIVPGTKNAYRNLVYYCEYPGERLYENVRFDVNGNSLDEYSSDVTTLVRKFCIPGDKMTGYKHLVGQEVSVEGTSGPLLCNIHDLLDIRRNVHYSCNGPQTPKYYQPPLALWIKLRFWFNENVNLAIPSVSIPFGERFITIKLASQKDLVNEFPGLFVRQSRFIAGRPSRRNIRFKPWFIPGVINEISLTNNELYINNLFVLIRVHKTQVTHTNNNHHDEKLMSALKWPIEYMFIGLKPTWNISDQNPHQHRDWHKFGHVVNAIMQPTHHAEISFQDRDTALPDACSSISDISPVTYPITLPIIKNISVTAHGINLIDKFPSKFCSSYIPFHYGGNAIKTPDDPGAMMITFALKPREEYQPSGHIFYISWDTDYVGSITTADLVVSASAINFLL GFEYNKVRPHTGTPTLGNKLTFGIPQYGDFFHDMVGHHILGACHSSWQDAPIQGTSQMGAHGQLQTFPRNGYDWDNQTPLEGAVYTLVDPFGRPIVPGTKNAYRNLVYYCEYPGERLYENVRFDVNGNSLDEYSSDVTTLVRKFCIPGDKMTGYKHLVGQEVSVEGTSGPLLCNIHDLLDIRRNVHYSCNGPQTPKYYQPPLALWIKLRFWFNENVNLAIPSVSIPFGERFITIKLASQKDLVNEFPGLFVRQSRFIAGRPSRRNIRFKPWFIPGVINEISLTNNELYINNLFVLIRVHKTQVTHTNNNHHDEKLMSALKWPIEYMFIGLKPTWNISDQNPHQHRDWHKFGHVVNAIMQPTHHAEISFQDRDTALPDACSSISDISPVTYPITLPIIKNISVTAHGINLIDKFPSKFCSSYIPFHYGGNAIKTPDDPGAMMITFALKPREEYQPSGHIFYISWDTDYVGSITTADLVVSASAINFLL 6kua-a2-m1-cF_6kua-a2-m1-cH Crystal structure of the nicotinamidase SaPncA from Staphylococcus aureus 2.104 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 160 164 6kua-a1-m1-cC_6kua-a1-m1-cA MTHRALLVVDYSYDFIADDTCGKPGQNIEDFIVSRINDFNYYQDHIFFLMDLHSGRELYGKVGKLYETIKAQPNVHFIDKTRYDSFFGTPLDSLLRERSINQVEIVGVCTDICVLHTAISAYNLGYKISVPAEGVASFNQKGHEWALAHFKNSLGAEVEQ MTHRALLVVDYSYDFIADDGLLTCGKPGQNIEDFIVSRINDFNYYQDHIFFLMDLHTSGRELYGKVGKLYETIKAQPNVHFIDKTRYDSFFGTPLDSLLRERSINQVEIVGVCTDICVLHTAISAYNLGYKISVPAEGVASFNQKGHEWALAHFKNSLGAEVEQ 6kua-a2-m1-cG_6kua-a2-m1-cF Crystal structure of the nicotinamidase SaPncA from Staphylococcus aureus 2.104 X-RAY DIFFRACTION 12 0.987 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 158 160 6kua-a1-m1-cD_6kua-a1-m1-cA MTHRALLVVDYSYDFIADTCGKPGQNIEDFIVSRINDFNYYQDHIFFLMDLHELYGKVGKLYETIKAQPNVHFIDKTRYDSFFGTPLDSLLRERSINQVEIVGVCTDICVLHTAISAYNLGYKISVPAEGVASFNQKGHEWALAHFKNSLGAEVEQHV MTHRALLVVDYSYDFIADDTCGKPGQNIEDFIVSRINDFNYYQDHIFFLMDLHSGRELYGKVGKLYETIKAQPNVHFIDKTRYDSFFGTPLDSLLRERSINQVEIVGVCTDICVLHTAISAYNLGYKISVPAEGVASFNQKGHEWALAHFKNSLGAEVEQ 6kua-a2-m1-cG_6kua-a2-m1-cH Crystal structure of the nicotinamidase SaPncA from Staphylococcus aureus 2.104 X-RAY DIFFRACTION 31 0.987 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 158 164 6kua-a1-m1-cD_6kua-a1-m1-cC MTHRALLVVDYSYDFIADTCGKPGQNIEDFIVSRINDFNYYQDHIFFLMDLHELYGKVGKLYETIKAQPNVHFIDKTRYDSFFGTPLDSLLRERSINQVEIVGVCTDICVLHTAISAYNLGYKISVPAEGVASFNQKGHEWALAHFKNSLGAEVEQHV MTHRALLVVDYSYDFIADDGLLTCGKPGQNIEDFIVSRINDFNYYQDHIFFLMDLHTSGRELYGKVGKLYETIKAQPNVHFIDKTRYDSFFGTPLDSLLRERSINQVEIVGVCTDICVLHTAISAYNLGYKISVPAEGVASFNQKGHEWALAHFKNSLGAEVEQ 6kue-a1-m1-cA_6kue-a1-m1-cB The structure of BioZ from Agrobacterium tumefaciens A0A0F4FMM6 A0A0F4FMM6 1.992 X-RAY DIFFRACTION 252 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 327 327 QTRSSRMAGFGHAVPARCVDNAEIEASLGLEAGWIERRTGIRSRYWAEAGDTLSGLAERAGRMALEDAKINADDIALTLLATSTPDHLLPPSAPLLAHRLGLTRSGAIDLAGACSGFLYALTLADGFVRTYGRAVLVAAANILSRRINPAERASAVLFADAAGAVVLTPCPEVKRGVLSADLVADGSGYDLIQIAAGGSSQPFSAGMIAEDALMTMRDGREVFSRAVALMTNTSQRVLHEAELTAADISRFVPHQANARMSDAVCGNLGIEREKTVRTIGSFGNSSAATIPLSLSITNAERPLAGGETLLLTAAGAGMTGGAVVYRV QTRSSRMAGFGHAVPARCVDNAEIEASLGLEAGWIERRTGIRSRYWAEAGDTLSGLAERAGRMALEDAKINADDIALTLLATSTPDHLLPPSAPLLAHRLGLTRSGAIDLAGACSGFLYALTLADGFVRTYGRAVLVAAANILSRRINPAERASAVLFADAAGAVVLTPCPEVKRGVLSADLVADGSGYDLIQIAAGGSSQPFSAGMIAEDALMTMRDGREVFSRAVALMTNTSQRVLHEAELTAADISRFVPHQANARMSDAVCGNLGIEREKTVRTIGSFGNSSAATIPLSLSITNAERPLAGGETLLLTAAGAGMTGGAVVYRV 6kun-a1-m1-cB_6kun-a1-m2-cA Crystal structure of dioxygenase for auxin oxidation (DAO) in rice Q01IX6 Q01IX6 2.002 X-RAY DIFFRACTION 26 1.0 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 294 294 EIPAIDLRLAGGGGGAEETARLRDACARLGCFRVSGHGVPPGLQAEMKAAVRALFDLPDDAKRRNADIIPGSGYVPPPLYEAFGLCDAAAPADVDAFCARLDAPPHVRETVKAYAERMHSLIVDVAGKVAASLGLHGASFQDWPCQFRMNRYNYTQDSVGSPGVQVHTDSGFLTVLQEDECVGGLEVLDPAAGEFVPVDPLPGSFVVNVGDVGQAWSNGRLHNVKHRVQCVAAVPRVSIAMFLLAPKDDTVSAPGELVDGEHPRRYREFKYDDYRRLRLSTGERAGEALARLAA EIPAIDLRLAGGGGGAEETARLRDACARLGCFRVSGHGVPPGLQAEMKAAVRALFDLPDDAKRRNADIIPGSGYVPPPLYEAFGLCDAAAPADVDAFCARLDAPPHVRETVKAYAERMHSLIVDVAGKVAASLGLHGASFQDWPCQFRMNRYNYTQDSVGSPGVQVHTDSGFLTVLQEDECVGGLEVLDPAAGEFVPVDPLPGSFVVNVGDVGQAWSNGRLHNVKHRVQCVAAVPRVSIAMFLLAPKDDTVSAPGELVDGEHPRRYREFKYDDYRRLRLSTGERAGEALARLAA 6kuw-a1-m1-cB_6kuw-a1-m1-cA Crystal structure of human alpha2C adrenergic G protein-coupled receptor. P18825 P18825 2.8 X-RAY DIFFRACTION 64 0.996 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 472 474 PPRGQYSAGAVAGLAAVVGFLIVFTVVGNVLVVIAVLTSRALRAPQNLFLVSLASADILVATLVMPFSLANELMAYWYFGQWWCGVYLALDVLFCTSSAVHLCAISLDRYWSVTQAVEYNLKRTPRRVKATIVAVWLISAVISFPPLVSLYRPQCGLNDETWYILSSCIGSFFAPCLIMGLVYARIYRVAKLRTGIDCSFWNESYLTGSRDERKKSLLSKFGMDEGVTFMFIGRFDRGQKGVDVLLKAIEILSSKKEFQEMRFIIIGKGDPELEGWARSLEEKHGNVKVITEMLSREFVRELYGSVDFVIIPSYFEPFGLVALEAMCLGAIPIASAVGGLRDIITNETGILVKAGDPGELANAILKALELSRSDLSKFRENCKKRAMSFSVAQAREKRFTFVLAVVMGVWVLCWFPFFFSYSLYGICREACQVPGPLFKFFFWIGYCNSSLNPVIYTVFNQDFRRSFKHILF PPRGQYSAGAVAGLAAVVGFLIVFTVVGNVLVVIAVLTSRALRAPQNLFLVSLASADILVATLVMPFSLANELMAYWYFGQWWCGVYLALDVLFCTSSAVHLCAISLDRYWSVTQAVEYNLKRTPRRVKATIVAVWLISAVISFPPLVSLAAYPQCGLNDETWYILSSCIGSFFAPCLIMGLVYARIYRVAKLRTGIDCSFWNESYLTGSRDERKKSLLSKFGMDEGVTFMFIGRFDRGQKGVDVLLKAIEILSSKKEFQEMRFIIIGKGDPELEGWARSLEEKHGNVKVITEMLSREFVRELYGSVDFVIIPSYFEPFGLVALEAMCLGAIPIASAVGGLRDIITNETGILVKAGDPGELANAILKALELSRSDLSKFRENCKKRAMSFSVAQAREKRFTFVLAVVMGVWVLCWFPFFFSYSLYGICREACQVPGPLFKFFFWIGYCNSSLNPVIYTVFNQDFRRSFKHILFR 6kv3-a2-m1-cD_6kv3-a2-m1-cC Crystal Structure of NAD+ Synthetase from Staphylococcus aureus Q5HEK9 Q5HEK9 2.3 X-RAY DIFFRACTION 180 0.988 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 243 248 6kv3-a1-m1-cA_6kv3-a1-m1-cB KLQDVIVQEMKVKKRIDSAEEIMELKQFIKNYVQSHSFIKSLVLGISGGQDSTLVGKLVQMSVNELREEGIDCTFIAVKLPYGVDADEVEQALRFIEPDEIVTVNIKPAVDQSVQSLKEAGIVLTDFQKGNEKARERMKVQFSIASNRQGIVVGTDHSAENIYTKYGDGAADIAPIFGLNKRQGRQLLAYLGAPKEGVTYEAIDNYLEGKPVTPEEQKVIENHYIRNAHKRELAYTRYTWPKS SKLQDVIVQEMKVKKRIDSAEEIMELKQFIKNYVQSHSFIKSLVLGISGGQDSTLVGKLVQMSVNELREEGIDCTFIAVKLPYGVQDADEVEQALRFIEPDEIVTVNIKPAVDQSVQSLKEAGIVLTDFQKGNEKARERMKVQFSIASNRQGIVVGTDHSAENITGFYTKYGDGAADIAPIFGLNKRQGRQLLAYLGAPKELYLGVTYEAIDNYLEGKPVTPEEQKVIENHYIRNAHKRELAYTRYTW 6kv9-a1-m1-cA_6kv9-a1-m2-cA MoeE5 in complex with UDP-glucuronic acid and NAD A0A003 A0A003 1.48 X-RAY DIFFRACTION 70 1.0 566461 (Streptomyces viridosporus ATCC 14672) 566461 (Streptomyces viridosporus ATCC 14672) 299 299 6kvc-a1-m1-cA_6kvc-a1-m2-cA GDVLVTGAAGFIGSHLVTELRNSGRNVVAVDRRPLPDTGSLREIRGDLNSLNLVDCLKNISTVFHLAALPGVRPSWTQFPEYLRCNVLATQRLMEACVQAGVERVVVASSSSVYGGADGVMSEDDLPRPLSPYGVTKLAAERLALAFAARGDAELSVGALRFFTVYGPGQRPDMFISRLIRATLRGEPVEIYGDGTQLRDFTHVSDVVRALMLTASVRDRGSAVLNIGTGSAVSVNEVVSMTAELTGLRPCTAYGSARIGDVRSTTADVRQAQSVLGFTARTGLREGLATQIEWTRRSL GDVLVTGAAGFIGSHLVTELRNSGRNVVAVDRRPLPDTGSLREIRGDLNSLNLVDCLKNISTVFHLAALPGVRPSWTQFPEYLRCNVLATQRLMEACVQAGVERVVVASSSSVYGGADGVMSEDDLPRPLSPYGVTKLAAERLALAFAARGDAELSVGALRFFTVYGPGQRPDMFISRLIRATLRGEPVEIYGDGTQLRDFTHVSDVVRALMLTASVRDRGSAVLNIGTGSAVSVNEVVSMTAELTGLRPCTAYGSARIGDVRSTTADVRQAQSVLGFTARTGLREGLATQIEWTRRSL 6kvn-a1-m1-cA_6kvn-a1-m2-cA Crystal structure of chloroplast resolvase A0A1S4CVP6 A0A1S4CVP6 2.02 X-RAY DIFFRACTION 86 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 150 150 6kvo-a1-m1-cB_6kvo-a1-m1-cA AGWVIGVDPDTSGALALLKPNQPPQVFDSPHLKVKRLDAKAIVQLLKSFEAPIGTTVYVEQSTPYPQDGKQGWWSGGFGYGMWIGILVASGFSVIPVPSSAWKSEFQLDYSRQVASQLFPSLSSLLKRKKDHGRAEALLIAAYGKGIKIN AGWVIGVDPDTSGALALLKPNQPPQVFDSPHLKVKRLDAKAIVQLLKSFEAPIGTTVYVEQSTPYPQDGKQGWWSGGFGYGMWIGILVASGFSVIPVPSSAWKSEFQLDYSRQVASQLFPSLSSLLKRKKDHGRAEALLIAAYGKGIKIN 6kvr-a1-m1-cB_6kvr-a1-m1-cA Fatty acid amide hydrolase G1UA68 G1UA68 2.2 X-RAY DIFFRACTION 105 1.0 5476 (Candida albicans) 5476 (Candida albicans) 560 562 VSYETFLNKDPLDKYEDSEIYTKEWLPKVEKYRQDLKDAIPKNYTIELPKPIDDLIKDQFNAVDYLYSQKLLTPEEFAITDLSATELAKKIAAGELSSVEVFKAFAHRATLAHQFTNCAELFIDEGLKQAEERDNYFKEHGKTVGPLHGIPISLKEQNYKDKITHGGYVSKIVNIPNSHGVTTSILEKLGAVFYVRTSQPQTLHLDSANNFTGLTKNPFNLLLSSGGSSSGEGAIVGYGGSAIGVGSDIGGSIRAPAAYSGCHGLRPTTKRISVKGGVSSGAGQESVPAVAGPARSIDDLELWKAYINEGKPWESDSTSLPPWRDVSTPKIGDLTVAIIRDDGLVRVSPPIRRALNTVVEKLKGAGAKIIEFDPPNTKLAYETVHKYNCDGNHQRKLLSGSNEPLTKLTKWNLNYGEGAKHYDVASNRELNVTRDQLRDQYNDFVQNKVDFILSPTYNNVAPHSEEVYNWSYTSLWNILDFPTLSFQTGIFQDPTKDKWTEEDTKYKYRSKLEQLENENYDPSQFVGAPVGLQLSGKRYFDEEVLAAGKAIVDLLGVDLY MSVSYETFLNKDPLDKYEDSEIYTKEWLPKVEKYRQDLKDAIPKNYTIELPKPIDDLIKDQFNAVDYLYSQKLLTPEEFAITDLSATELAKKIAAGELSSVEVFKAFAHRATLAHQFTNCAELFIDEGLKQAEERDNYFKEHGKTVGPLHGIPISLKEQNYKDKITHGGYVSKIVNIPNSHGVTTSILEKLGAVFYVRTSQPQTLHLDSANNFTGLTKNPFNLLLSSGGSSSGEGAIVGYGGSAIGVGSDIGGSIRAPAAYSGCHGLRPTTKRISVKGGVSSGAGQESVPAVAGPARSIDDLELWKAYINEGKPWESDSTSLPPWRDVSTPKIGDLTVAIIRDDGLVRVSPPIRRALNTVVEKLKGAGAKIIEFDPPNTKLAYETVHKYNCDGNHQRKLLSGSNEPLTKLTKWNLNYGEGAKHYDVASNRELNVTRDQLRDQYNDFVQNKVDFILSPTYNNVAPHSEEVYNWSYTSLWNILDFPTLSFQTGIFQDPTKDKWTEEDTKYKYRSKLEQLENENYDPSQFVGAPVGLQLSGKRYFDEEVLAAGKAIVDLLGVDLY 6kw1-a1-m1-cA_6kw1-a1-m1-cB The structure of the metallo-beta-lactamase VIM-2 in complex with a triazolylthioacetamide 1b Q9K2N0 Q9K2N0 1.77521 X-RAY DIFFRACTION 41 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 231 231 5acv-a1-m1-cA_5acv-a1-m1-cB 5acx-a1-m1-cA_5acx-a1-m1-cB EYPTVSEIPVGEVRLYQIADGVWSHIATQSFDGAVYPSNGLIVRDGDELLLIDTAWGAKNTAALLAEIEKQIGLPVTRAVSTHFHDDRVGGVDVLRAAGVATYASPSTRRLAEVEGNEIPTHSLEGLSSSGDAVRFGPVELFYPGAAHSTDNLVVYVPSASVLYGGCAIYELSRTSAGNVADADLAEWPTSIERIQQHYPEAQFVIPGHGLPGGLDLLKHTTNVVKAHTNR EYPTVSEIPVGEVRLYQIADGVWSHIATQSFDGAVYPSNGLIVRDGDELLLIDTAWGAKNTAALLAEIEKQIGLPVTRAVSTHFHDDRVGGVDVLRAAGVATYASPSTRRLAEVEGNEIPTHSLEGLSSSGDAVRFGPVELFYPGAAHSTDNLVVYVPSASVLYGGCAIYELSRTSAGNVADADLAEWPTSIERIQQHYPEAQFVIPGHGLPGGLDLLKHTTNVVKAHTNR 6kw5-a1-m1-cD_6kw5-a1-m1-cH The ClassC RSC-Nucleosome Complex P43609 P43609 10.13 ELECTRON MICROSCOPY 178 0.993 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 305 393 6k15-a1-m1-cD_6k15-a1-m1-cH 6kw3-a1-m1-cD_6kw3-a1-m1-cH 6kw4-a1-m1-cD_6kw4-a1-m1-cH EKALRFLAKQTHPVIIPSFASWFDISKIHEIEKRSNPDFFNDSSRFKTPKAYKDTRNFIINTYRLSPYEYLTITAVRRNVAMDVASIVKIHAFLEKWGLINYQIDPRTKPSLIGPSFTGHFQVVLDTPQGLKPFLPKKEFPVNLTIKKNVYDSAQDFNALQDVKKNWSDQEMLLLLEGIEMYEDQWEKIADHVGGHKRVEDCIEKFLSLPIEDNYIREVVSKLMECVNDAVQTREISEKYIEESQAIIQELVKLTMEKLESKFTKLCDLETQLEMEKLKYVKESEKMLNDRLSLSKQILDLNKSL NYEQEAQKLEEKALRFLAKQTHPVIIPSFASWFDISKIHEIEKRSNPDFFNDSSRFKTPKAYKDTRNFIINTYRLSPYEYLTITAVRRNVAMDVASIVKIHAFLEKWGLINYQIDPRTKPSLIGPSFTGHFQVVLDTPQGLKPFLPEFPVNLTIKKNVYDSAQDFNALQDESRNSRQIHKVYICHTCGNESINVRYHNLRARDTNLCSRCFQEGHFGANFQSSDFIRLENNGNSVKKNWSDQEMLLLLEGIEMYEDQWEKIADHVGGHKRVEDCIEKFLSLPIEDNYIREVVGSKLMECVNDAVQTLLQGDDKLGKVSDKSREISEKYIEESQAIIQELVKLTMEKLESKFTKLCDLETQLEMEKLKYVKESEKMLNDRLSLSKQILDLNKSL 6kw6-a1-m1-cA_6kw6-a1-m2-cB Crystal Structure of cytidine deaminase from Streptomyces noursei 1.895 X-RAY DIFFRACTION 38 1.0 1971 (Streptomyces noursei) 1971 (Streptomyces noursei) 119 119 6kw6-a1-m1-cB_6kw6-a1-m2-cA IDWPALRTQARDAMSRAYAPYSGYPVGAAALVDDGRTVTGCNVENASYGLGLCAECGLVSALFASGGGRLTAFTCVDGKGELLVPCGRCRQLLHEHGGPDLLVDTAAGIRPLAALLPDA IDWPALRTQARDAMSRAYAPYSGYPVGAAALVDDGRTVTGCNVENASYGLGLCAECGLVSALFASGGGRLTAFTCVDGKGELLVPCGRCRQLLHEHGGPDLLVDTAAGIRPLAALLPDA 6kw6-a1-m1-cB_6kw6-a1-m2-cB Crystal Structure of cytidine deaminase from Streptomyces noursei 1.895 X-RAY DIFFRACTION 38 1.0 1971 (Streptomyces noursei) 1971 (Streptomyces noursei) 119 119 6kw6-a1-m1-cA_6kw6-a1-m2-cA IDWPALRTQARDAMSRAYAPYSGYPVGAAALVDDGRTVTGCNVENASYGLGLCAECGLVSALFASGGGRLTAFTCVDGKGELLVPCGRCRQLLHEHGGPDLLVDTAAGIRPLAALLPDA IDWPALRTQARDAMSRAYAPYSGYPVGAAALVDDGRTVTGCNVENASYGLGLCAECGLVSALFASGGGRLTAFTCVDGKGELLVPCGRCRQLLHEHGGPDLLVDTAAGIRPLAALLPDA 6kw6-a1-m2-cA_6kw6-a1-m2-cB Crystal Structure of cytidine deaminase from Streptomyces noursei 1.895 X-RAY DIFFRACTION 79 1.0 1971 (Streptomyces noursei) 1971 (Streptomyces noursei) 119 119 6kw6-a1-m1-cA_6kw6-a1-m1-cB IDWPALRTQARDAMSRAYAPYSGYPVGAAALVDDGRTVTGCNVENASYGLGLCAECGLVSALFASGGGRLTAFTCVDGKGELLVPCGRCRQLLHEHGGPDLLVDTAAGIRPLAALLPDA IDWPALRTQARDAMSRAYAPYSGYPVGAAALVDDGRTVTGCNVENASYGLGLCAECGLVSALFASGGGRLTAFTCVDGKGELLVPCGRCRQLLHEHGGPDLLVDTAAGIRPLAALLPDA 6kwz-a1-m1-cA_6kwz-a1-m2-cB Crystal structure of fragmin F3 domain with calcium ion Q94707 Q94707 1.551 X-RAY DIFFRACTION 58 1.0 5791 (Physarum polycephalum) 5791 (Physarum polycephalum) 98 98 GPPAVLLRLSDASGKFEFTEVARGLKVKRNLLDSNDVFVLYTGAEVFAWVGKHASVGEKKKALSFAQEYVQKAGLPIHTPVARILEGGENEVFEDFFD GPPAVLLRLSDASGKFEFTEVARGLKVKRNLLDSNDVFVLYTGAEVFAWVGKHASVGEKKKALSFAQEYVQKAGLPIHTPVARILEGGENEVFEDFFD 6kx6-a1-m1-cB_6kx6-a1-m1-cA Crystal structure of mouse Cryptochrome 1 in complex with KL101 compound P97784 P97784 2 X-RAY DIFFRACTION 63 0.996 10090 (Mus musculus) 10090 (Mus musculus) 465 468 MGVNAVHWFRKGLRLHDNPALKECIQGADTIRCVYILDNVGINRWRFLLQCLEDLDANLRKLNSRLFVIRGQPADVFPRLFKEWNITKLSIEYDSEPFGKERDAAIKKLATEAGVEVIVRISHTLYDLDKIIELNGGQPPLTYKRFQTLVSKMEPLEMPADTITSDVIGKCMTPLSDDHDEKYGVPSLEELGFDTDGLSSAVWPGGETEALTRLERHLERKANANSLLASPTGLSPYLRFGCLSCRLFYFKLTDLYKKVSSPPLSLYGQLLWREFFYTAATNNPRFDKMEGNPICVQIPWDKNPEALAKWAEGRTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWISWEEGMKVFEELLLDADWSINAGSWMWLSCSSFFCYCPVGFGRRTDPNGDYIRRYLPVLRGFPAKYIYDPWNAPEGIQKVAKCLIGVNYPKPMVNHAEASRLNIERMKQIYQQ GVNAVHWFRKGLRLHDNPALKECIQGADTIRCVYILDPNVGINRWRFLLQCLEDLDANLRKLNSRLFVIRGQPADVFPRLFKEWNITKLSIEYDSEPFGKERDAAIKKLATEAGVEVIVRISHTLYDLDKIIELNGGQPPLTYKRFQTLVSKMEPLEMPADTITSDVIGKCMTPLSDDHDEKYGVPSLEELGFDTDGLSSAVWPGGETEALTRLERHLERKANANSLLASPTGLSPYLRFGCLSCRLFYFKLTDLYKKNSSPPLSLYGQLLWREFFYTAATNNPRFDKMEGNPICVQIPWDKNPEALAKWAEGRTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWISWEEGMKVFEELLLDADWSINAGSWMWLSCSSFFQCYCPVGFGRRTDPNGDYIRRYLPVLRGFPAKYIYDPWNAPEGIQKVAKCLIGVNYPKPMVNHAEASRLNIERMKQIYQQLS 6kxh-a2-m1-cC_6kxh-a2-m1-cB Alp1U_Y247F mutant in complex with Fluostatin C A0A0K2AJY3 A0A0K2AJY3 1.7804 X-RAY DIFFRACTION 90 1.0 278992 (Streptomyces ambofaciens ATCC 23877) 278992 (Streptomyces ambofaciens ATCC 23877) 293 294 6kxh-a1-m1-cA_6kxh-a1-m1-cD 6kxr-a1-m1-cD_6kxr-a1-m1-cA 6kxr-a2-m1-cC_6kxr-a2-m1-cB 7clz-a1-m1-cA_7clz-a1-m1-cC 7clz-a2-m1-cB_7clz-a2-m1-cD GPVPSDRELARSLPGGFRSRHARVGGVRLHYVSGGHGEPLLLVPGWPQTWWAYRKVMPQLARRYHVIAVDLRGMGGSDKPAGGYDKKTMAADLHALVRGLGHRQVNVAGHDIGSMVAFAFAANHPEATRKVALLDTPHPDQSEYEMRILCRPGTGTTLWWWAFNQLQALPEQLMHGRMRHVIDWLYANSLADQSLVGDLDRDIYANAYNSPQAVRAGTRWFQACHQDITDQAGYGKLTMPVLGIGGNFTFEDLRNKLTAQATDVHMVRASKSVHYLPEEEPDVVAGALLDFFG PGPVPSDRELARSLPGGFRSRHARVGGVRLHYVSGGHGEPLLLVPGWPQTWWAYRKVMPQLARRYHVIAVDLRGMGGSDKPAGGYDKKTMAADLHALVRGLGHRQVNVAGHDIGSMVAFAFAANHPEATRKVALLDTPHPDQSEYEMRILCRPGTGTTLWWWAFNQLQALPEQLMHGRMRHVIDWLYANSLADQSLVGDLDRDIYANAYNSPQAVRAGTRWFQACHQDITDQAGYGKLTMPVLGIGGNFTFEDLRNKLTAQATDVHMVRASKSVHYLPEEEPDVVAGALLDFFG 6kxv-a1-m1-cA_6kxv-a1-m1-cE Crystal structure of a nucleosome containing Leishmania histone H3 Q4QHB5 Q4QHB5 3.63 X-RAY DIFFRACTION 37 1.0 5664 (Leishmania major) 5664 (Leishmania major) 94 95 RWRPGTCAIREIRKFQKSTSLLIQCAPFQRLVREVSSAQKEGLRFQSSAIMALQEATEAYIVSLMADTNLACIHAKRVTIQPKDIQLALRLRGE RWRPGTCAIREIRKFQKSTSLLIQCAPFQRLVREVSSAQKEGLRFQSSAIMALQEATEAYIVSLMADTNLACIHAKRVTIQPKDIQLALRLRGER 6kyt-a1-m1-cJ_6kyt-a1-m1-cK The structure of the M. tb toxin MazEF-mt1 complex P71650 P71650 2.00101 X-RAY DIFFRACTION 68 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 111 117 DLMMRRGEIWQVDLDPNQRPAVVVSNDRANATATRLGVITVVPVTSNIAKVYPFQVLLSATTTGLQVDCKAQAEQIRSIATERLLRPIGRVSAAELAQLDEALKLHLDLWS DLMMRRGEIWQVDLDPARANNQRPAVVVSNDRANATATRLGRGVITVVPVTSNIAKVYPFQVLLSATTTGLQVDCKAQAEQIRSIATERLLRPIGRVSAAELAQLDEALKLHLDLWS 6kyt-a2-m1-cC_6kyt-a2-m1-cF The structure of the M. tb toxin MazEF-mt1 complex P0CL61 P0CL61 2.00101 X-RAY DIFFRACTION 101 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 73 73 6kyt-a1-m1-cP_6kyt-a1-m1-cQ PVKLSVSLSDDDVAILDAYVKRAGLPSRSAGLQHAIRVLRYPTLEDDYANAWQEWSAAGDTDAWEQTVGDGVG PVKLSVSLSDDDVAILDAYVKRAGLPSRSAGLQHAIRVLRYPTLEDDYANAWQEWSAAGDTDAWEQTVGDGVG 6kyw-a1-m1-cB_6kyw-a1-m1-cA S8-mSRK-S8-SP11 complex Q39276 Q39276 2.60113 X-RAY DIFFRACTION 53 0.992 3711 (Brassica rapa) 3711 (Brassica rapa) 386 389 NTLSSTESLTISNNRTLVSPGDVFELGFFTPGSSSRWYLGIWYKKLSERTYVWVANRDNPLSTGTLKISGNNLVLRSIWSTNSPVVAELLANGNFVMRDSASGFLWQSFDYPTDTLLPEMKLGYDLKTGRNRFLTSSRNSDDPSSGDYSYKLEPRRLPEFYLLQGDVREHRSGPWNGIQFSGIPEDQKSSYMVYNFTENSEEVAYTFRMTNNSFYSRLTINSEGYLERLTWAPSSGAWNVFWSSPNHQCDMYRMCGPYSYCDVNTSPSCNCIQGFNPGNVQQWALRNQISGCKRRTRLSCNGDGFTRMKNIKLPDTRMAIVDRSIGLKECEKRCLSDCNCTAFANADIRNRVTGCVIWTGELEDMRNYAEGGQDLYVRLAAADSRL NTLSSTESLTISNNRTLVSPGDVFELGFFTPGSSSRWYLGIWYKKLSERTYVWVANRDNPLSNSTGTLKISGNNLVLRGDSIWSTNLSPVVAELLANGNFVMRDSNSGFLWQSFDYPTDTLLPEMKLGYDLKTGRNRFLTSSRNSDDPSSGDYSYKLEPRRLPEFYLLQGDVREHRSGPWNGIQFSGIPEDQKSSYMVYNFTENSEEVAYTFRMTNNSFYSRLTINSEGYLERLTWAPSSGAWNVFWSSPNHQCDMYRMCGPYSYCDVNTSPSCNCIQGFNPGNVQQWALRNQISGCKRRTRLSCNGDGFTRMKNIKLPDTRMAIVDRSIGLKECEKRCLSDCNCTAFANADIRNRVTGCVIWTGELEDMRNYAEGGQDLYVRLAAADS 6kyx-a1-m1-cA_6kyx-a1-m2-cA Crystal Structure of Staphylococcus aureus response regulator ArlR DNA binding domain with His tag cleaved Q9KJN4 Q9KJN4 2.0048 X-RAY DIFFRACTION 71 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 100 100 6iju-a1-m1-cA_6iju-a1-m2-cA GSKDIIDVNGITIDKNAFKVTVNGAEIELTKTEYDLLYLLAENKNHVMQREQILNHVWGYNSEVETNVVDVYIRYLRNKLKPYDRDKMIETVRGVGYVIR GSKDIIDVNGITIDKNAFKVTVNGAEIELTKTEYDLLYLLAENKNHVMQREQILNHVWGYNSEVETNVVDVYIRYLRNKLKPYDRDKMIETVRGVGYVIR 6kyy-a2-m1-cD_6kyy-a2-m1-cC Cu(II) complex of HOCl-induced flavoprotein disulfide reductase RclA from Escherichia coli P77212 P77212 2.8 X-RAY DIFFRACTION 140 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 439 441 6kgy-a1-m1-cA_6kgy-a1-m1-cB 6kgy-a2-m1-cD_6kgy-a2-m1-cC 6kod-a1-m1-cA_6kod-a1-m1-cB 6kod-a2-m1-cC_6kod-a2-m1-cD 6kyy-a1-m1-cA_6kyy-a1-m1-cB KYQAVIIGFGKAGKTLAVTLAKAGWRVALIEQSNAMYGGTCINIGCIPTKTLVHDAQQHTDFVRAIQRKNEVVNFLRNKNFHNLADMPNIDVIDGQAEFINNHSLRVHRPEGNLEIHGEKIFINTGAQTVVPPIPGITTTPGVYDSTGLLNLKELPGHLGILGGGYIGVEFASMFANFGSKVTILEAASLFLPREDRDIADNIATILRDQGVDIILNAHVERISHHENQVQVHSEHAQLAVDALLIASGRQPATASLHPENAGIAVNERGATVVDKRLHTTADNIWAMGDVTGGLQFTYISLDDYRIVRDELLGEGKRSTDDRKNVPYSVFMTPPLSRVGMTEEQARESGADIQVVTLPVAAIPRARVMNDTRGVLKAIVDNKTQRMLGASLLCVDSHEMINIVKMVMDAGLPYSILRDQIFTHPSMSESLNDLFSLVK MNKYQAVIIGFGKAGKTLAVTLAKAGWRVALIEQSNAMYGGTCINIGCIPTKTLVHDAQQHTDFVRAIQRKNEVVNFLRNKNFHNLADMPNIDVIDGQAEFINNHSLRVHRPEGNLEIHGEKIFINTGAQTVVPPIPGITTTPGVYDSTGLLNLKELPGHLGILGGGYIGVEFASMFANFGSKVTILEAASLFLPREDRDIADNIATILRDQGVDIILNAHVERISHHENQVQVHSEHAQLAVDALLIASGRQPATASLHPENAGIAVNERGATVVDKRLHTTADNIWAMGDVTGGLQFTYISLDDYRIVRDELLGEGKRSTDDRKNVPYSVFMTPPLSRVGMTEEQARESGADIQVVTLPVAAIPRARVMNDTRGVLKAIVDNKTQRMLGASLLCVDSHEMINIVKMVMDAGLPYSILRDQIFTHPSMSESLNDLFSLVK 6kzj-a1-m1-cB_6kzj-a1-m1-cC Crystal structure of Ankyrin B/NdeL1 complex Q9ERR1 Q9ERR1 1.5 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 39 42 GFGTSPLTPSARISALNIVGDLLRKVGALESKLAACRNF GFGTSPLTPSARISALNIVGDLLRKVGALESKLAACRNFAKD 6l00-a1-m2-cA_6l00-a1-m4-cA Crystal structure of the cell-wall binding domain (CBD) of endolysin LysIME-EF1 S5MRN1 S5MRN1 1.75 X-RAY DIFFRACTION 43 1.0 1351735 (Enterococcus phage IMEEF1) 1351735 (Enterococcus phage IMEEF1) 70 70 6ist-a1-m1-cA_6ist-a1-m1-cB 6ist-a1-m1-cA_6ist-a1-m1-cC 6l00-a1-m1-cA_6l00-a1-m3-cA 6l00-a1-m1-cA_6l00-a1-m4-cA 6l00-a1-m2-cA_6l00-a1-m3-cA MFIYYKRTKQGSTEQWFVIGGKRIYLPTMTYVNEANDLIKRYGGNTNVTTYNHDNFGLKMMEAALPQVKV MFIYYKRTKQGSTEQWFVIGGKRIYLPTMTYVNEANDLIKRYGGNTNVTTYNHDNFGLKMMEAALPQVKV 6l08-a1-m1-cB_6l08-a1-m1-cA Crystal structure of Arabidopsis cytidine deaminase O65896 O65896 2.999 X-RAY DIFFRACTION 174 0.986 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 284 285 SMDKPSFVIQSKEAESAAKQLGVSVIQLLPSLVKPAQSYARTPISKFNVAVVGLGSSGRIFLGVNVEFPNLPLHHSIHAEQFLVTNLTLNGERHLNFFAVSAAPCGHCRQFLQEIRDAPEIKILITDPNNSADSDSAADSDGFLRLGSFLPHRFGPDDLLGKDHPLLLESHDNHLDLKQTALAAANRSYAPYSLCPSGVSLVDCDGKVYRGWYMESAAYNPSMGPVQAALVDYVANGGGGGYERIVGAVLVEKEDAVVRQEHTARLLLETISPKCEFKVFHCYE PSFVIQSKEAESAAKQLGVSVIQLLPSLVKPAQSYARTPISKFNVAVVGLGSSGRIFLGVNVEFPNLPLHHSIHAEQFLVTNLTLNGERHLNFFAVSAAPCGHCRQFLQEIRDAPEIKILITDPNNSADSDSAADSDGFLRLGSFLPHRFGPDDLLGKDHPLLLESHDNHLKISADLKQTALAAANRSYAPYSLCPSGVSLVDCDGKVYRGWYMESAAYNPSMGPVQAALVDYVANGGGGGYERIVGAVLVEKEDAVVRQEHTARLLLETISPKCEFKVFHCYEA 6l0t-a1-m1-cA_6l0t-a1-m1-cB Crystal structure of senecavirus A 3C protease Q155Z9 Q155Z9 1.9 X-RAY DIFFRACTION 36 0.99 390157 (Senecavirus A) 390157 (Senecavirus A) 206 206 NVDMGFEAAVAKKVVVPITFMVPNRPSGLTQSALLVAGRTFLINEHTWSNPSWTSFTIRGEVHTRDEPFQTVHFTHHGVPTDLMMVRLGPGNSFPNNLDKFGLDQMPARNSRVVGVSASYGNFFFSGNFLGFVDSITSDQGTYARLFRYRVTTYKGWCGSALVCEAGGVRRIIGLHSAGAAGIGAGTYISKLGLIKALKHLGEPLA QPNVDMGFEAAVAKKVVVPITFMVPNRPSGLTQSALLVAGRTFLINEHTWSNPSWTSFTIRGEVHTRDEPFQTVHFTHHGVPTDLMMVRLGPGNSFPNNLDKFGLDQMPARNSRVVGVSASYGNFFFSGNFLGFVDSITSDQGTYARLFRYRVTTYKGWCGSALVCEAGGVRRIIGLHSAGAAGIGAGTYISKLGLIKALKHLGEP 6l19-a1-m1-cB_6l19-a1-m1-cA The crystal structure of competence or damage-inducible protein from Enterobacter asburiae 2.13 X-RAY DIFFRACTION 69 1.0 61645 (Enterobacter asburiae) 61645 (Enterobacter asburiae) 159 164 NNTVGELTKKLASKLTDLGLRLTTAESCTGGKLSVALCAEENTAEFYDVGLVVFSDEAKMRILGVRPETLERFTAVSEQTVTEMAASIRDIAQADISIAISGYAGPEGGDDGTAAGTVCFAWNIRGETETRTMLFSGDCQDVVEKAVHFSLAELLAALS SNNTVGELTKKLASKLTDLGLRLTTAESCTGGKLSVALCAEENTAEFYDVGLVVFSDEAKMRILGVRPETLERFTAVSEQTVTEMAASIRDIAQADISIAISGYAGPEGGDDGTAAGTVCFAWNIRGETETRTMLFSGDCQDVVEKAVHFSLAELLAALSDEDN 6l1l-a1-m1-cA_6l1l-a1-m1-cB Apo-BacF structure from Bacillus subtillis P39643 P39643 1.9 X-RAY DIFFRACTION 192 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 375 393 6l1n-a1-m1-cA_6l1n-a1-m1-cB 6l1o-a1-m1-cB_6l1o-a1-m1-cA MEITPSDVIKTLPRQEIINLGQGNPDLPTPPHIVEALREASLNPSFHGYGPFRGYPFLKEAIAAFYKREYGVTINPETEVALFGGGKAGLYVLTQCLLNPGDIALVPNPGYPEYLSGITMARAELYEMPLYEENGYLPDFEKIDPAVLEKAKLMFLNYPNNPTGAVADAAFYAKAAAFAKEHNIHLIHDFAYGAFEFDQKPASFLEAEDAKTVGAELYSFSKTFNMAGWRMAFAVGNEKIIQAVNEFQDHVFVGMFGGLQQAASAALSGDPEHTESLKRIYKERIDFFTALCEKELGWKMEKPKGTFYVWAEIPNTFETSHQFSDYLLEHAHVVVTPGEIFGSNGKRHVRISMVSKQEDLREFVTRIQKLNLPFG MEITPSDVIKTLPRQEFSLVFQKVKEMEKTGAHIINLGQGNPDLPTPPHIVEALREASLNPSFHGYGPFRGYPFLKEAIAAFYKREYGVTINPETEVALFGGGKAGLYVLTQCLLNPGDIALVPNPGYPEYLSGITMARAELYEMPLYEENGYLPDFEKIDPAVLEKAKLMFLNYPNNPTGAVADAAFYAKAAAFAKEHNIHLIHDFAYGAFEFDQKPASFLEAEDAKTVGAELYSFSKTFNMAGWRMAFAVGNEKIIQAVNEFQDHVFVGMFGGLQQAASAALSGDPEHTESLKRIYKERIDFFTALCEKELGWKMEKPKGTFYVWAEIPNTFETSHQFSDYLLEHAHVVVTPGEIFGSNGKRHVRISMVSKQEDLREFVTRIQKLNLPFGS 6l1u-a1-m1-cA_6l1u-a1-m1-cB Cryo-EM structure of phosphorylated Tyr39 alpha-synuclein amyloid fibril P37840 P37840 3.37 ELECTRON MICROSCOPY 365 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 6l1t-a1-m1-cA_6l1t-a1-m1-cB 6l1t-a1-m1-cB_6l1t-a1-m1-cC 6l1t-a1-m1-cC_6l1t-a1-m1-cD 6l1t-a1-m1-cC_6l1t-a1-m1-cE 6l1t-a1-m1-cD_6l1t-a1-m1-cE 6l1t-a1-m1-cF_6l1t-a1-m1-cG 6l1t-a1-m1-cG_6l1t-a1-m1-cH 6l1t-a1-m1-cH_6l1t-a1-m1-cI 6l1t-a1-m1-cI_6l1t-a1-m1-cJ 6l1u-a1-m1-cB_6l1u-a1-m1-cC 6l1u-a1-m1-cB_6l1u-a1-m1-cD 6l1u-a1-m1-cC_6l1u-a1-m1-cD 6l1u-a1-m1-cC_6l1u-a1-m1-cE 6l1u-a1-m1-cD_6l1u-a1-m1-cE 6l1u-a1-m1-cF_6l1u-a1-m1-cG 6l1u-a1-m1-cG_6l1u-a1-m1-cH 6l1u-a1-m1-cH_6l1u-a1-m1-cI 6l1u-a1-m1-cI_6l1u-a1-m1-cJ 6l1u-a1-m1-cK_6l1u-a1-m1-cL 6l1u-a1-m1-cL_6l1u-a1-m1-cM 6l1u-a1-m1-cM_6l1u-a1-m1-cN 6l1u-a1-m1-cN_6l1u-a1-m1-cO MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQL MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQL 6l1v-a2-m1-cC_6l1v-a2-m1-cE Domain-swapped Alcaligenes xylosoxidans azurin dimer P56547 P56547 2.25 X-RAY DIFFRACTION 197 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 129 129 6l1v-a1-m1-cA_6l1v-a1-m1-cG AECSVDIAGNDQMQFDKKEITVSKSCKQFTVNLKHPGKLAKNVMGHNWVLTKQADMQGAVNDGMAAGLDNNYVKKDDARVIAHTKVIGGGETDSVTFDVSKLAAGQDYAYFCSFPGHFALMKGVLKLVD AECSVDIAGNDQMQFDKKEITVSKSCKQFTVNLKHPGKLAKNVMGHNWVLTKQADMQGAVNDGMAAGLDNNYVKKDDARVIAHTKVIGGGETDSVTFDVSKLAAGQDYAYFCSFPGHFALMKGVLKLVD 6l25-a1-m1-cB_6l25-a1-m1-cA Deoxyribonuclease from Staphylococcus aureus W8U6D8 W8U6D8 1.85 X-RAY DIFFRACTION 31 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 248 249 LIDTHVHLNDEQYDDDLSEVITRAREAGVDRFVVGFNKSTIERAKLIDEYDFLYGIIGWHPVDAIDFTEEHLEWIESLAQHPKVIGIGEGLDYHWDKSPADVQKEVFRKQIALAKRLKLPIIIHNREATQDCIDILLEEHAEEVGGIHSFSGSPEIADIVTNKLNFYISLGGPVTFKNAKQPKEVAKHVSERLLVETDAPYLSPHPYRGKRNEPARVTLVAEQIAELKGLSYEEVCEQTTKNAEKLFN LIDTHVHLNDEQYDDDLSEVITRAREAGVDRFVVGFNKSTIERAKLIDEYDFLYGIIGWHPVDAIDFTEEHLEWIESLAQHPKVIGIGEGLDYHWDKSPADVQKEVFRKQIALAKRLKLPIIIHNREATQDCIDILLEEHAEEVGGIHSFSGSPEIADIVTNKLNFYISLGGPVTFKNAKQPKEVAKHVSERLLVETDAPYLSPHPYRGKRNEPARVTLVAEQIAELKGLSYEEVCEQTTKNAEKLFNL 6l29-a1-m1-cB_6l29-a1-m1-cA The structure of the MazF-mt1 mutant P71650 P71650 2.30001 X-RAY DIFFRACTION 105 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 119 121 5hjz-a1-m1-cA_5hjz-a1-m1-cB 6kys-a1-m1-cA_6kys-a1-m1-cB 6kyt-a1-m1-cA_6kyt-a1-m1-cB 6kyt-a2-m1-cE_6kyt-a2-m1-cD 6l2a-a1-m1-cA_6l2a-a1-m2-cA 7du5-a1-m1-cA_7du5-a1-m1-cB ELVMRRGEIWQVSLDAARGAEANNQRPAVVVSNDRANATATRLGRGVITVVPVTSNIAKVYPFQVLLSATTTGLQVDCKAQAEQIRSIATERLLRPIGRVSAAELAQLDEALKLHLDLW GPELVMRRGEIWQVSLDAARGAEANNQRPAVVVSNDRANATATRLGRGVITVVPVTSNIAKVYPFQVLLSATTTGLQVDCKAQAEQIRSIATERLLRPIGRVSAAELAQLDEALKLHLDLW 6l2i-a1-m1-cB_6l2i-a1-m1-cA IlvC, a ketol-acid reductoisomerase, from Streptococcus pneumoniae_WT Q04M32 Q04M32 1.69 X-RAY DIFFRACTION 403 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 323 324 6l2k-a1-m1-cA_6l2k-a1-m1-cB 6l2r-a1-m1-cA_6l2r-a1-m1-cB 6l2s-a1-m1-cA_6l2s-a1-m1-cB 6l2z-a1-m1-cA_6l2z-a1-m1-cB VQMEYEKDVKVAALDGKKIAVIGYGSQGHAHAQNLRDSGRDVIIGVRPGKSFDKAKEDGFDTYTVAEATKLADVIMILAPDEIQQELYEAEIAPNLEAGNAVGFAHGFNIHFEFIKVPADVDVFMCAPKGPGHLVRRTYEEGFGVPALYAVYQDATGNAKNIAMDWCKGVGAARVGLLETTYKEETEEDLFGEQAVLCGGLTALIEAGFEVLTEAGYAPELAYFEVLHEMKLIVDLIYEGGFKKMRQSISNTAEYGDYVSGPRVITEQVKENMKAVLADIQNGKFANDFVNDYKAGRPKLTAYREQAANLEIEKVGAELRKAM VQMEYEKDVKVAALDGKKIAVIGYGSQGHAHAQNLRDSGRDVIIGVRPGKSFDKAKEDGFDTYTVAEATKLADVIMILAPDEIQQELYEAEIAPNLEAGNAVGFAHGFNIHFEFIKVPADVDVFMCAPKGPGHLVRRTYEEGFGVPALYAVYQDATGNAKNIAMDWCKGVGAARVGLLETTYKEETEEDLFGEQAVLCGGLTALIEAGFEVLTEAGYAPELAYFEVLHEMKLIVDLIYEGGFKKMRQSISNTAEYGDYVSGPRVITEQVKENMKAVLADIQNGKFANDFVNDYKAGRPKLTAYREQAANLEIEKVGAELRKAMP 6l2l-a1-m1-cA_6l2l-a1-m2-cA The structure of the tRNA-specific deaminase from M. capricolum A0A0C2W6A5 A0A0C2W6A5 2.40046 X-RAY DIFFRACTION 58 1.0 40479 (Mycoplasma capricolum subsp. capricolum) 40479 (Mycoplasma capricolum subsp. capricolum) 143 143 DDFNNILDLLINESKKAIKHNDIPVSCCIIDSNNNILSLAINSRYKNKDISQHAEINVINDLISKLNSFNLSKYKLITTLEPCMMCYSAIKQVKINTIYYLVDSYKFGIKNNYQNLNLIQIKNQKKQSEYIKLLNIFFINKRL DDFNNILDLLINESKKAIKHNDIPVSCCIIDSNNNILSLAINSRYKNKDISQHAEINVINDLISKLNSFNLSKYKLITTLEPCMMCYSAIKQVKINTIYYLVDSYKFGIKNNYQNLNLIQIKNQKKQSEYIKLLNIFFINKRL 6l2m-a1-m1-cA_6l2m-a1-m2-cA The structure of the tRNA-specific deaminase mutant from M. capricolum A0A0C2W6A5 A0A0C2W6A5 2.30255 X-RAY DIFFRACTION 18 1.0 40479 (Mycoplasma capricolum subsp. capricolum) 40479 (Mycoplasma capricolum subsp. capricolum) 144 144 DDFNNILDLLINESKKAAQLGDIPVSCCIIDSNNNILSLAINSRYKNKDISQHAEINVINDLISKLNSFNLSKYKLITTLEPCMMCYSAIKQVKINTIYYLVDDPKYSINDQNLNLIQIKNQKKQSEYIKLLNIFFINARLEHH DDFNNILDLLINESKKAAQLGDIPVSCCIIDSNNNILSLAINSRYKNKDISQHAEINVINDLISKLNSFNLSKYKLITTLEPCMMCYSAIKQVKINTIYYLVDDPKYSINDQNLNLIQIKNQKKQSEYIKLLNIFFINARLEHH 6l2t-a1-m1-cB_6l2t-a1-m1-cC African swine fever virus major capsid protein p72 P22776 P22776 4.1 ELECTRON MICROSCOPY 351 0.995 10497 (African swine fever virus) 10497 (African swine fever virus) 628 633 6l2t-a1-m1-cA_6l2t-a1-m1-cB 6l2t-a1-m1-cA_6l2t-a1-m1-cC CLIANDGKADKIILAQDLLNSRISNIKNVNKSYGKPDPEPTLSQIEETHLVHFNAHFKPYVPVGFEYNKVRPHTGTPTLGNKLTFGIPQYGDFFHDMVGHHILGACHSSWQDAPIQGTSQMGAHGQLQTFPRNGYDWDNQTPLEGAVYTLVDPFGRPIVPGTKNAYRNLVYYCEYPGLRLYENVRFEVNGNSLDEYSSDVTTLVRKFCIPGDKMTGYKHLVGQEVSVEGTSGPLLCNIHDLHKPHQSKPILTDENDTQRTCSHTNPKFLSQHFPHFPENIQTAGKQDITPITDATYLDIRRNVHYSCNGPQTPKYYQPPLALWIKLRFWFNDNVNAIPSVSIPFGERFITIKLASQKDLVNEFPGLFVRQSTVIAGRPSRRNIRFKPWFIPGVINEISLTNNELYINNLFVTPEIHNLYVKRVRFSLIRVHKTQVTHTNNNHHDEKLMSALKWPIEYMFIGLKPTWNISDQNPHQHRDWHKFGHVVNAIMQPTHHAEISFQDRDTALPDACSSISDISPVTYPITLPIIKNISVTAHGINLIDKFPSQFCSSYIPFHYGGNAIKTPDDPGAMMITFALYPREEYQPSGHINVSRAREFYISWDSDYVGSITTADLVVSSSAINFLLLQ MASGGAFCLIANDGKADKIILAQDLLNSRISNIKNVNKSYGKPDPEPTLSQIEETHLVHFNAHFKPYVPVGFEYNKVRPHTGTPTLGNKLTFGIPQYGDFFHDMVGHHILGACHSSWQDAPIQGTSQMGAHGQLQTFPRNGYDWDNQTPLEGAVYTLVPFGRPIVPGTKNAYRNLVYYCEYPGLRLYENVRFEVNGNSLDEYSSDVTTLVRKFCIPGDKMTGYKHLVGQEVSVEGTSGPLLCNIHDLHKPHQSKPILTDENDTQRTCSHTNPKFLSQHFPHPENIQTAGKQDITPITDATYLDIRRNVHYSCNGPQTPKYYQPPLALWIKLRFWFNDNVLAIPSVSIPFGERFITIKLASQKDLVNEFPGLFVRQSTVIAGRPSRRNIRFKPWFIPGVINEISLTNNELYINNLFVTPEIHNLYVKRVRFSLIRVHKTQVTHTNNNHHDEKLMSALKWPIEYMFIGLKPTWNISDQNPHQHRDWHKFGHVVNAIMQPTHHAEISFQDRDTALPDACSSISDISPVTYPITLPIIKNISVTAHGINLIDKFPSQFCSSYIPFHYGGNAIKTPDDPGAMMITFALYPREEYQPSGHINVSRAREFYISWDSDYVGSITTADLVVSSSAINFLLLQ 6l2u-a1-m1-cA_6l2u-a1-m1-cB Soluble methane monooxygenase reductase FAD-binding domain from Methylosinus sporium. Q27RN2 Q27RN2 1.5 X-RAY DIFFRACTION 55 1.0 428 (Methylosinus sporium) 428 (Methylosinus sporium) 103 103 QTNWLAEIVECDRVSSNVVRLLLQPLTADGAAPISLNFAPGQFVDIEIPGTHTRRSYSMASVAEDGRLEFFIRLLPDGAFSNYLRTQASVGQRVALRGPAGSF QTNWLAEIVECDRVSSNVVRLLLQPLTADGAAPISLNFAPGQFVDIEIPGTHTRRSYSMASVAEDGRLEFFIRLLPDGAFSNYLRTQASVGQRVALRGPAGSF 6l2w-a1-m1-cA_6l2w-a1-m1-cB Crystal structure of a novel fold protein Gp72 from the freshwater cyanophage Mic1 A0A4Y5TR47 A0A4Y5TR47 2.29 X-RAY DIFFRACTION 64 0.991 2587456 (Microcystis phage Mic1) 2587456 (Microcystis phage Mic1) 116 118 MMFVRLSYHSFDYLFDAGVIDLNTKCPVSLSEIEDYDNFGWLELTAENLENVCEYCAKLGIEANGSLGDFRYWYSGDMSYHLELKSDQSENLEVKIREINLKLKELELIKNECLEH MMFVRLSYHSFDYLFNLFDAGVIDLNTKCPVSLSEIEDYDNFGWLELTAENLENVCEYCAKLGIEANGSLGDFRYWYSGDMSYHLELKSDQSENLEVKIREINLKLKELELIKNECLE 6l33-a2-m1-cD_6l33-a2-m1-cC Crystal structure of the regulatory domain of MexT, a transcriptional activator in Pseudomonas aeruginosa Q9I0Z0 Q9I0Z0 2 X-RAY DIFFRACTION 92 0.994 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 180 196 6l33-a1-m1-cA_6l33-a1-m1-cB AVFRIGLSDDVEFGLLPPLLRRLRAEAPGIVLVVRRANYLLPNLLASGEISVGVSYTDELPANAKRKTVRRSKPKILRADSAPGQLTLDDYCARPHALVSFAGRKRKVVLAVPQFNGLGTLLAGTDIIATVPDYAAQALIALRAEDPPFETRAFELSAWRGAQDNDPAERWLRSRISFIG AVFRIGLSDDVEFGLLPPLLRRLRAEAPGIVLVVRRANYLLPNLLASGEISVGVSYTDELPANAKRKTVRRSKPKILRADSAPGQLTLDDYCARPHALVSFAGDLSGFVDEELEKFGRKRKVVLAVPQFNGLGTLLAGTDIIATVPDYAAQALIAAGGLRAEDPPFETRAFELSAWRGAQDNDPAERWLRSRISFI 6l3g-a1-m1-cA_6l3g-a1-m2-cB Structural Basis for DNA Unwinding at Forked dsDNA by two coordinating Pif1 helicases A0A373G551 A0A373G551 3.3 X-RAY DIFFRACTION 16 0.998 2302925 (Bacteroides sp. AF32-8BH) 2302925 (Bacteroides sp. AF32-8BH) 413 413 6l3g-a1-m1-cB_6l3g-a1-m2-cA MILTEEMQKIMNLIQDDENNVFVTGKAGSGKTTFLKYLIEKSGKNCIVAAPTGIAAINAGGVTLHSLFGIPFGPITPYDRLENKFSEYKVELLLKMELLIIDEISMVRPDILDTIDRKLRWVYESDEPFGGVQVVMFGDLFQLPPVTKKQEREILSDFYDGFFFFNALVFKRTGFHIVELTKIFRQTEPEFINVLNNIRNYQVTSDELDLLSELKDRKINEYIHICTHKADVEKINADKLGEQEIRNYDIVIKDKFPESSIPCDLHLKLRVGARVMSLVNDSLKGYYNGMLGIVTALEDNVITVRMDNGRTIKFERYTWSNTEEIGSCTQFPLTLAWAITIHKSQGLTFDKIIIHVSHTFCPGQLYVALSRCRTLEGIVSDAFITKQMIIPEYALIDFERAYKSEGNYYGKRL DMILTEEMQKIMNLIQDDENNVFVTGKAGSGKTTFLKYLIEKSGKNCIVAAPTGIAAINAGGVTLHSLFGIPFGPITPYDRLENKFSEYKVELLLKMELLIIDEISMVRPDILDTIDRKLRWVYESDEPFGGVQVVMFGDLFQLPPVTKKQEREILSDFYDGFFFFNALVFKRTGFHIVELTKIFRQTEPEFINVLNNIRNYQVTSDELDLLSELKDRKINEYIHICTHKADVEKINADKLGEQEIRNYDIVIKDKFPESSIPCDLHLKLRVGARVMSLVNDSLKGYYNGMLGIVTALEDNVITVRMDNGRTIKFERYTWSNTEIGSCTQFPLTLAWAITIHKSQGLTFDKIIIHVSHTFCPGQLYVALSRCRTLEGIVSDAFITKQMIIPEYALIDFERAYKSEGNYYGKRL 6l3h-a1-m1-cA_6l3h-a1-m1-cB Cryo-EM structure of dimeric quinol dependent Nitric Oxide Reductase (qNOR) from the pathogen Neisseria meninigitidis C6S880 C6S880 3.06 ELECTRON MICROSCOPY 111 1.0 662598 (Neisseria meningitidis alpha14) 662598 (Neisseria meningitidis alpha14) 741 741 GQYKKLWYLLFAVLAVCFTILGYMGSEVYKKAPPYPEQVVSASGKVLMAKDDILAGQSAWQTTGGMEVGSVLGHGAYQAPDWTADWLHRELSAWLDLTAQQTYGKKFDEVSPEEQAVLKTRLADEYRNQSRIKEDGSVVISDTRVKAIESILPYYHGVYGDDPALQTTREHFAMKNNTLPSQEAREKLFDFFFWTSWSASTNRPDETFTYTNNWPHEPLINNVPTTENYMWSFTSVVLLLMGIGLLMWGYSFLTKHEEVEVPTEDPISKVQLTPSQKALGKYVFLTVALFVVQVLLGGLTAHYTVEGQGFEALGFEMSDWFPYALTRTWHIQSAIFWIATGFLTAGLFLAPIVNGGKDPKFQRAGVNFLYIALFIVVGGSYAGNFFALTHILPPEFNFWFGHQGYEYLDLGRFWQLLLMVGLLLWLFLMLRCTVSAFKEKGVDKNLLAIFVASMVGVGVFYAPGLFYGEKSPIAVMEYWRWWVVHLWVEGFFEVFATAAFAFVFYNMGFVRRSTATASTLAAAAIFMLGGVPGTLHHLYFSGSTSASMAIGACFSALEVVPLVLLGREAYEHWSYQHLSEWAKRLRWPLMCFVAVAFWNMIGAGVFGFLINPPISLFYIQGLNTSAVHAHAALFGVYGFLALGFVLLVARYLKPNVQFDDKLMTWGFWLLNGGLVGMIAISLLPVGVIQAYASITHGLWYARSEEFLQMEILDTLRWVRTAADLIFIGGAICVAIQATKIV GQYKKLWYLLFAVLAVCFTILGYMGSEVYKKAPPYPEQVVSASGKVLMAKDDILAGQSAWQTTGGMEVGSVLGHGAYQAPDWTADWLHRELSAWLDLTAQQTYGKKFDEVSPEEQAVLKTRLADEYRNQSRIKEDGSVVISDTRVKAIESILPYYHGVYGDDPALQTTREHFAMKNNTLPSQEAREKLFDFFFWTSWSASTNRPDETFTYTNNWPHEPLINNVPTTENYMWSFTSVVLLLMGIGLLMWGYSFLTKHEEVEVPTEDPISKVQLTPSQKALGKYVFLTVALFVVQVLLGGLTAHYTVEGQGFEALGFEMSDWFPYALTRTWHIQSAIFWIATGFLTAGLFLAPIVNGGKDPKFQRAGVNFLYIALFIVVGGSYAGNFFALTHILPPEFNFWFGHQGYEYLDLGRFWQLLLMVGLLLWLFLMLRCTVSAFKEKGVDKNLLAIFVASMVGVGVFYAPGLFYGEKSPIAVMEYWRWWVVHLWVEGFFEVFATAAFAFVFYNMGFVRRSTATASTLAAAAIFMLGGVPGTLHHLYFSGSTSASMAIGACFSALEVVPLVLLGREAYEHWSYQHLSEWAKRLRWPLMCFVAVAFWNMIGAGVFGFLINPPISLFYIQGLNTSAVHAHAALFGVYGFLALGFVLLVARYLKPNVQFDDKLMTWGFWLLNGGLVGMIAISLLPVGVIQAYASITHGLWYARSEEFLQMEILDTLRWVRTAADLIFIGGAICVAIQATKIV 6l3o-a1-m2-cB_6l3o-a1-m3-cB Crystal strcuture of Feruloyl-CoA hydratase lyase(FCHL) from Pseudomonas putida KT2440 Q88HJ8 Q88HJ8 1.65 X-RAY DIFFRACTION 96 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 249 249 2j5i-a1-m1-cB_2j5i-a1-m1-cA 2j5i-a1-m1-cB_2j5i-a1-m1-cC 2j5i-a1-m1-cC_2j5i-a1-m1-cA 2j5i-a1-m1-cD_2j5i-a1-m1-cE 2j5i-a1-m1-cF_2j5i-a1-m1-cD 2j5i-a1-m1-cF_2j5i-a1-m1-cE 2j5i-a2-m1-cG_2j5i-a2-m1-cH 2j5i-a2-m1-cI_2j5i-a2-m1-cG 2j5i-a2-m1-cI_2j5i-a2-m1-cH 2j5i-a2-m1-cJ_2j5i-a2-m1-cK 2j5i-a2-m1-cL_2j5i-a2-m1-cJ 2j5i-a2-m1-cL_2j5i-a2-m1-cK 2vss-a1-m1-cA_2vss-a1-m1-cB 2vss-a1-m1-cC_2vss-a1-m1-cA 2vss-a1-m1-cC_2vss-a1-m1-cB 2vss-a1-m1-cD_2vss-a1-m1-cF 2vss-a1-m1-cE_2vss-a1-m1-cD 2vss-a1-m1-cE_2vss-a1-m1-cF 2vsu-a1-m1-cA_2vsu-a1-m1-cB 2vsu-a1-m1-cA_2vsu-a1-m1-cC 2vsu-a1-m1-cB_2vsu-a1-m1-cC 2vsu-a1-m1-cE_2vsu-a1-m1-cD 2vsu-a1-m1-cE_2vsu-a1-m1-cF 2vsu-a1-m1-cF_2vsu-a1-m1-cD 6l3o-a1-m1-cA_6l3o-a1-m2-cA 6l3o-a1-m1-cA_6l3o-a1-m3-cA 6l3o-a1-m1-cB_6l3o-a1-m2-cB 6l3o-a1-m1-cB_6l3o-a1-m3-cB 6l3o-a1-m2-cA_6l3o-a1-m3-cA SKYEGRWTTVKVELEAGIAWVTLNRPEKRNAMSPTLNREMVDVLETLEQDADAGVLVLTGAGESWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRLYAKPTIAMVNGWCFGGGFSPLVACDLAICANEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFDGRKAAEMGLVNDSVPLAELRETTRELALNLLEKNPVVLRAAKNGFKRCRELTWEQNEDYLYAKLDQSRLLDT SKYEGRWTTVKVELEAGIAWVTLNRPEKRNAMSPTLNREMVDVLETLEQDADAGVLVLTGAGESWTAGMDLKEYFREVDAGPEILQEKIRREASQWQWKLLRLYAKPTIAMVNGWCFGGGFSPLVACDLAICANEATFGLSEINWGIPPGNLVSKAMADTVGHRQSLYYIMTGKTFDGRKAAEMGLVNDSVPLAELRETTRELALNLLEKNPVVLRAAKNGFKRCRELTWEQNEDYLYAKLDQSRLLDT 6l3q-a1-m1-cA_6l3q-a1-m1-cB Crystal structure of Chaetomium thermophilum Utp15 C terminal domain G0SEI5 G0SEI5 2.702 X-RAY DIFFRACTION 75 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 122 129 LKPWQKAFRQGRYAAAVDDVLNTTAPSYDPVIALTLLTALRHRSALREALQGRDELSVINILRWAGKYVADPRYRSICVDVAFHLIDLYAEHVGGSAELATQFQQLLAKVNREVEKAELAIV LKPWQKAFRQGRYAAAVDDVLNTTAPSYDPVIALTLLTALRHRSALREALQGRDELSVINILRWAGKYVADPRYRSICVDVAFHLIDLYAEHVGGSAELATQFQQLLAKVNREVEKAELAIVTGGVESL 6l4b-a3-m1-cC_6l4b-a3-m3-cD Crystal structure of human WT NDRG3 Q9UGV2 Q9UGV2 2.2 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 6l4b-a1-m1-cA_6l4b-a1-m2-cE 6l4b-a2-m1-cB_6l4b-a2-m1-cF 6l4h-a1-m3-cB_6l4h-a1-m1-cA 6l4h-a2-m1-cC_6l4h-a2-m2-cD DCQEHDIETTHGVVHVTIRGLPKGNRPVILTYHDIGLNHKSCFNAFFNFEDMQEITQHFAVCHVDAPGQQEGAPSFPTGYQYPTMDELAEMLPPVLTHLSLKSIIGIGVGAGAYILSRFALNHPELVEGLVLINVDPCAKGWIDTNVVDIILAHHFGQEELQANLDLIQTYRMHIAQDINQDNLQLFLNSYNGRRDLEIERPILGQNDNKSKTLKCSTLLVVGDNSPAVEAVVECNSRLNPINTTLLKMADCGGLPQVVQPGKLTEAFKYFLQGMGYIPSAS DCQEHDIETTHGVVHVTIRGLPKGNRPVILTYHDIGLNHKSCFNAFFNFEDMQEITQHFAVCHVDAPGQQEGAPSFPTGYQYPTMDELAEMLPPVLTHLSLKSIIGIGVGAGAYILSRFALNHPELVEGLVLINVDPCAKGWIDTNVVDIILAHHFGQEELQANLDLIQTYRMHIAQDINQDNLQLFLNSYNGRRDLEIERPILGQNDNKSKTLKCSTLLVVGDNSPAVEAVVECNSRLNPINTTLLKMADCGGLPQVVQPGKLTEAFKYFLQGMGYIPSAS 6l4c-a1-m1-cC_6l4c-a1-m1-cA Crystal structure of vicilin from Corylus avellana (Hazelnut) Q8S4P9 Q8S4P9 3.191 X-RAY DIFFRACTION 187 1.0 13451 (Corylus avellana) 13451 (Corylus avellana) 353 359 6l4c-a1-m1-cA_6l4c-a1-m1-cB 6l4c-a1-m1-cC_6l4c-a1-m1-cB NPYVFQDEHFESRVKTEEGRVQVLENFTKRSRLLSGIENFRLAILEANPHTFISPAHFDAELVLFVAKGRATITMVREEKRESFNVEHGDIIRIPAGTPVYMINRDENEKLFIVKILQPVSAPGHFEAFYGAGGEDPESFYRAFSWEVLEAALKVRREQLEKVFGEQSKGSIVKASREKIRALSSGPINLLHKHPSQSNQFGRLYEAHPDDHKQLQDLDLMVSFANITKGSMAGPYYNSRATKISVVVEGEGFFEMACPHLSSSQKISARLRRGVVFVAPAGHPVAVIASQNNNLQVLCFEVNAHGNSRFPLAGKGNIVNEFERDAKELAFNLPSREVERIFKNQDQAFFFPG NPYVFQDEHFESRVKTEEGRVQVLENFTKRSRLLSGIENFRLAILEANPHTFISPAHFDAELVLFVAKGRATITMVREEKRESFNVEHGDIIRIPAGTPVYMINRDENEKLFIVKILQPVSAPGHFEAFYGAGGEDPESFYRAFSWEVLEAALKVRREQLEKVFGEQSKGSIVKASREKIRALSSGPINLLHKHPSQSNQFGRLYEAHPDDHKQLQDLDLMVSFANITKGSMAGPYYNSRATKISVVVEGEGFFEMACPHLSSSSGSYQKISARLRRGVVFVAPAGHPVAVIASQNNNLQVLCFEVNAHGNSRFPLAGKGNIVNEFERDAKELAFNLPSREVERIFKNQDQAFFFPGPN 6l4g-a1-m1-cA_6l4g-a1-m1-cB Crystal structure of human NDRG3 I171M/S176H mutant Q9UGV2 Q9UGV2 3.304 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 282 DCQEHDIETTHGVVHVTIRGLPKGNRPVILTYHDIGLNHKSCFNAFFNFEDMQEITQHFAVCHVDAPGQQEGAPSFPTGYQYPTMDELAEMLPPVLTHLSLKSIIGIGVGAGAYILSRFALNHPELVEGLVLINVDPCAKTNVVDIILAHHFGQEELQANLDLIQTYRMHIAQDINQDNLQLFLNSYNGRRDLEIERPILGQNDNKSKTLKCSTLLVVGDNSPAVEAVVECNSRLNPINTTLLKMADCGGLPQVVQPGKLTEAFKYFLQGMGYIPSAS DCQEHDIETTHGVVHVTIRGLPKGNRPVILTYHDIGLNHKSCFNAFFNFEDMQEITQHFAVCHVDAPGQQEGAPSFPTGYQYPTMDELAEMLPPVLTHLSLKSIIGIGVGAGAYILSRFALNHPELVEGLVLINVDPCAKGWMDTNVVDIILAHHFGQEELQANLDLIQTYRMHIAQDINQDNLQLFLNSYNGRRDLEIERPILGQNDNKSKTLKCSTLLVVGDNSPAVEAVVECNSRLNPINTTLLKMADCGGLPQVVQPGKLTEAFKYFLQGMGYIPSAS 6l4s-a1-m1-cD_6l4s-a1-m1-cF cryo-em structure of alpha-synuclein fiber mutation type E46K P37840 P37840 3.37 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 6l4s-a1-m1-cC_6l4s-a1-m1-cE KKGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ KKGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 6l4s-a1-m1-cE_6l4s-a1-m1-cF cryo-em structure of alpha-synuclein fiber mutation type E46K P37840 P37840 3.37 ELECTRON MICROSCOPY 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 55 6l4s-a1-m1-cA_6l4s-a1-m1-cB 6l4s-a1-m1-cA_6l4s-a1-m1-cF 6l4s-a1-m1-cB_6l4s-a1-m1-cC 6l4s-a1-m1-cC_6l4s-a1-m1-cD KKGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ KKGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 6l4v-a1-m1-cA_6l4v-a1-m2-cA Turning an asparaginyl endopeptidase into a peptide ligase A0A0P0QM28 A0A0P0QM28 1.35 X-RAY DIFFRACTION 59 1.0 43366 (Clitoria ternatea) 43366 (Clitoria ternatea) 414 414 6l4w-a1-m1-cA_6l4w-a1-m2-cA 6l4x-a1-m1-cA_6l4x-a1-m2-cA 6l4y-a1-m1-cA_6l4y-a1-m1-cB 6lko-a1-m1-cA_6lko-a1-m2-cA VGTRWAVLVAGSNGYENYRHQADVCHAYQLLIKGGLKEENIVVFMYDDIAWHELNPRPGVIINNPRGEDVYAGVPKDYTGEDVTAENLFAVILGDRSKVKGGSGKVINSKPEDRIFIFYSHGGPGVLGMPNEQILYAMDFIDVLKKKHASGGYREMVIYVEACESGSLFEGIMPKDLNVFVTTASNAQENSWGTYCPGTEPSPPPEYTTCLGDLYSVAWMEDSESHNLRRETVNQQYRSVKERTSNFKDYAMGSHVMQYGDTNITAEKLYLFQGFDPATVNEAKMEVVHQRDAELLFMWQMYQRSNHLLGKKTHILKQIAETVKHRNHLDGSVELIGVLLYGPGKGSPVLQSVRDPGLPLVDNWACLKSMVRVFESHCGSLTQYGMKHMRAFANICNSGVSESSMEEACMVACG VGTRWAVLVAGSNGYENYRHQADVCHAYQLLIKGGLKEENIVVFMYDDIAWHELNPRPGVIINNPRGEDVYAGVPKDYTGEDVTAENLFAVILGDRSKVKGGSGKVINSKPEDRIFIFYSHGGPGVLGMPNEQILYAMDFIDVLKKKHASGGYREMVIYVEACESGSLFEGIMPKDLNVFVTTASNAQENSWGTYCPGTEPSPPPEYTTCLGDLYSVAWMEDSESHNLRRETVNQQYRSVKERTSNFKDYAMGSHVMQYGDTNITAEKLYLFQGFDPATVNEAKMEVVHQRDAELLFMWQMYQRSNHLLGKKTHILKQIAETVKHRNHLDGSVELIGVLLYGPGKGSPVLQSVRDPGLPLVDNWACLKSMVRVFESHCGSLTQYGMKHMRAFANICNSGVSESSMEEACMVACG 6l5j-a2-m1-cD_6l5j-a2-m1-cC Crystal structure of human rootletin 1108-1317 Q5TZA2 Q5TZA2 2.77 X-RAY DIFFRACTION 275 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 204 6l5h-a1-m1-cA_6l5h-a1-m1-cB 6l5j-a1-m1-cA_6l5j-a1-m1-cB NALTSELRDLRAQREEAAAAHAQEVRRLQEQARDLGKQRDSCREAEELRTQLRLEDARDGLRRELLEAQRKLRESQEGREVQRQEAGELRRSLGEGAKEREALRRSNEELRSAVKKAESERISLKLANEDKEQKLALLEEARTAVGKEAGELRTGLQEVERSRLEARRELQELRRQKLDSENTRLGRELAELQGRLA ESTVNALTSELRDLRAQREEAAAAHAQEVRRLQEQARDLGKQRDSCREAEELRTQLRLEDARDGLRRELLEAQRKLRESQEGREVQRQEAGELRRSLGEGAKEREALRRSNEELRSAVKKAESERISLKLANEDKEQKLALLEEARTAVGKEAGELRTGLQEVERSRLEARRELQELRRQKLDSENTRLGRELAELQGRLALGE 6l61-a1-m1-cA_6l61-a1-m1-cB Quinolone synthase from Aegle marmelos Correa, Dimer M1HE54 M1HE54 1.4 X-RAY DIFFRACTION 153 1.0 68527 (Aegle marmelos) 68527 (Aegle marmelos) 375 375 3wd7-a1-m1-cA_3wd7-a1-m1-cB 6l5u-a1-m1-cA_6l5u-a1-m2-cA 6l73-a1-m1-cA_6l73-a1-m1-cB 6l73-a2-m1-cC_6l73-a2-m1-cD 6l78-a1-m1-cA_6l78-a1-m1-cB 6l78-a2-m1-cC_6l78-a2-m1-cD 6l7j-a1-m1-cA_6l7j-a1-m2-cA 7cct-a1-m1-cA_7cct-a1-m2-cA GLATILAISTATPPNCVIQADYPDYYFKITNSEHMTELKEKFRRLCEKSMIRKRHMCLTEEILKANPNMCLHMGTSLNARQDISLVEVPKLGKEAATKAIKEWGQPKSKITHLIFCTSAGVDMPGADYQLTRLLGLSPEVKRMMIYQQGCYAGATVLRLAKDLTENNKGSRVLIVCSENTVPTFRGPSDTHIDSLVGQALFADGAAALIVGADPDASIERPLYHIVSASQTLLPDSDGAIEGHIREAGLTVHLKKDVPAFFSANIEKSLVDAFTPIGISDWNSIFWIAHPGGPAILDQVEEKLGLRKDKLKASRHVMSEFGNMSSACVLFILDEMRKTCLEEGKATTGEGLDWGVLFGFGPGLTVETVVLRSVPI GLATILAISTATPPNCVIQADYPDYYFKITNSEHMTELKEKFRRLCEKSMIRKRHMCLTEEILKANPNMCLHMGTSLNARQDISLVEVPKLGKEAATKAIKEWGQPKSKITHLIFCTSAGVDMPGADYQLTRLLGLSPEVKRMMIYQQGCYAGATVLRLAKDLTENNKGSRVLIVCSENTVPTFRGPSDTHIDSLVGQALFADGAAALIVGADPDASIERPLYHIVSASQTLLPDSDGAIEGHIREAGLTVHLKKDVPAFFSANIEKSLVDAFTPIGISDWNSIFWIAHPGGPAILDQVEEKLGLRKDKLKASRHVMSEFGNMSSACVLFILDEMRKTCLEEGKATTGEGLDWGVLFGFGPGLTVETVVLRSVPI 6l6g-a1-m1-cA_6l6g-a1-m1-cB Crystal structure of SeMet_Lpg0189 Q5ZZ22 Q5ZZ22 1.98 X-RAY DIFFRACTION 75 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 257 257 6l6h-a1-m1-cA_6l6h-a1-m1-cB TDGLIFSPLPQNKNTVVRHYSNEQEPNLSQAQRTIDFPTQIVRVSGNLTGLELSCDDVENEIDQVFSKKISPNLFTYNTYVSCGYDVNDPEQHAINFSIQSYFDPLTDNAVDYLKSYLKEYNGYNLFNTTTLQIENAKGIIVSNLNAGLKSNPDKTPFTLYRQDRNNFYFKSNFDVRKELISDIYQRFYSNDPDILPFFDKWIFSYAGSVYYSILASNYLELQPERIFVENEGDIFVSDLRYYFANLCKRNPNKHCL TDGLIFSPLPQNKNTVVRHYSNEQEPNLSQAQRTIDFPTQIVRVSGNLTGLELSCDDVENEIDQVFSKKISPNLFTYNTYVSCGYDVNDPEQHAINFSIQSYFDPLTDNAVDYLKSYLKEYNGYNLFNTTTLQIENAKGIIVSNLNAGLKSNPDKTPFTLYRQDRNNFYFKSNFDVRKELISDIYQRFYSNDPDILPFFDKWIFSYAGSVYYSILASNYLELQPERIFVENEGDIFVSDLRYYFANLCKRNPNKHCL 6l6l-a1-m1-cB_6l6l-a1-m1-cA Structural basis of NR4A2 homodimers binding to selective Nur-responsive elements P43354 P43354 2.781 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 85 LCAVCGDNAACQHYGVRTCEGCKGFFKRTVQKNAKYVCLANKNCPVDKRRRNRCQYCRFQKCLAVGMVKEVVRTDSLKGRRGRL LCAVCGDNAACQHYGVRTCEGCKGFFKRTVQKNAKYVCLANKNCPVDKRRRNRCQYCRFQKCLAVGMVKEVVRTDSLKGRRGRLP 6l6m-a1-m1-cC_6l6m-a1-m2-cD HSP18.5 from E. histolytica C4M4U3 C4M4U3 3.28 X-RAY DIFFRACTION 88 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 105 105 TWEPPCELLDCGTNYLLKFEVPGIDKKSLSLQYSNNWVIVSGNKNMPIDEGDFCFTEILYGQFRREVPVPVDASKDGIKAYYQEGILYVKLLKVSNSNWVNVEIV TWEPPCELLDCGTNYLLKFEVPGIDKKSLSLQYSNNWVIVSGNKNMPIDEGDFCFTEILYGQFRREVPVPVDASKDGIKAYYQEGILYVKLLKVSNSNWVNVEIV 6l6m-a1-m2-cB_6l6m-a1-m2-cD HSP18.5 from E. histolytica C4M4U3 C4M4U3 3.28 X-RAY DIFFRACTION 91 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 105 105 6l6m-a1-m1-cA_6l6m-a1-m1-cC TWEPPCELLDCGTNYLLKFEVPGIDKKSLSLQYSNNWVIVSGNKNMPIDEGDFCFTEILYGQFRREVPVPVDASKDGIKAYYQEGILYVKLLKVSNSNWVNVEIV TWEPPCELLDCGTNYLLKFEVPGIDKKSLSLQYSNNWVIVSGNKNMPIDEGDFCFTEILYGQFRREVPVPVDASKDGIKAYYQEGILYVKLLKVSNSNWVNVEIV 6l6p-a1-m1-cC_6l6p-a1-m1-cB hASIC2a co-crystallized with Mamb-1 Q16515 Q16515 3.08 X-RAY DIFFRACTION 191 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 430 433 6l6p-a1-m1-cB_6l6p-a1-m1-cA 6l6p-a1-m1-cC_6l6p-a1-m1-cA IQIFANTSTLHGIRHIFVYGPLTIRRVLWAVAFVGSLGLLLVESSERVSYYFSYQHVTKVDEVVAQSLVFPAVTLCNLNGFRFSRLTTNDLYHAGELLALLDVNLQIPDPHLADPSVLEALRQKANFKHYKPKQFSMLEFLHRVGHDLKDMMLYCKFKGQECGHQDFTTVFTKYGKCYMFNSGEDGKPLLTTVKGGTGNGLEIMLDIQQDEYLPIWGETEETTFEAGVKVQIHSQSEPPFIQELGFGVAPGFQTFVATQEQRLTYLPPPWGECRDFFPVYSITACRIDCETRYIVENCNCRMVHMPGDAPFCTPEQHKECAEPALGLLAELCRTPCNLTRYNKELSMVKIPSKTSAKYLEKKFNKSEKYISENILVLDIFFEALNYETIEQKKAYEVAALLGDIGGQMGLFIGASILTILELFDYIYELI IFANTSTLHGIRHIFVYGPLTIRRVLWAVAFVGSLGLLLVESSERVSYYFSYQHVTKVDEVVAQSLVFPAVTLCNLNGFRFSRLTTNDLYHAGELLALLDVNLQIPDPHLADPSVLEALRQKANFKHYKPKQFSMLEFLHRVGHDLKDMMLYCKFKGQECGHQDFTTVFTKYGKCYMFNSGEDGKPLLTTVKGGTGNGLEIMLDIQQDEYLPIWGETEETTFEAGVKVQIHSQSEPPFIQELGFGVAPGFQTFVATQEQRLTYLPPPWGECRLDFFPVYSITACRIDCETRYIVENCNCRMVHMPGDAPFCTPEQHKECAEPALGLLAESNYCLCRTPCNLTRYNKELSMVKIPSKTSAKYLEKKFNKSEKYISENILVLDIFFEALNYETIEQKKAYEVAALLGDIGGQMGLFIGASILTILELFDYIYELI 6l6w-a1-m1-cA_6l6w-a1-m2-cA The structure of ScoE with intermediate A0A3B6UEU3 A0A3B6UEU3 2.17 X-RAY DIFFRACTION 67 1.0 116188 (Streptomyces coeruleorubidus) 116188 (Streptomyces coeruleorubidus) 294 294 6dch-a2-m1-cA_6dch-a2-m2-cA 6l6x-a1-m1-cA_6l6x-a1-m2-cA RMQIDEQPGNAIGAAVEGFDHATASDADIDALKSTIYTKKIAVLKGQDLSPQQFLALGKRLGRPEAYYEPMYQHPEVTEIFVSSNVPENGKQIGVPKTGKFWHADYQFMPDPFGITLIYPQVIPEKNRGTYFIDMGRAYDRLPEDLKKEISGTYCRHSVRKYFKIRPHDVYRPISEIIEEVERKTPAVVQPTTFTHPMTGETVLYISEGFTVGIEDQDGKPLDEELLKRLFDATGQLDESFEHDNIHLQSFEQGDLLVWDNRSLIHRARHTTTPEPTVSYRVTVHDERKLHDGI RMQIDEQPGNAIGAAVEGFDHATASDADIDALKSTIYTKKIAVLKGQDLSPQQFLALGKRLGRPEAYYEPMYQHPEVTEIFVSSNVPENGKQIGVPKTGKFWHADYQFMPDPFGITLIYPQVIPEKNRGTYFIDMGRAYDRLPEDLKKEISGTYCRHSVRKYFKIRPHDVYRPISEIIEEVERKTPAVVQPTTFTHPMTGETVLYISEGFTVGIEDQDGKPLDEELLKRLFDATGQLDESFEHDNIHLQSFEQGDLLVWDNRSLIHRARHTTTPEPTVSYRVTVHDERKLHDGI 6l70-a1-m1-cA_6l70-a1-m1-cB Complex structure of PEDV 3CLpro with GC376 K4L9I6 K4L9I6 1.56 X-RAY DIFFRACTION 122 1.0 28295 (Porcine epidemic diarrhea virus) 28295 (Porcine epidemic diarrhea virus) 299 299 4xfq-a1-m1-cB_4xfq-a1-m1-cA 4zuh-a1-m1-cB_4zuh-a1-m1-cA 5gwz-a1-m1-cA_5gwz-a1-m1-cB 5hyo-a1-m1-cA_5hyo-a1-m1-cB 5zqg-a1-m1-cA_5zqg-a1-m1-cB 6w81-a1-m1-cB_6w81-a1-m1-cA AGLRKMAQPSGVVEKCIVRVCYGNMALNGLWLGDTVMCPRHVIASSTTSTIDYDYALSVLRLHNFSISSGNVFLGVVGVTMRGALLQIKVNQNNVHTPKYTYRTVRPGESFNILACYDGAAAGVYGVNMRSNYTIRGSFINGACGSPGYNINNGTVEFCYLHQLELGSGCHVGSDLDGVMYGGYEDQPTLQVEGASSLFTENVLAFLYAALINGSTWWLSSSRIAVDRFNEWAVHNGMTTVVNTDCFSILAAKTGVDVQRLLASIQSLHKNFGGKQILGYTSLTDEFTTGEVIRQMYGV AGLRKMAQPSGVVEKCIVRVCYGNMALNGLWLGDTVMCPRHVIASSTTSTIDYDYALSVLRLHNFSISSGNVFLGVVGVTMRGALLQIKVNQNNVHTPKYTYRTVRPGESFNILACYDGAAAGVYGVNMRSNYTIRGSFINGACGSPGYNINNGTVEFCYLHQLELGSGCHVGSDLDGVMYGGYEDQPTLQVEGASSLFTENVLAFLYAALINGSTWWLSSSRIAVDRFNEWAVHNGMTTVVNTDCFSILAAKTGVDVQRLLASIQSLHKNFGGKQILGYTSLTDEFTTGEVIRQMYGV 6l7d-a1-m1-cA_6l7d-a1-m8-cA Mycobacterium tuberculosis enolase mutant - S42A P9WNL1 P9WNL1 3 X-RAY DIFFRACTION 91 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 423 423 6l7d-a1-m2-cA_6l7d-a1-m7-cA 6l7d-a1-m3-cA_6l7d-a1-m6-cA 6l7d-a1-m4-cA_6l7d-a1-m5-cA 7clk-a1-m1-cA_7clk-a1-m8-cA 7clk-a1-m2-cA_7clk-a1-m7-cA 7clk-a1-m3-cA_7clk-a1-m6-cA 7clk-a1-m4-cA_7clk-a1-m5-cA 7cll-a1-m1-cA_7cll-a1-m2-cA 7cll-a1-m1-cB_7cll-a1-m2-cC 7cll-a1-m1-cD_7cll-a1-m2-cD 7cll-a1-m2-cB_7cll-a1-m1-cC 7dlr-a1-m1-cA_7dlr-a1-m8-cA 7dlr-a1-m2-cA_7dlr-a1-m7-cA 7dlr-a1-m3-cA_7dlr-a1-m6-cA 7dlr-a1-m4-cA_7dlr-a1-m5-cA 7e4f-a1-m1-cA_7e4f-a1-m8-cA 7e4f-a1-m2-cA_7e4f-a1-m7-cA 7e4f-a1-m3-cA_7e4f-a1-m6-cA 7e4f-a1-m4-cA_7e4f-a1-m5-cA 7e4x-a1-m1-cA_7e4x-a1-m1-cH 7e4x-a1-m1-cB_7e4x-a1-m1-cC 7e4x-a1-m1-cD_7e4x-a1-m1-cE 7e4x-a1-m1-cF_7e4x-a1-m1-cG 7e51-a1-m1-cA_7e51-a1-m1-cH 7e51-a1-m1-cB_7e51-a1-m1-cC 7e51-a1-m1-cD_7e51-a1-m1-cE 7e51-a1-m1-cF_7e51-a1-m1-cG MPIIEQVRAREILDSRGNPTVEVEVALIDGTFARAAVPSGAATGEHEAVELRDGGDRYGGKGVQKAVQAVLDEIGPAVIGLNADDQRLVDQALVDLDGTPDKSRLGGNAILGVSLAVAKAAADSAELPLFRYVGGPNAHILPVPMMNILNGGAHADTAVDIQEFMVAPIGAPSFVEALRWGAEVYHALKSVLKKEGLSTGLGDEGGFAPDVAGTTAALDLISRAIESAGLRPGADVALALDAAATEFFTDGTGYVFEGTTRTADQMTEFYAGLLGAYPLVSIEDPLSEDDWDGWAALTASIGDRVQIVGDDIFVTNPERLEEGIERGVANALLVKVNQIGTLTETLDAVTLAHHGGYRTMISHRSGETEDTMIADLAVAIGSGQIKTGAPARSERVAKYNQLLRIEEALGDAARYAGDLAFPR MPIIEQVRAREILDSRGNPTVEVEVALIDGTFARAAVPSGAATGEHEAVELRDGGDRYGGKGVQKAVQAVLDEIGPAVIGLNADDQRLVDQALVDLDGTPDKSRLGGNAILGVSLAVAKAAADSAELPLFRYVGGPNAHILPVPMMNILNGGAHADTAVDIQEFMVAPIGAPSFVEALRWGAEVYHALKSVLKKEGLSTGLGDEGGFAPDVAGTTAALDLISRAIESAGLRPGADVALALDAAATEFFTDGTGYVFEGTTRTADQMTEFYAGLLGAYPLVSIEDPLSEDDWDGWAALTASIGDRVQIVGDDIFVTNPERLEEGIERGVANALLVKVNQIGTLTETLDAVTLAHHGGYRTMISHRSGETEDTMIADLAVAIGSGQIKTGAPARSERVAKYNQLLRIEEALGDAARYAGDLAFPR 6l7m-a1-m1-cB_6l7m-a1-m1-cD Characterization and structural analysis of a thermostable zearalenone-degrading enzyme A0A4Q4UBE4 A0A4Q4UBE4 2.4 X-RAY DIFFRACTION 61 1.0 2211645 (Monosporascus sp. MG133) 2211645 (Monosporascus sp. MG133) 267 267 6l7m-a1-m1-cA_6l7m-a1-m1-cC MRTRSTLTDKNGITWYYEQEGSGPHVVLIPDGLGECHMMDKPMSMIAGMGFTCTTFDMPGFSRSWDAPPETYQDVTAQKLASYVISILDELHIDYATFWGCSSGGATVLALAADYPERMRNGLPHEVPTAAGPHFGQLLKLAEMEDEAIVKMLGEEMPKLGFGHDFTAWHELGEEAHARMRKNYPRWARGYPHTLPLSSPTGKEDLIKRPLDWTVGGDTPTRMFFDNIVTASKAGIPIATLPGMHFPYVSHPEVLVKHIVDTTRKYL MRTRSTLTDKNGITWYYEQEGSGPHVVLIPDGLGECHMMDKPMSMIAGMGFTCTTFDMPGFSRSWDAPPETYQDVTAQKLASYVISILDELHIDYATFWGCSSGGATVLALAADYPERMRNGLPHEVPTAAGPHFGQLLKLAEMEDEAIVKMLGEEMPKLGFGHDFTAWHELGEEAHARMRKNYPRWARGYPHTLPLSSPTGKEDLIKRPLDWTVGGDTPTRMFFDNIVTASKAGIPIATLPGMHFPYVSHPEVLVKHIVDTTRKYL 6l7m-a1-m1-cC_6l7m-a1-m1-cD Characterization and structural analysis of a thermostable zearalenone-degrading enzyme A0A4Q4UBE4 A0A4Q4UBE4 2.4 X-RAY DIFFRACTION 50 1.0 2211645 (Monosporascus sp. MG133) 2211645 (Monosporascus sp. MG133) 267 267 6l7m-a1-m1-cA_6l7m-a1-m1-cB MRTRSTLTDKNGITWYYEQEGSGPHVVLIPDGLGECHMMDKPMSMIAGMGFTCTTFDMPGFSRSWDAPPETYQDVTAQKLASYVISILDELHIDYATFWGCSSGGATVLALAADYPERMRNGLPHEVPTAAGPHFGQLLKLAEMEDEAIVKMLGEEMPKLGFGHDFTAWHELGEEAHARMRKNYPRWARGYPHTLPLSSPTGKEDLIKRPLDWTVGGDTPTRMFFDNIVTASKAGIPIATLPGMHFPYVSHPEVLVKHIVDTTRKYL MRTRSTLTDKNGITWYYEQEGSGPHVVLIPDGLGECHMMDKPMSMIAGMGFTCTTFDMPGFSRSWDAPPETYQDVTAQKLASYVISILDELHIDYATFWGCSSGGATVLALAADYPERMRNGLPHEVPTAAGPHFGQLLKLAEMEDEAIVKMLGEEMPKLGFGHDFTAWHELGEEAHARMRKNYPRWARGYPHTLPLSSPTGKEDLIKRPLDWTVGGDTPTRMFFDNIVTASKAGIPIATLPGMHFPYVSHPEVLVKHIVDTTRKYL 6l85-a1-m1-cA_6l85-a1-m1-cB The sodium-dependent phosphate transporter Q9WY99 Q9WY99 2.302 X-RAY DIFFRACTION 62 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 400 401 MTILIIAGILGFIMAFSIGANDVANSMATAVGARAITVRQAALIAMFLEFLGAVMFGSHVSQTIVKGIVEVEKVQPVELMYGALSALIAASFWILIATNWGYPVSTTHSIVGGMMGFGLVAVGINGVNWKTFLFIVLSWVVSPVLGGLISFVMFKLISLSVFHTKNPKKSSTVAIPFFISLAIFTMISLFVKKTLKQPLSESFLLGIAFSLVTFFVVHFAVRKLINEKKDVYDAVENVFKRAQILTSCYVSFSHGANDVANAAGPVAAVMIVASTGVVPKTVEIPFLALLLGGIGISLGVFFLGQKVMETVGEKITTLTNSRGFTVDFSTATTVLLASSLGLPISTTHVVVGAVTGVGFARGLEMVNVGVLKNIVISWLLIVPTVAATSAAVYWVLKLIL MTILIIAGILGFIMAFSIGANDVANSMATAVGARAITVRQAALIAMFLEFLGAVMFGSHVSQTIVKGIVEVEKVQPVELMYGALSALIAASFWILIATNWGYPVSTTHSIVGGMMGFGLVAVGINGVNWKTFLFIVLSWVVSPVLGGLISFVMFKLISLSVFHTKNPKKSSTVAIPFFISLAIFTMISLFVKKTLKQPLSESFLLGIAFSLVTFFVVHFAVRKLINEKKDVYDAVENVFKRAQILTSCYVSFSHGANDVANAAGPVAAVMIVASTGVVPKTVEIPFLALLLGGIGISLGVFFLGQKVMETVGEKITTLTNSRGFTVDFSTATTVLLASSLGLPISTTHVVVGAVTGVGFARGLEMVNVGVLKNIVISWLLIVPTVAATSAAVYWVLKLILK 6l86-a2-m1-cB_6l86-a2-m2-cD The structure of SfaA A0A2H4T920 A0A2H4T920 2.23 X-RAY DIFFRACTION 65 0.99 66431 (Streptomyces thioluteus) 66431 (Streptomyces thioluteus) 287 289 6l86-a1-m3-cC_6l86-a1-m1-cA MEIKASFGASVEGFDHTTATAEDIKAIKETIYTKKIAVLKGQDLTPAQYLELGKMFGRPVVYYEPMYKHPEFEEIFVSSNVPGKQIGVPKTGKFWHADYQFMPDPFGLTLIYPQVIPQKNRGTYYIDMGKAYERLPQELKDEVAGLYGVHSVRKYFKIRPHDVYRPISEILTEIEEHTPPVRQPLTFKHPLTGETVLYISEGFTVGLEDADGKPVESDLLQRLFEATGQLDDTFTHENIHLFHPEQGDLLIWDNRSLIHRALHTTTPEPVVSFRVTVHDEHKLYDGM MEIKAQGSSFGASVEGFDHTTATAEDIKAIKETIYTKKIAVLKGQDLTPAQYLELGKMFGRPVVYYEPMYKHPEFEEIFVSSNVPQIGVPKTGKFWHADYQFMPDPFGLTLIYPQVIPQKNRGTYYIDMGKAYERLPQELKDEVAGLYGVHSVRKYFKIRPHDVYRPISEILTEIEEHTPPVRQPLTFKHPLTGETVLYISEGFTVGLEDADGKPVESDLLQRLFEATGQLDDTFTHENIHLFHPEQGDLLIWDNRSLIHRALHTTTPEPVVSFRVTVHDHKLYDGMPA 6l88-a2-m1-cB_6l88-a2-m1-cC Crystal structure of mineralocorticoid receptor ligand binding domain in complex with esaxerenone P08235 P08235 3 X-RAY DIFFRACTION 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 183 188 6l88-a1-m1-cD_6l88-a1-m1-cA ENLLSTLNRLAGKQMIQVVKWAKVLPGFKNLPLEDQITLIQYSWMSLSSFALSWRSYKHTNSQYELCQGMHQISLQFVRLQLTFEEYTIMKVLLLLSTIPKDGLKSQAAFEEMRTNYIKELRKMVTKSPNQSWQRFYQLTKLLDSMHDLVSDLLEFCFPAMLVEIISDQLPKVGNAKPLYFHR AENLLSTLNRLAGKQMIQVVKWAKVLPGFKNLPLEDQITLIQYSWMSLSSFALSWRSYKHTNSQFLMYELCQGMHQISLQFVRLQLTFEEYTIMKVLLLLSTIPKDGLKSQAAFEEMRTNYIKELRKMVTKSPNGQSWQRFYQLTKLLDSMHDLVSDLLEFCFPAMLVEIISDQLPKVGNAKPLYFHR 6l8a-a2-m1-cB_6l8a-a2-m1-cD Tetrathionate hydrolase from Acidithiobacillus ferrooxidans B7J3C9 B7J3C9 1.95005 X-RAY DIFFRACTION 165 0.998 920 (Acidithiobacillus ferrooxidans) 920 (Acidithiobacillus ferrooxidans) 456 459 6l8a-a1-m1-cC_6l8a-a1-m1-cA 6l8a-a3-m1-cE_6l8a-a3-m1-cF 7cqy-a1-m1-cC_7cqy-a1-m1-cA 7cqy-a2-m1-cB_7cqy-a2-m1-cD 7cqy-a3-m1-cF_7cqy-a3-m1-cE VAVPMDSTGPYRTVSHPENAPSGVDAGVGPSEWTHAYANPAHNAAFPVPDDAPEWIRNGVSWLFPEARAWPLANPPFGSKTYGAAEASVTQTQFYGNALGPSVVDGVVYAESDDMFAYAVNAKTGKLIWRASPVGNNLMGNPLVIGNTVYLSAGSVAFNFANVLRYAHNPSASARGLNVSFNGIYALNRSNGKLLWYFATPGETMATPAYDNNTLFIADGAGNAFGINATTGKQVWKTHVGGMDNMSSVTAYRHNIYFAMAIKPYLYCLNESNGHIVWKGTIPGASNTGIGDVSPAAADGVVVLDATTMFSNVIRAFDAKTGAVLWTRNMGSGGKIPAFKGGVPMIHNNIVYVGNPVASTYQAYELKTGKLLWTWHVPTKVAAGAGRSAPTYYKGLLYITTGQYIFVVNPATGKELHQHHIGGQFGIESPVIVGGTVYLTNSWDWIMAIPLKTISH VAVPMDSTGPYRTVSHPENAPSGVDAGVGPSEWTHAYANPAHNAAFPVPDDAPEWIRNGVSWLFPEARAWPLANPPFGSKTYGAAEASVTQTQFYGNALGPSVVDGVVYAESDDMFAYAVNAKTGKLIWRASPVGNNLMGNPLVIGNTVYLSAGSVAFNFANVLRYAHNPSASARGLNVSFNGIYALNRSNGKLLWYFATPGETMATPAYDNNTLFIADGAGNAFGINATTGKQVWKTHVGGMDNMSSVTAYRHNIYFAMAIKPYLYCLNESNGHIVWKGTIPGASNTGIGDVSPAAADGVVVLDATTKPFSNVIRAFDAKTGAVLWTRNMGSGGKIPAFKGGVPMIHNNIVYVGNPVASTYQAYELKTGKLLWTWHVPTKVAAGAGRSAPTYYKGLLYITTGQYIFVVNPATGKELHQHHIGGQFGIESPVIVGGTVYLTNSWDWIMAIPLKTISHGS 6l8d-a1-m1-cE_6l8d-a1-m1-cF Hexameric structure of the ATPase subunit of magnesium chelatase P51634 P51634 2.91 X-RAY DIFFRACTION 42 0.989 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 266 267 6l8d-a1-m1-cC_6l8d-a1-m1-cB 6l8d-a1-m1-cD_6l8d-a1-m1-cE VVFPFTAIVGQDEMKLALLLNVIDPKIGGVMIMGDRGTGKSTTIRALADLLPEIKVTMVDLPLGATLAKANRGILYVDEVNLLDDHLVDVLLDSAAGGWNRFVLVGSGNPEEGELRPQLLDRFGMHAEIRTVREPELRVKIVEQRTEFDQNPHPFCDQYQTEQEALQAKIVNAQNLLPQVTIDYDYRVKVSEVCAELDVDGLRGDIVTNRAAKALAAFEGRTEVTVDDISRVIVLCLRHRLRKDPLESIDSGSKVEKVFKRVFGVV VVFPFTAIVGQDEMKLALLLNVIDPKIGGVMIMGDRGTGKSTTIRALADLLPEIKKVTMVDLPLGATELLAKANRGILYVDEVNLLDDHLVDVLLDSAAGRFVLVGSGNPEEGELRPQLLDRFGMHAEIRTVREPELRVKIVEQRTEFDQNPHPFCDQYQTEQEALQAKIVNAQNLLPQVTIDYDYRVKVSEVCAELDVDGLRGDIVTNRAAKALAAFEGRTEVTVDDISRVIVLCLRHRLRKDPLESIDSGSKVEKVFKRVFGVVD 6l8e-a1-m1-cB_6l8e-a1-m1-cA Crystal structure of heterohexameric YoeB-YefM complex bound to 26bp-DNA Q2G285 Q2G285 2.35 X-RAY DIFFRACTION 81 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 54 83 6l8e-a1-m1-cD_6l8e-a1-m1-cC 6l8e-a2-m1-cJ_6l8e-a2-m1-cI 6l8e-a2-m1-cL_6l8e-a2-m1-cK 6l8f-a1-m1-cB_6l8f-a1-m1-cA 6l8f-a2-m1-cE_6l8f-a2-m1-cF 7bwf-a1-m1-cD_7bwf-a1-m1-cB MIIKNYSYARQNLKALMTKVNDDSDMVTVTSTDDKNVVIMSESDYNSMMETLYL MIIKNYSYARQNLKALMTKVNDDSDMVTVTSTDDKNVVIMSESDYNSMMETLYLQQNPNNAEHLAQSIADLERGKTITKDIDV 6l8e-a2-m1-cL_6l8e-a2-m1-cJ Crystal structure of heterohexameric YoeB-YefM complex bound to 26bp-DNA Q2G285 Q2G285 2.35 X-RAY DIFFRACTION 11 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 57 59 6l8e-a1-m1-cB_6l8e-a1-m1-cD MIIKNYSYARQNLKALMTKVNDDSDMVTVTSTDDKNVVIMSESDYNSMMETLYLQQN MIIKNYSYARQNLKALMTKVNDDSDMVTVTSTDDKNVVIMSESDYNSMMETLYLQQNPN 6l8p-a1-m1-cA_6l8p-a1-m1-cC Crystal structure of RidA from Antarctic bacterium Psychrobacter sp. PAMC 21119 A0A2N5LLK3 A0A2N5LLK3 1.601 X-RAY DIFFRACTION 75 1.0 2058322 (Psychrobacter sp. MES7-P7E) 2058322 (Psychrobacter sp. MES7-P7E) 124 124 6l8p-a1-m1-cB_6l8p-a1-m1-cA 6l8p-a1-m1-cB_6l8p-a1-m1-cC TRQTIQTDKAPAAVGTYSQAVKVGNTVYISGQLGFDPETMELREGFKAQAEQVFENIKAICEAAGGSLNDVVKFNVSLTDLSDFAVLNEVFVANLSEPYPARAAVQVAALPKGGVVEIESILYI TRQTIQTDKAPAAVGTYSQAVKVGNTVYISGQLGFDPETMELREGFKAQAEQVFENIKAICEAAGGSLNDVVKFNVSLTDLSDFAVLNEVFVANLSEPYPARAAVQVAALPKGGVVEIESILYI 6l8q-a1-m1-cA_6l8q-a1-m1-cC Complex structure of bat CD26 and MERS-RBD L5LQ33 L5LQ33 3.1 X-RAY DIFFRACTION 21 1.0 225400 (Myotis davidii) 225400 (Myotis davidii) 724 724 RRTYTLADYLKSTIRMRNYNLRWISDHEYLYKQENNVLLFNADHGNSSTFLENSTFDQFGHSISDYSVSPDRQFVLFEYNYVKKWRHSYTASYDIYDLNKRQLITAERIPNDTQLIRWSPEGHKLAYVWNNDVYVKNDPYSPSQRVTHDGREDAISNGITDWVYEEEIFSTHSALWWSPNGTFLAYAKFNDTDVPRIEYSVYLDESLQYPKTIHIPYPKAGAKNPTVKLYVVNTDNLTDLEPAQIVAPASVLTGDHYLCDVTWATKERISLQWLRRIQNYSIIDICDYNESTPKWNCLVSRQHIETSATGWVGRFKPAEPHFTSDGNSFYKIMSNSEGYKHICLFQIDKPDCTFITKGAWEVIGIEALTNDYLYFISNEYKGMPGGRNLYKIQLNNYANVTCLSCELDPERCQYYSASFSKGAKYYQLRCSGPQIPRYSLHSSSNDKELRLLENNTALYETLQNIQMPRKTLDFLHLNGTKFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADATFKLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAAKQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSHVFKCGIAVAPVSAWEFYDSVYTERYMGLPTPEDNLDHYKNSTVMSRAENFKLVEYLLIHGTADDNVHFQQSAQITRALVDAGVDFQAMWYTDEDHGIATSTAHQHIYTHMTHFIKQCFSLP RRTYTLADYLKSTIRMRNYNLRWISDHEYLYKQENNVLLFNADHGNSSTFLENSTFDQFGHSISDYSVSPDRQFVLFEYNYVKKWRHSYTASYDIYDLNKRQLITAERIPNDTQLIRWSPEGHKLAYVWNNDVYVKNDPYSPSQRVTHDGREDAISNGITDWVYEEEIFSTHSALWWSPNGTFLAYAKFNDTDVPRIEYSVYLDESLQYPKTIHIPYPKAGAKNPTVKLYVVNTDNLTDLEPAQIVAPASVLTGDHYLCDVTWATKERISLQWLRRIQNYSIIDICDYNESTPKWNCLVSRQHIETSATGWVGRFKPAEPHFTSDGNSFYKIMSNSEGYKHICLFQIDKPDCTFITKGAWEVIGIEALTNDYLYFISNEYKGMPGGRNLYKIQLNNYANVTCLSCELDPERCQYYSASFSKGAKYYQLRCSGPQIPRYSLHSSSNDKELRLLENNTALYETLQNIQMPRKTLDFLHLNGTKFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADATFKLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAAKQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSHVFKCGIAVAPVSAWEFYDSVYTERYMGLPTPEDNLDHYKNSTVMSRAENFKLVEYLLIHGTADDNVHFQQSAQITRALVDAGVDFQAMWYTDEDHGIATSTAHQHIYTHMTHFIKQCFSLP 6l8q-a1-m1-cC_6l8q-a1-m3-cG Complex structure of bat CD26 and MERS-RBD L5LQ33 L5LQ33 3.1 X-RAY DIFFRACTION 115 1.0 225400 (Myotis davidii) 225400 (Myotis davidii) 724 724 6l8q-a1-m1-cA_6l8q-a1-m2-cE RRTYTLADYLKSTIRMRNYNLRWISDHEYLYKQENNVLLFNADHGNSSTFLENSTFDQFGHSISDYSVSPDRQFVLFEYNYVKKWRHSYTASYDIYDLNKRQLITAERIPNDTQLIRWSPEGHKLAYVWNNDVYVKNDPYSPSQRVTHDGREDAISNGITDWVYEEEIFSTHSALWWSPNGTFLAYAKFNDTDVPRIEYSVYLDESLQYPKTIHIPYPKAGAKNPTVKLYVVNTDNLTDLEPAQIVAPASVLTGDHYLCDVTWATKERISLQWLRRIQNYSIIDICDYNESTPKWNCLVSRQHIETSATGWVGRFKPAEPHFTSDGNSFYKIMSNSEGYKHICLFQIDKPDCTFITKGAWEVIGIEALTNDYLYFISNEYKGMPGGRNLYKIQLNNYANVTCLSCELDPERCQYYSASFSKGAKYYQLRCSGPQIPRYSLHSSSNDKELRLLENNTALYETLQNIQMPRKTLDFLHLNGTKFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADATFKLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAAKQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSHVFKCGIAVAPVSAWEFYDSVYTERYMGLPTPEDNLDHYKNSTVMSRAENFKLVEYLLIHGTADDNVHFQQSAQITRALVDAGVDFQAMWYTDEDHGIATSTAHQHIYTHMTHFIKQCFSLP RRTYTLADYLKSTIRMRNYNLRWISDHEYLYKQENNVLLFNADHGNSSTFLENSTFDQFGHSISDYSVSPDRQFVLFEYNYVKKWRHSYTASYDIYDLNKRQLITAERIPNDTQLIRWSPEGHKLAYVWNNDVYVKNDPYSPSQRVTHDGREDAISNGITDWVYEEEIFSTHSALWWSPNGTFLAYAKFNDTDVPRIEYSVYLDESLQYPKTIHIPYPKAGAKNPTVKLYVVNTDNLTDLEPAQIVAPASVLTGDHYLCDVTWATKERISLQWLRRIQNYSIIDICDYNESTPKWNCLVSRQHIETSATGWVGRFKPAEPHFTSDGNSFYKIMSNSEGYKHICLFQIDKPDCTFITKGAWEVIGIEALTNDYLYFISNEYKGMPGGRNLYKIQLNNYANVTCLSCELDPERCQYYSASFSKGAKYYQLRCSGPQIPRYSLHSSSNDKELRLLENNTALYETLQNIQMPRKTLDFLHLNGTKFWYQMILPPHFDKSKKYPLLIDVYAGPCSQKADATFKLSWATYLASTENIIVASFDGRGSGYQGDKIMHAINRRLGTFEVEDQIEAAKQFSKMGFVDDKRIAIWGWSYGGYVTSMVLGAGSHVFKCGIAVAPVSAWEFYDSVYTERYMGLPTPEDNLDHYKNSTVMSRAENFKLVEYLLIHGTADDNVHFQQSAQITRALVDAGVDFQAMWYTDEDHGIATSTAHQHIYTHMTHFIKQCFSLP 6l96-a1-m1-cB_6l96-a1-m1-cA Structure of PPARalpha-LBD/pemafibrate/SRC1 peptide Q07869 Q07869 3.2 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 255 LKSLAKRIYEAYLKNFNMNKVKARVILSGKASNNPPFVIHDMETLCMAEKTLVEAEVRIFHCCQCTSVETVTELTEFAKAIPGFANLDLNDQVTLLKYGVYEAIFAMLSSVMNKDGMLVAYGNGFITREFLKSLRKPFCDIMEPKFDFAMKFNALELDDSDISLFVAAIICCGDRPGLLNVGHIEKMQEGIVHVLRLHLQSNHPDDIFLFPKLLQKMADLRQLVTEHAQLVQIIKKTESDAALHPLLQEIYRDM DLKSLAKRIYEAYLKNFNMNKVKARVILSGKASNNPPFVIHDMETLCMAEKTLVEAEVRIFHCCQCTSVETVTELTEFAKAIPGFANLDLNDQVTLLKYGVYEAIFAMLSSVMNKDGMLVAYGNGFITREFLKSLRKPFCDIMEPKFDFAMKFNALELDDSDISLFVAAIICCGDRPGLLNVGHIEKMQEGIVHVLRLHLQSNHPDDIFLFPKLLQKMADLRQLVTEHAQLVQIIKKTESDAALHPLLQEIYRDM 6l97-a1-m1-cA_6l97-a1-m1-cB Complex of DNA polymerase IV and L-DNA duplex Q97W02 Q97W02 2.362 X-RAY DIFFRACTION 51 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 335 337 MIVLFVDFDYFYAQVEEVLNPSLKGKPVVVCVFSGAVATANYEARKFGVKAGIPIVEAKKILPNAVYLPMRKEVYQQVSSRIMNLLREYSEKIEIASIDEAYLDISDKVRDYREAYNLGLEIKNKILEKEKITVTVGISKNKVFAKIAADMAKPNGIKVIDDEEVKRLIRELDIADVPGIGNITAEKLKKLGINKLVDTLSIEFDKLKGMIGEAKAKYLISLARDEYNEPIRTRVRKSIGRIVTMKRNSRNLEEIKPYLFRAIEESYYKLDKRIPKAIHVVAVTEDLDIVSRGRTFPHGISKETAYSESVKLLQKILEEDERKIRRIGVRFSKFI MIVLFVDFDYFYAQVEEVLNPSLKGKPVVVCVFSDSGAVATANYEARKFGVKAGIPIVEAKKILPNAVYLPMRKEVYQQVSSRIMNLLREYSEKIEIASIDEAYLDISDKVRDYREAYNLGLEIKNKILEKEKITVTVGISKNKVFAKIAADMAKPNGIKVIDDEEVKRLIRELDIADVPGIGNITAEKLKKLGINKLVDTLSIEFDKLKGMIGEAKAKYLISLARDEYNEPIRTRVRKSIGRIVTMKRNSRNLEEIKPYLFRAIEESYYKLDKRIPKAIHVVAVTEDLDIVSRGRTFPHGISKETAYSESVKLLQKILEEDERKIRRIGVRFSKFI 6l98-a1-m1-cA_6l98-a1-m1-cB Crystalline cast nephropathy-causing Bence-Jones protein AK: An entire immunoglobulin lambda light chain dimer 1.77 X-RAY DIFFRACTION 114 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 213 YVLTQPPSVSVAPGKTARIACEGNNIGSKSVHWYQQKPGQAPVLVVYDDSDRPSGIPDRFSGSNSGNTAALTISRVEAGDEADYFCQVWDSNSNHQVFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPT YVLTQPPSVSVAPGKTARIACEGNNIGSKSVHWYQQKPGQAPVLVVYDDSDRPSGIPDRFSGSNSGNTAALTISRVEAGDEADYFCQVWDSNSNHQVFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPTECS 6l9i-a1-m1-cD_6l9i-a1-m1-cF Crystal Structure of Lactobacillus farciminis Oxalate Decarboxylase Formate Complex A0A0H4LHD1 A0A0H4LHD1 2.79 X-RAY DIFFRACTION 147 1.0 1612 (Companilactobacillus farciminis) 1612 (Companilactobacillus farciminis) 338 338 6l9i-a1-m1-cA_6l9i-a1-m1-cD 6l9i-a1-m1-cA_6l9i-a1-m1-cF 6l9i-a1-m1-cB_6l9i-a1-m1-cC 6l9i-a1-m1-cB_6l9i-a1-m1-cE 6l9i-a1-m1-cC_6l9i-a1-m1-cE VPPITDHGTVSNLRFSFSDAHMRIEEGGWTREVTNRELPASHDLAGVDMCLKPGAYRELHWHKEAEWAFMIAGNARVTALDAEGRSFIDDINAGDLWNFEAGIPHSIQALDQGCEFLLVFSEPDFSENNTFLLTDWLAHTPKDIIAANFKVDESVLANLPGKEKYIFNGEVPGPISEVKKNNPNGDVPSPFTFHMNDLKPHEFEAGKVWIIDSKVFPVAQTISAAIVEIQPGGMRELHWHPKSEEWDYFVQGHAKVGVFNSASLARTFNFQAGDVGVIPIVAGHYIQNIGDEPLIFLEVFKNPIYSDISLNKWLATSPTQMVSDHLNISPETVEQFPK VPPITDHGTVSNLRFSFSDAHMRIEEGGWTREVTNRELPASHDLAGVDMCLKPGAYRELHWHKEAEWAFMIAGNARVTALDAEGRSFIDDINAGDLWNFEAGIPHSIQALDQGCEFLLVFSEPDFSENNTFLLTDWLAHTPKDIIAANFKVDESVLANLPGKEKYIFNGEVPGPISEVKKNNPNGDVPSPFTFHMNDLKPHEFEAGKVWIIDSKVFPVAQTISAAIVEIQPGGMRELHWHPKSEEWDYFVQGHAKVGVFNSASLARTFNFQAGDVGVIPIVAGHYIQNIGDEPLIFLEVFKNPIYSDISLNKWLATSPTQMVSDHLNISPETVEQFPK 6l9i-a1-m1-cE_6l9i-a1-m1-cF Crystal Structure of Lactobacillus farciminis Oxalate Decarboxylase Formate Complex A0A0H4LHD1 A0A0H4LHD1 2.79 X-RAY DIFFRACTION 55 1.0 1612 (Companilactobacillus farciminis) 1612 (Companilactobacillus farciminis) 338 338 6l9i-a1-m1-cA_6l9i-a1-m1-cB 6l9i-a1-m1-cC_6l9i-a1-m1-cD VPPITDHGTVSNLRFSFSDAHMRIEEGGWTREVTNRELPASHDLAGVDMCLKPGAYRELHWHKEAEWAFMIAGNARVTALDAEGRSFIDDINAGDLWNFEAGIPHSIQALDQGCEFLLVFSEPDFSENNTFLLTDWLAHTPKDIIAANFKVDESVLANLPGKEKYIFNGEVPGPISEVKKNNPNGDVPSPFTFHMNDLKPHEFEAGKVWIIDSKVFPVAQTISAAIVEIQPGGMRELHWHPKSEEWDYFVQGHAKVGVFNSASLARTFNFQAGDVGVIPIVAGHYIQNIGDEPLIFLEVFKNPIYSDISLNKWLATSPTQMVSDHLNISPETVEQFPK VPPITDHGTVSNLRFSFSDAHMRIEEGGWTREVTNRELPASHDLAGVDMCLKPGAYRELHWHKEAEWAFMIAGNARVTALDAEGRSFIDDINAGDLWNFEAGIPHSIQALDQGCEFLLVFSEPDFSENNTFLLTDWLAHTPKDIIAANFKVDESVLANLPGKEKYIFNGEVPGPISEVKKNNPNGDVPSPFTFHMNDLKPHEFEAGKVWIIDSKVFPVAQTISAAIVEIQPGGMRELHWHPKSEEWDYFVQGHAKVGVFNSASLARTFNFQAGDVGVIPIVAGHYIQNIGDEPLIFLEVFKNPIYSDISLNKWLATSPTQMVSDHLNISPETVEQFPK 6l9u-a1-m1-cA_6l9u-a1-m2-cA Crystal structure of mouse TIFA Q793I8 Q793I8 2.601 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 140 140 6l9v-a1-m1-cB_6l9v-a1-m1-cA 6l9v-a2-m1-cC_6l9v-a2-m1-cD 6l9w-a1-m1-cA_6l9w-a1-m1-cB 6l9w-a2-m1-cC_6l9w-a2-m1-cD 6l9w-a3-m1-cF_6l9w-a3-m1-cE EETVTCLQMTIYHPGQQSGIFKSIRFCSKEKFPSIEVVKFGRNSNMCQYTFQDKQVSRIQFVLQPFKQFNSSVLSFEIKNMSKKTSLMVDNQELGYLNKMDLPYKCMLRFGEYQFLLQKEDGESVESFETQFIMSSRPLL EETVTCLQMTIYHPGQQSGIFKSIRFCSKEKFPSIEVVKFGRNSNMCQYTFQDKQVSRIQFVLQPFKQFNSSVLSFEIKNMSKKTSLMVDNQELGYLNKMDLPYKCMLRFGEYQFLLQKEDGESVESFETQFIMSSRPLL 6lad-a8-m1-cF_6lad-a8-m1-cE Crystal structure of Amuc_1100 from Akkermansia muciniphila B2UR41 B2UR41 2.7 X-RAY DIFFRACTION 51 0.995 349741 (Akkermansia muciniphila ATCC BAA-835) 349741 (Akkermansia muciniphila ATCC BAA-835) 182 186 6lad-a7-m1-cB_6lad-a7-m1-cA 6lad-a7-m1-cB_6lad-a7-m1-cC 6lad-a7-m1-cC_6lad-a7-m1-cA 6lad-a8-m1-cE_6lad-a8-m1-cD 6lad-a8-m1-cF_6lad-a8-m1-cD SNEELEKELNRYAKAVGSLETAYKPFLASSALVPTTPTAFQNELKTFRDSLISSCKKKNILITDTSSWLGFQVYSTQAPSVQAASTLGFELKAINSLVNKLAECGLSKFIKVYRPQLPIETPAAPWTPMPLEIAFQGDRESVLKAMNAITGMQDYLFTVNSIRIREQVFVQVSLNLVHFNQP SSNEELEKELNRYAKAVGSLETAYKPFLASSALVPTTPTAFQNELKTFRDSLISSCKKKNILITDTSSWLGFQVYSTQAPSVQAASTLGFELKAINSLVNKLAECGLSKFIKVYRPQLPIETPQAPWTPMPLEIAFQGDRESVLKAMNAITGMQDYLFTVNSIRIRNEQVFVQVSLNLVHFNQPKA 6laf-a1-m1-cA_6laf-a1-m1-cB Crystal structure of the core domain of Amuc_1100 from Akkermansia muciniphila B2UR41 B2UR41 3.001 X-RAY DIFFRACTION 62 0.994 349741 (Akkermansia muciniphila ATCC BAA-835) 349741 (Akkermansia muciniphila ATCC BAA-835) 171 187 SLETAYKPFLASSALVPTTPTAFQNELKTFRDSLISSCKKKNILITDTSSWLGFQVYSTQAPSVQAASTLGFELKAINSLVNKLAECGLSKFIKVYRPQLPIETPAQAPWTPMPLEIAFQGDRESVLKAMNAITGMQDYLFTVNSIRIRNERMMPEQVFVQVSLNLVHFNQ SLETAYKPFLASSALVPTTPTAFQNELKTFRDSLISSCKKKNILITDTSSWLGFQVYSTQAPSVQAASTLGFELKAINSLVNKLAECGLSKFIKVYRPQLPIETPQAPWTPMPLEIAFQGDRESVLKAMNAITGMQDYLFTVNSIRIRNERMMPPPIAIQQVIKPYMGKEQVFVQVSLNLVHFNQPK 6lai-a1-m1-cA_6lai-a1-m1-cB The structural basis of the beta-carbonic anhydrase CafD (E54A mutant) of the filamentous fungus Aspergillus fumigatus A4DA31 A4DA31 1.6 X-RAY DIFFRACTION 96 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 172 172 6jqe-a1-m1-cA_6jqe-a1-m1-cB 6lac-a1-m1-cA_6lac-a1-m1-cB YQLQPLSLDSVPWRRQPGQQVLWIGCSDSGCDELESSGLPADEIFAYRSLGNMMVDDLSCKATLGYALDSLKIRNIVICGHYGCHIASGEVNAGLQKPWSSVLDTLRSTHRRTLDSLTGTERDRALVELNVLEQVHSLRQSAEAAEALQKQQLNIWGMVYDKATKRGYQLIE YQLQPLSLDSVPWRRQPGQQVLWIGCSDSGCDELESSGLPADEIFAYRSLGNMMVDDLSCKATLGYALDSLKIRNIVICGHYGCHIASGEVNAGLQKPWSSVLDTLRSTHRRTLDSLTGTERDRALVELNVLEQVHSLRQSAEAAEALQKQQLNIWGMVYDKATKRGYQLIE 6lao-a1-m7-cA_6lao-a1-m9-cA Cryo-EM structure of echovirus 11 complexed with its attaching receptor CD55 at pH 5.5 Q2LJ73 Q2LJ73 2.64 ELECTRON MICROSCOPY 56 1.0 12078 (Echovirus E11) 12078 (Echovirus E11) 285 285 6lao-a1-m10-cA_6lao-a1-m7-cA 6lao-a1-m10-cA_6lao-a1-m8-cA 6lao-a1-m11-cA_6lao-a1-m13-cA 6lao-a1-m11-cA_6lao-a1-m14-cA 6lao-a1-m12-cA_6lao-a1-m14-cA 6lao-a1-m12-cA_6lao-a1-m15-cA 6lao-a1-m13-cA_6lao-a1-m15-cA 6lao-a1-m16-cA_6lao-a1-m18-cA 6lao-a1-m16-cA_6lao-a1-m19-cA 6lao-a1-m17-cA_6lao-a1-m19-cA 6lao-a1-m17-cA_6lao-a1-m20-cA 6lao-a1-m18-cA_6lao-a1-m20-cA 6lao-a1-m1-cA_6lao-a1-m3-cA 6lao-a1-m1-cA_6lao-a1-m4-cA 6lao-a1-m21-cA_6lao-a1-m23-cA 6lao-a1-m21-cA_6lao-a1-m24-cA 6lao-a1-m22-cA_6lao-a1-m24-cA 6lao-a1-m22-cA_6lao-a1-m25-cA 6lao-a1-m23-cA_6lao-a1-m25-cA 6lao-a1-m26-cA_6lao-a1-m28-cA 6lao-a1-m26-cA_6lao-a1-m29-cA 6lao-a1-m27-cA_6lao-a1-m29-cA 6lao-a1-m27-cA_6lao-a1-m30-cA 6lao-a1-m28-cA_6lao-a1-m30-cA 6lao-a1-m2-cA_6lao-a1-m4-cA 6lao-a1-m2-cA_6lao-a1-m5-cA 6lao-a1-m31-cA_6lao-a1-m33-cA 6lao-a1-m31-cA_6lao-a1-m34-cA 6lao-a1-m32-cA_6lao-a1-m34-cA 6lao-a1-m32-cA_6lao-a1-m35-cA 6lao-a1-m33-cA_6lao-a1-m35-cA 6lao-a1-m36-cA_6lao-a1-m38-cA 6lao-a1-m36-cA_6lao-a1-m39-cA 6lao-a1-m37-cA_6lao-a1-m39-cA 6lao-a1-m37-cA_6lao-a1-m40-cA 6lao-a1-m38-cA_6lao-a1-m40-cA 6lao-a1-m3-cA_6lao-a1-m5-cA 6lao-a1-m41-cA_6lao-a1-m43-cA 6lao-a1-m41-cA_6lao-a1-m44-cA 6lao-a1-m42-cA_6lao-a1-m44-cA 6lao-a1-m42-cA_6lao-a1-m45-cA 6lao-a1-m43-cA_6lao-a1-m45-cA 6lao-a1-m46-cA_6lao-a1-m48-cA 6lao-a1-m46-cA_6lao-a1-m49-cA 6lao-a1-m47-cA_6lao-a1-m49-cA 6lao-a1-m47-cA_6lao-a1-m50-cA 6lao-a1-m48-cA_6lao-a1-m50-cA 6lao-a1-m51-cA_6lao-a1-m53-cA 6lao-a1-m51-cA_6lao-a1-m54-cA 6lao-a1-m52-cA_6lao-a1-m54-cA 6lao-a1-m52-cA_6lao-a1-m55-cA 6lao-a1-m53-cA_6lao-a1-m55-cA 6lao-a1-m56-cA_6lao-a1-m58-cA 6lao-a1-m56-cA_6lao-a1-m59-cA 6lao-a1-m57-cA_6lao-a1-m59-cA 6lao-a1-m57-cA_6lao-a1-m60-cA 6lao-a1-m58-cA_6lao-a1-m60-cA 6lao-a1-m6-cA_6lao-a1-m8-cA 6lao-a1-m6-cA_6lao-a1-m9-cA VVEAVENAVARVADTISSGPSNSQAVPALTAVETGHTSQVTPSDTIQTRHVRNYHSRSESSIENFLCRSACVYMGEYHTTNTDTSKLFASWTINARRMVQMRRKLELFTYVRFDMEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSVTDYTWQTSTNPSIFWTEGNAPPRMSIPFISIGNAYSNFYDGWSHFSQNGVYGYNTLNHMGQIYVRHVNGSSPLPMTSTVRMYFKPKHVKVWVPRPPRLCQYKNASTVNFTPTNITEKRQSINYIPETVKP VVEAVENAVARVADTISSGPSNSQAVPALTAVETGHTSQVTPSDTIQTRHVRNYHSRSESSIENFLCRSACVYMGEYHTTNTDTSKLFASWTINARRMVQMRRKLELFTYVRFDMEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSVTDYTWQTSTNPSIFWTEGNAPPRMSIPFISIGNAYSNFYDGWSHFSQNGVYGYNTLNHMGQIYVRHVNGSSPLPMTSTVRMYFKPKHVKVWVPRPPRLCQYKNASTVNFTPTNITEKRQSINYIPETVKP 6lao-a1-m8-cA_6lao-a1-m9-cA Cryo-EM structure of echovirus 11 complexed with its attaching receptor CD55 at pH 5.5 Q2LJ73 Q2LJ73 2.64 ELECTRON MICROSCOPY 574 1.0 12078 (Echovirus E11) 12078 (Echovirus E11) 285 285 6lao-a1-m10-cA_6lao-a1-m6-cA 6lao-a1-m10-cA_6lao-a1-m9-cA 6lao-a1-m11-cA_6lao-a1-m12-cA 6lao-a1-m11-cA_6lao-a1-m15-cA 6lao-a1-m12-cA_6lao-a1-m13-cA 6lao-a1-m13-cA_6lao-a1-m14-cA 6lao-a1-m14-cA_6lao-a1-m15-cA 6lao-a1-m16-cA_6lao-a1-m17-cA 6lao-a1-m16-cA_6lao-a1-m20-cA 6lao-a1-m17-cA_6lao-a1-m18-cA 6lao-a1-m18-cA_6lao-a1-m19-cA 6lao-a1-m19-cA_6lao-a1-m20-cA 6lao-a1-m1-cA_6lao-a1-m2-cA 6lao-a1-m1-cA_6lao-a1-m5-cA 6lao-a1-m21-cA_6lao-a1-m22-cA 6lao-a1-m21-cA_6lao-a1-m25-cA 6lao-a1-m22-cA_6lao-a1-m23-cA 6lao-a1-m23-cA_6lao-a1-m24-cA 6lao-a1-m24-cA_6lao-a1-m25-cA 6lao-a1-m26-cA_6lao-a1-m27-cA 6lao-a1-m26-cA_6lao-a1-m30-cA 6lao-a1-m27-cA_6lao-a1-m28-cA 6lao-a1-m28-cA_6lao-a1-m29-cA 6lao-a1-m29-cA_6lao-a1-m30-cA 6lao-a1-m2-cA_6lao-a1-m3-cA 6lao-a1-m31-cA_6lao-a1-m32-cA 6lao-a1-m31-cA_6lao-a1-m35-cA 6lao-a1-m32-cA_6lao-a1-m33-cA 6lao-a1-m33-cA_6lao-a1-m34-cA 6lao-a1-m34-cA_6lao-a1-m35-cA 6lao-a1-m36-cA_6lao-a1-m37-cA 6lao-a1-m36-cA_6lao-a1-m40-cA 6lao-a1-m37-cA_6lao-a1-m38-cA 6lao-a1-m38-cA_6lao-a1-m39-cA 6lao-a1-m39-cA_6lao-a1-m40-cA 6lao-a1-m3-cA_6lao-a1-m4-cA 6lao-a1-m41-cA_6lao-a1-m42-cA 6lao-a1-m41-cA_6lao-a1-m45-cA 6lao-a1-m42-cA_6lao-a1-m43-cA 6lao-a1-m43-cA_6lao-a1-m44-cA 6lao-a1-m44-cA_6lao-a1-m45-cA 6lao-a1-m46-cA_6lao-a1-m47-cA 6lao-a1-m46-cA_6lao-a1-m50-cA 6lao-a1-m47-cA_6lao-a1-m48-cA 6lao-a1-m48-cA_6lao-a1-m49-cA 6lao-a1-m49-cA_6lao-a1-m50-cA 6lao-a1-m4-cA_6lao-a1-m5-cA 6lao-a1-m51-cA_6lao-a1-m52-cA 6lao-a1-m51-cA_6lao-a1-m55-cA 6lao-a1-m52-cA_6lao-a1-m53-cA 6lao-a1-m53-cA_6lao-a1-m54-cA 6lao-a1-m54-cA_6lao-a1-m55-cA 6lao-a1-m56-cA_6lao-a1-m57-cA 6lao-a1-m56-cA_6lao-a1-m60-cA 6lao-a1-m57-cA_6lao-a1-m58-cA 6lao-a1-m58-cA_6lao-a1-m59-cA 6lao-a1-m59-cA_6lao-a1-m60-cA 6lao-a1-m6-cA_6lao-a1-m7-cA 6lao-a1-m7-cA_6lao-a1-m8-cA VVEAVENAVARVADTISSGPSNSQAVPALTAVETGHTSQVTPSDTIQTRHVRNYHSRSESSIENFLCRSACVYMGEYHTTNTDTSKLFASWTINARRMVQMRRKLELFTYVRFDMEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSVTDYTWQTSTNPSIFWTEGNAPPRMSIPFISIGNAYSNFYDGWSHFSQNGVYGYNTLNHMGQIYVRHVNGSSPLPMTSTVRMYFKPKHVKVWVPRPPRLCQYKNASTVNFTPTNITEKRQSINYIPETVKP VVEAVENAVARVADTISSGPSNSQAVPALTAVETGHTSQVTPSDTIQTRHVRNYHSRSESSIENFLCRSACVYMGEYHTTNTDTSKLFASWTINARRMVQMRRKLELFTYVRFDMEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSVTDYTWQTSTNPSIFWTEGNAPPRMSIPFISIGNAYSNFYDGWSHFSQNGVYGYNTLNHMGQIYVRHVNGSSPLPMTSTVRMYFKPKHVKVWVPRPPRLCQYKNASTVNFTPTNITEKRQSINYIPETVKP 6lb3-a3-m1-cD_6lb3-a3-m1-cC Crystal structure of PA4674 in complex with its operator DNA (18bp) from Pseudomonas aeruginosa Q9HVC1 Q9HVC1 2.497 X-RAY DIFFRACTION 91 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 92 93 6jpi-a1-m1-cA_6jpi-a1-m1-cB 6jpi-a1-m1-cC_6jpi-a1-m1-cD 6lb3-a2-m1-cA_6lb3-a2-m1-cB 6lb3-a2-m1-cG_6lb3-a2-m1-cH 6lb3-a3-m1-cE_6lb3-a3-m1-cF 7csv-a1-m1-cB_7csv-a1-m1-cA 7csw-a1-m1-cA_7csw-a1-m1-cB 7csy-a1-m1-cA_7csy-a1-m1-cB 7csy-a1-m1-cC_7csy-a1-m1-cD MRPIHPGEILRDEFLMEFDISPAALARALKVSAPTVNDIVREQRGISADMAIRLGRYFDTSAQFWMNLQSEYSLATAYAANGKQIEHEIEPL GMRPIHPGEILRDEFLMEFDISPAALARALKVSAPTVNDIVREQRGISADMAIRLGRYFDTSAQFWMNLQSEYSLATAYAANGKQIEHEIEPL 6lba-a1-m1-cB_6lba-a1-m1-cD Cryo-EM structure of the AtMLKL2 tetramer Q9FGG5 Q9FGG5 4.1 ELECTRON MICROSCOPY 17 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 466 466 6lba-a1-m1-cA_6lba-a1-m1-cC AAMEQFRQIGEVLGSLNALMVLQDDILINQRQCCLLLELFSLAFNTVAEEIRQNLKLEEKHTKWRALEQPLRELTRVFKEGELYVKHCMDNSDWWGKVINLHQNKDCVEFHIHNLFCYFSAVVEAIEAAGLDPSEMERRRVVFSRKYDREWNDPKMFQWRFGKQYLLSRICSRFEHSWREDRWNLVEALQEKRKSDSKTEKRLADLLLKKLTFNGKLFPSSILLGSKDDLEPLSSEISSLLALCHSNILQELMHKDLQSYMKENRYLFSIPVVIDIMLQIARGMEYLHGNDIFHGDLNPMNIHLKERSHTEGYFHAKICGFGLSSVPVIWYAPEVLAEMKLTHKADVYSFAMVCFELITGKVPFEMTINIRMGERPLFPFPSPKTLVSLIKRCWHSEPSQRPNFSSICRILRYIKKFLVVNPDHTPLVDCWDLEARFLRKFPGSHTASVNQIPFQLTSYRVLEKEK AAMEQFRQIGEVLGSLNALMVLQDDILINQRQCCLLLELFSLAFNTVAEEIRQNLKLEEKHTKWRALEQPLRELTRVFKEGELYVKHCMDNSDWWGKVINLHQNKDCVEFHIHNLFCYFSAVVEAIEAAGLDPSEMERRRVVFSRKYDREWNDPKMFQWRFGKQYLLSRICSRFEHSWREDRWNLVEALQEKRKSDSKTEKRLADLLLKKLTFNGKLFPSSILLGSKDDLEPLSSEISSLLALCHSNILQELMHKDLQSYMKENRYLFSIPVVIDIMLQIARGMEYLHGNDIFHGDLNPMNIHLKERSHTEGYFHAKICGFGLSSVPVIWYAPEVLAEMKLTHKADVYSFAMVCFELITGKVPFEMTINIRMGERPLFPFPSPKTLVSLIKRCWHSEPSQRPNFSSICRILRYIKKFLVVNPDHTPLVDCWDLEARFLRKFPGSHTASVNQIPFQLTSYRVLEKEK 6lba-a1-m1-cC_6lba-a1-m1-cD Cryo-EM structure of the AtMLKL2 tetramer Q9FGG5 Q9FGG5 4.1 ELECTRON MICROSCOPY 67 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 466 466 6lba-a1-m1-cA_6lba-a1-m1-cB AAMEQFRQIGEVLGSLNALMVLQDDILINQRQCCLLLELFSLAFNTVAEEIRQNLKLEEKHTKWRALEQPLRELTRVFKEGELYVKHCMDNSDWWGKVINLHQNKDCVEFHIHNLFCYFSAVVEAIEAAGLDPSEMERRRVVFSRKYDREWNDPKMFQWRFGKQYLLSRICSRFEHSWREDRWNLVEALQEKRKSDSKTEKRLADLLLKKLTFNGKLFPSSILLGSKDDLEPLSSEISSLLALCHSNILQELMHKDLQSYMKENRYLFSIPVVIDIMLQIARGMEYLHGNDIFHGDLNPMNIHLKERSHTEGYFHAKICGFGLSSVPVIWYAPEVLAEMKLTHKADVYSFAMVCFELITGKVPFEMTINIRMGERPLFPFPSPKTLVSLIKRCWHSEPSQRPNFSSICRILRYIKKFLVVNPDHTPLVDCWDLEARFLRKFPGSHTASVNQIPFQLTSYRVLEKEK AAMEQFRQIGEVLGSLNALMVLQDDILINQRQCCLLLELFSLAFNTVAEEIRQNLKLEEKHTKWRALEQPLRELTRVFKEGELYVKHCMDNSDWWGKVINLHQNKDCVEFHIHNLFCYFSAVVEAIEAAGLDPSEMERRRVVFSRKYDREWNDPKMFQWRFGKQYLLSRICSRFEHSWREDRWNLVEALQEKRKSDSKTEKRLADLLLKKLTFNGKLFPSSILLGSKDDLEPLSSEISSLLALCHSNILQELMHKDLQSYMKENRYLFSIPVVIDIMLQIARGMEYLHGNDIFHGDLNPMNIHLKERSHTEGYFHAKICGFGLSSVPVIWYAPEVLAEMKLTHKADVYSFAMVCFELITGKVPFEMTINIRMGERPLFPFPSPKTLVSLIKRCWHSEPSQRPNFSSICRILRYIKKFLVVNPDHTPLVDCWDLEARFLRKFPGSHTASVNQIPFQLTSYRVLEKEK 6lbp-a1-m1-cA_6lbp-a1-m2-cB Structure of the Glutamine Phosphoribosylpyrophosphate Amidotransferase from Arabidopsis thaliana Q9STG9 Q9STG9 3.065 X-RAY DIFFRACTION 108 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 460 460 6lbp-a1-m1-cB_6lbp-a1-m2-cA CGVVGIYGDSEASRLCYLALHALQHRGQEGAGIVTVSKDKVLQTITGVGLVSEVFSESKLDQLPGDIAIGHVRYSTAGSSMLKNVQPFVAGYRFGSVGVAHNGNLVNYTKLRADLEENGSIFNTSSDTEVVLHLIAISKARPFFMRIVDACEKLQGAYSMVFVTEDKLVAVRDPHGFRPLVMGRRSNGAVVFASETCALDLIEATYEREVYPGEVLVVDKDGVKCQCLMPHPEPKQCIFEHIYFSLPNSIVFGRSVYESRHVFGEILATESPVDCDVVIAVPDSGVVAALGYAAKAGVAFQQGLIRSHYVGRTFIEPSQKIRDFGVKLKLSPVRGVLEGKRVVVVDDSIVRGTTSSKIVRLLREAGAKEVHMRIASPPIIASCYYGVDTPSSNELISNRMSVDEIRDYIGCDSLAFLSFETLKKHLGEDSRSFCYACFTGDYPVKPTEDKVKRGGDFIDD CGVVGIYGDSEASRLCYLALHALQHRGQEGAGIVTVSKDKVLQTITGVGLVSEVFSESKLDQLPGDIAIGHVRYSTAGSSMLKNVQPFVAGYRFGSVGVAHNGNLVNYTKLRADLEENGSIFNTSSDTEVVLHLIAISKARPFFMRIVDACEKLQGAYSMVFVTEDKLVAVRDPHGFRPLVMGRRSNGAVVFASETCALDLIEATYEREVYPGEVLVVDKDGVKCQCLMPHPEPKQCIFEHIYFSLPNSIVFGRSVYESRHVFGEILATESPVDCDVVIAVPDSGVVAALGYAAKAGVAFQQGLIRSHYVGRTFIEPSQKIRDFGVKLKLSPVRGVLEGKRVVVVDDSIVRGTTSSKIVRLLREAGAKEVHMRIASPPIIASCYYGVDTPSSNELISNRMSVDEIRDYIGCDSLAFLSFETLKKHLGEDSRSFCYACFTGDYPVKPTEDKVKRGGDFIDD 6lbp-a1-m2-cA_6lbp-a1-m2-cB Structure of the Glutamine Phosphoribosylpyrophosphate Amidotransferase from Arabidopsis thaliana Q9STG9 Q9STG9 3.065 X-RAY DIFFRACTION 113 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 460 460 6lbp-a1-m1-cA_6lbp-a1-m1-cB CGVVGIYGDSEASRLCYLALHALQHRGQEGAGIVTVSKDKVLQTITGVGLVSEVFSESKLDQLPGDIAIGHVRYSTAGSSMLKNVQPFVAGYRFGSVGVAHNGNLVNYTKLRADLEENGSIFNTSSDTEVVLHLIAISKARPFFMRIVDACEKLQGAYSMVFVTEDKLVAVRDPHGFRPLVMGRRSNGAVVFASETCALDLIEATYEREVYPGEVLVVDKDGVKCQCLMPHPEPKQCIFEHIYFSLPNSIVFGRSVYESRHVFGEILATESPVDCDVVIAVPDSGVVAALGYAAKAGVAFQQGLIRSHYVGRTFIEPSQKIRDFGVKLKLSPVRGVLEGKRVVVVDDSIVRGTTSSKIVRLLREAGAKEVHMRIASPPIIASCYYGVDTPSSNELISNRMSVDEIRDYIGCDSLAFLSFETLKKHLGEDSRSFCYACFTGDYPVKPTEDKVKRGGDFIDD CGVVGIYGDSEASRLCYLALHALQHRGQEGAGIVTVSKDKVLQTITGVGLVSEVFSESKLDQLPGDIAIGHVRYSTAGSSMLKNVQPFVAGYRFGSVGVAHNGNLVNYTKLRADLEENGSIFNTSSDTEVVLHLIAISKARPFFMRIVDACEKLQGAYSMVFVTEDKLVAVRDPHGFRPLVMGRRSNGAVVFASETCALDLIEATYEREVYPGEVLVVDKDGVKCQCLMPHPEPKQCIFEHIYFSLPNSIVFGRSVYESRHVFGEILATESPVDCDVVIAVPDSGVVAALGYAAKAGVAFQQGLIRSHYVGRTFIEPSQKIRDFGVKLKLSPVRGVLEGKRVVVVDDSIVRGTTSSKIVRLLREAGAKEVHMRIASPPIIASCYYGVDTPSSNELISNRMSVDEIRDYIGCDSLAFLSFETLKKHLGEDSRSFCYACFTGDYPVKPTEDKVKRGGDFIDD 6lcg-a1-m1-cB_6lcg-a1-m1-cA Structure of D-carbamoylase mutant from Nitratireductor indicus K2NMS4 K2NMS4 2.7 X-RAY DIFFRACTION 162 1.0 1231190 (Nitratireductor indicus C115) 1231190 (Nitratireductor indicus C115) 301 303 6le2-a1-m1-cB_6le2-a1-m1-cA 6led-a1-m1-cB_6led-a1-m1-cA 6lei-a1-m1-cA_6lei-a1-m1-cB 8i99-a1-m1-cA_8i99-a1-m1-cB 8i99-a1-m1-cC_8i99-a1-m1-cD TRRIRIGGAQMGAISRSDSKKEIVDRLIALLRQASEKGCELVVFPELALSTFFPRWYAERDGMDGYFEDGMPNAATLPLFEEARRLGIGFSLGYAELVQEDGRVRRFNTTVLVERNGEIVGKYRKIHLPGHAEYEPERSHQHLEKRYFEVGNTGFQVWDAFGGRVGMAICNDRRWVETYRVMGLQNVELILIGYNTPVNDSETLGMFHNHLTMQAGAYQNSTWVVGVAKAGVEDGHRLMGGSVIVAPTGEIVAQAMTEGDELIVADCDLDRCRYYKSHIFNFAAHRRPEFYQRITSQTGVE MTRRIRIGGAQMGAISRSDSKKEIVDRLIALLRQASEKGCELVVFPELALSTFFPRWYAERDGMDGYFEDGMPNAATLPLFEEARRLGIGFSLGYAELVQEDGRVRRFNTTVLVERNGEIVGKYRKIHLPGHAEYEPERSHQHLEKRYFEVGNTGFQVWDAFGGRVGMAICNDRRWVETYRVMGLQNVELILIGYNTPVNDSSETLGMFHNHLTMQAGAYQNSTWVVGVAKAGVEDGHRLMGGSVIVAPTGEIVAQAMTEGDELIVADCDLDRCRYYKSHIFNFAAHRRPEFYQRITSQTGVE 6lcq-a1-m1-cA_6lcq-a1-m1-cB Crystal structure of rice defensin OsAFP1 Q6K209 Q6K209 1.62 X-RAY DIFFRACTION 26 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 54 54 GPLGSRHCLSQSHRFKGMCVSSNNCANVCRTESFPDGECKSHGLERKCFCKKVC GPLGSRHCLSQSHRFKGMCVSSNNCANVCRTESFPDGECKSHGLERKCFCKKVC 6ldz-a1-m2-cA_6ldz-a1-m3-cA Crystal structure of Rv0222 from Mycobacterium tuberculosis P96404 P96404 2.4 X-RAY DIFFRACTION 108 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 251 251 3qxi-a1-m1-cA_3qxi-a1-m1-cB 3qxi-a1-m1-cA_3qxi-a1-m1-cC 3qxi-a1-m1-cB_3qxi-a1-m1-cC 5kjp-a1-m1-cA_5kjp-a1-m2-cA 5kjp-a1-m1-cA_5kjp-a1-m3-cA 5kjp-a1-m2-cA_5kjp-a1-m3-cA 6ldz-a1-m1-cA_6ldz-a1-m2-cA 6ldz-a1-m1-cA_6ldz-a1-m3-cA PEVLVEQRDRILIITINRPKAKNAVNAAVSRGLADAMDQLDGDAGLSVAILTGGGGSFCAGMDLKAFARGENVVVEGRGLGFTERPPTKPLIAAVEGYALAGGTELALAADLIVAARDSAFGIPEVKRGLVAGGGGLLRLPERIPYAIAMELALTGDNLPAERAHELGLVNVLAEPGTALDAAIALAEKITANGPLAVVATKRIITESRGWSPDTMFAEQMKILVPVFTSNDAKEGAIAFAERRRPRWTGT PEVLVEQRDRILIITINRPKAKNAVNAAVSRGLADAMDQLDGDAGLSVAILTGGGGSFCAGMDLKAFARGENVVVEGRGLGFTERPPTKPLIAAVEGYALAGGTELALAADLIVAARDSAFGIPEVKRGLVAGGGGLLRLPERIPYAIAMELALTGDNLPAERAHELGLVNVLAEPGTALDAAIALAEKITANGPLAVVATKRIITESRGWSPDTMFAEQMKILVPVFTSNDAKEGAIAFAERRRPRWTGT 6le0-a2-m1-cD_6le0-a2-m1-cC A nonspecific heme-binding cyclase catalyzes [4 + 2] cycloaddition during neoabyssomicin biosynthesis A0A2P1BT29 A0A2P1BT29 2.51 X-RAY DIFFRACTION 145 0.99 188770 (Streptomyces koyangensis) 188770 (Streptomyces koyangensis) 195 201 6le0-a1-m1-cB_6le0-a1-m1-cA 6ymn-a2-m1-cDDD_6ymn-a2-m1-cCCC NERFTLPAHSPALAALVPEFLDLARAASGERDLAVWENLTEHVSLDYRFANPPVHGPGDWDTYDSRFVDPAGVEIGTLQGTGRILYERSSDAHLYYREQLTFPDGTAQTAGWVDGTAILGGAWQRFPILGSGGRYGSIGLRSFQPTPEAPHSLYRTHLVLREIPGGHGLTDPEEIDAALSLLGAFVGPSVNPATG NERFTLPAHSPALAALVPEFLDLARAASGDLAVWENLTEHVSLDYRFANPPVHGPGDWDTYDSRFVDPAGVEIGTLQGTGRILYERSSDAHLYYREQLTFPDGTAQTAGWVDGTAILGGAWQRFPILGSGGRYGSIGLRSFQPTPEAPHSLYRTHLVLREIPGGHGLTDPEEIDAALSLLGAFVGPSVNPATGNGRLEPPV 6le1-a1-m1-cA_6le1-a1-m2-cA Structure of RRM2 domain of DND1 protein Q8IYX4 Q8IYX4 2.3 X-RAY DIFFRACTION 116 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 87 87 SGLVPRGSHELSVDGLPPNLTRSALLLALQPLGPGLQEARLLPSPGPAPGQIALLKFSSHRAAAAKKALVEGQSHLCGEQVAVEWLK SGLVPRGSHELSVDGLPPNLTRSALLLALQPLGPGLQEARLLPSPGPAPGQIALLKFSSHRAAAAKKALVEGQSHLCGEQVAVEWLK 6le3-a1-m1-cE_6le3-a1-m1-cH Crystal structure of gluconate 5-dehydrogenase from Lentibacter algarum A0A1H3NGY9 A0A1H3NGY9 2.1 X-RAY DIFFRACTION 12 1.0 576131 (Lentibacter algarum) 576131 (Lentibacter algarum) 247 248 6le3-a1-m1-cF_6le3-a1-m1-cG HLFDLSGKVACITGASSGLGRRAALTLAAAGAKVVGVARRADALDNLCAEIGPAAAAVVADVASRDGLERTVADISAPFGAPDILVHAAGVNTREAADDVTFNGWDQTLALNLSAPFFLSKAFVPEMRKKGWGRIVNFASLQTTRAFPGGIAYGATKGGIAQLTRAMAEAWSPDGITANAIGPGFPTELTAAVFEDDARAARNAAQTCIGRNGTLSDMDGPILFLCSDASAYVTGQVLMVDGGFTAK HLFDLSGKVACITGASSGLGRRAALTLAAAGAKVVGVARRADALDNLCAEIGPAAAAVVADVASRDGLERTVADISAPFGAPDILVHAAGVNTREAADDVTFNGWDQTLALNLSAPFFLSKAFVPEMRKKGWGRIVNFASLQTTRAFPGGIAYGATKGGIAQLTRAMAEAWSPDGITANAIGPGFFPTELTAAVFEDDARAARNAAQTCIGRNGTLSDMDGPILFLCSDASAYVTGQVLMVDGGFTAK 6le3-a1-m1-cF_6le3-a1-m1-cH Crystal structure of gluconate 5-dehydrogenase from Lentibacter algarum A0A1H3NGY9 A0A1H3NGY9 2.1 X-RAY DIFFRACTION 129 1.0 576131 (Lentibacter algarum) 576131 (Lentibacter algarum) 247 248 6le3-a1-m1-cE_6le3-a1-m1-cG LFDLSGKVACITGASSGLGRRAALTLAAAGAKVVGVARRADALDNLCAEIGPAAAAVVADVASRDGLERTVADISAPFGAPDILVHAAGVNTREAADDVTFNGWDQTLALNLSAPFFLSKAFVPEMRKKGWGRIVNFASLQTTRAFPGGIAYGATKGGIAQLTRAMAEAWSPDGITANAIGPGFFPTELTAAVFEDDARAARNAAQTCIGRNGTLSDMDGPILFLCSDASAYVTGQVLMVDGGFTAK HLFDLSGKVACITGASSGLGRRAALTLAAAGAKVVGVARRADALDNLCAEIGPAAAAVVADVASRDGLERTVADISAPFGAPDILVHAAGVNTREAADDVTFNGWDQTLALNLSAPFFLSKAFVPEMRKKGWGRIVNFASLQTTRAFPGGIAYGATKGGIAQLTRAMAEAWSPDGITANAIGPGFFPTELTAAVFEDDARAARNAAQTCIGRNGTLSDMDGPILFLCSDASAYVTGQVLMVDGGFTAK 6le3-a1-m1-cG_6le3-a1-m1-cH Crystal structure of gluconate 5-dehydrogenase from Lentibacter algarum A0A1H3NGY9 A0A1H3NGY9 2.1 X-RAY DIFFRACTION 124 1.0 576131 (Lentibacter algarum) 576131 (Lentibacter algarum) 248 248 6le3-a1-m1-cE_6le3-a1-m1-cF HLFDLSGKVACITGASSGLGRRAALTLAAAGAKVVGVARRADALDNLCAEIGPAAAAVVADVASRDGLERTVADISAPFGAPDILVHAAGVNTREAADDVTFNGWDQTLALNLSAPFFLSKAFVPEMRKKGWGRIVNFASLQTTRAFPGGIAYGATKGGIAQLTRAMAEAWSPDGITANAIGPGFFPTELTAAVFEDDARAARNAAQTCIGRNGTLSDMDGPILFLCSDASAYVTGQVLMVDGGFTAK HLFDLSGKVACITGASSGLGRRAALTLAAAGAKVVGVARRADALDNLCAEIGPAAAAVVADVASRDGLERTVADISAPFGAPDILVHAAGVNTREAADDVTFNGWDQTLALNLSAPFFLSKAFVPEMRKKGWGRIVNFASLQTTRAFPGGIAYGATKGGIAQLTRAMAEAWSPDGITANAIGPGFFPTELTAAVFEDDARAARNAAQTCIGRNGTLSDMDGPILFLCSDASAYVTGQVLMVDGGFTAK 6leb-a1-m1-cA_6leb-a1-m1-cB Staphylococcus aureus surface protein SdrC mutant-P366H Q2UWK0 Q2UWK0 1.54 X-RAY DIFFRACTION 145 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 315 315 QGTNVNDKVHFTNIDIAIDKGHVNKTTGNTEFWATSSDVLKLKANYTIDDSVKEGDTFTFKYGQYFRPGSVRLPSQTQNLYNAQGNIIAKGIYDSKTNTTTYTFTNYVDQYTNVSGSFEQVAFAKRENATTDKTAYKMEVTLGNDTYSKDVIVDYGNQKGQQLISSTNYINNEDLSRNMTVYVNQHKKTYTKETFVTNLTGYKFNPDAKNFKIYEVTDQNQFVDSFTPDTSKLKDVTGQFDVIYSNDNKTATVDLLNGQSSSDKQYIIQQVAYPDNSSTDNGKIDYTLETQNGKSSWSNSYSNVNGSSTANGDQK QGTNVNDKVHFTNIDIAIDKGHVNKTTGNTEFWATSSDVLKLKANYTIDDSVKEGDTFTFKYGQYFRPGSVRLPSQTQNLYNAQGNIIAKGIYDSKTNTTTYTFTNYVDQYTNVSGSFEQVAFAKRENATTDKTAYKMEVTLGNDTYSKDVIVDYGNQKGQQLISSTNYINNEDLSRNMTVYVNQHKKTYTKETFVTNLTGYKFNPDAKNFKIYEVTDQNQFVDSFTPDTSKLKDVTGQFDVIYSNDNKTATVDLLNGQSSSDKQYIIQQVAYPDNSSTDNGKIDYTLETQNGKSSWSNSYSNVNGSSTANGDQK 6lez-a1-m1-cB_6lez-a1-m1-cA Quadruple mutant (N51I+C59R+S108N+I164L) plasmodium falciparum dihydrofolate reductase-thymidylate synthase (PfDHFR-TS) complexed with compound 46 and NADPH D9N170 D9N170 2.644 X-RAY DIFFRACTION 190 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 522 528 1j3i-a1-m1-cC_1j3i-a1-m1-cD 1j3j-a1-m1-cC_1j3j-a1-m1-cD 1j3k-a1-m1-cC_1j3k-a1-m1-cD 3jsu-a1-m1-cB_3jsu-a1-m1-cA 3qg2-a1-m1-cB_3qg2-a1-m1-cA 3qgt-a1-m1-cB_3qgt-a1-m1-cA 3um5-a1-m1-cB_3um5-a1-m1-cA 3um6-a1-m1-cB_3um6-a1-m1-cA 3um8-a1-m1-cB_3um8-a1-m1-cA 4dp3-a1-m1-cB_4dp3-a1-m1-cA 4dpd-a1-m1-cA_4dpd-a1-m1-cB 4dph-a1-m1-cB_4dph-a1-m1-cA 6a2k-a1-m1-cB_6a2k-a1-m1-cA 6a2l-a1-m1-cB_6a2l-a1-m1-cA 6a2m-a1-m1-cB_6a2m-a1-m1-cA 6a2n-a1-m1-cA_6a2n-a1-m1-cB 6a2o-a1-m1-cB_6a2o-a1-m1-cA 6a2p-a1-m1-cA_6a2p-a1-m1-cB 6kot-a1-m1-cB_6kot-a1-m1-cA 6kp2-a1-m1-cA_6kp2-a1-m1-cB 6kp7-a1-m1-cA_6kp7-a1-m1-cB 6kpr-a1-m1-cA_6kpr-a1-m1-cB 6leu-a1-m1-cB_6leu-a1-m1-cA 6lev-a1-m1-cB_6lev-a1-m1-cA 6lh9-a1-m1-cB_6lh9-a1-m1-cA 6lhi-a1-m1-cB_6lhi-a1-m1-cA 6lhj-a1-m1-cB_6lhj-a1-m1-cA 7ctw-a1-m1-cB_7ctw-a1-m1-cA 7cty-a1-m1-cB_7cty-a1-m1-cA 7ctz-a1-m1-cB_7ctz-a1-m1-cA 7f3y-a1-m1-cB_7f3y-a1-m1-cA 7f3z-a1-m1-cA_7f3z-a1-m1-cB QVCDVFDIYAICACCKVENEVFNNYTFRGLGNKGVLPWKCISLDMKYFRAVTTYVNESKYEKLKYKRCKYLQNVVVMGRTNWESIPKKFKPLSNRINVILSRTLKKEDFDEDVYIINKVEDLIVLLGKLNYYKCFILGGSVVYQEFLEKKLIKKIYFTRINSTYECDVFFPEINENEYQIISVSDVYTSNNTTLDFIIYKKTNDDEEEDDFVYFNFNKENKNSIHPNDFQIYNSLKYKYHPEYQYLNIIYDIMMNGNKQSDRTGVGVLSKFGYIMKFDLSQYFPLLTTKKLFLRGIIEELLWFIRGETNGNTLLNKNVRIWEANGTREFLDNRKLFHREVNDLGPIYGFQWRHFGAEYTNMYDNYENKGVDQLKNIINLIKNDPTSRRILLCAWNVKDLDQMALPPCHILCQFYVFDGKLSCIMYQRSCDLGLGVPFNIASYSIFTHMIAQVCNLQPAQFIHVLGNAHVYNNHIDSLKIQLNRIPYPFPTLKLNPDIKNIEDFTISDFTIQNYVHHEKISMD QVCDVFDIYAICACCKVESNEVFNNYTFRGLGNKGVLPWKCISLDMKYFRAVTTYVNESKYEKLKYKRCKYLNKKLQNVVVMGRTNWESIPKKFKPLSNRINVILSRTLKKEDFDEDVYIINKVEDLIVLLGKLNYYKCFILGGSVVYQEFLEKKLIKKIYFTRINSTYECDVFFPEINENEYQIISVSDVYTSNNTTLDFIIYKKTNDDEEEDDFVYFNFNKEKNKNSIHPNDFQIYNSLKYKYHPEYQYLNIIYDIMMNGNKQSDRTGVGVLSKFGYIMKFDLSQYFPLLTTKKLFLRGIIEELLWFIRGETNGNTLLNKNVRIWEANGTREFLDNRKLFHREVNDLGPIYGFQWRHFGAEYTNMYDNYENKGVDQLKNIINLIKNDPTSRRILLCAWNVKDLDQMALPPCHILCQFYVFDGKLSCIMYQRSCDLGLGVPFNIASYSIFTHMIAQVCNLQPAQFIHVLGNAHVYNNHIDSLKIQLNRIPYPFPTLKLNPDIKNIEDFTISDFTIQNYVHHEKISMD 6lf2-a1-m1-cA_6lf2-a1-m1-cB SeviL bound to asialo-GM1 saccharide A0A646QV53 A0A646QV53 1.6 X-RAY DIFFRACTION 46 1.0 125 131 6lf1-a1-m1-cB_6lf1-a1-m1-cA TIGKCYIQNRENGGRAFYNLGRKDLGIFTGKMYDDQIWSFQKSDTPGYYTIGRESKFLQYNGEQVIMSDIEQDTTLWSLEEVPEDKGFYRLLNKVHKAYLDYNGGDLVANKHQTESEKWILFKAY SHMSSVTIGKCYIQNRENGGRAFYNLGRKDLGIFTGKMYDDQIWSFQKSDTPGYYTIGRESKFLQYNGEQVIMSDIEQDTTLWSLEEVPEDKGFYRLLNKVHKAYLDYNGGDLVANKHQTESEKWILFKAY 6lfa-a1-m1-cA_6lfa-a1-m2-cA Structure of the N-terminal domain of Wag31 P9WMU1 P9WMU1 2.3 X-RAY DIFFRACTION 23 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 70 70 HHHHENLFYQGPLTPADVHNVAFSKPPIGKRGYNEDEVDAFLDLVENELTRLIEENSDLRQRINELDQEL HHHHENLFYQGPLTPADVHNVAFSKPPIGKRGYNEDEVDAFLDLVENELTRLIEENSDLRQRINELDQEL 6lfa-a1-m1-cB_6lfa-a1-m2-cB Structure of the N-terminal domain of Wag31 P9WMU1 P9WMU1 2.3 X-RAY DIFFRACTION 28 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 62 62 HHEPLTPADVHNVAFSKPPIGKRGYNEDEVDAFLDLVENELTRLIEENSDLRQRINELDQEL HHEPLTPADVHNVAFSKPPIGKRGYNEDEVDAFLDLVENELTRLIEENSDLRQRINELDQEL 6lfa-a1-m2-cB_6lfa-a1-m2-cA Structure of the N-terminal domain of Wag31 P9WMU1 P9WMU1 2.3 X-RAY DIFFRACTION 110 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 62 70 6lfa-a1-m1-cB_6lfa-a1-m1-cA HHEPLTPADVHNVAFSKPPIGKRGYNEDEVDAFLDLVENELTRLIEENSDLRQRINELDQEL HHHHENLFYQGPLTPADVHNVAFSKPPIGKRGYNEDEVDAFLDLVENELTRLIEENSDLRQRINELDQEL 6lfk-a1-m1-cA_6lfk-a1-m1-cD Crystal structure of KatE from atypical E. coli A0A6I8WFM0 A0A6I8WFM0 2.1 X-RAY DIFFRACTION 153 0.999 562 (Escherichia coli) 562 (Escherichia coli) 719 720 6lfk-a1-m1-cB_6lfk-a1-m1-cC NKAISTVEPHYEDTAVEPMMPGSDKTPKNRNEKLTQLDKFRFAPQGESLRTNQGVKISDNQNSLKSGARGSTLLEDFILREKITHFDHERIPERVVHARGTGAHGYFQVYESLASYTTAEFLQDPSVKTPVFVRFSTVQGSRGSADTVRDIRGWATKFYTKEGTFDLVGNNTPVFFIQDAIKFPDFVHAVKPEPHNEIPQGQSAHDTFWDYISLQPETLHNVMWVMSDRGIPRSYRMMEGFGIHTYKMINAEGQCHFIRFHWKPVYGVSSLIWDEAQLLTGCDPDFHRRELWESIEAGDYPEYELGLQIIPEEDEHKFDFDILDPTKLIPESLVPVHLVGKMVLNRNPDNYFSETEQVAFCPGNIVPGIDFSDDPLLQGRLFSYIDTQISRLGGVNFHEIPINKPICPFHNHQRDGMHRMSISGTANYEPNSINNNWPREAPPTEGGFTTYPQPVNGYKSRKRSSTFIDFYSQPRLFWLSQTKVEQNHIVGGFSFELGKVVRPWIRERVVNQLTYIDHQLAQSVADNLGIKLSQEQLKHPLPGPINGLSKDRSLSMYDGHHQILKSRQVAILAADGVCGDAIDNIMKTLKKYGVHGKIFAPHVGRITSLQGNEIEVNGTIEGNPSVMVDAVIIPDGEDSIDSLMKNGNAKHYVIQAFKHLKAIGLQGKAFKLYDALPLPKPDEGIVVGDKAADLAEAFCNVMRGHRIWSRESVAQEIAG NKAISTVEPHYEDTAPAEPMMPGSDKTPKNRNEKLTQLDKFRFAPQGESLRTNQGVKISDNQNSLKSGARGSTLLEDFILREKITHFDHERIPERVVHARGTGAHGYFQVYESLASYTTAEFLQDPSVKTPVFVRFSTVQGSRGSADTVRDIRGWATKFYTKEGTFDLVGNNTPVFFIQDAIKFPDFVHAVKPEPHNEIPQGQSAHDTFWDYISLQPETLHNVMWVMSDRGIPRSYRMMEGFGIHTYKMINAEGQCHFIRFHWKPVYGVSSLIWDEAQLLTGCDPDFHRRELWESIEAGDYPEYELGLQIIPEEDEHKFDFDILDPTKLIPESLVPVHLVGKMVLNRNPDNYFSETEQVAFCPGNIVPGIDFSDDPLLQGRLFSYIDTQISRLGGVNFHEIPINKPICPFHNHQRDGMHRMSISGTANYEPNSINNNWPREAPPTEGGFTTYPQPVNGYKSRKRSSTFIDFYSQPRLFWLSQTKVEQNHIVGGFSFELGKVVRPWIRERVVNQLTYIDHQLAQSVADNLGIKLSQEQLKHPLPGPINGLSKDRSLSMYDGHHQILKSRQVAILAADGVCGDAIDNIMKTLKKYGVHGKIFAPHVGRITSLQGNEIEVNGTIEGNPSVMVDAVIIPDGEDSIDSLMKNGNAKHYVIQAFKHLKAIGLQGKAFKLYDALPLPKPDEGIVVGDKAADLAEAFCNVMRGHRIWSRESVAQEIAG 6lfk-a1-m1-cD_6lfk-a1-m1-cB Crystal structure of KatE from atypical E. coli A0A6I8WFM0 A0A6I8WFM0 2.1 X-RAY DIFFRACTION 453 1.0 562 (Escherichia coli) 562 (Escherichia coli) 720 721 6lfk-a1-m1-cA_6lfk-a1-m1-cC NKAISTVEPHYEDTAPAEPMMPGSDKTPKNRNEKLTQLDKFRFAPQGESLRTNQGVKISDNQNSLKSGARGSTLLEDFILREKITHFDHERIPERVVHARGTGAHGYFQVYESLASYTTAEFLQDPSVKTPVFVRFSTVQGSRGSADTVRDIRGWATKFYTKEGTFDLVGNNTPVFFIQDAIKFPDFVHAVKPEPHNEIPQGQSAHDTFWDYISLQPETLHNVMWVMSDRGIPRSYRMMEGFGIHTYKMINAEGQCHFIRFHWKPVYGVSSLIWDEAQLLTGCDPDFHRRELWESIEAGDYPEYELGLQIIPEEDEHKFDFDILDPTKLIPESLVPVHLVGKMVLNRNPDNYFSETEQVAFCPGNIVPGIDFSDDPLLQGRLFSYIDTQISRLGGVNFHEIPINKPICPFHNHQRDGMHRMSISGTANYEPNSINNNWPREAPPTEGGFTTYPQPVNGYKSRKRSSTFIDFYSQPRLFWLSQTKVEQNHIVGGFSFELGKVVRPWIRERVVNQLTYIDHQLAQSVADNLGIKLSQEQLKHPLPGPINGLSKDRSLSMYDGHHQILKSRQVAILAADGVCGDAIDNIMKTLKKYGVHGKIFAPHVGRITSLQGNEIEVNGTIEGNPSVMVDAVIIPDGEDSIDSLMKNGNAKHYVIQAFKHLKAIGLQGKAFKLYDALPLPKPDEGIVVGDKAADLAEAFCNVMRGHRIWSRESVAQEIAG NKAISTVEPHYEDTAPAVEPMMPGSDKTPKNRNEKLTQLDKFRFAPQGESLRTNQGVKISDNQNSLKSGARGSTLLEDFILREKITHFDHERIPERVVHARGTGAHGYFQVYESLASYTTAEFLQDPSVKTPVFVRFSTVQGSRGSADTVRDIRGWATKFYTKEGTFDLVGNNTPVFFIQDAIKFPDFVHAVKPEPHNEIPQGQSAHDTFWDYISLQPETLHNVMWVMSDRGIPRSYRMMEGFGIHTYKMINAEGQCHFIRFHWKPVYGVSSLIWDEAQLLTGCDPDFHRRELWESIEAGDYPEYELGLQIIPEEDEHKFDFDILDPTKLIPESLVPVHLVGKMVLNRNPDNYFSETEQVAFCPGNIVPGIDFSDDPLLQGRLFSYIDTQISRLGGVNFHEIPINKPICPFHNHQRDGMHRMSISGTANYEPNSINNNWPREAPPTEGGFTTYPQPVNGYKSRKRSSTFIDFYSQPRLFWLSQTKVEQNHIVGGFSFELGKVVRPWIRERVVNQLTYIDHQLAQSVADNLGIKLSQEQLKHPLPGPINGLSKDRSLSMYDGHHQILKSRQVAILAADGVCGDAIDNIMKTLKKYGVHGKIFAPHVGRITSLQGNEIEVNGTIEGNPSVMVDAVIIPDGEDSIDSLMKNGNAKHYVIQAFKHLKAIGLQGKAFKLYDALPLPKPDEGIVVGDKAADLAEAFCNVMRGHRIWSRESVAQEIAG 6lfk-a1-m1-cD_6lfk-a1-m1-cC Crystal structure of KatE from atypical E. coli A0A6I8WFM0 A0A6I8WFM0 2.1 X-RAY DIFFRACTION 427 1.0 562 (Escherichia coli) 562 (Escherichia coli) 720 723 6lfk-a1-m1-cA_6lfk-a1-m1-cB NKAISTVEPHYEDTAPAEPMMPGSDKTPKNRNEKLTQLDKFRFAPQGESLRTNQGVKISDNQNSLKSGARGSTLLEDFILREKITHFDHERIPERVVHARGTGAHGYFQVYESLASYTTAEFLQDPSVKTPVFVRFSTVQGSRGSADTVRDIRGWATKFYTKEGTFDLVGNNTPVFFIQDAIKFPDFVHAVKPEPHNEIPQGQSAHDTFWDYISLQPETLHNVMWVMSDRGIPRSYRMMEGFGIHTYKMINAEGQCHFIRFHWKPVYGVSSLIWDEAQLLTGCDPDFHRRELWESIEAGDYPEYELGLQIIPEEDEHKFDFDILDPTKLIPESLVPVHLVGKMVLNRNPDNYFSETEQVAFCPGNIVPGIDFSDDPLLQGRLFSYIDTQISRLGGVNFHEIPINKPICPFHNHQRDGMHRMSISGTANYEPNSINNNWPREAPPTEGGFTTYPQPVNGYKSRKRSSTFIDFYSQPRLFWLSQTKVEQNHIVGGFSFELGKVVRPWIRERVVNQLTYIDHQLAQSVADNLGIKLSQEQLKHPLPGPINGLSKDRSLSMYDGHHQILKSRQVAILAADGVCGDAIDNIMKTLKKYGVHGKIFAPHVGRITSLQGNEIEVNGTIEGNPSVMVDAVIIPDGEDSIDSLMKNGNAKHYVIQAFKHLKAIGLQGKAFKLYDALPLPKPDEGIVVGDKAADLAEAFCNVMRGHRIWSRESVAQEIAG NKAISTVEPHYEDTAPAEKVEPMMPGSDKTPKNRNEKLTQLDKFRFAPQGESLRTNQGVKISDNQNSLKSGARGSTLLEDFILREKITHFDHERIPERVVHARGTGAHGYFQVYESLASYTTAEFLQDPSVKTPVFVRFSTVQGSRGSADTVRDIRGWATKFYTKEGTFDLVGNNTPVFFIQDAIKFPDFVHAVKPEPHNEIPQGQSAHDTFWDYISLQPETLHNVMWVMSDRGIPRSYRMMEGFGIHTYKMINAEGQCHFIRFHWKPVYGVSSLIWDEAQLLTGCDPDFHRRELWESIEAGDYPEYELGLQIIPEEDEHKFDFDILDPTKLIPESLVPVHLVGKMVLNRNPDNYFSETEQVAFCPGNIVPGIDFSDDPLLQGRLFSYIDTQISRLGGVNFHEIPINKPICPFHNHQRDGMHRMSISGTANYEPNSINNNWPREAPPTEGGFTTYPQPVNGYKSRKRSSTFIDFYSQPRLFWLSQTKVEQNHIVGGFSFELGKVVRPWIRERVVNQLTYIDHQLAQSVADNLGIKLSQEQLKHPLPGPINGLSKDRSLSMYDGHHQILKSRQVAILAADGVCGDAIDNIMKTLKKYGVHGKIFAPHVGRITSLQGNEIEVNGTIEGNPSVMVDAVIIPDGEDSIDSLMKNGNAKHYVIQAFKHLKAIGLQGKAFKLYDALPLPKPDEGIVVGDKAADLAEAFCNVMRGHRIWSRESVAQEIAG 6lfz-a1-m1-cA_6lfz-a1-m1-cB Crystal structure of SbCGTb in complex with UDPG 2.866 X-RAY DIFFRACTION 48 1.0 65409 (Scutellaria baicalensis) 65409 (Scutellaria baicalensis) 435 439 QRPHVAVFPCAGMGHLLPYLRLAAMLHSRGCAVSVISAHPTISDAESRSLSSFFSLYPQIRSLEIQLLPDPFFIQRESIGNSIHLLRPLLASLSPPLSAIFVDFPVLTEFSPIAADFSLPTYTLIVTSARFFSLMAHLPRLLEQEDDISKKSEVCVPHLDPIQVSSIPPQMLDRRHFFVETITSNVASLSYLKGVLINTFTWLEPEAVEALKRNGVDHILPIGPLEAIKAEESDLPWLEEQAPKSVLFISFGSRGAHTKEQLREFAAALEKSGWRFLWVLKSGKVDREDKEETEDILGSSFLERTKNRGVVIKGWADQERILAHSAIGGFVSHCGWNSVVEAAKLGVPVLAWPPHGDQRVNAEVVEKVGLGLWVRGWGWAGERLIGRDEIAEKLIELRNDERLRERVKEVREKAREERESGGISETLIRDLIHSL QRPHVAVFPCAGMGHLLPYLRLAAMLHSRGCAVSVISAHPTISDAESRSLSSFFSLYPQIRSLEIQLLPDPFFIQRESIGNSIHLLRPLLASLSPPLSAIFVDFPVLTEFSPIAADFSLPTYTLIVTSARFFSLMAHLPRLLEQEDDISKKSEVCVPHLDPIQVSSIPPQMLDRRHFFVETITSNVASLSYLKGVLINTFTWLEPEAVEALKRNGVDHILPIGPLEAIKAEESDMDLPWLEEQAPKSVLFISFGSRGAHTKEQLREFAAALEKSGWRFLWVLKSGKVDREDKEETEDILGSSFLERTKNRGVVIKGWADQERILAHSAIGGFVSHCGWNSVVEAAKLGVPVLAWPPHGDQRVNAEVVEKVGLGLWVRGWGWAGERLIGRDEIAEKLIELRNDERLRERVKEVREKAREERESGGISETLIRDLIHSLKI 6lg0-a1-m1-cA_6lg0-a1-m1-cE Crystal structure of SbCGTa in complex with UDP 2.998 X-RAY DIFFRACTION 14 0.995 65409 (Scutellaria baicalensis) 65409 (Scutellaria baicalensis) 443 443 VGAHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDAKKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEVEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN AHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDAKKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEVEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN 6lg0-a1-m1-cB_6lg0-a1-m1-cF Crystal structure of SbCGTa in complex with UDP 2.998 X-RAY DIFFRACTION 44 0.995 65409 (Scutellaria baicalensis) 65409 (Scutellaria baicalensis) 444 444 6lg0-a1-m1-cC_6lg0-a1-m1-cA 6lg0-a1-m1-cD_6lg0-a1-m1-cE VGAHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDAKKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN NVGAHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEVEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN 6lg0-a1-m1-cE_6lg0-a1-m1-cB Crystal structure of SbCGTa in complex with UDP 2.998 X-RAY DIFFRACTION 21 0.998 65409 (Scutellaria baicalensis) 65409 (Scutellaria baicalensis) 443 444 AHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDAKKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEVEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN VGAHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDAKKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN 6lg0-a1-m1-cE_6lg0-a1-m1-cF Crystal structure of SbCGTa in complex with UDP 2.998 X-RAY DIFFRACTION 45 0.995 65409 (Scutellaria baicalensis) 65409 (Scutellaria baicalensis) 443 444 6lg0-a1-m1-cC_6lg0-a1-m1-cE AHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDAKKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEVEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN NVGAHIALFPCAGMGHLLPFLRLAAMLDARGCAVTVITVKPTVSAAESDHLSAFFTIHPRITRLEFQLLPYQKSGLRNDDPFFIQMETIATSVHLLRPLLSSLSPPLSAIVSDFTLTSQVTDLVSDLPISTYTLMTSSAAFFCLMAYLPKLLQIDVANRDAIEIPDLGPISMSSIPPKMLDPSDFFSAFISSNVSSLHKVKGVLINTFNSFESEAIEAVRRNGVDHILPIGPLESYDKAHDLPWLDEQPPESVLFVSFGSRTALSKEQIRELGAALEKSGCRFLWVLKGGKVDKEDKEEVEDMLGASFVERTKKKGLIVKGWVKQEQILAHPAIGGFVSHCGWNSVIEAARLGVPVLAWPQHGDQSVNAGVVEKAGLGLWVREWGWGQTKLIGREEIAEKMIEVMQDEKLRVSAGEVRAKAKETREVDGDSEALLQRLIHSFNN 6lg1-a1-m1-cB_6lg1-a1-m1-cA Crystal structure of LpCGTa in complex with UDP 3.047 X-RAY DIFFRACTION 65 0.993 50518 (Landoltia punctata) 50518 (Landoltia punctata) 425 429 AVPHVALLPSSGMGHLTPFLRLAAALASHGCVITFITPTPVVSAAEARHVEAFISSSPLFRRLEFPLLPFSDDPFFLQFERISRSARHLGPVLSSVSPPLSALILDVTLTSSILPIAAEISLPAYILFTSSAGMLSLCLSYPEIAASGTIKIPGVAEDLAPSSLPQPLRDPRNLFTGQFIENGRAMARADGIIINTWEALEPATLAALQGSKAVSGFPLVIPVGPLLAAADDLVIPWLDAQPASSVVFVSFGSRTALSAEQLRELAAGLESSGCRFLWVLELLGEGFLQRVEWKGKVVSGWVDQRAVLDHPSVGGFVSHCGWNSVTEAALGGMRVLAWPRHGDQRINAMVVEKSGLGKWPSLWTWEGDDEIVRREEIAGRVAELMASPAAAAAAAKVKEEAVRAATAGGSSQRQLEDLVSRFTCS AVPHVALLPSSGMGHLTPFLRLAAALASHGCVITFITPTPVVSAAEARHVEAFISSSPLFRRLEFPLLPFDVSSVVSDDPFFLQFERISRSARHLGPVLSSVSPPLSALILDVTLTSSILPIAAEISLPAYILFTSSAGMLSLCLSYPEIAASGVTIKIPGVAEDLAPSSLPQPLRDPRNLFTGQFIENGRAMARADGIIINTWEALEPATLAALQGSKAVSGFPLVIPVGPLLADLVIPWLDAQPASSVVFVSFGSRTALSAEQLRELAAGLESSGCRFLWVLELLGEGFLQRVEWKGKVVSGWVDQRAVLDHPSVGGFVSHCGWNSVTEAALGGMRVLAWPRHGDQRINAMVVEKSGLGKWPSLWTWEGDDEIVRREEIAGRVAELMASPAAAAAAAKVKEEAVRAATAGGSSQRQLEDLVSRFTCS 6lg2-a1-m1-cA_6lg2-a1-m1-cB VanR bound to Vanillate Q8NN31 Q8NN31 1.6 X-RAY DIFFRACTION 197 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 183 188 5z7b-a1-m1-cA_5z7b-a1-m1-cB MTLRSALLALLSSGPLTGYDASQRFGASVGFVWSGSDSQIYPELRKMEAEELLVGSDVTEYALSEKGWEALRKAWYEPVTYGPTRDPARLKAAYFEVGTNGDARRHLRAHIAHFEQQKIQSESMIDELKAKTHPTLARRLERSPKKEHERIVAFKVLAYEGQIARAQAEIEWAEKGLKLLDTL MTLRSALLALLSSGPLTGYDASQRFGASVGFVWSGSDSQIYPELRKMEAEELLVGSDVPWATKTEYALSEKGWEALRKAWYEPVTYGPTRDPARLKAAYFEVGTNGDARRHLRAHIAHFEQQKIQSESMIDELKAKTHPTLARRLERSPKKEHERIVAFKVLAYEGQIARAQAEIEWAEKGLKLLDTL 6lge-a1-m1-cB_6lge-a1-m1-cA Bombyx mori GH13 sucrose hydrolase complexed with acarbose A0A077JI83 A0A077JI83 1.75 X-RAY DIFFRACTION 36 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 569 570 6lga-a1-m1-cB_6lga-a1-m1-cA 6lgb-a1-m1-cA_6lgb-a1-m1-cB 6lgc-a1-m1-cA_6lgc-a1-m1-cB 6lgd-a1-m1-cA_6lgd-a1-m1-cB 6lgf-a1-m1-cA_6lgf-a1-m1-cB 6lgg-a1-m1-cA_6lgg-a1-m1-cB 6lgh-a1-m1-cA_6lgh-a1-m1-cB 6lgi-a1-m1-cA_6lgi-a1-m1-cB PPTEVIQLDWWKNCVLYQIYPRSFKDSDGDGIGDLKGIISELKHFVDAGVDAIWMSPIFESPMVDFGYDISNFYDIHYEYGTMEDFEELLDKAHELGLKVLLDFVPNHASNESEYFIKSEAREPGYENFFIWADPLPNPENPGVRLPPSNWVSQFGGSAWEWSEKRQQYYLHQFAIQQVDFDFRNPAVKQEMFNIMKFWLDKGADGFRLDALPYLIEADPADHEGRYPDDPLSGLTQFESHQLGYTIPLYTKDLIELYDVVYEWREFLDEYNKNHGGDTRVVFSEGYANVSMTMLYYGNEDGAIGAHFPFNFDFITDLSSKSNARDFVYIILRWLTYMPYGGIPNWVFGNHDNNRMPTRFRHDMVDGLNIINMLLPGVAVTYQGEEIGMRDGYVSWEDTVDIEACNRGDPDTYHLYSRDPARTPYHWDNSTSAGFSTSTNTWLPVAEDYQEINLAKQKETARSHFKNYQALTKLRKQATLSHGEYDIRALSDRTFYLVRSLPTHDTYVLLFNVSERRDTVDLGRVPHLTLPATVYVSSIHSARLAGHEITSSQLSLEAGEALVLKAQPI PPPTEVIQLDWWKNCVLYQIYPRSFKDSDGDGIGDLKGIISELKHFVDAGVDAIWMSPIFESPMVDFGYDISNFYDIHYEYGTMEDFEELLDKAHELGLKVLLDFVPNHASNESEYFIKSEAREPGYENFFIWADPLPNPENPGVRLPPSNWVSQFGGSAWEWSEKRQQYYLHQFAIQQVDFDFRNPAVKQEMFNIMKFWLDKGADGFRLDALPYLIEADPADHEGRYPDDPLSGLTQFESHQLGYTIPLYTKDLIELYDVVYEWREFLDEYNKNHGGDTRVVFSEGYANVSMTMLYYGNEDGAIGAHFPFNFDFITDLSSKSNARDFVYIILRWLTYMPYGGIPNWVFGNHDNNRMPTRFRHDMVDGLNIINMLLPGVAVTYQGEEIGMRDGYVSWEDTVDIEACNRGDPDTYHLYSRDPARTPYHWDNSTSAGFSTSTNTWLPVAEDYQEINLAKQKETARSHFKNYQALTKLRKQATLSHGEYDIRALSDRTFYLVRSLPTHDTYVLLFNVSERRDTVDLGRVPHLTLPATVYVSSIHSARLAGHEITSSQLSLEAGEALVLKAQPI 6lgx-a1-m2-cB_6lgx-a1-m1-cA Structure of Rabies virus glycoprotein at basic pH O92284 O92284 3.097 X-RAY DIFFRACTION 171 1.0 11292 (Lyssavirus rabies) 11292 (Lyssavirus rabies) 348 377 FPIYTIPDELGPWSPIDIHHLSCPNNLVVEDEGCTNLSEFSYMELKVGYISAIKVNGFTCTGVVTRKHFRPTPDACRAAYNWKMAGDPRYESLIIISPSVTDLDPYDKSLHSRVFPGGKCSGITVSSTYCSTNHDYTIWMPENPRPRTPCDIFTNSRGKRASNGNKTCGFVDERGLYKSLKGACRLKLCGVLGLRLMDGTWVAMQTSDETKWCPPDVKKREECLDALESIMTTKSVSFRRLSHLRKLVPGFGKAYTIFNKTLMEADAHYKSVRTWNEIIPSKGCLKVGGRCHPHVNGVFFNGIILGPDDHVLIPEMQSSLLQQHMELLKSSVIPLMHPLADPSTVFKE KFPIYTIPDELGPWSPIDIHHLSCPNNLVVEDEGCTNLSEFSYMELKVGYISAIKVNGFTCTGVVTEAETFKRKHFRPTPDACRAAYNWKMAGDPRYRTTKESLIIISPSVTDLDPYDKSLHSRVFPGGKCSGITVSSTYCSTNHDYTIWMPENPRPRTPCDIFTNSRGKRASNGNKTCGFVDERGLYKSLKGACRLKLCGVLGLRLMDGTWVAMQTSDETKWCPPDHLVVEELVKKREECLDALESIMTTKSVSFRRLSHLRKLVPGFGKAYTIFNKTLMEADAHYKSVRTWNEIIPSKGCLKVGGRCHPHVNGVFFNGIILGPDDHVLIPEMQSSLLQQHMELLKSSVIPLMHPLADPSTVFKEGDEAEDFVEVH 6lh6-a1-m1-cB_6lh6-a1-m1-cA Crystal structure of a double headed Bowman-birk protease inhibitor protein from chickpea. A0A1S2XQ25 A0A1S2XQ25 1.4 X-RAY DIFFRACTION 108 1.0 3827 (Cicer arietinum) 3827 (Cicer arietinum) 66 71 GYKVKSTTTACCDSCVCTKSIPPQCRCNDMGETCHSACKQCICALSYPPICRCMDNTGFCYDSCSK GYKVKSTTTACCDSCVCTKSIPPQCRCNDMGETCHSACKQCICALSYPPICRCMDNTGFCYDSCSKSKDQD 6lhg-a2-m1-cI_6lhg-a2-m1-cJ Crystal structure of chicken cCD8aa/pBF2*04:01 Q6QR64 Q6QR64 2.8 X-RAY DIFFRACTION 37 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 112 112 5eb9-a1-m1-cA_5eb9-a1-m2-cA 6lhf-a1-m1-cG_6lhf-a1-m1-cH 6lhf-a2-m1-cI_6lhf-a2-m1-cJ 6lhg-a1-m1-cG_6lhg-a1-m1-cH TMEARFLNRNMKHPQEGQPLELECMPFNIDNGVSWIRQDKDGKLHFIVYISPLSRTAFPRNERTSSQFEGSKQGSSFRLVVKNFRAQDQGTYFCIANINQMLYFSSGQPAFF TMEARFLNRNMKHPQEGQPLELECMPFNIDNGVSWIRQDKDGKLHFIVYISPLSRTAFPRNERTSSQFEGSKQGSSFRLVVKNFRAQDQGTYFCIANINQMLYFSSGQPAFF 6lhu-a1-m1-cA_6lhu-a1-m1-cB High resolution structure of FANCA C-terminal domain (CTD) Q4VT51 Q4VT51 3.46 ELECTRON MICROSCOPY 162 0.987 8355 (Xenopus laevis) 8355 (Xenopus laevis) 711 807 6lhs-a1-m1-cB_6lhs-a1-m1-cA EPLGILQSALSDLRPLVTDANKYEDVSAQVAVISEKLIAQEQTVADLLLTCFCQCLIAASGTNPPDRQGQWPTLYVKMLCGHQWAFAAVLRRMLQLLRFQAPFLKDSHIVGLAAFSIHLHECQPSLQFLITGVQNLEHYWENLLNLLCSDSVGVCLKLCTAAISYAFCRFSELHQDIFSGCVPPLFLRKLQYLVPRLIWETRGEVADSPLNWNLYALAGWKEAALSLWNQNRLQGLLREKSFQVTFMDWLLWEMTLKSNNDVLCDTDRQEYQRWAVNHYLSESSVVGGCNGDLERGCITIAEAVLQFSNRHIQHSLKSHTGLGDILCRLQELICDIVTSHHQKGRRHFFFAIFYQRLELHKHLSKQGVLEMCCRILLGLPPLFLINTPSEKGIRTLGSEDFWQFVNKELKNLGPRGYALPYNITAHFFRGVISASVQCKDSSEAVNSILSATYSTCPALLISAAVGWPQLDPVLRSQWCSLFGVDLPKELRTLREQQASVDSCLSQGEKLSLSCTPWLSAAFLYSTVQRKKLPCSRMLEILDGLSSNFSMVLISLLFFSVMDIIYMFLKDGRKHKDLLENCVHIIHCLEQKGETWVWLFQMTDERKPELGLHLHRAASDVFLNLMPFAFFWLVPSLQLEQVVQQQDFLVIALDMYHKFLQLFVHHLDSHDVFTCGRQFLLCCVPKCQKPNSAILKKMLESWEEHDPELAAV SQAHQDVEKALNIFENTGKIPASVMEASIFRRPYFTSRFLPALLTPRVLPAAPDALMLLIDSMKRADKIPTNMFNAYIEACEQEKLRKQKPLGILQSALSDLRPLVTDANKYEDVSAQVAVISEKLIADIQEQTVADLLLTCFCQCLIAASGTNPPDRQGQWPTLYVKMLCGHQWAFAAVLRRMLQLLRFQAPFLKDSHIVGLAAFSIHLHECQPSLQFLITGVQNLEHYWENLLNLLCSDSVGVCLKLCTAAISYAFCRFSELHQDIFSGCVPPLFLRKLQYLVPRLIWETRGEVIRDDEEADSPLNWNLYALAGWKEAALSLWNQNRLQGLLREKSFQVTFMDWLLWEMTLKSNNDVLCDTDRQEYQRWAVNHYLSESSVVGGCNGDLERGCITIAEAVLQFSNKSHTGLGDILCRLQELICDIVTSHHQKGRRHFFFAIFYQRLELHKGKKELSNHLSKQGVLEMCCRILLGLPPLFLINTPSEKGIRTLGSEDFWQFVNKELKNLGPRGYALPYNITAHFFRGVISASVQCKDSSEAVNSILSATYSTCPALLISAAVGWPQLDPVLRSQWCSLFGVDLPKELRTLREQQASVDSCLSQGEKLSLSCTPWLSAAFLYSTVQRKKLPCSRMLEILDGLSSNFSMVLISLLFFSVMDIIYMFLKDGRKHKDLLENCVHIIHCLEQKGETWVWLFQMTDERKPELGLHLHRAASDVFLNLMPFAFFWLVPSLQLEQVVQQQDFLVIALDMYHKFLQLFVHLDSHDVFTCGRQFLLCCVPKCQKPNSAILKKMLESWEEHDPELAAV 6lhx-a1-m1-cB_6lhx-a1-m1-cC Crystal structure of ThsA J8G6Z1 J8G6Z1 2.501 X-RAY DIFFRACTION 29 0.992 1053222 (Bacillus cereus MSX-D12) 1053222 (Bacillus cereus MSX-D12) 398 450 HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVLDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPSEIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAVEYNHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELYNTIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKGQVVKAKGVQSEFNISFEQNNYVVPVGIAKDLWNKVNEEFETYYPGAKKLFGELNLSIEELINTIIEFVEILSN HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSWAKLLEPIAQEIGNDLVSLAQYYCNENQGNRGRINQIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPSEAVLIKDDYEKYSIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAVEYNHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELYTIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKGQVVKAKGVQSEFNISFEQNNYVVPVGATGYIAKDLWNKVNEEFETYYPGAKKLFGELNSIEELINTIIEFVEILS 6lhx-a1-m1-cC_6lhx-a1-m1-cA Crystal structure of ThsA J8G6Z1 J8G6Z1 2.501 X-RAY DIFFRACTION 33 0.989 1053222 (Bacillus cereus MSX-D12) 1053222 (Bacillus cereus MSX-D12) 450 453 HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSWAKLLEPIAQEIGNDLVSLAQYYCNENQGNRGRINQIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPSEAVLIKDDYEKYSIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAVEYNHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELYTIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKGQVVKAKGVQSEFNISFEQNNYVVPVGATGYIAKDLWNKVNEEFETYYPGAKKLFGELNSIEELINTIIEFVEILS HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSWAKLLPIAQEIGLDVNDLVSLAQYYCNENQGNRGRINQIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPSEAVLIKDDYEKYSIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAVEYHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELYTIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKVVKAKGVQSEFNISFEQNNYVVPVGATGIAKDLWNKVNEEFETYYPGADRKKLFGELNALSIEELINTIIEFVEILSN 6lhx-a1-m1-cD_6lhx-a1-m1-cA Crystal structure of ThsA J8G6Z1 J8G6Z1 2.501 X-RAY DIFFRACTION 26 0.995 1053222 (Bacillus cereus MSX-D12) 1053222 (Bacillus cereus MSX-D12) 394 453 HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKGVVKAKGVQSEFNISFEQNNYVVPVGATGYIAKDLWNKVNEEFETYYPGADKKLFGELLSIEELINTIIEFVEILS HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSWAKLLPIAQEIGLDVNDLVSLAQYYCNENQGNRGRINQIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPSEAVLIKDDYEKYSIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAVEYHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELYTIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKVVKAKGVQSEFNISFEQNNYVVPVGATGIAKDLWNKVNEEFETYYPGADRKKLFGELNALSIEELINTIIEFVEILSN 6lhx-a1-m1-cD_6lhx-a1-m1-cC Crystal structure of ThsA J8G6Z1 J8G6Z1 2.501 X-RAY DIFFRACTION 126 0.995 1053222 (Bacillus cereus MSX-D12) 1053222 (Bacillus cereus MSX-D12) 394 450 6lhx-a1-m1-cB_6lhx-a1-m1-cA 7uxs-a1-m1-cB_7uxs-a1-m1-cA HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKGVVKAKGVQSEFNISFEQNNYVVPVGATGYIAKDLWNKVNEEFETYYPGADKKLFGELLSIEELINTIIEFVEILS HNPIVELFIKDFTKEVEENAAIFAGAGLSSVGYVSWAKLLEPIAQEIGNDLVSLAQYYCNENQGNRGRINQIILDEFSRKVDLTENHKILARLPIHTYWTTNYDRLIEKALEEENKIADVKYTVKQLATTKVKRDAVVYKHGDVEHPSEAVLIKDDYEKYSIKDPYIKALSGDLVSKTFLFVGFSFTDPNLDYILSRVRSAYERDQRRHYCLIKKEERRPDELEADFEYRVRKQELFISDLSRFNIKTIVLNNYNEITEILQRIENNIKTKTVFLSGSAVEYNHWETEHAEQFIHQLSKELIRKDFNIVSGFGLGVGSFVINGVLEELYTIDDDRLILRPFPQGKKGEEQWDKYRRDITRTGVSIFLYGNKIDKGQVVKAKGVQSEFNISFEQNNYVVPVGATGYIAKDLWNKVNEEFETYYPGAKKLFGELNSIEELINTIIEFVEILS 6lii-a2-m1-cD_6lii-a2-m1-cC A quinone oxidoreductase Q99536 Q99536 2.3 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 342 345 6k9y-a1-m1-cB_6k9y-a1-m1-cA 6k9y-a2-m1-cC_6k9y-a2-m1-cD 6lhr-a1-m1-cB_6lhr-a1-m1-cA 6lhr-a2-m1-cD_6lhr-a2-m1-cC 6lii-a1-m1-cB_6lii-a1-m1-cA PPLLRCLVLTGFGGYDKVKLQSRPAAPPAPGPGQLTLRLRACGLNFADLMARQGLYDRLPPLPVTPGMEGAGVVIAVGEGVSDRKAGDRVMVLNRSGMWQEEVTVPSVQTFLIPEAMTFEEAAALLVNYITAYMVLFDFGNLQPGHSVLVHMAAGGVGMAAVQLCRTVENVTVFGTASASKHEALKENGVTHPIDYHTTDYVDEIKKISPKGVDIVMDPLGGSDTAKGYNLLKPMGKVVTYGMANLLTGPKRNLARTWWNQFSVTALQLLQANRAVCGFHLGYLDGEVELVSGVVARLLALYNQGHIKPHIDSVWPFEKVADAMKQMQEKKNVGKVLLVPGP PPLLRCLVLTGFGGYDKVKLQSRPAAPPAPGPGQLTLRLRACGLNFADLMARQGLYDRLPPLPVTPGMEGAGVVIAVGEGVSDRKAGDRVMVLNRSGMWQEEVTVPSVQTFLIPEAMTFEEAAALLVNYITAYMVLFDFGNLQPGHSVLVHMAAGGVGMAAVQLCRTVENVTVFGTASASKHEALKENGVTHPIDYHTTDYVDEIKKISPKGVDIVMDPLGGSDTAKGYNLLKPMGKVVTYGMANLLTGPKRNLMALARTWWNQFSVTALQLLQANRAVCGFHLGYLDGEVELVSGVVARLLALYNQGHIKPHIDSVWPFEKVADAMKQMQEKKNVGKVLLVPGP 6lit-a1-m1-cB_6lit-a1-m1-cA Estrogen-related receptor beta(ERR2) in complex with BPA O95718 O95718 2 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 198 6ln4-a1-m1-cA_6ln4-a1-m2-cA GDIKALTTLCDLADRELVVIIGWAKHIPGFSSLSLGDQMSLLQSAWMEILILGIVYRSLPYDDKLVYAEDYIMDEEHSRLAGLLELYRAILQLVRRYKKLKVEKEEFVTLKALALANSDSMHIEDLEAVQKLQDLLHEALQDYELSQHHEEPWRTGKLLLTLPLLRQTAAKAVQHFYSVKLQGKVPMHKLFLEMLEA GDIKALTTLCDLADRELVVIIGWAKHIPGFSSLSLGDQMSLLQSAWMEILILGIVYRSLPYDDKLVYAEDYIMDEEHSRLAGLLELYRAILQLVRRYKKLKVEKEEFVTLKALALANSDSMHIEDLEAVQKLQDLLHEALQDYELSQHHEEPWRTGKLLLTLPLLRQTAAKAVQHFYSVKLQGKVPMHKLFLEMLEAK 6liv-a2-m1-cD_6liv-a2-m1-cC Crystal structure of Tyrosine decarboxylase in complex with PLP P54769 P54769 2.31 X-RAY DIFFRACTION 433 1.0 3469 (Papaver somniferum) 3469 (Papaver somniferum) 482 484 6liu-a1-m1-cA_6liu-a1-m1-cB 6liu-a2-m1-cC_6liu-a2-m1-cD 6liv-a1-m1-cB_6liv-a1-m1-cA 6liv-a3-m1-cF_6liv-a3-m1-cE GVTNPLDPEEFRRQGHMIIDFLADYYRDVEKYPVRSQVEPGYLRKRLPETAPYNPESIETILQDVTTEIIPGLTHWQSPNYYAYFPSSGSVAGFLGEMLSTGFNVVGFNWMSSPAATELESVVMDWFGKMLNLPESFLFSGSGGGVLQGTSCEAILCTLTAARDRKLNKIGREHIGRLVVYGSDQTHCALQKAAQVAGINPKNFRAIKTFKENSFGLSAATLREVILEDIEAGLIPLFVCPTVGTTSSTAVDPISPICEVAKEYEMWVHVDAAYAGSACICPEFRHFIDGVEEADSFSLNAHWFFTTLDCCCLWVKDPSALVKALSTNPEYLRVVDYKDWQIALSRRFRSLKLWMVLRSYGVTNLRNFLRSHVKMAKTFEGLICMDGRFEITVPRTFAMVCFRLLPPENLVLANKLNQVYLETVNATGSVYMTHAVVGGVYMIRFAVGSTLTEERHVIYAWKILQEHADLILGKFSEADFSS GVTNPLDPEEFRRQGHMIIDFLADYYRDVEKYPVRSQVEPGYLRKRLPETAPYNPESIETILQDVTTEIIPGLTHWQSPNYYAYFPSSGSVAGFLGEMLSTGFNVVGFNWMSSPAATELESVVMDWFGKMLNLPESFLFSGSGGGVLQGTSCEAILCTLTAARDRKLNKIGREHIGRLVVYGSDQTHCALQKAAQVAGINPKNFRAIKTFKENSFGLSAATLREVILEDIEAGLIPLFVCPTVGTTSSTAVDPISPICEVAKEYEMWVHVDAAYAGSACICPEFRHFIDGVEEADSFSLNAHWFFTTLDCCCLWVKDPSALVKALSTNPEYLRNKVVDYKDWQIALSRRFRSLKLWMVLRSYGVTNLRNFLRSHVKMAKTFEGLICMDGRFEITVPRTFAMVCFRLLPPENLVLANKLNQVYLETVNATGSVYMTHAVVGGVYMIRFAVGSTLTEERHVIYAWKILQEHADLILGKFSEADFSS 6liy-a1-m1-cA_6liy-a1-m1-cB SeMet CRL Protein of Arabidopsis Q9FI46 Q9FI46 1.761 X-RAY DIFFRACTION 54 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 192 193 6lix-a1-m1-cA_6lix-a1-m1-cB TTRRDHARVVSRSLTGEKFTREQASRDPDNYFNIRLSCPAAEVDGSEVLYLEQAFWRTPQKPFRQRLYVKPCPKELKCDVEVSSYAIRDAEEYKNFCDRPKDQRPLPEEVIGDIGEHLTTIHLNCCDRGKRCLYEGSTSPGGFPNSWNGASYCTSDLAVLKNNEIHLWDRGFDENRNQVWGPKEGPYEFKPA STTRRDHARVVSRSLTGEKFTREQASRDPDNYFNIRLSCPAAEVDGSEVLYLEQAFWRTPQKPFRQRLYVKPCPKELKCDVEVSSYAIRDAEEYKNFCDRPKDQRPLPEEVIGDIGEHLTTIHLNCCDRGKRCLYEGSTSPGGFPNSWNGASYCTSDLAVLKNNEIHLWDRGFDENRNQVWGPKEGPYEFKPA 6lj9-a1-m1-cB_6lj9-a1-m1-cA Crystal Structure of Se-Met ASFV pS273R protease P0C9B9 P0C9B9 2.307 X-RAY DIFFRACTION 39 1.0 561445 (African swine fever virus pig/Kenya/KEN-50/1950) 561445 (African swine fever virus pig/Kenya/KEN-50/1950) 255 268 SILEKITSSPSECAEHITNKDSCLSKKIQKELTSFLQKKETLGCDSESCVITHPAVKAYAQQKGLDLSKELETRFKAPGPRNNTGLLTNFNIDETLQRWAIKYTKFFNCPFSIHYKFNQVDVKVYKGEELQYVEGKAVKRPCNTFGCVLNTKHWVAIFVDRGDCWSIEYFNSAGNSPPGPVIRWERVKQQLLKIHHTVKTLAVTNIRHQRSQTECGPYSLFYIRARLDNVSYTHFISTRITDEEYKFRTHLFRIA SILEKITSSPSECAEHITNKDSCLSKKIQKELTSFLQKKETLGCDSESCVITHPAVKAYAQQKGLDLSKELETRFKAPGPRNNTGLLTNFNIDETLQRWAIKYTKFFNCPFSMMDFERIHYKFNQVDVKVYKGEELQYVEGKAVKRPCNTFGCVLNTDFSTGTGKHWVAIFVDRGDCWSIEYFNSAGNSPPGPVIRWERVKQQLLKIHHTVKTLAVTNIRHQRSQTECGPYSLFYIRARLDNVSYTHFISTRITDEEYKFRTHLFRIA 6lk3-a1-m1-cA_6lk3-a1-m1-cB The Functional Characterization and Crystal Structure of Type II Peptidyl Carrier Protein ColA1a in Collismycins Biosynthesis H1ZYT7 H1ZYT7 2.1 X-RAY DIFFRACTION 24 1.0 1068630 (Streptomyces sp. CS40) 1068630 (Streptomyces sp. CS40) 72 79 VSVDVLKQLLLDIGIAEQTLTEIEPGTRLRADLGLSSVETTDLEIQLRERFGVRINLWDKADYTMEQLAVGI VSVDVLKQLLLDIGIAEQTLTEIEPGTRLRADLGLSSVETTDLEIQLRERFGVRINLWDKADYTMEQLAVGIREMPRLE 6lk7-a2-m1-cC_6lk7-a2-m1-cD crystal structure of Os1348 from Pseudomonas sp. Os17 A0A0D6BD52 A0A0D6BD52 1.903 X-RAY DIFFRACTION 87 1.0 1500686 (Pseudomonas sp. Os17) 1500686 (Pseudomonas sp. Os17) 66 66 6lk7-a1-m1-cB_6lk7-a1-m1-cA KVNQERLASVVGRALLDKDFAAQLHQDPEAAAKGIGVHLSATEVGAVKSIDTAKLTSAGSAIRDKI KVNQERLASVVGRALLDKDFAAQLHQDPEAAAKGIGVHLSATEVGAVKSIDTAKLTSAGSAIRDKI 6lk8-a1-m1-cJ_6lk8-a1-m1-cj Structure of Xenopus laevis Cytoplasmic Ring subunit. A0A1L8H1I9 A0A1L8H1I9 5.5 ELECTRON MICROSCOPY 21 0.997 8355 (Xenopus laevis) 8355 (Xenopus laevis) 1026 1027 ETVNYNVQLFGSSLPVKVMEALSNASADEPMAACIHEGGWAWLACNDRLIIWKISHSSSAKLMVCKELPLPLSDSEWSADLVDICAQTGDPAAAQSVALMAATPEGSSRYWPNILHEGTYIESYTEFGSLCAFVTAVKGNSFILSSEKNQLVRLTPDASGKMNQRVLPQGQGMLSGIGRRVSTLFGILSPAVESTLCSVLWDDCFYTLTDSSINKWDLDDTSESQVLNWDMSRVLREYISDAIWGSESDYDDIKAGININYLSLNQNCDGLVILSAAWHPGDNPCQIYYTLVTVKDEGYNISDEITVEVTQFNPVFQARGMQLCQLVVPNFSSQACYLYTQEMIFACSTGTGRSTLPQEKIPFEAQGDNIVGAGSCEGWPVFFIRKSGMLTVVAREKTKHLKAAFLRYCRKDILGAQSMVDSLFSDSDMEPDDELDLAVNQISVDLIDDYPASDPRWAESVPEEAAGFSNTSLILLHQLEDKMKAHSFFVDFLHQVGLFSRLTCQTKGMLVATRLLLSEHAEKLSAAIVLKNHHAKLPVLVNSAIQLALDKRMCTVPQNLTAADVYFREVSQMEIIFECLVDKEEADLESTSIDSVEWANIVVNVNTILKDMLHVACQYRQSKNSLYKNESGIQEPEHVPWTASSGTAGIRSVVTRQHGIILKVYPQADSGLRTILIEQLAALLNYLLDDYVTQLKSIDKLANEERYNILEMEYAQKRSELLSPLLILGQYAWASNLAEKYCDFDILVQICEMTDNQSRLQRYMTLFAEQNFSDFLFRWYLEKGKRGKLLSQPASQHGQLAAFLQALSWLHELNSQEFEKAHRTLQTLANMETRYFCKKKTLLGLSKLAALASDFQEDVLQEKVEEIAEQEHFLLHQETLPKKLLEEKQLDLNAMPVLAPFQLIQLYVCEENKRANENDFMKALDLLEYIGDDSEVDVEELKLEILCKAIKRDEWSATDGKDDPIEATKDSIFVKVLQNLLNKGIELKGYLPKAETLLQSEELNSLKTNSYFEFSLKANYECYMKM ETVNYNVQLFGSSLPVKVMEALSNASADEPMAACIHEGGWAWLACNDRLIIWKISHSSSAKLMVCKELPLPLSDSEWSADLVDICAQTGDPAAAQSVALMAATPEGSSRYWPNILHEGTYIESYTEFGSLCAFVTAVKGNSFILSSEKNQLVRLTPDASGKMNQRVLPQGQGMLSGIGRRVSTLFGILSPAVESTLCSVLWDDCFYTLTDSSINKWDLDDTSESQVLNWDMSRVLREYISDAIWGSESDYDDIKAGININYLSLNQNCDGLVILSAAWHPGDNPCQIYYTLVTVKDEGYNISDEITVEVTQFNPVFQARGMQLCQLVVPNFSSQACYLYTQEMIFACSTGTGRSTLPQEKIPFEAQGDNIVGAGSCEGWPVFFIRKSGMLTVVAREKTKHLKAAFLRYCRKDILGAQSMVDSLFSDSDMEPDDELDLAVNQISVDLIDDYPASDPRWAESVPEEAAGFSNTSLILLHQLEDKMKAHSFFVDFLHQVGLFSRLTCQTKGMLVATRLLLSEHAEKLSAAIVLKNHHAKLPVLVNSAIQLALDKRMCTVPQNLTAADVYFREVSQMEIIFECLVDKEEADLESTSIDSVEWANIVVNVNTILKDMLHVACQYRQSKNSLYKNESGIQEPEHVPWTASSGTAGIRSVVTRQHGIILKVYPQADSGLRTILIEQLAALLNYLLDDYVTQLKSIDKLANEERYNILEMEYAQKRSELLSPLLILGQYAWASNLAEKYCDFDILVQICEMTDNQSRLQRYMTLFAEQNFSDFLFRWYLEKGKRGKLLSQPHGQLAAFLQAHDHLSWLHELNSQEFEKAHRTLQTLANMETRYFCKKKTLLGLSKLAALASDFQEDVLQEKVEEIAEQEHFLLHQETLPKKLLEEKQLDLNAMPVLAPFQLIQLYVCEENKRANENDFMKALDLLEYIGDDSEVDVEELKLEILCKAIKRDEWSATDGKDDPIEATKDSIFVKVLQNLLNKGIELKGYLPKAETLLQSEELNSLKTNSYFEFSLKANYECYMKMQ 6lkb-a1-m1-cA_6lkb-a1-m1-cB Crystal Structure of the peptidylprolyl isomerase domain of Arabidopsis thaliana CYP71. Q8W4D0 Q8W4D0 1.651 X-RAY DIFFRACTION 23 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 160 160 SATTSLPENVIMHTTLGDIHMKLYPEECPKTVENFTTHCRNGYYDNHLFHRVIRGFMIQTGDPLGDGTGGQSIWGREFEDEFHKSLRHDRPFTLSMANAGPNTNGSQFFITTVATPWLDNKHTVFGRVVKGMDVVQGIEKVKTDKNDRPYQDVKILNVTV SATTSLPENVIMHTTLGDIHMKLYPEECPKTVENFTTHCRNGYYDNHLFHRVIRGFMIQTGDPLGDGTGGQSIWGREFEDEFHKSLRHDRPFTLSMANAGPNTNGSQFFITTVATPWLDNKHTVFGRVVKGMDVVQGIEKVKTDKNDRPYQDVKILNVTV 6lkc-a1-m1-cA_6lkc-a1-m1-cB Crystal structure of PfaD from Shewanella piezotolerans in complex with FMN B8CQB6 B8CQB6 1.998 X-RAY DIFFRACTION 167 1.0 225849 (Shewanella piezotolerans WP3) 225849 (Shewanella piezotolerans WP3) 530 533 SPWPWLVTDTNISFDVTVMEQQLRDFSRGCYVVNHNEKGVGIAQTAELVADQASNSLPVAAFTPALGTESLGDSNFRRVHGVKYAYYAGAMANGISSEELVIALGQAGILCSFGAAGLIPSRVEKAINRIQAALPNGPYMFNLIHSPSEPALERGSVELFLKHKVRTVEASAFLGLTPQIVYYRAAGLSRDAQGNIVVANKVIAKVSRTEVAEKFMMPAPAKMLQKLVDEGSITPEQMELAQLVPMADDITAEADSGGHTDNRPLVTLLPTILALKEEIQTKYQYPTPIRVGCGGGVGTPDAALATFNMGAAYIVTGSVNQACVEAGASEHTRKLLSTTEMADVTMAPAADMFEMGVKLQVVKRGTLFPMRANKLYELYTRYDSIEAIPADEREKLEKQVFRSTLDDIWAGTVAHFNERDPKQIERATDNPKRKMALIFRWYLGLSSRWSNSGETGREMDYQIWAGPALGAFNQWAKGSYLDNYQERNAVDVAKHLMYGAAYLNRVNSLTSQGVKLPTQLLRWKPTQRMA LSPWPWLVTDTNISFDVTVMEQQLRDFSRGCYVVNHNEKGVGIAQTAELVADQAANSNSLPVAAFTPALGTESLGDSNFRRVHGVKYAYYAGAMANGISSEELVIALGQAGILCSFGAAGLIPSRVEKAINRIQAALPNGPYMFNLIHSPSEPALERGSVELFLKHKVRTVEASAFLGLTPQIVYYRAAGLSRDAQGNIVVANKVIAKVSRTEVAEKFMMPAPAKMLQKLVDEGSITPEQMELAQLVPMADDITAEADSGGHTDNRPLVTLLPTILALKEEIQTKYQYPTPIRVGCGGGVGTPDAALATFNMGAAYIVTGSVNQACVEAGASEHTRKLLSTTEMADVTMAPAADMFEMGVKLQVVKRGTLFPMRANKLYELYTRYDSIEAIPADEREKLEKQVFRSTLDDIWAGTVAHFNERDPKQIERATDNPKRKMALIFRWYLGLSSRWSNSGETGREMDYQIWAGPALGAFNQWAKGSYLDNYQERNAVDVAKHLMYGAAYLNRVNSLTSQGVKLPTQLLRWKPTQRMA 6lke-a1-m1-cB_6lke-a1-m1-cA in meso full-length rat KMO in complex with an inhibitor identified via DNA-encoded chemical library screening O88867 O88867 3 X-RAY DIFFRACTION 30 0.993 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 421 428 6lkd-a1-m1-cB_6lkd-a1-m1-cA TEGKRVVVIGGGLVGALNACFLAKRNFQVDVYEAREDIRVASINLALSYRGRQALKAVGLEDQIVSKGVPMKARMIHSLSGKKSAIPYGNKSQYILSISREKLNKDLLTAVESYPNAKVHFGHKLSKCCPGILTMLGPNKVPRDITCDLIVGCDGAYSTVRAHLMKKPRFDYSQQYIPHGYMELTIPPKNGEYAMEPNCLHIWPRNAFMMIALPNMDKSFTCTLFMSFEEFEKLPTHSDVLDFFQKNFPDAIPLMGEQALMRDFFLLPAQPMISVKCSPFHLKSRCVLMGDAAHAIVPFFGQGMNAGFEDCLVFDELMDKFNNDLSVCLPEFSRFRIPDDHAISDLSMYNYIEMRAHVNSRWFLFQRLLDKFLHALMPSTFIPLYTMVAFTRIRYHEAVLRWHWQKKVINRGLFVLGSLVA TEGKRVVVIGGGLVGALNACFLAKRNFQVDVYEAREDIRVARSINLALSYRGRQALKAVGLEDQIVSKGVPMKARMIHSLSGKKSAIPYGNKSQYILSISREKLNKDLLTAVESYPNAKVHFGHKLSKCILTMLGPNKVPRDITCDLIVGCDGAYSTVRAHLMKKPRFDYSQQYIPHGYMELTIPPKNGEYAMEPNCLHIWPRNAFMMIALPNMDKSFTCTLFMSFEEFEKLPTHSDVLDFFQKNFPDAIPLMGEQALMRDFFLLPAQPMISVKCSPFHLKSRCVLMGDAAHAIVPFFGQGMNAGFEDCLVFDELMDKFNNDLSVCLPEFSRFRIPDDHAISDLSMYNYIEMRAHVNSRWFLFQRLLDKFLHALMPSTFIPLYTMVAFTRIRYHEAVLRWHWQKKVINRGLFVLGSLVAIGSAYILVH 6lkh-a1-m1-cA_6lkh-a1-m1-cB Two-component system protein mediate signal transduction X5DVD1 X5DVD1 2.534 X-RAY DIFFRACTION 40 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 294 294 NVLTVYSPYQSNLIRPILNEFEKQEHVKIEIKHGSTQVLLSNLHNEDFSERGDVFMGGVLSETIDHPEDFVPYQDTSVTQQLEDYRSNNKYVTSFLLMPTVIVVNSDLQGDIKIRGYQDLLQPILKGKIAYSNPNTTTTGYQHMRAIYSMHHRVSDVHQFQNHAMQLSKTSKVIEDVAKGKYYAGLSYEQDARTWKNKGYPVSIVYPIEGTMLNVDGIALVKNAHPHPKRKKLVQYLTSRSVQQRLVAEFDAKSIRKDVSEQSDQSIENLKNIPLIPKSKLPDIPHHKFLEMIQ NVLTVYSPYQSNLIRPILNEFEKQEHVKIEIKHGSTQVLLSNLHNEDFSERGDVFMGGVLSETIDHPEDFVPYQDTSVTQQLEDYRSNNKYVTSFLLMPTVIVVNSDLQGDIKIRGYQDLLQPILKGKIAYSNPNTTTTGYQHMRAIYSMHHRVSDVHQFQNHAMQLSKTSKVIEDVAKGKYYAGLSYEQDARTWKNKGYPVSIVYPIEGTMLNVDGIALVKNAHPHPKRKKLVQYLTSRSVQQRLVAEFDAKSIRKDVSEQSDQSIENLKNIPLIPKSKLPDIPHHKFLEMIQ 6lkh-a1-m1-cC_6lkh-a1-m1-cD Two-component system protein mediate signal transduction Q2G1E0 Q2G1E0 2.534 X-RAY DIFFRACTION 10 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 170 170 TIHQHVDESQSSLHHTEKQIQTFITQHNNSFQELDLTNHHDVTATKRELLKLIHQQPATLYYELSGPNQFITNNYEHLNTKNMYLFSTHQLKFKNSTYMLKIYMANTPRLSEIKKDNRQFALIVDQYDNILYANDDRFTIGEKYRPQQFGFMNESVKLNHADHRLIIYKD TIHQHVDESQSSLHHTEKQIQTFITQHNNSFQELDLTNHHDVTATKRELLKLIHQQPATLYYELSGPNQFITNNYEHLNTKNMYLFSTHQLKFKNSTYMLKIYMANTPRLSEIKKDNRQFALIVDQYDNILYANDDRFTIGEKYRPQQFGFMNESVKLNHADHRLIIYKD 6lkr-a1-m1-cA_6lkr-a1-m1-cB Crystal structure of mouse DCAR2 CRD domain complex Q9D8Q7 Q9D8Q7 1.84 X-RAY DIFFRACTION 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 132 132 6kzr-a1-m1-cA_6kzr-a1-m1-cB 6lfj-a1-m1-cB_6lfj-a1-m1-cA SMCPKDWKLFGSHCYLVPTVFSSASWNKSEENCSRMGAHLVVIHSQEEQDFITGILDIHAAYFIGLWDTGHRQWQWVDQTPYEESVTFWHNGEPSSDNEKCVTVYYRRNIGWGWNDISCNLKQKSVCQMKKI SMCPKDWKLFGSHCYLVPTVFSSASWNKSEENCSRMGAHLVVIHSQEEQDFITGILDIHAAYFIGLWDTGHRQWQWVDQTPYEESVTFWHNGEPSSDNEKCVTVYYRRNIGWGWNDISCNLKQKSVCQMKKI 6lkx-a1-m1-cA_6lkx-a1-m1-cB The structure of PRRSV helicase D2CSC7 D2CSC7 2.998 X-RAY DIFFRACTION 65 0.998 28344 (Porcine reproductive and respiratory syndrome virus) 28344 (Porcine reproductive and respiratory syndrome virus) 441 441 KSRMCGYCGAPAPYATACGLDVCVYHTHFHQHCPVIIWCGHPAGSGSCSECEPPLGKGTSPLDEVLEQVPYKPPRTVIMHVEQGLTPLDPGRYQTRRGLVSVRRGIRGNEVDLPDGDYASTALLPTCKEINMVAVASNVLRSRFIIGPPGAGKTHWLLQQVQDGDVIYTPTHQTMLDMIRALGTCRFNVPAGTTLQFPAPSRTGPWVRILAGGWCPGKNSFLDEAAYCNHLDVLRLLSKTTLTCLGDFKQLHPVGFDSHCYVFDIMPQTQLKTIWRFGQNICDAIQPDYRDKLMSMVNTTRVTHVEKPVRYGQVLTPYHRDREDGAITIDSSQGATFDVVTLHLPTKDSLNRQRALVAITRARHAIFVYDPHRQLQSMFDLPAKGTPVNLAVHRDEQLIVLDRNNREITVAQALGNGDKFRATDKRVVDSLRAICADLELE SRMCGYCGAPAPYATACGLDVCVYHTHFHQHCPVIIWCGHPAGSGSCSECEPPLGKGTSPLDEVLEQVPYKPPRTVIMHVEQGLTPLDPGRYQTRRGLVSVRRGIRGNEVDLPDGDYASTALLPTCKEINMVAVASNVLRSRFIIGPPGAGKTHWLLQQVQDGDVIYTPTHQTMLDMIRALGTCRFNVPAGTTLQFPAPSRTGPWVRILAGGWCPGKNSFLDEAAYCNHLDVLRLLSKTTLTCLGDFKQLHPVGFDSHCYVFDIMPQTQLKTIWRFGQNICDAIQPDYRDKLMSMVNTTRVTHVEKPVRYGQVLTPYHRDREDGAITIDSSQGATFDVVTLHLPTKDSLNRQRALVAITRARHAIFVYDPHRQLQSMFDLPAKGTPVNLAVHRDEQLIVLDRNNREITVAQALGNGDKFRATDKRVVDSLRAICADLELEH 6lky-a1-m1-cA_6lky-a1-m1-cB Crystal structure of isocitrate dehydrogenase from Methylococcus capsulatus Q602J2 Q602J2 2.2 X-RAY DIFFRACTION 189 1.0 243233 (Methylococcus capsulatus str. Bath) 243233 (Methylococcus capsulatus str. Bath) 339 339 MHKITLIPGDGIGPSIVDAAVKVIEATGVQVQWDTQSAGMAAVEKFGTPLPDATLDSIRANRICFKGPLTTPVGGGYRSVNVTLRQALNLYANVRPAISFEGTDTAFSDVNLVTVRENTEGLYAGIEHFIKVDEEKIAAESIAVVTRKGSERIIRYAFDYARRARRKKVTLVHKANILKCTSGLFLEIGREIAKEYPDIEFDDRIVDACSMQMVMQPQRFDVLVTTNLFGDILSDLAAGLIGGLGLTAGANIGTDAALFEAVHGSAPDIADKGIANPTAMIMAGAMMLEHIGEPDAARRIERAVREVIEDGRSVTPDLAKDSPCGTAQMAEAIVERVRQ MHKITLIPGDGIGPSIVDAAVKVIEATGVQVQWDTQSAGMAAVEKFGTPLPDATLDSIRANRICFKGPLTTPVGGGYRSVNVTLRQALNLYANVRPAISFEGTDTAFSDVNLVTVRENTEGLYAGIEHFIKVDEEKIAAESIAVVTRKGSERIIRYAFDYARRARRKKVTLVHKANILKCTSGLFLEIGREIAKEYPDIEFDDRIVDACSMQMVMQPQRFDVLVTTNLFGDILSDLAAGLIGGLGLTAGANIGTDAALFEAVHGSAPDIADKGIANPTAMIMAGAMMLEHIGEPDAARRIERAVREVIEDGRSVTPDLAKDSPCGTAQMAEAIVERVRQ 6lkz-a1-m1-cC_6lkz-a1-m1-cD Crystal structure of isocitrate dehydrogenase 1 from Phaeodactylum tricornutum B7G620 B7G620 2.8 X-RAY DIFFRACTION 263 1.0 2850 (Phaeodactylum tricornutum) 2850 (Phaeodactylum tricornutum) 482 482 ENKVVAPPMVYIAGEEMTRYACDLVVKSWLEPYFDLSQWEYFDLSCVNRDNTNDQVLRDAVTAGQRIGAIFKEPTITPSAIQKKAFGLKNSLGSPNGAMRAGWNGITISRDTIHIDGIELGYKRPVFFERHAVGGEYGAGWSKVGRGTLLTTYLPSDGRDPFVVDKRDLTDQHNVVVTYHNPYDNVEPLAHLFFQRCLDANITPYVVTKKTVFKWQEGFWAVMKDVFDEHYKSRFEEKGLLQACGGDLQHLISDAATMQLIRWTDGGFGMAAHNYDGDMLTDQIAQVHRSPGFITSNLVGKAPDGSLIKEFEASHGTVSDLWNDHLAGKETSLNPLGLVEAIVGALQHAAVLDAEKNPDDEHKVKARDQIFNFTTTLRTAMHNTFRYGQGTRDMSGPSGYTTEDFVRKVAWRLQRYLDAQYDEAPPPQLGEPSRKLRRNYDIDEEAINGLFQKYDKNGDGFIDFEEFTRMLVKMNLAPLLTK ENKVVAPPMVYIAGEEMTRYACDLVVKSWLEPYFDLSQWEYFDLSCVNRDNTNDQVLRDAVTAGQRIGAIFKEPTITPSAIQKKAFGLKNSLGSPNGAMRAGWNGITISRDTIHIDGIELGYKRPVFFERHAVGGEYGAGWSKVGRGTLLTTYLPSDGRDPFVVDKRDLTDQHNVVVTYHNPYDNVEPLAHLFFQRCLDANITPYVVTKKTVFKWQEGFWAVMKDVFDEHYKSRFEEKGLLQACGGDLQHLISDAATMQLIRWTDGGFGMAAHNYDGDMLTDQIAQVHRSPGFITSNLVGKAPDGSLIKEFEASHGTVSDLWNDHLAGKETSLNPLGLVEAIVGALQHAAVLDAEKNPDDEHKVKARDQIFNFTTTLRTAMHNTFRYGQGTRDMSGPSGYTTEDFVRKVAWRLQRYLDAQYDEAPPPQLGEPSRKLRRNYDIDEEAINGLFQKYDKNGDGFIDFEEFTRMLVKMNLAPLLTK 6ll9-a1-m1-cB_6ll9-a1-m1-cA Crystal structure of D-alanine-D-alanine ligase from Aeromonas hydrophila A0KKW8 A0KKW8 2.7 X-RAY DIFFRACTION 78 0.981 644 (Aeromonas hydrophila) 644 (Aeromonas hydrophila) 266 297 NIHVLLLCGGGGSEHEVSLRSANFLEQQLGLLPGVDVTRVEMFADRWLSADGRECKLGLDKLLSFDSVARPVDYVVPCIHGYPGETGDLQSFLELAGLPYLGCDAEASKICFNKISTKLWLSAIGIPNTPYLFLTEQNDAALSEAKAALVKGIADAFKAVPRELEVAVYQYGDELVATYPGEICALRAEGLTQAQADAIHEYALKAFRQLKLTHLSRIDFFLTEEGEILLNEINTFPGMTSISMFPKLLEHHGHRFVDYLEQILRK IHVLLLCGGGGSEHEVSLRSANFLEQQLGLLPGVDVTRVEMFADRWLSADGRECKLGLDKLLSFDSVARPVDYVVPCIHGYPGETGDLQSFLELAGLPYLGCDAEASKICFNKISTKLWLSAIGIPNTPYLFLTEQNDAALSEAKAALAKWGKVFIKAASQGCYSASNEADLVKGIADAFGYSEQVLIEKAPRELEVAVYQYGDELVATYPGEICTALRAEGLTQAQADAIHEYALKAFRQLKLTHLSRIDFFLTEEGEILLNEINTFPGMTSISMFPKLLEHHGHRFVDYLEQILR 6lla-a1-m1-cC_6lla-a1-m1-cA Crystal structure of Providencia alcalifaciens 3-dehydroquinate synthase (DHQS) in complex with Mg2+ and NAD 1.88 X-RAY DIFFRACTION 63 0.997 1256987 (Providencia alcalifaciens F90-2004) 1256987 (Providencia alcalifaciens F90-2004) 354 362 6lk2-a1-m1-cC_6lk2-a1-m1-cA 6lk2-a2-m1-cD_6lk2-a2-m1-cB 6lla-a2-m1-cD_6lla-a2-m1-cB GMEKVTVTLDERSYPINIAPSLYQQQDAFWPLTAGQRAMIVTNETLAPLYLHKIQTVLEVSGVKVDSIILPDGEQYKSLFIMNDVFTALLEKHHNRDTTLIALGGGVIGDLTGFAAASYQRGVRFIQVPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPASVVIDLDCLKTLPKRELSSGLAEVIKYGIILDGEFFSWLEENIDALMALDNQAMAYCIRRCCELKAQVVAADEKETSGLRALLNLGHTFGHAIEAEMGYGVWLHGEAVAAGMVMAAKTAELIGQFTPEQTDRVIALLKRAELPVTGPAKMQPDDYLPHMKLHLILPTTIGHSEMRSDVDASTVTAAISACIP MEKVTVTLDERSYPINIAPSLYQQQDAFWPLTAGQRAMIVTNETLAPLYLHKIQTVLEVSGVKVDSIILPDGEQYKSLFIMNDVFTALLEKHHNRDTTLIALGGGVIGDLTGFAAASYQRGVRFIQVPTTLLSQVDSSVGGKTAVNHPLGKNMIGAFYQPASVVIDLDCLKTLPKRELSSGLAEVIKYGIILDGEFFSWLEENIDALMALDNQAMAYCIRRCCELKAQVVAADEKETSGLRALLNLGHTFGHAIEAEMGYGVWLHGEAVAAGMVMAAKTAELIGQFTPEQTDRVIALLKRAELPVTGPAKMQPDDYLPHMMRDKKVMGGKLHLILPTTIGHSEMRSDVDASTVTAAISACIP 6lln-a1-m2-cA_6lln-a1-m4-cA citronellol catabolism dehydrogenase (AtuB) [Pseudomonas aeruginosa PAO1] Q9HZW0 Q9HZW0 1.8 X-RAY DIFFRACTION 133 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 239 239 6lln-a1-m1-cA_6lln-a1-m3-cA YDSIFRPGLFDGQTIIVTGGGSGIGRCTAHELAALGAHVVLVGRKAEKLEKTAGEIVEDGGSVSWHACDIREEEAVKTLVANILAERGTIHHLVNNAGPSPLASISQKGFETVLRTNLVGGFLVAREVFNQSMSKTGGSIVNMLADMWGGMPGMGHSGAARSGMENFTRTAAVEWGHAGVRVNAVAPGWIATYEGAREHVPLKRIGSESEVAAAIVFLLSPGAAFVSGNTIRIDGAASQ YDSIFRPGLFDGQTIIVTGGGSGIGRCTAHELAALGAHVVLVGRKAEKLEKTAGEIVEDGGSVSWHACDIREEEAVKTLVANILAERGTIHHLVNNAGPSPLASISQKGFETVLRTNLVGGFLVAREVFNQSMSKTGGSIVNMLADMWGGMPGMGHSGAARSGMENFTRTAAVEWGHAGVRVNAVAPGWIATYEGAREHVPLKRIGSESEVAAAIVFLLSPGAAFVSGNTIRIDGAASQ 6lln-a1-m3-cA_6lln-a1-m4-cA citronellol catabolism dehydrogenase (AtuB) [Pseudomonas aeruginosa PAO1] Q9HZW0 Q9HZW0 1.8 X-RAY DIFFRACTION 166 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 239 239 6lln-a1-m1-cA_6lln-a1-m2-cA YDSIFRPGLFDGQTIIVTGGGSGIGRCTAHELAALGAHVVLVGRKAEKLEKTAGEIVEDGGSVSWHACDIREEEAVKTLVANILAERGTIHHLVNNAGPSPLASISQKGFETVLRTNLVGGFLVAREVFNQSMSKTGGSIVNMLADMWGGMPGMGHSGAARSGMENFTRTAAVEWGHAGVRVNAVAPGWIATYEGAREHVPLKRIGSESEVAAAIVFLLSPGAAFVSGNTIRIDGAASQ YDSIFRPGLFDGQTIIVTGGGSGIGRCTAHELAALGAHVVLVGRKAEKLEKTAGEIVEDGGSVSWHACDIREEEAVKTLVANILAERGTIHHLVNNAGPSPLASISQKGFETVLRTNLVGGFLVAREVFNQSMSKTGGSIVNMLADMWGGMPGMGHSGAARSGMENFTRTAAVEWGHAGVRVNAVAPGWIATYEGAREHVPLKRIGSESEVAAAIVFLLSPGAAFVSGNTIRIDGAASQ 6lm0-a1-m1-cA_6lm0-a1-m1-cC The crystal structure of cyanorhodopsin (CyR) N2098R from cyanobacteria Calothrix sp. NIES-2098 A0A1Z4FUT4 A0A1Z4FUT4 2.65 X-RAY DIFFRACTION 32 1.0 1954171 (Calothrix sp. NIES-2098) 1954171 (Calothrix sp. NIES-2098) 240 242 6lm0-a1-m1-cB_6lm0-a1-m1-cA 6lm0-a1-m1-cB_6lm0-a1-m1-cC SGMTQFWLWVGFIGMVIGCIYFGMKASAMRRREGMEFPLESFFITLWAAALYLTMILGETVTPINGQTVFWGRYIDWVVTTPLLLMELGVIAGLRPKLIAGVMGADIFMIVTGFIGAVEAPPYNYLWWLISTGSFLAILGSLLTEYSASAKRRNGRINSLFQTLRNILIVLWICYPIVWILGAEGFHVISVGWETLCYSVLDVCAKVGFGFVVVSAGNETLAQASNSDRIMETVHSYMQS SGMTQFWLWVGFIGMVIGCIYFGMKASAMRRREGMEFPLESFFITLWAAALYLTMILGETVTPINGQTVFWGRYIDWVVTTPLLLMELGVIAGLRPKLIAGVMGADIFMIVTGFIGAVEAPPYNYLWWLISTGSFLAILGSLLTEYSASAKRRNGRINSLFQTLRNILIVLWICYPIVWILGAEGFHVISVGWETLCYSVLDVCAKVGFGFVVVSAGNETLAQASNSDRIMETVHSYMQSEE 6lm1-a1-m1-cB_6lm1-a1-m1-cC The crystal structure of cyanorhodopsin (CyR) N4075R from cyanobacteria Tolypothrix sp. NIES-4075 A0A218QMM7 A0A218QMM7 1.9 X-RAY DIFFRACTION 15 1.0 2005459 (Tolypothrix sp. NIES-4075) 2005459 (Tolypothrix sp. NIES-4075) 226 226 6lm1-a1-m1-cA_6lm1-a1-m1-cB 6lm1-a1-m1-cA_6lm1-a1-m1-cC GMTQLALIGLWIGFIGMVIGAVIFGQKAVAMRRKEGMEFPLKSFFIVLWAGALYLTMILGETVTPVQTVFWGRYVDWVVTTPVLLLDLGVLAGLRPKLIAGVIAADIFMILTGLVATLEAPPTSYLWYIISCGAFIAILASLLTEFTASAARRNVRVNNLFLKLRNYLIVLWICYPIVWLLGAEAFKIIPTGVEVVIYAIIDIAAKVGFGLILTSAAPEILAQASN GMTQLALIGLWIGFIGMVIGAVIFGQKAVAMRRKEGMEFPLKSFFIVLWAGALYLTMILGETVTPVQTVFWGRYVDWVVTTPVLLLDLGVLAGLRPKLIAGVIAADIFMILTGLVATLEAPPTSYLWYIISCGAFIAILASLLTEFTASAARRNVRVNNLFLKLRNYLIVLWICYPIVWLLGAEAFKIIPTGVEVVIYAIIDIAAKVGFGLILTSAAPEILAQASN 6lmj-a1-m1-cB_6lmj-a1-m1-cA ASFV pA104R in complex with double-strand DNA P68742 P68742 2.8 X-RAY DIFFRACTION 134 1.0 10497 (African swine fever virus) 10497 (African swine fever virus) 98 99 6lmh-a1-m1-cA_6lmh-a1-m1-cB PTITKQELYSLVAADTQLNKALIERIFTSQQKIIQNALKHNQEVIIPPGIKFTVVTVKAKPARQGHNPATGEPIQIKAKPEHKAVKIRALKPVHDMLN KPTITKQELYSLVAADTQLNKALIERIFTSQQKIIQNALKHNQEVIIPPGIKFTVVTVKAKPARQGHNPATGEPIQIKAKPEHKAVKIRALKPVHDMLN 6lmx-a1-m1-cH_6lmx-a1-m1-cI Cryo-EM structure of the CALHM chimeric construct (9-mer) Q9HA72 Q9HA72 3.4 ELECTRON MICROSCOPY 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 240 240 6lmx-a1-m1-cA_6lmx-a1-m1-cB 6lmx-a1-m1-cA_6lmx-a1-m1-cI 6lmx-a1-m1-cB_6lmx-a1-m1-cC 6lmx-a1-m1-cC_6lmx-a1-m1-cD 6lmx-a1-m1-cD_6lmx-a1-m1-cE 6lmx-a1-m1-cE_6lmx-a1-m1-cF 6lmx-a1-m1-cF_6lmx-a1-m1-cG 6lmx-a1-m1-cG_6lmx-a1-m1-cH GICGIMALASAQMYSSFEFSCPCMPEYNYTYGIGLLIIPPIWFFLLGFVLNNNVSVLAEEWKRPTGRRTKDPSVLRYMLCSITQRSLIAPAVWVSVTLMDGKSFLCAFSINLDIEKFGNASLVIGMTETEKLKFLARIPCKDLFEDNEVRVAATRYIKCISQACGWMFLLMMTFTAFLIRAIRPCFTQASYRQEAYWAQYRANEDQLFQRTAEVHSRVLAANNVRRFFGFVALNKDDEEL GICGIMALASAQMYSSFEFSCPCMPEYNYTYGIGLLIIPPIWFFLLGFVLNNNVSVLAEEWKRPTGRRTKDPSVLRYMLCSITQRSLIAPAVWVSVTLMDGKSFLCAFSINLDIEKFGNASLVIGMTETEKLKFLARIPCKDLFEDNEVRVAATRYIKCISQACGWMFLLMMTFTAFLIRAIRPCFTQASYRQEAYWAQYRANEDQLFQRTAEVHSRVLAANNVRRFFGFVALNKDDEEL 6ln3-a1-m2-cA_6ln3-a1-m3-cA Crystal structure of adenylate kinase from an extremophilic archaeon Aeropyrum pernix with ATP and AMP Q9YDD2 Q9YDD2 2 X-RAY DIFFRACTION 78 1.0 272557 (Aeropyrum pernix K1) 272557 (Aeropyrum pernix K1) 202 202 6ln3-a1-m1-cA_6ln3-a1-m2-cA 6ln3-a1-m1-cA_6ln3-a1-m3-cA MRHPFKVVVVTGVPGVGKTTVIKELQGLAEKEGVKLHIVNFGSFMLDTAVKLGLVEDRDKIRTLPLRRQLELQREAAKRIVAEASKALGGDGVLIIDTHALVKTVAGYWPGLPKHVLDELKPDMIAVVEASPEEVAARQARDTTRYRVDIGGVEGVKRLMENARAASIASAIQYASTVAIVENREGEAAKAAEELLRLIKNL MRHPFKVVVVTGVPGVGKTTVIKELQGLAEKEGVKLHIVNFGSFMLDTAVKLGLVEDRDKIRTLPLRRQLELQREAAKRIVAEASKALGGDGVLIIDTHALVKTVAGYWPGLPKHVLDELKPDMIAVVEASPEEVAARQARDTTRYRVDIGGVEGVKRLMENARAASIASAIQYASTVAIVENREGEAAKAAEELLRLIKNL 6lnb-a1-m1-cB_6lnb-a1-m1-cC CryoEM structure of Cascade-TniQ-dsDNA complex 3.18 ELECTRON MICROSCOPY 107 0.997 666 (Vibrio cholerae) 666 (Vibrio cholerae) 301 333 6lnb-a1-m1-cC_6lnb-a1-m1-cD 6lnc-a1-m1-cB_6lnc-a1-m1-cC KLPTNLAYERSIDPSDVCFFVVWPDDRKTPLTYNSRTPHQVDFCHVPYGASHIECSFSVSFSSELRQPYKCNSSKVKQTLVQLVELYETKIGWTELATRYLMNICNGKWLWKNTRKAYCWNIVLTPWPWNGEKVGFEDIRTNYTSRQDFKNNKNWSAIVEMIKTAFSSTDGLAIFEVRATLHLPTNAMVRPSQVFTEKSRVFQSTTIDGERSPILGAFKTGAAIATIDDWYPEATEPLRVGRFGVHREDVTCYRHPSTGKDFFSILQQAEHYIEVLSPAQETINDMHFLMANLIKGGMFQH KLPTNLAYERSIDPSDVCFFVVWPDDRKTPLTYNSRTLLGQMEAASLAYDVSGQPIKSATAEALAQGNPHQVDFCHVPYGASHIECSFSVSFSSELRQPYKCNSSKVKQTLVQLVELYETKIGWTELATRYLMNICNGKWLWKNTRKAYCWNIVLTPWPWNGEKVGFEDIRTNYTSRQDFKNNKNWSAIVEMIKTAFSSTDGLAIFEVRATLHLPTNAMVRPSQVFTESRVFQSTTIDGERSPILGAFKTGAAIATIDDWYPEATEPLRVGRFGVHREDVTCYRHPSTGKDFFSILQQAEHYIEVLSTPAQETINDMHFLMANLIKGGMFQHK 6lnh-a1-m1-cD_6lnh-a1-m1-cB Crystal structure of IDO from Bacillus thuringiensis E2GIN1 E2GIN1 2.34 X-RAY DIFFRACTION 51 0.995 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 211 223 6lnh-a1-m1-cA_6lnh-a1-m1-cC FSIEEKVHEFESKGFLEISNEIFLQEEENHSLLTQAQLDYYNLEDECRARSYSRYIKYVDSPDYILDNSQFNSINDSFLCNPLIQNIVRFDTEFAFKTNIIDKSKDLIIGLHQVRYKATKERPSFSSPIWLHKDDEPVVFLHLMNLSNTAIGGDNLIANSPREINQFISLKEPLETLVFGQKVFHAVTPLGTECSTEAFRDILLVTFSYKE SIEEKVHEFESKGFLEISNEIFLQEEENHSLLTQAQLDYYNLEDDECRARSYSRYIKYVDSPDYILDNSNDYFQSKGGKVRQFNSINDSFLCNPLIQNIVRFDTEFAFKTNIIDKSKDLIIGLHQVRYKATKERPSFSSPIWLHKDDEPVVFLHLMNLSNTAIGGDNLIANSPREINQFISLKEPLETLVFGQKVFHAVTPLGTECSTEAFRDILLVTFSYKE 6lnh-a1-m1-cD_6lnh-a1-m1-cC Crystal structure of IDO from Bacillus thuringiensis E2GIN1 E2GIN1 2.34 X-RAY DIFFRACTION 65 0.995 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 211 228 FSIEEKVHEFESKGFLEISNEIFLQEEENHSLLTQAQLDYYNLEDECRARSYSRYIKYVDSPDYILDNSQFNSINDSFLCNPLIQNIVRFDTEFAFKTNIIDKSKDLIIGLHQVRYKATKERPSFSSPIWLHKDDEPVVFLHLMNLSNTAIGGDNLIANSPREINQFISLKEPLETLVFGQKVFHAVTPLGTECSTEAFRDILLVTFSYKE EFMKMSGFSIEEKVHEFESKGFLEISNEIFLQEEENHSLLTQAQLDYYNLEDDACRARSYSRYIKYVDSPDYILDNSNDYFQSKERQFNSINDSFLCNPLIQNIVRFDTEFAFKTNIIDKSKDLIIGLHQVRYKATKERPSFSSPIWLHKDDEPVVFLHLMNLSNTAIGGDNLIANSPREINQFISLKEPLETLVFGQKVFHAVTPLGTECSTEAFRDILLVTFSYKE 6lnk-a1-m1-cA_6lnk-a1-m1-cB Candida albicans Fructose-1,6-bisphosphate aldolase Q9URB4 Q9URB4 2.639 X-RAY DIFFRACTION 143 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 336 337 7v6f-a1-m1-cA_7v6f-a1-m1-cB 7v6g-a1-m1-cA_7v6g-a1-m1-cB PPAVLSKSGVIYGKDVKDLFDYAQEKGFAIPAINVTSSSTVVAALEAARDNKAPIILQTSQGGAAYFAGKGVDNKDQAASIAGSIAAAHYIRAIAPTYGIPVVLHTDHCAKKLLPWFDGMLKADEEFFAKTGTPLFSSHMLDLSEETDDENIATCAKYFERMAKMGQWLEMEIGITGGLYTSPETVFAVYESLHKISPNFSIAAAFGNVHVQLRPEILGDHQVYAKKQIGTDAKHPLYLVFHGGSGSTQEEFNTAIKNGVVKVNLDTDCQYAYLTGIRDYVTNKIEYLKAPVGNPEGADKPNKKYFDPRVWVREGEKTMSKRIAEALDIFHTKGQL PPAVLSKSGVIYGKDVKDLFDYAQEKGFAIPAINVTSSSTVVAALEAARDNKAPIILQTSQGGAAYFAGKGVDNKDQAASIAGSIAAAHYIRAIAPTYGIPVVLHTDHCAKKLLPWFDGMLKADEEFFAKTGTPLFSSHMLDLSEETDDENIATCAKYFERMAKMGQWLEMEIGITGGLYTSPETVFAVYESLHKISPNFSIAAAFGNVHNVQLRPEILGDHQVYAKKQIGTDAKHPLYLVFHGGSGSTQEEFNTAIKNGVVKVNLDTDCQYAYLTGIRDYVTNKIEYLKAPVGNPEGADKPNKKYFDPRVWVREGEKTMSKRIAEALDIFHTKGQL 6log-a1-m1-cA_6log-a1-m2-cA Crystal structure of human CCL5-12AAA14 mutant P13501 P13501 2.55 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 63 63 DTTPCCAAAIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS DTTPCCAAAIARPLPRAHIKEYFYTSGKCSNPAVVFVTRKNRQVCANPEKKWVREYINSLEMS 6loh-a2-m1-cC_6loh-a2-m1-cB Crystal structure of the catalytic domain of human ubiquitin ligase AREL1 O15033 O15033 3.207 X-RAY DIFFRACTION 82 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 372 375 6loh-a1-m1-cA_6loh-a1-m2-cA QGSETFQDKVNFFQRELRQVHMKHSKVTLKVSRHALLESSLKATRNFSISDWSKNFEVVFQDEEGGPRREWFELICKALFDTTNQLFTRFSDNNQALVHPNPNRPAHLRLKMYEFAGRLVGKCLYESSLGGAYKQLVRARFTRSFLAQIIGLRMHYKYFETDDPEFYKSKVCFILNNDMSEMELVFAEEKYNKSGQLDKVVELMTGGAQTPVTNANKIFYLNLLAQYRLASQVKEEVEHFLKGLNELVPENLLAIFDENELELLMCGTGDISVSDFKAHAVVVGGSWHFREKVMRWFWTVVSSLTQEELARLLQFTTGSSQLPPGGFAALCPSFQIIAAPTHSTLPTAHTCFNQLCLPTYDSYEEVHRMLQL GSETFQDKVNFFQRELRQVHMKHSKVTLKVSRHALLESSLKATRNFSISDWSKNFEVVFQDEEALDWGGPRREWFELICKALFDTTNQLFTRFSDNNQALVHPNPNRPAHLRLKMYEFAGRLVGKCLYESSLGGAYKQLVRARFTRSFLAQIIGLRMHYKYFETDDPEFYKSKVCFILNNDMSEMELVFAEEKYNKSGQLDKVVELMTGGAQTPVTNANKIFYLNLLAQYRLASQVKEEVEHFLKGLNELVPENLLAIFDENELELLMCGTGDISVSDFKAHAVVVGGSWHFREKVMRWFWTVVSSLTQEELARLLQFTTGSSQLPPGGFAALCPSFQIIAAPTHSTLPTAHTCFNQLCLPTYDSYEEVHRMLQL 6loi-a3-m1-cE_6loi-a3-m1-cF Crystal structure of Enterococcus faecalis Undecaprenyl pyrophosphate synthase(EfaUPPS) Q831K9 Q831K9 2.503 X-RAY DIFFRACTION 101 0.995 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 222 222 6loi-a1-m1-cA_6loi-a1-m2-cD 6loi-a2-m1-cB_6loi-a2-m1-cC YAFDKEGQIPQHIAIIMDGNGRWAQNRRLPRIAGHKEGMDTVKKITKHASHLGVKVLTLYAFNFLMQLPVDFFDTFVPELIKENVKVNVMGYQEFLPSHTQDAVKRAIEQTKDNTGMVLNFALNYGARAELLTAMKQIAAEVSEKAYTADEITEETIADHLMTGFLPTELRDPELLIRTSGEERISNFLLWQIAYSELFFTKALWPDFSGDTLETAIASFQN YAFDKEGQIPQHIAIIMDGNGRWAQNRRLPRIAGHKEGMDTVKKITKHASHLGVKVLTLYAFNFLMQLPVDFFDTFPELIKENVKVNVMGYQEFLPSHTQDAVKRAIEQTKDNTGMVLNFALNYGARAELLTAMKQIAAEVSEKAYTADEITEETIADHLMTGFLPTELRDPELLIRTSGEERISNFLLWQIAYSELFFTKALWPDFSGDTLETAIASFQNR 6lol-a2-m1-cA_6lol-a2-m2-cA The crystal structure of full length IpaH9.8 D2AJU0 D2AJU0 2.75 X-RAY DIFFRACTION 68 1.0 591020 (Shigella flexneri 2002017) 591020 (Shigella flexneri 2002017) 466 466 DPTYADYFSAWDKWEKQALPGEERDEAVSRLKECLINNSDELRLDRLNLSSLPDNLPAQITLLNVSYNQLTNLPELPVTLKKLYSASNKLSELPVLPPALESLQVQHNELENLPALPDSLLTMNISYNEIVSLPSLPQALKNLRATRNFLTELPAFSEGNNPVVREYFFDRNQISHIPESILNLRNECSIHISDNPLSSHALQALQRLTSSPDYHGPRIYFSMSDADAVTAWFPVSQIWHAFEHEEHANTFSAFLDRLGFREQVAAWLEKLSASAELRQQSFAVAADATRVALTWNNLRKTLLVHQASEGLFDNDTGALLSLGREMFRLEILEDIARDKVRTLHFVDEIEVYLAFQTMLAEKLQLSTAVKESGVTANDLRTAEAMVRSREENEFTDWFSLWGPWHAVLKRTEADRWAQAEEQKYEMLENEYPQRVADRLKAAQVMRETEQQIYRQLTDEVLALRLS DPTYADYFSAWDKWEKQALPGEERDEAVSRLKECLINNSDELRLDRLNLSSLPDNLPAQITLLNVSYNQLTNLPELPVTLKKLYSASNKLSELPVLPPALESLQVQHNELENLPALPDSLLTMNISYNEIVSLPSLPQALKNLRATRNFLTELPAFSEGNNPVVREYFFDRNQISHIPESILNLRNECSIHISDNPLSSHALQALQRLTSSPDYHGPRIYFSMSDADAVTAWFPVSQIWHAFEHEEHANTFSAFLDRLGFREQVAAWLEKLSASAELRQQSFAVAADATRVALTWNNLRKTLLVHQASEGLFDNDTGALLSLGREMFRLEILEDIARDKVRTLHFVDEIEVYLAFQTMLAEKLQLSTAVKESGVTANDLRTAEAMVRSREENEFTDWFSLWGPWHAVLKRTEADRWAQAEEQKYEMLENEYPQRVADRLKAAQVMRETEQQIYRQLTDEVLALRLS 6lon-a1-m1-cB_6lon-a1-m1-cD Crystal structure of HPSG E5Y7I4 E5Y7I4 2.2 X-RAY DIFFRACTION 57 0.999 563192 (Bilophila wadsworthia 3_1_6) 563192 (Bilophila wadsworthia 3_1_6) 802 803 6lon-a1-m1-cA_6lon-a1-m1-cC NRQGRERVYKILDRIQFTVPHVDIERARYFTESMRQTEGELLTLRWAKALKNVAEKMTVYITPDQLLAGRVGQLGRYGILYPEIDGDFYIEVMKDLPNREKSPFQIDPAAAAILMEEIAPYWEGKTYHEHLNKVLPAEIRGVTYHDERGLKSKFVVSETSSYRSALQWVPDYEKAMKRGFIDIQNEAKAKLAGLDLTNSVDIWEKKPFLEAMIIVCDAIMIWAKRHAQLARDTAAATSDPVRKQELLRMADICEHVPAYPARNFREAVQCQWFVQMFSRIEQKASAIISNGRMDQYLYPYYKKDIEEGTLTSEEAKELLECMWVDMAQFIDLYINPTGNEFQEGYAHWEAVTVGGQTPEGEDATNELSYLFLESKREFPMTYPDLAVRIHSRTPDRFLYEIALTVQDGSGFPKLINDEEVVPLNAIKGCPINEALDYAISGCTETRMPNRDTYTSGCVYINFATALEMLMNNGRLHYYGDELIGLETGDPTRFQTWEEFYEAYKAQHINLLQKAFQQQHIVDRLRPQHFAAPLSSVLHNLCMKNMQDLHSEKIEGGVDYSYFEFLGYATVVDSLAAIKKLVFEEKRLTMREVLDAMNANFVGYEPIQEMLKNAPCYGNNDPYADSIAKDVDRFTQVEAEKSSRDRGIHVDVRYVPITSHVPFGKIIAATPNGRVAGFPLADGSSASHGADHNGPTAVLLSNYHSKNYGMINRASRLLNIKLSPKCVAGEQGAKKIMSIIRTWCDLKLWHLQFNIVNRDTLLAAQKDPNSYRNLIVRVAGYSAYFCDMSPDLQNDIIDRTEHA NRQGRERVYKILDRIQFTVPHVDIERARYFTESMRQTEGELLTLRWAKALKNVAEKMTVYITPDQLLAGRVGQLGRYGILYPEIDGDFYIEVMKDLPNREKSPFQIDPAAAAILMEEIAPYWEGKTYHEHLNKVLPAEIRGVTYHDERGLKSKFVVSETSSYRSALQWVPDYEKAMKRGFIDIQNEAKAKLAGLDLTNSVDIWEKKPFLEAMIIVCDAIMIWAKRHAQLARDTAAATSDPVRKQELLRMADICEHVPAYPARNFEAVQCQWFVQMFSRIEQKASAIISNGRMDQYLYPYYKKDIEEGTLTSEEAKELLECMWVDMAQFIDLYINPTGNEFQEGYAHWEAVTVGGQTPEGEDATNELSYLFLESKREFPMTYPDLAVRIHSRTPDRFLYEIALTVQDGSGFPKLINDEEVVPLNAIKGCPINEALDYAISGCTETRMPNRDTYTSGCVYINFATALEMLMNNGRLHYYGDELIGLETGDPTRFQTWEEFYEAYKAQHINLLQKAFQQQHIVDRLRPQHFAAPLSSVLHNLCMKNMQDLHSEKIEGGVDYSYFEFLGYATVVDSLAAIKKLVFEEKRLTMREVLDAMNANFVGYEPIQEMLKNAPCYGNNDPYADSIAKDVDRFTQVEAEKSSRDRGIHVDVRYVPITSHVPFGKIIAATPNGRVAGFPLADGSSASHGADHNGPTAVLLSNYHSKNYGMINRASRLLNIKLSPKCVAGEQGAKKIMSIIRTWCDLKLWHLQFNIVNRDTLLAAQKDPNSYRNLIVRVAGYSAYFCDMSPDLQNDIIDRTEHADL 6lon-a1-m1-cD_6lon-a1-m1-cC Crystal structure of HPSG E5Y7I4 E5Y7I4 2.2 X-RAY DIFFRACTION 77 1.0 563192 (Bilophila wadsworthia 3_1_6) 563192 (Bilophila wadsworthia 3_1_6) 803 804 6lon-a1-m1-cB_6lon-a1-m1-cA NRQGRERVYKILDRIQFTVPHVDIERARYFTESMRQTEGELLTLRWAKALKNVAEKMTVYITPDQLLAGRVGQLGRYGILYPEIDGDFYIEVMKDLPNREKSPFQIDPAAAAILMEEIAPYWEGKTYHEHLNKVLPAEIRGVTYHDERGLKSKFVVSETSSYRSALQWVPDYEKAMKRGFIDIQNEAKAKLAGLDLTNSVDIWEKKPFLEAMIIVCDAIMIWAKRHAQLARDTAAATSDPVRKQELLRMADICEHVPAYPARNFEAVQCQWFVQMFSRIEQKASAIISNGRMDQYLYPYYKKDIEEGTLTSEEAKELLECMWVDMAQFIDLYINPTGNEFQEGYAHWEAVTVGGQTPEGEDATNELSYLFLESKREFPMTYPDLAVRIHSRTPDRFLYEIALTVQDGSGFPKLINDEEVVPLNAIKGCPINEALDYAISGCTETRMPNRDTYTSGCVYINFATALEMLMNNGRLHYYGDELIGLETGDPTRFQTWEEFYEAYKAQHINLLQKAFQQQHIVDRLRPQHFAAPLSSVLHNLCMKNMQDLHSEKIEGGVDYSYFEFLGYATVVDSLAAIKKLVFEEKRLTMREVLDAMNANFVGYEPIQEMLKNAPCYGNNDPYADSIAKDVDRFTQVEAEKSSRDRGIHVDVRYVPITSHVPFGKIIAATPNGRVAGFPLADGSSASHGADHNGPTAVLLSNYHSKNYGMINRASRLLNIKLSPKCVAGEQGAKKIMSIIRTWCDLKLWHLQFNIVNRDTLLAAQKDPNSYRNLIVRVAGYSAYFCDMSPDLQNDIIDRTEHADL NRQGRERVYKILDRIQFTVPHVDIERARYFTESMRQTEGELLTLRWAKALKNVAEKMTVYITPDQLLAGRVGQLGRYGILYPEIDGDFYIEVMKDLPNREKSPFQIDPAAAAILMEEIAPYWEGKTYHEHLNKVLPAEIRGVTYHDERGLKSKFVVSETSSYRSALQWVPDYEKAMKRGFIDIQNEAKAKLAGLDLTNSVDIWEKKPFLEAMIIVCDAIMIWAKRHAQLARDTAAATSDPVRKQELLRMADICEHVPAYPARNFREAVQCQWFVQMFSRIEQKASAIISNGRMDQYLYPYYKKDIEEGTLTSEEAKELLECMWVDMAQFIDLYINPTGNEFQEGYAHWEAVTVGGQTPEGEDATNELSYLFLESKREFPMTYPDLAVRIHSRTPDRFLYEIALTVQDGSGFPKLINDEEVVPLNAIKGCPINEALDYAISGCTETRMPNRDTYTSGCVYINFATALEMLMNNGRLHYYGDELIGLETGDPTRFQTWEEFYEAYKAQHINLLQKAFQQQHIVDRLRPQHFAAPLSSVLHNLCMKNMQDLHSEKIEGGVDYSYFEFLGYATVVDSLAAIKKLVFEEKRLTMREVLDAMNANFVGYEPIQEMLKNAPCYGNNDPYADSIAKDVDRFTQVEAEKSSRDRGIHVDVRYVPITSHVPFGKIIAATPNGRVAGFPLADGSSASHGADHNGPTAVLLSNYHSKNYGMINRASRLLNIKLSPKCVAGEQGAKKIMSIIRTWCDLKLWHLQFNIVNRDTLLAAQKDPNSYRNLIVRVAGYSAYFCDMSPDLQNDIIDRTEHADL 6lop-a1-m1-cA_6lop-a1-m1-cB Crystal Structure of Class IB terpene synthase bound with geranylgeraniol A0A094YZ24 A0A094YZ24 1.91 X-RAY DIFFRACTION 41 1.0 1218173 (Alkalihalobacillus alcalophilus ATCC 27647 = CGMCC 1.3604) 1218173 (Alkalihalobacillus alcalophilus ATCC 27647 = CGMCC 1.3604) 347 347 5yo8-a1-m1-cB_5yo8-a1-m1-cA 6loo-a1-m1-cA_6loo-a1-m1-cB KVPTQPIPLMMNIFRDVLPTVHRYYDQWKERAKSIPDPELRAQALDALERKEFHCEGGGIYGLLARDRFDELIQFIIAYQIMCDYLDNLCDQSDYLDPKDFRSLHNALLAALTPGEPLVNYYQYRIEQEDGGYLHELIETCQHILVTFPSFRMVQENMLELSQLYGDLQVHKHVVKEERIPRLEAWFNEHKEKMPEMTWFEFSACTGSTLGVYTLATYATKEGLTSEQADVIKAGYFPWVQGVHLLLDYFIDQEEDIADDELNFLFYYENEEQMIERFQYFVQKAEESLSTLPDPKFHRHIWRGIIAIYLSDEKVQKNKELKKKSKQMIKMGGLPSLLFYLNSWIYR KVPTQPIPLMMNIFRDVLPTVHRYYDQWKERAKSIPDPELRAQALDALERKEFHCEGGGIYGLLARDRFDELIQFIIAYQIMCDYLDNLCDQSDYLDPKDFRSLHNALLAALTPGEPLVNYYQYRIEQEDGGYLHELIETCQHILVTFPSFRMVQENMLELSQLYGDLQVHKHVVKEERIPRLEAWFNEHKEKMPEMTWFEFSACTGSTLGVYTLATYATKEGLTSEQADVIKAGYFPWVQGVHLLLDYFIDQEEDIADDELNFLFYYENEEQMIERFQYFVQKAEESLSTLPDPKFHRHIWRGIIAIYLSDEKVQKNKELKKKSKQMIKMGGLPSLLFYLNSWIYR 6los-a1-m2-cH_6los-a1-m2-cG Crystal structure of mouse PEDF in complex with heterotrimeric collagen model peptide. 2.476 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 21 GPGPGPKGHRGFSGLGPGP GPGPGPKGHRGFSGLGPGPGP 6lp1-a1-m1-cD_6lp1-a1-m1-cA Crystal structure of acetate:succinate CoA transferase (ASCT) from Trypanosoma brucei. Q386P1 Q386P1 2.01 X-RAY DIFFRACTION 25 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 466 467 6lp1-a1-m1-cB_6lp1-a1-m1-cC GLDKVMSLSSAVQDIKNGATLAVGGFGTGGMPHAIMQEIKKMGVRDLIIYSDGAGVDGYGIGVLFENKQINKMIVSYVGNNKIFARQYLEGDVELEFCPQGSLAERMRAGGAGIPAFYTPTAVGTVLQTGGQITKYDKNGGVLKESTPRETRFFGGRLYCLENAIKTDFSIVKAWKGDRCGNLVFRGTARNFNVPVGQCGQTVIAEVENLVENGDIDPDEVHLPGVYVDRVVVPERYQTLIEHRTVTGEEVRQRIARRAALEFANGMYVNLGIGIPTESSNYIPAGVNVVLQSENGLIGMGPFPTEDKVDADWINAGKQTISHLAGSALFDSATSFAMIRGGHMDLTMLGALEVAANGDLANFMIPGKLVKGPGGAMDLVSCGTRVVVTTTHCNKNGDPKIVERCRLPVTGKHCVCRIITEYAVFDVVDGRLVLKEIAEDTTVDQVKKLTGVGFDADNVITMPLAP GLDKVMSLSSAVQDIKNGATLAVGGFGTGGMPHAIMQEIKKMGVRDLIIYSDGAGVDGYGIGVLFENKQINKMIVSYVGNNKIFARQYLEGDVELEFCPQGSLAERMRAGGAGIPAFYTPTAVGTVLQTGGQITKYDKNGGVLKESTPRETRFFGGRLYCLENAIKTDFSIVKAWKGDRCGNLVFRGTARNFNVPVGQCGQTVIAEVENLVENGDIDPDEVHLPGVYVDRVVVPERYQTLIEHRTVTRGEEVRQRIARRAALEFANGMYVNLGIGIPTESSNYIPAGVNVVLQSENGLIGMGPFPTEDKVDADWINAGKQTISHLAGSALFDSATSFAMIRGGHMDLTMLGALEVAANGDLANFMIPGKLVKGPGGAMDLVSCGTRVVVTTTHCNKNGDPKIVERCRLPVTGKHCVCRIITEYAVFDVVDGRLVLKEIAEDTTVDQVKKLTGVGFDADNVITMPLAP 6lp1-a1-m1-cD_6lp1-a1-m1-cC Crystal structure of acetate:succinate CoA transferase (ASCT) from Trypanosoma brucei. Q386P1 Q386P1 2.01 X-RAY DIFFRACTION 177 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 466 469 6lp1-a1-m1-cA_6lp1-a1-m1-cB GLDKVMSLSSAVQDIKNGATLAVGGFGTGGMPHAIMQEIKKMGVRDLIIYSDGAGVDGYGIGVLFENKQINKMIVSYVGNNKIFARQYLEGDVELEFCPQGSLAERMRAGGAGIPAFYTPTAVGTVLQTGGQITKYDKNGGVLKESTPRETRFFGGRLYCLENAIKTDFSIVKAWKGDRCGNLVFRGTARNFNVPVGQCGQTVIAEVENLVENGDIDPDEVHLPGVYVDRVVVPERYQTLIEHRTVTGEEVRQRIARRAALEFANGMYVNLGIGIPTESSNYIPAGVNVVLQSENGLIGMGPFPTEDKVDADWINAGKQTISHLAGSALFDSATSFAMIRGGHMDLTMLGALEVAANGDLANFMIPGKLVKGPGGAMDLVSCGTRVVVTTTHCNKNGDPKIVERCRLPVTGKHCVCRIITEYAVFDVVDGRLVLKEIAEDTTVDQVKKLTGVGFDADNVITMPLAP IGLDKVMSLSSAVQDIKNGATLAVGGFGTGGMPHAIMQEIKKMGVRDLIIYSDGAGVDGYGIGVLFENKQINKMIVSYVGNNKIFARQYLEGDVELEFCPQGSLAERMRAGGAGIPAFYTPTAVGTVLQTGGQITKYDKNGGVLKESTPRETRFFGGRLYCLENAIKTDFSIVKAWKGDRCGNLVFRGTARNFNVPVGQCGQTVIAEVENLVENGDIDPDEVHLPGVYVDRVVVPERYQTLIEHRTVTRGEEVRQRIARRAALEFANGMYVNLGIGIPTESSNYIPAGVNVVLQSENGLIGMGPFPTEDKVDADWINAGKQTISHLAGSALFDSATSFAMIRGGHMDLTMLGALEVAANGDLANFMIPGKLVKGPGGAMDLVSCGTRVVVTTTHCNKNGDPKIVERCRLPVTGKHCVCRIITEYAVFDVVDGRLVLKEIAEDTTVDQVKKLTGVGFDADNVITMPLAPL 6lp3-a1-m1-cC_6lp3-a1-m1-cF Structural basis and functional analysis epo1-bem3p complex for bud growth P32873 P32873 3.547 X-RAY DIFFRACTION 44 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 43 43 YDEIFTENIKLKLQVQEYETEIESLEKVIDMLQKNREASLEVV YDEIFTENIKLKLQVQEYETEIESLEKVIDMLQKNREASLEVV 6lp9-a1-m1-cA_6lp9-a1-m1-cD the protein of cat virus Q98VG9 Q98VG9 1.803 X-RAY DIFFRACTION 15 1.0 11135 (Feline infectious peritonitis virus) 11135 (Feline infectious peritonitis virus) 104 104 6lp9-a1-m1-cB_6lp9-a1-m1-cC SSKQFKILVNEDYQVNVPSLPFRDVLQDIKYCYRNGFDGYVFVPEYRRDLVDCNRKDHYVIGVLGNGISDLKPVLLTEPSVMLQGFIVRADCNGVLEDFDLKIA SSKQFKILVNEDYQVNVPSLPFRDVLQDIKYCYRNGFDGYVFVPEYRRDLVDCNRKDHYVIGVLGNGISDLKPVLLTEPSVMLQGFIVRADCNGVLEDFDLKIA 6lp9-a1-m1-cC_6lp9-a1-m1-cD the protein of cat virus Q98VG9 Q98VG9 1.803 X-RAY DIFFRACTION 52 1.0 11135 (Feline infectious peritonitis virus) 11135 (Feline infectious peritonitis virus) 104 104 6lp9-a1-m1-cA_6lp9-a1-m1-cB SSKQFKILVNEDYQVNVPSLPFRDVLQDIKYCYRNGFDGYVFVPEYRRDLVDCNRKDHYVIGVLGNGISDLKPVLLTEPSVMLQGFIVRADCNGVLEDFDLKIA SSKQFKILVNEDYQVNVPSLPFRDVLQDIKYCYRNGFDGYVFVPEYRRDLVDCNRKDHYVIGVLGNGISDLKPVLLTEPSVMLQGFIVRADCNGVLEDFDLKIA 6lpa-a1-m1-cA_6lpa-a1-m1-cB The nsp1 protein of a new porcine coronavirus A0A2P1G738 A0A2P1G738 2.105 X-RAY DIFFRACTION 52 1.0 2032731 (Swine acute diarrhea syndrome coronavirus) 2032731 (Swine acute diarrhea syndrome coronavirus) 101 101 NQLTLAVASDQEISAHGYPTMSDAVEHFSSSASHGFKDCRFVAFGLQDIVIGVEPSDFVVALEGDILTAYIATFGARPRCLRGWLIPSNSNYVLEEFQVIF NQLTLAVASDQEISAHGYPTMSDAVEHFSSSASHGFKDCRFVAFGLQDIVIGVEPSDFVVALEGDILTAYIATFGARPRCLRGWLIPSNSNYVLEEFQVIF 6lpc-a1-m1-cB_6lpc-a1-m1-cA Crystal Structure of rat Munc18-1 with K332E/K333E mutation P61765 P61765 3.402 X-RAY DIFFRACTION 96 0.998 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 467 533 MAPIGLKAVVGEKIMHDVIKKVKKKGEWKVLVVDQLSMRMLSSCCKMTDIMTEGITIVEDINKRREPLPLEAVYLIAAHVFTLTEINIAFLPYESQVYSLDSDSFQSFYSPHKAQMKNPILERLAEQIATLCATLKEYPAVRYRGEYKDNALLAQLIQDKLDAYKADDPTMGEGPDKARSQLLILDRGFDPSSPVLHELTFQAMSYDLLPIENDVYKYEVKEVLLDEDDDLWIALRHKHIAEVSQEVTRSLKDFSSSKMRDLSQMLEEMPQYQKELSKYSTHLHLAEDCMKHYQGTVDKLCRVEQDLAMGTDAEGEKIKDPMRAIVPILLDANVSTYDKIRIILLYIFLKNGITEENLNKLIQHAQIPPEDSEIITNMAHLGVPTYQLSRWTPIIKDIMEDTIEDKLDTKHEYRSGPRLIIFILGGVSLNEMRCAYEVTQANGKWEVLIGSTHILTPQKLLDTLKKL MAPIGLKAVVGEKIMHDVIKKVKKKGEWKVLVVDQLSMRMLSSCCKMTDIMTEGITIVEDINKRREPLPSLEAVYLITPSEKSVHSLISDFKDPPTAKYRAAHVFFTCPDALFNELVKSRAAKVIKTLTEINIAFLPYESQVYSLDSADSFQSFYSPHKAQMKNPILERLAEQIATLCATLKEYPAVRYRGEYKDNALLAQLIQDKLDAYKADDPTMGEGPDKARSQLLILDRGFDPSSPVLHELTFQAMSYDLLPIENDVYKYEKEVLLDEDDDLWIALRHKHIAEVSQEVTRSLKDFSSSKRMMRDLSQMLEEMPQYQKELSKYSTHLHLAEDCMKHYQGTVDKLCRVEQDLAMGTDAEGEKIKDPMRAIVPILLDANVSTYDKIRIILLYIFLKNGITEENLNKLIQHAQIPPEDSEIITNMAHLGVPIVTKERISEQTYQLSRWTPIIKDIMEDTIEDKLDTKHYPYIPGEYRSGPRLIIFILGGVSLNEMRCAYEVTQANGKWEVLIGSTHILTPQKLLDTLKKLNKT 6lpn-a1-m1-cA_6lpn-a1-m1-cB Crystal structure of human D-2-hydroxyglutarate dehydrogenase in apo form Q8N465 Q8N465 2.206 X-RAY DIFFRACTION 231 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 466 467 6lpp-a1-m1-cA_6lpp-a1-m1-cB 6lpq-a1-m1-cA_6lpq-a1-m1-cB 6lpt-a1-m1-cA_6lpt-a1-m1-cB 6lpu-a1-m1-cA_6lpu-a1-m1-cB 6lpx-a1-m1-cA_6lpx-a1-m1-cB VRRLPFSTVSKQDLAAFERIVPGGVVTDPEALQAPNVDWLRTLRGCSKVLLRPRTSEEVSHILRHCHERNLAVNPQGGNTGMVGGSVPVFDEIILSTARMNRVLSFHSVSGILVCQAGCVLEELSRYVEERDFIMPLDLGAKGSCHIGGNVATNAGGLRFLRYGSLHGTVLGLEVVLADGTVLDCLTSLRKDNTGYDLKQLFIGSEGTLGIITTVSILCPPKPRAVNVAFLGCPGFAEVLQTFSTCKGMLGEILSAFEFMDAVCMQLVGRHLHLASPVQESPFYVLIETSGSNAGHDAEKLGHFLEHALGSGLVTDGTMATDQRKVKMLWALRERITEALSRDGYVYKYDLSLPVERLYDIVTDLRARLGPHAKHVVGYGHLGDGNLHLNVTAEAFSPSLLAALEPHVYEWTAGQQGSVSAEHGVGFRKRDVLGYSKPPGALQLMQQLKALLDPKGILNPYKTLPS PVRRLPFSTVSKQDLAAFERIVPGGVVTDPEALQAPNVDWLRTLRGCSKVLLRPRTSEEVSHILRHCHERNLAVNPQGGNTGMVGGSVPVFDEIILSTARMNRVLSFHSVSGILVCQAGCVLEELSRYVEERDFIMPLDLGAKGSCHIGGNVATNAGGLRFLRYGSLHGTVLGLEVVLADGTVLDCLTSLRKDNTGYDLKQLFIGSEGTLGIITTVSILCPPKPRAVNVAFLGCPGFAEVLQTFSTCKGMLGEILSAFEFMDAVCMQLVGRHLHLASPVQESPFYVLIETSGSNAGHDAEKLGHFLEHALGSGLVTDGTMATDQRKVKMLWALRERITEALSRDGYVYKYDLSLPVERLYDIVTDLRARLGPHAKHVVGYGHLGDGNLHLNVTAEAFSPSLLAALEPHVYEWTAGQQGSVSAEHGVGFRKRDVLGYSKPPGALQLMQQLKALLDPKGILNPYKTLPS 6lpw-a1-m2-cA_6lpw-a1-m1-cB Structure of Spermidine disinapoyl transferases(SDT) from Arabidopsis thaliana O80467 O80467 2.401 X-RAY DIFFRACTION 70 0.995 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 431 436 PLMVEKMLTEMVKPSKHIPQQTLNLSTLDNDPYNEVIYKACYVFKAKNNRPEALLREALSDLLGYYYPLSGSLKRQESDRKLQLSCGGDGGVPFTVATANVELSSLKNLENIDSDTALNFLPVLHVDIDGYRPFALQVTKFECGGFILGMAMSHAMCDGYGEGHIMCALTDLAGGKKKPMVTPIWERERLVGKPEDDQPPFVPGDDTAASPYLPTDDWVTEKITIRADSIRRLKEATLKEYDFSNETITTFEVIGAYLWKSRVKALNLDRDGVTVLGLSVGIRNVVDPPLPDGYYGNAYIDMYVPLTAREVEEFTISDIVKLIKEAKRNAHDKDYLQEELANTEKIIKMNKKDGLFCLTDWRNIGIFGSMDFGWDEPVNIVPVVPSETARTVNMFMRPSRLESDMVGGVQIVVTLPRIAMVKFKEEMEALE IPLMVEKMLTEMVKPSKHIPQQTLNLSTLDNDPYNEVIYKACYVFKAKNNRPEALLREALSDLLGYYYPLSGSLKRQESDRKLQLSCGGDGGGVPFTVATANVELSSLKNLENIDSDTALNFLPVLHVDIDGYRPFALQVTKFECGGFILGMAMSHAMCDGYGEGHIMCALTDLAGGKKKPMVTPIWERERLVGKPEDDQPPFVPGDDTAASPYLPTDDWVTEKITIRADSIRRLKEATLKEYDFSNETITTFEVIGAYLWKSRVKALNLDRDGVTVLGLSVGIRNVVDPPLPDGYYGNAYIDMYVPLTAREVEEFTISDIVKLIKEAKRNAHDKDYLQEELANTEKIIKMNLTIKGKKDGLFCLTDWRNIGIFGSMDFGWDEPVNIVPVVPSETARTVNMFMRPSRLESDMVGGVQIVVTLPRIAMVKFKEEMEA 6lqi-a1-m1-cB_6lqi-a1-m1-cC Cryo-EM structure of the mouse Piezo1 isoform Piezo1.1 E2JF22 E2JF22 4.5 ELECTRON MICROSCOPY 163 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1301 1301 5z10-a1-m1-cA_5z10-a1-m1-cB 5z10-a1-m1-cA_5z10-a1-m1-cC 5z10-a1-m1-cB_5z10-a1-m1-cC 6lqi-a1-m1-cA_6lqi-a1-m1-cB 6lqi-a1-m1-cA_6lqi-a1-m1-cC ELVTGIYVKYWIYVCAGMFIVVSFAGRLVVYKIVYMFLFLLCLTLFQVYYTLWRKLLRVFWWLVVAYTMLVLIAVSELFSSILIPGFFLLACILQLHYFHRPFMQLTDLELDLAASFSAVLTRIQVFVRRLLELHVFKLVALYTVWVALKEVSVMNLLLVVLWAFALPYPRFRPMASCLSTVWTCIIIVCKMLYQLKIVNPNWFGVRKGYPNLGYIQNHLQILLLLVFEAVVYRRQEHYRRQHGTRQRLDQDLLSCLKYFINFFFYKFGLEICFLMAVNVIGQRMNFMVILHGCWLVAILTRRRREAIARLWPNYCLFLTLFLLYQYLLCLGSTNLISDFLLLLCASQQWQVFSAERTNPIPNFIHCRSYLDMLKVAVFRYLFWLVLVVVFVAGATRISIFGLGYLLACFYLLLFGTTLLQKDTRAQLVLWDCLILYNVTVIISKNMLSAGIIWDSICFFFLLLQRRIFLSHYFLHVSADLKATALQASRGFALYNAANLKSINFHRQIEEKSLAQLKRQMKRIRAKQEKYRQSQASVIHSGDYFLFESDSEEEEFLWVLGQATVDGLTRWLRAFTKHHRTMSDVLCAERYLLTQELLRVGEVRRGVLDQLASELLLDRRLHIPELEEAERFEAQQGRTLRLLRAGYQCVAAHSELLCYFIIILNHMVTASAASLVLPVLVFLWAMLTIPRPSKRFWMTAIVFTEVMVVTKYLFTDSYIKYDLVQLMALFFHRSQLLCYQPLQRFFHDILHTKYRAATDVYALMFLADIVDIIIIIFGFWDDQVPQAFLFMLLVQFGTMVIDRALYLRKTVLGKLAFQVVLVVAIHIWMFFILPMFSQNAVAQLWYFVKCIYFALSAYQIRCGYPTRILGNFLTKKYNHLNLFLFQGFRLVPFLVELRAVMDWVWTDTTLSLSNWMCVEDIYANIFIIKCSRETEKKYPQPKGQKKKKIVKYGMGGLIILFLIAIIWFPLLFMSLIRSVVGVVNQPIDVTVTLKLGGYEPLFTMSAQQPSIVPFTPQAYEELSQQFDPYPLAMQFISQYSPEDIVTAQIEGSSGALWRISPPSRAQMKQELYNGTADITLRFTWNFQRDLAKGGTVEYTNEKHTLELAPNSTARRQLAQLLEGRPDQSVVIPHLFPKYIRAPNGPEANPVKQLQPDEEEDYLGVRIQLRREQVGTKASDFLEWWVIELQDCKADCNLLPMVIFSDKVSPPSLGFLAGYGIVGLYVSIVLVVGKFVRGFFSEISHSIMFEELPCVDRILKLCQDIFLVRETRELELEEELYAKLIFLYRSPETMIKWTRERE ELVTGIYVKYWIYVCAGMFIVVSFAGRLVVYKIVYMFLFLLCLTLFQVYYTLWRKLLRVFWWLVVAYTMLVLIAVSELFSSILIPGFFLLACILQLHYFHRPFMQLTDLELDLAASFSAVLTRIQVFVRRLLELHVFKLVALYTVWVALKEVSVMNLLLVVLWAFALPYPRFRPMASCLSTVWTCIIIVCKMLYQLKIVNPNWFGVRKGYPNLGYIQNHLQILLLLVFEAVVYRRQEHYRRQHGTRQRLDQDLLSCLKYFINFFFYKFGLEICFLMAVNVIGQRMNFMVILHGCWLVAILTRRRREAIARLWPNYCLFLTLFLLYQYLLCLGSTNLISDFLLLLCASQQWQVFSAERTNPIPNFIHCRSYLDMLKVAVFRYLFWLVLVVVFVAGATRISIFGLGYLLACFYLLLFGTTLLQKDTRAQLVLWDCLILYNVTVIISKNMLSAGIIWDSICFFFLLLQRRIFLSHYFLHVSADLKATALQASRGFALYNAANLKSINFHRQIEEKSLAQLKRQMKRIRAKQEKYRQSQASVIHSGDYFLFESDSEEEEFLWVLGQATVDGLTRWLRAFTKHHRTMSDVLCAERYLLTQELLRVGEVRRGVLDQLASELLLDRRLHIPELEEAERFEAQQGRTLRLLRAGYQCVAAHSELLCYFIIILNHMVTASAASLVLPVLVFLWAMLTIPRPSKRFWMTAIVFTEVMVVTKYLFTDSYIKYDLVQLMALFFHRSQLLCYQPLQRFFHDILHTKYRAATDVYALMFLADIVDIIIIIFGFWDDQVPQAFLFMLLVQFGTMVIDRALYLRKTVLGKLAFQVVLVVAIHIWMFFILPMFSQNAVAQLWYFVKCIYFALSAYQIRCGYPTRILGNFLTKKYNHLNLFLFQGFRLVPFLVELRAVMDWVWTDTTLSLSNWMCVEDIYANIFIIKCSRETEKKYPQPKGQKKKKIVKYGMGGLIILFLIAIIWFPLLFMSLIRSVVGVVNQPIDVTVTLKLGGYEPLFTMSAQQPSIVPFTPQAYEELSQQFDPYPLAMQFISQYSPEDIVTAQIEGSSGALWRISPPSRAQMKQELYNGTADITLRFTWNFQRDLAKGGTVEYTNEKHTLELAPNSTARRQLAQLLEGRPDQSVVIPHLFPKYIRAPNGPEANPVKQLQPDEEEDYLGVRIQLRREQVGTKASDFLEWWVIELQDCKADCNLLPMVIFSDKVSPPSLGFLAGYGIVGLYVSIVLVVGKFVRGFFSEISHSIMFEELPCVDRILKLCQDIFLVRETRELELEEELYAKLIFLYRSPETMIKWTRERE 6lql-a1-m1-cA_6lql-a1-m2-cA Complex structure of CHAO with product from Erythrobacteraceae bacterium 1.8 X-RAY DIFFRACTION 96 1.0 1768805 (Erythrobacteraceae bacterium CCH12-C2) 1768805 (Erythrobacteraceae bacterium CCH12-C2) 450 450 6lqc-a1-m1-cA_6lqc-a1-m2-cA QTDADVIVIGAGPSGSYAAKLLHDQGVRVKLVEAKDRVGGRTWSTKSDAPGGPIDFGGQWIGETHVLLPELGAELGLETVSSVKPGNDLFVFNGDVEVGEEDQVPSGASWAGELSRSFELLDEVGTRLGWAAPWASEHVGELDSMTVAQWLEQNVQSSEVRLIHEVMVNILNGASTTEVSMAYWAYFVHQGEGIESLIGTRSGAQVAWFIGGMGQVTELIADKLGDDVHLNWPVTRIEQDPTGVTVFSGERRLRASFAILAAPPSAGSRMIFDPPLPPKRAQLQARAPMGRLAKIQVRYDEPFWQERGLSGAAFECGDLAFWLFDGSKPTDSLATIVGFIGGKHLDAWHALSPNEREKRFIEILVNNFGDKARDVRYVHETDWTVQPWTGGAPVTFMPTGLLSSAGSALREPVDRLHFAGTEAAPMWSGYIEGALRAGKIAAGDVLARLA QTDADVIVIGAGPSGSYAAKLLHDQGVRVKLVEAKDRVGGRTWSTKSDAPGGPIDFGGQWIGETHVLLPELGAELGLETVSSVKPGNDLFVFNGDVEVGEEDQVPSGASWAGELSRSFELLDEVGTRLGWAAPWASEHVGELDSMTVAQWLEQNVQSSEVRLIHEVMVNILNGASTTEVSMAYWAYFVHQGEGIESLIGTRSGAQVAWFIGGMGQVTELIADKLGDDVHLNWPVTRIEQDPTGVTVFSGERRLRASFAILAAPPSAGSRMIFDPPLPPKRAQLQARAPMGRLAKIQVRYDEPFWQERGLSGAAFECGDLAFWLFDGSKPTDSLATIVGFIGGKHLDAWHALSPNEREKRFIEILVNNFGDKARDVRYVHETDWTVQPWTGGAPVTFMPTGLLSSAGSALREPVDRLHFAGTEAAPMWSGYIEGALRAGKIAAGDVLARLA 6lqx-a2-m1-cD_6lqx-a2-m1-cA Crystal structure of the CBP bromodomain in complex with small molecule LC-CPin7 Q92793 Q92793 2.46 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 115 6lqx-a1-m2-cC_6lqx-a1-m1-cB KIFKPEELRQALMPTLEALYRQDPESLPFRQPVDPQLLGIPDYFDIVKNPMDLSTIKRKLDTGQYQEPWQYVDDVWLMFNNAWLYNRKTSRVYKFCSKLAEVFEQEIDPVMQSL KKIFKPEELRQALMPTLEALYRQDPESLPFRQPVDPQLLGIPDYFDIVKNPMDLSTIKRKLDTGQYQEPWQYVDDVWLMFNNAWLYNRKTSRVYKFCSKLAEVFEQEIDPVMQSL 6lr1-a1-m1-cA_6lr1-a1-m1-cB Hexachlorobenzene Monooxygenase (HcbA1) from Nocardioides sp. strain PD653 A0A1V1W347 A0A1V1W347 2.5 X-RAY DIFFRACTION 222 1.0 393303 (Nocardioides sp. PD653) 393303 (Nocardioides sp. PD653) 451 451 7cza-a1-m1-cA_7cza-a1-m1-cB MRDTLVLNAFHMNTVCHMYDGGWRNPADRQVEFATLEFWKEVAQTLERGFFDSLFFADVMGTDAAYGDSWDIYAEQGIHFPMHDAASLVAALIPHTEHLGLTFSSSVIQDHPFSFAKRASTLDHLSGGRVGWNIVTGGTINASQNFGYDSLVPHDERYAIGEEYMEVVYKLWEGSWDEGALVADKTKGIYADPSKIHKINHRGERYRVAGPHLTLPSPQRTPFLFQAGASTAGRAFASRHAEATLVLCLTPDSMRVAYKQMQELLAAAGRASDDLLMVQGMSFIVGSTEEEARRKAEEQDQYLDVDALAARVSRDLGVDLSGADADQPLDTIQTEATQGIAKLMMEAVPDGRPKVKDLPLLYSIRIVGTPETIADELTEWRDAGMGGINMAAQMLPGTDADFVDYVVPELQRRGMVQHEYRPGTLREKVFPGRDRLLNERHPASRYRGIFS MRDTLVLNAFHMNTVCHMYDGGWRNPADRQVEFATLEFWKEVAQTLERGFFDSLFFADVMGTDAAYGDSWDIYAEQGIHFPMHDAASLVAALIPHTEHLGLTFSSSVIQDHPFSFAKRASTLDHLSGGRVGWNIVTGGTINASQNFGYDSLVPHDERYAIGEEYMEVVYKLWEGSWDEGALVADKTKGIYADPSKIHKINHRGERYRVAGPHLTLPSPQRTPFLFQAGASTAGRAFASRHAEATLVLCLTPDSMRVAYKQMQELLAAAGRASDDLLMVQGMSFIVGSTEEEARRKAEEQDQYLDVDALAARVSRDLGVDLSGADADQPLDTIQTEATQGIAKLMMEAVPDGRPKVKDLPLLYSIRIVGTPETIADELTEWRDAGMGGINMAAQMLPGTDADFVDYVVPELQRRGMVQHEYRPGTLREKVFPGRDRLLNERHPASRYRGIFS 6lrk-a1-m1-cA_6lrk-a1-m1-cB Human cGAS catalytic domain bound with compound 40 Q8N884 Q8N884 2.25 X-RAY DIFFRACTION 35 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 352 353 5v8o-a1-m1-cB_5v8o-a1-m1-cA 6lrc-a1-m1-cB_6lrc-a1-m1-cA 6lre-a1-m1-cA_6lre-a1-m1-cB APGASKLRAVLEKLKLSRDDISTAAGMVKGVVDHLLLRLKCDSAFRGVGLLNTGSYYEHVKISAPNEFDVMFKLEVPRIQLEEYSNTRAYYFVKFKRNPLSQFLEGEILSASKMLSKFRKIIKEEINDTDVIMKRKRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLVPKHAKGFQEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLMKYLLEQLKERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKLENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFD GASKLRAVLEKLKLSRDDISTAAGMVKGVVDHLLLRLKCDSAFRGVGLLNTGSYYEHVKISAPNEFDVMFKLEVRIQLEEYSNTRAYYFVKFKRNPLSQFLEGEILSASKMLSKFRKIIKEEINDIKDTDVIMKRKRGGSPAVTLLISEKISVDITLALESKSSWPASTQEGLRIQNWLSAKVRKQLRLKPFYLVPKHAKEGFQEETWRLSFSHIEKEILNNHGKSKTCCENKEEKCCRKDCLKLMKYLLEQLKERFKDKKHLDKFSSYHVKTAFFHVCTQNPQDSQWDRKDLGLCFDNCVTYFLQCLRTEKLENYFIPEFNLFSSNLIDKRSKEFLTKQIEYERNNEFPVFD 6lsu-a2-m1-cA_6lsu-a2-m2-cA Crystal structure of Uso1-2 P25386 P25386 2.7 X-RAY DIFFRACTION 124 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 676 676 QGLIQQPKIQSVDETIPTLCDRVENSTLISDRRSAVLGLKAFSRQYRESVIASGLKPLLNTLKRDYMDEDSVKAILETILILFIRGDGHDDLTRGWISQQSRLQNGKYPSPLVMKEQVDQFSLWIADALTQSEDLIHLLVEFWEIDNFHIRLYTIQLLEAVMATRPLKARSALISLPTSISTMVSLLDDMHEPIRDEAILLLMAVVNDSPHVQKLVAFENIFERLFSIIEEEGGLRGSLVVNDCLSLINNILKYNTSNQTLFLETGNLPKLAHLLSEPISQDEVFFWNDQRIVNINTALDIVSLTVEPGNTVTTKHQNALLDSSVLMVVLRLAFFHNIPKKVRPVALLTAANMVRSNEHAQLEFSKIDVPYFDPSLPVNSTANGGPIKLIPVVSILINWMLYANSVHTFDTRVACSRLLKAYFMDNFDLQRDFLLKQVQLCNNSTNNVGDNFKANLFEVLLNYDAELNLNPFKLFFTTDIFMFFFQQDHKYSEELREITRNVTTGNDPLKAIQTISELLTTSLTAADIRIPISYLTFLIYWLFGDFKATNDFLSDKSVIKSLLSFSYQIQDEDVTIKCLVTMLLGVAYEFSSKESPFPRKEYFEFITKTLGKDNYASRIKQFKKDSYFSKVDMNEDSILTPELDETGLPKVYFSTYFIQLFNENIYRIRTALSHDP QGLIQQPKIQSVDETIPTLCDRVENSTLISDRRSAVLGLKAFSRQYRESVIASGLKPLLNTLKRDYMDEDSVKAILETILILFIRGDGHDDLTRGWISQQSRLQNGKYPSPLVMKEQVDQFSLWIADALTQSEDLIHLLVEFWEIDNFHIRLYTIQLLEAVMATRPLKARSALISLPTSISTMVSLLDDMHEPIRDEAILLLMAVVNDSPHVQKLVAFENIFERLFSIIEEEGGLRGSLVVNDCLSLINNILKYNTSNQTLFLETGNLPKLAHLLSEPISQDEVFFWNDQRIVNINTALDIVSLTVEPGNTVTTKHQNALLDSSVLMVVLRLAFFHNIPKKVRPVALLTAANMVRSNEHAQLEFSKIDVPYFDPSLPVNSTANGGPIKLIPVVSILINWMLYANSVHTFDTRVACSRLLKAYFMDNFDLQRDFLLKQVQLCNNSTNNVGDNFKANLFEVLLNYDAELNLNPFKLFFTTDIFMFFFQQDHKYSEELREITRNVTTGNDPLKAIQTISELLTTSLTAADIRIPISYLTFLIYWLFGDFKATNDFLSDKSVIKSLLSFSYQIQDEDVTIKCLVTMLLGVAYEFSSKESPFPRKEYFEFITKTLGKDNYASRIKQFKKDSYFSKVDMNEDSILTPELDETGLPKVYFSTYFIQLFNENIYRIRTALSHDP 6lt0-a1-m1-cC_6lt0-a1-m1-cF cryo-EM structure of C9ORF72-SMCR8-WDR41 Q96LT7 Q96LT7 3.2 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 385 385 AKTEIALSGKSPLLAATFAYWRVRHIWAPKTEQVLLSDGEITFLANHTLNGEIGAIDVKFFVLSEKGVIIVSLIFTYGLSIILPQTELSFYLPLHRVCVDRLTHIIRKGRIWMHKEIIPMLTGEVIPVMELLSSMKSHSVPEEIDIADTVLNDDDIGDSCHEGFLLNAISSHLQTCGCSVVVGSSAEKVNKIVRTLCLFLTPAERKCSRLCEAESSFKYESGLFVQGLLKDSTGSFVLPFRQVMYAPYPTTHIDVDVNTVKQMPPCHEHIYNQRRYMRSELTAFWIFQDVLHRDTLVKAFLDQVFQLKPGLSLRSTFLAQFLLVLHRKALTLIKYIEDDTQKGKKPFKSLRNLKIDLDLTAEGDLNIIMALAEKIKPGLHSFIFG AKTEIALSGKSPLLAATFAYWRVRHIWAPKTEQVLLSDGEITFLANHTLNGEIGAIDVKFFVLSEKGVIIVSLIFTYGLSIILPQTELSFYLPLHRVCVDRLTHIIRKGRIWMHKEIIPMLTGEVIPVMELLSSMKSHSVPEEIDIADTVLNDDDIGDSCHEGFLLNAISSHLQTCGCSVVVGSSAEKVNKIVRTLCLFLTPAERKCSRLCEAESSFKYESGLFVQGLLKDSTGSFVLPFRQVMYAPYPTTHIDVDVNTVKQMPPCHEHIYNQRRYMRSELTAFWIFQDVLHRDTLVKAFLDQVFQLKPGLSLRSTFLAQFLLVLHRKALTLIKYIEDDTQKGKKPFKSLRNLKIDLDLTAEGDLNIIMALAEKIKPGLHSFIFG 6lta-a1-m1-cA_6lta-a1-m2-cA Crystal Structure of Nonribosomal peptide synthetases (NRPS), FmoA3 (S1046A) A0A077JG85 A0A077JG85 2.45 X-RAY DIFFRACTION 15 1.0 630397 (Streptomyces sp. Sp080513GE-23) 630397 (Streptomyces sp. Sp080513GE-23) 931 931 6ltb-a1-m1-cA_6ltb-a1-m2-cA AAELPPLVPEPGDAGQPFPLTPTQQALWVGRAGCYGYFEWERPELDLARYRRAWERLVAHHPGLRTVVRPDGTQHVLERPGPVPITVEDLRQDPDAVRRLEESRLDPGTWPMFDLRVVLLSGRVRVQLGIDLQLMDASSLFLNLFSDLVTLYDDPDAALASQKLAFRDFARWLEEDVRGGARWRADWAYWQERLDGLPPAPDLPAARKFERCMVRCPAEEFALLRERALAHGLTETELLVGAFAEVLRGWSSDPAFTLNVPVFQRFDVPGIEDVIGDYTNPILLEARPEGRTVAERIVALAARLRADTRHASVNGVEVLRELARRRGLAAAAMPVVVTSLLGLPSAARSITEFGTEVHSITQTPQVSLDFQIRPEDGELRLVWDHRSGAFAPGVVEGAFEAFLDLVGRMLADEPGHGVWEAPFADMRSRRDRAVWNETNDTAEPVPAVLLQERFFAQARRTPDAEAVVASGLRLTYDELARHAYRIGNTLRERGVRPGDLVGVVMEKGWEQYAAVYGILAAGGAYLPIDAASPRGRVARLLESAGAGIVLTQSRLRDELDLPAGTTVLRADTDFETASTAPLTPVQGPDDPAYVIYTSEPKGVVVAHRGVANLVRDVRRRFAVTPADRLLALSGLHFDASVYDVFGPLACGATVVVPPPFRRAEPDVWAELVRDERVTFWNSVPVLLELLVGEAESRDDRPLATLRLAVVSGDWIPLDLPGRARAQAPGLRVVGSGGPTETICWSLFHPIDAVDPQWTSIPYGKPIANQRYYIVDRDLRPRPTWARGEMAVASPLGLALGYLNDPERTAAKFVTLPGTGERAYLTGDFGRLLPDGGIEILGRETDVGLLAELVAACVAELLGLDEVPTTGNFFRLGGDALSGTRLASRLQDLLGAPVPIRTVFGNPVLGDLASAIAGDPAAGPQAIRVARL AAELPPLVPEPGDAGQPFPLTPTQQALWVGRAGCYGYFEWERPELDLARYRRAWERLVAHHPGLRTVVRPDGTQHVLERPGPVPITVEDLRQDPDAVRRLEESRLDPGTWPMFDLRVVLLSGRVRVQLGIDLQLMDASSLFLNLFSDLVTLYDDPDAALASQKLAFRDFARWLEEDVRGGARWRADWAYWQERLDGLPPAPDLPAARKFERCMVRCPAEEFALLRERALAHGLTETELLVGAFAEVLRGWSSDPAFTLNVPVFQRFDVPGIEDVIGDYTNPILLEARPEGRTVAERIVALAARLRADTRHASVNGVEVLRELARRRGLAAAAMPVVVTSLLGLPSAARSITEFGTEVHSITQTPQVSLDFQIRPEDGELRLVWDHRSGAFAPGVVEGAFEAFLDLVGRMLADEPGHGVWEAPFADMRSRRDRAVWNETNDTAEPVPAVLLQERFFAQARRTPDAEAVVASGLRLTYDELARHAYRIGNTLRERGVRPGDLVGVVMEKGWEQYAAVYGILAAGGAYLPIDAASPRGRVARLLESAGAGIVLTQSRLRDELDLPAGTTVLRADTDFETASTAPLTPVQGPDDPAYVIYTSEPKGVVVAHRGVANLVRDVRRRFAVTPADRLLALSGLHFDASVYDVFGPLACGATVVVPPPFRRAEPDVWAELVRDERVTFWNSVPVLLELLVGEAESRDDRPLATLRLAVVSGDWIPLDLPGRARAQAPGLRVVGSGGPTETICWSLFHPIDAVDPQWTSIPYGKPIANQRYYIVDRDLRPRPTWARGEMAVASPLGLALGYLNDPERTAAKFVTLPGTGERAYLTGDFGRLLPDGGIEILGRETDVGLLAELVAACVAELLGLDEVPTTGNFFRLGGDALSGTRLASRLQDLLGAPVPIRTVFGNPVLGDLASAIAGDPAAGPQAIRVARL 6ltf-a1-m1-cA_6ltf-a1-m2-cA Dimeric isocitrate dehydrogenase from Xanthomonas campestris pv. campestris 8004 A0A0H2XBX7 A0A0H2XBX7 1.61 X-RAY DIFFRACTION 148 1.0 339 (Xanthomonas campestris) 339 (Xanthomonas campestris) 334 334 6m3s-a1-m2-cA_6m3s-a1-m1-cB TQTITVIRGDGIGPEIMDATLFVLDALQAGLTYEYADAGLVALEKHGDLLPESTLASITKNKVALKSPLTTPVGEGFSSINVAMRRKFDLYANVRPAKSFPNTKSRFADGVDLITVRENTEGAYLSEGQEVSADGEVAVSGARVTRKGSERIVRYAFDLARATGRKKVTAVHKANIIKSTSGLFLKVARDVATQYPEIEFQEMIVDNTCMQLVMRPEQFDIIVTTNLFGDIISDLCAGLVGGLGLAPGANIGVDAAIFEAVHGSAPDIAGQGKANPCALLLGAAQMLDHIGQPQNAERLREAIVATLEAKDSLTPDLGGTGNTMGFAKAIASRL TQTITVIRGDGIGPEIMDATLFVLDALQAGLTYEYADAGLVALEKHGDLLPESTLASITKNKVALKSPLTTPVGEGFSSINVAMRRKFDLYANVRPAKSFPNTKSRFADGVDLITVRENTEGAYLSEGQEVSADGEVAVSGARVTRKGSERIVRYAFDLARATGRKKVTAVHKANIIKSTSGLFLKVARDVATQYPEIEFQEMIVDNTCMQLVMRPEQFDIIVTTNLFGDIISDLCAGLVGGLGLAPGANIGVDAAIFEAVHGSAPDIAGQGKANPCALLLGAAQMLDHIGQPQNAERLREAIVATLEAKDSLTPDLGGTGNTMGFAKAIASRL 6ltn-a1-m1-cB_6ltn-a1-m1-cG cryo-EM structure of C-terminal truncated human Pannexin1 Q96RD7 Q96RD7 3.1 ELECTRON MICROSCOPY 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 6ltn-a1-m1-cA_6ltn-a1-m1-cF 6ltn-a1-m1-cA_6ltn-a1-m1-cG 6ltn-a1-m1-cB_6ltn-a1-m1-cD 6ltn-a1-m1-cC_6ltn-a1-m1-cE 6ltn-a1-m1-cC_6ltn-a1-m1-cF 6ltn-a1-m1-cD_6ltn-a1-m1-cE VDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVQQKGNLPLWLHKFFPYILLLFAILLYLPPLFWRFAAAPHICSDLKFIMEELDKVYNIVEQYLKTKKNSNNLIIKYISCRLLTLIIILLACIYLGYYFSLSSLSDEFVCSIKSGILRNDSTVPDQFQCKLIAVGIFQLLSVINLVVYVLLAPVVVYTLFVPFRNDLSLYNLFLEENISEVKSYKCLKVLE VDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVQQKGNLPLWLHKFFPYILLLFAILLYLPPLFWRFAAAPHICSDLKFIMEELDKVYNIVEQYLKTKKNSNNLIIKYISCRLLTLIIILLACIYLGYYFSLSSLSDEFVCSIKSGILRNDSTVPDQFQCKLIAVGIFQLLSVINLVVYVLLAPVVVYTLFVPFRNDLSLYNLFLEENISEVKSYKCLKVLE 6ltp-a1-m1-cA_6ltp-a1-m1-cG Crystal structure of Cas12i2 binary complex 3.4 X-RAY DIFFRACTION 64 1.0 32644 (unidentified) 32644 (unidentified) 920 923 SMSSAIKSYKSVLRPNERKNQLLKSTIQCLEDGSAFFFKMLQGLFGGITPEIVRFSTEQEKQQQDIALWCAVNWFRPVSQDSLTHTIASDNLVEKFEEYYGGTASDAIKQYFSASIGESYYWNDCRQQYYDLCRELGVEVSDLTHDLEILCREKCLAVATESNQNNSIISVLFGTDWCCQEELRSYVEQNTIQYDLWAWGEMFNKAHTALKIKSTRNYNFAKQRLEQFKEIQSLNNLLVVKKLNDFFDSEFFSGEETYTICVHHLGGKDLSKLYKAWEDDPADPENAIVVLCDDLKNNFKKEPIRNILRYIFTIRQECSAQDILAAAKYNQQLDRYKSQKANPSVLGNQGFTWTNAVILPEKAQRNDRPNSLDLRIWLYLKLRHPDGRWKKHHIPFYDTRFFQEIYAAGNSPVDTCQFRTPRFGYHLPKLTDQTAIRVNKKHVKAAKTEARIRLAIQQGTLPVSNLKITEISATINSKGQVRIPVKFDVGRQKGTLQIGDRFCGYDQNQTASHAYSLWEVVKEGQYHKELGCFVRFISSGDIVSITENRGNQFDQLSYEGLAYPQYADWRKKASKFVSLWQITKIVTVEAKEKFDAICKYQPRLYKFNKEYAYLLRDIVRGKSLVELQQIRQEIFRFIEQDCGVTRLGSLSLSTLETVKAVKGIIYSYFSTALNASKNNPISDEQRKEFDPELFALLEKLELIRTRKKKQKVERIANSLIQTCLENNIKFIRGEGDLSSMDWLARGVFNKIRQLAPMHNITLFGCGSLYTSHQDPLVHRNPDKAMKCRWAAIPVKDIGDWVLRKLSQNLRAKNIGTGEYYHQGVKEFLSHYELQDLEEELLKWRSDRKSNIPCWVLQNRLAEKLGNKEAVVYIPVRGGRIYFATHKVATGAVSIVFDQKQVWVCNADHVAAANIALTVKG SMSSAIKSYKSVLRPNERKNQLLKSTIQCLEDGSAFFFKMLQGLFGGITPEIVRFSTEQEKQQQDIALWCAVNWFRPVSQDSLTHTIASDNLVEKFEEYYGGTASDAIKQYFSASIGESYYWNDCRQQYYDLCRELGVEVSDLTHDLEILCREKCLAVATESNQNNSIISVLFGTERDWCCQEELRSYVEQNTIQYDLWAWGEMFNKAHTALKIKSTRNYNFAKQRLEQFKEIQSLNNLLVVKKLNDFFDSEFFSGEETYTICVHHLGGKDLSKLYKAWEDDPADPENAIVVLCDDLKNNFKKEPIRNILRYIFTIRQECSAQDILAAAKYNQQLDRYKSQKANPSVLGNQGFTWTNAVILPEKAQRNDRPNSLDLRIWLYLKLRHPDGRWKKHHIPFYDTRFFQEIYAAGNSPVDTCQFRTPRFGYHLPKLTDQTAIRVNKKHVKAAKTEARIRLAIQQGTLPVSNLKITEISATINSKGQVRIPVKFDVGRQKGTLQIGDRFCGYDQNQTASHAYSLWEVVKEGQYHKELGCFVRFISSGDIVSITENRGNQFDQLSYEGLAYPQYADWRKKASKFVSLWQITKIVTVEAKEKFDAICKYQPRLYKFNKEYAYLLRDIVRGKSLVELQQIRQEIFRFIEQDCGVTRLGSLSLSTLETVKAVKGIIYSYFSTALNASKNNPISDEQRKEFDPELFALLEKLELIRTRKKKQKVERIANSLIQTCLENNIKFIRGEGDLSTSMDWLARGVFNKIRQLAPMHNITLFGCGSLYTSHQDPLVHRNPDKAMKCRWAAIPVKDIGDWVLRKLSQNLRAKNIGTGEYYHQGVKEFLSHYELQDLEEELLKWRSDRKSNIPCWVLQNRLAEKLGNKEAVVYIPVRGGRIYFATHKVATGAVSIVFDQKQVWVCNADHVAAANIALTVKG 6ltq-a1-m1-cA_6ltq-a1-m1-cD Crystal structure of pyrrolidone carboxyl peptidase from thermophilic keratin degrading bacterium Fervidobacterium islandicum AW-1 (FiPcp) A0A1B0VKK9 A0A1B0VKK9 1.85 X-RAY DIFFRACTION 45 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 209 214 6ltq-a1-m1-cC_6ltq-a1-m1-cB SKKLSVLLTGFEPFGGEKVNPSMRIVKRLSKAVFPHISLHTLILPVSYQKSTEVLEEYYKTNNIDIALHLGQAGGSAGIRLERVAINLLDSKHPDNDGQVKEDVSIIDNGPDAYMTRVKIKAVAELLKKKKIPAFVSYTAGQYINEVYYYSLHRSNVTGTPKHALFVHLPFLPEQVATKEGKLEKLPSMTLELQTKAVRLILENLKEFI SGLSDSKKLSVLLTGFEPFGGEKVNPSMRIVKRLSKAVFPHISLHTLILPVSYQKSTEVLEEYYKTNNIDIALHLGQAGGSAGIRLERVAINLLDSKHPDNDGQVKEDVSIIDNGPDAYMTRVKIKAVAELLKKKKIPAFVSYTAGQYINEVYYYSLHRSNVTGTPKHALFVHLPFLPEQVATKEGKLEKLPSMTLELQTKAVRLILENLKEFI 6ltq-a1-m1-cC_6ltq-a1-m1-cD Crystal structure of pyrrolidone carboxyl peptidase from thermophilic keratin degrading bacterium Fervidobacterium islandicum AW-1 (FiPcp) A0A1B0VKK9 A0A1B0VKK9 1.85 X-RAY DIFFRACTION 80 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 207 214 6ltq-a1-m1-cB_6ltq-a1-m1-cA KLSVLLTGFEPFGGEKVNPSMRIVKRLSKAVFPHISLHTLILPVSYQKSTEVLEEYYKTNNIDIALHLGQAGGSAGIRLERVAINLLDSKHPDNDGQVKEDVSIIDNGPDAYMTRVKIKAVAELLKKKKIPAFVSYTAGQYINEVYYYSLHRSNVTGTPKHALFVHLPFLPEQVATKEGKLEKLPSMTLELQTKAVRLILENLKEFI SGLSDSKKLSVLLTGFEPFGGEKVNPSMRIVKRLSKAVFPHISLHTLILPVSYQKSTEVLEEYYKTNNIDIALHLGQAGGSAGIRLERVAINLLDSKHPDNDGQVKEDVSIIDNGPDAYMTRVKIKAVAELLKKKKIPAFVSYTAGQYINEVYYYSLHRSNVTGTPKHALFVHLPFLPEQVATKEGKLEKLPSMTLELQTKAVRLILENLKEFI 6ltt-a1-m1-cB_6ltt-a1-m1-cA Crystal structure of UDP-glucose 4-epimerase GalE1 from Mycobacterium tuberculosis P9WN67 P9WN67 1.97 X-RAY DIFFRACTION 98 0.997 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 310 311 MRALVTGAAGFIGSTLVDRLLADGHSVVGLDNFATGRATNLEHLADNSAHVFVEADIVTADLHAILEQHRPEVVFHLAAQIDVRRSVADPQFDAAVNVIGTVRLAEAARQTGVRKIVHTSSGGSIYGTPPEYPTPETAPTDPASPYAAGKVAGEIYLNTFRHLYGLDCSHIAPANVYGPRQDPHGEAGVVAIFAQALLSGKPTRVFGDGTNTRDYVFVDDVVDAFVRVSADVGGGLRFNIGTGKETSDRQLHSAVAAAVGGPDDPEFHPPRDLKRSCLDIGLAERVLGWRPQIELADGVRRTVEYFRHKH MRALVTGAAGFIGSTLVDRLLADGHSVVGLDNFATGRATNLEHLADNSAHVFVEADIVTADLHAILEQHRPEVVFHLAAQIDVRRSVADPQFDAAVNVIGTVRLAEAARQTGVRKIVHTSSGGSIYGTPPEYPTPETAPTDPASPYAAGKVAGEIYLNTFRHLYGLDCSHIAPANVYGPRQDPHGEAGVVAIFAQALLSGKPTRVFGDGTNTRDYVFVDDVVDAFVRVSADVGGGLRFNIGTGKETSDRQLHSAVAAAVGGPDDPEFHPPRLGDLKRSCLDIGLAERVLGWRPQIELADGVRRTVEYFRHK 6ltw-a1-m1-cB_6ltw-a1-m1-cA Crystal structure of Apo form of I122A/I330A variant of S-adenosylmethionine synthetase from Cryptosporidium hominis A0A0S4TKQ5 A0A0S4TKQ5 1.65 X-RAY DIFFRACTION 204 1.0 237895 (Cryptosporidium hominis) 237895 (Cryptosporidium hominis) 379 380 4odj-a1-m1-cA_4odj-a1-m2-cA 6c07-a1-m1-cB_6c07-a1-m1-cA 6c07-a1-m1-cD_6c07-a1-m1-cC 6ltv-a1-m1-cA_6ltv-a1-m1-cB EQFLFSSESVCSGHPDKLCDQISDAILDACLEQDPESFVACETCTKTGFIMVFGEITTKANVNYERVVRETVKEIGYDSEEKGLDYKTMDVIIKLEQCVHVDKNVEDIGAGDQGMMFGYATNETKELMPLTHVLATSITRELDYIRMKGVSSRVGWLRPDGKAQVTVEYNCKHGVLIPKRIHTILVSVQHDENIENEEIREFVLENVIKKVCPSDLMDKETRILINPSGRFTIGGPAADAGLTGRKIIVDTYGGWGAHGGGAFSGKDATKVDRSGAYMARLVAKSIVFSGLCSRCLVQVSYGAGIARPLSLYINTFGTAKDGYNDTKLLEIVNKVFDFRPGILIKQLNLKSPIFKKTSSGGHFGRSEKEFLWEKPIILQ EQFLFSSESVCSGHPDKLCDQISDAILDACLEQDPESFVACETCTKTGFIMVFGEITTKANVNYERVVRETVKEIGYDSEEKGLDYKTMDVIIKLEQQCVHVDKNVEDIGAGDQGMMFGYATNETKELMPLTHVLATSITRELDYIRMKGVSSRVGWLRPDGKAQVTVEYNCKHGVLIPKRIHTILVSVQHDENIENEEIREFVLENVIKKVCPSDLMDKETRILINPSGRFTIGGPAADAGLTGRKIIVDTYGGWGAHGGGAFSGKDATKVDRSGAYMARLVAKSIVFSGLCSRCLVQVSYGAGIARPLSLYINTFGTAKDGYNDTKLLEIVNKVFDFRPGILIKQLNLKSPIFKKTSSGGHFGRSEKEFLWEKPIILQ 6lty-a1-m1-cA_6lty-a1-m1-cB DNA bound antitoxin HigA3 O53333 O53333 3.28 X-RAY DIFFRACTION 116 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 78 78 VLAHRLAEIRKALGHARQADVAALMGVSQARVSKLESGDLSHTELGTLQAYVAALGGHLRIVAEFGENTVELTALEHH VLAHRLAEIRKALGHARQADVAALMGVSQARVSKLESGDLSHTELGTLQAYVAALGGHLRIVAEFGENTVELTALEHH 6lu9-a1-m1-cA_6lu9-a1-m1-cB Rat ionotropic Glutamate Delta-2 receptor in complex with 7-CKA and Calcium Q63226 Q63226 8.8 ELECTRON MICROSCOPY 126 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 660 660 DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTNYGEELGRGVRKLGCWNPVTGLNGSLVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPFERDSMYSQMWRMINRSNGSENNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWP DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTNYGEELGRGVRKLGCWNPVTGLNGSLVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPFERDSMYSQMWRMINRSNGSENNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWP 6lu9-a1-m1-cB_6lu9-a1-m1-cC Rat ionotropic Glutamate Delta-2 receptor in complex with 7-CKA and Calcium Q63226 Q63226 8.8 ELECTRON MICROSCOPY 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 660 660 DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTNYGEELGRGVRKLGCWNPVTGLNGSLVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPFERDSMYSQMWRMINRSNGSENNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWP DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTNYGEELGRGVRKLGCWNPVTGLNGSLVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPFERDSMYSQMWRMINRSNGSENNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWP 6lu9-a1-m1-cC_6lu9-a1-m1-cD Rat ionotropic Glutamate Delta-2 receptor in complex with 7-CKA and Calcium Q63226 Q63226 8.8 ELECTRON MICROSCOPY 72 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 660 660 DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTNYGEELGRGVRKLGCWNPVTGLNGSLVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPFERDSMYSQMWRMINRSNGSENNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWP DSIIHIGAIFDESAKKDDEVFRTAVGDLNQNEEILQTEKITFSVTFVDGNNPFQAVQEACELMNQGILALVSSIGCTSAGSLQSLADAMHIPHLFIQRSTAGTPRSGCGLTRSNRNDDYTLSVRPPVYLNEVILRVVTEYAWQKFIIFYDSEYDIRGIQEFLDKVSQQGMDVALQKVENNINKMITTLFDTMRIEELNRYRDTLRRAILVMNPATAKSFISEVVETNLVAFDCHWIIINEEINDVDVQELVRRSIGRLTIIRQTFPVPQNISQRCFRGNHRISSTLCDPKDPFAQNMEISNLYIYDTVLLLANAFHKKLQDRKWHSMASLSCIRKNSKPWQGGRSMLETIKKGGVNGLTGDLEFGENGGNPNVHFEILGTNYGEELGRGVRKLGCWNPVTGLNGSLVVLRVVTVLEEPFVMVSENVLGKPKKYQGFSIDVLDALSNYLGFNYEIYVAPDHKYGSPQEDGTWNGLVGELVFKRADIGISALTITPDRENVVDFTTRYMDYSVGVLLRRSIQSLQDLSKQTDIPYGTVLDSAVYQHVRMKGLNPFERDSMYSQMWRMINRSNGSENNVLESQAGIQKVKYGNYAFVWDAAVLEYVAINDPDCSFYTVGNTVADRGYGIALQHGSPYRDVFSQRILELQQSGDMDILKHKWWP 6lul-a1-m1-cA_6lul-a1-m1-cB NMR structure and dynamics studies of yeast respiratory super-complex factor 2 in micelles P53721 P53721 NOT SOLUTION NMR 19 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 224 224 MKILTQDEIEAHRSHTLKGGIEGALAGFAISAIIFKVLPRRYPKFKPSTLTWSIKTALWITPPTVLTAICAEEASNNFDATMYGSGSSSEDALDEHRRWKSLSTKDKFVEGLSNNKYKIITGAWAASLYGSWVIVNKDPIMTKAQKIVQARMYAQFITVGLLLASVGLSMYENKLHPNKQKVNEMRRWENALRVAEEEERLEKEGRRTGYVSNEERINSKIFKS MKILTQDEIEAHRSHTLKGGIEGALAGFAISAIIFKVLPRRYPKFKPSTLTWSIKTALWITPPTVLTAICAEEASNNFDATMYGSGSSSEDALDEHRRWKSLSTKDKFVEGLSNNKYKIITGAWAASLYGSWVIVNKDPIMTKAQKIVQARMYAQFITVGLLLASVGLSMYENKLHPNKQKVNEMRRWENALRVAEEEERLEKEGRRTGYVSNEERINSKIFKS 6lum-a1-m1-cN_6lum-a1-m1-cH Structure of Mycobacterium smegmatis succinate dehydrogenase 2 A0QT09 A0QT09 2.84 ELECTRON MICROSCOPY 13 1.0 1445611 (Mycolicibacterium smegmatis MC2 51) 1445611 (Mycolicibacterium smegmatis MC2 51) 116 120 6lum-a1-m1-cH_6lum-a1-m1-cD 6lum-a1-m1-cN_6lum-a1-m1-cD PYFEKYAWLFMRFSGIALVFLALGHLFIMLMWQDGVYRIDFNYVAERWASPFWQIWDMALLWLAMIHGANGMRTIIGDYARKNVTKFWLNSLLLLATGFTLVLGSYVLVTFDANIS PRGIPYFEKYAWLFMRFSGIALVFLALGHLFIMLMWQDGVYRIDFNYVAERWASPFWQIWDMALLWLAMIHGANGMRTIIGDYARKNVTKFWLNSLLLLATGFTLVLGSYVLVTFDANIS 6lur-a1-m1-cA_6lur-a1-m1-cD Human PUF60 UHM domain (thioredoxin fusion) in complex with a small molecule binder Q9UHX1 Q9UHX1 2 X-RAY DIFFRACTION 76 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 211 213 3dxb-a3-m1-cC_3dxb-a3-m1-cG 3dxb-a4-m1-cE_3dxb-a4-m1-cH 3dxb-a5-m1-cC_3dxb-a5-m1-cG 3dxb-a5-m1-cE_3dxb-a5-m1-cH 6lur-a1-m1-cB_6lur-a1-m1-cC 6lur-a1-m1-cE_6lur-a1-m1-cF DKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA MSDKIIHLTDDSFDTDVLKADGAILVDFWAEWCGPCKMIAPILDEIADEYQGKLTVAKLNIDQNPGTAPKYGIRGIPTLLLFKNGEVAATKVGALSKGQLKEFLDANLAGSAMESTVMVLRNMVDPKDIDDDLEGEVTEECGKFGAVNRVIIYQEKQGEEEDAEIIVKIFVEFSIASETHKAIQALNGRWFAGRKVVAEVYDQERFDNSDLSA 6lut-a1-m1-cB_6lut-a1-m1-cA Crystal structure of Serine Racemase from Dictyostelium discoideum. Q54HH2 Q54HH2 1.35 X-RAY DIFFRACTION 47 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 303 306 ATVTLKDIKEAHKRIEKYIHKTPVLTNSTINELAGKELYFKCENLQKTGSFMRGACNAIFSLDEEELSKGVVTHSSGNHGQALSYASKVRCVKCYVVVPEDAPSVKLNAICGYGATVTKCKATARESNTKQLIEQHSCKLIHPFDNLQVIAGQGTASLELMEQVENLDAIITPVGGGGLLSGTCITAKSLNPNIKVFAAEPLGADDTYRSLLSGEIQKNTIADGLLTTVGSLTFPIIKENCDGVILVTEDEIKYAMKLVWERMKIIIEPSSATTLAAILKQEFKDKKDIKKVGIIISGGNVDL ATVTLKDIKEAHKRIEKYIHKTPVLTNSTINELAGKELYFKCENLQKTGSFMRGACNAIFSLDEEELSKGVVTHSSGNHGQALSYASKVRCVKCYVVVPEDAPSVKLNAICGYGATVTKCKATLEARESNTKQLIEQHSCKLIHPFDNLQVIAGQGTASLELMEQVENLDAIITPVGGGGLLSGTCITAKSLNPNIKVFAAEPLGADDTYRSLLSGEIQKHNTIADGLLTTVGSLTFPIIKENCDGVILVTEDEIKYAMKLVWERMKIIIEPSSATTLAAILKQEFKDKKDIKKVGIIISGGNVDL 6lvo-a1-m2-cA_6lvo-a1-m3-cA Enoyl-CoA isomerase (BoECI) from Bosea sp. PAMC 26642 A0A126P0C4 A0A126P0C4 2.36 X-RAY DIFFRACTION 94 1.0 1792307 (Bosea sp. PAMC 26642) 1792307 (Bosea sp. PAMC 26642) 237 237 6lvo-a1-m1-cA_6lvo-a1-m2-cA 6lvo-a1-m1-cA_6lvo-a1-m3-cA MSILTETVLPGIVQITMNRPERKNALDRACYQGLIDAITAAEADPDIRAMVLTGAGGCFTSGNDIKDGPRVAMDYLGVLSTAKKPIVAAVEGFAVGIGTTMLLHCDLAFAGKGASFRMPFVALGLSPEGASSYLLPLIAGSKRAAELLMLGEAFGPEIAHEAGLLNAVTPEGGALALAIEKARALAALPPQSVALTKMLLKRAQAPAVAETIATEGRLFGERLLSAEAQAAFAAFLK MSILTETVLPGIVQITMNRPERKNALDRACYQGLIDAITAAEADPDIRAMVLTGAGGCFTSGNDIKDGPRVAMDYLGVLSTAKKPIVAAVEGFAVGIGTTMLLHCDLAFAGKGASFRMPFVALGLSPEGASSYLLPLIAGSKRAAELLMLGEAFGPEIAHEAGLLNAVTPEGGALALAIEKARALAALPPQSVALTKMLLKRAQAPAVAETIATEGRLFGERLLSAEAQAAFAAFLK 6lvp-a1-m1-cB_6lvp-a1-m1-cC Enoyl-CoA hydratase (HyECH) from Hymenobacter sp. PAMC 26628 A0A126PEF4 A0A126PEF4 2.69 X-RAY DIFFRACTION 145 1.0 1484118 (Hymenobacter sp. PAMC 26628) 1484118 (Hymenobacter sp. PAMC 26628) 263 263 6lvp-a1-m1-cA_6lvp-a1-m1-cB 6lvp-a1-m1-cA_6lvp-a1-m1-cC MATSFDNLLYDLDAATGVLTLTVNRPAKLNALNAATIAELDTAAQQALADPAVRAILLTGSGEKAFVAGADIAELASLTAVQAAGASAYGQRVFAQFERSPKPVVAAVNGFALGGGCELAMACHLRVAADTARFGLPEVSLGLLPGYGGTQRLPQLVGKAKALELMLTADMIKADEALRLGLVNHVVPLAELLGFCQQLLAKMLSKGPVALGLVIECVNAGYDPRQDGYVAETEAFGRAFQTDDFKEGTQAFVEKRPAVFQGK MATSFDNLLYDLDAATGVLTLTVNRPAKLNALNAATIAELDTAAQQALADPAVRAILLTGSGEKAFVAGADIAELASLTAVQAAGASAYGQRVFAQFERSPKPVVAAVNGFALGGGCELAMACHLRVAADTARFGLPEVSLGLLPGYGGTQRLPQLVGKAKALELMLTADMIKADEALRLGLVNHVVPLAELLGFCQQLLAKMLSKGPVALGLVIECVNAGYDPRQDGYVAETEAFGRAFQTDDFKEGTQAFVEKRPAVFQGK 6lvw-a1-m2-cA_6lvw-a1-m3-cA Polyextremophilic Beta-galactosidase from the Antarctic haloarchaeon Halorubrum lacusprofundi B9LW38 B9LW38 2.493 X-RAY DIFFRACTION 156 1.0 416348 (Halorubrum lacusprofundi ATCC 49239) 416348 (Halorubrum lacusprofundi ATCC 49239) 668 668 6lvw-a1-m1-cA_6lvw-a1-m2-cA 6lvw-a1-m1-cA_6lvw-a1-m3-cA MRLGVCYFPEHWPSEEWERDVAAMADAGLEYVRMAEFSWGVLEPERGTFDFEWLDEAIELIGDHGMQAVLCTPTATPPKWLVDERPSIRQEDPDGTVREHGSRRHYCFNSDAYREETARIVERVTERYADSPHVAGWQTDNEFGCHETVRCYCDDCADAFRTWLADRYGDIDRLNEAWGNAFWSQQYGSFDEIDPPGPTPAEHHPSRLLAYARFSSDSVVEYNRLHADLIREADPDWFVTHNFMGRFPTLNAYDVSEDLDRVAWDSYPTGFVQDRYDGEASPDQLRAGDPDQVGMDHDIYRSALDRPFWVMEQQPGDVNWPPHCPQPGEGAMRLWAHHAAAHGADAVLYFRWRRCLEGQEQYHAGLRKADGSPDRGYADAAHTSEEFATLDGASHVDAPVAVVFDYDSLWALNAQPHAPDFDYWALQEAFYGAVRGRGVQVDVVPPSADLSGYAAVVAPALHLVTEDLADRLTDYIAGGGEVLFGPRTGVKDAENKLRPMSQPGPLTDLVGATVDQHESLPRRLETTVRRVPPVSFRTWAEWLDPDAAEPQYAYDVDGPADGRPAVVTNTVGDGQVTYCGVWPESDLADALASDLLDRAGVRYAERLPDGVRIGYRGGRTWVTNFTSDRLRLPEIDPESLAVDDSADGIVVGPYGVAVIEGDCVDGLR MRLGVCYFPEHWPSEEWERDVAAMADAGLEYVRMAEFSWGVLEPERGTFDFEWLDEAIELIGDHGMQAVLCTPTATPPKWLVDERPSIRQEDPDGTVREHGSRRHYCFNSDAYREETARIVERVTERYADSPHVAGWQTDNEFGCHETVRCYCDDCADAFRTWLADRYGDIDRLNEAWGNAFWSQQYGSFDEIDPPGPTPAEHHPSRLLAYARFSSDSVVEYNRLHADLIREADPDWFVTHNFMGRFPTLNAYDVSEDLDRVAWDSYPTGFVQDRYDGEASPDQLRAGDPDQVGMDHDIYRSALDRPFWVMEQQPGDVNWPPHCPQPGEGAMRLWAHHAAAHGADAVLYFRWRRCLEGQEQYHAGLRKADGSPDRGYADAAHTSEEFATLDGASHVDAPVAVVFDYDSLWALNAQPHAPDFDYWALQEAFYGAVRGRGVQVDVVPPSADLSGYAAVVAPALHLVTEDLADRLTDYIAGGGEVLFGPRTGVKDAENKLRPMSQPGPLTDLVGATVDQHESLPRRLETTVRRVPPVSFRTWAEWLDPDAAEPQYAYDVDGPADGRPAVVTNTVGDGQVTYCGVWPESDLADALASDLLDRAGVRYAERLPDGVRIGYRGGRTWVTNFTSDRLRLPEIDPESLAVDDSADGIVVGPYGVAVIEGDCVDGLR 6lw3-a1-m1-cA_6lw3-a1-m1-cB Crystal structure of RuvC from Pseudomonas aeruginosa Q51424 Q51424 2.38 X-RAY DIFFRACTION 96 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 153 153 MTLILGIDPGSRITGFGVVRETARGCEYVASGCIRTGNGPLHERLHVVFRSVREVIRTHGPTALSIEQVFMARNADSALKLGQARGAAIVAAMEEGLSVAEYTASQVKQAVVGTGGADKQQVQMMVMHLLKLTQKPQIDASDALAIALCHAHT MTLILGIDPGSRITGFGVVRETARGCEYVASGCIRTGNGPLHERLHVVFRSVREVIRTHGPTALSIEQVFMARNADSALKLGQARGAAIVAAMEEGLSVAEYTASQVKQAVVGTGGADKQQVQMMVMHLLKLTQKPQIDASDALAIALCHAHT 6lw8-a1-m1-cA_6lw8-a1-m2-cA Structural basis for domain rotation during adenylation of active site K123 and fragment library screening against NAD+ -dependent DNA ligase from Mycobacterium tuberculosis P9WNV1 P9WNV1 2.401 X-RAY DIFFRACTION 72 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 320 320 TAPEVLRQWQALAEEVREHQFRYYVRDAPIISDAEFDELLRRLEALEEQHPELRTPDSPTQLVGGAGFATDFEPVDHLERMLSLDNAFTADELAAWAGRIHAEVGDAAHYLCELKIDGVALSLVYREGRLTRASTRGDGRTGEDVTLNARTIADVPERLTPGDDYPVPEVLEVRGEVFFRLDDFQALNASLVEEGKAPFANPRNSAAGSLRQKDPAVTARRRLRMICHGLGHVEGFRPATLHQAYLALRAWGLPVSEHTTLATDLAGVRERIDYWGEHRHEVDHEIDGVVVKVDEVALQRRLGSTSRAPRWAIAYKYPPE TAPEVLRQWQALAEEVREHQFRYYVRDAPIISDAEFDELLRRLEALEEQHPELRTPDSPTQLVGGAGFATDFEPVDHLERMLSLDNAFTADELAAWAGRIHAEVGDAAHYLCELKIDGVALSLVYREGRLTRASTRGDGRTGEDVTLNARTIADVPERLTPGDDYPVPEVLEVRGEVFFRLDDFQALNASLVEEGKAPFANPRNSAAGSLRQKDPAVTARRRLRMICHGLGHVEGFRPATLHQAYLALRAWGLPVSEHTTLATDLAGVRERIDYWGEHRHEVDHEIDGVVVKVDEVALQRRLGSTSRAPRWAIAYKYPPE 6lx3-a1-m1-cB_6lx3-a1-m1-cD Cryo-EM structure of human secretory immunoglobulin A P01876 P01876 3.15 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 223 6lxw-a1-m1-cB_6lxw-a1-m1-cD 6ue7-a1-m1-cA_6ue7-a1-m1-cF 6ue8-a1-m1-cA_6ue8-a1-m1-cF 6ue9-a1-m1-cA_6ue9-a1-m1-cF 6uea-a1-m1-cA_6uea-a1-m1-cF PRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWGKSAVQGPPSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAHVNVSVVMA PRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPEYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVMAEVDGTCY 6lxg-a1-m1-cA_6lxg-a1-m1-cB NMR solution structure of regulatory ACT domain of the Mycobacterium tuberculosis Rel protein P9WHG9 P9WHG9 NOT SOLUTION NMR 64 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 79 79 LVAIQVEALDRHRLLSDVTRALADEKVNILSASVTTSGDRVAISRFTFEMGDPKHLGHLLNAVRNVEGVYDVYRVTSAA LVAIQVEALDRHRLLSDVTRALADEKVNILSASVTTSGDRVAISRFTFEMGDPKHLGHLLNAVRNVEGVYDVYRVTSAA 6lxh-a1-m1-cA_6lxh-a1-m1-cC Staphylococcus aureus surface protein-sdrc Q2G0L5 Q2G0L5 2.07 X-RAY DIFFRACTION 134 0.997 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 308 314 TNVNDKVHFSNIDIAIDKGHVNQTTGKTEFWATSSDVLKLKANYTIDDSVKEGDTFTFKYGQYFRPGSVRLPSQTQNLYNAQGNIIAKGIYDSTTNTTTYTFTNYVDQYTNVRGSFEQVAFAKRKNATTDKTAYKMEVTLGNDTYSEEIIVDYGNKKAQPLISSTNYINNEDLSRNMTAYVNQPKNTYTKQTFVTNLTGYKFNPNAKNFKIYEVTDQNQFVDSFTPDTSKLKDVTDQFDVIYSNDNKTATVDLMKGQTSSNKQYIIQQVAYPDGKIDYTLDTDKTKYSWSNSYSNVNGSSTANGDQKK GTNVNDKVHFSNIDIAIDKGHVNQTTGKTEFWATSSDVLKLKANYTIDDSVKEGDTFTFKYGQYFRPGSVRLPSQTQNLYNAQGNIIAKGIYDSTTNTTTYTFTNYVDQYTNVRGSFEQVAFAKRKNATTDKTAYKMEVTLGNDTYSEEIIVDYGNKKAQPLISSTNYINNEDLSRNMTAYVNQPKNTYTKQTFVTNLTGYKFNPNAKNFKIYEVTDQNQFVDSFTPDTSKLKDVTDQFDVIYSNDNKTATVDLMKGQTSSNKQYIIQQVAYPDNSSTDNGKIDYTLDTDKTKYSWSNSYSNVGSSTANGDQKK 6lxh-a1-m1-cB_6lxh-a1-m1-cC Staphylococcus aureus surface protein-sdrc Q2G0L5 Q2G0L5 2.07 X-RAY DIFFRACTION 83 0.993 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 298 314 GTNVNDKVHFSNIDIAIDKGHVNQTTGKTEFWATSSDVLKLKANYTIDDSVKEGDTFTFKYGQYFRPGSVRLPSQTQNLYNAQGNIIAKGIYDSTTNTTTYTFTNYVDQYTNVRGSFEQVAFAKRKNATTDKTAYKMEVTLGNDTYSEEIIVDYGNKKAQPLISSTNYINNEDLSRNMTAYVNQPKNTYTKQTFVTNLTGYKFNPNAKNFKIYEVTDQNQFVDSFTPDTSKLKDVTDQFDVIYSNDNKTATVDLMKGQTSSNKQYIIQQVAYPDNTDGKIDYTLDTDKTKYSWSNSYS GTNVNDKVHFSNIDIAIDKGHVNQTTGKTEFWATSSDVLKLKANYTIDDSVKEGDTFTFKYGQYFRPGSVRLPSQTQNLYNAQGNIIAKGIYDSTTNTTTYTFTNYVDQYTNVRGSFEQVAFAKRKNATTDKTAYKMEVTLGNDTYSEEIIVDYGNKKAQPLISSTNYINNEDLSRNMTAYVNQPKNTYTKQTFVTNLTGYKFNPNAKNFKIYEVTDQNQFVDSFTPDTSKLKDVTDQFDVIYSNDNKTATVDLMKGQTSSNKQYIIQQVAYPDNSSTDNGKIDYTLDTDKTKYSWSNSYSNVGSSTANGDQKK 6lxm-a2-m1-cA_6lxm-a2-m1-cB Crystal structure of C-terminal DNA-binding domain of Escherichia coli OmpR as a domain-swapped dimer P0AA16 P0AA16 2.412 X-RAY DIFFRACTION 129 1.0 562 (Escherichia coli) 562 (Escherichia coli) 100 101 6lxm-a1-m1-cC_6lxm-a1-m2-cC AVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPD AVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPDG 6lxn-a1-m1-cB_6lxn-a1-m1-cA Crystal structure of C-terminal DNA-binding domain of Escherichia coli OmpR in complex with F1-DNA P0AA16 P0AA16 2.93 X-RAY DIFFRACTION 16 1.0 562 (Escherichia coli) 562 (Escherichia coli) 101 110 AVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPDG AVIAFGKFKLNLGTREMFREDEPMPLTSGEFAVLKALVSHPREPLSRDKLMNLARGREYSAMERSIDVQISRLRRMVEEDPAHPRYIQTVWGLGYVFVPDGSKALEHHHH 6lxu-a1-m1-cA_6lxu-a1-m4-cA Crystal structure of methionine gamma-lyase from Fusobacterium nucleatum Q8RDT4 Q8RDT4 1.19 X-RAY DIFFRACTION 74 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 390 390 6lxu-a1-m2-cA_6lxu-a1-m3-cA 7bqw-a1-m1-cC_7bqw-a1-m1-cB 7bqw-a1-m1-cD_7bqw-a1-m1-cA KSGLGTTAIHAGTLKNLYGTLAMPIYQTSTFIFDSAEQGGRRFALEEAGYIYTRLGNPTTTVLENKIAALEEGEAGIAMSSGMGAISSTLWTVLKAGDHVVTDKTLYGCTFALMNHGLTRFGVEVTFVDTSNLEEVKNAMKKNTRVVYLETPANPNLKIVDLEALSKIAHTNPNTLVIVDNTFATPYMQKPLKLGVDIVVHSATYLNGHGDVIAGLVVTRQELADQIRFVGLKDMTGAVLGPQEAYYIIRGLKTFEIRMERHCKNARTIVDFLNKHPKVEKVYYPGLETHPGYEIAKKQMKDFGAMISFELKGGFEAGKTLLNNLKLCSLAVSLGDTETLIQHPASMTHSPYTKEEREVAGITDGLVRLSVGLENVEDIIADLEQGLEKI KSGLGTTAIHAGTLKNLYGTLAMPIYQTSTFIFDSAEQGGRRFALEEAGYIYTRLGNPTTTVLENKIAALEEGEAGIAMSSGMGAISSTLWTVLKAGDHVVTDKTLYGCTFALMNHGLTRFGVEVTFVDTSNLEEVKNAMKKNTRVVYLETPANPNLKIVDLEALSKIAHTNPNTLVIVDNTFATPYMQKPLKLGVDIVVHSATYLNGHGDVIAGLVVTRQELADQIRFVGLKDMTGAVLGPQEAYYIIRGLKTFEIRMERHCKNARTIVDFLNKHPKVEKVYYPGLETHPGYEIAKKQMKDFGAMISFELKGGFEAGKTLLNNLKLCSLAVSLGDTETLIQHPASMTHSPYTKEEREVAGITDGLVRLSVGLENVEDIIADLEQGLEKI 6lxu-a1-m2-cA_6lxu-a1-m4-cA Crystal structure of methionine gamma-lyase from Fusobacterium nucleatum Q8RDT4 Q8RDT4 1.19 X-RAY DIFFRACTION 246 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 390 390 6lxu-a1-m1-cA_6lxu-a1-m3-cA 7bqw-a1-m1-cB_7bqw-a1-m1-cA KSGLGTTAIHAGTLKNLYGTLAMPIYQTSTFIFDSAEQGGRRFALEEAGYIYTRLGNPTTTVLENKIAALEEGEAGIAMSSGMGAISSTLWTVLKAGDHVVTDKTLYGCTFALMNHGLTRFGVEVTFVDTSNLEEVKNAMKKNTRVVYLETPANPNLKIVDLEALSKIAHTNPNTLVIVDNTFATPYMQKPLKLGVDIVVHSATYLNGHGDVIAGLVVTRQELADQIRFVGLKDMTGAVLGPQEAYYIIRGLKTFEIRMERHCKNARTIVDFLNKHPKVEKVYYPGLETHPGYEIAKKQMKDFGAMISFELKGGFEAGKTLLNNLKLCSLAVSLGDTETLIQHPASMTHSPYTKEEREVAGITDGLVRLSVGLENVEDIIADLEQGLEKI KSGLGTTAIHAGTLKNLYGTLAMPIYQTSTFIFDSAEQGGRRFALEEAGYIYTRLGNPTTTVLENKIAALEEGEAGIAMSSGMGAISSTLWTVLKAGDHVVTDKTLYGCTFALMNHGLTRFGVEVTFVDTSNLEEVKNAMKKNTRVVYLETPANPNLKIVDLEALSKIAHTNPNTLVIVDNTFATPYMQKPLKLGVDIVVHSATYLNGHGDVIAGLVVTRQELADQIRFVGLKDMTGAVLGPQEAYYIIRGLKTFEIRMERHCKNARTIVDFLNKHPKVEKVYYPGLETHPGYEIAKKQMKDFGAMISFELKGGFEAGKTLLNNLKLCSLAVSLGDTETLIQHPASMTHSPYTKEEREVAGITDGLVRLSVGLENVEDIIADLEQGLEKI 6lxu-a1-m3-cA_6lxu-a1-m4-cA Crystal structure of methionine gamma-lyase from Fusobacterium nucleatum Q8RDT4 Q8RDT4 1.19 X-RAY DIFFRACTION 95 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 390 390 6lxu-a1-m1-cA_6lxu-a1-m2-cA 7bqw-a1-m1-cC_7bqw-a1-m1-cA KSGLGTTAIHAGTLKNLYGTLAMPIYQTSTFIFDSAEQGGRRFALEEAGYIYTRLGNPTTTVLENKIAALEEGEAGIAMSSGMGAISSTLWTVLKAGDHVVTDKTLYGCTFALMNHGLTRFGVEVTFVDTSNLEEVKNAMKKNTRVVYLETPANPNLKIVDLEALSKIAHTNPNTLVIVDNTFATPYMQKPLKLGVDIVVHSATYLNGHGDVIAGLVVTRQELADQIRFVGLKDMTGAVLGPQEAYYIIRGLKTFEIRMERHCKNARTIVDFLNKHPKVEKVYYPGLETHPGYEIAKKQMKDFGAMISFELKGGFEAGKTLLNNLKLCSLAVSLGDTETLIQHPASMTHSPYTKEEREVAGITDGLVRLSVGLENVEDIIADLEQGLEKI KSGLGTTAIHAGTLKNLYGTLAMPIYQTSTFIFDSAEQGGRRFALEEAGYIYTRLGNPTTTVLENKIAALEEGEAGIAMSSGMGAISSTLWTVLKAGDHVVTDKTLYGCTFALMNHGLTRFGVEVTFVDTSNLEEVKNAMKKNTRVVYLETPANPNLKIVDLEALSKIAHTNPNTLVIVDNTFATPYMQKPLKLGVDIVVHSATYLNGHGDVIAGLVVTRQELADQIRFVGLKDMTGAVLGPQEAYYIIRGLKTFEIRMERHCKNARTIVDFLNKHPKVEKVYYPGLETHPGYEIAKKQMKDFGAMISFELKGGFEAGKTLLNNLKLCSLAVSLGDTETLIQHPASMTHSPYTKEEREVAGITDGLVRLSVGLENVEDIIADLEQGLEKI 6ly5-a1-m1-cP_6ly5-a1-m1-cQ Organization and energy transfer in a huge diatom PSI-FCPI supercomplex A0A6J4B125 A0A6J4B125 2.38 ELECTRON MICROSCOPY 18 1.0 184592 (Chaetoceros gracilis) 184592 (Chaetoceros gracilis) 173 173 KVDEMPGATAPLGKFDPLNLATLGSESTLAWFRAAELKHSRVAMLATTGYLVQAAGIHFPGMLSSDVSFESLSAMKPLDAWDAVPEGGKNQIYFTIFLAEFITECKGTHYTKGGPLPTIVFPPIDFSTVNPEQLKTRQNRELNNGRLAMIAIMSFVAAANIPGSVPALAGNPM KVDEMPGATAPLGKFDPLNLATLGSESTLAWFRAAELKHSRVAMLATTGYLVQAAGIHFPGMLSSDVSFESLSAMKPLDAWDAVPEGGKNQIYFTIFLAEFITECKGTHYTKGGPLPTIVFPPIDFSTVNPEQLKTRQNRELNNGRLAMIAIMSFVAAANIPGSVPALAGNPM 6ly5-a1-m1-cW_6ly5-a1-m1-cX Organization and energy transfer in a huge diatom PSI-FCPI supercomplex B7FRW2 B7FRW2 2.38 ELECTRON MICROSCOPY 10 1.0 184592 (Chaetoceros gracilis) 184592 (Chaetoceros gracilis) 160 161 AFEDELGAQPPLGFFDPLGLVADGDQEKFDRLRYVEIKHGRISMLAVVGYLVQEAGVRLPGTIDYSGKTFAEIPNGFAAFKEIPAGGLVQLLFFIGVLESSVMRDLTGEAEFVGDFRNGAIDFGWDTFDEETQFKKRAIELNQGRAAQMGILALMVHEQL AFEDELGAQPPLGFFDPLGLVADGDQEKFDRLRYVEIKHGRISMLAVVGYLVQEAGVRLPGTIDYSGKTFAEIPNGFAAFKEIPAGGLVQLLFFIGVLESSVMRDLTGEAEFVGDFRNGAIDFGWDTFDEETQFKKRAIELNQGRAAQMGILALMVHEQLG 6lyg-a1-m1-cG_6lyg-a1-m1-cH Cryo-EM structure of the calcium homeostasis modulator 1 channel E7F2J4 E7F2J4 3.1 ELECTRON MICROSCOPY 107 1.0 7955 (Danio rerio) 7955 (Danio rerio) 232 232 6lyg-a1-m1-cA_6lyg-a1-m1-cB 6lyg-a1-m1-cA_6lyg-a1-m1-cH 6lyg-a1-m1-cB_6lyg-a1-m1-cC 6lyg-a1-m1-cC_6lyg-a1-m1-cD 6lyg-a1-m1-cD_6lyg-a1-m1-cE 6lyg-a1-m1-cE_6lyg-a1-m1-cF 6lyg-a1-m1-cF_6lyg-a1-m1-cG 7dsc-a1-m1-cA_7dsc-a1-m1-cB 7dsc-a1-m1-cA_7dsc-a1-m1-cH 7dsc-a1-m1-cB_7dsc-a1-m1-cC 7dsc-a1-m1-cC_7dsc-a1-m1-cD 7dsc-a1-m1-cD_7dsc-a1-m1-cE 7dsc-a1-m1-cE_7dsc-a1-m1-cF 7dsc-a1-m1-cF_7dsc-a1-m1-cG 7dsc-a1-m1-cG_7dsc-a1-m1-cH 7dsd-a1-m1-cA_7dsd-a1-m1-cB 7dsd-a1-m1-cA_7dsd-a1-m1-cG 7dsd-a1-m1-cB_7dsd-a1-m1-cC 7dsd-a1-m1-cC_7dsd-a1-m1-cD 7dsd-a1-m1-cD_7dsd-a1-m1-cE 7dsd-a1-m1-cE_7dsd-a1-m1-cF 7dsd-a1-m1-cF_7dsd-a1-m1-cG 7dse-a1-m1-cA_7dse-a1-m1-cB 7dse-a1-m1-cA_7dse-a1-m1-cG 7dse-a1-m1-cB_7dse-a1-m1-cC 7dse-a1-m1-cC_7dse-a1-m1-cD 7dse-a1-m1-cD_7dse-a1-m1-cE 7dse-a1-m1-cE_7dse-a1-m1-cF 7dse-a1-m1-cF_7dse-a1-m1-cG RIMVQFLQANQESFGIMALASAQMYSSFEFTCPCLPDYNYAYGIGILIVPPIWFFLLGYVMNNNISVLTEEWKRPVGKDPAVLRYMFSSMTQRALIAPAVWIAVTLMDGKSFLCAFSPTADLSEFVNESYQSLSQKELLKIQAKIPCKDIFEEHEIISREAATRYIRCLSQACGWTFLMVITLVAFLVRAIRTQAAFLKTKYWSHYIDTERKLFDETCKEHAKSFAKVCIQQ RIMVQFLQANQESFGIMALASAQMYSSFEFTCPCLPDYNYAYGIGILIVPPIWFFLLGYVMNNNISVLTEEWKRPVGKDPAVLRYMFSSMTQRALIAPAVWIAVTLMDGKSFLCAFSPTADLSEFVNESYQSLSQKELLKIQAKIPCKDIFEEHEIISREAATRYIRCLSQACGWTFLMVITLVAFLVRAIRTQAAFLKTKYWSHYIDTERKLFDETCKEHAKSFAKVCIQQ 6lyh-a3-m3-cG_6lyh-a3-m1-cE Crystal structure of tea N9-methyltransferase CkTcS in complex with SAH and 1,3,7-trimethyluric acid Q9FZN8 Q9FZN8 3.15 X-RAY DIFFRACTION 73 1.0 261999 (Camellia sinensis var. assamica) 261999 (Camellia sinensis var. assamica) 357 358 6lyh-a1-m2-cC_6lyh-a1-m1-cB 6lyh-a2-m1-cA_6lyh-a2-m1-cD 6lyh-a4-m1-cF_6lyh-a4-m4-cH VKEVLFMNTGEGESSYVQNSSFTEKVASMAMPALENAVETLFSKDFHLFQAINAADLGCATGPNTFAVISTIKRMMEKKCRELNCQTLELQVYMNDLFGNDFNTLFKGLSSKVNKCEEVSCYVMGVPGSFHGRLFPRNSLHLVHSSYSVHWLTQAPKGLTSREALNKGRIYISKTSPPVVREAYLSQFHEDFTMFLNARSQEVVPNGCMVLILRGRQSSDPSDMQSCFIWELLAIAIAELVSQGLIDEDKLDTFNIPCYFPSLEEVKDIVERDGSFTIDHMEGFELDSLQMQENDKWVRGEKFAKIVRAFTEPIISNQFGHEIMDKLYDKFTHIVVSDLEAKLPKTTSIILVLSKIV VKEVLFMNTGEGESSYVQNSSFTEKVASMAMPALENAVETLFSKDFHLFQAINAADLGCATGPNTFAVISTIKRMMEKKCRELNCQTLELQVYMNDLFGNDFNTLFKGLSSKVNKCEEVSCYVMGVPGSFHGRLFPRNSLHLVHSSYSVHWLTQAPKGLTSRELALNKGRIYISKTSPPVVREAYLSQFHEDFTMFLNARSQEVVPNGCMVLILRGRQSSDPSDMQSCFIWELLAIAIAELVSQGLIDEDKLDTFNIPCYFPSLEEVKDIVERDGSFTIDHMEGFELDSLQMQENDKWVRGEKFAKIVRAFTEPIISNQFGHEIMDKLYDKFTHIVVSDLEAKLPKTTSIILVLSKIV 6lyi-a1-m1-cA_6lyi-a1-m2-cB Crystal structure of a N-methyltransferase CkTbS from Camellia assamica var. kucha Q9FZN8 Q9FZN8 2.49 X-RAY DIFFRACTION 61 0.997 261999 (Camellia sinensis var. assamica) 261999 (Camellia sinensis var. assamica) 322 341 SSFTEKVASMAMPALENAVETLFSKDFHLLPALNAADLGCAPNTFAVISMIKRMMEKKCRELYCQTPELQVYLNDLFKCEEVSCYVMGVPGSFHGRLFPRNSLHLVHSSYSVHWLTQAPKGLTSREGLALNKGKIYISKTSPPAVKEAYLSQFHEDFTMFLNARSQEVVPNGCMVLILHGRQSSDPSEMESCFTWELLAIAIAELVSQGLIDEDKLDTFNVPSYFPSLEEVKDIVERDGSFTIDHLEGFELDSLEMQENDKWVRGDKFAKMVRAFTEPIISNQFGHEIMDKLYDKFTHIVVSDLEAELPKTTSIILVLSKIV SFTEKVASMAMPALENAVETLFSKDFHLLPALNAADLGCAAGPNTFAVISMIKRMMEKKCRELYCQTPELQVYLNDFGNDFNTLFKGLSSEVVGNKCEEVSCYVMGVPGSFHGRLFPRNSLHLVHSSYSVHWLTQAPKGLTSREGLALNKGKIYISKTSPPAVKEAYLSQFHEDFTMFLNARSQEVVPNGCMVLILHGRQSSDPSEMESCFTWELLAIAIAELVSQGLIDEDKLDTFNVPSYFPSLEEVKDIVERDGSFTIDHLEGFELDSLEMQENDKWVRGDKFAKMVRAFTEPIISNQFGHEIMDKLYDKFTHIVVSDLEAELPKTTSIILVLSKIVG 6lz3-a1-m1-cA_6lz3-a1-m1-cD Structure of cryptochrome in active conformation B8A2L5 B8A2L5 3.2 ELECTRON MICROSCOPY 78 1.0 4577 (Zea mays) 4577 (Zea mays) 486 486 6lz3-a1-m1-cB_6lz3-a1-m1-cC MRIVVWFRRDLRVEDNPALAAAARAGGEVVPAYVWSPEEEGPYYPGRVSRWWISQSLNHLDASLRRLGAGKLVTRRSADAAVALLQLVRDTGATHVYFNHLYDPISLVRDRRLKEMLAAEGIVVQSFNSDLLYEPWEVVDDEGQPFTMFDPFWNRCLSMPYDPPAPLLPPKRINSGDLSMCPSEDLIFEDESERGSNALLARAWTPGWQNADKALTAFLNGPLADYSVNRKKADSASTSLLSPHLHFGELSVRKVFHLVRMKQLVWSNEGNHAAEESCTLFLRSIGLREYSRYLSFNHPSSHERPLLAHLRFFPWVVDESYFKIWRQGRTGYPLVDAGMRELWATGWLHDRIRVVVASFFVKVLQLPARWGMKYFWDTLLDADLESDALGWQYITGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWIPELARLPTEWIHHPWDAPVSVLQAAGIELGSNYPLPIVELDAAKGRLQAALSEMWQLE MRIVVWFRRDLRVEDNPALAAAARAGGEVVPAYVWSPEEEGPYYPGRVSRWWISQSLNHLDASLRRLGAGKLVTRRSADAAVALLQLVRDTGATHVYFNHLYDPISLVRDRRLKEMLAAEGIVVQSFNSDLLYEPWEVVDDEGQPFTMFDPFWNRCLSMPYDPPAPLLPPKRINSGDLSMCPSEDLIFEDESERGSNALLARAWTPGWQNADKALTAFLNGPLADYSVNRKKADSASTSLLSPHLHFGELSVRKVFHLVRMKQLVWSNEGNHAAEESCTLFLRSIGLREYSRYLSFNHPSSHERPLLAHLRFFPWVVDESYFKIWRQGRTGYPLVDAGMRELWATGWLHDRIRVVVASFFVKVLQLPARWGMKYFWDTLLDADLESDALGWQYITGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWIPELARLPTEWIHHPWDAPVSVLQAAGIELGSNYPLPIVELDAAKGRLQAALSEMWQLE 6lz3-a1-m1-cC_6lz3-a1-m1-cD Structure of cryptochrome in active conformation B8A2L5 B8A2L5 3.2 ELECTRON MICROSCOPY 49 1.0 4577 (Zea mays) 4577 (Zea mays) 486 486 6lz3-a1-m1-cA_6lz3-a1-m1-cB MRIVVWFRRDLRVEDNPALAAAARAGGEVVPAYVWSPEEEGPYYPGRVSRWWISQSLNHLDASLRRLGAGKLVTRRSADAAVALLQLVRDTGATHVYFNHLYDPISLVRDRRLKEMLAAEGIVVQSFNSDLLYEPWEVVDDEGQPFTMFDPFWNRCLSMPYDPPAPLLPPKRINSGDLSMCPSEDLIFEDESERGSNALLARAWTPGWQNADKALTAFLNGPLADYSVNRKKADSASTSLLSPHLHFGELSVRKVFHLVRMKQLVWSNEGNHAAEESCTLFLRSIGLREYSRYLSFNHPSSHERPLLAHLRFFPWVVDESYFKIWRQGRTGYPLVDAGMRELWATGWLHDRIRVVVASFFVKVLQLPARWGMKYFWDTLLDADLESDALGWQYITGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWIPELARLPTEWIHHPWDAPVSVLQAAGIELGSNYPLPIVELDAAKGRLQAALSEMWQLE MRIVVWFRRDLRVEDNPALAAAARAGGEVVPAYVWSPEEEGPYYPGRVSRWWISQSLNHLDASLRRLGAGKLVTRRSADAAVALLQLVRDTGATHVYFNHLYDPISLVRDRRLKEMLAAEGIVVQSFNSDLLYEPWEVVDDEGQPFTMFDPFWNRCLSMPYDPPAPLLPPKRINSGDLSMCPSEDLIFEDESERGSNALLARAWTPGWQNADKALTAFLNGPLADYSVNRKKADSASTSLLSPHLHFGELSVRKVFHLVRMKQLVWSNEGNHAAEESCTLFLRSIGLREYSRYLSFNHPSSHERPLLAHLRFFPWVVDESYFKIWRQGRTGYPLVDAGMRELWATGWLHDRIRVVVASFFVKVLQLPARWGMKYFWDTLLDADLESDALGWQYITGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWIPELARLPTEWIHHPWDAPVSVLQAAGIELGSNYPLPIVELDAAKGRLQAALSEMWQLE 6lz7-a1-m1-cA_6lz7-a1-m4-cA Tetrameric structure of ZmCRY1a PHR domain A0A1D6HB67 A0A1D6HB67 3.59936 X-RAY DIFFRACTION 90 1.0 4577 (Zea mays) 4577 (Zea mays) 492 492 6lz7-a1-m2-cA_6lz7-a1-m3-cA PGARAVVWFRRDLRVEDNPALAAAARAAGEVVPAYVWAPEEDGAYYPGRVSRWWLSQSLKHLDASLRRLGAARLVTRRSNDAVAALLDLVRCTGATHLFFNHLYDPLSLVRDYRVKEQLAAEGIDVQSFNADLLYEPWEVLDEDRRPFTMFAPFWNRCLCMPDPAAPLLPPKRINSGDLSRCPWDELVFEDESERGSNALLARAWSPGWQNADKALTAFLNGPLMDYSVNRKKADSASTSLLSPYLHFGELSVRKVFHQVRMKQLMWSNDGNHAGEESCTLFLRSIGLREYSRYLTFNHPCSHEKPLLSHLRFFPWVVNEVYFKVWRQGRTGYPLVDAGMRELWATGWVHDRIRVVVSSFFVKVLQLPWRWGMKYFWDTLLDADLESDALGWQYISGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWLPELARLPTEWIHHPWDAPESVLQAAGVELGSNYPRPIVELDAANSRLQDALSEMWELEAASRA PGARAVVWFRRDLRVEDNPALAAAARAAGEVVPAYVWAPEEDGAYYPGRVSRWWLSQSLKHLDASLRRLGAARLVTRRSNDAVAALLDLVRCTGATHLFFNHLYDPLSLVRDYRVKEQLAAEGIDVQSFNADLLYEPWEVLDEDRRPFTMFAPFWNRCLCMPDPAAPLLPPKRINSGDLSRCPWDELVFEDESERGSNALLARAWSPGWQNADKALTAFLNGPLMDYSVNRKKADSASTSLLSPYLHFGELSVRKVFHQVRMKQLMWSNDGNHAGEESCTLFLRSIGLREYSRYLTFNHPCSHEKPLLSHLRFFPWVVNEVYFKVWRQGRTGYPLVDAGMRELWATGWVHDRIRVVVSSFFVKVLQLPWRWGMKYFWDTLLDADLESDALGWQYISGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWLPELARLPTEWIHHPWDAPESVLQAAGVELGSNYPRPIVELDAANSRLQDALSEMWELEAASRA 6lz7-a1-m2-cA_6lz7-a1-m4-cA Tetrameric structure of ZmCRY1a PHR domain A0A1D6HB67 A0A1D6HB67 3.59936 X-RAY DIFFRACTION 51 1.0 4577 (Zea mays) 4577 (Zea mays) 492 492 6lz7-a1-m1-cA_6lz7-a1-m3-cA PGARAVVWFRRDLRVEDNPALAAAARAAGEVVPAYVWAPEEDGAYYPGRVSRWWLSQSLKHLDASLRRLGAARLVTRRSNDAVAALLDLVRCTGATHLFFNHLYDPLSLVRDYRVKEQLAAEGIDVQSFNADLLYEPWEVLDEDRRPFTMFAPFWNRCLCMPDPAAPLLPPKRINSGDLSRCPWDELVFEDESERGSNALLARAWSPGWQNADKALTAFLNGPLMDYSVNRKKADSASTSLLSPYLHFGELSVRKVFHQVRMKQLMWSNDGNHAGEESCTLFLRSIGLREYSRYLTFNHPCSHEKPLLSHLRFFPWVVNEVYFKVWRQGRTGYPLVDAGMRELWATGWVHDRIRVVVSSFFVKVLQLPWRWGMKYFWDTLLDADLESDALGWQYISGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWLPELARLPTEWIHHPWDAPESVLQAAGVELGSNYPRPIVELDAANSRLQDALSEMWELEAASRA PGARAVVWFRRDLRVEDNPALAAAARAAGEVVPAYVWAPEEDGAYYPGRVSRWWLSQSLKHLDASLRRLGAARLVTRRSNDAVAALLDLVRCTGATHLFFNHLYDPLSLVRDYRVKEQLAAEGIDVQSFNADLLYEPWEVLDEDRRPFTMFAPFWNRCLCMPDPAAPLLPPKRINSGDLSRCPWDELVFEDESERGSNALLARAWSPGWQNADKALTAFLNGPLMDYSVNRKKADSASTSLLSPYLHFGELSVRKVFHQVRMKQLMWSNDGNHAGEESCTLFLRSIGLREYSRYLTFNHPCSHEKPLLSHLRFFPWVVNEVYFKVWRQGRTGYPLVDAGMRELWATGWVHDRIRVVVSSFFVKVLQLPWRWGMKYFWDTLLDADLESDALGWQYISGSLPDGRELDRIDNPQFEGYKFDPHGEYVRRWLPELARLPTEWIHHPWDAPESVLQAAGVELGSNYPRPIVELDAANSRLQDALSEMWELEAASRA 6lzh-a1-m1-cA_6lzh-a1-m1-cB Crystal structure of Alpha/beta hydrolase GrgF from Penicillium sp. sh18 1.9 X-RAY DIFFRACTION 81 1.0 1661259 (Penicillium sp. sh18) 1661259 (Penicillium sp. sh18) 289 289 LPRSDVEFTTLDGLTLRGWLFPASQRGPALIMSPGFNMPKDAILPDIAKWFQEHGITCLLYDPRGIGASDGEPRNDIDARQQAEHLHDAVTWFKENPLVNEKQIALWGLCFGGNVTLAAAAFDKRVAAAIAVAPLIDSTGNPERRQPILELAMHDRASRLDGEEPMYLPYVNEDGSIPNGLQLAAEMMPALERLGIPVENRISVQTYYKSLSWNILNVVQYISPTPAMMVTPELDVSCPTEDQLNCFEHMKEPKELDILKGKGHLDWVFGDVESILNRQLDFLKRHMAF LPRSDVEFTTLDGLTLRGWLFPASQRGPALIMSPGFNMPKDAILPDIAKWFQEHGITCLLYDPRGIGASDGEPRNDIDARQQAEHLHDAVTWFKENPLVNEKQIALWGLCFGGNVTLAAAAFDKRVAAAIAVAPLIDSTGNPERRQPILELAMHDRASRLDGEEPMYLPYVNEDGSIPNGLQLAAEMMPALERLGIPVENRISVQTYYKSLSWNILNVVQYISPTPAMMVTPELDVSCPTEDQLNCFEHMKEPKELDILKGKGHLDWVFGDVESILNRQLDFLKRHMAF 6lzy-a1-m1-cB_6lzy-a1-m1-cA Structure of Phytolacca americana UGT3 with 18-crown-6 B5MGN9 B5MGN9 2.4 X-RAY DIFFRACTION 16 1.0 3527 (Phytolacca americana) 3527 (Phytolacca americana) 453 454 6lzx-a1-m1-cA_6lzx-a1-m1-cB QQLHVVFFPIMAHGHMIPTLDIARLFAARNVRATIITTPLNAHTFTKAIEMGKKNGSPTIHLELFKFPAQDVGLPEGCENLEQALGSSLIEKFFKGVGLLREQLEAYLEKTRPNCLVADMFFPWATDSAAKFNIPRLVFHGTSFFSLCALEVVRLYEPHKNVSSDEELFSLPLFPHDIKMMRLQLPEDVWKHEKAEGKTRLKLIKESELKSYGVIVNSFYELEPNYAEFFRKELGRRAWNIGPVSLCNRHECLKWLNSKKKNSVIYICFGSTAHQIAPQLYEIAMALEASGQEFIWVVRDSWLPRGFEQRVEGKGLIIRGWAPQVLILEHEAIGAFVTHCGWNSTLEGITAGVPMVTWPIFAEQFYNEKLVNQILKIGVPVGANKWSRETSIEDVIKKDAIEKALREIMVGDEAEERRSRAKKLKEMAWKAVEEGGSSYSDLSALIEELRGYH QQLHVVFFPIMAHGHMIPTLDIARLFAARNVRATIITTPLNAHTFTKAIEMGKKNGSPTIHLELFKFPAQDVGLPEGCENLEQALGSSLIEKFFKGVGLLREQLEAYLEKTRPNCLVADMFFPWATDSAAKFNIPRLVFHGTSFFSLCALEVVRLYEPHKNVSSDEELFSLPLFPHDIKMMRLQLPEDVWKHEKAEGKTRLKLIKESELKSYGVIVNSFYELEPNYAEFFRKELGRRAWNIGPVSLCNRSHECLKWLNSKKKNSVIYICFGSTAHQIAPQLYEIAMALEASGQEFIWVVRDSWLPRGFEQRVEGKGLIIRGWAPQVLILEHEAIGAFVTHCGWNSTLEGITAGVPMVTWPIFAEQFYNEKLVNQILKIGVPVGANKWSRETSIEDVIKKDAIEKALREIMVGDEAEERRSRAKKLKEMAWKAVEEGGSSYSDLSALIEELRGYH 6m04-a1-m1-cF_6m04-a1-m1-cA Structure of the human homo-hexameric LRRC8D channel at 4.36 Angstroms Q7L1W4 Q7L1W4 4.36 ELECTRON MICROSCOPY 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 713 714 6m04-a1-m1-cC_6m04-a1-m1-cD FTLAEVASLNDIQPTYRILKPWWDVFMDYLAVVMLMVAIFAGTMQLTKDQVVCLPVLTGRKTNLDFQQYVFINQMCYHLALPWYSKYFPYLALIHTIILMVSSNFWFKYPKTCSKVEHFVSILGKCFESPWTTKALSETDKKDGEQAKALFEKVRKFRAHVEDSDLIYKLYVVQTVIKTAKFIFILCYTANFVNAISFEHVCKPKVEHLIGYEVFECTHNMAYMLKKLLISYISIICVYGFICLYTLFWLFRIPLKEYSFEKVREESSFSDIPDVKNDFAFLLHMVDQYDQLYSKRFGVFLSEVSENKLREISLNHEWTFEKLRQHISRNAQDKQELHLFMLSGVPDAVFDLTDLDVLKLELIPEAKIPAKISQMTNLQELHLCHCPAKVEQTAFSFLRDHLRCLHVKFTDVAEIPAWVYLLKNLRELYLIGNLNSENNKMIGLESLRELRHLKILHVKSNLTKVPSNITDVAPHLTKLVIHNDGTKLLVLNSLKKMMNVAELELQNCELERIPHAIFSLSNLQELDLKSNNIRTIEEIISFQHLKRLTCLKLWHNKIVTIPPSITHVKNLESLYFSNNKLESLPVAVFSLQKLRCLDVSYNNISMIPIEIGLLQNLQHLHITGNKVDILPKQLFKCIKLRTLNLGQNCITSLPEKVGQLSQLTQLELKGNCFDRLPAQLGQCRMLKKSGLVVEDHLFDTLPLEVKEALNQDI FTLAEVASLNDIQPTYRILKPWWDVFMDYLAVVMLMVAIFAGTMQLTKDQVVCLPVLPTGRKTNLDFQQYVFINQMCYHLALPWYSKYFPYLALIHTIILMVSSNFWFKYPKTCSKVEHFVSILGKCFESPWTTKALSETDKKDGEQAKALFEKVRKFRAHVEDSDLIYKLYVVQTVIKTAKFIFILCYTANFVNAISFEHVCKPKVEHLIGYEVFECTHNMAYMLKKLLISYISIICVYGFICLYTLFWLFRIPLKEYSFEKVREESSFSDIPDVKNDFAFLLHMVDQYDQLYSKRFGVFLSEVSENKLREISLNHEWTFEKLRQHISRNAQDKQELHLFMLSGVPDAVFDLTDLDVLKLELIPEAKIPAKISQMTNLQELHLCHCPAKVEQTAFSFLRDHLRCLHVKFTDVAEIPAWVYLLKNLRELYLIGNLNSENNKMIGLESLRELRHLKILHVKSNLTKVPSNITDVAPHLTKLVIHNDGTKLLVLNSLKKMMNVAELELQNCELERIPHAIFSLSNLQELDLKSNNIRTIEEIISFQHLKRLTCLKLWHNKIVTIPPSITHVKNLESLYFSNNKLESLPVAVFSLQKLRCLDVSYNNISMIPIEIGLLQNLQHLHITGNKVDILPKQLFKCIKLRTLNLGQNCITSLPEKVGQLSQLTQLELKGNCFDRLPAQLGQCRMLKKSGLVVEDHLFDTLPLEVKEALNQDI 6m04-a1-m1-cF_6m04-a1-m1-cE Structure of the human homo-hexameric LRRC8D channel at 4.36 Angstroms Q7L1W4 Q7L1W4 4.36 ELECTRON MICROSCOPY 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 713 714 6m04-a1-m1-cA_6m04-a1-m1-cB 6m04-a1-m1-cC_6m04-a1-m1-cB 6m04-a1-m1-cD_6m04-a1-m1-cE FTLAEVASLNDIQPTYRILKPWWDVFMDYLAVVMLMVAIFAGTMQLTKDQVVCLPVLTGRKTNLDFQQYVFINQMCYHLALPWYSKYFPYLALIHTIILMVSSNFWFKYPKTCSKVEHFVSILGKCFESPWTTKALSETDKKDGEQAKALFEKVRKFRAHVEDSDLIYKLYVVQTVIKTAKFIFILCYTANFVNAISFEHVCKPKVEHLIGYEVFECTHNMAYMLKKLLISYISIICVYGFICLYTLFWLFRIPLKEYSFEKVREESSFSDIPDVKNDFAFLLHMVDQYDQLYSKRFGVFLSEVSENKLREISLNHEWTFEKLRQHISRNAQDKQELHLFMLSGVPDAVFDLTDLDVLKLELIPEAKIPAKISQMTNLQELHLCHCPAKVEQTAFSFLRDHLRCLHVKFTDVAEIPAWVYLLKNLRELYLIGNLNSENNKMIGLESLRELRHLKILHVKSNLTKVPSNITDVAPHLTKLVIHNDGTKLLVLNSLKKMMNVAELELQNCELERIPHAIFSLSNLQELDLKSNNIRTIEEIISFQHLKRLTCLKLWHNKIVTIPPSITHVKNLESLYFSNNKLESLPVAVFSLQKLRCLDVSYNNISMIPIEIGLLQNLQHLHITGNKVDILPKQLFKCIKLRTLNLGQNCITSLPEKVGQLSQLTQLELKGNCFDRLPAQLGQCRMLKKSGLVVEDHLFDTLPLEVKEALNQDI FTLAEVASLNDIQPTYRILKPWWDVFMDYLAVVMLMVAIFAGTMQLTKDQVVCLPVLPTGRKTNLDFQQYVFINQMCYHLALPWYSKYFPYLALIHTIILMVSSNFWFKYPKTCSKVEHFVSILGKCFESPWTTKALSETDKKDGEQAKALFEKVRKFRAHVEDSDLIYKLYVVQTVIKTAKFIFILCYTANFVNAISFEHVCKPKVEHLIGYEVFECTHNMAYMLKKLLISYISIICVYGFICLYTLFWLFRIPLKEYSFEKVREESSFSDIPDVKNDFAFLLHMVDQYDQLYSKRFGVFLSEVSENKLREISLNHEWTFEKLRQHISRNAQDKQELHLFMLSGVPDAVFDLTDLDVLKLELIPEAKIPAKISQMTNLQELHLCHCPAKVEQTAFSFLRDHLRCLHVKFTDVAEIPAWVYLLKNLRELYLIGNLNSENNKMIGLESLRELRHLKILHVKSNLTKVPSNITDVAPHLTKLVIHNDGTKLLVLNSLKKMMNVAELELQNCELERIPHAIFSLSNLQELDLKSNNIRTIEEIISFQHLKRLTCLKLWHNKIVTIPPSITHVKNLESLYFSNNKLESLPVAVFSLQKLRCLDVSYNNISMIPIEIGLLQNLQHLHITGNKVDILPKQLFKCIKLRTLNLGQNCITSLPEKVGQLSQLTQLELKGNCFDRLPAQLGQCRMLKKSGLVVEDHLFDTLPLEVKEALNQDI 6m0a-a1-m1-cA_6m0a-a1-m1-cB The heme-bound structure of the chloroplast protein At3g03890 Q8LDU1 Q8LDU1 2.2 X-RAY DIFFRACTION 93 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 255 256 6m09-a1-m1-cA_6m09-a1-m1-cB 6m09-a2-m1-cC_6m09-a2-m1-cD 6m0a-a2-m1-cD_6m0a-a2-m1-cC DVFKLIQAHEEKAARLSPVEEIRTVLNGSICGMLSTFSQKYEGYPSGSMVDFACDADGSPILAVSSLAVHTKDLLANPKCSLLIARDPEDRTGLRITLHGDAVLVSEKDQAAVRSAYLAKHPKAFWVDFGDFSFMRIEPKVVRYVSGVATAFLGSGEFSKEEYQAAKVDPIAQYAKPVTSHMNKDHEEDTKAIVHNITSIPVESALMLDLDSLGFNVKATLQGNTFKLRVPFPRRAQDRKDVKTLIVEMLQAAKS TDVFKLIQAHEEKAARLSPVEEIRTVLNGSICGMLSTFSQKYEGYPSGSMVDFACDADGSPILAVSSLAVHTKDLLANPKCSLLIARDPEDRTGLRITLHGDAVLVSEKDQAAVRSAYLAKHPKAFWVDFGDFSFMRIEPKVVRYVSGVATAFLGSGEFSKEEYQAAKVDPIAQYAKPVTSHMNKDHEEDTKAIVHNITSIPVESALMLDLDSLGFNVKATLQGNTFKLRVPFPRRAQDRKDVKTLIVEMLQAAKS 6m10-a3-m1-cD_6m10-a3-m3-cD Crystal structure of PA4853 (Fis) from Pseudomonas aeruginosa Q9HUW0 Q9HUW0 2.985 X-RAY DIFFRACTION 99 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 81 81 6m10-a1-m1-cB_6m10-a1-m1-cA 6m10-a2-m1-cC_6m10-a2-m2-cC TTPTQEGQTLRDSVEKALHNYFAHLEGQPVTDVYNMVLCEVEAPLLETVMNHVKGNQTKASELLGLNRGTLRKKLKQYDLL TTPTQEGQTLRDSVEKALHNYFAHLEGQPVTDVYNMVLCEVEAPLLETVMNHVKGNQTKASELLGLNRGTLRKKLKQYDLL 6m15-a1-m1-cB_6m15-a1-m1-cC Cryo-EM structures of HKU2 spike glycoproteins A8JNZ2 A8JNZ2 2.38 ELECTRON MICROSCOPY 376 1.0 693998 (Rhinolophus bat coronavirus HKU2) 693998 (Rhinolophus bat coronavirus HKU2) 965 965 6m15-a1-m1-cA_6m15-a1-m1-cB 6m15-a1-m1-cA_6m15-a1-m1-cC CDYVDFRLFNGIFSTSRGLSNTTTVITGAYPSTNKAKWFCPTNVGRPVGTGVGIGVYAQTAQASYETGGSGAGGYTFSVSPKHVTNLTWSLWVHRPWGANANVTVRLCRWWQGPSSAFECLVNGSFPSSQHKGYMFGVTWYNDFVRIIFPPTVFELQLDGLQWEYVQFTGPVNARMTKFNVVTEISSVLVLTDQSGAVTRYSYCADGFVNGLQCKLRLFDIPPGVYSNSEVEYPVALYTVVHNMSVCPQRPESYCGSNYCPFKRVVFSNCVVNYTSWTSGLLRDYQHLVLPNGKFNPFTECNGLNRIVDDCVTGFVLRVGRGTAVNRTVITPYLKPNECFGWSWNDYQDSIYDWWIADFVSTGAFVCEKNPDAPRTGVCITYTIEKVTFQGVLYESNFTFAQYYNVLYFGSQLKYVRILGKVYEVAPCFEASYDVLFRSSSSFGLLYRSFDCNQLRISASRFAERLLPSHNGTATALGCLFNATYAPNDTMVNCTNPLGDGFCADLLSNVVVRRMTFEKHDTTYVAPVTNERFTELPLDHQLVLTEQFLQTTMPKFSISCETYICDVSKACKNLLFRYGGFCQKIEADIRGAGVLLDSDVSGLYSTIAAKTSSITPTTDRFNVSQFFLPKVQSNSERFESRSVIEDLLFSKIETTGPGFYGDYYNCKKNAIQDLTCAQYHNGILVIPPVMDAETLGMYGGIAAASLTLGIFGGQAGITTWSLAMAGRLNALGVVQNALVDDVNKLANGFNQLTASVGKLALTTSSALQAIQAVVNQNAAQVESLVSGITENFGAISTNFKVISQRLDKLEADVQMDRLINGRMNVLQLFVTNYKLKIAELRNTHRYVQSLINECVYAQSLRNGFCGQGLHVLSLMQNAPSGIMFFHYSLIPNNTITVKTTPGLCESDELGSKCIVAKDGVLVSANLSYWQWSPRNLYKPENLTFANVIAVSRGANYTTLNRTFDI CDYVDFRLFNGIFSTSRGLSNTTTVITGAYPSTNKAKWFCPTNVGRPVGTGVGIGVYAQTAQASYETGGSGAGGYTFSVSPKHVTNLTWSLWVHRPWGANANVTVRLCRWWQGPSSAFECLVNGSFPSSQHKGYMFGVTWYNDFVRIIFPPTVFELQLDGLQWEYVQFTGPVNARMTKFNVVTEISSVLVLTDQSGAVTRYSYCADGFVNGLQCKLRLFDIPPGVYSNSEVEYPVALYTVVHNMSVCPQRPESYCGSNYCPFKRVVFSNCVVNYTSWTSGLLRDYQHLVLPNGKFNPFTECNGLNRIVDDCVTGFVLRVGRGTAVNRTVITPYLKPNECFGWSWNDYQDSIYDWWIADFVSTGAFVCEKNPDAPRTGVCITYTIEKVTFQGVLYESNFTFAQYYNVLYFGSQLKYVRILGKVYEVAPCFEASYDVLFRSSSSFGLLYRSFDCNQLRISASRFAERLLPSHNGTATALGCLFNATYAPNDTMVNCTNPLGDGFCADLLSNVVVRRMTFEKHDTTYVAPVTNERFTELPLDHQLVLTEQFLQTTMPKFSISCETYICDVSKACKNLLFRYGGFCQKIEADIRGAGVLLDSDVSGLYSTIAAKTSSITPTTDRFNVSQFFLPKVQSNSERFESRSVIEDLLFSKIETTGPGFYGDYYNCKKNAIQDLTCAQYHNGILVIPPVMDAETLGMYGGIAAASLTLGIFGGQAGITTWSLAMAGRLNALGVVQNALVDDVNKLANGFNQLTASVGKLALTTSSALQAIQAVVNQNAAQVESLVSGITENFGAISTNFKVISQRLDKLEADVQMDRLINGRMNVLQLFVTNYKLKIAELRNTHRYVQSLINECVYAQSLRNGFCGQGLHVLSLMQNAPSGIMFFHYSLIPNNTITVKTTPGLCESDELGSKCIVAKDGVLVSANLSYWQWSPRNLYKPENLTFANVIAVSRGANYTTLNRTFDI 6m1d-a1-m1-cB_6m1d-a1-m1-cD ACE2-B0AT1 complex, open conformation Q9BYF1 Q9BYF1 4.5 ELECTRON MICROSCOPY 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 748 748 IEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNITEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNPDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNVQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYADQSIKVRISLKSALGDKAYEWNDNEMYLFRSSVAYAMRQYFLKVKNQMILFGEEDVRVANLKPRISFNFFVTAPKNVSDIIPRTEVEKAIRMSRSRINDAFRLNDNSLEFLGIQPTLGPPNQPPVSIWLIVFGVVMGVIVVGIVILIFTGIRDR IEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNITEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNPDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNVQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYADQSIKVRISLKSALGDKAYEWNDNEMYLFRSSVAYAMRQYFLKVKNQMILFGEEDVRVANLKPRISFNFFVTAPKNVSDIIPRTEVEKAIRMSRSRINDAFRLNDNSLEFLGIQPTLGPPNQPPVSIWLIVFGVVMGVIVVGIVILIFTGIRDR 6m1t-a1-m1-cA_6m1t-a1-m1-cB Bacterial beta class Sphingomonas chungbukensis Glutathione S-transferase O30347 O30347 1.9 X-RAY DIFFRACTION 80 1.0 56193 (Sphingobium chungbukense) 56193 (Sphingobium chungbukense) 201 201 MKLFISPGACSLAPHIALRETGAAFDAVKVDLATRKVETGDDFLTVNPSGKVPALTLDSGETLTENPAILLYIADQKPDAALAPRDGTLERYRLISRLSFLGSEFHKAFVPLFTPGSSDEAKLAASTAVKNHLGALDKELLDKEHYAGSEFSVADIYLFVMLGWPAHVGIDMSAYPNLGAYCGRIAQRPSVGAALKAEGLV MKLFISPGACSLAPHIALRETGAAFDAVKVDLATRKVETGDDFLTVNPSGKVPALTLDSGETLTENPAILLYIADQKPDAALAPRDGTLERYRLISRLSFLGSEFHKAFVPLFTPGSSDEAKLAASTAVKNHLGALDKELLDKEHYAGSEFSVADIYLFVMLGWPAHVGIDMSAYPNLGAYCGRIAQRPSVGAALKAEGLV 6m1v-a1-m2-cA_6m1v-a1-m3-cA Crystal structure of post fusion core of 2019-nCoV S2 subunit P0DTC2 P0DTC2 1.5 X-RAY DIFFRACTION 97 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 91 91 6m1v-a1-m1-cA_6m1v-a1-m2-cA 6m1v-a1-m1-cA_6m1v-a1-m3-cA MENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLLVPRISGINASVVNIQKEIDRLNEVAKNLNESLIDLQELHH MENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLLVPRISGINASVVNIQKEIDRLNEVAKNLNESLIDLQELHH 6m28-a1-m1-cA_6m28-a1-m1-cB Sirohydrochlorin nickelochelatase CfbA in complex with Co2+ Q58380 Q58380 3 X-RAY DIFFRACTION 124 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 118 118 6m25-a1-m1-cA_6m25-a1-m1-cB 6m26-a1-m1-cA_6m26-a1-m1-cB 6m27-a1-m1-cA_6m27-a1-m1-cB 6m29-a1-m1-cA_6m29-a1-m1-cB 6m2a-a1-m1-cA_6m2a-a1-m1-cB 6m2e-a1-m1-cA_6m2e-a1-m1-cB 6m2f-a1-m1-cA_6m2f-a1-m1-cB 6m2g-a1-m1-cA_6m2g-a1-m1-cB 6m2h-a1-m1-cA_6m2h-a1-m1-cB MEALVLVGHGSRLPYSKELLVKLAEKVKERNLFPIVEIGLMEFSEPTIPQAVKKAIEQGAKRIIVVPVFLAHGIHTTRDIPRLLGLIEIPEDVEIIYREPIGADDRIVDIIIDRAFGR MEALVLVGHGSRLPYSKELLVKLAEKVKERNLFPIVEIGLMEFSEPTIPQAVKKAIEQGAKRIIVVPVFLAHGIHTTRDIPRLLGLIEIPEDVEIIYREPIGADDRIVDIIIDRAFGR 6m2m-a1-m1-cB_6m2m-a1-m1-cL A role for histone chaperone OsChz1 in histone recognition and deposition Q9LQQ4 Q9LQQ4 2.85 X-RAY DIFFRACTION 64 0.988 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 86 89 6m2m-a1-m1-cD_6m2m-a1-m1-cH 6m2m-a1-m1-cF_6m2m-a1-m1-cJ ETYKIYIFKVLKQVHPDIGISSKAMGIMNSFINDIFEKLAQESSKLARYNKKPTITSREIQTAVRLVLPGELAKHAVSEGTKAVTK TYKIYIFKVLKQVHPDIGISSKAMGIMNSFINDIFEKLAQESSKLARYNKKPTITSREIQTAVRLVLPGELAKHAVSEGTKAVTKFTSS 6m2m-a1-m1-cK_6m2m-a1-m1-cA A role for histone chaperone OsChz1 in histone recognition and deposition O81826 O81826 2.85 X-RAY DIFFRACTION 11 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 81 88 6m2m-a1-m1-cG_6m2m-a1-m1-cC 6m2m-a1-m1-cI_6m2m-a1-m1-cE GLQFPVGRIARFLKAGKYAERVGAGAPVYLAAVLEYLAAEVLELAGNAARDNKKTRIVPRHIQLAVRNDEELSKLLGDVTI TSRSSKAGLQFPVGRIARFLKAGKYAERVGAGAPVYLAAVLEYLAAEVLELAGNAARDNKKTRIVPRHIQLAVRNDEELSKLLGDVTI 6m2o-a1-m1-cA_6m2o-a1-m1-cB Double mutant(H333A/I334A) crystal structure of benzoate coenzyme A ligase Q93TK0 Q93TK0 1.57 X-RAY DIFFRACTION 90 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 518 518 4rm3-a3-m1-cA_4rm3-a3-m1-cB 4rmn-a1-m2-cA_4rmn-a1-m1-cB 6m2u-a1-m1-cA_6m2u-a1-m1-cB VTPPPEKFNFAEHLLQTNRVRPDKTAFVDDISSLSFAQLEAQTRQLAAALRAIGVKREERVLLLMLDGTDWPVAFLGAIYAGIVPVAVNTLLTADDYAYMLEHSRAQAVLVSGALHPVLKAALTKSDHEVQRVIVSRPAAPLEPGEVDFAEFVGAHAPLEKPAATQADDPAFWLYSSGSTGRPKGVVHTHANPYWTSELYGRNTLHLREDDVCFSAAKLFFAYGLGNALTFPMTVGATTLLMGERPTPDAVFKRWLGGVGGVKPTVFYGAPTGYAGMLAAPNLPSRDQVALRLASSAGEALPAEIGQRFQRHFGLDIVDGIGSTEMLAAFLSNLPDRVRYGTTGWPVPGYQIELRGDGGGPVADGEPGDLYIHGPSSATMYWGNRAKSRDTFQGGWTKSGDKYVRNDDGSYTYAGRTDDMLKVSGIYVSPFEIEATLVQHPGVLEAAVVGVADEHGLTKPKAYVVPRPGQTLSETELKTFIKDRLAPYKYPRSTVFVAELPKTATGKIQRFKLREGVL VTPPPEKFNFAEHLLQTNRVRPDKTAFVDDISSLSFAQLEAQTRQLAAALRAIGVKREERVLLLMLDGTDWPVAFLGAIYAGIVPVAVNTLLTADDYAYMLEHSRAQAVLVSGALHPVLKAALTKSDHEVQRVIVSRPAAPLEPGEVDFAEFVGAHAPLEKPAATQADDPAFWLYSSGSTGRPKGVVHTHANPYWTSELYGRNTLHLREDDVCFSAAKLFFAYGLGNALTFPMTVGATTLLMGERPTPDAVFKRWLGGVGGVKPTVFYGAPTGYAGMLAAPNLPSRDQVALRLASSAGEALPAEIGQRFQRHFGLDIVDGIGSTEMLAAFLSNLPDRVRYGTTGWPVPGYQIELRGDGGGPVADGEPGDLYIHGPSSATMYWGNRAKSRDTFQGGWTKSGDKYVRNDDGSYTYAGRTDDMLKVSGIYVSPFEIEATLVQHPGVLEAAVVGVADEHGLTKPKAYVVPRPGQTLSETELKTFIKDRLAPYKYPRSTVFVAELPKTATGKIQRFKLREGVL 6m36-a1-m1-cE_6m36-a1-m1-cG The crystal structure of B. subtilis RsbV/RsbW complex in the monoclinic crystal form P17904 P17904 3.4 X-RAY DIFFRACTION 49 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 100 104 DYIEMKVPAQPEYVGIIRLTLSGVASRMGYTYDEIEDLKIAVSEACTNAVQGEVSIRFGVFEDRLEVIVADGLGLYLMETLMDEVRVQNGVTVAMTKYLN DYIEMKVPAQPEYVGIIRLTLSGVASRMGYTYDEIEDLKIAVSEACTNAVQHAYGEVSIRFGVFEDRLEVIVADGLGLYLMETLMDEVRVQNHGVTVAMTKYLN 6m36-a2-m1-cJ_6m36-a2-m1-cP The crystal structure of B. subtilis RsbV/RsbW complex in the monoclinic crystal form P17903 P17903 3.4 X-RAY DIFFRACTION 16 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 100 100 6m36-a1-m1-cB_6m36-a1-m1-cH 6m36-a1-m1-cF_6m36-a1-m1-cD 6m36-a2-m1-cL_6m36-a2-m1-cN NINVDVKQNENDIQVNIAGEIDVYSAPVLREKLVPLAEQGADLRICLKDVSYMDSTGLGVFVGTFKMVKKQGGSLKLENLSERLIRLFDITGLKDIIDIS NINVDVKQNENDIQVNIAGEIDVYSAPVLREKLVPLAEQGADLRICLKDVSYMDSTGLGVFVGTFKMVKKQGGSLKLENLSERLIRLFDITGLKDIIDIS 6m37-a1-m1-cA_6m37-a1-m2-cA The crystal structure of B. subtilis RsbV/RsbW complex in the hexagonal crystal form P17904 P17904 3.1 X-RAY DIFFRACTION 29 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 113 113 ADYIEMKVPAQPEYVGIIRLTLSGVASRMGYTYDEIEDLKIAVSEACTNAVQHAYKEDKNGEVSIRFGVFEDRLEVIVADEGGLGLYLMETLMDEVRVQNHSGVTVAMTKYLN ADYIEMKVPAQPEYVGIIRLTLSGVASRMGYTYDEIEDLKIAVSEACTNAVQHAYKEDKNGEVSIRFGVFEDRLEVIVADEGGLGLYLMETLMDEVRVQNHSGVTVAMTKYLN 6m37-a1-m1-cB_6m37-a1-m2-cB The crystal structure of B. subtilis RsbV/RsbW complex in the hexagonal crystal form P17903 P17903 3.1 X-RAY DIFFRACTION 13 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 101 101 NINVDVKQNENDIQVNIAGEIDVYSAPVLREKLVPLAEQGADLRICLKDVSYMDSTGLGVFVGTFKMVKKQGGSLKLENLSERLIRLFDITGLKDIIDISA NINVDVKQNENDIQVNIAGEIDVYSAPVLREKLVPLAEQGADLRICLKDVSYMDSTGLGVFVGTFKMVKKQGGSLKLENLSERLIRLFDITGLKDIIDISA 6m37-a1-m2-cA_6m37-a1-m2-cC The crystal structure of B. subtilis RsbV/RsbW complex in the hexagonal crystal form P17904 P17904 3.1 X-RAY DIFFRACTION 52 0.991 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 113 115 6m36-a1-m1-cA_6m36-a1-m1-cC 6m36-a2-m1-cK_6m36-a2-m1-cI 6m36-a2-m1-cO_6m36-a2-m1-cM 6m37-a1-m1-cA_6m37-a1-m1-cC ADYIEMKVPAQPEYVGIIRLTLSGVASRMGYTYDEIEDLKIAVSEACTNAVQHAYKEDKNGEVSIRFGVFEDRLEVIVADEGGLGLYLMETLMDEVRVQNHSGVTVAMTKYLN DYIEMKVPAQPEYVGIIRLTLSGVASRMGYTYDEIEDLKIAVSEACTNAVQHAYKEDKNGEVSIRFGVFEDRLEVIVADELSEGGLGLYLMETLMDEVRVQNHSGVTVAMTKYLN 6m39-a1-m1-cB_6m39-a1-m1-cC Cryo-EM structure of SADS-CoV spike A0A2P1G7F5 A0A2P1G7F5 3.55 ELECTRON MICROSCOPY 432 1.0 2032731 (Swine acute diarrhea syndrome coronavirus) 2032731 (Swine acute diarrhea syndrome coronavirus) 937 937 6m16-a1-m1-cA_6m16-a1-m1-cB 6m16-a1-m1-cA_6m16-a1-m1-cC 6m16-a1-m1-cB_6m16-a1-m1-cC 6m39-a1-m1-cA_6m39-a1-m1-cB 6m39-a1-m1-cA_6m39-a1-m1-cC GCESVDFNLFNTIFSTHRGLSNTTSVITGAYPSTNKSDWSCLSGSGFGIGLYVQTPRYTIAVSPIHVTNLTWELWIHRKWGVNSVVTVRLCRPTNAFECLINGSYPTHRNTGYMFGVTWYNDLVRIVFPPTVLEMQLDGLQWERVQFNSPVNAGHATRFNVVKDISTVLVETNSGGSVFRYSYCADGFVNGLQCKLRLFDIPPGVYSNSEVEYPTALYTVVHNMSACPERPDSYCGSNSCPFKRAVFSNCIVNYTTWVNPDQRDFQHLILPNGKFNPFTECNGLNRIVDGCVPGFVLRVGRGKAVNRTIVTPYLKPYECFGWSWNDNQDSIYDWWIADFVSTGAFVCESNPEAPKTGVCVTYTVEKVTFQGVLYESNFTFAQYYNLLYVGSQLRYVRILGKVYEVSSCFEASYDVLYRNNQSFGLLYRSFDCNQLHIKSARFVDRLLPSHNGTATVLGCLFNASYAPNDTMVNCTNPLGDGFCADLLGNVAVRRMTFEKHDTTYVAPVTNERYTEMPLDHQLILTEQFLQTTMPKFSVSCETYICDVSKACKNLLFRYGGFCQKVEADIRGAGILLDGDVSSLYSTIAAKTSSVVPTTDRFNVSQFFLPKSRSAIEDLLFSKIETTGPGFYGDYYNCKKNAIQDLTCAQYHNGILVIPPIMDAETLGMYGGIAAASVTLGIFGGQAGMATWSVAMAGRLNALGVVQNALVDDVNKLANGFNQLTASVSKLALTTSSALQAIQAVVNQNAAQVESLVSGITENFGAISTNFKVISQRLDKLEADVQMDRLINGRMNVLQLFVTNYKLKIAELRNTHRYVQSLINECVYAQSLRNGFCGQGLHVLSLMQNAPSGIMFFHYSLIPNNTITVKTTPGLCESDELGSKCIVAKDGVLVSANLSYWQWSPRNLYKPENLTFANVIAVSRGANYTTLNKTFDIP GCESVDFNLFNTIFSTHRGLSNTTSVITGAYPSTNKSDWSCLSGSGFGIGLYVQTPRYTIAVSPIHVTNLTWELWIHRKWGVNSVVTVRLCRPTNAFECLINGSYPTHRNTGYMFGVTWYNDLVRIVFPPTVLEMQLDGLQWERVQFNSPVNAGHATRFNVVKDISTVLVETNSGGSVFRYSYCADGFVNGLQCKLRLFDIPPGVYSNSEVEYPTALYTVVHNMSACPERPDSYCGSNSCPFKRAVFSNCIVNYTTWVNPDQRDFQHLILPNGKFNPFTECNGLNRIVDGCVPGFVLRVGRGKAVNRTIVTPYLKPYECFGWSWNDNQDSIYDWWIADFVSTGAFVCESNPEAPKTGVCVTYTVEKVTFQGVLYESNFTFAQYYNLLYVGSQLRYVRILGKVYEVSSCFEASYDVLYRNNQSFGLLYRSFDCNQLHIKSARFVDRLLPSHNGTATVLGCLFNASYAPNDTMVNCTNPLGDGFCADLLGNVAVRRMTFEKHDTTYVAPVTNERYTEMPLDHQLILTEQFLQTTMPKFSVSCETYICDVSKACKNLLFRYGGFCQKVEADIRGAGILLDGDVSSLYSTIAAKTSSVVPTTDRFNVSQFFLPKSRSAIEDLLFSKIETTGPGFYGDYYNCKKNAIQDLTCAQYHNGILVIPPIMDAETLGMYGGIAAASVTLGIFGGQAGMATWSVAMAGRLNALGVVQNALVDDVNKLANGFNQLTASVSKLALTTSSALQAIQAVVNQNAAQVESLVSGITENFGAISTNFKVISQRLDKLEADVQMDRLINGRMNVLQLFVTNYKLKIAELRNTHRYVQSLINECVYAQSLRNGFCGQGLHVLSLMQNAPSGIMFFHYSLIPNNTITVKTTPGLCESDELGSKCIVAKDGVLVSANLSYWQWSPRNLYKPENLTFANVIAVSRGANYTTLNKTFDIP 6m3l-a1-m2-cB_6m3l-a1-m2-cA Crystal structure of the R.PabI(Y68F-K154A)-dsDNA(nonspecific) complex G8ZFZ3 G8ZFZ3 2.75 X-RAY DIFFRACTION 94 0.982 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 165 213 2dvy-a1-m1-cB_2dvy-a1-m1-cA 2dvy-a3-m1-cF_2dvy-a3-m1-cE 2dvy-a4-m1-cB_2dvy-a4-m1-cA 3waz-a1-m1-cA_3waz-a1-m1-cB 5iff-a1-m1-cB_5iff-a1-m1-cA 5iff-a1-m2-cB_5iff-a1-m2-cA 6l2n-a1-m1-cB_6l2n-a1-m1-cA 6l2n-a1-m2-cB_6l2n-a1-m2-cA 6l2o-a1-m1-cB_6l2o-a1-m1-cA 6l2o-a1-m2-cB_6l2o-a1-m2-cA 6m3l-a1-m1-cB_6m3l-a1-m1-cA PTSKIRVKKIENGVDENLRDYYIEWQISFARDGKYDYELSRMVRLAHEHGILTYNDIYELLKFADDVKSYLEDKGIRRESTNEELYGFNIYEDVYPVAKKELPSGEFIGIVLKHAQRAVGYQSMVYVCIPLTNEVPVDLMKELLKAFIIASETHKNDIVKFLRSI EASVSFENGKIVVRLPITRPTSKIRVKKIENGVGIPVSTRKKSFPSDENLRDYYIEWQISFARDGKYDYELSRMVRLAHEHGILTYNDIYELLKFADDVKSYLEDKGIRRESTNEELYGFNIYEDVYPVAKKELPSGEFIGIVLKHAQGYQSMVYVCIPLTNVEPSLAGRVARRNEVVKYEVPVDLMKELLKAFIIASETHKNDIVKFLRSII 6m3w-a1-m1-cB_6m3w-a1-m1-cC Post-fusion structure of SARS-CoV spike glycoprotein P59594 P59594 3.9 ELECTRON MICROSCOPY 381 1.0 694009 (Severe acute respiratory syndrome-related coronavirus) 694009 (Severe acute respiratory syndrome-related coronavirus) 344 344 6m3w-a1-m1-cA_6m3w-a1-m1-cB 6m3w-a1-m1-cA_6m3w-a1-m1-cC AYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIANQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVYDPLQPELDSFKEELDKYFKNHTSPDVDLGDISGINASVVNIQKEIDRLNEVAKNLNES AYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIANQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVYDPLQPELDSFKEELDKYFKNHTSPDVDLGDISGINASVVNIQKEIDRLNEVAKNLNES 6m4b-a1-m1-cA_6m4b-a1-m1-cB 1510-N membrane-bound stomatin-specific protease S97A mutant O59179 O59179 2.25 X-RAY DIFFRACTION 46 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 207 207 LAKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADAMMNIVQRIQQSKIPVIIYVYPPGASAAAAGTYIALGSHLIAMAPGTSIGACRPILGYSQNGSIIEAPPKITNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGMKTKIPVNGRYVTLNFTNVEVRYLAPS LAKNIVYVAQIKGQITSYTYDQFDRYITIAEQDNAEAIIIELDTPGGRADAMMNIVQRIQQSKIPVIIYVYPPGASAAAAGTYIALGSHLIAMAPGTSIGACRPILGYSQNGSIIEAPPKITNYFIAYIKSLAQESGRNATIAEEFITKDLSLTPEEALKYGVIEVVARDINELLKKSNGMKTKIPVNGRYVTLNFTNVEVRYLAPS 6m4c-a1-m1-cA_6m4c-a1-m2-cA C. albicans actin interacting protein Aip5 A0A1D8PPH3 A0A1D8PPH3 2.65 X-RAY DIFFRACTION 37 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 98 98 IEIRKHLESQPVYIFTSLAGGMQVILRSNNLAAILQGNGIKFEYRDLGTDEEAKKIWKRQANGKTLPGVVRGDDYIGNWQEIEDANEEYRLRELLYET IEIRKHLESQPVYIFTSLAGGMQVILRSNNLAAILQGNGIKFEYRDLGTDEEAKKIWKRQANGKTLPGVVRGDDYIGNWQEIEDANEEYRLRELLYET 6m4f-a2-m1-cE_6m4f-a2-m1-cG Crystal structure of the E496A mutant of HsBglA Q564N5 Q564N5 2.2 X-RAY DIFFRACTION 110 1.0 5445 (Hamamotoa singularis) 5445 (Hamamotoa singularis) 542 544 6m4f-a1-m1-cA_6m4f-a1-m1-cC 6m55-a1-m1-cA_6m55-a1-m1-cD 7l74-a1-m1-cA_7l74-a1-m1-cB GTAELDALWNLVEAQYPVQTAAVTTLVTVPDDYKFEADPPSYALAGYETSEIAGLKFPKGFKFGVAGAAIQVEGAAKAEGRGPSTWDYLCHHYASTQCNNYDPDITTNHYYLYPLDFARLQHLGINTYSFSISWTRIYPLGAGYVNEAGLAHYDAVIHSAKKYGLEPVGTVFHWDTPLSLMLKYGAWQDTGDQIVKDFVTYATTVFKRYGNEVKTWFTFNEPRVFCSQNSGLPYNLTYPEGINSTSAVFRCTYNVLKAHGHAVKVYRDLVASGTIAAGEIGFKSDDNYPIPARPGNADDEESAKRHEAFRIGIFAQPVYGNGDYPDVVKETVGDMLPALTDEDKGYIKGSGDIFAIDGYRTDISHAALNGIANCIRNQSDPNWPVCEEGSDPFAHVYPSGFAIGQSADPLSSWLVNSAPFIRDQLKFLTQTYPAKGGIYFSAFGWAEDAEYDRQLLYQITWDGLRTQYLTDYLSQLLLAVHKDGINLRGALTWSFVDNWEWGLGMQQKFGFQFVNQSDPDLTRTFKLSAHAYAQFGRNHLHH GTAELDALWNLVEAQYPVQTAAVTTLVTVPDDYKFEADPPSYALAGYETSEIAGLKFPKGFKFGVAGAAIQVEGAAKAEGRGPSTWDYLCHHYASTQCNNYDPDITTNHYYLYPLDFARLQHLGINTYSFSISWTRIYPLGAGYVNEAGLAHYDAVIHSAKKYGLEPVGTVFHWDTPLSLMLKYGAWQDTGDQIVKDFVTYATTVFKRYGNEVKTWFTFNEPRVFCSQNSGLPYNLTYPEGINSTSAVFRCTYNVLKAHGHAVKVYRDLVASGTIAAGEIGFKSDDNYPIPARPGNADDEESAKRHEAFRIGIFAQPVYGNGDYPDVVKETVGDMLPALTDEDKGYIKGSGDIFAIDGYRTDISHAALNGIANCIRNQSDPNWPVCEEGSDPFAHVYPSGFAIGQSADPLSSWLVNSAPFIRDQLKFLTQTYPAKGGIYFSAFGWAEDAEYDRQLLYQITWDGLRTQYLTDYLSQLLLAVHKDGINLRGALTWSFVDNWEWGLGMQQKFGFQFVNQSDPDLTRTFKLSAHAYAQFGRNHLHHHH 6m4j-a2-m1-cB_6m4j-a2-m3-cB SspA in complex with cysteine 1.8 X-RAY DIFFRACTION 204 1.0 47951 (Vibrio cyclitrophicus) 47951 (Vibrio cyclitrophicus) 347 347 6m4j-a1-m1-cA_6m4j-a1-m2-cA TKYFDYAASTPVAKGVLESMKPWQSDSFANPSAAHIEAEKALNAIKQAREIIADTLGAMPSEIVFTCGASESNNLAIKGLAFKRLEEKGHLITSSIEHKCVLNTCGFLESIGFDVTYLTPKASGLISAQQVEEAIRPNTFLITIHHVNNELGTVQPIEDIGNVAFEHDIPFHTDAAQSFCKLDIDVDDMNIDMLSLSGHKVYGPKGIGALYVRDARNSELVPLIHGGGQELGLRGGTSPTPLIVGLGVAVEHFPSEASAQQTEFEKIINEYSFSRNSGDNALSTTWNVTFENDDEVKRFTSERNWLISQGSASNAMSNTPSHVLTAIGLSEAEARRTYRISLPPYKV TKYFDYAASTPVAKGVLESMKPWQSDSFANPSAAHIEAEKALNAIKQAREIIADTLGAMPSEIVFTCGASESNNLAIKGLAFKRLEEKGHLITSSIEHKCVLNTCGFLESIGFDVTYLTPKASGLISAQQVEEAIRPNTFLITIHHVNNELGTVQPIEDIGNVAFEHDIPFHTDAAQSFCKLDIDVDDMNIDMLSLSGHKVYGPKGIGALYVRDARNSELVPLIHGGGQELGLRGGTSPTPLIVGLGVAVEHFPSEASAQQTEFEKIINEYSFSRNSGDNALSTTWNVTFENDDEVKRFTSERNWLISQGSASNAMSNTPSHVLTAIGLSEAEARRTYRISLPPYKV 6m5n-a1-m1-cA_6m5n-a1-m4-cA Apo-Form Structure of Borneol Dehydrogenase A0A1B3EB36 A0A1B3EB36 1.84 X-RAY DIFFRACTION 121 1.0 1856685 (Pseudomonas sp. TCU-HL1) 1856685 (Pseudomonas sp. TCU-HL1) 259 259 6m5n-a1-m2-cA_6m5n-a1-m3-cA KLLEGKRIIVTGGAQGIGASVVRAYIAAGATVASMDMNDTLGQQVVSEAGKANPGCKSRYYHCNIADRPEVEKAFATAAEDMGGLDVMVNVAGVHRHSPPDAIAEELYDMLFRVNVLGTINTNAVAYRLMKGQGIGNIINFGSESGLTGEINNALYSATKAAVHTWTRNVARQWGPDGIRINAVLPYMVTPMYVDFRNALSSEDLAAHDAATKTDIPLGGKFGDADKDLAPVMVFLASDASHFMTGQMFPVDGGLIAVR KLLEGKRIIVTGGAQGIGASVVRAYIAAGATVASMDMNDTLGQQVVSEAGKANPGCKSRYYHCNIADRPEVEKAFATAAEDMGGLDVMVNVAGVHRHSPPDAIAEELYDMLFRVNVLGTINTNAVAYRLMKGQGIGNIINFGSESGLTGEINNALYSATKAAVHTWTRNVARQWGPDGIRINAVLPYMVTPMYVDFRNALSSEDLAAHDAATKTDIPLGGKFGDADKDLAPVMVFLASDASHFMTGQMFPVDGGLIAVR 6m5n-a1-m2-cA_6m5n-a1-m4-cA Apo-Form Structure of Borneol Dehydrogenase A0A1B3EB36 A0A1B3EB36 1.84 X-RAY DIFFRACTION 126 1.0 1856685 (Pseudomonas sp. TCU-HL1) 1856685 (Pseudomonas sp. TCU-HL1) 259 259 6m5n-a1-m1-cA_6m5n-a1-m3-cA KLLEGKRIIVTGGAQGIGASVVRAYIAAGATVASMDMNDTLGQQVVSEAGKANPGCKSRYYHCNIADRPEVEKAFATAAEDMGGLDVMVNVAGVHRHSPPDAIAEELYDMLFRVNVLGTINTNAVAYRLMKGQGIGNIINFGSESGLTGEINNALYSATKAAVHTWTRNVARQWGPDGIRINAVLPYMVTPMYVDFRNALSSEDLAAHDAATKTDIPLGGKFGDADKDLAPVMVFLASDASHFMTGQMFPVDGGLIAVR KLLEGKRIIVTGGAQGIGASVVRAYIAAGATVASMDMNDTLGQQVVSEAGKANPGCKSRYYHCNIADRPEVEKAFATAAEDMGGLDVMVNVAGVHRHSPPDAIAEELYDMLFRVNVLGTINTNAVAYRLMKGQGIGNIINFGSESGLTGEINNALYSATKAAVHTWTRNVARQWGPDGIRINAVLPYMVTPMYVDFRNALSSEDLAAHDAATKTDIPLGGKFGDADKDLAPVMVFLASDASHFMTGQMFPVDGGLIAVR 6m5x-a1-m1-cO_6m5x-a1-m1-cR A fungal glyceraldehyde-3-phosphate dehydrogenase with self-resistance to inhibitor heptelidic acid G9NDK9 G9NDK9 2.05991 X-RAY DIFFRACTION 102 1.0 413071 (Trichoderma virens Gv29-8) 413071 (Trichoderma virens Gv29-8) 334 334 6m5x-a1-m1-cP_6m5x-a1-m1-cQ VPKVGINGFGRIGRVVLRNALETGAVEVVALNDPFIEPHYAEYMFKYDSTHGRFKGDIKVDGKDLVIDGKRIKFYQERDPANIPWKDSGAEYIVESTGVFTTTEKASAHFKGGAKKVIISAPSADAPMYVMGVNEDTYAGANVISNASCTTNCLAPLAKTLNDKFTIVEGLMTAIHAYTASQKTVDGPSSKDWRGGRAAAQNLIPSSTGAAKAVGKVIPELAGKVTGMSVRVPTVNVSLVDFTVRFAKDVTYDEVKAAIKEASEGPLKGILAYTEDDIVSTDILTDPHSSTFDAKAGIALNKNFVKVMSWYDNEYGYSRRVVDLIVFVSKKDAG VPKVGINGFGRIGRVVLRNALETGAVEVVALNDPFIEPHYAEYMFKYDSTHGRFKGDIKVDGKDLVIDGKRIKFYQERDPANIPWKDSGAEYIVESTGVFTTTEKASAHFKGGAKKVIISAPSADAPMYVMGVNEDTYAGANVISNASCTTNCLAPLAKTLNDKFTIVEGLMTAIHAYTASQKTVDGPSSKDWRGGRAAAQNLIPSSTGAAKAVGKVIPELAGKVTGMSVRVPTVNVSLVDFTVRFAKDVTYDEVKAAIKEASEGPLKGILAYTEDDIVSTDILTDPHSSTFDAKAGIALNKNFVKVMSWYDNEYGYSRRVVDLIVFVSKKDAG 6m5x-a1-m1-cP_6m5x-a1-m1-cR A fungal glyceraldehyde-3-phosphate dehydrogenase with self-resistance to inhibitor heptelidic acid G9NDK9 G9NDK9 2.05991 X-RAY DIFFRACTION 30 1.0 413071 (Trichoderma virens Gv29-8) 413071 (Trichoderma virens Gv29-8) 333 334 6m5x-a1-m1-cO_6m5x-a1-m1-cQ VPKVGINGFGRIGRVVLRNALETGAVEVVALNDPFIEPHYAEYMFKYDSTHGRFKGDIKVDGKDLVIDGKRIKFYQERDPANIPWKDSGAEYIVESTGVFTTTEKASAHFKGGAKKVIISAPSADAPMYVMGVNEDTYAGANVISNASCTTNCLAPLAKTLNDKFTIVEGLMTAIHAYTASQKTVDGPSSKDWRGGRAAAQNLIPSSTGAAKAVGKVIPELAGKVTGMSVRVPTVNVSLVDFTVRFAKDVTYDEVKAAIKEASEGPLKGILAYTEDDIVSTDILTDPHSSTFDAKAGIALNKNFVKVMSWYDNEYGYSRRVVDLIVFVSKKDA VPKVGINGFGRIGRVVLRNALETGAVEVVALNDPFIEPHYAEYMFKYDSTHGRFKGDIKVDGKDLVIDGKRIKFYQERDPANIPWKDSGAEYIVESTGVFTTTEKASAHFKGGAKKVIISAPSADAPMYVMGVNEDTYAGANVISNASCTTNCLAPLAKTLNDKFTIVEGLMTAIHAYTASQKTVDGPSSKDWRGGRAAAQNLIPSSTGAAKAVGKVIPELAGKVTGMSVRVPTVNVSLVDFTVRFAKDVTYDEVKAAIKEASEGPLKGILAYTEDDIVSTDILTDPHSSTFDAKAGIALNKNFVKVMSWYDNEYGYSRRVVDLIVFVSKKDAG 6m5x-a1-m1-cQ_6m5x-a1-m1-cR A fungal glyceraldehyde-3-phosphate dehydrogenase with self-resistance to inhibitor heptelidic acid G9NDK9 G9NDK9 2.05991 X-RAY DIFFRACTION 138 1.0 413071 (Trichoderma virens Gv29-8) 413071 (Trichoderma virens Gv29-8) 334 334 6m5x-a1-m1-cP_6m5x-a1-m1-cO VPKVGINGFGRIGRVVLRNALETGAVEVVALNDPFIEPHYAEYMFKYDSTHGRFKGDIKVDGKDLVIDGKRIKFYQERDPANIPWKDSGAEYIVESTGVFTTTEKASAHFKGGAKKVIISAPSADAPMYVMGVNEDTYAGANVISNASCTTNCLAPLAKTLNDKFTIVEGLMTAIHAYTASQKTVDGPSSKDWRGGRAAAQNLIPSSTGAAKAVGKVIPELAGKVTGMSVRVPTVNVSLVDFTVRFAKDVTYDEVKAAIKEASEGPLKGILAYTEDDIVSTDILTDPHSSTFDAKAGIALNKNFVKVMSWYDNEYGYSRRVVDLIVFVSKKDAG VPKVGINGFGRIGRVVLRNALETGAVEVVALNDPFIEPHYAEYMFKYDSTHGRFKGDIKVDGKDLVIDGKRIKFYQERDPANIPWKDSGAEYIVESTGVFTTTEKASAHFKGGAKKVIISAPSADAPMYVMGVNEDTYAGANVISNASCTTNCLAPLAKTLNDKFTIVEGLMTAIHAYTASQKTVDGPSSKDWRGGRAAAQNLIPSSTGAAKAVGKVIPELAGKVTGMSVRVPTVNVSLVDFTVRFAKDVTYDEVKAAIKEASEGPLKGILAYTEDDIVSTDILTDPHSSTFDAKAGIALNKNFVKVMSWYDNEYGYSRRVVDLIVFVSKKDAG 6m6h-a1-m5-cP_6m6h-a1-m5-cQ Structure of HSV2 C-capsid portal vertex P89459 P89459 4.5 ELECTRON MICROSCOPY 13 1.0 10310 (Human alphaherpesvirus 2) 10310 (Human alphaherpesvirus 2) 47 47 6m6g-a1-m1-cn_6m6g-a1-m1-co 6m6g-a1-m2-cn_6m6g-a1-m2-co 6m6g-a1-m3-cn_6m6g-a1-m3-co 6m6g-a1-m4-cn_6m6g-a1-m4-co 6m6g-a1-m5-cn_6m6g-a1-m5-co 6m6h-a1-m1-cP_6m6h-a1-m1-cQ 6m6h-a1-m2-cP_6m6h-a1-m2-cQ 6m6h-a1-m3-cP_6m6h-a1-m3-cQ 6m6h-a1-m4-cP_6m6h-a1-m4-cQ RRTGRSALAVLIRACRRIQQQLQRTRRALFQRSNAVLTSLHHVRMLL RRTGRSALAVLIRACRRIQQQLQRTRRALFQRSNAVLTSLHHVRMLL 6m6q-a1-m1-cA_6m6q-a1-m1-cB Crystal structure of Caenorhabditis elegans Dicer-related helicase 3 (DRH-3) N-terminal domain Q93413 Q93413 2.8 X-RAY DIFFRACTION 33 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 307 315 TAIRLEDYDKSKLRLPFESPYFPAYFRLLKWKFLDVCVESTRNNDIGYFKLFESLFPPGKLEEIARMIIDEPTPVSHDPDMIKIRNADLDVKIRKQAETYVTLRHAHQQKVQRRRFSECFLNTVLFDEKGLRIADEVMFNYDKELYGYSHWEDLPDGWLTAETFKNKFYDEEEVTNNPFGYQKLDRVAGAARGMIIMKHLKSNPRCVSETTILAFEVFNKGNHQLSTDLVEDLLTEKWSLHKTLTMFLAIIGFKSNDKKEKNEHEEWYYGFIDAMKNDPANRAALYFLDKNWPEELEEREKERDRIR PTAIRLEDYDKSKLRLPFESPYFPAYFRLLKWKFLDVCVESTRNNDIGYFKLFESLFPPGKLEEIARMIIDEPTPVSHDPDMIKIRNADLDVKIRKQAETYVTLRHAHQQKVQRRRFSECFLNTVLFDEKGLRIADEVMFNYDKELYGYSHWEDLPDGWLTAETFKNKFYDEEEVTNNPFGYQKLDRVAGAARGMIIMKHLKSNPRCVSETTILAFEVFNKGNHQLSTDLVEDLLTEKKWSLHKTLTMFLAIIGFKSNDKKEKNEHEEWYYGFIDAMKNDPANRAALYFLDKNWPEELEEREKERDRIRLTLLKS 6m6r-a1-m1-cA_6m6r-a1-m2-cA Crystal structure of Caenorhabditis elegans Dicer-related helicase 3 (DRH-3) C-terminal domain with 5'-ppp 8-mer ssRNA Q93413 Q93413 1.89 X-RAY DIFFRACTION 12 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 166 166 RLRHENKIYKLMCSNCSKEFCKSIYIKKVFSNYMVFDPSVWRFLHVESKRKVSKYLSEDNQPLSDIKCFHCKLDVGRAYKIRGTYLPQLSVKALTFVQESDYSSMTKAKWSDVEQDLFYISEAIEDDFRIMLNALSDTEENIEKKIVLDLDSRQHNKQLEMKRFHI RLRHENKIYKLMCSNCSKEFCKSIYIKKVFSNYMVFDPSVWRFLHVESKRKVSKYLSEDNQPLSDIKCFHCKLDVGRAYKIRGTYLPQLSVKALTFVQESDYSSMTKAKWSDVEQDLFYISEAIEDDFRIMLNALSDTEENIEKKIVLDLDSRQHNKQLEMKRFHI 6m6s-a1-m1-cA_6m6s-a1-m1-cB Crystal structure of Caenorhabditis elegans Dicer-related helicase 3 (DRH-3) C-terminal domain with 5'-ppp 12-mer dsRNA Q93413 Q93413 1.6 X-RAY DIFFRACTION 26 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 160 162 NKIYKLMCSNCSKEFCKSIYIKKVFSNYMVFDPSVWRFLHVESKRKVSKYLSEDNQPLSDIKCFHCKLDVGRAYKIRGTYLPQLSVKALTFVQESDYSSMTKAKWSDVEQDLFYISEAIEDDFRIMLNALSDTEENIEKKIVLDLDSRQHNKQLEMKRFH NKIYKLMCSNCSKEFCKSIYIKKVFSNYMVFDPSVWRFLHVESKRKVSKYLSEDNQPLSDIKCFHCKLDVGRAYKIRGTYLPQLSVKALTFVQESDYSSMTKAKWSDVEQDLFYISEAIEDDFRIMLNALSDTEENIEKKIVLDLDSRQHNKQLEMKRFHIQ 6m6z-a1-m1-cC_6m6z-a1-m1-cD A de novo designed transmembrane nanopore, TMH4C4 5.9 ELECTRON MICROSCOPY 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 203 203 6m6z-a1-m1-cA_6m6z-a1-m1-cB 6m6z-a1-m1-cA_6m6z-a1-m1-cD 6m6z-a1-m1-cB_6m6z-a1-m1-cC SAEELLRRSREYLKKVALIQLVIAFVFLILLILLSWRSEELIRELEEKGAASEAELARMKQQHMTAYLQAALTAWEIISKSVIALLLLQQNQLNLELNTDTDKNVAEELLRRSREYLKKVALIQLVIAFVFLILLILLSWRSEELIRELEEKGAASEAELARMKQQHMTAYLQAALTAWEIISKSVIALLLLQQNQLNLELRH SAEELLRRSREYLKKVALIQLVIAFVFLILLILLSWRSEELIRELEEKGAASEAELARMKQQHMTAYLQAALTAWEIISKSVIALLLLQQNQLNLELNTDTDKNVAEELLRRSREYLKKVALIQLVIAFVFLILLILLSWRSEELIRELEEKGAASEAELARMKQQHMTAYLQAALTAWEIISKSVIALLLLQQNQLNLELRH 6m74-a1-m2-cA_6m74-a1-m4-cA Crystal structure of Enterococcus hirae L-lactate oxidase M207L in complex with D-lactate form ligand I6SYK8 I6SYK8 1.52 X-RAY DIFFRACTION 96 1.0 768486 (Enterococcus hirae ATCC 9790) 768486 (Enterococcus hirae ATCC 9790) 364 364 6m73-a1-m1-cA_6m73-a1-m3-cA 6m73-a1-m1-cA_6m73-a1-m4-cA 6m73-a1-m2-cA_6m73-a1-m3-cA 6m73-a1-m2-cA_6m73-a1-m4-cA 6m74-a1-m1-cA_6m74-a1-m3-cA 6m74-a1-m1-cA_6m74-a1-m4-cA 6m74-a1-m2-cA_6m74-a1-m3-cA VYQAGTHEGMIDFINMEDLELAATQVIPSGGYGYISSGAGDLFTYRENQKAFNHQLVIPHVLKDVELPDTTTYFSDETLAAPIIMAPVAAHGLAHEQAEKASAKGVSEFGTIYTASSYASCTLEEIRAAGGPEAPQWFQFYMSKDDGINLDILEMAKRNGAKAVVLTADATVGGNRETDRRNGFTFPLPMPIVQAYQSGVGQTLDAVYKSSKQKLSPKDIEFITTHSELPVYVKGVQSEDDVYRSLDAGAQGIWVSNHGGRQLDGGPASFDSLRYVAEAVDKRVPIVFDSGVRRGQHIFKAIASGADLVAIGRPAIYGLSLGGSTGIKQVFDFFKTELEMVMQLAGTQTVEDIKNAKLRENRFM VYQAGTHEGMIDFINMEDLELAATQVIPSGGYGYISSGAGDLFTYRENQKAFNHQLVIPHVLKDVELPDTTTYFSDETLAAPIIMAPVAAHGLAHEQAEKASAKGVSEFGTIYTASSYASCTLEEIRAAGGPEAPQWFQFYMSKDDGINLDILEMAKRNGAKAVVLTADATVGGNRETDRRNGFTFPLPMPIVQAYQSGVGQTLDAVYKSSKQKLSPKDIEFITTHSELPVYVKGVQSEDDVYRSLDAGAQGIWVSNHGGRQLDGGPASFDSLRYVAEAVDKRVPIVFDSGVRRGQHIFKAIASGADLVAIGRPAIYGLSLGGSTGIKQVFDFFKTELEMVMQLAGTQTVEDIKNAKLRENRFM 6m7b-a1-m1-cB_6m7b-a1-m1-cA Structure of REV7-R124A complexed with SHLD3(37-73) Q9UI95 Q9UI95 1.77 X-RAY DIFFRACTION 33 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 200 201 6m7a-a1-m1-cB_6m7a-a1-m1-cA DLNFGQVVADVLCEFLEVAVHLILYVREVYPVGIFQKRKKYNVPVQMSCHPELNQYIQDTLHCVKPLLEKNDVEKVVVVILDKEHRPVEKFVFEITQPPLLSISSDSLLSHVEQLLAAFILKISVCDAVLDHNPPGCTFTVLVHTREAATRNMEKIQVIKDFPWILADEQDVHMHDPRLIPLKTMTSDILKMQLYVEERA LNFGQVVADVLCEFLEVAVHLILYVREVYPVGIFQKRKKYNVPVQMSCHPELNQYIQDTLHCVKPLLEKNDVEKVVVVILDKEHRPVEKFVFEITQPPLLSISSDSLLSHVEQLLAAFILKISVCDAVLDHNPPGCTFTVLVHTREAATRNMEKIQVIKDFPWILADEQDVHMHDPRLIPLKTMTSDILKMQLYVEERAHK 6m7g-a3-m1-cE_6m7g-a3-m1-cI Crystal structure of ArsN, N-acetyltransferase with substrate phosphinothricin from Pseudomonas putida KT2440 Q88LK7 Q88LK7 2.657 X-RAY DIFFRACTION 86 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 176 176 5jtf-a1-m1-cB_5jtf-a1-m1-cA 5wph-a1-m1-cA_5wph-a1-m1-cB 5wph-a2-m1-cC_5wph-a2-m1-cF 5wph-a3-m1-cD_5wph-a3-m1-cE 6m7g-a1-m1-cA_6m7g-a1-m2-cD 6m7g-a2-m1-cB_6m7g-a2-m1-cC 6m7g-a4-m1-cF_6m7g-a4-m1-cJ 6m7g-a5-m1-cG_6m7g-a5-m1-cL 6m7g-a6-m1-cH_6m7g-a6-m3-cK GIDIRVARPEDAEEIQIIYAPIVLNTAISFEEAVPSVEQMRERISTTLQTYPYLVAVREGRVVGYAYASQHRARAAYRWAVDVTVYVAEGQRRSGIARQLYDVLLPVLKRLGYRSAYAGIALPNEGSVGLHERLGFQHIGTFPQVGFKLDAWHDVGYWRFDFGDEGLHPEAPLGFL GIDIRVARPEDAEEIQIIYAPIVLNTAISFEEAVPSVEQMRERISTTLQTYPYLVAVREGRVVGYAYASQHRARAAYRWAVDVTVYVAEGQRRSGIARQLYDVLLPVLKRLGYRSAYAGIALPNEGSVGLHERLGFQHIGTFPQVGFKLDAWHDVGYWRFDFGDEGLHPEAPLGFL 6m80-a1-m1-cC_6m80-a1-m1-cD Collagen peptide containing aza-proline and aza-glycine 1.1 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 PGPGGPRPGPGPGPG PGPGGPRPGPGPGPG 6m80-a1-m1-cC_6m80-a1-m1-cE Collagen peptide containing aza-proline and aza-glycine 1.1 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 PGPGGPRPGPGPGPG PGPGGPRPGPGPGPG 6m80-a1-m1-cD_6m80-a1-m1-cE Collagen peptide containing aza-proline and aza-glycine 1.1 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 PGPGGPRPGPGPGPG PGPGGPRPGPGPGPG 6m84-a1-m2-cA_6m84-a1-m4-cA Crystal structure of cKir2.2 force open mutant in complex with PI(4,5)P2 F1NHE9 F1NHE9 2.81 X-RAY DIFFRACTION 198 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 326 326 3jyc-a1-m1-cA_3jyc-a1-m3-cA 3jyc-a1-m1-cA_3jyc-a1-m4-cA 3jyc-a1-m2-cA_3jyc-a1-m3-cA 3jyc-a1-m2-cA_3jyc-a1-m4-cA 3spc-a1-m1-cA_3spc-a1-m3-cA 3spc-a1-m1-cA_3spc-a1-m4-cA 3spc-a1-m2-cA_3spc-a1-m3-cA 3spc-a1-m2-cA_3spc-a1-m4-cA 3spg-a1-m1-cA_3spg-a1-m3-cA 3spg-a1-m1-cA_3spg-a1-m4-cA 3spg-a1-m2-cA_3spg-a1-m3-cA 3spg-a1-m2-cA_3spg-a1-m4-cA 3sph-a1-m1-cA_3sph-a1-m3-cA 3sph-a1-m1-cA_3sph-a1-m4-cA 3sph-a1-m2-cA_3sph-a1-m3-cA 3sph-a1-m2-cA_3sph-a1-m4-cA 3spi-a1-m1-cA_3spi-a1-m3-cA 3spi-a1-m1-cA_3spi-a1-m4-cA 3spi-a1-m2-cA_3spi-a1-m3-cA 3spi-a1-m2-cA_3spi-a1-m4-cA 3spj-a1-m1-cA_3spj-a1-m3-cA 3spj-a1-m1-cA_3spj-a1-m4-cA 3spj-a1-m2-cA_3spj-a1-m3-cA 3spj-a1-m2-cA_3spj-a1-m4-cA 5kuk-a1-m1-cA_5kuk-a1-m3-cA 5kuk-a1-m1-cA_5kuk-a1-m4-cA 5kuk-a1-m2-cA_5kuk-a1-m3-cA 5kuk-a1-m2-cA_5kuk-a1-m4-cA 5kum-a1-m1-cA_5kum-a1-m3-cA 5kum-a1-m1-cA_5kum-a1-m4-cA 5kum-a1-m2-cA_5kum-a1-m3-cA 5kum-a1-m2-cA_5kum-a1-m4-cA 6m84-a1-m1-cA_6m84-a1-m3-cA 6m84-a1-m1-cA_6m84-a1-m4-cA 6m84-a1-m2-cA_6m84-a1-m3-cA 6m85-a1-m1-cA_6m85-a1-m3-cA 6m85-a1-m1-cA_6m85-a1-m4-cA 6m85-a1-m2-cA_6m85-a1-m3-cA 6m85-a1-m2-cA_6m85-a1-m4-cA 6m86-a1-m1-cA_6m86-a1-m3-cA 6m86-a1-m1-cA_6m86-a1-m4-cA 6m86-a1-m2-cA_6m86-a1-m3-cA 6m86-a1-m2-cA_6m86-a1-m4-cA CRNRFVKKNGQCNVEFTNMDDWPQRYIADMFTTCVDIRWRYMLLLFSLAFLVSWLLFGLIFWLIALIHGDLENPGGDDTFKPCVLQVNGFVAAFLFSIETQTTIGYGFRCVTEECPLAVFMVVVQSIVGCIIDSFMIDAIMAKMARPKKRAQTLLFSHNAVVAMRDGKLCLMWRVGNLRKSHIVEAHVRAQLIKPRITEEGEYIPLDQIDIDVGFDKGLDRIFLVSPITILHEINEDSPLFGISRQDLETDDFEIVVILEGMVEATAMTTQARSSYLASEILWGHRFEPVLFEEKNQYKVDYSHFHKTYEVPSTPRCSAKDLVENK CRNRFVKKNGQCNVEFTNMDDWPQRYIADMFTTCVDIRWRYMLLLFSLAFLVSWLLFGLIFWLIALIHGDLENPGGDDTFKPCVLQVNGFVAAFLFSIETQTTIGYGFRCVTEECPLAVFMVVVQSIVGCIIDSFMIDAIMAKMARPKKRAQTLLFSHNAVVAMRDGKLCLMWRVGNLRKSHIVEAHVRAQLIKPRITEEGEYIPLDQIDIDVGFDKGLDRIFLVSPITILHEINEDSPLFGISRQDLETDDFEIVVILEGMVEATAMTTQARSSYLASEILWGHRFEPVLFEEKNQYKVDYSHFHKTYEVPSTPRCSAKDLVENK 6m8o-a2-m1-cA_6m8o-a2-m2-cA Crystal structure of the receiver domain of LytR from Staphylococcus aureus P60611 P60611 2.5 X-RAY DIFFRACTION 26 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 118 118 MKALIIDDEPLARNELTYLLNEIGGFEEINEAENVKETLEALLINQYDIIFLDVNLMDENGIELGAKIQKMKEPPAIIFATAHDQYAVQAFELNATDYILKPFGQKRIEQAVNKVRAT MKALIIDDEPLARNELTYLLNEIGGFEEINEAENVKETLEALLINQYDIIFLDVNLMDENGIELGAKIQKMKEPPAIIFATAHDQYAVQAFELNATDYILKPFGQKRIEQAVNKVRAT 6m8s-a1-m1-cB_6m8s-a1-m1-cO Crystal structure of the KCTD12 H1 domain in complex with Gbeta1gamma2 subunits Q96CX2 Q96CX2 3.71 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 105 6m8s-a1-m1-cA_6m8s-a1-m1-cM 6m8s-a1-m1-cB_6m8s-a1-m1-cM 6m8s-a1-m1-cP_6m8s-a1-m1-cO 6qzl-a1-m1-cB_6qzl-a1-m1-cC 6qzl-a1-m1-cD_6qzl-a1-m1-cC 6qzl-a1-m1-cE_6qzl-a1-m1-cA RSGYITIGYRGSYTIDAKFRRVARITVCGKTSLAKEVFGDTLNESRDPDRPPERYTSRYYLKFNFLEQAFDKLSESGFHMVACSSTGTCIWTSYTEYVFCR RSGYITIGYRGSYTIDAKFRRVARITVCGKTSLAKEVFGDTLNESRDPDRPPERYTSRYYLKFNFLEQAFDKLSESGFHMVACSSTGTCSEDKIWTSYTEYVFCR 6m8s-a1-m1-cK_6m8s-a1-m1-cG Crystal structure of the KCTD12 H1 domain in complex with Gbeta1gamma2 subunits P62873 P62873 3.71 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 334 6m8s-a1-m1-cC_6m8s-a1-m1-cD 6m8s-a1-m1-cH_6m8s-a1-m1-cD 6m8s-a1-m1-cH_6m8s-a1-m1-cG 6m8s-a1-m1-cK_6m8s-a1-m1-cC SELDQLRQEAEQLKNQIRDARKACADATLSQITNNIDPVGRIQMRTRRTLRGHLAKIYAMHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNYVACGGLDNICSIYNLKVSRELAGHTGYLSCCRFLDDNQIVTSSGDTTCALWDIETGQQTTTFTGHTGDVMSLSLAPDTRLFVSGACDASAKLWDVREGMCRQTFTGHESDINAICFFPNGNAFATGSDDATCRLFDLRADQELMTYSHDNIICGITSVSFSKSGRLLLAGYDDFNCNVWDALKADRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN SELDQLRQEAEQLKNQIRDARKACADATLSQITNNIDPVGRIQMRTRRTLRGHLAKIYAMHWGTDSRLLVSASQDGKLIIWDSYTTNKVHAIPLRSSWVMTCAYAPSGNYVACGGLDNICSIYNLKVRVSRELAGHTGYLSCCRFLDDNQIVTSSGDTTCALWDIETGQQTTTFTGHTGDVMSLSLAPDTRLFVSGACDASAKLWDVREGMCRQTFTGHESDINAICFFPNGNAFATGSDDATCRLFDLRADQELMTYSHDNIICGITSVSFSKSGRLLLAGYDDFNCNVWDALKADRAGVLAGHDNRVSCLGVTDDGMAVATGSWDSFLKIWN 6m8w-a1-m1-cB_6m8w-a1-m1-cA PSEUDOMONAS SERINE-CARBOXYL PROTEINASE (SEDOLISIN) COMPLEXED WITH THE INHIBITOR AIAF P42790 1.1 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 33067 (Pseudomonas sp. 101) 2 369 IA AGTAKGHNPTEFPTIYDASSAPTAANTTVGIITIGGVSQTLQDLQQFTSANGLASVNTQTIQTGSSNGDYSDDQQGQGEWDLDSQSIVGSAGGAVQQLLFYMADQSASGNTGLTQAFNQAVSDNVAKVINVSLGWCEADANADGTLQAEDRIFATAAAQGQTFSVSSGDEGVYECNNRGYPDGSTYSVSWPASSPNVIAVGGTTLYTTSAGAYSNETVWNEGLDSNGKLWATGGGYSVYESKPSWQSVVSGTPGRRLLPDISFDAAQGTGALIYNYGQLQQIGGTSLASPIFVGLWARLQSANSNSLGFPAASFYSAISSTPSLVHDVKSGNNGYGGYGYNAGTGWDYPTGWGSLDIAKLSAYIRSNGF 6m96-a1-m1-cB_6m96-a1-m2-cB ATP-bound conformation of the WzmWzt O antigen ABC transporter O67182 O67182 2.05 X-RAY DIFFRACTION 40 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 256 256 7k2t-a1-m1-cB_7k2t-a1-m1-cD 8dl0-a1-m1-cB_8dl0-a1-m1-cD 8dne-a1-m1-cB_8dne-a1-m1-cD MNLSLILELVRQEIKNRYADTVLGIWWAFLWPILLVLIYTLIFSHLIGAKLGHENTVYAYSIYLSSGIFPWFFFSNSLSRITGIFTEKKFLFTKIPIRLEVFPVVVIISELINYLIGISLVTLISFITLGFEGIKYFYLFPVALYLMIVYSFSIGMVLGTLNVFFRDIKEIIGVFLQIFFWFTPIVYTLDILPPFVKKLIYYNPMYPVVSIHHLVFVNYLDLHLYSLLGFLLASPLVFFVSYYFFKKLEKDIKDFA MNLSLILELVRQEIKNRYADTVLGIWWAFLWPILLVLIYTLIFSHLIGAKLGHENTVYAYSIYLSSGIFPWFFFSNSLSRITGIFTEKKFLFTKIPIRLEVFPVVVIISELINYLIGISLVTLISFITLGFEGIKYFYLFPVALYLMIVYSFSIGMVLGTLNVFFRDIKEIIGVFLQIFFWFTPIVYTLDILPPFVKKLIYYNPMYPVVSIHHLVFVNYLDLHLYSLLGFLLASPLVFFVSYYFFKKLEKDIKDFA 6m97-a1-m2-cA_6m97-a1-m3-cA Crystal structure of the high-affinity copper transporter Ctr1 C0HAK2 C0HAK2 3.03 X-RAY DIFFRACTION 45 1.0 8030 (Salmo salar) 8030 (Salmo salar) 208 208 6m97-a1-m1-cA_6m97-a1-m2-cA 6m97-a1-m1-cA_6m97-a1-m3-cA 6m98-a1-m1-cA_6m98-a1-m2-cA 6m98-a1-m1-cA_6m98-a1-m3-cA 6m98-a1-m2-cA_6m98-a1-m3-cA MTFYFGYTNVELLFASLVINTPGEMVAACFGCFLLAVLYEGLKIGREFLLRRNDLEDNWETLNDNLKVIEAAQVKDALTKMRAAALDAQKATPPKSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYQRMLSMAHLLQTVLHVIQVVVSYFLMLVFMTYNAYLCMAVAAGAGLGYFLFSWKKAVVVDIT MTFYFGYTNVELLFASLVINTPGEMVAACFGCFLLAVLYEGLKIGREFLLRRNDLEDNWETLNDNLKVIEAAQVKDALTKMRAAALDAQKATPPKSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYQRMLSMAHLLQTVLHVIQVVVSYFLMLVFMTYNAYLCMAVAAGAGLGYFLFSWKKAVVVDIT 6m9a-a1-m1-cA_6m9a-a1-m3-cA Bordetella pertussis globin coupled sensor regulatory domain (BpeGReg) Q7VTL8 Q7VTL8 2.3 X-RAY DIFFRACTION 89 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 156 156 6i2z-a1-m1-cB_6i2z-a1-m1-cA 6m9a-a1-m5-cB_6m9a-a1-m4-cC 6m9a-a1-m6-cB_6m9a-a1-m2-cC PSPEILALRWKDTCAHYSPHEWVAARNVVTANKAALADYFYECMLADPNAAFFLSDQLVKTKLHASMQDWLESVYAAAPTEEYERTVAFQRKVGEVHARIDIPVHLVTRGACALIRRICELLDRDASLSAAQAAATCRYVADVTMTAVEMMCHAYS PSPEILALRWKDTCAHYSPHEWVAARNVVTANKAALADYFYECMLADPNAAFFLSDQLVKTKLHASMQDWLESVYAAAPTEEYERTVAFQRKVGEVHARIDIPVHLVTRGACALIRRICELLDRDASLSAAQAAATCRYVADVTMTAVEMMCHAYS 6m9a-a1-m1-cA_6m9a-a1-m4-cC Bordetella pertussis globin coupled sensor regulatory domain (BpeGReg) Q7VTL8 Q7VTL8 2.3 X-RAY DIFFRACTION 24 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 156 157 6m9a-a1-m3-cA_6m9a-a1-m2-cC PSPEILALRWKDTCAHYSPHEWVAARNVVTANKAALADYFYECMLADPNAAFFLSDQLVKTKLHASMQDWLESVYAAAPTEEYERTVAFQRKVGEVHARIDIPVHLVTRGACALIRRICELLDRDASLSAAQAAATCRYVADVTMTAVEMMCHAYS PSPEILALRWKDTCAHYSPHEWVAARNVVTANKAALADYFYECMLADPNAAFFLSDQLVKTKLHASMQDWLESVYAAAPTEEYERTVAFQRKVGEVHARIDIPVHLVTRGACALIRRICELLDRDASLSAAQAAATCRYVADVTMTAVEMMCHAYSV 6m9z-a1-m1-cD_6m9z-a1-m2-cD X-ray Structure of Branchiostoma floridae fluorescent protein lanFP6G C3YRA1 C3YRA1 1.2 X-RAY DIFFRACTION 43 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 218 218 6m9z-a1-m1-cA_6m9z-a1-m2-cA PLPKTHELHIFGSFNGVKFDMVGEGTGNPNEGSEELKLKSTNGPLKFSPYILVPHLGYGFNQYLPFPDGMSPFQAAMQDESGYQVHRTLQYEDGAFVTANLRYTYEGSHIKGEFQVIGTGFPPDGPVMTNKLTALDWSVVKFVYPNDKTILSTFDKTYTTTDGKRYQCTFRENNTFAKPMAADILQKQPMFIFHKTELQHSNNAELTFKEKQTAFSDM PLPKTHELHIFGSFNGVKFDMVGEGTGNPNEGSEELKLKSTNGPLKFSPYILVPHLGYGFNQYLPFPDGMSPFQAAMQDESGYQVHRTLQYEDGAFVTANLRYTYEGSHIKGEFQVIGTGFPPDGPVMTNKLTALDWSVVKFVYPNDKTILSTFDKTYTTTDGKRYQCTFRENNTFAKPMAADILQKQPMFIFHKTELQHSNNAELTFKEKQTAFSDM 6m9z-a1-m2-cA_6m9z-a1-m2-cD X-ray Structure of Branchiostoma floridae fluorescent protein lanFP6G C3YRA1 C3YRA1 1.2 X-RAY DIFFRACTION 68 1.0 7739 (Branchiostoma floridae) 7739 (Branchiostoma floridae) 218 218 6m9y-a1-m1-cB_6m9y-a1-m1-cD 6m9z-a1-m1-cA_6m9z-a1-m1-cD PLPKTHELHIFGSFNGVKFDMVGEGTGNPNEGSEELKLKSTNGPLKFSPYILVPHLGYGFNQYLPFPDGMSPFQAAMQDESGYQVHRTLQYEDGAFVTANLRYTYEGSHIKGEFQVIGTGFPPDGPVMTNKLTALDWSVVKFVYPNDKTILSTFDKTYTTTDGKRYQCTFRENNTFAKPMAADILQKQPMFIFHKTELQHSNNAELTFKEKQTAFSDM PLPKTHELHIFGSFNGVKFDMVGEGTGNPNEGSEELKLKSTNGPLKFSPYILVPHLGYGFNQYLPFPDGMSPFQAAMQDESGYQVHRTLQYEDGAFVTANLRYTYEGSHIKGEFQVIGTGFPPDGPVMTNKLTALDWSVVKFVYPNDKTILSTFDKTYTTTDGKRYQCTFRENNTFAKPMAADILQKQPMFIFHKTELQHSNNAELTFKEKQTAFSDM 6mab-a2-m2-cA_6mab-a2-m4-cA 1.7A resolution structure of RsbU from Chlamydia trachomatis (periplasmic domain) A0A0H3MDU0 A0A0H3MDU0 1.7 X-RAY DIFFRACTION 36 1.0 471472 (Chlamydia trachomatis 434/Bu) 471472 (Chlamydia trachomatis 434/Bu) 269 269 6mab-a2-m1-cA_6mab-a2-m3-cA 6mab-a2-m1-cA_6mab-a2-m4-cA 6mab-a2-m2-cA_6mab-a2-m3-cA SNIQQYKKTLSSITSDLRENALFKAHTLQQTIPLNIDILALFSEIFDLDRGVPAEPDLALSKEMEKIFHSTYKEISLVKKEADGNFRVVASSRIEQLGKNYNQEIFLSDSQPFLATLRHSGSDSQVLAVLQTNIFDISSQEVLGVLYTLSDTNYLLNGLLAAKDSVKTAILSKNGIILQATDSSLDLVSIHKTVSKEQFCDVFLRDDICPPHLLLRPPLNLDPLPYGENFVSFCIGNTEMWGYIHSLPEMDFRILTYEEKSIIFASLWR SNIQQYKKTLSSITSDLRENALFKAHTLQQTIPLNIDILALFSEIFDLDRGVPAEPDLALSKEMEKIFHSTYKEISLVKKEADGNFRVVASSRIEQLGKNYNQEIFLSDSQPFLATLRHSGSDSQVLAVLQTNIFDISSQEVLGVLYTLSDTNYLLNGLLAAKDSVKTAILSKNGIILQATDSSLDLVSIHKTVSKEQFCDVFLRDDICPPHLLLRPPLNLDPLPYGENFVSFCIGNTEMWGYIHSLPEMDFRILTYEEKSIIFASLWR 6maf-a1-m1-cA_6maf-a1-m1-cB native BbvCI A2B2 tetramer at low resolution Q5D6Y5 Q5D6Y5 3.79 X-RAY DIFFRACTION 47 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 259 259 FFIYEQLSHKKNLEQKGKNAFDEETEELVRQAKSGYHAFIEGINYDEVTKLDLNSSVAALEDYISIAKEIEKKHKMFNWRSDYAGSIIPEFLYRIVHVATVKAGLKPIFSTRNTIIEISGAAHREGLQIRRKNEDFALGFHEVDVKIASESHRVISLAVACEVKTNIDKNKLNGLDFSAERMKRTYPGSAYFLITETLDFSPDENHSSGLIDEIYVLRKQVRTKNRVQKAPLCPSVFAELLEDILEISYRASNVKGHVY FFIYEQLSHKKNLEQKGKNAFDEETEELVRQAKSGYHAFIEGINYDEVTKLDLNSSVAALEDYISIAKEIEKKHKMFNWRSDYAGSIIPEFLYRIVHVATVKAGLKPIFSTRNTIIEISGAAHREGLQIRRKNEDFALGFHEVDVKIASESHRVISLAVACEVKTNIDKNKLNGLDFSAERMKRTYPGSAYFLITETLDFSPDENHSSGLIDEIYVLRKQVRTKNRVQKAPLCPSVFAELLEDILEISYRASNVKGHVY 6mag-a3-m1-cC_6mag-a3-m3-cC native BbvCI B2 dimer in space group C222 Q5D6Y4 Q5D6Y4 2.07 X-RAY DIFFRACTION 138 1.0 1393 (Brevibacillus brevis) 1393 (Brevibacillus brevis) 282 282 6m9g-a1-m2-cB_6m9g-a1-m1-cA 6maf-a1-m1-cC_6maf-a1-m1-cD 6mag-a1-m1-cA_6mag-a1-m2-cA 6mag-a2-m1-cB_6mag-a2-m3-cB NQFNPLVYTHGGKLERKSKKDKTASKVFEEFGVMEAYNCWKEASLCIQQRDKDSVLKLVAALNTYKDAVEPIFDSRLNSAQEVLQPSILEEFFEYLFSRIDSIVGVNIPIRHPAKGYLSLSFNPHNIETLIQSPEYTVRAKDHDFIIGGSAKLTIQGHGGEGETTNIVVPAVAIECKRYLERNMLDECAGTAERLKRATPYCLYFVVAEYLKLDDGAPELTEIDEIYILRHQRNSERNKPGFKPNPIDGELIWDLYQEVMNHLGKIWWDPNSALQRGKVFNR NQFNPLVYTHGGKLERKSKKDKTASKVFEEFGVMEAYNCWKEASLCIQQRDKDSVLKLVAALNTYKDAVEPIFDSRLNSAQEVLQPSILEEFFEYLFSRIDSIVGVNIPIRHPAKGYLSLSFNPHNIETLIQSPEYTVRAKDHDFIIGGSAKLTIQGHGGEGETTNIVVPAVAIECKRYLERNMLDECAGTAERLKRATPYCLYFVVAEYLKLDDGAPELTEIDEIYILRHQRNSERNKPGFKPNPIDGELIWDLYQEVMNHLGKIWWDPNSALQRGKVFNR 6mai-a1-m2-cA_6mai-a1-m3-cA Crystal structure of Deoxyuridine 5'-triphosphate nucleotidohydrolase from Legionella pneumophila Philadelphia 1 Q5ZSN0 Q5ZSN0 1.8 X-RAY DIFFRACTION 120 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 137 137 6mai-a1-m1-cA_6mai-a1-m2-cA 6mai-a1-m1-cA_6mai-a1-m3-cA 6mao-a1-m1-cA_6mao-a1-m2-cA 6mao-a1-m1-cA_6mao-a1-m3-cA 6mao-a1-m2-cA_6mao-a1-m3-cA HQVIQLKILDSRIGDTIPLPAYATDGSAGLDLRVCISEPMQVAPQQTVLLPTGIAIYIADPKLAAVILPRSGLGHKNGIVLGNLVGLIDSDYQGELKISCWNRSQEHFTVNPGDRIAQLVFIPVVQASFEVVNEFTE HQVIQLKILDSRIGDTIPLPAYATDGSAGLDLRVCISEPMQVAPQQTVLLPTGIAIYIADPKLAAVILPRSGLGHKNGIVLGNLVGLIDSDYQGELKISCWNRSQEHFTVNPGDRIAQLVFIPVVQASFEVVNEFTE 6man-a1-m1-cB_6man-a1-m1-cA Crystal structure of a DnaN sliding clamp DNA polymerase III subunit beta from Rickettsia bellii RML369-C Q1RIS7 Q1RIS7 2.35 X-RAY DIFFRACTION 79 0.995 336407 (Rickettsia bellii RML369-C) 336407 (Rickettsia bellii RML369-C) 374 380 HHHMLKVIVETKTLVQALGFASSVVEANIKLLAKDGLLELSSTNMDLYLSQKIGVQVVSEGELTVSTKTLNDIVKKLPDSELTLTDLGTTGLEITGKNCRFNLFTLPVESFPVMDNINPEASFKISCAEFAKIIESTKFSVSLDETRYNLNGIYLHVKDSEFYAASTDGHRLSVSSVVLAEKIEDFGVILPQKSAEEILKIVKDSKNANADIEILLSSNKIKFICNENVIMLSKLIDGTFPDYSSFIPENSSSKLVINRKIFADTIERIAIITVEKFRAVKLSLSGEALEISAIGEARGNAKEVINSSKETENFYEYSGETNLDIGFNPQYLEDVLKAIKSDLVELYFSSVSAPVLIKFPESPKDIFVVMPVKV HMLKVIVETKTLVQALGFASSVVEKRNIISELANIKLLAKDGLLELSSTNMDLYLSQKIGVQVVSEGELTVSTKTLNDIVKKLPDSELTLTDLGTTGLEITGKNCRFNLFTLPVESFPVMDNINPEASFKISCAEFAKIIESTKFSVSLDETRYNLNGIYLHVKDSEFYAASTDGHRLSVSSVVLAEKIEDFGVILPQKSAEEILKIVKDSKNANADIEILLSSNKIKFICNENVIMLSKLIDGTFPDYSSFIPENSSSKLVINRKIFADTIERIAIITVEKFRAVKLSLSGEALEISAIGEARGNAKEVINSSKETENFYEYSGETNLDIGFNPQYLEDVLKAIKSDLVELYFSSVSAPVLIKFPESPKDIFVVMPVKV 6mbi-a1-m1-cA_6mbi-a1-m2-cA Crystal Structure of SNX15 PX domain in domain swapped conformation form 2 Q9NRS6 Q9NRS6 2.834 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 101 DFLRHYTVSDPRTHPKGYTEYKVTAQFIPEDVKEVVVWKRYSDFRKLHGDLAYTHRNLFRRLEEFPEASVIEERRKGAEDLLRFTVHIPALNNSPQLKEFF DFLRHYTVSDPRTHPKGYTEYKVTAQFIPEDVKEVVVWKRYSDFRKLHGDLAYTHRNLFRRLEEFPEASVIEERRKGAEDLLRFTVHIPALNNSPQLKEFF 6mc8-a1-m1-cB_6mc8-a1-m1-cA Crystal structure of PprA dimer from Deinococcus deserti C1D318 C1D318 2.5 X-RAY DIFFRACTION 48 1.0 546414 (Deinococcus deserti VCD115) 546414 (Deinococcus deserti VCD115) 274 275 PLARFAELVATAGLQSDVQALADSGADDTTLEAQLTQELRLAHDRWGLGLLHLQHSARLIHTDGVPSDIALLVDGAPRAQLSDGARAIAGTYASMQAPGPEGRSEWGILPEGHRVTLRPGLGQLRVLIEDARDFETHWTPGAAQTWTRTWRQGETLAVEVHRPATPATALAKAAWKVITSIKDRTFQRELMERSNQVGMLGALLGARHSGAGDALNQLPEAHFAVSSAVVRETGREGREVDRWKAMQREATETLDELQKAATRRLAAVLSGGLR NPLARFAELVATAGLQSDVQALADSGADDTTLEAQLTQELRLAHDRWGLGLLHLQHSARLIHTDGVPSDIALLVDGAPRAQLSDGARAIAGTYASMQAPGPEGRSEWGILPEGHRVTLRPGLGQLRVLIEDARDFETHWTPGAAQTWTRTWRQGETLAVEVHRPATPATALAKAAWKVITSIKDRTFQRELMERSNQVGMLGALLGARHSGAGDALNQLPEAHFAVSSAVVRETGREGREVDRWKAMQREATETLDELQKAATRRLAAVLSGGLR 6mde-a1-m1-cB_6mde-a1-m1-cA Mevalonate kinase from Methanosarcina mazei with mevalonate bound Q8PW39 Q8PW39 2.1 X-RAY DIFFRACTION 82 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 301 302 4hac-a1-m1-cB_4hac-a1-m1-cA 6mdf-a1-m1-cB_6mdf-a1-m1-cA MVSCSAPGKIYLFGEHAVVYGETAIACAVELRTRVRAELNDSITIQSQIGRTGLDFEKHPYVSAVIEKMRKSIPINGVFLTVDSDIPVGSGLGSSAAVTIASIGALNELFGFGLSLQEIAKLGHEIEIKVQGAASPTDTYVSTFGGVVTIPERRKLKTPDCGIVIGDTGVFSSTKELVANVRQLRESYPDLIEPLMTSIGKISRIGEQLVLSGDYASIGRLMNVNQGLLDALGVNILELSQLIYSARAAGAFGAKITGAGGGGCMVALTAPEKCNQVAEAVAGAGGKVTITKPTEQGLKVD HMVSCSAPGKIYLFGEHAVVYGETAIACAVELRTRVRAELNDSITIQSQIGRTGLDFEKHPYVSAVIEKMRKSIPINGVFLTVDSDIPVGSGLGSSAAVTIASIGALNELFGFGLSLQEIAKLGHEIEIKVQGAASPTDTYVSTFGGVVTIPERRKLKTPDCGIVIGDTGVFSSTKELVANVRQLRESYPDLIEPLMTSIGKISRIGEQLVLSGDYASIGRLMNVNQGLLDALGVNILELSQLIYSARAAGAFGAKITGAGGGGCMVALTAPEKCNQVAEAVAGAGGKVTITKPTEQGLKVD 6mdy-a1-m1-cA_6mdy-a1-m1-cD Crystal structure of a 2-dehydro-3-deoxyphosphooctonate aldolase from Legionella pneumophila Philadelphia 1 Q5ZWA3 Q5ZWA3 2.55 X-RAY DIFFRACTION 60 0.996 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 242 255 6mdy-a1-m1-cC_6mdy-a1-m1-cB HMRLCGFEAGLDKPLFLIAGPCVIESEELALETAGYLKEMCSQLNIPFIYKSSFPGFEKGLSILEKVKSQIGVPVLTDVHEDTPLFEVSSVVDVLQTPAFLCRQTNFIQKVAAMNKPVNIKKGQFLAPWEMKHVIAKAKAQGNEQIMACERGVSFGYNNLVSDMRSLVIMRETGCPVVYDATHSVQQREFIPALARAAVAVGISGLFMETHPPNSWPLDKMKQLLESLKAADEVYKKYSTDF HHMRLCGFEAGLDKPLFLIAGPCVIESEELALETAGYLKEMCSQLNIPFIYKSSFDKANRSSISSYRGPGFEKGLSILEKVKSQIGVPVLTDVHEDTPLFEVSSVVDVLQTPAFLCRQTNFIQKVAAMNKPVNIKKGQFLAPWEMKHVIAKAKAQGNEQIMACERGVSFGYNNLVSDMRSLVIMRETGCPVVYDATHSVQQREFIPALARAAVAVGISGLFMETHPNSWPLDKMKQLLESLKAADEVYKKYSTDF 6mdy-a1-m1-cB_6mdy-a1-m1-cD Crystal structure of a 2-dehydro-3-deoxyphosphooctonate aldolase from Legionella pneumophila Philadelphia 1 Q5ZWA3 Q5ZWA3 2.55 X-RAY DIFFRACTION 11 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 242 255 6mdy-a1-m1-cC_6mdy-a1-m1-cA HMRLCGFEAGLDKPLFLIAGPCVIESEELALETAGYLKEMCSQLNIPFIYKSSFGPGFEKGLSILEKVKSQIGVPVLTDVHEDTPLFEVSSVVDVLQTPAFLCRQTNFIQKVAAMNKPVNIKKGQFLAPWEMKHVIAKAKAQGNEQIMACERGVSFGYNNLVSDMRSLVIMRETGCPVVYDATHSVQQREFIPALARAAVAVGISGLFMETHPNSWPLDKMKQLLESLKAADEVYKKYSTDF HHMRLCGFEAGLDKPLFLIAGPCVIESEELALETAGYLKEMCSQLNIPFIYKSSFDKANRSSISSYRGPGFEKGLSILEKVKSQIGVPVLTDVHEDTPLFEVSSVVDVLQTPAFLCRQTNFIQKVAAMNKPVNIKKGQFLAPWEMKHVIAKAKAQGNEQIMACERGVSFGYNNLVSDMRSLVIMRETGCPVVYDATHSVQQREFIPALARAAVAVGISGLFMETHPNSWPLDKMKQLLESLKAADEVYKKYSTDF 6mdy-a1-m1-cC_6mdy-a1-m1-cD Crystal structure of a 2-dehydro-3-deoxyphosphooctonate aldolase from Legionella pneumophila Philadelphia 1 Q5ZWA3 Q5ZWA3 2.55 X-RAY DIFFRACTION 83 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 239 255 6mdy-a1-m1-cA_6mdy-a1-m1-cB HMRLCGFEAGLDKPLFLIAGPCVIESEELALETAGYLKEMCSQLNIPFIYKSSFFEKGLSILEKVKSQIGVPVLTDVHEDTPLFEVSSVVDVLQTPAFLCRQTNFIQKVAAMNKPVNIKKGQFLAPWEMKHVIAKAKAQGNEQIMACERGVSFGYNNLVSDMRSLVIMRETGCPVVYDATHSVQQREFIPALARAAVAVGISGLFMETHPNSWPLDKMKQLLESLKAADEVYKKYSTDF HHMRLCGFEAGLDKPLFLIAGPCVIESEELALETAGYLKEMCSQLNIPFIYKSSFDKANRSSISSYRGPGFEKGLSILEKVKSQIGVPVLTDVHEDTPLFEVSSVVDVLQTPAFLCRQTNFIQKVAAMNKPVNIKKGQFLAPWEMKHVIAKAKAQGNEQIMACERGVSFGYNNLVSDMRSLVIMRETGCPVVYDATHSVQQREFIPALARAAVAVGISGLFMETHPNSWPLDKMKQLLESLKAADEVYKKYSTDF 6mf0-a1-m1-cB_6mf0-a1-m1-cA Crystal Structure Determination of Human/Porcine Chimera Coagulation Factor VIII P00451 P00451 3.2 X-RAY DIFFRACTION 62 0.998 9823 (Sus scrofa) 9823 (Sus scrofa) 1247 1256 AIRRYYLGAVELSWDYRQSELLRELHVDTRGPSVLYKKTVFVEFTDQLFSVARPRPPWMGLLGPTIQAEVYDTVVVTLKNMASHPVSLHAVGVSFWKSSEGAEYEDHTSQREKEDDKVLPGKSQTYVWQVLKENGPTASDPPCLTYSYLSHVDLVKDLNSGLIGALLVCREGSLTRERTQNLHEFVLLFAVFDEGKSWHSAAQPAMHTVNGYVNRSLPGLIGCHKKSVYWHVIGMGTSPEVHSIFLEGHTFLVRHHRQASLEISPLTFLTAQTFLMDLGQFLLFCHISSHHHGGMEAHVRVESCAEKHPKTWVHYIAAEEEDWDYAPLVLAPDDRSYKSQYLNNGPQRIGRKYKKVRFMAYTDETFKTREAIQHESGILGPLLYGEVGDTLLIIFKNQASRPYNIYPHGITDVRPLYSRRLPKGVKHLKDFPILPGEIFKYKWTVTVEDGPTKSDPRCLTRYYSSFVNMERDLASGLIGPLLICYKSDKRNVILFSVFDENRSWYLTENIQRFLPNPAGVQLEDPEFQASNIMHSINGYVFDSLQLSVCLHEVAYWYILSIGAQTDFLSVFFSGYTFKHKMVYEDTLTLFPFSGETVFMSMENPGLWILGCHNSDFRNRGMTALLKVSSCKRTRHYFIAAVEQLWDYGMSESPGEVPRFKKVVFREFADGSFTQPSYRGELNKHLGLLGPYIRAEVEDNIMVTFKNQASRPYSFYSSLISYPDDQEQGAEPRHNFVQPNETRTYFWKVQHHMAPTEDEFDCKAWAYFSDVDLEKDVHSGLIGPLLICRANTLNAAHGRQVTVQEFALFFTIFDETKSWYFTENVERNCTLKENYRFHAINGYVMDTLPGLVMAQNQRIRWYLLSMGSNENIHSIHFSGHVFSVRKKEEYKMAVYNLYPGVFETVEMLPSKVGIWRIECLIGEHLQAGMSTTFLVYSKKCQTPLGMASGHIRDFQITASGQYGQWAPKLARLHYSGSINAWSTKEPFSWIKVDLLAPMIIHGIKTQGARQKFSSLYISQFIIMYSLDGKKWQTYRGNSTGTLMVFFGNVDSSGIKHNIFNPPIIARYIRLHPTHYSIRSTLRMELMGCDLNSCSMPLGMESKAISDAQITASSYFTNMFATWSPSKARLHLQGRSNAWRPQVNNPKEWLQVDFQKTMKVTGVTTQGVKSLLTSMYVKEFLISSSQDGHQWTLFFQNGKVKVFQGNQDSFTPVVNSLDPPLLTRYLRIHPQSWVHQIALRMEVLGCEAQ AIRRYYLGAVELSWDYRQSELLRELHVDTRFPATAPGALPLGPSVLYKKTVFVEFTDQLFSVARPRPPWMGLLGPTIQAEVYDTVVVTLKNMASHPVSLHAVGVSFWKSSEGAEYEDHTSQREKEDDKVLPGKSQTYVWQVLKENGPTASDPPCLTYSYLSHVDLVKDLNSGLIGALLVCREGSLTRERTQNLHEFVLLFAVFDEGKSWHSAAQPAMHTVNGYVNRSLPGLIGCHKKSVYWHVIGMGTSPEVHSIFLEGHTFLVRHHRQASLEISPLTFLTAQTFLMDLGQFLLFCHISSHHHGGMEAHVRVESCAEKHPKTWVHYIAAEEEDWDYAPLVLAPDDRSYKSQYLNNGPQRIGRKYKKVRFMAYTDETFKTREAIQHESGILGPLLYGEVGDTLLIIFKNQASRPYNIYPHGITDVRPLYSRRLPKGVKHLKDFPILPGEIFKYKWTVTVEDGPTKSDPRCLTRYYSSFVNMERDLASGLIGPLLICYKESDKRNVILFSVFDENRSWYLTENIQRFLPNPAGVQLEDPEFQASNIMHSINGYVFDSLQLSVCLHEVAYWYILSIGAQTDFLSVFFSGYTFKHKMVYEDTLTLFPFSGETVFMSMENPGLWILGCHNSDFRNRGMTALLKVSSCKRTRHYFIAAVEQLWDYGMSESVPRFKKVVFREFADGSFTQPSYRGELNKHLGLLGPYIRAEVEDNIMVTFKNQASRPYSFYSSLISYPDDQEQGAEPRHNFVQPNETRTYFWKVQHHMAPTEDEFDCKAWAYFSDVDLEKDVHSGLIGPLLICRANTLNAAHGRQVTVQEFALFFTIFDETKSWYFTENVERNCTLKENYRFHAINGYVMDTLPGLVMAQNQRIRWYLLSMGSNENIHSIHFSGHVFSVRKKEEYKMAVYNLYPGVFETVEMLPSKVGIWRIECLIGEHLQAGMSTTFLVYSKKCQTPLGMASGHIRDFQITASGQYGQWAPKLARLHYSGSINAWSTKEPFSWIKVDLLAPMIIHGIKTQGARQKFSSLYISQFIIMYSLDGKKWQTYRGNSTGTLMVFFGNVDSSGIKHNIFNPPIIARYIRLHPTHYSIRSTLRMELMGCDLNSCSMPLGMESKAISDAQITASSYFTNMFATWSPSKARLHLQGRSNAWRPQVNNPKEWLQVDFQKTMKVTGVTTQGVKSLLTSMYVKEFLISSSQDGHQWTLFFQNGKVKVFQGNQDSFTPVVNSLDPPLLTRYLRIHPQSWVHQIALRMEVLGCEAQ 6mfb-a2-m1-cC_6mfb-a2-m1-cD Crystal structure of 3-hydroxykynurenine transaminase from Aedes aegypti Q0IG34 Q0IG34 2.5 X-RAY DIFFRACTION 262 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 385 386 6mfb-a1-m1-cA_6mfb-a1-m1-cB MKFTPPPSSLRGPLVIPDKIMMGPGPSNCSKRVLAALNNTCLSNFHDELFQVIDEVKDGLRYIFQTENRTTMCITGSAHTGMEALLCNLLEEGDIVLIANNGIWAERAINMATRYGADVRVLEGPADKPFSMTDFKKAIEQHRPKCLFVVHGDSSSGLLQPLEGLGKICHDYDCLLLVDAVASLCGVPFYMDKWEIDGVYTGSQKVLGAPPGITPISISPKALEVIRSRKTPSKVFYWDLLILGNYWGCYDEQKRYHHTVPSNLIFALREAIAQIAEEGLEPVIRRRQECAEQMYRGLQAMGLEIFVKDPEYRLPTVTCIMIPKGVNWWKVSEYAMNNFSLEIQGGFGPTMGIAWRAGIMGESSTLQRVNFYLYAFKESLKATHP MKFTPPPSSLRGPLVIPDKIMMGPGPSNCSKRVLAALNNTCLSNFHDELFQVIDEVKDGLRYIFQTENRTTMCITGSAHTGMEALLCNLLEEGDIVLIANNGIWAERAINMATRYGADVRVLEGPADKPFSMTDFKKAIEQHRPKCLFVVHGDSSSGLLQPLEGLGKICHDYDCLLLVDAVASLCGVPFYMDKWEIDGVYTGSQKVLGAPPGITPISISPKALEVIRSRKTPSKVFYWDLLILGNYWGCYDEQKRYHHTVPSNLIFALREAIAQIAEEGLEPVIRRRQECAEQMYRGLQAMGLEIFVKDPEYRLPTVTCIMIPKGVNWWKVSEYAMNNFSLEIQGGFGPTMGIAWRAGIMGESSTLQRVNFYLYAFKESLKATHPD 6mfg-a1-m1-cC_6mfg-a1-m1-cA HLA-DQ2-glia-alpha1 P01909 P01909 2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 IVADHVASYGVNLYQSYGPSGQYTHEFDGDEQFYVDLGRKETVWCLPVLRQFRFDPQFALTNIAVLKHNLNSLIKRSNSTAATNEVPEVTVFSKSPVTLGQPNILICLVDNIFPPVVNITWLSNGHSVTEGVSETSFLSKSDHSFFKISYLTLLPSAEESYDCKVEHWGLDKPLLKHWEPE IVADHVASYGVNLYQSYGPSGQYTHEFDGDEQFYVDLGRKETVWCLPVLRQFRFDPQFALTNIAVLKHNLNSLIKRSNSTAATNEVPEVTVFSKSPVTLGQPNILICLVDNIFPPVVNITWLSNGHSVTEGVSETSFLSKSDHSFFKISYLTLLPSAEESYDCKVEHWGLDKPLLKHWEPE 6mfg-a1-m1-cE_6mfg-a1-m1-cF HLA-DQ2-glia-alpha1 O19712 O19712 2 X-RAY DIFFRACTION 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 191 191 QPFPQPELPYPSPEDFVYQFKGMCYFTNGTERVRLVSRSIYNREEIVRFDSDVGEFRAVTLLGLPAAEYWNSQKDILERKRAAVDRVCRHNYQLELRTTLQRRVEPTVTISPSNLLVCSVTDFYPAQIKVRWFRNDQEETAGVVSTPLIRNGDWTFQILVMLEMTPQRGDVYTCHVEHPSLQSPITVEWRA QPFPQPELPYPSPEDFVYQFKGMCYFTNGTERVRLVSRSIYNREEIVRFDSDVGEFRAVTLLGLPAAEYWNSQKDILERKRAAVDRVCRHNYQLELRTTLQRRVEPTVTISPSNLLVCSVTDFYPAQIKVRWFRNDQEETAGVVSTPLIRNGDWTFQILVMLEMTPQRGDVYTCHVEHPSLQSPITVEWRA 6mfk-a2-m2-cA_6mfk-a2-m3-cA Crystal Structure of Chloramphenicol Acetyltransferase from Elizabethkingia anophelis X5KVH4 X5KVH4 1.65 X-RAY DIFFRACTION 108 1.0 1117645 (Elizabethkingia anophelis) 1117645 (Elizabethkingia anophelis) 210 210 6mfk-a2-m1-cA_6mfk-a2-m2-cA 6mfk-a2-m1-cA_6mfk-a2-m3-cA HHMKNFFESPFKGKIIKDHIQNPNIIAGKYSYYSGYYHGHSFDDCARYLLPDRNDVDKLIIGSYCSVGTGASFIMAGNQGHRYDWISSFPFFYMNEVEAFENSIDAFKNAGDTIIGNDVWIGGEAMIMPGIKIGDGAVIGSRALVTKDVEPYAIVGGNPAKLIKKRFSENQIAILLEIKWWEWNEEVLADAMPILCSGNIDLLYKFYKNI HHMKNFFESPFKGKIIKDHIQNPNIIAGKYSYYSGYYHGHSFDDCARYLLPDRNDVDKLIIGSYCSVGTGASFIMAGNQGHRYDWISSFPFFYMNEVEAFENSIDAFKNAGDTIIGNDVWIGGEAMIMPGIKIGDGAVIGSRALVTKDVEPYAIVGGNPAKLIKKRFSENQIAILLEIKWWEWNEEVLADAMPILCSGNIDLLYKFYKNI 6mfo-a1-m1-cA_6mfo-a1-m2-cA Crystal Structure of Human Protocadherin-15 EC1-3 G16D N369D Q370N Q96QU1 Q96QU1 3.15 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 333 333 EDCKLARDGPPATIVAIDEESRNGTILVDNMLIKGTAGGPDPTIELSLKDNVDYWVLMDPVKQMLFLNSTGRVLDRDPPMNIHSIVVQVQCINKKVGTIIYHEVRIVVRDRNDNSPTFKHESYYATVNELTPVGTTIFTGFSGDNGATDIDDGPNGQIEYVIQYNPDDPTSNDTFEIPLMLTGNIVLRKRLNYEDKTRYFVIIQANDRAQNLNERRTTTTTLTVDVLDGDDLGPMFLPCTYQAAIPNPIIVTPPIQAIDQDRNIQPPSDRPGILYSILVGTPEDYPRFFHMHPRTAELSLLNRDFHQKFDLVIKAEQDNGHPLPAFAGLHIEI EDCKLARDGPPATIVAIDEESRNGTILVDNMLIKGTAGGPDPTIELSLKDNVDYWVLMDPVKQMLFLNSTGRVLDRDPPMNIHSIVVQVQCINKKVGTIIYHEVRIVVRDRNDNSPTFKHESYYATVNELTPVGTTIFTGFSGDNGATDIDDGPNGQIEYVIQYNPDDPTSNDTFEIPLMLTGNIVLRKRLNYEDKTRYFVIIQANDRAQNLNERRTTTTTLTVDVLDGDDLGPMFLPCTYQAAIPNPIIVTPPIQAIDQDRNIQPPSDRPGILYSILVGTPEDYPRFFHMHPRTAELSLLNRDFHQKFDLVIKAEQDNGHPLPAFAGLHIEI 6mfu-a2-m1-cB_6mfu-a2-m1-cC Crystal structure of a Guanylate kinase from Cryptococcus neoformans var. grubii serotype A in complex with GDP and ADP J9VQ84 J9VQ84 1.6 X-RAY DIFFRACTION 59 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 215 216 6mfu-a1-m1-cD_6mfu-a1-m1-cA RPINPDVVNRPLVICGPSGTGKSTLLKTLFESQPNTFGFSVSHTTRKPRPGEENGREYHFVTKEEFMEGVGKGEFLEWAEFGGNCYGTTFAALTALHPRRCILDIELQGVLQLKAKAPLQTPPLEPVFLFLSPPSISQLKSRLSGRGTETDASIRKRLDAAKEELRYAKEGKYDVYVVNDDLKVAGEKLEKVAMGWEGWKTCGDTLPELNLAELD SRPINPDVVNRPLVICGPSGTGKSTLLKTLFESQPNTFGFSVSHTTRKPRPGEENGREYHFVTKEEFMEGVGKGEFLEWAEFGGNCYGTTFAALTALHPRRCILDIELQGVLQLKAKAPLQTPPLEPVFLFLSPPSISQLKSRLSGRGTETDASIRKRLDAAKEELRYAKEGKYDVYVVNDDLKVAGEKLEKVAMGWEGWKTCGDTLPELNLAELD 6mg0-a2-m1-cB_6mg0-a2-m1-cA Crystal structure of a 5-domain construct of LgrA in the thiolation state Q70LM7 Q70LM7 6 X-RAY DIFFRACTION 54 1.0 54914 (Brevibacillus parabrevis) 54914 (Brevibacillus parabrevis) 1687 1692 6mg0-a1-m1-cB_6mg0-a1-m1-cA MGRILFLTTFMSKGNKVVRYLESLHHEVVICQEKVHAQSANLQEIDWIVSYAYGYILDKEIVSRFRGRIINLHPSLLPWNKGRDPVFWSVWDETPKGVTIHLIDEHVDTGDILVQEEIAFADEDTLLDCYNKANQAIEELFIREWENIVHGRIAPYRQTAGGTLHFKADRDFYKNLNMTTVRELLALKRLCAEPKRGEKPIDKTFHQLFEQQVEMTPDHVAVVDRGQSLTYKQLNERANQLAHHLRGKGVKPDDQVAIMLDKSLDMIVSILAVMKAGGAYVPIDPDYPGERIAYMLADSSAAILLTNALHEEKANGACDIIDVHDPDSYSENTNNLPHVNRPDDLVYVMYTSGSTGLAKGVMIEHHNLVNFCEWYRPYFGVTPADKALVYSSFSFDGSALDIFTHLLAGAALHIVPSERKYDLDALNDYCNQEGITISYLPTGAAEQFMQMDNQSFRVVITGGDVLKKIERNGTYKLYNGYGPTECTIMVTMFEVDKPYANIPIGKPIDRTRILILDEALALQPIGVAGELFIVGEGLGRGYLNRPELTAEKFIVHPQTGERMYRTGDRARFLPDGNIEFLGRLDNLVKIRGYRIEPGEIEPFLMNHPLIELTTVLAKEQADGRKYLVGYYVAPEEIPHGELREWLGNDLPDYMIPTYFVHMKAFPLTANGKVDRRALPTDELEQQLAQVWSHVLGIPQMGIDDHFLERGGDSIKVMQLIHQLKNIGLSLRYDQLFTHPTIRQLKRLLTEQLRELDEQAEYETSAVEKRMYIIQQQDVESIAYNVVYTINFPLTVDTEQIRVALEQLVLRHEGLRSTYHMRGDEIVKRIVPRAELSFVRQTGEEESVQSLLAEQIKPFDLAKAPLLRAGVIETADKKVLWFDSHHILLDGLSKSILARELQALLGQQVLSPVEKTYKSFARWQNEWFASDEYEQQIAYWKTLLQGELPAVQLPTKKRPPQLTFDGAIQMYRVNPEITRKLKATAAKHDLTLYMLMLTIVSIWLSKMNSDSNQVILGTVTDGRQHPDTRELLGMFVNTLPLLLSIDHEESFLHNLQQVKAKLLPALQNQYVPFDKILEAARVKREGNRHPLFDVMFMMQGAPETELESNMHHINAGISKFDLTLEVLERENGLNIVFEYNTHLFDEGMILRMVAQFEHLLLQAVHGLDQQVKRFELVTEDEKRDLFLRVNDTAKAYPNKLIMSMLEDWAAATPDKTALVFREQRVTYRELNERVNQLAHTLREKGVQPDDLVMLMAERSVEMMVAIFAVLKAGGAYLPIDPHSPAERIAYIFADSGAKLVLAQSPFVEKASMAEVVLDLNSASSYAADTSNPPLVNQPGDLVYVMYTKPKGVMIEHGALLNVLHGMQDEYPLLQDDAFLLKTTYIFDISVAEIFGWVPGRGKLVILEPEAEKNPKAIWQAVVGAGITHINFVPSMLIPFVEYLEGRTEANRLRYILACGEAMPDELVPKVYEVLPEVKLENIYGPTEATIYASRYSLAKGSQESPVPIGKPLPNYRMYIINRHGQLQPIGVPGELCIAGASLARGYLNNPALTEEKFTPHPLEKGERIYRTGDLARYREDGNIEYLGRMDHQVKIRGYRIELDEIRSKLIQEETIQDAVVVARNDQNGQAYLCAYLLSEQEWTVGQLRELLRRELPEYMIPAHFVLLKQFPLTANGKLDRKALPEPDG MGRILFLTTFMSKGNKVVRYLESLHHEVVICQEKVHAQSANLQEIDWIVSYAYGYILDKEIVSRFRGRIINLHPSLLPWNKGRDPVFWSVWDETPKGVTIHLIDEHVDTGDILVQEEIAFADEDTLLDCYNKANQAIEELFIREWENIVHGRIAPYRQTAGGTLHFKADRDFYKNLNMTTVRELLALKRLCAEPKRGEKPIDKTFHQLFEQQVEMTPDHVAVVDRGQSLTYKQLNERANQLAHHLRGKGVKPDDQVAIMLDKSLDMIVSILAVMKAGGAYVPIDPDYPGERIAYMLADSSAAILLTNALHEEKANGACDIIDVHDPDSYSENTNNLPHVNRPDDLVYVMYTSGSTGLAKGVMIEHHNLVNFCEWYRPYFGVTPADKALVYSSFSFDGSALDIFTHLLAGAALHIVPSERKYDLDALNDYCNQEGITISYLPTGAAEQFMQMDNQSFRVVITGGDVLKKIERNGTYKLYNGYGPTECTIMVTMFEVDKPYANIPIGKPIDRTRILILDEALALQPIGVAGELFIVGEGLGRGYLNRPELTAEKFIVHPQTGERMYRTGDRARFLPDGNIEFLGRLDNLVKIRGYRIEPGEIEPFLMNHPLIELTTVLAKEQADGRKYLVGYYVAPEEIPHGELREWLGNDLPDYMIPTYFVHMKAFPLTANGKVDRRALPDVVAPTDELEQQLAQVWSHVLGIPQMGIDDHFLERGGDSIKVMQLIHQLKNIGLSLRYDQLFTHPTIRQLKRLLTEQLRELDEQAEYETSAVEKRMYIIQQQDVESIAYNVVYTINFPLTVDTEQIRVALEQLVLRHEGLRSTYHMRGDEIVKRIVPRAELSFVRQTGEEESVQSLLAEQIKPFDLAKAPLLRAGVIETADKKVLWFDSHHILLDGLSKSILARELQALLGQQVLSPVEKTYKSFARWQNEWFASDEYEQQIAYWKTLLQGELPAVQLPTKKRPPQLTFDGAIQMYRVNPEITRKLKATAAKHDLTLYMLMLTIVSIWLSKMNSDSNQVILGTVTDGRQHPDTRELLGMFVNTLPLLLSIDHEESFLHNLQQVKAKLLPALQNQYVPFDKILEAARVKREGNRHPLFDVMFMMQGAPETELESNMHHINAGISKFDLTLEVLERENGLNIVFEYNTHLFDEGMILRMVAQFEHLLLQAVHGLDQQVKRFELVTEDEKRDLFLRVNDTAKAYPNKLIMSMLEDWAAATPDKTALVFREQRVTYRELNERVNQLAHTLREKGVQPDDLVMLMAERSVEMMVAIFAVLKAGGAYLPIDPHSPAERIAYIFADSGAKLVLAQSPFVEKASMAEVVLDLNSASSYAADTSNPPLVNQPGDLVYVMYTKPKGVMIEHGALLNVLHGMQDEYPLLQDDAFLLKTTYIFDISVAEIFGWVPGRGKLVILEPEAEKNPKAIWQAVVGAGITHINFVPSMLIPFVEYLEGRTEANRLRYILACGEAMPDELVPKVYEVLPEVKLENIYGPTEATIYASRYSLAKGSQESPVPIGKPLPNYRMYIINRHGQLQPIGVPGELCIAGASLARGYLNNPALTEEKFTPHPLEKGERIYRTGDLARYREDGNIEYLGRMDHQVKIRGYRIELDEIRSKLIQEETIQDAVVVARNDQNGQAYLCAYLLSEQEWTVGQLRELLRRELPEYMIPAHFVLLKQFPLTANGKLDRKALPEPDG 6mg6-a2-m1-cD_6mg6-a2-m1-cC Crystal structure of carbon-nitrogen hydrolase from Helicobacter pylori G27 B5Z7B9 B5Z7B9 2.1 X-RAY DIFFRACTION 142 0.99 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 292 293 6mg6-a1-m1-cB_6mg6-a1-m1-cA HHHHMIYAGVLQHAYCGSRKKTIEHTANLLEQALKKHPKTNLVVLQELNPYSYFCQSENPKFFDLGEYFEEDKAFFSALAQKFQVVLIASLFEKRAKGLYHNSAVVFEKDGSIAGVYRKMHIPDGFYEKFYFTPGDLGFEPIITSVGKLGLMVCWDQWYPEAARIMALKGAEILIYPSAIGFLEEDSNEEKKRQQNAWETIQRGHAIANGLPLIATNRVGVELDPSGAIKGGITFFGSSFVVGALGEFLAKASDKEEILYAEIDLERTEEVRRMWPFLRDRRIDFYNDLLKR HMIYAGVLQHAYCGSRKKTIEHTANLLEQALKKHPKTNLVVLQELNPYSYFCQSENPKFFDLGEYFEEDKAFFSALAQKFQVVLIASLFEKRAKGLYHNSAVVFEKDGSIAGVYRKMHIPDDPGFYEKFYFTPGDLGFEPIITSVGKLGLMVCWDQWYPEAARIMALKGAEILIYPSAIGFLEEDSNEEKKRQQNAWETIQRGHAIANGLPLIATNRVGVELDPSGAIKGGITFFGSSFVVGALGEFLAKASDKEEILYAEIDLERTEEVRRMWPFLRDRRIDFYNDLLKRYI 6mga-a2-m1-cA_6mga-a2-m3-cA Crystal Structure of Human Protocadherin-1 EC1-4 with glycosylation Q08174 Q08174 3.15 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 429 429 6vfp-a1-m1-cA_6vfp-a1-m2-cA VVYKVPEEQPPNTLIGSLAADLYKLEVGAPYLRVDGKTGDIFTTETSIDREGLRECQNQLPGDPCILEFEVSITDLVQNGSPRLLEGQIEVQDINDNTPNFASPVITLAIPENTNIGSLFPIPLASDRDAGPNGVASYELQAGPEAQELFGLQVAEDQEEKQPQLIVMGNLDRERWDSYDLTIKVQDGGSPPRASSALLRVTVLDTNDNAPKFERPSYEAELSENSPIGHSVIQVKANDSDQGANAEIEYTFHQAPEVVRRLLRLDRNTGLITVQGPVDREDLSTLRFSVLAKDRGTNPKSARAQVVVTVKDMNDNAPTIEIRGIGLVTHQDGMANISEDVAEETAVALVQVSDRDEGENAAVTCVVAGDVPFQLRQASETGSDSKKKYFLQTTTPLDYEKVKDYTIEIVAVDSGNPPLSSTNSLKVQV VVYKVPEEQPPNTLIGSLAADLYKLEVGAPYLRVDGKTGDIFTTETSIDREGLRECQNQLPGDPCILEFEVSITDLVQNGSPRLLEGQIEVQDINDNTPNFASPVITLAIPENTNIGSLFPIPLASDRDAGPNGVASYELQAGPEAQELFGLQVAEDQEEKQPQLIVMGNLDRERWDSYDLTIKVQDGGSPPRASSALLRVTVLDTNDNAPKFERPSYEAELSENSPIGHSVIQVKANDSDQGANAEIEYTFHQAPEVVRRLLRLDRNTGLITVQGPVDREDLSTLRFSVLAKDRGTNPKSARAQVVVTVKDMNDNAPTIEIRGIGLVTHQDGMANISEDVAEETAVALVQVSDRDEGENAAVTCVVAGDVPFQLRQASETGSDSKKKYFLQTTTPLDYEKVKDYTIEIVAVDSGNPPLSSTNSLKVQV 6mgw-a1-m1-cA_6mgw-a1-m1-cB Structure of mechanically activated ion channel OSCA1.2 in LMNG Q5XEZ5 Q5XEZ5 3.5 ELECTRON MICROSCOPY 71 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 634 634 6mgv-a1-m1-cA_6mgv-a1-m1-cB TLQDIGVSAGINILSAFVFFIIFAVLRLQPFNDRVYFSKWYLKGLRSSKFLNWMPEALKMPEPELIDHAGLDSVVYLRIYWLGLKIFTPIAVLAWAVLVPSMRFWTHIVMAYAFTIWTCYVLMKEYETIANMRLQFVASEARRPDQFTVLVRNVPPDADESVSELVEHFFLVNHPDHYLTHQVVCNANKLADLVKKKKKLQNWLDYYQLKYARNNSQRIMVKLGFLGLWGQKVDAIEHYIAEIDKISKEISKEREEVVNDPKAIMPAAFVSFKTRWAAAVCAQTQQTRNPTQWLTEWAPEPRDVFWSNLAIPYVSLTVRRLIMHVAFFFLTFFFIVPIAFVQSLATFMKSVIQGFLPGIALKLFLAFLPSILMIMSKFEGFTSISSLERRAAFRYYIFNLVNVFLASVIAGAAFEQLPKTIGVAIPMKATFFITYIMVDGWAGVAGEILMLKPLIMFHLKNAFLVKTDKDREEAMDPGSIGFNTGEPRIQLYFLLGLVYAPVTPMLLPFILVFFALAYIVYRHQIINVYNQEYESAAAFWPDVHGRVIAALVISQLLLMGLLGTKHAALAAPFLIALPVLTIGFHHFCKGRYEPAFIRYPLQEAMMKDTLETAREPNLNLKGYLQNAYVHPVFK TLQDIGVSAGINILSAFVFFIIFAVLRLQPFNDRVYFSKWYLKGLRSSKFLNWMPEALKMPEPELIDHAGLDSVVYLRIYWLGLKIFTPIAVLAWAVLVPSMRFWTHIVMAYAFTIWTCYVLMKEYETIANMRLQFVASEARRPDQFTVLVRNVPPDADESVSELVEHFFLVNHPDHYLTHQVVCNANKLADLVKKKKKLQNWLDYYQLKYARNNSQRIMVKLGFLGLWGQKVDAIEHYIAEIDKISKEISKEREEVVNDPKAIMPAAFVSFKTRWAAAVCAQTQQTRNPTQWLTEWAPEPRDVFWSNLAIPYVSLTVRRLIMHVAFFFLTFFFIVPIAFVQSLATFMKSVIQGFLPGIALKLFLAFLPSILMIMSKFEGFTSISSLERRAAFRYYIFNLVNVFLASVIAGAAFEQLPKTIGVAIPMKATFFITYIMVDGWAGVAGEILMLKPLIMFHLKNAFLVKTDKDREEAMDPGSIGFNTGEPRIQLYFLLGLVYAPVTPMLLPFILVFFALAYIVYRHQIINVYNQEYESAAAFWPDVHGRVIAALVISQLLLMGLLGTKHAALAAPFLIALPVLTIGFHHFCKGRYEPAFIRYPLQEAMMKDTLETAREPNLNLKGYLQNAYVHPVFK 6mh4-a1-m2-cB_6mh4-a1-m1-cA Crystal Structure of 1-deoxy-D-xylulose-5-phosphate reductoisomerase from Staphylococcus schleiferi, Apoenzyme A0A0K1A7V6 A0A0K1A7V6 2.15 X-RAY DIFFRACTION 137 1.0 1295 (Staphylococcus schleiferi) 1295 (Staphylococcus schleiferi) 368 374 6mh5-a1-m1-cA_6mh5-a1-m2-cB MKNIAILGASGSIGQQAIDVIARHPESFNLISFTVGKNIEFAIEVIEKFKPEIVSVQDEADVERLKPYHSNIVSGRQGLIDVSTYEKNDLVLNALLGSVGLEPTMKAIEAGKNIALANKETLVVAGKLVMTHAKRYGVDILPVDSEHAAIFQCLNGEDMHKIKNVTITASGGSFRELTREQLEHVTVGDALNGNKITIDSATMMNKGFEVIEAKWLFDLKIDQIKTILHKESIIHSLVEFVDTSVMAQLGTPDMRMPIQYAFTYPERIEHRAPSLDLVQVAQLHFQEMDLDRYRCLKFAYDALRIGGSMPVVLNAVNEVAVAKFLNHEITFLEIEHMIEREMSAHEVIPDPSLEEILEIDHYYKTKSY MKNIAILGASGSIGQQAIDVIARHPESFNLISFTVGKNIEFAIEVIEKFKPEIVSVQDEADVERLKPYHSNIVSGRQGLIDVSTYEKNDLVLNALLGSVGLEPTMKAIEAGKNIALANKETLVVAGKLVMTHAKRYGVDILPVDSEHAAIFQCLNGEDMHKIKNVTITASGGSFRELTREQLEHVTVGDALNHPNWSMGNKITIDSATMMNKGFEVIEAKWLFDLKIDQIKTILHKESIIHSLVEFVDTSVMAQLGTPDMRMPIQYAFTYPERIEHRAPSLDLVQVAQLHFQEMDLDRYRCLKFAYDALRIGGSMPVVLNAVNEVAVAKFLNHEITFLEIEHMIEREMSAHEVIPDPSLEEILEIDHYYKTKSY 6mhk-a1-m1-cB_6mhk-a1-m1-cA Crystal structure of ketosynthase nine from bacillaene polyketide synthase in Bacillus amyloliquefaciens Q1RS71 Q1RS71 1.93 X-RAY DIFFRACTION 236 0.994 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 534 536 GDIAIIGMAGRYPKAKSVAEFWENLKAGTDCITEVPKSRWDWKTYKNTVSKWGGFIDDADCFDPQFFRISPREAETMDPQERLFLETCWETIEDAGYTPETLHPIGVFAGVMHKDYSLIGAEQLTDPFPVSLNYAQIANRVSYYCDFHGPSIAVDTVCSSSLTAVHLAIESIRRGECEAALAGGVNLSLHPAKYLSYGSVGMHSSDGRCRTFGEGGDGYVSGEGVGAVLLKPLEKAEQDGDRIYAVIKGSAINHVGKVSGITVPSPAAQAEVIKACLKKAGISPRTVSYVEAHGTGTSLGDPIEIEGLSKAFSQGTQDQQFCSIGSVKSNIGHAESAAGISGLTKAALQLHHKTLVKSLHSAELNPYLKFEESPFYVQQQTAPWKQPSYPRRAGLSSFGASGSNAHIILEEYIQKLIPLSARNKDRLLAYAEKLARSLSEKTVLSELAYTIQTGREAMEERAVFLVNDIRDLKQKLNDFVKGNENIPGLWRGQDDSIRLAELWAEGKTVDWNKLYKPRKTSVPTYPFAKERYWI GDIAIIGMAGRYPKAKSVAEFWENLKAGTDCITEVPKSRWDWKTYKNVGKTVSKWGGFIDDADCFDPQFFRISPREAETMDPQERLFLETCWETIEDAGYTPETLGHPIGVFAGVMHKDYSLIGAEQLDPFPVSLNYAQIANRVSYYCDFHGPSIAVDTVCSSSLTAVHLAIESIRRGECEAALAGGVNLSLHPAKYLSYGSVGMHSSDGRCRTFGEGGDGYVSGEGVGAVLLKPLEKAEQDGDRIYAVIKGSAINHVGKVSGITVPSPAAQAEVIKACLKKAGISPRTVSYVEAHGTGTSLGDPIEIEGLSKAFSQGTQDQQFCSIGSVKSNIGHAESAAGISGLTKAALQLHHKTLVKSLHSAELNPYLKFEESPFYVQQQTAPWKQPSHYPRRAGLSSFGASGSNAHIILEEYIKLIPLSARNKDRLLAYAEKLARSLSEKTVLSELAYTIQTGREAMEERAVFLVNDIRDLKQKLNDFVKGNENIPGLWRGQDSIRLAELWAEGKTVDWNKLYKPRKTSVPTYPFAKERYWI 6mhl-a1-m1-cA_6mhl-a1-m1-cB Crystal structure of ketosynthase twelve from bacillaene polyketide synthase in Bacillus amyloliquefaciens Q1RS70 Q1RS70 1.82 X-RAY DIFFRACTION 201 0.982 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 561 561 YFDDSVAIVGISCQFPGAKNHHEFWKQLREGKESVRFYSEEELREAGVPEDLIENPDYVPALSTIEGKDLFDPEFFHISPKDAEFMDPQLRLLLLHSWKAVEDAGYVSKEIPKTSVYMSASNNSYRSLLPEKTTPDGYVSWVLAQSGTIPTMVSHKLGLKGPSYFVHSNCSSSLVGLYSAYKSITSGESEYALVGGATLHAATSIGYVHQNGLNFSSDGHVKAFDASADGMAGGEGAAVILLKKASQAVQDGDHIYAMLRGIGLNNDGADKVGFYAPSVKGQTDVIQHVLDSTNIHPETISYIEAHGTGTTLGDPIEMSALQQVYKRYTDREQYCGIGSVKTNIGHLDTAAGLAGCIKVAMSLYHRELAPTINYTSPNPNIKFSGSPFYVADKRKTLPERETPHRAALSSFGLGGTNAHAIFEQYEGQPPYIVPLSARNKQRLTAYASCLSGFLDEAENDVSLHDLAYTYQTGREAMEERAVFISHDRHDLNRQLQDFINGNDQNILRGEKVRSRERDEKLKALAALWVEGARVDWGLYPDSAPQRISAPTYPFAEERFWP YFDDSVAIVGISCQFPGAKNHHEFWKQLREGKESVRFYPEDLIENPDYVPALSTIEGKDLFDPEFFHISPKDAEFMDPQLRLLLLHSWKAVEDAGYVSKEIPKTSVYMSASNNSYRSLLPEKTTPDGYVSWVLAQSGTIPTMVSHKLGLKGPSYFVHSNCSSSLVGLYSAYKSITSGESEYALVGGATLHAATSIGYVHQNGLNFSSDGHVKAFDASADGMAGGEGAAVILLKKASQAVQDGDHIYAMLRGIGLNNDGADKVGFYAPSVKGQTDVIQHVLDSTNIHPETISYIEAHGTGTTLGDPIEMSALQQVYKRYTDREQYCGIGSVKTNIGHLDTAAGLAGCIKVAMSLYHRELAPTINYTSPNPNIKFSGSPFYVADKRKTLPERETPHRAALSSFGLGGTNAHAIFEQYEDGQPPYIVPLSARNKQRLTAYASCLSGFLDEAENDVSLHDLAYTYQTGREAMEERAVFISHDRHDLNRQLQDFINGNDQNILRGEKVRSREVSAQEMETRDEKLKALAALWVEGARVDWGLLYPDSAPQRISAPTYPFAEERFWP 6mi3-a1-m1-cA_6mi3-a1-m1-cB Structure of NEMO(51-112) with N- and C-terminal coiled-coil adaptors. Q9Y6K9 Q9Y6K9 1.783 X-RAY DIFFRACTION 163 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 124 6mi4-a1-m1-cA_6mi4-a1-m1-cB SWSVKELEDKNEELLSEIAHLKNEVARLKKLLQRCLAANQELRDAIRQSNQILRERAEELLHFQASQREEKEFLMSKFQEARKLVERLGLEKLELEDKNEELLSEIAHLKNEVARLKKLVGE GSWSVKELEDKNEELLSEIAHLKNEVARLKKLLQRCLAANQELRDAIRQSNQILRERAEELLHFQASQREEKEFLMSKFQEARKLVERLGLEKLELEDKNEELLSEIAHLKNEVARLKKLVGER 6mj1-a1-m1-cA_6mj1-a1-m2-cA Crystal structure of RefZ (regulator of FtsZ) from Bacillus subtilis O34970 O34970 2.6 X-RAY DIFFRACTION 110 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 200 200 MKVSTKDKIIESAVMLFNQKGFSGTSVREIAKSADVNVAHISYYFKGKGGLMEHLVSEFYEGYSKTLETAASNISTQSTQEQLLQLVFDILSYQHNHRQLTRFVYREVTIDSTLIREIMSTYLMKEKYIFQLIIEEGEKQREYLTLPLPHFILQLKSLLMMPYLQPQYISEVLYMQPHEPYFYKMYFEEIKIWIRSVFRT MKVSTKDKIIESAVMLFNQKGFSGTSVREIAKSADVNVAHISYYFKGKGGLMEHLVSEFYEGYSKTLETAASNISTQSTQEQLLQLVFDILSYQHNHRQLTRFVYREVTIDSTLIREIMSTYLMKEKYIFQLIIEEGEKQREYLTLPLPHFILQLKSLLMMPYLQPQYISEVLYMQPHEPYFYKMYFEEIKIWIRSVFRT 6mje-a2-m1-cE_6mje-a2-m1-cC Structure of Candida glabrata Csm1: S. cerevisiae Dsn1 complex Q6FVN3 Q6FVN3 2.5 X-RAY DIFFRACTION 80 1.0 5478 (Nakaseomyces glabratus) 5478 (Nakaseomyces glabratus) 109 110 6mj8-a1-m1-cA_6mj8-a1-m1-cB 6mjb-a1-m1-cA_6mjb-a1-m1-cB 6mje-a1-m1-cG_6mje-a1-m1-cA LYFQSNAETIEIIKDLFEHLCGVRVHRTYEDDTGLWFDTSQGSKNGIMDYKLGFVTEVIYVPLLKQRTAEELQELQKKLPDYLFETLSFPLRSLNQFYIKMSKSLNKKV LYFQSNAETIEIIKDLFEHLCGVRVHRTYEDDTGLWFDTSQGSKNGIMDYKLGFVDTEVIYVPLLKQRTAEELQELQKKLPDYLFETLSFPLRSLNQFYIKMSKSLNKKV 6mjg-a1-m1-cA_6mjg-a1-m2-cA Structure of dbOphMA in Complex with SAH and Methylated Peptide A0A452CSY9 A0A452CSY9 2.123 X-RAY DIFFRACTION 450 1.0 1314807 (Dendrothele bispora CBS 962.96) 1314807 (Dendrothele bispora CBS 962.96) 382 382 6mjf-a1-m1-cB_6mjf-a1-m1-cA 6mjf-a2-m1-cD_6mjf-a2-m1-cC 6mjf-a3-m1-cE_6mjf-a3-m1-cF GSLIVVGTGIESIGQMTLQALSYIEAASKVFYCVIDPATEAFILTKNKNCVDLYQYYDNGKSRMDTYTQMAELMLKEVRNGLDVVGVFYGHPGVFVNPSHRALAIARSEGYQARMLPGVSAEDCLFADLCIDPSNPGCLTYEASDFLIRERPVNVHSHLILFQVGCVGIADFNFSGFDNSKFTILVDRLEQEYGPDHTVVHYIAAMMPHQDPVTDKFTIGQLREPEIAKRVGGVSTFYIPPKARKDINTDIIRLLEFLPAGKVPDKHTQIYPPNQWEPDVPTLPPYGQNEQAAITRLEAHAPPEEYQPLATSKAMTDVMTKLALDPKALAEYKADHRAFAQSVPDLTPQERAALELGDSWAIRCAMKNMPSSLLEAASVSSA GSLIVVGTGIESIGQMTLQALSYIEAASKVFYCVIDPATEAFILTKNKNCVDLYQYYDNGKSRMDTYTQMAELMLKEVRNGLDVVGVFYGHPGVFVNPSHRALAIARSEGYQARMLPGVSAEDCLFADLCIDPSNPGCLTYEASDFLIRERPVNVHSHLILFQVGCVGIADFNFSGFDNSKFTILVDRLEQEYGPDHTVVHYIAAMMPHQDPVTDKFTIGQLREPEIAKRVGGVSTFYIPPKARKDINTDIIRLLEFLPAGKVPDKHTQIYPPNQWEPDVPTLPPYGQNEQAAITRLEAHAPPEEYQPLATSKAMTDVMTKLALDPKALAEYKADHRAFAQSVPDLTPQERAALELGDSWAIRCAMKNMPSSLLEAASVSSA 6mjh-a1-m1-cB_6mjh-a1-m1-cC The S31N mutant of the influenza A M2 proton channel in two distinct conformational states A0A0R5TVW3 A0A0R5TVW3 2.06 X-RAY DIFFRACTION 29 1.0 1574560 (Influenza A virus (A/pigeon/Jiangsu/K23/2013(H9N2))) 1574560 (Influenza A virus (A/pigeon/Jiangsu/K23/2013(H9N2))) 25 25 2rlf-a1-m1-cA_2rlf-a1-m1-cB 2rlf-a1-m1-cA_2rlf-a1-m1-cD 2rlf-a1-m1-cB_2rlf-a1-m1-cC 2rlf-a1-m1-cC_2rlf-a1-m1-cD 6mjh-a1-m1-cA_6mjh-a1-m1-cB 6mjh-a1-m1-cA_6mjh-a1-m1-cD 6mjh-a1-m1-cC_6mjh-a1-m1-cD SSDPLVVAANIIGILHLILWILDRL SSDPLVVAANIIGILHLILWILDRL 6mjn-a2-m1-cC_6mjn-a2-m1-cD Crystal structure of an organic hydroperoxide resistance protein OsmC, predicted redox protein, regulator of sulfide bond formation from Legionella pneumophila Q5ZU37 Q5ZU37 1.75 X-RAY DIFFRACTION 268 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 137 139 6mjn-a1-m1-cA_6mjn-a1-m1-cB KALYTTIAKAHGGRNGHVETTDGLLKLDLAMPRELGGEGGATNPEQLFAAGYAACFESAIRHVANVQKISLEDVSMTSEVSLYATPEKGFKLGVALHAHITGLNQNEAEALVAKAHEVCPYSNAIRGNVDVKLSVSV HMKALYTTIAKAHGGRNGHVETTDGLLKLDLAMPRELGGEGGATNPEQLFAAGYAACFESAIRHVANVQKISLEDVSMTSEVSLYATPEKGFKLGVALHAHITGLNQNEAEALVAKAHEVCPYSNAIRGNVDVKLSVSV 6mjp-a1-m1-cA_6mjp-a1-m1-cB LptB(E163Q)FGC from Vibrio cholerae O30650 O30650 2.85 X-RAY DIFFRACTION 40 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 240 240 AILKAQHLAKSYKKRKVVSDVSLQVESGQIVGLLGPNGAGKTTSFYMIVGLVARDEGTITIDDNDISILPMHSRSRMGIGYLPQEASIFRKLSVEDNIMAVLQTREELTHEERQDKLEDLLEEFHIQHIRKSAGMALSGGERRRVEIARALAANPQFILLDQPFAGVDPISVIDIKKIIEHLRDRGLGVLITDHNVRETLDVCEKAYIVSQGRLIAEGTPQDVLNNEQVKQVYLGEQFRL AILKAQHLAKSYKKRKVVSDVSLQVESGQIVGLLGPNGAGKTTSFYMIVGLVARDEGTITIDDNDISILPMHSRSRMGIGYLPQEASIFRKLSVEDNIMAVLQTREELTHEERQDKLEDLLEEFHIQHIRKSAGMALSGGERRRVEIARALAANPQFILLDQPFAGVDPISVIDIKKIIEHLRDRGLGVLITDHNVRETLDVCEKAYIVSQGRLIAEGTPQDVLNNEQVKQVYLGEQFRL 6mk6-a6-m1-cB_6mk6-a6-m1-cD Carbapenemase VCC-1 from Vibrio cholerae N14-02106 A0A0U3IB62 A0A0U3IB62 1.7 X-RAY DIFFRACTION 48 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 260 260 6mk6-a5-m1-cC_6mk6-a5-m1-cA NMADIEAAFEGRVGVYAINTGSGKAYSYRANERFPLCSSFKAFLAAAVLKMDQDSPGVLLEKVNYHNRTMEPHSPITEKFQSQGMAVGELAAATLQYSDNGAANLLMEKYIKGPEGMTQFMNSIGDTKFRLDRWELDLNSAIPGDERDTSTPKAVAESLNKLISNTVLDNYHQEIFKKWMIGNTTGDNRIRAAVPDGWVVGDKTGTCGKYGTANDHAFILQGNNAAPLILSIYTTRKGEHMKHDDEVIAKAARIAIENVK NMADIEAAFEGRVGVYAINTGSGKAYSYRANERFPLCSSFKAFLAAAVLKMDQDSPGVLLEKVNYHNRTMEPHSPITEKFQSQGMAVGELAAATLQYSDNGAANLLMEKYIKGPEGMTQFMNSIGDTKFRLDRWELDLNSAIPGDERDTSTPKAVAESLNKLISNTVLDNYHQEIFKKWMIGNTTGDNRIRAAVPDGWVVGDKTGTCGKYGTANDHAFILQGNNAAPLILSIYTTRKGEHMKHDDEVIAKAARIAIENVK 6mkb-a2-m1-cD_6mkb-a2-m1-cC Crystal structure of murine 4-1BB ligand P41274 P41274 2.5 X-RAY DIFFRACTION 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 160 165 6mkb-a1-m1-cA_6mkb-a1-m1-cB 6mkz-a1-m1-cC_6mkz-a1-m1-cA SPVFAKLLAKNQASLCNTTLNWHSQDGAGSSYLSQGLRYEEDKKELVVDSPGLYYVFLELKLSPTFTNTGHKVQGWVSLVLQAKPQVDFDNLALTVELFPCSNKLVDRSWSQLLLLKAGHRLSVGLRAYLHGAQDAYRDWELSYPNTTSFGLFLVKPDNP SPVFAKLLAKNQASLCNTTLNWHSQDGAGSSYLSQGLRYEEDKKELVVDSPGLYYVFLELKLSPTFTNTGHKVQGWVSLVLQAKPQVDDFDNLALTVELFPCSMENKLVDRSWSQLLLLKAGHRLSVGLRAYLHGAQDAYRDWELSYPNTTSFGLFLVKPDNPWE 6mlu-a1-m1-cA_6mlu-a1-m1-cB Cryo-EM structure of lipid droplet formation protein Seipin/BSCL2 Q9V3X4 Q9V3X4 4.0 ELECTRON MICROSCOPY 55 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 153 153 RPVHMQFKTCLETSTPCTFPHAHVSLTKKQQLLMVGQAYKVIVNIDMPESPQNLELGMFMVCAEMRDYDSMLRGHSCRSAMMRYRSPLIRMISTWVLSPLYVLGWKEEFQQVPVEIFSRYLEERQHPITDVYVEIQSQKIQFYTVTLHIVADF RPVHMQFKTCLETSTPCTFPHAHVSLTKKQQLLMVGQAYKVIVNIDMPESPQNLELGMFMVCAEMRDYDSMLRGHSCRSAMMRYRSPLIRMISTWVLSPLYVLGWKEEFQQVPVEIFSRYLEERQHPITDVYVEIQSQKIQFYTVTLHIVADF 6mm2-a1-m2-cA_6mm2-a1-m3-cA Carbon regulatory PII-like protein SbtB from Cyanobium sp. 7001 bound to ATP and calcium B5II98 B5II98 1.04 X-RAY DIFFRACTION 48 1.0 180281 (Cyanobium sp. PCC 7001) 180281 (Cyanobium sp. PCC 7001) 99 99 6mm2-a1-m1-cA_6mm2-a1-m2-cA 6mm2-a1-m1-cA_6mm2-a1-m3-cA 6ntb-a1-m1-cA_6ntb-a1-m1-cB 6ntb-a1-m1-cA_6ntb-a1-m1-cC SSQQVWKLVIITEEILLKKVSKIIKEAGASGYTVLAAAGEGSRNVRSTGEPSVSHAYSNIKFEVLTASRELADQIQDKVVAKYFDDYSCITYISTVEAL SSQQVWKLVIITEEILLKKVSKIIKEAGASGYTVLAAAGEGSRNVRSTGEPSVSHAYSNIKFEVLTASRELADQIQDKVVAKYFDDYSCITYISTVEAL 6mmb-a1-m1-cD_6mmb-a1-m1-cB Diheteromeric NMDA receptor GluN1/GluN2A in the 'Super-Splayed' conformation, in complex with glycine and glutamate, in the presence of 1 micromolar zinc chloride, and at pH 6.1 Q00959 Q00959 12.7 ELECTRON MICROSCOPY 12 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 746 748 LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSPSAFLEPFSASVWVMMFVMLLIVSAIAVFVFEYFSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICQLDIDNMAGVFYMLAAAMALSLITFIW LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSPSAFLEPFSASVWVMMFVMLLIVSAIAVFVFEYFSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICSSQLDIDNMAGVFYMLAAAMALSLITFIW 6mmd-a1-m1-cA_6mmd-a1-m1-cB Photoactive Yellow Protein with 3,5-dichlorotyrosine substituted at position 42 P16113 P16113 1.228 X-RAY DIFFRACTION 41 1.0 1053 (Halorhodospira halophila) 1053 (Halorhodospira halophila) 124 124 MEHVAFGSEDIENTLAKMDDGQLDGLAFGAIQLDGDGNILQNAAEGDITGRDPKQVIGKNFFKDVAPCTDSPEFYGKFKEGVASGNLNTMFEYTFDYQMTPTKVKVHMKKALSGDSYWVFVKRV MEHVAFGSEDIENTLAKMDDGQLDGLAFGAIQLDGDGNILQNAAEGDITGRDPKQVIGKNFFKDVAPCTDSPEFYGKFKEGVASGNLNTMFEYTFDYQMTPTKVKVHMKKALSGDSYWVFVKRV 6mmi-a1-m1-cB_6mmi-a1-m1-cD Diheteromeric NMDA receptor GluN1/GluN2A in the 'Splayed-Open' conformation, in complex with glycine and glutamate, in the presence of 1 millimolar zinc chloride, and at pH 7.4 Q00959 Q00959 8.93 ELECTRON MICROSCOPY 14 0.995 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 760 760 LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSRSNPSAFLEPFSASVWVMMFVMLLIVSAIAVFVFEYFSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEFVDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICHNEKQLDIDNMAGVFYMLAAAMALSLITFIW LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRYKDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSRSNPSAFLEPFSASVWVMMFVMLLIVSAIAVFVFEYFSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEFVDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICSSQLDIDNMAGVFYMLAAAMALSLITFIW 6mmp-a1-m1-cB_6mmp-a1-m1-cD Diheteromeric NMDA receptor GluN1/GluN2A in the '2-Knuckle-Symmetric' conformation, in complex with glycine and glutamate, in the presence of 0.1 millimolar EDTA, and at pH 8.0 Q00959 Q00959 6.88 ELECTRON MICROSCOPY 27 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 754 756 6ira-a1-m1-cB_6ira-a1-m1-cD 6mm9-a1-m1-cB_6mm9-a1-m1-cD 6mmg-a1-m1-cB_6mmg-a1-m1-cD 6mmk-a1-m1-cB_6mmk-a1-m1-cD 6mml-a1-m1-cD_6mml-a1-m1-cB 6mmn-a1-m1-cB_6mmn-a1-m1-cD 6mmr-a1-m1-cB_6mmr-a1-m1-cD 6mms-a1-m1-cD_6mms-a1-m1-cB 6mmt-a1-m1-cD_6mmt-a1-m1-cB 6mmu-a1-m1-cB_6mmu-a1-m1-cD 6mmw-a1-m1-cB_6mmw-a1-m1-cD 7eoq-a1-m1-cA_7eoq-a1-m1-cC 7eor-a1-m1-cA_7eor-a1-m1-cC 7eos-a1-m1-cA_7eos-a1-m1-cC 7eot-a1-m1-cA_7eot-a1-m1-cC 7eou-a1-m1-cA_7eou-a1-m1-cC 7eu7-a1-m1-cB_7eu7-a1-m1-cD LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRYKSFSDCEPDDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSASVWVMMFVMLLIVSAIAVFVFEYFSFTIGKAIWLLWGLVFNNSVPNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEFVDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICSSQLDIDNMAGVFYMLAAAMALSLITFIW LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRYKSFSDCEPDDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSASVWVMMFVMLLIVSAIAVFVFEYFSFTIGKAIWLLWGLVFNNSVPVQNPKGTTSKIMVSVWAFFAVIFLASYTANLAAFMIQEEFVDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGICSSQLDIDNMAGVFYMLAAAMALSLITFIW 6mmv-a1-m1-cB_6mmv-a1-m1-cD Triheteromeric NMDA receptor GluN1/GluN2A/GluN2A* Extracellular Domain in the '2-Knuckle-Asymmetric' conformation, in complex with glycine and glutamate, in the presence of 1 micromolar zinc chloride, and at pH 7.4 Q00959 Q00959 4.71 ELECTRON MICROSCOPY 20 0.997 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 642 642 LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGIHGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRYKSFSDCEPDDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSFVDQVTGLSDKKFQRPHDYSPPFRFGTVPNGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGIC LNIAVLLGHSHDVTERELRNLWGPEQATGLPLDVNVVALLMNRTDPKSLITHVCDLMSGARIHGLVFGDDTDQEAVAQMLDFISSQTFIPILGISGGASMIMADKDPTSTFFQFGASIQQQATVMLKIMQDYDWHVFSLVTTIFPGYRDFISFIKTTVDNSFVGWDMQNVITLDTSFEDAKTQVQLKKIHSSVILLYCSKDEAVLILSEARSLGLTGYDFFWIVPSLVSGNTELIPKEFPSGLISVSYDDWDYSLEARVRDGLGILTTAASSMLEKFSYIPEAKASCYGQPLHTLHQFMVNVTWDGKDLSFTEEGYQVHPRLVVIVLNKDREWEKVGKWENQTLSLRHAVWPRYKSFSDCEPDDNHLSIVTLEEAPFVIVEDIDPLTETCVRNTVPCRKFVKINNSTNEGMNVKKCCKGFCIDILKKLSRTVKFTYDLYLVTNGKHGKKVNNVWNGMIGEVVYQRAVMAVGSLTINEERSEVVDFSVPFVETGISVMVSFVDQVTGLSDKKFQRPHDYSPPFRFGTVPQGSTERNIRNNYPYMHQYMTRFNQRGVEDALVSLKTGKLDAFIYDAAVLNYKAGRDEGCKLVTIGSGYIFATTGYGIALQKGSPWKRQIDLALLQFVGDGEMEELETLWLTGIC 6mn8-a1-m1-cA_6mn8-a1-m2-cA Crystal Structure of Prolyl-tRNA Synthetase from Onchocerca volvulus with bound Halofuginone and nucleotide A0A2K6VKP7 A0A2K6VKP7 2.35 X-RAY DIFFRACTION 155 1.0 6282 (Onchocerca volvulus) 6282 (Onchocerca volvulus) 399 399 AHHHHHHIEISKDENYSEWYVQVITKAEMIEYYDISGCYVLRPWSYAIWEFIQEWFDEEIKKLGVKNCYFPLFVSQSALEKEFAPEVAWITRAGQSDLAEAIAIRPTSETVMYPSYAKWVQSHRDLPIKLNQWCNVVRWEFKHPTPFLRTREFLWQEGHTAFQSKDEAEDEVFKILDLYAQIYIDLLAIPVIKGRKGGDFTATVEAYVPVNGRGIQGATSHHLGQNFSKMFNISFEDPNGGGKIYAWQNSWGISTRTIGALVMIHGDNCGLVLPPRVATIQMIIVPVGITKDEQKTALIEKAKEINNKLMDASIRAELDIRDHISPGWKFNHWELKGVPVRIEIGPKDLANNQVTCVIRYSGEKRTIPIDGLASKCKDMLEEIHYSMYNRILEVRESHT AHHHHHHIEISKDENYSEWYVQVITKAEMIEYYDISGCYVLRPWSYAIWEFIQEWFDEEIKKLGVKNCYFPLFVSQSALEKEFAPEVAWITRAGQSDLAEAIAIRPTSETVMYPSYAKWVQSHRDLPIKLNQWCNVVRWEFKHPTPFLRTREFLWQEGHTAFQSKDEAEDEVFKILDLYAQIYIDLLAIPVIKGRKGGDFTATVEAYVPVNGRGIQGATSHHLGQNFSKMFNISFEDPNGGGKIYAWQNSWGISTRTIGALVMIHGDNCGLVLPPRVATIQMIIVPVGITKDEQKTALIEKAKEINNKLMDASIRAELDIRDHISPGWKFNHWELKGVPVRIEIGPKDLANNQVTCVIRYSGEKRTIPIDGLASKCKDMLEEIHYSMYNRILEVRESHT 6mni-a1-m1-cB_6mni-a1-m1-cA Structure of the tandem CACHE domain of PscC A0A2V0QX35 A0A2V0QX35 1.696 X-RAY DIFFRACTION 69 1.0 103796 (Pseudomonas syringae pv. actinidiae) 103796 (Pseudomonas syringae pv. actinidiae) 251 258 TSDFVDSSGREIRQVDNAMQLFFDGITQNVNYIAAHPLIAGAGDDFRNYMGAVATAQSENDKQATELFASIAKAHPAYSYVSYGLINGSYIMTPEDPKMSNYDPRVRPWYKTAMANAGKTVRSDAYYWANDDAVLVSTIRAIPNKLGNPGGVVNIDVSLKQLTNIVKQIKLGESGYLMLMEKNGTVLVDPKQPEHNFKKLGELGDGFAELAKTGSGLVELTLNGERYMANVYPSEQLGWNFIGLIKQDEVM NLRDKATSDFVDSSGREIRQVDNAMQLFFDGITQNVNYIAAHPLIAGAGDDFRNYMGAVATAQSENDKQATELFASIAKAHPAYSYVSYGLINGSYIMTPEDPKMSNYDPRVRPWYKTAMANAGKTVRSDAYYWANDDAVLVSTIRAIPNKLGNPGGVVNIDVSLKQLTNIVKQIKLGESGYLMLMEKNGTVLVDPKQPEHNFKKLGELGDGFAELAKTGSGLVELTLNGERYMANVYPSEQLGWNFIGLIKQDEVMA 6mnj-a3-m1-cA_6mnj-a3-m1-cB Hadza microbial sialidase Hz136 R6X4Z0 R6X4Z0 2.2 X-RAY DIFFRACTION 122 1.0 239759 (Alistipes) 239759 (Alistipes) 511 511 LRIHNPQIPILLDRMDNVLFLIRVPDAVQGNVLESLTVEFGPDTDLNSIAELRLFYSGTEAVRRQGLRFSPVEYISAHNVWNTRSANPSYSVMQEQASKIGRKVVLHSRQPMVGGINYYWVSVRMNPDASLLTELRARVSEVVVNGKKIPVAEVVRRMGYGVRHAGDDHSMAYRIPGLVTTNSGSLIGTYDVRWNSSVDLQERIDIGVSRSTDKGQTWEPMRIAMSFADIDGLPSGQNGVGDPAVLVDEKTGTIWVMAAWTHGMGNGRAWTNSMPGMEPMETPQLMLARSDDDGRTWSEPINITKQVKDPSWCFLLQGPGRGITMRDGTLVFAIQFIDKDRMPHAGIIFSKDHGETWHIHNPARSNTTEAQVAEVEPGVLMLNMRDNRGGARAVMTTRDLGRTWTEHVSHRTTLREPVCMASLIAVPAEKNVLGKDLLLFSNPDTTDGRRDITIKASLDGGVTWPYSLLLDEGDSWGYSCLTMIDSQTVGILYESSVAHITFQAAKLKAIV LRIHNPQIPILLDRMDNVLFLIRVPDAVQGNVLESLTVEFGPDTDLNSIAELRLFYSGTEAVRRQGLRFSPVEYISAHNVWNTRSANPSYSVMQEQASKIGRKVVLHSRQPMVGGINYYWVSVRMNPDASLLTELRARVSEVVVNGKKIPVAEVVRRMGYGVRHAGDDHSMAYRIPGLVTTNSGSLIGTYDVRWNSSVDLQERIDIGVSRSTDKGQTWEPMRIAMSFADIDGLPSGQNGVGDPAVLVDEKTGTIWVMAAWTHGMGNGRAWTNSMPGMEPMETPQLMLARSDDDGRTWSEPINITKQVKDPSWCFLLQGPGRGITMRDGTLVFAIQFIDKDRMPHAGIIFSKDHGETWHIHNPARSNTTEAQVAEVEPGVLMLNMRDNRGGARAVMTTRDLGRTWTEHVSHRTTLREPVCMASLIAVPAEKNVLGKDLLLFSNPDTTDGRRDITIKASLDGGVTWPYSLLLDEGDSWGYSCLTMIDSQTVGILYESSVAHITFQAAKLKAIV 6mnu-a1-m1-cD_6mnu-a1-m1-cA Crystal structure of Yersinia pestis UDP-glucose pyrophosphorylase A0A3N4B738 A0A3N4B738 2.172 X-RAY DIFFRACTION 57 0.993 632 (Yersinia pestis) 632 (Yersinia pestis) 287 289 6mnu-a1-m1-cB_6mnu-a1-m1-cC CLKAVIPVAGLGTRMLPATKAIPKEMLPVVDKPLIQYIVDECVAAGVKEIVLVSHSSKNAIENHFDTSFELEAALESRVKRQLLKEIKNICPADVTIMQVRQGHAKGLGHAVLCAKSMVGDNPFIVMLPDVLLDDSTADLSKENLASMIKRFEETGHSQIMVEPVPKADVSKYGIADCGHVALAPGESTLMTAVVEKPSIAEAPSNLAVVGRYVLSKNIWPLLEKTPIQLTDAIAMLMQQEPVEAFHMTGKSHDCGDKLGYMKAFVTYGVRHHTEGEKFTAWLKQQL CLKAVIPVAGLGTRMLPATKAIPKEMLPVVDKPLIQYIVDECVAAGVKEIVLVSHSSKNAIENHFDTSFELEAALESRVKRQLLKEIKNICPADVTIMQVRQGHAKGLGHAVLCAKSMVGDNPFIVMLPDVLLDDSTADLSKENLASMIKRFEETGHSQIMVEPVPKADVSKYGIADCGHVALAPGESTLMTAVVEKPSIAEAPSNLAVVGRYVLSKNIWPLLEKTPRGDEIQLTDAIAMLMQQEPVEAFHMTGKSHDCGDKLGYMKAFVTYGVRHHTEGEKFTAWLKQ 6mnu-a1-m1-cD_6mnu-a1-m1-cC Crystal structure of Yersinia pestis UDP-glucose pyrophosphorylase A0A3N4B738 A0A3N4B738 2.172 X-RAY DIFFRACTION 144 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 287 292 6mnu-a1-m1-cB_6mnu-a1-m1-cA CLKAVIPVAGLGTRMLPATKAIPKEMLPVVDKPLIQYIVDECVAAGVKEIVLVSHSSKNAIENHFDTSFELEAALESRVKRQLLKEIKNICPADVTIMQVRQGHAKGLGHAVLCAKSMVGDNPFIVMLPDVLLDDSTADLSKENLASMIKRFEETGHSQIMVEPVPKADVSKYGIADCGHVALAPGESTLMTAVVEKPSIAEAPSNLAVVGRYVLSKNIWPLLEKTPIQLTDAIAMLMQQEPVEAFHMTGKSHDCGDKLGYMKAFVTYGVRHHTEGEKFTAWLKQQL CLKAVIPVAGLGTRMLPATKAIPKEMLPVVDKPLIQYIVDECVAAGVKEIVLVSHSSKNAIENHFDTSFELEAALESRVKRQLLKEIKNICPADVTIMQVRQGHAKGLGHAVLCAKSMVGDNPFIVMLPDVLLDDSTADLSKENLASMIKRFEETGHSQIMVEPVPKADVSKYGIADCGHVALAPGESTLMTAVVEKPSIAEAPSNLAVVGRYVLSKNIWPLLEKTPRGDEIQLTDAIAMLMQQEPVEAFHMTGKSHDCGDKLGYMKAFVTYGVRHHTEGEKFTAWLKQQLD 6mnz-a1-m1-cA_6mnz-a1-m1-cB Crystal structure of RibBX, a two domain 3,4-dihydroxy-2-butanone 4-phosphate synthase from A. baumannii. V5V8R9 V5V8R9 2.66 X-RAY DIFFRACTION 68 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 336 336 SRVEELVADIRAGKMVILMDDEDRENEGDLVIAATHVRPEDINFMITHARGLVCLTLSRERCKQLNLPLMVDQNGAGTNFTLSIEAAEGITTGISAAERAHTIQAAVAAHAKPTDIVQPGHIFPLMAQPGGVLHRAGHTEAGCDLARLAGLEPASVICEIIKEDGTMARRADLEIFAEKHGLKIGTIADLIHYRMTNEQTVERLDQRTIQTEYGSFELYRYREIGNPDIHLALVKGEPKEGVTTVRVHGFSPVRDLLKLNKADGEPAWVLVWIGQDHLQDLGPALAALSHQYQTIGVGAQILRDLGVEKMKLLSSPLRFNALSGFNLEVVEYVTAD SRVEELVADIRAGKMVILMDDEDRENEGDLVIAATHVRPEDINFMITHARGLVCLTLSRERCKQLNLPLMVDQNGAGTNFTLSIEAAEGITTGISAAERAHTIQAAVAAHAKPTDIVQPGHIFPLMAQPGGVLHRAGHTEAGCDLARLAGLEPASVICEIIKEDGTMARRADLEIFAEKHGLKIGTIADLIHYRMTNEQTVERLDQRTIQTEYGSFELYRYREIGNPDIHLALVKGEPKEGVTTVRVHGFSPVRDLLKLNKADGEPAWVLVWIGQDHLQDLGPALAALSHQYQTIGVGAQILRDLGVEKMKLLSSPLRFNALSGFNLEVVEYVTAD 6mog-a1-m1-cA_6mog-a1-m2-cB Dimeric DARPin C_R3 1.21 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 157 158 HSDLGKKLLKAARAGQKDEVRILMANGADVNATDIWDATPLHLAALIGHAEIVAVLLENGADVNASDITGTTPLHLAATMGHDEIVLILLLKGADVNAYDLNGATPLHLAARMGHKRIVLVLILAGADVNAQDKFGKTAFDISIDNGNEDLAKILQK HSDLGKKLLKAARAGQKDEVRILMANGADVNATDIWDATPLHLAALIGHAEIVAVLLENGADVNASDITGTTPLHLAATMGHDEIVLILLLKGADVNAYDLNGATPLHLAARMGHKRIVLVLILAGADVNAQDKFGKTAFDISIDNGNEDLAKILQKQ 6moh-a1-m1-cA_6moh-a1-m1-cB Dimeric DARPin C_R3 complex with EpoR 3.2 X-RAY DIFFRACTION 37 1.0 32630 (synthetic construct) 32630 (synthetic construct) 155 155 SDLGKKLLKAARAGQKDEVRILMANGADVNATDIWDATPLHLAALIGHAEIVAVLLENGADVNASDITGTTPLHLAATMGHDEIVLILLLKGADVNAYDLNGATPLHLAARMGHKRIVLVLILAGADVNAQDKFGKTAFDISIDNGNEDLAKILQ SDLGKKLLKAARAGQKDEVRILMANGADVNATDIWDATPLHLAALIGHAEIVAVLLENGADVNASDITGTTPLHLAATMGHDEIVLILLLKGADVNAYDLNGATPLHLAARMGHKRIVLVLILAGADVNAQDKFGKTAFDISIDNGNEDLAKILQ 6moh-a1-m1-cC_6moh-a1-m1-cD Dimeric DARPin C_R3 complex with EpoR P19235 P19235 3.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 203 211 ADPKFESKAALLAARGPEELLCFTERLEDLVCFWEEAASAGVGPGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADEHVVLRWLPPPETPMTSHIRYEVDVSAVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVS ADPKFESKAALLAARGPEELLCFTERLEDLVCFWEEAASAGVGPGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSASVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPS 6moi-a1-m1-cA_6moi-a1-m2-cA Dimeric DARPin C_angle_R5 complex with EpoR 2.065 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 222 222 HSDLGKKLLKAARAGQDDEVRILMANGADVNATDIWDATPLHLAALIGHLEIVEVLLKNGADVNASDITGTTPLHLAATMGHKEIVEVLLKYGADVNAYDLNGATPLHLAARMGHAEIVAVLLEYGADVNAQDAAGMTPLHLAAANGHDEIVLILLLKGADVNAKDAAGMTPLHLAAANGHKRIVLVLILAGADVNAQDKFGKTAFDISIDNGNEDLAKILQ HSDLGKKLLKAARAGQDDEVRILMANGADVNATDIWDATPLHLAALIGHLEIVEVLLKNGADVNASDITGTTPLHLAATMGHKEIVEVLLKYGADVNAYDLNGATPLHLAARMGHAEIVAVLLEYGADVNAQDAAGMTPLHLAAANGHDEIVLILLLKGADVNAKDAAGMTPLHLAAANGHKRIVLVLILAGADVNAQDKFGKTAFDISIDNGNEDLAKILQ 6moi-a1-m1-cB_6moi-a1-m2-cB Dimeric DARPin C_angle_R5 complex with EpoR P19235 P19235 2.065 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 PKFESKAALLAARGPEELLCFTERLEDLVCFWEEAASGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGQGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARAEPSFGGFWSAWSEPVSLLTPSD PKFESKAALLAARGPEELLCFTERLEDLVCFWEEAASGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGQGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARAEPSFGGFWSAWSEPVSLLTPSD 6moj-a1-m1-cA_6moj-a1-m2-cA Dimeric DARPin A_angle_R5 complex with EpoR 2.431 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 223 223 SDLGKKLLKAARAGQDDEVRILMANGADVNATDIWDATPLHLAALIGHLEIVEVLLKNGADVNASDITGTTPLHLAATMGHKDIVKVLLEYGADVNAYDLNGATPLHLAARMGHAKIVLLLLEQGADVNAQDAAGMTPLHLAAANGHAVIVALLLMHGADVNAKDAAGMTPLHLAAANGHEEIVILLLAMGADVNAQDKFGKTAFDISIDNGNEELAKVLQDH SDLGKKLLKAARAGQDDEVRILMANGADVNATDIWDATPLHLAALIGHLEIVEVLLKNGADVNASDITGTTPLHLAATMGHKDIVKVLLEYGADVNAYDLNGATPLHLAARMGHAKIVLLLLEQGADVNAQDAAGMTPLHLAAANGHAVIVALLLMHGADVNAKDAAGMTPLHLAAANGHEEIVILLLAMGADVNAQDKFGKTAFDISIDNGNEELAKVLQDH 6moj-a1-m1-cB_6moj-a1-m2-cB Dimeric DARPin A_angle_R5 complex with EpoR P19235 P19235 2.431 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 SADPKFESKAALLAARGPEELLCFTERLEDLVCFWEEAASAGVGPGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGQGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPSDL SADPKFESKAALLAARGPEELLCFTERLEDLVCFWEEAASAGVGPGQYSFSYQLEDEPWKLCRLHQAPTARGAVRFWCSLPTADTSSFVPLELRVTAASGAPRYHRVIHINEVVLLDAPVGLVARLADESGHVVLRWLPPPETPMTSHIRYEVDVSAGQGAGSVQRVEILEGRTECVLSNLRGRTRYTFAVRARMAEPSFGGFWSAWSEPVSLLTPSDL 6mok-a1-m1-cA_6mok-a1-m2-cA Dimeric DARPin A_distance_R7 complex with EpoR 5.101 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 289 289 GSDLGKKLLEAARAGQKDEVKILMENGADVNAVDAAGGTPLHEAARAGHAKIVLLLLEQGADVNAVDAAGGTPLHEAARAGHAVIVALLLMHGADVNAVDAAGGTPLHEAARAGHEEIVILLLAMGADVNAVGTPLHKAARAGHLEIVKVLLDHGADVNATDIWDATPLHLAALIGHLEIVEVLLKNGADVNASDITGTTPLHLAATMGHLEIVEVLLKYGADVNAYDLNGATPLHLAARMGHVEIVEVLLKYGADVNAQDKFGKTAFDISIDNGNEDLAEILQAAALE GSDLGKKLLEAARAGQKDEVKILMENGADVNAVDAAGGTPLHEAARAGHAKIVLLLLEQGADVNAVDAAGGTPLHEAARAGHAVIVALLLMHGADVNAVDAAGGTPLHEAARAGHEEIVILLLAMGADVNAVGTPLHKAARAGHLEIVKVLLDHGADVNATDIWDATPLHLAALIGHLEIVEVLLKNGADVNASDITGTTPLHLAATMGHLEIVEVLLKYGADVNAYDLNGATPLHLAARMGHVEIVEVLLKYGADVNAQDKFGKTAFDISIDNGNEDLAEILQAAALE 6mot-a2-m1-cA_6mot-a2-m2-cA Bacteroides intestinalis feruloyl esterase, Bacint_01033 B3C969 B3C969 1.71 X-RAY DIFFRACTION 132 1.0 471870 (Bacteroides intestinalis DSM 17393) 471870 (Bacteroides intestinalis DSM 17393) 337 337 6mou-a1-m1-cB_6mou-a1-m1-cA DFPAGTTPNEHNINGADYPRIGEDRRVHFRIHAPNAQKVEISFRGETKEADGYWSLVSKEPEVIGFHYYQVIIDGVSAADPNGKPFFGGKWVSGIEIPEKGVDYYSIKNVPHGLISQSWYYSDIRKEWRRCIVYTPAEYDKNPTKKYPVLYLQHGGENETSWANQGKNFIDNLIAEGKAKPIVVDNGNIEVFGAEFPAILVNEIIPHIESNFRTLTDRDNRAAGLSWGGLLTFNTTLNNLDKFAYIGGFSGAGSIDLKQLDTVYGGVFKNRKAFNDKVHVFFLGIGSEEHPERTKNLSDGLQAAGINTIYYESPGTAHEFLTWRRCLKEFAPLLFKT DFPAGTTPNEHNINGADYPRIGEDRRVHFRIHAPNAQKVEISFRGETKEADGYWSLVSKEPEVIGFHYYQVIIDGVSAADPNGKPFFGGKWVSGIEIPEKGVDYYSIKNVPHGLISQSWYYSDIRKEWRRCIVYTPAEYDKNPTKKYPVLYLQHGGENETSWANQGKNFIDNLIAEGKAKPIVVDNGNIEVFGAEFPAILVNEIIPHIESNFRTLTDRDNRAAGLSWGGLLTFNTTLNNLDKFAYIGGFSGAGSIDLKQLDTVYGGVFKNRKAFNDKVHVFFLGIGSEEHPERTKNLSDGLQAAGINTIYYESPGTAHEFLTWRRCLKEFAPLLFKT 6mpc-a1-m1-cA_6mpc-a1-m1-cB Crystal structure of E257A mutant of BlMan5B B3DQP5 B3DQP5 1.8 X-RAY DIFFRACTION 94 0.998 205913 (Bifidobacterium longum DJO10A) 205913 (Bifidobacterium longum DJO10A) 418 418 6moy-a1-m1-cA_6moy-a1-m1-cB 6mp2-a1-m1-cA_6mp2-a1-m1-cB 6mp7-a1-m1-cB_6mp7-a1-m1-cA 6mpa-a1-m1-cA_6mpa-a1-m1-cB SHMKFGVNYTPSGEWFYTWLNPKWEVIRRDLAQIAELGADHVRIFPLWTLLQPNRTWINPKALADVRRMVELGGEAGLDVYVDVIQGHLSSFDFVPSWLVSWHEGSMFTDQSAIEAQSALTEAIYGTLSDMKAFAGLTLGNECNQFTDATHPRRMPANAEQIGEWLDTLIGLVAKRCRRDGRLIAHSENDAIWYADGHAFLPRYASCKGDVTTVHSWVFNGTGQHYGPMSCESLGHAAWLVELSKAFAADPHRPVWVQAIGAPGNVIDSADAPEFCRRSIDAIADCPDVFGVTWWCSHRIPSAFSDFPFFEHQLGLFDVDGTLTDVGKAFRDAIATHRDTVAPPRTTAIVIPVDEQGDPLMRAAQAPGGSLFEAWANLNRQGERPCVITSLDAGNPAKLANRGIVRLERVELVAGHAY HMKFGVNYTPSGEWFYTWLNPKWEVIRRDLAQIAELGADHVRIFPLWTLLQPNRTWINPKALADVRRMVELGGEAGLDVYVDVIQGHLSSFDFVPSWLVSWHEGSMFTDQSAIEAQSALTEAIYGTLSDMKAFAGLTLGNECNQFTDATHPRRMPANAEQIGEWLDTLIGLVAKRCRRDGRLIAHSENDAIWYADGHAFLPRYASCKGDVTTVHSWVFNGTGQHYGPMSCESLGHAAWLVELSKAFAADPHRPVWVQAIGAPGNVIDSADAPEFCRRSIDAIADCPDVFGVTWWCSHRIPSAFSDFPFFEHQLGLFDVDGTLTDVGKAFRDAIATHRDTVAPPRTTAIVIPVDEQGDPLMRAAQAPGGSLFEAWANLNRQGERPCVITSLDAGNPAKLANRGIVRLERVELVAGHAYN 6mpn-a1-m1-cA_6mpn-a1-m1-cB Racemic M2-TM I42E crystallized from racemic detergent O70632 O70632 1.4 X-RAY DIFFRACTION 19 1.0 130763 (Influenza A virus (A/Hong Kong/156/97(H5N1))) 130763 (Influenza A virus (A/Hong Kong/156/97(H5N1))) 22 22 PLVVAASIIAILHLILWELDRL PLVVAASIIAILHLILWELDRL 6mpr-a1-m1-cB_6mpr-a1-m1-cA Crystal structure of a malonate decarboxylase, alpha subunit from Acinetobacter baumannii A0A1E3M5S3 A0A1E3M5S3 1.7 X-RAY DIFFRACTION 264 1.0 400667 (Acinetobacter baumannii ATCC 17978) 400667 (Acinetobacter baumannii ATCC 17978) 540 548 LWTKRRHAKQLKLEMANQYTDGVVIPTQDIIKVLETLITPGDKVVLEGNNQKQADFLSRSLAQTNPDILHDLHMIMPSVGRSEHLDLFEKGIARKLDFSFAGPQSLRISQLIEDGLLEIGAIHTYIELYSRLVVDLIPNVVLSAGFMADRQGNIYTGPSTEDSPALIEPAAFSDGIVIVQVNELVDDVSELPRVDIPASWVDYVVVADQPFYIEPRDPKHIKPVHVLMAMMAIRGIYEKHNVQSLNHGIGFNTAAIELILPTYGESLGLKGKICRNWTLNPHPTLIPAIETGWVESVHCFGTELGMEKYVAARPDVFFTGRDGALRSNRMMCQLAGQYAVDLFIGATLQVDGMGHSSTVTKGRLAGFGGAPNMGHDPRGRRHDTPAWLDMRLQGANETETYLARGKKLVVQMVETFQEGGKPTFVDRLDAIDVAKTAGLPLAPIMIYGDDVTHLLTEEGIAYLYKASSQEERQAMIAAVAGVTSIGLTQDPKTTARLRREGLVVFPEDLGIRRTDATRELLAAKNIADLVTWSDGLYQPP RLWTKRRHAKQLKLEMANQYTDGVVIPTQDIIKVLETLITPGDKVVLEGNNQKQADFLSRSLAQTNPDILHDLHMIMPSVGRSEHLDLFEKGIARKLDFSFAGPQSLRISQLIEDGLLEIGAIHTYIELYSRLVVDLIPNVVLSAGFMADRQGNIYTGPSTEDSPALIEPAAFSDGIVIVQVNELVDDVSELPRVDIPASWVDYVVVADQPFYIEPLFTRDPKHIKPVHVLMAMMAIRGIYEKHNVQSLNHGIGFNTAAIELILPTYGESLGLKGKICRNWTLNPHPTLIPAIETGWVESVHCFGTELGMEKYVAARPDVFFTGRDGALRSNRMMCQLAGQYAVDLFIGATLQVDGMGHSSTVTKGRLAGFGGAPNMGHDPRGRRHDTPAWLDMRLQGANETETYLARGKKLVVQMVETFQEGGKPTFVDRLDAIDVAKTAGLPLAPIMIYGDDVTHLLTEEGIAYLYKASSQEERQAMIAAVAGVTSIGLTQDPKTTARLRREGLVVFPEDLGIRRTDATRELLAAKNIADLVTWSDGLYQPPAKFR 6mq9-a6-m2-cC_6mq9-a6-m1-cB Crystal Structure of GTPase Domain of Human Septin 12 in complex with GMPPNP Q8IYM1 Q8IYM1 1.86 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 264 267 6mq9-a5-m1-cD_6mq9-a5-m1-cA 6mqb-a2-m1-cA_6mqb-a2-m2-cA 6mqk-a5-m1-cA_6mqk-a5-m1-cD 6mqk-a6-m2-cC_6mqk-a6-m1-cB 6mql-a2-m1-cA_6mql-a2-m2-cA FEFNIMVVGQSGLGKSTMVNTLFKSKVWKSNPTPQTLQLHSLTHVIEEKGVKLKLTVTDTPGFGDQINNDNCWDPILGYINEQYEQYLQEEILITRQRHIPDTRVHCCVYFVPPTGHCLRPLDIEFLQRLCRTVNVVPVIARADSLTMEEREAFRRRIQQNLRTHCIDVYPQMCFDEDINDKILNSKLRDRIPFAVVGADQEHLVNGRCVLGRKTKWGIIEVENMAHCEFPLLRDLLIRSHLQDLKDITHNIHYENYRVIRLNE GFEFNIMVVGQSGLGKSTMVNTLFKSKVWKSNPPPTPQTLQLHSLTHVIEEKGVKLKLTVTDTPGFGDQINNDNCWDPILGYINEQYEQYLQEEILITRQRHIPDTRVHCCVYFVPPTGHCLRPLDIEFLQRLCRTVNVVPVIARADSLTMEEREAFRRRIQQNLRTHCIDVYPQMCFDEDINDKILNSKLRDRIPFAVVGADQEHLVNGRCVLGRKTKWGIIEVENMAHCEFPLLRDLLIRSHLQDLKDITHNIHYENYRVIRLNE 6mqh-a1-m1-cB_6mqh-a1-m2-cB Crystal structure of 4-hydroxy-tetrahydrodipicolinate synthase (HTPA synthase) from Burkholderia mallei A0A0H2WFM6 A0A0H2WFM6 1.7 X-RAY DIFFRACTION 60 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 293 293 6mqh-a1-m1-cA_6mqh-a1-m2-cA GIQIRGSVPAIVTPMLEDGGLDLAAFRKLIDWHIEEGTDALVVVGTSGESATLSVDEHVLMIETAVKHAAKRIPIVAGAGGNSTTEAIELSKHAKAVGADATLQVVPYYNKPTQEGIYRHFKAIAEAVDLPVILYNVPGRTVADMSNETTLRLAQVPGIIGVKDATGNIDRAAQLIKAAPAHFSIYSGDDPTAIALMLLGGHGNISVTANVAPRAMSELCRAALAADVKTAREIHMKLLSLHKHLFIEANPIPVKWALQQMGKIAGGIRLPLTPLDERCHETVRGALREAGLL GIQIRGSVPAIVTPMLEDGGLDLAAFRKLIDWHIEEGTDALVVVGTSGESATLSVDEHVLMIETAVKHAAKRIPIVAGAGGNSTTEAIELSKHAKAVGADATLQVVPYYNKPTQEGIYRHFKAIAEAVDLPVILYNVPGRTVADMSNETTLRLAQVPGIIGVKDATGNIDRAAQLIKAAPAHFSIYSGDDPTAIALMLLGGHGNISVTANVAPRAMSELCRAALAADVKTAREIHMKLLSLHKHLFIEANPIPVKWALQQMGKIAGGIRLPLTPLDERCHETVRGALREAGLL 6mqh-a1-m2-cA_6mqh-a1-m2-cB Crystal structure of 4-hydroxy-tetrahydrodipicolinate synthase (HTPA synthase) from Burkholderia mallei A0A0H2WFM6 A0A0H2WFM6 1.7 X-RAY DIFFRACTION 117 1.0 243160 (Burkholderia mallei ATCC 23344) 243160 (Burkholderia mallei ATCC 23344) 293 293 6mqh-a1-m1-cA_6mqh-a1-m1-cB GIQIRGSVPAIVTPMLEDGGLDLAAFRKLIDWHIEEGTDALVVVGTSGESATLSVDEHVLMIETAVKHAAKRIPIVAGAGGNSTTEAIELSKHAKAVGADATLQVVPYYNKPTQEGIYRHFKAIAEAVDLPVILYNVPGRTVADMSNETTLRLAQVPGIIGVKDATGNIDRAAQLIKAAPAHFSIYSGDDPTAIALMLLGGHGNISVTANVAPRAMSELCRAALAADVKTAREIHMKLLSLHKHLFIEANPIPVKWALQQMGKIAGGIRLPLTPLDERCHETVRGALREAGLL GIQIRGSVPAIVTPMLEDGGLDLAAFRKLIDWHIEEGTDALVVVGTSGESATLSVDEHVLMIETAVKHAAKRIPIVAGAGGNSTTEAIELSKHAKAVGADATLQVVPYYNKPTQEGIYRHFKAIAEAVDLPVILYNVPGRTVADMSNETTLRLAQVPGIIGVKDATGNIDRAAQLIKAAPAHFSIYSGDDPTAIALMLLGGHGNISVTANVAPRAMSELCRAALAADVKTAREIHMKLLSLHKHLFIEANPIPVKWALQQMGKIAGGIRLPLTPLDERCHETVRGALREAGLL 6mqq-a1-m1-cA_6mqq-a1-m2-cB Citrobacter freundii F448A mutant tyrosine phenol-lyase complexed with 4-hydroxypyridine and aminoacrylate from S-ethyl-L-cysteine P31013 P31013 2.05 X-RAY DIFFRACTION 118 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 455 455 1c7g-a1-m1-cA_1c7g-a1-m1-cB 1c7g-a1-m1-cC_1c7g-a1-m1-cD 1tpl-a1-m1-cA_1tpl-a1-m1-cB 1tpl-a1-m2-cA_1tpl-a1-m2-cB 2ez1-a1-m1-cA_2ez1-a1-m2-cB 2ez1-a1-m1-cB_2ez1-a1-m2-cA 2ez2-a1-m1-cA_2ez2-a1-m2-cB 2ez2-a1-m1-cB_2ez2-a1-m2-cA 2tpl-a1-m1-cA_2tpl-a1-m2-cB 2tpl-a1-m1-cB_2tpl-a1-m2-cA 2vlf-a1-m1-cB_2vlf-a1-m2-cA 2vlf-a1-m2-cB_2vlf-a1-m1-cA 2vlh-a1-m1-cA_2vlh-a1-m2-cB 2vlh-a1-m1-cB_2vlh-a1-m2-cA 2ycn-a1-m1-cA_2ycn-a1-m2-cB 2ycn-a1-m1-cB_2ycn-a1-m2-cA 2ycp-a1-m1-cA_2ycp-a1-m1-cD 2ycp-a1-m1-cB_2ycp-a1-m1-cC 2yct-a1-m1-cA_2yct-a1-m2-cB 2yct-a1-m1-cB_2yct-a1-m2-cA 2yhk-a1-m1-cA_2yhk-a1-m2-cB 2yhk-a1-m1-cB_2yhk-a1-m2-cA 6dur-a1-m1-cA_6dur-a1-m2-cB 6dur-a1-m2-cA_6dur-a1-m1-cB 6dvx-a1-m1-cA_6dvx-a1-m2-cB 6dvx-a1-m2-cA_6dvx-a1-m1-cB 6dxv-a1-m1-cA_6dxv-a1-m2-cB 6dxv-a1-m2-cA_6dxv-a1-m1-cB 6dyt-a1-m1-cA_6dyt-a1-m2-cB 6dyt-a1-m1-cB_6dyt-a1-m2-cA 6dz5-a1-m1-cA_6dz5-a1-m2-cB 6dz5-a1-m2-cA_6dz5-a1-m1-cB 6ecg-a1-m1-cA_6ecg-a1-m2-cB 6ecg-a1-m2-cA_6ecg-a1-m1-cB 6mls-a1-m1-cB_6mls-a1-m2-cA 6mls-a1-m2-cB_6mls-a1-m1-cA 6mme-a1-m1-cA_6mme-a1-m2-cB 6mme-a1-m1-cB_6mme-a1-m2-cA 6mo3-a1-m1-cB_6mo3-a1-m2-cA 6mo3-a1-m2-cB_6mo3-a1-m1-cA 6mpd-a1-m1-cB_6mpd-a1-m2-cA 6mpd-a1-m2-cB_6mpd-a1-m1-cA 6mqq-a1-m1-cB_6mqq-a1-m2-cA 6nv8-a1-m1-cB_6nv8-a1-m2-cA 6nv8-a1-m2-cB_6nv8-a1-m1-cA 7fjk-a1-m1-cA_7fjk-a1-m1-cB 7fjk-a1-m1-cC_7fjk-a1-m1-cD 7tcs-a1-m1-cA_7tcs-a1-m1-cC 7tcs-a1-m1-cB_7tcs-a1-m1-cD 7tdl-a1-m1-cA_7tdl-a1-m1-cC 7tdl-a1-m1-cB_7tdl-a1-m1-cD NYPAEPFRIKSVETVSMIPRDERLKKMQEAGYNTFLLNSKDIYIDLLTDSGTNAMSDKQWAGMMMGDEAYAGSENFYHLERTVQELFGFKHIVPTHQGRGAENLLSQLAIKPGQYVAGNMYFTTTRYHQEKNGAVFVDIVRDEAHDAGLNIAFKGDIDLKKLQKLIDEKGAENIAYICLAVTVNLAGGQPVSMANMRAVRELTAAHGIKVFYDATRCVENAYFIKEQEQGFENKSIAEIVHEMFSYADGCTMSGKKDCLVNIGGFLCMNDDEMFSSAKELVVVYEGMPSYGGLAGRDMEAMAIGLREAMQYEYIEHRVKQVRYLGDKLKAAGVPIVEPVGGHAVFLDARRFCEHLTQDEFPAQSLAASIYVETGVRSMERGIISAGRNNVTGEHHRPKLETVRLTIPRRVYTYAHMDVVADGIIKLYQHKEDIRGLKFIYEPKQLRAFTARFDYI NYPAEPFRIKSVETVSMIPRDERLKKMQEAGYNTFLLNSKDIYIDLLTDSGTNAMSDKQWAGMMMGDEAYAGSENFYHLERTVQELFGFKHIVPTHQGRGAENLLSQLAIKPGQYVAGNMYFTTTRYHQEKNGAVFVDIVRDEAHDAGLNIAFKGDIDLKKLQKLIDEKGAENIAYICLAVTVNLAGGQPVSMANMRAVRELTAAHGIKVFYDATRCVENAYFIKEQEQGFENKSIAEIVHEMFSYADGCTMSGKKDCLVNIGGFLCMNDDEMFSSAKELVVVYEGMPSYGGLAGRDMEAMAIGLREAMQYEYIEHRVKQVRYLGDKLKAAGVPIVEPVGGHAVFLDARRFCEHLTQDEFPAQSLAASIYVETGVRSMERGIISAGRNNVTGEHHRPKLETVRLTIPRRVYTYAHMDVVADGIIKLYQHKEDIRGLKFIYEPKQLRAFTARFDYI 6mqq-a1-m1-cB_6mqq-a1-m2-cB Citrobacter freundii F448A mutant tyrosine phenol-lyase complexed with 4-hydroxypyridine and aminoacrylate from S-ethyl-L-cysteine P31013 P31013 2.05 X-RAY DIFFRACTION 22 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 455 455 1c7g-a1-m1-cA_1c7g-a1-m1-cD 1c7g-a1-m1-cB_1c7g-a1-m1-cC 1tpl-a1-m1-cA_1tpl-a1-m2-cB 1tpl-a1-m1-cB_1tpl-a1-m2-cA 2ez1-a1-m1-cA_2ez1-a1-m2-cA 2ez1-a1-m1-cB_2ez1-a1-m2-cB 2ez2-a1-m1-cA_2ez2-a1-m2-cA 2ez2-a1-m1-cB_2ez2-a1-m2-cB 2tpl-a1-m1-cA_2tpl-a1-m2-cA 2tpl-a1-m1-cB_2tpl-a1-m2-cB 2vlf-a1-m1-cA_2vlf-a1-m2-cA 2vlf-a1-m1-cB_2vlf-a1-m2-cB 2vlh-a1-m1-cA_2vlh-a1-m2-cA 2vlh-a1-m1-cB_2vlh-a1-m2-cB 2ycn-a1-m1-cA_2ycn-a1-m2-cA 2ycn-a1-m1-cB_2ycn-a1-m2-cB 2ycp-a1-m1-cA_2ycp-a1-m1-cC 2ycp-a1-m1-cB_2ycp-a1-m1-cD 2yct-a1-m1-cA_2yct-a1-m2-cA 2yct-a1-m1-cB_2yct-a1-m2-cB 2yhk-a1-m1-cA_2yhk-a1-m2-cA 2yhk-a1-m1-cB_2yhk-a1-m2-cB 6dur-a1-m1-cA_6dur-a1-m2-cA 6dur-a1-m1-cB_6dur-a1-m2-cB 6dvx-a1-m1-cA_6dvx-a1-m2-cA 6dvx-a1-m1-cB_6dvx-a1-m2-cB 6dxv-a1-m1-cA_6dxv-a1-m2-cA 6dxv-a1-m1-cB_6dxv-a1-m2-cB 6dyt-a1-m1-cA_6dyt-a1-m2-cA 6dyt-a1-m1-cB_6dyt-a1-m2-cB 6dz5-a1-m1-cA_6dz5-a1-m2-cA 6dz5-a1-m1-cB_6dz5-a1-m2-cB 6ecg-a1-m1-cA_6ecg-a1-m2-cA 6ecg-a1-m1-cB_6ecg-a1-m2-cB 6mls-a1-m1-cA_6mls-a1-m2-cA 6mls-a1-m1-cB_6mls-a1-m2-cB 6mme-a1-m1-cA_6mme-a1-m2-cA 6mme-a1-m1-cB_6mme-a1-m2-cB 6mo3-a1-m1-cA_6mo3-a1-m2-cA 6mo3-a1-m1-cB_6mo3-a1-m2-cB 6mpd-a1-m1-cA_6mpd-a1-m2-cA 6mpd-a1-m1-cB_6mpd-a1-m2-cB 6mqq-a1-m1-cA_6mqq-a1-m2-cA 6nv8-a1-m1-cA_6nv8-a1-m2-cA 6nv8-a1-m1-cB_6nv8-a1-m2-cB 7fjk-a1-m1-cA_7fjk-a1-m1-cD 7fjk-a1-m1-cB_7fjk-a1-m1-cC 7tcs-a1-m1-cA_7tcs-a1-m1-cB 7tcs-a1-m1-cC_7tcs-a1-m1-cD 7tdl-a1-m1-cA_7tdl-a1-m1-cD 7tdl-a1-m1-cB_7tdl-a1-m1-cC NYPAEPFRIKSVETVSMIPRDERLKKMQEAGYNTFLLNSKDIYIDLLTDSGTNAMSDKQWAGMMMGDEAYAGSENFYHLERTVQELFGFKHIVPTHQGRGAENLLSQLAIKPGQYVAGNMYFTTTRYHQEKNGAVFVDIVRDEAHDAGLNIAFKGDIDLKKLQKLIDEKGAENIAYICLAVTVNLAGGQPVSMANMRAVRELTAAHGIKVFYDATRCVENAYFIKEQEQGFENKSIAEIVHEMFSYADGCTMSGKKDCLVNIGGFLCMNDDEMFSSAKELVVVYEGMPSYGGLAGRDMEAMAIGLREAMQYEYIEHRVKQVRYLGDKLKAAGVPIVEPVGGHAVFLDARRFCEHLTQDEFPAQSLAASIYVETGVRSMERGIISAGRNNVTGEHHRPKLETVRLTIPRRVYTYAHMDVVADGIIKLYQHKEDIRGLKFIYEPKQLRAFTARFDYI NYPAEPFRIKSVETVSMIPRDERLKKMQEAGYNTFLLNSKDIYIDLLTDSGTNAMSDKQWAGMMMGDEAYAGSENFYHLERTVQELFGFKHIVPTHQGRGAENLLSQLAIKPGQYVAGNMYFTTTRYHQEKNGAVFVDIVRDEAHDAGLNIAFKGDIDLKKLQKLIDEKGAENIAYICLAVTVNLAGGQPVSMANMRAVRELTAAHGIKVFYDATRCVENAYFIKEQEQGFENKSIAEIVHEMFSYADGCTMSGKKDCLVNIGGFLCMNDDEMFSSAKELVVVYEGMPSYGGLAGRDMEAMAIGLREAMQYEYIEHRVKQVRYLGDKLKAAGVPIVEPVGGHAVFLDARRFCEHLTQDEFPAQSLAASIYVETGVRSMERGIISAGRNNVTGEHHRPKLETVRLTIPRRVYTYAHMDVVADGIIKLYQHKEDIRGLKFIYEPKQLRAFTARFDYI 6mqq-a1-m2-cA_6mqq-a1-m2-cB Citrobacter freundii F448A mutant tyrosine phenol-lyase complexed with 4-hydroxypyridine and aminoacrylate from S-ethyl-L-cysteine P31013 P31013 2.05 X-RAY DIFFRACTION 136 1.0 546 (Citrobacter freundii) 546 (Citrobacter freundii) 455 455 1c7g-a1-m1-cA_1c7g-a1-m1-cC 1c7g-a1-m1-cB_1c7g-a1-m1-cD 1tpl-a1-m1-cA_1tpl-a1-m2-cA 1tpl-a1-m1-cB_1tpl-a1-m2-cB 2ez1-a1-m1-cA_2ez1-a1-m1-cB 2ez1-a1-m2-cA_2ez1-a1-m2-cB 2ez2-a1-m1-cA_2ez2-a1-m1-cB 2ez2-a1-m2-cA_2ez2-a1-m2-cB 2tpl-a1-m1-cA_2tpl-a1-m1-cB 2tpl-a1-m2-cA_2tpl-a1-m2-cB 2vlf-a1-m1-cB_2vlf-a1-m1-cA 2vlf-a1-m2-cB_2vlf-a1-m2-cA 2vlh-a1-m1-cA_2vlh-a1-m1-cB 2vlh-a1-m2-cA_2vlh-a1-m2-cB 2ycn-a1-m1-cA_2ycn-a1-m1-cB 2ycn-a1-m2-cA_2ycn-a1-m2-cB 2ycp-a1-m1-cA_2ycp-a1-m1-cB 2ycp-a1-m1-cC_2ycp-a1-m1-cD 2yct-a1-m1-cA_2yct-a1-m1-cB 2yct-a1-m2-cA_2yct-a1-m2-cB 2yhk-a1-m1-cA_2yhk-a1-m1-cB 2yhk-a1-m2-cA_2yhk-a1-m2-cB 6dur-a1-m1-cA_6dur-a1-m1-cB 6dur-a1-m2-cA_6dur-a1-m2-cB 6dvx-a1-m1-cA_6dvx-a1-m1-cB 6dvx-a1-m2-cA_6dvx-a1-m2-cB 6dxv-a1-m1-cA_6dxv-a1-m1-cB 6dxv-a1-m2-cA_6dxv-a1-m2-cB 6dyt-a1-m1-cA_6dyt-a1-m1-cB 6dyt-a1-m2-cA_6dyt-a1-m2-cB 6dz5-a1-m1-cA_6dz5-a1-m1-cB 6dz5-a1-m2-cA_6dz5-a1-m2-cB 6ecg-a1-m1-cA_6ecg-a1-m1-cB 6ecg-a1-m2-cA_6ecg-a1-m2-cB 6mls-a1-m1-cB_6mls-a1-m1-cA 6mls-a1-m2-cB_6mls-a1-m2-cA 6mme-a1-m1-cA_6mme-a1-m1-cB 6mme-a1-m2-cA_6mme-a1-m2-cB 6mo3-a1-m1-cB_6mo3-a1-m1-cA 6mo3-a1-m2-cB_6mo3-a1-m2-cA 6mpd-a1-m1-cB_6mpd-a1-m1-cA 6mpd-a1-m2-cB_6mpd-a1-m2-cA 6mqq-a1-m1-cA_6mqq-a1-m1-cB 6nv8-a1-m1-cB_6nv8-a1-m1-cA 6nv8-a1-m2-cB_6nv8-a1-m2-cA 7fjk-a1-m1-cA_7fjk-a1-m1-cC 7fjk-a1-m1-cB_7fjk-a1-m1-cD 7tcs-a1-m1-cA_7tcs-a1-m1-cD 7tcs-a1-m1-cB_7tcs-a1-m1-cC 7tdl-a1-m1-cA_7tdl-a1-m1-cB 7tdl-a1-m1-cC_7tdl-a1-m1-cD NYPAEPFRIKSVETVSMIPRDERLKKMQEAGYNTFLLNSKDIYIDLLTDSGTNAMSDKQWAGMMMGDEAYAGSENFYHLERTVQELFGFKHIVPTHQGRGAENLLSQLAIKPGQYVAGNMYFTTTRYHQEKNGAVFVDIVRDEAHDAGLNIAFKGDIDLKKLQKLIDEKGAENIAYICLAVTVNLAGGQPVSMANMRAVRELTAAHGIKVFYDATRCVENAYFIKEQEQGFENKSIAEIVHEMFSYADGCTMSGKKDCLVNIGGFLCMNDDEMFSSAKELVVVYEGMPSYGGLAGRDMEAMAIGLREAMQYEYIEHRVKQVRYLGDKLKAAGVPIVEPVGGHAVFLDARRFCEHLTQDEFPAQSLAASIYVETGVRSMERGIISAGRNNVTGEHHRPKLETVRLTIPRRVYTYAHMDVVADGIIKLYQHKEDIRGLKFIYEPKQLRAFTARFDYI NYPAEPFRIKSVETVSMIPRDERLKKMQEAGYNTFLLNSKDIYIDLLTDSGTNAMSDKQWAGMMMGDEAYAGSENFYHLERTVQELFGFKHIVPTHQGRGAENLLSQLAIKPGQYVAGNMYFTTTRYHQEKNGAVFVDIVRDEAHDAGLNIAFKGDIDLKKLQKLIDEKGAENIAYICLAVTVNLAGGQPVSMANMRAVRELTAAHGIKVFYDATRCVENAYFIKEQEQGFENKSIAEIVHEMFSYADGCTMSGKKDCLVNIGGFLCMNDDEMFSSAKELVVVYEGMPSYGGLAGRDMEAMAIGLREAMQYEYIEHRVKQVRYLGDKLKAAGVPIVEPVGGHAVFLDARRFCEHLTQDEFPAQSLAASIYVETGVRSMERGIISAGRNNVTGEHHRPKLETVRLTIPRRVYTYAHMDVVADGIIKLYQHKEDIRGLKFIYEPKQLRAFTARFDYI 6mqu-a2-m1-cG_6mqu-a2-m1-cH PL5, synthetic transmembrane domain variant of human phospholamban 3.17 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 6mqu-a1-m1-cA_6mqu-a1-m1-cB 6mqu-a1-m1-cB_6mqu-a1-m1-cC 6mqu-a1-m1-cD_6mqu-a1-m1-cC 6mqu-a1-m1-cE_6mqu-a1-m1-cA 6mqu-a1-m1-cE_6mqu-a1-m1-cD 6mqu-a2-m1-cF_6mqu-a2-m1-cG 6mqu-a2-m1-cH_6mqu-a2-m1-cI 6mqu-a2-m1-cJ_6mqu-a2-m1-cF 6mqu-a2-m1-cJ_6mqu-a2-m1-cI EQLKWISFCLFLICLLLLCIIFMLYRG EQLKWISFCLFLICLLLLCIIFMLYRG 6mr3-a2-m1-cC_6mr3-a2-m2-cC Crystal structure of the competence-damaged protein (CinA) superfamily protein from Streptococcus mutans Q8DRX2 Q8DRX2 2.05 X-RAY DIFFRACTION 94 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 235 235 6mr3-a1-m1-cA_6mr3-a1-m3-cB EKLYSRVLRFFGIGESHLVTLLHDLITDPTIAPYAKTGEVTIRLSTKAHRQKEADSKLDKLEKKIITIDNLADYFYGYGEENSLPQVVFDLLKEKGKTITAAESLTAGLFQARLADFAGASDIFKGGFITYSIEEKARLGIPFEDLQLHGVVSAFTAEKAERSRQLTQADLAISLTGVAGPDSLEGQPAGTVFIGLSSSKRTAIKVLIGGRSRSDVRYIAVLHAFNLVRQTLLSH EKLYSRVLRFFGIGESHLVTLLHDLITDPTIAPYAKTGEVTIRLSTKAHRQKEADSKLDKLEKKIITIDNLADYFYGYGEENSLPQVVFDLLKEKGKTITAAESLTAGLFQARLADFAGASDIFKGGFITYSIEEKARLGIPFEDLQLHGVVSAFTAEKAERSRQLTQADLAISLTGVAGPDSLEGQPAGTVFIGLSSSKRTAIKVLIGGRSRSDVRYIAVLHAFNLVRQTLLSH 6mr4-a7-m1-cF_6mr4-a7-m1-cA Crystal structure of the Sth1 bromodomain from S.cerevisiae P32597 P32597 2.71 X-RAY DIFFRACTION 62 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 108 109 6mr4-a10-m1-cD_6mr4-a10-m2-cD 6mr4-a8-m1-cB_6mr4-a8-m2-cB 6mr4-a9-m3-cE_6mr4-a9-m1-cC IFPTVEKLVEEMREQLDEVDSHPRTSIFEKLPSKRDYPDYFKVIEKPMAIDIILKNCKNGTYKTLEEVRQALQTMFENARFYNEEGSWVYVDADKLNEFTDEWFKEHS GIFPTVEKLVEEMREQLDEVDSHPRTSIFEKLPSKRDYPDYFKVIEKPMAIDIILKNCKNGTYKTLEEVRQALQTMFENARFYNEEGSWVYVDADKLNEFTDEWFKEHS 6mrv-a1-m1-cA_6mrv-a1-m1-cB Sialidase26 co-crystallized with DANA A0A4S2B4D9 A0A4S2B4D9 1.8 X-RAY DIFFRACTION 120 1.0 522 522 6mrx-a1-m1-cA_6mrx-a1-m1-cB 6mrx-a2-m1-cD_6mrx-a2-m1-cC SDTVFVRETQIPVLIERQDNVLFMLRLNAKESHTLDEVVLNFGKDVNMSDIQSVKLYYSGTEARQNYGKNFFAPVSYISSHTPGKTLAANPSYSINKSQVNNPKRKVALKANQKLFPGINYFWISLQMKPDASLLDKVAAKIAAIKVDNKEALMHTVSPENIVHRVGVGVRHAGDDGSASFRIPGLVTTNKGTLLGVYDVRYNNSADLQEHVDIGLSRSVDGGKTWEKMRLPLAFGETGDLPAAQNGVGDPSILVDTKTNTVWVVAAWTHGMGNQRAWWSSYPGMDMNHTAQLVLSKSTDDGKTWSKPINITEQVKDPSWYFLLQGPGRGITMQDGTLVFPIQFIDSTRVPNAGIMYSKDRGETWKIHNYARTNTTEAQVAEVEPGVLMLNMRDNRGGSRAISTTKDLGKTWTEHSSSRKALQEPVCMASLISVKAKDNVLNKDILLFSNPNTVKGRHHITIKASLDGGVTWLPEHQVMLDEGEGWGYSCLTMIDKETIGILYESSVAHMTFQAVQLRDIIK SDTVFVRETQIPVLIERQDNVLFMLRLNAKESHTLDEVVLNFGKDVNMSDIQSVKLYYSGTEARQNYGKNFFAPVSYISSHTPGKTLAANPSYSINKSQVNNPKRKVALKANQKLFPGINYFWISLQMKPDASLLDKVAAKIAAIKVDNKEALMHTVSPENIVHRVGVGVRHAGDDGSASFRIPGLVTTNKGTLLGVYDVRYNNSADLQEHVDIGLSRSVDGGKTWEKMRLPLAFGETGDLPAAQNGVGDPSILVDTKTNTVWVVAAWTHGMGNQRAWWSSYPGMDMNHTAQLVLSKSTDDGKTWSKPINITEQVKDPSWYFLLQGPGRGITMQDGTLVFPIQFIDSTRVPNAGIMYSKDRGETWKIHNYARTNTTEAQVAEVEPGVLMLNMRDNRGGSRAISTTKDLGKTWTEHSSSRKALQEPVCMASLISVKAKDNVLNKDILLFSNPNTVKGRHHITIKASLDGGVTWLPEHQVMLDEGEGWGYSCLTMIDKETIGILYESSVAHMTFQAVQLRDIIK 6mry-a3-m1-cC_6mry-a3-m1-cJ NoD173 plant defensin A0A4V8H030 A0A4V8H030 2.3 X-RAY DIFFRACTION 27 1.0 200313 (Nicotiana occidentalis) 200313 (Nicotiana occidentalis) 47 48 6mry-a1-m1-cE_6mry-a1-m1-cA 6mry-a2-m1-cB_6mry-a2-m1-cG 6mry-a4-m1-cD_6mry-a4-m2-cL 6mry-a5-m1-cF_6mry-a5-m1-cI 6mry-a6-m1-cH_6mry-a6-m1-cK RQCKAESNTFTGICIAKPPCRQACIREKFTDGHCSKVLRRCLCTKRC ARQCKAESNTFTGICIAKPPCRQACIREKFTDGHCSKVLRRCLCTKRC 6ms3-a1-m1-cB_6ms3-a1-m1-cA Crystal structure of the GH43 protein BlXynB mutant (K247S) from Bacillus licheniformis Q65MB6 Q65MB6 1.95 X-RAY DIFFRACTION 53 1.0 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 279010 (Bacillus licheniformis DSM 13 = ATCC 14580) 511 512 6ms2-a1-m1-cA_6ms2-a1-m2-cA HTYTNPVLTGFHPDPSIIRVGEDYYMVNSTFQYFPAIVISHSKDLVHWKIIGHGITENEGLDLSDINDSHGIWAPDISYHNGTFYIFATHRLNGPTVINGRKLIRRQIMIKSSRPEGPYSKPVFIDEGSGIDPSHFVDGDGKHYMLLSPACTLFPLNEECTDISGEPVQIWEGTGRRAPEGPHLLKKDGYYYAILAEGGTGYSHSITTARSTHLYGPYEPCPYNPILTQTDPDAPIQRAGHGSLVETQNGEWWAVYLCGRPNQGSYTTVGRETALDPVEWTDDGWFVINNLKGPSLVQRAPNLPQVKWDEKNFDDFDEDTLGLDWQFVRNPDHSSWSLIERPGYLRLWTGDWDLHDIRAKNTVVRREKHHLYSAGVKLDFSPSASGEQAGIVCYYSTNNYLKCCLIYEEGLKIKVVENRSGCQKTLGKKHAEAGPLFLKAVINKQKRDFYYSYEGKHWHHAGGTEDASFLSDEGSRDAKGHTGTMVGIFANNGGSGRKAAADFDWFRYIAY EHTYTNPVLTGFHPDPSIIRVGEDYYMVNSTFQYFPAIVISHSKDLVHWKIIGHGITENEGLDLSDINDSHGIWAPDISYHNGTFYIFATHRLNGPTVINGRKLIRRQIMIKSSRPEGPYSKPVFIDEGSGIDPSHFVDGDGKHYMLLSPACTLFPLNEECTDISGEPVQIWEGTGRRAPEGPHLLKKDGYYYAILAEGGTGYSHSITTARSTHLYGPYEPCPYNPILTQTDPDAPIQRAGHGSLVETQNGEWWAVYLCGRPNQGSYTTVGRETALDPVEWTDDGWFVINNLKGPSLVQRAPNLPQVKWDEKNFDDFDEDTLGLDWQFVRNPDHSSWSLIERPGYLRLWTGDWDLHDIRAKNTVVRREKHHLYSAGVKLDFSPSASGEQAGIVCYYSTNNYLKCCLIYEEGLKIKVVENRSGCQKTLGKKHAEAGPLFLKAVINKQKRDFYYSYEGKHWHHAGGTEDASFLSDEGSRDAKGHTGTMVGIFANNGGSGRKAAADFDWFRYIAY 6mso-a2-m1-cC_6mso-a2-m1-cD Crystal structure of mitochondrial fumarate hydratase from Leishmania major in a complex with inhibitor thiomalate Q4QAU9 Q4QAU9 2.053 X-RAY DIFFRACTION 334 1.0 5664 (Leishmania major) 5664 (Leishmania major) 528 531 6mso-a1-m1-cA_6mso-a1-m1-cB FNFVPLVSKVSHKETKYRLLTKDYVSVVQPGAGLPEMLRVDPAALTLLSSTAFDDVEHLLRSSHLMSLRKIFDDPEASDNDKFVALQLLKNANISSARLLPGCQDTGTAIIAGYRGDQVFVPGNDEEALSRGVYDIFQKRNFRYSQNVPLSMYDEKNTGTNLPAQIDLYASKGMEYSFMFVAKGGGSANKSFLLQETKSVLNPKSLRNFLKEKLAMFGTSACPPYHVAVVIGGTSAEMTMKVLKYASCHYYDDLITKPDMKTGYTFRDLELEEEVLKVCQNIGMGAQFGGKYYAHDVRVIRMPRHGASCPIGIGVSCSADRQALGKINKDGVWLEELEMEPSQYLPTPAVMVNLNRPMPEVLQELSKHPVRTRLSLTGTIIVARDSAHARMREMLEAGKPLPQYMKEHPVYYAGPAKQPDGLPSGSFGPTTAGRMDPFVDLFQSHGGSMVMLAKGNRSKQVTKACHKYGGFYLGSIGGPAAVLAQNAIKKVECLDMKDLGMEAVWRIEVENFPAFIVVDDKGNDFFEQ FNFVPLVSKVSHKETKYRLLTKDYVSVVQPGAGLPEMLRVDPAALTLLSSTAFDDVEHLLRSSHLMSLRKIFDDPEASDNDKFVALQLLKNANISSARLLPGCQDTGTAIIAGYRGDQVFVPGNDEEALSRGVYDIFQKRNFRYSQNVPLSMYDEKNTGTNLPAQIDLYASKGMEYSFMFVAKGGGSANKSFLLQETKSVLNPKSLRNFLKEKLAMFGTSACPPYHVAVVIGGTSAEMTMKVLKYASCHYYDDLITKPDMKTGYTFRDLELEEEVLKVCQNIGMGAQFGGKYYAHDVRVIRMPRHGASCPIGIGVSCSADRQALGKINKDGVWLEELEMEPSQYLPDLKTPAVMVNLNRPMPEVLQELSKHPVRTRLSLTGTIIVARDSAHARMREMLEAGKPLPQYMKEHPVYYAGPAKQPDGLPSGSFGPTTAGRMDPFVDLFQSHGGSMVMLAKGNRSKQVTKACHKYGGFYLGSIGGPAAVLAQNAIKKVECLDMKDLGMEAVWRIEVENFPAFIVVDDKGNDFFEQ 6msq-a1-m2-cA_6msq-a1-m4-cA Crystal structure of pRO-2.3 1.28 X-RAY DIFFRACTION 65 1.0 32630 (synthetic construct) 32630 (synthetic construct) 75 75 6msq-a1-m1-cA_6msq-a1-m2-cA 6msq-a1-m1-cA_6msq-a1-m4-cA 6msq-a2-m1-cB_6msq-a2-m3-cB 6msq-a2-m1-cB_6msq-a2-m5-cB 6msq-a2-m3-cB_6msq-a2-m5-cB 6msr-a1-m1-cA_6msr-a1-m1-cB 6msr-a1-m1-cA_6msr-a1-m1-cC 6msr-a1-m1-cB_6msr-a1-m1-cC GSEYEIRKALEELKASTAELKRATASLRAITEELKKNPSEDALVEHNRAIVEHNAIIVENNRIIAAVLELIVRAI GSEYEIRKALEELKASTAELKRATASLRAITEELKKNPSEDALVEHNRAIVEHNAIIVENNRIIAAVLELIVRAI 6msw-a3-m1-cF_6msw-a3-m1-cE Crystal structure of BH1352 2-deoxyribose-5-phosphate from Bacillus halodurans, K184L mutant Q9KD67 Q9KD67 2.169 X-RAY DIFFRACTION 101 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 213 217 6d33-a1-m1-cB_6d33-a1-m1-cA 6d33-a2-m1-cC_6d33-a2-m1-cD 6d33-a3-m1-cE_6d33-a3-m1-cF 6msw-a1-m1-cD_6msw-a1-m2-cA 6msw-a2-m3-cC_6msw-a2-m1-cB SIAQMIDHTLLKPNTTEDQIVKLCEEAKEYSFASVCVNPTWVALAAQLLKDAPDVKVCTVIGFPLGATTPEVKAFETTNAIENGATEVDMVINIGALKDKQYELVGRDIQAVVKAAEGKALTKVIIETSLLTEEEKKAACELAVKAGADFVKTSTGFSGGGATAEDIALMRKVVGPNLGVLASGGVRDLSDAKAMIDAGATRIGASAGVAIVN RSIAQMIDHTLLKPNTTEDQIVKLCEEAKEYSFASVCVNPTWVALAAQLLKDAPDVKVCTVIGFPLGATTPEVKAFETTNAIENGATEVDMVINIGALKDKQYELVGRDIQAVVKAAEGKALTKVIIETSLLTEEEKKAACELAVKAGADFVKTSTGFSGGGATAEDIALMRKVVGPNLGVLASGGVRDLSDAKAMIDAGATRIGASAGVAIVNGER 6mti-a1-m1-c3_6mti-a1-m1-c4 Synaptotagmin-1 C2A, C2B domains and SNARE-pin proteins (5CCI) individually docked into Cryo-EM map of C2AB-SNARE complexes helically organized on lipid nanotube surface in presence of Mg2+ P21707 P21707 10.4 ELECTRON MICROSCOPY 13 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 279 279 KLGKLQYSLDYDFQNNQLLVGIIQAAELPALDMGGTSDPYVKVFLLPDKKKKFETKVHRKTLNPVFNEQFTFKVPYSELGGKTLVMAVYDFDRFSKHDIIGEFKVPMNTVDFGHVTEEWRDLQSAEKEQEKLGDICFSLRYVPTAGKLTVVILEAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPYYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPRRPIAQWHTLQVEEEVDAMLAVK KLGKLQYSLDYDFQNNQLLVGIIQAAELPALDMGGTSDPYVKVFLLPDKKKKFETKVHRKTLNPVFNEQFTFKVPYSELGGKTLVMAVYDFDRFSKHDIIGEFKVPMNTVDFGHVTEEWRDLQSAEKEQEKLGDICFSLRYVPTAGKLTVVILEAKNLKKMDVGGLSDPYVKIHLMQNGKRLKKKKTTIKKNTLNPYYNESFSFEVPFEQIQKVQVVVTVLDYDKIGKNDAIGKVFVGYNSTGAELRHWSDMLANPRRPIAQWHTLQVEEEVDAMLAVK 6mtk-a1-m1-cA_6mtk-a1-m2-cA Crystal structure of Tryptophanyl-tRNA synthetase from Elizabethkingia anophelis NUHP1 A0A077EER2 A0A077EER2 2 X-RAY DIFFRACTION 123 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 311 311 HMRILTGIQATGTPHLGNLLGAIIPAIELAKKPENDSLFFIANLHTLTQIKDAAQLRQNTYEIAAAWLACGLDTEKTIFYRQSDIPETCELTWYLDCFFPFQRLTLAHSFDVNAGLFNYPILMAADILLYDAEVVPVGKDQLQHLEITRDVAEKFNRQMGEVFVLPGAEITKYVPGTDGHKMSKSRGNIINIFLPEKELKKQIMSIESDSKSLEEPKDPETDKTFIIYALIATPEQTEALRQKYLAGNFGYGHAKTELLNLILERFAKERELFSYYMSNLNELEEKLQQGAEKARVIARATLDKTRKVLGY HMRILTGIQATGTPHLGNLLGAIIPAIELAKKPENDSLFFIANLHTLTQIKDAAQLRQNTYEIAAAWLACGLDTEKTIFYRQSDIPETCELTWYLDCFFPFQRLTLAHSFDVNAGLFNYPILMAADILLYDAEVVPVGKDQLQHLEITRDVAEKFNRQMGEVFVLPGAEITKYVPGTDGHKMSKSRGNIINIFLPEKELKKQIMSIESDSKSLEEPKDPETDKTFIIYALIATPEQTEALRQKYLAGNFGYGHAKTELLNLILERFAKERELFSYYMSNLNELEEKLQQGAEKARVIARATLDKTRKVLGY 6mtw-a1-m1-cA_6mtw-a1-m1-cB Lysosomal Phospholipase A2 in complex with Zinc Q8NCC3 Q8NCC3 1.999 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 376 376 HPPVVLVPGDLGNQLEAKLDKPTVVHYLCSKKTESYFTIWLNLELLLPVIIDCWIDNIRLVYNKTSRATQFPDGVDVRVPGFGKTFSLEFLDPSKSSVGSYFHTMVESLVGWGYTRGEDVRGAPYDWRRAPNENGPYFLALREMIEEMYQLYGGPVVLVAHSMGNMYTLYFLQRQPQAWKDKYIRAFVSLGAPWGGVAKTLRVLASGDNNRIPVIGPLKIREQQRSAVSTSWLLPYNYTWSPEKVFVQTPTINYTLRDYRKFFQDIGFEDGWLMRQDTEGLVEATMPPGVQLHCLYGTGVPTPDSFYYESFPDRDPKICFGDGDGTVNLKSALQCQAWQSRQEHQVLLQELPGSEHIEMLANATTLAYLKRVLLGP HPPVVLVPGDLGNQLEAKLDKPTVVHYLCSKKTESYFTIWLNLELLLPVIIDCWIDNIRLVYNKTSRATQFPDGVDVRVPGFGKTFSLEFLDPSKSSVGSYFHTMVESLVGWGYTRGEDVRGAPYDWRRAPNENGPYFLALREMIEEMYQLYGGPVVLVAHSMGNMYTLYFLQRQPQAWKDKYIRAFVSLGAPWGGVAKTLRVLASGDNNRIPVIGPLKIREQQRSAVSTSWLLPYNYTWSPEKVFVQTPTINYTLRDYRKFFQDIGFEDGWLMRQDTEGLVEATMPPGVQLHCLYGTGVPTPDSFYYESFPDRDPKICFGDGDGTVNLKSALQCQAWQSRQEHQVLLQELPGSEHIEMLANATTLAYLKRVLLGP 6mu0-a2-m1-cA_6mu0-a2-m2-cA Crystal Structure of Ribose-5-phosphate Isomerase B from Mycoplasma genitalium with bound Ribulose-5-phosphate P47636 P47636 1.1 X-RAY DIFFRACTION 121 1.0 243273 (Mycoplasmoides genitalium G37) 243273 (Mycoplasmoides genitalium G37) 151 151 HMSFNIFIASDHTGLTLKKIISEHLKTKQFNVVDLGPNYFDANDDYPDFAFLVADKVKKNSDKDLGILIGTGVGVCMAANKVKGVLAALVVSEKTAALARQHDNANVLCLSSRFVTDSENIKIVDDFLKANFEGGRHQRRIDKIIRYEKET HMSFNIFIASDHTGLTLKKIISEHLKTKQFNVVDLGPNYFDANDDYPDFAFLVADKVKKNSDKDLGILIGTGVGVCMAANKVKGVLAALVVSEKTAALARQHDNANVLCLSSRFVTDSENIKIVDDFLKANFEGGRHQRRIDKIIRYEKET 6mu7-a1-m6-cL_6mu7-a1-m5-cL Crystal Structure of HIV-1 BG505 SOSIP.664 Prefusion Env Trimer Bound to Small Molecule HIV-1 Entry Inhibitor BMS-818251 in Complex with Human Antibodies 3H109L and 35O22 at 3.1 Angstrom 2.501 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 6mu7-a1-m4-cL_6mu7-a1-m5-cL 6mu7-a1-m6-cL_6mu7-a1-m4-cL 6mu8-a1-m4-cL_6mu8-a1-m5-cL 6mu8-a1-m6-cL_6mu8-a1-m4-cL 6mu8-a1-m6-cL_6mu8-a1-m5-cL SYVRPLSVALGETASISCGRQALGSRAVQWYQHRPGQAPILLIYNNQDRPSGIPERFSGTPDINFGTRATLTISGVEAGDEADYYCHMWDSRSGFSWSFGGATRLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPMQWKMHKSYSCQVTHEGSTVEKTVAPT SYVRPLSVALGETASISCGRQALGSRAVQWYQHRPGQAPILLIYNNQDRPSGIPERFSGTPDINFGTRATLTISGVEAGDEADYYCHMWDSRSGFSWSFGGATRLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPMQWKMHKSYSCQVTHEGSTVEKTVAPT 6muw-a1-m1-cK_6muw-a1-m1-cY The structure of the Plasmodium falciparum 20S proteasome. Q8IKC9 Q8IKC9 3.6 ELECTRON MICROSCOPY 48 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 195 195 5fmg-a1-m1-cK_5fmg-a1-m1-cY 6muv-a1-m1-cK_6muv-a1-m1-cY 6mux-a1-m1-cK_6mux-a1-m1-cY 7lxt-a1-m1-cK_7lxt-a1-m1-cY 7lxu-a1-m1-cK_7lxu-a1-m1-cY MDTLIGLRGNNFVVLAADTYSINSIIKLKNDDNTKFYDIHGNKCLLLGGSIGDRLQFGEFIRKNVHLYQYQNNTDMFVKSFAFFTRKNLAYYLRRNPFEVNCLIAGYDKKDGYQLYWCDYLSNMDSVNKGAHGYGAYLVSAILDKYYHENLTVDEALDIFKLCFEELKKRFLLTQINYELRIMYDNKVETQYVTV MDTLIGLRGNNFVVLAADTYSINSIIKLKNDDNTKFYDIHGNKCLLLGGSIGDRLQFGEFIRKNVHLYQYQNNTDMFVKSFAFFTRKNLAYYLRRNPFEVNCLIAGYDKKDGYQLYWCDYLSNMDSVNKGAHGYGAYLVSAILDKYYHENLTVDEALDIFKLCFEELKKRFLLTQINYELRIMYDNKVETQYVTV 6mux-a1-m1-cH_6mux-a1-m1-cV The structure of the Plasmodium falciparum 20S proteasome in complex with one PA28 activator Q8I0U7 Q8I0U7 3.9 ELECTRON MICROSCOPY 38 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 194 194 5fmg-a1-m1-cH_5fmg-a1-m1-cV 6muv-a1-m1-cH_6muv-a1-m1-cV 6muw-a1-m1-cH_6muw-a1-m1-cV TTIIGIIYDNGVMLACDSRTSSGTFISNKCSRKINRINENLYVCRSGASAHSQKIIEIIKHYCVSMKNENRKKGRFHEGETIYDETTYDFLSCALIFGGYDKIKKQQLYAVNLNGSIIEKHDFAVSGSGSIYIQSYLQDKYKKFMTKKECFNLILNCVKYAMHNDNSSGGLIRIVNITKSFVEEFTVVNTQMNF TTIIGIIYDNGVMLACDSRTSSGTFISNKCSRKINRINENLYVCRSGASAHSQKIIEIIKHYCVSMKNENRKKGRFHEGETIYDETTYDFLSCALIFGGYDKIKKQQLYAVNLNGSIIEKHDFAVSGSGSIYIQSYLQDKYKKFMTKKECFNLILNCVKYAMHNDNSSGGLIRIVNITKSFVEEFTVVNTQMNF 6mv4-a1-m4-cH_6mv4-a1-m2-cH CRYSTAL STRUCTURE OF HUMAN COAGULATION FACTOR IXa P00740 P00740 1.37 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 235 235 6mv4-a1-m3-cH_6mv4-a1-m1-cH VVGGEDAKPGQFPWQVVLNGKVDAFCGGSIVNEKWIVTAAHCVETGVKITVVAGEHNIEETEHTEQKRNVIRIIPHHNYNAAINKYNHDIALLELDEPLVLNSYVTPICIADKEYTNIFLKFGSGYVSGWGRVFHKGRSALVLQYLRVPLVDRATCLRSTKFTIYNNMFCAGFHEGGRDSCQGDSGGPHVTEVEGTSFLTGIISWGEECAMKGKYGIYTKVSRYVNWIKEKTKLT VVGGEDAKPGQFPWQVVLNGKVDAFCGGSIVNEKWIVTAAHCVETGVKITVVAGEHNIEETEHTEQKRNVIRIIPHHNYNAAINKYNHDIALLELDEPLVLNSYVTPICIADKEYTNIFLKFGSGYVSGWGRVFHKGRSALVLQYLRVPLVDRATCLRSTKFTIYNNMFCAGFHEGGRDSCQGDSGGPHVTEVEGTSFLTGIISWGEECAMKGKYGIYTKVSRYVNWIKEKTKLT 6mvf-a2-m1-cD_6mvf-a2-m1-cE Crystal structure of FMN-binding beta-glucuronidase from Facaelibacterium prausnitzii L2-6 D4K3H3 D4K3H3 2.55 X-RAY DIFFRACTION 92 1.0 718252 (Faecalibacterium prausnitzii L2-6) 718252 (Faecalibacterium prausnitzii L2-6) 643 643 6mvf-a1-m1-cA_6mvf-a1-m1-cC 6mvf-a1-m1-cA_6mvf-a1-m1-cF 6mvf-a1-m1-cC_6mvf-a1-m1-cF 6mvf-a2-m1-cB_6mvf-a2-m1-cD 6mvf-a2-m1-cB_6mvf-a2-m1-cE NAMREIISLNEGWTLRFPKGERAAETVTLPHTWNAVDGMDGNGSYLRTTGVYSRTFKKPVQPLTGGRVYVEVLAAALDATVKVNGTVATTHEGGFSIFRADITDLCRDGDNELTIEVSNEDTPSMYPASADFTFYGGLYRGVNLISVPNAHFDLDYYGGPGIMVTPKPTADGGATFEIKSFVTNPDDSFTVMYSIEDPYGCEVASAVRPSDNTAISIYVPDAELWSMDEPNLYTVVARLQRNNEAFDEIYANVGVRSYTVTPDGGFSINGEATPLRGVSRHQDKLYKGNALTVEDHYQDAQIIKELGANTIRLAHYQHSQDFYDACDELGFAVWAEIPFISVFKSGKDAHTHVMEEMKELIIQNYNHPSILFWGISNEILIGGISQELVDTHHDLQKLCKELDPTRLTTIAHVSHTPTSGPMHRITDVESYNHYFGWYGGKIEQNGPWLDKFHAENPDICLGISEYGCEGIINWHSNTPQCKDYSEEYQALYHEYMAQAFEDRPWIWASHVWNMFDFGCAARSEGGVKGRNNKGLVTIDRKTRKDSFYVYQAYWAKDPMVHIAGRRHAQRAGETTEVKVYSNQDTVTLYCNGKEVGTQTAHRVFKFDVALDEGFNVLMAVADTVKDSITLEKVETEPACYTLP NAMREIISLNEGWTLRFPKGERAAETVTLPHTWNAVDGMDGNGSYLRTTGVYSRTFKKPVQPLTGGRVYVEVLAAALDATVKVNGTVATTHEGGFSIFRADITDLCRDGDNELTIEVSNEDTPSMYPASADFTFYGGLYRGVNLISVPNAHFDLDYYGGPGIMVTPKPTADGGATFEIKSFVTNPDDSFTVMYSIEDPYGCEVASAVRPSDNTAISIYVPDAELWSMDEPNLYTVVARLQRNNEAFDEIYANVGVRSYTVTPDGGFSINGEATPLRGVSRHQDKLYKGNALTVEDHYQDAQIIKELGANTIRLAHYQHSQDFYDACDELGFAVWAEIPFISVFKSGKDAHTHVMEEMKELIIQNYNHPSILFWGISNEILIGGISQELVDTHHDLQKLCKELDPTRLTTIAHVSHTPTSGPMHRITDVESYNHYFGWYGGKIEQNGPWLDKFHAENPDICLGISEYGCEGIINWHSNTPQCKDYSEEYQALYHEYMAQAFEDRPWIWASHVWNMFDFGCAARSEGGVKGRNNKGLVTIDRKTRKDSFYVYQAYWAKDPMVHIAGRRHAQRAGETTEVKVYSNQDTVTLYCNGKEVGTQTAHRVFKFDVALDEGFNVLMAVADTVKDSITLEKVETEPACYTLP 6mvh-a1-m1-cB_6mvh-a1-m1-cA Crystal structure of FMN-binding beta-glucuronidase from Roseburia hominis 2.4 X-RAY DIFFRACTION 39 1.0 301301 (Roseburia hominis) 301301 (Roseburia hominis) 638 639 REVINFNTKWAFTKEATEVPKEMPEKWYWVTLPHSWNEIDGQDGGNDYYRGTCYYAKQLKKSELPEADCYYLELRGANASADVYVNGKAVAHHDGGYSTWRVDITKELTEEENLIVIAVENGVNDRVYPQNADFTFYGGLYRDVNIIAVNKSHFDLDYYGGPGIKVTPEIKGADASVEVEVFLTNAAADQKLVYTVKDAEGKEVAKTETAAGETKAVLSIPAVHLWNGKKDPYLYTAEVALVSGEEAVDAVSTRFGCRTFEIDPERGFILNGEEYPLRGVSRHQDRWGIGNALLPEHHREDIDLICELGATTIRLAHYQHDQYFYDLCDERGLVIWAEIPYISSHMPNGRENTISQMKELVVQNYNHPSIVVWGLSNEITMEDLLENHRILNDMVHEMDHTRLTTIAVVSMCDIHDPYIQIPDVISYNHYFGWYGGDVSMNGPWMDNFHKEFPNIPLGMSEYGCEALNWHTSDPKQGDYTEEYQAYYHEEMIKQLFTRKYIWATHVWNMFDFGADARNEGGENGQNHKGLVTFDRKYKKDSFYAYKAWLSDEPFVHLCGKRYVDRVEDTTKVTVYSNLPEVELFVNGKSAGKLQAEDHFFHFEVPNVGESTLVAVAGEYKDESHIRKVDTFNEEYSLK REVINFNTKWAFTKEATEVPKEMPEKWYWVTLPHSWNEIDGQDGGNDYYRGTCYYAKQLKKSELPEADCYYLELRGANASADVYVNGKAVAHHDGGYSTWRVDITKELTEEENLIVIAVENGVNDRVYPQNADFTFYGGLYRDVNIIAVNKSHFDLDYYGGPGIKVTPEIKGADASVEVEVFLTNAAADQKLVYTVKDAEGKEVAKTETAAGETKAVLSIPAVHLWNGKKDPYLYTAEVALVSGEEAVDAVSTRFGCRTFEIDPERGFILNGEEYPLRGVSRHQDRWGIGNALLPEHHREDIDLICELGATTIRLAHYQHDQYFYDLCDERGLVIWAEIPYISSHMPNGRENTISQMKELVVQNYNHPSIVVWGLSNEITMDEDLLENHRILNDMVHEMDHTRLTTIAVVSMCDIHDPYIQIPDVISYNHYFGWYGGDVSMNGPWMDNFHKEFPNIPLGMSEYGCEALNWHTSDPKQGDYTEEYQAYYHEEMIKQLFTRKYIWATHVWNMFDFGADARNEGGENGQNHKGLVTFDRKYKKDSFYAYKAWLSDEPFVHLCGKRYVDRVEDTTKVTVYSNLPEVELFVNGKSAGKLQAEDHFFHFEVPNVGESTLVAVAGEYKDESHIRKVDTFNEEYSLK 6mvh-a1-m1-cD_6mvh-a1-m1-cB Crystal structure of FMN-binding beta-glucuronidase from Roseburia hominis 2.4 X-RAY DIFFRACTION 49 1.0 301301 (Roseburia hominis) 301301 (Roseburia hominis) 305 638 6mvh-a1-m1-cC_6mvh-a1-m1-cA PKEMPEKWYWVTLPHSWNEIDGQDGGNDYYRGTCYYAKQLLELRGANASADVYVNGKAVAHHDGGYSTWRVDITKELTEEENLIVIAVENGVNDRVYPQNADFTFYGGLYRDVNIIAVNKSHFDLDYYGGPRHQDRWGIGNALLPEHHREDIDRLAHYQHDQYFYDLCDEEIPYISSHMPNGRENTISQMKELVVQNGLSNEITMEDLLENHRILNDMVHETTIAVVSMCDIHDPYIQIPDVISYNHYFGWYGGDVSMNGPWMDNFHKEFPNIPLWNMFDFGADARNEGGENGQNHKGLVTFDRK REVINFNTKWAFTKEATEVPKEMPEKWYWVTLPHSWNEIDGQDGGNDYYRGTCYYAKQLKKSELPEADCYYLELRGANASADVYVNGKAVAHHDGGYSTWRVDITKELTEEENLIVIAVENGVNDRVYPQNADFTFYGGLYRDVNIIAVNKSHFDLDYYGGPGIKVTPEIKGADASVEVEVFLTNAAADQKLVYTVKDAEGKEVAKTETAAGETKAVLSIPAVHLWNGKKDPYLYTAEVALVSGEEAVDAVSTRFGCRTFEIDPERGFILNGEEYPLRGVSRHQDRWGIGNALLPEHHREDIDLICELGATTIRLAHYQHDQYFYDLCDERGLVIWAEIPYISSHMPNGRENTISQMKELVVQNYNHPSIVVWGLSNEITMEDLLENHRILNDMVHEMDHTRLTTIAVVSMCDIHDPYIQIPDVISYNHYFGWYGGDVSMNGPWMDNFHKEFPNIPLGMSEYGCEALNWHTSDPKQGDYTEEYQAYYHEEMIKQLFTRKYIWATHVWNMFDFGADARNEGGENGQNHKGLVTFDRKYKKDSFYAYKAWLSDEPFVHLCGKRYVDRVEDTTKVTVYSNLPEVELFVNGKSAGKLQAEDHFFHFEVPNVGESTLVAVAGEYKDESHIRKVDTFNEEYSLK 6mvh-a1-m1-cD_6mvh-a1-m1-cC Crystal structure of FMN-binding beta-glucuronidase from Roseburia hominis 2.4 X-RAY DIFFRACTION 14 1.0 301301 (Roseburia hominis) 301301 (Roseburia hominis) 305 638 PKEMPEKWYWVTLPHSWNEIDGQDGGNDYYRGTCYYAKQLLELRGANASADVYVNGKAVAHHDGGYSTWRVDITKELTEEENLIVIAVENGVNDRVYPQNADFTFYGGLYRDVNIIAVNKSHFDLDYYGGPRHQDRWGIGNALLPEHHREDIDRLAHYQHDQYFYDLCDEEIPYISSHMPNGRENTISQMKELVVQNGLSNEITMEDLLENHRILNDMVHETTIAVVSMCDIHDPYIQIPDVISYNHYFGWYGGDVSMNGPWMDNFHKEFPNIPLWNMFDFGADARNEGGENGQNHKGLVTFDRK REVINFNTKWAFTKEATEVPKEMPEKWYWVTLPHSWNEIDGQDGGNDYYRGTCYYAKQLKKSELPEADCYYLELRGANASADVYVNGKAVAHHDGGYSTWRVDITKELTEEENLIVIAVENGVNDRVYPQNADFTFYGGLYRDVNIIAVNKSHFDLDYYGGPGIKVTPEIKGADASVEVEVFLTNAAADQKLVYTVKDAEGKEVAKTETAAGETKAVLSIPAVHLWNGKKDPYLYTAEVALVSGEEAVDAVSTRFGCRTFEIDPERGFILNGEEYPLRGVSRHQDRWGIGNALLPEHHREDIDLICELGATTIRLAHYQHDQYFYDLCDERGLVIWAEIPYISSHMPNGRENTISQMKELVVQNYNHPSIVVWGLSNEITMEDLLENHRILNDMVHEMDHTRLTTIAVVSMCDIHDPYIQIPDVISYNHYFGWYGGDVSMNGPWMDNFHKEFPNIPLGMSEYGCEALNWHTSDPKQGDYTEEYQAYYHEEMIKQLFTRKYIWATHVWNMFDFGADARNEGGENGQNHKGLVTFDRKYKKDSFYAYKAWLSDEPFVHLCGKRYVDRVEDTTKVTVYSNLPEVELFVNGKSAGKLQAEDHFFHFEVPNVGESTLVAVAGEYKDESHIRKVDTFNEEYSLK 6mvu-a1-m1-cA_6mvu-a1-m1-cB Structure of a bacterial ALDH16 active site mutant C295A complexed with p-nitrophenylacetate A0A0Q3EUQ3 A0A0Q3EUQ3 1.488 X-RAY DIFFRACTION 185 1.0 1225657 (Loktanella sp. 3ANDIMAR09) 1225657 (Loktanella sp. 3ANDIMAR09) 752 752 6mvr-a1-m1-cA_6mvr-a1-m2-cA 6mvs-a1-m1-cA_6mvs-a1-m2-cA 6mvt-a1-m1-cA_6mvt-a1-m2-cA APESAKEAYAWLAEKGDFGHFIGGAWTAPGDLFATVNPATGQTLAQVSQATQADVDAAVKAARKAQPAWAKDGAARARVLYALARLLQKHARLFAVLETLDNGKPIREARDIDVPLAQRHFYHHAGYAQLMGTEMPDRAPLGVCGQVIPWNFPLLMLAWKIAPALAMGNTVVLKPAEWTPLTALLFADICGQAGVPAGVVNIVTGDGAVGEMIVTAQVDKVAFTGSTAVGRRIREATAGTGKALSLELGGKGPYVVCDDADIDSAVEGLVDAIWFNQGQVACAGSRLLVQEGIADVFHAKLRARMDSLRIGDPLDKCIDIGAMVHPDQLARVRDMVAANTDGEVYQTAVPAGCYYPPTLISGLAPASPLMQQEIFGPVLVSTTFRTPAEAVEIANNTAYGLAASVWSENVNLALDLAPKLVAGIVWINGTNMMDAAAPFGGVRESGFGREGGWEGLAGYTRPAIATKSPAAVAAYTGDGAADGLDRTAKLYIGGKQTRPDGGYSRAVYGPKGKLLGHASLSNRKDLRNAVEAMNAASGWSRTTGHLRAQILYFIGENLSARADEFANRIKDMTGKDGKAEVAASIDRLFSAAAWADKYDGQVKGVPLRGVALAMKEPVGKIGILCPDAAPLLGLVSLMAPAIAMGNRVTLAASEAFPLAATDFYQVLDTSDVPAGVVNILTGAHADLAEPMARHLDLDAVWGLSGHAQVIEAASAGNLKRSWTGPFDPAHDHTRDILSHATEVKTIWVPYGA APESAKEAYAWLAEKGDFGHFIGGAWTAPGDLFATVNPATGQTLAQVSQATQADVDAAVKAARKAQPAWAKDGAARARVLYALARLLQKHARLFAVLETLDNGKPIREARDIDVPLAQRHFYHHAGYAQLMGTEMPDRAPLGVCGQVIPWNFPLLMLAWKIAPALAMGNTVVLKPAEWTPLTALLFADICGQAGVPAGVVNIVTGDGAVGEMIVTAQVDKVAFTGSTAVGRRIREATAGTGKALSLELGGKGPYVVCDDADIDSAVEGLVDAIWFNQGQVACAGSRLLVQEGIADVFHAKLRARMDSLRIGDPLDKCIDIGAMVHPDQLARVRDMVAANTDGEVYQTAVPAGCYYPPTLISGLAPASPLMQQEIFGPVLVSTTFRTPAEAVEIANNTAYGLAASVWSENVNLALDLAPKLVAGIVWINGTNMMDAAAPFGGVRESGFGREGGWEGLAGYTRPAIATKSPAAVAAYTGDGAADGLDRTAKLYIGGKQTRPDGGYSRAVYGPKGKLLGHASLSNRKDLRNAVEAMNAASGWSRTTGHLRAQILYFIGENLSARADEFANRIKDMTGKDGKAEVAASIDRLFSAAAWADKYDGQVKGVPLRGVALAMKEPVGKIGILCPDAAPLLGLVSLMAPAIAMGNRVTLAASEAFPLAATDFYQVLDTSDVPAGVVNILTGAHADLAEPMARHLDLDAVWGLSGHAQVIEAASAGNLKRSWTGPFDPAHDHTRDILSHATEVKTIWVPYGA 6mw7-a2-m1-cD_6mw7-a2-m1-cC Crystal structure of ATPase module of SMCHD1 bound to ATP A6NHR9 A6NHR9 2.194 X-RAY DIFFRACTION 207 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 498 512 6mw7-a1-m1-cB_6mw7-a1-m1-cA RTVYLFDRREKESELGDRPLQVGERSDYAGFRACVCQTLGISPEEKFVITTTSRKEITCDNFDETVKDGVTLYLLQSVNQLLLTATKERIDFLPHYDTLVKSGYEYYASEGQNPLPFALAALIDNSLSATSRNIGVRRIQIKLLFDETQGKPAVAVIDNGRGTSKQLNNWAVYRLSKFTRRPVPVPRSLNSDISYFGVGGKQAVFFVGQSARISKPADSQDVHELVLSKEDFEKKEKNKEAIYSGYIRNRKPSDSVHITNDDERFLHHLIIEEKEKDSFTAVVITGVQPEHIQYLKNYFHLWTRQLAHIYHYYIHGPKGNENNIDIEISFEKGKVPKIVNLREIQDDQTLYVNTAADSFEFKAHVEGDGVVEGIIRYHPFLYDRETYPDDPCFPKAARGKRPIFECFWNGRLIPYTSVEDFDWCTPPLAPIECYNRISGALFTNDKFQVSTNKLTFDLELKLKDKNTLFTRILNGQEQRKIDREFALWLKDCHEKYDK HRTVYLFDRREKESELGDRPLQVGERSDYAGFRACVCQTLGISPEEKFVITTTSRKEITCDNFDETVKDGVTLYLLQSVNQLLLTATKERIDFLPHYDTLVKSGYEYYASEGQNPLPFALAALIDNSLSATSRNIGVRRIQIKLLFDETQGKPAVAVIDNGRGTSKQLNNWAVYRLSKFTRQGDFHSGYVRPVPVPRSLNSDISYFGVGGKQAVFFVGQSARISKPADSQDVHELVLSKEDFEKKEKNKEAIYSGYIRNRKPSDSVHITNDDERFLHHLIIEEKEKDSFTAVVITGVQPEHIQYLKNYFHLWTRQLAHIYHYYIHGPKGNEINNIDIEISFEKGKVPKIVNLREIQDDQTLYVNTAADSFEFKAHVEGDGVVEGIIRYHPFLYDRETYPDDPCFAARGKRPIFECFWNGRLIPYTSVEDFDWCTPPLAPIECYNRISGALFTNDKFQVSTNKLTFDLELKLKDKNTLFTRILNGQEQRKIDREFALWLKDCHEKYDKQIKFT 6mw8-a1-m1-cA_6mw8-a1-m2-cA UDP-galactose:glucoside-Skp1 alpha-D-galactosyltransferase with bound UDP and Manganese K3WC47 K3WC47 1.756 X-RAY DIFFRACTION 78 1.0 239 239 6mw5-a1-m1-cA_6mw5-a1-m2-cA AAYATLITSDAYVMGVEALVYSLFKARVAFPLVVLHSSQVTQPTVAKLTRFCAPFQSSTWRISFRSVPDIGISGYTKLHIFAMDDFEQIVYIDADAIVLQNVDELFDRSTSFAAAPDVFPPDRFNAGVLVIRPNKQLFADLLAKAKELKSYDGGDTGFLNAFFPKWFESDAASRLPFGYNAQRTMYWLVNGKNPGYWNAVQPLKILHYSSNPKPWEDKGDLEILWWQMYTESRCMSFLG AAYATLITSDAYVMGVEALVYSLFKARVAFPLVVLHSSQVTQPTVAKLTRFCAPFQSSTWRISFRSVPDIGISGYTKLHIFAMDDFEQIVYIDADAIVLQNVDELFDRSTSFAAAPDVFPPDRFNAGVLVIRPNKQLFADLLAKAKELKSYDGGDTGFLNAFFPKWFESDAASRLPFGYNAQRTMYWLVNGKNPGYWNAVQPLKILHYSSNPKPWEDKGDLEILWWQMYTESRCMSFLG 6mx1-a1-m1-cB_6mx1-a1-m1-cA The crystal structure of the regulatory domain of aspartokinase in the bifunctional aspartokinase/homoserine dehydrogenase 1 from Escherichia coli str. K-12 substr. MG1655 P00561 P00561 1.671 X-RAY DIFFRACTION 195 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 155 156 VKGISNLNNMAMFSVSGPGMKGMVGMAARVFAAMSRARISVVLITQSSSEYSISFCVPQSDCVRAERAMQEEFYLELKEGLLEPLAVTERLAIISVVGDGMRTLRGISAKFFAALARANINIVAIAQGSSERSISVVVNNDDATTGVRVTHQMLF PVKGISNLNNMAMFSVSGPGMKGMVGMAARVFAAMSRARISVVLITQSSSEYSISFCVPQSDCVRAERAMQEEFYLELKEGLLEPLAVTERLAIISVVGDGMRTLRGISAKFFAALARANINIVAIAQGSSERSISVVVNNDDATTGVRVTHQMLF 6mxv-a1-m1-cA_6mxv-a1-m1-cB The crystal structure of a rhodanese-like family protein from Francisella tularensis subsp. tularensis SCHU S4 Q5NFU2 Q5NFU2 1.78 X-RAY DIFFRACTION 163 1.0 177416 (Francisella tularensis subsp. tularensis SCHU S4) 177416 (Francisella tularensis subsp. tularensis SCHU S4) 245 246 IQHSSGFLKLVDDAKSRIQECSVDDIQKNETQTLDGLLIDTREESEVANGYIPNAIHLSKGIIESAIESAVPNKNQKYFYCGGGFRSALVADKLREGYKNVISVDGGWRAWNAKGYPTVSPNQFRPNEFLKLVNNAKTQIKECSTTELYNKINSQELDGIVFDVREDSEFNRFHIQGATHLSKGQIEVKIENLVPNKQQKIYLYCGSGFRSALAAESLQHGYTNVVSIAGGIKDWLANNYPVSQN KIQHSSGFLKLVDDAKSRIQECSVDDIQKNETQTLDGLLIDTREESEVANGYIPNAIHLSKGIIESAIESAVPNKNQKYFYCGGGFRSALVADKLREGYKNVISVDGGWRAWNAKGYPTVSPNQFRPNEFLKLVNNAKTQIKECSTTELYNKINSQELDGIVFDVREDSEFNRFHIQGATHLSKGQIEVKIENLVPNKQQKIYLYCGSGFRSALAAESLQHGYTNVVSIAGGIKDWLANNYPVSQN 6my4-a1-m1-cH_6my4-a1-m1-cA Crystal structure of the dimeric bH1-Fab variant [HC-Y33W,HC-D98M,HC-G99M,LC-S30bR] V9HW68 V9HW68 1.69 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 6mxr-a1-m1-cH_6mxr-a1-m1-cA 6mxs-a1-m1-cH_6mxs-a1-m1-cA 6my5-a1-m1-cH_6my5-a1-m1-cA EVQLVESGGGLVQPGGSLRLSCAASGFNIKDTWIHWVRQAPGKGLEWVARIYPTNGYTRYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCSRWGGMMFYAMDYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC EVQLVESGGGLVQPGGSLRLSCAASGFNIKDTWIHWVRQAPGKGLEWVARIYPTNGYTRYADSVKGRFTISADTSKNTAYLQMNSLRAEDTAVYYCSRWGGMMFYAMDYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 6mze-a2-m1-cS_6mze-a2-m1-cZ Structural Basis of Tubulin Recruitment and Assembly by Microtubule Polymerases with Tumor Overexpressed Gene (TOG) Domain Arrays A0A493R6X7 A0A493R6X7 3.6 X-RAY DIFFRACTION 36 1.0 226302 (Lachancea kluyveri NRRL Y-12651) 226302 (Lachancea kluyveri NRRL Y-12651) 490 492 6mze-a1-m1-cL_6mze-a1-m1-cE 6mzf-a1-m1-cE_6mzf-a1-m1-cL 6mzf-a2-m1-cS_6mzf-a2-m1-cZ LEQRASHKVWKARLNAYQELNNLFTKSSVIPNDVANYWLDPELFASYIVDSNVVAQENAIIALHTLLEYISQVPNVSTSKLRLQWIPPLVEKGLSSSRAATKAKATDCIMLLTQSDTSIQQTVNLMLPSLSNKLPRLVSSCVKCLATIIEEFGFINVSDINILLSEILEPLPKLSSHADRNVRSETMNLILQIYKWFGKELLQELLLEKLKPIQQRDLSRMFEKYEGTIPPKQQPRLFQWAVPNAVDPFELLPPSVILDKFPADFQTRISSTKWKDRVEALEEIHNNVLKPVKKLAHKNQDYSDYLRVLANVIQKDANVQAVTIAANSVQLLCNSLRSNFTRSYGAIVLVPLLERTKEKKPSVNEAICSALDAVATYCGFDDCLEETLNYMKHKTPQVRIECTKFLTRMLQGWKSDGPLQNQLLFKLLPEVTTAVLKIVNDTQPTTRNTGFECFATLMKLVGERELADPLEKLDNLKKKKIYEYYEKVEV LEQRASHKVWKARLNAYQELNNLFTKSSVIPNDVANYWLDPELFASYIVDSNVVAQENAIIALHTLLEYISQVPNVSTSKLRLQWIPPLVEKGLSSSRAATKAKATDCIMLLTQSDTSIQQTVNLMLPSLSNKLPRLVSSCVKCLATIIEEFGFINVSDINILLSEILEPLPKLSSHADRNVRSETMNLILQIYKWFGKELLQELLLEKLKPIQQRDLSRMFEKYEGTIPPKQQPRLFQWAVPAQNAVDPFELLPPSVILDKFPADFQTRISSTKWKDRVEALEEIHNNVLKPVKKLAHKNQDYSDYLRVLANVIQKDANVQAVTIAANSVQLLCNSLRSNFTRSYGAIVLVPLLERTKEKKPSVNEAICSALDAVATYCGFDDCLEETLNYMKHKTPQVRIECTKFLTRMLQGWKSDGPLQNQLLFKLLPEVTTAVLKIVNDTQPTTRNTGFECFATLMKLVGERELADPLEKLDNLKKKKIYEYYEKVEV 6mzj-a1-m1-cB_6mzj-a1-m1-cE Germline VRC01 antibody recognition of a modified clade C HIV-1 envelope trimer, 2 Fabs bound, sharpened map Q2N0S9 Q2N0S9 4.8 ELECTRON MICROSCOPY 85 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 550 550 6myy-a1-m1-cA_6myy-a1-m1-cB 6myy-a1-m1-cA_6myy-a1-m1-cE 6myy-a1-m1-cB_6myy-a1-m1-cE 6mzj-a1-m1-cA_6mzj-a1-m1-cB 6mzj-a1-m1-cA_6mzj-a1-m1-cE 6nm6-a1-m2-cB_6nm6-a1-m3-cB 6pw6-a1-m1-cB_6pw6-a1-m1-cD 6pw6-a1-m1-cB_6pw6-a1-m1-cF 6pw6-a1-m1-cD_6pw6-a1-m1-cF NLWVTVYYGVPVWKEAKTTLFCASHNVWATHACVPTDPNPQEVVLENVTENFNMWKNDMVDQMQEDVISIWDQSLKPCVKLTPLCVTLNCTNVTLGEIKNCSFDITTEIRDKTRKEYALFYRLDIVPLSNTYRLINCNTSTCTQACPKVTFDPIPIHYCAPAGYAILKCNNKTFNGKGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIVIRSKNLADNAKIIIVQLNKSVEIVCTRPNNNTRRSIRIGPGQTFYATDIIGDIRQAYCNISGRNWSEAVNQVKKKLKEHFPHKNISFQSSSGGDLEITTHSFNCGGEFFYCNTSGLFNDTISNATIMLPCRIKQIINMWQEVGKCIYAPPIKGNITCKSDITGLLLLRDGCNTANNAEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRFLGAAGSTMGAASMTLTVQARNLLSGIVVWGIKQLQARVLAVERYLRDQQLLGIWGCSGKLICCTNVPWNSSWSNRNLSEIWDNMTWLQWDKEISNYTQIIYGLLEESQNQQEKNEQDLLAL NLWVTVYYGVPVWKEAKTTLFCASHNVWATHACVPTDPNPQEVVLENVTENFNMWKNDMVDQMQEDVISIWDQSLKPCVKLTPLCVTLNCTNVTLGEIKNCSFDITTEIRDKTRKEYALFYRLDIVPLSNTYRLINCNTSTCTQACPKVTFDPIPIHYCAPAGYAILKCNNKTFNGKGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIVIRSKNLADNAKIIIVQLNKSVEIVCTRPNNNTRRSIRIGPGQTFYATDIIGDIRQAYCNISGRNWSEAVNQVKKKLKEHFPHKNISFQSSSGGDLEITTHSFNCGGEFFYCNTSGLFNDTISNATIMLPCRIKQIINMWQEVGKCIYAPPIKGNITCKSDITGLLLLRDGCNTANNAEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRFLGAAGSTMGAASMTLTVQARNLLSGIVVWGIKQLQARVLAVERYLRDQQLLGIWGCSGKLICCTNVPWNSSWSNRNLSEIWDNMTWLQWDKEISNYTQIIYGLLEESQNQQEKNEQDLLAL 6n0i-a1-m1-cA_6n0i-a1-m1-cB 2.60 Angstrom Resolution Crystal Structure of Elongation Factor G 2 from Pseudomonas putida. Q88FI4 Q88FI4 2.6 X-RAY DIFFRACTION 68 0.999 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 674 679 MARTTPIELYRNIGIVAHVDAGKTTTTERILFYTGVSAATTAFWQGSTKQFAHKYRFNIIDTPGHVDFTIEVERSLRVLDGAVVVFSGADGVEPQSETVWRQANKYHVPRLAYINKMDRQGADFLRVVKQIDQRLGHHPVPIQLAIGSEENFMGQIDLVKMKAIYWNDADQGTSYREEEIPAELKALADEWRAHMIEAAAEANDELTMKFLDGEELSIEEIKAGLRQRTIANEIVPTILGSSFKNKGVPLMLDAVIDYLPAPSEIPAIRGTDPDDEEKHLERHADDKEPFSALAFKIATDPFVGTLTFARVYSGVLSSGNAVLNSVKGKKERIGRMVQMHANQRAEIKDVCAGDIAALIGMKDVTTGDTLCDMDKPIILERMDFPDPVISVAVEPKTKADQEKMGIALGKLAQEDPSFRVRTDEETGQTIISGMGELHLDIIVDRMRREFNVEANIGKPQVAYREKIRNTCEIEGRFVRQSGGRGQYGHCWIRFAPGDEGKEGLEFINEIVGGVVPREYIPAIQKGIEEQMKNGVLAGYPLINLKAAVFDGSYHDVDSNEMAYKIAASMATKQLSQKGGAVLLEPVMKVEVVTPEEYQGDILGDLSRRRGMIQDGDETPAGKVIRAEVPLGEMFGYATSMRSMTQGRASFSMEFTRYAEAPASIADGIVKKSRG AMARTTPIELYRNIGIVAHVDAGKTTTTERILFYTGVNITITSAATTAFWQGSTKQFAHKYRFNIIDTPGHVDFTIEVERSLRVLDGAVVVFSGADGVEPQSETVWRQANKYHVPRLAYINKMDRQGADFLRVVKQIDQRLGHHPVPIQLAIGSEENFMGQIDLVKMKAIYWNDADQGTSYREEEIPAELKALADEWRAHMIEAAAEANDELTMKFLDGEELSIEEIKAGLRQRTIANEIVPTILGSSFKNKGVPLMLDAVIDYLPAPSEIPAIRGTDPDDEEKHLERHADDKEPFSALAFKIATDPFVGTLTFARVYSGVLSSGNAVLNSVKGKKERIGRMVQMHANQRAEIKDVCAGDIAALIGMKDVTTGDTLCDMDKPIILERMDFPDPVISVAVEPKTKADQEKMGIALGKLAQEDPSFRVRTDEETGQTIISGMGELHLDIIVDRMRREFNVEANIGKPQVAYREKIRNTCEIEGRFVRQSGGRGQYGHCWIRFAPGDEGKEGLEFINEIVGGVVPREYIPAIQKGIEEQMKNGVLAGYPLINLKAAVFDGSYHDVDSNEMAYKIAASMATKQLSQKGGAVLLEPVMKVEVVTPEEYQGDILGDLSRRRGMIQDGDETPAGKVIRAEVPLGEMFGYATSMRSMTQGRASFSMEFTRYAEAPASIADGIVKKSR 6n0u-a2-m1-cD_6n0u-a2-m3-cD Crystal structure of a glucose-1-phosphate thymidylyltransferase from Burkholderia phymatum bound to 2'-deoxy-thymidine-B-L-rhamnose B2JFC5 B2JFC5 2.1 X-RAY DIFFRACTION 95 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 288 288 6n0u-a1-m1-cB_6n0u-a1-m1-cA 6n0u-a1-m2-cB_6n0u-a1-m2-cA 6n0u-a2-m1-cC_6n0u-a2-m3-cC ARKGIILAGGSGTRLYPITHVVSKQLLPVYDKPMIYYPLSTLMVAGIRDVLIISTPQDTPRFEAMLGDGSQWGMNIQYAVQPSPDGLAQAFIIGREFVGNDPSALILGDNIFYGHDLAKQLERANARTDGATVFAYHVHDPERYGVVEFDKDFRALSIEEKPAKPRSNYAVTGLYFYDNQVCDIAADIKPSARGELEITDVNSRYLSQKTLDVEIMGRGYAWLDTGTHDSLIEAATFIATLQKRQGLVVACPEEIAYRRKWINAEQLLALARPLSKNAYGQYLQNLLT ARKGIILAGGSGTRLYPITHVVSKQLLPVYDKPMIYYPLSTLMVAGIRDVLIISTPQDTPRFEAMLGDGSQWGMNIQYAVQPSPDGLAQAFIIGREFVGNDPSALILGDNIFYGHDLAKQLERANARTDGATVFAYHVHDPERYGVVEFDKDFRALSIEEKPAKPRSNYAVTGLYFYDNQVCDIAADIKPSARGELEITDVNSRYLSQKTLDVEIMGRGYAWLDTGTHDSLIEAATFIATLQKRQGLVVACPEEIAYRRKWINAEQLLALARPLSKNAYGQYLQNLLT 6n0u-a2-m3-cD_6n0u-a2-m3-cC Crystal structure of a glucose-1-phosphate thymidylyltransferase from Burkholderia phymatum bound to 2'-deoxy-thymidine-B-L-rhamnose B2JFC5 B2JFC5 2.1 X-RAY DIFFRACTION 85 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 288 295 6n0u-a1-m1-cA_6n0u-a1-m2-cA 6n0u-a1-m1-cB_6n0u-a1-m2-cB 6n0u-a2-m1-cD_6n0u-a2-m1-cC ARKGIILAGGSGTRLYPITHVVSKQLLPVYDKPMIYYPLSTLMVAGIRDVLIISTPQDTPRFEAMLGDGSQWGMNIQYAVQPSPDGLAQAFIIGREFVGNDPSALILGDNIFYGHDLAKQLERANARTDGATVFAYHVHDPERYGVVEFDKDFRALSIEEKPAKPRSNYAVTGLYFYDNQVCDIAADIKPSARGELEITDVNSRYLSQKTLDVEIMGRGYAWLDTGTHDSLIEAATFIATLQKRQGLVVACPEEIAYRRKWINAEQLLALARPLSKNAYGQYLQNLLT MARKGIILAGGSGTRLYPITHVVSKQLLPVYDKPMIYYPLSTLMVAGIRDVLIISTPQDTPRFEAMLGDGSQWGMNIQYAVQPSPDGLAQAFIIGREFVGNDPSALILGDNIFYGHDLAKQLERANARTDGATVFAYHVHDPERYGVVEFDKDFRALSIEEKPAKPRSNYAVTGLYFYDNQVCDIAADIKPSARGELEITDVNSRYLSQKTLDVEIMGRGYAWLDTGTHDSLIEAATFIATLQKRQGLVVACPEEIAYRRKWINAEQLLALARPLSKNAYGQYLQNLLTDQVAWP 6n0x-a1-m1-cE_6n0x-a1-m1-cA Crystal structure of Anaerolinea thermophila mevalonate 5-phosphate decarboxylase complexed with (R)-MVAP E8N6F3 E8N6F3 1.44 X-RAY DIFFRACTION 69 0.997 926569 (Anaerolinea thermophila UNI-1) 926569 (Anaerolinea thermophila UNI-1) 320 321 6n0x-a2-m1-cF_6n0x-a2-m1-cB 6n0x-a3-m1-cD_6n0x-a3-m1-cC 6n0y-a1-m1-cE_6n0y-a1-m1-cA 6n0y-a2-m1-cF_6n0y-a2-m1-cB 6n0y-a3-m1-cC_6n0y-a3-m1-cD 6n0z-a1-m1-cE_6n0z-a1-m1-cA 6n0z-a2-m1-cB_6n0z-a2-m1-cF 6n0z-a3-m1-cD_6n0z-a3-m1-cC MGQATAIAHPNIAFIKYWGNRDAVLRIPENGSISMNLAELTVKTTVIFEKHSREDTLILNGALADEPALKRVSHFLDRVREFAGISWHAHVISENNFPTGAGIASSAAAFAALALAATSAIGLHLSERDLSRLARKGSGSACRSIPGGFVEWIPGETDEDSYAVSIAPPEHWALTDCIAILSTQPIGSTQGHALASTSPLQPARVADTPRRLEIVRRAILERDFLSLAEMIEHDSNLMHAVMMTSTPPLFYWEPVSLVIMKSVREWRESGLPCAYTLDAGPNVHVICPSEYAEEVIFRLTSIPGVQTVLKASAGDSAKLI GMGQATAIAHPNIAFIKYWGNRDAVLRIPENGSISMNLAELTVKTTVIFEKHSREDTLILNGALADEPALKRVSHFLDRVREFAGISWHAHVISENNFPTGAGIASSAAAFAALALAATSAIGLHLSERDLSRLARKGSGSACRSIPGGFVEWIPGETDEDSYAVSIAPPEHWALTDCIAILSTPIGSTQGHALASTSPLQPARVADTPRRLEIVRRAILERDFLSLAEMIEHDSNLMHAVMMTSTPPLFYWEPVSLVIMKSVREWRESGLPCAYTLDAGPNVHVICPSEYAEEVIFRLTSIPGVQTVLKASAGDSAKLIE 6n10-a1-m1-cA_6n10-a1-m2-cA Crystal structure of Arabidopsis thaliana mevalonate 5-diphosphate decarboxylase 1 complexed with (R)-MVAPP O23722 O23722 2.3 X-RAY DIFFRACTION 65 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 403 403 EEKWVVMVTAQTPTNIAVIKYWGKRDEVRILPINDSISVTLDPDHLCTLTTVAVSPSFDRDRMWLNGKEISLSGSRYQNCLREIRSRADDVEDKEKGIKIAKKDWEKLHLHIASHNNFPTAAGLASSAAGFACLVFALAKLMNVNEDPSQLSAIARQGSGSACRSLFGGFVKWNMGNKEDGSDSVAVQLVDDKHWDDLVIIIAVVSSRQKETSSTSGMRESVETSLLLQHRAKEVVPVRILQMEEAIKNRDFTSFTKLTCSDSNQFHAVCMDTSPPIFYMNDTSHRIISLVEKWNRSAGTPEIAYTFDAGPNAVMIARNRKVAVELLQGLLYCFPPKPDTDMKSYVLGDTSIVKEPQGIKDKIGSQDQKGEVSYFICSRPGRGPVVLQDQTQALLHPQTGLPK EEKWVVMVTAQTPTNIAVIKYWGKRDEVRILPINDSISVTLDPDHLCTLTTVAVSPSFDRDRMWLNGKEISLSGSRYQNCLREIRSRADDVEDKEKGIKIAKKDWEKLHLHIASHNNFPTAAGLASSAAGFACLVFALAKLMNVNEDPSQLSAIARQGSGSACRSLFGGFVKWNMGNKEDGSDSVAVQLVDDKHWDDLVIIIAVVSSRQKETSSTSGMRESVETSLLLQHRAKEVVPVRILQMEEAIKNRDFTSFTKLTCSDSNQFHAVCMDTSPPIFYMNDTSHRIISLVEKWNRSAGTPEIAYTFDAGPNAVMIARNRKVAVELLQGLLYCFPPKPDTDMKSYVLGDTSIVKEPQGIKDKIGSQDQKGEVSYFICSRPGRGPVVLQDQTQALLHPQTGLPK 6n12-a1-m1-cA_6n12-a1-m1-cB Structure of GTPase Domain of Human Septin 7 at High Resolution Q16181 Q16181 2.23 X-RAY DIFFRACTION 99 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 251 254 3t5d-a1-m1-cA_3t5d-a1-m1-cC 7m6j-a1-m1-cC_7m6j-a1-m1-cD PGFEFTLMVVGESGLGKSTLINSLFLTDLYSRIKKTVQVEQSKVLIKEGGVQLLLTIVDTPGFGDAVDNSNCWQPVIDYIDSKFEDYLNAESRVNRRQMPDNRVQCCLYFIAPSGHGLKPLDIEFMKRLHEKVNIIPLIAKADTLTPEECQQFKKQIMKEIQEHKIKIYEFPKIKDRLPLAVVGSNTIIEVNGKRVRGRQYPWGVAEVENGEHCDFTILRNMLIRTHMQDLKDVTNNVHYENYRSRKLAAV GFEFTLMVVGESGLGKSTLINSLFLTDLYSPEYPSHRIKKTVQVEQSKVLIKEGGVQLLLTIVDTPGFGDAVDNSNCWQPVIDYIDSKFEDYLNAESRVNRRQMPDNRVQCCLYFIAPSGHGLKPLDIEFMKRLHEKVNIIPLIAKADTLTPEECQQFKKQIMKEIQEHKIKIYEFKIKDRLPLAVVGSNTIIEVNGKRVRGRQYPWGVAEVENGEHCDFTILRNMLIRTHMQDLKDVTNNVHYENYRSRKLAA 6n1f-a6-m1-cC_6n1f-a6-m2-cD Crystal structure of Oxidoreductase, 2OG-Fe(II) oxygenase family, from Burkholderia pseudomallei Q3JFV4 Q3JFV4 2.05 X-RAY DIFFRACTION 49 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 199 207 6n1f-a5-m1-cA_6n1f-a5-m1-cB TAELHFRCNEGGADYAAQLREVGTVLPAYVAFDAHELARIDALQARLPEEPVHDIYVRRIVDRAGERPQLVNLPHSETILNLLGDARRTRFFGDFGTRAEYFIRRCQINRLKDSFIGHLDAASNPDYEFSVVIQLGRAFDGGEFVVHPQGRPPNVFAPAYGTVIVTSCAHRHEVRTVRANERTSLVYFYSRHNGANRRA TAELHFRCNEGGADYAAQLREVGTVLPAYVAFDAHELARIDALQARLPEEPVTAGDAGDTHDIYVRRIVDRAGERPQLVNLPHSETILNLLGDARRTRFFGDFGTRAEYFIRRCQINRLKDSFIGHLDAASNPDYEFSVVIQLGRAFDGGEFVVHPQGRPPNVFAPAYGTVIVTSCAHRHEVRTVRANERTSLVYFYSRHNGANRRA 6n1m-a1-m1-cA_6n1m-a1-m4-cA Crystal structure of Fumarate hydratase class II from Legionella pneumophila Philadelphia 1 Q5ZRE5 Q5ZRE5 1.55 X-RAY DIFFRACTION 252 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 466 466 6n1m-a1-m2-cA_6n1m-a1-m3-cA HHHMAKTRVETDSMGEIEVPSDKYWGAQTERSLHHFNIGKDIMPREVTHAFGILKKAAALTNLELGKLPKDKADLIVQAAEEVSKGLLDEHFPLHVWQTGSGTQSNMNANEVISNRAIELAGGTLGSKSPIHPNDHVNMSQSSNDTFPTAMHIAAAIAFNEKLLPAVRNLRHVFAAKMDAFKNIIKIGRTHLQDAVPLTLGQEFSGYVAQLDACVHRLEEVLPELYELAAGGTAVGTGLNTHPQFAVKVAEHIAKITKLPFVTAPNKFAALASHEPLVHAHGAMKTLACALMKIANDIRWLASGPRCGIGELIIPENEPGSSIMPGKVNPTQCEAMTMVCAQVLGNDTAVGIADSQGNFELNVFKPVIIFNVLHSLNLLADSCHSFQEFCAEGIEPNQPVIDYYLHHSLMLVTALNQHIGYDKAAKIAKTAHHDNISLQEAAVKLGILTAEQFAEFVKPEKMISPE HHHMAKTRVETDSMGEIEVPSDKYWGAQTERSLHHFNIGKDIMPREVTHAFGILKKAAALTNLELGKLPKDKADLIVQAAEEVSKGLLDEHFPLHVWQTGSGTQSNMNANEVISNRAIELAGGTLGSKSPIHPNDHVNMSQSSNDTFPTAMHIAAAIAFNEKLLPAVRNLRHVFAAKMDAFKNIIKIGRTHLQDAVPLTLGQEFSGYVAQLDACVHRLEEVLPELYELAAGGTAVGTGLNTHPQFAVKVAEHIAKITKLPFVTAPNKFAALASHEPLVHAHGAMKTLACALMKIANDIRWLASGPRCGIGELIIPENEPGSSIMPGKVNPTQCEAMTMVCAQVLGNDTAVGIADSQGNFELNVFKPVIIFNVLHSLNLLADSCHSFQEFCAEGIEPNQPVIDYYLHHSLMLVTALNQHIGYDKAAKIAKTAHHDNISLQEAAVKLGILTAEQFAEFVKPEKMISPE 6n1m-a1-m2-cA_6n1m-a1-m4-cA Crystal structure of Fumarate hydratase class II from Legionella pneumophila Philadelphia 1 Q5ZRE5 Q5ZRE5 1.55 X-RAY DIFFRACTION 132 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 466 466 6n1m-a1-m1-cA_6n1m-a1-m3-cA HHHMAKTRVETDSMGEIEVPSDKYWGAQTERSLHHFNIGKDIMPREVTHAFGILKKAAALTNLELGKLPKDKADLIVQAAEEVSKGLLDEHFPLHVWQTGSGTQSNMNANEVISNRAIELAGGTLGSKSPIHPNDHVNMSQSSNDTFPTAMHIAAAIAFNEKLLPAVRNLRHVFAAKMDAFKNIIKIGRTHLQDAVPLTLGQEFSGYVAQLDACVHRLEEVLPELYELAAGGTAVGTGLNTHPQFAVKVAEHIAKITKLPFVTAPNKFAALASHEPLVHAHGAMKTLACALMKIANDIRWLASGPRCGIGELIIPENEPGSSIMPGKVNPTQCEAMTMVCAQVLGNDTAVGIADSQGNFELNVFKPVIIFNVLHSLNLLADSCHSFQEFCAEGIEPNQPVIDYYLHHSLMLVTALNQHIGYDKAAKIAKTAHHDNISLQEAAVKLGILTAEQFAEFVKPEKMISPE HHHMAKTRVETDSMGEIEVPSDKYWGAQTERSLHHFNIGKDIMPREVTHAFGILKKAAALTNLELGKLPKDKADLIVQAAEEVSKGLLDEHFPLHVWQTGSGTQSNMNANEVISNRAIELAGGTLGSKSPIHPNDHVNMSQSSNDTFPTAMHIAAAIAFNEKLLPAVRNLRHVFAAKMDAFKNIIKIGRTHLQDAVPLTLGQEFSGYVAQLDACVHRLEEVLPELYELAAGGTAVGTGLNTHPQFAVKVAEHIAKITKLPFVTAPNKFAALASHEPLVHAHGAMKTLACALMKIANDIRWLASGPRCGIGELIIPENEPGSSIMPGKVNPTQCEAMTMVCAQVLGNDTAVGIADSQGNFELNVFKPVIIFNVLHSLNLLADSCHSFQEFCAEGIEPNQPVIDYYLHHSLMLVTALNQHIGYDKAAKIAKTAHHDNISLQEAAVKLGILTAEQFAEFVKPEKMISPE 6n1m-a1-m3-cA_6n1m-a1-m4-cA Crystal structure of Fumarate hydratase class II from Legionella pneumophila Philadelphia 1 Q5ZRE5 Q5ZRE5 1.55 X-RAY DIFFRACTION 168 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 466 466 6n1m-a1-m1-cA_6n1m-a1-m2-cA HHHMAKTRVETDSMGEIEVPSDKYWGAQTERSLHHFNIGKDIMPREVTHAFGILKKAAALTNLELGKLPKDKADLIVQAAEEVSKGLLDEHFPLHVWQTGSGTQSNMNANEVISNRAIELAGGTLGSKSPIHPNDHVNMSQSSNDTFPTAMHIAAAIAFNEKLLPAVRNLRHVFAAKMDAFKNIIKIGRTHLQDAVPLTLGQEFSGYVAQLDACVHRLEEVLPELYELAAGGTAVGTGLNTHPQFAVKVAEHIAKITKLPFVTAPNKFAALASHEPLVHAHGAMKTLACALMKIANDIRWLASGPRCGIGELIIPENEPGSSIMPGKVNPTQCEAMTMVCAQVLGNDTAVGIADSQGNFELNVFKPVIIFNVLHSLNLLADSCHSFQEFCAEGIEPNQPVIDYYLHHSLMLVTALNQHIGYDKAAKIAKTAHHDNISLQEAAVKLGILTAEQFAEFVKPEKMISPE HHHMAKTRVETDSMGEIEVPSDKYWGAQTERSLHHFNIGKDIMPREVTHAFGILKKAAALTNLELGKLPKDKADLIVQAAEEVSKGLLDEHFPLHVWQTGSGTQSNMNANEVISNRAIELAGGTLGSKSPIHPNDHVNMSQSSNDTFPTAMHIAAAIAFNEKLLPAVRNLRHVFAAKMDAFKNIIKIGRTHLQDAVPLTLGQEFSGYVAQLDACVHRLEEVLPELYELAAGGTAVGTGLNTHPQFAVKVAEHIAKITKLPFVTAPNKFAALASHEPLVHAHGAMKTLACALMKIANDIRWLASGPRCGIGELIIPENEPGSSIMPGKVNPTQCEAMTMVCAQVLGNDTAVGIADSQGNFELNVFKPVIIFNVLHSLNLLADSCHSFQEFCAEGIEPNQPVIDYYLHHSLMLVTALNQHIGYDKAAKIAKTAHHDNISLQEAAVKLGILTAEQFAEFVKPEKMISPE 6n1x-a1-m1-cA_6n1x-a1-m4-cA BshA from Staphylococcus aureus complexed with UDP and N-acetylglucosamine T1Y9F7 T1Y9F7 2.35 X-RAY DIFFRACTION 39 1.0 1193576 (Staphylococcus aureus subsp. aureus CN1) 1193576 (Staphylococcus aureus subsp. aureus CN1) 377 377 6n1x-a1-m2-cA_6n1x-a1-m3-cA FQGHMKIGITCYPSMGGSGIIATELGIKLAERGHEVHFITSNIPFRIRKPLPNMIFHQVEVNQYAVFQYPPYDITLSTKIAEVIKEYDLDLLHMHYAVPHAICGILAREMSGKDIKIMTTLHGTDITVLGYDHSLQGAIKFGIEKSDIVTSVSKSLAQETHEIIETNKEIIPIYNFVRENEFPTKHNTALKSQFGIAPDEKVLIHVSNFRQVKRIDTIIETFAKVREKIPSKLILLGDGPELVPMRQLTKELNVEEDVLFLGKQDCVSEFYQLSDLVLLLSEKESFGLTLLEAMKTGVVPIGSNAGGIKEVIKHGETGFVVDVGDCDSASDYAIRLLEDKVLYNKLQKNMLADIAERFGSELITDQYEYYYQKMLNE FQGHMKIGITCYPSMGGSGIIATELGIKLAERGHEVHFITSNIPFRIRKPLPNMIFHQVEVNQYAVFQYPPYDITLSTKIAEVIKEYDLDLLHMHYAVPHAICGILAREMSGKDIKIMTTLHGTDITVLGYDHSLQGAIKFGIEKSDIVTSVSKSLAQETHEIIETNKEIIPIYNFVRENEFPTKHNTALKSQFGIAPDEKVLIHVSNFRQVKRIDTIIETFAKVREKIPSKLILLGDGPELVPMRQLTKELNVEEDVLFLGKQDCVSEFYQLSDLVLLLSEKESFGLTLLEAMKTGVVPIGSNAGGIKEVIKHGETGFVVDVGDCDSASDYAIRLLEDKVLYNKLQKNMLADIAERFGSELITDQYEYYYQKMLNE 6n1x-a1-m2-cA_6n1x-a1-m4-cA BshA from Staphylococcus aureus complexed with UDP and N-acetylglucosamine T1Y9F7 T1Y9F7 2.35 X-RAY DIFFRACTION 100 1.0 1193576 (Staphylococcus aureus subsp. aureus CN1) 1193576 (Staphylococcus aureus subsp. aureus CN1) 377 377 6n1x-a1-m1-cA_6n1x-a1-m3-cA FQGHMKIGITCYPSMGGSGIIATELGIKLAERGHEVHFITSNIPFRIRKPLPNMIFHQVEVNQYAVFQYPPYDITLSTKIAEVIKEYDLDLLHMHYAVPHAICGILAREMSGKDIKIMTTLHGTDITVLGYDHSLQGAIKFGIEKSDIVTSVSKSLAQETHEIIETNKEIIPIYNFVRENEFPTKHNTALKSQFGIAPDEKVLIHVSNFRQVKRIDTIIETFAKVREKIPSKLILLGDGPELVPMRQLTKELNVEEDVLFLGKQDCVSEFYQLSDLVLLLSEKESFGLTLLEAMKTGVVPIGSNAGGIKEVIKHGETGFVVDVGDCDSASDYAIRLLEDKVLYNKLQKNMLADIAERFGSELITDQYEYYYQKMLNE FQGHMKIGITCYPSMGGSGIIATELGIKLAERGHEVHFITSNIPFRIRKPLPNMIFHQVEVNQYAVFQYPPYDITLSTKIAEVIKEYDLDLLHMHYAVPHAICGILAREMSGKDIKIMTTLHGTDITVLGYDHSLQGAIKFGIEKSDIVTSVSKSLAQETHEIIETNKEIIPIYNFVRENEFPTKHNTALKSQFGIAPDEKVLIHVSNFRQVKRIDTIIETFAKVREKIPSKLILLGDGPELVPMRQLTKELNVEEDVLFLGKQDCVSEFYQLSDLVLLLSEKESFGLTLLEAMKTGVVPIGSNAGGIKEVIKHGETGFVVDVGDCDSASDYAIRLLEDKVLYNKLQKNMLADIAERFGSELITDQYEYYYQKMLNE 6n2a-a1-m1-cB_6n2a-a1-m1-cA Meso-Diaminopimelate Decarboxylase from Arabidopsis thaliana (Isoform 1) Q949X7 Q949X7 1.88 X-RAY DIFFRACTION 226 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 411 422 6n2f-a1-m1-cA_6n2f-a1-m1-cB FDHCFKKSSDGFLYCEGTKVEDIMESVERRPFYLYSKPQITRNLEAYKEALEGVSSVIGYAIKANNNLKILEHLRSLGCGAVLVSGNELRLALRAGFDPTKCIFNGNGKSLEDLVLAAQEGVFVNVDSEFDLNNIVEASRISGKQVNVLLRINPDGNKNSKFGIRNEKLQWFLDQVKAHPKELKLVGAHCHLGSTITKVDIFRDAAVLMIEYIDEIRRQGFEVSYLNIGGGLGIDYYHAGAVLPTPMDLINTVRELVLSRDLNLIIEPGRSLIANTCCFVNHVTGVKTNGTKNFIVIDGSMAELIRPSLYDAYQHIELVSPPPAEAEVTKFDVVGPVCESADFLGKDRELPTPPQGAGLVVHDAGAYCMSMASTYNLKMRPPEYWVEEDGSITKIRHAETFDDHLRFFEGL FDHCFKKSSDGFLYCEGTKVEDIMESVERRPFYLYSKPQITRNLEAYKEALEGVSSVIGYAIKANNNLKILEHLRSLGCGAVLVSGNELRLALRAGFDPTKCIFNGNGKSLEDLVLAAQEGVFVNVDSEFDLNNIVEASRISGKQVNVLLRINPDVDPQVHPYVATGNKNSKFGIRNEKLQWFLDQVKAHPKELKLVGAHCHLGSTITKVDIFRDAAVLMIEYIDEIRRQGFEVSYLNIGGGLGIDYYHAGAVLPTPMDLINTVRELVLSRDLNLIIEPGRSLIANTCCFVNHVTGVKTNGTKNFIVIDGSMAELIRPSLYDAYQHIELVSPPPAEAEVTKFDVVGPVCESADFLGKDRELPTPPQGAGLVVHDAGAYCMSMASTYNLKMRPPEYWVEEDGSITKIRHAETFDDHLRFFEGL 6n2e-a1-m1-cD_6n2e-a1-m1-cC Crystal Structure of Human Protocadherin-15 EC1-3 G16D N369D Q370N and Mouse Cadherin-23 EC1-2 T15E Q99PF4 Q99PF4 2.9 X-RAY DIFFRACTION 15 0.984 10090 (Mus musculus) 10090 (Mus musculus) 189 193 VNRLPFFTNHFFDEYLLISEDTPVTQLLARDMDNDPLVFGVSGEEASRFFAVEPDTGVVWLRQPLDRETKSEFTVEFSVSDHQGVITRKVNIQVGDVNDNAPTFHNQPYSVRIPENTPVGTPIFIVNATDPDLGAGGSVLYSFQPPSPFFAIDSARGIVTVIQELDYEVTQAYNATDQDKTRPLSTLAN VNRLPFFTNHFFDEYLLISEDTPVGSSVTQLLARDMDNDPLVFGVSGEEASRFFAVEPDTGVVWLRQPLDRETKSEFTVEFSVSDHQGVITRKVNIQVGDVNDNAPTFHNQPYSVRIPENTPVGTPIFIVNATDPDLGAGGSVLYSFQPPSPFFAIDSARGIVTVIQELDYEVTLTVNATDQDKTRPLSTLAN 6n2g-a1-m2-cD_6n2g-a1-m1-cA Crystal structure of Caenorhabditis elegans NAP1 Q19007 Q19007 3.003 X-RAY DIFFRACTION 261 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 273 285 6k02-a1-m1-cA_6k02-a1-m2-cA 6k02-a2-m1-cB_6k02-a2-m2-cB 6k0c-a1-m1-cB_6k0c-a1-m1-cA 6n2g-a2-m1-cB_6n2g-a2-m1-cC STNFDMIQALPLNVKQRVCALKNLQMKTIQIESDFYKRVHELEIEFEGKFKSTFDQRKAIVAGEVEPTKEQIDTPILEGLEGDQLAELYKAAEADPSAKGIKDFWLTALRTHDLVAEAIEEHDVPILSYLTDVTTAASKDPAGFKIEFHFATNPYFKNQVLTKTYLLGFDPDAEAPLQFDGPHVIRAVGDTIEWEDGKNVTKKAVKKKQKKGANAGKFLTKTVKADSFFNFFEPPKSKDEQAEEFLELDYEMGQAIRDTIIPRAVLFYTGELQ GLLSTNFDMIQALPLNVKQRVCALKNLQMKTIQIESDFYKRVHELEIEFEGKFKSTFDQRKAIVAGEVEPTKEQIDTPILEGLEGDQLAELYKAAEADPSAKGIKDFWLTALRTHDLVAEAIEEHDVPILSYLTDVTTAASKDPAGFKIEFHFATNPYFKNQVLTKTYLLGFDPDAEAPLQFDGPHVIRAVGDTIEWEDGKNVTKKAVKKKQKKGANAGKFLTKTVKADSFFNFFEPPKSKDDEDDEQAEEFLELDYEMGQAIRDTIIPRAVLFYTGELQSDDMF 6n2l-a1-m1-cA_6n2l-a1-m2-cA Crystal structure of a histone family protein DNA-binding protein from Burkholderia ambifaria B1YQ53 B1YQ53 1.85 X-RAY DIFFRACTION 154 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 88 88 HHHHMNKQELIDAVAAQTGASKAQTGETLDTLLEVIKKAVSKGDAVQLIGFGSFGSGKRAARTGTIKIPAAKTVKFTAGKAFKDAVNK HHHHMNKQELIDAVAAQTGASKAQTGETLDTLLEVIKKAVSKGDAVQLIGFGSFGSGKRAARTGTIKIPAAKTVKFTAGKAFKDAVNK 6n2n-a1-m1-cA_6n2n-a1-m1-cC Crystal structure of 2-oxoglutarate:ferredoxin oxidoreductase from Magnetococcus marinus A0L8G4 A0L8G4 1.937 X-RAY DIFFRACTION 216 1.0 156889 (Magnetococcus marinus MC-1) 156889 (Magnetococcus marinus MC-1) 572 572 6n2o-a1-m1-cA_6n2o-a1-m1-cC EKKDLIIRVAGEGGEGIISSGDFIAAACARAGLEVYTFKTFPAEIKGGYAMYQVRASSEKLYCQGDTFDVFCAFNGEAYEQNKDKIKPGTAFVYDYPGGDFEPDEIPEGVFAYPIPMSQTAKEMKSYRSKNMVALGALSELFNISENTLKEVLSDKFGKKGEEVLAFNLEAFDKGKALAKALTKADPFRVADPQEPKDVIIMAGNDAVGLGGILGGLEFFSAYPITPATEVAKYVATHLPKCGGDLVQAEDEIASIAQVLGASYAGKKSMTATSGPGLALMSEMLGMAHMSETPCLVVDVQRGGPSTGLPTKHEQSDLFLAIHGGHGDSPRIVLSVEDVKDCISMTVDGLNLAEKYQAPVIVLSDGSLAFSTQTIPRPKPEDFTIINRKTWDGQGTYKRYELTEDNISPMAAPGTPNAKHIATGLEHGETGAPNYSPANHELMHRKRFNKQNSVLDFYKNMEVEGVEGEADVGIITWGSTIGVVREAMQRLTAEGLKVKAMYPKLLWPMPVADYDAFGATCKKVIVPEVNFQGQLSHFIRAETSIKPIPYTICGGLPFTPEMIVNRVKEEIQ EKKDLIIRVAGEGGEGIISSGDFIAAACARAGLEVYTFKTFPAEIKGGYAMYQVRASSEKLYCQGDTFDVFCAFNGEAYEQNKDKIKPGTAFVYDYPGGDFEPDEIPEGVFAYPIPMSQTAKEMKSYRSKNMVALGALSELFNISENTLKEVLSDKFGKKGEEVLAFNLEAFDKGKALAKALTKADPFRVADPQEPKDVIIMAGNDAVGLGGILGGLEFFSAYPITPATEVAKYVATHLPKCGGDLVQAEDEIASIAQVLGASYAGKKSMTATSGPGLALMSEMLGMAHMSETPCLVVDVQRGGPSTGLPTKHEQSDLFLAIHGGHGDSPRIVLSVEDVKDCISMTVDGLNLAEKYQAPVIVLSDGSLAFSTQTIPRPKPEDFTIINRKTWDGQGTYKRYELTEDNISPMAAPGTPNAKHIATGLEHGETGAPNYSPANHELMHRKRFNKQNSVLDFYKNMEVEGVEGEADVGIITWGSTIGVVREAMQRLTAEGLKVKAMYPKLLWPMPVADYDAFGATCKKVIVPEVNFQGQLSHFIRAETSIKPIPYTICGGLPFTPEMIVNRVKEEIQ 6n2n-a1-m1-cB_6n2n-a1-m1-cD Crystal structure of 2-oxoglutarate:ferredoxin oxidoreductase from Magnetococcus marinus A0L8G5 A0L8G5 1.937 X-RAY DIFFRACTION 74 1.0 156889 (Magnetococcus marinus MC-1) 156889 (Magnetococcus marinus MC-1) 291 291 6n2o-a1-m1-cB_6n2o-a1-m1-cD TVEAFHKMENMKPKDYKSEVPTTWCPGCGHFGILNGVYRAMAELGIDSTKFAAISGIGCSSRMPYFVDSYKMHTLHGRAGAVATGTQVARPDLCVVVAGGDGDGFSIGGGHMPHMARKNVNMTYVLMDNGIYGLTKGQYSPTSRPEMTAYTTPYGGPENPMNPLLYMLTYGATYVAQAFAGKPKDCAELIKGAMEHEGFAYVNIFSQCPTFNKIDTVDFYRDLVEPIPEDHDTSDLGAAMELARRPGGKAPTGLLYKTSAPTLDQNLAKIRERLGGHVGYDKNKIIALAKP TVEAFHKMENMKPKDYKSEVPTTWCPGCGHFGILNGVYRAMAELGIDSTKFAAISGIGCSSRMPYFVDSYKMHTLHGRAGAVATGTQVARPDLCVVVAGGDGDGFSIGGGHMPHMARKNVNMTYVLMDNGIYGLTKGQYSPTSRPEMTAYTTPYGGPENPMNPLLYMLTYGATYVAQAFAGKPKDCAELIKGAMEHEGFAYVNIFSQCPTFNKIDTVDFYRDLVEPIPEDHDTSDLGAAMELARRPGGKAPTGLLYKTSAPTLDQNLAKIRERLGGHVGYDKNKIIALAKP 6n34-a1-m1-cA_6n34-a1-m1-cB Crystal structure of the BTB domain of Human NS1-BP Q9Y6Y0 Q9Y6Y0 2.8 X-RAY DIFFRACTION 119 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 YLMFEDENFIESSVAKLNALRKSGQFCDVRLQVCGHEMLAHRAVLACCSPYLFEIFNSGISHVKFDDLNPEAVEVLLNYAYTAQLKADKELVKDVYSAAKKLKMDRVKQVCGDYLLSRM NGYLMFEDENFIESSVAKLNALRKSGQFCDVRLQVCGHEMLAHRAVLACCSPYLFEIFNSISHVKFDDLNPEAVEVLLNYAYTAQLKADKELVKDVYSAAKKLKMDRVKQVCGDYLLSR 6n37-a1-m1-cF_6n37-a1-m1-cJ SegA-sym, conformation of TDP-43 low complexity domain segment A sym Q13148 Q13148 3.8 ELECTRON MICROSCOPY 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 6n37-a1-m1-cA_6n37-a1-m1-cD 6n37-a1-m1-cA_6n37-a1-m1-cE 6n37-a1-m1-cB_6n37-a1-m1-cC 6n37-a1-m1-cB_6n37-a1-m1-cF 6n37-a1-m1-cC_6n37-a1-m1-cG 6n37-a1-m1-cD_6n37-a1-m1-cH 6n37-a1-m1-cE_6n37-a1-m1-cI NFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQS NFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQS 6n37-a1-m1-cH_6n37-a1-m1-cJ SegA-sym, conformation of TDP-43 low complexity domain segment A sym Q13148 Q13148 3.8 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 6n37-a1-m1-cA_6n37-a1-m1-cB 6n37-a1-m1-cA_6n37-a1-m1-cC 6n37-a1-m1-cB_6n37-a1-m1-cD 6n37-a1-m1-cC_6n37-a1-m1-cE 6n37-a1-m1-cD_6n37-a1-m1-cF 6n37-a1-m1-cE_6n37-a1-m1-cG 6n37-a1-m1-cF_6n37-a1-m1-cH 6n37-a1-m1-cG_6n37-a1-m1-cI NFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQS NFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQS 6n3a-a1-m1-cE_6n3a-a1-m1-cJ SegA-long, conformation of TDP-43 low complexity domain segment A long Q13148 Q13148 3.3 ELECTRON MICROSCOPY 195 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 50 50 6n3a-a1-m1-cA_6n3a-a1-m1-cD 6n3a-a1-m1-cA_6n3a-a1-m1-cF 6n3a-a1-m1-cB_6n3a-a1-m1-cC 6n3a-a1-m1-cB_6n3a-a1-m1-cE 6n3a-a1-m1-cC_6n3a-a1-m1-cH 6n3a-a1-m1-cD_6n3a-a1-m1-cG 6n3a-a1-m1-cF_6n3a-a1-m1-cI 6n3a-a1-m1-cK_6n3a-a1-m1-cA 6n3a-a1-m1-cK_6n3a-a1-m1-cF 6n3a-a1-m1-cL_6n3a-a1-m1-cB 6n3a-a1-m1-cL_6n3a-a1-m1-cE 6n3a-a1-m1-cM_6n3a-a1-m1-cB 6n3a-a1-m1-cM_6n3a-a1-m1-cC 6n3a-a1-m1-cN_6n3a-a1-m1-cA 6n3a-a1-m1-cN_6n3a-a1-m1-cD 6n3a-a1-m1-cO_6n3a-a1-m1-cE 6n3a-a1-m1-cO_6n3a-a1-m1-cJ 6n3a-a1-m1-cP_6n3a-a1-m1-cF 6n3a-a1-m1-cP_6n3a-a1-m1-cI 6n3a-a1-m1-cQ_6n3a-a1-m1-cD 6n3a-a1-m1-cQ_6n3a-a1-m1-cG 6n3a-a1-m1-cR_6n3a-a1-m1-cC 6n3a-a1-m1-cR_6n3a-a1-m1-cH 6n3a-a1-m1-cS_6n3a-a1-m1-cI 6n3a-a1-m1-cT_6n3a-a1-m1-cJ MNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQ MNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQ 6n3a-a1-m1-cI_6n3a-a1-m1-cJ SegA-long, conformation of TDP-43 low complexity domain segment A long Q13148 Q13148 3.3 ELECTRON MICROSCOPY 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 50 50 6n3a-a1-m1-cA_6n3a-a1-m1-cB 6n3a-a1-m1-cC_6n3a-a1-m1-cD 6n3a-a1-m1-cE_6n3a-a1-m1-cF 6n3a-a1-m1-cG_6n3a-a1-m1-cH MNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQ MNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQ 6n3a-a1-m1-cO_6n3a-a1-m1-cT SegA-long, conformation of TDP-43 low complexity domain segment A long Q13148 Q13148 3.3 ELECTRON MICROSCOPY 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 6n3a-a1-m1-cK_6n3a-a1-m1-cN 6n3a-a1-m1-cK_6n3a-a1-m1-cP 6n3a-a1-m1-cL_6n3a-a1-m1-cM 6n3a-a1-m1-cL_6n3a-a1-m1-cO 6n3a-a1-m1-cM_6n3a-a1-m1-cR 6n3a-a1-m1-cN_6n3a-a1-m1-cQ 6n3a-a1-m1-cP_6n3a-a1-m1-cS GMLASQQNQS GMLASQQNQS 6n3b-a1-m1-cA_6n3b-a1-m1-cI SegA-asym, conformation of TDP-43 low complexity domain segment A asym Q13148 Q13148 3.8 ELECTRON MICROSCOPY 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 6n3b-a1-m1-cA_6n3b-a1-m1-cG 6n3b-a1-m1-cC_6n3b-a1-m1-cE 6n3b-a1-m1-cE_6n3b-a1-m1-cG MNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQ MNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQ 6n3b-a1-m1-cB_6n3b-a1-m1-cJ SegA-asym, conformation of TDP-43 low complexity domain segment A asym Q13148 Q13148 3.8 ELECTRON MICROSCOPY 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 6n3b-a1-m1-cB_6n3b-a1-m1-cH 6n3b-a1-m1-cD_6n3b-a1-m1-cF 6n3b-a1-m1-cF_6n3b-a1-m1-cH NFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGN NFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGN 6n3c-a1-m1-cO_6n3c-a1-m1-cS SegB, conformation of TDP-43 low complexity domain segment A Q13148 Q13148 3.3 ELECTRON MICROSCOPY 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 6n3c-a1-m1-cA_6n3c-a1-m1-cE 6n3c-a1-m1-cA_6n3c-a1-m1-cK 6n3c-a1-m1-cC_6n3c-a1-m1-cG 6n3c-a1-m1-cG_6n3c-a1-m1-cI 6n3c-a1-m1-cI_6n3c-a1-m1-cM 6n3c-a1-m1-cK_6n3c-a1-m1-cO 6n3c-a1-m1-cM_6n3c-a1-m1-cQ GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN 6n3c-a1-m1-cP_6n3c-a1-m1-cT SegB, conformation of TDP-43 low complexity domain segment A Q13148 Q13148 3.3 ELECTRON MICROSCOPY 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 6n3c-a1-m1-cB_6n3c-a1-m1-cF 6n3c-a1-m1-cB_6n3c-a1-m1-cL 6n3c-a1-m1-cD_6n3c-a1-m1-cH 6n3c-a1-m1-cH_6n3c-a1-m1-cJ 6n3c-a1-m1-cJ_6n3c-a1-m1-cN 6n3c-a1-m1-cL_6n3c-a1-m1-cP 6n3c-a1-m1-cN_6n3c-a1-m1-cR GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN 6n3c-a1-m1-cQ_6n3c-a1-m1-cS SegB, conformation of TDP-43 low complexity domain segment A Q13148 Q13148 3.3 ELECTRON MICROSCOPY 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 6n3c-a1-m1-cA_6n3c-a1-m1-cG 6n3c-a1-m1-cA_6n3c-a1-m1-cI 6n3c-a1-m1-cC_6n3c-a1-m1-cE 6n3c-a1-m1-cE_6n3c-a1-m1-cG 6n3c-a1-m1-cI_6n3c-a1-m1-cK 6n3c-a1-m1-cK_6n3c-a1-m1-cM 6n3c-a1-m1-cM_6n3c-a1-m1-cO 6n3c-a1-m1-cO_6n3c-a1-m1-cQ GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN 6n3c-a1-m1-cS_6n3c-a1-m1-cT SegB, conformation of TDP-43 low complexity domain segment A Q13148 Q13148 3.3 ELECTRON MICROSCOPY 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 6n3c-a1-m1-cA_6n3c-a1-m1-cB 6n3c-a1-m1-cA_6n3c-a1-m1-cF 6n3c-a1-m1-cB_6n3c-a1-m1-cK 6n3c-a1-m1-cC_6n3c-a1-m1-cD 6n3c-a1-m1-cD_6n3c-a1-m1-cG 6n3c-a1-m1-cE_6n3c-a1-m1-cF 6n3c-a1-m1-cG_6n3c-a1-m1-cH 6n3c-a1-m1-cH_6n3c-a1-m1-cI 6n3c-a1-m1-cI_6n3c-a1-m1-cJ 6n3c-a1-m1-cJ_6n3c-a1-m1-cM 6n3c-a1-m1-cK_6n3c-a1-m1-cL 6n3c-a1-m1-cL_6n3c-a1-m1-cO 6n3c-a1-m1-cM_6n3c-a1-m1-cN 6n3c-a1-m1-cN_6n3c-a1-m1-cQ 6n3c-a1-m1-cO_6n3c-a1-m1-cP 6n3c-a1-m1-cP_6n3c-a1-m1-cS 6n3c-a1-m1-cQ_6n3c-a1-m1-cR GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN GFGNSRGGGAGLGNNQGSNMGGGMNFGEFSIN 6n3f-a1-m1-cC_6n3f-a1-m1-cA Structure of HIV Tat-specific factor 1 U2AF Homology Motif bound to SF3b1 ULM5 O43719 O43719 2.099 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 94 95 MRHERVVIIKNMFHPMDFEDDPLVLNEIREDLRVECSKFGQIRKLLLFDRHPDGVASVSFRDPEEADYCIQTLDGRWFGGRQITAQAWDGTTDY SMRHERVVIIKNMFHPMDFEDDPLVLNEIREDLRVECSKFGQIRKLLLFDRHPDGVASVSFRDPEEADYCIQTLDGRWFGGRQITAQAWDGTTDY 6n3r-a3-m2-cH_6n3r-a3-m1-cC Sheep Galectin-11 (LGALS11) complex with galactose A0A0A7EMW6 A0A0A7EMW6 2.397 X-RAY DIFFRACTION 37 1.0 9940 (Ovis aries) 9940 (Ovis aries) 135 136 6n3r-a1-m1-cE_6n3r-a1-m1-cA 6n3r-a2-m1-cB_6n3r-a2-m1-cD 6n3r-a4-m3-cG_6n3r-a4-m1-cF 6n44-a1-m1-cE_6n44-a1-m1-cA 6n44-a2-m1-cB_6n44-a2-m1-cD 6n44-a3-m1-cC_6n44-a3-m2-cH 6n44-a4-m3-cG_6n44-a4-m1-cF SLPNPYLQSVSLTVCYMVKIKANLLSPFGKNPELQVDFGTGTGQGGDIPFRFWYCDGIVVMNTLKDGSWGKEQKLHTEAFVPGQPFELQFLVLENEYQVFVNNKPICQFAHRLPLQSVKMLDVRGDIVLTSVDTL DSLPNPYLQSVSLTVCYMVKIKANLLSPFGKNPELQVDFGTGTGQGGDIPFRFWYCDGIVVMNTLKDGSWGKEQKLHTEAFVPGQPFELQFLVLENEYQVFVNNKPICQFAHRLPLQSVKMLDVRGDIVLTSVDTL 6n46-a3-m1-cE_6n46-a3-m1-cF Crystal structure of the cryptic polo box domain of a human activated Plk4 O00444 O00444 3.708 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 4n7v-a1-m1-cA_4n7v-a1-m1-cB 4n7z-a1-m1-cA_4n7z-a1-m2-cA 4n9j-a1-m1-cA_4n9j-a1-m1-cB 6n45-a1-m1-cB_6n45-a1-m1-cA 6n46-a1-m1-cA_6n46-a1-m1-cB 6n46-a2-m1-cC_6n46-a2-m1-cD 6n46-a4-m1-cG_6n46-a4-m1-cH RSITSPLVAHRLKPIRQKTKKAVVSILDSEEVCVELVKEYASQEYVKEVLQISSDGNTITIYYPNDRPPSPTDNISRYSFDNLPEKYWRKYQYASRFVQLVREKEPKIEYFDRYAKCILMENSPGADFEVWFYDGVKIHKTEDFIQVIEKTGKSYTLKSESEVNSLKEEIKMYMDHANEGHRICLALESIISEEERKTRSAPFFPIIIGRKP RSITSPLVAHRLKPIRQKTKKAVVSILDSEEVCVELVKEYASQEYVKEVLQISSDGNTITIYYPNDRPPSPTDNISRYSFDNLPEKYWRKYQYASRFVQLVREKEPKIEYFDRYAKCILMENSPGADFEVWFYDGVKIHKTEDFIQVIEKTGKSYTLKSESEVNSLKEEIKMYMDHANEGHRICLALESIISEEERKTRSAPFFPIIIGRKP 6n4p-a1-m2-cC_6n4p-a1-m3-cA RQEFEV, crystal structure of the N-terminal segment RQEFEV from protein tau P10636 P10636 1.851 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6n4p-a1-m1-cC_6n4p-a1-m2-cA RQEFEV RQEFEV 6n4p-a1-m3-cA_6n4p-a1-m3-cC RQEFEV, crystal structure of the N-terminal segment RQEFEV from protein tau P10636 P10636 1.851 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6n4p-a1-m1-cA_6n4p-a1-m1-cC 6n4p-a1-m2-cA_6n4p-a1-m2-cC RQEFEV RQEFEV 6n4x-a1-m1-cB_6n4x-a1-m1-cA Metabotropic Glutamate Receptor 5 Apo Form Ligand Binding Domain P41594 P41594 4 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 487 506 ERRVVAHMPGDIIIGALFSVHHQPTVDKVHERKCGAVREQYGIQRVEAMLHTLERINSDPTLLPNITLGCEIRDSCWHSAVALEQSIEFIRDSLIKKPIVGVIGPGSSSVAIQVQNLLQLFNIPQIAYSATSMDLSDKTLFKYFMRVVPSDAQQARAMVDIVKRYNWTYVSAVHTEGNYGESGMEAFKDMSAKEGICIAHSYKIYSNAGEQSFDKLLKKLTSHLPKARVVACFCEGMTVRGLLMAMRRLGLAGEFLLLGSDGWADRYDVTDGYQREAVGGITIKLQSPDVKWFDDYYLKLRPETNHRNPWFQEFWQHRFQCRLEGFPQENSKYNKTCNSSLTLKTHHVQDSKMGFVINAIYSMAYGLHNMQMSLCPGYAGLCDAMKPIDGRKLLESLMKTNFTGVSGDTILFDENGDSPGRYEIMNFKEMDYINVGSWDNGELKMDDDEVWSKKSNIIRSVCSEPCEKGQIKVIRKGEVSCCWTCTP ERRVVAHMPGDIIIGALFSVHHQPTVDKVHERKCGAVREQYGIQRVEAMLHTLERINSDPTLLPNITLGCEIRDSCWHSAVALEQSIEFIRDSLISKKPIVGVIGPGSSSVAIQVQNLLQLFNIPQIAYSATSMDLSDKTLFKYFMRVVPSDAQQARAMVDIVKRYNWTYVSAVHTEGNYGESGMEAFKDMSAKEGICIAHSYKIYSNAGEQSFDKLLKKLTSHLPKARVVACFCEGMTVRGLLMAMRRLGLAGEFLLLGSDGWADRYDVTDGYQREAVGGITIKLQSPDVKWFDDYYLKLRPETNHRNPWFQEFWQHRFQCRLEGFPQENSKYNKTCNSSLTLKTHHVQDSKMGFVINAIYSMAYGLHNMQMSLCPGYAGLCDAMKPIDGRKLLESLMKTNFTGVSGDTILFDENGDSPGRYEIMNFKEMGKDYFDYINVGSWDNGELKMDDDEVWSKKSNIIRSVCSEPCEKGQIKVIRKGEVSCCWTCTPCKENEYVFDEYTC 6n5z-a1-m1-cA_6n5z-a1-m1-cB Crystal structure of the SNX5 PX domain in complex with the Sema4C Q9C0C4 Q9C0C4 2.45 X-RAY DIFFRACTION 85 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 159 159 DPSLQIDIPDALSERDKVKFTVHTKTTLPTFQSPEFSVTRQHEDFVWLHDTLIETTDYAGLIIPPAPTKPDFDGPREKMQKLGEGEGSMTKEEFAKMKQELEAEYLAVFKKTVSSHEVFLQRLSSHPVLSKDRNFHVFLEYDQPDPVGYYYSDGSLKIV PSLQIDIPDALSERDKVKFTVHTKTTLPTFQSPEFSVTRQHEDFVWLHDTLIETTDYAGLIIPPAPTKPDFDGPREKMQKLGEGEGSMTKEEFAKMKQELEAEYLAVFKKTVSSHEVFLQRLSSHPVLSKDRNFHVFLEYDNWDPVGYYYSDGSLKIVP 6n63-a1-m1-cA_6n63-a1-m2-cA Crystal structure of an Iron binding protein A0A0F5HNH9 A0A0F5HNH9 1.72 X-RAY DIFFRACTION 38 1.0 1221996 (Bacillus thermotolerans) 1221996 (Bacillus thermotolerans) 141 141 KEELDAFHQIFTTTKEAIERFMAMLTPVIENAEDDHERLYYHHIYEEEEQRLSRLDVLIPLIEKFQDETDEGLFSPSNNAFNRLLQELNLEKFGLHNFIEHVDLALFSFTDEERQTLLKELRKDAYEGYQYVKEKLAEINA KEELDAFHQIFTTTKEAIERFMAMLTPVIENAEDDHERLYYHHIYEEEEQRLSRLDVLIPLIEKFQDETDEGLFSPSNNAFNRLLQELNLEKFGLHNFIEHVDLALFSFTDEERQTLLKELRKDAYEGYQYVKEKLAEINA 6n64-a2-m1-cC_6n64-a2-m1-cD Crystal structure of mouse SMCHD1 hinge domain Q6P5D8 Q6P5D8 3.3 X-RAY DIFFRACTION 108 1.0 10090 (Mus musculus) 10090 (Mus musculus) 171 171 6n64-a1-m1-cA_6n64-a1-m1-cB 6n64-a3-m1-cF_6n64-a3-m1-cE LCTLPNYTKRSGDILGKIAHLAQIEDDRAAVISWHLASDDCVVTLTTDAARAIYDETQGRQQVLPLDSIYRKTLPDWKRPLPHFRNGKLHFKPFGNPVFARDLLTFPDNIEHCETVFGLLGDTIILDNLDAANHYRKEVVKITHCPTLLTRDGDRIRSNGKFGGLQNKAPP LCTLPNYTKRSGDILGKIAHLAQIEDDRAAVISWHLASDDCVVTLTTDAARAIYDETQGRQQVLPLDSIYRKTLPDWKRPLPHFRNGKLHFKPFGNPVFARDLLTFPDNIEHCETVFGLLGDTIILDNLDAANHYRKEVVKITHCPTLLTRDGDRIRSNGKFGGLQNKAPP 6n7e-a1-m1-cA_6n7e-a1-m1-cD Crystal structure of the cytosolic domain of human CNNM2 in complex with AMP-PNP and Mg2+ Q9H8M5 Q9H8M5 3.5 X-RAY DIFFRACTION 109 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 305 319 4iy0-a1-m1-cA_4iy0-a1-m2-cA 4iy2-a1-m1-cA_4iy2-a1-m1-cC 4iy4-a1-m1-cA_4iy4-a1-m1-cC 4p1g-a1-m1-cA_4p1g-a1-m2-cA 4p1o-a1-m1-cA_4p1o-a1-m1-cB 5mmz-a1-m1-cA_5mmz-a1-m2-cA 6wus-a1-m1-cA_6wus-a1-m2-cA ELNIIQGALELRTKTVEDVMTPLRDCFMITGEAILDFNTMSEIMESGYTRIPVFEGERSNIVDLLFVKDLAFVDPDDCTPLKTITKFYNHPLHFVFNDTKLDAMLEEFKKGKSHLAIVQYEVLGIVTLEDVIEEIIKSEILDETDLYTDNRTKFSAFKQTDSEMKVKISPQLLLAMHRFLATEVEAFSPSQMSEKILLRLLKHPNVIQELKYDEKNKKAPEYYLYQRNKPVDYFVLILQGKVEVEAGKEGMKFEASAFSYYGVMALTASQVYIPDYSVRALSDLQFVKISRQQYQNALMLEHHHH ELNIIQGALELRTKTVEDVMTPLRDCFMITGEAILDFNTMSEIMESGYTRIPVFEGERSNIVDLLFVKDLAFVDPDDCTPLKTITKFYNHPLHFVFNDTKLDAMLEEFKKGKSHLAIVQFYEVLGIVTLEDVIEEIIKSEILDETDLYTDNRTKKKVAHRERKQDFSAFKQTDSEMKVKISPQLLLAMHRFLATEVEAFSPSQMSEKILLRLLKHPNVIQELKYDEKNKKAPEYYLYQRNKPVDYFVLILQGKVEVEAGKEGMKFEASAFSYYGVMALTASPVLLQVYIPDYSVRALSDLQFVKISRQQYQNALMLEHH 6n7f-a2-m1-cC_6n7f-a2-m1-cD 1.90 Angstrom Resolution Crystal Structure of Glutathione Reductase from Streptococcus pyogenes in Complex with FAD. Q9A0E2 Q9A0E2 1.9 X-RAY DIFFRACTION 257 1.0 301447 (Streptococcus pyogenes serotype M1) 301447 (Streptococcus pyogenes serotype M1) 450 451 6n7f-a1-m1-cB_6n7f-a1-m1-cA MVIPYDYIVIGGGSAGIASANRAAMHGAKVLLAEGKEIGGTCVNLGCVPKKVMWYGAQVADILGTYAKDYGFDFKEKAFDFKQLKANRQAYIDRIHASYERGFEQNGVDRIYDYAVFKDAHTVEIAGQLYTAPHILIATGGHPVFPDIEGAQYGISSDGFFALDEVPKRTAVVGAGYIAVELAGVLHALGSKTDLFIRHDRPLRSFDKTIVDVLVDEMAVNGPRLHTHAEVAKVVKNTDESLTLYLKDGQEVEVDQLIWAIGRKPNLEGFSLDKTGVTLNDKGYIETDAYENTSVKGIYAVGDVNGKLALTPVAVAAGRRLSERLFNGKTDEKLDYQNVATVIFSHPVIGSVGLSEEAAVKQYGQEAVKTYQSRFTSMFTAITNHRQPCLMKLVTVGDTEKIVGLHGIGYGVDEMIQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR AMVIPYDYIVIGGGSAGIASANRAAMHGAKVLLAEGKEIGGTCVNLGCVPKKVMWYGAQVADILGTYAKDYGFDFKEKAFDFKQLKANRQAYIDRIHASYERGFEQNGVDRIYDYAVFKDAHTVEIAGQLYTAPHILIATGGHPVFPDIEGAQYGISSDGFFALDEVPKRTAVVGAGYIAVELAGVLHALGSKTDLFIRHDRPLRSFDKTIVDVLVDEMAVNGPRLHTHAEVAKVVKNTDESLTLYLKDGQEVEVDQLIWAIGRKPNLEGFSLDKTGVTLNDKGYIETDAYENTSVKGIYAVGDVNGKLALTPVAVAAGRRLSERLFNGKTDEKLDYQNVATVIFSHPVIGSVGLSEEAAVKQYGQEAVKTYQSRFTSMFTAITNHRQPCLMKLVTVGDTEKIVGLHGIGYGVDEMIQGFAVAIKMGATKADFDNTVAIHPTGSEEFVTMR 6n7m-a2-m3-cD_6n7m-a2-m1-cC 1.78 Angstrom Resolution Crystal Structure of Hypothetical Protein CD630_05490 from Clostridioides difficile 630. Q188Z7 Q188Z7 1.78 X-RAY DIFFRACTION 42 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 59 60 6n7m-a1-m2-cB_6n7m-a1-m1-cA GVEHYTYEEYAKHIQELKDYAKDPNAVKDVSQKDLEETIKKEQELEKIKTEGLKIKPIT GVEHYTYEEYAKHIQELKDYAKDPNAVKDVSQKDLEETIKKEQELEKIKTEGLKIKPITI 6n7o-a1-m1-cA_6n7o-a1-m1-cB Crystal structure of GIL01 gp7 Q7WSG2 Q7WSG2 1.7 X-RAY DIFFRACTION 58 1.0 1075161 (Bacillus phage pGIL01) 1075161 (Bacillus phage pGIL01) 36 39 GSMRDKLLDFIIELSQSSKQVVSKSYVIDRLMQVTK GSMRDKLLDFIIELSQSSKQVVSKSYVIDRLMQVTKEDY 6n8c-a1-m1-cC_6n8c-a1-m1-cD Structure of the Huntingtin tetramer/dimer mixture determined by paramagnetic NMR P42858 P42858 NOT SOLUTION NMR 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 17 17 6n8c-a1-m1-cA_6n8c-a1-m1-cB ATLEKLMKAFESLKSFQ ATLEKLMKAFESLKSFQ 6n90-a1-m1-cB_6n90-a1-m1-cA YoeB/ParE toxin from Agrobacterium tumefaciens A9CID9 A9CID9 1.755 X-RAY DIFFRACTION 30 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 86 88 MKLVWTLSSWDDYEFWQRTDARMVEKINDLIRNAKRTPFAGLGKPEPLKGDMAGYWSRRITAEHRFVYRVSGSGQRLEVIQCRFHY MKLVWTLSSWDDYEFWQRTDARMVEKINDLIRNAKRTPFAGLGKPEPLKGDMAGYWSRRITAEHRFVYRVSGSGSEQRLEVIQCRFHY 6n91-a1-m1-cA_6n91-a1-m1-cB Crystal Structure of Adenosine Deaminase from Vibrio cholerae Complexed with Pentostatin (Deoxycoformycin) Q9KNI7 Q9KNI7 2.05 X-RAY DIFFRACTION 87 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 334 334 MITSSLPLTDLHRHLDGNIRTQTILELGQKFGVKLPANTLQTLTPYVQIVEAEPSLVAFLSKLDWGVAVLGDLDACRRVAYENVEDALNARIDYAELRFSPYYMAMKHSLPVTGVVEAVVDGVRAGVRDFGIQANLIGIMSRTFGTDACQQELDAILSQKNHIVAVDLAGDELGQPGDRFIQHFKQVRDAGLHVTVHAGEAAGPESMWQAIRDLGATRIGHGVKAIHDPKLMDYLAQHRIGIESCLTSNLQTSTVDSLATHPLKRFLEHGILACINTDDPAVEGIELPYEYEVAAPQAGLSQEQIRQAQLNGLELAFLSDSEKKALLAKAALRG MITSSLPLTDLHRHLDGNIRTQTILELGQKFGVKLPANTLQTLTPYVQIVEAEPSLVAFLSKLDWGVAVLGDLDACRRVAYENVEDALNARIDYAELRFSPYYMAMKHSLPVTGVVEAVVDGVRAGVRDFGIQANLIGIMSRTFGTDACQQELDAILSQKNHIVAVDLAGDELGQPGDRFIQHFKQVRDAGLHVTVHAGEAAGPESMWQAIRDLGATRIGHGVKAIHDPKLMDYLAQHRIGIESCLTSNLQTSTVDSLATHPLKRFLEHGILACINTDDPAVEGIELPYEYEVAAPQAGLSQEQIRQAQLNGLELAFLSDSEKKALLAKAALRG 6n98-a1-m1-cA_6n98-a1-m4-cA Xylose isomerase 1F1 variant from Streptomyces sp. F-1 A0A1K2FZ20 A0A1K2FZ20 1.55 X-RAY DIFFRACTION 98 1.0 463642 (Streptomyces sp. F-1) 463642 (Streptomyces sp. F-1) 379 379 6n98-a1-m2-cA_6n98-a1-m3-cA FQPTPEDRFCFGLWTVGWQERDQFGEATRAPLDPVRTVHKLAELGAWGVTFHDDDLLAVEPNRDAAIAAFRKALDETGLVVPAATTDLFKHPVFKDGAFTSNDRDVRRHAIRKVMRNLDLAAELGAKTYVFWGGREGAESDAAKDVRVALDRFREAIDYLAGYVKEQNYGMRFALEPKPNEPRGDILLPTIGHALGFISTLEHHEMVGLNPEVGHEQMAGLNFVHGIAQALWQDKLFHIDLNGQHGPRYDQDLVFGHGDTKSAFFLVDLLESSGWEGPRHFDYKPGRTEDAEDVWVSAEANMRTYLILKERAKAFRADPEVQEAMRACRIEELAVPTIAAGESYEDLRAEEFDAEAARDRGYHYSRLNQLAVEHMLGSR FQPTPEDRFCFGLWTVGWQERDQFGEATRAPLDPVRTVHKLAELGAWGVTFHDDDLLAVEPNRDAAIAAFRKALDETGLVVPAATTDLFKHPVFKDGAFTSNDRDVRRHAIRKVMRNLDLAAELGAKTYVFWGGREGAESDAAKDVRVALDRFREAIDYLAGYVKEQNYGMRFALEPKPNEPRGDILLPTIGHALGFISTLEHHEMVGLNPEVGHEQMAGLNFVHGIAQALWQDKLFHIDLNGQHGPRYDQDLVFGHGDTKSAFFLVDLLESSGWEGPRHFDYKPGRTEDAEDVWVSAEANMRTYLILKERAKAFRADPEVQEAMRACRIEELAVPTIAAGESYEDLRAEEFDAEAARDRGYHYSRLNQLAVEHMLGSR 6n98-a1-m2-cA_6n98-a1-m4-cA Xylose isomerase 1F1 variant from Streptomyces sp. F-1 A0A1K2FZ20 A0A1K2FZ20 1.55 X-RAY DIFFRACTION 277 1.0 463642 (Streptomyces sp. F-1) 463642 (Streptomyces sp. F-1) 379 379 6n98-a1-m1-cA_6n98-a1-m3-cA FQPTPEDRFCFGLWTVGWQERDQFGEATRAPLDPVRTVHKLAELGAWGVTFHDDDLLAVEPNRDAAIAAFRKALDETGLVVPAATTDLFKHPVFKDGAFTSNDRDVRRHAIRKVMRNLDLAAELGAKTYVFWGGREGAESDAAKDVRVALDRFREAIDYLAGYVKEQNYGMRFALEPKPNEPRGDILLPTIGHALGFISTLEHHEMVGLNPEVGHEQMAGLNFVHGIAQALWQDKLFHIDLNGQHGPRYDQDLVFGHGDTKSAFFLVDLLESSGWEGPRHFDYKPGRTEDAEDVWVSAEANMRTYLILKERAKAFRADPEVQEAMRACRIEELAVPTIAAGESYEDLRAEEFDAEAARDRGYHYSRLNQLAVEHMLGSR FQPTPEDRFCFGLWTVGWQERDQFGEATRAPLDPVRTVHKLAELGAWGVTFHDDDLLAVEPNRDAAIAAFRKALDETGLVVPAATTDLFKHPVFKDGAFTSNDRDVRRHAIRKVMRNLDLAAELGAKTYVFWGGREGAESDAAKDVRVALDRFREAIDYLAGYVKEQNYGMRFALEPKPNEPRGDILLPTIGHALGFISTLEHHEMVGLNPEVGHEQMAGLNFVHGIAQALWQDKLFHIDLNGQHGPRYDQDLVFGHGDTKSAFFLVDLLESSGWEGPRHFDYKPGRTEDAEDVWVSAEANMRTYLILKERAKAFRADPEVQEAMRACRIEELAVPTIAAGESYEDLRAEEFDAEAARDRGYHYSRLNQLAVEHMLGSR 6n98-a1-m3-cA_6n98-a1-m4-cA Xylose isomerase 1F1 variant from Streptomyces sp. F-1 A0A1K2FZ20 A0A1K2FZ20 1.55 X-RAY DIFFRACTION 138 1.0 463642 (Streptomyces sp. F-1) 463642 (Streptomyces sp. F-1) 379 379 6n98-a1-m1-cA_6n98-a1-m2-cA FQPTPEDRFCFGLWTVGWQERDQFGEATRAPLDPVRTVHKLAELGAWGVTFHDDDLLAVEPNRDAAIAAFRKALDETGLVVPAATTDLFKHPVFKDGAFTSNDRDVRRHAIRKVMRNLDLAAELGAKTYVFWGGREGAESDAAKDVRVALDRFREAIDYLAGYVKEQNYGMRFALEPKPNEPRGDILLPTIGHALGFISTLEHHEMVGLNPEVGHEQMAGLNFVHGIAQALWQDKLFHIDLNGQHGPRYDQDLVFGHGDTKSAFFLVDLLESSGWEGPRHFDYKPGRTEDAEDVWVSAEANMRTYLILKERAKAFRADPEVQEAMRACRIEELAVPTIAAGESYEDLRAEEFDAEAARDRGYHYSRLNQLAVEHMLGSR FQPTPEDRFCFGLWTVGWQERDQFGEATRAPLDPVRTVHKLAELGAWGVTFHDDDLLAVEPNRDAAIAAFRKALDETGLVVPAATTDLFKHPVFKDGAFTSNDRDVRRHAIRKVMRNLDLAAELGAKTYVFWGGREGAESDAAKDVRVALDRFREAIDYLAGYVKEQNYGMRFALEPKPNEPRGDILLPTIGHALGFISTLEHHEMVGLNPEVGHEQMAGLNFVHGIAQALWQDKLFHIDLNGQHGPRYDQDLVFGHGDTKSAFFLVDLLESSGWEGPRHFDYKPGRTEDAEDVWVSAEANMRTYLILKERAKAFRADPEVQEAMRACRIEELAVPTIAAGESYEDLRAEEFDAEAARDRGYHYSRLNQLAVEHMLGSR 6n9h-a1-m2-cA_6n9h-a1-m3-cA De novo designed homo-trimeric amantadine-binding protein 1.039 X-RAY DIFFRACTION 63 1.0 32630 (synthetic construct) 32630 (synthetic construct) 75 75 6n9h-a1-m1-cA_6n9h-a1-m2-cA 6n9h-a1-m1-cA_6n9h-a1-m3-cA 6naf-a1-m1-cA_6naf-a1-m2-cA 6naf-a1-m1-cA_6naf-a1-m3-cA 6naf-a1-m2-cA_6naf-a1-m3-cA DAQDKLKYLVKQLERALRELKKSLDELERSLEELEKNPSEDALVENNRLNVENNKIIVEVLRIILELAKASAKLA DAQDKLKYLVKQLERALRELKKSLDELERSLEELEKNPSEDALVENNRLNVENNKIIVEVLRIILELAKASAKLA 6n9i-a2-m1-cB_6n9i-a2-m2-cB Structure of the Quorum Quenching lactonase from Parageobacillus caldoxylosilyticus - free A0A023DFE8 A0A023DFE8 1.6 X-RAY DIFFRACTION 94 1.0 1220594 (Parageobacillus caldoxylosilyticus NBRC 107762) 1220594 (Parageobacillus caldoxylosilyticus NBRC 107762) 276 276 6n9i-a1-m1-cA_6n9i-a1-m3-cC 6n9q-a1-m1-cD_6n9q-a1-m2-cP 6n9r-a1-m1-cP_6n9r-a1-m2-cP 6n9r-a1-m1-cX_6n9r-a1-m4-cA 6n9r-a1-m2-cX_6n9r-a1-m3-cA ARPKLYVMDNGRMRMDKNWMIAMHNPATIHNPNAQTEFVEFPIYTVLIDHPEGKILFDTSCNPNSMGPQGRWAESTQQMFPWTATEECYLHNRLEQLKVRPEDIRYVVASHLHLDHAGCLEMFTNATIIVHEDEFNGALQCYARNQKEGAYIWADIDAWIKNNLQWRTVKRHEDNILLAEGVKVLNFGSGHAWGMLGLHVELPETGGIILASDAIYTAESYGPPIKPPGIIYDSLGYMNTVERIRRIAQETKSQVWFGHDAEQFKKFRKSTEGYYE ARPKLYVMDNGRMRMDKNWMIAMHNPATIHNPNAQTEFVEFPIYTVLIDHPEGKILFDTSCNPNSMGPQGRWAESTQQMFPWTATEECYLHNRLEQLKVRPEDIRYVVASHLHLDHAGCLEMFTNATIIVHEDEFNGALQCYARNQKEGAYIWADIDAWIKNNLQWRTVKRHEDNILLAEGVKVLNFGSGHAWGMLGLHVELPETGGIILASDAIYTAESYGPPIKPPGIIYDSLGYMNTVERIRRIAQETKSQVWFGHDAEQFKKFRKSTEGYYE 6n9r-a1-m3-cA_6n9r-a1-m4-cA Structure of the Quorum Quenching lactonase from Parageobacillus caldoxylosilyticus bound to substrate 3-oxo-C12-AHL A0A023DFE8 A0A023DFE8 1.75 X-RAY DIFFRACTION 36 1.0 1220594 (Parageobacillus caldoxylosilyticus NBRC 107762) 1220594 (Parageobacillus caldoxylosilyticus NBRC 107762) 276 276 6n9r-a1-m1-cP_6n9r-a1-m1-cX 6n9r-a1-m2-cP_6n9r-a1-m2-cX ARPKLYVMDNGRMRMDKNWMIAMHNPATIHNPNAQTEFVEFPIYTVLIDHPEGKILFDTSCNPNSMGPQGRWAESTQQMFPWTATEECYLHNRLEQLKVRPEDIRYVVASHLHLDHAGCLEMFTNATIIVHEDEFNGALQCYARNQKEGAYIWADIDAWIKNNLQWRTVKRHEDNILLAEGVKVLNFGSGHAWGMLGLHVELPETGGIILASDAIYTAESYGPPIKPPGIIYDSLGYMNTVERIRRIAQETKSQVWFGHDAEQFKKFRKSTEGYYE ARPKLYVMDNGRMRMDKNWMIAMHNPATIHNPNAQTEFVEFPIYTVLIDHPEGKILFDTSCNPNSMGPQGRWAESTQQMFPWTATEECYLHNRLEQLKVRPEDIRYVVASHLHLDHAGCLEMFTNATIIVHEDEFNGALQCYARNQKEGAYIWADIDAWIKNNLQWRTVKRHEDNILLAEGVKVLNFGSGHAWGMLGLHVELPETGGIILASDAIYTAESYGPPIKPPGIIYDSLGYMNTVERIRRIAQETKSQVWFGHDAEQFKKFRKSTEGYYE 6nag-a1-m1-cB_6nag-a1-m1-cA X-ray structure of a secreted C11 cysteine protease from Bacteroides thetaiotaomicron ""iotapain Q8A9T8 Q8A9T8 2.683 X-RAY DIFFRACTION 30 0.997 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 350 351 PVPTEQTVFMYLPWSDNLTSNFYQNISDLESVVEKNILKDERIIIFMCTTATKATLFELAYENGKSVHKTLKNYTDPAYTTAEGITSILNDVQRYSPTKRYSMVIGCHGMGWIPVSNSKWEYENVPMTRYFGGLNAQYQTDITTLAKGISNAGLKMEYILFDDCYMSSIEVAYALKDVTDYLIGSTSEVMAYGMPYAEIGQYLIGKVDYAGICDGFYSFYSTYSTPCGTIAVTDCSELDNLATIMKEINHRYTFDPSLTSSLQRLDGYYPVIFFDYGDYVSKLCPDETLVARFNEQLNRTVPFKRNTEYFYSMSRGEVKINTFSGITISDPSTHSLASKKEETAWYAATH VPTEQTVFMYLPWSDNLTSNFYQNISDLESVVEKNILKDERIIIFMCTTATKATLFELAYENGKSVHKTLKNYTDPAYTTAEGITSILNDVQRYSPTKRYSMVIGCHGMGWIPVSNSKSAWEYENVPMTRYFGGLNAQYQTDITTLAKGISNAGLKMEYILFDDCYMSSIEVAYALKDVTDYLIGSTSEVMAYGMPYAEIGQYLIGKVDYAGICDGFYSFYSTYSTPCGTIAVTDCSELDNLATIMKEINHRYTFDPSLTSSLQRLDGYYPVIFFDYGDYVSKLCPDETLVARFNEQLNRTVPFKRNTEYFYSMSRGEVKINTFSGITISDPSTHSLASKKEETAWYAATH 6nal-a2-m3-cB_6nal-a2-m4-cB Crystal Structure of Gram Negative Toxin 2.3 X-RAY DIFFRACTION 104 1.0 577650 (Desulfobulbus propionicus DSM 2032) 577650 (Desulfobulbus propionicus DSM 2032) 468 468 6nal-a2-m1-cA_6nal-a2-m2-cA NNRALINDKLASLQYNPKTVVFNGTSISNIDLPAEERFDDSTYIVTREKCSYEADFDIAVPSAYEDVTYPGALLVASNDLLDGKPQELAVDKDRVNITVDLPGATDISFKVVPTFANVRAGINDILSKWFDSHGGEWSLPANFQYSSSLVYDENELLKFGCDISYLKQKLSIDFSSTRAEKKSVYLIRFKQIFYSVSAERPAKPADIFAESTTWEDLARAGISEEHPPLFVKNVQYGRQIFLKFESKLSSTELETTIKGTCSKDGLKIDANASAALKEKLSQIDVSIVVHGGSEAVYNGLSLNSDDVQKINRIIWDNTLLSRTNTAAPLNYYTVFLKDGVSAGVHGTTEYVAEKTERYSGGEIRLEHSGWYVARFTVTWDEISYENGLKVIRHKGWEGNGKDRTAPFSTTIPLRGNARNISIKTEGCTGLAWEWWRTSGYKVGRALVPLRTVSIGGTTLHQTFSTPAD NNRALINDKLASLQYNPKTVVFNGTSISNIDLPAEERFDDSTYIVTREKCSYEADFDIAVPSAYEDVTYPGALLVASNDLLDGKPQELAVDKDRVNITVDLPGATDISFKVVPTFANVRAGINDILSKWFDSHGGEWSLPANFQYSSSLVYDENELLKFGCDISYLKQKLSIDFSSTRAEKKSVYLIRFKQIFYSVSAERPAKPADIFAESTTWEDLARAGISEEHPPLFVKNVQYGRQIFLKFESKLSSTELETTIKGTCSKDGLKIDANASAALKEKLSQIDVSIVVHGGSEAVYNGLSLNSDDVQKINRIIWDNTLLSRTNTAAPLNYYTVFLKDGVSAGVHGTTEYVAEKTERYSGGEIRLEHSGWYVARFTVTWDEISYENGLKVIRHKGWEGNGKDRTAPFSTTIPLRGNARNISIKTEGCTGLAWEWWRTSGYKVGRALVPLRTVSIGGTTLHQTFSTPAD 6nal-a2-m4-cB_6nal-a2-m2-cA Crystal Structure of Gram Negative Toxin 2.3 X-RAY DIFFRACTION 106 1.0 577650 (Desulfobulbus propionicus DSM 2032) 577650 (Desulfobulbus propionicus DSM 2032) 468 469 6nal-a1-m3-cB_6nal-a1-m1-cA 6nal-a2-m3-cB_6nal-a2-m1-cA NNRALINDKLASLQYNPKTVVFNGTSISNIDLPAEERFDDSTYIVTREKCSYEADFDIAVPSAYEDVTYPGALLVASNDLLDGKPQELAVDKDRVNITVDLPGATDISFKVVPTFANVRAGINDILSKWFDSHGGEWSLPANFQYSSSLVYDENELLKFGCDISYLKQKLSIDFSSTRAEKKSVYLIRFKQIFYSVSAERPAKPADIFAESTTWEDLARAGISEEHPPLFVKNVQYGRQIFLKFESKLSSTELETTIKGTCSKDGLKIDANASAALKEKLSQIDVSIVVHGGSEAVYNGLSLNSDDVQKINRIIWDNTLLSRTNTAAPLNYYTVFLKDGVSAGVHGTTEYVAEKTERYSGGEIRLEHSGWYVARFTVTWDEISYENGLKVIRHKGWEGNGKDRTAPFSTTIPLRGNARNISIKTEGCTGLAWEWWRTSGYKVGRALVPLRTVSIGGTTLHQTFSTPAD GNNRALINDKLASLQYNPKTVVFNGTSISNIDLPAEERFDDSTYIVTREKCSYEADFDIAVPSAYEDVTYPGALLVASNDLLDGKPQELAVDKDRVNITVDLPGATDISFKVVPTFANVRAGINDILSKWFDSHGGEWSLPANFQYSSSLVYDENELLKFGCDISYLKQKLSIDFSSTRAEKKSVYLIRFKQIFYSVSAERPAKPADIFAESTTWEDLARAGISEEHPPLFVKNVQYGRQIFLKFESKLSSTELETTIKGTCSKDGLKIDANASAALKEKLSQIDVSIVVHGGSEAVYNGLSLNSDDVQKINRIIWDNTLLSRTNTAAPLNYYTVFLKDGVSAGVHGTTEYVAEKTERYSGGEIRLEHSGWYVARFTVTWDEISYENGLKVIRHKGWEGNGKDRTAPFSTTIPLRGNARNISIKTEGCTGLAWEWWRTSGYKVGRALVPLRTVSIGGTTLHQTFSTPAD 6nb0-a1-m1-cA_6nb0-a1-m2-cA Crystal structure of Histidine kinase from Burkholderia phymatum STM815 B2JQF9 B2JQF9 1.9 X-RAY DIFFRACTION 86 1.0 391038 (Paraburkholderia phymatum STM815) 391038 (Paraburkholderia phymatum STM815) 219 219 VTERTARRSAETALFMRDHVLSLVSHDLRSPLNAIHSWAQQVKLLESIVDTTRAETKALALKRAPFALRPLLDETIGDVREGLAARRGIVLALNTPLAAQQMDGDRERLAAALWLLVTFAVEASASGTTVTLDADVDTATLRATVSWQATPAALTDPALPHVLENFARAQATHPREAGRISWVLALCKRVAEAHDGAFEQGEFADGQSSTLKFRASLAG VTERTARRSAETALFMRDHVLSLVSHDLRSPLNAIHSWAQQVKLLESIVDTTRAETKALALKRAPFALRPLLDETIGDVREGLAARRGIVLALNTPLAAQQMDGDRERLAAALWLLVTFAVEASASGTTVTLDADVDTATLRATVSWQATPAALTDPALPHVLENFARAQATHPREAGRISWVLALCKRVAEAHDGAFEQGEFADGQSSTLKFRASLAG 6nb2-a1-m1-cA_6nb2-a1-m1-cB CRYSTAL STRUCTURE OF ENOLASE FROM LEGIONELLA PNEUMOPHILA BOUND TO 2-PHOSPHOGLYCERIC ACID AND MAGNESIUM Q5ZTX1 Q5ZTX1 1.85 X-RAY DIFFRACTION 121 0.998 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 423 424 6nbm-a1-m1-cA_6nbm-a1-m1-cB HHMHIHKIQAREILDSRGNPTIEADVTLTTGIIGRASVPSGASTGSREACELRDNDPKRYAGKGVQKAVKHVNNEINQALQGLSVEDQENLDRILCQLDNTENKSHLGANAILATSLACARARALSLNQPLYMTLNQGDMMTMPVPMMNILNGGAHADNNVDIQEFMIMPIGAPDFPVALQMGTEIFHVLKSVLKKQGLNTAVGDEGGFAPNIQSNRQALDLLSEAIEKAGFRLGEDIVFALDVAASELFNEGFYHMYSENQKFDSHQLIEYYANLISSYPIVSIEDGLDEKDWSGWKQLTTHLGNKVQLVGDDLFVTNPKILREGIAQGIANAILIKVNQIGTLSETRQAIKLAYDNGYRCVMSHRSGETEDTFIADLAVASGCGQIKTGSLCRTDRTAKYNQLLRINELASLPYAGKNILK HHHHMHIHKIQAREILDSRGNPTIEADVTLTTGIIGRASVPSGASTGSREACELRDNDPKRYAGKGVQKAVKHVNNEINQALQGLSVEDQENLDRILCQLDNTENKSHLGANAILATSLACARARALSLNQPLYMTLNQGDMMTMPVPMMNILNGGAHADNNVDIQEFMIMPIGAPDFPVALQMGTEIFHVLKSVLKKQGLNTAVGDEGGFAPNIQSNRQALDLLSEAIEKAGFRLGEDIVFALDVAASELFNEGFYHMYSENQKFDSHQLIEYYANLISSYPIVSIEDGLDEKDWSGWKQLTTHLGNKVQLVGDDLFVTNPKILREGIAQGIANAILIKVNQIGTLSETRQAIKLAYDNGYRCVMSHRSGETEDTFIADLAVASGCGQIKTGSLCRTDRTAKYNQLLRINELASLPYAGKNIL 6nb9-a1-m6-cA_6nb9-a1-m9-cA Amyloid-Beta (20-34) with L-isoaspartate 23 P05067 P05067 1.05 ELECTRON CRYSTALLOGRAPHY 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 14 6nb9-a1-m10-cA_6nb9-a1-m9-cA 6nb9-a1-m1-cA_6nb9-a1-m2-cA 6nb9-a1-m1-cA_6nb9-a1-m4-cA 6nb9-a1-m2-cA_6nb9-a1-m3-cA 6nb9-a1-m4-cA_6nb9-a1-m5-cA 6nb9-a1-m6-cA_6nb9-a1-m7-cA 6nb9-a1-m7-cA_6nb9-a1-m8-cA FAEVGSNKGAIIGL FAEVGSNKGAIIGL 6nbg-a1-m1-cE_6nbg-a1-m1-cB 2.05 Angstrom Resolution Crystal Structure of Hypothetical Protein KP1_5497 from Klebsiella pneumoniae. A0A332QZQ2 A0A332QZQ2 2.05 X-RAY DIFFRACTION 61 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 231 232 6nbg-a1-m1-cC_6nbg-a1-m1-cA 6nbg-a2-m1-cD_6nbg-a2-m2-cD 6nbg-a2-m1-cF_6nbg-a2-m2-cF NAKIVTEDYEESLVASHHVLGYITAPRRVNLAVTAGSTPKRYEHLTAAVKGKAFYDRVHYYNFDEIPFRGQSREGVTISNLRQLFFTPAQIKEENIHKLTLDNAAQHDRQLEEAGGLDLVLGLGADGHFCGNLPNTTRFHDQTVEVPIHGEIALIANSEGGDISAVPNSYVTGPRSVAAKNLLLIVSGAAKAHALKQVVEGPVSVQVPASVLKLHPSLVIIADKAAAAELQ NAKIVTEDYEESLVASHHVLGYITAPRRVNLAVTAGSTPKRYEHLTAAVKGKAFYDRVHYYNFDEIPFRGQSREGVTISNLRQLFFTPAQIKEENIHKLTLDNAAQHDRQLEEAGGLDLVLGLGADGHFCGNLPNTTRFHDQTVEVPIHGEIALIANSEGGDISAVPNSYVTGPRSVAAKNLLLIVSGAAKAHALKQVVEGPVSVQVPASVLKLHPSLVIIADKAAAAELQQ 6nbg-a2-m1-cD_6nbg-a2-m2-cF 2.05 Angstrom Resolution Crystal Structure of Hypothetical Protein KP1_5497 from Klebsiella pneumoniae. A0A332QZQ2 A0A332QZQ2 2.05 X-RAY DIFFRACTION 42 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 230 231 6nbg-a1-m1-cB_6nbg-a1-m1-cA 6nbg-a1-m1-cC_6nbg-a1-m1-cE 6nbg-a2-m2-cD_6nbg-a2-m1-cF AKIVTEDYEESLVASHHVLGYITAPRRVNLAVTAGSTPKRYEHLTAAVKGKAFYDRVHYYNFDEIPFRGQSREGVTISNLRQLFFTPAQIKEENIHKLTLDNAAQHDRQLEEAGGLDLVLGLGADGHFCGNLPNTTRFHDQTVEVPIHGEIALIANSEGGDISAVPNSYVTGPRSVAAKNLLLIVSGAAKAHALKQVVEGPVSVQVPASVLKLHPSLVIIADKAAAAELQ AKIVTEDYEESLVASHHVLGYITAPRRVNLAVTAGSTPKRYEHLTAAVKGKAFYDRVHYYNFDEIPFRGQSREGVTISNLRQLFFTPAQIKEENIHKLTLDNAAQHDRQLEEAGGLDLVLGLGADGHFCGNLPNTTRFHDQTVEVPIHGEIALIANSEGGDISAVPNSYVTGPRSVAAKNLLLIVSGAAKAHALKQVVEGPVSVQVPASVLKLHPSLVIIADKAAAAELQQ 6nbj-a1-m1-cA_6nbj-a1-m1-cB Qri7 P43122 P43122 2.94 X-RAY DIFFRACTION 89 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 378 378 3wuh-a3-m1-cA_3wuh-a3-m2-cB 4k25-a1-m1-cA_4k25-a1-m2-cA RKGYKVLAIETSCDDTCVSVLDRFSKSAAPNVLANLKDTLDSIDEGGIIPTKAHIHHQARIGPLTERALIESNAREGIDLICVTRGPGMPGSLSGGLDFAKGLAVAWNKPLIGVHHMLGHLLIPRMGTNGKVPQFPFVSLLVSGGHTTFVLSRAIDDHEILCDTIDIAVGDSLDKCGRELGFKGTMIAREMEKFINQDINDQDFALKLEMPSPLKNSASKRNMLSFSFSAFITALRTNLTKLGKTEIQELPEREIRSIAYQVQESVFDHIINKLKHVLKSQPEKFKNVREFVCSGGVSSNQRLRTKLETELGTLNSTSFFNFYYPPMDLCSDNSIMIGWAGIEIWESLRLVSDLDICPIRQWPLNDLLSVDGWRTDQL RKGYKVLAIETSCDDTCVSVLDRFSKSAAPNVLANLKDTLDSIDEGGIIPTKAHIHHQARIGPLTERALIESNAREGIDLICVTRGPGMPGSLSGGLDFAKGLAVAWNKPLIGVHHMLGHLLIPRMGTNGKVPQFPFVSLLVSGGHTTFVLSRAIDDHEILCDTIDIAVGDSLDKCGRELGFKGTMIAREMEKFINQDINDQDFALKLEMPSPLKNSASKRNMLSFSFSAFITALRTNLTKLGKTEIQELPEREIRSIAYQVQESVFDHIINKLKHVLKSQPEKFKNVREFVCSGGVSSNQRLRTKLETELGTLNSTSFFNFYYPPMDLCSDNSIMIGWAGIEIWESLRLVSDLDICPIRQWPLNDLLSVDGWRTDQL 6nbp-a1-m1-cA_6nbp-a1-m2-cA Crystal Structure of a Sugar N-Formyltransferase from the Plant Pathogen Pantoea ananatis A0A4P1LYI6 A0A4P1LYI6 1.7 X-RAY DIFFRACTION 91 1.0 553 (Pantoea ananatis) 553 (Pantoea ananatis) 246 246 LTAQAQRLLVVSDNQELSLYLKEELEKQSFERPFNADFCYTSFNTNPQQMMAMGATKINIKDEFTVERIINEYDLVFSLHCKQIFPAKLTDNVCCINFHPGLNPYNRGWYPQAFSIINGLPTGATIHLMDADHGDIIDQQEVEVKMSDTSLTVYRKVIAIEKHLISRNIFTIITRSYTTKKPQAEGNYNGIKDFNALCELDLNSIGTLDEHLKILRATTHGDFKNAFFCDEKGRRFFVRIVIDEAF LTAQAQRLLVVSDNQELSLYLKEELEKQSFERPFNADFCYTSFNTNPQQMMAMGATKINIKDEFTVERIINEYDLVFSLHCKQIFPAKLTDNVCCINFHPGLNPYNRGWYPQAFSIINGLPTGATIHLMDADHGDIIDQQEVEVKMSDTSLTVYRKVIAIEKHLISRNIFTIITRSYTTKKPQAEGNYNGIKDFNALCELDLNSIGTLDEHLKILRATTHGDFKNAFFCDEKGRRFFVRIVIDEAF 6nbr-a4-m1-cD_6nbr-a4-m1-cB Crystal Structure of Piper methysticum Kavalactone Reductase 1 in complex with NADP A0A4Y5QR90 A0A4Y5QR90 2.8 X-RAY DIFFRACTION 16 1.0 130404 (Piper methysticum) 130404 (Piper methysticum) 314 316 6nbr-a3-m1-cD_6nbr-a3-m1-cB SRICVTGAGGFVASWVVKLFLSKGYLVHGTVRDLGEEKTAHLRKLEGAYHNLQLFKADLLDYESLLGAITGCDGVLHVATPVPSSKTAYSGTELVKTAVNGTLNVLRACTEAKVKKVIYVSSTAAVLVNPNLPKDKIPDEDCWTDEEYCRTTPFFLNWYCIAKTAAEKNALEYGDKINVISICPSYIFGPMLQPTINSSNLELLRLMKGDDESIENKFLLMVDVRDVAEAILLLYEKQETSGRYISSPHGMRQSNLVEKLESLQPGYNYHKNFVDPSWTMISSEKLKKLGWKPRPLEDTISETVLCFEEHGLLE SRICVTGAGGFVASWVVKLFLSKGYLVHGTVRDLGEEKTAHLRKLEGAYHNLQLFKADLLDYESLLGAITGCDGVLHVATPVPSSKTAYSGTELVKTAVNGTLNVLRACTEAKVKKVIYVSSTAAVLVNPNLPKDKIPDEDCWTDEEYCRTTPFFLNWYCIAKTAAEKNALEYGDKEGINVISICPSYIFGPMLQPTINSSNLELLRLMKGDDESIENKFLLMVDVRDVAEAILLLYEKQETSGRYISSPHGMRQSNLVEKLESLQPGYNYHKNFVDPSWTMISSEKLKKLGWKPRPLEDTISETVLCFEEHGLLE 6nbt-a3-m4-cA_6nbt-a3-m1-cB CRISPR Complex Subunit Csm3 from Staphylococcus epidermidis RP62a Q5HK91 Q5HK91 2.4 X-RAY DIFFRACTION 45 0.994 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 181 183 6nbt-a3-m3-cA_6nbt-a3-m2-cB YSKIKISGTIEVVTGLHIGDSPVVRDLQTKLPIIPGSSIKGKRNLLAKHFGLQDDERVLRLFGSSEKGNIQRARLQISDAFFSEKTKEHFAQNDIAYTETKFERQIERVTRGSEFDFVFIYNVDEESQVEDDFENIEKAIHLLENDYLGGGGTRGNGRIQFKDTNIETVVGEYDSTNLKIK AYSKIKISGTIEVVTGLHIGGIDSPVVRDLQTKLPIIPGSSIKGKRNLLAKHFGLDDERVLRLFGSSEKGNIQRARLQISDAFFSEKTKEHFAQNDIAYTETKFERQIERVTRGSEFDFVFIYNVDEESQVEDDFENIEKAIHLLENDYLGGGGTRGNGRIQFKDTNIETVVGEYDSTNLKIK 6nbu-a2-m1-cA_6nbu-a2-m2-cA CRISPR Complex Subunit Csm2 from Staphylococcus epidermidis RP62a Q5HK90 Q5HK90 2.75 X-RAY DIFFRACTION 53 1.0 176279 (Staphylococcus epidermidis RP62A) 176279 (Staphylococcus epidermidis RP62A) 126 126 ENLYFQSNAMTFAHEVVKSNVKNQVLFNGLTTSKLRNLMEQVNRLYTIAFNSNEDQLNEEFIDELEYLKIKFYYEAGREKSVDEFLKKTLMFPIIDRVIKKESKKFFLDYCKYFEALVAYAKYYQK ENLYFQSNAMTFAHEVVKSNVKNQVLFNGLTTSKLRNLMEQVNRLYTIAFNSNEDQLNEEFIDELEYLKIKFYYEAGREKSVDEFLKKTLMFPIIDRVIKKESKKFFLDYCKYFEALVAYAKYYQK 6nc2-a1-m1-cT_6nc2-a1-m1-cX AMC011 v4.2 SOSIP Env trimer in complex with fusion peptide targeting antibody ACS202 fragment antigen binding 5.2 ELECTRON MICROSCOPY 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 108 6nc2-a1-m1-cL_6nc2-a1-m1-cV 6nc2-a1-m1-cU_6nc2-a1-m1-cW AIRMTQSPSSLSASVGDRVTITCQASQDIKKSLNWYRQKPGKAPELLIHDASILQTGVPSAFTASGSGTHFSFVINKLQPEDVGTYFCQEYENLQFTFGPGTKVEIKR AIRMTQSPSSLSASVGDRVTITCQASQDIKKSLNWYRQKPGKAPELLIHDASILQTGVPSAFTASGSGTHFSFVINKLQPEDVGTYFCQEYENLQFTFGPGTKVEIKR 6ncr-a3-m1-cB_6ncr-a3-m1-cA Crystal Structure of Tryptophan-tRNA ligase from Chlamydia trachomatis with bound L-tryptophan O84589 O84589 1.75 X-RAY DIFFRACTION 165 0.985 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 341 342 HHMKKKRVLTGDRPTGKLHLGHWIGSIMNRLQLQNDSRYDCFFIIADLHTLTTKTRKEEILQIDNHIYDVLADWLSVGIDPEKSAIYLQSAIPEIYELNLIFSMLTPLNHIMGIPSIKEMARNASLNEESLSHGLIGYPVLQSADILLAKAHLVPVGNEAHVELTRDIAKTFNRLYGEVFPEPDILQALVGTNGQGKMSKSANNAIYLSDDAKTVQEKIRKLYTDPNRIHATTPGRVEGNPLFIYHDLFNPHKEEVEEFKTRYRQGCIRDVEVKARLAEEINLFLNPFREKRSELVAQPKFLEEALQQGTEKMRTVARETMEEVHDHLGLSRKWRTILASS KKKRVLTGDRPTGKLHLGHWIGSIMNRLQLQNDSRYDCFFIIADLHTLTTKTRKEEILQIDNHIYDVLADWLSVGIDPEKSAIYLQSAIPEIYELNLIFSMLTPLNHIMGIPSIKEMARNASLNEESLSHGLIGYPVLQSADILLAKAHLVPVGKDNEAHVELTRDIAKTFNRLYGEVFPEPDILQGELTALVGTNGQGKMSKSANNAIYLSDDAKTVQEKIRKLYTDPNRIHATTPGRVEGNPLFIYHDLFNPHKEEVEEFKTRYRQGCIRDVEVKARLAEEINLFLNPFREKRSELVAQPKFLEEALQQGTEKMRTVARETMEEVHDHLGLSRKWRTILA 6ncs-a1-m1-cA_6ncs-a1-m1-cB Crystal structure of N-acetylneuraminic acid (Sialic acid) synthetase from Leptospira borgpetersenii serovar Hardjo-bovis in complex with citrate Q04TM5 Q04TM5 1.8 X-RAY DIFFRACTION 217 1.0 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 285 285 HHHMSQEITLGNIKIGGNNPVFIIAEAGLNHGGDLNLALRMIDEAADAKANAIKFQAYNSEERFGENKEAVNLVKPAEFGKKEFLLLKERSQKKNILFFATPFDVPNLNMLKEIGVEILKIASCDICNITLLEAAADSGLIVILSRGTASASEIETAVSIFKKKKSPFILLHCVSSYPMNEIDANLSAIQTLKSKYEFPIGYSDHSKGIEIPLLAVASGAEIIEKHYTVDRTLQGIDWEISAEPKELAKLVTETERIRKILGHGKLEPQASEQEEIEYRNSLRRK HHHMSQEITLGNIKIGGNNPVFIIAEAGLNHGGDLNLALRMIDEAADAKANAIKFQAYNSEERFGENKEAVNLVKPAEFGKKEFLLLKERSQKKNILFFATPFDVPNLNMLKEIGVEILKIASCDICNITLLEAAADSGLIVILSRGTASASEIETAVSIFKKKKSPFILLHCVSSYPMNEIDANLSAIQTLKSKYEFPIGYSDHSKGIEIPLLAVASGAEIIEKHYTVDRTLQGIDWEISAEPKELAKLVTETERIRKILGHGKLEPQASEQEEIEYRNSLRRK 6ncw-a1-m1-cC_6ncw-a1-m1-cD Crystal structure of a GH2 beta-galacturonidase from Eisenbergiella tayi bound to glycerol A0A1E3AEY6 A0A1E3AEY6 2.1 X-RAY DIFFRACTION 84 0.993 1432052 (Eisenbergiella tayi) 1432052 (Eisenbergiella tayi) 559 560 6ncw-a1-m1-cB_6ncw-a1-m1-cA 6ncx-a1-m1-cA_6ncx-a1-m1-cC 6ncx-a1-m1-cD_6ncx-a1-m1-cB MIRTFETHKIRKTAELSSALWNFHTIGTQGEEAVIQAPVPGCWENYPDTVSYRGQASYSREFEAKGNIRLEFKGVSHTASVLVDGKPVGSHYNAYTPFDVVLKDIRPGIHQLEVIADNSFGPDSALHVPNDYQSYGGISRGVVLEELGEAYLSWIHFTPFLRKDGWYGKAEICVRNLSSGRLDGSVEVEIGKNSFAVLPIVLEGEEEKSFSTEELPCPWAECWSPESPVLYLITAVLRTADGAADDIIDRVGFREIRTEGKDILLNGRKLRIKGFCRHEDHPQFGCALPFSAMQHDLMLIKDLGANSIRTVHYPNDELFLDLCDEQGILVWEENHARGLSEENMRNPHFKQQCGDCIREMITAHYNHPSIYIWGILNECASDTEYGRECYSEQYELIKSLDPYRPRSSASCRFKTDICLGYPEVVSYNIYPKWYHDVPVEDYLDELYQWIQNESEGTGKPFLITEIGAGAIYGYRTPAHVKWSEEYQVQALKEQLQAVFSREGCSGVYIWQFCDVRVCDSWFGSRPRTMNNKGIVDEYRRPKLAYEVVKDSYRSLGNYF MIRTFETHKIRKTAELSSALWNFHTIGTQGEEAVIQAPVPGCWENYPDTVSYRGQASYSREFEAKGNIRLEFKGVSHTASVLVDGKPVGSHYNAYTPFDVVLKDIRPGIHQLEVIADNSFGPDSALHVPNDYQSYGGISRGVVLEELGEAYLSWIHFTPFLRKDGWYGKAEICVRNLSSGRLDGSVEVEIGKNSFAVLPIVLEGEEEKSFSTEELPCPWAECWSPESPVLYLITAVLRTADDIIDRVGFREIRTEGKDILLNGRKLRIKGFCRHEDHPQFGCALPFSAMQHDLMLIKDLGANSIRTVHYPNDELFLDLCDEQGILVWEENHARGLSEENMRNPHFKQQCGDCIREMITAHYNHPSIYIWGILNECASDTEYGRECYSEQYELIKSLDPYRPRSSASCRFKTDICLGYPEVVSYNIYPKWYHDVPVEDYLDELYQWIQNESEGTGKPFLITEIGAGAIYGYRTPAHVKWSEEYQVQALKEQLQAVFSREGCSGVYIWQFCDVRVCDSWFGSRPRTMNNKGIVDEYRRPKLAYEVVKDSYRSLGNYFENLYF 6ncx-a1-m1-cA_6ncx-a1-m1-cD Crystal structure of GH2 beta-galacturonidase from Eisenbergiella tayi bound to galacturonate A0A1E3AEY6 A0A1E3AEY6 2.25 X-RAY DIFFRACTION 56 1.0 1432052 (Eisenbergiella tayi) 1432052 (Eisenbergiella tayi) 554 555 6ncw-a1-m1-cC_6ncw-a1-m1-cB 6ncw-a1-m1-cD_6ncw-a1-m1-cA 6ncx-a1-m1-cB_6ncx-a1-m1-cC MIRTFETHKIRKTAELSSALWNFHTIGTQGEEAVIQAPVPGCWENYPDTVSYRGQASYSREFEAKGNIRLEFKGVSHTASVLVDGKPVGSHYNAYTPFDVVLKDIRPGIHQLEVIADNSFGPDSALHVPNDYQSYGGISRGVVLEELGEAYLSWIHFTPFLRKDGWYGKAEICVRNLSSGRLDGSVEVEIGKNSFAVLPIVLEGEEEKSFSTEELPCPWAECWSPESPVLYLITAVLRADDIIDRVGFREIRTEGKDILLNGRKLRIKGFCRHEDHPQFGCALPFSAMQHDLMLIKDLGANSIRTVHYPNDELFLDLCDEQGILVWEENHARGLSEENMRNPHFKQQCGDCIREMITAHYNHPSIYIWGILNECASDTEYGRECYSEQYELIKSLDPYRPRSSASCRFKTDICLGYPEVVSYNIYPKWYHDVPVEDYLDELYQWIQNESEGTGKPFLITEIGAGAIYGYRTPAHVKWSEEYQVQALKEQLQAVFSREGCSGVYIWQFCDVRVCDSWFGSRPRTMNNKGIVDEYRRPKLAYEVVKDSYRSLGNYF MIRTFETHKIRKTAELSSALWNFHTIGTQGEEAVIQAPVPGCWENYPDTVSYRGQASYSREFEAKGNIRLEFKGVSHTASVLVDGKPVGSHYNAYTPFDVVLKDIRPGIHQLEVIADNSFGPDSALHVPNDYQSYGGISRGVVLEELGEAYLSWIHFTPFLRKDGWYGKAEICVRNLSSGRLDGSVEVEIGKNSFAVLPIVLEGEEEKSFSTEELPCPWAECWSPESPVLYLITAVLRTADDIIDRVGFREIRTEGKDILLNGRKLRIKGFCRHEDHPQFGCALPFSAMQHDLMLIKDLGANSIRTVHYPNDELFLDLCDEQGILVWEENHARGLSEENMRNPHFKQQCGDCIREMITAHYNHPSIYIWGILNECASDTEYGRECYSEQYELIKSLDPYRPRSSASCRFKTDICLGYPEVVSYNIYPKWYHDVPVEDYLDELYQWIQNESEGTGKPFLITEIGAGAIYGYRTPAHVKWSEEYQVQALKEQLQAVFSREGCSGVYIWQFCDVRVCDSWFGSRPRTMNNKGIVDEYRRPKLAYEVVKDSYRSLGNYF 6nd7-a1-m1-cB_6nd7-a1-m1-cA The crystal structure of TerB co-crystallized with polyporic acid A0A3B6UEU0 A0A3B6UEU0 1.36 X-RAY DIFFRACTION 124 1.0 1883 (Streptomyces) 1883 (Streptomyces) 307 313 6d2v-a3-m1-cB_6d2v-a3-m1-cA HMEGKKILVTGGTGQVARPVAEALAERNEVWCLGRFGTPGVEKELNDRGITTFHWDMDDPGAAAYEGLPDDFTHVLHSAVRRGEDGDVNAAVEVNSVACGRLMTHCRGAEAFLFVSTGALYKRQTLDHAYTEDDPVDGVADWLPAYPVGKIAAEGAVRAFAQVLNLPTTIARLNIAYGPGGYGGVPMLYFKRMLAGEPIPVPKEGQNWCSLLHTDDLVAHVPRLWEAAATPATLVNWGGDEAVGITDCVRYLEELTGVRARLVPSEVTRETYRFDPTRRREITGPCRVPWREGVRRTLQALHPEHLP LVPRGSHMEGKKILVTGGTGQVARPVAEALAERNEVWCLGRFGTPGVEKELNDRGITTFHWDMDDPGAAAYEGLPDDFTHVLHSAVRRGEDGDVNAAVEVNSVACGRLMTHCRGAEAFLFVSTGALYKRQTLDHAYTEDDPVDGVADWLPAYPVGKIAAEGAVRAFAQVLNLPTTIARLNIAYGPGGYGGVPMLYFKRMLAGEPIPVPKEGQNWCSLLHTDDLVAHVPRLWEAAATPATLVNWGGDEAVGITDCVRYLEELTGVRARLVPSEVTRETYRFDPTRRREITGPCRVPWREGVRRTLQALHPEHLP 6ndi-a1-m1-cB_6ndi-a1-m1-cA Crystal Structure of the Sugar Binding Domain of LacI Family Protein from Klebsiella pneumoniae A0A2W0LW10 A0A2W0LW10 2.6 X-RAY DIFFRACTION 83 1.0 72407 (Klebsiella pneumoniae subsp. pneumoniae) 72407 (Klebsiella pneumoniae subsp. pneumoniae) 266 268 PSTIGVLALDTVTTPFSVEITLSIEETARAHGWNSFVVNFSDDRPEAVVDLLLSHRPDGIIFTTGLRQVPLPEKLLTLPCVLANCESLSQPVASYIPDDEQGQYDAVKALLAAGYRRPLCLHLPASQPATIRRRRGLERACREAGIEPDHLSHSYGQGDEHYHDIPAVVLAHIREGKPGFDSVICGNDRIAFVYQTLLGQGLRIPQDVAVVGYDNVGIGDLFLPPLSTVQLPHYDIGRLSALHIIHGDNHRETRKVASPWLPRASH ATPSTIGVLALDTVTTPFSVEITLSIEETARAHGWNSFVVNFSDDRPEAVVDLLLSHRPDGIIFTTGLRQVPLPEKLLTLPCVLANCESLSQPVASYIPDDEQGQYDAVKALLAAGYRRPLCLHLPASQPATIRRRRGLERACREAGIEPDHLSHSYGQGDEHYHDIPAVVLAHIREGKPGFDSVICGNDRIAFVYQTLLGQGLRIPQDVAVVGYDNVGIGDLFLPPLSTVQLPHYDIGRLSALHIIHGDNHRETRKVASPWLPRASH 6ndo-a1-m1-cA_6ndo-a1-m1-cB Crystal structure of the dark-adapted full-length bacteriophytochrome XccBphP mutant L193N from Xanthomonas campestris A0A0H2XCS3 A0A0H2XCS3 3.58 X-RAY DIFFRACTION 156 1.0 314565 (Xanthomonas campestris pv. campestris str. 8004) 314565 (Xanthomonas campestris pv. campestris str. 8004) 593 604 5akp-a1-m1-cA_5akp-a1-m1-cB 5uyr-a1-m1-cA_5uyr-a1-m1-cB 6ndp-a1-m1-cA_6ndp-a1-m1-cB 6pl0-a1-m1-cA_6pl0-a1-m1-cB VCAREPIHIPGLIQPYGVLLVIDPADGRIVQASTTAADLLGVPMAALLGMPYTQVLTLPEAQPFAVDDQPQHLMHAEVRFPQRATPPASAWVAAWHLYPQQWLVEMEPRDARVTLREAMPLLRSVERDPGIAEAAVRVAKGLRSLIGFDRVMIYRFDEEWNGDIIAEARKPELEAYLGNHYPASDIPAQARALYLRNRVRQIADVGYQPSPIQPTVHPQLGTPVDLSDVSLRSVSPVHLEYLANMGVTATLVASIVVNDALWGLISCHHYSPHFTNHAMRDVTDAVARTLAGRIGALQAVARARLESVLLTVREKLITDFNDAEHMTVELLDDMAPDLMDVVDADGVAIFHGNDISRHGTTPDVAALRRIRDHIESEHHEALREDAVGALHVDAIGEVFPELADLAPLAAGFIFVPLMPQSRSALLWTRREQIQQIKWAGNFDLWQQTVRGRARRWSPLHLESARSLRVLIELMERKRFQQDFTLLEASLSRLRDGVAIIERGTANAAHRLLFVNTAFADVCGSDVAELIGRELQTSDAPRANVELLQDALRNGRAAYVTLPLQVSAPVYRQFHLEPLPSPSGVTAHWLLQLR VCAREPIHIPGLIQPYGVLLVIDPADGRIVQASTTAADLLGVPMAALLGMPYTQVLTLPEAQPFAVDDQPQHLMHAEVRFPQRATPPASAWVAAWHLYPQQWLVEMEPRDARLVTLREAMPLLRSVERDPGIAEAAVRVAKGLRSLIGFDRVMIYRFDEEWNGDIIAEARKPELEAYLGNHYPASDIPAQARALYLRNRVRQIADVGYQPSPIQPTVHPQLGTPVDLSDVSLRSVSPVHLEYLANMGVTATLVASIVVNDALWGLISCHHYSPHFTNHAMRDVTDAVARTLAGRIGALQAVARARLESVLLTVREKLITDFNDAEHMTVELLDDMAPDLMDVVDADGVAIFHGNDISRHGTTPDVAALRRIRDHIESEHHEALREDAVGALHVDAIGEVFPELADLAPLAAGFIFVPLMPQSRSALLWTRREQIQQIKWAGNPRKSFDLWQQTVRGRARRWSPLHLESARSLRVLIELMERKRFQQDFTLLEASLSRLRDGVAIIERGTANAAHRLLFVNTAFADVCGSDVAELIGRELQTLYASDAPRANVELLQDALRNGRAAYVTLPLQVSDGAPVYRQFHLEPLPSPSGVTAHWLLQLRD 6ndr-a1-m1-cA_6ndr-a1-m1-cB Crystal structure of dTDP-6-deoxy-D-glucose-3,5-epimerase RmlC from Legionella pneumophila Philadelphia 1 in complex with dTDP-4-KETO-L-RHAMNOSE Q5ZXH5 Q5ZXH5 1.6 X-RAY DIFFRACTION 95 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 188 188 HMNIINTQIDELKIIEPKIYGDERGFFYESFQAKRYEELLGITDRFVQDNFSRSQKGVLRGLHYQSQQTQGKLVSVLAGEVFDVAVDIRLGSPTFGQWVGVILSGENKRQFWIPKGFAHGFYVLSAMADFAYKCTDYYHPESEFSIHYLDPQLAIDWPLGEQVQLSPKDAAAKLLNLIDAELLPRYQA HMNIINTQIDELKIIEPKIYGDERGFFYESFQAKRYEELLGITDRFVQDNFSRSQKGVLRGLHYQSQQTQGKLVSVLAGEVFDVAVDIRLGSPTFGQWVGVILSGENKRQFWIPKGFAHGFYVLSAMADFAYKCTDYYHPESEFSIHYLDPQLAIDWPLGEQVQLSPKDAAAKLLNLIDAELLPRYQA 6nds-a1-m1-cA_6nds-a1-m2-cA Structure of an HMG-CoA lyase from Acenitobacter baumannii in complex with coenzyme A and 3-methylmalate A0A0D5YK08 A0A0D5YK08 1.65 X-RAY DIFFRACTION 102 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 305 305 MTAFSDLLVVQEVSPRDGLQIEPTWVPTDKKIDLINQLSTMGFSRIEAGSFVSPKAIPNLRDGEEVFTGITRHKDIIYVGLIPNLKGALRAVEANANELNLVLSASQTHNLANMRMTKAQSFAGFTEIVEQLQGKTQFNGTVATTFGCPFEGKISEREVFSLVEHYLKLGIHNITLADTTGMANPVQVKRIVSHVLSLISPEQLTLHFHNTRGLGLTNVLAAYEVGARRFDAALGGLGGCPFAPGASGNICTEDLVNMCEEIGIPTTIDLDALIQLSRTLPALLGHDTPSQLAKAGRNTDLHPIP MTAFSDLLVVQEVSPRDGLQIEPTWVPTDKKIDLINQLSTMGFSRIEAGSFVSPKAIPNLRDGEEVFTGITRHKDIIYVGLIPNLKGALRAVEANANELNLVLSASQTHNLANMRMTKAQSFAGFTEIVEQLQGKTQFNGTVATTFGCPFEGKISEREVFSLVEHYLKLGIHNITLADTTGMANPVQVKRIVSHVLSLISPEQLTLHFHNTRGLGLTNVLAAYEVGARRFDAALGGLGGCPFAPGASGNICTEDLVNMCEEIGIPTTIDLDALIQLSRTLPALLGHDTPSQLAKAGRNTDLHPIP 6ndx-a1-m1-cD_6ndx-a1-m1-cB Lysinoalanine cross-linked FlgE dimer from Treponema denticola Q9RQB6 Q9RQB6 3.04 X-RAY DIFFRACTION 52 1.0 158 (Treponema denticola) 158 (Treponema denticola) 171 218 AKATTSVNYANLDKRLPELPEGANRAQILESTWSTEFKVYDSFGEAHELQIDFARVPGEVNAWRATVNVDPTNADATATRVGIGTTDGVQNSFIVRFDNNGHLASVTDTAGNVTSPAGQVLVQISYNVVGANPDEAGAPTRHTFDVNLGEIGTSKNTITQFSDKSTTKAYE DLNIPIGQKLDAKATTSVNYAANLDKRLPELPEGANRAQILESTWSTEFKVYDSFGEAHELQIDFARVPGEVNAWRATVNVDPTNADATATRVGIGTTDGVQNSFIVRFDNNGHLASVTDTAGNVTSPAGQVLVQISYNVVGANPDEAGAPTRHTFDVNLGEIGTSKNTITQFSDKSTTKAYEQDGYTLGYLENFRIDQSGIITGVYSNGVRQEIGQI 6ne9-a1-m1-cA_6ne9-a1-m1-cB Bacteroides intestinalis acetyl xylan esterase (BACINT_01039) B3C975 B3C975 1.738 X-RAY DIFFRACTION 115 0.991 329854 (Bacteroides intestinalis) 329854 (Bacteroides intestinalis) 340 345 TVEDFKPSEVNQPGKLYPQVNSERKVRVQISAPEAKVVQLDLGGVKYDLTKDEKGVWTGESAPQQEGFHYYQLNVDGAAVPDPGTIYFYGAGRWGSGIEVPAHDADFYALKDVPHGLLSENYYSNLTKAWRRCFVYTPAGYGDNKDKRYPVLYLQHGSFEDETGWGRQGKTNLILDNLIAAGKAVPLVVDNGYATKPGEKSPFAASIFEEVLNEVIPIDAKFRTLSGREDRAIAGLSGANQTHIANNPGHFAYYGGFSGTLDATTFLNGKFKDAKAVNVQFKVFFLGLGTAEPHPFPGVVKAFRQDKQGIKYVYYESPDTAHEWLTWRRALNEFAPLLFK TVEDFKPSEVNQPGKLYPQVNSERKVRVQISAPEAKVVQLDLGGVKYDLTKDEKGVWTGESAPQQEGFHYYQLNVDGAAVPDPGTIYFYGAGRWGSGIEVPAHDADFYALKDVPHGLLSENYYSNLTKAWRRCFVYTPAGYGDNKDKRYPVLYLQHGSFEDETGWGRQGKTNLILDNLIAAGKAVPLVVDNGYATKPGEFAASIFEEVLNEVIPIDAKFRTLSGREDRAIAGLSGANQTHIANNPGHFAYYGGFSGTSNYPSTEPLDATTFLNGKFKDAKAVNVQFKVFFLGLGTAEPHPFPGVVKAFRQDKQGIKYVYYESPDTAHEWLTWRRALNEFAPLLFK 6nee-a1-m1-cA_6nee-a1-m1-cB Crystal structure of a reconstructed ancestor of Triosephosphate isomerase from eukaryotes 1.9 X-RAY DIFFRACTION 128 1.0 32630 (synthetic construct) 32630 (synthetic construct) 250 252 SRKFFVGGNWKMNGTLESIKALVETLNSAQLDPNTEVVVAPPAIYLPFARSKLKKPKEIQVAAQNCYTKPNGAFTGEISAEMLKDLGVPWVILGHSERRTIFGESDELIAEKVKYALDQGLKVIACIGETLEEREAGKTMEVVARQILKAIADKIKDWSNVVIAYEPVWAIGTGKVATPEQAQEVHAALRKWLKENVSPEVAESTRIIYGGSVNAANCKELAKQPDIDGFLVGGASLKAPEFVDIINARQ MASRKFFVGGNWKMNGTLESIKALVETLNSAQLDPNTEVVVAPPAIYLPFARSKLKKPKEIQVAAQNCYTKPNGAFTGEISAEMLKDLGVPWVILGHSERRTIFGESDELIAEKVKYALDQGLKVIACIGETLEEREAGKTMEVVARQILKAIADKIKDWSNVVIAYEPVWAIGTGKVATPEQAQEVHAALRKWLKENVSPEVAESTRIIYGGSVNAANCKELAKQPDIDGFLVGGASLKAPEFVDIINARQ 6neh-a1-m1-cA_6neh-a1-m1-cB N191D, F205S mutant of scoulerine 9-O-methyltransferase from Thalictrum flavum complexed with (13aS)-3,10-dimethoxy-5,8,13,13a-tetrahydro-6H-isoquino[3,2-a]isoquinoline-2,9-diol and S-ADENOSYL-L-HOMOCYSTEINE Q5C9L2 Q5C9L2 1.52 X-RAY DIFFRACTION 296 1.0 150095 (Thalictrum flavum subsp. glaucum) 150095 (Thalictrum flavum subsp. glaucum) 342 342 6neg-a1-m1-cB_6neg-a1-m1-cA VNYLSGLGLSRLICLPMALRAAIELNVFEIIFQAGPEAQLSPAEIVAKIPTKNPNAAIALDRILRMLGASSILSVTTMKDGRVYGLTEESRCLVADKNGVSVVPMLLFTSDKAVVESFYNIKDVVLEEGVIPFDRTHGMDFFAYAGKEQSVNKSFNQAMGAGSTIAFDEVFKVYKGFHDLKELVDVGGGIGTSLSNIISKYPHIKGINFELPHVIADAPNYPGVEHIAGNMFEGVPNAQNILLKWVLHDWDDERSIKILQNCWKALPEGGTVIVVEFVLPQILGNNAESFNALTPDLLMMTLNPGGKERTTTEFDGLAKAAGFAETKFFPISQGLHVMEFHK VNYLSGLGLSRLICLPMALRAAIELNVFEIIFQAGPEAQLSPAEIVAKIPTKNPNAAIALDRILRMLGASSILSVTTMKDGRVYGLTEESRCLVADKNGVSVVPMLLFTSDKAVVESFYNIKDVVLEEGVIPFDRTHGMDFFAYAGKEQSVNKSFNQAMGAGSTIAFDEVFKVYKGFHDLKELVDVGGGIGTSLSNIISKYPHIKGINFELPHVIADAPNYPGVEHIAGNMFEGVPNAQNILLKWVLHDWDDERSIKILQNCWKALPEGGTVIVVEFVLPQILGNNAESFNALTPDLLMMTLNPGGKERTTTEFDGLAKAAGFAETKFFPISQGLHVMEFHK 6nek-a1-m1-cA_6nek-a1-m2-cA Crystal structure of a consensus PDZ domain 1.63 X-RAY DIFFRACTION 228 1.0 32630 (synthetic construct) 32630 (synthetic construct) 86 86 MGWEELTVELEKDGEGLGFSLGDGGIFVSSVVPGGPAARAGRLRVGDRILEVNGVSVEGLTLEEAVKLLRSSGTTVTLTVLRERGG MGWEELTVELEKDGEGLGFSLGDGGIFVSSVVPGGPAARAGRLRVGDRILEVNGVSVEGLTLEEAVKLLRSSGTTVTLTVLRERGG 6nes-a1-m1-cB_6nes-a1-m1-cA FAD-dependent monooxygenase TropB from T. stipitatus B8M9J8 B8M9J8 1.75 X-RAY DIFFRACTION 55 0.995 441959 (Talaromyces stipitatus ATCC 10500) 441959 (Talaromyces stipitatus ATCC 10500) 430 431 6net-a1-m1-cA_6net-a1-m1-cB 6neu-a1-m1-cA_6neu-a1-m1-cB 6nev-a1-m1-cA_6nev-a1-m1-cB QPLSVGIVGGGIIGVILAAGLVRRGIDVKVFEQARGREIGAGMAFTANAVRCMEMLDPAIVWALRSSGAVPQAEARDYLRWVDGYHESSKRLYQLDAGIRGFEACRRDQFLEALVKVLPEGIVECQKRLQKIHEKNETEKVTLEFADGTFAHVDCVIGADGIRSRVRQHLFGEDSPYSHPHYSHKFAFRGLITMENAISALGEDKARTLNMHVGPNAHLIHYPVANETMVNIAAFVSDPEEWPDKLSLVGPATREEAMGYFANWNPGLRAVLGFMPENIDRWAMFDTYDYPAPFFSRGKICLVGDAAHAAVPHHGAGACIGIEDALCATVLLAEVFVSTRGKSSIVRNRAIAAAFGSFNAVRRVRAQWFVDSSRRVCDLYQQPEWADPQKRIKAENCFEEIKDRSHKIWHFDYNSMLQEAIEKYRHNMGS QPLSVGIVGGGIIGVILAAGLVRRGIDVKVFEQARGFREIGAGMAFTANAVRCMEMLDPAIVWALRSSGADHQAEARDYLRWVDGYHESSKRLYQLDAGIRGFEACRRDQFLEALVKVLPEGIVECQKRLQKIHEKNETEKVTLEFADGTFAHVDCVIGADGIRSRVRQHLFGEDSPYSHPHYSHKFAFRGLITMENAISALGEDKARTLNMHVGPNAHLIHYPVANETMVNIAAFVSDPEEWPDKLSLVGPATREEAMGYFANWNPGLRAVLGFMPENIDRWAMFDTYDYPAPFFSRGKICLVGDAAHAAVPHHGAGACIGIEDALCATVLLAEVFVSTRGKSSIVRNRAIAAAFGSFNAVRRVRAQWFVDSSRRVCDLYQQPEWADPQKRIKAENCFEEIKDRSHKIWHFDYNSMLQEAIEKYRHNMGS 6nf3-a1-m1-cA_6nf3-a1-m2-cB Structure of the Monoclinic-3 (Monocln-3) Crystal Form of Human Apolipoprotein C1 P02654 P02654 2.33 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 51 LDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKL VSSALDKLKEFGNTLEDKARELISRIKQSELSAKMREWFSETFQKVKEKLK 6nf4-a1-m1-cA_6nf4-a1-m1-cB Structure of zebrafish Otop1 in nanodiscs 2.98 ELECTRON MICROSCOPY 156 1.0 7955 (Danio rerio) 7955 (Danio rerio) 421 421 KYPQKNAELLSAQYGTNLLLLGVSVMLALAAQSGPVKEEHLLSFITVLMLVQLVWMLCYMIRRERERSGASWIRGGLTMLALLSLIMDAFRIGYFVGYHSCISAALGVYPIVHALHTISQVHFLWFHIKDVIKKYETFERFGVIHAVFTNLLLWCNGVMSETEHFMHTSVCSMFSTSLYYLYPFNIEYHIFVSAMLFVMWKNIGLLLGPLGGLVALASSVSVLVVYLIHLEKTEEMHEAAVSMFYYYGVAMMACMCVGSGTGLLVYRMENRPMDTGSNPARTLDTELLLASSLGSWLMSWCSVVASVAEAGQKSPSFSWTSLTYSLLLVLEKCIQNLFIVESLYRPGRKRQILKNICMFLFMCNISLWILPAFGCRPQYDNPLENETFGTSVWTTVLNVAIPLNLFYRMHSVASLFEVFRK KYPQKNAELLSAQYGTNLLLLGVSVMLALAAQSGPVKEEHLLSFITVLMLVQLVWMLCYMIRRERERSGASWIRGGLTMLALLSLIMDAFRIGYFVGYHSCISAALGVYPIVHALHTISQVHFLWFHIKDVIKKYETFERFGVIHAVFTNLLLWCNGVMSETEHFMHTSVCSMFSTSLYYLYPFNIEYHIFVSAMLFVMWKNIGLLLGPLGGLVALASSVSVLVVYLIHLEKTEEMHEAAVSMFYYYGVAMMACMCVGSGTGLLVYRMENRPMDTGSNPARTLDTELLLASSLGSWLMSWCSVVASVAEAGQKSPSFSWTSLTYSLLLVLEKCIQNLFIVESLYRPGRKRQILKNICMFLFMCNISLWILPAFGCRPQYDNPLENETFGTSVWTTVLNVAIPLNLFYRMHSVASLFEVFRK 6nf6-a1-m1-cA_6nf6-a1-m1-cB Structure of chicken Otop3 in nanodiscs 3.32 ELECTRON MICROSCOPY 86 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 411 411 AQKSGQLFSGLLALNVVFLGSAFISSMIFNHVAITLADVWILLSILKVLCLCWIIYYLLGTSRQPHAVAPVWIRGSLLLFGTFSILLNVFQIGYSVIQINCKSKVEIVFPSIEILFVATQAFFLWHHSKDCIQVQHNLTRCGLMLTIATNLLLWLLAVTNDSIHMEIESQLRTTTCKVFQKGYILLYPFNTEYCLICCSVLYVMWKNVGRFGPLLGAAAVIIGICVFMMYQIQATGSAPNYQVFVLYYSYYIVLLPLMCVVAIIGTIIHTLEKPTRSLDVVLLMGAALGQIAMSYFSIVAIVATNPRDMLNSLILSYSVLLIFQYITQNIFIIDGLQWKRKALKEISFFLVLCNIILWIMPTFGAHPVFENGLQKSFYGYSTWFAIVNFGLPLSVFYRMHSVGGLLEVYVS AQKSGQLFSGLLALNVVFLGSAFISSMIFNHVAITLADVWILLSILKVLCLCWIIYYLLGTSRQPHAVAPVWIRGSLLLFGTFSILLNVFQIGYSVIQINCKSKVEIVFPSIEILFVATQAFFLWHHSKDCIQVQHNLTRCGLMLTIATNLLLWLLAVTNDSIHMEIESQLRTTTCKVFQKGYILLYPFNTEYCLICCSVLYVMWKNVGRFGPLLGAAAVIIGICVFMMYQIQATGSAPNYQVFVLYYSYYIVLLPLMCVVAIIGTIIHTLEKPTRSLDVVLLMGAALGQIAMSYFSIVAIVATNPRDMLNSLILSYSVLLIFQYITQNIFIIDGLQWKRKALKEISFFLVLCNIILWIMPTFGAHPVFENGLQKSFYGYSTWFAIVNFGLPLSVFYRMHSVGGLLEVYVS 6nfe-a1-m1-cA_6nfe-a1-m1-cB Crystal Structure of Ribose-phosphate Pyrophosphokinase from Legionella pneumophila with bound AMP, ADP, and Ribose-5-Phosphate Q5ZY30 Q5ZY30 1.75 X-RAY DIFFRACTION 121 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 298 299 STMMIFTGNANPELALKISSHLQIPIGKATVGTFSDGETMVEILENVRGKDVFVLQSTCAPANNNLMELLIMADALRRSSAGRITAVVPYFGYARQDRRVRSARVPITAKVVADMMASVGICRVLTVDLHADQIQGFFYMPVDNVYSTPVLLEDITKQKLNNIMIVSPDVGGVVRARAVAKRLNDAELSIIDKRREVMHIIGEPANKNCIIVDDIVDTAGTLCTAAHELKKNGAKSVRAYITHPVLSGPAVNNIKHSGLDEVVVTDTIPLSAEAQNCEKIRVVSLADMLAQAIKRVNV STMMIFTGNANPELALKISSHLQIPIGKATVGTFSDGETMVEILENVRGKDVFVLQSTCAPANNNLMELLIMADALRRSSAGRITAVVPYFGYARQDRRVRSARVPITAKVVADMMASVGICRVLTVDLHADQIQGFFYMPVDNVYSTPVLLEDITKQKLNNIMIVSPDVGGVVRARAVAKRLNDAELSIIDKRRSEVMHIIGEPANKNCIIVDDIVDTAGTLCTAAHELKKNGAKSVRAYITHPVLSGPAVNNIKHSGLDEVVVTDTIPLSAEAQNCEKIRVVSLADMLAQAIKRVNV 6nff-a1-m1-cA_6nff-a1-m2-cA Structure of X-prolyl dipeptidyl aminopeptidase from Lactobacillus helveticus Q59485 Q59485 2 X-RAY DIFFRACTION 140 1.0 1587 (Lactobacillus helveticus) 1587 (Lactobacillus helveticus) 794 794 HMKYNQYAYVETDFQQQVKELIDINFLPKNYQVWDFGSLLAKLVKNAIAEAKTDAAKNAKLAEFAVSDHQTLADFLKEKPTEIGTKQFYNVALQLLGYHVHYDYDFADPTGFMQRNALPFLQDISDNQKLISAFYRLLNTRAKNGQILLDVMAGKGYFTQFWGQNKFKFFNGKSIPVFDTNKVIREVVYVETDLDTDHDGKSDLIQVTVFRPEETNKGLKVPALYTASPYFGGIIANEKRNHNVDENLSDSTEWNDPQYVHSPIVKAEKPDGSSRPATEEAVHKSSYPLNEYMLARGFASVFAGAIGTRGSDGVRITGAPEETESAAAVIEWLHGDRVAYTDRTRTVRTTADWCNGNIGMTGRSYLGTLQIAIATTGVKGLKTVVSEAAISSWYDYYREHGSVIAPEACQGEDLDLLAETCQSNLWDAGSYLKIKPEYDKMQKQLREKEDRNTGQYSDFWEAGNYRHHADGIKCSWISVHGLNDWNVKPKNVYKIWQLVKKMPMKHHLFLHQGPHYNMNNLVSIDFTDLMNLWFVHELLGIENNAYNQWPTVMIQDNLQADKWHEEPDWSNDLGQEKIYYPTDEGELFQDGNGKAQKSFTDVGGIEFKKAGISESDWQYKFICGDEKWAKPSLRFETDEFTHPTTIVGRPEVKVRVSASLPKGEISVALVELGERQRLTATPKFLMHGGQELGYRFGTDTLQEFVPDKKTKAKLITKAHMNLQNFKDMKKPEAIDADKFYDLDFLLQPTYYTIPSGSKLALIIYSTDQGMTKRPLEDETYTIDLANTEIKFYEK HMKYNQYAYVETDFQQQVKELIDINFLPKNYQVWDFGSLLAKLVKNAIAEAKTDAAKNAKLAEFAVSDHQTLADFLKEKPTEIGTKQFYNVALQLLGYHVHYDYDFADPTGFMQRNALPFLQDISDNQKLISAFYRLLNTRAKNGQILLDVMAGKGYFTQFWGQNKFKFFNGKSIPVFDTNKVIREVVYVETDLDTDHDGKSDLIQVTVFRPEETNKGLKVPALYTASPYFGGIIANEKRNHNVDENLSDSTEWNDPQYVHSPIVKAEKPDGSSRPATEEAVHKSSYPLNEYMLARGFASVFAGAIGTRGSDGVRITGAPEETESAAAVIEWLHGDRVAYTDRTRTVRTTADWCNGNIGMTGRSYLGTLQIAIATTGVKGLKTVVSEAAISSWYDYYREHGSVIAPEACQGEDLDLLAETCQSNLWDAGSYLKIKPEYDKMQKQLREKEDRNTGQYSDFWEAGNYRHHADGIKCSWISVHGLNDWNVKPKNVYKIWQLVKKMPMKHHLFLHQGPHYNMNNLVSIDFTDLMNLWFVHELLGIENNAYNQWPTVMIQDNLQADKWHEEPDWSNDLGQEKIYYPTDEGELFQDGNGKAQKSFTDVGGIEFKKAGISESDWQYKFICGDEKWAKPSLRFETDEFTHPTTIVGRPEVKVRVSASLPKGEISVALVELGERQRLTATPKFLMHGGQELGYRFGTDTLQEFVPDKKTKAKLITKAHMNLQNFKDMKKPEAIDADKFYDLDFLLQPTYYTIPSGSKLALIIYSTDQGMTKRPLEDETYTIDLANTEIKFYEK 6nfp-a1-m1-cD_6nfp-a1-m1-cF 1.7 Angstrom Resolution Crystal Structure of Arginase from Bacillus subtilis subsp. subtilis str. 168 P39138 P39138 1.7 X-RAY DIFFRACTION 35 0.993 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 289 289 6nfp-a1-m1-cB_6nfp-a1-m1-cA 6nfp-a1-m1-cD_6nfp-a1-m1-cC 6nfp-a1-m1-cE_6nfp-a1-m1-cA 6nfp-a1-m1-cE_6nfp-a1-m1-cB 6nfp-a1-m1-cF_6nfp-a1-m1-cC AMDKTISVIGMPMDLGQARRGVDMGPSAIRYAHLIERLSDMGYTVEDLGDIPINELKNLNSVLAGNEKLAQKVNKVIEEKKFPLVLGGDHSIAIGTLAGTAKHYDNLGVIWYDAHGDLNTLETSPSGNIHGMPLAVSLGIGHESLVNLEGYAPKIKPENVVIIGARSLDEGERKYIKESGMKVYTMHEIDRLGMTKVIEETLDYLSACDGVHLSLDLDGLDPNDAPGVGTPVVGGISYRESHLAMEMLYDAGIITSAEFVEVNPILDHKNKTGKTAVELVESLLGKKLL DKTISVIGMPMDLGQARRGVDMGPSAIRYAHLIERLSDMGYTVEDLGDIPINREELKNLNSVLAGNEKLAQKVNKVIEEKKFPLVLGGDHSIAIGTLAGTAKHYDNLGVIWYDAHGDLNTLETSPSGNIHGMPLAVSLGIGHESLVNLEGYAPKIKPENVVIIGARSLDEGERKYIKESGMKVYTMHEIDRLGMTKVIEETLDYLSACDGVHLSLDLDGLDPNDAPGVGTPVVGGISYRESHLAMEMLYDAGIITSAEFVEVNPILDHKNKTGKTAVELVESLLGKKLL 6nfp-a1-m1-cE_6nfp-a1-m1-cF 1.7 Angstrom Resolution Crystal Structure of Arginase from Bacillus subtilis subsp. subtilis str. 168 P39138 P39138 1.7 X-RAY DIFFRACTION 37 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 287 289 6nfp-a1-m1-cB_6nfp-a1-m1-cC 6nfp-a1-m1-cD_6nfp-a1-m1-cA DKTISVIGMPMDLGQARRGVDMGPSAIRYAHLIERLSDMGYTVEDLGDIPINELKNLNSVLAGNEKLAQKVNKVIEEKKFPLVLGGDHSIAIGTLAGTAKHYDNLGVIWYDAHGDLNTLETSPSGNIHGMPLAVSLGIGHESLVNLEGYAPKIKPENVVIIGARSLDEGERKYIKESGMKVYTMHEIDRLGMTKVIEETLDYLSACDGVHLSLDLDGLDPNDAPGVGTPVVGGISYRESHLAMEMLYDAGIITSAEFVEVNPILDHKNKTGKTAVELVESLLGKKLL DKTISVIGMPMDLGQARRGVDMGPSAIRYAHLIERLSDMGYTVEDLGDIPINREELKNLNSVLAGNEKLAQKVNKVIEEKKFPLVLGGDHSIAIGTLAGTAKHYDNLGVIWYDAHGDLNTLETSPSGNIHGMPLAVSLGIGHESLVNLEGYAPKIKPENVVIIGARSLDEGERKYIKESGMKVYTMHEIDRLGMTKVIEETLDYLSACDGVHLSLDLDGLDPNDAPGVGTPVVGGISYRESHLAMEMLYDAGIITSAEFVEVNPILDHKNKTGKTAVELVESLLGKKLL 6nhi-a1-m1-cA_6nhi-a1-m2-cA Crystal structure of Histidine--tRNA ligase from Elizabethkingia sp. CCUG 26117 2.1 X-RAY DIFFRACTION 265 1.0 238 (Elizabethkingia meningoseptica) 238 (Elizabethkingia meningoseptica) 448 448 HMKPSLAKGTRDFTAQEVSRRKYIINTLQKNFELFGFQPLETPSFENLSTLTGKYGEEGDRLIFKILNSGNYTDKVNENDWQNKDAKKLTSQISDKALRYDLTVPFARFVAMNHGQLTFPFKRYQIQPVWRADRPQKGRFREFYQCDADVVGSESLWQEVELVQLYFKAFKELGVPVAIQMNNRKILSGLAEYAGITEQLIDFTVALDKLDKIGKDGVIKEMQEKGISNEAIEKLDFLFHQKINALENLQELKTRFEGVEVGIQGVTELEFVLSKAMELGIDNQDLVFNITLARGLDYYTGAIFEVKAKGVEMGSIGGGGRYNNLTEVFGVKNIPGIGISFGLDRTYLVMEELGLFPETVKVEYLFANYGEEEAIEAMKLIAQLREKGISAELYPEAAKLKKQFTYAEKKEIPNLVFLGKDEIENANVTIKNLTTGEQETITQSEFLK HMKPSLAKGTRDFTAQEVSRRKYIINTLQKNFELFGFQPLETPSFENLSTLTGKYGEEGDRLIFKILNSGNYTDKVNENDWQNKDAKKLTSQISDKALRYDLTVPFARFVAMNHGQLTFPFKRYQIQPVWRADRPQKGRFREFYQCDADVVGSESLWQEVELVQLYFKAFKELGVPVAIQMNNRKILSGLAEYAGITEQLIDFTVALDKLDKIGKDGVIKEMQEKGISNEAIEKLDFLFHQKINALENLQELKTRFEGVEVGIQGVTELEFVLSKAMELGIDNQDLVFNITLARGLDYYTGAIFEVKAKGVEMGSIGGGGRYNNLTEVFGVKNIPGIGISFGLDRTYLVMEELGLFPETVKVEYLFANYGEEEAIEAMKLIAQLREKGISAELYPEAAKLKKQFTYAEKKEIPNLVFLGKDEIENANVTIKNLTTGEQETITQSEFLK 6nhl-a1-m1-cA_6nhl-a1-m2-cB Crystal structure of QueE from Escherichia coli A0A0E1M5B1 A0A0E1M5B1 2.101 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 225 228 HSSENLYFQGHMQYPINEMFQTLQGEGYFTGVPAIFIRLQGCPVGCAWCDTKHTWEKLEDREVSLFSILAKTKESDKWGAASSEDLLAVIGRQGYTARHVVITGGEPCIHDLLPLTDLLEKNGFSCQIETSGTHEVRCTPNTWVTVSPKLNMRGGYEVLSQALERANEIKHPVGRVRDIEALDELLATLTDDKPRVIALQPISDATRLCIETCIARNWRLSMQTH HSSENLYFQGHMQYPINEMFQTLQGEGYFTGVPAIFIRLQGCPVGCAWCDTKHTWEKLEDREVSLFSILAKTKESDKWGAASSEDLLAVIGRQGYTARHVVITGGEPCIHDLLPLTDLLEKNGFSCQIETSGTHEVRCTPNTWVTVSPKLNMRGGYEVLSQALERANEIKHPVGRVRDIEALDELLATLTDDKPRVIALQPISQKDDATRLCIETCIARNWRLSMQTH 6nhs-a2-m1-cA_6nhs-a2-m4-cA Crystal Structure of the Beta Lactamase Class D YbXI from Nostoc Q8YU74 Q8YU74 2 X-RAY DIFFRACTION 25 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 236 236 6nhs-a2-m2-cA_6nhs-a2-m3-cA NVNLGRSFNQLGIKGSILIYDRNNKKFYEHNAARNSQSFLPASTFKIFNSLVALETGVISNDVAILTWDGQRQFPTWNQDTNIRQAFRNSTVWFYQVLARKIGHEREKFIKQVGYGNLQIGTPEQIDRFWLEGPLQITPKQQIEFLQRLHRKELPFSQRTLDLVQDIIYERTPNYVLRGKTGWAASVTPNIGWFVGYLEQNNNVYFFATNIDIRNNDDAAARIEVTRRSLKALGLL NVNLGRSFNQLGIKGSILIYDRNNKKFYEHNAARNSQSFLPASTFKIFNSLVALETGVISNDVAILTWDGQRQFPTWNQDTNIRQAFRNSTVWFYQVLARKIGHEREKFIKQVGYGNLQIGTPEQIDRFWLEGPLQITPKQQIEFLQRLHRKELPFSQRTLDLVQDIIYERTPNYVLRGKTGWAASVTPNIGWFVGYLEQNNNVYFFATNIDIRNNDDAAARIEVTRRSLKALGLL 6nhs-a2-m2-cA_6nhs-a2-m4-cA Crystal Structure of the Beta Lactamase Class D YbXI from Nostoc Q8YU74 Q8YU74 2 X-RAY DIFFRACTION 28 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 236 236 6nhs-a2-m1-cA_6nhs-a2-m3-cA NVNLGRSFNQLGIKGSILIYDRNNKKFYEHNAARNSQSFLPASTFKIFNSLVALETGVISNDVAILTWDGQRQFPTWNQDTNIRQAFRNSTVWFYQVLARKIGHEREKFIKQVGYGNLQIGTPEQIDRFWLEGPLQITPKQQIEFLQRLHRKELPFSQRTLDLVQDIIYERTPNYVLRGKTGWAASVTPNIGWFVGYLEQNNNVYFFATNIDIRNNDDAAARIEVTRRSLKALGLL NVNLGRSFNQLGIKGSILIYDRNNKKFYEHNAARNSQSFLPASTFKIFNSLVALETGVISNDVAILTWDGQRQFPTWNQDTNIRQAFRNSTVWFYQVLARKIGHEREKFIKQVGYGNLQIGTPEQIDRFWLEGPLQITPKQQIEFLQRLHRKELPFSQRTLDLVQDIIYERTPNYVLRGKTGWAASVTPNIGWFVGYLEQNNNVYFFATNIDIRNNDDAAARIEVTRRSLKALGLL 6nhu-a1-m1-cA_6nhu-a1-m1-cD Crystal Structure of the Beta Lactamase Class D YbxI from Agrobacterium fabrum Q7D0B8 Q7D0B8 2.3 X-RAY DIFFRACTION 17 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 243 244 QAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGFDAGILQDGKTPAWDWKPGTEARASDRKTVDPTIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGASLTISPVEQVGFLRRLLGGNLPFSRDAQAKTRAIMPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSNEPLGPAVRDAFLRDIPRLAV PQAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGFDAGILQDGKTPAWDWKPGTEARASDRKTVDPTIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGASLTISPVEQVGFLRRLLGGNLPFSRDAQAKTRAIMPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSNEPLGPAVRDAFLRDIPRLAV 6nhu-a1-m1-cB_6nhu-a1-m1-cC Crystal Structure of the Beta Lactamase Class D YbxI from Agrobacterium fabrum Q7D0B8 Q7D0B8 2.3 X-RAY DIFFRACTION 22 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 243 244 QAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGFDAGILQDGKTPAWDWKPGTEARASDRKTVDPTIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGASLTISPVEQVGFLRRLLGGNLPFSRDAQAKTRAIMPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSNEPLGPAVRDAFLRDIPRLAV PQAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGFDAGILQDGKTPAWDWKPGTEARASDRKTVDPTIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGASLTISPVEQVGFLRRLLGGNLPFSRDAQAKTRAIMPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSNEPLGPAVRDAFLRDIPRLAV 6nhu-a3-m1-cB_6nhu-a3-m1-cD Crystal Structure of the Beta Lactamase Class D YbxI from Agrobacterium fabrum Q7D0B8 Q7D0B8 2.3 X-RAY DIFFRACTION 51 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 243 244 6nhu-a1-m1-cA_6nhu-a1-m1-cC 6nhu-a1-m1-cB_6nhu-a1-m1-cD 6nhu-a2-m1-cA_6nhu-a2-m1-cC QAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGFDAGILQDGKTPAWDWKPGTEARASDRKTVDPTIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGASLTISPVEQVGFLRRLLGGNLPFSRDAQAKTRAIMPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSNEPLGPAVRDAFLRDIPRLAV PQAFECTLVTSIETGAIINQQGACDQRVAPASTFKVPLALIGFDAGILQDGKTPAWDWKPGTEARASDRKTVDPTIWEQDSVLWYSREITRRLGPEKFAAYVKRLGYGNADVSGEPGKNNGLTHSWLGASLTISPVEQVGFLRRLLGGNLPFSRDAQAKTRAIMPVFDAPESWAVHGKTGTGYMRDEKGNPDRNRPFGWFVGWAEREGQHIVFARLRVSDKPSNEPLGPAVRDAFLRDIPRLAV 6nhw-a1-m1-cA_6nhw-a1-m1-cB Structure of the transmembrane domain of the Death Receptor 5 - Dimer of Trimer O14763 O14763 NOT SOLUTION NMR 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP 6nhw-a1-m1-cA_6nhw-a1-m1-cD Structure of the transmembrane domain of the Death Receptor 5 - Dimer of Trimer O14763 O14763 NOT SOLUTION NMR 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP 6nhw-a1-m1-cB_6nhw-a1-m1-cC Structure of the transmembrane domain of the Death Receptor 5 - Dimer of Trimer O14763 O14763 NOT SOLUTION NMR 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP 6nhw-a1-m1-cD_6nhw-a1-m1-cE Structure of the transmembrane domain of the Death Receptor 5 - Dimer of Trimer O14763 O14763 NOT SOLUTION NMR 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP 6nhw-a1-m1-cD_6nhw-a1-m1-cF Structure of the transmembrane domain of the Death Receptor 5 - Dimer of Trimer O14763 O14763 NOT SOLUTION NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 6nhw-a1-m1-cA_6nhw-a1-m1-cC MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP 6nhw-a1-m1-cE_6nhw-a1-m1-cF Structure of the transmembrane domain of the Death Receptor 5 - Dimer of Trimer O14763 O14763 NOT SOLUTION NMR 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIGVTVAAVVLIVAVFVCKSLLWKKVLP 6nhy-a1-m1-cB_6nhy-a1-m1-cC Structure of the transmembrane domain of the Death Receptor 5 mutant (G217Y) - Trimer Only O14763 O14763 NOT SOLUTION NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 36 36 6nhy-a1-m1-cA_6nhy-a1-m1-cB 6nhy-a1-m1-cA_6nhy-a1-m1-cC MPGSLSGIIIYVTVAAVVLIVAVFVCKSLLWKKVLP MPGSLSGIIIYVTVAAVVLIVAVFVCKSLLWKKVLP 6ni0-a2-m1-cA_6ni0-a2-m2-cA Crystal Structure of the Beta Lactamase Class D YbxI from Burkholderia thailandensis 2.3 X-RAY DIFFRACTION 51 1.0 57975 (Burkholderia thailandensis) 57975 (Burkholderia thailandensis) 242 242 AKTICTAIADAGTGKLLLQDGDCSRRASPASTFKIAISLGYDAGFLRNEHDPVLPYRDTYIAWGGEAWKQPTDPTRWLKYSVVWYSQQVAHHLGAQRFARYAKAFDYGNADVSGDPGKNNGLDRSWIGSSLQISPLEQLRFLSKLNRKLPVSPNAVDTERIVEATTLADGTVVHGKTGAAYPLLADGTRDWAHGFGWFVGWITRGNQTLVFARLQDERKQPVSTGIRTREAFLRDLPRLLAT AKTICTAIADAGTGKLLLQDGDCSRRASPASTFKIAISLGYDAGFLRNEHDPVLPYRDTYIAWGGEAWKQPTDPTRWLKYSVVWYSQQVAHHLGAQRFARYAKAFDYGNADVSGDPGKNNGLDRSWIGSSLQISPLEQLRFLSKLNRKLPVSPNAVDTERIVEATTLADGTVVHGKTGAAYPLLADGTRDWAHGFGWFVGWITRGNQTLVFARLQDERKQPVSTGIRTREAFLRDLPRLLAT 6ni6-a1-m1-cA_6ni6-a1-m1-cB Pseudomonas fluorescens isocyanide hydratase at 274 K Q4K977 Q4K977 1.201 X-RAY DIFFRACTION 198 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 227 229 3non-a1-m1-cA_3non-a1-m1-cB 3noo-a1-m1-cB_3noo-a1-m1-cA 3noq-a1-m1-cA_3noq-a1-m1-cB 3nor-a1-m1-cA_3nor-a1-m2-cA 3nov-a1-m1-cA_3nov-a1-m2-cA 6ni4-a1-m1-cA_6ni4-a1-m2-cA 6ni5-a1-m1-cA_6ni5-a1-m1-cB 6ni7-a1-m1-cA_6ni7-a1-m1-cB 6ni8-a1-m1-cA_6ni8-a1-m1-cB 6ni9-a1-m1-cB_6ni9-a1-m1-cA 6nia-a1-m1-cA_6nia-a1-m1-cB 6npq-a1-m1-cA_6npq-a1-m1-cB 6und-a1-m1-cA_6und-a1-m1-cB 6unf-a1-m1-cA_6unf-a1-m1-cB 7l9q-a1-m1-cA_7l9q-a1-m1-cB 7l9s-a1-m1-cA_7l9s-a1-m1-cB 7l9w-a1-m1-cA_7l9w-a1-m1-cB 7l9z-a1-m1-cA_7l9z-a1-m1-cB 7la0-a1-m1-cA_7la0-a1-m1-cB 7la3-a1-m1-cA_7la3-a1-m1-cB 7lav-a1-m1-cA_7lav-a1-m2-cA 7lax-a1-m1-cA_7lax-a1-m2-cA 7lb9-a1-m1-cA_7lb9-a1-m2-cA 7lbh-a1-m1-cA_7lbh-a1-m1-cB 7lbi-a1-m1-cA_7lbi-a1-m1-cB 7lcx-a1-m1-cA_7lcx-a1-m1-cB 7ld6-a1-m1-cA_7ld6-a1-m1-cB 7ld7-a1-m1-cA_7ld7-a1-m1-cB 7ldb-a1-m1-cA_7ldb-a1-m1-cB 7ldi-a1-m1-cA_7ldi-a1-m2-cA 7ldm-a1-m1-cA_7ldm-a1-m2-cA 7ldo-a1-m1-cA_7ldo-a1-m2-cA MAVQIGFLLFPEVQQLDLTGPHDVLASLPDVQVHLIWKEPGPVVASSGLVLQATTSFADCPPLDVICIPGGTGVGALMEDPQALAFIRQQAARARYVTSVCTGSLVLGAAGLLQGKRATTHWAYHELLAPLGAIPVHERVVRDGNLLTGGGITAGIDFALTLAAELFDAATAQRVQLQLEYAPAPPFNAGSPDTAPASVVQQARQRAADSLHKRREITLRAAARLAA SHMAVQIGFLLFPEVQQLDLTGPHDVLASLPDVQVHLIWKEPGPVVASSGLVLQATTSFADCPPLDVICIPGGTGVGALMEDPQALAFIRQQAARARYVTSVCTGSLVLGAAGLLQGKRATTHWAYHELLAPLGAIPVHERVVRDGNLLTGGGITAGIDFALTLAAELFDAATAQRVQLQLEYAPAPPFNAGSPDTAPASVVQQARQRAADSLHKRREITLRAAARLAA 6nic-a1-m1-cA_6nic-a1-m1-cB Crystal Structure of Medicago truncatula Agmatine Iminohydrolase (Deiminase) in Complex with 6-aminohexanamide G7JT50 G7JT50 2.2 X-RAY DIFFRACTION 42 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 356 356 6nib-a1-m1-cA_6nib-a1-m2-cA 6nic-a2-m1-cC_6nic-a2-m1-cD GFHMPAEWEPHSQCWIGWPERADNWRDGAVHAQLVFTRVAAAISRFEKVTVCASSAQWENARNQLPDHVRVVEISSNDSWFRDIGPTFVVRREEHRIAGIDWTFNSWGGLEDGCYCDWSLDSLVKKKILDVERIPRFSHSMVLEGGSIHVDGEGTCITTEECLLNKNRNPHLSKSQIEDELKAYLGVRKVIWLPRGLYGDDDTNGHVDNMCCFVRPGAVLLSWTDDKTDPQYERSEEAYSLFSSVTDANGRKFEVIKLHVPGPLYMTEKEAAGVFQDDGAKPRLPGTRLAASYVNFYIANGAIIAPQFGDKKWDDEAIRVLSKTFPHHEVVGIEGSREIVLSGGNIHCITQQQPAI GFHMPAEWEPHSQCWIGWPERADNWRDGAVHAQLVFTRVAAAISRFEKVTVCASSAQWENARNQLPDHVRVVEISSNDSWFRDIGPTFVVRREEHRIAGIDWTFNSWGGLEDGCYCDWSLDSLVKKKILDVERIPRFSHSMVLEGGSIHVDGEGTCITTEECLLNKNRNPHLSKSQIEDELKAYLGVRKVIWLPRGLYGDDDTNGHVDNMCCFVRPGAVLLSWTDDKTDPQYERSEEAYSLFSSVTDANGRKFEVIKLHVPGPLYMTEKEAAGVFQDDGAKPRLPGTRLAASYVNFYIANGAIIAPQFGDKKWDDEAIRVLSKTFPHHEVVGIEGSREIVLSGGNIHCITQQQPAI 6nig-a2-m1-cD_6nig-a2-m1-cC Crystal structure of the human TLR2-Diprovocim complex Q2YE02 Q2YE02 2.35 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 546 549 6nig-a1-m1-cB_6nig-a1-m1-cA SLSCDRNGICKGSSGSLNSIPSGLTEAVKSLDLSNNRITYISNSDLQRCVNLQALVLTSNGINTIEEDSFSSLGSLEHLDLSYNYLSNLSSSWFKPLSSLTFLNLLGNPYKTLGETSLFSHLTKLQILRVGNMDTFTKIQRKDFAGLTFLEELEIDASDLQSYEPKSLKSIQNVSHLILHMKQHILLLEIFVDVTSSVECLELRDTDLDTFHFSELSTGETNSLIKKFTFRNVKITDESLFQVMKLLNQISGLLELEFDDCTLNGVGNFRASDVIDPGKVETLTIRRLHIPRFYLFYDLSTLYSLTERVKRITVENSKVFLVPCLLSQHLKSLEYLDLSENLMVEEYLKNSACEDAWPSLQTLILRQNHLASLEKTGETLLTLKNLTNIDISKNSFHSMPETCQWPEKMKYLNLSSTRIHSVTGCIPKTLEILDVSNNNLNLFSLNLPQLKELYISRNKLMTLPDASLLPMLLVLKISRNQLKSVPDGIFDRLTSLQKIWLHTNPWDCSCPRIDYLSRWLNKNSQKEQGSAKCSGSGKPVRSIICP SLSCDRNGICKGSSGSLNSIPSGLTEAVKSLDLSNNRITYISNSDLQRCVNLQALVLTSNGINTIEEDSFSSLGSLEHLDLSYNYLSNLSSSWFKPLSSLTFLNLLGNPYKTLGETSLFSHLTKLQILRVGNMDTFTKIQRKDFAGLTFLEELEIDASDLQSYEPKSLKSIQNVSHLILHMKQHILLLEIFVDVTSSVECLELRDTDLDTFHFSELSTGETNSLIKKFTFRNVKITDESLFQVMKLLNQISGLLELEFDDCTLNGVGNFRASDNDRVIDPGKVETLTIRRLHIPRFYLFYDLSTLYSLTERVKRITVENSKVFLVPCLLSQHLKSLEYLDLSENLMVEEYLKNSACEDAWPSLQTLILRQNHLASLEKTGETLLTLKNLTNIDISKNSFHSMPETCQWPEKMKYLNLSSTRIHSVTGCIPKTLEILDVSNNNLNLFSLNLPQLKELYISRNKLMTLPDASLLPMLLVLKISRNQLKSVPDGIFDRLTSLQKIWLHTNPWDCSCPRIDYLSRWLNKNSQKEQGSAKCSGSGKPVRSIICP 6nij-a1-m1-cF_6nij-a1-m1-cB PGT145 Fab in complex with full length AMC011 HIV-1 Env 5.7 ELECTRON MICROSCOPY 64 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 139 140 VFLGFLGAAGSTMGAASMTLTVQARLLLSGIVQQQNNLLRLQLTVWGIKQLQARVLAVERYLKDQQLLGIWGCSGKLICTTAVPWNTSWSNKSYNQIWNNMTWMEWEREIDNYTSLIYTLIEDSQNQQEKNEQELLELD VFLGFLGAAGSTMGAASMTLTVQARLLLSGIVQQQNNLLRALQLTVWGIKQLQARVLAVERYLKDQQLLGIWGCSGKLICTTAVPWNTSWSNKSYNQIWNNMTWMEWEREIDNYTSLIYTLIEDSQNQQEKNEQELLELD 6nim-a1-m1-cA_6nim-a1-m1-cB Trypanosoma cruzi - BDF2, TcCLB.506553.20, solved with bromosporine A0A2V2V5V1 A0A2V2V5V1 1.78 X-RAY DIFFRACTION 28 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 113 113 GTLDKARCLAFVHQLWDKDKLKMFHHPISAAELPDYHKVINYPVDLSTIRQGIESGKYDSDADVQNAVAQMIANALEYNAKGTEWHQQALSFRSIYLDVARQCGLSVDDDAAY GTLDKARCLAFVHQLWDKDKLKMFHHPISAAELPDYHKVINYPVDLSTIRQGIESGKYDSDADVQNAVAQMIANALEYNAKGTEWHQQALSFRSIYLDVARQCGLSVDDDAAY 6niw-a1-m1-cA_6niw-a1-m1-cB Crystal structure of P[6] rotavirus D2DXN5 D2DXN5 1.55 X-RAY DIFFRACTION 35 1.0 10941 (Human rotavirus A) 10941 (Human rotavirus A) 158 159 6niw-a2-m1-cD_6niw-a2-m1-cC 6oai-a1-m1-cB_6oai-a1-m1-cA 6oai-a1-m1-cC_6oai-a1-m1-cD LDGPYQPTNFKPPNDYWILLNPTNQQVVLEGTNKTDIWVALLLVEPNVTNQSRQYTLFGETKQITVENNTNKWKFFEMFRSNVSAEFQHKRTLTSDTKLAGFMKFYNSVWTFHGETPHATTDYSSTSNLSEVETVIHVEFYIIPRSQESKCSEYINTG VLDGPYQPTNFKPPNDYWILLNPTNQQVVLEGTNKTDIWVALLLVEPNVTNQSRQYTLFGETKQITVENNTNKWKFFEMFRSNVSAEFQHKRTLTSDTKLAGFMKFYNSVWTFHGETPHATTDYSSTSNLSEVETVIHVEFYIIPRSQESKCSEYINTG 6nj1-a1-m1-cA_6nj1-a1-m2-cA Crystal structure of class A beta-lactamase from Clostridium kluyveri DSM 555 A5N1B8 A5N1B8 1.399 X-RAY DIFFRACTION 17 1.0 431943 (Clostridium kluyveri DSM 555) 431943 (Clostridium kluyveri DSM 555) 259 259 DIQYNSAFSQLESDYGAKLGVYAFDTETNKEVAYRADDRFAYCSTFKALAAGAVLKQDSLEQLKQLVKYKKEDVLSYAPIAKDNVDKGTIEEICSAAIRFSDNTAANLLLNHIGGPKGFKSALNQLGDSVTQPVHIEPELNEGIPGDIGDTSTPRQLATDLQAYTTGNILTEDKKKILIDWAGNTTGNTLIRAGAPKSWIVADKSGTGPYGRRNDIAIVPPNKKPIIIAILSTHDTKEAKYDDKLIAKASKIIFDSFTT DIQYNSAFSQLESDYGAKLGVYAFDTETNKEVAYRADDRFAYCSTFKALAAGAVLKQDSLEQLKQLVKYKKEDVLSYAPIAKDNVDKGTIEEICSAAIRFSDNTAANLLLNHIGGPKGFKSALNQLGDSVTQPVHIEPELNEGIPGDIGDTSTPRQLATDLQAYTTGNILTEDKKKILIDWAGNTTGNTLIRAGAPKSWIVADKSGTGPYGRRNDIAIVPPNKKPIIIAILSTHDTKEAKYDDKLIAKASKIIFDSFTT 6njg-a1-m1-cB_6njg-a1-m2-cB Ubiquitin Variant in Complex with Ubiquitin Interacting Motif P40343 P40343 2.35 X-RAY DIFFRACTION 10 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 17 17 YPEDEEELIRKAIELSL YPEDEEELIRKAIELSL 6njg-a1-m1-cC_6njg-a1-m2-cC Ubiquitin Variant in Complex with Ubiquitin Interacting Motif J3QS39 J3QS39 2.35 X-RAY DIFFRACTION 165 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 76 MQIFVQTITVMRIALEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGMQLEDGRTLSDYNIKRDSNLYLVSSLRSL MQIFVQTITVMRIALEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGMQLEDGRTLSDYNIKRDSNLYLVSSLRSL 6njk-a1-m1-cA_6njk-a1-m1-cB Crystal structure of beta-lactamase from Sulfitobacter sp. EE-36 A0A4V8H037 A0A4V8H037 1.55 X-RAY DIFFRACTION 66 1.0 52598 (Sulfitobacter sp. EE-36) 52598 (Sulfitobacter sp. EE-36) 354 355 SATSEQIVDIADASFAPVIEQYRIPGLVVGITWQGQHSFYATGVAARKGNVAATPDTIFELGSISKIFTATLAALAEDRGLDLDAPVSDSIPQLEGAAFGAIRLVDLSTHVTGGLPLQVPGEVGNVAELIRWLESWQPPQPGTRSYSNVSIGLLGHITAQTGSFAQAAQDVLFPAGLGSTYVDVPDDADRYAFGYDRKTDAPIRVNPGVLADEAYGVKSTARDLRLLDLELGRGGANPALTAALERTRQGQAETAYYTQDIWEQYPWPVDVAREAGNGYDFILSPQPATRLTPPLPPQRDVILNKTGATNGFGGYVALLPGQDLGIVVLANRNYPNEARVRATHALITDLLATQ SATSEQIVDIADASFAPVIEQYRIPGLVVGITWQGQHSFYATGVAARKGNVAATPDTIFELGSISKIFTATLAALAEDRGLDLDAPVSDSIPQLEGAAFGAIRLVDLSTHVTGGLPLQVPGEVGNVAELIRWLESWQPPQPGTRSYSNVSIGLLGHITAQTGSFAQAAQDVLFPAGLGSTYVDVPDDADRYAFGYDRKTDAPIRVNPGVLADEAYGVKSTARDLRLLDLELGRGGANPALTAALERTRQGQAETAYYTQDIWEQYPWPVDVAREAGNGYDFILSPQPATRLTPPLPPQRDVILNKTGATNGFGGYVALLPGQDLGIVVLANRNYPNEARVRATHALITDLLATQD 6njl-a1-m1-cA_6njl-a1-m1-cC Architecture and subunit arrangement of native AMPA receptors P19490 P19490 6.7 ELECTRON MICROSCOPY 11 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 785 785 ANFPNNIQIGGLFPNQQSQEHAAFRFALSQLTEPPKLLPQIDIVNISDSFEMTYRFCSQFSKGVYAIFGFYERRTVNMLTSFCGALHVCFITPSFPVDTSNQFVLQLRPELQEALISIIDHYKWQTFVYIYDADRGLSVLQRVLDTAAEKNWQVTAVNILTTTEEGYRMLFQDLEKKKERLVVVDCESERLNAILGQIVKLEKNGIGYHYILANLGFMDIDLNKFKESGANVTGFQLVNYTDTIPARIMQQWRTSDSRDHTRVDWKRPKYTSALTYDGVKVMAEAFQSLRRQRIDISRRGNAGDCLANPAVPWGQGIDIQRALQQVRFEGLTGNVQFNEKGRRTNYTLHVIEMKHDGIRKIGYWNEDDKFVPARTYIVTTILEDPYVMLKKNANQFEGNDRYEGYCVELAAEIAKHVGYSYRLEIVSDGKYGARDPDTKAWNGMVGELVYGRADVAVAPLTITLVREEVIDFSKPFMSLGISIMIKKPQKSKPGVFSFLDPLAYEIWMCIVFAYIGVSVVLFLVSRFSSNEFGIFNSLWFSLGAFMQQGDISPRSLSGRIVGGVWWFFTLIIISSYTANLAAFLTVERMVSPIESAEDLAKQTEIAYGTLEAGSTKEFFRRSKIAVFEKMWTYMKSAEPSVFVRTTEEGMIRVRKSKGKYAYLLESTMNEYIEQRKPCDTMKVGGNLDSKGYGIATPKGSALGAPVNLAVLKLAEQGALDKLKAKWWYDKGECGSKDSGSKDKTSALSLSNVAGVFYILIGGLGLAMLVALIEFCYKSRSESKRM ANFPNNIQIGGLFPNQQSQEHAAFRFALSQLTEPPKLLPQIDIVNISDSFEMTYRFCSQFSKGVYAIFGFYERRTVNMLTSFCGALHVCFITPSFPVDTSNQFVLQLRPELQEALISIIDHYKWQTFVYIYDADRGLSVLQRVLDTAAEKNWQVTAVNILTTTEEGYRMLFQDLEKKKERLVVVDCESERLNAILGQIVKLEKNGIGYHYILANLGFMDIDLNKFKESGANVTGFQLVNYTDTIPARIMQQWRTSDSRDHTRVDWKRPKYTSALTYDGVKVMAEAFQSLRRQRIDISRRGNAGDCLANPAVPWGQGIDIQRALQQVRFEGLTGNVQFNEKGRRTNYTLHVIEMKHDGIRKIGYWNEDDKFVPARTYIVTTILEDPYVMLKKNANQFEGNDRYEGYCVELAAEIAKHVGYSYRLEIVSDGKYGARDPDTKAWNGMVGELVYGRADVAVAPLTITLVREEVIDFSKPFMSLGISIMIKKPQKSKPGVFSFLDPLAYEIWMCIVFAYIGVSVVLFLVSRFSSNEFGIFNSLWFSLGAFMQQGDISPRSLSGRIVGGVWWFFTLIIISSYTANLAAFLTVERMVSPIESAEDLAKQTEIAYGTLEAGSTKEFFRRSKIAVFEKMWTYMKSAEPSVFVRTTEEGMIRVRKSKGKYAYLLESTMNEYIEQRKPCDTMKVGGNLDSKGYGIATPKGSALGAPVNLAVLKLAEQGALDKLKAKWWYDKGECGSKDSGSKDKTSALSLSNVAGVFYILIGGLGLAMLVALIEFCYKSRSESKRM 6nju-a2-m1-cA_6nju-a2-m1-cB Mouse endonuclease G mutant H97A bound to A-DNA O08600 O08600 2.35 X-RAY DIFFRACTION 152 1.0 10090 (Mus musculus) 10090 (Mus musculus) 223 228 6lyf-a1-m1-cA_6lyf-a1-m1-cB 6lyf-a2-m1-cC_6lyf-a2-m1-cD 6m3f-a1-m1-cC_6m3f-a1-m1-cB 6m3t-a1-m1-cB_6m3t-a1-m1-cA 6m3u-a1-m1-cA_6m3u-a1-m1-cB 6m3u-a2-m1-cC_6m3u-a2-m1-cD 6njt-a1-m1-cA_6njt-a1-m1-cB 6nju-a1-m1-cC_6nju-a1-m1-cD 6nju-a1-m2-cC_6nju-a1-m2-cD ELAKYGLPGVAQLRSRESYVLSYDPRTRGALWVLEQLRPERLRGDGDRSACDFREDDSVHAYHRATNADYRGSGFDRGALAAAANHRWSQRAMDDTFYLSNVAPQVPHLNQNAWNNLERYSRSLTRTYQNVYVCTGPLFLPRTEADGKSYVKYQVIGKNHVAVPTHFFKVLILEAAGGQIELRSYVMPNAPVDETIPLERFLVPIESIERASGLLFVPNILAR GELAKYGLPGVAQLRSRESYVLSYDPRTRGALWVLEQLRPERLRGDGDRSACDFREDDSVHAYHRATNADYRGSGFDRGALAAAANHRWSQRAMDDTFYLSNVAPQVPHLNQNAWNNLERYSRSLTRTYQNVYVCTGPLFLPRTEADGKSYVKYQVIGKNHVAVPTHFFKVLILEAAGGQIELRSYVMPNAPVDETIPLERFLVPIESIERASGLLFVPNILARAGNL 6njy-a1-m1-cA_6njy-a1-m1-cB Type IV CRISPR associated RNA endonuclease Cas6 - apo form F3ZXK6 F3ZXK6 1.76 X-RAY DIFFRACTION 80 1.0 697281 (Mahella australiensis 50-1 BON) 697281 (Mahella australiensis 50-1 BON) 237 237 NLYFQSNAMTGYPYPRPQAVKIQVKGHVPYPKNALATVYDIFRDIETVNKAHEAKEAPPFAIKDFNMNGFAITSYLALPTDTVTERLKTKGFHTVGQPIYLPQNELPPLYGLKGVTIQFRTPTAFKYNTGYVPEFYGPVFIKSITESYRRIIPGCPEFSTSDILKYIRFTATDLQKGKYRLTEELMVTGFKGKVYLQFKLSTPPELKLLILYFLEAASICGVGMKKAWGMGDIYITI NLYFQSNAMTGYPYPRPQAVKIQVKGHVPYPKNALATVYDIFRDIETVNKAHEAKEAPPFAIKDFNMNGFAITSYLALPTDTVTERLKTKGFHTVGQPIYLPQNELPPLYGLKGVTIQFRTPTAFKYNTGYVPEFYGPVFIKSITESYRRIIPGCPEFSTSDILKYIRFTATDLQKGKYRLTEELMVTGFKGKVYLQFKLSTPPELKLLILYFLEAASICGVGMKKAWGMGDIYITI 6nk3-a1-m1-cA_6nk3-a1-m1-cB Crystal structure of murine Mxra8 ectodomain Q9DBV4 Q9DBV4 2.2 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 263 265 SSSLVSESVVSLAAGTQAVLRCQSPRMVWTQDRLHDRQRVVHWDLSGGPGSQRRRLVDMYSAGEQRVYEPRDRDRLLLSPSAFHDGNFSLLIRAVDRGDEGVYTCNLHHHYCHLDESLAVRLEVTEDPLLSRAYWDGEKEVLVVAHGAPALMTCINRAHVWTDRHLEEAQQVVHWDRQLPGVSHDRADRLLDLYASGERRAYGPPFLRDRVSVNTNAFARGDFSLRIDELERADEGIYSCHLHHHYCGLHERRVFHLQVTEPA AASSSLVSESVVSLAAGTQAVLRCQSPRMVWTQDRLHDRQRVVHWDLSGGPGSQRRRLVDMYSAGEQRVYEPRDRDRLLLSPSAFHDGNFSLLIRAVDRGDEGVYTCNLHHHYCHLDESLAVRLEVTEDPLLSRAYWDGEKEVLVVAHGAPALMTCINRAHVWTDRHLEEAQQVVHWDRQLPGVSHDRADRLLDLYASGERRAYGPPFLRDRVSVNTNAFARGDFSLRIDELERADEGIYSCHLHHHYCGLHERRVFHLQVTEPA 6nk4-a1-m8-cA_6nk4-a1-m9-cA KVQIINKKL, crystal structure of a tau protein fragment P10636 P10636 1.994 ELECTRON CRYSTALLOGRAPHY 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 9 9 6nk4-a1-m10-cA_6nk4-a1-m9-cA 6nk4-a1-m1-cA_6nk4-a1-m2-cA 6nk4-a1-m2-cA_6nk4-a1-m3-cA 6nk4-a1-m3-cA_6nk4-a1-m4-cA 6nk4-a1-m4-cA_6nk4-a1-m5-cA 6nk4-a1-m6-cA_6nk4-a1-m7-cA 6nk4-a1-m7-cA_6nk4-a1-m8-cA KVQIINKKL KVQIINKKL 6nk8-a1-m1-cA_6nk8-a1-m2-cA C-terminal region of the Burkholderia pseudomallei OLD protein A3NFC3 A3NFC3 2.24 X-RAY DIFFRACTION 33 1.0 320373 (Burkholderia pseudomallei 668) 320373 (Burkholderia pseudomallei 668) 198 198 FFARGIIFVEGDAERFLIPAFAEALDIHLDILGISVCSVSGTNFAPYIKLVGPTGLNIPHVVLTDLDPVDDRPPLARKRLLRLLELAVTDEEDEPWDLGEEYGYFVNDSTLEPELFQAGLGSGIRDVIESELSTSAQTREALACWVDDPTALNNERLLKLIERIGKGRFAQALAGFATADTCPAYIRNALEYIRDAVA FFARGIIFVEGDAERFLIPAFAEALDIHLDILGISVCSVSGTNFAPYIKLVGPTGLNIPHVVLTDLDPVDDRPPLARKRLLRLLELAVTDEEDEPWDLGEEYGYFVNDSTLEPELFQAGLGSGIRDVIESELSTSAQTREALACWVDDPTALNNERLLKLIERIGKGRFAQALAGFATADTCPAYIRNALEYIRDAVA 6nk8-a1-m2-cA_6nk8-a1-m2-cB C-terminal region of the Burkholderia pseudomallei OLD protein A3NFC3 A3NFC3 2.24 X-RAY DIFFRACTION 46 1.0 320373 (Burkholderia pseudomallei 668) 320373 (Burkholderia pseudomallei 668) 198 204 6nk8-a1-m1-cA_6nk8-a1-m1-cB FFARGIIFVEGDAERFLIPAFAEALDIHLDILGISVCSVSGTNFAPYIKLVGPTGLNIPHVVLTDLDPVDDRPPLARKRLLRLLELAVTDEEDEPWDLGEEYGYFVNDSTLEPELFQAGLGSGIRDVIESELSTSAQTREALACWVDDPTALNNERLLKLIERIGKGRFAQALAGFATADTCPAYIRNALEYIRDAVA FFARGIIFVEGDAERFLIPAFAEALDIHLDILGISVCSVSGTNFAPYIKLVGPTGLNIPHVVLTDLDPVDDRPPLARKRLLRLLELAVTDEEWDELDEDEPWDLGEEYGYFVNDSTLEPELFQAGLGSGIRDVIESELSTSAQTREALACWVDDPTALNNERLLKLIERIGKGRFAQALAGFATADTCPAYIRNALEYIRDAVA 6nkd-a1-m1-cA_6nkd-a1-m2-cB Crystal Structure of the Lipase Lip_vut3 from Goat Rumen metagenome. Q65NA4 Q65NA4 2.8 X-RAY DIFFRACTION 58 1.0 256318 (metagenome) 256318 (metagenome) 205 205 6nkd-a1-m1-cB_6nkd-a1-m2-cA TLQYTALGDSLTVGVGAGLFEPGFVQRYKRKEEDLNEEVSLIVFAKSGLETSEILALNEPFIEQVKKADVITITGCGNDLLQSLEIYEKEKDEHVFLEASSHCQKNYSGLEKIREIKGEKDTRYLVRLLNLYNPFPSIELADKWISGFNRHLKQLESAPQIKVIDTYAVFKGREKEYLSIDRVHPSSRGYEASEKLRAAGYGRLE TLQYTALGDSLTVGVGAGLFEPGFVQRYKRKEEDLNEEVSLIVFAKSGLETSEILALNEPFIEQVKKADVITITGCGNDLLQSLEIYEKEKDEHVFLEASSHCQKNYSGLEKIREIKGEKDTRYLVRLLNLYNPFPSIELADKWISGFNRHLKQLESAPQIKVIDTYAVFKGREKEYLSIDRVHPSSRGYEASEKLRAAGYGRLE 6nkd-a1-m1-cB_6nkd-a1-m2-cB Crystal Structure of the Lipase Lip_vut3 from Goat Rumen metagenome. Q65NA4 Q65NA4 2.8 X-RAY DIFFRACTION 72 1.0 256318 (metagenome) 256318 (metagenome) 205 205 TLQYTALGDSLTVGVGAGLFEPGFVQRYKRKEEDLNEEVSLIVFAKSGLETSEILALNEPFIEQVKKADVITITGCGNDLLQSLEIYEKEKDEHVFLEASSHCQKNYSGLEKIREIKGEKDTRYLVRLLNLYNPFPSIELADKWISGFNRHLKQLESAPQIKVIDTYAVFKGREKEYLSIDRVHPSSRGYEASEKLRAAGYGRLE TLQYTALGDSLTVGVGAGLFEPGFVQRYKRKEEDLNEEVSLIVFAKSGLETSEILALNEPFIEQVKKADVITITGCGNDLLQSLEIYEKEKDEHVFLEASSHCQKNYSGLEKIREIKGEKDTRYLVRLLNLYNPFPSIELADKWISGFNRHLKQLESAPQIKVIDTYAVFKGREKEYLSIDRVHPSSRGYEASEKLRAAGYGRLE 6nkd-a1-m2-cA_6nkd-a1-m2-cB Crystal Structure of the Lipase Lip_vut3 from Goat Rumen metagenome. Q65NA4 Q65NA4 2.8 X-RAY DIFFRACTION 33 1.0 256318 (metagenome) 256318 (metagenome) 205 205 6nkd-a1-m1-cA_6nkd-a1-m1-cB TLQYTALGDSLTVGVGAGLFEPGFVQRYKRKEEDLNEEVSLIVFAKSGLETSEILALNEPFIEQVKKADVITITGCGNDLLQSLEIYEKEKDEHVFLEASSHCQKNYSGLEKIREIKGEKDTRYLVRLLNLYNPFPSIELADKWISGFNRHLKQLESAPQIKVIDTYAVFKGREKEYLSIDRVHPSSRGYEASEKLRAAGYGRLE TLQYTALGDSLTVGVGAGLFEPGFVQRYKRKEEDLNEEVSLIVFAKSGLETSEILALNEPFIEQVKKADVITITGCGNDLLQSLEIYEKEKDEHVFLEASSHCQKNYSGLEKIREIKGEKDTRYLVRLLNLYNPFPSIELADKWISGFNRHLKQLESAPQIKVIDTYAVFKGREKEYLSIDRVHPSSRGYEASEKLRAAGYGRLE 6nke-a1-m1-cA_6nke-a1-m2-cA Wild-type GGGPS from Thermoplasma volcanium Q97AR4 Q97AR4 1.72 X-RAY DIFFRACTION 94 1.0 273116 (Thermoplasma volcanium GSS1) 273116 (Thermoplasma volcanium GSS1) 249 249 MTILKQMMRKLKNEKIHMTLIDPAAKSPDESAKIAKEAEMAGTDFIMVGGSTDIDERLMDQTVSAIKENTNLKVILFPGSSNMISRHADAIFFMSLLNSSDREFIVGHQVKASKFLSLLGIEKIPMAYLVFSPGMTVGRVGKANLIDSFDRETALSYSLAAQYMGFKLIYFEAGSGAPRPVSEDTISYVKSKINIPLIVGGGIRDPETAMRIALAGADMIVTGSIAEKSNNVYSVLRNIIGKIKSIEIK MTILKQMMRKLKNEKIHMTLIDPAAKSPDESAKIAKEAEMAGTDFIMVGGSTDIDERLMDQTVSAIKENTNLKVILFPGSSNMISRHADAIFFMSLLNSSDREFIVGHQVKASKFLSLLGIEKIPMAYLVFSPGMTVGRVGKANLIDSFDRETALSYSLAAQYMGFKLIYFEAGSGAPRPVSEDTISYVKSKINIPLIVGGGIRDPETAMRIALAGADMIVTGSIAEKSNNVYSVLRNIIGKIKSIEIK 6nkf-a2-m1-cB_6nkf-a2-m1-cC Crystal Structure of the Lipase Lip_vut4 from Goat Rumen metagenome. Q65FG3 Q65FG3 2.232 X-RAY DIFFRACTION 135 1.0 256318 (metagenome) 256318 (metagenome) 291 297 6nkf-a1-m1-cD_6nkf-a1-m1-cA TNHIKEINWEQNTNSYIQLIPNIEYTKVEDTSLTLHLLVYRNPDALFNRKGNQETYPLIIYLQGCGWGWTKQDTSAFIPQLVPFVEQGYVVASVQYRGSGEAVFPAQLHDVKTAVRFLKANAARYNIDPDRVGVWGDSSGGHLALLLGLTEGIEEFEGPDEYRHVSSKVDAVADWFGPVDLLSSKYPSIFDHDSPNSPESKLIGGAVQENRVQAKQASPISYVHREAPPILIHGDQDDVVPYQQSVQLFEALIKEGHDALYKINGAGHNGFTQAHTLDIVKSFFRKHLKPG TNHIKEINWEQNTNSYIQLIPNIEYTKVEDTSLTLHLLVYRNPDALFNRKGNQETYPLIIYLQGCGWGWTKQDTSAFIPQLVPFVEQGYVVASVQYRGSGEAVFPAQLHDVKTAVRFLKANAARYNIDPDRVGVWGDSSGGHLALLLGLTEGIEEFEGPDEYRHVSSKVDAVADWFGPVDLLSSKYPSIFDHDSPNSPESKLIGGAVQENRVQAKQASPISYVHREAPPILIHGDQDDVVPYQQSVQLFEALIKEGHDALYKINGAGHNGFTQAHTLDIVKSFFRKHLKPGKHHHHH 6nkh-a1-m1-cD_6nkh-a1-m1-cA Structure of MalC Reductase/Diels-Alderase from Malbranchea aurantiaca L0E4F8 L0E4F8 1.6 X-RAY DIFFRACTION 126 0.996 78605 (Malbranchea aurantiaca) 78605 (Malbranchea aurantiaca) 255 261 6nkh-a1-m1-cB_6nkh-a1-m1-cC PTRRSRDLLRGKNVLIIGGTSGIGFAVAQLVIEHGAMACIAGSNPTKLGKALDALKQHPDRDPIAIVQSATCDLFDVPNLEQNLDNLLKLAAGDSKIHHIVFTAADMVQPPPLASVTIEQIQRVGTIRFTAPMLVAKLLPKYMELCPENSYTLTSGSHAKQPDPGWSLVTGYCGGVEGLMRGLAVDMMPLRVNVVSPGAVLTPVLREIALDAARKKSTTGRIARPEDVAEAYLYIMKDQNITGTVLETSAGMLLR TRRSRDLLRGKNVLIIGGTSGIGFAVAQLVIEHGAMACIAGSNPTKLGKALDALKQHPDRDPIAIVQSATCDLFDVPNLEQNLDNLLKLAAGDSKIHHIVFTAADMVQPPPLASVTIEQIQRVGTIRFTAPMLVAKLLPKYMELCPENSYTLTSGSHAKQPDPGWSLVTGYCGGVEGLMRGLAVDMMPLRVNVVSPGAVLTPVLRDILGDSLEIALDAARKKSTTGRIARPEDVAEAYLYIMKDQNITGTVLETSAGMLLR 6nkh-a1-m1-cD_6nkh-a1-m1-cC Structure of MalC Reductase/Diels-Alderase from Malbranchea aurantiaca L0E4F8 L0E4F8 1.6 X-RAY DIFFRACTION 151 0.988 78605 (Malbranchea aurantiaca) 78605 (Malbranchea aurantiaca) 255 259 6nkh-a1-m1-cB_6nkh-a1-m1-cA PTRRSRDLLRGKNVLIIGGTSGIGFAVAQLVIEHGAMACIAGSNPTKLGKALDALKQHPDRDPIAIVQSATCDLFDVPNLEQNLDNLLKLAAGDSKIHHIVFTAADMVQPPPLASVTIEQIQRVGTIRFTAPMLVAKLLPKYMELCPENSYTLTSGSHAKQPDPGWSLVTGYCGGVEGLMRGLAVDMMPLRVNVVSPGAVLTPVLREIALDAARKKSTTGRIARPEDVAEAYLYIMKDQNITGTVLETSAGMLLR RSRDLLRGKNVLIIGGTSGIGFAVAQLVIEHGAMACIAGSNPTKLGKALDALKQHPDRDPIAIVQSATCDLFDVPNLEQNLDNLLKLAAGDSKIHHIVFTAADMVQPPPLASVTIEQIQRVGTIRFTAPMLVAKLLPKYMELCPENSYTLTSGSHAKQPDPGWSLVTGYCGGVEGLMRGLAVDMMPLRVNVVSPGAVLTPVLRDILGDSLEIALDAARKKSTTGRIARPEDVAEAYLYIMKDQNITGTVLETSAGMLLR 6nki-a1-m1-cA_6nki-a1-m2-cA Structure of PhqB Reductase Domain from Penicillium fellutanum L0E2U2 L0E2U2 2.6 X-RAY DIFFRACTION 64 1.0 70095 (Penicillium fellutanum) 70095 (Penicillium fellutanum) 356 356 QINDLPVCQSSRRTIHSRPSGKRLFLTGATGFLGTHILHQLLVDNDVSIVYVLARAPCPRKGLARIIQAARLARWWRNDYRRLIQVWPGDLSQPHLGLADEHWETLAVDAIIHCGAVIDYDTLEAANVRSTFDILQCLNRSPTPIALTYISALIPGPIELTDGYTQTKFASEQLIGAFSARHKAHSLTIVRPGFMIGPVSNAVANGDDLLWRVVTTAMTTCSYNSDESDNWLFVAAVDWVASLIIHETLHARKAVSIGDGLNMSDFWKAIMLGLGRDLIPSSSQRWMDTVEQQVNEVGTSHPLWPLMGFLRASGGCLGVAPTDPLPVPIYQPPSLTNMIRQAVVRNAEYLASLEDL QINDLPVCQSSRRTIHSRPSGKRLFLTGATGFLGTHILHQLLVDNDVSIVYVLARAPCPRKGLARIIQAARLARWWRNDYRRLIQVWPGDLSQPHLGLADEHWETLAVDAIIHCGAVIDYDTLEAANVRSTFDILQCLNRSPTPIALTYISALIPGPIELTDGYTQTKFASEQLIGAFSARHKAHSLTIVRPGFMIGPVSNAVANGDDLLWRVVTTAMTTCSYNSDESDNWLFVAAVDWVASLIIHETLHARKAVSIGDGLNMSDFWKAIMLGLGRDLIPSSSQRWMDTVEQQVNEVGTSHPLWPLMGFLRASGGCLGVAPTDPLPVPIYQPPSLTNMIRQAVVRNAEYLASLEDL 6nkl-a1-m1-cA_6nkl-a1-m1-cB 2.2 A resolution structure of VapBC-1 from nontypeable Haemophilus influenzae Q57122 Q57122 2.2 X-RAY DIFFRACTION 80 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 134 135 MIYMLDTNIIIYLMKNRPKIIAERVSQLLPNDRLVMSFITYAELIKGAFGSQNYEQSIRAIELLTERVNVLYPNEQICLHYGKWANTLKKQGRPIGNNDLWIACHALSLNAVLITHNVKEFQRITDLQWQDWTK MIYMLDTNIIIYLMKNRPKIIAERVSQLLPNDRLVMSFITYAELIKGAFGSQNYEQSIRAIELLTERVNVLYPNEQICLHYGKWANTLKKQGRPIGNNDLWIACHALSLNAVLITHNVKEFQRITDLQWQDWTKL 6nko-a6-m1-cC_6nko-a6-m1-cB Crystal structure of ForH A0A4V8H038 A0A4V8H038 2.403 X-RAY DIFFRACTION 138 0.989 212423 (Streptomyces kaniharaensis) 212423 (Streptomyces kaniharaensis) 190 192 6nko-a5-m1-cD_6nko-a5-m1-cA GSHMLAVLAVSDKRNIEPLAAGLLRLGWRVAATEGTYRLLRDAGHEVERIADLAGVPTLLGGRVKTLTVSVMGGILARETESDLREMAEYGIPRIDLVCNNYYLLPEPQDPAGFREKVDVGGPAMLRGAAKNFEHVIPLSDPDDYDDVLKLLEQGGGLPSAVPVERRLALAEKAFRISGAYDASVAELFG HMLAVLAVSDKRNIEPLAAGLLRLGWRVAATEGTYRLLRDAGHEVERIADLAGVPTLLGGRVKTLTVSVMGGILARETESDLREMAEYGIPRIDLVCNNYYLLPEPQPGLDPAGFREKVDVGGPAMLRGAAKNFEHVIPLSDPDDYDDVLKLLEQGGGLPSAVPVERRLALAEKAFRISGAYDASVAELFGA 6nl1-a2-m1-cA_6nl1-a2-m4-cA Structure of T. brucei MERS1 protein in its apo form B6SBM0 B6SBM0 2.297 X-RAY DIFFRACTION 42 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 262 262 6nl1-a2-m2-cA_6nl1-a2-m3-cA TIQLEKLSHPPARFDSFVYKWQTKAALARKVSGPMREWAAELKYRTGVHIELEPTYPERLSENATQWGAYETADDVDITVYLFGSERGIFNCHKLMEAAIQQDPVYVRLGIFRRLANSSEVEWLMLRRINRELRPPDIPPISLKLPGKWTLLYERYKEAAIRTLWEETGITVDASNVYPTGHLYQTVPQYYWRVPVRYFVAEVPSDIRVEGPQVVPLQYMRNWDARLLRQSPDPIDRAWAQLADPATGCAWMKASMIDQLQK TIQLEKLSHPPARFDSFVYKWQTKAALARKVSGPMREWAAELKYRTGVHIELEPTYPERLSENATQWGAYETADDVDITVYLFGSERGIFNCHKLMEAAIQQDPVYVRLGIFRRLANSSEVEWLMLRRINRELRPPDIPPISLKLPGKWTLLYERYKEAAIRTLWEETGITVDASNVYPTGHLYQTVPQYYWRVPVRYFVAEVPSDIRVEGPQVVPLQYMRNWDARLLRQSPDPIDRAWAQLADPATGCAWMKASMIDQLQK 6nl1-a3-m1-cA_6nl1-a3-m2-cA Structure of T. brucei MERS1 protein in its apo form B6SBM0 B6SBM0 2.297 X-RAY DIFFRACTION 95 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 262 262 6nl1-a2-m1-cA_6nl1-a2-m2-cA 6nl1-a2-m3-cA_6nl1-a2-m4-cA 6p5r-a2-m1-cA_6p5r-a2-m2-cA 6u9x-a3-m1-cD_6u9x-a3-m2-cD 6u9x-a4-m1-cA_6u9x-a4-m2-cA TIQLEKLSHPPARFDSFVYKWQTKAALARKVSGPMREWAAELKYRTGVHIELEPTYPERLSENATQWGAYETADDVDITVYLFGSERGIFNCHKLMEAAIQQDPVYVRLGIFRRLANSSEVEWLMLRRINRELRPPDIPPISLKLPGKWTLLYERYKEAAIRTLWEETGITVDASNVYPTGHLYQTVPQYYWRVPVRYFVAEVPSDIRVEGPQVVPLQYMRNWDARLLRQSPDPIDRAWAQLADPATGCAWMKASMIDQLQK TIQLEKLSHPPARFDSFVYKWQTKAALARKVSGPMREWAAELKYRTGVHIELEPTYPERLSENATQWGAYETADDVDITVYLFGSERGIFNCHKLMEAAIQQDPVYVRLGIFRRLANSSEVEWLMLRRINRELRPPDIPPISLKLPGKWTLLYERYKEAAIRTLWEETGITVDASNVYPTGHLYQTVPQYYWRVPVRYFVAEVPSDIRVEGPQVVPLQYMRNWDARLLRQSPDPIDRAWAQLADPATGCAWMKASMIDQLQK 6nl2-a1-m1-cB_6nl2-a1-m1-cA Apo NIS synthetase DesD variant R306Q Q9L069 Q9L069 1.92 X-RAY DIFFRACTION 142 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 593 594 6p63-a1-m1-cA_6p63-a1-m1-cC 6p63-a2-m1-cB_6p63-a2-m1-cD 6xrc-a1-m1-cA_6xrc-a1-m1-cB ADAVAHLTPERWEEANRLLVRKALAEFTHERLLTPEREPDDGGGQTYVVRSDDGQTAYRFTATVRALDHWQVDAASVTRHRDGAELPLAALDFFIELKQTLGLSDEILPVYLEEISSTLSGTCYKLTKPQLSSAELARSGDFQAVETGMTEGHPCFVANNGRLGFGIHEYLSYAPETASPVRLVWLAAHRSRAAFTAGVGIEYESFVRDELGAATVDRFHGVLRGRGLDPADYLLIPVHPWQWWNKLTVTFAAEVARGHLVCLGEGDDEYLAQQSIRTFFNASHPGKHYVKTALSVLNMGFMQGLSAAYMEATPAINDWLARLIEGDPVLKETGLSIIRERAAVGYRHLEYEQATDRYSPYRKMLAALWRESPVPSIREGETLATMASLVHQDHEGASFAGALIERSGLTPTEWLRHYLRAYYVPLLHSFYAYDLVYMPHGENVILVLADGVVRRAVYKDIAEEIAVMDPDAVLPPEVSRIAVDVPDDKKLLSIFTDVFDCFFRFLAANLAEEGIVTEDAFWRTVAEVTREYQESVPELADKFERYDMFAPEFALSCLNRLQLRDNRQMVDLADPSGALQLVGTLKNPLAGRG LADAVAHLTPERWEEANRLLVRKALAEFTHERLLTPEREPDDGGGQTYVVRSDDGQTAYRFTATVRALDHWQVDAASVTRHRDGAELPLAALDFFIELKQTLGLSDEILPVYLEEISSTLSGTCYKLTKPQLSSAELARSGDFQAVETGMTEGHPCFVANNGRLGFGIHEYLSYAPETASPVRLVWLAAHRSRAAFTAGVGIEYESFVRDELGAATVDRFHGVLRGRGLDPADYLLIPVHPWQWWNKLTVTFAAEVARGHLVCLGEGDDEYLAQQSIRTFFNASHPGKHYVKTALSVLNMGFMQGLSAAYMEATPAINDWLARLIEGDPVLKETGLSIIRERAAVGYRHLEYEQATDRYSPYRKMLAALWRESPVPSIREGETLATMASLVHQDHEGASFAGALIERSGLTPTEWLRHYLRAYYVPLLHSFYAYDLVYMPHGENVILVLADGVVRRAVYKDIAEEIAVMDPDAVLPPEVSRIAVDVPDDKKLLSIFTDVFDCFFRFLAANLAEEGIVTEDAFWRTVAEVTREYQESVPELADKFERYDMFAPEFALSCLNRLQLRDNRQMVDLADPSGALQLVGTLKNPLAGRG 6nla-a1-m1-cA_6nla-a1-m2-cA Crystal structure of de novo designed metal-controlled dimer of B1 immunoglobulin-binding domain of Streptococcal Protein G (L12H, E15V, T16L, T18I, V29H, Y33H, N37L)-zinc P19909 P19909 1.34 X-RAY DIFFRACTION 24 1.0 1301 (Streptococcus) 1301 (Streptococcus) 56 56 MTYKLILNGKTHKGVLTIEAVDAATAEKHFKQHANDLGVDGEWTYDDATKTFTVTE MTYKLILNGKTHKGVLTIEAVDAATAEKHFKQHANDLGVDGEWTYDDATKTFTVTE 6nma-a1-m1-cC_6nma-a1-m1-cA CryoEM structure of the LbCas12a-crRNA-AcrVA4 complex A0A0U2APF4 A0A0U2APF4 3.38 ELECTRON MICROSCOPY 32 1.0 386891 (Moraxella bovoculi) 386891 (Moraxella bovoculi) 114 115 6kl9-a1-m1-cB_6kl9-a1-m1-cC 6klb-a1-m1-cB_6klb-a1-m1-cC 6nm9-a1-m1-cA_6nm9-a1-m1-cC 6omv-a1-m1-cC_6omv-a1-m1-cA 6p7n-a1-m1-cC_6p7n-a1-m1-cG MYLVVQALIRACIIKEIDLYTEQLYNIIKSLPYDKRPNVVYSDQPLDPNNLDLSEPELWAEQVGECMRYAHNDQPCFYIGSTKRELRVNYIVPVIGVRDEIERVMTLEEVRNLH MYLVVQALIRACIIKEIDLYTEQLYNIIKSLPYDKRPNVVYSDQPLDPNNLDLSEPELWAEQVGECMRYAHNDQPCFYIGSTKRELRVNYIVPVIGVRDEIERVMTLEEVRNLHK 6nmx-a2-m1-cD_6nmx-a2-m1-cB Threonine synthase from Bacillus subtilis ATCC 6633 with PLP and APPA A8HUA2 A8HUA2 1.971 X-RAY DIFFRACTION 236 1.0 96241 (Bacillus spizizenii) 96241 (Bacillus spizizenii) 348 349 6cgq-a1-m1-cA_6cgq-a1-m2-cB 6nmx-a1-m1-cC_6nmx-a1-m1-cA ASWKGLIHQYKEFLPVTDQTPALTLHEGNTPLIHLPKLSEQLGIELHVKTEGVNPTGSFKDRGMVMAVAKAKEEGNDTIMCASTGNTSAAAAAYAARANMKCIVIIPNGKIAFGKLAQAVMYGAEIIAIDGNFDDALKIVRSICEKSPIALVNSVNPYRLEGQKTAAFEVCEQLGEAPDVLAIPVGNAGNISAYWKGFKEYHEKNGTSLPKMRGFEAEGSAAIVRNEVIENPETIATAIRIGNPASWDKAVKAAEESNGKIDEVTDDEILHAYQLIAREEGVFAEPGSCASIAGVLKQVKSGEIPKGSKVVAVLTGNGLKDPNTAVDISEIKPVTLPTNEDSILEYVK ASWKGLIHQYKEFLPVTDQTPALTLHEGNTPLIHLPKLSEQLGIELHVKTEGVNPTGSFKDRGMVMAVAKAKEEGNDTIMCASTGNTSAAAAAYAARANMKCIVIIPNGKIAFGKLAQAVMYGAEIIAIDGNFDDALKIVRSICEKSPIALVNSVNPYRLEGQKTAAFEVCEQLGEAPDVLAIPVGNAGNISAYWKGFKEYHEKNGTSLPKMRGFEAEGSAAIVRNEVIENPETIATAIRIGNPASWDKAVKAAEESNGKIDEVTDDEILHAYQLIAREEGVFAEPGSCASIAGVLKQVKSGEIPKGSKVVAVLTGNGLKDPNTAVDISEIKPVTLPTNEDSILEYVKG 6nn4-a1-m1-cA_6nn4-a1-m1-cC The structure of human liver pyruvate kinase, hLPYK-D499N, in complex with Fru-1,6-BP P30613 P30613 2.15 X-RAY DIFFRACTION 193 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 418 419 AFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAYRPVAIALDTKGPEDLPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVNRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS QLTQELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFYRPVAIALDTKGPELSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVNRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGYTNIMRVLSIS 6nn4-a1-m1-cD_6nn4-a1-m1-cA The structure of human liver pyruvate kinase, hLPYK-D499N, in complex with Fru-1,6-BP P30613 P30613 2.15 X-RAY DIFFRACTION 82 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 414 418 FFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFYRPVAIALDTKGPEIRTLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVNRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGGYTNIMRVLSIS AFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAYRPVAIALDTKGPEDLPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVNRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGSGYTNIMRVLSIS 6nn5-a1-m1-cA_6nn5-a1-m1-cD The structure of human liver pyruvate kinase, hLPYK-W527H P30613 P30613 2.256 X-RAY DIFFRACTION 190 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 417 420 6nn5-a1-m1-cC_6nn5-a1-m1-cB 6nn8-a2-m1-cG_6nn8-a2-m1-cF QELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFYRPVAIALDTKGPLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGHRPGSGYTNIMRVLSIS AFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAPLSYRPVAIALDTKGPDLPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGHRPGSGYTNIMRVLSIS 6nn5-a1-m1-cB_6nn5-a1-m1-cD The structure of human liver pyruvate kinase, hLPYK-W527H P30613 P30613 2.256 X-RAY DIFFRACTION 86 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 417 420 6nn5-a1-m1-cC_6nn5-a1-m1-cA AFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFYRPVAIALDTKGPEIRTGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGHRPGSGYTNIMRVLSIS AFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAPLSYRPVAIALDTKGPDLPGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGHRPGSGYTNIMRVLSIS 6nn7-a1-m1-cB_6nn7-a1-m1-cD The structure of human liver pyruvate kinase, hLPYK-GGG P30613 P30613 2.32 X-RAY DIFFRACTION 85 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 414 479 QQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPEIRGLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWYTNIMRVLSIS AFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPEIRTGSEVELVKLVTVDPRGNANTVWVDYPNIVVPIYIDDGLISLQKINGGVLGSRKGVNLPLSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRGGGYTNIMRVLSIS 6nn7-a2-m1-cH_6nn7-a2-m1-cF The structure of human liver pyruvate kinase, hLPYK-GGG P30613 P30613 2.32 X-RAY DIFFRACTION 85 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 398 406 QQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFSPLSYRPVAIALDTKGPSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPADDVDRRVQFGIESGKLRGFLRVGDLVIVVTTNIMRVLSI FQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSHGSHEYHAESIANVREAVESFASYRPVAIALDTKGPEILSEQDVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTTNIMRVLSIS 6nn8-a1-m1-cH_6nn8-a1-m1-cD The structure of human liver pyruvate kinase, hLPYK-S531E P30613 P30613 2.416 X-RAY DIFFRACTION 194 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 407 421 FFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSSHEYHAESIANVREAVESFSYRPVAIALDTKGPEIRTQDVRDLRFHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPEGYTNIMRVLSIS VAQLTQELGTAFFQQQQLPAAMADTFLEHLCLLDIDSEPVAARSTSIIATIGPASRSVERLKEMIKAGMNIARLNFSSHEYHAESIANVREAVESFAGSPLSYRPVAIALDTKGPVRDLRFGVEHGVDIVFASFVRKASDVAAVRAALGPEGHGIKIISKIENHEGVKRFDEILEVSDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNLAGKPVVCATQMLESMITKPRPTRAETSDVANAVLDGADCIMLSGETAKGNFPVEAVKMQHAIAREAEAAVYHRQLFEELRRAAPLSRDPTEVTAIGAVEAAFKCCAAAIIVLTTTGRSAQLLSRYRPRAAVIAVTRSAQAARQVHLCRGVFPLLYREPPEAIWADDVDRRVQFGIESGKLRGFLRVGDLVIVVTGWRPGEGYTNIMRVLSIS 6nnw-a1-m1-cB_6nnw-a1-m1-cA Tsn15 in complex with substrate intermediate 1.7 X-RAY DIFFRACTION 152 1.0 28044 (Streptomyces longisporoflavus) 28044 (Streptomyces longisporoflavus) 203 208 6noi-a1-m1-cB_6noi-a1-m1-cA SIDPTTPLTYNPVIDALVGSWRQIIDADYSADDTRLPDLAVLARSTARAVAAAVPRPLAEISAPDAPDERGELVLLEKVIQEVADREYTPLSPEGPSVGDLVLVTEKIYNSDREEIGADTGRLRIIRKDPETGHHFTVSLVTSTVQGNKLFAFGYTEMEAQLAGGRTTIQVACWDGPWAGMSGTLSWVINSMTAAESRYELRR SHMTTSIDPTTPLTYNPVIDALVGSWRQIIDADYSADDTRLPDLAVLARSTARAVAAAVPRPLAEISAPDAPDERGELVLLEKVIQEVADREYTPLSPEGPSVGDLVLVTEKIYNSDREEIGADTGRLRIIRKDPETGHHFTVSLVTSTVQGNKLFAFGYTEMEAQLAGGRTTIQVACWDGPWAGMSGTLSWVINSMTAAESRYELRR 6no0-a1-m1-cB_6no0-a1-m1-cA ADP bound to ATP-grasp fold of Blastocystis hominis succinyl-CoA synthetase B3FHP0 B3FHP0 2.209 X-RAY DIFFRACTION 104 0.996 478820 (Blastocystis sp. ATCC 50177/Nand II) 478820 (Blastocystis sp. ATCC 50177/Nand II) 231 232 6no1-a1-m1-cB_6no1-a1-m1-cA 6no2-a1-m1-cA_6no2-a1-m1-cB 6no3-a1-m1-cA_6no3-a1-m1-cB 6no4-a1-m1-cB_6no4-a1-m1-cA 6no5-a1-m1-cB_6no5-a1-m1-cA 6no5-a2-m1-cC_6no5-a2-m1-cD 6no6-a1-m1-cA_6no6-a1-m1-cB MNIHEWQSKQLIQKYGGRAQSGEVAFSPERSRDIAKKLWNQFPGCKFVVKAQVLAGGRGKGHWEHGMQGGVKLAKTPEEVYEIANEMIGHKLITKQTGAKGINCNKVMVCGAVKILKEFYLSILLDRAMGCPVIIATSQGGEEVAQKCPECLFKVPISVKNGPTNEQLVKLAKDLGLEGDLVQDCVDNVKALYQVFDKCDSTMVEINPLGVIETPTDEKVICCLDAKIAFD MNIHEWQSKQLIQKYGGRAQSGEVAFSPERSRDIAKKLWNQFPGCKFVVKAQVLAGGRGKGHWEHGMQGGVKLAKTPEEVYEIANEMIGHKLITKQTGAKGINCNKVMVCGAVKILKEFYLSILLDRAMGCPVIIATSQGGGIEEVAQKCPECLFKVPISVKNGPTNEQLVKLAKDLGLEGDLVQDCVDNVKALYQVFDKCDSTMVEINPLGVIETPTDEKVICCLDAKIAF 6nob-a2-m1-cA_6nob-a2-m2-cA Structure of Glycoside Hydrolase family 32 from Bifidobacterium adolescentis A1A323 A1A323 2.44 X-RAY DIFFRACTION 107 1.0 367928 (Bifidobacterium adolescentis ATCC 15703) 367928 (Bifidobacterium adolescentis ATCC 15703) 634 634 TYSISVETGGYRQLDLFAERCGEGNAVVTVADGNGVAIAAHTMPIAERRHHFSIAVPQKSTVTVAASGLVVRFGYLSECDDLLDNGVRYVNMNPSDTDWPAQPTLEQIYNRFGRSGAHFEPFARWMNDPNGLCQFQGRYHLFFQLNPYGFGWDNMHWGHAVSRDLVHWTHLPVFLEPQPELHTDERIVGGAFSGSAVTVDEHDNPVAGNEANAIRLYLTRHLETRGDESSVTEYQTTCLCEDGVHVRVESPVALRANDDFGYDFRDPKVECGMGGEALDPDRAYMVTATNLPVSEFGADAADSAVPGISTQNTGGWFTYSPQGKPGVDQPNNATVPAMTLFSAKKPLKRNVTWRYEGPVLADFGHQIARTYECPDLFQVDGVTVAVGALMHYRDKQGRFQQVRWYAGDLVNTDNGPKLDVKASDWCDFGTGYYATQSFADDNGRRIVFGWFTDFPEMRVEQPCLANGMMSLPRELHVRDGRLYSKPVSEVYRELLGERLAVHGDGGDMVVTAPGNAYYANVHLADDADAIMVLAKGVNPQDGRPTELLLQRTDGVTRLVAKGTAVEDVDFDSGITDVRQVEVFFDRNVVEVFLNGGQTAGSMLFQGADGDGELRIASSGKIDAVDARALNGIWR TYSISVETGGYRQLDLFAERCGEGNAVVTVADGNGVAIAAHTMPIAERRHHFSIAVPQKSTVTVAASGLVVRFGYLSECDDLLDNGVRYVNMNPSDTDWPAQPTLEQIYNRFGRSGAHFEPFARWMNDPNGLCQFQGRYHLFFQLNPYGFGWDNMHWGHAVSRDLVHWTHLPVFLEPQPELHTDERIVGGAFSGSAVTVDEHDNPVAGNEANAIRLYLTRHLETRGDESSVTEYQTTCLCEDGVHVRVESPVALRANDDFGYDFRDPKVECGMGGEALDPDRAYMVTATNLPVSEFGADAADSAVPGISTQNTGGWFTYSPQGKPGVDQPNNATVPAMTLFSAKKPLKRNVTWRYEGPVLADFGHQIARTYECPDLFQVDGVTVAVGALMHYRDKQGRFQQVRWYAGDLVNTDNGPKLDVKASDWCDFGTGYYATQSFADDNGRRIVFGWFTDFPEMRVEQPCLANGMMSLPRELHVRDGRLYSKPVSEVYRELLGERLAVHGDGGDMVVTAPGNAYYANVHLADDADAIMVLAKGVNPQDGRPTELLLQRTDGVTRLVAKGTAVEDVDFDSGITDVRQVEVFFDRNVVEVFLNGGQTAGSMLFQGADGDGELRIASSGKIDAVDARALNGIWR 6nop-a1-m1-cA_6nop-a1-m1-cB Structure of Cyanothece McdA(D38A)-ATP complex B7KMS4 B7KMS4 1.7 X-RAY DIFFRACTION 70 0.992 43988 (Cyanothece) 43988 (Cyanothece) 260 262 GSHMKTLVIASLSGGQGKTTTAFFLGKLLSQSAKVLFIDAAPQSNLTFFLGHEVEPSAPTLLELIKDMVEPADAVYSLANSNQFLIPSDDGLSNAQEYLASSGMGAVVLKARLKPLSEYFDYCIIDSPPARTQISIATIGAADQLLIPAEASTKGVNSLIRTLEIVQSLEKLGAFTGSILGVIPFRDKWFGLSQSKDSAGAIAAMKEVAPQLRIFPSILESERYKQALNQGILLSELGYPDLEKPFEGVKEALGIKQLVQ LVPRHMKTLVIASLSGGQGKTTTAFFLGKLLSQSAKVLFIDAAPQSNLTFFLGHEVEPSAPTLLELIKDMVEPADAVYSLANSNQFLIPSDDGLSNAQEYLASSGMGAVVLKARLKPLSEYFDYCIIDSPPARTQISIATIGAADQLLIPAEASTKGVNSLIRTLEIVQSLEKLGAFTGSILGVIPFRDKWFGLSQSKDSAGAIAAMKEVAPQLRIFPSILESERYKQALNQGILLSELGYPDLEKPFEGVKEALGIKQLVQ 6noy-a2-m1-cB_6noy-a2-m1-cA Structure of Cyanothece McdB B7KMS5 B7KMS5 3.46 X-RAY DIFFRACTION 50 1.0 43988 (Cyanothece) 43988 (Cyanothece) 78 79 6noy-a1-m1-cG_6noy-a1-m1-cH TFETVRNTIRIESEVDESLRQLCHEERITKETWLEAAYLYLCEKPEELAQVIQLAQERLSQRKAIADYKRAKTQERFL DTFETVRNTIRIESEVDESLRQLCHEERITKETWLEAAYLYLCEKPEELAQVIQLAQERLSQRKAIADYKRAKTQERFL 6noy-a4-m3-cB_6noy-a4-m1-cA Structure of Cyanothece McdB B7KMS5 B7KMS5 3.46 X-RAY DIFFRACTION 168 1.0 43988 (Cyanothece) 43988 (Cyanothece) 78 79 6noy-a3-m1-cG_6noy-a3-m2-cH TFETVRNTIRIESEVDESLRQLCHEERITKETWLEAAYLYLCEKPEELAQVIQLAQERLSQRKAIADYKRAKTQERFL DTFETVRNTIRIESEVDESLRQLCHEERITKETWLEAAYLYLCEKPEELAQVIQLAQERLSQRKAIADYKRAKTQERFL 6np6-a1-m1-cA_6np6-a1-m1-cB Crystal structure of the sensor domain of the transcriptional regulator HcpR from Porphyromonas Gingivalis Q7MVK4 Q7MVK4 2.6 X-RAY DIFFRACTION 47 1.0 837 (Porphyromonas gingivalis) 837 (Porphyromonas gingivalis) 152 152 DPEFDLLLKAWKSSGLSVGMKDDELLALLESCSYRVERLKAEELYAIGGDKLQDLRIVGVGEIRAEMVGPSGKQILIDTLAVGRILAPALLFASENILPVTLFANEDSVLFRIGKEEFKGMMHKYPTLMENFIGMISDISAFLMKKIHQLSL DPEFDLLLKAWKSSGLSVGMKDDELLALLESCSYRVERLKAEELYAIGGDKLQDLRIVGVGEIRAEMVGPSGKQILIDTLAVGRILAPALLFASENILPVTLFANEDSVLFRIGKEEFKGMMHKYPTLMENFIGMISDISAFLMKKIHQLSL 6np9-a1-m1-cA_6np9-a1-m2-cA PD-L1 IgV domain V76T with fragment Q9NZQ7 Q9NZQ7 1.27 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 122 AFTVTVPKDLYVVEYGSNMTIECKFPVQLDLAALIVYWEMEDKNIIQFVHGEEDLKTQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYAAALHEH AFTVTVPKDLYVVEYGSNMTIECKFPVQLDLAALIVYWEMEDKNIIQFVHGEEDLKTQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYAAALHEH 6npc-a1-m1-cB_6npc-a1-m1-cA X-ray crystal structure of TmpA, 2-trimethylaminoethylphosphonate hydroxylase, with Fe, 2OG, and 2-trimethylaminoethylphosphonate A0A4V8H042 A0A4V8H042 1.7 X-RAY DIFFRACTION 228 0.997 506591 (Leisingera caerulea) 506591 (Leisingera caerulea) 372 378 6npb-a1-m1-cA_6npb-a1-m1-cB 6npd-a1-m1-cA_6npd-a1-m1-cB HHHMPRSVTADASGSFLTLTFEDGSESRFHAIWLRDNALDPETRSPGNGQRLITIGDIPADTRISTALVDDGALTVTFAPEGKTVTFPGKWLKSNAYDTDQSSEVGRTSPDVETWDSSQPAPAFDWNEVQSDPKAKRDWLDAIARLGFAKLVNGPVREGALIECASMFGFVRETNYGKYFEVRTEVNPTNLQAHTDNPYRDPVPSLQILYCLENSAEGGDSIVVDGFRAAERLRDEDPEGFALLAGNPARFEYKGSDGVHLRARRPMIELSPDGEMIAIRFNNRSSAPFVDIPFEKMEAYYAAYRRLGEFIDDPEMGVSFKLEPGESFIVDNTRVLHARLGYSGSGSRWLQGCYADKDGLFSTLNVLNAQLG HHMPRSVTADASGSFLTLTFEDGSESRFHAIWLRDNALDPETRSPGNGQRLITIGDIPADTRISTALVDDGALTVTFAPEGKTVTFPGKWLKSNAYDTDQSSEVGRTSPDVETWDSSQPAPAFDWNEVQSDPKAKRDWLDAIARLGFAKLVNGPVREGALIECASMFGFVRETNYGKYFEVRTEVNPTNLAYTGLGLQAHTDNPYRDPVPSLQILYCLENSAEGGDSIVVDGFRAAERLRDEDPEGFALLAGNPARFEYKGSDGVHLRARRPMIELSPDGEMIAIRFNNRSSAPFVDIPFEKMEAYYAAYRRLGEFIDDPEMGVSFKLEPGESFIVDNTRVLHARLGYSGSGSRWLQGCYADKDGLFSTLNVLNAQLG 6npj-a1-m1-cB_6npj-a1-m1-cC Structure of the NKCC1 CTD A0A0G2KTI4 A0A0G2KTI4 3.8 ELECTRON MICROSCOPY 148 1.0 7955 (Danio rerio) 7955 (Danio rerio) 384 384 WGSSTQALTYHQALTHSLQLCGVADHIKTFRPQCLVMTGAPNSRPAILHLVHAFTKNVGLMLCGHVRISSRRPNFKELNSDMLRYQRWLLNNNSKAFYTCVVAEDLRQGTQYMLQAAGLGRLRPNTLVIGFKNDWRIGDIKEVETYINLIHDAFDFQYGVVILRLREGLDISHLNVADQRLLDSQQFQQKQGKGTVDVWWLFDDGGLTLLIPYLIANKKKWKDCKIRVFIGGKINRIDHDRRAMATLLSKFRIDFSDITVLGDINTKPKSEGLTEFAEMIEPYKLREDDMEQEAAEKLKSEEPWRITANELELYKAKGNRQIRLNELLKEHSSTANLIVMSMPLARKGAVSSALYMAWLDTLSKDLPPILLVRGNHQSVLTFYS WGSSTQALTYHQALTHSLQLCGVADHIKTFRPQCLVMTGAPNSRPAILHLVHAFTKNVGLMLCGHVRISSRRPNFKELNSDMLRYQRWLLNNNSKAFYTCVVAEDLRQGTQYMLQAAGLGRLRPNTLVIGFKNDWRIGDIKEVETYINLIHDAFDFQYGVVILRLREGLDISHLNVADQRLLDSQQFQQKQGKGTVDVWWLFDDGGLTLLIPYLIANKKKWKDCKIRVFIGGKINRIDHDRRAMATLLSKFRIDFSDITVLGDINTKPKSEGLTEFAEMIEPYKLREDDMEQEAAEKLKSEEPWRITANELELYKAKGNRQIRLNELLKEHSSTANLIVMSMPLARKGAVSSALYMAWLDTLSKDLPPILLVRGNHQSVLTFYS 6npl-a1-m1-cA_6npl-a1-m1-cB Cryo-EM structure of NKCC1 A0A0G2KTI4 A0A0G2KTI4 2.9 ELECTRON MICROSCOPY 170 1.0 7955 (Danio rerio) 7955 (Danio rerio) 861 861 6nph-a1-m1-cA_6nph-a1-m1-cB 6npk-a1-m1-cA_6npk-a1-m1-cB KFGWIKGVLVRCMLNIWGVMLFIRMTWIVGQAGIAYSCIIVIMATVVTTITGCSTSAIATNGFVRGGGAYYLISRSLGPEFGGSIGLIFAFANAVAVAMYVVGFAETVVELLMDSGLLMIDQTNDIRVIGTITVILLLGISVAGMEWEAKAQIFLLVILITAIFNYFIGSFIAVDSKKKFGFFSYDAGILAENFGPDFRGQTFFSVFSIFFPAATGILAGANISGDLADPQMAIPKGTLLAILITGLVYVGVAISAGACIVRDATGIESNFTLISNCTDAACKYGYDFSSCRPTVEGEVSSCKFGLHNDFQVMSVVSGFSPLISAGIFSATLSSALASLVSAPKVFQALCKDNIYPGIAIFGKGYGKNNEPLRGYFLTFGIALAFILIAELNVIAPIISNFFLASYALINFSVFHASLANSPGWRPSFKYYNMWASLAGAILCCVVMFIINWWAALLTNVIVLSLYIYVSYKKPDVNWGSSTQALTYHQALTHSLQLCGVADHIKTFRPQCLVMTGAPNSRPAILHLVHAFTKNVGLMLCGHVRISSRRPNFKELNSDMLRYQRWLLNNNSKAFYTCVVAEDLRQGTQYMLQAAGLGRLRPNTLVIGFKNDWRIGDIKEVETYINLIHDAFDFQYGVVILRLREGLDISHLNVADQRLLDSQQFQQKQGKGTVDVWWLFDDGGLTLLIPYLIANKKKWKDCKIRVFIGGKINRIDHDRRAMATLLSKFRIDFSDITVLGDINTKPKSEGLTEFAEMIEPYKLREDDMEQEAAEKLKSEEPWRITDNELELYKAKGNRQIRLNELLKEHSSTANLIVMSMPLARKGAVSSALYMAWLDTLSKDLPPILLVRGNHQSVLTFYS KFGWIKGVLVRCMLNIWGVMLFIRMTWIVGQAGIAYSCIIVIMATVVTTITGCSTSAIATNGFVRGGGAYYLISRSLGPEFGGSIGLIFAFANAVAVAMYVVGFAETVVELLMDSGLLMIDQTNDIRVIGTITVILLLGISVAGMEWEAKAQIFLLVILITAIFNYFIGSFIAVDSKKKFGFFSYDAGILAENFGPDFRGQTFFSVFSIFFPAATGILAGANISGDLADPQMAIPKGTLLAILITGLVYVGVAISAGACIVRDATGIESNFTLISNCTDAACKYGYDFSSCRPTVEGEVSSCKFGLHNDFQVMSVVSGFSPLISAGIFSATLSSALASLVSAPKVFQALCKDNIYPGIAIFGKGYGKNNEPLRGYFLTFGIALAFILIAELNVIAPIISNFFLASYALINFSVFHASLANSPGWRPSFKYYNMWASLAGAILCCVVMFIINWWAALLTNVIVLSLYIYVSYKKPDVNWGSSTQALTYHQALTHSLQLCGVADHIKTFRPQCLVMTGAPNSRPAILHLVHAFTKNVGLMLCGHVRISSRRPNFKELNSDMLRYQRWLLNNNSKAFYTCVVAEDLRQGTQYMLQAAGLGRLRPNTLVIGFKNDWRIGDIKEVETYINLIHDAFDFQYGVVILRLREGLDISHLNVADQRLLDSQQFQQKQGKGTVDVWWLFDDGGLTLLIPYLIANKKKWKDCKIRVFIGGKINRIDHDRRAMATLLSKFRIDFSDITVLGDINTKPKSEGLTEFAEMIEPYKLREDDMEQEAAEKLKSEEPWRITDNELELYKAKGNRQIRLNELLKEHSSTANLIVMSMPLARKGAVSSALYMAWLDTLSKDLPPILLVRGNHQSVLTFYS 6nps-a1-m1-cB_6nps-a1-m1-cA Crystal structure of GH115 enzyme AxyAgu115A from Amphibacillus xylanus K0J4X5 K0J4X5 1.99 X-RAY DIFFRACTION 79 1.0 698758 (Amphibacillus xylanus NBRC 15112) 698758 (Amphibacillus xylanus NBRC 15112) 958 968 QGMDFTLNQEMLMTDTKSGALFYQEEEALSGVRKIANKVMHDVELVFGYQPEATKDRDMLSRHAVLYGTVGHSPLLDELNAAALIDLTEIAGKREVFLFQVVDQPIQGVEKALVIAGSDKRGTIYGLFHLSEKLGVSPLVDWSGVLPARKESFSLKGDYKYVSKEPSVKYRGFFINDEWPAFGNWSAKNFGGFNAEMYDHVFELLLRLKGNYLWPAMWSARFNDDGPGLANVELADEYGVIMGASHHEPCLRYGEEYKYLRGPDSIYGDAWNFITNREGITKFWEDGLKRTGHFENIITIGMRDATLEDNINLLRDVIQTQNKLIKEHVNPNLKEVPRMLALYKEVEPFFYGDENTPGLINSEELEDVILMLCDDNHGNLRTLPTEDMRKHSGGYGMYYHFDYHGGPVSYEWINSSYLPKIWEQMTMAYDFGVRDLWIVNVGDIATQELPLSFFLDLAYDFDKWGTNAINKTDDYTKQWIEQQFAGVFNLEQKDKVFELLNGYTKIAHNRRPEAMNVDVYHPVNYHETDQLLDRIDHLLGLAEELYQEVDQQHFTAYFALVYYPTVGNLNLQKMWLLNGKNKYAAQLNLIEANKLAEQVKACLKRDQEIVDEYHTIADGKFYGMGLSEHIGFVHWNEDENKNPVLSYVLPVNKPRLLVSIDGTELRSEGSPWHVNTLPLVDFLEPDVNQASFTISSVSEKKAEYHISTDQDWLSCSAANGVLDGKNKLSETIHVFVDRDGLADQAEGRITVKTPVGKVTIVVPVVNNDFTNYPDMTFVDTKGYISIEAEHFATQKATENLDGTLNRFEVLDGYGKTLSAIKAFPTDTHYQVGKDAPFVEYHFVTQEAGVYELEFYLQPSNPVTREGTMYAGIQVNENDVDVINVLPDGYHVDGPHWGIDVINNIRTTKTKITCEQGLNKLRIYAVSPGFALEKIVIYPDGKKLANSYLGPNETYYVGR QGMDFTLNQEMLMTDTKSGALFYQEEEALSGVRKIANKVMHDVELVFGYQPEATKDRDMLSRHAVLYGTVGHSPLLDELNAAALIDLTEIAGKREVFLFQVVDQPIQGVEKALVIAGSDKRGTIYGLFHLSEKLGVSPLVDWSGVLPARKESFSLKGDYKYVSKEPSVKYRGFFINDEWPAFGNWSAKNFGGFNAEMYDHVFELLLRLKGNYLWPAMWSARFNDDGPGLANVELADEYGVIMGASHHEPCLRYGEEYKYLRGPDSIYGDAWNFITNREGITKFWEDGLKRTGHFENIITIGMRGEADTKIMGEDATLEDNINLLRDVIQTQNKLIKEHVNPNLKEVPRMLALYKEVEPFFYGDENTPGLINSEELEDVILMLCDDNHGNLRTLPTEDMRKHSGGYGMYYHFDYHGGPVSYEWINSSYLPKIWEQMTMAYDFGVRDLWIVNVGDIATQELPLSFFLDLAYDFDKWGTNAINKTDDYTKQWIEQQFAGVFNLEQKDKVFELLNGYTKIAHNRRPEAMNVDVYHPVNYHETDQLLDRIDHLLGLAEELYQEVDQQHFTAYFALVYYPTVGNLNLQKMWLLNGKNKYAAQLNLIEANKLAEQVKACLKRDQEIVDEYHTIADGKFYGMGLSEHIGFVHWNEDENKNPVLSYVLPVNKPRLLVSIDGTELRSEGSPWHVNTLPLVDFLEPDVNQASFTISSVSEKKAEYHISTDQDWLSCSAANGVLDGKNKLSETIHVFVDRDGLADQAEGRITVKTPVGKVTIVVPVVNNDFTNYPDMTFVDTKGYISIEAEHFATQKATENLDGTLNRFEVLDGYGKTLSAIKAFPTDTHYQVGKDAPFVEYHFVTQEAGVYELEFYLQPSNPVTREGTMYAGIQVNENDVDVINVLPDGYHVDGPHWGIDVINNIRTTKTKITCEQGLNKLRIYAVSPGFALEKIVIYPDGKKLANSYLGPNETYYVGR 6nq2-a1-m1-cA_6nq2-a1-m1-cB Cryo-EM structure of human TPC2 channel in the ligand-bound closed state Q8NHX9 Q8NHX9 3.4 ELECTRON MICROSCOPY 215 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 621 621 6nq0-a1-m1-cA_6nq0-a1-m1-cB 6nq1-a1-m1-cA_6nq1-a1-m1-cB AARWDLCIDQAVVFIEDAIQYRSINHRVDASSMWLYRRYYSNVCQRTLSFTIFLILFLAFIETPSSLTSTADVRYRAAPWEPPCGLTESVEVLCLLVFAADLSVKGYLFGWAHFQKNLWLLGYLVVLVVSLVDWTVSLSLVCHEPLRIRRLLRPFFLLQNSSMMKKTLKCIRWSLPEMASVGLLLAIHLCLFTMFGMLLFAGLTYFQNLPESLTSLLVLLTTANNPDVMIPAYSKNRAYAIFFIVFTVIGSLFLMNLLTAIIYSQFRGYLMKSLQTSLFRRRLGTRAAFEVLSSMVGAVGVKPQNLLQVLQKVQLDSSHKQAMMEKVRSYGSVLLSAEEFQKLFNELDRSVVKEHPPRPEYQSPFLQSAQFLFGHYYFDYLGNLIALANLVSICVFLVLDADVLPAERDDFILGILNCVFIVYYLLEMLLKVFALGLRGYLSYPSNVFDGLLTVVLLVLEISTLAVYRLSLWDMTRMLNMLIVFRFLRIIPSMKPMAVVASTVLGLVQNMRAFGGILVVVYYVFAIIGINLFRGVIVALSAPCGSFEQLEYWANNFDDFAAALVTLWNLMVVNNWQVFLDAYRRYSGPWSKIYFVLWWLVSSVIWVNLFLALILENFLHKW AARWDLCIDQAVVFIEDAIQYRSINHRVDASSMWLYRRYYSNVCQRTLSFTIFLILFLAFIETPSSLTSTADVRYRAAPWEPPCGLTESVEVLCLLVFAADLSVKGYLFGWAHFQKNLWLLGYLVVLVVSLVDWTVSLSLVCHEPLRIRRLLRPFFLLQNSSMMKKTLKCIRWSLPEMASVGLLLAIHLCLFTMFGMLLFAGLTYFQNLPESLTSLLVLLTTANNPDVMIPAYSKNRAYAIFFIVFTVIGSLFLMNLLTAIIYSQFRGYLMKSLQTSLFRRRLGTRAAFEVLSSMVGAVGVKPQNLLQVLQKVQLDSSHKQAMMEKVRSYGSVLLSAEEFQKLFNELDRSVVKEHPPRPEYQSPFLQSAQFLFGHYYFDYLGNLIALANLVSICVFLVLDADVLPAERDDFILGILNCVFIVYYLLEMLLKVFALGLRGYLSYPSNVFDGLLTVVLLVLEISTLAVYRLSLWDMTRMLNMLIVFRFLRIIPSMKPMAVVASTVLGLVQNMRAFGGILVVVYYVFAIIGINLFRGVIVALSAPCGSFEQLEYWANNFDDFAAALVTLWNLMVVNNWQVFLDAYRRYSGPWSKIYFVLWWLVSSVIWVNLFLALILENFLHKW 6nq3-a2-m1-cF_6nq3-a2-m2-cF Crystal Structure of a SUZ12-RBBP4-PHF19-JARID2 Heterotetrameric Complex Q15022 Q15022 2.89 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 6nq3-a1-m1-cB_6nq3-a1-m3-cB ADHELFLQAFEKPTQIYRFLRTRNLIAPIFLHRTLTYMSHRNSRTNIKRKTFKVDDMLSKVEKMKGEHLQLTFTGFFEVLLVKVCHKKRKDVSCPIRQVLAVSSNEFEPSNSHMVKSYSLLFRVFVAQMTVFDKNRRLQLLDGEYEVAMQEKKRATWEPTLQFTLKSTAPIAKPLAQKLRIFYQFLYNNNTRQQTEARDDLHCPWCTLNCRKLYSLLKHLKLCHSRFIFNYVYHPKGARIDVSINECYDDIHRQPGFAFSRNGPVKRTPITHILVCRP ADHELFLQAFEKPTQIYRFLRTRNLIAPIFLHRTLTYMSHRNSRTNIKRKTFKVDDMLSKVEKMKGEHLQLTFTGFFEVLLVKVCHKKRKDVSCPIRQVLAVSSNEFEPSNSHMVKSYSLLFRVFVAQMTVFDKNRRLQLLDGEYEVAMQEKKRATWEPTLQFTLKSTAPIAKPLAQKLRIFYQFLYNNNTRQQTEARDDLHCPWCTLNCRKLYSLLKHLKLCHSRFIFNYVYHPKGARIDVSINECYDDIHRQPGFAFSRNGPVKRTPITHILVCRP 6nqd-a1-m1-cB_6nqd-a1-m1-cF Cryo-EM structure of T/F100 SOSIP.664 HIV-1 Env trimer in complex with 8ANC195 Fab A0A140EMT3 A0A140EMT3 3.9 ELECTRON MICROSCOPY 54 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 124 124 6nqd-a1-m1-cB_6nqd-a1-m1-cJ 6nqd-a1-m1-cF_6nqd-a1-m1-cJ 8czz-a1-m1-cF_8czz-a1-m1-cB 8czz-a1-m1-cF_8czz-a1-m1-cJ GLGAMIFGFLGAAGSTMGAASITLTVQARQLLSGIGIKQLQARVLAVERYLQDQKFLGLWGCSGKIICCTAVPWNSSWSNKTFEEIWNNMTWIEWEREISNYTSQIYDILTISQTQQEKNEKDL GLGAMIFGFLGAAGSTMGAASITLTVQARQLLSGIGIKQLQARVLAVERYLQDQKFLGLWGCSGKIICCTAVPWNSSWSNKTFEEIWNNMTWIEWEREISNYTSQIYDILTISQTQQEKNEKDL 6nqd-a1-m1-cI_6nqd-a1-m1-cE Cryo-EM structure of T/F100 SOSIP.664 HIV-1 Env trimer in complex with 8ANC195 Fab A0A140EMT3 A0A140EMT3 3.9 ELECTRON MICROSCOPY 32 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 439 439 6nqd-a1-m1-cA_6nqd-a1-m1-cE 6nqd-a1-m1-cI_6nqd-a1-m1-cA 8czz-a1-m1-cE_8czz-a1-m1-cA 8czz-a1-m1-cI_8czz-a1-m1-cA 8czz-a1-m1-cI_8czz-a1-m1-cE ATNNLWVTVYYGVPVWRDADTTLFCASDAKATEVHNVWATHACVPTDPNPQEMHLKNVTENFNMWKNNMVEQMQEDVISLWDQSLKPCVKLTPLCVTLNCTSATDDVRNCSFNMTTELRDKQQKVYALFYKLDIVPIDNFSEYRLINCNTSVIKQACPKVSFDPIPIHYCTPAGYAILRCNDKKFNGTGPCKNVSSVQCTHGIKPVVSTQLLLNGSLAEEGIIIRSENLTNNAKTIIVHFNESVKINCTRPSNNTRTGIHIGPGQVFYKTGDIIGDIRKAYCNISGAQWHKVLGRVANKLKEHFNNKTIVFKPSSGGDPEITMHHFNCRGEFFYCNTTKLFNSTWGTRDNGTITIPCRIKQIINMWQGVGQAMYAPPIKGVIKCLSNITGILLTRDGGNNETFRPGGGNIKDNWRNELYKYKVVQIEPLGIAPTKCKRR ATNNLWVTVYYGVPVWRDADTTLFCASDAKATEVHNVWATHACVPTDPNPQEMHLKNVTENFNMWKNNMVEQMQEDVISLWDQSLKPCVKLTPLCVTLNCTSATDDVRNCSFNMTTELRDKQQKVYALFYKLDIVPIDNFSEYRLINCNTSVIKQACPKVSFDPIPIHYCTPAGYAILRCNDKKFNGTGPCKNVSSVQCTHGIKPVVSTQLLLNGSLAEEGIIIRSENLTNNAKTIIVHFNESVKINCTRPSNNTRTGIHIGPGQVFYKTGDIIGDIRKAYCNISGAQWHKVLGRVANKLKEHFNNKTIVFKPSSGGDPEITMHHFNCRGEFFYCNTTKLFNSTWGTRDNGTITIPCRIKQIINMWQGVGQAMYAPPIKGVIKCLSNITGILLTRDGGNNETFRPGGGNIKDNWRNELYKYKVVQIEPLGIAPTKCKRR 6nqz-a1-m1-cA_6nqz-a1-m1-cB Flagellar protein FcpB from Leptospira interrogans Q72RA0 Q72RA0 2.58 X-RAY DIFFRACTION 66 0.995 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 206 215 QLGQSILETERKLDEKIFELNQRLTRHTVLMKMKVRVLPFRTVLFKGKANNDECTPAINQEDPANNCIRVEVYDQGALAKYMEIYFEGQNSNDPEPRTEPPRNINKLKSKIYKNNMVLEDKIISEVMDRGPNTQPSHNDKVEVFFQVGKYILAGVENTKTHPIRNSFKKEFYIKHLDQFDRLFTKIFDYNDQLENYKENVDALKDS QLGQSILETERKLDEKIFELNQRLTRHTVLMKMKVRVLPFRTVLFKGKANNDECTPAINQEDPANNCIRVEVYDFIGALAKYMEIYFEGQNSNDPEPRTEPPRNINKLKSKIYKNNMVLEDKIISEVMDRGPNTQPSHNDKVEVFFQKDNVGKYILAGVENTKTHPIRNSFKKEFYIKHLDQFDRLFTKIFDYNDQLGNENYKENVDALKDSLRY 6nr6-a1-m1-cA_6nr6-a1-m2-cA Crystal Structure of Staphylococcus pseudintermedius SbnI in complex with ADP A0A166Q2C7 A0A166Q2C7 1.9 X-RAY DIFFRACTION 108 1.0 283734 (Staphylococcus pseudintermedius) 283734 (Staphylococcus pseudintermedius) 254 254 5ujd-a1-m1-cA_5ujd-a1-m1-cB 6nr6-a1-m1-cB_6nr6-a1-m2-cB MKQIYDTLQLIPVDKIDLHEAFEPSRLEKTKESIAKEQHLRHPVLVVKTLFGRYMVIDGVHRFMSLKALGCEVIPVQVIQRTQYSIGSWHHKIPNGAWCEGLTDEELLPWTTEVRDETPFITMCDQQTEHYLYAADLTADKLDVWKKVVNSYSASCNVERVPHSACLCLDSNDILMKYQPLQIGEIEAVVQRGQTVPAGVTRFNIAGRCLNLQVPLHLLKNSNLGNQEQWHTFLQKKIESMRCYTEKIYLIEAE MKQIYDTLQLIPVDKIDLHEAFEPSRLEKTKESIAKEQHLRHPVLVVKTLFGRYMVIDGVHRFMSLKALGCEVIPVQVIQRTQYSIGSWHHKIPNGAWCEGLTDEELLPWTTEVRDETPFITMCDQQTEHYLYAADLTADKLDVWKKVVNSYSASCNVERVPHSACLCLDSNDILMKYQPLQIGEIEAVVQRGQTVPAGVTRFNIAGRCLNLQVPLHLLKNSNLGNQEQWHTFLQKKIESMRCYTEKIYLIEAE 6nrp-a1-m1-cD_6nrp-a1-m1-cB Putative short-chain dehydrogenase/reductase (SDR) from Acinetobacter baumannii A0A1K1L6W4 A0A1K1L6W4 1.9 X-RAY DIFFRACTION 124 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 231 238 6nrp-a1-m1-cC_6nrp-a1-m1-cA 7caw-a1-m1-cA_7caw-a1-m1-cC 7caw-a1-m1-cD_7caw-a1-m1-cB 7cax-a1-m1-cA_7cax-a1-m1-cC 7cax-a1-m1-cB_7cax-a1-m1-cD MTRRILVTGSSRGIGKAIALQLAKAGFDVTVHARSRQAEAEQVVQEIQALGQNSHYLMFDVNERQTVQQILEQDVEQHGGFYGVVLNAGLTHDGAFPALTDQDWDEVISTSLDGFYNVLKPLIMPMIHLRKGGRIVTLSSVSGIMGNRGQVNYSAAKAGLIGATKALALELAKRKITVNCVAPGLIETALKMIPLQRMGQVDEVASVVKFLCSDEASYVTRQVISVNGGLI MTRRILVTGSSRGIGKAIALQLAKAGFDVTVHARSRQAEAEQVVQEIQALGQNSHYLMFDVNERQTVQQILEQDVEQHGGFYGVVLNAGLTHDGAFPALTDQDWDEVISTSLDGFYNVLKPLIMPMIHLRKGGRIVTLSSVSGIMGNRGQVNYSAAKAGLIGATKALALELAKRKITVNCVAPGLIETEMVTKEHALKMIPLQRMGQVDEVASVVKFLCSDEASYVTRQVISVNGGLI 6nrv-a1-m1-cG_6nrv-a1-m1-cM Cryo-EM reconstruction of CFA/I pili P0CK93 P0CK93 4.0 ELECTRON MICROSCOPY 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 146 146 6nrv-a1-m1-cA_6nrv-a1-m1-cF 6nrv-a1-m1-cA_6nrv-a1-m1-cG 6nrv-a1-m1-cB_6nrv-a1-m1-cE 6nrv-a1-m1-cB_6nrv-a1-m1-cH 6nrv-a1-m1-cC_6nrv-a1-m1-cD 6nrv-a1-m1-cC_6nrv-a1-m1-cI 6nrv-a1-m1-cD_6nrv-a1-m1-cJ 6nrv-a1-m1-cE_6nrv-a1-m1-cK 6nrv-a1-m1-cF_6nrv-a1-m1-cL 8ehr-a1-m1-cA_8ehr-a1-m1-cC 8ehr-a1-m1-cA_8ehr-a1-m1-cD 8ehr-a1-m1-cB_8ehr-a1-m1-cE 8ehr-a1-m1-cF_8ehr-a1-m1-cG VEKNITVTASVDPAIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG VEKNITVTASVDPAIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG 6nrv-a1-m1-cI_6nrv-a1-m1-cM Cryo-EM reconstruction of CFA/I pili P0CK93 P0CK93 4.0 ELECTRON MICROSCOPY 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 146 146 6nrv-a1-m1-cA_6nrv-a1-m1-cD 6nrv-a1-m1-cA_6nrv-a1-m1-cE 6nrv-a1-m1-cB_6nrv-a1-m1-cC 6nrv-a1-m1-cB_6nrv-a1-m1-cF 6nrv-a1-m1-cC_6nrv-a1-m1-cG 6nrv-a1-m1-cD_6nrv-a1-m1-cH 6nrv-a1-m1-cE_6nrv-a1-m1-cI 6nrv-a1-m1-cF_6nrv-a1-m1-cJ 6nrv-a1-m1-cG_6nrv-a1-m1-cK 6nrv-a1-m1-cH_6nrv-a1-m1-cL 8ehr-a1-m1-cA_8ehr-a1-m1-cE 8ehr-a1-m1-cA_8ehr-a1-m1-cG 8ehr-a1-m1-cB_8ehr-a1-m1-cC 8ehr-a1-m1-cB_8ehr-a1-m1-cF 8ehr-a1-m1-cD_8ehr-a1-m1-cF VEKNITVTASVDPAIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG VEKNITVTASVDPAIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG 6nrx-a1-m1-cA_6nrx-a1-m1-cB Crystal structure of DIP-eta IG1 homodimer Q9VMN9 Q9VMN9 1.9 X-RAY DIFFRACTION 56 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 106 106 SRIVDPKFSSPIVNMTAPVGRDAFLTCVVQDLGPYKVAWLRVDTQTILTIQNHVITKNQRIGIANSEHKTWTMRIKDIKESDKGWYMCQINTDPMKSQMGYLDVVV SRIVDPKFSSPIVNMTAPVGRDAFLTCVVQDLGPYKVAWLRVDTQTILTIQNHVITKNQRIGIANSEHKTWTMRIKDIKESDKGWYMCQINTDPMKSQMGYLDVVV 6nrz-a1-m1-cA_6nrz-a1-m1-cB Crystal Structure of Lysyl-tRNA Synthetase from Chlamydia trachomatis complexed with L-lysine and Adenosine B0BAN6 B0BAN6 2.1 X-RAY DIFFRACTION 303 1.0 471473 (Chlamydia trachomatis L2b/UCH-1/proctitis) 471473 (Chlamydia trachomatis L2b/UCH-1/proctitis) 517 517 6ns0-a1-m1-cA_6ns0-a1-m1-cB 6o3f-a1-m1-cA_6o3f-a1-m1-cB EVEYLQHEDYLYRTSKLKEIRDLGINPYPYQYTDCLEVQEIRNQFVDNELGDSEAAFRKETPKVRFAGRLVLFRSMGKNAFGQILDNDAKIQVMFNRDFSAVAGLAADAGISPIKFIEKKLDLGDILGLEGYLFFTHSGELTVLVETVTLLCKSLISLPDKHAGLADKEIRYRKRWADLISSEDVRKTFLTRSRILKLIREYMDQQSFLEVETPILQTVYGGAEATPFVTTLQALHAEMFLRISLEIALKKLLVGGMSRVYEIGKVFRNEGIDRTHNPEFTMIEAYAAYWDYNDVMKCVENLVEYIVRALNNGETQVQYSHLKSGPQVVDFKAPWIRMTMKESISVYGGVDVDLHADHELRKILETQTSLPEKTYVHASRGELIALLFDELVCDKLIAPHHITDHPLETTPLCKTLRSGDETLVERFESFCLGKELCNAYSELNDPLQQRKLLEEQMRKKALNPDSEYHPIDEEFLEALCQGMPPAGGFGIGIDRLVMMLTDAASIRDVLFFPVMRR EVEYLQHEDYLYRTSKLKEIRDLGINPYPYQYTDCLEVQEIRNQFVDNELGDSEAAFRKETPKVRFAGRLVLFRSMGKNAFGQILDNDAKIQVMFNRDFSAVAGLAADAGISPIKFIEKKLDLGDILGLEGYLFFTHSGELTVLVETVTLLCKSLISLPDKHAGLADKEIRYRKRWADLISSEDVRKTFLTRSRILKLIREYMDQQSFLEVETPILQTVYGGAEATPFVTTLQALHAEMFLRISLEIALKKLLVGGMSRVYEIGKVFRNEGIDRTHNPEFTMIEAYAAYWDYNDVMKCVENLVEYIVRALNNGETQVQYSHLKSGPQVVDFKAPWIRMTMKESISVYGGVDVDLHADHELRKILETQTSLPEKTYVHASRGELIALLFDELVCDKLIAPHHITDHPLETTPLCKTLRSGDETLVERFESFCLGKELCNAYSELNDPLQQRKLLEEQMRKKALNPDSEYHPIDEEFLEALCQGMPPAGGFGIGIDRLVMMLTDAASIRDVLFFPVMRR 6ns4-a1-m1-cB_6ns4-a1-m1-cA Crystal structure of fungal lipoxygenase from Fusarium graminearum. C2 crystal form. I1REW2 I1REW2 2.4 X-RAY DIFFRACTION 286 1.0 229533 (Fusarium graminearum PH-1) 229533 (Fusarium graminearum PH-1) 670 685 6ns5-a1-m1-cA_6ns5-a1-m1-cB 6ns6-a1-m1-cB_6ns6-a1-m1-cA VVPPRSKLDSILSSGLEHNIDHDPLEVWDKGVFLNELLKQGIALSTNENGTLDGELVADEGLKKGSYKGTRLALTEIYSILEDAAVSHFDKRGYEPIFPVKRELDLKKRIYQWSDGTDGYPPHLKVDSKIAQAVSFIIPKDIDHENTPYKGPTLADVEKFNKAQFPKADIMKGRNIGEYDDWYSDARFAQQHFSGVNPSTIETASQDKIKEYISEAQKQGLDKVKAILEDGKDILIQDYSYFREATGATNEQIFQNTVYELKGTTPTGKTTSRYAAASVVIFQLHEDGRLHPLAITLDYKGSLDNSITIFNRRLSPDDTCDIAEKEDWPWRYAKTVAQTADWARHEVATHLVDTHMIEEAIIVATNRIIPEGELLYEILSPHWFRTLSLNAAARKLLVPGVIARIAGFGPTSPSLDFKGNNAFKLIDWSYKNFNFQDKYIPNDLKKRGFDIKGDKSGKYKNYPYANDMYLLWGIIRNFVKTVIESQYTSDHVVQKDPYIGGWCKEIQTNGQIPTFPTITTVEQLIDAVTMCIHTASPQHTAVNYLQDYYYSFVPAKPPALCTPLPQDLSALQGYTEKDLTAALPIGTEDMKWKDWLLAAQLPELLSYDYNLITYAKSLYNVNKNFNCKTIKKAAADFYSHLKSAGVEFENYSKGQTAGTVEYPVLQPETT VVPPRSKLDSILSSGLEHNIDHDPLEVWDKGVFLNELLKQGIALSTNENGTLDGELVADEGLKKGSYKGTRLALTEIYSILEDAAVSHFDKRGYEPIFPVKRELDLKKRIYQWSDGTDGYPPHLKVDQIFDMQSKIAQAVSFIIPKDIDHENTPYKGPTLADVEKFNKAQFPKTADIMKGRNIGEYDDWYSDARFAQQHFSGVNPSTIETASQDKIKEYISEAQKQGLDKVKAILEDGKDILIQDYSYFREATGATNEQIFQNTVYELKGTTPTGKTTSRYAAASVVIFQLHEDGRLHPLAITLDYKGSLDNSITIFNRRLSPDDTCDIAEKEDWPWRYAKTVAQTADWARHEVATHLVDTHMIEEAIIVATNRIIPEGELLYEILSPHWFRTLSLNAAARKLLVPGVIARIAGFGPTSPSLDFKGNNAFKLIDWSYKNFNFQDKYIPNDLKKRGFDIKGDKSGKYKNYPYANDMYLLWGIIRNFVKTVIESQYTSDHVVQKDPYIGGWCKEIQTNGQIPTFPTITTVEQLIDAVTMCIHTASPQHTAVNYLQDYYYSFVPAKPPALCTPLPQDLSALQGYTEKDLTAALPIGTEDMKWKDWLLAAQLPELLSYDYNLITYAKSLYNVNKNRTITENTKFNCKTIKKAAADFYSHLKSAGVEFENYSKGQTAGTVEYPVLQPETT 6nsd-a1-m1-cB_6nsd-a1-m1-cA Tar14, tryptophan C-6 flavin-dependent halogenase (chlorinase) from taromycin biosynthesis W5VG40 W5VG40 1.74 X-RAY DIFFRACTION 125 1.0 498 503 KKRVVIVGGGTAGWMTASYLTAAFGDRVDLTVVESAQIGTIGVGEATFSDIRHFFEFLRLEESDWMPECNATYKLAVRFENWREPGHHFYHPFEQMSSVDGFPLSDWWLRNPTTSRFDKDSFVMTSLCDAGVSPRYLDGSLISTIAEYQGAQFPYAYHFEAHLLAKYLTGYATRRGTRHIVDNVVDVALDERGWISHVRTEEHGDLEADLFVDCTGFRGLLLNKALGEPFVSYQDTLPNDSAVALQVPEPIRPCTTATAQEAGWIWTIPLISRVGTGYVYASDYTTPEQAERVLRDFVGPAAADVPANHIKMRIGRSRRSWVNNCVGVGLSSGFVEPLESTGIFFIHHAIEQIVKYFPSGGAGDDRLRELYNRSVGHVMDGVREFLVLHYRSAKRADNQYWKDTKTRTVPDSLAERIEFWKHKVPDAETVYPYYHGLPPYSYNCILLGMGGIDVNYSPALDWANEKAALAEFERIRVKAEKLVQELPTQNEYFAAMRA KKRVVIVGGGTAGWMTASYLTAAFGDRVDLTVVESAQIGTIGVGEATFSDIRHFFEFLRLEESDWMPECNATYKLAVRFENWREPGHHFYHPFEQMSSVDGFPLSDWWLRNPTTSRFDKDSFVMTSLCDAGVSPRYLDGSLISTIAEYQGAQFPYAYHFEAHLLAKYLTGYATRRGTRHIVDNVVDVALDERGWISHVRTEEHGDLEADLFVDCTGFRGLLLNKALGEPFVSYQDTLPNDSAVALQVPLDMEREPIRPCTTATAQEAGWIWTIPLISRVGTGYVYASDYTTPEQAERVLRDFVGPAAADVPANHIKMRIGRSRRSWVNNCVGVGLSSGFVEPLESTGIFFIHHAIEQIVKYFPSGGAGDDRLRELYNRSVGHVMDGVREFLVLHYRSAKRADNQYWKDTKTRTVPDSLAERIEFWKHKVPDAETVYPYYHGLPPYSYNCILLGMGGIDVNYSPALDWANEKAALAEFERIRVKAEKLVQELPTQNEYFAAMRA 6nsn-a1-m1-cB_6nsn-a1-m1-cA TetR family transcriptional regulator CifR C99T-C181R Cysteines mutant complexed with 26bp double-strand operator DNA Q9HZR6 Q9HZR6 2.6 X-RAY DIFFRACTION 130 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 192 194 6nsm-a1-m1-cB_6nsm-a1-m1-cA 6nsr-a1-m1-cB_6nsr-a1-m1-cA GRPRAFDRDTALQRAMDVFWVRGYEGASLAALTEAMEIRPPSLYAAFGSKEGLFREALAHYLGQHGRYRRDVLDGAPSAREGVAELLRETVARFTSDEFPRGCLVVLAALTGTPESEAVRDALSAERGESIRLFRERMRRGIADGDLAADTDMEELATFYATVLFGLSVQAKDRVPRERLLAVVERALRAWP TRGRPRAFDRDTALQRAMDVFWVRGYEGASLAALTEAMEIRPPSLYAAFGSKEGLFREALAHYLGQHGRYRRDVLDGAPSAREGVAELLRETVARFTSDEFPRGCLVVLAALTGTPESEAVRDALSAERGESIRLFRERMRRGIADGDLAADTDMEELATFYATVLFGLSVQAKDRVPRERLLAVVERALRAWP 6nsr-a2-m1-cM_6nsr-a2-m2-cM TetR family transcriptional regulator CifR C99T-C181R cysteine mutant complexed with 26bp double-strand operator DNA and apo-CifR C99T-C181R Q9HZR6 Q9HZR6 3 X-RAY DIFFRACTION 95 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 183 183 FDRDTALQRADVFWVRGYEGASLAALTEAEIRPPSLYAAFGSKEGLFREALAHYLGQHGRYRRDVLDGAPSAREGVAELLRETVARFTSDEFPRGCLVVLAALTGTPESEAVRDALSAERGESIRLFRERRRGIADGDLAADTDEELATFYATVLFGLSVQAKDRVPRERLLAVVERALRAWP FDRDTALQRADVFWVRGYEGASLAALTEAEIRPPSLYAAFGSKEGLFREALAHYLGQHGRYRRDVLDGAPSAREGVAELLRETVARFTSDEFPRGCLVVLAALTGTPESEAVRDALSAERGESIRLFRERRRGIADGDLAADTDEELATFYATVLFGLSVQAKDRVPRERLLAVVERALRAWP 6nt6-a1-m1-cA_6nt6-a1-m1-cB Cryo-EM structure of full-length chicken STING in the apo state E1C7U0 E1C7U0 4.0 ELECTRON MICROSCOPY 256 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 278 278 PARLLIPEPRAGRARHAACVLLAVCFVVLFLAPIIRSVCTQLAALQLGVLLKGCCCLAEEIFHLHSRHHLWQVLCSCFPPRWYLALLLVGGSAYLTLSCLCQLLVLALGLQKLSAVEVSELTESSKKNVAHGLAWSYYIGYLKVVLPRLKECMEELSWKLHILVPLGCDIWDDLEKADSNIQYLADLPYKHSLYVIRLRPCVLEFASPLQTLCAMSQDDCAAFSREQRLEQARLFYRSLRDILGSSKECAGLYRLIAYEEFLSGLILWHLQQQQREEY PARLLIPEPRAGRARHAACVLLAVCFVVLFLAPIIRSVCTQLAALQLGVLLKGCCCLAEEIFHLHSRHHLWQVLCSCFPPRWYLALLLVGGSAYLTLSCLCQLLVLALGLQKLSAVEVSELTESSKKNVAHGLAWSYYIGYLKVVLPRLKECMEELSWKLHILVPLGCDIWDDLEKADSNIQYLADLPYKHSLYVIRLRPCVLEFASPLQTLCAMSQDDCAAFSREQRLEQARLFYRSLRDILGSSKECAGLYRLIAYEEFLSGLILWHLQQQQREEY 6nt8-a1-m1-cD_6nt8-a1-m1-cE Cryo-EM structure of full-length chicken STING in the cGAMP-bound tetrameric state E1C7U0 E1C7U0 6.5 ELECTRON MICROSCOPY 298 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 294 294 6nt7-a1-m1-cA_6nt7-a1-m1-cB 6nt8-a1-m1-cA_6nt8-a1-m1-cB PARLLIPEPRAGRARHAACVLLAVCFVVLFLAPIIRSVCTQLAALQLGVLLKGCCCLAEEIFHLHSRHHLWQVLCSCFPPRWYLALLLVGGSLTLSCLCQLLVLALGLQKLSAVEVSELTESSKKNVAHGLAWSYYIGYLKVVLPRLKECMEELSRTHRDTWKLHILVPLGCDIWDDLEKADSNIQYLADLPETILTRAGIKRRVYKHSLYVIRDLRPCVLEFASPLQTLCAMSQDDCAAFSREQRLEQARLFYRSLRDILGSSKECAGLYRLIAYEEPHFLSGLILWHLQQQQ PARLLIPEPRAGRARHAACVLLAVCFVVLFLAPIIRSVCTQLAALQLGVLLKGCCCLAEEIFHLHSRHHLWQVLCSCFPPRWYLALLLVGGSLTLSCLCQLLVLALGLQKLSAVEVSELTESSKKNVAHGLAWSYYIGYLKVVLPRLKECMEELSRTHRDTWKLHILVPLGCDIWDDLEKADSNIQYLADLPETILTRAGIKRRVYKHSLYVIRDLRPCVLEFASPLQTLCAMSQDDCAAFSREQRLEQARLFYRSLRDILGSSKECAGLYRLIAYEEPHFLSGLILWHLQQQQ 6ntf-a1-m2-cA_6ntf-a1-m3-cA Crystal structure of a computationally optimized H5 influenza hemagglutinin 2.8 X-RAY DIFFRACTION 107 1.0 11309 (unidentified influenza virus) 11309 (unidentified influenza virus) 491 491 3fku-a1-m1-cB_3fku-a1-m1-cD 3fku-a1-m1-cB_3fku-a1-m1-cF 3fku-a1-m1-cD_3fku-a1-m1-cF 3gbm-a1-m1-cB_3gbm-a1-m2-cB 3gbm-a1-m1-cB_3gbm-a1-m3-cB 3gbm-a1-m2-cB_3gbm-a1-m3-cB 3s11-a1-m1-cB_3s11-a1-m1-cD 3s11-a1-m1-cB_3s11-a1-m1-cF 3s11-a1-m1-cD_3s11-a1-m1-cF 3zpb-a1-m1-cF_3zpb-a1-m2-cF 3zpb-a1-m1-cF_3zpb-a1-m3-cF 3zpb-a1-m2-cF_3zpb-a1-m3-cF 4jum-a1-m1-cB_4jum-a1-m2-cB 4jum-a1-m1-cB_4jum-a1-m3-cB 4jum-a1-m2-cB_4jum-a1-m3-cB 4k62-a1-m1-cB_4k62-a1-m2-cB 4k62-a1-m1-cB_4k62-a1-m3-cB 4k62-a1-m2-cB_4k62-a1-m3-cB 4k62-a2-m1-cD_4k62-a2-m4-cD 4k62-a2-m1-cD_4k62-a2-m5-cD 4k62-a2-m4-cD_4k62-a2-m5-cD 4k62-a3-m1-cF_4k62-a3-m6-cF 4k62-a3-m1-cF_4k62-a3-m7-cF 4k62-a3-m6-cF_4k62-a3-m7-cF 4k62-a4-m1-cH_4k62-a4-m6-cH 4k62-a4-m1-cH_4k62-a4-m7-cH 4k62-a4-m6-cH_4k62-a4-m7-cH 4k63-a1-m1-cB_4k63-a1-m2-cB 4k63-a1-m1-cB_4k63-a1-m3-cB 4k63-a1-m2-cB_4k63-a1-m3-cB 4k63-a2-m1-cD_4k63-a2-m4-cD 4k63-a2-m1-cD_4k63-a2-m5-cD 4k63-a2-m4-cD_4k63-a2-m5-cD 4k63-a3-m1-cF_4k63-a3-m6-cF 4k63-a3-m1-cF_4k63-a3-m7-cF 4k63-a3-m6-cF_4k63-a3-m7-cF 4k63-a4-m1-cH_4k63-a4-m4-cH 4k63-a4-m1-cH_4k63-a4-m5-cH 4k63-a4-m4-cH_4k63-a4-m5-cH 4k64-a1-m1-cB_4k64-a1-m2-cB 4k64-a1-m1-cB_4k64-a1-m3-cB 4k64-a1-m2-cB_4k64-a1-m3-cB 4k64-a2-m1-cD_4k64-a2-m4-cD 4k64-a2-m1-cD_4k64-a2-m5-cD 4k64-a2-m4-cD_4k64-a2-m5-cD 4k64-a3-m1-cF_4k64-a3-m6-cF 4k64-a3-m1-cF_4k64-a3-m7-cF 4k64-a3-m6-cF_4k64-a3-m7-cF 4k64-a4-m1-cH_4k64-a4-m8-cH 4k64-a4-m1-cH_4k64-a4-m9-cH 4k64-a4-m8-cH_4k64-a4-m9-cH 4k65-a1-m1-cB_4k65-a1-m2-cB 4k65-a1-m1-cB_4k65-a1-m3-cB 4k65-a1-m2-cB_4k65-a1-m3-cB 4k65-a2-m1-cD_4k65-a2-m4-cD 4k65-a2-m1-cD_4k65-a2-m5-cD 4k65-a2-m4-cD_4k65-a2-m5-cD 4k65-a3-m1-cF_4k65-a3-m6-cF 4k65-a3-m1-cF_4k65-a3-m7-cF 4k65-a3-m6-cF_4k65-a3-m7-cF 4k65-a4-m1-cH_4k65-a4-m6-cH 4k65-a4-m1-cH_4k65-a4-m7-cH 4k65-a4-m6-cH_4k65-a4-m7-cH 4k66-a1-m1-cB_4k66-a1-m2-cB 4k66-a1-m1-cB_4k66-a1-m3-cB 4k66-a1-m2-cB_4k66-a1-m3-cB 4k66-a2-m1-cD_4k66-a2-m4-cD 4k66-a2-m1-cD_4k66-a2-m5-cD 4k66-a2-m4-cD_4k66-a2-m5-cD 4k66-a3-m1-cF_4k66-a3-m6-cF 4k66-a3-m1-cF_4k66-a3-m7-cF 4k66-a3-m6-cF_4k66-a3-m7-cF 4k66-a4-m1-cH_4k66-a4-m6-cH 4k66-a4-m1-cH_4k66-a4-m7-cH 4k66-a4-m6-cH_4k66-a4-m7-cH 4k67-a1-m1-cB_4k67-a1-m2-cB 4k67-a1-m1-cB_4k67-a1-m3-cB 4k67-a1-m2-cB_4k67-a1-m3-cB 4k67-a2-m1-cD_4k67-a2-m2-cD 4k67-a2-m1-cD_4k67-a2-m3-cD 4k67-a2-m2-cD_4k67-a2-m3-cD 4k67-a3-m1-cF_4k67-a3-m4-cF 4k67-a3-m1-cF_4k67-a3-m5-cF 4k67-a3-m4-cF_4k67-a3-m5-cF 4k67-a4-m1-cH_4k67-a4-m6-cH 4k67-a4-m1-cH_4k67-a4-m7-cH 4k67-a4-m6-cH_4k67-a4-m7-cH 4kdm-a1-m1-cB_4kdm-a1-m1-cD 4kdm-a1-m1-cB_4kdm-a1-m1-cF 4kdm-a1-m1-cD_4kdm-a1-m1-cF 4kdn-a1-m1-cB_4kdn-a1-m1-cD 4kdn-a1-m1-cB_4kdn-a1-m1-cF 4kdn-a1-m1-cD_4kdn-a1-m1-cF 4kdo-a1-m1-cB_4kdo-a1-m1-cD 4kdo-a1-m1-cB_4kdo-a1-m1-cF 4kdo-a1-m1-cD_4kdo-a1-m1-cF 4kw1-a2-m1-cD_4kw1-a2-m4-cD 4kw1-a2-m1-cD_4kw1-a2-m5-cD 4kw1-a2-m4-cD_4kw1-a2-m5-cD 4kw1-a3-m1-cF_4kw1-a3-m2-cF 4kw1-a3-m1-cF_4kw1-a3-m3-cF 4kw1-a3-m2-cF_4kw1-a3-m3-cF 4mhh-a1-m1-cB_4mhh-a1-m1-cD 4mhh-a1-m1-cB_4mhh-a1-m1-cF 4mhh-a1-m1-cD_4mhh-a1-m1-cF 4mhh-a2-m1-cB_4mhh-a2-m1-cD 4mhh-a2-m1-cB_4mhh-a2-m1-cF 4mhh-a2-m1-cD_4mhh-a2-m1-cF 4mhi-a1-m1-cB_4mhi-a1-m1-cD 4mhi-a1-m1-cB_4mhi-a1-m1-cF 4mhi-a1-m1-cD_4mhi-a1-m1-cF 4mhi-a2-m1-cH_4mhi-a2-m1-cJ 4mhi-a2-m1-cH_4mhi-a2-m1-cL 4mhi-a2-m1-cJ_4mhi-a2-m1-cL 4mhi-a3-m1-cN_4mhi-a3-m1-cP 4mhi-a3-m1-cN_4mhi-a3-m1-cR 4mhi-a3-m1-cP_4mhi-a3-m1-cR 4mhj-a2-m1-cN_4mhj-a2-m1-cP 4mhj-a2-m1-cN_4mhj-a2-m1-cU 4mhj-a4-m1-cN_4mhj-a4-m1-cP 4mhj-a4-m1-cN_4mhj-a4-m1-cU 4n5y-a1-m1-cB_4n5y-a1-m1-cH 4n5y-a1-m1-cB_4n5y-a1-m1-cJ 4n5y-a1-m1-cH_4n5y-a1-m1-cJ 4n5y-a2-m1-cD_4n5y-a2-m1-cF 4n5y-a2-m1-cD_4n5y-a2-m1-cL 4n5y-a2-m1-cF_4n5y-a2-m1-cL 4n5y-a3-m1-cN_4n5y-a3-m1-cP 4n5y-a3-m1-cN_4n5y-a3-m1-cR 4n5y-a3-m1-cP_4n5y-a3-m1-cR 4n5y-a4-m1-cT_4n5y-a4-m1-cV 4n5y-a4-m1-cT_4n5y-a4-m1-cX 4n5y-a4-m1-cV_4n5y-a4-m1-cX 4n5y-a5-m1-cb_4n5y-a5-m1-cd 4n5y-a5-m1-cZ_4n5y-a5-m1-cb 4n5y-a5-m1-cZ_4n5y-a5-m1-cd 4n5z-a1-m1-cB_4n5z-a1-m1-cH 4n5z-a1-m1-cB_4n5z-a1-m1-cJ 4n5z-a1-m1-cH_4n5z-a1-m1-cJ 4n5z-a2-m1-cD_4n5z-a2-m1-cF 4n5z-a2-m1-cD_4n5z-a2-m1-cL 4n5z-a2-m1-cF_4n5z-a2-m1-cL 4n5z-a3-m1-cN_4n5z-a3-m1-cP 4n5z-a3-m1-cN_4n5z-a3-m1-cR 4n5z-a3-m1-cP_4n5z-a3-m1-cR 4n5z-a4-m1-cT_4n5z-a4-m1-cV 4n5z-a4-m1-cT_4n5z-a4-m1-cX 4n5z-a4-m1-cV_4n5z-a4-m1-cX 4n5z-a5-m1-cb_4n5z-a5-m1-cd 4n5z-a5-m1-cZ_4n5z-a5-m1-cb 4n5z-a5-m1-cZ_4n5z-a5-m1-cd 5e32-a1-m1-cB_5e32-a1-m2-cB 5e32-a1-m1-cB_5e32-a1-m3-cB 5e32-a1-m2-cB_5e32-a1-m3-cB 5e34-a1-m1-cB_5e34-a1-m2-cB 5e34-a1-m1-cB_5e34-a1-m3-cB 5e34-a1-m2-cB_5e34-a1-m3-cB 5huf-a1-m1-cB_5huf-a1-m1-cD 5huf-a1-m1-cB_5huf-a1-m1-cF 5huf-a1-m1-cD_5huf-a1-m1-cF 6ntf-a1-m1-cA_6ntf-a1-m2-cA 6ntf-a1-m1-cA_6ntf-a1-m3-cA DQICIGYHANNSTEQVDTIMEKNVTVTHAQDILEKTHNGKLCDLDGVKPLILRDCSVAGWLLGNPMCDEFINVPEWSYIVEKANPANDLCFPGNFNDYEELKHLLSRINHFEKIQIIPKSSWSDHEASSGVSSACPYQGSPSFFRNVVWLIKKNNTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTRLYQNPTTYISVGTSTLNQRLVPKIATRSKVNGQSGRMEFFWTILKPNDAINFESNGNFIAPEYAYKIVKKGDSAIMKSELEYGNCNTKCQTPIGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNSPLFGAIAGFIEGGWQGMVDGWYGYHHSNEQGSGYAADKESTQKAIDGVTNKVNSIIDKMNTQFEAVGREFNNLERRIENLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRLQLRDNAKELGNGCFEFYHKCDNECMESVRNGTYDYPQYSEEARLKRE DQICIGYHANNSTEQVDTIMEKNVTVTHAQDILEKTHNGKLCDLDGVKPLILRDCSVAGWLLGNPMCDEFINVPEWSYIVEKANPANDLCFPGNFNDYEELKHLLSRINHFEKIQIIPKSSWSDHEASSGVSSACPYQGSPSFFRNVVWLIKKNNTYPTIKRSYNNTNQEDLLVLWGIHHPNDAAEQTRLYQNPTTYISVGTSTLNQRLVPKIATRSKVNGQSGRMEFFWTILKPNDAINFESNGNFIAPEYAYKIVKKGDSAIMKSELEYGNCNTKCQTPIGAINSSMPFHNIHPLTIGECPKYVKSNRLVLATGLRNSPLFGAIAGFIEGGWQGMVDGWYGYHHSNEQGSGYAADKESTQKAIDGVTNKVNSIIDKMNTQFEAVGREFNNLERRIENLNKKMEDGFLDVWTYNAELLVLMENERTLDFHDSNVKNLYDKVRLQLRDNAKELGNGCFEFYHKCDNECMESVRNGTYDYPQYSEEARLKRE 6nu8-a1-m1-cA_6nu8-a1-m2-cA Structure of sucrose-6-phosphate hydrolase from Lactobacillus gasseri in complex with fructose D1YK18 D1YK18 1.8 X-RAY DIFFRACTION 125 1.0 679196 (Lactobacillus gasseri 224-1) 679196 (Lactobacillus gasseri 224-1) 488 488 6nu7-a1-m1-cA_6nu7-a1-m2-cA EWTREQRYRKYKDWDAQTLLDLQAQAATSPYQMHYHIHPLSGLLNDPNGFSYYNGEYHLFCQSYPFGPVHGVKSWIHFASPDLVHWHYLGPAIDPDSDLDNAGAYSGSAMEHNGKLLLMYTGNHRDEDWTRIPYQVIAEMDENNHITKPDAAAILPPEHVSEHFRDPQLFKHDGKYYVLLGAQDAETKSGHIDIYESDDLKTWHENGYLDLGKDEMGYMIECPNLVFVNNYPVLIFCPQGLDKAISDYQNIYPNMYWIGKDINLNEAKFTPLQSHPANLDDGFDVYATQAFNAPDGNAYAISWVGLPDCTYPTDKENWANCYSQVKRLEIKDGALYQHPVDAIKNLRHNETQLNDEKIISQKAGKQYELKLYLAAGQAGKLHLASNDDLSASLVIDFNTAQDAKLTIDRASSGPAVNPDYGATRTIGLNDNEDLDLDIFVDGSLCEIFINDGRHVATLRFFARSSNQKIAFDKDTKYTGRLWSMNSIL EWTREQRYRKYKDWDAQTLLDLQAQAATSPYQMHYHIHPLSGLLNDPNGFSYYNGEYHLFCQSYPFGPVHGVKSWIHFASPDLVHWHYLGPAIDPDSDLDNAGAYSGSAMEHNGKLLLMYTGNHRDEDWTRIPYQVIAEMDENNHITKPDAAAILPPEHVSEHFRDPQLFKHDGKYYVLLGAQDAETKSGHIDIYESDDLKTWHENGYLDLGKDEMGYMIECPNLVFVNNYPVLIFCPQGLDKAISDYQNIYPNMYWIGKDINLNEAKFTPLQSHPANLDDGFDVYATQAFNAPDGNAYAISWVGLPDCTYPTDKENWANCYSQVKRLEIKDGALYQHPVDAIKNLRHNETQLNDEKIISQKAGKQYELKLYLAAGQAGKLHLASNDDLSASLVIDFNTAQDAKLTIDRASSGPAVNPDYGATRTIGLNDNEDLDLDIFVDGSLCEIFINDGRHVATLRFFARSSNQKIAFDKDTKYTGRLWSMNSIL 6nue-a1-m1-cB_6nue-a1-m1-cM Small conformation of apo CRISPR_Csm complex A0A0A7HIX1 A0A0A7HIX1 3.3 ELECTRON MICROSCOPY 28 1.0 1308 (Streptococcus thermophilus) 1308 (Streptococcus thermophilus) 108 108 6nud-a1-m1-cA_6nud-a1-m1-cM 6nud-a1-m1-cB_6nud-a1-m1-cM 6nue-a1-m1-cA_6nue-a1-m1-cM KAERAISLLEKDNKGNYLLTTSQIRKLLSLCSSLYDRSKERKFDELINDVSYLRVQFVYQAGREIAVKDLIEKAQILEALKEIKDRETLQRFCRYMEALVAYFKFYGG KAERAISLLEKDNKGNYLLTTSQIRKLLSLCSSLYDRSKERKFDELINDVSYLRVQFVYQAGREIAVKDLIEKAQILEALKEIKDRETLQRFCRYMEALVAYFKFYGG 6nvf-a2-m1-cD_6nvf-a2-m1-cC Crystal structure of Mycobacterium tuberculosis dethiobiotin synthetase in complex with fragment analogue 8 P9WPQ5 P9WPQ5 1.989 X-RAY DIFFRACTION 93 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 227 229 3fgn-a1-m1-cB_3fgn-a1-m1-cA 3fgn-a2-m1-cD_3fgn-a2-m1-cC 3fmf-a1-m1-cB_3fmf-a1-m1-cA 3fmf-a2-m1-cD_3fmf-a2-m1-cC 3fmi-a1-m1-cB_3fmi-a1-m1-cA 3fmi-a2-m1-cD_3fmi-a2-m1-cC 3fpa-a1-m1-cB_3fpa-a1-m1-cA 3fpa-a1-m2-cD_3fpa-a1-m2-cC 3fpa-a2-m1-cB_3fpa-a2-m1-cA 3fpa-a3-m1-cD_3fpa-a3-m1-cC 4wop-a1-m1-cA_4wop-a1-m1-cB 4wop-a2-m1-cC_4wop-a2-m1-cD 6cve-a1-m1-cB_6cve-a1-m1-cA 6cve-a2-m1-cD_6cve-a2-m1-cC 6cvf-a1-m1-cB_6cvf-a1-m1-cA 6cvf-a2-m1-cD_6cvf-a2-m1-cC 6cvu-a1-m1-cB_6cvu-a1-m1-cA 6cvu-a2-m1-cD_6cvu-a2-m1-cC 6cvv-a1-m1-cB_6cvv-a1-m1-cA 6cvv-a2-m1-cD_6cvv-a2-m1-cC 6czb-a1-m1-cB_6czb-a1-m1-cA 6czb-a2-m1-cD_6czb-a2-m1-cC 6czc-a1-m1-cB_6czc-a1-m1-cA 6czc-a2-m1-cD_6czc-a2-m1-cC 6czd-a1-m1-cB_6czd-a1-m1-cA 6czd-a2-m1-cD_6czd-a2-m1-cC 6cze-a1-m1-cB_6cze-a1-m1-cA 6cze-a2-m1-cD_6cze-a2-m1-cC 6e05-a1-m1-cB_6e05-a1-m1-cA 6e05-a2-m1-cD_6e05-a2-m1-cC 6e06-a1-m1-cB_6e06-a1-m1-cA 6e06-a2-m1-cD_6e06-a2-m1-cC 6nka-a1-m1-cB_6nka-a1-m1-cA 6nka-a2-m1-cD_6nka-a2-m1-cC 6nkb-a1-m1-cB_6nkb-a1-m1-cA 6nkb-a2-m1-cC_6nkb-a2-m1-cD 6nl4-a1-m1-cB_6nl4-a1-m1-cA 6nl4-a2-m1-cC_6nl4-a2-m1-cD 6nl5-a1-m1-cB_6nl5-a1-m1-cA 6nl5-a2-m1-cD_6nl5-a2-m1-cC 6nlz-a1-m1-cB_6nlz-a1-m1-cA 6nlz-a2-m1-cD_6nlz-a2-m1-cC 6nmz-a1-m1-cB_6nmz-a1-m1-cA 6nmz-a2-m1-cD_6nmz-a2-m1-cC 6nn0-a1-m1-cB_6nn0-a1-m1-cA 6nn0-a2-m1-cC_6nn0-a2-m1-cD 6nnz-a1-m1-cB_6nnz-a1-m1-cA 6nnz-a2-m1-cC_6nnz-a2-m1-cD 6nu6-a1-m1-cB_6nu6-a1-m1-cA 6nu6-a2-m1-cD_6nu6-a2-m1-cC 6nvc-a1-m1-cB_6nvc-a1-m1-cA 6nvc-a2-m1-cD_6nvc-a2-m1-cC 6nvd-a1-m1-cB_6nvd-a1-m1-cA 6nvd-a2-m1-cC_6nvd-a2-m1-cD 6nve-a1-m1-cB_6nve-a1-m1-cA 6nve-a2-m1-cD_6nve-a2-m1-cC 6nvf-a1-m1-cB_6nvf-a1-m1-cA 6nwg-a1-m1-cB_6nwg-a1-m1-cA 6nwg-a2-m1-cD_6nwg-a2-m1-cC 6nwn-a1-m1-cB_6nwn-a1-m1-cA 6nwn-a2-m1-cD_6nwn-a2-m1-cC 7jt5-a1-m1-cB_7jt5-a1-m1-cA 7jt5-a2-m1-cD_7jt5-a2-m1-cC 7jt6-a1-m1-cB_7jt6-a1-m1-cA 7jt6-a2-m1-cD_7jt6-a2-m1-cC 7l1j-a1-m1-cB_7l1j-a1-m1-cA 7l1j-a2-m1-cD_7l1j-a2-m1-cC HGGTILVVTGTGTGVGKTVVCAALASAARQAGIDVAVCKPVQTGTARGDDDLAEVGRLAGVTQLAGLARYPQPMAPAAAAEHAGMALPARDQIVRLIADLDRPGRLTLVEGAGGLLVELAEPGVTLRDVAVDVAAAALVVVTADLGTLNHTKLTLEALAAQQVSCAGLVIGSWPDPPGLVAASNRSALARIAMVRAALPAGAASLDAGDFAAMSAAAFDRNWVAGLV HHGGTILVVTGTGTGVGKTVVCAALASAARQAGIDVAVCKPVQTGTARGDDDLAEVGRLAGVTQLAGLARYPQPMAPAAAAEHAGMALPARDQIVRLIADLDRPGRLTLVEGAGGLLVELAEPGVTLRDVAVDVAAAALVVVTADLGTLNHTKLTLEALAAQQVSCAGLVIGSWPDPPGLVAASNRSALARIAMVRAALPAGAASLDAGDFAAMSAAAFDRNWVAGLVG 6nwd-a1-m1-cA_6nwd-a1-m2-cA X-ray Crystallographic structure of Gloeobacter rhodopsin Q7NP59 Q7NP59 2 X-RAY DIFFRACTION 26 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 246 246 DSLTYGQFNLVYNAFSFAIAAMFASALFFFSAQALVGQRYRLALLVSAIVVSIAGYHYFRIFNSWDAAYVLENGVYSLTSEKFNDAYRYVDWLLTVPLLLVETVAVLTLPAKEARPLLIKLTVASVLMIATGYPGEISDDITTRIIWGTVSTIPFAYILYVLWVELSRSLVRQPAAVQTLVRNMRWLLLLSWGVYPIAYLLPMLGVSGTSAAVGVQVGYTIADVLAKPVFGLLVFAIALVKTKADQ DSLTYGQFNLVYNAFSFAIAAMFASALFFFSAQALVGQRYRLALLVSAIVVSIAGYHYFRIFNSWDAAYVLENGVYSLTSEKFNDAYRYVDWLLTVPLLLVETVAVLTLPAKEARPLLIKLTVASVLMIATGYPGEISDDITTRIIWGTVSTIPFAYILYVLWVELSRSLVRQPAAVQTLVRNMRWLLLLSWGVYPIAYLLPMLGVSGTSAAVGVQVGYTIADVLAKPVFGLLVFAIALVKTKADQ 6nwm-a1-m1-cA_6nwm-a1-m1-cB Structures of the transcriptional regulator BgaR, a lactose sensor. Q8XMB9 Q8XMB9 2.11 X-RAY DIFFRACTION 47 1.0 195102 (Clostridium perfringens str. 13) 195102 (Clostridium perfringens str. 13) 162 162 6nwh-a1-m1-cA_6nwh-a1-m1-cB 6nwj-a1-m1-cB_6nwj-a1-m1-cA 6nwo-a1-m1-cA_6nwo-a1-m1-cD 6nwo-a2-m1-cB_6nwo-a2-m1-cC 6nx3-a1-m1-cA_6nx3-a1-m1-cD 6nx3-a2-m1-cB_6nx3-a2-m2-cF 6nx3-a3-m1-cC_6nx3-a3-m1-cE MQILWKKYVKENFEMNVDECGIEQGIPGLGYNYEVLKNAVIHYVTKGYGTFKFNGKVYNLKQGDIFILLKGMQVEYVASIDDPWEYYWIGFSGSNANEYLNRTSITNSCVANCEENSKIPQIILNMCEISKTYNPSRSDDILLLKELYSLLYALIEEFPKPF MQILWKKYVKENFEMNVDECGIEQGIPGLGYNYEVLKNAVIHYVTKGYGTFKFNGKVYNLKQGDIFILLKGMQVEYVASIDDPWEYYWIGFSGSNANEYLNRTSITNSCVANCEENSKIPQIILNMCEISKTYNPSRSDDILLLKELYSLLYALIEEFPKPF 6nwx-a1-m1-cA_6nwx-a1-m1-cB Structure of mouse GILT, an enzyme involved in antigen processing Q9ESY9 Q9ESY9 2 X-RAY DIFFRACTION 69 1.0 10090 (Mus musculus) 10090 (Mus musculus) 189 193 PLPPSPPVRVSLYYESLCGACRYFLVRDLFPTWLMVMEIMNITLVPYGNAQERNVSGTWEFTCQHGELECRLNMVEACLLDKLEKEAAFLTIVCMEEMDDMEKKLGPCLQVYAPEVSPESIMECATGKRGTQLMHENAQLTDALHPPHEYVPWVLVNEKPLKDPSELLSIVCQLYQGTEKPDICSSIAD AGPRPLPPSPPVRVSLYYESLCGACRYFLVRDLFPTWLMVMEIMNITLVPYGNAQERNVSGTWEFTCQHGELECRLNMVEACLLDKLEKEAAFLTIVCMEEMDDMEKKLGPCLQVYAPEVSPESIMECATGKRGTQLMHENAQLTDALHPPHEYVPWVLVNEKPLKDPSELLSIVCQLYQGTEKPDICSSIAD 6nx5-a2-m1-cC_6nx5-a2-m1-cD Crystal structure of the RRM domain of S. pombe Puf1 in the P21 space group O60059 O60059 1.554 X-RAY DIFFRACTION 44 0.986 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 74 75 6nww-a1-m1-cA_6nww-a1-m1-cB 6nww-a2-m1-cD_6nww-a2-m1-cC 6nx5-a1-m1-cB_6nx5-a1-m1-cA SMLYVSNLPVGTSSSAIHALFSAYGNVKDIWMLSNSAIVSYESLSSAIVARDALHNRPVFENHGPVQVMLAKPS SMLYVSNLPVGTSSSAIHALFSAYGNVKDIWMLSPDNSAIVSYESLSSAIVARDALHNRPVFENHGPVQVMLAKP 6nxl-a3-m1-cC_6nxl-a3-m1-cD Ubiquitin binding variants B4DV12 B4DV12 2.803 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 74 6nxl-a1-m1-cA_6nxl-a1-m1-cE 6nxl-a2-m1-cB_6nxl-a2-m1-cF 6nxl-a4-m1-cG_6nxl-a4-m1-cH MQIFVDTVQWKTITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIQKESALILLLTL MQIFVDTVQWKTITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIQKESALILLLTLR 6nxq-a1-m1-cA_6nxq-a1-m2-cA Crystal structure of Arabidopsis thaliana cytosolic triosephosphate isomerase C13A mutant P48491 P48491 1.96 X-RAY DIFFRACTION 123 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 249 249 4obt-a1-m1-cA_4obt-a1-m1-cB 6nxr-a1-m1-cA_6nxr-a1-m2-cA 6nxs-a1-m1-cB_6nxs-a1-m1-cA 6nxw-a1-m1-cA_6nxw-a1-m2-cC 6nxw-a2-m1-cB_6nxw-a2-m1-cD 6nxx-a1-m1-cA_6nxx-a1-m1-cB 6nxy-a1-m1-cA_6nxy-a1-m2-cA ARKFFVGGNWKANGTAEEVKKIVNTLNEAQVPSQDVVEVVVSPPYVFLPLVKSTLRSDFFVAAQNCWVKKGGAFTGEVSAEMLVNLDIPWVILGHSERRAILNESSEFVGDKVAYALAQGLKVIACVGETLEEREAGSTMDVVAAQTKAIADRVTNWSNVVIAYEPVWAIGTGKVASPAQAQEVHDELRKWLAKNVSADVAATTRIIYGGSVNGGNCKELGGQADVDGFLVGGASLKPEFIDIIKAAEV ARKFFVGGNWKANGTAEEVKKIVNTLNEAQVPSQDVVEVVVSPPYVFLPLVKSTLRSDFFVAAQNCWVKKGGAFTGEVSAEMLVNLDIPWVILGHSERRAILNESSEFVGDKVAYALAQGLKVIACVGETLEEREAGSTMDVVAAQTKAIADRVTNWSNVVIAYEPVWAIGTGKVASPAQAQEVHDELRKWLAKNVSADVAATTRIIYGGSVNGGNCKELGGQADVDGFLVGGASLKPEFIDIIKAAEV 6nxz-a1-m1-cA_6nxz-a1-m4-cA Crystal structure of trimethoprim-resistant type II dihydrofolate reductase in complex with a bisbenzimidazole inhibitor P00383 P00383 1.75 X-RAY DIFFRACTION 41 1.0 562 (Escherichia coli) 562 (Escherichia coli) 56 56 1vie-a1-m1-cA_1vie-a1-m2-cA 1vie-a1-m3-cA_1vie-a1-m4-cA 1vif-a1-m1-cA_1vif-a1-m2-cA 1vif-a1-m3-cA_1vif-a1-m4-cA 2gqv-a1-m1-cA_2gqv-a1-m4-cA 2gqv-a1-m2-cA_2gqv-a1-m3-cA 2p4t-a1-m1-cA_2p4t-a1-m4-cA 2p4t-a1-m2-cA_2p4t-a1-m3-cA 2rh2-a1-m1-cA_2rh2-a1-m3-cA 2rh2-a1-m2-cA_2rh2-a1-m4-cA 2rk1-a1-m1-cA_2rk1-a1-m4-cA 2rk1-a1-m2-cA_2rk1-a1-m3-cA 2rk2-a1-m1-cA_2rk2-a1-m4-cA 2rk2-a1-m2-cA_2rk2-a1-m3-cA 3sfm-a1-m1-cA_3sfm-a1-m4-cA 3sfm-a1-m2-cA_3sfm-a1-m3-cA 6nxz-a1-m2-cA_6nxz-a1-m3-cA 6ny0-a1-m1-cA_6ny0-a1-m4-cA 6ny0-a1-m2-cA_6ny0-a1-m3-cA ATFGMGDRVRKKSGAAWQGQIVGWYCTNLTPEGYAVESEAHPGSVQIYPVAALERI ATFGMGDRVRKKSGAAWQGQIVGWYCTNLTPEGYAVESEAHPGSVQIYPVAALERI 6nxz-a1-m2-cA_6nxz-a1-m4-cA Crystal structure of trimethoprim-resistant type II dihydrofolate reductase in complex with a bisbenzimidazole inhibitor P00383 P00383 1.75 X-RAY DIFFRACTION 46 1.0 562 (Escherichia coli) 562 (Escherichia coli) 56 56 1vie-a1-m1-cA_1vie-a1-m3-cA 1vie-a1-m2-cA_1vie-a1-m4-cA 1vif-a1-m1-cA_1vif-a1-m3-cA 1vif-a1-m2-cA_1vif-a1-m4-cA 2gqv-a1-m1-cA_2gqv-a1-m3-cA 2gqv-a1-m2-cA_2gqv-a1-m4-cA 2p4t-a1-m1-cA_2p4t-a1-m2-cA 2p4t-a1-m3-cA_2p4t-a1-m4-cA 2rh2-a1-m1-cA_2rh2-a1-m2-cA 2rh2-a1-m3-cA_2rh2-a1-m4-cA 2rh2-a2-m1-cA_2rh2-a2-m2-cA 2rk1-a1-m1-cA_2rk1-a1-m3-cA 2rk1-a1-m2-cA_2rk1-a1-m4-cA 2rk2-a1-m1-cA_2rk2-a1-m3-cA 2rk2-a1-m2-cA_2rk2-a1-m4-cA 3sfm-a1-m1-cA_3sfm-a1-m3-cA 3sfm-a1-m2-cA_3sfm-a1-m4-cA 6nxz-a1-m1-cA_6nxz-a1-m3-cA 6ny0-a1-m1-cA_6ny0-a1-m3-cA 6ny0-a1-m2-cA_6ny0-a1-m4-cA ATFGMGDRVRKKSGAAWQGQIVGWYCTNLTPEGYAVESEAHPGSVQIYPVAALERI ATFGMGDRVRKKSGAAWQGQIVGWYCTNLTPEGYAVESEAHPGSVQIYPVAALERI 6ny9-a1-m2-cB_6ny9-a1-m3-cB Alpha/beta hydrolase domain-containing protein 10 from mouse Q6PE15 Q6PE15 1.66 X-RAY DIFFRACTION 28 1.0 10090 (Mus musculus) 10090 (Mus musculus) 250 250 6ny9-a1-m1-cB_6ny9-a1-m2-cB 6ny9-a1-m1-cB_6ny9-a1-m3-cB ASLSFLNRSELPNLAYKRLKGKTPGIIFIPGYLSNMNGIKAVAVEEFCKSLGHAFIRFDYSGIGSSDGNLAECTVGKWRKDVLSILDDVAEGPQILVGSSLGGWLMLHAAIARPEKVIALIGIATAADGLVTQYHALPVETQKEIEMKGEWTLPSRYNKEGYFRIPYSFIKEAEHHCLLHSPIPVTCPVRLLHGMKDEIVPWQRSLQVADRIVSPDVDVILRKQGDHRMKEKADIHLLICTIDDLIDKLS ASLSFLNRSELPNLAYKRLKGKTPGIIFIPGYLSNMNGIKAVAVEEFCKSLGHAFIRFDYSGIGSSDGNLAECTVGKWRKDVLSILDDVAEGPQILVGSSLGGWLMLHAAIARPEKVIALIGIATAADGLVTQYHALPVETQKEIEMKGEWTLPSRYNKEGYFRIPYSFIKEAEHHCLLHSPIPVTCPVRLLHGMKDEIVPWQRSLQVADRIVSPDVDVILRKQGDHRMKEKADIHLLICTIDDLIDKLS 6nyy-a1-m1-cC_6nyy-a1-m1-cD human m-AAA protease AFG3L2, substrate-bound Q9Y4W6 Q9Y4W6 3.0 ELECTRON MICROSCOPY 260 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 491 491 6nyy-a1-m1-cA_6nyy-a1-m1-cB 6nyy-a1-m1-cA_6nyy-a1-m1-cF 6nyy-a1-m1-cB_6nyy-a1-m1-cC 6nyy-a1-m1-cE_6nyy-a1-m1-cD 6nyy-a1-m1-cF_6nyy-a1-m1-cE FSVGETTAKVLKDEIDVKFKDVAGCEEAKLEIMEFVNFLKNPKQYQDLGAKIPKGAILTGPPGTGKTLLAKATAGEANVPFITVSGSEFLEMFVGVGPARVRDLFALARKNAPCILFIDQIDAVGRKRGRGNFGGQSEQENTLNQLLVEMDGFNTTTNVVILAGTNRPDILDPALLRPGRFDRQIFIGPPDIKGRASIFKVHLRPLKLDSTLEKDKLARKLASLTPGFSGADVANVCNEAALIAARHLSDSINQKHFEQAIERVIGGLEKKTQVLQPEEKKTVAYHQAGHAVAGWYLEHADPLLKVSIIPRGKGLGYAQYLPKEQYLYTKEQLLDRMCMTLGGRVSEEIFFGRITTGAQDDLRKVTQSAYAQIVQFGMNEKVGQISFDLPRQGDMVLEKPYSEATARLIDDEVRILINDAYKRTVALLTEKKADVEKVALLLLEKEVLDKNDMVELLGPRPFAEKSTYEEFVEGTGSLDEDTSLPEGLKDW FSVGETTAKVLKDEIDVKFKDVAGCEEAKLEIMEFVNFLKNPKQYQDLGAKIPKGAILTGPPGTGKTLLAKATAGEANVPFITVSGSEFLEMFVGVGPARVRDLFALARKNAPCILFIDQIDAVGRKRGRGNFGGQSEQENTLNQLLVEMDGFNTTTNVVILAGTNRPDILDPALLRPGRFDRQIFIGPPDIKGRASIFKVHLRPLKLDSTLEKDKLARKLASLTPGFSGADVANVCNEAALIAARHLSDSINQKHFEQAIERVIGGLEKKTQVLQPEEKKTVAYHQAGHAVAGWYLEHADPLLKVSIIPRGKGLGYAQYLPKEQYLYTKEQLLDRMCMTLGGRVSEEIFFGRITTGAQDDLRKVTQSAYAQIVQFGMNEKVGQISFDLPRQGDMVLEKPYSEATARLIDDEVRILINDAYKRTVALLTEKKADVEKVALLLLEKEVLDKNDMVELLGPRPFAEKSTYEEFVEGTGSLDEDTSLPEGLKDW 6nz4-a1-m1-cB_6nz4-a1-m1-cA YcjX-GDP (type I) Q8EG04 Q8EG04 1.92 X-RAY DIFFRACTION 72 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 451 467 6nz5-a1-m1-cB_6nz5-a1-m1-cA 6nz6-a1-m1-cB_6nz6-a1-m1-cA DRHLRLAVTGLSGAGKTAFITGLVNQLLNSGGLPLWQVSREQRLLGVKRAMQPDLEIASFDYQGAMLALTSNPPTWPESTRTISELRLAIKYRPEKGLLAKFADAATLYLDIVDYPGEWLLDLPMLRQSYIEWCTTQQQRIAVLKSSPLYAGLETSLNALNLAAMADESELKRLADQYQQLLHGLVHVQGYYQAQPGRMLLPGEWQGAPLLAFFPLLSVTNAQWSNLKQSDKHSAFHVLEKRYQEYVAKVVKPFYKQHFAGFDRQVVLVDCFSALNRGKSQFEDMGAALNAIMESFQYGQSSYLRRLFAPRIDRLLFAASKVDHVTRDQQSHVLSLLTDMLKHSQHFAGFEGCKVETMAISAIKATRHGMVTTQEGDVEVVQGTGLNGQALTLFPGEVPTRLPEPDFWREQGFNFIGFAPPDNTNVDPSSVHFDHIRLDHLLQYLVGDKLE LHRTADRHLRLAVTGLSGAGKTAFITGLVNQLLNSGAVSTVSHSRQNGLPLWQVSREQRLLGVKRAMQPDLEIASFDYQGAMLALTSNPPTWPESTRTISELRLAIKYRPEKGLLAKFADAATLYLDIVDYPGEWLLDLPMLRQSYIEWCTTQQQRIAVLKSSPLYAGLETSLNALNLAAMADESELKRLADQYQQLLHGLVHVQGYYQAQPGRMLLPGEWQGAPLLAFFPLLSVTNAQWSNLKQSDKHSAFHVLEKRYQEYVAKVVKPFYKQHFAGFDRQVVLVDCFSALNRGKSQFEDMGAALNAIMESFQYGQSSYLRRLFAPRIDRLLFAASKVDHVTRDQQSHVLSLLTDMLKHSQHFAGFEGCKVETMAISAIKATRHGMVTTQEGDVEVVQGTGLNGQALTLFPGEVPTRLPEPDFWREQGFNFIGFAPPDNTNVDPSSVHFDHIRLDHLLQYLVGDKLE 6nzj-a1-m1-cA_6nzj-a1-m1-cB Structural Analysis of a Nitrogenase Iron Protein from Methanosarcina acetivorans: Implications for CO2 Capture by a Surface-Exposed [Fe4S4] Cluster Q8TJ93 Q8TJ93 2.4 X-RAY DIFFRACTION 154 1.0 188937 (Methanosarcina acetivorans C2A) 188937 (Methanosarcina acetivorans C2A) 273 273 MRQIAIYGKGGIGKSTTTQNLTAALSTMGNNILLVGCDPKADSTRMLLGGLNQKTVLDTLRSEGDEGIDLDTVLQPGFGGIKCVESGGPEPGVGCAGRGIITSIGLLENLGAYTDDLDYVFYDVLGDVVCGGFAMPIREGKAKEIYIVASGELMAIYAANNICKGLAKFAKGGARLGGIICNSRKVDGERELLEAFAKKLGSHLIHFVPRDNIVQRAEINRKTVIDFDRESDQAKEYLTLADNVQNNNKLVVPTPLPMEELEAMMVEFGIVEL MRQIAIYGKGGIGKSTTTQNLTAALSTMGNNILLVGCDPKADSTRMLLGGLNQKTVLDTLRSEGDEGIDLDTVLQPGFGGIKCVESGGPEPGVGCAGRGIITSIGLLENLGAYTDDLDYVFYDVLGDVVCGGFAMPIREGKAKEIYIVASGELMAIYAANNICKGLAKFAKGGARLGGIICNSRKVDGERELLEAFAKKLGSHLIHFVPRDNIVQRAEINRKTVIDFDRESDQAKEYLTLADNVQNNNKLVVPTPLPMEELEAMMVEFGIVEL 6o15-a1-m1-cA_6o15-a1-m1-cB Crystal structure of a putative oxidoreductase YjhC from Escherichia coli in complex with NAD(H) P39353 P39353 1.35 X-RAY DIFFRACTION 108 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 355 355 MINYGVVGVGYFGAELARFMNMHDNAKITCVYDPENGENIARELQCINMSSLDALVSSKLVDCVIVATPNYLHKEPVIKAAKNKKHVFCEKPIALSYEDCVDMVKACKEAGVTFMAGHIMNFFNGVQYARKLIKEGVIGEILSCHTKRNGWENKQERLSWKKMKEQSGGHLYHHIHELDCVQHLLGEIPETVTMIGGNLAHSGPGFGNEDDMLFMTLEFPSGKLATLEWGSAFNWPEHYVIINGTKGSIKIDMQETAGSLRIGGQTKHFLVHETQEEDDDRRKGNMTKTPLWLASLIRKETLFLHNILCGAKPEEDYIDLLNGEAAMSAIATADAATLSRSQDRKVKISEIIKHT MINYGVVGVGYFGAELARFMNMHDNAKITCVYDPENGENIARELQCINMSSLDALVSSKLVDCVIVATPNYLHKEPVIKAAKNKKHVFCEKPIALSYEDCVDMVKACKEAGVTFMAGHIMNFFNGVQYARKLIKEGVIGEILSCHTKRNGWENKQERLSWKKMKEQSGGHLYHHIHELDCVQHLLGEIPETVTMIGGNLAHSGPGFGNEDDMLFMTLEFPSGKLATLEWGSAFNWPEHYVIINGTKGSIKIDMQETAGSLRIGGQTKHFLVHETQEEDDDRRKGNMTKTPLWLASLIRKETLFLHNILCGAKPEEDYIDLLNGEAAMSAIATADAATLSRSQDRKVKISEIIKHT 6o1m-a1-m1-cA_6o1m-a1-m1-cB Architectural principles for Hfq/Crc-mediated regulation of gene expression. Hfq-Crc-amiE 2:4:2 complex Q51380 Q51380 3.15 ELECTRON MICROSCOPY 22 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 262 262 6o1k-a1-m1-cA_6o1k-a1-m1-cB 6o1l-a1-m1-cA_6o1l-a1-m1-cB GPAMRIISVNVNGIQAAAERGLLSWLQAQNADVICLQDTRASAFDLDDPSFQLDGYFLYACDAELPEQGGVALYSRLQPKAVISGLGFETADRYGRYLQADFDKVSIATLLLPSGQSGDESLNQKFKFMDDFTHYLSKQRRKRREYIYCGSLYVAHQKMDVKNWRECQQMPGFLAPERAWLDEVFGNLGYADALREVSREGDQFSWWPDSEQAEMLNLGWRFDYQVLTPGLRRFVRNAKLPRQPRFSQHAPLIVDYDWQLSI GPAMRIISVNVNGIQAAAERGLLSWLQAQNADVICLQDTRASAFDLDDPSFQLDGYFLYACDAELPEQGGVALYSRLQPKAVISGLGFETADRYGRYLQADFDKVSIATLLLPSGQSGDESLNQKFKFMDDFTHYLSKQRRKRREYIYCGSLYVAHQKMDVKNWRECQQMPGFLAPERAWLDEVFGNLGYADALREVSREGDQFSWWPDSEQAEMLNLGWRFDYQVLTPGLRRFVRNAKLPRQPRFSQHAPLIVDYDWQLSI 6o2d-a1-m1-cA_6o2d-a1-m1-cB Schizosaccharomyces pombe Cnp3 Cupin Domain Q9USR9 Q9USR9 2.52 X-RAY DIFFRACTION 178 0.993 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 134 142 YKDEINCEVLSWNPKASEERVVGYSLPSVNLQQQLKFASLFKEEPSFAAGVVEPAGAEKPVKPSKHNISFCILQGKIEVTVNATTFRKKDGVFIVPRGNYYSIKNIGKEAVRLYYTHATDTLENKRRGIGDFPN YDAFYKDEINCEVLSWNEQNPKASEERVVGYSLPSVNLQQLKFASLFKEEPSFAAGVVEPAGAEKPVKPSKHNISFCILQGKIEVTVNATTFRKKDGVFIVPRGNYYSIKNIGKEAVRLYYTHATDTLENKRRGIGDFPNER 6o2w-a1-m1-cA_6o2w-a1-m1-cB Crystal structure of the SARAF luminal domain Cys-lock mutant dimer Q96BY9 Q96BY9 2.101 X-RAY DIFFRACTION 149 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 6o2u-a1-m1-cA_6o2u-a1-m2-cA 6o2u-a2-m1-cB_6o2u-a2-m3-cB PDRMLLRDVKALTLHYDRYTTSRRLDPIPQLKCVGGTAGCDSYTPKVIQCQNKGWDDVQWECCTDLDIAYKFGKTVVSCEGYESSEDQYVLRGSCGLEYNLDYTELGLQKLKESGKQHGFCSFSDYYYK PDRMLLRDVKALTLHYDRYTTSRRLDPIPQLKCVGGTAGCDSYTPKVIQCQNKGWDDVQWECCTDLDIAYKFGKTVVSCEGYESSEDQYVLRGSCGLEYNLDYTELGLQKLKESGKQHGFCSFSDYYYK 6o35-a1-m2-cD_6o35-a1-m2-cC Crystal structure of a de novo designed octameric helical-bundle protein 2.4 X-RAY DIFFRACTION 85 1.0 32630 (synthetic construct) 32630 (synthetic construct) 99 101 6o35-a1-m1-cB_6o35-a1-m1-cA 6o35-a1-m1-cB_6o35-a1-m1-cC 6o35-a1-m1-cD_6o35-a1-m1-cC 6o35-a1-m1-cD_6o35-a1-m2-cA 6o35-a1-m2-cB_6o35-a1-m2-cA 6o35-a1-m2-cB_6o35-a1-m2-cC 6o35-a1-m2-cD_6o35-a1-m1-cA SAEELLRRSREYLKKVKEEQERKAKEFQELLKELSERSEELIRELEEKGAASEAELARMKQQHMTAYLEAQLTAWEIESKSKIALLELQQNQLNLELRH SSAEELLRRSREYLKKVKEEQERKAKEFQELLKELSERSEELIRELEEKGAASEAELARMKQQHMTAYLEAQLTAWEIESKSKIALLELQQNQLNLELRHI 6o3o-a1-m1-cB_6o3o-a1-m3-cA Structure of human DNAM-1 (CD226) bound to nectin-like protein-5 (necl-5) Q15762 Q15762 2.8 X-RAY DIFFRACTION 36 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 196 218 LWHTSVPFAENMSLECVYPSMGILTQVEWFKIGDSIAIFSPTHGMVIRKPYAERVYFLNSNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQPSNSHISEPGKNVTLTCQPQMTWPVQAVRWEKIQPRQIDLLTYCNLVHFTSKFPRQIVSNCSHGRWSVIVIPDVTVSDSGLYRCYLQAGENETFVMRL EEVLWHTSVPFAENMSLECVYPSMGILTQVEWFKIGTQQDSIAIFSPTHGMVIRKPYAERVYFLNNNMTLFFRNASEDDVGYYSCSLYTYPQGTWQKVIQVVQSDSFEAAVPSNSHIVSEPGKNVTLTCQPQMTWPVQAVRWEKIQPRQIDLLTYCNLVHGRNFTSKFPRQIVSNCSHGRWSVIVIPDVTVSDSGLYRCYLQASAGENETFVMRLTVA 6o3p-a1-m1-cA_6o3p-a1-m1-cB Crystal structure of the catalytic domain of mouse Nudt12 in complex with AMP and 3 Mg2+ ions Q9DCN1 Q9DCN1 1.6 X-RAY DIFFRACTION 157 0.987 10090 (Mus musculus) 10090 (Mus musculus) 308 320 SHMLDRRSDKRNNSDWLQAKESHPTTVYLLFSDLNPLVTLGGNKESSQQPEVRLCQLNYPDVKGYLAQPEKITLVFLGVELDGLVAWFALGIEPGAAENCYFLHPPMPALLQLKEKEAGVVAQARSVLAWHSRYKFCPTCGSATKIEEGGYKRVCVRETCPSLQGVHNTSYPRVDPVVIMQVIHPDGTKCLLGRQKRFPPGMFTCLAGFIEPGETIEDAVRREVEEESGVKVGHVQYVSCQPWPMPSSLMIGCLAVAVSTEIKVDKNEIEDARWFTREQVVDVLTKGQAFFVPPSRAIAHQLIKHWVG HMLDRRSDKRNNSDWLQAKESHPTTVYLLFSDLNPLVTLGGNKESSQQPEVRLCQLNYPDVKGYLAQPEKITLVFLGVELEMRKAADGLVAWFALGIEPGAAEEFKQRHENCYFLHPPMPALLQLKEKEAGVVAQARSVLAWHSRYKFCPTCGSATKIEEGGYKRVCVRETCPSLQGVHNTSYPRVDPVVIMQVIHPDGTKCLLGRQKRFPPGMFTCLAGFIEPGETIEDAVRREVEEESGVKVGHVQYVSCQPWPMPSSLMIGCLAVAVSTEIKVDKNEIEDARWFTREQVVDVLTAFFVPPSRAIAHQLIKHWVGMNP 6o4m-a2-m1-cA_6o4m-a2-m3-cB Racemic melittin P01501 P01501 1.27 X-RAY DIFFRACTION 25 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 26 26 2mlt-a1-m1-cA_2mlt-a1-m2-cB 2mlt-a1-m1-cB_2mlt-a1-m2-cA 6o4m-a2-m1-cB_6o4m-a2-m3-cA GIGAVLKVLTTGLPALISWIKRKRQQ GIGAVLKVLTTGLPALISWIKRKRQQ 6o4m-a2-m3-cA_6o4m-a2-m3-cB Racemic melittin P01501 P01501 1.27 X-RAY DIFFRACTION 24 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 26 26 2mlt-a1-m1-cA_2mlt-a1-m1-cB 2mlt-a1-m2-cA_2mlt-a1-m2-cB 6o4m-a2-m1-cA_6o4m-a2-m1-cB GIGAVLKVLTTGLPALISWIKRKRQQ GIGAVLKVLTTGLPALISWIKRKRQQ 6o4n-a1-m1-cA_6o4n-a1-m1-cB Crystal Structure of Enolase from Chlamydia trachomatis B0BA40 B0BA40 1.8 X-RAY DIFFRACTION 137 1.0 471473 (Chlamydia trachomatis L2b/UCH-1/proctitis) 471473 (Chlamydia trachomatis L2b/UCH-1/proctitis) 422 422 DVVISDIEAREILDSRGYPTLCVKVITNTGTFGEACVPSGASTGIKEALELRDKDPKRYQGKGVLQAISNVEKVLVPALQGFSVFDQITADAIMIDADGTPNKEKLGANAILGVSLALAKAAANTLQRPLYRYLGGSFSHVLPCPMMNLINGGMHATNGLQFQEFMIRPISAPSLKEAVRMGAEVFNALKKILQNRQLATGVGDEGGFAPNLASNAEALDLLLTAIETAGFTPREDISLALDCAASSFYNTQDKTYDGKSYADQVGILAELCEHYPIDSIEDGLAEEDFEGWKLLSETLGDRVQLVGDDLFVTNSALIAEGIAQGLANAVLIKPNQIGTLTETAEAIRLATIQGYATILSHRSGETEDTTIADLAVAFNTGQIKTGSLSRSERIAKYNRLMAIEEEMGPEALFQDSNPFSKA DVVISDIEAREILDSRGYPTLCVKVITNTGTFGEACVPSGASTGIKEALELRDKDPKRYQGKGVLQAISNVEKVLVPALQGFSVFDQITADAIMIDADGTPNKEKLGANAILGVSLALAKAAANTLQRPLYRYLGGSFSHVLPCPMMNLINGGMHATNGLQFQEFMIRPISAPSLKEAVRMGAEVFNALKKILQNRQLATGVGDEGGFAPNLASNAEALDLLLTAIETAGFTPREDISLALDCAASSFYNTQDKTYDGKSYADQVGILAELCEHYPIDSIEDGLAEEDFEGWKLLSETLGDRVQLVGDDLFVTNSALIAEGIAQGLANAVLIKPNQIGTLTETAEAIRLATIQGYATILSHRSGETEDTTIADLAVAFNTGQIKTGSLSRSERIAKYNRLMAIEEEMGPEALFQDSNPFSKA 6o55-a1-m1-cB_6o55-a1-m1-cC Crystal Structure of N5-carboxyaminoimidazole ribonucleotide mutase (PurE) from Legionella pneumophila Q5ZYZ3 Q5ZYZ3 1.7 X-RAY DIFFRACTION 42 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 161 161 6o55-a1-m1-cA_6o55-a1-m1-cB 6o55-a1-m1-cA_6o55-a1-m1-cD 6o55-a1-m1-cC_6o55-a1-m1-cD KPILIGLIMGSQSDWQTLIHAAHTLDALNIGYEAEIVSAHRTPDKLFRYAEQAEARGLEVIIAGAGGAAHLPGMVAAKTSLPVLGVPVMSQTLNGVDSLLSIVQMPAGIPVGTLSIGKAGAINSALFAAAILANKYPDIRAALKHYREQQTQKVLDNPNPK KPILIGLIMGSQSDWQTLIHAAHTLDALNIGYEAEIVSAHRTPDKLFRYAEQAEARGLEVIIAGAGGAAHLPGMVAAKTSLPVLGVPVMSQTLNGVDSLLSIVQMPAGIPVGTLSIGKAGAINSALFAAAILANKYPDIRAALKHYREQQTQKVLDNPNPK 6o59-a3-m1-cB_6o59-a3-m1-cA Crystal structure of the N-terminal domain of the A subunit of the Bacillus megaterium spore germinant receptor GerK3 O07504 O07504 2.79 X-RAY DIFFRACTION 113 1.0 1404 (Priestia megaterium) 1404 (Priestia megaterium) 126 255 GAFTESIGTNLAMVRRIIKTPDLWLESMKIGRVTKTDVTLMYIHGIANDKVVKEIRKRLKNIDIDSILESGYVEQLIEDQTVTPFPTIYNTERPDVVAGNLLEGRIAIFVDGTPFGLIAPALFIQF RTVSSLKNLLSENLTLIKEKTGNSSDIVIRHFKIGVNNSLAAAIVYIEGIVDNQAIQDYLLQSLMKDNQKNDLNDQNALELISEDIVTMGNVSFADNWNDLLSSLMSGDSLLIVDGINRVLSVSTQGGKGAFTESIGTNLAMVRRIIKTPDLWLESMKIGRVTKTDVTLMYIHGIANDKVVKEIRKRLKNIDIDSILESGYVEQLIEDQTVTPFPTIYNTERPDVVAGNLLEGRIAIFVDGTPFGLIAPALFIQF 6o5c-a1-m2-cB_6o5c-a1-m1-cA X-ray crystal structure of metal-dependent transcriptional regulator MtsR A0A0H2UTK0 A0A0H2UTK0 3.1 X-RAY DIFFRACTION 31 1.0 301448 (Streptococcus pyogenes serotype M3) 301448 (Streptococcus pyogenes serotype M3) 204 215 EDYLKCIYEIGEQETNKMVAEKMHVSAPAVSEMIKKMISQGWDKAKGYLLKDKGYALVANLYRKHRLIEVFLIHQLGYNTQEVHQEAEVLEHTVSDTFIDRLDKILDFPDFCPHGGTIPRYGQPLVEMNTTTLNTITELGRFRLSRIHDHFDLIQYLETHHLNINTELTLTQIDTFAKTYTICYGDKELVIPENIAKQLYVTAL MTPNKEDYLKCIYEIGEQEPKITNKMVAEKMHVSAPAVSEMIKKMISQGWIVKDKAKGYLLKDKGYALVANLYRKHRLIEVFLIHQLGYNTQEVHQEAEVLEHTVSDTFIDRLDKILDFPDFCPHGGTIPRYGQPLVEMNTTTLNTITELGRFRLSRIHDHFDLIQYLETHHLNINTELTLTQIDTFAKTYTICYGDKELVIPENIAKQLYVTAL 6o5f-a1-m1-cA_6o5f-a1-m1-cB Crystal structure of DEAD-box RNA helicase DDX3X at pre-unwound state O00571 O00571 2.504 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 417 417 DDWSKPLPPSERLEQELFKYDDIPVEATGNNCPPHIESFSDVEMGEIIMGNIELTRYTRPTPVQKHAIPIIKEKRDLMACAQTGSGKTAAFLLPILSQIYSDGPGEALRAMKQYPISLVLAPTRELAVQIYEEARKFSYRSRVRPCVVYGGADIGQQIRDLERGCHLLVATPGRLVDMMERGKIGLDFCKYLVLDEADRMLDMGFEPQIRRIVEQDTMPPKGVRHTMMFSATFPKEIQMLARDFLDEYIFLAVENITQKVVWVEESDKRSFLLDLLNATGKDSLTLVFVETKKGADSLEDFLYHEGYACTSIHGDRSQRDREEALHQFRSGKSPILVATAVAARSNVKHVINFDLPSDIEEYVHRIGRTGRVGNLGLATSFFNERNINITKDLLDLLVEAKQEVPSWLENMAYEHHY DDWSKPLPPSERLEQELFKYDDIPVEATGNNCPPHIESFSDVEMGEIIMGNIELTRYTRPTPVQKHAIPIIKEKRDLMACAQTGSGKTAAFLLPILSQIYSDGPGEALRAMKQYPISLVLAPTRELAVQIYEEARKFSYRSRVRPCVVYGGADIGQQIRDLERGCHLLVATPGRLVDMMERGKIGLDFCKYLVLDEADRMLDMGFEPQIRRIVEQDTMPPKGVRHTMMFSATFPKEIQMLARDFLDEYIFLAVENITQKVVWVEESDKRSFLLDLLNATGKDSLTLVFVETKKGADSLEDFLYHEGYACTSIHGDRSQRDREEALHQFRSGKSPILVATAVAARSNVKHVINFDLPSDIEEYVHRIGRTGRVGNLGLATSFFNERNINITKDLLDLLVEAKQEVPSWLENMAYEHHY 6o5k-a1-m1-cB_6o5k-a1-m1-cA Murine TRIM28 Bbox1 domain Q62318 Q62318 1.6 X-RAY DIFFRACTION 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 43 46 CTSCEDNAPATSYCVECSEPLCETCVEAHQRVKYTKDHTVRST NQCCTSCEDNAPATSYCVECSEPLCETCVEAHQRVKYTKDHTVRST 6o5v-a1-m1-cA_6o5v-a1-m1-cB Binary complex of native hAChE with oxime reactivator RS-170B P22303 P22303 2.152 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 540 540 6o5s-a1-m1-cA_6o5s-a1-m1-cB 8dt2-a1-m1-cA_8dt2-a1-m1-cB 8dt4-a1-m1-cA_8dt4-a1-m1-cB 8dt5-a1-m1-cA_8dt5-a1-m1-cB 8dt7-a1-m1-cA_8dt7-a1-m1-cB EDAELLVTVRGGRLRGIRLKTPGGPVSAFLGIPFAEPPMGPRRFLPPEPKQPWSGVVDATTFQSVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPTSPTPVLVWIYGGGFYSGASSLDVYDGRFLVQAERTVLVSMNYRVGAFGFLALPGSREAPGNVGLLDQRLALQWVQENVAAFGGDPTSVTLFGESAGAASVGMHLLSPPSRGLFHRAVLQSGAPNGPWATVGMGEARRRATQLAHLVGCPPGGTGGNDTELVACLRTRPAQVLVNHEWHVLPQESVFRFSFVPVVDGDFLSDTPEALINAGDFHGLQVLVGVVKDEGSYFLVYGAPGFSKDNESLISRAEFLAGVRVGVPQVSDLAAEAVVLHYTDWLHPEDPARLREALSDVVGDHNVVCPVAQLAGRLAAQGARVYAYVFEHRASTLSWPLWMGVPHGYEIEFIFGIPLDPSRNYTAEEKIFAQRLMRYWANFARTGDPNEPRDPKAPQWPPYTAGAQQYVSLDLRPLEVRRGLRAQACAFWNRFLPKLLSAT EDAELLVTVRGGRLRGIRLKTPGGPVSAFLGIPFAEPPMGPRRFLPPEPKQPWSGVVDATTFQSVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPTSPTPVLVWIYGGGFYSGASSLDVYDGRFLVQAERTVLVSMNYRVGAFGFLALPGSREAPGNVGLLDQRLALQWVQENVAAFGGDPTSVTLFGESAGAASVGMHLLSPPSRGLFHRAVLQSGAPNGPWATVGMGEARRRATQLAHLVGCPPGGTGGNDTELVACLRTRPAQVLVNHEWHVLPQESVFRFSFVPVVDGDFLSDTPEALINAGDFHGLQVLVGVVKDEGSYFLVYGAPGFSKDNESLISRAEFLAGVRVGVPQVSDLAAEAVVLHYTDWLHPEDPARLREALSDVVGDHNVVCPVAQLAGRLAAQGARVYAYVFEHRASTLSWPLWMGVPHGYEIEFIFGIPLDPSRNYTAEEKIFAQRLMRYWANFARTGDPNEPRDPKAPQWPPYTAGAQQYVSLDLRPLEVRRGLRAQACAFWNRFLPKLLSAT 6o62-a1-m1-cA_6o62-a1-m2-cA Crystal structure of Sec4p, a Rab family GTPase from Candida albicans P0CY31 P0CY31 1.88 X-RAY DIFFRACTION 94 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 169 169 RAYDMIMKLLLVGDSGVGKSCLLLRFVEDKFNGIDFKIRTIESKGKRIKLQVWDTAGQERFRTITTAYYRGAMGIVLIYDVTDSRSFENVENWFQTVTQHANEDAQIFLVGNKCDDEVNRQVSKEQGQELAAKLNVPFLEASAKSNENVDSIFYELASIIQEKHVEENI RAYDMIMKLLLVGDSGVGKSCLLLRFVEDKFNGIDFKIRTIESKGKRIKLQVWDTAGQERFRTITTAYYRGAMGIVLIYDVTDSRSFENVENWFQTVTQHANEDAQIFLVGNKCDDEVNRQVSKEQGQELAAKLNVPFLEASAKSNENVDSIFYELASIIQEKHVEENI 6o64-a2-m1-cD_6o64-a2-m1-cC Crystal Structure of Arabidopsis thaliana Spermidine Synthase isoform 2 (AtSPDS2) O48661 O48661 2 X-RAY DIFFRACTION 119 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 275 277 6o64-a1-m1-cA_6o64-a1-m1-cB 6o64-a3-m1-cE_6o64-a3-m1-cF 6o64-a4-m1-cH_6o64-a4-m1-cG PGWFSEISPMWPGEAHSLKVEKILFQGKSDYQDVIVFQSATYGKVLVLDGVIQLTERDECAYQEMITHLPLCSISNPKKVLVIGGGDGGVLREVARHSSVEQIDICEIDKMVVDVAKQYFPNVAVGYEDPRVNLIIGDGVAFLKNAAEGTYDAVIVDSSDPAKELFEKPFFESVNRALRPGGVVCTQAESLWLHMDIIEDIVSNCRDIFKGSVNYAWTSVPTYPSGVIGFMLCSSEGPQVDFKKPVSLICPLKYYNAEIHSAAFCLPSFAKKVID PGWFSEISPMWPGEAHSLKVEKILFQGKSDYQDVIVFQSATYGKVLVLDGVIQLTERDECAYQEMITHLPLCSISNPKKVLVIGGGDGGVLREVARHSSVEQIDICEIDKMVVDVAKQYFPNVAVGYEDPRVNLIIGDGVAFLKNAAEGTYDAVIVDSSDPAKELFEKPFFESVNRALRPGGVVCTQAESLWLHMDIIEDIVSNCRDIFKGSVNYAWTSVPTYPSGVIGFMLCSSEGPQVDFKKPVSLIDCPLKYYNAEIHSAAFCLPSFAKKVIDS 6o6o-a1-m1-cB_6o6o-a1-m1-cA Structure of the regulator FasR from Mycobacterium tuberculosis O05858 O05858 1.63 X-RAY DIFFRACTION 131 0.995 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 184 190 6o6n-a1-m1-cA_6o6n-a1-m2-cA 6o6p-a1-m1-cB_6o6p-a1-m1-cA RRGQLLVVASDVFVDRGYHAAGMDEIADRAGVSKPVLYQHFSSKLELYLAVLHRHVENLVSGVHQALSTTTDNRQRLHVAVQAFFDFIEHDSQGYRLIFENDFEPEVAAQVRVATESCIDAVFALISADSGLDPHRARMIAVGLVGMSVDCARYWLDADKPISKSDAVEGTVQFAWGGLSHVPL LPRDERRGQLLVVASDVFVDRGYHAAGMDEIADRAGVSKPVLYQHFSSKLELYLAVLHRHVENLVSGVHQALSTTTDNRQRLHVAVQAFFDFIEHDSQGYRLIFENDFVTEPEVAAQVRVATESCIDAVFALISADSGLDPHRARMIAVGLVGMSVDCARYWLDADKPISKSDAVEGTVQFAWGGLSHVP 6o6q-a1-m1-cB_6o6q-a1-m2-cB Crystal structure of Cka1p, a casein kinase 2 alpha ortholog from Candida albicans A0A1D8PUA2 A0A1D8PUA2 2.7 X-RAY DIFFRACTION 39 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 325 325 6o6q-a1-m1-cA_6o6q-a1-m2-cA RHNTVQSVSRVYADVLSTKPQSYWDYDDLNIKWNPQENYEILRKLGRGKYSEVFLGIDLEKREKVVIKVLKPVKRKKIKREISILKNLVDGPNIIAMLDVVRKTPGLIFEHINNIDFRSLYPTFTDYDIRFYMYELLKALDYSHSMGIMHRDVKPHNVMIDHDKKLLRLIDWGLAEYYHPGTEYNVRVASRYFKGPELLVDYRLYDYSLDMWSFGCMLASMVFMKEPFFHGKSNTDQLVQIVRVLGSKNFKKYLEKYNISLGEEYEDIGYYNKRQWVRFMNENNKDLVSQEFLDLIDRLLRYDHQERLTAKEAMKHAYFDPIRVA RHNTVQSVSRVYADVLSTKPQSYWDYDDLNIKWNPQENYEILRKLGRGKYSEVFLGIDLEKREKVVIKVLKPVKRKKIKREISILKNLVDGPNIIAMLDVVRKTPGLIFEHINNIDFRSLYPTFTDYDIRFYMYELLKALDYSHSMGIMHRDVKPHNVMIDHDKKLLRLIDWGLAEYYHPGTEYNVRVASRYFKGPELLVDYRLYDYSLDMWSFGCMLASMVFMKEPFFHGKSNTDQLVQIVRVLGSKNFKKYLEKYNISLGEEYEDIGYYNKRQWVRFMNENNKDLVSQEFLDLIDRLLRYDHQERLTAKEAMKHAYFDPIRVA 6o6q-a1-m2-cB_6o6q-a1-m2-cA Crystal structure of Cka1p, a casein kinase 2 alpha ortholog from Candida albicans A0A1D8PUA2 A0A1D8PUA2 2.7 X-RAY DIFFRACTION 33 0.997 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 325 326 6o6q-a1-m1-cB_6o6q-a1-m1-cA RHNTVQSVSRVYADVLSTKPQSYWDYDDLNIKWNPQENYEILRKLGRGKYSEVFLGIDLEKREKVVIKVLKPVKRKKIKREISILKNLVDGPNIIAMLDVVRKTPGLIFEHINNIDFRSLYPTFTDYDIRFYMYELLKALDYSHSMGIMHRDVKPHNVMIDHDKKLLRLIDWGLAEYYHPGTEYNVRVASRYFKGPELLVDYRLYDYSLDMWSFGCMLASMVFMKEPFFHGKSNTDQLVQIVRVLGSKNFKKYLEKYNISLGEEYEDIGYYNKRQWVRFMNENNKDLVSQEFLDLIDRLLRYDHQERLTAKEAMKHAYFDPIRVA HRHNTVQSVSRVYADVLSTKPQSYWDYDDLNIKWNPQENYEILRKLGRGKYSEVFLGIDLEKREKVVIKVLKPVKRKKIKREISILKNLVDGPNIIAMLDVVRETPGLIFEHINNIDFRSLYPTFTDYDIRFYMYELLKALDYSHSMGIMHRDVKPHNVMIDHDKKLLRLIDWGLAEYYHPGTEYNVRVASRYFKGPELLVDYRLYDYSLDMWSFGCMLASMVFMKEPFFHGKSNTDQLVQIVRVLGSKNFKKYLEKYNISLGEEYEDIGYYNKRQWVRFMNENNKDLVSQEFLDLIDRLLRYDHQERLTAKEAMKHAYFDPIRVA 6o77-a1-m1-cC_6o77-a1-m1-cD Structure of the TRPM8 cold receptor by single particle electron cryo-microscopy, calcium-bound state 3.2 ELECTRON MICROSCOPY 209 1.0 9157 (Parus major) 9157 (Parus major) 872 872 6o77-a1-m1-cA_6o77-a1-m1-cB 6o77-a1-m1-cA_6o77-a1-m1-cD 6o77-a1-m1-cB_6o77-a1-m1-cC GDIQFGKYIRLSCETLYDLMTQHWHLKTPNLVISVTGGAKNFALKPRMRKIFSRLIYIAQSKGAWIFTGGTHYGLMKYIGEVVRDNTISENVVAIGIAAWGMISNRETDGSFLLKRDPLYCLDNNHTHLLLVDNGAKVRTQLEKYISERVIPESNYGGKIPIVCFAQGGGKETLKSINVAIKSKIPCVVVEGSGRIADVIASLVASSCVKESLLRFLPRTISRLSEEETESWIKWIKEVLESPHLLTVIKIEEAGDEIVSNAISFALYKAFSTNEHDRDNWNGQLKLLLEWNQLDLASDEIFTNDRNWESADLQDVMFTALVKDRPKFVRLFLENGLNLRKFLTTEVLRELYTNNFSSLVFKNLQIAKNSYNDALLTFVWKMVEDFRRGRHPLQALFIWSVLQNKKELSKVIWEQTRGCTLAALGASKLLKSMAKVKNDINAAGESEELANEYETRAVELFTECYSNDEDLAEQLLTYSCEAWGGSNCLELAVEARDQQFIAQPGVQNFLSKQWYGEISRDTKNWKIIMCLLYYVSFFTSPFVVFSWNVIFYIAFLLLFAYVLLMDFQKEPTALEIILYVLVFVLLCDEVRQWYMNGSKYFSDLWNVMDTLAIFYFIAGIVFRLHSDESSWYSGRVIFCLDYIVFTLRLIHIFTVSRNLGPKIIMLQRMMIDVFFFLFLFAVWMVAFGVARQGILRKNEHRWEWIFRSVIYEPYLAMFGQYPDDIDGTTYNFDRCTFSGNESKPLCVELDANNQPRFPEWITIPLVCIYMLSTNILLVNLLVAMFGYTVGSVQENNDQVWKFQRFFLVQEYFPFVIFNEILAWEAVMKENYLVKINTKANDSSEEMVHRFRQLDAKLSDLKGLLKEISSKIK GDIQFGKYIRLSCETLYDLMTQHWHLKTPNLVISVTGGAKNFALKPRMRKIFSRLIYIAQSKGAWIFTGGTHYGLMKYIGEVVRDNTISENVVAIGIAAWGMISNRETDGSFLLKRDPLYCLDNNHTHLLLVDNGAKVRTQLEKYISERVIPESNYGGKIPIVCFAQGGGKETLKSINVAIKSKIPCVVVEGSGRIADVIASLVASSCVKESLLRFLPRTISRLSEEETESWIKWIKEVLESPHLLTVIKIEEAGDEIVSNAISFALYKAFSTNEHDRDNWNGQLKLLLEWNQLDLASDEIFTNDRNWESADLQDVMFTALVKDRPKFVRLFLENGLNLRKFLTTEVLRELYTNNFSSLVFKNLQIAKNSYNDALLTFVWKMVEDFRRGRHPLQALFIWSVLQNKKELSKVIWEQTRGCTLAALGASKLLKSMAKVKNDINAAGESEELANEYETRAVELFTECYSNDEDLAEQLLTYSCEAWGGSNCLELAVEARDQQFIAQPGVQNFLSKQWYGEISRDTKNWKIIMCLLYYVSFFTSPFVVFSWNVIFYIAFLLLFAYVLLMDFQKEPTALEIILYVLVFVLLCDEVRQWYMNGSKYFSDLWNVMDTLAIFYFIAGIVFRLHSDESSWYSGRVIFCLDYIVFTLRLIHIFTVSRNLGPKIIMLQRMMIDVFFFLFLFAVWMVAFGVARQGILRKNEHRWEWIFRSVIYEPYLAMFGQYPDDIDGTTYNFDRCTFSGNESKPLCVELDANNQPRFPEWITIPLVCIYMLSTNILLVNLLVAMFGYTVGSVQENNDQVWKFQRFFLVQEYFPFVIFNEILAWEAVMKENYLVKINTKANDSSEEMVHRFRQLDAKLSDLKGLLKEISSKIK 6o7i-a1-m1-cJ_6o7i-a1-m1-cB Cryo-EM structure of Csm-crRNA-target RNA ternary bigger complex in complex with cA4 in type III-A CRISPR-Cas system B6YWB9 B6YWB9 3.2 ELECTRON MICROSCOPY 27 1.0 523850 (Thermococcus onnurineus NA1) 523850 (Thermococcus onnurineus NA1) 121 146 6mus-a1-m1-cJ_6mus-a1-m1-cB WEAIQPYFDNVVREAKNFLEWSPNKRLANAVTVAAKTNQVRKILDMARTTELKIKDDLVKMRYLLAYTVGKATGQSKYSLDAFHRILDPMLEVLMGSPKKENFEKFYDFLQAVVAYHKFFG KKMLEKGKQWEAIQPYFDNVVREAKNFLEWSPNKRLANAVTVAAYLTSQGLKTNQVRKILDMARTTELKVKRGEGDIKDDLVKMRYLLAYTVGKATGQSKYSLDAFHRILDPMLEVLMGSPKKENFEKFYDFLQAVVAYHKFFGGG 6o84-a1-m1-cA_6o84-a1-m1-cB Cryo-EM structure of OTOP3 from xenopus tropicalis A9JTM7 A9JTM7 3.92 ELECTRON MICROSCOPY 80 1.0 8364 (Xenopus tropicalis) 8364 (Xenopus tropicalis) 415 415 KTGRLFSGLFGLNLMFLGGTVVSSVALSNKAVPERDSQSFLCILMLLSSVWALYHLLFIRNQNGAVHHDHHAGAMWLKASLAIFGVCSIILSIFEIGHALLLQNCEILMDIVFFSIEIVFVSVQTVLLWVSCKDCVQMHHSVTRYGIMLTLATDILLWLTAVIDDSLEQDSMCWGLKQGYVTMFPFNIEYSLICATLLFIMWKNVGRREXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRKLDVTLLFVSAVGQLGISYFSIIATVVTTPWTMLSALNFSNSLLLILQYLSQTMFIIESMRSIHEEEKGLSRRVVKEMAMFLMICNIMCWILGAFGAHPLYMNGLERQLYGSGIWLAILNIGLPLSVFYRMHSVGILLEVYLHALE KTGRLFSGLFGLNLMFLGGTVVSSVALSNKAVPERDSQSFLCILMLLSSVWALYHLLFIRNQNGAVHHDHHAGAMWLKASLAIFGVCSIILSIFEIGHALLLQNCEILMDIVFFSIEIVFVSVQTVLLWVSCKDCVQMHHSVTRYGIMLTLATDILLWLTAVIDDSLEQDSMCWGLKQGYVTMFPFNIEYSLICATLLFIMWKNVGRREXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRKLDVTLLFVSAVGQLGISYFSIIATVVTTPWTMLSALNFSNSLLLILQYLSQTMFIIESMRSIHEEEKGLSRRVVKEMAMFLMICNIMCWILGAFGAHPLYMNGLERQLYGSGIWLAILNIGLPLSVFYRMHSVGILLEVYLHALE 6o88-a2-m1-cA_6o88-a2-m2-cA Crystal Structure of UDP-dependent glucosyltransferases (UGT) from Stevia rebaudiana in complex with UDP and rebaudioside A Q6VAB4 Q6VAB4 1.99 X-RAY DIFFRACTION 64 1.0 55670 (Stevia rebaudiana) 55670 (Stevia rebaudiana) 443 443 RRRIILFPVPFQGHINPILQLANVLYSKGFSITIFHTNFNKPKTSNYPHFTFRFILDNDPQDERISNLPTHGPLAGMRIPIINEHGADELRRELELLMLASEEDEEVSCLITDALWYFAQSVADSLNLRRLVLMTSSLFNFHAHVSLPQFDELGYLDPRLEEQASGFPMLKVKDIKSAYSNWQILKEILGKMIKQTKASSGVIWNSFKELEESELETVIREIPAPSFLIPLPKHLTASSSSLLDHDRTVFQWLDQQPPSSVLYVSFGSTSEVDEKDFLEIARGLVDSKQSFLWVVRPGFVKGSTWVEPLPDGFLGERGRIVKWVPQQEVLAHGAIGAFWTHSGWNSTLESVCEGVPMIFSDFGLDQPLNARYMSDVLKVGVYLENGWERGEIANAIRRVMVDEEGEYIRQNARVLKQKADVSLMKGGSSYESLESLVSYISSL RRRIILFPVPFQGHINPILQLANVLYSKGFSITIFHTNFNKPKTSNYPHFTFRFILDNDPQDERISNLPTHGPLAGMRIPIINEHGADELRRELELLMLASEEDEEVSCLITDALWYFAQSVADSLNLRRLVLMTSSLFNFHAHVSLPQFDELGYLDPRLEEQASGFPMLKVKDIKSAYSNWQILKEILGKMIKQTKASSGVIWNSFKELEESELETVIREIPAPSFLIPLPKHLTASSSSLLDHDRTVFQWLDQQPPSSVLYVSFGSTSEVDEKDFLEIARGLVDSKQSFLWVVRPGFVKGSTWVEPLPDGFLGERGRIVKWVPQQEVLAHGAIGAFWTHSGWNSTLESVCEGVPMIFSDFGLDQPLNARYMSDVLKVGVYLENGWERGEIANAIRRVMVDEEGEYIRQNARVLKQKADVSLMKGGSSYESLESLVSYISSL 6o8l-a1-m1-cA_6o8l-a1-m2-cA Crystal Structure of C9S apo and reduced Sulfide-responsive transcriptional repressor (SqrR) from Rhodobacter capsulatus. D5AT91 D5AT91 1.36 X-RAY DIFFRACTION 86 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 92 92 6o8k-a1-m1-cA_6o8k-a1-m2-cA 6o8m-a1-m1-cA_6o8m-a1-m2-cA 6o8n-a1-m1-cA_6o8n-a1-m1-cB 6o8o-a2-m1-cC_6o8o-a2-m1-cD ATRARAASNLLKALAHEGRLMIMCYLASGEKSVTELETRLSTRQAAVSQQLARLRLEGLVQSRREGKTIYYSLSDPRAARVVQTVYEQFCSG ATRARAASNLLKALAHEGRLMIMCYLASGEKSVTELETRLSTRQAAVSQQLARLRLEGLVQSRREGKTIYYSLSDPRAARVVQTVYEQFCSG 6o8q-a1-m1-cG_6o8q-a1-m1-cH HUaa 19bp SYM DNA pH 4.5 P0ACF0 P0ACF0 3.216 X-RAY DIFFRACTION 153 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 91 91 6o8q-a1-m1-cD_6o8q-a1-m1-cC GMNKTQLIDVIAEKAELSKTQAKAALESTLAAITESLKEGDAVQLVGFGTFKVNHRAERTGRNPQTGKEIKIAAANVPAFVSGKALKDAVK GMNKTQLIDVIAEKAELSKTQAKAALESTLAAITESLKEGDAVQLVGFGTFKVNHRAERTGRNPQTGKEIKIAAANVPAFVSGKALKDAVK 6oai-a1-m1-cC_6oai-a1-m1-cA Crystal structure of P[6] rotavirus vp8* complexed with LNFPI D2DXN5 D2DXN5 1.9 X-RAY DIFFRACTION 16 1.0 10941 (Human rotavirus A) 10941 (Human rotavirus A) 158 159 LDGPYQPTNFKPPNDYWILLNPTNQQVVLEGTNKTDIWVALLLVEPNVTNQSRQYTLFGETKQITVENNTNKWKFFEMFRSNVSAEFQHKRTLTSDTKLAGFMKFYNSVWTFHGETPHATTDYSSTSNLSEVETVIHVEFYIIPRSQESKCSEYINTG LDGPYQPTNFKPPNDYWILLNPTNQQVVLEGTNKTDIWVALLLVEPNVTNQSRQYTLFGETKQITVENNTNKWKFFEMFRSNVSAEFQHKRTLTSDTKLAGFMKFYNSVWTFHGETPHATTDYSSTSNLSEVETVIHVEFYIIPRSQESKCSEYINTGL 6oap-a1-m1-cB_6oap-a1-m1-cA Crystal structure of a dual sensor histidine kinase in the green-light absorbing Pg state 1.97 X-RAY DIFFRACTION 87 0.993 1487953 ([Leptolyngbya] sp. JSC-1) 1487953 ([Leptolyngbya] sp. JSC-1) 303 305 6oaq-a1-m1-cB_6oaq-a1-m1-cA 6ob8-a1-m1-cA_6ob8-a1-m1-cB QTSRVLLIIDDSPEDRELYRRYLLRDRDHSYTVLEAGLGRRGLELWQQHHPDAVLLDYRLPDLDGLEFLAKLQPQPYLPVIMITGQGNEAIAVQAMKAGAQDYLVKEQITPEELHLAVNGAIETVHLRTQLHQRIERERVVSQITQKIHQTLDLEEILQTTVTEVRQFLQADRVFVYRFQPDFSGIVVLESVGDNCVPVIDAQVEDQYFVETRGEDYRQGRIQAVADIYTAGLTECHVNLLAQFHIRANLVVPILHADALWGLLVVNQCSAPRQWQPLEIDLLKELATQLGIALQQAELYQQA PQTSRVLLIIDDSPEDRELYRRYLLRDRDHSYTVLEAGLGRRGLELWQQHHPDAVLLDYRLPDLDGLEFLAKLQPPPQQPYLPVIMITGQGNEAIAVQAMKAGAQDYLVKEQITPEELHLAVNGAIETVHLRTQLHQRIERERVVSQITQKIHQTLDLEEILQTTVTEVRQFLQADRVFVYRFQPDFSGIVVLESVGDNCVPVIDAQVEDFVETRGEDYRQGRIQAVADIYTAGLTECHVNLLAQFHIRANLVVPILHADALWGLLVVNQCSAPRQWQPLEIDLLKELATQLGIALQQAELYQQA 6oaw-a1-m1-cA_6oaw-a1-m1-cB Crystal structure of a CRISPR Cas-related protein A0A352D0K5 A0A352D0K5 2.2 X-RAY DIFFRACTION 125 0.992 41978 (Ruminococcus sp.) 41978 (Ruminococcus sp.) 379 382 IPPSTFLPKRDKNVPYIAEVQSIPLSPSAYSVIIKDKSIFETSLSPNGSVSSSFLTSIFDSAYIASLKYKSDDNYKYIGIPLLNAFVEWQIEEIDDSLDDKSKEIIKSYLISKLSAKYENAVRVRLSICRDLYDTLSSDDLYYENKVYSLTLRRFLKAVYEDYALLSDCERERLIFADNIIKINEVIKQNGSRYYSFIYAYSNYSREKRRIRLIPYRIVSDEYKYNYLVCLSDEKSAGKEFKADSYRISRLSGLSIAEKLSQKEYSSVTEYERLKEGHVKSVKHLLSDPRFGSDESDISKVYLTEKGVEFRKILYQRPILKGNEKPKPNTVNEFISPPIQVKYYFNKFGKDGVILSPSDSFEERTLYVEGADAYNREVE LIPPSTFLPKRDKNVPYIAEVQSIPLSPSAYSVIIKDKSIFETSLGSVSSSFLTSIFDSAYIASLKYKSDDNYKYIGIPLLNAFVEWQIEEIDDSLDDKSKEIIKSYLISKLSAKYEKTKTENAVRVRLSICRDLYDTLSSDDLYYENKVYSLTLRRFLKAVYEDYALLSDCERERLIFADNIIKINEVIKQNGSRYYSFIYAYSNYSREKRRIRLIPYRIVSDEYKYNYLVCLSDEKSAGKEFKADSYRISRLSGLSIAEKLSQKEYSSVTEYERLKEGHVKSVKHLLSDPRFGSDESDISKVYLTEKGVEFRKILYQRPILKGNEKPKPNTVNEFISPPIQVKYYFNKFGKDGVILSPSDSFEERTLYVEGADAYNREVE 6ob1-a1-m1-cA_6ob1-a1-m1-cB Structure of WHB in complex with Ubiquitin Variant NOT SOLUTION NMR 148 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 GMQIFVDTVQWKTITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIQKESALILLLTLR GMQIFVDTVQWKTITLEVEPSDTIENVKAKIQDKEGIPPDQQRLDFAGKQLEDGRTLSDYNIQKESALILLLTLR 6obj-a1-m8-cB_6obj-a1-m9-cB Structure of a DNA-bound dimer extracted from filamentous SgrAI endonuclease in its activated form Q9F6L0 Q9F6L0 3.5 ELECTRON MICROSCOPY 32 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 338 338 6obj-a1-m10-cA_6obj-a1-m9-cA 6obj-a1-m10-cB_6obj-a1-m9-cB 6obj-a1-m1-cA_6obj-a1-m3-cA 6obj-a1-m1-cA_6obj-a1-m4-cA 6obj-a1-m1-cB_6obj-a1-m3-cB 6obj-a1-m1-cB_6obj-a1-m4-cB 6obj-a1-m2-cA_6obj-a1-m3-cA 6obj-a1-m2-cB_6obj-a1-m3-cB 6obj-a1-m4-cA_6obj-a1-m5-cA 6obj-a1-m4-cB_6obj-a1-m5-cB 6obj-a1-m5-cA_6obj-a1-m6-cA 6obj-a1-m5-cB_6obj-a1-m6-cB 6obj-a1-m6-cA_6obj-a1-m7-cA 6obj-a1-m6-cB_6obj-a1-m7-cB 6obj-a1-m7-cA_6obj-a1-m8-cA 6obj-a1-m7-cB_6obj-a1-m8-cB 6obj-a1-m8-cA_6obj-a1-m9-cA PFTYSIEATRNLATTERCIQDIRNAPVRNRSTQFQLAQQNMLAYTFGEVIPGFASAGINGMDYRDVIGRPVENAVTEGTHFFRDDFRVDSNAKAKVAGDIFEIVSSAVMWNCAARWNSLMVGEGWRSQPRYSRPTLSPSPRRQVAVLNLPRSFDWVSLLVPESQEVIEEFRAGLRKDGLGLPTSTPDLAVVVLPEEFQNDEMWREEIAGLTRPNQILLSGAYQRLQGRVQPGEISLAVAFKRSLRSDRLYQPLYEANVMQLLLEGKLGAPKVEFEVHTLAPEGTNAFVTYEAASLYGLAEGRSAVHRAIRELYVPPTAADLARRFFAFLNERMELVNG PFTYSIEATRNLATTERCIQDIRNAPVRNRSTQFQLAQQNMLAYTFGEVIPGFASAGINGMDYRDVIGRPVENAVTEGTHFFRDDFRVDSNAKAKVAGDIFEIVSSAVMWNCAARWNSLMVGEGWRSQPRYSRPTLSPSPRRQVAVLNLPRSFDWVSLLVPESQEVIEEFRAGLRKDGLGLPTSTPDLAVVVLPEEFQNDEMWREEIAGLTRPNQILLSGAYQRLQGRVQPGEISLAVAFKRSLRSDRLYQPLYEANVMQLLLEGKLGAPKVEFEVHTLAPEGTNAFVTYEAASLYGLAEGRSAVHRAIRELYVPPTAADLARRFFAFLNERMELVNG 6obt-a1-m1-cA_6obt-a1-m2-cA Structural insights into dehydratase substrate selection for the borrelidin and fluvirucin polyketide synthases Q70I00 Q70I00 1.8 X-RAY DIFFRACTION 74 1.0 146923 (Streptomyces parvulus) 146923 (Streptomyces parvulus) 268 268 DVTAVGLTEAGHAFVPAAVDLPDGQRVWTGRLSLPSYPWLADHQVLGQVLLPGVVWVELALHAGHQAGCDSVDELTLQSPLVLGASDTVQVRVVVTETEEPGTRTVSMHSRRDDGSWVTHAEGILGAGGPPPEPLPEWPPTGAMPLDVEGFYDELAAGGYHYGPQFRCLRRAWRAGEDLVAEISLPEGTDVDAYGLHPGLFDAAVHSVACPRLPFAFSDVRLFATGVTSLRVRIDPQNSSWQAWDESGLPVLTIGRLVLRSATGARRQ DVTAVGLTEAGHAFVPAAVDLPDGQRVWTGRLSLPSYPWLADHQVLGQVLLPGVVWVELALHAGHQAGCDSVDELTLQSPLVLGASDTVQVRVVVTETEEPGTRTVSMHSRRDDGSWVTHAEGILGAGGPPPEPLPEWPPTGAMPLDVEGFYDELAAGGYHYGPQFRCLRRAWRAGEDLVAEISLPEGTDVDAYGLHPGLFDAAVHSVACPRLPFAFSDVRLFATGVTSLRVRIDPQNSSWQAWDESGLPVLTIGRLVLRSATGARRQ 6obv-a2-m1-cD_6obv-a2-m1-cC Structural insights into dehydratase substrate selection for the borrelidin and fluvirucin polyketide synthases J9WMQ1 J9WMQ1 2.01 X-RAY DIFFRACTION 76 1.0 1233071 (Actinomadura vulgaris) 1233071 (Actinomadura vulgaris) 277 288 6obv-a1-m1-cB_6obv-a1-m1-cA SDAGGLGQAAVDHPMLGAAVELPDQGGMVLTGRISTTTHPWLADHGVGETVLFPGTGFVELAVRAGDEVGCPVLEELTLEAPLVIEGDEPVQLQVAVTAAGEDGRREVAVHARTGQRPWTRHAAGTLTATSSTPSPADEQWPPAGAAAVDVSGHYEALANTGYGYGPAFQGLKRAWIRGNEVFAEVELDEREAAEAGGYGIHPALLDAALHATGLIEQAEGVALPFAWNGVELLASGAQRVRVHAQPTDDGATSLHITDTTGAPVAGITSLISRPLP ASDAGGLGQAAVDHPMLGAAVELPDQGGMVLTGRISTTTHPWLADHGVGETVLFPGTGFVELAVRAGDEVGCPVLEELTLEAPLVIEGDEPVQLQVAVTAAGEDGRREVAVHARTGQRPWTRHAAGTLTATSSTPSPADEQWPPAGAAAVDVSGHYEALANTGYGYGPAFQGLKRAWIRGNEVFAEVELDEREAAEAGGYGIHPALLDAALHATGLIEQAEGVALPFAWNGVELLASGAQRVRVHAQPTDDGATSLHITDTTGAPVAGITSLISRPLPAGGLSSRPRS 6oby-a1-m1-cA_6oby-a1-m1-cB The nucleotide-binding protein AF_226 in complex with ADP from Archaeoglobus fulgidus with Co found by PIXE. Based on 3KB1. O28015 O28015 2.87 X-RAY DIFFRACTION 53 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 237 237 3kb1-a1-m1-cA_3kb1-a1-m1-cB RVTDEDIKERLDKIGFRIAVSGKGGVGKSTVTALLAVHYAKQGKKVGILDADFLGPSIPHLFGLEKGKVAVSDEGLEPVLTQRLGIKVSIQFLLLIAGIREFLGRVAWGELDYLLIDLPPGTGDAPLTVQDAKPNGAVIVSTPQELTAAVVEKAITAEQTKTAVLGIVENAYFECPNCGERTYLFGEGKASELARKYKIEFITEIPIDSDLLKLSDLGRVEEYEPDWFEFFPYLEHH RVTDEDIKERLDKIGFRIAVSGKGGVGKSTVTALLAVHYAKQGKKVGILDADFLGPSIPHLFGLEKGKVAVSDEGLEPVLTQRLGIKVSIQFLLLIAGIREFLGRVAWGELDYLLIDLPPGTGDAPLTVQDAKPNGAVIVSTPQELTAAVVEKAITAEQTKTAVLGIVENAYFECPNCGERTYLFGEGKASELARKYKIEFITEIPIDSDLLKLSDLGRVEEYEPDWFEFFPYLEHH 6oce-a1-m1-cA_6oce-a1-m1-cB Structure of the rice hyperosmolality-gated ion channel OSCA1.2 Q5TKG1 Q5TKG1 4.9 ELECTRON MICROSCOPY 63 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 689 689 TVSDIGLSAAINVSMAVAFLLVFAFLRLQPINDRVYFPKWLNMRSYLKFLSWMPAALKMPEDELINHAGLDSAVYLRIYLTGIKIFVPISILASLVLFPVNWTNDTLDSMKVVHSKIDKLSISNIPYGSNRFVTHLVMAYAVTFWTCYVLFREYEIITTMRLRFLASEKRRPDQFTVLVRNIPPDPDESISELVEHFFLVNHPDHYLRHQVVYNANKLADLVEKKKKLQNWLDYYQLKYERNPSKRPTTKTGFLGCFGSEVDAIEYYKAEIEKIGKEEADERQKIMKDPQSAVPAAFVSFRSRWGAAVCAQTQQTSNPTVWITEWAPEPRDVYWNNLSIPFVSLTVRRLIVAVAFFFLNFFYVIPIAFVQSLASLEGIEKALPFLKPLIKIDVIKSFIQGFLPGIALKVFLILLPTILMFMSKFEGLISQSSLERRSASKYYIFLFFNVFLGSIVTGSALDQLKAYIHQSANEIPRTIGVAIPMRATFFITYVMVDGWTGVAGEILRLRALIIFHLKNFFLVKTEKDREEAMDPGSICFDWCEPRIQLYFLLGLVYAVVTPLLLPFILVFFGLAYVVYRHQIINVYNQQYESGAQFWPSVHGRIIIALIVSQLLLIGLLSTKGFEETTPVLVVLPVLTFWFYKYCKNRFEPAFVRNPLQEAMRKDTLERAREPTFDLKAYLANAYLHPV TVSDIGLSAAINVSMAVAFLLVFAFLRLQPINDRVYFPKWLNMRSYLKFLSWMPAALKMPEDELINHAGLDSAVYLRIYLTGIKIFVPISILASLVLFPVNWTNDTLDSMKVVHSKIDKLSISNIPYGSNRFVTHLVMAYAVTFWTCYVLFREYEIITTMRLRFLASEKRRPDQFTVLVRNIPPDPDESISELVEHFFLVNHPDHYLRHQVVYNANKLADLVEKKKKLQNWLDYYQLKYERNPSKRPTTKTGFLGCFGSEVDAIEYYKAEIEKIGKEEADERQKIMKDPQSAVPAAFVSFRSRWGAAVCAQTQQTSNPTVWITEWAPEPRDVYWNNLSIPFVSLTVRRLIVAVAFFFLNFFYVIPIAFVQSLASLEGIEKALPFLKPLIKIDVIKSFIQGFLPGIALKVFLILLPTILMFMSKFEGLISQSSLERRSASKYYIFLFFNVFLGSIVTGSALDQLKAYIHQSANEIPRTIGVAIPMRATFFITYVMVDGWTGVAGEILRLRALIIFHLKNFFLVKTEKDREEAMDPGSICFDWCEPRIQLYFLLGLVYAVVTPLLLPFILVFFGLAYVVYRHQIINVYNQQYESGAQFWPSVHGRIIIALIVSQLLLIGLLSTKGFEETTPVLVVLPVLTFWFYKYCKNRFEPAFVRNPLQEAMRKDTLERAREPTFDLKAYLANAYLHPV 6od3-a4-m1-cJ_6od3-a4-m1-cI Human TCF4 C-terminal bHLH domain in Complex with 13-bp Oligonucleotide Containing E-box Sequence P15884 P15884 1.494 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 52 59 6od3-a3-m1-cG_6od3-a3-m1-cH ERLRVRDINEAFKELGRMVQLHLKSDKPQTKLLILHQAVAVILSLEQQVRER RMANNARERLRVRDINEAFKELGRMVQLHLKSDKPQTKLLILHQAVAVILSLEQQVRER 6od5-a1-m1-cB_6od5-a1-m1-cA Human TCF4 C-terminal bHLH domain in Complex with 12-bp Oligonucleotide Containing E-box Sequence with 5-carboxylcytosines P15884 P15884 2.05 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 62 6od3-a1-m1-cB_6od3-a1-m1-cA 6od3-a2-m1-cF_6od3-a2-m1-cE 6od4-a1-m1-cA_6od4-a1-m1-cB 6od4-a2-m1-cG_6od4-a2-m1-cH 6od5-a2-m1-cC_6od5-a2-m1-cD MRRMANNARERLRVRDINEAFKELGRMVQLHLKSDKPQTKLLILHQAVAVILSLEQQVRE HMRRMANNARERLRVRDINEAFKELGRMVQLHLKSDKPQTKLLILHQAVAVILSLEQQVRER 6od8-a1-m1-cB_6od8-a1-m1-cA Crystal structure of a putative aspartyl-tRNA synthetase from Leishmania major Friedlin Q4Q7R2 Q4Q7R2 1.85 X-RAY DIFFRACTION 304 0.99 5664 (Leishmania major) 5664 (Leishmania major) 505 506 ADEKAALVEKYKAVFGAAPMVQSTTYKSRTHIPVSELSRPELVDKTVLIRARVSTTRKKGKMAFMVLRDGSDSVQAMAAVEGDVPKEMIDFMGQIATESIVDVEATVCKVEQPITSTSHSDIELKVKKIHTVTESLRTLPFTLEDASRKESKVNLDTRLNSRWMDLRTLASGAIFRLQSRVCQYFRQFLIDKDFCEIHSPKIINAPSVFKLEYFNRFAYLAQSPQLYKQMVLQGDVPRVFEVGPVFRSENTHRHLTEFVGLDVEMRIDEHYYEVLDVAESLFNYIFERLATHTKELKNVCQQYPFEPLVWKLTPERIKELGVGVISEGVVPTDKFQARVHNMDSRMLRINYMHCIELLNTVLDEKMAPTDDINTTNEKLLGKLVKERYGTDFFISDRFPSSARPFYTMECKDDVRFTNSYDMFIRGEEISSGAQRIHDPDLLLARAKMLNVDLTPIKEYVDSFRLGAWPHGGFGIGLERVVMLYLGLSNVRLASLFPRDPQRTTP AALVEKYKAVFGAAPMVQSTTYKSRTHIPVSELSRPELVDKTVLIRARVSTTRKKGKMAFMVLRDGSDSVQAMAAVEGDVPKEMIDFMGQIATESIVDVEATVCKVEQPITSTSHSDIELKVKKIHTVTESLRTLPFTLEDASRKESAEGAKVNLDTRLNSRWMDLRTLASGAIFRLQSRVCQYFRQFLIDKDFCEIHSPKIINAPVFKLEYFNRFAYLAQSPQLYKQMVLQGDVPRVFEVGPVFRSENSNTHRHLTEFVGLDVEMRIDEHYYEVLDVAESLFNYIFERLATHTKELKNVCQQYPFEPLVWKLTPERIKELGVGVISEGVVPTDKFQARVHNMDSRMLRINYMHCIELLNTVLDEKMAPTDDINTTNEKLLGKLVKERYGTDFFISDRFPSSARPFYTMECKDDVRFTNSYDMFIRGEEISSGAQRIHDPDLLLARAKMLNVDLTPIKEYVDSFRLGAWPHGGFGIGLERVVMLYLGLSNVRLASLFPRDPQRTTP 6odg-a1-m4-cA_6odg-a1-m5-cA SVQIVY, Crystal Structure of a tau protein fragment P10636 P10636 1 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6odg-a1-m1-cA_6odg-a1-m2-cA 6odg-a1-m2-cA_6odg-a1-m3-cA 6odg-a1-m3-cA_6odg-a1-m4-cA SVQIVY SVQIVY 6odg-a1-m4-cB_6odg-a1-m5-cB SVQIVY, Crystal Structure of a tau protein fragment P10636 P10636 1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6odg-a1-m1-cB_6odg-a1-m2-cB 6odg-a1-m2-cB_6odg-a1-m3-cB 6odg-a1-m3-cB_6odg-a1-m4-cB SVQIVY SVQIVY 6ody-a1-m1-cE_6ody-a1-m1-cF Cryo-EM structure of Helicobacter pylori VacA hexamer Q48245 Q48245 3.8 ELECTRON MICROSCOPY 47 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 693 693 6ody-a1-m1-cA_6ody-a1-m1-cB 6ody-a1-m1-cA_6ody-a1-m1-cF 6ody-a1-m1-cB_6ody-a1-m1-cC 6ody-a1-m1-cC_6ody-a1-m1-cD 6ody-a1-m1-cD_6ody-a1-m1-cE XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXQPTQVIDGPFAGGKDTVVNIDRINTKADGTIKVGGFKASLTTNAAHLNIGKGGVNLSNQASGRTLLVENLTGNITVDGPLRVNNQVGGYALAGSSANFEFKAGVDTKNGTATFNNDISLGRFVNLKVDAHTANFKGIDTGNGGFNTLDFSGVTNKVNINKLITASTNVAVKNFNINELIVKTNGVSVGEYTHFSEDIGSQSRINTVRLETGTRSIFSGGVKFKSGEKLVIDEFYYSPWNYFDARNIKNVEITRKFASSTPENPWGTSKLMFNNLTLGQNAVMDYSQFSNLTIQGDFINNQGTINYLVRGGKVATLNVGNAAAMMFNNDIDSATGFYKPLIKINSAQDLIKNTEHVLLKAKIIGYGNVSTGTNGISNVNLEEQFKERLALYNNNNRMDTCVVRNTDDIKACGMAIGNQSMVNNPDNYKYLIGKAWKNIGISKTANGSKISVYYLGNSTPTENGGNTTNLPTNT XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXQPTQVIDGPFAGGKDTVVNIDRINTKADGTIKVGGFKASLTTNAAHLNIGKGGVNLSNQASGRTLLVENLTGNITVDGPLRVNNQVGGYALAGSSANFEFKAGVDTKNGTATFNNDISLGRFVNLKVDAHTANFKGIDTGNGGFNTLDFSGVTNKVNINKLITASTNVAVKNFNINELIVKTNGVSVGEYTHFSEDIGSQSRINTVRLETGTRSIFSGGVKFKSGEKLVIDEFYYSPWNYFDARNIKNVEITRKFASSTPENPWGTSKLMFNNLTLGQNAVMDYSQFSNLTIQGDFINNQGTINYLVRGGKVATLNVGNAAAMMFNNDIDSATGFYKPLIKINSAQDLIKNTEHVLLKAKIIGYGNVSTGTNGISNVNLEEQFKERLALYNNNNRMDTCVVRNTDDIKACGMAIGNQSMVNNPDNYKYLIGKAWKNIGISKTANGSKISVYYLGNSTPTENGGNTTNLPTNT 6oe2-a1-m1-cA_6oe2-a1-m2-cA X-Ray Structure of the C-terminal domain (277-440) of Putative chitobiase from Bacteroides thetaiotaomicron. Northeast Structural Genomics Consortium Target BtR324A. Re-refinement of 3GGL with correct metal Mn replacing Zn. New metal confirmed with PIXE analysis of original sample. Q8A9F0 Q8A9F0 3 X-RAY DIFFRACTION 68 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 160 160 3ggl-a2-m1-cA_3ggl-a2-m2-cA DTYTGFCIIKEGTKISKSGWEVLSFTTQEASGEGAGNGLAKCLIDGDTETFWHAKWQGGSDPLPYDIVIDKQNIQIAQVELLPRGRGSNNPIKVVEFAASEDNVNWTPIGRFGFTNQDAALEYYVKSIKARYIRLTIPDDGGNSTVAAIRELDVKGTIIN DTYTGFCIIKEGTKISKSGWEVLSFTTQEASGEGAGNGLAKCLIDGDTETFWHAKWQGGSDPLPYDIVIDKQNIQIAQVELLPRGRGSNNPIKVVEFAASEDNVNWTPIGRFGFTNQDAALEYYVKSIKARYIRLTIPDDGGNSTVAAIRELDVKGTIIN 6of0-a1-m1-cA_6of0-a1-m1-cB Structural basis for multidrug recognition and antimicrobial resistance by MTRR, an efflux pump regulator from Neisseria Gonorrhoeae P39897 P39897 2 X-RAY DIFFRACTION 106 0.995 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 192 196 3vib-a1-m1-cA_3vib-a1-m1-cB 3vib-a2-m1-cD_3vib-a2-m1-cC 6of0-a2-m1-cD_6of0-a2-m1-cC 7jnp-a1-m1-cB_7jnp-a1-m1-cA 7ju3-a1-m1-cA_7ju3-a1-m1-cB ALKTKEHLMLAALETFYRKGIARTSLNEIAQAAGVTRGALYWHFKNKEDLFDALFQRICDDIENCGSWTVFRHTLLHFFERLQSNDIHYKFHNILFLKCEHTEQNAAVIAIARKHQAIWREKITAVLTEAVENQDLADDLDKETAVIFIKSTLDGLIWRWFSSGESFDLGKTAPRIIGIMMDNLENHPCLRR LKTKEHLMLAALETFYRKGIARTSLNEIAQAAGVTRGALYWHFKNKEDLFDALFQRICDDIENCIAQGGSWTVFRHTLLHFFERLQSNDIHYKFHNILFLKCEHTEQNAAVIAIARKHQAIWREKITAVLTEAVENQDLADDLDKETAVIFIKSTLDGLIWRWFSSGESFDLGKTAPRIIGIMMDNLENHPCLRRK 6of4-a1-m1-cA_6of4-a1-m1-cD Precursor ribosomal RNA processing complex, apo-state. G0SGE9 G0SGE9 3.2 ELECTRON MICROSCOPY 115 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 183 183 6of2-a1-m1-cA_6of2-a1-m1-cD 6of3-a1-m1-cA_6of3-a1-m1-cD MVQYIFTPWRNRAELLAVRAQFYPEHTSFQDDEHIRSEKQKAVARVSMWMQRGGCPHMVESTALLVAAILSDEAQGSGAAGGYAVRAAYSAAFSRFVTGLLDSHQDQSMYDVAKAVGLPAAFVELRHQATHEQLPSLTRLRSAARRALEWIWWYYWKGLGPVDQSGWVLYDEKEWVPKPIGIV MVQYIFTPWRNRAELLAVRAQFYPEHTSFQDDEHIRSEKQKAVARVSMWMQRGGCPHMVESTALLVAAILSDEAQGSGAAGGYAVRAAYSAAFSRFVTGLLDSHQDQSMYDVAKAVGLPAAFVELRHQATHEQLPSLTRLRSAARRALEWIWWYYWKGLGPVDQSGWVLYDEKEWVPKPIGIV 6ofd-a1-m1-cD_6ofd-a1-m1-cB The crystal structure of octadecyloxy(naphthalen-1-yl)methylphosphonic acid in complex with red kidney bean purple acid phosphatase P80366 P80366 2.2 X-RAY DIFFRACTION 21 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 424 425 1kbp-a1-m1-cB_1kbp-a1-m2-cB 1kbp-a1-m1-cC_1kbp-a1-m2-cC 1kbp-a2-m1-cA_1kbp-a2-m1-cD 1kbp-a2-m3-cA_1kbp-a2-m3-cD 3kbp-a4-m1-cB_3kbp-a4-m3-cB 3kbp-a4-m1-cC_3kbp-a4-m3-cC 3kbp-a5-m1-cA_3kbp-a5-m1-cD 3kbp-a5-m2-cA_3kbp-a5-m2-cD 4dsy-a1-m1-cB_4dsy-a1-m1-cD 4dsy-a1-m1-cC_4dsy-a1-m1-cA 4dsy-a2-m1-cB_4dsy-a2-m1-cD 4dsy-a2-m1-cC_4dsy-a2-m1-cA 4kbp-a4-m1-cA_4kbp-a4-m1-cD 4kbp-a4-m2-cA_4kbp-a4-m2-cD 4kbp-a5-m1-cB_4kbp-a5-m3-cB 4kbp-a5-m1-cC_4kbp-a5-m3-cC 6g46-a1-m1-cA_6g46-a1-m1-cC 6g46-a1-m1-cD_6g46-a1-m1-cB 6of5-a1-m1-cC_6of5-a1-m1-cA 6of5-a1-m1-cD_6of5-a1-m1-cB 6ofd-a1-m1-cC_6ofd-a1-m1-cA 6py9-a1-m1-cC_6py9-a1-m1-cA 6py9-a1-m1-cD_6py9-a1-m1-cB 6vj7-a1-m1-cB_6vj7-a1-m1-cD 6vj7-a1-m1-cC_6vj7-a1-m1-cA NRDMPLDSDVFRVPPGYNAPQQVHITQGDLVGRAMIISWVTMDEPGSSAVRYWSEKNGRKRIAKGKMSTYRFFNYSSGFIHHTTIRKLKYNTKYYYEVGLRNTTRRFSFITPPQTGLDVPYTFGLIGDLGQSFDSNTTLSHYELSPKKGQTVLFVGDLSYADRYPNHDNVRWDTWGRFTERSVAYQPWIWTAGNHEIEFAPEINETEPFKPFSYRYHVPYEASQSTSPFWYSIKRASAHIIVLSSYSAYGRGTPQYTWLKKELRKVKRSETPWLIVLMHSPLYNSYNHHFMEGEAMRTKFEAWFVKYKVDVVFAGHVHAYERSERVSNIAYKITNGLCTPVKDQSAPVYITIGDAGNYGVIDSNMIQPQPEYSAFREASFGHGMFDIKNRTHAHFSWNRNQDGVAVEADSVWFFNRHWYPVDDS NRDMPLDSDVFRVPPGYNAPQQVHITQGDLVGRAMIISWVTMDEPGSSAVRYWSEKNGRKRIAKGKMSTYRFFNYSSGFIHHTTIRKLKYNTKYYYEVGLRNTTRRFSFITPPQTGLDVPYTFGLIGDLGQSFDSNTTLSHYELSPKKGQTVLFVGDLSYADRYPNHDNVRWDTWGRFTERSVAYQPWIWTAGNHEIEFAPEINETEPFKPFSYRYHVPYEASQSTSPFWYSIKRASAHIIVLSSYSAYGRGTPQYTWLKKELRKVKRSETPWLIVLMHSPLYNSYNHHFMEGEAMRTKFEAWFVKYKVDVVFAGHVHAYERSERVSNIAYKITNGLCTPVKDQSAPVYITIGDAGNYGVIDSNMIQPQPEYSAFREASFGHGMFDIKNRTHAHFSWNRNQDGVAVEADSVWFFNRHWYPVDDST 6off-a1-m1-cD_6off-a1-m1-cJ High-resolution filamentous structures of in vitro polymerized PrgI needle P41784 P41784 3.2 ELECTRON MICROSCOPY 53 1.0 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 78 78 2lpz-a1-m1-cA_2lpz-a1-m1-cG 2lpz-a1-m1-cB_2lpz-a1-m1-cH 2lpz-a1-m1-cC_2lpz-a1-m1-cI 2lpz-a1-m1-cD_2lpz-a1-m1-cJ 2lpz-a1-m1-cE_2lpz-a1-m1-cK 2lpz-a1-m1-cF_2lpz-a1-m1-cL 2lpz-a1-m1-cG_2lpz-a1-m1-cM 2lpz-a1-m1-cH_2lpz-a1-m1-cN 2lpz-a1-m1-cI_2lpz-a1-m1-cO 2lpz-a1-m1-cJ_2lpz-a1-m1-cP 2lpz-a1-m1-cK_2lpz-a1-m1-cQ 2lpz-a1-m1-cL_2lpz-a1-m1-cR 2lpz-a1-m1-cM_2lpz-a1-m1-cS 2lpz-a1-m1-cN_2lpz-a1-m1-cT 2lpz-a1-m1-cO_2lpz-a1-m1-cU 2lpz-a1-m1-cP_2lpz-a1-m1-cV 2lpz-a1-m1-cQ_2lpz-a1-m1-cW 2lpz-a1-m1-cR_2lpz-a1-m1-cX 2lpz-a1-m1-cS_2lpz-a1-m1-cY 2lpz-a1-m1-cT_2lpz-a1-m1-cZ 2lpz-a1-m1-cU_2lpz-a1-m1-ca 2lpz-a1-m1-cV_2lpz-a1-m1-cb 2lpz-a1-m1-cW_2lpz-a1-m1-cc 6dwb-a1-m1-cA_6dwb-a1-m1-cG 6dwb-a1-m1-cB_6dwb-a1-m1-cH 6dwb-a1-m1-cC_6dwb-a1-m1-cI 6dwb-a1-m1-cD_6dwb-a1-m1-cJ 6dwb-a1-m1-cE_6dwb-a1-m1-cK 6dwb-a1-m1-cF_6dwb-a1-m1-cL 6dwb-a1-m1-cG_6dwb-a1-m1-cM 6dwb-a1-m1-cH_6dwb-a1-m1-cN 6dwb-a1-m1-cI_6dwb-a1-m1-cO 6dwb-a1-m1-cJ_6dwb-a1-m1-cP 6dwb-a1-m1-cK_6dwb-a1-m1-cQ 6dwb-a1-m1-cL_6dwb-a1-m1-cR 6dwb-a1-m1-cM_6dwb-a1-m1-cS 6dwb-a1-m1-cN_6dwb-a1-m1-cT 6dwb-a1-m1-cO_6dwb-a1-m1-cU 6dwb-a1-m1-cP_6dwb-a1-m1-cV 6dwb-a1-m1-cQ_6dwb-a1-m1-cW 6dwb-a1-m1-cR_6dwb-a1-m1-cX 6dwb-a1-m1-cS_6dwb-a1-m1-cY 6dwb-a1-m1-cT_6dwb-a1-m1-cZ 6dwb-a1-m1-cU_6dwb-a1-m1-ca 6dwb-a1-m1-cV_6dwb-a1-m1-cb 6dwb-a1-m1-cW_6dwb-a1-m1-cc 6dwb-a1-m1-cX_6dwb-a1-m1-cd 6ofe-a1-m1-cA_6ofe-a1-m1-cK 6ofe-a1-m1-cB_6ofe-a1-m1-cI 6ofe-a1-m1-cC_6ofe-a1-m1-cH 6ofe-a1-m1-cD_6ofe-a1-m1-cJ 6ofe-a1-m1-cE_6ofe-a1-m1-cG 6ofe-a1-m1-cF_6ofe-a1-m1-cL 6ofe-a1-m1-cG_6ofe-a1-m1-cM 6ofe-a1-m1-cH_6ofe-a1-m1-cN 6ofe-a1-m1-cI_6ofe-a1-m1-cO 6ofe-a1-m1-cJ_6ofe-a1-m1-cP 6ofe-a1-m1-cK_6ofe-a1-m1-cQ 6ofe-a1-m1-cL_6ofe-a1-m1-cR 6ofe-a1-m1-cM_6ofe-a1-m1-cS 6ofe-a1-m1-cN_6ofe-a1-m1-cT 6off-a1-m1-cA_6off-a1-m1-cG 6off-a1-m1-cB_6off-a1-m1-cH 6off-a1-m1-cC_6off-a1-m1-cI 6off-a1-m1-cE_6off-a1-m1-cK 6off-a1-m1-cF_6off-a1-m1-cL 6off-a1-m1-cG_6off-a1-m1-cM 6off-a1-m1-cH_6off-a1-m1-cN 6off-a1-m1-cI_6off-a1-m1-cO 6off-a1-m1-cJ_6off-a1-m1-cP 6off-a1-m1-cK_6off-a1-m1-cR 6off-a1-m1-cL_6off-a1-m1-cQ 6ofg-a1-m1-cA_6ofg-a1-m1-cG 6ofg-a1-m1-cB_6ofg-a1-m1-cH 6ofg-a1-m1-cC_6ofg-a1-m1-cI 6ofg-a1-m1-cD_6ofg-a1-m1-cJ 6ofg-a1-m1-cE_6ofg-a1-m1-cK 6ofg-a1-m1-cE_6ofg-a1-m1-cR 6ofg-a1-m1-cF_6ofg-a1-m1-cL 6ofg-a1-m1-cF_6ofg-a1-m1-cQ 6ofg-a1-m1-cG_6ofg-a1-m1-cM 6ofg-a1-m1-cH_6ofg-a1-m1-cN 6ofg-a1-m1-cI_6ofg-a1-m1-cO 6ofg-a1-m1-cJ_6ofg-a1-m1-cP 6ofh-a1-m1-cD_6ofh-a1-m1-cH 6ofh-a1-m1-cE_6ofh-a1-m1-cK 6ofh-a1-m1-cF_6ofh-a1-m1-cL 6ofh-a1-m1-cG_6ofh-a1-m1-cM 6ofh-a1-m1-cH_6ofh-a1-m1-cN 6ofh-a1-m1-cI_6ofh-a1-m1-cO 6ofh-a1-m1-cI_6ofh-a1-m1-cU 6ofh-a1-m1-cJ_6ofh-a1-m1-cP 6ofh-a1-m1-cJ_6ofh-a1-m1-cV 6ofh-a1-m1-cK_6ofh-a1-m1-cQ 6ofh-a1-m1-cL_6ofh-a1-m1-cR 6ofh-a1-m1-cM_6ofh-a1-m1-cS 6ofh-a1-m1-cN_6ofh-a1-m1-cT 6pep-a1-m1-cBE_6pep-a1-m1-cAY 6q15-a1-m1-cAX_6q15-a1-m1-cBD 6q15-a1-m1-cAY_6q15-a1-m1-cBE 6q15-a1-m1-cAZ_6q15-a1-m1-cBF 6q15-a1-m1-cBA_6q15-a1-m1-cBG 6q15-a1-m1-cBB_6q15-a1-m1-cBH 6q15-a1-m1-cBC_6q15-a1-m1-cBI 6q15-a1-m1-cBD_6q15-a1-m1-cBJ 6q15-a1-m1-cBE_6q15-a1-m1-cBK 6q15-a1-m1-cBF_6q15-a1-m1-cBL 6q15-a1-m1-cBG_6q15-a1-m1-cBM 6q15-a1-m1-cBH_6q15-a1-m1-cBN 6q15-a1-m1-cBI_6q15-a1-m1-cBO 6q15-a1-m1-cBJ_6q15-a1-m1-cBP 6q15-a1-m1-cBK_6q15-a1-m1-cBQ 6q15-a1-m1-cBL_6q15-a1-m1-cBR 6q15-a1-m1-cBM_6q15-a1-m1-cBS 6q15-a1-m1-cBN_6q15-a1-m1-cBT 6q15-a1-m1-cBO_6q15-a1-m1-cBU 6q15-a1-m1-cBP_6q15-a1-m1-cBV 6q16-a1-m1-cBE_6q16-a1-m1-cAY 6znh-a1-m1-cA_6znh-a1-m1-cG 6znh-a1-m1-cA_6znh-a1-m1-cR 6znh-a1-m1-cB_6znh-a1-m1-cH 6znh-a1-m1-cB_6znh-a1-m1-cQ 6znh-a1-m1-cC_6znh-a1-m1-cI 6znh-a1-m1-cC_6znh-a1-m1-cP 6znh-a1-m1-cD_6znh-a1-m1-cJ 6znh-a1-m1-cD_6znh-a1-m1-cO 6znh-a1-m1-cE_6znh-a1-m1-cK 6znh-a1-m1-cE_6znh-a1-m1-cN 6znh-a1-m1-cF_6znh-a1-m1-cL 6znh-a1-m1-cF_6znh-a1-m1-cM 6znh-a1-m1-cM_6znh-a1-m1-cS 6znh-a1-m1-cN_6znh-a1-m1-cT 6znh-a1-m1-cO_6znh-a1-m1-cU 6znh-a1-m1-cP_6znh-a1-m1-cV 6znh-a1-m1-cQ_6znh-a1-m1-cW 7agx-a1-m1-c2Q_7agx-a1-m1-c2K 7ah9-a1-m1-c2F_7ah9-a1-m1-c2L 7ah9-a1-m1-c2G_7ah9-a1-m1-c2M 7ah9-a1-m1-c2H_7ah9-a1-m1-c2N 7ah9-a1-m1-c2I_7ah9-a1-m1-c2O 7ah9-a1-m1-c2J_7ah9-a1-m1-c2P 7ah9-a1-m1-c2K_7ah9-a1-m1-c2Q 7ah9-a1-m1-c2L_7ah9-a1-m1-c2R 7ah9-a1-m1-c2M_7ah9-a1-m1-c2S 7ah9-a1-m1-c2N_7ah9-a1-m1-c2T 7ah9-a1-m1-c2O_7ah9-a1-m1-c2U 7ah9-a1-m1-c2P_7ah9-a1-m1-c2V 7ah9-a1-m1-c2Q_7ah9-a1-m1-c2W 7ah9-a1-m1-c2S_7ah9-a1-m1-c2Y 7ah9-a1-m1-c2U_7ah9-a1-m1-c3A 7ah9-a1-m1-c2V_7ah9-a1-m1-c3B 7ah9-a1-m1-c2X_7ah9-a1-m1-c2R 7ah9-a1-m1-c2X_7ah9-a1-m1-c3D 7ah9-a1-m1-c2Y_7ah9-a1-m1-c3E 7ah9-a1-m1-c2Z_7ah9-a1-m1-c2T 7ah9-a1-m1-c2Z_7ah9-a1-m1-c3F 7ah9-a1-m1-c3A_7ah9-a1-m1-c3G 7ah9-a1-m1-c3C_7ah9-a1-m1-c2W 7ah9-a1-m1-c3C_7ah9-a1-m1-c3I 7ah9-a1-m1-c3D_7ah9-a1-m1-c3J 7ah9-a1-m1-c3E_7ah9-a1-m1-c3K 7ah9-a1-m1-c3H_7ah9-a1-m1-c3B 7ah9-a1-m1-c3H_7ah9-a1-m1-c3N 7ah9-a1-m1-c3L_7ah9-a1-m1-c3F 7ah9-a1-m1-c3L_7ah9-a1-m1-c3R 7ah9-a1-m1-c3M_7ah9-a1-m1-c3G 7ah9-a1-m1-c3O_7ah9-a1-m1-c3I 7ah9-a1-m1-c3O_7ah9-a1-m1-c3U 7ah9-a1-m1-c3P_7ah9-a1-m1-c3J 7ah9-a1-m1-c3P_7ah9-a1-m1-c3V 7ah9-a1-m1-c3Q_7ah9-a1-m1-c3K 7ah9-a1-m1-c3Q_7ah9-a1-m1-c3W 7ah9-a1-m1-c3R_7ah9-a1-m1-c3X 7ah9-a1-m1-c3S_7ah9-a1-m1-c3M 7ah9-a1-m1-c3S_7ah9-a1-m1-c3Y 7ah9-a1-m1-c3T_7ah9-a1-m1-c3N 7ah9-a1-m1-c3T_7ah9-a1-m1-c3Z 7ah9-a1-m1-c3U_7ah9-a1-m1-c4A 7ah9-a1-m1-c3V_7ah9-a1-m1-c4B 7ah9-a1-m1-c3W_7ah9-a1-m1-c4C 7ah9-a1-m1-c3X_7ah9-a1-m1-c4D 7ah9-a1-m1-c3Y_7ah9-a1-m1-c4E 7ah9-a1-m1-c3Z_7ah9-a1-m1-c4F 7ah9-a1-m1-c4A_7ah9-a1-m1-c4G 7ah9-a1-m1-c4B_7ah9-a1-m1-c4H 7ah9-a1-m1-c4C_7ah9-a1-m1-c4I 7ah9-a1-m1-c4D_7ah9-a1-m1-c4J 7ah9-a1-m1-c4E_7ah9-a1-m1-c4K 7ah9-a1-m1-c4F_7ah9-a1-m1-c4L 7ah9-a1-m1-c4G_7ah9-a1-m1-c4M 7ah9-a1-m1-c4H_7ah9-a1-m1-c4N 7ah9-a1-m1-c4I_7ah9-a1-m1-c4O 7ah9-a1-m1-c4J_7ah9-a1-m1-c4P 7ah9-a1-m1-c4K_7ah9-a1-m1-c4Q 7ah9-a1-m1-c4L_7ah9-a1-m1-c4R 7ah9-a1-m1-c4M_7ah9-a1-m1-c4S 7ah9-a1-m1-c4N_7ah9-a1-m1-c4T 7ahi-a1-m1-c2F_7ahi-a1-m1-c2L 7ahi-a1-m1-c2G_7ahi-a1-m1-c2M 7ahi-a1-m1-c2H_7ahi-a1-m1-c2N 7ahi-a1-m1-c2I_7ahi-a1-m1-c2O 7ahi-a1-m1-c2J_7ahi-a1-m1-c2P 7ahi-a1-m1-c2K_7ahi-a1-m1-c2Q 7ahi-a1-m1-c2L_7ahi-a1-m1-c2R 7ahi-a1-m1-c2M_7ahi-a1-m1-c2S 7ahi-a1-m1-c2N_7ahi-a1-m1-c2T 7ahi-a1-m1-c2O_7ahi-a1-m1-c2U 7ahi-a1-m1-c2P_7ahi-a1-m1-c2V 7ahi-a1-m1-c2Q_7ahi-a1-m1-c2W 7ahi-a1-m1-c2S_7ahi-a1-m1-c2Y 7ahi-a1-m1-c2U_7ahi-a1-m1-c3A 7ahi-a1-m1-c2V_7ahi-a1-m1-c3B 7ahi-a1-m1-c2X_7ahi-a1-m1-c2R 7ahi-a1-m1-c2X_7ahi-a1-m1-c3D 7ahi-a1-m1-c2Y_7ahi-a1-m1-c3E 7ahi-a1-m1-c2Z_7ahi-a1-m1-c2T 7ahi-a1-m1-c2Z_7ahi-a1-m1-c3F 7ahi-a1-m1-c3A_7ahi-a1-m1-c3G 7ahi-a1-m1-c3C_7ahi-a1-m1-c2W 7ahi-a1-m1-c3C_7ahi-a1-m1-c3I 7ahi-a1-m1-c3D_7ahi-a1-m1-c3J 7ahi-a1-m1-c3E_7ahi-a1-m1-c3K 7ahi-a1-m1-c3H_7ahi-a1-m1-c3B 7ahi-a1-m1-c3H_7ahi-a1-m1-c3N 7ahi-a1-m1-c3L_7ahi-a1-m1-c3F 7ahi-a1-m1-c3L_7ahi-a1-m1-c3R 7ahi-a1-m1-c3M_7ahi-a1-m1-c3G 7ahi-a1-m1-c3O_7ahi-a1-m1-c3I 7ahi-a1-m1-c3O_7ahi-a1-m1-c3U 7ahi-a1-m1-c3P_7ahi-a1-m1-c3J 7ahi-a1-m1-c3P_7ahi-a1-m1-c3V 7ahi-a1-m1-c3Q_7ahi-a1-m1-c3K 7ahi-a1-m1-c3Q_7ahi-a1-m1-c3W 7ahi-a1-m1-c3R_7ahi-a1-m1-c3X 7ahi-a1-m1-c3S_7ahi-a1-m1-c3M 7ahi-a1-m1-c3S_7ahi-a1-m1-c3Y 7ahi-a1-m1-c3T_7ahi-a1-m1-c3N 7ahi-a1-m1-c3T_7ahi-a1-m1-c3Z 7ahi-a1-m1-c3U_7ahi-a1-m1-c4A 7ahi-a1-m1-c3V_7ahi-a1-m1-c4B 7ahi-a1-m1-c3W_7ahi-a1-m1-c4C 7ahi-a1-m1-c3X_7ahi-a1-m1-c4D 7ahi-a1-m1-c3Y_7ahi-a1-m1-c4E 7ahi-a1-m1-c3Z_7ahi-a1-m1-c4F 7ahi-a1-m1-c4A_7ahi-a1-m1-c4G 7ahi-a1-m1-c4B_7ahi-a1-m1-c4H 7ahi-a1-m1-c4C_7ahi-a1-m1-c4I 7ahi-a1-m1-c4D_7ahi-a1-m1-c4J 7ahi-a1-m1-c4E_7ahi-a1-m1-c4K 7ahi-a1-m1-c4F_7ahi-a1-m1-c4L 7ahi-a1-m1-c4G_7ahi-a1-m1-c4M 7ahi-a1-m1-c4H_7ahi-a1-m1-c4N 7ahi-a1-m1-c4I_7ahi-a1-m1-c4O 7ahi-a1-m1-c4J_7ahi-a1-m1-c4P 7ahi-a1-m1-c4K_7ahi-a1-m1-c4Q 7ahi-a1-m1-c4L_7ahi-a1-m1-c4R 7ahi-a1-m1-c4M_7ahi-a1-m1-c4S 7ahi-a1-m1-c4N_7ahi-a1-m1-c4T 7rye-a1-m1-cA_7rye-a1-m1-cD 7rye-a1-m1-cB_7rye-a1-m1-cS 7rye-a1-m1-cC_7rye-a1-m1-cQ 7rye-a1-m1-cD_7rye-a1-m1-cN 7rye-a1-m1-cE_7rye-a1-m1-cC 7rye-a1-m1-cG_7rye-a1-m1-cJ 7rye-a1-m1-cH_7rye-a1-m1-cK 7rye-a1-m1-cI_7rye-a1-m1-cB 7rye-a1-m1-cJ_7rye-a1-m1-cP 7rye-a1-m1-cK_7rye-a1-m1-cM 7rye-a1-m1-cT_7rye-a1-m1-cA 7rye-a1-m1-cU_7rye-a1-m1-cL 7rye-a1-m1-cW_7rye-a1-m1-cL TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 6off-a1-m1-cF_6off-a1-m1-cK High-resolution filamentous structures of in vitro polymerized PrgI needle P41784 P41784 3.2 ELECTRON MICROSCOPY 40 1.0 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 78 78 6ofe-a1-m1-cA_6ofe-a1-m1-cJ 6ofe-a1-m1-cB_6ofe-a1-m1-cH 6ofe-a1-m1-cC_6ofe-a1-m1-cG 6ofe-a1-m1-cD_6ofe-a1-m1-cI 6ofe-a1-m1-cE_6ofe-a1-m1-cF 6ofe-a1-m1-cF_6ofe-a1-m1-cK 6ofe-a1-m1-cG_6ofe-a1-m1-cL 6ofe-a1-m1-cH_6ofe-a1-m1-cM 6ofe-a1-m1-cI_6ofe-a1-m1-cN 6ofe-a1-m1-cJ_6ofe-a1-m1-cO 6ofe-a1-m1-cK_6ofe-a1-m1-cP 6ofe-a1-m1-cL_6ofe-a1-m1-cQ 6ofe-a1-m1-cM_6ofe-a1-m1-cR 6ofe-a1-m1-cN_6ofe-a1-m1-cS 6ofe-a1-m1-cO_6ofe-a1-m1-cT 6off-a1-m1-cA_6off-a1-m1-cF 6off-a1-m1-cB_6off-a1-m1-cG 6off-a1-m1-cC_6off-a1-m1-cH 6off-a1-m1-cD_6off-a1-m1-cI 6off-a1-m1-cE_6off-a1-m1-cJ 6off-a1-m1-cG_6off-a1-m1-cL 6off-a1-m1-cH_6off-a1-m1-cM 6off-a1-m1-cI_6off-a1-m1-cN 6off-a1-m1-cJ_6off-a1-m1-cO 6off-a1-m1-cK_6off-a1-m1-cP 6off-a1-m1-cL_6off-a1-m1-cR 6off-a1-m1-cM_6off-a1-m1-cQ 6ofg-a1-m1-cA_6ofg-a1-m1-cF 6ofg-a1-m1-cB_6ofg-a1-m1-cG 6ofg-a1-m1-cC_6ofg-a1-m1-cH 6ofg-a1-m1-cD_6ofg-a1-m1-cI 6ofg-a1-m1-cD_6ofg-a1-m1-cR 6ofg-a1-m1-cE_6ofg-a1-m1-cJ 6ofg-a1-m1-cE_6ofg-a1-m1-cQ 6ofg-a1-m1-cF_6ofg-a1-m1-cK 6ofg-a1-m1-cG_6ofg-a1-m1-cL 6ofg-a1-m1-cH_6ofg-a1-m1-cM 6ofg-a1-m1-cI_6ofg-a1-m1-cN 6ofg-a1-m1-cJ_6ofg-a1-m1-cO 6ofg-a1-m1-cK_6ofg-a1-m1-cP 6ofh-a1-m1-cD_6ofh-a1-m1-cG 6ofh-a1-m1-cE_6ofh-a1-m1-cJ 6ofh-a1-m1-cF_6ofh-a1-m1-cK 6ofh-a1-m1-cG_6ofh-a1-m1-cL 6ofh-a1-m1-cH_6ofh-a1-m1-cM 6ofh-a1-m1-cH_6ofh-a1-m1-cU 6ofh-a1-m1-cI_6ofh-a1-m1-cN 6ofh-a1-m1-cI_6ofh-a1-m1-cV 6ofh-a1-m1-cJ_6ofh-a1-m1-cO 6ofh-a1-m1-cK_6ofh-a1-m1-cP 6ofh-a1-m1-cL_6ofh-a1-m1-cQ 6ofh-a1-m1-cM_6ofh-a1-m1-cR 6ofh-a1-m1-cN_6ofh-a1-m1-cS 6ofh-a1-m1-cO_6ofh-a1-m1-cT 6pep-a1-m1-cBD_6pep-a1-m1-cAY 6q16-a1-m1-cBD_6q16-a1-m1-cAY 7agx-a1-m1-c2P_7agx-a1-m1-c2K 7ah9-a1-m1-c4O_7ah9-a1-m1-c4T 7ahi-a1-m1-c4O_7ahi-a1-m1-c4T 7rye-a1-m1-cA_7rye-a1-m1-cC 7rye-a1-m1-cB_7rye-a1-m1-cM 7rye-a1-m1-cD_7rye-a1-m1-cJ 7rye-a1-m1-cD_7rye-a1-m1-cQ 7rye-a1-m1-cE_7rye-a1-m1-cL 7rye-a1-m1-cE_7rye-a1-m1-cT 7rye-a1-m1-cG_7rye-a1-m1-cA 7rye-a1-m1-cH_7rye-a1-m1-cJ 7rye-a1-m1-cI_7rye-a1-m1-cK 7rye-a1-m1-cK_7rye-a1-m1-cP 7rye-a1-m1-cL_7rye-a1-m1-cS 7rye-a1-m1-cN_7rye-a1-m1-cP 7rye-a1-m1-cU_7rye-a1-m1-cC 7rye-a1-m1-cW_7rye-a1-m1-cB TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 6ofp-a1-m1-cA_6ofp-a1-m1-cB Structure of the C-terminal cargo binding domain of human Bicaudal D2 Q8TD16 Q8TD16 2.006 X-RAY DIFFRACTION 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 92 GSHMYENEKAMVTETMMKLRNELKALKEDAATFSSLRAMFATRCDEYITQLDEMQRQLAAAEDEKKTLNSLLRMAIQQKLALTQRLELLEL GSHMYENEKAMVTETMMKLRNELKALKEDAATFSSLRAMFATRCDEYITQLDEMQRQLAAAEDEKKTLNSLLRMAIQQKLALTQRLELLELD 6ofu-a1-m1-cA_6ofu-a1-m1-cB X-ray crystal structure of the YdjI aldolase from Escherichia coli K12 P77704 P77704 1.75 X-RAY DIFFRACTION 84 0.992 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 258 263 MLADIRYWENDATNKHYAIAHFNVWNAEMLMGVIDAAEEAKSPVIISFGTGFVGNTSFEDFSHMMVSMAQKATVPVITHWDHGRSMEIIHNAWTHGMNSLMRDASAFDFEENIRLTKEAVDFFHPLGIPVEAELGHVYHYTDPDQAAEFVERTGCDSLAVAIGNQHQLNFEVVKRVRDAVSVPLVLHGASGISDADIKTAISLGIAKINIHTELQAAMVAVKENQDQPFLHLEREVRKAVKERALEKIKLFGSDGKAE MLADIRYWENDATNKHYAIAHFNVWNAEMLMGVIDAAEEAKSPVIISFGTGFVGNTSFEDFSHMMVSMAQKATVPVITHWDHGRSMEIIHNAWTHGMNSLMRDASAFDFEENIRLTKEAVDFFHPLGIPVEAELGYHYTDPDQAAEFVERTGCDSLAVAIGNQHGVYTSEPQLNFEVVKRVRDAVSVPLVLHGASGISDADIKTAISLGIAKINIHTELQAAMVAVKENQDQPFLHLEREVRKAVKERALEKIKLFGSDGKAE 6ofu-a1-m1-cD_6ofu-a1-m1-cB X-ray crystal structure of the YdjI aldolase from Escherichia coli K12 P77704 P77704 1.75 X-RAY DIFFRACTION 31 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 255 263 MLADIRYWENDATNKHYAIAHFNVWNAEMLMGVIDAAEEAKSPVIISFGTGFVGNTSFEDFSHMMVSMAQKATVPVITHWDHGRSMEIIHNAWTHGMNSLMRDASAFDFEENIRLTKEAVDFFHPLGIPVEAELGYTDPDQAAEFVERTGCDSLAVAIGNQEPQLNFEVVKRVRDAVSVPLVLHGASGISDADIKTAISLGIAKINIHTELQAAMVAVKENQDQPFLHLEREVRKAVKERALEKIKLFGSDGKAE MLADIRYWENDATNKHYAIAHFNVWNAEMLMGVIDAAEEAKSPVIISFGTGFVGNTSFEDFSHMMVSMAQKATVPVITHWDHGRSMEIIHNAWTHGMNSLMRDASAFDFEENIRLTKEAVDFFHPLGIPVEAELGYHYTDPDQAAEFVERTGCDSLAVAIGNQHGVYTSEPQLNFEVVKRVRDAVSVPLVLHGASGISDADIKTAISLGIAKINIHTELQAAMVAVKENQDQPFLHLEREVRKAVKERALEKIKLFGSDGKAE 6ogd-a1-m1-cH_6ogd-a1-m1-cN Cryo-EM structure of YenTcA in its prepore state B6A878 B6A878 4.4 ELECTRON MICROSCOPY 55 1.0 935293 (Yersinia entomophaga) 935293 (Yersinia entomophaga) 1078 1078 6ogd-a1-m1-cB_6ogd-a1-m1-cH 6ogd-a1-m1-cB_6ogd-a1-m1-cK 6ogd-a1-m1-cE_6ogd-a1-m1-cK 6ogd-a1-m1-cE_6ogd-a1-m1-cN MSNSIEAKLQEDLRDALVDYYLGQIVPNSKDFTNLRSTIKNVDDLYDHLLLDTQVSAKVITSRLSLVTQSVQQYINRIALNLEPGLSINQQEATDWEEFANRYGYWAANQQLRMFPEIYVDPTLRLTKTEFFFQLESALNQGKLTDDVAQKAVLGYLNNFEEVSNLEIIAGYQDGIDIENDKTYFVARTRMQPYRYFWRSLDASQRNANSQELYPTAWSEWKAISVPLENVANGIVRPIMMDNRLYISWFEVAEEKETDSDGNIIVSGRYRTKIRLAHLGFDGVWSSGTTLREEVLADQMEEMIAVVDRMEDEPRLALVAFKEMSESWDVVFRDKFQIKQFSQTQYLQFPEASSADVWYIGKQIRLNTLFAKELIGKASRSLDLVLSWETQNSRLEEAILGGAAELIDLDGANGIYFWELFFHMPFMVSWRFNVEQRYEDANRWVKYLFNPFECEDEPALLLGKPPYWNSRPLVDEPFKGYSLTQPSDPDAIAASDPIHYRKAVFNFLTKNIIDQGDMEYRKLQPSARTLARLSYSTASSLLGRNELRGLWDRIENRIYNLRHNLTLDGKEINMDLYDSSISPRGLMKQRYQRVVTARNASKMNFKVPNYRFEPMLNRSKSGVETLIQFGSTLLSLLERKDSLSFDAYQMIQSGDLYRFSIDLQQQDIDINKASLEALQVSKQSAQDRYDHFKELYDENISSTEQKVIELQSQAANSLLMAQGMRTAAAALDVIPNIYGLAVGGSHWGAPLNAAAEIIMIKYQADSSKSESLSVSESYRRRRQEWELQYKQAEWEVNSVEQQINLQNMQIKAANKRLEQVEAQQQQAMALLDYFSERFTNESLYTWLISQLSSLYLQAYDAVLSLCLSAEASLLYELNLGEQSFVGGGGWNDLYQGLMAGETLKLALMRMERVYVEQNSRRQEITKTISLKALLGESWPAELNKLKQKTPINFNLEEQIFVEDYQELYQRRIKSVSVSLPMLVGPYEDVCAQLTQTSSSYSTRADLKHLVRSIQPNQQISLSTGVNDSGLFMLNFDDERFLPFEGSGVDSSWRLQFTNLKQNLDSLNDVILHVKYTAA MSNSIEAKLQEDLRDALVDYYLGQIVPNSKDFTNLRSTIKNVDDLYDHLLLDTQVSAKVITSRLSLVTQSVQQYINRIALNLEPGLSINQQEATDWEEFANRYGYWAANQQLRMFPEIYVDPTLRLTKTEFFFQLESALNQGKLTDDVAQKAVLGYLNNFEEVSNLEIIAGYQDGIDIENDKTYFVARTRMQPYRYFWRSLDASQRNANSQELYPTAWSEWKAISVPLENVANGIVRPIMMDNRLYISWFEVAEEKETDSDGNIIVSGRYRTKIRLAHLGFDGVWSSGTTLREEVLADQMEEMIAVVDRMEDEPRLALVAFKEMSESWDVVFRDKFQIKQFSQTQYLQFPEASSADVWYIGKQIRLNTLFAKELIGKASRSLDLVLSWETQNSRLEEAILGGAAELIDLDGANGIYFWELFFHMPFMVSWRFNVEQRYEDANRWVKYLFNPFECEDEPALLLGKPPYWNSRPLVDEPFKGYSLTQPSDPDAIAASDPIHYRKAVFNFLTKNIIDQGDMEYRKLQPSARTLARLSYSTASSLLGRNELRGLWDRIENRIYNLRHNLTLDGKEINMDLYDSSISPRGLMKQRYQRVVTARNASKMNFKVPNYRFEPMLNRSKSGVETLIQFGSTLLSLLERKDSLSFDAYQMIQSGDLYRFSIDLQQQDIDINKASLEALQVSKQSAQDRYDHFKELYDENISSTEQKVIELQSQAANSLLMAQGMRTAAAALDVIPNIYGLAVGGSHWGAPLNAAAEIIMIKYQADSSKSESLSVSESYRRRRQEWELQYKQAEWEVNSVEQQINLQNMQIKAANKRLEQVEAQQQQAMALLDYFSERFTNESLYTWLISQLSSLYLQAYDAVLSLCLSAEASLLYELNLGEQSFVGGGGWNDLYQGLMAGETLKLALMRMERVYVEQNSRRQEITKTISLKALLGESWPAELNKLKQKTPINFNLEEQIFVEDYQELYQRRIKSVSVSLPMLVGPYEDVCAQLTQTSSSYSTRADLKHLVRSIQPNQQISLSTGVNDSGLFMLNFDDERFLPFEGSGVDSSWRLQFTNLKQNLDSLNDVILHVKYTAA 6ogd-a1-m1-cJ_6ogd-a1-m1-cM Cryo-EM structure of YenTcA in its prepore state B6A877 B6A877 4.4 ELECTRON MICROSCOPY 29 1.0 935293 (Yersinia entomophaga) 935293 (Yersinia entomophaga) 748 748 6ogd-a1-m1-cA_6ogd-a1-m1-cD 6ogd-a1-m1-cA_6ogd-a1-m1-cM 6ogd-a1-m1-cD_6ogd-a1-m1-cG 6ogd-a1-m1-cG_6ogd-a1-m1-cJ YSQSLADTLLGLGYRSIFDIAKVSRQRFIKRHDESLLGNGAVIFDKAVSMANQVLQKYRKNRLLDSPASYLLDLYKFIQSVELDGSNQARKLETRRADIPKLSLDNDALYKEVTALSIVNDVLSGSAREYIDQSGQADKAVNQILGDTHFPFTLPYSLPTQQINKGLGASNIELGTVIQRVDPQFSWNTTQEKYNQVLLAYTQLSSEQIALLNFRLERLNRFIRLQRWLDLPSHQLDLLLTSVMQADADNSQQEITEPVLKSLGLFRHLNLQYKITPEIFSSWLAKSVKQLCAGLNISAVTFQFIAPLVQSALGLEAGTLVRSFEVVSSLYRLVSIPQTFGLSTEDGLILMNILTDEMGYLAKQPAFDDKQTQDKDFLSIILKMEALSAWLTKNNLTPASLALLLGVTRLAVVPTNNMVTFFKGIANGLSENVCLTTDDFQRQELEGADWWTLLSTNQVIDDMGLVLDIHPVWGKSDEEMLMEKIQSIGVSNDNNTLSIIVQILIQAKNAQENLLSQTISAEYGVERSVVPLQLRWLGSNVYSVLNQVLNNTPTDISSIVPKLSELTYSLLIYTQLINSLKLNKEFIFLRLTQPNWLGLTQPKLSTQLSLPEIYLITCYQDWVVNANKNEDSIHEYLEFANIKKTEAEKTLVDNSEKCAELLAEILAWDAGEILKAASLLGLNPPQATNVFEIDWIRRLQTLSEKTMISTEYLWQMGDLTENSEFSLKEGVGEAVMAALKAQGDSDNV YSQSLADTLLGLGYRSIFDIAKVSRQRFIKRHDESLLGNGAVIFDKAVSMANQVLQKYRKNRLLDSPASYLLDLYKFIQSVELDGSNQARKLETRRADIPKLSLDNDALYKEVTALSIVNDVLSGSAREYIDQSGQADKAVNQILGDTHFPFTLPYSLPTQQINKGLGASNIELGTVIQRVDPQFSWNTTQEKYNQVLLAYTQLSSEQIALLNFRLERLNRFIRLQRWLDLPSHQLDLLLTSVMQADADNSQQEITEPVLKSLGLFRHLNLQYKITPEIFSSWLAKSVKQLCAGLNISAVTFQFIAPLVQSALGLEAGTLVRSFEVVSSLYRLVSIPQTFGLSTEDGLILMNILTDEMGYLAKQPAFDDKQTQDKDFLSIILKMEALSAWLTKNNLTPASLALLLGVTRLAVVPTNNMVTFFKGIANGLSENVCLTTDDFQRQELEGADWWTLLSTNQVIDDMGLVLDIHPVWGKSDEEMLMEKIQSIGVSNDNNTLSIIVQILIQAKNAQENLLSQTISAEYGVERSVVPLQLRWLGSNVYSVLNQVLNNTPTDISSIVPKLSELTYSLLIYTQLINSLKLNKEFIFLRLTQPNWLGLTQPKLSTQLSLPEIYLITCYQDWVVNANKNEDSIHEYLEFANIKKTEAEKTLVDNSEKCAELLAEILAWDAGEILKAASLLGLNPPQATNVFEIDWIRRLQTLSEKTMISTEYLWQMGDLTENSEFSLKEGVGEAVMAALKAQGDSDNV 6ogd-a1-m1-cK_6ogd-a1-m1-cN Cryo-EM structure of YenTcA in its prepore state B6A878 B6A878 4.4 ELECTRON MICROSCOPY 316 1.0 935293 (Yersinia entomophaga) 935293 (Yersinia entomophaga) 1078 1078 6ogd-a1-m1-cB_6ogd-a1-m1-cE 6ogd-a1-m1-cB_6ogd-a1-m1-cN 6ogd-a1-m1-cE_6ogd-a1-m1-cH 6ogd-a1-m1-cH_6ogd-a1-m1-cK MSNSIEAKLQEDLRDALVDYYLGQIVPNSKDFTNLRSTIKNVDDLYDHLLLDTQVSAKVITSRLSLVTQSVQQYINRIALNLEPGLSINQQEATDWEEFANRYGYWAANQQLRMFPEIYVDPTLRLTKTEFFFQLESALNQGKLTDDVAQKAVLGYLNNFEEVSNLEIIAGYQDGIDIENDKTYFVARTRMQPYRYFWRSLDASQRNANSQELYPTAWSEWKAISVPLENVANGIVRPIMMDNRLYISWFEVAEEKETDSDGNIIVSGRYRTKIRLAHLGFDGVWSSGTTLREEVLADQMEEMIAVVDRMEDEPRLALVAFKEMSESWDVVFRDKFQIKQFSQTQYLQFPEASSADVWYIGKQIRLNTLFAKELIGKASRSLDLVLSWETQNSRLEEAILGGAAELIDLDGANGIYFWELFFHMPFMVSWRFNVEQRYEDANRWVKYLFNPFECEDEPALLLGKPPYWNSRPLVDEPFKGYSLTQPSDPDAIAASDPIHYRKAVFNFLTKNIIDQGDMEYRKLQPSARTLARLSYSTASSLLGRNELRGLWDRIENRIYNLRHNLTLDGKEINMDLYDSSISPRGLMKQRYQRVVTARNASKMNFKVPNYRFEPMLNRSKSGVETLIQFGSTLLSLLERKDSLSFDAYQMIQSGDLYRFSIDLQQQDIDINKASLEALQVSKQSAQDRYDHFKELYDENISSTEQKVIELQSQAANSLLMAQGMRTAAAALDVIPNIYGLAVGGSHWGAPLNAAAEIIMIKYQADSSKSESLSVSESYRRRRQEWELQYKQAEWEVNSVEQQINLQNMQIKAANKRLEQVEAQQQQAMALLDYFSERFTNESLYTWLISQLSSLYLQAYDAVLSLCLSAEASLLYELNLGEQSFVGGGGWNDLYQGLMAGETLKLALMRMERVYVEQNSRRQEITKTISLKALLGESWPAELNKLKQKTPINFNLEEQIFVEDYQELYQRRIKSVSVSLPMLVGPYEDVCAQLTQTSSSYSTRADLKHLVRSIQPNQQISLSTGVNDSGLFMLNFDDERFLPFEGSGVDSSWRLQFTNLKQNLDSLNDVILHVKYTAA MSNSIEAKLQEDLRDALVDYYLGQIVPNSKDFTNLRSTIKNVDDLYDHLLLDTQVSAKVITSRLSLVTQSVQQYINRIALNLEPGLSINQQEATDWEEFANRYGYWAANQQLRMFPEIYVDPTLRLTKTEFFFQLESALNQGKLTDDVAQKAVLGYLNNFEEVSNLEIIAGYQDGIDIENDKTYFVARTRMQPYRYFWRSLDASQRNANSQELYPTAWSEWKAISVPLENVANGIVRPIMMDNRLYISWFEVAEEKETDSDGNIIVSGRYRTKIRLAHLGFDGVWSSGTTLREEVLADQMEEMIAVVDRMEDEPRLALVAFKEMSESWDVVFRDKFQIKQFSQTQYLQFPEASSADVWYIGKQIRLNTLFAKELIGKASRSLDLVLSWETQNSRLEEAILGGAAELIDLDGANGIYFWELFFHMPFMVSWRFNVEQRYEDANRWVKYLFNPFECEDEPALLLGKPPYWNSRPLVDEPFKGYSLTQPSDPDAIAASDPIHYRKAVFNFLTKNIIDQGDMEYRKLQPSARTLARLSYSTASSLLGRNELRGLWDRIENRIYNLRHNLTLDGKEINMDLYDSSISPRGLMKQRYQRVVTARNASKMNFKVPNYRFEPMLNRSKSGVETLIQFGSTLLSLLERKDSLSFDAYQMIQSGDLYRFSIDLQQQDIDINKASLEALQVSKQSAQDRYDHFKELYDENISSTEQKVIELQSQAANSLLMAQGMRTAAAALDVIPNIYGLAVGGSHWGAPLNAAAEIIMIKYQADSSKSESLSVSESYRRRRQEWELQYKQAEWEVNSVEQQINLQNMQIKAANKRLEQVEAQQQQAMALLDYFSERFTNESLYTWLISQLSSLYLQAYDAVLSLCLSAEASLLYELNLGEQSFVGGGGWNDLYQGLMAGETLKLALMRMERVYVEQNSRRQEITKTISLKALLGESWPAELNKLKQKTPINFNLEEQIFVEDYQELYQRRIKSVSVSLPMLVGPYEDVCAQLTQTSSSYSTRADLKHLVRSIQPNQQISLSTGVNDSGLFMLNFDDERFLPFEGSGVDSSWRLQFTNLKQNLDSLNDVILHVKYTAA 6ogt-a1-m1-cA_6ogt-a1-m2-cA X-ray crystal structure of darunavir-resistant HIV-1 protease (P51) in complex with GRL-001 O38893 O38893 1.21 X-RAY DIFFRACTION 149 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 4npt-a1-m1-cA_4npt-a1-m2-cA 4npu-a1-m1-cA_4npu-a1-m1-cB 6mk9-a1-m1-cA_6mk9-a1-m1-cB 6mkl-a1-m1-cA_6mkl-a1-m1-cB 6ogl-a1-m1-cA_6ogl-a1-m2-cA 6ogq-a1-m1-cA_6ogq-a1-m2-cA 6ogr-a1-m1-cA_6ogr-a1-m2-cA 6ogs-a1-m1-cA_6ogs-a1-m2-cA 6ogv-a1-m1-cA_6ogv-a1-m2-cA PQITLWQRPIVTIKVGGQLREALIDTGADDTIFEEINLPGRWKPKLIGGIGGFMKVRQYDQIPIEICGHQAIGTVLVGPTPINVIGRNMLTQIGCTLNF PQITLWQRPIVTIKVGGQLREALIDTGADDTIFEEINLPGRWKPKLIGGIGGFMKVRQYDQIPIEICGHQAIGTVLVGPTPINVIGRNMLTQIGCTLNF 6oh6-a1-m1-cA_6oh6-a1-m2-cA Crystal structure of (E)-biformene synthase LrdC from Streptomyces sp. strain K155 in complex with Mg and PPi A0A158RFK9 A0A158RFK9 2.07 X-RAY DIFFRACTION 93 1.0 1931 (Streptomyces sp.) 1931 (Streptomyces sp.) 311 311 6oh7-a1-m1-cA_6oh7-a1-m2-cA 6oh8-a1-m1-cB_6oh8-a1-m1-cA MLPLPDFTATFPEPFPAGPHSERTEHRLLDWLEEHPLLPSAKAKAVLVNITSHGASRTFPTADADDLLLFAELLLWLTAFDDVHAEGNGVGGPAALVDRASELMLVLAGGNPPRAMSPFPAVLHDLLARFRARASAAAYHRLAASLRDTLMALVWEAHHVAKPEGVALATYLAMRPHTVFIKTITAAGEILLGYELTDTQRALAAVRNLETAVANLAGWINDLASYEREMQRGRGQPLSLPTLLHARHGGTIEEAFTRASSMCENEAAVARRGITHLAHASPNALTAHARALEDITRSFIWHTSHARYQGI MLPLPDFTATFPEPFPAGPHSERTEHRLLDWLEEHPLLPSAKAKAVLVNITSHGASRTFPTADADDLLLFAELLLWLTAFDDVHAEGNGVGGPAALVDRASELMLVLAGGNPPRAMSPFPAVLHDLLARFRARASAAAYHRLAASLRDTLMALVWEAHHVAKPEGVALATYLAMRPHTVFIKTITAAGEILLGYELTDTQRALAAVRNLETAVANLAGWINDLASYEREMQRGRGQPLSLPTLLHARHGGTIEEAFTRASSMCENEAAVARRGITHLAHASPNALTAHARALEDITRSFIWHTSHARYQGI 6oh9-a1-m1-cA_6oh9-a1-m2-cA Yeast Guanine Deaminase Q07729 Q07729 1.75 X-RAY DIFFRACTION 130 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 452 452 6oha-a1-m1-cA_6oha-a1-m2-cA DKHGKFLVFFGTFVDTPKLGELRIREKTSVGVLNGIIRFVNRNSLDPVKDCLDHDSSLSPEDVTVVDINNSFYFPGFVDTHNHVSQYPNVGVFGNSTLLDWLEKYTFPIEAALANENIAREVYNKVISKTLSHGTTTVAYYNTIDLKSTKLLAQLSSLLGQRVLVGKVCMDTNGPEYYIEDTKTSFESTVKVVKYIRETICDPLVNPIVTPRFAPSCSRELMQQLSKLVKDENIHVQTHLSENKEEIQWVQDLFPECESYTDVYDKYGLLTEKTVLAHCIHLTDAEARVIKQRRCGISHCPISNSSLTSGECRVRWLLDQGIKVGLGTDVSAGHSCSILTTGRQAFAVSRHLAMRETDHAKLSVSECLFLATMGGAQVLRMDETLGTFDVGKQFDAQMIDTNAPGSNVDMFHWQLKNPPLLTNEDIIAKWFFNGDDRNTTKVWVAGQQVYQI DKHGKFLVFFGTFVDTPKLGELRIREKTSVGVLNGIIRFVNRNSLDPVKDCLDHDSSLSPEDVTVVDINNSFYFPGFVDTHNHVSQYPNVGVFGNSTLLDWLEKYTFPIEAALANENIAREVYNKVISKTLSHGTTTVAYYNTIDLKSTKLLAQLSSLLGQRVLVGKVCMDTNGPEYYIEDTKTSFESTVKVVKYIRETICDPLVNPIVTPRFAPSCSRELMQQLSKLVKDENIHVQTHLSENKEEIQWVQDLFPECESYTDVYDKYGLLTEKTVLAHCIHLTDAEARVIKQRRCGISHCPISNSSLTSGECRVRWLLDQGIKVGLGTDVSAGHSCSILTTGRQAFAVSRHLAMRETDHAKLSVSECLFLATMGGAQVLRMDETLGTFDVGKQFDAQMIDTNAPGSNVDMFHWQLKNPPLLTNEDIIAKWFFNGDDRNTTKVWVAGQQVYQI 6ohc-a2-m1-cC_6ohc-a2-m1-cD E. coli Guanine Deaminase P76641 P76641 2.3 X-RAY DIFFRACTION 86 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 425 427 6ohb-a1-m1-cA_6ohb-a1-m1-cC 6ohb-a2-m1-cD_6ohb-a2-m1-cB 6ohc-a1-m1-cA_6ohc-a1-m1-cB HTLKAVRGSFIDVTRTIDNPEEIASALRFIEDGLLLIKQGKVEWFGEWENGKHQIPDTIRVRDYRGKLIVPGFVDTHIHYPQSEMVGLNKHTFPTERRYEDLEYAREMSAFFIKQLLRNGTTTALVFGTVHPQSVDALFEAASHINMRMIAGKVMMDRNAPDYLLDTAESSYHQSKELIERWHKNGRLLYAITPRFAPTSSPEQMAMAQRLKEEYPDTWVHTHLCENKDEIAWVKSLYPDHDGYLDVYHQYGLTGKNCVFAHCVHLEEKEWDRLSETKSSIAFCPTSNLYLGSGLFNLKKAWQKKVKVGMGTDIGAGTTFNMLQTLNEAYKVLQLQGYRLSAYEAFYLATLGGAKSLGLDDLIGNFLPGKEADFVVMEPTATPLQQLRYDNSVSLVDKLFVMMTLGDDRSIYRTYVDGRLVYERN EHTLKAVRGSFIDVTRTIDNPEEIASALRFIEDGLLLIKQGKVEWFGEWENGKHQIPDTIRVRDYRGKLIVPGFVDTHIHYPQSEMVGWLNKHTFPTERRYEDLEYAREMSAFFIKQLLRNGTTTALVFGTVHPQSVDALFEAASHINMRMIAGKVMMDRNAPDYLLDTAESSYHQSKELIERWHKNGRLLYAITPRFAPTSSPEQMAMAQRLKEEYPDTWVHTHLCENKDEIAWVKSLYPDHDGYLDVYHQYGLTGKNCVFAHCVHLEEKEWDRLSETKSSIAFCPTSNLYLGSGLFNLKKAWQKKVKVGMGTDIGAGTTFNMLQTLNEAYKVLQLQGYRLSAYEAFYLATLGGAKSLGLDDLIGNFLPGKEADFVVMEPTATPLQQLRYDNSVSLVDKLFVMMTLGDDRSIYRTYVDGRLVYERN 6ohi-a1-m1-cB_6ohi-a1-m1-cA Crystal Structure of the Debrominase Bmp8 (Apo) F2K073 F2K073 2.27 X-RAY DIFFRACTION 174 1.0 717774 (Marinomonas mediterranea MMB-1) 717774 (Marinomonas mediterranea MMB-1) 186 187 6ohj-a1-m1-cA_6ohj-a1-m1-cB SMNTLVTPLQRSDAPQLEPVFRGMEQNLGFLPNGILTMGKNPDLAVAFGGLFKCIDAFKHIPTELKWAIAMISSSAAGCMYCKSHFSHIATRTHVNRNKVMAAFEFQTSDFYNEAERAALAFAFANSTSPAHLDKEHFDELARYYSEEAAIEIAAIIAICGFLNRWNAAMDSQIEAAPRATLDEIE DSMNTLVTPLQRSDAPQLEPVFRGMEQNLGFLPNGILTMGKNPDLAVAFGGLFKCIDAFKHIPTELKWAIAMISSSAAGCMYCKSHFSHIATRTHVNRNKVMAAFEFQTSDFYNEAERAALAFAFANSTSPAHLDKEHFDELARYYSEEAAIEIAAIIAICGFLNRWNAAMDSQIEAAPRATLDEIE 6oht-a2-m1-cC_6oht-a2-m2-cC Structure of EBP and U18666A Q15125 Q15125 3.2 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 6oht-a1-m1-cA_6oht-a1-m1-cB 6ohu-a1-m1-cA_6ohu-a1-m1-cB 6ohu-a2-m1-cC_6ohu-a2-m2-cC PLHPYWPQHLRLDNFVPNDRPTWHILAGLFSVTGVLVVTTWLLSGRTWRRLSLCWFAVCGFIHLVIEGWFVLYYEDLLGDQAFLSQLWKEYAKGDSRYILGDNFTVCETITACLWGPLSLWVVIAFLRQHPLRFILQLVVSVGQIYGDVLYFLTEHRDGFQHGELGHPLYFWFYFVFNALWLVLPGVLVLDAVKHLTHAQSTLD PLHPYWPQHLRLDNFVPNDRPTWHILAGLFSVTGVLVVTTWLLSGRTWRRLSLCWFAVCGFIHLVIEGWFVLYYEDLLGDQAFLSQLWKEYAKGDSRYILGDNFTVCETITACLWGPLSLWVVIAFLRQHPLRFILQLVVSVGQIYGDVLYFLTEHRDGFQHGELGHPLYFWFYFVFNALWLVLPGVLVLDAVKHLTHAQSTLD 6ohy-a1-m1-cD_6ohy-a1-m1-cC Chimpanzee SIV Env trimeric ectodomain. Q1A234 Q1A234 4.1 ELECTRON MICROSCOPY 27 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 447 447 6ohy-a1-m1-cA_6ohy-a1-m1-cC 6ohy-a1-m1-cD_6ohy-a1-m1-cA ENWWVTVYYGVPVWREAKTTLFCASDAKSYHNIWATQACVPTDPTPQEVLLPNVTEEFNMWENYMVDQMQEDIISLWEQSLKPCVKLTPLCVTLTCNNPTNTDDRLGDMRNCSFNVTTELRDKKRKVYSLFYVEDITAIGNNSTYRLINCNTTAITQACPKTSFEPIPIHYCAPAGFALLKCNDIDYKGNETCKNVSTVHCTHGIKPVATTQLILNGSTADNQTVARIDPSENLAIIQLKDPVKITCRRPGNNTRGQIQIGPAMTFYNIENVVGDTRKAYCEINGTQWAKALNETKEVLRNILRKNISFMVPSGGDPEVTNHHFNCGGEFFYCNTSEIINITKINKTENMTIIPCRIRQIVNSWMRVGKGIFAPPIRGNITCTSNITGMLLEIHKNREDQGEDQDQNNTYVCLTGGNMKDIWRSELYKYKIVEIQPLGVAPTKCRRY ENWWVTVYYGVPVWREAKTTLFCASDAKSYHNIWATQACVPTDPTPQEVLLPNVTEEFNMWENYMVDQMQEDIISLWEQSLKPCVKLTPLCVTLTCNNPTNTDDRLGDMRNCSFNVTTELRDKKRKVYSLFYVEDITAIGNNSTYRLINCNTTAITQACPKTSFEPIPIHYCAPAGFALLKCNDIDYKGNETCKNVSTVHCTHGIKPVATTQLILNGSTADNQTVARIDPSENLAIIQLKDPVKITCRRPGNNTRGQIQIGPAMTFYNIENVVGDTRKAYCEINGTQWAKALNETKEVLRNILRKNISFMVPSGGDPEVTNHHFNCGGEFFYCNTSEIINITKINKTENMTIIPCRIRQIVNSWMRVGKGIFAPPIRGNITCTSNITGMLLEIHKNREDQGEDQDQNNTYVCLTGGNMKDIWRSELYKYKIVEIQPLGVAPTKCRRY 6ohy-a1-m1-cF_6ohy-a1-m1-cE Chimpanzee SIV Env trimeric ectodomain. Q1A234 Q1A234 4.1 ELECTRON MICROSCOPY 41 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 120 120 6ohy-a1-m1-cB_6ohy-a1-m1-cE 6ohy-a1-m1-cF_6ohy-a1-m1-cB LGALFLGFLGAAGSTMGAASVVLSVWGIKQLQARVLAVERYLRDQQLLGLWGCTGKTICCTAVRWNKTWGNISDYQVIWNNYTWQQWDREVNNYTGLIYTLLEEANTQQEKNEKELLELD LGALFLGFLGAAGSTMGAASVVLSVWGIKQLQARVLAVERYLRDQQLLGLWGCTGKTICCTAVRWNKTWGNISDYQVIWNNYTWQQWDREVNNYTGLIYTLLEEANTQQEKNEKELLELD 6ohz-a1-m1-cA_6ohz-a1-m2-cA Structure of an uncharacterized protein from Leptospira borgpetersenii serovar Hardjo-bovis (strain JB197) Q04PE5 Q04PE5 2.05 X-RAY DIFFRACTION 56 1.0 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 210 210 TEIDDLLRKNPELQKEWKRTVWTAAISSGVIAYRPPLLERAFREFPMETAKSALNLFVAAHKSKNRQSVDIITQNLKDAKTFPLGQLEEEIVTDILKYPNLLEKLLQTGWNPNLILEWEKHKSLEILIKSNGKEFIEKQETTLLILAMQNDFIPMETVQILLKYGADPSLGVKRKSEGKEYLLYPLANINSNGNTILKELKQKTLIDWKK TEIDDLLRKNPELQKEWKRTVWTAAISSGVIAYRPPLLERAFREFPMETAKSALNLFVAAHKSKNRQSVDIITQNLKDAKTFPLGQLEEEIVTDILKYPNLLEKLLQTGWNPNLILEWEKHKSLEILIKSNGKEFIEKQETTLLILAMQNDFIPMETVQILLKYGADPSLGVKRKSEGKEYLLYPLANINSNGNTILKELKQKTLIDWKK 6oi9-a1-m1-cA_6oi9-a1-m1-cB Crystal Structure of E. coli Biotin Carboxylase Complexed with 7-[3-(aminomethyl)pyrrolidin-1-yl]-6-(2,6-dichlorophenyl)pyrido[2,3-d]pyrimidin-2-amine P24182 P24182 2.06 X-RAY DIFFRACTION 51 1.0 696406 (Escherichia coli UMNK88) 696406 (Escherichia coli UMNK88) 446 446 MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKASGGGGGRGMRVVRGDAELAQSISMTRAEAKAAFSNDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGL MLDKIVIANRGEIALRILRACKELGIKTVAVHSSADRDLKHVLLADETVCIGPAPSVKSYLNIPAIISAAEITGAVAIHPGYGFLSENANFAEQVERSGFIFIGPKAETIRLMGDKVSAIAAMKKAGVPCVPGSDGPLGDDMDKNRAIAKRIGYPVIIKASGGGGGRGMRVVRGDAELAQSISMTRAEAKAAFSNDMVYMEKYLENPRHVEIQVLADGQGNAIYLAERDCSMQRRHQKVVEEAPAPGITPELRRYIGERCAKACVDIGYRGAGTFEFLFENGEFYFIEMNTRIQVEHPVTEMITGVDLIKEQLRIAAGQPLSIKQEEVHVRGHAVECRINAEDPNTFLPSPGKITRFHAPGGFGVRWESHIYAGYTVPPYYDSMIGKLICYGENRDVAIARMKNALQELIIDGIKTNVDLQIRIMNDENFQHGGTNIHYLEKKLGL 6oib-a1-m1-cB_6oib-a1-m1-cA Crystal structure of human Sulfide Quinone Oxidoreductase in complex with coenzyme Q Q9Y6N5 Q9Y6N5 2.03 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 406 407 6oi5-a1-m1-cB_6oi5-a1-m1-cA 6oi6-a1-m1-cB_6oi6-a1-m1-cA 6oic-a1-m1-cB_6oic-a1-m1-cA 6wh6-a1-m1-cB_6wh6-a1-m1-cA MNHYEVLVLGGGSGGITMAARMKRKVGAENVAIVEPSERHFYQPIWTLVGAGAKQLSSSGRPTASVIPSGVEWIKARVTELNPDKNCIHTDDDEKISYRYLIIALGIQLDYEKIKGLPEGFAHPKIGSNYSVKTVEKTWKALQDFKEGNAIFTFPNTPVKCAGAPQKIMYLSEAYFRKTGKRSKANIIFNTSLGAIFGVKKYADALQEIIQERNLTVNYKKNLIEVRADKQEAVFENLDKPGETQVISYEMLHVTPPMSPPDVLKTSPVADAAGWVDVDKETLQHRRYPNVFGIGDCTNLPTSKTAAAVAAQSGILDRTISVIMKNQTPTKKYDGYTSCPLVTGYNRVILAEFDYKAEPLETFPFDQSKERLSMYLMKADLMPFLYWNMMLRGYWGGPAFLRKLFH MNHYEVLVLGGGSGGITMAARMKRKVGAENVAIVEPSERHFYQPIWTLVGAGAKQLSSSGRPTASVIPSGVEWIKARVTELNPDKNCIHTDDDEKISYRYLIIALGIQLDYEKIKGLPEGFAHPKIGSNYSVKTVEKTWKALQDFKEGNAIFTFPNTPVKCAGAPQKIMYLSEAYFRKTGKRSKANIIFNTSLGAIFGVKKYADALQEIIQERNLTVNYKKNLIEVRADKQEAVFENLDKPGETQVISYEMLHVTPPMSPPDVLKTSPVADAAGWVDVDKETLQHRRYPNVFGIGDCTNLPTSKTAAAVAAQSGILDRTISVIMKNQTPTKKYDGYTSCPLVTGYNRVILAEFDYKAEPLETFPFDQSKERLSMYLMKADLMPFLYWNMMLRGYWGGPAFLRKLFHL 6oid-a1-m1-cA_6oid-a1-m1-cB Redox Regulation of FN3K from Arabidopsis thaliana Q9LEW8 Q9LEW8 2.365 X-RAY DIFFRACTION 221 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 289 289 DPIREWILTEGKATQITKIGSVGGGCINLASHYQTDAGSFFVKTNRSIGPAMFEGEALGLEAMYETRTIRVPNPHKAGELPTGGSYIIMEFIDFGGSRGNQAELGRKLAEMHKAGKTSKGFGFEVDNTIGSTPQINTWSSDWIEFYGEKRLGYQLKLARDQYGDSAIYQKGHTLIQNMAPLFENVVIEPCLLHGDLWSGNIAYDKNNEPVILDPACYYGHNEADFGMSWCAGFGESFYNAYFKVMPKQAGYEKRRDLYLLYHYLNHYNLFGSGYRSSAMSIIDDYLRML DPIREWILTEGKATQITKIGSVGGGCINLASHYQTDAGSFFVKTNRSIGPAMFEGEALGLEAMYETRTIRVPNPHKAGELPTGGSYIIMEFIDFGGSRGNQAELGRKLAEMHKAGKTSKGFGFEVDNTIGSTPQINTWSSDWIEFYGEKRLGYQLKLARDQYGDSAIYQKGHTLIQNMAPLFENVVIEPCLLHGDLWSGNIAYDKNNEPVILDPACYYGHNEADFGMSWCAGFGESFYNAYFKVMPKQAGYEKRRDLYLLYHYLNHYNLFGSGYRSSAMSIIDDYLRML 6ois-a1-m1-cF_6ois-a1-m1-cE CryoEM structure of Arabidopsis DR complex (DMS3-RDM1) Q94A79 Q94A79 3.6 ELECTRON MICROSCOPY 110 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 229 329 6ois-a1-m1-cD_6ois-a1-m1-cC 6oit-a1-m1-cD_6oit-a1-m1-cC 6oit-a1-m1-cE_6oit-a1-m1-cF DINAQILRHENSAAGVLSLVETLLMLTKGVVGVVAKLGKVNDENLSQILSNYLGTRSMLAVVCRNYESVTALEAYDNHGNIDINAGLHCLGSSIGREIGDSFDAICLENLRPYVGQHIADDLQRRLDLLKPKLPNGECPPGFLGFAVNMIQIDPAYLLCVTSYGYGLRETLFYNLFSRLQVYKTRADMISALPCISDGAVSLDGGIIRKTGIFNLGNRDEVNVRFAKPT NSKRLESDLEAMGNKIKQHEDNLKFLKSQKNKMDEAIVDLQVHMSKLDINAQILRHENSAAGVLSLVETLLMLTKGVVGVVAKLGKVNDENLSQILSNYLGTRSMLAVVCRNYESVTALEAYDNHGNIDINAGLHCLGSSIGREIGDSFDAICLENLRPYVGQHIADDLQRRLDLLKPKLPNGECPPGFLGFAVNMIQIDPAYLLCVTSYGYGLRETLFYNLFSRLQVYKTRADMISALPCISDGAVSLDGGIIRKTGIFNLGNRDEVNVRFAKPTASRTMDNYSEAEKKMKELKWKKEKTLEDIKREQVLREHAVFNFGKKKEEFVRC 6oiz-a1-m4-cA_6oiz-a1-m5-cA Amyloid-Beta (20-34) wild type P05067 P05067 1.1 ELECTRON CRYSTALLOGRAPHY 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 15 15 6oiz-a1-m1-cA_6oiz-a1-m3-cA 6oiz-a1-m1-cA_6oiz-a1-m4-cA 6oiz-a1-m2-cA_6oiz-a1-m3-cA FAEDVGSNKGAIIGL FAEDVGSNKGAIIGL 6oja-a1-m1-cC_6oja-a1-m1-cD Crystal structure of the N. meningitides methionine-binding protein in its L-methionine bound conformation Q9JPG4 Q9JPG4 1.55 X-RAY DIFFRACTION 31 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 241 241 6oja-a1-m1-cA_6oja-a1-m1-cB 6oja-a1-m1-cE_6oja-a1-m1-cF KEIVFGTTVGDFGDMVKEQIQAELEKKGYTVKLVEFTDYVRPNLALAEGELDINVFQHKPYLDDFKKEHNLDITEVFQVPTAPLGLYPGKLKSLEEVKDGSTVSAPNDPSNFARVLVMLDELGWIKLKDGINPLTASKADIAENLKNIKIVELEAAQLPRSRADVDFAVVNGNYAISSGMKLTEALFQEPSFAYVNWSAVKTADKDSQWLKDVTEAYNSDAFKAYAHKRFEGYKSPAAWNE KEIVFGTTVGDFGDMVKEQIQAELEKKGYTVKLVEFTDYVRPNLALAEGELDINVFQHKPYLDDFKKEHNLDITEVFQVPTAPLGLYPGKLKSLEEVKDGSTVSAPNDPSNFARVLVMLDELGWIKLKDGINPLTASKADIAENLKNIKIVELEAAQLPRSRADVDFAVVNGNYAISSGMKLTEALFQEPSFAYVNWSAVKTADKDSQWLKDVTEAYNSDAFKAYAHKRFEGYKSPAAWNE 6oja-a1-m1-cD_6oja-a1-m1-cF Crystal structure of the N. meningitides methionine-binding protein in its L-methionine bound conformation Q9JPG4 Q9JPG4 1.55 X-RAY DIFFRACTION 39 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 241 241 6oja-a1-m1-cA_6oja-a1-m1-cC 6oja-a1-m1-cB_6oja-a1-m1-cE KEIVFGTTVGDFGDMVKEQIQAELEKKGYTVKLVEFTDYVRPNLALAEGELDINVFQHKPYLDDFKKEHNLDITEVFQVPTAPLGLYPGKLKSLEEVKDGSTVSAPNDPSNFARVLVMLDELGWIKLKDGINPLTASKADIAENLKNIKIVELEAAQLPRSRADVDFAVVNGNYAISSGMKLTEALFQEPSFAYVNWSAVKTADKDSQWLKDVTEAYNSDAFKAYAHKRFEGYKSPAAWNE KEIVFGTTVGDFGDMVKEQIQAELEKKGYTVKLVEFTDYVRPNLALAEGELDINVFQHKPYLDDFKKEHNLDITEVFQVPTAPLGLYPGKLKSLEEVKDGSTVSAPNDPSNFARVLVMLDELGWIKLKDGINPLTASKADIAENLKNIKIVELEAAQLPRSRADVDFAVVNGNYAISSGMKLTEALFQEPSFAYVNWSAVKTADKDSQWLKDVTEAYNSDAFKAYAHKRFEGYKSPAAWNE 6ojf-a1-m1-cB_6ojf-a1-m1-cA Dimeric structure of LRRK2 GTPase domain Q5S007 Q5S007 1.6 X-RAY DIFFRACTION 174 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 186 188 6oje-a1-m1-cA_6oje-a1-m1-cB YNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEAQRAACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQL YNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEAQRAACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQLVV 6ojr-a1-m1-cA_6ojr-a1-m1-cB Crystal structure of Sphingomonas paucimobilis TMY1009 apo-LsdA Q53353 Q53353 2.3 X-RAY DIFFRACTION 77 0.998 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 478 481 6ojt-a1-m1-cA_6ojt-a1-m1-cB 6ojw-a1-m1-cB_6ojw-a1-m1-cA AHFPQTPGFSGTLRPLRIEGDILDIEIEGEVPPQLNGTFHRVHPDAQFPPRFEDDQFFNGDGMVSLFRFHDGKIDFRQRYAQTDKWKVERKAGKSLFGAYRNPLTDDASVQGMIRGTANTNVMVHAGKLYAMKEDSPCLIMDPLTLETEGYTNFDGKLQSQTFCAHPKIDPVTGNLCAFAYGAKGLMTLDMAYIEISPTGKLLKEIPFQNPYYCMMHDFGVTEDYAVFAVMPLLSSWDRLEQRLPFFGFDTTLPCYLGILPRNGDARDLRWFKTGNCFVGHVMNAFNDGTKVHIDMPVSRNNSFPFFDVHGAPFDPVAGQGFLTRWTVDMASNGDSFEKTERLFDRPDEFPRIDERYATRAYRHGWMLILDTEKPYEAPYALTNTLGHIDLATGKSSSWWAGPRCAIQEPCFIPRSPDAPEGDGYVIALVDDHVANYSDLAIFDAQHVDQGPIARAKLPVRIRQGLHGNWADASRLAA AHFPQTPGFSGTLRPLRIEGDILDIEIEGEVPPQLNGTFHRVHPDAQFPPRFEDDQFFNGDGMVSLFRFHDGKIDFRQRYAQTDKWKVERKAGKSLFGAYRNPLTDDASVQGMIRGTANTNVMVHAGKLYAMKEDSPCLIMDPLTLETEGYTNFDGKLQSQTFCAHPKIDPVTGNLCAFAYGAKGLMTLDMAYIEISPTGKLLKEIPFQNPYYCMMHDFGVTEDYAVFAVMPLLSSWDRLEQRLPFFGFDTTLPCYLGILPRNGDARDLRWFKTGNCFVGHVMNAFNDGTKVHIDMPVSRNNSFPFFDVHGAPFDPVAGQGFLTRWTVDMASNGDSFEKTERLFDRPDEFPRIDERYATRAYRHGWMLILDTEKPYEAPGGAFYALTNTLGHIDLATGKSSSWWAGPRCAIQEPCFIPRSPDAPEGDGYVIALVDDHVANYSDLAIFDAQHVDQGPIARAKLPVRIRQGLHGNWADASRLA 6oju-a2-m1-cA_6oju-a2-m1-cC Crystal structure of human thymidylate synthase Delta (7-29) in complex with dUMP and 2-amino-4-oxo-4,7-dihydro-pyrrolo[2,3-d]pyrimidine-methyl-phenyl-D-glutamic acid P04818 P04818 2.884 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 285 6oju-a1-m1-cB_6oju-a1-m1-cD SELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWDANGSRDFLDSLGFSTREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPCHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEMAV SELQYLGQIQHILRCGVRKDDRTGTGTLSVFGMQARYSLRDEFPLLTTKRVFWKGVLEELLWFIKGSTNAKELSSKGVKIWDANGSRDFLDSLGFSTREEGDLGPVYGFQWRHFGAEYRDMESDYSGQGVDQLQRVIDTIKTNPDDRRIIMCAWNPRDLPLMALPPCHALCQFYVVNSELSCQLYQRSGDMGLGVPFNIASYALLTYMIAHITGLKPGDFIHTLGDAHIYLNHIEPLKIQLQREPRPFPKLRILRKVEKIDDFKAEDFQIEGYNPHPTIKMEMAV 6ok1-a1-m1-cA_6ok1-a1-m1-cC Ltp2-ChsH2(DUF35) aldolase D1AB74 D1AB74 1.7 X-RAY DIFFRACTION 184 0.995 471852 (Thermomonospora curvata DSM 43183) 471852 (Thermomonospora curvata DSM 43183) 382 382 VLPGAAAIAGIGATEFSKNSGRSELQLACEAVLAAIADAGLEPSDVDGLVTFTADTSSEIHVARNTGIGELKFFSRVGYGGGAACGTVQQAAMAVATGIAEVVVCYRAFNERSGVMDQGADSAAYAWLLPFGLNTPAQWVAMFARRYMHEYGATSEDFGRVAVVDRKHAATNPKAWFYQRPITLEDHQNSRWIVEPLHLLDCCQESDGGQALVVVSTERARDLPHPPALIWGAAQGSGYDQHMMTSYYRSEITGIPEMGLVGQQLYAQSGLNPSDIGAAILYDHFTPLVLPQLEELGFCARGEAKDFIADGNLEIGGRLPCNTHGGQLGEAYIHGMNGIAEAVRLVRGTSVNQPGDVTNVLVTAGTGVPTSGLILGADRKLR SVLPGAAAIAGIGATEFSKNSGRSELQLACEAVLAAIADAGLEPSDVDGLVTFTADTSSEIHVARNTGIGELKFFSRVGYGGGAACGTVQQAAMAVATGIAEVVVCYRAFNERSGVRDQGADSAAYAWLLPFGLNTPAQWVAMFARRYMHEYGATSEDFGRVAVVDRKHAATNPKAWFYQRPITLEDHQNSRWIVEPLHLLDCCQESDGGQALVVVSTERARDLPHPPALIWGAAQGSGYDQHMMTSYYRSEITGIPEMGLVGQQLYAQSGLNPSDIGAAILYDHFTPLVLPQLEELGFCARGEAKDFIADGNLEIGGRLPCNTHGGQLGEAYIHGMNGIAEAVRLVRGTSVNQPGDVTNVLVTAGTGVPTSGLILGADRKL 6ok3-a1-m1-cA_6ok3-a1-m1-cB Crystal structure of Sel1 repeat protein from Oxalobacter formigenes C3X9N1 C3X9N1 2.353 X-RAY DIFFRACTION 16 0.984 556269 (Oxalobacter formigenes OXCC13) 556269 (Oxalobacter formigenes OXCC13) 491 492 EENANKIILDEEAVIQCNERYKTENDEKGDEETVSWCRKAASGNAEAQYLFGLVYDGRGVQQDNCVALWWKAAEQNHAALVLGNLHRKGQCIAENYPKAIAYWKRAAVQNNVWAYHNLGTAYYDGIGVDNPHEAVRWWAAELGFPESQNNLGALYNDGNGVDRDYQEAVFWYRSALQGDELGQYNLGVAYYYGRGIKKDFSEAVSWYKKSAEQDYAQAQHNLGVTYYEGEGIKKDYAKAVYWWAAEQGIPQSQYNLGIAYEEGWGAEKNPENAVFWYRAAEQGHADAQNRLGIAYRYGTGVRKNPALSVKWLEKAAKQGLARAQFNLGKTFYIGAGINKNTDKAVYWFIKAANQGFTEAQAYIGIYFGKYVANEKKGFYWLKKAAEKDSAAQAFLGALYIAGNEVKPNIKEGVALTKKAALQGNYEAQTLLGFCYENGLEVKKDLIAAYALYLSASPHFDFAEKARLDLERKLSEQEIAKAISVNTAKLFE ENANKIILDEEKAVIQCNERYKTENDEKGDEETVSWCRKAAKSGNAEAQYLFGLVYDGRGVQQDNCVALWWAAEQNHAKALVLGNLHRKGQCIAENYPKAIAYWKRAAVQNNVWAYHNLGTAYYDGIGVDNPHEAVRWWKAAELGFPESQNNLGALYNDGNGVDRDYQEAVFWYRKSALQGDELGQYNLGVAYYYGRGIKKDFSEAVSWYKSAEQDYAQAQHNLGVTYYEGEGIKKDYAAVYWWKKAAEQGIPQSQYNLGIAYEEGWGAEKNPENAVFWYRAAEQGHADAQNRLGIAYRYGTGVRNPALSVKWLEKAAKQGLARAQFNLGKTFYIGAGINKNTDKAVYWFIAANQGFTEAQAYIGIYFKGKYVANEKKGFYWLKKAAEKDSAKAQAFLGALYIAGNEVKPNIKEGVALTKKAALQGNYEAQTLLGFCYENGLEVKKDLIAAYALYLSASPHFDFAEKARLDLERKLSEQEIAKAISVNTALF 6oke-a1-m1-cB_6oke-a1-m1-cD Crystal structure of an apo Transferrin-Receptor-Binding cystine-dense peptide 2.55 X-RAY DIFFRACTION 20 1.0 81824 (Monosiga brevicollis) 81824 (Monosiga brevicollis) 38 43 GCASRCMKYNDELEKCEARMMSDCEQELEDLLYCLDHC REGCASRCMKYNDELEKCEARMMSMDCEQELEDLLYCLDHCHS 6oke-a1-m1-cC_6oke-a1-m1-cD Crystal structure of an apo Transferrin-Receptor-Binding cystine-dense peptide 2.55 X-RAY DIFFRACTION 33 1.0 81824 (Monosiga brevicollis) 81824 (Monosiga brevicollis) 38 43 GCASRCMKYNDELEKCEARMMSDCEQELEDLLYCLDHC REGCASRCMKYNDELEKCEARMMSMDCEQELEDLLYCLDHCHS 6okh-a1-m1-cB_6okh-a1-m1-cA Structure of an uncharacterized protein from Leptospira borgpetersenii serovar Hardjo-bovis (strain JB197) Q04QG8 Q04QG8 1.85 X-RAY DIFFRACTION 108 1.0 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 176 178 DLKTDKDFAELPEGTLAELLDGEIFMVPAPIPEHQRVIRKFSNALSTFVEKNKLGEVFFSPIDVYLDEHNVVQPDLIFISKARNTIIREKRIEGAPDWIAEILSEGNAYHDLKTKKRLYEKHGVAEYWIVDPMERSVEIYQNGNSGFTLLASADSGTVVSKMLDGFSLEIQTLFTK IDLKTDKDFAELPEGTLAELLDGEIFMVPAPIPEHQRVIRKFSNALSTFVEKNKLGEVFFSPIDVYLDEHNVVQPDLIFISKARNTIIREKRIEGAPDWIAEILSEGNAYHDLKTKKRLYEKHGVAEYWIVDPMERSVEIYQNGNSGFTLLASADSGTVVSKMLDGFSLEIQTLFTKP 6oko-a1-m1-cB_6oko-a1-m1-cA Crystal structure of mRIPK3 complexed with N-(3-fluoro-4-{1H-pyrrolo[2,3-b]pyridin-4-yloxy}phenyl)-1-(4-fluorophenyl)-2-oxo-1,2-dihydropyridine-3-carboxamide Q9QZL0 Q9QZL0 2.1 X-RAY DIFFRACTION 65 0.992 10090 (Mus musculus) 10090 (Mus musculus) 261 263 AVPLVSREELKKLEFVGKGGFGVVFRAHHRTWNHDVAVKIVNSKKISWEVKAMVNLRNENVLLLLGVTEDLQWDFVSGQALVTRFMENGSLAGLLQPEAPRPWPLLCRLLQEVVLGMCYLHSLDPPLLHRDLKPSNILLDPELHAKLADFLAYLDPELLFKVNLKASKASDVYSFGILVWAVLAGREAELRQSRPPLTELPPGSPETPGLEKLKELMIHCWGSQSENRPSFQDCEPKTNEVYNLVKDKVDAAVSEVKHYLS VPLVSREELKKLEFVGKGGFGVVFRAHHRTWNHDVAVKIVNSKKISWEVKAMVNLRNENVLLLLGVTEDLQWDFVSGQALVTRFMENGSLAGLLQPEAPRPWPLLCRLLQEVVLGMCYLHSLDPPLLHRDLKPSNILLDPELHAKLADFGTLAYLDPELLFKVNLKASKASDVYSFGILVWAVLAGREAELVDQSRPPLTELPPGSPETPGLEKLKELMIHCWGSQSENRPSFQDCEPKTNEVYNLVKDKVDAAVSEVKHYLS 6oln-a2-m1-cE_6oln-a2-m1-cF Controlling the Self-Assembly of Synthetic Metal-Coordinating Coiled-Coil Peptides: Orthorhombic Lattice from a Trimeric Coiled Coil 2.5 X-RAY DIFFRACTION 26 1.0 32630 (synthetic construct) 32630 (synthetic construct) 27 27 6oln-a1-m1-cA_6oln-a1-m1-cB 6oln-a1-m1-cA_6oln-a1-m1-cC 6oln-a1-m1-cB_6oln-a1-m1-cC 6oln-a2-m1-cD_6oln-a2-m1-cE 6oln-a2-m1-cD_6oln-a2-m1-cF QIAAIKEAIAAIKQQIAAIKAIAAIKQ QIAAIKEAIAAIKQQIAAIKAIAAIKQ 6olo-a1-m2-cA_6olo-a1-m3-cA Controlling the Self-Assembly of Synthetic Metal-Coordinating Coiled-Coil Peptides: Hexagonal Lattice from a Trimeric Coiled Coil 2.3 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 26 26 6olo-a1-m1-cA_6olo-a1-m2-cA 6olo-a1-m1-cA_6olo-a1-m3-cA QIAAIKAIAAIKQQIAAIKEAIAAIK QIAAIKAIAAIKQQIAAIKEAIAAIK 6om8-a1-m1-cB_6om8-a1-m1-cD Caenorhabditis Elegans UDP-Glucose Dehydrogenase in complex with UDP-Xylose Q19905 Q19905 2.449 X-RAY DIFFRACTION 38 0.998 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 463 468 2o3j-a1-m1-cB_2o3j-a1-m1-cC 2o3j-a1-m1-cB_2o3j-a1-m2-cA 2o3j-a1-m1-cC_2o3j-a1-m2-cA 2o3j-a1-m2-cB_2o3j-a1-m1-cA 2o3j-a1-m2-cB_2o3j-a1-m2-cC 2o3j-a1-m2-cC_2o3j-a1-m1-cA 6om8-a1-m1-cA_6om8-a1-m1-cC 6om8-a1-m1-cB_6om8-a1-m1-cF 6om8-a1-m1-cE_6om8-a1-m1-cA 6om8-a2-m1-cG_6om8-a2-m2-cL 6om8-a2-m1-cG_6om8-a2-m3-cI 6om8-a2-m1-cH_6om8-a2-m2-cK 6om8-a2-m3-cJ_6om8-a2-m1-cH KVSKVVCVGAGYVGGPTCAMIAHKCPHITVTVVDMNTAKIAEWNSDKLPIYEPGLDEIVFAARGRNLFFSSDIPKAIAEADLIFISVNTPTKMYGRGKGMAPDLKYVESVSRTIAQYAGGPKIVVEKSTVPVKAAESIGCILREAQKNNENLKFQVLSNPEFLAEGTAMKDLANPDRVLIGGESSPEGLQAVAELVRIYENWVPRNRIITTNTWSSELSKLVANAFLAQRISSINSISAVCEATGAEISEVAHAVGYDTRIGSKFLQASVGFGGSCFQKDVLSLVYLCESLNLPQVADYWQGVININNWQRRRFADKIIAELFNTVTDKKIAIFGFAFKKNTGDTRESSAIHVIKHLMEEHAKLSVYDPKVQKSQMLNDLASVTSAQDVERLITVESDPYAAARGAHAIVVLTEWDEFVELNYSQIHNDMQHPAAIFDGRLILDQKALREIGFRTFAIGTSPD TDQVFGKVSKVVCVGAGYVGGPTCAMIAHKCPHITVTVVDMNTAKIAEWNSDKLPIYEPGLDEIVFAARGRNLFFSSDIPKAIAEADLIFISVNTPTKMYGRGKGMAPDLKYVESVSRTIAQYAGGPKIVVEKSTVPVKAAESIGCILREAQKNNENLKFQVLSNPEFLAEGTAMKDLANPDRVLIGGESSPEGLQAVAELVRIYENWVPRNRIITTNTWSSELSKLVANAFLAQRISSINSISAVCEATGAEISEVAHAVGYDTRIGSKFLQASVGFGGSCFQKDVLSLVYLCESLNLPQVADYWQGVININNWQRRRFADKIIAELFNTVTDKKIAIFGFAFKKNTGDTRESSAIHVIKHLMEEHAKLSVYDPKVQKSQMLNDLASVTSAQDVERLITVESDPYAAARGAHAIVVLTEWDEFVELNYSQIHNDMQHPAAIFDGRLILDQKALREIGFRTFAIGTSP 6om8-a1-m1-cC_6om8-a1-m1-cD Caenorhabditis Elegans UDP-Glucose Dehydrogenase in complex with UDP-Xylose Q19905 Q19905 2.449 X-RAY DIFFRACTION 170 0.998 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 463 468 2o3j-a1-m1-cB_2o3j-a1-m2-cB 2o3j-a1-m1-cC_2o3j-a1-m1-cA 2o3j-a1-m2-cC_2o3j-a1-m2-cA 2o3j-a2-m1-cC_2o3j-a2-m1-cA 2o3j-a3-m1-cB_2o3j-a3-m2-cB 6om8-a1-m1-cA_6om8-a1-m1-cB 6om8-a1-m1-cE_6om8-a1-m1-cF 6om8-a2-m1-cG_6om8-a2-m1-cH 6om8-a2-m2-cL_6om8-a2-m2-cK 6om8-a2-m3-cJ_6om8-a2-m3-cI KVSKVVCVGAGYVGGPTCAMIAHKCPHITVTVVDMNTAKIAEWNSDKLPIYEPGLDEIVFAARGRNLFFSSDIPKAIAEADLIFISVNTPTKMYGRGKGMAPDLKYVESVSRTIAQYAGGPKIVVEKSTVPVKAAESIGCILREAQKNNENLKFQVLSNPEFLAEGTAMKDLANPDRVLIGGESSPEGLQAVAELVRIYENWVPRNRIITTNTWSSELSKLVANAFLAQRISSINSISAVCEATGAEISEVAHAVGYDTRIGSKFLQASVGFGGSCFQKDVLSLVYLCESLNLPQVADYWQGVININNWQRRRFADKIIAELFNTVTDKKIAIFGFAFKKNTGDTRESSAIHVIKHLMEEHAKLSVYDPKVQKSQMLNDLASVTSAQDVERLITVESDPYAAARGAHAIVVLTEWDEFVELNYSQIHNDMQHPAAIFDGRLILDQKALREIGFRTFAIGTSPD TDQVFGKVSKVVCVGAGYVGGPTCAMIAHKCPHITVTVVDMNTAKIAEWNSDKLPIYEPGLDEIVFAARGRNLFFSSDIPKAIAEADLIFISVNTPTKMYGRGKGMAPDLKYVESVSRTIAQYAGGPKIVVEKSTVPVKAAESIGCILREAQKNNENLKFQVLSNPEFLAEGTAMKDLANPDRVLIGGESSPEGLQAVAELVRIYENWVPRNRIITTNTWSSELSKLVANAFLAQRISSINSISAVCEATGAEISEVAHAVGYDTRIGSKFLQASVGFGGSCFQKDVLSLVYLCESLNLPQVADYWQGVININNWQRRRFADKIIAELFNTVTDKKIAIFGFAFKKNTGDTRESSAIHVIKHLMEEHAKLSVYDPKVQKSQMLNDLASVTSAQDVERLITVESDPYAAARGAHAIVVLTEWDEFVELNYSQIHNDMQHPAAIFDGRLILDQKALREIGFRTFAIGTSP 6ome-a2-m2-cA_6ome-a2-m3-cA Crystal structure of a probable cytosol aminopeptidase (Leucine aminopeptidase, LAP) from Chlamydia trachomatis D/UW-3/Cx O84049 O84049 1.95 X-RAY DIFFRACTION 72 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 499 499 6ome-a2-m1-cA_6ome-a2-m2-cA 6ome-a2-m1-cA_6ome-a2-m3-cA VVLLYSQASWDQRSKADALVLPFWMKNSKAQEAAVVDEDYKLVYQNALSNFSGKKGETAFLFGNDHTKEQKIVLLGLGKSEEVSGTTVLEAYAQATTVLRKAKCKTVNILFPTISQLRFSVEEFLTNLAAGVLSLNYNYPTYHKVDTSLPFLEKVTVIGIVSKVGDKIFRKEESLFEGVYLTRDLVNTNADEVTPEKLAAVAKGLAGEFASLDVKILDRKAILKEKMGLLAAVAKGAAVEPRFIVLDYQGKPKSKDRTVLIGKGVTFDSGGLDLKPGKAMITMKEDMAGAATVLGIFSALASLELPINVTGIIPATENAIGSAAYKMGDVYVGMTGLSVEIGSTDAEGRLILADAISYALKYCNPTRIIDFATLTGAMVVSLGESVAGFFANNDVLARDLAEASSETGEALWRMPLVEKYDQALHSDIADMKNIGSNRAGSITAALFLQRFLEDNPVAWAHLDIAGTAYHEKEELPYPKYATGFGVRCLIHYMEKFLSK VVLLYSQASWDQRSKADALVLPFWMKNSKAQEAAVVDEDYKLVYQNALSNFSGKKGETAFLFGNDHTKEQKIVLLGLGKSEEVSGTTVLEAYAQATTVLRKAKCKTVNILFPTISQLRFSVEEFLTNLAAGVLSLNYNYPTYHKVDTSLPFLEKVTVIGIVSKVGDKIFRKEESLFEGVYLTRDLVNTNADEVTPEKLAAVAKGLAGEFASLDVKILDRKAILKEKMGLLAAVAKGAAVEPRFIVLDYQGKPKSKDRTVLIGKGVTFDSGGLDLKPGKAMITMKEDMAGAATVLGIFSALASLELPINVTGIIPATENAIGSAAYKMGDVYVGMTGLSVEIGSTDAEGRLILADAISYALKYCNPTRIIDFATLTGAMVVSLGESVAGFFANNDVLARDLAEASSETGEALWRMPLVEKYDQALHSDIADMKNIGSNRAGSITAALFLQRFLEDNPVAWAHLDIAGTAYHEKEELPYPKYATGFGVRCLIHYMEKFLSK 6omi-a2-m1-cC_6omi-a2-m2-cC Crystal structure of the Legionella effector protein MavL Q5ZSJ1 Q5ZSJ1 2.643 X-RAY DIFFRACTION 77 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 353 353 6omi-a1-m1-cA_6omi-a1-m1-cB NAAYQLLLSKETLNKILQYKQNLEKGLATPGKFFLEELSKQEKSIDITTFTQLLIQSKKPQVFAESQVYHDGTDWTLEEESILGDVSVNPVTYNDGGHGSSFKNHPKPISGYLAYVPGALLASGSGPTSDKEVLDNGKLNQDKLNALYERRLLPQLIHFNELARQNEKQAAITIPGIGTGCFSGAYYDVIKPYVRNALIHILEKHKDSLPYIDIIHYDPYGDEPAEKKIGHSFRVSPSGVVRGTTGQLDYPLGSNPDTHILVSIVAWDHFSWPGNDYWGGARQTDDGVKAASTDTGQVTGATGVYDKKWGRYPPESFTKDRKGSDWGDYVRENGIVFNGPVLALDKSGKLDTL NAAYQLLLSKETLNKILQYKQNLEKGLATPGKFFLEELSKQEKSIDITTFTQLLIQSKKPQVFAESQVYHDGTDWTLEEESILGDVSVNPVTYNDGGHGSSFKNHPKPISGYLAYVPGALLASGSGPTSDKEVLDNGKLNQDKLNALYERRLLPQLIHFNELARQNEKQAAITIPGIGTGCFSGAYYDVIKPYVRNALIHILEKHKDSLPYIDIIHYDPYGDEPAEKKIGHSFRVSPSGVVRGTTGQLDYPLGSNPDTHILVSIVAWDHFSWPGNDYWGGARQTDDGVKAASTDTGQVTGATGVYDKKWGRYPPESFTKDRKGSDWGDYVRENGIVFNGPVLALDKSGKLDTL 6oml-a1-m1-cY_6oml-a1-m1-cX Human BMP chimera BV261 2.7 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 KSSCKRHPLYVDFSDVGWNDWIVAPPGYHAFYCDGECSFPLNAHMNATNHAIVQTLVHLMNPEYVPKPCCAPTELSAISMLYLDENEKVVLKNYQDMVVEGCGCR KSSCKRHPLYVDFSDVGWNDWIVAPPGYHAFYCDGECSFPLNAHMNATNHAIVQTLVHLMNPEYVPKPCCAPTELSAISMLYLDENEKVVLKNYQDMVVEGCGCR 6omp-a1-m1-cA_6omp-a1-m1-cB Crystal structure of apo PtmU3 A0A0A0UVH9 A0A0A0UVH9 1.7 X-RAY DIFFRACTION 228 1.0 58346 (Streptomyces platensis) 58346 (Streptomyces platensis) 356 356 6omq-a1-m1-cA_6omq-a1-m1-cB 6omr-a1-m1-cA_6omr-a1-m1-cB MEKLWLNSADSHVLEPDDLWERALPAALRDRAPRCVRDNGRETVYVDGQVVRRDPLDFADAMRPPGALDHHIRLKDLDDQGIWGEVVFPSRGLWTAVMTDPVLARECIKVYNDWLKSDFLSLSPRLVGAAMVSMLDTDDAVAELRRAADLGYQTVFLAATPPPGREFNMDVWEPLWAAAEEAGMTVSIHIGTGADTVVARGPGGAVINYVETLFPAQRAVAQLVASGALDRHPGLRVLIAEAGCAWVPALADRMDEAYRQHGMFVRPKLSMLPGELVRRQVYASFQHDETAIGAVTAMNYTNVLWGSDYPHLEGTFPRTQEVVTELFAGVDPEVRDLITRRNFTDLFTVPALPATV MEKLWLNSADSHVLEPDDLWERALPAALRDRAPRCVRDNGRETVYVDGQVVRRDPLDFADAMRPPGALDHHIRLKDLDDQGIWGEVVFPSRGLWTAVMTDPVLARECIKVYNDWLKSDFLSLSPRLVGAAMVSMLDTDDAVAELRRAADLGYQTVFLAATPPPGREFNMDVWEPLWAAAEEAGMTVSIHIGTGADTVVARGPGGAVINYVETLFPAQRAVAQLVASGALDRHPGLRVLIAEAGCAWVPALADRMDEAYRQHGMFVRPKLSMLPGELVRRQVYASFQHDETAIGAVTAMNYTNVLWGSDYPHLEGTFPRTQEVVTELFAGVDPEVRDLITRRNFTDLFTVPALPATV 6on1-a3-m1-cE_6on1-a3-m1-cF A resting state structure of L-DOPA dioxygenase from Streptomyces sclerotialus A0A5H1ZR51 A0A5H1ZR51 1.982 X-RAY DIFFRACTION 174 0.986 1957 (Streptomyces sclerotialus) 1957 (Streptomyces sclerotialus) 142 142 6on1-a1-m1-cB_6on1-a1-m1-cA 6on1-a2-m1-cD_6on1-a2-m1-cC 6on3-a1-m1-cA_6on3-a1-m1-cB 6on3-a2-m1-cC_6on3-a2-m1-cD 6on3-a3-m1-cE_6on3-a3-m1-cF HAFRFHHIGVQTSDLENSLGWYREFFGCEQNWSLEKFSDLTRSRLPGITRLVELAAGDLRIHVFERPAPVAEVPQFQHLCLATRSPEEMTEWRDRWLELYESGRYTFVRDEGPTDIVVDEDGVLSLYVLDVNGLEYEFTYLP AFRFHHIGVQTSDLENSLGWYREFFGCEQNWSLEKFSDLTRSRLPGITRLVELAAGDLRIHVFERAAPVAEVPQFQHLCLATRSPEEMTEWRDRWLELYESGRYTFVRDEGPTDIVVDEDGVLSLYVLDVNGLEYEFTYLPE 6on4-a1-m1-cB_6on4-a1-m1-cA Crystal structure of the GntR-type sialoregulator NanR from Escherichia coli, in complex with sialic acid P0A8W0 P0A8W0 2.1 X-RAY DIFFRACTION 107 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 214 217 KLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSH KKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLN 6on6-a1-m1-cA_6on6-a1-m2-cA Crystal Structure of the RIG-5 IG1 homodimer C6KRM7 C6KRM7 1.423 X-RAY DIFFRACTION 66 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 108 108 APPTIQQPSMSSAVALLGQDVDFTCIVNDLGSHMVAFVKADSPPRLLSFDEKVFRRRNKYELKPRIGDLHNEWVLTIKNVQESDRGNYSCQINTEPITLSTGELDVKV APPTIQQPSMSSAVALLGQDVDFTCIVNDLGSHMVAFVKADSPPRLLSFDEKVFRRRNKYELKPRIGDLHNEWVLTIKNVQESDRGNYSCQINTEPITLSTGELDVKV 6onm-a1-m1-cA_6onm-a1-m2-cA Crystal Structure of (+)-Limonene Synthase Complexed with 8,9-Difluorolinalyl Diphosphate A0A1C9J6A7 A0A1C9J6A7 2.7 X-RAY DIFFRACTION 57 1.0 2711 (Citrus sinensis) 2711 (Citrus sinensis) 497 497 SIWDHDFLQSLNSNYTDETYKRRAEELKGKVKTAIKDVTEPLDQLELIDNLQRLGLAYHFEPEIRNILRNIHNHNKENLYATSLEFRLLRQHGYPVSQEVFSGFKDDKVGFICDDFKGILSLHEASYYSLEGESIMEEAWQFTSKHLKEMDVFVAEQAKRALELPLHWKAPMLEARWFIHVYEKREDKNHLLLELAKLEFNTLQAIYQEELKDISGWWKDTGLGEKLSFARNRLVASFLWSMGIAFEPQFAYCRRVLTISIALITVIDDIYDVYGTLDELEIFTDAVARWDINYALKHLPGYMKMCFLALYNFVNEFAYYVLKQQDFDMLLSIKHAWLGLIQAYLVEAKWYHSKYTPKLEEYLENGLVSITGPLIITISYLSGTNPIIKKELEFLESNPDIVHWSSKIFRLQDDLGTVPKSIQCYMHETGASEEVAREHIKDMMRQMWKKVNAYTADKDSPLTRTTAEFLLNLVRMSHFMYLHGDVGFTLLFQPIPL SIWDHDFLQSLNSNYTDETYKRRAEELKGKVKTAIKDVTEPLDQLELIDNLQRLGLAYHFEPEIRNILRNIHNHNKENLYATSLEFRLLRQHGYPVSQEVFSGFKDDKVGFICDDFKGILSLHEASYYSLEGESIMEEAWQFTSKHLKEMDVFVAEQAKRALELPLHWKAPMLEARWFIHVYEKREDKNHLLLELAKLEFNTLQAIYQEELKDISGWWKDTGLGEKLSFARNRLVASFLWSMGIAFEPQFAYCRRVLTISIALITVIDDIYDVYGTLDELEIFTDAVARWDINYALKHLPGYMKMCFLALYNFVNEFAYYVLKQQDFDMLLSIKHAWLGLIQAYLVEAKWYHSKYTPKLEEYLENGLVSITGPLIITISYLSGTNPIIKKELEFLESNPDIVHWSSKIFRLQDDLGTVPKSIQCYMHETGASEEVAREHIKDMMRQMWKKVNAYTADKDSPLTRTTAEFLLNLVRMSHFMYLHGDVGFTLLFQPIPL 6onw-a1-m1-cA_6onw-a1-m1-cB Crystal structure of Sel1 repeat protein from Oxalobacter formigenes C3X8T5 C3X8T5 2.951 X-RAY DIFFRACTION 54 1.0 556269 (Oxalobacter formigenes OXCC13) 556269 (Oxalobacter formigenes OXCC13) 325 328 LDALLAPVKETKVFVESNEEPLFVLKSGAWQQLRHQADQGDAKSAFWLGRFTVEDSRDGKTIDEGIRLIRRSAEGGFVRAQLYLGTLYANGTHVKADPHEAEKWLSRAAGQGSPVQLYLGLYGHGKGVPRDLNKSLFWVEKAADRGLPHAQLARGLFASFSHYYPRDDEKAVLYLTKAAKQGPAQFYLALYQRGRGVEQSNEQALHWNLAAEQGYPDAEYASRAELGIGVTADKAWSWLDRAAHHGPLAQYLGAYLEGKSVPQDLPVAAAWFYKAAQGNADAQLRLGYYARGIGVPVDKPKAVAWLEKAASAGNTVAGQWLKQLD KKLDALLAPVKETKVFVESNEEPLFVLKSGGAWQQLRHQADQGDAKSAFWLGRFTVEDSRDGKTIDEGIRLIRRSAEGGFVRAQLYLGTLYANGTHVKADPHEAEKWLSRAAGQGSPVQLYLGLYGHGKGVPRDLNKSLFWVEKAADRGLPHAQLARGLFASFSHYYPRDDEKAVLYLTKAAKQGPAQFYLALYQRGRGVEQSNEQALHWNLAAEQGYPDAEYASRAELGIGVTADKAWSWLDRAAHHGPLAQYLGAYLEGKSVPQDLPVAAAWFYKAAQGNADAQLRLGYYARGIGVPVDKPKAVAWLEKAASAGNTVAGQWLKQLD 6ood-a1-m2-cA_6ood-a1-m3-cA Structure of the pterocarpan synthase dirigent protein PsPTS1 1.5 X-RAY DIFFRACTION 80 1.0 3888 (Pisum sativum) 3888 (Pisum sativum) 155 155 6ooc-a1-m1-cA_6ooc-a1-m1-cC 6ooc-a2-m1-cD_6ooc-a2-m1-cE 6ooc-a2-m1-cD_6ooc-a2-m1-cF 6ooc-a2-m1-cE_6ooc-a2-m1-cF 6ood-a1-m1-cA_6ood-a1-m2-cA 6ood-a1-m1-cA_6ood-a1-m3-cA FQEEKFTHLHFYFHDIVTGPKPSMVFVAEPNGKVENALPFGTVVAMDDPLTAGPERDSKLVGKAQGIYTSISQEEMGLMMVMTMAFSDGEFNGSTLSILGRNMIMSETIREMAIVGGTGAFRFVRGYAQAKFFSVDFTTGDATVEYDIFVFHYKG FQEEKFTHLHFYFHDIVTGPKPSMVFVAEPNGKVENALPFGTVVAMDDPLTAGPERDSKLVGKAQGIYTSISQEEMGLMMVMTMAFSDGEFNGSTLSILGRNMIMSETIREMAIVGGTGAFRFVRGYAQAKFFSVDFTTGDATVEYDIFVFHYKG 6oog-a1-m1-cA_6oog-a1-m2-cA Crystal structure of triosephosphate isomerase from Taenia Solium in complex with 2PG Q9GTX8 Q9GTX8 2.02 X-RAY DIFFRACTION 131 1.0 6204 (Taenia solium) 6204 (Taenia solium) 252 252 PHMTRKLFVGGNWKMNGSYSHINTFFDTLQKADTDPNADIVIGVPACYLKYAQDKAPKGIKIAAENCYKVGSGAFTGEISTEMIKDCGCEWVILGHSERRHIFGESNELIGEKVKHALDSGLNVIPCIGELLSEREAGKTNDVCFAQMDAIAKNVPSKEAWDKVVIAYEPVWAIGTGKTATPAQAQEVHKVVRDWIRKHVDAGIADKVRILYGGSVTASNAKDLGTQPDVDGFLVGGASLKPDFITIINARR PHMTRKLFVGGNWKMNGSYSHINTFFDTLQKADTDPNADIVIGVPACYLKYAQDKAPKGIKIAAENCYKVGSGAFTGEISTEMIKDCGCEWVILGHSERRHIFGESNELIGEKVKHALDSGLNVIPCIGELLSEREAGKTNDVCFAQMDAIAKNVPSKEAWDKVVIAYEPVWAIGTGKTATPAQAQEVHKVVRDWIRKHVDAGIADKVRILYGGSVTASNAKDLGTQPDVDGFLVGGASLKPDFITIINARR 6ooi-a4-m1-cG_6ooi-a4-m1-cH Crystal structure of triosephosphate isomerase from Schistosoma mansoni in complex with 2PG P48501 P48501 2.14 X-RAY DIFFRACTION 133 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 249 250 6ooi-a1-m1-cB_6ooi-a1-m1-cA 6ooi-a2-m1-cD_6ooi-a2-m1-cC 6ooi-a3-m1-cE_6ooi-a3-m1-cF SRKFFVGGNWKMNGSRDDNDKLLKLLSEAHFDDNTEVLIAPPSVFLHEIRKSLKKEIHVAAQNCYKVSKGAFTGEISPAMIRDIGCDWVILGHSERRNIFGESDELIAEKVQHALAEGLSVIACIGETLSERESNKTEEVCVRQLKAIANKIKSADEWKRVVVAYEPVWAIGTGKVATPQQAQEVHNFLRKWFKTNAPNGVDEKIRIIYGGSVTAANCKELAQQHDVDGFLVGGASLKPEFTEICKARQ SRKFFVGGNWKMNGSRDDNDKLLKLLSEAHFDDNTEVLIAPPSVFLHEIRKSLKKEIHVAAQNCYKVSKGAFTGEISPAMIRDIGCDWVILGHSERRNIFGESDELIAEKVQHALAEGLSVIACIGETLSERESNKTEEVCVRQLKAIANKIKSADEWKRVVVAYEPVWAIGTGKVATPQQAQEVHNFLRKWFKTNAPNGVDEKIRIIYGGSVTAANCKELAQQHDVDGFLVGGASLKPEFTEICKARQR 6oom-a2-m1-cA_6oom-a2-m2-cA PROTEIN A P0AEY8 P0AEY8 2.2 X-RAY DIFFRACTION 45 1.0 562 (Escherichia coli) 562 (Escherichia coli) 392 392 6oop-a2-m1-cA_6oop-a2-m2-cA 6ooq-a2-m1-cA_6ooq-a2-m2-cA ARLGRQALLFPLCLVLYEFSTYIGNDMIQPGMLAVVEQYQAGIDWVPTSMTAYLAGGMFLQWLLGPLSDRIGRRPVMLAGVVWFIVTCLAILLAQNIEQFTLLRFLQGISLCFIGAVGYAAIQESFEEAVCIKITALMANVALIAPLLGPLVGAAWIHVLPWEGMFVLFAALAAISFFGLQRAMPETATRIGEKLSLKELGRDYKLVLKNGRFVAGALALGFVSLPLLAWTAQSPIIIITGEQLSSYEYGLLQVPIFGALIAGNLLLARLTSRRTVRSLIIMGGWPIMIGLLVAAAATVISSHAYLWMTAGLSIYAFGIGLANAGLVRLTLFASDMSKGTVSAAMEMLQMLIFTVGIEISKHAWLNGGNGLFNLFNLVNGILWLSLMVIFLK ARLGRQALLFPLCLVLYEFSTYIGNDMIQPGMLAVVEQYQAGIDWVPTSMTAYLAGGMFLQWLLGPLSDRIGRRPVMLAGVVWFIVTCLAILLAQNIEQFTLLRFLQGISLCFIGAVGYAAIQESFEEAVCIKITALMANVALIAPLLGPLVGAAWIHVLPWEGMFVLFAALAAISFFGLQRAMPETATRIGEKLSLKELGRDYKLVLKNGRFVAGALALGFVSLPLLAWTAQSPIIIITGEQLSSYEYGLLQVPIFGALIAGNLLLARLTSRRTVRSLIIMGGWPIMIGLLVAAAATVISSHAYLWMTAGLSIYAFGIGLANAGLVRLTLFASDMSKGTVSAAMEMLQMLIFTVGIEISKHAWLNGGNGLFNLFNLVNGILWLSLMVIFLK 6op5-a1-m1-cB_6op5-a1-m1-cA Crystal Structure of Piper methysticum Styrylpyrone Synthase 1 in complex with p-coumaroyl-CoA A0A384E132 A0A384E132 2.7 X-RAY DIFFRACTION 148 1.0 130404 (Piper methysticum) 130404 (Piper methysticum) 382 383 AQRAKGPATVLAIGTATPANVVYQTDYPDYYFRVTKSEHMTKLKNKFQRMCDRSTIKKRYMVLTEELLEKNLSLCTYMEPSLDARQDILVPEVPKLGKEAADEAIAEWGRPKSEITHLIFCTTCGVDMPGADYQLTKLLGLRSSVRRTMLYQQGCFGGGTVLRLAKDLAENNAGARVLVVCSEITTAVNFRGPSDTHLDLLVGLALFGDGAAAVIVGADPDPTLERPLFQIVSGAQTILPDSEGAINGHLREVGLTIRLLKDVPGLVSMNIEKCLMEAFAPMGIHDWNSIFWIAHPGGPTILDQVEAKLGLKEEKLKSTRAVLREYGNMSSACVLFILDEVRKRSMEEGKTTTGEGFDWGVLFGFGPGFTVETVVLHSMPIP AAQRAKGPATVLAIGTATPANVVYQTDYPDYYFRVTKSEHMTKLKNKFQRMCDRSTIKKRYMVLTEELLEKNLSLCTYMEPSLDARQDILVPEVPKLGKEAADEAIAEWGRPKSEITHLIFCTTCGVDMPGADYQLTKLLGLRSSVRRTMLYQQGCFGGGTVLRLAKDLAENNAGARVLVVCSEITTAVNFRGPSDTHLDLLVGLALFGDGAAAVIVGADPDPTLERPLFQIVSGAQTILPDSEGAINGHLREVGLTIRLLKDVPGLVSMNIEKCLMEAFAPMGIHDWNSIFWIAHPGGPTILDQVEAKLGLKEEKLKSTRAVLREYGNMSSACVLFILDEVRKRSMEEGKTTTGEGFDWGVLFGFGPGFTVETVVLHSMPIP 6op5-a3-m1-cE_6op5-a3-m1-cF Crystal Structure of Piper methysticum Styrylpyrone Synthase 1 in complex with p-coumaroyl-CoA A0A384E132 A0A384E132 2.7 X-RAY DIFFRACTION 54 1.0 130404 (Piper methysticum) 130404 (Piper methysticum) 382 382 6op5-a2-m1-cC_6op5-a2-m1-cD AQRAKGPATVLAIGTATPANVVYQTDYPDYYFRVTKSEHMTKLKNKFQRMCDRSTIKKRYMVLTEELLEKNLSLCTYMEPSLDARQDILVPEVPKLGKEAADEAIAEWGRPKSEITHLIFCTTCGVDMPGADYQLTKLLGLRSSVRRTMLYQQGCFGGGTVLRLAKDLAENNAGARVLVVCSEITTAVNFRGPSDTHLDLLVGLALFGDGAAAVIVGADPDPTLERPLFQIVSGAQTILPDSEGAINGHLREVGLTIRLLKDVPGLVSMNIEKCLMEAFAPMGIHDWNSIFWIAHPGGPTILDQVEAKLGLKEEKLKSTRAVLREYGNMSSACVLFILDEVRKRSMEEGKTTTGEGFDWGVLFGFGPGFTVETVVLHSMPIP AQRAKGPATVLAIGTATPANVVYQTDYPDYYFRVTKSEHMTKLKNKFQRMCDRSTIKKRYMVLTEELLEKNLSLCTYMEPSLDARQDILVPEVPKLGKEAADEAIAEWGRPKSEITHLIFCTTCGVDMPGADYQLTKLLGLRSSVRRTMLYQQGCFGGGTVLRLAKDLAENNAGARVLVVCSEITTAVNFRGPSDTHLDLLVGLALFGDGAAAVIVGADPDPTLERPLFQIVSGAQTILPDSEGAINGHLREVGLTIRLLKDVPGLVSMNIEKCLMEAFAPMGIHDWNSIFWIAHPGGPTILDQVEAKLGLKEEKLKSTRAVLREYGNMSSACVLFILDEVRKRSMEEGKTTTGEGFDWGVLFGFGPGFTVETVVLHSMPIP 6opa-a1-m3-cG_6opa-a1-m2-cG Crystal structure of bovine Fab NC-Cow1 in complex with HIV-1 BG505 SOSIP.664, and human Fabs 35022 and PGT128 Q2N0S6 Q2N0S6 4.084 X-RAY DIFFRACTION 35 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 427 427 5cjx-a1-m1-cG_5cjx-a1-m1-cK 6opa-a1-m1-cG_6opa-a1-m2-cG 6opa-a1-m3-cG_6opa-a1-m1-cG ENLWVTVYYGVPVWKDAETTLFCASDANVWATHACVPTDPNPQEIHLENVTEEFNMWKNNMVEQMHTDIISLWDQSLKPCVKLTPLCVTLQCTNVELKNCSFNMTTELRDKKQKVYSLFYRLDVVQINKEYRLINCNTSAITQACPKVSFEPIPIHYCAPAGFAILKCKDKKFNGTGPCPSVSTVQCTHGIKPVVSTQLLLNGSLAEEEVMIRSENITNNAKNILVQFNTPVQINCTRPNNNTRKSIRIGPGQAFYATGDIIGDIRQAHCNVSKATWNETLGKVVKQLRKHFIRFANSSGGDLEVTTHSFNCGGEFFYCNTSGLFNSTWISNDSITLPCRIKQIINMWQRIGQAMYAPPIQGVIRCVSNITGLILTRDGGSTNSTTETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRVV ENLWVTVYYGVPVWKDAETTLFCASDANVWATHACVPTDPNPQEIHLENVTEEFNMWKNNMVEQMHTDIISLWDQSLKPCVKLTPLCVTLQCTNVELKNCSFNMTTELRDKKQKVYSLFYRLDVVQINKEYRLINCNTSAITQACPKVSFEPIPIHYCAPAGFAILKCKDKKFNGTGPCPSVSTVQCTHGIKPVVSTQLLLNGSLAEEEVMIRSENITNNAKNILVQFNTPVQINCTRPNNNTRKSIRIGPGQAFYATGDIIGDIRQAHCNVSKATWNETLGKVVKQLRKHFIRFANSSGGDLEVTTHSFNCGGEFFYCNTSGLFNSTWISNDSITLPCRIKQIINMWQRIGQAMYAPPIQGVIRCVSNITGLILTRDGGSTNSTTETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRVV 6opf-a1-m1-cB_6opf-a1-m1-cA Crystal structure of dmNxf2 UBA domain fused with Panoramix helix Q9W2H9 Q9W2H9 2 X-RAY DIFFRACTION 33 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 84 85 QAEEDSLDVKDHKLLLFQEVTGLISTWVTSIVEEADWDFERALKLFIQKNADHEIPDLAFALSKADKRSLAVARAELVLEQIQQ QAEEDSLDVKDHKLLLFQEVTGLISTWVTSIVEEADWDFERALKLFIQKNADHEIPDLAFANLSKADKRSLAVARAELVLEQIQQ 6opm-a1-m1-cA_6opm-a1-m1-cD Casposase bound to integration product A0A0F8IEL4 A0A0F8IEL4 3.1 X-RAY DIFFRACTION 32 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 333 333 6opm-a1-m1-cB_6opm-a1-m1-cC KLLLLNGHGINHVDGAKLHIKDGRFSTTEEPQEYVFSPKRIDIDGIIIYGKSGNLTLEAIRWLIKHNVQVSILDWNGKLLTTLPPESTNLRTKFAQYHAFEDKEARLEIAKKFIEAKFYKSKAVLDFLSQRYPEINFDILDGLTKLKDVKSTREILGVEGTLAGKYWIEFSKAVPKEYDFSNRIDQFRRAGSGDINTLNYGYSLLEAECLKAINSVGLDTHVGFLHEAPSKNSLAYDLQEPFRFIVDLAVISLIESGAESKDFIRTENYNLRLKPTGARKIVNEFSNTLNKKVSYQGKESTWSYVIFLKVRELAHYLTSKKEKLDFTKPEYEI KLLLLNGHGINHVDGAKLHIKDGRFSTTEEPQEYVFSPKRIDIDGIIIYGKSGNLTLEAIRWLIKHNVQVSILDWNGKLLTTLPPESTNLRTKFAQYHAFEDKEARLEIAKKFIEAKFYKSKAVLDFLSQRYPEINFDILDGLTKLKDVKSTREILGVEGTLAGKYWIEFSKAVPKEYDFSNRIDQFRRAGSGDINTLNYGYSLLEAECLKAINSVGLDTHVGFLHEAPSKNSLAYDLQEPFRFIVDLAVISLIESGAESKDFIRTENYNLRLKPTGARKIVNEFSNTLNKKVSYQGKESTWSYVIFLKVRELAHYLTSKKEKLDFTKPEYEI 6opm-a1-m1-cD_6opm-a1-m1-cC Casposase bound to integration product A0A0F8IEL4 A0A0F8IEL4 3.1 X-RAY DIFFRACTION 97 1.0 2209 (Methanosarcina mazei) 2209 (Methanosarcina mazei) 333 351 6opm-a1-m1-cA_6opm-a1-m1-cB KLLLLNGHGINHVDGAKLHIKDGRFSTTEEPQEYVFSPKRIDIDGIIIYGKSGNLTLEAIRWLIKHNVQVSILDWNGKLLTTLPPESTNLRTKFAQYHAFEDKEARLEIAKKFIEAKFYKSKAVLDFLSQRYPEINFDILDGLTKLKDVKSTREILGVEGTLAGKYWIEFSKAVPKEYDFSNRIDQFRRAGSGDINTLNYGYSLLEAECLKAINSVGLDTHVGFLHEAPSKNSLAYDLQEPFRFIVDLAVISLIESGAESKDFIRTENYNLRLKPTGARKIVNEFSNTLNKKVSYQGKESTWSYVIFLKVRELAHYLTSKKEKLDFTKPEYEI KLLLLNGHGINHVDGAKLHIKDGRFSTTEEPQEYVFSPKRIDIDGIIIYGKSGNLTLEAIRWLIKHNVQVSILDWNGKLLTTLPPESTNLRTKFAQYHAFEDKEARLEIAKKFIEAKFYKSKAVLDFLSQRYPEINFDILDGLTKLKDVKSTREILGVEGTLAGKYWIEFSKAVPKEYDFSNRIDQFRRAGSGDINTLNYGYSLLEAECLKAINSVGLDTHVGFLHEAPSKNSLAYDLQEPFRFIVDLAVISLIESGAESKDFIRTENYNLRLKPTGARKIVNEFSNTLNKKVSYQGKESTWSYVIFLKVRELAHYLTSKKEKLDFTKPEYEIERIDSYDIRQKILSISYV 6oqa-a2-m1-cH_6oqa-a2-m1-cG Crystal structure of CEP250 bound to FKBP12 in the presence of FK506-like novel natural product Q9BV73 Q9BV73 2.2 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 87 6oqa-a1-m1-cC_6oqa-a1-m1-cD LEPRLQRELERLQAALRQTEAREIEWREKAQDLALSLAQTKASVSSLQEVAMFLQASVLERDSEQQRLQDELELTRRALEKERLH DSLEPRLQRELERLQAALRQTEAREIEWREKAQDLALSLAQTKASVSSLQEVAMFLQASVLERDSEQQRLQDELELTRRALEKERLH 6or9-a1-m1-cD_6or9-a1-m1-cA Structure of L-lactate dehydrogenase from Trichoplusia ni A0A5H1ZR53 A0A5H1ZR53 1.8 X-RAY DIFFRACTION 120 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 299 306 6or9-a1-m1-cC_6or9-a1-m1-cB GNKVTVVGVGQVGMAAVFSMITQGVTNNIAMVDVMADKLKGELMDLQHGSAFMRNVKIQASTDYSISAGSKICVVTAGVRSRLDLVQRNTDVLKIIIPQLVKHSPDTILIIASNPVDILTYVSWKLSGLPKHRVIGSGTNLDSARFRYLLSEKLGIATTSCHGYIIGEHGDSSVPVWSGVNIAGVRLSDLNQNWKETHTMVVKSAYEVIKLKGYTSWAIGLSLSQLARAILSNANSVHAVSTYLKGEHDINDEVFLSLPCVLGRSGVCDVIRQPLTQTERSQLHQSADLMAKVQAGIKF GNKVTVVGVGQVGMAAVFSMITQGVTNNIAMVDVMADKLKGELMDLQHGSAFMRNVKIQASTDYSISAGSKICVVTAGVRQREGESRLDLVQRNTDVLKIIIPQLVKHSPDTILIIASNPVDILTYVSWKLSGLPKHRVIGSGTNLDSARFRYLLSEKLGIATTSCHGYIIGEHGDSSVPVWSGVNIAGVRLSDLNQKINWKETHTMVVKSAYEVIKLKGYTSWAIGLSLSQLARAILSNANSVHAVSTYLKGEHDINDEVFLSLPCVLGRSGVCDVIRQPLTQTERSQLHQSADLMAKVQAGIKF 6or9-a1-m1-cD_6or9-a1-m1-cB Structure of L-lactate dehydrogenase from Trichoplusia ni A0A5H1ZR53 A0A5H1ZR53 1.8 X-RAY DIFFRACTION 93 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 299 308 6or9-a1-m1-cC_6or9-a1-m1-cA GNKVTVVGVGQVGMAAVFSMITQGVTNNIAMVDVMADKLKGELMDLQHGSAFMRNVKIQASTDYSISAGSKICVVTAGVRSRLDLVQRNTDVLKIIIPQLVKHSPDTILIIASNPVDILTYVSWKLSGLPKHRVIGSGTNLDSARFRYLLSEKLGIATTSCHGYIIGEHGDSSVPVWSGVNIAGVRLSDLNQNWKETHTMVVKSAYEVIKLKGYTSWAIGLSLSQLARAILSNANSVHAVSTYLKGEHDINDEVFLSLPCVLGRSGVCDVIRQPLTQTERSQLHQSADLMAKVQAGIKF DTGNKVTVVGVGQVGMAAVFSMITQGVTNNIAMVDVMADKLKGELMDLQHGSAFMRNVKIQASTDYSISAGSKICVVTAGVRQREGESRLDLVQRNTDVLKIIIPQLVKHSPDTILIIASNPVDILTYVSWKLSGLPKHRVIGSGTNLDSARFRYLLSEKLGIATTSCHGYIIGEHGDSSVPVWSGVNIAGVRLSDLNQKINWKETHTMVVKSAYEVIKLKGYTSWAIGLSLSQLARAILSNANSVHAVSTYLKGEHDINDEVFLSLPCVLGRSGVCDVIRQPLTQTERSQLHQSADLMAKVQAGIKF 6or9-a1-m1-cD_6or9-a1-m1-cC Structure of L-lactate dehydrogenase from Trichoplusia ni A0A5H1ZR53 A0A5H1ZR53 1.8 X-RAY DIFFRACTION 10 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 299 305 GNKVTVVGVGQVGMAAVFSMITQGVTNNIAMVDVMADKLKGELMDLQHGSAFMRNVKIQASTDYSISAGSKICVVTAGVRSRLDLVQRNTDVLKIIIPQLVKHSPDTILIIASNPVDILTYVSWKLSGLPKHRVIGSGTNLDSARFRYLLSEKLGIATTSCHGYIIGEHGDSSVPVWSGVNIAGVRLSDLNQNWKETHTMVVKSAYEVIKLKGYTSWAIGLSLSQLARAILSNANSVHAVSTYLKGEHDINDEVFLSLPCVLGRSGVCDVIRQPLTQTERSQLHQSADLMAKVQAGIKF GNKVTVVGVGQVGMAAVFSMITQGVTNNIAMVDVMADKLKGELMDLQHGSAFMRNVKIQASTDYSISAGSKICVVTAGVRQREGESRLDLVQRNTDVLKIIIPQLVKHSPDTILIIASNPVDILTYVSWKLSGLPKHRVIGSGTNLDSARFRYLLSEKLGIATTSCHGYIIGEHGDSSVPVWSGVNIAGVRLSDLNQKNWKETHTMVVKSAYEVIKLKGYTSWAIGLSLSQLARAILSNANSVHAVSTYLKGEHDINDEVFLSLPCVLGRSGVCDVIRQPLTQTERSQLHQSADLMAKVQAGIKF 6orh-a1-m1-cA_6orh-a1-m1-cB Crystal structure of SpGH29 A0A0H2US78 A0A0H2US78 1.62 X-RAY DIFFRACTION 52 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 449 449 KIKPHGPLPSQTQLAYLGDELAAFIHFGPNTFYDQEWGTGQEDPERFNPSQLDAREWVRVLKETGFKKLILVVKHHDGFVLYPTAHTDYSVKVSPWRRGKGDLLLEVSQAATEFDMDMGVYLSPWDAHSPLYHVDREADYNAYYLAQLKEILSNPNYGNAGKFAEVWMNGARGEGAQKVNYEFEKWFETIRDLQGDCLIFSTEGTSIRWIGNQRGYAGDPLWQKVNPDKLGTEAELNYLQHGDPSGTIFSIGEADVSIRPGWFYHEDQDPKSLEELVEIYFHSVGRGTPLLLNIPPNQAGLFDAKDIERLYEFATYRNELYKEDLALGAEVSGPALSADFACRHLTDGLETSSWASDADLPIQLELDLGSPKTFDVIELREDLKLGQRIAAFHVQVEVDGVWQEFGSGHTVGYKRLLRGAVVEAQKIRVVITESQALPLLTKISLYKTP KIKPHGPLPSQTQLAYLGDELAAFIHFGPNTFYDQEWGTGQEDPERFNPSQLDAREWVRVLKETGFKKLILVVKHHDGFVLYPTAHTDYSVKVSPWRRGKGDLLLEVSQAATEFDMDMGVYLSPWDAHSPLYHVDREADYNAYYLAQLKEILSNPNYGNAGKFAEVWMNGARGEGAQKVNYEFEKWFETIRDLQGDCLIFSTEGTSIRWIGNQRGYAGDPLWQKVNPDKLGTEAELNYLQHGDPSGTIFSIGEADVSIRPGWFYHEDQDPKSLEELVEIYFHSVGRGTPLLLNIPPNQAGLFDAKDIERLYEFATYRNELYKEDLALGAEVSGPALSADFACRHLTDGLETSSWASDADLPIQLELDLGSPKTFDVIELREDLKLGQRIAAFHVQVEVDGVWQEFGSGHTVGYKRLLRGAVVEAQKIRVVITESQALPLLTKISLYKTP 6orj-a1-m2-cA_6orj-a1-m3-cA Central spike of phiKZ phage tail Q8SCZ8 Q8SCZ8 2.37 X-RAY DIFFRACTION 329 1.0 169683 (Phikzvirus phiKZ) 169683 (Phikzvirus phiKZ) 235 235 6orj-a1-m1-cA_6orj-a1-m2-cA 6orj-a1-m1-cA_6orj-a1-m3-cA IQTSEFRLWSIGRATENKPRNSFTLVLPIESASRDIPCIWLPNEDNRATPPDVRGEKIAIYRLGDTSQFYWRSGLSNDLRTLESVVYTFNASLSPGGNFDTCYFQFSAHDKHVTIGTSKANGEPYRYSVQINTGTGAVYILDDIGNRFELVSKDKRLLNADNSFVKVEKKAIDLNADQYIKLTSGGSTLELNPTEFKVNTTNTTIKSSGTHIQEAGGTTHKAGGNLFTAPRYDFT IQTSEFRLWSIGRATENKPRNSFTLVLPIESASRDIPCIWLPNEDNRATPPDVRGEKIAIYRLGDTSQFYWRSGLSNDLRTLESVVYTFNASLSPGGNFDTCYFQFSAHDKHVTIGTSKANGEPYRYSVQINTGTGAVYILDDIGNRFELVSKDKRLLNADNSFVKVEKKAIDLNADQYIKLTSGGSTLELNPTEFKVNTTNTTIKSSGTHIQEAGGTTHKAGGNLFTAPRYDFT 6orr-a5-m1-cA_6orr-a5-m2-cC Co-crystal structure of human NicotinamideN-Methyltransferase (NNMT) in complex with High-Affinity Alkynyl Bisubstrate Inhibitor NS1 P40261 P40261 2.25 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 271 273 6chh-a1-m2-cB_6chh-a1-m1-cA HHSSGLVPRGSMESGFTSKDTYLSHFNPRDYLEKYYKFGSRHSAESQILKHLLKNLFKIFCLDGVKGDLLIDIGSGPTIYQLLSACESFKEIVVTDYSDQNLQELEKWLKAAPAAFDWSPVVTYVCDLEGNRVKGPEKEEKLRQAVKQVLKCDVTQSQPLGAVPLPPADCVLSTLCLDAACPDLPTYCRALRNLGSLLKPGGFLVIMDALKSSYYMIGEQKFSSLPLGREAVEAAVKEAGYTIEWFEVISQSYSSTMANNEGLFSLVARKL HHSSGLVPRGSMESGFTSKDTYLSHFNPRDYLEKYYKFGSRHSAESQILKHLLKNLFKIFCLDGVKGDLLIDIGSGPTIYQLLSACESFKEIVVTDYSDQNLQELEKWLKAAPAAFDWSPVVTYVCDLEGNRVKGPEKEEKLRQAVKQVLKCDVTQSQPLGAVPLPPADCVLSTLCLDAACPDLPTYCRALRNLGSLLKPGGFLVIMDALKSSYYMIGEQKFSSLPLGREAVEAAVKEAGYTIEWFEVISQSYSSTMANNEGLFSLVARKLSR 6orr-a5-m1-cD_6orr-a5-m2-cC Co-crystal structure of human NicotinamideN-Methyltransferase (NNMT) in complex with High-Affinity Alkynyl Bisubstrate Inhibitor NS1 P40261 P40261 2.25 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 273 6chh-a1-m1-cC_6chh-a1-m2-cB 6chh-a1-m1-cD_6chh-a1-m1-cA 6orr-a5-m2-cB_6orr-a5-m1-cA FTSKDTYLSHFNPRDYLEKYYKFGSRHSAESQILKHLLKNLFKIFCLDGVKGDLLIDIGSGPTIYQLLSACESFKEIVVTDYSDQNLQELEKWLKAAPAAFDWSPVVTYVCDLEGNRVKGPEKEEKLRQAVKQVLKCDVTQSQPLGAVPLPPADCVLSTLCLDAACPDLPTYCRALRNLGSLLKPGGFLVIMDALKSSYYMIGEQKFSSLPLGREAVEAAVKEAGYTIEWFEVISQSYSSTMANNEGLFSLVARKLS HHSSGLVPRGSMESGFTSKDTYLSHFNPRDYLEKYYKFGSRHSAESQILKHLLKNLFKIFCLDGVKGDLLIDIGSGPTIYQLLSACESFKEIVVTDYSDQNLQELEKWLKAAPAAFDWSPVVTYVCDLEGNRVKGPEKEEKLRQAVKQVLKCDVTQSQPLGAVPLPPADCVLSTLCLDAACPDLPTYCRALRNLGSLLKPGGFLVIMDALKSSYYMIGEQKFSSLPLGREAVEAAVKEAGYTIEWFEVISQSYSSTMANNEGLFSLVARKLSR 6orr-a5-m2-cB_6orr-a5-m2-cC Co-crystal structure of human NicotinamideN-Methyltransferase (NNMT) in complex with High-Affinity Alkynyl Bisubstrate Inhibitor NS1 P40261 P40261 2.25 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 273 6chh-a1-m1-cC_6chh-a1-m1-cA 6chh-a1-m1-cD_6chh-a1-m2-cB 6orr-a5-m1-cD_6orr-a5-m1-cA FTSKDTYLSHFNPRDYLEKYYKFGSRHSAESQILKHLLKNLFKIFCLDGVKGDLLIDIGSGPTIYQLLSACESFKEIVVTDYSDQNLQELEKWLKAAPAAFDWSPVVTYVCDLEGNRVKGPEKEEKLRQAVKQVLKCDVTQSQPLGAVPLPPADCVLSTLCLDAACPDLPTYCRALRNLGSLLKPGGFLVIMDALKSSYYMIGEQKFSSLPLGREAVEAAVKEAGYTIEWFEVISQSYSSTMANNEGLFSLVARKLS HHSSGLVPRGSMESGFTSKDTYLSHFNPRDYLEKYYKFGSRHSAESQILKHLLKNLFKIFCLDGVKGDLLIDIGSGPTIYQLLSACESFKEIVVTDYSDQNLQELEKWLKAAPAAFDWSPVVTYVCDLEGNRVKGPEKEEKLRQAVKQVLKCDVTQSQPLGAVPLPPADCVLSTLCLDAACPDLPTYCRALRNLGSLLKPGGFLVIMDALKSSYYMIGEQKFSSLPLGREAVEAAVKEAGYTIEWFEVISQSYSSTMANNEGLFSLVARKLSR 6osm-a1-m1-cI_6osm-a1-m1-cJ Cryo-EM structure of the N-terminally acetylated C-terminal Alpha-synuclein truncation Ac1-103 P37840 P37840 3.4 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 6osm-a1-m1-cA_6osm-a1-m1-cB 6osm-a1-m1-cB_6osm-a1-m1-cC 6osm-a1-m1-cC_6osm-a1-m1-cD 6osm-a1-m1-cD_6osm-a1-m1-cE 6osm-a1-m1-cE_6osm-a1-m1-cF 6osm-a1-m1-cF_6osm-a1-m1-cG 6osm-a1-m1-cG_6osm-a1-m1-cH 6osm-a1-m1-cH_6osm-a1-m1-cI 7v4d-a1-m1-cA_7v4d-a1-m1-cC 7v4d-a1-m1-cA_7v4d-a1-m1-cF 7v4d-a1-m1-cB_7v4d-a1-m1-cC 7v4d-a1-m1-cB_7v4d-a1-m1-cD 7v4d-a1-m1-cE_7v4d-a1-m1-cF VLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK VLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK 6oso-a1-m1-cA_6oso-a1-m2-cA The crystal structure of the isolate tryptophan synthase alpha-chain from Salmonella enterica serovar typhimurium at 1.75 Angstrom resolution P00929 P00929 1.75 X-RAY DIFFRACTION 93 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 258 258 MERYENLFAQLNDRREGAFVPFVTLGDPGIEQSLKIIDTLIDAGADALELGVPFSDPLADGPTIQNANLRAFAAGVTPAQCFEMLALIREKHPTIPIGLLMYANLVFNNGIDAFYARCEQVGVDSVLVADVPVEESAPFRQAALRHNIAPIFICPPNADDDLLRQVASYGRGYTYLLSGALPLHHLIEKLKEYHAAPALQGFGISSPEQVSAAVRAGAAGAISGSAIVKIIEKNLASPKQMLAELRSFVSAMKAASRA MERYENLFAQLNDRREGAFVPFVTLGDPGIEQSLKIIDTLIDAGADALELGVPFSDPLADGPTIQNANLRAFAAGVTPAQCFEMLALIREKHPTIPIGLLMYANLVFNNGIDAFYARCEQVGVDSVLVADVPVEESAPFRQAALRHNIAPIFICPPNADDDLLRQVASYGRGYTYLLSGALPLHHLIEKLKEYHAAPALQGFGISSPEQVSAAVRAGAAGAISGSAIVKIIEKNLASPKQMLAELRSFVSAMKAASRA 6oss-a1-m1-cB_6oss-a1-m1-cC Crystal Structure of the Acyl-Carrier-Protein UDP-N-Acetylglucosamine O-Acyltransferase LpxA from Proteus mirabilis B4F258 B4F258 2.19 X-RAY DIFFRACTION 60 1.0 529507 (Proteus mirabilis HI4320) 529507 (Proteus mirabilis HI4320) 268 268 6oss-a1-m1-cA_6oss-a1-m1-cB 6oss-a1-m1-cA_6oss-a1-m1-cC AMIDKSAVIHPSSIIEEGAVIGANVRIGPFCVIGSHVEIGEGTDIKSHVVINGHTRIGRDNQIYQFASIGEVNQDLKYRGEPTQVIIGDRNLIRESVTIHRGTTQGGNITKIGNDNLLMINTHVAHDCIIGDRCIIANNGTLGGHVTLGDYVIIGGMSAVHQFCQIGSHVMVGGCSGVAQDVPPFVIAQGNHATPYGLNIEGLKRRGFAKEDLHAIRNAYKILYRNGKTLEEAREEIAQLAADNNNQYVKIFSDFLENSAKSNRGIIR AMIDKSAVIHPSSIIEEGAVIGANVRIGPFCVIGSHVEIGEGTDIKSHVVINGHTRIGRDNQIYQFASIGEVNQDLKYRGEPTQVIIGDRNLIRESVTIHRGTTQGGNITKIGNDNLLMINTHVAHDCIIGDRCIIANNGTLGGHVTLGDYVIIGGMSAVHQFCQIGSHVMVGGCSGVAQDVPPFVIAQGNHATPYGLNIEGLKRRGFAKEDLHAIRNAYKILYRNGKTLEEAREEIAQLAADNNNQYVKIFSDFLENSAKSNRGIIR 6ote-a2-m1-cA_6ote-a2-m2-cA Crystal Structure of Seryl-tRNA synthetase (SerRS) from Cryptosporidium parvum complexed with L-Serylsulfamoyl Adenosine Q5CVB3 Q5CVB3 2.95 X-RAY DIFFRACTION 128 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 409 409 IDINRIRVEKGGDYQKIAESEMARYKGLETLEELVKVDQKWREDMFKLEQSKKESVQLKKNLPIIEKQALETEEVRDKLWHKIGNVLQPDVPISNTEDDNLVLRTWGEIPDIKVDGTPGKLHHNEIMSRLGFYDSVKGAELAGHRGYFLKDYGVIMSMALSHYAMGFLLKKGYLAIQPPYFMKRDLMGKAAELQDFEETLYHIPSDNSKGEVDSNSLFLIATSEQPIAAMHHNVTLEDKDLPIKYAGISTCFRKEAGAHGKDTWGIFRIHQFEKVEQFCVTLPEDSQKIHEEMISISEEFYQSLELPYRVISIVSGALNDAASKKYDLEAWFPGYNSYRELVSCSNCTDYQSRALECRLKHYCHFLNGTLCAIQRTMCCIVENYQTPDGLRIPKVLQPYMNGVEFIPFK IDINRIRVEKGGDYQKIAESEMARYKGLETLEELVKVDQKWREDMFKLEQSKKESVQLKKNLPIIEKQALETEEVRDKLWHKIGNVLQPDVPISNTEDDNLVLRTWGEIPDIKVDGTPGKLHHNEIMSRLGFYDSVKGAELAGHRGYFLKDYGVIMSMALSHYAMGFLLKKGYLAIQPPYFMKRDLMGKAAELQDFEETLYHIPSDNSKGEVDSNSLFLIATSEQPIAAMHHNVTLEDKDLPIKYAGISTCFRKEAGAHGKDTWGIFRIHQFEKVEQFCVTLPEDSQKIHEEMISISEEFYQSLELPYRVISIVSGALNDAASKKYDLEAWFPGYNSYRELVSCSNCTDYQSRALECRLKHYCHFLNGTLCAIQRTMCCIVENYQTPDGLRIPKVLQPYMNGVEFIPFK 6otu-a1-m1-cA_6otu-a1-m2-cA Crystal structure of a glucose-6-phosphate isomerase from Chlamydia trachomatis D/UW-3/Cx 2.25 X-RAY DIFFRACTION 480 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 517 517 KGFLDCESLVALQEMALHPIDLTASGCLSEERIQKNSLSVEGFTYSYATERVDDRCLEALQGLTEERELIKQMECMQQGAIMNRIEGFQSESRPVLHTATRAWVRDQDLHEEAAAIARHSKEEALRLAEFLYIARAKFSTLVQIGIGGSELGPKAMYFAMQGSCPSDKRIFFVSNIDPDNAAEVLREIDLEQTLVVVVSKSGTTLEPAANEELFRQAYQNKGLSIAEHFVAVTSQGSPMDDKSRYLEVFHLWDSIGGRFSATSMVGGVVLGFAFGYEAFIEFLQGAAAIDAHALTPKMRENLPLLSAMLGVWNRNLLGYPTTAVIPYSTGLKYFTAHLQQCGMESNGKSISREGKEISFRTSPIIWGDVGTNCQHSFFQSLHQGTDIVPVEFIGFLHNQRGLDCVLSGSSSSQKLFANLVAQSLALAQGRDNANPNKRFKGNSPSSILVAQQLSPRIAGSLLAFYEHKFAFQGFCWGINSFDQEGVSLGKELATQIIGIMSEFPEARGVLRLFNVLT KGFLDCESLVALQEMALHPIDLTASGCLSEERIQKNSLSVEGFTYSYATERVDDRCLEALQGLTEERELIKQMECMQQGAIMNRIEGFQSESRPVLHTATRAWVRDQDLHEEAAAIARHSKEEALRLAEFLYIARAKFSTLVQIGIGGSELGPKAMYFAMQGSCPSDKRIFFVSNIDPDNAAEVLREIDLEQTLVVVVSKSGTTLEPAANEELFRQAYQNKGLSIAEHFVAVTSQGSPMDDKSRYLEVFHLWDSIGGRFSATSMVGGVVLGFAFGYEAFIEFLQGAAAIDAHALTPKMRENLPLLSAMLGVWNRNLLGYPTTAVIPYSTGLKYFTAHLQQCGMESNGKSISREGKEISFRTSPIIWGDVGTNCQHSFFQSLHQGTDIVPVEFIGFLHNQRGLDCVLSGSSSSQKLFANLVAQSLALAQGRDNANPNKRFKGNSPSSILVAQQLSPRIAGSLLAFYEHKFAFQGFCWGINSFDQEGVSLGKELATQIIGIMSEFPEARGVLRLFNVLT 6otv-a1-m1-cA_6otv-a1-m1-cB Crystal structure of putative isomerase EC2056 P0AAV8 P0AAV8 2.4 X-RAY DIFFRACTION 52 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 350 350 MKKIPCVMMRGGTSRGAFLLAEHLPEDQTQRDKILMAIMGSGNDLEIDGIGGGNPLTSKVAIISRSSDPRADVDYLFAQVIVHEQRVDTTPNCGNMLSGVGAFAIENGLIAATSPVTRVRIRNVNTGTFIEADVQTPNGVVEYEGSARIDGVPGTAAPVALTFLNAAGTKTGKVFPTDNQIDYFDDVPVTCIDMAMPVVIIPAEYLGKTGYELPAELDADKALLARIESIRLQAGKAMGLGDVSNMVIPKPVLISPAQKGGAINVRYFMPHSCHRALAITGAIAISSSCALEGTVTRQIVPSVGYGNINIEHPSGALDVHLSNEGQDATTLRASVIRTTRKIFSGEVYLP MKKIPCVMMRGGTSRGAFLLAEHLPEDQTQRDKILMAIMGSGNDLEIDGIGGGNPLTSKVAIISRSSDPRADVDYLFAQVIVHEQRVDTTPNCGNMLSGVGAFAIENGLIAATSPVTRVRIRNVNTGTFIEADVQTPNGVVEYEGSARIDGVPGTAAPVALTFLNAAGTKTGKVFPTDNQIDYFDDVPVTCIDMAMPVVIIPAEYLGKTGYELPAELDADKALLARIESIRLQAGKAMGLGDVSNMVIPKPVLISPAQKGGAINVRYFMPHSCHRALAITGAIAISSSCALEGTVTRQIVPSVGYGNINIEHPSGALDVHLSNEGQDATTLRASVIRTTRKIFSGEVYLP 6otv-a2-m1-cA_6otv-a2-m2-cB Crystal structure of putative isomerase EC2056 P0AAV8 P0AAV8 2.4 X-RAY DIFFRACTION 118 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 350 350 MKKIPCVMMRGGTSRGAFLLAEHLPEDQTQRDKILMAIMGSGNDLEIDGIGGGNPLTSKVAIISRSSDPRADVDYLFAQVIVHEQRVDTTPNCGNMLSGVGAFAIENGLIAATSPVTRVRIRNVNTGTFIEADVQTPNGVVEYEGSARIDGVPGTAAPVALTFLNAAGTKTGKVFPTDNQIDYFDDVPVTCIDMAMPVVIIPAEYLGKTGYELPAELDADKALLARIESIRLQAGKAMGLGDVSNMVIPKPVLISPAQKGGAINVRYFMPHSCHRALAITGAIAISSSCALEGTVTRQIVPSVGYGNINIEHPSGALDVHLSNEGQDATTLRASVIRTTRKIFSGEVYLP MKKIPCVMMRGGTSRGAFLLAEHLPEDQTQRDKILMAIMGSGNDLEIDGIGGGNPLTSKVAIISRSSDPRADVDYLFAQVIVHEQRVDTTPNCGNMLSGVGAFAIENGLIAATSPVTRVRIRNVNTGTFIEADVQTPNGVVEYEGSARIDGVPGTAAPVALTFLNAAGTKTGKVFPTDNQIDYFDDVPVTCIDMAMPVVIIPAEYLGKTGYELPAELDADKALLARIESIRLQAGKAMGLGDVSNMVIPKPVLISPAQKGGAINVRYFMPHSCHRALAITGAIAISSSCALEGTVTRQIVPSVGYGNINIEHPSGALDVHLSNEGQDATTLRASVIRTTRKIFSGEVYLP 6oug-a1-m1-cC_6oug-a1-m1-cD Structure of drug-resistant V27A mutant of the influenza M2 proton channel bound to spiroadamantyl amine inhibitor, TM + cytosolic helix construct Q3YPZ4 Q3YPZ4 3.01 X-RAY DIFFRACTION 32 1.0 383586 (Influenza A virus (A/Memphis/1/1971(H3N2))) 383586 (Influenza A virus (A/Memphis/1/1971(H3N2))) 34 34 6oug-a1-m1-cB_6oug-a1-m1-cC 6oug-a2-m1-cE_6oug-a2-m1-cF 6oug-a2-m1-cE_6oug-a2-m1-cH SDPLAVAASIIGILHLILWILDRLFFKSIYRFFE SDPLAVAASIIGILHLILWILDRLFFKSIYRFFE 6ouu-a1-m24-cC_6ouu-a1-m9-cD Symmetric reconstruction of human norovirus GII.4 Minerva strain VLP in T=4 symmetry R4I3T2 R4I3T2 4.1 ELECTRON MICROSCOPY 20 1.0 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 485 485 6ouu-a1-m10-cA_6ouu-a1-m6-cA 6ouu-a1-m10-cA_6ouu-a1-m9-cA 6ouu-a1-m10-cB_6ouu-a1-m10-cD 6ouu-a1-m10-cC_6ouu-a1-m23-cD 6ouu-a1-m11-cA_6ouu-a1-m12-cA 6ouu-a1-m11-cA_6ouu-a1-m15-cA 6ouu-a1-m11-cB_6ouu-a1-m11-cD 6ouu-a1-m11-cC_6ouu-a1-m20-cD 6ouu-a1-m11-cD_6ouu-a1-m38-cC 6ouu-a1-m12-cA_6ouu-a1-m13-cA 6ouu-a1-m12-cB_6ouu-a1-m12-cD 6ouu-a1-m12-cC_6ouu-a1-m37-cD 6ouu-a1-m12-cD_6ouu-a1-m47-cC 6ouu-a1-m13-cA_6ouu-a1-m14-cA 6ouu-a1-m13-cB_6ouu-a1-m13-cD 6ouu-a1-m13-cC_6ouu-a1-m46-cD 6ouu-a1-m13-cD_6ouu-a1-m45-cC 6ouu-a1-m14-cA_6ouu-a1-m15-cA 6ouu-a1-m14-cB_6ouu-a1-m14-cD 6ouu-a1-m14-cC_6ouu-a1-m44-cD 6ouu-a1-m14-cD_6ouu-a1-m29-cC 6ouu-a1-m15-cB_6ouu-a1-m15-cD 6ouu-a1-m15-cC_6ouu-a1-m28-cD 6ouu-a1-m15-cD_6ouu-a1-m16-cC 6ouu-a1-m16-cA_6ouu-a1-m17-cA 6ouu-a1-m16-cA_6ouu-a1-m20-cA 6ouu-a1-m16-cB_6ouu-a1-m16-cD 6ouu-a1-m16-cD_6ouu-a1-m28-cC 6ouu-a1-m17-cA_6ouu-a1-m18-cA 6ouu-a1-m17-cB_6ouu-a1-m17-cD 6ouu-a1-m17-cC_6ouu-a1-m27-cD 6ouu-a1-m17-cD_6ouu-a1-m52-cC 6ouu-a1-m18-cA_6ouu-a1-m19-cA 6ouu-a1-m18-cB_6ouu-a1-m18-cD 6ouu-a1-m18-cC_6ouu-a1-m51-cD 6ouu-a1-m18-cD_6ouu-a1-m60-cC 6ouu-a1-m19-cA_6ouu-a1-m20-cA 6ouu-a1-m19-cB_6ouu-a1-m19-cD 6ouu-a1-m19-cC_6ouu-a1-m59-cD 6ouu-a1-m19-cD_6ouu-a1-m39-cC 6ouu-a1-m1-cA_6ouu-a1-m2-cA 6ouu-a1-m1-cA_6ouu-a1-m5-cA 6ouu-a1-m1-cB_6ouu-a1-m1-cD 6ouu-a1-m1-cC_6ouu-a1-m10-cD 6ouu-a1-m1-cD_6ouu-a1-m23-cC 6ouu-a1-m20-cB_6ouu-a1-m20-cD 6ouu-a1-m20-cC_6ouu-a1-m38-cD 6ouu-a1-m21-cA_6ouu-a1-m22-cA 6ouu-a1-m21-cA_6ouu-a1-m25-cA 6ouu-a1-m21-cB_6ouu-a1-m21-cD 6ouu-a1-m21-cC_6ouu-a1-m30-cD 6ouu-a1-m21-cD_6ouu-a1-m43-cC 6ouu-a1-m22-cA_6ouu-a1-m23-cA 6ouu-a1-m22-cB_6ouu-a1-m22-cD 6ouu-a1-m22-cC_6ouu-a1-m42-cD 6ouu-a1-m23-cA_6ouu-a1-m24-cA 6ouu-a1-m23-cB_6ouu-a1-m23-cD 6ouu-a1-m24-cA_6ouu-a1-m25-cA 6ouu-a1-m24-cB_6ouu-a1-m24-cD 6ouu-a1-m24-cD_6ouu-a1-m54-cC 6ouu-a1-m25-cB_6ouu-a1-m25-cD 6ouu-a1-m25-cC_6ouu-a1-m53-cD 6ouu-a1-m25-cD_6ouu-a1-m26-cC 6ouu-a1-m26-cA_6ouu-a1-m27-cA 6ouu-a1-m26-cA_6ouu-a1-m30-cA 6ouu-a1-m26-cB_6ouu-a1-m26-cD 6ouu-a1-m26-cD_6ouu-a1-m53-cC 6ouu-a1-m27-cA_6ouu-a1-m28-cA 6ouu-a1-m27-cB_6ouu-a1-m27-cD 6ouu-a1-m27-cC_6ouu-a1-m52-cD 6ouu-a1-m28-cA_6ouu-a1-m29-cA 6ouu-a1-m28-cB_6ouu-a1-m28-cD 6ouu-a1-m29-cA_6ouu-a1-m30-cA 6ouu-a1-m29-cB_6ouu-a1-m29-cD 6ouu-a1-m29-cD_6ouu-a1-m44-cC 6ouu-a1-m2-cA_6ouu-a1-m3-cA 6ouu-a1-m2-cB_6ouu-a1-m2-cD 6ouu-a1-m2-cC_6ouu-a1-m22-cD 6ouu-a1-m2-cD_6ouu-a1-m42-cC 6ouu-a1-m30-cB_6ouu-a1-m30-cD 6ouu-a1-m30-cC_6ouu-a1-m43-cD 6ouu-a1-m31-cA_6ouu-a1-m32-cA 6ouu-a1-m31-cA_6ouu-a1-m35-cA 6ouu-a1-m31-cB_6ouu-a1-m31-cD 6ouu-a1-m31-cC_6ouu-a1-m40-cD 6ouu-a1-m31-cD_6ouu-a1-m58-cC 6ouu-a1-m32-cA_6ouu-a1-m33-cA 6ouu-a1-m32-cB_6ouu-a1-m32-cD 6ouu-a1-m32-cC_6ouu-a1-m57-cD 6ouu-a1-m32-cD_6ouu-a1-m7-cC 6ouu-a1-m33-cA_6ouu-a1-m34-cA 6ouu-a1-m33-cB_6ouu-a1-m33-cD 6ouu-a1-m33-cC_6ouu-a1-m6-cD 6ouu-a1-m33-cD_6ouu-a1-m5-cC 6ouu-a1-m34-cA_6ouu-a1-m35-cA 6ouu-a1-m34-cB_6ouu-a1-m34-cD 6ouu-a1-m34-cC_6ouu-a1-m4-cD 6ouu-a1-m34-cD_6ouu-a1-m49-cC 6ouu-a1-m35-cB_6ouu-a1-m35-cD 6ouu-a1-m35-cC_6ouu-a1-m48-cD 6ouu-a1-m35-cD_6ouu-a1-m36-cC 6ouu-a1-m36-cA_6ouu-a1-m37-cA 6ouu-a1-m36-cA_6ouu-a1-m40-cA 6ouu-a1-m36-cB_6ouu-a1-m36-cD 6ouu-a1-m36-cD_6ouu-a1-m48-cC 6ouu-a1-m37-cA_6ouu-a1-m38-cA 6ouu-a1-m37-cB_6ouu-a1-m37-cD 6ouu-a1-m37-cC_6ouu-a1-m47-cD 6ouu-a1-m38-cA_6ouu-a1-m39-cA 6ouu-a1-m38-cB_6ouu-a1-m38-cD 6ouu-a1-m39-cA_6ouu-a1-m40-cA 6ouu-a1-m39-cB_6ouu-a1-m39-cD 6ouu-a1-m39-cD_6ouu-a1-m59-cC 6ouu-a1-m3-cA_6ouu-a1-m4-cA 6ouu-a1-m3-cB_6ouu-a1-m3-cD 6ouu-a1-m3-cC_6ouu-a1-m41-cD 6ouu-a1-m3-cD_6ouu-a1-m50-cC 6ouu-a1-m40-cB_6ouu-a1-m40-cD 6ouu-a1-m40-cC_6ouu-a1-m58-cD 6ouu-a1-m41-cA_6ouu-a1-m42-cA 6ouu-a1-m41-cA_6ouu-a1-m45-cA 6ouu-a1-m41-cB_6ouu-a1-m41-cD 6ouu-a1-m41-cC_6ouu-a1-m50-cD 6ouu-a1-m42-cA_6ouu-a1-m43-cA 6ouu-a1-m42-cB_6ouu-a1-m42-cD 6ouu-a1-m43-cA_6ouu-a1-m44-cA 6ouu-a1-m43-cB_6ouu-a1-m43-cD 6ouu-a1-m44-cA_6ouu-a1-m45-cA 6ouu-a1-m44-cB_6ouu-a1-m44-cD 6ouu-a1-m45-cB_6ouu-a1-m45-cD 6ouu-a1-m45-cD_6ouu-a1-m46-cC 6ouu-a1-m46-cA_6ouu-a1-m47-cA 6ouu-a1-m46-cA_6ouu-a1-m50-cA 6ouu-a1-m46-cB_6ouu-a1-m46-cD 6ouu-a1-m47-cA_6ouu-a1-m48-cA 6ouu-a1-m47-cB_6ouu-a1-m47-cD 6ouu-a1-m48-cA_6ouu-a1-m49-cA 6ouu-a1-m48-cB_6ouu-a1-m48-cD 6ouu-a1-m49-cA_6ouu-a1-m50-cA 6ouu-a1-m49-cB_6ouu-a1-m49-cD 6ouu-a1-m4-cA_6ouu-a1-m5-cA 6ouu-a1-m4-cB_6ouu-a1-m4-cD 6ouu-a1-m4-cC_6ouu-a1-m49-cD 6ouu-a1-m50-cB_6ouu-a1-m50-cD 6ouu-a1-m51-cA_6ouu-a1-m52-cA 6ouu-a1-m51-cA_6ouu-a1-m55-cA 6ouu-a1-m51-cB_6ouu-a1-m51-cD 6ouu-a1-m51-cC_6ouu-a1-m60-cD 6ouu-a1-m52-cA_6ouu-a1-m53-cA 6ouu-a1-m52-cB_6ouu-a1-m52-cD 6ouu-a1-m53-cA_6ouu-a1-m54-cA 6ouu-a1-m53-cB_6ouu-a1-m53-cD 6ouu-a1-m54-cA_6ouu-a1-m55-cA 6ouu-a1-m54-cB_6ouu-a1-m54-cD 6ouu-a1-m54-cD_6ouu-a1-m9-cC 6ouu-a1-m55-cB_6ouu-a1-m55-cD 6ouu-a1-m55-cC_6ouu-a1-m8-cD 6ouu-a1-m55-cD_6ouu-a1-m56-cC 6ouu-a1-m56-cA_6ouu-a1-m57-cA 6ouu-a1-m56-cA_6ouu-a1-m60-cA 6ouu-a1-m56-cB_6ouu-a1-m56-cD 6ouu-a1-m56-cD_6ouu-a1-m8-cC 6ouu-a1-m57-cA_6ouu-a1-m58-cA 6ouu-a1-m57-cB_6ouu-a1-m57-cD 6ouu-a1-m57-cC_6ouu-a1-m7-cD 6ouu-a1-m58-cA_6ouu-a1-m59-cA 6ouu-a1-m58-cB_6ouu-a1-m58-cD 6ouu-a1-m59-cA_6ouu-a1-m60-cA 6ouu-a1-m59-cB_6ouu-a1-m59-cD 6ouu-a1-m5-cB_6ouu-a1-m5-cD 6ouu-a1-m5-cD_6ouu-a1-m6-cC 6ouu-a1-m60-cB_6ouu-a1-m60-cD 6ouu-a1-m6-cA_6ouu-a1-m7-cA 6ouu-a1-m6-cB_6ouu-a1-m6-cD 6ouu-a1-m7-cA_6ouu-a1-m8-cA 6ouu-a1-m7-cB_6ouu-a1-m7-cD 6ouu-a1-m8-cA_6ouu-a1-m9-cA 6ouu-a1-m8-cB_6ouu-a1-m8-cD 6ouu-a1-m9-cB_6ouu-a1-m9-cD NVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDSTIKLIAMLYTPLRANNAGEDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGSRNYTMNLASLNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTKGDGSTRGHKATVYTGSAPFTPKLGSVQFSTDTENDFETHQNTKFTPVGVIQDGSTTHRNEPQQWVLPSYSGRNVHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM NVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDSTIKLIAMLYTPLRANNAGEDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGSRNYTMNLASLNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTKGDGSTRGHKATVYTGSAPFTPKLGSVQFSTDTENDFETHQNTKFTPVGVIQDGSTTHRNEPQQWVLPSYSGRNVHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM 6ouu-a1-m54-cD_6ouu-a1-m9-cD Symmetric reconstruction of human norovirus GII.4 Minerva strain VLP in T=4 symmetry R4I3T2 R4I3T2 4.1 ELECTRON MICROSCOPY 24 1.0 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 485 485 6ouu-a1-m10-cD_6ouu-a1-m23-cD 6ouu-a1-m11-cD_6ouu-a1-m20-cD 6ouu-a1-m11-cD_6ouu-a1-m38-cD 6ouu-a1-m12-cD_6ouu-a1-m37-cD 6ouu-a1-m12-cD_6ouu-a1-m47-cD 6ouu-a1-m13-cD_6ouu-a1-m45-cD 6ouu-a1-m13-cD_6ouu-a1-m46-cD 6ouu-a1-m14-cD_6ouu-a1-m29-cD 6ouu-a1-m14-cD_6ouu-a1-m44-cD 6ouu-a1-m15-cD_6ouu-a1-m16-cD 6ouu-a1-m15-cD_6ouu-a1-m28-cD 6ouu-a1-m16-cD_6ouu-a1-m28-cD 6ouu-a1-m17-cD_6ouu-a1-m27-cD 6ouu-a1-m17-cD_6ouu-a1-m52-cD 6ouu-a1-m18-cD_6ouu-a1-m51-cD 6ouu-a1-m18-cD_6ouu-a1-m60-cD 6ouu-a1-m19-cD_6ouu-a1-m39-cD 6ouu-a1-m19-cD_6ouu-a1-m59-cD 6ouu-a1-m1-cD_6ouu-a1-m10-cD 6ouu-a1-m1-cD_6ouu-a1-m23-cD 6ouu-a1-m20-cD_6ouu-a1-m38-cD 6ouu-a1-m21-cD_6ouu-a1-m30-cD 6ouu-a1-m21-cD_6ouu-a1-m43-cD 6ouu-a1-m22-cD_6ouu-a1-m42-cD 6ouu-a1-m24-cD_6ouu-a1-m54-cD 6ouu-a1-m24-cD_6ouu-a1-m9-cD 6ouu-a1-m25-cD_6ouu-a1-m26-cD 6ouu-a1-m25-cD_6ouu-a1-m53-cD 6ouu-a1-m26-cD_6ouu-a1-m53-cD 6ouu-a1-m27-cD_6ouu-a1-m52-cD 6ouu-a1-m29-cD_6ouu-a1-m44-cD 6ouu-a1-m2-cD_6ouu-a1-m22-cD 6ouu-a1-m2-cD_6ouu-a1-m42-cD 6ouu-a1-m30-cD_6ouu-a1-m43-cD 6ouu-a1-m31-cD_6ouu-a1-m40-cD 6ouu-a1-m31-cD_6ouu-a1-m58-cD 6ouu-a1-m32-cD_6ouu-a1-m57-cD 6ouu-a1-m32-cD_6ouu-a1-m7-cD 6ouu-a1-m33-cD_6ouu-a1-m5-cD 6ouu-a1-m33-cD_6ouu-a1-m6-cD 6ouu-a1-m34-cD_6ouu-a1-m49-cD 6ouu-a1-m34-cD_6ouu-a1-m4-cD 6ouu-a1-m35-cD_6ouu-a1-m36-cD 6ouu-a1-m35-cD_6ouu-a1-m48-cD 6ouu-a1-m36-cD_6ouu-a1-m48-cD 6ouu-a1-m37-cD_6ouu-a1-m47-cD 6ouu-a1-m39-cD_6ouu-a1-m59-cD 6ouu-a1-m3-cD_6ouu-a1-m41-cD 6ouu-a1-m3-cD_6ouu-a1-m50-cD 6ouu-a1-m40-cD_6ouu-a1-m58-cD 6ouu-a1-m41-cD_6ouu-a1-m50-cD 6ouu-a1-m45-cD_6ouu-a1-m46-cD 6ouu-a1-m4-cD_6ouu-a1-m49-cD 6ouu-a1-m51-cD_6ouu-a1-m60-cD 6ouu-a1-m55-cD_6ouu-a1-m56-cD 6ouu-a1-m55-cD_6ouu-a1-m8-cD 6ouu-a1-m56-cD_6ouu-a1-m8-cD 6ouu-a1-m57-cD_6ouu-a1-m7-cD 6ouu-a1-m5-cD_6ouu-a1-m6-cD NVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDSTIKLIAMLYTPLRANNAGEDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGSRNYTMNLASLNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTKGDGSTRGHKATVYTGSAPFTPKLGSVQFSTDTENDFETHQNTKFTPVGVIQDGSTTHRNEPQQWVLPSYSGRNVHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM NVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDSTIKLIAMLYTPLRANNAGEDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGSRNYTMNLASLNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTKGDGSTRGHKATVYTGSAPFTPKLGSVQFSTDTENDFETHQNTKFTPVGVIQDGSTTHRNEPQQWVLPSYSGRNVHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM 6ouu-a1-m9-cA_6ouu-a1-m9-cC Symmetric reconstruction of human norovirus GII.4 Minerva strain VLP in T=4 symmetry R4I3T2 R4I3T2 4.1 ELECTRON MICROSCOPY 19 1.0 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 485 485 6ouu-a1-m10-cA_6ouu-a1-m10-cC 6ouu-a1-m10-cB_6ouu-a1-m10-cA 6ouu-a1-m10-cB_6ouu-a1-m10-cC 6ouu-a1-m11-cA_6ouu-a1-m11-cC 6ouu-a1-m11-cB_6ouu-a1-m11-cA 6ouu-a1-m11-cB_6ouu-a1-m11-cC 6ouu-a1-m12-cA_6ouu-a1-m12-cC 6ouu-a1-m12-cB_6ouu-a1-m12-cA 6ouu-a1-m12-cB_6ouu-a1-m12-cC 6ouu-a1-m13-cA_6ouu-a1-m13-cC 6ouu-a1-m13-cB_6ouu-a1-m13-cA 6ouu-a1-m13-cB_6ouu-a1-m13-cC 6ouu-a1-m14-cA_6ouu-a1-m14-cC 6ouu-a1-m14-cB_6ouu-a1-m14-cA 6ouu-a1-m14-cB_6ouu-a1-m14-cC 6ouu-a1-m15-cA_6ouu-a1-m15-cC 6ouu-a1-m15-cB_6ouu-a1-m15-cA 6ouu-a1-m15-cB_6ouu-a1-m15-cC 6ouu-a1-m16-cA_6ouu-a1-m16-cC 6ouu-a1-m16-cB_6ouu-a1-m16-cA 6ouu-a1-m16-cB_6ouu-a1-m16-cC 6ouu-a1-m17-cA_6ouu-a1-m17-cC 6ouu-a1-m17-cB_6ouu-a1-m17-cA 6ouu-a1-m17-cB_6ouu-a1-m17-cC 6ouu-a1-m18-cA_6ouu-a1-m18-cC 6ouu-a1-m18-cB_6ouu-a1-m18-cA 6ouu-a1-m18-cB_6ouu-a1-m18-cC 6ouu-a1-m19-cA_6ouu-a1-m19-cC 6ouu-a1-m19-cB_6ouu-a1-m19-cA 6ouu-a1-m19-cB_6ouu-a1-m19-cC 6ouu-a1-m1-cA_6ouu-a1-m1-cC 6ouu-a1-m1-cB_6ouu-a1-m1-cA 6ouu-a1-m1-cB_6ouu-a1-m1-cC 6ouu-a1-m20-cA_6ouu-a1-m20-cC 6ouu-a1-m20-cB_6ouu-a1-m20-cA 6ouu-a1-m20-cB_6ouu-a1-m20-cC 6ouu-a1-m21-cA_6ouu-a1-m21-cC 6ouu-a1-m21-cB_6ouu-a1-m21-cA 6ouu-a1-m21-cB_6ouu-a1-m21-cC 6ouu-a1-m22-cA_6ouu-a1-m22-cC 6ouu-a1-m22-cB_6ouu-a1-m22-cA 6ouu-a1-m22-cB_6ouu-a1-m22-cC 6ouu-a1-m23-cA_6ouu-a1-m23-cC 6ouu-a1-m23-cB_6ouu-a1-m23-cA 6ouu-a1-m23-cB_6ouu-a1-m23-cC 6ouu-a1-m24-cA_6ouu-a1-m24-cC 6ouu-a1-m24-cB_6ouu-a1-m24-cA 6ouu-a1-m24-cB_6ouu-a1-m24-cC 6ouu-a1-m25-cA_6ouu-a1-m25-cC 6ouu-a1-m25-cB_6ouu-a1-m25-cA 6ouu-a1-m25-cB_6ouu-a1-m25-cC 6ouu-a1-m26-cA_6ouu-a1-m26-cC 6ouu-a1-m26-cB_6ouu-a1-m26-cA 6ouu-a1-m26-cB_6ouu-a1-m26-cC 6ouu-a1-m27-cA_6ouu-a1-m27-cC 6ouu-a1-m27-cB_6ouu-a1-m27-cA 6ouu-a1-m27-cB_6ouu-a1-m27-cC 6ouu-a1-m28-cA_6ouu-a1-m28-cC 6ouu-a1-m28-cB_6ouu-a1-m28-cA 6ouu-a1-m28-cB_6ouu-a1-m28-cC 6ouu-a1-m29-cA_6ouu-a1-m29-cC 6ouu-a1-m29-cB_6ouu-a1-m29-cA 6ouu-a1-m29-cB_6ouu-a1-m29-cC 6ouu-a1-m2-cA_6ouu-a1-m2-cC 6ouu-a1-m2-cB_6ouu-a1-m2-cA 6ouu-a1-m2-cB_6ouu-a1-m2-cC 6ouu-a1-m30-cA_6ouu-a1-m30-cC 6ouu-a1-m30-cB_6ouu-a1-m30-cA 6ouu-a1-m30-cB_6ouu-a1-m30-cC 6ouu-a1-m31-cA_6ouu-a1-m31-cC 6ouu-a1-m31-cB_6ouu-a1-m31-cA 6ouu-a1-m31-cB_6ouu-a1-m31-cC 6ouu-a1-m32-cA_6ouu-a1-m32-cC 6ouu-a1-m32-cB_6ouu-a1-m32-cA 6ouu-a1-m32-cB_6ouu-a1-m32-cC 6ouu-a1-m33-cA_6ouu-a1-m33-cC 6ouu-a1-m33-cB_6ouu-a1-m33-cA 6ouu-a1-m33-cB_6ouu-a1-m33-cC 6ouu-a1-m34-cA_6ouu-a1-m34-cC 6ouu-a1-m34-cB_6ouu-a1-m34-cA 6ouu-a1-m34-cB_6ouu-a1-m34-cC 6ouu-a1-m35-cA_6ouu-a1-m35-cC 6ouu-a1-m35-cB_6ouu-a1-m35-cA 6ouu-a1-m35-cB_6ouu-a1-m35-cC 6ouu-a1-m36-cA_6ouu-a1-m36-cC 6ouu-a1-m36-cB_6ouu-a1-m36-cA 6ouu-a1-m36-cB_6ouu-a1-m36-cC 6ouu-a1-m37-cA_6ouu-a1-m37-cC 6ouu-a1-m37-cB_6ouu-a1-m37-cA 6ouu-a1-m37-cB_6ouu-a1-m37-cC 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Symmetric reconstruction of human norovirus GII.4 Minerva strain VLP in T=4 symmetry R4I3T2 R4I3T2 4.1 ELECTRON MICROSCOPY 146 1.0 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 1182144 (Norovirus Hu/GII.4/Minerva/2006/USA) 485 485 6ouu-a1-m10-cB_6ouu-a1-m6-cA 6ouu-a1-m10-cC_6ouu-a1-m10-cD 6ouu-a1-m11-cB_6ouu-a1-m12-cA 6ouu-a1-m11-cC_6ouu-a1-m11-cD 6ouu-a1-m12-cB_6ouu-a1-m13-cA 6ouu-a1-m12-cC_6ouu-a1-m12-cD 6ouu-a1-m13-cB_6ouu-a1-m14-cA 6ouu-a1-m13-cC_6ouu-a1-m13-cD 6ouu-a1-m14-cB_6ouu-a1-m15-cA 6ouu-a1-m14-cC_6ouu-a1-m14-cD 6ouu-a1-m15-cB_6ouu-a1-m11-cA 6ouu-a1-m15-cC_6ouu-a1-m15-cD 6ouu-a1-m16-cB_6ouu-a1-m17-cA 6ouu-a1-m16-cC_6ouu-a1-m16-cD 6ouu-a1-m17-cB_6ouu-a1-m18-cA 6ouu-a1-m17-cC_6ouu-a1-m17-cD 6ouu-a1-m18-cB_6ouu-a1-m19-cA 6ouu-a1-m18-cC_6ouu-a1-m18-cD 6ouu-a1-m19-cB_6ouu-a1-m20-cA 6ouu-a1-m19-cC_6ouu-a1-m19-cD 6ouu-a1-m1-cB_6ouu-a1-m2-cA 6ouu-a1-m1-cC_6ouu-a1-m1-cD 6ouu-a1-m20-cB_6ouu-a1-m16-cA 6ouu-a1-m20-cC_6ouu-a1-m20-cD 6ouu-a1-m21-cB_6ouu-a1-m22-cA 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6ouu-a1-m51-cC_6ouu-a1-m51-cD 6ouu-a1-m52-cB_6ouu-a1-m53-cA 6ouu-a1-m52-cC_6ouu-a1-m52-cD 6ouu-a1-m53-cB_6ouu-a1-m54-cA 6ouu-a1-m53-cC_6ouu-a1-m53-cD 6ouu-a1-m54-cB_6ouu-a1-m55-cA 6ouu-a1-m54-cC_6ouu-a1-m54-cD 6ouu-a1-m55-cB_6ouu-a1-m51-cA 6ouu-a1-m55-cC_6ouu-a1-m55-cD 6ouu-a1-m56-cB_6ouu-a1-m57-cA 6ouu-a1-m56-cC_6ouu-a1-m56-cD 6ouu-a1-m57-cB_6ouu-a1-m58-cA 6ouu-a1-m57-cC_6ouu-a1-m57-cD 6ouu-a1-m58-cB_6ouu-a1-m59-cA 6ouu-a1-m58-cC_6ouu-a1-m58-cD 6ouu-a1-m59-cB_6ouu-a1-m60-cA 6ouu-a1-m59-cC_6ouu-a1-m59-cD 6ouu-a1-m5-cB_6ouu-a1-m1-cA 6ouu-a1-m5-cC_6ouu-a1-m5-cD 6ouu-a1-m60-cB_6ouu-a1-m56-cA 6ouu-a1-m60-cC_6ouu-a1-m60-cD 6ouu-a1-m6-cB_6ouu-a1-m7-cA 6ouu-a1-m6-cC_6ouu-a1-m6-cD 6ouu-a1-m7-cB_6ouu-a1-m8-cA 6ouu-a1-m7-cC_6ouu-a1-m7-cD 6ouu-a1-m8-cB_6ouu-a1-m9-cA 6ouu-a1-m8-cC_6ouu-a1-m8-cD 6ouu-a1-m9-cB_6ouu-a1-m10-cA NVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDSTIKLIAMLYTPLRANNAGEDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGSRNYTMNLASLNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTKGDGSTRGHKATVYTGSAPFTPKLGSVQFSTDTENDFETHQNTKFTPVGVIQDGSTTHRNEPQQWVLPSYSGRNVHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM NVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDSTIKLIAMLYTPLRANNAGEDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGSRNYTMNLASLNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTKGDGSTRGHKATVYTGSAPFTPKLGSVQFSTDTENDFETHQNTKFTPVGVIQDGSTTHRNEPQQWVLPSYSGRNVHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM 6oux-a1-m1-cB_6oux-a1-m1-cA Structure of SMUL_1544, a decarboxylase from Sulfurospirillum multivorans 1.94 X-RAY DIFFRACTION 49 1.0 66821 (Sulfurospirillum multivorans) 66821 (Sulfurospirillum multivorans) 354 393 NTQFTKAFHAMFPTLEIKIDACYLSNPYASELVLDYIDRELIQTNAYQRSLQKVMAESLHVKPENIFIGNGATEIIQMLLQQEEVQKVALMIPTFSSYYEFVGKGCEVVYFPLNERDDYSFDADKYCQFIENEQPDTVVLINPNNPNGAYLSLEKMHILLKRLAFVPRIIIDESFIHFAYEDEALTCLSSTVLFDMYPNVIIVKSLSKDFGIAGVRLGYALMDSRKIDALLEHGFLWNINGIGEYCLRLFVREDFLKRYEEARKQYIKEMCRFKEALLGIENVYVYPSMANFVMLKLPSRIKASFVISALLVEYGIYVRTMADKIGVEGECIRIAGRTREENNCIVMALKSILK ASVDTMNARNTQFTKAFHALKQNAGSHSPSMEDLKKMFPTLEIKIDACYLSNPYASELVLDYIDRELIQTNAYKKVLTHYPSQQRSLQKVMAESLHVKPENIFIGNGATEIIQMLLQQEEVQKVALMIPTFSSYYEFVGKGCEVVYFPLNERDDYSFDADKYCQFIENEQPDTVVLINPNNPNGAYLSLEKMHILLKRLAFVPRIIIDESFIHFAYEDEALTCLSSTVLFDMYPNVIIVKSLSKDFGIAGVRLGYALMDSRKIDALLEHGFLWNINGIGEYCLRLFVREDFLKRYEEARKQYIKEMCRFKEALLGIENVYVYPSMANFVMLKLPSRIKASFVISALLVEYGIYVRTMADKIGVEGECIRIAGRTREENNCIVMALKSILKDSK 6ov6-a1-m1-cB_6ov6-a1-m1-cC CRYSTALLOGRAPHIC STRUCTURE OF THE C24 PROTEIN FROM THE ANTARCTIC MICROORGANISM BIZIONIA ARGENTINENSIS G2EBB4 G2EBB4 1.82 X-RAY DIFFRACTION 378 1.0 1046627 (Bizionia argentinensis JUB59) 1046627 (Bizionia argentinensis JUB59) 240 244 6ov6-a1-m1-cB_6ov6-a1-m1-cA 6ov6-a1-m1-cC_6ov6-a1-m1-cA TLNAMQEAYSVFNALGELAGNKAIIKGCVVSGSTTTDGVVYINGEVFKFVGGQTQSRVKIRYVTFASGTGSISWAEFAKLTTLRELSRRLLPAGTNPQLYSGSVNNIPSGWQLCDGTNGTENLKGSFIVGYDPNDSDYNAIGKVGGTKKVTPSGNLDSRSINVTVPRDGWSTFGSGLGAVKSGRIVVGSGQQENSEYLESLRASGIDRTLTSTPHSHTFTGNQQDNRAPYYTLAYIIYIG TLNAMQEAYSVFNALGELAGNKAIIKGCVVSGSTTTDGVVYINGEVFKFVGGQTQSRVKILEFERYVTFASGTGSISWAEFAKLTTLRELSRRLLPAGTNPQLYSGSVNNIPSGWQLCDGTNGTENLKGSFIVGYDPNDSDYNAIGKVGGTKKVTPSGNLDSRSINVTVPRDGWSTFGSGLGAVKSGRIVVGSGQQENSEYLESLRASGIDRTLTSTPHSHTFTGNQQDNRAPYYTLAYIIYIG 6ovg-a2-m1-cE_6ovg-a2-m1-cG L-Methionine Depletion with an Engineered Human Enzyme Disrupts Prostate Cancer Metabolism P32929 P32929 2.719 X-RAY DIFFRACTION 94 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 387 387 2nmp-a1-m1-cA_2nmp-a1-m1-cC 2nmp-a1-m1-cB_2nmp-a1-m1-cD 3cog-a1-m1-cA_3cog-a1-m1-cC 3cog-a1-m1-cB_3cog-a1-m1-cD 5eig-a1-m1-cA_5eig-a1-m1-cC 5eig-a1-m1-cB_5eig-a1-m1-cD 5eig-a2-m1-cE_5eig-a2-m1-cG 5eig-a2-m1-cF_5eig-a2-m1-cH 5tsu-a1-m1-cA_5tsu-a1-m1-cC 5tsu-a1-m1-cD_5tsu-a1-m1-cB 5tsu-a2-m1-cE_5tsu-a2-m1-cG 5tsu-a2-m1-cF_5tsu-a2-m1-cH 6nba-a1-m1-cA_6nba-a1-m1-cC 6nba-a1-m1-cB_6nba-a1-m1-cD 6ovg-a1-m1-cA_6ovg-a1-m1-cC 6ovg-a1-m1-cB_6ovg-a1-m1-cD 6ovg-a2-m1-cF_6ovg-a2-m1-cH GFLPHFQHFATQAIHVGQDPEQWTSRAVVPPISLSTTFKQGAPGSGFIYSRLGNPTRNCLEKAVAALDGAKYCLAFASGMAATVTITHLLKAGDQIICMDDVYGGTNAYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMERHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCGGMVTFYIKGTLQHAEIFLKNLKLFTLAVSLGGFESLAELPASMTHASVLKNDRDVLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP GFLPHFQHFATQAIHVGQDPEQWTSRAVVPPISLSTTFKQGAPSGFIYSRLGNPTRNCLEKAVAALDGAKYCLAFASGMAATVTITHLLKAGDQIICMDDVYGGTNAYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMERHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCGGMVTFYIKGTLQHAEIFLKNLKLFTLAVSLGGFESLAELPASMTHASVLKNDRDVLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHPP 6ovg-a2-m1-cH_6ovg-a2-m1-cE L-Methionine Depletion with an Engineered Human Enzyme Disrupts Prostate Cancer Metabolism P32929 P32929 2.719 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 387 2nmp-a1-m1-cA_2nmp-a1-m1-cD 2nmp-a1-m1-cB_2nmp-a1-m1-cC 3cog-a1-m1-cA_3cog-a1-m1-cD 3cog-a1-m1-cB_3cog-a1-m1-cC 5eig-a1-m1-cA_5eig-a1-m1-cD 5eig-a1-m1-cB_5eig-a1-m1-cC 5eig-a2-m1-cE_5eig-a2-m1-cH 5eig-a2-m1-cF_5eig-a2-m1-cG 5tsu-a1-m1-cA_5tsu-a1-m1-cD 5tsu-a1-m1-cB_5tsu-a1-m1-cC 5tsu-a2-m1-cE_5tsu-a2-m1-cH 5tsu-a2-m1-cF_5tsu-a2-m1-cG 6nba-a1-m1-cA_6nba-a1-m1-cD 6nba-a1-m1-cB_6nba-a1-m1-cC 6ovg-a1-m1-cA_6ovg-a1-m1-cD 6ovg-a1-m1-cB_6ovg-a1-m1-cC 6ovg-a2-m1-cF_6ovg-a2-m1-cG GFLPHFQHFATQAIHVGQDPEQWTSRAVVPPISLSTTFKQGAPGSGFIYSRLGNPTRNCLEKAVAALDGAKYCLAFASGMAATVTITHLLKAGDQIICMDDVYGGTNAYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMERHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCGGMVTFYIKGTLQHAEIFLKNLKLFTLAVSLGGFESLAELPASMTHASLKNDRDVLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP GFLPHFQHFATQAIHVGQDPEQWTSRAVVPPISLSTTFKQGAPGSGFIYSRLGNPTRNCLEKAVAALDGAKYCLAFASGMAATVTITHLLKAGDQIICMDDVYGGTNAYFRQVASEFGLKISFVDCSKIKLLEAAITPETKLVWIETPTNPTQKVIDIEGCAHIVHKHGDIILVVDNTFMSPYFQRPLALGADISMYSATYMNGHSDVVMGLVSVNCESLHNRLRFLQNSLGAVPSPIDCYLCNRGLKTLHVRMERHFKNGMAVAQFLESNPWVEKVIYPGLPSHPQHELVKRQCTGCGGMVTFYIKGTLQHAEIFLKNLKLFTLAVSLGGFESLAELPASMTHASVLKNDRDVLGISDTLIRLSVGLEDEEDLLEDLDQALKAAHP 6ovi-a1-m1-cB_6ovi-a1-m1-cC Crystal Structure of KDPG Aldolase from Legionella Pneumophila with pyruvate captured at low pH as a covalent carbinolamine intermediate Q5ZYF2 Q5ZYF2 1.6 X-RAY DIFFRACTION 52 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 206 209 6ovi-a1-m1-cB_6ovi-a1-m1-cA 6ovi-a1-m1-cC_6ovi-a1-m1-cA WKTQPGAVFAASPVIPVIVIKELEDALPLAEALFAGGIHVLEVTLRTPVAIKALELLINTFPDELIGAGTVITPGQFHDVVAAGARFAISPGQTRELLIAGQKSEIPLIPGVASVSELMEGLGMGYNHFKFFPAAAAGGIPMLKAISGVFPQVKFCPTGGINSKNYEEYLCLPNVACVGGSWIVPEEAIKNHNWSLITELCMAVSS FSEWKTQPGAVFAASPVIPVIVIKELEDALPLAEALFAGGIHVLEVTLRTPVAIKALELLINTFPDELIGAGTVITPGQFHDVVAAGARFAISPGQTRELLIAGQKSEIPLIPGVASVSELMEGLGMGYNHFKFFPAAAAGGIPMLKAISGVFPQVKFCPTGGINSKNYEEYLCLPNVACVGGSWIVPEEAIKNHNWSLITELCMAVSS 6ovl-a1-m1-cA_6ovl-a1-m2-cA 2.1 Angstrom structure of wild type Glyoxylate/Hydroxypyruvate reductase A from Escherichia Coli in complex with glyoxylate and NADP P75913 P75913 2.1 X-RAY DIFFRACTION 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 313 313 6oxn-a1-m1-cA_6oxn-a1-m2-cA 6p35-a1-m1-cA_6p35-a1-m3-cA 7jqh-a1-m1-cA_7jqh-a1-m2-cA 7jqi-a1-m1-cA_7jqi-a1-m2-cA 7jqj-a1-m1-cA_7jqj-a1-m2-cA HMDIIFYHPTFDTQWWIEALRKAIPQARVRAWKSGDNDSADYALVWHPPVEMLAGRDLKAVFALGAGVDSILSKLQAHPEMLNPSVPLFRLEDTGMGEQMQEYAVSQVLHWFRRFDDYRIQQNSSHWQPLPEYHREDFTIGILGAGVLGSKVAQSLQTWRFPLRCWSRTRKSWPGVQSFAGREELSAFLSQCRVLINLLPNTPETVGIINQQLLEKLPDGAYLLNLARGVHVVEDDLLAALDSGKVKGAMLDVFNREPLPPESPLWQHPRVTITPHVAAITRPAEAVEYISRTIAQLEKGEKVCGQVDRARGY HMDIIFYHPTFDTQWWIEALRKAIPQARVRAWKSGDNDSADYALVWHPPVEMLAGRDLKAVFALGAGVDSILSKLQAHPEMLNPSVPLFRLEDTGMGEQMQEYAVSQVLHWFRRFDDYRIQQNSSHWQPLPEYHREDFTIGILGAGVLGSKVAQSLQTWRFPLRCWSRTRKSWPGVQSFAGREELSAFLSQCRVLINLLPNTPETVGIINQQLLEKLPDGAYLLNLARGVHVVEDDLLAALDSGKVKGAMLDVFNREPLPPESPLWQHPRVTITPHVAAITRPAEAVEYISRTIAQLEKGEKVCGQVDRARGY 6ovp-a1-m1-cA_6ovp-a1-m1-cB Sterol Carrier Protein 2 from Yarrowia Lipolytica (apo form) P80547 P80547 1.991 X-RAY DIFFRACTION 41 1.0 4952 (Yarrowia lipolytica) 4952 (Yarrowia lipolytica) 118 128 MSLKVDGFTSSIIFDVIRDGLNDPSQAKQKAESIKKANAIIVFNLKNKAGKTESWYLDLKNDGDVGKGNKSPKGDADIQLTLSDDHFQQLVEGKANAQRLFMTGKLKVKGNVMKAAAI MSLKVDGFTSSIIFDVIRDGLNDPSQAKQKAESIKKANAIIVFNLKNKAGKTESWYLDLKNDGDVGKGNKSPKGDADIQLTLSDDHFQQLVEGKANAQRLFMTGKLKVKGNVMKAAAIEGILKNAQNN 6ovq-a2-m2-cB_6ovq-a2-m4-cB Crystal structure of mithramycin 3-side chain keto-reductase MtmW Q194Q1 Q194Q1 1.8 X-RAY DIFFRACTION 64 1.0 41951 (Streptomyces argillaceus) 41951 (Streptomyces argillaceus) 284 284 6ovq-a2-m1-cB_6ovq-a2-m3-cB 6ovq-a2-m1-cB_6ovq-a2-m4-cB 6ovq-a2-m2-cB_6ovq-a2-m3-cB MEFRSLGRSGLSVSEIVYGNLTPDEVVLSSIRAALDAGVTTFDTAYGMFRSESLLGRALAGTPREELVLCTKVGMPTGFGPNGRGLSRKHVMESVDGSLRRLRVDHIDVYTAHRYDPATPLEELMWTFSDLVRAGKILYVGMSEWPVERIAEAAGIGARLGVPVICHMPRYSMLWRAPEAEVIPACRDLGIGQICYFTLEQGVLTGDDKVLGRVERLRPLAEEAGLTTAQLALAWVLQNPGVSGAVIGSFNAEQVLANAESAGVRLETDLLVRIDEVLGDSVVH MEFRSLGRSGLSVSEIVYGNLTPDEVVLSSIRAALDAGVTTFDTAYGMFRSESLLGRALAGTPREELVLCTKVGMPTGFGPNGRGLSRKHVMESVDGSLRRLRVDHIDVYTAHRYDPATPLEELMWTFSDLVRAGKILYVGMSEWPVERIAEAAGIGARLGVPVICHMPRYSMLWRAPEAEVIPACRDLGIGQICYFTLEQGVLTGDDKVLGRVERLRPLAEEAGLTTAQLALAWVLQNPGVSGAVIGSFNAEQVLANAESAGVRLETDLLVRIDEVLGDSVVH 6ovt-a1-m1-cB_6ovt-a1-m1-cD Crystal Structure of IlvD from Mycobacterium tuberculosis P9WKJ5 P9WKJ5 1.88 X-RAY DIFFRACTION 285 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 554 559 6ovt-a1-m1-cC_6ovt-a1-m1-cA ADIKPRSRDVTDGLEKAAARGMLRAVGMDDEDFAKPQIGVASSWNEITPCNLSLDRLANAVKEGVFSAGGYPLEFGTISVSDGISMGHEGMHFSLVSREVIADSVEVVMQAERLDGSVLLAGCDSLPGMLMAAARLDLAAVFLYAGSILPGRAKLSDGSERDVTIIDAFEAVGACSRGLMSRADVDAIERAICPGEGACGGMYTANTMASAAEALGMSLPGSAAPPATDRRRDGFARRSGQAVVELLRRGITARDILTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEANVALSLQDFSRIGSGVPHLADVKPFGRHVMSDVDHIGGVPVVMKALLDAGLLHGDCLTVTGHTMAENLAAITPPDPDGKVLRALANPIHPSGGITILHGSLAPEGAVVKTASDVFEGTARVFDGERAALDALEDGTITVGDAVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGLCVGHIAPEAVDGGPIALLRNGDRIRLDVAGRVLDVLADPAEFASRQQDFSPPPPRYTTGVLSKYVKLVSSAAVGAVCG VADIKPRSRDVTDGLEKAAARGMLRAVGMDDEDFAKPQIGVASSWNEITPCNLSLDRLANAVKEGVFSAGGYPLEFGTISVSDGISMGHEGMHFSLVSREVIADSVEVVMQAERLDGSVLLAGCDSLPGMLMAAARLDLAAVFLYAGSILPGRAKLSDGSERDVTIIDAFEAVGACSRGLMSRADVDAIERAICPGEGACGGMYTANTMASAAEALGMSLPGSAAPPATDRRRDGFARRSGQAVVELLRRGITARDILTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEANVALSLQDFSRIGSGVPHLADVKPFGRHVMSDVDHIGGVPVVMKALLDAGLLHGDCLTVTGHTMAENLAAITPPDPDGKVLRALANPIHPSGGITILHGSLAPEGAVVKTAGSDVFEGTARVFDGERAALDALEDGTITVGDAVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCVGHIAPEAVDGGPIALLRNGDRIRLDVAGRVLDVLADPAEFASRQQDFSPPPPRYTTGVLSKYVKLVSSAAVGAVCG 6ovt-a1-m1-cC_6ovt-a1-m1-cD Crystal Structure of IlvD from Mycobacterium tuberculosis P9WKJ5 P9WKJ5 1.88 X-RAY DIFFRACTION 28 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 557 559 6ovt-a1-m1-cB_6ovt-a1-m1-cA VADIKPRSRDVTDGLEKAAARGMLRAVGMDDEDFAKPQIGVASSWNEITPCNLSLDRLANAVKEGVFSAGGYPLEFGTISVSDGISMGHEGMHFSLVSREVIADSVEVVMQAERLDGSVLLAGCDSLPGMLMAAARLDLAAVFLYAGSILPGRAKLSDGSERDVTIIDAFEAVGACSRGLMSRADVDAIERAICPGEGACGGMYTANTMASAAEALGMSLPGSAAPPATDRRRDGFARRSGQAVVELLRRGITARDILTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEANVALSLQDFSRIGSGVPHLADVKPFGRHVMSDVDHIGGVPVVMKALLDAGLLHGDCLTVTGHTMAENLAAITPPDPDGKVLRALANPIHPSGGITILHGSLAPEGAVVKTADVFEGTARVFDGERAALDALEDGTITVGDAVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCVGHIAPEAVDGGPIALLRNGDRIRLDVAGRVLDVLADPAEFASRQQDFSPPPPRYTTGVLSKYVKLVSSAAVGAVCG VADIKPRSRDVTDGLEKAAARGMLRAVGMDDEDFAKPQIGVASSWNEITPCNLSLDRLANAVKEGVFSAGGYPLEFGTISVSDGISMGHEGMHFSLVSREVIADSVEVVMQAERLDGSVLLAGCDSLPGMLMAAARLDLAAVFLYAGSILPGRAKLSDGSERDVTIIDAFEAVGACSRGLMSRADVDAIERAICPGEGACGGMYTANTMASAAEALGMSLPGSAAPPATDRRRDGFARRSGQAVVELLRRGITARDILTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEANVALSLQDFSRIGSGVPHLADVKPFGRHVMSDVDHIGGVPVVMKALLDAGLLHGDCLTVTGHTMAENLAAITPPDPDGKVLRALANPIHPSGGITILHGSLAPEGAVVKTAGSDVFEGTARVFDGERAALDALEDGTITVGDAVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCVGHIAPEAVDGGPIALLRNGDRIRLDVAGRVLDVLADPAEFASRQQDFSPPPPRYTTGVLSKYVKLVSSAAVGAVCG 6ovt-a1-m1-cD_6ovt-a1-m1-cA Crystal Structure of IlvD from Mycobacterium tuberculosis P9WKJ5 P9WKJ5 1.88 X-RAY DIFFRACTION 40 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 559 561 6ovt-a1-m1-cB_6ovt-a1-m1-cC VADIKPRSRDVTDGLEKAAARGMLRAVGMDDEDFAKPQIGVASSWNEITPCNLSLDRLANAVKEGVFSAGGYPLEFGTISVSDGISMGHEGMHFSLVSREVIADSVEVVMQAERLDGSVLLAGCDSLPGMLMAAARLDLAAVFLYAGSILPGRAKLSDGSERDVTIIDAFEAVGACSRGLMSRADVDAIERAICPGEGACGGMYTANTMASAAEALGMSLPGSAAPPATDRRRDGFARRSGQAVVELLRRGITARDILTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEANVALSLQDFSRIGSGVPHLADVKPFGRHVMSDVDHIGGVPVVMKALLDAGLLHGDCLTVTGHTMAENLAAITPPDPDGKVLRALANPIHPSGGITILHGSLAPEGAVVKTAGSDVFEGTARVFDGERAALDALEDGTITVGDAVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCVGHIAPEAVDGGPIALLRNGDRIRLDVAGRVLDVLADPAEFASRQQDFSPPPPRYTTGVLSKYVKLVSSAAVGAVCG VADIKPRSRDVTDGLEKAAARGMLRAVGMDDEDFAKPQIGVASSWNEITPCNLSLDRLANAVKEGVFSAGGYPLEFGTISVSDGISMGHEGMHFSLVSREVIADSVEVVMQAERLDGSVLLAGCDSLPGMLMAAARLDLAAVFLYAGSILPGRAKLSDGSERDVTIIDAFEAVGACSRGLMSRADVDAIERAICPGEGACGGMYTANTMASAAEALGMSLPGSAAPPATDRRRDGFARRSGQAVVELLRRGITARDILTKEAFENAIAVVMAFGGSTNAVLHLLAIAHEANVALSLQDFSRIGSGVPHLADVKPFGRHVMSDVDHIGGVPVVMKALLDAGLLHGDCLTVTGHTMAENLAAITPPDPDGKVLRALANPIHPSGGITILHGSLAPEGAVVKTAGFDSDVFEGTARVFDGERAALDALEDGTITVGDAVVIRYEGPKGGPGMREMLAITGAIKGAGLGKDVLLLTDGRFSGGTTGLCVGHIAPEAVDGGPIALLRNGDRIRLDVAGRVLDVLADPAEFASRQQDFSPPPPRYTTGVLSKYVKLVSSAAVGAVCG 6ovw-a1-m2-cA_6ovw-a1-m3-cA Crystal structure of ornithine carbamoyltransferase from Salmonella enterica A0A0H3NPU3 A0A0H3NPU3 1.903 X-RAY DIFFRACTION 69 1.0 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 334 334 6ovw-a1-m1-cA_6ovw-a1-m2-cA 6ovw-a1-m1-cA_6ovw-a1-m3-cA MSTFYQKPFLKLLDFTASELTALLQLAAKLKADKKNGKEEQKLVGKNIALIFEKDSTRTRCSFEVAAYDQGARVTYLGSSGSQIGHKESIKDTARVLGRMFDGIQYRGYGQEIVETLAEYSGVPVWNGLTDEYHPTQLLADLLTMQEHLPGKAFNEMTLVYAGDARNNMGNSMLEAAALTGLDLRLVAPKACWPQAALVAECSAMAKKNGGAITLTEDIASGVKGADFIYTDVWVSMGEPKEKWAERIALLRDYQVNSQMMALTGNPQVKFLHCLPAFHDDETTLGKKMAEEYGLHGGMEVTDEVFESAASIVFDEAENRMHTIKAVMVATLSK MSTFYQKPFLKLLDFTASELTALLQLAAKLKADKKNGKEEQKLVGKNIALIFEKDSTRTRCSFEVAAYDQGARVTYLGSSGSQIGHKESIKDTARVLGRMFDGIQYRGYGQEIVETLAEYSGVPVWNGLTDEYHPTQLLADLLTMQEHLPGKAFNEMTLVYAGDARNNMGNSMLEAAALTGLDLRLVAPKACWPQAALVAECSAMAKKNGGAITLTEDIASGVKGADFIYTDVWVSMGEPKEKWAERIALLRDYQVNSQMMALTGNPQVKFLHCLPAFHDDETTLGKKMAEEYGLHGGMEVTDEVFESAASIVFDEAENRMHTIKAVMVATLSK 6owd-a1-m1-cA_6owd-a1-m1-cB Arginine Containing Reengineered Coiled-Coiled Dimer to Examine the Impact of Proximal Cation Identity on Hydrophobically-Driven Assembly 1.5 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 28 QIARLQRQIRALQRQNARLQRQIRALQW QIARLQRQIRALQRQNARLQRQIRALQW 6owf-a1-m1-cA6_6owf-a1-m1-cW Structure of a synthetic beta-carboxysome shell, T=3 K9YHS7 K9YHS7 3.0 ELECTRON MICROSCOPY 10 1.0 65093 (Halothece sp. PCC 7418) 65093 (Halothece sp. PCC 7418) 100 100 6owf-a1-m1-cAR_6owf-a1-m1-cBR 6owf-a1-m1-cC0_6owf-a1-m1-cCF 6owf-a1-m1-cCX_6owf-a1-m1-cDI AVAVGMIETLGFPAVVEAADAMVKAARVTLVGYEKIGTGRVTVIVRGDVSEVQASVSAGTESVKRVNGGQVLSTHIIARPHENLEYVLPIRYTEEVEQFR AVAVGMIETLGFPAVVEAADAMVKAARVTLVGYEKIGTGRVTVIVRGDVSEVQASVSAGTESVKRVNGGQVLSTHIIARPHENLEYVLPIRYTEEVEQFR 6owg-a1-m1-cC8_6owg-a1-m1-cDA Structure of a synthetic beta-carboxysome shell, T=4 K9YHS7 K9YHS7 2.6 ELECTRON MICROSCOPY 28 1.0 65093 (Halothece sp. PCC 7418) 65093 (Halothece sp. PCC 7418) 100 100 6owf-a1-m1-c1_6owf-a1-m1-c2 6owf-a1-m1-c4_6owf-a1-m1-c5 6owf-a1-m1-c7_6owf-a1-m1-c8 6owf-a1-m1-cA0_6owf-a1-m1-cAZ 6owf-a1-m1-cA2_6owf-a1-m1-cA3 6owf-a1-m1-cA5_6owf-a1-m1-cA6 6owf-a1-m1-ca_6owf-a1-m1-cb 6owf-a1-m1-cA_6owf-a1-m1-cB 6owf-a1-m1-cA8_6owf-a1-m1-cA9 6owf-a1-m1-cAB_6owf-a1-m1-cAC 6owf-a1-m1-cAE_6owf-a1-m1-cAF 6owf-a1-m1-cAH_6owf-a1-m1-cAI 6owf-a1-m1-cAK_6owf-a1-m1-cAL 6owf-a1-m1-cAN_6owf-a1-m1-cAO 6owf-a1-m1-cAQ_6owf-a1-m1-cAR 6owf-a1-m1-cAT_6owf-a1-m1-cAU 6owf-a1-m1-cAW_6owf-a1-m1-cAX 6owf-a1-m1-cB0_6owf-a1-m1-cBZ 6owf-a1-m1-cB2_6owf-a1-m1-cB3 6owf-a1-m1-cB5_6owf-a1-m1-cB6 6owf-a1-m1-cB8_6owf-a1-m1-cB9 6owf-a1-m1-cBB_6owf-a1-m1-cBC 6owf-a1-m1-cBE_6owf-a1-m1-cBF 6owf-a1-m1-cBH_6owf-a1-m1-cBI 6owf-a1-m1-cBK_6owf-a1-m1-cBL 6owf-a1-m1-cBN_6owf-a1-m1-cBO 6owf-a1-m1-cBQ_6owf-a1-m1-cBR 6owf-a1-m1-cBT_6owf-a1-m1-cBU 6owf-a1-m1-cBW_6owf-a1-m1-cBX 6owf-a1-m1-cC0_6owf-a1-m1-cCZ 6owf-a1-m1-cC2_6owf-a1-m1-cC3 6owf-a1-m1-cC5_6owf-a1-m1-cC6 6owf-a1-m1-cC8_6owf-a1-m1-cC9 6owf-a1-m1-cCB_6owf-a1-m1-cCC 6owf-a1-m1-cCE_6owf-a1-m1-cCF 6owf-a1-m1-cCH_6owf-a1-m1-cCI 6owf-a1-m1-cCK_6owf-a1-m1-cCL 6owf-a1-m1-cCN_6owf-a1-m1-cCO 6owf-a1-m1-cCQ_6owf-a1-m1-cCR 6owf-a1-m1-cCT_6owf-a1-m1-cCU 6owf-a1-m1-cCW_6owf-a1-m1-cCX 6owf-a1-m1-cd_6owf-a1-m1-ce 6owf-a1-m1-cD_6owf-a1-m1-cE 6owf-a1-m1-cDB_6owf-a1-m1-cDC 6owf-a1-m1-cDE_6owf-a1-m1-cDF 6owf-a1-m1-cDH_6owf-a1-m1-cDI 6owf-a1-m1-cg_6owf-a1-m1-ch 6owf-a1-m1-cG_6owf-a1-m1-cH 6owf-a1-m1-cj_6owf-a1-m1-ck 6owf-a1-m1-cJ_6owf-a1-m1-cK 6owf-a1-m1-cm_6owf-a1-m1-cn 6owf-a1-m1-cM_6owf-a1-m1-cN 6owf-a1-m1-cp_6owf-a1-m1-cq 6owf-a1-m1-cP_6owf-a1-m1-cQ 6owf-a1-m1-cs_6owf-a1-m1-ct 6owf-a1-m1-cS_6owf-a1-m1-cT 6owf-a1-m1-cv_6owf-a1-m1-cw 6owf-a1-m1-cV_6owf-a1-m1-cW 6owf-a1-m1-cy_6owf-a1-m1-cz 6owf-a1-m1-cY_6owf-a1-m1-cZ 6owg-a1-m1-c0_6owg-a1-m1-cY 6owg-a1-m1-c2_6owg-a1-m1-c4 6owg-a1-m1-c3_6owg-a1-m1-cCL 6owg-a1-m1-c3_6owg-a1-m1-cJ 6owg-a1-m1-c6_6owg-a1-m1-c8 6owg-a1-m1-c7_6owg-a1-m1-cB 6owg-a1-m1-c7_6owg-a1-m1-cr 6owg-a1-m1-cA0_6owg-a1-m1-cA2 6owg-a1-m1-cA1_6owg-a1-m1-cBL 6owg-a1-m1-cA1_6owg-a1-m1-cV 6owg-a1-m1-cA4_6owg-a1-m1-cA6 6owg-a1-m1-cA5_6owg-a1-m1-cf 6owg-a1-m1-cA5_6owg-a1-m1-cz 6owg-a1-m1-ca_6owg-a1-m1-cc 6owg-a1-m1-cA_6owg-a1-m1-cC 6owg-a1-m1-cA8_6owg-a1-m1-cBA 6owg-a1-m1-cA9_6owg-a1-m1-cD1 6owg-a1-m1-cA9_6owg-a1-m1-cDH 6owg-a1-m1-cAA_6owg-a1-m1-cy 6owg-a1-m1-cAC_6owg-a1-m1-cAE 6owg-a1-m1-cAD_6owg-a1-m1-cAX 6owg-a1-m1-cAD_6owg-a1-m1-cBT 6owg-a1-m1-cAG_6owg-a1-m1-cAI 6owg-a1-m1-cAH_6owg-a1-m1-cb 6owg-a1-m1-cAH_6owg-a1-m1-cR 6owg-a1-m1-cAK_6owg-a1-m1-cAM 6owg-a1-m1-cAL_6owg-a1-m1-cD5 6owg-a1-m1-cAL_6owg-a1-m1-cEP 6owg-a1-m1-cAO_6owg-a1-m1-cAQ 6owg-a1-m1-cAP_6owg-a1-m1-cEL 6owg-a1-m1-cAP_6owg-a1-m1-cv 6owg-a1-m1-cAS_6owg-a1-m1-cAU 6owg-a1-m1-cAT_6owg-a1-m1-cBD 6owg-a1-m1-cAT_6owg-a1-m1-cDX 6owg-a1-m1-cAW_6owg-a1-m1-cAY 6owg-a1-m1-cAX_6owg-a1-m1-cBT 6owg-a1-m1-cB0_6owg-a1-m1-cB2 6owg-a1-m1-cB1_6owg-a1-m1-cET 6owg-a1-m1-cB1_6owg-a1-m1-cn 6owg-a1-m1-cB4_6owg-a1-m1-cB6 6owg-a1-m1-cB5_6owg-a1-m1-cCP 6owg-a1-m1-cB5_6owg-a1-m1-cZ 6owg-a1-m1-cB_6owg-a1-m1-cr 6owg-a1-m1-cB8_6owg-a1-m1-cCA 6owg-a1-m1-cB9_6owg-a1-m1-cC5 6owg-a1-m1-cB9_6owg-a1-m1-cE1 6owg-a1-m1-cBC_6owg-a1-m1-cBE 6owg-a1-m1-cBD_6owg-a1-m1-cDX 6owg-a1-m1-cBG_6owg-a1-m1-cBI 6owg-a1-m1-cBH_6owg-a1-m1-cC9 6owg-a1-m1-cBH_6owg-a1-m1-cF 6owg-a1-m1-cBK_6owg-a1-m1-cBM 6owg-a1-m1-cBL_6owg-a1-m1-cV 6owg-a1-m1-cBO_6owg-a1-m1-cBQ 6owg-a1-m1-cBP_6owg-a1-m1-cj 6owg-a1-m1-cBP_6owg-a1-m1-cN 6owg-a1-m1-cBS_6owg-a1-m1-cBU 6owg-a1-m1-cBW_6owg-a1-m1-cBY 6owg-a1-m1-cBX_6owg-a1-m1-cCT 6owg-a1-m1-cBX_6owg-a1-m1-cDD 6owg-a1-m1-cC0_6owg-a1-m1-cC2 6owg-a1-m1-cC1_6owg-a1-m1-cDL 6owg-a1-m1-cC1_6owg-a1-m1-cEH 6owg-a1-m1-cC4_6owg-a1-m1-cC6 6owg-a1-m1-cC5_6owg-a1-m1-cE1 6owg-a1-m1-cC9_6owg-a1-m1-cF 6owg-a1-m1-cCC_6owg-a1-m1-cCE 6owg-a1-m1-cCD_6owg-a1-m1-cCX 6owg-a1-m1-cCD_6owg-a1-m1-cDT 6owg-a1-m1-cCG_6owg-a1-m1-cCI 6owg-a1-m1-cCH_6owg-a1-m1-cED 6owg-a1-m1-cCH_6owg-a1-m1-cEX 6owg-a1-m1-cCK_6owg-a1-m1-cCM 6owg-a1-m1-cCL_6owg-a1-m1-cJ 6owg-a1-m1-cCO_6owg-a1-m1-cCQ 6owg-a1-m1-cCP_6owg-a1-m1-cZ 6owg-a1-m1-cCS_6owg-a1-m1-cCU 6owg-a1-m1-cCT_6owg-a1-m1-cDD 6owg-a1-m1-cCW_6owg-a1-m1-cCY 6owg-a1-m1-cCX_6owg-a1-m1-cDT 6owg-a1-m1-cD0_6owg-a1-m1-cD2 6owg-a1-m1-cD1_6owg-a1-m1-cDH 6owg-a1-m1-cD4_6owg-a1-m1-cD6 6owg-a1-m1-cD5_6owg-a1-m1-cEP 6owg-a1-m1-cD8_6owg-a1-m1-cEA 6owg-a1-m1-cD9_6owg-a1-m1-cDP 6owg-a1-m1-cD9_6owg-a1-m1-cE5 6owg-a1-m1-cDC_6owg-a1-m1-cDE 6owg-a1-m1-cDG_6owg-a1-m1-cDI 6owg-a1-m1-cDK_6owg-a1-m1-cDM 6owg-a1-m1-cDL_6owg-a1-m1-cEH 6owg-a1-m1-cDO_6owg-a1-m1-cDQ 6owg-a1-m1-cDP_6owg-a1-m1-cE5 6owg-a1-m1-cDS_6owg-a1-m1-cDU 6owg-a1-m1-cDW_6owg-a1-m1-cDY 6owg-a1-m1-cE0_6owg-a1-m1-cE2 6owg-a1-m1-cE4_6owg-a1-m1-cE6 6owg-a1-m1-ce_6owg-a1-m1-cg 6owg-a1-m1-cE_6owg-a1-m1-cG 6owg-a1-m1-cEC_6owg-a1-m1-cEE 6owg-a1-m1-cED_6owg-a1-m1-cEX 6owg-a1-m1-cEG_6owg-a1-m1-cEI 6owg-a1-m1-cEK_6owg-a1-m1-cEM 6owg-a1-m1-cEL_6owg-a1-m1-cv 6owg-a1-m1-cEO_6owg-a1-m1-cEQ 6owg-a1-m1-cES_6owg-a1-m1-cEU 6owg-a1-m1-cET_6owg-a1-m1-cn 6owg-a1-m1-cEW_6owg-a1-m1-cEY 6owg-a1-m1-cf_6owg-a1-m1-cz 6owg-a1-m1-ci_6owg-a1-m1-ck 6owg-a1-m1-cI_6owg-a1-m1-cK 6owg-a1-m1-cm_6owg-a1-m1-co 6owg-a1-m1-cM_6owg-a1-m1-cO 6owg-a1-m1-cN_6owg-a1-m1-cj 6owg-a1-m1-cq_6owg-a1-m1-cs 6owg-a1-m1-cQ_6owg-a1-m1-cS 6owg-a1-m1-cR_6owg-a1-m1-cb 6owg-a1-m1-cu_6owg-a1-m1-cw 6owg-a1-m1-cU_6owg-a1-m1-cW AVAVGMIETLGFPAVVEAADAMVKAARVTLVGYEKIGTGRVTVIVRGDVSEVQASVSAGTESVKRVNGGQVLSTHIIARPHENLEYVLPIRYTEEVEQFR AVAVGMIETLGFPAVVEAADAMVKAARVTLVGYEKIGTGRVTVIVRGDVSEVQASVSAGTESVKRVNGGQVLSTHIIARPHENLEYVLPIRYTEEVEQFR 6owk-a1-m2-cA_6owk-a1-m3-cA Crystal structure of a Bacillus thuringiensis Cry1B.867 tryptic core variant Q45715 Q45715 2.698 X-RAY DIFFRACTION 68 1.0 1441 (Bacillus thuringiensis serovar morrisoni) 1441 (Bacillus thuringiensis serovar morrisoni) 582 582 6owk-a1-m1-cA_6owk-a1-m2-cA 6owk-a1-m1-cA_6owk-a1-m3-cA STVQTGINIAGRILGVLGVPFAGQIASFYSFLVGELWPRGRDPWEIFLEHVEQLIRQQVTENTRDTALARLQGLGNSFRAYQQSLEDWLENRDDARTRSVLYTQYINLELDFLDAMPLFAIRNQEVPLLMVYAQAANLHLLLLRDASLFGSEFGLTSQEIQRYYERQVEKTREYSDYCARWYNTGLNNLRGTNAESWLRYNQFRRDLTLGVLDLVALFPSYDTRVYPMNTSAQLTREIYTDPIGRTNASTNWFNNNAPSFSAIEAAVIRPPHLLDFPEQLTIFSVLSRWSNTQYMNYWVGHRLESRTIRGSLSTSTHGNTNTSINPVTLQFTSRDVYRTESFAGINILLTTPVNGVPWARFNWRNPLNSLRGSLLYTIGYTGVGTQLFDSETELPPETTERPNYESYSHRLSNIRLISGNTLRAPVYSWTHRSADRTNTISSDSITQIPLVKAHTLQSGTTVVKGPGFTGGDILRRTSGGPFAFSNVNLDFNLSQRYRARIRYASTTNLRIYVTVAGERIFAGQFDKTMDAGAPLTFQSFSYATINTAFTFPERSSSLTVGADTFSSGNEVYVDRFELIPVT STVQTGINIAGRILGVLGVPFAGQIASFYSFLVGELWPRGRDPWEIFLEHVEQLIRQQVTENTRDTALARLQGLGNSFRAYQQSLEDWLENRDDARTRSVLYTQYINLELDFLDAMPLFAIRNQEVPLLMVYAQAANLHLLLLRDASLFGSEFGLTSQEIQRYYERQVEKTREYSDYCARWYNTGLNNLRGTNAESWLRYNQFRRDLTLGVLDLVALFPSYDTRVYPMNTSAQLTREIYTDPIGRTNASTNWFNNNAPSFSAIEAAVIRPPHLLDFPEQLTIFSVLSRWSNTQYMNYWVGHRLESRTIRGSLSTSTHGNTNTSINPVTLQFTSRDVYRTESFAGINILLTTPVNGVPWARFNWRNPLNSLRGSLLYTIGYTGVGTQLFDSETELPPETTERPNYESYSHRLSNIRLISGNTLRAPVYSWTHRSADRTNTISSDSITQIPLVKAHTLQSGTTVVKGPGFTGGDILRRTSGGPFAFSNVNLDFNLSQRYRARIRYASTTNLRIYVTVAGERIFAGQFDKTMDAGAPLTFQSFSYATINTAFTFPERSSSLTVGADTFSSGNEVYVDRFELIPVT 6owv-a1-m1-cA_6owv-a1-m5-cA Crystal structure of a Human Cardiac Calsequestrin Filament O14958 O14958 1.88 X-RAY DIFFRACTION 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 6owv-a1-m2-cA_6owv-a1-m4-cA LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN 6owv-a1-m1-cA_6owv-a1-m6-cA Crystal structure of a Human Cardiac Calsequestrin Filament O14958 O14958 1.88 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 6owv-a1-m3-cA_6owv-a1-m4-cA LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN 6owv-a1-m2-cA_6owv-a1-m6-cA Crystal structure of a Human Cardiac Calsequestrin Filament O14958 O14958 1.88 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 2vaf-a1-m1-cA_2vaf-a1-m2-cA 6owv-a1-m1-cA_6owv-a1-m4-cA 6owv-a1-m3-cA_6owv-a1-m5-cA 6oww-a1-m1-cA_6oww-a1-m2-cF 6oww-a2-m1-cB_6oww-a2-m1-cE 6oww-a3-m1-cC_6oww-a3-m1-cH 6oww-a4-m1-cD_6oww-a4-m1-cG 7f05-a1-m1-cA_7f05-a1-m1-cB 7f05-a2-m1-cD_7f05-a2-m1-cC LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN 6owv-a1-m4-cA_6owv-a1-m6-cA Crystal structure of a Human Cardiac Calsequestrin Filament O14958 O14958 1.88 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 329 6owv-a1-m1-cA_6owv-a1-m2-cA 6owv-a1-m1-cA_6owv-a1-m3-cA 6owv-a1-m4-cA_6owv-a1-m5-cA LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN LNFPTYDGKDRVVSLSEKNFKQVLKKYDLLCLYYHQFQLKEIVLELVAQVLEHKAIGFVMVDAKKEAKLAKKLGFDEEGSLYILKGDRTIEFDGEFAADVLVEFLLDLIEDPVEIISSKLEVQAFERIEDYIKLIGFFKSEDSEYYKAFEEAAEHFQPYIKFFATFDKGVAKKLSLKMNEVDFYEPFMDEPIAIPNKPYTEEELVEFVKEHQRPTLRRLRPEEMFIHIVAFAEKSDPDGYEFLEILKQVARDNTDNPDLSILWIDPDDFPLLVAYWEKTFKIDLFRPQIGVVNVTDADSVWMEIPDDDDLPTAEELEDWIEDVLSGKIN 6oxm-a1-m1-cA_6oxm-a1-m1-cB Crystal structure of L,L-diaminopimelate aminotransferase (DapL) from Verrucomicrobium spinosum 2.25 X-RAY DIFFRACTION 223 1.0 2736 (Verrucomicrobium spinosum) 2736 (Verrucomicrobium spinosum) 404 404 MALINENFLKLKAGYLFPEIARRVKAFTEGNPEAAQRLIRCGIGDVTEALPEAVRYAMHEAVDELGNRPEQGYDFLRNAIADNDYKARGLPIEADEIFISDGSKCDTGNILDIFGQGNTIAITDPVYPVYVDTNVMIGNTGEADENGAYAGLVYLKCTPENGFVPDIPQEKADLIYLCYPNNPTGAVATRPQLEAWVKYARENGSVLLYDAAYEAFIQDPTIPHSIFEIEGARDCAIEFRSFSKNGGFTGVRCAYVVIPKSLMGRKKNGEAQALHPLWSRRHSTKFNGASYIVQKGAEALYTDEGKSQTKALIEHYMGNAALLVEACKNAGLSVFGGVNAPYVWVGCPAGLTSWQMFDKMLNEANVVITPGSGFGSAGEGYFRISAFNSRANVEEVCRRIAALK MALINENFLKLKAGYLFPEIARRVKAFTEGNPEAAQRLIRCGIGDVTEALPEAVRYAMHEAVDELGNRPEQGYDFLRNAIADNDYKARGLPIEADEIFISDGSKCDTGNILDIFGQGNTIAITDPVYPVYVDTNVMIGNTGEADENGAYAGLVYLKCTPENGFVPDIPQEKADLIYLCYPNNPTGAVATRPQLEAWVKYARENGSVLLYDAAYEAFIQDPTIPHSIFEIEGARDCAIEFRSFSKNGGFTGVRCAYVVIPKSLMGRKKNGEAQALHPLWSRRHSTKFNGASYIVQKGAEALYTDEGKSQTKALIEHYMGNAALLVEACKNAGLSVFGGVNAPYVWVGCPAGLTSWQMFDKMLNEANVVITPGSGFGSAGEGYFRISAFNSRANVEEVCRRIAALK 6oy3-a1-m1-cA_6oy3-a1-m1-cB nhTMEM16 L302A +Ca2+ in nanodiscs C7Z7K1 C7Z7K1 4.0 ELECTRON MICROSCOPY 111 1.0 660122 (Fusarium vanettenii 77-13-4) 660122 (Fusarium vanettenii 77-13-4) 594 594 SNFGVDFVIHYKVPAAERDEAEAGFVQLIRALTTVGLATEVRHGENESLLVFVKVASPDLFAKQVYRARLGDWLHGVRVSAPIAQALQDEPVVEAERLRLIYLMITKPHNWKHVESIFPLHSHSFNKEWIKKWSSKYTLEQTDIDNIRDKFGESVAFYFAFLRSYFRFLVIPSAFGFGAWLLLGQFSYLYALLCGLWSVVFFEYWKKQEVDLAVQWGVRGVSSIQQSRPEFEWEHEAVKVYPPMKRVKTQLLQIPFALACVVAAGALIVTCNSLEVFINEVGKQYLGFLPTIFLVIGTPTISGVLMGAAEKLNAMENYATVDAHDAALIQKQFVLNFMTSYMALFFTAFVYIPFGHILHPFQINPARISNQMFYFTVTAQIVNFATEVVVPYIKQQAFQKAKQDHEEEAEFLQRVREECTLEEYDVSGDYREMVMQFGYVAMFSVAWPLAACCFLVNNWVELRSDALKIAISSRRPIPWRTDSIGPWLTALSFLSWLGSITSSAIVYLCSASPLKAWGLLLSILFAEHFYLVVQLAVRFVLSKLDSPGLQKERKERFQTKKRLLQENLGWQRQRGMQETIEIGRRMIEQQLAAG SNFGVDFVIHYKVPAAERDEAEAGFVQLIRALTTVGLATEVRHGENESLLVFVKVASPDLFAKQVYRARLGDWLHGVRVSAPIAQALQDEPVVEAERLRLIYLMITKPHNWKHVESIFPLHSHSFNKEWIKKWSSKYTLEQTDIDNIRDKFGESVAFYFAFLRSYFRFLVIPSAFGFGAWLLLGQFSYLYALLCGLWSVVFFEYWKKQEVDLAVQWGVRGVSSIQQSRPEFEWEHEAVKVYPPMKRVKTQLLQIPFALACVVAAGALIVTCNSLEVFINEVGKQYLGFLPTIFLVIGTPTISGVLMGAAEKLNAMENYATVDAHDAALIQKQFVLNFMTSYMALFFTAFVYIPFGHILHPFQINPARISNQMFYFTVTAQIVNFATEVVVPYIKQQAFQKAKQDHEEEAEFLQRVREECTLEEYDVSGDYREMVMQFGYVAMFSVAWPLAACCFLVNNWVELRSDALKIAISSRRPIPWRTDSIGPWLTALSFLSWLGSITSSAIVYLCSASPLKAWGLLLSILFAEHFYLVVQLAVRFVLSKLDSPGLQKERKERFQTKKRLLQENLGWQRQRGMQETIEIGRRMIEQQLAAG 6oza-a1-m1-cA_6oza-a1-m1-cB Crystal structure of the phycocyanobilin-bound GAF domain from a cyanobacterial phytochrome Q8YTL8 Q8YTL8 3.002 X-RAY DIFFRACTION 28 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 183 183 6oza-a1-m1-cA_6oza-a1-m1-cC 6oza-a1-m1-cB_6oza-a1-m1-cC 6ozb-a1-m1-cA_6ozb-a1-m1-cB 6ozb-a1-m1-cA_6ozb-a1-m1-cC 6ozb-a1-m1-cB_6ozb-a1-m1-cC VSLNQESVLRRITARIRQSLELEDIITATTAEVRALLGTDRVMIYKFHPDGSGQVIAESIYENRLPSLLGLNFPADDIPPQARELLVKSKVRSIVDVATGMIGQSPVDICYRPVDSCHVEYLTAMGVKSSVVAPIFCQDELWGLLVSHHSENRTVSEDELEAMQMIVDQLAVAIAQSHLEHHH VSLNQESVLRRITARIRQSLELEDIITATTAEVRALLGTDRVMIYKFHPDGSGQVIAESIYENRLPSLLGLNFPADDIPPQARELLVKSKVRSIVDVATGMIGQSPVDICYRPVDSCHVEYLTAMGVKSSVVAPIFCQDELWGLLVSHHSENRTVSEDELEAMQMIVDQLAVAIAQSHLEHHH 6ozu-a3-m1-cB_6ozu-a3-m1-cA Crystal structure of the MIF4G domain of Trypanosoma cruzi translation initiation factor EIF4G5 Q4DAD2 Q4DAD2 2.4 X-RAY DIFFRACTION 117 0.996 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 234 235 ERKLHNEVLGILGRVGEGNLPKMKEELTNLPIRQSTDKEIQDVIQVIFNKSIQPEDSIFVPYYVKLVVSLINDIGEGEPAGRFIRNAIIRQCQRTFENAEEAQAQLEREIANLPEEEAEQRRLIFAGKQKANINFLGLLFTHGLVREKVVLHVLEWLLYGTERKRRFPADYELIHFMNLLLTCGKSFSKEGQEFVPKFRAVLEELMHMHPQRRMQFLLLNTVETIDNNWILEHH RKLHNEVLGILGRVGEGNLPKMKEELTNLPIRQSTDKEIQDVIQVIFNKSIQPEDSIFVPYYVKLVVSLINDIGEGEPAGRFIRNAIIRQCQRTFENAEEAQAQLEREIANLPEEEAEQRRLIFAGKQKANINFLGLLFTHGLVREKVVLHVLEWLLYGTERKRRFPADYELIHFMNLLLTCGKSFSKEGQEFVPKFRAVLEELMHMHPQRRMQFLLLNTVETIDNNWILEHHHH 6p02-a1-m1-cB_6p02-a1-m1-cH Crystal structure of Mtb aspartate decarboxylase, 6-Chlorine pyrazinoic acid complex P9WIL3 P9WIL3 2.25 X-RAY DIFFRACTION 27 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 90 90 2c45-a1-m1-cA_2c45-a1-m1-cB 2c45-a1-m1-cA_2c45-a1-m1-cC 2c45-a1-m1-cB_2c45-a1-m1-cD 2c45-a1-m1-cC_2c45-a1-m1-cD 2c45-a2-m1-cE_2c45-a2-m1-cF 2c45-a2-m1-cE_2c45-a2-m1-cH 2c45-a2-m1-cF_2c45-a2-m1-cG 2c45-a2-m1-cG_2c45-a2-m1-cH 6oyy-a1-m1-cB_6oyy-a1-m1-cD 6oyy-a1-m1-cB_6oyy-a1-m3-cD 6oyy-a1-m1-cD_6oyy-a1-m3-cB 6oyy-a1-m3-cB_6oyy-a1-m3-cD 6oyy-a2-m1-cF_6oyy-a2-m1-cH 6oyy-a2-m1-cF_6oyy-a2-m2-cL 6oyy-a2-m1-cH_6oyy-a2-m2-cJ 6oyy-a2-m2-cJ_6oyy-a2-m2-cL 6oz8-a1-m1-cB_6oz8-a1-m1-cD 6oz8-a1-m1-cB_6oz8-a1-m3-cD 6oz8-a1-m3-cB_6oz8-a1-m1-cD 6oz8-a1-m3-cB_6oz8-a1-m3-cD 6oz8-a2-m1-cF_6oz8-a2-m1-cH 6oz8-a2-m1-cF_6oz8-a2-m2-cL 6oz8-a2-m1-cH_6oz8-a2-m2-cJ 6oz8-a2-m2-cJ_6oz8-a2-m2-cL 6p02-a1-m1-cB_6p02-a1-m1-cD 6p02-a1-m1-cD_6p02-a1-m1-cF 6p02-a1-m1-cF_6p02-a1-m1-cH 6p02-a2-m1-cJ_6p02-a2-m1-cL 6p02-a2-m1-cJ_6p02-a2-m1-cP 6p02-a2-m1-cL_6p02-a2-m1-cN 6p02-a2-m1-cN_6p02-a2-m1-cP 6p02-a3-m1-cR_6p02-a3-m1-cT 6p02-a3-m1-cR_6p02-a3-m1-cX 6p02-a3-m1-cT_6p02-a3-m1-cV 6p02-a3-m1-cV_6p02-a3-m1-cX 6p1y-a1-m1-cB_6p1y-a1-m3-cB 6p1y-a1-m1-cB_6p1y-a1-m4-cB 6p1y-a1-m2-cB_6p1y-a1-m3-cB 6p1y-a1-m2-cB_6p1y-a1-m4-cB VTIDADLMDAADLLEGEQVTIVDIDNGARLVTYAITGERGSGVIGINGAAAHLVHPGDLVILIAYATMDDARARTYQPRIVFVDAYNKPI VTIDADLMDAADLLEGEQVTIVDIDNGARLVTYAITGERGSGVIGINGAAAHLVHPGDLVILIAYATMDDARARTYQPRIVFVDAYNKPI 6p07-a1-m1-cD_6p07-a1-m1-cE Spastin hexamer in complex with substrate A0A0B4LHJ5 A0A0B4LHJ5 3.2 ELECTRON MICROSCOPY 148 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 303 303 6p07-a1-m1-cA_6p07-a1-m1-cB 6p07-a1-m1-cC_6p07-a1-m1-cB 6p07-a1-m1-cC_6p07-a1-m1-cD 6p07-a1-m1-cF_6p07-a1-m1-cE VVSVKGVEQKLVQLILDEIVEGGAKVEWTDIAGQDVAKQALQEMVILPSVRPELFTGLRAPAKGLLLFGPPGNGKTLLARAVATECSATFLNISAASLTSKYVGDGEKLVRALFAVARHMQPSIIFIDQVDSLLSERSSSEHEASRRLKTEFLVEFDGLPGNPDGDRIVVLAATNRPQELDEAALRRFTKRVYVSLPDEQTRELLLNRLLQKQGSPLDTEALRRLAKITDGYSGSDLTALAKDAALEPIRELNVEQVKCLDISAMRAITEQDFHSSLKRIRRSVAPQSLNSYEKWSQDYGDIT VVSVKGVEQKLVQLILDEIVEGGAKVEWTDIAGQDVAKQALQEMVILPSVRPELFTGLRAPAKGLLLFGPPGNGKTLLARAVATECSATFLNISAASLTSKYVGDGEKLVRALFAVARHMQPSIIFIDQVDSLLSERSSSEHEASRRLKTEFLVEFDGLPGNPDGDRIVVLAATNRPQELDEAALRRFTKRVYVSLPDEQTRELLLNRLLQKQGSPLDTEALRRLAKITDGYSGSDLTALAKDAALEPIRELNVEQVKCLDISAMRAITEQDFHSSLKRIRRSVAPQSLNSYEKWSQDYGDIT 6p0r-a1-m1-cB_6p0r-a1-m1-cA Methyltransferase domain of human suppressor of variegation 3-9 homolog 2 (SUV39H2) in complex with OTS186935 inhibitor Q9H5I1 Q9H5I1 2.4 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 255 KQRIALQRWQDELNRRKNHKGMIFVENTVDLEGPPSDFYYINEYKPAPATFGCSCTDCFFQKCCPAEAGVLLAYNKNQQIKIPPGTPIYECNSRCQCGPDCPNRIVQKGTQYSLCIFRTSNGRGWGVKTLVKIKRMSFVMEYVGEVITSEEAERRGQFITYLFDLDYESDEFTVDAARYGNVSHFVNHSCDPNLQVFNVFIDNLDTRLPRIALFSTRTINAGEELTFDYQ AKQRIALQRWQDELNRRKNHKGMIFVENTVDLEGPPSDFYYINEYKPAPGISLVNEATFGCSCTDCFFQKCCPAEAGVLLAYNKNQQIKIPPGTPIYECNSRCQCGPDCPNRIVQKGTQYSLCIFRTSNGRGWGVKTLVKIKRMSFVMEYVGEVITSEEAERRGQFYGITYLFDLDYESDEFTVDAARYGNVSHFVNHSCDPNLQVFNVFIDNLDTRLPRIALFSTRTINAGEELTFDYQMKRTVCKCVTCRGYL 6p18-a1-m1-cP_6p18-a1-m1-cQ Q21 transcription antitermination complex: loading complex Q9XJQ6 Q9XJQ6 3.5 ELECTRON MICROSCOPY 14 0.993 10743 (Phage 21) 10743 (Phage 21) 145 156 LNLTKEQHEWLNGWLELWGAWVYSGRLEKRMSSVIAKFMESVEPGRVMTRPMCNDDDGMLISQVVDSVMYIDKKAFGILLSYYAHGSSKHAIASYYHRVARPRKMLCRGGGRIQKPSLATCRREVDEILNASLFMIYPVLDSAFK NLTKEQHEWLNGWLELWGAWVYSGRLEKRMSSVIAKFMESVEPGRVMTRPMCNDDDGMLISQVVDSVMYIDKKAFGILLSYYAHGSSKHAIASYYHRVARPRKMLCRGGGRIQKPSLATCRREVDEILNASLFMIYPVLDSAFKNRKRVEKIKHVA 6p1e-a1-m1-cA_6p1e-a1-m1-cB Cu-bound PmoF1 PCuAC domain (dimer) 1.605 X-RAY DIFFRACTION 37 1.0 622637 (Methylocystis sp. ATCC 49242) 622637 (Methylocystis sp. ATCC 49242) 120 121 MHEYDVGKLKVEHPWLRAPADGEKNASFYAFIHNNGDTPDKLVAVKVEKFGSAVIHGDAKNLALEAPVLLPPKQKITLAPGGAYVALLDAKKHLEVGWGLEMTLVFEKAGEVVIDAAIDA MHEYDVGKLKVEHPWLRAPADGEKNASFYAFIHNNGDTPDKLVAVKVEKFGSAVIHGDAKNLALEAPVLLPPKQKITLAPGGAYVALLDAKKHLEVGWGLEMTLVFEKAGEVVIDAAIDAP 6p20-a1-m1-cB_6p20-a1-m1-cC Bacteriophage phiKZ gp163.1 PAAR repeat protein in complex with a T4 gp5 beta-helix fragment modified to mimic the phiKZ central spike gp164 Q8SCZ8 Q8SCZ8 1.749 X-RAY DIFFRACTION 388 1.0 169683 (Phikzvirus phiKZ) 169683 (Phikzvirus phiKZ) 109 109 6p20-a1-m1-cB_6p20-a1-m1-cA 6p20-a1-m1-cC_6p20-a1-m1-cA SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSKSSGTHIQEAGGTMTHKAGGNMLFTAPRYDFT SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSKSSGTHIQEAGGTMTHKAGGNMLFTAPRYDFT 6p24-a1-m1-cB_6p24-a1-m1-cD Escherichia coli tRNA synthetase P07395 P07395 2.12 X-RAY DIFFRACTION 62 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 793 794 3pco-a1-m1-cB_3pco-a1-m1-cD 6oz5-a1-m1-cB_6oz5-a1-m1-cD 6p26-a1-m1-cB_6p26-a1-m1-cD 7n8y-a1-m1-cB_7n8y-a1-m1-cD MKFSELWLREWVNPAIDSDALANQITMAGLEVDGVEPVAGSFHGVVVGEVVECAQHPNADKLRVTKVNVGGDRLLDIVCGAPNCRQGLRVAVATIGAVLPGDFKIKAAKLRGEPSEGMLCSFSELGISDDHSGIIELPADAPIGTDIREYLKLDDNTIEISVTPNRADCLGIIGVARDVAVLNQLPLVQPEIVPVGATIDDTLPITVEAPEACPRYLGRVVKGINVKAPTPLWMKEKLRRCGIRSIDAVVDVTNYVLLELGQPMHAFDKDRIEGGIVVRMAKEGETLVLLDGTEAKLNADTLVIADHNKALAMGGIFGGEHSGVNDETQNVLLECAFFSPLSITGRARRHGLHTDASHRYERGVDPALQHKAMERATRLLIDICGGEAGPVIDITNEATLPKRATITLRRSKLDRLIGHHIADEQVTDILRRLGCEVTEGKDEWQAVAPSWRFDMEIEEDLVEEVARVYGYNNIPDEPVQASLIMGTHREADLSLKRVKTLLNDKGYQEVITYSFVDPKVQQMIHPGVEALLLPSPISVEMSAMRLSLWTGLLATVVYNQNRQQNRVRIFESGLRFVPDTQAPLGIRQDLMLAGVICGNRYEEHWNLAKETVDFYDLKGDLESVLDLTGKLNEVEFRAEANPALHPGQSAAIYLKGERIGFVGVVHPELERKLDLNGRTLVFELEWNKLADRVVPQAREISRFPANRRDIAVVVAENVPAADILSECKKVGVNQVVGVNLFDVYRGKGVAEGYKSLAISLILQDTSRTLEEEEIAATVAKCVEALKERFQASL MKFSELWLREWVNPAIDSDALANQITMAGLEVDGVEPVAGSFHGVVVGEVVECAQHPNADKLRVTKVNVGGDRLLDIVCGAPNCRQGLRVAVATIGAVLPGDFKIKAAKLRGEPSEGMLCSFSELGISDDHSGIIELPADAPIGTDIREYLKLDDNTIEISVTPNRADCLGIIGVARDVAVLNQLPLVQPEIVPVGATIDDTLPITVEAPEACPRYLGRVVKGINVKAPTPLWMKEKLRRCGIRSIDAVVDVTNYVLLELGQPMHAFDKDRIEGGIVVRMAKEGETLVLLDGTEAKLNADTLVIADHNKALAMGGIFGGEHSGVNDETQNVLLECAFFSPLSITGRARRHGLHTDASHRYERGVDPALQHKAMERATRLLIDICGGEAGPVIDITNEATLPKRATITLRRSKLDRLIGHHIADEQVTDILRRLGCEVTEGKDEWQAVAPSWRFDMEIEEDLVEEVARVYGYNNIPDEPVQASLIMGTHREADLSLKRVKTLLNDKGYQEVITYSFVDPKVQQMIHPGVEALLLPSPISVEMSAMRLSLWTGLLATVVYNQNRQQNRVRIFESGLRFVPDTQAPLGIRQDLMLAGVICGNRYEEHWNLAKETVDFYDLKGDLESVLDLTGKLNEVEFRAEANPALHPGQSAAIYLKGERIGFVGVVHPELERKLDLNGRTLVFELEWNKLADRVVPQAREISRFPANRRDIAVVVAENVPAADILSECKKVGVNQVVGVNLFDVYRGKGVAEGYKSLAISLILQDTSRTLEEEEIAATVAKCVEALKERFQASLR 6p29-a1-m1-cB_6p29-a1-m1-cA N-demethylindolmycin synthase (PluN2) in complex with N-demethylindolmycin A0A167HII1 A0A167HII1 1.5 X-RAY DIFFRACTION 178 1.0 43657 (Pseudoalteromonas luteoviolacea) 43657 (Pseudoalteromonas luteoviolacea) 129 134 MEFNNTIPELVCRDIDSSLSFYTQKLGFKVLFEREEQGFFFLYKNDIQLMLQQLGETAWMSHSNDTPFGNGMNIAFKVESLDDLDCSTSEDIFLETETIEYRVLDGVASVNQVIFRDPDGYLIRFVEQV MEFNNTIPELVCRDIDSSLSFYTQKLGFKVLFEREEQGFFFLYKNDIQLMLQQLGETAWMSHSNDTPFGNGMNIAFKVESLDDLDCSTPSEDIFLETETIEYRVLDGVASVNQVIFRDPDGYLIRFVEQVNQLE 6p2a-a1-m1-cA_6p2a-a1-m1-cB Chimera of bacteriophage OBP gp146 central spike protein and a T4 gp5 beta-helix fragment G9IA38 G9IA38 1.9 X-RAY DIFFRACTION 496 1.0 1124849 (Pseudomonas phage OBP) 1124849 (Pseudomonas phage OBP) 145 145 6p2a-a1-m1-cA_6p2a-a1-m1-cC 6p2a-a1-m1-cB_6p2a-a1-m1-cC 6p2a-a2-m1-cD_6p2a-a2-m1-cE 6p2a-a2-m1-cD_6p2a-a2-m1-cF 6p2a-a2-m1-cE_6p2a-a2-m1-cF SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSKGNVTHEGNYNQLGNYTVQGNVGIQGAFSQFGGAGSVEGGWTIDNIRYLGHRHGGVQSGGSKTDTPSA SGDETKTVEGNGTILVKGNVTIIVEGNADITVKGDATTLVEGNQTNTVNGNLSWKVAGTVDWDVGGDWTEKMASMSSKGNVTHEGNYNQLGNYTVQGNVGIQGAFSQFGGAGSVEGGWTIDNIRYLGHRHGGVQSGGSKTDTPSA 6p2d-a1-m1-cA_6p2d-a1-m2-cA Structure of mouse ketohexokinase-C in complex with fructose and ADP P97328 P97328 1.794 X-RAY DIFFRACTION 95 1.0 10090 (Mus musculus) 10090 (Mus musculus) 296 296 EKQILCVGLVVLDIINVVDKYPEEDTDRRCLSQRWQRGGNASNSCTVLSLLGARCAFMGSLAPGHVADFLVADFRQRGVDVSQVTWQSQGDTPCSCCIVNNSNGSRTIILYDTNLPDVSAKDFEKVDLTRFKWIHIEGRNASEQVKMLQRIEEHNAKQPLPQKVRVSVEIEKPREELFQLFSYGEVVFVSKDVAKHLGFQSAVEALRGLYSRVKKGATLVCAWAEEGADALGPDGQLLHSDAFPPPRVVDTLGAGDTFNASVIFSLSKGNSMQEALRFGCQVAGKKCGLQGFDGIV EKQILCVGLVVLDIINVVDKYPEEDTDRRCLSQRWQRGGNASNSCTVLSLLGARCAFMGSLAPGHVADFLVADFRQRGVDVSQVTWQSQGDTPCSCCIVNNSNGSRTIILYDTNLPDVSAKDFEKVDLTRFKWIHIEGRNASEQVKMLQRIEEHNAKQPLPQKVRVSVEIEKPREELFQLFSYGEVVFVSKDVAKHLGFQSAVEALRGLYSRVKKGATLVCAWAEEGADALGPDGQLLHSDAFPPPRVVDTLGAGDTFNASVIFSLSKGNSMQEALRFGCQVAGKKCGLQGFDGIV 6p2i-a1-m1-cA_6p2i-a1-m1-cB Acyclic imino acid reductase (Bsp5) in complex with NADPH and D-Arg A0A1I4FUG4 A0A1I4FUG4 1.63 X-RAY DIFFRACTION 181 1.0 1761756 (Bacillus sp. 5mfcol3.1) 1761756 (Bacillus sp. 5mfcol3.1) 307 307 MKITYIDKPTYLPSWVINKINEYGDFEVFYDFPNEEEAINRLSSTDIAIVEWTSITKEMIEKISRLKYLITITTSYDYIDVNSLKDNEIMVSNCPQYSKQAVAEHVFALLFAVNRKILQADETCRKGLSHIYPPFLCSEIRDKTIGLIGIGQIGQTVAEIANAFQMKVIGLNKSKRNVKGIQQVDITELMKKSDIISLHIPRNADTEIILTEKLLSLMKPDAVLINTCRGNLIDEQALYSVLKQNRIRGAGLDDLTYYKDNPIIGLNNVVLTPGSAWYSYEAREKNMYELIENIESYLAQKPVNVIL MKITYIDKPTYLPSWVINKINEYGDFEVFYDFPNEEEAINRLSSTDIAIVEWTSITKEMIEKISRLKYLITITTSYDYIDVNSLKDNEIMVSNCPQYSKQAVAEHVFALLFAVNRKILQADETCRKGLSHIYPPFLCSEIRDKTIGLIGIGQIGQTVAEIANAFQMKVIGLNKSKRNVKGIQQVDITELMKKSDIISLHIPRNADTEIILTEKLLSLMKPDAVLINTCRGNLIDEQALYSVLKQNRIRGAGLDDLTYYKDNPIIGLNNVVLTPGSAWYSYEAREKNMYELIENIESYLAQKPVNVIL 6p2k-a1-m2-cA_6p2k-a1-m6-cB Crystal structure of AFV00434, an ancestral GH74 enzyme K4KQN2 K4KQN2 2.15 X-RAY DIFFRACTION 12 1.0 1117647 (Simiduia agarivorans SA1 = DSM 21679) 1117647 (Simiduia agarivorans SA1 = DSM 21679) 776 778 6p2k-a1-m3-cA_6p2k-a1-m1-cB 6p2k-a1-m5-cA_6p2k-a1-m4-cB TVWQPLNPGAGGQVQDVVADPNQANVVYMASDMEGVYKSTNNGESWQITGNLVNNRVFAVAVTPGNSNKIFVGTLYGLHISTNGSNSYALVPETENKSIASIAFKPGNANHIIAAPGWRDDDDFIGKFGETAAGPGQVFVSQNGGSSWQTVTFDSNSSTDRNVYSVVFDQSNANTVYLGSNKGVYKSTNGGLNWQRIAGPDDAVRPWNKGIALSPNGQVLYATYAEAKPDLRYNTNFLVYATRTSNINWQQVTGGLEGNRRYWYPEVDPRSTGNSHKVLLGAVKDRFGLYEGTFNWDNNGNLTNFYWEKIWDSYDGSWDIGWDYATPPNARFAHYTPVTGGWARGVWSTTNQTMYYASHNSGNNSYSWQNKYSTPTSQTVNWYGTEWPTYKGKGTESTYTYDVAVHENYVIQGQADNGLMESWDGGVSWSNMQHRRGGGFNLSDVQAVDIADAWGVPTVVAQATSGYGGGAHNGRLWAKRLNTHSPADQWVELAGGPNAKAGLPKGVLRDVAVSPANPAKVFMFSSNYGMYMVEDIGRALDYHDRGETLPVTQIYEGLDNSNDARIARKIAPHPTNEKVVFFSSTGGVQGVWRGEQQNDGSWTFAQVLASSGWDAEVEAWAYNGTVYLMSFAKGGGPGLTDGNNWQILLSTDEGQNWQKIFTPADAMAVRPTSNLVWWNSVGNRFKFTGKGGSAGAGNKIVMSYYDHDYQLGYGVFLGTIQSNGQVNWQDITDDLHFSGMTSSRFIKDAGQMYLYSTTPGAGLWRRSISGMNMDPA AATVWQPLNPGAGGQVQDVVADPNQANVVYMASDMEGVYKSTNNGESWQITGNLVNNRVFAVAVTPGNSNKIFVGTLYGLHISTNGSNSYALVPETENKSIASIAFKPGNANHIIAAPGWRDDDDFIGKFGETAAGPGQVFVSQNGGSSWQTVTFDSNSSTDRNVYSVVFDQSNANTVYLGSNKGVYKSTNGGLNWQRIAGPDDAVRPWNKGIALSPNGQVLYATYAEAKPDLRYNTNFLVYATRTSNINWQQVTGGLEGNRRYWYPEVDPRSTGNSHKVLLGAVKDRFGLYEGTFNWDNNGNLTNFYWEKIWDSYDGSWDIGWDYATPPNARFAHYTPVTGGWARGVWSTTNQTMYYASHNSGNNSYSWQNKYSTPTSQTVNWYGTEWPTYKGKGTESTYTYDVAVHENYVIQGQADNGLMESWDGGVSWSNMQHRRGGGFNLSDVQAVDIADAWGVPTVVAQATSGYGGGAHNGRLWAKRLNTHSPADQWVELAGGPNAKAGLPKGVLRDVAVSPANPAKVFMFSSNYGMYMVEDIGRALDYHDRGETLPVTQIYEGLDNSNDARIARKIAPHPTNEKVVFFSSTGGVQGVWRGEQQNDGSWTFAQVLASSGWDAEVEAWAYNGTVYLMSFAKGGGPGLTDGNNWQILLSTDEGQNWQKIFTPADAMAVRPTSNLVWWNSVGNRFKFTGKGGSAGAGNKIVMSYYDHDYQLGYGVFLGTIQSNGQVNWQDITDDLHFSGMTSSRFIKDAGQMYLYSTTPGAGLWRRSISGMNMDPA 6p2k-a1-m4-cB_6p2k-a1-m6-cB Crystal structure of AFV00434, an ancestral GH74 enzyme K4KQN2 K4KQN2 2.15 X-RAY DIFFRACTION 68 1.0 1117647 (Simiduia agarivorans SA1 = DSM 21679) 1117647 (Simiduia agarivorans SA1 = DSM 21679) 778 778 6p2k-a1-m1-cB_6p2k-a1-m4-cB 6p2k-a1-m1-cB_6p2k-a1-m6-cB 6p2k-a1-m2-cA_6p2k-a1-m3-cA 6p2k-a1-m2-cA_6p2k-a1-m5-cA 6p2k-a1-m3-cA_6p2k-a1-m5-cA AATVWQPLNPGAGGQVQDVVADPNQANVVYMASDMEGVYKSTNNGESWQITGNLVNNRVFAVAVTPGNSNKIFVGTLYGLHISTNGSNSYALVPETENKSIASIAFKPGNANHIIAAPGWRDDDDFIGKFGETAAGPGQVFVSQNGGSSWQTVTFDSNSSTDRNVYSVVFDQSNANTVYLGSNKGVYKSTNGGLNWQRIAGPDDAVRPWNKGIALSPNGQVLYATYAEAKPDLRYNTNFLVYATRTSNINWQQVTGGLEGNRRYWYPEVDPRSTGNSHKVLLGAVKDRFGLYEGTFNWDNNGNLTNFYWEKIWDSYDGSWDIGWDYATPPNARFAHYTPVTGGWARGVWSTTNQTMYYASHNSGNNSYSWQNKYSTPTSQTVNWYGTEWPTYKGKGTESTYTYDVAVHENYVIQGQADNGLMESWDGGVSWSNMQHRRGGGFNLSDVQAVDIADAWGVPTVVAQATSGYGGGAHNGRLWAKRLNTHSPADQWVELAGGPNAKAGLPKGVLRDVAVSPANPAKVFMFSSNYGMYMVEDIGRALDYHDRGETLPVTQIYEGLDNSNDARIARKIAPHPTNEKVVFFSSTGGVQGVWRGEQQNDGSWTFAQVLASSGWDAEVEAWAYNGTVYLMSFAKGGGPGLTDGNNWQILLSTDEGQNWQKIFTPADAMAVRPTSNLVWWNSVGNRFKFTGKGGSAGAGNKIVMSYYDHDYQLGYGVFLGTIQSNGQVNWQDITDDLHFSGMTSSRFIKDAGQMYLYSTTPGAGLWRRSISGMNMDPA AATVWQPLNPGAGGQVQDVVADPNQANVVYMASDMEGVYKSTNNGESWQITGNLVNNRVFAVAVTPGNSNKIFVGTLYGLHISTNGSNSYALVPETENKSIASIAFKPGNANHIIAAPGWRDDDDFIGKFGETAAGPGQVFVSQNGGSSWQTVTFDSNSSTDRNVYSVVFDQSNANTVYLGSNKGVYKSTNGGLNWQRIAGPDDAVRPWNKGIALSPNGQVLYATYAEAKPDLRYNTNFLVYATRTSNINWQQVTGGLEGNRRYWYPEVDPRSTGNSHKVLLGAVKDRFGLYEGTFNWDNNGNLTNFYWEKIWDSYDGSWDIGWDYATPPNARFAHYTPVTGGWARGVWSTTNQTMYYASHNSGNNSYSWQNKYSTPTSQTVNWYGTEWPTYKGKGTESTYTYDVAVHENYVIQGQADNGLMESWDGGVSWSNMQHRRGGGFNLSDVQAVDIADAWGVPTVVAQATSGYGGGAHNGRLWAKRLNTHSPADQWVELAGGPNAKAGLPKGVLRDVAVSPANPAKVFMFSSNYGMYMVEDIGRALDYHDRGETLPVTQIYEGLDNSNDARIARKIAPHPTNEKVVFFSSTGGVQGVWRGEQQNDGSWTFAQVLASSGWDAEVEAWAYNGTVYLMSFAKGGGPGLTDGNNWQILLSTDEGQNWQKIFTPADAMAVRPTSNLVWWNSVGNRFKFTGKGGSAGAGNKIVMSYYDHDYQLGYGVFLGTIQSNGQVNWQDITDDLHFSGMTSSRFIKDAGQMYLYSTTPGAGLWRRSISGMNMDPA 6p2p-a1-m1-cD_6p2p-a1-m1-cC Tetrameric structure of ACAT1 P35610 P35610 3.1 ELECTRON MICROSCOPY 97 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 407 408 6l47-a1-m1-cA_6l47-a1-m1-cB 6l48-a1-m1-cA_6l48-a1-m1-cB 6p2j-a1-m1-cA_6p2j-a1-m1-cB 6p2p-a1-m1-cB_6p2p-a1-m1-cA 6vum-a1-m1-cA_6vum-a1-m1-cB 6vum-a1-m1-cC_6vum-a1-m1-cD QGKIFIARRSLLDELLEVDHIRTIYHMFIALLILFILSTLVVDYIDEGRLVLEFSLLSYAFGKFPTVVWTWWIMFLSTFSVPYFLFQHWATGYSKSSHPLIRSLFHGFLFMIFQIGVLGFGPTYVVLAYTLPPASRFIIIFEQIRFVMKAHSFVRENVPRVLNSSSTVPIPTVNQYLYFLFAPTLIYRDSYPRNPTVRWGYVAMKFAQVFGCFFYVYYIFERLCAPLFRNIKQEPFSARVLVLCVFNSILPGVLILFLTFFAFLHCWLNAFAEMLRFGDRMFYKDWWNSTSYSNYYRTWNVVVHDWLYYYAYKDFLWFFSKRFKSAAMLAVFAVSAVVHEYALAVCLSFFYPVLFVLFMFFGMAFNFIVNDSRKKPIWNVLMWTSLFLGNGVLLCFYSQEWYARQHC EQGKIFIARRSLLDELLEVDHIRTIYHMFIALLILFILSTLVVDYIDEGRLVLEFSLLSYAFGKFPTVVWTWWIMFLSTFSVPYFLFQHWATGYSKSSHPLIRSLFHGFLFMIFQIGVLGFGPTYVVLAYTLPPASRFIIIFEQIRFVMKAHSFVRENVPRVLNSSTVPIPTVNQYLYFLFAPTLIYRDSYPRNPTVRWGYVAMKFAQVFGCFFYVYYIFERLCAPLFRNIKQEPFSARVLVLCVFNSILPGVLILFLTFFAFLHCWLNAFAEMLRFGDRMFYKDWWNSTSYSNYYRTWNVVVHDWLYYYAYKDFLWFFSKRFKSAAMLAVFAVSAVVHEYALAVCLSFFYPVLFVLFMFFGMAFNFIVNDSRKKPIWNVLMWTSLFLGNGVLLCFYSQEWYARQHCP 6p35-a2-m1-cA_6p35-a2-m2-cA 2.5 Angstrom structure of wild type Glyoxylate/Hydroxypyruvate reductase A from Escherichia Coli in complex with 2-keto arginine and NADP P75913 P75913 2.495 X-RAY DIFFRACTION 81 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 312 312 MDIIFYHPTFDTQWWIEALRKAIPQARVRAWKSGDNDSADYALVWHPPVEMLAGRDLKAVFALGAGVDSILSKLQAHPEMLNPSVPLFRLEDTGMGEQMQEYAVSQVLHWFRRFDDYRIQQNSSHWQPLPEYHREDFTIGILGAGVLGSKVAQSLQTWRFPLRCWSRTRKSWPGVQSFAGREELSAFLSQCRVLINLLPNTPETVGIINQQLLEKLPDGAYLLNLARGVHVVEDDLLAALDSGKVKGAMLDVFNREPLPPESPLWQHPRVTITPHVAAITRPAEAVEYISRTIAQLEKGEKVCGQVDRARGY MDIIFYHPTFDTQWWIEALRKAIPQARVRAWKSGDNDSADYALVWHPPVEMLAGRDLKAVFALGAGVDSILSKLQAHPEMLNPSVPLFRLEDTGMGEQMQEYAVSQVLHWFRRFDDYRIQQNSSHWQPLPEYHREDFTIGILGAGVLGSKVAQSLQTWRFPLRCWSRTRKSWPGVQSFAGREELSAFLSQCRVLINLLPNTPETVGIINQQLLEKLPDGAYLLNLARGVHVVEDDLLAALDSGKVKGAMLDVFNREPLPPESPLWQHPRVTITPHVAAITRPAEAVEYISRTIAQLEKGEKVCGQVDRARGY 6p3h-a2-m1-cB_6p3h-a2-m1-cD Crystal structure of LigU(K66M) bound to substrate Q0KJL4 Q0KJL4 1.62 X-RAY DIFFRACTION 115 1.0 164608 (Novosphingobium sp. KA1) 164608 (Novosphingobium sp. KA1) 351 351 6p3h-a1-m1-cA_6p3h-a1-m1-cC 6p3j-a1-m1-cB_6p3j-a1-m1-cA 6p3k-a1-m1-cA_6p3k-a1-m2-cA 6p3k-a2-m1-cB_6p3k-a2-m3-cB MDSAPCMWMRGGTSKGGYFLRADLPADTAARDAFLLAVMGSPDPRQIDGMGGADPLTSMVAVVSKSERPGIDVDYLFLQVFVDQAIVTDAQNCGNILAGVGPFAIERGLVAASGDETRVAIFMENTGQVAVATVRTPGGSVTYAGDAAIDGVPGTHAPIPTEFRDTAGSSCGALLPSGNAVDVVNGLPVTLIDNGMPCVVMKAADVGITGYEDRDSLDANAELKAKIEAIRLAVGELMNLGDVTEKSVPKMMLVAPPRDGGAVCVRSFIPHRAHATIGVLGAVSVATACLIPGSPAAEVAVVPEGARKTLSIEHPTGEMSCVLEVDDAGNVVSAALLRTARKLMDGVVFVL MDSAPCMWMRGGTSKGGYFLRADLPADTAARDAFLLAVMGSPDPRQIDGMGGADPLTSMVAVVSKSERPGIDVDYLFLQVFVDQAIVTDAQNCGNILAGVGPFAIERGLVAASGDETRVAIFMENTGQVAVATVRTPGGSVTYAGDAAIDGVPGTHAPIPTEFRDTAGSSCGALLPSGNAVDVVNGLPVTLIDNGMPCVVMKAADVGITGYEDRDSLDANAELKAKIEAIRLAVGELMNLGDVTEKSVPKMMLVAPPRDGGAVCVRSFIPHRAHATIGVLGAVSVATACLIPGSPAAEVAVVPEGARKTLSIEHPTGEMSCVLEVDDAGNVVSAALLRTARKLMDGVVFVL 6p3n-a1-m1-cA_6p3n-a1-m2-cA Tetrahydroprotoberberine N-methyltransferase in complex with S-adenosylmethionine 1.6 X-RAY DIFFRACTION 66 1.0 56853 (Glaucium flavum) 56853 (Glaucium flavum) 337 337 6p3m-a1-m1-cA_6p3m-a1-m2-cA 6p3o-a1-m1-cA_6p3o-a1-m2-cA ESIGEIMGKLMQGEIGDEELSKRIKEIFGKRLQWGYKPTHQQQLAFNLDFIKSLKEMDTYELPSAFLEAAFGKTIKQSGCYFKDETTTIDEAEEASHELYCERAQIKDGQTVLDIGCGQGGLVLHIAQKYKNCHVTGLTNSKAQKNYILMQAEKLQLSNVDVILADVTKHESDKTYDRILVIETIEHMKNIQLFMKKLSTWMTEDSLLFVDHICHKTFSHHFEAIDEDDWYSGFIFPKGCVTILSASALLYFQDDVTILDHWVVNGMHMARSVDAWRKKLDKNMELAREILLPGLGSKEAVNGVITHIRTFCMGGYEQFSYNNGEEWMVAQMLFKKK ESIGEIMGKLMQGEIGDEELSKRIKEIFGKRLQWGYKPTHQQQLAFNLDFIKSLKEMDTYELPSAFLEAAFGKTIKQSGCYFKDETTTIDEAEEASHELYCERAQIKDGQTVLDIGCGQGGLVLHIAQKYKNCHVTGLTNSKAQKNYILMQAEKLQLSNVDVILADVTKHESDKTYDRILVIETIEHMKNIQLFMKKLSTWMTEDSLLFVDHICHKTFSHHFEAIDEDDWYSGFIFPKGCVTILSASALLYFQDDVTILDHWVVNGMHMARSVDAWRKKLDKNMELAREILLPGLGSKEAVNGVITHIRTFCMGGYEQFSYNNGEEWMVAQMLFKKK 6p43-a1-m1-cA_6p43-a1-m1-cC Yeast cytochrome c peroxidase in complex with iso-1 cytochrome c (Y48K) P00431 P00431 1.913 X-RAY DIFFRACTION 26 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 294 294 TTPLVHVASVEKGRSYEDFQKVYNAIALKLREDDEYDNYIGYGPVLVRLAWHISGTWDKHDNTGGSYGGTYRFKKEFNDPSNAGLQNGFKFLEPIHKEFPWISSGDLFSLGGVTAVQEMQGPKIPWRCGRVDTPEDTTPDNGRLPDADKDAGYVRTFFQRLNMNDREVVALMGAHALGKTHLKNSGYEGPWGAANNVFTNEFYLNLLNEDWKLEKNDANNEQWDSKSGYMMLPTDYSLIQDPKYLSIVKEYANDQDKFFKDFSKAFEKLLENGITFPKDAPSPFIFKTLEEQGL TTPLVHVASVEKGRSYEDFQKVYNAIALKLREDDEYDNYIGYGPVLVRLAWHISGTWDKHDNTGGSYGGTYRFKKEFNDPSNAGLQNGFKFLEPIHKEFPWISSGDLFSLGGVTAVQEMQGPKIPWRCGRVDTPEDTTPDNGRLPDADKDAGYVRTFFQRLNMNDREVVALMGAHALGKTHLKNSGYEGPWGAANNVFTNEFYLNLLNEDWKLEKNDANNEQWDSKSGYMMLPTDYSLIQDPKYLSIVKEYANDQDKFFKDFSKAFEKLLENGITFPKDAPSPFIFKTLEEQGL 6p44-a1-m1-cA_6p44-a1-m1-cB Crystal Structure of Ketosteroid Isomerase D38N mutant from Mycobacterium hassiacum (mhKSI) bound to 3,4-dinitrophenol K5BJ73 K5BJ73 1.251 X-RAY DIFFRACTION 57 1.0 1122247 (Mycolicibacterium hassiacum DSM 44199) 1122247 (Mycolicibacterium hassiacum DSM 44199) 115 117 6p3l-a1-m1-cA_6p3l-a1-m1-cB STPQDNANTVHRYLEFVAKGQPDEIAALYADDATVENPVGSEVHIGRQAIRGFYGNLENVQSRTEVKTLRALGHEVAFYWTLSGMTMDIISVMTFNDDGRIKSMKAYWTPENITQ STPQDNANTVHRYLEFVAKGQPDEIAALYADDATVENPVGSEVHIGRQAIRGFYGNLENVQSRTEVKTLRALGHEVAFYWTLSIGGMTMDIISVMTFNDDGRIKSMKAYWTPENITQ 6p48-a1-m1-cA_6p48-a1-m1-cB Cryo-EM structure of calcium-bound TMEM16F in nanodisc with supplement of PIP2 in Cl1 Q6P9J9 Q6P9J9 3.2 ELECTRON MICROSCOPY 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 604 604 6p46-a1-m1-cA_6p46-a1-m1-cB 6p47-a1-m1-cA_6p47-a1-m1-cB 6p49-a1-m1-cA_6p49-a1-m1-cB RIDFILVTNEKQKRKRQAYESNLICLVFVKVHAVLCTYAEIMHFNPATRSRIVYFILSRVKYQVGINRLVSSGIYKAAFPLERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAVVGVACFLYGYLDQDNCTWSKEVCDPDIGGQILMCPQCDRLCPFWRLNITCESSKKLCIFDSFGTLIFAVFMGVWVTLFLEFWKRRQAELEYEWDTIRVTLCASAVFFWILLIIASVIGIIVYRLSVFIVFSLTPQMATSITASIISFIIIMILNTIYEKVAIMITNFELPRTQTDYENSLTMKMFLFQFVNYYSSCFYIAFFKGKFVGYPGDPVYLLGKYRSEECDPGGCLLELTTQLTIIMGGKAIWNNIQEVLLPWVMNLIGRYKRVSGSEKITPRWEQDYHLQPMGKLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKLTTQFRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSIPPYGDHTYYTMDGYINNTLSVFNITCRYRDFRNPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHIIYSVKFFISYAIPDVSK RIDFILVTNEKQKRKRQAYESNLICLVFVKVHAVLCTYAEIMHFNPATRSRIVYFILSRVKYQVGINRLVSSGIYKAAFPLERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAVVGVACFLYGYLDQDNCTWSKEVCDPDIGGQILMCPQCDRLCPFWRLNITCESSKKLCIFDSFGTLIFAVFMGVWVTLFLEFWKRRQAELEYEWDTIRVTLCASAVFFWILLIIASVIGIIVYRLSVFIVFSLTPQMATSITASIISFIIIMILNTIYEKVAIMITNFELPRTQTDYENSLTMKMFLFQFVNYYSSCFYIAFFKGKFVGYPGDPVYLLGKYRSEECDPGGCLLELTTQLTIIMGGKAIWNNIQEVLLPWVMNLIGRYKRVSGSEKITPRWEQDYHLQPMGKLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKLTTQFRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSIPPYGDHTYYTMDGYINNTLSVFNITCRYRDFRNPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHIIYSVKFFISYAIPDVSK 6p4u-a2-m1-cA_6p4u-a2-m2-cA The structure of condensation and adenylation domains of teixobactin-producing nonribosomal peptide synthetase Txo1 serine module in complex with Mg and AMP A0A0B5GUD2 A0A0B5GUD2 2.1 X-RAY DIFFRACTION 143 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 843 843 APLSFAQQRLWFIAQMSREASGAYHVPGGLRLRGELDEVALRAALDRIMARHEVLRTRFEWHEGEPVQCIDAEARFPLVRQELEGEAAELAHWQQVEARSPFDLGTGPLIRGRLLKLQEHVLLLTMHHIVSDGWSMSVLAHELGTLYRAYAQEVDPLPALPLQYADYALWQRRWLDGERQQRQLAYWQQQLAGAPALVSLPTDRPRPALQDYRGDSIELTFDAGLSQGLRALSQRHGTTLYMTVLAAWAALVARLAGQPEVVIGTPVANRQRAELEGLIGFFVNTLALRVDLGGEPSVAGLLAQVRERVLAAQSHQDLPFEQVVEALKPERSLSHSPVFQLMLSWESSLAPVRERSAQFDLSLHLHEAADGTVAGSLTYASALYERETVQRHAGYLKALLAGMVADDTQPVQRIGILGEAERHRLLVEWNDTAREHPRTVCVHELFEQQVERSPDAVALVYEGQQLSYRELDRQANRLARQLKALGVGPDERVAVCTERCLEMVVALLAVLKAGGAYVPLDPGYPAERLEYMLADSAPKVLLRQSGQTLEPGAGVAVLALDGEASQPWQAQPAQRLSRDDSGVQPHHLAYVIYTSGSTGRPKGVMVEHAGVVNRLLWMQRAYGLQPQEAVLQKTPFGFDVSVWEFFWPLAVGARLVMARPQGQQDPAYLVETIVGQDIGTLHFVPSMLQAFVDSEGVQRCRGVRRIVCSGEALPGALARRLRQQLPQVELHNLYGPTEATVDVTAWACDAAELPDNIPIGRPVDNTTMYVLDAHGQPVPTGVAGEIHIGGVQVARGYLGRPELTRERFVPDPYAGRPGARLYKTGDLGRWLLDGTLEYLGRND APLSFAQQRLWFIAQMSREASGAYHVPGGLRLRGELDEVALRAALDRIMARHEVLRTRFEWHEGEPVQCIDAEARFPLVRQELEGEAAELAHWQQVEARSPFDLGTGPLIRGRLLKLQEHVLLLTMHHIVSDGWSMSVLAHELGTLYRAYAQEVDPLPALPLQYADYALWQRRWLDGERQQRQLAYWQQQLAGAPALVSLPTDRPRPALQDYRGDSIELTFDAGLSQGLRALSQRHGTTLYMTVLAAWAALVARLAGQPEVVIGTPVANRQRAELEGLIGFFVNTLALRVDLGGEPSVAGLLAQVRERVLAAQSHQDLPFEQVVEALKPERSLSHSPVFQLMLSWESSLAPVRERSAQFDLSLHLHEAADGTVAGSLTYASALYERETVQRHAGYLKALLAGMVADDTQPVQRIGILGEAERHRLLVEWNDTAREHPRTVCVHELFEQQVERSPDAVALVYEGQQLSYRELDRQANRLARQLKALGVGPDERVAVCTERCLEMVVALLAVLKAGGAYVPLDPGYPAERLEYMLADSAPKVLLRQSGQTLEPGAGVAVLALDGEASQPWQAQPAQRLSRDDSGVQPHHLAYVIYTSGSTGRPKGVMVEHAGVVNRLLWMQRAYGLQPQEAVLQKTPFGFDVSVWEFFWPLAVGARLVMARPQGQQDPAYLVETIVGQDIGTLHFVPSMLQAFVDSEGVQRCRGVRRIVCSGEALPGALARRLRQQLPQVELHNLYGPTEATVDVTAWACDAAELPDNIPIGRPVDNTTMYVLDAHGQPVPTGVAGEIHIGGVQVARGYLGRPELTRERFVPDPYAGRPGARLYKTGDLGRWLLDGTLEYLGRND 6p4x-a9-m1-cD_6p4x-a9-m1-cF Crystal Structure of the S. cerevisiae glucokinase, Glk1 P17709 P17709 3.59 X-RAY DIFFRACTION 106 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 488 493 6p4x-a7-m1-cA_6p4x-a7-m1-cC 6p4x-a8-m1-cE_6p4x-a8-m1-cB 6pdt-a1-m1-cA_6pdt-a1-m1-cD DDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA MSFDDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPSDKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA 6p57-a2-m1-cB_6p57-a2-m2-cB Crystal Structure of the Beta Subunit of Luteinizing Hormone P04651 P04651 3.16 X-RAY DIFFRACTION 42 1.0 9913 (Bos taurus) 9913 (Bos taurus) 118 118 6p57-a1-m1-cA_6p57-a1-m3-cA SRGPLRPLCQPINATLAAEKEACPVCITFTTSICAGYCPSMKRVLPVILPPMPQRVCTYHELRFASVRLPGCPPGVDPMVSFPVALSCHCGPCRLSSTDCGGPRTQPLACDHPPLPDI SRGPLRPLCQPINATLAAEKEACPVCITFTTSICAGYCPSMKRVLPVILPPMPQRVCTYHELRFASVRLPGCPPGVDPMVSFPVALSCHCGPCRLSSTDCGGPRTQPLACDHPPLPDI 6p58-a1-m1-cA_6p58-a1-m1-cB Dark and Steady State-Illuminated Crystal Structure of Cyanobacteriochrome Receptor PixJ at 150K Q8DLC7 Q8DLC7 1.499 X-RAY DIFFRACTION 53 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 150 150 4glq-a2-m1-cA_4glq-a2-m2-cA 6pry-a1-m1-cA_6pry-a1-m1-cB 6upp-a1-m1-cA_6upp-a1-m1-cB SELRDRQAIFETLVAKGRELLACDRVIVYAFDDNYVGTVVAESVAEGWPQARDQVIEDPCFREHWVEAYRQGRIQATTDIFKAGLTECHLNQLRPLKVRANLVVPMVIDDQLFGLLIAHQASEPRQWQEIEIDQFSELASTGSLVLERLH SELRDRQAIFETLVAKGRELLACDRVIVYAFDDNYVGTVVAESVAEGWPQARDQVIEDPCFREHWVEAYRQGRIQATTDIFKAGLTECHLNQLRPLKVRANLVVPMVIDDQLFGLLIAHQASEPRQWQEIEIDQFSELASTGSLVLERLH 6p5q-a1-m1-cB_6p5q-a1-m1-cA X-ray structure of Fe(II)-soaked UndA bound to lauric acid Q4K8M0 Q4K8M0 1.86 X-RAY DIFFRACTION 43 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 239 252 TFSRGPLMEAASYPAWTQQLIQDCSESKRRVVEHELYQRMRDNKLSAKVMRQYLIGGWPVVEQFALYMAQNLTKTRFARHPGEDMARRWLMRNIRVELNHADYWVHWSRAHGVTLEDLQAQQVPPELHALSHWCWHTSSADSLIVAIAATNYAIEGATGEWSALVCSNGIYAAAFPEEDRKRAMKWLKMHAAHPWEALEIIVTLAGLNPTKALQAELRQAICKSYDYMYLFLERCMQQE DTFSRTGPLMEAASYPAWTQQLIQDCSESKRRVVEHELYQRMRDNKLSAKVMRQYLIGGWPVVEQFALYMAQNLTKTRFARHPGEDMARRWLMRNIRVELNHADYWVHWSRAHGVTLEDLQAQQVPPELHALSHWCWHTSSADSLIVAIAATNYAIEGATGEWSALVCSNGIYAAAFPEEDRKRAMKWLKMHADAHPWEALEIIVTLAGLNPTKALQAELRQAICKSYDYMYLFLERCMQQEKTAVTRERLA 6p65-a1-m1-cE_6p65-a1-m1-cB HIV Env 16055 NFL TD 2CC+ in complex with antibody 1C2 fragment antigen binding A1EAI1 A1EAI1 3.94 ELECTRON MICROSCOPY 63 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 557 557 6p65-a1-m1-cA_6p65-a1-m1-cB 6p65-a1-m1-cE_6p65-a1-m1-cA LWVTVYYGVPVWKDAETTLFCASDAKAATHACVPTDPNPQEMVLENVTENFNMWKNDMVEQMHTDVISLWDQSLKPCVKLTPLCVTLECRQVNTEEIKNCSFNATTELRDKKQKVYALFYRLDIVPLEEERKGNSSKYRLINCNTSACTQACPKVTFDPIPIHYCAPAGYAILKCNNKTFNGTGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEGEIIIRSENLTNNVKTIIVHLNESVEIVCTRPNNYTRKSIRIGPGQTFYATGDIIGNIRQAYCNISKDDWIRTLQRVGKKLAEHFPRRIINFTSPAGGDLEITTHSFNCRGEFFYCNTSSLFNSTYNPNDSLDITIPCRIKQIINMWQRVGQCMYAPPIEGNITCKSNITGLLLVRDSNETEIFRPGGGDMRNNWRSELYKYKVVEIKPLGIAPTRCKRGFLGAAGSTMGAASITLTVQARQLLSGILGVWGIKQLQTRVLAIERYLKDQQLLGIWGCSGKLICTTAVPWNSSWSNKSHDEIWGNMTWMQWDREIGNYTNTIYRLLEDSQNQQEQNEKDLLAC LWVTVYYGVPVWKDAETTLFCASDAKAATHACVPTDPNPQEMVLENVTENFNMWKNDMVEQMHTDVISLWDQSLKPCVKLTPLCVTLECRQVNTEEIKNCSFNATTELRDKKQKVYALFYRLDIVPLEEERKGNSSKYRLINCNTSACTQACPKVTFDPIPIHYCAPAGYAILKCNNKTFNGTGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEGEIIIRSENLTNNVKTIIVHLNESVEIVCTRPNNYTRKSIRIGPGQTFYATGDIIGNIRQAYCNISKDDWIRTLQRVGKKLAEHFPRRIINFTSPAGGDLEITTHSFNCRGEFFYCNTSSLFNSTYNPNDSLDITIPCRIKQIINMWQRVGQCMYAPPIEGNITCKSNITGLLLVRDSNETEIFRPGGGDMRNNWRSELYKYKVVEIKPLGIAPTRCKRGFLGAAGSTMGAASITLTVQARQLLSGILGVWGIKQLQTRVLAIERYLKDQQLLGIWGCSGKLICTTAVPWNSSWSNKSHDEIWGNMTWMQWDREIGNYTNTIYRLLEDSQNQQEQNEKDLLAC 6p73-a1-m1-cA_6p73-a1-m1-cB Cytochrome-C-nitrite reductase Q8EAC7 Q8EAC7 1.65 X-RAY DIFFRACTION 87 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 439 439 3ubr-a1-m1-cA_3ubr-a1-m1-cB SDKTEPRNEVYKDKFKNQYNSWHDTAKSEELVDALEQDPNMVILWAGYAFAKDYKAPRGHMYAVTDVRNTLRTGAPKNAEDGPLPMACWSCKSPDVPRLIEEQGEDGYFKGKWAKGGPEVTNTIGCSDCHEKGSPKLRISRPYVDRALDAIGTPFSKASKQDKESMVCAQCHVEYYFEKKEDKKGFVKFPWDMGVTVDQMEVYYDGIEFSDWTHALSKTPMLKAQHPEYETWKMGIHGKNNVSCVDCHMPKVTSPEGKKFTDHKVGNPFDRFEETCATCHSQTKEFLVGVTNERKAKVKEMKLKAEEQLVKAHFEAAKAWELGATEAEMKPILTDIRHAQWRWDLAIASHGVAAHAPEEALRVLGTSVNKAADARVKLAQLLAKKGLTDPVAIPDISTKAKAQAVLGMDMEKMNAEKEAFKKDMLPKWDAEAKKREATY SDKTEPRNEVYKDKFKNQYNSWHDTAKSEELVDALEQDPNMVILWAGYAFAKDYKAPRGHMYAVTDVRNTLRTGAPKNAEDGPLPMACWSCKSPDVPRLIEEQGEDGYFKGKWAKGGPEVTNTIGCSDCHEKGSPKLRISRPYVDRALDAIGTPFSKASKQDKESMVCAQCHVEYYFEKKEDKKGFVKFPWDMGVTVDQMEVYYDGIEFSDWTHALSKTPMLKAQHPEYETWKMGIHGKNNVSCVDCHMPKVTSPEGKKFTDHKVGNPFDRFEETCATCHSQTKEFLVGVTNERKAKVKEMKLKAEEQLVKAHFEAAKAWELGATEAEMKPILTDIRHAQWRWDLAIASHGVAAHAPEEALRVLGTSVNKAADARVKLAQLLAKKGLTDPVAIPDISTKAKAQAVLGMDMEKMNAEKEAFKKDMLPKWDAEAKKREATY 6p74-a1-m1-cA_6p74-a1-m2-cA OLD nuclease from Thermus Scotoductus E8PLM2 E8PLM2 2.2 X-RAY DIFFRACTION 216 1.0 37636 (Thermus scotoductus) 37636 (Thermus scotoductus) 512 512 MLKRLQVKNFRCLEDIDLPLGPLTAIVGPNGAGKTTILRAIDLVLGDVWPSLRSFRIPQDFINFDTTRAIEITVHFDPPYTQGSFNITAFRLTCKGEDADFHVDLEPLDEGGNVPRYPSGNPLRVGTDMRNHARVLFLDHRRPSIRGSILGRLLQPVRREFKLQDNFKQVYEQAMDLLRTEQVKQIEKTIAETAKQMLGFLGKDAMKSMEIGFGFADPANPFNSLRLQYREDELGLGIQSAIVVGIFEAFRQLGEKIGTVIIEEPEMYLHPQAQRYFYRLLCEMADKDQCQIIYSTHSPIFADVNRFEALRLVRKDRDDRVVVSYVREEDKSALDNVRNRFKLGGRFDTARNEVLFAKRALLVEGYGDRVAALQLFNQLEVDPDAECIAVVDCGGKAGIELIVGVCKALDIPFVVVHDEDVWPIDERADEETRRKQEQENKAEQEKNQRIQACAGAERVFVVQPSLEAALGIGRNASDKPYRIAEILKTVDVGQPPDALRPFVEAIRQVTRP MLKRLQVKNFRCLEDIDLPLGPLTAIVGPNGAGKTTILRAIDLVLGDVWPSLRSFRIPQDFINFDTTRAIEITVHFDPPYTQGSFNITAFRLTCKGEDADFHVDLEPLDEGGNVPRYPSGNPLRVGTDMRNHARVLFLDHRRPSIRGSILGRLLQPVRREFKLQDNFKQVYEQAMDLLRTEQVKQIEKTIAETAKQMLGFLGKDAMKSMEIGFGFADPANPFNSLRLQYREDELGLGIQSAIVVGIFEAFRQLGEKIGTVIIEEPEMYLHPQAQRYFYRLLCEMADKDQCQIIYSTHSPIFADVNRFEALRLVRKDRDDRVVVSYVREEDKSALDNVRNRFKLGGRFDTARNEVLFAKRALLVEGYGDRVAALQLFNQLEVDPDAECIAVVDCGGKAGIELIVGVCKALDIPFVVVHDEDVWPIDERADEETRRKQEQENKAEQEKNQRIQACAGAERVFVVQPSLEAALGIGRNASDKPYRIAEILKTVDVGQPPDALRPFVEAIRQVTRP 6p7a-a2-m2-cB_6p7a-a2-m1-cA CRYSTAL STRUCTURE OF THE FOWLPOX VIRUS HOLLIDAY JUNCTION RESOLVASE Q9J546 Q9J546 3.081 X-RAY DIFFRACTION 36 0.993 10261 (Fowlpox virus) 10261 (Fowlpox virus) 144 145 MIICSVDIGIKNPAYAIFNYDNTSNTIKLIAIEKSDWTKNWERSVARDLTRYNPDVVILEKQASPNSKIIYFIKGFFYNSNTKVIVRNPTGGSYRNRAAASIDVFIQKISEYTDYKNDILNKYTKLDDIANSFNLGLSYMESLL MIICSVDIGIKNPAYAIFNYDNTSNTIKLIAIEKSDWTKNWERSVARDLTRYNPDVVILEKQGFASPNSKIIYFIKGFFYNSNTKVIVRNPTGGSYRNRAAASIDVFIQKISEYTDYKNDILNKYTKLDDIANSFNLGLSYMESL 6p7b-a1-m1-cD_6p7b-a1-m1-cB Crystal structure of Fowlpox virus resolvase and substrate Holliday junction DNA complex Q9J546 Q9J546 3.317 X-RAY DIFFRACTION 36 1.0 10261 (Fowlpox virus) 10261 (Fowlpox virus) 146 148 6p7a-a1-m1-cB_6p7a-a1-m1-cA 6p7b-a1-m1-cC_6p7b-a1-m1-cA IICSVDIGIKNPAYAIFNYDNTSNTIKLIAIEKSDWTKNWERSVARDLTRYNPDVVILEKQGFKSPNSKIIYFIKGFFYNSNTKVIVRNPTFKGGSYRNRKKQSIDVFIQKISEYTDYKNDILNKYTKLDDIANSFNLGLSYMESL MIICSVDIGIKNPAYAIFNYDNTSNTIKLIAIEKSDWTKNWERSVARDLTRYNPDVVILEKQGFKSPNSKIIYFIKGFFYNSNTKVIVRNPTFKGGSYRNRKKQSIDVFIQKISEYTDYKNDILNKYTKLDDIANSFNLGLSYMESLL 6p7k-a1-m1-cA_6p7k-a1-m6-cA Structure of HMG-CoA reductase from Burkholderia cenocepacia 1.722 X-RAY DIFFRACTION 359 1.0 95486 (Burkholderia cenocepacia) 95486 (Burkholderia cenocepacia) 375 375 6p7k-a1-m2-cA_6p7k-a1-m5-cA 6p7k-a1-m3-cA_6p7k-a1-m4-cA MPIDSALPNFRSLTPEQRLSHLARVVGLDDAEHALLARPGALPLDTANGMIENVIGTFELPMAVTGYFRINDRDVIVPMAVEEPSIVAAASYMAKLSRAAGGFRTSSSGPLMRAQVQVVGVDDPYGARLAILRHAAELIALANSRDKVLVGLGGGCRDIEVHVFPDTPRGAMIVAHLIVDVRDAMGANTVNTMAETVATRIEAITGGQVRLRILSNLADLRLARAEVRYSAATLATDDYAGEAVIDRVIDAYVFAATDPYRAATHNKGIMNGIDPVVVATGNDWRAVEAGAHAYASRSGRYTSLTTWEKAANGDLVGTIEMPMPVGLVGGATKTHPLARLALKIMNVTSAQELGEIAVAVGLAQNLGALRALATE MPIDSALPNFRSLTPEQRLSHLARVVGLDDAEHALLARPGALPLDTANGMIENVIGTFELPMAVTGYFRINDRDVIVPMAVEEPSIVAAASYMAKLSRAAGGFRTSSSGPLMRAQVQVVGVDDPYGARLAILRHAAELIALANSRDKVLVGLGGGCRDIEVHVFPDTPRGAMIVAHLIVDVRDAMGANTVNTMAETVATRIEAITGGQVRLRILSNLADLRLARAEVRYSAATLATDDYAGEAVIDRVIDAYVFAATDPYRAATHNKGIMNGIDPVVVATGNDWRAVEAGAHAYASRSGRYTSLTTWEKAANGDLVGTIEMPMPVGLVGGATKTHPLARLALKIMNVTSAQELGEIAVAVGLAQNLGALRALATE 6p7k-a1-m3-cA_6p7k-a1-m6-cA Structure of HMG-CoA reductase from Burkholderia cenocepacia 1.722 X-RAY DIFFRACTION 82 1.0 95486 (Burkholderia cenocepacia) 95486 (Burkholderia cenocepacia) 375 375 6p7k-a1-m1-cA_6p7k-a1-m5-cA 6p7k-a1-m2-cA_6p7k-a1-m4-cA MPIDSALPNFRSLTPEQRLSHLARVVGLDDAEHALLARPGALPLDTANGMIENVIGTFELPMAVTGYFRINDRDVIVPMAVEEPSIVAAASYMAKLSRAAGGFRTSSSGPLMRAQVQVVGVDDPYGARLAILRHAAELIALANSRDKVLVGLGGGCRDIEVHVFPDTPRGAMIVAHLIVDVRDAMGANTVNTMAETVATRIEAITGGQVRLRILSNLADLRLARAEVRYSAATLATDDYAGEAVIDRVIDAYVFAATDPYRAATHNKGIMNGIDPVVVATGNDWRAVEAGAHAYASRSGRYTSLTTWEKAANGDLVGTIEMPMPVGLVGGATKTHPLARLALKIMNVTSAQELGEIAVAVGLAQNLGALRALATE MPIDSALPNFRSLTPEQRLSHLARVVGLDDAEHALLARPGALPLDTANGMIENVIGTFELPMAVTGYFRINDRDVIVPMAVEEPSIVAAASYMAKLSRAAGGFRTSSSGPLMRAQVQVVGVDDPYGARLAILRHAAELIALANSRDKVLVGLGGGCRDIEVHVFPDTPRGAMIVAHLIVDVRDAMGANTVNTMAETVATRIEAITGGQVRLRILSNLADLRLARAEVRYSAATLATDDYAGEAVIDRVIDAYVFAATDPYRAATHNKGIMNGIDPVVVATGNDWRAVEAGAHAYASRSGRYTSLTTWEKAANGDLVGTIEMPMPVGLVGGATKTHPLARLALKIMNVTSAQELGEIAVAVGLAQNLGALRALATE 6p7l-a2-m1-cF_6p7l-a2-m1-cB 1.8 Angstrom structure of Aln2 from Streptomyces sp. CM020 B6SEE8 B6SEE8 1.8 X-RAY DIFFRACTION 71 1.0 569580 (Streptomyces sp. CM020) 569580 (Streptomyces sp. CM020) 135 137 6p7l-a1-m1-cD_6p7l-a1-m1-cA 6p7l-a1-m1-cD_6p7l-a1-m1-cE 6p7l-a1-m1-cE_6p7l-a1-m1-cA 6p7l-a2-m1-cB_6p7l-a2-m1-cC 6p7l-a2-m1-cF_6p7l-a2-m1-cC KLPSPELYVEVTQFYARQMHRMDGDDFGGFAATFVAGAEFRLTVLTGPEAIEAGARAAAGRFDGAQPRHWFDMMTVEEADDGTVSTSYYATVTVTSAQGAVLVEPTCFVRDTLVRVSGVLRSRSRVIERDDLVVR KLPSPELYVEVTQFYARQMHRMDGDDFGGFAATFVAGAEFRLTVLTGPEAIEAGARAAAGRFDGAQPRHWFDMMTVEEADDGTVSTSYYATVTVTSAQGAVLVEPTCFVRDTLVRVSGVLRSRSRVIERDDLVVRAR 6p7u-a2-m1-cC_6p7u-a2-m1-cD CRYSTAL STRUCTURE OF THE CARBOXYLTRANSFERASE SUBUNIT OF ACC (ACCD6) IN COMPLEX WITH INHIBITOR QUIZALOFOP-P FROM MYCOBACTERIUM TUBERCULOSIS P9WQH5 P9WQH5 2.198 X-RAY DIFFRACTION 176 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 410 428 4fb8-a1-m1-cB_4fb8-a1-m1-cA 4g2r-a1-m1-cA_4g2r-a1-m1-cB 6p7u-a1-m1-cB_6p7u-a1-m1-cA 6pk2-a1-m1-cB_6pk2-a1-m1-cA 6pk2-a2-m1-cC_6pk2-a2-m1-cD 6pk2-a3-m1-cF_6pk2-a3-m1-cE 6pk2-a4-m1-cG_6pk2-a4-m1-cH 6prw-a1-m1-cB_6prw-a1-m1-cA 6prw-a2-m1-cC_6prw-a2-m1-cD 6prw-a3-m1-cF_6prw-a3-m1-cE 6prw-a4-m1-cG_6prw-a4-m1-cH 6tzv-a1-m1-cB_6tzv-a1-m1-cA 6tzv-a2-m1-cC_6tzv-a2-m1-cD 6tzv-a3-m1-cF_6tzv-a3-m1-cE 6tzv-a4-m1-cG_6tzv-a4-m1-cH LDPRDPLLRLSNFFDDGSVELLHERDRSGVLAAAGTVNGVRTIAFCTDGTVMGGAMGVEGCTHIVNAYDTAIEDQSPIVGIWHSGGARLAEGVRALHAVGQVFEAMIRASGYIPQISVVVGFAAGGAAYGPALTDVVVMAPESSGVCHIVADDELDAYDRGRRLVGLFCQQGHFDRSKAEAGDTDIHALLPESSRRAYDVRPIVTAILDADTPFDEFQANWAPSMVVGLGRLSGRTVGVLANNPLRLGGCLNSESAEKAARFVRLCDAFGIPLVVVVDVPGYLPGVDQEWGGVVRRGAKLLHAFGECTVPRVTLVTRKTYGGAYIAMNSRSLNATKVFAWPDAEVAVMGAKAAVGILHKKKLAQLAAEHERIAGGVDSALDIGVVDEKIDPAHTRSKLTEALAQAPARRG LDPRDPLLRLSNFFDDGSVELLHERDRSGVLAAAGTVNGVRTIAFCTDGTVMGGAMGVEGCTHIVNAYDTAIEDQSPIVGIWHSGGARLAEGVRALHAVGQVFEAMIRASGYIPQISVVVGFAAGGAAYGPALTDVVVMAPESRVFVTGSGVCHIVADDELDAYDRGRRLVGLFCQQGHFDRSKAEAGDTDIHALLPESSRRAYDVRPIVTAILDADTPFDEFQANWAPSMVVGLGRLSGRTVGVLANNPLRLGGCLNSESAEKAARFVRLCDAFGIPLVVVVDVPGYLPGVDQEWGGVVRRGAKLLHAFGECTVPRVTLVTRKTYGGAYIAMNSRSLNATKVFAWPDAEVAVMGAKAAVGILHKKKLAAAPEHEREALHDQLAAEHERIAGGVDSALDIGVVDEKIDPAHTRSKLTEALAQAPARRG 6p7x-a1-m1-cA_6p7x-a1-m1-cB Structure of the K. lactis CBF3 core - Ndc10 D1D2 complex Q6CRD4 Q6CRD4 4.3 ELECTRON MICROSCOPY 91 0.996 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 459 476 6p7v-a1-m1-cA_6p7v-a1-m1-cB 6p7w-a1-m1-cA_6p7w-a1-m1-cB NLYDKKLFNIWNQYERLWIHDAFPLDVSEYNNTKDFYGYECLFSKESIFKILDHSLERLGWLYFGFFTDISELPYQMERYWNEYESMNKSADQILWDLVLRSVIVMTIYYMPAKSILSLVDIDAIEKYPLDFELKKKYEIFDYCLRHTLNKVLRTIFTLPPDVRTLQIFLILSNTNFLQIYPSLGNNILVHCIHLAKVLGIKDFKLKINDSGSTRLQKLSMHNIWFRLSTVDYMRSSPNKIIALHTDNSNLEVLRWKITSLDRDLEVSEPSLKTLKAMKELLGLLDRKTSVSNDASFNTKFESFFLKLQCNFVMWKILRYEFMQYGVTNGLQKLCCPARRIIALVANFLKEDYFEYTTHPFCVHILCVIAGFFSFYCIFHEADEVRDLRNDAVGLLKLLFDPLRPVISCFFSNLSRLEELRHIWKSLVHPVMYVLKTDIIKLKRNLESSDFLEVVREFN NLYDKKLFNIWNQYERLWIHDAFPLDVSEYNNTKDFYGYECLFSKESIFKILDHSLERLGWLYFGFFTDISELPYQMERYWNEYESMNKSADQILWDLVLRSVIVMTIYYMPAKSILSLVDIDAIEKYPLELKKKYEIFDYCLRHTLNKVLRTIFTLPPDVRTLQIFLILSNTNFLQIYPSLGNNILVHCIHLAKVLGIKDFKLKINDSGSTRLQKLSMHNIWFRLSTVDYMRSSPNKIIALHTDNSSALTRKTLIDSIDVYDVESNLEVLRWKITSLDRDLEVSEPSLKTLKAMKELLGLLDRKTSVSNDASFNTKFESFFLKLQCNFVMWKILRYEFMQYGVTNGLQKLCCPARRIIALVANFLKEDYFEYTTHPFCVHILCVIAGFFSFYCIFHEADEVRDLRNDAVGLLKLLFDPLRPVISCFFSNLSRLEELRHIWKSLVHPVMYVLKTDIIKLKRNLESSDFLEVVREFN 6p8c-a1-m1-cA_6p8c-a1-m1-cB 2,5-diamino-6-(ribosylamino)-4(3H)-pyrimidinone 5'-phosphate reductase (MthRED) from Methanothermobacter thermautotrophicus O26337 O26337 2.07 X-RAY DIFFRACTION 180 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 216 216 MRPYVILNAAMTLDGKIATATGSSEISGEEDLRRVHELRRECDAIMVGINTVLADDPRLTVHRVDAAPGDNPVRVVVDSMARTPPHFRVLNDEAPTVIGVSESAPPERVAELRKRAEVVVAGTRRVDLHLLLERLHGMGIERLMLEGGSTLNYSMLTGGLVDEVRVCIAPMIVGGRDARTLVDGEGIDEMADAIRLELKRSYTLGEDLIVEYTVKG MRPYVILNAAMTLDGKIATATGSSEISGEEDLRRVHELRRECDAIMVGINTVLADDPRLTVHRVDAAPGDNPVRVVVDSMARTPPHFRVLNDEAPTVIGVSESAPPERVAELRKRAEVVVAGTRRVDLHLLLERLHGMGIERLMLEGGSTLNYSMLTGGLVDEVRVCIAPMIVGGRDARTLVDGEGIDEMADAIRLELKRSYTLGEDLIVEYTVKG 6p8p-a2-m1-cB_6p8p-a2-m2-cD Structure of P. aeruginosa ATCC27853 HORMA1 P0DTF5 P0DTF5 1.635 X-RAY DIFFRACTION 49 0.992 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 130 130 6p8p-a1-m2-cC_6p8p-a1-m1-cA TVVSRTFRSSPHRDALQTWDAIVELLTQGKDGTARSELRAVTGVAASLIADQAPKSAPIVATCDGPRTRIYCLFDEDAIDGDDANEEVLGFEPLKGDWGMSLPCPKEQLGWVQSALKKHSSRIIARDLSQ TTVVSRTFRSSPHRDALQTWDAIVELLTQGKDGTARSELRAVTGVAASLIADQAPKSAPIVATCDGPRTRIYCLFDEDAIDGDDANEEVLGFEPLKGDWGMSLPCPKEQLGWVQSALKKHSSRIIARDLS 6p8t-a2-m1-cF_6p8t-a2-m1-cE Acinetobacter baumannii tRNA synthetase in complex with compound 1 D0CA71 D0CA71 3.15 X-RAY DIFFRACTION 74 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 463 793 6p8t-a1-m1-cB_6p8t-a1-m1-cA MKISENWLRTWVNPAIDSDTLSDQLTMLGLEVDELASVAKPDNVIDISITPNRGDCFSIRGIAREVAVINQPKREAIELKQAQVDQLLGYKVAAEFITDALTRLGCEVTVQANGEWSVVPPSHRYDMAIYQDLIEEVARIDGYDNIQISLPSMDVQLAKYQDRFEIAQLRQTVATLGYQEAISFSFADAKLEKQLNPQVSPLMLANPISSDLAAMRSTLLSSLIPCVQYNLNRQQSRVRFFELGLRFDYQNANSIQDLKQIPTLALVAVGSREPESWHAKPQPMDFFDFKGEVEEILAAGRVKVEYVRSERPWLHPGQSAEILVDGQSIGYLGRLHPSLENELDLSTTWVAELDQAAVLQSYVSNFTELSRFPSVRRDIALLISDNINVRDIQQLIEKTGGELLDSTWLFDVYTGQGVEEGKRSLAFALLWQHPSRTLEDAEIKSGMDNIIQVLENTYQATLR MKISENWLRTWVNPAIDSDTLSDQLTMLGLEVDELASVAKPFTGVVVGEVLTVEQHPDADRLRVTTVNIGSGEPLQIVCGAPNVRAGMKAPVATIGAVLPGDFKIKKGKLRGVESQGMLCGASEIDLEDKIDGLLELPADAPVGVNIREYLKLDDNVIDISITPNRGDCFSIRGIAREVAVINQLQMNEPEIKSVDATITDEKKVVINTDGAPRYLGRVIKNVNVKAATPEWMEQALARSGIRTHSILVDVTNYVLMELGQPMHAFDLAKIEGTVHVRQAKPQEKLQLLNDQEVELQEDVMVIADDQKALAIAGIMGGLASSVTDDTTDIFLESAFFAPLAIAGRARRFGLHTDSSQRYERGVDFELPVIAMNRASQLIQELAGGEFGPITVAEKSDLLPKREAIELKQAQVDQLLGYKVAAEFITDALTRLGCEVTVQANGEWSVVPPSHRYDMAIYQDLIEEVARIDGYDNIQISLPSMDVQLAKYQDRFEIAQLRQTVATLGYQEAISFSFADAKLEKQLNPQVSPLMLANPISSDLAAMRSTLLSSLIPCVQYNLNRQQSRVRFFELGLRFDYQNANSIQDLKQIPTLALVAVGSREPESWHAKPQPMDFFDFKGEVEEILAAGRVKVEYVRSERPWLHPGQSAEILVDGQSIGYLGRLHPSLENELDLSTTWVAELDQAAVLQSYVSNFTELSRFPSVRRDIALLISDNINVRDIQQLIEKTGGELLDSTWLFDVYTGQGVEEGKRSLAFALLWQHPSRTLEDAEIKSGMDNIIQVLENTYQATLRAS 6p8v-a1-m1-cB_6p8v-a1-m1-cC Structure of E. coli MS115-1 HORMA:CdnC:Trip13 complex D7Y2H4 D7Y2H4 2.64 X-RAY DIFFRACTION 135 1.0 749537 (Escherichia coli MS 115-1) 749537 (Escherichia coli MS 115-1) 298 299 6p8v-a1-m1-cA_6p8v-a1-m1-cB 6p8v-a1-m1-cC_6p8v-a1-m1-cD 6p8v-a1-m1-cE_6p8v-a1-m1-cD VKPSLDELFERRINFPDFEPQERLARLVGLDEHKDRLSKILGLLVNPYGIQEWAKKYHPDARAAVDTVLRRPPLVVLAGDVGSGKTELAETIGDAVARQEDIDITLYPLSLATRGQGRVGETQLVSAAFDYTIEAADKLKKARGAVLLLIDQADALAQSRENAQHHEDRAGVNAFIRGIDRIANQKLPAAVLCTNRLKALDPAVQRRAAEILTFSRPNDEQRHYLLHSKLTGLGLNSTAVEELVRLTGPRDPNSPGFTFSDITQRLIPSIILAAYPYNAVSVHSALQVVNKTPTPAFI VKPSLDELFERRINFPDFEPQERLARLVGLDEHKDRLSKILGLLVNPYGIQEWAKKYHPDARAAVDTVLRRPPLVVLAGDVGSGKTELAETIGDAVARQEDIDITLYPLSLATRGQGRVGETQLVSAAFDYTIEAADKLKKARGAVLLLIDQADALAQSRENAQHHEDRAGVNAFIRGIDRIANQKLPAAVLCTNRLKALDPAVQRRAAEILTFSRPNDEQRHYLLHSKLTGLGLNSTAVEELVRLTGPRDPNSPGFTFSDITQRLIPSIILAAYPYNAVSVHSALQVVNKTPTPAFID 6p8v-a1-m1-cF_6p8v-a1-m1-cA Structure of E. coli MS115-1 HORMA:CdnC:Trip13 complex D7Y2H4 D7Y2H4 2.64 X-RAY DIFFRACTION 51 0.993 749537 (Escherichia coli MS 115-1) 749537 (Escherichia coli MS 115-1) 267 295 SLDELFERRINFPDFEPQERLARLVGLDEHKDRLSKILGLLVNPYGIQEWAKKYHPDARAAVDTVLRRPPLVVLAGDVGSGKTELAETIGDAVARQEDIDITLYPLSLTQLVSAAFDYTIEAADKLKNAVLLLIDQADRAGVNAFIRGIDRIANQKLPAAVLCTNRLKALDPAVQRRAAEILTFSRPNDEQRHYLLHSKLTGLGLNSTAVEELVRLTGPRDPNSPGFTFSDITQRLIPSIILAAYPYNAVSVHSALQVVNKTPTPAF VKPSLDELFERRINFPDFEPQERLARLVGLDEHKDRLSKILGLLVNPYGIQEWAKKYHPDARAAVDTVLRRPPLVVLAGDVGSGKTELAETIGDAVARQEDIDITLYPLSLATRGQGRVGETQLVSAAFDYTIEAADKLRGAVLLLIDQADALAQSRENAQHHEDRAGVNAFIRGIDRIANQKLPAAVLCTNRLKALDPAVQRRAAEILTFSRPNDEQRHYLLHSKLTGLGLNSTAVEELVRLTGPRDPNSPGFTFSDITQRLIPSIILAAYPYNAVSVHSALQVVNKTPTPAFI 6p8v-a1-m1-cF_6p8v-a1-m1-cE Structure of E. coli MS115-1 HORMA:CdnC:Trip13 complex D7Y2H4 D7Y2H4 2.64 X-RAY DIFFRACTION 49 1.0 749537 (Escherichia coli MS 115-1) 749537 (Escherichia coli MS 115-1) 267 294 SLDELFERRINFPDFEPQERLARLVGLDEHKDRLSKILGLLVNPYGIQEWAKKYHPDARAAVDTVLRRPPLVVLAGDVGSGKTELAETIGDAVARQEDIDITLYPLSLTQLVSAAFDYTIEAADKLKNAVLLLIDQADRAGVNAFIRGIDRIANQKLPAAVLCTNRLKALDPAVQRRAAEILTFSRPNDEQRHYLLHSKLTGLGLNSTAVEELVRLTGPRDPNSPGFTFSDITQRLIPSIILAAYPYNAVSVHSALQVVNKTPTPAF PSLDELFERRINFPDFEPQERLARLVGLDEHKDRLSKILGLLVNPYGIQEWAKKYHPDARAAVDTVLRRPPLVVLAGDVGSGKTELAETIGDAVARQEDIDITLYPLSLATQGRVGETQLVSAAFDYTIEAADKLKNKARGAVLLLIDQADALAQSRENAQHHEDRAGVNAFIRGIDRIANQKLPAAVLCTNRLKALDPAVQRRAAEILTFSRPNDEQRHYLLHSKLTGLGLNSTAVEELVRLTGPRDPNSPGFTFSDITQRLIPSIILAAYPYNAVSVHSALQVVNKTPTPAF 6p94-a1-m1-cB_6p94-a1-m1-cA Human APE1 C65A AP-endonuclease product complex P27695 P27695 2.09 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 267 276 6p93-a1-m1-cB_6p93-a1-m1-cA ALYEDPPDQKTSPSGKPATLKIASWNVDGLRAWIKKKGLDWVKEEAPDILCLQETKCSENKLPAELQELPGLSHQYWSAPSYSGVGLLSRQCPLKVSYGIGDEGRVIVAEFDSFVLVTAYVPNAGRGLVRLEYRQRWDEAFRKFLKGLASRKPLVLCGDLNVAHEEIDLRNPKGNKKNAGFTPQERQGFGELLQAVPLADSFRHLYPNTPYAYTFWTYMMNARSKNVGWRLDYFLLSHSLLPALCDSKIRSKALGSDHCPITLYLAL ALYEDPPDQKTSPSGKPATLKIASWNVDGLRAWIKKKGLDWVKEEAPDILCLQETKCSENKLPAELQELPGLSHQYWSAPSDKEGYSGVGLLSRQCPLKVSYGIGDEEHDQEGRVIVAEFDSFVLVTAYVPNAGRGLVRLEYRQRWDEAFRKFLKGLASRKPLVLCGDLNVAHEEIDLRNPKGNKKNAGFTPQERQGFGELLQAVPLADSFRHLYPNTPYAYTFWTYMMNARSKNVGWRLDYFLLSHSLLPALCDSKIRSKALGSDHCPITLYLAL 6p95-a1-m1-cb_6p95-a1-m1-cc Structure of Lassa virus glycoprotein in complex with Fab 25.6A P08669 P08669 3.5 X-RAY DIFFRACTION 31 0.993 11622 (Lassa virus Josiah) 11622 (Lassa virus Josiah) 145 152 7tyv-a1-m1-ca_7tyv-a1-m1-cb 7tyv-a1-m1-ca_7tyv-a1-m1-cc 7tyv-a1-m1-cb_7tyv-a1-m1-cc TFTWTLPGGYCLTRWMLIEAELKCFGNTAVAKCNEKHDEEFCDMLRLFDFNKQAIQRLKAPSIQLINKAVNALINDQLIMKNHLRDIMCIPYCNYSKYWYLNHTTTGRTSLPKCWLVSNGSYLNETHFSDDIEQQADNMITEMLQ FTWTLSKDTPGGYCLTRWMLIEAELKCFGNTAVAKCNEKHDEEFCDMLRLFDFNKQAIQRLKAPSIQLINKAVNALINDQLIMKNHLRDIMCIPYCNYSKYWYLNHTTTGRTSLPKCWLVSNGSYLNETHFSDDIEQQADNMITEMLQKEYM 6p9a-a1-m1-cA_6p9a-a1-m1-cB HIV-1 Protease multiple mutant PRS5B with Darunavir P03367 P03367 1.66 X-RAY DIFFRACTION 148 1.0 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 11686 (Human immunodeficiency virus type 1 (BRU ISOLATE)) 99 99 6p9b-a1-m1-cA_6p9b-a1-m1-cB PQITLWKRPIITIKIGGQLKDVLMDTGADDTVLENIDLPGKWKPKLIGGIGGFVKVRQYDHVPVEVAGHKVTTTVLVGPTPVDVIGRNLLTQIGATLNF PQITLWKRPIITIKIGGQLKDVLMDTGADDTVLENIDLPGKWKPKLIGGIGGFVKVRQYDHVPVEVAGHKVTTTVLVGPTPVDVIGRNLLTQIGATLNF 6p9k-a1-m1-cA_6p9k-a1-m2-cA Crystal structure of Mycobacterium tuberculosis KasA in complex with O6G P9WQD9 P9WQD9 1.703 X-RAY DIFFRACTION 241 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 414 414 2wgd-a1-m1-cA_2wgd-a1-m2-cA 2wge-a1-m1-cA_2wge-a1-m2-cA 2wgf-a1-m1-cA_2wgf-a1-m1-cB 2wgf-a2-m1-cC_2wgf-a2-m1-cD 2wgf-a3-m1-cE_2wgf-a3-m1-cF 2wgf-a4-m1-cG_2wgf-a4-m1-cH 2wgg-a1-m1-cA_2wgg-a1-m1-cB 2wgg-a2-m1-cC_2wgg-a2-m1-cD 2wgg-a3-m1-cE_2wgg-a3-m1-cF 2wgg-a4-m1-cG_2wgg-a4-m1-cH 4c6u-a1-m1-cA_4c6u-a1-m2-cA 4c6v-a1-m1-cA_4c6v-a1-m2-cA 4c6w-a1-m1-cA_4c6w-a1-m1-cB 4c6x-a1-m1-cA_4c6x-a1-m1-cB 4c6z-a1-m1-cA_4c6z-a1-m1-cB 4c70-a1-m1-cB_4c70-a1-m1-cA 4c71-a1-m1-cA_4c71-a1-m1-cB 4c72-a1-m1-cA_4c72-a1-m1-cB 4c73-a1-m1-cA_4c73-a1-m1-cB 5ld8-a1-m1-cA_5ld8-a1-m1-cB 5w2o-a1-m1-cA_5w2o-a1-m2-cA 5w2p-a1-m1-cA_5w2p-a1-m2-cA 5w2q-a1-m1-cA_5w2q-a1-m2-cA 5w2s-a1-m1-cA_5w2s-a1-m2-cA 6p9l-a1-m1-cA_6p9l-a1-m2-cA 6p9m-a1-m1-cA_6p9m-a1-m2-cA 6y2i-a1-m1-cAAA_6y2i-a1-m1-cBBB 6y2j-a1-m1-cAAA_6y2j-a1-m1-cBBB 6y2j-a2-m1-cDDD_6y2j-a2-m1-cCCC 6y2j-a3-m1-cEEE_6y2j-a3-m1-cFFF 6y2j-a4-m1-cGGG_6y2j-a4-m1-cHHH QPSTANGGFPSVVVTAVTATTSISPDIESTWKGLLAGESGIHALEDEFVTKWDLAVKIGGHLKDPVDSHMGRLDMRRMSYVQRMGKLLGGQLWESAGSPEVDPDRFAVVVGTGLGGAERIVESYDLMNAGGPRKVSPLAVQMIMPNGAAAVIGLQLGARAGVMTPVSACSSGSEAIAHAWRQIVMGDADVAVCGGVEGPIEALPIAAFSMMRAMSTRNDEPERASRPFDKDRDGFVFGEAGALMLIETEEHAKARGAKPLARLLGAGITSDAFHMVAPAADGVRAGRAMTRSLELAGLSPADIDHVNAHGTATPIGDAAEANAIRVAGCDQAAVYAPKSALGHSIGAVGALESVLTVLTLRDGVIPPTLNYETPDPEIDLDVVAGEPRYGDYRYAVNNSFGFGGHNVALAFGRY QPSTANGGFPSVVVTAVTATTSISPDIESTWKGLLAGESGIHALEDEFVTKWDLAVKIGGHLKDPVDSHMGRLDMRRMSYVQRMGKLLGGQLWESAGSPEVDPDRFAVVVGTGLGGAERIVESYDLMNAGGPRKVSPLAVQMIMPNGAAAVIGLQLGARAGVMTPVSACSSGSEAIAHAWRQIVMGDADVAVCGGVEGPIEALPIAAFSMMRAMSTRNDEPERASRPFDKDRDGFVFGEAGALMLIETEEHAKARGAKPLARLLGAGITSDAFHMVAPAADGVRAGRAMTRSLELAGLSPADIDHVNAHGTATPIGDAAEANAIRVAGCDQAAVYAPKSALGHSIGAVGALESVLTVLTLRDGVIPPTLNYETPDPEIDLDVVAGEPRYGDYRYAVNNSFGFGGHNVALAFGRY 6p9u-a4-m5-cH_6p9u-a4-m1-cH Crystal structure of human thrombin mutant W215A P00734 P00734 3.3 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 248 6p9u-a2-m3-cD_6p9u-a2-m1-cD 6p9u-a3-m4-cF_6p9u-a3-m1-cF IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSAGEGCKYGFYTHVFRLKKWIQKVIDQFGEYLE IVEGSDAEIGMSPWQVMLFRKSPQELLCGASLISDRWVLTAAHCLLYPPWDKNFTENDLLVRIGKHSRTRYERNIEKISMLEKIYIHPRYNWRENLDRDIALMKLKKPVAFSDYIHPVCLPDRETAASLLQAGYKGRVTGWGNKGQPSVLQVVNLPIVERPVCKDSTRIRITDNMFCAGYKPDEGKRGDACEGDSGGPFVMKSPFNNRWYQMGIVSAGEGCKYGFYTHVFRLKKWIQKVIDQFGEYLE 6paj-a1-m1-cA_6paj-a1-m1-cB Structure of the SrrAB Histidine Kinase DHp-CA domain Q9L523 Q9L523 2 X-RAY DIFFRACTION 80 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 199 203 LDQMKKDFIANVSHELRTPISLLQGYTESIVDGIVTEPDEIKESLAIVLDESKRLNRLVNELLNVARMDAEGLSVNKEVQPIAALLDKMKIKYRQQADDLGLNMTFNYCKKRVWSYDMDRMDQVLTNLIDNASRYTKPGDEIAITCDENESEDILYIKDTGGLGLFICKMIIEEHGGSIDVKSELGKGTTFIIKLPKPE NLDQMKKDFIANVSHELRTPISLLQGYTESIVDGIVTEPDEIKESLAIVLDESKRLNRLVNELLNVARMDAEGLSVNKEVQPIAALLDKMKIKYRQQADDLGLNMTFNYCKKRVWSYDMDRMDQVLTNLIDNASRYTKPGDEIAITCDENESEDILYIKDTGQGTGLGLFICKMIIEEHGGSIDVKSELGKGTTFIIKLPKPE 6pal-a1-m1-cB_6pal-a1-m1-cA Bacteroides uniformis endo-laminarinase BuGH158 from the beta(1,3)-glucan utilization locus A0A412SRH5 A0A412SRH5 1.818 X-RAY DIFFRACTION 91 1.0 820 (Bacteroides uniformis) 820 (Bacteroides uniformis) 399 404 GIVIEKAGYKLSIDGRETYIKGVGGTYRLDIAAQSGANAFRTWGGNVEEIKKNLALASEHNMYVMQGIGMTKDSIRYYDDEYKNKMREEVRLLAETFKNDTSLLAWGIGNEIELGNANIAAAWNFVEELAQLIKSIDKRHLVSTVISYNPSALDSVAKYAPSLDYVGINVYGPMGEVQAVVDRSDYKGAFMITEWGPTGWWETASTEWKAPIEQTSEEKRQVYEERYTQYISANTRCLGSFVFLWGQKEERTPTWFSMFVEDKVDSLPLKGEKTPMVEAMQRVWTGKELDETAPIVRGMTIDGKSAIDNVRIKAGTLFKAEVSVTDSLAYVWEVLKEATVLGFGGSYEPRPERMGDVAVSDKNVYETMIKVPGEYRLYVYVLDNTGFVSTANIPFQVID AMGIVIEKAADGYKLSIDGRETYIKGVGGTYRLDIAAQSGANAFRTWGGNVEEIKKNLALASEHNMYVMQGIGMTKDSIRYYDDEYKNKMREEVRLLAETFKNDTSLLAWGIGNEIELGNANIAAAWNFVEELAQLIKSIDKRHLVSTVISYNPSALDSVAKYAPSLDYVGINVYGPMGEVQAVVDRSDYKGAFMITEWGPTGWWETASTEWKAPIEQTSEEKRQVYEERYTQYISANTRCLGSFVFLWGQKEERTPTWFSMFVEDKVDSLPLKGEKTPMVEAMQRVWTGKELDETAPIVRGMTIDGKSAIDNVRIKAGTLFKAEVSVTDKSLAYVWEVLKEATVLGFGGSYEPRPERMGDVAVSDKNVYETMIKVPGEYRLYVYVLDNTGFVSTANIPFQVID 6pb3-a1-m2-cA_6pb3-a1-m6-cA Structure of Rhizobiales Trip13 A0A1B3NHK7 A0A1B3NHK7 2.048 X-RAY DIFFRACTION 86 1.0 408172 (marine metagenome) 408172 (marine metagenome) 257 257 6pb3-a1-m1-cA_6pb3-a1-m5-cA 6pb3-a1-m1-cA_6pb3-a1-m6-cA 6pb3-a1-m2-cA_6pb3-a1-m4-cA 6pb3-a1-m3-cA_6pb3-a1-m4-cA 6pb3-a1-m3-cA_6pb3-a1-m5-cA LFEGASTYPDVDARERLNNLVGLDTHKSRLSKLAVLVNPDGLSAWAKKHHPAAEALVKNVIRRPPLIVLAGDVGSGKTELAETIGDDVARRESIRITLLPLSETQLISAAFEHTVSEARKLARGAVILLVDEAAGVNAFIRGIDRLGNGALPAAVICTNRVDSLDPAVRRRAAEIITFDRPNDAQRRAVITTTLQGTGVTGSQIEGLVAATGPADYGFTFSDLTQRLIPSIVLDAYPDTSINPARALAIAQAAPTAP LFEGASTYPDVDARERLNNLVGLDTHKSRLSKLAVLVNPDGLSAWAKKHHPAAEALVKNVIRRPPLIVLAGDVGSGKTELAETIGDDVARRESIRITLLPLSETQLISAAFEHTVSEARKLARGAVILLVDEAAGVNAFIRGIDRLGNGALPAAVICTNRVDSLDPAVRRRAAEIITFDRPNDAQRRAVITTTLQGTGVTGSQIEGLVAATGPADYGFTFSDLTQRLIPSIVLDAYPDTSINPARALAIAQAAPTAP 6pbj-a1-m1-cB_6pbj-a1-m2-cB The structure of 3-deoxy-d-arabino-heptulosonate 7-phosphate synthase with Gly190Pro mutation O53512 O53512 1.9 X-RAY DIFFRACTION 77 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 416 416 GAMNWTVDIPIDPPLPTDLRTRLDAALAKPAAQQPTWPADQALAMRTVLESVPPVTVPSEIVRLQEQLAQVAKGEAFLLQGGDCAETFMDNTEPHIRGNVRALLQMAVVLTYGASMPVVKVARIAGQYAKPRSADIDALGLRSYRGDMINGFAPDAAAREHDPSRLVRAYANASAAMNLVRALTSSPLASLHLVHDWNREFVRTSPAGARYEALATEIDRGLRFMSACGVADRNLQTAEIYASHEALVLDYERAMLRLSDDGEPQLFDLSAHTVWIGERTRQIDGAHIAFAQVIANPVGVKLGPNMTPELAVEYVERLDPHNKPGRLTLVSRMGNHKVRDLLPPIVEKVQATGHQVIWQCDPMHGNRHFDRIVDEVQGFFEVHRALGTHPGGIHVEILNTQQSLELAFLVAEMLRD GAMNWTVDIPIDPPLPTDLRTRLDAALAKPAAQQPTWPADQALAMRTVLESVPPVTVPSEIVRLQEQLAQVAKGEAFLLQGGDCAETFMDNTEPHIRGNVRALLQMAVVLTYGASMPVVKVARIAGQYAKPRSADIDALGLRSYRGDMINGFAPDAAAREHDPSRLVRAYANASAAMNLVRALTSSPLASLHLVHDWNREFVRTSPAGARYEALATEIDRGLRFMSACGVADRNLQTAEIYASHEALVLDYERAMLRLSDDGEPQLFDLSAHTVWIGERTRQIDGAHIAFAQVIANPVGVKLGPNMTPELAVEYVERLDPHNKPGRLTLVSRMGNHKVRDLLPPIVEKVQATGHQVIWQCDPMHGNRHFDRIVDEVQGFFEVHRALGTHPGGIHVEILNTQQSLELAFLVAEMLRD 6pbl-a1-m1-cA_6pbl-a1-m1-cB Crystal structure of Malate dehydrogenase from Legionella pneumophila Philadelphia 1 Q5ZT13 Q5ZT13 1.85 X-RAY DIFFRACTION 128 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 327 327 NRVRVAVTGAAGQIGYALVFRIASGQMFGPNTEVELNLLELEPALPSLEGVAMELDDCAFPLLKRIVCTADLNKAMDGVNWALLVGSVPRKQGMERSDLLQINGGIFTKQGQAINDYASDDVRVFVVGNPCNTNCLIAMNHAKDVPSDRFYAMTTLDELRARTQLAKKAGVDITAVTQMTIWGNHSATQYPDFYNAKINGTSAAQVINDETWLKETFVSTVQQRGAAVIKARGSSSAASAANAIITGVNHLVTDTPAGESFSMCRRSKGEYGVDEGLIFSFPCRREHGELKVVENLEFNDFGRERFNTTLNELRSERDTVKSLGLLD NRVRVAVTGAAGQIGYALVFRIASGQMFGPNTEVELNLLELEPALPSLEGVAMELDDCAFPLLKRIVCTADLNKAMDGVNWALLVGSVPRKQGMERSDLLQINGGIFTKQGQAINDYASDDVRVFVVGNPCNTNCLIAMNHAKDVPSDRFYAMTTLDELRARTQLAKKAGVDITAVTQMTIWGNHSATQYPDFYNAKINGTSAAQVINDETWLKETFVSTVQQRGAAVIKARGSSSAASAANAIITGVNHLVTDTPAGESFSMCRRSKGEYGVDEGLIFSFPCRREHGELKVVENLEFNDFGRERFNTTLNELRSERDTVKSLGLLD 6pbm-a1-m1-cB_6pbm-a1-m1-cA Pseudopaline Dehydrogenase with NADP+ bound Q9HUX5 Q9HUX5 1.57 X-RAY DIFFRACTION 96 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 425 426 6c4n-a1-m1-cB_6c4n-a1-m1-cA 6pbn-a1-m1-cB_6pbn-a1-m1-cA 6pbp-a1-m1-cA_6pbp-a1-m1-cB 6pbt-a1-m1-cA_6pbt-a1-m1-cB SLGNVLLVGLGAVAIQVALDLRRHGAGRLGALNHPGRRSQRIAEALARGACLQLEGQGQHRWLSGNAALDVFHQDPAELRDDWQTLVLCVPADSYLDVVRGLPWERLGGVRTLLLVSAFIGANLLVRSALPAGCQATVLSLSSYYAATKVIDETQPLRALTKAVKRRVYLGSSRPDCPARETWRRVLAGSGVEVVPLATPEAAEGRNVTTYVHSPFFLGEFALARILSEQGPPGFMYKLYPEGPITPGAIGAMRRLWCELSELLRRMGAEPLNLLRFLNDDNYPVHETMLPRASIDGFAEAGAERQEYLLFVRYAALLVDPFSPADEQGRHFDFSAVPFRRVSRDEDGLWRLPRVPLEDYRKLALIVALAAHFDLAMPQARSLLASYENAVSRFIDCQGASQCHPSLYPIDSRPAADAIYRQWCS ESLGNVLLVGLGAVAIQVALDLRRHGAGRLGALNHPGRRSQRIAEALARGACLQLEGQGQHRWLSGNAALDVFHQDPAELRDDWQTLVLCVPADSYLDVVRGLPWERLGGVRTLLLVSAFIGANLLVRSALPAGCQATVLSLSSYYAATKVIDETQPLRALTKAVKRRVYLGSSRPDCPARETWRRVLAGSGVEVVPLATPEAAEGRNVTTYVHSPFFLGEFALARILSEQGPPGFMYKLYPEGPITPGAIGAMRRLWCELSELLRRMGAEPLNLLRFLNDDNYPVHETMLPRASIDGFAEAGAERQEYLLFVRYAALLVDPFSPADEQGRHFDFSAVPFRRVSRDEDGLWRLPRVPLEDYRKLALIVALAAHFDLAMPQARSLLASYENAVSRFIDCQGASQCHPSLYPIDSRPAADAIYRQWCS 6pbz-a1-m1-cC_6pbz-a1-m1-cA Crystal structure of Escherichia coli GppA P25552 P25552 2.475 X-RAY DIFFRACTION 34 0.992 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 477 485 SLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFALGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGMDERITLEKLQQLKQRAIHCGRTLERALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHLAVEQDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH SLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFADRNLGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGMDERITLEKLQQLKQRAIHCGRLEELEIDGLTLERALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHQDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH 6pbz-a1-m1-cD_6pbz-a1-m1-cA Crystal structure of Escherichia coli GppA P25552 P25552 2.475 X-RAY DIFFRACTION 11 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 454 485 6pbz-a1-m1-cC_6pbz-a1-m1-cB SLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIELVTGTGAQTTSLFSLSMGCVTWLELGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGITLEKLQQLKQRAIHCGALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH SLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFADRNLGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGMDERITLEKLQQLKQRAIHCGRLEELEIDGLTLERALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHQDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH 6pbz-a1-m1-cD_6pbz-a1-m1-cC Crystal structure of Escherichia coli GppA P25552 P25552 2.475 X-RAY DIFFRACTION 82 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 454 477 6pbz-a1-m1-cB_6pbz-a1-m1-cA SLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIELVTGTGAQTTSLFSLSMGCVTWLELGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGITLEKLQQLKQRAIHCGALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH SLYAAIDLGSNSFHMLVVREVAGSIQTLTRIKRKVRLAAGLNSENALSNEAMERGWQCLRLFAERLQDIPPSQIRVVATATLRLAVNAGDFIAKAQEILGCPVQVISGEEEARLIYQGVAHTTGGADQRLVVDIGGASTELVTGTGAQTTSLFSLSMGCVTWLERYFALGQENFDAAEKAAREVLRPVADELRYHGWKVCVGASGTVQALQEIMMAQGMDERITLEKLQQLKQRAIHCGRTLERALVFPSGLAILIAIFTELNIQCMTLAGGALREGLVYGMLHLAVEQDIRSRTLRNIQRRFMIDIDQAQRVAKVAANFFDQVENEWHLEAISRDLLISACQLHEIGLSVDFKQAPQHAAYLVRNLDLPGFTPAQKKLLATLLLNQTNPVDLSSLHQQNAVPPRVAEQLCRLLRLAIIFASRRRDDLVPEMTLQANHELLTLTLPQGWLTQHPLGKEIIAQESQWQSYVHWPLEVH 6pc3-a1-m1-cA_6pc3-a1-m1-cB Crystal structure of Helicobacter pylori PPX/GppA in complex with GSP B5ZA44 B5ZA44 2.1 X-RAY DIFFRACTION 91 1.0 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 483 483 6pc0-a1-m1-cA_6pc0-a1-m1-cB 6pc1-a1-m1-cA_6pc1-a1-m1-cB 6pc1-a2-m1-cD_6pc1-a2-m1-cC 6pc2-a1-m1-cA_6pc2-a1-m1-cB AKITTVIDIGSNSVRLAVFKKTSQFGFYLLFETKSKVRISEGCYAFNGILQEIPMQRAVKALSEFKEIALKYKSKKILCVATSAVRDAPNRLEFVARVKKACGLQIKIIDGQKEALYGGIACANLLHKNSGITIDIGGGSTECALIEKGKIKDLISLDVGTIRIKEMFLDKDLDVKLAKAFIQKEVSKLPFKHKNAFGVGGTIRALSKVLMKRFDYPIDSLHGYEIDAHKNLAFIEKIVMLKEDQLRLLGVNEERLDSIRSGALILSVVLEHLKTSLMITSGVGVREGVFLSDLLRNHYHKFPPNINPSLISLKDRFLPHEKHSQKVKKECVKLFEALSPLHKIDEKYLFHLKIAGELASMGKILSVYLAHKHSAYFILNALSYGFSHQDRAIICLLAQFSHKKIPKDNAIAHMSAMMPSLLTLQWLSFILSLAENLCLTDSHHLKYTLEKNKLVIHSNDALYLAKEMLPKLVKPIPLTIEFA AKITTVIDIGSNSVRLAVFKKTSQFGFYLLFETKSKVRISEGCYAFNGILQEIPMQRAVKALSEFKEIALKYKSKKILCVATSAVRDAPNRLEFVARVKKACGLQIKIIDGQKEALYGGIACANLLHKNSGITIDIGGGSTECALIEKGKIKDLISLDVGTIRIKEMFLDKDLDVKLAKAFIQKEVSKLPFKHKNAFGVGGTIRALSKVLMKRFDYPIDSLHGYEIDAHKNLAFIEKIVMLKEDQLRLLGVNEERLDSIRSGALILSVVLEHLKTSLMITSGVGVREGVFLSDLLRNHYHKFPPNINPSLISLKDRFLPHEKHSQKVKKECVKLFEALSPLHKIDEKYLFHLKIAGELASMGKILSVYLAHKHSAYFILNALSYGFSHQDRAIICLLAQFSHKKIPKDNAIAHMSAMMPSLLTLQWLSFILSLAENLCLTDSHHLKYTLEKNKLVIHSNDALYLAKEMLPKLVKPIPLTIEFA 6pce-a1-m1-cA_6pce-a1-m1-cB Human Coa6 Q5JTJ3 Q5JTJ3 1.65 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 70 MKERQVCWGARDEYWKCLDENLEDASQCKKLRSSFESSCPQQWIKYFDKRRDYLKFKEKF PSMKERQVCWGARDEYWKCLDENLEDASQCKKLRSSFESSCPQQWIKYFDKRRDYLKFKEKFEAGQFEPS 6pcf-a1-m2-cC_6pcf-a1-m1-cD Human Coa6: W59C mutant protein Q5JTJ3 Q5JTJ3 2.2 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 64 6pcf-a1-m1-cA_6pcf-a1-m2-cB QVCCGARDEYWKCLDENLEDASQCKKLRSSFESSCPQQWIKYFDKRRDYLKFKEKF PSMKERQVCCGARDEYWKCLDENLEDASQCKKLRSSFESSCPQQWIKYFDKRRDYLKFKEKFEA 6pcf-a1-m2-cC_6pcf-a1-m2-cB Human Coa6: W59C mutant protein Q5JTJ3 Q5JTJ3 2.2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 65 6pcf-a1-m1-cA_6pcf-a1-m1-cD QVCCGARDEYWKCLDENLEDASQCKKLRSSFESSCPQQWIKYFDKRRDYLKFKEKF APSMKERQVCCGARDEYWKCLDENLEDASQCKKLRSSFESSCPQQWIKYFDKRRDYLKFKEKFEA 6pcp-a2-m1-cB_6pcp-a2-m1-cC Mechanism for regulation of DNA binding of Bordetella bronchiseptica BpsR by 6-hydroxynicotinic acid 3.2 X-RAY DIFFRACTION 138 0.993 520 (Bordetella pertussis) 520 (Bordetella pertussis) 135 140 6pco-a1-m1-cB_6pco-a1-m1-cA 6pcp-a1-m1-cD_6pcp-a1-m1-cA 6pcp-a3-m1-cE_6pcp-a3-m1-cF PGPYHFSEQVGHLLRRAYQRHVAIFQQTIPDSKLTAAQFVVLCALRDQGACSLVDVVKATAIDQATVRGVIERLKARKLLAVSHDRRKVLVTLTPDGRALVEEMVPFAEQITQSTFGGLNPAERVAIVYLLRKMS GPYHFSEQVGHLLRRAYQRHVAIFQQTIPDSKLTAAQFVVLCALRDQGACSLVDVVKATAIDQATVRGVIERLKARKLLAVSHDPADRRKVLVTLTPDGRALVEEMVPFAEQITQSTFGGLNPAERVAIVYLLRKMSDAD 6pd1-a2-m1-cB_6pd1-a2-m1-cD PntC-AEPT: fusion protein of phosphonate-specific cytidylyltransferase and 2-aminoethylphosphonate (AEP) transaminase from Treponema denticola Q73MU2 Q73MU2 2.72 X-RAY DIFFRACTION 226 1.0 243275 (Treponema denticola ATCC 35405) 243275 (Treponema denticola ATCC 35405) 607 611 6pd1-a1-m1-cA_6pd1-a1-m1-cC 6pd2-a1-m1-cA_6pd2-a1-m1-cC 6pd2-a2-m1-cD_6pd2-a2-m1-cB MIKQAVILAGGLGKTMPKGFLEIGGTAIVEQSVQKLLAHGIEKIVIGTGHCNEYYDNLAKKYPAIITVKNENYANTGSMGTLEVCASFVNESFLLLESDLIYDSAGLFSLINDERKNLILASGATKSGDEVYLEADEKNCLTGLSKNRDALKNIFGELVGITKLTKSTLDKMCAYAKIHHSDLPKMEYEHALLEAAKTIPVAIKRIEYFVWREIDNEDHLEMAVKNIYPHIVENEKLRAVRREVLLNPGPATTTDSVKYAQVSADICPREKAFGDLMQWLCDELKLFALASETNPDEYETVMFGCSGTGADEVMVSSCVPDTGRLLVIDNGSYGARMAKIADIYKIPMDIFKSSTYEPLDLQKLEAEFATKKYTHLACVYHETTTGLLNPLHIICPMAKKYGMVTIVDAVSAYCGMPMDLKSLGIDFMASTSNKNIQGMAGVGFVICNKAELEKTKDYPMRNYYLNLYDQYAYFAKTHQTRFTPPVQTMYALRQAVLETKQETVQKRYERYTACWNILVAAIKKLGLKMLVKEEHQSHFITAILEPETPKYSFEALHDFAAEHSFTIYPGKLGNIDTFRIANIGDIQPEEMRRFTVKLKEYMNGIGV MIKQAVILAGGLGKTMPKGFLEIGGTAIVEQSVQKLLAHGIEKIVIGTGHCNEYYDNLAKKYPAIITVKNENYANTGSMGTLEVCASFVNESFLLLESDLIYDSAGLFSLINDERKNLILASGATKSGDEVYLEADEKNCLTGLSKNRDALKNIFGELVGITKLTKSTLDKMCAYAKIHHSDLPKMEYEHALLEAAKTIPVAIKRIEYFVWREIDNEDHLEMAVKNIYPHIVENEKLRAVRREVLLNPGPATTTDSVKYAQVSADICPREKAFGDLMQWLCDELKLFALASETNPDEYETVMFGCSGTGADEVMVSSCVPDTGRLLVIDNGSYGARMAKIADIYKIPMDIFKSSTYEPLDLQKLEAEFATKKYTHLACVYHETTTGLLNPLHIICPMAKKYGMVTIVDAVSAYCGMPMDLKSLGIDFMASTSNKNIQGMAGVGFVICNKAELEKTKDYPMRNYYLNLYDQYAYFAKTHQTRFTPPVQTMYALRQAVLETKQETVQKRYERYTACWNILVAAIKKLGLKMLVKEEHQSHFITAILEPETPKYSFEALHDFAAEHSFTIYPGKLGNIDTFRIANIGDIQPEEMRRFTVKLKEYMNGIGVGVLE 6pdq-a1-m1-cA_6pdq-a1-m1-cD Ancestral Effector Caspase 3/6/7 1.83 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 142 DNSYKMNHKRRGLCLIINNKNFDRKTGMKTRNGTDKDAENLEKTFKSLGFEVKVYNDLTAEEMQETLQEVSKEDHSDSDCFVCVLLSHGEEGLVYGTDGKIEIQELTSLFKGDKCQSLVGKPKLFFIQACRGDELDSGV LDNSYKMNHKRRGLCLIINNKNFDRKTGMKTRNGTDKDAENLEKTFKSLGFEVKVYNDLTAEEMQETLQEVSKEDHSDSDCFVCVLLSHGEEGLVYGTDGKIEIQELTSLFKGDKCQSLVGKPKLFFIQACRGDELDSGVEV 6pdq-a1-m1-cE_6pdq-a1-m1-cB Ancestral Effector Caspase 3/6/7 1.83 X-RAY DIFFRACTION 95 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 85 87 HKIPAEADFLIAYSTAPGYYSYRNTSNGSWFIQSLCEVLNKYGSELEIMEILTRVNHKVSLRSENGKKQMPCFASMLTKKLYFSP HKIPAEADFLIAYSTAPGYYSYRNTSNGSWFIQSLCEVLNKYGSELEIMEILTRVNHKVSLRESSFNGKKQMPCFASMLTKKLYFSP 6pdt-a1-m1-cB_6pdt-a1-m1-cD cryoEM structure of yeast glucokinase filament P17709 P17709 3.8 ELECTRON MICROSCOPY 47 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 500 500 6pdt-a1-m1-cA_6pdt-a1-m1-cC MSFDDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPKEGHTLASDKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA MSFDDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPKEGHTLASDKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA 6pdt-a1-m1-cC_6pdt-a1-m1-cD cryoEM structure of yeast glucokinase filament P17709 P17709 3.8 ELECTRON MICROSCOPY 73 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 500 500 6pdt-a1-m1-cA_6pdt-a1-m1-cB MSFDDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPKEGHTLASDKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA MSFDDLHKATERAVIQAVDQICDDFEVTPEKLDELTAYFIEQMEKGLAPPKEGHTLASDKGLPMIPAFVTGSPNGTERGVLLAADLGGTNFRICSVNLHGDHTFSMEQMKSKIPDDLLDDENVTSDDLFGFLARRTLAFMKKYHPDELAKGKDAKPMKLGFTFSYPVDQTSLNSGTLIRWTKGFRIADTVGKDVVQLYQEQLSAQGMPMIKVVALTNDTVGTYLSHCYTSDNTDSMTSGEISEPVIGCIFGTGTNGCYMEEINKITKLPQELRDKLIKEGKTHMIINVEWGSFDNELKHLPTTKYDVVIDQKLSTNPGFHLFEKRVSGMFLGEVLRNILVDLHSQGLLLQQYRSKEQLPRHLTTPFQLSSEVLSHIEIDDSTGLRETELSLLQSLRLPTTPTERVQIQKLVRAISRRSAYLAAVPLAAILIKTNALNKRYHGEVEIGCDGSVVEYYPGFRSMLRHALALSPLGAEGERKVHLKIAKDGSGVGAALCALVA 6pe2-a1-m1-cA_6pe2-a1-m1-cG Drosophila P element transposase strand transfer complex Q7M3K2 Q7M3K2 4.0 ELECTRON MICROSCOPY 77 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 456 456 6p5a-a1-m1-cA_6p5a-a1-m1-cG TLEYEMRRLEQQLRESQQLEESLRKIFTDTQIRILKNGGQRATFNSDDISTAICLHTAGPRAYNHLYKKGFPLPSRTTLYRWLSDVDIKRGCLDVVIDLMDSDGVDDADKLCVLAFDEMKVAAAFEYDSSADIVYEPSDYVQLAIVRGLKKSWKQPVFFDFNTRMDPDTLNNILRKLHRKGYLVVAIVSDLGTGNQKLWTELGISESKTWFSHPADDHLKIFVFSDTPHLIKLVRNHYVDSGLTINGKKLTKKTIQEALHLCNKSDLSILFKINENHINVRSLAKQKVKLATQLFSNTTASSIRRCYSLGYDIENATETADFFKLMNDWFDIFNSKLSTSNCIECSQPYGKQLDIQNDILNRMSEIMRTGILDKPKRLPFQKGIIVNNASLDGLYKYLQENFSMQYILTSRLNQDIVEHFFGSMRSRGGQFDHPTPLQFKYRLRKYIIARNTEMLR TLEYEMRRLEQQLRESQQLEESLRKIFTDTQIRILKNGGQRATFNSDDISTAICLHTAGPRAYNHLYKKGFPLPSRTTLYRWLSDVDIKRGCLDVVIDLMDSDGVDDADKLCVLAFDEMKVAAAFEYDSSADIVYEPSDYVQLAIVRGLKKSWKQPVFFDFNTRMDPDTLNNILRKLHRKGYLVVAIVSDLGTGNQKLWTELGISESKTWFSHPADDHLKIFVFSDTPHLIKLVRNHYVDSGLTINGKKLTKKTIQEALHLCNKSDLSILFKINENHINVRSLAKQKVKLATQLFSNTTASSIRRCYSLGYDIENATETADFFKLMNDWFDIFNSKLSTSNCIECSQPYGKQLDIQNDILNRMSEIMRTGILDKPKRLPFQKGIIVNNASLDGLYKYLQENFSMQYILTSRLNQDIVEHFFGSMRSRGGQFDHPTPLQFKYRLRKYIIARNTEMLR 6pen-a1-m1-cC_6pen-a1-m1-cD Structure of Spastin Hexamer (whole model) in complex with substrate peptide Q9UBP0 Q9UBP0 4.2 ELECTRON MICROSCOPY 141 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 293 6pek-a1-m1-cA_6pek-a1-m1-cB 6pek-a1-m1-cB_6pek-a1-m1-cC 6pek-a1-m1-cC_6pek-a1-m1-cD 6pek-a1-m1-cE_6pek-a1-m1-cD 6pen-a1-m1-cA_6pen-a1-m1-cB 6pen-a1-m1-cB_6pen-a1-m1-cC 6pen-a1-m1-cE_6pen-a1-m1-cD 6pen-a1-m1-cF_6pen-a1-m1-cA NLANLIMNEIVDNGTAVKFDDIAGQDLAKQALQEIVILPSLRPELFTGLRAPARGLLLFGPPGNGKTMLAKAVAAESNATFFNISAASLTSKYVGEGEKLVRALFAVARELQPSIIFIDEVDSLLCERREGEHDASRRLKTEFLIEFDGVQSAGDDRVLVMGATNRPQELDEAVLRRFIKRVYVSLPNEETRLLLLKNLLCKQGSPLTQKELAQLARMTDGYSGSDLTALAKDAALGPIRELKPEQVKNMSASEMRNIRLSDFTESLKKIKRSVSPQTLEAYIRWNKD RNVDSNLANLIMNEIVDNGTAVKFDDIAGQDLAKQALQEIVILPSLRPELFTGLRAPARGLLLFGPPGNGKTMLAKAVAAESNATFFNISAASLTSKYVGEGEKLVRALFAVARELQPSIIFIDEVDSLLCERREGEHDASRRLKTEFLIEFDGVQSAGDDRVLVMGATNRPQELDEAVLRRFIKRVYVSLPNEETRLLLLKNLLCKQGSPLTQKELAQLARMTDGYSGSDLTALAKDAALGPIRELKPEQVKNMSASEMRNIRLSDFTESLKKIKRSVSPQTLEAYIRWNKD 6pen-a1-m1-cF_6pen-a1-m1-cE Structure of Spastin Hexamer (whole model) in complex with substrate peptide Q9UBP0 Q9UBP0 4.2 ELECTRON MICROSCOPY 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 272 288 NLANLIMNEIVDNGTAVKFDDIAGQDLAKQALQEIVILPSLRPELFTGLRAPARGLLLFGPPGNGKTMLAKAVAAESNATFFNISAASLTSKKLVRALFAVARELQPSIIFIDEVDSLLCRRLKTEFLIEFDGVQSAGDDRVLVMGATNRPQELDEAVLRRFIKRVYVSLPNEETRLLLLKNLLCKQGSPLTQKELAQLARMTDGYSGSDLTALAKDAALGPIRELKPEQVKNMSASEMRNIRLSDFTESLKKIKRSVSPQTLEAYIRWNKD NLANLIMNEIVDNGTAVKFDDIAGQDLAKQALQEIVILPSLRPELFTGLRAPARGLLLFGPPGNGKTMLAKAVAAESNATFFNISAASLTSKYVGEGEKLVRALFAVARELQPSIIFIDEVDSLLCERREGEHDASRRLKTEFLIEFDGVQSAGDDRVLVMGATNRPQELDEAVLRRFIKRVYVSLPNEETRLLLLKNLLCKQGSPLTQKELAQLARMTDGYSGSDLTALAKDAALGPIRELKPEQVKNMSASEMRNIRLSDFTESLKKIKRSVSPQTLEAYIRWNKD 6pf2-a1-m1-cB_6pf2-a1-m1-cA Crystal Structure of Amino Acids 1220-1276 of Human Beta Cardiac Myosin Fused to Gp7 and Eb1 Q15691 Q15691 2.17 X-RAY DIFFRACTION 208 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 157 GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKEKSEFKLELDDVTSNMEQIIKAKANLEKMCRTLEDQMNEHRSKAEETQRSVNDLTSQVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDE SGPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKEKSEFKLELDDVTSNMEQIIKAKANLEKMCRTLEDQMNEHRSKAEETQRSVNDLTSQVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATDEGFVIPD 6pf8-a3-m1-cE_6pf8-a3-m2-cE Crystal structure of TS-DHFR from Cryptosporidium hominis in complex with NADPH, FdUMP and 2-(4-((2-amino-4-oxo-4,7-dihydro-3H-pyrrolo[2,3-d]pyrimidin-5-yl)methyl)benzamido)-4-chlorobenzoic acid A0A0S4TER9 A0A0S4TER9 2.533 X-RAY DIFFRACTION 221 1.0 237895 (Cryptosporidium hominis) 237895 (Cryptosporidium hominis) 506 506 1qzf-a1-m1-cA_1qzf-a1-m1-cB 1qzf-a2-m1-cC_1qzf-a2-m1-cD 1qzf-a3-m1-cE_1qzf-a3-m2-cE 1sej-a1-m1-cA_1sej-a1-m1-cB 1sej-a2-m1-cC_1sej-a2-m1-cD 1sej-a3-m1-cE_1sej-a3-m2-cE 2oip-a1-m1-cA_2oip-a1-m1-cB 2oip-a2-m1-cC_2oip-a2-m1-cD 2oip-a3-m1-cE_2oip-a3-m2-cE 3dl5-a1-m1-cD_3dl5-a1-m1-cC 3dl5-a2-m1-cA_3dl5-a2-m1-cB 3dl5-a3-m1-cE_3dl5-a3-m2-cE 3dl6-a1-m1-cC_3dl6-a1-m1-cD 3dl6-a2-m1-cA_3dl6-a2-m1-cB 3dl6-a3-m1-cE_3dl6-a3-m2-cE 3hj3-a1-m1-cA_3hj3-a1-m1-cB 3hj3-a2-m1-cD_3hj3-a2-m1-cC 4ky8-a1-m1-cA_4ky8-a1-m1-cB 4ky8-a2-m1-cC_4ky8-a2-m1-cD 4q0d-a1-m1-cA_4q0d-a1-m1-cE 4q0d-a2-m1-cB_4q0d-a2-m1-cC 4q0d-a3-m1-cD_4q0d-a3-m2-cD 4q0e-a1-m1-cA_4q0e-a1-m1-cC 4q0e-a2-m1-cB_4q0e-a2-m1-cD 6ojs-a1-m1-cA_6ojs-a1-m1-cC 6ojs-a2-m1-cB_6ojs-a2-m1-cE 6ojs-a3-m1-cD_6ojs-a3-m2-cD 6pf7-a1-m1-cA_6pf7-a1-m1-cB 6pf7-a2-m1-cD_6pf7-a2-m1-cC 6pf7-a3-m1-cE_6pf7-a3-m2-cE 6pf8-a1-m1-cA_6pf8-a1-m1-cB 6pf8-a2-m1-cC_6pf8-a2-m1-cD 6pf9-a1-m1-cA_6pf9-a1-m2-cA 6pf9-a2-m1-cB_6pf9-a2-m1-cC 6pf9-a3-m3-cE_6pf9-a3-m1-cD 6pfa-a1-m1-cA_6pfa-a1-m1-cB 6pfa-a2-m1-cC_6pfa-a2-m1-cD 6pfa-a3-m1-cE_6pfa-a3-m2-cE 6pfb-a1-m1-cA_6pfb-a1-m1-cB 6pfb-a2-m1-cC_6pfb-a2-m1-cD 6pfb-a3-m1-cE_6pfb-a3-m2-cE 6pfc-a1-m1-cA_6pfc-a1-m2-cA 6pfc-a2-m1-cB_6pfc-a2-m1-cD 6pfc-a3-m1-cC_6pfc-a3-m3-cE 6pfd-a1-m1-cA_6pfd-a1-m1-cB 6pfd-a2-m1-cC_6pfd-a2-m1-cD 6pfd-a3-m1-cE_6pfd-a3-m2-cE 6pfe-a1-m1-cA_6pfe-a1-m1-cB 6pfe-a2-m1-cE_6pfe-a2-m1-cC 6pfe-a3-m1-cD_6pfe-a3-m2-cD 6pff-a1-m1-cA_6pff-a1-m1-cB 6pff-a2-m1-cC_6pff-a2-m1-cD 6pff-a3-m1-cE_6pff-a3-m2-cE 6pfg-a1-m1-cA_6pfg-a1-m1-cB 6pfg-a2-m1-cE_6pfg-a2-m3-cC 6pfg-a3-m1-cD_6pfg-a3-m2-cD 6pfh-a1-m1-cB_6pfh-a1-m1-cA 6pfh-a2-m1-cC_6pfh-a2-m2-cC 6pfh-a3-m1-cE_6pfh-a3-m1-cD 6pfi-a1-m1-cA_6pfi-a1-m1-cB 6pfi-a2-m1-cC_6pfi-a2-m1-cD 6pfi-a3-m1-cE_6pfi-a3-m2-cE 6wep-a1-m1-cA_6wep-a1-m1-cB EKNVSIVVAASVLSSGIGINGQLPWSISEDLKFFSKITNNKCDSNKKNALIMGRKTWDSIGRRPLKNRIIVVISSSLPQDEADPNVVVFRNLEDSIENLMNDDSIENIFVCGGESIYRDALKDNFVDRIYLTRVALEDIEFDTYFPEIPETFLPVYMSQTFCTKNISYDFMIFEKQELKSIDDTVDLLGEIFGIRKMGNRHKFPKEEIYNTPSIRFGREHYEFQYLDLLSRVLENGAYRENRTGISTYSIFGQMMRFDMRESFPLLTTKKVAIRSIFEELIWFIKGDTNGNHLIEKKVYIWSGNGSKEYLERIGLGHREENDLGPIYGFQWRHYNGEYKTMHDDYTGVGVDQLAKLIETLKNNPKDRRHILTAWNPSALSQMALPPCHVLSQYYVTNDNCLSCNLYQRSCDLGLGSPFNIASYAILTMMLAQVCGYEPGELAIFIGDAHIYENHLTQLKEQLSRTPRPFPQLKFKRKVENIEDFKWEDIELIGYYPYPTIKMDMAV EKNVSIVVAASVLSSGIGINGQLPWSISEDLKFFSKITNNKCDSNKKNALIMGRKTWDSIGRRPLKNRIIVVISSSLPQDEADPNVVVFRNLEDSIENLMNDDSIENIFVCGGESIYRDALKDNFVDRIYLTRVALEDIEFDTYFPEIPETFLPVYMSQTFCTKNISYDFMIFEKQELKSIDDTVDLLGEIFGIRKMGNRHKFPKEEIYNTPSIRFGREHYEFQYLDLLSRVLENGAYRENRTGISTYSIFGQMMRFDMRESFPLLTTKKVAIRSIFEELIWFIKGDTNGNHLIEKKVYIWSGNGSKEYLERIGLGHREENDLGPIYGFQWRHYNGEYKTMHDDYTGVGVDQLAKLIETLKNNPKDRRHILTAWNPSALSQMALPPCHVLSQYYVTNDNCLSCNLYQRSCDLGLGSPFNIASYAILTMMLAQVCGYEPGELAIFIGDAHIYENHLTQLKEQLSRTPRPFPQLKFKRKVENIEDFKWEDIELIGYYPYPTIKMDMAV 6pfl-a1-m1-cA_6pfl-a1-m2-cB Crystal structure of Human HUWE1 WWE domain in complex with ADPR Q7Z6Z7 Q7Z6Z7 2.1 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 77 6pfl-a1-m2-cA_6pfl-a1-m1-cB NSNNWRWFDDRSGRWCSYSASNNSTIDSAWKSGETSVRFTAGRRRYTVQFTTMVQVNEETGNRRPVMLTLLRVPRL NSNNWRWFDDRSGRWCSYSASNNSTIDSAWKSGETSVRFTAGRRRYTVQFTTMVQVNEETGNRRPVMLTLLRVPRLN 6pfl-a1-m1-cB_6pfl-a1-m2-cB Crystal structure of Human HUWE1 WWE domain in complex with ADPR Q7Z6Z7 Q7Z6Z7 2.1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 6pfl-a1-m1-cA_6pfl-a1-m2-cA NSNNWRWFDDRSGRWCSYSASNNSTIDSAWKSGETSVRFTAGRRRYTVQFTTMVQVNEETGNRRPVMLTLLRVPRLN NSNNWRWFDDRSGRWCSYSASNNSTIDSAWKSGETSVRFTAGRRRYTVQFTTMVQVNEETGNRRPVMLTLLRVPRLN 6pfl-a1-m2-cA_6pfl-a1-m2-cB Crystal structure of Human HUWE1 WWE domain in complex with ADPR Q7Z6Z7 Q7Z6Z7 2.1 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 77 6pfl-a1-m1-cA_6pfl-a1-m1-cB NSNNWRWFDDRSGRWCSYSASNNSTIDSAWKSGETSVRFTAGRRRYTVQFTTMVQVNEETGNRRPVMLTLLRVPRL NSNNWRWFDDRSGRWCSYSASNNSTIDSAWKSGETSVRFTAGRRRYTVQFTTMVQVNEETGNRRPVMLTLLRVPRLN 6pfp-a2-m1-cC_6pfp-a2-m1-cD Crystal Structure of Amino Acids 1473-1536 of Human Beta Cardiac Myosin Fused to Gp7 and Eb1 Q15691 Q15691 2.2 X-RAY DIFFRACTION 200 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 156 156 6pfp-a1-m1-cA_6pfp-a1-m1-cB GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKEARSLSTELFKLKNAYEESLEHLETFKRENKNLQEEISDLTEQLGSSGKTIHELEKVRKQLEAEVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATD GPLKPEEHEDILNKLLDPELAQSERTEALQQLRVNYGSFVSEYNDLTKEARSLSTELFKLKNAYEESLEHLETFKRENKNLQEEISDLTEQLGSSGKTIHELEKVRKQLEAEVEDLEKERDFYFGKLRNIELICQENEGENDPVLQRIVDILYATD 6pfz-a2-m1-cA_6pfz-a2-m1-cB Structure of a NAD-Dependent Persulfide Reductase from A. fulgidus O29847 O29847 3.10004 X-RAY DIFFRACTION 236 0.998 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 541 541 6pfz-a1-m1-cC_6pfz-a1-m1-cD MNVVVIGGGAAGLKAASRIRRKDGDASITVVEAGKYVSLGRCGLPYYVGGLVHEVDNLRETTYGAVRDEAYFKKLKNIDVLTETVATEIDRSRKTVKIVRNGSEDELNYDYLVIATGARPAKPPIEGIEAEGVVTLTSAEEAEKIIEMWEEGAEKAVVIGAGFIGLESAEALKNLDMEVTVIEMMDRVAPAMLDREMAVLVENHLREKGVNVVTSTRVEKIVSQDDKVRAVIANGKEYPADVVVVATGIKPNSELAEKAGLKIGETGAIWVDEYMRTSDESIYAGGDCVETTCLVTGKKIIAPFGDVANKQGRVIGENITGGRAVFPGVIRTAIFKVFDFTAASAGVNEQMAKEAGLDYFTVIAPSPDRAHYYPQANYIRLKLIVEKGSWRVIGAQGVGMGEVAKRIDVLSTAIQAGMTIDQLANLDLAYAPPYSPALDPVITIANVAMNKRDGLFEGINVFELKDIVILDVRSEEERIESEKVIHIPILELRERLDEIPRDKEIVVVCAIGLRSFEASRILKHAGFEKVKILEGGMAFWF MNVVVIGGGAAGLKAASRIRRKDGDASITVVEAGKYVSLGRCGLPYYVGGLVHEVDNLRETTYGAVRDEAYFKKLKNIDVLTETVATEIDRSRKTVKIVRNGSEDELNYDYLVIATGARPAKPPIEGIEAEGVVTLTSAEEAEKIIEMWEEGAEKAVVIGAGFIGLESAEALKNLDMEVTVIEMMDRVAPAMLDREMAVLVENHLREKGVNVVTSTRVEKIVSQDDKVRAVIANGKEYPADVVVVATGIKPNSELAEKAGLKIGETGAIWVDEYMRTSDESIYAGGDCVETTCLVTGKKIIAPFGDVANKQGRVIGENITGGRAVFPGVIRTAIFKVFDFTAASAGVNEQMAKEAGLDYFTVIAPSPDRAHYYPQANYIRLKLIVEKGSWRVIGAQGVGMGEVAKRIDVLSTAIQAGMTIDQLANLDLAYAPPYSPALDPVITIANVAMNKRDGLFEGINVFELKEDIVILDVRSEEERIESEKVIHIPILELRERLDEIPRDKEIVVVCAIGLRSFEASRILKHAGFKVKILEGGMAFWF 6ph4-a1-m1-cA_6ph4-a1-m1-cB Full length LOV-PAS-HK construct from the LOV-HK sensory protein from Brucella abortus (light-adapted, construct 15-489) Q8YC53 Q8YC53 3.25 X-RAY DIFFRACTION 226 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 313 460 QATDPFRAAVEFTLMPMLITNPHLPDNPIVFANPAFLKLTGYEADEVMGRNCRFLQGHGTDPAHVRAIKSAIAAEKPIDIDIINYKKSGEAFWNRLHISPVHNANGRLQHFVSSQLDVTLELSRLVELEKERKTLSIETARSKDQLDYIVEVANIGFWTREFYSGKMTCSAECRRIYGFTPDEPVHFDTILDLVVLEDRMTVVQKAHQAVTGEPYSIEYRIVTRLGETRWLETRAKALTGENPLVLGIVQDVTERKKAEANKALVSREIAHRFKNSMAMVQSIANQTLRNTYDPEQANRLFSERLRALSQAHD QATDPFRAAVEFTLMPMLITNPHLPDNPIVFANPAFLKLTGYEADEVMGRNCRFLQGHGTDPAHVRAIKSAIAAEKPIDIDIINYKKSGEAFWNRLHISPVHNANGRLQHFVSSQLDVTLELSRLVELEKERKTLSIETARSKDQLDYIVEVANIGFWTREFYSGKMTCSAECRRIYGFTPDEPVHFDTILDLVVLEDRMTVVQKAHQAVTGEPYSIEYRIVTRLGETRWLETRAKALTGENPLVLGIVQDVTERKKAEANKALVSREIAHRFKNSMAMVQSIANQTLRNTYDPEQANRLFSERLRALSQAHDMLLKENWAGATIQQICATALAPFNSTFANRIHMSGPHLLVSDRVTVALSLAFYELATNAVKYGALSNEKGVINITWAIMEDKGEKKFHMRWAESRGPEVMQPARRGFGQRLLHSVLAEELKAKCDVEFAASGLLIDVLAPITPEVFP 6pi4-a1-m1-cA_6pi4-a1-m2-cA Crystal structure of ATP synthase epsion chain ATP synthase epsilon chain (ATP synthase F1 sector epsilon subunit) (F-ATPase epsilon subunit) from Mycobacterium smegmatis A0R1Z9 A0R1Z9 2.1 X-RAY DIFFRACTION 147 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 119 119 DLNVEIVAVERELWSGPATFVFTRTTAGEIGILPRHIPLVAQLVDDAMVRVEREGEDDLRIAVDGGFLSVTEETVRILVENAQFESEIDADAAKEDAASDDERTAAWGRARLRALGQID DLNVEIVAVERELWSGPATFVFTRTTAGEIGILPRHIPLVAQLVDDAMVRVEREGEDDLRIAVDGGFLSVTEETVRILVENAQFESEIDADAAKEDAASDDERTAAWGRARLRALGQID 6pi9-a1-m1-cA_6pi9-a1-m2-cA Crystal structure of 16S rRNA methyltransferase RmtF in complex with S-Adenosyl-L-homocysteine I1YZZ5 I1YZZ5 1.85 X-RAY DIFFRACTION 110 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 260 260 GMDERAQAALDALLSAKNLRDVCPETVRRVFMELLPRYRKPKDAEKAARTHLHQITGAFMTADAQKKARALLARWNEGDESALAAALSLHASTRERLPGADEWMRRVSPFLGADARVLDLACGLNPILLGSMGVTNALGMDIHLGCVRLVNETARARGWHTRARACDLLSEIPAEEADAALLMKLLPVLEAQKTGRAAELLASLRAPRLVVTFPTRTLGGRGVGMEKHYADWFERILPDTLSVRDRFTVSDELVYLVERT GMDERAQAALDALLSAKNLRDVCPETVRRVFMELLPRYRKPKDAEKAARTHLHQITGAFMTADAQKKARALLARWNEGDESALAAALSLHASTRERLPGADEWMRRVSPFLGADARVLDLACGLNPILLGSMGVTNALGMDIHLGCVRLVNETARARGWHTRARACDLLSEIPAEEADAALLMKLLPVLEAQKTGRAAELLASLRAPRLVVTFPTRTLGGRGVGMEKHYADWFERILPDTLSVRDRFTVSDELVYLVERT 6pir-a5-m1-cC_6pir-a5-m2-cB Crystal structure of the Legionella effector protein MavE Q5ZT21 Q5ZT21 1.65 X-RAY DIFFRACTION 41 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 132 137 6pir-a4-m1-cA_6pir-a4-m3-cA SNATRFERNFLINSLMFLETILSVDKKLDDAIHHFTQPRYQINSRITNADDWSKEDKLKFTSAIAEAIALVSEKYENPTSETTEQIQSARNILLDNYVPLLTANTDPENRLKSVRENSSQIRKELIAKLKDE SNATRFERNFLINSLMFLETILSVDKKLDDAIHHFTQGQYENPRYQINSRITNADDWSKEDKLKFTSAIAEAIALVSEKYENPTSETTEQIQSARNILLDNYVPLLTANTDPENRLKSVRENSSQIRKELIAKLKDE 6pis-a1-m1-cA_6pis-a1-m1-cB Mouse two pore domain K+ channel TRAAK (K2P4.1) - Fab complex structure O88454 O88454 2.77 X-RAY DIFFRACTION 330 1.0 10090 (Mus musculus) 10090 (Mus musculus) 235 239 RSTTLLALLALVLLYLVSGALVFQALEQPHEQQAQKKMDHGRDQFLRDHPCVSQKSLEDFIKLLVEALGGGANPSAWNLGSAFFFSGTIITTIGYGNIVLHTDAGRLFCIFYALVGIPLFGMLLAGVGDRLGSSLRRGIGHIEAIFLKWHVPPGLVRSLSAVLFLLIGCLLFVLTPTFVFSYMESWSKLEAIYFVIVTLTTVGFGDYVPQPLVWFWILFGLAYFASVLTTIGNWL RSTTLLALLALVLLYLVSGALVFQALEQPHEQQAQKKMDHGRDQFLRDHPCVSQKSLEDFIKLLVEALGGGANPSSAWNLGSAFFFSGTIITTIGYGNIVLHTDAGRLFCIFYALVGIPLFGMLLAGVGDRLGSSLRRGIGHIEAIFLKWHVPPGLVRSLSAVLFLLIGCLLFVLTPTFVFSYMESWSKLEAIYFVIVTLTTVGFGDYVPPAYQPLVWFWILFGLAYFASVLTTIGNWL 6pjj-a1-m1-cA_6pjj-a1-m1-cB Human PRPF4B bound to benzothiophene inhibitor 224 Q13523 Q13523 2.4 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 320 325 YYRVNIGEVLDKRYNVYGYTNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLLRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLFSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE YYRVNIGEVLDKRYNVYGYTGQFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLLRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLFSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVEREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE 6pjj-a1-m1-cB_6pjj-a1-m1-cC Human PRPF4B bound to benzothiophene inhibitor 224 Q13523 Q13523 2.4 X-RAY DIFFRACTION 31 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 325 325 YYRVNIGEVLDKRYNVYGYTGQFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLLRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLFSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVEREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE GYYRVNIGEVLDKRYNVYGYTGQGSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLLRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLFSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE 6pjj-a1-m1-cD_6pjj-a1-m1-cB Human PRPF4B bound to benzothiophene inhibitor 224 Q13523 Q13523 2.4 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 316 325 VNIGEVLDKRYNVYGYTGSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLLRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADTPLFSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE YYRVNIGEVLDKRYNVYGYTGQFSNVVRARDNARANQEVAVKIIRNNELMQKTGLKELEFLKKLNDADPDDKFHCLRLLRHFYHKQHLCLVFEPLSMNLREVLKKYGKDVGLHIKAVRSYSQQLFLALKLLKRCNILHADIKPDNILVNESKTILKLCDFGSASHVADNDITPLFSRFYRAPEIIIGKSYDYGIDMWSVGCTLYELYTGKILFPGKTNNHMLKLAMDLKGKMPNKMIRKGVFKDQHFDQNLNFMYIEVEREKVTVMSTINPTKDLLADLIGCQRLPEDQRKKVHQLKDLLDQILMLDPAKRISINQALQHAFIQE 6pk8-a2-m1-cD_6pk8-a2-m1-cC Antibody scFv-M204 dimeric state 2.91 X-RAY DIFFRACTION 62 0.996 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 224 225 6pk8-a1-m1-cA_6pk8-a1-m1-cB AQSVEESGGRLVTPGTPLTLACTVSGFSLNTYSMFWVRQAPGKGLQWIGIISNFGVIYYATWAKGRFTISKTSTTVDLKITSPTTEDTATYFCVRKYGSEWGGDLWGPGTLVTVSSDMTQTPASVSEPVGGTVTIKCQASQSISSYLAWYQQKPGQRPRLLIYETSTLASGVPSRFKGSGSGTEFTLTISDLECADAATYYCQSTYENPTYVSFGGGTEVGVKS AQSVEESGGRLVTPGTPLTLACTVSGFSLNTYSMFWVRQAPGKGLQWIGIISNFGVIYYATWAKGRFTISKTSTTVDLKITSPTTEDTATYFCVRKYGSEWGGDLWGPGTLVTVSELDMTQTPASVSEPVGGTVTIKCQASQSISSYLAWYQQKPGQRPRLLIYETSTLASGVPSRFKGSGSGTEFTLTISDLECADAATYYCQSTYENPTYVSFGGGTEVGVKS 6pkg-a1-m1-cA_6pkg-a1-m1-cB Zebrafish N-acetylglucosamine-1-phosphodiester alpha-N-acetylglucosaminidase (NAGPA) catalytic domain auto-inhibited by pro-peptide F1QSF9 F1QSF9 2.8 X-RAY DIFFRACTION 62 1.0 7955 (Danio rerio) 7955 (Danio rerio) 307 307 6pkh-a1-m1-cA_6pkh-a1-m2-cA 6pki-a1-m1-cB_6pki-a1-m1-cA 6pki-a2-m1-cD_6pki-a2-m1-cC HSSDDDLLLPYTKSHGPSHSHRYVRDCQPVAHGTVTHETQAASKHSNSPVLESNIFISDITDDSGTHRWVSGHITEVHDPLRSVSVLEPGGPGGCAHNHRELVEVTAKTRKCLVAQNGGYFDTHTGQCLGNIISDGKLVRNSGGIQNAQFGIRKDGTLVFGYLSEDDILDQENPFVQLISGVVWLLRKGEIYINESIQAECDKTQETGNFRHFVDVISARTAVGHDKEGKLILFHVDGQTDVRGMNLWQVAKFLKDQNVMNAINLDGGGSATYVLNGSLASYPSDHCNPSKWRCPRAISTVLCIHER HSSDDDLLLPYTKSHGPSHSHRYVRDCQPVAHGTVTHETQAASKHSNSPVLESNIFISDITDDSGTHRWVSGHITEVHDPLRSVSVLEPGGPGGCAHNHRELVEVTAKTRKCLVAQNGGYFDTHTGQCLGNIISDGKLVRNSGGIQNAQFGIRKDGTLVFGYLSEDDILDQENPFVQLISGVVWLLRKGEIYINESIQAECDKTQETGNFRHFVDVISARTAVGHDKEGKLILFHVDGQTDVRGMNLWQVAKFLKDQNVMNAINLDGGGSATYVLNGSLASYPSDHCNPSKWRCPRAISTVLCIHER 6pku-a2-m1-cD_6pku-a2-m1-cB Guinea pig N-acetylglucosamine-1-phosphodiester alpha-N-acetylglucosaminidase (NAGPA) catalytic domain (C51S C221S) in complex with N-acetyl-alpha-D-glucosamine (alpha-GlcNAc) and mannose 6-phosphate (M6P) H0VTT5 H0VTT5 1.949 X-RAY DIFFRACTION 64 1.0 10141 (Cavia porcellus) 10141 (Cavia porcellus) 263 264 6pku-a1-m1-cA_6pku-a1-m1-cC 6pky-a1-m1-cB_6pky-a1-m1-cA 6pky-a2-m1-cD_6pky-a2-m1-cC LKHENWPPPGPPAVRTFVSHFGGRAVSGHLTRAAAPLRTFSVLEPGGPGGCSQKRRATVEETAQAAACRIAQNGGFFRMNTGECLGNVVSDGRRVSSSGGLQNAQFGIRRDGTLVTGYLSEEEVLDTENPFVQLLSGVVWLIRNGSIYINESQATESDETQETGSFSKFVNVMSARTAIGHDRDGQLVLFHADGQTEQRGINLWEMAEFLLRQGVVNAINLDGGGSATFVLNGTLASYPSDHCQDNMWRCPRRVSTVVCVHEP LKHENWPPPPGPPAVRTFVSHFGGRAVSGHLTRAAAPLRTFSVLEPGGPGGCSQKRRATVEETAQAAACRIAQNGGFFRMNTGECLGNVVSDGRRVSSSGGLQNAQFGIRRDGTLVTGYLSEEEVLDTENPFVQLLSGVVWLIRNGSIYINESQATESDETQETGSFSKFVNVMSARTAIGHDRDGQLVLFHADGQTEQRGINLWEMAEFLLRQGVVNAINLDGGGSATFVLNGTLASYPSDHCQDNMWRCPRRVSTVVCVHEP 6pkv-a1-m1-cC_6pkv-a1-m1-cD Cryo-EM structure of the zebrafish TRPM2 channel in the apo conformation, processed with C4 symmetry A0A0R4IMY7 A0A0R4IMY7 4.3 ELECTRON MICROSCOPY 122 1.0 7955 (Danio rerio) 7955 (Danio rerio) 1087 1087 6pkv-a1-m1-cA_6pkv-a1-m1-cB 6pkv-a1-m1-cA_6pkv-a1-m1-cD 6pkv-a1-m1-cB_6pkv-a1-m1-cC 6pkw-a1-m1-cB_6pkw-a1-m1-cA 6pkw-a1-m1-cB_6pkw-a1-m1-cC 6pkw-a1-m1-cD_6pkw-a1-m1-cA 6pkw-a1-m1-cD_6pkw-a1-m1-cC LASWIKENIKFGDISFTGKYVRVSSDTSCENLYQLMTEQWKLRSPNLLISVTGGAKNFYIKTHLKDKFRRGLIKVAQTTGAWILTGGTHAGVMKHVGMAVRDYQIVVIGVAPDINHTHFLLVDDGTQGHYGVEIELRARLEKLISKLSLRESGVTIPVVCVVLDGGPGTLNTIYNSMLNHTPCVVLEGSGRLADVIAHVATMALINRLLKRFFMQLQIIEWTKKIQDILRMPHLLTVFRIVDVAILQALLKASRSDERHCWERQLELAVAWNRVDIAESEIFTEESQWTSSDLHPAMFSALVGDKPEFVRLLLENGVCVREFLEREETLCELYSHLPSCFFLRKLAKRVQCLSHVSEEVRHLLGSFTQPLYIASRYKDTVWDPGRDLFLWAVVQNNRELAEIGWEQCRDCIAAALAASKILRKLAQESGEDDSEEATEMLELANHYEKQAIGVFSECHSWDAQRAQKLLIRISPSWGRSTCLWLALEAHDKSFIAHSGVQALLTQIWCGELSVDNPHWKVLLCMIFFPLIYTGFLTFRRDEDIQRQAERTEQCSSRLMSFLKSPQVKFYWNIASYFGFLWLFAVVLMIDFQTSPSWRELLLYVWLTSLVCEEIRQLYHDFGFRRKAKMYIKDLWNILDVLSIVLFIAGLICRLQASDTVFYIGKVILCIDFIIFCLRLMAIFSISRTLGPKIIIVRRMMLDLFFFMFLLSIWVVAYGVAKQGILIENEERLNWIIRGAVYEPYNTPVFPEWLTIMMLCVYLLFANILLLNLLIAIFNYDNTDTIWKFQRYELIKEYHSRPALPPPFILLSHLILFIRGVFLRHKNFRQELEQTEEEELLSWEAYMKDNYLASTRQDESQSVEHRIHDTAEKVGAMSELLEREQEMVXXXXXXXXXXXXXXXXXXXXXXDEEAPHMFARQLQYPDSTVRRFPVPEEKVSWEVNFSPYQPPVYNQKHRNPGGRTGIRGKGALNTLGPNHILHPIFTRWRDKVLEFLAVWRWALLGGPALAQVLERILGKKLNEGEEVYKGYVDDSRNTDNAWVETSIITLHCDKNTMADLNHMVELQWREVSSDACRCSYQREALRQIA LASWIKENIKFGDISFTGKYVRVSSDTSCENLYQLMTEQWKLRSPNLLISVTGGAKNFYIKTHLKDKFRRGLIKVAQTTGAWILTGGTHAGVMKHVGMAVRDYQIVVIGVAPDINHTHFLLVDDGTQGHYGVEIELRARLEKLISKLSLRESGVTIPVVCVVLDGGPGTLNTIYNSMLNHTPCVVLEGSGRLADVIAHVATMALINRLLKRFFMQLQIIEWTKKIQDILRMPHLLTVFRIVDVAILQALLKASRSDERHCWERQLELAVAWNRVDIAESEIFTEESQWTSSDLHPAMFSALVGDKPEFVRLLLENGVCVREFLEREETLCELYSHLPSCFFLRKLAKRVQCLSHVSEEVRHLLGSFTQPLYIASRYKDTVWDPGRDLFLWAVVQNNRELAEIGWEQCRDCIAAALAASKILRKLAQESGEDDSEEATEMLELANHYEKQAIGVFSECHSWDAQRAQKLLIRISPSWGRSTCLWLALEAHDKSFIAHSGVQALLTQIWCGELSVDNPHWKVLLCMIFFPLIYTGFLTFRRDEDIQRQAERTEQCSSRLMSFLKSPQVKFYWNIASYFGFLWLFAVVLMIDFQTSPSWRELLLYVWLTSLVCEEIRQLYHDFGFRRKAKMYIKDLWNILDVLSIVLFIAGLICRLQASDTVFYIGKVILCIDFIIFCLRLMAIFSISRTLGPKIIIVRRMMLDLFFFMFLLSIWVVAYGVAKQGILIENEERLNWIIRGAVYEPYNTPVFPEWLTIMMLCVYLLFANILLLNLLIAIFNYDNTDTIWKFQRYELIKEYHSRPALPPPFILLSHLILFIRGVFLRHKNFRQELEQTEEEELLSWEAYMKDNYLASTRQDESQSVEHRIHDTAEKVGAMSELLEREQEMVXXXXXXXXXXXXXXXXXXXXXXDEEAPHMFARQLQYPDSTVRRFPVPEEKVSWEVNFSPYQPPVYNQKHRNPGGRTGIRGKGALNTLGPNHILHPIFTRWRDKVLEFLAVWRWALLGGPALAQVLERILGKKLNEGEEVYKGYVDDSRNTDNAWVETSIITLHCDKNTMADLNHMVELQWREVSSDACRCSYQREALRQIA 6pkw-a1-m1-cB_6pkw-a1-m1-cD Cryo-EM structure of the zebrafish TRPM2 channel in the apo conformation, processed with C2 symmetry (pseudo C4 symmetry) A0A0R4IMY7 A0A0R4IMY7 4.5 ELECTRON MICROSCOPY 14 1.0 7955 (Danio rerio) 7955 (Danio rerio) 986 986 LASWIKENIKGKYVRVSSDTSCENLYQLMTEQDKFRRGLIKVAQLTGGTHAGVMKHVGMAVRDYTHFLLVDDGTQGHYGVEIELRARLEKLISKLGVTIPVVCVLNTIYNSMLNHTPCVTMALINRLLKRFFMELQIIEWTKKIQDILRMPHLLTVDVAILQALLKASRSDEHCWERQLELAVAWNRVDIAESEIFTWTSSDLHPAMFSALVGDKPEFVRLLLENGVCVREFLEREETLCELYSHLPSCFFLRKLAKRVQCLSHVSEEVRHLLGSFTQPLYIASRYKDTVWDPGRDLFLWAVVQNNRELAEIGWEQCRDCIAAALAASKILRKLAQESEATEMLELANHYEKQAIGVFSECHSWDAQRAQKLLIRISPSWGRSTCLWLALEAHDKSFIAHSGVQALLTQIWCGELSVDNPHWKVLLCMIFFPLIYTGFLTFRRDEDIQRQAERTEQCSSRLMSFLKSPQVKFYWNIASYFGFLWLFAVVLMSWRELLLYVWLTSLVCEEIRQLYHDGFRRKAKMYIKDLWNILDVLSIVLFIAGLICRLQASDTVFYIGKVILCIDFIIFCLRLMAIFSISRTLGPKIIIVRRMMLDLFFFMFLLSIWVVAYGVAKQGILIENEERLNWIIRGAVYEPYITIFTPVFPEWLTIMMLCVYLLFANILLLNLLIAIFNYDNTDTIWKFQRYELIKEYHSRPALPPPFILLSHLILFIRGVFLRHKNFRQELEQTEEEELLSWEAYMKDNYLASTRQDESQSVEHRIHDTAEKVGAMSELLEREQEMVXXXXXXXXXXXXXXXXXXXXXXDEEAPHMFARQLQYPDSTVRRFPVPEEKVSWEVNFSPYQPPVYNQKHRNPGGRTGIRGKGALNTLGPNHILHPIFTRWRDKVLEFLAVWRWALLGGPALAQVLERILGKKLNEGEEVYKGYVDDSRNTDNAWVETSIITLHCDKNTMADLNHMVELQWREVSSDACRCSYQREALRQIA LASWIKENIKGKYVRVSSDTSCENLYQLMTEQDKFRRGLIKVAQLTGGTHAGVMKHVGMAVRDYTHFLLVDDGTQGHYGVEIELRARLEKLISKLGVTIPVVCVLNTIYNSMLNHTPCVTMALINRLLKRFFMELQIIEWTKKIQDILRMPHLLTVDVAILQALLKASRSDEHCWERQLELAVAWNRVDIAESEIFTWTSSDLHPAMFSALVGDKPEFVRLLLENGVCVREFLEREETLCELYSHLPSCFFLRKLAKRVQCLSHVSEEVRHLLGSFTQPLYIASRYKDTVWDPGRDLFLWAVVQNNRELAEIGWEQCRDCIAAALAASKILRKLAQESEATEMLELANHYEKQAIGVFSECHSWDAQRAQKLLIRISPSWGRSTCLWLALEAHDKSFIAHSGVQALLTQIWCGELSVDNPHWKVLLCMIFFPLIYTGFLTFRRDEDIQRQAERTEQCSSRLMSFLKSPQVKFYWNIASYFGFLWLFAVVLMSWRELLLYVWLTSLVCEEIRQLYHDGFRRKAKMYIKDLWNILDVLSIVLFIAGLICRLQASDTVFYIGKVILCIDFIIFCLRLMAIFSISRTLGPKIIIVRRMMLDLFFFMFLLSIWVVAYGVAKQGILIENEERLNWIIRGAVYEPYITIFTPVFPEWLTIMMLCVYLLFANILLLNLLIAIFNYDNTDTIWKFQRYELIKEYHSRPALPPPFILLSHLILFIRGVFLRHKNFRQELEQTEEEELLSWEAYMKDNYLASTRQDESQSVEHRIHDTAEKVGAMSELLEREQEMVXXXXXXXXXXXXXXXXXXXXXXDEEAPHMFARQLQYPDSTVRRFPVPEEKVSWEVNFSPYQPPVYNQKHRNPGGRTGIRGKGALNTLGPNHILHPIFTRWRDKVLEFLAVWRWALLGGPALAQVLERILGKKLNEGEEVYKGYVDDSRNTDNAWVETSIITLHCDKNTMADLNHMVELQWREVSSDACRCSYQREALRQIA 6ple-a1-m1-cA_6ple-a1-m1-cB Crystal structure of MhuD R26S mutant in complex with biliverdin P9WKH3 P9WKH3 2.5 X-RAY DIFFRACTION 26 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 96 96 PVVKINAIEVPAGAGPELEKRFAHSAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAAHAGHRANPVATGASLLEFEVVLD PVVKINAIEVPAGAGPELEKRFAHSAHAVENSPGFLGFQLLRPVKGEERYFVVTHWESDEAFQAWANGPAIAAHAGHRANPVATGASLLEFEVVLD 6pll-a2-m1-cB_6pll-a2-m1-cA Crystal structure of the ZIG-8 IG1 homodimer G5ED00 G5ED00 2.693 X-RAY DIFFRACTION 45 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 116 118 DPASEEVMACLRQERSRVENPSQTIVNVVAENPAYLHCSVPAEHEIAWTRVSDGALLTAGNRTFTRDPRWQVSKKSANIWVLNLRRAEQQDSGCYLCEINDKHNTVYAVYLKVLEP DPASEEVMACLRQERSRVENPSQTIVNVVAENPAYLHCSVPPDAEHEIAWTRVSDGALLTAGNRTFTRDPRWQVSKKSANIWVLNLRRAEQQDSGCYLCEINDKHNTVYAVYLKVLEP 6pmu-a1-m1-cA_6pmu-a1-m1-cB Structural Characterization of Beta Cyanoalanine Synthase from Tetranychus Urticae T1KF23 T1KF23 2.1 X-RAY DIFFRACTION 155 0.996 32264 (Tetranychus urticae) 32264 (Tetranychus urticae) 279 284 6xo2-a1-m1-cA_6xo2-a1-m2-cA 7mfj-a1-m1-cAAA_7mfj-a1-m1-cBBB TVDRINGITPSALDLIGNTPLIALDRLWPGPGRLLAKCEFLNPTASLKDRSSYYMIAKAKESGQLKDGESVIEVTSGNQGGGIACVTAVMGHPFTVTMSKGNSPQRAIMMNALGANVILVDQVTGKPGNVTADDVAAAEETAMKIREETNAYYVDQFNNPTNCLAHYETTGPEIWRQTNGRIDAFLVGCGTGGCFVGTSKFLKEKNPNVRCFVVEPEDSISVSDEEAIEYRKLLGQKEGLFCGFTTGGNIAAAIKLLKSGQLPKDAWVVTILCDSGLKY SMTESTVDRINGITPSALDLIGNTPLIALDRLWPGPGRLLAKCEFLNPTASLKDRSSYYMIAKAKESGQLKDGESVIEVTSGNQGGGIACVTAVMGHPFTVTMSKGNSPQRAIMMNALGANVILVDQVTGKPGNVTADDVAAAEETAMKIREETNAYYVDQFNNPTNCLAHYETTGPEIWRQTNGRIDAFLVGCGTGGCFVGTSKFLKEKNPNVRCFVVEPDSISVSDEEAIEYRKLLGQKEGLFCGFTTGGNIAAAIKLLKSGQLPKDAWVVTILCDSGLKYP 6pnl-a1-m1-cA_6pnl-a1-m2-cA Structure of a UDP-GALE 4-epimerase (Mth375) from the thermophilic pseudomurein-containing methanogen Methanothermobacter thermautotrophicus O26475 O26475 2.01 X-RAY DIFFRACTION 81 1.0 562 (Escherichia coli) 562 (Escherichia coli) 334 334 6pmh-a1-m1-cA_6pmh-a1-m2-cA HPFTMIMDEFRAYDGKVLVTGGAGCVGSNLTGNLAKAGANVIILDNLSSSYEWNIPEYENIEFVKGDILDDEVLKRVFKERPDYVFHLAAHFANQNSVDNPEKDLLVNGLGILKVLEYAQLVGVERFVYSSSGGVYGLDSKIPFEEHDISISLHTPYQVTKLLGELYTNYFHNLYEMPIVNARFFNVFGPGEVPGKYRNVIPNFFYWAMNQQPLPITGDGSETRDWTFVEDIVRGLMAMGVRREAIGEAINLGSGTEHQVIEMAGIINELTENPAGVVYRPRRDWDAKTRLLSSIDKARRLLDYEPQVSFREGLERTHRWFTENWELIRKSAEF HPFTMIMDEFRAYDGKVLVTGGAGCVGSNLTGNLAKAGANVIILDNLSSSYEWNIPEYENIEFVKGDILDDEVLKRVFKERPDYVFHLAAHFANQNSVDNPEKDLLVNGLGILKVLEYAQLVGVERFVYSSSGGVYGLDSKIPFEEHDISISLHTPYQVTKLLGELYTNYFHNLYEMPIVNARFFNVFGPGEVPGKYRNVIPNFFYWAMNQQPLPITGDGSETRDWTFVEDIVRGLMAMGVRREAIGEAINLGSGTEHQVIEMAGIINELTENPAGVVYRPRRDWDAKTRLLSSIDKARRLLDYEPQVSFREGLERTHRWFTENWELIRKSAEF 6pnr-a1-m1-cA_6pnr-a1-m1-cC A GH31 family sulfoquinovosidase from E. rectale in complex with aza-sugar inhibitor IFGSQ C4ZGB7 C4ZGB7 1.9 X-RAY DIFFRACTION 27 1.0 39491 ([Eubacterium] rectale) 39491 ([Eubacterium] rectale) 667 667 MQIKVNDNEFQLFVGEKRILEHSKERPMIYVGVGQEDVDMYRGNFKITDYVTERFPLKLTDVIQTADTVRLCFESYIIAKIKCDENLCTIDFEQKDDRINRFWFRVAADKEEKCYGCGEQMSYFNLRGRNFPIWTSEPGVGRDKTTYVTWRSDVENKAGGDYYNTNYPQPTFVSTNKYYLHVDSTAYADFDFRNDSFHELQIWEVPKQIRIECADTYLKLLERITTYFGRQPKLPDWVYNGLIIGVQGGNERSFGLLDKTLDRNIKVAGIWCQDWCGKRVTSFGKRLQWDWKYHKEMYPDLPKKIKEINAKGIKFLGYVNPYLVNDGELYKEGKEKGYFATKADGSDYLVDFGEFYCGVVDLTNPEAFEWFKDIIKEYTLGIGIDGWMADFGEYLPTDDICLYSGKSPMIEHNHWPVLWAKCNYEAVKESGKLGDVVYFMRAGGAGSQKYCTLLWAGDQSVDFTIHDGLASVICGALSAGMMGCGLTHSDIGGYTSLFDNTRTKELFLRWAEMAMFTPFMRTHEGNRPDTNFQYYDDEDTMERLARLVDVYTMLAPYTKTLVEENADSGHPVQRPLFMHYESDAKAYDIQYEYLFGRDMLIAPVYEQDKHEWDVYLPQDEWVHLWTGEEYHGGEITVSAELGYTPAFYRKNSEFADIFEEIREKYGV MQIKVNDNEFQLFVGEKRILEHSKERPMIYVGVGQEDVDMYRGNFKITDYVTERFPLKLTDVIQTADTVRLCFESYIIAKIKCDENLCTIDFEQKDDRINRFWFRVAADKEEKCYGCGEQMSYFNLRGRNFPIWTSEPGVGRDKTTYVTWRSDVENKAGGDYYNTNYPQPTFVSTNKYYLHVDSTAYADFDFRNDSFHELQIWEVPKQIRIECADTYLKLLERITTYFGRQPKLPDWVYNGLIIGVQGGNERSFGLLDKTLDRNIKVAGIWCQDWCGKRVTSFGKRLQWDWKYHKEMYPDLPKKIKEINAKGIKFLGYVNPYLVNDGELYKEGKEKGYFATKADGSDYLVDFGEFYCGVVDLTNPEAFEWFKDIIKEYTLGIGIDGWMADFGEYLPTDDICLYSGKSPMIEHNHWPVLWAKCNYEAVKESGKLGDVVYFMRAGGAGSQKYCTLLWAGDQSVDFTIHDGLASVICGALSAGMMGCGLTHSDIGGYTSLFDNTRTKELFLRWAEMAMFTPFMRTHEGNRPDTNFQYYDDEDTMERLARLVDVYTMLAPYTKTLVEENADSGHPVQRPLFMHYESDAKAYDIQYEYLFGRDMLIAPVYEQDKHEWDVYLPQDEWVHLWTGEEYHGGEITVSAELGYTPAFYRKNSEFADIFEEIREKYGV 6pnu-a1-m1-cD_6pnu-a1-m1-cC Crystal structure of native DauA 2 X-RAY DIFFRACTION 35 1.0 1872678 (Pseudoalteromonas fuliginea) 1872678 (Pseudoalteromonas fuliginea) 482 483 MGSSHHHHLSKQLYIGGKLITSDATTEIINPATLEIVGEISAAGINEANMALESAQEAFSSWSTTPAIERAQWMLKLRDAVIANEQHLRECVHLEMAKPWQSTADDFQMLVDSLNFYADAIVNIADEEIKDNEGTHSHVLSREPVGVAAAFLAWNFPLLNLAYKLGPAMAAGCPLVVKPSSKTPLSAYAVGELCEQIGLPAGVVNILSGMDSTVGDAISASTIPSVLTLIGSTNVGKHVIATGATSIKRYSMELGGNAPAIVCSDANLDNAADVICGVKFANAGQICVTPNRVFVHESVADEFIEKVLTRAKAVKVGFDKNEAIDMGPVMDANSWQRIDELVKDAQQNGAQLQLGGKKPTGVNGYFYEPTVLTNVDSSMKIYKDEIFGPVISIIIFSDNEQVLSDANDTDAGLSSFIFSSNEDTISYFAKHLRFGEVQVNGIKYSINLPHFGIKQSGVGVDCSLLALDDYLAYKRVSRALKV MGSSHHHHSLSKQLYIGGKLITSDATTEIINPATLEIVGEISAAGINEANMALESAQEAFSSWSTTPAIERAQWMLKLRDAVIANEQHLRECVHLEMAKPWQSTADDFQMLVDSLNFYADAIVNIADEEIKDNEGTHSHVLSREPVGVAAAFLAWNFPLLNLAYKLGPAMAAGCPLVVKPSSKTPLSAYAVGELCEQIGLPAGVVNILSGMDSTVGDAISASTIPSVLTLIGSTNVGKHVIATGATSIKRYSMELGGNAPAIVCSDANLDNAADVICGVKFANAGQICVTPNRVFVHESVADEFIEKVLTRAKAVKVGFDKNEAIDMGPVMDANSWQRIDELVKDAQQNGAQLQLGGKKPTGVNGYFYEPTVLTNVDSSMKIYKDEIFGPVISIIIFSDNEQVLSDANDTDAGLSSFIFSSNEDTISYFAKHLRFGEVQVNGIKYSINLPHFGIKQSGVGVDCSLLALDDYLAYKRVSRALKV 6pnu-a1-m2-cB_6pnu-a1-m1-cC Crystal structure of native DauA 2 X-RAY DIFFRACTION 30 1.0 1872678 (Pseudoalteromonas fuliginea) 1872678 (Pseudoalteromonas fuliginea) 482 483 6pnu-a1-m1-cA_6pnu-a1-m1-cD GSSHHHHSLSKQLYIGGKLITSDATTEIINPATLEIVGEISAAGINEANMALESAQEAFSSWSTTPAIERAQWMLKLRDAVIANEQHLRECVHLEMAKPWQSTADDFQMLVDSLNFYADAIVNIADEEIKDNEGTHSHVLSREPVGVAAAFLAWNFPLLNLAYKLGPAMAAGCPLVVKPSSKTPLSAYAVGELCEQIGLPAGVVNILSGMDSTVGDAISASTIPSVLTLIGSTNVGKHVIATGATSIKRYSMELGGNAPAIVCSDANLDNAADVICGVKFANAGQICVTPNRVFVHESVADEFIEKVLTRAKAVKVGFDKNEAIDMGPVMDANSWQRIDELVKDAQQNGAQLQLGGKKPTGVNGYFYEPTVLTNVDSSMKIYKDEIFGPVISIIIFSDNEQVLSDANDTDAGLSSFIFSSNEDTISYFAKHLRFGEVQVNGIKYSINLPHFGIKQSGVGVDCSLLALDDYLAYKRVSRALKV MGSSHHHHSLSKQLYIGGKLITSDATTEIINPATLEIVGEISAAGINEANMALESAQEAFSSWSTTPAIERAQWMLKLRDAVIANEQHLRECVHLEMAKPWQSTADDFQMLVDSLNFYADAIVNIADEEIKDNEGTHSHVLSREPVGVAAAFLAWNFPLLNLAYKLGPAMAAGCPLVVKPSSKTPLSAYAVGELCEQIGLPAGVVNILSGMDSTVGDAISASTIPSVLTLIGSTNVGKHVIATGATSIKRYSMELGGNAPAIVCSDANLDNAADVICGVKFANAGQICVTPNRVFVHESVADEFIEKVLTRAKAVKVGFDKNEAIDMGPVMDANSWQRIDELVKDAQQNGAQLQLGGKKPTGVNGYFYEPTVLTNVDSSMKIYKDEIFGPVISIIIFSDNEQVLSDANDTDAGLSSFIFSSNEDTISYFAKHLRFGEVQVNGIKYSINLPHFGIKQSGVGVDCSLLALDDYLAYKRVSRALKV 6pnu-a3-m1-cB_6pnu-a3-m3-cD Crystal structure of native DauA 2 X-RAY DIFFRACTION 182 0.998 1872678 (Pseudoalteromonas fuliginea) 1872678 (Pseudoalteromonas fuliginea) 482 482 6pnu-a1-m1-cA_6pnu-a1-m1-cC 6pnu-a1-m1-cD_6pnu-a1-m2-cB 6pnu-a2-m1-cA_6pnu-a2-m1-cC 6pop-a1-m1-cA_6pop-a1-m1-cE 6pop-a2-m1-cB_6pop-a2-m1-cF 6pop-a3-m1-cC_6pop-a3-m1-cD GSSHHHHSLSKQLYIGGKLITSDATTEIINPATLEIVGEISAAGINEANMALESAQEAFSSWSTTPAIERAQWMLKLRDAVIANEQHLRECVHLEMAKPWQSTADDFQMLVDSLNFYADAIVNIADEEIKDNEGTHSHVLSREPVGVAAAFLAWNFPLLNLAYKLGPAMAAGCPLVVKPSSKTPLSAYAVGELCEQIGLPAGVVNILSGMDSTVGDAISASTIPSVLTLIGSTNVGKHVIATGATSIKRYSMELGGNAPAIVCSDANLDNAADVICGVKFANAGQICVTPNRVFVHESVADEFIEKVLTRAKAVKVGFDKNEAIDMGPVMDANSWQRIDELVKDAQQNGAQLQLGGKKPTGVNGYFYEPTVLTNVDSSMKIYKDEIFGPVISIIIFSDNEQVLSDANDTDAGLSSFIFSSNEDTISYFAKHLRFGEVQVNGIKYSINLPHFGIKQSGVGVDCSLLALDDYLAYKRVSRALKV MGSSHHHHLSKQLYIGGKLITSDATTEIINPATLEIVGEISAAGINEANMALESAQEAFSSWSTTPAIERAQWMLKLRDAVIANEQHLRECVHLEMAKPWQSTADDFQMLVDSLNFYADAIVNIADEEIKDNEGTHSHVLSREPVGVAAAFLAWNFPLLNLAYKLGPAMAAGCPLVVKPSSKTPLSAYAVGELCEQIGLPAGVVNILSGMDSTVGDAISASTIPSVLTLIGSTNVGKHVIATGATSIKRYSMELGGNAPAIVCSDANLDNAADVICGVKFANAGQICVTPNRVFVHESVADEFIEKVLTRAKAVKVGFDKNEAIDMGPVMDANSWQRIDELVKDAQQNGAQLQLGGKKPTGVNGYFYEPTVLTNVDSSMKIYKDEIFGPVISIIIFSDNEQVLSDANDTDAGLSSFIFSSNEDTISYFAKHLRFGEVQVNGIKYSINLPHFGIKQSGVGVDCSLLALDDYLAYKRVSRALKV 6pnx-a1-m1-cA_6pnx-a1-m1-cB Crystal Structure of an Asymmetric Dimer of FGF Receptor 3 Kinases Trapped in A-loop Tyrosine Transphosphorylation Reaction P22607 P22607 2.199 X-RAY DIFFRACTION 64 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 291 294 ELELPADPKWELSRARLTLGKPLGEGAFGQVVMAEAIGIDKDRAAKPVTVAVKMLKDDATDKDLSDLVSEMEMMKMIGKHKNIINLLGACTQGGPLYVLVEYAAKGNLREFLRARRPPPEEQLTFKDLVSCAYQVARGMEYLASQKCIHRDLAARNVLVTEDNVMKIADFGLARDVHNLDYYKKTTNGRLPVKWMAPEALFDEVYTHQSDVWSFGVLLWEIFTLGGSPYPGIPVEELFKLLKEGHRMDKPANCTHDLYMIMRECWHAAPSQRPTFKQLVEDLDRVLTVTST SELELPADPKWELSRARLTLGKPLGEGAFGQVVMAEAIGIDKDRAAKPVTVAVKMLKDDATDKDLSDLVSEMEMMKMIGKHKNIINLLGACTQGGPLYVLVEYAAKGNLREFLRARRPPGLDPEEQLTFKDLVSCAYQVARGMEYLASQKCIHRDLAARNVLVTEDNVMKIADFGLARDVHNLDYYKKTTNGRLPVKWMAPEALFDEVYTHQSDVWSFGVLLWEIFTLGGSPYPGIPVEELFKLLKEGHRMDKPANCTHDLYMIMRECWHAAPSQRPTFKQLVEDLDRVLTVTS 6pnz-a1-m1-cB_6pnz-a1-m1-cC The structure of the Aspartate Transcarbamoylase trimer from Staphylococcus aureus complexed with PALA at 2.27 Resolution. Q5HGN2 Q5HGN2 2.27 X-RAY DIFFRACTION 79 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 293 293 6pnz-a1-m1-cA_6pnz-a1-m1-cB 6pnz-a1-m1-cA_6pnz-a1-m1-cC MNHLLSMEHLSTDQIYKLIQKASQFKSGERQLPNFEGKYVANLFFENSTRTKCSFEMAELKLGLKTISFETSTSSVSKGESLYDTCKTLESIGCDLLVIRHPFNNYYEKLANINIPIANAGDGSGQHPTQSLLDLMTIYEEYGYFEGLNVLICGDIKNSRVARSNYHSLKALGANVMFNSPNAWIDDSLEAPYVNIDDVIETVDIVMLLRIQHERHGLAEETRFAADDYHQKHGLNEVRYNKLQEHAIVMHPAPVNRGVEIQSDLVEASKSRIFKQMENGVYLRMAVIDELLK MNHLLSMEHLSTDQIYKLIQKASQFKSGERQLPNFEGKYVANLFFENSTRTKCSFEMAELKLGLKTISFETSTSSVSKGESLYDTCKTLESIGCDLLVIRHPFNNYYEKLANINIPIANAGDGSGQHPTQSLLDLMTIYEEYGYFEGLNVLICGDIKNSRVARSNYHSLKALGANVMFNSPNAWIDDSLEAPYVNIDDVIETVDIVMLLRIQHERHGLAEETRFAADDYHQKHGLNEVRYNKLQEHAIVMHPAPVNRGVEIQSDLVEASKSRIFKQMENGVYLRMAVIDELLK 6po4-a3-m1-cE_6po4-a3-m1-cF 2.1 Angstrom Resolution Crystal Structure of 5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase (mtnN) from Haemophilus influenzae PittII. A0A0E1SMD9 A0A0E1SMD9 2.1 X-RAY DIFFRACTION 126 1.0 374933 (Haemophilus influenzae PittII) 374933 (Haemophilus influenzae PittII) 232 232 6po4-a1-m1-cB_6po4-a1-m1-cA 6po4-a2-m1-cD_6po4-a2-m1-cC NAMKIGIVGAMAQEVEILKNLMTERTETRVASAVIFEGKINGKDIALLQSGIGKVAAAIGTTALLQLAKPDCVINTGSAGGVAKGLKVGDIVISDETRYHDADVTAFGYEKGQLPANPAAFLSDKKLADLAQEMAEKQGQSVKRGLICSGDSFINSEDKIAQIQADFPNVMGVEMEATAIAQVCYAFNVPFVVVRAISDGGDGKASISFEEFLPLAAKQSSALVLEMIDRLS NAMKIGIVGAMAQEVEILKNLMTERTETRVASAVIFEGKINGKDIALLQSGIGKVAAAIGTTALLQLAKPDCVINTGSAGGVAKGLKVGDIVISDETRYHDADVTAFGYEKGQLPANPAAFLSDKKLADLAQEMAEKQGQSVKRGLICSGDSFINSEDKIAQIQADFPNVMGVEMEATAIAQVCYAFNVPFVVVRAISDGGDGKASISFEEFLPLAAKQSSALVLEMIDRLS 6pon-a1-m1-cA_6pon-a1-m2-cB CRYSTAL STRUCTURE OF THE N-TERMINAL DOMAIN OF FIBRONECTIN- BINDING PROTEIN PAVA FROM STREPTOCOCCUS PNEUMONIAE Q8DQ36 Q8DQ36 2.395 X-RAY DIFFRACTION 156 0.992 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 255 265 SFDGFFLHHIVEELRSELVNGRIQKINQPFEQELVLQIRSNRQSHRLLLSAHPVFGRIQLTQTTFENPAQPSTFIMVLRKYLQGALIESIEQVENDRIVEITVSNKNEIGDHIQATLIIEIMGKHSNILLVDKSSHKILEVIKHVGFSQNSYRTLLPGSTYIAPPSTESLNPFTIKDEKLFEILQTQELTAKNLQSLFQGLGRDTANELERILVSEKLSAFRNFFNQETKPCLTETSFSPVPFANLSDLLDTYYK SFDGFFLHHIVEELRSELVNGRIQKINQPFEQELVLQIRSNRQSHRLLLSAHPVFGRIQLTQTTFENPAQPSTFIMVLRKYLQGALIESIEQVENDRIVEITVSNKNEIGDHIQATLIIEIMGKHSNILLVDKSSHKILEVIKHVGFSQNSYRTLLPGSTYIAPPSSLNPFTIKDEKLFEILQTQELTAKNLQSLFQGLGRDTANELERILVSEKLSAFRNFFNQETKPCLTETSFSPVPFANQAGEPFANLSDLLDTYYKNKLE 6pp5-a1-m1-cD_6pp5-a1-m1-cE ClpX in ClpX-ClpP complex bound to substrate and ATP-gamma-S, class 4 P0A6H1 P0A6H1 3.98 ELECTRON MICROSCOPY 144 0.997 562 (Escherichia coli) 562 (Escherichia coli) 347 348 6po1-a1-m1-cD_6po1-a1-m1-cE 6po3-a1-m1-cC_6po3-a1-m1-cD 6po3-a1-m1-cF_6po3-a1-m1-cE 6pp6-a1-m1-cC_6pp6-a1-m1-cD 6pp6-a1-m1-cF_6pp6-a1-m1-cE SALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKSDYDVQKAQRGIVYIDQIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVAAVPPQGQEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIYG SALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKSDYDVQKAQRGIVYIDQIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVAAVPPQGGRQEFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIY 6pps-a2-m1-cC_6pps-a2-m1-cD A blue light illuminated LOV-PAS construct from the LOV-HK sensory protein from Brucella abortus (construct 15-273) Q2YKK7 Q2YKK7 2.8 X-RAY DIFFRACTION 169 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 256 259 6ph2-a1-m1-cB_6ph2-a1-m1-cA 6ph2-a2-m1-cC_6ph2-a2-m1-cD 6ph3-a1-m1-cA_6ph3-a1-m1-cB 6ph3-a2-m1-cC_6ph3-a2-m1-cD 6pps-a1-m1-cA_6pps-a1-m1-cB ATDPFRAAVEFTLMPMLITNPHLPDNPIVFANPAFLKLTGYEADEVMGRNCRFLQGHGTDPAHVRAIKSAIAAEKPIDIDIINYKKSGEAFWNRLHISPVHNANGRLQHFVSSQLDVTLELSRLVELEKERKTLSIETARSKDQLDYIVEVANIGFWTREFYSGKMTCSAECRRIYGFTPDEPVHFDTILDLVVLEDRMTVVQKAHQAVTGEPYSIEYRIVTRLGETRWLETRAKALTGENPLVLGIVQDVTERKH ATDPFRAAVEFTLMPMLITNPHLPDNPIVFANPAFLKLTGYEADEVMGRNCRFLQGHGTDPAHVRAIKSAIAAEKPIDIDIINYKKSGEAFWNRLHISPVHNANGRLQHFVSSQLDVTLELSRLVELEKERKTLSIETARSKDQLDYIVEVANIGFWTREFYSGKMTCSAECRRIYGFTPDEPVHFDTILDLVVLEDRMTVVQKAHQAVTGEPYSIEYRIVTRLGETRWLETRAKALTGENPLVLGIVQDVTERKHHHH 6pq5-a1-m2-cB_6pq5-a1-m3-cA AGAAAA segment 113-118 from human prion P04156 P04156 1.5 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 AGAAAA AGAAAA 6pq5-a1-m2-cB_6pq5-a1-m6-cB AGAAAA segment 113-118 from human prion P04156 P04156 1.5 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6pq5-a1-m1-cA_6pq5-a1-m3-cA 6pq5-a1-m1-cB_6pq5-a1-m5-cB 6pq5-a1-m2-cA_6pq5-a1-m3-cA 6pq5-a1-m2-cA_6pq5-a1-m4-cA 6pq5-a1-m2-cB_6pq5-a1-m5-cB AGAAAA AGAAAA 6pqa-a1-m4-cA_6pqa-a1-m8-cA GAVVGG segment 119-124 from human prion P04156 P04156 1.46 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6pqa-a1-m1-cA_6pqa-a1-m5-cA 6pqa-a1-m2-cA_6pqa-a1-m6-cA 6pqa-a1-m3-cA_6pqa-a1-m7-cA GAVVGG GAVVGG 6pqa-a1-m7-cA_6pqa-a1-m8-cA GAVVGG segment 119-124 from human prion P04156 P04156 1.46 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6pqa-a1-m1-cA_6pqa-a1-m2-cA 6pqa-a1-m2-cA_6pqa-a1-m3-cA 6pqa-a1-m3-cA_6pqa-a1-m4-cA 6pqa-a1-m5-cA_6pqa-a1-m6-cA 6pqa-a1-m6-cA_6pqa-a1-m7-cA GAVVGG GAVVGG 6pqh-a2-m1-cC_6pqh-a2-m1-cD Crystal structure of Asparagine-tRNA ligase from Elizabethkingia sp. CCUG 26117 X5KA67 X5KA67 2 X-RAY DIFFRACTION 327 1.0 1939629 (Elizabethkingia sp.) 1939629 (Elizabethkingia sp.) 471 477 6pqh-a1-m1-cA_6pqh-a1-m1-cB HKQTIKEVLENYKKFLHHDITVYGWVRAFRSNRFIALNDGSTINNLQIVVDFENFDENLIKNINTASSLKIVGEVVESTVEIIAKKIIVLGDNFTEELQNTILQPKKHSLEKLREQAHLRFRTNLFGAVFRVRHAVSFAIHSFFNDRQFFYLNTPVITGAGEMFGVTNFDLDNIPRNEDGAIDYTQDFFGRKTNLTVSGQLEGETAAMGLGRIYTFGPTFRAENSNTTRHLAEFWMVEPEVAFNNLEDNIDLAEDFLKYVIQYVLDKCKDDLEFLDKRFAEEQKQKPEKERAKEGLIEKLENVVAKRFKRVSYTEAIDILLNSKENKKGKFVYPVEKWGADLQSEHERYLVEKHFECPVVLFDYPAEIKAFYMRLNEDNKTVAAMDVLFPGIGEIIGGSQREERLDVLKKKMDDMHVDQEELWWYLDTRKFGSVPHSGFGLGLERLVLFVTGMTNIRDVIPFPRTPKNAEF MHKQTIKEVLENYKKFLHHDITVYGWVRAFRSNRFIALNDGSTINNLQIVVDFENFDENLIKNINTASSLKIVGEVVESQGAGQTVEIIAKKIIVLGDNFTEELQNTILQPKKHSLEKLREQAHLRFRTNLFGAVFRVRHAVSFAIHSFFNDRQFFYLNTPVITGAGEMFGVTNFDLDNIPRNEDGAIDYTQDFFGRKTNLTVSGQLEGETAAMGLGRIYTFGPTFRAENSNTTRHLAEFWMVEPEVAFNNLEDNIDLAEDFLKYVIQYVLDKCKDDLEFLDKRFAEEQKQKPEKERAKEGLIEKLENVVAKRFKRVSYTEAIDILLNSKENKKGKFVYPVEKWGADLQSEHERYLVEKHFECPVVLFDYPAEIKAFYMRLNEDNKTVAAMDVLFPGIGEIIGGSQREERLDVLKKKMDDMHVDQEELWWYLDTRKFGSVPHSGFGLGLERLVLFVTGMTNIRDVIPFPRTPKNAEF 6pqn-a1-m1-cB_6pqn-a1-m1-cA Crystal structure of HzTransib transposase B0F0C5 B0F0C5 3.01 X-RAY DIFFRACTION 103 0.996 7113 (Helicoverpa zea) 7113 (Helicoverpa zea) 451 457 TIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQSESGQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEACYLCLAKVYEFGLSTLHARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQDQ STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQSRYKQNIESGQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAACYLCLAKEFGLSTLHARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQDQ 6pqu-a1-m1-cA_6pqu-a1-m1-cE Cryo-EM structure of HzTransib/nicked TIR substrate DNA pre-reaction complex (PRC) B0F0C5 B0F0C5 3.3 ELECTRON MICROSCOPY 43 1.0 7113 (Helicoverpa zea) 7113 (Helicoverpa zea) 468 468 6pqr-a1-m1-cA_6pqr-a1-m1-cD STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAKSNAACYLCLLDVIASKTISSGVYEFGLSTLARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQDQEAPTEFH STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAKSNAACYLCLLDVIASKTISSGVYEFGLSTLARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQDQEAPTEFH 6pqy-a1-m1-cA_6pqy-a1-m1-cD Cryo-EM structure of HzTransib/TIR DNA transposon end complex (TEC) B0F0C5 B0F0C5 4.2 ELECTRON MICROSCOPY 44 1.0 7113 (Helicoverpa zea) 7113 (Helicoverpa zea) 460 460 STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQSRYKQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAKSNAACYLCLYEFGLSTLHARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQDQEAPTEF STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQSRYKQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAKSNAACYLCLYEFGLSTLHARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQDQEAPTEF 6pr5-a1-m1-cA_6pr5-a1-m1-cE Cryo-EM structure of HzTransib strand transfer complex (STC) B0F0C5 B0F0C5 3.3 ELECTRON MICROSCOPY 76 1.0 7113 (Helicoverpa zea) 7113 (Helicoverpa zea) 480 480 6pqx-a1-m1-cA_6pqx-a1-m1-cE STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQSRYKQNIESGQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAKSNAACYLCLAKPTEMSKLDVIASKTISSGVYEFGLSTLHARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQD STIFSPEKALGLLLSLKLSKWQYITLRETTIREGSKEIYPSYYKVQKAKLQCYPPKAFVAVTDSSAKIALQALLDLTVNRIFETIRSPDAIQNKQLILISKWGFDGASNQSRYKQNIESGQGDSSIFMTSLVPLKLTADGDTVWVNPKPCSPMYCRPVQFSFVKETKDVVINEKTAMDDEIEALVPSKCQGHEISHKLMMTMIDGKICTYLSEAKSNAACYLCLAKPTEMSKLDVIASKTISSGVYEFGLSTLHARINVMECLLHIAYRLDFKKWSARGEGHQELLHSRKKLIQDRFKDDLNLLIDIVKQGSGTTNDGNTARRFFEFPDKTAAITGLDEDLIRRFSVILQAITSGEIIDVPKFKEYARTTAEKYVELYDWYYMSSTVHKLLIHGGDIIAENAIVPIGSLSEEASEARNKDFRRFREHHSRKKSRQASNEDILNMLIISSDPLISFTRPKLDAHKRQTYFKETVELLQLQD 6prh-a1-m1-cA_6prh-a1-m2-cA X-ray Crystal Structure of Bacillus subtilis RicA O31779 O31779 2.08 X-RAY DIFFRACTION 136 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 122 122 2pih-a1-m1-cA_2pih-a1-m1-cB MTLYSKKDIVQQARNLAKMISETEEVDFFKRAEAQINENDKVSTIVNQIKALQKQAVNLKHYEKHEALKQVEAKIDALQEELEEIPVIQEFRDSQMEVNDLLQLVAHTISNQVTNEIITSTG MTLYSKKDIVQQARNLAKMISETEEVDFFKRAEAQINENDKVSTIVNQIKALQKQAVNLKHYEKHEALKQVEAKIDALQEELEEIPVIQEFRDSQMEVNDLLQLVAHTISNQVTNEIITSTG 6pro-a1-m1-cA_6pro-a1-m1-cB MnSOD from Geobacillus stearothermophilus P00449 P00449 2.263 X-RAY DIFFRACTION 47 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 202 202 PFELPALPYPYDALEPHIDKETMNIHHTKHHNTYVTNLNAALEGHPDLQNKSLEELLSNLEALPESIRTAVRNNGGGHANHSLFWTILSPNGGGEPTGELADAINKKFGSFTAFKDEFSKAAAGRFGSGWAWLVVNNGELEITSTPNQDSPIMEGKTPILGLDVWEHAYYLKYQNRRPEYIAAFWNVVNWDEVAKRYSEAKA PFELPALPYPYDALEPHIDKETMNIHHTKHHNTYVTNLNAALEGHPDLQNKSLEELLSNLEALPESIRTAVRNNGGGHANHSLFWTILSPNGGGEPTGELADAINKKFGSFTAFKDEFSKAAAGRFGSGWAWLVVNNGELEITSTPNQDSPIMEGKTPILGLDVWEHAYYLKYQNRRPEYIAAFWNVVNWDEVAKRYSEAKA 6pse-a1-m1-cB_6pse-a1-m1-cA Complex of BICD2 with a Dynein Light Intermediate Chain Peptide Q8TD16 Q8TD16 2.404 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 66 76 LVEAQPEWLRAEVKRLSHELAETTREKIQAAEYGLAVLEEKHQLKLQFEELEVDYEAIRSEEQLKE PSEEEEYARLVEAQPEWLRAEVKRLSHELAETTREKIQAAEYGLAVLEEKHQLKLQFEELEVDYEAIRSEEQLKEA 6psh-a1-m2-cA_6psh-a1-m4-cA Crystal structure of periplasmic domain of antiholin RI from T4 phage P13304 P13304 2.21 X-RAY DIFFRACTION 91 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 70 70 6psh-a1-m1-cA_6psh-a1-m3-cA NVDPHFDKFMESGIRHVYMLFENKSVESSEQFYSFMRTTYKNDPCSSDFECIERGAEMAQSYARIMNIKL NVDPHFDKFMESGIRHVYMLFENKSVESSEQFYSFMRTTYKNDPCSSDFECIERGAEMAQSYARIMNIKL 6psh-a1-m3-cA_6psh-a1-m4-cA Crystal structure of periplasmic domain of antiholin RI from T4 phage P13304 P13304 2.21 X-RAY DIFFRACTION 30 1.0 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 70 70 6psh-a1-m1-cA_6psh-a1-m2-cA NVDPHFDKFMESGIRHVYMLFENKSVESSEQFYSFMRTTYKNDPCSSDFECIERGAEMAQSYARIMNIKL NVDPHFDKFMESGIRHVYMLFENKSVESSEQFYSFMRTTYKNDPCSSDFECIERGAEMAQSYARIMNIKL 6psi-a1-m1-cA_6psi-a1-m1-cC Structural Basis for Client Recognition and Activity of Hsp40 Chaperones Q56237 Q56237 NOT SOLUTION NMR 108 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 280 280 MAAKKDYYAILGVPRNATQEEIKRAYKRLARQYHPDVNKSPEAEEKFKEINEAYAVLSDPEKRRIYDTYGTTEAPPPPPPGGYDFSGFDVEDFSEFFQELFGPGLFGGFGRRSRKGRDLRAELPLTLEEAFHGGERVVEVAGRRVSVRIPPGVREGSVIRVPGMGGQGNPPGDLLLVVRLLPHPVFRLEGQDLYATLDVPAPIAVVGGKVRAMTLEGPVEVAVPPRTQAGRKLRLKGKGFPGPAGRGDLYLEVRITIPERLTPEEEALWKKLAEAYYARA MAAKKDYYAILGVPRNATQEEIKRAYKRLARQYHPDVNKSPEAEEKFKEINEAYAVLSDPEKRRIYDTYGTTEAPPPPPPGGYDFSGFDVEDFSEFFQELFGPGLFGGFGRRSRKGRDLRAELPLTLEEAFHGGERVVEVAGRRVSVRIPPGVREGSVIRVPGMGGQGNPPGDLLLVVRLLPHPVFRLEGQDLYATLDVPAPIAVVGGKVRAMTLEGPVEVAVPPRTQAGRKLRLKGKGFPGPAGRGDLYLEVRITIPERLTPEEEALWKKLAEAYYARA 6psm-a3-m1-cD_6psm-a3-m1-cF Crystal structure of PsS1_19B C77S in complex with kappa-neocarrabiose 1.95 X-RAY DIFFRACTION 97 0.998 1872678 (Pseudoalteromonas fuliginea) 1872678 (Pseudoalteromonas fuliginea) 444 446 6prm-a1-m1-cA_6prm-a1-m1-cB 6prm-a2-m1-cD_6prm-a2-m1-cC 6psm-a1-m1-cA_6psm-a1-m1-cB 6psm-a2-m1-cC_6psm-a2-m1-cE 6pso-a1-m1-cA_6pso-a1-m1-cB SKPNIVLIFADDAGFGDFGFQGSTQLKTPNLDKLAQSGVRFTQGYVSDSTSGPSRAGLMTGKYQQRFGYEEINVPGFMSGNSALKGADMGLPLDQKTMGDYLKEQGYKTAVFGKWHLGDADRFHPLKRGFDTFLGFRGGDRSYFNYSEQEGNKHFFDKKLERDFGNYEEPKEYLTDVLGKEAAKYIEQNKDEPFFIYLAFNAVHTPLESDPKDLAKFPNLTGKRKELAAMTLGLDRASGYVLDKLKELGLDDNTIVVFSNDNGGPSDKNASNNAPLAGTKSNQLEGGIRVPFLISWPKHIKPGSTYDYPVSTLDLLPTFYSAAKGKALGSDIDGVDLLPYIQGENTARPHKVMYWKKENRAVIRDNDWKLIRYPDRPAELYDLSSDISEQTDLAAKNPERVKTMFKSLFEWELTLERPRWLLKRKYEKYDIDRMDKYRLPATQP SKPNIVLIFADDAGFGDFGFQGSTQLKTPNLDKLAQSGVRFTQGYVSDSTSGPSRAGLMTGKYQQRFGYEEINVPGFMSGNSALKGADMGLPLDQKTMGDYLKEQGYKTAVFGKWHLGDADRFHPLKRGFDTFLGFRGGDRSYFNYSEQEMKNGNKHFFDKKLERDFGNYEEPKEYLTDVLGKEAAKYIEQNKDEPFFIYLAFNAVHTPLESDPKDLAKFPNLTGKRKELAAMTLGLDRASGYVLDKLKELGLDDNTIVVFSNDNGGPSDKNASNNAPLAGTKSNQLEGGIRVPFLISWPKHIKPGSTYDYPVSTLDLLPTFYSAAKGKALSDIDGVDLLPYIQGENTARPHKVMYWKKENRAVIRDNDWKLIRYPDRPAELYDLSSDISEQTDLAAKNPERVKTMFKSLFEWELTLERPRWLLKRKYEKYDIDRMDKYRLPATQP 6pt2-a1-m1-cB_6pt2-a1-m1-cA Crystal structure of the active delta opioid receptor in complex with the peptide agonist KGCHM07 P41143 P41143 2.8 X-RAY DIFFRACTION 84 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 361 397 6pt3-a1-m1-cB_6pt3-a1-m1-cA DLEDNWETLNDNLKVIEAAQVKDALTKMRAAALDAQKMKDFRHGFDILVGQIDDALKLAAEQLKTTRNAYIQKRSASSLALAIAITALYSAVCAVGLLGNVLVMFVIVRYTKMKTATNIYIFSLALAGALATSTLPFQSADYLMETWPFGELLCKAVLSIDYYSMFTSIFTLTMMCVDRYIAVCHPVKALDFRTPAKAKLINICIWVLASGVGVPIMVMAVTRPRDGAVVCMLQFPSPSWYWDTVTKICVFLFAFVVPILIITVCYGLMLLRLRSVRKEKDRSLRRITRMVLVVVVAFVVCWAPIHIFVIVWTLVDIDRRDPLVVAALHLCIALGYINSSLNPVLYAFLDKNFKRCFRQLC TMADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLRSASSLALAIAITALYSAVCAVGLLGNVLVMFVIVRYTKMKTATNIYIFSLALAGALATSTLPFQSADYLMETWPFGELLCKAVLSIDYYSMFTSIFTLTMMCVDRYIAVCHPVKALDFRTPAKAKLINICIWVLASGVGVPIMVMAVTRPRDGAVVCMLQFPSPSWYWDTVTKICVFLFAFVVPILIITVCYGLMLLRLRSVRLLSGSKEKDRSLRRITRMVLVVVVAFVVCWAPIHIFVIVWTLVDIDRRDPLVVAALHLCIALGYINSSLNPVLYAFLDKNFKRCF 6pt7-a1-m1-cA_6pt7-a1-m4-cA Structure of KatE1 catalase from Acinetobacter sp. Ver3 A0A031LXI5 A0A031LXI5 2.15 X-RAY DIFFRACTION 276 1.0 466088 (Acinetobacter sp. Ver3) 466088 (Acinetobacter sp. Ver3) 499 499 6pt7-a1-m2-cA_6pt7-a1-m3-cA KCPVTHLTTDAGAPVVDNQNSMTAGARGPLLAQDLWLNEKLGNFVREVIPERRHAKGSGAFGTFTVTHDITQYTRAKLFSEIGKKTDIFVRFSTVAGERGAADAERDIRGFAMKFYTEEGNWDLVGNNTPVFFLRDARKFPDLNKAVKRDPKTNKRSATNNWDFWTLLPEALHQVTIVMSDRGIPDGYRHMHGFGSHTFSFINANNERFWVKFHMRTQQGIKNLTDAEAEAIIAKDRESSQTDLFDAIERGDFPKWKMYVQIMPELDAEKVPYHPFDLTKVWPKGDYPLIEVGEFELNRNPENYFQDVEQAAFAPSNLVPGISFSPDRMLQARLFNYADAARYRVGVNHYQIPVNAPRCPVHSNRRDGQGRTDGNYGALPHYEPNSFSQWQEQPQYKEPPLKISGAADFWDYREDDNDYFSQPRALFNLMNDQQKQALFDNTAAAMGDALDFIKYRHIRNCYACDPAYGEGVAKALGMTVADAQAARATDPAQGNPGLL KCPVTHLTTDAGAPVVDNQNSMTAGARGPLLAQDLWLNEKLGNFVREVIPERRHAKGSGAFGTFTVTHDITQYTRAKLFSEIGKKTDIFVRFSTVAGERGAADAERDIRGFAMKFYTEEGNWDLVGNNTPVFFLRDARKFPDLNKAVKRDPKTNKRSATNNWDFWTLLPEALHQVTIVMSDRGIPDGYRHMHGFGSHTFSFINANNERFWVKFHMRTQQGIKNLTDAEAEAIIAKDRESSQTDLFDAIERGDFPKWKMYVQIMPELDAEKVPYHPFDLTKVWPKGDYPLIEVGEFELNRNPENYFQDVEQAAFAPSNLVPGISFSPDRMLQARLFNYADAARYRVGVNHYQIPVNAPRCPVHSNRRDGQGRTDGNYGALPHYEPNSFSQWQEQPQYKEPPLKISGAADFWDYREDDNDYFSQPRALFNLMNDQQKQALFDNTAAAMGDALDFIKYRHIRNCYACDPAYGEGVAKALGMTVADAQAARATDPAQGNPGLL 6pt7-a1-m2-cA_6pt7-a1-m4-cA Structure of KatE1 catalase from Acinetobacter sp. Ver3 A0A031LXI5 A0A031LXI5 2.15 X-RAY DIFFRACTION 135 1.0 466088 (Acinetobacter sp. Ver3) 466088 (Acinetobacter sp. Ver3) 499 499 6pt7-a1-m1-cA_6pt7-a1-m3-cA KCPVTHLTTDAGAPVVDNQNSMTAGARGPLLAQDLWLNEKLGNFVREVIPERRHAKGSGAFGTFTVTHDITQYTRAKLFSEIGKKTDIFVRFSTVAGERGAADAERDIRGFAMKFYTEEGNWDLVGNNTPVFFLRDARKFPDLNKAVKRDPKTNKRSATNNWDFWTLLPEALHQVTIVMSDRGIPDGYRHMHGFGSHTFSFINANNERFWVKFHMRTQQGIKNLTDAEAEAIIAKDRESSQTDLFDAIERGDFPKWKMYVQIMPELDAEKVPYHPFDLTKVWPKGDYPLIEVGEFELNRNPENYFQDVEQAAFAPSNLVPGISFSPDRMLQARLFNYADAARYRVGVNHYQIPVNAPRCPVHSNRRDGQGRTDGNYGALPHYEPNSFSQWQEQPQYKEPPLKISGAADFWDYREDDNDYFSQPRALFNLMNDQQKQALFDNTAAAMGDALDFIKYRHIRNCYACDPAYGEGVAKALGMTVADAQAARATDPAQGNPGLL KCPVTHLTTDAGAPVVDNQNSMTAGARGPLLAQDLWLNEKLGNFVREVIPERRHAKGSGAFGTFTVTHDITQYTRAKLFSEIGKKTDIFVRFSTVAGERGAADAERDIRGFAMKFYTEEGNWDLVGNNTPVFFLRDARKFPDLNKAVKRDPKTNKRSATNNWDFWTLLPEALHQVTIVMSDRGIPDGYRHMHGFGSHTFSFINANNERFWVKFHMRTQQGIKNLTDAEAEAIIAKDRESSQTDLFDAIERGDFPKWKMYVQIMPELDAEKVPYHPFDLTKVWPKGDYPLIEVGEFELNRNPENYFQDVEQAAFAPSNLVPGISFSPDRMLQARLFNYADAARYRVGVNHYQIPVNAPRCPVHSNRRDGQGRTDGNYGALPHYEPNSFSQWQEQPQYKEPPLKISGAADFWDYREDDNDYFSQPRALFNLMNDQQKQALFDNTAAAMGDALDFIKYRHIRNCYACDPAYGEGVAKALGMTVADAQAARATDPAQGNPGLL 6pt7-a1-m3-cA_6pt7-a1-m4-cA Structure of KatE1 catalase from Acinetobacter sp. Ver3 A0A031LXI5 A0A031LXI5 2.15 X-RAY DIFFRACTION 327 1.0 466088 (Acinetobacter sp. Ver3) 466088 (Acinetobacter sp. Ver3) 499 499 6pt7-a1-m1-cA_6pt7-a1-m2-cA KCPVTHLTTDAGAPVVDNQNSMTAGARGPLLAQDLWLNEKLGNFVREVIPERRHAKGSGAFGTFTVTHDITQYTRAKLFSEIGKKTDIFVRFSTVAGERGAADAERDIRGFAMKFYTEEGNWDLVGNNTPVFFLRDARKFPDLNKAVKRDPKTNKRSATNNWDFWTLLPEALHQVTIVMSDRGIPDGYRHMHGFGSHTFSFINANNERFWVKFHMRTQQGIKNLTDAEAEAIIAKDRESSQTDLFDAIERGDFPKWKMYVQIMPELDAEKVPYHPFDLTKVWPKGDYPLIEVGEFELNRNPENYFQDVEQAAFAPSNLVPGISFSPDRMLQARLFNYADAARYRVGVNHYQIPVNAPRCPVHSNRRDGQGRTDGNYGALPHYEPNSFSQWQEQPQYKEPPLKISGAADFWDYREDDNDYFSQPRALFNLMNDQQKQALFDNTAAAMGDALDFIKYRHIRNCYACDPAYGEGVAKALGMTVADAQAARATDPAQGNPGLL KCPVTHLTTDAGAPVVDNQNSMTAGARGPLLAQDLWLNEKLGNFVREVIPERRHAKGSGAFGTFTVTHDITQYTRAKLFSEIGKKTDIFVRFSTVAGERGAADAERDIRGFAMKFYTEEGNWDLVGNNTPVFFLRDARKFPDLNKAVKRDPKTNKRSATNNWDFWTLLPEALHQVTIVMSDRGIPDGYRHMHGFGSHTFSFINANNERFWVKFHMRTQQGIKNLTDAEAEAIIAKDRESSQTDLFDAIERGDFPKWKMYVQIMPELDAEKVPYHPFDLTKVWPKGDYPLIEVGEFELNRNPENYFQDVEQAAFAPSNLVPGISFSPDRMLQARLFNYADAARYRVGVNHYQIPVNAPRCPVHSNRRDGQGRTDGNYGALPHYEPNSFSQWQEQPQYKEPPLKISGAADFWDYREDDNDYFSQPRALFNLMNDQQKQALFDNTAAAMGDALDFIKYRHIRNCYACDPAYGEGVAKALGMTVADAQAARATDPAQGNPGLL 6pt8-a1-m1-cB_6pt8-a1-m1-cA Crystal Structure of CobT from Methanocaldococcus jannaschii in complex with Adenine Alpha-Ribotide and Nicotinic Acid Q58993 Q58993 1.4 X-RAY DIFFRACTION 59 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 349 350 3l0z-a4-m1-cA_3l0z-a4-m2-cA 3l0z-a5-m2-cC_3l0z-a5-m1-cB 6ptf-a1-m1-cA_6ptf-a1-m2-cA 6pu6-a1-m1-cB_6pu6-a1-m1-cA MSIIAINENGFLDKIKGRNPLFTCVISSIETTLSIPISGVHRDVIKYTPSADVELVFYGKSLTLKTPPIDATGSPTPATITRACVELKNIKNLHIDAGAFVKPKIPFIEIDEKPTGRIEEGKAMNNSKELYMKGYLLGKNLDAELLIVGESVPGGTTTALGVLLGLGYDAEGKVSSGSINNPHELKIKVVREGLKKAGINEKSSVFDVLNAVGDKMMPVVAGLAISFAERNKPVILAGGTQMSAVLAVIKEINKKVLDKNLIAIGTTEFVLNDKKGDLKGIVEQIGNVPVLASKFYFEKAKIEGLKNYCKGSVKEGVGAGGIAVYSIVNDLEPTKIREFIENKFYEWYK MSIIAINENGFLDKIKGRNPLFTCVISSIETTLSIPISGVHRDVIKYTPSADVELVFYGKSLTLKTPPIDATGSPTPATITRACVELKNIKNLHIDAGAFVKPKIPFIEIDEKPTGRIEEGKAMNNSKELYMKGYLLGKNLDAELLIVGESVPGGTTTALGVLLGLGYDAEGKVSSGSINNPHELKIKVVREGLKKAGINEKSSVFDVLNAVGDKMMPVVAGLAISFAERNKPVILAGGTQMSAVLAVIKEINKKVLDKNLIAIGTTEFVLNDKKGDLKGIVEQIGNVPVLASKFYFEKAKIEGLKNYCKGSVKEGVGAGGIAVYSIVNDLEPTKIREFIENKFYEWYKE 6pta-a2-m1-cD_6pta-a2-m1-cB Crystal structure of the ARF family small GTPase ARF1 from Candida albicans in complex with GDP P22274 P22274 2.5 X-RAY DIFFRACTION 32 0.988 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 164 165 6pta-a1-m1-cC_6pta-a1-m1-cA LFASLLGRMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGRPLWRYYFQNTQGIIFVVDSNDRDRINEAREELQSMLNEDELKDAVLLVLANKQDLPNAMNAAEITEKMGLHSIRNRPWFIQATCATTGDGLYEGLEWLSNQVG LFASLLGEMRILMVGLDAAGKTTILYKLKLGEIVTTIPTIGFNVETVEYKNISFTVWDVGGPLWRYYFQNTQGIIFVVDSNDRDRINEAREELQSMLNEDELKDAVLLVLANKQDLPNAMNAAEITEKMGLHSIRNRPWFIQATCATTGDGLYEGLEWLSNQVGK 6ptg-a1-m1-cA_6ptg-a1-m1-cB Structure of RNA polymerase binding protein and transcriptional regulator Dks from Chlamydia trachomatis L2 (LGV434) O84412 O84412 2.95 X-RAY DIFFRACTION 29 0.988 813 (Chlamydia trachomatis) 813 (Chlamydia trachomatis) 85 86 MPLTDEEIANFKTRLLEMKAKLSHTTTKEYKLLRQIDRALEKIEEASYGICDVSGEEIPLARLMAIPYATMTVKSQEKFEKGLLS PLTDEEIANFKTRLLEMKAKLSHTLTTKEYKLLRQIDRALEKIEEASYGICDVSGEEIPLARLMAIPYATMTVKSQEKFEKGLLSG 6ptq-a1-m1-cA_6ptq-a1-m1-cB Dark, Room Temperature, PCM Myxobacterial Phytochrome, P2, Wild Type Q09E27 Q09E27 2.1 X-RAY DIFFRACTION 112 1.0 378806 (Stigmatella aurantiaca DW4/3-1) 378806 (Stigmatella aurantiaca DW4/3-1) 482 482 7jr5-a1-m1-cA_7jr5-a1-m1-cB 7jri-a1-m1-cA_7jri-a1-m1-cB DLSQCDREPIHLLGGIQSHGVLLAFRGPDRLLEVVSANAQALLGRPPETLLGQPVGRVLPAEVLAQWEPLVARGSVRVVLPAGAYRALLHESDGLTVLELEPAELQPGMEETALEVVRRLVSPLAGVKGTQALLQTAADTVRALTGFDRVMVYRFDADWHGEVLAESKRGGMDGFLGMHFPATDIPVQARALYTRNPLRLIADARARPVPLLPPVVPALGRPLDLSNSALRSVSPVHLEYLRNMGVGASFSLSLLKEGVLWGLIACHHLEPLHISHERRRACEVLTQLLALQLSAEERAAEASEDAHRAALLGQLATAMGEGGTLEEVLEKESERVLALTGAAGVALLLGEEPLLVGCTPAQDEVEALVAWLATQPFQTSFHTDRLGTVYPPLAARADVAAGILAVRLAPAAARFAIWFRPEVARTISWAGNPRKPAEPEPGHQRLHPRGSFQAWEETVRDTSLPWKRADLGAAEGFRGALV DLSQCDREPIHLLGGIQSHGVLLAFRGPDRLLEVVSANAQALLGRPPETLLGQPVGRVLPAEVLAQWEPLVARGSVRVVLPAGAYRALLHESDGLTVLELEPAELQPGMEETALEVVRRLVSPLAGVKGTQALLQTAADTVRALTGFDRVMVYRFDADWHGEVLAESKRGGMDGFLGMHFPATDIPVQARALYTRNPLRLIADARARPVPLLPPVVPALGRPLDLSNSALRSVSPVHLEYLRNMGVGASFSLSLLKEGVLWGLIACHHLEPLHISHERRRACEVLTQLLALQLSAEERAAEASEDAHRAALLGQLATAMGEGGTLEEVLEKESERVLALTGAAGVALLLGEEPLLVGCTPAQDEVEALVAWLATQPFQTSFHTDRLGTVYPPLAARADVAAGILAVRLAPAAARFAIWFRPEVARTISWAGNPRKPAEPEPGHQRLHPRGSFQAWEETVRDTSLPWKRADLGAAEGFRGALV 6ptr-a1-m1-cA_6ptr-a1-m1-cB Crystal structure of a DnaN sliding clamp (DNA polymerase III subunit beta) from Bartonella birtlesii bound to griselimycin J1IY24 J1IY24 1.75 X-RAY DIFFRACTION 81 1.0 1094552 (Bartonella birtlesii LL-WM9) 1094552 (Bartonella birtlesii LL-WM9) 370 372 6deg-a1-m1-cA_6deg-a1-m1-cB HMRITVDRSQFFKSLGRVHRVVERRNTVPILSNVLIDAENGSVQLKATDLDLEVTESFTVNIEKAGAITVPAYLLYDIVRKLPDGSEIVLSVDEAMSIVSGCTHFQLQCLPKIDFPESLPGQFGCRFFLSASKLKHLLDCTQFAISTEETRYYLNGIYFHIVHDDVLKLRLVATDGHRLAQVDMEAPSGVDGMPGVIIPRKAVGELQKLLSEEIDGDVCIELSETKIRFSLGSVVFTSKLVDGTFPDYQRVIPLGNDRKLIVNRQDFSSAVDRVSTISNDRGRAVKLTIEHGQLKLVVNNPDSGSAEDQLAATYTSEPLEIGFNSRYLLDIAGQLSSDEMVFMLSDAVAPALIRDNNNAEVLYVLMPVRV HHMRITVDRSQFFKSLGRVHRVVERRNTVPILSNVLIDAENGSVQLKATDLDLEVTESFTVNIEKAGAITVPAYLLYDIVRKLPDGSEIVLSVDESAMSIVSGCTHFQLQCLPKIDFPESLPGQFGCRFFLSASKLKHLLDCTQFAISTEETRYYLNGIYFHIVHDDVLKLRLVATDGHRLAQVDMEAPSGVDGMPGVIIPRKAVGELQKLLSEEIDGDVCIELSETKIRFSLGSVVFTSKLVDGTFPDYQRVIPLGNDRKLIVNRQDFSSAVDRVSTISNDRGRAVKLTIEHGQLKLVVNNPDSGSAEDQLAATYTSEPLEIGFNSRYLLDIAGQLSSDEMVFMLSDAVAPALIRDNNNAEVLYVLMPVRV 6ptv-a1-m1-cB_6ptv-a1-m1-cA Crystal structure of a DnaN sliding clamp (DNA polymerase III subunit beta) from Rickettsia rickettsii bound to griselimycin A0A0H3AWV3 A0A0H3AWV3 1.85 X-RAY DIFFRACTION 83 0.995 392021 (Rickettsia rickettsii str. 'Sheila Smith') 392021 (Rickettsia rickettsii str. 'Sheila Smith') 376 379 5w7z-a1-m1-cA_5w7z-a1-m1-cB 6dlk-a1-m1-cB_6dlk-a1-m1-cA 6dm6-a1-m1-cB_6dm6-a1-m1-cA 6ptv-a2-m1-cC_6ptv-a2-m1-cD HHMLKLIVETKTLVQSLGFASSVVEPEYANIKLSAQDGNLELSSTNMDLYLSQKIAVQVVSEGECTVSTKTLNDIVRKLPDSELTLTDLGTTGLEIKGKNCKFNLFTLPVSSFPAMDSINPEASFKISCTDFAKIIESTKFSISLDETRYNLNGVYLHIKDKEFCSASTDGHRLSISWVTLEKQIKNFGVILPQKSAEEILKIVKDPKNINEDIEILLNSNKIKFICNENTIMLSKLIDGTFPDYSTFIPESSSSKLVINRKMFADSIERIAIITVEKFRAVKLSLSRETLEISAVGEARGNAKEVINSSQDKESFYEYNSDESLAIGFNPQYLEDVLKAVKSDLVELYFSDVSAPVLIKFPENPKDIFIVLPVKV HMLKLIVETKTLVQSLGFASSVVEKRNVIPEYANIKLSAQDGNLELSSTNMDLLSQKIAVQVVSEGECTVSTKTLNDIVRKLPDSELTLTDLGTTGLEIKGKNCKFNLFTLPVSSFPAMDSINPEASFKISCTDFAKIIESTKFSISLDETRYNLNGVYLHIKDKEFCSASTDGHRLSISWVTLEKQIKNFGVILPQKSAEEILKIVKDPKNINEDIEILLNSNKIKFICNENTIMLSKLIDGTFPDYSTFIPESSSSKLVINRKMFADSIERIAIITVEKFRAVKLSLSRETLEISAVGEARGNAKEVINSSQDKESFYEYNSDESLAIGFNPQYLEDVLKAVKSDLVELYFSDVSAPVLIKFPENPKDIFIVLPVKV 6pu9-a1-m1-cC_6pu9-a1-m1-cB Crystal Structure of the Type B Chloramphenicol O-Acetyltransferase from Vibrio vulnificus A0A3Q0KYH6 A0A3Q0KYH6 1.7 X-RAY DIFFRACTION 109 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 199 202 6pu9-a1-m1-cA_6pu9-a1-m1-cB 6pu9-a1-m1-cA_6pu9-a1-m1-cC SPFSGKPIQEQITNPNIIVGRHSYYSGYHGFDDCVRYLNPERNDVDKLIIGSFCSVGSGAVFMMAGNQGHRTDWVSTFPFFYQQNPNFSEAKDGFVRAGDTRIGHDVWIGSEAMIMPGVTIGDGAIIASRAVVTKDVAPYEVVGSNPAKHIKFRFSPQEIEMLQEMQWWQWSDEQLGQCMALMCSADIEGLYLWWKQSQ SPFSGKPIQEQITNPNIIVGRHSYYSGYYHGHGFDDCVRYLNPERNDVDKLIIGSFCSVGSGAVFMMAGNQGHRTDWVSTFPFFYQQNPNFSEAKDGFVRAGDTRIGHDVWIGSEAMIMPGVTIGDGAIIASRAVVTKDVAPYEVVGSNPAKHIKFRFSPQEIEMLQEMQWWQWSDEQLGQCMALMCSADIEGLYLWWKQSQ 6pv8-a1-m1-cC_6pv8-a1-m1-cB Human alpha3beta4 nicotinic acetylcholine receptor in complex with AT-1001 P30926 P30926 3.87 ELECTRON MICROSCOPY 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 385 388 6pv7-a1-m1-cC_6pv7-a1-m1-cB NAEEKLMDDLLNKTRYNNLIRPATSSSQLISIKLQLSLAQLISVNEREQIMTTNVWLKQEWTDYRLTWNSSRYEGVNILRIPAKRIWLPDIVLYNNADGTYEVSVYTNLIVRSNGSVLWLPPAIYKSACKIEVKYFPFDQQNCTLKFRSWTYDHTEIDMVLMTPTASMDDFTPSGEWDIVALPGRRTVNPQDPSYVDVTYDFIIKRKPLFYTINLIIPCVLTTLLAILVFYLPSDCGEKMTLCISVLLALTFFLLLISKIVPPTSLDVPLIGKYLMFTMVLVTFSIVTSVCVLNVHHRSPSTHTMAPWVKRCFLHKLPTFLFMKRRQDVQEALEGVSFIAQHMKNDDEDQSVVEDWKYVAMVVDRLFLWVFMFVCVLGTVGLFLP RVANAEEKLMDDLLNKTRYNNLIRPATSSSQLISIKLQLSLAQLISVNEREQIMTTNVWLKQEWTDYRLTWNSSRYEGVNILRIPAKRIWLPDIVLYNNADGTYEVSVYTNLIVRSNGSVLWLPPAIYKSACKIEVKYFPFDQQNCTLKFRSWTYDHTEIDMVLMTPTASMDDFTPSGEWDIVALPGRRTVNPQDPSYVDVTYDFIIKRKPLFYTINLIIPCVLTTLLAILVFYLPSDCGEKMTLCISVLLALTFFLLLISKIVPPTSLDVPLIGKYLMFTMVLVTFSIVTSVCVLNVHHRSPSTHTMAPWVKRCFLHKLPTFLFMKRRQDVQEALEGVSFIAQHMKNDDEDQSVVEDWKYVAMVVDRLFLWVFMFVCVLGTVGLFLP 6pvq-a1-m1-cD_6pvq-a1-m1-cA Cryo-EM structure of mouse TRPV3-Y564A in intermediate state at 37 degrees Celsius Q8K424 Q8K424 4.75 ELECTRON MICROSCOPY 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 518 562 6pvq-a1-m1-cB_6pvq-a1-m1-cC KKKRLKKRIFAAVSEGCVEELRELLQDLQDLCRRRRGLDVPDFLMHKLTASDTGKTCLMKALLNINPNTKEIVRILLAFAEENDILDRFINAEYTEEAYEGQTALNIAIERRQGDITAVLIAAGADVNAHAKGVFFNPKYQHEGFYFGETPLALAACTNQPEIVQLLMENEQTDITSQDSRGNNILHALVTVAEDFKTQNDFVKRMYDMILLRSGNWELETMRNNDGLTPLQLAAKMGKAEILKYILSREIKEKPLRSLSRKFTDWAYGPVSSSLYDLTNVDTTTDNSVLEIIVYNTNIDNRHEMLTLEPLHTLLHTKWKKFAKYMFFLSFCFYFFYNITLTLVSYYRPREDEDLPHPLALTHKMSWLQLLGRMFVLIWATCISVKEGIAIFLLRPSDLQSILSDAWFHFVFFVQAVLVILSVFLYLFAYKEYLACLVLAMALGWANMLAYTRGFQSMGESERIWRLQRARTILEFEKMLPEWLRSRFRMGELCKVADEDFRLCLRINEVKWTEWKTH DSPQSPQDDVTETPSNPNSPSANLAKEEQRQKKKRLKKRIFAAVSEGCVEELRELLQDLQDLCRRRRGLDVPDFLMHKLTASDTGKTCLMKALLNINPNTKEIVRILLAFAEENDILDRFINAEYTEEAYEGQTALNIAIERRQGDITAVLIAAGADVNAHAKGVFFNPKYQHEGFYFGETPLALAACTNQPEIVQLLMENEQTDITSQDSRGNNILHALVTVAEDFKTQNDFVKRMYDMILLRSGNWELETMRNNDGLTPLQLAAKMGKAEILKYILSREIKEKPLRSLSRKFTDWAYGPVSSSLYDLTNVDTTTDNSVLEIIVYNTNIDNRHEMLTLEPLHTLLHTKWKKFAKYMFFLSFCFYFFYNITLTLVSYYRPREDEDLPHPLALTHKMSWLQLLGRMFVLIWATCISVKEGIAIFLLRPSDLQSILSDAWFHFVFFVQAVLVILSVFLYLFAYKEYLACLVLAMALGWANMLAYTRGFQSMGESERIWRLQRARTILEFEKMLPEWLRSRFRMGELCKVADEDFRLCLRINEVKWTEWKTHVSFLNEDPGPIRR 6pvq-a1-m1-cD_6pvq-a1-m1-cC Cryo-EM structure of mouse TRPV3-Y564A in intermediate state at 37 degrees Celsius Q8K424 Q8K424 4.75 ELECTRON MICROSCOPY 55 1.0 10090 (Mus musculus) 10090 (Mus musculus) 518 562 6pvq-a1-m1-cB_6pvq-a1-m1-cA KKKRLKKRIFAAVSEGCVEELRELLQDLQDLCRRRRGLDVPDFLMHKLTASDTGKTCLMKALLNINPNTKEIVRILLAFAEENDILDRFINAEYTEEAYEGQTALNIAIERRQGDITAVLIAAGADVNAHAKGVFFNPKYQHEGFYFGETPLALAACTNQPEIVQLLMENEQTDITSQDSRGNNILHALVTVAEDFKTQNDFVKRMYDMILLRSGNWELETMRNNDGLTPLQLAAKMGKAEILKYILSREIKEKPLRSLSRKFTDWAYGPVSSSLYDLTNVDTTTDNSVLEIIVYNTNIDNRHEMLTLEPLHTLLHTKWKKFAKYMFFLSFCFYFFYNITLTLVSYYRPREDEDLPHPLALTHKMSWLQLLGRMFVLIWATCISVKEGIAIFLLRPSDLQSILSDAWFHFVFFVQAVLVILSVFLYLFAYKEYLACLVLAMALGWANMLAYTRGFQSMGESERIWRLQRARTILEFEKMLPEWLRSRFRMGELCKVADEDFRLCLRINEVKWTEWKTH DSPQSPQDDVTETPSNPNSPSANLAKEEQRQKKKRLKKRIFAAVSEGCVEELRELLQDLQDLCRRRRGLDVPDFLMHKLTASDTGKTCLMKALLNINPNTKEIVRILLAFAEENDILDRFINAEYTEEAYEGQTALNIAIERRQGDITAVLIAAGADVNAHAKGVFFNPKYQHEGFYFGETPLALAACTNQPEIVQLLMENEQTDITSQDSRGNNILHALVTVAEDFKTQNDFVKRMYDMILLRSGNWELETMRNNDGLTPLQLAAKMGKAEILKYILSREIKEKPLRSLSRKFTDWAYGPVSSSLYDLTNVDTTTDNSVLEIIVYNTNIDNRHEMLTLEPLHTLLHTKWKKFAKYMFFLSFCFYFFYNITLTLVSYYRPREDEDLPHPLALTHKMSWLQLLGRMFVLIWATCISVKEGIAIFLLRPSDLQSILSDAWFHFVFFVQAVLVILSVFLYLFAYKEYLACLVLAMALGWANMLAYTRGFQSMGESERIWRLQRARTILEFEKMLPEWLRSRFRMGELCKVADEDFRLCLRINEVKWTEWKTHVSFLNEDPGPIRR 6pvr-a1-m1-cC_6pvr-a1-m1-cD Influenza B M2 Proton Channel in the Closed State - SSNMR Structure at pH 7.5 NOT SOLID-STATE NMR 12 1.0 1601064 (Influenza B virus (B/Maryland/1/2001)) 1601064 (Influenza B virus (B/Maryland/1/2001)) 33 33 6pvr-a1-m1-cA_6pvr-a1-m1-cB 6pvr-a1-m1-cA_6pvr-a1-m1-cD 6pvr-a1-m1-cB_6pvr-a1-m1-cC MFEPFQILSICSFILSALHFMAWTIGHLNQIKR MFEPFQILSICSFILSALHFMAWTIGHLNQIKR 6pw5-a1-m1-cC_6pw5-a1-m1-cD Cryo-EM Structure of Thermo-Sensitive TRP Channel TRP1 from the Alga Chlamydomonas reinhardtii in Nanodiscs Q0Z852 Q0Z852 3.45 ELECTRON MICROSCOPY 241 0.993 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 734 782 6pw5-a1-m1-cA_6pw5-a1-m1-cB 6pw5-a1-m1-cA_6pw5-a1-m1-cD 6pw5-a1-m1-cC_6pw5-a1-m1-cB KKPSDYGCQLHYKHARVKGTLITAAELGLVDKYRDLKRAGQDILTCDWPYHYSSILYACYGNQYKILQMVEREFVGSTQELTAMHTTRCWVGKNSAMVAAYQGHLETMLYIIDLDMQGKFTEDLFKQRDVMGKNAMMWAASQGHTDTIEVLLVRSLYRLLPEDCADPLVLKTRWKLVSLLADLASHCRDYDPGCSRSFFQEVLASIKYDPVAVKLKDVHITVRTLQGVIVSAYRAGMNCMGVIMYCQSLLQQARYFDDLVAQLTAWEVKLLDTCRNKQEVQAILAPTEDDPSEPVGYALATFDKAFLSHKFVQQIFTEKWDTMGVTDYTKSLFGVVWGGCSLVVAFAAWATICPLVVVARSFLSPVQDFMMRGKVIVDSRFPWHVPLYRWLLTQCALITFTVLLSYLVFSFDPSDPVPASVAPLNTFLAVWCAAILVDEVQEYVEEGRAEYMSSGWNVMDVTMALSYILHYILRIIAVRVTDNLNILLVVNDLLAAAALMAWFRMVSVFELSSAIGPLIQMMKQMLIKDVTRFALLVLVILLGFSVGMEALFQEACIERDPTTNECTKYTSWFEQKRVTGVIFYLIFAIVTAILLLNLFIAMLADTYTRVSTQAMVEFRYRKAKLMASYSRRDFVCPPFNLLHLVCAAVGNGLRRLVWGPDGFTPVSMRKNETVPLFSWYFPQGEEMRQVVVLQRRVVDDFLNSNRVALFREKLNAELPNLVHEMLKQKGKGDG KKPSDYGCQLHYKHARVVEPESTTDDGMKRLKDVGDKGTLITAAELGLVDKYRDLKRAGQDILTCDWPYHYSSILYACYGNQYKILQMVEREFVGSTQELTAMHTTRCWVGKNSAMVAAYQGHLETMLYIIDLDMQGKFTEDLFKQRDVMGKNAMMWAASQGHTDTIEVLLVRSLYRLLPEDCADPLVLKTRWKLVSLLADLASHCRDYDPGCSRSFFQEVLASIKYDPVEGARQEEAAAAGGGGSAREGAALHEPTWGVDDGELKDVHITVRTLQGVIVSAYRAGMNCMGVIMYCQSLLQQARYFDDLVAQLTAWEVKLLDTCRNKQEVQAILAPTEDDPSEPVGYALATFDKAFLSHKFVQQIFTEKWDTMGVTDYTKSLFGVVWGGCSLVVAFAAWATICPLVVVARSFLSPVQDFMMRGKVIVDSRFPWHVPLYRWLLTQCALITFTVLLSYLVFSFDPSDPVPASVAPLNTFLAVWCAAILVDEVQEYVEEGRAEYMSSGWNVMDVTMALSYILHYILRIIAVRVTDNLNILLVVNDLLAAAALMAWFRMVSVFELSSAIGPLIQMMKQMLIKDVTRFALLVLVILLGFSVGMEALFQEACIERDPTTNECTKYTSWFEQKRVTGVIFYLIFAIVTAILLLNLFIAMLADTYTRVSTQAMVEFRYRKAKLMASYSRRDFVCPPFNLLHLVCAAVGNGLRRLVWGPDGFTPVSMRKNETVPLFSWYFPQGEEMRQVVVLQRRVVDDFLNSNRVALFREKLNAELPNLVHEMLKQKGKG 6pwk-a1-m1-cB_6pwk-a1-m1-cA Vibrio cholerae LapD S helix-GGDEF-EAL (bound to c-di-GMP) A0A0H3AFX3 A0A0H3AFX3 2.61 X-RAY DIFFRACTION 42 1.0 914149 (Vibrio cholerae O1 str. 2010EL-1786) 914149 (Vibrio cholerae O1 str. 2010EL-1786) 405 406 AFKAQAKEAQQLRERAYLDPVSHLGNRAYYMSQLSGWLSESGIGGVAILQAEFIKELYEEKGYEAGDGMVRELADRLKNSITIKDISIARISTYEFGIIMPNMDETELKIVAESIITCVDDINNLSLGVVSNKRQSSTTTLLSLLDNALAKAKSNPELNYGFISSDTDKIILGKQQWKTLVEEAIHNDWFTFRYQAANSSWGKTFHREVFSAFEKDGVRYTANQFLFALEQLNASHIFDQYVIERVIQQLEKGELTDPLAINIAQGSISQPSFIRWISQTLSKHLSVANLLHFEIPEGCFVNEPHYTALFCNAVRNAGADFGVDNYGRNFQSLDYINEFRPKYVKLDYLFTHHLDDERQKFTLTSISRTAHNLGITTIASRVETQTQLDFLSEHFIEVFQGFIVD AFKAQAKEAQQLRERAYLDPVSHLGNRAYYMSQLSGWLSESGIGGVAILQAEFIKELYEEKGYEAGDGMVRELADRLKNSITIKDISIARISTYEFGIIMPNMDETELKIVAESIITCVDDINPNLSLGVVSNKRQSSTTTLLSLLDNALAKAKSNPELNYGFISSDTDKIILGKQQWKTLVEEAIHNDWFTFRYQAANSSWGKTFHREVFSAFEKDGVRYTANQFLFALEQLNASHIFDQYVIERVIQQLEKGELTDPLAINIAQGSISQPSFIRWISQTLSKHLSVANLLHFEIPEGCFVNEPHYTALFCNAVRNAGADFGVDNYGRNFQSLDYINEFRPKYVKLDYLFTHHLDDERQKFTLTSISRTAHNLGITTIASRVETQTQLDFLSEHFIEVFQGFIVD 6pwy-a1-m1-cD_6pwy-a1-m1-cA Structure of C. elegans ZK177.8, SAMHD1 ortholog Q09374 Q09374 1.81 X-RAY DIFFRACTION 89 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 503 504 6pwy-a1-m1-cB_6pwy-a1-m1-cC MEPKHIINDNVYGTVKVPRPIDKLIDTVEFQRLRHLKQTGLVYLVYPNCEHSRFVHSLGTFSLAYALVDKLRHSQPSLNITESDLICTSVAALLRNVGHGPFSHLFDGEFAKRNGSRFKHEDMSILIIKKIMNKPEIKSEFACILGETDEEYAKSVTLITELISGKPFDFQDMDGFKDLPADVREETVKNEWAIIGCGPEKSFLFDVVSNSYNGHDVDKMDYLLRDSKASGVGITFSESTLERLFNHVRVVIDPNSGLKRIAYSIKCIGDLKAIGDSRQELHSKVYQHKAVRFMETLMVDALINAGDFLKYKGSNGELYSLKNVTEDVDAFLKTTDYVEQEILNSQITDPKMIEAQTALLKIQRREIGCKLGYFEMNPENAAAEVVKKVGQKMKEILEQMDDTEEMDGKLKDIQFTVMHSVLGRGLDDKTHPIERQIFYDGKPSQVVGFYPSEDYVINNCPRMATKWEIFVMGDRSLRKEPLLADRVKRALQLAGESEKFLTP MEPKHIINDNVYGTVKVPRPIDKLIDTVEFQRLRHLKQTGLVYLVYPNCEHSRFVHSLGTFSLAYALVDKLRHSQPSLNITESDLICTSVAALLRNVGHGPFSHLFDGEFAKRNGSRFKHEDMSILIIKKIMNKPEIKSEFACILGETDEEYAKSVTLITELISGKPFDFQDMDGFKDLPADVREETVKNEWAIIGCGPEKSFLFDVVSNSYNGHDVDKMDYLLRDSKASGVGITFSESTLERLFNHVRVVIDPNSGLKRIAYSIKCIGDLKAIGDSRQELHSKVYQHKAVRFMETLMVDALINAGDFLKYKGSNGELYSLKNVTEDVDAFLKTTDYVEQEILNSQITDPKMIEAQTALLKIQRREIGCKLGYFEMNPENATAAEVVKKVGQKMKEILEQMDDTEEMDGKLKDIQFTVMHSVLGRGLDDKTHPIERQIFYDGKPSQVVGFYPSEDYVINNCPRMATKWEIFVMGDRSLRKEPLLADRVKRALQLAGESEKFLTP 6pwy-a1-m1-cD_6pwy-a1-m1-cB Structure of C. elegans ZK177.8, SAMHD1 ortholog Q09374 Q09374 1.81 X-RAY DIFFRACTION 27 0.998 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 503 513 6pwy-a1-m1-cA_6pwy-a1-m1-cC MEPKHIINDNVYGTVKVPRPIDKLIDTVEFQRLRHLKQTGLVYLVYPNCEHSRFVHSLGTFSLAYALVDKLRHSQPSLNITESDLICTSVAALLRNVGHGPFSHLFDGEFAKRNGSRFKHEDMSILIIKKIMNKPEIKSEFACILGETDEEYAKSVTLITELISGKPFDFQDMDGFKDLPADVREETVKNEWAIIGCGPEKSFLFDVVSNSYNGHDVDKMDYLLRDSKASGVGITFSESTLERLFNHVRVVIDPNSGLKRIAYSIKCIGDLKAIGDSRQELHSKVYQHKAVRFMETLMVDALINAGDFLKYKGSNGELYSLKNVTEDVDAFLKTTDYVEQEILNSQITDPKMIEAQTALLKIQRREIGCKLGYFEMNPENAAAEVVKKVGQKMKEILEQMDDTEEMDGKLKDIQFTVMHSVLGRGLDDKTHPIERQIFYDGKPSQVVGFYPSEDYVINNCPRMATKWEIFVMGDRSLRKEPLLADRVKRALQLAGESEKFLTP MEPKHIINDNVYGTVKVPRPIDKLIDTVEFQRLRHLKQTGLVYLVYPNCEHSRFVHSLGTFSLAYALVDKLRHSQPSLNITESDLICTSVAALLRNVGHGPFSHLFDGEFAKRNGSRFKHEDMSILIIKKIMNKPEIKSEFACILGETDEEYAKSVTLITELISGKPFDFQDMDGFKDLPADVREETVKNEWAIIGCGPEKSFLFDVVSNSYNGHDVDKMDYLLRDSKASGVGITFSESTLERLFNHVRVVIDPNSGLKRIAYSIKCIGDLKAIGDSRQELHSKVYQHKAVRFMETLMVDALINAGDFLKYKGSNGELYSLKNVTEDVDAFLKTTDYVEQEILNSQITDPKMIEAQTALLKIQRREIGCKLGYFEMNPENATQLKGAAEVVKKVGQKMKEILEQMDDTEEMDGKLKDIQFTVMHSVLGRGLDDKTHPIERQIFYDGKPSVVGFYPSEDYVINNCPRMATKWEIFVMGDRSLRKEPLLADRVKRALQLAGESEKFLTPRKRSPQ 6pwy-a1-m1-cD_6pwy-a1-m1-cC Structure of C. elegans ZK177.8, SAMHD1 ortholog Q09374 Q09374 1.81 X-RAY DIFFRACTION 94 0.998 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 503 513 6pwy-a1-m1-cA_6pwy-a1-m1-cB MEPKHIINDNVYGTVKVPRPIDKLIDTVEFQRLRHLKQTGLVYLVYPNCEHSRFVHSLGTFSLAYALVDKLRHSQPSLNITESDLICTSVAALLRNVGHGPFSHLFDGEFAKRNGSRFKHEDMSILIIKKIMNKPEIKSEFACILGETDEEYAKSVTLITELISGKPFDFQDMDGFKDLPADVREETVKNEWAIIGCGPEKSFLFDVVSNSYNGHDVDKMDYLLRDSKASGVGITFSESTLERLFNHVRVVIDPNSGLKRIAYSIKCIGDLKAIGDSRQELHSKVYQHKAVRFMETLMVDALINAGDFLKYKGSNGELYSLKNVTEDVDAFLKTTDYVEQEILNSQITDPKMIEAQTALLKIQRREIGCKLGYFEMNPENAAAEVVKKVGQKMKEILEQMDDTEEMDGKLKDIQFTVMHSVLGRGLDDKTHPIERQIFYDGKPSQVVGFYPSEDYVINNCPRMATKWEIFVMGDRSLRKEPLLADRVKRALQLAGESEKFLTP MEPKHIINDNVYGTVKVPRPIDKLIDTVEFQRLRHLKQTGLVYLVYPNCEHSRFVHSLGTFSLAYALVDKLRHSQPSLNITESDLICTSVAALLRNVGHGPFSHLFDGEFAKRNGSRFKHEDMSILIIKKIMNKPEIKSEFACILGETDEEYAKSVTLITELISGKPFDFQDMDGFKDLPADVREETVKNEWAIIGCGPEKSFLFDVVSNSYNGHDVDKMDYLLRDSKASGVGITFSESTLERLFNHVRVVIDPNSGLKRIAYSIKCIGDLKAIGDSRQELHSKVYQHKAVRFMETLMVDALINAGDFLKYKGSNGELYSLKNVTEDVDAFLKTTDYVEQEILNSQITDPKMIEAQTALLKIQRREIGCKLGYFEMNPENATQLKGAAEVVKKVGQKMKEILEQMDDTEEMDGKLKDIQFTVMHSVLGRGLDDKTHPIERQIFYDGKPSVVGFYPSEDYVINNCPRMATKWEIFVMGDRSLRKEPLLADRVKRALQLAGESEKFLTPRKRSPQ 6px4-a1-m6-cB_6px4-a1-m6-cT Crystal structure of the complex between periplasmic domains of antiholin RI and holin T from T4 phage, in H32 P06808 P06808 1.65 X-RAY DIFFRACTION 13 1.0 2184699 (Escherichia phage vB_EcoM_NBG2) 2184699 (Escherichia phage vB_EcoM_NBG2) 141 142 6px4-a1-m1-cB_6px4-a1-m1-cT 6px4-a1-m2-cB_6px4-a1-m2-cT 6px4-a1-m3-cB_6px4-a1-m3-cT 6px4-a1-m4-cB_6px4-a1-m4-cT 6px4-a1-m5-cB_6px4-a1-m5-cT 6pxe-a1-m1-cB_6pxe-a1-m1-cT 6pxe-a2-m1-cD_6pxe-a2-m1-cF FESVALEQLQIVHISSEADFSAVYSFRPKNLNYFVDIIAYEGKLPSTISEKSLGGYPVDKTMDEYTVHLNGRHYYSNSKFAFLPTKKPTPEINYMYSCPYFNLDNIYAGTITMYWYRNDHISNDRLESICAQAARILGRAK RFESVALEQLQIVHISSEADFSAVYSFRPKNLNYFVDIIAYEGKLPSTISEKSLGGYPVDKTMDEYTVHLNGRHYYSNSKFAFLPTKKPTPEINYMYSCPYFNLDNIYAGTITMYWYRNDHISNDRLESICAQAARILGRAK 6px9-a3-m1-cF_6px9-a3-m1-cE Crystal structure of procaspase-8 in complex with covalent small molecule inhibitor 63-R Q14790 Q14790 2.88 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 210 6px9-a1-m1-cB_6px9-a1-m1-cA 6px9-a2-m1-cC_6px9-a2-m1-cD DKVYQMKSKPRGYCLIINNHNFAKAREKVPKLHSIRDRNGTHLDAGALTTTFEELHFEIKPHDDCTVEQIYEILKIYQLMDHSNMDCFICCILSHGDKGIIYGTDGQEAPIYELTSQFTGLKCPSLAGKPKVFFIQACQQTRYIPDEADFLLGMATVNWYIQSLCQSLRERSPRGDDILTILTEVNYEVSNQMPQPTFTLRKKLVFPSD DKVYQMKSKPRGYCLIINNHNFAKAREKVPKLHSIRDRNGTHLDAGALTTTFEELHFEIKPHDDCTVEQIYEILKIYQLMDHSNMDCFICCILSHGDKGIIYGTDGQEAPIYELTSQFTGLKCPSLAGKPKVFFIQACQQTRYIPDEADFLLGMATVNNWYIQSLCQSLRERSPRGDDILTILTEVNYEVSNQMPQPTFTLRKKLVFPSD 6pxi-a1-m2-cF_6pxi-a1-m3-cF The crystal structure of a singly capped HslUV complex with an axial pore plug and a HslU E257Q mutation P0A6H5 P0A6H5 3.447 X-RAY DIFFRACTION 21 1.0 562 (Escherichia coli) 562 (Escherichia coli) 367 367 6pxi-a1-m1-cF_6pxi-a1-m2-cF 6pxi-a1-m1-cF_6pxi-a1-m3-cF SEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAPSAARQAFRKKLREIMAPPGMEEMTSQLQSMFQNLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDQIDKICKRGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL SEMTPREIVSELDKHIIGQDNAKRSVAIALRNRWRRMQLNEELRHEVTPKNILMIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEKEVDSIIRDLTDAAVKMVRVQAIEKNRYRAPSAARQAFRKKLREIMAPPGMEEMTSQLQSMFQNLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDQIDKICKRGPDVSREGVQRDLLPLVEGCTVSTKHGMVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALMATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLMEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxk-a1-m1-cD_6pxk-a1-m1-cE 3.65 Angstroms resolution structure of HslU with an axial-channel plug P0A6H5 P0A6H5 3.647 X-RAY DIFFRACTION 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 328 413 HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVKEVDSIIRDLTDAAVKVRVQAIEKNRYKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGYKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPPEPSAARQAFRKKLREGQLDDKEIEIDLAAAPGVEIAPPGEETSQLQSFQNLGGQKQKARKLKIKDAKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxk-a2-m1-cG_6pxk-a2-m1-cI 3.65 Angstroms resolution structure of HslU with an axial-channel plug P0A6H5 P0A6H5 3.647 X-RAY DIFFRACTION 11 0.992 562 (Escherichia coli) 562 (Escherichia coli) 363 398 HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPVEIAPPGEETSQLQSFQNLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPPSAARQAFRKKLREGQLDDDLAAAPGVEIAPPGEETSQLQSFQNLGGQKQKIKDAKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxk-a2-m1-cI_6pxk-a2-m1-cK 3.65 Angstroms resolution structure of HslU with an axial-channel plug P0A6H5 P0A6H5 3.647 X-RAY DIFFRACTION 10 0.995 562 (Escherichia coli) 562 (Escherichia coli) 398 416 HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPPSAARQAFRKKLREGQLDDDLAAAPGVEIAPPGEETSQLQSFQNLGGQKQKIKDAKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPPAKNNWEPSAARQAFRKKLREGQLDDKEIEIDLAAAPGVEIAPPGEETSQLQSFQNLGGQKQKARKLKIKDAKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxk-a2-m1-cJ_6pxk-a2-m1-cI 3.65 Angstroms resolution structure of HslU with an axial-channel plug P0A6H5 P0A6H5 3.647 X-RAY DIFFRACTION 124 0.997 562 (Escherichia coli) 562 (Escherichia coli) 314 398 HSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKVRVQAIEKNKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEVGGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPPSAARQAFRKKLREGQLDDDLAAAPGVEIAPPGEETSQLQSFQNLGGQKQKIKDAKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxl-a2-m1-cI_6pxl-a2-m1-cK 3.74 Angstroms resolution structure of HlsU with an axial-channel plug P0A6H5 P0A6H5 3.741 X-RAY DIFFRACTION 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 364 416 HSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEEDLAAAPGVEIAPPGEETSQLQSFQNLGGQKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEERILDVLIPPAKNNWEPSAARQAFRKKLREGQLDDKEIEIDLAAAPGVEIAPPGEETSQLQSFQNLGGQKQKARKLKIKDAKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxl-a2-m1-cJ_6pxl-a2-m1-cI 3.74 Angstroms resolution structure of HlsU with an axial-channel plug P0A6H5 P0A6H5 3.741 X-RAY DIFFRACTION 122 0.997 562 (Escherichia coli) 562 (Escherichia coli) 324 364 6pxl-a1-m1-cE_6pxl-a1-m1-cF HHSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKVRVQAIEKNLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL HSETPREIVSELDKHIIGQDNAKRSVAIALRNRWRRQLNEELRHEVTPKNILIGPTGVGKTEIARRLAKLANAPFIKVEATKFTEGKEVDSIIRDLTDAAVKVRVQAIEKNRYRAEELAEEDLAAAPGVEIAPPGEETSQLQSFQNLGGQKLLIEEEAAKLVNPEELKQDAIDAVEQHGIVFIDEIDKICKSGPDVSREGVQRDLLPLVEGCTVSTKHGVKTDHILFIASGAFQIAKPSDLIPELQGRLPIRVELQALTTSDFERILTEPNASITVQYKALATEGVNIEFTDSGIKRIAEAAWQVNESTENIGARRLHTVLERLEEISYDASDLSGQNITIDADYVSKHLDALVADEDLSRFIL 6pxs-a1-m1-cA_6pxs-a1-m1-cB Crystal structure of iminodiacetate oxidase (IdaA) from Chelativorans sp. BNC1 Q11HA4 Q11HA4 2.836 X-RAY DIFFRACTION 57 1.0 266779 (Chelativorans sp. BNC1) 266779 (Chelativorans sp. BNC1) 370 370 MRVLIIGAGILGASAAYHLARLGAQVEIIDQNHPGKATLAGAGVVCPWATEADDPDWYLLYARGARYYGTLIEELRGQGETELGYSRVGALVLAEDRARLDTIEGRISRRIKDAPEAGTVRRLGAGEAKRLFPPLRDDLEAIHIPGGARVDGRLLAASMLRVAISSGATLRNDYVSLRLNDGRAECLGSDGRPIPADEIIVTAGAWAAQILALLGLRHPVVPQKGQIIHLHLPGVATSGWPVVLPMNSYYMLAFDDSRVVVGATREDGSGFDYRVTARGQLEVLQAGLGIAPGLADATHIETRVGFRPAGSAMRPILGRVPQIAGLTIGNGLGASGLTVGPFAGHLLAGVVMGEPAEVPLERYSPTGPEA MRVLIIGAGILGASAAYHLARLGAQVEIIDQNHPGKATLAGAGVVCPWATEADDPDWYLLYARGARYYGTLIEELRGQGETELGYSRVGALVLAEDRARLDTIEGRISRRIKDAPEAGTVRRLGAGEAKRLFPPLRDDLEAIHIPGGARVDGRLLAASMLRVAISSGATLRNDYVSLRLNDGRAECLGSDGRPIPADEIIVTAGAWAAQILALLGLRHPVVPQKGQIIHLHLPGVATSGWPVVLPMNSYYMLAFDDSRVVVGATREDGSGFDYRVTARGQLEVLQAGLGIAPGLADATHIETRVGFRPAGSAMRPILGRVPQIAGLTIGNGLGASGLTVGPFAGHLLAGVVMGEPAEVPLERYSPTGPEA 6pxs-a1-m1-cD_6pxs-a1-m1-cA Crystal structure of iminodiacetate oxidase (IdaA) from Chelativorans sp. BNC1 Q11HA4 Q11HA4 2.836 X-RAY DIFFRACTION 65 1.0 266779 (Chelativorans sp. BNC1) 266779 (Chelativorans sp. BNC1) 369 370 6pxs-a1-m1-cC_6pxs-a1-m1-cB RVLIIGAGILGASAAYHLARLGAQVEIIDQNHPGKATLAGAGVVCPWATEADDPDWYLLYARGARYYGTLIEELRGQGETELGYSRVGALVLAEDRARLDTIEGRISRRIKDAPEAGTVRRLGAGEAKRLFPPLRDDLEAIHIPGGARVDGRLLAASMLRVAISSGATLRNDYVSLRLNDGRAECLGSDGRPIPADEIIVTAGAWAAQILALLGLRHPVVPQKGQIIHLHLPGVATSGWPVVLPMNSYYMLAFDDSRVVVGATREDGSGFDYRVTARGQLEVLQAGLGIAPGLADATHIETRVGFRPAGSAMRPILGRVPQIAGLTIGNGLGASGLTVGPFAGHLLAGVVMGEPAEVPLERYSPTGPEA MRVLIIGAGILGASAAYHLARLGAQVEIIDQNHPGKATLAGAGVVCPWATEADDPDWYLLYARGARYYGTLIEELRGQGETELGYSRVGALVLAEDRARLDTIEGRISRRIKDAPEAGTVRRLGAGEAKRLFPPLRDDLEAIHIPGGARVDGRLLAASMLRVAISSGATLRNDYVSLRLNDGRAECLGSDGRPIPADEIIVTAGAWAAQILALLGLRHPVVPQKGQIIHLHLPGVATSGWPVVLPMNSYYMLAFDDSRVVVGATREDGSGFDYRVTARGQLEVLQAGLGIAPGLADATHIETRVGFRPAGSAMRPILGRVPQIAGLTIGNGLGASGLTVGPFAGHLLAGVVMGEPAEVPLERYSPTGPEA 6pxs-a1-m1-cD_6pxs-a1-m1-cB Crystal structure of iminodiacetate oxidase (IdaA) from Chelativorans sp. BNC1 Q11HA4 Q11HA4 2.836 X-RAY DIFFRACTION 62 1.0 266779 (Chelativorans sp. BNC1) 266779 (Chelativorans sp. BNC1) 369 370 6pxs-a1-m1-cC_6pxs-a1-m1-cA RVLIIGAGILGASAAYHLARLGAQVEIIDQNHPGKATLAGAGVVCPWATEADDPDWYLLYARGARYYGTLIEELRGQGETELGYSRVGALVLAEDRARLDTIEGRISRRIKDAPEAGTVRRLGAGEAKRLFPPLRDDLEAIHIPGGARVDGRLLAASMLRVAISSGATLRNDYVSLRLNDGRAECLGSDGRPIPADEIIVTAGAWAAQILALLGLRHPVVPQKGQIIHLHLPGVATSGWPVVLPMNSYYMLAFDDSRVVVGATREDGSGFDYRVTARGQLEVLQAGLGIAPGLADATHIETRVGFRPAGSAMRPILGRVPQIAGLTIGNGLGASGLTVGPFAGHLLAGVVMGEPAEVPLERYSPTGPEA MRVLIIGAGILGASAAYHLARLGAQVEIIDQNHPGKATLAGAGVVCPWATEADDPDWYLLYARGARYYGTLIEELRGQGETELGYSRVGALVLAEDRARLDTIEGRISRRIKDAPEAGTVRRLGAGEAKRLFPPLRDDLEAIHIPGGARVDGRLLAASMLRVAISSGATLRNDYVSLRLNDGRAECLGSDGRPIPADEIIVTAGAWAAQILALLGLRHPVVPQKGQIIHLHLPGVATSGWPVVLPMNSYYMLAFDDSRVVVGATREDGSGFDYRVTARGQLEVLQAGLGIAPGLADATHIETRVGFRPAGSAMRPILGRVPQIAGLTIGNGLGASGLTVGPFAGHLLAGVVMGEPAEVPLERYSPTGPEA 6pxz-a1-m1-cA_6pxz-a1-m1-cC Crystal Structure of mouse Serum Amyloid A3 (SAA3) in the trimeric form P04918 P04918 1.7 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 99 103 6py0-a1-m1-cC_6py0-a1-m1-cA RWVQFMKEAGQGSRDMWRAYSDMKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGDSRADQFANEWGRSGKDPNHFRPAGLPKRY RWVQFMKEAGQGSRDMWRAYSDMKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGHGAEDSRADQFANEWGRSGKDPNHFRPAGLPKRY 6pxz-a1-m1-cB_6pxz-a1-m1-cC Crystal Structure of mouse Serum Amyloid A3 (SAA3) in the trimeric form P04918 P04918 1.7 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 103 103 6py0-a1-m1-cC_6py0-a1-m1-cB RWVQFMKEAGQGSRDMWRAYSDMKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGHGAEDSRADQFANEWGRSGKDPNHFRPAGLPKRY RWVQFMKEAGQGSRDMWRAYSDMKKANWKNSDKYFHARGNYDAARRGPGGAWAAKVISDAREAVQKFTGHGAEDSRADQFANEWGRSGKDPNHFRPAGLPKRY 6py1-a2-m1-cA_6py1-a2-m2-cA Crystal Structure of the Carbohydrate Recognition Domain of the Human Macrophage Galactose C-Type Lectin Bound to GalNAc Q8IUN9 Q8IUN9 1.701 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 130 6xiy-a1-m1-cA_6xiy-a1-m2-cA TSCPVNWVEHQDSCYWFSHSGMSWAEAEKYCQLKNAHLVVINSREEQNFVQKYLGSAYTWMGLSDPEGAWKWVDGTDYATGFQNWKPGQPDDWQGHGLGGGEDCAHFHPDGRWNDDVCQRPYHWVCEAGL TSCPVNWVEHQDSCYWFSHSGMSWAEAEKYCQLKNAHLVVINSREEQNFVQKYLGSAYTWMGLSDPEGAWKWVDGTDYATGFQNWKPGQPDDWQGHGLGGGEDCAHFHPDGRWNDDVCQRPYHWVCEAGL 6pyt-a1-m1-cA_6pyt-a1-m1-cR CryoEM Structure of Pyocin R2 - precontracted - trunk G3XD39 G3XD39 2.9 ELECTRON MICROSCOPY 22 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 385 385 3j9q-a1-m1-cA_3j9q-a1-m1-cL 3j9q-a1-m1-cA_3j9q-a1-m1-cQ 3j9q-a1-m1-cB_3j9q-a1-m1-cG 3j9q-a1-m1-cB_3j9q-a1-m1-cJ 3j9q-a1-m1-cC_3j9q-a1-m1-cK 3j9q-a1-m1-cC_3j9q-a1-m1-cP 3j9q-a1-m1-cD_3j9q-a1-m1-cI 3j9q-a1-m1-cD_3j9q-a1-m1-cN 3j9q-a1-m1-cE_3j9q-a1-m1-cO 3j9q-a1-m1-cE_3j9q-a1-m1-cR 3j9q-a1-m1-cF_3j9q-a1-m1-cH 3j9q-a1-m1-cF_3j9q-a1-m1-cM 3j9q-a1-m1-cG_3j9q-a1-m1-cm 3j9q-a1-m1-cI_3j9q-a1-m1-cd 3j9q-a1-m1-cK_3j9q-a1-m1-cX 3j9q-a1-m1-cM_3j9q-a1-m1-cj 3j9q-a1-m1-cO_3j9q-a1-m1-ca 3j9q-a1-m1-cQ_3j9q-a1-m1-cg 6pyt-a1-m1-cB_6pyt-a1-m1-cM 6pyt-a1-m1-cC_6pyt-a1-m1-cN 6pyt-a1-m1-cD_6pyt-a1-m1-cO 6pyt-a1-m1-cE_6pyt-a1-m1-cP 6pyt-a1-m1-cF_6pyt-a1-m1-cQ 6u5b-a1-m1-cA_6u5b-a1-m1-cN 6u5b-a1-m1-cB_6u5b-a1-m1-cO 6u5b-a1-m1-cC_6u5b-a1-m1-cP 6u5b-a1-m1-cD_6u5b-a1-m1-cQ 6u5b-a1-m1-cE_6u5b-a1-m1-cR 6u5b-a1-m1-cF_6u5b-a1-m1-cM 6u5f-a1-m1-cg_6u5f-a1-m1-ct 6u5f-a1-m1-cG_6u5f-a1-m1-cT 6u5f-a1-m1-ch_6u5f-a1-m1-cu 6u5f-a1-m1-cH_6u5f-a1-m1-cU 6u5f-a1-m1-ci_6u5f-a1-m1-cv 6u5f-a1-m1-cI_6u5f-a1-m1-cV 6u5f-a1-m1-cj_6u5f-a1-m1-cw 6u5f-a1-m1-cJ_6u5f-a1-m1-cW 6u5f-a1-m1-ck_6u5f-a1-m1-cx 6u5f-a1-m1-cK_6u5f-a1-m1-cX 6u5f-a1-m1-cl_6u5f-a1-m1-cs 6u5f-a1-m1-cL_6u5f-a1-m1-cS 6u5f-a1-m1-cS_6u5f-a1-m1-ch 6u5f-a1-m1-cT_6u5f-a1-m1-ci 6u5f-a1-m1-cU_6u5f-a1-m1-cj 6u5f-a1-m1-cV_6u5f-a1-m1-ck 6u5f-a1-m1-cW_6u5f-a1-m1-cl 6u5f-a1-m1-cX_6u5f-a1-m1-cg SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA 6pyt-a1-m1-cF_6pyt-a1-m1-cR CryoEM Structure of Pyocin R2 - precontracted - trunk G3XD39 G3XD39 2.9 ELECTRON MICROSCOPY 145 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 385 385 3j9q-a1-m1-cA_3j9q-a1-m1-cG 3j9q-a1-m1-cA_3j9q-a1-m1-cH 3j9q-a1-m1-cB_3j9q-a1-m1-cK 3j9q-a1-m1-cB_3j9q-a1-m1-cL 3j9q-a1-m1-cC_3j9q-a1-m1-cI 3j9q-a1-m1-cC_3j9q-a1-m1-cJ 3j9q-a1-m1-cD_3j9q-a1-m1-cO 3j9q-a1-m1-cD_3j9q-a1-m1-cP 3j9q-a1-m1-cE_3j9q-a1-m1-cM 3j9q-a1-m1-cE_3j9q-a1-m1-cN 3j9q-a1-m1-cF_3j9q-a1-m1-cQ 3j9q-a1-m1-cF_3j9q-a1-m1-cR 3j9q-a1-m1-cG_3j9q-a1-m1-cX 3j9q-a1-m1-cI_3j9q-a1-m1-ca 3j9q-a1-m1-cK_3j9q-a1-m1-cd 3j9q-a1-m1-cM_3j9q-a1-m1-cg 3j9q-a1-m1-cO_3j9q-a1-m1-cj 3j9q-a1-m1-cQ_3j9q-a1-m1-cm 6pyt-a1-m1-cA_6pyt-a1-m1-cM 6pyt-a1-m1-cB_6pyt-a1-m1-cN 6pyt-a1-m1-cC_6pyt-a1-m1-cO 6pyt-a1-m1-cD_6pyt-a1-m1-cP 6pyt-a1-m1-cE_6pyt-a1-m1-cQ 6u5b-a1-m1-cA_6u5b-a1-m1-cM 6u5b-a1-m1-cB_6u5b-a1-m1-cN 6u5b-a1-m1-cC_6u5b-a1-m1-cO 6u5b-a1-m1-cD_6u5b-a1-m1-cP 6u5b-a1-m1-cE_6u5b-a1-m1-cQ 6u5b-a1-m1-cF_6u5b-a1-m1-cR 6u5f-a1-m1-cg_6u5f-a1-m1-cs 6u5f-a1-m1-cG_6u5f-a1-m1-cS 6u5f-a1-m1-ch_6u5f-a1-m1-ct 6u5f-a1-m1-cH_6u5f-a1-m1-cT 6u5f-a1-m1-ci_6u5f-a1-m1-cu 6u5f-a1-m1-cI_6u5f-a1-m1-cU 6u5f-a1-m1-cj_6u5f-a1-m1-cv 6u5f-a1-m1-cJ_6u5f-a1-m1-cV 6u5f-a1-m1-ck_6u5f-a1-m1-cw 6u5f-a1-m1-cK_6u5f-a1-m1-cW 6u5f-a1-m1-cl_6u5f-a1-m1-cx 6u5f-a1-m1-cL_6u5f-a1-m1-cX 6u5f-a1-m1-cS_6u5f-a1-m1-cg 6u5f-a1-m1-cT_6u5f-a1-m1-ch 6u5f-a1-m1-cU_6u5f-a1-m1-ci 6u5f-a1-m1-cV_6u5f-a1-m1-cj 6u5f-a1-m1-cW_6u5f-a1-m1-ck 6u5f-a1-m1-cX_6u5f-a1-m1-cl SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA 6pyt-a1-m1-cQ_6pyt-a1-m1-cR CryoEM Structure of Pyocin R2 - precontracted - trunk G3XD39 G3XD39 2.9 ELECTRON MICROSCOPY 51 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 385 385 3j9q-a1-m1-cA_3j9q-a1-m1-cB 3j9q-a1-m1-ca_3j9q-a1-m1-cd 3j9q-a1-m1-cA_3j9q-a1-m1-cF 3j9q-a1-m1-ca_3j9q-a1-m1-cj 3j9q-a1-m1-cB_3j9q-a1-m1-cC 3j9q-a1-m1-cC_3j9q-a1-m1-cD 3j9q-a1-m1-cD_3j9q-a1-m1-cE 3j9q-a1-m1-cE_3j9q-a1-m1-cF 3j9q-a1-m1-cg_3j9q-a1-m1-cj 3j9q-a1-m1-cG_3j9q-a1-m1-cK 3j9q-a1-m1-cg_3j9q-a1-m1-cm 3j9q-a1-m1-cG_3j9q-a1-m1-cQ 3j9q-a1-m1-cH_3j9q-a1-m1-cL 3j9q-a1-m1-cH_3j9q-a1-m1-cR 3j9q-a1-m1-cI_3j9q-a1-m1-cK 3j9q-a1-m1-cI_3j9q-a1-m1-cO 3j9q-a1-m1-cJ_3j9q-a1-m1-cL 3j9q-a1-m1-cJ_3j9q-a1-m1-cP 3j9q-a1-m1-cM_3j9q-a1-m1-cO 3j9q-a1-m1-cM_3j9q-a1-m1-cQ 3j9q-a1-m1-cN_3j9q-a1-m1-cP 3j9q-a1-m1-cN_3j9q-a1-m1-cR 3j9q-a1-m1-cX_3j9q-a1-m1-cd 3j9q-a1-m1-cX_3j9q-a1-m1-cm 6pyt-a1-m1-cA_6pyt-a1-m1-cB 6pyt-a1-m1-cA_6pyt-a1-m1-cF 6pyt-a1-m1-cB_6pyt-a1-m1-cC 6pyt-a1-m1-cC_6pyt-a1-m1-cD 6pyt-a1-m1-cD_6pyt-a1-m1-cE 6pyt-a1-m1-cE_6pyt-a1-m1-cF 6pyt-a1-m1-cM_6pyt-a1-m1-cN 6pyt-a1-m1-cM_6pyt-a1-m1-cR 6pyt-a1-m1-cN_6pyt-a1-m1-cO 6pyt-a1-m1-cO_6pyt-a1-m1-cP 6pyt-a1-m1-cP_6pyt-a1-m1-cQ 6u5b-a1-m1-cA_6u5b-a1-m1-cB 6u5b-a1-m1-cA_6u5b-a1-m1-cF 6u5b-a1-m1-cB_6u5b-a1-m1-cC 6u5b-a1-m1-cC_6u5b-a1-m1-cD 6u5b-a1-m1-cD_6u5b-a1-m1-cE 6u5b-a1-m1-cE_6u5b-a1-m1-cF 6u5b-a1-m1-cM_6u5b-a1-m1-cN 6u5b-a1-m1-cM_6u5b-a1-m1-cR 6u5b-a1-m1-cN_6u5b-a1-m1-cO 6u5b-a1-m1-cO_6u5b-a1-m1-cP 6u5b-a1-m1-cP_6u5b-a1-m1-cQ 6u5b-a1-m1-cQ_6u5b-a1-m1-cR 6u5f-a1-m1-cg_6u5f-a1-m1-ch 6u5f-a1-m1-cG_6u5f-a1-m1-cH 6u5f-a1-m1-cg_6u5f-a1-m1-cl 6u5f-a1-m1-cG_6u5f-a1-m1-cL 6u5f-a1-m1-ch_6u5f-a1-m1-ci 6u5f-a1-m1-cH_6u5f-a1-m1-cI 6u5f-a1-m1-ci_6u5f-a1-m1-cj 6u5f-a1-m1-cI_6u5f-a1-m1-cJ 6u5f-a1-m1-cj_6u5f-a1-m1-ck 6u5f-a1-m1-cJ_6u5f-a1-m1-cK 6u5f-a1-m1-ck_6u5f-a1-m1-cl 6u5f-a1-m1-cK_6u5f-a1-m1-cL 6u5f-a1-m1-cs_6u5f-a1-m1-ct 6u5f-a1-m1-cS_6u5f-a1-m1-cT 6u5f-a1-m1-cs_6u5f-a1-m1-cx 6u5f-a1-m1-cS_6u5f-a1-m1-cX 6u5f-a1-m1-ct_6u5f-a1-m1-cu 6u5f-a1-m1-cT_6u5f-a1-m1-cU 6u5f-a1-m1-cu_6u5f-a1-m1-cv 6u5f-a1-m1-cU_6u5f-a1-m1-cV 6u5f-a1-m1-cv_6u5f-a1-m1-cw 6u5f-a1-m1-cV_6u5f-a1-m1-cW 6u5f-a1-m1-cw_6u5f-a1-m1-cx 6u5f-a1-m1-cW_6u5f-a1-m1-cX SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLDVA 6pz2-a1-m1-cA_6pz2-a1-m2-cA Crystal Structure of FolP (dihydropteroate synthase) from Colstridium difficile in the presence of pteroic acid 2 X-RAY DIFFRACTION 76 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 263 263 MFDYGKRTYIMGILNVTPDSFSDGGDFNNLDIAIQHAKDMVDQGADIIDLGGESTRPGHSYVDSDEELRRVIPVIKKLKQELDIPISIDTYKADVAEEALKLGVTMVNDVWGLRKDKNMASVIGKYDAEVCIMHNQDGTNYDKDIMESIKDFFKVSIEMAMSCGVKKEKIVLDPGVGFGKDFEQNIEVLRRLNELKDLGYPILLGTSRKSVIGKVLPVEPKKRLEGTIATTVLGIRDGVDIVRVHDVYENLMAARMTDAIYRK MFDYGKRTYIMGILNVTPDSFSDGGDFNNLDIAIQHAKDMVDQGADIIDLGGESTRPGHSYVDSDEELRRVIPVIKKLKQELDIPISIDTYKADVAEEALKLGVTMVNDVWGLRKDKNMASVIGKYDAEVCIMHNQDGTNYDKDIMESIKDFFKVSIEMAMSCGVKKEKIVLDPGVGFGKDFEQNIEVLRRLNELKDLGYPILLGTSRKSVIGKVLPVEPKKRLEGTIATTVLGIRDGVDIVRVHDVYENLMAARMTDAIYRK 6pzj-a1-m1-cA_6pzj-a1-m2-cA Structure of the N-terminal domain (residues 43-304) of Methyl-accepting chemotaxis protein from Leptospira interrogans serogroup Icterohaemorrhagiae serovar Copenhageni (strain Fiocruz L1-130) Q72NB4 Q72NB4 1.75 X-RAY DIFFRACTION 125 1.0 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 264 264 HHHHHMEITAERWTYEVKDYLDTGMGIIRGFRFPLLFSAPPRNQIIAALREILKVNDHYFGARLAYEPNSLDGNDLEFQNTLGHDSTGRFIPYLHRGQTKEEIVLEDAKYYDSLGPEGDWYQVPKKTKSHYATDPYYYEIKGKVKILMMSLMVPLYVNDQFYGVAGLDYQLEELQQRIGVKKPFQDLGYLTLISPKGIYAVNGFDSNRVGEKISDAKELEYYLSKSQEGEKFTTDSDGYTHYYFPFHIGKDKRYWVMQVSIPNS HHHHHMEITAERWTYEVKDYLDTGMGIIRGFRFPLLFSAPPRNQIIAALREILKVNDHYFGARLAYEPNSLDGNDLEFQNTLGHDSTGRFIPYLHRGQTKEEIVLEDAKYYDSLGPEGDWYQVPKKTKSHYATDPYYYEIKGKVKILMMSLMVPLYVNDQFYGVAGLDYQLEELQQRIGVKKPFQDLGYLTLISPKGIYAVNGFDSNRVGEKISDAKELEYYLSKSQEGEKFTTDSDGYTHYYFPFHIGKDKRYWVMQVSIPNS 6pzm-a1-m1-cA_6pzm-a1-m1-cD Putative SDR from Acinetobacter baumannii Crystal Form 1 A0A1S2FVD8 A0A1S2FVD8 2.1 X-RAY DIFFRACTION 132 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 240 240 6pzm-a1-m1-cB_6pzm-a1-m1-cC 6pzn-a1-m1-cB_6pzn-a1-m1-cA 6pzn-a1-m1-cD_6pzn-a1-m1-cC RKTALVTGASRGIGRAIAERLAQDGFYVIVNYAGNKAHAQATVEHIIEQGGQASAIQADVANEHEVSRLFQEAKAINGRLDVVVHSAGIMPMAKITPESLPDFDKVIHTNLRGAFLILAHAAETVPDGGRIIALSTSVIAKSFPAYGPYIASKAGVEGLVHVLANELRGRNITVNAVAPGPTGTDLFYNGKTDEQVAAIAKLAPLERIGTPDEIAGVVAMLAGPDGRWVNSQVIRVNGGF RKTALVTGASRGIGRAIAERLAQDGFYVIVNYAGNKAHAQATVEHIIEQGGQASAIQADVANEHEVSRLFQEAKAINGRLDVVVHSAGIMPMAKITPESLPDFDKVIHTNLRGAFLILAHAAETVPDGGRIIALSTSVIAKSFPAYGPYIASKAGVEGLVHVLANELRGRNITVNAVAPGPTGTDLFYNGKTDEQVAAIAKLAPLERIGTPDEIAGVVAMLAGPDGRWVNSQVIRVNGGF 6pzm-a1-m1-cB_6pzm-a1-m1-cA Putative SDR from Acinetobacter baumannii Crystal Form 1 A0A1S2FVD8 A0A1S2FVD8 2.1 X-RAY DIFFRACTION 102 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 239 240 6pzm-a1-m1-cD_6pzm-a1-m1-cC 6pzn-a1-m1-cA_6pzn-a1-m1-cC 6pzn-a1-m1-cB_6pzn-a1-m1-cD KTALVTGASRGIGRAIAERLAQDGFYVIVNYAGNKAHAQATVEHIIEQGGQASAIQADVANEHEVSRLFQEAKAINGRLDVVVHSAGIMPMAKITPESLPDFDKVIHTNLRGAFLILAHAAETVPDGGRIIALSTSVIAKSFPAYGPYIASKAGVEGLVHVLANELRGRNITVNAVAPGPTGTDLFYNGKTDEQVAAIAKLAPLERIGTPDEIAGVVAMLAGPDGRWVNSQVIRVNGGF RKTALVTGASRGIGRAIAERLAQDGFYVIVNYAGNKAHAQATVEHIIEQGGQASAIQADVANEHEVSRLFQEAKAINGRLDVVVHSAGIMPMAKITPESLPDFDKVIHTNLRGAFLILAHAAETVPDGGRIIALSTSVIAKSFPAYGPYIASKAGVEGLVHVLANELRGRNITVNAVAPGPTGTDLFYNGKTDEQVAAIAKLAPLERIGTPDEIAGVVAMLAGPDGRWVNSQVIRVNGGF 6q0b-a1-m8-c4_6q0b-a1-m9-c4 Poliovirus (Type 1 Mahoney), receptor-catalysed 135S particle incubated with anti-VP1 mAb at RT for 1 hr P03300 P03300 3.4 ELECTRON MICROSCOPY 69 1.0 12081 (Human poliovirus 1 Mahoney) 12081 (Human poliovirus 1 Mahoney) 68 68 6q0b-a1-m10-c4_6q0b-a1-m6-c4 6q0b-a1-m10-c4_6q0b-a1-m9-c4 6q0b-a1-m11-c4_6q0b-a1-m12-c4 6q0b-a1-m11-c4_6q0b-a1-m15-c4 6q0b-a1-m12-c4_6q0b-a1-m13-c4 6q0b-a1-m13-c4_6q0b-a1-m14-c4 6q0b-a1-m14-c4_6q0b-a1-m15-c4 6q0b-a1-m16-c4_6q0b-a1-m17-c4 6q0b-a1-m16-c4_6q0b-a1-m20-c4 6q0b-a1-m17-c4_6q0b-a1-m18-c4 6q0b-a1-m18-c4_6q0b-a1-m19-c4 6q0b-a1-m19-c4_6q0b-a1-m20-c4 6q0b-a1-m1-c4_6q0b-a1-m2-c4 6q0b-a1-m1-c4_6q0b-a1-m5-c4 6q0b-a1-m21-c4_6q0b-a1-m22-c4 6q0b-a1-m21-c4_6q0b-a1-m25-c4 6q0b-a1-m22-c4_6q0b-a1-m23-c4 6q0b-a1-m23-c4_6q0b-a1-m24-c4 6q0b-a1-m24-c4_6q0b-a1-m25-c4 6q0b-a1-m26-c4_6q0b-a1-m27-c4 6q0b-a1-m26-c4_6q0b-a1-m30-c4 6q0b-a1-m27-c4_6q0b-a1-m28-c4 6q0b-a1-m28-c4_6q0b-a1-m29-c4 6q0b-a1-m29-c4_6q0b-a1-m30-c4 6q0b-a1-m2-c4_6q0b-a1-m3-c4 6q0b-a1-m31-c4_6q0b-a1-m32-c4 6q0b-a1-m31-c4_6q0b-a1-m35-c4 6q0b-a1-m32-c4_6q0b-a1-m33-c4 6q0b-a1-m33-c4_6q0b-a1-m34-c4 6q0b-a1-m34-c4_6q0b-a1-m35-c4 6q0b-a1-m36-c4_6q0b-a1-m37-c4 6q0b-a1-m36-c4_6q0b-a1-m40-c4 6q0b-a1-m37-c4_6q0b-a1-m38-c4 6q0b-a1-m38-c4_6q0b-a1-m39-c4 6q0b-a1-m39-c4_6q0b-a1-m40-c4 6q0b-a1-m3-c4_6q0b-a1-m4-c4 6q0b-a1-m41-c4_6q0b-a1-m42-c4 6q0b-a1-m41-c4_6q0b-a1-m45-c4 6q0b-a1-m42-c4_6q0b-a1-m43-c4 6q0b-a1-m43-c4_6q0b-a1-m44-c4 6q0b-a1-m44-c4_6q0b-a1-m45-c4 6q0b-a1-m46-c4_6q0b-a1-m47-c4 6q0b-a1-m46-c4_6q0b-a1-m50-c4 6q0b-a1-m47-c4_6q0b-a1-m48-c4 6q0b-a1-m48-c4_6q0b-a1-m49-c4 6q0b-a1-m49-c4_6q0b-a1-m50-c4 6q0b-a1-m4-c4_6q0b-a1-m5-c4 6q0b-a1-m51-c4_6q0b-a1-m52-c4 6q0b-a1-m51-c4_6q0b-a1-m55-c4 6q0b-a1-m52-c4_6q0b-a1-m53-c4 6q0b-a1-m53-c4_6q0b-a1-m54-c4 6q0b-a1-m54-c4_6q0b-a1-m55-c4 6q0b-a1-m56-c4_6q0b-a1-m57-c4 6q0b-a1-m56-c4_6q0b-a1-m60-c4 6q0b-a1-m57-c4_6q0b-a1-m58-c4 6q0b-a1-m58-c4_6q0b-a1-m59-c4 6q0b-a1-m59-c4_6q0b-a1-m60-c4 6q0b-a1-m6-c4_6q0b-a1-m7-c4 6q0b-a1-m7-c4_6q0b-a1-m8-c4 GAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTAPMLN GAQVSSQKVGAHENSNRAYGGSTINYTTINYYRDSASNAASKQDFSQDPSKFTEPIKDVLIKTAPMLN 6q0j-a1-m1-cX_6q0j-a1-m1-cY Structure of a MAPK pathway complex V9P4T4 V9P4T4 4.9 ELECTRON MICROSCOPY 37 1.0 7107 (Spodoptera exigua) 7107 (Spodoptera exigua) 229 229 6nyb-a1-m1-cC_6nyb-a1-m1-cD 6q0t-a1-m1-cX_6q0t-a1-m1-cY 6uan-a1-m1-cZ_6uan-a1-m1-cA DKEELVQRAKLAEQAERYDDMAAAMKEVTETGVELSNEERNLLSVAYKNVVGARRSSWRVISSIEQKTEGSERKQQMAKEYRVKVEKELREICYDVLGLLDKHLIPKASNPESKVFYLKMKGDYYRYLAEVATGETRNSVVEDSQKAYQDAFEISKAKMQPTHPIRLGLALNFSVFYYEILNSPDKACQLAKQAFDDAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTS DKEELVQRAKLAEQAERYDDMAAAMKEVTETGVELSNEERNLLSVAYKNVVGARRSSWRVISSIEQKTEGSERKQQMAKEYRVKVEKELREICYDVLGLLDKHLIPKASNPESKVFYLKMKGDYYRYLAEVATGETRNSVVEDSQKAYQDAFEISKAKMQPTHPIRLGLALNFSVFYYEILNSPDKACQLAKQAFDDAIAELDTLNEDSYKDSTLIMQLLRDNLTLWTS 6q0x-a1-m1-cA_6q0x-a1-m1-cD The cryo-EM structure of the SNX-BAR Mvp1 tetramer P40959 P40959 4.2 ELECTRON MICROSCOPY 68 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 373 373 6q0x-a1-m1-cB_6q0x-a1-m1-cC ADIIIIEEIPEREGLLFKHANYLVKHLIALPSTSPSEERTVVRRYSDFLWLREILLKRYPFRMIPELPPKRIGSQNADQLFLKKRRIGLSRFINLVMKHPKLSNDDLVLTFLTVRTDLTSWRKQATYDTSNEFADKKISQEFMKMWKKEFAEQWNQAASCIDTSMELWYRITLLLERHEKRIMQMVHERNFFETLVDNFSEVTPKLYPVQQNDTILDINNNLSIIKKHLETTSSICKQETEEISGTLSPKFKIFTDILLSLRSLFERYKIMAANNVVELQRHVELNKEKLESMKGKPDVSGAEYDRIKKIIQKDRRSIIEQSNRAWLIRQCILEEFTIFQETQFLITRAFQDWAKLNSNHAGLKLNEWEKLVT ADIIIIEEIPEREGLLFKHANYLVKHLIALPSTSPSEERTVVRRYSDFLWLREILLKRYPFRMIPELPPKRIGSQNADQLFLKKRRIGLSRFINLVMKHPKLSNDDLVLTFLTVRTDLTSWRKQATYDTSNEFADKKISQEFMKMWKKEFAEQWNQAASCIDTSMELWYRITLLLERHEKRIMQMVHERNFFETLVDNFSEVTPKLYPVQQNDTILDINNNLSIIKKHLETTSSICKQETEEISGTLSPKFKIFTDILLSLRSLFERYKIMAANNVVELQRHVELNKEKLESMKGKPDVSGAEYDRIKKIIQKDRRSIIEQSNRAWLIRQCILEEFTIFQETQFLITRAFQDWAKLNSNHAGLKLNEWEKLVT 6q0x-a1-m1-cC_6q0x-a1-m1-cD The cryo-EM structure of the SNX-BAR Mvp1 tetramer P40959 P40959 4.2 ELECTRON MICROSCOPY 143 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 373 373 6q0x-a1-m1-cA_6q0x-a1-m1-cB ADIIIIEEIPEREGLLFKHANYLVKHLIALPSTSPSEERTVVRRYSDFLWLREILLKRYPFRMIPELPPKRIGSQNADQLFLKKRRIGLSRFINLVMKHPKLSNDDLVLTFLTVRTDLTSWRKQATYDTSNEFADKKISQEFMKMWKKEFAEQWNQAASCIDTSMELWYRITLLLERHEKRIMQMVHERNFFETLVDNFSEVTPKLYPVQQNDTILDINNNLSIIKKHLETTSSICKQETEEISGTLSPKFKIFTDILLSLRSLFERYKIMAANNVVELQRHVELNKEKLESMKGKPDVSGAEYDRIKKIIQKDRRSIIEQSNRAWLIRQCILEEFTIFQETQFLITRAFQDWAKLNSNHAGLKLNEWEKLVT ADIIIIEEIPEREGLLFKHANYLVKHLIALPSTSPSEERTVVRRYSDFLWLREILLKRYPFRMIPELPPKRIGSQNADQLFLKKRRIGLSRFINLVMKHPKLSNDDLVLTFLTVRTDLTSWRKQATYDTSNEFADKKISQEFMKMWKKEFAEQWNQAASCIDTSMELWYRITLLLERHEKRIMQMVHERNFFETLVDNFSEVTPKLYPVQQNDTILDINNNLSIIKKHLETTSSICKQETEEISGTLSPKFKIFTDILLSLRSLFERYKIMAANNVVELQRHVELNKEKLESMKGKPDVSGAEYDRIKKIIQKDRRSIIEQSNRAWLIRQCILEEFTIFQETQFLITRAFQDWAKLNSNHAGLKLNEWEKLVT 6q16-a1-m1-c6_6q16-a1-m1-c7 Focussed refinement of InvGN0N1:PrgHK:SpaPQR:PrgIJ from Salmonella SPI-1 injectisome NC-base P0A1L7 P0A1L7 4.1 ELECTRON MICROSCOPY 27 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 53 84 6pem-a1-m1-c6_6pem-a1-m1-c7 6pep-a1-m1-c6_6pep-a1-m1-c7 6q14-a1-m1-c6_6q14-a1-m1-c7 6q15-a1-m1-c6_6q15-a1-m1-c7 MDDLVFAGNKALYLVLILSGWPTIVATCLFLLSGWYGEVLLSYGRQVIFLALA MDDLVFAGNKALYLVLILSGWPTIVATIIGLLVGLFQTVTQLQEQTLPFGIKLLGVCLCLFLLSGWYGEVLLSYGRQVIFLALA 6q16-a1-m1-cAM_6q16-a1-m1-cAR Focussed refinement of InvGN0N1:PrgHK:SpaPQR:PrgIJ from Salmonella SPI-1 injectisome NC-base P41785 P41785 4.1 ELECTRON MICROSCOPY 11 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 39 88 6pep-a1-m1-cAM_6pep-a1-m1-cAR 6q15-a1-m1-cAM_6q15-a1-m1-cAR 7ah9-a1-m1-c1K_7ah9-a1-m1-c1P 7ahi-a1-m1-c1K_7ahi-a1-m1-c1P DPKELAISQEMISDYNLYVSMVSTLTRKGVGAVETLLRS GQAVNIRSMETDIVSLDDRLLQAFSGSAIATAVDKQTITNRIEDPNLVTDPKELAISQEMISDYNLYVSMVSTLTRKGVGAVETLLRS 6q16-a1-m1-cBE_6q16-a1-m1-cAZ Focussed refinement of InvGN0N1:PrgHK:SpaPQR:PrgIJ from Salmonella SPI-1 injectisome NC-base P41784 P41784 4.1 ELECTRON MICROSCOPY 15 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 43 57 6pep-a1-m1-cBE_6pep-a1-m1-cAZ TPWSGYLDDVSAKFDTGNLYRNAQSNTVKVFKDIDAAIIQNFR TPWSGYLDDVSAKFDTGVDNLQTQVTELSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 6q1s-a2-m1-cC_6q1s-a2-m1-cD A hypothetical aminotransferase from Mycobacterium tuberculosis, alpha-ketoglutarate and PMP bound form Q79FW0 Q79FW0 2.3 X-RAY DIFFRACTION 181 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 283 283 6q1q-a1-m1-cA_6q1q-a1-m1-cB 6q1r-a1-m1-cA_6q1r-a1-m1-cB 6q1r-a2-m1-cD_6q1r-a2-m1-cC 6q1s-a1-m1-cA_6q1s-a1-m1-cB AMVVTLDGEILQPGMPLLHADDLAAVRGDGVFETLLVRDGRACLVEAHLQRLTQSARLMDLPEPDLPRWRRAVEVATQRWVASTADEGALRLIYSRGREGGSAPTAYVMVSPVPARVIGARRDGVSAITLDRGLPADGGDAMPWLIASAKTLSYAVNMAVLRHAARQGAGDVIFVSTDGYVLEGPRSTVVIATDPCLLTPPPWYPILRGTTQQALFEVARAKGYDCDYRALRVADLFDSQGIWLVSSMTLAARVHTLDGRRLPRTPIAEVFAELVDAAIVSDR AMVVTLDGEILQPGMPLLHADDLAAVRGDGVFETLLVRDGRACLVEAHLQRLTQSARLMDLPEPDLPRWRRAVEVATQRWVASTADEGALRLIYSRGREGGSAPTAYVMVSPVPARVIGARRDGVSAITLDRGLPADGGDAMPWLIASAKTLSYAVNMAVLRHAARQGAGDVIFVSTDGYVLEGPRSTVVIATDPCLLTPPPWYPILRGTTQQALFEVARAKGYDCDYRALRVADLFDSQGIWLVSSMTLAARVHTLDGRRLPRTPIAEVFAELVDAAIVSDR 6q28-a2-m1-cC_6q28-a2-m1-cD Metal ROK rebel: Characterisation of N-acetylmannosamine kinase from the pathogen Staphylococcus aureus Q2G159 Q2G159 2.2 X-RAY DIFFRACTION 34 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 286 286 6q28-a1-m1-cA_6q28-a1-m1-cB MYYIAIDIGGTQIKSAVIDKQLNMFDYQQISTPDNKSELITDKVYEIVTGYMKQYQLIQPVIGISSAGVVDEQKGEIVYAGPTIPNYKGTNFKRLLKSLSPYVKVKNDVNAALLGELKLHQYQAERIFCMTLGTGIGGAYKNNQGHIDNGELHKANEVGYLLYRPTENTTFEQRAATSALKKRMIAGGFTRSTHVPVLFEAAEEGDDIAKQILNEWAEDVAEGIAQIQVMYDPGLILIGGGISEQGDNLIKYIEPKVAHYLPKDYVYAPIQTTKSKNDAALYGCLQ MYYIAIDIGGTQIKSAVIDKQLNMFDYQQISTPDNKSELITDKVYEIVTGYMKQYQLIQPVIGISSAGVVDEQKGEIVYAGPTIPNYKGTNFKRLLKSLSPYVKVKNDVNAALLGELKLHQYQAERIFCMTLGTGIGGAYKNNQGHIDNGELHKANEVGYLLYRPTENTTFEQRAATSALKKRMIAGGFTRSTHVPVLFEAAEEGDDIAKQILNEWAEDVAEGIAQIQVMYDPGLILIGGGISEQGDNLIKYIEPKVAHYLPKDYVYAPIQTTKSKNDAALYGCLQ 6q28-a4-m1-cB_6q28-a4-m1-cC Metal ROK rebel: Characterisation of N-acetylmannosamine kinase from the pathogen Staphylococcus aureus Q2G159 Q2G159 2.2 X-RAY DIFFRACTION 114 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 286 286 6q26-a1-m1-cA_6q26-a1-m1-cB 6q26-a2-m1-cD_6q26-a2-m1-cC 6q27-a1-m1-cA_6q27-a1-m1-cB 6q27-a2-m1-cC_6q27-a2-m2-cD 6q28-a3-m1-cA_6q28-a3-m2-cD MYYIAIDIGGTQIKSAVIDKQLNMFDYQQISTPDNKSELITDKVYEIVTGYMKQYQLIQPVIGISSAGVVDEQKGEIVYAGPTIPNYKGTNFKRLLKSLSPYVKVKNDVNAALLGELKLHQYQAERIFCMTLGTGIGGAYKNNQGHIDNGELHKANEVGYLLYRPTENTTFEQRAATSALKKRMIAGGFTRSTHVPVLFEAAEEGDDIAKQILNEWAEDVAEGIAQIQVMYDPGLILIGGGISEQGDNLIKYIEPKVAHYLPKDYVYAPIQTTKSKNDAALYGCLQ MYYIAIDIGGTQIKSAVIDKQLNMFDYQQISTPDNKSELITDKVYEIVTGYMKQYQLIQPVIGISSAGVVDEQKGEIVYAGPTIPNYKGTNFKRLLKSLSPYVKVKNDVNAALLGELKLHQYQAERIFCMTLGTGIGGAYKNNQGHIDNGELHKANEVGYLLYRPTENTTFEQRAATSALKKRMIAGGFTRSTHVPVLFEAAEEGDDIAKQILNEWAEDVAEGIAQIQVMYDPGLILIGGGISEQGDNLIKYIEPKVAHYLPKDYVYAPIQTTKSKNDAALYGCLQ 6q2d-a1-m1-cF_6q2d-a1-m1-cC Crystal structure of Methanobrevibacter smithii Dph2 in complex with Methanobrevibacter smithii elongation factor 2 A0A2H4U7K7 A0A2H4U7K7 3.45 X-RAY DIFFRACTION 21 1.0 2173 (Methanobrevibacter smithii) 2173 (Methanobrevibacter smithii) 326 700 ISEPVVTVAVEAKNTKDLPKLIEVLRQVAKEDPTIKVEINEETGEHLVSGMGELHLEVISYRIKDKGVEIQTSEPIVVYRETVSQLSPQVEGKSPNKHNRFYITVEPLEDELFKALQEGKLKEGKVKGKESANDFMEYGLDKEEARKVWDVYNRSVFINATRGYLDEVKELLIEGFESALNDGPLAKEIAMGLKFKLHDAKLHEDAVHRGPAQVLPAIRNAIYASMMSAGPTLLEPMQKVFINTPQDYMGPCTREIQNRRGQIVDMGQEGDMATIESKVPVAEMFGFAGDIRSAAEGRCLWSTEMSGFERLPREMQNQIVKEIRQR RREKMIAKIKDLMYKPDSIRNIGICAHIDHGKTTLSDNLLAGTIDAANVSMVHNYKDEEYLINLIDTPGHVDFGGDVTRAMRAVDGAVVVVCAVEGIMPQTETVLRQALKENVKPVLFINKVDRLINELKLEPEELQKRFINIYMEANKLIKNMAPEDKKEEWAVDFTDGSVAFGSAYHNWAINVPMMQETGVNFKDIIDYCNDDKQKELAQKVPLSEVLLGMVVEHLPSPKVSQEYRVPNIWEGDIESPAGQGMITTSPDGPLAVMVTNVSVDKHAGEIATGRVYGGSIEKGTEVYLVGSHSKSRVQQVGVYFGPERVNTDAVPAGNIVYVAGAKGAIAGETICSPEDKIKEFEGLDHISEPVVTVAVEAKNTKDLPKLIEVLRQVAKEDPTIKVEINEETGEHLVSGMGELHLEVISYRIKDKGVEIQTSEPIVVYRETVSQLSPQVEGKSPNKHNRFYITVEPLEDELFKALQEGKLKEGKVKGKESANDFMEYGLDKEEARKVWDVYNRSVFINATRGYLDEVKELLIEGFESALNDGPLAKEIAMGLKFKLHDAKLHEDAVHRGPAQVLPAIRNAIYASMMSAGPTLLEPMQKVFINTPQDYMGPCTREIQNRRGQIVDMGQEGDMATIESKVPVAEMFGFAGDIRSAAEGRCLWSTEMSGFERLPREMQNQIVKEIRQRKGLSPEPYGPEHYVG 6q2e-a1-m1-cB_6q2e-a1-m1-cA Crystal structure of Methanobrevibacter smithii Dph2 bound to 5'-methylthioadenosine A5UMY5 A5UMY5 1.768 X-RAY DIFFRACTION 108 0.997 2173 (Methanobrevibacter smithii) 2173 (Methanobrevibacter smithii) 329 330 6q2d-a1-m1-cB_6q2d-a1-m1-cA SMYNMDLDKVIRKINKKGARTVGLQFPEGLKMQAVKIAKAIESQTPATVIISGDPCFGACDVSDYKMKGSVDLIVHYGHTPLPLKYEVPTLFIEAFSNIDVKKDLEKCLEKLEDYSKIALVTTTQHLHLLNEIKDYLEDNGKEVVLGSSKNTKKGQVLGCNFSSIKNLDAEVYLFIGSGNFHPLGIYLFTKSPVLALDPYNSEIRDISAFADRILRIRFARITKAREAEKWGIIVSSKEGQYRMKLAKEIKKILEDNKMEAYIIMADNINPDILLPYMELDAFVVSACPRIAIDDSQMYKKPLLTPQELEIVLNKRQWENYQLDEILFH HMSMYNMDLDKVIRKINKKGARTVGLQFPEGLKMQAVKIAKAIESQTPATVIISGDPCFGACDVSDYKMKGSVDLIVHYGHTPLPLKYEVPTLFIEAFSNIDVKKDLEKCLEKLEDYSKIALVTTTQHLHLLNEIKDYLEDNGKEVVLGSSKNTKKGQVLGCNFSSIKNLDAEVYLFIGSGNFHPLGIYLFTKSPVLALDPYNSEIRDISAFADRILRIRFARITKAREAEKWGIIVSSKEGQYRMKLAKEIKKILEDNKMEAYIIMADNINPDILLPYMELDAFVVSACPRIAIDDSQMYKKPLLTPQELEIVLNKRQWENYQLDEILF 6q2n-a1-m1-cA_6q2n-a1-m1-cB Cryo-EM structure of RET/GFRa1/GDNF extracellular complex P39905 P39905 4.4 ELECTRON MICROSCOPY 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 GCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCDAAETTYDKILKNLSKVGQACCRPIAFDDDLSFLDDNLVYHILRKHSAKRCGC GCVLTAIHLNVTDLGLGYETKEELIFRYCSGSCDAAETTYDKILKNLSKVGQACCRPIAFDDDLSFLDDNLVYHILRKHSAKRCGC 6q2z-a1-m1-cA_6q2z-a1-m1-cB NMR solution structure of the HVO_2922 protein from Haloferax volcanii D4GXU1 D4GXU1 NOT SOLUTION NMR 133 1.0 309800 (Haloferax volcanii DS2) 309800 (Haloferax volcanii DS2) 60 60 MNKAHFEVFVDAADKYRWRLVHDNGNILADSGEGYASKQKAKQGIESVKRNAPDADVIEA MNKAHFEVFVDAADKYRWRLVHDNGNILADSGEGYASKQKAKQGIESVKRNAPDADVIEA 6q3o-a2-m1-cB_6q3o-a2-m1-cD PROTEIN-AROMATIC FOLDAMER COMPLEX CRYSTAL STRUCTURE P00918 P00918 2.23 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 257 257 6q3o-a1-m1-cA_6q3o-a1-m1-cC HWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK HWGYGKHNGPEHWHKDFPIAKGERQSPVDIDTHTAKYDPSLKPLSVSYDQATSLRILNNGHAFNVEFDDSQDKAVLKGGPLDGTYRLIQFHFHWGSLDGQGSEHTVDKKKYAAELHLVHWNTKYGDFGKAVQQPDGLAVLGIFLKVGSAKPGLQKVVDVLDSIKTKGKSADFTNFDPRGLLPESLDYWTYPGSLTTPPLLECVTWIVLKEPISVSSEQVLKFRKLNFNGEGEPEELMVDNWRPAQPLKNRQIKASFK 6q3p-a1-m1-cA_6q3p-a1-m1-cB Atomic resolution crystal structure of an AAB collagen heterotrimer 1.03 X-RAY DIFFRACTION 140 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 46 GPPGPKGDPGPKGDPGPPGARGQAGVGFGPPGPPGPKGDKGDPGGY GPPGPKGDPGPKGDPGPPGARGQAGVGFGPPGPPGPKGDKGDPGGY 6q3q-a1-m1-cA_6q3q-a1-m1-cB Arabidopsis OM64 TPR domain F4KCL7 F4KCL7 2 X-RAY DIFFRACTION 20 1.0 3701 (Arabidopsis) 3701 (Arabidopsis) 121 121 GNMEASEVMKEKGNAAYKGKQWNKAVNFYTEAIKLNGANATYYCNRAAAFLELCCFQQAEQDCTKAMLIDKKNVKAYLRRGTAREELVRYKEAAADFRHALVLEPQNKTAKVAEKRLRKHI GNMEASEVMKEKGNAAYKGKQWNKAVNFYTEAIKLNGANATYYCNRAAAFLELCCFQQAEQDCTKAMLIDKKNVKAYLRRGTAREELVRYKEAAADFRHALVLEPQNKTAKVAEKRLRKHI 6q40-a2-m1-cD_6q40-a2-m1-cC A secreted LysM effector of the wheat pathogen Zymoseptoria tritici protects the fungal hyphae against chitinase hydrolysis through ligand-dependent polymerisation of LysM homodimers F9XHX3 F9XHX3 2.412 X-RAY DIFFRACTION 70 1.0 336722 (Zymoseptoria tritici IPO323) 336722 (Zymoseptoria tritici IPO323) 78 79 6q40-a1-m1-cA_6q40-a1-m1-cB RNPITITPQFDCGATNSQQYVARSGDTLTKIAQEIYHDVVGVCDIARANNLADPNRIDAGTPYTIPINCQTYDRNSCL ARNPITITPQFDCGATNSQQYVARSGDTLTKIAQEIYHDVVGVCDIARANNLADPNRIDAGTPYTIPINCQTYDRNSCL 6q41-a1-m1-cB_6q41-a1-m1-cC Atomic resolution crystal structure of a BAA collagen heterotrimer 1.03 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 46 GPKGDPGPKGDPGPPGPPGARGQAGVGFGPPGPKGDKGDPGPPGGY GPKGDPGPKGDPGPPGPPGARGQAGVGFGPPGPKGDKGDPGPPGGY 6q42-a3-m1-cB_6q42-a3-m1-cA Crystal Structure of Human Pancreatic Phospholipase A2 P04054 P04054 1.9 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 126 AVWQFRKMIKCVIPGSDPFLEYNNYGCYCGLGGSGTPVDELDKCCQTHDNCYDQAKKLDSCKFLLDNPYTHTYSYSCSGSAITCSSKNKECEAFICNCDRNAAICFSKAPYNKAHKNLDTKKYCQ AVWQFRKMIKCVIPGSDPFLEYNNYGCYCGLGGSGTPVDELDKCCQTHDNCYDQAKKLDSCKFLLDNPYTHTYSYSCSGSAITCSSKNKECEAFICNCDRNAAICFSKAPYNKAHKNLDTKKYCQS 6q43-a1-m1-cC_6q43-a1-m1-cA Atomic resolution crystal structure of an ABA collagen heterotrimer 1.16 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 44 GPPGPKGPKGDPGDPGPPGARGQAGVGFGPPGPKGPKGDPGDP GPPGPKGPKGDPGDPGPPGARGQAGVGFGPPGPKGPKGDPGDPG 6q4s-a1-m1-cA_6q4s-a1-m2-cA Crystal structure of a-eudesmol synthase A0A2N9BKY0 A0A2N9BKY0 1.83 X-RAY DIFFRACTION 69 1.0 1079985 (Streptomyces chartreusis NRRL 3882) 1079985 (Streptomyces chartreusis NRRL 3882) 308 308 DVRFDLPFDTPVSEHLEYARARHLRWVWEMRLVRSRDGFEEYKSWDLPQAAARTYPHASADDMVVLMNWFSLAFLFDDQFDASRPDRADRIAEVARELIVTPLRPAGSPPRVACPITLAWAEVWKYLSHGMSLTWQTRFAASWGRFLVAHCEEVDLAARGLEGTLGLDEYAEFRRRTVGIHHSIDAGERSRGFEVPAQAMGHPVMERMRDLAADTIGFMNDIHSFEREGHNLIAVLRRERGCSWQQATDEAYRMTIACLDEYLELQERVPQMCDELRLDEAERDRVRMGVEAIQHWINGNYEWALTSG DVRFDLPFDTPVSEHLEYARARHLRWVWEMRLVRSRDGFEEYKSWDLPQAAARTYPHASADDMVVLMNWFSLAFLFDDQFDASRPDRADRIAEVARELIVTPLRPAGSPPRVACPITLAWAEVWKYLSHGMSLTWQTRFAASWGRFLVAHCEEVDLAARGLEGTLGLDEYAEFRRRTVGIHHSIDAGERSRGFEVPAQAMGHPVMERMRDLAADTIGFMNDIHSFEREGHNLIAVLRRERGCSWQQATDEAYRMTIACLDEYLELQERVPQMCDELRLDEAERDRVRMGVEAIQHWINGNYEWALTSG 6q4w-a1-m1-cB_6q4w-a1-m1-cA Structure of MPT-1, a GDP-Man-dependent mannosyltransferase from Leishmania mexicana E9AND7 E9AND7 1.55 X-RAY DIFFRACTION 56 1.0 929439 (Leishmania mexicana MHOM/GT/2001/U1103) 929439 (Leishmania mexicana MHOM/GT/2001/U1103) 307 311 CTMVAKRKEFERTKVIQEAVFLTFKGLDTHDVYNCCVPFTINGTYHIFGRVERRSEWVNSHVRLFCKTGHDEYTLVEHAMQYQLEDPFLVKINGEALFGGVRVTKDHGKVSGYVCDFYRGKIDDLHYFTSGPKNMKDIRLIGLADGKIGVFSHHVTGFIIIDSLDDLCSQVIDSAKPIDHTLFGDAWGGVNQPYLLSTGKIGCISHHGYLDTDANGEVINVYCITSFVYKPSTNTCYDYKILGTKNCFPEYPAKAPKLIDCVFVSGIVMREDGKCDLYSGVGDTQEGRMMINYPFEGHGTIVDNVNF REECTMVAKRKEFERTKVIQEAVFLTFKGLDTHDVYNCCVPFTINGTYHIFGRVERRSEWVNSHVRLFCKTGHDEYTLVEHAMQYQLEDPFLVKINGEALFGGVRVTKDHGKVSGYVCDFYRGKIDDLHYFTSGPKNMKDIRLIGLADGKIGVFSHHCVTGFIIIDSLDDLCSQVIDSAKPIDHTLFGDAWGGVNQPYLLSTGKIGCISHHGYLDTDANGEVINVYCITSFVYKPSTNTCYDYKILGTKNCFPEYPAKAPKLIDCVFVSGIVMREDGKCDLYSGVGDTQEGRMMINYPFEGHGTIVDNVNF 6q4x-a1-m1-cB_6q4x-a1-m1-cA Structure of MPT-2, a GDP-Man-dependent mannosyltransferase from Leishmania mexicana E9AND8 E9AND8 1.55 X-RAY DIFFRACTION 68 0.981 929439 (Leishmania mexicana MHOM/GT/2001/U1103) 929439 (Leishmania mexicana MHOM/GT/2001/U1103) 310 317 6q4y-a1-m1-cB_6q4y-a1-m1-cA 6q4z-a1-m1-cB_6q4z-a1-m1-cA PCSLIPAKEAFEREKKIYGKAILSFDGVNGYDVYNCSIPFTYDGKTYIFGRVEKKDEWVHSNSILFEKVGENRYRRHPASITYNLEDPFVVKIHGEMVFGGTHVTKNGGKVSDYRCEFYHGTPFNLKYFSSGPSKMKDIRLVELADGKIGIFTHFRTEGSCLTGFTTIDKVEDLTVEVINSAKLINHRPFGDAWGGPSQVYLLSSGLLGCISHHGYLLDIQLRIYACTSFVFDPATYEVYNFKIIGTKGCFPPCEPKLPHLADCAFVSGIEMRNDGKCNLYSGIGDVAEGYIVIDYPFEGYGKIVSDVAF SHMGLLNTKPCSLIPAKEAFEREKKIYGKAILSFDGVNGYDVYNCSIPFTYDGKTYIFGRVEKKDEWVHSNSILFEKVGENRYRRHPASITYNLEDPFVVKIHGEMVFGGTHVTKNGGKVSDYRCEFYHGTPFNLKYFSSGPSKMKDIRLVELADGKIGIFTHFLTGFTTIDKVEDLTVEVINSAKLINHRPFGDAWGGPSQVYLLSSGLLGCISHHGYLLDQKDGIQLRIYACTSFVFDPATYEVYNFKIIGTKGCFPPCEPKLPHLADCAFVSGIEMRNDGKCNLYSGIGDVAEGYIVIDYPFEGYGKIVSDVAF 6q53-a1-m1-cA_6q53-a1-m1-cD CRYSTAL STRUCTURE OF THE LIGHT-HARVESTING COMPLEX II (B800-850) FROM Ectothiorhodospira haloalkaliphila 3.701 X-RAY DIFFRACTION 26 1.0 421628 (Ectothiorhodospira haloalkaliphila) 421628 (Ectothiorhodospira haloalkaliphila) 54 57 YRPSRPSNPRDDWKLWLVVNPGTWLIPLLITFLATALIVHSFVFTHEAYNPLTY MSEYRPSRPSNPRDDWKLWLVVNPGTWLIPLLITFLATALIVHSFVFTHEAYNPLTY 6q5o-a1-m2-cA_6q5o-a1-m4-cA Crystal structure of a CC-Hex mutant that forms an antiparallel four-helix coiled coil CC-Hex*-LL 1 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6q5o-a1-m1-cA_6q5o-a1-m3-cA 6q5o-a1-m1-cA_6q5o-a1-m4-cA 6q5o-a1-m2-cA_6q5o-a1-m3-cA GELKALAQELKALAKELKALAWELKALAKG GELKALAQELKALAKELKALAWELKALAKG 6q5q-a1-m1-cA_6q5q-a1-m4-cA Crystal structure of a CC-Hex mutant that forms an antiparallel four-helix coiled coil CC-Hex-KgEb 1.08 X-RAY DIFFRACTION 60 1.0 32630 (synthetic construct) 32630 (synthetic construct) 32 32 6q5q-a1-m2-cA_6q5q-a1-m3-cA GKLEAIAQKLEAIAKKLEAIAWKLEAIAQGAG GKLEAIAQKLEAIAKKLEAIAWKLEAIAQGAG 6q5q-a1-m2-cA_6q5q-a1-m4-cA Crystal structure of a CC-Hex mutant that forms an antiparallel four-helix coiled coil CC-Hex-KgEb 1.08 X-RAY DIFFRACTION 23 1.0 32630 (synthetic construct) 32630 (synthetic construct) 32 32 6q5q-a1-m1-cA_6q5q-a1-m3-cA GKLEAIAQKLEAIAKKLEAIAWKLEAIAQGAG GKLEAIAQKLEAIAKKLEAIAWKLEAIAQGAG 6q5s-a1-m1-cA_6q5s-a1-m1-cD Crystal structure of a de novo designed antiparallel four-helix coiled coil apCC-Tet 1.89 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6q5s-a1-m1-cB_6q5s-a1-m1-cC GELEALAQELEALAKKLKALAWKLKALAQG GELEALAQELEALAKKLKALAWKLKALAQG 6q5s-a1-m1-cB_6q5s-a1-m1-cD Crystal structure of a de novo designed antiparallel four-helix coiled coil apCC-Tet 1.89 X-RAY DIFFRACTION 24 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6q5s-a1-m1-cA_6q5s-a1-m1-cC GELEALAQELEALAKKLKALAWKLKALAQG GELEALAQELEALAKKLKALAWKLKALAQG 6q68-a1-m1-cB_6q68-a1-m1-cD Crystal structure of bovine ACBD3 GOLD domain in complex with 3A protein of enterovirus-F2 (fusion protein) Q2LKY9 Q2LKY9 3.161 X-RAY DIFFRACTION 20 1.0 1330520 (Enterovirus F) 1330520 (Enterovirus F) 42 42 PAPPAIADLLASVDSEEVRDYCRTKGWIVQEKITKESLERNV PAPPAIADLLASVDSEEVRDYCRTKGWIVQEKITKESLERNV 6q69-a1-m1-cB_6q69-a1-m1-cD Crystal structure of porcine ACBD3 GOLD domain in complex with 3A protein of enterovirus-G1 O41174 O41174 2.747 X-RAY DIFFRACTION 20 1.0 64141 (Porcine enterovirus 9) 64141 (Porcine enterovirus 9) 43 43 IPAPPAIADLLASVDSEEVREYCKKKGWIVEVPVTATTLERNV IPAPPAIADLLASVDSEEVREYCKKKGWIVEVPVTATTLERNV 6q71-a1-m1-cA_6q71-a1-m1-cB Crystal structure of the alanine racemase Bsu17640 from Bacillus subtilis in the presence of Bis-Tris propane P94494 P94494 1.92 X-RAY DIFFRACTION 236 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 386 386 5irp-a1-m1-cA_5irp-a1-m1-cB 6q70-a1-m1-cA_6q70-a1-m1-cB 6q72-a1-m1-cA_6q72-a1-m1-cB 6q72-a2-m1-cD_6q72-a2-m1-cE MIKLCREVWIEVNLDAVKKNLRAIRRHIPHKSKIMAVVKANGYGHGSIEVARHALEHGASELAVASVEEGIVLRKAGITAPILVLGFTSLSCVKKSAAWNITLSAFQVDWMKEANEILEKEASANRLAIHINVDTGMGRLGVRTKEELLEVVKALKASKFLRWTGIFTHFSTADEPDTTLTKLQHEKFISFLSFLKKQGIELPTVHMCNTAAAIAFPEFSADMIRLGIGLYGLYPSAYIKQLNLVKLEPALSLKARIAYVKTMRTEPRTVSYGATYIAEPNEVIATLPIGYADGYSRALSNRGFVLHRGKRVPVAGRVTMDMIMVSLGENGEGKQGDEVVIYGKQKGAEISVDEVAEMLNTINYEVVSTLSRRIPRFYIRDGEIFK MIKLCREVWIEVNLDAVKKNLRAIRRHIPHKSKIMAVVKANGYGHGSIEVARHALEHGASELAVASVEEGIVLRKAGITAPILVLGFTSLSCVKKSAAWNITLSAFQVDWMKEANEILEKEASANRLAIHINVDTGMGRLGVRTKEELLEVVKALKASKFLRWTGIFTHFSTADEPDTTLTKLQHEKFISFLSFLKKQGIELPTVHMCNTAAAIAFPEFSADMIRLGIGLYGLYPSAYIKQLNLVKLEPALSLKARIAYVKTMRTEPRTVSYGATYIAEPNEVIATLPIGYADGYSRALSNRGFVLHRGKRVPVAGRVTMDMIMVSLGENGEGKQGDEVVIYGKQKGAEISVDEVAEMLNTINYEVVSTLSRRIPRFYIRDGEIFK 6q7i-a1-m1-cB_6q7i-a1-m1-cA GH3 exo-beta-xylosidase (XlnD) Q5BAS1 Q5BAS1 1.48 X-RAY DIFFRACTION 112 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 768 769 6q7j-a1-m1-cB_6q7j-a1-m1-cA ANTSYTDYNVEANPDLFPLCLQHLNASFPDCASGPLSLTPVCDRSLSPKDRATALVSLFTFDELVNNTGNTGLGVSRLGLPNYQVWGEALHGVGRANFVESGNFSWATSFPMPITMMAALNKTLIHQIGTIVSTQLRAFSNAGLGGVDVYSPNINTFRHPVWGRGQETPGEDAFLTSVYGYEYITALQGGVDPETLKIIATAKHYAGYDIESWNNHSRLGNDMQITQQELSEYYTPPFIVASRDAKVRSVMCSYNAVNGVPSCANKFFLQTLLRDTFEFSEDGYVSGDCGAVYNVWNPHGYASNEAAASADSILAGTDIDCGTSYQWHSEDAFEDSLVSRSDIERGVIRLYSNLVQAGYFDGEDAPYRDITWDDVLSTDAWNIAYEAAVEGIVLLKNDETLPLSKDIKSVAVIGPWANVTEELQGNYFGPAPYLISPLTGFRDSGLDVHYALGTNLTSHSTSGFEEALTAAKQADAIIFAGGIDNTIEAEAMDRENITWPGNQLDLISKLSELGKPLVVLQMGGGQVDSSSLKDNDNVNALIWGGYPGQSGGHALADIITGKRAPAGRLVTTQYPAEYAEVFPAIDMNLRPNETSGNPGQTYMWYTGTPVYEFGHGLFYTTFEESTETTDAGSFNIQTVLTTPHSGYEHAQQKTLLNFTATVKNTGERESDYTALVYVNTTAGPAPYPKKWVVGFDRLGGLEPGDSQTLTVPVTVESVARTDEQGNRVLYPGSYELALNNERSVVVKFELKGEEAVILSWPEDTTSDF ANTSYTDYNVEANPDLFPLCLQHLNASFPDCASGPLSLTPVCDRSLSPKDRATALVSLFTFDELVNNTGNTGLGVSRLGLPNYQVWGEALHGVGRANFVESGNFSWATSFPMPITMMAALNKTLIHQIGTIVSTQLRAFSNAGLGGVDVYSPNINTFRHPVWGRGQETPGEDAFLTSVYGYEYITALQGGVDPETLKIIATAKHYAGYDIESWNNHSRLGNDMQITQQELSEYYTPPFIVASRDAKVRSVMCSYNAVNGVPSCANKFFLQTLLRDTFEFSEDGYVSGDCGAVYNVWNPHGYASNEAAASADSILAGTDIDCGTSYQWHSEDAFEDSLVSRSDIERGVIRLYSNLVQAGYFDGEDAPYRDITWDDVLSTDAWNIAYEAAVEGIVLLKNDETLPLSKDIKSVAVIGPWANVTEELQGNYFGPAPYLISPLTGFRDSGLDVHYALGTNLTSHSTSGFEEALTAAKQADAIIFAGGIDNTIEAEAMDRENITWPGNQLDLISKLSELGKPLVVLQMGGGQVDSSSLKDNDNVNALIWGGYPGQSGGHALADIITGKRAPAGRLVTTQYPAEYAEVFPAIDMNLRPNETSGNPGQTYMWYTGTPVYEFGHGLFYTTFEESTETTDAGSFNIQTVLTTPHSGYEHAQQKTLLNFTATVKNTGERESDYTALVYVNTTAGPAPYPKKWVVGFDRLGGLEPGDSQTLTVPVTVESVARTDEQGNRVLYPGSYELALNNERSVVVKFELKGEEAVILSWPEDTTSDFV 6q8f-a1-m1-cB_6q8f-a1-m2-cA Nterminal domain of human SMU1 Q2TAY7 Q2TAY7 1.9 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 184 197 IEIESSDVIRLIMQYLKENSLHRALATLQEETTVSLNTVDSIESFVADINSGHWDTVLQAIQSLKLPDKTLIDLYEQVVLELIELRELGAARSLLRQTDPMIMLKQTQPERYIHLENLLARSYFDPREAYPDGSSKEKRRAAIAQALAGEVSVVPPSRLMALLGQALKWQQHQGLLPPIDLFRG IEIESSDVIRLIMQYLKENSLHRALATLQEETTVSLNTVDSIESFVADINSGHWDTVLQAIQSLKLPDKTLIDLYEQVVLELIELRELGAARSLLRQTDPMIMLKQTQPERYIHLENLLARSYFDPREAYPDGSSKEKRRAAIAQALAGEVSVVPPSRLMALLGQALKWQQHQGLLPPGMTIDLFRGKAAVKDVKFP 6q8i-a2-m1-cF_6q8i-a2-m1-cE Nterminal domain of human SMU1 in complex with human REDmid Q2TAY7 Q2TAY7 3.17 X-RAY DIFFRACTION 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 167 186 6q8i-a1-m1-cB_6q8i-a1-m1-cA 6q8i-a3-m1-cJ_6q8i-a3-m1-cI 6q8i-a4-m1-cN_6q8i-a4-m1-cM IEIESSDVIRLIMQYLKENSLHRALATLQEETTVSLNTVDSIESFVADINSGHWDTVLQAIQSLKLPDKTLIDLYEQVVLEAARSLLRQTDPMIMLKQTQPERYIHLENLLDPREAYPDGSSKRRAAIAQALAGEVSVVPPSRLMALLGQALKWQQHQGLLPIDLFR IEIESSDVIRLIMQYLKENSLHRALATLQEETTVSLNTVDSIESFVADINSGHWDTVLQAIQSLKLPDKTLIDLYEQVVLELIELRELGAARSLLRQTDPMIMLKQTQPERYIHLENLLARSYFDPREAYPDGSSKEKRRAAIAQALAGEVSVVPPSRLMALLGQALKWQQHQGLLPPGMTIDLFR 6q8j-a1-m1-cA_6q8j-a1-m2-cA Nterminal domain of human SMU1 in complex with LSP641 Q2TAY7 Q2TAY7 1.8 X-RAY DIFFRACTION 115 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 188 EIESSDVIRLIMQYLKENSLHRALATLQEETTVSLNTVDSIESFVADINSGHWDTVLQAIQSLKLPDKTLIDLYEQVVLELIELRELGAARSLLRQTDPMIMLKQTQPERYIHLENLLARSYFDPREAYPDGSSKEKRRAAIAQALAGEVSVVPPSRLMALLGQALKWQQHQGLLPPGMTIDLFRGKA EIESSDVIRLIMQYLKENSLHRALATLQEETTVSLNTVDSIESFVADINSGHWDTVLQAIQSLKLPDKTLIDLYEQVVLELIELRELGAARSLLRQTDPMIMLKQTQPERYIHLENLLARSYFDPREAYPDGSSKEKRRAAIAQALAGEVSVVPPSRLMALLGQALKWQQHQGLLPPGMTIDLFRGKA 6q9k-a2-m1-cB_6q9k-a2-m1-cD Crystal structure of reduced Aquifex aeolicus NADH-quinone oxidoreductase subunits NuoE and NuoF S96M bound to NADH O66841 O66841 1.99 X-RAY DIFFRACTION 17 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 418 418 RSYPAIPRIYAETTLNMLLKRAKKPRVHSIDEYLKDGGYQALEKALNMSPEEIIDWVDKSTLRGRGGAGFPTGKKWKFAVQNPGPRYFICNADEMEPGTFKDRIIIERDPHLLIEGIIISSYAIGANEAYIYIRGEYPAGYYILRDAIEEAKKKGFLGKNILGSGFDLEIYVARGAGAYICGEETALIESLEGKRGHPRLKPPYPVQKGLWGKPTVVNNVETIANVPFIISMGWEEYRYIGPSDYAGPKLFPVSGKVKKPGVYELPMNTTLREVIFKYAGGTLGNKKVKAVFSGALDCFSSEELDIPMDYSPLGFGGTGTVIVLTEEDDIVEAALKIAEFYEHETCGQCTPCRVGCYEQANLLEKIYKGEATEQDWEGFDFVNRNIQPTSICGLGAVAGRLIRQTLEKFPEEWEKYRK RSYPAIPRIYAETTLNMLLKRAKKPRVHSIDEYLKDGGYQALEKALNMSPEEIIDWVDKSTLRGRGGAGFPTGKKWKFAVQNPGPRYFICNADEMEPGTFKDRIIIERDPHLLIEGIIISSYAIGANEAYIYIRGEYPAGYYILRDAIEEAKKKGFLGKNILGSGFDLEIYVARGAGAYICGEETALIESLEGKRGHPRLKPPYPVQKGLWGKPTVVNNVETIANVPFIISMGWEEYRYIGPSDYAGPKLFPVSGKVKKPGVYELPMNTTLREVIFKYAGGTLGNKKVKAVFSGALDCFSSEELDIPMDYSPLGFGGTGTVIVLTEEDDIVEAALKIAEFYEHETCGQCTPCRVGCYEQANLLEKIYKGEATEQDWEGFDFVNRNIQPTSICGLGAVAGRLIRQTLEKFPEEWEKYRK 6qa0-a1-m1-cA_6qa0-a1-m1-cB MSRB3 - AA 1-137 Q8IXL7 Q8IXL7 1.709 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 EFQSGSCRDKKNCKVVFSQQELRKRLTPLQYHVTQEKGTESAFEGEYTHHKDPGIYKCVVCGTPLFKSETKFDSGSGWPSFHDVINSEAITFTDDFSYGMHRVETSCSQCGAHLGHIFDDGPRPTGKRYINSAALSFTPA EFQSGSCRDKKNCKVVFSQQELRKRLTPLQYHVTQEKGTESAFEGEYTHHKDPGIYKCVVCGTPLFKSETKFDSGSGWPSFHDVINSEAITFTDDFSYGMHRVETSCSQCGAHLGHIFDDGPRPTGKRYINSAALSFTPA 6qai-a1-m1-cB_6qai-a1-m1-cA 2-desoxiribosyltransferase from Leishmania mexicana E9AWJ0 E9AWJ0 1.66 X-RAY DIFFRACTION 142 1.0 5665 (Leishmania mexicana) 5665 (Leishmania mexicana) 150 155 PKTIYIAGPAVFHPDNGEAYYNNVRALMKGKDVVPLIPTDNIATGAVNIRNKNIDMIRACDAIIADLSPFRSKEPDCGTAFELGYAAALGKVLLTFSTDTRPMVEKYGSEMADGLSVENFGLPFNLMLHDGTDVFDSFEAAFAYFVEHHL HMPAPKTIYIAGPAVFHPDNGEAYYNNVRALMKGKDVVPLIPTDNIATGAVNIRNKNIDMIRACDAIIADLSPFRSKEPDCGTAFELGYAAALGKVLLTFSTDTRPMVEKYGSEMADGLSVENFGLPFNLMLHDGTDVFDSFEAAFAYFVEHHLT 6qaj-a1-m1-cA_6qaj-a1-m1-cB Structure of the tripartite motif of KAP1/TRIM28 Q13263 Q13263 2.901 X-RAY DIFFRACTION 377 0.995 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 439 441 6h3a-a1-m1-cA_6h3a-a1-m1-cF NLYFQGNIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNCNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRCALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYAAEALELLEHCGVCRERLRPEREPRLLPCLHSACSACLGPADGTVVDCPVCKQQCFSKDIVENYFMRDSGSERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLEDAVRNQRKLLASLVKRLGDKHATLQKSTKEVRSSIRQVSDVQKRVQVDVKMAILQIMKELNKRGRVLVNDAQKVTEGQQERLERQHWTMTKIQKHQEHILRFASWALESDNNTALLLSKKLIYFQLHRALKMIVDPVEPHGEMKFQWDLNAWTKSAEAF NLYFQGNIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNCNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRCALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYAAEALELLEHCGVCRERLRPEREPRLLPCLHSACSACLGPAAAGDGTVVDCPVCKQQCFSKDIVENYFMRDSERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLEDAVRNQRKLLASLVKRLGDKHATLQKSTKEVRSSIRQVSDVQKRVQVDVKMAILQIMKELNKRGRVLVNDAQKVTEGQQERLERQHWTMTKIQKHQEHILRFASWALESDNNTALLLSKKLIYFQLHRALKMIVDPVEPHGEMKFQWDLNAWTKSAEAFG 6qav-a2-m1-cD_6qav-a2-m1-cC Crystal structure of ULK2 in complexed with MRT68921 Q8IYT8 Q8IYT8 2.05 X-RAY DIFFRACTION 154 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 275 6qau-a1-m1-cA_6qau-a1-m2-cA 6qav-a1-m1-cB_6qav-a1-m1-cA MEVVGDFEYSKRDLVGHGAFAVVFRGRHRQKTDWEVAIKSINKKNLSKSQILLGKEIKILKELQHENIVALYDVQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLHQIAAAMRILHSKGIIHRDLKPQNILLSYANRRKSSVSGIRIKIADFGFARYLHSNMMAADLCGSPMYMAPEVIMSQHYDAKADLWSIGTVIYQCLVGKPPFQPSIPRETSPYLANLLLGLLQRNQKDRMDFEAFFSHPFLE MEVVGDFEYSKRDLVGHGAFAVVFRGRHRQKTDWEVAIKSINKKNLSKSQILLGKEIKILKELQHENIVALYDVQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLHQIAAAMRILHSKGIIHRDLKPQNILLSYANRRKSSVSGIRIKIADFGFARYLHSNMMAADLCGSPMYMAPEVIMSQHYDAKADLWSIGTVIYQCLVGKPPFQANSPQDLRMFYEKNRSLMPSIPRETSPYLANLLLGLLQRNQKDRMDFEAFFSHPFLEQGP 6qb7-a1-m1-cA_6qb7-a1-m1-cB Structure of the H1 domain of human KCTD16 Q68DU8 Q68DU8 2.23 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 114 114 6qb7-a1-m1-cC_6qb7-a1-m1-cB 6qb7-a1-m1-cC_6qb7-a1-m1-cD 6qb7-a1-m1-cD_6qb7-a1-m1-cE 6qb7-a1-m1-cE_6qb7-a1-m1-cA DRKWGFITVGYRGSDAKFRRVPRILVCGRISLAKEVFGETLNESRDPDRAPERYTSRFYLKFKHLERAFDMLSECGFHMVACNSSVTASFINQYTDDKIWSSYTEYVFYREPSR DRKWGFITVGYRGSDAKFRRVPRILVCGRISLAKEVFGETLNESRDPDRAPERYTSRFYLKFKHLERAFDMLSECGFHMVACNSSVTASFINQYTDDKIWSSYTEYVFYREPSR 6qbr-a1-m1-cA_6qbr-a1-m1-cB structure of the core domaine of Knr4, an intrinsically disordered protein from Saccharomyces cerevisiae - mutant S200D, S203D P32566 P32566 2.15 X-RAY DIFFRACTION 49 0.982 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 221 226 SNDGVSETLLAWRHIDFWTSEHNPDLNATLSDPCTQNDITHAEEDLEVSFPNPVKASFKIHDGQEDTSGLFYGFQLMTLDQVVAMTQAWRNVAKNLNKRSPDQKSIPPNAVQPVYAHPAWIPLITDNAGNHIGVDLAPGPNGKYAQIITFGRDFDTKFVIAENWGEFLLSFANDLEAGNWYLVGDGELVFRDKKSNGPIQDYFEVLKRRTWIKYQLERPHR SNDGVSETLLAWRHIDFWTSEHNPDLNATLSDPCTQNDITHAEEDLEVSFPNPVKASFKIHDGQEDLESMTGTSGLFYGFQLMTLDQVVAMTQAWRNVAKNLNKRSIPDQKSIPPNAVQPVYAHPAWIPLITDNAGNHIGVDLAPGPNGKYAQIITFGRDFDTKFVIAENWGEFLLSFANDLEAGNWYLVDDDGELVFRDKKSNGPIQDYFEVLKRRTWIKYQLER 6qbt-a1-m2-cA_6qbt-a1-m3-cA Structure of the HTLV-2 integrase catalytic core domain in complex with magnesium (trimeric form) P03363 P03363 2.29 X-RAY DIFFRACTION 32 1.0 11909 (Human T-lymphotropic virus 2) 11909 (Human T-lymphotropic virus 2) 148 148 6qbt-a1-m1-cA_6qbt-a1-m2-cA 6qbt-a1-m1-cA_6qbt-a1-m3-cA 6qbw-a1-m1-cA_6qbw-a1-m2-cA 6qbw-a1-m1-cA_6qbw-a1-m3-cA 6qbw-a1-m2-cA_6qbw-a1-m3-cA RGLLPNHIWQGDVTHYKYKKYKYCLHVWVDTFSGAVSVSCKKKETSCETISAFLQAISLLGKPLHINTDNGPAFLSQEFQEFCTSYHIKHSTHGLVERTNGIIKNLLNKYLLDCPNLPLDNAINKALWTLNQLNVMNPSGKTRWQIHH RGLLPNHIWQGDVTHYKYKKYKYCLHVWVDTFSGAVSVSCKKKETSCETISAFLQAISLLGKPLHINTDNGPAFLSQEFQEFCTSYHIKHSTHGLVERTNGIIKNLLNKYLLDCPNLPLDNAINKALWTLNQLNVMNPSGKTRWQIHH 6qbv-a2-m1-cD_6qbv-a2-m1-cC Structure of the HTLV-2 integrase catalytic core domain in complex with magnesium (dimeric form) P03363 P03363 2.45 X-RAY DIFFRACTION 49 1.0 11909 (Human T-lymphotropic virus 2) 11909 (Human T-lymphotropic virus 2) 145 147 6qbv-a1-m1-cB_6qbv-a1-m1-cA RGLLPNHIWQGDVTHYKYKKYKYCLHVWVDTFSGAVSVSCKKKETSCETISAFLQAISLLGKPLHINTDNGPAFLSQEFQEFCTSYHIKHSTLVERTNGIIKNLLNKYLLDCPNLPLDNAINKALWTLNQLNVMSGKTRWQIHHS RGLLPNHIWQGDVTHYKYKKYKYCLHVWVDTFSGAVSVSCKKKETSCETISAFLQAISLLGKPLHINTDNGPAFLSQEFQEFCTSYHIKHSTGLVERTNGIIKNLLNKYLLDCPNLPLDNAINKALWTLNQLNVMSGKTRWQIHHSP 6qcl-a1-m1-cA_6qcl-a1-m1-cC Citryl-CoA lyase core module of Chlorobium limicola ATP citrate lyase in complex with acetyl-CoA and L-malate Q9AJC4 Q9AJC4 1.6 X-RAY DIFFRACTION 125 1.0 1092 (Chlorobium limicola) 1092 (Chlorobium limicola) 215 261 VEPLIRTTISDDRGEEPRYAGYAASELCSKGYGIEDVIGLLWNKKLPTREESEIIKRIVMISADHGPAVSGAFGSILAACAGIDMPQAVSAGMTMIGPRFGGAVTNAGKYFKMAVEDYPNPDQRVKYLVSYIKNETSLHTPCLDYALENVDGTIGCILMDLDFPVHSLNGFFVLARTIGMIGHWIDQNNQNSRLIRLYDYLINYAVKPEQEVPEK GSHMVEPLIRTTISDDRGEEPRYAGYAASELCSKGYGIEDVIGLLWNKKLPTREESEIIKRIVMISADHGPAVSGAFGSILAACAGIDMPQAVSAGMTMIGPRFGGAVTNAGKYFKMAVEDYPNDIPGFLSWMKKNVGPVPGIGHRVKSVKNPDQRVKYLVSYIKNETSLHTPCLDYALEVEKVTTAKKGNLILNVDGTIGCILMDLDFPVHSLNGFFVLARTIGMIGHWIDQNNQNSRLIRLYDYLINYAVKPEQEVPEK 6qcl-a1-m1-cA_6qcl-a1-m1-cE Citryl-CoA lyase core module of Chlorobium limicola ATP citrate lyase in complex with acetyl-CoA and L-malate Q9AJC4 Q9AJC4 1.6 X-RAY DIFFRACTION 97 0.995 1092 (Chlorobium limicola) 1092 (Chlorobium limicola) 215 256 VEPLIRTTISDDRGEEPRYAGYAASELCSKGYGIEDVIGLLWNKKLPTREESEIIKRIVMISADHGPAVSGAFGSILAACAGIDMPQAVSAGMTMIGPRFGGAVTNAGKYFKMAVEDYPNPDQRVKYLVSYIKNETSLHTPCLDYALENVDGTIGCILMDLDFPVHSLNGFFVLARTIGMIGHWIDQNNQNSRLIRLYDYLINYAVKPEQEVPEK EPLIRTTISDDRGEEPRYAGYAASELCSKGYGIEDVIGLLWNKKLPTREESEIIKRIVMISADHGPAVSGAFGSILAACAGIDMPQAVSAGMTMIGPRFGGAVTNAGKYFKMAVEDYPNDIPGFLSWMKKNVGPVPGIGHRVKSVKNPDQRVKYLVSYIKNETSLHTPCLDYALEVEKVTTAKKGNLILNVDGTIGCILMDLDFPVHSLNGFFVLARTIGMIGHWIDQNNQNSRLIRLYDYLINYAVKPEQEVPEK 6qcl-a1-m1-cA_6qcl-a1-m1-cG Citryl-CoA lyase core module of Chlorobium limicola ATP citrate lyase in complex with acetyl-CoA and L-malate Q9AJC4 Q9AJC4 1.6 X-RAY DIFFRACTION 264 1.0 1092 (Chlorobium limicola) 1092 (Chlorobium limicola) 215 261 VEPLIRTTISDDRGEEPRYAGYAASELCSKGYGIEDVIGLLWNKKLPTREESEIIKRIVMISADHGPAVSGAFGSILAACAGIDMPQAVSAGMTMIGPRFGGAVTNAGKYFKMAVEDYPNPDQRVKYLVSYIKNETSLHTPCLDYALENVDGTIGCILMDLDFPVHSLNGFFVLARTIGMIGHWIDQNNQNSRLIRLYDYLINYAVKPEQEVPEK GSHMVEPLIRTTISDDRGEEPRYAGYAASELCSKGYGIEDVIGLLWNKKLPTREESEIIKRIVMISADHGPAVSGAFGSILAACAGIDMPQAVSAGMTMIGPRFGGAVTNAGKYFKMAVEDYPNDIPGFLSWMKKNVGPVPGIGHRVKSVKNPDQRVKYLVSYIKNETSLHTPCLDYALEVEKVTTAKKGNLILNVDGTIGCILMDLDFPVHSLNGFFVLARTIGMIGHWIDQNNQNSRLIRLYDYLINYAVKPEQEVPEK 6qd5-a1-m2-cA_6qd5-a1-m3-cA X-ray Structure of the Human Urea Channel SLC14A1/UT1 Q13336 Q13336 2.398 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 356 6qd5-a1-m1-cA_6qd5-a1-m2-cA 6qd5-a1-m1-cA_6qd5-a1-m3-cA FPKALGYVTGDMKELANQLKDKPVVLQFIDWILRGISQVVFVNNPVSGILILVGLLVQNPWWALTGWLGTVVSTLMALLLSQDRSLIASGLYGYNATLVGVLMAVFSDKGDYFWWLLLPVCAMSMTCPIFSSALNSVLSKWDLPVFTLPFNMALSMYLSATGHYNPFFPAKLVIPITTAPQISWSDLSALELLKSIPVGVGQIYGCDNPWTGGIFLGAILLSSPLMCLHAAIGSLLGIAAGLSLSAPFENIYFGLWGFNSSLACIAMGGMFMALTWQTHLLALGCALFTAYLGVGMANFMAEVGLPACTWPFCLATLLFLIMTTKNSNIYKMPLSKVTYPEENRIFYLQAKKRMVE FPKALGYVTGDMKELANQLKDKPVVLQFIDWILRGISQVVFVNNPVSGILILVGLLVQNPWWALTGWLGTVVSTLMALLLSQDRSLIASGLYGYNATLVGVLMAVFSDKGDYFWWLLLPVCAMSMTCPIFSSALNSVLSKWDLPVFTLPFNMALSMYLSATGHYNPFFPAKLVIPITTAPQISWSDLSALELLKSIPVGVGQIYGCDNPWTGGIFLGAILLSSPLMCLHAAIGSLLGIAAGLSLSAPFENIYFGLWGFNSSLACIAMGGMFMALTWQTHLLALGCALFTAYLGVGMANFMAEVGLPACTWPFCLATLLFLIMTTKNSNIYKMPLSKVTYPEENRIFYLQAKKRMVE 6qek-a1-m1-cB_6qek-a1-m1-cA Putative membrane tansporter, magnetosome protein MamM CTD [Desulfamplus magnetovallimortis BW-1] G8IQT5 G8IQT5 1.95 X-RAY DIFFRACTION 32 1.0 1073250 (Desulfamplus magnetovallimortis BW-1) 1073250 (Desulfamplus magnetovallimortis BW-1) 77 78 DIYGDEITAVVSKIENVKGISQLKTRHIGQKIWAELNILVDPDSTIVQGETIASRVKKALTEQIRDIERVVVHFEPA DIYGDEITAVVSKIENVKGISQLKTRHIGQKIWAELNILVDPDSTIVQGETIASRVKKALTEQIRDIERVVVHFEPAR 6qel-a1-m1-cH_6qel-a1-m1-cI E. coli DnaBC apo complex P0AEF0 P0AEF0 3.9 ELECTRON MICROSCOPY 56 1.0 562 (Escherichia coli) 562 (Escherichia coli) 237 237 6qel-a1-m1-cG_6qel-a1-m1-cH 6qel-a1-m1-cI_6qel-a1-m1-cJ 6qel-a1-m1-cJ_6qel-a1-m1-cK 6qel-a1-m1-cK_6qel-a1-m1-cL 6qem-a1-m1-cG_6qem-a1-m1-cH 6qem-a1-m1-cG_6qem-a1-m1-cL 6qem-a1-m1-cH_6qem-a1-m1-cI 6qem-a1-m1-cI_6qem-a1-m1-cJ 6qem-a1-m1-cJ_6qem-a1-m1-cK MKNVGDLMQRLQKMMPAHIKPAFKTGEELLAWQKEQGAIRSAALERENRAMKMQRTFNRSGIRPLHQNCSFENYRVECEGQMNALSKARQYVEEFDGNIASFIFSGKPGTGKNHLAAAICNELLLRGKSVLIITVADIMSAMKDTFREQLLNDLSNVDLLVIDEIGVQTESKYEKVIINQIVDRRSSSKRPTGMLTNSNMEEMTKLLGERVMDRMRLGNSLWVIFNWDSYRSRVTGK MKNVGDLMQRLQKMMPAHIKPAFKTGEELLAWQKEQGAIRSAALERENRAMKMQRTFNRSGIRPLHQNCSFENYRVECEGQMNALSKARQYVEEFDGNIASFIFSGKPGTGKNHLAAAICNELLLRGKSVLIITVADIMSAMKDTFREQLLNDLSNVDLLVIDEIGVQTESKYEKVIINQIVDRRSSSKRPTGMLTNSNMEEMTKLLGERVMDRMRLGNSLWVIFNWDSYRSRVTGK 6qeq-a1-m1-cC_6qeq-a1-m1-cA PcfF from Enterococcus faecalis pCF10 Q5G3N6 Q5G3N6 1.9 X-RAY DIFFRACTION 218 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 104 110 LKRPIQRIVRLSEEENNLIKRKIEESFFPNFQNFALHLLIQGEIRHVDYSELNRLTTEIHKIGININQARLANQFHEISSEDIKDLTDKVQSLNALVQSELNKL LKRPIQRIVRLSEEENNLIKRKIEESFFPNFQNFALHLLIQGEIRHVDYSELNRLTTEIHKIGININQARLANQFHEISSEDIKDLTDKVQSLNALVQSELNKLIKRKDQ 6qg5-a1-m1-cA_6qg5-a1-m1-cB Structure of eIF2B-eIF2 (phosphorylated at Ser51) complex (model C) P14741 P14741 10.1 ELECTRON MICROSCOPY 162 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 302 302 6i3m-a1-m1-cA_6i3m-a1-m1-cB 6i7t-a1-m1-cA_6i7t-a1-m1-cB 6qg0-a1-m1-cA_6qg0-a1-m1-cB 6qg1-a1-m1-cA_6qg1-a1-m1-cB 6qg2-a1-m1-cA_6qg2-a1-m1-cB 6qg3-a1-m1-cA_6qg3-a1-m1-cB 6qg6-a1-m1-cA_6qg6-a1-m1-cB FNITETYLRFLEEDTEMTMPIAAIEALVTLLRIKTPETAAEMINTIKSSTEELIKSIPNSVSLRAGCDIFMRFVLRNLHLYGDWENCKQHLIENGQLFVSRAKKSRNKIAEIGVDFIADDDIILVHGYSRAVFSLLNHAANKFIRFRCVVTESRPSKQGNQLYTLLEQKGIPVTLIVDSAVGAVIDKVDKVFVGAEGVAESGGIINLVGTYSVGVLAHNARKPFYVVTESHKFVRMFPLSSDDLPMAGPPLDFTRRTDDLEDALRGPTIDYTAQEYITALITDLGVLTPSAVSEELIKMWYD FNITETYLRFLEEDTEMTMPIAAIEALVTLLRIKTPETAAEMINTIKSSTEELIKSIPNSVSLRAGCDIFMRFVLRNLHLYGDWENCKQHLIENGQLFVSRAKKSRNKIAEIGVDFIADDDIILVHGYSRAVFSLLNHAANKFIRFRCVVTESRPSKQGNQLYTLLEQKGIPVTLIVDSAVGAVIDKVDKVFVGAEGVAESGGIINLVGTYSVGVLAHNARKPFYVVTESHKFVRMFPLSSDDLPMAGPPLDFTRRTDDLEDALRGPTIDYTAQEYITALITDLGVLTPSAVSEELIKMWYD 6qgm-a2-m1-cf_6qgm-a2-m1-cd VirX1 apo structure M4SKV1 M4SKV1 2.75 X-RAY DIFFRACTION 99 0.998 536472 (Cyanophage Syn10) 536472 (Cyanophage Syn10) 525 526 6qgm-a1-m1-ca_6qgm-a1-m1-cb 6qgm-a1-m1-cc_6qgm-a1-m1-ca 6qgm-a1-m1-cc_6qgm-a1-m1-cb 6qgm-a2-m1-ce_6qgm-a2-m1-cd 6qgm-a2-m1-ce_6qgm-a2-m1-cf KIESVAIVGGGSSGWMTAAALSKLCPQLEIALIEDPNIGVGESTLGHFNKFLHLLDLKDEDWMPACNATYKNSIRFTNFREGKGEVFEYPFGPSLDVSFFSQTDGINTWGKLANKYPEDFPPETFARFVNSNTYLAEHNRLTRNKDNKIPNFNFDWDTAYHIDAELFGQYLKEKIALPNGVKHIQGKVTGYQKESPNNHNFKYIILDQETAIFADLYIDCTGFKSLLLGEFMGEAFSPFSKKLANDKAMATRIPYENREEEMHNVTDCHAMKNGWVWNIPLWNRIGTGYCYSSRFVSKDDAEAEFREHLGERGKDAKIFHIDIGHGKRTRAWVNNCVGIGLSYGFIEPLESTGLLTTHENIENLVYLINQRDGYVTQAERDGFNYTCDHQIDSFSDFVAMHYAYSMRTDTPYWKWCTQMCNYMPESMGPHRQKQSTWQDLSTDTIGLNTWHINHNGISFIIAGHGLRPQSYDKLSEVLLKRNNESDYYYEDIRKDWLKHYESMVEYVKTLPTHYEFLRDEIYGSA MVKIESVAIVGGGSSGWMTAAALSKLCPQLEIALIEDPNIGVGESTLGHFNKFLHLLDLKDEDWMPACNATYKNSIRFTNFREGKGEVFEYPFGPSLDVSFFSQTDGINTWGKLANKYPEDFPPETFARFVNSNTYLAEHNRLTRNKDNKIPNFNFDWDTAYHIDAELFGQYLKEKIALPNGVKHIQGKVTGYQKESPNNHNFKYIILDQETAIFADLYIDCTGFKSLLLGEFMGEAFSPFSKKLANDKAMATRIPYENREEEMHNVTDCHAMKNGWVWNIPLWNRIGTGYCYSSRFVSKDDAEAEFREHLGERGKDAKIFHIDIGHGKRTRAWVNNCVGIGLSYGFIEPLESTGLLTTHENIENLVYLINQRDGYVTQAERDGFNYTCDHQIDSFSDFVAMHYAYSMRTDTPYWKWCTQMCNYMPESMGPHRQKQSTWQDLSTDTIGLNTWHINHNGISFIIAGHGLRPQSYDKLSEVLLKRNNESDYYYEDIRKDWLKHYESMVEYVKTLPTHYEFLRDEIYGS 6qh1-a1-m1-cC_6qh1-a1-m1-cA The structure of Schizosaccharomyces pombe PCNA in complex with an Spd1 derived peptide Q03392 Q03392 2.9 X-RAY DIFFRACTION 39 0.983 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 242 243 6qh1-a1-m1-cA_6qh1-a1-m1-cB 6qh1-a1-m1-cC_6qh1-a1-m1-cB LEARFQQAALLKKLLDAIKELVTDANFDCNDNGISLQAMDSSHVALVSMLIKSDGFEPYRCDRNIALGINLNALSKVLRCAQNEDLVTLKAEDTPEVLNLVFESEDRISDYDVKLMDIDQEHLGIPDIEYDATITMPAAEFQRITRDLLTLSDSVTINASKEGVRFSCKGDIGNGSTTLKQHSIEISLTQAVTLTFSLKYLAQFTKATPLATRVTLSMSNDVPLLVEYKMESGFLRFYLAPK MLEARFQQAALLKKLLDAIKELVTDANFDCNDNGISLQAMDSSHVALVSMLIKSDGFEPYRCDRNIALGINLNALSKVLRCAQNEDLVTLKAEDTPEVLNLVFESEDRISDYDVKLMDIDGIPDIEYDATITMPAAEFQRITRDLLTLSDSVTINASKEGVRFSCKGDIGNGSTTLKQHTDDQSIEISLTQAVTLTFSLKYLAQFTKATPLATRVTLSMSNDVPLLVEYKMESGFLRFYLAPK 6qhn-a2-m1-cB_6qhn-a2-m1-cD Metagenome-derived salicylaldehyde dehydrogenase from alpine soil in complex with protocatechuic acid 1.9 X-RAY DIFFRACTION 184 1.0 28211 (Alphaproteobacteria) 28211 (Alphaproteobacteria) 466 466 6qhn-a1-m1-cA_6qhn-a1-m1-cC TVNFERINPMTNQTASTAKAMTAAEARAVADRAAAGFAGWSVLGPNARRAVLMKAAAALEARKDDFVQAMMAEIGATAGWAMFNLMLAASMIREAAALTTQIGGEVIPSDKPGCLALALREPVGVVLGIAPWNAPIILGVRAIAVPLACGNAVILKASEICPRTHGLIIESFAEAGFPEGVVNVVTNAPQDAGEVVGALIDHPAVKRINFTGSTGVGRIIAKRAAEHLKPCLLELGGKAPLVVLDDADLDEAAKAAAFGAFMNQGQICMSTERIIVVEAIAAEFTRRFAAKAQSMATGDPREGKTPLGAVVDRKTVDHVNTLIDDATAKGARIIAGGKGDSVLMSATVVDGVTAAMKLYRDESFGPIVGIIRAKDEADAVRLANDSEYGLAAAVFTRDTARGLRVARQIRSGICHINGPTVHDEAQMPFGGVGASGYGRFGGKAGIDQFTELRWITMETQPGHFPI TVNFERINPMTNQTASTAKAMTAAEARAVADRAAAGFAGWSVLGPNARRAVLMKAAAALEARKDDFVQAMMAEIGATAGWAMFNLMLAASMIREAAALTTQIGGEVIPSDKPGCLALALREPVGVVLGIAPWNAPIILGVRAIAVPLACGNAVILKASEICPRTHGLIIESFAEAGFPEGVVNVVTNAPQDAGEVVGALIDHPAVKRINFTGSTGVGRIIAKRAAEHLKPCLLELGGKAPLVVLDDADLDEAAKAAAFGAFMNQGQICMSTERIIVVEAIAAEFTRRFAAKAQSMATGDPREGKTPLGAVVDRKTVDHVNTLIDDATAKGARIIAGGKGDSVLMSATVVDGVTAAMKLYRDESFGPIVGIIRAKDEADAVRLANDSEYGLAAAVFTRDTARGLRVARQIRSGICHINGPTVHDEAQMPFGGVGASGYGRFGGKAGIDQFTELRWITMETQPGHFPI 6qim-a1-m2-cA_6qim-a1-m2-cB Structure of AtPIP2;4 Q9FF53 Q9FF53 3.7 X-RAY DIFFRACTION 97 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 243 244 6qim-a1-m1-cA_6qim-a1-m1-cB 6qim-a1-m1-cA_6qim-a1-m2-cB 6qim-a1-m2-cA_6qim-a1-m1-cB LRKWPLYRAVIAEFVATLLFLYVSILTVIGYKAQTDATAGGVDCGGVGILGIAWAFGGMIFVLVYCTAGISGGHINPAVTVGLFLARKVSLVRTVLYIVAQCLGAICGCGFVKAFQSSYYTRYGGGANELADGYNKGTGLGAEIIGTFVLVYTVFSATDPKRNARDSHVPVLAPLPIGFAVFMVHLATIPITGTGINPARSFGAAVIYNNEKAWDDQWIFWVGPMIGAAAAAFYHQFILRAAA LRKWPLYRAVIAEFVATLLFLYVSILTVIGYKAQTDATAGGVDCGGVGILGIAWAFGGMIFVLVYCTAGISGGHINPAVTVGLFLARKVSLVRTVLYIVAQCLGAICGCGFVKAFQSSYYTRYGGGANELADGYNKGTGLGAEIIGTFVLVYTVFSATDPKRNARDSHVPVLAPLPIGFAVFMVHLATIPITGTGINPARSFGAAVIYNNEKAWDDQWIFWVGPMIGAAAAAFYHQFILRAAAI 6qiz-a1-m11-cA_6qiz-a1-m9-cA CI-2, conformation 2 P01053 P01053 1.65 X-RAY DIFFRACTION 16 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 64 64 6qiz-a1-m10-cA_6qiz-a1-m8-cA 6qiz-a1-m10-cA_6qiz-a1-m9-cA 6qiz-a1-m11-cA_6qiz-a1-m7-cA 6qiz-a1-m12-cA_6qiz-a1-m7-cA 6qiz-a1-m12-cA_6qiz-a1-m8-cA 6qiz-a1-m1-cA_6qiz-a1-m5-cA 6qiz-a1-m1-cA_6qiz-a1-m6-cA 6qiz-a1-m2-cA_6qiz-a1-m4-cA 6qiz-a1-m2-cA_6qiz-a1-m6-cA 6qiz-a1-m3-cA_6qiz-a1-m4-cA 6qiz-a1-m3-cA_6qiz-a1-m5-cA LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG 6qiz-a1-m2-cA_6qiz-a1-m9-cA CI-2, conformation 2 P01053 P01053 1.65 X-RAY DIFFRACTION 163 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 64 64 6qiz-a1-m10-cA_6qiz-a1-m4-cA 6qiz-a1-m11-cA_6qiz-a1-m6-cA 6qiz-a1-m12-cA_6qiz-a1-m5-cA 6qiz-a1-m1-cA_6qiz-a1-m7-cA 6qiz-a1-m3-cA_6qiz-a1-m8-cA LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG 6qiz-a1-m4-cA_6qiz-a1-m9-cA CI-2, conformation 2 P01053 P01053 1.65 X-RAY DIFFRACTION 22 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 64 64 6qiz-a1-m10-cA_6qiz-a1-m3-cA 6qiz-a1-m11-cA_6qiz-a1-m2-cA 6qiz-a1-m1-cA_6qiz-a1-m12-cA 6qiz-a1-m5-cA_6qiz-a1-m8-cA 6qiz-a1-m6-cA_6qiz-a1-m7-cA LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG 6qiz-a1-m6-cA_6qiz-a1-m9-cA CI-2, conformation 2 P01053 P01053 1.65 X-RAY DIFFRACTION 11 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 64 64 6qiz-a1-m10-cA_6qiz-a1-m2-cA 6qiz-a1-m12-cA_6qiz-a1-m3-cA 6qiz-a1-m1-cA_6qiz-a1-m11-cA 6qiz-a1-m4-cA_6qiz-a1-m8-cA 6qiz-a1-m5-cA_6qiz-a1-m7-cA LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG LKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRLFVDKLDNIAEVPRVG 6qj6-a1-m2-cE_6qj6-a1-m1-cA The structure of Trehalose-6-phosphatase from Burkholderia pseudomallei Q63SB3 Q63SB3 1.74 X-RAY DIFFRACTION 68 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 254 265 AAILFSESMQSIPLSLPLSRTAFFFDFDGTLVDLAPTPDAIQVPPDVPVLVDALRQLSHGAVAIVSGRGIDSIDAYLNLPGLPVAGLHGAERRDANGDTQRIGFDDPRLLRIERELAALVDRHPGMLLEIKGAALALHFRNAPEREGVARAAAERLVADYADAYVLQPGKMVFEIKPKGVDKGRAVAAFLNEPPFAGRMPVFAGDDLTDEQGFAVANANGGLSIKVGAGDTTARARVDSVAALRAQLARWIAAG RTFARRARPPAAILFSESMQSIPLSLPLSRTAFFFDFDGTLVDLAPTPDAIQVPPDVPVLVDALRQLSHGAVAIVSGRGIDSIDAYLNLPGLPVAGLHGAERRDANGDTQRIGFDDPRLLRIERELAALVDRHPGMLLEIKGAALALHFRNAPEREGVARAAAERLVADYADAYVLQPGKMVFEIKPKGVDKGRAVAAFLNEPPFAGRMPVFAGDDLTDEQGFAVANANGGLSIKVGAGDTTARARVDSVAALRAQLARWIAAGR 6qjm-a1-m1-cA_6qjm-a1-m1-cC Cryo-EM structure of heparin-induced 2N4R tau twister filaments P10636 P10636 3.3 ELECTRON MICROSCOPY 130 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 37 37 6qjm-a1-m1-cA_6qjm-a1-m1-cB KVQIINKKLDLSNVQSKCGGSVQIVYKPVDLSKVTSK KVQIINKKLDLSNVQSKCGGSVQIVYKPVDLSKVTSK 6qjp-a1-m1-cA_6qjp-a1-m1-cC Cryo-EM structure of heparin-induced 2N4R tau jagged filaments P10636 P10636 3.5 ELECTRON MICROSCOPY 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 35 35 6qjp-a1-m1-cA_6qjp-a1-m1-cB KVQIINKKLDLSNVQSKGSVQIVYKPVDLSKVTSK KVQIINKKLDLSNVQSKGSVQIVYKPVDLSKVTSK 6qkb-a1-m1-cB_6qkb-a1-m1-cA Crystal structure of the beta-hydroxyaspartate aldolase of Paracoccus denitrificans A1B8Z1 A1B8Z1 1.701 X-RAY DIFFRACTION 175 1.0 266 (Paracoccus denitrificans) 266 (Paracoccus denitrificans) 383 384 TDFSGYEVGYDIPALPGMDESEIQTPCLILDLDALERNIRKMGDYAKAHGMRHRSHGKMHKSVDVQKLQESLGGSVGVCCQKVSEAEAFARGGIKDVLVTNEVREPAKIDRLARLPKTGATVTVCVDDVQNIADLSAAAQKHGTELGIFVEIDCGAGRCGVTTKEAVVEIAKAAAAAPNLTFKGIQAYQGAMQHMDSFEDRKAKLDAAIAQVKEAVDALEAEGLAPEFVSGGGTGSYYFESNSGIYNELQCGSYAFMDADYGRIHDAEGKRIDQGEWENALFILTSVMSHAKPHLAVVDAGLKAQSVDSGLPFVYGRDDVKYIKCSDEHGVVEDKDGVLKVNDKLRLVPGHCDPTCNVHDWYVGVRNGKVETVWPVSARGKGY KTDFSGYEVGYDIPALPGMDESEIQTPCLILDLDALERNIRKMGDYAKAHGMRHRSHGKMHKSVDVQKLQESLGGSVGVCCQKVSEAEAFARGGIKDVLVTNEVREPAKIDRLARLPKTGATVTVCVDDVQNIADLSAAAQKHGTELGIFVEIDCGAGRCGVTTKEAVVEIAKAAAAAPNLTFKGIQAYQGAMQHMDSFEDRKAKLDAAIAQVKEAVDALEAEGLAPEFVSGGGTGSYYFESNSGIYNELQCGSYAFMDADYGRIHDAEGKRIDQGEWENALFILTSVMSHAKPHLAVVDAGLKAQSVDSGLPFVYGRDDVKYIKCSDEHGVVEDKDGVLKVNDKLRLVPGHCDPTCNVHDWYVGVRNGKVETVWPVSARGKGY 6qkv-a1-m1-cB_6qkv-a1-m1-cA Structure of YibK from P. aeruginosa Q9HU57 Q9HU57 2.01 X-RAY DIFFRACTION 90 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 137 149 6qh8-a1-m1-cC_6qh8-a1-m1-cA 6qh8-a2-m1-cB_6qh8-a2-m1-cD SHMFHVILFQPEIPPNTGNIIRLCANAGCSLHLIEPLGFSVRRYPYLQSCLEALGQPRLFAFTTKGSRAFHEVAYQRGDAFLFGPESRGLPEDVRNALPTDRRLRLPMREGCRSLNLSNTVAVTVYEAWRQLGFAMD SHMFHVILFQPEIPPNTGNIIRLCANAGCSLHLIEPLGFELDAGLDYHEYASVRRYPYLQSCLEALGQPRLFAFTTKGSRAFHEVAYQRGDAFLFGPESRGLPEDVRNALPTDRRLRLPMREGCRSLNLSNTVAVTVYEAWRQLGFAMD 6qky-a3-m1-cF_6qky-a3-m1-cE Tryptophan synthase subunit alpha from Streptococcus pneumoniae with 3D domain swap in the core of TIM barrel Q97P33 Q97P33 2.54 X-RAY DIFFRACTION 384 0.996 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 244 246 6qky-a1-m1-cA_6qky-a1-m1-cB 6qky-a2-m1-cD_6qky-a2-m1-cC 6qky-a4-m1-cG_6qky-a4-m1-cH 6qky-a5-m1-cI_6qky-a5-m1-cJ PKTLTEKLNAIKAAGKGIFVPYIAGDHEKGLDGLAETIHFLEDLGVSAIEVGIPFSDPVADGPVIEEAGLRSLAHGTSTQALVETLKTIETEIPLVITYFNPLFQYGVENFVKDLADTAVKGLIIPDLPHEHANFVEPFLANTDIALIPLVSLTTGIERQKELIEGAEGFIYAVAIADLDKHLAQLHQVADIPVLTGFGVSSQADLERFNAVSDGVIVGSKIVKALHQGEPIQDFIRQAVAYQK PKTLTEKLNAIKAAGKGIFVPYIAGDHEKGLDGLAETIHFLEDLGVSAIEVGIPFSDPVADGPVIEEAGLRSLAHGTSTQALVETLKTIETEIPLVITYFNPLFQYGVENFVKDLADTAVKGLIIPDLPHEHANFVEPFLANTDIALIPLVSLTTGIERQKELIEGAEGFIYAVAINYRADLDKHLAQLHQVADIPVLTGFGVSSQADLERFNAVSDGVIVGSKIVKALHQGEPIQDFIRQAVAYQ 6qla-a1-m1-cA_6qla-a1-m1-cB CRYSTAL STRUCTURE OF THE PMGL2 ESTERASE (point mutant 1) FROM PERMAFROST METAGENOMIC LIBRARY A0A142J6I6 A0A142J6I6 1.43 X-RAY DIFFRACTION 123 1.0 1082480 (permafrost metagenome) 1082480 (permafrost metagenome) 319 319 6qin-a1-m1-cA_6qin-a1-m1-cB 6zl7-a1-m1-cA_6zl7-a1-m1-cB LMSWLPPSNQLSPEARSVLDRMDAAKAPEFNGDLVRQRAFYQQFNDDRLVEMRRVFRTRERHETLNAVHVQVVEPADGVSARNRDRVLINVHGGAFMWGAGSGALVEAIPIAATMGVSVVTVDYRLAPENRYPAASEDVTAVYRALLERYPAANIGIFGTSAGGVITAQAVTWIRREGLPRPGAIGTLSGTGAPYSGDSPYLAGVVPVGPGVKAPPLPGLLPTAYMEGVGADDARAYPLTSDAETVFMPPTLLLAGGRDFAVSALSLAHRRLARAGVDSELHLFDGLPHAFFVWPDMPESLEAYALIAGFFDSRLGLTP LMSWLPPSNQLSPEARSVLDRMDAAKAPEFNGDLVRQRAFYQQFNDDRLVEMRRVFRTRERHETLNAVHVQVVEPADGVSARNRDRVLINVHGGAFMWGAGSGALVEAIPIAATMGVSVVTVDYRLAPENRYPAASEDVTAVYRALLERYPAANIGIFGTSAGGVITAQAVTWIRREGLPRPGAIGTLSGTGAPYSGDSPYLAGVVPVGPGVKAPPLPGLLPTAYMEGVGADDARAYPLTSDAETVFMPPTLLLAGGRDFAVSALSLAHRRLARAGVDSELHLFDGLPHAFFVWPDMPESLEAYALIAGFFDSRLGLTP 6qlc-a1-m1-cA_6qlc-a1-m2-cA The ssDNA-binding RNA polymerase cofactor Drc from Pseudomonas phage LUZ7 C8ZKB3 C8ZKB3 2.2 X-RAY DIFFRACTION 130 1.0 655097 (Pseudomonas phage LUZ7) 655097 (Pseudomonas phage LUZ7) 82 82 KGASAYLNFHFPTRDGKDVRLVSLGLRADDALHMQLQEFLTVDDKGKPLSETAYAERCKKLVSRLIIKLGVTRSEEERALDL KGASAYLNFHFPTRDGKDVRLVSLGLRADDALHMQLQEFLTVDDKGKPLSETAYAERCKKLVSRLIIKLGVTRSEEERALDL 6qly-a2-m1-cA_6qly-a2-m4-cA IDOL FERM domain Q8WY64 Q8WY64 2.5 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 6qly-a2-m2-cA_6qly-a2-m3-cA GGMLCYVTRPDAVLMEVEVEAKANGEDCLNQVCRRLGIIEVDYFGLQFTGSKGESLWLNLRNRISQQMDGLAPYRLKLRVKFFVEPHLILQEQTRHIFFLHIKEALLAGHLLCSPEQAVELSALLAQTKFGDYNQNTAKYNYEELCAKELSSATLNSIVAKHKELEGTSQASAEYQVLQIVSAMENYGIEWHSVRDSEGQKLLIGVGPEGISICKDDFSPINRIAYPVVQMATQSGKNVYLTVTKESGNSIVLLFKMISTRAASGLYRAITETHAFYRCDTVTSAVMMQYSRDLKGHLASLFLNLGKKYVFDIKRTSKEVYDHARRALYN GGMLCYVTRPDAVLMEVEVEAKANGEDCLNQVCRRLGIIEVDYFGLQFTGSKGESLWLNLRNRISQQMDGLAPYRLKLRVKFFVEPHLILQEQTRHIFFLHIKEALLAGHLLCSPEQAVELSALLAQTKFGDYNQNTAKYNYEELCAKELSSATLNSIVAKHKELEGTSQASAEYQVLQIVSAMENYGIEWHSVRDSEGQKLLIGVGPEGISICKDDFSPINRIAYPVVQMATQSGKNVYLTVTKESGNSIVLLFKMISTRAASGLYRAITETHAFYRCDTVTSAVMMQYSRDLKGHLASLFLNLGKKYVFDIKRTSKEVYDHARRALYN 6qly-a2-m2-cA_6qly-a2-m4-cA IDOL FERM domain Q8WY64 Q8WY64 2.5 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 6qly-a2-m1-cA_6qly-a2-m3-cA GGMLCYVTRPDAVLMEVEVEAKANGEDCLNQVCRRLGIIEVDYFGLQFTGSKGESLWLNLRNRISQQMDGLAPYRLKLRVKFFVEPHLILQEQTRHIFFLHIKEALLAGHLLCSPEQAVELSALLAQTKFGDYNQNTAKYNYEELCAKELSSATLNSIVAKHKELEGTSQASAEYQVLQIVSAMENYGIEWHSVRDSEGQKLLIGVGPEGISICKDDFSPINRIAYPVVQMATQSGKNVYLTVTKESGNSIVLLFKMISTRAASGLYRAITETHAFYRCDTVTSAVMMQYSRDLKGHLASLFLNLGKKYVFDIKRTSKEVYDHARRALYN GGMLCYVTRPDAVLMEVEVEAKANGEDCLNQVCRRLGIIEVDYFGLQFTGSKGESLWLNLRNRISQQMDGLAPYRLKLRVKFFVEPHLILQEQTRHIFFLHIKEALLAGHLLCSPEQAVELSALLAQTKFGDYNQNTAKYNYEELCAKELSSATLNSIVAKHKELEGTSQASAEYQVLQIVSAMENYGIEWHSVRDSEGQKLLIGVGPEGISICKDDFSPINRIAYPVVQMATQSGKNVYLTVTKESGNSIVLLFKMISTRAASGLYRAITETHAFYRCDTVTSAVMMQYSRDLKGHLASLFLNLGKKYVFDIKRTSKEVYDHARRALYN 6qly-a2-m3-cA_6qly-a2-m4-cA IDOL FERM domain Q8WY64 Q8WY64 2.5 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 6qly-a2-m1-cA_6qly-a2-m2-cA GGMLCYVTRPDAVLMEVEVEAKANGEDCLNQVCRRLGIIEVDYFGLQFTGSKGESLWLNLRNRISQQMDGLAPYRLKLRVKFFVEPHLILQEQTRHIFFLHIKEALLAGHLLCSPEQAVELSALLAQTKFGDYNQNTAKYNYEELCAKELSSATLNSIVAKHKELEGTSQASAEYQVLQIVSAMENYGIEWHSVRDSEGQKLLIGVGPEGISICKDDFSPINRIAYPVVQMATQSGKNVYLTVTKESGNSIVLLFKMISTRAASGLYRAITETHAFYRCDTVTSAVMMQYSRDLKGHLASLFLNLGKKYVFDIKRTSKEVYDHARRALYN GGMLCYVTRPDAVLMEVEVEAKANGEDCLNQVCRRLGIIEVDYFGLQFTGSKGESLWLNLRNRISQQMDGLAPYRLKLRVKFFVEPHLILQEQTRHIFFLHIKEALLAGHLLCSPEQAVELSALLAQTKFGDYNQNTAKYNYEELCAKELSSATLNSIVAKHKELEGTSQASAEYQVLQIVSAMENYGIEWHSVRDSEGQKLLIGVGPEGISICKDDFSPINRIAYPVVQMATQSGKNVYLTVTKESGNSIVLLFKMISTRAASGLYRAITETHAFYRCDTVTSAVMMQYSRDLKGHLASLFLNLGKKYVFDIKRTSKEVYDHARRALYN 6qm2-a1-m1-cA_6qm2-a1-m2-cA NlaIV restriction endonuclease P50183 P50183 2.8 X-RAY DIFFRACTION 89 1.0 486 (Neisseria lactamica) 486 (Neisseria lactamica) 246 246 GSHMIKLTAQQIFDKLLDEEKILSANGQIRFFLGDVDIIVKQKDVVGNIIQEWLGGWLRKREIEFDVSTNTQMPPDFFLNKKDRSRELLEVKAFNRNASPGFDIADFKMYSDEIIHKPYMLDVDYLIFGYDMDDNGNVTIKDLWLKKVWQITRSMDGWAINLQVKKGVVHKIRPGVWYSINKKNMPMFECLEDFVSAIEETVYQNPATRHNASLWKRKFEEAYKKHYNRSISIPRWHEIAHKYKKK GSHMIKLTAQQIFDKLLDEEKILSANGQIRFFLGDVDIIVKQKDVVGNIIQEWLGGWLRKREIEFDVSTNTQMPPDFFLNKKDRSRELLEVKAFNRNASPGFDIADFKMYSDEIIHKPYMLDVDYLIFGYDMDDNGNVTIKDLWLKKVWQITRSMDGWAINLQVKKGVVHKIRPGVWYSINKKNMPMFECLEDFVSAIEETVYQNPATRHNASLWKRKFEEAYKKHYNRSISIPRWHEIAHKYKKK 6qm3-a1-m1-cB_6qm3-a1-m1-cA Crystal structure of a calcium- and sodium-bound mouse Olfactomedin-1 disulfide-linked dimer of the Olfactomedin domain and part of coiled coil O88998 O88998 2 X-RAY DIFFRACTION 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 266 268 5amo-a1-m1-cA_5amo-a1-m1-cB SNLEERLRACMQKLACGKLTGISDPVTVKTSGSRFGSWMTDPLAPEGDNRVWYMDGYHNNRFVREYKSMVDFMNTDNFTSHRLPHPWSGTGQVVYNGSIYFNKFQSHIIIRFDLKTETILKTRSLDYAGYNNMYHYAWGGHSDIDLMVDENGLWAVYATNQNAGNIVISKLDPVSLQILQTWNTSYPKRSAGEAFIICGTLYVTNGYSGGTKVHYAYQTNASTYEYIDIPFQNKYSHISMLDYNPKDRALYAWNNGHQTLYNVTLF SNLEERLRACMQKLACGKLTGISDPVTVKTSGSRFGSWMTDPLAPEGDNRVWYMDGYHNNRFVREYKSMVDFMNTDNFTSHRLPHPWSGTGQVVYNGSIYFNKFQSHIIIRFDLKTETILKTRSLDYAGYNNMYHYAWGGHSDIDLMVDENGLWAVYATNQNAGNIVISKLDPVSLQILQTWNTSYPKRSAGEAFIICGTLYVTNGYSGGTKVHYAYQTNASTYEYIDIPFQNKYSHISMLDYNPKDRALYAWNNGHQTLYNVTLFHA 6qmg-a1-m2-cA_6qmg-a1-m6-cA Phosphopantetheine adenylyltransferase from Mycobacterium tuberculosis in complex with 5-methyl-1-phenyl-1H-pyrazole-4-carboxylic acid at 1.8A resolution. P9WPA5 P9WPA5 1.65 X-RAY DIFFRACTION 58 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 152 152 1tfu-a1-m1-cA_1tfu-a1-m5-cA 1tfu-a1-m2-cA_1tfu-a1-m4-cA 1tfu-a1-m3-cA_1tfu-a1-m6-cA 3lcj-a1-m1-cA_3lcj-a1-m5-cA 3lcj-a1-m2-cA_3lcj-a1-m4-cA 3lcj-a1-m3-cA_3lcj-a1-m6-cA 3nba-a1-m1-cA_3nba-a1-m1-cC 3nba-a1-m2-cA_3nba-a1-m2-cC 3nba-a1-m3-cA_3nba-a1-m3-cC 3nba-a2-m1-cB_3nba-a2-m1-cD 3nba-a2-m4-cB_3nba-a2-m4-cD 3nba-a2-m5-cB_3nba-a2-m5-cD 3nbk-a1-m1-cA_3nbk-a1-m1-cB 3nbk-a1-m2-cA_3nbk-a1-m2-cB 3nbk-a1-m3-cA_3nbk-a1-m3-cB 3nbk-a2-m1-cC_3nbk-a2-m1-cD 3nbk-a2-m4-cC_3nbk-a2-m4-cD 3nbk-a2-m5-cC_3nbk-a2-m5-cD 3pnb-a1-m1-cA_3pnb-a1-m1-cD 3pnb-a1-m2-cA_3pnb-a1-m2-cD 3pnb-a1-m3-cA_3pnb-a1-m3-cD 3pnb-a2-m1-cB_3pnb-a2-m1-cC 3pnb-a2-m4-cB_3pnb-a2-m4-cC 3pnb-a2-m5-cB_3pnb-a2-m5-cC 3rba-a1-m1-cA_3rba-a1-m4-cA 3rba-a1-m2-cA_3rba-a1-m6-cA 3rba-a1-m3-cA_3rba-a1-m5-cA 3rff-a1-m1-cA_3rff-a1-m6-cA 3rff-a1-m2-cA_3rff-a1-m5-cA 3rff-a1-m3-cA_3rff-a1-m4-cA 3rhs-a1-m1-cA_3rhs-a1-m5-cA 3rhs-a1-m2-cA_3rhs-a1-m4-cA 3rhs-a1-m3-cA_3rhs-a1-m6-cA 3uc5-a1-m1-cA_3uc5-a1-m6-cA 3uc5-a1-m2-cA_3uc5-a1-m5-cA 3uc5-a1-m3-cA_3uc5-a1-m4-cA 4e1a-a1-m1-cA_4e1a-a1-m4-cA 4e1a-a1-m2-cA_4e1a-a1-m6-cA 4e1a-a1-m3-cA_4e1a-a1-m5-cA 4r0n-a1-m1-cA_4r0n-a1-m1-cG 4r0n-a1-m1-cC_4r0n-a1-m1-cI 4r0n-a1-m1-cE_4r0n-a1-m1-cK 6g6v-a1-m1-cA_6g6v-a1-m4-cA 6g6v-a1-m2-cA_6g6v-a1-m6-cA 6g6v-a1-m3-cA_6g6v-a1-m5-cA 6qmf-a1-m1-cA_6qmf-a1-m5-cA 6qmf-a1-m2-cA_6qmf-a1-m4-cA 6qmf-a1-m3-cA_6qmf-a1-m6-cA 6qmg-a1-m1-cA_6qmg-a1-m4-cA 6qmg-a1-m3-cA_6qmg-a1-m5-cA 6qmh-a1-m1-cA_6qmh-a1-m4-cA 6qmh-a1-m2-cA_6qmh-a1-m6-cA 6qmh-a1-m3-cA_6qmh-a1-m5-cA 6qmi-a1-m1-cA_6qmi-a1-m5-cA 6qmi-a1-m2-cA_6qmi-a1-m4-cA 6qmi-a1-m3-cA_6qmi-a1-m6-cA MTGAVCPGSFDPVTLGHVDIFERAAAQFDEVVVAILVGMFDLDERIAMVKESTTHLPNLRVQVGHGLVVDFVRSCGMTAIVKGLRTGTDFEYELQMAQMNKHIAGVDTFFVATAPRYSFVSSSLAKEVAMLGGDVSELLPEPVNRRLRDRLN MTGAVCPGSFDPVTLGHVDIFERAAAQFDEVVVAILVGMFDLDERIAMVKESTTHLPNLRVQVGHGLVVDFVRSCGMTAIVKGLRTGTDFEYELQMAQMNKHIAGVDTFFVATAPRYSFVSSSLAKEVAMLGGDVSELLPEPVNRRLRDRLN 6qmg-a1-m5-cA_6qmg-a1-m6-cA Phosphopantetheine adenylyltransferase from Mycobacterium tuberculosis in complex with 5-methyl-1-phenyl-1H-pyrazole-4-carboxylic acid at 1.8A resolution. P9WPA5 P9WPA5 1.65 X-RAY DIFFRACTION 35 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 152 152 1tfu-a1-m1-cA_1tfu-a1-m2-cA 1tfu-a1-m1-cA_1tfu-a1-m3-cA 1tfu-a1-m2-cA_1tfu-a1-m3-cA 1tfu-a1-m4-cA_1tfu-a1-m5-cA 1tfu-a1-m4-cA_1tfu-a1-m6-cA 1tfu-a1-m5-cA_1tfu-a1-m6-cA 3lcj-a1-m1-cA_3lcj-a1-m2-cA 3lcj-a1-m1-cA_3lcj-a1-m3-cA 3lcj-a1-m2-cA_3lcj-a1-m3-cA 3lcj-a1-m4-cA_3lcj-a1-m5-cA 3lcj-a1-m4-cA_3lcj-a1-m6-cA 3lcj-a1-m5-cA_3lcj-a1-m6-cA 3nba-a1-m1-cA_3nba-a1-m2-cA 3nba-a1-m1-cA_3nba-a1-m3-cA 3nba-a1-m1-cC_3nba-a1-m2-cC 3nba-a1-m1-cC_3nba-a1-m3-cC 3nba-a1-m2-cA_3nba-a1-m3-cA 3nba-a1-m2-cC_3nba-a1-m3-cC 3nba-a2-m1-cB_3nba-a2-m4-cB 3nba-a2-m1-cB_3nba-a2-m5-cB 3nba-a2-m1-cD_3nba-a2-m4-cD 3nba-a2-m1-cD_3nba-a2-m5-cD 3nba-a2-m4-cB_3nba-a2-m5-cB 3nba-a2-m4-cD_3nba-a2-m5-cD 3nbk-a1-m1-cA_3nbk-a1-m2-cA 3nbk-a1-m1-cA_3nbk-a1-m3-cA 3nbk-a1-m1-cB_3nbk-a1-m2-cB 3nbk-a1-m1-cB_3nbk-a1-m3-cB 3nbk-a1-m2-cA_3nbk-a1-m3-cA 3nbk-a1-m2-cB_3nbk-a1-m3-cB 3nbk-a2-m1-cC_3nbk-a2-m4-cC 3nbk-a2-m1-cC_3nbk-a2-m5-cC 3nbk-a2-m1-cD_3nbk-a2-m4-cD 3nbk-a2-m1-cD_3nbk-a2-m5-cD 3nbk-a2-m4-cC_3nbk-a2-m5-cC 3nbk-a2-m4-cD_3nbk-a2-m5-cD 3pnb-a1-m1-cA_3pnb-a1-m2-cA 3pnb-a1-m1-cA_3pnb-a1-m3-cA 3pnb-a1-m1-cD_3pnb-a1-m2-cD 3pnb-a1-m1-cD_3pnb-a1-m3-cD 3pnb-a1-m2-cA_3pnb-a1-m3-cA 3pnb-a1-m2-cD_3pnb-a1-m3-cD 3pnb-a2-m1-cB_3pnb-a2-m4-cB 3pnb-a2-m1-cB_3pnb-a2-m5-cB 3pnb-a2-m1-cC_3pnb-a2-m4-cC 3pnb-a2-m1-cC_3pnb-a2-m5-cC 3pnb-a2-m4-cB_3pnb-a2-m5-cB 3pnb-a2-m4-cC_3pnb-a2-m5-cC 3rba-a1-m1-cA_3rba-a1-m2-cA 3rba-a1-m1-cA_3rba-a1-m3-cA 3rba-a1-m2-cA_3rba-a1-m3-cA 3rba-a1-m4-cA_3rba-a1-m5-cA 3rba-a1-m4-cA_3rba-a1-m6-cA 3rba-a1-m5-cA_3rba-a1-m6-cA 3rba-a2-m1-cA_3rba-a2-m2-cA 3rba-a2-m1-cA_3rba-a2-m3-cA 3rba-a2-m2-cA_3rba-a2-m3-cA 3rff-a1-m1-cA_3rff-a1-m2-cA 3rff-a1-m1-cA_3rff-a1-m3-cA 3rff-a1-m2-cA_3rff-a1-m3-cA 3rff-a1-m4-cA_3rff-a1-m5-cA 3rff-a1-m4-cA_3rff-a1-m6-cA 3rff-a1-m5-cA_3rff-a1-m6-cA 3rhs-a1-m1-cA_3rhs-a1-m2-cA 3rhs-a1-m1-cA_3rhs-a1-m3-cA 3rhs-a1-m2-cA_3rhs-a1-m3-cA 3rhs-a1-m4-cA_3rhs-a1-m5-cA 3rhs-a1-m4-cA_3rhs-a1-m6-cA 3rhs-a1-m5-cA_3rhs-a1-m6-cA 3uc5-a1-m1-cA_3uc5-a1-m2-cA 3uc5-a1-m1-cA_3uc5-a1-m3-cA 3uc5-a1-m2-cA_3uc5-a1-m3-cA 3uc5-a1-m4-cA_3uc5-a1-m5-cA 3uc5-a1-m4-cA_3uc5-a1-m6-cA 3uc5-a1-m5-cA_3uc5-a1-m6-cA 4e1a-a1-m1-cA_4e1a-a1-m2-cA 4e1a-a1-m1-cA_4e1a-a1-m3-cA 4e1a-a1-m2-cA_4e1a-a1-m3-cA 4e1a-a1-m4-cA_4e1a-a1-m5-cA 4e1a-a1-m4-cA_4e1a-a1-m6-cA 4e1a-a1-m5-cA_4e1a-a1-m6-cA 4r0n-a1-m1-cA_4r0n-a1-m1-cC 4r0n-a1-m1-cA_4r0n-a1-m1-cK 4r0n-a1-m1-cC_4r0n-a1-m1-cK 4r0n-a1-m1-cE_4r0n-a1-m1-cG 4r0n-a1-m1-cE_4r0n-a1-m1-cI 4r0n-a1-m1-cG_4r0n-a1-m1-cI 6g6v-a1-m1-cA_6g6v-a1-m2-cA 6g6v-a1-m1-cA_6g6v-a1-m3-cA 6g6v-a1-m2-cA_6g6v-a1-m3-cA 6g6v-a1-m4-cA_6g6v-a1-m5-cA 6g6v-a1-m4-cA_6g6v-a1-m6-cA 6g6v-a1-m5-cA_6g6v-a1-m6-cA 6qmf-a1-m1-cA_6qmf-a1-m2-cA 6qmf-a1-m1-cA_6qmf-a1-m3-cA 6qmf-a1-m2-cA_6qmf-a1-m3-cA 6qmf-a1-m4-cA_6qmf-a1-m5-cA 6qmf-a1-m4-cA_6qmf-a1-m6-cA 6qmf-a1-m5-cA_6qmf-a1-m6-cA 6qmg-a1-m1-cA_6qmg-a1-m2-cA 6qmg-a1-m1-cA_6qmg-a1-m3-cA 6qmg-a1-m2-cA_6qmg-a1-m3-cA 6qmg-a1-m4-cA_6qmg-a1-m5-cA 6qmg-a1-m4-cA_6qmg-a1-m6-cA 6qmh-a1-m1-cA_6qmh-a1-m2-cA 6qmh-a1-m1-cA_6qmh-a1-m3-cA 6qmh-a1-m2-cA_6qmh-a1-m3-cA 6qmh-a1-m4-cA_6qmh-a1-m5-cA 6qmh-a1-m4-cA_6qmh-a1-m6-cA 6qmh-a1-m5-cA_6qmh-a1-m6-cA 6qmi-a1-m1-cA_6qmi-a1-m2-cA 6qmi-a1-m1-cA_6qmi-a1-m3-cA 6qmi-a1-m2-cA_6qmi-a1-m3-cA 6qmi-a1-m4-cA_6qmi-a1-m5-cA 6qmi-a1-m4-cA_6qmi-a1-m6-cA 6qmi-a1-m5-cA_6qmi-a1-m6-cA MTGAVCPGSFDPVTLGHVDIFERAAAQFDEVVVAILVGMFDLDERIAMVKESTTHLPNLRVQVGHGLVVDFVRSCGMTAIVKGLRTGTDFEYELQMAQMNKHIAGVDTFFVATAPRYSFVSSSLAKEVAMLGGDVSELLPEPVNRRLRDRLN MTGAVCPGSFDPVTLGHVDIFERAAAQFDEVVVAILVGMFDLDERIAMVKESTTHLPNLRVQVGHGLVVDFVRSCGMTAIVKGLRTGTDFEYELQMAQMNKHIAGVDTFFVATAPRYSFVSSSLAKEVAMLGGDVSELLPEPVNRRLRDRLN 6qmm-a1-m1-cA_6qmm-a1-m1-cB Crystal structure of Synecochoccus Spermidine Synthase in complex with putrescine, spermidine and MTA Q31QK9 Q31QK9 2.18 X-RAY DIFFRACTION 118 0.986 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 277 280 SADAPVWIDEVFEDRVRYGLRGQILWEETSPFQKITIVDTEHYGRGLLLDDCWMTAERCEVCYHEYLVHPPLTTAASIARVLVIGGGDGGTVREVLRYAEVEQVDLVEIDGRVVELSQEYLGAIGTAWADPRLNVKIGDGIAFVQTAPDASYDVILVDGSGLFNREFYENCRRVLKPGGVFASQAESPDSFLAVHLEMIETLSAVFAEAKPYYGWVPMYPSGWWSWLYASDTPGQFQKPQSDRLAAIEPQVEIYNRDIHQAAFAQPNFVRRGLSARQ PVWIDEVFEDRVRYGLRGQILWEETSPFQKITIVDTEHYGRGLLLDDCWMTAERCEVCYHEYLVHPPLTTAASIARVLVIGGGDGGTVREVLRYAEVEQVDLVEIDGRVVELSQEYLGAIGTAWADPRLNVKIGDGIAFVQTAPDASYDVILVDGSDPAGPAAGLFNREFYENCRRVLKPGGVFASQAESPDSFLAVHLEMIETLSAVFAEAKPYYGWVPMYPSGWWSWLYASDTPGQFQKPQSDRLAAIEPQVEIYNRDIHQAAFAQPNFVRRGLSARQ 6qnm-a1-m1-cB_6qnm-a1-m1-cA Apo state of chemotaxis sensor ODP from T. denticola 2.1 X-RAY DIFFRACTION 102 1.0 999430 (Treponema denticola ATCC 35404) 999430 (Treponema denticola ATCC 35404) 235 244 GIDGVVLYEDADHKFIWLGSQTMQYLIVDRGRGVLLDPGGVHLFSRVVTAISRFISVDKIDTIFFSHQDPDVSSGIALWLGITKAKIYISSLWVRFMPHDISRMVPIPDKGMSISLPSGSNMKCIPSHFMHSPGQFGLYDERSRILFSGDIGAAVFDETTFVEDFEKHLPLIEGFHVRYMASNKIVSKWVEYVRRLNPLMIAPQHGAIYKDEQVNNFLNWLSGLKCGTDYIENLF NGIDGVVLYEDADHKFIWLGSESVQTMQYLIVDRGRGVLLDPGGVHLFSRVVTAISRFISVDKIDTIFFSHQDPDVSSGIALWLGITKAKIYISSLWVRFMPHIVDISRMVPIPDKGMSISLPSGSNMKCIPSHFMHSPGQFGLYDERSRILFSGDIGAAVFDDDNETTFVEDFEKHLPLIEGFHVRYMASNKIVSKWVEYVRRLNPLMIAPQHGAIYKDEQVNNFLNWLSGLKCGTDYIENLF 6qp2-a1-m1-cA_6qp2-a1-m1-cB Crystal structure of the PLP-bound C-S lyase from Staphylococcus hominis 1.6 X-RAY DIFFRACTION 169 0.992 1290 (Staphylococcus hominis) 1290 (Staphylococcus hominis) 383 391 YNFDEIIDRRYTNAMNVEGYELIRMWVADMDFGTPEVVLNAIRERLNKKILGYTNVFGSEYYEAFVSWTKKRYGFTFSQEHLVFSHGIVAGLIELVGYICDKDDKALIVTPSYGPFKMACDKNHISTVYSPLINHHGYYEIDFDDVRKKVETENIKLCIFANPHNPTGRVWSEEELATLGQIMKENDVWLISDEIHCDIKRSGQSHIPFAKAVPDYDKIITTMSQSKAFNIAGLMFSNIIIQNESLLKTWNTHHFGTENPLSVVATQAAYEKGEGWLQAMNHYLDDNFNYLADFLEKELPHAEFKIPEATYLAWVDLSYYIKEKDIDESMAKFFIKNAGVIIEGAEQFVHNAEGHIRINIAVPREVMKKGLQKIKAALVENLY GGFAVNYNFDEIIDRRYTNAMNVEGYKGYLFELIRMWVADMDFGTPEVVLNAIRERLNKKILGYTNVFGSEYYEAFVSWTKKRYGFTFSQEHLVFSHGIVAGLIELVGYICDKDDKALIVTPSYGPFKMACDKNHISTVYSPLINHHGYYEIDFDDVRKKVETENIKLCIFANPHNPTGRVWSEEELATLGQIMKENDVWLISDEIHCDIKRSGQSHIPFAKAVPDYDKIITTMSQSKAFNIAGLMFSNIIIQNESLLKTWNTHHFGTENPLSVVATQAAYEKGEGWLQAMNHYLDDNFNYLADFLEKELPHAEFKIPEATYLAWVDLSYYIKEKDIDESMAKFFIKNAGVIIEGAEQFVHNAEGHIRINIAVPREVMKKGLQKIKAALVE 6qp3-a2-m1-cB_6qp3-a2-m1-cC Crystal structure of the PLP-bound C-S lyase from Bacillus subtilis (strain 168) Q08432 Q08432 2.3 X-RAY DIFFRACTION 180 0.997 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 386 386 6qp3-a1-m1-cD_6qp3-a1-m1-cA NFDKREERLGTQSVKWDKTGELFGVTDALPMWVADMDFRAPEAITEALKERLDHGIFGYTTPDQKTKDAVCGWMQNRHGWKVNPESITFSPGVVTALSMAVQAFTEPGDQVVVQPPVYTPFYHMVEKNGRHILHNPLLEKDGAYAIDFEDLETKLSDPSVTLFILCNPHNPSGRSWSREDLLKLGELCLEHGVTVVSDEIHSDLMLYGHKHTPFASLSDDFADISVTCAAPSKTFNIAGLQASAIIIPDRLKRAKFSASLQRNGLGGLNAFAVTAIEAAYSKGGPWLDELITYIEKNMNEAEAFLSTELPKVKMMKPDASYLIWLDFSAYGLSDAELQQRMLKKGKVILEPGTKYGPGGEGFMRLNAGCSLATLQDGLRRIKAALS MNFDKREERLGTQSVKWDKTGELFGVTDALPMWVADMDFRAPEAITEALKERLDHGIFGYTTPDQKTKDAVCGWMQNRHGWKVNPESITFSPGVVTALSMAVQAFTEPGDQVVVQPPVYTPFYHMVEKNGRHILHNPLLEKDGAYAIDFEDLETKLSDPSVTLFILCNPHNPSGRSWSREDLLKLGELCLEHGVTVVSDEIHSDLMLYGHKHTPFASLSDDFADISVTCAAPSKTFNIAGLQASAIIIPDRLKRAKFSASLQRNGLGGLNAFAVTAIEAAYSKGGPWLDELITYIEKNMNEAEAFLSTELPKVKMMKPDASYLIWLDFSAYGLSDAELQQRMLKKGKVILEPGTKYGPGGEGFMRLNAGCSLATLQDGLRRIKAAL 6qp4-a1-m1-cB_6qp4-a1-m1-cC Structure of 299-452 fragment of the UspA1 protein from Moraxella catarrhalis Q9XD56 Q9XD56 2.5 X-RAY DIFFRACTION 205 1.0 480 (Moraxella catarrhalis) 480 (Moraxella catarrhalis) 155 155 6qp4-a1-m1-cB_6qp4-a1-m1-cA 6qp4-a1-m1-cC_6qp4-a1-m1-cA KTGNGTVSVGKKGKERQIVHVGAGEISDTSTDAVNGSQLHALATVVAQNKADIKDLDDEVGLLGEEINSLEGEIFNNQDAIAKNQADIKTLESNVEEGLLDLSGRLLDQKADIDNNINNIYELAQQQDQHSSDIKTLKNNVEEGLLDLSGRLIDL KTGNGTVSVGKKGKERQIVHVGAGEISDTSTDAVNGSQLHALATVVAQNKADIKDLDDEVGLLGEEINSLEGEIFNNQDAIAKNQADIKTLESNVEEGLLDLSGRLLDQKADIDNNINNIYELAQQQDQHSSDIKTLKNNVEEGLLDLSGRLIDL 6qp6-a1-m1-cA_6qp6-a1-m1-cB Cryo-EM structure of calcium-bound mTMEM16F lipid scramblase in digitonin Q6P9J9 Q6P9J9 3.2 ELECTRON MICROSCOPY 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 741 741 6qpb-a1-m1-cA_6qpb-a1-m1-cB 8b8g-a1-m1-cA_8b8g-a1-m1-cB 8b8j-a1-m1-cA_8b8j-a1-m1-cB 8b8k-a1-m1-cA_8b8k-a1-m1-cB 8b8m-a1-m1-cB_8b8m-a1-m1-cA 8b8q-a1-m1-cA_8b8q-a1-m1-cB 8bc0-a1-m1-cB_8bc0-a1-m1-cA 8bc1-a1-m1-cA_8bc1-a1-m1-cB NQQDFRTPEFEEFNGKPDSLFFTDGQRRIDFILVYEDESKKGTNEKQKRKRQAYESNLICHGLQLEATRSVSDDKLVFVKVHAPWEVLCTYAEIMHIKLPLKFEKSRMNDFYSFFNPATRSRIVYFILSRVKYQVNKFGINRLVSSGIYKAAFPLHDCRFNYESEDISCPSERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAVVGVACFLYGYLDQDNCTWSKEVCDPDIGGQILMCPQCDRLCPFWRLNITCESSKKLCIFDSFGTLIFAVFMGVWVTLFLEFWKRRQAELEYEWDTVELQQEEQARPEYEAQCTTCGKCIRVTLCASAVFFWILLIIASVIGIIVYRLSVFIVFSTTLTPQMATSITASIISFIIIMILNTIYEKVAIMITNFELPRTQTDYENSLTMKMFLFQFVNYYSSCFYIAFFKGKFVGYPGDPVYLYRSEECDPGGCLLELTTQLTIIMGGKAIWNNIQEVLLPWVMNLIGRYKRVKITPRWEQDYHLQPMGKLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKLTTQFRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSIPPYGDHTYYTMDGYINNTLSVFNITDFKNENPYIGLGNYTLCRYRDFRNPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHIIYSVKFFISYAIPDVSKITKSKIKREKYLT NQQDFRTPEFEEFNGKPDSLFFTDGQRRIDFILVYEDESKKGTNEKQKRKRQAYESNLICHGLQLEATRSVSDDKLVFVKVHAPWEVLCTYAEIMHIKLPLKFEKSRMNDFYSFFNPATRSRIVYFILSRVKYQVNKFGINRLVSSGIYKAAFPLHDCRFNYESEDISCPSERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAVVGVACFLYGYLDQDNCTWSKEVCDPDIGGQILMCPQCDRLCPFWRLNITCESSKKLCIFDSFGTLIFAVFMGVWVTLFLEFWKRRQAELEYEWDTVELQQEEQARPEYEAQCTTCGKCIRVTLCASAVFFWILLIIASVIGIIVYRLSVFIVFSTTLTPQMATSITASIISFIIIMILNTIYEKVAIMITNFELPRTQTDYENSLTMKMFLFQFVNYYSSCFYIAFFKGKFVGYPGDPVYLYRSEECDPGGCLLELTTQLTIIMGGKAIWNNIQEVLLPWVMNLIGRYKRVKITPRWEQDYHLQPMGKLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKLTTQFRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSIPPYGDHTYYTMDGYINNTLSVFNITDFKNENPYIGLGNYTLCRYRDFRNPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHIIYSVKFFISYAIPDVSKITKSKIKREKYLT 6qp7-a1-m1-cB_6qp7-a1-m1-cA Drosophila Semaphorin 2a Q24323 Q24323 1.96 X-RAY DIFFRACTION 127 0.997 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 619 620 NFYYERPCCTDHVREFNCGKLYYRTFHMNEDRDTLYVGAMDRVFRVNLQNISSSNCNRDVINLEPTRDDVVSCVSKGKSQIFDCKNHVRVIQSMDQGDRLYVCGTNAHNPKDYVIYANLTYLPRSEYVIGVGLGIAKCPYDPLDNSTAIYVENGNPGGLPGLYSGTNAEFTKADTVIFRTDLYNTSAKRLEYKFKRTLKYDSKWLDKPNFVGSFDIGEYVYFFFRETAVEYINCGKAVYSRIARVCKKDVGGKNLLAHNWATYLKARLNCSISGEFPFYFNEIQSVYQLPSDKSRFFATFTTSTNGLIGSAVCSFHINEIQAAFNGKFKEQSSSNSAWLPVLNSRVPEPRPGTCVNDTSNLPDTVLNFIRSHPLMDKAVNHEHNNPVYYKRDLVFTKLVVDKIRIDILNQEYIVYYVGTNLGRIYKIVQYYRNGESLSKLLDIFEVAPNEAIQVMEISQTRKSLYIGTDHRIKQIDLAMCNRRYDNCFRCVRDPYCGWDKEANTCRPYELDLLQDVANETSDICDSSVLKKKIVVTYGQSVHLGCFVKIPEVLKNEQVTWYHHSKDKGRYEIRYSPTKYIETTERGLVVVSVNEADGGRYDCHLGGSLLCSYNITVDAH TWNFYYERPCCTVREFNCGKLYYRTFHMNEDRDTLYVGAMDRVFRVNLQNISSSNCNRDVINLEPTRDDVVSCVSKGKSQIFDCKNHVRVIQSMDQGDRLYVCGTNAHNPKDYVIYANLTYLPRSEYVIGVGLGIAKCPYDPLDNSTAIYVENGNPGGLPGLYSGTNAEFTKADTVIFRTDLYNTSAKRLEYKFKRTLKYDSKWLDKPNFVGSFDIGEYVYFFFRETAVEYINCGKAVYSRIARVCKKDVGGKNLLAHNWATYLKARLNCSISGEFPFYFNEIQSVYQLPSDKSRFFATFTTSTNGLIGSAVCSFHINEIQAAFNGKFKEQSSSNSAWLPVLNSRVPEPRPGTCVNDTSNLPDTVLNFIRSHPLMDKAVNHEHNNPVYYKRDLVFTKLVVDKIRIDILNQEYIVYYVGTNLGRIYKIVQYYRNGESLSKLLDIFEVAPNEAIQVMEISQTRKSLYIGTDHRIKQIDLAMCNRRYDNCFRCVRDPYCGWDKEANTCRPYELDLLQDVANETSDICDSSVLKKKIVVTYGQSVHLGCFVKIPEVLKNEQVTWYHHSKDKGRYEIRYSPTKYIETTERGLVVVSVNEADGGRYDCHLGGSLLCSYNITVDAHR 6qp8-a1-m1-cB_6qp8-a1-m1-cA Drosophila Semaphorin 2b A0A0B4KG38 A0A0B4KG38 2.33 X-RAY DIFFRACTION 106 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 620 622 NLYYEPPCCTGEHVQDFSCGPLHYKTFYMDERNNALYVGAMDRIFRLNLRNISQSICERDVLILEPTGSDILNCVSKGKREKVECRNHIRVIQPMNFNGQKLYVCGTNAHNPKDYVINANLTHLPRSQYVPGIGLGIGKCPYDPADNSTAVYVENGNPFGLPALYAGTNAEFTKADSVIFRSDLYNLTNGRKEANFKRTVKYDSKLLDKPNFVGSFEIGEFVYFFFREHAVEYINCGKAVYSRVARVCKNDRGGKYMISQNWATYLKARMNCSISSEFPFYFNEIQSVYKMPTDDTKFYATFTTNTNGLIGSAVCSYDIRDINAAFDGKFKEQATSNSAWLPVLNSKVPEPRPGTCHNDTATLPDSVLNFIRKHPLMDKAVDHEFGNPVFFKRDVILTKLVVDKIRIDKLNQEFLVYFVATTSGHIYKIVQFMHYGQRHSNLVDIFEASPHSEPIREMTLSHKTGSLYVATDHQVKQIDIAMCARRYDSCFRCVSDPYCGWDKDVNACRPYQLGLLQDVANETSGICDTSVLRKKVTSSYGQTLHLSCFVKMPEVLRKKQTRWYHHSTEKGRYEVRYTPTKYIDTNEGGLVLLAVNEGDGGRYDSYLDGTLLCSYGVTVD NLYYEPPCCTGEHVQDFSCGPLHYKTFYMDERNNALYVGAMDRIFRLNLRNISQSICERDVLILEPTGSDILNCVSKGKREKVECRNHIRVIQPMNFNGQKLYVCGTNAHNPKDYVINANLTHLPRSQYVPGIGLGIGKCPYDPADNSTAVYVENGNPFGLPALYAGTNAEFTKADSVIFRSDLYNLTNGRKEANFKRTVKYDSKLLDKPNFVGSFEIGEFVYFFFREHAVEYINCGKAVYSRVARVCKNDRGGKYMISQNWATYLKARMNCSISSEFPFYFNEIQSVYKMPTDDTKFYATFTTNTNGLIGSAVCSYDIRDINAAFDGKFKEQATSNSAWLPVLNSKVPEPRPGTCHNDTATLPDSVLNFIRKHPLMDKAVDHEFGNPVFFKRDVILTKLVVDKIRIDKLNQEFLVYFVATTSGHIYKIVQFMHYGQRHSNLVDIFEASPHSEPIREMTLSHKTGSLYVATDHQVKQIDIAMCARRYDSCFRCVSDPYCGWDKDVNACRPYQLGLLQDVANETSGICDTSVLRKKVTSSYGQTLHLSCFVKMPEVLRKKQTRWYHHSTEKGRYEVRYTPTKYIDTNEGGLVLLAVNEGDGGRYDSYLDGTLLCSYGVTVDAH 6qp9-a1-m1-cB_6qp9-a1-m1-cA Drosophila Semaphorin 1a, extracellular domains 1-2 Q24322 Q24322 3.6 X-RAY DIFFRACTION 38 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 504 505 GPEDVLKFVGNESVVDHFKLVTKDGNSLLIGARNTVFNLSIHDLVEQQRLVWTSPEDDTKMCLVKGKDEEACQNYIRIMVVPSPGRLFVCGTNSFRPMCNTYNYTLEATKNGQAVCPYDPRHNSTSVLADNELYSGTVADFSGSDPIIYREPLQTEQYDSLSLNAPNFVSSFTQGDFVYFFFRETAVEFINCGKAIYSRVARVCKWDKGGPHRFRNRWTSFLKSRLNCSIPGDYPFYFNEIQSASNLVEGQYGSMSSKLIYGVFNTPSNSIPGSAVCAFALQDIADTFEGQFKEQTGINSNWLPVNNAKVPDPRPGSCHNDSRALPDPTLNFIKTHSLMDENVPAFFSQPILVRTSTIYRFTQIAVDAQIKTPGGKTYDVIFVGTDHGKIIKSVNAESADSADKVTSVVIEEIDVLTKSEPIRNLEIVRDGKLIIVTDSQVVAIQLHRCHNDKITSCSECVALQDPYCAWDKIAGKCRSHGAPRWLEENYFYQNVATGQHAACP GPEDVLKFVGNESVVDHFKLVTKDGNSLLIGARNTVFNLSIHDLVEQQRLVWTSPEDDTKMCLVKGKDEEACQNYIRIMVVPSPGRLFVCGTNSFRPMCNTYNYTLEATKNGQAVCPYDPRHNSTSVLADNELYSGTVADFSGSDPIIYREPLQTEQYDSLSLNAPNFVSSFTQGDFVYFFFRETAVEFINCGKAIYSRVARVCKWDKGGPHRFRNRWTSFLKSRLNCSIPGDYPFYFNEIQSASNLVEGQYGSMSSKLIYGVFNTPSNSIPGSAVCAFALQDIADTFEGQFKEQTGINSNWLPVNNAKVPDPRPGSCHNDSRALPDPTLNFIKTHSLMDENVPAFFSQPILVRTSTIYRFTQIAVDAQIKTPGGKTYDVIFVGTDHGKIIKSVNAESADSADKVTSVVIEEIDVLTKSEPIRNLEIVRDDGKLIIVTDSQVVAIQLHRCHNDKITSCSECVALQDPYCAWDKIAGKCRSHGAPRWLEENYFYQNVATGQHAACP 6qpc-a1-m1-cA_6qpc-a1-m1-cB Cryo-EM structure of calcium-bound mTMEM16F lipid scramblase in nanodisc Q6P9J9 Q6P9J9 3.5 ELECTRON MICROSCOPY 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 577 577 QKRKRQAYESNLICTRSVSDDKLVFVKVHAPWEVLCTYAEIMHIKLPSFFNPATRSRIVYRLVSSGIYKAAFPLHDCRFNYESSERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAVVGVACFLYGYLDQDNCTWSKEVCDPDIGGQILMCPQCDRLCPFWRLNITCESSKKLCIFDSFGTLIFAVFMGVWVTLFLEFWKRRQAELEFFWILLIIASVIGIIVYRLSVFIVFSTLTPQMATSITASIISFIIIMILNTIYEKVAIMITNFELPRTQTDYENSLTMKMFLFQFVNYYSSCFYIAFFKGKFVGYPGDPVYLLGKYRSEECDPGGCLLELTTQLTIIMGGKAIWNNIQEVLLPWVMNLIGRYKTPRWEQDYHLQPMGKLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKLTTQFRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSIPPTMDGYINNTLSVFNITCRYRDFRNPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHIIYSVKFFISYAIPDVS QKRKRQAYESNLICTRSVSDDKLVFVKVHAPWEVLCTYAEIMHIKLPSFFNPATRSRIVYRLVSSGIYKAAFPLHDCRFNYESSERYLLYREWAHPRSIYKKQPLDLIRKYYGEKIGIYFAWLGYYTQMLLLAAVVGVACFLYGYLDQDNCTWSKEVCDPDIGGQILMCPQCDRLCPFWRLNITCESSKKLCIFDSFGTLIFAVFMGVWVTLFLEFWKRRQAELEFFWILLIIASVIGIIVYRLSVFIVFSTLTPQMATSITASIISFIIIMILNTIYEKVAIMITNFELPRTQTDYENSLTMKMFLFQFVNYYSSCFYIAFFKGKFVGYPGDPVYLLGKYRSEECDPGGCLLELTTQLTIIMGGKAIWNNIQEVLLPWVMNLIGRYKTPRWEQDYHLQPMGKLGLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWKLTTQFRRMVPEKAQDIGAWQPIMQGIAILAVVTNAMIIAFTSDMIPRLVYYWSFSIPPTMDGYINNTLSVFNITCRYRDFRNPPGHPQEYKHNIYYWHVIAAKLAFIIVMEHIIYSVKFFISYAIPDVS 6qpi-a1-m1-cA_6qpi-a1-m1-cB Cryo-EM structure of calcium-free mTMEM16F lipid scramblase in nanodisc Q6P9J9 Q6P9J9 3.3 ELECTRON MICROSCOPY 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 231 231 KIGIYFAWLGYYTQMLLLAAVVGVACFLYFGTLIFAVFMGVWVTLFLEFWKRRQAELELCASAVFFWILLIIASVIGITASIISFIIIMILNTIYEKVAFLFQFVNYYSSCFYIAFFKGELTTQLTIIMGGKAIWNNIQEVLLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWQPIMQGIAILAVVTNAMIIAFTSDMWHVIAAKLAFIIVMEHIIYSVK KIGIYFAWLGYYTQMLLLAAVVGVACFLYFGTLIFAVFMGVWVTLFLEFWKRRQAELELCASAVFFWILLIIASVIGITASIISFIIIMILNTIYEKVAFLFQFVNYYSSCFYIAFFKGELTTQLTIIMGGKAIWNNIQEVLLFYEYLEMIIQFGFVTLFVASFPLAPLLALVNNILEIRVDAWQPIMQGIAILAVVTNAMIIAFTSDMWHVIAAKLAFIIVMEHIIYSVK 6qpk-a1-m1-cA_6qpk-a1-m1-cB Zt-KP6-1: an effector from Zymoseptoria tritici A0A2H1G421 A0A2H1G421 1.36 X-RAY DIFFRACTION 29 0.987 1276532 (Zymoseptoria tritici ST99CH_1E4) 1276532 (Zymoseptoria tritici ST99CH_1E4) 77 79 HMAVVYAARCKFGLVQNNRITRAVCDLTNEHTTKDGSWHYVEVDNECKYLAGDNPRDQPGWAVFVKYCTYYKGVPDA GHMAVVYAARCKFGNPLVQNNRITRAVCDLTNEHTTKDGSWHYVEVDNECKYLAGDNPRDQPGWAVFVKYCTYYKGVPD 6qpx-a1-m2-cA_6qpx-a1-m4-cA Crystal structure of nitrite bound Y323A mutant of haem-Cu containing nitrite reductase from Ralstonia pickettii I6NAW4 I6NAW4 1.7 X-RAY DIFFRACTION 195 1.0 329 (Ralstonia pickettii) 329 (Ralstonia pickettii) 454 454 2yqb-a1-m1-cA_2yqb-a1-m2-cA 2yqb-a1-m1-cA_2yqb-a1-m3-cA 2yqb-a1-m2-cA_2yqb-a1-m3-cA 3zbm-a1-m1-cA_3zbm-a1-m2-cA 3zbm-a1-m1-cA_3zbm-a1-m3-cA 3zbm-a1-m2-cA_3zbm-a1-m3-cA 3ziy-a1-m1-cA_3ziy-a1-m2-cA 3ziy-a1-m1-cA_3ziy-a1-m3-cA 3ziy-a1-m2-cA_3ziy-a1-m3-cA 4ax3-a1-m1-cB_4ax3-a1-m2-cB 4ax3-a1-m1-cB_4ax3-a1-m3-cB 4ax3-a1-m2-cB_4ax3-a1-m3-cB 4ax3-a2-m1-cA_4ax3-a2-m4-cA 4ax3-a2-m1-cA_4ax3-a2-m5-cA 4ax3-a2-m4-cA_4ax3-a2-m5-cA 4ax3-a3-m1-cC_4ax3-a3-m6-cC 4ax3-a3-m1-cC_4ax3-a3-m7-cC 4ax3-a3-m6-cC_4ax3-a3-m7-cC 4ax3-a4-m1-cD_4ax3-a4-m8-cD 4ax3-a4-m1-cD_4ax3-a4-m9-cD 4ax3-a4-m8-cD_4ax3-a4-m9-cD 5obo-a1-m1-cA_5obo-a1-m2-cA 5obo-a1-m1-cA_5obo-a1-m3-cA 5obo-a1-m2-cA_5obo-a1-m3-cA 5ocb-a1-m1-cA_5ocb-a1-m2-cA 5ocb-a1-m1-cA_5ocb-a1-m3-cA 5ocb-a1-m2-cA_5ocb-a1-m3-cA 5ocf-a1-m1-cA_5ocf-a1-m2-cA 5ocf-a1-m1-cA_5ocf-a1-m3-cA 5ocf-a1-m2-cA_5ocf-a1-m3-cA 6f1q-a1-m1-cA_6f1q-a1-m2-cA 6f1q-a1-m1-cA_6f1q-a1-m3-cA 6f1q-a1-m2-cA_6f1q-a1-m3-cA 6fja-a1-m1-cA_6fja-a1-m2-cA 6fja-a1-m1-cA_6fja-a1-m3-cA 6fja-a1-m2-cA_6fja-a1-m3-cA 6qpt-a1-m1-cA_6qpt-a1-m1-cC 6qpt-a1-m1-cB_6qpt-a1-m1-cA 6qpt-a1-m1-cB_6qpt-a1-m1-cC 6qpt-a2-m1-cD_6qpt-a2-m1-cE 6qpt-a2-m1-cD_6qpt-a2-m1-cF 6qpt-a2-m1-cE_6qpt-a2-m1-cF 6qpu-a1-m1-cA_6qpu-a1-m1-cC 6qpu-a1-m1-cB_6qpu-a1-m1-cA 6qpu-a1-m1-cB_6qpu-a1-m1-cC 6qpu-a2-m1-cD_6qpu-a2-m1-cE 6qpu-a2-m1-cD_6qpu-a2-m1-cF 6qpu-a2-m1-cE_6qpu-a2-m1-cF 6qpv-a1-m1-cA_6qpv-a1-m2-cA 6qpv-a1-m1-cA_6qpv-a1-m4-cA 6qpv-a1-m2-cA_6qpv-a1-m4-cA 6qpv-a2-m1-cI_6qpv-a2-m3-cI 6qpv-a2-m1-cI_6qpv-a2-m5-cI 6qpv-a2-m3-cI_6qpv-a2-m5-cI 6qpx-a1-m1-cA_6qpx-a1-m2-cA 6qpx-a1-m1-cA_6qpx-a1-m4-cA 6qpx-a2-m1-cI_6qpx-a2-m3-cI 6qpx-a2-m1-cI_6qpx-a2-m5-cI 6qpx-a2-m3-cI_6qpx-a2-m5-cI 6qpz-a1-m1-cA_6qpz-a1-m2-cA 6qpz-a1-m1-cA_6qpz-a1-m4-cA 6qpz-a1-m2-cA_6qpz-a1-m4-cA 6qpz-a2-m1-cI_6qpz-a2-m3-cI 6qpz-a2-m1-cI_6qpz-a2-m5-cI 6qpz-a2-m3-cI_6qpz-a2-m5-cI 6qq0-a1-m1-cA_6qq0-a1-m2-cA 6qq0-a1-m1-cA_6qq0-a1-m3-cA 6qq0-a1-m2-cA_6qq0-a1-m3-cA 6qq1-a1-m1-cA_6qq1-a1-m2-cA 6qq1-a1-m1-cA_6qq1-a1-m3-cA 6qq1-a1-m2-cA_6qq1-a1-m3-cA 6qq2-a1-m1-cA_6qq2-a1-m2-cA 6qq2-a1-m1-cA_6qq2-a1-m3-cA 6qq2-a1-m2-cA_6qq2-a1-m3-cA 7qq2-a1-m1-cA_7qq2-a1-m2-cA 7qq2-a1-m1-cA_7qq2-a1-m3-cA 7qq2-a1-m2-cA_7qq2-a1-m3-cA 7r2u-a1-m1-cA_7r2u-a1-m2-cA 7r2u-a1-m1-cA_7r2u-a1-m3-cA 7r2u-a1-m2-cA_7r2u-a1-m3-cA LPGDFGPPRGEPIHAVLTSPPLVPPPVNRTYPAKVIVELEVVEKEMQISEGVSYTFWTFGGTVPGSFIRVRQGDTVEFHLKNHPSSKMPHNIDLHGVTGPGGGAASSFTAPGHESQFTFKALNEGIYVYHCATAPVGMHIANGMYGLILVEPPEGLPKVDHEYYVMQGDFYTAGKYREKGLQPFDMEKAIDERPSYVLFNGAEGALTGDKALHAKVGETVRIFVGNGGPNLVSSFHVIGAIFDQVRYEGGTNVQKNVQTTLIPAGGAAVVKFTARVPGSYVLVDHSIFRAFNKGAMAILKIDGAENKLVYSGKELDSVALGDRAAPNMSAVTKATQASVSGTLTVQDQVQAGRALFAGTCSVCHQGNGAGLPGVFPPLAKSDFLAADPKRAMNIVLHGLNGKIKVNGQEYDSVMPPMTQLNDDEVANILTYVLNSWDNPGGRVSAEDVKKVRAQ LPGDFGPPRGEPIHAVLTSPPLVPPPVNRTYPAKVIVELEVVEKEMQISEGVSYTFWTFGGTVPGSFIRVRQGDTVEFHLKNHPSSKMPHNIDLHGVTGPGGGAASSFTAPGHESQFTFKALNEGIYVYHCATAPVGMHIANGMYGLILVEPPEGLPKVDHEYYVMQGDFYTAGKYREKGLQPFDMEKAIDERPSYVLFNGAEGALTGDKALHAKVGETVRIFVGNGGPNLVSSFHVIGAIFDQVRYEGGTNVQKNVQTTLIPAGGAAVVKFTARVPGSYVLVDHSIFRAFNKGAMAILKIDGAENKLVYSGKELDSVALGDRAAPNMSAVTKATQASVSGTLTVQDQVQAGRALFAGTCSVCHQGNGAGLPGVFPPLAKSDFLAADPKRAMNIVLHGLNGKIKVNGQEYDSVMPPMTQLNDDEVANILTYVLNSWDNPGGRVSAEDVKKVRAQ 6qq6-a1-m1-cA_6qq6-a1-m1-cB Cryo-EM structure of dimeric quinol dependent nitric oxide reductase (qNOR) Val495Ala mutant from Alcaligenes xylosoxidans A0A0D6H8R3 A0A0D6H8R3 3.3 ELECTRON MICROSCOPY 135 1.0 85698 (Achromobacter xylosoxidans) 85698 (Achromobacter xylosoxidans) 743 743 6qq5-a1-m1-cA_6qq5-a1-m1-cB MGPYRRLWFTLIAVLAVTFALLGFYGGEVYRQAPPIPEEVASADGTRLFGRDDILDGQTAWQSIGGMQLGSIWGHGAYQAPDWTADWLHRELMAWLDLAARDAHGRDYGQLDAPAQAALREQLKAEYRANRADAAGGKLTLSPRRAQAVAQTEAYYDQLFSDAPALHRSRENYAMKENTLPDANRRRQMTHFFFWTAWAAGTEREGTSVTYTNNWPHEPLIGNHPSSENVMWSIISVVVLLAGIGLLIWAWAFLRGKEEDEPPAPARDPLTTFALTPSQRALGKYLFLVVALFGFQVLLGGFTAHYTVEGQKFYGIDLSQWFPYSLVRTWHIQSALFWIATGFLAAGLFLAPLINGGRDPKYQKAGVDILFWALVLVVVGSFAGNYLAIAQIMPPDLNFWLGHQGYEYVDLGRLWQIGKFAGICFWLVLMLRGIVPALRTPGGDKNLLALLTASVGAIGLFYGAGFFYGERTHLTVMEYWRWWIVHLWVEGFFEAFATTALAFIFSTLGLVSRRMATTASLASASLFMLGGIPGTFHHLYFAGTTTPVMAVGASFSALEVVPLIVLGHEAWENWRLKTRAPWMENLKWPLMCFVAVAFWNMLGAGVFGFMINPPVSLYYIQGLNTTPVHAHAALFGVYGFLALGFTLLVLRYIRPQYALSPGLMKLAFWGLNLGLALMIFTSLLPIGLIQFHASVSEGMWYARSEAFMQQDILKTLRWGRTFGDVVFLLGALAMVVQVILGLL MGPYRRLWFTLIAVLAVTFALLGFYGGEVYRQAPPIPEEVASADGTRLFGRDDILDGQTAWQSIGGMQLGSIWGHGAYQAPDWTADWLHRELMAWLDLAARDAHGRDYGQLDAPAQAALREQLKAEYRANRADAAGGKLTLSPRRAQAVAQTEAYYDQLFSDAPALHRSRENYAMKENTLPDANRRRQMTHFFFWTAWAAGTEREGTSVTYTNNWPHEPLIGNHPSSENVMWSIISVVVLLAGIGLLIWAWAFLRGKEEDEPPAPARDPLTTFALTPSQRALGKYLFLVVALFGFQVLLGGFTAHYTVEGQKFYGIDLSQWFPYSLVRTWHIQSALFWIATGFLAAGLFLAPLINGGRDPKYQKAGVDILFWALVLVVVGSFAGNYLAIAQIMPPDLNFWLGHQGYEYVDLGRLWQIGKFAGICFWLVLMLRGIVPALRTPGGDKNLLALLTASVGAIGLFYGAGFFYGERTHLTVMEYWRWWIVHLWVEGFFEAFATTALAFIFSTLGLVSRRMATTASLASASLFMLGGIPGTFHHLYFAGTTTPVMAVGASFSALEVVPLIVLGHEAWENWRLKTRAPWMENLKWPLMCFVAVAFWNMLGAGVFGFMINPPVSLYYIQGLNTTPVHAHAALFGVYGFLALGFTLLVLRYIRPQYALSPGLMKLAFWGLNLGLALMIFTSLLPIGLIQFHASVSEGMWYARSEAFMQQDILKTLRWGRTFGDVVFLLGALAMVVQVILGLL 6qrj-a1-m1-cA_6qrj-a1-m2-cA Crystal structure of ShkA full-length in complex with AMPPNP Q9ABT2 Q9ABT2 2.65 X-RAY DIFFRACTION 91 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 463 463 VTPEQLATLSHEFRTPLNGVLGMARLLENTKLTAEQRSYVTALRESGDHLLSLVNDVLHFARLGAAAIELSLAPVDIEGLLRQVAELMSPRAHEKGIEIAWAVSSPLPTILADEGRLRQILLNFAGNAVKFTEAGGVLLTASAIDGGRVRFSVADTGPGVAPDARARIFEAFVQTDGAGLGLAIVSRLSAAMGGAVGVGGELGQGAEFWFEAPFATAAAPLRAAPLEGRNVAIASPNAIVRAATARQIEAAGGRAYAAVDIASALAGAPADAVLLIDAALSGPRGALKPPAGRRSVVLLTPEQRDRIDRLKAAGFSGYLIKPLRAASLVAQVLQAVEPAHDDRIAGAVASGARVLLAEDNPINALLARTLLEREGCIVDRVADGEQAIAAASAGVYDLILMDLRMPGLTGIEAARALRAKGVATPIAALTADRRTCLAAGMDDFLVKPLTQEALRDALKRWTT VTPEQLATLSHEFRTPLNGVLGMARLLENTKLTAEQRSYVTALRESGDHLLSLVNDVLHFARLGAAAIELSLAPVDIEGLLRQVAELMSPRAHEKGIEIAWAVSSPLPTILADEGRLRQILLNFAGNAVKFTEAGGVLLTASAIDGGRVRFSVADTGPGVAPDARARIFEAFVQTDGAGLGLAIVSRLSAAMGGAVGVGGELGQGAEFWFEAPFATAAAPLRAAPLEGRNVAIASPNAIVRAATARQIEAAGGRAYAAVDIASALAGAPADAVLLIDAALSGPRGALKPPAGRRSVVLLTPEQRDRIDRLKAAGFSGYLIKPLRAASLVAQVLQAVEPAHDDRIAGAVASGARVLLAEDNPINALLARTLLEREGCIVDRVADGEQAIAAASAGVYDLILMDLRMPGLTGIEAARALRAKGVATPIAALTADRRTCLAAGMDDFLVKPLTQEALRDALKRWTT 6qrq-a1-m1-cA_6qrq-a1-m3-cC Apo conformation of chemotaxis sensor ODP Q9S5W7 Q9S5W7 2.562 X-RAY DIFFRACTION 105 0.992 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 244 247 6qrq-a1-m4-cD_6qrq-a1-m2-cB 6qwo-a1-m1-cA_6qwo-a1-m1-cB MFENEILFDNGQHKFMFLGWQTNQYLILDGNEGILLDPGGAHVFPRVMSNVAEVVDLSSIRHIFYTHQDPDVTSGILLWLSICENAKIYISSLWVRFLPHFGIYDQKRIVPISDKGTKIKLLSGNELEILPAHFLHSTGNFVLYDPVAKILFSGDIGAAVFEKGKRYRYVDDFERHLPLMEAFHKRYMSSNAACKKWVDMVSKKKIDMIAPQHGAVFRGESVKKFLEWFRNLKCGVDLIDNLYS ENEILFDNGQHKFMFLGWEEKIVQTNQYLILDGNEGILLDPGGAHVFPRVMSNVAEVVDLSSIRHIFYTHQDPDVTSGILLWLSICENAKIYISSLWVRFLPHFGIYDQKRIVPISDKGTKIKLLSGNELEILPAHFLHSTGNFVLYDPVAKILFSGDIGAAVFEKGKRYRYVDDFERHLPLMEAFHKRYMSSNAACKKWVDMVSKKKIDMIAPQHGAVFRGESVKKFLEWFRNLKCGVDLIDNLYS 6qrq-a1-m3-cC_6qrq-a1-m4-cD Apo conformation of chemotaxis sensor ODP Q9S5W7 Q9S5W7 2.562 X-RAY DIFFRACTION 37 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 247 250 6qrq-a1-m1-cA_6qrq-a1-m2-cB ENEILFDNGQHKFMFLGWEEKIVQTNQYLILDGNEGILLDPGGAHVFPRVMSNVAEVVDLSSIRHIFYTHQDPDVTSGILLWLSICENAKIYISSLWVRFLPHFGIYDQKRIVPISDKGTKIKLLSGNELEILPAHFLHSTGNFVLYDPVAKILFSGDIGAAVFEKGKRYRYVDDFERHLPLMEAFHKRYMSSNAACKKWVDMVSKKKIDMIAPQHGAVFRGESVKKFLEWFRNLKCGVDLIDNLYS ENEILFDNGQHKFMFLGWEEKEEEIVQTNQYLILDGNEGILLDPGGAHVFPRVMSNVAEVVDLSSIRHIFYTHQDPDVTSGILLWLSICENAKIYISSLWVRFLPHFGIYDQKRIVPISDKGTKIKLLSGNELEILPAHFLHSTGNFVLYDPVAKILFSGDIGAAVFEKGKRYRYVDDFERHLPLMEAFHKRYMSSNAACKKWVDMVSKKKIDMIAPQHGAVFRGESVKKFLEWFRNLKCGVDLIDNLYS 6qrz-a1-m1-cA_6qrz-a1-m2-cA Crystal structure of R2-like ligand-binding oxidase from Sulfolobus acidocaldarius solved by 3D micro-crystal electron diffraction Q4J6V7 Q4J6V7 3.0 ELECTRON CRYSTALLOGRAPHY 145 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 274 274 IHKKFKATSVGYDWNTFPMKLYQIGKRLFWDPAKIDFSKDKEDWKKLSKDEKNYLLNIVSLFMAGEEAVAVDITPLISTMINEGRVEDVIYLEQFAFEEAKHAEAFRRFCDSLEINDDLTIFTTEYNPWYQKIFYEELPSVMWKLRVDPSPENLAVAVTTYNLYVEGVAAESGYKTFKHIFNSLNIMPGLSKTVNLIATDESRHIAYGTYLITRLIVENGESIYRKAIEQFNKLVGLPFGLTPDFTIENRKQLVNARLTVIERALKMTPEQVKS IHKKFKATSVGYDWNTFPMKLYQIGKRLFWDPAKIDFSKDKEDWKKLSKDEKNYLLNIVSLFMAGEEAVAVDITPLISTMINEGRVEDVIYLEQFAFEEAKHAEAFRRFCDSLEINDDLTIFTTEYNPWYQKIFYEELPSVMWKLRVDPSPENLAVAVTTYNLYVEGVAAESGYKTFKHIFNSLNIMPGLSKTVNLIATDESRHIAYGTYLITRLIVENGESIYRKAIEQFNKLVGLPFGLTPDFTIENRKQLVNARLTVIERALKMTPEQVKS 6qs9-a1-m1-cB_6qs9-a1-m1-cA Bovine Serum Albumin in complex with Ketoprofen P02769 P02769 2.802 X-RAY DIFFRACTION 19 0.998 9913 (Bos taurus) 9913 (Bos taurus) 576 580 HKSEIAHRFKDLGEEHFKGLVLIAFSQYLQQCPFDEHVKLVNELTEFAKTCVADESHAGCEKSLHTLFGDELCKVASLRETYGDMADCCEKQEPERNECFLSHKDDSPDLPKLKPDPNTLCDEFKADEKKFWGKYLYEIARRHPYFYAPELLYYANKYNGVFQECCQAEDKGACLLPKIETMREKVLASSARQRLRCASIQKFGERALKAWSVARLSQKFPKAEFVEVTKLVTDLTKVHKECCHGDLLECADDRADLAKYICDNQDTISSKLKECCDKPLLEKSHCIAEVEKDAIPENLPPLTADFAEDKDVCKNYQEAKDAFLGSFLYEYSRRHPEYAVSVLLRLAKEYEATLECCADDPHACYSTVFDKLKHLVDEPQNLIKQNCDQFEKLGEYGFQNALIVRYTRKVPQVSTPTLVEVSRSLGKVGTRCCTKPESERMPCTEDYLSLILNRLCVLHEKTPVSEKVTKCCTESLVNRRPCFSALTPDETYVPKAFDEKLFTFHADICTLPDTEKQIKKQTALVELLKHKPKATEEQLKTVMENFVAFVDKCCDKEACFAVEGPKLVVSTQTALA KSEIAHRFKDLGEEHFKGLVLIAFSQYLQQCPFDEHVKLVNELTEFAKTCVADESHAGCEKSLHTLFGDELCKVASLRETYGDMADCCEKQEPERNECFLSHKDDSPDLPKLKPDPNTLCDEFKADEKKFWGKYLYEIARRHPYFYAPELLYYANKYNGVFQECCQAEDKGACLLPKIETMREKVLASSARQRLRCASIQKFGERALKAWSVARLSQKFPKAEFVEVTKLVTDLTKVHKECCHGDLLECADDRADLAKYICDNQDTISSKLKECCDKPLLEKSHCIAEVEKDAIPENLPPLTADFAEDKDVCKNYQEAKDAFLGSFLYEYSRRHPEYAVSVLLRLAKEYEATLEECCAKDDPHACYSTVFDKLKHLVDEPQNLIKQNCDQFEKLGEYGFQNALIVRYTRKVPQVSTPTLVEVSRSLGKVGTRCCTKPESERMPCTEDYLSLILNRLCVLHEKTPVSEKVTKCCTESLVNRRPCFSALTPDETYVPKAFDEKLFTFHADICTLPDTEKQIKKQTALVELLKHKPKATEEQLKTVMENFVAFVDKCCAADDKEACFAVEGPKLVVSTQTALA 6qsi-a1-m1-cB_6qsi-a1-m1-cA Pseudomonas fluorescens Pf-5 thiamine diphosphate-dependent 4-hydroxybenzoylformate decarboxylase Q4KB02 Q4KB02 1.69 X-RAY DIFFRACTION 276 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 524 525 KTVHSASYDILRQQGLTTVFGNPGSNELPFLKGFPEDFRYILGLHEGAVVGMADGFALASGQPAFVNLHAAAGTGNGMGALTNAWYSHSPLVITAGQQVRSMIGVEAMLANVDAPQLPKPLVKWSAEPACAEDVPRALSQAIHMANQAPKGPVYLSIPYDDWARPAPAGVEHLARRQVATAGLPSAAQLRSLVQRLAAARNPVLVLGPDVDGSRSNHLAVQLAEKLRMPAWVAPSASRCPFPTRHPSFRGVLPAAIAGISRCLADHDLILVVGAPVFRYHQFAPGDYLPAGTELLHITCDPGEAARAPMGDALVGDIVETLQALVWALPDCDRPQPQALPPAAPVEELGGLLRPETVFDVIDELAPKDAIYVKESTSTVGAFWQRVEMREPGSYYFPAAGGLGFGLPAAVGVQLARPERRVIGVIGDGSANYGITALWTAAQYQIPVVFIILKNGTYGALRWFAGVLQVSDAPGLDVPGLDFCAIGRGYGVHSVQANTREAFAQALSEALAGDRPVLIEVPTLT KTVHSASYDILRQQGLTTVFGNPGSNELPFLKGFPEDFRYILGLHEGAVVGMADGFALASGQPAFVNLHAAAGTGNGMGALTNAWYSHSPLVITAGQQVRSMIGVEAMLANVDAPQLPKPLVKWSAEPACAEDVPRALSQAIHMANQAPKGPVYLSIPYDDWARPAPAGVEHLARRQVATAGLPSAAQLRSLVQRLAAARNPVLVLGPDVDGSRSNHLAVQLAEKLRMPAWVAPSASRCPFPTRHPSFRGVLPAAIAGISRCLADHDLILVVGAPVFRYHQFAPGDYLPAGTELLHITCDPGEAARAPMGDALVGDIVETLQALVWALPDCDRPQPQALPPAAPVEELGGLLRPETVFDVIDELAPKDAIYVKESTSTVGAFWQRVEMREPGSYYFPAAGGLGFGLPAAVGVQLARPERRVIGVIGDGSANYGITALWTAAQYQIPVVFIILKNGTYGALRWFAGVLQVSDAPGLDVPGLDFCAIGRGYGVHSVQANTREAFAQALSEALAGDRPVLIEVPTLTI 6qss-a1-m1-cD_6qss-a1-m1-cA Crystal Structure of Ignicoccus islandicus malate dehydrogenase co-crystallized with 10 mM Tb-Xo4 A0A0U3FQH7 A0A0U3FQH7 1.892 X-RAY DIFFRACTION, SOLUTION SCATTERING 69 0.997 940295 (Ignicoccus islandicus DSM 13165) 940295 (Ignicoccus islandicus DSM 13165) 299 303 6qss-a1-m1-cC_6qss-a1-m1-cB RIPYKVAVIGTGRVGATFAYTMAVVPGIARMTLVDVVPGLAKGVMEDIKHAAAVFRRSITVEAFEDVSKVENADAIVITMSRRDLANVNAQIIRDIGDKLRDRNPGALYVVVTNPVDVMTMVLDDVIGSKGTVIGTGTSLDTFRFRAAVSELLNVPIVAVDGYVVGEHGEEAFVAWSTVTIKGIHIDQYIKERNINISREQIEKYVKDVAASIIASQGATIWGPAATFQEIVVSHLANESKIIPISLPQNIEGVGRVAVSVPTIISGRLKPLVQLLNEEEQERLKRAAKAIRNVYESIL ARIPYKVAVIGTGRVGATFAYTMAVVPGIARMTLVDVVPGLAKGVMEDIKHAAAVFRRSITVEAFEDVSKVENADAIVITAGKPMSRRDLANVNAQIIRDIGDKLRDRNPGALYVVVTNPVDVMTMVLDDVIGSKGTVIGTGTSLDTFRFRAAVSELLNVPIVAVDGYVVGEHGEEAFVAWSTVTIKGIHIDQYIKERNINISREQIEKYVKDVAASIIASQGATIWGPAATFQEIVVSHLANESKIIPISLPQNIEGVGRVAVSVPTIISGRLKPLVQLLNEEEQERLKRAAKAIRNVYESI 6qss-a1-m1-cD_6qss-a1-m1-cB Crystal Structure of Ignicoccus islandicus malate dehydrogenase co-crystallized with 10 mM Tb-Xo4 A0A0U3FQH7 A0A0U3FQH7 1.892 X-RAY DIFFRACTION, SOLUTION SCATTERING 20 1.0 940295 (Ignicoccus islandicus DSM 13165) 940295 (Ignicoccus islandicus DSM 13165) 299 307 6qss-a1-m1-cA_6qss-a1-m1-cC RIPYKVAVIGTGRVGATFAYTMAVVPGIARMTLVDVVPGLAKGVMEDIKHAAAVFRRSITVEAFEDVSKVENADAIVITMSRRDLANVNAQIIRDIGDKLRDRNPGALYVVVTNPVDVMTMVLDDVIGSKGTVIGTGTSLDTFRFRAAVSELLNVPIVAVDGYVVGEHGEEAFVAWSTVTIKGIHIDQYIKERNINISREQIEKYVKDVAASIIASQGATIWGPAATFQEIVVSHLANESKIIPISLPQNIEGVGRVAVSVPTIISGRLKPLVQLLNEEEQERLKRAAKAIRNVYESIL RIPYKVAVIGTGRVGATFAYTMAVVPGIARMTLVDVVPGLAKGVMEDIKHAAAVFRRSITVEAFEDVSKVENADAIVITAGKPRKADMSRRDLANVNAQIIRDIGDKLRDRNPGALYVVVTNPVDVMTMVLDDVIGSKGTVIGTGTSLDTFRFRAAVSELLNVPIVAVDGYVVGEHGEEAFVAWSTVTIKGIHIDQYIKERNINISREQIEKYVKDVAASIIASQGATIWGPAATFQEIVVSHLANESKIIPISLPQNIEGVGRVAVSVPTIISGRLKPLVQLLNEEEQERLKRAAKAIRNVYESIL 6qss-a1-m1-cD_6qss-a1-m1-cC Crystal Structure of Ignicoccus islandicus malate dehydrogenase co-crystallized with 10 mM Tb-Xo4 A0A0U3FQH7 A0A0U3FQH7 1.892 X-RAY DIFFRACTION, SOLUTION SCATTERING 149 1.0 940295 (Ignicoccus islandicus DSM 13165) 940295 (Ignicoccus islandicus DSM 13165) 299 305 6qss-a1-m1-cA_6qss-a1-m1-cB RIPYKVAVIGTGRVGATFAYTMAVVPGIARMTLVDVVPGLAKGVMEDIKHAAAVFRRSITVEAFEDVSKVENADAIVITMSRRDLANVNAQIIRDIGDKLRDRNPGALYVVVTNPVDVMTMVLDDVIGSKGTVIGTGTSLDTFRFRAAVSELLNVPIVAVDGYVVGEHGEEAFVAWSTVTIKGIHIDQYIKERNINISREQIEKYVKDVAASIIASQGATIWGPAATFQEIVVSHLANESKIIPISLPQNIEGVGRVAVSVPTIISGRLKPLVQLLNEEEQERLKRAAKAIRNVYESIL ARIPYKVAVIGTGRVGATFAYTMAVVPGIARMTLVDVVPGLAKGVMEDIKHAAAVFRRSITVEAFEDVSKVENADAIVITAGKPRMSRRDLANVNAQIIRDIGDKLRDRNPGALYVVVTNPVDVMTMVLDDVIGSKGTVIGTGTSLDTFRFRAAVSELLNVPIVAVDGYVVGEHGEEAFVAWSTVTIKGIHIDQYIKERNINISREQIEKYVKDVAASIIASQGATIWGPAATFQEIVVSHLANESKIIPISLPQNIEGVGRVAVSVPTIISGRLKPLVQLLNEEEQERLKRAAKAIRNVYESIL 6qtl-a2-m1-cA_6qtl-a2-m1-cC Caffeine recognizing nanobody 2.25 X-RAY DIFFRACTION 47 0.992 9835 (Camelidae) 9835 (Camelidae) 119 119 6qtl-a1-m1-cH_6qtl-a1-m1-cB 6qtl-a3-m1-cD_6qtl-a3-m1-cG 6qtl-a4-m1-cE_6qtl-a4-m1-cF SQVQLVESGGGLVQAGGSLRLSCTASGRTGTIYSMAWFRQAPGKEREFLATVGWSSGITYYMDSVKGRFTISRDKGKNTVYLQMDSLKPEDTAVYYCTATRAYSVGYDYWGQGTQVTVS QVQLVESGGGLVQAGGSLRLSCTASGRTGTIYSMAWFRQAPGKEREFLATVGWSSGITYYMDSVKGRFTISRDKGKNTVYLQMDSLKPEDTAVYYCTATRAYSVGYDYWGQGTQVTVSS 6qu0-a1-m1-cA_6qu0-a1-m1-cB Structure of azoreductase from Bacillus sp. A01 A0A0B0IKH9 A0A0B0IKH9 1.8 X-RAY DIFFRACTION 82 1.0 333138 (Alkalihalobacillus okhensis) 333138 (Alkalihalobacillus okhensis) 211 211 MTKVLYITAHPHDDTQSFSMAVGKAFIDTYKEVNPDHEVETIDLYIEDIPHIDVDVFSGWGKLRSGQGFDQLSSDEKAKVGRLSELCEQFVSADKYIFVSPLWNFSFPPVLKAYIDSVAVAGKTFKYTEQGPVGLLTDKKALHIQARGGIYSEGPAAQMEMGHRYLSIIMQFFGVPSFDGLFVEGHNAMPDKAQEIKEKAVARAKDLAHTF MTKVLYITAHPHDDTQSFSMAVGKAFIDTYKEVNPDHEVETIDLYIEDIPHIDVDVFSGWGKLRSGQGFDQLSSDEKAKVGRLSELCEQFVSADKYIFVSPLWNFSFPPVLKAYIDSVAVAGKTFKYTEQGPVGLLTDKKALHIQARGGIYSEGPAAQMEMGHRYLSIIMQFFGVPSFDGLFVEGHNAMPDKAQEIKEKAVARAKDLAHTF 6qv7-a1-m1-cA_6qv7-a1-m4-cA Crystal structure of a CHAD domain from Chlorobium tepidum Q8KE09 Q8KE09 1.72 X-RAY DIFFRACTION 11 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 316 316 6qv7-a1-m2-cA_6qv7-a1-m3-cA MASKLRLQLDAHASIHENVRRLLQFTTSIMEANEEGIRKDIDSEFLHDFRVAIRRSRSILRLLNGVFDPEKTAWMLAGLRELGKRTNDLRDSDVYLLRREEYTSLLPPSLRPALDPFFSDLEADKRLHHRQFCRYLTGREYSGFMTSLKEFIAEGELPDPETAPLAAEPTGDVAAKTIRKALKKVLVHGRRTGSETSDAELHELRIDCKKLRYLLEFFASLFPPKATAQVLRQMKTLQDNLGTFVDLTVQMEFLQSRLETIPADRGGISEAAAIGGLLTTLYRKREKVREHFHEIFSGFDSNETGELFDELLTGLA MASKLRLQLDAHASIHENVRRLLQFTTSIMEANEEGIRKDIDSEFLHDFRVAIRRSRSILRLLNGVFDPEKTAWMLAGLRELGKRTNDLRDSDVYLLRREEYTSLLPPSLRPALDPFFSDLEADKRLHHRQFCRYLTGREYSGFMTSLKEFIAEGELPDPETAPLAAEPTGDVAAKTIRKALKKVLVHGRRTGSETSDAELHELRIDCKKLRYLLEFFASLFPPKATAQVLRQMKTLQDNLGTFVDLTVQMEFLQSRLETIPADRGGISEAAAIGGLLTTLYRKREKVREHFHEIFSGFDSNETGELFDELLTGLA 6qv7-a1-m2-cA_6qv7-a1-m4-cA Crystal structure of a CHAD domain from Chlorobium tepidum Q8KE09 Q8KE09 1.72 X-RAY DIFFRACTION 91 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 316 316 6qv7-a1-m1-cA_6qv7-a1-m3-cA 6qva-a1-m1-cA_6qva-a1-m2-cA MASKLRLQLDAHASIHENVRRLLQFTTSIMEANEEGIRKDIDSEFLHDFRVAIRRSRSILRLLNGVFDPEKTAWMLAGLRELGKRTNDLRDSDVYLLRREEYTSLLPPSLRPALDPFFSDLEADKRLHHRQFCRYLTGREYSGFMTSLKEFIAEGELPDPETAPLAAEPTGDVAAKTIRKALKKVLVHGRRTGSETSDAELHELRIDCKKLRYLLEFFASLFPPKATAQVLRQMKTLQDNLGTFVDLTVQMEFLQSRLETIPADRGGISEAAAIGGLLTTLYRKREKVREHFHEIFSGFDSNETGELFDELLTGLA MASKLRLQLDAHASIHENVRRLLQFTTSIMEANEEGIRKDIDSEFLHDFRVAIRRSRSILRLLNGVFDPEKTAWMLAGLRELGKRTNDLRDSDVYLLRREEYTSLLPPSLRPALDPFFSDLEADKRLHHRQFCRYLTGREYSGFMTSLKEFIAEGELPDPETAPLAAEPTGDVAAKTIRKALKKVLVHGRRTGSETSDAELHELRIDCKKLRYLLEFFASLFPPKATAQVLRQMKTLQDNLGTFVDLTVQMEFLQSRLETIPADRGGISEAAAIGGLLTTLYRKREKVREHFHEIFSGFDSNETGELFDELLTGLA 6qv7-a1-m3-cA_6qv7-a1-m4-cA Crystal structure of a CHAD domain from Chlorobium tepidum Q8KE09 Q8KE09 1.72 X-RAY DIFFRACTION 59 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 316 316 6qv7-a1-m1-cA_6qv7-a1-m2-cA MASKLRLQLDAHASIHENVRRLLQFTTSIMEANEEGIRKDIDSEFLHDFRVAIRRSRSILRLLNGVFDPEKTAWMLAGLRELGKRTNDLRDSDVYLLRREEYTSLLPPSLRPALDPFFSDLEADKRLHHRQFCRYLTGREYSGFMTSLKEFIAEGELPDPETAPLAAEPTGDVAAKTIRKALKKVLVHGRRTGSETSDAELHELRIDCKKLRYLLEFFASLFPPKATAQVLRQMKTLQDNLGTFVDLTVQMEFLQSRLETIPADRGGISEAAAIGGLLTTLYRKREKVREHFHEIFSGFDSNETGELFDELLTGLA MASKLRLQLDAHASIHENVRRLLQFTTSIMEANEEGIRKDIDSEFLHDFRVAIRRSRSILRLLNGVFDPEKTAWMLAGLRELGKRTNDLRDSDVYLLRREEYTSLLPPSLRPALDPFFSDLEADKRLHHRQFCRYLTGREYSGFMTSLKEFIAEGELPDPETAPLAAEPTGDVAAKTIRKALKKVLVHGRRTGSETSDAELHELRIDCKKLRYLLEFFASLFPPKATAQVLRQMKTLQDNLGTFVDLTVQMEFLQSRLETIPADRGGISEAAAIGGLLTTLYRKREKVREHFHEIFSGFDSNETGELFDELLTGLA 6qv8-a1-m1-cA_6qv8-a1-m1-cB Staphylococcus aureus superoxide dismutase SodM double mutant Q2G261 Q2G261 1.5 X-RAY DIFFRACTION 46 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 198 198 5n57-a1-m1-cA_5n57-a1-m1-cB 6ex4-a1-m1-cA_6ex4-a1-m1-cB 6ex5-a1-m1-cA_6ex5-a1-m1-cB AFKLPNLPYAYDALEPYIDQRTMEFHHDKHHNTYVTKLNATVEGTELEHQSLADMIANLDKVPEAMRMSVRNNGGGHFNHSLFWEILSPNSEEKGGVIDDIKAQWGTLDEFKNEFANKATTLFGSGWTWLVVNDGKLEIVTTPNQDNPLTEGKTPILGLDVWEHAYYLKYQNKRPDYMTAFWNIVNWKKVDELYQAAK AFKLPNLPYAYDALEPYIDQRTMEFHHDKHHNTYVTKLNATVEGTELEHQSLADMIANLDKVPEAMRMSVRNNGGGHFNHSLFWEILSPNSEEKGGVIDDIKAQWGTLDEFKNEFANKATTLFGSGWTWLVVNDGKLEIVTTPNQDNPLTEGKTPILGLDVWEHAYYLKYQNKRPDYMTAFWNIVNWKKVDELYQAAK 6qvc-a1-m1-cA_6qvc-a1-m1-cB CryoEM structure of the human ClC-1 chloride channel, CBS state 1 P35523 P35523 4.0 ELECTRON MICROSCOPY 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 599 599 6coy-a1-m1-cA_6coy-a1-m1-cB 6qv6-a1-m1-cA_6qv6-a1-m1-cB 6qvb-a1-m1-cB_6qvb-a1-m1-cA 6qvd-a1-m1-cA_6qvd-a1-m1-cB 6qvu-a1-m1-cA_6qvu-a1-m1-cB GEDGIFLVLLGLLMALVSWSMDYVSAKSLQAYKWSYAQMQPSLPLQFLVWVTFPLVLILFSALFCHLISPQAVGSGIPEMKTILRGVVLKEYLTMKAFVAKVVALTAGLGSGIPVGKEGPFVHIASICAAVLSKFMSVFYYSDILTVGCAVGVGCCFGTPLGGVLFSIEVTSTYFAVRNYWRGFFAATFSAFVFRVLAVWNKDAVTITALFRTNFRMDFPFDLKELPAFAAIGICCGLLGAVFVYLHRQVMLGVRKHKALSQFLAKHRLLYPGIVTFVIASFTFPPGMGQFMAGELMPREAISTLFDNNTWVKHAGDPESLGQSAVWIHPRVNVVIIIFLFFVMKFWMSIVATTMPIPCGGFMPVFVLGAAFGRLVGEIMAMLFPDGILFDDIIYKILPGGYAVIGAAALTGAVSHTVSTAVICFELTGQIAHILPMMVAVILANMVAQSLQPSLYDSIIQVKKLPYLPWNQLSKYTIFVEDIMVRDVKFVSASYTYGELRTLLQTTTVKTLPLVDSKDSMILLGSVERSELQALLQRHLCPERSCCIDQSPFQLVEQTTLHKTHTLFSLLGLHLAYVTSMGKLRGVLALEELQKAIEG GEDGIFLVLLGLLMALVSWSMDYVSAKSLQAYKWSYAQMQPSLPLQFLVWVTFPLVLILFSALFCHLISPQAVGSGIPEMKTILRGVVLKEYLTMKAFVAKVVALTAGLGSGIPVGKEGPFVHIASICAAVLSKFMSVFYYSDILTVGCAVGVGCCFGTPLGGVLFSIEVTSTYFAVRNYWRGFFAATFSAFVFRVLAVWNKDAVTITALFRTNFRMDFPFDLKELPAFAAIGICCGLLGAVFVYLHRQVMLGVRKHKALSQFLAKHRLLYPGIVTFVIASFTFPPGMGQFMAGELMPREAISTLFDNNTWVKHAGDPESLGQSAVWIHPRVNVVIIIFLFFVMKFWMSIVATTMPIPCGGFMPVFVLGAAFGRLVGEIMAMLFPDGILFDDIIYKILPGGYAVIGAAALTGAVSHTVSTAVICFELTGQIAHILPMMVAVILANMVAQSLQPSLYDSIIQVKKLPYLPWNQLSKYTIFVEDIMVRDVKFVSASYTYGELRTLLQTTTVKTLPLVDSKDSMILLGSVERSELQALLQRHLCPERSCCIDQSPFQLVEQTTLHKTHTLFSLLGLHLAYVTSMGKLRGVLALEELQKAIEG 6qvf-a2-m1-cC_6qvf-a2-m1-cD TT_C0855 competence pilin from Thermus thermophilus HB27 Q8KPZ3 Q8KPZ3 1.44 X-RAY DIFFRACTION 67 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 170 173 6qvf-a1-m1-cA_6qvf-a1-m1-cB ASAQARFATDAKAAAVQVLERRSAEVLKSEIVPALSPYKDAPLDPDNPSGNWRSFYFVDYYFSCPTRVAPSPKQRGGSVANLRPGLTCSGTETIFGIPVAWDIRGENGILGEGVVTVVVTATHPRGPKVTLGRRVTCYDVYPSPTQDQPAPCPPPGGGRPGSGSWSHPQF LRASAQARFATDAKAAAVQVLERRSAEVLKSEIVPALSPYKDAPLDPDNPSGNWRSFYFVDYYFSCPTRVAPSPKQRGGSVANLRPGLTCSGTETIFGIPVAWDIRGENGILGEGVVTVVVTATHPRGPKVTLGRRVTCYDVYPSPTQDQPAPCPPPGGGRPGSGSWSHPQFE 6qvp-a3-m1-cC_6qvp-a3-m1-cD Crystal structure of the peptidoglycan-binding domain of SiiA from Salmonella enterica H9L4G5 H9L4G5 1.9 X-RAY DIFFRACTION 34 0.98 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 98 99 6qvp-a2-m1-cF_6qvp-a2-m1-cE KTDITSTKNELVITYHGRLRSFSEEDTYKIKAWLEDKINSNLLIEVIPQADISFSDSLRLGYERGIILKEIKKIYPDVVIDSVNSAASSTTSKAIITT KTDITSTKNELVITYHGRLRSFSEEDTYKIKAWLEDKINSNLLIEVIPQASFSDSLRLGYERGIILKEIKKIYPDVVIDSVNSAASSTTSKAIITTINK 6qx4-a1-m1-cA_6qx4-a1-m1-cB Structure of the Bacillus anthracis Sap S-layer assembly domain P49051 P49051 3.27 X-RAY DIFFRACTION 14 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 585 593 SAKAVTTQKVEVKFSKAVEKLTKEDIKVTNKANNDKVLVKEVTLSEDKKSATVELYSNLAAKQTYTVDVNKVGKTEVAVGSLEAKTIEMADQTVVADEPTALQFTVKDENGTEVVSPEGIEFVTPAAEKINAKGEITLAKGTSTTVKAVYKKDGKVVAESKEVKVSAEGAAVASISNWTVAEQNKADFTSKDFKQNNKVYEGDNAYVQVELKDQFNAVTTGKVEYESLNTEVAVVDKATGKVTVLSAGKAPVKVTVKDSKGKELVSKTVEIEAFAQKAMKEIKLEKTNVALSTKDVTDLKVKAPVLDQYGKEFTAPVTVKVLDKDGKELKEQKLEAKYVNKELVLNAAGQEAGNYTVVLTAKSGEKEAKATLALELKAPGAFSKFEVRGLEKELDKYVTEENQKNAMTVSVLPVDANGLVLKGAEAAELKVTTTNDATDAQVTVQNNSVITVGQGAKAGETYKVTVVLKLITTHSFKVVDTAPTAKGLAVEFTSTSLKEVAPNADLKAALLNILSVDGVPATTAKATVSNVEFVSADTNVVAENGTVGAKGATSIYVKNLTVVKDGKEQKVEFDKAVQVAVSIKE SAKAVTTQKVEVKFSKAVEKLTKEDIKVTNKANNDKVLVKEVTLSEDKKSATVELYSNLAAKQTYTVDVNKVGKTEVAVGSLEAKTIEMADQTVVADEPTALQFTVKDENGTEVVSPEGIEFVTPAAEKINAKGEITLAKGTSTTVKAVYKKDGKVVAESKEVKVSAEGAAVASISNWTVAEQNKADFTSKDFKQNNKVYEGDNAYVQVELKDQFNAVTTGKVEYESLNTEVAVVDKATGKVTVLSAGKAPVKVTVKDSKGKELVSKTVEIEAFAQKAMKEIKLEKTNVALSTKDVTDLKVKAPVLDQYGKEFTAPVTVKVLDKDGKELKEQKLEAKYVNKELVLNAAGQEAGNYTVVLTAKSGEKEAKATLALELKAPGAFSKFEVRGLEKELDKYVTEENQKNAMTVSVLPVDANGLVLKGAEAAELKVTTTNKEGKEVDATDAQVTVQNNSVITVGQGAKAGETYKVTVVLDGKLITTHSFKVVDTAPTAKGLAVEFTSTSLKEVAPNADLKAALLNILSVDGVPATTAKATVSNVEFVSADTNVVAENGTVGAKGATSIYVKNLTVVKDGKEQKVEFDKAVQVAVSIKE 6qxe-a1-m1-cM_6qxe-a1-m1-cO Influenza A virus (A/NT/60/1968) polymerase dimer of hetermotrimer in complex with 3'5' cRNA promoter and Nb8205 4.15 ELECTRON MICROSCOPY 19 1.0 384505 (Influenza A virus (A/nt/60/1968(H3N2))) 384505 (Influenza A virus (A/nt/60/1968(H3N2))) 121 121 QVQLQESGGGMVQPGGSLRLSCLASGFTFSNYAMTWVRQAPGKGPEWVSMVSNNGADTTYTDSVKGRFTISRDNAKNTLYLRMNNVKPEDSAVYYCAKRRYGGIWTGQPTDYDYLGQGTVT QVQLQESGGGMVQPGGSLRLSCLASGFTFSNYAMTWVRQAPGKGPEWVSMVSNNGADTTYTDSVKGRFTISRDNAKNTLYLRMNNVKPEDSAVYYCAKRRYGGIWTGQPTDYDYLGQGTVT 6qxt-a1-m1-cw_6qxt-a1-m1-cx Cas1-Cas2-Csn2-DNA dimer complex from the Type II-A CRISPR-Cas system G3ECR3 G3ECR3 8.9 ELECTRON MICROSCOPY 104 1.0 1308 (Streptococcus thermophilus) 1308 (Streptococcus thermophilus) 103 103 6qxt-a1-m1-ck_6qxt-a1-m1-cn 6qxt-a1-m1-cK_6qxt-a1-m1-cN 6qxt-a1-m1-cq_6qxt-a1-m1-ct 6qxt-a1-m1-cQ_6qxt-a1-m1-cT 6qxt-a1-m1-cW_6qxt-a1-m1-cX MRMILMFDMPTDTAEERKAYRKFRKFLLSEGFIMHQFSVYSKLLLNHTANTAMVGRLKANNPKKGNITILTVTEKQFARMIYLYGNTSIANSEERLVFLGDNY MRMILMFDMPTDTAEERKAYRKFRKFLLSEGFIMHQFSVYSKLLLNHTANTAMVGRLKANNPKKGNITILTVTEKQFARMIYLYGNTSIANSEERLVFLGDNY 6qzg-a1-m1-cA_6qzg-a1-m1-cB Beta-glucose 1,6-bisphosphonate bound to wild type beta-phosphoglucomutse in an open conformation. P71447 P71447 2.47 X-RAY DIFFRACTION 32 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 219 219 MFKAVLFDLDGVITDTAEYHFRAWKALAEEIGINGVDRQFNEQLKGVSREDSLQKILDLADKKVSAEEFKELAKRKNDNYVKMIQDVSPADVYPGILQLLKDLRSNKIKIALASASKNGPFLLERMNLTGYFDAIADPAEVAASKPAPDIFIAAAHAVGVAPSESIGLEDSQAGIQAIKDSGALPIGVGRPEDLGDDIVIVPDTSHYTLEFLKEVWLQK MFKAVLFDLDGVITDTAEYHFRAWKALAEEIGINGVDRQFNEQLKGVSREDSLQKILDLADKKVSAEEFKELAKRKNDNYVKMIQDVSPADVYPGILQLLKDLRSNKIKIALASASKNGPFLLERMNLTGYFDAIADPAEVAASKPAPDIFIAAAHAVGVAPSESIGLEDSQAGIQAIKDSGALPIGVGRPEDLGDDIVIVPDTSHYTLEFLKEVWLQK 6qzo-a4-m1-cG_6qzo-a4-m1-cH Crystal structure of DyP-type peroxidase from Cellulomonas bogoriensis A0A0A0BZU2 A0A0A0BZU2 2.4 X-RAY DIFFRACTION 161 1.0 1386082 (Cellulomonas bogoriensis 69B4 = DSM 16987) 1386082 (Cellulomonas bogoriensis 69B4 = DSM 16987) 361 361 6qzo-a1-m1-cA_6qzo-a1-m1-cB 6qzo-a2-m1-cC_6qzo-a2-m1-cD 6qzo-a3-m1-cE_6qzo-a3-m1-cF AGPGDVVVPCHGEHQAGIVTPPPSFIALVALDLASTSDRASVERLLRVWTVDIERLTTGRPGLADSEPELALVPAALTVTVGFGPGLLTAAGLRHRAPAWLHPLPPFGIDRLDPAWCDGDVVLQVCADDRTTLAHAVRVLTKEAQGLASVRWVQRGFRRSPGISEPDGTSMRNLMGQVEGTANLDPRTDPDLLWHRDGEPGWLTGGTSMVVRRIAMNLDTWDELSRGAREATIGRTLRTGAPLTGRAEHDEPDLEALDDHGRPVIDLEAHIRRARPTQREETFLRRAYNYDEAPPPGRASDSGLLFVTYQRDVDAQFTPVQRRLDAADLLNEWTFPVGSAVFAVPGGWSAGEYVGQRLLEG AGPGDVVVPCHGEHQAGIVTPPPSFIALVALDLASTSDRASVERLLRVWTVDIERLTTGRPGLADSEPELALVPAALTVTVGFGPGLLTAAGLRHRAPAWLHPLPPFGIDRLDPAWCDGDVVLQVCADDRTTLAHAVRVLTKEAQGLASVRWVQRGFRRSPGISEPDGTSMRNLMGQVEGTANLDPRTDPDLLWHRDGEPGWLTGGTSMVVRRIAMNLDTWDELSRGAREATIGRTLRTGAPLTGRAEHDEPDLEALDDHGRPVIDLEAHIRRARPTQREETFLRRAYNYDEAPPPGRASDSGLLFVTYQRDVDAQFTPVQRRLDAADLLNEWTFPVGSAVFAVPGGWSAGEYVGQRLLEG 6r0x-a1-m1-cF_6r0x-a1-m1-cE The extracellular domain of G6b-B in complex with Fab fragment and DP12 heparin oligosaccharide. O95866 O95866 3.13 X-RAY DIFFRACTION 33 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 98 99 PGASLDGRPGDRVDLSCGGVRWVWAPSFPACKGLSKGRRPILWAAAAGAPTVPPLQPFVGRIRRLELLLSAGDSGTFFCKGRHEDESRTVLHVLGDRT GASLDGRPGDRVDLSCGGVRWVWAPSFPACKGLSKGRRPILWAAAAGAPTVPPLQPFVGRIRRLELLLSAGDSGTFFCKGRHEDESRTVLHVLGDRTYC 6r16-a1-m1-cG_6r16-a1-m1-cJ Crystal structure of the SUN1-KASH4 6:6 complex Q8N205 Q8N205 2.75 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 27 GPCCSHARIPRTPYLVLSYVNGLPPV GGPCCSHARIPRTPYLVLSYVNGLPPV 6r1j-a1-m1-cD_6r1j-a1-m2-cJ Structure of the soluble AhlC triple head mutant of the tripartite alpha-pore forming toxin, AHL, from Aeromonas hydrophila. A0KLE2 A0KLE2 1.92 X-RAY DIFFRACTION 110 1.0 1419584 (Aeromonas hydrophila J-1) 1419584 (Aeromonas hydrophila J-1) 251 264 6r1j-a1-m2-cD_6r1j-a1-m1-cJ GILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQLANTNPEALKAFVDLVQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLTGLGTTGLPGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIPELARLFFTAALTEVRTLQVDASHH NGILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQLANTGPFNPEALKAFVDLVQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLTGLGTTGLPGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIANVARDDPELARLFFTAALTEVRTLQVDASHHHH 6r1j-a1-m2-cJ_6r1j-a1-m1-cJ Structure of the soluble AhlC triple head mutant of the tripartite alpha-pore forming toxin, AHL, from Aeromonas hydrophila. A0KLE2 A0KLE2 1.92 X-RAY DIFFRACTION 38 1.0 1419584 (Aeromonas hydrophila J-1) 1419584 (Aeromonas hydrophila J-1) 264 264 6h2e-a1-m1-cP_6h2e-a1-m2-cP 6h2e-a1-m1-cQ_6h2e-a1-m2-cQ 6r1j-a1-m1-cD_6r1j-a1-m2-cD NGILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQLANTGPFNPEALKAFVDLVQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLTGLGTTGLPGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIANVARDDPELARLFFTAALTEVRTLQVDASHHHH NGILSQSIANMQQAEATIQSFSGLPQNAVNIQQNVGEVVAALLPQVQTMQQQVLAFAARLELQLTQQLANTGPFNPEALKAFVDLVQQEIAPIQTLTAQTLTASQSANDRITQDNIALQRIGVELQATIAGLQSNLDGARQELDSLNKKKLYLTGLGTTGLPGLIALAVTLTQTQNKVSSLEGQVNQIEGQIQRQQGFLGQTTAFSQQFGSLIDRVSKVGNTISLLGGDIANVARDDPELARLFFTAALTEVRTLQVDASHHHH 6r1l-a1-m1-cA_6r1l-a1-m2-cA Crystal structure of LmrR with bound copper phenanthroline A2RI36 A2RI36 2.095 X-RAY DIFFRACTION 69 1.0 416870 (Lactococcus cremoris subsp. cremoris MG1363) 416870 (Lactococcus cremoris subsp. cremoris MG1363) 100 100 3f8b-a1-m1-cA_3f8b-a1-m2-cA 3f8b-a2-m1-cB_3f8b-a2-m3-cB 3f8c-a1-m1-cA_3f8c-a1-m2-cA 3f8f-a1-m1-cB_3f8f-a1-m1-cA 4zzd-a1-m1-cA_4zzd-a1-m2-cA 6do0-a1-m1-cA_6do0-a1-m1-cB 6fuu-a1-m1-cA_6fuu-a1-m2-cA 6i8n-a1-m1-cA_6i8n-a1-m1-cB 7q34-a2-m1-cD_7q34-a2-m1-cC 7qz5-a1-m1-cB_7qz5-a1-m1-cA 7qz6-a1-m1-cA_7qz6-a1-m1-cB 7qz7-a1-m1-cA_7qz7-a1-m1-cB 7qz8-a1-m1-cB_7qz8-a1-m1-cA 7qz9-a1-m1-cB_7qz9-a1-m1-cA PKEMLRAQTNVILLNVLKQGDNYVYGIIKQVKEASNGEMELNEATLYTIFKRLEKDGIISSYWGDGRRKYYRLTEIGHENMRLAFESWSRVDKIIENLEA PKEMLRAQTNVILLNVLKQGDNYVYGIIKQVKEASNGEMELNEATLYTIFKRLEKDGIISSYWGDGRRKYYRLTEIGHENMRLAFESWSRVDKIIENLEA 6r1n-a1-m1-cA_6r1n-a1-m2-cA Crystal structure of S. aureus seryl-tRNA synthetase complexed to seryl sulfamoyl adenosine P95689 P95689 2.03 X-RAY DIFFRACTION 156 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 420 420 MLDIRLFRNEPDTVKSKIELRGDDPKVVDEILELDEQRRKLISATEEMKARRNKVSEEIALKKRNKADDVIAEMRTLGDDIKEKDSQLNEIDNKMTGILCRIPNLISDDVPQGESDEDNVEVKKWGTPREFSFEPKAHWDIVEELKMADFDRAAKVSGARFVYLTNEGAQLERALMNYMITKHTTQHGYTEMMVPQLVNADTMYGTGQLPKFEEDLFKVEKEGLYTIPTAEVPLTNFYRNEIIQPGVLPEKFTGQSACFRSEADTRGLIRLHQFDKVEMVRFEQPEDSWNALEEMTTNAEAILEELGLPYRRVILCTGDIGFSASKTYDLEVWLPSYNDYKEISSCSNCTDFQARRANIRFKRDKAAKPELAHTLNGSGLAVGRTFAAIVENYQNEDGTVTIPEALVPFMGGKTQISKPV MLDIRLFRNEPDTVKSKIELRGDDPKVVDEILELDEQRRKLISATEEMKARRNKVSEEIALKKRNKADDVIAEMRTLGDDIKEKDSQLNEIDNKMTGILCRIPNLISDDVPQGESDEDNVEVKKWGTPREFSFEPKAHWDIVEELKMADFDRAAKVSGARFVYLTNEGAQLERALMNYMITKHTTQHGYTEMMVPQLVNADTMYGTGQLPKFEEDLFKVEKEGLYTIPTAEVPLTNFYRNEIIQPGVLPEKFTGQSACFRSEADTRGLIRLHQFDKVEMVRFEQPEDSWNALEEMTTNAEAILEELGLPYRRVILCTGDIGFSASKTYDLEVWLPSYNDYKEISSCSNCTDFQARRANIRFKRDKAAKPELAHTLNGSGLAVGRTFAAIVENYQNEDGTVTIPEALVPFMGGKTQISKPV 6r26-a1-m1-cA_6r26-a1-m2-cA The photosensory core module (PAS-GAF-PHY) of the bacterial phytochrome Agp1 (AtBphP1) locked in a Pr-like state Q7CY45 Q7CY45 3.11 X-RAY DIFFRACTION 34 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 469 469 6r27-a1-m1-cB_6r27-a1-m1-cA 6r27-a2-m1-cD_6r27-a2-m1-cC SCGAEPIHIPGAIQEHGALLVLSAREFSVVQASDNLANYIGVDLPIGAVATEANLPFISVLSAWYSGEESNFRYAWAEKKLDVSAHRSGTLVILEVEKAGVGESAEKLGELTSLAKYLNSAPSLEDALFRTAQLVSSISGHDRTLIYDFGLDWSGHVVAEAGSGALPSYLGLRFPAGDIPPQARQLYTINRLRIPDVDYKPVPIRPEVNAETGAVLDSFSQLRSVSPVHLEYRNGTAASSVSIVVNGALWGLIACHHATPHSVSLAVREACDFAAQLLSRIAEQSSQDASRRVELGHIQARLLKGAAAEKWVDGLLGGEGEREDLLKQVGADGAALVLGDDYELVGNTPSREQVEELILWLGEREIADVFATDNLAGNYPTAAAYASVASGIIARVSELHGSWLIWFRPEVIKTVRWGGDPHKTVIHPRKSFEIWKEQLRNTSFPWSEPELAAARELRGAIIGIVLRKT SCGAEPIHIPGAIQEHGALLVLSAREFSVVQASDNLANYIGVDLPIGAVATEANLPFISVLSAWYSGEESNFRYAWAEKKLDVSAHRSGTLVILEVEKAGVGESAEKLGELTSLAKYLNSAPSLEDALFRTAQLVSSISGHDRTLIYDFGLDWSGHVVAEAGSGALPSYLGLRFPAGDIPPQARQLYTINRLRIPDVDYKPVPIRPEVNAETGAVLDSFSQLRSVSPVHLEYRNGTAASSVSIVVNGALWGLIACHHATPHSVSLAVREACDFAAQLLSRIAEQSSQDASRRVELGHIQARLLKGAAAEKWVDGLLGGEGEREDLLKQVGADGAALVLGDDYELVGNTPSREQVEELILWLGEREIADVFATDNLAGNYPTAAAYASVASGIIARVSELHGSWLIWFRPEVIKTVRWGGDPHKTVIHPRKSFEIWKEQLRNTSFPWSEPELAAARELRGAIIGIVLRKT 6r2d-a1-m1-cB_6r2d-a1-m1-cA Crystal structure of the SucA domain of Mycobacterium smegmatis KGD after soaking with succinylphosphonate phosphonoethyl ester, followed by temperature increase A0R2B1 A0R2B1 2.3 X-RAY DIFFRACTION 347 0.998 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 812 814 2xt6-a1-m1-cB_2xt6-a1-m1-cA 2xta-a1-m1-cB_2xta-a1-m1-cA 2xta-a2-m1-cC_2xta-a2-m1-cD 2y0p-a1-m1-cB_2y0p-a1-m1-cA 2y0p-a2-m1-cD_2y0p-a2-m1-cC 2yic-a1-m1-cB_2yic-a1-m1-cA 2yic-a2-m1-cC_2yic-a2-m1-cD 2yid-a1-m1-cB_2yid-a1-m1-cA 2yid-a2-m1-cC_2yid-a2-m1-cD 3zhq-a1-m1-cB_3zhq-a1-m1-cA 3zhq-a2-m1-cD_3zhq-a2-m1-cC 3zhr-a1-m1-cA_3zhr-a1-m1-cB 3zhr-a2-m1-cC_3zhr-a2-m1-cD 3zhs-a1-m1-cB_3zhs-a1-m1-cA 3zhs-a2-m1-cC_3zhs-a2-m1-cD 3zht-a1-m1-cB_3zht-a1-m1-cA 3zht-a2-m1-cD_3zht-a2-m1-cC 3zhu-a1-m1-cC_3zhu-a1-m1-cD 3zhu-a2-m1-cB_3zhu-a2-m1-cA 3zhv-a1-m1-cC_3zhv-a1-m1-cD 3zhv-a2-m1-cB_3zhv-a2-m1-cA 6i2q-a1-m1-cA_6i2q-a1-m2-cA 6i2r-a1-m1-cC_6i2r-a1-m1-cA 6i2s-a1-m1-cA_6i2s-a1-m2-cA 6r29-a1-m1-cA_6r29-a1-m1-cB 6r2a-a1-m1-cA_6r2a-a1-m1-cB 6r2b-a1-m1-cB_6r2b-a1-m1-cA 6r2b-a2-m1-cD_6r2b-a2-m1-cC 6r2c-a1-m1-cA_6r2c-a1-m1-cB 6r2c-a2-m1-cD_6r2c-a2-m1-cC 6r2d-a2-m1-cC_6r2d-a2-m1-cD DKNARVIELIAAYRNRGHLMADIDPLRLDNTRFLWDLDREFKQRKKLRDILSVLRDAYCRHVGVEYTHILEPEQQRWIQERVETKHDKPTVAEQKYILSKLNAAEAFETFLQTKYVGQKRFSLEGAETVIPMMDAVIDQCAEHGLDEVVIAMPHRGRLNVLANIVGKPYSQIFSEFDVKYHLGATGTYIQMFGDNDIEVSLTANPSHLEAVDPVLEGLVRAKQDLLDTGEEGSDNRFSVVPLMLHGDAAFAGQGVVAETLNLALLRGYRTGGTIHIVVNNQIGFTTAPTDSRSSEYCTDVAKMIGAPIFHVNGDDPEACAWVARLAVDFRQAFKKDVVIDMLCYRRRGHNEGDDPSMTQPYMYDVIDTKRGSRKAYTEALIGRGDISMKEAEDALRDYQGQLERVFNEVRELEKHLATAVDKAMLQRIGDAHLALPEGFTVHPRVRPVLEKRREMAYEGRIDWAFAELLALGSLIAEGKLVRLSGQDTQRGTFTQRHAVIVDRKTGEEFTPLQLLATNPDGTPTGGKFLVYNSALSEFAAVGFEYGYSVGNPDAMVLWEAQFGDFVNGAQSIIDEFISSGEAKWGQLSDVVLLLPHGHEGQGPDHTSGRIERFLQLWAEGSMTIAMPSTPANYFHLLRRHGKDGIQRPLIVFTPKSMLRNKAAVSDIRDFTESKFRSVLEEPMYTDGEGDRNKVTRLLLTSGKIYYELAARKAKENREDVAIVRIEQLAPLPRRRLAETLDRYPNVKEKFWVQEEPANQGAWPSFGLTLPEILPDHFTGLKRISRRAMSAPSSGSSKVHAVEQQEILDTAFG KNARVIELIAAYRNRGHLMADIDPLRLDNTRFRSLTLWDLDREFQRKKLRDILSVLRDAYCRHVGVEYTHILEPEQQRWIQERVETKHDKPTVAEQKYILSKLNAAEAFETFLQTKYVGQKRFSLEGAETVIPMMDAVIDQCAEHGLDEVVIAMPHRGRLNVLANIVGKPYSQIFSEFDVKYHLGATGTYIQMFGDNDIEVSLTANPSHLEAVDPVLEGLVRAKQDLLDTGEEGSDNRFSVVPLMLHGDAAFAGQGVVAETLNLALLRGYRTGGTIHIVVNNQIGFTTAPTDSRSSEYCTDVAKMIGAPIFHVNGDDPEACAWVARLAVDFRQAFKKDVVIDMLCYRRRGHNEGDDPSMTQPYMYDVIDTKRGSRKAYTEALIGRGDISMKEAEDALRDYQGQLERVFNEVRELEKHLATAVDKAMLQRIGDAHLALPEGFTVHPRVRPVLEKRREMAYEGRIDWAFAELLALGSLIAEGKLVRLSGQDTQRGTFTQRHAVIVDRKTGEEFTPLQLLATNPDGTPTGGKFLVYNSALSEFAAVGFEYGYSVGNPDAMVLWEAQFGDFVNGAQSIIDEFISSGEAKWGQLSDVVLLLPHGHEGQGPDHTSGRIERFLQLWAEGSMTIAMPSTPANYFHLLRRHGKDGIQRPLIVFTPKSMLRNKAAVSDIRDFTESKFRSVLEEPMYTDGEGDRNKVTRLLLTSGKIYYELAARKAKENREDVAIVRIEQLAPLPRRRLAETLDRYPNVKEKFWVQEEPANQGAWPSFGLTLPEILPDHFTGLKRISRRAMSAPSSGSSKVHAVEQQEILDTAFG 6r2i-a1-m3-cB_6r2i-a1-m6-cB Crystal structure of the SUN1-KASH5 6:6 complex Q8N6L0 Q8N6L0 1.541 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 19 6r2i-a1-m1-cB_6r2i-a1-m5-cB 6r2i-a1-m2-cB_6r2i-a1-m4-cB SPPPTWPHLQLCYLQPPPV SPPPTWPHLQLCYLQPPPV 6r45-a1-m1-cB_6r45-a1-m1-cA Crystal structure of eukaryotic O-GlcNAcase HAT-like domain A0A0D5X2Y8 A0A0D5X2Y8 1.784 X-RAY DIFFRACTION 68 1.0 10228 (Trichoplax adhaerens) 10228 (Trichoplax adhaerens) 201 208 SDAYVIRPFMPSDEETLYDLCLKSCGDEIYKREPRIIGDRDLGAYIYLHPEYIYVLEDDRDKICGYLCGALDSKQFYERYESEWLTQIRDRHPQPENDIASWTPEEIVANSFYNFTPPTDVSVLYLSHLEARFDSSVPEKVIKRIIRFILEQLKAKGSYGASMLIDSWRTNLRRIFTSMGFVDLQEYSWMSEQKCMIAIKL KNSDAYVIRPFMPSDEETLYDLCLKSCIENSNGDEIYKREPRIIGDRDLGAYIYLHPEYIYVLEDDRDKICGYLCGALDSKQFYERYESEWLTQIRDRHPQPENDIASWTPEEIVANSFYNFTPPTDVSVLYLSHLEARFDSSVPEKVIKRIIRFILEQLKAKGSYGASMLIDSWRTNLRRIFTSMGFVDLQEYSWMSEQKCMIAIKL 6r5j-a1-m1-cA_6r5j-a1-m1-cC New MAX Effector from Magnaporthe oryzae L7J9X7 L7J9X7 1.38 X-RAY DIFFRACTION 60 1.0 1143193 (Pyricularia oryzae P131) 1143193 (Pyricularia oryzae P131) 67 68 GTGCSVEIINSNQVSVGSGCARINSVTNIGDNQGRRWGVLANSSCGLSTTQNLPSGWSLRQTGFCNA QGTGCSVEIINSNQVSVGSGCARINSVTNIGDNQGRRWGVLANSSCGLSTTQNLPSGWSLRQTGFCNA 6r5k-a1-m1-cD_6r5k-a1-m1-cH Cryo-EM structure of a poly(A) RNP bound to the Pan2-Pan3 deadenylase P04147 P04147 4.8 ELECTRON MICROSCOPY 29 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 390 394 ASLYVGDLEPSVSEAHLYDIFSPIGSVSSIRVCRDAITKTSLGYAYVNFNDHEAGRKAIEQLNYTPIKGRLCRIMWSQRDPSLRKKGSGNIFIKNLHPDIDNKALYDTFSVFGDILSSKIATDENGKSKGFGFVHFEEEGAAKEAIDALNGMLLNGQEIYVAPHLSRKERDSQLEETKAHYTNLYVKNINSETTDEQFQELFAKFGPIVSASLEKDADGKLKGFGFVNYEKHEDAVKAVEALNDSELNGEKLYVGRAQKKNERMHVLKKQYEAYRLEKMAKYQGVNLFVKNLDDSVDDEKLEEEFAPYGTITSAKVMRTENGKSKGFGFVCFSTPEEATKAITEKNQQIVAGKPLYVAIAQRKDVRRSQLAQQIQARNQMRYQQATAAAA NSSASLYVGDLEPSVSEAHLYDIFSPIGSVSSIRVCRDAITKTSLGYAYVNFNDHEAGRKAIEQLNYTPIKGRLCRIMWSQRDPSLRKKGSGNIFIKNLHPDIDNKALYDTFSVFGDILSSKIATDENGKSKGFGFVHFEEEGAAKEAIDALNGMLLNGQEIYVAPHLSRKERDSQLEETKAHYTNLYVKNINSETTDEQFQELFAKFGPIVSASLEKDADGKLKGFGFVNYEKHEDAVKAVEALNDSELNGEKLYVGRAQKKNERMHVLKKQYEAYRLEKMAKYQGVNLFVKNLDDSVDDEKLEEEFAPYGTITSAKVMRTENGKSKGFGFVCFSTPEEATKAITEKNQQIVAGKPLYVAIAQRKDVRRSQLAQQIQARNQMRYQQATAAAAA 6r5k-a1-m1-cF_6r5k-a1-m1-cH Cryo-EM structure of a poly(A) RNP bound to the Pan2-Pan3 deadenylase P04147 P04147 4.8 ELECTRON MICROSCOPY 66 0.994 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 165 394 ENSSASLYVGDLEPSVSEAHLYDIFSPIGSVSSIRVCRDAITKTSLGYAYVNFNDHEAGRKAIEQLNYTPIKGRLCRIMWSQRDPSLRKKGSGNIFIKNLHPDIDNKALYDTFSVFGDILSSKIATDENGKSKGFGFVHFEEEGAAKEAIDALNGMLLNGQEIYV NSSASLYVGDLEPSVSEAHLYDIFSPIGSVSSIRVCRDAITKTSLGYAYVNFNDHEAGRKAIEQLNYTPIKGRLCRIMWSQRDPSLRKKGSGNIFIKNLHPDIDNKALYDTFSVFGDILSSKIATDENGKSKGFGFVHFEEEGAAKEAIDALNGMLLNGQEIYVAPHLSRKERDSQLEETKAHYTNLYVKNINSETTDEQFQELFAKFGPIVSASLEKDADGKLKGFGFVNYEKHEDAVKAVEALNDSELNGEKLYVGRAQKKNERMHVLKKQYEAYRLEKMAKYQGVNLFVKNLDDSVDDEKLEEEFAPYGTITSAKVMRTENGKSKGFGFVCFSTPEEATKAITEKNQQIVAGKPLYVAIAQRKDVRRSQLAQQIQARNQMRYQQATAAAAA 6r5t-a1-m1-cA_6r5t-a1-m1-cB The crystal structure of Glycoside Hydrolase BglX inactive mutant D286N from P. aeruginosa in complex with lactose Q9I311 Q9I311 1.6 X-RAY DIFFRACTION 242 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 733 733 6r5i-a1-m1-cB_6r5i-a1-m1-cA 6r5n-a1-m1-cA_6r5n-a1-m1-cB 6r5o-a1-m1-cA_6r5o-a1-m1-cB 6r5p-a1-m1-cB_6r5p-a1-m1-cA 6r5r-a1-m1-cA_6r5r-a1-m1-cB 6r5u-a1-m1-cA_6r5u-a1-m1-cB 6r5v-a1-m1-cA_6r5v-a1-m1-cB TDKERFIASLMARMSNAEKIGQLRLVSVGADHPKEALMADIRAGKVGAIFNTVTRPDIRAMQDQVRHSRLKIPLFHAYDVAHGHRTIFPISLGLAASWDPEVVARSARISALEASADGLDMSFSPMVDITRDARWGRVSEGFGEDTYLTSLLSGVMVRAYQGSNLAAPDSIMAAVKHFALYGAAEGGRDYNTVDMSLPRMFQDYLPPYKAAVDAGAGAVMVSLNTINGVPATANRWLLTDLLRQQWGFKGLTISNHGAVKELIKHGLAGNERDATRLAIQAGVDMNMNDDLYSTWLPKLLAAGEIDQADIDRACRDVLAAKYDLGLFADPYRRLGKPDDPPFDTNAESRLHRQAAREVAREGLVLLKNRDGLLPLKKQGRIAVIGPLAKSQRDVIGSWSAAGVPRQAVTVYQGLANAVGERATLLYAKGANVSGDQAILDYLNSYNPEVEVDPRSAEAMLEEALRTARDADLVVAVVGESQGMAHEASSRTDLRIPASQRRLLKALKATGKPLVLVLMNGRPLSLGWEQENADAILETWFSGTEGGNAIADVLFGEHNPSGKLTMSFPRSVGQVPVYYNHLNTGRPMDHDNPGKYTSRYFDEANGPLYPFGYGLSYTEFSLSPLRLSSERLARGATLEARVTLSNSGKRAGATVVQLYLQDPVASLSRPVKELRGFRKVMLEPGESREIVFRLGEADLKFYDSQLRHTAEPGEFKVFVGLDSAQTESRSFTLL TDKERFIASLMARMSNAEKIGQLRLVSVGADHPKEALMADIRAGKVGAIFNTVTRPDIRAMQDQVRHSRLKIPLFHAYDVAHGHRTIFPISLGLAASWDPEVVARSARISALEASADGLDMSFSPMVDITRDARWGRVSEGFGEDTYLTSLLSGVMVRAYQGSNLAAPDSIMAAVKHFALYGAAEGGRDYNTVDMSLPRMFQDYLPPYKAAVDAGAGAVMVSLNTINGVPATANRWLLTDLLRQQWGFKGLTISNHGAVKELIKHGLAGNERDATRLAIQAGVDMNMNDDLYSTWLPKLLAAGEIDQADIDRACRDVLAAKYDLGLFADPYRRLGKPDDPPFDTNAESRLHRQAAREVAREGLVLLKNRDGLLPLKKQGRIAVIGPLAKSQRDVIGSWSAAGVPRQAVTVYQGLANAVGERATLLYAKGANVSGDQAILDYLNSYNPEVEVDPRSAEAMLEEALRTARDADLVVAVVGESQGMAHEASSRTDLRIPASQRRLLKALKATGKPLVLVLMNGRPLSLGWEQENADAILETWFSGTEGGNAIADVLFGEHNPSGKLTMSFPRSVGQVPVYYNHLNTGRPMDHDNPGKYTSRYFDEANGPLYPFGYGLSYTEFSLSPLRLSSERLARGATLEARVTLSNSGKRAGATVVQLYLQDPVASLSRPVKELRGFRKVMLEPGESREIVFRLGEADLKFYDSQLRHTAEPGEFKVFVGLDSAQTESRSFTLL 6r5w-a1-m1-cB_6r5w-a1-m1-cC Crystal structure of the receptor binding protein (gp15) of Listeria phage PSA Q8W5Z4 Q8W5Z4 1.7 X-RAY DIFFRACTION 169 1.0 171618 (Listeria phage PSA) 171618 (Listeria phage PSA) 168 169 6r5w-a1-m1-cB_6r5w-a1-m1-cA 6r5w-a1-m1-cC_6r5w-a1-m1-cA AQFAQKTVLDEHVNDADIHVTATDKTNWNAKETVEGAQAKADKALADAKAFFELSSSVQSVTLTPKNGFVASQPLIARYIKFGNRFLVIVSGIVGKGTGSGTGICATLPTFLAPDASWNKLYSAAQQSTAASNQANIYLSVSADINIVGVGSVDVNTGLDGIIYLTKE AQFAQKTVLDEHVNDADIHVTATDKTNWNAKETVEGAQAKADKALADAKAFFELSSSVQSVTLTPKNGFVASQPLIARYIKFGNRFLVIVSGIVGKGTGSGTGICATLPTFLAPDASWNKLYSAAQQSTAASNQANIYLSVSADINIVGVGSVDVNTGLDGIIYLTKEV 6r65-a2-m1-cA_6r65-a2-m1-cB Crystal Structure of human TMEM16K / Anoctamin 10 (Form 2) Q9NW15 Q9NW15 3.5 X-RAY DIFFRACTION 88 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 611 623 5oc9-a1-m1-cA_5oc9-a1-m1-cB 6r65-a1-m1-cA_6r65-a1-m1-cB 6r7x-a1-m1-cA_6r7x-a1-m1-cB 6r7y-a1-m1-cA_6r7y-a1-m1-cB 6r7z-a1-m1-cA_6r7z-a1-m1-cB SFTPLVVIELAQDVKEETKEWLKNRIIAKKKDGGAQLLFRPLLNKYEQETLENQNLYLVGASKIRMLLGAEAVGLVKECNDNTMRAFTYRTRQNFKGFDFLTMAECQFIIKHELENLRAKDEKMIPGYPQAKLYPGKSLLRRLLTSGIVIQVFPLHDSEALKKLEDTWYTLKYQPIDSIRGYFGETIALYFGFLEYFTFALIPMAVIGLPYYLFVWEDYDKYVIFASFNLIWSTVILELWKRGCANMTYRWGTLLMKRKFEEPRPGFHGVLGINSITGKEEPLYPSYKRQLRIYLVSLPFVCLCLYFSLYVMMIYFDMEVWALGLHENWTSVLLYVPSIIYAIVIEIMNRLYRYAAEFLTSWENHRLESAYQNHLILKVLVFNFLNCFASLFYIAFVLKDMKLLRQSLATLLITSQILNQIMESFLPYWLQRKHGVRVKRKVQALKDATLYEQVILEKEMGTYLGTFDDYLELFLQFGYVSLFSCVYPLAAAFAVLNNFTEVNSDALKMCRVFKRPFSEPSANIGVWQLAFETMSVISVVTNCALIGMSPQVNAVFPESKADLILIVVAVEHALLALKFILAFAIPDKPRHIQMKLARLEFESLEALKQQQ FTPLVVIELAQDVKEETKEWLKNRIIAKKKDGGAQLLFRPLLNKYEQETLENQNLYLVGASKIRMLLGAEAVGLVKECNDNTMRAFTYRTRQNFKGFDDNNDDFLTMAECQFIIKHELENLRAKDEKMIPGYPQAKLYPGKSLLRRLLTSGIVIQVFPLHDSEALKKLEDTWYTKYQPIDSIRGYFGETIALYFGFLEYFTFALIPMAVIGLPYYLFVWEDYDKYVIFASFNLIWSTVILELWKRGCANMTYRWGTLLMKRKFEEPRPGFHGVLGINSITGKEEPLYPSYKRQLRIYLVSLPFVCLCLYFSLYVMMIYFDMEVWALGLHENSGSEWTSVLLYVPSIIYAIVIEIMNRLYRYAAEFLTSWENHRLESAYQNHLILKVLVFNFLNCFASLFYIAFVLKDMKLLRQSLATLLITSQILNQIMESFLPYWLQRKHGVRVKRKVQALKADIDATLYEQVILEKEMGTYLGTFDDYLELFLQFGYVSLFSCVYPLAAAFAVLNNFTEVNSDALKMCRVFKRPFSEPSANIGVWQLAFETMSVISVVTNCALIGMSPQVNAVFPESKADLILIVVAVEHALLALKFILAFAIPDKPRHIQMKLARLEFESLEALKQQQMK 6r6b-a1-m1-cH_6r6b-a1-m1-cI Structure of the core Shigella flexneri type III secretion system export gate complex SctRST (Spa24/Spa9/Spa29). P0A1M4 P0A1M4 3.5 ELECTRON MICROSCOPY 39 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 85 85 6r6b-a1-m1-cG_6r6b-a1-m1-cH 6r6b-a1-m1-cI_6r6b-a1-m1-cJ 6rwy-a1-m1-cg_6rwy-a1-m1-ch 6rwy-a1-m1-ci_6rwy-a1-m1-ch 8axk-a1-m1-cH_8axk-a1-m1-cG MSDIVYMGNKALYLILIFSLWPVGIATVIGLSIGLLQTVTQLQEQTLPFGIKLIGVSISLLLLSGWYGEVLLSFCHEIMFLIKSG MSDIVYMGNKALYLILIFSLWPVGIATVIGLSIGLLQTVTQLQEQTLPFGIKLIGVSISLLLLSGWYGEVLLSFCHEIMFLIKSG 6r6t-a1-m1-cA_6r6t-a1-m1-cB Crystal structure of mouse cis-aconitate decarboxylase P54987 P54987 2.535 X-RAY DIFFRACTION 169 0.996 10090 (Mus musculus) 10090 (Mus musculus) 450 451 7br9-a1-m1-cA_7br9-a1-m1-cB KSVTESFAGMIHGLKVNHLTDGIIRRSKRMILDSLGVGFLGTGTEVFHKVTQYSKIYSSNTSSTVWGRPDFRLPPTYAAFVNGVAVHSMDFDDTWHPATHPSGAVLPVLTALSEALPKFSGLDLLLAFNVGIEVQGRLMHFSKPKRFHPPSVVGTLGSAAAASKFLGLSLTKCREALAIAVSHAGAPIANAATQTKPLHIGNAAKHGMEATFLAMLGLQGNKQILDLGSGFGAFYANYSPEDLPSLDSHIWLLDQQDVAFKSFPAHLATHWVADAAAAVRKHLVTPERALFPADHIERIVLRIPDVQYVNRPFPDSEHEARHSFQYVACASLLDGSITVPSFHSQQVNRPQVRELLKKVKLEHPPDNPPSFDTLYCEISITLKDGTTFTERSDTFYGHWRKPLSQEDLRNKFRANASKMLCRDTVESLITVVEKLEDLEDCSVLTRLLKG MLKSVTESFAGMIHGLKVNHLTDGIIRRSKRMILDSLGVGFLGTGTEVFHKVTQYSKIYSSNTSSTVWGRPDFRLPPTYAAFVNGVAVHSMDFDDTWHPATHPSGAVLPVLTALSEALPPKFSGLDLLLAFNVGIEVQGRLMHFSKKRFHPPSVVGTLGSAAAASKFLGLSLTKCREALAIAVSHAGAPIANAATQTKPLHIGNAAKHGMEATFLAMLGLQGNKQILDLGSGFGAFYANYSPEDLPSLDSHIWLLDQQDVAFKSFPAHLATHWVADAAAAVRKHLVTPERALFPADHIERIVLRIPDVQYVNRPFPDSEHEARHSFQYVACASLLDGSITVPSFHSQQVNRPQVRELLKKVKLEHPPDNPPSFDTLYCEISITLKDGTTFTERSDTFYGHWRKPLSQEDLRNKFRANASKMLCRDTVESLITVVEKLEDLEDCSVLTRLLK 6r6u-a1-m1-cB_6r6u-a1-m1-cA Crystal structure of human cis-aconitate decarboxylase A6NK06 A6NK06 1.705 X-RAY DIFFRACTION 165 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 456 457 SITESFATAIHGLKVGHLTDRVIQRSKRMILDTLGAGFLGTTTEVFHIASQYSKIYSSNISSTVWGQPDIRLPPTYAAFVNGVAIHSMDFDDTWHPATHPSGAVLPVLTALAEALPRSPKFSGLDLLLAFNVGIEVQGRLLHFAKEANDMPKRFHPPSVVGTLGSAAAASKFLGLSSTKCREALAIAVSHAGAPMANAATQTKPLHIGNAAKHGIEAAFLAMLGLQGNKQVLDLEAGFGAFYANYSPKVLPSIASYSWLLDQQDVAFKRFPAHLSTHWVADAAASVRKHLVAERALLPTDYIKRIVLRIPNVQYVNRPFPVSEHEARHSFQYVACAMLLDGGITVPSFHEQINRPQVRELLSKVELEYPPDNLPSFNILYCEISVTLKDGATFTDRSDTFYGHWRKPLSQEDLEEKFRANASKMLSWDTVESLIKIVKNLEDLEDCSVLTTLLKGP KSITESFATAIHGLKVGHLTDRVIQRSKRMILDTLGAGFLGTTTEVFHIASQYSKIYSSNISSTVWGQPDIRLPPTYAAFVNGVAIHSMDFDDTWHPATHPSGAVLPVLTALAEALPRSPKFSGLDLLLAFNVGIEVQGRLLHFAKEANDMPKRFHPPSVVGTLGSAAAASKFLGLSSTKCREALAIAVSHAGAPMANAATQTKPLHIGNAAKHGIEAAFLAMLGLQGNKQVLDLEAGFGAFYANYSPKVLPSIASYSWLLDQQDVAFKRFPAHLSTHWVADAAASVRKHLVAERALLPTDYIKRIVLRIPNVQYVNRPFPVSEHEARHSFQYVACAMLLDGGITVPSFHEQINRPQVRELLSKVELEYPPDNLPSFNILYCEISVTLKDGATFTDRSDTFYGHWRKPLSQEDLEEKFRANASKMLSWDTVESLIKIVKNLEDLEDCSVLTTLLKGP 6r72-a2-m1-cC_6r72-a2-m1-cD Crystal structure of BmrA-E504A in an outward-facing conformation O06967 O06967 3.95 X-RAY DIFFRACTION 436 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 565 572 6r72-a1-m1-cB_6r72-a1-m1-cA 6r81-a1-m1-cB_6r81-a1-m1-cA 7bg4-a1-m1-cB_7bg4-a1-m1-cA 7ow8-a1-m1-cA_7ow8-a1-m1-cB SKLKPFFALVRRTNPSYGKLAFALALSVVTTLVSLLIPLLTKQLVDGFSMSNLSGTQIGLIALVFFVQAGLSAYATYALNYNGQKIISGLRELLWKKLIKLPVSYFDTNASGETVSRVTNDTMVVKELITTHISGFITGIISVIGSLTILFIMNWKLTLLVLVVVPLAALILVPIGRKMFSISRETQDETARFTGLLNQILPEIRLVKASNAEDVEYGRGKMGISSLFKLGVREAKVQSLVGPLISLVLMAALVAVIGYLVAFILYLFQIIMPMGQITTFFTQLQKSIGATERMIEILAEEEEDTVTGKQIENAHLPIQLDRVSFGYKPDQLILKEVSAVIEAGKVTAIVGPSGGGKTTLFKLLERFYSPTAGTIRLGDEPVDTYSLESWREHIGYVSQESPLMSGTIRENICYGLERDVTDAEIEKAAEMAYALNFIKELPNQFDTEVGERGIMLSGGQRQRIAIARALLRNPSILMLDAATSSLDSQSEKSVQQALEVLMEGRTTIVIAHRLSTVVDADQLLFVEKGEITGRGTHHELMASHGLYRDFAEQQLKMNADLENKA SKLKPFFALVRRTNPSYGKLAFALALSVVTTLVSLLIPLLTKQLVDGFSMSNLSGTQIGLIALVFFVQAGLSAYATYALNYNGQKIISGLRELLWKKLIKLPVSYFDTNASGETVSRVTNDTMVVKELITTHISGFITGIISVIGSLTILFIMNWKLTLLVLVVVPLAALILVPIGRKMFSISRETQDETARFTGLLNQILPEIRLVKASNAEDVEYGRGKMGISSLFKLGVREAKVQSLVGPLISLVLMAALVAVIGYGGTAGALVAFILYLFQIIMPMGQITTFFTQLQKSIGATERMIEILAEEEEDTVTGKQIENAHLPIQLDRVSFGYKPDQLILKEVSAVIEAGKVTAIVGPSGGGKTTLFKLLERFYSPTAGTIRLGDEPVDTYSLESWREHIGYVSQESPLMSGTIRENICYGLERDVTDAEIEKAAEMAYALNFIKELPNQFDTEVGERGIMLSGGQRQRIAIARALLRNPSILMLDAATSSLDSQSEKSVQQALEVLMEGRTTIVIAHRLSTVVDADQLLFVEKGEITGRGTHHELMASHGLYRDFAEQQLKMNADLENKAG 6r76-a2-m1-cD_6r76-a2-m1-cC Crystal structure of trans-3-Hydroxy-L-proline dehydratase from Thermococcus litoralis - open conformation H3ZMH8 H3ZMH8 2.4 X-RAY DIFFRACTION 166 0.994 523849 (Thermococcus litoralis DSM 5473) 523849 (Thermococcus litoralis DSM 5473) 339 345 6r76-a1-m1-cB_6r76-a1-m1-cA 6r77-a1-m1-cA_6r77-a1-m1-cB FKKLENLEKWEPPKDWMVIKTLDTHTAGEPLRIILSGFPEIPGKTILEKRRYLMENLDHLRKALMWEPRGHAMYGAIITEPVSEEADFGVIFMHNEGYSTMCGHATIALGKVAVECGLVEAKEPITEIKMDSPAGLIKIYVKVRDGKVEKVYFHNVPSFVLFKDETINVGEVKYDLAYGGAFYAFVNAEEIGLKCTPEYYRQLIDVGMKIKRAIMSEKEIRHPFSFLYGTIFIGEPEDENSHSRHVCIFADGEVDRSPTGTGVSARLAILYEKGEIDIGEEITIESIIGTKFTGKVVEETRYGLYRAIIPEVGGNAYIVAKNTFLIDPQDPLKYGFFLR FKKLENLEKWEPPKDWMVIKTLDTHTAGEPLRIILSGFPEIPGKTILEKRRYLMENLDHLRKALMWEPRGHADMYGAIITEPVSADFGVIFMHNEGYSTMCGHATIALGKVAVECGLVEAKEPITEIKMDSPAGLIKIYVKVRDGKVEKVYFHNVPSFVLFKDETINVPGIGEVKYDLAYGGAFYAFVNAEEIGLKCTPEYYRQLIDVGMKIKRAIMSEKEIRHPFEEDLSFLYGTIFIGEPEDENSHSRHVCIFADGEVDRSPTGTGVSARLAILYEKGEIDIGEEITIESIIGTKFTGKVVEETRYGLYRAIIPEVGGNAYIVAKNTFLIDPQDPLKYGFFLR 6r80-a1-m1-cA_6r80-a1-m2-cA Structure of AFF4 C-terminal homology domain Q9UHB7 Q9UHB7 2.2 X-RAY DIFFRACTION 102 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 6k7p-a1-m1-cA_6k7p-a1-m2-cA PRRTKLVFDDRNYSADHYLQEAKKLKHNADALSDRFEKAVYYLDAVVSFIECGNALEKNASPFPYSETVDLIKYTKLKYLAPDATAADKRLTVLCLRCESLLYLRLFKLKKENALKYSKTLTEHLKNSYNNSQAPSPGLGSSVTIPQKIHQAASYVQVTSNFLYATEIWDQAEQLSKEQKEFFAELDKVGPLIFNASITDLVRYTRQGLHWLRQDAKLI PRRTKLVFDDRNYSADHYLQEAKKLKHNADALSDRFEKAVYYLDAVVSFIECGNALEKNASPFPYSETVDLIKYTKLKYLAPDATAADKRLTVLCLRCESLLYLRLFKLKKENALKYSKTLTEHLKNSYNNSQAPSPGLGSSVTIPQKIHQAASYVQVTSNFLYATEIWDQAEQLSKEQKEFFAELDKVGPLIFNASITDLVRYTRQGLHWLRQDAKLI 6r8f-a1-m1-cB_6r8f-a1-m1-cD Cryo-EM structure of the Human BRISC-SHMT2 complex Q15018 Q15018 3.8 ELECTRON MICROSCOPY 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 6h3c-a1-m1-cA_6h3c-a1-m1-cF AASISGYTFSAVCFHSANSNADHEGFLLGEVRQFLQVIEIHNHQPCSKLFYASKVNEESLDRILKDRRKKVIGWYRFRRNTQQQMSYREQVLHKQLTRILGVPDLVFLLFSFISTANNSTHALEYVLFRPNRRYNQRISLAIPNLGNTSQQEYKVSSVPNTSQSYAKVIKEHGTDFFDKVMKDIRAIYQVYNALQEKVQAVCADVEKSERVVESCQAEVNKLRRQITQRK AASISGYTFSAVCFHSANSNADHEGFLLGEVRQFLQVIEIHNHQPCSKLFYASKVNEESLDRILKDRRKKVIGWYRFRRNTQQQMSYREQVLHKQLTRILGVPDLVFLLFSFISTANNSTHALEYVLFRPNRRYNQRISLAIPNLGNTSQQEYKVSSVPNTSQSYAKVIKEHGTDFFDKVMKDIRAIYQVYNALQEKVQAVCADVEKSERVVESCQAEVNKLRRQITQRK 6r8h-a2-m1-cB_6r8h-a2-m1-cC Triosephosphate isomerase from liver fluke (Fasciola hepatica). S4UI50 S4UI50 1.9 X-RAY DIFFRACTION 134 1.0 6192 (Fasciola hepatica) 6192 (Fasciola hepatica) 250 250 6r8h-a1-m1-cA_6r8h-a1-m1-cD 6r8h-a3-m1-cE_6r8h-a3-m1-cF 7qon-a1-m1-cAAA_7qon-a1-m1-cBBB 7qon-a2-m1-cDDD_7qon-a2-m1-cCCC ASNRKFFVGGNWKMNGSKESNQKLLKTLSDAKPDANTEILVAVPFVYLKDVREHLDKRFHVAAQNCYKVASGAFTGEISPAMIRDCGCEWVILGHSERRHIFGESDELIGEKVNHALTCGLKVVPCIGEKLDEREAGKTEQVCFRQLDAIKKGIPKAEDWSRVVIAYEPVWAIGTGKTASPEQAQEVHHAVRQWLEKNVSQAVASSLRITYGGSVTAANCKELAKKPDVDGFLVGGASLKPEFVDICNAN ASNRKFFVGGNWKMNGSKESNQKLLKTLSDAKPDANTEILVAVPFVYLKDVREHLDKRFHVAAQNCYKVASGAFTGEISPAMIRDCGCEWVILGHSERRHIFGESDELIGEKVNHALTCGLKVVPCIGEKLDEREAGKTEQVCFRQLDAIKKGIPKAEDWSRVVIAYEPVWAIGTGKTASPEQAQEVHHAVRQWLEKNVSQAVASSLRITYGGSVTAANCKELAKKPDVDGFLVGGASLKPEFVDICNAN 6ra0-a1-m1-cA_6ra0-a1-m2-cA A ubiquitin-like dimerization domain controls protein kinase D activation by trans-autophosphorylation Q9XUJ7 Q9XUJ7 2.26 X-RAY DIFFRACTION 74 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 138 138 DHVVLRYGGTREMVPLIRHEQMLDMLMERARQIVQGFGNLDTRNMYLFRHEYNSPTLLYPITSASQITSGSILEIILVDRTEAAVIPHVVEPESYMRPTFCDFCGEMLTGLMRQGVKCKNCNGNFHKRCSNAARNNCG DHVVLRYGGTREMVPLIRHEQMLDMLMERARQIVQGFGNLDTRNMYLFRHEYNSPTLLYPITSASQITSGSILEIILVDRTEAAVIPHVVEPESYMRPTFCDFCGEMLTGLMRQGVKCKNCNGNFHKRCSNAARNNCG 6ra3-a1-m1-cA_6ra3-a1-m1-cE Structural basis for recognition and ring-cleavage of the Pseudomonas quinolone signal (PQS) by AqDC in complex with its product 2 X-RAY DIFFRACTION 35 1.0 1185650 (Mycobacteroides abscessus subsp. abscessus) 1185650 (Mycobacteroides abscessus subsp. abscessus) 267 267 6ra3-a1-m1-cF_6ra3-a1-m1-cA 6ra3-a1-m1-cF_6ra3-a1-m1-cE MITTKTVNGVQIAFDDQGHEPGPVFVTLSGWAHDLRAYDGMLPYLRAAQRTVRVCWRGHGPDRNLVGDFGIDEMAADTIGLLDALEVDSFVPIAHAHGGWAALEIADRLGAQRVPAVMILDLIMTPAPREFVAALHGIQDPERWKEGRDGLVQSWLAGTTNQAVLDHVRYDSGGHGFDMWARAGRVIDEAYRTWGSPMRRMEALAEPCAIRHVFSHPKIGEYDALHDDFAARHPWFSYRRLGGETHFPGIELPQQVAAEAIDLLAGA MITTKTVNGVQIAFDDQGHEPGPVFVTLSGWAHDLRAYDGMLPYLRAAQRTVRVCWRGHGPDRNLVGDFGIDEMAADTIGLLDALEVDSFVPIAHAHGGWAALEIADRLGAQRVPAVMILDLIMTPAPREFVAALHGIQDPERWKEGRDGLVQSWLAGTTNQAVLDHVRYDSGGHGFDMWARAGRVIDEAYRTWGSPMRRMEALAEPCAIRHVFSHPKIGEYDALHDDFAARHPWFSYRRLGGETHFPGIELPQQVAAEAIDLLAGA 6ra9-a1-m1-cA_6ra9-a1-m1-cB Novel structural features and post-translational modifications in eukaryotic elongation factor 1A2 from Oryctolagus cuniculus Q71V39 Q71V39 2.7 X-RAY DIFFRACTION 114 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 448 457 4c0s-a1-m1-cB_4c0s-a1-m1-cA KTHINIVVIGHVDSGKSTTTGHLIYKCGGIDKRTIEKFEKEAAEMGKGSFKYAWVLDKLKAERERGITIDISLWKFETTKYYITIIDAPGHRDFIKNMITGTSQADCAVLIVAAGVGEFEAGISKNGQTREHALLAYTLGVKQLIVGVNKMDSTEPAYSEKRYDEIVKEVSAYIKKIGYNPATVPFVPISGWHGDNMLEPSPNMPWFKGWKVERKEGNASGVSLLEALDTILPPTRPTDKPLRLPLQDVYKIGGIGTVPVGVETGILRPGMVVTFAPVNITTEVKSVEMHHEALEALPGDNVGFNVKNVSVKDIRRGNVCGDSKSDPPQEAAQFTSQVIILNHPGQISAGYSPVIDCHTAHIACKFAELKEKIDRRSGKKLEDNPKSLKSGDAAIVEMVPGKPMCVESFSQYPPLGRFAVRDMRQTVAVGVIKNVEKKSGGAGKVTKS EKTHINIVVIGHVDSGKSTTTGHLIYKCGGIDKRTIEKFEKEAAEMGKGSFKYAWVLDKLKAERERGITIDISLWKFETTKYYITIIDAPGHRDFIKNMITGTSQADCAVLIVAAGVGEFEAGISKNGQTREHALLAYTLGVKQLIVGVNKMDSTEPAYSEKRYDEIVKEVSAYIKKIGYNPATVPFVPISGWHGDNMLEPSPNMPWFKGWKVERKEGNASGVSLLEALDTILPPTRPTDKPLRLPLQDVYKIGGIGTVPVGVETGILRPGMVVTFAPVNITTEVKSVEMHHEALSEALPGDNVGFNVKNVSVKDIRRGNVCGDSKSDPPQEAAQFTSQVIILNHPGQISAGYSPVIDCHTAHIACKFAELKEKIDRRSGKKLEDNPKSLKSGDAAIVEMVPGKPMCVESFSQYPPLGRFAVRDMRQTVAVGVIKNVEKKSGGAGKVTKSAQKAQKA 6rao-a1-m5-cF_6rao-a1-m6-cF Cryo-EM structure of the anti-feeding prophage (AFP) baseplate, 6-fold symmetrised Q6HAD4 Q6HAD4 3.1 ELECTRON MICROSCOPY 116 1.0 42906 (Serratia entomophila) 42906 (Serratia entomophila) 149 149 6rao-a1-m1-cF_6rao-a1-m2-cF 6rao-a1-m1-cF_6rao-a1-m6-cF 6rao-a1-m2-cF_6rao-a1-m3-cF 6rao-a1-m3-cF_6rao-a1-m4-cF 6rao-a1-m4-cF_6rao-a1-m5-cF MSTPAVSHRFLVNFLFNNIPNPFDIAFQRISGLSRTLEVSQHREGGENVRNLWLAEQVNHGSLVLERGVMNASPLTLQFDRVLRRESTQWANVVIMLLNELSLPVTTWTLSHALPVRWQMGDLDAGSNQVLINTLELRYQDMRMLGVKL MSTPAVSHRFLVNFLFNNIPNPFDIAFQRISGLSRTLEVSQHREGGENVRNLWLAEQVNHGSLVLERGVMNASPLTLQFDRVLRRESTQWANVVIMLLNELSLPVTTWTLSHALPVRWQMGDLDAGSNQVLINTLELRYQDMRMLGVKL 6rap-a1-m5-cE_6rap-a1-m6-cE Cryo-EM structure of the anti-feeding prophage cap (AFP tube terminating cap) Q6HAC3 Q6HAC3 3.3 ELECTRON MICROSCOPY 109 1.0 42906 (Serratia entomophila) 42906 (Serratia entomophila) 275 275 6rap-a1-m1-cE_6rap-a1-m2-cE 6rap-a1-m1-cE_6rap-a1-m6-cE 6rap-a1-m2-cE_6rap-a1-m3-cE 6rap-a1-m3-cE_6rap-a1-m4-cE 6rap-a1-m4-cE_6rap-a1-m5-cE SNYQTLVDVNNAMNKMLRAYVNEAVAIRFDLPDTQADAAISVFLYDIHEDLQLRTAESRGFNAGAGRLLPGWVNVKCNYLITYWESPDSQPDNQAIQVMSQVLAALINNRQLADIGAYTQVMPPKENLNSLGNFWQSLGNRPRLSLNYCVTVPISLSDKGEEMTPVKSLSTTVEPKAPLSPLVITDALREQLRVALDACLAMTHVNLDSSPVANSDGSAAEIRVSLRVYGMTPTEYLAPMNTVFNEWEKSEAAAVTPDGYRVYINAVDKTDLTGI SNYQTLVDVNNAMNKMLRAYVNEAVAIRFDLPDTQADAAISVFLYDIHEDLQLRTAESRGFNAGAGRLLPGWVNVKCNYLITYWESPDSQPDNQAIQVMSQVLAALINNRQLADIGAYTQVMPPKENLNSLGNFWQSLGNRPRLSLNYCVTVPISLSDKGEEMTPVKSLSTTVEPKAPLSPLVITDALREQLRVALDACLAMTHVNLDSSPVANSDGSAAEIRVSLRVYGMTPTEYLAPMNTVFNEWEKSEAAAVTPDGYRVYINAVDKTDLTGI 6rb9-a1-m1-cF_6rb9-a1-m1-cG The pore structure of Clostridium perfringens epsilon toxin Q02307 Q02307 3.2 ELECTRON MICROSCOPY 229 1.0 451751 (Clostridium perfringens B) 451751 (Clostridium perfringens B) 248 248 6rb9-a1-m1-cA_6rb9-a1-m1-cB 6rb9-a1-m1-cA_6rb9-a1-m1-cG 6rb9-a1-m1-cB_6rb9-a1-m1-cC 6rb9-a1-m1-cC_6rb9-a1-m1-cD 6rb9-a1-m1-cD_6rb9-a1-m1-cE 6rb9-a1-m1-cE_6rb9-a1-m1-cF AMASYDNVDTLIEKGRYNTKYNYLKRMEKYYPNAMAYFDKVTINPQGNDFYINNPKVELDGEPSMNYLEDVYVGKALLTNDTQQEQKLKSQSFTCKNTDTVTATTTHTVGTSIQATAKFTVPFNETGVSLTTSYSFANTNTNTNSKEITHNVPSQDILVPANTTVEVIAYLKKVNVKGNVKLVGQVSGSEWGEIPSYLAFPRDGYKFSLSDTVNKSDLNEDGTININGKGNYSAVMGDELIVKVRNLN AMASYDNVDTLIEKGRYNTKYNYLKRMEKYYPNAMAYFDKVTINPQGNDFYINNPKVELDGEPSMNYLEDVYVGKALLTNDTQQEQKLKSQSFTCKNTDTVTATTTHTVGTSIQATAKFTVPFNETGVSLTTSYSFANTNTNTNSKEITHNVPSQDILVPANTTVEVIAYLKKVNVKGNVKLVGQVSGSEWGEIPSYLAFPRDGYKFSLSDTVNKSDLNEDGTININGKGNYSAVMGDELIVKVRNLN 6rbk-a1-m2-cC_6rbk-a1-m3-cC Cryo-EM structure of the anti-feeding prophage (AFP) baseplate in extended state, 3-fold symmetrised Q6HAD1 Q6HAD1 3.4 ELECTRON MICROSCOPY 384 1.0 42906 (Serratia entomophila) 42906 (Serratia entomophila) 504 504 6rbk-a1-m1-cC_6rbk-a1-m2-cC 6rbk-a1-m1-cC_6rbk-a1-m3-cC HITLDIAGQRSTLGIRRLRVQQLINEIPLAQLELHIPTDNHGAADNAVQHEVSRFTLGVRVGIAQDNKPLFDGYLVQKKMQLKGKEWSVRLEARHALQKLTFLPHSRVFRQQDDSTVMKGLLQSAGVKLTQSKHDQLLQFRLSDWQFIRSRLLSTNCWLLPDAASDTVVIRPLSSRTLARDSHDYTLYEINLNFDNRFTPDSLSLQGWDIAAQRLTAAQKSPAGAFRPWKPAGQDYALAFSMLPEATLQTLSNSWLNYQQMTGVQGHIVLAGTRDFAPGESITLSGFGAGLDGTAMLSGVNQQFDTQYGWRSELVIGLPASMLEPAPPVRSLHIGTVAGFTADPQHLDRIAIHLPALNLPDSLIFARLSKPWASHASGFCFYPEPGDEVVVGFIDSDPRYPMILGALHNPKNTAPFPPDEKNNRKGLIVSQADQTQALMIDTEEKTLRLMAGDNTLTLTGEGNLTMSTPNALQLQADTLGLQADSNLSIAGKQQVEITSAKINM HITLDIAGQRSTLGIRRLRVQQLINEIPLAQLELHIPTDNHGAADNAVQHEVSRFTLGVRVGIAQDNKPLFDGYLVQKKMQLKGKEWSVRLEARHALQKLTFLPHSRVFRQQDDSTVMKGLLQSAGVKLTQSKHDQLLQFRLSDWQFIRSRLLSTNCWLLPDAASDTVVIRPLSSRTLARDSHDYTLYEINLNFDNRFTPDSLSLQGWDIAAQRLTAAQKSPAGAFRPWKPAGQDYALAFSMLPEATLQTLSNSWLNYQQMTGVQGHIVLAGTRDFAPGESITLSGFGAGLDGTAMLSGVNQQFDTQYGWRSELVIGLPASMLEPAPPVRSLHIGTVAGFTADPQHLDRIAIHLPALNLPDSLIFARLSKPWASHASGFCFYPEPGDEVVVGFIDSDPRYPMILGALHNPKNTAPFPPDEKNNRKGLIVSQADQTQALMIDTEEKTLRLMAGDNTLTLTGEGNLTMSTPNALQLQADTLGLQADSNLSIAGKQQVEITSAKINM 6rbo-a1-m2-cA_6rbo-a1-m4-cA Crystal structure of NAD kinase 1 from Listeria monocytogenes in complexe with an adenine derivative Q8Y8D7 Q8Y8D7 1.941 X-RAY DIFFRACTION 100 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 261 261 2i1w-a1-m1-cA_2i1w-a1-m1-cB 2i1w-a1-m1-cC_2i1w-a1-m1-cD 2i29-a1-m1-cA_2i29-a1-m3-cA 2i29-a1-m2-cA_2i29-a1-m4-cA 2i2a-a1-m1-cA_2i2a-a1-m3-cA 2i2a-a1-m2-cA_2i2a-a1-m4-cA 2i2b-a1-m1-cA_2i2b-a1-m3-cA 2i2b-a1-m2-cA_2i2b-a1-m4-cA 2i2c-a1-m1-cA_2i2c-a1-m3-cA 2i2c-a1-m2-cA_2i2c-a1-m4-cA 2i2d-a1-m1-cA_2i2d-a1-m3-cA 2i2d-a1-m2-cA_2i2d-a1-m4-cA 2i2f-a1-m1-cA_2i2f-a1-m3-cA 2i2f-a1-m2-cA_2i2f-a1-m4-cA 2q5f-a1-m1-cA_2q5f-a1-m3-cA 2q5f-a1-m2-cA_2q5f-a1-m4-cA 3v7u-a1-m1-cA_3v7u-a1-m3-cA 3v7u-a1-m2-cA_3v7u-a1-m4-cA 3v7w-a1-m1-cA_3v7w-a1-m3-cA 3v7w-a1-m2-cA_3v7w-a1-m4-cA 3v7y-a1-m1-cA_3v7y-a1-m3-cA 3v7y-a1-m2-cA_3v7y-a1-m4-cA 3v80-a1-m1-cA_3v80-a1-m3-cA 3v80-a1-m2-cA_3v80-a1-m4-cA 3v8m-a1-m1-cA_3v8m-a1-m3-cA 3v8m-a1-m2-cA_3v8m-a1-m4-cA 3v8n-a1-m1-cA_3v8n-a1-m3-cA 3v8n-a1-m2-cA_3v8n-a1-m4-cA 3v8p-a1-m1-cA_3v8p-a1-m3-cA 3v8p-a1-m2-cA_3v8p-a1-m4-cA 3v8q-a1-m1-cA_3v8q-a1-m3-cA 3v8q-a1-m2-cA_3v8q-a1-m4-cA 3v8r-a1-m1-cA_3v8r-a1-m3-cA 3v8r-a1-m2-cA_3v8r-a1-m4-cA 4dy6-a1-m1-cA_4dy6-a1-m3-cA 4dy6-a1-m2-cA_4dy6-a1-m4-cA 5dhp-a1-m1-cA_5dhp-a1-m1-cB 5dhp-a1-m1-cD_5dhp-a1-m1-cC 5dhq-a1-m1-cB_5dhq-a1-m1-cA 5dhq-a1-m1-cD_5dhq-a1-m1-cC 5dhr-a1-m1-cB_5dhr-a1-m1-cA 5dhr-a1-m1-cC_5dhr-a1-m1-cD 5dhs-a1-m1-cB_5dhs-a1-m1-cA 5dhs-a1-m1-cD_5dhs-a1-m1-cC 5dht-a1-m1-cB_5dht-a1-m1-cA 5dht-a1-m1-cD_5dht-a1-m1-cC 5dhu-a1-m1-cB_5dhu-a1-m1-cA 5dhu-a1-m1-cD_5dhu-a1-m1-cC 5ejf-a1-m1-cD_5ejf-a1-m1-cC 5ejh-a1-m1-cA_5ejh-a1-m3-cA 5ejh-a1-m2-cA_5ejh-a1-m4-cA 5eji-a1-m1-cA_5eji-a1-m3-cA 5eji-a1-m2-cA_5eji-a1-m4-cA 6rbo-a1-m1-cA_6rbo-a1-m3-cA 6rbp-a1-m1-cA_6rbp-a1-m3-cA 6rbp-a1-m2-cA_6rbp-a1-m4-cA 6rbq-a1-m1-cA_6rbq-a1-m3-cA 6rbq-a1-m2-cA_6rbq-a1-m4-cA 6rbr-a1-m1-cA_6rbr-a1-m3-cA 6rbr-a1-m2-cA_6rbr-a1-m4-cA 6rbs-a1-m1-cA_6rbs-a1-m3-cA 6rbs-a1-m2-cA_6rbs-a1-m4-cA 6rbt-a1-m1-cA_6rbt-a1-m3-cA 6rbt-a1-m2-cA_6rbt-a1-m4-cA 6rbu-a1-m1-cA_6rbu-a1-m3-cA 6rbu-a1-m2-cA_6rbu-a1-m4-cA 6rbv-a1-m1-cA_6rbv-a1-m3-cA 6rbv-a1-m2-cA_6rbv-a1-m4-cA 6rbw-a1-m1-cA_6rbw-a1-m3-cA 6rbw-a1-m2-cA_6rbw-a1-m4-cA 6rbx-a1-m1-cA_6rbx-a1-m3-cA 6rbx-a1-m2-cA_6rbx-a1-m4-cA 6rby-a1-m1-cA_6rby-a1-m3-cA 6rby-a1-m2-cA_6rby-a1-m4-cA 6rbz-a1-m1-cA_6rbz-a1-m3-cA 6rbz-a1-m2-cA_6rbz-a1-m4-cA 6rc0-a1-m1-cA_6rc0-a1-m3-cA 6rc0-a1-m2-cA_6rc0-a1-m4-cA 6rc1-a1-m1-cA_6rc1-a1-m3-cA 6rc1-a1-m2-cA_6rc1-a1-m4-cA 6rc2-a1-m1-cA_6rc2-a1-m3-cA 6rc2-a1-m2-cA_6rc2-a1-m4-cA 6rc3-a1-m1-cA_6rc3-a1-m3-cA 6rc3-a1-m2-cA_6rc3-a1-m4-cA 6rc4-a1-m1-cA_6rc4-a1-m3-cA 6rc4-a1-m2-cA_6rc4-a1-m4-cA 6rc5-a1-m1-cA_6rc5-a1-m3-cA 6rc5-a1-m2-cA_6rc5-a1-m4-cA 6rc6-a1-m1-cA_6rc6-a1-m3-cA 6rc6-a1-m2-cA_6rc6-a1-m4-cA 6rg6-a1-m1-cA_6rg6-a1-m3-cA 6rg6-a1-m2-cA_6rg6-a1-m4-cA 6rg7-a1-m1-cA_6rg7-a1-m3-cA 6rg7-a1-m2-cA_6rg7-a1-m4-cA 6rg8-a1-m1-cA_6rg8-a1-m3-cA 6rg8-a1-m2-cA_6rg8-a1-m4-cA 6rg9-a1-m1-cA_6rg9-a1-m3-cA 6rg9-a1-m2-cA_6rg9-a1-m4-cA 6rga-a1-m1-cA_6rga-a1-m3-cA 6rga-a1-m2-cA_6rga-a1-m4-cA 6rgb-a1-m1-cA_6rgb-a1-m3-cA 6rgb-a1-m2-cA_6rgb-a1-m4-cA 6rgc-a1-m1-cA_6rgc-a1-m3-cA 6rgc-a1-m2-cA_6rgc-a1-m4-cA 6rgd-a1-m1-cA_6rgd-a1-m3-cA 6rgd-a1-m2-cA_6rgd-a1-m4-cA 6rge-a1-m1-cA_6rge-a1-m3-cA 6rge-a1-m2-cA_6rge-a1-m4-cA 6rgf-a1-m1-cA_6rgf-a1-m3-cA 6rgf-a1-m2-cA_6rgf-a1-m4-cA 6rr2-a1-m1-cA_6rr2-a1-m3-cA 6rr2-a1-m2-cA_6rr2-a1-m4-cA 6z61-a1-m1-cA_6z61-a1-m3-cA 6z61-a1-m2-cA_6z61-a1-m4-cA 6z64-a1-m1-cA_6z64-a1-m3-cA 6z64-a1-m2-cA_6z64-a1-m4-cA 6z65-a1-m1-cA_6z65-a1-m3-cA 6z65-a1-m2-cA_6z65-a1-m4-cA 7zz7-a1-m1-cA_7zz7-a1-m3-cA 7zz7-a1-m2-cA_7zz7-a1-m4-cA 7zz9-a1-m1-cA_7zz9-a1-m3-cA 7zz9-a1-m2-cA_7zz9-a1-m4-cA 7zza-a1-m1-cA_7zza-a1-m3-cA 7zza-a1-m2-cA_7zza-a1-m4-cA 7zzb-a1-m1-cA_7zzb-a1-m3-cA 7zzb-a1-m2-cA_7zzb-a1-m4-cA 7zzc-a1-m1-cA_7zzc-a1-m3-cA 7zzc-a1-m2-cA_7zzc-a1-m4-cA 7zzd-a1-m1-cA_7zzd-a1-m3-cA 7zzd-a1-m2-cA_7zzd-a1-m4-cA 7zze-a1-m1-cA_7zze-a1-m3-cA 7zze-a1-m2-cA_7zze-a1-m4-cA 7zzf-a1-m1-cA_7zzf-a1-m3-cA 7zzf-a1-m2-cA_7zzf-a1-m4-cA 7zzg-a1-m1-cA_7zzg-a1-m3-cA 7zzg-a1-m2-cA_7zzg-a1-m4-cA 7zzh-a1-m1-cA_7zzh-a1-m3-cA 7zzh-a1-m2-cA_7zzh-a1-m4-cA 7zzj-a1-m1-cA_7zzj-a1-m3-cA 7zzj-a1-m2-cA_7zzj-a1-m4-cA 8a9v-a1-m1-cA_8a9v-a1-m3-cA 8a9v-a1-m2-cA_8a9v-a1-m4-cA 8b47-a1-m1-cA_8b47-a1-m1-cB 8b47-a1-m2-cA_8b47-a1-m2-cB MKYMITSKGDEKSDLLRLNMIAGFGEYDMEYDDVEPEIVISIGGDGTFLSAFHQYEERLDEIAFIGIHTGHLGFYADWRPAEADKLVKLLAKGEYQKVSYPLLKTTVKYGKEATYLALNESTVKSSGGPFVVDVVINDIHFERFRGDGLCMSTPSGTTAYNKSLGGALMHPSIEAMQLTEMASINNRVYRTIGSPLVFPKHHVVSLQPVNDKDFQISVDHLSILHRDVQEIRYEVSAKKIHFARFRSFPFWRRVHDSFIED MKYMITSKGDEKSDLLRLNMIAGFGEYDMEYDDVEPEIVISIGGDGTFLSAFHQYEERLDEIAFIGIHTGHLGFYADWRPAEADKLVKLLAKGEYQKVSYPLLKTTVKYGKEATYLALNESTVKSSGGPFVVDVVINDIHFERFRGDGLCMSTPSGTTAYNKSLGGALMHPSIEAMQLTEMASINNRVYRTIGSPLVFPKHHVVSLQPVNDKDFQISVDHLSILHRDVQEIRYEVSAKKIHFARFRSFPFWRRVHDSFIED 6rcl-a1-m1-cB_6rcl-a1-m1-cA Crystal structure of REXO2-D199A-AA Q9Y3B8 Q9Y3B8 1.97 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 148 180 6rci-a1-m1-cB_6rci-a1-m1-cA 6rcn-a1-m1-cB_6rcn-a1-m1-cA 6sty-a1-m1-cB_6sty-a1-m1-cA 6sty-a2-m1-cE_6sty-a2-m1-cD GAMAQRMVWVDLEMTGLDIEKDQIIEMACLITDSDLNILAEGPNLIIKQTITLQQAEYEFLSFVRQQTPPGLCPLAGNSVHEDKKFLDKYMPQFMKHLHYRIIDVSTVKELCRRWYPEEYEFAPSHRALDAISESIKELQFYRNNIFK GAMAQRMVWVDLEMTGLDIEKDQIIEMACLITDSDLNILAEGPNLIIKQPDELLDSMSDWCKEHHGKSGLTKAVKESTITLQQAEYEFLSFVRQQTPPGLCPLAGNSVHEDKKFLDKYMPQFMKHLHYRIIDVSTVKELCRRWYPEEYEFAPKKAASHRALDAISESIKELQFYRNNIFK 6rd5-a1-m1-c0_6rd5-a1-m2-c0 CryoEM structure of Polytomella F-ATP synthase, focussed refinement of Fo and peripheral stalk, C2 symmetry A0A5H1ZR95 A0A5H1ZR95 2.69 ELECTRON MICROSCOPY 83 1.0 37502 (Polytomella sp. Pringsheim 198.80) 37502 (Polytomella sp. Pringsheim 198.80) 79 79 6rd4-a1-m1-c0_6rd4-a1-m2-c0 SYSAYFAKAGFQFPAGLSALVAGIVALNVCTGRPTKGTKEISNAEYNATPIGYLQSPDQHPTAFPKVPGMKDVHGSPHH SYSAYFAKAGFQFPAGLSALVAGIVALNVCTGRPTKGTKEISNAEYNATPIGYLQSPDQHPTAFPKVPGMKDVHGSPHH 6rd5-a1-m1-c1_6rd5-a1-m2-c1 CryoEM structure of Polytomella F-ATP synthase, focussed refinement of Fo and peripheral stalk, C2 symmetry Q85JD5 Q85JD5 2.69 ELECTRON MICROSCOPY 76 1.0 37502 (Polytomella sp. Pringsheim 198.80) 37502 (Polytomella sp. Pringsheim 198.80) 595 595 6rd4-a1-m1-c1_6rd4-a1-m2-c1 YLAPLRSDFTEEITAPKVASASNLVNEWNNKKQATENLMKLLQAYKDIGDAKSEPLLKNHNPRTFEDRDYPVPDFRTQNLKAGDVPKFFDTVISTRASAAIASKDKFWAGRKTEAEAASAKASAAFPRVAVPEWKKGKTVSIENLNTVTDKYAAALVPKRKLALPVLPEGVKKAVEDFAASVGQAKNASEVSELLAKSLAEKAVVTEGGKVVEGFSYVSKAVAAKVIATRRAEVHERLLKLWAKRLLVSPELAIVPLNEFDAQLASKFEGISPKYQELLSAVAQGNKTFAQRLNSSPAFSSFLLKREKAESEVPPSELELEAAQKAAELEDPEVALRTLLGPQMEALGASDLLLSEQIRVITEHRYTPDRLQYKEGMKLADKIAAQEAALKEELKVIYGDNVDVKHFQASPRTPVQQLFDSLKNAAANKERAAKEAAAAASPYLAYAVTKKQEVQADPSNIPFDEVLYPQLSEELLELELSDIREDEIALEKAEEEELWLLTLTQQFKHIQKHFGIDLPHSVVAHMDPLLIKKIDWETTNALEDFDITLDDMGAEDAKEQWGAENLSHHFLPLIRYRRDLARKNGDRYGPDLVNG YLAPLRSDFTEEITAPKVASASNLVNEWNNKKQATENLMKLLQAYKDIGDAKSEPLLKNHNPRTFEDRDYPVPDFRTQNLKAGDVPKFFDTVISTRASAAIASKDKFWAGRKTEAEAASAKASAAFPRVAVPEWKKGKTVSIENLNTVTDKYAAALVPKRKLALPVLPEGVKKAVEDFAASVGQAKNASEVSELLAKSLAEKAVVTEGGKVVEGFSYVSKAVAAKVIATRRAEVHERLLKLWAKRLLVSPELAIVPLNEFDAQLASKFEGISPKYQELLSAVAQGNKTFAQRLNSSPAFSSFLLKREKAESEVPPSELELEAAQKAAELEDPEVALRTLLGPQMEALGASDLLLSEQIRVITEHRYTPDRLQYKEGMKLADKIAAQEAALKEELKVIYGDNVDVKHFQASPRTPVQQLFDSLKNAAANKERAAKEAAAAASPYLAYAVTKKQEVQADPSNIPFDEVLYPQLSEELLELELSDIREDEIALEKAEEEELWLLTLTQQFKHIQKHFGIDLPHSVVAHMDPLLIKKIDWETTNALEDFDITLDDMGAEDAKEQWGAENLSHHFLPLIRYRRDLARKNGDRYGPDLVNG 6rfg-a1-m1-cD_6rfg-a1-m1-cA Structure of the Vaccinia core protein E11 Q49PR7 Q49PR7 1.897 X-RAY DIFFRACTION 72 1.0 10245 (Vaccinia virus) 10245 (Vaccinia virus) 123 135 6rfl-a1-m1-cQ_6rfl-a1-m1-cR AMELVNIFLETDAGRVKFAIKNTDDVCASELINKFVELLSEYIHIDQSEFYLVVKDKDIFYFKCDRGSISIVNNEFYVFDEPLLFVKDFTNVTGVEFIVTETMPCRIIPKNNHAVISVVTNHK LYFQGAMELVNIFLETDAGRVKFAIKNTDDVCASELINKFVELLSEYIHIDQSEFYLVVKDKDIFYFKCDRGSISIVNNEFYVFDEPLLFVKDFTNVTGVEFIVTETMPCRIIPKNNHAVISVVTNHKFYNGLSL 6rfk-a1-m1-cI_6rfk-a1-m1-cS Crystal structure of EGRCK-inhibited Gla-domainless fIXa (K148Q, R150Q variant) P00740 1.6 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 9606 (Homo sapiens) 2 235 EG VVGGEDAKPGQFPWQVVLNGKVDAFCGGSIVNEKWIVTAAHCVETGVKITVVAGEHNIEETEHTEQKRNVIRIIPHHNYNAAINKYNHDIALLELDEPLVLNSYVTPICIADKEYTNIFLKFGSGYVSGWGRVFHQGQSALVLQYLRVPLVDRATCLRSTKFTIYNNMFCAGFHEGGRDSCQGDSGGPHVTEVEGTSFLTGIISWGEECAMKGKYGIYTKVSRYVNWIKEKTKLT 6rg2-a1-m1-cA_6rg2-a1-m1-cB Photorhabdus laumondii lectin PLL2 in complex with 3-O-methyl-D-glucose Q7N8I8 Q7N8I8 1.12 X-RAY DIFFRACTION 131 0.994 243265 (Photorhabdus laumondii subsp. laumondii TTO1) 243265 (Photorhabdus laumondii subsp. laumondii TTO1) 343 343 6rfz-a1-m1-cA_6rfz-a1-m2-cA 6rg1-a1-m1-cA_6rg1-a1-m2-cA 6rgg-a1-m1-cB_6rgg-a1-m1-cA AAIALSEIVSVVNTSDGRIEVFGVGTDNAVWHNRQTAPHSGSSWTGWISLNGKVTSKPVVYINTDGRLEVFARGTDNALWHIWQTATNAGWSNWQSLGGTITSNPAVYVNTDGRIDVFARGTDNALWHISQTAAHSGPWSSWQSLNGVITSNPAVHINSDGRLEVFARGTDNALWHIWQTAPDSNQWSGWDSLGGVITSDPVVIGTADGRLEVFARGSNNALYHIWQTVPHGGPWSNWASLNGVITSAPAVVKNSDGRLEVFARGTNNALYHIWQTVSHSGPWSNWATLNGTITSAPTAVEDADGRLEVFARGTDNALWNIWQASWSAWVSLKGSLIDASAIK IALSEIVSVVNTSDGRIEVFGVGTDNAVWHNRQTAPHSGSSWTGWISLNGKVTSKPVVYINTDGRLEVFARGTDNALWHIWQTATNAGWSNWQSLGGTITSNPAVYVNTDGRIDVFARGTDNALWHISQTAAHSGPWSSWQSLNGVITSNPAVHINSDGRLEVFARGTDNALWHIWQTAPDSNQWSGWDSLGGVITSDPVVIGTADGRLEVFARGSNNALYHIWQTVPHGGPWSNWASLNGVITSAPAVVKNSDGRLEVFARGTNNALYHIWQTVSHSGPWSNWATLNGTITSAPTAVEDADGRLEVFARGTDNALWNIWQATPSWSAWVSLKGSLIDASAIK 6rgo-a1-m1-cD_6rgo-a1-m1-cC Complex of KlAtg21 with coiled-coil of AgAtg16 Q755K3 Q755K3 3.701 X-RAY DIFFRACTION 47 1.0 284811 (Eremothecium gossypii ATCC 10895) 284811 (Eremothecium gossypii ATCC 10895) 35 38 SKDAEKLNDEIISLNIENSLLQDKLTALQAEYDKL SKDAEKLNDEIISLNIENSLLQDKLTALQAEYDKLIQR 6riq-a1-m1-cC_6riq-a1-m1-cV MinCD filament from Pseudomonas aeruginosa Q9HYZ6 Q9HYZ6 3.1 ELECTRON MICROSCOPY 11 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 254 254 6riq-a1-m1-cD_6riq-a1-m1-cG 6riq-a1-m1-cK_6riq-a1-m1-cM 6riq-a1-m1-cN_6riq-a1-m1-cQ 6riq-a1-m1-cR_6riq-a1-m1-cU AKILVVTSGKGGVGKTTTSAAIGTGLALRGFKTVIVDFDVGLRNLDLIMGCERRVVYDFVNVVNGEATLTQALIKDKRLENLHVLAASQTRDKDALTKEGVEKVMAELRKDFEYIICDSPAGIEKGAHLAMYFADEAIVVTNPEVSSVRDSDRMLGLLASKSQRAEKGEEPIKEHLLLTRYNPERVTKGEMLSVDDVEEILAIRLLGVIPESQAVLKASNQGVPVILDEQSDAGQAYSDAVDRLLGKEIPHRFL AKILVVTSGKGGVGKTTTSAAIGTGLALRGFKTVIVDFDVGLRNLDLIMGCERRVVYDFVNVVNGEATLTQALIKDKRLENLHVLAASQTRDKDALTKEGVEKVMAELRKDFEYIICDSPAGIEKGAHLAMYFADEAIVVTNPEVSSVRDSDRMLGLLASKSQRAEKGEEPIKEHLLLTRYNPERVTKGEMLSVDDVEEILAIRLLGVIPESQAVLKASNQGVPVILDEQSDAGQAYSDAVDRLLGKEIPHRFL 6riq-a1-m1-cS_6riq-a1-m1-cT MinCD filament from Pseudomonas aeruginosa Q9HYZ7 Q9HYZ7 3.1 ELECTRON MICROSCOPY 33 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 107 107 6riq-a1-m1-cA_6riq-a1-m1-cB 6riq-a1-m1-cE_6riq-a1-m1-cF 6riq-a1-m1-cH_6riq-a1-m1-cI 6riq-a1-m1-cO_6riq-a1-m1-cP PTKVVKTPVRGGMQIYAAGGDLIVLAAVSPGAELLADGNIHVYGPMRGRALAGVKGDATARIFCQQLAAELVSIAGNYKVAEDLRRSPQWGKAVHVSLSGDVLNITR PTKVVKTPVRGGMQIYAAGGDLIVLAAVSPGAELLADGNIHVYGPMRGRALAGVKGDATARIFCQQLAAELVSIAGNYKVAEDLRRSPQWGKAVHVSLSGDVLNITR 6riq-a1-m1-cU_6riq-a1-m1-cV MinCD filament from Pseudomonas aeruginosa Q9HYZ6 Q9HYZ6 3.1 ELECTRON MICROSCOPY 92 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 254 254 6riq-a1-m1-cC_6riq-a1-m1-cD 6riq-a1-m1-cJ_6riq-a1-m1-cK 6riq-a1-m1-cM_6riq-a1-m1-cN 6riq-a1-m1-cQ_6riq-a1-m1-cR AKILVVTSGKGGVGKTTTSAAIGTGLALRGFKTVIVDFDVGLRNLDLIMGCERRVVYDFVNVVNGEATLTQALIKDKRLENLHVLAASQTRDKDALTKEGVEKVMAELRKDFEYIICDSPAGIEKGAHLAMYFADEAIVVTNPEVSSVRDSDRMLGLLASKSQRAEKGEEPIKEHLLLTRYNPERVTKGEMLSVDDVEEILAIRLLGVIPESQAVLKASNQGVPVILDEQSDAGQAYSDAVDRLLGKEIPHRFL AKILVVTSGKGGVGKTTTSAAIGTGLALRGFKTVIVDFDVGLRNLDLIMGCERRVVYDFVNVVNGEATLTQALIKDKRLENLHVLAASQTRDKDALTKEGVEKVMAELRKDFEYIICDSPAGIEKGAHLAMYFADEAIVVTNPEVSSVRDSDRMLGLLASKSQRAEKGEEPIKEHLLLTRYNPERVTKGEMLSVDDVEEILAIRLLGVIPESQAVLKASNQGVPVILDEQSDAGQAYSDAVDRLLGKEIPHRFL 6riu-a1-m1-cA_6riu-a1-m1-cB C-terminal domain of TssA protein from T6SS of Vibrio cholerae. Q9KN46 Q9KN46 3.9 ELECTRON MICROSCOPY 35 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 91 91 GGDWQEKRKEAFQLAKEGGIAVALSMLNDGLVSAVEPRDKFYWRLLSADLLRANHLDAMAGEQYQTLLNQVTTLSVPEWEPSLVEQIQRYT GGDWQEKRKEAFQLAKEGGIAVALSMLNDGLVSAVEPRDKFYWRLLSADLLRANHLDAMAGEQYQTLLNQVTTLSVPEWEPSLVEQIQRYT 6rj8-a1-m1-cA_6rj8-a1-m2-cA Structure of the alpha-beta hydrolase CorS from Tabernathe iboga A0A5B8X6B5 A0A5B8X6B5 1.42 X-RAY DIFFRACTION 88 1.0 141617 (Tabernanthe iboga) 141617 (Tabernanthe iboga) 316 316 DEIVFDLHPYIRVFKNGKVERLHDTPYVPPSLEDPATGVSWKDVPISSDVSARVYLPKISEAEKKKLPIFVYFHGAGFCLESAFKSFFHTYVKHVVAETKAVGVSVEYRLAPEHPLPAAYEDCWTALQWVASHVGLDNSSLKNAIDKEPWIINHGDLNKLYLGGDSPGGNIVHNVLIRAGKESLHGGVKIRGAILYYPYFLIRTSKRQSDYMEIDYRGYWKLAYPSAPGGTDNPMINPVAKNAPDLAGYGCSRLLVSMVSDETRDITLLYLEALKKSGWKGELEVGDYEAHFFDLFSPENEVGKTWIKRSSDFINK DEIVFDLHPYIRVFKNGKVERLHDTPYVPPSLEDPATGVSWKDVPISSDVSARVYLPKISEAEKKKLPIFVYFHGAGFCLESAFKSFFHTYVKHVVAETKAVGVSVEYRLAPEHPLPAAYEDCWTALQWVASHVGLDNSSLKNAIDKEPWIINHGDLNKLYLGGDSPGGNIVHNVLIRAGKESLHGGVKIRGAILYYPYFLIRTSKRQSDYMEIDYRGYWKLAYPSAPGGTDNPMINPVAKNAPDLAGYGCSRLLVSMVSDETRDITLLYLEALKKSGWKGELEVGDYEAHFFDLFSPENEVGKTWIKRSSDFINK 6rjn-a1-m1-cA_6rjn-a1-m1-cD Crystal structure of a Fungal Catalase at 2.3 Angstroms C1PHG1 C1PHG1 2.295 X-RAY DIFFRACTION 338 1.0 4922 (Komagataella pastoris) 4922 (Komagataella pastoris) 502 502 6rjn-a1-m1-cB_6rjn-a1-m1-cC QPPKWTTSNGAPVSDVFATERATFDNANHANNAPKVGPLLLQDFQLIDSLAHFDRERIPERVVHAKGAGAFGEFEVTDDISDVCAAKFLDTIGKKTRIFTRFSTVGGEKGSADSARDPRGFSTKFYTEEGNLDLVYNNTPIFFIRDPSKFPHFIHTQKRNPATNLKDANMFWDYLVNNQESIHQVMYLFSDRGTPASLRKMNGYSGHTYKWYNKKGEWVYVQVHFKSDLGVVNFNNEEAGKLAGEDPDYHTGDLFNAIERGEYPSWTCYIQTMTQEQAAKQPFSVFDLTKVWPHKDFPLRRFGKFTLNENPKNYFAEVEQAAFSPSHTIPSMQPSADPVLQSRLFSYPDTHRHRLGVNYQQIPVNCPVAPVFTPQMRDGSMTVNGNLGSTPNYKSSFCPFSTEAQIQTNSHTPEEVLAAHTEKFHWGGILDSKSYDFEQPRALWKVFGKTPGQQRNFCHNVAVHVAAANHEIQDRVFEYFSKVYPEIGDQIRKEVLQLSPRG QPPKWTTSNGAPVSDVFATERATFDNANHANNAPKVGPLLLQDFQLIDSLAHFDRERIPERVVHAKGAGAFGEFEVTDDISDVCAAKFLDTIGKKTRIFTRFSTVGGEKGSADSARDPRGFSTKFYTEEGNLDLVYNNTPIFFIRDPSKFPHFIHTQKRNPATNLKDANMFWDYLVNNQESIHQVMYLFSDRGTPASLRKMNGYSGHTYKWYNKKGEWVYVQVHFKSDLGVVNFNNEEAGKLAGEDPDYHTGDLFNAIERGEYPSWTCYIQTMTQEQAAKQPFSVFDLTKVWPHKDFPLRRFGKFTLNENPKNYFAEVEQAAFSPSHTIPSMQPSADPVLQSRLFSYPDTHRHRLGVNYQQIPVNCPVAPVFTPQMRDGSMTVNGNLGSTPNYKSSFCPFSTEAQIQTNSHTPEEVLAAHTEKFHWGGILDSKSYDFEQPRALWKVFGKTPGQQRNFCHNVAVHVAAANHEIQDRVFEYFSKVYPEIGDQIRKEVLQLSPRG 6rjn-a1-m1-cB_6rjn-a1-m1-cD Crystal structure of a Fungal Catalase at 2.3 Angstroms C1PHG1 C1PHG1 2.295 X-RAY DIFFRACTION 122 1.0 4922 (Komagataella pastoris) 4922 (Komagataella pastoris) 502 502 6rjn-a1-m1-cA_6rjn-a1-m1-cC QPPKWTTSNGAPVSDVFATERATFDNANHANNAPKVGPLLLQDFQLIDSLAHFDRERIPERVVHAKGAGAFGEFEVTDDISDVCAAKFLDTIGKKTRIFTRFSTVGGEKGSADSARDPRGFSTKFYTEEGNLDLVYNNTPIFFIRDPSKFPHFIHTQKRNPATNLKDANMFWDYLVNNQESIHQVMYLFSDRGTPASLRKMNGYSGHTYKWYNKKGEWVYVQVHFKSDLGVVNFNNEEAGKLAGEDPDYHTGDLFNAIERGEYPSWTCYIQTMTQEQAAKQPFSVFDLTKVWPHKDFPLRRFGKFTLNENPKNYFAEVEQAAFSPSHTIPSMQPSADPVLQSRLFSYPDTHRHRLGVNYQQIPVNCPVAPVFTPQMRDGSMTVNGNLGSTPNYKSSFCPFSTEAQIQTNSHTPEEVLAAHTEKFHWGGILDSKSYDFEQPRALWKVFGKTPGQQRNFCHNVAVHVAAANHEIQDRVFEYFSKVYPEIGDQIRKEVLQLSPRG QPPKWTTSNGAPVSDVFATERATFDNANHANNAPKVGPLLLQDFQLIDSLAHFDRERIPERVVHAKGAGAFGEFEVTDDISDVCAAKFLDTIGKKTRIFTRFSTVGGEKGSADSARDPRGFSTKFYTEEGNLDLVYNNTPIFFIRDPSKFPHFIHTQKRNPATNLKDANMFWDYLVNNQESIHQVMYLFSDRGTPASLRKMNGYSGHTYKWYNKKGEWVYVQVHFKSDLGVVNFNNEEAGKLAGEDPDYHTGDLFNAIERGEYPSWTCYIQTMTQEQAAKQPFSVFDLTKVWPHKDFPLRRFGKFTLNENPKNYFAEVEQAAFSPSHTIPSMQPSADPVLQSRLFSYPDTHRHRLGVNYQQIPVNCPVAPVFTPQMRDGSMTVNGNLGSTPNYKSSFCPFSTEAQIQTNSHTPEEVLAAHTEKFHWGGILDSKSYDFEQPRALWKVFGKTPGQQRNFCHNVAVHVAAANHEIQDRVFEYFSKVYPEIGDQIRKEVLQLSPRG 6rjn-a1-m1-cC_6rjn-a1-m1-cD Crystal structure of a Fungal Catalase at 2.3 Angstroms C1PHG1 C1PHG1 2.295 X-RAY DIFFRACTION 306 1.0 4922 (Komagataella pastoris) 4922 (Komagataella pastoris) 502 502 6rjn-a1-m1-cA_6rjn-a1-m1-cB QPPKWTTSNGAPVSDVFATERATFDNANHANNAPKVGPLLLQDFQLIDSLAHFDRERIPERVVHAKGAGAFGEFEVTDDISDVCAAKFLDTIGKKTRIFTRFSTVGGEKGSADSARDPRGFSTKFYTEEGNLDLVYNNTPIFFIRDPSKFPHFIHTQKRNPATNLKDANMFWDYLVNNQESIHQVMYLFSDRGTPASLRKMNGYSGHTYKWYNKKGEWVYVQVHFKSDLGVVNFNNEEAGKLAGEDPDYHTGDLFNAIERGEYPSWTCYIQTMTQEQAAKQPFSVFDLTKVWPHKDFPLRRFGKFTLNENPKNYFAEVEQAAFSPSHTIPSMQPSADPVLQSRLFSYPDTHRHRLGVNYQQIPVNCPVAPVFTPQMRDGSMTVNGNLGSTPNYKSSFCPFSTEAQIQTNSHTPEEVLAAHTEKFHWGGILDSKSYDFEQPRALWKVFGKTPGQQRNFCHNVAVHVAAANHEIQDRVFEYFSKVYPEIGDQIRKEVLQLSPRG QPPKWTTSNGAPVSDVFATERATFDNANHANNAPKVGPLLLQDFQLIDSLAHFDRERIPERVVHAKGAGAFGEFEVTDDISDVCAAKFLDTIGKKTRIFTRFSTVGGEKGSADSARDPRGFSTKFYTEEGNLDLVYNNTPIFFIRDPSKFPHFIHTQKRNPATNLKDANMFWDYLVNNQESIHQVMYLFSDRGTPASLRKMNGYSGHTYKWYNKKGEWVYVQVHFKSDLGVVNFNNEEAGKLAGEDPDYHTGDLFNAIERGEYPSWTCYIQTMTQEQAAKQPFSVFDLTKVWPHKDFPLRRFGKFTLNENPKNYFAEVEQAAFSPSHTIPSMQPSADPVLQSRLFSYPDTHRHRLGVNYQQIPVNCPVAPVFTPQMRDGSMTVNGNLGSTPNYKSSFCPFSTEAQIQTNSHTPEEVLAAHTEKFHWGGILDSKSYDFEQPRALWKVFGKTPGQQRNFCHNVAVHVAAANHEIQDRVFEYFSKVYPEIGDQIRKEVLQLSPRG 6rjo-a1-m1-cB_6rjo-a1-m1-cA Complex structure of virulence factor SghA with its substrate analog salicin A0A2I4PGZ0 A0A2I4PGZ0 1.804 X-RAY DIFFRACTION 74 1.0 1453998 (Agrobacterium tumefaciens A6) 1453998 (Agrobacterium tumefaciens A6) 449 454 6rjk-a1-m1-cB_6rjk-a1-m1-cA 6rjm-a1-m1-cA_6rjm-a1-m1-cB 6rk2-a1-m1-cB_6rk2-a1-m1-cA DHKALAARFPGDFLFGVATASFQIEGATKVDGRKPSIWDAFCNMPGHVFGRHNGDVACDHYNRWEDDLDLIKEMGVEAYRFSIAWPRIIPDGFGPINEKGLDFYDRLVDGCKARGIKTYATLYHWDLPLTLMGDGGWASRSTAHAFQRYAKTVMARLGDRLDAVATFNSPWCAVWLSHLYGIHAPGERNMEAALAAMHHINLAHGFGVEASRHVAPKVPVGLVLNAHSVIPASNSDADMKAAERAFQFHNGAFFDPVFKGEYPAEMIEALGSRMPVVEAEDLSIISQKLDWWGLNYYTPMRVADDATEGAEFPATKQAPAVSDVKTDIGWEVYAPALHSLVETLYERYELPDCYITENGACYNMGVENGEVDDQPRLDYYAEHLGIVADLVKDGYPMRGYFAWSLMDNFEWAEGYRMRFGLVHVDYETQVRTLKNSGKWYSALASGFPK AYPMTDHKALAARFPGDFLFGVATASFQIEGATKVDGRKPSIWDAFCNMPGHVFGRHNGDVACDHYNRWEDDLDLIKEMGVEAYRFSIAWPRIIPDGFGPINEKGLDFYDRLVDGCKARGIKTYATLYHWDLPLTLMGDGGWASRSTAHAFQRYAKTVMARLGDRLDAVATFNSPWCAVWLSHLYGIHAPGERNMEAALAAMHHINLAHGFGVEASRHVAPKVPVGLVLNAHSVIPASNSDADMKAAERAFQFHNGAFFDPVFKGEYPAEMIEALGSRMPVVEAEDLSIISQKLDWWGLNYYTPMRVADDATEGAEFPATKQAPAVSDVKTDIGWEVYAPALHSLVETLYERYELPDCYITENGACYNMGVENGEVDDQPRLDYYAEHLGIVADLVKDGYPMRGYFAWSLMDNFEWAEGYRMRFGLVHVDYETQVRTLKNSGKWYSALASGFPK 6rjr-a1-m1-cB_6rjr-a1-m1-cD Crystal structure of a Fungal Catalase at 1.9 Angstrom Q6CR58 Q6CR58 1.895 X-RAY DIFFRACTION 340 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 501 502 6rjr-a1-m1-cC_6rjr-a1-m1-cA GHPTNTADVRKDRVVTNSQGAPINEPFATQRVGQHGPLLLQDFNLLDSLAHFNRERIPERNPHAHGSGAFGYLEITDDITDVCGSAMFDTVGKRTRCLVRFSTVGGEKGSADTARDPRGFAIKFYSEEGNVDWVNNNTPVFFIRDPSKFPHFIHTQKRNPETNMKDADMFWDFLTTEENQVAIHQVMILFSDRGTPASYRNMNSYSGHTYKWSNKQGEWRYVQVHLKTDQGIKNLNNEEATKLAGENPDYCQKDLFENIAKGNYPSWTLYIQTMTEEEAEKLPFSVFDLTKVWPHKQFPLRRVGKMVLNENPENYFAQVEQAAFSPSHTVPYQEASADPVLQARLFSYPDAHRYRLGPNYSQIPVNCPYASKVFNPAIRDGPMNVNGNLGKEPNYLSTSKKYQFIQQSKPIQQHQEVWSGPAMPVHWATSPGDIDFVQARDLYNKVLSKQPGQQKALAHNVAVHVASACPEIQDRVFAMFARVDRGLSENIKKEALSLSPR GHPTNTADVRKDRVVTNSQGAPINEPFATQRVGQHGPLLLQDFNLLDSLAHFNRERIPERNPHAHGSGAFGYLEITDDITDVCGSAMFDTVGKRTRCLVRFSTVGGEKGSADTARDPRGFAIKFYSEEGNVDWVNNNTPVFFIRDPSKFPHFIHTQKRNPETNMKDADMFWDFLTTEENQVAIHQVMILFSDRGTPASYRNMNSYSGHTYKWSNKQGEWRYVQVHLKTDQGIKNLNNEEATKLAGENPDYCQKDLFENIAKGNYPSWTLYIQTMTEEEAEKLPFSVFDLTKVWPHKQFPLRRVGKMVLNENPENYFAQVEQAAFSPSHTVPYQEASADPVLQARLFSYPDAHRYRLGPNYSQIPVNCPYASKVFNPAIRDGPMNVNGNLGKEPNYLSTSKKYQFIQQSKPIQQHQEVWSGPAMPVHWATSPGDIDFVQARDLYNKVLSKQPGQQKALAHNVAVHVASACPEIQDRVFAMFARVDRGLSENIKKEALSLSPRK 6rjr-a1-m1-cC_6rjr-a1-m1-cD Crystal structure of a Fungal Catalase at 1.9 Angstrom Q6CR58 Q6CR58 1.895 X-RAY DIFFRACTION 279 1.0 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 500 502 6rjr-a1-m1-cB_6rjr-a1-m1-cA HPTNTADVRKDRVVTNSQGAPINEPFATQRVGQHGPLLLQDFNLLDSLAHFNRERIPERNPHAHGSGAFGYLEITDDITDVCGSAMFDTVGKRTRCLVRFSTVGGEKGSADTARDPRGFAIKFYSEEGNVDWVNNNTPVFFIRDPSKFPHFIHTQKRNPETNMKDADMFWDFLTTEENQVAIHQVMILFSDRGTPASYRNMNSYSGHTYKWSNKQGEWRYVQVHLKTDQGIKNLNNEEATKLAGENPDYCQKDLFENIAKGNYPSWTLYIQTMTEEEAEKLPFSVFDLTKVWPHKQFPLRRVGKMVLNENPENYFAQVEQAAFSPSHTVPYQEASADPVLQARLFSYPDAHRYRLGPNYSQIPVNCPYASKVFNPAIRDGPMNVNGNLGKEPNYLSTSKKYQFIQQSKPIQQHQEVWSGPAMPVHWATSPGDIDFVQARDLYNKVLSKQPGQQKALAHNVAVHVASACPEIQDRVFAMFARVDRGLSENIKKEALSLSPR GHPTNTADVRKDRVVTNSQGAPINEPFATQRVGQHGPLLLQDFNLLDSLAHFNRERIPERNPHAHGSGAFGYLEITDDITDVCGSAMFDTVGKRTRCLVRFSTVGGEKGSADTARDPRGFAIKFYSEEGNVDWVNNNTPVFFIRDPSKFPHFIHTQKRNPETNMKDADMFWDFLTTEENQVAIHQVMILFSDRGTPASYRNMNSYSGHTYKWSNKQGEWRYVQVHLKTDQGIKNLNNEEATKLAGENPDYCQKDLFENIAKGNYPSWTLYIQTMTEEEAEKLPFSVFDLTKVWPHKQFPLRRVGKMVLNENPENYFAQVEQAAFSPSHTVPYQEASADPVLQARLFSYPDAHRYRLGPNYSQIPVNCPYASKVFNPAIRDGPMNVNGNLGKEPNYLSTSKKYQFIQQSKPIQQHQEVWSGPAMPVHWATSPGDIDFVQARDLYNKVLSKQPGQQKALAHNVAVHVASACPEIQDRVFAMFARVDRGLSENIKKEALSLSPRK 6rjr-a1-m1-cD_6rjr-a1-m1-cA Crystal structure of a Fungal Catalase at 1.9 Angstrom Q6CR58 Q6CR58 1.895 X-RAY DIFFRACTION 134 0.996 28985 (Kluyveromyces lactis) 28985 (Kluyveromyces lactis) 502 505 6rjr-a1-m1-cC_6rjr-a1-m1-cB GHPTNTADVRKDRVVTNSQGAPINEPFATQRVGQHGPLLLQDFNLLDSLAHFNRERIPERNPHAHGSGAFGYLEITDDITDVCGSAMFDTVGKRTRCLVRFSTVGGEKGSADTARDPRGFAIKFYSEEGNVDWVNNNTPVFFIRDPSKFPHFIHTQKRNPETNMKDADMFWDFLTTEENQVAIHQVMILFSDRGTPASYRNMNSYSGHTYKWSNKQGEWRYVQVHLKTDQGIKNLNNEEATKLAGENPDYCQKDLFENIAKGNYPSWTLYIQTMTEEEAEKLPFSVFDLTKVWPHKQFPLRRVGKMVLNENPENYFAQVEQAAFSPSHTVPYQEASADPVLQARLFSYPDAHRYRLGPNYSQIPVNCPYASKVFNPAIRDGPMNVNGNLGKEPNYLSTSKKYQFIQQSKPIQQHQEVWSGPAMPVHWATSPGDIDFVQARDLYNKVLSKQPGQQKALAHNVAVHVASACPEIQDRVFAMFARVDRGLSENIKKEALSLSPRK FQGAMGHPTNTADVRKDRVVTNSQGAPINEPFATQRVGQHGPLLLQDFNLLDSLAHFNRERIPERNPHAHGSGAFGYLEITDDITDVCGSAMFDTVGKRTRCLVRFSTVGGEKGSADTARDPRGFAIKFYSEEGNVDWVNNNTPVFFIRDPSKFPHFIHTQKRNPETNMKDADMFWDFLTTEENQVAIHQVMILFSDRGTPASYRNMNSYSGHTYKWSNKQGEWRYVQVHLKTDQGIKNLNNEEATKLAGENPDYCQKDLFENIAKGNYPSWTLYIQTMTEEEAEKLPFSVFDLTKVWPHKQFPLRRVGKMVLNENPENYFAQVEQAAFSPSHTVPYQEASADPVLQARLFSYPDAHRYRLGPNYSQIPVNCPYASKVFNPAIRDGPMNVNGNLGKEPNYLSTSKKYQFIQQSKPIQQHQEVWSGPAPVHWATSPGDIDFVQARDLYNKVLSKQPGQQKALAHNVAVHVASACPEIQDRVFAMFARVDRGLSENIKKEALSLSPR 6rk0-a1-m1-cA_6rk0-a1-m1-cB Structure of the Flavocytochrome Anf3 from Azotobacter vinelandii C1DK98 C1DK98 0.99 X-RAY DIFFRACTION 254 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 214 214 PEAPSDRTHVKRYHWLARYDQETVKAILDATPLAHVGCMMNGVPFVTPTFFWREGDRVYWHGSSAGRLFKALEHQDICLTVSLLDGLVIARSAYNFNCNFRSVMLLGRAELISDEAVKAEKLRNFVDGLIPGEWERLRPVHAKEIEATAVASLSIAEASCKVRTGPPLDDEEDYAFPSWAGVIPIRYQVLPPEPDPRNLPDVPMPEDILKFRLG PEAPSDRTHVKRYHWLARYDQETVKAILDATPLAHVGCMMNGVPFVTPTFFWREGDRVYWHGSSAGRLFKALEHQDICLTVSLLDGLVIARSAYNFNCNFRSVMLLGRAELISDEAVKAEKLRNFVDGLIPGEWERLRPVHAKEIEATAVASLSIAEASCKVRTGPPLDDEEDYAFPSWAGVIPIRYQVLPPEPDPRNLPDVPMPEDILKFRLG 6rk1-a1-m1-cA_6rk1-a1-m1-cB Crystal structure of TSP1 domain from CCN3 Q9QZQ5 Q9QZQ5 1.63 X-RAY DIFFRACTION 28 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 46 46 NCIEQTTEWSACSKSCGMGLSTRVTNRNLQCEMVKQTRLCMVRPCE NCIEQTTEWSACSKSCGMGLSTRVTNRNLQCEMVKQTRLCMVRPCE 6rk6-a2-m1-cB_6rk6-a2-m2-cB Characterization of an intertidal zone metagenome oligoribonuclease and the role of the intermolecular disulfide bond for homodimer formation and nuclease activity. 3.15 X-RAY DIFFRACTION 79 1.0 256318 (metagenome) 256318 (metagenome) 177 177 6rk6-a1-m1-cA_6rk6-a1-m1-cC PNVLVWMDLEMTGLDPEKDRIIEMATIITDGDLRTIAEGPVIVIHQKQELIDGMDEWNTRTHNKTGLVTKVKTSRVTERQAEIETLDFIQRHTLKNRAPLCGNSICQDRRFLYKYMPELSEWLHYRNVDVSSFKEVARHWAPSILSGFEKRASHQALDDIKESIEELRYYRNNLILL PNVLVWMDLEMTGLDPEKDRIIEMATIITDGDLRTIAEGPVIVIHQKQELIDGMDEWNTRTHNKTGLVTKVKTSRVTERQAEIETLDFIQRHTLKNRAPLCGNSICQDRRFLYKYMPELSEWLHYRNVDVSSFKEVARHWAPSILSGFEKRASHQALDDIKESIEELRYYRNNLILL 6rky-a2-m1-cB_6rky-a2-m1-cD STRUCTURE OF ESTER-HYDROLASE EH1AB1 FROM THE METAGENOME OF LAKE ARREO COMPLEXED WITH A DERIVATIVE OF BIPYRIDINE PHOSPHONATE 2.79 X-RAY DIFFRACTION 66 1.0 256318 (metagenome) 256318 (metagenome) 314 314 5jd4-a1-m1-cA_5jd4-a1-m1-cH 5jd4-a2-m1-cB_5jd4-a2-m1-cE 5jd4-a3-m1-cC_5jd4-a3-m1-cF 5jd4-a4-m1-cD_5jd4-a4-m1-cG 6i8d-a1-m1-cA_6i8d-a1-m1-cB 6i8f-a1-m1-cA_6i8f-a1-m1-cB 6rb0-a1-m1-cA_6rb0-a1-m1-cB 6rky-a1-m1-cA_6rky-a1-m1-cC MLLPETRNLLDLMDAATRGGRPGLDTLPHAVGRKAVDKMSEDGEADPPEVAEVANGGFAGPASEIRFRRYRPLGEAAGLLPTLIYYHGGGFVIGNIETHDSTCRRLANKSRCQVISIDYRLAPEHPFPAPIDDGIAAFRHIRDNAESFGADAARLAVGGDAGGAMAAVVCQACRDAGETGPAFQMLIYPATDSSRESASRVAFAEGYFLSKAHMDWFWEAYVPEDTDLTDLRLSPLLATDFTGLPPAFVLTAGYDPLRDEGRAYADRLIEAGIKTTYVNYPGTIHGFFSLTRFLSQGLKANDEAAAVMGAHFGT MLLPETRNLLDLMDAATRGGRPGLDTLPHAVGRKAVDKMSEDGEADPPEVAEVANGGFAGPASEIRFRRYRPLGEAAGLLPTLIYYHGGGFVIGNIETHDSTCRRLANKSRCQVISIDYRLAPEHPFPAPIDDGIAAFRHIRDNAESFGADAARLAVGGDAGGAMAAVVCQACRDAGETGPAFQMLIYPATDSSRESASRVAFAEGYFLSKAHMDWFWEAYVPEDTDLTDLRLSPLLATDFTGLPPAFVLTAGYDPLRDEGRAYADRLIEAGIKTTYVNYPGTIHGFFSLTRFLSQGLKANDEAAAVMGAHFGT 6rl5-a2-m1-cH_6rl5-a2-m1-cE The first crystal structure of the DABA aminotransferase EctB in the ectoine biosynthesis pathway of the model organism Chromohalobacter salexigens DSM 3034 Q9ZEU7 Q9ZEU7 2.45 X-RAY DIFFRACTION 105 1.0 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 417 418 6rl5-a1-m1-cA_6rl5-a1-m1-cD 6rl5-a1-m1-cB_6rl5-a1-m1-cC 6rl5-a2-m1-cF_6rl5-a2-m1-cG QILERMESEVRTYSRSFPTVFTEAKGARLHAEDGNQYIDFLAGAGTLNYGHNHPKLKQALADYIASDGIVHGLDMWSAAKRDYLETLEEVILKPRGLDYKVHLPGPTGTNAVEAAIRLARNAKGRHNIVTFTNGFHGVTMGALATTGNRKFREATGGIPTQGASFMPFDGYMGEGVDTLSYFEKLLGDNSGGLDVPAAVIIETVQGEGGINPAGIPWLQRLEKICRDHDMLLIVDDIQAGCGRTGKFFSFEHAGITPDIVTNSKSLSGFGLPFAHVLMRPELDIWKPGQYNGTFRGFNLAFVTAAAAMRHFWSDDTFERDVQRKGRVVEDRFQKLASFMTEKGHPASERGRGLMRGLDVGDGDMADKITAQAFKNGLIIETSGHSGQVIKCLCPLTITDEDLVGGLDILEQSVKEVF QILERMESEVRTYSRSFPTVFTEAKGARLHAEDGNQYIDFLAGAGTLNYGHNHPKLKQALADYIASDGIVHGLDMWSAAKRDYLETLEEVILKPRGLDYKVHLPGPTGTNAVEAAIRLARNAKGRHNIVTFTNGFHGVTMGALATTGNRKFREATGGIPTQGASFMPFDGYMGEGVDTLSYFEKLLGDNSGGLDVPAAVIIETVQGEGGINPAGIPWLQRLEKICRDHDMLLIVDDIQAGCGRTGKFFSFEHAGITPDIVTNSKSLSGFGLPFAHVLMRPELDIWKPGQYNGTFRGFNLAFVTAAAAMRHFWSDDTFERDVQRKGRVVEDRFQKLASFMTEKGHPASERGRGLMRGLDVGDGDMADKITAQAFKNGLIIETSGHSGQVIKCLCPLTITDEDLVGGLDILEQSVKEVFG 6rl5-a2-m1-cH_6rl5-a2-m1-cG The first crystal structure of the DABA aminotransferase EctB in the ectoine biosynthesis pathway of the model organism Chromohalobacter salexigens DSM 3034 Q9ZEU7 Q9ZEU7 2.45 X-RAY DIFFRACTION 342 1.0 290398 (Chromohalobacter salexigens DSM 3043) 290398 (Chromohalobacter salexigens DSM 3043) 417 422 6rl5-a1-m1-cA_6rl5-a1-m1-cB 6rl5-a1-m1-cD_6rl5-a1-m1-cC 6rl5-a2-m1-cF_6rl5-a2-m1-cE QILERMESEVRTYSRSFPTVFTEAKGARLHAEDGNQYIDFLAGAGTLNYGHNHPKLKQALADYIASDGIVHGLDMWSAAKRDYLETLEEVILKPRGLDYKVHLPGPTGTNAVEAAIRLARNAKGRHNIVTFTNGFHGVTMGALATTGNRKFREATGGIPTQGASFMPFDGYMGEGVDTLSYFEKLLGDNSGGLDVPAAVIIETVQGEGGINPAGIPWLQRLEKICRDHDMLLIVDDIQAGCGRTGKFFSFEHAGITPDIVTNSKSLSGFGLPFAHVLMRPELDIWKPGQYNGTFRGFNLAFVTAAAAMRHFWSDDTFERDVQRKGRVVEDRFQKLASFMTEKGHPASERGRGLMRGLDVGDGDMADKITAQAFKNGLIIETSGHSGQVIKCLCPLTITDEDLVGGLDILEQSVKEVF QTQILERMESEVRTYSRSFPTVFTEAKGARLHAEDGNQYIDFLAGAGTLNYGHNHPKLKQALADYIASDGIVHGLDMWSAAKRDYLETLEEVILKPRGLDYKVHLPGPTGTNAVEAAIRLARNAKGRHNIVTFTNGFHGVTMGALATTGNRKFREATGGIPTQGASFMPFDGYMGEGVDTLSYFEKLLGDNSGGLDVPAAVIIETVQGEGGINPAGIPWLQRLEKICRDHDMLLIVDDIQAGCGRTGKFFSFEHAGITPDIVTNSKSLSGFGLPFAHVLMRPELDIWKPGQYNGTFRGFNLAFVTAAAAMRHFWSDDTFERDVQRKGRVVEDRFQKLASFMTEKGHPASERGRGLMRGLDVGDGDMADKITAQAFKNGLIIETSGHSGQVIKCLCPLTITDEDLVGGLDILEQSVKEVFGQA 6rla-a1-m1-cA_6rla-a1-m1-cB Structure of the dynein-2 complex; motor domains B0I1S0 B0I1S0 3.9 ELECTRON MICROSCOPY 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2750 2750 QGEVTIREALRELDLWGVGAVFTLIDYEDSQSRTMKLIKDWKDIVNQVGDNRCLLQSLKDSPYYKGFEDKVSIWERKLAELDEYLQNLNHIQRKWVYLEPIFGRGALPKEQTRFNRVDEDFRSIMTDIKKDNRVTTLTTHAGIRNSLLTILDQLQRCQRSLNEFLEEKRSAFPRFYFIGDDDLLEILGQSTNPSVIQSHLKKLFAGINSVCFDEKSKHITAMKSLEGEVVPFKNKVPLSNNVETWLNDLALEMKKTLEQLLKECVTTGRSSQGAVDPSLFPSQILCLAEQIKFTEDVENAIKDHSLHQIETQLVNKLEQYTNIDTSSEDPGNTESGILELKLKALILDIIHNIDVVKQLNQIQVHTTEDWAWKKQLRFYMKSDHTCCVQMVDSEFQYTYEYQGNASKLVYTPLTDKCYLTLTQAMKMGLGGNPYGPAGTGKTESVKALGGLLGRQVLVFNCDEGIDVKSMGRIFVGLVKCGAWGCFDEFNRLEESVLSAVSMQIQTIQDALKNHRTVCELLGKEVEVNSNSGIFITMNPAGKGYGGRQKLPDNLKQLFRPVAMSHPDNELIAEVILYSEGFKDAKVLSRKLVAIFNLSRELLTPQQHYDWGLRALKTVLRGSGNLLRQLNKSGTTQNANESHIVVQALRLNTMSKFTFTDCTRFDALIKDVFPGIELKEVEYDELSAALKQVFEEANYEIIPNQIKKALELYEQLCQRMGVVIVGPSGAGKSTLWRMLRAALCKTGKVVKQYTMNPKAMPRYQLLGHIDMDTREWSDGVLTNSARQVVREPQDVSSWIICDGDIDPEWIESLNSVLDDNRLLTMPSGERIQFGPNVNFVFETHDLSCASPATISRMGMIFLSDEETDLNSLIKSWLRNQPAEYRNNLENWIGDYFEKALQWVLKQNDYVVETSLVGTVMNGLSHLHGCRDHDEFIINLIRGLGGNLNMKSRLEFTKEVFHWARESPPDFHKPMDTYYDSTRGRLATYVLKKPEDLTADDFSNGLTLPVIQTPDMQRGLDYFKPWLSSDTKQPFILVGPEGCGKGMLLRYAFSQLRSTQIATVHCSAQTTSRHLLQKLSQTCMVISTNTGRVYRPKDCERLVLYLKDINLPKLDKWGTSTLVAFLQQVLTYQGFYDENLEWVGLENIQIVASMSAGGRLGRHKLTTRFTSIVRLCSIDYPEREQLQTIYGAYLEPVLHKNLKNHSIWGSSSKIYLLAGSMVQVYEQVRAKFTVDDYSHYFFTPCILTQWVLGLFRYDLEGGSSNHPLDYVLEIVAYEARRLFRDKIVGAKELHLFDIILTSVFQGDWGSDILDNMSDSFYVTWGARHNSGAPGQPLPPHGKPLGKLNSTDLKDVIKKGLIHYGRDNQNLDILLFHEVLEYMSRIDRVLSFPGGSLLLAGRSGVGRRTITSLVSHMHGAVLFSPKISRGYELKQFKNDLKHVLQLAGIEAQQVVLLLEDYQFVHPTFLEMINSLLSSGEVPGLYTLEELEPLLLPLKDQASQDGFFGPVFNYFTYRIQQNLHIVLIMDSANSNFMINCESNPALHKKCQVLWMEGWSNSSMKKIPEMLFSEVDPDFLKSFLLIHESCKAYGATPSQYMTFLHVYSAISSSKKKELLKRQSHLQAGVSKLNEAKALVDELNRKAGEQSVLLETIKAAEVLINQLDREHKRWNAQVVEITEELATLPKRAQLAAAFITYLSAAPESLRKTCLEEWTKSAGLEKFDLRRFLCTESEQLIWKSEGLPSDDLSIENALVILQSRVCPFLIDPSSQATEWLKTHLKDSRLEVINQQDSNFITALELAVRFGKTLIIQEMDGVEPVLYPLLRRDLVAQGPRYVVQIGDKIIDYNEEFRLFLSTRNPNPFIPPDAASIVTEVNFTTTRSGLRGQLLALTIQHEKPDLEEQKTKLLQQEEDKKIQLAKLEESLLETLATSQGNILENKDLIESLNQTKASSALIQESLKESYKLQISLDQERDAYLPLAESASKMYFIISDLSKINNMYRFSLAAFLRLFQRALQNKQDSENTEQRIQSLISSLQHMVYEYICRCLFKADQLMFALHFVRGMHPELFQENEWDTFTGVDQLPSWIDQERSWAVATLKIALPSLYQTLCFEDAALWRTYYNNSMCEQEFPSILAKKVSLFQQILVVQVLRPDRLQSAMALFACKTLGLKEVSPLPLNLKRLYKETLEIEPILIIISPGADPSQELQELANAERSGECYHQVAMGQGQADLAIQMLKECARNGDWLCLKNLHLVVSWLPVLEKELNTLQPKDTFRLWLTAEVHPNFTPILLQSSLKITYESPPGLKKNLMRTYESWTPEQISKKDNTHRAHALFSLAWFHAACQERRNYIPQGWTKFYEFSLSDLRAGYNIIDRLFDGAKDVQWEFVHGLLENAIYGGRIDNYFDLRVLQSYLKQFFIFPYSVSLPQSCSILDYRAVIEKIPEDDKPSFFGLPANIARSSQRMISSQVISQLRILGRDREIWSNELSPVLNLWKKLNQNSNLIHQKVPPPNDRQGSPILSFIILEQFNAIRLVQSVHQSLAALSKVIRGTTLLSSEVQKLASALLNQKCPLAWQSKWEGPEDPLQYLRGLVARALAIQNWVDKAEKQALLSETLDLSELFHPDTFLNALRQETARAVGRSVDSLKFVASWKGRLQEAKLQIKISGLLLEGCSFDGNQLSENQLDSPSVSSVLPCFMGWIPQDACGPYSPDECISLPVYTSAERDRVVTNIDVPCGGNQDQWIQCGAALFLKNQ QGEVTIREALRELDLWGVGAVFTLIDYEDSQSRTMKLIKDWKDIVNQVGDNRCLLQSLKDSPYYKGFEDKVSIWERKLAELDEYLQNLNHIQRKWVYLEPIFGRGALPKEQTRFNRVDEDFRSIMTDIKKDNRVTTLTTHAGIRNSLLTILDQLQRCQRSLNEFLEEKRSAFPRFYFIGDDDLLEILGQSTNPSVIQSHLKKLFAGINSVCFDEKSKHITAMKSLEGEVVPFKNKVPLSNNVETWLNDLALEMKKTLEQLLKECVTTGRSSQGAVDPSLFPSQILCLAEQIKFTEDVENAIKDHSLHQIETQLVNKLEQYTNIDTSSEDPGNTESGILELKLKALILDIIHNIDVVKQLNQIQVHTTEDWAWKKQLRFYMKSDHTCCVQMVDSEFQYTYEYQGNASKLVYTPLTDKCYLTLTQAMKMGLGGNPYGPAGTGKTESVKALGGLLGRQVLVFNCDEGIDVKSMGRIFVGLVKCGAWGCFDEFNRLEESVLSAVSMQIQTIQDALKNHRTVCELLGKEVEVNSNSGIFITMNPAGKGYGGRQKLPDNLKQLFRPVAMSHPDNELIAEVILYSEGFKDAKVLSRKLVAIFNLSRELLTPQQHYDWGLRALKTVLRGSGNLLRQLNKSGTTQNANESHIVVQALRLNTMSKFTFTDCTRFDALIKDVFPGIELKEVEYDELSAALKQVFEEANYEIIPNQIKKALELYEQLCQRMGVVIVGPSGAGKSTLWRMLRAALCKTGKVVKQYTMNPKAMPRYQLLGHIDMDTREWSDGVLTNSARQVVREPQDVSSWIICDGDIDPEWIESLNSVLDDNRLLTMPSGERIQFGPNVNFVFETHDLSCASPATISRMGMIFLSDEETDLNSLIKSWLRNQPAEYRNNLENWIGDYFEKALQWVLKQNDYVVETSLVGTVMNGLSHLHGCRDHDEFIINLIRGLGGNLNMKSRLEFTKEVFHWARESPPDFHKPMDTYYDSTRGRLATYVLKKPEDLTADDFSNGLTLPVIQTPDMQRGLDYFKPWLSSDTKQPFILVGPEGCGKGMLLRYAFSQLRSTQIATVHCSAQTTSRHLLQKLSQTCMVISTNTGRVYRPKDCERLVLYLKDINLPKLDKWGTSTLVAFLQQVLTYQGFYDENLEWVGLENIQIVASMSAGGRLGRHKLTTRFTSIVRLCSIDYPEREQLQTIYGAYLEPVLHKNLKNHSIWGSSSKIYLLAGSMVQVYEQVRAKFTVDDYSHYFFTPCILTQWVLGLFRYDLEGGSSNHPLDYVLEIVAYEARRLFRDKIVGAKELHLFDIILTSVFQGDWGSDILDNMSDSFYVTWGARHNSGAPGQPLPPHGKPLGKLNSTDLKDVIKKGLIHYGRDNQNLDILLFHEVLEYMSRIDRVLSFPGGSLLLAGRSGVGRRTITSLVSHMHGAVLFSPKISRGYELKQFKNDLKHVLQLAGIEAQQVVLLLEDYQFVHPTFLEMINSLLSSGEVPGLYTLEELEPLLLPLKDQASQDGFFGPVFNYFTYRIQQNLHIVLIMDSANSNFMINCESNPALHKKCQVLWMEGWSNSSMKKIPEMLFSEVDPDFLKSFLLIHESCKAYGATPSQYMTFLHVYSAISSSKKKELLKRQSHLQAGVSKLNEAKALVDELNRKAGEQSVLLETIKAAEVLINQLDREHKRWNAQVVEITEELATLPKRAQLAAAFITYLSAAPESLRKTCLEEWTKSAGLEKFDLRRFLCTESEQLIWKSEGLPSDDLSIENALVILQSRVCPFLIDPSSQATEWLKTHLKDSRLEVINQQDSNFITALELAVRFGKTLIIQEMDGVEPVLYPLLRRDLVAQGPRYVVQIGDKIIDYNEEFRLFLSTRNPNPFIPPDAASIVTEVNFTTTRSGLRGQLLALTIQHEKPDLEEQKTKLLQQEEDKKIQLAKLEESLLETLATSQGNILENKDLIESLNQTKASSALIQESLKESYKLQISLDQERDAYLPLAESASKMYFIISDLSKINNMYRFSLAAFLRLFQRALQNKQDSENTEQRIQSLISSLQHMVYEYICRCLFKADQLMFALHFVRGMHPELFQENEWDTFTGVDQLPSWIDQERSWAVATLKIALPSLYQTLCFEDAALWRTYYNNSMCEQEFPSILAKKVSLFQQILVVQVLRPDRLQSAMALFACKTLGLKEVSPLPLNLKRLYKETLEIEPILIIISPGADPSQELQELANAERSGECYHQVAMGQGQADLAIQMLKECARNGDWLCLKNLHLVVSWLPVLEKELNTLQPKDTFRLWLTAEVHPNFTPILLQSSLKITYESPPGLKKNLMRTYESWTPEQISKKDNTHRAHALFSLAWFHAACQERRNYIPQGWTKFYEFSLSDLRAGYNIIDRLFDGAKDVQWEFVHGLLENAIYGGRIDNYFDLRVLQSYLKQFFIFPYSVSLPQSCSILDYRAVIEKIPEDDKPSFFGLPANIARSSQRMISSQVISQLRILGRDREIWSNELSPVLNLWKKLNQNSNLIHQKVPPPNDRQGSPILSFIILEQFNAIRLVQSVHQSLAALSKVIRGTTLLSSEVQKLASALLNQKCPLAWQSKWEGPEDPLQYLRGLVARALAIQNWVDKAEKQALLSETLDLSELFHPDTFLNALRQETARAVGRSVDSLKFVASWKGRLQEAKLQIKISGLLLEGCSFDGNQLSENQLDSPSVSSVLPCFMGWIPQDACGPYSPDECISLPVYTSAERDRVVTNIDVPCGGNQDQWIQCGAALFLKNQ 6rlb-a1-m1-cB_6rlb-a1-m1-cA Structure of the dynein-2 complex; tail domain B0I1S0 B0I1S0 4.5 ELECTRON MICROSCOPY 186 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 889 969 KLFIFTTTQNYFGLMSELWDQPLLCNCLEINNFLDDGNQMLLRVQRSDAGISFSNTIEFGDTKDKVLVFFKLRPEVITDENLHDNILVSSMLESPISSLYQAVRQVFAPMLLKDQEWSRNFDPKLQNLLSELEAGLGIVLRRSKERANYFKELFETIAREFYNLDSLSLLEVVDLVETTQDVVDDVWRQTEHDHYPESRMLHLLDIIGGSFGRFVQKKLGTLNLWEDPYYLVKESLKAGISICEQWVIVCNHLTGQVWQRYVPHPWKNEKYFPETLDKLGKRLEEVLAIRTIHEKFLYFLPASEEKIICLTRVFEPFTGLNPVQYNPYTEPLWKAAVSQYEKIIAPAEQKIAGKLKNYISEIQDSPQQLLQAFLKYKELVKRPTISKELMLERETLLARLVDSIKDFRLDFENRCRGIPGDASGPLSGKNLSEVVNSIVWVRQLELKVDDTIKIAEALLSDLPGFRCFHQSAKDLLDQLKLYEQEQFDDWSRDIQSGLSDSRSGLCIEASSRIMELDSNDGLLKVHYSDRLVILLREVRQLSALGFVIPAKIQQVANIAQKFCKQAIILKQVAHFYNSIDQQMIQSQRPMMLQSALAFEQIIKNSKAGSGGKSQITWDNPKELEGYIQKLQNAAERLATENRKLRKWHTTFCEKVVVLMNIDLLRQQQRWKDGLQELRTGLATVEAQGFQASDMHAWKQHWNHQLYKALEHQYQMGLEALNENLPEINIDLTYKQGRLQFRPPFEEIRAKYYREMKRFIGIPNQFKGVGEAGDESIFSIMIDRNASGFLTIFSKAEDLFRRLSAVLHQHKEWIVIGQVDMEALVEKHLFTVHDWEKNFKALKIKGKEVERLPSAVKVDCLNINCNPVKTVIDDLIQKLFDLLVLSLKKS KLFIFTTTQNYFGLMSELWDQPLLCNCLEINNFLDDGNQMLLRVQRSDAGISFSNTIEFGDTKDKVLVFFKLRPEVITDENLHDNILVSSMLESPISSLYQAVRQVFAPMLLKDQEWSRNFDPKLQNLLSELEAGLGIVLRRSKERANYFKELFETIAREFYNLDSLSLLEVVDLVETTQDVVDDVWRQTEHDHYPESRMLHLLDIIGGSFGRFVQKKLGTLNLWEDPYYLVKESLKAGISICEQWVIVCNHLTGQVWQRYVPHPWKNEKYFPETLDKLGKRLEEVLAIRTIHEKFLYFLPASEEKIICLTRVFEPFTGLNPVQYNPYTEPLWKAAVSQYEKIIAPAEQKIAGKLKNYISEIQDSPQQLLQAFLKYKELVKRPTISKELMLERETLLARLVDSIKDFRLDFENRSEVVNSIVWVRQLELKVDDTIKIAEALLSDLPGFRCFHQSAKDLLDQLKLYEQEQFDDWSRDIQSGLSDSRSGLCIEASSRIMELDSNDGLLKVHYSDRLVILLREVRQLSALGFVIPAKIQQVANIAQKFCKQAIILKQVAHFYNSIDQQMIQSQRPMMLQSALAFEQIIKNSKAGSGGKSQITWDNPKELEGYIQKLQNAAERLATENRKLRKWHTTFCEKVVVLMNIDLLRQQQRWKDGLQELRTGLATVEAQGFQASDMHAWKQHWNHQLYKALEHQYQMGLEALNENLPEINIDLTYKQGRLQFRPPFEEIRAKYYREMKRFIGIPNQFKGVGEAGDESIFSIMIDRNASGFLTIFSKAEDLFRRLSAVLHQHKEWIVIGQVDMEALVEKHLFTVHDWEKNFKALKIKGKEVERLPSAVKVDCLNINCNPVKTVIDDLIQKLFDLLVLSLKKSIQAHLHEIDTFVTEAMEVLTIMPQSVEEIGDANLQYSKLQERKPEILPLFQEAEDKNRLLRTVAGGGLETISNLKAKWDKFELMMESHQLMIKDQIE 6rlr-a1-m1-cA_6rlr-a1-m1-cD Crystal structure of CD9 large extracellular loop P21926 P21926 2 X-RAY DIFFRACTION 88 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 80 80 6rlr-a1-m1-cB_6rlr-a1-m1-cC GSKDEVIKEVQEFYKDTYNKLKTKDEPQRETLKAIHYALNCCGLAGGVEQFISDICPKKDVLETFTVKSCPDAIKEVFDN GSKDEVIKEVQEFYKDTYNKLKTKDEPQRETLKAIHYALNCCGLAGGVEQFISDICPKKDVLETFTVKSCPDAIKEVFDN 6rlr-a1-m1-cB_6rlr-a1-m1-cA Crystal structure of CD9 large extracellular loop P21926 P21926 2 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 80 GSKDEVIKEVQEFYKDTYNKLKTKDEPQRETLKAIHYALNCCGLAGGVEQFISDICPKKDVLETFTVKSCPDAIKEVFD GSKDEVIKEVQEFYKDTYNKLKTKDEPQRETLKAIHYALNCCGLAGGVEQFISDICPKKDVLETFTVKSCPDAIKEVFDN 6rlt-a1-m1-cA_6rlt-a1-m1-cB Trypanosoma brucei Seryl-tRNA Synthetase in Complex with 5'-O-(N-(L-seryl)-Sulfamoyl)uridine D0A7P1 D0A7P1 1.84 X-RAY DIFFRACTION 162 1.0 31285 (Trypanosoma brucei gambiense) 31285 (Trypanosoma brucei gambiense) 456 456 3lsq-a1-m1-cA_3lsq-a1-m1-cB 3lss-a1-m1-cA_3lss-a1-m1-cB 6rlu-a1-m1-cA_6rlu-a1-m1-cB 6rlv-a1-m1-cA_6rlv-a1-m1-cB MVLDIQLFRDETGANIIRESQRRRFADPDIVDAIIEADKKWRRTQFLTEASKKLINICSKAVGAKKKAKEADGDTSEIPPQVKEAYENGTLKGEQVEQLCVLQLKQLSKDLSDQVAGLAKEAQQLEEERDKLMLNVGNILHESVPIAQDEETGNTVVRTFGNTTKRAKLNHVSIMERLGMMDTSKAVTSMAGGRSYVLKGGLVQLQVALVSYSLDFLVKRGYTPFYPPFFLNRDVMGEVAQLSQFDEELYQVSGDKKYLIATSEMPIAAYHRGRWFTELKEPLKYAGMSTCFRKEALGIFRVHQFDKIEQFVVCSPRQEESWRHLEDMITTSEEFNKSLGLPYRVVNICSGALNNAAAKKYDLEAWFPASGAFRELVSCSNCTDYQSQSVNCRYGPNLRGTAAQNVKEYCHMLNGTLCAITRTMCCICENYQTEEGVVIPDVLRPYMMGIEMIRFE MVLDIQLFRDETGANIIRESQRRRFADPDIVDAIIEADKKWRRTQFLTEASKKLINICSKAVGAKKKAKEADGDTSEIPPQVKEAYENGTLKGEQVEQLCVLQLKQLSKDLSDQVAGLAKEAQQLEEERDKLMLNVGNILHESVPIAQDEETGNTVVRTFGNTTKRAKLNHVSIMERLGMMDTSKAVTSMAGGRSYVLKGGLVQLQVALVSYSLDFLVKRGYTPFYPPFFLNRDVMGEVAQLSQFDEELYQVSGDKKYLIATSEMPIAAYHRGRWFTELKEPLKYAGMSTCFRKEALGIFRVHQFDKIEQFVVCSPRQEESWRHLEDMITTSEEFNKSLGLPYRVVNICSGALNNAAAKKYDLEAWFPASGAFRELVSCSNCTDYQSQSVNCRYGPNLRGTAAQNVKEYCHMLNGTLCAITRTMCCICENYQTEEGVVIPDVLRPYMMGIEMIRFE 6rlx-a1-m1-cA_6rlx-a1-m1-cC X-RAY STRUCTURE OF HUMAN RELAXIN AT 1.5 ANGSTROMS. COMPARISON TO INSULIN AND IMPLICATIONS FOR RECEPTOR BINDING DETERMINANTS P04090 P04090 1.5 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 23 23 LYSALANKCCHVGCTKRSLARFC LYSALANKCCHVGCTKRSLARFC 6rlx-a1-m1-cD_6rlx-a1-m1-cB X-RAY STRUCTURE OF HUMAN RELAXIN AT 1.5 ANGSTROMS. COMPARISON TO INSULIN AND IMPLICATIONS FOR RECEPTOR BINDING DETERMINANTS P04090 P04090 1.5 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 27 SWMEEVIKLCGRELVRAQIAICGMS SWMEEVIKLCGRELVRAQIAICGMSTW 6rm2-a1-m1-cB_6rm2-a1-m2-cB Deoxyguanylosuccinate synthase (DgsS) structure with ATP, IMP, Magnesium G3FFN6 G3FFN6 2.5 X-RAY DIFFRACTION 11 1.0 1076759 (Vibrio phage phiVC8) 1076759 (Vibrio phage phiVC8) 343 343 MENVDLVIDLQFGSTGKGLIAGYLAEKNGYDTVINANMPNAGHTYINAEGRKWMHKVLPNGIVSPNLKRVMLGAGSVFSINRLMEEIEMSKDLLHDKVAILIHPMATVLDEEAHKKAEVGIATSIGSTGQGSMAAMVEKLQRDPTNNTIVARDVAQYDGRIAQYVCTVEEWDMALMASERILAEGAQGFSLSLNQEFYPYCTSRDCTPARFLADMGIPLPMLNKVIGTARCHPIRVGGTSGGHYPDQEELTWEQLGQVPELTTVTKKVRRVFSFSFIQMQKAMWTCQPDEVFLNFCNYLSPMGWQDIVHQIEVAAQSRYCDAEVKYLGFGPTFNDVELREDVM MENVDLVIDLQFGSTGKGLIAGYLAEKNGYDTVINANMPNAGHTYINAEGRKWMHKVLPNGIVSPNLKRVMLGAGSVFSINRLMEEIEMSKDLLHDKVAILIHPMATVLDEEAHKKAEVGIATSIGSTGQGSMAAMVEKLQRDPTNNTIVARDVAQYDGRIAQYVCTVEEWDMALMASERILAEGAQGFSLSLNQEFYPYCTSRDCTPARFLADMGIPLPMLNKVIGTARCHPIRVGGTSGGHYPDQEELTWEQLGQVPELTTVTKKVRRVFSFSFIQMQKAMWTCQPDEVFLNFCNYLSPMGWQDIVHQIEVAAQSRYCDAEVKYLGFGPTFNDVELREDVM 6rmm-a1-m1-cA_6rmm-a1-m1-cB Crystal structure of TOPBP1 BRCT4,5 in complex with a 53BP1 phosphopeptide Q92547 Q92547 3.53 X-RAY DIFFRACTION 89 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 HSTEEGLFSQKSFLVLGFSNENESNIANIIKENAGKIMSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS HSTEEGLFSQKSFLVLGFSNENESNIANIIKENAGKIMSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS 6rmm-a1-m1-cC_6rmm-a1-m1-cA Crystal structure of TOPBP1 BRCT4,5 in complex with a 53BP1 phosphopeptide Q92547 Q92547 3.53 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 196 LFSQKSFLVLGFSNENESNIANIIKENAGKIMSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS HSTEEGLFSQKSFLVLGFSNENESNIANIIKENAGKIMSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS 6rmm-a1-m1-cD_6rmm-a1-m1-cB Crystal structure of TOPBP1 BRCT4,5 in complex with a 53BP1 phosphopeptide Q92547 Q92547 3.53 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 196 LFSQKSFLVLGFSNENESNIANIIKENAGKIMSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS HSTEEGLFSQKSFLVLGFSNENESNIANIIKENAGKIMSLLSRTVADYAVVPLLGCEVEATVGEVVTNTWLVTCIDYQTLFDPKSNPLFTPVPVMTGMTPLEDCVISFSQCAGAEKESLTFLANLLGASVQEYFVRKSNAKKGMFASTHLILKERGGSKYEAAKKWNLPAVTIAWLLETARTGKRADESHFLIENS 6rmq-a2-m1-cB_6rmq-a2-m3-cB Crystal structure of a selenomethionine-substituted A70M I84M mutant of the essential repressor DdrO from radiation resistant-Deinococcus bacteria (Deinococcus deserti) C1CYP4 C1CYP4 3 X-RAY DIFFRACTION 43 1.0 310783 (Deinococcus deserti) 310783 (Deinococcus deserti) 121 121 6rmq-a1-m1-cA_6rmq-a1-m2-cA 6ro6-a1-m1-cC_6ro6-a1-m1-cA 6ro6-a2-m1-cD_6ro6-a2-m1-cB 6ro6-a3-m1-cE_6ro6-a3-m2-cG 6ro6-a4-m1-cF_6ro6-a4-m2-cH KLHERLRELRSERGLRLKDVAEVAQISVPYLSDLERGRTNPSLETLQTLAGAYNITVHDLLEGVEFEGALPKGLSDLADPTLGPQITPDWVRTLSRIELRGKRPRDKQDWYEIYLHLKRIL KLHERLRELRSERGLRLKDVAEVAQISVPYLSDLERGRTNPSLETLQTLAGAYNITVHDLLEGVEFEGALPKGLSDLADPTLGPQITPDWVRTLSRIELRGKRPRDKQDWYEIYLHLKRIL 6rmr-a1-m1-cA_6rmr-a1-m1-cB Crystal structure of Escherichia coli periplasmic glucose-1-phosphatase H18D mutant P19926 P19926 2.50005 X-RAY DIFFRACTION 83 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 385 389 QTVPEGYQLQQVLMMSRDNLRAPLAVLEQSTPNKWPEWDVPGGQLTTKGGVLEVYMGHYMREWLAEQGMVKSGECPPPYTVYAYANSLQRTVATAQFFITGAFPGCDIPVHHQEKMGTMDPTFNPVITDDSAAFSEQAVAAMEKELSKLQLTDSYQLLEKIVNYKDSPACKEKQQCSLVDGKNTFSAKYQQEPGVSGPLKVGNSLVDAFTLQYYEGFPMDQVAWGEIKSDQQWKVLSKLKNGYQDSLFTSPEVARNVAKPLVSYIDKALVTDRTAPKITVLVGHDSNIASLLTALDFKPYQLHDQNERTPIGGKIVFQRWHDSKANRDLMKIEYVYQSAEQLRNADALTLQAPAQRVTLELSGCPIDADGFCPMDKFDSVLNEAV VPEGYQLQQVLMMSRDNLRAPLANNGSVLEQSTPNKWPEWDVPGGQLTTKGGVLEVYMGHYMREWLAEQGMVKSGECPPPYTVYAYANSLQRTVATAQFFITGAFPGCDIPVHHQEKMGTMDPTFNPVITDDSAAFSEQAVAAMEKELSKLQLTDSYQLLEKIVNYKDSPACKEKQQCSLVDGKNTFSAKYQQEPGVSGPLKVGNSLVDAFTLQYYEGFPMDQVAWGEIKSDQQWKVLSKLKNGYQDSLFTSPEVARNVAKPLVSYIDKALVTDRTSAPKITVLVGHDSNIASLLTALDFKPYQLHDQNERTPIGGKIVFQRWHDSKANRDLMKIEYVYQSAEQLRNADALTLQAPAQRVTLELSGCPIDADGFCPMDKFDSVLNEAVK 6rmt-a1-m1-cB_6rmt-a1-m1-cA Crystal structure of disulphide-linked human C3d dimer P01024 P01024 2 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 301 6rmu-a1-m1-cA_6rmu-a1-m1-cB MLDAERLKHLIVTPSGCGEQNMIGMTPTVIAVHYLDETEQWEKFGLEKRQGALELIKKGYTQQLAFRQPSSAFAAFVKRAPSTWLTAYVVKVFSLAVNLIAIDSQVLCGAVKWLILEKQKPDGVFQEDAPVIHQEMIGGLRNNNEKDMALTAFVLISLQEAKDICEEQVNSLPGSITKAGDFLEANYMNLQRSYTVAIAGYALAQMGRLKGPLLNKFLTTAKDKNRWEDPGKQLYNVEATSYALLALLQLKDFDFVPPVVRWLNEQRYYGGGYGSTQATFMVFQALAQYQKDAPDHQE MLDAERLKHLIVTPSGCGEQNMIGMTPTVIAVHYLDETEQWEKFGLEKRQGALELIKKGYTQQLAFRQPSSAFAAFVKRAPSTWLTAYVVKVFSLAVNLIAIDSQVLCGAVKWLILEKQKPDGVFQEDAPVIHQEMIGGLRNNNEKDMALTAFVLISLQEAKDICEEQVNSLPGSITKAGDFLEANYMNLQRSYTVAIAGYALAQMGRLKGPLLNKFLTTAKDKNRWEDPGKQLYNVEATSYALLALLQLKDFDFVPPVVRWLNEQRYYGGGYGSTQATFMVFQALAQYQKDAPDHQELNL 6rn5-a1-m1-cA_6rn5-a1-m2-cA PptA from Streptomyces chartreusis A0A2N9BBV4 A0A2N9BBV4 2.037 X-RAY DIFFRACTION 90 1.0 1969 (Streptomyces chartreusis) 1969 (Streptomyces chartreusis) 283 283 SPTGDTLAGYLRAQATEFLRALRLHREPVEAARALRRSARRISATLHTFQSLLDTDWCEGMRPELAWVSGTLAMEHAYTARLERLLNALHRLSGLTVGAAKAGALLDRQLTLARTRAHSTALQAMGSSRFHAIADKVAVLASEVPLTPAAATADLRPLATAAKDRLTDAVAALPLITAALIHGLSPDTVPHPQDAPWHQVRLLLRLHRYAREAVSGPVDLRLLSAGQALNRHRDASEAAAAAAQAARTPRIAPATAYALGVLHADQRHEVEAARFAFQQAWQK SPTGDTLAGYLRAQATEFLRALRLHREPVEAARALRRSARRISATLHTFQSLLDTDWCEGMRPELAWVSGTLAMEHAYTARLERLLNALHRLSGLTVGAAKAGALLDRQLTLARTRAHSTALQAMGSSRFHAIADKVAVLASEVPLTPAAATADLRPLATAAKDRLTDAVAALPLITAALIHGLSPDTVPHPQDAPWHQVRLLLRLHRYAREAVSGPVDLRLLSAGQALNRHRDASEAAAAAAQAARTPRIAPATAYALGVLHADQRHEVEAARFAFQQAWQK 6rp4-a1-m1-cB_6rp4-a1-m1-cD CDT of SidD, deAMPylase from Legionella pneumophila Q5ZSQ2 Q5ZSQ2 2.5 X-RAY DIFFRACTION 22 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 127 128 6rp4-a1-m1-cC_6rp4-a1-m1-cA KGFLGIYGFFTGADKNIEKATLYKNLIAKYQNNHFISLIILSALVSDSKTPLMTQYLVGYLDFPSKALLANKITELLLKELENPDMREILGSRLATDVIEELETKIIRYIHNPAGSDIHSTLNLWTA KGFLGIYGFFTGADKNIEKATLYKNLIAKYQNNHFISLIILSALVSDSKTPLMTQYLVGYLDFPSKALLANKITELLLKELENPDMREILGSRLATDVIEELETKIIRYIHNPAGSDIHSTLNLWTAD 6rp4-a1-m1-cC_6rp4-a1-m1-cB CDT of SidD, deAMPylase from Legionella pneumophila Q5ZSQ2 Q5ZSQ2 2.5 X-RAY DIFFRACTION 19 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 124 127 GFLGIFFTGADKNIEKATLYKNLIAKYQNNHFISLIILSALVSDSKTPLMTQYLVGYLDFPSKALLANKITELLLKELENPDMREILGSRLATDVIEELETKIIRYIHNPAGSDIHSTLNLWTA KGFLGIYGFFTGADKNIEKATLYKNLIAKYQNNHFISLIILSALVSDSKTPLMTQYLVGYLDFPSKALLANKITELLLKELENPDMREILGSRLATDVIEELETKIIRYIHNPAGSDIHSTLNLWTA 6rp4-a1-m1-cC_6rp4-a1-m1-cD CDT of SidD, deAMPylase from Legionella pneumophila Q5ZSQ2 Q5ZSQ2 2.5 X-RAY DIFFRACTION 36 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 124 128 6rp4-a1-m1-cA_6rp4-a1-m1-cB GFLGIFFTGADKNIEKATLYKNLIAKYQNNHFISLIILSALVSDSKTPLMTQYLVGYLDFPSKALLANKITELLLKELENPDMREILGSRLATDVIEELETKIIRYIHNPAGSDIHSTLNLWTA KGFLGIYGFFTGADKNIEKATLYKNLIAKYQNNHFISLIILSALVSDSKTPLMTQYLVGYLDFPSKALLANKITELLLKELENPDMREILGSRLATDVIEELETKIIRYIHNPAGSDIHSTLNLWTAD 6rpj-a2-m1-cC_6rpj-a2-m1-cE A Non-blocking anti-CTLA-4 Nanobody complexed with CTLA-4 P16410 P16410 3.25 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 119 6rpj-a1-m1-cG_6rpj-a1-m2-cA MHVAQPAVVLASSRGIASFVCEYASPGKATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVIDPE MHVAQPAVVLASSRGIASFVCEYASPGKATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVIDPEP 6rqa-a1-m1-cA_6rqa-a1-m1-cB Crystal structure of the iminosuccinate reductase of Paracoccus denitrificans in complex with NAD+ A1B8Z0 A1B8Z0 2.56 X-RAY DIFFRACTION 148 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 322 322 RHMLVVAEKEIAGLMTPEAAFEAIEAVFASMARRKAYNFPVVREAIGHEDALYGFKGGFDASALVLGLKAGGYWPNNQKHNLINHQSTVFLFDPDTGRVSAAVGGNLLTALRTAAASAVSIKYLAPKGAKVLGMIGAGHQSAFQMRAAANVHRFEKVIGWNPHPEMLSRLADTAAELGLPFEAVELDRLGAEADVIVSITSSFSPLLMNEHVKGPTHIAAMGTDTKGKQELDPALVARARIFTDEVAQSVSIGECQHAIAAGLIREDQVGELGAVVAGDDPGRGDAEVTIFDGTGVGLQDLAVAQAVVELAKHKGVAQEVEI RHMLVVAEKEIAGLMTPEAAFEAIEAVFASMARRKAYNFPVVREAIGHEDALYGFKGGFDASALVLGLKAGGYWPNNQKHNLINHQSTVFLFDPDTGRVSAAVGGNLLTALRTAAASAVSIKYLAPKGAKVLGMIGAGHQSAFQMRAAANVHRFEKVIGWNPHPEMLSRLADTAAELGLPFEAVELDRLGAEADVIVSITSSFSPLLMNEHVKGPTHIAAMGTDTKGKQELDPALVARARIFTDEVAQSVSIGECQHAIAAGLIREDQVGELGAVVAGDDPGRGDAEVTIFDGTGVGLQDLAVAQAVVELAKHKGVAQEVEI 6rqr-a1-m1-cA_6rqr-a1-m1-cB Extended NHERF1 PDZ2 domain in complex with the PDZ-binding motif of CFTR O14745 O14745 2.2 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 125 PLRPRLCTMKKGPSGYGFNLHSDKSKPGQFIRSVDPDSPAEASGLRAQDRIVEVNGVCMEGKQHGDVVSAIRAGGDETKLLVVDRETDEFFKKCRVIPSQEHLNGPLPVPFTNGEIQKENSDTRL PLRPRLCTMKKGPSGYGFNLHSDKSKPGQFIRSVDPDSPAEASGLRAQDRIVEVNGVCMEGKQHGDVVSAIRAGGDETKLLVVDRETDEFFKKCRVIPSQEHLNGPLPVPFTNGEIQKENSDTRL 6rrp-a1-m1-cB_6rrp-a1-m1-cA Crystal structure of tyrosinase PvdP from Pseudomonas aeruginosa bound to copper and phenylthiourea Q9I188 Q9I188 2.4 X-RAY DIFFRACTION 223 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 450 459 6eys-a1-m1-cA_6eys-a1-m1-cB 6eys-a2-m1-cC_6eys-a2-m1-cD 6eyv-a1-m1-cB_6eyv-a1-m1-cA 6rrq-a1-m1-cA_6rrq-a1-m1-cB 6rrr-a1-m1-cB_6rrr-a1-m1-cA PQTPDEASLDLAATDGIRLGDRLRGLWDLRLVGGDAELPGLPREGLQLVLDVAPKGRGLIGYLDTPERLLAAEPPRFRVLGDLLGASSASIRWRLVDQASGSVAPTHDCSAVFDDGTLSGRIQRLERSEDFRFVAVKRHFPLAHERIVLNEKLLGWLVSPQHRLFHQLWHASRDKWHRLSEKQRNALRGVGWQPGPLDRERDARGPRKDRNASGIDFFFMHRHMLHTARSMQDLPSWERLPRPVVPLEYDRPGFIRYFDNPDGFSVPPAWVAVDDDEYSEWLHGLKSAEAYHANFLVWESQYQDPAYLAKLTLGQFGSELELGMHDWLHMRWASVTTDRFPADFAPRWFRPENDFLGDPFSSHVNPVFWSFHGWIDDRIEDWYRAHERFHPGEVQRREVEGIQWFAPGRWVEVGDPWLGPATHGLDVETMKLALRIIFSRPWYARNLKLA PQTPDEASLDLAATDGIRLGDRLRGLWDLRLVGGDAELPGLPREGLQLVLDVAPKGRGLIGYLDTPERLLAAEPPRFRVLGDLLGASSASIRWRLVDQASGSVAPTHDCSAVFDEVWGDGTLSGRIQRLERSNEDFRFVAVKRHFPLAHERIVLNEKLLGWLVSPQHRLFHQLWHASRDKWHRLSEKQRNALRGVGWQPGPLDRERDARGPRKDRNASGIDFFFMHRHMLHTARSMQDLPSWERLPRPVVPLEYDRPGFIRYFDNPDGFSVPPAWVAVDDDEYSEWLHGLKSAEAYHANFLVWESQYQDPAYLAKLTLGQFGSELELGMHDWLHMRWASVTTDRFPADFAPRWFRPENDFLGDPFSSHVNPVFWSFHGWIDDRIEDWYRAHERFHPGEVQRREVEGIQWFAPGRWVEVGDPWLGPATHGCGLELDVETMKLALRIIFSRPWYARNLKLA 6rs2-a2-m1-cA_6rs2-a2-m1-cD Structure of the Bateman module of human CNNM4. Q6P4Q7 Q6P4Q7 3.694 X-RAY DIFFRACTION 63 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 144 144 6rs2-a1-m1-cB_6rs2-a1-m1-cC NMIQGALELRTKTVEDIMTQLQDCFMIRSDAILDFNTMSEIMESGYTRIPVFEDEQSNIVDILYVKDLAFVDPDDCTPLKTITRFYNHPVHFVFHDTKLDAMLEEFKKGKSHLAIVQKVNNEGDPFYEVLGLVTLEDVIEEIIK NMIQGALELRTKTVEDIMTQLQDCFMIRSDAILDFNTMSEIMESGYTRIPVFEDEQSNIVDILYVKDLAFVDPDDCTPLKTITRFYNHPVHFVFHDTKLDAMLEEFKKGKSHLAIVQKVNNEDPFYEVLGLVTLEDVIEEIIKS 6rs4-a1-m1-cA_6rs4-a1-m1-cB Structure of tabersonine synthase - an alpha-beta hydrolase from Catharanthus roseus A0A2P1GIW3 A0A2P1GIW3 1.3 X-RAY DIFFRACTION 99 1.0 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 314 315 ETIFDLPPYIKVFKDGRVERLHSSPYVPPSLNDPETGGVSWKDVPISSVVSARIYLPKINNHDEKLPIIVYFHGAGFCLESAFKSFFHTYVKHFVAEAKAIAVSVEFRLAPENHLPAAYEDCWEALQWVASHVGLDISSLKTCIDKDPWIINYADFDRLYLWGDSTGANIVHNTLIRSGKEKLNGGKVKILGAILYYPYFLIRTSSKQSDYMENEYRSYWKLAYPDAPGGNDNPINPTAENAPDLAGYGCSRLLISMVADEARDITLLYIDALEKSGWKGELDVADFDKQYFELFEMETEVAKNMLRRLASFIK ETIFDLPPYIKVFKDGRVERLHSSPYVPPSLNDPETGGVSWKDVPISSVVSARIYLPKINNHDEKLPIIVYFHGAGFCLESAFKSFFHTYVKHFVAEAKAIAVSVEFRLAPENHLPAAYEDCWEALQWVASHVGLDISSLKTCIDKDPWIINYADFDRLYLWGDSTGANIVHNTLIRSGKEKLNGGKVKILGAILYYPYFLIRTSSKQSDYMENEYRSYWKLAYPDAPGGNDNPMINPTAENAPDLAGYGCSRLLISMVADEARDITLLYIDALEKSGWKGELDVADFDKQYFELFEMETEVAKNMLRRLASFIK 6rsh-a1-m1-cB_6rsh-a1-m1-cA Structure based optimization of JAK1-ATP binding pocket Inhibitors in the aminopyrazole class P23458 P23458 1.71 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 279 284 4e5w-a1-m1-cB_4e5w-a1-m1-cA 6rsb-a1-m1-cB_6rsb-a1-m1-cA 6rsc-a1-m1-cB_6rsc-a1-m1-cA VDPTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPHIADLKKEIEILRNLYHENIVKYKGICTEGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAVQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKETVKDDRDSPVFWYAPECLMQSKFYIASDVWSFGVTLHELLTYCDSDSSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTSFQNLIEGFEALLK VDPTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPESGGNHIADLKKEIEILRNLYHENIVKYKGICTEGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAVQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKETVKDDRDSPVFWYAPECLMQSKFYIASDVWSFGVTLHELLTYCDSDSSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTSFQNLIEGFEALLK 6rsq-a2-m1-cC_6rsq-a2-m1-cB Helical folded domain of mouse CAP1 P40124 P40124 2.37 X-RAY DIFFRACTION 129 1.0 10090 (Mus musculus) 10090 (Mus musculus) 175 176 6rsq-a1-m1-cA_6rsq-a1-m1-cD GLEVLFQGPYVQAFDSLLANPVAEYLKMSKEIGGDVQKHAEMVHTGLKLERALLATASQCQQPAGNKLSDLLAPISEQIQEVITFREKNRGSKFFNHLSAVSESIQALGWVALAAKPGPFVKEMNDAAMFYTNRVLKEYRDVDKKHVDWVRAYLSIWTELQAYIKEFHTTGLAWS AGLEVLFQGPYVQAFDSLLANPVAEYLKMSKEIGGDVQKHAEMVHTGLKLERALLATASQCQQPAGNKLSDLLAPISEQIQEVITFREKNRGSKFFNHLSAVSESIQALGWVALAAKPGPFVKEMNDAAMFYTNRVLKEYRDVDKKHVDWVRAYLSIWTELQAYIKEFHTTGLAWS 6rt8-a4-m1-cG_6rt8-a4-m1-cH Structure of catharanthine synthase - an alpha-beta hydrolase from Catharanthus roseus with a cleaviminium intermediate bound A0A2P1GIW2 A0A2P1GIW2 2.19 X-RAY DIFFRACTION 76 0.997 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 313 314 6rt8-a1-m1-cA_6rt8-a1-m1-cB 6rt8-a2-m1-cC_6rt8-a2-m1-cD 6rt8-a3-m1-cE_6rt8-a3-m1-cF DETIWDLSPYIKIFKDGRVERLHNSPYVPPSLNDPETGVSWKDVPISSQVSARVYIPKISDHEKLPIFVYVHGAGFCLESAFRSFFHTFVKHFVAETKVIGVSIEYRLAPEHLLPAAYEDCWEALQWVASHVGLDAIDKDPWIINYGDFDRLYLAGDSPGANIVHNTLIRAGKEKLKGGVKILGAILYYPYFIIPTSTKLSDDFEYNYTCYWKLAYPNAPGGMNNPMINPIAENAPDLAGYGCSRLLVTLVSMISTTPDETKDINAVYIEALEKSGWKGELEVADFDADYFELFTLETEMGKNMFRRLASFIK ETIWDLSPYIKIFKDGRVERLHNSPYVPPSLNDPETGVSWKDVPISSQVSARVYIPKISDHEKLPIFVYVHGAGFCLESAFRSFFHTFVKHFVAETKVIGVSIEYRLAPEHLLPAAYEDCWEALQWVASHVGLDTAIDKDPWIINYGDFDRLYLAGDSPGANIVHNTLIRAGKEKLKGGVKILGAILYYPYFIIPTSTKLSDDFEYNYTCYWKLAYPNAPGGMNNPMINPIAENAPDLAGYGCSRLLVTLVSMISTTPDETKDINAVYIEALEKSGWKGELEVADFDADYFELFTLETEMGKNMFRRLASFIKH 6rtf-a1-m1-cA_6rtf-a1-m1-cB Structure of murine Solute Carrier 26 family member A9 (Slc26a9) anion transporter in an intermediate state Q8BU91 Q8BU91 7.77 ELECTRON MICROSCOPY 141 1.0 10090 (Mus musculus) 10090 (Mus musculus) 621 621 6rtc-a1-m1-cA_6rtc-a1-m1-cB RPRYVVDRAAYSLSLFDDEFEKKRCSSAKFKAFVFGLLPVLSWLPKYKIKDYIIPDLLGGLSGGCIQVPQGMAFALLANLPAVNGLYSSFFPLLTYFFLGGIHQMVPGTFAVISILVGNICLQLAPESKFQIFNNVTNETYVDTAAMEAERLHVSATLACLTAVIQMALGFMQFGFVAIYLSESFIRGFMTAAGLQILISVLKYIFGLTIPSYTGPGSIVFTFIDICKNLPHTNIASLIFALVSGVFLVLVKELNARYMHKIHFPIPTEMIVVVVATAISGSCKMPKKYHMQIVGEIRQGFPTPVAPMVSQWKDMVGTAFSLAIVGYVINLAMGRTLASKHGYDVDSNQEMIALGCSNFFGSFFKIHVICCALSVTLAVDGAGGKSQVASLCVSLVVMITMLVLGSYLYPLPKAVLGALIAVNLKNSLKQLTDPYYLWRKSKLDCCVWVVSFLSSFFLSLPYGVAVGVAFSILVVIFQTQFRNGSTLAQVMDTDIYVNPKTYNRAQEIAGVKIVTYCSPLYFANSEIFRQKVIAKTGMDGSTFHTLILDMSGVSFVDLMGIKALAKLSSTYEKIGVQIFLVNIHAQVYNDISHGGVFEDGCVQRSHVFPSIHDAVLFAQAN RPRYVVDRAAYSLSLFDDEFEKKRCSSAKFKAFVFGLLPVLSWLPKYKIKDYIIPDLLGGLSGGCIQVPQGMAFALLANLPAVNGLYSSFFPLLTYFFLGGIHQMVPGTFAVISILVGNICLQLAPESKFQIFNNVTNETYVDTAAMEAERLHVSATLACLTAVIQMALGFMQFGFVAIYLSESFIRGFMTAAGLQILISVLKYIFGLTIPSYTGPGSIVFTFIDICKNLPHTNIASLIFALVSGVFLVLVKELNARYMHKIHFPIPTEMIVVVVATAISGSCKMPKKYHMQIVGEIRQGFPTPVAPMVSQWKDMVGTAFSLAIVGYVINLAMGRTLASKHGYDVDSNQEMIALGCSNFFGSFFKIHVICCALSVTLAVDGAGGKSQVASLCVSLVVMITMLVLGSYLYPLPKAVLGALIAVNLKNSLKQLTDPYYLWRKSKLDCCVWVVSFLSSFFLSLPYGVAVGVAFSILVVIFQTQFRNGSTLAQVMDTDIYVNPKTYNRAQEIAGVKIVTYCSPLYFANSEIFRQKVIAKTGMDGSTFHTLILDMSGVSFVDLMGIKALAKLSSTYEKIGVQIFLVNIHAQVYNDISHGGVFEDGCVQRSHVFPSIHDAVLFAQAN 6ruu-a2-m1-cC_6ruu-a2-m2-cC Pseudokinase domain of human IRAK3 Q9Y616 Q9Y616 2.95 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 VYRVELTYAVKLFCKKHWKRFLSELEVLLLFHHPNILELAAYFTETEKFCLIYPYMRNGTLFDRLQCVGDTAPLPWHIRIGILIGISKAIHYLHNVQPCSVICGSISSANILLDDQFQPKLTDFAMKHLWYMPEEYIRQGKLSIKTDVYSFGIVIMEVLTGCRVVLDDPKHIQLRDLLRELMEKRGLDSCLSFLDKKVPPCPRNFSAKLFCLAGRCAATRAKLRPSMDEVLNTLESTQASLYFAE VYRVELTYAVKLFCKKHWKRFLSELEVLLLFHHPNILELAAYFTETEKFCLIYPYMRNGTLFDRLQCVGDTAPLPWHIRIGILIGISKAIHYLHNVQPCSVICGSISSANILLDDQFQPKLTDFAMKHLWYMPEEYIRQGKLSIKTDVYSFGIVIMEVLTGCRVVLDDPKHIQLRDLLRELMEKRGLDSCLSFLDKKVPPCPRNFSAKLFCLAGRCAATRAKLRPSMDEVLNTLESTQASLYFAE 6rv2-a1-m1-cA_6rv2-a1-m1-cB Crystal structure of the human two pore domain potassium ion channel TASK-1 (K2P3.1) in a closed conformation O14649 O14649 3 X-RAY DIFFRACTION 326 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 258 6rv2-a2-m1-cC_6rv2-a2-m1-cD 6rv3-a1-m1-cA_6rv3-a1-m1-cB 6rv3-a2-m1-cC_6rv3-a2-m1-cD 6rv4-a1-m1-cA_6rv4-a1-m1-cB 6rv4-a2-m1-cC_6rv4-a2-m1-cD MKRQNVRTLALIVCTFTYLLVGAAVFDALESEPELIERQRLELRQQELRARYNLSQGGYEELERVVLRLKPHKAGVQWRFAGSFYFAITVITTIGYGHAAPSTDGGKVFCMFYALLGIPLTLVMFQSLGERINTLVRYLLHRAKKGLGADVSMANMVLIGFFSCISTLCIGAAAFSHYEHWTFFQAYYYCFITLTTIGFGDYVALQKDQALQTQPQYVAFSFVYILTGLTVIGAFLNLVVLRFMTMNAEDEKRD MKRQNVRTLALIVCTFTYLLVGAAVFDALESEPELIERQRLELRQQELRARYNLSQGGYEELERVVLRLKPHKAGVQWRFAGSFYFAITVITTIGYGHAAPSTDGGKVFCMFYALLGIPLTLVMFQSLGERINTLVRYLLHRAKKGLGADVSMANMVLIGFFSCISTLCIGAAAFSHYEHWTFFQAYYYCFITLTTIGFGDYVALQKDQALQTQPQYVAFSFVYILTGLTVIGAFLNLVVLRFMTMNAEDEKRDAENL 6rvb-a2-m1-cC_6rvb-a2-m2-cD NADH-dependent Coenzyme A Disulfide Reductase soaked with NADH Q72HK3 Q72HK3 2.9 X-RAY DIFFRACTION 194 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 443 443 6ruz-a1-m1-cA_6ruz-a1-m1-cB 6ruz-a2-m1-cC_6ruz-a2-m2-cD 6rvb-a1-m1-cA_6rvb-a1-m1-cB 6rvh-a1-m1-cA_6rvh-a1-m1-cB 6rvh-a2-m1-cC_6rvh-a2-m2-cD MGKRMVVVGGVAGGASAAAKAKRENPELEVVVYEKSGWVSYGACGLPYVLSGEIPRLERLVARTPEEFRKQGVLVHTRHEVVDVDYELRTLTVHDHAEGRTFQDRFDHLVLATGARPSLPPIPGTEQEGVYTLRTMEDGERLLKALPQARRAAILGAGYIGLEAAEAFRKRGLQVTLLEAKDRPLPHWDPEVGALLKEELERHGVEVWTGVKVEAFRGMGRVEAVETSEGVVPADLVLLATGIRPNTELAQAMGVALGPTGAIATDERMRTNLEGVYAAGDVAESFHRVLKRPYWLPLGDVANKHGRTAGSVIAGREARFLGVVGTAIFKAFDLAVATTGLSLEGALKEGFWAKKVFIQSRDGAHYYPGSGPLWVELVYEEGTGRLLGGAVVARGHGALRIDVLAALLHREGSVEDLLALDLAYAPPFSPVWDPLLIAAQQAR MGKRMVVVGGVAGGASAAAKAKRENPELEVVVYEKSGWVSYGACGLPYVLSGEIPRLERLVARTPEEFRKQGVLVHTRHEVVDVDYELRTLTVHDHAEGRTFQDRFDHLVLATGARPSLPPIPGTEQEGVYTLRTMEDGERLLKALPQARRAAILGAGYIGLEAAEAFRKRGLQVTLLEAKDRPLPHWDPEVGALLKEELERHGVEVWTGVKVEAFRGMGRVEAVETSEGVVPADLVLLATGIRPNTELAQAMGVALGPTGAIATDERMRTNLEGVYAAGDVAESFHRVLKRPYWLPLGDVANKHGRTAGSVIAGREARFLGVVGTAIFKAFDLAVATTGLSLEGALKEGFWAKKVFIQSRDGAHYYPGSGPLWVELVYEEGTGRLLGGAVVARGHGALRIDVLAALLHREGSVEDLLALDLAYAPPFSPVWDPLLIAAQQAR 6rvw-a1-m1-cQG_6rvw-a1-m1-cWF Structure of right-handed protein cage consisting of 24 eleven-membered ring proteins held together by gold (I) bridges. Q9X6J6 Q9X6J6 3.7 ELECTRON MICROSCOPY 10 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 55 55 6rvv-a1-m1-cBE_6rvv-a1-m1-cED 6rvv-a1-m1-cBF_6rvv-a1-m1-cEC 6rvv-a1-m1-cCC_6rvv-a1-m1-cWF 6rvv-a1-m1-cCE_6rvv-a1-m1-cLD 6rvv-a1-m1-cCF_6rvv-a1-m1-cLC 6rvv-a1-m1-cDC_6rvv-a1-m1-cGF 6rvv-a1-m1-cDF_6rvv-a1-m1-cVC 6rvv-a1-m1-cEF_6rvv-a1-m1-cJC 6rvv-a1-m1-cFD_6rvv-a1-m1-cHE 6rvv-a1-m1-cFF_6rvv-a1-m1-cOC 6rvv-a1-m1-cFG_6rvv-a1-m1-cPH 6rvv-a1-m1-cGC_6rvv-a1-m1-cVF 6rvv-a1-m1-cHC_6rvv-a1-m1-cOF 6rvv-a1-m1-cIE_6rvv-a1-m1-cMD 6rvv-a1-m1-cIF_6rvv-a1-m1-cMC 6rvv-a1-m1-cKC_6rvv-a1-m1-cUF 6rvv-a1-m1-cKD_6rvv-a1-m1-cUE 6rvv-a1-m1-cKF_6rvv-a1-m1-cTC 6rvv-a1-m1-cLF_6rvv-a1-m1-cWC 6rvv-a1-m1-cNC_6rvv-a1-m1-cPF 6rvv-a1-m1-cNE_6rvv-a1-m1-cQD 6rvv-a1-m1-cNF_6rvv-a1-m1-cQC 6rvv-a1-m1-cPC_6rvv-a1-m1-cQF 6rvv-a1-m1-cRE_6rvv-a1-m1-cSD 6rvv-a1-m1-cRF_6rvv-a1-m1-cSC 6rvv-a1-m1-cSF_6rvv-a1-m1-cXC 6rvv-a1-m1-cTF_6rvv-a1-m1-cUC 6rvw-a1-m1-cAF_6rvw-a1-m1-cKG 6rvw-a1-m1-cCC_6rvw-a1-m1-cWD 6rvw-a1-m1-cDC_6rvw-a1-m1-cFD 6rvw-a1-m1-cDD_6rvw-a1-m1-cFC 6rvw-a1-m1-cDH_6rvw-a1-m1-cGE 6rvw-a1-m1-cFG_6rvw-a1-m1-cHF 6rvw-a1-m1-cGD_6rvw-a1-m1-cVC 6rvw-a1-m1-cIF_6rvw-a1-m1-cMG 6rvw-a1-m1-cIG_6rvw-a1-m1-cRF 6rvw-a1-m1-cJC_6rvw-a1-m1-cTD 6rvw-a1-m1-cJE_6rvw-a1-m1-cVH 6rvw-a1-m1-cME_6rvw-a1-m1-cRH 6rvw-a1-m1-cMF_6rvw-a1-m1-cRG 6rvw-a1-m1-cPG_6rvw-a1-m1-cQF 6rvw-a1-m1-cRC_6rvw-a1-m1-cSD DFVVIKALEDGVNVIGSECLDKGEVLIAQFTEHTSAIKVRGKAYIQTSHGVIESE DFVVIKALEDGVNVIGSECLDKGEVLIAQFTEHTSAIKVRGKAYIQTSHGVIESE 6rwa-a1-m1-cC_6rwa-a1-m1-cE Cryo-EM structure of Photorhabdus luminescens TcdA4 Q8GF92 Q8GF92 4.0 ELECTRON MICROSCOPY 65 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 2361 2361 6rwa-a1-m1-cA_6rwa-a1-m1-cC 6rwa-a1-m1-cA_6rwa-a1-m1-cD 6rwa-a1-m1-cB_6rwa-a1-m1-cD 6rwa-a1-m1-cB_6rwa-a1-m1-cE LTDICHYSFNEFRQQVSDHLSWSETNRLYRDAQQEQKENQLYEARILKRANPQLQNAVHLGITLPHAELRGYNSEFGGRASQYVAPGSVSSMFSPAAYLTELYREARNLHASDSVYHLDERRPDLQSMTLSQQNMDTELSTLSLSNEILLKGIKANQSNLDSDTKVMEMLSTFRPSGTIPYHDAYENVRKAIQLQDPKLEQFQKSPAVAGLMHQASLLGINNSISPELFNILTEEITEANAEAIYKQNFGDIDPACLAMPEYLKSYYNFSDEELSQFIRKYPDNELNTQKIHLLKINKIILLSQAVNLPFLKLDEIIPEQNITPTVLGKIFLVKYYMQKYNIGTETALILCNDSISQYSYSNQPSQFDRLFNTSPLNGQYFVIEDTNIDLSLNSTDNWHKAVLKRAFNVDDISLYRLLHIANHNNTDGKIANNIKNLSNLYMTKLLADIHQLTIDELYLLLITIGEDKINLYDIDDKELEKLINRLDTLSNWLHTQKWSIYQLFLMTTTNYDKTLTPEIQNLLDTVYNGLQNFDKNKTKLLAAIAPYIAATLQLPSENVAHSILLWADKIKPSENKITAEKFWIWLQNRDTTELSKPPEMQEQIIQYCHCLAQLTMIYRSSGINENAFRLFIEKPTIFGIPDEPNKATPAHNAPTLIILTRFANWVNSLGEKASPILTAFENKTLTAEKLANAMNLDANLLEQASIQAQNYKQVTKENTFSNWQSIDIILQWTNIASNLNISPQGISPLIALDYIKPAQKTPTYAQWENAAIALTAGLDTQQTHTLHVFLDESRSTALSNYYIGKVANRAASIKSRDDLYQYLLIDNQVSAEIKTTRIAEAIASIQLYVNRALENIEIHAVSDVITRQFFIDWDKYNKRYSTWAGVSQLVYYPENYIDPTMRIGQTKMMDTLLQSVSQSQLNADTVEDAFKSYLTSFEQVANLEVISAYHDNVNNDQGLTYFIGNSKTEVNQYYWRSVDHSKFNDGKFAANAWSEWHKIDCAINPYQSTIRPVIYKSRLYLIWLEQKETAKQKEDNKVTTDYHYELKLAHIRYDGTWNVPITFDVDEKILALELTKSQAPGLYCAGYQGEDTLLIMFYRKKEKLDDYKTAPMQGFYIFSDMSSKDMTNEQCNSYRDNGYTHFDTNSDTNSVIRINNRYAEDYEIPSLINHSNSHDWGEYNLSQVYGGNIVINYKVTSNDLKIYISPKLRIIHDGKEGRERIQSNLIKKYGKLGDKFIIYTSLGINPNNSSNRFMFYPVYQYNGNTSGLAQGRLLFHRDTSYSSKVAAWIPGAGRSLINENANIGDDCAEDSVNKPDDLKQYIYMTDSKGTATDVSGPVDINTAISSEKVQITIKAGKEYSLTANKDVSVQPSPSFEEMCYQFNALEIDGSNLNFTNNSASIDVTFTALADDGRKLGYEIFNIPVIQKVKTDNALTLFHDENGAQYMQWGAYRIRLNTLFARQLVERANTGIDTILSMETQNIQEPMMGIGAYIELILDKYNPDIHGTNKSFKIIYGDIFKAGDHFPIYQGALSDITQTTVKLFLPRVDNAYGNKNNLYVYAAYQKVETNFIRFVKEDNNKPATFDTTYKNGTFPGLASARVIQTVSEPMDFSGANSLYFWELFYYTPMMVAQRLLHEQNFDEANRWLKYVWSPSGYIVRGQIKNYHWNVRPLLENTSWNSDPLDSVDPDAVAQHDPMHYKVATFMRTLDLLMARGDHAYRQLERDTLNEAKMWYMQALHLLGNKPYLPLSSVWNDPRLDNAAATTTQKAHAYAITSLRQGTQTPALLLRSANTLTDLFLPQINDVMLSYWNKLELRLYNLRHNLSIDGQPLHLPIYATPADPKALLSAAVATSQGGGKLPESFISLWRFPHMLENARSMVTQLIQFGSTLQNIIERQDAESLNALLQNQAKELILTTLSIQDKTIEEIDAEKTVLEKSKAGAKSRFDNYSKLYDEDVNAGERQALDMRIASQSITSGLKGLHMAAAALEMVPNIYGFAVGGTRYGAIANAIAIGGGIAAEGLLIEAEKVSQSEIWRRRRQEWEIQRNNAEAEMKQIDAQLKSLTVRREAAVLQKTGLKTQQEQTQAQLAFLQRKFSNQALYNWLRGRLAAIYFQFYDLVVARCLMAEQAYRWETNDSSARFIKPGAWQGTYAGLLAGETLMLNLAQMEDAHLKQEQRALEVERTVSLAQVYQSLGEKSFALKDKIEALLQGDKETSAGNDGNQLKLTNNTLSATLTLQDLKLKDDYPEEMQLGKTRRIKQISVSLPALLGPYQDVQAVLSYGGDATGLAKGCKALAVSHGLNDNGQFQLDFNDGKFLPFEGIDINDKGTFTLSFPNAASKQKNILQMLTDIILHIRYTILE LTDICHYSFNEFRQQVSDHLSWSETNRLYRDAQQEQKENQLYEARILKRANPQLQNAVHLGITLPHAELRGYNSEFGGRASQYVAPGSVSSMFSPAAYLTELYREARNLHASDSVYHLDERRPDLQSMTLSQQNMDTELSTLSLSNEILLKGIKANQSNLDSDTKVMEMLSTFRPSGTIPYHDAYENVRKAIQLQDPKLEQFQKSPAVAGLMHQASLLGINNSISPELFNILTEEITEANAEAIYKQNFGDIDPACLAMPEYLKSYYNFSDEELSQFIRKYPDNELNTQKIHLLKINKIILLSQAVNLPFLKLDEIIPEQNITPTVLGKIFLVKYYMQKYNIGTETALILCNDSISQYSYSNQPSQFDRLFNTSPLNGQYFVIEDTNIDLSLNSTDNWHKAVLKRAFNVDDISLYRLLHIANHNNTDGKIANNIKNLSNLYMTKLLADIHQLTIDELYLLLITIGEDKINLYDIDDKELEKLINRLDTLSNWLHTQKWSIYQLFLMTTTNYDKTLTPEIQNLLDTVYNGLQNFDKNKTKLLAAIAPYIAATLQLPSENVAHSILLWADKIKPSENKITAEKFWIWLQNRDTTELSKPPEMQEQIIQYCHCLAQLTMIYRSSGINENAFRLFIEKPTIFGIPDEPNKATPAHNAPTLIILTRFANWVNSLGEKASPILTAFENKTLTAEKLANAMNLDANLLEQASIQAQNYKQVTKENTFSNWQSIDIILQWTNIASNLNISPQGISPLIALDYIKPAQKTPTYAQWENAAIALTAGLDTQQTHTLHVFLDESRSTALSNYYIGKVANRAASIKSRDDLYQYLLIDNQVSAEIKTTRIAEAIASIQLYVNRALENIEIHAVSDVITRQFFIDWDKYNKRYSTWAGVSQLVYYPENYIDPTMRIGQTKMMDTLLQSVSQSQLNADTVEDAFKSYLTSFEQVANLEVISAYHDNVNNDQGLTYFIGNSKTEVNQYYWRSVDHSKFNDGKFAANAWSEWHKIDCAINPYQSTIRPVIYKSRLYLIWLEQKETAKQKEDNKVTTDYHYELKLAHIRYDGTWNVPITFDVDEKILALELTKSQAPGLYCAGYQGEDTLLIMFYRKKEKLDDYKTAPMQGFYIFSDMSSKDMTNEQCNSYRDNGYTHFDTNSDTNSVIRINNRYAEDYEIPSLINHSNSHDWGEYNLSQVYGGNIVINYKVTSNDLKIYISPKLRIIHDGKEGRERIQSNLIKKYGKLGDKFIIYTSLGINPNNSSNRFMFYPVYQYNGNTSGLAQGRLLFHRDTSYSSKVAAWIPGAGRSLINENANIGDDCAEDSVNKPDDLKQYIYMTDSKGTATDVSGPVDINTAISSEKVQITIKAGKEYSLTANKDVSVQPSPSFEEMCYQFNALEIDGSNLNFTNNSASIDVTFTALADDGRKLGYEIFNIPVIQKVKTDNALTLFHDENGAQYMQWGAYRIRLNTLFARQLVERANTGIDTILSMETQNIQEPMMGIGAYIELILDKYNPDIHGTNKSFKIIYGDIFKAGDHFPIYQGALSDITQTTVKLFLPRVDNAYGNKNNLYVYAAYQKVETNFIRFVKEDNNKPATFDTTYKNGTFPGLASARVIQTVSEPMDFSGANSLYFWELFYYTPMMVAQRLLHEQNFDEANRWLKYVWSPSGYIVRGQIKNYHWNVRPLLENTSWNSDPLDSVDPDAVAQHDPMHYKVATFMRTLDLLMARGDHAYRQLERDTLNEAKMWYMQALHLLGNKPYLPLSSVWNDPRLDNAAATTTQKAHAYAITSLRQGTQTPALLLRSANTLTDLFLPQINDVMLSYWNKLELRLYNLRHNLSIDGQPLHLPIYATPADPKALLSAAVATSQGGGKLPESFISLWRFPHMLENARSMVTQLIQFGSTLQNIIERQDAESLNALLQNQAKELILTTLSIQDKTIEEIDAEKTVLEKSKAGAKSRFDNYSKLYDEDVNAGERQALDMRIASQSITSGLKGLHMAAAALEMVPNIYGFAVGGTRYGAIANAIAIGGGIAAEGLLIEAEKVSQSEIWRRRRQEWEIQRNNAEAEMKQIDAQLKSLTVRREAAVLQKTGLKTQQEQTQAQLAFLQRKFSNQALYNWLRGRLAAIYFQFYDLVVARCLMAEQAYRWETNDSSARFIKPGAWQGTYAGLLAGETLMLNLAQMEDAHLKQEQRALEVERTVSLAQVYQSLGEKSFALKDKIEALLQGDKETSAGNDGNQLKLTNNTLSATLTLQDLKLKDDYPEEMQLGKTRRIKQISVSLPALLGPYQDVQAVLSYGGDATGLAKGCKALAVSHGLNDNGQFQLDFNDGKFLPFEGIDINDKGTFTLSFPNAASKQKNILQMLTDIILHIRYTILE 6rwa-a1-m1-cD_6rwa-a1-m1-cE Cryo-EM structure of Photorhabdus luminescens TcdA4 Q8GF92 Q8GF92 4.0 ELECTRON MICROSCOPY 542 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 2361 2361 6rwa-a1-m1-cA_6rwa-a1-m1-cB 6rwa-a1-m1-cA_6rwa-a1-m1-cE 6rwa-a1-m1-cB_6rwa-a1-m1-cC 6rwa-a1-m1-cC_6rwa-a1-m1-cD LTDICHYSFNEFRQQVSDHLSWSETNRLYRDAQQEQKENQLYEARILKRANPQLQNAVHLGITLPHAELRGYNSEFGGRASQYVAPGSVSSMFSPAAYLTELYREARNLHASDSVYHLDERRPDLQSMTLSQQNMDTELSTLSLSNEILLKGIKANQSNLDSDTKVMEMLSTFRPSGTIPYHDAYENVRKAIQLQDPKLEQFQKSPAVAGLMHQASLLGINNSISPELFNILTEEITEANAEAIYKQNFGDIDPACLAMPEYLKSYYNFSDEELSQFIRKYPDNELNTQKIHLLKINKIILLSQAVNLPFLKLDEIIPEQNITPTVLGKIFLVKYYMQKYNIGTETALILCNDSISQYSYSNQPSQFDRLFNTSPLNGQYFVIEDTNIDLSLNSTDNWHKAVLKRAFNVDDISLYRLLHIANHNNTDGKIANNIKNLSNLYMTKLLADIHQLTIDELYLLLITIGEDKINLYDIDDKELEKLINRLDTLSNWLHTQKWSIYQLFLMTTTNYDKTLTPEIQNLLDTVYNGLQNFDKNKTKLLAAIAPYIAATLQLPSENVAHSILLWADKIKPSENKITAEKFWIWLQNRDTTELSKPPEMQEQIIQYCHCLAQLTMIYRSSGINENAFRLFIEKPTIFGIPDEPNKATPAHNAPTLIILTRFANWVNSLGEKASPILTAFENKTLTAEKLANAMNLDANLLEQASIQAQNYKQVTKENTFSNWQSIDIILQWTNIASNLNISPQGISPLIALDYIKPAQKTPTYAQWENAAIALTAGLDTQQTHTLHVFLDESRSTALSNYYIGKVANRAASIKSRDDLYQYLLIDNQVSAEIKTTRIAEAIASIQLYVNRALENIEIHAVSDVITRQFFIDWDKYNKRYSTWAGVSQLVYYPENYIDPTMRIGQTKMMDTLLQSVSQSQLNADTVEDAFKSYLTSFEQVANLEVISAYHDNVNNDQGLTYFIGNSKTEVNQYYWRSVDHSKFNDGKFAANAWSEWHKIDCAINPYQSTIRPVIYKSRLYLIWLEQKETAKQKEDNKVTTDYHYELKLAHIRYDGTWNVPITFDVDEKILALELTKSQAPGLYCAGYQGEDTLLIMFYRKKEKLDDYKTAPMQGFYIFSDMSSKDMTNEQCNSYRDNGYTHFDTNSDTNSVIRINNRYAEDYEIPSLINHSNSHDWGEYNLSQVYGGNIVINYKVTSNDLKIYISPKLRIIHDGKEGRERIQSNLIKKYGKLGDKFIIYTSLGINPNNSSNRFMFYPVYQYNGNTSGLAQGRLLFHRDTSYSSKVAAWIPGAGRSLINENANIGDDCAEDSVNKPDDLKQYIYMTDSKGTATDVSGPVDINTAISSEKVQITIKAGKEYSLTANKDVSVQPSPSFEEMCYQFNALEIDGSNLNFTNNSASIDVTFTALADDGRKLGYEIFNIPVIQKVKTDNALTLFHDENGAQYMQWGAYRIRLNTLFARQLVERANTGIDTILSMETQNIQEPMMGIGAYIELILDKYNPDIHGTNKSFKIIYGDIFKAGDHFPIYQGALSDITQTTVKLFLPRVDNAYGNKNNLYVYAAYQKVETNFIRFVKEDNNKPATFDTTYKNGTFPGLASARVIQTVSEPMDFSGANSLYFWELFYYTPMMVAQRLLHEQNFDEANRWLKYVWSPSGYIVRGQIKNYHWNVRPLLENTSWNSDPLDSVDPDAVAQHDPMHYKVATFMRTLDLLMARGDHAYRQLERDTLNEAKMWYMQALHLLGNKPYLPLSSVWNDPRLDNAAATTTQKAHAYAITSLRQGTQTPALLLRSANTLTDLFLPQINDVMLSYWNKLELRLYNLRHNLSIDGQPLHLPIYATPADPKALLSAAVATSQGGGKLPESFISLWRFPHMLENARSMVTQLIQFGSTLQNIIERQDAESLNALLQNQAKELILTTLSIQDKTIEEIDAEKTVLEKSKAGAKSRFDNYSKLYDEDVNAGERQALDMRIASQSITSGLKGLHMAAAALEMVPNIYGFAVGGTRYGAIANAIAIGGGIAAEGLLIEAEKVSQSEIWRRRRQEWEIQRNNAEAEMKQIDAQLKSLTVRREAAVLQKTGLKTQQEQTQAQLAFLQRKFSNQALYNWLRGRLAAIYFQFYDLVVARCLMAEQAYRWETNDSSARFIKPGAWQGTYAGLLAGETLMLNLAQMEDAHLKQEQRALEVERTVSLAQVYQSLGEKSFALKDKIEALLQGDKETSAGNDGNQLKLTNNTLSATLTLQDLKLKDDYPEEMQLGKTRRIKQISVSLPALLGPYQDVQAVLSYGGDATGLAKGCKALAVSHGLNDNGQFQLDFNDGKFLPFEGIDINDKGTFTLSFPNAASKQKNILQMLTDIILHIRYTILE LTDICHYSFNEFRQQVSDHLSWSETNRLYRDAQQEQKENQLYEARILKRANPQLQNAVHLGITLPHAELRGYNSEFGGRASQYVAPGSVSSMFSPAAYLTELYREARNLHASDSVYHLDERRPDLQSMTLSQQNMDTELSTLSLSNEILLKGIKANQSNLDSDTKVMEMLSTFRPSGTIPYHDAYENVRKAIQLQDPKLEQFQKSPAVAGLMHQASLLGINNSISPELFNILTEEITEANAEAIYKQNFGDIDPACLAMPEYLKSYYNFSDEELSQFIRKYPDNELNTQKIHLLKINKIILLSQAVNLPFLKLDEIIPEQNITPTVLGKIFLVKYYMQKYNIGTETALILCNDSISQYSYSNQPSQFDRLFNTSPLNGQYFVIEDTNIDLSLNSTDNWHKAVLKRAFNVDDISLYRLLHIANHNNTDGKIANNIKNLSNLYMTKLLADIHQLTIDELYLLLITIGEDKINLYDIDDKELEKLINRLDTLSNWLHTQKWSIYQLFLMTTTNYDKTLTPEIQNLLDTVYNGLQNFDKNKTKLLAAIAPYIAATLQLPSENVAHSILLWADKIKPSENKITAEKFWIWLQNRDTTELSKPPEMQEQIIQYCHCLAQLTMIYRSSGINENAFRLFIEKPTIFGIPDEPNKATPAHNAPTLIILTRFANWVNSLGEKASPILTAFENKTLTAEKLANAMNLDANLLEQASIQAQNYKQVTKENTFSNWQSIDIILQWTNIASNLNISPQGISPLIALDYIKPAQKTPTYAQWENAAIALTAGLDTQQTHTLHVFLDESRSTALSNYYIGKVANRAASIKSRDDLYQYLLIDNQVSAEIKTTRIAEAIASIQLYVNRALENIEIHAVSDVITRQFFIDWDKYNKRYSTWAGVSQLVYYPENYIDPTMRIGQTKMMDTLLQSVSQSQLNADTVEDAFKSYLTSFEQVANLEVISAYHDNVNNDQGLTYFIGNSKTEVNQYYWRSVDHSKFNDGKFAANAWSEWHKIDCAINPYQSTIRPVIYKSRLYLIWLEQKETAKQKEDNKVTTDYHYELKLAHIRYDGTWNVPITFDVDEKILALELTKSQAPGLYCAGYQGEDTLLIMFYRKKEKLDDYKTAPMQGFYIFSDMSSKDMTNEQCNSYRDNGYTHFDTNSDTNSVIRINNRYAEDYEIPSLINHSNSHDWGEYNLSQVYGGNIVINYKVTSNDLKIYISPKLRIIHDGKEGRERIQSNLIKKYGKLGDKFIIYTSLGINPNNSSNRFMFYPVYQYNGNTSGLAQGRLLFHRDTSYSSKVAAWIPGAGRSLINENANIGDDCAEDSVNKPDDLKQYIYMTDSKGTATDVSGPVDINTAISSEKVQITIKAGKEYSLTANKDVSVQPSPSFEEMCYQFNALEIDGSNLNFTNNSASIDVTFTALADDGRKLGYEIFNIPVIQKVKTDNALTLFHDENGAQYMQWGAYRIRLNTLFARQLVERANTGIDTILSMETQNIQEPMMGIGAYIELILDKYNPDIHGTNKSFKIIYGDIFKAGDHFPIYQGALSDITQTTVKLFLPRVDNAYGNKNNLYVYAAYQKVETNFIRFVKEDNNKPATFDTTYKNGTFPGLASARVIQTVSEPMDFSGANSLYFWELFYYTPMMVAQRLLHEQNFDEANRWLKYVWSPSGYIVRGQIKNYHWNVRPLLENTSWNSDPLDSVDPDAVAQHDPMHYKVATFMRTLDLLMARGDHAYRQLERDTLNEAKMWYMQALHLLGNKPYLPLSSVWNDPRLDNAAATTTQKAHAYAITSLRQGTQTPALLLRSANTLTDLFLPQINDVMLSYWNKLELRLYNLRHNLSIDGQPLHLPIYATPADPKALLSAAVATSQGGGKLPESFISLWRFPHMLENARSMVTQLIQFGSTLQNIIERQDAESLNALLQNQAKELILTTLSIQDKTIEEIDAEKTVLEKSKAGAKSRFDNYSKLYDEDVNAGERQALDMRIASQSITSGLKGLHMAAAALEMVPNIYGFAVGGTRYGAIANAIAIGGGIAAEGLLIEAEKVSQSEIWRRRRQEWEIQRNNAEAEMKQIDAQLKSLTVRREAAVLQKTGLKTQQEQTQAQLAFLQRKFSNQALYNWLRGRLAAIYFQFYDLVVARCLMAEQAYRWETNDSSARFIKPGAWQGTYAGLLAGETLMLNLAQMEDAHLKQEQRALEVERTVSLAQVYQSLGEKSFALKDKIEALLQGDKETSAGNDGNQLKLTNNTLSATLTLQDLKLKDDYPEEMQLGKTRRIKQISVSLPALLGPYQDVQAVLSYGGDATGLAKGCKALAVSHGLNDNGQFQLDFNDGKFLPFEGIDINDKGTFTLSFPNAASKQKNILQMLTDIILHIRYTILE 6rwb-a1-m1-cC_6rwb-a1-m1-cE Cryo-EM structure of Yersinia pseudotuberculosis TcaA-TcaB 3.25 ELECTRON MICROSCOPY 75 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 1873 1873 6rwb-a1-m1-cA_6rwb-a1-m1-cC 6rwb-a1-m1-cA_6rwb-a1-m1-cD 6rwb-a1-m1-cB_6rwb-a1-m1-cD 6rwb-a1-m1-cB_6rwb-a1-m1-cE APKILQPEARTDLSLAEGIPERANEYADPASIQSLFSPGRYLCELYHVAKELHEDGNKLHIDKRRPDLQDLVLNNSNMNQEVSSLEILLNVLQTKTPLDELTKDTEAHANDSSFTLPYDDNLTVINAILEDKAISLREIAVLLTEESDFSPTPALVQEQLGLNPASYALIDIKSPLDESYAKRLAHATQLSVEQLQWLNKNAIENSSNKNDPAKLEILAVISEYRRLHQRYGLSVDPFIAIINAVNTTHTNENKTSFFQQIFSTLDVDAGFNFLDQGSWEVIIRKALGITAEELLRIAKYCFGKSSISNVKMNSKKFSQLYRMAMIPRTLGVSFSQAEYLWQLYSHSDENIMEKIAQGNALTIIDAIIVLENTLQWMSEQKLDITTLQAMLTKQYSTTATPELFNFLSNIYQTLGKQVYSESLKPNLYRSLANGFHLKANVVAGLVNWLAKNDSEFTLERFWQNISMTFAEEPSLHQLEVHQPLLIQCQKLSQYVLIAQWAELSEQEIALILLPNGIDNRGSAPSPSITLLKLLSEFKLCQQEAKVSQSELFDIMQQLITDTNEKQEKLRNSADKVIRSIAKSIGSINNSMDDIDSTISIRNGSATLFPPEHPMYKALKLEVSNLEKSKIQLEGKKKEEEIKLEQAKDNIQSLINNWDSEIIIRLADAYHWDINIANSMFILIFGEKINFTFHYENRNDYHYEEHYGYRFEQKPMYSFDKKLTNGFGSILLLKNHIYIAEKLKIHPGTIIKIKNYIFDDKSNELENIANKLRVNLGSPTSTVLNKINESRRDALVNYYLAKNVSGDEKIKTAEQLYQYLLLDTKIGHEVKTSPIAEAISSLQIYINRCVDGEENDLHEKNISTHFSSDNFLHGWNSYNKRYARWAGKEKLMYYAADYIDPTLRYNKTELFNTFEQSINNSRLTEKSVKSALQSYLISYEKLAQIDTIKELYVENIKTHFFLGKTRESPCQYYWRSGEQLSNDSHHLRWSEWKKVECNINGTEEKFFINLSWYRNRLYVDWLNKTAFKTDEGKGKSEYHYNAAYKNDNNAWNDNISNMKIGLPWEQSKDIDEIPPIFINQDNVGGNSFNRITFDTNIIHELDGDISLLPPDSLPLVEKLQTSVDELLSYSTQKDKIGLDAFSGSYGIYFWEFFFHIPFLASMRFLNEQRFDLAQHWLKYLLNSAGYRDRNGNLLKEGDNILYWNSLPLQQDTDWDKNTLTLPTDDPDVIAMQDPMQYKLAIFMRTLDLIISQGDQAYRQLERDTLAEAKIYYIQASQLLGSRPDLNRGHQWENIKLAEESRQAENGHFLPPYNEILLSYWDKLEIRLYNLRHNLNLDGQPLHLPLFATPVDPKALQRQHGAGNGINSGEQMATAQTSLYRFPLLIERAKSAVSSVIQFGNSLQSVLERQDNEAMTLLFQQQQQKVLQHTKDIQNNNIQVLQANLEATNSLKSAAKQRSKHYKELLDNGISSREQSGLDLRIDAGAVNIASVAPLMLAAALDTAPNVFGLADGGSHWGAVPYATSATLQISAGLTESRANINDIKANYDRREQEWTLQKNQADKDAEQLAHQYTSVQEQLNMAQKQRNLAELEQGHADALYQMQSTRFTGKELYNWMAGRLSGLYFQLFDATQPLCLMAKAVLEKEVDKAKTDGLFIRSGWNDLYQGLLAGEDLQLNLQKLENVWLMEEQRALEVERTVSLAQHYQQLSDHKFNLAEIVTGYMAQDKDQKTGNEQDFVELKNSTLIASLSIKGLNLVEDYPETMHLGDIRRIKQISVSLPALLGPYQDVQATLDYAGENTHLAKGCTALAISRGMNDSGQFQLDFNDGKYLPFEGIDISDKGTLVLRFPNATSKQKLLLQSLSDIILHIRYTIRS APKILQPEARTDLSLAEGIPERANEYADPASIQSLFSPGRYLCELYHVAKELHEDGNKLHIDKRRPDLQDLVLNNSNMNQEVSSLEILLNVLQTKTPLDELTKDTEAHANDSSFTLPYDDNLTVINAILEDKAISLREIAVLLTEESDFSPTPALVQEQLGLNPASYALIDIKSPLDESYAKRLAHATQLSVEQLQWLNKNAIENSSNKNDPAKLEILAVISEYRRLHQRYGLSVDPFIAIINAVNTTHTNENKTSFFQQIFSTLDVDAGFNFLDQGSWEVIIRKALGITAEELLRIAKYCFGKSSISNVKMNSKKFSQLYRMAMIPRTLGVSFSQAEYLWQLYSHSDENIMEKIAQGNALTIIDAIIVLENTLQWMSEQKLDITTLQAMLTKQYSTTATPELFNFLSNIYQTLGKQVYSESLKPNLYRSLANGFHLKANVVAGLVNWLAKNDSEFTLERFWQNISMTFAEEPSLHQLEVHQPLLIQCQKLSQYVLIAQWAELSEQEIALILLPNGIDNRGSAPSPSITLLKLLSEFKLCQQEAKVSQSELFDIMQQLITDTNEKQEKLRNSADKVIRSIAKSIGSINNSMDDIDSTISIRNGSATLFPPEHPMYKALKLEVSNLEKSKIQLEGKKKEEEIKLEQAKDNIQSLINNWDSEIIIRLADAYHWDINIANSMFILIFGEKINFTFHYENRNDYHYEEHYGYRFEQKPMYSFDKKLTNGFGSILLLKNHIYIAEKLKIHPGTIIKIKNYIFDDKSNELENIANKLRVNLGSPTSTVLNKINESRRDALVNYYLAKNVSGDEKIKTAEQLYQYLLLDTKIGHEVKTSPIAEAISSLQIYINRCVDGEENDLHEKNISTHFSSDNFLHGWNSYNKRYARWAGKEKLMYYAADYIDPTLRYNKTELFNTFEQSINNSRLTEKSVKSALQSYLISYEKLAQIDTIKELYVENIKTHFFLGKTRESPCQYYWRSGEQLSNDSHHLRWSEWKKVECNINGTEEKFFINLSWYRNRLYVDWLNKTAFKTDEGKGKSEYHYNAAYKNDNNAWNDNISNMKIGLPWEQSKDIDEIPPIFINQDNVGGNSFNRITFDTNIIHELDGDISLLPPDSLPLVEKLQTSVDELLSYSTQKDKIGLDAFSGSYGIYFWEFFFHIPFLASMRFLNEQRFDLAQHWLKYLLNSAGYRDRNGNLLKEGDNILYWNSLPLQQDTDWDKNTLTLPTDDPDVIAMQDPMQYKLAIFMRTLDLIISQGDQAYRQLERDTLAEAKIYYIQASQLLGSRPDLNRGHQWENIKLAEESRQAENGHFLPPYNEILLSYWDKLEIRLYNLRHNLNLDGQPLHLPLFATPVDPKALQRQHGAGNGINSGEQMATAQTSLYRFPLLIERAKSAVSSVIQFGNSLQSVLERQDNEAMTLLFQQQQQKVLQHTKDIQNNNIQVLQANLEATNSLKSAAKQRSKHYKELLDNGISSREQSGLDLRIDAGAVNIASVAPLMLAAALDTAPNVFGLADGGSHWGAVPYATSATLQISAGLTESRANINDIKANYDRREQEWTLQKNQADKDAEQLAHQYTSVQEQLNMAQKQRNLAELEQGHADALYQMQSTRFTGKELYNWMAGRLSGLYFQLFDATQPLCLMAKAVLEKEVDKAKTDGLFIRSGWNDLYQGLLAGEDLQLNLQKLENVWLMEEQRALEVERTVSLAQHYQQLSDHKFNLAEIVTGYMAQDKDQKTGNEQDFVELKNSTLIASLSIKGLNLVEDYPETMHLGDIRRIKQISVSLPALLGPYQDVQATLDYAGENTHLAKGCTALAISRGMNDSGQFQLDFNDGKYLPFEGIDISDKGTLVLRFPNATSKQKLLLQSLSDIILHIRYTIRS 6rwb-a1-m1-cD_6rwb-a1-m1-cE Cryo-EM structure of Yersinia pseudotuberculosis TcaA-TcaB 3.25 ELECTRON MICROSCOPY 589 1.0 633 (Yersinia pseudotuberculosis) 633 (Yersinia pseudotuberculosis) 1873 1873 6rwb-a1-m1-cA_6rwb-a1-m1-cB 6rwb-a1-m1-cA_6rwb-a1-m1-cE 6rwb-a1-m1-cB_6rwb-a1-m1-cC 6rwb-a1-m1-cC_6rwb-a1-m1-cD APKILQPEARTDLSLAEGIPERANEYADPASIQSLFSPGRYLCELYHVAKELHEDGNKLHIDKRRPDLQDLVLNNSNMNQEVSSLEILLNVLQTKTPLDELTKDTEAHANDSSFTLPYDDNLTVINAILEDKAISLREIAVLLTEESDFSPTPALVQEQLGLNPASYALIDIKSPLDESYAKRLAHATQLSVEQLQWLNKNAIENSSNKNDPAKLEILAVISEYRRLHQRYGLSVDPFIAIINAVNTTHTNENKTSFFQQIFSTLDVDAGFNFLDQGSWEVIIRKALGITAEELLRIAKYCFGKSSISNVKMNSKKFSQLYRMAMIPRTLGVSFSQAEYLWQLYSHSDENIMEKIAQGNALTIIDAIIVLENTLQWMSEQKLDITTLQAMLTKQYSTTATPELFNFLSNIYQTLGKQVYSESLKPNLYRSLANGFHLKANVVAGLVNWLAKNDSEFTLERFWQNISMTFAEEPSLHQLEVHQPLLIQCQKLSQYVLIAQWAELSEQEIALILLPNGIDNRGSAPSPSITLLKLLSEFKLCQQEAKVSQSELFDIMQQLITDTNEKQEKLRNSADKVIRSIAKSIGSINNSMDDIDSTISIRNGSATLFPPEHPMYKALKLEVSNLEKSKIQLEGKKKEEEIKLEQAKDNIQSLINNWDSEIIIRLADAYHWDINIANSMFILIFGEKINFTFHYENRNDYHYEEHYGYRFEQKPMYSFDKKLTNGFGSILLLKNHIYIAEKLKIHPGTIIKIKNYIFDDKSNELENIANKLRVNLGSPTSTVLNKINESRRDALVNYYLAKNVSGDEKIKTAEQLYQYLLLDTKIGHEVKTSPIAEAISSLQIYINRCVDGEENDLHEKNISTHFSSDNFLHGWNSYNKRYARWAGKEKLMYYAADYIDPTLRYNKTELFNTFEQSINNSRLTEKSVKSALQSYLISYEKLAQIDTIKELYVENIKTHFFLGKTRESPCQYYWRSGEQLSNDSHHLRWSEWKKVECNINGTEEKFFINLSWYRNRLYVDWLNKTAFKTDEGKGKSEYHYNAAYKNDNNAWNDNISNMKIGLPWEQSKDIDEIPPIFINQDNVGGNSFNRITFDTNIIHELDGDISLLPPDSLPLVEKLQTSVDELLSYSTQKDKIGLDAFSGSYGIYFWEFFFHIPFLASMRFLNEQRFDLAQHWLKYLLNSAGYRDRNGNLLKEGDNILYWNSLPLQQDTDWDKNTLTLPTDDPDVIAMQDPMQYKLAIFMRTLDLIISQGDQAYRQLERDTLAEAKIYYIQASQLLGSRPDLNRGHQWENIKLAEESRQAENGHFLPPYNEILLSYWDKLEIRLYNLRHNLNLDGQPLHLPLFATPVDPKALQRQHGAGNGINSGEQMATAQTSLYRFPLLIERAKSAVSSVIQFGNSLQSVLERQDNEAMTLLFQQQQQKVLQHTKDIQNNNIQVLQANLEATNSLKSAAKQRSKHYKELLDNGISSREQSGLDLRIDAGAVNIASVAPLMLAAALDTAPNVFGLADGGSHWGAVPYATSATLQISAGLTESRANINDIKANYDRREQEWTLQKNQADKDAEQLAHQYTSVQEQLNMAQKQRNLAELEQGHADALYQMQSTRFTGKELYNWMAGRLSGLYFQLFDATQPLCLMAKAVLEKEVDKAKTDGLFIRSGWNDLYQGLLAGEDLQLNLQKLENVWLMEEQRALEVERTVSLAQHYQQLSDHKFNLAEIVTGYMAQDKDQKTGNEQDFVELKNSTLIASLSIKGLNLVEDYPETMHLGDIRRIKQISVSLPALLGPYQDVQATLDYAGENTHLAKGCTALAISRGMNDSGQFQLDFNDGKYLPFEGIDISDKGTLVLRFPNATSKQKLLLQSLSDIILHIRYTIRS APKILQPEARTDLSLAEGIPERANEYADPASIQSLFSPGRYLCELYHVAKELHEDGNKLHIDKRRPDLQDLVLNNSNMNQEVSSLEILLNVLQTKTPLDELTKDTEAHANDSSFTLPYDDNLTVINAILEDKAISLREIAVLLTEESDFSPTPALVQEQLGLNPASYALIDIKSPLDESYAKRLAHATQLSVEQLQWLNKNAIENSSNKNDPAKLEILAVISEYRRLHQRYGLSVDPFIAIINAVNTTHTNENKTSFFQQIFSTLDVDAGFNFLDQGSWEVIIRKALGITAEELLRIAKYCFGKSSISNVKMNSKKFSQLYRMAMIPRTLGVSFSQAEYLWQLYSHSDENIMEKIAQGNALTIIDAIIVLENTLQWMSEQKLDITTLQAMLTKQYSTTATPELFNFLSNIYQTLGKQVYSESLKPNLYRSLANGFHLKANVVAGLVNWLAKNDSEFTLERFWQNISMTFAEEPSLHQLEVHQPLLIQCQKLSQYVLIAQWAELSEQEIALILLPNGIDNRGSAPSPSITLLKLLSEFKLCQQEAKVSQSELFDIMQQLITDTNEKQEKLRNSADKVIRSIAKSIGSINNSMDDIDSTISIRNGSATLFPPEHPMYKALKLEVSNLEKSKIQLEGKKKEEEIKLEQAKDNIQSLINNWDSEIIIRLADAYHWDINIANSMFILIFGEKINFTFHYENRNDYHYEEHYGYRFEQKPMYSFDKKLTNGFGSILLLKNHIYIAEKLKIHPGTIIKIKNYIFDDKSNELENIANKLRVNLGSPTSTVLNKINESRRDALVNYYLAKNVSGDEKIKTAEQLYQYLLLDTKIGHEVKTSPIAEAISSLQIYINRCVDGEENDLHEKNISTHFSSDNFLHGWNSYNKRYARWAGKEKLMYYAADYIDPTLRYNKTELFNTFEQSINNSRLTEKSVKSALQSYLISYEKLAQIDTIKELYVENIKTHFFLGKTRESPCQYYWRSGEQLSNDSHHLRWSEWKKVECNINGTEEKFFINLSWYRNRLYVDWLNKTAFKTDEGKGKSEYHYNAAYKNDNNAWNDNISNMKIGLPWEQSKDIDEIPPIFINQDNVGGNSFNRITFDTNIIHELDGDISLLPPDSLPLVEKLQTSVDELLSYSTQKDKIGLDAFSGSYGIYFWEFFFHIPFLASMRFLNEQRFDLAQHWLKYLLNSAGYRDRNGNLLKEGDNILYWNSLPLQQDTDWDKNTLTLPTDDPDVIAMQDPMQYKLAIFMRTLDLIISQGDQAYRQLERDTLAEAKIYYIQASQLLGSRPDLNRGHQWENIKLAEESRQAENGHFLPPYNEILLSYWDKLEIRLYNLRHNLNLDGQPLHLPLFATPVDPKALQRQHGAGNGINSGEQMATAQTSLYRFPLLIERAKSAVSSVIQFGNSLQSVLERQDNEAMTLLFQQQQQKVLQHTKDIQNNNIQVLQANLEATNSLKSAAKQRSKHYKELLDNGISSREQSGLDLRIDAGAVNIASVAPLMLAAALDTAPNVFGLADGGSHWGAVPYATSATLQISAGLTESRANINDIKANYDRREQEWTLQKNQADKDAEQLAHQYTSVQEQLNMAQKQRNLAELEQGHADALYQMQSTRFTGKELYNWMAGRLSGLYFQLFDATQPLCLMAKAVLEKEVDKAKTDGLFIRSGWNDLYQGLLAGEDLQLNLQKLENVWLMEEQRALEVERTVSLAQHYQQLSDHKFNLAEIVTGYMAQDKDQKTGNEQDFVELKNSTLIASLSIKGLNLVEDYPETMHLGDIRRIKQISVSLPALLGPYQDVQATLDYAGENTHLAKGCTALAISRGMNDSGQFQLDFNDGKYLPFEGIDISDKGTLVLRFPNATSKQKLLLQSLSDIILHIRYTIRS 6rwy-a1-m1-cc_6rwy-a1-m1-cd Export apparatus core and inner rod of the Shigella type 3 secretion system P0A1L3 P0A1L3 5.11 ELECTRON MICROSCOPY 112 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 208 208 6r6b-a1-m1-cB_6r6b-a1-m1-cA 6rwy-a1-m1-ca_6rwy-a1-m1-cb 6rwy-a1-m1-cb_6rwy-a1-m1-cc 6rwy-a1-m1-cd_6rwy-a1-m1-ce SLIATLSFFTLLPFLVAAGTCYIKFSIVFVMVRNALGLQQVPSNMTLNGIALIMALFVMKPIIEAGYENYLNGPQKFDTISDIVRFSDSGLMEYKQYLKKHTDLELARFFQRSEEENADLKSAENNDYSLFSLLPAYALSEIKDAFKIGFYLYLPFVVVDLVISSILLALGMMMMSPITISVPIKLVLFVALDGWGILSKALIEQYIN SLIATLSFFTLLPFLVAAGTCYIKFSIVFVMVRNALGLQQVPSNMTLNGIALIMALFVMKPIIEAGYENYLNGPQKFDTISDIVRFSDSGLMEYKQYLKKHTDLELARFFQRSEEENADLKSAENNDYSLFSLLPAYALSEIKDAFKIGFYLYLPFVVVDLVISSILLALGMMMMSPITISVPIKLVLFVALDGWGILSKALIEQYIN 6rx9-a1-m1-cB_6rx9-a1-m1-cA Crystal structure of TetR from Acinetobacter baumannii AYE B0VCI2 B0VCI2 1.8 X-RAY DIFFRACTION 156 1.0 509173 (Acinetobacter baumannii AYE) 509173 (Acinetobacter baumannii AYE) 186 193 KLDKGTVIAAALELLNEVGMDSLTTRKLAERLKVQQPALYWHFQNKRALLDALAEAMLAERHTRSLPEENEDWRVFLKENALSFRTALLSYRDGARIHAGTRNFGTAETQIRFLCAEGFCPKRAVWALRAVSHYVVGSVLEQQASDADPSSFLHDLFHELETDGMDAAFNFGLDSLIAGFERLRSS KLDKGTVIAAALELLNEVGMDSLTTRKLAERLKVQQPALYWHFQNKRALLDALAEAMLAERHTRSLPEENEDWRVFLKENALSFRTALLSYRDGARIHAGTRPTEPNFGTAETQIRFLCAEGFCPKRAVWALRAVSHYVVGSVLEQQASDADERAPSSFLHDLFHELETDGMDAAFNFGLDSLIAGFERLRSS 6rxx-a1-m1-cUE_6rxx-a1-m1-cUI Cryo-EM structure of the 90S pre-ribosome (Kre33-Noc4) from Chaetomium thermophilum, state C, Poly-Ala G0RYX2 G0RYX2 7.1 ELECTRON MICROSCOPY 26 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 125 125 6rxt-a1-m1-cUE_6rxt-a1-m1-cUI 6rxu-a1-m1-cUE_6rxu-a1-m1-cUI 6rxv-a1-m1-cUE_6rxv-a1-m1-cUI 6rxy-a1-m1-cUE_6rxy-a1-m1-cUI 6rxz-a1-m1-cUE_6rxz-a1-m1-cUI LGTVLNQALRTDDSDLLESCLQTLIIQNTINRMDSSLAGTLLSKLAARMHRRPGRAFGLMRWIQWTLVAHGGALVTQPDLINRLTELSRVLEERSRGLSSLLALKGKLDMLDAQLKYRKALKMAG LGTVLNQALRTDDSDLLESCLQTLIIQNTINRMDSSLAGTLLSKLAARMHRRPGRAFGLMRWIQWTLVAHGGALVTQPDLINRLTELSRVLEERSRGLSSLLALKGKLDMLDAQLKYRKALKMAG 6rxz-a1-m1-cCO_6rxz-a1-m1-cCN Cryo-EM structure of the 90S pre-ribosome (Kre33-Noc4) from Chaetomium thermophilum, state b G0SAY9 G0SAY9 4.4 ELECTRON MICROSCOPY 84 0.995 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 215 226 5oql-a1-m1-ce_5oql-a1-m1-cf 6rxt-a1-m1-cCO_6rxt-a1-m1-cCN 6rxu-a1-m1-cCO_6rxu-a1-m1-cCN 6rxv-a1-m1-cCO_6rxv-a1-m1-cCN 6rxx-a1-m1-cCO_6rxx-a1-m1-cCN 6rxy-a1-m1-cCO_6rxy-a1-m1-cCN HVPIPPNDKDTKRLIVVLSNASLETYKYTLLNSDEHIGIMRKMNRDISDARPDITHQCLLTLLDSPINKAGKLQIYIQTAKGVLIEVSPTVRIPRTFKRFAGLMVQLLHRLSIKGTNTNEKLLKVIQNPITDHLPPNCRKVTLSFDAPLVRVRDYVDTLGPNESICVFVGAMAKGPDNFADAYVDEKISISNYSLSASVACSKFCHACEDAWDII PPPALPQLVAEQHVPIPPNDKDTKRLIVVLSNASLETYKYTLLNSDEHIGIMRKMNRDISDARPDITHQCLLTLLDSPINKAGKLQIYIQTAKGVLIEVSPTVRIPRTFKRFAGLMVQLLHRLSIKGTNTNEKLLKVIQNPITDHLPPNCRKVTLSFDAPLVRVRDYVDTLGPNESICVFVGAMAKGPDNFADAYVDEKISISNYSLSASVACSKFCHACEDAWDI 6rxz-a1-m1-cCR_6rxz-a1-m1-cCS Cryo-EM structure of the 90S pre-ribosome (Kre33-Noc4) from Chaetomium thermophilum, state b G0S273 G0S273 4.4 ELECTRON MICROSCOPY 43 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 760 760 6rxt-a1-m1-cCR_6rxt-a1-m1-cCS 6rxu-a1-m1-cCR_6rxu-a1-m1-cCS 6rxv-a1-m1-cCR_6rxv-a1-m1-cCS 6rxx-a1-m1-cCR_6rxx-a1-m1-cCS 6rxy-a1-m1-cCR_6rxy-a1-m1-cCS TVQKTVDSRIPTLIRNGLQTKKRSFFVVVGDHAKEAIVHLYYIMSSMDVRQNKSVLWAYKKELLGFTSHRKKREAKIKKEIKRGIREPNQADPFELFISLNDIRYCYYKETDKILGNTYGMCILQDFEAITPNILARTIETVEGGGLVVLLLKGMTSLKQLYTMTMDVHARYRTVIARFNERFLLSLGSCESCLVIDDELNVLPISGGKGVKPLPPPIGSLIKLRTVDQAKALLTFVDAIAEKTLRNTVTLTAARGRGKSAAMGVAIAAAVAYGYSNIFITSPSPENLKTLFEFHRQTIQYIRPQDAHVLGQAELVVIDEAAAIPLPLVKKLMGPYLVFMASTISGYEGTGRSLSLKLIKQLRELKEITLSEPIRYAQGDNVEKWLNTLLCLDATLPRGCPDPSQCELLHVNRDTLFSFHPVSEKFLQQMVALYVASHYKNSPNDLQLMSDAPAHELFVLTGPIQEGRLPEPLCVIQVSLEGKISKDLIPWLVSQQFQDDEFASLSGARIVRIATNPDYMSMGYGSKALQLLVDYYEGHELPPLFSKLSERRPEKLDYVGVSYGLTQQLHKFWKRAQFVPVYLRQTANDLTGEHTCVMIRPLQDGNDPSWLGAFAADFHKRFLSLLSYKFREFPSILALTIEESANAGAMLDPSNAPTELTKAELDQLFTPFDHKRLESYANGLLDYHVVLDLMPTIAQLYFTGRLREAVKLSGLQQAILLALGLQRKDIDTLATELNLPGSQVLAIFMKIMRKVTQHFG TVQKTVDSRIPTLIRNGLQTKKRSFFVVVGDHAKEAIVHLYYIMSSMDVRQNKSVLWAYKKELLGFTSHRKKREAKIKKEIKRGIREPNQADPFELFISLNDIRYCYYKETDKILGNTYGMCILQDFEAITPNILARTIETVEGGGLVVLLLKGMTSLKQLYTMTMDVHARYRTVIARFNERFLLSLGSCESCLVIDDELNVLPISGGKGVKPLPPPIGSLIKLRTVDQAKALLTFVDAIAEKTLRNTVTLTAARGRGKSAAMGVAIAAAVAYGYSNIFITSPSPENLKTLFEFHRQTIQYIRPQDAHVLGQAELVVIDEAAAIPLPLVKKLMGPYLVFMASTISGYEGTGRSLSLKLIKQLRELKEITLSEPIRYAQGDNVEKWLNTLLCLDATLPRGCPDPSQCELLHVNRDTLFSFHPVSEKFLQQMVALYVASHYKNSPNDLQLMSDAPAHELFVLTGPIQEGRLPEPLCVIQVSLEGKISKDLIPWLVSQQFQDDEFASLSGARIVRIATNPDYMSMGYGSKALQLLVDYYEGHELPPLFSKLSERRPEKLDYVGVSYGLTQQLHKFWKRAQFVPVYLRQTANDLTGEHTCVMIRPLQDGNDPSWLGAFAADFHKRFLSLLSYKFREFPSILALTIEESANAGAMLDPSNAPTELTKAELDQLFTPFDHKRLESYANGLLDYHVVLDLMPTIAQLYFTGRLREAVKLSGLQQAILLALGLQRKDIDTLATELNLPGSQVLAIFMKIMRKVTQHFG 6ryb-a1-m1-cA_6ryb-a1-m1-cB Structure of deubiquitinase for PR-ubiquitination 1 -Dup1 A0A3A6VNK6 A0A3A6VNK6 2.315 X-RAY DIFFRACTION 20 1.0 91891 (Legionella pneumophila subsp. pneumophila) 91891 (Legionella pneumophila subsp. pneumophila) 309 312 SILDPEVLKVAEYVYQERLSKPYTEVGPEWEYNHKTPYATRATGTGHNLQRFITIDDQRLHRPIHGLAHTMRTLFYSQLMYEAAKRQPHPHRCADGRTIADLSVQDLKKLNIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEAYARKHLTHLFSEKEIVLYSRCIEDRIGDRFDETAEGYLIHLSHMIDLMRCKSPVEVFIGHSRGVSGIVPTLIQLFGREDGLDIMHYARSLFAATGEAVPYISSSEWPHLGIESDRVERALKIVGSLEVEGQEADAKKTAQAGFSVDGCYGALVKIDTPDWYHQVK GSILDPEVLKVAEYVYQERLSKPYTEVGPEWEYNHKTPYATRATGTGHNLQRFITIDDQRLHRPIHGLAHTMRTLFYSQLMYEAAKRQPHPHRCADGRTIADLSVQDLKKLNIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEAYARKHLTHLFSEKEIVLYSRCIEDRIGDRFDETAEGYLIHLSHMIDLMRCKSPVEVFIGHSRGVSGIVPTLIQLFGREDGLDIMHYARSLFAATGEAVPYISSSEWPHLGIESDRVERALKIVGSLEVEGQEADAKKTAQAGFSVDGCYGALVKIDTPDWYHQVKEK 6ryb-a1-m1-cA_6ryb-a1-m1-cC Structure of deubiquitinase for PR-ubiquitination 1 -Dup1 A0A3A6VNK6 A0A3A6VNK6 2.315 X-RAY DIFFRACTION 49 0.997 91891 (Legionella pneumophila subsp. pneumophila) 91891 (Legionella pneumophila subsp. pneumophila) 309 312 SILDPEVLKVAEYVYQERLSKPYTEVGPEWEYNHKTPYATRATGTGHNLQRFITIDDQRLHRPIHGLAHTMRTLFYSQLMYEAAKRQPHPHRCADGRTIADLSVQDLKKLNIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEAYARKHLTHLFSEKEIVLYSRCIEDRIGDRFDETAEGYLIHLSHMIDLMRCKSPVEVFIGHSRGVSGIVPTLIQLFGREDGLDIMHYARSLFAATGEAVPYISSSEWPHLGIESDRVERALKIVGSLEVEGQEADAKKTAQAGFSVDGCYGALVKIDTPDWYHQVK GAMGSILDPEVLKVAEYVYQERLSKPYTEVGPEWEYNHKTPYATRATGTGHNLQRFITIDDQRLHRPIHGLAHTMRTLFYSQLMYEAAKRQPHPHRCADGRTIADLSVQDLKKLNIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEAYARKHLTHLFSEKEIVLYSRCIEDRIGDRFDETAEGYLIHLSHMIDLMRCKSPVEVFIGHSRGVSGIVPTLIQLFGREDGLDIMHYARSLFAATGEAVPYISSSEWPHLGIESDRVERALKIVGSLEVEGQEADAKKTAQAGFSVDGCYGALVKIDTPDWYHQV 6ryb-a1-m1-cB_6ryb-a1-m1-cC Structure of deubiquitinase for PR-ubiquitination 1 -Dup1 A0A3A6VNK6 A0A3A6VNK6 2.315 X-RAY DIFFRACTION 33 0.99 91891 (Legionella pneumophila subsp. pneumophila) 91891 (Legionella pneumophila subsp. pneumophila) 312 312 GSILDPEVLKVAEYVYQERLSKPYTEVGPEWEYNHKTPYATRATGTGHNLQRFITIDDQRLHRPIHGLAHTMRTLFYSQLMYEAAKRQPHPHRCADGRTIADLSVQDLKKLNIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEAYARKHLTHLFSEKEIVLYSRCIEDRIGDRFDETAEGYLIHLSHMIDLMRCKSPVEVFIGHSRGVSGIVPTLIQLFGREDGLDIMHYARSLFAATGEAVPYISSSEWPHLGIESDRVERALKIVGSLEVEGQEADAKKTAQAGFSVDGCYGALVKIDTPDWYHQVKEK GAMGSILDPEVLKVAEYVYQERLSKPYTEVGPEWEYNHKTPYATRATGTGHNLQRFITIDDQRLHRPIHGLAHTMRTLFYSQLMYEAAKRQPHPHRCADGRTIADLSVQDLKKLNIAQLFFVAGRESEASYGDAYHRYHLYGAKQFEAYARKHLTHLFSEKEIVLYSRCIEDRIGDRFDETAEGYLIHLSHMIDLMRCKSPVEVFIGHSRGVSGIVPTLIQLFGREDGLDIMHYARSLFAATGEAVPYISSSEWPHLGIESDRVERALKIVGSLEVEGQEADAKKTAQAGFSVDGCYGALVKIDTPDWYHQV 6ryd-a2-m1-cF_6ryd-a2-m1-cE WUS-HD bound to TGAA DNA Q9SB92 Q9SB92 1.575 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 58 68 6ryd-a1-m1-cB_6ryd-a1-m1-cA RWTPTTEQIKILKELYYNNAIRSPTADQIQKITARLRQFGKIEGKNVFYWFQNHKARE QTSTRWTPTTEQIKILKELYYNNAIRSPTADQIQKITARLRQFGKIEGKNVFYWFQNHKARERQKKRF 6ryk-a1-m1-cB_6ryk-a1-m1-cA Crystal structure of the ParB-like protein PadC Q1D3H3 Q1D3H3 1.7 X-RAY DIFFRACTION 91 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 132 133 SGRVTTVLLPLEKLQDESAFKLRPEGDVSGLATDIARLGQLFPVDVRPAGEDRYQLVCGFRRVAALRFLKRDAVQARIHLRLSDEDALVMSLAEAIHATPVGPEVLEAKRDELEAQGRLSAAVRDMLEKALA SGRVTTVLLPLEKLQDESAFKLRPEGDVSGLATDIARLGQLFPVDVRPAGEDRYQLVCGFRRVAALRFLKRDAVQARIHLRLSDEDALVMSLAEAIHATPVGPEVLEAKRDELEAQGRLSAAVRDMLEKALAT 6ryl-a2-m1-cD_6ryl-a2-m1-cE WUS-HD bound to TAAT DNA Q9SB92 Q9SB92 2.63 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 63 64 TRWTPTTEQIKILKELYYNNAIRSPTADQIQKITARLRQFGKIEGKNVFYWFQNHKARERQKK TRWTPTTEQIKILKELYYNNAIRSPTADQIQKITARLRQFGKIEGKNVFYWFQNHKARERQKKR 6rzo-a1-m1-cB_6rzo-a1-m1-cA Crystal structure of the N-terminal carbohydrate binding module family 48 and ferulic acid esterase from the multi-enzyme CE1-GH62-GH10 1.632 X-RAY DIFFRACTION 129 0.997 77133 (uncultured bacterium) 77133 (uncultured bacterium) 339 344 MEDFKPTSTNQPGRQYPQVNSEGRVRARIEAPQAHTVLLDIGGVRYPMTQGEDGAWIGDSRPQDEGFHYYQLVIDGARVPDPGSLYFFGANRWGSGVEVPAHDQDFYAIKDVPHGRVQKILFPSGSTSTIRRAFVYTPPDYGKDLSKRYPVLYLQHGWGEDETGWANQGRVNLIMDNLIAEGKARPFIIVMTYGMTNEREFDIRPFQTVLVDELIPYIDANFRTRSDQPHRAMAGLSMGGMETRLITMNNLDLFSHIGLFSGGTISASDITDRDVFKQKIKLVFVSCGSRENPGRFRPAVDSLQQAGISAVSYVSPDTAHEWQTWRRSFYQFAQLLFQL MEDFKPTSTNQPGRQYPQVNSEGRVRARIEAPQAHTVLLDIGGVRYPMTQGEDGAWIGDSRPQDEGFHYYQLVIDGARVPDPGSLYFFGANRWGSGVEVPAHDQDFYAIKDVPHGRVQKILFPSGSTSTIRRAFVYTPPDYGKDLSKRYPVLYLQHGWGEDETGWANQGRVNLIMDNLIAEGKARPFIIVMTYGMTNEIRFGGIREFDIRPFQTVLVDELIPYIDANFRTRSDQPHRAMAGLSMGGMETRLITMNNLDLFSHIGLFSGGTISASDITDRDVFKQKIKLVFVSCGSRENPGRFRPAVDSLQQAGISAVSYVSPDTAHEWQTWRRSFYQFAQLLFQ 6s0e-a1-m1-cA_6s0e-a1-m1-cB Crystal structure of an inverting family GH156 exosialidase from uncultured bacterium pG7 in complex with N-Acetyl-2,3-dehydro-2-deoxyneuraminic acid 1.9 X-RAY DIFFRACTION 113 1.0 2341022 (uncultured bacterium pG7) 2341022 (uncultured bacterium pG7) 496 496 6rzd-a1-m1-cA_6rzd-a1-m1-cB 6s00-a1-m1-cA_6s00-a1-m1-cB 6s04-a1-m1-cA_6s04-a1-m1-cB 6s0f-a1-m1-cB_6s0f-a1-m1-cA IPGISLNEDNSHYFYTRAGRRLSAEEVDSWVDQYAGTQVKELMLCPNCMRTSYASQVWDPIWRGYDPAGPDDQPLLASLPPEERVAARGWIHTAWQLHQDGIDIYARWIRRCRQRGISPWISMRMNDVHYVNDERCFLHSEFWRENPQLRRVPYRFAEWTDRAFDYGRAEVREHHLKLIRELAARYDFDGLELDWMRFGFHFRPGYEAEGAEILTAFTAEVRRLLDDWEKRRGHKIHLGARIPSRPATALGLGMDAVTWARRGLVDMLVITPFWASAETDMPVEIWRQLLEGTGVTLAAGLEVLLRPYPDSPLFQTNSLETVRGAAASLLDRGAQRIYLFNYMDSQTAMEDLENYPTLLREIGSLETLAGKPRRHVLTFADTWAPGEPRAIPLPATCRPGEWRAFRLHTGPKPEPGEVIAALGIEGGAIGPETLEVRVNGELCAFLGLVDLSKPRPDFPVYGFSVPLAAMRRGYNLIEVTARQELRFGWAEFLIRP IPGISLNEDNSHYFYTRAGRRLSAEEVDSWVDQYAGTQVKELMLCPNCMRTSYASQVWDPIWRGYDPAGPDDQPLLASLPPEERVAARGWIHTAWQLHQDGIDIYARWIRRCRQRGISPWISMRMNDVHYVNDERCFLHSEFWRENPQLRRVPYRFAEWTDRAFDYGRAEVREHHLKLIRELAARYDFDGLELDWMRFGFHFRPGYEAEGAEILTAFTAEVRRLLDDWEKRRGHKIHLGARIPSRPATALGLGMDAVTWARRGLVDMLVITPFWASAETDMPVEIWRQLLEGTGVTLAAGLEVLLRPYPDSPLFQTNSLETVRGAAASLLDRGAQRIYLFNYMDSQTAMEDLENYPTLLREIGSLETLAGKPRRHVLTFADTWAPGEPRAIPLPATCRPGEWRAFRLHTGPKPEPGEVIAALGIEGGAIGPETLEVRVNGELCAFLGLVDLSKPRPDFPVYGFSVPLAAMRRGYNLIEVTARQELRFGWAEFLIRP 6s16-a1-m1-cA_6s16-a1-m1-cB T. thermophilus RuvC in complex with Holliday junction substrate Q5SJC4 Q5SJC4 3.409 X-RAY DIFFRACTION 106 0.994 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 158 165 4ep4-a1-m1-cA_4ep4-a1-m1-cB 4ld0-a1-m1-cB_4ld0-a1-m1-cA HMVVAGIDPGITHLGLGVVAVELKARLLHGEVVKTSPQEPAKERVGRIHARVLEVLHRFRPEAVAVEEQFFYRQNELAYKVGWALGAVLVAAFEAGVPVYAYGPMQVKQALAGKEEVALMVRGILGLKEAPRPSHLADALAIALTHAFYARMGTAKPL HMVVAGIDPGITHLGLGVVAVKGALKARLLHGEVVKTSPQEPAKERVGRIHARVLEVLHRFRPEAVAVEEQFFYRQNELAYKVGWALGAVLVAAFEAGVPVYAYGPMQVKQALAGHGHAAKEEVALMVRGILGLKEAPRPSHLADALAIALTHAFYARMGTAKPL 6s1k-a1-m1-cA_6s1k-a1-m1-cB E. coli Core Signaling Unit, carrying QQQQ receptor mutation P07363 P07363 8.38 ELECTRON MICROSCOPY 99 1.0 879462 (Escherichia coli str. K-12 substr. MG1655star) 879462 (Escherichia coli str. K-12 substr. MG1655star) 383 383 IRVAVEKVDQLINLVGELVITQSMLAQRSSELDPVNHGDLITSMGQLQRNARDLQESVMSIRMMPMEYVFSRYPRLVRDLAGKLGKQVELTLVGSSTELDKSLIERIIDPLTHLVRNSLDHGIELPEKRLAAGKNSVGNLILSAEHQGGNICIEVTDDGAGLNRERILAKAASQGLTVSENMSDDEVAMLIFAPGFSTAEQVTDVSGRGVGMDVVKRNIQKMGGHVEIQSKQGTGTTIRILLPLTLAILDGMSVRVADEVFILPLNAVMESLQPREADLHPLAGGERVLEVRGEYLPIVELWKVFNVAGAKTEATQGIVVILQSGGRRYALLVDQLIGQHQVVVKNLESNYRKVPGISAATILGDGSVALIVDVSALQAINRE IRVAVEKVDQLINLVGELVITQSMLAQRSSELDPVNHGDLITSMGQLQRNARDLQESVMSIRMMPMEYVFSRYPRLVRDLAGKLGKQVELTLVGSSTELDKSLIERIIDPLTHLVRNSLDHGIELPEKRLAAGKNSVGNLILSAEHQGGNICIEVTDDGAGLNRERILAKAASQGLTVSENMSDDEVAMLIFAPGFSTAEQVTDVSGRGVGMDVVKRNIQKMGGHVEIQSKQGTGTTIRILLPLTLAILDGMSVRVADEVFILPLNAVMESLQPREADLHPLAGGERVLEVRGEYLPIVELWKVFNVAGAKTEATQGIVVILQSGGRRYALLVDQLIGQHQVVVKNLESNYRKVPGISAATILGDGSVALIVDVSALQAINRE 6s1k-a1-m1-cM_6s1k-a1-m1-cP E. coli Core Signaling Unit, carrying QQQQ receptor mutation P02942 P02942 8.38 ELECTRON MICROSCOPY 15 1.0 879462 (Escherichia coli str. K-12 substr. MG1655star) 879462 (Escherichia coli str. K-12 substr. MG1655star) 102 102 6s1k-a1-m1-cE_6s1k-a1-m1-cH 6s1k-a1-m1-cF_6s1k-a1-m1-cI 6s1k-a1-m1-cG_6s1k-a1-m1-cJ 6s1k-a1-m1-cK_6s1k-a1-m1-cN 6s1k-a1-m1-cL_6s1k-a1-m1-cO GGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGET GGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGET 6s1k-a1-m1-cN_6s1k-a1-m1-cP E. coli Core Signaling Unit, carrying QQQQ receptor mutation P02942 P02942 8.38 ELECTRON MICROSCOPY 10 1.0 879462 (Escherichia coli str. K-12 substr. MG1655star) 879462 (Escherichia coli str. K-12 substr. MG1655star) 102 102 GGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGET GGKVVDNVVQTMRDISTSSQKIADIISVIDGIAFQTNILALNAAVEAARAGEQGRGFAVVAGEVRNLAQRSAQAAREIKSLIEDSVGKVDVGSTLVESAGET 6s1w-a1-m1-cA_6s1w-a1-m1-cB Crystal structure of dimeric M-PMV protease D26N mutant P07572 P07572 1.98 X-RAY DIFFRACTION 109 1.0 11855 (Mason-Pfizer monkey virus) 11855 (Mason-Pfizer monkey virus) 97 108 WVQPITCQKPSLTLWLDDKMFTGLINTGADVTIIKLEDWPPNWPITDTNPKQSSKYLTWRDKENNSGLIKPFVIPNLPVNLWGRDLLSQMKIMMCSP WVQPITCQKPSLTLWLDDKMFTGLINTGADVTIIKLEDWPPNWPITDTLTNLRGIGQSNNPKQSSKYLTWRDKENNSGLIKPFVIPNLPVNLWGRDLLSQMKIMMCSP 6s2b-a1-m1-cA_6s2b-a1-m1-cB Structure of beta-fructofuranosidase from Schwanniomyces occidentalis complexed with fructosyl-erythritol E5D0X5 E5D0X5 1.88 X-RAY DIFFRACTION 170 1.0 27300 (Schwanniomyces occidentalis) 27300 (Schwanniomyces occidentalis) 512 512 3kf3-a1-m1-cA_3kf3-a1-m1-cB 3kf5-a1-m1-cB_3kf5-a1-m1-cA 3u14-a1-m1-cA_3u14-a1-m1-cB 3u75-a1-m1-cA_3u75-a1-m1-cB 3u75-a2-m1-cC_3u75-a2-m1-cD 6s1t-a1-m1-cA_6s1t-a1-m1-cB SIDLSVDTSEYNRPLIHFTPEKGWMNAPNGLFYDKTAKLWHLYFQYNPNATAWGQPLYWGHATSNDLVHWDEHEIAIGPEHDNEGIFSGSIVVDHNNTSGFFNSSIDPNQRIVAIYTNNIPDNQTQDIAFSLDGGYTFTKYENNPVIDVSSNQFRDPKVFWHEDSNQWIMVVSKSQEYKIQIFGSANLKNWVLNSNFSSGYYGNQYECPGLIEVPIENSDKSKWVMFLAINPGSPLGGSINQYFVGDFDGFQFVPDDSQTRFVDIGKDFYAFQTFSEVEHGVLGLAWASNWQYADQVPTNPWRSSTSLARNYTLRYVHTNAETKQLTLIQNPVLPDSINVVDKLKKKNVKLTNKKPIKTNFKGSTGLFDFNITFKVLNLNVSPGKTHFDILINSQELNSSVDSIKIGFDSSQSSFYIDRHIPNVEFPRKQFFTDKLAAYLEPLDYDQDLRVFSLYGIVDKNIIELYFNDGTVAMTNTFFMGEGKYPHDIQIVTDTEEPLFELESVIIRELNK SIDLSVDTSEYNRPLIHFTPEKGWMNAPNGLFYDKTAKLWHLYFQYNPNATAWGQPLYWGHATSNDLVHWDEHEIAIGPEHDNEGIFSGSIVVDHNNTSGFFNSSIDPNQRIVAIYTNNIPDNQTQDIAFSLDGGYTFTKYENNPVIDVSSNQFRDPKVFWHEDSNQWIMVVSKSQEYKIQIFGSANLKNWVLNSNFSSGYYGNQYECPGLIEVPIENSDKSKWVMFLAINPGSPLGGSINQYFVGDFDGFQFVPDDSQTRFVDIGKDFYAFQTFSEVEHGVLGLAWASNWQYADQVPTNPWRSSTSLARNYTLRYVHTNAETKQLTLIQNPVLPDSINVVDKLKKKNVKLTNKKPIKTNFKGSTGLFDFNITFKVLNLNVSPGKTHFDILINSQELNSSVDSIKIGFDSSQSSFYIDRHIPNVEFPRKQFFTDKLAAYLEPLDYDQDLRVFSLYGIVDKNIIELYFNDGTVAMTNTFFMGEGKYPHDIQIVTDTEEPLFELESVIIRELNK 6s2q-a2-m1-cD_6s2q-a2-m1-cC Mycobacterial hydrolase 1 P9WIC7 P9WIC7 2.5 X-RAY DIFFRACTION 59 0.995 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 208 210 4pz9-a1-m1-cB_4pz9-a1-m1-cA 4pza-a1-m1-cA_4pza-a1-m1-cB 4qih-a1-m1-cB_4qih-a1-m1-cA 6s2q-a1-m1-cB_6s2q-a1-m1-cA 6s2r-a1-m1-cB_6s2r-a1-m1-cA RARRLVMLRHGQTDYNVGSRMQGQLDTELSELGRTQAVAAAEVLGKRQPLLIVSSDLRRAYDTAVKLGERTGLVVRVDTRLRETHLGDWQGLTHAQIDADAPGARLAWREDATWAPHGGESRVDVAARSRPLVAELVASEPEWGGADEPDRPVVLVAHGGLIAALSAALLKLPVANWPALGGMGNASWTQLSGHWSIRWRLDVWNASA RARRLVMLRHGQTDYNVGSRMQGQLDTELSELGRTQAVAAAEVLGKRQPLLIVSSDLRRAYDTAVKLGERTGLVVRVDTRLRETHLGDWQGLTHAQIDADAPGARLAWREDATWAPHGGESRVDVAARSRPLVAELVASEPEWGGADEPDRPVVLVAHGGLIAALSAALLKLPVANWPALGGMGNASWTQLSGHDFESIRWRLDVWNASA 6s2w-a1-m1-cA_6s2w-a1-m2-cA Structure of S. pombe Erh1, a protein important for meiotic mRNA decay in mitosis and meiosis progression. G2TRN4 G2TRN4 1.95 X-RAY DIFFRACTION 48 1.0 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 87 87 6akj-a1-m1-cA_6akj-a1-m1-cB AESHIILLIQQGSDPKTRIWSDHCSLRSAIEYIVGVYQTNQDVSRFFNFFDEIYDCVPLVYDRHFRAYIPHEKQWLLHHAQEYLTAA AESHIILLIQQGSDPKTRIWSDHCSLRSAIEYIVGVYQTNQDVSRFFNFFDEIYDCVPLVYDRHFRAYIPHEKQWLLHHAQEYLTAA 6s37-a1-m1-cB_6s37-a1-m1-cA Ligand binding domain of the P. putida receptor PcaY_PP in complex with salicylic acid Q88JK6 Q88JK6 2.3 X-RAY DIFFRACTION 76 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 126 139 6s18-a1-m1-cB_6s18-a1-m1-cA 6s1a-a1-m1-cB_6s1a-a1-m1-cA 6s33-a1-m1-cB_6s33-a1-m1-cA 6s38-a1-m1-cB_6s38-a1-m1-cA 6s3b-a1-m1-cB_6s3b-a1-m1-cA TAHQSDRLNNALLMAIRSSANVSSGFIEQLGGHDESAGKRMALSVELNNKSQALVDEFVENAREPALRGLATELQATFAEYAKAVAGQREATRQRSLEQYFKVNSDAGNAMGRLQTLRQQLVTTLS TELDQTAHQSDRLNNALLMAIRSSANVSSGFIEQLGGHDESAGKRMALSVELNNKSQALVDEFVENAREPALRGLATELQATFAEYAKAVAGQREATRQRSLEQYFKVNSDAGNAMGRLQTLRQQLVTTLSERGQQIML 6s3l-a1-m1-cA_6s3l-a1-m1-cB Structure of the core of the flagellar export apparatus from Vibrio mimicus, the FliPQR-FlhB complex. A0A2J9UXT5 A0A2J9UXT5 3.2 ELECTRON MICROSCOPY 135 1.0 1259812 (Vibrio mimicus CAIM 602) 1259812 (Vibrio mimicus CAIM 602) 191 195 6s3l-a1-m1-cB_6s3l-a1-m1-cC 6s3l-a1-m1-cD_6s3l-a1-m1-cC 6s3l-a1-m1-cE_6s3l-a1-m1-cD 6s3s-a1-m1-cA_6s3s-a1-m1-cB 6s3s-a1-m1-cB_6s3s-a1-m1-cC 6s3s-a1-m1-cC_6s3s-a1-m1-cD 6s3s-a1-m1-cE_6s3s-a1-m1-cD LPAMVILMTSFTRIVVVMSILRQAMGLQQTPSNQVIIGIALFLTFFIMAPVFNQINEQAVQPYLNEQISARQAFDLAQEPMKAFMLKQTRIKDLETFVEMSGSQVTAPEQVSMAVLIPAFITSELKTAFQIGFMLFLPFLIIDLVVASVLMAMGMMMLSPMIVSLPFKLMLFVLVDGWNLILSTLAGSFAL MLGFLPAMVILMTSFTRIVVVMSILRQAMGLQQTPSNQVIIGIALFLTFFIMAPVFNQINEQAVQPYLNEQISARQAFDLAQEPMKAFMLKQTRIKDLETFVEMSGSQVTAPEQVSMAVLIPAFITSELKTAFQIGFMLFLPFLIIDLVVASVLMAMGMMMLSPMIVSLPFKLMLFVLVDGWNLILSTLAGSFAL 6s3l-a1-m1-cH_6s3l-a1-m1-cI Structure of the core of the flagellar export apparatus from Vibrio mimicus, the FliPQR-FlhB complex. A0A1D8S9F5 A0A1D8S9F5 3.2 ELECTRON MICROSCOPY 53 1.0 1259812 (Vibrio mimicus CAIM 602) 1259812 (Vibrio mimicus CAIM 602) 89 89 6s3l-a1-m1-cG_6s3l-a1-m1-cH 6s3l-a1-m1-cI_6s3l-a1-m1-cJ 6s3s-a1-m1-cG_6s3s-a1-m1-cH 6s3s-a1-m1-cH_6s3s-a1-m1-cI 6s3s-a1-m1-cJ_6s3s-a1-m1-cI MTPEIFVELFKESLWLVLIMVCAIIIPSLLIGLVVAIFQAATSINEQTLSFLPRLIITLLALMFFGHWMTQMLMDFFYSMIERLPQVLY MTPEIFVELFKESLWLVLIMVCAIIIPSLLIGLVVAIFQAATSINEQTLSFLPRLIITLLALMFFGHWMTQMLMDFFYSMIERLPQVLY 6s3r-a1-m1-cC_6s3r-a1-m1-cD Structure of the FliPQR complex from the flagellar type 3 secretion system of Pseudomonas savastanoi. Q48GF5 Q48GF5 3.5 ELECTRON MICROSCOPY 107 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 198 198 6s3r-a1-m1-cA_6s3r-a1-m1-cB 6s3r-a1-m1-cB_6s3r-a1-m1-cC 6s3r-a1-m1-cD_6s3r-a1-m1-cE TALSFIPAFVMLMTSFTRIIIVFSILRQALGLQQTPSNQILTGMALFLTMFIMAPVFDRVNQDALQPYLAEKLSAQDAVAKAQVPIKDFMLAQTRTSDLELFMRLSKRTDIPTPDAAPLTILVPAFVISELKTAFQIGFMIFIPFLIIDLVVASVLMAMGMMMLSPLIISLPFKIMLFVLVDGWALIVGTLAGSFGGV TALSFIPAFVMLMTSFTRIIIVFSILRQALGLQQTPSNQILTGMALFLTMFIMAPVFDRVNQDALQPYLAEKLSAQDAVAKAQVPIKDFMLAQTRTSDLELFMRLSKRTDIPTPDAAPLTILVPAFVISELKTAFQIGFMIFIPFLIIDLVVASVLMAMGMMMLSPLIISLPFKIMLFVLVDGWALIVGTLAGSFGGV 6s3r-a1-m1-cI_6s3r-a1-m1-cJ Structure of the FliPQR complex from the flagellar type 3 secretion system of Pseudomonas savastanoi. Q48GF6 Q48GF6 3.5 ELECTRON MICROSCOPY 53 1.0 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 264730 (Pseudomonas savastanoi pv. phaseolicola 1448A) 89 89 6s3r-a1-m1-cG_6s3r-a1-m1-cH 6s3r-a1-m1-cH_6s3r-a1-m1-cI 6s3r-a1-m1-cK_6s3r-a1-m1-cJ MTPEVAVDLFREALWLTTVLVAILVVPSLLCGLLVAMFQAATQINEQTLSFLPRLLVMLVTLIVIGPWLLKIFMEYMLSLYTSIPTLIG MTPEVAVDLFREALWLTTVLVAILVVPSLLCGLLVAMFQAATQINEQTLSFLPRLLVMLVTLIVIGPWLLKIFMEYMLSLYTSIPTLIG 6s48-a1-m1-cB_6s48-a1-m1-cA AvaII RESTRICTION ENDONUCLEASE IN COMPLEX WITH PARTIALLY CLEAVED dsDNA Q8YYB7 Q8YYB7 1.9 X-RAY DIFFRACTION 137 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 228 235 KFIQNAAEIAKKAMDSVDPSLSEKFTIVIRFLTDNPDAASALKGKERSIVGTEEYIIASATNFKKGRDPRTPLPPSTIPDEMVSVILNKYFEVPSEELEKAEEWHRLSMGAENIVGDLLERYIAEVIEPHGWIWCSGSMVRAVDFIYCDSENVWQSLQVKNRDNTENSSSAAIRHGTPIKKWFRTFSKKRGDNWDKFPSLEGKENLSEKGFKLYVEKYLSALRAIKAL KFIQNAAEIAKKAMDSVDPSLSEKFTIVIRFLTDNPDAASALKGKERSIVGTEEYIIASATNFKKGRDPRTPLPPSTIPDEMVSVILNKYFEVPSEELEKAEEWHRLSMGAENIVGDLLERYIAEVIEPHGWIWCSGSMVRAVDFIYCDSENVWQSLQVKNRDNTENSSSAAIRHGTPIKKWFRTFSKKRGDNWDKFPSLEGKENLSEKGFKLYVEKYLSALRAIKALEHHHHHH 6s4j-a1-m2-cB_6s4j-a1-m3-cB Crystal structure of zinc free A14E, B25H, B29K(N(eps)-[2-(2-[2-(2-[2-(Octadecandioyl-gamma-Glu)amino]ethoxy)ethoxy]acetylamino)ethoxy]ethoxy)acetyl]), desB27, desB30 human insulin P01308 P01308 1.5 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 28 6s4j-a1-m1-cB_6s4j-a1-m2-cB 6s4j-a1-m1-cB_6s4j-a1-m3-cB FVNQHLCGSHLVEALYLVCGERGFHYPK FVNQHLCGSHLVEALYLVCGERGFHYPK 6s54-a1-m1-cC_6s54-a1-m1-cD Transaminase from Pseudomonas fluorescens A0A2S8XV37 A0A2S8XV37 2.21 X-RAY DIFFRACTION 413 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 447 449 6s54-a1-m1-cB_6s54-a1-m1-cA WLKEHNTVHMMHPMQDPKALHEQRPLIIQSGKGVHITDVDGRRFIDCQGGLWCVNAGYGRREIIDAVTRQMEELAYYSLFPGSTNAPAIALSQKLTEVAAEEGMVKASFGLGGSDAVETALKIARQYWKLEGQPDKVKFVSLYNGYHGLNFGGMSACGGNAWKSSYEPLMPGFFQVESPHLYRNPFTNDPEELAEICAQILERQIEMQAPGTVAALIAEPIQGAGGVIVPPASYWPRLRQICDKYDILLIADEVITGLGRSGSLFGSRGWGVKPDIMCLAKGISSGYVPLSATLVNSRVARAWERDAGFTSVYMHGYTYSGHPVSCAAALAAIDIVLQENLAENARVVGDYFLEKLLILKDKHRAIGDVRGKGLMLAVELVKERATKEPFGPADAYPLAISEACVNNGVMIRTIVNKLIISPPLTFTTEHVDEVIEVLDRAFVANPW KAWLKEHNTVHMMHPMQDPKALHEQRPLIIQSGKGVHITDVDGRRFIDCQGGLWCVNAGYGRREIIDAVTRQMEELAYYSLFPGSTNAPAIALSQKLTEVAAEEGMVKASFGLGGSDAVETALKIARQYWKLEGQPDKVKFVSLYNGYHGLNFGGMSACGGNAWKSSYEPLMPGFFQVESPHLYRNPFTNDPEELAEICAQILERQIEMQAPGTVAALIAEPIQGAGGVIVPPASYWPRLRQICDKYDILLIADEVITGLGRSGSLFGSRGWGVKPDIMCLAKGISSGYVPLSATLVNSRVARAWERDAGFTSVYMHGYTYSGHPVSCAAALAAIDIVLQENLAENARVVGDYFLEKLLILKDKHRAIGDVRGKGLMLAVELVKERATKEPFGPADAYPLAISEACVNNGVMIRTIVNKLIISPPLTFTTEHVDEVIEVLDRAFVANPW 6s54-a1-m1-cD_6s54-a1-m1-cA Transaminase from Pseudomonas fluorescens A0A2S8XV37 A0A2S8XV37 2.21 X-RAY DIFFRACTION 62 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 449 453 6s54-a1-m1-cC_6s54-a1-m1-cB KAWLKEHNTVHMMHPMQDPKALHEQRPLIIQSGKGVHITDVDGRRFIDCQGGLWCVNAGYGRREIIDAVTRQMEELAYYSLFPGSTNAPAIALSQKLTEVAAEEGMVKASFGLGGSDAVETALKIARQYWKLEGQPDKVKFVSLYNGYHGLNFGGMSACGGNAWKSSYEPLMPGFFQVESPHLYRNPFTNDPEELAEICAQILERQIEMQAPGTVAALIAEPIQGAGGVIVPPASYWPRLRQICDKYDILLIADEVITGLGRSGSLFGSRGWGVKPDIMCLAKGISSGYVPLSATLVNSRVARAWERDAGFTSVYMHGYTYSGHPVSCAAALAAIDIVLQENLAENARVVGDYFLEKLLILKDKHRAIGDVRGKGLMLAVELVKERATKEPFGPADAYPLAISEACVNNGVMIRTIVNKLIISPPLTFTTEHVDEVIEVLDRAFVANPW NSNNKAWLKEHNTVHMMHPMQDPKALHEQRPLIIQSGKGVHITDVDGRRFIDCQGGLWCVNAGYGRREIIDAVTRQMEELAYYSLFPGSTNAPAIALSQKLTEVAAEEGMVKASFGLGGSDAVETALKIARQYWKLEGQPDKVKFVSLYNGYHGLNFGGMSACGGNAWKSSYEPLMPGFFQVESPHLYRNPFTNDPEELAEICAQILERQIEMQAPGTVAALIAEPIQGAGGVIVPPASYWPRLRQICDKYDILLIADEVITGLGRSGSLFGSRGWGVKPDIMCLAKGISSGYVPLSATLVNSRVARAWERDAGFTSVYMHGYTYSGHPVSCAAALAAIDIVLQENLAENARVVGDYFLEKLLILKDKHRAIGDVRGKGLMLAVELVKERATKEPFGPADAYPLAISEACVNNGVMIRTIVNKLIISPPLTFTTEHVDEVIEVLDRAFVANPW 6s58-a2-m1-cD_6s58-a2-m1-cC AvaII restriction endonuclease in the absence of nucleic acids Q8YYB7 Q8YYB7 2.32 X-RAY DIFFRACTION 125 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 223 233 6g3b-a1-m1-cA_6g3b-a1-m1-cB 6s58-a1-m1-cB_6s58-a1-m1-cA SKFIQNAAEIAKKAMDSVDPSLSEKFTIVIRFLTDNPDAASASIVGTEEYIIASATNFKKGRDPRTPLPPSTIPDEMVSVILNKYFEVPSEELEKAEEWHRLSMGAENIVGDLLERYIAEVIEPHGWIWCSGSMVRAVDFIYCDSENVWQSLQVKNRDNTENSSSAAIRHGTPIKKWFRTFSKKRGDNWDKFPSLEGKENLSEKGFKLYVEKYLSALRAIKAL SKFIQNAAEIAKKAMDSVDPSLSEKFTIVIRFLTDNPDAASALKGKERSIVGTEEYIIASATNFKKGRDPRTPLPPSTIPDEMVSVILNKYFEVPSEELEKAEEWHRLSMGAENIVGDLLERYIAEVIEPHGWIWCSGSMVRAVDFIYCDSENVWQSLQVKNRDNTENSSSAAIRHGTPIKKWFRTFSKKRGDNWDKFPSLEGKENLSEKGFKLYVEKYLSALRAIKALEHHH 6s5r-a1-m1-cA_6s5r-a1-m1-cD Cfucosylated second generation peptide dendrimer SBD6 bound to Fucose binding Lectin LecB (PA-IIL) from Pseudomonas aeruginosa at 2.08 Angstrom resolution, incomplete structure Q9HYN5 Q9HYN5 2.076 X-RAY DIFFRACTION 43 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 114 114 ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG ATQGVFTLPANTRFGVTAFANSSGTQTVNVLVNNETAATFSGQSTNNAVIGTQVLNSGSSGKVQVQVSVNGRPSDLVSAQVILTNELNFALVGSEDGTDNDYNDAVVVINWPLG 6s62-a1-m1-cA_6s62-a1-m1-cE Crystal structure of 2-methylcitrate dehydratase (PrpD) from Pseudomonas aeruginosa in apo form. Q9I5E6 Q9I5E6 2.36 X-RAY DIFFRACTION 44 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 485 485 6s62-a1-m1-cC_6s62-a1-m1-cB 6s62-a1-m1-cD_6s62-a1-m1-cF RPDYDAVLQDIADYVLDYRIDSTEALDTARNCLMDTLGCGLLALRFPECTKHLGPLVEGTLVPHGARVPGTSFRLDPVKAAWDIGCIVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKRLANGEAPLSMRQVLEAMIMAHEIQGVIALENSFNRVGLDHVLLVKVASTAVCAKLMGADREQLLAALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGVLSAPQWGFYDVLFSHTSKDLATKPEDKRRFSFPQGYGSYVMENVLFKISFPAEFHAQTAAEAAVRLHPLVKDRLQRISRIVITTHESAIRIISKVGPLANPADRDHCLQYMTAVPLIFGDLVAEHYEDAFHAAHPLIDRLREKMEIVEEPRYSREYLEADKRSIANAVEVFFDDGSSTGQVAVEYPLGHRRRRAEGIPLLQEKFKANLATRFPPQRCQRIFDLCSHQASLEATPVNRFMDLLAI RPDYDAVLQDIADYVLDYRIDSTEALDTARNCLMDTLGCGLLALRFPECTKHLGPLVEGTLVPHGARVPGTSFRLDPVKAAWDIGCIVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKRLANGEAPLSMRQVLEAMIMAHEIQGVIALENSFNRVGLDHVLLVKVASTAVCAKLMGADREQLLAALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGVLSAPQWGFYDVLFSHTSKDLATKPEDKRRFSFPQGYGSYVMENVLFKISFPAEFHAQTAAEAAVRLHPLVKDRLQRISRIVITTHESAIRIISKVGPLANPADRDHCLQYMTAVPLIFGDLVAEHYEDAFHAAHPLIDRLREKMEIVEEPRYSREYLEADKRSIANAVEVFFDDGSSTGQVAVEYPLGHRRRRAEGIPLLQEKFKANLATRFPPQRCQRIFDLCSHQASLEATPVNRFMDLLAI 6s62-a1-m1-cB_6s62-a1-m1-cE Crystal structure of 2-methylcitrate dehydratase (PrpD) from Pseudomonas aeruginosa in apo form. Q9I5E6 Q9I5E6 2.36 X-RAY DIFFRACTION 12 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 484 485 6s62-a1-m1-cB_6s62-a1-m1-cD 6s62-a1-m1-cC_6s62-a1-m1-cA PDYDAVLQDIADYVLDYRIDSTEALDTARNCLMDTLGCGLLALRFPECTKHLGPLVEGTLVPHGARVPGTSFRLDPVKAAWDIGCIVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKRLANGEAPLSMRQVLEAMIMAHEIQGVIALENSFNRVGLDHVLLVKVASTAVCAKLMGADREQLLAALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGVLSAPQWGFYDVLFSHTSKDLATKPEDKRRFSFPQGYGSYVMENVLFKISFPAEFHAQTAAEAAVRLHPLVKDRLQRISRIVITTHESAIRIISKVGPLANPADRDHCLQYMTAVPLIFGDLVAEHYEDAFHAAHPLIDRLREKMEIVEEPRYSREYLEADKRSIANAVEVFFDDGSSTGQVAVEYPLGHRRRRAEGIPLLQEKFKANLATRFPPQRCQRIFDLCSHQASLEATPVNRFMDLLAI RPDYDAVLQDIADYVLDYRIDSTEALDTARNCLMDTLGCGLLALRFPECTKHLGPLVEGTLVPHGARVPGTSFRLDPVKAAWDIGCIVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKRLANGEAPLSMRQVLEAMIMAHEIQGVIALENSFNRVGLDHVLLVKVASTAVCAKLMGADREQLLAALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGVLSAPQWGFYDVLFSHTSKDLATKPEDKRRFSFPQGYGSYVMENVLFKISFPAEFHAQTAAEAAVRLHPLVKDRLQRISRIVITTHESAIRIISKVGPLANPADRDHCLQYMTAVPLIFGDLVAEHYEDAFHAAHPLIDRLREKMEIVEEPRYSREYLEADKRSIANAVEVFFDDGSSTGQVAVEYPLGHRRRRAEGIPLLQEKFKANLATRFPPQRCQRIFDLCSHQASLEATPVNRFMDLLAI 6s62-a1-m1-cE_6s62-a1-m1-cF Crystal structure of 2-methylcitrate dehydratase (PrpD) from Pseudomonas aeruginosa in apo form. Q9I5E6 Q9I5E6 2.36 X-RAY DIFFRACTION 189 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 485 485 6s62-a1-m1-cB_6s62-a1-m1-cA 6s62-a1-m1-cC_6s62-a1-m1-cD RPDYDAVLQDIADYVLDYRIDSTEALDTARNCLMDTLGCGLLALRFPECTKHLGPLVEGTLVPHGARVPGTSFRLDPVKAAWDIGCIVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKRLANGEAPLSMRQVLEAMIMAHEIQGVIALENSFNRVGLDHVLLVKVASTAVCAKLMGADREQLLAALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGVLSAPQWGFYDVLFSHTSKDLATKPEDKRRFSFPQGYGSYVMENVLFKISFPAEFHAQTAAEAAVRLHPLVKDRLQRISRIVITTHESAIRIISKVGPLANPADRDHCLQYMTAVPLIFGDLVAEHYEDAFHAAHPLIDRLREKMEIVEEPRYSREYLEADKRSIANAVEVFFDDGSSTGQVAVEYPLGHRRRRAEGIPLLQEKFKANLATRFPPQRCQRIFDLCSHQASLEATPVNRFMDLLAI RPDYDAVLQDIADYVLDYRIDSTEALDTARNCLMDTLGCGLLALRFPECTKHLGPLVEGTLVPHGARVPGTSFRLDPVKAAWDIGCIVRWLDYNDTWLAAEWGHPSDNLGGILAVADHLSQKRLANGEAPLSMRQVLEAMIMAHEIQGVIALENSFNRVGLDHVLLVKVASTAVCAKLMGADREQLLAALSHAFVDGQALRTYRHAPNAGSRKSWAAGDATSRGVRLADIALRGEMGIPGVLSAPQWGFYDVLFSHTSKDLATKPEDKRRFSFPQGYGSYVMENVLFKISFPAEFHAQTAAEAAVRLHPLVKDRLQRISRIVITTHESAIRIISKVGPLANPADRDHCLQYMTAVPLIFGDLVAEHYEDAFHAAHPLIDRLREKMEIVEEPRYSREYLEADKRSIANAVEVFFDDGSSTGQVAVEYPLGHRRRRAEGIPLLQEKFKANLATRFPPQRCQRIFDLCSHQASLEATPVNRFMDLLAI 6s67-a2-m1-cC_6s67-a2-m1-cD Structure of the Fluorescent Protein AausFP1 from Aequorea cf. australis at pH 7.0 A0A5J6CYI5 A0A5J6CYI5 2.47 X-RAY DIFFRACTION 69 1.0 1246302 (Aequorea australis) 1246302 (Aequorea australis) 223 223 6s67-a1-m1-cA_6s67-a1-m1-cB LFREKIPYVVEMEGDVEGMKFSVRGKGHGDANTGKIEASFICTTGELPVPWSSILTTVAQCFAKYPNDIKDYPKSAMPEGYVQERTITFENDGVYKTRAEVTYEKGSVYNRVTLNGSGFKKGGNILGKKLEFNYNPHCIYVLPDVQNNGIKCYINIVHDVIGGGQIIAAHQQLNTPLGGGPVDIPHYHHIQAHTILSKDPKETRDHMNVVEVFRAIDCKTAYA LFREKIPYVVEMEGDVEGMKFSVRGKGHGDANTGKIEASFICTTGELPVPWSSILTTVAQCFAKYPNDIKDYPKSAMPEGYVQERTITFENDGVYKTRAEVTYEKGSVYNRVTLNGSGFKKGGNILGKKLEFNYNPHCIYVLPDVQNNGIKCYINIVHDVIGGGQIIAAHQQLNTPLGGGPVDIPHYHHIQAHTILSKDPKETRDHMNVVEVFRAIDCKTAYA 6s68-a1-m1-cA_6s68-a1-m2-cA Structure of the Fluorescent Protein AausFP2 from Aequorea cf. australis at pH 7.6 2.06 X-RAY DIFFRACTION 97 1.0 1246302 (Aequorea australis) 1246302 (Aequorea australis) 223 223 LFKGKIPFVVELEGDVNGEVFSVRGNGWGDGSTGKLEIKFVCTTGEVPLAWESLICSMALVFCKYPSNINDFFKSTMPRGYIQERKISYENDGTFDVRQEVTYENGALYNRVKFNGSGFRKDGNVLGKKLDLTSIGTCIYIMGNDEGTGLKGVFNKAFKVIGGNRQIASHVQTQTPIGDGLVSIPDYHVMHNHIACSKDPSETRDHIIVKESLRAVDCNTEYM LFKGKIPFVVELEGDVNGEVFSVRGNGWGDGSTGKLEIKFVCTTGEVPLAWESLICSMALVFCKYPSNINDFFKSTMPRGYIQERKISYENDGTFDVRQEVTYENGALYNRVKFNGSGFRKDGNVLGKKLDLTSIGTCIYIMGNDEGTGLKGVFNKAFKVIGGNRQIASHVQTQTPIGDGLVSIPDYHVMHNHIACSKDPSETRDHIIVKESLRAVDCNTEYM 6s6f-a1-m1-cA_6s6f-a1-m1-cB Crystal structure of 2-methylcitrate synthase (PrpC) from Pseudomonas aeruginosa in apo form. Q9I5E3 Q9I5E3 1.53 X-RAY DIFFRACTION 318 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 360 370 6s87-a1-m1-cB_6s87-a1-m1-cA 6s87-a2-m1-cC_6s87-a2-m1-cD VAGQTALSTVGQEGAGLTYRGYDVRDLAAAAIFEEVAYLLLYGELPNKQQLDAYLKKLQGQRDLPQALKEVLERIPKDAHPMDVMRTGASVLGTLEPELSFDQQRDVADRLLAAFPAIMTYWYRFTHEGQRIDCNSDEPTIGGHFLALLHGKKPSELHVKVMNVSLILYAEHEFNASTFTARVCASTLSDLYSCVTGAIGSLRGPLHGGANEAAMELIERFSSPQEATAELLKMLERKDKIMGFGHAIYKDSDPRNEVIKGWSKQLADEVGDKVLFAVSEAIDKTMWEQKKLFPNADFYHASAYHFMGIPTKLFTPIFVCSRTSGWTAHVFEQRANNRIIRPSAEYTGVEQRAFVPLEQR VLSGAGLRGQVAGQTALSTVGQEGAGLTYRGYDVRDLAAAAIFEEVAYLLLYGELPNKQQLDAYLKKLQGQRDLPQALKEVLERIPKDAHPMDVMRTGASVLGTLEPELSFDQQRDVADRLLAAFPAIMTYWYRFTHEGQRIDCNSDEPTIGGHFLALLHGKKPSELHVKVMNVSLILYAEHEFNASTFTARVCASTLSDLYSCVTGAIGSLRGPLHGGANEAAMELIERFSSPQEATAELLKMLERKDKIMGFGHAIYKDSDPRNEVIKGWSKQLADEVGDKVLFAVSEAIDKTMWEQKKLFPNADFYHASAYHFMGIPTKLFTPIFVCSRTSGWTAHVFEQRANNRIIRPSAEYTGVEQRAFVPLEQR 6s6j-a1-m1-cA_6s6j-a1-m1-cB Crystal structure of hTEAD2 in complex with a trisubstituted pyrazole inhibitor Q15562 Q15562 2.1 X-RAY DIFFRACTION 41 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 198 209 GLGTARLQLVEFSAFVEPRHLFVHISQPLESVDVRQIYDKFPEKKGGLRELYDRGPPHAFFLVKFWADLNWGPSSGGFYGVSSQYESLEHMTLTCSSKVCSFGKQVVEKVETERAQLEDGRFVYRLLRSPMCEYLVNFLHKLRQLPERYMMNSVLENFTILQVVTNRDTQELLLCTAYVFEVSTSERGAQHHIYRLVR WQARGLGTARLQLVEFSAFVEPPDAVDSYQRHLFVHISQPPLESVDVRQIYDKFPEKKGGLRELYDRGPPHAFFLVKFWADLNWSSGGFYGVSSQYESLEHMTLTCSSKVCSFGKQVVEKVETERAQLEDGRFVYRLLRSPMCEYLVNFLHKLRQLPERYMMNSVLENFTILQVVTNRDTQELLLCTAYVFEVSTSERGAQHHIYRLVR 6s6y-a2-m1-cL_6s6y-a2-m1-cP X-ray crystal structure of the formyltransferase/hydrolase complex (FhcABCD) from Methylorubrum extorquens in complex with methylofuran A9W3R8 A9W3R8 3.1 X-RAY DIFFRACTION 235 1.0 419610 (Methylorubrum extorquens PA1) 419610 (Methylorubrum extorquens PA1) 308 308 6s6y-a1-m1-cD_6s6y-a1-m1-cH SDFTLNGIKVEDTFAEAFDVAGTAIIVTNDTPKWAMIAATVMTGFATSVIGCGAEAGIDAELSPDETPDGRPGVRILLFGFEPNGLKDQLLKRVGQCILTCPGTACFAGVEGPTKIKLGGAIRYFGDGFAVAKRLPDHEGKMRRYWRIPVMDGEFLCEDSVRAVDGAVGGGNLLFLGRKHADTLIVAEIAVEAAKAIPGAILPFPGGIVRSGSKVGGRTKGMMASTNDAYCPTLKGRAGSALPPECGVVLEIVIDALTSAAVAESMRAALHAATEIGAQHGLVAVTAGNYGGNLGRHHYHLRDLLEKP SDFTLNGIKVEDTFAEAFDVAGTAIIVTNDTPKWAMIAATVMTGFATSVIGCGAEAGIDAELSPDETPDGRPGVRILLFGFEPNGLKDQLLKRVGQCILTCPGTACFAGVEGPTKIKLGGAIRYFGDGFAVAKRLPDHEGKMRRYWRIPVMDGEFLCEDSVRAVDGAVGGGNLLFLGRKHADTLIVAEIAVEAAKAIPGAILPFPGGIVRSGSKVGGRTKGMMASTNDAYCPTLKGRAGSALPPECGVVLEIVIDALTSAAVAESMRAALHAATEIGAQHGLVAVTAGNYGGNLGRHHYHLRDLLEKP 6s7i-a1-m1-cB_6s7i-a1-m1-cA Arbitrium receptor from a Bacillus subtilis Katmira33 phage 2.4 X-RAY DIFFRACTION 78 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 386 387 7q0n-a1-m1-cA_7q0n-a1-m1-cB MELIRIAMKKDLENDNSLMNKWATVAGLKNPNPLYDFLNHDGKTFNEFSSIVNIVKSQYPDREYELMKDYCLNLDVKTKAARSALEYADANMFFEIEDALIDSMISCSNMKSKEYGKVYKIHRELSKGEIDVFEASANIGKQRIKTAEMNIFSKMLLMYDCLNKGNFAPMMLLFQQIDLSEIKENRYLKNSFETRINVLLSNIYLNENNLELCREYAQKAISSTDTQRFLVFSYLTIGTSYIFSDFNLSKQNYLIGLKFAKGNPGFEEFFKRNLSFLNNFWNKENEWINYDSDAVTDMQEVIFELINHKELSKALQLLNKLEERDQNENELGFHYYLKGLITNEKEAFFKSVEYFKASQDKLSIKMPLIQLEKMGENPRLLKIITM AMELIRIAMKKDLENDNSLMNKWATVAGLKNPNPLYDFLNHDGKTFNEFSSIVNIVKSQYPDREYELMKDYCLNLDVKTKAARSALEYADANMFFEIEDALIDSMISCSNMKSKEYGKVYKIHRELSKGEIDVFEASANIGKQRIKTAEMNIFSKMLLMYDCLNKGNFAPMMLLFQQIDLSEIKENRYLKNSFETRINVLLSNIYLNENNLELCREYAQKAISSTDTQRFLVFSYLTIGTSYIFSDFNLSKQNYLIGLKFAKGNPGFEEFFKRNLSFLNNFWNKENEWINYDSDAVTDMQEVIFELINHKELSKALQLLNKLEERDQNENELGFHYYLKGLITNEKEAFFKSVEYFKASQDKLSIKMPLIQLEKMGENPRLLKIITM 6s81-a2-m1-cB_6s81-a2-m1-cD Crystal structure of methionine adenosyltransferase from Pyrococcus furiosus Q8TZW1 Q8TZW1 1.784 X-RAY DIFFRACTION 146 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 389 400 6s81-a1-m1-cA_6s81-a1-m1-cC 6s83-a1-m1-cA_6s83-a1-m1-cB 6s83-a2-m1-cC_6s83-a2-m1-cD 6s83-a3-m1-cE_6s83-a3-m1-cF 6s83-a4-m1-cG_6s83-a4-m1-cH ARNIVVEEIVRTPVEMQQVELVERKGIGHPDSIADGIAEAVSRALCREYIRRYGVILHHNTDQVEVVGGRAYPRFGGGEVVKPIYILLSGRAVELVDQELFPVHEVAIKAAKNYLKNAIRHLDVENHVIIDSRIGQGSVDLIPLANDTSFGVGYAPLSETERLVLETEKLLNSEKFKKEYPAVGEDIKVMGLRRGNEIDLTIAAAIVDSEVATPKEYLEVKDKIKEAVEELAKEITSRKVNIYVNTADDPERGIYYITVTGTSAEAGDDGSVGRGNRVNGLITPNRHMSMEAAAGKNPVSHVGKIYNILAMLIAEDIAKTLPVEEVYVRILSQIGKPIDQPLVASIQVIPKPGHSVKEFEKDAYSIADEWLANITKVQKMILEDKISVF ARNIVVEEIVRTPVEMQQVELVERKGIGHPDSIADGIAEAVSRALCREYIRRYGVILHHNTDQVEVVGGRAYPRFGGGEVVKPIYILLSGRAVELVDQELFPVHEVAIKAAKNYLKNAIRHLDVENHVIIDSRIGQGSVDLVSVFNKARENPIPLANDTSFGVGYAPLSETERLVLETEKLLNSEKFKKEYPAVGEDIKVMGLRRGNEIDLTIAAAIVDSEVATPKEYLEVKDKIKEAVEELAKEITSRKVNIYVNTADDPERGIYYITVTGTSAEAGDDGSVGRGNRVNGLITPNRHMSMEAAAGKNPVSHVGKIYNILAMLIAEDIAKTLPVEEVYVRILSQIGKPIDQPLVASIQVIPKPGHSVKEFEKDAYSIADEWLANITKVQKMILEDKISVF 6s8f-a1-m1-cF_6s8f-a1-m1-cH Structure of nucleotide-bound Tel1/ATM P38110 P38110 4.0 ELECTRON MICROSCOPY 209 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 2571 2571 XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGSIRGGKQRVFATFIKCLQKLDSSNIINIMNSISSYMAQVSYKNQSIIFYEIKSLFGPPQQSIEKSAFYSLAMSMLSLVSYPSLVFSLEDMMTYSGFNHTRAFIQQALNKITVAFRYQNLTELFEYCKFSLFGFADIHEFLGRYFVEISAIYFSQGFNQKWILDMLHAITGNGDAYLVDNSYYLCIPLAFIELIFDILPQISGKTTVKYHKKYRLLMLKWIIRFTDLGSLTELRSTVEKLFPYLFENSSVSMRYQYPLHIPLALGATLVQTQFAHEKNNTHEFKLLFLSVITDLEKTSTYIGKLRCARELKYLFVLYENVLVKSSTLNFIIIRLSKFLIDTQIHDEVITIFSSLLNLADKNTFEIEPSLPNLFCKIFIYLRENKQLSPSFQQAIKLLEHRDLIKIKTWKYCLDAIFGNIVQDDIYENTELLDASDCGVDDVVLVSLLFSYARRPVASKIGCSLSKAAAINILKHHVPKEYLSKNFKLWFAALSRRILQQEVQRERSTNFNNEVHLKNFEMVFRHPEQPHMIYQRISTFNKEAELYDSTEVFFISECILTYLVGYSIGNSESEFCFRDNIMNENKDKVAPLDKDVLNAIYPLASFICDTYLSVNEPYNCWLSKFARSLIHQISFNIPPIVCLYPLCKGSTAFCELVLTDLFFLSTTYDPKSCLNWSNRIFTQIAMLLHVKDSEIKLKMLFNVIKMIRMGSRCKERNCLRIYSSLDLQEICQISLKIKEFKFGYLLFEEMNMPNIREMNINTLQKIYECINDGDFLAGLPVPHSIEGVLNSINRIDSDTWKRFLFNNADFDANYTTSLEEEKESLIKATEDSGFYGLTSLLESRLSGSSDVYKWNLELGDWKLLTPKVVDSKAKGLYYAIKNLPQDVGFAEKSLEKSLLTIFDSRQHFISQTEWMDTLNAIIEFIKIAAIPQDVTSFPQTLMSIMKADKERLNTIDFYDHKTTLKSRHTLMNVLSRNSLDENVKCSKYLRLGSIIQLANYVQLAIANGAPQDALRNATLMSKTVKNIAKLYDDPSVVSQIEKLASFTSANALWESREYKAPVMIMRDLLAQNEKNISESILYDDFKLLINVPMDQIKARLVKWSSESRLEPAAAIYEKIIVNWDINVEDHESCSDVFYTLGSFLDEQAQKLRSNGEIEDREHRSYTGKSTLKALELKRHYNRVLLQYNRDSEVLKALLLQKEKFLWHALHFYLNTLVFSNRYDNDIIDKFCGLWFENDDNSKINQLLYKEIGTIPSWKFLPWVNQIASKISMEENEFQKPLQLTMKRLLYKLPYDSLYSVMSILLYEKQSNKDTNISQKIQAVKKILLELQGYDRGAFAKKYLLPVQEFCEMSVELANLKFVQNTKTLRLANLKIGQYWLKQLNMEKLPLPTSNFTVKSSADGRKARPYIVSVNETVGITTTGLSLPKIVTFNISDGTTQKALMKGSNDDLRQDAIMEQVFQQVNKVLQNDKVLRNLDLGIRTYKVVPLGPKAGIIEFVANSTSLHQILSKLHTNDKITFDQARKGMKAVQTKSNEERLKAYLKITNEIKPQLRNFFFDSFPDPLDWFEAKKTYTKGVAASSIVGYILGLGDRHLNNILLDCSTGEPIHIDLGIAFDQGKLLPIPELVPFRLTRDIVDGFGVTGVDGLFRRSCERVYAVLRKDYVKVMCVLNILKWDPLYSWVMSPVKKYEHLFEEEHEITNFDNVSKFISNNDRNENQESYRALKGVEEKLMGNGLSVESSVQDLIQQATDPSNLSVIYMGWSPFY XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGSIRGGKQRVFATFIKCLQKLDSSNIINIMNSISSYMAQVSYKNQSIIFYEIKSLFGPPQQSIEKSAFYSLAMSMLSLVSYPSLVFSLEDMMTYSGFNHTRAFIQQALNKITVAFRYQNLTELFEYCKFSLFGFADIHEFLGRYFVEISAIYFSQGFNQKWILDMLHAITGNGDAYLVDNSYYLCIPLAFIELIFDILPQISGKTTVKYHKKYRLLMLKWIIRFTDLGSLTELRSTVEKLFPYLFENSSVSMRYQYPLHIPLALGATLVQTQFAHEKNNTHEFKLLFLSVITDLEKTSTYIGKLRCARELKYLFVLYENVLVKSSTLNFIIIRLSKFLIDTQIHDEVITIFSSLLNLADKNTFEIEPSLPNLFCKIFIYLRENKQLSPSFQQAIKLLEHRDLIKIKTWKYCLDAIFGNIVQDDIYENTELLDASDCGVDDVVLVSLLFSYARRPVASKIGCSLSKAAAINILKHHVPKEYLSKNFKLWFAALSRRILQQEVQRERSTNFNNEVHLKNFEMVFRHPEQPHMIYQRISTFNKEAELYDSTEVFFISECILTYLVGYSIGNSESEFCFRDNIMNENKDKVAPLDKDVLNAIYPLASFICDTYLSVNEPYNCWLSKFARSLIHQISFNIPPIVCLYPLCKGSTAFCELVLTDLFFLSTTYDPKSCLNWSNRIFTQIAMLLHVKDSEIKLKMLFNVIKMIRMGSRCKERNCLRIYSSLDLQEICQISLKIKEFKFGYLLFEEMNMPNIREMNINTLQKIYECINDGDFLAGLPVPHSIEGVLNSINRIDSDTWKRFLFNNADFDANYTTSLEEEKESLIKATEDSGFYGLTSLLESRLSGSSDVYKWNLELGDWKLLTPKVVDSKAKGLYYAIKNLPQDVGFAEKSLEKSLLTIFDSRQHFISQTEWMDTLNAIIEFIKIAAIPQDVTSFPQTLMSIMKADKERLNTIDFYDHKTTLKSRHTLMNVLSRNSLDENVKCSKYLRLGSIIQLANYVQLAIANGAPQDALRNATLMSKTVKNIAKLYDDPSVVSQIEKLASFTSANALWESREYKAPVMIMRDLLAQNEKNISESILYDDFKLLINVPMDQIKARLVKWSSESRLEPAAAIYEKIIVNWDINVEDHESCSDVFYTLGSFLDEQAQKLRSNGEIEDREHRSYTGKSTLKALELKRHYNRVLLQYNRDSEVLKALLLQKEKFLWHALHFYLNTLVFSNRYDNDIIDKFCGLWFENDDNSKINQLLYKEIGTIPSWKFLPWVNQIASKISMEENEFQKPLQLTMKRLLYKLPYDSLYSVMSILLYEKQSNKDTNISQKIQAVKKILLELQGYDRGAFAKKYLLPVQEFCEMSVELANLKFVQNTKTLRLANLKIGQYWLKQLNMEKLPLPTSNFTVKSSADGRKARPYIVSVNETVGITTTGLSLPKIVTFNISDGTTQKALMKGSNDDLRQDAIMEQVFQQVNKVLQNDKVLRNLDLGIRTYKVVPLGPKAGIIEFVANSTSLHQILSKLHTNDKITFDQARKGMKAVQTKSNEERLKAYLKITNEIKPQLRNFFFDSFPDPLDWFEAKKTYTKGVAASSIVGYILGLGDRHLNNILLDCSTGEPIHIDLGIAFDQGKLLPIPELVPFRLTRDIVDGFGVTGVDGLFRRSCERVYAVLRKDYVKVMCVLNILKWDPLYSWVMSPVKKYEHLFEEEHEITNFDNVSKFISNNDRNENQESYRALKGVEEKLMGNGLSVESSVQDLIQQATDPSNLSVIYMGWSPFY 6s94-a1-m1-cA_6s94-a1-m1-cB Crystal structure of group D of Usutu virus envelope protein domain III Q5WPU5 Q5WPU5 1.79 X-RAY DIFFRACTION 63 1.0 64286 (Usutu virus) 64286 (Usutu virus) 102 103 6s92-a1-m1-cA_6s92-a1-m2-cA TTYGMCTEKFSFAKNPADTGHSTVVLELQYTGSDGPCKIPISIVASLSDLTPIGRMVTANPYVASSEANAKVLVEMEPPFGDSYIVVGRGDKQINHHWHKAG GTTYGMCTEKFSFAKNPADTGHSTVVLELQYTGSDGPCKIPISIVASLSDLTPIGRMVTANPYVASSEANAKVLVEMEPPFGDSYIVVGRGDKQINHHWHKAG 6s98-a1-m1-cA_6s98-a1-m1-cB Crystal structure of the catalytic domain of UBE2S WT. Q16763 Q16763 1.55 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 147 150 1zdn-a3-m1-cB_1zdn-a3-m1-cA 6qhk-a1-m1-cA_6qhk-a1-m1-cB 6s96-a1-m1-cB_6s96-a1-m1-cA 7ahf-a1-m1-cB_7ahf-a1-m1-cA PPHIIRLVYKEVTTLTADPPDGIKVFPNEEDLTDLQVTIEGPEGTPYAGGLFRMKLLLGKDFPASPPKGYFLTKIFHPNVGANGEIVNVLKRDWTAELGIRHVLLTIKCLLIHPNPESALNEEAGRLLLENYEEYAARARLLTEIHG ENLPPHIIRLVYKEVTTLTADPPDGIKVFPNEEDLTDLQVTIEGPEGTPYAGGLFRMKLLLGKDFPASPPKGYFLTKIFHPNVGANGEIVNVLKRDWTAELGIRHVLLTIKCLLIHPNPESALNEEAGRLLLENYEEYAARARLLTEIHG 6s9a-a1-m1-cA_6s9a-a1-m1-cB Artificial GTPase-BSE dimer of human Dynamin1 Q05193 Q05193 1.86 X-RAY DIFFRACTION 48 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 312 320 MEDLIPLVNRLQDAFSAIGQNADLDLPQIAVVGGQSAGKSSVLENFVGRDFLPTRRPLVLQLVNATTEYAEFLHSKGKKFTDFEEVRLEIEAETDRGISPVPINLRVYSPHVLNLTLVDLPGMTHVPVGDQPPDIEFQIRDMLMQFVTKENCLILAVSPANSDLAHSDALKVAKEVDPQGQRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYIGVVNDITAALAAERKFFLSHPSYRHLADRMGTPYLQKVLNQQLTNHIRDTLPGLRNKLQSQLLSIEKEVEESAEQAQRRDEMLRMYHALKEALSIIG AMEDLIPLVNRLQDAFSAIGQNADLDLPQIAVVGGQSAGKSSVLENFVGRDFLPRIVTRRPLVLQLVNATTEYAEFLHSKGKKFTDFEEVRLEIEAETDRVTKGISPVPINLRVYSPHVLNLTLVDLPGMTHVPVGDQPPDIEFQIRDMLMQFVTKENCLILAVSPANSDLAHSDALKVAKEVDPQGQRTIGVITKLDLMDEGTDARDVLENKLLPLRRGYIGVVNRSDITAALAAERKFFLSHPSYRHLADRMGTPYLQKVLNQQLTNHIRDTLPGLRNKLQSQLLSIEKEVEEYQAQRRDEMLRMYHALKEALSIIGD 6s9r-a1-m2-cA_6s9r-a1-m2-cB Crystal structure of SSDP from D. melanogaster Q9VEB9 Q9VEB9 2.4 X-RAY DIFFRACTION 71 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 60 61 6iwv-a1-m1-cB_6iwv-a1-m1-cA 6iwv-a1-m2-cB_6iwv-a1-m2-cA 6s9r-a1-m1-cA_6s9r-a1-m1-cB 6tyd-a1-m1-cB_6tyd-a1-m1-cA AQAREKLALYVYEYLLHVGAQKAAQTFLSEIRWEKNITLGEPPGFLHTWWCVFWDLYCAA DAQAREKLALYVYEYLLHVGAQKAAQTFLSEIRWEKNITLGEPPGFLHTWWCVFWDLYCAA 6s9s-a1-m1-cA_6s9s-a1-m2-cA Dimerization domain of Xenopus laevis LDB1 in complex with darpin 10 P70060 P70060 2.2 X-RAY DIFFRACTION 69 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 168 168 6ptl-a1-m1-cA_6ptl-a1-m2-cA 6s9t-a1-m1-cA_6s9t-a1-m2-cA QTDYRIFELNKRLQNWTEECDNLWWDAFTTEFFEDDAMLTITFCLEDGPKRYTIGRTLIPRYFRSIFEGGATELYYVLKHPKESFHNNFVSLDCDQCTMVTQHGKPMFTQVCVEGRLYLEFMFDDMMRIKTWHFSIRQHRELIPRSILAMHAQDPQMLDQLSKNITRC QTDYRIFELNKRLQNWTEECDNLWWDAFTTEFFEDDAMLTITFCLEDGPKRYTIGRTLIPRYFRSIFEGGATELYYVLKHPKESFHNNFVSLDCDQCTMVTQHGKPMFTQVCVEGRLYLEFMFDDMMRIKTWHFSIRQHRELIPRSILAMHAQDPQMLDQLSKNITRC 6san-a1-m1-cA_6san-a1-m1-cB SALSA / DMBT1 / GP340 SRCR domain 8 soaked in calcium and magnesium Q9UGM3 Q9UGM3 1.36 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 112 112 GSESSLALRLVNGGDRCQGRVEVLYQGSWGTVCDDSWDTNDANVVCRQLGCGWAMSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHSEDAGVICSAVNI GSESSLALRLVNGGDRCQGRVEVLYQGSWGTVCDDSWDTNDANVVCRQLGCGWAMSAPGNARFGQGSGPIVLDDVRCSGHESYLWSCPHNGWLSHNCGHSEDAGVICSAVNI 6saw-a4-m1-cF_6saw-a4-m1-cH Chromophore binding domain of bacteriophytochrome linked diguanylyl cyclase from Idiomarina species A28L (dimeric Pfr-like state). F7RW09 F7RW09 3 X-RAY DIFFRACTION 50 1.0 1036674 (Idiomarina sp. A28L) 1036674 (Idiomarina sp. A28L) 307 307 6saw-a1-m1-cA_6saw-a1-m2-cC 6saw-a2-m1-cB_6saw-a2-m2-cE 6saw-a3-m1-cD_6saw-a3-m1-cG GSDDISKLIAACDQEPIHIPNAIQPFGAMLIVEKDTQQIVYASANSAEYFSVADNTIHELSDIKQANINSLLPEHLISGLASAIRENEPIWVETDRLSFLGWRHENYYIIEVERYHVQTSNWFEIQFQRAFQKLRNCKTHNDLINTLTRLIQEISGYDRVMIYQFDPEWNGRVIAESVRQLFTSMLNHHFPASDIPAQARAMYSINPIRIIPDVNAEPQPLHMIHKPQNTEAVNLSSGVLRAVSPLHMQYLRNFGVSASTSIGIFNEDELWGIVACHHTKPRAIGRRIRRLLVRTVEFAAERLWLIH GSDDISKLIAACDQEPIHIPNAIQPFGAMLIVEKDTQQIVYASANSAEYFSVADNTIHELSDIKQANINSLLPEHLISGLASAIRENEPIWVETDRLSFLGWRHENYYIIEVERYHVQTSNWFEIQFQRAFQKLRNCKTHNDLINTLTRLIQEISGYDRVMIYQFDPEWNGRVIAESVRQLFTSMLNHHFPASDIPAQARAMYSINPIRIIPDVNAEPQPLHMIHKPQNTEAVNLSSGVLRAVSPLHMQYLRNFGVSASTSIGIFNEDELWGIVACHHTKPRAIGRRIRRLLVRTVEFAAERLWLIH 6sbj-a2-m1-cC_6sbj-a2-m1-cD X-ray structure of mus musculus Fumarylacetoacetate hydrolase domain containing protein 1 (FAHD1) apo-form uuncomplexed Q8R0F8 Q8R0F8 2.22 X-RAY DIFFRACTION 102 1.0 10090 (Mus musculus) 10090 (Mus musculus) 204 205 6sbi-a1-m1-cA_6sbi-a1-m1-cB 6sbi-a2-m1-cC_6sbi-a2-m1-cD PLSRFWEWGKNIVCVGRNYADSEPVLFLKPSTAYAPEGSPVLMPAYCRNLHHEVELGVLLGKRGEAIPEAAAMDYVAGYALCLDMTARDVQEECKKKGLPWTLAKSFTSSCPVSAFVPKEKIPDPHALRLWLKVNGELRQEGKTSSMIFSIPYIISYVSKIITLEEGDLILTGTPKGVGPIKENDEIEAGIDGVVSMRFKVKRS KPLSRFWEWGKNIVCVGRNYADSEPVLFLKPSTAYAPEGSPVLMPAYCRNLHHEVELGVLLGKRGEAIPEAAAMDYVAGYALCLDMTARDVQEECKKKGLPWTLAKSFTSSCPVSAFVPKEKIPDPHALRLWLKVNGELRQEGKTSSMIFSIPYIISYVSKIITLEEGDLILTGTPKGVGPIKENDEIEAGIDGVVSMRFKVKRS 6sbx-a1-m1-cB_6sbx-a1-m1-cC CdbA Form Two Q1D489 Q1D489 2.33 X-RAY DIFFRACTION 22 1.0 34 (Myxococcus xanthus) 34 (Myxococcus xanthus) 48 55 DKRKQSLYFPEEMLKEIQEEATRQDRSLSWVVQQAWKIARERIKSFPA TDKRKQSLYFPEEMLKEIQEEATRQDRSLSWVVQQAWKIARERIKSFPAVNDVTG 6sbx-a1-m1-cC_6sbx-a1-m2-cC CdbA Form Two Q1D489 Q1D489 2.33 X-RAY DIFFRACTION 122 1.0 34 (Myxococcus xanthus) 34 (Myxococcus xanthus) 55 55 6sbw-a1-m1-cA_6sbw-a1-m2-cA 6sbx-a1-m1-cB_6sbx-a1-m1-cA TDKRKQSLYFPEEMLKEIQEEATRQDRSLSWVVQQAWKIARERIKSFPAVNDVTG TDKRKQSLYFPEEMLKEIQEEATRQDRSLSWVVQQAWKIARERIKSFPAVNDVTG 6sc4-a3-m4-cE_6sc4-a3-m5-cE Gamma-Carbonic Anhydrase from the Haloarchaeon Halobacterium sp. A0A133ULQ3 A0A133ULQ3 2.6 X-RAY DIFFRACTION 67 1.0 1698267 (candidate division MSBL1 archaeon SCGC-AAA259I09) 1698267 (candidate division MSBL1 archaeon SCGC-AAA259I09) 178 178 6sc4-a1-m1-cA_6sc4-a1-m1-cB 6sc4-a1-m1-cA_6sc4-a1-m1-cC 6sc4-a1-m1-cB_6sc4-a1-m1-cC 6sc4-a2-m1-cD_6sc4-a2-m2-cD 6sc4-a2-m1-cD_6sc4-a2-m3-cD 6sc4-a2-m2-cD_6sc4-a2-m3-cD 6sc4-a3-m1-cE_6sc4-a3-m4-cE 6sc4-a3-m1-cE_6sc4-a3-m5-cE RMIQKFEGKKPEIHETAFVHPRATIIGDVEIGPKTSVWPGAVIRADIEKITIGKNTCIKDNAVIHPADVYHEEEIEYVPVKIGDNNIIGHRALIHGAKINDESIVGAGSIVFNKAEVKTNSMVGMGAVVLEKQEVPNGKIVVGIPARVLRELEEREIKQIKKQADTHAELAEHYSREI RMIQKFEGKKPEIHETAFVHPRATIIGDVEIGPKTSVWPGAVIRADIEKITIGKNTCIKDNAVIHPADVYHEEEIEYVPVKIGDNNIIGHRALIHGAKINDESIVGAGSIVFNKAEVKTNSMVGMGAVVLEKQEVPNGKIVVGIPARVLRELEEREIKQIKKQADTHAELAEHYSREI 6sc5-a1-m1-cB_6sc5-a1-m1-cC dAb3/HOIP-RBR-Ligand2 2.1 X-RAY DIFFRACTION 64 1.0 32630 (synthetic construct) 32630 (synthetic construct) 119 120 6sc6-a1-m1-cB_6sc6-a1-m1-cC 6sc7-a1-m1-cB_6sc7-a1-m1-cC 6sc8-a1-m1-cB_6sc8-a1-m1-cC 6sc9-a1-m1-cB_6sc9-a1-m1-cC 6t2j-a1-m1-cB_6t2j-a1-m1-cA EVQLLESGGGLVQPGGSLRLSCAASGFTFRGYSMAWVRQAPGKGLEWVSTISPIGTYTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAKGSYSRGTPFDYWGQGTLVTVS EVQLLESGGGLVQPGGSLRLSCAASGFTFRGYSMAWVRQAPGKGLEWVSTISPIGTYTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAKGSYSRGTPFDYWGQGTLVTVSS 6scf-a2-m1-cG_6scf-a2-m1-cB A viral anti-CRISPR subverts type III CRISPR immunity by rapid degradation of cyclic oligoadenylate Q8QL27 Q8QL27 1.55 X-RAY DIFFRACTION 86 1.0 157898 (Sulfolobus islandicus rod-shaped virus 1) 157898 (Sulfolobus islandicus rod-shaped virus 1) 112 113 2x4i-a2-m1-cB_2x4i-a2-m1-cA 6scf-a1-m2-cH_6scf-a1-m1-cA 6scf-a3-m1-cC_6scf-a3-m1-cE 6scf-a4-m1-cD_6scf-a4-m1-cF NKVYLANAFSINMLTKFPTKVVIDKIDRLEFCENIDNEDIINSIGADSTIQLINSLCGTTFQKNRVEIKLEKEDKLYVVQISQRLEEGKILTLEEILKLYESGKVQFFEIIV NKVYLANAFSINMLTKFPTKVVIDKIDRLEFCENIDNEDIINSIGADSTIQLINSLCGTTFQKNRVEIKLEKEDKLYVVQISQRLEEGKILTLEEILKLYESGKVQFFEIIVD 6scs-a1-m1-cB_6scs-a1-m1-cA Cell Division Protein SepF in complex with C-terminal domain of FtsZ Q8NNN6 Q8NNN6 2.2 X-RAY DIFFRACTION 61 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 67 70 3p04-a1-m1-cB_3p04-a1-m1-cA 6sat-a1-m1-cA_6sat-a1-m1-cB 6scp-a1-m1-cA_6scp-a1-m1-cB 6scq-a1-m1-cA_6scq-a1-m2-cA 6scq-a2-m1-cB_6scq-a2-m3-cB 6scs-a2-m1-cE_6scs-a2-m1-cD VPVELHSFEDAQVIGGAFRDGDAVVFDMSLLSREEARRIVDFAAGLCFALRGKMQKIDSVTFAVVPE STIVPVELHSFEDAQVIGGAFRDGDAVVFDMSLLSREEARRIVDFAAGLCFALRGKMQKIDSVTFAVVPE 6scx-a2-m1-cC_6scx-a2-m2-cC Crystal structure of the catalytic domain of human NUDT12 in complex with 7-methyl-guanosine-5'-triphosphate Q9BQG2 Q9BQG2 2.92 X-RAY DIFFRACTION 170 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 323 6scx-a1-m1-cB_6scx-a1-m1-cA EECENYFSKTLLDRKSEKRNNSDWLLAKESHPATVFILFSDLNPLVTLKESFQQPEVRLCQLNYTDIKDYLAQPEKITLIFLGVELEDGLVAWFALGIDPIAAEEFKQRHENCYFLHPPMPALLQLKEKEAGVVAQARSVLAWHSRYKFCPTCGNATKIEEGGYKRLCLKEDCPSLNGVHNTSYPRVDPVVIMQVIHPDGTKCLLGRQKRFPPGMFTCLAGFIEPGETIEDAVRREVEEESGVKVGHVQYVACQPWPMPSSLMIGCLALAVSTEIKVDKNEIEDARWFTREQVLDVLTKGQAFFVPPSRAIAHQLIKHWIRIN EECENYFSKTLLDRKSEKRNNSDWLLAKESHPATVFILFSDLNPLVTLKESFQQPEVRLCQLNYTDIKDYLAQPEKITLIFLGVELEDGLVAWFALGIDPIAAEEFKQRHENCYFLHPPMPALLQLKEKEAGVVAQARSVLAWHSRYKFCPTCGNATKIEEGGYKRLCLKEDCPSLNGVHNTSYPRVDPVVIMQVIHPDGTKCLLGRQKRFPPGMFTCLAGFIEPGETIEDAVRREVEEESGVKVGHVQYVACQPWPMPSSLMIGCLALAVSTEIKVDKNEIEDARWFTREQVLDVLTKGQAFFVPPSRAIAHQLIKHWIRIN 6scy-a1-m1-cA_6scy-a1-m1-cB U34-tRNA thiolase NcsA from Methanococcus maripaludis with its [4Fe-4S] cluster Q6LXJ4 Q6LXJ4 2.81 X-RAY DIFFRACTION 61 0.983 267377 (Methanococcus maripaludis S2) 267377 (Methanococcus maripaludis S2) 297 298 MITMKCRKCGKPSIYHQKHSGNNYCKECFIKETKRKVRKTLGRDVLKNNIKVAMGLSGGKDSLVMAYLLNEYYKQIPNSNLIAIMVNEGIEGYRTDGIDAAVKFCEEYGIEYKIVHFKDYLGTNLDEIVKLTMNPCSFCGVIRRKILNRVSIEEKCDFLAIGHNLDDVAQAVMMNYIEGDVKKLAFLGKSLKHPKFVKRIKPLEKIPEDEVLLLAEMLELKYHKSPCPYSCLSFRSEVSDITDNLEKNHPGSKYSIVRGYERLLEHIELECKICGDLSATEVCKVCSYLKNLGILEK MITMKCRKCGKPSIYHQKHSGNNYCKECFIKETKRKVRKTLGRDVLKNNIKVAMGLSGGKDSLVMAYLLNEYYKQIPNSNLIAIMVNEGIEGYRTDGIDAAVKFCEEYGIEYKIVHFKDYLGTNLDEIVTMNPCSFCGVIRRKILNRVSIEEKCDFLAIGHNLDDVAQAVMMNYIEGDVKKLAFLGKSLKHPKFVKRIKPLEKIPEDEVLLLAEMLELKYHKSPCPYSCLSFRSEVSDITDNLEKNHPGSKYSIVRGYERLLEHIEGECKICGGLSATEVCKVCSYGKNLGILEKSKF 6scz-a1-m1-cB_6scz-a1-m1-cA Mycobacterium tuberculosis alanine racemase inhibited by DCS P9WQA9 P9WQA9 1.57 X-RAY DIFFRACTION 136 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 371 373 1xfc-a1-m1-cB_1xfc-a1-m1-cA 8b8h-a1-m1-cA_8b8h-a1-m1-cB LLAEAMVDLGAIEHNVRVLREHAGHAQLMAVVKADGYGHGATRVAQTALGAGAAELGVATVDEALALRADGITAPVLAWLHPPGIDFGPALLADVQVAVSSLRQLDELLHAVRRTGRTATVTVKVDTGLNRNGVGPAQFPAMLTALRQAMAEDAVRLRGLMSHMVYADKPDDSINDVQAQRFTAFLAQAREQGVRFEVAHLSNSSATMARPDLTFDLVRPGIAVYGLSPVPALGDMGLVPAMTVKCAVALVKSIRAGEGVSYGHTWIAPRDTNLALLPIGYADGVFRSLGGRLEVLINGRRCPGVGRICMDQFMVDLGPPLDVAEGDEAILFGPGIRGEPTAQDWADLVGTIHYEVVTSPRGRITRTYREA GLLAEAMVDLGAIEHNVRVLREHAGHAQLMAVVKADGYGHGATRVAQTALGAGAAELGVATVDEALALRADGITAPVLAWLHPPGIDFGPALLADVQVAVSSLRQLDELLHAVRRTGRTATVTVKVDTGLNRNGVGPAQFPAMLTALRQAMAEDAVRLRGLMSHMVYADKPDDSINDVQAQRFTAFLAQAREQGVRFEVAHLSNSSATMARPDLTFDLVRPGIAVYGLSPVPALGDMGLVPAMTVKCAVALVKSIRAGEGVSYGHTWIAPRDTNLALLPIGYADGVFRSLGGRLEVLINGRRCPGVGRICMDQFMVDLGPGPLDVAEGDEAILFGPGIRGEPTAQDWADLVGTIHYEVVTSPRGRITRTYREA 6sd6-a1-m2-cB_6sd6-a1-m1-cA Structure of VapBC from Shigella sonnei 2.61 X-RAY DIFFRACTION 107 1.0 624 (Shigella sonnei) 624 (Shigella sonnei) 67 68 3tnd-a1-m1-cB_3tnd-a1-m1-cD 3tnd-a1-m1-cF_3tnd-a1-m1-cH 6sd6-a1-m1-cB_6sd6-a1-m2-cA METTVFLSNRSQAVRLPKAVALPENVKRVEVIAVGRTRIITPAGETWDEWFDGHSVSADFMDNREQP METTVFLSNRSQAVRLPKAVALPENVKRVEVIAVGRTRIITPAGETWDEWFDGHSVSADFMDNREQPG 6sdk-a2-m1-cC_6sdk-a2-m1-cD Crystal structure of bacterial ParB dimer bound to CDP P26497 P26497 1.81 X-RAY DIFFRACTION 151 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 196 196 6sdk-a1-m1-cB_6sdk-a1-m1-cA ETVEEIKIADLRPNPYQPRKHFDDEALAELKESVLQHGILQPLIVRKSLKGYDIVAGERRFRAAKLAGLDTVPAIVRELSEALREIALLENLQREDLSPLEEAQAYDSLLKHLDLTQEQLAKRLGKSRPHIANHLRLLTLPENIQQLIAEGTLSGHGRTLLGLKNKNKLEPLVQKVIAEQLNVRQLEQLIQQLNQN ETVEEIKIADLRPNPYQPRKHFDDEALAELKESVLQHGILQPLIVRKSLKGYDIVAGERRFRAAKLAGLDTVPAIVRELSEALREIALLENLQREDLSPLEEAQAYDSLLKHLDLTQEQLAKRLGKSRPHIANHLRLLTLPENIQQLIAEGTLSGHGRTLLGLKNKNKLEPLVQKVIAEQLNVRQLEQLIQQLNQN 6se3-a3-m1-cC_6se3-a3-m1-cF Crystal Structure of Ancestral Flavin-containing monooxygenase (FMO) 3-6 2.8 X-RAY DIFFRACTION 165 1.0 32630 (synthetic construct) 32630 (synthetic construct) 528 528 6se3-a1-m1-cB_6se3-a1-m1-cD 6se3-a2-m1-cA_6se3-a2-m1-cE KKVAIIGAGVSGLASIRSCLEEGLEPTCFERSDDIGGLWKFSDHAEEGRASIYQSVFTNSSKEMMCFPDFPYPDDFPNFMHNSKLQEYITAFAKEKNLLKYIQFKTLVSSVNKRPDFSVTGQWDVTTEKDGKKESAVFDAVMICSGHHVYPNLPKESFPGLKHFKGKCFHSRDYKEPGIFKGKRVLVIGLGNSGCDIATELSHTAEKVIISSRSGSWVMSRVWDDGYPWDMLFITRFETFLKNSLPTAISDWWYMKQMNARFKHENYGLMPLNGTLRKEPVFNDELPARILCGTVSIKPNVKEFTETSAIFEDGTVFEAIDCVIFATGYGYAYPFLDDSIIKSRNNEVTLFKGIFPPLLEKPTLAVIGLVQSLGATIPTTDLQARWAAKVFANSCTLPTTNEMMDDIDEKMGKKLKWFGQSQTLQTDYITYMDELGSFIGAKPNIPWLFLTDPQLALEVFFGPCSPYQFRLMGPGKWDGARNAILTQWDRTLKPTRTRAVGEAKRPSLFYNLLKILLFPVLLLAVLLA KKVAIIGAGVSGLASIRSCLEEGLEPTCFERSDDIGGLWKFSDHAEEGRASIYQSVFTNSSKEMMCFPDFPYPDDFPNFMHNSKLQEYITAFAKEKNLLKYIQFKTLVSSVNKRPDFSVTGQWDVTTEKDGKKESAVFDAVMICSGHHVYPNLPKESFPGLKHFKGKCFHSRDYKEPGIFKGKRVLVIGLGNSGCDIATELSHTAEKVIISSRSGSWVMSRVWDDGYPWDMLFITRFETFLKNSLPTAISDWWYMKQMNARFKHENYGLMPLNGTLRKEPVFNDELPARILCGTVSIKPNVKEFTETSAIFEDGTVFEAIDCVIFATGYGYAYPFLDDSIIKSRNNEVTLFKGIFPPLLEKPTLAVIGLVQSLGATIPTTDLQARWAAKVFANSCTLPTTNEMMDDIDEKMGKKLKWFGQSQTLQTDYITYMDELGSFIGAKPNIPWLFLTDPQLALEVFFGPCSPYQFRLMGPGKWDGARNAILTQWDRTLKPTRTRAVGEAKRPSLFYNLLKILLFPVLLLAVLLA 6sek-a1-m1-cA_6sek-a1-m1-cB Crystal Structure of Ancestral Flavin-containing monooxygenase (FMO) 5 2.7 X-RAY DIFFRACTION 134 1.0 32630 (synthetic construct) 32630 (synthetic construct) 504 504 TKKRIAVIGAGASGLTSIKCCLEEGLEPVCFERTDDIGGLWRFQENPEEGRASIYKSVIINTSKEMMCFSDYPIPDHYPNFMHNSQVLEYFRMYAKEFDLLKYIQFKTTVCSVKKQPDFSTSGQWEVVTECEGKKEVDVFDGVMVCTGHHTNAHLPLESFPGIEKFKGQYFHSRDYKNPEGFTGKRVIIIGIGNSGGDLAVEISHTAKQVFLSTRRGAWILNRVGDHGYPFDVLFSSRFTYFLSKICGQSLSNTFLEKKMNQRFDHEMFGLKPKHRALSQHPTVNDDLPNRIISGLVKVKGNVKEFTETAAIFEDGSREDDIDAVIFATGYSFAFPFLEDSVKVVKNKVSLYKKVFPPNLEKPTLAIIGLIQPLGAIMPISELQGRWATQVFKGLKTLPSQSEMMAEISKAQEEMAKRYVDSQRHTIQGDYIDTMEEIADLVGVRPNLLSLAFTDPKLALKLFFGPCTPVQYRLQGPGKWDGARKTILTTEDRIRKPLMTRVIE TKKRIAVIGAGASGLTSIKCCLEEGLEPVCFERTDDIGGLWRFQENPEEGRASIYKSVIINTSKEMMCFSDYPIPDHYPNFMHNSQVLEYFRMYAKEFDLLKYIQFKTTVCSVKKQPDFSTSGQWEVVTECEGKKEVDVFDGVMVCTGHHTNAHLPLESFPGIEKFKGQYFHSRDYKNPEGFTGKRVIIIGIGNSGGDLAVEISHTAKQVFLSTRRGAWILNRVGDHGYPFDVLFSSRFTYFLSKICGQSLSNTFLEKKMNQRFDHEMFGLKPKHRALSQHPTVNDDLPNRIISGLVKVKGNVKEFTETAAIFEDGSREDDIDAVIFATGYSFAFPFLEDSVKVVKNKVSLYKKVFPPNLEKPTLAIIGLIQPLGAIMPISELQGRWATQVFKGLKTLPSQSEMMAEISKAQEEMAKRYVDSQRHTIQGDYIDTMEEIADLVGVRPNLLSLAFTDPKLALKLFFGPCTPVQYRLQGPGKWDGARKTILTTEDRIRKPLMTRVIE 6sem-a2-m1-cA_6sem-a2-m1-cD Crystal Structure of Ancestral Flavin-containing monooxygenase (FMO) 2 2.8 X-RAY DIFFRACTION 130 1.0 32630 (synthetic construct) 32630 (synthetic construct) 519 520 6sem-a1-m1-cC_6sem-a1-m1-cB 6sf0-a1-m1-cB_6sf0-a1-m1-cD 6sf0-a2-m1-cA_6sf0-a2-m2-cC AKKVAVIGAGVSGLISLKCCVDEGLEPTCFERTEDIGGLWRFKENVEDGRASIYQSVITNTSKEMSCFSDFPMPEHFPNFLHNSKLLEYFRIFAKKFDLLKYIQFQTTVLSVKKCPDGQWEIVTESNGKEQSAVFDAVMVCSGHHILPHIPLQSFPGIERFKGQYFHSRQYKHPEGFEGKRILVIGIGNSASDIAVELSKKAAQVFISTRHGSWVMSRISDDGYPWDMVFHTRFSSMLRNVLPRTVVKWMMEQQMNRWFNHENYGLEPQNKYLMKEPVLNDDLPSRLLYGAIKVKSRVKELTETSAIFEDGTVEEDIDVIVFATGYTFSFPFLEDSLVKVENNMVSLYKYMFPPHLEKPTLACIGLIQPLGSIFPTVELQARWVTRVFKGLCTLPSESTMMADIIKRNEKRIDLFGESQSQILQTNYIDYLDELALEIGAKPDLLSLLLKDPKLAMKLYFGPCNSYQYRLVGPGQWEGARNAIFTQKQRILKPLKTRALKALLKILGLLAVVVAFFFQL AKKVAVIGAGVSGLISLKCCVDEGLEPTCFERTEDIGGLWRFKENVEDGRASIYQSVITNTSKEMSCFSDFPMPEHFPNFLHNSKLLEYFRIFAKKFDLLKYIQFQTTVLSVKKCPDGQWEIVTESNGKEQSAVFDAVMVCSGHHILPHIPLQSFPGIERFKGQYFHSRQYKHPEGFEGKRILVIGIGNSASDIAVELSKKAAQVFISTRHGSWVMSRISDDGYPWDMVFHTRFSSMLRNVLPRTVVKWMMEQQMNRWFNHENYGLEPQNKYLMKEPVLNDDLPSRLLYGAIKVKSRVKELTETSAIFEDGTVEEDIDVIVFATGYTFSFPFLEDSLVKVENNMVSLYKYMFPPHLEKPTLACIGLIQPLGSIFPTVELQARWVTRVFKGLCTLPSESTMMADIIKRNEKRIDLFGESQSQILQTNYIDYLDELALEIGAKPDLLSLLLKDPKLAMKLYFGPCNSYQYRLVGPGQWEGARNAIFTQKQRILKPLKTRALKALLKILGLLAVVVAFFFQLQ 6sf3-a1-m1-cB_6sf3-a1-m2-cB Bone morphogenetic protein 10 (BMP10) in complex with extracellular domain of activin receptor-like kinase 1 (ALK1) at 2.3 Angstrom O95393 O95393 2.30001 X-RAY DIFFRACTION 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 6sf1-a1-m1-cB_6sf1-a1-m2-cB 7poi-a1-m1-cA_7poi-a1-m1-cB 7poj-a1-m1-cA_7poj-a1-m1-cB 7ppa-a1-m1-cA_7ppa-a1-m1-cB 7ppb-a1-m1-cA_7ppb-a1-m2-cA 7ppc-a1-m1-cA_7ppc-a1-m1-cB 7ppc-a2-m1-cC_7ppc-a2-m1-cD NYCKRTPLYIDFKEIGWDSWIIAPPGYEAYECRGVCNYPLAEHLTPTKHAIIQALVHLKNSQKASKACCVPTKLEPISILYLDKGVVTYKFKYEGMAVSECGCR NYCKRTPLYIDFKEIGWDSWIIAPPGYEAYECRGVCNYPLAEHLTPTKHAIIQALVHLKNSQKASKACCVPTKLEPISILYLDKGVVTYKFKYEGMAVSECGCR 6sf5-a1-m1-cA_6sf5-a1-m1-cB Mn-containing form of the ribonucleotide reductase NrdB protein from Leeuwenhoekiella blandensis A3XHF9 A3XHF9 1.9 X-RAY DIFFRACTION 51 1.0 360293 (Leeuwenhoekiella blandensis) 360293 (Leeuwenhoekiella blandensis) 296 296 5olk-a1-m1-cB_5olk-a1-m1-cA 5olk-a1-m1-cD_5olk-a1-m1-cC 6sf4-a1-m1-cB_6sf4-a1-m1-cA TNIFEKRINLKPYEYPELNEYVAAIRHSYWIHTEFNFTSDIQDFKTGLSEVERSAIKNTMLAISQIEVAVKTFWGDVHHRLPKPEIAAVGATFAESEVRHHDAYSHLLEILGLNEEFKELKKKPVIMKRVHYLETSLKHAKSDDDREYTESILLFALFIEHVSLFSQFLIIMAFNKHKNMLKGISNAVEATSKEEQIHGDFGVDIINIIKKENPEWFDEEHNNLIKEMCLNSFEAESKVVDWIFEKGELDFLPKAVINEFLKNRFNKSLEAIGLEKLFDIDEALLQETEWFDDEII TNIFEKRINLKPYEYPELNEYVAAIRHSYWIHTEFNFTSDIQDFKTGLSEVERSAIKNTMLAISQIEVAVKTFWGDVHHRLPKPEIAAVGATFAESEVRHHDAYSHLLEILGLNEEFKELKKKPVIMKRVHYLETSLKHAKSDDDREYTESILLFALFIEHVSLFSQFLIIMAFNKHKNMLKGISNAVEATSKEEQIHGDFGVDIINIIKKENPEWFDEEHNNLIKEMCLNSFEAESKVVDWIFEKGELDFLPKAVINEFLKNRFNKSLEAIGLEKLFDIDEALLQETEWFDDEII 6sff-a1-m1-cA_6sff-a1-m2-cA mouse Interleukin-12 subunit beta - p80 homodimer in space group I41 P43432 P43432 2.4 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 295 295 MWELEKDVYVVEVDWTPDAPGETVNLTCDTPEEDDITWTSDQRHGVIGSGKTLTITVKEFLDAGQYTCHKGGETLSHSHLLLHKKENGIWSTEILKNFKNKTFLKCEAPNYSGRFTCSWLVQRNMDLKFNIKSSSSDSRAVTCGMASLSAEKVTLDQRDYEKYSVSCQEDVTCPTAEETLPIELALEARQQNKYENYSTSFFIRDIIKPDPPKNLQMKPLKSQVEVSWEYPDSWSTPHSYFSLKFFVRIQGCGAFLVEKTSTEVQCKGGNVCVQAQDRYYNSSCSKWACVPCRVR MWELEKDVYVVEVDWTPDAPGETVNLTCDTPEEDDITWTSDQRHGVIGSGKTLTITVKEFLDAGQYTCHKGGETLSHSHLLLHKKENGIWSTEILKNFKNKTFLKCEAPNYSGRFTCSWLVQRNMDLKFNIKSSSSDSRAVTCGMASLSAEKVTLDQRDYEKYSVSCQEDVTCPTAEETLPIELALEARQQNKYENYSTSFFIRDIIKPDPPKNLQMKPLKSQVEVSWEYPDSWSTPHSYFSLKFFVRIQGCGAFLVEKTSTEVQCKGGNVCVQAQDRYYNSSCSKWACVPCRVR 6sfw-a1-m1-cS_6sfw-a1-m1-cT Cryo-EM Structure of the ClpX component of the ClpXP1/2 degradation machinery. Q8Y7K9 Q8Y7K9 6.0 ELECTRON MICROSCOPY 117 0.994 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 332 334 6sfw-a1-m1-cO_6sfw-a1-m1-cP 6sfw-a1-m1-cO_6sfw-a1-m1-cT 6sfw-a1-m1-cQ_6sfw-a1-m1-cP 6sfw-a1-m1-cQ_6sfw-a1-m1-cR 6sfw-a1-m1-cR_6sfw-a1-m1-cS EVPKPQEIRHILSDYVIGQERAKKALAVAVYNHYKRINSNETKEDEVELSKSNICLIGPTGSGKTLLAQTLARILNVPFAIADATSLTEAGYVGEDVENILLKLIQSADYDVEKAEKGIIYIDQIDKVARKTRDVSGEGVQQALLKILEGTVASVPELIQIDTGNILFIVGGAFDGIEQIVKNRMGEKVIGFGTDNAKLKDDETYLSRVVPEDLLKFGLIPEFIGRLPVIATLEQLDEAALVSILTEPKNALVKQYKRMLELDDVELEFEPTALIEIAKEAIERKTGARGLRSIIEQIMLEVMFEIPSRDDITKCIITEKAARGEEEPQLQL EVPKPQEIRHILSDYVIGQERAKKALAVAVYNHYKRINSNETKEDEVELSKSNICLIGPTGSGKTLLAQTLARILNVPFAIADATSLTEAGYVGEDVENILLKLIQSADYDVEKAEKGIIYIDQIDKVARKSDVSGEGVQQALLKILEGTVASVPPHQELIQIDTGNILFIVGGAFDGIEQIVKNRMGEKVIGFGTDNAKLKDDETYLSRVVPEDLLKFGLIPEFIGRLPVIATLEQLDEAALVSILTEPKNALVKQYKRMLELDDVELEFEPTALIEIAKEAIERKTGARGLRSIIEQIMLEVMFEIPSRDDITKCIITEKAARGEEEPQLQL 6sg4-a1-m1-cC_6sg4-a1-m1-cA Structure of CDK2/cyclin A M246Q, S247EN P24941 P24941 2.43 X-RAY DIFFRACTION 33 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 260 261 VVALKKIRGVPSTAIREISLLKELNHPNIVKLLDVIHTENKLYLVFEFLHQDLKKFMDASALTGIPLPLIKSYLFQLLQGLAFCHSHRVLHRDLKPQNLLINTEGAIKLADFGLARAFGVPVRTYHEVVTLWYRAPEILLGCKYYSTAVDIWSLGCIFAEMVTRRALFPGDSEIDQLFRIFRTLGTPDEVVWPGVTSMPDYKPSFPKWARQDFSKVVPPLDEDGRSLLSQMLHYDPNKRISAKAALAHPFFQDVTKPVPH EVVALKKITEGVPSTAIREISLLKELNHPNIVKLLDVIHTENKLYLVFEFLHQDLKKFMDASALTGIPLPLIKSYLFQLLQGLAFCHSHRVLHRDLKPQNLLINTEGAIKLADFGLARAFGVPVRTYHEVVTLWYRAPEILLGCKYYSTAVDIWSLGCIFAEMVTRRALFPGDSEIDQLFRIFRTLGTPDEVVWPGVTSMPDYKPSFPKWARQDFSKVVPPLDEDGRSLLSQMLHYDPNKRISAKAALAHPFFQDVTKPVP 6sg8-a1-m1-cA_6sg8-a1-m1-cB Structure of Sosuga virus receptor binding protein W5SB61 W5SB61 2.5 X-RAY DIFFRACTION 57 0.995 1452514 (Sosuga virus) 1452514 (Sosuga virus) 370 381 SRNSISELKVPRDFVPSPGTFHGCSRFPSYSNHYGLWCYSHTVSNDTCDGSNPSVQILSVGKLITGDNGQPEHKTLYTQQLSQTDRLYHCSVTMTTLGCYILCSKPRVNETQDYETIGIEPMIIGMLGLDGVYTDLGNPVGISDNSLYAMYPGPGGGVMYKDFLVFPLHGGVRFSEASKMLVLVLDFLYVCTLLDNIPGECSIQLIPPDNMTMGSESKLYKLNNSLLLYKRSSSWWPYTEVYQLSLRVSKNSMKVRESVRLNITSTTRPGVTGVFQAPGIIRKALSEDLLFFQAWTSDSIARQGPLISLCRADSCVLTIPLGNSDVFIGYTDSFCLSDRDNEKIYCVALLELDNMPYSEMTIRSFLYLIK PSRNSISELKVPRDFVPSPGTFHGCSRFPSYSNHYGLWCYSHTVSNDTCDGSNPSVQILSVGKLITGDNGQPEHKTLYTQQLSQTDRLYHCSVTMTTLGCYILCSKPRVNETQDYETIGIEPMIIGMLGLDGVYTDLGNPVGISDNSLYAMYPGPGGGVMYKDFLVFPLHGGVRFSEASKMLGKNITFEVLVLDFLYVCTLLDNIPGECSIQLIPPDNMTMGSESKLYKLNNSLLLYKRSSSWWPYTEVYQLSLRVSKNSMKVRESVRLNITSTTRPGGVFQAPGIIRKALSPKESNEDLLFFQAWTSDSIARQGPLISLCRADSCVLTIPLGNSDVFIGYTDSFCLSDRDNEKIYCVALLELDNMPYSEMTIRSFLYLIK 6sgb-a1-m1-cFN_6sgb-a1-m1-cFM mt-SSU assemblosome of Trypanosoma brucei 3.3 ELECTRON MICROSCOPY 235 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 319 326 6sga-a1-m1-cFN_6sga-a1-m1-cFM 7pua-a1-m1-cFN_7pua-a1-m1-cFM SLNVGVVGMGNMGVPIARNLGFKARSAMYLQIHSRALSKAKRVCDDLSVDGATCAMRIHDRYSTMTKWCDVIVLALADVKASRHALLEDNESLIMNARKGQIIVDHTTVDAETSRECAHEAARRGAYFLDAPMSGSPRACFNGQLLLMVGGDAETFQKMLPIFHMYADNVFHMGESGSGTAAKMISQALVASHNAAAAEALSMAHALGIEDQSKLVQVLDASWGSSTMLRRNAPLLQDLIRNPDKTPPTSAVSVDRLLSDLAHLDASLPKRGGEDEPFPVFDAALRSLAAASDAGMGDRDLASVVHYIEAGEAELRNRT AIKRSLNVGVVGMGNMGVPIARNLGFKARSAMYLQIHSRALSKAKRVCDDLSVDGATCAMRIHDRYSTMTKWCDVIVLALADVKASRHALLEDNESLIMNARKGQIIVDHTTVDAETSRECAHEAARRGAYFLDAPMSGSPRACFNGQLLLMVGGDAETFQKMLPIFHMYADNVFHMGESGSGTAAKMISQALVASHNAAAAEALSMAHALGIEDQSKLVQVLDASWGSSTMLRRNAPLLQDLIRNPDKTPPTSAVSVDRLLSDLAHLDASLPKRGGEDEPFPVFDAALRSLAAASDAGMGDRDLASVVHYIEAGEAELRNRTHVP 6sgb-a1-m1-cFR_6sgb-a1-m1-cFQ mt-SSU assemblosome of Trypanosoma brucei Q387P8 Q387P8 3.3 ELECTRON MICROSCOPY 125 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 243 257 6sga-a1-m1-cFR_6sga-a1-m1-cFQ ASDRAVINAGGRRFETLFSTLHRYPDTPFAQLFPLPGRGARQHRGREFFLDVTPHVFEYILGFLRTNQLNLPAENLQIRAEVVYSMNQWGLLEHAFPPEVIEDTGGAVVKLPDVCVVQVCDHMQHDQGVKRHALTITYGADGFQLRSLIRRVRRDLERQLSSTYWQCYQTNERAAFFVTTKVANGTADLLTTSVTQQLVEHTESMGYSLASSYVTLSPDVVHTSVRMLIHNFTFRRSRRVEVE ASDRAVINAGGRRFETLFSTLHRYPDTPFAQLFPLPGRGARQHRGREFFLDVTPHVFEYILGFLRTNQLNLPAENLQIRAEVVYSMNQWGLLEHAFPPEVIEDGEGCSTGGAVVKLPDVCVVQVCDHMQHDQGVKRHALTITYGADGFQLRSLIRRVRRDLERQLSSTYWQCYQTNERAAFFVTTKVANGTADLLTTSVTQQLVEHTESMGYSLASSYVTLSPDVVHTSVRMLIHNFTFRRSRRVEVEPGDGIALGE 6sgb-a1-m1-cFT_6sgb-a1-m1-cFU mt-SSU assemblosome of Trypanosoma brucei Q387P8 Q387P8 3.3 ELECTRON MICROSCOPY 129 0.996 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 233 270 6sga-a1-m1-cFT_6sga-a1-m1-cFQ 6sga-a1-m1-cFT_6sga-a1-m1-cFU 6sgb-a1-m1-cFT_6sgb-a1-m1-cFQ ASDRAVINAGGRRFETLFSTLHRYPDTPFAQLFPLPGRGARQHRGREFFLDVTPHVFEYILGFLRTNQLNLPAENLQIRAEVVYSMNQWGLLEHAFPPEVIEVVKLPDVCVVQVCDHMQHDQGVKRHALTITYGADGFQLRSLIRRVRRDLERQLSSTYWQCYQTNERAAFFVTTKVANGTADLLTTSVTQQLVEHTESMGYSLASSYVTLSPDVVHTSVRMLIHNFTFRRSR ASDRAVINAGGRRFETLFSTLHRYPDTPFAQLFPLPGRGARQHRGREFFLDVTPHVFEYILGFLRTNQLNLPAENLQIRAEVVYSMNQWGLLEHAFPPEVIAVVKLPDVCVVQVCDHMQHDQGVKRHALTITYGADGFQLRSLIRRVRRDLERQLSSTYWQCYQTNERAAFFVTTKVANGTADLLTTSVTQQLVEHTESMGYSLASSYVTLSPDVVHTSVRMLIHNFTFRRSRRVEVEPGDGIALGEGSETIEAEPNIPTMHVGPRREPL 6sgf-a3-m1-cF_6sgf-a3-m1-cE Molecular insight into a new low affinity xylan binding module CBM86, from the xylanolytic gut symbiont Roseburia intestinalis. C7G9B5 C7G9B5 1.756 X-RAY DIFFRACTION 42 1.0 536231 (Roseburia intestinalis L1-82) 536231 (Roseburia intestinalis L1-82) 131 132 6sgf-a1-m1-cA_6sgf-a1-m2-cB 6sgf-a2-m1-cC_6sgf-a2-m1-cD GVKKVFTADQLKVAWGDADYELADGQWKLSFAKQYNQVKWTLPESIEMSQVNAVTFQVADQKVPISLKVYNGGDDATAANTQYGLSGQTEYTINPSGDGAIDAVGIMITEDKPENATVSLVSVTFELKAGA GVKKVFTADQLKVAWGDADYELADGQWKLSFAKQYNQVKWTLPESIEMSQVNAVTFQVADQKVPISLKVYNGGDDATAANTQYGLSGQTEYTINPSGDGAIDAVGIMITEDKPENATVSLVSVTFELKAGAG 6sgw-a1-m1-cB_6sgw-a1-m1-cC Structure of the ESX-3 core complex A0QQ46 A0QQ46 3.8 ELECTRON MICROSCOPY 212 0.984 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 427 442 6lar-a1-m1-cB_6lar-a1-m1-cC 6lar-a1-m1-cE_6lar-a1-m1-cH 6sgw-a1-m1-cE_6sgw-a1-m1-cH 6umm-a1-m1-cB_6umm-a1-m1-cC 6umm-a1-m1-cG_6umm-a1-m1-cH PIVRVAVLAAGDDGGRLTEMALPSELPLREILPAVQRIVQPVRLSLAPIGGAPFSLDATLDTVGVVDGDLLALQAVPSGPPAPRIVEDIADAAVIFSEARRRQWGPTHIARGAALALIGLILVGTGLSVAHRVITGDLLGQFIVSGIALATVIAALAVRNRSAVLATSLAVTALVPVAAAFALGVPGDFGAPNVLLAAAGVAAWSLISMAGSPDDRGIAVFTATAVTGVGVLLVAGAASLWVISSDVIGCALVLLGLIVTVQAAQLSAMWAVLADLPRRVRVSQAHQTGVIAAGVLLGVAGSVALVSSANASPWAWYIVVAAAAGAALRARVWDSAACKAWLLGHSYLLAVALLVAFVIGDRYQAALWALAALAVLVLVWIVAALNPKIASPDTYSLPMRRMVGFLATGLDASLIPVMALLVGLFSL PIVRVAVLAGGRLTEMALPSELPLREILPAVQRIVQVRLSLAPIGGAPFSLDATLDTVGVVDGDLLALQAVPSGPPAPRIVEDIADAAVIFSEARRRQWGPTHIARGAALALIGLILVGTGLSVAHRVITGDLLGQFIVSGIALATVIAALAVRNRSAVLATSLAVTALVPVAAAFALGVPGDAPNVLLAAAGVAAWSLISMAGSPDDRGIAVFTATAVTGVGVLLVAGAASLWVISSDVIGCALVLLGLIVTVQAAQLSAMWARFPLPVIPAPGDPTPAARPLSVLADLPRRVRVSQAHQTGVIAAGVLLGVAGSVALVSSANASPWAWYIVVAAAAGAALRARVWDSAACKAWLLGHSYLLAVALLVAFVIGDRYQAALWALAALAVLVLVWIVAALNPKIASPDTYSLPMRRMVGFLATGLDASLIPVMALLVGLFSLV 6sgw-a1-m1-cJ_6sgw-a1-m1-cF Structure of the ESX-3 core complex A0QQ40 A0QQ40 3.8 ELECTRON MICROSCOPY 11 0.997 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 324 336 6lar-a1-m1-cJ_6lar-a1-m1-cF SRLIFEHQRRLTPPTTRKGTITIEPPPQLPRMRTEEVDAERADYLRYLSVVRDNVRAHAAEQRAALEWSHPEPEVLATIPGTRRQWERDPRDRDFLVLRAGRHDVPLDAALKVKDTADEIDLEPVAHSALRGLLDVQRTVRDAPTGLDVAKLARITVIGEADEARAAIRAWIAQAVTWHDPTMLGVALAAPDLESGDWSWLKWLPHVDVPNEADGVGPARYLTTSTAELRERLAPALLKHLLVVLDDPDADPDDIARLTGVTVIHRTTELPNREQYPDPERPILRVADGRIERWQVWQPCVDVADAMSAAEAAHIARRLSRWDS SRLIFEHQRRLTPPTTRKGTITIEPPPQLPRVVPPSLLRRVLPMRTEEVDAERADYLRYLSVVRDNVRAHAAEQRAALEWSHPEPEVLATIPGTRRQWERDPRDRDFLVLRAGRHDVPLDAALKVKDTADEIDLEPVAHSALRGLLDVQRTVRDAPTGLDVAKLARITVIGEADEARAAIRAWIAQAVTWHDPTMLGVALAAPDLESGDWSWLKWLPHVDVPNEADGVGPARYLTTSTAELRERLAPALALKHLLVVLDDPDADPDDIARLTGVTVIHRTTELPNREQYPDPERPILRVADGRIERWQVWQPCVDVADAMSAAEAAHIARRLSRWD 6sgy-a1-m1-cA_6sgy-a1-m1-cB Structure of EccB3 dimer from the ESX-3 core complex A0QQ39 A0QQ39 4.6 ELECTRON MICROSCOPY 67 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 402 402 NAILADRSTSALYVRVGEQLHPVLNLTSARLISGSPDNPTMVKTSEIDKFPRGNLLGIPGAPERMVQNAATDAEWTVCDAVGGANPGVTVIAGPLGADGERAAPLPPDHAVLVHSDAEPNPGDWLLWDGKRSPIDLADRAVTDALGLGGQALAPRPIAAGLFNAVPAAPALTAPVIPDAGAAPQFELSLPVPVGAVVVAYDADNTARYYAVLSDGLQPISPVLAAILRNTDSHGFAQPPRLGPDEVARTPMSRGLDTSAYPDNPVTLVEASAHPVTCAHWTKPSDAAESSLSVLSGAVLPLAEGLHTVDLVGAGAGGAANRVALTPGTGYFVQTVGAEPGSPTAGSMFWVSDTGVRYGIDTAEDDKVVAALGLSTSPLPVPWSVLSQFAAGPALSRGDALVA NAILADRSTSALYVRVGEQLHPVLNLTSARLISGSPDNPTMVKTSEIDKFPRGNLLGIPGAPERMVQNAATDAEWTVCDAVGGANPGVTVIAGPLGADGERAAPLPPDHAVLVHSDAEPNPGDWLLWDGKRSPIDLADRAVTDALGLGGQALAPRPIAAGLFNAVPAAPALTAPVIPDAGAAPQFELSLPVPVGAVVVAYDADNTARYYAVLSDGLQPISPVLAAILRNTDSHGFAQPPRLGPDEVARTPMSRGLDTSAYPDNPVTLVEASAHPVTCAHWTKPSDAAESSLSVLSGAVLPLAEGLHTVDLVGAGAGGAANRVALTPGTGYFVQTVGAEPGSPTAGSMFWVSDTGVRYGIDTAEDDKVVAALGLSTSPLPVPWSVLSQFAAGPALSRGDALVA 6si6-a1-m1-cA_6si6-a1-m1-cB N-terminal domain of Drosophila X virus VP3 Q96724 Q96724 1.98 X-RAY DIFFRACTION 107 1.0 654931 (Drosophila x virus (isolate Chung)) 654931 (Drosophila x virus (isolate Chung)) 47 51 6shw-a1-m1-cA_6shw-a1-m2-cA PSSQEKIATIHEYLLEHKELEEAMFSLISQGRGRSLINMVVKSALNI TIPSSQEKIATIHEYLLEHKELEEAMFSLISQGRGRSLINMVVKSALNIET 6sif-a1-m1-cB_6sif-a1-m1-cF Epidermicin antimicrobial protein from Staphylococcus epidermidis H9BG66 H9BG66 1.69 X-RAY DIFFRACTION 20 1.0 1282 (Staphylococcus epidermidis) 1282 (Staphylococcus epidermidis) 51 51 6sif-a1-m1-cE_6sif-a1-m1-cA MAAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLWA MAAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLWA 6sif-a1-m1-cD_6sif-a1-m1-cF Epidermicin antimicrobial protein from Staphylococcus epidermidis H9BG66 H9BG66 1.69 X-RAY DIFFRACTION 11 1.0 1282 (Staphylococcus epidermidis) 1282 (Staphylococcus epidermidis) 50 51 6sif-a1-m1-cB_6sif-a1-m1-cC MAAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLW MAAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLWA 6sif-a1-m1-cE_6sif-a1-m1-cH Epidermicin antimicrobial protein from Staphylococcus epidermidis H9BG66 H9BG66 1.69 X-RAY DIFFRACTION 12 1.0 1282 (Staphylococcus epidermidis) 1282 (Staphylococcus epidermidis) 50 50 6sif-a1-m1-cG_6sif-a1-m1-cA AAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLWA AAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLWA 6sif-a1-m1-cG_6sif-a1-m1-cB Epidermicin antimicrobial protein from Staphylococcus epidermidis H9BG66 H9BG66 1.69 X-RAY DIFFRACTION 12 1.0 1282 (Staphylococcus epidermidis) 1282 (Staphylococcus epidermidis) 47 51 AAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKK MAAFMKLIQFLATKGQKYVSLAWKHKGTILKWINAGQSFEWIYKQIKKLWA 6siz-a1-m1-cA_6siz-a1-m1-cB PaaK family AMP-ligase with ANP and substrate A0A022MRT4 A0A022MRT4 1.77 X-RAY DIFFRACTION 271 1.0 1470557 (Streptomyces sp. Tu 6176) 1470557 (Streptomyces sp. Tu 6176) 433 437 6siw-a1-m1-cA_6siw-a1-m1-cB 6six-a1-m1-cA_6six-a1-m1-cB 6siy-a1-m1-cA_6siy-a1-m1-cB 6tm4-a1-m1-cAAA_6tm4-a1-m1-cBBB 6wuq-a1-m1-cA_6wuq-a1-m1-cB SRPELGDWSSPAELAELQRSQLPRVLAQALRSPFYAARYRGTTPPRTADDFAGVEVTAKQDLRDQYPFGMLAVGREHLATYHESSGTAGEPTASYYTEEDWTDLAERFARKWTGIHPSDTFLVRTPYGLVITGHLAQAAGRLRGATVVPGDARSLATPLSRMVRVLKTLDVTLTWCNPTEITMLAAAAKAAGLRPDQDFPHLRAMFTAAEPLTEVRRRRLSEIWGGIPVVEEYGSTETGTIAGQCPEGRMHLWADRAIFEVYDPRTGTLSEAGRGQMVVTPLYRDAMPLLRYNLADDVEVSTDPCGCGWLLPTVTVLGRAGTGHRIGPATVTQQRLEELVFSLPAAYEVMFWRAKAHPDVLELEFEAPEPVRQRAVKELGAALDRELGVPHRITGLAPGTLVPAEALTAQRDILKARYLFAEDEDWDKAVMYF AMSRSRPELGDWSSPAELAELQRSQLPRVLAQALRSPFYAARYRGTTPPRTADDFAGVEVTAKQDLRDQYPFGMLAVGREHLATYHESSGTAGEPTASYYTEEDWTDLAERFARKWTGIHPSDTFLVRTPYGLVITGHLAQAAGRLRGATVVPGDARSLATPLSRMVRVLKTLDVTLTWCNPTEITMLAAAAKAAGLRPDQDFPHLRAMFTAAEPLTEVRRRRLSEIWGGIPVVEEYGSTETGTIAGQCPEGRMHLWADRAIFEVYDPRTGTLSEAGRGQMVVTPLYRDAMPLLRYNLADDVEVSTDPCGCGWLLPTVTVLGRAGTGHRIGPATVTQQRLEELVFSLPAAYEVMFWRAKAHPDVLELEFEAPEPVRQRAVKELGAALDRELGVPHRITGLAPGTLVPAEALTAQRDILKARYLFAEDEDWDKAVMYF 6sj3-a1-m1-cA_6sj3-a1-m1-cB Amidohydrolase, AHS with 3-HBA A0A022MQ12 A0A022MQ12 1.17 X-RAY DIFFRACTION 259 1.0 1470557 (Streptomyces sp. Tu 6176) 1470557 (Streptomyces sp. Tu 6176) 494 503 6sj0-a1-m1-cA_6sj0-a1-m1-cB 6sj1-a1-m1-cA_6sj1-a1-m1-cB 6sj2-a1-m1-cA_6sj2-a1-m1-cB 6sj4-a1-m1-cA_6sj4-a1-m1-cB MGARLITGGTVYTADAQESVHARGAVLTVDDKVVAVGPAVEVEQAVQALDPAVRAELRRLDASRMMVLPGFVNAHWHEMFAMGFTMRGALRPPSDRADQVAFMGGGGDMHQISATFDRFDGLIEAMTEDEARAIAEYSMWIQLRGGVTTLGDMGSLNRPLAMVEAARRLGMRFSASTWASDAVLAPDRSRFLRTRDADTVLASFEALLGAVAADPTGRIRCRPNVSYVTNMTDELARGMAELVERHDLPFATHVGALRNEADAMRAYHGETGVRRLAEAGLVDERLMAGHSAFLDDQEQKLMLAGRAHISHSPGKYGPSGESALTETGVVPALRRAGLDVSLSTDAAALPGAGIAETMRAAWQMYNEMSADQTEVLPTDALAMATRIAAKGLRWDDAVGSLEPGKQADLLLVRTDDWRYLLNPRPLESFLWLAGSADVDTVIVGGRTLVEGGRGVEVDEAALRDRYLQALRGFTTRALRVPAEAVDPVLAEVAR TENLYFQGAMGARLITGGTVYTADAQESVHARGAVLTVDDKVVAVGPAVEVEQAVQALDPAVRAELRRLDASRMMVLPGFVNAHWHEMFAMGFTMRGALRPPSDRADQVAFMGGGGDMHQISATFDRFDGLIEAMTEDEARAIAEYSMWIQLRGGVTTLGDMGSLNRPLAMVEAARRLGMRFSASTWASDAVLAPDRSRFLRTRDADTVLASFEALLGAVAADPTGRIRCRPNVSYVTNMTDELARGMAELVERHDLPFATHVGALRNEADAMRAYHGETGVRRLAEAGLVDERLMAGHSAFLDDQEQKLMLAGRAHISHSPGKYGPSGESALTETGVVPALRRAGLDVSLSTDAAALPGAGIAETMRAAWQMYNEMSADQTEVLPTDALAMATRIAAKGLRWDDAVGSLEPGKQADLLLVRTDDWRYLLNPRPLESFLWLAGSADVDTVIVGGRTLVEGGRGVEVDEAALRDRYLQALRGFTTRALRVPAEAVDPVLAEVAR 6sj8-a1-m1-cA_6sj8-a1-m1-cB Methyltransferase MtgA from Desulfitobacterium hafniense in complex with tetrahydrofolate B8FUR2 B8FUR2 1.35 X-RAY DIFFRACTION 138 1.0 272564 (Desulfitobacterium hafniense DCB-2) 272564 (Desulfitobacterium hafniense DCB-2) 305 305 6sjk-a1-m1-cA_6sjk-a1-m1-cB 6sjn-a1-m1-cA_6sjn-a1-m1-cB 6sjo-a1-m1-cA_6sjo-a1-m1-cB 6sjp-a1-m1-cA_6sjp-a1-m1-cB 6sjr-a1-m1-cA_6sjr-a1-m1-cB 6sjs-a1-m1-cA_6sjs-a1-m1-cB 6sk4-a1-m1-cB_6sk4-a1-m1-cA 6sk4-a2-m1-cC_6sk4-a2-m1-cD FKFTAQQHVYDINGVKVGGQPGEYPTVLIGSIFYRGHKIVSDGQKGIFDKDAAKALLDQEAELSAETGNPFIIDVLGESVEALTKYVEFILENTTAPFLLDSISPDVRVGALKNLGKDPEIQKRLIYNSIEEHYTEEELAAIKEAGLKTAVILAFSKKALKPNARIDLLQGKDDKEGLIAAAKRAGIEQFLVDPGVLDVASNSWTTEAINVVKEQFGYPGGCAPSNAVYLWKKMRSKGTPFFEVAGAAVFTYPITQGADFILYGPMMNAPWVYRAIATTDAMIAYNNKLTGVKMGTTEHPLLKIF FKFTAQQHVYDINGVKVGGQPGEYPTVLIGSIFYRGHKIVSDGQKGIFDKDAAKALLDQEAELSAETGNPFIIDVLGESVEALTKYVEFILENTTAPFLLDSISPDVRVGALKNLGKDPEIQKRLIYNSIEEHYTEEELAAIKEAGLKTAVILAFSKKALKPNARIDLLQGKDDKEGLIAAAKRAGIEQFLVDPGVLDVASNSWTTEAINVVKEQFGYPGGCAPSNAVYLWKKMRSKGTPFFEVAGAAVFTYPITQGADFILYGPMMNAPWVYRAIATTDAMIAYNNKLTGVKMGTTEHPLLKIF 6sjd-a1-m2-cB_6sjd-a1-m2-cA ZC3H12B-ribonuclease domain bound to RNA Q5HYM0 Q5HYM0 3.29 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 168 178 6sjd-a1-m1-cB_6sjd-a1-m1-cA NSDNLRPVVIDGSNVAMSHGNKEEFSCRGIQLAVDWFLDKGHKDITVFVPAWRKEQSRPDAPITDQDILRKLEKEKILVFTPSRRVQGRRVVCYDDRFIVKLAFDSDGIIVSNDNYRDLQVEKPEWKKFIEERLLMYSFVNDKFMPPDDPLGRHGPSLENFLRKRPIV DNSDNLRPVVIDGSNVAMSHGNKEEFSCRGIQLAVDWFLDKGHKDITVFVPAWRKEQSRPDAPITDQDILRKLEKEKILVFTPSRRVQGRRVVCYDDRFIVKLAFDSDGIIVSNDNYRDLQVEKPEWKKFIEERLLMYSFVNDKFMPPDDPLGRHGPSLENFLRKRPIVPEHKKQPCP 6sjv-a1-m1-cA_6sjv-a1-m2-cA Structure of HPV18 E6 oncoprotein in complex with mutant E6AP LxxLL motif Q05086 Q05086 2.029 X-RAY DIFFRACTION 68 1.0 333761 (human papillomavirus 18) 333761 (human papillomavirus 18) 529 529 KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMARFEDPTRRPYKLPDLCTELNTSLQDIEITCVYCKTVLELTEVFEFARKDLFVVYRDSIPHAACHKCIDFYSRIRELRHYSDSVYGDTLEKLTNTGLYNLLIRCLRCQKPLNPAEKLRHLNEKRRFHNIAGHYRGQCHSCCNAESSELTFQELLGERR KIEEGKLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPAAAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSAVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDAALAAAQTNAAAMARFEDPTRRPYKLPDLCTELNTSLQDIEITCVYCKTVLELTEVFEFARKDLFVVYRDSIPHAACHKCIDFYSRIRELRHYSDSVYGDTLEKLTNTGLYNLLIRCLRCQKPLNPAEKLRHLNEKRRFHNIAGHYRGQCHSCCNAESSELTFQELLGERR 6sk0-a1-m1-cB_6sk0-a1-m1-cC The VgrG spike from the Type 6 secretion system A0A3W2RZ19 A0A3W2RZ19 2.3 ELECTRON MICROSCOPY 770 1.0 562 (Escherichia coli) 562 (Escherichia coli) 264 264 6sjl-a1-m1-cA_6sjl-a1-m1-cB 6sjl-a1-m1-cA_6sjl-a1-m1-cC 6sjl-a1-m1-cB_6sjl-a1-m1-cC 6sk0-a1-m1-cA_6sk0-a1-m1-cB 6sk0-a1-m1-cA_6sk0-a1-m1-cC GTRNVIRTPANNKLRMEDKRGEEHIKLSTEYGGKTQLNLGHNVDASRELRGEGAELRTDDWISIRGGKGIFISADMQPQAQGKMLDMDEAIRQLEQALSLARSMAKAATAANATQGDISCQQRLNASLTDLTAPGMLLHAPDGIGMVSARALRIASGSESVGIMSGDNTDITAGQSFTVVAEGAVSLLSRNQGMQLLAAKGRVNIQAQSDDLSMSSQQNLDIQSSEGKVTVSANQELILACGGAYIKLSGGNIELGCPGQILLK GTRNVIRTPANNKLRMEDKRGEEHIKLSTEYGGKTQLNLGHNVDASRELRGEGAELRTDDWISIRGGKGIFISADMQPQAQGKMLDMDEAIRQLEQALSLARSMAKAATAANATQGDISCQQRLNASLTDLTAPGMLLHAPDGIGMVSARALRIASGSESVGIMSGDNTDITAGQSFTVVAEGAVSLLSRNQGMQLLAAKGRVNIQAQSDDLSMSSQQNLDIQSSEGKVTVSANQELILACGGAYIKLSGGNIELGCPGQILLK 6sl0-a1-m1-cA_6sl0-a1-m1-cB Complete CtTel1 dimer with C2 symmetry G0S4S9 G0S4S9 3.7 ELECTRON MICROSCOPY 193 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 2638 2638 6sky-a1-m1-cA_6sky-a1-m1-cB FKEIESHLVSATARKDAVEALIAYFAYHRLFEALFRCTLIEKEAYAAAAARLERCPEALRLAVRHGVTTIRRKTARAIIDHIVQVLPPLLAGYVKVLYEFLDNPASAENIAALSGEGWEVCVDFCIDVLSRFGTHVAVDVLSCLYMLCIAHNAPIQRKADRLPHVVIQLLQLRQMKIGELQKMAFATFNIVFQRMQAEDVALCKTLVKQVVPLLSHWWQPMLNSIRDEMLKTLYGTRLYIQALLREESFPQDVEELLDTLWCDYSRREERARLQLDDITFTNMLLPPDHPRTGIFSLRPHHTAGEQNWALLENLAILEAAYSKHNRVHQKLHSLDPAVRLSALQLIPFLTRHKKPSLEDVAETLEDLSKHVTAKQAIVASWAMLACSSLAIHEVSRHPSLSSSWKQLWQLAVRSLSLPPISRASCVLLNSILKANLIPRHELADDINQIVTTADISGPAILVDASLGLMLNLLRFRNNMFPNASQATSNHIIRWVFVRWSPAELTYASLHGTHATPYDLVNLLRACYGISPLVMAQPLRLFNGPIVLHWKEQAEMEPFIRYLLLLAGSNASRRLALELFYPKVEELQELAESWQVSMERLRSMVLACLTGALLLPDLVNINSSLSRDLESAVFSIVDATLKVILNSPPSENLFGMILASSAPYIPHLIEPELIALKRERPHLLKFFGKLSEALYERSRRETLPRRDILLSYTPEAFYLETSLRIHFLDIIRLNDGEIGRIPEPIINQLAGLSGEQFLCCREFMREIFTSDAIVPLGGATTILETAGHIVSRYEYACCEVALCNCIDIMDSFINLWTDNHFDIAEMAGDLYHYLVKQSLPNNSMSAAAQIRLASLLLHLLEVKSEYASNLGLPSSQSTLLKILQDGPMKLKHYIGLEIPKLFGLYVLKTHDDIFVDVLEHLPSDPDVVEGLAFRLFVLAELACRWPTLLRRSIYHTFEIPTHSALYAASCIKRIAQTLKLSGPQELFKLFAPQLLYTWLDNDSIQDIAYEIFGFSSLLDLLREAQTEAAAIMMMRGQEQEVCQLAQSLGLTPEKLVQQSFTKIIAYSIAHDGESRMRKILGKEEYLANIHLNFADIISTFFDIFDQEDPIEKAFFAYAAETLEEIKKLGPMFRAKYLPREIVHLCSRTQYEPENIWTPALVVFVARKLLKTIHPALGPLHACSVLRKIRVLICLAGDHAISGYPLEMLLHSLRVFVVDPECADDALGITQYLIKRGDEYLKRTPSFLAGYALSSLADLRVFLESSQSSTTQESQFKATKSKAQEFHAWFSKYLAAYDSPEFKDEGQKQAFRSITENAAHIRASGNAEKGTHESNLLLEILKDWGRENQLLNEPARDVALSMLCGVFNIPPSSRLDVIETDEDAIKNGAVVWKSCSSQRLGGEYLAWAGRVLGRSFAASGEVPEDLLRESQLQEYRRLSQGVGSSEEGLLNLIKSLTISGDCFTAGLAEAALRTIVSDAISDNDHDLLSACQESLPEPLLIASNWDPYRTPLSDQFKVEVFSARALENPNWSQHLAIRLALSAPKIVTLRVLPPILSKVKGFAERAFPFVVHLVLAYQLDKQQSAKRELSESLQEWLNFTSEPAKENLKLLINTILYLRTQPLPGESSIADRAHWLDVNMASAAAAATRCGMYKVALLFAELAAESTRSDILLEIFENIDDPDAYYGLSQDASLSTVLARLEYENDGAKSLAFRGAQYDSHLRGRDLQSRQDCNALIKALSSLGLAGLSNSLLQSQQSIDGSSDSLDATFTTARKLEIWNLPAPVNSDSWAVTVYKAYQSMYQAQELDTVRSMVHDGLKNTVRHLSSGSLNTSVLRQQLGALAALTELDDILNVRDQSELQCTLATFEKRSKWMMSGRYADVSQILSCRETTLSMWSQRHNLRAAGLTSADARLVQIRGMLLSSDIFRFHRARQETLNLSTALSDLIPSCESLGLSVDAAIKMEAANALWDHGEMISSIRMLQAIDKDSSLKKQSVPLSRSDLLSKIGYQVSVARLESPDAIQKKYLEPALKELKGKIEGREAGQVFHQFAVFCDEQLQNPDSLEDLARLQNLKKGKDEEVAQLKHLAKAKQWQELDQQELRRVEQTRSEFLKLCIENYLLSLAASDEHDNDALRFMALWLEKSEEEVANEVVKKWINKVPTRKFALLMNQLSSRLQDHNTLFQKLLIDLVYRICVDHPYHGMYHIWTGARVAVSRQRATDKIAKALSKNNKVSSIWPAIDQTSRVYHALAMDRDPTRYKSGQKVPIKNSPVGQNFLSTMSNNPIPPPTLQIEVSANLDYSHVPMIHKFAPEMAIASGVSAPKILTAIGTDGRKYKQLVKGGNDDLRQDAIMEQVFAAVSELLKLHRETRQRNLGIRTYKVLPLTSSSGLIEFVSNTIPLHEYLMPAHERYYPKDLKGSQCRKEIANAQTKNTETRIAVYRRVTERFHPVMRYFFMEYFPDPDEWFQKRTNYTRTTAAISMLGHVLGLGDRHGHNILLDHKTGEVVHIDLGVAFEMGRVLPVPELVPFRLTRDIVDGMGITKTEGVFRRCCEFTLDALREEAASIQTILDSLRHDTLYQWSISPVRMAKLQNSEADRAIEVVKKKLSKTLSVMATVNDLINQATSVSNLAVLYSGWAAYA FKEIESHLVSATARKDAVEALIAYFAYHRLFEALFRCTLIEKEAYAAAAARLERCPEALRLAVRHGVTTIRRKTARAIIDHIVQVLPPLLAGYVKVLYEFLDNPASAENIAALSGEGWEVCVDFCIDVLSRFGTHVAVDVLSCLYMLCIAHNAPIQRKADRLPHVVIQLLQLRQMKIGELQKMAFATFNIVFQRMQAEDVALCKTLVKQVVPLLSHWWQPMLNSIRDEMLKTLYGTRLYIQALLREESFPQDVEELLDTLWCDYSRREERARLQLDDITFTNMLLPPDHPRTGIFSLRPHHTAGEQNWALLENLAILEAAYSKHNRVHQKLHSLDPAVRLSALQLIPFLTRHKKPSLEDVAETLEDLSKHVTAKQAIVASWAMLACSSLAIHEVSRHPSLSSSWKQLWQLAVRSLSLPPISRASCVLLNSILKANLIPRHELADDINQIVTTADISGPAILVDASLGLMLNLLRFRNNMFPNASQATSNHIIRWVFVRWSPAELTYASLHGTHATPYDLVNLLRACYGISPLVMAQPLRLFNGPIVLHWKEQAEMEPFIRYLLLLAGSNASRRLALELFYPKVEELQELAESWQVSMERLRSMVLACLTGALLLPDLVNINSSLSRDLESAVFSIVDATLKVILNSPPSENLFGMILASSAPYIPHLIEPELIALKRERPHLLKFFGKLSEALYERSRRETLPRRDILLSYTPEAFYLETSLRIHFLDIIRLNDGEIGRIPEPIINQLAGLSGEQFLCCREFMREIFTSDAIVPLGGATTILETAGHIVSRYEYACCEVALCNCIDIMDSFINLWTDNHFDIAEMAGDLYHYLVKQSLPNNSMSAAAQIRLASLLLHLLEVKSEYASNLGLPSSQSTLLKILQDGPMKLKHYIGLEIPKLFGLYVLKTHDDIFVDVLEHLPSDPDVVEGLAFRLFVLAELACRWPTLLRRSIYHTFEIPTHSALYAASCIKRIAQTLKLSGPQELFKLFAPQLLYTWLDNDSIQDIAYEIFGFSSLLDLLREAQTEAAAIMMMRGQEQEVCQLAQSLGLTPEKLVQQSFTKIIAYSIAHDGESRMRKILGKEEYLANIHLNFADIISTFFDIFDQEDPIEKAFFAYAAETLEEIKKLGPMFRAKYLPREIVHLCSRTQYEPENIWTPALVVFVARKLLKTIHPALGPLHACSVLRKIRVLICLAGDHAISGYPLEMLLHSLRVFVVDPECADDALGITQYLIKRGDEYLKRTPSFLAGYALSSLADLRVFLESSQSSTTQESQFKATKSKAQEFHAWFSKYLAAYDSPEFKDEGQKQAFRSITENAAHIRASGNAEKGTHESNLLLEILKDWGRENQLLNEPARDVALSMLCGVFNIPPSSRLDVIETDEDAIKNGAVVWKSCSSQRLGGEYLAWAGRVLGRSFAASGEVPEDLLRESQLQEYRRLSQGVGSSEEGLLNLIKSLTISGDCFTAGLAEAALRTIVSDAISDNDHDLLSACQESLPEPLLIASNWDPYRTPLSDQFKVEVFSARALENPNWSQHLAIRLALSAPKIVTLRVLPPILSKVKGFAERAFPFVVHLVLAYQLDKQQSAKRELSESLQEWLNFTSEPAKENLKLLINTILYLRTQPLPGESSIADRAHWLDVNMASAAAAATRCGMYKVALLFAELAAESTRSDILLEIFENIDDPDAYYGLSQDASLSTVLARLEYENDGAKSLAFRGAQYDSHLRGRDLQSRQDCNALIKALSSLGLAGLSNSLLQSQQSIDGSSDSLDATFTTARKLEIWNLPAPVNSDSWAVTVYKAYQSMYQAQELDTVRSMVHDGLKNTVRHLSSGSLNTSVLRQQLGALAALTELDDILNVRDQSELQCTLATFEKRSKWMMSGRYADVSQILSCRETTLSMWSQRHNLRAAGLTSADARLVQIRGMLLSSDIFRFHRARQETLNLSTALSDLIPSCESLGLSVDAAIKMEAANALWDHGEMISSIRMLQAIDKDSSLKKQSVPLSRSDLLSKIGYQVSVARLESPDAIQKKYLEPALKELKGKIEGREAGQVFHQFAVFCDEQLQNPDSLEDLARLQNLKKGKDEEVAQLKHLAKAKQWQELDQQELRRVEQTRSEFLKLCIENYLLSLAASDEHDNDALRFMALWLEKSEEEVANEVVKKWINKVPTRKFALLMNQLSSRLQDHNTLFQKLLIDLVYRICVDHPYHGMYHIWTGARVAVSRQRATDKIAKALSKNNKVSSIWPAIDQTSRVYHALAMDRDPTRYKSGQKVPIKNSPVGQNFLSTMSNNPIPPPTLQIEVSANLDYSHVPMIHKFAPEMAIASGVSAPKILTAIGTDGRKYKQLVKGGNDDLRQDAIMEQVFAAVSELLKLHRETRQRNLGIRTYKVLPLTSSSGLIEFVSNTIPLHEYLMPAHERYYPKDLKGSQCRKEIANAQTKNTETRIAVYRRVTERFHPVMRYFFMEYFPDPDEWFQKRTNYTRTTAAISMLGHVLGLGDRHGHNILLDHKTGEVVHIDLGVAFEMGRVLPVPELVPFRLTRDIVDGMGITKTEGVFRRCCEFTLDALREEAASIQTILDSLRHDTLYQWSISPVRMAKLQNSEADRAIEVVKKKLSKTLSVMATVNDLINQATSVSNLAVLYSGWAAYA 6sl2-a1-m1-cA_6sl2-a1-m2-cA ALPHA-ACTININ FROM ENTAMOEBA HISTOLYTICA C4LWU6 C4LWU6 3.1 X-RAY DIFFRACTION 193 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 606 606 AMADSELVAQWEKVQIKTFTKWVNMHLAKKGRKINDVTTDFKNGVELCALLEIIGETTIKCVTNPKMRIQMTENLDKALRFIQSRDVKLTGIGPTDIVDGNVLTLGLVWTLILRFAISELSAEGLSAKQGLLLWCQKKCEPYPVKVENFSESFKDGKVFCALIHRHRPDLLDWETVGEDDRANLEKAFDVAEKELGIPKLLDVDDIVNMPRPDERSVMTYVAALYKVFSSNDQVEKAGKRAGNFLDLLRATEGMVHDYEQRAQALENIEAAINKMNGVEPSDEYHQVKEQINETKNYRKGDRAFIKEQGDLATLFGQINSLRGMKRPVYVAPEGLDPKSLEGYIANISEAERALRSKLNTAMRNCLIALRKAFADPANATDAKINEYRTFVTDETSEAPLEEQVATLAKLEELQVEAQLPPIEEAEKACGDANIEDNEYTDVSFDDLQFNYEQTVSMFEKIVYIEAQINEASSGVTAEQMQEFKQSFDAFDGNHDGILDLEFRSCLSSMGLIDIDFTGGEDAQYDAIYNNVTGENGVSFDNYVQYMENDENPSPEQLNEIFSTIAAGKDSITETDMQKAGMSAEQIEYVANLPQGDGYDYAAWVKT AMADSELVAQWEKVQIKTFTKWVNMHLAKKGRKINDVTTDFKNGVELCALLEIIGETTIKCVTNPKMRIQMTENLDKALRFIQSRDVKLTGIGPTDIVDGNVLTLGLVWTLILRFAISELSAEGLSAKQGLLLWCQKKCEPYPVKVENFSESFKDGKVFCALIHRHRPDLLDWETVGEDDRANLEKAFDVAEKELGIPKLLDVDDIVNMPRPDERSVMTYVAALYKVFSSNDQVEKAGKRAGNFLDLLRATEGMVHDYEQRAQALENIEAAINKMNGVEPSDEYHQVKEQINETKNYRKGDRAFIKEQGDLATLFGQINSLRGMKRPVYVAPEGLDPKSLEGYIANISEAERALRSKLNTAMRNCLIALRKAFADPANATDAKINEYRTFVTDETSEAPLEEQVATLAKLEELQVEAQLPPIEEAEKACGDANIEDNEYTDVSFDDLQFNYEQTVSMFEKIVYIEAQINEASSGVTAEQMQEFKQSFDAFDGNHDGILDLEFRSCLSSMGLIDIDFTGGEDAQYDAIYNNVTGENGVSFDNYVQYMENDENPSPEQLNEIFSTIAAGKDSITETDMQKAGMSAEQIEYVANLPQGDGYDYAAWVKT 6sl3-a1-m1-cA_6sl3-a1-m2-cA ALPHA-ACTININ FROM ENTAMOEBA HISTOLYTICA in orthorhombic space group C4LWU6 C4LWU6 3.1 X-RAY DIFFRACTION 227 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 618 618 6sl7-a1-m1-cA_6sl7-a1-m2-cA MADSELVAQWEKVQIKTFTKWVNMHLAKKGRKINDVTTDFKNGVELCALLEIIGETTIKCVTNPKMRIQMTENLDKALRFIQSRDVKLTGIGPTDIVDGNVKLTLGLVWTLILRFAISELSAEGLSAKQGLLLWCQKKCEPYPVKVENFSESFKDGKVFCALIHRHRPDLLDWETVGEDDRANLEKAFDVAEKELGIPKLLDVDDIVNMPRPDERSVMTYVAALYKVFSSNDQVEKAGKRAGNFLDLLRATEGMVHDYEQRAQALKENIEAAINKMNGVEPSDEYHQVKEQINETKNYRKGDKRAFIKEQGDLATLFGQINSKLRGMKRPVYVAPEGLDPKSLEGYIANISEAERALRSKLNTAMRNCLIALRKAFADPANATDAKINEYRTFVTDETSEAPLEEQVATLKAKLEELKQVEAQLPPIEEAEKACGDANIEDNEYTDVSFDDLQFNYEQTVSMFEKKIVYIEAQINEASSGVTAEQMQEFKQSFDAFDGNHDGILDKLEFRSCLSSMGLIDIDFTGGEDAQYDAIYNNVTKGENGVSFDNYVQYMKEKNDENPSPEQLNEIFSTIAAGKDSITETDMQKAGMSAEQIEYVKANLPQKGDGYDYAAWVKT MADSELVAQWEKVQIKTFTKWVNMHLAKKGRKINDVTTDFKNGVELCALLEIIGETTIKCVTNPKMRIQMTENLDKALRFIQSRDVKLTGIGPTDIVDGNVKLTLGLVWTLILRFAISELSAEGLSAKQGLLLWCQKKCEPYPVKVENFSESFKDGKVFCALIHRHRPDLLDWETVGEDDRANLEKAFDVAEKELGIPKLLDVDDIVNMPRPDERSVMTYVAALYKVFSSNDQVEKAGKRAGNFLDLLRATEGMVHDYEQRAQALKENIEAAINKMNGVEPSDEYHQVKEQINETKNYRKGDKRAFIKEQGDLATLFGQINSKLRGMKRPVYVAPEGLDPKSLEGYIANISEAERALRSKLNTAMRNCLIALRKAFADPANATDAKINEYRTFVTDETSEAPLEEQVATLKAKLEELKQVEAQLPPIEEAEKACGDANIEDNEYTDVSFDDLQFNYEQTVSMFEKKIVYIEAQINEASSGVTAEQMQEFKQSFDAFDGNHDGILDKLEFRSCLSSMGLIDIDFTGGEDAQYDAIYNNVTKGENGVSFDNYVQYMKEKNDENPSPEQLNEIFSTIAAGKDSITETDMQKAGMSAEQIEYVKANLPQKGDGYDYAAWVKT 6sl4-a2-m1-cC_6sl4-a2-m2-cC The unique CBM-Cthe_0271 of Ruminiclostridium thermocellum A3DC31 A3DC31 1.8 X-RAY DIFFRACTION 31 1.0 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 149 149 6sl4-a1-m1-cA_6sl4-a1-m1-cB IITVQYKNGDSTSSVTAIYPIFKITNNGDTSVKLSDIIIRYYYTKEGNENETFWCNEFTRDGSQVYGTFVKMSKPKENADHYLEIGFYDKAGSLKPGESVELKVGFAKNGWTKYNQFNDYSYNRVNNRFINWDHITVYLSGKLVYGKEP IITVQYKNGDSTSSVTAIYPIFKITNNGDTSVKLSDIIIRYYYTKEGNENETFWCNEFTRDGSQVYGTFVKMSKPKENADHYLEIGFYDKAGSLKPGESVELKVGFAKNGWTKYNQFNDYSYNRVNNRFINWDHITVYLSGKLVYGKEP 6slc-a1-m1-cAAA_6slc-a1-m1-cBBB Mutations in SsgB correlate to longitudinal cell division during sporulation of Streptomyces coelicolor 2.3 X-RAY DIFFRACTION 42 1.0 1938856 (Streptomyces sp. Ag82_O1-9) 1938856 (Streptomyces sp. Ag82_O1-9) 127 127 6slc-a1-m1-cCCC_6slc-a1-m1-cAAA 6slc-a1-m1-cCCC_6slc-a1-m1-cBBB GSHMNTTVSCELHLRLVVSSESSLPVPAGLRYDTADPYAVHATFHTGAEETVEWVFARDLLAEGLHRPTGTGDVRVWPSRSHGQGVVCIALSSPEGEALLEAPARALESFLKRTDAAVPPGTEHRHF GSHMNTTVSCELHLRLVVSSESSLPVPAGLRYDTADPYAVHATFHTGAEETVEWVFARDLLAEGLHRPTGTGDVRVWPSRSHGQGVVCIALSSPEGEALLEAPARALESFLKRTDAAVPPGTEHRHF 6sle-a4-m1-cG_6sle-a4-m1-cF Structure of Reductive Aminase from Neosartorya fumigata in complex with NADP+ Q4WDZ8 Q4WDZ8 2.77 X-RAY DIFFRACTION 313 0.996 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 279 280 6skx-a1-m1-cA_6skx-a1-m2-cA 6sle-a1-m1-cB_6sle-a1-m1-cA 6sle-a2-m1-cC_6sle-a2-m1-cH 6sle-a3-m1-cE_6sle-a3-m1-cD MSSVSIFGLGAMGTALASRFLEEKYKVAVWNRSPEKASSLLGKGATLSHTAVDGINASDLIIICLLDNAAVEATLAGALDHLHGKTIINLTNGTPDQARKLSDRFVSHGARHGGIMATPSMIGSPYALVLYSGSPDAFKAAEGDLSVLAKCVFLGEDAGTASLHDLALLSGMYGLFSGFLHATALVRSSTPAVKFMDLLVPWLGAMTEYTKGMAKQIDEGKYTSSNLAMQLVGIQNIIDASEAQQVSAEFIRPMKEFMQKAVAAGHGGDDISSLIDFVK SSVSIFGLGAMGTALASRFLEEKYKVAVWNRSPEKASSLLGKGATLSHTAVDGINASDLIIICLLDNAAVEATLAGALDHLHGKTIINLTNGTPDQARKLSDRFVSHGARYVHGGIMATPSMIGSPYALVLYSGSPDAFKAAEGDLSVLAKCVFLGEDAGTASLHDLALLSGMYGLFSGFLHATALVRSSTPAVKFMDLLVPWLGAMTEYTKGMAKQIDEGKYTSSNLAMQLVGIQNIIDASEAQQVSAEFIRPMKEFMQKAVAAGHGGDDISSLIDFVK 6slf-a1-m1-cD_6slf-a1-m1-cA Nalpha-acylglutamine aminoacylase from Corynebacterium sp.releasing human axilla odorants co-crystallised with high affinity inhibitor Q8GGD4 Q8GGD4 1.75 X-RAY DIFFRACTION 43 1.0 43770 (Corynebacterium striatum) 43770 (Corynebacterium striatum) 395 398 6slf-a1-m1-cB_6slf-a1-m1-cC NLQKIVDSLESSRAEREELYKWFHQHPEMSMQEHETSKRIAEELEKLGLEPQNIGVTGQVAVIKNGEGPSVAFRADFDALPITENTGLDYSADPELGMMHACGHDLHTTALLGAVRALVENKDLWSGTFIAVHQPGEEGGGGARHMVDDGLAEKIAAPDVCFAQHVFNEDPAFGYVFTPGRFLTAASNWRIHIHGEGGHGSRPHLTKDPIVVAASIITKLQTIVSREVDPNEVAVVTVGSIEGGKSTNSIPYTVTLGVNTRASNDELSEYVQNAIKRIVIAECQAAGIEQEPEFEYLDSVPAVINDEDLTEQLMAQFREFFGEDQAVEIPPLSGSEDYPFIPNAWGVPSVMWGWSGFAAGSDAPGNHTDKFAPELPDALERGTQAILVAAAPWLM AQENLQKIVDSLESSRAEREELYKWFHQHPEMSMQEHETSKRIAEELEKLGLEPQNIGVTGQVAVIKNGEGPSVAFRADFDALPITENTGLDYSADPELGMMHACGHDLHTTALLGAVRALVENKDLWSGTFIAVHQPGEEGGGGARHMVDDGLAEKIAAPDVCFAQHVFNEDPAFGYVFTPGRFLTAASNWRIHIHGEGGHGSRPHLTKDPIVVAASIITKLQTIVSREVDPNEVAVVTVGSIEGGKSTNSIPYTVTLGVNTRASNDELSEYVQNAIKRIVIAECQAAGIEQEPEFEYLDSVPAVINDEDLTEQLMAQFREFFGEDQAVEIPPLSGSEDYPFIPNAWGVPSVMWGWSGFAAGSDAPGNHTDKFAPELPDALERGTQAILVAAAPWLM 6slf-a1-m1-cD_6slf-a1-m1-cB Nalpha-acylglutamine aminoacylase from Corynebacterium sp.releasing human axilla odorants co-crystallised with high affinity inhibitor Q8GGD4 Q8GGD4 1.75 X-RAY DIFFRACTION 58 1.0 43770 (Corynebacterium striatum) 43770 (Corynebacterium striatum) 395 396 6slf-a1-m1-cC_6slf-a1-m1-cA NLQKIVDSLESSRAEREELYKWFHQHPEMSMQEHETSKRIAEELEKLGLEPQNIGVTGQVAVIKNGEGPSVAFRADFDALPITENTGLDYSADPELGMMHACGHDLHTTALLGAVRALVENKDLWSGTFIAVHQPGEEGGGGARHMVDDGLAEKIAAPDVCFAQHVFNEDPAFGYVFTPGRFLTAASNWRIHIHGEGGHGSRPHLTKDPIVVAASIITKLQTIVSREVDPNEVAVVTVGSIEGGKSTNSIPYTVTLGVNTRASNDELSEYVQNAIKRIVIAECQAAGIEQEPEFEYLDSVPAVINDEDLTEQLMAQFREFFGEDQAVEIPPLSGSEDYPFIPNAWGVPSVMWGWSGFAAGSDAPGNHTDKFAPELPDALERGTQAILVAAAPWLM ENLQKIVDSLESSRAEREELYKWFHQHPEMSMQEHETSKRIAEELEKLGLEPQNIGVTGQVAVIKNGEGPSVAFRADFDALPITENTGLDYSADPELGMMHACGHDLHTTALLGAVRALVENKDLWSGTFIAVHQPGEEGGGGARHMVDDGLAEKIAAPDVCFAQHVFNEDPAFGYVFTPGRFLTAASNWRIHIHGEGGHGSRPHLTKDPIVVAASIITKLQTIVSREVDPNEVAVVTVGSIEGGKSTNSIPYTVTLGVNTRASNDELSEYVQNAIKRIVIAECQAAGIEQEPEFEYLDSVPAVINDEDLTEQLMAQFREFFGEDQAVEIPPLSGSEDYPFIPNAWGVPSVMWGWSGFAAGSDAPGNHTDKFAPELPDALERGTQAILVAAAPWLM 6slf-a1-m1-cD_6slf-a1-m1-cC Nalpha-acylglutamine aminoacylase from Corynebacterium sp.releasing human axilla odorants co-crystallised with high affinity inhibitor Q8GGD4 Q8GGD4 1.75 X-RAY DIFFRACTION 200 1.0 43770 (Corynebacterium striatum) 43770 (Corynebacterium striatum) 395 396 6slf-a1-m1-cB_6slf-a1-m1-cA NLQKIVDSLESSRAEREELYKWFHQHPEMSMQEHETSKRIAEELEKLGLEPQNIGVTGQVAVIKNGEGPSVAFRADFDALPITENTGLDYSADPELGMMHACGHDLHTTALLGAVRALVENKDLWSGTFIAVHQPGEEGGGGARHMVDDGLAEKIAAPDVCFAQHVFNEDPAFGYVFTPGRFLTAASNWRIHIHGEGGHGSRPHLTKDPIVVAASIITKLQTIVSREVDPNEVAVVTVGSIEGGKSTNSIPYTVTLGVNTRASNDELSEYVQNAIKRIVIAECQAAGIEQEPEFEYLDSVPAVINDEDLTEQLMAQFREFFGEDQAVEIPPLSGSEDYPFIPNAWGVPSVMWGWSGFAAGSDAPGNHTDKFAPELPDALERGTQAILVAAAPWLM NLQKIVDSLESSRAEREELYKWFHQHPEMSMQEHETSKRIAEELEKLGLEPQNIGVTGQVAVIKNGEGPSVAFRADFDALPITENTGLDYSADPELGMMHACGHDLHTTALLGAVRALVENKDLWSGTFIAVHQPGEEGGGGARHMVDDGLAEKIAAPDVCFAQHVFNEDPAFGYVFTPGRFLTAASNWRIHIHGEGGHGSRPHLTKDPIVVAASIITKLQTIVSREVDPNEVAVVTVGSIEGGKSTNSIPYTVTLGVNTRASNDELSEYVQNAIKRIVIAECQAAGIEQEPEFEYLDSVPAVINDEDLTEQLMAQFREFFGEDQAVEIPPLSGSEDYPFIPNAWGVPSVMWGWSGFAAGSDAPGNHTDKFAPELPDALERGTQAILVAAAPWLMK 6slj-a1-m1-cA_6slj-a1-m1-cB Structure of the RagAB peptide transporter Q7MXJ7 Q7MXJ7 3.04 X-RAY DIFFRACTION 216 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 898 900 6sli-a1-m1-cB_6sli-a1-m2-cB 6sli-a2-m1-cD_6sli-a2-m3-cD 6sli-a3-m1-cG_6sli-a3-m1-cJ 6sln-a1-m1-cB_6sln-a1-m1-cA 6sm3-a1-m1-cB_6sm3-a1-m2-cB 6sml-a1-m1-cB_6sml-a1-m2-cB 6smq-a1-m1-cB_6smq-a1-m1-cE LSTVSGSVAKVSSEKLAEKPVANIMDALQGQVAGMQVMTTSGDPTAVASVEIHGTGSLGASSAPLYIVDGMQTSLDVVATMNPNDFESMSVLKDASATSIYGARAANGVVFIQTKKGKMSERGRITFNASYGISQILNTKPLDNMMTGDELLDFQVKAGFWGNNQTVQKVKDMILAGAEDLYGNYDSLKDEYGKTLFPVDFNHDADWLKALFKTAPTSQGDISFSGGSQGTSYYASIGYFDQEGMAREPANFKRYSGRLNFESRINEWLKVGANLSGAIANRRSADYFGKYYMGSGTFGVLTMPRYYNPFDVNGDLADVYYMYGATRPSMTEPYFAKMRPFSSESHQANVNGFAQITPIKGLTLKAQAGVDITNTRTSSKRMPNNPYDSTPLGERRERAYRDVSKSFTNTAEYKFSIDEKHDLTALMGHEYIEYEGDVIGASSKGFESDKLMLLSQGKTGNSLSLPEHRVAEYAYLSFFSRFNYGFDKWMYIDFSVRNDQSSRFGSNNRSAWFYSVGGMFDIYNKFIQESNWLSDLRLKMSYGTTGNSEIGNYNHQALVTVNNYTEDAMGLSISTAGNPDLSWEKQSQFNFGLAAGAFNNRLSAEVDFYVRTTNDMLIDVPMPYISGFFSQYQNVGSMKNTGVDLSLKGTIYQNKDWNVYASANFNYNRQEITKLFFGLNKYMLPNTGTIWEIGYPNSFYMAEYAGIDKKTGKQLWYVPGQVKVTTSQYSADLETRIDKSVTPPITGGFSLGASWKGLSLDADFAYIVGKWMINNDRYFTENGGGLMQLNKDKMLLNAWTEDNKETDVPKLGQSPQFDTHLLENASFLRLKNLKLTYVLPNSLFAGQNVIGGARVYLMARNLLTVTKYKGFDPEAGGNVGKNQYPNSKQYVAGIQLSF LSTVSGSVAKVSSEKLAEKPVANIMDALQGQVAGMQVMTTSGDPTAVASVEIHGTGSLGASSAPLYIVDGMQTSLDVVATMNPNDFESMSVLKDASATSIYGARAANGVVFIQTKKGKMSERGRITFNASYGISQILNTKPLDNMMTGDELLDFQVKAGFWGNNQTVQKVKDMILAGAEDLYGNYDSLKDEYGKTLFPVDFNHDADWLKALFKTAPTSQGDISFSGGSQGTSYYASIGYFDQEGMAREPANFKRYSGRLNFESRINEWLKVGANLSGAIANRRSADYFGKYYMGSGTFGVLTMPRYYNPFDVNGDLADVYYMYGATRPSMTEPYFAKMRPFSSESHQANVNGFAQITPIKGLTLKAQAGVDITNTRTSSKRMPNNPYDSTPLGERRERAYRDVSKSFTNTAEYKFSIDEKHDLTALMGHEYIEYEGDVIGASSKGFESDKLMLLSQGKTGNSLSLPEHRVAEYAYLSFFSRFNYGFDKWMYIDFSVRNDQSSRFGSNNRSAWFYSVGGMFDIYNKFIQESNWLSDLRLKMSYGTTGNSEIGNYNHQALVTVNNYTEDAMGLSISTAGNPDLSWEKQSQFNFGLAAGAFNNRLSAEVDFYVRTTNDMLIDVPMPYISGFFSQYQNVGSMKNTGVDLSLKGTIYQNKDWNVYASANFNYNRQEITKLFFGLNKYMLPNTGTIWEIGYPNSFYMAEYAGIDKKTGKQLWYVPGQVDAKVTTSQYSADLETRIDKSVTPPITGGFSLGASWKGLSLDADFAYIVGKWMINNDRYFTENGGGLMQLNKDKMLLNAWTEDNKETDVPKLGQSPQFDTHLLENASFLRLKNLKLTYVLPNSLFAGQNVIGGARVYLMARNLLTVTKYKGFDPEAGGNVGKNQYPNSKQYVAGIQLSF 6slk-a1-m1-cA_6slk-a1-m3-cA Diaminobutyrate acetyltransferase EctA from Paenibacillus lautus D3EKC1 D3EKC1 2.2 X-RAY DIFFRACTION 80 1.0 481743 (Paenibacillus sp. Y412MC10) 481743 (Paenibacillus sp. Y412MC10) 162 162 6sjy-a1-m1-cA_6sjy-a1-m3-cA 6sjy-a2-m2-cC_6sjy-a2-m1-cB 6sk1-a1-m1-cA_6sk1-a1-m2-cA 6sl8-a1-m1-cA_6sl8-a1-m2-cA 6slk-a2-m1-cC_6slk-a2-m2-cB 6sll-a1-m1-cA_6sll-a1-m1-cB TEVVYRRPEARDGTRVWELIRDTGSLDLNSPYCYMLLGDYFNDTCMIAEHEGDIVGFISAFRSPRNPETLFVWQVAVASSHRRQGIAKAMLTGLMNQKACHGVRFIETTVSPSNMASRRLFLGYAEEKSIPSTVTVGYGAEMFPDGTTHEDEPLFVIGPFFN TEVVYRRPEARDGTRVWELIRDTGSLDLNSPYCYMLLGDYFNDTCMIAEHEGDIVGFISAFRSPRNPETLFVWQVAVASSHRRQGIAKAMLTGLMNQKACHGVRFIETTVSPSNMASRRLFLGYAEEKSIPSTVTVGYGAEMFPDGTTHEDEPLFVIGPFFN 6slr-a2-m1-cB_6slr-a2-m2-cB Structure of saposin B in complex with atovaquone P07602 P07602 2.38 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 81 81 1n69-a1-m1-cA_1n69-a1-m1-cB 1n69-a2-m1-cC_1n69-a2-m2-cC 4v2o-a1-m1-cA_4v2o-a1-m1-cC 4v2o-a2-m1-cB_4v2o-a2-m2-cB 6slr-a1-m1-cA_6slr-a1-m1-cC GASGDVCQDCIQMVTDIQTAVRTNSTFVQALVEHVKEECDRLGPGMADICKNYISQYSEIAIQMMMHMQPKEICALVGFCD GASGDVCQDCIQMVTDIQTAVRTNSTFVQALVEHVKEECDRLGPGMADICKNYISQYSEIAIQMMMHMQPKEICALVGFCD 6sm2-a1-m1-cA_6sm2-a1-m1-cB Mutant immunoglobulin light chain causing amyloidosis (Pat-1) 2.5 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 ALTQPASVSGSLGQSITISCTGSSNDFGDYNYVSWYQQHPGKAPKLMIYDVDNRPSGVSNRFSGSKSGNTASLTISGVLAEDEADYFCSSYTSSSTLYVFGSGTKVTVL ALTQPASVSGSLGQSITISCTGSSNDFGDYNYVSWYQQHPGKAPKLMIYDVDNRPSGVSNRFSGSKSGNTASLTISGVLAEDEADYFCSSYTSSSTLYVFGSGTKVTVL 6sm4-a1-m1-cB_6sm4-a1-m1-cA AntF (apo): type II PKS acyl-carrier protein A0A2S8QL96 A0A2S8QL96 1.85 X-RAY DIFFRACTION 41 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 77 78 HPEVKIKTILSLFLNINIDDFNMDANLADAYDMDSTELADLAKEIEKEFGISVTKSQFSHWETGRAVLDFVSSSLND HPEVKIKTILSLFLNINIDDFNMDANLADAYDMDSTELADLAKEIEKEFGISVTKSQFSHWETGRAVLDFVSSSLNDK 6smt-a3-m1-cE_6smt-a3-m2-cE S-enantioselective imine reductase from Mycobacterium smegmatis A0R5X0 A0R5X0 1.55 X-RAY DIFFRACTION 342 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 286 286 6smt-a1-m1-cA_6smt-a1-m1-cB 6smt-a2-m1-cC_6smt-a2-m1-cD TTPTVTVLGLGPMGQALSRALLDAGHTVTVWNRTESKAQALRDRGALSAPTPAAAIAASDLALVNVVDHDAVDAILTAAGDAPAGRTVIGLSSDTPDRARRTAKLVGNVGGRYLDGAIMTPIDTIGTRGASILFAGPQALFDEHRGVLDTLGQLTWVGEDHGRAAAFDMALLDLFWTSVGGFGHALMVARANGIEPSELMPHAHGIVGILSPIFTEVAQRVEDDRHSDASASVSSVASSVRHLIAASREAGVDAGLLEAFRGYVDATVAAGHGDDEISRIASEMTT TTPTVTVLGLGPMGQALSRALLDAGHTVTVWNRTESKAQALRDRGALSAPTPAAAIAASDLALVNVVDHDAVDAILTAAGDAPAGRTVIGLSSDTPDRARRTAKLVGNVGGRYLDGAIMTPIDTIGTRGASILFAGPQALFDEHRGVLDTLGQLTWVGEDHGRAAAFDMALLDLFWTSVGGFGHALMVARANGIEPSELMPHAHGIVGILSPIFTEVAQRVEDDRHSDASASVSSVASSVRHLIAASREAGVDAGLLEAFRGYVDATVAAGHGDDEISRIASEMTT 6snl-a3-m1-cC_6snl-a3-m1-cF (R)-selective amine transaminase from Exophiala sideris A0A0D1XFW6 A0A0D1XFW6 3.129 X-RAY DIFFRACTION 124 0.997 1016849 (Exophiala sideris) 1016849 (Exophiala sideris) 318 318 6snl-a1-m1-cA_6snl-a1-m1-cD 6snl-a2-m1-cB_6snl-a2-m2-cE MDEIFAAYEKRQAVLEESSNPLSKGIAWVFGELVPLAEARIPLMDQGFMHSDLTYDVPSVWDGRFFRLDDHIARLEASCAKMRLQLPLPREEVKQILVDMVAKSEIKDAFVELIVTRGLKGVRGHTPGETFKNHLYMFVQPYVWVMDPDIQKTGGKAIIARTVRRIPPGSIDPTVKNLQWGDLTRGLFEAADRGATYPFLTDGDANLTEGSGFNVLLVKDGVIYTPDRGVLQGVTRKSCIDVAKSLGIEVRVQFVPIQMAYDADEIFMATTAGGIMPITTLDDKPIQSGKVGPITKKIWDGYWAIHYDDAYSFEIQYG TMDEIFAAYEKRQAVLEESSNPLSKGIAWVFGELVPLAEARIPLMDQGFMHSDLTYDVPSVWDGRFFRLDDHIARLEASCAKMRLQLPLPREEVKQILVDMVAKSEIKDAFVELIVTRGLKGVRGHTPGETFKNHLYMFVQPYVWVMDPDIQKTGGKAIIARTVRRIPPGSIDPTVKNLQWGDLTRGLFEAADRGATYPFLTDGDANLTEGSGFNVLLVKDGVIYTPDRGVLQGVTRKSCIDVAKSLGIEVRVQFVPIQMAYDADEIFMATTAGGIMPITTLDDKPIQSGKVGPITKKIWDGYWAIHYDDAYSFEIQY 6so3-a1-m1-cA_6so3-a1-m1-cB The interacting head motif in insect flight muscle myosin thick filaments 6.2 ELECTRON MICROSCOPY 169 1.0 212017 (Lethocerus indicus) 212017 (Lethocerus indicus) 840 840 MAEDPDPTEYLYISMEQKRKDQTKPYDGKKMVWVADEKEGYLLGLIKSTQGDICTVDIEGQESRQVKKDLLQQVNPPKYEKCEDMSNLTYLNDASVLHNLKQRYYANLIYTYSGLFCVAINPYKRFPIYTNRTVQIYKGRRRTEVPPHLFAISDGAYSAMLANRENQSMLITGESGAGKTENTKKVIAYYANVGAATPKPGKEAPTKEKKATLEDQVVQTNPVLEAFGNAKTVRNDNSSRFGKFIRIHFGPMGKLAGADIETYLLEKARVISQQTLERSYHIFYQLMSGGIENLKADLLLSDDIYDYHFVSQGKIEIPGVDDAEELRLTDTAFDILGFSHEYKTDVYKITASCMHLGEMKFKQRPREEQAEADGTEEGERVAHLLGVNAADLYKNLVKPKIKVGNEMVTQGRNATQVSYSVGGLAKAMFDRTFKWLVKRLNETLDTKQKRQYFIGVLDIAGFEIFDYNGFEQLCINFTNEKLQQFFNHHMFVLEQEEYKREGIDWVFIDFGLDLAACIELIEKPMGILSILEEESMFPKATDKSFQDKLNANHLGKSPNFVKPKPPKPGQQEAHFSIAHYAGTVPYNITGWLEKNKDPVNDTVVDQFKKGSNKLVQEIFEDHPGLGAEEKGGGGKGGGGRKKGASFQTVSALYREQLNRLMASLHSTQPHFVRCIIPNELKQPGVIDSGLVMHQLTCNGVLEGIRICRKGFPNRMVYPDFKQRYTILAASAVPKGFVDAKKVTEAVLGAIQLDANDYRLGNTKVFFRAGVLGRLEEMRDDRLGKIVTWLQAWIRWYLSKKEFKKLQEQRVALLVIQRNLRKFLTLRNWLWYKLYIKVKPL MAEDPDPTEYLYISMEQKRKDQTKPYDGKKMVWVADEKEGYLLGLIKSTQGDICTVDIEGQESRQVKKDLLQQVNPPKYEKCEDMSNLTYLNDASVLHNLKQRYYANLIYTYSGLFCVAINPYKRFPIYTNRTVQIYKGRRRTEVPPHLFAISDGAYSAMLANRENQSMLITGESGAGKTENTKKVIAYYANVGAATPKPGKEAPTKEKKATLEDQVVQTNPVLEAFGNAKTVRNDNSSRFGKFIRIHFGPMGKLAGADIETYLLEKARVISQQTLERSYHIFYQLMSGGIENLKADLLLSDDIYDYHFVSQGKIEIPGVDDAEELRLTDTAFDILGFSHEYKTDVYKITASCMHLGEMKFKQRPREEQAEADGTEEGERVAHLLGVNAADLYKNLVKPKIKVGNEMVTQGRNATQVSYSVGGLAKAMFDRTFKWLVKRLNETLDTKQKRQYFIGVLDIAGFEIFDYNGFEQLCINFTNEKLQQFFNHHMFVLEQEEYKREGIDWVFIDFGLDLAACIELIEKPMGILSILEEESMFPKATDKSFQDKLNANHLGKSPNFVKPKPPKPGQQEAHFSIAHYAGTVPYNITGWLEKNKDPVNDTVVDQFKKGSNKLVQEIFEDHPGLGAEEKGGGGKGGGGRKKGASFQTVSALYREQLNRLMASLHSTQPHFVRCIIPNELKQPGVIDSGLVMHQLTCNGVLEGIRICRKGFPNRMVYPDFKQRYTILAASAVPKGFVDAKKVTEAVLGAIQLDANDYRLGNTKVFFRAGVLGRLEEMRDDRLGKIVTWLQAWIRWYLSKKEFKKLQEQRVALLVIQRNLRKFLTLRNWLWYKLYIKVKPL 6so3-a1-m1-cE_6so3-a1-m1-cF The interacting head motif in insect flight muscle myosin thick filaments 6.2 ELECTRON MICROSCOPY 68 1.0 212017 (Lethocerus indicus) 212017 (Lethocerus indicus) 196 196 MGDEEKKEKKKKSKKKSEEEGGDAAPAPPPPKPPSQKRRAQRSGSNVFAMFTQHQVQEFKEAFQLIDQDKDGFISKNDIRATFDSLGRLCTEQELDSMVAEAPGPINFTMFLTIFGDRIAGTDEEDVIVNAFNLFDEGEGKCKEETLKRSLTTWGEKFSQDEVEEALSEAPIDGNGLIDIKKFAQILTKGAEEEGA MGDEEKKEKKKKSKKKSEEEGGDAAPAPPPPKPPSQKRRAQRSGSNVFAMFTQHQVQEFKEAFQLIDQDKDGFISKNDIRATFDSLGRLCTEQELDSMVAEAPGPINFTMFLTIFGDRIAGTDEEDVIVNAFNLFDEGEGKCKEETLKRSLTTWGEKFSQDEVEEALSEAPIDGNGLIDIKKFAQILTKGAEEEGA 6so5-a1-m1-cB_6so5-a1-m1-cA Homo sapiens WRB/CAML heterotetramer in complex with a TRC40 dimer O43681 O43681 4.2 ELECTRON MICROSCOPY 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 292 313 LEPTLSNIIEQRSLKWIFVGGKGGVGKTTCSCSLAVQLSKGRESVLIISTDPAHNISDAFDQKFSKVPTKVKGYDNLFAMEIDPSLGVAELPDEFFEEDNMLSMGKKMMQEAMSAFPGIDEAMSYAEVMRLVKGMNFSVVVFDTAPTGHTLRLLNFPTIVERGLGRLSKLEETLPVIRSVSEQFKDPEQTTFICVCIAEFLSLYETERLIQELAKCKIDTHNIIVNQLVFPDPEKPCKMCEARHKIQAKYLDQMEDLYEDFHIVKLPLLPHEVRGADKVNTFSALLLEPYKP LEPTLSNIIEQRSLKWIFVGGKGGVGKTTCSCSLAVQLSKGRESVLIISTDPAHNISDAFDQKFSKVPTKVKGYDNLFAMEIDPSLGVAELPDEFFEEDNMLSMGKKMMQEAMSAFPGIDEAMSYAEVMRLVKGMNFSVVVFDTAPTGHTLRLLNFPTIVERGLGRLMQIKNQISPFISQMCNADQLASKLEETLPVIRSVSEQFKDPEQTTFICVCIAEFLSLYETERLIQELAKCKIDTHNIIVNQLVFPDPEKPCKMCEARHKIQAKYLDQMEDLYEDFHIVKLPLLPHEVRGADKVNTFSALLLEPYKP 6sp2-a1-m1-cE_6sp2-a1-m1-cF CryoEM structure of SERINC from Drosophila melanogaster Q9U6P4 Q9U6P4 3.33 ELECTRON MICROSCOPY 46 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 365 365 6sp2-a1-m1-cA_6sp2-a1-m1-cB 6sp2-a1-m1-cA_6sp2-a1-m1-cF 6sp2-a1-m1-cB_6sp2-a1-m1-cC 6sp2-a1-m1-cC_6sp2-a1-m1-cD 6sp2-a1-m1-cD_6sp2-a1-m1-cE PSCTNASSSRFMYAFILLVGTVLGAIALSPGLQDTLKKMPFCINSSLQVDCEYALGYMAVYRVCFGMACFFALMSLIMLGVKSSRDPRSHIQNNFWPLKFLICFGAAIGAIFIPDGSFGPAMMWVGLIGGLAFILVQLVIIVDFAHSLAENWIESAENSRGYYYALAGVTLLCYILSLTGITLLYIYFTTSTGCGINKFFISINLIFCLAISVISILPAVQERLPHSGLLQSSLVTLYTVYLTWSAVANNPEKECNPGMFGHTTRVTFDTTNIIGLVVWLLCILYNCISSAVETEGVTYSWSMFHLVFVCASLYVMMTLTNWYKPHSEIELFNGNEASMWVKIVSSWLGVFIYGWSLAAPIVLTN PSCTNASSSRFMYAFILLVGTVLGAIALSPGLQDTLKKMPFCINSSLQVDCEYALGYMAVYRVCFGMACFFALMSLIMLGVKSSRDPRSHIQNNFWPLKFLICFGAAIGAIFIPDGSFGPAMMWVGLIGGLAFILVQLVIIVDFAHSLAENWIESAENSRGYYYALAGVTLLCYILSLTGITLLYIYFTTSTGCGINKFFISINLIFCLAISVISILPAVQERLPHSGLLQSSLVTLYTVYLTWSAVANNPEKECNPGMFGHTTRVTFDTTNIIGLVVWLLCILYNCISSAVETEGVTYSWSMFHLVFVCASLYVMMTLTNWYKPHSEIELFNGNEASMWVKIVSSWLGVFIYGWSLAAPIVLTN 6sq2-a1-m1-cD_6sq2-a1-m1-cE Structure of a phosphomimetic switch 2 variant of Rab8a in complex with the phospho-Rab binding domain of RILPL2 Q969X0 Q969X0 1.684 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 32 7lwb-a1-m1-cD_7lwb-a1-m2-cD NRPRFTLQELRDVLQERNKLKSQLLVVQEEL NRPRFTLQELRDVLQERNKLKSQLLVVQEELQ 6sqg-a1-m1-cC_6sqg-a1-m1-cB Crystal structure of viral rhodopsin OLPVRII F2Y2Z0 F2Y2Z0 1.9 X-RAY DIFFRACTION 62 1.0 938083 (Organic Lake phycodnavirus) 938083 (Organic Lake phycodnavirus) 209 210 6sqg-a1-m1-cA_6sqg-a1-m1-cE 6sqg-a1-m1-cB_6sqg-a1-m1-cD 6sqg-a1-m1-cC_6sqg-a1-m1-cA 6sqg-a1-m1-cD_6sqg-a1-m1-cE DLIEYSFYLTYAFLMTTGTITFIEALRTKNESVRHILNLETCISVVAAFFYSNFIGKLEHINYEEINLNRYVDWAITTPIMLLVLVLAFRVNQTNKAMVKFSDFMIILGMNYGMLGTGYLGDIGVIHKTMGTVLGFLFFGGLFYKLNTLRTSNASNDLLYGAFFVLWALYGVFYQMEQLPRNVGYNVLDLFSKCFVGIYFWAFYAKIFT SDLIEYSFYLTYAFLMTTGTITFIEALRTKNESVRHILNLETCISVVAAFFYSNFIGKLEHINYEEINLNRYVDWAITTPIMLLVLVLAFRVNQTNKAMVKFSDFMIILGMNYGMLGTGYLGDIGVIHKTMGTVLGFLFFGGLFYKLNTLRTSNASNDLLYGAFFVLWALYGVFYQMEQLPRNVGYNVLDLFSKCFVGIYFWAFYAKIFT 6sqr-a1-m1-cB_6sqr-a1-m1-cK Crystal structure of Cat MDM2-S429E RING domain bound to UbcH5B-Ub P62837 P62837 2.18 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 146 146 ALKRIHKELNDLARDPPAQCRAGPVGDDMFHWQATIMGPNDSPYQGGVFFLTIHFPTDYPFKPPKVAFTTRIYHPNINSNGSIKLDILRSQWSPALTISKVLLSICSLLCDPNPDDPLVPEIARIYKTDREKYNRIAREWTQKYAM ALKRIHKELNDLARDPPAQCRAGPVGDDMFHWQATIMGPNDSPYQGGVFFLTIHFPTDYPFKPPKVAFTTRIYHPNINSNGSIKLDILRSQWSPALTISKVLLSICSLLCDPNPDDPLVPEIARIYKTDREKYNRIAREWTQKYAM 6sr9-a1-m1-cA_6sr9-a1-m2-cA Crystal structure of glutathione transferase Omega 2C from Trametes versicolor in complex with oxyresveratrol R7S7J5 R7S7J5 1.845 X-RAY DIFFRACTION 52 1.0 717944 (Trametes versicolor FP-101664 SS1) 717944 (Trametes versicolor FP-101664 SS1) 235 235 6sr8-a1-m1-cA_6sr8-a1-m2-cA 6sr8-a2-m1-cB_6sr8-a2-m3-cB 6sr9-a2-m1-cB_6sr9-a2-m3-cB 6sra-a1-m1-cA_6sra-a1-m2-cA 6sra-a2-m1-cB_6sra-a2-m3-cB PERITLYTAKICPFAQRVEIALHEAKAHHNVEQFQIDLQNKPEWYAPKVNPASKVPAIAYGGPHVPPDQPSPESIKLAESLILVEFVADLFPHSHLLPHDPVKRAQARFFIDGVSTKFIPAWHAFSQGKSSEEDFLTAVEHLQALLPESGFAVGAYSIADVALTPFLGRARVTLKEDLGGYPRGEGPRVLAVLTSGTGRLARFGKYAQDLLARESFQATFDEAYITERYKARFAD PERITLYTAKICPFAQRVEIALHEAKAHHNVEQFQIDLQNKPEWYAPKVNPASKVPAIAYGGPHVPPDQPSPESIKLAESLILVEFVADLFPHSHLLPHDPVKRAQARFFIDGVSTKFIPAWHAFSQGKSSEEDFLTAVEHLQALLPESGFAVGAYSIADVALTPFLGRARVTLKEDLGGYPRGEGPRVLAVLTSGTGRLARFGKYAQDLLARESFQATFDEAYITERYKARFAD 6srb-a1-m1-cA_6srb-a1-m1-cB Crystal structure of glutathione transferase Omega 3C from Trametes versicolor A0A1M2V359 A0A1M2V359 1.65 X-RAY DIFFRACTION 55 0.995 154538 (Trametes pubescens) 154538 (Trametes pubescens) 221 233 SHATGLAAKTVEQHQAPQDLVLYAGWFCPYVQRSWISLEEKGIPYQYKEVNPYKKEQHFLDINPKGLVPAIEYKGKAMYESLILCEFFEDAFPEHTPHLLTTDPFDRAYVRLWVDHVSKQIVPTFMRLVLAQEPEKQQEHLADFYKGLRTLTDKVRGPYFLGAQFSLVDIALAPWVLRDYILAENRGYEREAAGSAWVAYAKALETRESVLRTQSDKEHYA HATGLAAKTVEQHQAPQDLVLYAGWFCPYVQRSWISLEEKGIPYQYKEVNPYKKEQHFLDINPKGLVPAIEYKGKAMYESLILCEFFEDAFPEHTPHLLTTDPFDRAYVRLWVDHVSKQIVPTFMRLVLAQEPEKQQEHLADFYKGLRTLTDKVRGPYFLGAQFSLVDIALAPWVLRDYILAENRGYEREAAGSAWVAYAKALETRESVLRTQSDKEHYAQIYARYLRNEAQS 6srn-a1-m1-cA_6srn-a1-m2-cA Structural basis for control of antibiotic production by bacterial hormones Q9JN89 Q9JN89 1.5 X-RAY DIFFRACTION 111 1.0 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 187 187 7ky1-a1-m1-cA_7ky1-a1-m2-cA IKTRAQILEAASEIFASRGYRGASVKDVAERVGMTKGAVYFHFPSKESLAIAVVEEHYARWPAAMEEIRIQGFTPLETVEEMLHRAAQAFRDDPVMQAGARLQSERASIDAELPLPYVDWTHLLEVPLQDAREAGQLRAGVDPAAAARSLVAAFFGMQHVSDNLHQRADIMERWQELRELMFFALRA IKTRAQILEAASEIFASRGYRGASVKDVAERVGMTKGAVYFHFPSKESLAIAVVEEHYARWPAAMEEIRIQGFTPLETVEEMLHRAAQAFRDDPVMQAGARLQSERASIDAELPLPYVDWTHLLEVPLQDAREAGQLRAGVDPAAAARSLVAAFFGMQHVSDNLHQRADIMERWQELRELMFFALRA 6ss4-a1-m3-cHHH_6ss4-a1-m2-cHHH Structure of arginase-2 in complex with the inhibitory human antigen-binding fragment Fab C0021181 2.9 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 216 6ss4-a1-m1-cHHH_6ss4-a1-m2-cHHH 6ss4-a1-m3-cHHH_6ss4-a1-m1-cHHH QLLESGGGLVRPGGSLRLSCAASEFTFRYDYHVWVRQAPGKGLEWVSAISGSGGSTYYADSVKSRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARLRADLGLYMDLWGRGTLVTVSSASTKGPSVFPLAPSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKSC QLLESGGGLVRPGGSLRLSCAASEFTFRYDYHVWVRQAPGKGLEWVSAISGSGGSTYYADSVKSRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARLRADLGLYMDLWGRGTLVTVSSASTKGPSVFPLAPSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPKSC 6ssd-a1-m1-cA_6ssd-a1-m2-cA Transaminase with PLP bound 1.18 X-RAY DIFFRACTION 403 1.0 212423 (Streptomyces kaniharaensis) 212423 (Streptomyces kaniharaensis) 424 424 6sse-a1-m1-cA_6sse-a1-m1-cB 6ssf-a1-m1-cA_6ssf-a1-m1-cB 6ssg-a1-m1-cA_6ssg-a1-m1-cB AMITEKSAALYARAVEVMPGGNSRTAVYSSPYPVYVRSGSGARVTDVDGVERIDFLNNSTTLIHGHAHPEMVEAIAAAVGHGTSFGMPTPVEVEYAEALSARNETFEHVRFTSSGTEAVMMAVQAARAYTERPKIAKIAGAYHGAYDAVAVNNDGSGNLISHAVTGNPEGVVANTVVIPFNDPEGSLEVLRRHADDLACVLIDPVPWRIGLLPASKEWLDALREFCDASGAVLISDEVGSYRVGYHGAMQLLGAEADITVMGKVIAAGMPIGAVAGRRRFMSVFDPSKGKPALPHSGSYNANPVSMSSGIASLRLLTPQAHERIGQLGEQARGSMRTALGEAGLDWEVNGLGSLFRVVANSAPAGYDSAAAAMKALYWKLLENGIHIGDSGLGCISTPMGEEEIAEYAVAFAKSLGQVLAEGRA AMITEKSAALYARAVEVMPGGNSRTAVYSSPYPVYVRSGSGARVTDVDGVERIDFLNNSTTLIHGHAHPEMVEAIAAAVGHGTSFGMPTPVEVEYAEALSARNETFEHVRFTSSGTEAVMMAVQAARAYTERPKIAKIAGAYHGAYDAVAVNNDGSGNLISHAVTGNPEGVVANTVVIPFNDPEGSLEVLRRHADDLACVLIDPVPWRIGLLPASKEWLDALREFCDASGAVLISDEVGSYRVGYHGAMQLLGAEADITVMGKVIAAGMPIGAVAGRRRFMSVFDPSKGKPALPHSGSYNANPVSMSSGIASLRLLTPQAHERIGQLGEQARGSMRTALGEAGLDWEVNGLGSLFRVVANSAPAGYDSAAAAMKALYWKLLENGIHIGDSGLGCISTPMGEEEIAEYAVAFAKSLGQVLAEGRA 6ste-a1-m1-cA_6ste-a1-m1-cB Crystal structure of the tick chemokine-binding protein Evasin-4 (SG 3) P0C8E9 P0C8E9 1.79 X-RAY DIFFRACTION 56 1.0 34632 (Rhipicephalus sanguineus) 34632 (Rhipicephalus sanguineus) 81 87 6st4-a1-m1-cA_6st4-a1-m2-cA 6stc-a1-m1-cA_6stc-a1-m2-cA DYTAYAPLTCYFTNSTLGLLAPPNCSVLCNSTTTWFNETSPNNASCLLTVDFLTQNQPYNCSVGHCDNGTCAGPPRHAQCW DYTAYAPLTCYFTNSTLGLLAPPNCSVLCNSTTTWFNETSPNNASCLLTVDFLTQDAILQENQPYNCSVGHCDNGTCAGPPRHAQCW 6stq-a1-m1-cA_6stq-a1-m1-cB Three dimensional structure of the giant reed (Arundodonax) lectin (ADL) complex with N,N'-Diacetylchitobiose; 30 seconds soaking A0A0A9P802 A0A0A9P802 1.5 X-RAY DIFFRACTION 246 1.0 35708 (Arundo donax) 35708 (Arundo donax) 165 165 6stm-a1-m1-cA_6stm-a1-m1-cB 6stn-a1-m1-cA_6stn-a1-m1-cB 6sto-a1-m1-cA_6sto-a1-m1-cB 6stp-a1-m1-cA_6stp-a1-m1-cB 6str-a1-m1-cA_6str-a1-m1-cB AYECGKQGGGALCPNNKCCSRYGYCGFGPAYCGTGCQSGGCCPGKRCGDQANGETCPNNLCCSEDGYCGFGSEYCGAGCQGGPCRADKLCGQLCPDNLCCSQWGFCGLGVEFCGDGCQSGACCSMRCGRQADGAKCTNNYCCGASGYCGLGGDYCGAGCQSGPCT AYECGKQGGGALCPNNKCCSRYGYCGFGPAYCGTGCQSGGCCPGKRCGDQANGETCPNNLCCSEDGYCGFGSEYCGAGCQGGPCRADKLCGQLCPDNLCCSQWGFCGLGVEFCGDGCQSGACCSMRCGRQADGAKCTNNYCCGASGYCGLGGDYCGAGCQSGPCT 6stw-a1-m1-cA_6stw-a1-m1-cB Adenovirus 15 Fiber Knob protein P36847 P36847 1.37 X-RAY DIFFRACTION 87 1.0 28276 (Human adenovirus 15) 28276 (Human adenovirus 15) 190 190 6stw-a1-m1-cC_6stw-a1-m1-cA 6stw-a1-m1-cC_6stw-a1-m1-cB DKLTLWTTPDPSPNCKIIEDKDSKLTLILTKCGSQILGSVSLLVVKGKFSNINNTTNPNEADKQITVKLLFDANGVLKQGSTMDSSYWNYRSDNSNLSQPYKKAVGFMPSKTAYPKQTKPTNKEISQAKNKIVSNVYLGGKIDQPCVIIISFNEEADSDYSIVFYFKWYKTYENVQFDSSSFNFSYIAQE DKLTLWTTPDPSPNCKIIEDKDSKLTLILTKCGSQILGSVSLLVVKGKFSNINNTTNPNEADKQITVKLLFDANGVLKQGSTMDSSYWNYRSDNSNLSQPYKKAVGFMPSKTAYPKQTKPTNKEISQAKNKIVSNVYLGGKIDQPCVIIISFNEEADSDYSIVFYFKWYKTYENVQFDSSSFNFSYIAQE 6su1-a1-m1-cA_6su1-a1-m1-cD Trypanosoma congolense pyruvate kinase in complex with citrate and glycerol G0UYF4 G0UYF4 3 X-RAY DIFFRACTION 79 0.998 1068625 (Trypanosoma congolense IL3000) 1068625 (Trypanosoma congolense IL3000) 439 498 MSQLQHNIGLSIFEPVAKHRANRIICTIGPSTQSVEALKGLMKSGMSVARMNFSHGSYEYHQTTINNVRAAAAELGLHIGIALDTKGPEIVLVTTDPAFEVDYPQIYVDDGVLTLRVRKGINLPGCEVDLPAVSEKDRKDLQFGVEQGVDMIFASFIRTADQVREVRAALGEKGKDTLIISKIENHQGVQNIDAIIEASDGIMVARGDLGVEIPAEKVVVAQMCIISKCNVAGKPVICATQMLESMTTNPRPTRAEVTDVANAVFNGADCVMLSGETAKGKYPNEVVQYMVRICIEAQSATHDSVMFNSIKNLQKIPMSPEEAVCSSAVSSAFEVQAKAILVLSNTGRSARLISKYRPNCPIICATTRLLTCRQLNVTRSVESVYYDVDAHGEDNDREKRVQLGVDWAKTKGYVSAGDVMVIVHADHSYPNQTRLVRVR SQLQHNIGLSIFEPVAKHRANRIICTIGPSTQSVEALKGLMKSGMSVARMNFSHGSYEYHQTTINNVRAAAAELGLHIGIALDTKGPEIRTGLFKDGEATYAPGDTVLVTTDPAFEKIGTKEKFYVDYPQLPNVVRPGGLIYVDDGVLTLRVLSKEDDCTLKCHVNNHHRLTDRKGINLPGCEVDLPAVSEKDRKDLQFGVEQGVDMIFASFIRTADQVREVRAALGEKGKDTLIISKIENHQGVQNIDAIIEASDGIMVARGDLGVEIPAEKVVVAQMCIISKCNVAGKPVICATQMLESMTTNPRPTRAEVTDVANAVFNGADCVMLSGETAKGKYPNEVVQYMVRICIEAQSATHDSVMFNSIKNLQKIPMSPEEAVCSSAVSSAFEVQAKAILVLSNTGRSARLISKYRPNCPIICATTRLLTCRQLNVTRSVESVYYDVDAHGEDNDREKRVQLGVDWAKTKGYVSAGDVMVIVHADHSVKGYPNQTRLVRVR 6su1-a2-m1-cG_6su1-a2-m1-cH Trypanosoma congolense pyruvate kinase in complex with citrate and glycerol G0UYF4 G0UYF4 3 X-RAY DIFFRACTION 205 1.0 1068625 (Trypanosoma congolense IL3000) 1068625 (Trypanosoma congolense IL3000) 411 449 SQLQHNIGLSIFEPVAKHRANRIICTIGPSTQSVEALKGLMKSGMSVARMNFSHGSYEYHQTTINNVRAAAAELGLHIGIALDTKGPEIRTNLPGCEVDLPAVSEKDRKDLQFGVEQGVDMIFASFIRTADQVREVRAALGEKGKDTLIISKIENHQGVQNIDAIIEASDGIMVARGDLGVEIPAEKVVVAQMCIISKCNVAGKPVICATQMLESMTTNPRPTRAEVTDVANAVFNGADCVMLSGETAKGKYPNEVVQYMVRICIEAQSATHDSVMFNSIKNLQKIPMSPEEAVCSSAVSSAFEVQAKAILVLSNTGRSARLISKYRPNCPIICATTRLLTCRQLNVTRSVESVYYDVDAHGEDNDREKRVQLGVDWAKTKGYVSAGDVMVIVHADHSVKGYPNQTRLVRV SQLQHNIGLSIFEPVAKHRANRIICTIGPSTQSVEALKGLMKSGMSVARMNFSHGSYEYHQTTINNVRAAAAELGLHIGIALDTKGPEIRTGLTDPFYVDYPQLPNVVRPYVDDGVLTLRVLNNHHRNLPGCEVDLPAVSEKDRKDLQFGVEQGVDMIFASFIRTADQVREVRAALGEKGKDTLIISKIENHQGVQNIDAIIEASDGIMVARGDLGVEIPAEKVVVAQMCIISKCNVAGKPVICATQMLESMTTNPRPTRAEVTDVANAVFNGADCVMLSGETAKGKYPNEVVQYMVRICIEAQSATHDSVMFNSIKNLQKIPMSPEEAVCSSAVSSAFEVQAKAILVLSNTGRSARLISKYRPNCPIICATTRLLTCRQLNVTRSVESVYYDVDAHGEDNDREKRVQLGVDWAKTKGYVSAGDVMVIVHADHSVKGYPNQTRLVRVRE 6su4-a1-m1-cA_6su4-a1-m1-cX Crystal structure of the 48C12 heliorhodopsin in the blue form at pH 4.3 A0A2R4S913 A0A2R4S913 1.5 X-RAY DIFFRACTION 210 0.996 1883427 (Actinomycetia bacterium) 1883427 (Actinomycetia bacterium) 254 254 6su3-a1-m1-cA_6su3-a1-m1-cX 6uh3-a1-m1-cB_6uh3-a1-m1-cA PTVKEIKSLQNFNRIAGVFHLLQMLAVLALANDFALPMTGTYLNGPPGTTFSAPVVILETPVGLAVALFLGLSALFHFIVSSGNFFKRYSASLMKNQNIFRWVEYSLSSSVMIVLIAQICGIADIVALLAIFGVNASMILFGWLQEKYTQPKDGDLLPFWFGCIAGIVPWIGLLIYVIAPGSTSDVAVPGFVYGIIISLFLFFNSFALVQYLQYKGKGKWSNYLRGERAYIVLSLVAKSALAWQIFSGTLIPAL KPTVKEIKSLQNFNRIAGVFHLLQMLAVLALANDFALPMTGTYLNGPPGTTFSAPVVILETPVGLAVALFLGLSALFHFIVSSGNFFKRYSASLMKNQNIFRWVEYSLSSSVMIVLIAQICGIADIVALLAIFGVNASMILFGWLQEKYTQPKDGDLLPFWFGCIAGIVPWIGLLIYVIAPGSTSDVAVPGFVYGIIISLFLFFNSFALVQYLQYKGKGKWSNYLRGERAYIVLSLVAKSALAWQIFSGTLIPA 6su9-a1-m1-cB_6su9-a1-m1-cA Crystal structure of Plasmodium falciparum PdxK with ligands AMP-PNP and PL C6KT01 C6KT01 2.15 X-RAY DIFFRACTION 93 0.986 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 292 295 MKKENIISIQSQVFDGFCGNNIAAFVFRRRGHIPKILNTVQYYSKFKHSGVELNSQEVDIILSEYNKDQEFMNDSNIYFLTGYIKNAECVDMVTKNILELRRKRKYFIENIINLNFLWVCDPVMGDNGRLYVDERVVESYKKAIEYVDIITPNQYETELLCGIKINEEKDVIKCLDVLLHKGVKIVIITSVNYNFDKDHLFLYVSFFNNKNKIVYFKYKILKNCFGSGDLFSCLLLSFIVKQKGNILHIISKVLNIVQNVIKNSLTGLELNIIENQDIIASDGLLIKEEPVF MKKENIISIQSQVFDGFCGNNIAAFVFRRRGHIPKILNTVQYYSKFKHSGVELNSQEVDIILSEYNKDQENDSNIYFLTGYIKNAECVDMVTKNILELRRKRKIHYFIENIINLNFLWVCDPVMGDNGRLYVDERVVESYKKAIEYVDIITPNQYETELLCGIKINEEKDVIKCLDVLLHKGVKIVIITSVNYNFDKDHLFLYVSFFNNKNKIVYFKYKILKIHFNCFGSGDLFSCLLLSFIVKQKGNILHIISKVLNIVQNVIKNSLTGLELNIIENQDIIASDDILIKEEPVF 6suj-a1-m1-cDDD_6suj-a1-m1-cCCC Mutations in SsgB correlate to longitudinal cell division during sporulation of Streptomyces coelicolor 3.2 X-RAY DIFFRACTION 80 0.992 1938856 (Streptomyces sp. Ag82_O1-9) 1938856 (Streptomyces sp. Ag82_O1-9) 126 128 LVPRGSHMNTTVSCELHLRLVVSSESSLPVPAGLRYDTADPYAVHATFHTGTVEWVFARDLLAEGLHRPTGTGDVRVWPSRSHGQGVVCIALSSPEGEALLEAPARALESFLKRTDAAVPPGTEHR LVPRGSHMNTTVSCELHLRLVVSSESSLPVPAGLRYDTADPYAVHATFHTGAEETVEWVFARDLLAEGLHRPTGTGDVRVWPSRSHGQGVVCIALSSPEGEALLEAPARALESFLKRTDAAVPPGTEH 6sul-a2-m1-cC_6sul-a2-m1-cD Amicoumacin kinase AmiN in complex with AMP-PNP, Mg2+ and Ami A8FAR5 A8FAR5 1.35 X-RAY DIFFRACTION 86 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 334 334 6sul-a1-m1-cA_6sul-a1-m1-cB MHKDVKAIYEESKILDEATHLYGVQRSDIHFIADAENYVYELKKDGESFILKITHTIRRSPDYILGEMEWLHHLAKGGLSVAKPIASLNGRDIEQVDDGQGGSFLLRVYEKAPGHKVEEADWNDELFYALGQYTGRMHKLTKSYQLSDPRYKRQEWDEEEQLKLRKYVPADQTLVFEQADRLMEKLAKLPKNQDTYGLVHADLHHGNFHWDQGKITTFDFDDIGYNWFMNDISILLYNVLWYPVIPYEDKAAFAGNFMKQFLKGYREENELGDEWLAYIPDFLRLRHVLIYGLLHQAFDLATIGDEEKAMLASFRSDIEQAAPITTFDFTKLSQ MHKDVKAIYEESKILDEATHLYGVQRSDIHFIADAENYVYELKKDGESFILKITHTIRRSPDYILGEMEWLHHLAKGGLSVAKPIASLNGRDIEQVDDGQGGSFLLRVYEKAPGHKVEEADWNDELFYALGQYTGRMHKLTKSYQLSDPRYKRQEWDEEEQLKLRKYVPADQTLVFEQADRLMEKLAKLPKNQDTYGLVHADLHHGNFHWDQGKITTFDFDDIGYNWFMNDISILLYNVLWYPVIPYEDKAAFAGNFMKQFLKGYREENELGDEWLAYIPDFLRLRHVLIYGLLHQAFDLATIGDEEKAMLASFRSDIEQAAPITTFDFTKLSQ 6sur-a3-m1-cN_6sur-a3-m1-cM The Rab33B-Atg16L1 crystal structure Q8C0J2 Q8C0J2 3.467 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 49 50 6sur-a1-m1-cI_6sur-a1-m1-cJ 6sur-a2-m1-cK_6sur-a2-m1-cL QTLKDEYDALQITFTALEEKLRKTTEENQELVTRWMAEKAQEANRLNAE NQTLKDEYDALQITFTALEEKLRKTTEENQELVTRWMAEKAQEANRLNAE 6sw4-a1-m1-cA_6sw4-a1-m1-cB The structure of AraP, an arabinose binding protein from Geobacillus stearothermophilus B3EYL5 B3EYL5 1.845 X-RAY DIFFRACTION 113 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 290 297 PDEKYVMVTFQSGMDYWKRCLKGFEDAAESLNVSVEYRGATQYDVNEQVTVLEQVIARKPAGIAISAINPTALTKTINKAVEEGIPVVLFDSNASGSKAFSFLGTNNYSAGVTAAHEMAKLLKSEGKVAVITSPHQLNHQERTRGFVETIYQKYPRMQVVAVKNGKGDALASKQAAMEVLNDYPDVQGIFATEANGGVGMAEAVAELNKKYVKLISFDTEKQTLDLVKEGAIAATLAQGTWNMGYWSLQFLFHLHHHLTSPSRSGDALLPAYVDTGITVVTRDNVDHFYA ISSLHGKPDEKYVMVTFQSGMDYWKRCLKGFEDAAESLNVSVEYRGATQYDVNEQVTVLEQVIARKPAGIAISAINPTALTKTINKAVEEGIPVVLFDSNASGSKAFSFLGTNNYSAGVTAAHEMAKLLKSEGKVAVITSPHQLNHQERTRGFVETIYQKYPRMQVVAVKNGKGDALASKQAAMEVLNDYPDVQGIFATEANGGVGMAEAVAELNKKYVKLISFDTEKQTLDLVKEGAIAATLAQGTWNMGYWSLQFLFHLHHHLTSPSRSGDALLPAYVDTGITVVTRDNVDHFYA 6swg-a1-m1-cA_6swg-a1-m1-cB Crystal structure of the TASOR-Periphilin core complex Q8NEY8 Q8NEY8 2.51 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 74 TTRSKAIASKTKEIEQVYRQDCETFGMVVKMLIEKDPSLEKSIQFALRQNLHEIGERCVEELKHFIAEYDTS LTTRSKAIASKTKEIEQVYRQDCETFGMVVKMLIEKDPSLEKSIQFALRQNLHEIGERCVEELKHFIAEYDTST 6swk-a1-m1-cA_6swk-a1-m2-cA The kinase domain of GanS, a histidine kinase from Geobacillus stearothermophilus W8QF84 W8QF84 1.742 X-RAY DIFFRACTION 117 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 203 203 6swj-a1-m1-cA_6swj-a1-m2-cA QSQINPHFLFNTLNTVAKMAYLEDAQQTSRLIEAVAAILRYNLGDLQRTVTLADEVRIAREYFFIQQTRFFDRIKFSLEAEPSCLDQPIPPLTLQPLIENAFIHGIETYEQGAELSVSVFAENGRVVVEVRDNGVGMDEQVKAELEALIRGEEPRTRREQTGIGLHNVIRRLQLFYGVMDVAEIESALGKGTTVRLWLPRWQG QSQINPHFLFNTLNTVAKMAYLEDAQQTSRLIEAVAAILRYNLGDLQRTVTLADEVRIAREYFFIQQTRFFDRIKFSLEAEPSCLDQPIPPLTLQPLIENAFIHGIETYEQGAELSVSVFAENGRVVVEVRDNGVGMDEQVKAELEALIRGEEPRTRREQTGIGLHNVIRRLQLFYGVMDVAEIESALGKGTTVRLWLPRWQG 6sws-a3-m2-cE_6sws-a3-m1-cD The DBB dimerization domain of B-cell adaptor for PI3K (BCAP) is required for down regulation of inflammatory signalling through the Toll-like receptor pathway Q6ZUJ8 Q6ZUJ8 3 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 112 6sws-a1-m1-cB_6sws-a1-m1-cA 6sws-a2-m1-cC_6sws-a2-m3-cC AMVVQPDRIRCGAETTVYVIVRCKLDDRVATEAEFSPEDSPSVRMEAKVENEYTISVKAPNLSSGNVSLKIYSGDLVVCETVISYYTDMEEIGNLLS SNAMVVQPDRIRCGAETTVYVIVRCKLDDRVATEAEFSPEDSPSVRMEAKVENEYTISVKAPNLSSGNVSLKIYSGDLVVCETVISYYTDMEEIGNLLSNAANPVEFMCQAF 6swu-a3-m1-cE_6swu-a3-m1-cF Crystal structure of the TPR domain of KLC1 in complex with an engineered high-affinity cargo peptide. Q5UE59 Q5UE59 2.849 X-RAY DIFFRACTION 90 0.996 10090 (Mus musculus) 10090 (Mus musculus) 281 281 6swu-a1-m1-cB_6swu-a1-m1-cA 6swu-a2-m1-cC_6swu-a2-m1-cD PARLRTLHNLVIQYASQGRYEVAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKDAANLLNDALAIREKTLGRDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKDHPDVAKQLNNLALLCQNQGKYEEVEYYYQRALGIYQTKLGPDDPNVAKTKNNLASCYLKQGKFKQAETLYKEILTRAHEREFGSVDDENKPIWMHAEEREECGGWYKASPTVTTTLKNLGALYRRQGKFEAAETLEEAAMRSRVFTTEDIYEWDDS IPARLRTLHNLVIQYASQGRYEVAVPLCKQALEDLEKTSGHDHPDVATMLNILALVYRDQNKYKDAANLLNDALAIREKTLGRDHPAVAATLNNLAVLYGKRGKYKEAEPLCKRALEIREKVLGKDHPDVAKQLNNLALLCQNQGKYEEVEYYYQRALGIYQTKLGPDDPNVAKTKNNLASCYLKQGKFKQAETLYKEILTRAHEREFGSVDDENKPIWMHAEEREECGGWYKSPTVTTTLKNLGALYRRQGKFEAAETLEEAAMRSRVFTTEDIYEWDDS 6sx0-a1-m1-cA_6sx0-a1-m1-cB Specific dsRNA recognition by wild type H7N1 NS1 RNA-binding domain Q1PST0 Q1PST0 1.75 X-RAY DIFFRACTION 73 1.0 437402 (Influenza A virus (A/turkey/Italy/977/1999(H7N1))) 437402 (Influenza A virus (A/turkey/Italy/977/1999(H7N1))) 70 71 6sw8-a1-m1-cA_6sw8-a1-m1-cB 6sx2-a1-m1-cA_6sx2-a1-m1-cB 6zlc-a1-m1-cB_6zlc-a1-m1-cA DSNTITSFQVDCYLWHIRKLLSMRDMCDAPFDDRLRRDQKALKGRGSTLGLDLRVATMEGKKIVEDILKS SDSNTITSFQVDCYLWHIRKLLSMRDMCDAPFDDRLRRDQKALKGRGSTLGLDLRVATMEGKKIVEDILKS 6sxn-a1-m1-cB_6sxn-a1-m1-cA Crystal structure of P212121 apo form of CrtE B1XJV9 B1XJV9 2.66 X-RAY DIFFRACTION 154 0.985 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 259 267 6sxl-a1-m1-cB_6sxl-a1-m1-cA 6sxn-a3-m1-cF_6sxn-a3-m1-cD QGFSLAQYLQEQKTIVETALDQSLVITEPVTIYEAMRYSLLAGGKRLRPILCLAACEMLGGTAAMAMNTACALEMIHTMSLIHDDLPAMDNDDLRRGKPTNHKVYGEDIAILAGDALLSYAFEYVARTPDVPAERLLQVIVRLGQAVGAEGLVGGQVVDLESETDVAVETLNFIHTHKTGALLEVCVTAGAILAGAKPEEVQLLSRYAQNIGLAFQIVDDILSLEKSQAEAQKLVAEAIASLEPYGEKANPLKALAEYI QGFSLAQYLQEQKTIVETALDQSLVITEPVTIYEAMRYSLLAGGKRLRPILCLAACEMLGGTAAMAMNTACALEMIHTMSLIHDDLPAMDNDDLRRGKPTNHKVYGEDIAILAGDALLSYAFEYVARTPDVPAERLLQVIVRLGQAVGAEGLVGGQVVDLESEGKDVAVETLNFIHTHKTGALLEVCVTAGAILAGAKPEEVQLLSRYAQNIGLAFQIVDDILDITVTYPKSQAEAQKLVAEAIASLEPYGEKANPLKALAEYIVNA 6sxy-a1-m1-cA_6sxy-a1-m1-cB STRUCTURE OF S192A-ESTER-HYDROLASE EH3 FROM THE METAGENOME OF MARINE SEDIMENTS AT MILAZZO HARBOR (SICILY, ITALY) COMPLEXED WITH METHYL (2S)-2-PHENYLPROPANOATE A0A2K8JN75 A0A2K8JN75 2.06 X-RAY DIFFRACTION 74 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 337 340 6sxp-a1-m1-cB_6sxp-a1-m1-cA 6sya-a1-m1-cA_6sya-a1-m1-cB 6syl-a1-m1-cA_6syl-a1-m1-cB DDVRMDPRLKAMLAAFPMMEQQTFQTREEQVANANTPEATAAREQLKMMMDMMDSEEFAPSDNLDISTREFTSSPDGNAIKIQFIRPKGKQKVPCVYYIHGGGMMIMSAFYGNYRAWGKMIANNGVAVAMVDFRNCLSPSSAPEVAPFPAGLNDCVSGLKWVSENADELSIDKNKIIIAGEAGGGNLTLATGLKLKQDGNIDLVKGLYALCPYIAGKWPQDRFPSSSENNGIMIELHNNQGALAYGIEQLEAENPLAWPSFASAEDMQGLPPTVINVNECDPLRDEGIDFYRRLMAAGVPARCRQVMGTCHAGDMFVAVIPDVSADTAADIARTAKG IADDVRMDPRLKAMLAAFPMMEQQTFQTREEQVANANTPEATAAREQLKMMMDMMDSEEFAPSDNLDISTREFTSSPDGNAIKIQFIRPKGKQKVPCVYYIHGGGMMIMSAFYGNYRAWGKMIANNGVAVAMVDFRNCLSPSSAPEVAPFPAGLNDCVSGLKWVSENADELSIDKNKIIIAGEAGGGNLTLATGLKLKQDGNIDLVKGLYALCPYIAGKWPQDRFPSSSENNGIMIELHNNQGALAYGIEQLEAENPLAWPSFASAEDMQGLPPTVINVNECDPLRDEGIDFYRRLMAAGVPARCRQVMGTCHAGDMFVAVIPDVSADTAADIARTAKGG 6sy1-a1-m1-cA_6sy1-a1-m1-cB Crystal structure of the human 2-oxoadipate dehydrogenase DHTKD1 (E1) Q96HY7 Q96HY7 1.87 X-RAY DIFFRACTION 408 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 859 861 5rvw-a1-m1-cA_5rvw-a1-m1-cB 5rvx-a1-m1-cA_5rvx-a1-m1-cB 5rvy-a1-m1-cA_5rvy-a1-m1-cB 5rvz-a1-m1-cA_5rvz-a1-m1-cB 5rw0-a1-m1-cA_5rw0-a1-m1-cB 5rw1-a1-m1-cB_5rw1-a1-m1-cA 6u3j-a1-m1-cA_6u3j-a1-m1-cB DHGLARLVTVYCEHGHKAAKINPLFTGQALLENVPEIQALVQTLQGPFHTAGLLNMGKEEASLEEVLVYLNQIYCGQISIETSQLQSQDEKDWFAKRFEELQKETFTTEERKHLSKLMLESQEFDHFLATKFSTVKRYGGEGAESMMGFFHELLKMSAYSGITDVIIGMPHRGRLNLLTGLLQFPPELMFRKMRGLSEFPENFSATGDVLSHLTSSVDLYFPLHVTMLPNPSHLEAVNPVAVGKTRGRQQSRQDGDYSPDNSAQPGDRVICLQVHGDASFCGQGIVPETFTLSNLPHFRIGGSVHLIVNNQLGYTTPAERGRSSLYCSDIGKLVGCAIIHVNGDSPEEVVRATRLAFEYQRQFRKDVIIDLLCYRQWGHNELDEPFYTNPIMYKIIRARKSIPDTYAEHLIAGGLMTQEEVSEIKSSYYAKLNDHLNNMAHYRPPALNWQGLAQPEAQITTWSTGVPLDLLRFVGMKSVEVPRELQMHSHLLKTHVQSRMEKMMDGIKLDWATAEALALGSLLAQGFNVRLSGQDVGRGTFSQRHAIVVCQETDDTYIPLNHMDPNQKGFLEVSNSPLSEEAVLGFEYGMSIESPKLLPLWEAQFGDFFNGAQIIFDTFISGGEAKWLLQSGIVILLPHGYDGAGPDHSSCRIERFLQMCDSAEEGVDGDTVNMFVVHPTTPAQYFHLLRRQMVRNFRKPLIVASPKMLLRLPAAVSTLQEMAPGTTFNPVIGDSSVDPKKVKTLVFCSGKHFYSLVKQRESLGAKKHDFAIIRVEELCPFPLDSLQQEMSKYKHVKDHIWSQEEPQNMGPWSFVSPRFEKQLACKLRLVGRPPLPVPAVGIGTVHLHQHEDILAKTFA VDHGLARLVTVYCEHGHKAAKINPLFTGQALLENVPEIQALVQTLQGPFHTAGLLNMGEEASLEEVLVYLNQIYCGQISIETSQLQSQDEKDWFAKRFEELQKETFTTEERKHLSKLMLESQEFDHFLATKFSTVKRYGGEGAESMMGFFHELLKMSAYSGITDVIIGMPHRGRLNLLTGLLQFPPELMFRKMRGLSEFPENFSATGDVLSHLTSSVDLYFGAHHPLHVTMLPNPSHLEAVNPVAVGKTRGRQQSRQDGDYSPDNSAQPGDRVICLQVHGDASFCGQGIVPETFTLSNLPHFRIGGSVHLIVNNQLGYTTPAERGRSSLYCSDIGKLVGCAIIHVNGDSPEEVVRATRLAFEYQRQFRKDVIIDLLCYRQWGHNELDEPFYTNPIMYKIIRARKSIPDTYAEHLIAGGLMTQEEVSEIKSSYYAKLNDHLNNMAHYRPPHWQGLAQPEAQITTWSTGVPLDLLRFVGMKSVEVPRELQMHSHLLKTHVQSRMEKMMDGIKLDWATAEALALGSLLAQGFNVRLSGQDVGRGTFSQRHAIVVCQETDDTYIPLNHMDPNQKGFLEVSNSPLSEEAVLGFEYGMSIESPKLLPLWEAQFGDFFNGAQIIFDTFISGGEAKWLLQSGIVILLPHGYDGAGPDHSSCRIERFLQMCDSAEEGVDGDTVNMFVVHPTTPAQYFHLLRRQMVRNFRKPLIVASPKMLLRLPAAVSTLQEMAPGTTFNPVIGDSSVDPKKVKTLVFCSGKHFYSLVKQRESLGAKKHDFAIIRVEELCPFPLDSLQQEMSKYKHVKDHIWSQEEPQNMGPWSFVSPRFEKQLACKLRLVGRPPLPVPAVGIGTVHLHQHEDILAKTFA 6syj-a1-m1-cB_6syj-a1-m1-cC Crystal structure of a ProM2 containing triple-helical collagen peptide. 0.81 X-RAY DIFFRACTION 85 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 PPGPPGPPGPPGPPGPRGPPGGPPGPPGP PPGPPGPPGPPGPPGPRGPPGGPPGPPGP 6szi-a1-m1-cB_6szi-a1-m1-cA ASR Alternansucrase in complex with isomaltose Q9RE05 Q9RE05 3 X-RAY DIFFRACTION 63 1.0 1245 (Leuconostoc mesenteroides) 1245 (Leuconostoc mesenteroides) 1185 1276 6syq-a1-m1-cB_6syq-a1-m1-cA 6t16-a1-m1-cB_6t16-a1-m1-cA 6t18-a1-m1-cB_6t18-a1-m1-cA 6t1p-a1-m1-cB_6t1p-a1-m1-cA KSYVADSSGQTYYFDGNGQPLIGLQTIDGNLQYFNQQGVQIKGGFQDVNNKRIYFAPNTGNAVANTEIINGKLQGRDANGNQVKNAFSKDVAGNTFYFDANGVMLTGLQTISGKTYYLDEQGHLRKNYAGTFNNQFMYFDADTGAGKTAIEYQFDQGLVSQSNENTPHNAAKSYDKSSFENVDGYLTADTWYRPTDILKNGDTWTASTETDMRPLLMTWWPDKQTQANYLNFMSSKGLGITTTYTAATSQKTLNDAAFVIQTAIEQQISLKKSTEWLRDAIDSFVKTQANWNKQTEDEAFDGLQWLQGGFLAYQDDSHRTPNTDSGNNRKLGRQPINIDGSKDTTDGKGSEFLLANDIDNSNPIVQAEQLNWLHYLMNFGSITGNNDNANFDGIRVDAVDNVDADLLKIAGDYFKALYGTDKSDANANKHLSILEDWNGKDPQYVNQQGNAQLTMDYTVTSQFGNSLTHGANNRSNMWYFLDTGYYLNGDLNKKIVDKNRPNSGTLVNRIANSGDTKVIPNYSFVRAHDYDAQDPIRKAMIDHGIIKNMQDTFTFDQLAQGMEFYYKDQENPSGFKKYNDYNLPSAYAMLLTNKDTVPRVYYGDMYLEGGQYMEKGTIYNPVISALLKARIKYVSGGQTMATDSSGKDLKDGETDLLTSVRFGKGIMTSDQTTTQDNSQDYKNQGIGVIVGNNPDLKLNNDKTITLHMGKAHKNQLYRALVLSNDSGIDVYDSDDKAPTLRTNDNGDLIFHKTNTFVKQDGTIINYEMKGSLNALISGYLGVWVPVGASDSQDARTVATESSSSNDGSVFHSNAALDSNVIYEGFSNFQAMPTSPEQSTNVVIATKANLFKELGITSFELAPQYRSSGDTNYGGMSFLDSFLNNGYAFTDRYDLGFNKADGNPNPTKYGTDQDLRNAIEALHKNGMQAIADWVPDQIYALPGKEVVTATRVDERGNQLKDTDFVNLLYVANTKSSGVDYQAKYGGEFLDKLREEYPSLFKQNQVSTGQPIDASTKIKQWSAKYMNGTNILHRGAYYVLKDWATNQYFNIAKTNEVFLPLQLQNKDAQTGFISDASGVKYYSISGYQAKDTFIEDGNGNWYYFDKDGYMVRSQQGENPIRTVETSVNTRNGNYYFMPNGVELRKGFGTDNSGNVYYFDDQGKMVRDKYINDDANNFYHLNVDGTMS LSDPITGGHYENHNGYFVYIDASGKQVTGLQNIDGNLQYFDDNGYQVKGSFRDVNGKHIYFDSVTGKASSNVDIVNGKAQGYDAQGNQLKKSYVADSSGQTYYFDGNGQPLIGLQTIDGNLQYFNQQGVQIKGGFQDVNNKRIYFAPNTGNAVANTEIINGKLQGRDANGNQVKNAFSKDVAGNTFYFDANGVMLTGLQTISGKTYYLDEQGHLRKNYAGTFNNQFMYFDADTGAGKTAIEYQFDQGLVSQSNENTPHNAAKSYDKSSFENVDGYLTADTWYRPTDILKNGDTWTASTETDMRPLLMTWWPDKQTQANYLNFMSSKGLGITTTYTAATSQKTLNDAAFVIQTAIEQQISLKKSTEWLRDAIDSFVKTQANWNKQTEDEAFDGLQWLQGGFLAYQDDSHRTPNTDSGNNRKLGRQPINIDGSKDTTDGKGSEFLLANDIDNSNPIVQAEQLNWLHYLMNFGSITGNNDNANFDGIRVDAVDNVDADLLKIAGDYFKALYGTDKSDANANKHLSILEDWNGKDPQYVNQQGNAQLTMDYTVTSQFGNSLTHGANNRSNMWYFLDTGYYLNGDLNKKIVDKNRPNSGTLVNRIANSGDTKVIPNYSFVRAHDYDAQDPIRKAMIDHGIIKNMQDTFTFDQLAQGMEFYYKDQENPSGFKKYNDYNLPSAYAMLLTNKDTVPRVYYGDMYLEGGQYMEKGTIYNPVISALLKARIKYVSGGQTMATDSSGKDLKDGETDLLTSVRFGKGIMTSDQTTTQDNSQDYKNQGIGVIVGNNPDLKLNNDKTITLHMGKAHKNQLYRALVLSNDSGIDVYDSDDKAPTLRTNDNGDLIFHKTNTFVKQDGTIINYEMKGSLNALISGYLGVWVPVGASDSQDARTVATESSSSNDGSVFHSNAALDSNVIYEGFSNFQAMPTSPEQSTNVVIATKANLFKELGITSFELAPQYRSSGDTNYGGMSFLDSFLNNGYAFTDRYDLGFNKADGNPNPTKYGTDQDLRNAIEALHKNGMQAIADWVPDQIYALPGKEVVTATRVDERGNQLKDTDFVNLLYVANTKSSGVDYQAKYGGEFLDKLREEYPSLFKQNQVSTGQPIDASTKIKQWSAKYMNGTNILHRGAYYVLKDWATNQYFNIAKTNEVFLPLQLQNKDAQTGFISDASGVKYYSISGYQAKDTFIEDGNGNWYYFDKDGYMVRSQQGENPIRTVETSVNTRNGNYYFMPNGVELRKGFGTDNSGNVYYFDDQGKMVRDKYINDDANNFYHLNVDGTMSR 6t1a-a1-m1-cBBB_6t1a-a1-m2-cBBB Structure of mosquitocidal Cyt1Aa protoxin obtained by Serial Femtosecond Crystallography on in vivo grown crystals at pH 10 P0A382 P0A382 1.85 X-RAY DIFFRACTION 213 1.0 1430 (Bacillus thuringiensis serovar israelensis) 1430 (Bacillus thuringiensis serovar israelensis) 243 243 6t14-a1-m1-cBBB_6t14-a1-m2-cBBB 6t19-a1-m1-cBBB_6t19-a1-m2-cBBB 6t1c-a1-m1-cBBB_6t1c-a1-m2-cBBB CPLEDIKVNPWKTPQSTARVITLRVEDPNEINNLLSINEIDNPNYILQAIMLANAFQNALVPTSTDFGDALRFSMPKGLEIANTITPMGAVVSYVDQNVTQTNNQVSVMINKVLEVLKTVLGVALSGSVIDQLTAAVTNTFTNLNTQKNEAWIFWGKETANQTNYTYNVLFAIQNAQTGGVMYCVPVGFEIKVSAVKEQVLFFTIQDSASYNVNIQSLKFAQPLVSSSQYPIADLTSAINGTL CPLEDIKVNPWKTPQSTARVITLRVEDPNEINNLLSINEIDNPNYILQAIMLANAFQNALVPTSTDFGDALRFSMPKGLEIANTITPMGAVVSYVDQNVTQTNNQVSVMINKVLEVLKTVLGVALSGSVIDQLTAAVTNTFTNLNTQKNEAWIFWGKETANQTNYTYNVLFAIQNAQTGGVMYCVPVGFEIKVSAVKEQVLFFTIQDSASYNVNIQSLKFAQPLVSSSQYPIADLTSAINGTL 6t1d-a3-m1-cE_6t1d-a3-m1-cF Pleurotus Ostreatus Lectin (POL), compelx with melibiose E7E2M2 E7E2M2 2.2 X-RAY DIFFRACTION 38 1.0 5322 (Pleurotus ostreatus) 5322 (Pleurotus ostreatus) 338 338 6t0q-a1-m1-cA_6t0q-a1-m2-cA 6t1d-a1-m1-cA_6t1d-a1-m1-cB 6t1d-a2-m1-cC_6t1d-a2-m1-cD CKITATPRQFQPALLSTSKWIWTGENPIPGGSNIISTRPFRKNITAPCGKCSVCATIVVASDDAHTFYVNGVRIGTGAGFRQGQALFVALQPTWNLFAIAGQNLVANSPAGIMASILVHFSDGTSETFVTDESWKTLRAAPPENFQLPSTNDSNWPSAAVQGAYQNSVWGPPVLPPVLPLRGSNWIWTSDNVNGAAPVGSRAFRKTVNQCTKVAVCATVLIAADDRYTLYVNGATVGSGSSYTVADAYTIPNLHPTFNTFAINATNGGGPAGVIATILITYSDGSNETVVTDASWKAIQTIPQGFQPPLIDEFGWESAKIIGAFGVAPWGAGMVIPSA CKITATPRQFQPALLSTSKWIWTGENPIPGGSNIISTRPFRKNITAPCGKCSVCATIVVASDDAHTFYVNGVRIGTGAGFRQGQALFVALQPTWNLFAIAGQNLVANSPAGIMASILVHFSDGTSETFVTDESWKTLRAAPPENFQLPSTNDSNWPSAAVQGAYQNSVWGPPVLPPVLPLRGSNWIWTSDNVNGAAPVGSRAFRKTVNQCTKVAVCATVLIAADDRYTLYVNGATVGSGSSYTVADAYTIPNLHPTFNTFAINATNGGGPAGVIATILITYSDGSNETVVTDASWKAIQTIPQGFQPPLIDEFGWESAKIIGAFGVAPWGAGMVIPSA 6t1q-a1-m2-cB_6t1q-a1-m1-cA 3C-like protease from Southampton norovirus. Q04544 Q04544 1.3 X-RAY DIFFRACTION 64 1.0 37129 (Southampton virus (serotype 3)) 37129 (Southampton virus (serotype 3)) 162 172 1wqs-a1-m1-cA_1wqs-a1-m1-cB 1wqs-a1-m1-cC_1wqs-a1-m1-cD 6t1q-a1-m1-cB_6t1q-a1-m2-cA 6t4s-a1-m1-cB_6t4s-a1-m2-cA 6t4s-a1-m2-cB_6t4s-a1-m1-cA TLWSRVTKFGSGWGFWVSPTVFITTTHVIPTSAKEFFGEPLTSIAIHRAGEFTLFRFSKKIRPDLTGMILEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTDLGTIPGDCGAPYVYKRANDWVVCGVHAAATKSGNTVVCAVQ APPTLWSRVTKFGSGWGFWVSPTVFITTTHVIPTSAKEFFGEPLTSIAIHRAGEFTLFRFSKKIRPDLTGMILEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTGANAKGMDLGTIPGDCGAPYVYKRANDWVVCGVHAAATKSGNTVVCAVQ 6t2b-a2-m1-cD_6t2b-a2-m1-cB Glycoside hydrolase family 109 from Akkermansia muciniphila in complex with GalNAc and NAD+. B2UQL7 B2UQL7 2.13 X-RAY DIFFRACTION 139 0.998 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 437 439 6t2b-a1-m1-cC_6t2b-a1-m1-cA IPAGDHLWKSAAPRPSGSTYMGGFKAPRLGRIRLAFIGVGGRGFSHLAQMCVMDGVEIVGICDLKEELTKRGVDRVLSRMGKSPLGYSGGDMEYLTMLKELKPDAVIISTDWSSHARIACDSMKHGAHAFVEVPLAVSLEELWSLVDTSEATRKHCMMMENVNYGRDELMFLNMVRQGVIGDLLHGEAAYIHCLVTQLGDTRGEGAWRPEYHTRINGNLYPTHGLGPVAQYMNLERGEDRFCRVAAFASPALGRNAYAKKHLPADHRWNNTPFICGDMNTAVVKTQLGRTILVQLDETSPRPYSRANLIQGTEGTLAGFPTRVAGEKLGNGNYHEWIEGREKLAAIYEKYDHPLWKRIGELATKMGGHGGMDFVMLSRIVECLRNGEPMDQNVYEGASWSSLLPLTARSIAQGGMPVEFPDFTRGDWKTTMPLAVVS AVEIPAGDHLWKSAPRPSGSTYMGGFKAPRLGRIRLAFIGVGGRGFSHLAQMCVMDGVEIVGICDLKEELTKRGVDRVLSRMGKSPLGYSGGDMEYLTMLKELKPDAVIISTDWSSHARIACDSMKHGAHAFVEVPLAVSLEELWSLVDTSEATRKHCMMMENVNYGRDELMFLNMVRQGVIGDLLHGEAAYIHCLVTQLGDTRGEGAWRPEYHTRINGNLYPTHGLGPVAQYMNLERGEDRFCRVAAFASPALGRNAYAKKHLPADHRWNNTPFICGDMNTAVVKTQLGRTILVQLDETSPRPYSRANLIQGTEGTLAGFPTRVAGEKLGNGNYHEWIEGREKLAAIYEKYDHPLWKRIGELATKMGGHGGMDFVMLSRIVECLRNGEPMDQNVYEGASWSSLLPLTARSIAQGGMPVEFPDFTRGDWKTTMPLAVVS 6t3e-a1-m1-cA_6t3e-a1-m1-cB Structure of Thermococcus litoralis Delta(1)-pyrroline-2-carboxylate reductase in complex with NADH and L-proline H3ZMH3 H3ZMH3 2.6 X-RAY DIFFRACTION 117 1.0 523849 (Thermococcus litoralis DSM 5473) 523849 (Thermococcus litoralis DSM 5473) 323 325 MLLLSRSDLEKLISMKEVIESVERAFLELYNGKAKVPLRTIIEVEKHNGFILYMPSYLEDSEALAVKVVSLYPENTKKGLPSVLASILLNDPKTGAPLALMEGTFITAMRTGAASGVATKYLARKDSKIAGIIGAGVQARTQLWAVCEVRNIEKALVYDINPKNAKKFAEEMSKKLGIEIKTVESAREATEKSDILIVATTAREPVVKGGWIREGTHINSVGWVGRDARELDSETVRKSKLVVDSKEGVLNESGDIIIPMKEGVIDEGHIHAELAEIVAGVKKGRENNREITLFKSVGLAIEDAITAKLAYEKALEHGVGTNV MLLLSRSDLEKLISMKEVIESVERAFLELYNGKAKVPLRTIIEVEKHNGFILYMPSYLEDSEALAVKVVSLYPENTKKGLPSVLASILLNDPKTGAPLALMEGTFITAMRTGAASGVATKYLARKDSKIAGIIGAGVQARTQLWAVCEVRNIEKALVYDINPKNAKKFAEEMSKKLGIEIKTVESAREATEKSDILIVATTAREPVVKGGWIREGTHINSVGWVGRDARELDSETVRKSKLVVDSKEGVLNESGDIIIPMKEGVIDEGHIHAELAEIVAGVKKGRENNREITLFKSVGLAIEDAITAKLAYEKALEHGVGTNVEL 6t3t-a1-m1-cB_6t3t-a1-m1-cD Structure of the 4-hydroxy-tetrahydrodipicolinate synthase from the thermoacidophilic methanotroph Methylacidiphilum fumariolicum SolV I0JZ23 I0JZ23 2.1 X-RAY DIFFRACTION 122 1.0 1156937 (Methylacidiphilum fumariolicum SolV) 1156937 (Methylacidiphilum fumariolicum SolV) 300 300 6t3t-a1-m1-cA_6t3t-a1-m1-cC KIQGTYTAIISPFHNGQIDRKALERLLEHQIENRIDGIVPVGTTGESPTLSYEEHIELVRLTAEIVEKRIKIFAGTGSNSTAEAIHLTKEAEKIGVDGVLLVSPYYNRPSQEGLFRHFSAIAASTSLPILLYNIPSRCGVDIAVDTVKRLVEKNKNIVGIKEAGGSVDRVSQLVEALPGEFSILSGDDALTLPFLSVGAVGVVSVASNLFPRPVSALVRLYLEGKPFEARQLHQTLYPLFRDLMIETNPVPVKTALAMEGLTDLELRLPLAPLQPQNLEKLKTTLSRTKEKLAKVEHLWA KIQGTYTAIISPFHNGQIDRKALERLLEHQIENRIDGIVPVGTTGESPTLSYEEHIELVRLTAEIVEKRIKIFAGTGSNSTAEAIHLTKEAEKIGVDGVLLVSPYYNRPSQEGLFRHFSAIAASTSLPILLYNIPSRCGVDIAVDTVKRLVEKNKNIVGIKEAGGSVDRVSQLVEALPGEFSILSGDDALTLPFLSVGAVGVVSVASNLFPRPVSALVRLYLEGKPFEARQLHQTLYPLFRDLMIETNPVPVKTALAMEGLTDLELRLPLAPLQPQNLEKLKTTLSRTKEKLAKVEHLWA 6t3t-a1-m1-cC_6t3t-a1-m1-cD Structure of the 4-hydroxy-tetrahydrodipicolinate synthase from the thermoacidophilic methanotroph Methylacidiphilum fumariolicum SolV I0JZ23 I0JZ23 2.1 X-RAY DIFFRACTION 75 1.0 1156937 (Methylacidiphilum fumariolicum SolV) 1156937 (Methylacidiphilum fumariolicum SolV) 300 300 6t3t-a1-m1-cA_6t3t-a1-m1-cB KIQGTYTAIISPFHNGQIDRKALERLLEHQIENRIDGIVPVGTTGESPTLSYEEHIELVRLTAEIVEKRIKIFAGTGSNSTAEAIHLTKEAEKIGVDGVLLVSPYYNRPSQEGLFRHFSAIAASTSLPILLYNIPSRCGVDIAVDTVKRLVEKNKNIVGIKEAGGSVDRVSQLVEALPGEFSILSGDDALTLPFLSVGAVGVVSVASNLFPRPVSALVRLYLEGKPFEARQLHQTLYPLFRDLMIETNPVPVKTALAMEGLTDLELRLPLAPLQPQNLEKLKTTLSRTKEKLAKVEHLWA KIQGTYTAIISPFHNGQIDRKALERLLEHQIENRIDGIVPVGTTGESPTLSYEEHIELVRLTAEIVEKRIKIFAGTGSNSTAEAIHLTKEAEKIGVDGVLLVSPYYNRPSQEGLFRHFSAIAASTSLPILLYNIPSRCGVDIAVDTVKRLVEKNKNIVGIKEAGGSVDRVSQLVEALPGEFSILSGDDALTLPFLSVGAVGVVSVASNLFPRPVSALVRLYLEGKPFEARQLHQTLYPLFRDLMIETNPVPVKTALAMEGLTDLELRLPLAPLQPQNLEKLKTTLSRTKEKLAKVEHLWA 6t4d-a1-m1-cA_6t4d-a1-m2-cA Crystal structure of Plasmodium falciparum Morn1 Q8IJ93 Q8IJ93 2.14 X-RAY DIFFRACTION 57 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 202 202 AETYEGDWVDGKMQGRGTYFFADGGIYEGDWVDGKMEGKGVYKYLNGNKYEGEWINDMKNGYGTLAYVNGELYEGYWKNDKVHGKGTLTYSKGDKYIGEWKYAKKCGEGELIYASGDKFKGQWKNDKANGYGILLYNNGNKYEGEWLDDHRHGMGTFTCKEDGTIYSGHFQFNRKHGKGTLTFVNGHILQGIWNSGLLEKVI AETYEGDWVDGKMQGRGTYFFADGGIYEGDWVDGKMEGKGVYKYLNGNKYEGEWINDMKNGYGTLAYVNGELYEGYWKNDKVHGKGTLTYSKGDKYIGEWKYAKKCGEGELIYASGDKFKGQWKNDKANGYGILLYNNGNKYEGEWLDDHRHGMGTFTCKEDGTIYSGHFQFNRKHGKGTLTFVNGHILQGIWNSGLLEKVI 6t4r-a1-m1-cCCC_6t4r-a1-m1-cAAA Crystal structure of Trypanosoma brucei Morn1 Q587D3 Q587D3 2.352 X-RAY DIFFRACTION 52 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 210 212 6t68-a1-m1-cB_6t68-a1-m1-cA SEKYDGEWNEGRMQGWGKYFYADGGVYEGEWVDGRMHGRGTYVFPNGNKYEGEWVEDRKDGYGILLYTNGERYEGYWHLDKAHGKGTLTFLQGDRYVGEWHYGKKHGHGVLSYSNGDTYDGEWRDDDAWGYGVLQYANGCRYEGEWAEDRRHGKGLLVLPDGSSYEGSFAHGKKDGPGKIILKDGSMYIGTWKDGVIVGQGEFRLSENCD SEKYDGEWNEGRMQGWGKYFYADGGVYEGEWVDGRMHGRGTYVFPNGNKYEGEWVEDRKDGYGILLYTNGERYEGYWHLDKAHGKGTLTFLQGDRYVGEWHYGKKHGHGVLSYSNGDTYDGEWRDDDAWGYGVLQYANGCRYEGEWAEDRRHGKGLLVLPDGSSYEGSFAHGKKDGPGKIILKDGSMYIGTWKDGVIVGQGEFRLSENCDLS 6t5a-a1-m1-cE_6t5a-a1-m1-cH Crystal structure of herpes simplex virus 1 pUL7:pUL51 complex P10191 P10191 1.83 X-RAY DIFFRACTION 21 1.0 10298 (Human alphaherpesvirus 1) 10298 (Human alphaherpesvirus 1) 276 276 6t5a-a1-m1-cF_6t5a-a1-m1-cG SAATILKQAIAGDRSLVEAAEAISQQTLLRLACEVRQVGDRQPRFTATSIARVDVAPGCRLRFVLDGSPEDAYVTSEDYFKRCCGQSSYRGFAVAVLTANEDHVHSLAVPPLVLLHRFSLFNPRDLLDFELACLLMYLENCPRSHATPSTFAKVLAWLGVAGRRTSPFERVRCLFLRSCHWVLNTLMFMVHVKPFDDEFVLPHWYMARYLLANNPPPVLSALFCCVAYNPAGIMGSCWASEEVRAPLVYWWLSETPKRQTSSLFYQFCGSLEVLFQ SAATILKQAIAGDRSLVEAAEAISQQTLLRLACEVRQVGDRQPRFTATSIARVDVAPGCRLRFVLDGSPEDAYVTSEDYFKRCCGQSSYRGFAVAVLTANEDHVHSLAVPPLVLLHRFSLFNPRDLLDFELACLLMYLENCPRSHATPSTFAKVLAWLGVAGRRTSPFERVRCLFLRSCHWVLNTLMFMVHVKPFDDEFVLPHWYMARYLLANNPPPVLSALFCCVAYNPAGIMGSCWASEEVRAPLVYWWLSETPKRQTSSLFYQFCGSLEVLFQ 6t5a-a1-m1-cG_6t5a-a1-m1-cH Crystal structure of herpes simplex virus 1 pUL7:pUL51 complex P10191 P10191 1.83 X-RAY DIFFRACTION 31 1.0 10298 (Human alphaherpesvirus 1) 10298 (Human alphaherpesvirus 1) 276 276 6t5a-a1-m1-cE_6t5a-a1-m1-cF 6t5a-a1-m1-cE_6t5a-a1-m1-cG 6t5a-a1-m1-cF_6t5a-a1-m1-cH SAATILKQAIAGDRSLVEAAEAISQQTLLRLACEVRQVGDRQPRFTATSIARVDVAPGCRLRFVLDGSPEDAYVTSEDYFKRCCGQSSYRGFAVAVLTANEDHVHSLAVPPLVLLHRFSLFNPRDLLDFELACLLMYLENCPRSHATPSTFAKVLAWLGVAGRRTSPFERVRCLFLRSCHWVLNTLMFMVHVKPFDDEFVLPHWYMARYLLANNPPPVLSALFCCVAYNPAGIMGSCWASEEVRAPLVYWWLSETPKRQTSSLFYQFCGSLEVLFQ SAATILKQAIAGDRSLVEAAEAISQQTLLRLACEVRQVGDRQPRFTATSIARVDVAPGCRLRFVLDGSPEDAYVTSEDYFKRCCGQSSYRGFAVAVLTANEDHVHSLAVPPLVLLHRFSLFNPRDLLDFELACLLMYLENCPRSHATPSTFAKVLAWLGVAGRRTSPFERVRCLFLRSCHWVLNTLMFMVHVKPFDDEFVLPHWYMARYLLANNPPPVLSALFCCVAYNPAGIMGSCWASEEVRAPLVYWWLSETPKRQTSSLFYQFCGSLEVLFQ 6t5e-a1-m2-cA_6t5e-a1-m3-cA Hydroxylamine Oxidoreductase from Brocadia fulgida A0A0M2UZI7 A0A0M2UZI7 3.3 X-RAY DIFFRACTION 158 1.0 380242 (Candidatus Brocadia fulgida) 380242 (Candidatus Brocadia fulgida) 439 439 6t5e-a1-m1-cA_6t5e-a1-m2-cA 6t5e-a1-m1-cA_6t5e-a1-m3-cA YTKPDYVDGRGPYKSFLKFLPSIRWYDPEHYWTNGSQNEGVFKNEECVLCHTVQTPTIVKDWKKSAHGNLEMRRGLGVKGKDGKPVEGTVGCDACHGNDHQKLFMPTYKNCGECHPRETSEHRSGGLGSHTHAYTVNVLEFSWHVGKPAEEVAGCAECHAIVENRCDGCHTRHVFSPAEARKPTACRYCHMDEWAMYNTSVHGCLYEAESATMDWSKPSKKGNYRVPTCAYCHMQDGNHNPHKAKRDAWIKKCQDCHSPRFAADKLKEMDAGVNLSFTKWREAAAVIVGCFLDGVVDPMPEGSPPDWYGHYTFSLLPGGDPRFYATSNLERLGLEMICYLTGNVYKAYAHMSMYNQTYGNGSAFEQDRKLVEIKTEAAKLRRFAAIEKKIGLEHKSEGFWQHGEYLDLLPGWIRKPGDVDVEWFKRTDIPHRANADAGV YTKPDYVDGRGPYKSFLKFLPSIRWYDPEHYWTNGSQNEGVFKNEECVLCHTVQTPTIVKDWKKSAHGNLEMRRGLGVKGKDGKPVEGTVGCDACHGNDHQKLFMPTYKNCGECHPRETSEHRSGGLGSHTHAYTVNVLEFSWHVGKPAEEVAGCAECHAIVENRCDGCHTRHVFSPAEARKPTACRYCHMDEWAMYNTSVHGCLYEAESATMDWSKPSKKGNYRVPTCAYCHMQDGNHNPHKAKRDAWIKKCQDCHSPRFAADKLKEMDAGVNLSFTKWREAAAVIVGCFLDGVVDPMPEGSPPDWYGHYTFSLLPGGDPRFYATSNLERLGLEMICYLTGNVYKAYAHMSMYNQTYGNGSAFEQDRKLVEIKTEAAKLRRFAAIEKKIGLEHKSEGFWQHGEYLDLLPGWIRKPGDVDVEWFKRTDIPHRANADAGV 6t5t-a1-m1-cA_6t5t-a1-m2-cA Crystal structure of Archaeoglobus fulgidus Argonaute protein with cognate DNA oligoduplex 5'-pATTGTGGCCACAAT O28951 O28951 1.7003 X-RAY DIFFRACTION 41 1.0 224325 (Archaeoglobus fulgidus DSM 4304) 224325 (Archaeoglobus fulgidus DSM 4304) 404 404 6tuo-a1-m1-cA_6tuo-a1-m2-cA 6xu0-a1-m1-cB_6xu0-a1-m1-cA 6xup-a1-m1-cB_6xup-a1-m1-cA GLTYRIGNGASVPISNTGELIKGLRNYGPYEVPSLKYNQIALIHNNQFSSLINQLKSQISSKIDEVWHIHNINISEFIYDSPHFDSIKSQVDNAIDTGVDGIMLVLPEYNTPLYYKLKSYLINSIPSQFMRYDILSNRNLTFYVDNLLVQFVSKLGGKPWILNVDPEKGSDIIIGTGATRIDNVNLFCFAMVFKKDGTMLWNEISPIVTSSEYLTYLKSTIKKVVYGFKKSNPDWDVEKLTLHVSGKRPKMKDGETKILKETVEELKKQEMVSRDVKYAILHLNETHPFWVMGPYEGTKVKLSSKRYLLTLLQPEMVTPIKPLSVEIVSDNWTSEEYYHNVHEILDEIYYLSKMNWRGFRSRNLPVTVNYPKLVAGIIANVNRYGGYPINPEGNRSLQTNPWFL GLTYRIGNGASVPISNTGELIKGLRNYGPYEVPSLKYNQIALIHNNQFSSLINQLKSQISSKIDEVWHIHNINISEFIYDSPHFDSIKSQVDNAIDTGVDGIMLVLPEYNTPLYYKLKSYLINSIPSQFMRYDILSNRNLTFYVDNLLVQFVSKLGGKPWILNVDPEKGSDIIIGTGATRIDNVNLFCFAMVFKKDGTMLWNEISPIVTSSEYLTYLKSTIKKVVYGFKKSNPDWDVEKLTLHVSGKRPKMKDGETKILKETVEELKKQEMVSRDVKYAILHLNETHPFWVMGPYEGTKVKLSSKRYLLTLLQPEMVTPIKPLSVEIVSDNWTSEEYYHNVHEILDEIYYLSKMNWRGFRSRNLPVTVNYPKLVAGIIANVNRYGGYPINPEGNRSLQTNPWFL 6t69-a1-m1-cA_6t69-a1-m2-cA Crystal structure of Toxoplasma gondii Morn1(V shape) A0A0F7VBC6 A0A0F7VBC6 2.5 X-RAY DIFFRACTION 41 1.0 432359 (Toxoplasma gondii VEG) 432359 (Toxoplasma gondii VEG) 205 205 KYEGDWVNGKMHGHGKYIYSDGGVYEGDWIDGKMHGKGTYVFPNGNVYEGEWAHDMKDGYGVLTYQNGEKYEGYWKQDKVHGKGTLTYTRGDKYIGDWMDAKKDGEGELIYANGDRFKGQWADDRANGFGVFTYANGNRYEGEWTDDKRHGRGVFYCAEDGSAYEGEFVGGRKEGNGILRLATGHQLEGTWSGGQLVRVTSFVFA KYEGDWVNGKMHGHGKYIYSDGGVYEGDWIDGKMHGKGTYVFPNGNVYEGEWAHDMKDGYGVLTYQNGEKYEGYWKQDKVHGKGTLTYTRGDKYIGDWMDAKKDGEGELIYANGDRFKGQWADDRANGFGVFTYANGNRYEGEWTDDKRHGRGVFYCAEDGSAYEGEFVGGRKEGNGILRLATGHQLEGTWSGGQLVRVTSFVFA 6t6q-a1-m1-cBBB_6t6q-a1-m1-cAAA Crystal structure of Toxoplasma gondii Morn1 (extended conformation). A0A0F7VBC6 A0A0F7VBC6 2.902 X-RAY DIFFRACTION 32 1.0 432359 (Toxoplasma gondii VEG) 432359 (Toxoplasma gondii VEG) 207 209 MEKYEGDWVNGKMHGHGKYIYSDGGVYEGDWIDGKMHGKGTYVFPNGNVYEGEWAHDMKDGYGVLTYQNGEKYEGYWKQDKVHGKGTLTYTRGDKYIGDWMDAKKDGEGELIYANGDRFKGQWADDRANGFGVFTYANGNRYEGEWTDDKRHGRGVFYCAEDGSAYEGEFVGGRKEGNGILRLATGHQLEGTWSGGQLVRVTSFVFA MEKYEGDWVNGKMHGHGKYIYSDGGVYEGDWIDGKMHGKGTYVFPNGNVYEGEWAHDMKDGYGVLTYQNGEKYEGYWKQDKVHGKGTLTYTRGDKYIGDWMDAKKDGEGELIYANGDRFKGQWADDRANGFGVFTYANGNRYEGEWTDDKRHGRGVFYCAEDGSAYEGEFVGGRKEGNGILRLATGHQLEGTWSGGQLVRVTSFVFAQD 6t73-a1-m1-cA_6t73-a1-m1-cB New antiparallel dimer of aureochrome 1a LOV domain mutants from Phaeodactylum tricornutum A0A140UHJ0 A0A140UHJ0 3.435 X-RAY DIFFRACTION 103 1.0 2850 (Phaeodactylum tricornutum) 2850 (Phaeodactylum tricornutum) 136 136 6t73-a2-m1-cC_6t73-a2-m2-cC 6t74-a1-m1-cA_6t74-a1-m1-cB SHMDFSFIKALQTAQQNFVMTDPSLPDNPIVYASQGFLNLTGYSLDQILGRNCRFLQGPETDPKAVERIRKAIEQGNDMSVCLLNYRVDGTTFWNQFFIAALRDAGGNVTNFVGVQCKVSDQYAATVTKQQEEEEE SHMDFSFIKALQTAQQNFVMTDPSLPDNPIVYASQGFLNLTGYSLDQILGRNCRFLQGPETDPKAVERIRKAIEQGNDMSVCLLNYRVDGTTFWNQFFIAALRDAGGNVTNFVGVQCKVSDQYAATVTKQQEEEEE 6t7j-a2-m3-cD_6t7j-a2-m1-cA As-isolated Ni-free crystal structure of carbon monoxide dehydrogenase from Thermococcus sp. AM4 produced without CooC maturase B7R5K0 B7R5K0 2.43 X-RAY DIFFRACTION 317 1.0 246969 (Thermococcus sp. AM4) 246969 (Thermococcus sp. AM4) 629 631 6t7j-a1-m1-cB_6t7j-a1-m2-cB YIKYRVPAKGVSATKGVAELIEKAEEEGIKTAWHRLLEQQPQCAFGQLGVCCRNCAMGPCRIDPFGSGPTKGVCGAGADTIVARNLLRMIAAGAAAHSDHARDVVEVFKGVAEGRFQYYKLTDVEKLKSLAETLGISTEGKDEHEIARELAEVLEWEFGKPGDEPLRMLALAPKKRIKVWEKAGVLPRAIDREVCECMHRTHIGVDADPVSLLLHGIRTSLADGWSGSMMATYLSDILFGTPKPLKAEANLGVLKEDYVNIVVHGHNPILSTKIAEIAMSEEMQKFAKKYGAKGVNVVGMCCTGNEVLMRLGVPIAGSFLMQELAIITGAVEAIIVDYQCIMPAIVDVAQCYHTKVITTEPKGHIPGAVHIEFNAEKADEIAKEIVRIAIENYPNRPRDRVHIPKHKMEAIAGFSVEAIVEALGGTLEPLINALRDGTIKGIVGIVGCNNPKVKHNYSHVTLAKELIKRDVLVVGTGCWSIAAAMEGLMSPKAVDLAGPGLKKICEALNIPPCLHMGSCVDCSRILIALGALADALGVDISDLPAAGSAPEWMSEKAVSIGTYFVASGVFTHLGVVPPVMGSQKVAKILTEDVEDIIGGKFYVEPDPVKAAETIYNVILEKRKKLGWPL AEYIKYRVPAKGVSATKGVAELIEKAEEEGIKTAWHRLLEQQPQCAFGQLGVCCRNCAMGPCRIDPFGSGPTKGVCGAGADTIVARNLLRMIAAGAAAHSDHARDVVEVFKGVAEGRFQYYKLTDVEKLKSLAETLGISTEGKDEHEIARELAEVLEWEFGKPGDEPLRMLALAPKKRIKVWEKAGVLPRAIDREVCECMHRTHIGVDADPVSLLLHGIRTSLADGWSGSMMATYLSDILFGTPKPLKAEANLGVLKEDYVNIVVHGHNPILSTKIAEIAMSEEMQKFAKKYGAKGVNVVGMCCTGNEVLMRLGVPIAGSFLMQELAIITGAVEAIIVDYQCIMPAIVDVAQCYHTKVITTEPKGHIPGAVHIEFNAEKADEIAKEIVRIAIENYPNRPRDRVHIPKHKMEAIAGFSVEAIVEALGGTLEPLINALRDGTIKGIVGIVGCNNPKVKHNYSHVTLAKELIKRDVLVVGTGCWSIAAAMEGLMSPKAVDLAGPGLKKICEALNIPPCLHMGSCVDCSRILIALGALADALGVDISDLPAAGSAPEWMSEKAVSIGTYFVASGVFTHLGVVPPVMGSQKVAKILTEDVEDIIGGKFYVEPDPVKAAETIYNVILEKRKKLGWPL 6t7o-a1-m1-cB_6t7o-a1-m1-cA X-ray structure of the C-terminal domain of S. aureus Hibernating Promoting Factor (CTD-SaHPF) Q2G055 Q2G055 1.60004 X-RAY DIFFRACTION 82 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 58 59 5nko-a1-m1-cA_5nko-a1-m1-cB MIEIIRSKEFSLKPMDSEAVLQMNLLGHDFFVFTDRETDGTSIVYRRKDGKYGLIQTS MIEIIRSKEFSLKPMDSEEAVLQMNLLGHDFFVFTDRETDGTSIVYRRKDGKYGLIQTS 6t7x-a1-m2-cA_6t7x-a1-m3-cA Crystal structure of PCNA from P. abyssi Q9UYX8 Q9UYX8 2.3 X-RAY DIFFRACTION 52 1.0 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 239 239 6t7x-a1-m1-cA_6t7x-a1-m2-cA 6t7x-a1-m1-cA_6t7x-a1-m3-cA 6t7y-a1-m1-cA_6t7y-a1-m2-cA 6t7y-a1-m1-cA_6t7y-a1-m3-cA 6t7y-a1-m2-cA_6t7y-a1-m3-cA 6t8h-a1-m1-cC_6t8h-a1-m1-cD 6t8h-a1-m1-cC_6t8h-a1-m1-cE 6t8h-a1-m1-cD_6t8h-a1-m1-cE GSMPFEIVFEGAKEFAQLIETASRLIDEAAFKVTEEGISMRAMDPSRVVLIDLNLPASIFSKYEVDGEETIGVNMDHLKKVLKRGKAKETLILRKGEENFLEISLQGTATRTFKLPLIELPFTAKVVILGDVIKEAVKDASLVSDSMKFIAKENEFTMRAEGETQEVEVKLTLEDEGLLDIEVQEETKSAYGISYLSDMVKGLGKADEVTIKFGNEMPMQMEYYIRDEGRLIFLLAPRV GSMPFEIVFEGAKEFAQLIETASRLIDEAAFKVTEEGISMRAMDPSRVVLIDLNLPASIFSKYEVDGEETIGVNMDHLKKVLKRGKAKETLILRKGEENFLEISLQGTATRTFKLPLIELPFTAKVVILGDVIKEAVKDASLVSDSMKFIAKENEFTMRAEGETQEVEVKLTLEDEGLLDIEVQEETKSAYGISYLSDMVKGLGKADEVTIKFGNEMPMQMEYYIRDEGRLIFLLAPRV 6t86-a1-m1-cA_6t86-a1-m4-cA Urocanate reductase in complex with FAD Q8CVD0 Q8CVD0 2.56 X-RAY DIFFRACTION 63 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 454 454 6t86-a1-m2-cA_6t86-a1-m3-cA MEYTYDVVIIGSGGAGFSAGLEAIAAGRSAVIIEKMPIIGGNSLISGAEMNVAGSWVQKNMGITDSKELFISDTLKGGDFKGDPEMVKTMVDNAVGAAEWLRDYVKVEFYPDQLFQFGGHSVKRALIPKGHTGAEVISKFSIKADEVGLPIHTNTKAEKLIQDQTGRIVGVEAAHNGKTITYHAKRGVVIATGGFSSNMEMRKKYNPELDERYGSTGHAGGTGDGIVMAEKIHAAAKNMGYIQSYPICSPTSGAIALIADSRFFGAVLINQKGERFVEELERRDVISHAILAQPGRYTYVLWNQDIENVAHTVEMHQGELKEFTKDGLMYKVDTLEEAAKVFNIPEDKLLSTIKDVNHYAATGKDEAFNHRSGLVDLSKGPYWILKATPSVHHTMGGLVVDTRTRVLDEQGKVIPGLFAAGEVTGLTHGTNRLGGNAYTDIIVYGRIAGQEAAK MEYTYDVVIIGSGGAGFSAGLEAIAAGRSAVIIEKMPIIGGNSLISGAEMNVAGSWVQKNMGITDSKELFISDTLKGGDFKGDPEMVKTMVDNAVGAAEWLRDYVKVEFYPDQLFQFGGHSVKRALIPKGHTGAEVISKFSIKADEVGLPIHTNTKAEKLIQDQTGRIVGVEAAHNGKTITYHAKRGVVIATGGFSSNMEMRKKYNPELDERYGSTGHAGGTGDGIVMAEKIHAAAKNMGYIQSYPICSPTSGAIALIADSRFFGAVLINQKGERFVEELERRDVISHAILAQPGRYTYVLWNQDIENVAHTVEMHQGELKEFTKDGLMYKVDTLEEAAKVFNIPEDKLLSTIKDVNHYAATGKDEAFNHRSGLVDLSKGPYWILKATPSVHHTMGGLVVDTRTRVLDEQGKVIPGLFAAGEVTGLTHGTNRLGGNAYTDIIVYGRIAGQEAAK 6t86-a2-m1-cA_6t86-a2-m5-cA Urocanate reductase in complex with FAD Q8CVD0 Q8CVD0 2.56 X-RAY DIFFRACTION 91 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 454 454 MEYTYDVVIIGSGGAGFSAGLEAIAAGRSAVIIEKMPIIGGNSLISGAEMNVAGSWVQKNMGITDSKELFISDTLKGGDFKGDPEMVKTMVDNAVGAAEWLRDYVKVEFYPDQLFQFGGHSVKRALIPKGHTGAEVISKFSIKADEVGLPIHTNTKAEKLIQDQTGRIVGVEAAHNGKTITYHAKRGVVIATGGFSSNMEMRKKYNPELDERYGSTGHAGGTGDGIVMAEKIHAAAKNMGYIQSYPICSPTSGAIALIADSRFFGAVLINQKGERFVEELERRDVISHAILAQPGRYTYVLWNQDIENVAHTVEMHQGELKEFTKDGLMYKVDTLEEAAKVFNIPEDKLLSTIKDVNHYAATGKDEAFNHRSGLVDLSKGPYWILKATPSVHHTMGGLVVDTRTRVLDEQGKVIPGLFAAGEVTGLTHGTNRLGGNAYTDIIVYGRIAGQEAAK MEYTYDVVIIGSGGAGFSAGLEAIAAGRSAVIIEKMPIIGGNSLISGAEMNVAGSWVQKNMGITDSKELFISDTLKGGDFKGDPEMVKTMVDNAVGAAEWLRDYVKVEFYPDQLFQFGGHSVKRALIPKGHTGAEVISKFSIKADEVGLPIHTNTKAEKLIQDQTGRIVGVEAAHNGKTITYHAKRGVVIATGGFSSNMEMRKKYNPELDERYGSTGHAGGTGDGIVMAEKIHAAAKNMGYIQSYPICSPTSGAIALIADSRFFGAVLINQKGERFVEELERRDVISHAILAQPGRYTYVLWNQDIENVAHTVEMHQGELKEFTKDGLMYKVDTLEEAAKVFNIPEDKLLSTIKDVNHYAATGKDEAFNHRSGLVDLSKGPYWILKATPSVHHTMGGLVVDTRTRVLDEQGKVIPGLFAAGEVTGLTHGTNRLGGNAYTDIIVYGRIAGQEAAK 6t87-a1-m1-cA_6t87-a1-m2-cA Urocanate reductase in complex with urocanate Q8CVD0 Q8CVD0 1.56 X-RAY DIFFRACTION 50 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 454 454 6t86-a1-m1-cA_6t86-a1-m3-cA 6t86-a1-m2-cA_6t86-a1-m4-cA 6t88-a1-m1-cA_6t88-a1-m2-cA MEYTYDVVIIGSGGAGFSAGLEAIAAGRSAVIIEKMPIIGGNSLISGAEMNVAGSWVQKNMGITDSKELFISDTLKGGDFKGDPEMVKTMVDNAVGAAEWLRDYVKVEFYPDQLFQFGGHSVKRALIPKGHTGAEVISKFSIKADEVGLPIHTNTKAEKLIQDQTGRIVGVEAAHNGKTITYHAKRGVVIATGGFSSNMEMRKKYNPELDERYGSTGHAGGTGDGIVMAEKIHAAAKNMGYIQSYPICSPTSGAIALIADSRFFGAVLINQKGERFVEELERRDVISHAILAQPGRYTYVLWNQDIENVAHTVEMHQGELKEFTKDGLMYKVDTLEEAAKVFNIPEDKLLSTIKDVNHYAATGKDEAFNHRSGLVDLSKGPYWILKATPSVHHTMGGLVVDTRTRVLDEQGKVIPGLFAAGEVTGLTHGTNRLGGNAYTDIIVYGRIAGQEAAK MEYTYDVVIIGSGGAGFSAGLEAIAAGRSAVIIEKMPIIGGNSLISGAEMNVAGSWVQKNMGITDSKELFISDTLKGGDFKGDPEMVKTMVDNAVGAAEWLRDYVKVEFYPDQLFQFGGHSVKRALIPKGHTGAEVISKFSIKADEVGLPIHTNTKAEKLIQDQTGRIVGVEAAHNGKTITYHAKRGVVIATGGFSSNMEMRKKYNPELDERYGSTGHAGGTGDGIVMAEKIHAAAKNMGYIQSYPICSPTSGAIALIADSRFFGAVLINQKGERFVEELERRDVISHAILAQPGRYTYVLWNQDIENVAHTVEMHQGELKEFTKDGLMYKVDTLEEAAKVFNIPEDKLLSTIKDVNHYAATGKDEAFNHRSGLVDLSKGPYWILKATPSVHHTMGGLVVDTRTRVLDEQGKVIPGLFAAGEVTGLTHGTNRLGGNAYTDIIVYGRIAGQEAAK 6t92-a2-m1-cDDD_6t92-a2-m1-cCCC NAD+-dependent fungal formate dehydrogenase from Chaetomium thermophilum: A complex of N120C mutant protein with the reduced form of the cofactor NADH and the substrate formate at a secondary site. G0SGU4 G0SGU4 1.12 X-RAY DIFFRACTION 211 0.995 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 368 371 6t8y-a1-m1-cAAA_6t8y-a1-m1-cBBB 6t8y-a2-m1-cCCC_6t8y-a2-m1-cDDD 6t8z-a1-m1-cAAA_6t8z-a1-m1-cBBB 6t8z-a2-m1-cCCC_6t8z-a2-m1-cDDD 6t92-a1-m1-cAAA_6t92-a1-m1-cBBB 6t94-a1-m1-cAAA_6t94-a1-m1-cBBB 6t94-a2-m1-cDDD_6t94-a2-m1-cCCC YTARLQMVKVLAVLYDGGEHAKQVPGLLGTTENELGLRKWLEDQGHTLVTTSDKDREGSTFDRELEDAEIIITTPFHPGYLTAERLARAKKLKLAVTAGIGSDHVDLDAANKTNGGITVAEVTGSCVVSVAEHVVMTILVLVRNFVPAHEQIEAGRWDVAEVAKDEYDLEGKVVGTVGVGRIGERVLRRLKGFDCKELLYYDYQPLSPEKEKEIGCRRVENLEEMLAQCDVVTINCPLHESTRGLFNKDLISKMKRGSWLVNTARGAIVVKEDVAEALRTGHLRGYGGDVWFPQPAPADHVLRTAKNPFGGGNAMVPHMSGTSLDAQKRYAEGVKRILDSYLSGRFDYRPEDLIVHQGKYATRAYGQR ARLQMVKVLAVLYDGGEHAKQVPGLLGTTENELGLRKWLEDQGHTLVTTSDKDREGSTFDRELEDAEIIITTPFHPGYLTAERLARAKKLKLAVTAGIGSDHVDLDAANKTNGGITVAEVTGSCVVSVAEHVVMTILVLVRNFVPAHEQIEAGRWDVAEVAKDEYDLEGKVVGTVGVGRIGERVLRRLKGFDCKELLYYDYQPLSPEKEKEIGCRRVENLEEMLAQCDVVTINCPLHESTRGLFNKDLISKMKRGSWLVNTARGAIVVKEDVAEALRTGHLRGYGGDVWFPQPAPADHVLRTAKNPFGGGNAMVPHMSGTSLDAQKRYAEGVKRILDSYLSGRFDYRPEDLIVHQGKYATRAYGQREDVKI 6t9d-a1-m1-cLLL_6t9d-a1-m1-cBBB Crystal structure of a bispecific DutaFab in complex with human VEGF121 2.905 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 213 AIQMTQSPSSLSASVGDRVTITCHGSYWLSNYLAWYQQKPGKAPKLLIYDGKEREHGVPSRFSGSGSHEDYTLTISSLQPEDFATYYCQQYRYHPYTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR AIQMTQSPSSLSASVGDRVTITCHGSYWLSNYLAWYQQKPGKAPKLLIYDGKEREHGVPSRFSGSGSHEDYTLTISSLQPEDFATYYCQQYRYHPYTFGQGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE 6tbp-a1-m1-cB_6tbp-a1-m1-cA 3C-like protease from Southampton virus complexed with FMOPL000490a. Q04544 Q04544 1.56 X-RAY DIFFRACTION 61 0.994 37129 (Southampton virus (serotype 3)) 37129 (Southampton virus (serotype 3)) 171 172 1wqs-a1-m1-cA_1wqs-a1-m1-cD 1wqs-a1-m1-cB_1wqs-a1-m1-cC 2iph-a1-m1-cB_2iph-a1-m1-cA 6t1q-a1-m1-cB_6t1q-a1-m1-cA 6t1q-a1-m2-cB_6t1q-a1-m2-cA 6t1q-a2-m1-cB_6t1q-a2-m1-cA 6t2i-a1-m1-cA_6t2i-a1-m1-cB 6t2x-a1-m1-cA_6t2x-a1-m1-cB 6t3g-a1-m1-cB_6t3g-a1-m1-cA 6t49-a1-m1-cB_6t49-a1-m1-cA 6t4e-a1-m1-cA_6t4e-a1-m1-cB 6t4s-a1-m1-cB_6t4s-a1-m1-cA 6t4s-a1-m2-cB_6t4s-a1-m2-cA 6t5d-a1-m1-cA_6t5d-a1-m1-cB 6t5r-a1-m1-cA_6t5r-a1-m1-cB 6t6w-a1-m1-cB_6t6w-a1-m1-cA 6t71-a1-m1-cB_6t71-a1-m1-cA 6t82-a1-m1-cB_6t82-a1-m1-cA 6t8r-a1-m1-cB_6t8r-a1-m1-cA 6t8t-a1-m1-cB_6t8t-a1-m1-cA 6tal-a1-m1-cB_6tal-a1-m1-cA 6taw-a1-m1-cB_6taw-a1-m1-cA 6tbo-a1-m1-cA_6tbo-a1-m1-cB 6tc1-a1-m1-cA_6tc1-a1-m1-cB 6tcf-a1-m1-cB_6tcf-a1-m1-cA 6tgl-a1-m1-cB_6tgl-a1-m1-cA PTLWSRVTKFGSGWGFWVSPTVFITTTHVIPTSAKEFFGEPLTSIAIHRAGEFTLFRFSKKIRPDLTGMILEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTGANAKGMDLGTIPGDCGAPYVYKRANDWVVCGVHAAATKSGNTVVCAVQA APPTLWSRVTKFGSGWGFWVSPTVFITTTHVIPTSAKEFFGEPLTSIAIHRAGEFTLFRFSKKIRPDLTGMILEEGCPEGTVCSVLIKRDSGELLPLAVRMGAIASMRIQGRLVHGQSGMLLTGANAKGMDLGTIPGDCGAPYVYKRANDWVVCGVHAAATKSGNTVVCAVQ 6tc0-a3-m1-cB_6tc0-a3-m1-cE Crystal structure of MMS19-CIAO1-CIAO2B CIA targeting complex Q9VTC4 Q9VTC4 3.6 X-RAY DIFFRACTION 101 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 154 154 PTEIENINPNVYDRIKERVLTANEEDENVPDPFDKREIFDLIRNINDPEHPLTLEELHVVQEDLIRINDSQNSVHISFTPTIPHCSMATLIGLSIRVKLLRSLPPRFKVTVEITPGTHASELAVNKQLADKERVAAALENNHLAEVINQCIAAK PTEIENINPNVYDRIKERVLTANEEDENVPDPFDKREIFDLIRNINDPEHPLTLEELHVVQEDLIRINDSQNSVHISFTPTIPHCSMATLIGLSIRVKLLRSLPPRFKVTVEITPGTHASELAVNKQLADKERVAAALENNHLAEVINQCIAAK 6tc0-a3-m1-cF_6tc0-a3-m1-cC Crystal structure of MMS19-CIAO1-CIAO2B CIA targeting complex Q9D071 Q9D071 3.6 X-RAY DIFFRACTION 165 0.999 10090 (Mus musculus) 10090 (Mus musculus) 989 994 GALCGLVQDFVMGQQEGPADQVAADVKSGTVLQVVEALGSSLENAEPRTRARGAQLLSQVLLQCHSLLSEKEVVHLILFYENRLKDHHLVVPSVLQGLRALSMSVALPPGLAVSVLKAIFQEVHVQSLLQVDRHTVFSIITNFMRSREEELKGLGADFTFGFIQVMDGEKDPRNLLLAFRIVHDLISKDYSLGPFVEELFEVTSCYFPIDFTPPPNDPYGIQREDLILSLRAVLASTPRFAEFLLPLLIEKVDSEILSAKLDSLQTLNACCAVYGQKELKDFLPSLWASIRREVFQTASERVEAEGLAALHSLTACLSCSVLRADAEDLLGSFLSNILQDCRHHLCEPDMKLVWPSAKLLQAAAGASARACEHLTSNVLPLLLEQFHKHSQSNQRRTILEMILGFLKLQQKWSYEDRDERPLSSFKDQLCSLVFMALTDPSTQLQLVGIRTLTVLGAQPGLLSAEDLELAVGHLYRLTFLEEDSQSCRVAALEASGTLATLYPGAFSRHLLPKLAEELHKGESTKCSRHFRCLQALSAVSTHPSIVKETLPLLLQHLCQANKGNMVTESSEVVAVCQSLQQVAEKCQQDPESYWYFHKTAVPCLFALAVQASMPLLEDEVLAALASVIGTATTHLSPELAAQSVTCIVPLFLDGNTSFLPEQFQPFQDGSSGQRRLVALLTAFVCSLPRNVEIPQLNRLMRELLKQSCGHSCPFSSTAATKCFAGLLNKQPPGQQLEEFLQLAVGTVEAGLASESSRDQAFTLLLWVTKALVLRYHPLSACLTTRLMGLLSDPELGCAAADGFSLLMSDCTDVLTRAGHADVRIMFRQRFFTDNVPALVQGFHAAPQDVKPNYLKGLSHVLNRLPKPVLLPELPTLLSLLLEALSCPDSVVQLSTLSCLQPLLLEAPQIMSLHVDTLVTKFLNLSSSYSMAVRIAALQCMHALTRLPTSVLLPYKSQVIRALAKPLDDKKRLVRKEAVSARGEWFLLGS PMGALCGLVQDFVMGQQEGPADQVAADVKSGTVLQVVEALGSSLENAEPRTRARGAQLLSQVLLQCHSLLSEKEVVHLILFYENRLKDHHLVVPSVLQGLRALSMSVALPPGLAVSVLKAIFQEVHVQSLLQVDRHTVFSIITNFMRSREEELKGLGADFTFGFIQVMDGEKDPRNLLLAFRIVHDLISKDYSLGPFVEELFEVTSCYFPIDFTPPPNDPYGIQREDLILSLRAVLASTPRFAEFLLPLLIEKVDSEILSAKLDSLQTLNACCAVYGQKELKDFLPSLWASIRREVFQTASERVEAEGLAALHSLTACLSCSVLRADAEDLLGSFLSNILQDCRHHLCEPDMKLVWPSAKLLQAAAGASARACEHLTSNVLPLLLEQFHKHSQSNQRRTILEMILGFLKLQQKWSYEDRDERPLSSFKDQLCSLVFMALTDPSTQLQLVGIRTLTVLGAQPGLLSAEDLELAVGHLYRLTFLEEDSQSCRVAALEASGTLATLYPGAFSRHLLPKLAEELHKGESTKCSRHFRCLQALSAVSTHPSIVKETLPLLLQHLCQANKGNMVTESSEVVAVCQSLQQVAEKCQQDPESYWYFHKTAVPCLFALAVQASMPLLEDEVLAALASVIGTATTHLSPELAAQSVTCIVPLFLDGNTSFLPENSFPFQPFQDGSSGQRRLVALLTAFVCSLPRNVEIPQLNRLMRELLKQSCGHSCPFSSTAATKCFAGLLNKQPPGQQLEEFLQLAVGTVEAGLASESSRDQAFTLLLWVTKALVLRYHPLSACLTTRLMGLLSDPELGCAAADGFSLLMSDCTDVLTRAGHADVRIMFRQRFFTDNVPALVQGFHAAPQDVKPNYLKGLSHVLNRLPKPVLLPELPTLLSLLLEALSCPDSVVQLSTLSCLQPLLLEAPQIMSLHVDTLVTKFLNLSSSYSMAVRIAALQCMHALTRLPTSVLLPYKSQVIRALAKPLDDKKRLVRKEAVSARGEWFLLGS 6tc7-a1-m1-cAAA_6tc7-a1-m1-cBBB PAS-GAF bidomain of Glycine max phytochromeA B4YB07 B4YB07 2.13 X-RAY DIFFRACTION 107 1.0 3847 (Glycine max) 3847 (Glycine max) 317 319 TTAYLHHMQKGKMIQPFGCLLALDEKTCKVIAYSENAPEMLTMVDHPALGIGTDIKTLFTAPSASALQKALGFAEVLLLNPVLIHCKTSGKPFYAIIHRVTGSMIIDFEPVKPYEVPMTAAGALQSYKLAAKAITRLQSLPSGSMERLCDTMVQEVFELTGYDRVMAYKFHEDDHGEVIAEITKPGLEPYLGLHYPATDIPQASRFLFMKNKVRMIVDCHAKHVRVLQDEKLPFDLTLCGSTLRAPHSCHAQYMANMDSIASLVMAVVVNRKRLWGLVVCHNTTPRFVPFPLRYACEFLAQVFAIHVNKEIELHHHH KVTTAYLHHMQKGKMIQPFGCLLALDEKTCKVIAYSENAPEMLTMVDHPALGIGTDIKTLFTAPSASALQKALGFAEVLLLNPVLIHCKTSGKPFYAIIHRVTGSMIIDFEPVKPYEVPMTAAGALQSYKLAAKAITRLQSLPSGSMERLCDTMVQEVFELTGYDRVMAYKFHEDDHGEVIAEITKPGLEPYLGLHYPATDIPQASRFLFMKNKVRMIVDCHAKHVRVLQDEKLPFDLTLCGSTLRAPHSCHAQYMANMDSIASLVMAVVVNRKRLWGLVVCHNTTPRFVPFPLRYACEFLAQVFAIHVNKEIELHHHH 6tcb-a1-m1-cA_6tcb-a1-m1-cB Crystal structure of protein PA2723 from Pseudomonas aeruginosa PAO1 Q9I0B9 Q9I0B9 1.35 X-RAY DIFFRACTION 53 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 94 94 GHMDELFEEHLEIAKALFAQRLPYWCDVFLRPADQAFNAYLNARGQASTYLVLEGFDPVYVPRGCDLDAVRATARARARLREAGLGEDALPVLL GHMDELFEEHLEIAKALFAQRLPYWCDVFLRPADQAFNAYLNARGQASTYLVLEGFDPVYVPRGCDLDAVRATARARARLREAGLGEDALPVLL 6tcc-a1-m2-cA_6tcc-a1-m3-cA Crystal structure of Salmo salar RidA-1 A0A1S3KNQ3 A0A1S3KNQ3 1.05 X-RAY DIFFRACTION 97 1.0 8030 (Salmo salar) 8030 (Salmo salar) 134 134 6tcc-a1-m1-cA_6tcc-a1-m2-cA 6tcc-a1-m1-cA_6tcc-a1-m3-cA SSIIRKIINTSKAPAAIGPYSQAVVVDRTMYVSGQLGMDPASGQLVEGGVQAQTKQALVNMGEILKEAGCGYDSVVKTTVLLADMNDFASVNDVYKTFFSSSFPARAAYQVAALPRGGLVEIEAVAVLGPLTEV SSIIRKIINTSKAPAAIGPYSQAVVVDRTMYVSGQLGMDPASGQLVEGGVQAQTKQALVNMGEILKEAGCGYDSVVKTTVLLADMNDFASVNDVYKTFFSSSFPARAAYQVAALPRGGLVEIEAVAVLGPLTEV 6tcd-a2-m1-cE_6tcd-a2-m1-cD Crystal structure of Salmo salar RidA-2 C0H8I4 C0H8I4 1.36 X-RAY DIFFRACTION 83 1.0 8030 (Salmo salar) 8030 (Salmo salar) 130 133 6tcd-a1-m1-cA_6tcd-a1-m1-cB 6tcd-a1-m1-cA_6tcd-a1-m1-cC 6tcd-a1-m1-cB_6tcd-a1-m1-cC 6tcd-a2-m1-cF_6tcd-a2-m1-cD 6tcd-a2-m1-cF_6tcd-a2-m1-cE AAVQKLFPYTPRAPIRQGIYSQAVVVDRTMYISGQLGLDVASGKLVEGGVQAQARQALVNMGEILKAAGCGYDNVVKTTVLLADMNDFVNVNDVYKTFFSKNFPARAAYQVVALPRGGLVEIEAVAVLGP SHMAAVQKLFPYTPRAPIRQGIYSQAVVVDRTMYISGQLGLDVASGKLVEGGVQAQARQALVNMGEILKAAGCGYDNVVKTTVLLADMNDFVNVNDVYKTFFSKNFPARAAYQVVALPRGGLVEIEAVAVLGP 6tcl-a1-m1-cLL_6tcl-a1-m1-cL2 Photosystem I tetramer P58577 P58577 3.2 ELECTRON MICROSCOPY 27 0.987 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 154 167 6jeo-a1-m1-caL_6jeo-a1-m1-cbL 6jeo-a1-m1-ccL_6jeo-a1-m1-cdL 6k61-a1-m1-cL_6k61-a1-m1-cl 6tcl-a1-m1-cL_6tcl-a1-m1-cL1 NREVVFPAGRDPQWGNLETPVNASPLVKWFINNLPAYRPGLTPFRRGLEVGMAHGYFLFGPFAKLGPLRDAANANLAGLLGAIGLVVLFTLALSLYANSNPPTALASVTVPNPPDAFQSKEGWNNFASAFLIGGIGGAVVAYFLTSNLALIQGL AQAVDASKNLPSDPRNREVVFPAGRDPQWGNLETPVNASPLVKWFINNLPAYRPGLTPFRRGLEVGMAHGYFLFGPFAKLGPLRDAANANLAGLLGAIGLVVLFTLALSLYANSNPPTALASVTVPNPPDAFQSKEGWNNFASAFLIGGIGGAVVAYFLTSNLALIQ 6tct-a2-m1-cA_6tct-a2-m1-cC MakD from the mak operon of Vibrio cholerae Q9KL67 Q9KL67 2.02 X-RAY DIFFRACTION 70 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 125 125 6tct-a1-m1-cB_6tct-a1-m1-cD KKIEILIVVDCAGALATTSLISNVYLIDSNQWLGSWDEGTCQLHTVSEDGQFICWRSCAISPDDEVNITGFYGDMIDQKACLPSPVNDAWEGRVQTRGDTGRYLYTISLSINGITMNFSPYLEVQ KKIEILIVVDCAGALATTSLISNVYLIDSNQWLGSWDEGTCQLHTVSEDGQFICWRSCAISPDDEVNITGFYGDMIDQKACLPSPVNDAWEGRVQTRGDTGRYLYTISLSINGITMNFSPYLEVQ 6tcz-a1-m1-cK_6tcz-a1-m1-ck Leishmania tarentolae proteasome 20S subunit complexed with LXE408 A0A504XH29 A0A504XH29 3.4 ELECTRON MICROSCOPY 38 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 206 206 6qm7-a1-m1-cK_6qm7-a1-m1-cY 6qm8-a1-m1-cK_6qm8-a1-m1-cY 6td5-a1-m1-cK_6td5-a1-m1-ck 7zyj-a1-m1-cK_7zyj-a1-m1-ck MAETAIAFRCKDYVMVAAAGLNAFYYIKITDAEDKITQLDTHQLVACTGENGPRVNFTEYIKCNLALNRMRQHGRHSSCESTANFMRNCLASAIRSREGAYQVNCLFAGYDTPVSEDDDGVVGPQLFYMDYLGTLQAVPYGCHGYGACFVTALLDRLWRPDLSQQEGLELMQKCCDEVKRRVIISNSYFFVKAVTKNGVEVITAVH MAETAIAFRCKDYVMVAAAGLNAFYYIKITDAEDKITQLDTHQLVACTGENGPRVNFTEYIKCNLALNRMRQHGRHSSCESTANFMRNCLASAIRSREGAYQVNCLFAGYDTPVSEDDDGVVGPQLFYMDYLGTLQAVPYGCHGYGACFVTALLDRLWRPDLSQQEGLELMQKCCDEVKRRVIISNSYFFVKAVTKNGVEVITAVH 6tdd-a1-m1-cA_6tdd-a1-m1-cB Bam_5924 docking domain Q0B304 Q0B304 NOT SOLUTION NMR 49 1.0 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 45 45 GPGSMNKPTSSDGWKDDYLSRLSRLSKNQLMALALKLKQQQLEQG GPGSMNKPTSSDGWKDDYLSRLSRLSKNQLMALALKLKQQQLEQG 6tdg-a1-m1-cA_6tdg-a1-m2-cA Crystal structure of Aspergillus fumigatus Glucosamine-6-phosphate N-acetyltransferase 1 in complex with compound 2 Q4WCU5 Q4WCU5 1.74 X-RAY DIFFRACTION 183 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 165 165 2vez-a1-m1-cA_2vez-a1-m2-cA 2vxk-a1-m1-cA_2vxk-a1-m2-cA 6tdf-a1-m1-cA_6tdf-a1-m2-cA 6tdh-a1-m1-cA_6tdh-a1-m2-cA ENTPLFSPSLISPDVLAVLPADYTIRPLCRSDYKRGYLDVLRVLTTVGDINEEQWNSRYEWIRARSDEYYLLVVCDGEGRIVGTGSLVVERKFIHSLGMVGHIEDIAVEKGQQGKKLGLRIIQALDYVAEKVGCYKTILDCSEANEGFYIKCGFKRAGLEMAHYY ENTPLFSPSLISPDVLAVLPADYTIRPLCRSDYKRGYLDVLRVLTTVGDINEEQWNSRYEWIRARSDEYYLLVVCDGEGRIVGTGSLVVERKFIHSLGMVGHIEDIAVEKGQQGKKLGLRIIQALDYVAEKVGCYKTILDCSEANEGFYIKCGFKRAGLEMAHYY 6tdm-a1-m1-cA_6tdm-a1-m1-cB Bam_5920cDD 5919nDD docking domains Q0B309 Q0B309 NOT SOLUTION NMR 81 1.0 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 64 64 GPGSYDAALPIDELSALLRQEMGDDGGGSGGGSMQDIQQLLAKSLTEIKRLKAANQALEQARRE GPGSYDAALPIDELSALLRQEMGDDGGGSGGGSMQDIQQLLAKSLTEIKRLKAANQALEQARRE 6tdn-a1-m1-cA_6tdn-a1-m1-cB Bam_5925cDD 5924nDD docking domains Q0B304 Q0B304 NOT SOLUTION NMR 71 1.0 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 87 87 GPGSYAPLDTELSEIEGLQDDDLAALLGKEFIREGGGSGGGSGGGSMNKPTSSDGWKDDYLSRLSRLSKNQLMALALKLKQQQLEQG GPGSYAPLDTELSEIEGLQDDDLAALLGKEFIREGGGSGGGSGGGSMNKPTSSDGWKDDYLSRLSRLSKNQLMALALKLKQQQLEQG 6tdu-a1-m1-cH_6tdu-a1-m1-ch Cryo-EM structure of Euglena gracilis mitochondrial ATP synthase, full dimer, rotational states 1 4.32 ELECTRON MICROSCOPY 17 1.0 3039 (Euglena gracilis) 3039 (Euglena gracilis) 460 460 VSGVAPTIYLRSKAALPATSTTDVRPQLYALQRFAKAQLKTATEAERAAIEADIARYQEYLDSDLEKLKQDVAEDTAKKQKLIPLLDRYPDVPIEKIPEHANVLLKKIDACLEILSKDIGEVTDAEAHEMYFETSKFQILHIYTGCVASFPEGDVPPGAVECLPGQVIRTKVNGEDVMLEIDEVDPGYQVCWFKPDVPLPENAEILWSYPYEPTAALPTGTTWEEGQANVLIPAEPTPEAAVWPPTPVTNVYAPMAEKLALKSNPELKVLFKEALLQPAKLLPLDVDYQCSHDREVVEAKRDRYLTALVEAEQAPPLPFTPDVLQLQLEHNVLKGELIDRLRALEYTIVTEQLQARLHERRLRGDVIDEWEELDYHPLVRDDTYLAIDFGDPTFGRYIWKLFPHTDGDEECMFKDTRLDVLPPQVNPLNAILAQHTAQTPVHRSLEKRLWTEVRATAVSE VSGVAPTIYLRSKAALPATSTTDVRPQLYALQRFAKAQLKTATEAERAAIEADIARYQEYLDSDLEKLKQDVAEDTAKKQKLIPLLDRYPDVPIEKIPEHANVLLKKIDACLEILSKDIGEVTDAEAHEMYFETSKFQILHIYTGCVASFPEGDVPPGAVECLPGQVIRTKVNGEDVMLEIDEVDPGYQVCWFKPDVPLPENAEILWSYPYEPTAALPTGTTWEEGQANVLIPAEPTPEAAVWPPTPVTNVYAPMAEKLALKSNPELKVLFKEALLQPAKLLPLDVDYQCSHDREVVEAKRDRYLTALVEAEQAPPLPFTPDVLQLQLEHNVLKGELIDRLRALEYTIVTEQLQARLHERRLRGDVIDEWEELDYHPLVRDDTYLAIDFGDPTFGRYIWKLFPHTDGDEECMFKDTRLDVLPPQVNPLNAILAQHTAQTPVHRSLEKRLWTEVRATAVSE 6tdv-a1-m1-cH_6tdv-a1-m1-ch Cryo-EM structure of Euglena gracilis mitochondrial ATP synthase, membrane region 2.8 ELECTRON MICROSCOPY 13 1.0 3039 (Euglena gracilis) 3039 (Euglena gracilis) 388 388 TDVRPQLYALQRFAKAQLKTATEAERAAIEADIARYQEYLDSDLEKLKQDVAEDTAKKQKLIPLLDRYPDVPIEKIPEHANVLLKKIDACLEILSKDIGEVTDAEAHEMYFETSKFQILHIYTGCVASFPEGDVPPGAVECLPGQVIRTKVNGEDVMLEIDEVDPGYQVCWFKPDVPLPENAEILWSYPYEPTAALPTGTTWEEGQANVLIPAEPTPEAAVWPPTPVTNVYAPMAEKLALKSPPLPFTPDVLQLQLEHNVLKGELIDRLRALEYTIVTEQLQARLHERRLRGDVIDEWEELDYHPLVRDDTYLAIDFGDPTFGRYIWKLFPHTDGDEECMFKDTRLDVLPPQVNPLNAILAQHTAQTPVHRSLEKRLWTEVRATAVSE TDVRPQLYALQRFAKAQLKTATEAERAAIEADIARYQEYLDSDLEKLKQDVAEDTAKKQKLIPLLDRYPDVPIEKIPEHANVLLKKIDACLEILSKDIGEVTDAEAHEMYFETSKFQILHIYTGCVASFPEGDVPPGAVECLPGQVIRTKVNGEDVMLEIDEVDPGYQVCWFKPDVPLPENAEILWSYPYEPTAALPTGTTWEEGQANVLIPAEPTPEAAVWPPTPVTNVYAPMAEKLALKSPPLPFTPDVLQLQLEHNVLKGELIDRLRALEYTIVTEQLQARLHERRLRGDVIDEWEELDYHPLVRDDTYLAIDFGDPTFGRYIWKLFPHTDGDEECMFKDTRLDVLPPQVNPLNAILAQHTAQTPVHRSLEKRLWTEVRATAVSE 6tdv-a1-m1-cM_6tdv-a1-m1-cm Cryo-EM structure of Euglena gracilis mitochondrial ATP synthase, membrane region 2.8 ELECTRON MICROSCOPY 107 1.0 3039 (Euglena gracilis) 3039 (Euglena gracilis) 166 166 6tdu-a1-m1-cM_6tdu-a1-m1-cm SLAKVWMYASWIPRGIPKAMANELSSAAAALAHPEAIARVAQLESQGKNPYRVARAEFWQMYLACWPYRFRNTVVEWETCKAKVLKGSVDLQDIVDLLYLLAWAYLFWILGEIYGRGSLYGYRFDGEIHRQEAQNVILYKEKEAQEMAVVMEKLEKEIQEWLKTME SLAKVWMYASWIPRGIPKAMANELSSAAAALAHPEAIARVAQLESQGKNPYRVARAEFWQMYLACWPYRFRNTVVEWETCKAKVLKGSVDLQDIVDLLYLLAWAYLFWILGEIYGRGSLYGYRFDGEIHRQEAQNVILYKEKEAQEMAVVMEKLEKEIQEWLKTME 6teh-a1-m2-cD_6teh-a1-m3-cD Baseplate of native GTA particle computed with C3 symmetry A0A9S9 A0A9S9 3.99 ELECTRON MICROSCOPY 34 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 439 439 6tba-a1-m1-c8A_6tba-a1-m1-c8B 6tba-a1-m1-c8A_6tba-a1-m1-c8C 6tba-a1-m1-c8B_6tba-a1-m1-c8C 6teh-a1-m1-cD_6teh-a1-m2-cD 6teh-a1-m1-cD_6teh-a1-m3-cD ATILLSAAGAAIGGGFGGTVLGLGRVIDQRLLGSGSQSVETGRVDRLRLSSASEGEAVGRLWGRMRVAGQVIWATRFFESASYSLSLALALCEGEILRVGRVWADGSEIEVSGLNMRVYRGGEDQLPDPKIAAVEGAEAAPAYRGIAYVVLEDLQLAPFGNRVPQFTFEVVRAAQGALAEAEPDLTRGLRAVALIPGTGWSDGENYARGHWISGRAVAQPLASVVAEICGAAGITEIDVSGLYGLVRGYTMTGDQTGRAGLQALMLAYGFEALERDGQLVFRMRDGRVAADLAAADLALGEGEAVVETVRAAEAEIAGRVRLAYVEAEGDFEVKAVEAVFPDAAAGAAAGSELSLALTRAQAQGIVGRWLAEARVARDTARFALPPSRGHLGTGDVVRLDLPEGKRRYRIDRVEQAGLIQVEAVRVEPGIYAPADEVED ATILLSAAGAAIGGGFGGTVLGLGRVIDQRLLGSGSQSVETGRVDRLRLSSASEGEAVGRLWGRMRVAGQVIWATRFFESASYSLSLALALCEGEILRVGRVWADGSEIEVSGLNMRVYRGGEDQLPDPKIAAVEGAEAAPAYRGIAYVVLEDLQLAPFGNRVPQFTFEVVRAAQGALAEAEPDLTRGLRAVALIPGTGWSDGENYARGHWISGRAVAQPLASVVAEICGAAGITEIDVSGLYGLVRGYTMTGDQTGRAGLQALMLAYGFEALERDGQLVFRMRDGRVAADLAAADLALGEGEAVVETVRAAEAEIAGRVRLAYVEAEGDFEVKAVEAVFPDAAAGAAAGSELSLALTRAQAQGIVGRWLAEARVARDTARFALPPSRGHLGTGDVVRLDLPEGKRRYRIDRVEQAGLIQVEAVRVEPGIYAPADEVED 6tek-a1-m1-cA_6tek-a1-m1-cB Structure of siderophore interaction domain of IrtAB A0A100XEC2 A0A100XEC2 1.8 X-RAY DIFFRACTION 18 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 230 230 RDHQATVVDKEYIAPHFVRVRLVSPTLFDEVIVEPTSWLRFWFPDPDGSDTEFQRAYTITESDPETGRFAVDMVLHEPAGPASTWARTVEPGATIAVMSMGSRGFSVPEDPEDRPVGYLLIGDSASTPAINGIIEVVPHDIPIELYLEQHHDDDVLIPLAEHPRLRVHRVSRDDASSLAAALELRDWSNWYCWAGPEAGALKQVRTRLRDEFGFPKREVYAQAYWTEGRA RDHQATVVDKEYIAPHFVRVRLVSPTLFDEVIVEPTSWLRFWFPDPDGSDTEFQRAYTITESDPETGRFAVDMVLHEPAGPASTWARTVEPGATIAVMSMGSRGFSVPEDPEDRPVGYLLIGDSASTPAINGIIEVVPHDIPIELYLEQHHDDDVLIPLAEHPRLRVHRVSRDDASSLAAALELRDWSNWYCWAGPEAGALKQVRTRLRDEFGFPKREVYAQAYWTEGRA 6tfj-a1-m1-cA_6tfj-a1-m1-cC Vip3Aa protoxin structure Q58XI2 Q58XI2 2.9 ELECTRON MICROSCOPY 13 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 764 764 PSFIDYFNGIYGFATGIKDIMNMIFKTDTGGDLTLDEILKNQQLLNDISGKLDGVNGSLNDLIAQGNLNTELSKEILKIANEQNQVLNDVNNKLDAINTMLRVYLPKLTSMLSDVMKQNYALSLQIEYLSKQLQEISDKLDIINVNVLINSTLTEITPAYQRIKYVNEKFEELTFATEDILDELTELTELAKSVTKNDVDGFEFYLNTFHDVMVGNNLFGRSALKTASELITKENVKTSGSEVGNVYNFLIVLTALQAKAFLTLTTCRKLLGLADIDYTSIMNEHLNKEKEEFRVNILPTLSNTFSNPNYAKVKGSDEDAKMIVEAKPGHALIGFEISNDSITVLKVYEAKLKQNYQVDKDSLSEVIYGDMDKLLCPDQSEQIYYTNNIVFPNEYVITKIDFTKKMKTLRYEVTANFYDSSTGEIDLNKKKVESSEAEYRTLSANDDGVYMPLGVISETFLTPINGFGLQADENSRLITLTCKSYLRELLLATDLSNKETKLIVPPSGFISNIVENGSIEEDNLEPWKANNKNAYVDHTGGVNGTKALYVHKDGGISQFIGDKLKPKTEYVIQYTVKGKPSIHLKDENTGYIHYEDTNNNLEDYQTINKRFTTGTDLKGVYLILKSQNGDEAWGDNFIILEISPSEKLLSPELINTNNWTSTGSTNISGNTLTLYQGGRGILKQNLQLDSFSTYRVYFSVSGDANVRIRNSREVLFEKRYMSGAKDVSEMFTTKFEKDNFYIELSQGNNLYGGPIVHFYDVSIK PSFIDYFNGIYGFATGIKDIMNMIFKTDTGGDLTLDEILKNQQLLNDISGKLDGVNGSLNDLIAQGNLNTELSKEILKIANEQNQVLNDVNNKLDAINTMLRVYLPKLTSMLSDVMKQNYALSLQIEYLSKQLQEISDKLDIINVNVLINSTLTEITPAYQRIKYVNEKFEELTFATEDILDELTELTELAKSVTKNDVDGFEFYLNTFHDVMVGNNLFGRSALKTASELITKENVKTSGSEVGNVYNFLIVLTALQAKAFLTLTTCRKLLGLADIDYTSIMNEHLNKEKEEFRVNILPTLSNTFSNPNYAKVKGSDEDAKMIVEAKPGHALIGFEISNDSITVLKVYEAKLKQNYQVDKDSLSEVIYGDMDKLLCPDQSEQIYYTNNIVFPNEYVITKIDFTKKMKTLRYEVTANFYDSSTGEIDLNKKKVESSEAEYRTLSANDDGVYMPLGVISETFLTPINGFGLQADENSRLITLTCKSYLRELLLATDLSNKETKLIVPPSGFISNIVENGSIEEDNLEPWKANNKNAYVDHTGGVNGTKALYVHKDGGISQFIGDKLKPKTEYVIQYTVKGKPSIHLKDENTGYIHYEDTNNNLEDYQTINKRFTTGTDLKGVYLILKSQNGDEAWGDNFIILEISPSEKLLSPELINTNNWTSTGSTNISGNTLTLYQGGRGILKQNLQLDSFSTYRVYFSVSGDANVRIRNSREVLFEKRYMSGAKDVSEMFTTKFEKDNFYIELSQGNNLYGGPIVHFYDVSIK 6tfj-a1-m1-cB_6tfj-a1-m1-cD Vip3Aa protoxin structure Q58XI2 Q58XI2 2.9 ELECTRON MICROSCOPY 34 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 765 765 PSFIDYFNGIYGFATGIKDIMNMIFKTDTGGDLTLDEILKNQQLLNDISGKLDGVNGSLNDLIAQGNLNTELSKEILKIANEQNQVLNDVNNKLDAINTMLRVYLPKLTSMLSDVMKQNYALSLQIEYLSKQLQEISDKLDIINVNVLINSTLTEITPAYQRIKYVNEKFEELTFATPADILDELTELTELAKSVTKNDVDGFEFYLNTFHDVMVGNNLFGRSALKTASELITKENVKTSGSEVGNVYNFLIVLTALQAKAFLTLTTCRKLLGLADIDYTSIMNEHLNKEKEEFRVNILPTLSNTFSNPNYAKVKGSDEDAKMIVEAKPGHALIGFEISNDSITVLKVYEAKLKQNYQVDKDSLSEVIYGDMDKLLCPDQSEQIYYTNNIVFPNEYVITKIDFTKKMKTLRYEVTANFYDSSTGEIDLNKKKVESSEAEYRTLSANDDGVYMPLGVISETFLTPINGFGLQADENSRLITLTCKSYLRELLLATDLSNKETKLIVPPSGFISNIVENGSIEEDNLEPWKANNKNAYVDHTGGVNGTKALYVHKDGGISQFIGDKLKPKTEYVIQYTVKGKPSIHLKDENTGYIHYEDTNNNLEDYQTINKRFTTGTDLKGVYLILKSQNGDEAWGDNFIILEISPSEKLLSPELINTNNWTSTGSTNISGNTLTLYQGGRGILKQNLQLDSFSTYRVYFSVSGDANVRIRNSREVLFEKRYMSGAKDVSEMFTTKFEKDNFYIELSQGNNLYGGPIVHFYDVSIK PSFIDYFNGIYGFATGIKDIMNMIFKTDTGGDLTLDEILKNQQLLNDISGKLDGVNGSLNDLIAQGNLNTELSKEILKIANEQNQVLNDVNNKLDAINTMLRVYLPKLTSMLSDVMKQNYALSLQIEYLSKQLQEISDKLDIINVNVLINSTLTEITPAYQRIKYVNEKFEELTFATPADILDELTELTELAKSVTKNDVDGFEFYLNTFHDVMVGNNLFGRSALKTASELITKENVKTSGSEVGNVYNFLIVLTALQAKAFLTLTTCRKLLGLADIDYTSIMNEHLNKEKEEFRVNILPTLSNTFSNPNYAKVKGSDEDAKMIVEAKPGHALIGFEISNDSITVLKVYEAKLKQNYQVDKDSLSEVIYGDMDKLLCPDQSEQIYYTNNIVFPNEYVITKIDFTKKMKTLRYEVTANFYDSSTGEIDLNKKKVESSEAEYRTLSANDDGVYMPLGVISETFLTPINGFGLQADENSRLITLTCKSYLRELLLATDLSNKETKLIVPPSGFISNIVENGSIEEDNLEPWKANNKNAYVDHTGGVNGTKALYVHKDGGISQFIGDKLKPKTEYVIQYTVKGKPSIHLKDENTGYIHYEDTNNNLEDYQTINKRFTTGTDLKGVYLILKSQNGDEAWGDNFIILEISPSEKLLSPELINTNNWTSTGSTNISGNTLTLYQGGRGILKQNLQLDSFSTYRVYFSVSGDANVRIRNSREVLFEKRYMSGAKDVSEMFTTKFEKDNFYIELSQGNNLYGGPIVHFYDVSIK 6tfk-a1-m1-cC_6tfk-a1-m1-cD Vip3Aa toxin structure Q58XI2 Q58XI2 2.9 ELECTRON MICROSCOPY 147 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 681 681 6tfj-a1-m1-cA_6tfj-a1-m1-cB 6tfj-a1-m1-cA_6tfj-a1-m1-cD 6tfj-a1-m1-cC_6tfj-a1-m1-cB 6tfj-a1-m1-cC_6tfj-a1-m1-cD 6tfk-a1-m1-cA_6tfk-a1-m1-cB 6tfk-a1-m1-cA_6tfk-a1-m1-cD 6tfk-a1-m1-cB_6tfk-a1-m1-cC EQNQVLNDVNNKLDAINTMLRVYLPKLTSMLSDVMKQNYALSLQIEYLSKQLQEISDKLDIINVNVLINSTLTEITPAYQRIKYVNEKFEELTFADILDELTELTELAKSVTKNDVDGFEFYLNTFHDVMVGNNLFGRSALKTASELITKENVKTSGSEVGNVYNFLIVLTALQAKAFLTLTTCRKLLGLADIDYTSIMNEHLNKEKEEFRVNILPTLSNTFSNPNYAKVKGSDEDAKMIVEAKPGHALIGFEISNDSITVLKVYEAKLKQNYQVDKDSLSEVIYGDMDKLLCPDQSEQIYYTNNIVFPNEYVITKIDFTKKMKTLRYEVTANFYDSSTGEIDLNKKKVESSEAEYRTLSANDDGVYMPLGVISETFLTPINGFGLQADENSRLITLTCKSYLRELLLATDLSNKETKLIVPPSGFISNIVENGSIEEDNLEPWKANNKNAYVDHTGGVNGTKALYVHKDGGISQFIGDKLKPKTEYVIQYTVKGKPSIHLKDENTGYIHYEDTNNNLEDYQTINKRFTTGTDLKGVYLILKSQNGDEAWGDNFIILEISPSEKLLSPELINTNNWTSTGSTNISGNTLTLYQGGRGILKQNLQLDSFSTYRVYFSVSGDANVRIRNSREVLFEKRYMSGAKDVSEMFTTKFEKDNFYIELSQGNNLYGGPIVHFYDVSIK EQNQVLNDVNNKLDAINTMLRVYLPKLTSMLSDVMKQNYALSLQIEYLSKQLQEISDKLDIINVNVLINSTLTEITPAYQRIKYVNEKFEELTFADILDELTELTELAKSVTKNDVDGFEFYLNTFHDVMVGNNLFGRSALKTASELITKENVKTSGSEVGNVYNFLIVLTALQAKAFLTLTTCRKLLGLADIDYTSIMNEHLNKEKEEFRVNILPTLSNTFSNPNYAKVKGSDEDAKMIVEAKPGHALIGFEISNDSITVLKVYEAKLKQNYQVDKDSLSEVIYGDMDKLLCPDQSEQIYYTNNIVFPNEYVITKIDFTKKMKTLRYEVTANFYDSSTGEIDLNKKKVESSEAEYRTLSANDDGVYMPLGVISETFLTPINGFGLQADENSRLITLTCKSYLRELLLATDLSNKETKLIVPPSGFISNIVENGSIEEDNLEPWKANNKNAYVDHTGGVNGTKALYVHKDGGISQFIGDKLKPKTEYVIQYTVKGKPSIHLKDENTGYIHYEDTNNNLEDYQTINKRFTTGTDLKGVYLILKSQNGDEAWGDNFIILEISPSEKLLSPELINTNNWTSTGSTNISGNTLTLYQGGRGILKQNLQLDSFSTYRVYFSVSGDANVRIRNSREVLFEKRYMSGAKDVSEMFTTKFEKDNFYIELSQGNNLYGGPIVHFYDVSIK 6tga-a1-m1-cA_6tga-a1-m1-cE Cryo-EM Structure of as isolated form of NAD+-dependent Formate Dehydrogenase from Rhodobacter capsulatus D5AQH0 D5AQH0 3.26 ELECTRON MICROSCOPY 101 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 949 949 6tg9-a1-m1-cA_6tg9-a1-m1-cE PPLDWTQDMGTPKREGAPVHLTIDGVEVTVPAGTSVLRAAAEAGISIPKLCATDNVEPVGSCRLCMVEIEGMRGTPTSCTTPVAPGMRVHTQTPQLQKLRRGVMELYISDHPLDCLTCAANGDCELQDMAGAVGLREVRYQAKDTHFARRDATGPNPRYIPKDNSNPYFSYDPAKCIVCMRCVRACEEVQGTFALTVMGRGFDARISPAAPDFLSSDCVSCGACVQACPTATLVEKSVERIGTPERKVVTTCAYCGVGCSFEAHMLGDQLVRMVPWKGGAANRGHSCVKGRFAYGYATHQDRILKPMIRDKITDPWREVNWTEALDFTATRLRALRDSHGADALGVITSSRCTNEETYLVQKLARAVFGTNNTDTCARVCHSPTGYGLKQTFGTSAGTQDFDSVEETDLALVIGANPTDGHPVFASRLRKRLRAGAKLIVVDPRRIDLLNTPHRGEAWHLQLKPGTNVAVMTAMAHVIVTEQIFDKRFIGDRCDWDEWADYAEFVANPEYAPEAVESLTGVPAGLLRQAARAYAAAPNAAIYYGLGVTEHSQGSTTVIAIANLAMMTGNIGRPGVGVNPLRGQNNVQGSCDMGSFPHEFPGYRHVSDDATRGLFERTWGVTLSSEPGLRIPNMLDAAVEGRFKALYVQGEDILQSDPDTRHVSAGLAAMDLVIVHDLFLNETANYAHVFLPGSTFLEKDGTFTNAERRINRVRRVMAPKAGFADWEVTQMLANALGAGWHYTHPSEIMAEIAATTPGFAAVTYEMLDARGSVQWPCNEKAPEGSPIMHVEGFVRGKGRFIRTAYLPTDEKTGPRFPLLLTTGRILSQYNVGAQTRRTENTVWHGEDRLEIHPTDAETRGIRDGDWVRLASRAGETTLRATVTDRVSPGVVYTTFHHPDTQANVVTTDTSDWATNCPEYKVTAVQVAASNGPSDWQQDYAAQAAAARRIE PPLDWTQDMGTPKREGAPVHLTIDGVEVTVPAGTSVLRAAAEAGISIPKLCATDNVEPVGSCRLCMVEIEGMRGTPTSCTTPVAPGMRVHTQTPQLQKLRRGVMELYISDHPLDCLTCAANGDCELQDMAGAVGLREVRYQAKDTHFARRDATGPNPRYIPKDNSNPYFSYDPAKCIVCMRCVRACEEVQGTFALTVMGRGFDARISPAAPDFLSSDCVSCGACVQACPTATLVEKSVERIGTPERKVVTTCAYCGVGCSFEAHMLGDQLVRMVPWKGGAANRGHSCVKGRFAYGYATHQDRILKPMIRDKITDPWREVNWTEALDFTATRLRALRDSHGADALGVITSSRCTNEETYLVQKLARAVFGTNNTDTCARVCHSPTGYGLKQTFGTSAGTQDFDSVEETDLALVIGANPTDGHPVFASRLRKRLRAGAKLIVVDPRRIDLLNTPHRGEAWHLQLKPGTNVAVMTAMAHVIVTEQIFDKRFIGDRCDWDEWADYAEFVANPEYAPEAVESLTGVPAGLLRQAARAYAAAPNAAIYYGLGVTEHSQGSTTVIAIANLAMMTGNIGRPGVGVNPLRGQNNVQGSCDMGSFPHEFPGYRHVSDDATRGLFERTWGVTLSSEPGLRIPNMLDAAVEGRFKALYVQGEDILQSDPDTRHVSAGLAAMDLVIVHDLFLNETANYAHVFLPGSTFLEKDGTFTNAERRINRVRRVMAPKAGFADWEVTQMLANALGAGWHYTHPSEIMAEIAATTPGFAAVTYEMLDARGSVQWPCNEKAPEGSPIMHVEGFVRGKGRFIRTAYLPTDEKTGPRFPLLLTTGRILSQYNVGAQTRRTENTVWHGEDRLEIHPTDAETRGIRDGDWVRLASRAGETTLRATVTDRVSPGVVYTTFHHPDTQANVVTTDTSDWATNCPEYKVTAVQVAASNGPSDWQQDYAAQAAAARRIE 6tgc-a1-m1-cA_6tgc-a1-m1-cD CryoEM structure of the ternary DOCK2-ELMO1-RAC1 complex. Q92608 Q92608 4.1 ELECTRON MICROSCOPY 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1450 1450 3b13-a1-m1-cA_3b13-a1-m1-cC 6tgb-a1-m1-cD_6tgb-a1-m1-cA MAPWRKADKERHGVAIYNFQGSGAPQLSLQIGDVVRIQETCGDWYRGYLIKHKMLQGIFPKSFIHIKEVIPAEIPLAQEVTTTLWEWGSIWKQLYVASKKERFLQVQSMMYDLMEWRSQLLSGTLPKDELKELKQKVTSKIDYGNKILELDLIVRDPDNTSVISLFHAHEEATDKITERIKEEMSKDQPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGFPEIIMPGDVRNDIYITLLQGDFDKYNKTTQRNVEVIMCVCAEDGKTLPNAICVGAGDKPMNEYRSVVYYQVKQPRWMETVKVAVPIEDMQRIHLRFMFRHRSSLESKDKGEKNFAMSYVKLMKEDGTTLHDGFHDLVVLKGDSKKMEDASAYLTLPSYRHHVENGGLSVSSRDVFSISTLVCSTXXXXXXXXXXXXXXXXXIMMEHSQSDEYDILVFDALIYIIGLIADRKFQXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSSELVDFLMETFIMFKDLIGKNVYPGDWMAMSMVQNRVFLRAINKFAETMNQKFLEHTNFEFQLWNNYFHLAVAFITQDSLQLEQFSHAKYNKILNKYGDMRRLIGFSIRDMWYKLGQNKICFIPGMVGPILEMTLIPEAELRKATIPIFFDMMLCDFKKFENEIILKLDHEVEGGRGDEQYMQLLESILMECAAEHPTIAKSVENFVNLVKGLLEKLLDYRGVMTDESKDNRMSCTVNLLNFYKDNNREEMYIRYLYKLRDLHLDCDNYTEAAYTLLLHTWLLKWSDEQTHRQLKETLYETIIGYFDKGKMWEEAISLCKELAEQYEMEIFDYELLSQNLIQQAKFYESIMKILRPKPDYFAVGYYGQGFPSFLRNKVFIYRGKEYERREDFQMQLMTQFPNAEKMNTTSAPGDDVKNAPGQYIQCFTVQPVLDEHPRFKNKPVPDQIINFYKSNYVQRFHYSRPVRRGTVDPENEFASMWIERTSFVTAYKLPGILRWFEVVHMSQTTISPLENAIETMSTANEKILMMINQYQSDETLPINPLSMLLNGIVDPAVMGGFAKYEKAFFTEEYVRDHPEDQDKLTHLKDLIAWQIPFLGAGIKIHEKRVSDNLRPFHDRMEECFKNLKMKVEKEYGVR MAPWRKADKERHGVAIYNFQGSGAPQLSLQIGDVVRIQETCGDWYRGYLIKHKMLQGIFPKSFIHIKEVIPAEIPLAQEVTTTLWEWGSIWKQLYVASKKERFLQVQSMMYDLMEWRSQLLSGTLPKDELKELKQKVTSKIDYGNKILELDLIVRDPDNTSVISLFHAHEEATDKITERIKEEMSKDQPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXGFPEIIMPGDVRNDIYITLLQGDFDKYNKTTQRNVEVIMCVCAEDGKTLPNAICVGAGDKPMNEYRSVVYYQVKQPRWMETVKVAVPIEDMQRIHLRFMFRHRSSLESKDKGEKNFAMSYVKLMKEDGTTLHDGFHDLVVLKGDSKKMEDASAYLTLPSYRHHVENGGLSVSSRDVFSISTLVCSTXXXXXXXXXXXXXXXXXIMMEHSQSDEYDILVFDALIYIIGLIADRKFQXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSSELVDFLMETFIMFKDLIGKNVYPGDWMAMSMVQNRVFLRAINKFAETMNQKFLEHTNFEFQLWNNYFHLAVAFITQDSLQLEQFSHAKYNKILNKYGDMRRLIGFSIRDMWYKLGQNKICFIPGMVGPILEMTLIPEAELRKATIPIFFDMMLCDFKKFENEIILKLDHEVEGGRGDEQYMQLLESILMECAAEHPTIAKSVENFVNLVKGLLEKLLDYRGVMTDESKDNRMSCTVNLLNFYKDNNREEMYIRYLYKLRDLHLDCDNYTEAAYTLLLHTWLLKWSDEQTHRQLKETLYETIIGYFDKGKMWEEAISLCKELAEQYEMEIFDYELLSQNLIQQAKFYESIMKILRPKPDYFAVGYYGQGFPSFLRNKVFIYRGKEYERREDFQMQLMTQFPNAEKMNTTSAPGDDVKNAPGQYIQCFTVQPVLDEHPRFKNKPVPDQIINFYKSNYVQRFHYSRPVRRGTVDPENEFASMWIERTSFVTAYKLPGILRWFEVVHMSQTTISPLENAIETMSTANEKILMMINQYQSDETLPINPLSMLLNGIVDPAVMGGFAKYEKAFFTEEYVRDHPEDQDKLTHLKDLIAWQIPFLGAGIKIHEKRVSDNLRPFHDRMEECFKNLKMKVEKEYGVR 6tgf-a1-m1-cE_6tgf-a1-m1-cF Pantoea stewartii WceF is a glycan biofilm modifying enzyme with a bacteriophage tailspike-like parallel beta-helix fold H3REJ8 H3REJ8 2.55 X-RAY DIFFRACTION 384 1.0 660596 (Pantoea stewartii subsp. stewartii DC283) 660596 (Pantoea stewartii subsp. stewartii DC283) 673 682 6tgf-a1-m1-cE_6tgf-a1-m1-cD 6tgf-a1-m1-cF_6tgf-a1-m1-cD GDVPILTPENVYAMPPQFWQNFQGKLWIGRAGSDARQPGNQIPVFLRDANGNLAQITQPITLNKGNFDQFVKDNAALIANPSHAMALEDSNGQTVFNIPDVSQPIGEIPSVDDLRKTRPLFEGAKIKLKSWHPGLEVGGGEFVGSFQPAQDDQGVIFSGDGFHWRRVVDDYNRLSLFDFGAIADGKTDSAPAIKAMYQWSQQSDQPICVQFPAGTFFVTGCDFGEEQRRFFRISGAMVNFGYFPATTIVSDGQSPFVFEVSARWVEISNLIFNGNTDTKPNRQGLLRNTCPGGQFFRGACLRFNNVGGTALSLLDTLDCKIDQWYASACTGDVIQAGWSGQKKGNWDHSTAIELSNFNAQHCKGGKVLNLPRCSQSLIHNGWIEHCDNPGDISNGQWIIDALSLEDCKNPLIAWHSRLNTRQTNLQSGSWIDNSEQGDRWLSAWEMGSTRVESYGVAIDGSLKYNYLTSRWLLENNTSQPVWYELANLYSPTVGDSWEIEVFGQSQFNNGTDSEPLMNLIDGRNTGGRAVIHVQRKKDHAEASWSAEGSSPVLDVRYVAKTDTDTQVFIRLAGWTPSAAIMIKSTAKDRFVTGRCARVDAKMAKATPDSGSHAAPQRFSLHNGKAGVGANEQGDLLLASRALSADNVDTRKPEGFVSVVINGKTVALPYFAIK VDATAIPKGDVPILTPENVYAMPPQFWQNFQGKLWIGRAGSDARQPGNQIPVFLRDANGNLAQITQPITLNKGNFDQFVKDNAALIANPSHAMALEDSNGQTVFNIPDVSQPIGEIPSVDDLRKTRPLFEGAKIKLKSWHPGLEVGGGEFVGSFQPAQDDQGVIFSGDGFHWRRVVDDYNRLSLFDFGAIADGKTDSAPAIKAMYQWSQQSDQPICVQFPAGTFFVTGCDFGEEQRRFFRISGAMVNFGYFPATTIVSDGQSPFVFEVSARWVEISNLIFNGNTDTKPNRQGLLRNTCPGGQFFRGACLRFNNVGGTALSLLDTLDCKIDQWYASACTGDVIQAGWSGQKKGNWDHSTAIELSNFNAQHCKGGKVLNLPRCSQSLIHNGWIEHCDNPGDISNGQWIIDALSLEDCKNPLIAWHSRLNTRQTNLQSGSWIDNSEQGDRWLSAWEMGSTRVESYGVAIDGSLKYNYLTSRWLLENNTSQPVWYELANLYSPTVGDSWEIEVFGQSQFNNGTDSEPLMNLIDGRNTGGRAVIHVQRKKDHAEASWSAEGSSPVLDVRYVAKTDTDTQVFIRLAGWTPSAAIMIKSTAKDRFVTGRCARVDAKMAKATPDSGSHAAPQRFSLHNGKAGVGANEQGDLLLASRALSADNVDTRKPEGFVSVVINGKTVALPYFAIKA 6tgk-a1-m1-cC_6tgk-a1-m2-cC Domain swapped E6AP C-lobe dimer Q05086 Q05086 1.3 X-RAY DIFFRACTION 188 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 LDFQALEETTEYDGGYTRDSVLIREFWEIVHSFTDEQKRLFLQFTTGTDRAPVGGLGKLKMIIAKNGPDTERLPTSHTCFNVLLLPEYSSKEKLKERLLKAITYA LDFQALEETTEYDGGYTRDSVLIREFWEIVHSFTDEQKRLFLQFTTGTDRAPVGGLGKLKMIIAKNGPDTERLPTSHTCFNVLLLPEYSSKEKLKERLLKAITYA 6tgp-a1-m1-cA_6tgp-a1-m1-cB Cryo-EM structure of AtNBR1-PB1 filament (S-type) Q9SB64 Q9SB64 4.4 ELECTRON MICROSCOPY 20 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 88 88 ANALVVKVSYGGVLRRFRVPVKANGQLDLEMAGLKEKIAALFNLSADAELSLTYSDEDGDVVALVDDNDLFDVTNQRLKFLKINVNAG ANALVVKVSYGGVLRRFRVPVKANGQLDLEMAGLKEKIAALFNLSADAELSLTYSDEDGDVVALVDDNDLFDVTNQRLKFLKINVNAG 6tgz-a1-m1-cF_6tgz-a1-m2-cF IE1 from human cytomegalovirus P13202 P13202 3.2 X-RAY DIFFRACTION 168 1.0 10360 (Human herpesvirus 5 strain AD169) 10360 (Human herpesvirus 5 strain AD169) 352 352 PETPVTKATTFLQTMLRKEVNSQLSLGDPLFPELAEESLKTFEQVTEDCNENPEKDVLAELVKQIKVRVDMVRHRIKEHMLKKYTQTEEKFTGAFNMMGGCLQNALDILDKVHEPFEEMKCIGLTMQSMYENYIVPEDKREMWMACIKELHDVSKGAANKLGGALQAKARAKKDELRRKMMYMCYRNIEFFTKNSAFPKTTNGCSQAMAALQNLPQCSPDEIMAYAQKIFKILDEERDKVLTHIDHIFMDILTTCVETMCNEYKVTSDACMMTMYGGISLLSEFCRVLCCYVLEETSVMLAKRPLITKPEVISVMKRRIEEICMKVFAQYILVCSPSVDDLRAIAEESDEEE PETPVTKATTFLQTMLRKEVNSQLSLGDPLFPELAEESLKTFEQVTEDCNENPEKDVLAELVKQIKVRVDMVRHRIKEHMLKKYTQTEEKFTGAFNMMGGCLQNALDILDKVHEPFEEMKCIGLTMQSMYENYIVPEDKREMWMACIKELHDVSKGAANKLGGALQAKARAKKDELRRKMMYMCYRNIEFFTKNSAFPKTTNGCSQAMAALQNLPQCSPDEIMAYAQKIFKILDEERDKVLTHIDHIFMDILTTCVETMCNEYKVTSDACMMTMYGGISLLSEFCRVLCCYVLEETSVMLAKRPLITKPEVISVMKRRIEEICMKVFAQYILVCSPSVDDLRAIAEESDEEE 6th1-a1-m1-cR_6th1-a1-m2-cR IE1 from rat cytomegalovirus O57046 O57046 3.4 X-RAY DIFFRACTION 130 1.0 28304 (Murid betaherpesvirus 2) 28304 (Murid betaherpesvirus 2) 360 360 PGDRCPRHVARIIAENDPPIRCDLTLQELLSEVQVDFEPSASEVVAMEGLMDEQHFIPHDPHSKKAAVQSLVIAIKTADLLLQMIHENVKRDIRTTCIQMANESYARADIVRDSLIAASQGKYTALGKIVFHSYTNFMPVNANESEKRAWMEMLGECTSHGNKLCEMANAQVEQETRDIINIMFKNIDDVVTQTTRAMRGVFDPPDTVKALSAAAQLIRVWEHDNVINDQSVSTSSVVTAALEANENLAKALRDVSGYAEVQFNRLCLSILTSAKERIDIIYHSARSQHLACNVRMNVAQQNLATFILTNARERPNDAVIRTRRAVANTGILLFTGQHITRDALDKAAESKSVEEIVGMS PGDRCPRHVARIIAENDPPIRCDLTLQELLSEVQVDFEPSASEVVAMEGLMDEQHFIPHDPHSKKAAVQSLVIAIKTADLLLQMIHENVKRDIRTTCIQMANESYARADIVRDSLIAASQGKYTALGKIVFHSYTNFMPVNANESEKRAWMEMLGECTSHGNKLCEMANAQVEQETRDIINIMFKNIDDVVTQTTRAMRGVFDPPDTVKALSAAAQLIRVWEHDNVINDQSVSTSSVVTAALEANENLAKALRDVSGYAEVQFNRLCLSILTSAKERIDIIYHSARSQHLACNVRMNVAQQNLATFILTNARERPNDAVIRTRRAVANTGILLFTGQHITRDALDKAAESKSVEEIVGMS 6th5-a1-m1-cA_6th5-a1-m1-cB Crystal structure of mature wildtype primitive Phytochelatin synthase from Nostoc spec. - Alr0975 Q8YY76 Q8YY76 1.99 X-RAY DIFFRACTION 48 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 213 214 6tho-a1-m1-cB_6tho-a1-m1-cA 6tjl-a1-m1-cA_6tjl-a1-m1-cB TLSPNLIGFNSNEGEKLLLTSRSREDFFPLSMQFVTQVNQAYCGVASIIMVLNSLGINAPETAQYSPYRVFTQDNFFSNEKTKAVIAPEVVARQGMTLDELGRLIASYGVKVKVNHASDTNIEDFRKQVAENLKQDGNFVIVNYLRKEIGQERGGHISPLAAYNEQTDRFLIMDVSRYKYPPVWVKTTDLWKAMNTVDSVSQKTRGFVFVSKT LTLSPNLIGFNSNEGEKLLLTSRSREDFFPLSMQFVTQVNQAYCGVASIIMVLNSLGINAPETAQYSPYRVFTQDNFFSNEKTKAVIAPEVVARQGMTLDELGRLIASYGVKVKVNHASDTNIEDFRKQVAENLKQDGNFVIVNYLRKEIGQERGGHISPLAAYNEQTDRFLIMDVSRYKYPPVWVKTTDLWKAMNTVDSVSQKTRGFVFVSKT 6the-a1-m2-cA_6the-a1-m3-cA Crystal structure of core domain of four-domain heme-cupredoxin-Cu nitrite reductase from Bradyrhizobium sp. ORS 375 H0SHH5 H0SHH5 2.87 X-RAY DIFFRACTION 133 1.0 566679 (Bradyrhizobium sp. ORS 375) 566679 (Bradyrhizobium sp. ORS 375) 299 299 6the-a1-m1-cA_6the-a1-m2-cA 6the-a1-m1-cA_6the-a1-m3-cA ADISREPDDVPPPIGKRAPQTVRVDLLSVELEGRLAEGTTFGYWTFNGKVPGPLLRVRVGDTVEIHLKNAADSAMIHSVDFHAAIAPGGGAAALQVEPGGEKAITWKALVPGLFVYHCATPMVAEHIANGMYGMILVEPEGGLPPVDHEFYVMQGEIYSDIPYGQHGSAEFSVEKLLAERPEYFVFNGSVGALSKLHPLKAKVGDTVRIFFGVGGPNHASSFHVIGEIFDKVDLFGGLTTPPLAGIQTVTVPPGGAAIAEFKVEVPGTYTLVDHALARAERGLLGILHVQGPENPDIYN ADISREPDDVPPPIGKRAPQTVRVDLLSVELEGRLAEGTTFGYWTFNGKVPGPLLRVRVGDTVEIHLKNAADSAMIHSVDFHAAIAPGGGAAALQVEPGGEKAITWKALVPGLFVYHCATPMVAEHIANGMYGMILVEPEGGLPPVDHEFYVMQGEIYSDIPYGQHGSAEFSVEKLLAERPEYFVFNGSVGALSKLHPLKAKVGDTVRIFFGVGGPNHASSFHVIGEIFDKVDLFGGLTTPPLAGIQTVTVPPGGAAIAEFKVEVPGTYTLVDHALARAERGLLGILHVQGPENPDIYN 6thg-a1-m1-cA_6thg-a1-m1-cB Cedar Virus attachment glycoprotein (G) in complex with human ephrin-B1 J7H333 J7H333 4.074 X-RAY DIFFRACTION 22 1.0 1221391 (Cedar virus) 1221391 (Cedar virus) 418 419 GKIFCKSVSKDPDFRLKQIDYVIPVQQDRSICMNNPLLDISDGFFTYIHYEGINSCKKSDSFKVLLSHGEIVDRGDYRPSLYLLSSHYHPYSMQVINCVPVTCNQSSFVFCHISNNTKTLDNSDYSSDEYYITYFNGIDRPKTKKIPINNMTADNRYIHFTFSGGGGVCLGEEFIIPVTTVINTDVFTHDYCESFNCSVQTGKSLKEICSESLRSPTNSSRYNLNGIMIISQNNMTDFKIQLNGITYNKLSFGSPGRLSKTLGQVLYYQSSMSWDTYLKAGFVEKWKPFTPNWMNNTVISRPNQGNCPRYHKCPEICYGGTYNDIAPLDLGKDMYVSVILDSDQLAENPEITVFNSTTILYKERVSKDELNTRSTTTSCFLFLDEPWCISVLETNRFNGKSIRPEIYSYKIPKYCGTK TGKIFCKSVSKDPDFRLKQIDYVIPVQQDRSICMNNPLLDISDGFFTYIHYEGINSCKKSDSFKVLLSHGEIVDRGDYRPSLYLLSSHYHPYSMQVINCVPVTCNQSSFVFCHISNNTKTLDNSDYSSDEYYITYFNGIDRPKTKKIPINNMTADNRYIHFTFSGGGGVCLGEEFIIPVTTVINTDVFTHDYCESFNCSVQTGKSLKEICSESLRSPTNSSRYNLNGIMIISQNNMTDFKIQLNGITYNKLSFGSPGRLSKTLGQVLYYQSSMSWDTYLKAGFVEKWKPFTPNWMNNTVISRPNQGNCPRYHKCPEICYGGTYNDIAPLDLGKDMYVSVILDSDQLAENPEITVFNSTTILYKERVSKDELNTRSTTTSCFLFLDEPWCISVLETNRFNGKSIRPEIYSYKIPKYCGTK 6thg-a1-m1-cC_6thg-a1-m1-cD Cedar Virus attachment glycoprotein (G) in complex with human ephrin-B1 P98172 P98172 4.074 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 136 NLEPVSWSSLNPKFLSGKGLVIYPKIGDKLDIICPRAEAGRPYEYYKLYLVRPEQAAACSTVLDPNVLVTCNRPEQEIRFTIKFQEFSPNYMGLEFKKHHDYYITSTSNGSLEGLENREGGVCRTRTMKIIMKVGQ NLEPVSWSSLNPKFLSGKGLVIYPKIGDKLDIICPRAEAGRPYEYYKLYLVRPEQAAACSTVLDPNVLVTCNRPEQEIRFTIKFQEFSPNYMGLEFKKHHDYYITSTSNGSLEGLENREGGVCRTRTMKIIMKVGQ 6thg-a1-m1-cE_6thg-a1-m1-cI Cedar Virus attachment glycoprotein (G) in complex with human ephrin-B1 J7H333 J7H333 4.074 X-RAY DIFFRACTION 29 1.0 1221391 (Cedar virus) 1221391 (Cedar virus) 415 417 FCKSVSKDPDFRLKQIDYVIPVQQDRSICMNNPLLDISDGFFTYIHYEGINSCKKSDSFKVLLSHGEIVDRGDYRPSLYLLSSHYHPYSMQVINCVPVTCNQSSFVFCHISNNTKTLDNSDYSSDEYYITYFNGIDRPKTKKIPINNMTADNRYIHFTFSGGGGVCLGEEFIIPVTTVINTDVFTHDYCESFNCSVQTGKSLKEICSESLRSPTNSSRYNLNGIMIISQNNMTDFKIQLNGITYNKLSFGSPGRLSKTLGQVLYYQSSMSWDTYLKAGFVEKWKPFTPNWMNNTVISRPNQGNCPRYHKCPEICYGGTYNDIAPLDLGKDMYVSVILDSDQLAENPEITVFNSTTILYKERVSKDELNTRSTTTSCFLFLDEPWCISVLETNRFNGKSIRPEIYSYKIPKYCGTK KIFCKSVSKDPDFRLKQIDYVIPVQQDRSICMNNPLLDISDGFFTYIHYEGINSCKKSDSFKVLLSHGEIVDRGDYRPSLYLLSSHYHPYSMQVINCVPVTCNQSSFVFCHISNNTKTLDNSDYSSDEYYITYFNGIDRPKTKKIPINNMTADNRYIHFTFSGGGGVCLGEEFIIPVTTVINTDVFTHDYCESFNCSVQTGKSLKEICSESLRSPTNSSRYNLNGIMIISQNNMTDFKIQLNGITYNKLSFGSPGRLSKTLGQVLYYQSSMSWDTYLKAGFVEKWKPFTPNWMNNTVISRPNQGNCPRYHKCPEICYGGTYNDIAPLDLGKDMYVSVILDSDQLAENPEITVFNSTTILYKERVSKDELNTRSTTTSCFLFLDEPWCISVLETNRFNGKSIRPEIYSYKIPKYCGTK 6thg-a1-m1-cH_6thg-a1-m1-cF Cedar Virus attachment glycoprotein (G) in complex with human ephrin-B1 P98172 P98172 4.074 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 134 137 NLEPVSWSSLNPKFLSGKGLVIYPKIGDKLDIICPRAEAGRPYEYYKLYLVRPEQAAACSTVLDPNVLVTCNRPEQEIRFTIKFQEFSPNYMGLEFKKHHDYYITSTSNGSLEGLENREGGVCRTRTMKIIMKV NLEPVSWSSLNPKFLSGKGLVIYPKIGDKLDIICPRAEAGRPYEYYKLYLVRPEQAAACSTVLDPNVLVTCNRPEQEIRFTIKFQEFSPNYMGLEFKKHHDYYITSTSNGSLEGLENREGGVCRTRTMKIIMKVGQD 6thh-a1-m2-cA_6thh-a1-m2-cB Crystal structure of type I-D CRISPR-Cas nuclease Cas10d in complex with the SIRV3 AcrID1 (gp02) anti-CRISPR protein A0A1B3SN05 A0A1B3SN05 3.48 X-RAY DIFFRACTION 59 1.0 1895333 (Sulfolobus islandicus rudivirus 3) 1895333 (Sulfolobus islandicus rudivirus 3) 96 96 6exp-a1-m1-cA_6exp-a1-m1-cB 6exp-a2-m1-cC_6exp-a2-m1-cD 6exp-a3-m1-cE_6exp-a3-m1-cF 6thh-a1-m1-cA_6thh-a1-m1-cB MNYKELEKMLDVIFENSEIKEIDLFFDPEVEISKQEFEDLVKNADPLQKVVGDNYITETFEWWEFENQYLEFELDYYVKDEKIFVLEMHFWRKIRK MNYKELEKMLDVIFENSEIKEIDLFFDPEVEISKQEFEDLVKNADPLQKVVGDNYITETFEWWEFENQYLEFELDYYVKDEKIFVLEMHFWRKIRK 6tif-a1-m1-cA_6tif-a1-m1-cB ReoM- Listeria monocytogenes P60357 P60357 1.6 X-RAY DIFFRACTION 79 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 84 87 DQTMFYNFGDDSIEEDVKKLMKQVYVALEEKGYNPVNQIVGYLLSGDPAYIPRHKDARSMIRRLERDEIIEELVKAYLKNNEIG DSKDQTMFYNFGDDSIEEDVKKLMKQVYVALEEKGYNPVNQIVGYLLSGDPAYIPRHKDARSMIRRLERDEIIEELVKAYLKNNEIG 6tj2-a1-m1-cA_6tj2-a1-m1-cB Extracellular alpha/beta-hydrolase from Paenibacillus species shares structural and functional homology to Tobacco Salicylic Acid Binding Protein 2 A0A264DUQ2 A0A264DUQ2 1.32 X-RAY DIFFRACTION 39 1.0 1986222 (Paenibacillus sp. VTT E-133280) 1986222 (Paenibacillus sp. VTT E-133280) 243 243 6tj2-a1-m1-cC_6tj2-a1-m1-cA 6tj2-a1-m1-cC_6tj2-a1-m1-cB TPLTFVLIHGSWATAGFWDETASELRKLGHTVYTPEYAGHGADKNNNVTHEQITKSVVDYIKQKDLKDFILLGHSFGGSVIQTVSQQVPDRIKRIVFFDAFAPLDGQSVADQFPAESLKSFEQLRDASGNNTITLPFPLFRDTFVNTASLAQAQAFYKQAPPEPATPLFEKLDLKKFYSLQIPKSYLYLTEDTAIPQGPYGFHPTQSSHLGVFRFIEGKGDHMTTVRTEPKMMAELMVKAGRD TPLTFVLIHGSWATAGFWDETASELRKLGHTVYTPEYAGHGADKNNNVTHEQITKSVVDYIKQKDLKDFILLGHSFGGSVIQTVSQQVPDRIKRIVFFDAFAPLDGQSVADQFPAESLKSFEQLRDASGNNTITLPFPLFRDTFVNTASLAQAQAFYKQAPPEPATPLFEKLDLKKFYSLQIPKSYLYLTEDTAIPQGPYGFHPTQSSHLGVFRFIEGKGDHMTTVRTEPKMMAELMVKAGRD 6tj8-a1-m1-cA_6tj8-a1-m1-cB Escherichia coli transketolase in complex with cofactor analog 2'-methoxythiamine diphosphate P27302 P27302 0.921 X-RAY DIFFRACTION 309 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 663 667 1qgd-a1-m1-cA_1qgd-a1-m1-cB 2r5n-a1-m1-cB_2r5n-a1-m1-cA 2r8o-a1-m1-cA_2r8o-a1-m1-cB 2r8p-a1-m1-cA_2r8p-a1-m1-cB 5hht-a1-m1-cA_5hht-a1-m1-cB 6rjc-a1-m1-cA_6rjc-a1-m1-cB 6tj9-a1-m1-cA_6tj9-a1-m1-cB SSRKELANAIRALSMDAVQKAKSGHPGAPMGMADIAEVLWRDFLKHNPQNPSWADRDRFVLSNGHGSMLIYSLLHLTGYDLPMEELKNFRQLHSKTPGHPEVGYTAGVETTTGPLGQGIANAVGMAIAEKTLAAQFNRPGHDIVDHYTYAFMGDGCMMEGISHEVCSLAGTLKLGKLIAFYDDNGISIDGHVEGWFTDDTAMRFEAYGWHVIRDIDGHDAASIKRAVEEARAVTDPSLLMCKTIIGFGSPNKAGTHDSHGAPLGDAEIALTREQLGWKYAPFEIPSEIYAQWDAKEAGQAKESAWNEKFAAYAKAYPQEAAEFTRRMKGEMPSDFDAKAKEFIAKLQANPAKIASRKASQNAIEAFGPLLPEFLGGSADLAPSNLTLWSGSKAINEDAAGNYIHYGVREFGMTAIANGISLHGGFLPYTSTFLMFVEYARNAVRMAALMKQRQVMVYTHDSIGLGEDGPTHQPVEQVASLRVTPNMSTWRPCDQVESAVAWKYGVERQDGPTALILSRQNLAQQERTEEQLANIARGGYVLKDCAGQPELIFIATGSEVELAVAAYEKLTAEGVKARVVSMPSTDAFDKQDAAYRESVLPKAVTARVAVEAGIADYWYKYVGLNGAIVGMTTFGESAPAELLFEEFGFTVDNVVAKAKELLHH SSRKELANAIRALSMDAVQKAKSGHPGAPMGMADIAEVLWRDFLKHNPQNPSWADRDRFVLSNGHGSMLIYSLLHLTGYDLPMEELKNFRQLHSKTPGHPEVGYTAGVETTTGPLGQGIANAVGMAIAEKTLAAQFNRPGHDIVDHYTYAFMGDGCMMEGISHEVCSLAGTLKLGKLIAFYDDNGISIDGHVEGWFTDDTAMRFEAYGWHVIRDIDGHDAASIKRAVEEARAVTDKPSLLMCKTIIGFGSPNKAGTHDSHGAPLGDAEIALTREQLGWKYAPFEIPSEIYAQWDAKEAGQAKESAWNEKFAAYAKAYPQEAAEFTRRMKGEMPSDFDAKAKEFIAKLQANPAKIASRKASQNAIEAFGPLLPEFLGGSADLAPSNLTLWSGSKAINEDAAGNYIHYGVREFGMTAIANGISLHGGFLPYTSTFLMFVEYARNAVRMAALMKQRQVMVYTHDSIGLGEDGPTHQPVEQVASLRVTPNMSTWRPCDQVESAVAWKYGVERQDGPTALILSRQNLAQQERTEEQLANIARGGYVLKDCAGQPELIFIATGSEVELAVAAYEKLTAEGVKARVVSMPSTDAFDKQDAAYRESVLPKAVTARVAVEAGIADYWYKYVGLNGAIVGMTTFGESAPAELLFEEFGFTVDNVVAKAKELLHHHHH 6tjr-a1-m1-cA_6tjr-a1-m1-cB Structure of HdrA-like subunit from Hyphomicrobium denitrificans D8JT26 D8JT26 1.43 X-RAY DIFFRACTION 157 1.0 53399 (Hyphomicrobium denitrificans) 53399 (Hyphomicrobium denitrificans) 340 340 KPILVVGGGPAGLAATHALANVGQPSVLVEKRDRLGGAPIFSGYAKLVPSGRWANEAIGGMVSRIETDSLISIKTNTTVVSFDGDPNNFTAKLSDGTSIDCASAILTTGFSHFDSVNKPEWGFGMFPDVVTTTQVEQMISSGKGVRCLSDGRKPKRVAILLCVGSRDRQIGREWCSKICCTVSANLAMEIREELPDCHVYIYYMDIRTFGHYESDYYWRSQEEFKVKYIKARIAEVTSDGKQLIVKGEDTLVKRPITIPFDMVVHAIGMDPNVDNMTISAIFGVELHKHGYIARKDTYGLMGATSRPGVFVAGSAIGPETIDDSIAQANAAAMSALSLGR KPILVVGGGPAGLAATHALANVGQPSVLVEKRDRLGGAPIFSGYAKLVPSGRWANEAIGGMVSRIETDSLISIKTNTTVVSFDGDPNNFTAKLSDGTSIDCASAILTTGFSHFDSVNKPEWGFGMFPDVVTTTQVEQMISSGKGVRCLSDGRKPKRVAILLCVGSRDRQIGREWCSKICCTVSANLAMEIREELPDCHVYIYYMDIRTFGHYESDYYWRSQEEFKVKYIKARIAEVTSDGKQLIVKGEDTLVKRPITIPFDMVVHAIGMDPNVDNMTISAIFGVELHKHGYIARKDTYGLMGATSRPGVFVAGSAIGPETIDDSIAQANAAAMSALSLGR 6tjs-a1-m1-cAAA_6tjs-a1-m2-cAAA GSTF1 from Alopecurus myosuroides Q9ZS17 Q9ZS17 1.53 X-RAY DIFFRACTION 82 1.0 81473 (Alopecurus myosuroides) 81473 (Alopecurus myosuroides) 191 191 APVKVFGPAMSTNVARVTLCLEEVGAEYEVVNIDFNRNPFGQIPAFQDGDLLLWESRAISKYVLRKYKTDEVDLLRESNLEEAAMVDVWTEVDAHTYNPALSPIVYQLFNESLEKLKKVLEVYEARLSKHSYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVPPK APVKVFGPAMSTNVARVTLCLEEVGAEYEVVNIDFNRNPFGQIPAFQDGDLLLWESRAISKYVLRKYKTDEVDLLRESNLEEAAMVDVWTEVDAHTYNPALSPIVYQLFNESLEKLKKVLEVYEARLSKHSYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVPPK 6tjz-a1-m1-cB_6tjz-a1-m1-cA Crystal structure of the SVS_A2 protein (W156Y mutant) from ancestral sequence reconstruction at 2.4 A resolution 2.4 X-RAY DIFFRACTION 158 0.997 1631875 (Streptomyces sp. CWA1) 1631875 (Streptomyces sp. CWA1) 325 334 6tbd-a1-m1-cB_6tbd-a1-m1-cA 6thu-a1-m1-cB_6thu-a1-m1-cA 6tiv-a1-m1-cB_6tiv-a1-m1-cA 6tja-a1-m1-cB_6tja-a1-m1-cA DLPPIYCPLESAIHPRVHEVEKRAVEWIRRSGMCASEEERAWVIATHSADFFARFAPTAADEDRLLATSLWVYWGFAFDDHTRPAQFNALAGRVQRALEAPSAEDNGDRFVPALQDIARRFRSFGTPTQVRRFVHAHRAYLSGVAWQIGNQARGHMPGLDDYLAMRLLSAGGEPTFAMLEIATGAEVPDREMHRPAVRALTEMAIMVAALDNDRHSLRDQNIYSVLMHHRGMSLQEAVEEATKLRDRILLRFLELHDRVRPGAGAELSTYLQGLRHGIRGNAEWGLRVPEDAPLTWAESPSDSSPSPLPGAPSIAWWWDDALLGA DLPPIYCPLESAIHPRVHEVEKRAVEWIRRSGMCASEEERAWVIATHSADFFARFAPTAADEDRLLATSLWVYWGFAFDDHRCDNGPLSTRPAQFNALAGRVQRALEAPSAEDNGDRFVPALQDIARRFRSFGTPTQVRRFVHAHRAYLSGVAWQIGNQARGHMPGLDDYLAMRLLSAGGEPTFAMLEIATGAEVPDREMHRPAVRALTEMAIMVAALDNDRHSLRHTDQNIYSVLMHHRGMSLQEAVEEATKLRDRILLRFLELHDRVRPGAGAELSTYLQGLRHGIRGNAEWGLRVPEDAPLTWAESPSDSSPSPLPGAPSIAWWWDDALLG 6tku-a1-m2-cA_6tku-a1-m3-cA Crystal structure of a capsule-specific depolymerase produced by Klebsiella phage D1L2X1 D1L2X1 1.8 X-RAY DIFFRACTION 192 1.0 674082 (Klebsiella phage KP32) 674082 (Klebsiella phage KP32) 534 534 6tku-a1-m1-cA_6tku-a1-m2-cA 6tku-a1-m1-cA_6tku-a1-m3-cA SFSGSTATDKLRAAITLGVSEVAIGPVEGNGGRPYEFGDVVIPYPLRIVGCGSQGINVTKGTVLKRSAGASFFHFTGEGQAQRPGGGLFNINLNGDTATALGDIIKVTQWSYFKANNCAFQNAGWGIRLKDVESNISGNLFRRLGGPSGGGILFDDVRSAVTDNVNNLHIEDNTFALSGPWIGSTANSNPDLIWIVRNKFEFDGTPAAPNTVDSYVLDFQQLSRAFIQDNGFTHFTTERNRYVGVLRVGATAVGTIKFEDNLLFACESAGLIAGGIVVSRGNVNNQGSATTAIKQFTNTSSKLCKLERVINVQSNGNVSVGQQILPDGYINAELPGNTRLPSEYDADGETTSVLRVPANTQVRQWSVPKYKDGLTVTKVTVRAKGAAAGAILSLQSGSTVLSTKSIDAGVWKNYVFYVKANQLQETLQLRNTGTADVLADGVFGKVDYIDWDFAIAPGTLAAGAKYTTPNQSYLDVAGRVQAVSIPFDGPTTGLQVWVEATSANGSFVVVKNDTGSELVTTVTRCRVRAFVSKG SFSGSTATDKLRAAITLGVSEVAIGPVEGNGGRPYEFGDVVIPYPLRIVGCGSQGINVTKGTVLKRSAGASFFHFTGEGQAQRPGGGLFNINLNGDTATALGDIIKVTQWSYFKANNCAFQNAGWGIRLKDVESNISGNLFRRLGGPSGGGILFDDVRSAVTDNVNNLHIEDNTFALSGPWIGSTANSNPDLIWIVRNKFEFDGTPAAPNTVDSYVLDFQQLSRAFIQDNGFTHFTTERNRYVGVLRVGATAVGTIKFEDNLLFACESAGLIAGGIVVSRGNVNNQGSATTAIKQFTNTSSKLCKLERVINVQSNGNVSVGQQILPDGYINAELPGNTRLPSEYDADGETTSVLRVPANTQVRQWSVPKYKDGLTVTKVTVRAKGAAAGAILSLQSGSTVLSTKSIDAGVWKNYVFYVKANQLQETLQLRNTGTADVLADGVFGKVDYIDWDFAIAPGTLAAGAKYTTPNQSYLDVAGRVQAVSIPFDGPTTGLQVWVEATSANGSFVVVKNDTGSELVTTVTRCRVRAFVSKG 6tkz-a2-m1-cB_6tkz-a2-m1-cA Crystal structure of the DHR2 domain of DOCK10 in complex with CDC42 Q96BY6 Q96BY6 2.64 X-RAY DIFFRACTION 55 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 416 417 6tkz-a1-m1-cB_6tkz-a1-m1-cA STPELRRTWLESMAKIHARNGDLSEAAMCYIHIAALIAEYLKRKGYWFSMGWPAFLSITPNIKEEGAMKYNENILVEQLYMCVEFLWKSERYELIADVNKPIIAVFEKQRDFKKLSDLYYDIHRSYLKVAEVVNSEKRLFGRYYRVAFYGQGFFEEEEGKEYIYKEPKLTGLSEISQRLLKLYADKFGADNVKIIQDSNKVNPKDLDPKYAYIQVTYVTPFFEEKEIEDRKTDFEMHHNINRFVFETPFTLSGKKHGGVAEQCKRRTILTTSHLFPYVKKRIQVISQSSTELNPIEVAIDEMSKKVSELNQLCTMEEVDMIRLQLKLQGSVSVKVNAGPMAYARAFLEETNAKKYPDNQVKLLKEIFRQFADACGQALDVNERLIKEDQLEYQEELRSHYKDMLSELSTVMNEQIT TPELRRTWLESMAKIHARNGDLSEAAMCYIHIAALIAEYLKRKGYWGSMFSMGWPAFLSITPNIKEEGAYNENILVEQLYMCVEFLWKSERYELIADVNKPIIAVFEKQRDFKKLSDLYYDIHRSYLKVAEVVNSEKRLFGRYYRVAFYGQGFFEEEEGKEYIYKEPKLTGLSEISQRLLKLYADKFGADNVKIIQDSNKVNPKDLDPKYAYIQVTYVTPFFEEKEIEDRKTDFEMHHNINRFVFETPFTLSGKKHGGVAEQCKRRTILTTSHLFPYVKKRIQVISQSSTELNPIEVAIDEMSKKVSELNQLCTMEEVDMIRLQLKLQGSVSVKVNAGPMAYARAFLEETNAKKYPDNQVKLLKEIFRQFADACGQALDVNERLIKEDQLEYQEELRSHYKDMLSELSTVMNEQITG 6tl8-a2-m1-cB_6tl8-a2-m1-cC Structural basis of SALM3 dimerization and adhesion complex formation with the presynaptic receptor protein tyrosine phosphatases Q80XU8 Q80XU8 2.8 X-RAY DIFFRACTION 61 0.988 10090 (Mus musculus) 10090 (Mus musculus) 253 253 6tl8-a1-m1-cA_6tl8-a1-m1-cD DKLCPLPCVCQNLSESLSTLCAHRGLLFVPPNVDRRTVELRLADNFIQALGPPDFRNMTGLVDLTLSRNAITRIGARSFGDLESLRSLHLDGNRLVELGSSSLRGPVNLQHLILSGNQLGRIAPGAFDDFLDSLEDLDVSYNNLRQVPWAGIGSMPALHTLNLDHNLIDALPPGVFAQLSQLSRLDLTSNRLATLAPDPLFSVLSFSGNPLHCNCELLWLRRLARPDDLETCASPPTLAGRYFWAVPEGEFSC LCPLPCVCQNLSESLSTLCAHRGLLFVPPNVDRRTVELRLADNFIQALGPPDFRNMTGLVDLTLSRNAITRIGARSFGDLESLRSLHLDGNRLVELGSSSLRGPVNLQHLILSGNQLGRIAPGAFDDFLDSLEDLDVSYNNLRQVPWAGIGSMPALHTLNLDHNLIDALPPGVFAQLSQLSRLDLTSNRLATLAPDPLFPLVLSFSGNPLHCNCELLWLRRLARPDDLETCASPPTLAGRYFWAVPEGEFSCE 6tlb-a1-m1-cB_6tlb-a1-m2-cC Plasmodium falciparum lipocalin (PF3D7_0925900) Q8I2Q0 Q8I2Q0 2.85 X-RAY DIFFRACTION, SOLUTION SCATTERING 40 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 185 185 6tlb-a1-m1-cD_6tlb-a1-m2-cA DGVVHVLSKNIDVKNLQGTFYEIATNASDKIFPGLACRCTKYEFSGLKRDGNLGYVLINFSCARNFIFGEKKSEMTFKLILNKPLDENTTTVEEFNASIYLVQGNQQILLNGNINIIYAELNEQNEFEHLILGGQKSIEPMIIMSKYRTVLLDTYNKLINSLYLAGYEPSLLTWPFIIQTDQTFC DGVVHVLSKNIDVKNLQGTFYEIATNASDKIFPGLACRCTKYEFSGLKRDGNLGYVLINFSCARNFIFGEKKSEMTFKLILNKPLDENTTTVEEFNASIYLVQGNQQILLNGNINIIYAELNEQNEFEHLILGGQKSIEPMIIMSKYRTVLLDTYNKLINSLYLAGYEPSLLTWPFIIQTDQTFC 6tlb-a1-m2-cA_6tlb-a1-m2-cC Plasmodium falciparum lipocalin (PF3D7_0925900) Q8I2Q0 Q8I2Q0 2.85 X-RAY DIFFRACTION, SOLUTION SCATTERING 46 0.995 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 185 185 6tlb-a1-m1-cB_6tlb-a1-m1-cD GVVHVLSKNIDVKNLQGTFYEIATNASDKIFPGLACRCTKYEFSGLKRDGNLGYVLINFSCARNFIFGEKKSEMTFKLILNKPLDENTTTVEEFNASIYLVQGNQQILLNGNINIIYAELNEQNEFEHLILGGQKSIEPMIIMSKYRTVLLDTYNKLINSLYLAGYEPSLLTWPFIIQTDQTFCD DGVVHVLSKNIDVKNLQGTFYEIATNASDKIFPGLACRCTKYEFSGLKRDGNLGYVLINFSCARNFIFGEKKSEMTFKLILNKPLDENTTTVEEFNASIYLVQGNQQILLNGNINIIYAELNEQNEFEHLILGGQKSIEPMIIMSKYRTVLLDTYNKLINSLYLAGYEPSLLTWPFIIQTDQTFC 6tlc-a1-m1-cA_6tlc-a1-m1-cB Unphosphorylated human STAT3 in complex with MS3-6 monobody P40763 P40763 2.9 X-RAY DIFFRACTION 78 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 533 535 VVTEKQQMLEQHLQDVRKRVQDLEQKMKVVENLQDDFDFNYKTLKSQGDMQDLNGNNQSVTRQKMQQLEQMLTALDQMRRSIVSELAGLLSAMEYVQKTLTDEELADWKRRQQIACIGGPPNICLDRLENWITSLAESQLQTRQQIKKLEELQQKVSYKGDPIVQHRPMLEERIVELFRNLMKSAFVVERQPCMPMHPDRPLVIKTGVQFTTKVRLLVKFPELNYQLKIKVCIDKDRKFNILGTNTKVMNMEENNGSLSAEFKHLTLREQRASLIVTEELHLITFETEVYHQGLKIDLETHSLPVVVISNICQMPNAWASILWYNMLTNNPKNVNFFTKPPIGTWDQVAEVLSWQFSSTTKRGLSIEQLTTLAEKLLGPGVNYSGCQITWAKFCKENMAGKGFSFWVWLDNIIDLVKKYILALWNEGYIMGFISKERERAILSTKPPGTFLLRFSESSKEGGVTFTWVEKDISGKTQIQSVEPYTKQQLNNMSFAEIIMGYKIMDATNILVSPLVYLYPDIPKEEAFGKYCRP VVTEKQQMLEQHLQDVRKRVQDLEQKMKVVENLQDDFDFNYKTLKSQGDMQDLNNQSVTRQKMQQLEQMLTALDQMRRSIVSELAGLLSAMEYVQKTLTDEELADWKRRQQIACIGGPPNICLDRLENWITSLAESQLQTRQQIKKLEELQQKVSYKGDPIVQHRPMLEERIVELFRNLMKSAFVVERQPCMPMHPDRPLVIKTGVQFTTKVRLLVKFPELNYQLKIKVCIDKDRGSRKFNILGTNTKVMNMEESNNGSLSAEFKHLTLREQRCGSLIVTEELHLITFETEVYHQGLKIDLETHSLPVVVISNICQMPNAWASILWYNMLTNNPKNVNFFTKPPIGTWDQVAEVLSWQFSSTTKRGLSIEQLTTLAEKLLGPGVNYSGCQITWAKFCKENMAGKGFSFWVWLDNIIDLVKKYILALWNEGYIMGFISKERERAILSTKPPGTFLLRFSESSKEGGVTFTWVEKDISGKTQIQSVEPYTKQQLNNMSFAEIIMGYKIMDATNILVSPLVYLYPDIPKEEAFGKYCR 6tmg-a1-m1-cB_6tmg-a1-m1-cb Cryo-EM structure of Toxoplasma gondii mitochondrial ATP synthase dimer, membrane region model S7V2T0 S7V2T0 2.8 ELECTRON MICROSCOPY 120 1.0 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 253 253 6tmk-a1-m1-cB_6tmk-a1-m1-cb 6tml-a1-m1-cB7_6tml-a1-m1-cb7 6tml-a1-m1-cB8_6tml-a1-m1-cb8 6tml-a1-m1-cB9_6tml-a1-m1-cb9 YATLGSGWSFSKVQYTKYRITKPWTTDTTFDDIILSQPSKEDFAKFTKEAPLFLRFLKLVTDVEGRQEAFIQFAKRCENGLTVEKDVYVTKKELVDCLWKNGYTDTEINAFEIAFPADYKFHYPELAVLFDLTEEDCYKYCIRQRAATPEELVELKYTKPKNLVSSYGLCFLGVWFGLSNTVLSNAWFYSKTFPFGAVFYMLGSYFYRDIREKLWKEEKSLIHTAQENKNMGEESVYKQMKKYATDTKCLDYL YATLGSGWSFSKVQYTKYRITKPWTTDTTFDDIILSQPSKEDFAKFTKEAPLFLRFLKLVTDVEGRQEAFIQFAKRCENGLTVEKDVYVTKKELVDCLWKNGYTDTEINAFEIAFPADYKFHYPELAVLFDLTEEDCYKYCIRQRAATPEELVELKYTKPKNLVSSYGLCFLGVWFGLSNTVLSNAWFYSKTFPFGAVFYMLGSYFYRDIREKLWKEEKSLIHTAQENKNMGEESVYKQMKKYATDTKCLDYL 6tml-a1-m1-cD9_6tml-a1-m1-cd9 Cryo-EM structure of Toxoplasma gondii mitochondrial ATP synthase hexamer, composite model A0A125YV76 A0A125YV76 4.8 ELECTRON MICROSCOPY 23 1.0 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 254 254 6tmg-a1-m1-cD_6tmg-a1-m1-cd 6tmk-a1-m1-cD_6tmk-a1-m1-cd 6tml-a1-m1-cD7_6tml-a1-m1-cd7 6tml-a1-m1-cD8_6tml-a1-m1-cd8 KPSWHVAREHRFGPTLPDHAYYGEHATYNYFVLFIRGMRPYLEKIFGDCASTIKNAAVAVYRPVNAFVVKHNPDLRLQFVAFASFIATHMAITKEFNDMYQRLVDITSLLELQAAQLHASEGFWDSESEQQEARLQRHAEHRNDLETTWEEALREATLARNFDVLVSYLNHGQNGIPPSVTWNFNAMPYGKENPDTKTFPIPDHEQPYRAFSLGFTANNLSGNWGDYIDRQDNKNALMRPARMMFTDVFIPTTK KPSWHVAREHRFGPTLPDHAYYGEHATYNYFVLFIRGMRPYLEKIFGDCASTIKNAAVAVYRPVNAFVVKHNPDLRLQFVAFASFIATHMAITKEFNDMYQRLVDITSLLELQAAQLHASEGFWDSESEQQEARLQRHAEHRNDLETTWEEALREATLARNFDVLVSYLNHGQNGIPPSVTWNFNAMPYGKENPDTKTFPIPDHEQPYRAFSLGFTANNLSGNWGDYIDRQDNKNALMRPARMMFTDVFIPTTK 6tml-a1-m1-cJ9_6tml-a1-m1-cj9 Cryo-EM structure of Toxoplasma gondii mitochondrial ATP synthase hexamer, composite model S7UQ82 S7UQ82 4.8 ELECTRON MICROSCOPY 18 1.0 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 176 176 6tmg-a1-m1-cJ_6tmg-a1-m1-cj 6tmk-a1-m1-cJ_6tmk-a1-m1-cj 6tml-a1-m1-cJ7_6tml-a1-m1-cj7 6tml-a1-m1-cJ8_6tml-a1-m1-cj8 KTLERNVPMKEILQPLWVVEPPNFLRQPVWKQFWEAQFANRSFFFFGNAWTSAAAFAFFIWWSRVFDPPPKERLDRYWLNSPKFRILSAFHNPGKRPGLKISLMTYEARYCYRGLDHPFTLNEMKDFLFKLREQYLVNKYEGIQFPFVFRQFNRVSTPGTLEVHTSPALQQQPHFH KTLERNVPMKEILQPLWVVEPPNFLRQPVWKQFWEAQFANRSFFFFGNAWTSAAAFAFFIWWSRVFDPPPKERLDRYWLNSPKFRILSAFHNPGKRPGLKISLMTYEARYCYRGLDHPFTLNEMKDFLFKLREQYLVNKYEGIQFPFVFRQFNRVSTPGTLEVHTSPALQQQPHFH 6tml-a1-m1-cL9_6tml-a1-m1-cl9 Cryo-EM structure of Toxoplasma gondii mitochondrial ATP synthase hexamer, composite model S7W7F1 S7W7F1 4.8 ELECTRON MICROSCOPY 65 1.0 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 207 207 6tmg-a1-m1-cL_6tmg-a1-m1-cl 6tmk-a1-m1-cL_6tmk-a1-m1-cl 6tml-a1-m1-cL7_6tml-a1-m1-cl7 6tml-a1-m1-cL8_6tml-a1-m1-cl8 TALPPPPSANVAVSFTAAPAEPLSRGEVKAASLKLELQNIERELKDWWMSRKILRDRNIGLFNLLQHHNFAGLSVNNAKLSDSQRVMWTDLVQGKPDVEDKLSVDAREMKVDMYEKLFKQAADLENPCRMPGVAYLRCLRDTLTETQSARRSSCLNAFSSFDACRTGLLKQQSAAVENSLVRQNMADVRAKALFERRAVLLDLVEGK TALPPPPSANVAVSFTAAPAEPLSRGEVKAASLKLELQNIERELKDWWMSRKILRDRNIGLFNLLQHHNFAGLSVNNAKLSDSQRVMWTDLVQGKPDVEDKLSVDAREMKVDMYEKLFKQAADLENPCRMPGVAYLRCLRDTLTETQSARRSSCLNAFSSFDACRTGLLKQQSAAVENSLVRQNMADVRAKALFERRAVLLDLVEGK 6tml-a1-m1-cN9_6tml-a1-m1-cn8 Cryo-EM structure of Toxoplasma gondii mitochondrial ATP synthase hexamer, composite model A0A125YUZ2 A0A125YUZ2 4.8 ELECTRON MICROSCOPY 13 1.0 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 160 160 6tml-a1-m1-cN7_6tml-a1-m1-cn8 6tml-a1-m1-cN7_6tml-a1-m1-cN9 APHQRAACEQLHSEYKQCLAKNGRTHFSACTDFHSKLRACENMLGTSYCIDEGINLMKCTKNPDPSFCAKEFVAMRECNRPQGPHLVLSSSPSSPPHYELRPEVKHLYNVDSTDLGSAVAPVRSKEQLDRVADSLKADLNLPGYGHIPYKWESLRPNPGA APHQRAACEQLHSEYKQCLAKNGRTHFSACTDFHSKLRACENMLGTSYCIDEGINLMKCTKNPDPSFCAKEFVAMRECNRPQGPHLVLSSSPSSPPHYELRPEVKHLYNVDSTDLGSAVAPVRSKEQLDRVADSLKADLNLPGYGHIPYKWESLRPNPGA 6tmm-a1-m1-cBBB_6tmm-a1-m1-cDDD BIL2 domain from T.thermophila BUBL1 locus (C1A-N143A) Q236S9 Q236S9 2.398 X-RAY DIFFRACTION 14 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 155 155 6tmm-a1-m1-cAAA_6tmm-a1-m1-cCCC LILNLRGGAFVSNTQITMADKQKKFINEIQEGDLVRSYSITDETFQQNAVTSIVKHEADQLCQINFGKQHVVCTVNHRFYDPESKLWKSVCPHPGSGISFLKKYDYLLSEEGEKLQITEIKTFTTKQPVFIYHIQVENNHNFFANGVLAHAMQVS LILNLRGGAFVSNTQITMADKQKKFINEIQEGDLVRSYSITDETFQQNAVTSIVKHEADQLCQINFGKQHVVCTVNHRFYDPESKLWKSVCPHPGSGISFLKKYDYLLSEEGEKLQITEIKTFTTKQPVFIYHIQVENNHNFFANGVLAHAMQVS 6tmm-a1-m1-cDDD_6tmm-a1-m1-cAAA BIL2 domain from T.thermophila BUBL1 locus (C1A-N143A) Q236S9 Q236S9 2.398 X-RAY DIFFRACTION 46 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 155 156 6tmm-a1-m1-cBBB_6tmm-a1-m1-cCCC LILNLRGGAFVSNTQITMADKQKKFINEIQEGDLVRSYSITDETFQQNAVTSIVKHEADQLCQINFGKQHVVCTVNHRFYDPESKLWKSVCPHPGSGISFLKKYDYLLSEEGEKLQITEIKTFTTKQPVFIYHIQVENNHNFFANGVLAHAMQVS LILNLRGGAFVSNTQITMADKQKKFINEIQEGDLVRSYSITDETFQQNAVTSIVKHEADQLCQINFGKQHVVCTVNHRFYDPESKLWKSVCPHPGSGISFLKKYDYLLSEEGEKLQITEIKTFTTKQPVFIYHIQVENNHNFFANGVLAHAMQVSI 6tmy-a1-m1-cA_6tmy-a1-m2-cE Crystal structure of isoform CBd of the basic phospholipase A2 subunit of crotoxin from Crotalus durissus terrificus C0HM14 C0HM14 1.8 X-RAY DIFFRACTION 30 1.0 8732 (Crotalus durissus terrificus) 8732 (Crotalus durissus terrificus) 122 122 2qog-a1-m1-cB_2qog-a1-m1-cC 6tmy-a2-m4-cD_6tmy-a2-m6-cD HLLQFNKMIKFETRKNAIPFYAFYGCYCGWGGRGRPKDATDRCCFVHDCCYGKLAKCNTKWDIYRYSLKSGYITCGKGTWCEEQICECDRVAAECLRRSLSTYKYGYMFYPDSRCRGPSETC HLLQFNKMIKFETRKNAIPFYAFYGCYCGWGGRGRPKDATDRCCFVHDCCYGKLAKCNTKWDIYRYSLKSGYITCGKGTWCEEQICECDRVAAECLRRSLSTYKYGYMFYPDSRCRGPSETC 6tmy-a2-m1-cF_6tmy-a2-m6-cD Crystal structure of isoform CBd of the basic phospholipase A2 subunit of crotoxin from Crotalus durissus terrificus C0HM14 C0HM14 1.8 X-RAY DIFFRACTION 20 1.0 8732 (Crotalus durissus terrificus) 8732 (Crotalus durissus terrificus) 122 122 6tmy-a1-m1-cA_6tmy-a1-m1-cB 6tmy-a1-m2-cE_6tmy-a1-m5-cC 6tmy-a2-m3-cF_6tmy-a2-m4-cD HLLQFNKMIKFETRKNAIPFYAFYGCYCGWGGRGRPKDATDRCCFVHDCCYGKLAKCNTKWDIYRYSLKSGYITCGKGTWCEEQICECDRVAAECLRRSLSTYKYGYMFYPDSRCRGPSETC HLLQFNKMIKFETRKNAIPFYAFYGCYCGWGGRGRPKDATDRCCFVHDCCYGKLAKCNTKWDIYRYSLKSGYITCGKGTWCEEQICECDRVAAECLRRSLSTYKYGYMFYPDSRCRGPSETC 6tni-a1-m1-cA_6tni-a1-m1-ca Structure of FANCD2 homodimer F1NP22 F1NP22 3.4 ELECTRON MICROSCOPY 130 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 1067 1067 AVVTLLLEKIPEFFFDVVGTFGTNFPRLIVNQFKWLDGLLDSQDLVKKLMQMLSVSPVPIQHDIITSLPEILEDSQQNEVARELSCLLKQGRRLTVPILDALSRLDLDAELLAKVRQSAMTIVPSVKLEDLPVVIKFILHNVKAADAVEVISDLRKSLDLSSTSQNCVKLLFDVIKLAVRFQKDVSEAWIKAIENSTSVSDHKVLDLIVLLLIHSTNSKNRKQTEKVLRSKIRLGCMPEQLMQNAFQNHSMVIKDFFPSILSLAQTFLHSAHPAVVSFGSCMYKQAFAVFDSYCQQEVVCALVTHVCSGNETELDISLDVLTDLVILHPSLLLRYATFVKTILDSMQKLNPCQIRKLFYILSTLAFSQRQEGSYIQDDMHMVIRKWLSSSVPNHKQMGIIGAVTMMGSVALIECDGQLSTLLDLVGFCCEQTPEVLALYYDELANLIEKQKGNLDLQLLDKFGKSLVEDFPNDFVVDLSPTVDGSFLFPVKSLYNLDEDETQGAIAINLLPLVSQKRVVSPICLSPCFRLLRLYTGEQNNGSLEEIDALLGCPLYLTDLEVEGKLDSLSKQEREFLCSLLFYALNWFREVVNAFCQQQDAEMKGKVLTRLQNITELQNVLGKCLAATPGYVPPPATFDSEAPAQLQSYRPYFRELDLEVFSVLHCGLLTLGPAELCFLLDDMCWKLEHVLTFSHLCQRSPKEVAVCVVKLLKPLCNHMENMHNYFQTVIPNQGVVDESGLNIQEYQLMSSCYHQLLLAFRLLFAWSGFSQHENSNLLRSALQVLADRLKPGETEFLPLEELISESFQYLLNFQASIPSFQCAFILTQVLMAISEKPMTGWKREKMASLAKQFLCQSWMKPGGDREKGSHFNSALHTLLCVYLEHTDNILKAIEEISSVGVPELINSAKDGCSSTYPTLSRQTFPVFFRVMMAQLESSVKSIPAGKPSDSGEVQLEKLLKWNIAVRNFHILINLVKVFDSRPVLSICLKYGRLFVEAFLKLAMPLLDHSFKKHRDDVQSLLKTLQLSTRQLHHMCGHSKIHQDLGLTNHVPLLKKSLEQFVYRVKAML AVVTLLLEKIPEFFFDVVGTFGTNFPRLIVNQFKWLDGLLDSQDLVKKLMQMLSVSPVPIQHDIITSLPEILEDSQQNEVARELSCLLKQGRRLTVPILDALSRLDLDAELLAKVRQSAMTIVPSVKLEDLPVVIKFILHNVKAADAVEVISDLRKSLDLSSTSQNCVKLLFDVIKLAVRFQKDVSEAWIKAIENSTSVSDHKVLDLIVLLLIHSTNSKNRKQTEKVLRSKIRLGCMPEQLMQNAFQNHSMVIKDFFPSILSLAQTFLHSAHPAVVSFGSCMYKQAFAVFDSYCQQEVVCALVTHVCSGNETELDISLDVLTDLVILHPSLLLRYATFVKTILDSMQKLNPCQIRKLFYILSTLAFSQRQEGSYIQDDMHMVIRKWLSSSVPNHKQMGIIGAVTMMGSVALIECDGQLSTLLDLVGFCCEQTPEVLALYYDELANLIEKQKGNLDLQLLDKFGKSLVEDFPNDFVVDLSPTVDGSFLFPVKSLYNLDEDETQGAIAINLLPLVSQKRVVSPICLSPCFRLLRLYTGEQNNGSLEEIDALLGCPLYLTDLEVEGKLDSLSKQEREFLCSLLFYALNWFREVVNAFCQQQDAEMKGKVLTRLQNITELQNVLGKCLAATPGYVPPPATFDSEAPAQLQSYRPYFRELDLEVFSVLHCGLLTLGPAELCFLLDDMCWKLEHVLTFSHLCQRSPKEVAVCVVKLLKPLCNHMENMHNYFQTVIPNQGVVDESGLNIQEYQLMSSCYHQLLLAFRLLFAWSGFSQHENSNLLRSALQVLADRLKPGETEFLPLEELISESFQYLLNFQASIPSFQCAFILTQVLMAISEKPMTGWKREKMASLAKQFLCQSWMKPGGDREKGSHFNSALHTLLCVYLEHTDNILKAIEEISSVGVPELINSAKDGCSSTYPTLSRQTFPVFFRVMMAQLESSVKSIPAGKPSDSGEVQLEKLLKWNIAVRNFHILINLVKVFDSRPVLSICLKYGRLFVEAFLKLAMPLLDHSFKKHRDDVQSLLKTLQLSTRQLHHMCGHSKIHQDLGLTNHVPLLKKSLEQFVYRVKAML 6tnl-a4-m1-cEEE_6tnl-a4-m4-cDDD GSTF1 from Alopecurus myosuroides Q9ZS17 Q9ZS17 1.95 X-RAY DIFFRACTION 69 0.995 81473 (Alopecurus myosuroides) 81473 (Alopecurus myosuroides) 188 188 6tnl-a1-m1-cAAA_6tnl-a1-m3-cAAA 6tnl-a2-m2-cBBB_6tnl-a2-m1-cFFF 6tnl-a3-m1-cCCC_6tnl-a3-m4-cCCC 6to3-a1-m1-cAAA_6to3-a1-m2-cAAA PVKVFGPAMSTNVARVTLCLEEVGAEYEVVNIDFNPFGQIPAFQDGDLLLWESRAISKYVLRKYKTDEVDLLRESNLEEAAMVDVWTEVDAHTYNPALSPIVYQLFNESLEKLKKVLEVYEARLSKHSYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVPPK PVKVFGPAMSTNVARVTLCLEEVGAEYEVVNIDFNNPFGQIPAFQDGDLLLWESRAISKYVLRKYKTDEVDLLRESNLEEAAMVDVWTEVDAHTYNPALSPIVYQLFNESLEKLKKVLEVYEARLSKHSYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVPP 6to4-a1-m1-cD_6to4-a1-m1-cA Imine Reductase from Myxococcus stipitatus in complex with NADP+ L7U9F5 L7U9F5 2.29 X-RAY DIFFRACTION 329 1.0 1278073 (Myxococcus stipitatus DSM 14675) 1278073 (Myxococcus stipitatus DSM 14675) 276 291 6to4-a2-m1-cB_6to4-a2-m1-cC 6toe-a1-m1-cE_6toe-a1-m1-cA 6toe-a2-m1-cF_6toe-a2-m1-cB 6toe-a3-m1-cD_6toe-a3-m1-cC TVIGAGRMGSALIKAFQSGYTTVWNRKAKSEPLGAHLATVRDAVKRSIIVVNVLDYDTSDQLLRQEVTRELRGKLLVQLTSGSPALAREQETWARQHGIDYLDGAIMATPDFIGQAECALLYSGSAALFEKHRAVLNLGGATSHVGEDVGHASALDSALLFQMWGTLFGTLQALAISRAEGIPLEKTTAFIKLTEPVTQGAVADVLTRVQQNRLTADAQTLASLEAHNVAFQHLLALCEERNIHRGVADAMYSVIREAVKAGHGKDDFAILTRFLK MKPTLTVIGAGRMGSALIKAFLQSGYTTTVWNRTKAKSEPLAKLGAHLADTVRDAVKRSDIIVVNVLDYDTSDQLLRQDEVTRELRGKLLVQLTSGSPALAREQETWARQHGIDYLDGAIMATPDFIGQAECALLYSGSAALFEKHRAVLNVLGGATSHVGEDVGHASALDSALLFQMWGTLFGTLQALAISRAEGIPLEKTTAFIKLTEPVTQGAVADVLTRVQQNRLTADAQTLASLEAHNVAFQHLLALCEERNIHRGVADAMYSVIREAVKAGHGKDDFAILTRFLK 6toc-a1-m1-cAAA_6toc-a1-m2-cBBB Crystal structure of the oligomerisation domain of the transcription factor PHOSPHATE STARVATION RESPONSE 1 from Arabidopsis (crystal form 3). Q94CL7 Q94CL7 1.853 X-RAY DIFFRACTION 62 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 43 44 6toc-a1-m2-cAAA_6toc-a1-m1-cBBB GITEALRLQMEVQKQLHEQLEIQRNLQLRIEEQGKYLQMMFEK GITEALRLQMEVQKQLHEQLEIQRNLQLRIEEQGKYLQMMFEKQ 6toc-a1-m2-cAAA_6toc-a1-m2-cBBB Crystal structure of the oligomerisation domain of the transcription factor PHOSPHATE STARVATION RESPONSE 1 from Arabidopsis (crystal form 3). Q94CL7 Q94CL7 1.853 X-RAY DIFFRACTION 47 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 43 44 6to9-a1-m1-cAAAA_6to9-a1-m2-cAAAA 6to9-a1-m1-cAAAB_6to9-a1-m2-cAAAB 6toc-a1-m1-cAAA_6toc-a1-m1-cBBB GITEALRLQMEVQKQLHEQLEIQRNLQLRIEEQGKYLQMMFEK GITEALRLQMEVQKQLHEQLEIQRNLQLRIEEQGKYLQMMFEKQ 6tor-a1-m1-cA_6tor-a1-m1-cB human O-phosphoethanolamine phospho-lyase Q8TBG4 Q8TBG4 2.05 X-RAY DIFFRACTION 121 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 402 404 IKIVRAQRQYMFDENGEQYLDCINNVAHVGHCHPGVVKAALKQMELLNTNSRFLHDNIVEYAKRLSATLPEKLSVCYFTNSGSEANDLALRLARQFRGHQDVITLDHAYHGHLSSLIEISPYKFQKKEFVHVAPTPDTYRGKYREDHADSASAYADEVKKIIEDAHNSGRKIAAFIAESMQSCGGQIIPPAGYFQKVAEYVHGAGGVFIADEVQVGFGRVGKHFWSFQMYGEDFVPDIVTMGKPMGNGHPVACVVTTKEIAEAFSSSNTYGGNPVSCAVGLAVLDIIENEDLQGNAKRVGNYLTELLKKQKAKHTLIGDIRGIGLFIGIDLVKDHLKRTPATAEAQHIIYKMKEKRVLLSADGPHRNVLKIKPPMCFTEEDAKFMVDQLDRILTVLEEAMGT IKIVRAQRQYMFDENGEQYLDCINNVAHVGHCHPGVVKAALKQMELLNTNSRFLHDNIVEYAKRLSATLPEKLSVCYFTNSGSEANDLALRLARQFRGHQDVITLDHAYHGHLSSLIEISPYKFQVKKEFVHVAPTPDTYRGKYREDHADSASAYADEVKKIIEDAHNSGRKIAAFIAESMQSCGGQIIPPAGYFQKVAEYVHGAGGVFIADEVQVGFGRVGKHFWSFQMYGEDFVPDIVTMGKPMGNGHPVACVVTTKEIAEAFSSSNTYGGNPVSCAVGLAVLDIIENEDLQGNAKRVGNYLTELLKKQKAKHTLIGDIRGIGLFIGIDLVKDHLKRTPATAEAQHIIYKMKEKRVLLSADGPHRNVLKIKPPMCFTEEDAKFMVDQLDRILTVLEEAMGTK 6tp5-a1-m1-cB_6tp5-a1-m1-cA Crystal structure of human Transmembrane prolyl 4-hydroxylase Q9NXG6 Q9NXG6 2.25 X-RAY DIFFRACTION 100 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 356 370 LGPLTRLEGIKVGHERKVQLVTDRDHFIRTLSLKPLLFEIPGFLTDEECRLIIHLAQMKGLQRSQILPTVSQLDLFRLLDQNRDGHLQLREVLAQTRLGNGWWMTPESIQEMYAAIKADPDGDGVLSLQEFSNMDLRDFHKYMRSHKAESSELVRNSHHTWLYQGEGAHHIMRAIRQRVLRLTRLSPEIVELSEPLQVVRYGEGGHYHAHVDSGPVYPETICSHTVPFETSCRYMTVLFYLNNVTGGGETVFPVADNRTYDEMSLIQDDVDLRDTRRHCDKGNLRVKPQQGTAVFWYNYLPDGQGWVGDVDDYSLHGGCLVTRGTKWIANNWINVDPSRARQALFQQEMARLAREG TLGPLTRLEGIKVGHERKVQLVTDRDHFIRTLSLKPLLFEIPGFLTDEECRLIIHLAQMKGLQRSQILPTEEYEEQVSQLDLFRLLDQNRDGHLQLREVLAQTRLGNGWWMTPESIQEMYAAIKADPDGDGVLSLQEFSNMDLRDFHKYMRSHKAESSELVRNSHHTWLYQGEGAHHIMRAIRQRVLRLTRLSPEIVELSEPLQVVRYGEGGHYHAHVDSGPVYPETICSHTKLVANESVPFETSCRYMTVLFYLNNVTGGGETVFPVADNRTYDEMSLIQDDVDLRDTRRHCDKGNLRVKPQQGTAVFWYNYLPDGQGWVGDVDDYSLHGGCLVTRGTKWIANNWINVDPSRARQALFQQEMARLAREG 6tp8-a2-m1-cC_6tp8-a2-m2-cC Substrate protein interactions in the limbus region of the catalytic site of Candida antarctica Lipase B P41365 P41365 1.55 X-RAY DIFFRACTION 73 1.0 84753 (Moesziomyces antarcticus) 84753 (Moesziomyces antarcticus) 317 317 6tp8-a1-m1-cA_6tp8-a1-m1-cB LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTP LPSGSDPAFSQPKSVLDAGLTCQGASPSSVSKPILLVPGTGTTGPQSFDSNWIPLSTQLGYTPCWISPPPFMLNDTQVNTEYMVNAITALYAGSGNNKLPVLTWSQGGLVAQWGLTFFPSIRSKVDRLMAFAPDYKGTVLAGPLDALAVSAPSVWQQTTGSALTTALRNAGGLTQIVPTTNLYSATDEIVQPQVSNSPLDSSYLFNGKNVQAQAVCGPLFVIDHAGSLTSQFSYVVGRSALRSTTGQARSADYGITDCNPLPANDLTPEQKVAAAALLAPAAAAIVAGPKQNCEPDLMPYARPFAVGKRTCSGIVTP 6tp9-a2-m1-cB_6tp9-a2-m1-cF c-type cytochrome NirC Q51479 Q51479 2.19 X-RAY DIFFRACTION 108 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 85 85 6tp9-a1-m1-cA_6tp9-a1-m1-cC 6tp9-a3-m1-cD_6tp9-a3-m1-cJ PDARRQAQLRHLLLQDCGSCHGLRLTGGLGPALTPEALRGKPRESLVATVLMGRPQTPMPPWAGLLSADDAGWLVDRLIEGEIAP PDARRQAQLRHLLLQDCGSCHGLRLTGGLGPALTPEALRGKPRESLVATVLMGRPQTPMPPWAGLLSADDAGWLVDRLIEGEIAP 6tp9-a6-m1-cH_6tp9-a6-m1-cI c-type cytochrome NirC Q51479 Q51479 2.19 X-RAY DIFFRACTION 105 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 79 85 6tp9-a4-m1-cE_6tp9-a4-m1-cK PDARRQAQLRHLLLQDCGSCHGLRLTLGPALTPEALRGKPRESLVATVLMGRPQTPMPPWAGLLSADDAGWLVDRLIEG PDARRQAQLRHLLLQDCGSCHGLRLTGGLGPALTPEALRGKPRESLVATVLMGRPQTPMPPWAGLLSADDAGWLVDRLIEGEIAP 6tqf-a1-m1-cA_6tqf-a1-m1-cB The structure of ABC transporter Rv1819c in AMP-PNP bound state P9WQI9 P9WQI9 3.5 ELECTRON MICROSCOPY 295 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 634 634 6tqe-a1-m1-cA_6tqe-a1-m1-cB MGPKLFKPSIDWSRAFPDSVYWVGKAWTISAICVLAILVLLRYLTPWGRQFWRITRAYFVGPNSVRVWLMLGVLLLSVVLAVRLNVLFSYQGNDMYTALQKAFEGIASGDGTVKRSGVRGFWMSIGVFSVMAVLHVTRVMADIYLTQRFIIAWRVWLTHHLTQDWLDGRAYYRDLFIDETIDNPDQRIQQDVDIFTAGAGGTPNAPSNGTASTLLFGAVQSIISVISFTAILWNLSGTLNIFGVSIPRAMFWTVLVYVFVATVISFIIGRPLIWLSFRNEKLNAAFRYALVRLRDAAEAVGFYRGERVEGTQLQRRFTPVIDNYRRYVRRSIAFNGWNLSVSQTIVPLPWVIQAPRLFAGQIDFGDVGQTATSFGNIHDSLSFFRNNYDAFASFRAAIIRLHGLVDANEKGRALPAVLTRPSDDESVELNDIEVRTPAGDRLIDPLDVRLDRGGSLVITGRSGAGKTTLLRSLAELWPYASGTLHRPGGENETMFLSQLPYVPLGTLRDVVCYPNSAAAIPDATLRDTLTKVALAPLCDRLDEERDWAKVLSPGEQQRVAFARILLTKPKAVFLDGSTSALDTGLEFALYQLLRSELPDCIVISVSHRPALERLHENQLELLGGGQWRLAPVEA MGPKLFKPSIDWSRAFPDSVYWVGKAWTISAICVLAILVLLRYLTPWGRQFWRITRAYFVGPNSVRVWLMLGVLLLSVVLAVRLNVLFSYQGNDMYTALQKAFEGIASGDGTVKRSGVRGFWMSIGVFSVMAVLHVTRVMADIYLTQRFIIAWRVWLTHHLTQDWLDGRAYYRDLFIDETIDNPDQRIQQDVDIFTAGAGGTPNAPSNGTASTLLFGAVQSIISVISFTAILWNLSGTLNIFGVSIPRAMFWTVLVYVFVATVISFIIGRPLIWLSFRNEKLNAAFRYALVRLRDAAEAVGFYRGERVEGTQLQRRFTPVIDNYRRYVRRSIAFNGWNLSVSQTIVPLPWVIQAPRLFAGQIDFGDVGQTATSFGNIHDSLSFFRNNYDAFASFRAAIIRLHGLVDANEKGRALPAVLTRPSDDESVELNDIEVRTPAGDRLIDPLDVRLDRGGSLVITGRSGAGKTTLLRSLAELWPYASGTLHRPGGENETMFLSQLPYVPLGTLRDVVCYPNSAAAIPDATLRDTLTKVALAPLCDRLDEERDWAKVLSPGEQQRVAFARILLTKPKAVFLDGSTSALDTGLEFALYQLLRSELPDCIVISVSHRPALERLHENQLELLGGGQWRLAPVEA 6trr-a1-m1-cA_6trr-a1-m2-cA Structural insight into tanapoxvirus mediated inhibition of apoptosis Q9DHU6 Q9DHU6 2.12007 X-RAY DIFFRACTION 186 1.0 132475 (Yaba-like disease virus) 132475 (Yaba-like disease virus) 140 140 6tqq-a1-m1-cA_6tqq-a1-m2-cA CNFNNSIKNVIVFYINEKALIEEKKMLSCYENKLLNLIKEDCENIMLKYKPNLSYICSLLKVDDTSEENIKHIKDQIIESLENDNRPSVKLAIISLISMIVEMNGYKGKNIPMSFLIEDIALKISENSEDLINFINIKNK CNFNNSIKNVIVFYINEKALIEEKKMLSCYENKLLNLIKEDCENIMLKYKPNLSYICSLLKVDDTSEENIKHIKDQIIESLENDNRPSVKLAIISLISMIVEMNGYKGKNIPMSFLIEDIALKISENSEDLINFINIKNK 6trv-a1-m1-cAAA_6trv-a1-m1-cBBB Structure of SapL1 lectin in complex with alpha methyl fucoside A0A084FYP2 A0A084FYP2 2.4 X-RAY DIFFRACTION 68 1.0 563466 (Scedosporium apiospermum) 563466 (Scedosporium apiospermum) 294 294 SGVLQISFPAGIAAIRNNSSLRVYEAALDGGVREAQYEGRWAGGKPDNVIATGKIGTPIAATSVGFQYIRVYYVGADNKAREACWDGKGWYTGAFVKDVAPYSSIGAVFLGKNIVVRVYTQNHDNTIQEWVWDSPSTGWTAGANFGAALPGTAIAATSWGAGPYHIRVYFQDTNRNVIESGWDGSGWYTGGLKISNQSPRASLGATSWGESGSSLGIRLYYATQDNLIKEKAWDGGGGWYDGGFQQRSIPGSRVAAIPLPVLRVYLQNGTEVSGITEYAWNSGWVVGQAVLPPA SGVLQISFPAGIAAIRNNSSLRVYEAALDGGVREAQYEGRWAGGKPDNVIATGKIGTPIAATSVGFQYIRVYYVGADNKAREACWDGKGWYTGAFVKDVAPYSSIGAVFLGKNIVVRVYTQNHDNTIQEWVWDSPSTGWTAGANFGAALPGTAIAATSWGAGPYHIRVYFQDTNRNVIESGWDGSGWYTGGLKISNQSPRASLGATSWGESGSSLGIRLYYATQDNLIKEKAWDGGGGWYDGGFQQRSIPGSRVAAIPLPVLRVYLQNGTEVSGITEYAWNSGWVVGQAVLPPA 6tsb-a1-m1-cAAA_6tsb-a1-m2-cAAA Crystal structure of the Chitinase Domain of the Spore Coat Protein CotE from Clostridium difficile Q18BV5 Q18BV5 2.1 X-RAY DIFFRACTION 512 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 345 345 NPIVENANCPDINPIVAEYVLGNPTNVDAQLLDAVIFAFAEIDQSGNLFIPYPRFLNQLLALKGEKPSLKVIVAIGGWGAEGFSDAALTPTSRYNFARQVNQMINEYALDGIDIDWEYPGSSASGITSRPQDRENFTLLLTAIRDVIGDDKWLSVAGTGDRGYINSSAEIDKIAPIIDYFNLMSYDFTAGETGPNGRKHQANLFDSDLSLPGYSVDAMVRNLENAGMPSEKILLGIPFYGRLGATITRTYDELRRDYINKNGYEYRFDNTAQVPYLVKDGDFAMSYDDALSIFLKTQYVLRNCLGGVFSWTSTYDQANILARTMSIGINDPEVLKEELEGIYGQF NPIVENANCPDINPIVAEYVLGNPTNVDAQLLDAVIFAFAEIDQSGNLFIPYPRFLNQLLALKGEKPSLKVIVAIGGWGAEGFSDAALTPTSRYNFARQVNQMINEYALDGIDIDWEYPGSSASGITSRPQDRENFTLLLTAIRDVIGDDKWLSVAGTGDRGYINSSAEIDKIAPIIDYFNLMSYDFTAGETGPNGRKHQANLFDSDLSLPGYSVDAMVRNLENAGMPSEKILLGIPFYGRLGATITRTYDELRRDYINKNGYEYRFDNTAQVPYLVKDGDFAMSYDDALSIFLKTQYVLRNCLGGVFSWTSTYDQANILARTMSIGINDPEVLKEELEGIYGQF 6tt9-a1-m1-cDDD_6tt9-a1-m1-cBBB rTBL Recombinant Lectin From Tepary Bean Q40750 Q40750 1.9 X-RAY DIFFRACTION 44 1.0 33129 (Phaseolus acutifolius) 33129 (Phaseolus acutifolius) 228 230 6tt9-a1-m1-cAAA_6tt9-a1-m1-cCCC NDISFNFQRFNETNLILQGDASVSSSGQLRLTNLNDNGEPTLSSLGRAFYSTPIQIWDSTTGAVASFATSFTFNIRVPNNAGPADGLAFALVPVGSKPKDRGGLLGLFDKAHTVAVEFDTLYNRDWDPRERHIGIDVNSIKSIKTTPWDFVNGEDAEVLITYDSSTKLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATSGISKGNVETNDLLSWSFASKLS SANDISFNFQRFNETNLILQGDASVSSSGQLRLTNLNDNGEPTLSSLGRAFYSTPIQIWDSTTGAVASFATSFTFNIRVPNNAGPADGLAFALVPVGSKPKDRGGLLGLFDKAHTVAVEFDTLYNRDWDPRERHIGIDVNSIKSIKTTPWDFVNGEDAEVLITYDSSTKLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATSGISKGNVETNDLLSWSFASKLS 6tt9-a1-m1-cDDD_6tt9-a1-m1-cCCC rTBL Recombinant Lectin From Tepary Bean Q40750 Q40750 1.9 X-RAY DIFFRACTION 53 1.0 33129 (Phaseolus acutifolius) 33129 (Phaseolus acutifolius) 228 233 6tt9-a1-m1-cBBB_6tt9-a1-m1-cAAA NDISFNFQRFNETNLILQGDASVSSSGQLRLTNLNDNGEPTLSSLGRAFYSTPIQIWDSTTGAVASFATSFTFNIRVPNNAGPADGLAFALVPVGSKPKDRGGLLGLFDKAHTVAVEFDTLYNRDWDPRERHIGIDVNSIKSIKTTPWDFVNGEDAEVLITYDSSTKLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATSGISKGNVETNDLLSWSFASKLS ANDISFNFQRFNETNLILQGDASVSSSGQLRLTNLNDNGEPTLSSLGRAFYSTPIQIWDSTTGAVASFATSFTFNIRVPNNAGPADGLAFALVPVGSKPKDRGGLLGLFDGSDSKAHTVAVEFDTLYNRDWDPRERHIGIDVNSIKSIKTTPWDFVNGEDAEVLITYDSSTKLLVASLVYPSQKTSFIVSDTVDLKSVLPEWVSVGFSATSGISKGNVETNDLLSWSFASKLS 6ttb-a1-m1-cB_6ttb-a1-m1-cA Crystal structure of NAD-dependent formate dehydrogenase from Staphylococcus aureus in complex with NAD A0A0H3JSR9 A0A0H3JSR9 2.7 X-RAY DIFFRACTION 207 0.994 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 327 331 MKIVALFPEAVENQLLNTKKAIGLKTFLEERGHEFIILGEDLDKHLPDMDVIISAPFYPAYMTRERIEKAPNLKLAITAGVGSDHVDLAAASEHNIGVVEVTGSNTVSVAEHAVMDLLILLRNYEEGHRQSVEGEWNLSQVGNHAHELQHKTIGIFGFGRIGQLVAERLAPFNVTLQHYDPINQQDHKLSKFVSFDELVSSSDAITIHAPLTPETDNLFDKDVLSRMKKHSYLVNTARGKIVNRDALVEALASEHLQGYAGDVWYPQPAPADHPWRTMPRNAMTVHYSGMTLEAQKRIEDGVKDILERFFNHEPFQDKDIIVASGRI MKIVALFPEAVEGQENQLLNTKKAIGLKTFLEERGHEFIILADNGEDLDKHLPDMDVIISAPFYPAYMTRERIEKAPNLKLAITAGVGSDHVDLAAASEHNIGVVEVTGSNTVSVAEHAVMDLLILLRNYEEGHRQSVEGEWNLSQVGNHAHELQHKTIGIFGFGRIGQLVAERLAPFNVTLQHYDPINQQDHKLSKFVSFDELVSSSDAITIHAPLTPETDNLFDKDVLSRMKKHSYLVNTARGKIVNRDALVEALASEHLQGYAGDVWYPQPAPADHPWRTMPRNAMTVHYSGMTLEAQKRIEDGVKDILERFFNHEPFQDKDIIVASG 6ttl-a1-m1-cA_6ttl-a1-m1-cB crystal structure of [FeFe]-hydrogenase CbA5H (partial) from Clostridium beijerinckii in Hinact state A0A1I9RYV3 A0A1I9RYV3 2.9 X-RAY DIFFRACTION 61 1.0 1520 (Clostridium beijerinckii) 1520 (Clostridium beijerinckii) 479 479 LSQEDCIIQFEKFYIEYLLAKIKDGSYKNYEVVKEDITEMFNILNRISKGVSNMREIYLLRNLAVTVKSKMNQKHEEIIDKFYEEIEEHIEEKKCYTSQCNHLVKLTITKAISAGDNTMLFLRDLATPNKVVITQMAPAVRVAIGEAFGFEPGENVEKKIAAGLRKLGVDYVFDTSWGADLTIMEEAAELQERLERHLKLPILTSCCPSWIKFIEQNYGDMLDVPSSAKSPMEMFAIVAKEIWAKEKGLSRDEVTSVAIMPCIAKKYEASRAEFSVDMNYDVDYVITTRELIKIFENSGINLKEIEDEEIDTVMGEYTGAGIIFGRTGGVIEAATRTALEKMTGERFDNIEFEGLRGWDGFRVCELEAGDIKLRIGVAHGLREAAKMLDKIRSGEEFFHAIEIMACVGGCIGGGGQPKTKGNKQAALQKRAEGLNNIDRSKTLRRSNENPEVLAIYEKYLDHPLSNKAHELLHTVYFPR LSQEDCIIQFEKFYIEYLLAKIKDGSYKNYEVVKEDITEMFNILNRISKGVSNMREIYLLRNLAVTVKSKMNQKHEEIIDKFYEEIEEHIEEKKCYTSQCNHLVKLTITKAISAGDNTMLFLRDLATPNKVVITQMAPAVRVAIGEAFGFEPGENVEKKIAAGLRKLGVDYVFDTSWGADLTIMEEAAELQERLERHLKLPILTSCCPSWIKFIEQNYGDMLDVPSSAKSPMEMFAIVAKEIWAKEKGLSRDEVTSVAIMPCIAKKYEASRAEFSVDMNYDVDYVITTRELIKIFENSGINLKEIEDEEIDTVMGEYTGAGIIFGRTGGVIEAATRTALEKMTGERFDNIEFEGLRGWDGFRVCELEAGDIKLRIGVAHGLREAAKMLDKIRSGEEFFHAIEIMACVGGCIGGGGQPKTKGNKQAALQKRAEGLNNIDRSKTLRRSNENPEVLAIYEKYLDHPLSNKAHELLHTVYFPR 6ttr-a1-m1-cA_6ttr-a1-m1-cB Crystal Structure of the coiled coil and GGDEF domain of DgcB from Caulobacter crescentus in complex with c-di-GMP A0A0H3CAN8 A0A0H3CAN8 2.85 X-RAY DIFFRACTION 59 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 191 195 QSLEARLADSTAEVERLREHLEQVRRDATTDGLTNLANRKAFDDELDRACAEAEEGGTTICLAVLDIDHFKGFNDTWGHQTGDQVIRYVASVIGRVAAPPRFAARYGGAAFAMIFPREAASVVATTLEEIRVEVSSRMLKRRSTNEDLGAITVSSGFAERKPGESGHSVMERADAALYASKRGGRNRVTAA GSHMQSLEARLADSTAEVERLREHLEQVRRDATTDGLTNLANRKAFDDELDRACAEAEEGGTTICLAVLDIDHFKGFNDTWGHQTGDQVIRYVASVIGRVAAPPRFAARYGGAAFAMIFPREAASVVATTLEEIRVEVSSRMLKRRSTNEDLGAITVSSGFAERKPGESGHSVMERADAALYASKRGGRNRVTAA 6tts-a1-m1-cA_6tts-a1-m1-cB Crystal structure of the GGDEF domain of DgcB from Caulobacter crescentus in complex with c-di-GMP A0A0H3CAN8 A0A0H3CAN8 2.5 X-RAY DIFFRACTION 39 0.994 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 171 176 HVRRDATTDGLTNLANRKAFDDELDRACAEAEEGGTTICLAVLDIDHFKGFNDTWGHQTGDQVIRYVASVIGRVAAPPRFAARYGGEEFAMIFPREAASVVATTLEEIRVEVSSRMLKRRSTNEDLGAITVSSGFAERKPGESGHSVMERADAALYASKRGGRNRVTAAES PRGSHMVRRDATTDGLTNLANRKAFDDELDRACAEAEEGGTTICLAVLDIDHFKGFNDTWGHQTGDQVIRYVASVIGRVAAPPRFAARYGGEEFAMIFPREAASVVATTLEEIRVEVSSRMLKRRSTNEDLGAITVSSGFAERKPGESGHSVMERADAALYASKRGGRNRVTAAES 6tu2-a2-m1-cB_6tu2-a2-m1-cC Crystal structure of rat annexin A11 Q5XI77 Q5XI77 2.3 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 314 314 RGTITDASGFDPLRDAEVLRKAMKGFGTDEQAIIDCLGSRSNKQRQQILLSFKTAYGKDLIKDLKSELSGNFEKTILALMKTPVLFDVYEIKEAIKGAGTDEACLIEILASRSNEHIRELNRAYKTEFKKTLEEAIRSDTSGHFQRLLISLSQGNRDESTNVDMSLVQRDVQELYAAGENRLGTDESKFNAILCSRSRAHLVAVFNEYQRMTGRDIEKSICREMSGDLEQGMLAVVKCLKNTPAFFAERLNKAMRGAGTKDRTLIRIMVSRSELDLLDIRAEYKRMYGKSLYHDITGDTSGDYRKILLKICGGN RGTITDASGFDPLRDAEVLRKAMKGFGTDEQAIIDCLGSRSNKQRQQILLSFKTAYGKDLIKDLKSELSGNFEKTILALMKTPVLFDVYEIKEAIKGAGTDEACLIEILASRSNEHIRELNRAYKTEFKKTLEEAIRSDTSGHFQRLLISLSQGNRDESTNVDMSLVQRDVQELYAAGENRLGTDESKFNAILCSRSRAHLVAVFNEYQRMTGRDIEKSICREMSGDLEQGMLAVVKCLKNTPAFFAERLNKAMRGAGTKDRTLIRIMVSRSELDLLDIRAEYKRMYGKSLYHDITGDTSGDYRKILLKICGGN 6tu5-a1-m1-cDDD_6tu5-a1-m1-cAAA Influenza A/H7N9 polymerase core (apo) M9TI86 M9TI86 3.325 X-RAY DIFFRACTION 33 1.0 1318616 (Influenza A virus (A/Zhejiang/DTID-ZJU01/2013(H7N9))) 1318616 (Influenza A virus (A/Zhejiang/DTID-ZJU01/2013(H7N9))) 514 515 6qx8-a1-m1-cA_6qx8-a1-m1-cE 6qxe-a1-m1-cA_6qxe-a1-m1-cE 7zpl-a1-m1-cA_7zpl-a1-m1-cD 7zpm-a1-m1-cD_7zpm-a1-m1-cA EERFEITGTMRRLADQSLPPNFSSLENFRAYVDGFEPNGCIEGKLSQMSKEVNARIEPFLRTTPRPLRLPDGPPCSQRSKFLLMDALKLSIEDPSHEGEGIPLYDAIKCMKTFFGWKEPNIIKPHEKGINPNYLLTWKQVLAELQDIENEEKIPRTKNMKKTSQLKWALGENMAPEKVDFEDCKDVNDLKQYDSDEPEPRSLACWIQSEFNKACELTDSSWVELDEIGEDVAPIEHIASMRRNYFTAEVSHCRATEYIMKGVYINTALLNASCAAMDDFQLIPMISKCRTKEGRRKTNLYGFIIKGRSHLRNDTDVVNFVSMEFSLTDPRLEPHKWEKYCVLEIGDMLLRTAVGQVSRPMFLYVRTNGTSKIKMKWGMEMRRCLLQSLQQIESMIEAESSVKEKDLTKEFFENKSETWPIGESPKGVEEGSIGKVCRTLLAKSVFNSLYASPQLEGFSAESRKLLLIVQALRDNLEPGTFDLEGLYEAIEECLINDPWVLLNASWFNSFLTHAL EERFEITGTMRRLADQSLPPNFSSLENFRAYVDGFEPNGCIEGKLSQMSKEVNARIEPFLRTTPRPLRLPDGPPCSQRSKFLLMDALKLSIEDPSHEGEGIPLYDAIKCMKTFFGWKEPNIIKPHEKGINPNYLLTWKQVLAELQDIENEEKIPRTKNMKKTSQLKWALGENMAPEKVDFEDCKDVNDLKQYDSDEPEPRSLACWIQSEFNKACELTDSSWVELDEIGEDVAPIEHIASMRRNYFTAEVSHCRATEYIMKGVYINTALLNASCAAMDDFQLIPMISKCRTKEGRRKTNLYGFIIKGRSHLRNDTDVVNFVSMEFSLTDPRLEPHKWEKYCVLEIGDMLLRTAVGQVSRPMFLYVRTNGTSKIKMKWGMEMRRCLLQSLQQIESMIEAESSVKEKDLTKEFFENKSETWPIGESPKGVEEGSIGKVCRTLLAKSVFNSLYASPQLEGFSAESRKLLLIVQALRDNLEPGTFDLEGLYEAIEECLINDPWVLLNASWFNSFLTHALR 6tub-a1-m1-cD_6tub-a1-m1-cF Beta-endorphin amyloid fibril P01189 P01189 NOT SOLID-STATE NMR 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 6tub-a1-m1-cA_6tub-a1-m1-cC 6tub-a1-m1-cB_6tub-a1-m1-cD YGGFMTSEKSQTPLVTLFKNAIIKNAYKKGE YGGFMTSEKSQTPLVTLFKNAIIKNAYKKGE 6tub-a1-m1-cE_6tub-a1-m1-cF Beta-endorphin amyloid fibril P01189 P01189 NOT SOLID-STATE NMR 111 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 6tub-a1-m1-cA_6tub-a1-m1-cB 6tub-a1-m1-cB_6tub-a1-m1-cC 6tub-a1-m1-cC_6tub-a1-m1-cD 6tub-a1-m1-cD_6tub-a1-m1-cE YGGFMTSEKSQTPLVTLFKNAIIKNAYKKGE YGGFMTSEKSQTPLVTLFKNAIIKNAYKKGE 6tug-a4-m1-cG_6tug-a4-m1-cH Enterococcus italicus Csm6 bound to cyclic hexa-2'-fluoro-hexa-dAMP E6LHV2 E6LHV2 2.42 X-RAY DIFFRACTION 170 0.99 888064 (Enterococcus italicus DSM 15952) 888064 (Enterococcus italicus DSM 15952) 407 414 6tug-a1-m1-cA_6tug-a1-m1-cB 6tug-a2-m1-cD_6tug-a2-m1-cC 6tug-a3-m1-cE_6tug-a3-m1-cF NAMKILFSPIGNTDPWRNDRDGAMLHIVRHYQPDRVVLFFTESIWQGQHFSGQQAFDWVKIIQSINENCQIEIKCDTIEVENDFDAYKDLFHQYLVEEKRKYPNAEIFLNVTSGTPQMETTLCLEYVTYPDKMRCIQVSTPLTKYAQADCQEVDLEIVNEEESQQPSRCHKIAILSFREAIVRNQIKSLLDNYDYEAALQLVASQKSFRNGKEIRKKLKELIDDIKMHRVFSYLIKQYPRNEKLQKALLHTILLEMRHQRGDIAETLIRVKSIAEYIVEQYIQKNYPYLIIYKEDKPYFNVSYSQELTESYLALMDSGFPAYRDFLQLLEASNEMTNEMNKVNEINNLRNKVAHNLDSLNLDRDKNGRKITNAVTAVRTMLLAVFPEVQENDFHYLKQFNQSIKELL AMKILFSPIGNTDPWRNDRDGAMLHIVRHYQPDRVVLFFTESIWQGNFSGQQAFDWVKIIQSINENCQIEIKCDTIEVENDFDAYKDLFHQYLVEEKRKYPNAEIFLNVTSGTPQMETTLCLEYVTYPDKMRCIQVSTPLKYAQADCQEVDLEIVNEEESQQPSRCHKIAILSFREAIVRNQIKSLLDNYDYEAALQLVASQKSFRNGKEIRKKLKELIDDIKMHRVFSYLIKQYPRNEKLQKALLHTILLEMRHQRGDIAETLIRVKSIAEYIVEQYIQKNYPYLIIYKEDKPYFNVSYSQELTESYLALMDSMTVDSLDRILGFPAYRDFLQLLEASNEMTNEMNKVNEINNLRNKVAHNLDSLNLDRDKNGRKITNAVTAVRTMLLAVFPEVQENDFHYLKQFNQSIKELL 6tum-a1-m1-cA_6tum-a1-m1-cB Crystal structure of glutathione s-transferase PA1623 from Pseudomonas aeruginosa PACS2 complexed with tartrate A0A485ICL5 A0A485ICL5 1.48 X-RAY DIFFRACTION 78 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 197 199 4eci-a1-m1-cA_4eci-a1-m1-cB 4ecj-a1-m1-cA_4ecj-a1-m1-cB 6tah-a1-m1-cCAA_6tah-a1-m1-cAAA 6tah-a2-m1-cDAA_6tah-a2-m1-cB PIDLYTAATPNGHKVSIALEEGLPYTVHALSFDKKEQKAPEFLRINPNGRIPAIVDRSNDDFAVFESGAILVYLAEKTGQLPTDVKGRSRVIQWLFQGGVGPQGQANVFFRYFPEKLQGAIDRYQHETRRLYEVLDGRLGEAEYLAGDYSIADIATYPWVRIHDWSGVAVDGLDNLQRWIAALEARPAVQRGLLVPR GPIDLYTAATPNGHKVSIALEEGLPYTVHALSFDKKEQKAPEFLRINPNGRIPAIVDRSNDDFAVFESGAILVYLAEKTGQLPTDVKGRSRVIQWLFQGGVGPQGQANVFFRYFPEKLQGAIDRYQHETRRLYEVLDGRLGEAEYLAGDYSIADIATYPWVRIHDWSGVAVDGLDNLQRWIAALEARPAVQRGLLVPRR 6tup-a1-m22-cA_6tup-a1-m39-cA Cryo-EM structure of Pf4 bacteriophage coat protein with single-stranded DNA P03621 P03621 3.2 ELECTRON MICROSCOPY 11 1.0 2011081 (Primolicivirus Pf1) 2011081 (Primolicivirus Pf1) 46 46 6tup-a1-m10-cA_6tup-a1-m19-cA 6tup-a1-m11-cA_6tup-a1-m20-cA 6tup-a1-m12-cA_6tup-a1-m21-cA 6tup-a1-m14-cA_6tup-a1-m22-cA 6tup-a1-m15-cA_6tup-a1-m23-cA 6tup-a1-m16-cA_6tup-a1-m24-cA 6tup-a1-m17-cA_6tup-a1-m25-cA 6tup-a1-m1-cA_6tup-a1-m18-cA 6tup-a1-m1-cA_6tup-a1-m34-cA 6tup-a1-m20-cA_6tup-a1-m36-cA 6tup-a1-m21-cA_6tup-a1-m37-cA 6tup-a1-m24-cA_6tup-a1-m41-cA 6tup-a1-m25-cA_6tup-a1-m42-cA 6tup-a1-m26-cA_6tup-a1-m43-cA 6tup-a1-m27-cA_6tup-a1-m3-cA 6tup-a1-m28-cA_6tup-a1-m45-cA 6tup-a1-m28-cA_6tup-a1-m4-cA 6tup-a1-m29-cA_6tup-a1-m46-cA 6tup-a1-m29-cA_6tup-a1-m5-cA 6tup-a1-m2-cA_6tup-a1-m26-cA 6tup-a1-m30-cA_6tup-a1-m6-cA 6tup-a1-m31-cA_6tup-a1-m7-cA 6tup-a1-m32-cA_6tup-a1-m49-cA 6tup-a1-m32-cA_6tup-a1-m8-cA 6tup-a1-m33-cA_6tup-a1-m50-cA 6tuq-a1-m14-cA_6tuq-a1-m22-cA 6tuq-a1-m15-cA_6tuq-a1-m23-cA 6tuq-a1-m16-cA_6tuq-a1-m24-cA 6tuq-a1-m17-cA_6tuq-a1-m25-cA 6tuq-a1-m1-cA_6tuq-a1-m18-cA 6tuq-a1-m1-cA_6tuq-a1-m34-cA 6tuq-a1-m21-cA_6tuq-a1-m37-cA 6tuq-a1-m22-cA_6tuq-a1-m39-cA 6tuq-a1-m23-cA_6tuq-a1-m40-cA 6tuq-a1-m24-cA_6tuq-a1-m41-cA 6tuq-a1-m25-cA_6tuq-a1-m42-cA 6tuq-a1-m2-cA_6tuq-a1-m26-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 6tup-a1-m23-cA_6tup-a1-m38-cA Cryo-EM structure of Pf4 bacteriophage coat protein with single-stranded DNA P03621 P03621 3.2 ELECTRON MICROSCOPY 12 1.0 2011081 (Primolicivirus Pf1) 2011081 (Primolicivirus Pf1) 46 46 1ifm-a1-m10-cA_1ifm-a1-m15-cA 1ifm-a1-m10-cA_1ifm-a1-m5-cA 1ifm-a1-m11-cA_1ifm-a1-m16-cA 1ifm-a1-m11-cA_1ifm-a1-m6-cA 1ifm-a1-m12-cA_1ifm-a1-m17-cA 1ifm-a1-m12-cA_1ifm-a1-m7-cA 1ifm-a1-m13-cA_1ifm-a1-m8-cA 1ifm-a1-m14-cA_1ifm-a1-m19-cA 1ifm-a1-m14-cA_1ifm-a1-m9-cA 1ifm-a1-m15-cA_1ifm-a1-m20-cA 1ifm-a1-m16-cA_1ifm-a1-m21-cA 1ifm-a1-m17-cA_1ifm-a1-m22-cA 1ifm-a1-m19-cA_1ifm-a1-m24-cA 1ifm-a1-m1-cA_1ifm-a1-m13-cA 1ifm-a1-m1-cA_1ifm-a1-m23-cA 1ifm-a1-m20-cA_1ifm-a1-m25-cA 1ifm-a1-m21-cA_1ifm-a1-m26-cA 1ifm-a1-m22-cA_1ifm-a1-m27-cA 1ifm-a1-m23-cA_1ifm-a1-m28-cA 1ifm-a1-m24-cA_1ifm-a1-m29-cA 1ifm-a1-m25-cA_1ifm-a1-m30-cA 1ifm-a1-m26-cA_1ifm-a1-m31-cA 1ifm-a1-m27-cA_1ifm-a1-m32-cA 1ifm-a1-m28-cA_1ifm-a1-m33-cA 1ifm-a1-m29-cA_1ifm-a1-m34-cA 1ifm-a1-m2-cA_1ifm-a1-m7-cA 1ifm-a1-m30-cA_1ifm-a1-m35-cA 1ifm-a1-m3-cA_1ifm-a1-m8-cA 1ifm-a1-m4-cA_1ifm-a1-m9-cA 1ql1-a1-m10-cA_1ql1-a1-m15-cA 1ql1-a1-m10-cA_1ql1-a1-m5-cA 1ql1-a1-m11-cA_1ql1-a1-m16-cA 1ql1-a1-m11-cA_1ql1-a1-m6-cA 1ql1-a1-m12-cA_1ql1-a1-m17-cA 1ql1-a1-m12-cA_1ql1-a1-m7-cA 1ql1-a1-m13-cA_1ql1-a1-m8-cA 1ql1-a1-m14-cA_1ql1-a1-m19-cA 1ql1-a1-m14-cA_1ql1-a1-m9-cA 1ql1-a1-m15-cA_1ql1-a1-m20-cA 1ql1-a1-m16-cA_1ql1-a1-m21-cA 1ql1-a1-m17-cA_1ql1-a1-m22-cA 1ql1-a1-m19-cA_1ql1-a1-m24-cA 1ql1-a1-m1-cA_1ql1-a1-m6-cA 1ql1-a1-m20-cA_1ql1-a1-m25-cA 1ql1-a1-m21-cA_1ql1-a1-m26-cA 1ql1-a1-m22-cA_1ql1-a1-m27-cA 1ql1-a1-m23-cA_1ql1-a1-m28-cA 1ql1-a1-m24-cA_1ql1-a1-m29-cA 1ql1-a1-m25-cA_1ql1-a1-m30-cA 1ql1-a1-m26-cA_1ql1-a1-m31-cA 1ql1-a1-m27-cA_1ql1-a1-m32-cA 1ql1-a1-m28-cA_1ql1-a1-m33-cA 1ql1-a1-m29-cA_1ql1-a1-m34-cA 1ql1-a1-m2-cA_1ql1-a1-m7-cA 1ql1-a1-m30-cA_1ql1-a1-m35-cA 1ql1-a1-m3-cA_1ql1-a1-m8-cA 1ql1-a1-m4-cA_1ql1-a1-m9-cA 1ql2-a1-m10-cA_1ql2-a1-m11-cC 1ql2-a1-m10-cA_1ql2-a1-m8-cB 1ql2-a1-m10-cB_1ql2-a1-m12-cA 1ql2-a1-m10-cC_1ql2-a1-m9-cA 1ql2-a1-m11-cA_1ql2-a1-m12-cC 1ql2-a1-m11-cA_1ql2-a1-m9-cB 1ql2-a1-m11-cB_1ql2-a1-m13-cA 1ql2-a1-m12-cA_1ql2-a1-m13-cC 1ql2-a1-m1-cA_1ql2-a1-m2-cC 1ql2-a1-m1-cB_1ql2-a1-m9-cA 1ql2-a1-m2-cA_1ql2-a1-m3-cC 1ql2-a1-m2-cB_1ql2-a1-m4-cA 1ql2-a1-m3-cA_1ql2-a1-m4-cC 1ql2-a1-m3-cB_1ql2-a1-m5-cA 1ql2-a1-m4-cA_1ql2-a1-m5-cC 1ql2-a1-m4-cB_1ql2-a1-m6-cA 1ql2-a1-m5-cA_1ql2-a1-m6-cC 1ql2-a1-m6-cB_1ql2-a1-m8-cA 1ql2-a1-m8-cA_1ql2-a1-m9-cC 2ifm-a1-m10-cA_2ifm-a1-m15-cA 2ifm-a1-m10-cA_2ifm-a1-m5-cA 2ifm-a1-m11-cA_2ifm-a1-m16-cA 2ifm-a1-m11-cA_2ifm-a1-m6-cA 2ifm-a1-m12-cA_2ifm-a1-m17-cA 2ifm-a1-m12-cA_2ifm-a1-m7-cA 2ifm-a1-m13-cA_2ifm-a1-m8-cA 2ifm-a1-m14-cA_2ifm-a1-m19-cA 2ifm-a1-m14-cA_2ifm-a1-m9-cA 2ifm-a1-m15-cA_2ifm-a1-m20-cA 2ifm-a1-m16-cA_2ifm-a1-m21-cA 2ifm-a1-m17-cA_2ifm-a1-m22-cA 2ifm-a1-m19-cA_2ifm-a1-m24-cA 2ifm-a1-m1-cA_2ifm-a1-m13-cA 2ifm-a1-m1-cA_2ifm-a1-m23-cA 2ifm-a1-m20-cA_2ifm-a1-m25-cA 2ifm-a1-m21-cA_2ifm-a1-m26-cA 2ifm-a1-m22-cA_2ifm-a1-m27-cA 2ifm-a1-m23-cA_2ifm-a1-m28-cA 2ifm-a1-m24-cA_2ifm-a1-m29-cA 2ifm-a1-m25-cA_2ifm-a1-m30-cA 2ifm-a1-m26-cA_2ifm-a1-m31-cA 2ifm-a1-m27-cA_2ifm-a1-m32-cA 2ifm-a1-m28-cA_2ifm-a1-m33-cA 2ifm-a1-m29-cA_2ifm-a1-m34-cA 2ifm-a1-m2-cA_2ifm-a1-m7-cA 2ifm-a1-m30-cA_2ifm-a1-m35-cA 2ifm-a1-m3-cA_2ifm-a1-m8-cA 2ifm-a1-m4-cA_2ifm-a1-m9-cA 2ifn-a1-m10-cA_2ifn-a1-m15-cA 2ifn-a1-m10-cA_2ifn-a1-m5-cA 2ifn-a1-m11-cA_2ifn-a1-m16-cA 2ifn-a1-m11-cA_2ifn-a1-m6-cA 2ifn-a1-m12-cA_2ifn-a1-m17-cA 2ifn-a1-m12-cA_2ifn-a1-m7-cA 2ifn-a1-m13-cA_2ifn-a1-m8-cA 2ifn-a1-m14-cA_2ifn-a1-m19-cA 2ifn-a1-m14-cA_2ifn-a1-m9-cA 2ifn-a1-m15-cA_2ifn-a1-m20-cA 2ifn-a1-m16-cA_2ifn-a1-m21-cA 2ifn-a1-m17-cA_2ifn-a1-m22-cA 2ifn-a1-m19-cA_2ifn-a1-m24-cA 2ifn-a1-m1-cA_2ifn-a1-m13-cA 2ifn-a1-m1-cA_2ifn-a1-m23-cA 2ifn-a1-m20-cA_2ifn-a1-m25-cA 2ifn-a1-m21-cA_2ifn-a1-m26-cA 2ifn-a1-m22-cA_2ifn-a1-m27-cA 2ifn-a1-m23-cA_2ifn-a1-m28-cA 2ifn-a1-m24-cA_2ifn-a1-m29-cA 2ifn-a1-m25-cA_2ifn-a1-m30-cA 2ifn-a1-m26-cA_2ifn-a1-m31-cA 2ifn-a1-m27-cA_2ifn-a1-m32-cA 2ifn-a1-m28-cA_2ifn-a1-m33-cA 2ifn-a1-m29-cA_2ifn-a1-m34-cA 2ifn-a1-m2-cA_2ifn-a1-m7-cA 2ifn-a1-m30-cA_2ifn-a1-m35-cA 2ifn-a1-m3-cA_2ifn-a1-m8-cA 2ifn-a1-m4-cA_2ifn-a1-m9-cA 2xkm-a1-m10-cA_2xkm-a1-m15-cA 2xkm-a1-m10-cA_2xkm-a1-m5-cA 2xkm-a1-m11-cA_2xkm-a1-m16-cA 2xkm-a1-m11-cA_2xkm-a1-m6-cA 2xkm-a1-m12-cA_2xkm-a1-m17-cA 2xkm-a1-m12-cA_2xkm-a1-m7-cA 2xkm-a1-m13-cA_2xkm-a1-m8-cA 2xkm-a1-m14-cA_2xkm-a1-m19-cA 2xkm-a1-m14-cA_2xkm-a1-m9-cA 2xkm-a1-m15-cA_2xkm-a1-m20-cA 2xkm-a1-m16-cA_2xkm-a1-m21-cA 2xkm-a1-m17-cA_2xkm-a1-m22-cA 2xkm-a1-m19-cA_2xkm-a1-m24-cA 2xkm-a1-m1-cA_2xkm-a1-m13-cA 2xkm-a1-m1-cA_2xkm-a1-m23-cA 2xkm-a1-m20-cA_2xkm-a1-m25-cA 2xkm-a1-m21-cA_2xkm-a1-m26-cA 2xkm-a1-m22-cA_2xkm-a1-m27-cA 2xkm-a1-m23-cA_2xkm-a1-m28-cA 2xkm-a1-m24-cA_2xkm-a1-m29-cA 2xkm-a1-m25-cA_2xkm-a1-m30-cA 2xkm-a1-m26-cA_2xkm-a1-m31-cA 2xkm-a1-m27-cA_2xkm-a1-m32-cA 2xkm-a1-m28-cA_2xkm-a1-m33-cA 2xkm-a1-m29-cA_2xkm-a1-m34-cA 2xkm-a1-m2-cA_2xkm-a1-m7-cA 2xkm-a1-m30-cA_2xkm-a1-m35-cA 2xkm-a1-m3-cA_2xkm-a1-m8-cA 2xkm-a1-m4-cA_2xkm-a1-m9-cA 3ifm-a1-m10-cA_3ifm-a1-m15-cA 3ifm-a1-m10-cA_3ifm-a1-m5-cA 3ifm-a1-m11-cA_3ifm-a1-m16-cA 3ifm-a1-m11-cA_3ifm-a1-m6-cA 3ifm-a1-m12-cA_3ifm-a1-m17-cA 3ifm-a1-m12-cA_3ifm-a1-m7-cA 3ifm-a1-m13-cA_3ifm-a1-m8-cA 3ifm-a1-m14-cA_3ifm-a1-m19-cA 3ifm-a1-m14-cA_3ifm-a1-m9-cA 3ifm-a1-m15-cA_3ifm-a1-m20-cA 3ifm-a1-m16-cA_3ifm-a1-m21-cA 3ifm-a1-m17-cA_3ifm-a1-m22-cA 3ifm-a1-m19-cA_3ifm-a1-m24-cA 3ifm-a1-m1-cA_3ifm-a1-m6-cA 3ifm-a1-m20-cA_3ifm-a1-m25-cA 3ifm-a1-m21-cA_3ifm-a1-m26-cA 3ifm-a1-m22-cA_3ifm-a1-m27-cA 3ifm-a1-m23-cA_3ifm-a1-m28-cA 3ifm-a1-m24-cA_3ifm-a1-m29-cA 3ifm-a1-m25-cA_3ifm-a1-m30-cA 3ifm-a1-m26-cA_3ifm-a1-m31-cA 3ifm-a1-m27-cA_3ifm-a1-m32-cA 3ifm-a1-m28-cA_3ifm-a1-m33-cA 3ifm-a1-m29-cA_3ifm-a1-m34-cA 3ifm-a1-m2-cA_3ifm-a1-m7-cA 3ifm-a1-m30-cA_3ifm-a1-m35-cA 3ifm-a1-m3-cA_3ifm-a1-m8-cA 3ifm-a1-m4-cA_3ifm-a1-m9-cA 4ifm-a1-m10-cA_4ifm-a1-m15-cA 4ifm-a1-m10-cA_4ifm-a1-m5-cA 4ifm-a1-m11-cA_4ifm-a1-m16-cA 4ifm-a1-m11-cA_4ifm-a1-m6-cA 4ifm-a1-m12-cA_4ifm-a1-m17-cA 4ifm-a1-m12-cA_4ifm-a1-m7-cA 4ifm-a1-m13-cA_4ifm-a1-m8-cA 4ifm-a1-m14-cA_4ifm-a1-m19-cA 4ifm-a1-m14-cA_4ifm-a1-m9-cA 4ifm-a1-m15-cA_4ifm-a1-m20-cA 4ifm-a1-m16-cA_4ifm-a1-m21-cA 4ifm-a1-m17-cA_4ifm-a1-m22-cA 4ifm-a1-m19-cA_4ifm-a1-m24-cA 4ifm-a1-m1-cA_4ifm-a1-m13-cA 4ifm-a1-m1-cA_4ifm-a1-m23-cA 4ifm-a1-m20-cA_4ifm-a1-m25-cA 4ifm-a1-m21-cA_4ifm-a1-m26-cA 4ifm-a1-m22-cA_4ifm-a1-m27-cA 4ifm-a1-m23-cA_4ifm-a1-m28-cA 4ifm-a1-m24-cA_4ifm-a1-m29-cA 4ifm-a1-m25-cA_4ifm-a1-m30-cA 4ifm-a1-m26-cA_4ifm-a1-m31-cA 4ifm-a1-m27-cA_4ifm-a1-m32-cA 4ifm-a1-m28-cA_4ifm-a1-m33-cA 4ifm-a1-m29-cA_4ifm-a1-m34-cA 4ifm-a1-m2-cA_4ifm-a1-m7-cA 4ifm-a1-m30-cA_4ifm-a1-m35-cA 4ifm-a1-m3-cA_4ifm-a1-m8-cA 4ifm-a1-m4-cA_4ifm-a1-m9-cA 6tup-a1-m10-cA_6tup-a1-m8-cA 6tup-a1-m11-cA_6tup-a1-m13-cA 6tup-a1-m11-cA_6tup-a1-m9-cA 6tup-a1-m12-cA_6tup-a1-m14-cA 6tup-a1-m12-cA_6tup-a1-m19-cA 6tup-a1-m14-cA_6tup-a1-m16-cA 6tup-a1-m15-cA_6tup-a1-m17-cA 6tup-a1-m16-cA_6tup-a1-m18-cA 6tup-a1-m17-cA_6tup-a1-m2-cA 6tup-a1-m19-cA_6tup-a1-m32-cA 6tup-a1-m1-cA_6tup-a1-m24-cA 6tup-a1-m1-cA_6tup-a1-m3-cA 6tup-a1-m20-cA_6tup-a1-m33-cA 6tup-a1-m21-cA_6tup-a1-m22-cA 6tup-a1-m21-cA_6tup-a1-m35-cA 6tup-a1-m22-cA_6tup-a1-m24-cA 6tup-a1-m23-cA_6tup-a1-m25-cA 6tup-a1-m25-cA_6tup-a1-m26-cA 6tup-a1-m26-cA_6tup-a1-m28-cA 6tup-a1-m27-cA_6tup-a1-m29-cA 6tup-a1-m27-cA_6tup-a1-m34-cA 6tup-a1-m28-cA_6tup-a1-m6-cA 6tup-a1-m29-cA_6tup-a1-m31-cA 6tup-a1-m2-cA_6tup-a1-m4-cA 6tup-a1-m30-cA_6tup-a1-m32-cA 6tup-a1-m30-cA_6tup-a1-m45-cA 6tup-a1-m31-cA_6tup-a1-m9-cA 6tup-a1-m33-cA_6tup-a1-m48-cA 6tup-a1-m34-cA_6tup-a1-m41-cA 6tup-a1-m35-cA_6tup-a1-m49-cA 6tup-a1-m36-cA_6tup-a1-m38-cA 6tup-a1-m36-cA_6tup-a1-m50-cA 6tup-a1-m37-cA_6tup-a1-m39-cA 6tup-a1-m39-cA_6tup-a1-m41-cA 6tup-a1-m3-cA_6tup-a1-m5-cA 6tup-a1-m40-cA_6tup-a1-m42-cA 6tup-a1-m42-cA_6tup-a1-m43-cA 6tup-a1-m43-cA_6tup-a1-m45-cA 6tup-a1-m44-cA_6tup-a1-m46-cA 6tup-a1-m46-cA_6tup-a1-m48-cA 6tup-a1-m47-cA_6tup-a1-m49-cA 6tup-a1-m5-cA_6tup-a1-m7-cA 6tup-a1-m6-cA_6tup-a1-m8-cA 6tuq-a1-m10-cA_6tuq-a1-m8-cA 6tuq-a1-m11-cA_6tuq-a1-m13-cA 6tuq-a1-m11-cA_6tuq-a1-m9-cA 6tuq-a1-m12-cA_6tuq-a1-m14-cA 6tuq-a1-m12-cA_6tuq-a1-m19-cA 6tuq-a1-m14-cA_6tuq-a1-m16-cA 6tuq-a1-m19-cA_6tuq-a1-m32-cA 6tuq-a1-m1-cA_6tuq-a1-m3-cA 6tuq-a1-m20-cA_6tuq-a1-m33-cA 6tuq-a1-m21-cA_6tuq-a1-m22-cA 6tuq-a1-m21-cA_6tuq-a1-m35-cA 6tuq-a1-m25-cA_6tuq-a1-m26-cA 6tuq-a1-m26-cA_6tuq-a1-m28-cA 6tuq-a1-m27-cA_6tuq-a1-m29-cA 6tuq-a1-m27-cA_6tuq-a1-m34-cA 6tuq-a1-m28-cA_6tuq-a1-m6-cA 6tuq-a1-m29-cA_6tuq-a1-m31-cA 6tuq-a1-m30-cA_6tuq-a1-m32-cA 6tuq-a1-m30-cA_6tuq-a1-m45-cA 6tuq-a1-m31-cA_6tuq-a1-m9-cA 6tuq-a1-m33-cA_6tuq-a1-m48-cA 6tuq-a1-m35-cA_6tuq-a1-m49-cA 6tuq-a1-m36-cA_6tuq-a1-m50-cA 6tuq-a1-m3-cA_6tuq-a1-m5-cA 6tuq-a1-m40-cA_6tuq-a1-m42-cA 6tuq-a1-m42-cA_6tuq-a1-m43-cA 6tuq-a1-m43-cA_6tuq-a1-m45-cA 6tuq-a1-m44-cA_6tuq-a1-m46-cA 6tuq-a1-m46-cA_6tuq-a1-m48-cA 6tuq-a1-m47-cA_6tuq-a1-m49-cA 6tuq-a1-m5-cA_6tuq-a1-m7-cA 6tuq-a1-m6-cA_6tuq-a1-m8-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 6tup-a1-m23-cA_6tup-a1-m41-cA Cryo-EM structure of Pf4 bacteriophage coat protein with single-stranded DNA P03621 P03621 3.2 ELECTRON MICROSCOPY 44 1.0 2011081 (Primolicivirus Pf1) 2011081 (Primolicivirus Pf1) 46 46 1ifm-a1-m10-cA_1ifm-a1-m16-cA 1ifm-a1-m10-cA_1ifm-a1-m4-cA 1ifm-a1-m11-cA_1ifm-a1-m17-cA 1ifm-a1-m11-cA_1ifm-a1-m5-cA 1ifm-a1-m12-cA_1ifm-a1-m6-cA 1ifm-a1-m13-cA_1ifm-a1-m19-cA 1ifm-a1-m13-cA_1ifm-a1-m7-cA 1ifm-a1-m14-cA_1ifm-a1-m20-cA 1ifm-a1-m14-cA_1ifm-a1-m8-cA 1ifm-a1-m15-cA_1ifm-a1-m21-cA 1ifm-a1-m15-cA_1ifm-a1-m9-cA 1ifm-a1-m16-cA_1ifm-a1-m22-cA 1ifm-a1-m17-cA_1ifm-a1-m23-cA 1ifm-a1-m19-cA_1ifm-a1-m25-cA 1ifm-a1-m1-cA_1ifm-a1-m12-cA 1ifm-a1-m1-cA_1ifm-a1-m24-cA 1ifm-a1-m20-cA_1ifm-a1-m26-cA 1ifm-a1-m21-cA_1ifm-a1-m27-cA 1ifm-a1-m22-cA_1ifm-a1-m28-cA 1ifm-a1-m23-cA_1ifm-a1-m29-cA 1ifm-a1-m24-cA_1ifm-a1-m30-cA 1ifm-a1-m25-cA_1ifm-a1-m31-cA 1ifm-a1-m26-cA_1ifm-a1-m32-cA 1ifm-a1-m27-cA_1ifm-a1-m33-cA 1ifm-a1-m28-cA_1ifm-a1-m34-cA 1ifm-a1-m29-cA_1ifm-a1-m35-cA 1ifm-a1-m2-cA_1ifm-a1-m8-cA 1ifm-a1-m3-cA_1ifm-a1-m9-cA 1ql1-a1-m10-cA_1ql1-a1-m16-cA 1ql1-a1-m10-cA_1ql1-a1-m4-cA 1ql1-a1-m11-cA_1ql1-a1-m17-cA 1ql1-a1-m11-cA_1ql1-a1-m5-cA 1ql1-a1-m12-cA_1ql1-a1-m6-cA 1ql1-a1-m13-cA_1ql1-a1-m19-cA 1ql1-a1-m13-cA_1ql1-a1-m7-cA 1ql1-a1-m14-cA_1ql1-a1-m20-cA 1ql1-a1-m14-cA_1ql1-a1-m8-cA 1ql1-a1-m15-cA_1ql1-a1-m21-cA 1ql1-a1-m15-cA_1ql1-a1-m9-cA 1ql1-a1-m16-cA_1ql1-a1-m22-cA 1ql1-a1-m17-cA_1ql1-a1-m23-cA 1ql1-a1-m19-cA_1ql1-a1-m25-cA 1ql1-a1-m1-cA_1ql1-a1-m7-cA 1ql1-a1-m20-cA_1ql1-a1-m26-cA 1ql1-a1-m21-cA_1ql1-a1-m27-cA 1ql1-a1-m22-cA_1ql1-a1-m28-cA 1ql1-a1-m23-cA_1ql1-a1-m29-cA 1ql1-a1-m24-cA_1ql1-a1-m30-cA 1ql1-a1-m25-cA_1ql1-a1-m31-cA 1ql1-a1-m26-cA_1ql1-a1-m32-cA 1ql1-a1-m27-cA_1ql1-a1-m33-cA 1ql1-a1-m28-cA_1ql1-a1-m34-cA 1ql1-a1-m29-cA_1ql1-a1-m35-cA 1ql1-a1-m2-cA_1ql1-a1-m8-cA 1ql1-a1-m3-cA_1ql1-a1-m9-cA 1ql2-a1-m10-cA_1ql2-a1-m12-cA 1ql2-a1-m10-cA_1ql2-a1-m8-cA 1ql2-a1-m10-cB_1ql2-a1-m12-cB 1ql2-a1-m10-cB_1ql2-a1-m8-cB 1ql2-a1-m10-cC_1ql2-a1-m12-cC 1ql2-a1-m10-cC_1ql2-a1-m8-cC 1ql2-a1-m11-cA_1ql2-a1-m13-cA 1ql2-a1-m11-cA_1ql2-a1-m9-cA 1ql2-a1-m11-cB_1ql2-a1-m13-cB 1ql2-a1-m11-cB_1ql2-a1-m9-cB 1ql2-a1-m11-cC_1ql2-a1-m13-cC 1ql2-a1-m11-cC_1ql2-a1-m9-cC 1ql2-a1-m1-cA_1ql2-a1-m3-cA 1ql2-a1-m1-cB_1ql2-a1-m5-cB 1ql2-a1-m1-cB_1ql2-a1-m9-cB 1ql2-a1-m1-cC_1ql2-a1-m3-cC 1ql2-a1-m2-cA_1ql2-a1-m4-cA 1ql2-a1-m2-cB_1ql2-a1-m4-cB 1ql2-a1-m2-cC_1ql2-a1-m4-cC 1ql2-a1-m3-cA_1ql2-a1-m5-cA 1ql2-a1-m3-cB_1ql2-a1-m5-cB 1ql2-a1-m3-cC_1ql2-a1-m5-cC 1ql2-a1-m4-cA_1ql2-a1-m6-cA 1ql2-a1-m4-cB_1ql2-a1-m6-cB 1ql2-a1-m4-cC_1ql2-a1-m6-cC 1ql2-a1-m6-cA_1ql2-a1-m8-cA 1ql2-a1-m6-cB_1ql2-a1-m8-cB 1ql2-a1-m6-cC_1ql2-a1-m8-cC 2ifm-a1-m10-cA_2ifm-a1-m16-cA 2ifm-a1-m10-cA_2ifm-a1-m4-cA 2ifm-a1-m11-cA_2ifm-a1-m17-cA 2ifm-a1-m11-cA_2ifm-a1-m5-cA 2ifm-a1-m12-cA_2ifm-a1-m6-cA 2ifm-a1-m13-cA_2ifm-a1-m19-cA 2ifm-a1-m13-cA_2ifm-a1-m7-cA 2ifm-a1-m14-cA_2ifm-a1-m20-cA 2ifm-a1-m14-cA_2ifm-a1-m8-cA 2ifm-a1-m15-cA_2ifm-a1-m21-cA 2ifm-a1-m15-cA_2ifm-a1-m9-cA 2ifm-a1-m16-cA_2ifm-a1-m22-cA 2ifm-a1-m17-cA_2ifm-a1-m23-cA 2ifm-a1-m19-cA_2ifm-a1-m25-cA 2ifm-a1-m1-cA_2ifm-a1-m12-cA 2ifm-a1-m1-cA_2ifm-a1-m24-cA 2ifm-a1-m20-cA_2ifm-a1-m26-cA 2ifm-a1-m21-cA_2ifm-a1-m27-cA 2ifm-a1-m22-cA_2ifm-a1-m28-cA 2ifm-a1-m23-cA_2ifm-a1-m29-cA 2ifm-a1-m24-cA_2ifm-a1-m30-cA 2ifm-a1-m25-cA_2ifm-a1-m31-cA 2ifm-a1-m26-cA_2ifm-a1-m32-cA 2ifm-a1-m27-cA_2ifm-a1-m33-cA 2ifm-a1-m28-cA_2ifm-a1-m34-cA 2ifm-a1-m29-cA_2ifm-a1-m35-cA 2ifm-a1-m2-cA_2ifm-a1-m8-cA 2ifm-a1-m3-cA_2ifm-a1-m9-cA 2xkm-a1-m10-cA_2xkm-a1-m16-cA 2xkm-a1-m10-cA_2xkm-a1-m4-cA 2xkm-a1-m11-cA_2xkm-a1-m17-cA 2xkm-a1-m11-cA_2xkm-a1-m5-cA 2xkm-a1-m12-cA_2xkm-a1-m6-cA 2xkm-a1-m13-cA_2xkm-a1-m19-cA 2xkm-a1-m13-cA_2xkm-a1-m7-cA 2xkm-a1-m14-cA_2xkm-a1-m20-cA 2xkm-a1-m14-cA_2xkm-a1-m8-cA 2xkm-a1-m15-cA_2xkm-a1-m21-cA 2xkm-a1-m15-cA_2xkm-a1-m9-cA 2xkm-a1-m16-cA_2xkm-a1-m22-cA 2xkm-a1-m17-cA_2xkm-a1-m23-cA 2xkm-a1-m19-cA_2xkm-a1-m25-cA 2xkm-a1-m1-cA_2xkm-a1-m12-cA 2xkm-a1-m1-cA_2xkm-a1-m24-cA 2xkm-a1-m20-cA_2xkm-a1-m26-cA 2xkm-a1-m21-cA_2xkm-a1-m27-cA 2xkm-a1-m22-cA_2xkm-a1-m28-cA 2xkm-a1-m23-cA_2xkm-a1-m29-cA 2xkm-a1-m24-cA_2xkm-a1-m30-cA 2xkm-a1-m25-cA_2xkm-a1-m31-cA 2xkm-a1-m26-cA_2xkm-a1-m32-cA 2xkm-a1-m27-cA_2xkm-a1-m33-cA 2xkm-a1-m28-cA_2xkm-a1-m34-cA 2xkm-a1-m29-cA_2xkm-a1-m35-cA 2xkm-a1-m2-cA_2xkm-a1-m8-cA 2xkm-a1-m3-cA_2xkm-a1-m9-cA 3ifm-a1-m10-cA_3ifm-a1-m16-cA 3ifm-a1-m10-cA_3ifm-a1-m4-cA 3ifm-a1-m11-cA_3ifm-a1-m17-cA 3ifm-a1-m11-cA_3ifm-a1-m5-cA 3ifm-a1-m12-cA_3ifm-a1-m6-cA 3ifm-a1-m13-cA_3ifm-a1-m19-cA 3ifm-a1-m13-cA_3ifm-a1-m7-cA 3ifm-a1-m14-cA_3ifm-a1-m20-cA 3ifm-a1-m14-cA_3ifm-a1-m8-cA 3ifm-a1-m15-cA_3ifm-a1-m21-cA 3ifm-a1-m15-cA_3ifm-a1-m9-cA 3ifm-a1-m16-cA_3ifm-a1-m22-cA 3ifm-a1-m17-cA_3ifm-a1-m23-cA 3ifm-a1-m19-cA_3ifm-a1-m25-cA 3ifm-a1-m1-cA_3ifm-a1-m7-cA 3ifm-a1-m20-cA_3ifm-a1-m26-cA 3ifm-a1-m21-cA_3ifm-a1-m27-cA 3ifm-a1-m22-cA_3ifm-a1-m28-cA 3ifm-a1-m23-cA_3ifm-a1-m29-cA 3ifm-a1-m24-cA_3ifm-a1-m30-cA 3ifm-a1-m25-cA_3ifm-a1-m31-cA 3ifm-a1-m26-cA_3ifm-a1-m32-cA 3ifm-a1-m27-cA_3ifm-a1-m33-cA 3ifm-a1-m28-cA_3ifm-a1-m34-cA 3ifm-a1-m29-cA_3ifm-a1-m35-cA 3ifm-a1-m2-cA_3ifm-a1-m8-cA 3ifm-a1-m3-cA_3ifm-a1-m9-cA 4ifm-a1-m10-cA_4ifm-a1-m16-cA 4ifm-a1-m10-cA_4ifm-a1-m4-cA 4ifm-a1-m11-cA_4ifm-a1-m17-cA 4ifm-a1-m11-cA_4ifm-a1-m5-cA 4ifm-a1-m12-cA_4ifm-a1-m6-cA 4ifm-a1-m13-cA_4ifm-a1-m19-cA 4ifm-a1-m13-cA_4ifm-a1-m7-cA 4ifm-a1-m14-cA_4ifm-a1-m20-cA 4ifm-a1-m14-cA_4ifm-a1-m8-cA 4ifm-a1-m15-cA_4ifm-a1-m21-cA 4ifm-a1-m15-cA_4ifm-a1-m9-cA 4ifm-a1-m16-cA_4ifm-a1-m22-cA 4ifm-a1-m17-cA_4ifm-a1-m23-cA 4ifm-a1-m19-cA_4ifm-a1-m25-cA 4ifm-a1-m1-cA_4ifm-a1-m12-cA 4ifm-a1-m1-cA_4ifm-a1-m24-cA 4ifm-a1-m20-cA_4ifm-a1-m26-cA 4ifm-a1-m21-cA_4ifm-a1-m27-cA 4ifm-a1-m22-cA_4ifm-a1-m28-cA 4ifm-a1-m23-cA_4ifm-a1-m29-cA 4ifm-a1-m24-cA_4ifm-a1-m30-cA 4ifm-a1-m25-cA_4ifm-a1-m31-cA 4ifm-a1-m26-cA_4ifm-a1-m32-cA 4ifm-a1-m27-cA_4ifm-a1-m33-cA 4ifm-a1-m28-cA_4ifm-a1-m34-cA 4ifm-a1-m29-cA_4ifm-a1-m35-cA 4ifm-a1-m2-cA_4ifm-a1-m8-cA 4ifm-a1-m3-cA_4ifm-a1-m9-cA 6tup-a1-m10-cA_6tup-a1-m11-cA 6tup-a1-m11-cA_6tup-a1-m12-cA 6tup-a1-m13-cA_6tup-a1-m14-cA 6tup-a1-m14-cA_6tup-a1-m15-cA 6tup-a1-m15-cA_6tup-a1-m24-cA 6tup-a1-m16-cA_6tup-a1-m17-cA 6tup-a1-m18-cA_6tup-a1-m2-cA 6tup-a1-m19-cA_6tup-a1-m20-cA 6tup-a1-m19-cA_6tup-a1-m9-cA 6tup-a1-m1-cA_6tup-a1-m17-cA 6tup-a1-m1-cA_6tup-a1-m26-cA 6tup-a1-m20-cA_6tup-a1-m21-cA 6tup-a1-m21-cA_6tup-a1-m38-cA 6tup-a1-m22-cA_6tup-a1-m23-cA 6tup-a1-m24-cA_6tup-a1-m25-cA 6tup-a1-m25-cA_6tup-a1-m34-cA 6tup-a1-m26-cA_6tup-a1-m27-cA 6tup-a1-m27-cA_6tup-a1-m45-cA 6tup-a1-m28-cA_6tup-a1-m29-cA 6tup-a1-m28-cA_6tup-a1-m3-cA 6tup-a1-m29-cA_6tup-a1-m30-cA 6tup-a1-m2-cA_6tup-a1-m3-cA 6tup-a1-m30-cA_6tup-a1-m48-cA 6tup-a1-m31-cA_6tup-a1-m32-cA 6tup-a1-m31-cA_6tup-a1-m6-cA 6tup-a1-m32-cA_6tup-a1-m33-cA 6tup-a1-m33-cA_6tup-a1-m35-cA 6tup-a1-m34-cA_6tup-a1-m43-cA 6tup-a1-m35-cA_6tup-a1-m36-cA 6tup-a1-m36-cA_6tup-a1-m37-cA 6tup-a1-m38-cA_6tup-a1-m39-cA 6tup-a1-m39-cA_6tup-a1-m40-cA 6tup-a1-m41-cA_6tup-a1-m42-cA 6tup-a1-m43-cA_6tup-a1-m44-cA 6tup-a1-m45-cA_6tup-a1-m46-cA 6tup-a1-m46-cA_6tup-a1-m47-cA 6tup-a1-m48-cA_6tup-a1-m49-cA 6tup-a1-m49-cA_6tup-a1-m50-cA 6tup-a1-m4-cA_6tup-a1-m5-cA 6tup-a1-m5-cA_6tup-a1-m6-cA 6tup-a1-m7-cA_6tup-a1-m8-cA 6tup-a1-m8-cA_6tup-a1-m9-cA 6tuq-a1-m10-cA_6tuq-a1-m11-cA 6tuq-a1-m11-cA_6tuq-a1-m12-cA 6tuq-a1-m13-cA_6tuq-a1-m14-cA 6tuq-a1-m14-cA_6tuq-a1-m15-cA 6tuq-a1-m15-cA_6tuq-a1-m24-cA 6tuq-a1-m16-cA_6tuq-a1-m17-cA 6tuq-a1-m18-cA_6tuq-a1-m2-cA 6tuq-a1-m19-cA_6tuq-a1-m20-cA 6tuq-a1-m19-cA_6tuq-a1-m9-cA 6tuq-a1-m1-cA_6tuq-a1-m17-cA 6tuq-a1-m1-cA_6tuq-a1-m26-cA 6tuq-a1-m20-cA_6tuq-a1-m21-cA 6tuq-a1-m21-cA_6tuq-a1-m38-cA 6tuq-a1-m22-cA_6tuq-a1-m23-cA 6tuq-a1-m23-cA_6tuq-a1-m41-cA 6tuq-a1-m24-cA_6tuq-a1-m25-cA 6tuq-a1-m25-cA_6tuq-a1-m34-cA 6tuq-a1-m26-cA_6tuq-a1-m27-cA 6tuq-a1-m27-cA_6tuq-a1-m45-cA 6tuq-a1-m28-cA_6tuq-a1-m29-cA 6tuq-a1-m28-cA_6tuq-a1-m3-cA 6tuq-a1-m29-cA_6tuq-a1-m30-cA 6tuq-a1-m2-cA_6tuq-a1-m3-cA 6tuq-a1-m30-cA_6tuq-a1-m48-cA 6tuq-a1-m31-cA_6tuq-a1-m32-cA 6tuq-a1-m31-cA_6tuq-a1-m6-cA 6tuq-a1-m32-cA_6tuq-a1-m33-cA 6tuq-a1-m33-cA_6tuq-a1-m35-cA 6tuq-a1-m34-cA_6tuq-a1-m43-cA 6tuq-a1-m35-cA_6tuq-a1-m36-cA 6tuq-a1-m36-cA_6tuq-a1-m37-cA 6tuq-a1-m38-cA_6tuq-a1-m39-cA 6tuq-a1-m39-cA_6tuq-a1-m40-cA 6tuq-a1-m41-cA_6tuq-a1-m42-cA 6tuq-a1-m43-cA_6tuq-a1-m44-cA 6tuq-a1-m45-cA_6tuq-a1-m46-cA 6tuq-a1-m46-cA_6tuq-a1-m47-cA 6tuq-a1-m48-cA_6tuq-a1-m49-cA 6tuq-a1-m49-cA_6tuq-a1-m50-cA 6tuq-a1-m4-cA_6tuq-a1-m5-cA 6tuq-a1-m5-cA_6tuq-a1-m6-cA 6tuq-a1-m7-cA_6tuq-a1-m8-cA 6tuq-a1-m8-cA_6tuq-a1-m9-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 6tup-a1-m3-cA_6tup-a1-m4-cA Cryo-EM structure of Pf4 bacteriophage coat protein with single-stranded DNA P03621 P03621 3.2 ELECTRON MICROSCOPY 38 1.0 2011081 (Primolicivirus Pf1) 2011081 (Primolicivirus Pf1) 46 46 1ifm-a1-m10-cA_1ifm-a1-m21-cA 1ifm-a1-m11-cA_1ifm-a1-m22-cA 1ifm-a1-m12-cA_1ifm-a1-m23-cA 1ifm-a1-m13-cA_1ifm-a1-m24-cA 1ifm-a1-m13-cA_1ifm-a1-m2-cA 1ifm-a1-m14-cA_1ifm-a1-m25-cA 1ifm-a1-m14-cA_1ifm-a1-m3-cA 1ifm-a1-m15-cA_1ifm-a1-m26-cA 1ifm-a1-m15-cA_1ifm-a1-m4-cA 1ifm-a1-m16-cA_1ifm-a1-m27-cA 1ifm-a1-m16-cA_1ifm-a1-m5-cA 1ifm-a1-m17-cA_1ifm-a1-m28-cA 1ifm-a1-m17-cA_1ifm-a1-m6-cA 1ifm-a1-m19-cA_1ifm-a1-m30-cA 1ifm-a1-m19-cA_1ifm-a1-m8-cA 1ifm-a1-m1-cA_1ifm-a1-m29-cA 1ifm-a1-m1-cA_1ifm-a1-m7-cA 1ifm-a1-m20-cA_1ifm-a1-m31-cA 1ifm-a1-m20-cA_1ifm-a1-m9-cA 1ifm-a1-m21-cA_1ifm-a1-m32-cA 1ifm-a1-m22-cA_1ifm-a1-m33-cA 1ifm-a1-m23-cA_1ifm-a1-m34-cA 1ifm-a1-m24-cA_1ifm-a1-m35-cA 1ql1-a1-m10-cA_1ql1-a1-m21-cA 1ql1-a1-m11-cA_1ql1-a1-m22-cA 1ql1-a1-m12-cA_1ql1-a1-m23-cA 1ql1-a1-m13-cA_1ql1-a1-m24-cA 1ql1-a1-m13-cA_1ql1-a1-m2-cA 1ql1-a1-m14-cA_1ql1-a1-m25-cA 1ql1-a1-m14-cA_1ql1-a1-m3-cA 1ql1-a1-m15-cA_1ql1-a1-m26-cA 1ql1-a1-m15-cA_1ql1-a1-m4-cA 1ql1-a1-m16-cA_1ql1-a1-m27-cA 1ql1-a1-m16-cA_1ql1-a1-m5-cA 1ql1-a1-m17-cA_1ql1-a1-m28-cA 1ql1-a1-m17-cA_1ql1-a1-m6-cA 1ql1-a1-m19-cA_1ql1-a1-m30-cA 1ql1-a1-m19-cA_1ql1-a1-m8-cA 1ql1-a1-m1-cA_1ql1-a1-m12-cA 1ql1-a1-m20-cA_1ql1-a1-m31-cA 1ql1-a1-m20-cA_1ql1-a1-m9-cA 1ql1-a1-m21-cA_1ql1-a1-m32-cA 1ql1-a1-m22-cA_1ql1-a1-m33-cA 1ql1-a1-m23-cA_1ql1-a1-m34-cA 1ql1-a1-m24-cA_1ql1-a1-m35-cA 2ifm-a1-m10-cA_2ifm-a1-m21-cA 2ifm-a1-m11-cA_2ifm-a1-m22-cA 2ifm-a1-m12-cA_2ifm-a1-m23-cA 2ifm-a1-m13-cA_2ifm-a1-m24-cA 2ifm-a1-m13-cA_2ifm-a1-m2-cA 2ifm-a1-m14-cA_2ifm-a1-m25-cA 2ifm-a1-m14-cA_2ifm-a1-m3-cA 2ifm-a1-m15-cA_2ifm-a1-m26-cA 2ifm-a1-m15-cA_2ifm-a1-m4-cA 2ifm-a1-m16-cA_2ifm-a1-m27-cA 2ifm-a1-m16-cA_2ifm-a1-m5-cA 2ifm-a1-m17-cA_2ifm-a1-m28-cA 2ifm-a1-m17-cA_2ifm-a1-m6-cA 2ifm-a1-m19-cA_2ifm-a1-m30-cA 2ifm-a1-m19-cA_2ifm-a1-m8-cA 2ifm-a1-m1-cA_2ifm-a1-m29-cA 2ifm-a1-m1-cA_2ifm-a1-m7-cA 2ifm-a1-m20-cA_2ifm-a1-m31-cA 2ifm-a1-m20-cA_2ifm-a1-m9-cA 2ifm-a1-m21-cA_2ifm-a1-m32-cA 2ifm-a1-m22-cA_2ifm-a1-m33-cA 2ifm-a1-m23-cA_2ifm-a1-m34-cA 2ifm-a1-m24-cA_2ifm-a1-m35-cA 2ifn-a1-m10-cA_2ifn-a1-m21-cA 2ifn-a1-m11-cA_2ifn-a1-m22-cA 2ifn-a1-m12-cA_2ifn-a1-m23-cA 2ifn-a1-m13-cA_2ifn-a1-m24-cA 2ifn-a1-m13-cA_2ifn-a1-m2-cA 2ifn-a1-m14-cA_2ifn-a1-m25-cA 2ifn-a1-m14-cA_2ifn-a1-m3-cA 2ifn-a1-m15-cA_2ifn-a1-m26-cA 2ifn-a1-m15-cA_2ifn-a1-m4-cA 2ifn-a1-m16-cA_2ifn-a1-m27-cA 2ifn-a1-m16-cA_2ifn-a1-m5-cA 2ifn-a1-m17-cA_2ifn-a1-m28-cA 2ifn-a1-m17-cA_2ifn-a1-m6-cA 2ifn-a1-m19-cA_2ifn-a1-m30-cA 2ifn-a1-m19-cA_2ifn-a1-m8-cA 2ifn-a1-m1-cA_2ifn-a1-m29-cA 2ifn-a1-m1-cA_2ifn-a1-m7-cA 2ifn-a1-m20-cA_2ifn-a1-m31-cA 2ifn-a1-m20-cA_2ifn-a1-m9-cA 2ifn-a1-m21-cA_2ifn-a1-m32-cA 2ifn-a1-m22-cA_2ifn-a1-m33-cA 2ifn-a1-m23-cA_2ifn-a1-m34-cA 2ifn-a1-m24-cA_2ifn-a1-m35-cA 2xkm-a1-m10-cA_2xkm-a1-m21-cA 2xkm-a1-m11-cA_2xkm-a1-m22-cA 2xkm-a1-m12-cA_2xkm-a1-m23-cA 2xkm-a1-m13-cA_2xkm-a1-m24-cA 2xkm-a1-m13-cA_2xkm-a1-m2-cA 2xkm-a1-m14-cA_2xkm-a1-m25-cA 2xkm-a1-m14-cA_2xkm-a1-m3-cA 2xkm-a1-m15-cA_2xkm-a1-m26-cA 2xkm-a1-m15-cA_2xkm-a1-m4-cA 2xkm-a1-m16-cA_2xkm-a1-m27-cA 2xkm-a1-m16-cA_2xkm-a1-m5-cA 2xkm-a1-m17-cA_2xkm-a1-m28-cA 2xkm-a1-m17-cA_2xkm-a1-m6-cA 2xkm-a1-m19-cA_2xkm-a1-m30-cA 2xkm-a1-m19-cA_2xkm-a1-m8-cA 2xkm-a1-m1-cA_2xkm-a1-m29-cA 2xkm-a1-m1-cA_2xkm-a1-m7-cA 2xkm-a1-m20-cA_2xkm-a1-m31-cA 2xkm-a1-m20-cA_2xkm-a1-m9-cA 2xkm-a1-m21-cA_2xkm-a1-m32-cA 2xkm-a1-m22-cA_2xkm-a1-m33-cA 2xkm-a1-m23-cA_2xkm-a1-m34-cA 2xkm-a1-m24-cA_2xkm-a1-m35-cA 3ifm-a1-m10-cA_3ifm-a1-m21-cA 3ifm-a1-m11-cA_3ifm-a1-m22-cA 3ifm-a1-m12-cA_3ifm-a1-m23-cA 3ifm-a1-m13-cA_3ifm-a1-m24-cA 3ifm-a1-m13-cA_3ifm-a1-m2-cA 3ifm-a1-m14-cA_3ifm-a1-m25-cA 3ifm-a1-m14-cA_3ifm-a1-m3-cA 3ifm-a1-m15-cA_3ifm-a1-m26-cA 3ifm-a1-m15-cA_3ifm-a1-m4-cA 3ifm-a1-m16-cA_3ifm-a1-m27-cA 3ifm-a1-m16-cA_3ifm-a1-m5-cA 3ifm-a1-m17-cA_3ifm-a1-m28-cA 3ifm-a1-m17-cA_3ifm-a1-m6-cA 3ifm-a1-m19-cA_3ifm-a1-m30-cA 3ifm-a1-m19-cA_3ifm-a1-m8-cA 3ifm-a1-m1-cA_3ifm-a1-m12-cA 3ifm-a1-m20-cA_3ifm-a1-m31-cA 3ifm-a1-m20-cA_3ifm-a1-m9-cA 3ifm-a1-m21-cA_3ifm-a1-m32-cA 3ifm-a1-m22-cA_3ifm-a1-m33-cA 3ifm-a1-m23-cA_3ifm-a1-m34-cA 3ifm-a1-m24-cA_3ifm-a1-m35-cA 4ifm-a1-m10-cA_4ifm-a1-m21-cA 4ifm-a1-m11-cA_4ifm-a1-m22-cA 4ifm-a1-m12-cA_4ifm-a1-m23-cA 4ifm-a1-m13-cA_4ifm-a1-m24-cA 4ifm-a1-m13-cA_4ifm-a1-m2-cA 4ifm-a1-m14-cA_4ifm-a1-m25-cA 4ifm-a1-m14-cA_4ifm-a1-m3-cA 4ifm-a1-m15-cA_4ifm-a1-m26-cA 4ifm-a1-m15-cA_4ifm-a1-m4-cA 4ifm-a1-m16-cA_4ifm-a1-m27-cA 4ifm-a1-m16-cA_4ifm-a1-m5-cA 4ifm-a1-m17-cA_4ifm-a1-m28-cA 4ifm-a1-m17-cA_4ifm-a1-m6-cA 4ifm-a1-m19-cA_4ifm-a1-m30-cA 4ifm-a1-m19-cA_4ifm-a1-m8-cA 4ifm-a1-m1-cA_4ifm-a1-m29-cA 4ifm-a1-m1-cA_4ifm-a1-m7-cA 4ifm-a1-m20-cA_4ifm-a1-m31-cA 4ifm-a1-m20-cA_4ifm-a1-m9-cA 4ifm-a1-m21-cA_4ifm-a1-m32-cA 4ifm-a1-m22-cA_4ifm-a1-m33-cA 4ifm-a1-m23-cA_4ifm-a1-m34-cA 4ifm-a1-m24-cA_4ifm-a1-m35-cA 6tup-a1-m10-cA_6tup-a1-m9-cA 6tup-a1-m11-cA_6tup-a1-m19-cA 6tup-a1-m12-cA_6tup-a1-m13-cA 6tup-a1-m12-cA_6tup-a1-m20-cA 6tup-a1-m15-cA_6tup-a1-m16-cA 6tup-a1-m15-cA_6tup-a1-m22-cA 6tup-a1-m17-cA_6tup-a1-m18-cA 6tup-a1-m17-cA_6tup-a1-m24-cA 6tup-a1-m19-cA_6tup-a1-m33-cA 6tup-a1-m1-cA_6tup-a1-m25-cA 6tup-a1-m1-cA_6tup-a1-m2-cA 6tup-a1-m20-cA_6tup-a1-m35-cA 6tup-a1-m21-cA_6tup-a1-m36-cA 6tup-a1-m22-cA_6tup-a1-m38-cA 6tup-a1-m23-cA_6tup-a1-m24-cA 6tup-a1-m23-cA_6tup-a1-m39-cA 6tup-a1-m25-cA_6tup-a1-m41-cA 6tup-a1-m26-cA_6tup-a1-m34-cA 6tup-a1-m26-cA_6tup-a1-m3-cA 6tup-a1-m27-cA_6tup-a1-m28-cA 6tup-a1-m27-cA_6tup-a1-m43-cA 6tup-a1-m28-cA_6tup-a1-m5-cA 6tup-a1-m29-cA_6tup-a1-m45-cA 6tup-a1-m29-cA_6tup-a1-m6-cA 6tup-a1-m30-cA_6tup-a1-m31-cA 6tup-a1-m30-cA_6tup-a1-m46-cA 6tup-a1-m31-cA_6tup-a1-m8-cA 6tup-a1-m32-cA_6tup-a1-m48-cA 6tup-a1-m32-cA_6tup-a1-m9-cA 6tup-a1-m33-cA_6tup-a1-m49-cA 6tup-a1-m34-cA_6tup-a1-m42-cA 6tup-a1-m35-cA_6tup-a1-m50-cA 6tup-a1-m37-cA_6tup-a1-m38-cA 6tup-a1-m40-cA_6tup-a1-m41-cA 6tup-a1-m44-cA_6tup-a1-m45-cA 6tup-a1-m47-cA_6tup-a1-m48-cA 6tup-a1-m6-cA_6tup-a1-m7-cA 6tuq-a1-m10-cA_6tuq-a1-m9-cA 6tuq-a1-m11-cA_6tuq-a1-m19-cA 6tuq-a1-m12-cA_6tuq-a1-m13-cA 6tuq-a1-m12-cA_6tuq-a1-m20-cA 6tuq-a1-m15-cA_6tuq-a1-m16-cA 6tuq-a1-m15-cA_6tuq-a1-m22-cA 6tuq-a1-m17-cA_6tuq-a1-m18-cA 6tuq-a1-m17-cA_6tuq-a1-m24-cA 6tuq-a1-m19-cA_6tuq-a1-m33-cA 6tuq-a1-m1-cA_6tuq-a1-m25-cA 6tuq-a1-m1-cA_6tuq-a1-m2-cA 6tuq-a1-m20-cA_6tuq-a1-m35-cA 6tuq-a1-m21-cA_6tuq-a1-m36-cA 6tuq-a1-m22-cA_6tuq-a1-m38-cA 6tuq-a1-m23-cA_6tuq-a1-m24-cA 6tuq-a1-m23-cA_6tuq-a1-m39-cA 6tuq-a1-m25-cA_6tuq-a1-m41-cA 6tuq-a1-m26-cA_6tuq-a1-m34-cA 6tuq-a1-m26-cA_6tuq-a1-m3-cA 6tuq-a1-m27-cA_6tuq-a1-m28-cA 6tuq-a1-m27-cA_6tuq-a1-m43-cA 6tuq-a1-m28-cA_6tuq-a1-m5-cA 6tuq-a1-m29-cA_6tuq-a1-m45-cA 6tuq-a1-m29-cA_6tuq-a1-m6-cA 6tuq-a1-m30-cA_6tuq-a1-m31-cA 6tuq-a1-m30-cA_6tuq-a1-m46-cA 6tuq-a1-m31-cA_6tuq-a1-m8-cA 6tuq-a1-m32-cA_6tuq-a1-m48-cA 6tuq-a1-m32-cA_6tuq-a1-m9-cA 6tuq-a1-m33-cA_6tuq-a1-m49-cA 6tuq-a1-m34-cA_6tuq-a1-m42-cA 6tuq-a1-m35-cA_6tuq-a1-m50-cA 6tuq-a1-m37-cA_6tuq-a1-m38-cA 6tuq-a1-m3-cA_6tuq-a1-m4-cA 6tuq-a1-m40-cA_6tuq-a1-m41-cA 6tuq-a1-m44-cA_6tuq-a1-m45-cA 6tuq-a1-m47-cA_6tuq-a1-m48-cA 6tuq-a1-m6-cA_6tuq-a1-m7-cA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA GVIDTSAVESAITDGQGDMKAIGGYIVGALVILAVAGLIYSMLRKA 6tv2-a4-m1-cD_6tv2-a4-m3-cF Heme d1 biosynthesis associated Protein NirF Q51480 Q51480 1.561 X-RAY DIFFRACTION 139 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 372 372 6tv2-a1-m1-cA_6tv2-a1-m2-cH 6tv2-a2-m1-cB_6tv2-a2-m1-cE 6tv2-a3-m1-cC_6tv2-a3-m1-cG 6tv9-a1-m1-cA_6tv9-a1-m2-cH 6tv9-a2-m1-cB_6tv9-a2-m1-cE 6tv9-a3-m1-cC_6tv9-a3-m1-cG 6tv9-a4-m1-cD_6tv9-a4-m3-cF PPLRGSGDLGVLIERADGSVQILDGTAKTSLARVEGLGDLSHASLVFSRDQRYAYVFGRDGGLTKLDLLAQRIDKRLIQGGNSIGGAISQDGRLVAVSNYEPGGVKVFDSRTLELVAEIPATRLPGQDRNSRVVGLVDAPGQRFVFSLFDSGEIWIADFSQGDTPHLTRFRDIGKQPYDALISPDGRYYMAGLFGEDGMAQLDLWHPERGVRRVLGDYGRGQRKLPVYKMPHLEGWTIASDQAFVPAVGHHQVLVLDARDWKQTDAIDVAGQPVFVMTRPDDRQIWVNFAYPDNDKVQVIDSETHEVIETLRPGPGVLHMEFSGRGDQVWISVRDADQLQVWDPYRLKRIGSLPARSPSGIFFSHRAQHIGL PPLRGSGDLGVLIERADGSVQILDGTAKTSLARVEGLGDLSHASLVFSRDQRYAYVFGRDGGLTKLDLLAQRIDKRLIQGGNSIGGAISQDGRLVAVSNYEPGGVKVFDSRTLELVAEIPATRLPGQDRNSRVVGLVDAPGQRFVFSLFDSGEIWIADFSQGDTPHLTRFRDIGKQPYDALISPDGRYYMAGLFGEDGMAQLDLWHPERGVRRVLGDYGRGQRKLPVYKMPHLEGWTIASDQAFVPAVGHHQVLVLDARDWKQTDAIDVAGQPVFVMTRPDDRQIWVNFAYPDNDKVQVIDSETHEVIETLRPGPGVLHMEFSGRGDQVWISVRDADQLQVWDPYRLKRIGSLPARSPSGIFFSHRAQHIGL 6tv5-a1-m1-cA_6tv5-a1-m1-cB NMR structure of N-terminal domain from A. argentata tubuliform spidroin (TuSp) at pH 5.5 A0A2R2YSJ7 A0A2R2YSJ7 NOT SOLUTION NMR 130 1.0 233271 (Argiope argentata) 233271 (Argiope argentata) 137 137 GAVTAVPSVFSSPNLASGFLQCLTFGIGNSPAFPTQEQQDLDAIAQVILNAVSTNTGATASARAQALSTALASSLTDLLIAESAESNYNNQLSELTGILSNCFIQTTGSDNPAFVSRIQSLISVLSQNTDVNIISTA GAVTAVPSVFSSPNLASGFLQCLTFGIGNSPAFPTQEQQDLDAIAQVILNAVSTNTGATASARAQALSTALASSLTDLLIAESAESNYNNQLSELTGILSNCFIQTTGSDNPAFVSRIQSLISVLSQNTDVNIISTA 6tvk-a1-m1-cAAA_6tvk-a1-m4-cAAA Alpha-L-fucosidase isoenzyme 2 from Paenibacillus thiaminolyticus K0JCW6 K0JCW6 2.1 X-RAY DIFFRACTION 10 1.0 49283 (Paenibacillus thiaminolyticus) 49283 (Paenibacillus thiaminolyticus) 659 659 6tvk-a1-m2-cAAA_6tvk-a1-m3-cAAA MRYRQVHLDFHTSEHISDIGRNFSKKNFQEMLQLGHVNSITVFAKCHHGWAYFPSATNEIHPRLDFDLLGAQIEAAHEIGVKVPIYISVGFDEKLAWEKPQWLMRDEADRMNWVDSFMKPGYHQFCLNTPYLDLVIEQVQEVVRKYDGDGIFLDIVGERTCYCTTCLKQMQADGLDPHNKEDVIANGRRIYANYTTRIREAIDAIKPGLPVFHNAGHIHQGRRDLMGMNSHLELESLPTGGWGYDHFPLSARYAQPTGFHFLGMTGKFHTFWGEFGGYKHPNALRYETALSLANGARCSIGDQLHPGGQMDRATYELIGKAYAEVEAKEAWCVNAVNLADVALLTVEAAGVQQESGAMYSGKVDMGAVRMLLEGKILFDIVDLESDWSGYKVLILPDSIVMKDTILPKVEAFLAAGGKVLASGRSGLNVELTRQMLPLGFTDSGLNPFRPDYFRPLDGMANLGEAAYVMYGDGRRIELTDGTELGRREDPYFNRQAFRFCSHQHAPSSEQEGGPGMVESAQGIYIAWNVFEDYATKGSLILKEMVLFALRRLLGEQITLKTTLPAQGVTTLQHQAAERRYINHLLYASPVKRGERVEIIEDMIPLQQVEVQLQLPVTDVKRVYLAPQMTEIEFKASGGDVQFTVPQLECHQMVVVEYNE MRYRQVHLDFHTSEHISDIGRNFSKKNFQEMLQLGHVNSITVFAKCHHGWAYFPSATNEIHPRLDFDLLGAQIEAAHEIGVKVPIYISVGFDEKLAWEKPQWLMRDEADRMNWVDSFMKPGYHQFCLNTPYLDLVIEQVQEVVRKYDGDGIFLDIVGERTCYCTTCLKQMQADGLDPHNKEDVIANGRRIYANYTTRIREAIDAIKPGLPVFHNAGHIHQGRRDLMGMNSHLELESLPTGGWGYDHFPLSARYAQPTGFHFLGMTGKFHTFWGEFGGYKHPNALRYETALSLANGARCSIGDQLHPGGQMDRATYELIGKAYAEVEAKEAWCVNAVNLADVALLTVEAAGVQQESGAMYSGKVDMGAVRMLLEGKILFDIVDLESDWSGYKVLILPDSIVMKDTILPKVEAFLAAGGKVLASGRSGLNVELTRQMLPLGFTDSGLNPFRPDYFRPLDGMANLGEAAYVMYGDGRRIELTDGTELGRREDPYFNRQAFRFCSHQHAPSSEQEGGPGMVESAQGIYIAWNVFEDYATKGSLILKEMVLFALRRLLGEQITLKTTLPAQGVTTLQHQAAERRYINHLLYASPVKRGERVEIIEDMIPLQQVEVQLQLPVTDVKRVYLAPQMTEIEFKASGGDVQFTVPQLECHQMVVVEYNE 6tvk-a1-m2-cAAA_6tvk-a1-m4-cAAA Alpha-L-fucosidase isoenzyme 2 from Paenibacillus thiaminolyticus K0JCW6 K0JCW6 2.1 X-RAY DIFFRACTION 260 1.0 49283 (Paenibacillus thiaminolyticus) 49283 (Paenibacillus thiaminolyticus) 659 659 6tvk-a1-m1-cAAA_6tvk-a1-m3-cAAA MRYRQVHLDFHTSEHISDIGRNFSKKNFQEMLQLGHVNSITVFAKCHHGWAYFPSATNEIHPRLDFDLLGAQIEAAHEIGVKVPIYISVGFDEKLAWEKPQWLMRDEADRMNWVDSFMKPGYHQFCLNTPYLDLVIEQVQEVVRKYDGDGIFLDIVGERTCYCTTCLKQMQADGLDPHNKEDVIANGRRIYANYTTRIREAIDAIKPGLPVFHNAGHIHQGRRDLMGMNSHLELESLPTGGWGYDHFPLSARYAQPTGFHFLGMTGKFHTFWGEFGGYKHPNALRYETALSLANGARCSIGDQLHPGGQMDRATYELIGKAYAEVEAKEAWCVNAVNLADVALLTVEAAGVQQESGAMYSGKVDMGAVRMLLEGKILFDIVDLESDWSGYKVLILPDSIVMKDTILPKVEAFLAAGGKVLASGRSGLNVELTRQMLPLGFTDSGLNPFRPDYFRPLDGMANLGEAAYVMYGDGRRIELTDGTELGRREDPYFNRQAFRFCSHQHAPSSEQEGGPGMVESAQGIYIAWNVFEDYATKGSLILKEMVLFALRRLLGEQITLKTTLPAQGVTTLQHQAAERRYINHLLYASPVKRGERVEIIEDMIPLQQVEVQLQLPVTDVKRVYLAPQMTEIEFKASGGDVQFTVPQLECHQMVVVEYNE MRYRQVHLDFHTSEHISDIGRNFSKKNFQEMLQLGHVNSITVFAKCHHGWAYFPSATNEIHPRLDFDLLGAQIEAAHEIGVKVPIYISVGFDEKLAWEKPQWLMRDEADRMNWVDSFMKPGYHQFCLNTPYLDLVIEQVQEVVRKYDGDGIFLDIVGERTCYCTTCLKQMQADGLDPHNKEDVIANGRRIYANYTTRIREAIDAIKPGLPVFHNAGHIHQGRRDLMGMNSHLELESLPTGGWGYDHFPLSARYAQPTGFHFLGMTGKFHTFWGEFGGYKHPNALRYETALSLANGARCSIGDQLHPGGQMDRATYELIGKAYAEVEAKEAWCVNAVNLADVALLTVEAAGVQQESGAMYSGKVDMGAVRMLLEGKILFDIVDLESDWSGYKVLILPDSIVMKDTILPKVEAFLAAGGKVLASGRSGLNVELTRQMLPLGFTDSGLNPFRPDYFRPLDGMANLGEAAYVMYGDGRRIELTDGTELGRREDPYFNRQAFRFCSHQHAPSSEQEGGPGMVESAQGIYIAWNVFEDYATKGSLILKEMVLFALRRLLGEQITLKTTLPAQGVTTLQHQAAERRYINHLLYASPVKRGERVEIIEDMIPLQQVEVQLQLPVTDVKRVYLAPQMTEIEFKASGGDVQFTVPQLECHQMVVVEYNE 6tvk-a1-m3-cAAA_6tvk-a1-m4-cAAA Alpha-L-fucosidase isoenzyme 2 from Paenibacillus thiaminolyticus K0JCW6 K0JCW6 2.1 X-RAY DIFFRACTION 57 1.0 49283 (Paenibacillus thiaminolyticus) 49283 (Paenibacillus thiaminolyticus) 659 659 6tvk-a1-m1-cAAA_6tvk-a1-m2-cAAA MRYRQVHLDFHTSEHISDIGRNFSKKNFQEMLQLGHVNSITVFAKCHHGWAYFPSATNEIHPRLDFDLLGAQIEAAHEIGVKVPIYISVGFDEKLAWEKPQWLMRDEADRMNWVDSFMKPGYHQFCLNTPYLDLVIEQVQEVVRKYDGDGIFLDIVGERTCYCTTCLKQMQADGLDPHNKEDVIANGRRIYANYTTRIREAIDAIKPGLPVFHNAGHIHQGRRDLMGMNSHLELESLPTGGWGYDHFPLSARYAQPTGFHFLGMTGKFHTFWGEFGGYKHPNALRYETALSLANGARCSIGDQLHPGGQMDRATYELIGKAYAEVEAKEAWCVNAVNLADVALLTVEAAGVQQESGAMYSGKVDMGAVRMLLEGKILFDIVDLESDWSGYKVLILPDSIVMKDTILPKVEAFLAAGGKVLASGRSGLNVELTRQMLPLGFTDSGLNPFRPDYFRPLDGMANLGEAAYVMYGDGRRIELTDGTELGRREDPYFNRQAFRFCSHQHAPSSEQEGGPGMVESAQGIYIAWNVFEDYATKGSLILKEMVLFALRRLLGEQITLKTTLPAQGVTTLQHQAAERRYINHLLYASPVKRGERVEIIEDMIPLQQVEVQLQLPVTDVKRVYLAPQMTEIEFKASGGDVQFTVPQLECHQMVVVEYNE MRYRQVHLDFHTSEHISDIGRNFSKKNFQEMLQLGHVNSITVFAKCHHGWAYFPSATNEIHPRLDFDLLGAQIEAAHEIGVKVPIYISVGFDEKLAWEKPQWLMRDEADRMNWVDSFMKPGYHQFCLNTPYLDLVIEQVQEVVRKYDGDGIFLDIVGERTCYCTTCLKQMQADGLDPHNKEDVIANGRRIYANYTTRIREAIDAIKPGLPVFHNAGHIHQGRRDLMGMNSHLELESLPTGGWGYDHFPLSARYAQPTGFHFLGMTGKFHTFWGEFGGYKHPNALRYETALSLANGARCSIGDQLHPGGQMDRATYELIGKAYAEVEAKEAWCVNAVNLADVALLTVEAAGVQQESGAMYSGKVDMGAVRMLLEGKILFDIVDLESDWSGYKVLILPDSIVMKDTILPKVEAFLAAGGKVLASGRSGLNVELTRQMLPLGFTDSGLNPFRPDYFRPLDGMANLGEAAYVMYGDGRRIELTDGTELGRREDPYFNRQAFRFCSHQHAPSSEQEGGPGMVESAQGIYIAWNVFEDYATKGSLILKEMVLFALRRLLGEQITLKTTLPAQGVTTLQHQAAERRYINHLLYASPVKRGERVEIIEDMIPLQQVEVQLQLPVTDVKRVYLAPQMTEIEFKASGGDVQFTVPQLECHQMVVVEYNE 6tvp-a1-m1-cA_6tvp-a1-m1-cB Structure of Mycobacterium smegmatis alpha-maltose-1-phosphate synthase GlgM A0R2E2 A0R2E2 1.9 X-RAY DIFFRACTION 76 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 386 389 QGMRVAMMTREYPPEVYGGAGVHVTELVAQLRKLCDVDVHCMGAPRDGAYVAHPDPTLRGANAALTMLSADLNMVNNAEAATVVHSHTWYTGLAGHLASLLYGVPHVLTAHSLEPLRPWKAEQLGGGYQVSSWVERTAVEAADAVIAVSSGMRDDVLRTYPALDPDRVHVVRNGIDTTVWYPAEPGSVLAELGVDLNRPIVAFVGRITRQKGVAHLVAAAHRFAPDVQLVLCAGAPDTPQIAEEVSSAVQQLAQARTGVFWVREMLPTHKIREILSAATVFVCPSVYEPLGIVNLEAMACATAVVASDVGGIPEVVADGRTGLLVHYDANDTEAYEARLAEAVNSLVADPDRAREYGVAGRERCIEEFSWAHIAEQTLEIYRKVSA QGMRVAMMTREYPPEVYGGAGVHVTELVAQLRKLCDVDVHCMGAPRDGAYVAHPDPTLRGANAALTMLSADLNMVNNAEAATVVHSHTWYTGLAGHLASLLYGVPHVLTAHSLEPLRPWKAEQLGGGYQVSSWVERTAVEAADAVIAVSSGMRDDVLRTYPALDPDRVHVVRNGIDTTVWYPAEPGPDESVLAELGVDLNRPIVAFVGRITRQKGVAHLVAAAHRFAPDVQLVLCAGAPDTPQIAEEVSSAVQQLAQARTGVFWVREMLPTHKIREILSAATVFVCPSVYEPLGIVNLEAMACATAVVASDVGGIPEVVADGRTGLLVHYDANDTEAYEARLAEAVNSLVADPDRAREYGVAGRERCIEEFSWAHIAEQTLEIYRKVSA 6tvv-a3-m1-cB_6tvv-a3-m1-cA Crystal structure of 3'-5' RecJ exonuclease from M. Jannaschii Q58241 Q58241 2.8 X-RAY DIFFRACTION 48 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 428 429 MMEKLKEIEKVTKAIKEKILNHYGYIRVITHHDTDGLSSGGILAKMLMRTNKLFHLTVVEHLSKEVIEKLAKENEVNKPLFIFADMGSGQIEEIIKHNFNAIILDHHPPVIKDSFINENIIQLNPHIFGVDGSREITASGVCYLVAREFGYYDLSVLAIVGIIGDMQYNPLLGLNKFIVNEAREYRYVKIMNDIVYNIYDVEIYKAIAYCTKPYIPDLASEGKAFKFLKDIGIDPNKKQLDDTDKKKLLSAIIFKYPKIENLLIDRYLIEHKVRDAFLLSEMLNAVGRNGLFAVGIGICLEDDECIKIGNQILWEYKKNLINELKSVKLKKLNNIYYFEGKKGMIGIIASILVDDKPVIGYHIEGDIAKFSARGNRDLVNRGLNLSVAMAVAKEFGGNGGGHDVASGAVVSKDKVQEFLKRVDEIIGE MMEKLKEIEKVTKAIKEKILNHYGYIRVITHHDTDGLSSGGILAKMLMRTNKLFHLTVVEHLSKEVIEKLAKENEVNKPLFIFADMGSGQIEEIIKHNFNAIILDHHPPVIKDSFINENIIQLNPHIFGVDGSREITASGVCYLVAREFGYYDLSVLAIVGIIGDMQYNPLLGLNKFIVNEAREYRYVKIMNDIVYNIYDVEIYKAIAYCTKPYIPDLASEGKAFKFLKDIGIDPNKKQLDDTDKKKLLSAIIFKYPKIENLLIDRYLIEHKVRDAFLLSEMLNAVGRNGLFAVGIGICLEDDECIKIGNQILWEYKKNLINELKSVKLKKLNNIYYFEGKKGMIGIIASILVDDKPVIGYHIEGDIAKFSARGNRDLVNRGLNLSVAMAVAKEFGGNGGGHDVASGAVVSKDKVQEFLKRVDEIIGEQ 6twk-a1-m1-cB_6twk-a1-m1-cA Substrate bound structure of the Ectoine utilization protein EutD (DoeA) from Halomonas elongata E1V7W1 E1V7W1 2.25 X-RAY DIFFRACTION 202 1.0 2746 (Halomonas elongata) 2746 (Halomonas elongata) 396 397 6twj-a1-m1-cB_6twj-a1-m1-cA 6yo9-a1-m1-cB_6yo9-a1-m1-cA VSLPFTREEYAGRLWKVRTEMASRGIDVLVISDPSNMAWLTGYDGWSFYVHQCVLLGLEGEPVWYGRRMDANGALRTCWMDPDNITYYPDHYVQNPDMHPMDYLAQTILPDRGWHEGVVGMEMDNYYFSAKAYQCLLRELPHARFADANSLVNWCRAIKSPQEIEYMRVAGKIVAGMHSRILEVIEPGLPKSKLVSEIYRVGIEGWTSPEGKVFGGDYPAIVPMLPTGKDAAAPHLTWDDSPFREGEGTFFEIAGVYKRYHAPMSRTVYLGRPPSEFVRAESALLEGIENGLEVAKPGNRTADIAMALGAAMDKYGFDRGGARCGYPIGISYPPDWGERTMSLRPSDETILEPGMTFHFMPGLWVEDWGLEITESILITESGCETLADFPRQLFVK QVSLPFTREEYAGRLWKVRTEMASRGIDVLVISDPSNMAWLTGYDGWSFYVHQCVLLGLEGEPVWYGRRMDANGALRTCWMDPDNITYYPDHYVQNPDMHPMDYLAQTILPDRGWHEGVVGMEMDNYYFSAKAYQCLLRELPHARFADANSLVNWCRAIKSPQEIEYMRVAGKIVAGMHSRILEVIEPGLPKSKLVSEIYRVGIEGWTSPEGKVFGGDYPAIVPMLPTGKDAAAPHLTWDDSPFREGEGTFFEIAGVYKRYHAPMSRTVYLGRPPSEFVRAESALLEGIENGLEVAKPGNRTADIAMALGAAMDKYGFDRGGARCGYPIGISYPPDWGERTMSLRPSDETILEPGMTFHFMPGLWVEDWGLEITESILITESGCETLADFPRQLFVK 6twr-a1-m1-cA_6twr-a1-m1-cB Structure of a constitutively active CAT-PRD1 mutant of the antiterminator LicT protein. P39805 P39805 NOT SOLUTION NMR 191 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 169 169 1l1c-a1-m1-cA_1l1c-a1-m1-cB MKIAKVINNNVISVVNEQGKELVVMGRGLAFQKKSGDDVDEARIEKVFTLDNKDVSEKFKTLLYDIPIECMEVSEEIISYAKLQLGKKLNDSIYVSLTNHINFAIQRNQKGLDIKNALLWETKRLYKDEFAIGKEALVMVKNKTGVSLPEDEAGFIALHIVNAELNELQ MKIAKVINNNVISVVNEQGKELVVMGRGLAFQKKSGDDVDEARIEKVFTLDNKDVSEKFKTLLYDIPIECMEVSEEIISYAKLQLGKKLNDSIYVSLTNHINFAIQRNQKGLDIKNALLWETKRLYKDEFAIGKEALVMVKNKTGVSLPEDEAGFIALHIVNAELNELQ 6twv-a2-m1-cH_6twv-a2-m1-cJ Crystal structure of the haemagglutinin mutant (Gln226Leu) from an H10N7 seal influenza virus isolated in Germany with human receptor analogue, 6'SLN A0A0A7HR51 A0A0A7HR51 2.55 X-RAY DIFFRACTION 58 1.0 1572188 (Influenza A virus (A/harbour seal/Germany/1/2014(H10N7))) 1572188 (Influenza A virus (A/harbour seal/Germany/1/2014(H10N7))) 172 172 4cyv-a1-m1-cB_4cyv-a1-m1-cD 4cyv-a1-m1-cB_4cyv-a1-m1-cF 4cyv-a1-m1-cD_4cyv-a1-m1-cF 4cyw-a1-m1-cB_4cyw-a1-m1-cD 4cyw-a1-m1-cB_4cyw-a1-m1-cF 4cyw-a1-m1-cD_4cyw-a1-m1-cF 4cyz-a1-m1-cB_4cyz-a1-m1-cD 4cyz-a1-m1-cB_4cyz-a1-m1-cF 4cyz-a1-m1-cD_4cyz-a1-m1-cF 4cz0-a1-m1-cB_4cz0-a1-m1-cD 4cz0-a1-m1-cB_4cz0-a1-m1-cF 4cz0-a1-m1-cD_4cz0-a1-m1-cF 4d00-a1-m1-cB_4d00-a1-m1-cD 4d00-a1-m1-cF_4d00-a1-m1-cB 4d00-a1-m1-cF_4d00-a1-m1-cD 4qy0-a1-m1-cB_4qy0-a1-m1-cD 4qy0-a1-m1-cB_4qy0-a1-m1-cF 4qy0-a1-m1-cD_4qy0-a1-m1-cF 4qy0-a2-m1-cH_4qy0-a2-m1-cJ 4qy0-a2-m1-cH_4qy0-a2-m1-cL 4qy0-a2-m1-cJ_4qy0-a2-m1-cL 4qy1-a1-m1-cB_4qy1-a1-m1-cD 4qy1-a1-m1-cB_4qy1-a1-m1-cF 4qy1-a1-m1-cD_4qy1-a1-m1-cF 4qy1-a2-m1-cH_4qy1-a2-m1-cJ 4qy1-a2-m1-cH_4qy1-a2-m1-cL 4qy1-a2-m1-cJ_4qy1-a2-m1-cL 4qy1-a3-m1-cN_4qy1-a3-m1-cP 4qy1-a3-m1-cN_4qy1-a3-m1-cR 4qy1-a3-m1-cP_4qy1-a3-m1-cR 4qy1-a4-m1-cT_4qy1-a4-m1-cV 4qy1-a4-m1-cT_4qy1-a4-m1-cX 4qy1-a4-m1-cV_4qy1-a4-m1-cX 4qy2-a1-m1-cB_4qy2-a1-m1-cD 4qy2-a1-m1-cB_4qy2-a1-m1-cF 4qy2-a1-m1-cD_4qy2-a1-m1-cF 4qy2-a2-m1-cH_4qy2-a2-m1-cJ 4qy2-a2-m1-cH_4qy2-a2-m1-cL 4qy2-a2-m1-cJ_4qy2-a2-m1-cL 4wsw-a1-m1-cB_4wsw-a1-m1-cD 4wsw-a1-m1-cB_4wsw-a1-m1-cF 4wsw-a1-m1-cD_4wsw-a1-m1-cF 4wsx-a1-m1-cB_4wsx-a1-m1-cP 4wsx-a1-m1-cB_4wsx-a1-m1-cX 4wsx-a1-m1-cP_4wsx-a1-m1-cX 4wsx-a2-m1-cD_4wsx-a2-m1-cN 4wsx-a2-m1-cD_4wsx-a2-m1-cV 4wsx-a2-m1-cN_4wsx-a2-m1-cV 4wsx-a3-m1-cF_4wsx-a3-m1-cL 4wsx-a3-m1-cF_4wsx-a3-m1-cT 4wsx-a3-m1-cL_4wsx-a3-m1-cT 4wsx-a4-m1-cH_4wsx-a4-m1-cJ 4wsx-a4-m1-cH_4wsx-a4-m1-cR 4wsx-a4-m1-cJ_4wsx-a4-m1-cR 4xq5-a1-m1-cD_4xq5-a1-m1-cB 4xq5-a1-m1-cD_4xq5-a1-m1-cF 4xq5-a1-m1-cF_4xq5-a1-m1-cB 4xqo-a1-m1-cD_4xqo-a1-m1-cB 4xqo-a1-m1-cF_4xqo-a1-m1-cB 4xqo-a1-m1-cF_4xqo-a1-m1-cD 4xqu-a1-m1-cD_4xqu-a1-m1-cB 4xqu-a1-m1-cF_4xqu-a1-m1-cB 5tgo-a1-m1-cB_5tgo-a1-m1-cF 5tgo-a1-m1-cD_5tgo-a1-m1-cB 5tgo-a1-m1-cD_5tgo-a1-m1-cF 5tgu-a1-m1-cB_5tgu-a1-m1-cD 5tgu-a1-m1-cB_5tgu-a1-m1-cF 5tgu-a1-m1-cD_5tgu-a1-m1-cF 5tgv-a1-m1-cB_5tgv-a1-m1-cF 5tgv-a1-m1-cD_5tgv-a1-m1-cB 5tgv-a1-m1-cD_5tgv-a1-m1-cF 5th0-a1-m1-cD_5th0-a1-m1-cB 5th0-a1-m1-cD_5th0-a1-m1-cF 5th0-a1-m1-cF_5th0-a1-m1-cB 5th1-a1-m1-cB_5th1-a1-m1-cF 5th1-a1-m1-cD_5th1-a1-m1-cB 5th1-a1-m1-cD_5th1-a1-m1-cF 5thb-a1-m1-cD_5thb-a1-m1-cB 5thb-a1-m1-cD_5thb-a1-m1-cF 5thb-a1-m1-cF_5thb-a1-m1-cB 5thc-a1-m1-cB_5thc-a1-m1-cD 5thc-a1-m1-cF_5thc-a1-m1-cB 5thc-a1-m1-cF_5thc-a1-m1-cD 6tjw-a1-m1-cB_6tjw-a1-m1-cD 6tjw-a1-m1-cB_6tjw-a1-m1-cF 6tjw-a1-m1-cD_6tjw-a1-m1-cF 6tjy-a1-m1-cB_6tjy-a1-m1-cH 6tjy-a1-m1-cB_6tjy-a1-m1-cJ 6tjy-a1-m1-cH_6tjy-a1-m1-cJ 6tjy-a2-m1-cD_6tjy-a2-m1-cF 6tjy-a2-m1-cD_6tjy-a2-m1-cL 6tjy-a2-m1-cF_6tjy-a2-m1-cL 6tva-a1-m1-cB_6tva-a1-m1-cD 6tva-a1-m1-cB_6tva-a1-m1-cF 6tva-a1-m1-cD_6tva-a1-m1-cF 6tvb-a1-m1-cB_6tvb-a1-m1-cD 6tvb-a1-m1-cF_6tvb-a1-m1-cB 6tvb-a1-m1-cF_6tvb-a1-m1-cD 6tvc-a1-m1-cB_6tvc-a1-m1-cD 6tvc-a1-m1-cB_6tvc-a1-m1-cF 6tvc-a1-m1-cD_6tvc-a1-m1-cF 6tvd-a1-m1-cB_6tvd-a1-m1-cH 6tvd-a1-m1-cB_6tvd-a1-m1-cJ 6tvd-a1-m1-cH_6tvd-a1-m1-cJ 6tvd-a2-m1-cD_6tvd-a2-m1-cF 6tvd-a2-m1-cD_6tvd-a2-m1-cL 6tvd-a2-m1-cF_6tvd-a2-m1-cL 6tvf-a1-m1-cB_6tvf-a1-m1-cH 6tvf-a1-m1-cB_6tvf-a1-m1-cJ 6tvf-a1-m1-cH_6tvf-a1-m1-cJ 6tvf-a2-m1-cD_6tvf-a2-m1-cF 6tvf-a2-m1-cD_6tvf-a2-m1-cL 6tvf-a2-m1-cF_6tvf-a2-m1-cL 6tvr-a1-m1-cB_6tvr-a1-m1-cH 6tvr-a1-m1-cB_6tvr-a1-m1-cJ 6tvr-a1-m1-cH_6tvr-a1-m1-cJ 6tvr-a2-m1-cD_6tvr-a2-m1-cF 6tvr-a2-m1-cD_6tvr-a2-m1-cL 6tvr-a2-m1-cF_6tvr-a2-m1-cL 6tvs-a1-m1-cD_6tvs-a1-m1-cF 6tvs-a1-m1-cD_6tvs-a1-m1-cL 6tvs-a1-m1-cF_6tvs-a1-m1-cL 6tvt-a1-m1-cB_6tvt-a1-m1-cD 6tvt-a1-m1-cB_6tvt-a1-m1-cF 6tvt-a1-m1-cD_6tvt-a1-m1-cF 6twh-a1-m1-cB_6twh-a1-m1-cD 6twh-a1-m1-cB_6twh-a1-m1-cF 6twh-a1-m1-cD_6twh-a1-m1-cF 6twh-a2-m1-cM_6twh-a2-m1-cO 6twh-a2-m1-cM_6twh-a2-m1-cQ 6twh-a2-m1-cO_6twh-a2-m1-cQ 6twi-a1-m1-cB_6twi-a1-m1-cD 6twi-a1-m1-cB_6twi-a1-m1-cF 6twi-a1-m1-cD_6twi-a1-m1-cF 6tws-a1-m1-cB_6tws-a1-m1-cD 6tws-a1-m1-cB_6tws-a1-m1-cH 6tws-a1-m1-cD_6tws-a1-m1-cH 6twv-a1-m1-cD_6twv-a1-m1-cF 6twv-a1-m1-cD_6twv-a1-m1-cL 6twv-a1-m1-cF_6twv-a1-m1-cL 6twv-a2-m1-cB_6twv-a2-m1-cH 6twv-a2-m1-cB_6twv-a2-m1-cJ 6txo-a1-m1-cB_6txo-a1-m1-cD 6txo-a1-m1-cB_6txo-a1-m1-cF 6txo-a1-m1-cD_6txo-a1-m1-cF 6ty1-a1-m1-cB_6ty1-a1-m1-cJ 6ty1-a1-m1-cB_6ty1-a1-m2-cF 6ty1-a1-m1-cJ_6ty1-a1-m2-cF 6ty1-a2-m1-cD_6ty1-a2-m1-cH 6ty1-a2-m1-cD_6ty1-a2-m1-cL 6ty1-a2-m1-cH_6ty1-a2-m1-cL 6wf1-a1-m1-cB_6wf1-a1-m2-cB 6wf1-a1-m1-cB_6wf1-a1-m3-cB 6wf1-a1-m2-cB_6wf1-a1-m3-cB GLFGAIAGFIENGWEGMVDGWYGFRHQNAQGTGQAADYKSTQAAIDQITGKLNRIIKKTNTEFESIESEFSEIDHQIGNVINWTKDSITDIWTYQAELLVAMENQHTIDMADSEMLNLYERVRKQLRQNAEEDGKGCFEIYHACDDSCMESIRNNTYDHSQYREEALLNRLN GLFGAIAGFIENGWEGMVDGWYGFRHQNAQGTGQAADYKSTQAAIDQITGKLNRIIKKTNTEFESIESEFSEIDHQIGNVINWTKDSITDIWTYQAELLVAMENQHTIDMADSEMLNLYERVRKQLRQNAEEDGKGCFEIYHACDDSCMESIRNNTYDHSQYREEALLNRLN 6ty0-a1-m1-cB_6ty0-a1-m1-cA NT PART CRYSTAL STRUCTURE OF THE RYMV-ENCODED VIRAL RNA SILENCING SUPPRESSOR P1 Q709H6 Q709H6 2.1 X-RAY DIFFRACTION 24 1.0 31744 (Rice yellow mottle virus) 31744 (Rice yellow mottle virus) 96 97 MTRLEVLIRPTEQTAAKANAVGYTHALTWVWHSQTWDVDSVRDPSLRADFNPEKVGWVSVSFACTQCTAHYYTSEQVKYFTNIPPVHFDVVCADCE MTRLEVLIRPTEQTAAKANAVGYTHALTWVWHSQTWDVDSVRDPSLRADFNPEKVGWVSVSFACTQCTAHYYTSEQVKYFTNIPPVHFDVVCADCER 6ty4-a1-m1-cA_6ty4-a1-m1-cB FAK structure with AMP-PNP from single particle analysis of 2D crystals Q00944 Q00944 5.96 ELECTRON MICROSCOPY 93 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 621 621 6ty3-a1-m1-cA_6ty3-a1-m1-cB ERVLKVFHYFENSSEPTTWASIIRHGDATDVRGIIQKIVDCHKVKNVACYGLRLSHLQSEEVHWLHLDMGVSNVREKFELAHPPEEWKYELRIRYLPKGFLNQFTEDKPTLNFFYQQVKNDYMLEIADQVDQEIALKLGCLEIRRSYGEMRGNALEKKSNYEVLEKDVGLRRFFPKSLLDSVKAKTLRKLIQQTFRQFANLNREESILKFFEILSPVYRFDKECFKCALGSSWIISVELAIGPEEGISYLTDKGANPTHLADFNQVQTIQYSNSEDKDRKGMLQLKIAGAPEPLTVTAPSLTIAENMADLIDGYCRLVNGATQSFIIRPDDYAEIIDEEDTYTMPSTRDYEIQRERIELGRCIGEGQFGDVHQGIYMSPENPAMAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKFSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSATDCVKLGDFGLSRYMEDSTYYKASKGKLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKLQ ERVLKVFHYFENSSEPTTWASIIRHGDATDVRGIIQKIVDCHKVKNVACYGLRLSHLQSEEVHWLHLDMGVSNVREKFELAHPPEEWKYELRIRYLPKGFLNQFTEDKPTLNFFYQQVKNDYMLEIADQVDQEIALKLGCLEIRRSYGEMRGNALEKKSNYEVLEKDVGLRRFFPKSLLDSVKAKTLRKLIQQTFRQFANLNREESILKFFEILSPVYRFDKECFKCALGSSWIISVELAIGPEEGISYLTDKGANPTHLADFNQVQTIQYSNSEDKDRKGMLQLKIAGAPEPLTVTAPSLTIAENMADLIDGYCRLVNGATQSFIIRPDDYAEIIDEEDTYTMPSTRDYEIQRERIELGRCIGEGQFGDVHQGIYMSPENPAMAVAIKTCKNCTSDSVREKFLQEALTMRQFDHPHIVKLIGVITENPVWIIMELCTLGELRSFLQVRKFSLDLASLILYAYQLSTALAYLESKRFVHRDIAARNVLVSATDCVKLGDFGLSRYMEDSTYYKASKGKLPIKWMAPESINFRRFTSASDVWMFGVCMWEILMHGVKPFQGVKNNDVIGRIENGERLPMPPNCPPTLYSLMTKCWAYDPSRRPRFTELKAQLSTILEEEKLQ 6ty6-a1-m1-cC_6ty6-a1-m1-cB Variant W229D/F290W-2 of the last common ancestor of Gram-negative bacteria beta-lactamase class A (GNCA4) bound to 5(6)-nitrobenzotriazole (TS-analog) 1.8 X-RAY DIFFRACTION 35 1.0 32630 (synthetic construct) 32630 (synthetic construct) 265 266 6txd-a1-m1-cA_6txd-a1-m1-cB 6txd-a1-m1-cC_6txd-a1-m1-cA 6txd-a1-m1-cC_6txd-a1-m1-cB 6ty6-a1-m1-cA_6ty6-a1-m1-cB 6ty6-a1-m1-cA_6ty6-a1-m1-cC AALSEQLAELEKRSGGRLGVAVLDTATGRRFGYRGDERFPMCSTFKALLAAAVLARVDQGKENLDRRITYGKEDLVDYSPVTEKHVGDGMTVAELCEAAITYSDNTAANLLLEALGGPAALTAFLRSIGDNVTRLDRWEPELNTAAPGDPRDTTTPAAMAATLRTLLLGDVLSPASRQQLVDWLIANKTGDKRLRAGLPADDRVGDKTGTGEHGTTNDIAVVWPPNRAPIFLAVYLTESQVDADARDAVIAEVARLVVAAWLHHH AALSEQLAELEKRSGGRLGVAVLDTATGRRFGYRGDERFPMCSTFKALLAAAVLARVDQGKENLDRRITYGKEDLVDYSPVTEKHVGDGMTVAELCEAAITYSDNTAANLLLEALGGPAALTAFLRSIGDNVTRLDRWEPELNTAAPGDPRDTTTPAAMAATLRTLLLGDVLSPASRQQLVDWLIANKTGDKRLRAGLPADDRVGDKTGTGEHGTTNDIAVVWPPNRAPIFLAVYLTESQVDADARDAVIAEVARLVVAAWLHHHH 6ty7-a1-m1-cA_6ty7-a1-m1-cB Crystal structure of haloalkane dehalogenase variant DhaA115 domain-swapped dimer type-1 P0A3G2 P0A3G2 1.5 X-RAY DIFFRACTION 418 1.0 32630 (synthetic construct) 32630 (synthetic construct) 290 297 IGTGFPFDPHYVEVLGSRMHYVDVGPRDGTPVLFLHGNPTSSYLWRNIIPHVAPSHRCIAPDLIGMGKSDKPDLDYRFDDHVRYLDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERVKGIAFMEFIRPIPTWDEWPEFARELFQAFRTPDVGRELIIDQNAFIEGILPKFVVRPLTEVEMDHYREPFLKPVWREPLWRFPNELPIAGEPANIWALVEAYMNWLHQSPVPKLLFWGTPGVLIPPAEAARLAESLPNLKTVFIGPGLHYLQEDNPDLIGSEIARWLPAL EIGTGFPFDPHYVEVLGSRMHYVDVGPRDGTPVLFLHGNPTSSYLWRNIIPHVAPSHRCIAPDLIGMGKSDKPDLDYRFDDHVRYLDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERVKGIAFMEFIRPIPTWDEWPEFARELFQAFRTPDVGRELIIDQNAFIEGILPKFVVRPLTEVEMDHYREPFLKPVWREPLWRFPNELPIAGEPANIWALVEAYMNWLHQSPVPKLLFWGTPGVLIPPAEAARLAESLPNLKTVFIGPGLHYLQEDNPDLIGSEIARWLPALHHHHHH 6tyk-a1-m1-cB_6tyk-a1-m1-cA Crystal structure of iodotyrosine deiodinase (IYD) in the semiquinone form bound to FMN and 3-iodo-L-tyrosine B9K712 B9K712 1.35 X-RAY DIFFRACTION 196 1.0 309803 (Thermotoga neapolitana DSM 4359) 309803 (Thermotoga neapolitana DSM 4359) 184 185 6pz0-a1-m1-cB_6pz0-a1-m1-cA 6q1b-a1-m1-cB_6q1b-a1-m1-cA 6q1l-a1-m1-cA_6q1l-a1-m1-cB MLYDLAKKRKTVRRFKKEKPPLEDLIYSLKVANEAPSGMNAQPWRFLIVEDEKLKGQIRRVCERSEKTFYENVRGRLKEWLDEKRFTWRKPFLKEAPYLLLVFSEKSAPYSRESVWLAVGYLLLALEEKGLGSVPYTPPDFREVEKLVNTPSELRLEVILPVGYPDDPKPKYPRNEVIVRYNTF KMLYDLAKKRKTVRRFKKEKPPLEDLIYSLKVANEAPSGMNAQPWRFLIVEDEKLKGQIRRVCERSEKTFYENVRGRLKEWLDEKRFTWRKPFLKEAPYLLLVFSEKSAPYSRESVWLAVGYLLLALEEKGLGSVPYTPPDFREVEKLVNTPSELRLEVILPVGYPDDPKPKYPRNEVIVRYNTF 6tz4-a1-m1-cSA_6tz4-a1-m1-cYA CryoEM reconstruction of membrane-bound ESCRT-III filament composed of CHMP1B+IST1 (right-handed) P53990 P53990 3.2 ELECTRON MICROSCOPY 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 3jc1-a1-m1-cAa_3jc1-a1-m1-cAc 3jc1-a1-m1-cAa_3jc1-a1-m1-cBg 3jc1-a1-m1-cAc_3jc1-a1-m1-cAe 3jc1-a1-m1-cAe_3jc1-a1-m1-cAg 3jc1-a1-m1-cAg_3jc1-a1-m1-cAi 3jc1-a1-m1-cAi_3jc1-a1-m1-cAk 3jc1-a1-m1-cAk_3jc1-a1-m1-cAm 3jc1-a1-m1-cAm_3jc1-a1-m1-cAo 3jc1-a1-m1-cAo_3jc1-a1-m1-cAq 3jc1-a1-m1-cAq_3jc1-a1-m1-cAs 3jc1-a1-m1-cAs_3jc1-a1-m1-cAu 3jc1-a1-m1-cAu_3jc1-a1-m1-cAw 3jc1-a1-m1-cAw_3jc1-a1-m1-cAy 3jc1-a1-m1-cAy_3jc1-a1-m1-cBa 3jc1-a1-m1-cBa_3jc1-a1-m1-cBc 3jc1-a1-m1-cBc_3jc1-a1-m1-cBe 3jc1-a1-m1-cBg_3jc1-a1-m1-cCm 3jc1-a1-m1-cBi_3jc1-a1-m1-cBk 3jc1-a1-m1-cBi_3jc1-a1-m1-cCo 3jc1-a1-m1-cBk_3jc1-a1-m1-cBm 3jc1-a1-m1-cBm_3jc1-a1-m1-cBo 3jc1-a1-m1-cBo_3jc1-a1-m1-cBq 3jc1-a1-m1-cBq_3jc1-a1-m1-cBs 3jc1-a1-m1-cBs_3jc1-a1-m1-cBu 3jc1-a1-m1-cBu_3jc1-a1-m1-cBw 3jc1-a1-m1-cBw_3jc1-a1-m1-cBy 3jc1-a1-m1-cBy_3jc1-a1-m1-cCa 3jc1-a1-m1-cCa_3jc1-a1-m1-cCc 3jc1-a1-m1-cCc_3jc1-a1-m1-cCe 3jc1-a1-m1-cCe_3jc1-a1-m1-cCg 3jc1-a1-m1-cCg_3jc1-a1-m1-cCi 3jc1-a1-m1-cCi_3jc1-a1-m1-cCk 3jc1-a1-m1-cCk_3jc1-a1-m1-cCm 6e8g-a1-m1-cA_6e8g-a1-m1-cLB 6e8g-a1-m1-cA_6e8g-a1-m1-cZA 6e8g-a1-m1-cBA_6e8g-a1-m1-cDB 6e8g-a1-m1-cBA_6e8g-a1-m1-cK 6e8g-a1-m1-cBB_6e8g-a1-m1-cNA 6e8g-a1-m1-cBB_6e8g-a1-m1-cRA 6e8g-a1-m1-cC_6e8g-a1-m1-cHA 6e8g-a1-m1-cC_6e8g-a1-m1-cJB 6e8g-a1-m1-cDA_6e8g-a1-m1-cLA 6e8g-a1-m1-cDA_6e8g-a1-m1-cPA 6e8g-a1-m1-cDB_6e8g-a1-m1-cV 6e8g-a1-m1-cE_6e8g-a1-m1-cPA 6e8g-a1-m1-cE_6e8g-a1-m1-cTB 6e8g-a1-m1-cFA_6e8g-a1-m1-cFB 6e8g-a1-m1-cFA_6e8g-a1-m1-cNA 6e8g-a1-m1-cFB_6e8g-a1-m1-cJA 6e8g-a1-m1-cG_6e8g-a1-m1-cI 6e8g-a1-m1-cG_6e8g-a1-m1-cXA 6e8g-a1-m1-cHA_6e8g-a1-m1-cQ 6e8g-a1-m1-cHB_6e8g-a1-m1-cVA 6e8g-a1-m1-cHB_6e8g-a1-m1-cZ 6e8g-a1-m1-cI_6e8g-a1-m1-cQ 6e8g-a1-m1-cJA_6e8g-a1-m1-cS 6e8g-a1-m1-cJB_6e8g-a1-m1-cM 6e8g-a1-m1-cK_6e8g-a1-m1-cLB 6e8g-a1-m1-cLA_6e8g-a1-m1-cTA 6e8g-a1-m1-cM_6e8g-a1-m1-cO 6e8g-a1-m1-cNB_6e8g-a1-m1-cRB 6e8g-a1-m1-cNB_6e8g-a1-m1-cV 6e8g-a1-m1-cO_6e8g-a1-m1-cZ 6e8g-a1-m1-cPB_6e8g-a1-m1-cS 6e8g-a1-m1-cPB_6e8g-a1-m1-cX 6e8g-a1-m1-cRB_6e8g-a1-m1-cTB 6e8g-a1-m1-cTA_6e8g-a1-m1-cX 6e8g-a1-m1-cXA_6e8g-a1-m1-cZA 6tz4-a1-m1-c01_6tz4-a1-m1-cD 6tz4-a1-m1-c01_6tz4-a1-m1-cQB 6tz4-a1-m1-cAA_6tz4-a1-m1-cGA 6tz4-a1-m1-cAA_6tz4-a1-m1-cT 6tz4-a1-m1-cAB_6tz4-a1-m1-cGB 6tz4-a1-m1-cAB_6tz4-a1-m1-cUA 6tz4-a1-m1-cB_6tz4-a1-m1-cH 6tz4-a1-m1-cB_6tz4-a1-m1-cSB 6tz4-a1-m1-cCA_6tz4-a1-m1-cIA 6tz4-a1-m1-cCA_6tz4-a1-m1-cW 6tz4-a1-m1-cCB_6tz4-a1-m1-cWA 6tz4-a1-m1-cD_6tz4-a1-m1-cJ 6tz4-a1-m1-cEA_6tz4-a1-m1-cKA 6tz4-a1-m1-cEA_6tz4-a1-m1-cY 6tz4-a1-m1-cEB_6tz4-a1-m1-cKB 6tz4-a1-m1-cEB_6tz4-a1-m1-cYA 6tz4-a1-m1-cF_6tz4-a1-m1-cL 6tz4-a1-m1-cF_6tz4-a1-m1-cMB 6tz4-a1-m1-cGA_6tz4-a1-m1-cMA 6tz4-a1-m1-cGB_6tz4-a1-m1-cMB 6tz4-a1-m1-cH_6tz4-a1-m1-cN 6tz4-a1-m1-cIA_6tz4-a1-m1-cOA 6tz4-a1-m1-cIB_6tz4-a1-m1-cOB 6tz4-a1-m1-cJ_6tz4-a1-m1-cP 6tz4-a1-m1-cKA_6tz4-a1-m1-cQA 6tz4-a1-m1-cKB_6tz4-a1-m1-cQB 6tz4-a1-m1-cL_6tz4-a1-m1-cR 6tz4-a1-m1-cMA_6tz4-a1-m1-cSA 6tz4-a1-m1-cN_6tz4-a1-m1-cT 6tz4-a1-m1-cOA_6tz4-a1-m1-cUA 6tz4-a1-m1-cOB_6tz4-a1-m1-cSB 6tz4-a1-m1-cP_6tz4-a1-m1-cW 6tz4-a1-m1-cQA_6tz4-a1-m1-cWA 6tz4-a1-m1-cR_6tz4-a1-m1-cY 6tz5-a1-m1-cA_6tz5-a1-m1-cJB 6tz5-a1-m1-cA_6tz5-a1-m1-cPA 6tz5-a1-m1-cBA_6tz5-a1-m1-cQ 6tz5-a1-m1-cBA_6tz5-a1-m1-cRA 6tz5-a1-m1-cBB_6tz5-a1-m1-cE 6tz5-a1-m1-cBB_6tz5-a1-m1-cX 6tz5-a1-m1-cC_6tz5-a1-m1-cZ 6tz5-a1-m1-cC_6tz5-a1-m1-cZA 6tz5-a1-m1-cDA_6tz5-a1-m1-cG 6tz5-a1-m1-cDA_6tz5-a1-m1-cS 6tz5-a1-m1-cDB_6tz5-a1-m1-cVA 6tz5-a1-m1-cDB_6tz5-a1-m1-cX 6tz5-a1-m1-cE_6tz5-a1-m1-cV 6tz5-a1-m1-cFA_6tz5-a1-m1-cLA 6tz5-a1-m1-cFA_6tz5-a1-m1-cNA 6tz5-a1-m1-cFB_6tz5-a1-m1-cHA 6tz5-a1-m1-cFB_6tz5-a1-m1-cV 6tz5-a1-m1-cG_6tz5-a1-m1-cHA 6tz5-a1-m1-cHB_6tz5-a1-m1-cNB 6tz5-a1-m1-cI_6tz5-a1-m1-cK 6tz5-a1-m1-cI_6tz5-a1-m1-cNA 6tz5-a1-m1-cJA_6tz5-a1-m1-cPB 6tz5-a1-m1-cJA_6tz5-a1-m1-cXA 6tz5-a1-m1-cJB_6tz5-a1-m1-cVA 6tz5-a1-m1-cK_6tz5-a1-m1-cQ 6tz5-a1-m1-cLA_6tz5-a1-m1-cO 6tz5-a1-m1-cLB_6tz5-a1-m1-cM 6tz5-a1-m1-cLB_6tz5-a1-m1-cRA 6tz5-a1-m1-cM_6tz5-a1-m1-cZ 6tz5-a1-m1-cNB_6tz5-a1-m1-cTA 6tz5-a1-m1-cO_6tz5-a1-m1-cPA 6tz5-a1-m1-cS_6tz5-a1-m1-cXA 6tz5-a1-m1-cTA_6tz5-a1-m1-cZA 6tza-a1-m1-cA_6tza-a1-m1-cB 6tza-a1-m1-cA_6tza-a1-m1-cE 6tza-a1-m1-cB_6tza-a1-m1-cH 6tza-a1-m1-cC_6tza-a1-m1-cJ 6tza-a1-m1-cC_6tza-a1-m1-cM 6tza-a1-m1-cD_6tza-a1-m1-cE 6tza-a1-m1-cD_6tza-a1-m1-cJ 6tza-a1-m1-cF_6tza-a1-m1-cG 6tza-a1-m1-cF_6tza-a1-m1-cI 6tza-a1-m1-cG_6tza-a1-m1-cL 6tza-a1-m1-cH_6tza-a1-m1-cI 6tza-a1-m1-cK_6tza-a1-m1-cM 6tza-a1-m1-cL_6tza-a1-m1-cN FKAERLRVNLRLVINRLKLLEKKKTELAQKARKEIADYLAAGKDERARIRVEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVAELKIVADQLCAKYSKEYGKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYNVPYEPDSVVMAE FKAERLRVNLRLVINRLKLLEKKKTELAQKARKEIADYLAAGKDERARIRVEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVAELKIVADQLCAKYSKEYGKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYNVPYEPDSVVMAE 6tza-a1-m1-cK_6tza-a1-m1-cN CryoEM reconstruction of ESCRT-III filament composed of IST1 NTD R16E K27E double mutant P53990 P53990 7.2 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 181 FKAERLRVNLELVINRLKLLEEKKTELAQKARKEIADYLAAGKDERARIRVEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVAELKIVADQLCAKYSKEYGKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYNVPYEPDSVVMAE FKAERLRVNLELVINRLKLLEEKKTELAQKARKEIADYLAAGKDERARIRVEHIIREDYLVEAMEILELYCDLLLARFGLIQSMKELDSGLAESVSTLIWAAPRLQSEVAELKIVADQLCAKYSKEYGKLCRTNQIGTVNDRLMHKLSVEAPPKILVERYLIEIAKNYNVPYEPDSVVMAE 6tzl-a1-m1-cD_6tzl-a1-m1-cC The structure of the Streptococcus gordonii surface protein SspB in complex with TEV peptide provides clues to the adherence of oral streptococcal adherence to salivary agglutinin P11657 P11657 1.6 X-RAY DIFFRACTION 27 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 399 404 ADYEAKLAKYQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPTAP RIQADYEAKLAKYQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPTAPTK 6tzl-a1-m2-cA_6tzl-a1-m1-cC The structure of the Streptococcus gordonii surface protein SspB in complex with TEV peptide provides clues to the adherence of oral streptococcal adherence to salivary agglutinin P11657 P11657 1.6 X-RAY DIFFRACTION 43 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 388 404 6tzl-a1-m1-cB_6tzl-a1-m1-cD YQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPT RIQADYEAKLAKYQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPTAPTK 6tzl-a1-m2-cA_6tzl-a1-m1-cD The structure of the Streptococcus gordonii surface protein SspB in complex with TEV peptide provides clues to the adherence of oral streptococcal adherence to salivary agglutinin P11657 P11657 1.6 X-RAY DIFFRACTION 37 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 388 399 6tzl-a1-m1-cB_6tzl-a1-m1-cC 6ubv-a1-m1-cA_6ubv-a1-m1-cB 6ubv-a1-m1-cD_6ubv-a1-m1-cC YQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPT ADYEAKLAKYQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPTAP 6u0i-a2-m1-cD_6u0i-a2-m1-cC Putative Antitoxin HicB3 from Escherichia coli str. K-12 substr. DH10B C3TAR7 C3TAR7 1.9 X-RAY DIFFRACTION 59 1.0 316385 (Escherichia coli str. K-12 substr. DH10B) 316385 (Escherichia coli str. K-12 substr. DH10B) 135 137 6hpb-a1-m1-cB_6hpb-a1-m1-cD 6hpc-a1-m1-cA_6hpc-a1-m1-cB 6u0i-a1-m1-cB_6u0i-a1-m1-cA IRYPVTLTPAPEGGYVSFVDIPEALTQGETVAEAEAAKDALLTAFDFYFEDNELIPLPSPLNSHDHFIEVPLSVASKVLLLNAFLQSEITQQELARRIGKPKQEITRLFNLHHATKIDAVQLAAKALGKELSLVV VEIRYPVTLTPAPEGGYVSFVDIPEALTQGETVAEAEAAKDALLTAFDFYFEDNELIPLPSPLNSHDHFIEVPLSVASKVLLLNAFLQSEITQQELARRIGKPKQEITRLFNLHHATKIDAVQLAAKALGKELSLVV 6u11-a1-m1-cA_6u11-a1-m2-cA Xenopus laevis N-acetylglucosamine-1-phosphodiester alpha-N-acetylglucosaminidase (NAGPA) (C46S C219S C453S C480S C486S) with CTD mostly flexible A0A1L8HDP6 A0A1L8HDP6 2.7 X-RAY DIFFRACTION 65 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 316 316 SRSSLNDDLLSPYQPHAKHGPSHSYRHVRDSQPVIHGNRTHEEWPSSNSTWMPVATTRIFESKFPTTSGMKTAYGHFTYVNNPLRTFSVLEPGGPGGCSKKLTATVEETIKHGNCFVAQNGGYFDMDTGNCFGNIVSDGKLVQSAKGIQNAQFGIKSDGTLIFGYLSEEQVLEAENPFVQLLSGVVWLLRNGEVYINQSKAAESDKTQTTGDFDHFINVISARTAIGHDREGRLIIFHVDGQTDDRGLNLWELANFLKDQGVINAINLDGGGSATLVINGTLANYPSDHCHYNPMWRCPRSISTVVCVHEPFCDPP SRSSLNDDLLSPYQPHAKHGPSHSYRHVRDSQPVIHGNRTHEEWPSSNSTWMPVATTRIFESKFPTTSGMKTAYGHFTYVNNPLRTFSVLEPGGPGGCSKKLTATVEETIKHGNCFVAQNGGYFDMDTGNCFGNIVSDGKLVQSAKGIQNAQFGIKSDGTLIFGYLSEEQVLEAENPFVQLLSGVVWLLRNGEVYINQSKAAESDKTQTTGDFDHFINVISARTAIGHDREGRLIIFHVDGQTDDRGLNLWELANFLKDQGVINAINLDGGGSATLVINGTLANYPSDHCHYNPMWRCPRSISTVVCVHEPFCDPP 6u14-a1-m1-cA_6u14-a1-m1-cB VHH R303 C33A/C102A in complex withthe LRR domain of InlB 1.3 X-RAY DIFFRACTION 50 1.0 9838 (Camelus dromedarius) 9838 (Camelus dromedarius) 119 123 VKLEESGGGSVQAGGSLRLSCAASGYSTYAMGWFRQVPGKEREGVARINVGGSSTWYADSVRDRFTISQDNAKNTVYLQMNSLKLEDTAIYYCTLHRFANTWSLGTLNVWGQGTQVTVS QVKLEESGGGSVQAGGSLRLSCAASGHTYSTYAMGWFRQVPGKEREGVARINVGGSSTWYADSVRDRFTISQDNAKNTVYLQMNSLKLEDTAIYYCTLHRFANTWSLGTLNVWGQGTQVTVSS 6u1b-a1-m1-cA_6u1b-a1-m2-cA Structure of N-terminus locked Esp with eight pro-peptide residues - V67C, D255C P0C0Q2 P0C0Q2 2.08009 X-RAY DIFFRACTION 90 1.0 176280 (Staphylococcus epidermidis ATCC 12228) 176280 (Staphylococcus epidermidis ATCC 12228) 221 221 KSYPSCILPNNNRHQIFNTTQGHYDAVSFIYIPIDGGYMSGSGVVVGENEILTNKHVVNGAKGNPRNISVHPSAKNENDYPNGKFVGQEIIPYPGNSDLAILRVSPNEHNQHIGQVVKPATISSNTDTRINENITVTGYPGDKPLATMWESVGKVVYIGGEELRYDLSTVGGNSGSPVFNGKNQVIGIHYGGVCNKYNSSVYINDFVQQFLRNNIPDINIQ KSYPSCILPNNNRHQIFNTTQGHYDAVSFIYIPIDGGYMSGSGVVVGENEILTNKHVVNGAKGNPRNISVHPSAKNENDYPNGKFVGQEIIPYPGNSDLAILRVSPNEHNQHIGQVVKPATISSNTDTRINENITVTGYPGDKPLATMWESVGKVVYIGGEELRYDLSTVGGNSGSPVFNGKNQVIGIHYGGVCNKYNSSVYINDFVQQFLRNNIPDINIQ 6u1p-a1-m1-cA_6u1p-a1-m1-cB Crystal structure of VpsU (VC0916) from Vibrio cholerae Q9KTI6 Q9KTI6 2.201 X-RAY DIFFRACTION 155 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 149 150 GLSVLVVCTGNLCRSPMAEIILRDKIRQKRLNIQVRSAGTLKTGKTMPDDKALQALQDYGYHPMVNPVQQVTQQDFIEHDFIYAMDRTNLADLLDICPAEHKNKLALFLSKANRQEKEVPDPYRRSSEFFQRTALLIESGAVALVDSWQ GLSVLVVCTGNLCRSPMAEIILRDKIRQKRLNIQVRSAGTLKTGKTMPDDKALQALQDYGYHPMVNPVQQVTQQDFIEHDFIYAMDRTNLADLLDICPAEHKNKLALFLSKANRQEKEVPDPYRRSSEFFQRTALLIESGAVALVDSWQE 6u1q-a1-m1-cB_6u1q-a1-m1-cA Crystal Structure of VpsO (VC0937) Kinase domain Q9KTG5 Q9KTG5 2.87 X-RAY DIFFRACTION 50 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 203 208 AYFDEKLRELTAAVATIATSYLLAHVNQDQHVVMLTSCLPGEGKTTSSLNLALSLAQMEKTLLIDCDLRKPAIAHRFGISGSQPGVTNLLNGTQSLEDCVYHDEQSGLDILTAGVYASNPLELLSSSKFSELLADLRTRYQRIVIDTPPCLAVSDSFMLAQYVDSVILVIDANHTRTPVVREVVGKLTQQGSRIDGVILNRLN LDAKAYFDEKLRELTAAVATIATSYLLAHVNQDQHVVMLTSCLPGEGKTTSSLNLALSLAQMEKTLLIDCDLRKPAIAHRFGISGSQPGVTNLLNGTQSLEDCVYHDEQSGLDILTAGVYASNPLELLSSSKFSELLADLRTRYQRIVIDTPPCLAVSDSFMLAQYVDSVILVIDANHTRTPVVREVVGKLTQQGSRIDGVILNRLNA 6u1r-a1-m1-cB_6u1r-a1-m1-cA SxtG an amidinotransferase from the Microseira wollei in Saxitoxin biosynthetic pathway C3RVP0 C3RVP0 1.792 X-RAY DIFFRACTION 84 1.0 467598 (Microseira wollei) 467598 (Microseira wollei) 340 358 CPVNSYNEWDALEEVIVGSVEGAMLPALEPINKWTFPTGGIPYPPEMIAVAHKELNEFIHILEAEGVKVRRVKPVDFFASFSTPAWQVRSGFCAANPRDVFLVIGNEIIEAPMADRNRYFEAWAYRDLLKEYFQAGAKWTAAPKPQLFDAQYDFNFQFPSRFVVTEFEPTFDAADFVRCGRDIFGQKSHVTNSLGIEWLQRHLEDEYRIHIIESQCPEALHIDTTLMPLAPGKILVNPEFVDVNKLPKILKSWDILVAPYPNHIPQNQLRLVSEWAGLNVLMLDEERVIVEKKQEPMIKALKDWGFKPIVCSFESYYPFLGSFHCATLDVRRRGTLQSYF CPVNSYNEWDALEEVIVGSVEGAMLPALEPINKWTFPLEELASAQKVLFETGGIPYPPEMIAVAHKELNEFIHILEAEGVKVRRVKPVDFFASFSTPAWQVRSGFCAANPRDVFLVIGNEIIEAPMADRNRYFEAWAYRDLLKEYFQAGAKWTAAPKPQLFDAQYDFNFQFPQTGEPSRFVVTEFEPTFDAADFVRCGRDIFGQKSHVTNSLGIEWLQRHLEDEYRIHIIESQCPEALHIDTTLMPLAPGKILVNPEFVDVNKLPKILKSWDILVAPYPNHIPQNQLRLVSEWAGLNVLMLDEERVIVEKKQEPMIKALKDWGFKPIVCSFESYYPFLGSFHCATLDVRRRGTLQSYF 6u1s-a1-m1-cL_6u1s-a1-m1-cN Cryo-EM structure of a de novo designed 16-helix transmembrane nanopore, TMHC8_R. 7.6 ELECTRON MICROSCOPY 139 1.0 32630 (synthetic construct) 32630 (synthetic construct) 310 310 6u1s-a1-m1-cA_6u1s-a1-m1-cB 6u1s-a1-m1-cA_6u1s-a1-m1-cN 6u1s-a1-m1-cB_6u1s-a1-m1-cD 6u1s-a1-m1-cD_6u1s-a1-m1-cF 6u1s-a1-m1-cF_6u1s-a1-m1-cH 6u1s-a1-m1-cH_6u1s-a1-m1-cJ 6u1s-a1-m1-cJ_6u1s-a1-m1-cL EEFMARAISAIAELAKKAIEAIYRLADNHTTDTFMAKAIEAIAELAKEAIKAIADLAKNHTTEEFMARAISAIAELARKAIDAIYRLARNHTTDTFMAKAIEAIAELAKEAIKAIADLAKNHTTEDFMDEAISAIAELARKAIEAILRLASNLTSETYMRKAQEAIEKIARTAEEAIRDLARNLEDQERRERAKSARDEIKRFAEDARKKIEVLALLKRSREYLKKVALIQLVIAFVFLILLILLSWRSEELIRELEEKGAASEAELARMKQQHMTAYLQAALTAWEIISKSVIALLLLQQNQLNLELRH EEFMARAISAIAELAKKAIEAIYRLADNHTTDTFMAKAIEAIAELAKEAIKAIADLAKNHTTEEFMARAISAIAELARKAIDAIYRLARNHTTDTFMAKAIEAIAELAKEAIKAIADLAKNHTTEDFMDEAISAIAELARKAIEAILRLASNLTSETYMRKAQEAIEKIARTAEEAIRDLARNLEDQERRERAKSARDEIKRFAEDARKKIEVLALLKRSREYLKKVALIQLVIAFVFLILLILLSWRSEELIRELEEKGAASEAELARMKQQHMTAYLQAALTAWEIISKSVIALLLLQQNQLNLELRH 6u1v-a1-m1-cD_6u1v-a1-m1-cB Crystal structure of acyl-ACP/acyl-CoA dehydrogenase from allylmalonyl-CoA and FK506 biosynthesis, TcsD I2MTW3 I2MTW3 1.75 X-RAY DIFFRACTION 72 1.0 1114943 (Streptomyces tsukubensis NRRL18488) 1114943 (Streptomyces tsukubensis NRRL18488) 382 389 6u1v-a1-m1-cC_6u1v-a1-m1-cA MSESERLGIVRDFVAREILGREGILDSLADAPLALYERFAETGLMNWWVPKEHGGLGLGLEESVRIVSELAYGDAGVAFTLFLPVLTTSMIGWYGSEELKERFLGPLVARRGFCATLGSEHEAGSELARISTTVRRDGDTLVLDGTKAFSTSTDFARFLVVIARSADDPARYTAVTVPRDAPGLRVDKRWDVIGMRASATYQVSFSDCRVPGDNALNGNGLRLLEIGLNASRILIAASALGVARRIRDVCMEYGKTKSLKGAPLVKDGVFAGRLGQFEMQIDVMANQCLAAARAYDATAARPDAARVLLRQGAQKSALTAKMFCGQTAWQIASTASEMFGGIGYTHDMVIGKLLRDVRHASIIEGGDDVLRDLVYQRFVVPT MSESERLGIVRDFVAREILGREGILDSLADAPLALYERFAETGLMNWWVPKEHGGLGLGLEESVRIVSELAYGDAGVAFTLFLPVLTTSMIGWYGSEELKERFLGPLVARRGFCATLGSEHEAGSELARISTTVRRDGDTLVLDGTKAFSTSTDFARFLVVIARSADDPARYTAVTVPRDAPGLRVDKRWDVIGMRASATYQVSFSDCRVPGDNALNGNGLRLLEIGLNASRILIAASALGVARRIRDVCMEYGKTKSLKGAPLVKDGVFAGRLGQFEMQIDVMANQCLAAARAYDATAARPDAARVLLRQGAQKSALTAKMFCGQTAWQIASTASEMFGGIGYTHDMVIGKLLRDVRHASIIEGGDDVLRDLVYQRFVVPTAKRTLEH 6u1v-a1-m1-cD_6u1v-a1-m1-cC Crystal structure of acyl-ACP/acyl-CoA dehydrogenase from allylmalonyl-CoA and FK506 biosynthesis, TcsD I2MTW3 I2MTW3 1.75 X-RAY DIFFRACTION 97 1.0 1114943 (Streptomyces tsukubensis NRRL18488) 1114943 (Streptomyces tsukubensis NRRL18488) 382 383 6u1v-a1-m1-cA_6u1v-a1-m1-cB MSESERLGIVRDFVAREILGREGILDSLADAPLALYERFAETGLMNWWVPKEHGGLGLGLEESVRIVSELAYGDAGVAFTLFLPVLTTSMIGWYGSEELKERFLGPLVARRGFCATLGSEHEAGSELARISTTVRRDGDTLVLDGTKAFSTSTDFARFLVVIARSADDPARYTAVTVPRDAPGLRVDKRWDVIGMRASATYQVSFSDCRVPGDNALNGNGLRLLEIGLNASRILIAASALGVARRIRDVCMEYGKTKSLKGAPLVKDGVFAGRLGQFEMQIDVMANQCLAAARAYDATAARPDAARVLLRQGAQKSALTAKMFCGQTAWQIASTASEMFGGIGYTHDMVIGKLLRDVRHASIIEGGDDVLRDLVYQRFVVPT MSESERLGIVRDFVAREILGREGILDSLADAPLALYERFAETGLMNWWVPKEHGGLGLGLEESVRIVSELAYGDAGVAFTLFLPVLTTSMIGWYGSEELKERFLGPLVARRGFCATLGSEHEAGSELARISTTVRRDGDTLVLDGTKAFSTSTDFARFLVVIARSADDPARYTAVTVPRDAPGLRVDKRWDVIGMRASATYQVSFSDCRVPGDNALNGNGLRLLEIGLNASRILIAASALGVARRIRDVCMEYGKTKSLKGAPLVKDGVFAGRLGQFEMQIDVMANQCLAAARAYDATAARPDAARVLLRQGAQKSALTAKMFCGQTAWQIASTASEMFGGIGYTHDMVIGKLLRDVRHASIIEGGDDVLRDLVYQRFVVPTA 6u2d-a2-m1-cC_6u2d-a2-m2-cD PmtCD peptide exporter basket domain Q2FWW9 Q2FWW9 2.11 X-RAY DIFFRACTION 39 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 63 64 6u2d-a1-m1-cB_6u2d-a1-m1-cA 6xfu-a1-m1-cB_6xfu-a1-m1-cA DTTIVTVDHKDFDRTEKYLAEHFQLQNVDKADGHLMINAQKNYQVILKALSELDIYPKYIETR SDTTIVTVDHKDFDRTEKYLAEHFQLQNVDKADGHLMINAQKNYQVILKALSELDIYPKYIETR 6u2u-a1-m1-cB_6u2u-a1-m1-cA Helix-Loop-helix motif of mouse DNA-binding protein inhibitor ID-1 P20067 P20067 1.5 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 44 46 6mgm-a1-m1-cA_6mgm-a1-m1-cB LYDMNGCYSRLKELVPTLPQNRKVSKVEILQHVIDYIRDLQLEL LYDMNGCYSRLKELVPTLPQNRKVSKVEILQHVIDYIRDLQLELNS 6u3e-a1-m1-cA_6u3e-a1-m1-cB Best fitting antiparallel model for Volume 1 of truncated dimeric Cytohesin-3 (Grp1; amino acids 14-399) O43739 O43739 53.0 ELECTRON MICROSCOPY 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 397 397 MGHHHHHHGSPEDLSLEEREELLDIRRRKKELIDDIERLKYEIAEVMTEIDNLTSVEESKYTQRNAQIAMGRKKFNMDPKKGIQFLIENDLLQSSPEDVAQFLYKGEGLNKTVIGDYLGERDDFNIKVLQAFVELHEFADLNLVQALRQFLWSFRLPGEAQKIDRMMEAFASRYCLCNPGVFQSTDTCYVLSFAIIMLNTSLHNHNVRDKPTAERFITMNRGINEGGDLPEELLRNLYESIKNEPFKIPEDDGNDLTYTFFNPDREGWLLKLGGRVKTWKRRWFILTDNCLYYFEYTTDKEPRGIIPLENLSIREVEDPRKPNCFELYNPSHKGQVIKACKTEADGRVVEGNHVVYRISAPSPEEKEEWMKSIKASISRDPFYDMLATRKRRIANKK MGHHHHHHGSPEDLSLEEREELLDIRRRKKELIDDIERLKYEIAEVMTEIDNLTSVEESKYTQRNAQIAMGRKKFNMDPKKGIQFLIENDLLQSSPEDVAQFLYKGEGLNKTVIGDYLGERDDFNIKVLQAFVELHEFADLNLVQALRQFLWSFRLPGEAQKIDRMMEAFASRYCLCNPGVFQSTDTCYVLSFAIIMLNTSLHNHNVRDKPTAERFITMNRGINEGGDLPEELLRNLYESIKNEPFKIPEDDGNDLTYTFFNPDREGWLLKLGGRVKTWKRRWFILTDNCLYYFEYTTDKEPRGIIPLENLSIREVEDPRKPNCFELYNPSHKGQVIKACKTEADGRVVEGNHVVYRISAPSPEEKEEWMKSIKASISRDPFYDMLATRKRRIANKK 6u3g-a1-m1-cA_6u3g-a1-m1-cB Best fitting antiparallel model for Volume 2 of truncated dimeric Cytohesin-3 (Grp1; amino acids 14-399) O43739 O43739 53.0 ELECTRON MICROSCOPY 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 397 397 MGHHHHHHGSPEDLSLEEREELLDIRRRKKELIDDIERLKYEIAEVMTEIDNLTSVEESKYTQRNAQIAMGRKKFNMDPKKGIQFLIENDLLQSSPEDVAQFLYKGEGLNKTVIGDYLGERDDFNIKVLQAFVELHEFADLNLVQALRQFLWSFRLPGEAQKIDRMMEAFASRYCLCNPGVFQSTDTCYVLSFAIIMLNTSLHNHNVRDKPTAERFITMNRGINEGGDLPEELLRNLYESIKNEPFKIPEDDGNDLTYTFFNPDREGWLLKLGGRVKTWKRRWFILTDNCLYYFEYTTDKEPRGIIPLENLSIREVEDPRKPNCFELYNPSHKGQVIKACKTEADGRVVEGNHVVYRISAPSPEEKEEWMKSIKASISRDPFYDMLATRKRRIANKK MGHHHHHHGSPEDLSLEEREELLDIRRRKKELIDDIERLKYEIAEVMTEIDNLTSVEESKYTQRNAQIAMGRKKFNMDPKKGIQFLIENDLLQSSPEDVAQFLYKGEGLNKTVIGDYLGERDDFNIKVLQAFVELHEFADLNLVQALRQFLWSFRLPGEAQKIDRMMEAFASRYCLCNPGVFQSTDTCYVLSFAIIMLNTSLHNHNVRDKPTAERFITMNRGINEGGDLPEELLRNLYESIKNEPFKIPEDDGNDLTYTFFNPDREGWLLKLGGRVKTWKRRWFILTDNCLYYFEYTTDKEPRGIIPLENLSIREVEDPRKPNCFELYNPSHKGQVIKACKTEADGRVVEGNHVVYRISAPSPEEKEEWMKSIKASISRDPFYDMLATRKRRIANKK 6u3t-a3-m3-cA_6u3t-a3-m8-cB Structure-based discovery of a novel small-molecule inhibitor of methicillin-resistant S. aureus P09616 P09616 2.79 X-RAY DIFFRACTION 25 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 251 253 6u3t-a3-m1-cA_6u3t-a3-m5-cB 6u3t-a3-m2-cA_6u3t-a3-m6-cB 6u3t-a3-m4-cA_6u3t-a3-m7-cB 6u3t-a3-m5-cA_6u3t-a3-m1-cB 6u3t-a3-m6-cA_6u3t-a3-m2-cB 6u3t-a3-m7-cA_6u3t-a3-m4-cB 6u3t-a3-m8-cA_6u3t-a3-m3-cB TTVKTGDLVTYDKENGMAKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN SNTTVKTGDLVTYDKENGMAKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN 6u3v-a1-m1-cB_6u3v-a1-m2-cB Crystal structure of human alpha/epsilon-COP of the COPI vesicular coat bound to alpha-COP STM1 P53621 P53621 2.96 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 332 6tzt-a1-m1-cB_6tzt-a1-m2-cB EGWGEDAELQLPPFFVPPTKGTSPTQIWCNNSQLPVDHILAGSFETAMRLLHDQVGVIQFGPYKQLFLQTYARGRTTYQALPCLPSMYGYPNRNWKDAGLKNGVPAVGLKLNDLIQRLQLCYQLTTVGKFEEAVEKFRSILLSVPLLVVDNKQEIAEAQQLITICREYIVGLSVETERKKLPKETLEQQKRICEMAAYFTHSNLQPVHMILVLRTALNLFFKLKNFKTAATFARRLLELGPKPEVAQQTRKILSACEKNPTDAYQLNYDMHNPFDICAASYRPIYRGKPVEKCPLSGACYSPEFKGQICRVTTVTEIGKDVIGLRISPLQFR EGWGEDAELQLPPFFVPPTKGTSPTQIWCNNSQLPVDHILAGSFETAMRLLHDQVGVIQFGPYKQLFLQTYARGRTTYQALPCLPSMYGYPNRNWKDAGLKNGVPAVGLKLNDLIQRLQLCYQLTTVGKFEEAVEKFRSILLSVPLLVVDNKQEIAEAQQLITICREYIVGLSVETERKKLPKETLEQQKRICEMAAYFTHSNLQPVHMILVLRTALNLFFKLKNFKTAATFARRLLELGPKPEVAQQTRKILSACEKNPTDAYQLNYDMHNPFDICAASYRPIYRGKPVEKCPLSGACYSPEFKGQICRVTTVTEIGKDVIGLRISPLQFR 6u4b-a1-m2-cA_6u4b-a1-m3-cA WbbM bifunctional glycosytransferase apo structure Q48484 Q48484 2.1 X-RAY DIFFRACTION 46 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 570 570 6u4b-a1-m1-cA_6u4b-a1-m2-cA 6u4b-a1-m1-cA_6u4b-a1-m3-cA NSVKIYTSHHKPSAFLNAAIIKPLHVGKANSCNEIGCPGDDTGDNISFKNPFYCELTAHYWVWKNEELADYVGFMHYRRHLNFSEKQTFSEDTWGVVNHPCIDEEYEKIFGLNEETIQRCVEGIDILLPKKWSVTAAGSKNNYDHYERGEYLHIRDYQAAIAIVEKLYPEYSTAIKTFNDASDGYYTNMFVMRKDIFVDYSEWLFSILDNLEDAISMNNYNAQEKRVIGHIAERLFNIYIIKLQQDGELKVKELQRTFVSNETFNGALNPVFDSAVPVVISFDDNYAISGGALINSIIRHADKNKNYDIVVLENKVSYLNKTRLVNLTSAHPNVSLRFFDVNAFTEIVHTRAHFSASTYARLFIPQLFRRYDKVVFIDSDTVVKADLGELLDVPLGNNLVAAVKDIVMEGFVKFSAMSASDDGVMPAGEYLQKTLNMNNPDEYFQAGIIVFNVKQMVEENTFAELMRVLKAKKYWFLDQDIMNKVFYSRVTFLPLEWNVYHGNGNTDDFFPNLKFATYMKFLAARKKPKMIHYAGENKPWNTEKVDFYDDFIENIANTPWEMEIYKRQMS NSVKIYTSHHKPSAFLNAAIIKPLHVGKANSCNEIGCPGDDTGDNISFKNPFYCELTAHYWVWKNEELADYVGFMHYRRHLNFSEKQTFSEDTWGVVNHPCIDEEYEKIFGLNEETIQRCVEGIDILLPKKWSVTAAGSKNNYDHYERGEYLHIRDYQAAIAIVEKLYPEYSTAIKTFNDASDGYYTNMFVMRKDIFVDYSEWLFSILDNLEDAISMNNYNAQEKRVIGHIAERLFNIYIIKLQQDGELKVKELQRTFVSNETFNGALNPVFDSAVPVVISFDDNYAISGGALINSIIRHADKNKNYDIVVLENKVSYLNKTRLVNLTSAHPNVSLRFFDVNAFTEIVHTRAHFSASTYARLFIPQLFRRYDKVVFIDSDTVVKADLGELLDVPLGNNLVAAVKDIVMEGFVKFSAMSASDDGVMPAGEYLQKTLNMNNPDEYFQAGIIVFNVKQMVEENTFAELMRVLKAKKYWFLDQDIMNKVFYSRVTFLPLEWNVYHGNGNTDDFFPNLKFATYMKFLAARKKPKMIHYAGENKPWNTEKVDFYDDFIENIANTPWEMEIYKRQMS 6u4y-a1-m1-cC_6u4y-a1-m1-cA Crystal Structure of an EZH2-EED Complex in an Oligomeric State Q15910 Q15910 2.91 X-RAY DIFFRACTION 28 0.987 9606 (Homo sapiens) 9606 (Homo sapiens) 157 160 6u4y-a1-m1-cA_6u4y-a1-m1-cB 6u4y-a1-m1-cC_6u4y-a1-m1-cB RKRVKSEYMRLRQLKRFRRADEVKSMFSSNRQKILERTEILNQEWKQRRIQPVHILTRECSVTSDLDFPTQVIPLKTLNAVASVPIMYSWSPLQQNFTFIEELIKNYCGFINDEIFVELVNALGQYNSDKIFEAISSMFPDKGTAEELKEKYKELTE PVCWRKRVKSEYMRLRQLKRFRRADEVKSMFSSNRQKILERTEILNQEWKQRRIQPVHILTRECSVTSDLDFPTQVIPLKTLNAVASVPIMYSWSPLQQNFGTFIEELIKNYCGFINDEIFVELVNALGQYDKIFEAISSMFPDKGTAEELKEKYKELTE 6u4y-a1-m1-cF_6u4y-a1-m1-cE Crystal Structure of an EZH2-EED Complex in an Oligomeric State O75530 O75530 2.91 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 358 360 SCKYSFKCVNSLKEDHNQPLFGVQFNWHSKEGDPLVFATVGSNRVTLYECHSQGEIRLLQSYVDADADENFYTCAWTYDSNTSHPLLAVAGSRGIIRIINPITMQCIKHYVGHGNAINELKFHPRDPNLLLSVSKDHALRLWNIQTDTLVAIFGGVEGHRDEVLSADYDLLGEKIMSCGMDHSLKLWRINSKRMMNAIKESYDYNPFISQKIHFPDFSTRDIHRNYVDCVRWLGDLILSKSCENAIVCWKPGKMEDDIDKIKPSESNVTILGRFDYSQCDIWYMRFSMDFWQKMLALGNQVGKLYVWDLEVEDPHKAKCTTLTHHKCGAAIRQTSFSRDSSILIAVCDDASIWRWDRL GSCKYSFKCVNSLKEDHNQPLFGVQFNWHSKEGDPLVFATVGSNRVTLYECHSQGEIRLLQSYVDADADENFYTCAWTYDSNTSHPLLAVAGSRGIIRIINPITMQCIKHYVGHGNAINELKFHPRDPNLLLSVSKDHALRLWNIQTDTLVAIFGGVEGHRDEVLSADYDLLGEKIMSCGMDHSLKLWRINSKRMMNAIKESYDYNPNFISQKIHFPDFSTRDIHRNYVDCVRWLGDLILSKSCENAIVCWKPGKMEDDIDKIKPSESNVTILGRFDYSQCDIWYMRFSMDFWQKMLALGNQVGKLYVWDLEVEDPHKAKCTTLTHHKCGAAIRQTSFSRDSSILIAVCDDASIWRWDRL 6u5b-a1-m1-ck_6u5b-a1-m1-cl CryoEM Structure of Pyocin R2 - precontracted - baseplate G3XD65 G3XD65 3.5 ELECTRON MICROSCOPY 101 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 285 285 6u5b-a1-m1-cg_6u5b-a1-m1-ch 6u5b-a1-m1-cg_6u5b-a1-m1-cl 6u5b-a1-m1-ch_6u5b-a1-m1-ci 6u5b-a1-m1-ci_6u5b-a1-m1-cj 6u5b-a1-m1-cj_6u5b-a1-m1-ck AYLEQLQAGLRYLGRAGESGRKSLDKVVAPVNGAISEIRGAAAELENLPGVSPEMAARLQRAMRGIGQAQGKVNRVVSTYDRASRALLGIDERLDALKVQVNSAAQAVGKVAGDISPTLAGVLPSWLLAPSATPPSEAAASLPHLLVLQPLTANAQPFYFNLNTAAFDALQRNSAYNWSGQVRLGRRPALQSVGMGEESILLKGAVFPLRRQVGNQEKVVGLEQLEALRRLAERREPLILSSGYGEVQMGLWCLVRISENQSALLGNGAPRKQTFDLEFKRYGDD AYLEQLQAGLRYLGRAGESGRKSLDKVVAPVNGAISEIRGAAAELENLPGVSPEMAARLQRAMRGIGQAQGKVNRVVSTYDRASRALLGIDERLDALKVQVNSAAQAVGKVAGDISPTLAGVLPSWLLAPSATPPSEAAASLPHLLVLQPLTANAQPFYFNLNTAAFDALQRNSAYNWSGQVRLGRRPALQSVGMGEESILLKGAVFPLRRQVGNQEKVVGLEQLEALRRLAERREPLILSSGYGEVQMGLWCLVRISENQSALLGNGAPRKQTFDLEFKRYGDD 6u5h-a1-m1-cB_6u5h-a1-m1-cC CryoEM Structure of Pyocin R2 - precontracted - hub G3XCU8 G3XCU8 4.0 ELECTRON MICROSCOPY 54 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 318 318 6u5h-a1-m1-cA_6u5h-a1-m1-cB 6u5h-a1-m1-cA_6u5h-a1-m1-cC MQPSFRIVADGTDVTQRLNDRLLKLTLLDKPGMESDSLTLRIDDRDGQVALPRRGAVLEVHLGYAGEPLMRMGRFTVDTLQWAGPPDCLTVTAKAGDMRGSGKTIRSGGWEGTTLAQVCRDVGARNGWRVECPLQVAIARVDQVNESDYHFVTRLARQYDCTAKLAEGMLMVLPRQSGQSATGRRIEPLVLGRADVGSFDVTFDDRSLMRTVKTRYQLPVELKNPKAPATAMGEHVDRHLYTSRGEAEQAAKARLASFSRSSASVRLELPGRGDLFAERSLLLQGFKAGIDGEFLIDSVEHTYSSSGWTTVVQCNGGR MQPSFRIVADGTDVTQRLNDRLLKLTLLDKPGMESDSLTLRIDDRDGQVALPRRGAVLEVHLGYAGEPLMRMGRFTVDTLQWAGPPDCLTVTAKAGDMRGSGKTIRSGGWEGTTLAQVCRDVGARNGWRVECPLQVAIARVDQVNESDYHFVTRLARQYDCTAKLAEGMLMVLPRQSGQSATGRRIEPLVLGRADVGSFDVTFDDRSLMRTVKTRYQLPVELKNPKAPATAMGEHVDRHLYTSRGEAEQAAKARLASFSRSSASVRLELPGRGDLFAERSLLLQGFKAGIDGEFLIDSVEHTYSSSGWTTVVQCNGGR 6u5k-a1-m1-cg_6u5k-a1-m1-cx CryoEM Structure of Pyocin R2 - postcontracted - baseplate G3XD39 G3XD39 3.5 ELECTRON MICROSCOPY 86 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 383 383 3j9r-a1-m1-c0_3j9r-a1-m1-cL 3j9r-a1-m1-c1_3j9r-a1-m1-cG 3j9r-a1-m1-c2_3j9r-a1-m1-cH 3j9r-a1-m1-c3_3j9r-a1-m1-cI 3j9r-a1-m1-c4_3j9r-a1-m1-cJ 3j9r-a1-m1-c5_3j9r-a1-m1-cK 3j9r-a1-m1-cA_3j9r-a1-m1-cR 3j9r-a1-m1-cB_3j9r-a1-m1-cM 3j9r-a1-m1-cC_3j9r-a1-m1-cN 3j9r-a1-m1-cD_3j9r-a1-m1-cO 3j9r-a1-m1-cE_3j9r-a1-m1-cP 3j9r-a1-m1-cF_3j9r-a1-m1-cQ 3j9r-a1-m1-cG_3j9r-a1-m1-cf 3j9r-a1-m1-cH_3j9r-a1-m1-ca 3j9r-a1-m1-cI_3j9r-a1-m1-cb 3j9r-a1-m1-cJ_3j9r-a1-m1-cc 3j9r-a1-m1-cK_3j9r-a1-m1-cd 3j9r-a1-m1-cL_3j9r-a1-m1-ce 3j9r-a1-m1-cM_3j9r-a1-m1-cl 3j9r-a1-m1-cN_3j9r-a1-m1-cg 3j9r-a1-m1-cO_3j9r-a1-m1-ch 3j9r-a1-m1-cP_3j9r-a1-m1-ci 3j9r-a1-m1-cQ_3j9r-a1-m1-cj 3j9r-a1-m1-cR_3j9r-a1-m1-ck 6u5j-a1-m1-ca_6u5j-a1-m1-cn 6u5j-a1-m1-cb_6u5j-a1-m1-co 6u5j-a1-m1-cc_6u5j-a1-m1-cp 6u5j-a1-m1-cd_6u5j-a1-m1-cq 6u5j-a1-m1-ce_6u5j-a1-m1-cr 6u5j-a1-m1-cf_6u5j-a1-m1-cm 6u5k-a1-m1-ca_6u5k-a1-m1-cr 6u5k-a1-m1-cb_6u5k-a1-m1-cm 6u5k-a1-m1-cc_6u5k-a1-m1-cn 6u5k-a1-m1-cd_6u5k-a1-m1-co 6u5k-a1-m1-ce_6u5k-a1-m1-cp 6u5k-a1-m1-cf_6u5k-a1-m1-cq 6u5k-a1-m1-ch_6u5k-a1-m1-cs 6u5k-a1-m1-ci_6u5k-a1-m1-ct 6u5k-a1-m1-cj_6u5k-a1-m1-cu 6u5k-a1-m1-ck_6u5k-a1-m1-cv 6u5k-a1-m1-cl_6u5k-a1-m1-cw SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD 6u5k-a1-m1-cl_6u5k-a1-m1-cx CryoEM Structure of Pyocin R2 - postcontracted - baseplate G3XD39 G3XD39 3.5 ELECTRON MICROSCOPY 24 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 383 383 3j9r-a1-m1-c0_3j9r-a1-m1-cG 3j9r-a1-m1-c1_3j9r-a1-m1-cH 3j9r-a1-m1-c2_3j9r-a1-m1-cI 3j9r-a1-m1-c3_3j9r-a1-m1-cJ 3j9r-a1-m1-c4_3j9r-a1-m1-cK 3j9r-a1-m1-c5_3j9r-a1-m1-cL 3j9r-a1-m1-cA_3j9r-a1-m1-cM 3j9r-a1-m1-cB_3j9r-a1-m1-cN 3j9r-a1-m1-cC_3j9r-a1-m1-cO 3j9r-a1-m1-cD_3j9r-a1-m1-cP 3j9r-a1-m1-cE_3j9r-a1-m1-cQ 3j9r-a1-m1-cF_3j9r-a1-m1-cR 3j9r-a1-m1-cG_3j9r-a1-m1-ca 3j9r-a1-m1-cH_3j9r-a1-m1-cb 3j9r-a1-m1-cI_3j9r-a1-m1-cc 3j9r-a1-m1-cJ_3j9r-a1-m1-cd 3j9r-a1-m1-cK_3j9r-a1-m1-ce 3j9r-a1-m1-cL_3j9r-a1-m1-cf 3j9r-a1-m1-cM_3j9r-a1-m1-cg 3j9r-a1-m1-cN_3j9r-a1-m1-ch 3j9r-a1-m1-cO_3j9r-a1-m1-ci 3j9r-a1-m1-cP_3j9r-a1-m1-cj 3j9r-a1-m1-cQ_3j9r-a1-m1-ck 3j9r-a1-m1-cR_3j9r-a1-m1-cl 6u5j-a1-m1-ca_6u5j-a1-m1-cm 6u5j-a1-m1-cb_6u5j-a1-m1-cn 6u5j-a1-m1-cc_6u5j-a1-m1-co 6u5j-a1-m1-cd_6u5j-a1-m1-cp 6u5j-a1-m1-ce_6u5j-a1-m1-cq 6u5j-a1-m1-cf_6u5j-a1-m1-cr 6u5k-a1-m1-ca_6u5k-a1-m1-cm 6u5k-a1-m1-cb_6u5k-a1-m1-cn 6u5k-a1-m1-cc_6u5k-a1-m1-co 6u5k-a1-m1-cd_6u5k-a1-m1-cp 6u5k-a1-m1-ce_6u5k-a1-m1-cq 6u5k-a1-m1-cf_6u5k-a1-m1-cr 6u5k-a1-m1-cg_6u5k-a1-m1-cs 6u5k-a1-m1-ch_6u5k-a1-m1-ct 6u5k-a1-m1-ci_6u5k-a1-m1-cu 6u5k-a1-m1-cj_6u5k-a1-m1-cv 6u5k-a1-m1-ck_6u5k-a1-m1-cw SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD 6u5k-a1-m1-cm_6u5k-a1-m1-cx CryoEM Structure of Pyocin R2 - postcontracted - baseplate G3XD39 G3XD39 3.5 ELECTRON MICROSCOPY 64 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 383 383 3j9r-a1-m1-c0_3j9r-a1-m1-cF 3j9r-a1-m1-c1_3j9r-a1-m1-cA 3j9r-a1-m1-c2_3j9r-a1-m1-cB 3j9r-a1-m1-c3_3j9r-a1-m1-cC 3j9r-a1-m1-c4_3j9r-a1-m1-cD 3j9r-a1-m1-c5_3j9r-a1-m1-cE 3j9r-a1-m1-ca_3j9r-a1-m1-cl 3j9r-a1-m1-cA_3j9r-a1-m1-cL 3j9r-a1-m1-cb_3j9r-a1-m1-cg 3j9r-a1-m1-cB_3j9r-a1-m1-cG 3j9r-a1-m1-cc_3j9r-a1-m1-ch 3j9r-a1-m1-cC_3j9r-a1-m1-cH 3j9r-a1-m1-cd_3j9r-a1-m1-ci 3j9r-a1-m1-cD_3j9r-a1-m1-cI 3j9r-a1-m1-ce_3j9r-a1-m1-cj 3j9r-a1-m1-cE_3j9r-a1-m1-cJ 3j9r-a1-m1-cf_3j9r-a1-m1-ck 3j9r-a1-m1-cF_3j9r-a1-m1-cK 3j9r-a1-m1-cG_3j9r-a1-m1-cR 3j9r-a1-m1-cH_3j9r-a1-m1-cM 3j9r-a1-m1-cI_3j9r-a1-m1-cN 3j9r-a1-m1-cJ_3j9r-a1-m1-cO 3j9r-a1-m1-cK_3j9r-a1-m1-cP 3j9r-a1-m1-cL_3j9r-a1-m1-cQ 3j9r-a1-m1-cM_3j9r-a1-m1-cf 3j9r-a1-m1-cN_3j9r-a1-m1-ca 3j9r-a1-m1-cO_3j9r-a1-m1-cb 3j9r-a1-m1-cP_3j9r-a1-m1-cc 3j9r-a1-m1-cQ_3j9r-a1-m1-cd 3j9r-a1-m1-cR_3j9r-a1-m1-ce 6u5j-a1-m1-ca_6u5j-a1-m1-ch 6u5j-a1-m1-cb_6u5j-a1-m1-ci 6u5j-a1-m1-cc_6u5j-a1-m1-cj 6u5j-a1-m1-cd_6u5j-a1-m1-ck 6u5j-a1-m1-ce_6u5j-a1-m1-cl 6u5j-a1-m1-cf_6u5j-a1-m1-cg 6u5j-a1-m1-cg_6u5j-a1-m1-cn 6u5j-a1-m1-ch_6u5j-a1-m1-co 6u5j-a1-m1-ci_6u5j-a1-m1-cp 6u5j-a1-m1-cj_6u5j-a1-m1-cq 6u5j-a1-m1-ck_6u5j-a1-m1-cr 6u5j-a1-m1-cl_6u5j-a1-m1-cm 6u5k-a1-m1-ca_6u5k-a1-m1-cl 6u5k-a1-m1-cb_6u5k-a1-m1-cg 6u5k-a1-m1-cc_6u5k-a1-m1-ch 6u5k-a1-m1-cd_6u5k-a1-m1-ci 6u5k-a1-m1-ce_6u5k-a1-m1-cj 6u5k-a1-m1-cf_6u5k-a1-m1-ck 6u5k-a1-m1-cg_6u5k-a1-m1-cr 6u5k-a1-m1-ch_6u5k-a1-m1-cm 6u5k-a1-m1-ci_6u5k-a1-m1-cn 6u5k-a1-m1-cj_6u5k-a1-m1-co 6u5k-a1-m1-ck_6u5k-a1-m1-cp 6u5k-a1-m1-cl_6u5k-a1-m1-cq 6u5k-a1-m1-cn_6u5k-a1-m1-cs 6u5k-a1-m1-co_6u5k-a1-m1-ct 6u5k-a1-m1-cp_6u5k-a1-m1-cu 6u5k-a1-m1-cq_6u5k-a1-m1-cv 6u5k-a1-m1-cr_6u5k-a1-m1-cw SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD 6u5k-a1-m1-cr_6u5k-a1-m1-cx CryoEM Structure of Pyocin R2 - postcontracted - baseplate G3XD39 G3XD39 3.5 ELECTRON MICROSCOPY 120 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 383 383 3j9r-a1-m1-c0_3j9r-a1-m1-cA 3j9r-a1-m1-c1_3j9r-a1-m1-cB 3j9r-a1-m1-c2_3j9r-a1-m1-cC 3j9r-a1-m1-c3_3j9r-a1-m1-cD 3j9r-a1-m1-c4_3j9r-a1-m1-cE 3j9r-a1-m1-c5_3j9r-a1-m1-cF 3j9r-a1-m1-ca_3j9r-a1-m1-cg 3j9r-a1-m1-cA_3j9r-a1-m1-cG 3j9r-a1-m1-cb_3j9r-a1-m1-ch 3j9r-a1-m1-cB_3j9r-a1-m1-cH 3j9r-a1-m1-cc_3j9r-a1-m1-ci 3j9r-a1-m1-cC_3j9r-a1-m1-cI 3j9r-a1-m1-cd_3j9r-a1-m1-cj 3j9r-a1-m1-cD_3j9r-a1-m1-cJ 3j9r-a1-m1-ce_3j9r-a1-m1-ck 3j9r-a1-m1-cE_3j9r-a1-m1-cK 3j9r-a1-m1-cf_3j9r-a1-m1-cl 3j9r-a1-m1-cF_3j9r-a1-m1-cL 3j9r-a1-m1-cG_3j9r-a1-m1-cM 3j9r-a1-m1-cH_3j9r-a1-m1-cN 3j9r-a1-m1-cI_3j9r-a1-m1-cO 3j9r-a1-m1-cJ_3j9r-a1-m1-cP 3j9r-a1-m1-cK_3j9r-a1-m1-cQ 3j9r-a1-m1-cL_3j9r-a1-m1-cR 3j9r-a1-m1-cM_3j9r-a1-m1-ca 3j9r-a1-m1-cN_3j9r-a1-m1-cb 3j9r-a1-m1-cO_3j9r-a1-m1-cc 3j9r-a1-m1-cP_3j9r-a1-m1-cd 3j9r-a1-m1-cQ_3j9r-a1-m1-ce 3j9r-a1-m1-cR_3j9r-a1-m1-cf 6u5j-a1-m1-ca_6u5j-a1-m1-cg 6u5j-a1-m1-cb_6u5j-a1-m1-ch 6u5j-a1-m1-cc_6u5j-a1-m1-ci 6u5j-a1-m1-cd_6u5j-a1-m1-cj 6u5j-a1-m1-ce_6u5j-a1-m1-ck 6u5j-a1-m1-cf_6u5j-a1-m1-cl 6u5j-a1-m1-cg_6u5j-a1-m1-cm 6u5j-a1-m1-ch_6u5j-a1-m1-cn 6u5j-a1-m1-ci_6u5j-a1-m1-co 6u5j-a1-m1-cj_6u5j-a1-m1-cp 6u5j-a1-m1-ck_6u5j-a1-m1-cq 6u5j-a1-m1-cl_6u5j-a1-m1-cr 6u5k-a1-m1-ca_6u5k-a1-m1-cg 6u5k-a1-m1-cb_6u5k-a1-m1-ch 6u5k-a1-m1-cc_6u5k-a1-m1-ci 6u5k-a1-m1-cd_6u5k-a1-m1-cj 6u5k-a1-m1-ce_6u5k-a1-m1-ck 6u5k-a1-m1-cf_6u5k-a1-m1-cl 6u5k-a1-m1-cg_6u5k-a1-m1-cm 6u5k-a1-m1-ch_6u5k-a1-m1-cn 6u5k-a1-m1-ci_6u5k-a1-m1-co 6u5k-a1-m1-cj_6u5k-a1-m1-cp 6u5k-a1-m1-ck_6u5k-a1-m1-cq 6u5k-a1-m1-cl_6u5k-a1-m1-cr 6u5k-a1-m1-cm_6u5k-a1-m1-cs 6u5k-a1-m1-cn_6u5k-a1-m1-ct 6u5k-a1-m1-co_6u5k-a1-m1-cu 6u5k-a1-m1-cp_6u5k-a1-m1-cv 6u5k-a1-m1-cq_6u5k-a1-m1-cw SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD 6u5k-a1-m1-cw_6u5k-a1-m1-cx CryoEM Structure of Pyocin R2 - postcontracted - baseplate G3XD39 G3XD39 3.5 ELECTRON MICROSCOPY 58 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 383 383 3j9r-a1-m1-c0_3j9r-a1-m1-c1 3j9r-a1-m1-c0_3j9r-a1-m1-c5 3j9r-a1-m1-c1_3j9r-a1-m1-c2 3j9r-a1-m1-c2_3j9r-a1-m1-c3 3j9r-a1-m1-c3_3j9r-a1-m1-c4 3j9r-a1-m1-c4_3j9r-a1-m1-c5 3j9r-a1-m1-ca_3j9r-a1-m1-cb 3j9r-a1-m1-cA_3j9r-a1-m1-cB 3j9r-a1-m1-ca_3j9r-a1-m1-cf 3j9r-a1-m1-cA_3j9r-a1-m1-cF 3j9r-a1-m1-cb_3j9r-a1-m1-cc 3j9r-a1-m1-cB_3j9r-a1-m1-cC 3j9r-a1-m1-cc_3j9r-a1-m1-cd 3j9r-a1-m1-cC_3j9r-a1-m1-cD 3j9r-a1-m1-cd_3j9r-a1-m1-ce 3j9r-a1-m1-cD_3j9r-a1-m1-cE 3j9r-a1-m1-ce_3j9r-a1-m1-cf 3j9r-a1-m1-cE_3j9r-a1-m1-cF 3j9r-a1-m1-cg_3j9r-a1-m1-ch 3j9r-a1-m1-cG_3j9r-a1-m1-cH 3j9r-a1-m1-cg_3j9r-a1-m1-cl 3j9r-a1-m1-cG_3j9r-a1-m1-cL 3j9r-a1-m1-ch_3j9r-a1-m1-ci 3j9r-a1-m1-cH_3j9r-a1-m1-cI 3j9r-a1-m1-ci_3j9r-a1-m1-cj 3j9r-a1-m1-cI_3j9r-a1-m1-cJ 3j9r-a1-m1-cj_3j9r-a1-m1-ck 3j9r-a1-m1-cJ_3j9r-a1-m1-cK 3j9r-a1-m1-ck_3j9r-a1-m1-cl 3j9r-a1-m1-cK_3j9r-a1-m1-cL 3j9r-a1-m1-cM_3j9r-a1-m1-cN 3j9r-a1-m1-cM_3j9r-a1-m1-cR 3j9r-a1-m1-cN_3j9r-a1-m1-cO 3j9r-a1-m1-cO_3j9r-a1-m1-cP 3j9r-a1-m1-cP_3j9r-a1-m1-cQ 3j9r-a1-m1-cQ_3j9r-a1-m1-cR 6u5j-a1-m1-ca_6u5j-a1-m1-cb 6u5j-a1-m1-ca_6u5j-a1-m1-cf 6u5j-a1-m1-cb_6u5j-a1-m1-cc 6u5j-a1-m1-cc_6u5j-a1-m1-cd 6u5j-a1-m1-cd_6u5j-a1-m1-ce 6u5j-a1-m1-ce_6u5j-a1-m1-cf 6u5j-a1-m1-cg_6u5j-a1-m1-ch 6u5j-a1-m1-cg_6u5j-a1-m1-cl 6u5j-a1-m1-ch_6u5j-a1-m1-ci 6u5j-a1-m1-ci_6u5j-a1-m1-cj 6u5j-a1-m1-cj_6u5j-a1-m1-ck 6u5j-a1-m1-ck_6u5j-a1-m1-cl 6u5j-a1-m1-cm_6u5j-a1-m1-cn 6u5j-a1-m1-cm_6u5j-a1-m1-cr 6u5j-a1-m1-cn_6u5j-a1-m1-co 6u5j-a1-m1-co_6u5j-a1-m1-cp 6u5j-a1-m1-cp_6u5j-a1-m1-cq 6u5j-a1-m1-cq_6u5j-a1-m1-cr 6u5k-a1-m1-ca_6u5k-a1-m1-cb 6u5k-a1-m1-ca_6u5k-a1-m1-cf 6u5k-a1-m1-cb_6u5k-a1-m1-cc 6u5k-a1-m1-cc_6u5k-a1-m1-cd 6u5k-a1-m1-cd_6u5k-a1-m1-ce 6u5k-a1-m1-ce_6u5k-a1-m1-cf 6u5k-a1-m1-cg_6u5k-a1-m1-ch 6u5k-a1-m1-cg_6u5k-a1-m1-cl 6u5k-a1-m1-ch_6u5k-a1-m1-ci 6u5k-a1-m1-ci_6u5k-a1-m1-cj 6u5k-a1-m1-cj_6u5k-a1-m1-ck 6u5k-a1-m1-ck_6u5k-a1-m1-cl 6u5k-a1-m1-cm_6u5k-a1-m1-cn 6u5k-a1-m1-cm_6u5k-a1-m1-cr 6u5k-a1-m1-cn_6u5k-a1-m1-co 6u5k-a1-m1-co_6u5k-a1-m1-cp 6u5k-a1-m1-cp_6u5k-a1-m1-cq 6u5k-a1-m1-cq_6u5k-a1-m1-cr 6u5k-a1-m1-cs_6u5k-a1-m1-ct 6u5k-a1-m1-cs_6u5k-a1-m1-cx 6u5k-a1-m1-ct_6u5k-a1-m1-cu 6u5k-a1-m1-cu_6u5k-a1-m1-cv 6u5k-a1-m1-cv_6u5k-a1-m1-cw SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD SFFHGVTVTNVDIGARTIALPASSVIGLCDVFTPGAQASAKPNVPVLLTSKKDAAAAFGIGSSIYLACEAIYNRAQAVIVAVGVETAETPEAQASAVIGGISAAGERTGLQALLDGKSRFNAQPRLLVAPGHSAQQAVATAMDGLAEKLRAIAILDGPNSTDEAAVAYAKNFGSKRLFMVDPGVQVWDSATNAARNAPASAYAAGLFAWTDAEYGFWSSPSNKEIKGVTGTSRPVEFLDGDETCRANLLNNANIATIIRDDGYRLWGNRTLSSDSKWAFVTRVRTMDLVMDAILAGHKWAVDRGITKTYVKDVTEGLRAFMRDLKNQGAVINFEVYADPDLNSASQLAQGKVYWNIRFTDVPPAENPNFRVEVTDQWLTEVLD 6u6p-a1-m1-cA_6u6p-a1-m1-cB Solution NMR Structure Of The Full Length Latent Form MinE Protein From Neisseria gonorrheae P58152 P58152 NOT SOLUTION NMR 77 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 81 81 2kxo-a1-m1-cA_2kxo-a1-m1-cB 6u6q-a1-m1-cA_6u6q-a1-m1-cB MSLIELLFGQMQKTATVARDRLQIIIAQERAQEGQTPDYLPTLRKALMEVLSKYVNVSLDNIRISQEKQDGMDVLELNITL MSLIELLFGQMQKTATVARDRLQIIIAQERAQEGQTPDYLPTLRKALMEVLSKYVNVSLDNIRISQEKQDGMDVLELNITL 6u6s-a1-m1-cA_6u6s-a1-m1-cB Solution NMR Structure Of The I24N-delta10-ngMinE Protein From Neisseria gonorrheae P58152 P58152 NOT SOLUTION NMR 52 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 44 44 6u6r-a1-m1-cA_6u6r-a1-m1-cB DYLPTLRKELMEVLSKYVNVSLDNIRISQEKQDGMDVLELNITL DYLPTLRKELMEVLSKYVNVSLDNIRISQEKQDGMDVLELNITL 6u6t-a1-m1-cA_6u6t-a1-m1-cB Neuronal growth regulator 1 (NEGR1) Q7Z3B1 Q7Z3B1 3.01 X-RAY DIFFRACTION 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 268 271 DNMMVRKGDTAVLRCYLEDGASKGAWLNRSSIIFAGGDKWSVDPRVSISTLNKRDYSLQIQNVDVTDDGPYTCSVQTQHTPRTMQVHLTVQVPPKIYDISNDMTVNEGTNVTLTCLATGKPEPSISWRHISPSAKPFENGQYLDIYGITRDQAGEYECSAENDVSFPDVRKVKVVVNFAPTIQEIKSGTVTPGRSGLIRCEGAGVPPPAFEWYKGEKKLFNGQQGIIIQNFSTRSILTVTNVTQEHFGNYTCVAANKLGTTNASLPLN AAVDNMMVRKGDTAVLRCYLEDGASKGAWLNRSSIIFAGGDKWSVDPRVSISTLNKRDYSLQIQNVDVTDDGPYTCSVQTQHTPRTMQVHLTVQVPPKIYDISNDMTVNEGTNVTLTCLATGKPEPSISWRHISPSAKPFENGQYLDIYGITRDQAGEYECSAENDVSFPDVRKVKVVVNFAPTIQEIKSGTVTPGRSGLIRCEGAGVPPPAFEWYKGEKKLFNGQQGIIIQNFSTRSILTVTNVTQEHFGNYTCVAANKLGTTNASLPLN 6u78-a1-m1-cC_6u78-a1-m1-cA Rv3722c in complex with glutamic acid O69689 O69689 2.6 X-RAY DIFFRACTION 160 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 417 419 5c6u-a1-m1-cA_5c6u-a1-m2-cA 6u78-a2-m1-cD_6u78-a2-m1-cB 6u7a-a1-m1-cA_6u7a-a1-m1-cB 6u7a-a4-m1-cF_6u7a-a4-m1-cG PQELAALHARHQQDYAALQGMKLALDLTRGKPSAEQLDLSNQLLSLPGDDYRDPEGTDTRNYGGQHGLPGLRAIFAELLGIAVPNLIAGNNSSLELMHDIVAFSMLYGGVDSPRPWIQEQDGIKFLCPVPGYDRHFAITETMGIEMIPIPMLQDGPDVDLIEELVAVDPAIKGMWTVPVFGNPSGVTYSWETVRRLVQMRTAAPDFRLFWDNAYAVHTLTLDFPRQVDVLGLAAKAGNPNRPYVFASTSKITFAGGGVSFFGGSLGNIAWYLQYAGKKSIGPDKVNQLRHLRFFGDADGVRLHMLRHQQILAPKFALVAEVLDQRLSESKIASWTEPKGGYFISLDVLPGTARRTVALAKDVGIAVTEAGASFPYRKDPDDKNIRIAPSFPSVPDLRNAVDGLATCALLAATETLLN SPQELAALHARHQQDYAALQGMKLALDLTRGKPSAEQLDLSNQLLSLPGDDYRDPEGTDTRNYGGQHGLPGLRAIFAELLGIAVPNLIAGNNSSLELMHDIVAFSMLYGGVDSPRPWIQEQDGIKFLCPVPGYDRHFAITETMGIEMIPIPMLQDGPDVDLIEELVAVDPAIKGMWTVPVFGNPSGVTYSWETVRRLVQMRTAAPDFRLFWDNAYAVHTLTLDFPRQVDVLGLAAKAGNPNRPYVFASTSKITFAGGGVSFFGGSLGNIAWYLQYAGKKSIGPDKVNQLRHLRFFGDADGVRLHMLRHQQILAPKFALVAEVLDQRLSESKIASWTEPKGGYFISLDVLPGTARRTVALAKDVGIAVTEAGASFPYRKDPDDKNIRIAPSFPSVPDLRNAVDGLATCALLAATETLLNQ 6u7a-a3-m1-cH_6u7a-a3-m1-cE Rv3722c in complex with kynurenine O69689 O69689 2.22 X-RAY DIFFRACTION 11 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 416 423 PQELAALHARHQQDYAALQGMKLALDLTRGKPSAEQLDLSNQLLSLPGDDYRDPEGTDTRNYGGQHGLPGLRAIFAELLGIAVPNLIAGNNSSLELMHDIVAFSMLYGGVDSPRPWIQEQDGIKFLCPVPGYDRHFAITETMGIEMIPIPMLQDGPDVDLIEELVAVDPAIKGMWTVPVFGNPSGVTYSWETVRRLVQMRTAAPDFRLFWDNAYAVHTLTLDFPRQVDVLGLAAKAGNPNRPYVFASTSKITFAGGGVSFFGGSLGNIAWYLQYAGKKSIGPDKVNQLRHLRFFGDADGVRLHMLRHQQILAPKFALVAEVLDQRLSESKIASWTEPKGGYFISLDVLPGTARRTVALAKDVGIAVTEAGASFPYRKDPDDKNIRIAPSFPSVPDLRNAVDGLATCALLAATETLL SFDSLSPQELAALHARHQQDYAALQGMKLALDLTRGKPSAEQLDLSNQLLSLPGDDYRDPEGTDTRNYGGQHGLPGLRAIFAELLGIAVPNLIAGNNSSLELMHDIVAFSMLYGGVDSPRPWIQEQDGIKFLCPVPGYDRHFAITETMGIEMIPIPMLQDGPDVDLIEELVAVDPAIKGMWTVPVFGNPSGVTYSWETVRRLVQMRTAAPDFRLFWDNAYAVHTLTLDFPRQVDVLGLAAKAGNPNRPYVFASTSKITFAGGGVSFFGGSLGNIAWYLQYAGKKSIGPDKVNQLRHLRFFGDADGVRLHMLRHQQILAPKFALVAEVLDQRLSESKIASWTEPKGGYFISLDVLPGTARRTVALAKDVGIAVTEAGASFPYRKDPDDKNIRIAPSFPSVPDLRNAVDGLATCALLAATETLLN 6u7b-a1-m1-cD_6u7b-a1-m1-cB Structure of E. coli MS115-1 CdnC:HORMA-deltaN complex D7Y2H3 D7Y2H3 2.09 X-RAY DIFFRACTION 136 1.0 562 (Escherichia coli) 562 (Escherichia coli) 175 176 HHHHHHENLYFQSNATFSVTHARHMAAKVATDLRRMQRFYGYPSDADIEAYEEELVVFLKAGYLGEVSYGFQKNNNWIEPTLRYTAGDLLGSGTDDDPGKIRPGKDVSGASFYSFMTYSSKYLNATQSEKDTALKDLPFKRVGAQSPGINGYLENDKTYSAGGRSLTRTSVRNFV SHHHHHHENLYFQSNATFSVTHARHMAAKVATDLRRMQRFYGYPSDADIEAYEEELVVFLKAGYLGEVSYGFQKNNNWIEPTLRYTAGDLLGSGTDDDPGKIRPGKDVSGASFYSFMTYSSKYLNATQSEKDTALKDLPFKRVGAQSPGINGYLENDKTYSAGGRSLTRTSVRNFV 6u7i-a1-m1-cA_6u7i-a1-m1-cD Faecalibacterium prausnitzii Beta-glucuronidase A0A3F3JX71 A0A3F3JX71 2.7 X-RAY DIFFRACTION 36 1.0 853 (Faecalibacterium prausnitzii) 853 (Faecalibacterium prausnitzii) 595 596 6u7i-a1-m1-cB_6u7i-a1-m1-cC LYPEQNEARLKLSLDGTWAFALGSCAETQFDPAKPLPDAQPIAVPASYNDQNDQTTALRRHYGWVWYQRKVTLPAFCAGQRVVLRFGSVTHTAKVWLNGQLIAQHKGGFTPFEADVTALLQPGETALLTVACDNRVNHSTLPVGNEDGQLAFFGSDNAGIPSVEAAKRAAAPQNRPNFDFFNYAGIHRPVVLYTTPKEYIEDVTIVPAVDGTVQYAVKTTGSAPVRVTVLDADGNAVASAESAEGTITIPEVHLWEPRPGTPYLYTLHATCGADVYDQTFGVRSIEVRGTQVLLNGKPLYFKGFCKHEDFTAHGRGFDPVLNVKDVNLIHWANANAVRTSHYPYAEEFYDLCDREGILVMDETPAVGIGGGAAVNPYKEYPLAEHHRQVLAEMIHRDKNHPCVVLWSLGNEPNLEHFPQDAYDYWHPLYELAHQLDPQDRPVTLVCCQNDYTKDITTRTMDIVCINRYYGWYNLSGDMDAACYGLNQELDFWAEQHKPVMMSEYGADTVAGLHTAGAEMFSEEFQVEFYRRLDAEFDKRPWFVGEFVWNFADYDTVQGPMRVDGNKKGLFTRDRRPKLGMHFLRQRWAEIPTFGF LYPEQNEARLKLSLDGTWAFALGSCAETQFDPAKPLPDAQPIAVPASYNDQNDQTTALRRHYGWVWYQRKVTLPAFCAGQRVVLRFGSVTHTAKVWLNGQLIAQHKGGFTPFEADVTALLQPGETALLTVACDNRVNHSTLPVGNEDGQLAFFGSDNAGIPSVEAAKRAAAPQNRPNFDFFNYAGIHRPVVLYTTPKEYIEDVTIVPAVDGTVQYAVKTTGSAPVRVTVLDADGNAVASAESAEGTITIPEVHLWEPRPGTPYLYTLHATCGADVYDQTFGVRSIEVRGTQVLLNGKPLYFKGFCKHEDFTAHGRGFDPVLNVKDVNLIHWANANAVRTSHYPYAEEFYDLCDREGILVMDETPAVGIGGGAAVNPYKEYPLAEHHRQVLAEMIHRDKNHPCVVLWSLGNEPNLEHFPQDAYDYWHPLYELAHQLDPQDRPVTLVCCQNDYTKDITTRTMDIVCINRYYGWYNLSGDMDAACYGLNQELDFWAEQHKPVMMSEYGADTVAGLHTAGAEMFSEEFQVEFYRRLDAEFDKRPWFVGEFVWNFADYDTVQGPMRVDGNKKGLFTRDRRPKLGMHFLRQRWAEIPTFGFK 6u7i-a1-m1-cB_6u7i-a1-m1-cD Faecalibacterium prausnitzii Beta-glucuronidase A0A3F3JX71 A0A3F3JX71 2.7 X-RAY DIFFRACTION 171 1.0 853 (Faecalibacterium prausnitzii) 853 (Faecalibacterium prausnitzii) 596 596 6u7i-a1-m1-cA_6u7i-a1-m1-cC LYPEQNEARLKLSLDGTWAFALGSCAETQFDPAKPLPDAQPIAVPASYNDQNDQTTALRRHYGWVWYQRKVTLPAFCAGQRVVLRFGSVTHTAKVWLNGQLIAQHKGGFTPFEADVTALLQPGETALLTVACDNRVNHSTLPVGNEDGQLAFFGSDNAGIPSVEAAKRAAAPQNRPNFDFFNYAGIHRPVVLYTTPKEYIEDVTIVPAVDGTVQYAVKTTGSAPVRVTVLDADGNAVASAESAEGTITIPEVHLWEPRPGTPYLYTLHATCGADVYDQTFGVRSIEVRGTQVLLNGKPLYFKGFCKHEDFTAHGRGFDPVLNVKDVNLIHWANANAVRTSHYPYAEEFYDLCDREGILVMDETPAVGIGGGAAVNPYKEYPLAEHHRQVLAEMIHRDKNHPCVVLWSLGNEPNLEHFPQDAYDYWHPLYELAHQLDPQDRPVTLVCCQNDYTKDITTRTMDIVCINRYYGWYNLSGDMDAACYGLNQELDFWAEQHKPVMMSEYGADTVAGLHTAGAEMFSEEFQVEFYRRLDAEFDKRPWFVGEFVWNFADYDTVQGPMRVDGNKKGLFTRDRRPKLGMHFLRQRWAEIPTFGFK LYPEQNEARLKLSLDGTWAFALGSCAETQFDPAKPLPDAQPIAVPASYNDQNDQTTALRRHYGWVWYQRKVTLPAFCAGQRVVLRFGSVTHTAKVWLNGQLIAQHKGGFTPFEADVTALLQPGETALLTVACDNRVNHSTLPVGNEDGQLAFFGSDNAGIPSVEAAKRAAAPQNRPNFDFFNYAGIHRPVVLYTTPKEYIEDVTIVPAVDGTVQYAVKTTGSAPVRVTVLDADGNAVASAESAEGTITIPEVHLWEPRPGTPYLYTLHATCGADVYDQTFGVRSIEVRGTQVLLNGKPLYFKGFCKHEDFTAHGRGFDPVLNVKDVNLIHWANANAVRTSHYPYAEEFYDLCDREGILVMDETPAVGIGGGAAVNPYKEYPLAEHHRQVLAEMIHRDKNHPCVVLWSLGNEPNLEHFPQDAYDYWHPLYELAHQLDPQDRPVTLVCCQNDYTKDITTRTMDIVCINRYYGWYNLSGDMDAACYGLNQELDFWAEQHKPVMMSEYGADTVAGLHTAGAEMFSEEFQVEFYRRLDAEFDKRPWFVGEFVWNFADYDTVQGPMRVDGNKKGLFTRDRRPKLGMHFLRQRWAEIPTFGFK 6u7i-a1-m1-cD_6u7i-a1-m1-cC Faecalibacterium prausnitzii Beta-glucuronidase A0A3F3JX71 A0A3F3JX71 2.7 X-RAY DIFFRACTION 145 1.0 853 (Faecalibacterium prausnitzii) 853 (Faecalibacterium prausnitzii) 596 597 6u7i-a1-m1-cA_6u7i-a1-m1-cB LYPEQNEARLKLSLDGTWAFALGSCAETQFDPAKPLPDAQPIAVPASYNDQNDQTTALRRHYGWVWYQRKVTLPAFCAGQRVVLRFGSVTHTAKVWLNGQLIAQHKGGFTPFEADVTALLQPGETALLTVACDNRVNHSTLPVGNEDGQLAFFGSDNAGIPSVEAAKRAAAPQNRPNFDFFNYAGIHRPVVLYTTPKEYIEDVTIVPAVDGTVQYAVKTTGSAPVRVTVLDADGNAVASAESAEGTITIPEVHLWEPRPGTPYLYTLHATCGADVYDQTFGVRSIEVRGTQVLLNGKPLYFKGFCKHEDFTAHGRGFDPVLNVKDVNLIHWANANAVRTSHYPYAEEFYDLCDREGILVMDETPAVGIGGGAAVNPYKEYPLAEHHRQVLAEMIHRDKNHPCVVLWSLGNEPNLEHFPQDAYDYWHPLYELAHQLDPQDRPVTLVCCQNDYTKDITTRTMDIVCINRYYGWYNLSGDMDAACYGLNQELDFWAEQHKPVMMSEYGADTVAGLHTAGAEMFSEEFQVEFYRRLDAEFDKRPWFVGEFVWNFADYDTVQGPMRVDGNKKGLFTRDRRPKLGMHFLRQRWAEIPTFGFK MLYPEQNEARLKLSLDGTWAFALGSCAETQFDPAKPLPDAQPIAVPASYNDQNDQTTALRRHYGWVWYQRKVTLPAFCAGQRVVLRFGSVTHTAKVWLNGQLIAQHKGGFTPFEADVTALLQPGETALLTVACDNRVNHSTLPVGNEDGQLAFFGSDNAGIPSVEAAKRAAAPQNRPNFDFFNYAGIHRPVVLYTTPKEYIEDVTIVPAVDGTVQYAVKTTGSAPVRVTVLDADGNAVASAESAEGTITIPEVHLWEPRPGTPYLYTLHATCGADVYDQTFGVRSIEVRGTQVLLNGKPLYFKGFCKHEDFTAHGRGFDPVLNVKDVNLIHWANANAVRTSHYPYAEEFYDLCDREGILVMDETPAVGIGGGAAVNPYKEYPLAEHHRQVLAEMIHRDKNHPCVVLWSLGNEPNLEHFPQDAYDYWHPLYELAHQLDPQDRPVTLVCCQNDYTKDITTRTMDIVCINRYYGWYNLSGDMDAACYGLNQELDFWAEQHKPVMMSEYGADTVAGLHTAGAEMFSEEFQVEFYRRLDAEFDKRPWFVGEFVWNFADYDTVQGPMRVDGNKKGLFTRDRRPKLGMHFLRQRWAEIPTFGFK 6u7j-a1-m1-cA_6u7j-a1-m1-cD Uncultured Clostridium sp. Beta-glucuronidase A0A1C5YG41 A0A1C5YG41 2.2 X-RAY DIFFRACTION 31 1.0 59620 (uncultured Clostridium sp.) 59620 (uncultured Clostridium sp.) 569 569 6u7j-a1-m1-cC_6u7j-a1-m1-cB DMLFPVDNEARQIKELNGIWKFKRDNYYKQGFEEKWFEKPLEDVIDMPVPSSYNDITTDQELRDHVGWVWYERKFAVPRLWKDQRLVLRFGSVTHHAVIYLNGKEITRHKGGFLPFEADVTEMANEGENRLTVAVGNILEWDCLPVGHIEYMEQKFDFDFFNYSGIHRPVRLYCTPKEYIEDISVRTTVDDKDGMVHYEIKTNAEEKFIKVYIRDEKNQVVAESNEMKDMVLVKDAQLWQPGSAYLYKLDIYFGQDHYTLPFGIRTIQLTEKQFLINGKPFYFKGFGKHEDSDIRGKGLDEALNVRDCELLKWIGANSFRTSHYPYAEEMMQMADQKGIVVIDEVPAVGMNFGIFTEDKVNEKTLAYHKQVLKELYQRDKNHPCVVMWSITNEPHSSEEASRNYFEEVTKYIRKLDSERPITGTMNVDVEEDKISQFFDVVCINRYFGWYVGAGKIERIYPSLKTDLIKWHEKYGKPVIVTEYGADTIAGLHKLPEVIFSEEYQKRCIEENNKAMDECDFVIGEHIWAFADFMTAFGLKRVDGNKKGIFTRERQPKTAAFAIRERWRKM DMLFPVDNEARQIKELNGIWKFKRDNYYKQGFEEKWFEKPLEDVIDMPVPSSYNDITTDQELRDHVGWVWYERKFAVPRLWKDQRLVLRFGSVTHHAVIYLNGKEITRHKGGFLPFEADVTEMANEGENRLTVAVGNILEWDCLPVGHIEYMEQKFDFDFFNYSGIHRPVRLYCTPKEYIEDISVRTTVDDKDGMVHYEIKTNAEEKFIKVYIRDEKNQVVAESNEMKDMVLVKDAQLWQPGSAYLYKLDIYFGQDHYTLPFGIRTIQLTEKQFLINGKPFYFKGFGKHEDSDIRGKGLDEALNVRDCELLKWIGANSFRTSHYPYAEEMMQMADQKGIVVIDEVPAVGMNFGIFTEDKVNEKTLAYHKQVLKELYQRDKNHPCVVMWSITNEPHSSEEASRNYFEEVTKYIRKLDSERPITGTMNVDVEEDKISQFFDVVCINRYFGWYVGAGKIERIYPSLKTDLIKWHEKYGKPVIVTEYGADTIAGLHKLPEVIFSEEYQKRCIEENNKAMDECDFVIGEHIWAFADFMTAFGLKRVDGNKKGIFTRERQPKTAAFAIRERWRKM 6u7j-a1-m1-cC_6u7j-a1-m1-cD Uncultured Clostridium sp. Beta-glucuronidase A0A1C5YG41 A0A1C5YG41 2.2 X-RAY DIFFRACTION 59 1.0 59620 (uncultured Clostridium sp.) 59620 (uncultured Clostridium sp.) 569 569 6u7j-a1-m1-cA_6u7j-a1-m1-cB DMLFPVDNEARQIKELNGIWKFKRDNYYKQGFEEKWFEKPLEDVIDMPVPSSYNDITTDQELRDHVGWVWYERKFAVPRLWKDQRLVLRFGSVTHHAVIYLNGKEITRHKGGFLPFEADVTEMANEGENRLTVAVGNILEWDCLPVGHIEYMEQKFDFDFFNYSGIHRPVRLYCTPKEYIEDISVRTTVDDKDGMVHYEIKTNAEEKFIKVYIRDEKNQVVAESNEMKDMVLVKDAQLWQPGSAYLYKLDIYFGQDHYTLPFGIRTIQLTEKQFLINGKPFYFKGFGKHEDSDIRGKGLDEALNVRDCELLKWIGANSFRTSHYPYAEEMMQMADQKGIVVIDEVPAVGMNFGIFTEDKVNEKTLAYHKQVLKELYQRDKNHPCVVMWSITNEPHSSEEASRNYFEEVTKYIRKLDSERPITGTMNVDVEEDKISQFFDVVCINRYFGWYVGAGKIERIYPSLKTDLIKWHEKYGKPVIVTEYGADTIAGLHKLPEVIFSEEYQKRCIEENNKAMDECDFVIGEHIWAFADFMTAFGLKRVDGNKKGIFTRERQPKTAAFAIRERWRKM DMLFPVDNEARQIKELNGIWKFKRDNYYKQGFEEKWFEKPLEDVIDMPVPSSYNDITTDQELRDHVGWVWYERKFAVPRLWKDQRLVLRFGSVTHHAVIYLNGKEITRHKGGFLPFEADVTEMANEGENRLTVAVGNILEWDCLPVGHIEYMEQKFDFDFFNYSGIHRPVRLYCTPKEYIEDISVRTTVDDKDGMVHYEIKTNAEEKFIKVYIRDEKNQVVAESNEMKDMVLVKDAQLWQPGSAYLYKLDIYFGQDHYTLPFGIRTIQLTEKQFLINGKPFYFKGFGKHEDSDIRGKGLDEALNVRDCELLKWIGANSFRTSHYPYAEEMMQMADQKGIVVIDEVPAVGMNFGIFTEDKVNEKTLAYHKQVLKELYQRDKNHPCVVMWSITNEPHSSEEASRNYFEEVTKYIRKLDSERPITGTMNVDVEEDKISQFFDVVCINRYFGWYVGAGKIERIYPSLKTDLIKWHEKYGKPVIVTEYGADTIAGLHKLPEVIFSEEYQKRCIEENNKAMDECDFVIGEHIWAFADFMTAFGLKRVDGNKKGIFTRERQPKTAAFAIRERWRKM 6u7j-a1-m1-cD_6u7j-a1-m1-cB Uncultured Clostridium sp. Beta-glucuronidase A0A1C5YG41 A0A1C5YG41 2.2 X-RAY DIFFRACTION 126 1.0 59620 (uncultured Clostridium sp.) 59620 (uncultured Clostridium sp.) 569 570 6u7j-a1-m1-cA_6u7j-a1-m1-cC DMLFPVDNEARQIKELNGIWKFKRDNYYKQGFEEKWFEKPLEDVIDMPVPSSYNDITTDQELRDHVGWVWYERKFAVPRLWKDQRLVLRFGSVTHHAVIYLNGKEITRHKGGFLPFEADVTEMANEGENRLTVAVGNILEWDCLPVGHIEYMEQKFDFDFFNYSGIHRPVRLYCTPKEYIEDISVRTTVDDKDGMVHYEIKTNAEEKFIKVYIRDEKNQVVAESNEMKDMVLVKDAQLWQPGSAYLYKLDIYFGQDHYTLPFGIRTIQLTEKQFLINGKPFYFKGFGKHEDSDIRGKGLDEALNVRDCELLKWIGANSFRTSHYPYAEEMMQMADQKGIVVIDEVPAVGMNFGIFTEDKVNEKTLAYHKQVLKELYQRDKNHPCVVMWSITNEPHSSEEASRNYFEEVTKYIRKLDSERPITGTMNVDVEEDKISQFFDVVCINRYFGWYVGAGKIERIYPSLKTDLIKWHEKYGKPVIVTEYGADTIAGLHKLPEVIFSEEYQKRCIEENNKAMDECDFVIGEHIWAFADFMTAFGLKRVDGNKKGIFTRERQPKTAAFAIRERWRKM FDMLFPVDNEARQIKELNGIWKFKRDNYYKQGFEEKWFEKPLEDVIDMPVPSSYNDITTDQELRDHVGWVWYERKFAVPRLWKDQRLVLRFGSVTHHAVIYLNGKEITRHKGGFLPFEADVTEMANEGENRLTVAVGNILEWDCLPVGHIEYMEQKFDFDFFNYSGIHRPVRLYCTPKEYIEDISVRTTVDDKDGMVHYEIKTNAEEKFIKVYIRDEKNQVVAESNEMKDMVLVKDAQLWQPGSAYLYKLDIYFGQDHYTLPFGIRTIQLTEKQFLINGKPFYFKGFGKHEDSDIRGKGLDEALNVRDCELLKWIGANSFRTSHYPYAEEMMQMADQKGIVVIDEVPAVGMNFGIFTEDKVNEKTLAYHKQVLKELYQRDKNHPCVVMWSITNEPHSSEEASRNYFEEVTKYIRKLDSERPITGTMNVDVEEDKISQFFDVVCINRYFGWYVGAGKIERIYPSLKTDLIKWHEKYGKPVIVTEYGADTIAGLHKLPEVIFSEEYQKRCIEENNKAMDECDFVIGEHIWAFADFMTAFGLKRVDGNKKGIFTRERQPKTAAFAIRERWRKM 6u7l-a2-m1-cD_6u7l-a2-m1-cC 2.75 Angstrom Crystal Structure of Galactarate Dehydratase from Escherichia coli. P39829 P39829 2.75 X-RAY DIFFRACTION 113 0.991 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 443 444 6u7l-a1-m1-cB_6u7l-a1-m1-cA TAFYIKVHDTDNVAIIVNDNGLKAGTRFPDGLELIEHIPQGHKVALLDIPANGEIIRYGEVIGYAVRAIPRGSWIDESVVLPEAPPLHTLPLATKVPEPLPPLEGYTFEGYRNADGSVGTKNLLGITTSVHCVAGVVDYVVKIIERDLLPKYPNVDGVVGLNHLYAPAAVVPIRTIHNISLNPNFGGEVVIGLGHVGFQSVEDILQIAERHLQKLNQRQRETCPASELVVGQCGGSDAFSGVTANPAVGYASDLLVRCGATVFSEVTEVRDAIHLLTPRAVNEEVGKRLLEEEWYDNYLNNVVEKALGSIAKSGKSAIVEVLSPGQRPTKRGLIYAATPASDFVCGTQQVASGITVQVFTTGRGTPYGLAVPVIKATRTELANRWFDLDINAGTIATGEETIEEVGWKLFHFILDVASGKKKTFSDQWGLHNQLAVFNPAPVT TPTAFYIKVHDTDNVAIIVNDNGLKAGTRFPDGLELIEHIPQGHKVALLDIPANGEIIRYGEVIGYAVRAIPRGSWIDESVVLPEAPPLHTLPLATKVPEPLPPLEGYTFEGYRNADGSVGTKNLLGITTSVHCVAGVVDYVVKIIERDLLPKYPNVDGVVGLNHLPAAVVPIRTIHNISLNPNFGGEVVIGEKHVGFQSVEDILQIAERHLQKLNQRQRETCPASELVVGQCGGSDAFSGVTANPAVGYASDLLVRCGATVFSEVTEVRDAIHLLTPRAVNEEVGKRLLEEEWYDNYLNANVVEKALGSIAKSGKSAIVEVLSPGQRPTKRGLIYAATPASDFVCGTQQVASGITVQVFTTGRGTPYGLAVPVIKATRTELANRWFDLDINAGTIATGEETIEEVGWKLFHFILDVASGKKKTFSDQWGLHNQLAVFNPAPVT 6u7n-a1-m1-cA_6u7n-a1-m2-cA Crystal structure of neurotrimin (NTM) Q9P121 Q9P121 3.321 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 256 256 DNVTVRQGESATLRCTIDNRVTRVAWLNRSTILYAGNDKWCLDPRVVLLSNTQTQYSIEIQNVDVYDEGPYTCSVQTDNHPKTSRVHLIVQVSPKIVEISSDISINEGNNISLTCIATGRPEPTVTWRHISPKAVGFVSEDEYLEIQGITREQSGDYECSASNDVAAPVVRRVKVTVNYPPYISEAKGTLQCEASAVPSAEFQWYKDDKRLIEGKVENRPFLSKLIFFNVSEHDYGNYTCVASNKLGHTNASIMLF DNVTVRQGESATLRCTIDNRVTRVAWLNRSTILYAGNDKWCLDPRVVLLSNTQTQYSIEIQNVDVYDEGPYTCSVQTDNHPKTSRVHLIVQVSPKIVEISSDISINEGNNISLTCIATGRPEPTVTWRHISPKAVGFVSEDEYLEIQGITREQSGDYECSASNDVAAPVVRRVKVTVNYPPYISEAKGTLQCEASAVPSAEFQWYKDDKRLIEGKVENRPFLSKLIFFNVSEHDYGNYTCVASNKLGHTNASIMLF 6u8c-a1-m1-cL_6u8c-a1-m1-cC Crystal structure of an engineered ultra-high affinity Fab-Protein G complex 2.61 X-RAY DIFFRACTION 88 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 202 203 7rth-a3-m1-cI_7rth-a3-m1-cG TQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGGTDFTLTISSLQPEDFATYYCQQALLTFGQGTKVEIKRTVAAPSVFIFPPSDLRTGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC SPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASSLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQALLTFGQGTKVEIKRTVAAPSVFIFPPSDLRTGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 6u8g-a1-m2-cC_6u8g-a1-m1-cA BRD4-BD2 in complex with the cyclic peptide 3.1_2_AcK7toA O60885 O60885 2.6 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 126 6u72-a1-m1-cB_6u72-a1-m2-cA 6u74-a1-m2-cC_6u74-a1-m1-cA 6u74-a2-m1-cD_6u74-a2-m3-cB 6u8g-a2-m3-cD_6u8g-a2-m1-cB TNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTE STNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTE 6u8m-a1-m1-cB_6u8m-a1-m1-cA BRD4-BD1 in complex with the cyclic peptide 3.2_1 O60885 O60885 1.95 X-RAY DIFFRACTION 14 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 110 125 RQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTE STNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPT 6u8t-a2-m1-cD_6u8t-a2-m1-cC Crystal structure of YopT domain of Pasteurella Multocida PfhB2-toxin Q9CPH9 Q9CPH9 2.39 X-RAY DIFFRACTION 426 0.995 272843 (Pasteurella multocida subsp. multocida str. Pm70) 272843 (Pasteurella multocida subsp. multocida str. Pm70) 200 215 6u8t-a1-m1-cA_6u8t-a1-m1-cB ASVAEYGGEVSFKYAQSKGEVYKEIVKHVDTQHGVSESTCAHWIANKVHLKQEAIDSIKKLQTEFQSGSATQQFKLTDNWLQEQGVVPKEKKVGDLSRRDEVAGTVSKSDISALTKAILDTGSDTAGAKKISINLEGGSHTVSALVQGEKVVFFDPNFGETFPSHQKFESWLKEAFWEKSGYAGKKEGKRFFNVVNYHAE SASVAEYGGEVSFKYAQSKGEVYKEIVKHVDTQHGVSESTCAHWIANKVSSQDFWNTYEGGKKGHLKQEAIDSIKKLQTEFQSGSATQQFKLTDNWLQEQGVVPKEKKVGDLSRRDEVAGTVSKSDISALTKAILDTGSDTAGAKKISINLEGGSHTVSALVQGEKVVFFDPNFGETFPSHQKFESWLKEAFWEKSGYAGKKEGKRFFNVVNYHA 6u9e-a1-m1-cC_6u9e-a1-m1-cE Structure of PdpA-VgrG Complex, Lidless Q7X3I9 Q7X3I9 4.21 ELECTRON MICROSCOPY 219 1.0 264 (Francisella tularensis subsp. novicida) 264 (Francisella tularensis subsp. novicida) 583 583 6u9e-a1-m1-cA_6u9e-a1-m1-cC 6u9e-a1-m1-cA_6u9e-a1-m1-cE 6u9f-a1-m1-cA_6u9f-a1-m1-cC 6u9f-a1-m1-cA_6u9f-a1-m1-cE 6u9f-a1-m1-cC_6u9f-a1-m1-cE 6u9g-a1-m1-cA_6u9g-a1-m1-cC 6u9g-a1-m1-cA_6u9g-a1-m1-cE 6u9g-a1-m1-cC_6u9g-a1-m1-cE GYNNVLQKQEITINIKPINKNFELEDIHNSLTLKNPHIEKLEVCENIYGINGWLTFDLAYINNHKDFNFLLSPNQPILLDIQINDSFHHKRTTRFIAIGFNSNSIDIHENGVKKFKIQFHDPLKALWTKHKPSYIALNKSLDDIFKDNFFFDSLFSLDTNKSNNLKIRIPQAFISTVNRNFYDFFIQQLEQNKCYLKYFCDKKSGKVSYHVVDQVDNDLQRNIVNSDEDLKDKLSPYDISCFKKQILISNKSNFYVKEKNICPDVTLNTQRKEDRKISDTLVKPFSSILKDNLQSVEYIQSNNDDKQEIITTGFEILLTSRNTLPFLDTEITLSKLDNDQNYLLGATDIKSLYISQRKLLFKRSKYCSKQLYENHDNSITYKIKDYSNLTPEYPKYKSFSNFYINGRITIGENVNNDSKKAYKFFKNHKPEESSIAEFQENGEKGTSAILNSKADILYAIEIAKEMLSDKSSDKPIIYLPLKVNINSANNQFIPLRNDDIILIEIQSFTKGEIIELISNSAISTKKAQQQLLQRQLLGSKENCEMAYTQTSDSETFSLTQVNEDCENSFLINDKKGIFLRYKS GYNNVLQKQEITINIKPINKNFELEDIHNSLTLKNPHIEKLEVCENIYGINGWLTFDLAYINNHKDFNFLLSPNQPILLDIQINDSFHHKRTTRFIAIGFNSNSIDIHENGVKKFKIQFHDPLKALWTKHKPSYIALNKSLDDIFKDNFFFDSLFSLDTNKSNNLKIRIPQAFISTVNRNFYDFFIQQLEQNKCYLKYFCDKKSGKVSYHVVDQVDNDLQRNIVNSDEDLKDKLSPYDISCFKKQILISNKSNFYVKEKNICPDVTLNTQRKEDRKISDTLVKPFSSILKDNLQSVEYIQSNNDDKQEIITTGFEILLTSRNTLPFLDTEITLSKLDNDQNYLLGATDIKSLYISQRKLLFKRSKYCSKQLYENHDNSITYKIKDYSNLTPEYPKYKSFSNFYINGRITIGENVNNDSKKAYKFFKNHKPEESSIAEFQENGEKGTSAILNSKADILYAIEIAKEMLSDKSSDKPIIYLPLKVNINSANNQFIPLRNDDIILIEIQSFTKGEIIELISNSAISTKKAQQQLLQRQLLGSKENCEMAYTQTSDSETFSLTQVNEDCENSFLINDKKGIFLRYKS 6u9g-a1-m1-cD_6u9g-a1-m1-cF Structure of Francisella PdpA-VgrG Complex, half-lidded A0Q7H3 A0Q7H3 3.98 ELECTRON MICROSCOPY 249 1.0 401614 (Francisella tularensis subsp. novicida U112) 401614 (Francisella tularensis subsp. novicida U112) 133 133 6u9e-a1-m1-cB_6u9e-a1-m1-cD 6u9e-a1-m1-cB_6u9e-a1-m1-cF 6u9e-a1-m1-cD_6u9e-a1-m1-cF 6u9f-a1-m1-cB_6u9f-a1-m1-cD 6u9f-a1-m1-cB_6u9f-a1-m1-cF 6u9f-a1-m1-cD_6u9f-a1-m1-cF 6u9g-a1-m1-cB_6u9g-a1-m1-cD 6u9g-a1-m1-cB_6u9g-a1-m1-cF KADHIFNLEEQGLLIDIKDDSKGCTTKLESSGKITHNATESIESSADKQIIENVKDSKISITEKEILLATKKSSIMLSEDKIVIKIGNSLIILDDSNISLESATINIKSSANINIQASQNIDIKSLNNSIKAD KADHIFNLEEQGLLIDIKDDSKGCTTKLESSGKITHNATESIESSADKQIIENVKDSKISITEKEILLATKKSSIMLSEDKIVIKIGNSLIILDDSNISLESATINIKSSANINIQASQNIDIKSLNNSIKAD 6u9h-a1-m1-cN_6u9h-a1-m1-cR Arabidopsis thaliana acetohydroxyacid synthase complex Q93YZ7 Q93YZ7 3.8 ELECTRON MICROSCOPY 16 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 155 155 6u9h-a1-m1-cF_6u9h-a1-m1-cJ 6u9h-a1-m1-cF_6u9h-a1-m1-cR 6u9h-a1-m1-cJ_6u9h-a1-m1-cN HTISVFVGDESGMINRIAGVFARRGYNIESLAVGLNRDKALFTIVVCGTERVLQQVIEQLQKLVNVLKVEDISSEPQVERELMLVKVNAHPESRAEIMWLVDTFRARVVDIAEHALTIEVTGDPGKMIAVERNLKKFQIREIVRTGKIALRREKM HTISVFVGDESGMINRIAGVFARRGYNIESLAVGLNRDKALFTIVVCGTERVLQQVIEQLQKLVNVLKVEDISSEPQVERELMLVKVNAHPESRAEIMWLVDTFRARVVDIAEHALTIEVTGDPGKMIAVERNLKKFQIREIVRTGKIALRREKM 6u9i-a1-m1-cB_6u9i-a1-m1-cA Crystal structure of BvnE pinacolase from Penicillium brevicompactum A0A5Q0MV05 A0A5Q0MV05 1.777 X-RAY DIFFRACTION 78 0.986 5074 (Penicillium brevicompactum) 5074 (Penicillium brevicompactum) 141 146 NLREQLIVSAHRWLSTMNDFTPDAMVSHRTEECVTRPAPRSLGFAPLNNGQLRTFFKTLTAQMKNFNLALMPGAVPIVDERLRKVVMHLASYAEAACGLYENEYMVVLTFNEEGTLLRDVIEFADSDYCVKFAERQAAAAE GASMTLNNLREQLIVSAHRWLSTMNDFTPDAMVSHRTEECVTRPAPRSLGFAPLNNGQLRTFFKTLTAQMKNFNLALMPGAVPIVDERLRKVVMHLASYAEAACGLYENEYMVVLTFNEEGTLLRDVIEFADSDYCVKFAERQAAA 6u9j-a1-m1-cC_6u9j-a1-m1-cA Crystal structure of ChuX Q8X5N5 Q8X5N5 1.5 X-RAY DIFFRACTION 84 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 159 160 2ovi-a1-m1-cD_2ovi-a1-m1-cA 2ovi-a2-m1-cC_2ovi-a2-m1-cB 6u9j-a2-m1-cB_6u9j-a2-m1-cD VSLQEFLKTEPDGTLEVVAEQYNTTLLEVVRNLPSSTVVPGDKFDTVWDTVCEWGNVTTLVHTADVILEFSGELPSGFHRHGYFNLRGKHGMSGHIKAENCTHIALIERKFMGMDTASILFFNKEGSAMLKIFLGRDDHRQLLSEQVSAFHTLAASLKE VSLQEFLKTEPDGTLEVVAEQYNTTLLEVVRNLPSSTVVPGDKFDTVWDTVCEWGNVTTLVHTADVILEFSGELPSGFHRHGYFNLRGKHGMSGHIKAENCTHIALIERKFMGMDTASILFFNKEGSAMLKIFLGRDDHRQLLSEQVSAFHTLAASLKEH 6u9w-a1-m1-cB_6u9w-a1-m1-cC Cryo electron microscopy structure of the ATP-gated rat P2X7 ion channel in the ATP-bound, open state Q64663 Q64663 3.3 ELECTRON MICROSCOPY 207 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 562 562 6u9v-a1-m1-cA_6u9v-a1-m1-cB 6u9v-a1-m1-cA_6u9v-a1-m1-cC 6u9v-a1-m1-cB_6u9v-a1-m1-cC 6u9w-a1-m1-cA_6u9w-a1-m1-cB 6u9w-a1-m1-cA_6u9w-a1-m1-cC CSWNDVFQYETNKVTRIQSVNYGTIKWILHMTVFSYVSFALMSDKLYQRKEPLISSVHTKVKGVAEVTENVTEGGVTKLVHGIFDTADYTLPLQGNSFFVMTNYLKSEGQEQKLCPEYPSRGKQCHSDQGCIKGWMDPQSKGIQTGRCIPYDQKRKTCEIFAWCPAEEGKEAPRPALLRSAENFTVLIKNNIDFPGHNYTTRNILPGMNISCTFHKTWNPQCPIFRLGDIFQEIGENFTEVAVQGGIMGIEIYWDCNLDSWSHRCQPKYSFRRLDDKYTNESLFPGYNFRYAKYYKENGMEKRTLIKAFGVRFDILVFGTGGKFDIIQLVVYIGSTLSYFGLATVCIDLIINTYASTCCRSRVYPSCKCCEPCAVNEYYYRKKCEPIVEPKPTLKYVSFVDEPHIWMVDQQLLGKSLQDVKGQEVPRPQTDFLELSRLDSPDWCQCGNCLPSQLPENRRALEELCCRRKPGQCITTSELFSKIVLSREALQLLLLYQEPLLALEGEAINSKLRHCAYRSYATWRFVSQDMADFAILPSCCRWKIRKEFPKTQGQYSGFKYPY CSWNDVFQYETNKVTRIQSVNYGTIKWILHMTVFSYVSFALMSDKLYQRKEPLISSVHTKVKGVAEVTENVTEGGVTKLVHGIFDTADYTLPLQGNSFFVMTNYLKSEGQEQKLCPEYPSRGKQCHSDQGCIKGWMDPQSKGIQTGRCIPYDQKRKTCEIFAWCPAEEGKEAPRPALLRSAENFTVLIKNNIDFPGHNYTTRNILPGMNISCTFHKTWNPQCPIFRLGDIFQEIGENFTEVAVQGGIMGIEIYWDCNLDSWSHRCQPKYSFRRLDDKYTNESLFPGYNFRYAKYYKENGMEKRTLIKAFGVRFDILVFGTGGKFDIIQLVVYIGSTLSYFGLATVCIDLIINTYASTCCRSRVYPSCKCCEPCAVNEYYYRKKCEPIVEPKPTLKYVSFVDEPHIWMVDQQLLGKSLQDVKGQEVPRPQTDFLELSRLDSPDWCQCGNCLPSQLPENRRALEELCCRRKPGQCITTSELFSKIVLSREALQLLLLYQEPLLALEGEAINSKLRHCAYRSYATWRFVSQDMADFAILPSCCRWKIRKEFPKTQGQYSGFKYPY 6uag-a1-m1-cB_6uag-a1-m1-cA Closed Dimer of Y77A Mutant Putative Ryanodine Receptor from Bacteroides thetaiotaomicron VPI-5482 Q8A5J2 Q8A5J2 2.709 X-RAY DIFFRACTION 107 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 91 94 3nrt-a1-m1-cA_3nrt-a1-m1-cB 3nrt-a2-m1-cD_3nrt-a2-m1-cC 3nrt-a3-m1-cF_3nrt-a3-m1-cE 4n05-a1-m1-cB_4n05-a1-m1-cA 4n05-a2-m1-cD_4n05-a2-m1-cC 4n05-a3-m1-cF_4n05-a3-m1-cE 6uag-a2-m1-cC_6uag-a2-m1-cD 6uag-a3-m1-cE_6uag-a3-m1-cF 6uam-a1-m1-cA_6uam-a1-m1-cB 6uam-a2-m1-cC_6uam-a2-m1-cD 6uam-a3-m1-cF_6uam-a3-m1-cE 6ug4-a1-m1-cA_6ug4-a1-m1-cB 6ug4-a2-m1-cC_6ug4-a2-m1-cD 6ug4-a3-m1-cF_6ug4-a3-m1-cE 6ug5-a1-m1-cA_6ug5-a1-m1-cC 6ug5-a2-m1-cI_6ug5-a2-m1-cE 6ug5-a3-m1-cK_6ug5-a3-m1-cG DYIPEPDLSLVDLPESLIQLSERIAENVHEVWAKARIDEGWTYGEKRDDIHKKHPCLVPYDELPEEEKEADRNTANTIKVKKLGFRIEKED NKLDYIPEPDLSLVDLPESLIQLSERIAENVHEVWAKARIDEGWTYGEKRDDIHKKHPCLVPYDELPEEEKEADRNTANTIKVKKLGFRIEKED 6uak-a1-m1-cA_6uak-a1-m2-cA LahSb - C-terminal methyltransferase involved in RiPP biosynthesis A0A3D0LE54 A0A3D0LE54 2.01 X-RAY DIFFRACTION 122 1.0 1410622 (Lachnospiraceae bacterium C6A11) 1410622 (Lachnospiraceae bacterium C6A11) 297 297 IKKWSVYFQNPEFLERTRMFLIQKELYPLVRNWCGVKDNVRLLDVGCGTGYFTRLLVSGDEDVSAVGIDMEEPFIEYAREKAEELGLPAEFIIGDALALPFEDNTFDIVTSHTFLTSVPDPEKAMSEMKRVVKPGGIISSVTAMNFMPACNNEGEYPEECTWVEDLKKEYMKIYTKYFSADPLETRIKGVKCSDVPKFFTGQGLKDVSLYPIGKVFTLSNAAVSDEDKLRYIELFYASEIKKLDAFMELDIGITEEDAERFRSLIGQKCKWLRDHLHDNYAWEWQGGANLLVTGICN IKKWSVYFQNPEFLERTRMFLIQKELYPLVRNWCGVKDNVRLLDVGCGTGYFTRLLVSGDEDVSAVGIDMEEPFIEYAREKAEELGLPAEFIIGDALALPFEDNTFDIVTSHTFLTSVPDPEKAMSEMKRVVKPGGIISSVTAMNFMPACNNEGEYPEECTWVEDLKKEYMKIYTKYFSADPLETRIKGVKCSDVPKFFTGQGLKDVSLYPIGKVFTLSNAAVSDEDKLRYIELFYASEIKKLDAFMELDIGITEEDAERFRSLIGQKCKWLRDHLHDNYAWEWQGGANLLVTGICN 6ubl-a1-m1-cA_6ubl-a1-m1-cB Structure of DynF from the Dynemicin Biosynthesis Pathway of Micromonospora chersina B2BM43 B2BM43 1.499 X-RAY DIFFRACTION 91 1.0 47854 (Micromonospora chersina) 47854 (Micromonospora chersina) 211 211 SMSTKSVLFGRPVQTEGVPNVYAGAPVVPWTPPEPGIDNLGINSIDTFAVPGVGEYTVAFDGWVRVVRSPSTSGEWADAEVYTNLIEMKMVGECEELGKITVTLNPDCLSAGQIRTPFDPYAGEGPSAKACRMAVGAIFDMPKLGLKLMNREPIILTIDDVRSIPPAGAPGKGQIYRMMPLLDVNDPDGQPVAYLTSLRFNMGGYLKPDQM SMSTKSVLFGRPVQTEGVPNVYAGAPVVPWTPPEPGIDNLGINSIDTFAVPGVGEYTVAFDGWVRVVRSPSTSGEWADAEVYTNLIEMKMVGECEELGKITVTLNPDCLSAGQIRTPFDPYAGEGPSAKACRMAVGAIFDMPKLGLKLMNREPIILTIDDVRSIPPAGAPGKGQIYRMMPLLDVNDPDGQPVAYLTSLRFNMGGYLKPDQM 6ubo-a1-m1-cA_6ubo-a1-m1-cB Fluorogen Activating Protein Dib1 P0A901 P0A901 1.58 X-RAY DIFFRACTION 66 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 159 159 KSSSTPPRGVTVVNNFDCKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNVINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWINSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPGS KSSSTPPRGVTVVNNFDCKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNVINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWINSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPGS 6ubv-a1-m1-cA_6ubv-a1-m1-cC The structure of the Streptococcus gordonii surface protein SspB in complex with TEV peptide provides clues to the adherence of oral streptococcal adherence to salivary agglutinin P11657 P11657 2.7 X-RAY DIFFRACTION 40 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 392 399 KLAKYQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPT ADYEAKLAKYQADLAKYQKDLADYPVKLKAYEDEQTSIKAALAELEKHKNEDGNLTEPSAQNLVYDLEPNANLSLTTDGKFLKASAVDDAFSKSTSKAKYDQKILQLDDLDITNLEQSNDVASSMELYGNFGDKAGWSTTVSNNSQVKWGSVLLERGQSATATYTNLQNSYCNGKKISKIVYKYTVDPKSKFQGQKVWLGIFTDPTLGVFASAYTGQVEKNTSIFIKNEFTFYDEDGKPINFDNALLSVASLNREHNSIEMAKDYSGKFVKISGSSIGEKNGMIYATDTLNFKQGEGGSRWTMYKNSQAGSGWDSSDAPNSWYGAGAIKMSGPNNYVTVGATSATNVMPVSDMPVVPGKDNTDGKKPNIWYSLNGKIRAVNVPKVTKEKPTPPVKPTAP 6uct-a1-m1-cA_6uct-a1-m2-cA Crystal structure of Mal de Rio Cuarto virus P9-1 viroplasm protein (C-arm deletion mutant) D9U542 D9U542 3.47 X-RAY DIFFRACTION 43 1.0 185954 (Mal de Rio Cuarto virus) 185954 (Mal de Rio Cuarto virus) 243 243 7kvc-a1-m1-cA_7kvc-a1-m1-cB 7kvc-a1-m1-cC_7kvc-a1-m1-cD 7kvc-a1-m1-cE_7kvc-a1-m1-cF 7kvc-a1-m1-cG_7kvc-a1-m1-cH 7kvc-a1-m1-cI_7kvc-a1-m1-cJ 7kvd-a1-m1-cA_7kvd-a1-m1-cB 7kvd-a1-m1-cC_7kvd-a1-m1-cD 7kvd-a1-m1-cE_7kvd-a1-m1-cF 7kvd-a1-m1-cG_7kvd-a1-m1-cH 7kvd-a1-m1-cI_7kvd-a1-m1-cJ 7kvd-a1-m1-cK_7kvd-a1-m1-cL ERRTFGSYKIEEITIKIPILDDGIFDLINYLLNGTHFDKTHYFDYSHLPTLERDFNTASNYVSENYSIIVEEIDLNKSESISLKSPDFTVVLEYFKKVRELPLLPIMCRESEDSISEDILEGEGAVIQVLKMFMKGFLVHLGENPNSYDRQLTIEKYRPLLISIIGYEFTVNHIYYQLATFDNYPFDLLRFQLQSLIDIKERIEKDGLFKVITTTNARGQYQSVLLRGINGSESYLNLKRYRK ERRTFGSYKIEEITIKIPILDDGIFDLINYLLNGTHFDKTHYFDYSHLPTLERDFNTASNYVSENYSIIVEEIDLNKSESISLKSPDFTVVLEYFKKVRELPLLPIMCRESEDSISEDILEGEGAVIQVLKMFMKGFLVHLGENPNSYDRQLTIEKYRPLLISIIGYEFTVNHIYYQLATFDNYPFDLLRFQLQSLIDIKERIEKDGLFKVITTTNARGQYQSVLLRGINGSESYLNLKRYRK 6ucu-a1-m1-cA_6ucu-a1-m1-cI Cryo-EM structure of the mitochondrial TOM complex from yeast (dimer) P23644 P23644 3.06 ELECTRON MICROSCOPY 34 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 307 307 6jnf-a1-m1-cA_6jnf-a1-m1-cF 6ucv-a1-m1-ci_6ucv-a1-m1-ca 6ucv-a1-m1-cI_6ucv-a1-m1-cA HSHRQSLELVNPGTVENLNKEVSRDVFLSQYFFTGLRADLNKAFSMNPAFQTSHTFSIGSQALPKYAFSALFANDNLFAQGNIDNDLSVSGRLNYGWDKKNISKVNLQISDGQPTMCQLEQDYQASDFSVNVKTLNPSFSEKGEFTGVAVASFLQSVTPQLALGLETLYSRTDGSAPGDAGVSYLTRYVSKKQDWIFSGQLQANGALIASLWRKVAQNVEAGIETTLQPTVEGSTTIGAKYEYRQSVYRGTLDSNGKVACFLERKVLPTLSVLFCGEIDHFKNDTKIGCGLQFETAGNQELLMLQQG HSHRQSLELVNPGTVENLNKEVSRDVFLSQYFFTGLRADLNKAFSMNPAFQTSHTFSIGSQALPKYAFSALFANDNLFAQGNIDNDLSVSGRLNYGWDKKNISKVNLQISDGQPTMCQLEQDYQASDFSVNVKTLNPSFSEKGEFTGVAVASFLQSVTPQLALGLETLYSRTDGSAPGDAGVSYLTRYVSKKQDWIFSGQLQANGALIASLWRKVAQNVEAGIETTLQPTVEGSTTIGAKYEYRQSVYRGTLDSNGKVACFLERKVLPTLSVLFCGEIDHFKNDTKIGCGLQFETAGNQELLMLQQG 6ud5-a1-m1-cC_6ud5-a1-m1-cD Crystal structure of human tryptophan 2,3-dioxygenase in complex with carbon monoxide and tryptophan P48775 P48775 2.05 X-RAY DIFFRACTION 160 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 343 353 4pw8-a2-m1-cH_4pw8-a2-m1-cG GLIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQNMRVPYRDNFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAEKEEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSKAGTGGSSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIHKFLEH GLIYGNYLHLEKVLNAQELQSETKGNKIHDEHLFIITHQAYELWFKQILWELDSVREIFQNGHVRDERNMLKVVSRMHRVSVILKLLVQQFSILETMTALDFNDFREYLSPASGFQSLQFRLLENKIGVLQNMRVPYNRRHYRDNFKGEENELLLKSEQEKTLLELVEAWLERTPGLEPHGFNFWGKLEKNITRGLEEEFIRIQAKEESEEKEEQVAEFQKQKEVLLSLFDEKRHEHLLSKGERRLSYRALQGALMIYFYREEPRFQVPFQLLTSLMDIDSLMTKWRYNHVCMVHRMLGSKAGTGGSSGYHYLRSTVSDRYKVFVDLFNLSTYLIPRHWIPKMNPTIHKFLEH 6ude-a1-m1-cD_6ude-a1-m1-cB Crystal structure of Glycerol kinase from Elizabethkingia anophelis NUHP1 in complex with ADP and glycerol A0A077EJ65 A0A077EJ65 1.95 X-RAY DIFFRACTION 128 0.996 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 492 495 6ude-a1-m1-cA_6ude-a1-m1-cC EKLILALDQGTTSSRAILFNKSGEIKFVSQKSFEQIFPTPGWVEHDPNEIWSSQISVAAEVIAKAGEVAAIGITNQRETTVVWDRHTSEPIYNAIVWQDRRTSKYCDELKSQGHTDEIKQKTGLVLDAYFSATKLKWILDNVEGAREKAEAGDLCFGTVDTWLIWKLTRGKMFITDVSNASRTMMFNIRTMDWDDDLLKLFNIPRAILPEVKQSSEVYGETSTTLFSTKIPIAGIAGDQQAALFGQMCTKPGMVKNTYGTGCFLLMNTGNEAVYSKNNLLTTVAWKINGEVSYALEGSVFVGGAAIQWLRDGLKIIHDSSEVSTLAETVEDNGGVYFVPALTGLGAPYWDQYARGTIIGVTRGTTDGHIARATLEGIAFQVYDIVKAMEADAETQSTELRVDGGASASNLLMQIQSDLFGFKIIRPKTLETTALGAAYLAGLAVGFWESIDEIQSQWIIEKEFTPKEDKTKIDNMVSFWHKAVKRSQAWIED NEKLILALDQGTTSSRAILFNKSGEIKFVSQKSFEQIFPTPGWVEHDPNEIWSSQISVAAEVIAKAGISGLEVAAIGITNQRETTVVWDRHTSEPIYNAIVWQDRRTSKYCDELKSQGHTDEIKQKTGLVLDAYFSATKLKWILDNVEGAREKAEAGDLCFGTVDTWLIWKLTRGKMFITDVSNASRTMMFNIRTMDWDDDLLKLFNIPRAILPEVKQSSEVYGETSTTSTKIPIAGIAGDQQAALFGQMCTKPGMVKNTYGTGCFLLMNTGNEAVYSKNNLLTTVAWKINGEVSYALEGSVFVGGAAIQWLRDGLKIIHDSSEVSTLAETVEDNGGVYFVPALTGLGAPYWDQYARGTIIGVTRGTTDGHIARATLEGIAFQVYDIVKAMEADAETQSTELRVDGGASASNLLMQIQSDLFGFKIIRPKTLETTALGAAYLAGLAVGFWESIDEIQSQWIIEKEFTPKEDKTKIDNMVSFWHKAVKRSQAWIED 6ude-a1-m1-cD_6ude-a1-m1-cC Crystal structure of Glycerol kinase from Elizabethkingia anophelis NUHP1 in complex with ADP and glycerol A0A077EJ65 A0A077EJ65 1.95 X-RAY DIFFRACTION 74 0.996 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 492 494 6ude-a1-m1-cA_6ude-a1-m1-cB EKLILALDQGTTSSRAILFNKSGEIKFVSQKSFEQIFPTPGWVEHDPNEIWSSQISVAAEVIAKAGEVAAIGITNQRETTVVWDRHTSEPIYNAIVWQDRRTSKYCDELKSQGHTDEIKQKTGLVLDAYFSATKLKWILDNVEGAREKAEAGDLCFGTVDTWLIWKLTRGKMFITDVSNASRTMMFNIRTMDWDDDLLKLFNIPRAILPEVKQSSEVYGETSTTLFSTKIPIAGIAGDQQAALFGQMCTKPGMVKNTYGTGCFLLMNTGNEAVYSKNNLLTTVAWKINGEVSYALEGSVFVGGAAIQWLRDGLKIIHDSSEVSTLAETVEDNGGVYFVPALTGLGAPYWDQYARGTIIGVTRGTTDGHIARATLEGIAFQVYDIVKAMEADAETQSTELRVDGGASASNLLMQIQSDLFGFKIIRPKTLETTALGAAYLAGLAVGFWESIDEIQSQWIIEKEFTPKEDKTKIDNMVSFWHKAVKRSQAWIED EKLILALDQGTTSSRAILFNKSGEIKFVSQKSFEQIFPTPGWVEHDPNEIWSSQISVAAEVIAKAGISGLEVAAIGITNQRETTVVWDRHTSEPIYNAIVWQDRRTSKYCDELKSQGHTDEIKQKTGLVLDAYFSATKLKWILDNVEGAREKAEAGDLCFGTVDTWLIWKLTRGKMFITDVSNASRTMMFNIRTMDWDDDLLKLFNIPRAILPEVKQSSEVYGETSTTSTKIPIAGIAGDQQAALFGQMCTKPGMVKNTYGTGCFLLMNTGNEAVYSKNNLLTTVAWKINGEVSYALEGSVFVGGAAIQWLRDGLKIIHDSSEVSTLAETVEDNGGVYFVPALTGLGAPYWDQYARGTIIGVTRGTTDGHIARATLEGIAFQVYDIVKAMEADAETQSTELRVDGGASASNLLMQIQSDLFGFKIIRPKTLETTALGAAYLAGLAVGFWESIDEIQSQWIIEKEFTPKEDKTKIDNMVSFWHKAVKRSQAWIED 6udg-a1-m1-cB_6udg-a1-m1-cA Crystal structure of a Probable thiol peroxidase from Elizabethkingia anophelis NUHP1 A0A077EJK0 A0A077EJK0 2.65 X-RAY DIFFRACTION 28 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 161 163 TLKGNAISTVGNLPNIGEQLKDFTLVNADLSEKTLADYKGKKVVLNIFPSIDTGVCAASARKFNQEASNLDNTVVVNVSKDLPFALGRFCAAEGLNNVDTLSDFRGHFGDDYGVTLADSPLQGLLSRAVVVADENGNVVYTEQVPEIAQEPNYDAALAALK NITLKGNAISTVGNLPNIGEQLKDFTLVNADLSEKTLADYKGKKVVLNIFPSIDTGVCAASARKFNQEASNLDNTVVVNVSKDLPFALGRFCAAEGLNNVDTLSDFRGHFGDDYGVTLADSPLQGLLSRAVVVADENGNVVYTEQVPEIAQEPNYDAALAALK 6udg-a1-m1-cC_6udg-a1-m1-cD Crystal structure of a Probable thiol peroxidase from Elizabethkingia anophelis NUHP1 A0A077EJK0 A0A077EJK0 2.65 X-RAY DIFFRACTION 19 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 162 162 ITLKGNAISTVGNLPNIGEQLKDFTLVNADLSEKTLADYKGKKVVLNIFPSIDTGVCAASARKFNQEASNLDNTVVVNVSKDLPFALGRFCAAEGLNNVDTLSDFRGHFGDDYGVTLADSPLQGLLSRAVVVADENGNVVYTEQVPEIAQEPNYDAALAALK ITLKGNAISTVGNLPNIGEQLKDFTLVNADLSEKTLADYKGKKVVLNIFPSIDTGVCAASARKFNQEASNLDNTVVVNVSKDLPFALGRFCAAEGLNNVDTLSDFRGHFGDDYGVTLADSPLQGLLSRAVVVADENGNVVYTEQVPEIAQEPNYDAALAALK 6udg-a1-m1-cD_6udg-a1-m1-cA Crystal structure of a Probable thiol peroxidase from Elizabethkingia anophelis NUHP1 A0A077EJK0 A0A077EJK0 2.65 X-RAY DIFFRACTION 42 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 162 163 6udg-a1-m1-cB_6udg-a1-m1-cC ITLKGNAISTVGNLPNIGEQLKDFTLVNADLSEKTLADYKGKKVVLNIFPSIDTGVCAASARKFNQEASNLDNTVVVNVSKDLPFALGRFCAAEGLNNVDTLSDFRGHFGDDYGVTLADSPLQGLLSRAVVVADENGNVVYTEQVPEIAQEPNYDAALAALK NITLKGNAISTVGNLPNIGEQLKDFTLVNADLSEKTLADYKGKKVVLNIFPSIDTGVCAASARKFNQEASNLDNTVVVNVSKDLPFALGRFCAAEGLNNVDTLSDFRGHFGDDYGVTLADSPLQGLLSRAVVVADENGNVVYTEQVPEIAQEPNYDAALAALK 6ue2-a2-m1-cB_6ue2-a2-m1-cC 1.85 Angstrom Resolution Crystal Structure of Class D beta-lactamase from Clostridium difficile 630 Q188Q3 Q188Q3 1.85 X-RAY DIFFRACTION 23 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 244 249 VDYSDCFEGISGGAIFYNTKNKEYNIYNKELIETRRSPCSTFIVSTLIGLEKGVINSKESVGYDGTEYPNKNWNKNLSLEEAFKESCVWYYKKLIDKVDAKSVQNILDDLKYGNCDISEWEGDLKNGKGHLNGFWLESSLQISPKEQVQTAKIFEGDTNFKKEHINILRDIKIDVNDKNINVYGKTGTGFDEKNKRVDAWFVGLEREGDTYYFAIKSDDSNKEITGPKVKEIAINIIKKYYSVR VDYSDCFEGISGGAIFYNTKNKEYNIYNKELIETRRSPCSTFIVSTLIGLEKGVINSKESVGYDGTEYPNKNWNKNLSLEEAFKESCVWYYKKLIDKVDAKSVQNILDDLKYGNCDISEWEGDLKNGKGHLNGFWLESSLQISPKEQVQTAKIFEGDTNFKKEHINILRDIKIDVNDKNINVYGKTGTGFDEKNKRVDAWFVGLEREGDTYYFAIKSDDSNKEITGPKVKEIAINIIKKYYSVREGAAL 6ue4-a1-m1-cB_6ue4-a1-m1-cA ShyA Endopeptidase from Vibrio cholerae (Closed form) Q9KN86 Q9KN86 2.08 X-RAY DIFFRACTION 113 0.997 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 351 354 PDYEYEIKPGDNLSTIFNQLGFAYTELMKVMETDLNYLALDTLRPGNVLRFWKTLAKMELEFSLVDRAVYTRLNDGSYEFEERKIPGTWKVEPLIGEVDGSFSLSANRAGLGAADVDQIVTLLKDKINFGRDLRRGDRFEVVLSRQLVGEKLTGNSEIQAIKIFNRGKEITAYLHQDGQYYDKNGDSLQRAFQRYPVDSKWRISSNFDPRRLHPVTKRVAPHNGTDFAMPIGTPVYTSGDGVVVMTRNHPYAGNYVVIQHGNTYMTRYLHLSKILVKKGQKVSRGQRIGLSGNTGRVTGPHLHYELIVRGRPVNAMKANIPMASSVPKKEMAQFIAKRKELDQMLARQESM PDYEYEIKPGDNLSTIFNQLGFAYTELMKVMETDLNYLALDTLRPGNVLRFWKGSDNTLAKMELEFSLVDRAVYTRLNDGSYEFEERKIPGTWKVEPLIGEVDGSFSLSANRAGLGAADVDQIVTLLKDKINFGRDLRRGDRFEVVLSRQLVGEKLTGNSEIQAIKIFNRGKEITAYLHQDGQYYDKNGDSLQRAFQRYPVDSKWRISSNFDPRRLHPVTKRVAPHNGTDFAMPIGTPVYTSGDGVVVMTRNHPYAGNYVVIQHGNTYMTRYLHLSKILVKKGQKVSRGQRIGLSGNTGRVTGPHLHYELIVRGRPVNAMKANIPMASSVPKKEMAQFIAKRKELDQMLARQES 6ue7-a1-m1-cG_6ue7-a1-m1-cB Structure of dimeric sIgA complex P01876 P01876 2.9 ELECTRON MICROSCOPY 11 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 223 230 6lxw-a1-m1-cC_6lxw-a1-m1-cA 6ue8-a1-m1-cB_6ue8-a1-m1-cG 6ue9-a1-m1-cB_6ue9-a1-m1-cG CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKPTHVNVSVVM CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDRLAGKTHVNVSVVMAEVDGTCY 6ue9-a1-m1-cA_6ue9-a1-m1-cK Structure of tetrameric sIgA complex (Class 2) P01877 P01877 2.9 ELECTRON MICROSCOPY 74 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 6ue8-a1-m1-cA_6ue8-a1-m1-cK 6ue8-a1-m1-cH_6ue8-a1-m1-cG 6ue9-a1-m1-cH_6ue9-a1-m1-cG 6uea-a1-m1-cA_6uea-a1-m1-cK 6uea-a1-m1-cH_6uea-a1-m1-cG 6uea-a1-m1-cJ_6uea-a1-m1-cE 6uea-a1-m1-cL_6uea-a1-m1-cI CHPRLSLHRPALEDLLLGSEANLTCTLTGLRGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTYAVTSILRVAAEDWKKGETFSCMVGHEALPLAFTQKTIDRLAGKPTHINVSVVMA CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTYAVTSILRVAAEDWKKGETFSCMVGHEALPLAFTQKTIDRGKPTHINVSVVM 6ue9-a1-m1-cB_6ue9-a1-m1-cF Structure of tetrameric sIgA complex (Class 2) P01877 P01877 2.9 ELECTRON MICROSCOPY 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 231 6lxw-a1-m1-cA_6lxw-a1-m1-cD 6ue7-a1-m1-cB_6ue7-a1-m1-cF 6ue8-a1-m1-cB_6ue8-a1-m1-cF 6uea-a1-m1-cB_6uea-a1-m1-cF CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTYAVTSILRVAAEDWKKGETFSCMVGHEALPLAFTQKTIDRLAGKPTHINVSVVMAEADGTCY CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTYAVTSILRVAAEDWKKGETFSCMVGHEALPLAFTQKTIDRLAGKPTHINVSVVMAEADGTCY 6uea-a1-m1-cE_6uea-a1-m1-cG Structure of pentameric sIgA complex P01877 P01877 3.0 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 231 6ue8-a1-m1-cE_6ue8-a1-m1-cG CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTYAVTSILRVAAEDWKKGETFSCMVGHEALPLAFTQKTIDRLTHINVSVVMAEADGTCY CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGATFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAQPWNHGETFTCTAAHPELKTPLTANITKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTYAVTSILRVAAEDWKKGETFSCMVGHEALPLAFTQKTIDRLAGKPTHINVSVVMAEADGTCY 6uek-a2-m1-cD_6uek-a2-m1-cC Structure of Urocanate Hydratase from Trypanosoma cruzi in complex with NAD+ Q4D9S6 Q4D9S6 2.16 X-RAY DIFFRACTION 297 0.993 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 585 641 6uek-a1-m1-cB_6uek-a1-m1-cA LTSLAVGIPLPPPPHAPKRTPNLSPADRRQAIANALRYFNTADHEVLAEEFSRELDEYGHIYMYRLRPTQYEMRAYPITDYPAKSKYAAAMMMMIMNNLDNRVAMFPHELITYGGNGGVFNNWAQFCLTMKYLCEMTDHQTLALYSGHPLGLFPSHPDAPRAVITNGMMVPNYSTREQYDRLYAMGCTQYGQMTAGSFCYIGPQGIVHGTTITFRNAGRKYLGVEDLAGKVVLTSGLGGMSGAQGKAGVICGAVVVVAEVDPNALYKRKGQGWLETDVEALLRRVRAASAAKVSIGFLGNVVTVWVHLGSDQTSCHNPFNGGYYPVQLTFEESKKMMVEDPAMFKELVQESLRRQVAAINERFWDYGNSFLLEASRAGVQDIMGDIFALGFGPFRWVCTSCLPEDLELTDRIATKQISDNLLWLVVGSQARILYADCEGRQTIAKNFNDAVRDGRLKGPVVLSRDHHDVSGTDSPFRETSDLYDGSSLTADMAVQNVIGDAFRGATWVSLHNGGGTGWGEATNGGFCLVLDGSADAERRAKLMLLWDVLNGVTRRAWSGNACGHEAMLRAVSRVEGLHVTVPQHV SMKKVLTSLAVGIPSPLPPPCKELDESVPHAPKRTPNLSPADRRQAIANALRYFNTADHEVLAEEFSRELDEYGHIYMYRLRPTQYEMRAYPITDYPAKSKYAAAMMMMIMNNLDNRVAMFPHELITYGGNGGVFNNWAQFCLTMKYLCEMTDHQTLALYSGHPLGLFPSHPDAPRAVITNGMMVPNYSTREQYDRLYAMGCTQYGQMTAGSFCYIGPQGIVHGTTITFRNAGRKYLGVEDLAGKVVLTSGLGGMSGAQGKAGVICGAVVVVAEVDPNALYKRKGQGWLMEVETDVEALLRRVRAASAAKEAVSIGFLGNVVTVWERLVEIVHLGSDQTSCHNPFNGGYYPVQLTFEESKKMMVEDPAMFKELVQESLRRQVAAINEMSARGLRFWDYGNSFLLEASRAGAEVWTIMGDIFALGFGPFRWVCTSCLPEDLELTDRIATETLEKLMKDASTKSQKQISDNLLWIKQAGENKLVVGSQARILYADCEGRQTIAKNFNDAVRDGRLKGPVVLSRDHHDVSGTDSPFRETSDLYDGSSLTADMAVQNVIGDAFRGATWVSLHNGGGTGWGEATNGGFCLVLDGSADAERRAKLMLLWDVLNGVTRRAWSGNACGHEAMLRAVSRVEGLHVTVPQH 6uex-a2-m1-cA_6uex-a2-m2-cA Crystal structure of S. aureus LcpA in complex with octaprenyl-pyrophosphate-GlcNAc Q99Q02 Q99Q02 1.9 X-RAY DIFFRACTION 66 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 247 247 GKISILVLGADKAQGGQSRTDSIMVVQYDFINKKMKMMSVMRDIYADIPGYGKHKINSAYALGGPELLRKTLDKNLGINPEYYAVVDFTGFEKMIDELMPEGVPINVEKDMSKNIGVSLKKGNHRLNGKELLGYARFRHDPEGDFGRVRRQQQVMQTLKKEMVNFRTVVKLPKVAGILRGYVNTNIPDSGIFQTGLSFGIRGEKDVKSLTVPIKNSYEDVNTNTDGSALQINKNTNKQAIKDFLDED GKISILVLGADKAQGGQSRTDSIMVVQYDFINKKMKMMSVMRDIYADIPGYGKHKINSAYALGGPELLRKTLDKNLGINPEYYAVVDFTGFEKMIDELMPEGVPINVEKDMSKNIGVSLKKGNHRLNGKELLGYARFRHDPEGDFGRVRRQQQVMQTLKKEMVNFRTVVKLPKVAGILRGYVNTNIPDSGIFQTGLSFGIRGEKDVKSLTVPIKNSYEDVNTNTDGSALQINKNTNKQAIKDFLDED 6uf6-a2-m1-cA_6uf6-a2-m2-cA Crystal structure of B. subtilis TagU Q02115 Q02115 2.2 X-RAY DIFFRACTION 50 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 222 222 KDPFSVLIGVDRADTLIYTVNPKTNTTDVSIPRDTYTKIIGKGTDKINHSYAFGGTQTVDTVENFLDVPVDYFVKVNESFRDVVDTLGGITVNSTFAFSYDGYSFGKGEITLNGKEALAYTRRKEDPRGDFGRQDRQRQVIQGIINKGANISSITKFGDFKVVENNVKTNLTFDNWDIQSHIKQHELKGTGTKIIYYYQADESALSDITKELKESLEKKLVP KDPFSVLIGVDRADTLIYTVNPKTNTTDVSIPRDTYTKIIGKGTDKINHSYAFGGTQTVDTVENFLDVPVDYFVKVNESFRDVVDTLGGITVNSTFAFSYDGYSFGKGEITLNGKEALAYTRRKEDPRGDFGRQDRQRQVIQGIINKGANISSITKFGDFKVVENNVKTNLTFDNWDIQSHIKQHELKGTGTKIIYYYQADESALSDITKELKESLEKKLVP 6uh2-a1-m1-cA_6uh2-a1-m1-cB Crystal Structure of Short Chain Dehydrogenase from Leptospira borgpetersenii serovar Hardjo-bovis (Strain JB197) with bound NAD+ Q04TM7 Q04TM7 1.9 X-RAY DIFFRACTION 136 1.0 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 355277 (Leptospira borgpetersenii serovar Hardjo-bovis str. JB197) 254 255 HHHHHHMILKNFSDEFQDKLVLITGGSGQIGSELVESYLSVSARVICLDPEQPSVDYKSNRFEWIQADITNRKEIKEIFLSLENQNKIPDILINCAGISVFTPFEDRTDEEFNEVVHVNLNGTFLLSQYTFRLWKEKGKKGIILNFGSIYGVSIADMRIYNSPEVYAMTKAGIIHFTKYLARYAAPYGIRVNCISPGGIFANQSSDFIQNYIYKTPLGRMGNPSDLVGGVFFLTSSLSEYVTGQNLLIDGGFTI AHHHHHHMILKNFSDEFQDKLVLITGGSGQIGSELVESYLSVSARVICLDPEQPSVDYKSNRFEWIQADITNRKEIKEIFLSLENQNKIPDILINCAGISVFTPFEDRTDEEFNEVVHVNLNGTFLLSQYTFRLWKEKGKKGIILNFGSIYGVSIADMRIYNSPEVYAMTKAGIIHFTKYLARYAAPYGIRVNCISPGGIFANQSSDFIQNYIYKTPLGRMGNPSDLVGGVFFLTSSLSEYVTGQNLLIDGGFTI 6uh8-a3-m1-cA_6uh8-a3-m1-cB Crystal structure of DAD2 N242I mutant J9U5U9 J9U5U9 1.58 X-RAY DIFFRACTION 34 1.0 4102 (Petunia x hybrida) 4102 (Petunia x hybrida) 264 264 GQTLLDALNVRVVGSGERVLVLAHGFGTDQSAWNRILPFFLRDYRVVLYDLVCAGSVNPDFFDFRRYTTLDPYVDDLLHILDALGIDQCAYVGHSVSAMIGILASIRRPELFSKLILIGASPRFLNDEDYHGGFEQGEIEKVFSAMEANYEAWVNGFAPLAVGADVPAAVREFSRTLFNMRPDITLFVSRTVFNSDMRGVLGLVKVPCHIFQTARDHSVPASVATYLKNHLGGKNTVHWLIIEGHLPHLSAPTLLAQELRRALS GQTLLDALNVRVVGSGERVLVLAHGFGTDQSAWNRILPFFLRDYRVVLYDLVCAGSVNPDFFDFRRYTTLDPYVDDLLHILDALGIDQCAYVGHSVSAMIGILASIRRPELFSKLILIGASPRFLNDEDYHGGFEQGEIEKVFSAMEANYEAWVNGFAPLAVGADVPAAVREFSRTLFNMRPDITLFVSRTVFNSDMRGVLGLVKVPCHIFQTARDHSVPASVATYLKNHLGGKNTVHWLIIEGHLPHLSAPTLLAQELRRALS 6uhw-a1-m1-cA_6uhw-a1-m1-cB Solution structure of an organic hydroperoxide resistance protein from Burkholderia pseudomallei. Seattle Structural Genomics Center for Infectious Disease target BupsA.00074.a. Q3JK82 Q3JK82 NOT SOLUTION NMR 264 1.0 320372 (Burkholderia pseudomallei 1710b) 320372 (Burkholderia pseudomallei 1710b) 139 139 MNILYKTAATSTGGRDGRATSHDQKLDVKLSAPRELGGAGAEGTNPEQLFAAGYSACFLSAMKFVAGQNKQTLPADTTVTAEVGIGPNEEGGFALDVELRVALPGLDAAAAKTLVDRAHHVCPYSNATRNNVAVRLVVA MNILYKTAATSTGGRDGRATSHDQKLDVKLSAPRELGGAGAEGTNPEQLFAAGYSACFLSAMKFVAGQNKQTLPADTTVTAEVGIGPNEEGGFALDVELRVALPGLDAAAAKTLVDRAHHVCPYSNATRNNVAVRLVVA 6ui5-a1-m1-cA_6ui5-a1-m1-cB Tmn9 in complex with cofactor FAD Q1MX79 Q1MX79 2.4 X-RAY DIFFRACTION 73 1.0 299254 (Streptomyces sp. NRRL 11266) 299254 (Streptomyces sp. NRRL 11266) 497 497 EPVVVVGAGPAGLMLACELAMRDVPAVLVDIHPTQRAEAPAMAINAGTLEMLDQRGLAAGLREGTVTFPEVRFADLRLAFEKVQGPREPTHMVLQSRLEKVLIDRAVELGVDLRWATRLTGFEEAADGSGVTVTLASDAGEEQLRCRYLVGCDGRESIVRKQAGIDYVGDDWVIVRGIVGDVAINREDVAPEQYGLSYTDNGDQFLGAPLSPDVMRVFSAEFSTEPPEFEDGPATLEQLGDAVKRLTGKELKATEAHWLQHYSIVTRNAEQYRKGRVFIAGDAAHVHYPYNGQGLGTAIGDAVNLGWKIAAEVHGWAPADLLDSYHVERHLAGRLACMNIQAQLALLYPRPLARYMREMMGEFLKFDEVNVFLAEIVTNLGPAVPIAYEGVPEPVEGDRLLGRRLPKVQIKTADGDMGVAETLQSGRGVLLDLSGDASAQEESGWADRVDVVRAQPVPDLPGTLLLRPDGCVAWHDGGGWGQDELRTALRTWFGAPT EPVVVVGAGPAGLMLACELAMRDVPAVLVDIHPTQRAEAPAMAINAGTLEMLDQRGLAAGLREGTVTFPEVRFADLRLAFEKVQGPREPTHMVLQSRLEKVLIDRAVELGVDLRWATRLTGFEEAADGSGVTVTLASDAGEEQLRCRYLVGCDGRESIVRKQAGIDYVGDDWVIVRGIVGDVAINREDVAPEQYGLSYTDNGDQFLGAPLSPDVMRVFSAEFSTEPPEFEDGPATLEQLGDAVKRLTGKELKATEAHWLQHYSIVTRNAEQYRKGRVFIAGDAAHVHYPYNGQGLGTAIGDAVNLGWKIAAEVHGWAPADLLDSYHVERHLAGRLACMNIQAQLALLYPRPLARYMREMMGEFLKFDEVNVFLAEIVTNLGPAVPIAYEGVPEPVEGDRLLGRRLPKVQIKTADGDMGVAETLQSGRGVLLDLSGDASAQEESGWADRVDVVRAQPVPDLPGTLLLRPDGCVAWHDGGGWGQDELRTALRTWFGAPT 6uio-a1-m1-cD_6uio-a1-m2-cA Crystal structure of mouse CRES (Cystatin-Related Epididymal Spermatogenic) P32766 P32766 1.83 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 110 112 6uio-a1-m1-cB_6uio-a1-m1-cC 6uio-a1-m1-cB_6uio-a1-m1-cD 6uio-a1-m1-cC_6uio-a1-m2-cA NYFGSINISNANVKQAVWFAMKEYNKESEDKYVFLVDKILHAKLQITDRMEYQIDVQISRSNCKKPLNNTENCIPQKKPELEKKMSCSFLVGALPWNGEFNLLSKECKDV AQNYFGSINISNANVKQAVWFAMKEYNKESEDKYVFLVDKILHAKLQITDRMEYQIDVQISRSNCKKPLNNTENCIPQKKPELEKKMSCSFLVGALPWNGEFNLLSKECKDV 6ujd-a1-m1-cA_6ujd-a1-m2-cA Crystal structure of Cysteine-tRNA ligase from Elizabethkingia sp. A0A1T3F4R2 A0A1T3F4R2 2.6 X-RAY DIFFRACTION 74 1.0 1939629 (Elizabethkingia sp.) 1939629 (Elizabethkingia sp.) 406 406 MQLKIYNSLTGEKEDFKPILEGNVGMYVCGPTVYSNVHLGNVRTFLSFDFIYRSLQYIGYKVRYVRNITDAGHLTDRLEKLEPMEIVQKYTVDFHEVLKKFNLLPPTIEPTATGHIIEQIELTKKLIDTGFAYESNGSVYFDVLEYNARGLNYGELSRRNIEQGEKKNPQDFALWKKASPQHIMRWISPWGEGFPGWHLECTAMSTKYLGDKFDIHGGGMDLKFPHHECEIAQGKACNGTEPVNYWMHANMLTMNGQRMSKSTGNYILPMELITGNNSFFEKAFHPSVLRFCFLQAHYRSVLDISNDAMLASEKGFSRLMDAVKLVDELQVSEKSTVNVQEWYEKAYSALVDDFNSPILISHLFEAVKWVFLLKDGKETITADDLAFLKEKLNAFVFDVLGLQTVE MQLKIYNSLTGEKEDFKPILEGNVGMYVCGPTVYSNVHLGNVRTFLSFDFIYRSLQYIGYKVRYVRNITDAGHLTDRLEKLEPMEIVQKYTVDFHEVLKKFNLLPPTIEPTATGHIIEQIELTKKLIDTGFAYESNGSVYFDVLEYNARGLNYGELSRRNIEQGEKKNPQDFALWKKASPQHIMRWISPWGEGFPGWHLECTAMSTKYLGDKFDIHGGGMDLKFPHHECEIAQGKACNGTEPVNYWMHANMLTMNGQRMSKSTGNYILPMELITGNNSFFEKAFHPSVLRFCFLQAHYRSVLDISNDAMLASEKGFSRLMDAVKLVDELQVSEKSTVNVQEWYEKAYSALVDDFNSPILISHLFEAVKWVFLLKDGKETITADDLAFLKEKLNAFVFDVLGLQTVE 6uji-a1-m1-cE_6uji-a1-m1-cD Low resolution crystal structure (5.5 A) of the anthrax toxin protective antigen heptamer prepore D425A mutant P13423 P13423 5.5 X-RAY DIFFRACTION 139 0.992 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 516 539 6uji-a1-m1-cC_6uji-a1-m1-cD 6uji-a2-m1-cH_6uji-a2-m1-cI 6uji-a2-m1-cL_6uji-a2-m1-cK TVPDRDNDGIPDSLEVEGYTVDVKNKRTFLSPWISNIHEKKGLTKYKSSPEKWSTASDPYSDFEKVTGRIDKNVSPEARHPLVAAYPIVHVDMENIILSKNESKNTSTSRTHTSSNSNSSTVAIDHSLSLAGERTWAETMGLNTADTARLNANIRYVNTGTAPIYNVLPTTSLVLGKNQTLATIKALSQILAPNNYYPSKNLAPIALNAQTPITMNYNQFLELEKTKQLRLDTDQVYGNIATYNFENGRVRVDTGSNWSEVLPQIQETTARIIFNGKDLNLVERRIAAVNPSDPLETTKPDMTLKEALKIAFGFNEPNGNLQYQGKDITEFDFNFDQQTSQNIKNQLAELNATNIYTVLDKIKLNAKMNILIRDKRFHYDRNNIAVGADESVVKEAHREVINSSTEGLLLNIDKDIRKILSGYIVEIEDTEGLKEVINDRYDMLNISSLRQDGKTFIDFKKYNDKLPLYISNPNYKVNVYAVTKENTIINPSENGDTSTNGIKKILIFSKKGYEIG TVPDRDNDGIPDSLEVEGYTVDVKNKRTFLSPWISNIHEKKGLTKYKSSPEKWSTASDPYSDFEKVTGRIDKNVSPEARHPLVAAYPIVHVDMENIILSKNEDSQTRTISKNTSTSRTHTSEVHGNAEVHASFFDIGGSVNSNSSTVAIDHSLSLAGERTWAETMGLNTADTARLNANIRYVNTGTAPIYNVLPTTSLVLGKNQTLATIKLSQILAPNNYYPSKNLAPIALNSTPITMNYNQFLELEKTKQLRLDTDQVYGNIATYNFENGRVRVDTGSNWSEVLPQIQETTARIIFNGKDLNLVERRIAAVNPSDPLETTKPDMTLKEALKIAFGFNEPNGNLQYQGKDITEFDFNFDQQTSQNIKNQLAELNATNIYTVLDKIKLNAKMNILIRDKRFHYDRNNIAVGADESVVKEAHREVINSSTEGLLLNIDKDIRKILSGYIVEIEDTEGLKEVINDRYDMLNISSLRQDGKTFIDFKKYNDKLPLYISNPNYKVNVYAVTKENTIINPSENGDTSTNGIKKILIFSKKGYEIG 6ujk-a1-m1-cB_6ujk-a1-m1-cA Crystal Structure of a Probable short-chain type dehydrogenase/reductase (Rv1144) from Mycobacterium tuberculosis with bound NAD P9WGQ7 P9WGQ7 1.2 X-RAY DIFFRACTION 124 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 243 246 TKDAVAVVTGGASGLGLATTKRLLDAGAQVVVVDLRGDDVVGGLGDRARFAQADVTDEAAVSNALELADSLGPVRVVVNCAGTGNAIRVLSRDGVFPLAAFRKIVDINLVGTFNVLRLGAERIAKTEPIGEERGVIINTASVAAFDGQIGQAAYSASKGGVVGMTLPIARDLASKLIRVVTIAPGLFDTPLLAAKASLGQQVPHPSRLGNPDEYGALVLHIIENPMLNGEVIRLDGAIRMAPR HMKTKDAVAVVTGGASGLGLATTKRLLDAGAQVVVVDLRGDDVVGGLGDRARFAQADVTDEAAVSNALELADSLGPVRVVVNCAGTGNAIRVLSRDGVFPLAAFRKIVDINLVGTFNVLRLGAERIAKTEPIGEERGVIINTASVAAFDGQIGQAAYSASKGGVVGMTLPIARDLASKLIRVVTIAPGLFDTPLLAAKASLGQQVPHPSRLGNPDEYGALVLHIIENPMLNGEVIRLDGAIRMAPR 6uk3-a2-m1-cB_6uk3-a2-m1-cD Crystal Structure of S-adenosyl-L-homocysteine hydrolase from Acanthamoeba castellanii with bound NAD and Adenosine L8H6B5 L8H6B5 1.4 X-RAY DIFFRACTION 156 1.0 1257118 (Acanthamoeba castellanii str. Neff) 1257118 (Acanthamoeba castellanii str. Neff) 475 475 6uk3-a1-m1-cA_6uk3-a1-m1-cC TQTQTQPAGNAFQYEIRDISLAEFGRKEINLAEHEMPGLMQTREKYGAEQPLKGVRLAGSLHMTIQTAVLIETLQALGANVRWCSCNIFSTQDHAAAAIVAAGTPVFAWKGETLEEYWECTWKTLLFPDDMGPQLIVDDGGDATLMVHRGFYAEDNPSILDDDEGSEELAIVNKLLKRIQKEKPGYWHKIVPELKGVSEETTTGVHRLYEMMKEGKLLFPALNVNDSVTKSKFDNVYGCRHSLVDAIMRATDVMLSGKVACVLGYGDVGKGSAESLKGQGARVVVTEVDPICALQACMAGYEVVRIEDVLDKAEIFVTTTGNCDIIRIEHMEKMRHNAIVCNIGHFDNEIQVKALKEFPGIKRIEIKPQVDQFVFPDGHAIVLLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQISLWKEKYELGVYTLPKKLDEEVARLHLEKLGAKLTVLTDKQAKYLGIAKDGPYKPDHYRY TQTQTQPAGNAFQYEIRDISLAEFGRKEINLAEHEMPGLMQTREKYGAEQPLKGVRLAGSLHMTIQTAVLIETLQALGANVRWCSCNIFSTQDHAAAAIVAAGTPVFAWKGETLEEYWECTWKTLLFPDDMGPQLIVDDGGDATLMVHRGFYAEDNPSILDDDEGSEELAIVNKLLKRIQKEKPGYWHKIVPELKGVSEETTTGVHRLYEMMKEGKLLFPALNVNDSVTKSKFDNVYGCRHSLVDAIMRATDVMLSGKVACVLGYGDVGKGSAESLKGQGARVVVTEVDPICALQACMAGYEVVRIEDVLDKAEIFVTTTGNCDIIRIEHMEKMRHNAIVCNIGHFDNEIQVKALKEFPGIKRIEIKPQVDQFVFPDGHAIVLLAEGRLVNLGCATGHPSFVMSNSFTNQTLAQISLWKEKYELGVYTLPKKLDEEVARLHLEKLGAKLTVLTDKQAKYLGIAKDGPYKPDHYRY 6ukk-a1-m1-cA_6ukk-a1-m2-cA Crystal Structure of a Domain-swapped Fluorogen Activating Protein DiB3 Dimer P0A901 P0A901 1.6 X-RAY DIFFRACTION 300 1.0 562 (Escherichia coli) 562 (Escherichia coli) 158 158 KSSSTPPRGVTVVNNFDAKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNFINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWIQSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPG KSSSTPPRGVTVVNNFDAKRYLGTWYEIARFDHRFERGLEKVTATYSLRDDGGLNFINKGYNPDRGMWQQSEGKAYFTGAPTRAALKVSFFGPFYGGYNVIALDREYRHALVCGPDRDYLWIQSRTPTISDEVKQEMLAVATREGFDVSKFIWVQQPG 6uld-a1-m1-cA_6uld-a1-m1-cB Crystal structure of serine hydroxymethyltransferase from Mycobacterium tuberculosis with bound PLP forming a Schiff base with substrate Serine in one monomer and PLP forming a Schiff base with product Glycine in the other monomer 1.5 X-RAY DIFFRACTION 356 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 428 428 3h7f-a1-m1-cA_3h7f-a1-m1-cB GSMSAPLAEVDPDIAELLAKELGRQRDTLEMIASENFVPRAVLQAQGSVLTNKYAEGLPGRRYYGGCEHVDVVENLARDRAKALFGAEFANVQPHSGAQANAAVLHALMSPGERLLGLDLANGGHLTHGMRLNFSGKLYENGFYGVDPATHLIDMDAVRATALEFRPKVIIAGWSAYPRVLDFAAFRSIADEVGAKLLVDMAHFAGLVAAGLHPSPVPHADVVSTTVHKTLGGGRSGLIVGKQQYAKAINSAVFPGQQGGPLMHVIAGKAVALKIAATPEFADRQRRTLSGARIIADRLMAPDVAKAGVSVVSGGTDVHLVLVDLRDSPLDGQAAEDLLHEVGITVNRNAVPNDPRPPMVTSGLRIGTPALATRGFGDTEFTEVADIIATALATGSSVDVSALKDRATRLARAFPLYDGLEEWSLVGR GSMSAPLAEVDPDIAELLAKELGRQRDTLEMIASENFVPRAVLQAQGSVLTNKYAEGLPGRRYYGGCEHVDVVENLARDRAKALFGAEFANVQPHSGAQANAAVLHALMSPGERLLGLDLANGGHLTHGMRLNFSGKLYENGFYGVDPATHLIDMDAVRATALEFRPKVIIAGWSAYPRVLDFAAFRSIADEVGAKLLVDMAHFAGLVAAGLHPSPVPHADVVSTTVHKTLGGGRSGLIVGKQQYAKAINSAVFPGQQGGPLMHVIAGKAVALKIAATPEFADRQRRTLSGARIIADRLMAPDVAKAGVSVVSGGTDVHLVLVDLRDSPLDGQAAEDLLHEVGITVNRNAVPNDPRPPMVTSGLRIGTPALATRGFGDTEFTEVADIIATALATGSSVDVSALKDRATRLARAFPLYDGLEEWSLVGR 6ulw-a2-m1-cD_6ulw-a2-m1-cB Adenylation, ketoreductase, and pseudo Asub multidomain structure of a keto acid-selecting NRPS module M5R382 M5R382 3.4 X-RAY DIFFRACTION 295 0.999 1236481 (Bacillus stratosphericus LAMA 585) 1236481 (Bacillus stratosphericus LAMA 585) 1193 1209 6ulw-a1-m1-cA_6ulw-a1-m1-cC ESMDAILQDVKTTILQTNEIERFAVFSREKTIRPRPYHLSHLFLDKHIEPALSYGGDLDVTQGAQTLQDVLTEAAKTTNGLTYIVNSKNELTQSYAQLQGDAERVLTGLRALGLKAGDPVFFQFSSNHAMVTAFWACVLGGFVPTLVSAAPTYREMNAAVKKLHHAWKLLEHPLILTDDSLIEEVQGLAFLWHTDQLRVAAVEPMLTLERDTAAHPAAPDDSVFFILTSGSTGMPKCVEHSHRSVLANVKGTVAANQFTQEDVSLDWMPLDHIGGIVMFHLVNVYTGCEQIRARTDDFIAQPLRWLDWMDRYRATKTWAPNFAFAMINDYEKEISSGSWDLSAMTCMINGAEAVVPKTIHRFLHLLAPHGLKGDVIRPAFGMSEISSAVVFSFAIERGDENSGVLTFEETSLTEQLRPAEARETGTVSFTELGKPIPGITIRIVNHQHELLPEDHIGRVQIKGPTTMKGYYRNDEANQEVFQADGWFHTGDLGFLHEGRLTLTGREKDMIIINGKNYHNYEIEAIAEEVPGVETSFVAACSVRMEASASDELILFFTPKLYEPAYIMRASQHIKSHIATKMGLSASRIIPVQKHAFPKTSSGKIERAQLKTRWQEGEFDEMIMEMDMRLENEHTLPNWSYQKKWIPAPLDAADKQIVGDVVIFADPLGLADQLKSFANSEQTYITVEPGQAFKQLTHTHFIIHPNRPSDYEQLFETLRSYGVSVKHIIHLWNYTNQEDKLYVSKAKQAQKTGSMSALFLTKAISVYEEQVAITFVSTHAMNVPEDHIHDVEKATTAGLMTAVQHEWPFIKVQCLDFSLAESVSSHSHAMAMMAELTHDQDCHVAAYRQGVRYIPFLAPLHLEKEQKRKEPPFESSGLYVITGGLGGIGRLVSEQLLTSYQAHLVLLGRKEREALSSDQQETLSLLEKQAKVHGGKVLYEKADITAEKEVEAIISRHEVAGNRRLDGIIHFAGIIQEELLADMTSVSLNDMYEAKVYGTIALHEAASKRRNVLFLSSSSARTLKGGMTVGAYCAANEFVEQFAHYQKLTSTVKPYCFSFSMWDEIGMSEGSMIKGMLKERGYLPISKQAGFQTMLACLMTDAPLIYTGLDRSKKEIHEMIHADAEMQTEQTFYVFFKTDQTKAVEERLYQSIHTCLQSRLSGEYAVHLFPEEYWKETEDGSPDEAYFHELIEES ESMDAILQDVKTTILQTNEIERFAVFSREKTIRPRPYHLSHLFLDKHIEQEAAAEAIQTPALADMPPALSYGGDLDVTQGAQTLQDVLTEAAKTTNGLTYIVNSKNELTQSYAQLQGDAERVLTGLRALGLKAGDPVFFQFSSNHAMVTAFWACVLGGFVPTLVSAAPTYREMNAAVKKLHHAWKLLEHPLILTDDSLIEEVQGLAFLWHTDQLRVAAVEPMLTLERDTAAHPAAPDDSVFFILTSGSTGMPKCVEHSHRSVLANVKGTVAANQFTQEDVSLDWMPLDHIGGIVMFHLVNVYTGCEQIRARTDDFIAQPLRWLDWMDRYRATKTWAPNFAFAMINDYEKEISSGSWDLSAMTCMINGAEAVVPKTIHRFLHLLAPHGLKGDVIRPAFGMSEISSAVVFSFAIERGDENSGVLTFEETSLTEQLRPAEARETGTVSFTELGKPIPGITIRIVNHQHELLPEDHIGRVQIKGPTTMKGYYRNDEANQEVFQADGWFHTGDLGFLHEGRLTLTGREKDMIIINGKNYHNYEIEAIAEEVPGVETSFVAACSVRMEASASDELILFFTPKLYEPAYIMRASQHIKSHIATKMGLSASRIIPVQKHAFPKTSSGKIERAQLKTRWQEGEFDEMIMEMDMRLENEHTLPNWSYQKKWIPAPLDAADKQIVGDVVIFADPLGLADQLKSFANSEQTYITVEPGQAFKQLTHTHFIIHPNRPSDYEQLFETLRSYGVSVKHIIHLWNYTNQEDKLYVSKAKQAQKTGSMSALFLTKAISVYEEQVAITFVSTHAMNVPEDHIHDVEKATTAGLMTAVQHEWPFIKVQCLDFSLAESVSSHSHAMAMMAELTHDQDCHVAAYRQGVRYIPFLAPLHLEKEQKRKEPPFESSGLYVITGGLGGIGRLVSEQLLTSYQAHLVLLGRKEREALSSDQQETLSLLEKQAKVHGGKVLYEKADITAEKEVEAIISRHEVAGNRRLDGIIHFAGIIQEELLADMTSVSLNDMYEAKVYGTIALHEAASKRRNVLFLSSSSARTLKGGMTVGAYCAANEFVEQFAHYQKLTSTVKPYCFSFSMWDEIGMSEGSMIKGMLKERGYLPISKQAGFQTMLACLMTDAPLIYTGLDRSKKEIHEMIHADAEMQTEQTFYVFFKTDQTKAVEERLYQSIHTCLQSRLSGEYAVHLFPEEYWKETEDGSPDEAYFHELIEE 6uly-a1-m1-cB_6uly-a1-m1-cA Adenylation domain of a keto acid-selecting NRPS module bound to keto acyl adenylate space group P212121 M5R382 M5R382 2.3 X-RAY DIFFRACTION 84 0.983 1236481 (Bacillus stratosphericus LAMA 585) 1236481 (Bacillus stratosphericus LAMA 585) 531 545 PALSYGGDLDVTQGAQTLQDVLTEAAKTTNGLTYIVNSKNELTQSYAQLQGDAERVLTGLRALGLKAGDPVFFQFSSNHAMVTAFWACVLGGFVPTLVSAAPTYREMNAAVKKLHHAWKLLEHPLILTDDSLIEEVQGLAFLWHTDQLRVAAVEPMLTLERDTAAHPAAPDDSVFFILTSGMPKCVEHSHRSVLANVKGTVAANQFTQEDVSLDWMPLDHIGGIVMFHLVNVYTGCEQIRARTDDFIAQPLRWLDWMDRYRATKTWAPNFAFAMINDYEKEISSGSWDLSAMTCMINGAEAVVPKTIHRFLHLLAPHGLKGDVIRPAFGMSEISSAVVFSFAIERGDENSGVLTFEETSLTEQLRPAEARETGTVSFTELGKPIPGITIRIVNHQHELLPEDHIGRVQIKGPTTMKGYYRNDEANQEVFQADGWFHTGDLGFLHEGRLTLTGREKDMIIINGKNYHNYEIEAIAEEVPGVETSFVAACSVLILFFTPKLYEPAYIMRASQHIKSHIATKMGLSASRIIPVQ PALSYGGDLDVTQGAQTLQDVLTEAAKTTNGLTYIVNSKNELTQSYAQLQGDAERVLTGLRALGLKAGDPVFFQFSSNHAMVTAFWACVLGGFVPTLVSAAPTYREMNAAVKKLHHAWKLLEHPLILTDDSLIEEVQGLAFLWHTDQLRVAAVEPMLTLERDTAAHPAAPDDSVFFILTGMPKCVEHSHRSVLANVKGTVAANQFTQEDVSLDWMPLDHIGGIVMFHLVNVYTGCEQIRARTDDFIAQPLRWLDWMDRYRATKTWAPNFAFAMINDYEKEISSGSWDLSAMTCMINGAEAVVPKTIHRFLHLLAPHGLKGDVIRPAFGMSEISSAVVFSFAIERGDENSGVLTFEETSLTEQLRPAEARETGTVSFTELGKPIPGITIRIVNHQHELLPEDHIGRVQIKGPTTMKGYYRNDEANQEVFQADGWFHTGDLGFLHEGRLTLTGREKDMIHNYEIEAIAEEVPGVETSFVAACSASDELILFFTPKLYEPAYIMRASQHIKSHIATKMGLSASRIIPVQKKIERAQLKTRWQEGAAAE 6um4-a6-m1-cK_6um4-a6-m1-cL Crystal structure of malate dehydrogenase from Naegleria fowleri ATCC 30863 2.05 X-RAY DIFFRACTION 126 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 326 326 6um4-a1-m1-cA_6um4-a1-m1-cB 6um4-a2-m1-cD_6um4-a2-m1-cC 6um4-a3-m1-cE_6um4-a3-m1-cF 6um4-a4-m1-cG_6um4-a4-m1-cH 6um4-a5-m1-cJ_6um4-a5-m1-cI QLAPPVTITVSGACGQIANSLLFRIANGEMLGENQPVKLRLLERPEAMKALEGVKMELDDGAFPLLEEIYLTDSENDAFRGADYAILLGGKPRGPGMERADVMKDNAAIFKAQGEALNKQANGDVLVLIVANPANTNAMITSANAPDIPPENITAMTRLDHDRGLAQVAAKVGCNITDISRFAIWGNHSATQYPDLSFTTIKGQWGLNVINDEQWITNEFIPNVQQRGAAIIKARGKSSAASAADAAIKHMHDWVLGNSEWVSMAIPSRGQYGIPRGIWCSMPVQCFGAGKYGVIEGLPINSFSADRINASVKELIEEKKIVENLL QLAPPVTITVSGACGQIANSLLFRIANGEMLGENQPVKLRLLERPEAMKALEGVKMELDDGAFPLLEEIYLTDSENDAFRGADYAILLGGKPRGPGMERADVMKDNAAIFKAQGEALNKQANGDVLVLIVANPANTNAMITSANAPDIPPENITAMTRLDHDRGLAQVAAKVGCNITDISRFAIWGNHSATQYPDLSFTTIKGQWGLNVINDEQWITNEFIPNVQQRGAAIIKARGKSSAASAADAAIKHMHDWVLGNSEWVSMAIPSRGQYGIPRGIWCSMPVQCFGAGKYGVIEGLPINSFSADRINASVKELIEEKKIVENLL 6umm-a1-m1-cI_6umm-a1-m1-cD A complete structure of the ESX-3 translocon complex A0QQ39 A0QQ39 3.7 ELECTRON MICROSCOPY 12 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 61 81 VTRHQVSGWRFVMRRIASGVALHDTRMLVDPLRTQSRAVLTGALILVTGLVGCFIFSLFRP FSSRTPVNENPDGVQYRRGFVTRHQVSGWRFVMRRIASGVALHDTRMLVDPLRTQSRAVLTGALILVTGLVGCFIFSLFRP 6umx-a1-m1-cB_6umx-a1-m1-cA Structural basis for specific inhibition of extracellular activation of pro/latent myostatin by SRK-015 O14793 O14793 2.79 X-RAY DIFFRACTION 210 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 273 279 CTWRQNTKSSRIEAIKIQILSKLRLETAPNISKDVIRQLLPKAPPLRELIDQYDDDYHATTETIITMPTEKCCFFKFSSKIQYNKVVKAQLWIYLRPVETPTTVFVQILRLIKPMKDGTRYTGIRSLKLDMNPGTGIWQSIDVKTVLQNWLKQPESNLGIEIKALDENGHDLAVTFPGPGEDGLNPFLEVKVTDTLDCDEHSTESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSCCTPTKMSPINMLYFNGKEQIIYGKIPAMVVDRCGCS CTWRQNTKSSRIEAIKIQILSKLRLETAPNISKDVIRQLLPKAPPLRELIDQYDEDDDYHATTETIITMPTEKCCFFKFSSKIQYNKVVKAQLWIYLRPVETPTTVFVQILRLIKPMKDGTRYTGIRSLKLDMNPGTGIWQSIDVKTVLQNWLKQPESNLGIEIKALDENGHDLAVTFPGPGEDGLNPFLEVKVTDTPKGLDCDEHSTESRCCRYPLTVDFEAFGWDWIIAPKRYKANYCSPCCTPTKMSPINMLYFNGKEQIIYGKIPAMVVDRCGCS 6umx-a1-m1-cl_6umx-a1-m1-cL Structural basis for specific inhibition of extracellular activation of pro/latent myostatin by SRK-015 P0DOY2 P0DOY2 2.79 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 214 VLTQPPSASGTPGQRVTISCSGSSSNIGSNPVHWYQQLPGTAPKLLIYDDNQRPSGVPDRFSGSKSGTSASLVISGLQSDDEADYYCAAWDDSLNSVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT QPVLTQPPSASGTPGQRVTISCSGSSSNIGSNPVHWYQQLPGTAPKLLIYDDNQRPSGVPDRFSGSKSGTSASLVISGLQSDDEADYYCAAWDDSLNSVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTEC 6un5-a1-m1-cA_6un5-a1-m1-cB Crystal structure of green fluorescent protein (GFP); S65T, Y66(2,3,5-F3Y); ih circular permutant (50-51) P42212 P42212 1.36 X-RAY DIFFRACTION 35 0.996 6100 (Aequorea victoria) 6100 (Aequorea victoria) 225 226 6un7-a1-m1-cA_6un7-a1-m1-cB KLPVPWPTLVTTLVQCFSRYPDHMKRHDFFKSAMPEGYVQERTISFKDDGKYKTRAVVKFEGDTLVNRIELKGTDFKEDGNILGHKLEYNFNSHNVYITADKQKNGIKANFTVRHNVEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQTVLSKDPNEKRDHMVLLEFVTAAGISASQGEELFTGVVPILVELDGDVNGHKFSVRGEGEGDATIGKLTLKFIST GKLPVPWPTLVTTLVQCFSRYPDHMKRHDFFKSAMPEGYVQERTISFKDDGKYKTRAVVKFEGDTLVNRIELKGTDFKEDGNILGHKLEYNFNSHNVYITADKQKNGIKANFTVRHNVEDGSVQLADHYQQNTPIGDGPVLLPDNHYLTQTVLSKDPNEKRDHMVLLEFVTAAGISASQGEELFTGVVPILVELDGDVNGHKFSVRGEGEGDATIGKLTLKFISTT 6un9-a1-m1-cD_6un9-a1-m1-cA Crystal Structure of the Q7VLF5_HAEDU protein from Haemophilus ducreyi. Northeast Structural Genomics Consortium Target Hdr25 Q7VLF5 Q7VLF5 2.8 X-RAY DIFFRACTION 24 1.0 730 ([Haemophilus] ducreyi) 730 ([Haemophilus] ducreyi) 65 67 6un9-a1-m1-cB_6un9-a1-m1-cC GNIQQQIQLKSELASAEAKEEQKQQLERHFEQSANLLENAEDYKKLYTHFAQNSEQLLPESNQVE KGNIQQQIQLKSELASAEAKEEQKQQLERHFEQSANLLENAEDYKKLYTHFAQNSEQLLPESNQVEF 6unc-a6-m3-cD_6unc-a6-m1-cC The crystal structure of Phosphopantetheinyl Hydrolase (PptH) from Mycobacterium tuberculosis I6YEE1 I6YEE1 2.5 X-RAY DIFFRACTION 62 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 272 276 6unc-a5-m1-cA_6unc-a5-m2-cB GAEPTLWAISDLHTGHLGNKPVAESLYPSSPDDWLIVAGDVAERTDEIRWSLDLLRRRFAKVIWVPGNHELWTTNRDPQIFGRARYDYLVNCDEGVVTPEHPFPVWTERGGPATIVPFLLYDYSFLPEGANSKAEGVAIAKERNVVATDEFLLSPEPYPTRDAWCHERVAATRARLEQLDWQPTVLVNHFPLLRQPCDALFYPEFSLWCGTTKTADWHTRYNAVCSVYGHLHIPRTTWYDGVRFEEVSVGYPREWRRRKPYSWLRQVLPDPQ VGAEPTLWAISDLHTGHLGNKPVAESLYPSSPDDWLIVAGDVAERTDEIRWSLDLLRRRFAKVIWVPGNHELWTTNRDPQIFGRARYDYLVNCDEGVVTPEHPFPVWTERGGPATIVPFLLYDYSFLPEGANSKAEGVAIAKERNVVATDEFLLSPEPYPTRDAWCHERVAATRARLEQLDWQPTVLVNHFPLLRQPCDALFYPEFSLWCGTTKTADWHTRYNAVCSVYGHLHIPRTTWYDGVRFEEVSVGYPREWRRRKPYSWLRQVLPDPQYAP 6unw-a1-m2-cB_6unw-a1-m2-cA Epoxide hydrolase from an endophytic Streptomyces 2.21 X-RAY DIFFRACTION 44 1.0 2305222 (Streptomyces sp. CBMAI 2042) 2305222 (Streptomyces sp. CBMAI 2042) 322 331 6unw-a1-m1-cB_6unw-a1-m1-cA 6unw-a1-m1-cC_6unw-a1-m2-cC EKGAVHRLVDTPGGRIHLVEQGTGPLVLLVHGFPESWYSWRHQLPALAAAGYRAAAIDVRGYGRSAKPAATDAYRMLAHVADNTAVVHALGEETATVVGHDWGSPIAANSALLRPDVFTAVGLLSVPYAPRGEHRPTDGFARIGGDEEFYVSYFQAPGRAEAEIERDVRGWLAGFYTGLTGGALTPEEHGRLFFVPPGAHLADRFPTGPLPAWLTEADLDVYSGEFERSGLTGALNRYRNVDRDWEDLAAWHGAPITQPSLFIGGALDASTTWMADALDAYPATLPGLSAAHILEGCGHWIQQERPDEVNRLLTQWLDGLRN EKGAVHRLVDTPGGRIHLVEQGTGPLVLLVHGFPESWYSWRHQLPALAAAGYRAAAIDVRGYGRSAKPAATDAYRMLAHVADNTAVVHALGEETATVVGHDWGSPIAANSALLRPDVFTAVGLLSVPYAPRGEHRPTDGFARIGGDEEFYVSYFQAPGRAEAEIERDVRGWLAGFYTGLTGGALTPEEHGRLFFVPPGAHLADRFPTGPLPAWLTEADLDVYSGEFERSGLTGALNRYRNVDRDWEDLAAWHGAPITQPSLFIGGALDASTTWMADALDAYPATLPGLSAAHILEGCGHWIQQERPDEVNRLLTQWLDGLRNSLEHHHHHH 6unw-a1-m2-cC_6unw-a1-m2-cB Epoxide hydrolase from an endophytic Streptomyces 2.21 X-RAY DIFFRACTION 57 1.0 2305222 (Streptomyces sp. CBMAI 2042) 2305222 (Streptomyces sp. CBMAI 2042) 320 322 6unw-a1-m1-cA_6unw-a1-m2-cA 6unw-a1-m1-cC_6unw-a1-m1-cB GAVHRLVDTPGGRIHLVEQGTGPLVLLVHGFPESWYSWRHQLPALAAAGYRAAAIDVRGYGRSAKPAATDAYRMLAHVADNTAVVHALGEETATVVGHDWGSPIAANSALLRPDVFTAVGLLSVPYAPRGEHRPTDGFARIGGDEEFYVSYFQAPGRAEAEIERDVRGWLAGFYTGLTGGALTPEEHGRLFFVPPGAHLADRFPTGPLPAWLTEADLDVYSGEFERSGLTGALNRYRNVDRDWEDLAAWHGAPITQPSLFIGGALDASTTWMADALDAYPATLPGLSAAHILEGCGHWIQQERPDEVNRLLTQWLDGLRN EKGAVHRLVDTPGGRIHLVEQGTGPLVLLVHGFPESWYSWRHQLPALAAAGYRAAAIDVRGYGRSAKPAATDAYRMLAHVADNTAVVHALGEETATVVGHDWGSPIAANSALLRPDVFTAVGLLSVPYAPRGEHRPTDGFARIGGDEEFYVSYFQAPGRAEAEIERDVRGWLAGFYTGLTGGALTPEEHGRLFFVPPGAHLADRFPTGPLPAWLTEADLDVYSGEFERSGLTGALNRYRNVDRDWEDLAAWHGAPITQPSLFIGGALDASTTWMADALDAYPATLPGLSAAHILEGCGHWIQQERPDEVNRLLTQWLDGLRN 6uoz-a1-m1-cB_6uoz-a1-m1-cA Discovery of fragment-inspired heterocyclic benzenesulfonmides as inhibitors of the WDR5-MYC interaction P61964 P61964 1.532 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 302 304 7dno-a1-m1-cA_7dno-a1-m1-cB VKPNYALKFTLAGHTKAVSSVKFSPNGEWLASSSADKLIKIWGAYDGKFEKTISGHKLGISDVAWSSDSNLLVSASDDKTLKIWDVSSGKCLKTLKGHSNYVFCCNFNPQSNLIVSGSFDESVRIWDVKTGKCLKTLPAHSDPVSAVHFNRDGSLIVSSSYDGLCRIWDTASGQCLKTLIDNPPVSFVKFSPNGKYILAATLDNTLKLWDYSKGKCLKTYTGHKNEKYCIFANFSVTGGKWIVSGSEDNLVYIWNLQTKEIVQKLQGHTDVVISTACHPTENIIASAALENDKTIKLWKSDC VKPNYALKFTLAGHTKAVSSVKFSPNGEWLASSSADKLIKIWGAYDGKFEKTISGHKLGISDVAWSSDSNLLVSASDDKTLKIWDVSSGKCLKTLKGHSNYVFCCNFNPQSNLIVSGSFDESVRIWDVKTGKCLKTLPAHSDPVSAVHFNRDGSLIVSSSYDGLCRIWDTASGQCLKTLIDDDNPPVSFVKFSPNGKYILAATLDNTLKLWDYSKGKCLKTYTGHKNEKYCIFANFSVTGGKWIVSGSEDNLVYIWNLQTKEIVQKLQGHTDVVISTACHPTENIIASAALENDKTIKLWKSDC 6up8-a1-m1-cA_6up8-a1-m1-cB Triosephosphate isomerase deficiency: Effect of F240L mutation on enzyme structure P60174 P60174 2 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 246 246 1hti-a1-m1-cA_1hti-a1-m1-cB 1r2r-a1-m1-cA_1r2r-a1-m1-cB 1r2r-a2-m1-cC_1r2r-a2-m1-cD 1r2s-a1-m1-cB_1r2s-a1-m1-cA 1r2s-a2-m1-cC_1r2s-a2-m1-cD 1r2t-a1-m1-cA_1r2t-a1-m1-cB 1wyi-a1-m1-cA_1wyi-a1-m1-cB 1wyi-a1-m2-cA_1wyi-a1-m2-cB 1wyi-a2-m1-cA_1wyi-a2-m1-cB 2jk2-a1-m1-cA_2jk2-a1-m1-cB 2vom-a1-m1-cA_2vom-a1-m1-cB 2vom-a2-m1-cD_2vom-a2-m1-cC 4br1-a1-m1-cA_4br1-a1-m1-cB 4owg-a1-m1-cB_4owg-a1-m1-cA 4poc-a1-m1-cA_4poc-a1-m1-cB 4pod-a1-m1-cA_4pod-a1-m1-cB 4unk-a1-m1-cB_4unk-a1-m1-cA 4unl-a1-m1-cA_4unl-a1-m1-cB 4zvj-a1-m1-cA_4zvj-a1-m1-cB 6c2g-a1-m2-cC_6c2g-a1-m1-cA 6c2g-a2-m1-cD_6c2g-a2-m1-cB 6d43-a1-m1-cA_6d43-a1-m1-cB 6nlh-a1-m1-cE_6nlh-a1-m1-cA 6nlh-a2-m1-cC_6nlh-a2-m1-cB 6nlh-a3-m1-cF_6nlh-a3-m1-cD 6nlh-a4-m1-cH_6nlh-a4-m1-cG 6up1-a1-m1-cA_6up1-a1-m1-cB 6up5-a1-m1-cA_6up5-a1-m1-cB 6upf-a1-m1-cA_6upf-a1-m1-cB 7rde-a1-m1-cB_7rde-a1-m1-cA 7sx1-a1-m1-cA_7sx1-a1-m1-cB 7t0q-a1-m1-cA_7t0q-a1-m1-cB 7uxb-a1-m1-cA_7uxb-a1-m1-cB 7uxv-a1-m1-cA_7uxv-a1-m1-cB SRKFFVGGNWKMNGRKQSLGELIGTLNAAKVPADTEVVCAPPTAYIDFARQKLDPKIAVAAQNCYKVTNGAFTGEISPGMIKDCGATWVVLGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKVIADNVKDWSKVVLAYEPVWAIGTGKTATPQQAQEVHEKLRGWLKSNVSDAVAQSTRIIYGGSVTGATCKELASQPDVDGFLVGGASLKPELVDIINAKQ SRKFFVGGNWKMNGRKQSLGELIGTLNAAKVPADTEVVCAPPTAYIDFARQKLDPKIAVAAQNCYKVTNGAFTGEISPGMIKDCGATWVVLGHSERRHVFGESDELIGQKVAHALAEGLGVIACIGEKLDEREAGITEKVVFEQTKVIADNVKDWSKVVLAYEPVWAIGTGKTATPQQAQEVHEKLRGWLKSNVSDAVAQSTRIIYGGSVTGATCKELASQPDVDGFLVGGASLKPELVDIINAKQ 6uph-a1-m1-cA_6uph-a1-m1-cE Structure of a Yeast Centromeric Nucleosome at 2.7 Angstrom resolution P36012 P36012 2.7 ELECTRON MICROSCOPY 31 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 93 97 6qld-a1-m1-ca_6qld-a1-m1-ce 7k78-a1-m1-cA_7k78-a1-m1-cE 7on1-a1-m1-ca_7on1-a1-m1-ce ELALYEIRKYQRSTDLLISKIPFARLVKEVTDEFTTKDQDLRWQSMAIMALQEASEAYLVGLLEHTNLLALHAKRITIMKKDMQLARRIRGQF TPSELALYEIRKYQRSTDLLISKIPFARLVKEVTDEFTTKDQDLRWQSMAIMALQEASEAYLVGLLEHTNLLALHAKRITIMKKDMQLARRIRGQFI 6ur7-a1-m1-cA_6ur7-a1-m1-cB Crystal structure of Sel1 repeat protein from Oxalobacter formigenes 2.709 X-RAY DIFFRACTION 46 1.0 847 (Oxalobacter formigenes) 847 (Oxalobacter formigenes) 243 251 NALTGIELYKAKKYEQAMTHLMTPDAQKNPAAQNLIGYLYDKGLGVEKNAEIANQWYLKAAEQGFAKAQFNLGLSYEKGTGISKNMVEAVKWYRKAAEQNHAKAEMKMGYLTVEGIGTQKNYKEALQWYRRAAEHGDNRAYADIGLFYDQGNGVKKDPNRAVQYYIMGAEKGDGEAQLFLADCYAKASGIPYDADRALYWYKESAKNGNITAMKVLSGIYKQLGIEKNPEKSRHWLEMAKQKE NADNALTGIELYKAKKYEQAMTHLMTPDAQKNPAAQNLIGYLYDKGLGVEKNAEIANQWYLKAAEQGFAKAQFNLGLSYEKGTGISKNMVEAVKWYRKAAEQNHAKAEMKMGYLTVEGIGTQKNYKEALQWYRRAAEHGDNRAYADIGLFYDQGNGVKKDPNRAVQYYIMGAEKGDGEAQLFLADCYAKASGIPYDADRALYWYKESAKNGNITAMKVLSGIYKLGQLGIEKNPEKSRHWLEMAKQKEAQP 6urb-a1-m1-cA_6urb-a1-m1-cB Pseudomonas aeruginosa HasA mutant - H32A O69756 O69756 2.096 X-RAY DIFFRACTION 23 0.989 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 180 181 3mol-a1-m1-cB_3mol-a1-m1-cA 5iqw-a2-m1-cA_5iqw-a2-m2-cA SISISYSTTYSGWTVADYLADWSAYFGDVNARPGQVVDGSNTGGFNPGPFDGSQYALKSTASDAAFIAGGDLHYTLFSNPSHTLWGKLDSIALGDTLTGGASSGGYALDSQEVSFSNLGLDSPIAQGRDGTVHKVVYGLMSGDSSALQGQIDALLKAVDPSLSINSTFDQLAAAGVAHAT SISISYTYSGWTVADYLADWSAYFGDVNARPGQVVDGSNTGGFNPGPFDGSQYALKSTASDAAFIAGGDLHYTLFSNPSHTLWGKLDSIALGDTLTGGASSGGYALDSQEVSFSNLGLDSPIAQGRDGTVHKVVYGLMSGDSSALQGQIDALLKAVDPSLSINSTFDQLAAAGVAHATPAA 6urf-a2-m1-cC_6urf-a2-m1-cD Malic enzyme from Mycobacterium tuberculosis P9WK25 P9WK25 3.6 X-RAY DIFFRACTION 171 0.99 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 507 526 VPRIPAALSAPSLNRGVGFTHAQRRRLGLTGRLPSAVLTLDQQAERVWHQLQSLATELGRNLLLEQLHYRHEVLYFKVLADHLPELMPVVYTPTVGEAIQRFSDEYRGQRGLFLSIDPDEIEEAFNTLGLGDLIVCTDAEAILGIGDWGVGGIQIAVGKLALYTAGGGVDPRRCLAVSLDVGTDNEQLLADPFYLGNRHARRRGREYDEFVSRYIETAQRLFPRILHFEDFGPANARKILDTYGTDYCVFNDDMQGTGAVVLAAVYSGLKVTGIPLRDQTIVVAGTAGMGIADQIRDAMVADGATLEQAVSQIWPIDDDMDDLRDFQGDRVGAIKIASPILLGCYGAFTKEVVEAMTASCKHPMIFPLSNPTSRMEAIPADVLAWSNGRALLATGSPVAPVEFDTTYVIGQANNVLAFPGIGLGVIVAGARLITRRMLHAAAKAIAHQANPTNPGDSLLPDVQNLRAISTTVAEAVYRAAVQDGVASRTHDDVRQAIVDTMWLPAYD VPRIPAALSAPSLNRGVGFTHAQRRRLGLTGRLPSAVLTLDQQAERVWHQLQSLATELGRNLLLEQLHYRHEVLYFKVLADHLPELMPVVYTPTVGEAIQRFSDEYRGQRGLFLSIDEPDEIEEAFNTLGLGPEDVDLIVCTDAEAILGIGDWGVGGIQIAVGKLALYTAGGGVDPRRCLAVSLDVGTDNEQLLADPFYLGNRHARRRGREYDEFVSRYIETAQRLFPRAILHFEDFGPANARKILDTYGTDYCVFNDDMQGTGAVVLAAVYSGLKVTGIPLRDQTIVVFGAGTAGMGIADQIRDAMVADGATLEQAVSQIWPIDRLLFDDMDDLRDFQVPYAVGLSDAIKIASPTILLGCSTVYGAFTKEVVEAMTASCKHPMIFPLSNPTSRMEAIPADVLAWSNGRALLATGSPVAPVEFDETTYVIGQANNVLAFPGIGLGVIVAGARLITRRMLHAAAKAIAHQANPTNPGDSLLPDVQNLRAISTTVAEAVYRAAVQDGVASRTHDDVRQAIVDTMWLPA 6urm-a1-m1-cF_6urm-a1-m1-cC Crystal structure of vaccine-elicited receptor-binding site targeting antibody LPAF-a.01 in complex with Hemagglutinin H1 A/California/04/2009 C3W5S1 C3W5S1 2.65 X-RAY DIFFRACTION 37 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 219 217 APLHLGKCNIAGWILGNPECESLSTASSWSYIVETPSSDNGTCYPGDFIDYEELREQLSSVSSFERFEIFPKTSSWPNHDSNKGVTAACPHAGAKSFYKNLIWLVKKGNSYPKLSKSYINDKGKEVLVLWGIHHPSTSADQQSLYQNADTYVFVGSSRYSKKFKPEIAIRPKVRDQEGRMNYYWTLVEPGDKITFEATGNLVVPRYAFAMERNAGSGII LHLGKCNIAGWILGNPECESLSTASSWSYIVETPSSDNGTCYPGDFIDYEELREQLSSVSSFERFEIFPKTSSWPNHDSNKGVTAACPHAGAKSFYKNLIWLVKKGNSYPKLSKSYINDKGKEVLVLWGIHHPSTSADQQSLYQNADTYVFVGSSRYSKKFKPEIAIRPKVRDQEGRMNYYWTLVEPGDKITFEATGNLVVPRYAFAMERNAGSGII 6us8-a4-m1-cN_6us8-a4-m1-cM Influenza A M2 proton channel wild type TM domain bound to S-rimantadine D5F6K1 D5F6K1 1.7 X-RAY DIFFRACTION 28 1.0 751223 (Influenza A virus (A/Jinfang/132/2002(H3N2))) 751223 (Influenza A virus (A/Jinfang/132/2002(H3N2))) 23 24 3lbw-a1-m1-cC_3lbw-a1-m1-cD 6bmz-a1-m1-cD_6bmz-a1-m1-cA 6bmz-a2-m1-cE_6bmz-a2-m1-cH 6bmz-a2-m1-cF_6bmz-a2-m1-cG 6bmz-a3-m1-cJ_6bmz-a3-m1-cK 6bmz-a4-m1-cM_6bmz-a4-m1-cN 6bmz-a4-m1-cO_6bmz-a4-m1-cP 6oug-a1-m1-cB_6oug-a1-m1-cA 6oug-a1-m1-cD_6oug-a1-m1-cA 6oug-a2-m1-cF_6oug-a2-m1-cG 6oug-a2-m1-cG_6oug-a2-m1-cH 6us8-a1-m1-cC_6us8-a1-m1-cB 6us8-a1-m1-cC_6us8-a1-m1-cD 6us8-a2-m1-cG_6us8-a2-m1-cF 6us8-a3-m1-cI_6us8-a3-m1-cL 6us8-a3-m1-cL_6us8-a3-m1-cK 6us8-a4-m1-cN_6us8-a4-m1-cO DPLVVAASIIGILHLILWILDRL SDPLVVAASIIGILHLILWILDRL 6us8-a4-m1-cO_6us8-a4-m1-cP Influenza A M2 proton channel wild type TM domain bound to S-rimantadine D5F6K1 D5F6K1 1.7 X-RAY DIFFRACTION 30 1.0 751223 (Influenza A virus (A/Jinfang/132/2002(H3N2))) 751223 (Influenza A virus (A/Jinfang/132/2002(H3N2))) 23 23 3lbw-a1-m1-cA_3lbw-a1-m1-cB 3lbw-a1-m1-cA_3lbw-a1-m1-cD 3lbw-a1-m1-cB_3lbw-a1-m1-cC 6bkk-a1-m1-cA_6bkk-a1-m1-cB 6bkk-a1-m1-cA_6bkk-a1-m1-cD 6bkk-a1-m1-cB_6bkk-a1-m1-cC 6bkk-a1-m1-cC_6bkk-a1-m1-cD 6bkk-a2-m1-cE_6bkk-a2-m1-cF 6bkk-a2-m1-cE_6bkk-a2-m1-cH 6bkk-a2-m1-cF_6bkk-a2-m1-cG 6bkk-a2-m1-cG_6bkk-a2-m1-cH 6bkl-a1-m1-cB_6bkl-a1-m1-cA 6bkl-a1-m1-cB_6bkl-a1-m1-cC 6bkl-a1-m1-cC_6bkl-a1-m1-cD 6bkl-a1-m1-cD_6bkl-a1-m1-cA 6bkl-a2-m1-cF_6bkl-a2-m1-cE 6bkl-a2-m1-cF_6bkl-a2-m1-cG 6bkl-a2-m1-cG_6bkl-a2-m1-cH 6bkl-a2-m1-cH_6bkl-a2-m1-cE 6bmz-a1-m1-cB_6bmz-a1-m1-cA 6bmz-a1-m1-cB_6bmz-a1-m1-cC 6bmz-a1-m1-cD_6bmz-a1-m1-cC 6bmz-a2-m1-cF_6bmz-a2-m1-cE 6bmz-a2-m1-cH_6bmz-a2-m1-cG 6bmz-a3-m1-cI_6bmz-a3-m1-cL 6bmz-a3-m1-cJ_6bmz-a3-m1-cI 6bmz-a3-m1-cK_6bmz-a3-m1-cL 6bmz-a4-m1-cM_6bmz-a4-m1-cP 6bmz-a4-m1-cO_6bmz-a4-m1-cN 6nv1-a1-m1-cA_6nv1-a1-m1-cB 6nv1-a1-m1-cA_6nv1-a1-m1-cD 6nv1-a1-m1-cB_6nv1-a1-m1-cC 6nv1-a1-m1-cC_6nv1-a1-m1-cD 6nv1-a2-m1-cE_6nv1-a2-m1-cF 6nv1-a2-m1-cE_6nv1-a2-m1-cH 6nv1-a2-m1-cF_6nv1-a2-m1-cG 6nv1-a2-m1-cG_6nv1-a2-m1-cH 6us8-a1-m1-cA_6us8-a1-m1-cB 6us8-a1-m1-cA_6us8-a1-m1-cD 6us8-a2-m1-cE_6us8-a2-m1-cF 6us8-a2-m1-cE_6us8-a2-m1-cH 6us8-a2-m1-cG_6us8-a2-m1-cH 6us8-a3-m1-cI_6us8-a3-m1-cJ 6us8-a3-m1-cJ_6us8-a3-m1-cK 6us8-a4-m1-cP_6us8-a4-m1-cM 6us9-a1-m1-cA_6us9-a1-m1-cB 6us9-a1-m1-cC_6us9-a1-m1-cB 6us9-a1-m1-cC_6us9-a1-m1-cD 6us9-a1-m1-cD_6us9-a1-m1-cA 6us9-a2-m1-cE_6us9-a2-m1-cH 6us9-a2-m1-cF_6us9-a2-m1-cE 6us9-a2-m1-cF_6us9-a2-m1-cG 6us9-a2-m1-cG_6us9-a2-m1-cH 6us9-a3-m1-cI_6us9-a3-m1-cL 6us9-a3-m1-cJ_6us9-a3-m1-cI 6us9-a3-m1-cJ_6us9-a3-m1-cK 6us9-a3-m1-cK_6us9-a3-m1-cL 6us9-a4-m1-cM_6us9-a4-m1-cN 6us9-a4-m1-cM_6us9-a4-m1-cP 6us9-a4-m1-cO_6us9-a4-m1-cN 6us9-a4-m1-cO_6us9-a4-m1-cP DPLVVAASIIGILHLILWILDRL DPLVVAASIIGILHLILWILDRL 6usi-a1-m1-cB_6usi-a1-m1-cA Barrier-to-autointegration factor soaked in 1,6-hexanediol: 1 of 14 in MSCS set O75531 O75531 1.653 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 89 1ci4-a1-m1-cA_1ci4-a1-m1-cB 1qck-a1-m1-cA_1qck-a1-m1-cB 2bzf-a1-m1-cA_2bzf-a1-m2-cA 2ezx-a1-m1-cA_2ezx-a1-m1-cB 2ezy-a1-m1-cA_2ezy-a1-m1-cB 2ezz-a1-m1-cA_2ezz-a1-m1-cB 2odg-a1-m1-cA_2odg-a1-m1-cB 6ghd-a1-m1-cD_6ghd-a1-m1-cE 6ghd-a2-m1-cC_6ghd-a2-m1-cA 6rpr-a1-m1-cD_6rpr-a1-m1-cE 6unt-a1-m1-cB_6unt-a1-m1-cA 6ure-a1-m1-cB_6ure-a1-m1-cA 6urj-a1-m1-cB_6urj-a1-m1-cA 6urk-a1-m1-cB_6urk-a1-m1-cA 6url-a1-m1-cB_6url-a1-m1-cA 6urn-a1-m1-cB_6urn-a1-m1-cA 6urr-a1-m1-cB_6urr-a1-m1-cA 6urz-a1-m1-cB_6urz-a1-m1-cA 6us0-a1-m1-cB_6us0-a1-m1-cA 6us1-a1-m1-cB_6us1-a1-m1-cA 6us7-a1-m1-cB_6us7-a1-m1-cA 6usb-a1-m1-cB_6usb-a1-m1-cA 6usd-a1-m1-cB_6usd-a1-m1-cA 7ndy-a1-m1-cA_7ndy-a1-m1-cB 7z21-a1-m1-cC_7z21-a1-m1-cA 7z21-a2-m1-cD_7z21-a2-m1-cB TTSQKHRDFVAEPMGEKPVGSLAGIGEVLGKKLEERGFDKAYVVLGQFLVLKKDEDLFREWLKDTCGANAKQSRDCFGCLREWCDAFL MTTSQKHRDFVAEPMGEKPVGSLAGIGEVLGKKLEERGFDKAYVVLGQFLVLKKDEDLFREWLKDTCGANAKQSRDCFGCLREWCDAFL 6uss-a1-m1-cA_6uss-a1-m1-cB Catalytic S88C mutant of gut microbial sulfatase from Bacteroides fragilis CAG:558 R5RYH7 R5RYH7 2.5 X-RAY DIFFRACTION 51 1.0 1263047 (Bacteroides fragilis CAG:558) 1263047 (Bacteroides fragilis CAG:558) 485 485 RPNIILFMVDDMGWQDTSLPFWTQKTHYNEVYETPNMERLAKQGVMFTQAYASSICSPTRCSLITGTNAARHRVTNWTYPKGQQTDRPSDVFNVADWNVNGVCQVPNIDHTFQATSLAEILKDNGYHTIHCGKAHFGAVNTPGESPYHMGFEVNIAGHAGGGLASYLGENNYGNRTDGKPNPWFAVPGLDKYWGTDTFVSEALTLEAIKALNHAKEYNQPFFLYMAHYAIHVPIDKDKRFYQKYIDKGLTPKEAAYAALIEGMDKSLGDLMDWLDKNGEADNTIVIFMSDNGGLSSEPGWRDGKLHTQNSPLNSGKGSAYEGGVREPMIVRWPGVVKPDTKCDKYLIIEDFYPSILEMAQVKHYKTVQPIDGISFIPLLKQTGDPSKGRSLYWNFPNHWGNDGPGIGPTCTVRKGDWKLIYYYENGKKELFNIPQDIGEKNNLAAQHPDIVKHLSKDLGNYLRKVGGQRPSFKATGKPCPWPDEI RPNIILFMVDDMGWQDTSLPFWTQKTHYNEVYETPNMERLAKQGVMFTQAYASSICSPTRCSLITGTNAARHRVTNWTYPKGQQTDRPSDVFNVADWNVNGVCQVPNIDHTFQATSLAEILKDNGYHTIHCGKAHFGAVNTPGESPYHMGFEVNIAGHAGGGLASYLGENNYGNRTDGKPNPWFAVPGLDKYWGTDTFVSEALTLEAIKALNHAKEYNQPFFLYMAHYAIHVPIDKDKRFYQKYIDKGLTPKEAAYAALIEGMDKSLGDLMDWLDKNGEADNTIVIFMSDNGGLSSEPGWRDGKLHTQNSPLNSGKGSAYEGGVREPMIVRWPGVVKPDTKCDKYLIIEDFYPSILEMAQVKHYKTVQPIDGISFIPLLKQTGDPSKGRSLYWNFPNHWGNDGPGIGPTCTVRKGDWKLIYYYENGKKELFNIPQDIGEKNNLAAQHPDIVKHLSKDLGNYLRKVGGQRPSFKATGKPCPWPDEI 6ust-a2-m1-cB_6ust-a2-m2-cC Gut microbial sulfatase from Hungatella hathewayi A0A174CV66 A0A174CV66 2.6 X-RAY DIFFRACTION 110 1.0 154046 (Hungatella hathewayi) 154046 (Hungatella hathewayi) 463 464 6ust-a1-m3-cD_6ust-a1-m1-cA PNFLFIFMDDMGWRDLACTGSTFYETPNIDRLCRQGMVFANSYASCPVCSPSRASYLTGQYPARLGVTDWIDMEGTSHPLRGKLIDAPYIKHLPEGEYTIAQALKDAGYETWHVGKWHLGGREYYPDHFGFDVNIGGCSWGHPHEGYFSPYGIETLPEGPEGEYLTDRITDEAVRLLKERKAGGSRKPFYMNLCHYAVHTPIQVKDEDRERFEKKAREQGLDQETALVEGEFHHTEDKKGRRVVRRVIQSDPSYAGMIWNLDQNIGRLLEALSECGEEENTVVVFTSDNGGLATSEGSPTCNLPASEGKGWVYEGGTRVPLIVKYPGHVAPGSRCDVPVTTPDFYPTFLELAGVPQKSGIPIDGRSIVPLLAGNHMPERPVFWHYPHYGNQGGTPAASVVLGDYKYIEFFEDGRGELYDLKADFSETNNICENMPEMAARLRMLLHGWQREVCARFPEVNEAY QPNFLFIFMDDMGWRDLACTGSTFYETPNIDRLCRQGMVFANSYASCPVCSPSRASYLTGQYPARLGVTDWIDMEGTSHPLRGKLIDAPYIKHLPEGEYTIAQALKDAGYETWHVGKWHLGGREYYPDHFGFDVNIGGCSWGHPHEGYFSPYGIETLPEGPEGEYLTDRITDEAVRLLKERKAGGSRKPFYMNLCHYAVHTPIQVKDEDRERFEKKAREQGLDQETALVEGEFHHTEDKKGRRVVRRVIQSDPSYAGMIWNLDQNIGRLLEALSECGEEENTVVVFTSDNGGLATSEGSPTCNLPASEGKGWVYEGGTRVPLIVKYPGHVAPGSRCDVPVTTPDFYPTFLELAGVPQKSGIPIDGRSIVPLLAGNHMPERPVFWHYPHYGNQGGTPAASVVLGDYKYIEFFEDGRGELYDLKADFSETNNICENMPEMAARLRMLLHGWQREVCARFPEVNEAY 6ut2-a1-m1-cB_6ut2-a1-m1-cC 3D structure of the leiomodin/tropomyosin binding interface P03069 P03069 NOT SOLUTION NMR 37 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 33 33 GMDAIKKKMQMLKLDNYHLENEVARLKKLVGER GMDAIKKKMQMLKLDNYHLENEVARLKKLVGER 6ut7-a1-m1-cG_6ut7-a1-m1-cN Fitted model for the tetradecameric assembly of Thermococcus gammatolerans McrB AAA+ hexamers with bound McrC C5A3Z2 C5A3Z2 4.26 ELECTRON MICROSCOPY 99 1.0 187878 (Thermococcus gammatolerans) 187878 (Thermococcus gammatolerans) 414 414 TTITLYEHDEKRYRDIAGDKKAIQDALIKLNKQFKKDFKKLDRSEDNSDTEDTIDESKGVVEVYANKIKARHYVGFAAVDNVFLQILPKVFKPKEDTWEPILAFIRMLDMAYGLKIKDHDLAYLQGRNLRPNLYEVFIYLFAKSLWSEVQRGYHREYVEVHREEKFLRGKLLMSRQIRKLPHQLNTFSVEVHELIEDNLLNRIFYASVREALRRTTWGLNRKLLGELMLAFDGITPIHLRTEHFERVHFTRLNERFRRPFELAKLLFMEVSGFFVDMNKLFERFIERVLVRNLPPEYKLFYQESYPFSSQKPDYVVRKGNTPVVVLDAKYRELKERIPSSDMLRQLYVYSRIWPAVIVIPSSSTYNQGLPDKPLEFEFFDERKLFIVAYNMDYVKTGAIFKADKNFRRSLNNII TTITLYEHDEKRYRDIAGDKKAIQDALIKLNKQFKKDFKKLDRSEDNSDTEDTIDESKGVVEVYANKIKARHYVGFAAVDNVFLQILPKVFKPKEDTWEPILAFIRMLDMAYGLKIKDHDLAYLQGRNLRPNLYEVFIYLFAKSLWSEVQRGYHREYVEVHREEKFLRGKLLMSRQIRKLPHQLNTFSVEVHELIEDNLLNRIFYASVREALRRTTWGLNRKLLGELMLAFDGITPIHLRTEHFERVHFTRLNERFRRPFELAKLLFMEVSGFFVDMNKLFERFIERVLVRNLPPEYKLFYQESYPFSSQKPDYVVRKGNTPVVVLDAKYRELKERIPSSDMLRQLYVYSRIWPAVIVIPSSSTYNQGLPDKPLEFEFFDERKLFIVAYNMDYVKTGAIFKADKNFRRSLNNII 6utu-a1-m1-cH_6utu-a1-m1-cB Crystal structure of minor pseudopilin ternary complex of XcpVWX from the Type 2 secretion system of Pseudomonas aeruginosa in the P3 space group Q00517 Q00517 2.85 X-RAY DIFFRACTION 21 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 159 162 QRMRELVRAMGALERDLTQAVERPVRDELGDNRGAFLSEGEDQIVEFTRGGWRNPLGQARSRLQRVRWSLSGETLERRYWLVLDRAQDSKPRVQQVLDGVTALSWRFLDKEHNWQGHWPTDEGSEEERLESLPLAVEMTLEHRHYGKLVRVWRLLDPPL EQRMRELVRAMGALERDLTQAVERPVRDELGDNRGAFLSEGENDQIVEFTRGGWRNPLGQARSRLQRVRWSLSGETLERRYWLVLDRAQDSKPRVQQVLDGVTALSWRFLDKEHNWQGHWPTDEGSEEERLESLPLAVEMTLEHRHYGKLVRVWRLLDPPLK 6uug-a1-m1-cA_6uug-a1-m2-cB Structure of methanesulfinate monooxygenase MsuC from Pseudomonas fluorescens at 1.69 angstrom resolution Q3K9A0 Q3K9A0 1.685 X-RAY DIFFRACTION 101 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 387 387 6u76-a1-m1-cA_6u76-a1-m2-cB 6u76-a1-m1-cB_6u76-a1-m2-cA 6uug-a1-m1-cB_6uug-a1-m2-cA LLSPLQTARQLAAEFALTAVERDERGGTPKAERDALRDSGLLALSIPTRYGGLGARWSETLQVVREFAKVDSSIAHVFGFHHLMLATVRLFSRPEQWQPWFEQTARQNWFWGNALNPLDTRTVVKDLGGWREFSGKKSFCSGASDSQMLIASAVDESNGGKLLIAAIPSGRSGITLHNDWNNIGQRQTDSGSATFERVRVEESELLLDPGPLSTPFACLRPLIAQLTFTHMFLGIAEGAFEEARQYTLSETRVWHKSSVREVREDPYVLAHYGEFWVALEGIRLLVERAAALLDEAWAKGPNLSAEERGHLATAIATAKVAASRQGLEICSRLFEVTGARSTHASLRLDRHWRNLRTQTLHDPLDYKLHELGDWALNQSLPVPTFYS LLSPLQTARQLAAEFALTAVERDERGGTPKAERDALRDSGLLALSIPTRYGGLGARWSETLQVVREFAKVDSSIAHVFGFHHLMLATVRLFSRPEQWQPWFEQTARQNWFWGNALNPLDTRTVVKDLGGWREFSGKKSFCSGASDSQMLIASAVDESNGGKLLIAAIPSGRSGITLHNDWNNIGQRQTDSGSATFERVRVEESELLLDPGPLSTPFACLRPLIAQLTFTHMFLGIAEGAFEEARQYTLSETRVWHKSSVREVREDPYVLAHYGEFWVALEGIRLLVERAAALLDEAWAKGPNLSAEERGHLATAIATAKVAASRQGLEICSRLFEVTGARSTHASLRLDRHWRNLRTQTLHDPLDYKLHELGDWALNQSLPVPTFYS 6uug-a1-m2-cA_6uug-a1-m2-cB Structure of methanesulfinate monooxygenase MsuC from Pseudomonas fluorescens at 1.69 angstrom resolution Q3K9A0 Q3K9A0 1.685 X-RAY DIFFRACTION 84 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 387 387 6u76-a1-m1-cA_6u76-a1-m1-cB 6u76-a1-m2-cA_6u76-a1-m2-cB 6uug-a1-m1-cA_6uug-a1-m1-cB LLSPLQTARQLAAEFALTAVERDERGGTPKAERDALRDSGLLALSIPTRYGGLGARWSETLQVVREFAKVDSSIAHVFGFHHLMLATVRLFSRPEQWQPWFEQTARQNWFWGNALNPLDTRTVVKDLGGWREFSGKKSFCSGASDSQMLIASAVDESNGGKLLIAAIPSGRSGITLHNDWNNIGQRQTDSGSATFERVRVEESELLLDPGPLSTPFACLRPLIAQLTFTHMFLGIAEGAFEEARQYTLSETRVWHKSSVREVREDPYVLAHYGEFWVALEGIRLLVERAAALLDEAWAKGPNLSAEERGHLATAIATAKVAASRQGLEICSRLFEVTGARSTHASLRLDRHWRNLRTQTLHDPLDYKLHELGDWALNQSLPVPTFYS LLSPLQTARQLAAEFALTAVERDERGGTPKAERDALRDSGLLALSIPTRYGGLGARWSETLQVVREFAKVDSSIAHVFGFHHLMLATVRLFSRPEQWQPWFEQTARQNWFWGNALNPLDTRTVVKDLGGWREFSGKKSFCSGASDSQMLIASAVDESNGGKLLIAAIPSGRSGITLHNDWNNIGQRQTDSGSATFERVRVEESELLLDPGPLSTPFACLRPLIAQLTFTHMFLGIAEGAFEEARQYTLSETRVWHKSSVREVREDPYVLAHYGEFWVALEGIRLLVERAAALLDEAWAKGPNLSAEERGHLATAIATAKVAASRQGLEICSRLFEVTGARSTHASLRLDRHWRNLRTQTLHDPLDYKLHELGDWALNQSLPVPTFYS 6uuk-a1-m1-cA_6uuk-a1-m1-cB Crystal structure of muramoyltetrapeptide carboxypeptidase from Oxalobacter formigenes C3XA61 C3XA61 2.348 X-RAY DIFFRACTION 76 0.996 556269 (Oxalobacter formigenes OXCC13) 556269 (Oxalobacter formigenes OXCC13) 275 281 IAIIAPGGYVPDSDLQRAIGVLKSRGYEVFNYVRHERFAANDEERSRQIEAATNPDVKIVIALRGGYGTTRLLHDLDFAKLAKSGKLFVGHSDFTVFEALLKHGAVSFSGPIQSDFTRGDLSAFTLNHFDETTSPETSVKWVSKPDVDVEGTLWGGNLTLAHAGTPWPDISGGILFVEDIHEHPYRVERLLQLDESGILKKQKALVLGHFSEFKLSDYDNGYDFNALSWLRSRLSIPVVTGLPFGHTKDKVTLPVGGRAHLSKAGKIQLDIGDYP TGIAIIAPGGYVPDSDLQRAIGVLKSRGYEVFNYVDKRHERFAANDEERSRQIEAATNPDVKIVIALRGGYTTRLLHDLDFAKLAKSGKLFVGHSDFTVFEALLKHGAVSFSGPIQSDFTRGDLSAFTLNHFDETTSPETSVKWVSKDNPDVDVEGTLWGGNLTLAHAGTPWPDISGGILFVEDIHEHPYRVERLLQLDESGILKKQKALVLGHFSEFKLSDYDNGYDFNALSWLRSRLSIPVVTGLPFGHTKDKVTLPVGGRAHLSKAGKIQLDIGDYPT 6uut-a1-m1-cB_6uut-a1-m1-cA Crystal structure of a high molecular weight 3-oxoacyl-ACP reductase (FabG) from Acinetobacter baumannii crystal form 2 A0A219C8F5 A0A219C8F5 1.65 X-RAY DIFFRACTION 256 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 432 460 6uuv-a1-m1-cA_6uuv-a1-m1-cB LPSPVVLERFESAQPVVKGAVLVGAAPSSVLSGAIAQVLSNIHTDSYVGNNVALQQEAAKVGLNLRPFNAGDKESKFKAVVFDASGIQNSEQLNELYKFFNPIARQVATSGRVIVIGTTPETAKTVKQAIAQRALEGFIKSVGKEFKKGITAQVVYVDEGAAANLESTLRFLLSPRSAYVSGQVIRVSKADVVDVDWAKPLAGKTALVTGASRGIGEAIAHVLARDGAHVICLDVPQQQADLDRVAADIGGSTLAIDITAADAGEKIKAAAAKQGGLDIIVHNAGITRDKTLANMKPELWDLVININLSAAERVNDYLLENDGLNANGRIVCVSSISGIAGNLGQTNYAASKAGVIGLVKFTAPILKNGITINAVAPGFIETIREAGRRMNSMQQGGLPVDVAETIAWFASTASTGVNGNVVRVCGQSLLGA QYQAFTQSPIGKFVVKNLGLPSPVVLERFESAQPVVKGAVLVGAAPSSVLSGAIAQVLSNIHTDSYVGNNVALQQEAAKVGLNLRPFNAGDKESKFKAVVFDASGIQNSEQLNELYKFFNPIARQVATSGRVIVIGTTPETAKTVKQAIAQRALEGFIKSVGKEFKKGITAQVVYVDEGAAANLESTLRFLLSPRSAYVSGQVIRVSKADVVDVDWAKPLAGKTALVTGASRGIGEAIAHVLARDGAHVICLDVPQQQADLDRVAADIGGSTLAIDITAADAGEKIKAAAAKQGGLDIIVHNAGITRDKTLANMKPELWDLVININLSAAERVNDYLLENDGLNANGRIVCVSSISGIAGNLGQTNYAASKAGVIGLVKFTAPILKNGITINAVAPGFIETQMTAAIPFAIREAGRRMNSMQQGGLPVDVAETIAWFASTASTGVNGNVVRVCGQSLLGA 6uv8-a1-m1-cA_6uv8-a1-m2-cA Crystal structure of a far-red cyanobacteriochrome photoreceptor at room temperature K9ZI18 K9ZI18 2.701 X-RAY DIFFRACTION 64 1.0 272123 (Anabaena cylindrica PCC 7122) 272123 (Anabaena cylindrica PCC 7122) 183 183 6uvb-a1-m1-cA_6uvb-a1-m2-cA MLQLQRQKIIQDITQQIRSTLNVNHILATVTQQVKELMQVERVIIFRLFPNGRSQIVEEVVSSEYAALKNYHWEDEKWSQEILDCYWQGKPRIVPDVINDIWTSCLVEYTTQGNIQSKIVAPILQELGENETGRWVSSEHKQKLWGVLVVHACSTKRVWEEDEAQLLQQIANQLAIAIQQLEH MLQLQRQKIIQDITQQIRSTLNVNHILATVTQQVKELMQVERVIIFRLFPNGRSQIVEEVVSSEYAALKNYHWEDEKWSQEILDCYWQGKPRIVPDVINDIWTSCLVEYTTQGNIQSKIVAPILQELGENETGRWVSSEHKQKLWGVLVVHACSTKRVWEEDEAQLLQQIANQLAIAIQQLEH 6uvq-a3-m1-cA_6uvq-a3-m2-cB Crystal structure of Apo AtmM Q0H2W9 Q0H2W9 1.84 X-RAY DIFFRACTION 54 1.0 360723 (Actinomadura melliaura) 360723 (Actinomadura melliaura) 257 257 6uvq-a3-m1-cB_6uvq-a3-m2-cA SDPFAGLGAGNIHLGYFDGPDDAATLAEAADRLTDQLIARLPVVRDHRVLDVGCGVGKPALRLAGDLGVRVVGVSISEAQIGIANEAARAAGLADRVSFRYADAMRLPFPDASFDGVWAMESLHHMPDRLQALREIARVLRHGGVLSIADFVQLGPVREQDEEALRAFRSGGGVHTLTGIAEYEAEIADAGLTLTSSSDISANVRPSMVRTAEAIRGAADAFLPLMGEEGLRRLIDNFERAATVPQIGYALFAARRS SDPFAGLGAGNIHLGYFDGPDDAATLAEAADRLTDQLIARLPVVRDHRVLDVGCGVGKPALRLAGDLGVRVVGVSISEAQIGIANEAARAAGLADRVSFRYADAMRLPFPDASFDGVWAMESLHHMPDRLQALREIARVLRHGGVLSIADFVQLGPVREQDEEALRAFRSGGGVHTLTGIAEYEAEIADAGLTLTSSSDISANVRPSMVRTAEAIRGAADAFLPLMGEEGLRRLIDNFERAATVPQIGYALFAARRS 6uvq-a4-m1-cA_6uvq-a4-m1-cB Crystal structure of Apo AtmM Q0H2W9 Q0H2W9 1.84 X-RAY DIFFRACTION 100 1.0 360723 (Actinomadura melliaura) 360723 (Actinomadura melliaura) 257 257 6uvq-a3-m1-cA_6uvq-a3-m1-cB 6uvq-a3-m2-cA_6uvq-a3-m2-cB 6uwd-a2-m1-cA_6uwd-a2-m2-cA SDPFAGLGAGNIHLGYFDGPDDAATLAEAADRLTDQLIARLPVVRDHRVLDVGCGVGKPALRLAGDLGVRVVGVSISEAQIGIANEAARAAGLADRVSFRYADAMRLPFPDASFDGVWAMESLHHMPDRLQALREIARVLRHGGVLSIADFVQLGPVREQDEEALRAFRSGGGVHTLTGIAEYEAEIADAGLTLTSSSDISANVRPSMVRTAEAIRGAADAFLPLMGEEGLRRLIDNFERAATVPQIGYALFAARRS SDPFAGLGAGNIHLGYFDGPDDAATLAEAADRLTDQLIARLPVVRDHRVLDVGCGVGKPALRLAGDLGVRVVGVSISEAQIGIANEAARAAGLADRVSFRYADAMRLPFPDASFDGVWAMESLHHMPDRLQALREIARVLRHGGVLSIADFVQLGPVREQDEEALRAFRSGGGVHTLTGIAEYEAEIADAGLTLTSSSDISANVRPSMVRTAEAIRGAADAFLPLMGEEGLRRLIDNFERAATVPQIGYALFAARRS 6uvu-a1-m1-cA_6uvu-a1-m1-cB Crystal structure of the AntR antimony-specific transcriptional repressor A0A096F4H2 A0A096F4H2 2.1 X-RAY DIFFRACTION 134 1.0 285 (Comamonas testosteroni) 285 (Comamonas testosteroni) 111 114 ACSLKPSLQDRDLITSAEAGEVVVLFKVLANDTRLRLLHALARSGGLCVTDLAAAVGMKPQAVSNQLQRLADRRILRAARCGNNIHYRIVDPCVLRMLELGLCLIEEAEQQ ACSLKPSLQDRDLITSAEAGEVVVLFKVLANDTRLRLLHALARSGGLCVTDLAAAVGMKPQAVSNQLQRLADRRILRAARCGNNIHYRIVDPCVLRMLELGLCLIEEAEQQAGG 6uw5-a1-m1-cA_6uw5-a1-m1-cB The crystal structure of FbiA from Mycobacterium smegmatis, GDP and Fo bound form A0QTG2 A0QTG2 2.2 X-RAY DIFFRACTION 86 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 320 326 6uvx-a1-m1-cA_6uvx-a1-m1-cB 6uw1-a1-m1-cB_6uw1-a1-m1-cA 6uw3-a1-m1-cA_6uw3-a1-m1-cB MKITVLVGGVGGARFLLGVQNLLGLGSFADGPSKHELTAVVNIGDDAWMHGVRICPDLDTCMYTLGGGIDPDRGWGHRNETWNAKEELAAYGVLGDRDLATHLVRSQMLRAGYPLSQVTEALCKRWQPGARLLPASDERSETHVVITDPTDGERRAIHFQEWWVRYRAKVPTHSFAYVGADQATAGPGVVEAIGDADIVLLAPSNPVVSIGPILQIPGIRGALRSTSAPVIGYSPIIAGKPLRGMADECLKVIGVESTSQAVGEFFGARAGTGLLDGWLVHEGDHAQIEGVKVKAVPLLMTDPEATAAMVRAGLDLAGVS MKITVLVGGVGGARFLLGVQNLLGLGSFADGPSKHELTAVVNIGDDAWMHGVRICPDLDTCMYTLGGGIDPDRGWGHRNETWNAKEELAAYGVQPDWFGLGDRDLATHLVRSQMLRAGYPLSQVTEALCKRWQPGARLLPASDERSETHVVITDPTDGERRAIHFQEWWVRYRAKVPTHSFAYVGADQATAGPGVVEAIGDADIVLLAPSNPVVSIGPILQIPGIRGALRSTSAPVIGYSPIIAGKPLRGMADECLKVIGVESTSQAVGEFFGARAGTGLLDGWLVHEGDHAQIEGVKVKAVPLLMTDPEATAAMVRAGLDLAGVS 6uwm-a1-m1-cC_6uwm-a1-m1-cD Single particle cryo-EM structure of KvAP Q9YDF8 Q9YDF8 5.9 ELECTRON MICROSCOPY 43 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 221 221 6uwm-a1-m1-cA_6uwm-a1-m1-cB 6uwm-a1-m1-cA_6uwm-a1-m1-cC 6uwm-a1-m1-cB_6uwm-a1-m1-cD DVMEHPLVELGVSYAALLSVIVVVVEYTMQLSGEYLVRLYLVDLILVIILWADYAYRAYKSGDPAGYVKKTLYEIPALVPAGLLALIEGHLAGLGLFRLVRLLRFLRILLIISRGSKFLSAIADAADKIRFYHLFGAVMLTVLYGAFAIYIVEYPDPNSSIKSVFDALWWAVVTATTVGYGDVVPATPIGKVIGIAVMLTGISALTLLIGTVSNMFQKILV DVMEHPLVELGVSYAALLSVIVVVVEYTMQLSGEYLVRLYLVDLILVIILWADYAYRAYKSGDPAGYVKKTLYEIPALVPAGLLALIEGHLAGLGLFRLVRLLRFLRILLIISRGSKFLSAIADAADKIRFYHLFGAVMLTVLYGAFAIYIVEYPDPNSSIKSVFDALWWAVVTATTVGYGDVVPATPIGKVIGIAVMLTGISALTLLIGTVSNMFQKILV 6ux3-a1-m1-cA_6ux3-a1-m1-cD Crystal structure of acetoin dehydrogenase from Enterobacter cloacae A0A0H3CM71 A0A0H3CM71 2.198 X-RAY DIFFRACTION 113 1.0 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 244 247 6ux3-a1-m1-cC_6ux3-a1-m1-cB MTKVAIVTASDSGIGKTTALMLAERGFDIGVTWHSDEQGARDTCREVEAQGRRAEAIHLDLSTLPQGAQAIETLIARFGRLDVLVNNAGAMTKAPFLDMPFDDWRNIFTVDVDGAFLCSQIAARKMVEQGEGGRIVNITSVHEHTPLPEASAYTAAKHALGGLTKSMALELVQHNILVNAVAPGAIATPMNEGSMPAIPLARPGYTKEIASLVAWLCDSDASYTTGQSFIVDGGFMLANPQFKP MTKVAIVTASDSGIGKTTALMLAERGFDIGVTWHSDEQGARDTCREVEAQGRRAEAIHLDLSTLPQGAQAIETLIARFGRLDVLVNNAGAMTKAPFLDMPFDDWRNIFTVDVDGAFLCSQIAARKMVEQGEGGRIVNITSVHEHTPLPEASAYTAAKHALGGLTKSMALELVQHNILVNAVAPGAIATPMNDKEGSMPAIPLARPGYTKEIASLVAWLCDSDASYTTGQSFIVDGGFMLANPQFKPE 6ux3-a1-m1-cC_6ux3-a1-m1-cD Crystal structure of acetoin dehydrogenase from Enterobacter cloacae A0A0H3CM71 A0A0H3CM71 2.198 X-RAY DIFFRACTION 104 1.0 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 245 247 6ux3-a1-m1-cA_6ux3-a1-m1-cB TKVAIVTASDSGIGKTTALMLAERGFDIGVTWHSDEQGARDTCREVEAQGRRAEAIHLDLSTLPQGAQAIETLIARFGRLDVLVNNAGAMTKAPFLDMPFDDWRNIFTVDVDGAFLCSQIAARKMVEQGEGGRIVNITSVHEHTPLPEASAYTAAKHALGGLTKSMALELVQHNILVNAVAPGAIATPMNDKEGSMPAIPLARPGYTKEIASLVAWLCDSDASYTTGQSFIVDGGFMLANPQFKP MTKVAIVTASDSGIGKTTALMLAERGFDIGVTWHSDEQGARDTCREVEAQGRRAEAIHLDLSTLPQGAQAIETLIARFGRLDVLVNNAGAMTKAPFLDMPFDDWRNIFTVDVDGAFLCSQIAARKMVEQGEGGRIVNITSVHEHTPLPEASAYTAAKHALGGLTKSMALELVQHNILVNAVAPGAIATPMNDKEGSMPAIPLARPGYTKEIASLVAWLCDSDASYTTGQSFIVDGGFMLANPQFKPE 6ux3-a1-m1-cD_6ux3-a1-m1-cB Crystal structure of acetoin dehydrogenase from Enterobacter cloacae A0A0H3CM71 A0A0H3CM71 2.198 X-RAY DIFFRACTION 39 0.996 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 247 252 6ux3-a1-m1-cA_6ux3-a1-m1-cC MTKVAIVTASDSGIGKTTALMLAERGFDIGVTWHSDEQGARDTCREVEAQGRRAEAIHLDLSTLPQGAQAIETLIARFGRLDVLVNNAGAMTKAPFLDMPFDDWRNIFTVDVDGAFLCSQIAARKMVEQGEGGRIVNITSVHEHTPLPEASAYTAAKHALGGLTKSMALELVQHNILVNAVAPGAIATPMNDKEGSMPAIPLARPGYTKEIASLVAWLCDSDASYTTGQSFIVDGGFMLANPQFKPE NAMTKVAIVTASDSGIGKTTALMLAERGFDIGVTWHSDEQGARDTCREVEAQGRRAEAIHLDLSTLPQGAQAIETLIARFGRLDVLVNNAGAMTKAPFLDMPFDDWRNIFTVDVDGAFLCSQIAARKMVEQGEGGRIVNITSVHEHTPLPEASAYTAAKHALGGLTKSMALELVQHNILVNAVAPGAIATPMNDMDESKEGSMPAIPLARPGYTKEIASLVAWLCDSDASYTTGQSFIVDGGFMLANPQFKP 6uxe-a1-m1-cB_6uxe-a1-m2-cB Structure of the human mitochondrial desulfurase complex Nfs1-ISCU2(M140I)-ISD11 with E.coli ACP1 at 1.57 A resolution showing flexibility of N terminal end of ISCU2 Q9HD34 Q9HD34 1.57 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 5wkp-a1-m1-cB_5wkp-a1-m1-cF 5wlw-a1-m1-cB_5wlw-a1-m1-cF 6w1d-a1-m1-cB_6w1d-a1-m2-cB 7rtk-a1-m1-cB_7rtk-a1-m2-cB AASSRAQVLALYRAMLRESKRFSAYNYRTYAVRRIRDAFRENKNVKDPVEIQTLVNKAKRDLGVIRRQVHIGQLYSTDKLIIENR AASSRAQVLALYRAMLRESKRFSAYNYRTYAVRRIRDAFRENKNVKDPVEIQTLVNKAKRDLGVIRRQVHIGQLYSTDKLIIENR 6uxt-a2-m1-cE_6uxt-a2-m1-cG Crystal structure of unknown function protein yfdX from Shigella flexneri 1.797 X-RAY DIFFRACTION 97 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 163 163 6uxt-a1-m1-cA_6uxt-a1-m1-cC 6uxt-a1-m1-cB_6uxt-a1-m1-cD 6uxt-a2-m1-cF_6uxt-a2-m1-cH RISEQGLYAMRDVQVARLALFHGDPEKAKELTNEASALLSDDSTEWAKFAKPGKKTNLNDDQYIVINASVGISESYVATPEKEAAIKIANEKMAKGDKKGAMEELRLAGVGVMENQYLMPLKQTRNALADAQKLLDKKQYYEANLALKGAEDGIIVDSEALFV RISEQGLYAMRDVQVARLALFHGDPEKAKELTNEASALLSDDSTEWAKFAKPGKKTNLNDDQYIVINASVGISESYVATPEKEAAIKIANEKMAKGDKKGAMEELRLAGVGVMENQYLMPLKQTRNALADAQKLLDKKQYYEANLALKGAEDGIIVDSEALFV 6uxt-a2-m1-cG_6uxt-a2-m1-cH Crystal structure of unknown function protein yfdX from Shigella flexneri 1.797 X-RAY DIFFRACTION 88 1.0 198215 (Shigella flexneri 2a str. 2457T) 198215 (Shigella flexneri 2a str. 2457T) 163 163 6uxt-a1-m1-cA_6uxt-a1-m1-cB 6uxt-a1-m1-cC_6uxt-a1-m1-cD 6uxt-a2-m1-cE_6uxt-a2-m1-cF RISEQGLYAMRDVQVARLALFHGDPEKAKELTNEASALLSDDSTEWAKFAKPGKKTNLNDDQYIVINASVGISESYVATPEKEAAIKIANEKMAKGDKKGAMEELRLAGVGVMENQYLMPLKQTRNALADAQKLLDKKQYYEANLALKGAEDGIIVDSEALFV RISEQGLYAMRDVQVARLALFHGDPEKAKELTNEASALLSDDSTEWAKFAKPGKKTNLNDDQYIVINASVGISESYVATPEKEAAIKIANEKMAKGDKKGAMEELRLAGVGVMENQYLMPLKQTRNALADAQKLLDKKQYYEANLALKGAEDGIIVDSEALFV 6uxu-a1-m1-cA_6uxu-a1-m1-cB X-ray Crystal Structure of Chlorothalonil Dehalogenase: Analyzing the Catalytic Mechanism of Hydrolytic Dehalogenation E2JB04 E2JB04 1.962 X-RAY DIFFRACTION 62 1.0 589024 (Ochrobactrum sp. CTN-11) 589024 (Ochrobactrum sp. CTN-11) 300 300 LILDFNKVQMRSQQLAPGVYAHLPADSAELNAKGGVAGTSGGLIVGTRGAMLIETMLNRRLFDQVQALAKKEALGLPLLYAVNTSYHGDHSYGNMYLKAPTRVIQSTKTRDYVDGHLADDKAFMVKNFGAGRGVEQITARTGDILVPPGGRVSVDLGGKTVEIIDFGFAQTGGDLFVWEPQSKVMWTGNAVVASKPALPWLLDGKLVETLATLQKVYDFLPPDATIVPGHGVPMAREGLRWHLDYLAAVQAGVKDALARKLSLEQTVTELKMPEFRGYVLFDFVHPDLNVPAAYENLYFQ LILDFNKVQMRSQQLAPGVYAHLPADSAELNAKGGVAGTSGGLIVGTRGAMLIETMLNRRLFDQVQALAKKEALGLPLLYAVNTSYHGDHSYGNMYLKAPTRVIQSTKTRDYVDGHLADDKAFMVKNFGAGRGVEQITARTGDILVPPGGRVSVDLGGKTVEIIDFGFAQTGGDLFVWEPQSKVMWTGNAVVASKPALPWLLDGKLVETLATLQKVYDFLPPDATIVPGHGVPMAREGLRWHLDYLAAVQAGVKDALARKLSLEQTVTELKMPEFRGYVLFDFVHPDLNVPAAYENLYFQ 6uyh-a1-m1-cA_6uyh-a1-m1-cB Crystal structure of prolyl-tRNA synthetase from Naegleria fowleri in complex with halofuginone and AMPPNP A0A4V8H034 A0A4V8H034 1.75 X-RAY DIFFRACTION 134 0.998 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 493 493 6nab-a1-m1-cA_6nab-a1-m1-cB EGIDVKKQENFSEWYSQVITKSEFLDYYDVSGCYIFRPNCWFVWESVQKFFDAEIKKLGVQNVMFPLFVTKRALETEEGFSPEVAWVTKSGNSDLQEPIALRPTSETIMYPSYAKWIQSHRDLPLKLNQWTNVVRWEFKHAVPFIRSREFYWQEGHSAFKSKEEADEEVFTILELYKRVYEELLAVPVIKGTKTENEKFAGADYTTTVETFIATNGRAVQGGTSHHLGQNFSKMFKIQFEAENKETQFAYQNSWGLSTRTLGVMIMVHGDDKGMVLPPRVAFCQVVVIPLINATLVEKTKEIYNELEKAGIRVKLDDRLERTPGWKYNYWELRGVPLRIEVGPKDLEKQQIMLCRRDTGEKWTMPLSEFSGDSIKAVLDKIHDSMLNKARKEMNERIVVTRTWPEFIKALNSGNMCLIPWHESKAAEEYIKEKSKLESVQSQSDANTGLTGAAKSLCVPLDQSSFPSLEGLENFYPEEAHKKPNCWALFGRSY EGIDVKKQENFSEWYSQVITKSEFLDYYDVSGCYIFRPNCWFVWESVQKFFDAEIKKLGVQNVMFPLFVTKRALETEKGFSPEVAWVTKSGNSDLQEPIALRPTSETIMYPSYAKWIQSHRDLPLKLNQWTNVVRWEFKHAVPFIRSREFYWQEGHSAFKSKEEADEEVFTILELYKRVYEELLAVPVIKGTKTENEKFAGADYTTTVETFIATNGRAVQGGTSHHLGQNFSKMFKIQFEAENKETQFAYQNSWGLSTRTLGVMIMVHGDDKGMVLPPRVAFCQVVVIPLINATLVEKTKEIYNELEKAGIRVKLDDRLERTPGWKYNYWELRGVPLRIEVGPKDLEKQQIMLCRRDTGEKWTMPLSEFSGDSIKAVLDKIHDSMLNKARKEMNERIVVTRTWPEFIKALNSGNMCLIPWHESKAAEEYIKEKSKLESVQSQSDANTGLTGAAKSLCVPLDQSSFPSLEGLENFYPEEAHKKPNCWALFGRSY 6uyk-a1-m1-cA_6uyk-a1-m1-cB Dark-operative protochlorophyllide oxidoreductase in the nucleotide-free form. Q9RFD6 Q9RFD6 2.6 X-RAY DIFFRACTION 109 1.0 1063 (Cereibacter sphaeroides) 1063 (Cereibacter sphaeroides) 255 268 3fwy-a1-m1-cA_3fwy-a1-m1-cB 6uyk-a2-m1-cD_6uyk-a2-m1-cC GAKVFAVYGKGGIGKSTTSSNLSAAFSILGKRVLQIGCDPKHDSTFTLTGSLVPTVIDVLKDVDFHPEELRPEDFVFEGFNGVMCVEAGGPPAGTGCGGYVVGQTVKLLKQHHLLDDTDVVIFDVLGDVVCGGFAAPLQHADQAVVVTANDFDSIYAMNRIIAAVQAKSKNYKVRLAGCVADEVDRFCKETNFRRLAHMPDLDAIRRSRLKKKTLFEMDEDQDVLAARAEYIRLAESLWRGLDPIDPHSLPDREI ITGAKVFAVYGKGGIGKSTTSSNLSAAFSILGKRVLQIGCDPKHDSTFTLTGSLVPTVIDVLKDVDFHPEELRPEDFVFEGFNGVMCVEAGGPPAGTGCGGYVVGQTVKLLKQHHLLDDTDVVIFDVLGDVVCGGFAAPLQHADQAVVVTANDFDSIYAMNRIIAAVQAKSKNYKVRLAGCVANRSRATDEVDRFCKETNFRRLAHMPDLDAIRRSRLKKKTLFEMDEDQDVLAARAEYIRLAESLWRGLDPIDPHSLPDREIFELLG 6uyn-a1-m2-cA_6uyn-a1-m3-cA Crystal structure of influenza A virus hemagglutinin from A/Ohio/09/2015 bound to the stalk-binding CR6261 antibody Fab A0A6C0TB04 A0A6C0TB04 2.85 X-RAY DIFFRACTION 17 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 326 326 6uyn-a1-m1-cA_6uyn-a1-m2-cA 6uyn-a1-m1-cA_6uyn-a1-m3-cA 8dim-a1-m1-cA_8dim-a1-m1-cD 8dim-a1-m1-cA_8dim-a1-m1-cG 8dim-a1-m1-cD_8dim-a1-m1-cG DADKICIGYHANNSTDTVDTVLEKNVTVTHSVNLLENKHNGKLCKLRGVAPLHLGKCNIAGWLLGNPECESLATASSWSYIVETSSSNNGTCYPGDFINYEELREQLSSVSSFEKFEIFPKTSSWPNHETNKGVTAACPHAGTNSFYKNLIWLVKKENSYPKINISYTNNRGKEVLVLWAIHHPPTSTDQQSLYQNANSYVFVGSSRYSRKFEPEIATRPKVRGQAGRMNYYWTLVEPGDKITFEATGNLVVPRYAFALKRNSGSGIIISETPVHDCDTTCQTPNGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLRNIPSI DADKICIGYHANNSTDTVDTVLEKNVTVTHSVNLLENKHNGKLCKLRGVAPLHLGKCNIAGWLLGNPECESLATASSWSYIVETSSSNNGTCYPGDFINYEELREQLSSVSSFEKFEIFPKTSSWPNHETNKGVTAACPHAGTNSFYKNLIWLVKKENSYPKINISYTNNRGKEVLVLWAIHHPPTSTDQQSLYQNANSYVFVGSSRYSRKFEPEIATRPKVRGQAGRMNYYWTLVEPGDKITFEATGNLVVPRYAFALKRNSGSGIIISETPVHDCDTTCQTPNGAINTSLPFQNIHPVTIGECPKYVKSTKLRMATGLRNIPSI 6uzi-a2-m1-cD_6uzi-a2-m1-cC Crystal structure of Dihydrolipoyl dehydrogenase from Elizabethkingia anophelis NUHP1 A0A077ELH4 A0A077ELH4 2.8 X-RAY DIFFRACTION 254 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 466 470 6uzi-a1-m1-cA_6uzi-a1-m1-cB NQFDVAVIGSGPGGYVAAIRCAQLGFKTVIIEKYSTLGGTCLNVGCIPSKALLDSSEHFENAKHTFATHGILIDEPKVDIAQMISRKNDVVDQTTKGINFLMDKNKITVLQGVGSFESATQIKVTKADGSSEVIEAKNTIIATGSKPSSLPFITLDKERVITSTEALNLKEVPKHLIVIGGGVIGLELGSVYLRLGSDVTVVEYLDKIIPGMDGTLSKELQKTLKKQGMKFMLSTAVSGVERNGDTVKVTAKDKKGEDVVVEGDYCLVSVGRRPYTDGLGLEKAGVELDERGRVKTNDHLQTNVPNIYAIGDVVKGAMLAHKAEEEGVFVAETLAGEKPHVNYNLIPGVVYTWPEVAGVGKTEEQLKEAGVAYKTGSFPMRALGRSRASMDTDGVIKILADEKTDEILGVHMIGARAADMIAEAVVAMEFRASAEDIARISHAHPTYTEAIKEAALDATGKRAIHM HHHMNQFDVAVIGSGPGGYVAAIRCAQLGFKTVIIEKYSTLGGTCLNVGCIPSKALLDSSEHFENAKHTFATHGILIDEPKVDIAQMISRKNDVVDQTTKGINFLMDKNKITVLQGVGSFESATQIKVTKADGSSEVIEAKNTIIATGSKPSSLPFITLDKERVITSTEALNLKEVPKHLIVIGGGVIGLELGSVYLRLGSDVTVVEYLDKIIPGMDGTLSKELQKTLKKQGMKFMLSTAVSGVERNGDTVKVTAKDKKGEDVVVEGDYCLVSVGRRPYTDGLGLEKAGVELDERGRVKTNDHLQTNVPNIYAIGDVVKGAMLAHKAEEEGVFVAETLAGEKPHVNYNLIPGVVYTWPEVAGVGKTEEQLKEAGVAYKTGSFPMRALGRSRASMDTDGVIKILADEKTDEILGVHMIGARAADMIAEAVVAMEFRASAEDIARISHAHPTYTEAIKEAALDATGKRAIHM 6v05-a1-m1-cF_6v05-a1-m1-cA Cryo-EM structure of a substrate-engaged Bam complex P0A940 P0A940 4.1 ELECTRON MICROSCOPY 67 0.981 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 309 758 NGTKNDYQCYAELSRLFYNDFQADDADLSDYTNKSYGTDVTLGFPINEYNSLRAGLGYVHNSLSNMQPQVAMWRYLYSMGEHPSTSDQDNSFKTDDFTFNYGWTYNKLDRGYFPTDGSRVNLTGKVTIPGSDNEYYKVTLDTATYVPIDDDHKWVVLGRTRWGYGDGLGGKEMPFYENFYAGGSSTVRGFQSNTIGPKAVYFSDDAVGGNAMAVASLEFITPTPFISDKYANSVRTSFFWDMGTVWDTNWDSSQYSGYPDYSDPSNIRMSAGIALQWMSPLGPLVFSYAQPFKKYDGDKAEQFQFNIGK FVVKDIHFEGLQRVAVGAALLSMPVRTGDTVNDEDISNTIRALFATGNFEDVRVLRDGDTLLVQVKERPTIASITFSGNKSVKDDMLKQNLEASGVRVGESLDRTTIADIEKGLEDFYYSVGKYSASVKAVVTPLPRNRVDLKLVFQEGVSAEIQQINIVGNHAFTTDELISHFQLRDEVPWWNVVGDRKYQKQKLAGDLETLRSYYLDRGYARFNIDSTQVSLTPDKKGIYVTVNITEGDQYKLSGVEVSGNLAGHSAEIEQLTKIEPGELYNGTKVTKMEDDIKKLLGRYGYAYPRVQSMPEINDADKTVKLRVNVDAGNRFYVRKIRFEGNDTSKDAVLRREMRQMEGAWLGSDLVDQGKERLNRLGFFETVDTDTQRVPGSPDQVDVVYKVKERNTGSFNFGIGYGTESGVSFQAGVQQDNWLGTGYAVGINGTKNDYQTYAELSVTNPYFTVDGVSLGGRLFYNDFQADDADLSDYTNKSYGTDVTLGFPINEYNSLRAGLGYVHNSLSNMQPQVAMWRYLYSMGEHPSTSDQDNSFKTDDFTFNYGWTYNKLDRGYFPTDGSRVNLTGKVTIPGSDNEYYKVTLDTATYVPIDDDHKWVVLGRTRWGYGDGLGGKEMPFYENFYAGGSSTVRGFQSNTIGPKAVYFPSKSDDAVGGNAMAVASLEFITPTPFISNSVRTSFFWDMGTVWDTNWDSSQYSGYPDYSDPSNIRMSAGIALQWMSPLGPLVFSYAQPFKKYDGDKAEQFQCNIGK 6v0a-a1-m1-cA_6v0a-a1-m1-cB Crystal structure of cytochrome c nitrite reductase from the bacterium Geobacter lovleyi with bound sulfate B3E641 B3E641 2.55 X-RAY DIFFRACTION 101 0.995 398767 (Trichlorobacter lovleyi SZ) 398767 (Trichlorobacter lovleyi SZ) 443 444 6v0a-a2-m1-cC_6v0a-a2-m1-cD 6v0a-a3-m1-cF_6v0a-a3-m1-cE IPDGTIDPAVWGKNYPEEYQTWKDTALPTPEGKSKYKKGNDGGKVYDKLSEYPFIALLFNGWGFGIEYNEPRGHVYMMKDQKEIDPSRLKGGGACLTCKTPYAPQLAQKQGVTYFSQSYADAVNQIPKEHQEMGVACIDCHNNKDMGLKISRGFTLVKALDKMGVDQTLTNQDKRSLVCAQCHVTYTIPKDANMKSQDVFFPWDESKWGKISIENIIKKMRSDKSYGEWTQAVTGFKMAYIRHPEFEMYSNQSVHWMAGVSCADCHMPYTVGSKKISDHRIMSPLKNDFGCKQCHSESSEWLKNQVITIQDRAASQYIRSGYALATVAKLFEMTHKQQAAGKQIDQKMYDQAKFYYEEGFYRNLFFGAENSIGFHNPTEAMRILGDATMYAGKADGLLRQALTKAGVDVPVKIDLELSKYTNNRGAKKLMFKPEQELKDPYGP IPDGTIDPAVWGKNYPEEYQTWKDTALPTPEGKSKYKKGNDGGKVYDKLSEYPFIALLFNGWGFGIEYNEPRGHVYMMKDQKEIDPSRLKGGGACLTCKTPYAPQLAQKQGVTYFSQSYADAVNQIPKEHQEMGVACIDCHNNKDMGLKISRGFTLVKALDKMGVDQTKLTNQDKRSLVCAQCHVTYTIPKDANMKSQDVFFPWDESKWGKISIENIIKKMRSDKSYGEWTQAVTGFKMAYIRHPEFEMYSNQSVHWMAGVSCADCHMPYTKGSKKISDHRIMSPLKNDFKGCKQCHSESSEWLKNQVITIQDRAASQYIRSGYALATVAKLFEMTHKQQAAGKQIDQKMYDQAKFYYEEGFYRNLFFGAENSIGFHNPTEAMRILGDATMYAGKADGLLRQALTKAGVDVPVKIDLELSKYTNNRGAKKLMFKPEQELKDPYG 6v0q-a5-m1-cD_6v0q-a5-m1-cA Crystal structure of the bromodomain of human BRD7 bound to TG003 Q9NPI1 Q9NPI1 1.69 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 119 6ppa-a2-m1-cA_6ppa-a2-m2-cA 6v0q-a6-m1-cB_6v0q-a6-m2-cC EQTPLQEALNQLMRQLQRKDPSAFFSFPVTDFIAPGYSMIIKHPMDFSTMKEKIKNNDYQSIEELKDNFKLMCTNAMIYNKPETIYYKAAKKLLHSGMKILSQERIQSLKQSIDFMA EQTPLQEALNQLMRQLQRKDPSAFFSFPVTDFIAPGYSMIIKHPMDFSTMKEKIKNNDYQSIEELKDNFKLMCTNAMIYNKPETIYYKAAKKLLHSGMKILSQERIQSLKQSIDFMADL 6v11-a1-m1-cB_6v11-a1-m1-cC Lon Protease from Yersinia pestis A0A5P8YJ65 A0A5P8YJ65 3.8 ELECTRON MICROSCOPY 78 0.996 632 (Yersinia pestis) 632 (Yersinia pestis) 496 503 6v11-a1-m1-cA_6v11-a1-m1-cB 6v11-a1-m1-cA_6v11-a1-m1-cF 6v11-a1-m1-cD_6v11-a1-m1-cC 6v11-a1-m1-cE_6v11-a1-m1-cF ALKRKIEAAKMPKDAREKTEAELQKLKMMSPMSAEATVVRGYIDWMLQVPWNSRSKVKKDLVKAQEVLDTDHYGLERVKDRILEYLAVQSRVSKIKGPILCLVGPPGVGKTSLGQSIAKATGRQYVRMALGGKLIQKMAKVGVKNPLFLLDEIDKMAPASALLEVLDPEQNVAFNHYLEVDYDLSDVMFVATSNSMNIPAPLLDRMEVIRLSGYTEDEKLNIAKQHLLPKQFERNAIKKGELTIDDSAIMSIIRYYTREAGVRSLEREISKLCRKAVKNLLMDKTVKHIEINGDNLKDFLGVQKVDYGRADTENRVGQVTGLAWTEVGGDLLTIETACVPGKGKLTYTGSLGEVMQESIQAALTVVRARADKLGINPDFYEKRDIHVHVPEGATPKDGPSAGIAMCTALVSCLTGNPVRADVAMTGEITLRGLVLPIGGLKEKLLAAHRGGIKVVLIPDDNKRDLEEIPDNVIADLEIHPVKRIDDVLAIALEHPA ALKRKIEAAKMPKDAREKTEAELQKLKMMSPMSAEATVVRGYIDWMLQVPWNSRSKVKKDLVKAQEVLDTDHYGLERVKDRILEYLAVQSRVSKIKGPILCLVGPPGVGKTSLGQSIAKATGRQYVRMALGRRTIGSMPGKLIQKMAKVGVKNPLFLLDEIDKMPASALLEVLDPEQNVAFNDHYLEVDYDLSDVMFVATSNSMNIPAPLLDRMEVIRLSGYTEDEKLNIAKQHLLPKQFERNAIKKGELTIDDSAIMSIIYYTREAGVRSLEREISKLCRKAVKNLLMDKTVKHIEINGDNLKDFLGVQKVDYGRADTENRVGQVTGLAWTEVGGDLLTIETACVPGKGKLTYTGSLGEVMQESIQAALTVVRARADKLGINPDFYEKRDIHVHVPEGATPKDGPSAGIAMCTALVSCLTGNPVRADVAMTGEITLRGLVLPIGGLKEKLLAAHRGGIKVVLIPDDNKRDLEEIPDNVIADLEIHPVKRIDDVLAIALEHPA 6v17-a3-m1-cA_6v17-a3-m2-cB Crystal structure of the bromodomain of human BRD7 bound to I-BRD9 Q9NPI1 Q9NPI1 2.05 X-RAY DIFFRACTION 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 EQTPLQEALNQLMRQLQRKDPSAFFSFPVTDFIAPGYSMIIKHPMDFSTMKEKIKNNDYQSIEELKDNFKLMCTNAMIYNKPETIYYKAAKKLLHSGMKILSQERIQSLKQSIDFMADL EQTPLQEALNQLMRQLQRKDPSAFFSFPVTDFIAPGYSMIIKHPMDFSTMKEKIKNNDYQSIEELKDNFKLMCTNAMIYNKPETIYYKAAKKLLHSGMKILSQERIQSLKQSIDFMADL 6v1q-a1-m1-cA_6v1q-a1-m1-cB Two-pore channel 3 C4IXV6 C4IXV6 3.11 ELECTRON MICROSCOPY 191 1.0 7955 (Danio rerio) 7955 (Danio rerio) 538 538 MTEKFDLATVYVSDAKYNRNIFFDTSPQAVKLYLLYNHWFMQTLVYVFIIINLALALFEDPAVVPLPIWATSTIETICLSAFTVRIIHYAKVIPKDKFWKDPKNICIIIIVTLSFIDMVIYGALKATGHYGIRWSRVLRPLLLVNVTEGRQLRRAFRSIRNALPQISYVFFLFMFSVLVFSLMALKLFGKRGLLTINGSPYFTDYMDIVFDLYVLVTTANSPDVMMPAYNSSVYFTIFFILYIVINTYTFMSFFLAVVYNNYKKYLKEEVRQLVKAKRIKMCRAFSLPSRFIRQMVHHRVFVYAYDLIILVNAVFIGLDEENPVVSNAEWGFLALYMLEILLFWNWFDTIIVVSALFGTIINSALKHSGGYTSRQVLDIVFILRVLRLIRVVDSIKRFRAIINTLIKIGPTILTFGQLILVVYYIFAMVGMELFKGKIQFFEPNSTSPDREYCGNPLLKSTSFAKLNYCKNNFNDVISSFILLLELTVVNQWHVLTSGFTAVTHVSARLFFVIFHIVVVIIIINIFVAFILEAFLVEY MTEKFDLATVYVSDAKYNRNIFFDTSPQAVKLYLLYNHWFMQTLVYVFIIINLALALFEDPAVVPLPIWATSTIETICLSAFTVRIIHYAKVIPKDKFWKDPKNICIIIIVTLSFIDMVIYGALKATGHYGIRWSRVLRPLLLVNVTEGRQLRRAFRSIRNALPQISYVFFLFMFSVLVFSLMALKLFGKRGLLTINGSPYFTDYMDIVFDLYVLVTTANSPDVMMPAYNSSVYFTIFFILYIVINTYTFMSFFLAVVYNNYKKYLKEEVRQLVKAKRIKMCRAFSLPSRFIRQMVHHRVFVYAYDLIILVNAVFIGLDEENPVVSNAEWGFLALYMLEILLFWNWFDTIIVVSALFGTIINSALKHSGGYTSRQVLDIVFILRVLRLIRVVDSIKRFRAIINTLIKIGPTILTFGQLILVVYYIFAMVGMELFKGKIQFFEPNSTSPDREYCGNPLLKSTSFAKLNYCKNNFNDVISSFILLLELTVVNQWHVLTSGFTAVTHVSARLFFVIFHIVVVIIIINIFVAFILEAFLVEY 6v2t-a1-m1-cA_6v2t-a1-m1-cB X-ray structure of a sugar N-formyltransferase from Shewanella sp FDAARGOS_354 1.9 X-RAY DIFFRACTION 96 1.0 1930557 (Shewanella sp. FDAARGOS_354) 1930557 (Shewanella sp. FDAARGOS_354) 246 251 HMMHVLIVSDNKPLVSFIQNLVAVNADKFQSVTFDYRYSAINKNPASLISLGLTSINVKSEKDVAHIVEHYELVVSAHCKQIFPSELVNNVRCINIHPGLNPHNRGWFPQVFSIINKKPVGCTIHLMNEEIDDGAILFQKEVPIFEWDTSLNVYERVQQTEMDLLKDHLADLVFANYQQKLSYEKGNYNGISDFKALCKLNLDHIGTLRDHIDLLRALSHGDFNNAYYLRPDGSKVYIRLSAELVK NLYFQHMMHVLIVSDNKPLVSFIQNLVAVNADKFQSVTFDYRYSAINKNPASLISLGLTSINVKSEKDVAHIVEHYELVVSAHCKQIFPSELVNNVRCINIHPGLNPHNRGWFPQVFSIINKKPVGCTIHLMNEEIDDGAILFQKEVPIFEWDTSLNVYERVQQTEMDLLKDHLADLVFANYQQKLSYEKGNYNGISDFKALCKLNLDHIGTLRDHIDLLRALSHGDFNNAYYLRPDGSKVYIRLSAELVK 6v33-a1-m1-cB_6v33-a1-m1-cA X-ray structure of a sugar N-formyltransferase from Pseudomonas congelans A0A0N8R1B2 A0A0N8R1B2 2.03 X-RAY DIFFRACTION 106 0.996 200452 (Pseudomonas congelans) 200452 (Pseudomonas congelans) 245 246 SPIRLLVVSDNKPLSATLLQCIEALAGDLTVDVDLRYTAYNHTPQSMVDLGARVIDVKDESVVDLIIEHYDLVLSVHCKQLFPKRLVEGVRCINFHPGFNPFNRGWYPQAFSILNGLPAGATIHVMDEAIDHGHIIVQRQVEVGSGDTSLEVYNKVVEVEKALMHECLADILQGQYEVFKPLSEGNYNGIKAYNELCQLDLEETGSLRDHINLLRATSHGDFKNAYFIDESGDKYFIKVVLEKAL PIRLLVVSDNKPLSATLLQCIEALAGDLTVDVDLRYTAYNHTPQSMVDLGARVIDVKDESVVDLIIEHYDLVLSVHCKQLFPKRLVEGVRCINFHPGFNPFNRGWYPQAFSILNGLPAGATIHVMDEAIDHGHIIVQRQVEVGSGDTSLEVYNKVVEVEKALMHECLADILQGQYEVFKPLSEGNYNGIKAYNELCQLDLEETGSLRDHINLLRATSHGDFKNAYFIDESGDKYFIKVVLEKALRH 6v35-a1-m1-cG_6v35-a1-m1-cH Cryo-EM structure of Ca2+-free hsSlo1-beta4 channel complex Q86W47 Q86W47 3.5 ELECTRON MICROSCOPY 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 198 6v22-a1-m1-cE_6v22-a1-m1-cF 6v22-a1-m1-cE_6v22-a1-m1-cH 6v22-a1-m1-cF_6v22-a1-m1-cG 6v22-a1-m1-cG_6v22-a1-m1-cH 6v35-a1-m1-cE_6v35-a1-m1-cF 6v35-a1-m1-cE_6v35-a1-m1-cH 6v35-a1-m1-cF_6v35-a1-m1-cG YEYTEAEDKSIRLGLFLIISGVVSLFIFGFCWLSPALQDLQATEANCTVLSVQQIGEVFECTFTCGADCRGTSQYPCVQVYVNNSESNSRALLHSDEHQLLTNPKCSYIPPCKRENQKNLESVMNWQQYWKDEIGSQPFTCYFNQHQRPDDVLLHRTHDEIVLLHCFLWPLVTFVVGVLIVVLTICAKSLAVKAEAMK YEYTEAEDKSIRLGLFLIISGVVSLFIFGFCWLSPALQDLQATEANCTVLSVQQIGEVFECTFTCGADCRGTSQYPCVQVYVNNSESNSRALLHSDEHQLLTNPKCSYIPPCKRENQKNLESVMNWQQYWKDEIGSQPFTCYFNQHQRPDDVLLHRTHDEIVLLHCFLWPLVTFVVGVLIVVLTICAKSLAVKAEAMK 6v3q-a1-m1-cA_6v3q-a1-m1-cB Crystal Structure of the Metallo-beta-Lactamase FIM-1 from Pseudomonas aeruginosa in the Mono-Zinc Form K7SA42 K7SA42 2.4 X-RAY DIFFRACTION 62 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 225 225 AQPKDVPVTFTAITQGVWMHTSMKHMENWGHVPSNGLIVEKGDFSILVDTAWDDPQTAQIIEWSKDTLKKPIRWAVFTHAHDDKMGGVAALRQQGIVTYAAADSNRMAPQNGLTPAEHDLIFDSEHSTSVLHPLVIFDPGPGHTRDNIVVGLPEQGIVFGGLIRPSGSTSLGNTADADLAHWKTAVLAVAQRFAEAQQIIPSHGPMAGRELFELTAQLAEKASIP AQPKDVPVTFTAITQGVWMHTSMKHMENWGHVPSNGLIVEKGDFSILVDTAWDDPQTAQIIEWSKDTLKKPIRWAVFTHAHDDKMGGVAALRQQGIVTYAAADSNRMAPQNGLTPAEHDLIFDSEHSTSVLHPLVIFDPGPGHTRDNIVVGLPEQGIVFGGLIRPSGSTSLGNTADADLAHWKTAVLAVAQRFAEAQQIIPSHGPMAGRELFELTAQLAEKASIP 6v3z-a1-m1-cA_6v3z-a1-m2-cB Structure of Salmonella enteritidis Sen1395 A0A1R2HMX1 A0A1R2HMX1 1.9 X-RAY DIFFRACTION 87 0.994 149539 (Salmonella enterica subsp. enterica serovar Enteritidis) 149539 (Salmonella enterica subsp. enterica serovar Enteritidis) 178 178 PKDEIFDEILGKEGGYVNHPDDKGGPTKWGITEKVARAHGYRGDMRNLTRGQALEILETDYWYGPRFDRVAKASPDVAAELCDTGVNMGPSVAAKMLQRWLNVFNQGGRLYPDMDTDGRIGPRTLNALRVYLEKRGKDGERVLLVALNCTQGERYLELAEKREADESFVYGWMKERVL KPKDEIFDEILGKEGGYVNHPDDKGGPTKWGITEKVARAHGYRGDMRNLTRGQALEILETDYWYGPRFDRVAKASPDVAAELCDTGVNMGPSVAAKMLQRWLNVFNQGGRLYPDMDTDGRIGPRTLNALRVYLEKRGKDGERVLLVALNCTQGERYLELAEKREADESFVYGWMKERV 6v40-a1-m1-cC_6v40-a1-m4-cB Structure of Salmonella Typhi TtsA Q8Z6A5 Q8Z6A5 2.104 X-RAY DIFFRACTION 52 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 190 191 6v40-a1-m1-cA_6v40-a1-m2-cA 6v40-a1-m2-cC_6v40-a1-m3-cB 6v40-a1-m3-cD_6v40-a1-m4-cD HHSSGLVPRGSTKDEIFAAILSREGGYVDHPDDRGGPTHWGITLTTARANGYMGDMRNLTRNQALKILEADYWYGPRLDQVAIISHSIAAELCDTGVNMGPSIPIKYFQRWLNVFNDQQKIYPDLIADGQIGPRTLSALTFFLSHRRDEGEMILIRALNCSQGQRYLELAEKRQANESFVYGWIKERVRL HHHSSGLVPRGSTKDEIFAAILSREGGYVDHPDDRGGPTHWGITLTTARANGYMGDMRNLTRNQALKILEADYWYGPRLDQVAIISHSIAAELCDTGVNMGPSIPIKYFQRWLNVFNDQQKIYPDLIADGQIGPRTLSALTFFLSHRRDEGEMILIRALNCSQGQRYLELAEKRQANESFVYGWIKERVRL 6v40-a1-m4-cD_6v40-a1-m4-cB Structure of Salmonella Typhi TtsA Q8Z6A5 Q8Z6A5 2.104 X-RAY DIFFRACTION 91 1.0 90370 (Salmonella enterica subsp. enterica serovar Typhi) 90370 (Salmonella enterica subsp. enterica serovar Typhi) 190 191 6v40-a1-m1-cC_6v40-a1-m1-cA 6v40-a1-m2-cC_6v40-a1-m2-cA 6v40-a1-m3-cD_6v40-a1-m3-cB HHSSGLVPRGSTKDEIFAAILSREGGYVDHPDDRGGPTHWGITLTTARANGYMGDMRNLTRNQALKILEADYWYGPRLDQVAIISHSIAAELCDTGVNMGPSIPIKYFQRWLNVFNDQQKIYPDLIADGQIGPRTLSALTFFLSHRRDEGEMILIRALNCSQGQRYLELAEKRQANESFVYGWIKERVRL HHHSSGLVPRGSTKDEIFAAILSREGGYVDHPDDRGGPTHWGITLTTARANGYMGDMRNLTRNQALKILEADYWYGPRLDQVAIISHSIAAELCDTGVNMGPSIPIKYFQRWLNVFNDQQKIYPDLIADGQIGPRTLSALTFFLSHRRDEGEMILIRALNCSQGQRYLELAEKRQANESFVYGWIKERVRL 6v42-a1-m1-cA_6v42-a1-m1-cB Crystal structure of the flavin oxygenase with cofactor bound involved in folate catabolism A9D9D1 A9D9D1 1.45 X-RAY DIFFRACTION 135 1.0 411684 (Hoeflea phototrophica DFL-43) 411684 (Hoeflea phototrophica DFL-43) 453 453 6v43-a1-m1-cA_6v43-a1-m1-cB GHNIEALTAELDGIRIEDNEKIVQQKSRDFYWYSPLLKRQLDHVTGDLVVSPKTEAELIRVLKACYRHEVPVTPRGTGTGNYGQAPLSGGVVLSLADNDIREIKPGWVICGPGVICSDLDKAARAHSGQELRHPSTYHTATVGGFIAGGSGGIGSINWGGLRDFGNIIRLRVVTEQEPQVLELTGEDLHKVTHAYGTNGIITEIEPLAPAYDWIDAVGFDSFDTAAAYANALARQDGILTKLVSVVAAPCPFDYFKRHQKFLKEGQSVVLVVAAQSHDAFKAFSARSGGEIIFDATTAGDLKGLPPLFELSWNHTTLRALRVDPAWTYLQVLYPFPNQLELTAKDRFPGELISHLEFVRFDGDITCFGLPLVKFTTDERLEEIDLHNANGCPIFNPHRYTLEEGGKQTDEIQLAFKREADPKGLLNPGKIAWDDPDYDFNSGKVWLFKGLKQA GHNIEALTAELDGIRIEDNEKIVQQKSRDFYWYSPLLKRQLDHVTGDLVVSPKTEAELIRVLKACYRHEVPVTPRGTGTGNYGQAPLSGGVVLSLADNDIREIKPGWVICGPGVICSDLDKAARAHSGQELRHPSTYHTATVGGFIAGGSGGIGSINWGGLRDFGNIIRLRVVTEQEPQVLELTGEDLHKVTHAYGTNGIITEIEPLAPAYDWIDAVGFDSFDTAAAYANALARQDGILTKLVSVVAAPCPFDYFKRHQKFLKEGQSVVLVVAAQSHDAFKAFSARSGGEIIFDATTAGDLKGLPPLFELSWNHTTLRALRVDPAWTYLQVLYPFPNQLELTAKDRFPGELISHLEFVRFDGDITCFGLPLVKFTTDERLEEIDLHNANGCPIFNPHRYTLEEGGKQTDEIQLAFKREADPKGLLNPGKIAWDDPDYDFNSGKVWLFKGLKQA 6v45-a1-m1-cA_6v45-a1-m2-cA Crystal structure of a Probable carnitine operon oxidoreductase caia from Brucella melitensis Q8YHF3 Q8YHF3 2.6 X-RAY DIFFRACTION 369 1.0 224914 (Brucella melitensis bv. 1 str. 16M) 224914 (Brucella melitensis bv. 1 str. 16M) 161 161 KANKYSIDPKFRPQDVTFTGYKPGTIVIDPKKRFLYLVETSTTARRYGIAVGKQGLEFQGKATISAKREWPRWIPTKEMIERDPAHYGRFKNGMDGGPGNPLGSRAMYLFQGNKDTYIRIHGTVQPWTIGSSASNGCFRMINEDVMDLYDRVTLGTEVVVL KANKYSIDPKFRPQDVTFTGYKPGTIVIDPKKRFLYLVETSTTARRYGIAVGKQGLEFQGKATISAKREWPRWIPTKEMIERDPAHYGRFKNGMDGGPGNPLGSRAMYLFQGNKDTYIRIHGTVQPWTIGSSASNGCFRMINEDVMDLYDRVTLGTEVVVL 6v47-a1-m1-cC_6v47-a1-m1-cE The crystal structure of hemagglutinin from A/duck/Memphis/546/1974 (H11N9) Q0A426 Q0A426 2.8 X-RAY DIFFRACTION 32 1.0 402474 (Influenza A virus (A/duck/Memphis/546/1974(H11N9))) 402474 (Influenza A virus (A/duck/Memphis/546/1974(H11N9))) 321 321 6v47-a1-m1-cA_6v47-a1-m1-cC 6v47-a1-m1-cA_6v47-a1-m1-cE DEICIGYLSNNSTEKVDTIIESNVTVTSSVELVENEYTGSFCSIDGKAPISLGDCSFAGWILGNPMCDDLIGKTSWSYIVEKPNPINGICYPGTLENEEELRLKFSGVLEFNKFEAFTSNGWGSVNSGAGVTAACKFGSSNSFFRNMVWLIHQSGTYPVIRRTFNNTKGRDVLMVWGVHHPATLKEHQDLYKKDNSYVAVGSESYNRRFTPEISTRPKVNGQAGRMTFYWTIVKPEEAITFESNGAFLAPRYAFELVSLGNGKLFRSDLNIESCSTKCQSEIGWINTNRSFHSVHRNTIGDCPKYVNVKSLKLATGLRNVP DEICIGYLSNNSTEKVDTIIESNVTVTSSVELVENEYTGSFCSIDGKAPISLGDCSFAGWILGNPMCDDLIGKTSWSYIVEKPNPINGICYPGTLENEEELRLKFSGVLEFNKFEAFTSNGWGSVNSGAGVTAACKFGSSNSFFRNMVWLIHQSGTYPVIRRTFNNTKGRDVLMVWGVHHPATLKEHQDLYKKDNSYVAVGSESYNRRFTPEISTRPKVNGQAGRMTFYWTIVKPEEAITFESNGAFLAPRYAFELVSLGNGKLFRSDLNIESCSTKCQSEIGWINTNRSFHSVHRNTIGDCPKYVNVKSLKLATGLRNVP 6v47-a1-m1-cD_6v47-a1-m1-cF The crystal structure of hemagglutinin from A/duck/Memphis/546/1974 (H11N9) A2V851 A2V851 2.8 X-RAY DIFFRACTION 40 1.0 402474 (Influenza A virus (A/duck/Memphis/546/1974(H11N9))) 402474 (Influenza A virus (A/duck/Memphis/546/1974(H11N9))) 167 167 6v47-a1-m1-cB_6v47-a1-m1-cD 6v47-a1-m1-cB_6v47-a1-m1-cF AGFIEGGWPGLINGWYGFQHRNEEGTGIAADKESTQTAIDQITSKVNNIVDRMNTNFESVQHEFSEIEERINQLSKHVDDSVIDIWSYNAQLLVLLENEKTLDLHDSNVRNLHEKVRRMLKDNAKDEGNGCFTFYHKCDNECIEKVRNGTYDHKEFEEESRLNRQEI AGFIEGGWPGLINGWYGFQHRNEEGTGIAADKESTQTAIDQITSKVNNIVDRMNTNFESVQHEFSEIEERINQLSKHVDDSVIDIWSYNAQLLVLLENEKTLDLHDSNVRNLHEKVRRMLKDNAKDEGNGCFTFYHKCDNECIEKVRNGTYDHKEFEEESRLNRQEI 6v49-a1-m1-cC_6v49-a1-m1-cE The crystal structure of hemagglutinin from A/wedge-tailed shearwater/Western Australia/2576/1979 (H15N9) Q20ND8 Q20ND8 2.5 X-RAY DIFFRACTION 31 1.0 352560 (Influenza A virus (A/wedge-tailed shearwater/Western Australia/2576/1979(H15N9))) 352560 (Influenza A virus (A/wedge-tailed shearwater/Western Australia/2576/1979(H15N9))) 329 329 6v49-a1-m1-cA_6v49-a1-m1-cC 6v49-a1-m1-cA_6v49-a1-m1-cE GDKICLGHHAVANGTKVNTLTERGVEVVNATETVEITGIDKVCTKGKKAVDLGSCGILGTIIGPPQCDLHLEFKADLIIERRNSSDICYPGRFTNEEALRQIIRESGGIDKESMGFRYSGIRTDGATSACKRSSSSFYSEMKWLSSSMNNQVFPQLNQTYRNTRKEPALIVWGVHHSSSLDEQNKLYGTGNKLITVGSSKYQQSFSPSPGARPKVNGQAGRIDFHWMLLDPGDTVTFTFNGAFIAPDRATFLRSNAPSGIEYNGKSLGIQSDAQIDESCEGECFYSGGTINSPLPFQNIDSRAVGKCPRYVKQSSLPLALGMKNVPEKI GDKICLGHHAVANGTKVNTLTERGVEVVNATETVEITGIDKVCTKGKKAVDLGSCGILGTIIGPPQCDLHLEFKADLIIERRNSSDICYPGRFTNEEALRQIIRESGGIDKESMGFRYSGIRTDGATSACKRSSSSFYSEMKWLSSSMNNQVFPQLNQTYRNTRKEPALIVWGVHHSSSLDEQNKLYGTGNKLITVGSSKYQQSFSPSPGARPKVNGQAGRIDFHWMLLDPGDTVTFTFNGAFIAPDRATFLRSNAPSGIEYNGKSLGIQSDAQIDESCEGECFYSGGTINSPLPFQNIDSRAVGKCPRYVKQSSLPLALGMKNVPEKI 6v4j-a1-m1-cF_6v4j-a1-m1-cH Structure of TrkH-TrkA in complex with ATP Q87KD2 Q87KD2 2.97 ELECTRON MICROSCOPY 43 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 234 234 6v4j-a1-m1-cE_6v4j-a1-m1-cG MKIIILGAGQVGGTLAENLVGENNDITIVDNVVNGHASHPDVLHEAGAQDADMLVAVTNTDETNMAACQVAFTLFNTPNRVARIRSPEYLAEKEALFKSGAIPVDHRRIMIVGGGNIGASLAKRLEQTYSVKLIERDYQRAEKLSEQLENTIVFCGDAADQELLTEENIDQVDVFIALTNEDETNIMSAMLAKRMGAKKVMVLIQRGAYVDLVQGGVIDVAISPQQATISALLT MKIIILGAGQVGGTLAENLVGENNDITIVDNVVNGHASHPDVLHEAGAQDADMLVAVTNTDETNMAACQVAFTLFNTPNRVARIRSPEYLAEKEALFKSGAIPVDHRRIMIVGGGNIGASLAKRLEQTYSVKLIERDYQRAEKLSEQLENTIVFCGDAADQELLTEENIDQVDVFIALTNEDETNIMSAMLAKRMGAKKVMVLIQRGAYVDLVQGGVIDVAISPQQATISALLT 6v4v-a1-m1-cA_6v4v-a1-m2-cA The crystal structure of BonA from Acinetobacter baumannii V5VFJ0 V5VFJ0 1.65 X-RAY DIFFRACTION 74 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 139 139 NINLYKLDQRFKQSRINIESFHSTVLLTGQVPDPYLKQLAEDNVKASDVKAVHNYITVGNKVSYNTIQDAGVTANTRALLKAPVVSDSKVLVHTEDGVLYVGRLNTAEINDLNNVLQNVGNVTKIVTLIDNIDLAPAPA NINLYKLDQRFKQSRINIESFHSTVLLTGQVPDPYLKQLAEDNVKASDVKAVHNYITVGNKVSYNTIQDAGVTANTRALLKAPVVSDSKVLVHTEDGVLYVGRLNTAEINDLNNVLQNVGNVTKIVTLIDNIDLAPAPA 6v6d-a1-m1-cF_6v6d-a1-m1-cG Cryo-EM structure of human pannexin 1 Q96RD7 Q96RD7 3.77 ELECTRON MICROSCOPY 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 6v6d-a1-m1-cA_6v6d-a1-m1-cB 6v6d-a1-m1-cA_6v6d-a1-m1-cG 6v6d-a1-m1-cB_6v6d-a1-m1-cC 6v6d-a1-m1-cC_6v6d-a1-m1-cD 6v6d-a1-m1-cD_6v6d-a1-m1-cE 6v6d-a1-m1-cE_6v6d-a1-m1-cF LRLELAVDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVPLWLHKFFPYILLLFAILLYLPPLFWRFAAAPHICSDLNNLIIKYISCRLLTLIIILLACIYLGYYFSLSSLSDEFVCSIKSGILRNDSTVPDQFQCKLIAVGIFQLLSVINLVVYVLLAPVVVYTLFVPFRQYNDLSLYNLFLEENI LRLELAVDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVPLWLHKFFPYILLLFAILLYLPPLFWRFAAAPHICSDLNNLIIKYISCRLLTLIIILLACIYLGYYFSLSSLSDEFVCSIKSGILRNDSTVPDQFQCKLIAVGIFQLLSVINLVVYVLLAPVVVYTLFVPFRQYNDLSLYNLFLEENI 6v6h-a1-m1-cB_6v6h-a1-m1-cD Crystal structure of histidine ammonia-lyase from Trypanosoma cruzi Q4E133 Q4E133 2.55 X-RAY DIFFRACTION 214 0.99 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 502 503 6v6h-a1-m1-cA_6v6h-a1-m1-cC MRVILDGCSLTPDVLYALGYEKGATIEISDEAVARITAARAVIDKIVNDRQTVYGINTGPPHQLEELQLNLIRSHSACVGEPLTPERARMMLALRVNVLCKGHSGIRLETVQKYLKAFNAGVVPYIPEQGTVGDLGPLSHLALGMLGEGLLATLNNKKFRDAGSVLRELGVEPITLAAKEGLALINGTQFISALGAEAVVRARKIARLADVALAMSHEALRATNSTLNPDIHRVRPHKGQQLVAQRLRALLHDAYSIRCAPQVHGISNEVIEWVYGILTTELNCATDNPLVFPDGVKKVVSGGNFHGEYPAKALDMLAIGVHELGNISERRIERLNNPTLSRLPAFLVKNGGLNSGFMIAHTAAALVSENKVYCHPASADSISTSAAQEDHVSMGGFSARKAIKVVENVERIIAIELLGACQGIDLLRPLRTTEPMEKVWSLVRSVSPPWEEDRVINTDIDNVTKLLRSGAVWKTVKPYVPEEARFLGVLTVKKPFELKSKM MRVILDGCSLTPDVLYALGYEKGATIEISDEAVARITAARAVIDKIVNDRQTVYGINTGFESTIIPPHQLEELQLNLIRSHSACVGEPLTPERARMMLALRVNVLCKGHSGIRLETVQKYLKAFNAGVVPYIPEQGTVGDLGPLSHLALGMLGEGLLATLNNKKFRDAGSVLRELGVEPITLAAKEGLALINGTQFISALGAEAVVRARKIARLADVALAMSHEALRATNSTLNPDIHRVRPHKGQQLVAQRLRALLHDAYSIRCAPQVHGISNEVIEWVYGILTTELNCATDNPLVFPDGVKKVVSGGNFHGEYPAKALDMLAIGVHELGNISERRIERLNNPTLSRLPAFLLNSGFMIAHTAAALVSENKVYCHPASADSISTSAAQEDHVSMGGFSARKAIKVVENVERIIAIELLGACQGIDLLRPLRTTEPMEKVWSLVRSVSPPWEEDRVINTDIDNVTKLLRSGAVWKTVKPYVPEEARFLGVLTVKKPFELKSKM 6v6h-a1-m1-cD_6v6h-a1-m1-cA Crystal structure of histidine ammonia-lyase from Trypanosoma cruzi Q4E133 Q4E133 2.55 X-RAY DIFFRACTION 10 0.996 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 503 507 MRVILDGCSLTPDVLYALGYEKGATIEISDEAVARITAARAVIDKIVNDRQTVYGINTGFESTIIPPHQLEELQLNLIRSHSACVGEPLTPERARMMLALRVNVLCKGHSGIRLETVQKYLKAFNAGVVPYIPEQGTVGDLGPLSHLALGMLGEGLLATLNNKKFRDAGSVLRELGVEPITLAAKEGLALINGTQFISALGAEAVVRARKIARLADVALAMSHEALRATNSTLNPDIHRVRPHKGQQLVAQRLRALLHDAYSIRCAPQVHGISNEVIEWVYGILTTELNCATDNPLVFPDGVKKVVSGGNFHGEYPAKALDMLAIGVHELGNISERRIERLNNPTLSRLPAFLLNSGFMIAHTAAALVSENKVYCHPASADSISTSAAQEDHVSMGGFSARKAIKVVENVERIIAIELLGACQGIDLLRPLRTTEPMEKVWSLVRSVSPPWEEDRVINTDIDNVTKLLRSGAVWKTVKPYVPEEARFLGVLTVKKPFELKSKM MRVILDGCSLTPDVLYALGYEKGATIEISDEAVARITAARAVIDKIVNDRQTVYGINTGSTIIPPHQLEELQLNLIRSHSACVGEPLTPERARMMLALRVNVLCKGHSGIRLETVQKYLKAFNAGVVPYIPEQGTVGDLGPLSHLALGMLGEGLLATLNNKKFRDAGSVLRELGVEPITLAAKEGLALINGTQFISALGAEAVVRARKIARLADVALAMSHEALRATNSTLNPDIHRVRPHKGQQLVAQRLRALLHQDAYSIRCAPQVHGISNEVIEWVYGILTTELNCATDNPLVFPDGVKKVVSGGNFHGEYPAKALDMLAIGVHELGNISERRIERLNNPTLSRLPAFLVKNGGLNSGFMIAHTAAALVSENKVYCHPASADSISTSAAQEDHVSMGGFSARKAIKVVENVERIIAIELLGACQGIDLLRPLRTTEPMEKVWSLVRSVSPPWEEDRVINTDIDNVTKLLRSGAVWKTVKPYVPEEARFLGVLTVKKPFELKSKM 6v6h-a1-m1-cD_6v6h-a1-m1-cC Crystal structure of histidine ammonia-lyase from Trypanosoma cruzi Q4E133 Q4E133 2.55 X-RAY DIFFRACTION 286 0.996 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 503 507 6v6h-a1-m1-cB_6v6h-a1-m1-cA MRVILDGCSLTPDVLYALGYEKGATIEISDEAVARITAARAVIDKIVNDRQTVYGINTGFESTIIPPHQLEELQLNLIRSHSACVGEPLTPERARMMLALRVNVLCKGHSGIRLETVQKYLKAFNAGVVPYIPEQGTVGDLGPLSHLALGMLGEGLLATLNNKKFRDAGSVLRELGVEPITLAAKEGLALINGTQFISALGAEAVVRARKIARLADVALAMSHEALRATNSTLNPDIHRVRPHKGQQLVAQRLRALLHDAYSIRCAPQVHGISNEVIEWVYGILTTELNCATDNPLVFPDGVKKVVSGGNFHGEYPAKALDMLAIGVHELGNISERRIERLNNPTLSRLPAFLLNSGFMIAHTAAALVSENKVYCHPASADSISTSAAQEDHVSMGGFSARKAIKVVENVERIIAIELLGACQGIDLLRPLRTTEPMEKVWSLVRSVSPPWEEDRVINTDIDNVTKLLRSGAVWKTVKPYVPEEARFLGVLTVKKPFELKSKM MRVILDGCSLTPDVLYALGYEKGATIEISDEAVARITAARAVIDKIVNDRQTVYGINTGFTIIPPHQLEELQLNLIRSHSACVGEPLTPERARMMLALRVNVLCKGHSGIRLETVQKYLKAFNAGVVPYIPEQGTVGDLGPLSHLALGMLGEGLLATLNNKKFRDAGSVLRELGVEPITLAAKEGLALINGTQFISALGAEAVVRARKIARLADVALAMSHEALRATNSTLNPDIHRVRPHKGQQLVAQRLRALLHQDAYSIRCAPQVHGISNEVIEWVYGILTTELNCATDNPLVFPDGVKKVVSGGNFHGEYPAKALDMLAIGVHELGNISERRIERLNNPTLSRLPAFLVKNGGLNSGFMIAHTAAALVSENKVYCHPASADSISTSAAQEDHVSMGGFSARKAIKVVENVERIIAIELLGACQGIDLLRPLRTTEPMEKVWSLVRSVSPPWEEDRVINTDIDNVTKLLRSGAVWKTVKPYVPEEARFLGVLTVKKPFELKSKM 6v6s-a1-m1-cm_6v6s-a1-m1-cl Structure of the native human gamma-tubulin ring complex P23258 P23258 4.3 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 369 370 REIITLQLGQCGNQIGFEFWKQLCAEHGISPEAIVEEFTDRKDVFFYQYIPRAVLLRVIHSILNSPYAKLYGNNWASGFSQGEKIHEDIFDIIDREADGSDSLEGFVLCHSIAGTGSGLGSYLLERLNDRYPKKLVQTYSVFPVQPYNSLLTLKRLTQNADCLVVLDNTALNRIATDRLHIQSFSQINQLVSTIMSASTTTLRYPGYMNNDLIGLIASLIPTPRLHFLMTGYTPLTTVLDVMRRLLQPKNVMVSNHCYIAILNIIQGEVDPTQVHKSLQRIRERKLANFIPWGPASIQVALSRKSPYLRVSGLMMANHTSISSLFERTCRQYDKLRKREDNFDEMDTSREIVQQLIDEYHAATRPDYIS REIITLQLGQCGNQIGFEFWKQLCAEHGISPEAIVEEFTDRKDVFFYQYIPRAVLLRVIHSILNSPYAKLYGNNWASGFSQGEKIHEDIFDIIDREADGSDSLEGFVLCHSIAGGTGSGLGSYLLERLNDRYPKKLVQTYSVFPVQPYNSLLTLKRLTQNADCLVVLDNTALNRIATDRLHIQSFSQINQLVSTIMSASTTTLRYPGYMNNDLIGLIASLIPTPRLHFLMTGYTPLTTVLDVMRRLLQPKNVMVSNHCYIAILNIIQGEVDPTQVHKSLQRIRERKLANFIPWGPASIQVALSRKSPYLRVSGLMMANHTSISSLFERTCRQYDKLRKREDNFDEMDTSREIVQQLIDEYHAATRPDYIS 6v6y-a1-m1-cA_6v6y-a1-m2-cA Crystal Structure of T. thermophilus methylenetetrahydrofolate dehydrogenase (MTHFD) Q5SJ94 Q5SJ94 2.15202 X-RAY DIFFRACTION 87 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 277 277 MAAQVLSGHEAAEAVYEEIRARLRSLSFTPSLRVIRLGEDPASVAYVRLKDKRARALGYRSQVEVYPEDLPEEALLERIAALNADEEVDGILVQLPLPPHIRTQRVLEAIHPLKDVDGFHPLNVGRLWSGGKGLFPCTPLGVVRLLKHYGVDLRGKEVVVVGRSNIVGKPLAGLLLREDATVTLAHSKTQDLPEVTRRAQVLVVAVGRPHLVRKEWVREGAIVVDVGVNRVEGRLLGDVHPEVAEVAFALTPVPGGVGPMTVAMLMGNTLEAALLRR MAAQVLSGHEAAEAVYEEIRARLRSLSFTPSLRVIRLGEDPASVAYVRLKDKRARALGYRSQVEVYPEDLPEEALLERIAALNADEEVDGILVQLPLPPHIRTQRVLEAIHPLKDVDGFHPLNVGRLWSGGKGLFPCTPLGVVRLLKHYGVDLRGKEVVVVGRSNIVGKPLAGLLLREDATVTLAHSKTQDLPEVTRRAQVLVVAVGRPHLVRKEWVREGAIVVDVGVNRVEGRLLGDVHPEVAEVAFALTPVPGGVGPMTVAMLMGNTLEAALLRR 6v72-a1-m1-cA_6v72-a1-m2-cA Crystal Structure of Metallo Beta Lactamase from Erythrobacter litoralis Q2N9N3 Q2N9N3 1.5 X-RAY DIFFRACTION 25 1.0 314225 (Erythrobacter litoralis HTCC2594) 314225 (Erythrobacter litoralis HTCC2594) 218 218 6v3u-a1-m1-cA_6v3u-a1-m1-cB SVAEQEADRDIIRFGEVSFSQLAEGVWHTTYLDLGFGPIPSNGLLVVNGDNTILVDTAWTDEQTEQIVAWASVLAKPVRAAVVTHAGAALHGANIATWAHPLSNEVPARNAITFDANGWATGEAAQSLAPLRLYYPGGAHTRDNITVGLPELGIAFGGCIKAGDASNLGNLADADTAAYAQSVRNFAAAFPDARTIASHSPPEGRKAIERTLDLAEEL SVAEQEADRDIIRFGEVSFSQLAEGVWHTTYLDLGFGPIPSNGLLVVNGDNTILVDTAWTDEQTEQIVAWASVLAKPVRAAVVTHAGAALHGANIATWAHPLSNEVPARNAITFDANGWATGEAAQSLAPLRLYYPGGAHTRDNITVGLPELGIAFGGCIKAGDASNLGNLADADTAAYAQSVRNFAAAFPDARTIASHSPPEGRKAIERTLDLAEEL 6v73-a1-m1-cA_6v73-a1-m2-cA Crystal Structure of Metallo Beta Lactamase from Erythrobacter litoralis with beta mercaptoethanol in the active site Q2N9N3 Q2N9N3 2.4 X-RAY DIFFRACTION 35 1.0 314225 (Erythrobacter litoralis HTCC2594) 314225 (Erythrobacter litoralis HTCC2594) 228 228 DIIRFGEVSFSQLAEGVWMHTTYLDLMGFGPIPSNGLLVVNGDNTILVDTAWTDEQTEQIVAWASMVLAKPVRAAVVTHAHQDKMGGMAALHGANIATWAHPLSNELAPEEGLVPARNAITFDANGWATGEAAQSLAPLRLYYPGGAHTRDNITVGLPELGIAFGGCMIKAGDASNLGNLADADTAAYAQSVRNFAAAFPDARTIAMSHSPPEGRKAIERTLDLAEEL DIIRFGEVSFSQLAEGVWMHTTYLDLMGFGPIPSNGLLVVNGDNTILVDTAWTDEQTEQIVAWASMVLAKPVRAAVVTHAHQDKMGGMAALHGANIATWAHPLSNELAPEEGLVPARNAITFDANGWATGEAAQSLAPLRLYYPGGAHTRDNITVGLPELGIAFGGCMIKAGDASNLGNLADADTAAYAQSVRNFAAAFPDARTIAMSHSPPEGRKAIERTLDLAEEL 6v74-a1-m2-cD_6v74-a1-m3-cB Crystal Structure of Human PKM2 in Complex with L-asparagine P14618 P14618 2.32 X-RAY DIFFRACTION 211 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 427 516 3g2g-a1-m1-cA_3g2g-a1-m1-cB 3g2g-a2-m1-cA_3g2g-a2-m1-cB 3h6o-a1-m1-cC_3h6o-a1-m1-cD 6nu1-a1-m3-cB_6nu1-a1-m5-cC 6nu1-a4-m1-cB_6nu1-a4-m6-cC 6v76-a1-m2-cD_6v76-a1-m3-cA TQQLHAAMADTFLEHMCRLDIDSPPITARNTGIICTIGPASRSVETLKEMIKSGMNVARLNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPEIRKKGVNLPLPAVSEKDIQDLKFGVEQDVDMVFASFIRKASDVHEVRKVLGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAIYHLQLFEELRRLAPITSDPTEATAVGAVEASFKCCSGAIIVLTKSGRSAHQVARYRPRAPIIAVTRNPQTARQAHLYRGIFPVLCKDPVQEAWAEDVDLRVNFAMNVGKARGFFKKGDVVIVLTGWRPGSGFTNTMRVVPVP QQLHAAMADTFLEHMCRLDIDSPPITARNTGIICTIGPASRSVETLKEMIKSGMNVARLNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPEIRTGLIKGSGTAEVELKKGATLKITLDNAYMEKCDENILWLDYKNICKVVEVGSKIYVDDGLISLQVKQKGADFLVTEVENGGSLGSKKGVNLPGAAVDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKASDVHEVRKVLGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMMIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAIYHLQLFEELRRLAPITSDPTEATAVGAVEASFKCCSGAIIVLTKSGRSAHQVARYRPRAPIIAVTRNPQTARQAHLYRGIFPVLCKDPVQEAWAEDVDLRVNFAMNVGKARGFFKKGDVVIVLTGWRPGSGFTNTMRVVPVP 6v77-a1-m1-cA_6v77-a1-m1-cB Crystal structure of a putative HpcE protein from Mycobacterium smegmatis A0QTY3 A0QTY3 1.75 X-RAY DIFFRACTION 103 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 271 279 MRLINLDGRIHLVTGDGVVDVAKASEQRFGPDPQDLYQHWDAFQEWARTAALPAPSARVGTIGSPAPLPRQVFAVGLNYDDLSKPEHPVIFTKFVSSITGPVETVQLPAGSVDWEVELVVVMGRGGRNIPEDRAWEFVAGVSVGQDLSERDLQLAGPAPQFSLAKSHAGFSPIGPELVTVDELPDPDDLELGAEINGETVQHSRTSQLIFPVSNLIAYLSDTVELYPGDVIFTGTPSGVGMGRNPKRFLAPGDELRTYITGVGEFTQRFVT MRLINLDGRIHLVTGDGVVDVAKASEQRFGPDPQDLYQHWDAFQEWARTAALPAPSARVGTIGSPAPLPRQVFAVGLNYDDHATESGLSKPEHPVIFTKFVSSITGPVETVQLPAGSVDWEVELVVVMGRGGRNIPEDRAWEFVAGVSVGQDLSERDLQLAGPAPQFSLAKSHAGFSPIGPELVTVDELPDPDDLELGAEINGETVQHSRTSQLIFPVSNLIAYLSDTVELYPGDVIFTGTPSGVGMGRNPKRFLAPGDELRTYITGVGEFTQRFVTAD 6v78-a1-m1-cA_6v78-a1-m1-cC OmpK37 porin S5UCA2 S5UCA2 2.6 X-RAY DIFFRACTION 161 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 353 353 6v78-a1-m1-cA_6v78-a1-m1-cB 6v78-a1-m1-cB_6v78-a1-m1-cC AEIYNKDGNKLDLYGKVDGLHYFSSDSKKDGDQTYLRFGFKGETQINDMLTGYGQWEYNVQANNTETSSDQAWTRLAFAGIKVGDYGSFDYGRNYGVLYDVEGWTDMLPEFGGDSYTYADNFMAGRANGVATYRNSDFFGLVEGLNFALQYQGKNEGQNAQDINVGTNNRSSDSDVRFDNGDGFGLSTSYDFGMGISAAAAYTSSDRTNDQMTQTNARGDKAEAWTAGLKYDANDIYLATMYSETRNMTPYGNDGVANKTQNFEVTAQYQFDFGLRPAISYLQSKGKDLYNNGRYADKDLVKYMDVGATYYFNRNMSTYVDYKINLLDGNDKFYEDNGISTDNIVALGLVYQF AEIYNKDGNKLDLYGKVDGLHYFSSDSKKDGDQTYLRFGFKGETQINDMLTGYGQWEYNVQANNTETSSDQAWTRLAFAGIKVGDYGSFDYGRNYGVLYDVEGWTDMLPEFGGDSYTYADNFMAGRANGVATYRNSDFFGLVEGLNFALQYQGKNEGQNAQDINVGTNNRSSDSDVRFDNGDGFGLSTSYDFGMGISAAAAYTSSDRTNDQMTQTNARGDKAEAWTAGLKYDANDIYLATMYSETRNMTPYGNDGVANKTQNFEVTAQYQFDFGLRPAISYLQSKGKDLYNNGRYADKDLVKYMDVGATYYFNRNMSTYVDYKINLLDGNDKFYEDNGISTDNIVALGLVYQF 6v7v-a2-m1-cD_6v7v-a2-m1-cC Structure of a phage-encoded quorum sensing anti-activator, Aqs1 A0SML3 A0SML3 2.3 X-RAY DIFFRACTION 61 1.0 389469 (Casadabanvirus DMS3) 389469 (Casadabanvirus DMS3) 55 62 6v7u-a1-m1-cB_6v7u-a1-m1-cA 6v7v-a1-m1-cB_6v7v-a1-m1-cA 6v7v-a3-m1-cF_6v7v-a3-m1-cE 6v7w-a2-m1-cD_6v7w-a2-m1-cF 6v7x-a1-m1-cC_6v7x-a1-m1-cA TNTDLKPLLDNLRNATEFWNLVAAASAHNRSYRDALDWLESAALALGDALIAQRK MTNTDLKPLLDNLRNATEFWNLVAAASATDESTVHNRSYRDALDWLESAALALGDALIAQRK 6v82-a1-m1-cB_6v82-a1-m2-cB Crystal structure of tryptophan synthase from Chlamydia trachomatis D/UW-3/CX O84172 O84172 2.424 X-RAY DIFFRACTION 96 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 390 390 FKHKHPFGGAFLPEELLAPIQNLKAEWEILKTQQSFLSELDCILKNYAGRQTPLTEVKNFARAIDGPRVFLKREDLLHTGAHLNNALGQCLLAKYLGKTRVVAETGAGQHGVATATACAYLGLDCVVYMGAKDVERQKPNVEKMRFLGAEVVSVTKGSCGLKDAVNQALQDWATTHSFTHYCLGSALGPLPYPDIVRFFQSVISAEVKEQIHAVAGRDPDILIACIGGGSNAIGFFHHFIPNPKVQLIGVEGGGLGISSGKHAARFATGRPGVFHGFYSYLLQDDDGQVLQTHSISAGLDYPSVGPDHAEMHESGRAFYTLATDEEALRAFFLLTRNEGIIPALESSHALAHLVSIAPSLPKEQIVIVNLSGRGDKDLPQIIRRNRGIYE FKHKHPFGGAFLPEELLAPIQNLKAEWEILKTQQSFLSELDCILKNYAGRQTPLTEVKNFARAIDGPRVFLKREDLLHTGAHLNNALGQCLLAKYLGKTRVVAETGAGQHGVATATACAYLGLDCVVYMGAKDVERQKPNVEKMRFLGAEVVSVTKGSCGLKDAVNQALQDWATTHSFTHYCLGSALGPLPYPDIVRFFQSVISAEVKEQIHAVAGRDPDILIACIGGGSNAIGFFHHFIPNPKVQLIGVEGGGLGISSGKHAARFATGRPGVFHGFYSYLLQDDDGQVLQTHSISAGLDYPSVGPDHAEMHESGRAFYTLATDEEALRAFFLLTRNEGIIPALESSHALAHLVSIAPSLPKEQIVIVNLSGRGDKDLPQIIRRNRGIYE 6v88-a1-m1-cA_6v88-a1-m1-cB Solution NMR structure of Dictyostelium discoideum Skp1A (truncated) dimer P52285 P52285 NOT SOLUTION NMR 30 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 116 116 SLVKLESSDEKVFEIEKEIACMSVTIKNMIEDIGESDSPIPLPNVTSTILEKVLDYCRHHHQHPGGSGLDDIPPYDRDFCKVDQPTLFELILAANYLDIKPLLDVTCKTVANMIRG SLVKLESSDEKVFEIEKEIACMSVTIKNMIEDIGESDSPIPLPNVTSTILEKVLDYCRHHHQHPGGSGLDDIPPYDRDFCKVDQPTLFELILAANYLDIKPLLDVTCKTVANMIRG 6v8i-a1-m1-cAF_6v8i-a1-m1-cBF Composite atomic model of the Staphylococcus aureus phage 80alpha baseplate A4ZFC2 A4ZFC2 3.7 ELECTRON MICROSCOPY 13 1.0 53369 (Dubowvirus dv80alpha) 53369 (Dubowvirus dv80alpha) 20 20 6v8i-a1-m1-cAF_6v8i-a1-m1-cCF 6v8i-a1-m1-cBF_6v8i-a1-m1-cCF DALTSIVNGRNAKRNSEYYL DALTSIVNGRNAKRNSEYYL 6v8i-a1-m1-cBE_6v8i-a1-m1-cCE Composite atomic model of the Staphylococcus aureus phage 80alpha baseplate A4ZFC5 A4ZFC5 3.7 ELECTRON MICROSCOPY 155 1.0 53369 (Dubowvirus dv80alpha) 53369 (Dubowvirus dv80alpha) 387 387 6v8i-a1-m1-cAE_6v8i-a1-m1-cBE 6v8i-a1-m1-cAE_6v8i-a1-m1-cCE TITIKPPKGNGAPVPVETTLVKKVNADGVLTFDILENKYTYEVINAIGKRWIVSHVEGENDKKEYVITVIDRKSEGDRQLVECTAREIPIDKLMIDRIYVNVTGSFTVERYFNIVFQGTGMLFEVEGKVKSSKFENGGEGDTRLEMFKKGLEHFGLEYKITYDKKKDRYKFVLTPFANQKASYFISDEVNANAIKLEEDASDFATFIRGYGNYSGEETFEHAGLVMEARSALAEIYGDIHAEPFKDGKVTDQETMDKELQSRLKKSLKQSLSLDFLVLRESYPEADPQPGDIVQIKSTKLGLNDLVRIVQVKTIRGINNVIVKQDVTLGEFNREQRYMKKVNTAANYVSGLNDVNLSNPSKAAENLKSKVASIAKSTLDLMSRTDLI TITIKPPKGNGAPVPVETTLVKKVNADGVLTFDILENKYTYEVINAIGKRWIVSHVEGENDKKEYVITVIDRKSEGDRQLVECTAREIPIDKLMIDRIYVNVTGSFTVERYFNIVFQGTGMLFEVEGKVKSSKFENGGEGDTRLEMFKKGLEHFGLEYKITYDKKKDRYKFVLTPFANQKASYFISDEVNANAIKLEEDASDFATFIRGYGNYSGEETFEHAGLVMEARSALAEIYGDIHAEPFKDGKVTDQETMDKELQSRLKKSLKQSLSLDFLVLRESYPEADPQPGDIVQIKSTKLGLNDLVRIVQVKTIRGINNVIVKQDVTLGEFNREQRYMKKVNTAANYVSGLNDVNLSNPSKAAENLKSKVASIAKSTLDLMSRTDLI 6v8i-a1-m1-cCC_6v8i-a1-m1-cCD Composite atomic model of the Staphylococcus aureus phage 80alpha baseplate A4ZFC4 A4ZFC4 3.7 ELECTRON MICROSCOPY 100 1.0 53369 (Dubowvirus dv80alpha) 53369 (Dubowvirus dv80alpha) 314 314 6v8i-a1-m1-cAC_6v8i-a1-m1-cAD 6v8i-a1-m1-cAC_6v8i-a1-m1-cCD 6v8i-a1-m1-cAD_6v8i-a1-m1-cBC 6v8i-a1-m1-cBC_6v8i-a1-m1-cBD 6v8i-a1-m1-cBD_6v8i-a1-m1-cCC DIELTKKDGTVIKLSEYGFIVNDIVIDSMQINTKYQDKENMNGRILMGSNYISRDIVVPCFCKVKNRSDIAYMRDMLYSLTTDIEPMYLREIRRKEELNYRFTQPTSDDYVKLDKNNFPDYEYSRHDQQIYVNGKQYKVIFNGVINPKQKGNKVSFELKFETTELPYGESIGTSLELEENKKVGLWSFDFNIDWHAGGDKRKYTFENLSKGTVYYHGSAPNDQFNMYKKITIILGEDTESFVWNLTHAEIMKIEGIKLKAGDRIVYDSFRVYKNGVEISTETNISQPKFKYGANKFEFNQTVQKVQFDLKFYYK DIELTKKDGTVIKLSEYGFIVNDIVIDSMQINTKYQDKENMNGRILMGSNYISRDIVVPCFCKVKNRSDIAYMRDMLYSLTTDIEPMYLREIRRKEELNYRFTQPTSDDYVKLDKNNFPDYEYSRHDQQIYVNGKQYKVIFNGVINPKQKGNKVSFELKFETTELPYGESIGTSLELEENKKVGLWSFDFNIDWHAGGDKRKYTFENLSKGTVYYHGSAPNDQFNMYKKITIILGEDTESFVWNLTHAEIMKIEGIKLKAGDRIVYDSFRVYKNGVEISTETNISQPKFKYGANKFEFNQTVQKVQFDLKFYYK 6v8p-a1-m1-cD_6v8p-a1-m1-cE Structure of DNA Polymerase Zeta (Apo) P38927 P38927 4.1 ELECTRON MICROSCOPY 28 0.994 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 157 197 6v93-a1-m1-cD_6v93-a1-m1-cE 7lxd-a1-m1-cD_7lxd-a1-m1-cE 7s0t-a1-m1-cD_7s0t-a1-m1-cE NRWVEKWLRVYLKCYINLILFYRNVYPPQSFDYTTYQSFNLPQFVPINRHPALIDYIEELILDVLSKLTHVYRFSICIINKKNDLCIEKYVLDFITETEVFDEFRSSLNSLIMHLEKLPKVNDDTITFEAVINKIKLTSLVGSDVGPLIIHQFSEKL NRWVEKWLRVYLKCYINLILFYRNVYPPQSFDYTTYQSFNLPQFVPINRHPALIDYIEELILDVLSKLTHVYRFSICIINKKNDLCIEKYVLDFSELQHVITETEVFDEFRSSLNSLIMHLEKLPKVNDDTITFEAVINAIELELGHKLDRNRRVDSLEEKAEIERDSNWVKCQIKLTSLVGSDVGPLIIHQFSEKL 6v91-a1-m1-cB_6v91-a1-m1-cA Crystal structure of Stringent starvation protein A (BTH_I2974) from Burkholderia thailandensis Q2SUC1 Q2SUC1 1.9 X-RAY DIFFRACTION 45 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 202 211 4qq7-a1-m1-cB_4qq7-a1-m1-cA MMVLYSGTTCPFSQRCRLVLFEKGMDFEIRDVDLFNKPEDIAVMNPYGQVPILVERDLILYESNIINEYIDERFPHPQLMPADPVQRARARLFLLNFEKELFVHVSTLENEKGKAAEKSHEKARLAIRDRLTQLAPIFLKNKYMLGEEFSMLDVAIAPLLWRLDHYGIELSKNAAPLMKYAERIFSRPAYIEALTPSEKVMR MMVLYSGTTCPFSQRCRLVLFEKGMDFEIRDVDLFNKPEDIAVMNPYGQVPILVERDLILYESNIINEYIDERFPHPQLMPADPVQRARARLFLLNFEKELFVHVSTLENEKGKAAEKSHEKARLAIRDRLTQLAPIFLKNKYMLGEEFSMLDVAIAPLLWRLDHYGIELSKNAAPLMKYAERIFSRPAYIEALTPSEKVMRRGHHHHHHH 6v9h-a1-m1-cB_6v9h-a1-m1-cA Ankyrin repeat and SOCS-box protein 9 (ASB9), ElonginB (ELOB), and ElonginC (ELOC) bound to its substrate Brain-type Creatine Kinase (CKB) P12277 P12277 4.1 ELECTRON MICROSCOPY 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 362 367 SHNALKLRFPAEDEFPDLSAHNNHMAKVLTPELYAELRAKSTPSGFTLDDVIQTGVDNPGHPYIMTVGCVAGDEESYEVFKDLFDPIIEDRHGGYKPSDEHKTDLNPDNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLAVEALSSLDGDLAGRYYALKSMTEAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWVNEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKDYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFSEVLKRLRLQKRVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEQRLEQGQAIDDLMPA SHNALKLRFPAEDEFPDLSAHNNHMAKVLTPELYAELRAKSTPSGFTLDDVIQTGVDNPGHPYIMTVGCVAGDEESYEVFKDLFDPIIEDRHGGYKPSDEHKTDLNPDNLQGGDDLDPNYVLSSRVRTGRSIRGFCLPPHCSRGERRAIEKLAVEALSSLDGDLAGRYYALKSMTEAEQQQLIDDHFLFDKPVSPLLLASGMARDWPDARGIWHNDNKTFLVWVNEEDHLRVISMQKGGNMKEVFTRFCTGLTQIETLFKSKDYEFMWNPHLGYILTCPSNLGTGLRAGVHIKLPNLGKHEKFSEVLKRLRLQKRGTGVFDVSNADRLGFSEVELVQMVVDGVKLLIEMEQRLEQGQAIDDLMPAQK 6v9k-a1-m1-cA_6v9k-a1-m1-cB CRYSTAL STRUCTURE OF THE HYBRID C-TERMINAL DOMAIN OF ENZYME I OF THE BACTERIAL PHOSPHOTRANSFERASE SYSTEM FORMED BY HYBRIDIZING THE SCAFFOLD OF THE ESCHERICHIA COLI ENZYME WITH THE ACTIVE SITE LOOPS FROM THE THERMOANAEROBACTER TENGCONGENSIS ENZYME P08839 P08839 1.9 X-RAY DIFFRACTION 170 1.0 562 (Escherichia coli) 562 (Escherichia coli) 310 310 2kx9-a1-m1-cA_2kx9-a1-m1-cB 2l5h-a1-m1-cA_2l5h-a1-m1-cB 6vu0-a1-m1-cB_6vu0-a1-m1-cA AITLDGHQVEVCANIGTPKDVEGAERNGAEGVGLYRTEFLYMDRNSLPSEEEQFAAYKAVAEACGSQAVIVRTLDIGGDKELPYLDMPKEMNPFLGYRAIRIAMDRKEILRDQLRAILRASAFGKLRIMFPMIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRMNEHVKEYYQPFHPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIE AITLDGHQVEVCANIGTPKDVEGAERNGAEGVGLYRTEFLYMDRNSLPSEEEQFAAYKAVAEACGSQAVIVRTLDIGGDKELPYLDMPKEMNPFLGYRAIRIAMDRKEILRDQLRAILRASAFGKLRIMFPMIISVEEVRALRKEIEIYKQELRDEGKAFDESIEIGVMVETPAAATIARHLAKEVDFFSIGTNDLTQYTLAVDRMNEHVKEYYQPFHPSVLNLIKQVIDASHAEGKWTGMCGELAGDERATLLLLGMGLDEFSMSAISIPRIKKIIRNTNFEDAKVLAEQALAQPTTDELMTLVNKFIE 6v9p-a2-m1-cA_6v9p-a2-m2-cA Crystal structure of the transposition protein TniQ 1.93 X-RAY DIFFRACTION 146 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 374 374 6lnb-a1-m1-cJ_6lnb-a1-m1-cI 6lnc-a1-m1-cI_6lnc-a1-m1-cJ 6lnd-a1-m1-cK_6lnd-a1-m2-cK 6pif-a1-m1-cI_6pif-a1-m1-cJ 6uvn-a1-m1-cI_6uvn-a1-m1-cJ 6v9q-a1-m1-cI_6v9q-a1-m1-cJ 6vbw-a1-m1-cI_6vbw-a1-m1-cJ MFLQRPKPYSDESLESFFIRVANKNGYGDVHRFLEATKRFLQDIDHNGYQTFPTDITRINPYSAKNSSSARTASFLKLAQLTFNEPPELLGLAINRTNMKYSPSTSAVVRGAEVFPRSLLRTHSIPCCPLCLRENGYASYLWHFQGYEYCHSHNVPLITTCSCGKEFDYRVSGLKGICCKCKEPITLTGHEAACTVSNWLAGHESKPLPNLPKSYRWGLVHWWMGIKDSEFDHFSFVQFFSNWPRSFHSIIEDEVEFNLEHTSELRLKDLLGRLFFGSIRLPERNLQHNIILGELLCYLENRLWQDKGLIANLKMNALEATVMLNCSLDQIASMVEQRILKPLDVTDYLFHFGDIFCLWLAEFQSDEFNRSFYV MFLQRPKPYSDESLESFFIRVANKNGYGDVHRFLEATKRFLQDIDHNGYQTFPTDITRINPYSAKNSSSARTASFLKLAQLTFNEPPELLGLAINRTNMKYSPSTSAVVRGAEVFPRSLLRTHSIPCCPLCLRENGYASYLWHFQGYEYCHSHNVPLITTCSCGKEFDYRVSGLKGICCKCKEPITLTGHEAACTVSNWLAGHESKPLPNLPKSYRWGLVHWWMGIKDSEFDHFSFVQFFSNWPRSFHSIIEDEVEFNLEHTSELRLKDLLGRLFFGSIRLPERNLQHNIILGELLCYLENRLWQDKGLIANLKMNALEATVMLNCSLDQIASMVEQRILKPLDVTDYLFHFGDIFCLWLAEFQSDEFNRSFYV 6vab-a1-m1-cB_6vab-a1-m1-cD Mouse retromer sub-structure: VPS35/VPS35 flat dimer Q9EQH3 Q9EQH3 4.9 ELECTRON MICROSCOPY 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 276 298 FADEQSLVGRFIHLLRSDDPDQQYLILNTARKHFGAGGNQRIRFTLPPLVFAAYQLAFRYKENSQMDDKWEKKCQKIFSFAHQTISALIKAELAELPLRLFLQGALAAGEIGFENHETVAYEFMSQAFSLYEDEISDSKAQLAAITLIIGTFERMKCFSEENHEPLRTQCALAASKLLKKPDQGRAVSTCAHLFWRVMECLKKALKIANQCMDPSLQVQLFIEILNRYIYFYEKTIQVLNQLIQKIREDLPNLESSEETEQINKHFHNTLEHLRSR DFADEQSLVGRFIHLLRSDDPDQQYLILNTARKHFGAGGNQRIRFTLPPLVFAAYQLAFRYKENSQMDDKWEKKCQKIFSFAHQTISALIKAELAELPLRLFLQGALAAGEIGFENHETVAYEFMSQAFSLYEDEISDSKAQLAAITLIIGTFERMKCFSEENHEPLRTQCALAASKLLKKPDQGRAVSTCAHLFWSGRNTDKNGEELHGGKRVMECLKKALKIANQCMDPSLQVQLFIEILNRYIYFYEKENDAVTIQVLNQLIQKIREDLPNLESSEETEQINKHFHNTLEHLRSR 6vam-a1-m1-cG_6vam-a1-m1-cH Cryo-EM structure of octameric chicken CALHM1 A0A1D5NWS1 A0A1D5NWS1 3.63 ELECTRON MICROSCOPY 81 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 214 214 6vam-a1-m1-cA_6vam-a1-m1-cB 6vam-a1-m1-cA_6vam-a1-m1-cH 6vam-a1-m1-cB_6vam-a1-m1-cC 6vam-a1-m1-cC_6vam-a1-m1-cD 6vam-a1-m1-cD_6vam-a1-m1-cE 6vam-a1-m1-cE_6vam-a1-m1-cF 6vam-a1-m1-cF_6vam-a1-m1-cG ICGIMALASAQLYSAFDFNCPCLPRYNLAYGLGVLLVPPLILFLLGFVLNNNVSMLAEEWRRPDAAVLRYMFCSMVQRAMIAPAVWVSVTLLDGKCITCAFCTSLPVEALGPQGEVKRVLARIPCKEIYDGQELIANEVAVRYLRCISQALGWCFVLLMTTLAFLVRSLRPCFTQAVFLKSRYWSHYIDIERKLFDETCAEHAKSFAKVCIQQF ICGIMALASAQLYSAFDFNCPCLPRYNLAYGLGVLLVPPLILFLLGFVLNNNVSMLAEEWRRPDAAVLRYMFCSMVQRAMIAPAVWVSVTLLDGKCITCAFCTSLPVEALGPQGEVKRVLARIPCKEIYDGQELIANEVAVRYLRCISQALGWCFVLLMTTLAFLVRSLRPCFTQAVFLKSRYWSHYIDIERKLFDETCAEHAKSFAKVCIQQF 6vaw-a1-m1-cA_6vaw-a1-m1-cD Peanut lectin complexed with N-beta-D-galactopyranosyl-L-succinamoyl derivative (NGS) P02872 P02872 1.75 X-RAY DIFFRACTION 96 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 232 232 1bzw-a1-m1-cA_1bzw-a1-m1-cD 1bzw-a1-m1-cB_1bzw-a1-m1-cC 1ciw-a1-m1-cA_1ciw-a1-m1-cD 1ciw-a1-m1-cB_1ciw-a1-m1-cC 1cq9-a1-m1-cA_1cq9-a1-m1-cD 1cq9-a1-m1-cB_1cq9-a1-m1-cC 1cr7-a1-m1-cA_1cr7-a1-m1-cD 1cr7-a1-m1-cB_1cr7-a1-m1-cC 1cr7-a2-m1-cE_1cr7-a2-m1-cH 1cr7-a2-m1-cF_1cr7-a2-m1-cG 1qf3-a1-m1-cA_1qf3-a1-m1-cD 1qf3-a1-m1-cB_1qf3-a1-m1-cC 1rir-a1-m1-cA_1rir-a1-m1-cD 1rir-a1-m1-cB_1rir-a1-m1-cC 1rit-a1-m1-cA_1rit-a1-m1-cD 1rit-a1-m1-cB_1rit-a1-m1-cC 1v6i-a1-m1-cA_1v6i-a1-m1-cD 1v6i-a1-m1-cB_1v6i-a1-m1-cC 1v6j-a1-m1-cA_1v6j-a1-m1-cD 1v6j-a1-m1-cB_1v6j-a1-m1-cC 1v6k-a1-m1-cA_1v6k-a1-m1-cD 1v6k-a1-m1-cB_1v6k-a1-m1-cC 1v6l-a1-m1-cA_1v6l-a1-m1-cD 1v6l-a1-m1-cB_1v6l-a1-m1-cC 1v6m-a1-m1-cA_1v6m-a1-m1-cD 1v6m-a1-m1-cB_1v6m-a1-m1-cC 1v6m-a2-m1-cE_1v6m-a2-m1-cH 1v6m-a2-m1-cF_1v6m-a2-m1-cG 1v6n-a1-m1-cA_1v6n-a1-m1-cD 1v6n-a1-m1-cB_1v6n-a1-m1-cC 1v6n-a2-m1-cE_1v6n-a2-m1-cH 1v6n-a2-m1-cF_1v6n-a2-m1-cG 1v6o-a1-m1-cA_1v6o-a1-m1-cD 1v6o-a1-m1-cB_1v6o-a1-m1-cC 1v6o-a2-m1-cE_1v6o-a2-m1-cH 1v6o-a2-m1-cF_1v6o-a2-m1-cG 2dh1-a1-m1-cA_2dh1-a1-m1-cD 2dh1-a2-m1-cB_2dh1-a2-m1-cC 2dv9-a1-m1-cA_2dv9-a1-m1-cD 2dv9-a1-m1-cB_2dv9-a1-m1-cC 2dva-a1-m1-cA_2dva-a1-m1-cD 2dva-a1-m1-cB_2dva-a1-m1-cC 2dvb-a1-m1-cA_2dvb-a1-m1-cD 2dvb-a1-m1-cB_2dvb-a1-m1-cC 2dvd-a1-m1-cA_2dvd-a1-m1-cD 2dvd-a1-m1-cB_2dvd-a1-m1-cC 2dvf-a1-m1-cA_2dvf-a1-m1-cD 2dvf-a1-m1-cB_2dvf-a1-m1-cC 2dvg-a1-m1-cA_2dvg-a1-m1-cD 2dvg-a1-m1-cB_2dvg-a1-m1-cC 2pel-a1-m1-cA_2pel-a1-m1-cD 2pel-a1-m1-cB_2pel-a1-m1-cC 2tep-a1-m1-cA_2tep-a1-m1-cD 2tep-a1-m1-cB_2tep-a1-m1-cC 6v95-a1-m1-cA_6v95-a1-m1-cD 6v95-a1-m1-cB_6v95-a1-m1-cC 6vav-a1-m1-cA_6vav-a1-m1-cD 6vav-a1-m1-cB_6vav-a1-m1-cC 6vaw-a1-m1-cB_6vaw-a1-m1-cC 6vc3-a1-m1-cA_6vc3-a1-m1-cD 6vc3-a1-m1-cB_6vc3-a1-m1-cC 6vc4-a1-m1-cA_6vc4-a1-m1-cD 6vc4-a1-m1-cB_6vc4-a1-m1-cC 6vgf-a1-m1-cA_6vgf-a1-m1-cD 6vgf-a1-m1-cB_6vgf-a1-m1-cC AETVSFNFNSFSEGNPAINFQGDVTVLSNGNIQLTNLNKVNSVGRVLYAMPVRIWSSATGNVASFLTSFSFEMKDIKDYDPADGIIFFIAPEDTQIPAGSIGGGTLGVSDTKGAGHFVGVEFDTYSNSEYNDPPTDHVGIDVNSVDSVKTVPWNSVSGAVVKVTVIYDSSTKTLSVAVTNDNGDITTIAQVVDLKAKLPERVKFGFSASGSLGGRQIHLIRSWSFTSTLITT AETVSFNFNSFSEGNPAINFQGDVTVLSNGNIQLTNLNKVNSVGRVLYAMPVRIWSSATGNVASFLTSFSFEMKDIKDYDPADGIIFFIAPEDTQIPAGSIGGGTLGVSDTKGAGHFVGVEFDTYSNSEYNDPPTDHVGIDVNSVDSVKTVPWNSVSGAVVKVTVIYDSSTKTLSVAVTNDNGDITTIAQVVDLKAKLPERVKFGFSASGSLGGRQIHLIRSWSFTSTLITT 6vaw-a1-m1-cC_6vaw-a1-m1-cD Peanut lectin complexed with N-beta-D-galactopyranosyl-L-succinamoyl derivative (NGS) P02872 P02872 1.75 X-RAY DIFFRACTION 41 1.0 3818 (Arachis hypogaea) 3818 (Arachis hypogaea) 232 232 1bzw-a1-m1-cC_1bzw-a1-m1-cD 1ciw-a1-m1-cC_1ciw-a1-m1-cD 1cq9-a1-m1-cC_1cq9-a1-m1-cD 1cr7-a1-m1-cC_1cr7-a1-m1-cD 1cr7-a2-m1-cG_1cr7-a2-m1-cH 1qf3-a1-m1-cC_1qf3-a1-m1-cD 1rir-a1-m1-cC_1rir-a1-m1-cD 1rit-a1-m1-cC_1rit-a1-m1-cD 1v6i-a1-m1-cC_1v6i-a1-m1-cD 1v6j-a1-m1-cC_1v6j-a1-m1-cD 1v6k-a1-m1-cC_1v6k-a1-m1-cD 1v6l-a1-m1-cC_1v6l-a1-m1-cD 1v6m-a1-m1-cC_1v6m-a1-m1-cD 1v6m-a2-m1-cG_1v6m-a2-m1-cH 1v6n-a1-m1-cC_1v6n-a1-m1-cD 1v6n-a2-m1-cG_1v6n-a2-m1-cH 1v6o-a1-m1-cC_1v6o-a1-m1-cD 1v6o-a2-m1-cG_1v6o-a2-m1-cH 2dv9-a1-m1-cC_2dv9-a1-m1-cD 2dva-a1-m1-cC_2dva-a1-m1-cD 2dvb-a1-m1-cC_2dvb-a1-m1-cD 2dvd-a1-m1-cC_2dvd-a1-m1-cD 2dvf-a1-m1-cC_2dvf-a1-m1-cD 2dvg-a1-m1-cC_2dvg-a1-m1-cD 2pel-a1-m1-cC_2pel-a1-m1-cD 2tep-a1-m1-cC_2tep-a1-m1-cD 6v95-a1-m1-cC_6v95-a1-m1-cD 6vav-a1-m1-cC_6vav-a1-m1-cD 6vc3-a1-m1-cC_6vc3-a1-m1-cD 6vc4-a1-m1-cC_6vc4-a1-m1-cD 6vgf-a1-m1-cC_6vgf-a1-m1-cD AETVSFNFNSFSEGNPAINFQGDVTVLSNGNIQLTNLNKVNSVGRVLYAMPVRIWSSATGNVASFLTSFSFEMKDIKDYDPADGIIFFIAPEDTQIPAGSIGGGTLGVSDTKGAGHFVGVEFDTYSNSEYNDPPTDHVGIDVNSVDSVKTVPWNSVSGAVVKVTVIYDSSTKTLSVAVTNDNGDITTIAQVVDLKAKLPERVKFGFSASGSLGGRQIHLIRSWSFTSTLITT AETVSFNFNSFSEGNPAINFQGDVTVLSNGNIQLTNLNKVNSVGRVLYAMPVRIWSSATGNVASFLTSFSFEMKDIKDYDPADGIIFFIAPEDTQIPAGSIGGGTLGVSDTKGAGHFVGVEFDTYSNSEYNDPPTDHVGIDVNSVDSVKTVPWNSVSGAVVKVTVIYDSSTKTLSVAVTNDNGDITTIAQVVDLKAKLPERVKFGFSASGSLGGRQIHLIRSWSFTSTLITT 6vbb-a1-m1-cB_6vbb-a1-m1-cA 2.60 Angstrom Resolution Crystal Structure of Peptidase S41 from Acinetobacter baumannii A0A1E3M7A1 A0A1E3M7A1 2.6 X-RAY DIFFRACTION 133 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 334 338 PIESIQQFVQIYGIVRDNYVDEKSDDALFLQAIKGLVSGLDRYSRYLSAEEYRQLIQYTEGDLASVDFVLSPESKWIRDLKTGSDSYKLGLRNGQTILKIDNQELKNLTHDQVLGLLYGSIGSTLQVQTEESNSPISLVRNKKIETDIEPVLHNQVLVLKIRVFQQDTANEIKRLIEENSSSRLKAVLIDLRNNPGGLLSAAVESADLFLNHGIIVSTKSRSEGNQQFQALPGNDFQNIKVGILINHRSASAAEVFTAAKEHQRAWVGEKSYGKGVVQKLFPLPSGAALQTVSHYYTPNGNIEGQGIQPNQTYPLPPEKEEVYLDRVADLLLKR PIESIQQFVQIYGIVRDNYVDEKSDDALFLQAIKGLVSGLDRYSRYLSAEEYRQLIQYTEGDLASVDFVLSPESHVHKWIRDLKTGSDSYKLGLRNGQTILKIDNQELKNLTHDQVLGLLYGSIGSTLQVQTEESNSPISLVRNKKIETDIEPVLHNQVLVLKIRVFQQDTANEIKRLIEENSSSRLKAVLIDLRNNPGGLLSAAVESADLFLNHGIIVSTKSRSEGNQQFQALPGNDFQNIKVGILINHRSASAAEVFTAAKEHQRAWVGEKSYGKGVVQKLFPLPSGAALQTVSHYYTPNGNIEGQGIQPNQTYPLPPEKEEVYLDRVADLLLKRK 6vbf-a1-m1-cB_6vbf-a1-m2-cA 1.85 Angstrom Resolution Crystal Structure of N-terminal Domain of Two-component System Response Regulator from Acinetobacter baumannii A0A380UY17 A0A380UY17 1.85 X-RAY DIFFRACTION 12 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 116 116 5hm6-a2-m1-cA_5hm6-a2-m2-cB KLPKILIVEDDERLARLTQEYLIRNGLEVGVETDGNRAIRRIISEQPDLVVLDVLPGADGLTVCREVRPHYHQPILLTARTEDDQVLGLEGADDYVAKPVQPRVLLARIRALLRRT KLPKILIVEDDERLARLTQEYLIRNGLEVGVETDGNRAIRRIISEQPDLVVLDVLPGADGLTVCREVRPHYHQPILLTARTEDDQVLGLEGADDYVAKPVQPRVLLARIRALLRRT 6vbh-a2-m1-cA_6vbh-a2-m2-cA Human XPG endonuclease catalytic domain P28715 P28715 1.995 X-RAY DIFFRACTION 21 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 326 326 GVQGLWKLLECSGRQVSPEALEGKILAVDISIWLNQAENPHLLTLFHRLCKLLFFRIRPIFVFDGDAPLLKKKELEKRREAREEAEEKWREALEKGEIEEARKYAQRATRVNGQMFLESQELLRLFGIPYIQAPMEAEAQCAILDLTDQTSGTITDDSDIWLFGARHVYRNFFNKNKFVEYYQYVDFHNQLGLDRNKLINLAYLLGSDYTEGIPTVGCVTAMEILNEFPGHGLEPLLKFSEWWHEAQKNDTKVKKKLRTLQLTPGFPNPAVAEAYLKPVVDDSKGSFLWGKPDLDKIREFCQRYFGWNRTKTDESLFPVLKQLDAQ GVQGLWKLLECSGRQVSPEALEGKILAVDISIWLNQAENPHLLTLFHRLCKLLFFRIRPIFVFDGDAPLLKKKELEKRREAREEAEEKWREALEKGEIEEARKYAQRATRVNGQMFLESQELLRLFGIPYIQAPMEAEAQCAILDLTDQTSGTITDDSDIWLFGARHVYRNFFNKNKFVEYYQYVDFHNQLGLDRNKLINLAYLLGSDYTEGIPTVGCVTAMEILNEFPGHGLEPLLKFSEWWHEAQKNDTKVKKKLRTLQLTPGFPNPAVAEAYLKPVVDDSKGSFLWGKPDLDKIREFCQRYFGWNRTKTDESLFPVLKQLDAQ 6vbk-a1-m1-cA_6vbk-a1-m2-cB Crystal structure of N-terminal domain of Mycobacterium tuberculosis complex Lon protease 2 X-RAY DIFFRACTION 42 0.99 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 208 210 AMDLELSMSETLTLPVLPLEDGVVLPGMVVPLDLSENGEVRAAIEAARAAAQSRGPVSKPRVLLVPRLNGRYADVGTLGVIEQEGRLPGGEPGAVVRGVSRVRIGTGTTGPGAALWVEGTVLEAPPASGRAQELAKEYKGLVSAILQKRGAWQVVDVVQQIDDPSTLADNSGYAPYLTDEQKIEVLETVDVVERLELVIGWTRDHLAE AMDLELSMSETLTLPVLPLEDGVVLPGMVVPLDLSENGEVRAAIEAARAAAQSRGPGIRSVSKPRVLLVPRLNGRYADVGTLGVIEQEGRLPGGEPGAVVRGVSRVRIGTGTTGPGAALWVEGTVLEAPPASGRAQELAKEYKGLVSAILQKRGAWQVVDVVQQIDDPSTLADNSGYAPYLTDEQKIEVLETVDVVERLELVIGWTRDHL 6vca-a1-m1-cF_6vca-a1-m1-cL TB38 complex 3.73 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 212 QTVVTQEPSFSVSPGGTVTLTCGLSSGSVSTSYYPNWYQQTPGQAPRTLIYSTNTRSSGVPDRFSGSILGNKAALTITGAQADDESDYYCVLFMGSGIWVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP QTVVTQEPSFSVSPGGTVTLTCGLSSGSVSTSYYPNWYQQTPGQAPRTLIYSTNTRSSGVPDRFSGSILGNKAALTITGAQADDESDYYCVLFMGSGIWVFGGGTKLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP 6vcs-a1-m1-cE_6vcs-a1-m1-cA SRA domain of UHRF1 in complex with DNA Q96T88 Q96T88 1.7 X-RAY DIFFRACTION 17 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 183 187 NHYGPIPGIPVGTMWRFRVQVSESGVHRPHVAGIHGRSNDGAYSLVLAGGYEDDVDHGNFFTYTGSGCDQKLTNTNRALALNCFAPINDQEGAEAKDWRSGKPVRVVRNVKGGKNSKYAPAEGNRYDGIYKVVKYWPEKGKSGFLVWRYLLRRDDDEPGPWTKEGKDRIKKLGLTMQYPEGYL PSNHYGPIPGIPVGTMWRFRVQVSESGVHRPHVAGIHGRSNDGAYSLVLAGGYEDDVDHGNFFTYTGSGGQSCDQKLTNTNRALALNCFAPINDQEGAEAKDWRSGKPVRVVRNVKGGKNSKYAPAEGNRYDGIYKVVKYWPEKGKSGFLVWRYLLRRDDDEPGPWTKEGKDRIKKLGLTMQYPEGY 6vcw-a1-m1-cB_6vcw-a1-m1-cA Crystal structure of Medicago truncatula S-adenosylmethionine Synthase 3A (MtMAT3A) G7L3W1 G7L3W1 1.4 X-RAY DIFFRACTION 124 0.997 3880 (Medicago truncatula) 3880 (Medicago truncatula) 377 378 ETFLFTSESVNEGHPDKLCDQVSDAILDACLQQDPESKVACETCTKTNMVMVFGEITTKATVNYEKIVRDTCRGIGFVSADVGLDADNCKVLVNIEQQSPKPEEIGAGDQGHMFGYATDETPELMPLTHVLATKLGAKLTEVRKNKTCAWLRPDGKTQVTVEYQNDNGAMVPIRVHTVLISTQHDETVTNEKIAADLKEHVIKPVIPAKYLDDKTIFHLNPSGRFVIGGPHGDAGLTGRKIIIDTYGGWGAHGGGAFSGKDPTKVDRSGAYIVRQAAKSVVASGLARRCIVQVSYAIGVPEPLSVFVDTYKTGKIPDKDILVLIKEHFDFRPGMISNNLDLKRGGNFRYQKTAAYGHFGRDDPDFTWETVKILKPKA ETFLFTSESVNEGHPDKLCDQVSDAILDACLQQDPESKVACETCTKTNMVMVFGEITTKATVNYEKIVRDTCRGIGFVSADVGLDADNCKVLVNIEQQSPDKKPEEIGAGDQGHMFGYATDETPELMPLTHVLATKLGAKLTEVRKNKTCAWLRPDGKTQVTVEYQNDNGAMVPIRVHTVLISTQHDETVTNEKIAADLKEHVIKPVIPAKYLDDKTIFHLNPSGRFVIGGPHGDAGLTGRKIIIDTYGGWGAHGGGAFSGKDPTKVDRSGAYIVRQAAKSVVASGLARRCIVQVSYAIGVPEPLSVFVDTYKTGKIPDKDILVLIKEHFDFRPGMISNNLDLKRGGNFRYQKTAAYGHFGRDDPDFTWETVKILKPK 6vd1-a1-m1-cB_6vd1-a1-m1-cA Crystal structure of Arabidopsis thaliana S-adenosylmethionine Synthase 2 (AtMAT2) in complex with S-adenosylmethionine and PPNP P17562 P17562 1.32 X-RAY DIFFRACTION 252 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 392 395 6vcx-a1-m1-cA_6vcx-a1-m2-cA 6vcy-a1-m1-cA_6vcy-a1-m2-cA 6vcz-a1-m1-cA_6vcz-a1-m1-cB 6vd0-a1-m1-cB_6vd0-a1-m1-cA 6vd0-a2-m1-cD_6vd0-a2-m1-cC 6vd2-a1-m1-cB_6vd2-a1-m1-cA AMETFLFTSESVNEGHPDKLCDQISDAVLDACLEQDPDSKVACETCTKTNMVMVFGEITTKATIDYEKIVRDTCRSIGFISDDVGLDADKCKVLVNIEQQSPDIAQGVHGHFTKRPEDIGAGDQGHMFGYATDETPELMPLSHVLATKIGARLTEVRKNGTCRWLRPDGKTQVTVEYYNDNGAMVPVRVHTVLISTQHDETVTNDEIARDLKEHVIKPIIPEKYLDDKTIFHLNPSGRFVIGGPHGDAGLTGRKIIIDTYGGWGAHGGGAFSGKDPTKVDRSGAYIVRQAAKSVVANGMARRALVQVSYAIGVPEPLSVFVDTYGTGLIPDKEILKIVKETFDFRPGMMTINLDLKRGGNGRFQKTAAYGHFGRDDPDFTWEVVKPLKWDKP METFLFTSESVNEGHPDKLCDQISDAVLDACLEQDPDSKVACETCTKTNMVMVFGEITTKATIDYEKIVRDTCRSIGFISDDVGLDADKCKVLVNIEQQSPDIAQGVHGHFTKRPEDIGAGDQGHMFGYATDETPELMPLSHVLATKIGARLTEVRKNGTCRWLRPDGKTQVTVEYYNDNGAMVPVRVHTVLISTQHDETVTNDEIARDLKEHVIKPIIPEKYLDDKTIFHLNPSGRFVIGGPHGDAGLTGRKIIIDTYGGWGAHGGGAFSGKDPTKVDRSGAYIVRQAAKSVVANGMARRALVQVSYAIGVPEPLSVFVDTYGTGLIPDKEILKIVKETFDFRPGMMTINLDLKRGGNGRFQKTAAYGHFGRDDPDFTWEVVKPLKWDKPQLNN 6vd9-a2-m1-cD_6vd9-a2-m1-cB Metal-bound C-terminal domain of the CzcD transporter from Cuprividus metallidurans P13512 P13512 1.75 X-RAY DIFFRACTION 39 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 69 73 6vd9-a1-m1-cC_6vd9-a1-m1-cA VDLAEVEKQILATPGVKSFHDLHIWALASLTVHVVNDTAVNPEMEVLPELKQMLADKFDITHVTIQFEL VDLAEVEKQILATPGVKSFHDLHIWALTSGKASLTVHVVNDTAVNPEMEVLPELKQMLADKFDITHVTIQFEL 6vda-a1-m1-cA_6vda-a1-m2-cA Metal-bound C-terminal domain of CzcD transporter from Thermotoga maritima Q9WZX9 Q9WZX9 2.4 X-RAY DIFFRACTION 44 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 86 86 2zzt-a1-m1-cA_2zzt-a1-m2-cA MKRTELDMYDDIFAVLERFPNVHNPHRVRIRRVGTKYFIEMDIEVDGKMSVKDAHELTVKIRKEMLKRRDDIEDVTIHVEPLGNVE MKRTELDMYDDIFAVLERFPNVHNPHRVRIRRVGTKYFIEMDIEVDGKMSVKDAHELTVKIRKEMLKRRDDIEDVTIHVEPLGNVE 6ve1-a2-m1-cB_6ve1-a2-m1-cC Crystal structure of endo-beta-N-acetylglucosaminidase H at high pH P04067 P04067 2.1 X-RAY DIFFRACTION 22 1.0 1922 (Streptomyces plicatus) 1922 (Streptomyces plicatus) 267 268 6ve1-a1-m1-cA_6ve1-a1-m1-cD MVKQGPTSVAYVEVNNNSMLNVGKYTLADGGGNAFDVAVIFAANINYDTGTKTAYLHFNENVQRVLDNAVTQIRPLQQQGIKVLLSVLGNHQGAGFANFPSQQAASAFAKQLSDAVAKYGLDGVDFDDEYAEYGNNGTAQPNDSSFVHLVTALRANMPDKIISLYNIGPAASRLSYGGVDVSDKFDYAWNPYYGTWQVPGIALPKAQLSPAAVEIGRTSRSTVADLARRTVDEGYGVYLTYNLDGGDRTADVSAFTRELYGSEAVRT YMVKQGPTSVAYVEVNNNSMLNVGKYTLADGGGNAFDVAVIFAANINYDTGTKTAYLHFNENVQRVLDNAVTQIRPLQQQGIKVLLSVLGNHQGAGFANFPSQQAASAFAKQLSDAVAKYGLDGVDFDDEYAEYGNNGTAQPNDSSFVHLVTALRANMPDKIISLYNIGPAASRLSYGGVDVSDKFDYAWNPYYGTWQVPGIALPKAQLSPAAVEIGRTSRSTVADLARRTVDEGYGVYLTYNLDGGDRTADVSAFTRELYGSEAVRT 6ve2-a1-m1-cT_6ve2-a1-m1-cU Tetradecameric PilQ bound by TsaP heptamer from Pseudomonas aeruginosa Q9I7A7 Q9I7A7 4.3 ELECTRON MICROSCOPY 37 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 225 225 6ve2-a1-m1-cO_6ve2-a1-m1-cP 6ve2-a1-m1-cO_6ve2-a1-m1-cU 6ve2-a1-m1-cP_6ve2-a1-m1-cQ 6ve2-a1-m1-cQ_6ve2-a1-m1-cR 6ve2-a1-m1-cR_6ve2-a1-m1-cS 6ve2-a1-m1-cS_6ve2-a1-m1-cT PLDKINSFLLANRIVDDEKTFTSAPYIVAGNAERIVSGTGDRIYARGKFADGQPAYGIFRQGKVYIDPKTKEVLGINADDIGGGEVVATEGDVATLALTRTTQEVRLGDRLFPTEERAVNSTFMPGEPSREVKGEIIDVPRGVTQIGQFDVVTLNRGQRDGLAEGNVLAIYKVGETVRDRVTGESVKIPDERAGLLMVFRTYKKLSYALVLMASRPLSVTDRVQN PLDKINSFLLANRIVDDEKTFTSAPYIVAGNAERIVSGTGDRIYARGKFADGQPAYGIFRQGKVYIDPKTKEVLGINADDIGGGEVVATEGDVATLALTRTTQEVRLGDRLFPTEERAVNSTFMPGEPSREVKGEIIDVPRGVTQIGQFDVVTLNRGQRDGLAEGNVLAIYKVGETVRDRVTGESVKIPDERAGLLMVFRTYKKLSYALVLMASRPLSVTDRVQN 6ve6-a3-m1-cC_6ve6-a3-m1-cD A structural characterization of poly(aspartic acid) hydrolase-1 from Sphingomonas sp. KT-1. Q7WSC1 Q7WSC1 2.446 X-RAY DIFFRACTION 43 1.0 88363 (Sphingomonas sp. KT-1) 88363 (Sphingomonas sp. KT-1) 264 266 LKPGAGSFLFTGWAGKPLKVHYYAPDKITETTRILFVIHGAGRNADGYRDAWIPYAKEGQYIVLTPEYSMADFPTSLTYNVGHIVDEAGNPRPREEWSFASIEPMFDQVRKATGSKVPTYAIYGHSAGGQFVHRFVELWPDARYSRAVAANAGWYTMPDLAIKYPYGLKDAPTDAAGLKATLEKPLTILLGTADTDVNHHQLSRTPEAMTQGVHRLARGEFFYAYGRKVAHELNAKFAWKLDYAPDIAHSNTGMSQYAQKLVWE PDLKPGAGSFLFTGWAGKPLKVHYYAPDKITETTRILFVIHGAGRNADGYRDAWIPYAKEGQYIVLTPEYSMADFPTSLTYNVGHIVDEAGNPRPREEWSFASIEPMFDQVRKATGSKVPTYAIYGHSAGGQFVHRFVELWPDARYSRAVAANAGWYTMPDLAIKYPYGLKDAPTDAAGLKATLEKPLTILLGTADTDVNHHQLSRTPEAMTQGVHRLARGEFFYAYGRKVAHELNAKFAWKLDYAPDIAHSNTGMSQYAQKLVWE 6veh-a1-m2-cA_6veh-a1-m3-cA Computationally designed C3-symmetric homotrimer from HEAT repeat protein 2.303 X-RAY DIFFRACTION 49 1.0 32630 (synthetic construct) 32630 (synthetic construct) 179 179 6veh-a1-m1-cA_6veh-a1-m2-cA 6veh-a1-m1-cA_6veh-a1-m3-cA TDPMKVILYIAMLELEKYIMRAAAAYALGKIGDERAVEPLIKALKDEDAIVRAAAADALGQIGDERAVEPLIKALKDEDGAVRVSAAVALGQIGDERAVEPLIKALKDEDAVVRVAAAIALGLIGDERAVEPLIKALKDEKGKVREAAALALGAIGGERVRAAMFARKVAVNYLETHKL TDPMKVILYIAMLELEKYIMRAAAAYALGKIGDERAVEPLIKALKDEDAIVRAAAADALGQIGDERAVEPLIKALKDEDGAVRVSAAVALGQIGDERAVEPLIKALKDEDAVVRVAAAIALGLIGDERAVEPLIKALKDEKGKVREAAALALGAIGGERVRAAMFARKVAVNYLETHKL 6vej-a1-m1-cB_6vej-a1-m1-cC TriABC transporter from Pseudomonas aeruginosa Q9I6X4 Q9I6X4 4.5 ELECTRON MICROSCOPY 154 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 1022 1022 6vej-a1-m1-cA_6vej-a1-m1-cB 6vej-a1-m1-cA_6vej-a1-m1-cC MAKGGFNLSDWALRHQSLVWYLMAVSLVMGVFSYLNLGREEDPSFAIKTMVIQTRWPGATVDDTLEQVTDRIEKKLEELDSLDYVKSYTRPGESTVFVYLKDTTKAGDIPDIWYQVRKKISDIQGEFPQGIQGPGFNDEFGDVFGSVYAFTADGLDFRQLRDYVEKVRLDIRSVKDLGKVQMIGAQNEVIYLNFSTRKLAALGLDQRQVVQSLQAQNAVTPSGVVEAGPERISVRTSGNFRSEKDLQAVNLRVNDRFYRLSDLASISRDFVDPPTSLFRYKGEPAIGLAVAMKEGGNILEFGEALNARMQEITGELPVGVGVHQVSNQAQVVKKAVGGFTRALFEAVVIVLIVSFVSLGLRAGLVVACSIPLVLAMVFVFMEYTDITMQRVSLGALIIALGLLVDDAMITVEMMITRLELGDSLHDSATYAYTSTAFPMLTGTLVTVAGFVPIGLNASSAGEYTFTLFAVIAVALLLSWIVAVLFAPVIAVHILPKTLKHKSEQKKGRIAERFDSLLHLAMRRRWTTIFLTALLFGVSLFLMKFVQHQFFPSSDRPELLVDLNLPQNSSIHETRAVMDRLEATLKDDEDIDHWSAYVGEGAIRFYLPLDQQLQNNFYGQLVIVTKDLEARERVAARLRDRLRKDYVGISTYVQPLEMGPPVGRPIQYRVSGPQIDKVREYAMGLAGVLDGNPNIGDIVYDWNEPGKMLKIDIAQDKARQLGLSSEDVAQIMNSVVTGSAVTQVRDDIYLVNVIGRAEDSERGSLETLESLQIVTPSGTSIPLKAFAKVSYELEQPLVWRRDRKPTITVKASLRGEIQPTDLVARLAPEVKRFADGLPANYRIEVGGTVEESGKAEGPIAKVVPLMLFLMATFLMIQLQSVQKLFLVASVAPLGLIGVVAALLPTGTPMGFVAILGILALIGIIIRNSVILVTQIDAFEKDGKTPWEAVLEATHHRTRPILLTAAAASLGMIPIAREVFWGPMAYAMIGGIVAATLLTLIFLPALYVAWYRIPEPGRHHHHHH MAKGGFNLSDWALRHQSLVWYLMAVSLVMGVFSYLNLGREEDPSFAIKTMVIQTRWPGATVDDTLEQVTDRIEKKLEELDSLDYVKSYTRPGESTVFVYLKDTTKAGDIPDIWYQVRKKISDIQGEFPQGIQGPGFNDEFGDVFGSVYAFTADGLDFRQLRDYVEKVRLDIRSVKDLGKVQMIGAQNEVIYLNFSTRKLAALGLDQRQVVQSLQAQNAVTPSGVVEAGPERISVRTSGNFRSEKDLQAVNLRVNDRFYRLSDLASISRDFVDPPTSLFRYKGEPAIGLAVAMKEGGNILEFGEALNARMQEITGELPVGVGVHQVSNQAQVVKKAVGGFTRALFEAVVIVLIVSFVSLGLRAGLVVACSIPLVLAMVFVFMEYTDITMQRVSLGALIIALGLLVDDAMITVEMMITRLELGDSLHDSATYAYTSTAFPMLTGTLVTVAGFVPIGLNASSAGEYTFTLFAVIAVALLLSWIVAVLFAPVIAVHILPKTLKHKSEQKKGRIAERFDSLLHLAMRRRWTTIFLTALLFGVSLFLMKFVQHQFFPSSDRPELLVDLNLPQNSSIHETRAVMDRLEATLKDDEDIDHWSAYVGEGAIRFYLPLDQQLQNNFYGQLVIVTKDLEARERVAARLRDRLRKDYVGISTYVQPLEMGPPVGRPIQYRVSGPQIDKVREYAMGLAGVLDGNPNIGDIVYDWNEPGKMLKIDIAQDKARQLGLSSEDVAQIMNSVVTGSAVTQVRDDIYLVNVIGRAEDSERGSLETLESLQIVTPSGTSIPLKAFAKVSYELEQPLVWRRDRKPTITVKASLRGEIQPTDLVARLAPEVKRFADGLPANYRIEVGGTVEESGKAEGPIAKVVPLMLFLMATFLMIQLQSVQKLFLVASVAPLGLIGVVAALLPTGTPMGFVAILGILALIGIIIRNSVILVTQIDAFEKDGKTPWEAVLEATHHRTRPILLTAAAASLGMIPIAREVFWGPMAYAMIGGIVAATLLTLIFLPALYVAWYRIPEPGRHHHHHH 6ven-a1-m1-cQ_6ven-a1-m1-cP Yeast COMPASS in complex with a ubiquitinated nucleosome Q03323 Q03323 3.37 ELECTRON MICROSCOPY 41 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 29 42 NTNVTPHLLAGMRLIDPLRVLGEYLIEQS SQTRKYLNTNVTPHLLAGMRLIAVQQPEDPLRVLGEYLIEQS 6vfr-a1-m1-cA_6vfr-a1-m1-cB Crystal structure of human protocadherin 18 EC1-EC4 Q9HCL0 Q9HCL0 2.79 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 428 428 KNLKYRIYEEQRVGSVIARLSEDVADVLLKLPNPSTVRFRAMQRGNSPLLVVNEDNGEISIGATIDREQLCQKNLNCSIEFDVITLPTEHLQLFHIEVEVLDINDNSPQFSRSLIPIEISESAAVGTRIPLDSAFDPDVGENSLHTYSLSANDFFNIEVRTRTDGAKYAELIVVRELDRELKSSYELQLTASDMGVPQRSGSSILKISISDSNDNSPAFEQQSYIIQLLENSPVGTLLLDLNATDPDEGANGKIVYSFSSHVSPKIMETFKIDSERGHLTLFKQVDYEITKSYEIDVQAQDLGPNSIPAHCKIIIKVVDVNDNKPEININLMSPGKEEISYIFEGDPIDTFVALVRVQDKDSGLNGEIVCKLHGHGHFKLQKTYENNYLILTNATLDREKRSEYSLTVIAEDRGTPSLSTVKHFTVQI KNLKYRIYEEQRVGSVIARLSEDVADVLLKLPNPSTVRFRAMQRGNSPLLVVNEDNGEISIGATIDREQLCQKNLNCSIEFDVITLPTEHLQLFHIEVEVLDINDNSPQFSRSLIPIEISESAAVGTRIPLDSAFDPDVGENSLHTYSLSANDFFNIEVRTRTDGAKYAELIVVRELDRELKSSYELQLTASDMGVPQRSGSSILKISISDSNDNSPAFEQQSYIIQLLENSPVGTLLLDLNATDPDEGANGKIVYSFSSHVSPKIMETFKIDSERGHLTLFKQVDYEITKSYEIDVQAQDLGPNSIPAHCKIIIKVVDVNDNKPEININLMSPGKEEISYIFEGDPIDTFVALVRVQDKDSGLNGEIVCKLHGHGHFKLQKTYENNYLILTNATLDREKRSEYSLTVIAEDRGTPSLSTVKHFTVQI 6vfs-a1-m1-cD_6vfs-a1-m1-cC ClpXP from Neisseria meningitidis - Conformation A Q9JYY3 Q9JYY3 3.3 ELECTRON MICROSCOPY 126 0.994 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 326 330 6vfs-a1-m1-cB_6vfs-a1-m1-cC 6vfs-a1-m1-cF_6vfs-a1-m1-cE 6vfx-a1-m1-cB_6vfx-a1-m1-cA 6vfx-a1-m1-cC_6vfx-a1-m1-cB 6vfx-a1-m1-cC_6vfx-a1-m1-cD 6vfx-a1-m1-cD_6vfx-a1-m1-cE 6vfx-a1-m1-cF_6vfx-a1-m1-cE KLPTPAEIVANLNDHVIGQEQAKKALAVSVYNHYKRLRHPNVELSKSNILLIGPTGSGKTLLAQSLARKLDVPFVMADATTLTEAGYVGEDVEQIITKLLGKCDFDVEKAQRGIVYIDQIDKISRKTRDVSGEGVQQALLKLIEGTVASVPPQFINVDTTNILFICGGAFAGLEKVIRQRTEKGGIGFGASVHSDITKLFGIVEPEDLIKFGLIPELIGRLPVIATLEILDEDALINILTEPKNALVKQYQALFGMENVELEFEEGALRSIARQAMERKTGARGLRSIVERCLLDTMYRLPDLKGLKKVVVGKAVIEEGREPELVF KLPTPAEIVANLNDHVIGQEQAKKALAVSVYNHYKRLRHPKAGANVELSKSNILLIGPTGSGKTLLAQSLARKLDVPFVMADATTLTEAGYVGEDVEQIITKLLGKCDFDVEKAQRGIVYIDQIDKISRTRDVSGEGVQQALLKLIEGTVASVPPQEFINVDTTNILFICGGAFAGLEKVIRQRTEKGGIGFGASVHADITKLFGIVEPEDLIKFGLIPELIGRLPVIATLEILDEDALINILTEPKNALVKQYQALFGMENVELEFEEGALRSIARQAMERKTGARGLRSIVERCLLDTMYRLPDLKGLKKVVVGKAVIEEGREPELVF 6vfs-a1-m1-cD_6vfs-a1-m1-cE ClpXP from Neisseria meningitidis - Conformation A Q9JYY3 Q9JYY3 3.3 ELECTRON MICROSCOPY 129 0.997 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 326 334 6vfs-a1-m1-cA_6vfs-a1-m1-cB KLPTPAEIVANLNDHVIGQEQAKKALAVSVYNHYKRLRHPNVELSKSNILLIGPTGSGKTLLAQSLARKLDVPFVMADATTLTEAGYVGEDVEQIITKLLGKCDFDVEKAQRGIVYIDQIDKISRKTRDVSGEGVQQALLKLIEGTVASVPPQFINVDTTNILFICGGAFAGLEKVIRQRTEKGGIGFGASVHSDITKLFGIVEPEDLIKFGLIPELIGRLPVIATLEILDEDALINILTEPKNALVKQYQALFGMENVELEFEEGALRSIARQAMERKTGARGLRSIVERCLLDTMYRLPDLKGLKKVVVGKAVIEEGREPELVF KLPTPAEIVANLNDHVIGQEQAKKALAVSVYNHYKRLRHPKAGANVELSKSNILLIGPTGSGKTLLAQSLARKLDVPFVMADATTLTEAGYVGEDVEQIITKLLGKCDFDVEKAQRGIVYIDQIDKISRKTRDVSGEGVQQALLKLIEGTVASVPPQGGREFINVDTTNILFICGGAFAGLEKVIRQRTEKGGIGFGASVHSKITKLFGIVEPEDLIKFGLIPELIGRLPVIATLEILDEDALINILTEPKNALVKQYQALFGMENVELEFEEGALRSIARQAMERKTGARGLRSIVERCLLDTMYRLPDLKGLKKVVVGKAVIEEGREPELVF 6vft-a2-m1-cB_6vft-a2-m1-cD Crystal structure of human delta protocadherin 17 EC1-EC4 O14917 O14917 3.71 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 414 418 6vft-a1-m1-cA_6vft-a1-m1-cC LKNLNYSVPEEQGAGTVIGNIGRDARLQPSYRVLENSAPHLLDVDADSGLLYTKQRIDRESLCRHNAKCQLSLEVFANDKEICMIKVEIQDINDNAPSFSSDQIEMDISENAAPGTRFPLTSAHDPDAGENGLRTYLLTRDDHGLFGLDVKSRGDGTKFPELVIQKALDREQQNHHTLVLTALDGGEPPRSATVQINVKVIDSNDNSPVFEAPSYLVELPENAPLGTVVIDLNATDADEGPNGEVLYSFSSYVPDRVRELFSIDPKTGLIRVKGNLDYEENGMLEIDVQARDLGPNPIPAHCKVTVKLIDRNDNAPSIGFVSVRQGALSEAAPPGTVIALVRVTDRDSGKNGQLQCRVLGGPFKLEENYDNFYTVVTDRPLDRETQDEYNVTIVARDGGSPPLNSTKSFAIKIL LKNLNYSVPEEQGAGTVIGNIGRDARLQPGGSYRVLENSAPHLLDVDADSGLLYTKQRIDRESLCRHNAKCQLSLEVFANDKEICMIKVEIQDINDNAPSFSSDQIEMDISENAAPGTRFPLTSAHDPDAGENGLRTYLLTRDDHGLFGLDVKSRGDGTKFPELVIQKALDREQQNHHTLVLTALDGGEPPRSATVQINVKVIDSNDNSPVFEAPSYLVELPENAPLGTVVIDLNATDADEGPNGEVLYSFSSYVPDRVRELFSIDPKTGLIRVKGNLDYEENGMLEIDVQARDLGPNPIPAHCKVTVKLIDRNDNAPSIGFVSVRQGALSEAAPPGTVIALVRVTDRDSGKNGQLQCRVLGGVPFKLEENYDNFYTVVTDRPLDRETQDEYNVTIVARDGGSPPLNSTKSFAIKILD 6vfu-a2-m1-cB_6vfu-a2-m2-cB Crystal structure of human protocadherin 19 EC1-EC4 Q8TAB3 Q8TAB3 3.5 X-RAY DIFFRACTION 87 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 411 411 6vfu-a1-m1-cA_6vfu-a1-m1-cC LINLKYSVEEEQRAGTVIANVAKDAREAGFAFRVVSNSAPHLVDINPSSGLLVTKQKIDRDLLCRQSPKCIISLEVMSSSMEICVIKVEIKDLNDNAPSFPAAQIELEISEAASPGTRIPLDSAYDPDSGSFGVQTYELTPNELFGLEIKTRGDGSRFAELVVEKSLDRETQSHYSFRITALDGGDPPRLGTVGLSIKVTDSNDNNPVFSESTYAVSVPENSPPNTPVIRLNASDPDEGTNGQVVYSFYGYVNDRTRELFQIDPHSGLVTVTGALDYEEGHVYELDVQAKDLGPNSIPAHCKVTVSVLDTNDNPPVINLLSLVEVSESAPPGYVIALVRVSDRDSGLNGRVQCRLLGNVPFRLQEYESFSTILVDGRLDREQHDQYNLTIQARDGGVPMLQSAKSFTVLIT LINLKYSVEEEQRAGTVIANVAKDAREAGFAFRVVSNSAPHLVDINPSSGLLVTKQKIDRDLLCRQSPKCIISLEVMSSSMEICVIKVEIKDLNDNAPSFPAAQIELEISEAASPGTRIPLDSAYDPDSGSFGVQTYELTPNELFGLEIKTRGDGSRFAELVVEKSLDRETQSHYSFRITALDGGDPPRLGTVGLSIKVTDSNDNNPVFSESTYAVSVPENSPPNTPVIRLNASDPDEGTNGQVVYSFYGYVNDRTRELFQIDPHSGLVTVTGALDYEEGHVYELDVQAKDLGPNSIPAHCKVTVSVLDTNDNPPVINLLSLVEVSESAPPGYVIALVRVSDRDSGLNGRVQCRLLGNVPFRLQEYESFSTILVDGRLDREQHDQYNLTIQARDGGVPMLQSAKSFTVLIT 6vfw-a2-m1-cB_6vfw-a2-m1-cD Crystal structure of human delta protocadherin 10 EC1-EC4 Q9P2E7 Q9P2E7 3.6 X-RAY DIFFRACTION 86 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 423 423 6vfw-a1-m1-cA_6vfw-a1-m1-cC 6vfw-a3-m1-cE_6vfw-a3-m2-cE QLHYTVQEEQEHGTFVGNIAEDLGLDITKLSARGFQTVPNSRTPYLDLNLETGVLYVNEKIDREQICKQSPSCVLHLEVFLENPLELFQVEIEVLDINDNPPSFPEPDLTVEISESATPGTRFPLESAFDPDVGTNSLRDYEITPNSYFSLDVQTQGDGNRFAELVLEKPLDREQQAVHRYVLTAVDGGGGPPQQQRTGTALLTIRVLDSNDNVPAFDQPVYTVSLPENSPPGTLVIQLNATDPDEGQNGEVVYSFSSHISPRARELFGLSPRTGRLEVSGELDYEESPVYQVYVQAKDLGPNAVPAHCKVLVRVLDANDNAPEISFSTVKEAVSEGAAPGTVVALFSVTDRDSEENGQVQCELLGDVPFRLKSSFKNYYTIVTEAPLDREAGDSYTLTVVARDRGEPALSTSKSIQVQVSDH QLHYTVQEEQEHGTFVGNIAEDLGLDITKLSARGFQTVPNSRTPYLDLNLETGVLYVNEKIDREQICKQSPSCVLHLEVFLENPLELFQVEIEVLDINDNPPSFPEPDLTVEISESATPGTRFPLESAFDPDVGTNSLRDYEITPNSYFSLDVQTQGDGNRFAELVLEKPLDREQQAVHRYVLTAVDGGGGGPPQQQRTGTALLTIRVLDSNDNVPAFDQPVYTVSLPENSPPGTLVIQLNATDPDEGQNGEVVYSFSSHISPRARELFGLSPRTGRLEVSGELDYEESPVYQVYVQAKDLGPNAVPAHCKVLVRVLDANDNAPEISFSTVKEAVSEGAAPGTVVALFSVTDRDSEENGQVQCELLGDVPFRLKSSFKNYYTIVTEAPLDREAGDSYTLTVVARDRGEPALSTSKSIQVQVSD 6vfx-a1-m1-cF_6vfx-a1-m1-cA ClpXP from Neisseria meningitidis - Conformation B Q9JYY3 Q9JYY3 2.9 ELECTRON MICROSCOPY 60 1.0 487 (Neisseria meningitidis) 487 (Neisseria meningitidis) 321 340 KLPTPAEIVANLNDHVIGQEQAKKALAVSVYNHYKRLRHPKAGANVELSKSNILLIGPTGSGKTLLAQSLARKLDVPFVMADATTLTEAGYVGEDVEQIITKLLGKCDFDVEKAQRGIVYIDQIDKISEGVQQALLKLIEGTVASVPPQGEFINVDTTNILFICGGAFAGLEKVIRQRTEKGGIGFGASVHTKLFGIVEPEDLIKFGLIPELIGRLPVIATLEILDEDALINILTEPKNALVKQYQALFGMENVELEFEEGALRSIARQAMERKTGARGLRSIVERCLLDTMYRLPDLKGLKKVVVGKAVIEEGREPELVF KLPTPAEIVANLNDHVIGQEQAKKALAVSVYNHYKRLRHPKAGANVELSKSNILLIGPTGSGKTLLAQSLARKLDVPFVMADATTLTEAGYVGEDVEQIITKLLGKCDFDVEKAQRGIVYIDQIDKISRKSDNPSITRDVSGEGVQQALLKLIEGTVASVPPQGGEFINVDTTNILFICGGAFAGLEKVIRQRTEKGGIGFGASVHNADITKLFGIVEPEDLIKFGLIPELIGRLPVIATLEILDEDALINILTEPKNALVKQYQALFGMENVELEFEEGALRSIARQAMERKTGARGLRSIVERCLLDTMYRLPDLKGLKKVVVGKAVIEEGREPELVF 6vg1-a1-m1-cB_6vg1-a1-m1-cA xenopus protocadherin 8.1 EC1-6 Q6GLU2 Q6GLU2 2 X-RAY DIFFRACTION 97 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 641 642 KTVRYRTYEEDEPGTVIGTLAEDLHLEGEGSFRLMKQFNNSLIHVRESDGQLSIGERIDRERICRQSPHCTLALDVVSVAKEQFKLIHVEVEVRDINDNSPRFPGAEIPVEVSESAPVGTRIPLDIATDEDVGVNSIQSFQISENSHFSIDVQTRADGVKYADLVLMKELDRESQSAYTLELLAMDGGSPSRSGTTMVNVRVLDFNDNSPVFERSSVMVELMEDAPVGHLLLDLDALDPDEGANGEIVYGFSPQVPQEVRQLFKIDAKSGRLTLEGQVDFETKQTYEFDAQAQDMALNPLTATCKVIVRVIDVNDNAPVIGITPLTSISAGVAYITEAAARESFVALISTTDRDSGQNGQVHCTLYGHEHFRLQQAYEDSYMIVTTSALDREKIAEYNLTVVAEDLGSPPFKTVKQYTIRVSDENDNAPVFAKPVYEVSVLENNAPGAYITTVVARDPDFGHNGKVIYRLVETEVMGAPITTYVSLDPATGAVYALRTFNHEILQQLDLRIQASDGGSPQLTSSAIIKVKIVDQNDNAPVIVQPALSNGSAEVVVPSRAPHGFLVTHIKAKDADEGVNAELTYSIADEGRNVFTINKATGEVFLVADVSEAIGQVFRATVSVSDSGRPPLSSTATITFLVT KTVRYRTYEEDEPGTVIGTLAEDLHLEGEGSFRLMKQFNNSLIHVRESDGQLSIGERIDRERICRQSPHCTLALDVVSVAKEQFKLIHVEVEVRDINDNSPRFPGAEIPVEVSESAPVGTRIPLDIATDEDVGVNSIQSFQISENSHFSIDVQTRADGVKYADLVLMKELDRESQSAYTLELLAMDGGSPSRSGTTMVNVRVLDFNDNSPVFERSSVMVELMEDAPVGHLLLDLDALDPDEGANGEIVYGFSPQVPQEVRQLFKIDAKSGRLTLEGQVDFETKQTYEFDAQAQDMALNPLTATCKVIVRVIDVNDNAPVIGITPLTSISAGVAYITEAAARESFVALISTTDRDSGQNGQVHCTLYGHEHFRLQQAYEDSYMIVTTSALDREKIAEYNLTVVAEDLGSPPFKTVKQYTIRVSDENDNAPVFAKPVYEVSVLENNAPGAYITTVVARDPDFGHNGKVIYRLVETEVMGAPITTYVSLDPATGAVYALRTFNHEILQQLDLRIQASDGGSPQLTSSAIIKVKIVDQNDNAPVIVQPALSNGSAEVVVPSRAPHGFLVTHIKAKDADEGVNAELTYSIADEGRNVFTINKATGEVFLVADVSEAIGQVFRATVSVSDSGRPPLSSTATITFLVTH 6vg5-a1-m1-cB_6vg5-a1-m2-cB DengueV-2 Capsid ST148 inhibitor Complex P07564 P07564 1.5 X-RAY DIFFRACTION 18 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 81 81 6vg5-a1-m1-cA_6vg5-a1-m2-cA MNRVSTVQQLTKRFSLGMLQGRGPLKLFMALVAFLRFLTIPPTAGILKRWGTIKKSKAINVLRGFRKEIGRMLNILNRRRR MNRVSTVQQLTKRFSLGMLQGRGPLKLFMALVAFLRFLTIPPTAGILKRWGTIKKSKAINVLRGFRKEIGRMLNILNRRRR 6vg5-a1-m2-cA_6vg5-a1-m2-cB DengueV-2 Capsid ST148 inhibitor Complex P07564 P07564 1.5 X-RAY DIFFRACTION 129 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 81 81 6vg5-a1-m1-cA_6vg5-a1-m1-cB 6vso-a1-m1-cA_6vso-a1-m1-cB 6vso-a2-m1-cC_6vso-a2-m1-cD 6vso-a3-m1-cE_6vso-a3-m1-cF MNRVSTVQQLTKRFSLGMLQGRGPLKLFMALVAFLRFLTIPPTAGILKRWGTIKKSKAINVLRGFRKEIGRMLNILNRRRR MNRVSTVQQLTKRFSLGMLQGRGPLKLFMALVAFLRFLTIPPTAGILKRWGTIKKSKAINVLRGFRKEIGRMLNILNRRRR 6vgo-a1-m1-cA_6vgo-a1-m2-cA Crystal Structure of Human Dipeptidase 3 Q9H4B8 Q9H4B8 1.82 X-RAY DIFFRACTION 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 350 350 6vgr-a1-m1-cA_6vgr-a1-m1-cB LDLRGRAQALMRSFPLVDGHNDLPQVLRQRYKNVLQDVNLRNFSHGQTSLDRLRDGLVGAQFWSASVSCQSQDQTAVRLALEQIDLIHRMCASYSELELVTSAEGLNSSQKLACLIGVEGGHSLDSSLSVLRSFYVLGVRYLTLTFTCSTPWAESSTKFRHHMYTNVSGLTSFGEKVVEELNRLGMMIDLSYASDTLIRRVLEVSQAPVIFSHSAARAVCDNLLNVPDDILQLLKKNGGIVMVTLSMGVLQCNLLANVSTVADHFDHIRAVIGSEFIGIGGNYDGTGRFPQGLEDVSTYPVLIEELLSRSWSEEELQGVLRGNLLRVFRQVEKVREESRAQSPVEAEFPY LDLRGRAQALMRSFPLVDGHNDLPQVLRQRYKNVLQDVNLRNFSHGQTSLDRLRDGLVGAQFWSASVSCQSQDQTAVRLALEQIDLIHRMCASYSELELVTSAEGLNSSQKLACLIGVEGGHSLDSSLSVLRSFYVLGVRYLTLTFTCSTPWAESSTKFRHHMYTNVSGLTSFGEKVVEELNRLGMMIDLSYASDTLIRRVLEVSQAPVIFSHSAARAVCDNLLNVPDDILQLLKKNGGIVMVTLSMGVLQCNLLANVSTVADHFDHIRAVIGSEFIGIGGNYDGTGRFPQGLEDVSTYPVLIEELLSRSWSEEELQGVLRGNLLRVFRQVEKVREESRAQSPVEAEFPY 6vgs-a2-m1-cCCC_6vgs-a2-m1-cDDD Alpha-ketoisovalerate decarboxylase (KivD) from Lactococcus lactis, thermostable mutant A0A0B8QZ66 A0A0B8QZ66 1.8 X-RAY DIFFRACTION 277 0.998 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 540 542 6vgs-a1-m1-cAAA_6vgs-a1-m1-cBBB MYTVGDYLLDRLHELGIEEIFGVPGDYNLQFLDHIISRKDMKWVGNANELNASYMADGYARTKKAAAFLTTFGVGELSAVNGLAGSYAENLPVVEIVGSPTSKVQNEGKFVHHTLADGDFKHFMKMHEPVTAARTLLTAENATVEIDRVLSALLKERKPVYINLPVDVAAAKAEKPSLPLKSNTSDQEILNKIQESLKNAKKPIVITGHEIISFGLEKTVSQFISKTKLPITTLNFGKSSVDEALPSFLGIYNGKLSEPNLKEFVESADFILMLGVKLTDSSTGVFTHHLNENKMISLNIDEGKIFNESIQNFDFESLISSLLDLSEIEYKGKYIDKDFVPSNALLSQDRLWQAVENLTQSNETIVAEQGTSFFGASPIFLKPKSHFIGQPLWGSIGYTFPAALGSQIADKESRHLLFIGDGSLQLTVQELGLAIREKINPICFIINNDGYTVEREIHGPNQSYNDIPMWNYSKLPESFGATEERVVSKIVRTENEFVSVMKEAQADPNRMYWIELILAKEDAPKVLKKMGKLFAEQNKS MYTVGDYLLDRLHELGIEEIFGVPGDYNLQFLDHIISRKDMKWVGNANELNASYMADGYARTKKAAAFLTTFGVGELSAVNGLAGSYAENLPVVEIVGSPTSKVQNEGKFVHHTLADGDFKHFMKMHEPVTAARTLLTAENATVEIDRVLSALLKERKPVYINLPVDVAAAKAEKPSLPLKNTSDQEILNKIQESLKNAKKPIVITGHEIISFGLEKTVSQFISKTKLPITTLNFGKSSVDEALPSFLGIYNGKLSEPNLKEFVESADFILMLGVKLTDSSTGVFTHHLNENKMISLNIDEGKIFNESIQNFDFESLISSLLDLSEIEYKGKYIDKKQEDFVPSNALLSQDRLWQAVENLTQSNETIVAEQGTSFFGASPIFLKPKSHFIGQPLWGSIGYTFPAALGSQIADKESRHLLFIGDGSLQLTVQELGLAIREKINPICFIINNDGYTVEREIHGPNQSYNDIPMWNYSKLPESFGATEERVVSKIVRTENEFVSVMKEAQADPNRMYWIELILAKEDAPKVLKKMGKLFAEQNKS 6vh5-a2-m1-cB_6vh5-a2-m1-cD Crystal structure of prephenate dehydratase from brucella melitensis biovar abortus 2308 in complex with phenylalanine Q2YPM5 Q2YPM5 2.4 X-RAY DIFFRACTION 114 0.996 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 280 282 6vh5-a1-m1-cC_6vh5-a1-m1-cA MKTNRISFQGEAGANSDTACRNMFPDMEPLPCPTFEDAFNAVETGAADLAMIPIENTLAGRVADIHYLLPLADMHIVGEYFLPIHFQLMVLPGVRREEIKTVHSHIHALGQCRNVIRQNGWKGVIAGDTAGAARLVADVKDRSMAALAPRLAADLYGLDILEENVEDSENNVTRFVVLSKNKQWAARPENDERIVTTFVFRVRNVPAALYKALGGFATNGVNMTKLESYQLGGRFIATQFYADIEGHPEERSVQLALEELRFFTKEVRILGVYKGSDIRG PGSMKTNRISFQGEAGANSDTACRNMFPDMEPLPCPTFEDAFNAVETGAADLAMIPIENTLAGRVADIHYLLPLADMHIVGEYFLPIHFQLMVLPGVRREEIKTVHSHIHALGQCRNVIRQNGWKGVIAGDTAGAARLVADVKDRSMAALAPRLAADLYGLDILEENVEDSENNVTRFVVLSKNKQWAARPENDERIVTTFVFRVRNVPAALYKALGGFATNGVNMTKLESYQLGGRFIATQFYADIEGHPEERSVQLALEELRFFTKEVRILGVYKGSDIR 6vhv-a2-m1-cA_6vhv-a2-m4-cA Klebsiella oxytoca NpsA in complex with 3-hydroxyanthranilyl-AMSN 2.89 X-RAY DIFFRACTION 40 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 488 488 6vhv-a2-m2-cA_6vhv-a2-m3-cA QLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPPRLHACYVTQDGLSVADLKNHLAMHAPAWMIPEKFSRLAVLPMTANGKKDRLRLKNSLLE QLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPPRLHACYVTQDGLSVADLKNHLAMHAPAWMIPEKFSRLAVLPMTANGKKDRLRLKNSLLE 6vhv-a2-m2-cA_6vhv-a2-m4-cA Klebsiella oxytoca NpsA in complex with 3-hydroxyanthranilyl-AMSN 2.89 X-RAY DIFFRACTION 19 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 488 488 6vhv-a2-m1-cA_6vhv-a2-m3-cA QLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPPRLHACYVTQDGLSVADLKNHLAMHAPAWMIPEKFSRLAVLPMTANGKKDRLRLKNSLLE QLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPPRLHACYVTQDGLSVADLKNHLAMHAPAWMIPEKFSRLAVLPMTANGKKDRLRLKNSLLE 6vhv-a2-m3-cA_6vhv-a2-m4-cA Klebsiella oxytoca NpsA in complex with 3-hydroxyanthranilyl-AMSN 2.89 X-RAY DIFFRACTION 21 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 488 488 6vhv-a2-m1-cA_6vhv-a2-m2-cA QLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPPRLHACYVTQDGLSVADLKNHLAMHAPAWMIPEKFSRLAVLPMTANGKKDRLRLKNSLLE QLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPPRLHACYVTQDGLSVADLKNHLAMHAPAWMIPEKFSRLAVLPMTANGKKDRLRLKNSLLE 6vhw-a3-m1-cB_6vhw-a3-m1-cA Klebsiella oxytoca NpsA N-terminal subdomain in complex with 3-hydroxybenzoyl-AMSN 1.83 X-RAY DIFFRACTION 65 0.985 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 392 396 6vht-a2-m1-cA_6vht-a2-m2-cA LKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSGSTGKPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGR THSAYVYQLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSGSTGKPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAASPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVG 6vhy-a1-m1-cA_6vhy-a1-m1-cC NpsA-ThdA, an artificially fused Adenylation-PCP di-domain NRPS from Klebsiella oxytoca 3 X-RAY DIFFRACTION 119 0.991 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 527 540 AYVYQLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPDEPRLHVADLKNHLAMHAPAWMIPEKFSDNVEQQLLSIWQAIIHSNPQENLLDQGNSLHFIKLASMVSKTFNLAVSPADIFTAGTIAALAQTIRQRQ SAYVYQLKAVPDIFDEISQRFPDRVALIFDQRKITYRELAEQCSALAAVLQNNCLIKGDIVAIKIERSPELYIFMLALMKIGAVMVPVNSNSPERYIGEVLSAAGARYLISDDVTSVPGGAWHVLSSRTLIQNCTQQRSGNYPVLSADDPALILMTSPKSVLIAHRGIARLGLPVPALGNSERDCYLQIADISFAASANEIWMALLTGACLTIAPPGLPDLMALARQIESDNVTMLFLSGGLFRLFVEVSVETLHIPDCVVVSGDFVNPRLFSVAVQAGKAKIFNGLGCTENSAISSLYHIQSAAALSSESPVPVGTPLPLVEMVVFNERLQPCTCGEYGELFIAGAGVALGYSDPQLTAERFITIPYQGTDMLFYRTDDRATYDQDRNIVLVGRGNHICKIRGFRINIAGIEHLLRLHHAVEDVLIVVEETPDEPRLHACYVTQDDGLSVADLKNHLAMHAPAWMIPEKFSEQQLLSIWQAIIHSEAINPQENLLDQGGNSLHFIKLASMVSKTFNLAVSPADIFTAGTIAALAQTIRQ 6vi4-a1-m1-cB_6vi4-a1-m2-cA Nanobody-Enabled Monitoring of Kappa Opioid Receptor States P41145 P41145 3.3 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 276 283 IITAVYSVVFVVGLVGNSLVMFVIIRYTKMKTATNIYIFNLALADALVTTTMPFQSTVYLMNSWPFGDVLCKIVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPLKAKIINICIWLLSSSVGISAIVLGGTKVREDVDVIECSLQDYSWWDLFMKICVFIFAFVIPVLIIIVCYTLMILRLKSVRLLSGSREKDRNLRRITRLVLVVVAVFVVCWTPIHIFILVEALGALSSYYFCIALGYTNSSLNPILYAFLDENFKRCFRDFCFP VIITAVYSVVFVVGLVGNSLVMFVIIRYTKMKTATNIYIFNLALADALVTTTMPFQSTVYLMNSWPFGDVLCKIVLSIDYYNMFTSIFTLTMMSVDRYIAVCHPVKALDFRTPLKAKIINICIWLLSSSVGISAIVLGGTKVREDVDVIECSLQFPDDDYSWWDLFMKICVFIFAFVIPVLIIIVCYTLMILRLKSVRLLSGSREKDRNLRRITRLVLVVVAVFVVCWTPIHIFILVEALGAALSSYYFCIALGYTNSSLNPILYAFLDENFKRCFRDFCFPL 6vie-a1-m1-cD_6vie-a1-m1-cC Structure of caspase-1 in complex with gasdermin D Q9D8T2 Q9D8T2 3.4 X-RAY DIFFRACTION 44 0.992 10090 (Mus musculus) 10090 (Mus musculus) 373 389 PSAFEKVVKNVIKEVSGSRGDLIPVDSLRNSTSFRPYCLLNRKFSSSRFWKPRYSCVNLSIKDILEPSAVSDVVDGNIQGRVASMNVCILRVTQKTWETMQHERHLQQPENKILQQLRSRGDDLFVVTEVLQTKEEVQIMVTIPAGSILAFRVAQLLIGSKWDILLVSDEKQRTFEDFQGLYAEVKACSSELESLEMELRQQILVNIGKILQDQPSMEALEASLGQGLCSGGQVEPLDGPAGCILECLVLDSGELVPELAAPIFYLLGALAVLSETQQQLLAKALETTVLSKQLELVKHVLEQSTPWQEQSSVSLPTVLLGDCWDEKNPTWVLLEECGLRLQVESPQVHWEPTSLIPTSALYASLFLLSSLGQ SAFEKVVKNVIKEVSGSRGDLIPVDSLRNSTSFRPYCLLNRKFSSSRFWKPRYSCVNLSIKDILEPSAVSDVVDGNIQGRVMASMNVCILRVTQKTWETMQHERHLQQPENKILQQLRSRGDDLFVVTEVLQTKEEVQITMVTIPAGSILAFRVAQLLIGSKWDILLVSDEKQRTFEPSSGDSLLSDGIDEEEADFQGLYAEVKACSSELESLEMELRQQILVNIGKILQDQPSMEALEASLGQGLCSGGQVEPLDGPAGCILECLVLDSGELVPELAAPIFYLLGALAVLSETQQQLLAKALETTVLSKQLELVKHVLEQSTPWQEQSSVSLPTVLLGDCWDEKNPTWVLLEECGLRVESPQVHWEPTSLIPTSALYASLFLLSSLGQ 6vij-a1-m1-cA_6vij-a1-m1-cB Crystal structure of mouse RABL3 in complex with GDP Q9D4V7 Q9D4V7 1.95 X-RAY DIFFRACTION 40 1.0 10090 (Mus musculus) 10090 (Mus musculus) 186 191 6vih-a1-m1-cA_6vih-a1-m1-cB RVKVLVLGDSGVGKSSLVHLLCHNQVLGNPSWTVGCSVDIRVHDYKEGTPEEKTYYIELWDVGGSVGSASSVKSTRAVFYNSVNGIILVHDLTNKKSSQNLYRWSLEVLNRFADNQIPLLVIGTKLDQIHETKRHEVLIRTAFLAEDFNAEEINLDCTNPRSSAAGSSNAVKLSRFFDKVIEKRYF ASLDRVKVLVLGDSGVGKSSLVHLLCHNQVLGNPSWTVGCSVDIRVHDYKEGTPEEKTYYIELWDVGGSVGSASSVKSTRAVFYNSVNGIILVHDLTNKKSSQNLYRWSLEVLNRFADNQIPLLVIGTKLDQIHETKRHEVLIRTAFLAEDFNAEEINLDCTNPRSSAAGSSNAVKLSRFFDKVIEKRYFF 6vin-a1-m1-cA_6vin-a1-m3-cB Crystallographic structure of the circularly permuted human Taspase1 protein Q9H6P5 Q9H6P5 3.04 X-RAY DIFFRACTION 127 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 364 6vin-a1-m1-cB_6vin-a1-m2-cA 6vin-a1-m2-cB_6vin-a1-m3-cA TVGAVVVDHEGNVAAAVSSGGLALKHPGRVGQAALYGCGCWAENTGAHNPYSTAVSTSGCGEHLVRTILARECSHALQAEDAHQALLETMQNKFISSPFLASEDGVLGGVIVLRSCRCTLLVEFLWSHTTESMCVGYMSAQDGKAKTHISRLPPGAVAGQSVAIEGGVCRLEGSGSGGFVLVHAGAGYHSESKAKEYKHVCKRACQKAIEKLQAGALATDAVTAALVELEDSPFTNAGMGSNLNLLGEIECDASIMDGKSLNFGAVGALSGIKNPVSVANRLLCEGQKGKLSAGRIPPCFLVGEGAYRWAVDHGIPSCPPNIMTTRFSLAAFKRNKRKLELAERVDTDFMQLKKRRQSSEKEND TVGAVVVDHEGNVAAAVSSGGLALKHPGRVGQAALYGCGCWAENTGAHNPYSTAVSTSGCGEHLVRTILARECSHALQAEDAHQALLETMQNKFISSPFLASEDGVLGGVIVLRSCRCTLLVEFLWSHTTESMCVGYMSAQDGKAKTHISRLPPGAVAGQSVAIEGGVCRLEGSGSGGFVLVHAGAGYHSESKAKEYKHVCKRACQKAIEKLQAGALATDAVTAALVELEDSPFTNAGMGSNLNLLGEIECDASIMDGKSLNFGAVGALSGIKNPVSVANRLLCEGQKGKLSAGRIPPCFLVGEGAYRWAVDHGIPSCPPNIMTTRFSLAAFKRNKRKLELAERVDTDFMQLKKRRQSSEKEND 6vin-a1-m3-cA_6vin-a1-m3-cB Crystallographic structure of the circularly permuted human Taspase1 protein Q9H6P5 Q9H6P5 3.04 X-RAY DIFFRACTION 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 364 6ugk-a1-m1-cB_6ugk-a1-m1-cA 6vin-a1-m1-cA_6vin-a1-m1-cB 6vin-a1-m2-cA_6vin-a1-m2-cB TVGAVVVDHEGNVAAAVSSGGLALKHPGRVGQAALYGCGCWAENTGAHNPYSTAVSTSGCGEHLVRTILARECSHALQAEDAHQALLETMQNKFISSPFLASEDGVLGGVIVLRSCRCTLLVEFLWSHTTESMCVGYMSAQDGKAKTHISRLPPGAVAGQSVAIEGGVCRLEGSGSGGFVLVHAGAGYHSESKAKEYKHVCKRACQKAIEKLQAGALATDAVTAALVELEDSPFTNAGMGSNLNLLGEIECDASIMDGKSLNFGAVGALSGIKNPVSVANRLLCEGQKGKLSAGRIPPCFLVGEGAYRWAVDHGIPSCPPNIMTTRFSLAAFKRNKRKLELAERVDTDFMQLKKRRQSSEKEND TVGAVVVDHEGNVAAAVSSGGLALKHPGRVGQAALYGCGCWAENTGAHNPYSTAVSTSGCGEHLVRTILARECSHALQAEDAHQALLETMQNKFISSPFLASEDGVLGGVIVLRSCRCTLLVEFLWSHTTESMCVGYMSAQDGKAKTHISRLPPGAVAGQSVAIEGGVCRLEGSGSGGFVLVHAGAGYHSESKAKEYKHVCKRACQKAIEKLQAGALATDAVTAALVELEDSPFTNAGMGSNLNLLGEIECDASIMDGKSLNFGAVGALSGIKNPVSVANRLLCEGQKGKLSAGRIPPCFLVGEGAYRWAVDHGIPSCPPNIMTTRFSLAAFKRNKRKLELAERVDTDFMQLKKRRQSSEKEND 6vj2-a2-m1-cB_6vj2-a2-m1-cD 3.10 Angstrom Resolution Crystal Structure of Foldase Protein (PrsA) from Lactococcus lactis Q9CEV9 Q9CEV9 3.1 X-RAY DIFFRACTION 54 0.996 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 265 265 6vj2-a1-m1-cC_6vj2-a1-m1-cA ASKDIITKGDTIRVSDLYKEAKQFPSQPTNTLLQNLTFDKIFTKDFGKEVTDKDVSKKVKSIKDQYGSQFSSALQQQGLTEASFTPYRTQLEQAAIDHEIKETQYTDANLKKAWESYHPDVTAYVVSETSKDAATKALDAAKKDDAGKASFEKTNAESKVTFNSTSTSVPTEVQTAAFKLKNGEFSDVIESTSSSTGATSYYIVEVKTSEKGTDNKYKKELQNVIKTEKEQDTTFVSGVIAKYLKKNNVTVKESAFASLFSQFTQ SKDIITKGDTIRVSDLYKEAKQFPSQPTNTLLQNLTFDKIFTKDFGKEVTDKDVSKKVKSIKDQYGSQFSSALQQQGLTEASFTPYRTQLEQAAIDHEIKETQYTDANLKKAWESYHPDVTAYVVSETSKDAATKALDAAKKDDAGKASFEKTNAESKVTFNSTSTSVPTEVQTAAFKLKNGEFSDVIESTSSSTGATSYYIVEVKTSEKGTDNKYKKELQNVIKTEKEQDTTFVSGVIAKYLKKNNVTVKESAFASLFSQFTQT 6vj4-a1-m1-cA_6vj4-a1-m2-cA 1.70 Angstrom Resolution Crystal Structure of Peptidylprolyl Isomerase (PrsA) from Bacillus anthracis Q81TU1 Q81TU1 1.7 X-RAY DIFFRACTION 24 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 213 213 DLYEIAQDVITKKYKVSDDDVDKEVQKAKSQYGDQFKNVLKNNGLKDEADFKNQIKFKLSNKAIKQSVTEKDVKDHYKPEIKASHILVSDENEAKEIKKKLDTGASFEELAKQESQDLLSKEKGGDLGYFHSGATPEFETAAYKLKIGQISDPVQSPNGYHIIKLTGKKDLKPYDEVKNSIRKNLEEERTADPIFGKKLLQSELKKANIKIND DLYEIAQDVITKKYKVSDDDVDKEVQKAKSQYGDQFKNVLKNNGLKDEADFKNQIKFKLSNKAIKQSVTEKDVKDHYKPEIKASHILVSDENEAKEIKKKLDTGASFEELAKQESQDLLSKEKGGDLGYFHSGATPEFETAAYKLKIGQISDPVQSPNGYHIIKLTGKKDLKPYDEVKNSIRKNLEEERTADPIFGKKLLQSELKKANIKIND 6vj6-a2-m1-cB_6vj6-a2-m3-cB 2.55 Angstrom Resolution Crystal Structure of Peptidylprolyl Isomerase (PrsA) from Bacillus cereus Q81CB1 Q81CB1 2.553 X-RAY DIFFRACTION 111 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 253 253 6vj6-a1-m1-cA_6vj6-a1-m2-cA SNADNIVTTKSGSISESDFNKKLKENYGKQNLSEVVEKVLHDKYKVTDEEVTKQLEELKDKGDNFNTYESNGVKNEDQLKEKLKLTFAFEKAIKATVTEKDIKDHYKPKLQVSHILVKDEKTAKEIKEKLNSGEDFAALAKQYSEDPGSKEKGGELSEFGPGVKEFEDAAYKLEVGQLSEPVKSSFGYHIIKLTDKKELKPYEEEKENIRKELEQQRIQDPQFHQQVTRDLLKNADIKVSDKDLKDTFKELEK SNADNIVTTKSGSISESDFNKKLKENYGKQNLSEVVEKVLHDKYKVTDEEVTKQLEELKDKGDNFNTYESNGVKNEDQLKEKLKLTFAFEKAIKATVTEKDIKDHYKPKLQVSHILVKDEKTAKEIKEKLNSGEDFAALAKQYSEDPGSKEKGGELSEFGPGVKEFEDAAYKLEVGQLSEPVKSSFGYHIIKLTDKKELKPYEEEKENIRKELEQQRIQDPQFHQQVTRDLLKNADIKVSDKDLKDTFKELEK 6vjf-a2-m1-cD_6vjf-a2-m1-cC The P-Loop K to A mutation of C. therm Vps1 GTPase-BSE G0SFF0 G0SFF0 2.472 X-RAY DIFFRACTION 108 0.991 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 348 365 6vjf-a1-m1-cB_6vjf-a1-m1-cA LAQPGGISDPNLIKLVNKLQDVFTTVGVNNPIDLPQIVVVGSQSSGASSVLENIVGRDFLPRGQGIVTRRPLVLQLINRQSSDERLADSTDKAANLDEWGEFLHLPGQKFYDFNKIRDEINRETEAKVGRNAGISPAPINLRIYSPHVLNLTLVDLPGLTRVPVGDQPRDIERQIRDMILKYIQKPNAIILAVTAANVDLANSDGLKLAREVDPEGQRTIGVLTKVDLMDEGTDVVDILAGRIIPLRLGYVPVVNRGQRDIDNKKPITAALEAEKAFFENHKAYRNKSAYCGTPYLARKLNLILMMHIKQTLPDIKQRISSSLQKYQQELCQQMVESLQRAAEIVSQV LAQPGGISDPNLIKLVNKLQDVFTTVGVNNPIDLPQIVVVGSQSSGASSVLENIVGRDFLPRGQGIVTRRPLVLQLINRQSSLADSTDKAANLDEWGEFLHLPGQKFYDFNKIRDEINRETEAKVGRNAGISPAPINLRIYSPHVLNLTLVDLPGLTRVPVGDQPRDIERQIRDMILKYIQKPNAIILAVTAANVDLANSDGLKLAREVDPEGQRTIGVLTKVDLMDEGTDVVDILAGRIIPLRLGYVPVVNRGQRDIDNKKPITAALEAEKAFFENHKAYRNKSAYCGTPYLARKLNLILMMHIKQTLPDIKQRISSSLQKYQQELEALGPSLLAESDYTVRRRKECQQMVESLQRAAEIVSQV 6vjn-a1-m1-cF_6vjn-a1-m1-cG Structure of NHP D11A.B5Fab in complex with 16055 V2b peptide A1EAI1 A1EAI1 2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 19 EERKSKYRLI DIVPLEEERKGNSSKYRLI 6vjr-a1-m1-cD_6vjr-a1-m1-cA Oxygen tolerant Archeal 4hydroxybutyrylCoA dehydratase (4HBD) from N. maritimus A9A1Y2 A9A1Y2 1.55 X-RAY DIFFRACTION 225 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 500 502 6vjr-a1-m1-cC_6vjr-a1-m1-cB TIRSGDDYIESLRGRDLKVYLFGELVKEPVDHPMIRPSINAVAETYDLALREEALASADSSITGLKVNRFLHIAESAEDLVLQNKMQRKLGQNTGTCFQRCVGMDAMNSLHSTTFEIDEKHGTDYHKRFLEFVKMVQQENLVIGGAMTDPKGDRSKGPSEQDDPDLFTRIVDTDEKGVYVSGAKAHQTGCINSHWIILMPTIRLTESDKDWAIVGAIPADAKGVTYIYGRQSCDTRSMEEGDIDDGNAKFGGQEALIILDRVFIPWDKVFMHGEYEFASMLVERFTCYHRRSYVCKTGLGDVLIGAAATIADYNGVPKVSHIKDKIIEMTHLNETIFAAGIASSHQGQKMKSGVYLNDDMLAQVCKHNVTRFPYEISRLAQDIAGGLVVTLPSEKDFRHPEAGPLLKKYLAGRKGVDVENRMRILRLIENMTLGRNAVGYLTESMHGAGSPQAQRIQIQRQMQVGYKKNLAKNLAGITNDVEEPKESSEYFKRVFKTKDS TIRSGDDYIESLRGRDLKVYLFGELVKEPVDHPMIRPSINAVAETYDLALREEALASADSSITGLKVNRFLHIAESAEDLVLQNKMQRKLGQNTGTCFQRCVGMDAMNSLHSTTFEIDEKHGTDYHKRFLEFVKMVQQENLVIGGAMTDPKGDRSKGPSEQDDPDLFTRIVDTDEKGVYVSGAKAHQTGCINSHWIILMPTIRLTESDKDWAIVGAIPADAKGVTYIYGRQSCDTRSMEEGDIDDGNAKFGGQEALIILDRVFIPWDKVFMHGEYEFASMLVERFTCYHRRSYVCKTGLGDVLIGAAATIADYNGVPKVSHIKDKIIEMTHLNETIFAAGIASSHQGQKMKSGVYLNDDMLAQVCKHNVTRFPYEISRLAQDIAGGLVVTLPSEKDFRHPEAGPLLKKYLAGRKGVDVENRMRILRLIENMTLGRNAVGYLTESMHGAGSPQAQRIQIQRQMQVGYKKNLAKNLAGITNDVEEPKESSEYFKRVFKTKDSVL 6vjr-a1-m1-cD_6vjr-a1-m1-cB Oxygen tolerant Archeal 4hydroxybutyrylCoA dehydratase (4HBD) from N. maritimus A9A1Y2 A9A1Y2 1.55 X-RAY DIFFRACTION 255 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 500 501 6vjr-a1-m1-cC_6vjr-a1-m1-cA TIRSGDDYIESLRGRDLKVYLFGELVKEPVDHPMIRPSINAVAETYDLALREEALASADSSITGLKVNRFLHIAESAEDLVLQNKMQRKLGQNTGTCFQRCVGMDAMNSLHSTTFEIDEKHGTDYHKRFLEFVKMVQQENLVIGGAMTDPKGDRSKGPSEQDDPDLFTRIVDTDEKGVYVSGAKAHQTGCINSHWIILMPTIRLTESDKDWAIVGAIPADAKGVTYIYGRQSCDTRSMEEGDIDDGNAKFGGQEALIILDRVFIPWDKVFMHGEYEFASMLVERFTCYHRRSYVCKTGLGDVLIGAAATIADYNGVPKVSHIKDKIIEMTHLNETIFAAGIASSHQGQKMKSGVYLNDDMLAQVCKHNVTRFPYEISRLAQDIAGGLVVTLPSEKDFRHPEAGPLLKKYLAGRKGVDVENRMRILRLIENMTLGRNAVGYLTESMHGAGSPQAQRIQIQRQMQVGYKKNLAKNLAGITNDVEEPKESSEYFKRVFKTKDS TIRSGDDYIESLRGRDLKVYLFGELVKEPVDHPMIRPSINAVAETYDLALREEALASADSSITGLKVNRFLHIAESAEDLVLQNKMQRKLGQNTGTCFQRCVGMDAMNSLHSTTFEIDEKHGTDYHKRFLEFVKMVQQENLVIGGAMTDPKGDRSKGPSEQDDPDLFTRIVDTDEKGVYVSGAKAHQTGCINSHWIILMPTIRLTESDKDWAIVGAIPADAKGVTYIYGRQSCDTRSMEEGDIDDGNAKFGGQEALIILDRVFIPWDKVFMHGEYEFASMLVERFTCYHRRSYVCKTGLGDVLIGAAATIADYNGVPKVSHIKDKIIEMTHLNETIFAAGIASSHQGQKMKSGVYLNDDMLAQVCKHNVTRFPYEISRLAQDIAGGLVVTLPSEKDFRHPEAGPLLKKYLAGRKGVDVENRMRILRLIENMTLGRNAVGYLTESMHGAGSPQAQRIQIQRQMQVGYKKNLAKNLAGITNDVEEPKESSEYFKRVFKTKDSV 6vju-a1-m1-cA_6vju-a1-m1-cB Crystal Structure of Cystathionine beta synthase from Legionella pneumophila with LLP, PLP, and homocysteine Q5ZRD1 Q5ZRD1 1.3 X-RAY DIFFRACTION 143 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 316 317 HMIYPNILATIGHTPVVKINRLGKDLECELYAKCEFFNPGGSVDRIGYEMVVKAEKEGRIKPGDTLIEPTSGNTGIGIALAGAVLGYKVIITMPEKMSQEKQSVLERLGAIIYRTPTEAAYNDPDSHISLAKKLQAEIPNSHILDQYANPNNPNAHYFGTAQEIIDDFGKDLHMVVAGVGTGGTITGIAKRLKEFNPAIKIIGADPEGSILGGGTEIKSYHVEGIGYDFFPDVLDNTLIDAYIKTNDADSFRTARRLIKEEGLLIGGSCGAAMWAALQAAKSLSKGQKCLVILPDSIRNYMSKFANDEWMKEMGFL HMIYPNILATIGHTPVVKINRLGKDLECELYAKCEFFNPGGSVKDRIGYEMVVKAEKEGRIKPGDTLIEPTSGNTGIGIALAGAVLGYKVIITMPEKMSQEKQSVLERLGAIIYRTPTEAAYNDPDSHISLAKKLQAEIPNSHILDQYANPNNPNAHYFGTAQEIIDDFGKDLHMVVAGVGTGGTITGIAKRLKEFNPAIKIIGADPEGSILGGGTEIKSYHVEGIGYDFFPDVLDNTLIDAYIKTNDADSFRTARRLIKEEGLLIGGSCGAAMWAALQAAKSLSKGQKCLVILPDSIRNYMSKFANDEWMKEMGFL 6vl4-a1-m2-cA_6vl4-a1-m3-cA Crystal Structure of mPGES-1 bound to DG-031 O14684 O14684 1.4 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 142 3dww-a1-m1-cA_3dww-a1-m1-cB 3dww-a1-m1-cA_3dww-a1-m1-cC 3dww-a1-m1-cB_3dww-a1-m1-cC 4al0-a1-m1-cA_4al0-a1-m2-cA 4al0-a1-m1-cA_4al0-a1-m3-cA 4al0-a1-m2-cA_4al0-a1-m3-cA 4al1-a1-m1-cA_4al1-a1-m2-cA 4al1-a1-m1-cA_4al1-a1-m3-cA 4al1-a1-m2-cA_4al1-a1-m3-cA 4bpm-a1-m1-cA_4bpm-a1-m2-cA 4bpm-a1-m1-cA_4bpm-a1-m3-cA 4bpm-a1-m2-cA_4bpm-a1-m3-cA 4wab-a1-m1-cA_4wab-a1-m2-cA 4wab-a1-m1-cA_4wab-a1-m3-cA 4wab-a1-m2-cA_4wab-a1-m3-cA 4yk5-a1-m1-cA_4yk5-a1-m2-cA 4yk5-a1-m1-cA_4yk5-a1-m3-cA 4yk5-a1-m2-cA_4yk5-a1-m3-cA 4yl0-a1-m1-cA_4yl0-a1-m2-cA 4yl0-a1-m1-cA_4yl0-a1-m3-cA 4yl0-a1-m2-cA_4yl0-a1-m3-cA 4yl1-a1-m1-cA_4yl1-a1-m2-cA 4yl1-a1-m1-cA_4yl1-a1-m3-cA 4yl1-a1-m2-cA_4yl1-a1-m3-cA 4yl3-a1-m1-cA_4yl3-a1-m2-cA 4yl3-a1-m1-cA_4yl3-a1-m3-cA 4yl3-a1-m2-cA_4yl3-a1-m3-cA 5bqg-a1-m1-cA_5bqg-a1-m2-cA 5bqg-a1-m1-cA_5bqg-a1-m3-cA 5bqg-a1-m2-cA_5bqg-a1-m3-cA 5bqh-a1-m1-cA_5bqh-a1-m2-cA 5bqh-a1-m1-cA_5bqh-a1-m3-cA 5bqh-a1-m2-cA_5bqh-a1-m3-cA 5bqi-a1-m1-cA_5bqi-a1-m2-cA 5bqi-a1-m1-cA_5bqi-a1-m3-cA 5bqi-a1-m2-cA_5bqi-a1-m3-cA 5k0i-a1-m1-cA_5k0i-a1-m2-cA 5k0i-a1-m1-cA_5k0i-a1-m3-cA 5k0i-a1-m2-cA_5k0i-a1-m3-cA 5t36-a1-m1-cA_5t36-a1-m2-cA 5t36-a1-m1-cA_5t36-a1-m3-cA 5t36-a1-m2-cA_5t36-a1-m3-cA 5t37-a1-m1-cA_5t37-a1-m2-cA 5t37-a1-m1-cA_5t37-a1-m3-cA 5t37-a1-m2-cA_5t37-a1-m3-cA 5tl9-a1-m1-cA_5tl9-a1-m2-cA 5tl9-a1-m1-cA_5tl9-a1-m3-cA 5tl9-a1-m2-cA_5tl9-a1-m3-cA 6vl4-a1-m1-cA_6vl4-a1-m2-cA 6vl4-a1-m1-cA_6vl4-a1-m3-cA SPALPAFLLCSTLLVIKMYVVAIITGQVRLRKKAFANPEDALRHGGPQYRSDPDVERCLRAHRNDMETIYPFLFLGFVYSFLGPNPFVAWMHFLVFLVGRVAHTVAYLGKLRAPIRSVTYTLAQLPCASMALQILWEAARHL SPALPAFLLCSTLLVIKMYVVAIITGQVRLRKKAFANPEDALRHGGPQYRSDPDVERCLRAHRNDMETIYPFLFLGFVYSFLGPNPFVAWMHFLVFLVGRVAHTVAYLGKLRAPIRSVTYTLAQLPCASMALQILWEAARHL 6vlc-a2-m1-cD_6vlc-a2-m1-cC Crystal structure of UDP-GlcNAc 2-epimerase from Neisseria meningitidis bound to UDP-GlcNAc A0A0U1RGY0 A0A0U1RGY0 2.15 X-RAY DIFFRACTION 62 1.0 122587 (Neisseria meningitidis Z2491) 122587 (Neisseria meningitidis Z2491) 365 371 6vlb-a1-m1-cA_6vlb-a1-m1-cB 6vlc-a1-m1-cB_6vlc-a1-m1-cA MKVLTVFGTRPEAIKMAPVILELQKHNTITSKVCITAQHREMLDQVLSLFEIKADYDLNIMKPNQSLQEITTNIISSLTDVLEDFKPDCVLVHGDTTTTFAASLAAFYQKIPVGHIEAGLRTYNLYSPWPEEANRRLTSVLSQWHFAPTEDSKNNLLSESIPSDKVIVTGNTVIDALMVSLEKLKITTIKKQMEQAFPFIQDNSKVILITAHEGIKNIGLSILELAKKYPTFSFVIPLHLNPNVRKPIQDLLSSVHNVHLIEPQEYLPFVYLMSKSHIILSDSGGIQEEAPSLGKPVLVLRDTTERPEAVAAGTVKLVGSETQNIIESFTQLIEYPEYYEKMANIENPYGIGNASKIIVETLLKN MKVLTVFGTRPEAIKMAPVILELQKHNTITSKVCITAQHREMLDQVLSLFEIKADYDLNIMKPNQSLQEITTNIISSLTDVLEDFKPDCVLVHGDTTTTFAASLAAFYQKIPVGHIEAGLRTYNLYSPWPEEANRRLTSVLSQWHFAPTEDSKNNLLSESIPSDKVIVTGNTVIDALMVSLEKLKITTIKKQMEQAFPFIQDNSKVILITAHRRENHGEGIKNIGLSILELAKKYPTFSFVIPLHLNPNVRKPIQDLLSSVHNVHLIEPQEYLPFVYLMSKSHIILSDSGGIQEEAPSLGKPVLVLRDTTERPEAVAAGTVKLVGSETQNIIESFTQLIEYPEYYEKMANIENPYGIGNASKIIVETLLKN 6vli-a1-m1-cB_6vli-a1-m1-cA Crystal structure of transcriptional regulator from bacteriophage 186 P21678 P21678 2.10002 X-RAY DIFFRACTION 35 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 151 154 GLVPRGSHMFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALH SGLVPRGSHMFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALHAR 6vli-a1-m1-cC_6vli-a1-m1-cB Crystal structure of transcriptional regulator from bacteriophage 186 P21678 P21678 2.10002 X-RAY DIFFRACTION 178 0.993 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 144 151 6vli-a1-m1-cD_6vli-a1-m1-cA 6vmh-a1-m1-cC_6vmh-a1-m1-cB 6vpe-a1-m1-cB_6vpe-a1-m1-cA MFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALHA GLVPRGSHMFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALH 6vli-a1-m1-cC_6vli-a1-m1-cD Crystal structure of transcriptional regulator from bacteriophage 186 P21678 P21678 2.10002 X-RAY DIFFRACTION 37 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 144 145 MFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALHA HMFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALHA 6vli-a1-m1-cD_6vli-a1-m1-cB Crystal structure of transcriptional regulator from bacteriophage 186 P21678 P21678 2.10002 X-RAY DIFFRACTION 11 0.993 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 145 151 HMFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALHA GLVPRGSHMFDFQVSKHPHYDEACRAFAQRHNMAKLAERAGMNVQTLRNKLNPEQPHQFTPPELWLLTDLTEDSTLVDGFLAQIHCLPCVPVNELAKDKLQSYVMRAMSELGELASGAVSDERLTTARKHNMIESVNSGIRMLSLSALALH 6vlk-a2-m3-cB_6vlk-a2-m5-cB A varicella-zoster virus glycoprotein Q4JR05 Q4JR05 2.4529 X-RAY DIFFRACTION 329 1.0 341980 (Human herpesvirus 3 strain Oka vaccine) 341980 (Human herpesvirus 3 strain Oka vaccine) 583 583 6vlk-a1-m1-cA_6vlk-a1-m2-cA 6vlk-a1-m1-cA_6vlk-a1-m4-cA 6vlk-a1-m2-cA_6vlk-a1-m4-cA 6vlk-a2-m1-cB_6vlk-a2-m3-cB 6vlk-a2-m1-cB_6vlk-a2-m5-cB 6vn1-a1-m1-cA_6vn1-a1-m1-cB 6vn1-a1-m1-cA_6vn1-a1-m1-cC 6vn1-a1-m1-cB_6vn1-a1-m1-cC 7k1s-a1-m1-cA_7k1s-a1-m1-cB 7k1s-a1-m1-cA_7k1s-a1-m1-cC 7k1s-a1-m1-cB_7k1s-a1-m1-cC KPTFYVCPPPTGSTIVRLEPPRTCPDYHLGKNFTEGIAVVYKENIAAYKFKATVYYKDVIVSTAGAGSSGTQITNRYADRVPIPVSEITDTIDKFGKCSSKATYVRNNHKVEAFNEDKNPQDMPLIASKYNSVGSKAWHTTNDTYMVAGTPGTYRTGTSVNCIIEEVEARSIFPYDSFGLSTGDIIYMSPFFGLRDGAYREHSNYAMDRFHQFEGYRQRDLDTRALLEPAARNFLVTPHLTVGWNWKPKRTEVCSLVKWREVEDVVRDEYAHNFRFTMKTLSTTFISETNEFNLNQIHLSQCVKEEARAIINRIYTTRYNSSHVRTGDIQTYLARGGFVVVFQPLLSNSNRTITTTSSVEFAMLQFTYDHIQEHVNEMLARISSSWCQLQNRERALWSGLFPINPSALASTILDQRVKARILGDVISVSNCPELGSDTRIILQNSMRVSGSTTRCYSRPLISIVSLNGSGTVEGQLGTDNELIMSRDLLEPCVANHKRYFLFGHHYVYYEDYRYVREIAVHDVGMISTYVDLNLTLLKDREFMPLQVYTRDELRDTGLLDYSEIQRRNQMHSLRFYDIDKVVQ KPTFYVCPPPTGSTIVRLEPPRTCPDYHLGKNFTEGIAVVYKENIAAYKFKATVYYKDVIVSTAGAGSSGTQITNRYADRVPIPVSEITDTIDKFGKCSSKATYVRNNHKVEAFNEDKNPQDMPLIASKYNSVGSKAWHTTNDTYMVAGTPGTYRTGTSVNCIIEEVEARSIFPYDSFGLSTGDIIYMSPFFGLRDGAYREHSNYAMDRFHQFEGYRQRDLDTRALLEPAARNFLVTPHLTVGWNWKPKRTEVCSLVKWREVEDVVRDEYAHNFRFTMKTLSTTFISETNEFNLNQIHLSQCVKEEARAIINRIYTTRYNSSHVRTGDIQTYLARGGFVVVFQPLLSNSNRTITTTSSVEFAMLQFTYDHIQEHVNEMLARISSSWCQLQNRERALWSGLFPINPSALASTILDQRVKARILGDVISVSNCPELGSDTRIILQNSMRVSGSTTRCYSRPLISIVSLNGSGTVEGQLGTDNELIMSRDLLEPCVANHKRYFLFGHHYVYYEDYRYVREIAVHDVGMISTYVDLNLTLLKDREFMPLQVYTRDELRDTGLLDYSEIQRRNQMHSLRFYDIDKVVQ 6vlo-a2-m1-cD_6vlo-a2-m1-cC X-ray Structure of the R141 Sugar 4,6-dehydratase from Acanthamoeba polyphaga Minivirus Q5UR12 Q5UR12 2.05 X-RAY DIFFRACTION 131 0.987 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 307 312 6vlo-a1-m1-cA_6vlo-a1-m1-cB MKNILVTGGLGFIGSNFVNHISSKYDNVNIYVYDIGDYCASVENVEWNNRTKLIKGDIRNFDLIMHTLTEHEIDTIVHFAAHSHVNSLAFTETNVFGTHVLLECSRMYGKLKLFFHMSTDEVYGEIDTTSREVSLLCPTNPYAATKAGAEHIVKSYFLSYKLPIIIARCNNVYGRNQYPEKLIPKFICSLLDGKKLHIQGTGNSRRNFIHAIDVADAVDLVINNGVIGETYNIGVTNEHSVLDVAQILCDIAGVNLENQLEYVPDRLFNDFRYNITNDKIKSLGWEQSRKDFKKELVELFDWYKVNR MKNILVTGGLGFIGSNFVNHISSKYDNVNIYVYDIGDYCASVENVEWNNRTKLIKGDIRNFDLIMHTLTEHEIDTIVHFAAHSHVDNSFKNSLAFTETNVFGTHVLLECSRMYGKLKLFFHMSTDEVYGEIREVSLLCPTNPYAATKAGAEHIVKSYFLSYKLPIIIARCNNVYGRNQYPEKLIPKFICSLLDGKKLHIQGTGNSRRNFIHAIDVADAVDLVINNGVIGETYNIGVTNEHSVLDVAQILCDIAGVNLENQLEYVPDRLFNDFRYNITNDKIKSLGWEQSRKDFKKELVELFDWYKVNRHRYN 6vlp-a1-m1-cA_6vlp-a1-m2-cA Hop phytocystatin in space group C2221 1.681 X-RAY DIFFRACTION 160 1.0 3486 (Humulus lupulus) 3486 (Humulus lupulus) 80 80 6vlq-a1-m1-cA_6vlq-a1-m2-cA EIESLARYAVDEHNKKQNSLLQFEKVVNTKQQVVSGTIYIITLEAVDGGKKKVYEAKVWEKPWMNFKELQEFKLIGDAPS EIESLARYAVDEHNKKQNSLLQFEKVVNTKQQVVSGTIYIITLEAVDGGKKKVYEAKVWEKPWMNFKELQEFKLIGDAPS 6vna-a2-m1-cB_6vna-a2-m2-cB Pden_1323 A1B1N4 A1B1N4 2.2 X-RAY DIFFRACTION 106 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 152 152 6vna-a1-m1-cC_6vna-a1-m1-cA RETTDEARALARQLLEAARHASLGTLDPETGVPLVTRIALQTDADGVPLALLAGLAAHARALAVDPRAGLLIAAEAAKGDAMTHARLSILGRAVPAEPDENRRARWLERDPKAKVYLDLPDFRFWRIEPVSGLLNAGFGQAFKLTASDMLKP RETTDEARALARQLLEAARHASLGTLDPETGVPLVTRIALQTDADGVPLALLAGLAAHARALAVDPRAGLLIAAEAAKGDAMTHARLSILGRAVPAEPDENRRARWLERDPKAKVYLDLPDFRFWRIEPVSGLLNAGFGQAFKLTASDMLKP 6vo3-a1-m1-cD_6vo3-a1-m1-cC AMC009 SOSIP.v4.2 in complex with PGV04 Fab 4.25 ELECTRON MICROSCOPY 22 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 429 429 6vo3-a1-m1-cA_6vo3-a1-m1-cC 6vo3-a1-m1-cD_6vo3-a1-m1-cA 7z3a-a1-m1-cA_7z3a-a1-m1-cC 7z3a-a1-m1-cD_7z3a-a1-m1-cA 7z3a-a1-m1-cD_7z3a-a1-m1-cC 7zlk-a1-m1-cA_7zlk-a1-m1-cC 7zlk-a1-m1-cD_7zlk-a1-m1-cA 7zlk-a1-m1-cD_7zlk-a1-m1-cC WVTVYYGVPVWKEATTTLFCASDARNVWATHACVPTDPNPQEVVLENVTENFNMWKNDMVEQMHEDIISLWDQSLKPCVKLTPLCVTLNCTDYERGEIKNCSFNITTSIRDKVQKEYALFYKLDIVPINNSYRLINCNTSVIKQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEKEVVIRSQNFTNNAKVIIVQLNESVVINCTRPNNNTRKSIHIAPGRWFYTTGAIIGDIRQAHCNISRVKWNNTLKQIATKLREQFKNKTIAFNQSSGGDPEIVMHSFNCGGEFFYCNTTQLFNSTWNDHITLPCRIKQIINMWQKVGKAMYAPPIRGQIRCSSNITGLLLTRDGGSNENKTSETETFRPAGGDMRDNWRSELYKYKVVKIEPLGVAPTKCK WVTVYYGVPVWKEATTTLFCASDARNVWATHACVPTDPNPQEVVLENVTENFNMWKNDMVEQMHEDIISLWDQSLKPCVKLTPLCVTLNCTDYERGEIKNCSFNITTSIRDKVQKEYALFYKLDIVPINNSYRLINCNTSVIKQACPKVSFEPIPIHYCAPAGFAILKCNDKKFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEKEVVIRSQNFTNNAKVIIVQLNESVVINCTRPNNNTRKSIHIAPGRWFYTTGAIIGDIRQAHCNISRVKWNNTLKQIATKLREQFKNKTIAFNQSSGGDPEIVMHSFNCGGEFFYCNTTQLFNSTWNDHITLPCRIKQIINMWQKVGKAMYAPPIRGQIRCSSNITGLLLTRDGGSNENKTSETETFRPAGGDMRDNWRSELYKYKVVKIEPLGVAPTKCK 6vo3-a1-m1-cE_6vo3-a1-m1-cF AMC009 SOSIP.v4.2 in complex with PGV04 Fab 4.25 ELECTRON MICROSCOPY 54 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 124 124 6vo3-a1-m1-cB_6vo3-a1-m1-cE 6vo3-a1-m1-cB_6vo3-a1-m1-cF 7z3a-a1-m1-cE_7z3a-a1-m1-cB 7z3a-a1-m1-cE_7z3a-a1-m1-cF 7z3a-a1-m1-cF_7z3a-a1-m1-cB 7zlk-a1-m1-cB_7zlk-a1-m1-cE 7zlk-a1-m1-cB_7zlk-a1-m1-cF 7zlk-a1-m1-cE_7zlk-a1-m1-cF LGAAGSTMGAASMTLTVQARQLLSGIVQTVWGIKQLQARVLAVERYLRDQQLLGIWGCSGKLICCTAVPWNNSWSNRSLDMIWNNMTWIEWEREIDNYTGLIYNLLEESQNQQEKNEQELLELD LGAAGSTMGAASMTLTVQARQLLSGIVQTVWGIKQLQARVLAVERYLRDQQLLGIWGCSGKLICCTAVPWNNSWSNRSLDMIWNNMTWIEWEREIDNYTGLIYNLLEESQNQQEKNEQELLELD 6vo6-a1-m1-cC_6vo6-a1-m1-cB Crystal Structure of Cj1427, an Essential NAD-dependent Dehydrogenase from Campylobacter jejuni, in the Presence of NADH and GDP Q0P8I7 Q0P8I7 1.5 X-RAY DIFFRACTION 45 0.993 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 297 309 6vo8-a1-m1-cB_6vo8-a1-m2-cB SKKVLITGGAGYIGSVLTPILLEKGYEVCVIDNLMFDQISLLSCFHNKNFTFINGDAMDENLIRQEVAKADIIIPLAALVGAPLCKRNPKLAKMINYEAVKMISDFASPSQIFIYPNTNSGYDAMCTEESPLRPISEYGIDKVHAEQYLLDKGNCVTFRLATVFGISPRMRLDLLVNDFTYRAYRDKFIVLFEEHFRRNYIHVRDVVKGFIHGIENYDKMKGQAYNMGLSSANLTKRQLAETIKKYIPDFYIHSANIYLVSNTKLEATGWKPDNTLEDGIKELLRAFKMMKVNRFAN SKVLITGGAGYIGSVLTPILLEKGYEVCVIDNLMFDQISLLSCFHNKNFTFINGDAMDENLIRQEVAKADIIIPLAALVGAPLCKRNPKLAKMINYEAVKMISDFASPSQIFIYPNTNSGYGIGEKDAMCTEESPLRPISEYGIDKVHAEQYLLDKGNCVTFRLATVFGISPRMRLDLLVNDFTYRAYRDKFIVLFEEHFRRNYIHVRDVVKGFIHGIENYDKMKGQAYNMGLSSANLTKRQLAETIKKYIPDFYIHSANIGEDPDKRDYLVSNTKLEATGWKPDNTLEDGIKELLRAFKMMKVNRFAN 6vo8-a1-m2-cB_6vo8-a1-m1-cA X-ray structure of the Cj1427 in the presence of NADH and GDP-D-glycero-D-mannoheptose, an essential NAD-dependent dehydrogenase from Campylobacter jejuni Q0P8I7 Q0P8I7 2.4 X-RAY DIFFRACTION 22 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 299 303 6vo6-a1-m1-cB_6vo6-a1-m1-cD 6vo6-a1-m1-cC_6vo6-a1-m1-cA 6vo8-a1-m1-cB_6vo8-a1-m2-cA SKKVLITGGAGYIGSVLTPILLEKGYEVCVIDNLMFDQISLLSCFHNKNFTFINGDAMDENLIRQEVAKADIIIPLAALVGAPLCKRNPKLAKMINYEAVKMISDFASPSQIFIYPNTNSGYGIGMCTEESPLRPISEYGIDKVHAEQYLLDKGNCVTFRLATVFGISPRMRLDLLVNDFTYRAYRDKFIVLFEEHFRRNYIHVRDVVKGFIHGIENYDKMKGQAYNMGLSSANLTKRQLAETIKKYIPDFYIHSANIGEDPDKRDYLVSNTKLEATGWKPDNTLEDGIKELLRAFKMM SKKVLITGGAGYIGSVLTPILLEKGYEVCVIDNLMFDQISLLSCFHNKNFTFINGDAMDENLIRQEVAKADIIIPLAALVGAPLCKRNPKLAKMINYEAVKMISDFASPSQIFIYPNTNSGYGIGEKDAMCTEESPLRPISEYGIDKVHAEQYLLDKGNCVTFRLATVFGISPRMRLDLLVNDFTYRAYRDKFIVLFEEHFRRNYIHVRDVVKGFIHGIENYDKMKGQAYNMGLSSANLTKRQLAETIKKYIPDFYIHSANIGEDPDKRDYLVSNTKLEATGWKPDNTLEDGIKELLRAFKMM 6vo8-a1-m2-cB_6vo8-a1-m2-cA X-ray structure of the Cj1427 in the presence of NADH and GDP-D-glycero-D-mannoheptose, an essential NAD-dependent dehydrogenase from Campylobacter jejuni Q0P8I7 Q0P8I7 2.4 X-RAY DIFFRACTION 74 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 299 303 6vo6-a1-m1-cA_6vo6-a1-m1-cB 6vo6-a1-m1-cC_6vo6-a1-m1-cD 6vo8-a1-m1-cB_6vo8-a1-m1-cA SKKVLITGGAGYIGSVLTPILLEKGYEVCVIDNLMFDQISLLSCFHNKNFTFINGDAMDENLIRQEVAKADIIIPLAALVGAPLCKRNPKLAKMINYEAVKMISDFASPSQIFIYPNTNSGYGIGMCTEESPLRPISEYGIDKVHAEQYLLDKGNCVTFRLATVFGISPRMRLDLLVNDFTYRAYRDKFIVLFEEHFRRNYIHVRDVVKGFIHGIENYDKMKGQAYNMGLSSANLTKRQLAETIKKYIPDFYIHSANIGEDPDKRDYLVSNTKLEATGWKPDNTLEDGIKELLRAFKMM SKKVLITGGAGYIGSVLTPILLEKGYEVCVIDNLMFDQISLLSCFHNKNFTFINGDAMDENLIRQEVAKADIIIPLAALVGAPLCKRNPKLAKMINYEAVKMISDFASPSQIFIYPNTNSGYGIGEKDAMCTEESPLRPISEYGIDKVHAEQYLLDKGNCVTFRLATVFGISPRMRLDLLVNDFTYRAYRDKFIVLFEEHFRRNYIHVRDVVKGFIHGIENYDKMKGQAYNMGLSSANLTKRQLAETIKKYIPDFYIHSANIGEDPDKRDYLVSNTKLEATGWKPDNTLEDGIKELLRAFKMM 6vop-a1-m2-cA_6vop-a1-m4-cA Crystal structure of YgbL, a putative aldolase/epimerase/decarboxylase from Escherichia coli Q46890 Q46890 2.65 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 207 207 6vop-a1-m1-cA_6vop-a1-m3-cA 6vop-a1-m1-cA_6vop-a1-m4-cA 6vop-a1-m2-cA_6vop-a1-m3-cA KVEQSLREEMTRIASSFFQRGYATGSAGNLSLLLPDGNLLATPTGSCLGNLDPQRLSKVAADGEWLSGDKPSAAVLFHLALYRNNPRCKAVVHLHSTWSTALSCLQGLDSSNVIRPFTPYVVMRMGNVPLVPYYRPGDKRIAQDLAELAADNQAFLLANHGPVVCGESLQEAANNMEELEETAKLIFILGDRPIRYLTAGEIAELRS KVEQSLREEMTRIASSFFQRGYATGSAGNLSLLLPDGNLLATPTGSCLGNLDPQRLSKVAADGEWLSGDKPSAAVLFHLALYRNNPRCKAVVHLHSTWSTALSCLQGLDSSNVIRPFTPYVVMRMGNVPLVPYYRPGDKRIAQDLAELAADNQAFLLANHGPVVCGESLQEAANNMEELEETAKLIFILGDRPIRYLTAGEIAELRS 6voq-a1-m2-cA_6voq-a1-m4-cA Crystal structure of YgbL, a putative aldolase/epimerase/decarboxylase from Klebsiella pneumoniae Q0QC76 Q0QC76 2.49 X-RAY DIFFRACTION 67 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 207 207 6voq-a1-m1-cA_6voq-a1-m3-cA 6voq-a1-m1-cA_6voq-a1-m4-cA 6voq-a1-m2-cA_6voq-a1-m3-cA GMTEQQLREEMVQIGASLFSRGYATGSAGNLSLLLPDGNLLATPTGACLGELQAQRLSVVTLQGEWISGDKPSKEVTFHRAVYLHNPACKAIVHLHSHYLTALSCLQGLDPHNCIRPFTPYVVMRVGDVPVVPYYRPGDDRIAQALAGLAPRYNAFLLANHGPVVTGSSLREATNNTEELEETARLIFTLGNREIRYLTADEVKELR GMTEQQLREEMVQIGASLFSRGYATGSAGNLSLLLPDGNLLATPTGACLGELQAQRLSVVTLQGEWISGDKPSKEVTFHRAVYLHNPACKAIVHLHSHYLTALSCLQGLDPHNCIRPFTPYVVMRVGDVPVVPYYRPGDDRIAQALAGLAPRYNAFLLANHGPVVTGSSLREATNNTEELEETARLIFTLGNREIRYLTADEVKELR 6voy-a1-m1-cA_6voy-a1-m1-cC Cryo-EM structure of HTLV-1 instasome P14078 P14078 3.7 ELECTRON MICROSCOPY 63 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 276 276 PSPAELHSFTHCGQTALTLQGATTTEASNILRSCHACRKNNPQHQMPRGHIRRGLLPNHIWQGDITHFKYKNTLYRLHVWVDTFSGAISATQKRKETSSEAISSLLQAIAYLGKPSYINTDNGPAYISQDFLNMCTSLAIRHTTHVPYNPTSSGLVQRSNGILKTLLYKYFTDKPDLPMDNALSIALWTINHLNVLTNCHKTRWQLHHSPRLQPIPETRSLSNKQTHWYYFKLPGLNSRQWKGPQEALQEAAGAALIPVSASSAQWIPWRLLKRAA PSPAELHSFTHCGQTALTLQGATTTEASNILRSCHACRKNNPQHQMPRGHIRRGLLPNHIWQGDITHFKYKNTLYRLHVWVDTFSGAISATQKRKETSSEAISSLLQAIAYLGKPSYINTDNGPAYISQDFLNMCTSLAIRHTTHVPYNPTSSGLVQRSNGILKTLLYKYFTDKPDLPMDNALSIALWTINHLNVLTNCHKTRWQLHHSPRLQPIPETRSLSNKQTHWYYFKLPGLNSRQWKGPQEALQEAAGAALIPVSASSAQWIPWRLLKRAA 6voy-a1-m1-cD_6voy-a1-m1-cC Cryo-EM structure of HTLV-1 instasome P14078 P14078 3.7 ELECTRON MICROSCOPY 83 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 259 276 6voy-a1-m1-cB_6voy-a1-m1-cA SPAELHSFTHCGQTALTLQGATTTEASNILRSCHACRGLLPNHIWQGDITHFKYKNTLYRLHVWVDTFSGAISATQKRKETSSEAISSLLQAIAYLGKPSYINTDNGPAYISQDFLNMCTSLAIRHTTHVPYNPTSSGLVQRSNGILKTLLYKYFTDKPDLPMDNALSIALWTINHLNVLTNCHKTRWQLHHSPRLQPIPETRSLSNKQTHWYYFKLPGLNSRQWKGPQEALQEAAGAALIPVSASSAQWIPWRLLKRA PSPAELHSFTHCGQTALTLQGATTTEASNILRSCHACRKNNPQHQMPRGHIRRGLLPNHIWQGDITHFKYKNTLYRLHVWVDTFSGAISATQKRKETSSEAISSLLQAIAYLGKPSYINTDNGPAYISQDFLNMCTSLAIRHTTHVPYNPTSSGLVQRSNGILKTLLYKYFTDKPDLPMDNALSIALWTINHLNVLTNCHKTRWQLHHSPRLQPIPETRSLSNKQTHWYYFKLPGLNSRQWKGPQEALQEAAGAALIPVSASSAQWIPWRLLKRAA 6vp8-a1-m1-cC_6vp8-a1-m1-cA Cryo-EM structure of the C-terminal half of the Parkinson's Disease-linked protein Leucine Rich Repeat Kinase 2 (LRRK2) Q5S007 Q5S007 3.5 ELECTRON MICROSCOPY 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 319 1083 6vp6-a1-m1-cB_6vp6-a1-m1-cA 6vp6-a1-m1-cC_6vp6-a1-m1-cA 6vp8-a1-m1-cB_6vp8-a1-m1-cA LTRRILLPKNVIVECMVATHHASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSESNVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREVMMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNREIQSCLTVWDI VPYNRMKLMIVGNGSGKTTLLQQLMGIDVKDWPILVLNVWDFAGREEFYSTHPRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQLVVGQLIPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQALQLSDLYFVEPKWLCKIMAQILTVGIISRRDVEKFLSKKRKFPKNYMSQYFKLLEKFQIALPIGEEYLLVPSSLSDHRPVIELPHCENSEIIIRLYEMPYFPMGFWSRLINRLLEISPYMLLRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLLLKKWALYSFNDGEEHQKILLDDLMKKAEEGDLLVNPDQPRLTIPISQIAPDLILADLPRNIMLNNDELEFEQAPEFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSAELVCLTRRILLPKNVIVECMVATHHASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSESNVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREVMMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNREIQSCLTVWDINLPHEVQNLEKHIEVRKELAEKMRRTS 6vpb-a1-m1-cA_6vpb-a1-m2-cB A novel membrane-bound 6-phosphogluconate dehydrogenase from the acetic acid bacteria Gluconacetobacter diazotrophicus (Gd6PGD) A9H324 A9H324 1.87 X-RAY DIFFRACTION 42 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 320 324 6vpb-a1-m2-cA_6vpb-a1-m1-cB MQIGIIGLGRMGGNIAVRLSRHGHDVVLFDRDAATVSKVSERIEGGRGVAATSLPDLVAKLTAKRKIVWVMLPCGEITENAVQELYGLLGKDDIVIDGGNTYYKDDIRRAAQLADKGIHYVDVGTSGLERGYCMMYGGTKDSTDHIDPILDALAPGKGDVAPTPDRGKPGLDPRAEKGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPKLPEDQRFDLNMADIAEVWRRGSVVSSWLLDLTAEALAKNASLSEFTGEVADSGEGRWTLEAAIEEAVPAPVITASLFTRFRSRTGNNYAEKVLSAMRFGF MQIGIIGLGRMGGNIAVRLSRHGHDVVLFDRDAATVSKVSERIEGGRGVAATSLPDLVAKLTAKRKIVWVMLPCGEITENAVQELYGLLGKDDIVIDGGNTYYKDDIRRAAQLADKGIHYVDVGTSGGVWGLERGYCMMYGGTKDSTDHIDPILDALAPGKGDVAPTPDRGKPGLDPRAEKGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPKLPEDQRFDLNMADIAEVWRRGSVVSSWLLDLTAEALAKNASLSEFTGEVADSGEGRWTLEAAIEEAVPAPVITASLFTRFRSRTGNNYAEKVLSAMRFGF 6vpb-a1-m1-cB_6vpb-a1-m2-cB A novel membrane-bound 6-phosphogluconate dehydrogenase from the acetic acid bacteria Gluconacetobacter diazotrophicus (Gd6PGD) A9H324 A9H324 1.87 X-RAY DIFFRACTION 153 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 324 324 6vpb-a1-m1-cA_6vpb-a1-m2-cA MQIGIIGLGRMGGNIAVRLSRHGHDVVLFDRDAATVSKVSERIEGGRGVAATSLPDLVAKLTAKRKIVWVMLPCGEITENAVQELYGLLGKDDIVIDGGNTYYKDDIRRAAQLADKGIHYVDVGTSGGVWGLERGYCMMYGGTKDSTDHIDPILDALAPGKGDVAPTPDRGKPGLDPRAEKGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPKLPEDQRFDLNMADIAEVWRRGSVVSSWLLDLTAEALAKNASLSEFTGEVADSGEGRWTLEAAIEEAVPAPVITASLFTRFRSRTGNNYAEKVLSAMRFGF MQIGIIGLGRMGGNIAVRLSRHGHDVVLFDRDAATVSKVSERIEGGRGVAATSLPDLVAKLTAKRKIVWVMLPCGEITENAVQELYGLLGKDDIVIDGGNTYYKDDIRRAAQLADKGIHYVDVGTSGGVWGLERGYCMMYGGTKDSTDHIDPILDALAPGKGDVAPTPDRGKPGLDPRAEKGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPKLPEDQRFDLNMADIAEVWRRGSVVSSWLLDLTAEALAKNASLSEFTGEVADSGEGRWTLEAAIEEAVPAPVITASLFTRFRSRTGNNYAEKVLSAMRFGF 6vpb-a1-m2-cA_6vpb-a1-m2-cB A novel membrane-bound 6-phosphogluconate dehydrogenase from the acetic acid bacteria Gluconacetobacter diazotrophicus (Gd6PGD) A9H324 A9H324 1.87 X-RAY DIFFRACTION 341 1.0 272568 (Gluconacetobacter diazotrophicus PA1 5) 272568 (Gluconacetobacter diazotrophicus PA1 5) 320 324 6vpb-a1-m1-cA_6vpb-a1-m1-cB MQIGIIGLGRMGGNIAVRLSRHGHDVVLFDRDAATVSKVSERIEGGRGVAATSLPDLVAKLTAKRKIVWVMLPCGEITENAVQELYGLLGKDDIVIDGGNTYYKDDIRRAAQLADKGIHYVDVGTSGLERGYCMMYGGTKDSTDHIDPILDALAPGKGDVAPTPDRGKPGLDPRAEKGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPKLPEDQRFDLNMADIAEVWRRGSVVSSWLLDLTAEALAKNASLSEFTGEVADSGEGRWTLEAAIEEAVPAPVITASLFTRFRSRTGNNYAEKVLSAMRFGF MQIGIIGLGRMGGNIAVRLSRHGHDVVLFDRDAATVSKVSERIEGGRGVAATSLPDLVAKLTAKRKIVWVMLPCGEITENAVQELYGLLGKDDIVIDGGNTYYKDDIRRAAQLADKGIHYVDVGTSGGVWGLERGYCMMYGGTKDSTDHIDPILDALAPGKGDVAPTPDRGKPGLDPRAEKGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPKLPEDQRFDLNMADIAEVWRRGSVVSSWLLDLTAEALAKNASLSEFTGEVADSGEGRWTLEAAIEEAVPAPVITASLFTRFRSRTGNNYAEKVLSAMRFGF 6vpd-a1-m1-cB_6vpd-a1-m1-cA Crystal structure of Trgpx in apo form G0RHF8 G0RHF8 2.603 X-RAY DIFFRACTION 27 1.0 431241 (Trichoderma reesei QM6a) 431241 (Trichoderma reesei QM6a) 149 153 ATSFFDFKVPDGADNEVDLSQYKGKVVLVVNTASKCGFTYQYKNLESVYQAIKKEYPDDFVVLGFPCNQFGKVTFPVMGKINVNGDDAHPLYKWLKKEKPGLLGLERVKWNFEKFLIGRDGKVIGRWASTTEPEKIQDKIIEAIKQPAP SATSFFDFKVPDGADNEVDLSQYKGKVVLVVNTASKCGFTYQYKNLESVYQAIKKEYPDDFVVLGFPCNQFGSQQKVTFPVMGKINVNGDDAHPLYKWLKKEKPGLLGLERVKWNFEKFLIGRDGKVIGRWASTTEPEKIQDKIIEAIKQPAP 6vps-a1-m1-cC_6vps-a1-m1-cI Cryo-EM structure of the amyloid core of Drosophila Orb2 isolated from head Q9VSR3 Q9VSR3 2.6 ELECTRON MICROSCOPY 106 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 31 31 6vps-a1-m1-cA_6vps-a1-m1-cD 6vps-a1-m1-cA_6vps-a1-m1-cE 6vps-a1-m1-cB_6vps-a1-m1-cF 6vps-a1-m1-cB_6vps-a1-m1-cG 6vps-a1-m1-cC_6vps-a1-m1-cH QLHQQQHQQQHQQHQQHQQQQQLHQHQQQLS QLHQQQHQQQHQQHQQHQQQQQLHQHQQQLS 6vpu-a12-m1-cE_6vpu-a12-m1-cD 1.90 Angstrom Resolution Crystal Structure Phosphoadenosine Phosphosulfate Reductase (CysH) from Vibrio vulnificus Q8CWK6 Q8CWK6 1.9 X-RAY DIFFRACTION 58 1.0 216895 (Vibrio vulnificus CMCP6) 216895 (Vibrio vulnificus CMCP6) 222 230 6vpu-a10-m1-cG_6vpu-a10-m1-cB 6vpu-a11-m1-cC_6vpu-a11-m2-cH 6vpu-a9-m1-cA_6vpu-a9-m1-cF LQLSELLSLTKAEQSIRLAEINVELEMLSAQERVAWALQNLEGAHAVSSSFGIQAAVMLHLVSKQQADIPVILTDTGYLFPETYQFIDELTKSLNLNLKVYRANESANWQEARYGKLWEQGIEGIEKYNKLNKVEPMRRALNELNVKTWFSGLRREQSQSRAGLPILSIQNGVFKFLPVVDWSNKDVHYYLKEHGLSYHPLWEQGYLSVGDTHTTQKWEPGM STLQLSELLSLTKAEQSIRLAEINVELEMLSAQERVAWALQNLEGAHAVSSSFGIQAAVMLHLVSKQQADIPVILTDTGYLFPETYQFIDELTKSLNLNLKVYRANESANWQEARYGKLWEQGIEGIEKYNKLNKVEPMRRALNELNVKTWFSGLRREQSQSRAGLPILSIQNGVFKFLPVVDWSNKDVHYYLKEHGLSYHPLWEQGYLSVGDTHTTQKWEPGMSEEETR 6vpv-a1-m1-cL_6vpv-a1-m1-cl Trimeric Photosystem I from the High-Light Tolerant Cyanobacteria Cyanobacterium Aponinum K9Z7Y0 K9Z7Y0 2.7 ELECTRON MICROSCOPY 44 1.0 2676140 (Cyanobacterium aponinum 0216) 2676140 (Cyanobacterium aponinum 0216) 160 160 6vpv-a1-m1-c0_6vpv-a1-m1-cl 6vpv-a1-m1-c0_6vpv-a1-m1-cL IDVVNHGGDPQVGNLSTPINGSAFTKAFINALPAYRKGLSPNRRGLEVGMAHGYLLYGPFAVLGPLRLTEYGPTAGLLATIGLVSILTICLSIYGAVGVSKPTETLTTPEVPMDLATKEGWSEFAGGFLLGGCGGAFFAFFLCQTPHLQPLIEVASNIWS IDVVNHGGDPQVGNLSTPINGSAFTKAFINALPAYRKGLSPNRRGLEVGMAHGYLLYGPFAVLGPLRLTEYGPTAGLLATIGLVSILTICLSIYGAVGVSKPTETLTTPEVPMDLATKEGWSEFAGGFLLGGCGGAFFAFFLCQTPHLQPLIEVASNIWS 6vr2-a1-m1-cB_6vr2-a1-m1-cA Aminoglycoside N-2'-Acetyltransferase-Ia [AAC(2')-Ia] in complex with acetylated-tobramycin and CoA Q52424 Q52424 1.77 X-RAY DIFFRACTION 90 1.0 588 (Providencia stuartii) 588 (Providencia stuartii) 175 177 5us1-a1-m1-cB_5us1-a1-m1-cA 5us1-a2-m1-cD_5us1-a2-m1-cC 5us1-a3-m1-cF_5us1-a3-m1-cE 5us1-a4-m1-cG_5us1-a4-m1-cH 5us1-a6-m1-cL_5us1-a6-m1-cK 6vou-a1-m1-cB_6vou-a1-m1-cA 6vr3-a1-m1-cB_6vr3-a1-m1-cA 6vta-a1-m1-cB_6vta-a1-m1-cA 7jzs-a1-m1-cA_7jzs-a1-m2-cA GIEYRSLHTSQLTLSEEALYDLLIEGFEGDFSHDDFAHTLGGMHVMAFDQQKLVGHVAIIQRHMALDNTPISVGYVEAMVVEQSYRRQGIGRQLMLQTNKIIASCYQLGLLSASDDGQKLYHSVGWQIWKGKLFELKQGSYIRSIEEEGGVMGWKAGEVDFTASLYCDFRGGDQW GIEYRSLHTSQLTLSEKEALYDLLIEGFEGDFSHDDFAHTLGGMHVMAFDQQKLVGHVAIIQRHMALDNTPISVGYVEAMVVEQSYRRQGIGRQLMLQTNKIIASCYQLGLLSASDDGQKLYHSVGWQIWKGKLFELKQGSYIRSIEEEGGVMGWKADGEVDFTASLYCDFRGGDQW 6vrp-a1-m1-cA_6vrp-a1-m1-cB Reverse Transcriptase Diabody with R83T Mutation 1.6 X-RAY DIFFRACTION 136 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 238 EVQLVESGGGLVQPGGSLRLSCAASGFSLSTSGIGVTWVRQAPGKGLEWLATIWWDDDNRYADSVKGRFTISADTSKNTAYLQMNSLTAEDTAVYYCAQSAMDHWGQGTLVTVSSGSDIQMTQSPSSLSASVGDRVTITCRASQDISSYLNWYQQKPGKAPKLLIYYTSSLHSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSKFPWTFGQGTKVEIKGS EVQLVESGGGLVQPGGSLRLSCAASGFSLSTSGIGVTWVRQAPGKGLEWLATIWWDDDNRYADSVKGRFTISADTSKNTAYLQMNSLTAEDTAVYYCAQSAITSVTDSAMDHWGQGTLVTVSSGGGGSDIQMTQSPSSLSASVGDRVTITCRASQDISSYLNWYQQKPGKAPKLLIYYTSSLHSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSKFPWTFGQGTKVEIKGSH 6vs4-a1-m1-cB_6vs4-a1-m2-cB Crystal structure of ADP RIBOSYLATION FACTOR-LIKE GTP BINDING PROTEIN /Small COPII coat GTPase SAR1 from Encephalitozoon cuniculi in complex with GDP Q8SS09 Q8SS09 2.4 X-RAY DIFFRACTION 27 1.0 284813 (Encephalitozoon cuniculi GB-M1) 284813 (Encephalitozoon cuniculi GB-M1) 223 223 6vs4-a1-m1-cA_6vs4-a1-m2-cA GPGSMLDNIQEYLGVVKAKLTEFYEKVFQNFVKSLFGKPSSILFLGIDNAGKTTLVNKLKSDSTDVYMPTHHPSTSYIEIGNLKAQVIDLGGHTAARLAWRDYFYDCHGIVFIVDVHDVERFQEVREAYETVLSLEKRAPVVVLMNKIDLEGHTPETAEADYQWKSWLSQETGIENQEDPERGQVVKIFYVTITSGSANSITGPLARAFKWLEAMITYNNKKE GPGSMLDNIQEYLGVVKAKLTEFYEKVFQNFVKSLFGKPSSILFLGIDNAGKTTLVNKLKSDSTDVYMPTHHPSTSYIEIGNLKAQVIDLGGHTAARLAWRDYFYDCHGIVFIVDVHDVERFQEVREAYETVLSLEKRAPVVVLMNKIDLEGHTPETAEADYQWKSWLSQETGIENQEDPERGQVVKIFYVTITSGSANSITGPLARAFKWLEAMITYNNKKE 6vs4-a1-m2-cA_6vs4-a1-m2-cB Crystal structure of ADP RIBOSYLATION FACTOR-LIKE GTP BINDING PROTEIN /Small COPII coat GTPase SAR1 from Encephalitozoon cuniculi in complex with GDP Q8SS09 Q8SS09 2.4 X-RAY DIFFRACTION 50 0.991 284813 (Encephalitozoon cuniculi GB-M1) 284813 (Encephalitozoon cuniculi GB-M1) 223 223 6vs4-a1-m1-cA_6vs4-a1-m1-cB GSMLDNIQEYLGVVKAKLTEFYEKVFQNFVKSLFGKPSSILFLGIDNAGKTTLVNKLKSDSTDVYMPTHHPSTSYIEIGNLKAQVIDLGGHTAARLAWRDYFYDCHGIVFIVDVHDVERFQEVREAYETVLSLEKRAPVVVLMNKIDLEGHTPETAEADYQWKSWLSQETGIENQEDPERGQVVKIFYVTITSGSANSITGPLARAFKWLEAMITYNNKKESL GPGSMLDNIQEYLGVVKAKLTEFYEKVFQNFVKSLFGKPSSILFLGIDNAGKTTLVNKLKSDSTDVYMPTHHPSTSYIEIGNLKAQVIDLGGHTAARLAWRDYFYDCHGIVFIVDVHDVERFQEVREAYETVLSLEKRAPVVVLMNKIDLEGHTPETAEADYQWKSWLSQETGIENQEDPERGQVVKIFYVTITSGSANSITGPLARAFKWLEAMITYNNKKE 6vsb-a1-m1-cA_6vsb-a1-m1-cC Prefusion 2019-nCoV spike glycoprotein with a single receptor-binding domain up P0DTC2 P0DTC2 3.46 ELECTRON MICROSCOPY 302 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 959 973 6vsb-a1-m1-cA_6vsb-a1-m1-cB 7byr-a1-m1-cA_7byr-a1-m1-cB 7byr-a1-m1-cA_7byr-a1-m1-cC 7edf-a1-m1-cB_7edf-a1-m1-cA 7edf-a1-m1-cC_7edf-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSYNYLYRPLQSYGFQPTVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSYNYLYRNLKPFERDISTENCYFPLQSYGFQVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 6vsi-a1-m1-cA_6vsi-a1-m2-cA Crystal structure of FKBP12 of Candida auris A0A2H1A4Z6 A0A2H1A4Z6 1.87 X-RAY DIFFRACTION 33 1.0 498019 ([Candida] auris) 498019 ([Candida] auris) 111 111 MAPNTTEVEIISEGDGKVFPKVGDTVTIHYTGTLENGKKFDSSRDRGKPFQCTIGVGHVIKGWDIGIPKLSVGSQAKLTIPGHEAYGSRGFPGLIPPDATLIFDVELLGVN MAPNTTEVEIISEGDGKVFPKVGDTVTIHYTGTLENGKKFDSSRDRGKPFQCTIGVGHVIKGWDIGIPKLSVGSQAKLTIPGHEAYGSRGFPGLIPPDATLIFDVELLGVN 6vsj-a1-m1-cA_6vsj-a1-m1-cB Cryo-electron microscopy structure of mouse coronavirus spike protein complexed with its murine receptor P11224 P11224 3.94 ELECTRON MICROSCOPY 357 1.0 11142 (Murine hepatitis virus strain A59) 11142 (Murine hepatitis virus strain A59) 1122 1122 3jcl-a1-m1-cA_3jcl-a1-m1-cB 3jcl-a1-m1-cA_3jcl-a1-m1-cC 3jcl-a1-m1-cB_3jcl-a1-m1-cC 6vsj-a1-m1-cA_6vsj-a1-m1-cC 6vsj-a1-m1-cB_6vsj-a1-m1-cC YIGDFRCIQLVNSNGANVSAPSISTETVEVSQGLGTYYVLDRVYLNATLLLTGYYPVDGSKFRNLALRGTNSVSLSWFQPPYLNQFNDGIFAKVQNLKTSTPSGATAYFPTIVIGSLFGYTSYTVVIEPYNGVIMASVCQYTICQLPYTDCKPNTNGNKLIGFWHTDVKPPICVLKRNFTLNVNADAFYFHFYQHGGTFYAYYADKPSATTFLFSVYIGDILTQYYVLPFICNPTAGSTFAPRYWVTPLVKRQYLFNFNQKGVITSAVDCASSYTSEIKCKTQSMLPSTGVYELSGYTVQPVGVVYRRVANLPACNIEEWLTARSVPSPLNWERKTFQNCNFNLSSLLRYVQAESLFCNNIDASKVYGRCFGSISVDKFAVPRSRQVDLQLGNSGFLQTANYKIDTAATSCQLHYTLPKNNVTINNHNPSSWNRRYGFNDAGVFGKNQHDVVYAQQCFTVRSSFCPCATKPKSAFVNVGDHCEGLGVLEDNCGNADPHKGCICANNSFIGWSHDTCLVNDRCQIFANILLNGINSGTTCSTDLQLPNTEVVTGICVKYDLYGITGQGVFKEVKADYYNSWQTLLYDVNGNLNGFRDLTTNKTYTIRSCYSGRVSAAFHKDAPEPALLYRNINCSYVFSNNISREENPLNYFDSYLGCVVNADNRTDEALPNCDLRMGAGLCVDYSKSRRAHRSVSTGYRLTTFEPYTPMLVNDSVQSVDGLYEMQIPTNFTIGHHEEFIQTRSPKVTIDCAAFVCGDNTACRQQLVEYGSFCVNVNAILNEVNNLLDNMQLQVASALMQGVTISSRSTCAEDGNGPSAIRGRSAIEDLLFDKVKLSDVGFVEAYNNCTGGQEVRDLLCVQSFNGIKVLPPVLSESQISGYTTGATAAAMFPPWSAAAGVPFSLSVQYRINGLGVTMNVLSENQKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAISASLQEILTRLEAVEAKAQIDRLINGRLTALNAYISKQLSDSTLIKVSAAQAIEKVNECVKSQTTRINFCGNGNHILSLVQNAPYGLYFIHFSYVPISFTTANVSPGLCISGDRGLAPKAGYFVQDDGEWKFTGSSYYYPEPITDK YIGDFRCIQLVNSNGANVSAPSISTETVEVSQGLGTYYVLDRVYLNATLLLTGYYPVDGSKFRNLALRGTNSVSLSWFQPPYLNQFNDGIFAKVQNLKTSTPSGATAYFPTIVIGSLFGYTSYTVVIEPYNGVIMASVCQYTICQLPYTDCKPNTNGNKLIGFWHTDVKPPICVLKRNFTLNVNADAFYFHFYQHGGTFYAYYADKPSATTFLFSVYIGDILTQYYVLPFICNPTAGSTFAPRYWVTPLVKRQYLFNFNQKGVITSAVDCASSYTSEIKCKTQSMLPSTGVYELSGYTVQPVGVVYRRVANLPACNIEEWLTARSVPSPLNWERKTFQNCNFNLSSLLRYVQAESLFCNNIDASKVYGRCFGSISVDKFAVPRSRQVDLQLGNSGFLQTANYKIDTAATSCQLHYTLPKNNVTINNHNPSSWNRRYGFNDAGVFGKNQHDVVYAQQCFTVRSSFCPCATKPKSAFVNVGDHCEGLGVLEDNCGNADPHKGCICANNSFIGWSHDTCLVNDRCQIFANILLNGINSGTTCSTDLQLPNTEVVTGICVKYDLYGITGQGVFKEVKADYYNSWQTLLYDVNGNLNGFRDLTTNKTYTIRSCYSGRVSAAFHKDAPEPALLYRNINCSYVFSNNISREENPLNYFDSYLGCVVNADNRTDEALPNCDLRMGAGLCVDYSKSRRAHRSVSTGYRLTTFEPYTPMLVNDSVQSVDGLYEMQIPTNFTIGHHEEFIQTRSPKVTIDCAAFVCGDNTACRQQLVEYGSFCVNVNAILNEVNNLLDNMQLQVASALMQGVTISSRSTCAEDGNGPSAIRGRSAIEDLLFDKVKLSDVGFVEAYNNCTGGQEVRDLLCVQSFNGIKVLPPVLSESQISGYTTGATAAAMFPPWSAAAGVPFSLSVQYRINGLGVTMNVLSENQKMIASAFNNALGAIQDGFDATNSALGKIQSVVNANAEALNNLLNQLSNRFGAISASLQEILTRLEAVEAKAQIDRLINGRLTALNAYISKQLSDSTLIKVSAAQAIEKVNECVKSQTTRINFCGNGNHILSLVQNAPYGLYFIHFSYVPISFTTANVSPGLCISGDRGLAPKAGYFVQDDGEWKFTGSSYYYPEPITDK 6vsk-a1-m1-cA_6vsk-a1-m6-cA Crystal structure of the P-Rex1 DEP1 domain Q8TCU6 Q8TCU6 3.12 X-RAY DIFFRACTION 157 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 6vsk-a1-m2-cA_6vsk-a1-m5-cA 6vsk-a1-m3-cA_6vsk-a1-m4-cA NAIAEKGEKLYHMMMNKKVNLIKDRRRKLSTVPKCFLGNEFVAWLLEIGEISKTEEGVNLGQALLENGIIHHVSDKHQFKNEQVMYRFRYD NAIAEKGEKLYHMMMNKKVNLIKDRRRKLSTVPKCFLGNEFVAWLLEIGEISKTEEGVNLGQALLENGIIHHVSDKHQFKNEQVMYRFRYD 6vsk-a1-m2-cA_6vsk-a1-m6-cA Crystal structure of the P-Rex1 DEP1 domain Q8TCU6 Q8TCU6 3.12 X-RAY DIFFRACTION 91 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 91 6vsk-a1-m1-cA_6vsk-a1-m4-cA 6vsk-a1-m3-cA_6vsk-a1-m5-cA NAIAEKGEKLYHMMMNKKVNLIKDRRRKLSTVPKCFLGNEFVAWLLEIGEISKTEEGVNLGQALLENGIIHHVSDKHQFKNEQVMYRFRYD NAIAEKGEKLYHMMMNKKVNLIKDRRRKLSTVPKCFLGNEFVAWLLEIGEISKTEEGVNLGQALLENGIIHHVSDKHQFKNEQVMYRFRYD 6vtv-a1-m1-cA_6vtv-a1-m1-cB Crystal structure of PuuD gamma-glutamyl-gamma-aminobutyrate hydrolase from E. coli P76038 P76038 2.06 X-RAY DIFFRACTION 114 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 249 252 NNPVIGVVMCRNRLKGHATQTLQEKYLNAIIHAGGLPIALPHALAEPSLLEQLLPKLDGIYLPGSPSNVQPHLYGENGDEPDADPGRDLLSMAIINAALERRIPIFAICRGLQELVVATGGSLHRKLCEQPELLEHREDPELPVEQQYAPSHEVQVEEGGLLSALLPECSNFWVNSLHGQGAKVVSPRLRVEARSPDGLVEAVSVINHPFALGVQWHPEWNSSEYALSRILFEGFITACQHHIAEKQRL NIMNNPVIGVVMCRNRLKGHATQTLQEKYLNAIIHAGGLPIALPHALAEPSLLEQLLPKLDGIYLPGSPSNVQPHLYGENGDEPDADPGRDLLSMAIINAALERRIPIFAICRGLQELVVATGGSLHRKLCEQPELLEHREDPELPVEQQYAPSHEVQVEEGGLLSALLPECSNFWVNSLHGQGAKVVSPRLRVEARSPDGLVEAVSVINHPFALGVQWHPEWNSSEYALSRILFEGFITACQHHIAEKQRL 6vu4-a1-m2-cC_6vu4-a1-m3-cC Structure of a beta-hairpin peptide mimic derived from Abeta 14-36 2.077 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 14 6vu4-a1-m1-cA_6vu4-a1-m2-cA 6vu4-a1-m1-cA_6vu4-a1-m3-cA 6vu4-a1-m1-cC_6vu4-a1-m2-cC 6vu4-a1-m1-cC_6vu4-a1-m3-cC 6vu4-a1-m2-cA_6vu4-a1-m3-cA HKLVFAEAIIGLMV HKLVFAEAIIGLMV 6vu4-a1-m3-cA_6vu4-a1-m3-cC Structure of a beta-hairpin peptide mimic derived from Abeta 14-36 2.077 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 14 14 6vu4-a1-m1-cA_6vu4-a1-m1-cC 6vu4-a1-m2-cA_6vu4-a1-m2-cC HKLVFAEAIIGLMV HKLVFAEAIIGLMV 6vu7-a1-m1-cB_6vu7-a1-m1-cC Crystal structure of YbjN, a putative transcription regulator from E. coli B7LD46 B7LD46 2.59 X-RAY DIFFRACTION 46 1.0 585055 (Escherichia coli 55989) 585055 (Escherichia coli 55989) 142 144 TSLVVPGLDTLRQWLDDLGMSFFECDNCQALHLPHMQNFDGVFDAKIDLIDNTILFSAMAEVRPSAVLPLAADLSAINASSLTVKAFLDMQDDNLPKLVVCQSLSVMQGVTYEQFAWFVRQSEEQISMVILEANAHQLLLPT TSLVVPGLDTLRQWLDDLGMSFFECDNCQALHLPHMQNFDGVFDAKIDLIDNTILFSAMAEVRPSAVLPLAADLSAINASSLTVKAFLDMQDDNLPKLVVCQSLSVMQGVTYEQFAWFVRQSEEQISMVILEANAHQLLLPTDD 6vu7-a1-m1-cD_6vu7-a1-m1-cC Crystal structure of YbjN, a putative transcription regulator from E. coli B7LD46 B7LD46 2.59 X-RAY DIFFRACTION 79 1.0 585055 (Escherichia coli 55989) 585055 (Escherichia coli 55989) 135 144 6vu7-a1-m1-cA_6vu7-a1-m1-cB SLVVPGLDTLRQWLDDLGMSFFECCQALHLPNFDGVFDAKIDLIDNTILFSAMAEVRPSAVLPLAADLSAINASSLTVKAFLDMQDDNLPKLVVCQSLSVMQGVTYEQFAWFVRQSEEQISMVILEANAHQLLLP TSLVVPGLDTLRQWLDDLGMSFFECDNCQALHLPHMQNFDGVFDAKIDLIDNTILFSAMAEVRPSAVLPLAADLSAINASSLTVKAFLDMQDDNLPKLVVCQSLSVMQGVTYEQFAWFVRQSEEQISMVILEANAHQLLLPTDD 6vud-a1-m1-cA_6vud-a1-m1-cB Crystal structure of a ribosome recycling factor from Ehrlichia chaffeensis Q2GHJ5 Q2GHJ5 2.35 X-RAY DIFFRACTION 85 0.995 205920 (Ehrlichia chaffeensis str. Arkansas) 205920 (Ehrlichia chaffeensis str. Arkansas) 185 185 MISEVKQDAKSRMEKSLSVYLSDIDGIRTGRARTSVLNGIVVETYGGRVKLNTISSVSVSDNKTLMIKVWDSNNIGAIKTAIMNSNLGFGISCEATTIRLTVPDMTQDMRKNLVKLLGKISEDCRVSIRNIRRDIMDRLKVMQDSKEISEDDLRVAGVEIQKITDDIMKKVNDAFTSKEKELLHV MMISEVKQDAKSRMEKSLSVYLSDIDGIRTGRARTSVLNGIVVETYGGRVKLNTISSVSVSDNKTLMIKVWDSNNIGAIKTAIMNSNLGFGISCEATTIRLTVPDMTQDMRKNLVKLLGKISEDCRVSIRNIRRDIMDRLKVMQDSKEISEDDLRVAGVEIQKITDDIMKKVNDAFTSKEKELLH 6vum-a1-m1-cA_6vum-a1-m1-cC Structure of nevanimibe-bound human tetrameric ACAT1 P35610 P35610 3.67 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 409 409 6p2p-a1-m1-cB_6p2p-a1-m1-cD QGKIFIARRSLLDELLEVDHIRTIYHMFIALLILFILSTLVVDYIDEGRLVLEFSLLSYAFGKFPTVVWTWWIMFLSTFSVPYFLFQHWATGYSKSSHPLIRSLFHGFLFMIFQIGVLGFGPTYVVLAYTLPPASRFIIIFEQIRFVMKAHSFVRENVPRVLNSAKEKSSTVPIPTVNQYLYFLFAPTLIYRDSYPRNPTVRWGYVAMKFAQVFGCFFYVYYIFERLCAPLFRNIKQEPFSARVLVLCVFNSILPGVLILFLTFFAFLHCWLNAFAEMLRFGDRMFYKDWWNSTSYSNYYRTWNVVVHDWLYYYAYKDFLWFFSKRFKSAAMLAVFAVSAVVHEYALAVCLSFFYPVLFVLFMFFGMAFNFIVNDSRKKPIWNVLMWTSLFLGNGVLLCFYSQEWYARQ QGKIFIARRSLLDELLEVDHIRTIYHMFIALLILFILSTLVVDYIDEGRLVLEFSLLSYAFGKFPTVVWTWWIMFLSTFSVPYFLFQHWATGYSKSSHPLIRSLFHGFLFMIFQIGVLGFGPTYVVLAYTLPPASRFIIIFEQIRFVMKAHSFVRENVPRVLNSAKEKSSTVPIPTVNQYLYFLFAPTLIYRDSYPRNPTVRWGYVAMKFAQVFGCFFYVYYIFERLCAPLFRNIKQEPFSARVLVLCVFNSILPGVLILFLTFFAFLHCWLNAFAEMLRFGDRMFYKDWWNSTSYSNYYRTWNVVVHDWLYYYAYKDFLWFFSKRFKSAAMLAVFAVSAVVHEYALAVCLSFFYPVLFVLFMFFGMAFNFIVNDSRKKPIWNVLMWTSLFLGNGVLLCFYSQEWYARQ 6vv5-a1-m1-cB_6vv5-a1-m1-cC Cryo-EM structure of porcine epidemic diarrhea virus (PEDV) spike protein S5RJN4 S5RJN4 3.5 ELECTRON MICROSCOPY 390 1.0 28295 (Porcine epidemic diarrhea virus) 28295 (Porcine epidemic diarrhea virus) 1097 1097 6vv5-a1-m1-cA_6vv5-a1-m1-cB 6vv5-a1-m1-cA_6vv5-a1-m1-cC NFRRFFSKFNVQAPAVVVLGGYLPIVHGIFVSGFEIGISQPSGYQLYLHKATTARLRICQFPSNCLFNKAIPAHVVGITWDNDRVTVFSDKIYYFYFKNDWSRVATAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYQFFSFNQTIDGVCNGAAVQRAPEALRFNINDISVILASIVLHTALGTNFSFVCSNSSNPHLATPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYTISSREQPISFVTLPSFNDHSFVNITVSASFGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPESGVKFTSLYFQFTKGELITGTPKPFEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISDEALQLATISSFNGDGYNFTNVLGVSVVQKRSFIEDLLFNKVVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADAQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHEEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDE NFRRFFSKFNVQAPAVVVLGGYLPIVHGIFVSGFEIGISQPSGYQLYLHKATTARLRICQFPSNCLFNKAIPAHVVGITWDNDRVTVFSDKIYYFYFKNDWSRVATAMQYVYEPTYYMLNVTSAGEDGISYQPCTANCIGYAANVFATEPNGHIPEGFSFNNWFLLSNDSTLVHGKVVSNQPLLVNCLLAIPKIYQFFSFNQTIDGVCNGAAVQRAPEALRFNINDISVILASIVLHTALGTNFSFVCSNSSNPHLATPYYCFLKVDTYNSTVYKFLAVLPPTVREIVITKYGDVYVNGFGYLHLGLLDAVTINFTGFWTIASTNFVDALIEVQGTAIQRILYCDDPVSQLKCSQVAFDLDDGFYTISSREQPISFVTLPSFNDHSFVNITVSASFGANLIASDTTINGFSSFCVDTRQFTISLFYNVTNVSKSQDSNCPFTLQSVNDYLSFSKFCVSTSLLASACTIDLFGYPESGVKFTSLYFQFTKGELITGTPKPFEGVTDVSFMTLDVCTKYTIYGFKGEGIITLTNSSFLAGVYYTSDSGQLLAFKNVTSGAVYSVTPCSFSEQAAYVDDDIVGVISSLSSSTFNSTRELPGFFYHSNDGSNCTEPVLVYSNIGVCKSGSIGYVPSQSGQVKIAPTVTGNISIPTNFSMSIRTEYLQLYNTPVSVDCATYVCNGNSRCKQLLTQYTAACKTIESALQLSARLESVEVNSMLTISDEALQLATISSFNGDGYNFTNVLGVSVVQKRSFIEDLLFNKVVDEDYKRCSNGRSVADLVCAQYYSGVMVLPGVVDAEKLHMYSASLIGGMVLGGFTSAAALPFSYAVQARLNYLALQTDVLQRNQQLLAESFNSAIGNITSAFESVKEAISQTSKGLNTVAHALTKVQEVVNSQGAALTQLTVQLQHNFQAISSSIDDIYSRLDILSADAQVDRLITGRLSALNAFVAQTLTKYTEVQASRKLAQQKVNECVKSQSQRYGFCGGDGEHIFSLVQAAPQGLLFLHTVLVPSDFVDVIAIAGLCVNDEIALTLREPGLVLFTHEEYFVSSRRMFEPRKPTVSDFVQIESCVVTYVNLTRDQLPDVIPDYIDVNKTLDE 6vva-a1-m1-cA_6vva-a1-m1-cB N-Acetylmannosamine-6-phosphate 2-epimerase from Staphylococcus aureus (strain MRSA USA300) Q2G157 Q2G157 1.84 X-RAY DIFFRACTION 22 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 222 222 MLPHGLIVSCQALPDEPLHSSFIMSKMALAAYEGGAVGIRANTKEDILAIKETVDLPVIGIVKRDYDHSDVFITATSKEVDELIESQCEVIALDATLQQRPKETLDELVSYIRTHAPNVEIMADIATVEEAKNAARLGFDYIGTTLHGYTSYTQGQLLYQNDFQFLKDVLQSVDAKVIAEGNVITPDMYKRVMDLGVHCSVVGGAITRPKEITKRFVQIMED MLPHGLIVSCQALPDEPLHSSFIMSKMALAAYEGGAVGIRANTKEDILAIKETVDLPVIGIVKRDYDHSDVFITATSKEVDELIESQCEVIALDATLQQRPKETLDELVSYIRTHAPNVEIMADIATVEEAKNAARLGFDYIGTTLHGYTSYTQGQLLYQNDFQFLKDVLQSVDAKVIAEGNVITPDMYKRVMDLGVHCSVVGGAITRPKEITKRFVQIMED 6vvm-a1-m1-cA_6vvm-a1-m1-cB R7 fused 4-OT wild type asymmetric trimer 1.83 X-RAY DIFFRACTION 106 1.0 758796 (Burkholderia sp. RPE67) 758796 (Burkholderia sp. RPE67) 123 123 PTLEVYLPQGHSDERKASLIDGLTRATVDAIGAPAESVRILLTELPVSNIGLGGKPTPAALPVIIAILIAGRTEAQKEALIAHLSETSASVLDVSLQSTRVMIKDIPNTDFGLGGKTARALGR PTLEVYLPQGHSDERKASLIDGLTRATVDAIGAPAESVRILLTELPVSNIGLGGKPTPAALPVIIAILIAGRTEAQKEALIAHLSETSASVLDVSLQSTRVMIKDIPNTDFGLGGKTARALGR 6vvm-a1-m1-cA_6vvm-a1-m1-cC R7 fused 4-OT wild type asymmetric trimer 1.83 X-RAY DIFFRACTION 109 1.0 758796 (Burkholderia sp. RPE67) 758796 (Burkholderia sp. RPE67) 123 123 PTLEVYLPQGHSDERKASLIDGLTRATVDAIGAPAESVRILLTELPVSNIGLGGKPTPAALPVIIAILIAGRTEAQKEALIAHLSETSASVLDVSLQSTRVMIKDIPNTDFGLGGKTARALGR PTLEVYLPQGHSDERKASLIDGLTRATVDAIGAPAESVRILLTELPVSNIGLGGKPTPAALPVIIAILIAGRTEAQKEALIAHLSETSASVLDVSLQSTRVMIKDIPNTDFGLGGKTARALGR 6vvm-a1-m1-cB_6vvm-a1-m1-cC R7 fused 4-OT wild type asymmetric trimer 1.83 X-RAY DIFFRACTION 106 1.0 758796 (Burkholderia sp. RPE67) 758796 (Burkholderia sp. RPE67) 123 123 PTLEVYLPQGHSDERKASLIDGLTRATVDAIGAPAESVRILLTELPVSNIGLGGKPTPAALPVIIAILIAGRTEAQKEALIAHLSETSASVLDVSLQSTRVMIKDIPNTDFGLGGKTARALGR PTLEVYLPQGHSDERKASLIDGLTRATVDAIGAPAESVRILLTELPVSNIGLGGKPTPAALPVIIAILIAGRTEAQKEALIAHLSETSASVLDVSLQSTRVMIKDIPNTDFGLGGKTARALGR 6vvn-a1-m1-cA_6vvn-a1-m1-cB F6 fused 4-OT wild type asymmetric trimer 1.39 X-RAY DIFFRACTION 105 1.0 1777142 (Caballeronia arationis) 1777142 (Caballeronia arationis) 123 123 PTLEVYLPQGHAVERKASLIQGLTQATVDAIGAPAESVRILLSELPATNIGLGGTLTPSALPVIIAILIAGRTDAQKKALIAQLSETIAAVLDAPLQSTRVMIKDIPNTDFGIGGQTARALGR PTLEVYLPQGHAVERKASLIQGLTQATVDAIGAPAESVRILLSELPATNIGLGGTLTPSALPVIIAILIAGRTDAQKKALIAQLSETIAAVLDAPLQSTRVMIKDIPNTDFGIGGQTARALGR 6vvn-a1-m1-cA_6vvn-a1-m1-cC F6 fused 4-OT wild type asymmetric trimer 1.39 X-RAY DIFFRACTION 101 1.0 1777142 (Caballeronia arationis) 1777142 (Caballeronia arationis) 123 123 PTLEVYLPQGHAVERKASLIQGLTQATVDAIGAPAESVRILLSELPATNIGLGGTLTPSALPVIIAILIAGRTDAQKKALIAQLSETIAAVLDAPLQSTRVMIKDIPNTDFGIGGQTARALGR PTLEVYLPQGHAVERKASLIQGLTQATVDAIGAPAESVRILLSELPATNIGLGGTLTPSALPVIIAILIAGRTDAQKKALIAQLSETIAAVLDAPLQSTRVMIKDIPNTDFGIGGQTARALGR 6vvn-a1-m1-cB_6vvn-a1-m1-cC F6 fused 4-OT wild type asymmetric trimer 1.39 X-RAY DIFFRACTION 104 1.0 1777142 (Caballeronia arationis) 1777142 (Caballeronia arationis) 123 123 PTLEVYLPQGHAVERKASLIQGLTQATVDAIGAPAESVRILLSELPATNIGLGGTLTPSALPVIIAILIAGRTDAQKKALIAQLSETIAAVLDAPLQSTRVMIKDIPNTDFGIGGQTARALGR PTLEVYLPQGHAVERKASLIQGLTQATVDAIGAPAESVRILLSELPATNIGLGGTLTPSALPVIIAILIAGRTDAQKKALIAQLSETIAAVLDAPLQSTRVMIKDIPNTDFGIGGQTARALGR 6vvr-a1-m1-cB_6vvr-a1-m1-cC Q0 fused 4-OT wild type symmetric trimer A0A157L8Q0 A0A157L8Q0 1.8 X-RAY DIFFRACTION 99 1.0 123899 (Bordetella trematum) 123899 (Bordetella trematum) 123 123 6vvr-a1-m1-cA_6vvr-a1-m1-cB 6vvr-a1-m1-cA_6vvr-a1-m1-cC PLLNVHIMQGHTPAAKTALLKALSDAVVQSIGAPLASVRAILQEYAAADVIVAGEVGAAMALVNVDLIAGRTVELKAALILALNQAVSASLGMDGKDVRVVLRDIPKTDMGVANGLSAMAAGR PLLNVHIMQGHTPAAKTALLKALSDAVVQSIGAPLASVRAILQEYAAADVIVAGEVGAAMALVNVDLIAGRTVELKAALILALNQAVSASLGMDGKDVRVVLRDIPKTDMGVANGLSAMAAGR 6vw9-a1-m1-cA_6vw9-a1-m2-cA C-terminal regulatory domain of the chloride transporter KCC-1 from C. elegans, proteolyzed during crystallization S6FCX2 S6FCX2 1.8 X-RAY DIFFRACTION 109 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 231 231 6vwa-a1-m1-cA_6vwa-a1-m2-cA SNWRPQLLLLLSMQWSKEIIDVRYLNLLNLASQLKAGKGLTVVTAFLQGDPTSPDDKKKGEQVKARMDFDMNQVRLRGFAKTLVHSEDQVRGSMSTLVQSVGLGGLKPNTMLISWPVHEREETEYNTFIEKVHAASINDMAIVVAKGIIDFPSAVFRMSGMIDVYWIVHDGGLCLLMGYLLKQHKVWRGCKLRVIGIAQESDNNVKMQEDLQKYVYQLRIDAKIMIVELAD SNWRPQLLLLLSMQWSKEIIDVRYLNLLNLASQLKAGKGLTVVTAFLQGDPTSPDDKKKGEQVKARMDFDMNQVRLRGFAKTLVHSEDQVRGSMSTLVQSVGLGGLKPNTMLISWPVHEREETEYNTFIEKVHAASINDMAIVVAKGIIDFPSAVFRMSGMIDVYWIVHDGGLCLLMGYLLKQHKVWRGCKLRVIGIAQESDNNVKMQEDLQKYVYQLRIDAKIMIVELAD 6vxk-a1-m1-cA_6vxk-a1-m1-cC Cryo-EM Structure of the full-length A39R/PlexinC1 complex Q8JL80 Q8JL80 3.1 ELECTRON MICROSCOPY 36 1.0 265874 (Ectromelia virus Moscow) 265874 (Ectromelia virus Moscow) 380 380 ELEIEWHKFETSEEIISTYLIDDVLYTGVNGAVYTFSNNELNKTGLTNNNNYITTSIKVEDTLVCGTNNGNPKCWKIDGSEDPKYRGRGYAPYQNSKVTIISHNECVLSDINISKEGIKRWRRFDGPCGYDLYTADNVIPKDGVRGAFVDKDGTYDKVYILFTDTIDTKRIVKIPYIAQMCLNDEGGPSSLSSHRWSTFLKVELECDIDGRSYRQIIHSKAIKTDNDTILYVFFDSPYSKSALCTYSMNAIKHSFSTSKLGGYTKQLPSPAPGICLPAGKVVPHTTFDIIEQYNELDDIIKPLSQPIFEGPSGVKWFDIKEKENEHREYRIYFIKENTIYSFDTKSKQTRSAQVDARLFSVMVTSKPLFIADIGIGVGIP ELEIEWHKFETSEEIISTYLIDDVLYTGVNGAVYTFSNNELNKTGLTNNNNYITTSIKVEDTLVCGTNNGNPKCWKIDGSEDPKYRGRGYAPYQNSKVTIISHNECVLSDINISKEGIKRWRRFDGPCGYDLYTADNVIPKDGVRGAFVDKDGTYDKVYILFTDTIDTKRIVKIPYIAQMCLNDEGGPSSLSSHRWSTFLKVELECDIDGRSYRQIIHSKAIKTDNDTILYVFFDSPYSKSALCTYSMNAIKHSFSTSKLGGYTKQLPSPAPGICLPAGKVVPHTTFDIIEQYNELDDIIKPLSQPIFEGPSGVKWFDIKEKENEHREYRIYFIKENTIYSFDTKSKQTRSAQVDARLFSVMVTSKPLFIADIGIGVGIP 6vy2-a1-m1-cE_6vy2-a1-m1-cC Cryo-EM structure of M1214_N1 Fab in complex with CH505 TF chimeric SOSIP.664 Env trimer A0A0A7I3C6 A0A0A7I3C6 4.86 ELECTRON MICROSCOPY 23 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 458 458 6uda-a1-m1-cA_6uda-a1-m1-cE 6uda-a1-m1-cI_6uda-a1-m1-cA 6uda-a1-m1-cI_6uda-a1-m1-cE 6vy2-a1-m1-cA_6vy2-a1-m1-cC 6vy2-a1-m1-cE_6vy2-a1-m1-cA ENLWVTVYYGVPVWKEAKTTLFCASDAKAYEKKVHNVWATHACVPTDPNPQEMVLKNVTENFNMWKNDMVDQMHEDVISLWDQSLKPCVKLTPLCVTLNCTNATASNSSIIEGMKNCSFNITTELRDKREKKNALFYKLDIVQLDGNSSQYRLINCNTSVITQACPKVSFDPIPIHYCAPAGYAILKCNNKTFTGTGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEGEIIIRSENITNNVKTIIVHLNESVKIECTRPNNKTRTSIRIGPGQWFYATGQVIGDIREAYCNINESKWNETLQRVSKKLKEYFPHKNITFQPSSGGDLEITTHSFNCGGEFFYCNTSSLFNRTYMANSTDMANSTETNSTRTITIHCRIKQIINMWQEVGRAMYAPPIAGNITCISNITGLLLTRDGGKNNTETFRPGGGNMKDNWRSELYKYKVVKIEPLGVAPTRCK ENLWVTVYYGVPVWKEAKTTLFCASDAKAYEKKVHNVWATHACVPTDPNPQEMVLKNVTENFNMWKNDMVDQMHEDVISLWDQSLKPCVKLTPLCVTLNCTNATASNSSIIEGMKNCSFNITTELRDKREKKNALFYKLDIVQLDGNSSQYRLINCNTSVITQACPKVSFDPIPIHYCAPAGYAILKCNNKTFTGTGPCNNVSTVQCTHGIKPVVSTQLLLNGSLAEGEIIIRSENITNNVKTIIVHLNESVKIECTRPNNKTRTSIRIGPGQWFYATGQVIGDIREAYCNINESKWNETLQRVSKKLKEYFPHKNITFQPSSGGDLEITTHSFNCGGEFFYCNTSSLFNRTYMANSTDMANSTETNSTRTITIHCRIKQIINMWQEVGRAMYAPPIAGNITCISNITGLLLTRDGGKNNTETFRPGGGNMKDNWRSELYKYKVVKIEPLGVAPTRCK 6vy4-a1-m1-cA_6vy4-a1-m1-cB Crystal structure of Hendra receptor binding protein head domain in complex with human neutralizing antibody HENV-32 O89343 O89343 2 X-RAY DIFFRACTION 58 1.0 63330 () 63330 () 422 426 QICLQKTTSTILKPRLISYTLPINTREGVCITDPLLAVDNGFFAYSHLEKIGSCTRGIAKQRIIGVGEVLDRGDKVPSMFMTNVWTPPNPSTIHHCSSTYHEDFYYTLCAVSHVGDPILNSTSWTESLSLIRLAVRPKSDSGDYNQKYIAITKVERGKYDKVMPYGPSGIKQGDTLYFPAVGFLPRTEFQYNDSNCPIIHCKYSKAENCRLSMGVNSKSHYILRSGLLKYNLSLGGDIILQFIEIADNRLTIGSPSKIYNSLGQPVFYQASYSWDTMIKLGDVDTVDPLRVQWRNNSVISRPGQSQCPRFNVCPEVCWEGTYNDAFLIDRLNWVSAGVYLNSNQTAENPVFAVFKDNEILYQVPLAEDDTNAQKTITDCFLLENVIWCISLVEIYSVIRPKLFAVKIPAQCSESENLYFQGH QICLQKTTSTILKPRLISYTLPINTREGVCITDPLLAVDNGFFAYSHLEKIGSCTRGIAKQRIIGVGEVLDRGDKVPSMFMTNVWTPPNPSTIHHCSSTYHEDFYYTLCAVSHVGDPILNSTSWTESLSLIRLAVRPKSDSGDYNQKYIAITKVERGKYDKVMPYGPSGIKQGDTLYFPAVGFLPRTEFQYNDSNCPIIHCKYSKAENCRLSMGVNSKSHYILRSGLLKYNLSLGGDIILQFIEIADNRLTIGSPSKIYNSLGQPVFYQASYSWDTMIKLGDVDTVDPLRVQWRNNSVISRPGQSQCPRFNVCPEVCWEGTYNDAFLIDRLNWVSAGVYLNSNQTAENPVFAVFKDNEILYQVPLAEDDTNAQKTITDCFLLENVIWCISLVEIYDTGDSVIRPKLFAVKIPAQCSESENLYFQGH 6vy4-a1-m1-cC_6vy4-a1-m1-cH Crystal structure of Hendra receptor binding protein head domain in complex with human neutralizing antibody HENV-32 2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 207 211 QVQLVQSGAEVKKPGSSVKVSCKVSGGIFNRETINWVRQAPGQGLEWMGRITPIVDVPNYPRKFRGRVTITADKSTSTVYMELSGLRFEDTAIYFCARFRGHNYFDPWGQGTLVTVSSASFKGPSVFPLAPSALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKV QVQLVQSGAEVKKPGSSVKVSCKVSGGIFNRETINWVRQAPGQGLEWMGRITPIVDVPNYPRKFRGRVTITADKSTSTVYMELSGLRFEDTAIYFCARFRGHNYFDPWGQGTLVTVSSASFKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVE 6vyb-a1-m1-cC_6vyb-a1-m1-cA SARS-CoV-2 spike ectodomain structure (open state) P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 317 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 960 966 6vyb-a1-m1-cB_6vyb-a1-m1-cA 6x2a-a1-m1-cB_6x2a-a1-m1-cA 6x2a-a1-m1-cC_6x2a-a1-m1-cA 6x2b-a1-m1-cB_6x2b-a1-m1-cA 6x2b-a1-m1-cC_6x2b-a1-m1-cA 6xcm-a1-m1-cA_6xcm-a1-m1-cB 6xcm-a1-m1-cA_6xcm-a1-m1-cC 7k8z-a1-m1-cA_7k8z-a1-m1-cC 7k8z-a1-m1-cB_7k8z-a1-m1-cA 7kdh-a1-m1-cB_7kdh-a1-m1-cA 7kdh-a1-m1-cC_7kdh-a1-m1-cA 7kdj-a1-m1-cB_7kdj-a1-m1-cA 7kdj-a1-m1-cC_7kdj-a1-m1-cA 7kdl-a1-m1-cB_7kdl-a1-m1-cA 7kdl-a1-m1-cC_7kdl-a1-m1-cA 7ke9-a1-m1-cB_7ke9-a1-m1-cA 7ke9-a1-m1-cC_7ke9-a1-m1-cA 7kea-a1-m1-cB_7kea-a1-m1-cA 7kea-a1-m1-cC_7kea-a1-m1-cA 7keb-a1-m1-cB_7keb-a1-m1-cA 7keb-a1-m1-cC_7keb-a1-m1-cA 7kec-a1-m1-cB_7kec-a1-m1-cA 7kec-a1-m1-cC_7kec-a1-m1-cA 7kj2-a1-m1-cA_7kj2-a1-m1-cB 7kj2-a1-m1-cC_7kj2-a1-m1-cA 7kj5-a1-m1-cA_7kj5-a1-m1-cB 7kj5-a1-m1-cC_7kj5-a1-m1-cA 7p78-a1-m1-cA_7p78-a1-m1-cC 7p78-a1-m1-cA_7p78-a1-m1-cE 7p79-a1-m1-cA_7p79-a1-m1-cC 7p79-a1-m1-cA_7p79-a1-m1-cE 8gb0-a1-m1-cB_8gb0-a1-m1-cA 8gb0-a1-m1-cC_8gb0-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRLFRKSNLKPFERDISTFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6vyg-a1-m1-cB_6vyg-a1-m1-cD Cryo-EM structure of Plasmodium vivax hexokinase (Closed state) A5K274 A5K274 3.5 ELECTRON MICROSCOPY 42 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 433 433 6vyf-a1-m1-cA_6vyf-a1-m1-cC 6vyf-a1-m1-cB_6vyf-a1-m1-cD 6vyg-a1-m1-cA_6vyg-a1-m1-cC TIKCDIPINEELQARINKHVNQLRITYSTLEEFVDNFVYELKKGLEAHRRHPNLWIPHECSFKMLDSCIADIPTGQEKGTYYAIDFGGTNFRAVRASLDGNGKIKRDQETYSLHATASQLFDHFAERIKYIMGEVGFTFSFPCTSPSINCSILIDWTKGFETGRATNDPVEGRDVCKLMNDAFCCVVNDAVGTLMSCAYQKGKTTPPCYIGIILGTGSNGCYYEPEWKKYKYSGKIINIELGNFDKDLPLSPIDLVMDWHSANRSRQLFEKMISGAYLGEIVRRFMVNVLQSASSEKMWKSDSFNSELGSVVLNDTSPNFEESRKVAKDAWDMDFTDEQIYALRKICESVYNRSAALAAAAIAAIAKRIKIIEHSKFSCGVDGSLFVKNAWYCKRLQEHLKVILADKAENLIIIPADDGSGKGAAITAAVVSQ TIKCDIPINEELQARINKHVNQLRITYSTLEEFVDNFVYELKKGLEAHRRHPNLWIPHECSFKMLDSCIADIPTGQEKGTYYAIDFGGTNFRAVRASLDGNGKIKRDQETYSLHATASQLFDHFAERIKYIMGEVGFTFSFPCTSPSINCSILIDWTKGFETGRATNDPVEGRDVCKLMNDAFCCVVNDAVGTLMSCAYQKGKTTPPCYIGIILGTGSNGCYYEPEWKKYKYSGKIINIELGNFDKDLPLSPIDLVMDWHSANRSRQLFEKMISGAYLGEIVRRFMVNVLQSASSEKMWKSDSFNSELGSVVLNDTSPNFEESRKVAKDAWDMDFTDEQIYALRKICESVYNRSAALAAAAIAAIAKRIKIIEHSKFSCGVDGSLFVKNAWYCKRLQEHLKVILADKAENLIIIPADDGSGKGAAITAAVVSQ 6vyg-a1-m1-cC_6vyg-a1-m1-cD Cryo-EM structure of Plasmodium vivax hexokinase (Closed state) A5K274 A5K274 3.5 ELECTRON MICROSCOPY 31 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 433 433 6vyf-a1-m1-cA_6vyf-a1-m1-cB 6vyf-a1-m1-cC_6vyf-a1-m1-cD 6vyg-a1-m1-cA_6vyg-a1-m1-cB TIKCDIPINEELQARINKHVNQLRITYSTLEEFVDNFVYELKKGLEAHRRHPNLWIPHECSFKMLDSCIADIPTGQEKGTYYAIDFGGTNFRAVRASLDGNGKIKRDQETYSLHATASQLFDHFAERIKYIMGEVGFTFSFPCTSPSINCSILIDWTKGFETGRATNDPVEGRDVCKLMNDAFCCVVNDAVGTLMSCAYQKGKTTPPCYIGIILGTGSNGCYYEPEWKKYKYSGKIINIELGNFDKDLPLSPIDLVMDWHSANRSRQLFEKMISGAYLGEIVRRFMVNVLQSASSEKMWKSDSFNSELGSVVLNDTSPNFEESRKVAKDAWDMDFTDEQIYALRKICESVYNRSAALAAAAIAAIAKRIKIIEHSKFSCGVDGSLFVKNAWYCKRLQEHLKVILADKAENLIIIPADDGSGKGAAITAAVVSQ TIKCDIPINEELQARINKHVNQLRITYSTLEEFVDNFVYELKKGLEAHRRHPNLWIPHECSFKMLDSCIADIPTGQEKGTYYAIDFGGTNFRAVRASLDGNGKIKRDQETYSLHATASQLFDHFAERIKYIMGEVGFTFSFPCTSPSINCSILIDWTKGFETGRATNDPVEGRDVCKLMNDAFCCVVNDAVGTLMSCAYQKGKTTPPCYIGIILGTGSNGCYYEPEWKKYKYSGKIINIELGNFDKDLPLSPIDLVMDWHSANRSRQLFEKMISGAYLGEIVRRFMVNVLQSASSEKMWKSDSFNSELGSVVLNDTSPNFEESRKVAKDAWDMDFTDEQIYALRKICESVYNRSAALAAAAIAAIAKRIKIIEHSKFSCGVDGSLFVKNAWYCKRLQEHLKVILADKAENLIIIPADDGSGKGAAITAAVVSQ 6vyn-a3-m1-cD_6vyn-a3-m1-cF N-terminal domain of mouse surfactant protein B with bound lipid, wild type P50405 P50405 2.2 X-RAY DIFFRACTION 64 1.0 10090 (Mus musculus) 10090 (Mus musculus) 78 79 6vyn-a1-m1-cA_6vyn-a1-m1-cE 6vyn-a2-m1-cB_6vyn-a2-m1-cC 6vyn-a4-m1-cG_6vyn-a4-m1-cH 6vzd-a1-m1-cA_6vzd-a1-m1-cE 6vzd-a2-m1-cB_6vzd-a2-m1-cC 6w1b-a1-m1-cA_6w1b-a1-m1-cE 6w1b-a2-m1-cB_6w1b-a2-m1-cC 6w1b-a3-m1-cF_6w1b-a3-m1-cD 6w1b-a4-m1-cG_6w1b-a4-m1-cH DLCQECEDIVHLLTKMTKEDAFQEAIRKFLEQECDILPLKLLVPRCRQVLDVYLPLVIDYFQSQINPKAICNHVGLCP NDLCQECEDIVHLLTKMTKEDAFQEAIRKFLEQECDILPLKLLVPRCRQVLDVYLPLVIDYFQSQINPKAICNHVGLCP 6vz0-a1-m1-cA_6vz0-a1-m1-cB C-terminal domain of mouse surfactant protein B crystallized at high pH P50405 P50405 1.75 X-RAY DIFFRACTION 82 1.0 10090 (Mus musculus) 10090 (Mus musculus) 74 76 DTECHFCKSVINQAWNTSEQAMPQAMHQACLRFWLDRQKCEQFVEQHMPQLLALVPRSQDAHITCQALGVCEAP SDTECHFCKSVINQAWNTSEQAMPQAMHQACLRFWLDRQKCEQFVEQHMPQLLALVPRSQDAHITCQALGVCEAPA 6vz1-a1-m1-cA_6vz1-a1-m1-cB Cryo-EM structure of human diacylglycerol O-acyltransferase 1 complexed with acyl-CoA substrate O75907 O75907 3.2 ELECTRON MICROSCOPY 180 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 411 411 6vp0-a1-m1-cC_6vp0-a1-m1-cE 6vyi-a1-m1-cA_6vyi-a1-m1-cB WELRCHRLQDSLFSSDSGFSNYRGILNWCVVMLILSNARLFLENLIKYGILVDPIQVVSLFLKDPYSWPAPCLVIAANVFAVAAFQVEKRLAVGALTEQAGLLLHVANLATILCFPAAVVLLVESITPVGSLLALMAHTILFLKLFSYRDVNSWCRRARAKAASAAAPHTVSYPDNLTYRDLYYFLFAPTLCYELNFPRSPRIRKRFLLRRILEMLFFTQLQVGLIQQWMVPTIQNSMKPFKDMDYSRIIERLLKLAVPNHLIWLIFFYWLFHSCLNAVAELMQFGDREFYRDWWNSESVTYFWQNWNIPVHKWCIRHFYKPMLRRGSSKWMARTGVFLASAFFHEYLVSVPLRMFRLWAFTGMMAQIPLAWFVGRFFQGNYGNAAVWLSLIIGQPIAVLMYVHDYYVLNY WELRCHRLQDSLFSSDSGFSNYRGILNWCVVMLILSNARLFLENLIKYGILVDPIQVVSLFLKDPYSWPAPCLVIAANVFAVAAFQVEKRLAVGALTEQAGLLLHVANLATILCFPAAVVLLVESITPVGSLLALMAHTILFLKLFSYRDVNSWCRRARAKAASAAAPHTVSYPDNLTYRDLYYFLFAPTLCYELNFPRSPRIRKRFLLRRILEMLFFTQLQVGLIQQWMVPTIQNSMKPFKDMDYSRIIERLLKLAVPNHLIWLIFFYWLFHSCLNAVAELMQFGDREFYRDWWNSESVTYFWQNWNIPVHKWCIRHFYKPMLRRGSSKWMARTGVFLASAFFHEYLVSVPLRMFRLWAFTGMMAQIPLAWFVGRFFQGNYGNAAVWLSLIIGQPIAVLMYVHDYYVLNY 6vz8-a1-m1-cO_6vz8-a1-m1-cS Arabidopsis thaliana acetohydroxyacid synthase complex with valine bound Q93YZ7 Q93YZ7 3.45 ELECTRON MICROSCOPY 17 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 159 159 6u9h-a1-m1-cG_6u9h-a1-m1-cK 6u9h-a1-m1-cG_6u9h-a1-m1-cS 6u9h-a1-m1-cK_6u9h-a1-m1-cO 6u9h-a1-m1-cO_6u9h-a1-m1-cS 6vz8-a1-m1-cG_6vz8-a1-m1-cK 6vz8-a1-m1-cG_6vz8-a1-m1-cS 6vz8-a1-m1-cK_6vz8-a1-m1-cO LRSHTLSLLVNDIPGVLNIVTGVFARRGYNIQSLAVGHAETKGISRITTVIPATDESVSKLVQQLYKLVDVHEVHDLTHLPFSERELMLIKIAVNAAARRDVLDIASIFRAKAVDVSDHTITLQLTGDLDKMVALQRLLEPYGICEVARTGRVALARES LRSHTLSLLVNDIPGVLNIVTGVFARRGYNIQSLAVGHAETKGISRITTVIPATDESVSKLVQQLYKLVDVHEVHDLTHLPFSERELMLIKIAVNAAARRDVLDIASIFRAKAVDVSDHTITLQLTGDLDKMVALQRLLEPYGICEVARTGRVALARES 6vze-a1-m1-cB_6vze-a1-m1-cC C-terminal domain of mouse surfactant protein B crystallized at low pH P50405 P50405 1.9 X-RAY DIFFRACTION 33 0.986 10090 (Mus musculus) 10090 (Mus musculus) 73 74 6vze-a1-m1-cD_6vze-a1-m1-cA 6vze-a2-m1-cE_6vze-a2-m1-cG 6vze-a2-m1-cF_6vze-a2-m1-cH SDTECHFCKSVINQAWNTSEQAMPQAMHQACLRFWLDRQKCEQFVEQHMPQLLALVPRSQDAHITCQALGVCE DTECHFCKSVINQAWNTSEQAMPQAMHQACLRFWLDRQKCEQFVEQHMPQLLALVPRSQDAHITCQALGVCEAP 6vze-a1-m1-cD_6vze-a1-m1-cB C-terminal domain of mouse surfactant protein B crystallized at low pH P50405 P50405 1.9 X-RAY DIFFRACTION 105 1.0 10090 (Mus musculus) 10090 (Mus musculus) 72 73 6vze-a1-m1-cA_6vze-a1-m1-cC 6vze-a2-m1-cF_6vze-a2-m1-cE 6vze-a2-m1-cH_6vze-a2-m1-cG DTECHFCKSVINQAWNTSEQAMPQAMHQACLRFWLDRQKCEQFVEQHMPQLLALVPRSQDAHITCQALGVCE SDTECHFCKSVINQAWNTSEQAMPQAMHQACLRFWLDRQKCEQFVEQHMPQLLALVPRSQDAHITCQALGVCE 6vzf-a1-m1-cA_6vzf-a1-m2-cA Crystal Structure of Atg11 Coiled-Coil 3 Q12527 Q12527 2.03 X-RAY DIFFRACTION 83 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 86 86 NNHQIQELESNVDDLLHQLQLLKEENNRKSMQISEMGKKISDLEVEKTAYRETLTNLNQELARLTNEEQSHRTEIFTLNASFKKQL NNHQIQELESNVDDLLHQLQLLKEENNRKSMQISEMGKKISDLEVEKTAYRETLTNLNQELARLTNEEQSHRTEIFTLNASFKKQL 6vzx-a1-m1-cA_6vzx-a1-m1-cC Structure of a Covalently Captured Collagen Triple Helix using Lysine-Glutamate Pairs 1.37 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 17 17 3t4f-a1-m1-cA_3t4f-a1-m1-cC 3t4f-a2-m1-cD_3t4f-a2-m1-cF PGPGPGPKGEGPGPGPG PGPGPGPKGEGPGPGPG 6vzz-a1-m1-cA_6vzz-a1-m2-cA Crystal structure of glucokinase from Balamuthia mandrillaris in complex with glucose 2.65 X-RAY DIFFRACTION 132 1.0 66527 (Balamuthia mandrillaris) 66527 (Balamuthia mandrillaris) 374 374 ELSQEVTQTLKQWRVAAVSSAGLKYYVGVDIGGTNTRLALARAEDHDTFLQVLKVKADDTRKLIAFFDSVSDSIRDLLGVEASGACLAGAGRISPDGEVLDVTNFHGDATHRRLKRSELPSFLFPPTKTHFINDLEGTCYGVSSMNASDALDQCFKPLWGPASSDKVTLQPDHYLVLAVGTGLGIATLLSLRGGFQVMPMEFGHVAISPVGPANAAYAEETRLLEYISEKLYNKEHAIEYEDIVSGRGLVITYKWVLDEANVQDESLRSLDAGKIAKNATNSEACPYAHKAMMLHFKFLMRIAKNLCIGLQVRGMLLAGDNQVNNNLFLEQNLESLRAEFFDHPKKAWIEDIDLFTQTKPVNLNLHGALYVARG ELSQEVTQTLKQWRVAAVSSAGLKYYVGVDIGGTNTRLALARAEDHDTFLQVLKVKADDTRKLIAFFDSVSDSIRDLLGVEASGACLAGAGRISPDGEVLDVTNFHGDATHRRLKRSELPSFLFPPTKTHFINDLEGTCYGVSSMNASDALDQCFKPLWGPASSDKVTLQPDHYLVLAVGTGLGIATLLSLRGGFQVMPMEFGHVAISPVGPANAAYAEETRLLEYISEKLYNKEHAIEYEDIVSGRGLVITYKWVLDEANVQDESLRSLDAGKIAKNATNSEACPYAHKAMMLHFKFLMRIAKNLCIGLQVRGMLLAGDNQVNNNLFLEQNLESLRAEFFDHPKKAWIEDIDLFTQTKPVNLNLHGALYVARG 6w08-a1-m1-cA_6w08-a1-m1-cB Crystal Structure of Motility Associated Killing Factor E from Vibrio cholerae Q9KL63 Q9KL63 1.75 X-RAY DIFFRACTION 57 0.997 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 355 356 NQSASEQLQTDIPASISAMVLLNSACQGVVETYIDQGNAEHWYAQVEQNLNAVQKLVRQWRLSGNLYFSNDIMDSVLSIANTFKDSNVQILTLFKALETRFDTAQLQQLTSLILTLQNPIQSLTSNIKRYDEGLNAWARQVEDAHNTLQQTIAQIQQEEVSIQAEIIATNAQIDLMKQQIAAFKTAIANAQRKKGIFETIFGVVLAPFTLGGSLILAGFGVSSIVEAQSEISSLQSDIQSSLNTINHDQQTLSQDQQQIASLNALLLSVDQVNNDCAAISRSLDTLQTTVLSLYNETNNVVSNLTKAQDSQAVILEQVWYQSAYNEWQDILEVASTLNNAQPQITKAQIKENLYF NQSASEQLQTDIPASISAMVLLNSACQGVVETYIDQGNAEHWYAQVEQNLNAVQKLVRQWRLSGNLYFSNDIMDSVLSIANTFKDSNVQILTLFKALETRFDTAQLQQLTSLILTLQNPIQSLTSNIKRYDEGLNAWARQVEDAHNTLQQTIAQIQQEEVSIQAEIIATNAQIDLMKQQIAAFKTAIANAQSQRKKGIFETIFGVVLAPFTLGGSLILAGFGVSSIVEAQSEISSLQSDIQSSLNTINHDQQTLSQDQQQIASLNALLLSVDQVNNDCAAISRSLDTLQTTVLSLYNETNNVVSNLTKAQDSQAVILEQVWYQSAYNEWQDILEVASTLNNAQPQITKAQIKENLY 6w0p-a2-m1-cD_6w0p-a2-m1-cC Putative kojibiose phosphorylase from human microbiome 2.23 X-RAY DIFFRACTION 105 0.987 749906 (gut metagenome) 749906 (gut metagenome) 677 719 6w0p-a1-m1-cB_6w0p-a1-m1-cA IKIPKRYLETEPYRIVENNFHPDKSMVSESIFSLGNEYSGTRAFFDQLIGTYFNGIYEYALKDTPSAYLGIVKRTHFTINSVNFFKRILDLRSGLYQRTFRLLDMSDCENAYQLDSNILHWGSDCYWNRVKEFKIGNSIGLTVKTLTTNQTLTSVMRTNLKEDSYQLRYVTNIIDKNGNQKLSQQRDIALTKLKEASKFSFADLVKKNQKFFNHFYQKSDILIDGSDSDQQGIRYCLFQMIQAYHGFDPTNTIGAKGLTGEAYSGHAFWDNETYCLPFYLYSNQEAAKDLIMFRYNTLEEAKARAKELDSIGACFPVATRNGKEACNLWQHASTQFQPSTGVFYAIYHYMKIYNDHKFMQNYGIEMLVEISKFLLSRGQYNQDKTKFSFYGVMGPDEFKLMVNHNTYTNFMAKKCFQYLDKILADKTYKTDKILDKCGFTKKDLAKMKDASRKMVILYDKETLLFEQNDGFFDMPHVDIKTIKDEEMPIYSHWSYDRIYRTDIIKQPDVLMFMFLYMEEFSQKQLLANYNYYEPRTLHESSLSPSIHSIIASKIGLEKDANNFFGFATRLDLDDYNNNTCEGIHMTSIAAAWMNIVYGFGGLMIKNDILNLTPTSNKNWNYYQFKITFKNHLLTVKVDKDNVIITKKTKNILPINVYGKKYELIDKLEIKRAAENLY IKIPKRYLETEPYRIVENNFHPDKSMVSESIFSLGNEYSGTRAFFDETYSGKQLIGTYFNGIYEYALKDTPSAYLGIVKRTHFTINSVNFFKIRIIHDFKRILDLRSGLYQRTFTWLTNKIIISRLLDMSDCENAYQMISFESDIIKLELHLDSNILHWGSDCYWNEFKIGNSIGLTVKTLTTNQTLTSVMRTNLKEDSYQLNLTLEANKEKTITRYVTNIIDKNGNQKLSQQRDIALTKLKEASKFSFADLVKKNQKFFNHFYQKSDILIDGSDSDQQGIRYCLFQMIQAYHGFDPTNTIGAKGLTGEAYSGHAFWDNETYCLPFYLYSNQEAAKDLIMFRYNTLEEAKARAKELDSIGACFPVATRNGKEACNLWQHASTQFQPSTGVFYAIYHYMKIYNDHKFMQNYGIEMLVEISKFLLSRGQYNQDKTKFSFYGVMGPDEFKLMVNHNTYTNFMAKKCFQYLDKILADKTYKTDKILDKCGFTKKDLAKMKDASRKMVILYDKETLLFEQNDGFFDMPHVDIKTIKDEEMPIYSHWSYDRIYRTDIIKQPDVLMFMFLYMEEFSQKQLLANYNYYEPRTLHESSLSPSIHSIIASKIGLEKDANNFFGFATRLDLDDYNNNTCEGIHMTSIAAAWMNIVYGFGGLMIKNDILNLTPTSNKNWNYYQFKITFKNHLLTVKVDKDNVIITKKTKNILPINVYGKKYELIDKLEIKR 6w0t-a1-m1-cA_6w0t-a1-m1-cB Co-crystal structures of CHIKV nsP3 macrodomain with pyrimidone fragments Q8JUX6 Q8JUX6 1.95 X-RAY DIFFRACTION 11 1.0 371095 (Chikungunya virus strain Senegal 37997) 371095 (Chikungunya virus strain Senegal 37997) 159 159 APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT 6w0t-a1-m1-cA_6w0t-a1-m1-cC Co-crystal structures of CHIKV nsP3 macrodomain with pyrimidone fragments Q8JUX6 Q8JUX6 1.95 X-RAY DIFFRACTION 26 1.0 371095 (Chikungunya virus strain Senegal 37997) 371095 (Chikungunya virus strain Senegal 37997) 159 159 APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT 6w0t-a1-m1-cB_6w0t-a1-m1-cC Co-crystal structures of CHIKV nsP3 macrodomain with pyrimidone fragments Q8JUX6 Q8JUX6 1.95 X-RAY DIFFRACTION 17 1.0 371095 (Chikungunya virus strain Senegal 37997) 371095 (Chikungunya virus strain Senegal 37997) 159 159 APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT 6w0t-a1-m1-cD_6w0t-a1-m1-cC Co-crystal structures of CHIKV nsP3 macrodomain with pyrimidone fragments Q8JUX6 Q8JUX6 1.95 X-RAY DIFFRACTION 39 1.0 371095 (Chikungunya virus strain Senegal 37997) 371095 (Chikungunya virus strain Senegal 37997) 158 159 PSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT APSYRVKRMDIAKNDEECVVNAANPRGLPGDGVCKAVYKKWPESFKNSATPVGTAKTVMCGTYPVIHAVGPNFSNYSESEGDRELAAAYREVAKEVTRLGVNSVAIPLLSTGVYSGGKDRLTQSLHLFTAMDSTDADVVIYCRDKEWEKKISEAIQMRT 6w12-a2-m1-cA_6w12-a2-m2-cA Crystal Structure of the Carbohydrate Recognition Domain of the Human Macrophage Galactose C-Type Lectin Bound to the Tumor-Associated Tn Antigen Q8IUN9 Q8IUN9 2 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 SCPVNWVEHQDSCYWFSHSGMSWAEAEKYCQLKNAHLVVINSREEQNFVQKYLGSAYTWMGLSDPEGAWKWVDGTDYATGFQNWKPGQPDDWQGHGLGGGEDCAHFHPDGRWNDDVCQRPYHWVCEAGL SCPVNWVEHQDSCYWFSHSGMSWAEAEKYCQLKNAHLVVINSREEQNFVQKYLGSAYTWMGLSDPEGAWKWVDGTDYATGFQNWKPGQPDDWQGHGLGGGEDCAHFHPDGRWNDDVCQRPYHWVCEAGL 6w15-a1-m1-cA_6w15-a1-m2-cA Crystal structure of tRNA (guanine-N(1)-)-methyltransferase with bound SAH from Mycobacterium smegmatis A0QV40 A0QV40 2 X-RAY DIFFRACTION 225 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 202 202 6w14-a1-m1-cA_6w14-a1-m2-cA MVRIDVISIFPAYLDPIRQGIVSVEVHDLRNWTHDVHRSVDDSPYGGGPGMVMKAPVWGEALDEICSEETLLVVPTPAGRLFDQRTAQRWSTERHLVFACGRYEGIDQRVVDDAARRMRVEEVSIGDYVLNGGEAATLVMVEAVVRLLPDGLLEGPSYTRPPSWRGLDVPPVLLSGDHAKVAAWRHEQALQRTRERRPDLLD MVRIDVISIFPAYLDPIRQGIVSVEVHDLRNWTHDVHRSVDDSPYGGGPGMVMKAPVWGEALDEICSEETLLVVPTPAGRLFDQRTAQRWSTERHLVFACGRYEGIDQRVVDDAARRMRVEEVSIGDYVLNGGEAATLVMVEAVVRLLPDGLLEGPSYTRPPSWRGLDVPPVLLSGDHAKVAAWRHEQALQRTRERRPDLLD 6w1e-a1-m1-cA_6w1e-a1-m2-cA Crystal structure of Streptococcus thermophilus SHP pheromone receptor Rgg3 Q5M4D0 Q5M4D0 2.202 X-RAY DIFFRACTION 51 1.0 264199 (Streptococcus thermophilus LMG 18311) 264199 (Streptococcus thermophilus LMG 18311) 202 202 6w1f-a1-m1-cA_6w1f-a1-m1-cB 7ji0-a1-m1-cA_7ji0-a1-m1-cB NLVQYIRKQYSLQNINNIQSLLSTLDPFEKTMVKSILHTMDSSIIPSDDELLQLADYLFKVEKWGYYEIILLGNCVRTIDYNSVFLLTKEMLNNYIYSSLNKTNKRIVTQLAINCLILSIDMEEFTNCFYLIDEIKALLDNELNFYEQTVFLYATGYFEFKRWQSTSGIEKMKQAIQVLDILGEDNLKLHYTIHFDKLINNK NLVQYIRKQYSLQNINNIQSLLSTLDPFEKTMVKSILHTMDSSIIPSDDELLQLADYLFKVEKWGYYEIILLGNCVRTIDYNSVFLLTKEMLNNYIYSSLNKTNKRIVTQLAINCLILSIDMEEFTNCFYLIDEIKALLDNELNFYEQTVFLYATGYFEFKRWQSTSGIEKMKQAIQVLDILGEDNLKLHYTIHFDKLINNK 6w1i-a1-m1-cC_6w1i-a1-m1-cA Re-interpretation of ppGpp (G4P) electron density in the deposited crystal structure of Xanthine phosphoribosyltransferase (XPRT) (1Y0B). P42085 P42085 1.8 X-RAY DIFFRACTION 21 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 189 190 NAEALKRKIEEEGVVLSDQVLKVDSFLNHQIDPLLQRIGDEFASRFAKDGITKIVTIESSGIAPAVTGLKLGVPVVFARKHKSLTLTDNLLTASVYSFTKQTESQIAVSGTHLSDQDHVLIIDDFLANGQAAHGLVSIVKQAGASIAGIGIVIEKSFQPGRDELVKLGYRVESLARIQSLEEGKVSFVQ SNAEALKRKIEEEGVVLSDQVLKVDSFLNHQIDPLLQRIGDEFASRFAKDGITKIVTIESSGIAPAVTGLKLGVPVVFARKHKSLTLTDNLLTASVYSFTKQTESQIAVSGTHLSDQDHVLIIDDFLANGQAAHGLVSIVKQAGASIAGIGIVIEKSFQPGRDELVKLGYRVESLARIQSLEEGKVSFVQ 6w1i-a1-m1-cC_6w1i-a1-m1-cB Re-interpretation of ppGpp (G4P) electron density in the deposited crystal structure of Xanthine phosphoribosyltransferase (XPRT) (1Y0B). P42085 P42085 1.8 X-RAY DIFFRACTION 14 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 189 191 NAEALKRKIEEEGVVLSDQVLKVDSFLNHQIDPLLQRIGDEFASRFAKDGITKIVTIESSGIAPAVTGLKLGVPVVFARKHKSLTLTDNLLTASVYSFTKQTESQIAVSGTHLSDQDHVLIIDDFLANGQAAHGLVSIVKQAGASIAGIGIVIEKSFQPGRDELVKLGYRVESLARIQSLEEGKVSFVQ NAEALKRKIEEEGVVLSDQVLKVDSFLNHQIDPLLQRIGDEFASRFAKDGITKIVTIESSGIAPAVTGLKLGVPVVFARKHKSLTLTDNLLTASVYSFTKQTESQIAVSGTHLSDQDHVLIIDDFLANGQAAHGLVSIVKQAGASIAGIGIVIEKSFQPGRDELVKLGYRVESLARIQSLEEGKVSFVQEV 6w1i-a1-m1-cC_6w1i-a1-m1-cD Re-interpretation of ppGpp (G4P) electron density in the deposited crystal structure of Xanthine phosphoribosyltransferase (XPRT) (1Y0B). P42085 P42085 1.8 X-RAY DIFFRACTION 111 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 189 191 1y0b-a1-m1-cB_1y0b-a1-m1-cA 1y0b-a2-m1-cC_1y0b-a2-m1-cD 2fxv-a1-m1-cA_2fxv-a1-m1-cB 6w1i-a1-m1-cA_6w1i-a1-m1-cB NAEALKRKIEEEGVVLSDQVLKVDSFLNHQIDPLLQRIGDEFASRFAKDGITKIVTIESSGIAPAVTGLKLGVPVVFARKHKSLTLTDNLLTASVYSFTKQTESQIAVSGTHLSDQDHVLIIDDFLANGQAAHGLVSIVKQAGASIAGIGIVIEKSFQPGRDELVKLGYRVESLARIQSLEEGKVSFVQ SNAEALKRKIEEEGVVLSDQVLKVDSFLNHQIDPLLQRIGDEFASRFAKDGITKIVTIESSGIAPAVTGLKLGVPVVFARKHKSLTLTDNLLTASVYSFTKQTESQIAVSGTHLSDQDHVLIIDDFLANGQAAHGLVSIVKQAGASIAGIGIVIEKSFQPGRDELVKLGYRVESLARIQSLEEGKVSFVQE 6w1n-a1-m1-cF_6w1n-a1-m1-cH Pig Ryanodine Receptor (WT) in 5mM EGTA condition 4.0 ELECTRON MICROSCOPY 171 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3719 3719 6w1n-a1-m1-cB_6w1n-a1-m1-cD 6w1n-a1-m1-cB_6w1n-a1-m1-cH 6w1n-a1-m1-cD_6w1n-a1-m1-cF QFLRTDDEVVLQCNATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSGMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTTHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTLQVDASFMQTLWNMNPICSGCEEGYVTGGHVLRLFHGHMDECLTISPADSDDQRRLVYYEGGSVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALIEDQGLVVVDASKAHTKATSFCFRISKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALSLTRCQQEESQAARMIYSTAGLYNHFIKGLDSFSGKPRGSGAPAGTALPLEGVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYEILASLIRGNRANCALFSNNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGTTQYSKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVPRLVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLNGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLRKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIRVRIFRAEKSYAVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSELFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFRDIEVGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEAVPLEHPHYEVSRVDGTVDTPPCLRLTHRSLVEMLFLRLSLPVQFHQLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLTKVRAVTVTMGDSLKCSNCYMVWGGDFVDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLRVETRRAGERLGWAVQCQEPLTMMALHIPEENRCMDILELSERLDLQQFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSAPCFVAALPEAPARLSPSIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRDRYGILMKAFTMTAAETARRTREFRSPPQEQINMLLHFKPLPDEIRQDLLEFHQDLLTHCGIQLQSLQELVSHTVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALLLATIEEGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPKMSASFVPDHKASMVLFLDRVYGFLLHVLDVGFLPDMRAAALALNRYLCLAVLPLITKCAPLFAMVDSMLHTVYRLSRGRSLTKAQRDVIEECLMALCRYIRPSMLQHLLRRLVFDVPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPLLIRYVDNNRAHWLTEPNPSAEELFRMVGEIFIYWSKXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSLRWQMALYRGXXXXXXXXXXXXXXXXXXXXXMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLSFEEKEMEKQRLLYQQARLHNRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNADVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKXXXXXXEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGESEKMELFVSFCEDTIFEMQIAAQEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPVYYFLEESTGYMEPALRCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPEDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIYGRERIAEIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGSDYFDTTPHRFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS QFLRTDDEVVLQCNATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSGMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTTHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTLQVDASFMQTLWNMNPICSGCEEGYVTGGHVLRLFHGHMDECLTISPADSDDQRRLVYYEGGSVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALIEDQGLVVVDASKAHTKATSFCFRISKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALSLTRCQQEESQAARMIYSTAGLYNHFIKGLDSFSGKPRGSGAPAGTALPLEGVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYEILASLIRGNRANCALFSNNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGTTQYSKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVPRLVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLNGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLRKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIRVRIFRAEKSYAVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSELFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFRDIEVGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEAVPLEHPHYEVSRVDGTVDTPPCLRLTHRSLVEMLFLRLSLPVQFHQLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLTKVRAVTVTMGDSLKCSNCYMVWGGDFVDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLRVETRRAGERLGWAVQCQEPLTMMALHIPEENRCMDILELSERLDLQQFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSAPCFVAALPEAPARLSPSIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRDRYGILMKAFTMTAAETARRTREFRSPPQEQINMLLHFKPLPDEIRQDLLEFHQDLLTHCGIQLQSLQELVSHTVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALLLATIEEGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPKMSASFVPDHKASMVLFLDRVYGFLLHVLDVGFLPDMRAAALALNRYLCLAVLPLITKCAPLFAMVDSMLHTVYRLSRGRSLTKAQRDVIEECLMALCRYIRPSMLQHLLRRLVFDVPXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPLLIRYVDNNRAHWLTEPNPSAEELFRMVGEIFIYWSKXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXSLRWQMALYRGXXXXXXXXXXXXXXXXXXXXXMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLSFEEKEMEKQRLLYQQARLHNRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNADVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKXXXXXXEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGESEKMELFVSFCEDTIFEMQIAAQEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPVYYFLEESTGYMEPALRCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPEDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIYGRERIAEIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGSDYFDTTPHRFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 6w2u-a1-m9-cE_6w2u-a1-m9-cF Mayaro Virus glycoprotein E1 ectodomain and glycoportien E2 ectodomain asymmetric unit Q8QZ72 Q8QZ72 4.8 ELECTRON MICROSCOPY 14 1.0 374990 (Mayaro virus (strain Brazil)) 374990 (Mayaro virus (strain Brazil)) 340 340 6w1c-a1-m10-cE_6w1c-a1-m10-cF 6w1c-a1-m10-cE_6w1c-a1-m10-cG 6w1c-a1-m10-cF_6w1c-a1-m10-cG 6w1c-a1-m11-cE_6w1c-a1-m11-cF 6w1c-a1-m11-cE_6w1c-a1-m11-cG 6w1c-a1-m11-cF_6w1c-a1-m11-cG 6w1c-a1-m12-cE_6w1c-a1-m12-cF 6w1c-a1-m12-cE_6w1c-a1-m12-cG 6w1c-a1-m12-cF_6w1c-a1-m12-cG 6w1c-a1-m13-cE_6w1c-a1-m13-cF 6w1c-a1-m13-cE_6w1c-a1-m13-cG 6w1c-a1-m13-cF_6w1c-a1-m13-cG 6w1c-a1-m14-cE_6w1c-a1-m14-cF 6w1c-a1-m14-cE_6w1c-a1-m14-cG 6w1c-a1-m14-cF_6w1c-a1-m14-cG 6w1c-a1-m15-cE_6w1c-a1-m15-cF 6w1c-a1-m15-cE_6w1c-a1-m15-cG 6w1c-a1-m15-cF_6w1c-a1-m15-cG 6w1c-a1-m16-cE_6w1c-a1-m16-cF 6w1c-a1-m16-cE_6w1c-a1-m16-cG 6w1c-a1-m16-cF_6w1c-a1-m16-cG 6w1c-a1-m17-cE_6w1c-a1-m17-cF 6w1c-a1-m17-cE_6w1c-a1-m17-cG 6w1c-a1-m17-cF_6w1c-a1-m17-cG 6w1c-a1-m18-cE_6w1c-a1-m18-cF 6w1c-a1-m18-cE_6w1c-a1-m18-cG 6w1c-a1-m18-cF_6w1c-a1-m18-cG 6w1c-a1-m19-cE_6w1c-a1-m19-cF 6w1c-a1-m19-cE_6w1c-a1-m19-cG 6w1c-a1-m19-cF_6w1c-a1-m19-cG 6w1c-a1-m1-cE_6w1c-a1-m1-cF 6w1c-a1-m1-cE_6w1c-a1-m1-cG 6w1c-a1-m1-cF_6w1c-a1-m1-cG 6w1c-a1-m20-cE_6w1c-a1-m20-cF 6w1c-a1-m20-cE_6w1c-a1-m20-cG 6w1c-a1-m20-cF_6w1c-a1-m20-cG 6w1c-a1-m21-cE_6w1c-a1-m21-cF 6w1c-a1-m21-cE_6w1c-a1-m21-cG 6w1c-a1-m21-cF_6w1c-a1-m21-cG 6w1c-a1-m22-cE_6w1c-a1-m22-cF 6w1c-a1-m22-cE_6w1c-a1-m22-cG 6w1c-a1-m22-cF_6w1c-a1-m22-cG 6w1c-a1-m23-cE_6w1c-a1-m23-cF 6w1c-a1-m23-cE_6w1c-a1-m23-cG 6w1c-a1-m23-cF_6w1c-a1-m23-cG 6w1c-a1-m24-cE_6w1c-a1-m24-cF 6w1c-a1-m24-cE_6w1c-a1-m24-cG 6w1c-a1-m24-cF_6w1c-a1-m24-cG 6w1c-a1-m25-cE_6w1c-a1-m25-cF 6w1c-a1-m25-cE_6w1c-a1-m25-cG 6w1c-a1-m25-cF_6w1c-a1-m25-cG 6w1c-a1-m26-cE_6w1c-a1-m26-cF 6w1c-a1-m26-cE_6w1c-a1-m26-cG 6w1c-a1-m26-cF_6w1c-a1-m26-cG 6w1c-a1-m27-cE_6w1c-a1-m27-cF 6w1c-a1-m27-cE_6w1c-a1-m27-cG 6w1c-a1-m27-cF_6w1c-a1-m27-cG 6w1c-a1-m28-cE_6w1c-a1-m28-cF 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7ko8-a1-m53-cC_7ko8-a1-m53-cI 7ko8-a1-m53-cF_7ko8-a1-m53-cI 7ko8-a1-m54-cC_7ko8-a1-m54-cF 7ko8-a1-m54-cC_7ko8-a1-m54-cI 7ko8-a1-m54-cF_7ko8-a1-m54-cI 7ko8-a1-m54-cM_7ko8-a1-m9-cM 7ko8-a1-m55-cC_7ko8-a1-m55-cF 7ko8-a1-m55-cC_7ko8-a1-m55-cI 7ko8-a1-m55-cF_7ko8-a1-m55-cI 7ko8-a1-m55-cM_7ko8-a1-m56-cM 7ko8-a1-m55-cM_7ko8-a1-m8-cM 7ko8-a1-m56-cC_7ko8-a1-m56-cF 7ko8-a1-m56-cC_7ko8-a1-m56-cI 7ko8-a1-m56-cF_7ko8-a1-m56-cI 7ko8-a1-m56-cM_7ko8-a1-m8-cM 7ko8-a1-m57-cC_7ko8-a1-m57-cF 7ko8-a1-m57-cC_7ko8-a1-m57-cI 7ko8-a1-m57-cF_7ko8-a1-m57-cI 7ko8-a1-m57-cM_7ko8-a1-m7-cM 7ko8-a1-m58-cC_7ko8-a1-m58-cF 7ko8-a1-m58-cC_7ko8-a1-m58-cI 7ko8-a1-m58-cF_7ko8-a1-m58-cI 7ko8-a1-m59-cC_7ko8-a1-m59-cF 7ko8-a1-m59-cC_7ko8-a1-m59-cI 7ko8-a1-m59-cF_7ko8-a1-m59-cI 7ko8-a1-m5-cC_7ko8-a1-m5-cF 7ko8-a1-m5-cC_7ko8-a1-m5-cI 7ko8-a1-m5-cF_7ko8-a1-m5-cI 7ko8-a1-m5-cM_7ko8-a1-m6-cM 7ko8-a1-m60-cC_7ko8-a1-m60-cF 7ko8-a1-m60-cC_7ko8-a1-m60-cI 7ko8-a1-m60-cF_7ko8-a1-m60-cI 7ko8-a1-m6-cC_7ko8-a1-m6-cF 7ko8-a1-m6-cC_7ko8-a1-m6-cI 7ko8-a1-m6-cF_7ko8-a1-m6-cI 7ko8-a1-m7-cC_7ko8-a1-m7-cF 7ko8-a1-m7-cC_7ko8-a1-m7-cI 7ko8-a1-m7-cF_7ko8-a1-m7-cI 7ko8-a1-m8-cC_7ko8-a1-m8-cF 7ko8-a1-m8-cC_7ko8-a1-m8-cI 7ko8-a1-m8-cF_7ko8-a1-m8-cI 7ko8-a1-m9-cC_7ko8-a1-m9-cF 7ko8-a1-m9-cC_7ko8-a1-m9-cI 7ko8-a1-m9-cF_7ko8-a1-m9-cI 7lih-a1-m1-cD_7lih-a1-m1-cE 7lih-a1-m1-cD_7lih-a1-m1-cM 7lih-a1-m1-cE_7lih-a1-m1-cM STANHFNAYKLTRPYVAYCADCGMGHSCHSPAMIENIQADATDGTLKIQFASQIGLTKTDTHDHTKIRYAEGHDIAEAARSTLKVHSSSECTVTGTMGHFILAKCPPGERISVSFVDSKNEHRTCRIAYHHEQRLIGRERFTVRPHHGIELPCTTYQLTTAETSEEIDMHMPPDIPDRTILSQQSGNVKITVNGRTVRYSSSCGSQAVGTTTTDKTINSCTVDKCQAYVTSHTKWQFNSPFVPRRMQAERKGKVHIPFPLINTTCRVPLAPEALVRSGKREATLSLHPIHPTLLSYRTFGAERVFDEQWITAQTEVTIPVPVEGVEYQWGNHKPQRFVVA STANHFNAYKLTRPYVAYCADCGMGHSCHSPAMIENIQADATDGTLKIQFASQIGLTKTDTHDHTKIRYAEGHDIAEAARSTLKVHSSSECTVTGTMGHFILAKCPPGERISVSFVDSKNEHRTCRIAYHHEQRLIGRERFTVRPHHGIELPCTTYQLTTAETSEEIDMHMPPDIPDRTILSQQSGNVKITVNGRTVRYSSSCGSQAVGTTTTDKTINSCTVDKCQAYVTSHTKWQFNSPFVPRRMQAERKGKVHIPFPLINTTCRVPLAPEALVRSGKREATLSLHPIHPTLLSYRTFGAERVFDEQWITAQTEVTIPVPVEGVEYQWGNHKPQRFVVA 6w2y-a1-m1-cA_6w2y-a1-m1-cB CryoEM Structure of GABAB1b Homodimer Q9UBS5 Q9UBS5 3.2 ELECTRON MICROSCOPY 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 663 664 ERRAVYIGALFPMSGGWPGGQACQPAVEMALEDVNSRRDILPDYELKLIHHDSKCDPGQATKYLYELLYNDPIKIILMPGCSSVSTLVAEAARMWNLIVLSYGSSSPALSNRQRFPTFFRTHPSATLHNPTRVKLFEKWGWKKIATIQQTTEVFTSTLDDLEERVKEAGIEITFRQSFFSDPAVPVKNLKRQDARIIVGLFYETEARKVFCEVYKERLFGKKYVWFLIGWYADNWFKIYDPSINCTVDEMTEAVEGHITTEIVMLNPANTRSISNMTSQEFVEKLTKRLKRHPEETGGFQEAPLAYDAIWALALALNKTSRLEDFNYNNQTITDQIYRAMNSSSFEGVSGHVVFDASGSRMAWTLIEQLQGGSYKKIGYYDSTKDDLSWSKTDKWIGGSPPADQTLVIKTFRFLSQKLFISVSVLSSLGIVLAVVCLSFNIYNSHVRYIQNSQPNLNNLTAVGCSLALAAVFPLGLDGYHIGRNQFPFVCQARLWLLGLGFSLGYGSMFTKIWWVHTVFWKLYATVGLLVGMDVLTLAIWQIVDPLHRTIETFAKEEPDVSILPQLEHCSSRKMNTWLGIFYGYKGLLLLLGIFLAYETKSNDHRAVGMAIYNVAVLCLITAPVTMILSSQQDAAFAFASLAIVFSSYITLVVLFVPKMRRLI ERRAVYIGALFPMSGGWPGGQACQPAVEMALEDVNSRRDILPDYELKLIHHDSKCDPGQATKYLYELLYNDPIKIILMPGCSSVSTLVAEAARMWNLIVLSYGSSSPALSNRQRFPTFFRTHPSATLHNPTRVKLFEKWGWKKIATIQQTTEVFTSTLDDLEERVKEAGIEITFRQSFFSDPAVPVKNLKRQDARIIVGLFYETEARKVFCEVYKERLFGKKYVWFLIGWYADNWFKIYDPSINCTVDEMTEAVEGHITTEIVMLNPANTRSISNMTSQEFVEKLTKRLKRHPEETGGFQEAPLAYDAIWALALALNKTSRLEDFNYNNQTITDQIYRAMNSSSFEGVSGHVVFDASGSRMAWTLIEQLQGGSYKKIGYYDSTKDDLSWSKTDKWIGGSPPADQTLVIKTFRFLSQKLFISVSVLSSLGIVLAVVCLSFNIYNSHVRYIQNSQPNLNNLTAVGCSLALAAVFPLGLDGYHIGRNQFPFVCQARLWLLGLGFSLGYGSMFTKIWWVHTVFWKLYATVGLLVGMDVLTLAIWQIVDPLHRTIETFAKEEPDVSILPQLEHCSSRKMNTWLGIFYGYKGLLLLLGIFLAYETKSVNDHRAVGMAIYNVAVLCLITAPVTMILSSQQDAAFAFASLAIVFSSYITLVVLFVPKMRRLI 6w3z-a1-m1-cB_6w3z-a1-m1-cD Crystal Structure of Brugia malayi Deoxyhypusine synthase (DHPS) A0A0J9XTC4 A0A0J9XTC4 2.3 X-RAY DIFFRACTION 219 0.997 6279 (Brugia malayi) 6279 (Brugia malayi) 333 346 6w3z-a1-m1-cA_6w3z-a1-m1-cC STIIKGYDFNEGINYDALLDQYMSTGFQASHFAQAVQQINTMLTIREEQFEGDHTLPYPEGKQKRACTIFLGYTSNLVTSGVRENIRYLVEHDLVDCIVTSAGGVEEDLIKCLAPSYLGAFDLDGKTLRHNGLNRAGNIIIPNNNYCQFEDWLMPILDSCELEQKNNDFSWTPSKLIDRLGAEINDKRSICYWAHRNRIPVFSPALTDGSIGDMLYFHSFRNGGIKLDIVEDLRHINTMAVRSNRTGVILLGGGVMKHHINNANLMRNGSDYAVYVNTGQEFDGSDSGARPDEAVSWGKVRSDCRPVKIYADATLVFPLLVAKTFARHVQQKH EMSVLKKSSTMPADSTIIKGYDFNEGINYDALLDQYMSTGFQASHFAQAVQQINTMLTIREEQFEGDHTLPYPEGKQKRACTIFLGYTSNLVTSGVRENIRYLVEHDLVDCIVTSAGGVEEDLIKCLAPSYLGAFDLDGKTLRHNGLNRAGNIIIPNNNYCQFEDWLMPILDSCELEQKNNDFSWTPSKLIDRLGAEINDKRSICYWAHRNRIPVFSPALTDGSIGDMLYFHSFRNGGIKLDIVEDLRHINTMAVRSNRTGVILLGGGVMKHHINNANLMRNGSDYAVYVNTGQEFDGSDSGARPDEAVSWGKVRSDCRPVKIYADATLVFPLLVAKTFARHVQQK 6w3z-a1-m1-cD_6w3z-a1-m1-cA Crystal Structure of Brugia malayi Deoxyhypusine synthase (DHPS) A0A0J9XTC4 A0A0J9XTC4 2.3 X-RAY DIFFRACTION 194 0.986 6279 (Brugia malayi) 6279 (Brugia malayi) 346 350 6w3z-a1-m1-cB_6w3z-a1-m1-cC EMSVLKKSSTMPADSTIIKGYDFNEGINYDALLDQYMSTGFQASHFAQAVQQINTMLTIREEQFEGDHTLPYPEGKQKRACTIFLGYTSNLVTSGVRENIRYLVEHDLVDCIVTSAGGVEEDLIKCLAPSYLGAFDLDGKTLRHNGLNRAGNIIIPNNNYCQFEDWLMPILDSCELEQKNNDFSWTPSKLIDRLGAEINDKRSICYWAHRNRIPVFSPALTDGSIGDMLYFHSFRNGGIKLDIVEDLRHINTMAVRSNRTGVILLGGGVMKHHINNANLMRNGSDYAVYVNTGQEFDGSDSGARPDEAVSWGKVRSDCRPVKIYADATLVFPLLVAKTFARHVQQK NCKFDVHIAEMSVLKKSSTMPADSTIIKGYDFNEGINYDALLDQYMSTGFQASHFAQAVQQINTMLTIREEQFEGDHTLPYPEGKQKRACTIFLGYTSNLVTSGVRENIRYLVEHDLVDCIVTSAGGVEEDLIKCLAPSYLGAFDLDGKTLRHNGLNRAGNIIIPNNNYCQFEDWLMPILDSCELEQKNNDFSWTPSKLIDRLGAEINDKRSICYWAHRNRIPVFSPALTDGSIGDMLYFHGIKLDIVEDLRHINTMAVRSNRTGVILLGGGVMKHHINNANLMRNGSDYAVYVNTGQEFDGSDSGARPDEAVSWGKVRSDCRPVKIYADATLVFPLLVAKTFARHVQQK 6w3z-a1-m1-cD_6w3z-a1-m1-cC Crystal Structure of Brugia malayi Deoxyhypusine synthase (DHPS) A0A0J9XTC4 A0A0J9XTC4 2.3 X-RAY DIFFRACTION 47 1.0 6279 (Brugia malayi) 6279 (Brugia malayi) 346 352 6w3z-a1-m1-cB_6w3z-a1-m1-cA EMSVLKKSSTMPADSTIIKGYDFNEGINYDALLDQYMSTGFQASHFAQAVQQINTMLTIREEQFEGDHTLPYPEGKQKRACTIFLGYTSNLVTSGVRENIRYLVEHDLVDCIVTSAGGVEEDLIKCLAPSYLGAFDLDGKTLRHNGLNRAGNIIIPNNNYCQFEDWLMPILDSCELEQKNNDFSWTPSKLIDRLGAEINDKRSICYWAHRNRIPVFSPALTDGSIGDMLYFHSFRNGGIKLDIVEDLRHINTMAVRSNRTGVILLGGGVMKHHINNANLMRNGSDYAVYVNTGQEFDGSDSGARPDEAVSWGKVRSDCRPVKIYADATLVFPLLVAKTFARHVQQK DVHIAEMSVLKKSSTMPADSTIIKGYDFNEGINYDALLDQYMSTGFQASHFAQAVQQINTMLTIREEQFEGDHTLPYPEGKQKRACTIFLGYTSNLVTSGVRENIRYLVEHDLVDCIVTSAGGVEEDLIKCLAPSYLGAFDLDGKTLRHNGLNRAGNIIIPNNNYCQFEDWLMPILDSCELEQKNNDFSWTPSKLIDRLGAEINDKRSICYWAHRNRIPVFSPALTDGSIGDMLYFHSFRNGGIKLDIVEDLRHINTMAVRSNRTGVILLGGGVMKHHINNANLMRNGSDYAVYVNTGQEFDGSDSGARPDEAVSWGKVRSDCRPVKIYADATLVFPLLVAKTFARHVQQKH 6w40-a1-m1-cB_6w40-a1-m1-cA An enumerative algorithm for de novo design of proteins with diverse pocket structures 2.49 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 115 120 KHLRDMMEIVIKLFMTGDWDAFHEMADPDVKFQVDVGDKHIHRHGREEVVEELIRLLEHWRVRNIRIHDIKLIGDKLVVEGRWETSYGDKSHDEDVELIVIVVDGKIKKVRIIIR GDEEEKHLRDMMEIVIKLFMTGDWDAFHEMADPDVKFQVDVGDKHIHRHGREEVVEELIRLLEHWRVRNIRIHDIKLIGDKLVVEGRWETSYGDKSHDEDVELIVIVVDGKIKKVRIIIR 6w46-a1-m1-cA_6w46-a1-m1-cC Valine-Containing Collagen Peptide 1.25 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 19 PGPGPRGPGPGVGPGPGGP PGPGPRGPGPGVGPGPGGP 6w46-a1-m1-cB_6w46-a1-m1-cC Valine-Containing Collagen Peptide 1.25 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 19 6w46-a1-m1-cA_6w46-a1-m1-cB PGPGPRGPGPGVGPGPGGP PGPGPRGPGPGVGPGPGGP 6w47-a1-m1-cB_6w47-a1-m1-cC Peptoid-Containing Collagen Peptide 1.15 X-RAY DIFFRACTION 37 1.0 32630 (synthetic construct) 32630 (synthetic construct) 16 16 GPGPRGPGPGPGGPGP GPGPRGPGPGPGGPGP 6w47-a1-m1-cC_6w47-a1-m1-cA Peptoid-Containing Collagen Peptide 1.15 X-RAY DIFFRACTION 35 1.0 32630 (synthetic construct) 32630 (synthetic construct) 16 17 6w47-a1-m1-cB_6w47-a1-m1-cA GPGPRGPGPGPGGPGP PGPGPRGPGPGPGGPGP 6w4u-a1-m1-cA_6w4u-a1-m1-cB Crystal structure of Triosephosphate isomerase from Stenotrophomonas maltophilia K279a B2FNY1 B2FNY1 1.7 X-RAY DIFFRACTION 117 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 252 253 HMRRKIVAGNWKLHGSRQFANELLGQVAAGLPLEGVDVVILPPLPYLGELVEDFGETGLAFGAQDVSSNEKGAYTGEVCAAMLVEVGARYGLVGHSERRQYHHESSELVARKFAAAQHAGLVPVLCVGETLEQREAGQTEAVIASQLAPVLELVGAAGFAQAVVAYEPVWAIGTGRTATKEQAQQVHAFIRGEVARIDARIADSLPIVYGGSVKPDNAGELFAQPDVDGGLVGGASLVAADFLAIARAAAAN HHMRRKIVAGNWKLHGSRQFANELLGQVAAGLPLEGVDVVILPPLPYLGELVEDFGETGLAFGAQDVSSNEKGAYTGEVCAAMLVEVGARYGLVGHSERRQYHHESSELVARKFAAAQHAGLVPVLCVGETLEQREAGQTEAVIASQLAPVLELVGAAGFAQAVVAYEPVWAIGTGRTATKEQAQQVHAFIRGEVARIDARIADSLPIVYGGSVKPDNAGELFAQPDVDGGLVGGASLVAADFLAIARAAAAN 6w6a-a1-m1-cB_6w6a-a1-m1-cA Crystal structure of a pyridoxine 5'-phosphate synthease from Stenotrophomonas maltophilia K279a B2FT93 B2FT93 2.45 X-RAY DIFFRACTION 68 0.988 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 246 249 HHHHHMTQLSVNVNKIAVLRNSRGGAEPDVVRAAQACLDAGAHGITVHPRPDRRHITAEDVLALSTLTRARGVEFNIEGNPFAPPREGYPGLLPLCAQTRPAQATLVPDSDHGFDFERDAERLRPLVAELKAMGCRVSLFVDAGNPLLEQAAEVGADRVELYTGPYAEAHAAGDAAAMLELFATAARRAQAMGLGVNAGHDLSQDNLRDFLAHVPDVLEVSIGHALIGEALYDGLDATVRGYLALL HHMTQLSVNVNKIAVLRNSRGGAEPDVVRAAQACLDAGAHGITVHPRPDRRHITAEDVLALSTLTRARGVEFNIEGNPFAPPREGYPGLLPLCAQTRPAQATLVPDGDGQITSDHGFDFERDAERLRPLVAELKAMGCRVSLFVDAGNPLLEQAAEVGADRVELYTGPYAEAHAAGDAAAMLELFATAARRAQAMGLGVNAGHDLSQDNLRDFLAHVPDVLEVSIGHALIGEALYDGLDATVRGYLALL 6w6b-a1-m1-cA_6w6b-a1-m2-cA The X-ray crystal structure of the C-terminus domain of Staphylococcus aureus Fatty Acid Kinase A (FakA, residues 328-548) protein to 1.40 Angstrom resolution Q2FZ58 Q2FZ58 1.4 X-RAY DIFFRACTION 58 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 233 233 HHSSGLVPRGSHMETVETAIITISMGEGISEIFKSMGATHIISGGQTMNPSTEDIVKVIEQSKCKRAIILPNNKNILMASEQAASIVDAEAVVIPTKSIPQGISALFQYDVDATLEENKAQMADSVNNVKSGSLTYAVRDTKIDGVEIKKDAFMGLIEDKIVSSQSDQLTTVTELLNEMLAEDSEILTVIIGQDAEQAVTDNMINWIEEQYPDVEVEVHEGGQPIYQYFFSVE HHSSGLVPRGSHMETVETAIITISMGEGISEIFKSMGATHIISGGQTMNPSTEDIVKVIEQSKCKRAIILPNNKNILMASEQAASIVDAEAVVIPTKSIPQGISALFQYDVDATLEENKAQMADSVNNVKSGSLTYAVRDTKIDGVEIKKDAFMGLIEDKIVSSQSDQLTTVTELLNEMLAEDSEILTVIIGQDAEQAVTDNMINWIEEQYPDVEVEVHEGGQPIYQYFFSVE 6w6w-a1-m1-cB_6w6w-a1-m1-cA Cryo-EM structure of CST bound to telomeric single-stranded DNA Q2NKJ3 Q2NKJ3 3.0 ELECTRON MICROSCOPY 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 905 AISQAIIRLLVEDGTAEAVVTCRNHHVAAALGLCPREWASLLD SCELIDLDLSWLGHLFLFPRWSYLPPARWNSSGEGHLELWDAPVPQRNLAGSLVRLSALVKSKQKAYFILSLGRVSIIVQVPAQLVWHRALRPGTAYVLTELRVSKIRGQRQHVWMTSQSSRLLVRYSRLLSYSGAVTGVLNEPAGLYELDGQLGLCLAYQQFRGLRRVMRPGVCLQLQDVHLLQSVGGGTRRPVLAPCLRGAVLLQSFSRQKPGAHSSRQAYGASLYEQLVWERQLGLPLYLWATKALEELACKLCPHVLRHHQFLQHSSPGSPSLGLQLLAPTLDLLAPPGSPVRNAHNEILEEPHHCPLQKYTRLQTPSSFPTLATLKEEGQRKAWASFDPKALLPLPEASYLPSCQLNRRLAWSWLCLLPSAFCPAQVLLGVLVASSHKGCLQLRDQSGSLPCLLLAKHSQPLSDPRLIGCLVRAERFQLIVERDVRSSFPSWKELSMPGFIQKQQARVYVQFFLADALILPVPRPPHLGQSRLFLLCHKEALMKRNFCVPPGASPEVPKPALSFYVLGSWLGGTQRKEGTGWGLPEPQDQKVHLIFFGSSVRWFEFLHPGQVYRLIAPGPATPMLFEKDRRPLELAGCASCLTVQDNWTLELESLPESSLTDLLSDNFTDSLVSFSAEILSRTLCCVKLTVALETAECEFPPHLDVYIEDPHLPPSLGLLPGARVHFSQLEKRVSRSHNVYCCFRSSTYVQVLSFPPETTISIPLPHIYLAELLQGGQSPFQATASCHIVSVFSLQLFWVCAYCTSICRQGKCTRLGSTCPTQTAISQAIIRLLVEDGTAEAVVTCRNHHVAAALGLCPREWASLLDFVQVPGRVVLQFDEPMTMFLWTLCTSPSVLRPIVLSFELERKPSKIVPLEPPRLQRFQCGELPFLTHVNPRLRLSCLSIRESE 6w6x-a4-m1-cB_6w6x-a4-m3-cB Crystal Structure of ABLE Apo-protein 1.297 X-RAY DIFFRACTION 44 1.0 32630 (synthetic construct) 32630 (synthetic construct) 126 126 6w6x-a3-m1-cA_6w6x-a3-m2-cA SVKSEYAEAAAVGQEAVAVFNTMKAAFQNGDKEAVAQYLARLASLYTRHEELLNRILEKARREGNKEAVTLMNEFTATFQTGKSIFNAMVAAFKNGDDDSFESYLQALEKVTAKGETLADQIAKAL SVKSEYAEAAAVGQEAVAVFNTMKAAFQNGDKEAVAQYLARLASLYTRHEELLNRILEKARREGNKEAVTLMNEFTATFQTGKSIFNAMVAAFKNGDDDSFESYLQALEKVTAKGETLADQIAKAL 6w7t-a1-m1-cE_6w7t-a1-m1-cD Structure of PaP3 small terminase Q8H9R5 Q8H9R5 3.01 X-RAY DIFFRACTION 102 1.0 188350 (Bruynoghevirus PaP3) 188350 (Bruynoghevirus PaP3) 107 109 6w7t-a1-m1-cA_6w7t-a1-m1-cB 6w7t-a1-m1-cA_6w7t-a1-m1-cI 6w7t-a1-m1-cC_6w7t-a1-m1-cB 6w7t-a1-m1-cC_6w7t-a1-m1-cD 6w7t-a1-m1-cE_6w7t-a1-m1-cF 6w7t-a1-m1-cF_6w7t-a1-m1-cG 6w7t-a1-m1-cH_6w7t-a1-m1-cG 6w7t-a1-m1-cH_6w7t-a1-m1-cI PLSAKEKLDLYCEGLADGLNKTQAYVAAGFSPNHAQRNVAAYHRKHSEYINAFISERIGSHVPMALRVIVSIAEDPNEKGGIRLKAAQDILDRGGFGAKQKVELTTK PLSAKEKLDLYCEGLADGLNKTQAYVAAGFSPNHAQRNVAAYHRKHSEYINAFISERIGSHVPMALRVIVSIAEDPNEKGGIRLKAAQDILDRGGFGAKQKVELTTKNV 6w7x-a1-m1-cA_6w7x-a1-m2-cA Crystal structure of N-acetylornithine aminotransferase from Stenotrophomonas maltophilia K279a B2FT38 B2FT38 1.9 X-RAY DIFFRACTION 211 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 364 364 LISLSHYYPRQVVLERGQGARVWDSQGREFIDLAAGIAVCGLGHNDPDLVAALVEQAGKLWHTSNVFYSAPPLHLAEELVKASRFAERVFLCNSGAEANEVAIKMVRKWASSQGRPADKRVIITFRGSFHGGGFRYIDFNDEVQLETAMAAGDVAAVMLEPIQGEGGVMPAKSGFLKRVRELCDQHDALLVLDEIQAGMGRTGTLFAHWQDDVVPDMVTLAKALGGGFPIGAMLAGPKVAETGGNPLAAAVARVALRKLASSEIAANVSRQSKALRDGFARINEEFGVFSEVRGRGLMLGAVLSKDFAGQAGAILDHAAGQGLLTLQAGPDVLRFVPSLNITDEEVAEGLKRLRAAIAAFIAAR LISLSHYYPRQVVLERGQGARVWDSQGREFIDLAAGIAVCGLGHNDPDLVAALVEQAGKLWHTSNVFYSAPPLHLAEELVKASRFAERVFLCNSGAEANEVAIKMVRKWASSQGRPADKRVIITFRGSFHGGGFRYIDFNDEVQLETAMAAGDVAAVMLEPIQGEGGVMPAKSGFLKRVRELCDQHDALLVLDEIQAGMGRTGTLFAHWQDDVVPDMVTLAKALGGGFPIGAMLAGPKVAETGGNPLAAAVARVALRKLASSEIAANVSRQSKALRDGFARINEEFGVFSEVRGRGLMLGAVLSKDFAGQAGAILDHAAGQGLLTLQAGPDVLRFVPSLNITDEEVAEGLKRLRAAIAAFIAAR 6w80-a1-m1-cA_6w80-a1-m2-cA Crystal structure of Glutamate-1-semialdehyde 2,1-aminomutase from Stenotrophomonas maltophilia K279a in complex with PLP B2FT35 B2FT35 1.4 X-RAY DIFFRACTION 385 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 430 430 AHHHHMNHDQSHALFSRAQQLLPGGVNSPVRAFKSVGGEPFFVERADGAYLYDVDGNRYIDYVGSWGPMIVGHNHPAVRQAVKKAIDNGLSFGAPCAGEVTMAETITRLVPSCEMVRMVNSGTEATLSAIRLARGATGRNRIVKFEGCYHGHGDSFLVKAMLTLGVPTSPGVPAGLSELTLTLPYNDFEAATALFEQQGDDIAGLIIEPVVGNANCIPPREGYLQHLRALCTKHGALLIFDEVMTGFRVALGGAQAHYGITPDLTTFGKIIGGGMPVGAYGGRRELMQQIAPAGPIYQAGTLSGNPVAMAAGLAMLELVQQPGFHADLAERTARLCAGLEAAAADAGVAVTTTRVGAMFGLFFTSEKVETYAQATACDIPAFNRFFHAMLEQGVFLAPSAYEAGFLSSAHDDAVIEATLAAARVAFRAAK AHHHHMNHDQSHALFSRAQQLLPGGVNSPVRAFKSVGGEPFFVERADGAYLYDVDGNRYIDYVGSWGPMIVGHNHPAVRQAVKKAIDNGLSFGAPCAGEVTMAETITRLVPSCEMVRMVNSGTEATLSAIRLARGATGRNRIVKFEGCYHGHGDSFLVKAMLTLGVPTSPGVPAGLSELTLTLPYNDFEAATALFEQQGDDIAGLIIEPVVGNANCIPPREGYLQHLRALCTKHGALLIFDEVMTGFRVALGGAQAHYGITPDLTTFGKIIGGGMPVGAYGGRRELMQQIAPAGPIYQAGTLSGNPVAMAAGLAMLELVQQPGFHADLAERTARLCAGLEAAAADAGVAVTTTRVGAMFGLFFTSEKVETYAQATACDIPAFNRFFHAMLEQGVFLAPSAYEAGFLSSAHDDAVIEATLAAARVAFRAAK 6w8p-a1-m1-cA_6w8p-a1-m1-cB Structure of membrane protein with ions Q9BSA9 Q9BSA9 3.6 ELECTRON MICROSCOPY 171 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 418 426 6w8n-a1-m1-cA_6w8n-a1-m1-cB 6w8o-a1-m1-cA_6w8o-a1-m1-cB 7lf6-a1-m1-cA_7lf6-a1-m1-cB SQRMLSFSDALLSIIATVMILPVTHTEISPEQQFDRSVQRLLATRIAVYLMTFLIVTVAWAAHTRLFQVVGKTDDTLALLNLACMMTITFLPYTFSLMVTFPDVPLGIFLFCVCVIAIGVVQALIVGYAFHFPHLLSPQIQRSAHRALYRRHVLGIVLQGPALCFAAAIFSLFFVPLSYLLMVTVILLPYVSKVTGFDLHEPLSKERVEAFSDGVYAIVATLLILDICEDNVPDPKDVKERFSGSLVAALSATGPRFLAYFGSFATVGLLWFAHHSLFLHVRKATRAMGLLNTLSLAFVGGLPLAYQQTSAFARQPRDELERVRVSCTIIFLASIFQLAMWTTALLHQAETLQPSVWFGGREHVLMFAKLALYPCASLLAFASTCLLSRFSVGIFHLMQIAVPCAFLLLRLLVGLALA SQRMLSFSDALLSIIATVMILPVTHTEISPEQQFDRSVQRLLATRIAVYLMTFLIVTVAWAAHTRLFQVVGKTDDTLALLNLACMMTITFLPYTFSLMVTFPDVPLGIFLFCVCVIAIGVVQALIVGYAFHFPHLLSPQIQRSAHRALYRRHVLGIVLQGPALCFAAAIFSLFFVPLSYLLMVTVILLPYVSKVTGWCRDRVFSFDLHEPLSKERVEAFSDGVYAIVATLLILDICEDNVPDPKDVKERFSGSLVAALSATGPRFLAYFGSFATVGLLWFAHHSLFLHVRKATRAMGLLNTLSLAFVGGLPLAYQQTSAFARQPRDELERVRVSCTIIFLASIFQLAMWTTALLHQAETLQPSVWFGGREHVLMFAKLALYPCASLLAFASTCLLSRFSVGIFHLMQIAVPCAFLLLRLLVGLALA 6w8w-a1-m1-cB_6w8w-a1-m1-cA Crystal structure of mouse DNMT1 in complex with CCG DNA P13864 P13864 3 X-RAY DIFFRACTION 91 0.999 10090 (Mus musculus) 10090 (Mus musculus) 826 828 6w8v-a1-m1-cB_6w8v-a1-m1-cA DRISWLGQPMKIEENRTYYQKVSIDEEMLEVGDCVSVIPDDSSKPLYLARVTALWEDKNGQMMFHAHWFCAGTDTVLGATSDPLELFLVGECENMQLSYIHSKVKVIYKAPSENWAMEGGYFFQLWYNQEYARFESPPKTQPTEDNKHKFCLSCIRLAELRQKEMPKVLEQIEEVDGRVYCSSITKNGVVYRLGDSVYLPPEAFTFNIKVASPVKRPKKDPVNETLYPEHYRKYSDYIKGSNLDAPEPYRIGRIKEIHCGKKKGKVNEADIKLRLYKFYRPENTHRSYNGSYHTDINMLYWSDEEAVVNFSDVQGRCTVEYGEDLLESIQDYSQGGPDRFYFLEAYNSKTKNFEDPPNHARSPGNIKLPKLRTLDVFSGCGGLSEGFHQAGISETLWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMAGEVTNSLGQRLPQKGDVEMLCGGPPCQGFSGMNRFNYSKFKNSLVVSFLSYCDYYRPRFFLLENVRNFVSYRRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPLFPEPLHVFAPRACQLSVVVDDKKFVSNITRLSSGPFRTITVRDTMSDLPEIQNGASNSEIPYNGEPLSWFQRQLRGSHYQPILRDHICKDMSPLVAARMRHIPLFPGSDWRDLPNIQVRLGDGVIAHKLQYTFHDVKNGYSSTGALRGVCSCAEGKACDPESRQFSTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDSYRFFGNILDRHRQVGNAVPPPLAKAIGLEIKLCLLS DRISWLGQPMKIEENRTYYQKVSIDEEMLEVGDCVSVIPDDSSKPLYLARVTALWEDKNGQMMFHAHWFCAGTDTVLGATSDPLELFLVGECENMQLSYIHSKVKVIYKAPSENWAMEGGGKTYFFQLWYNQEYARFESPPKTQPTEDNKHKFCLSCIRLAELRQKEMPKVLEQIEEVDGRVYCSSITKNGVVYRLGDSVYLPPEAFTFNIKVASPVKRPKKDPVNETLYPEHYRKYSDYIKGSNLDAPEPYRIGRIKEIHCGKKKGKVNEADIKLRLYKFYRPENTHRSYNGSYHTDINMLYWSDEEAVVNFSDVQGRCTVEYGEDLLESIQDYSQGGPDRFYFLEAYNSKTKNFEDPPNHARSPGNIKLPKLRTLDVFSGCGGLSEGFHQAGISETLWAIEMWDPAAQAFRLNNPGTTVFTEDCNVLLKLVMAGEVTNSLGQRLPQKGDVEMLCGGPPCQGFSGMNRFYSKFKNSLVVSFLSYCDYYRPRFFLLENVRNFVSYRRSMVLKLTLRCLVRMGYQCTFGVLQAGQYGVAQTRRRAIILAAAPGEKLPLFPEPLHVFAPRACQLSVVVDDKKFVSNITRLSSGPFRTITVRDTMSDLPEIQNGASNSEIPYNGEPLSWFQRQLRGSHYQPILRDHICKDMSPLVAARMRHIPLFPGSDWRDLPNIQVRLGDGVIAHKLQYTFHDVKNGYSSTGALRGVCSCAEGKACDPESRQFSTLIPWCLPHTGNRHNHWAGLYGRLEWDGFFSTTVTNPEPMGKQGRVLHPEQHRVVSVRECARSQGFPDSYRFFGNILDRHRQVGNAVPPPLAKAIGLEIKLCLLS 6w9y-a1-m1-cA_6w9y-a1-m1-cC De novo designed receptor transmembrane domains enhance CAR-T cytotoxicity and attenuate cytokine release 2.55 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 28 PELLFILVAILGGLFGAIVAFLLALRRL PELLFILVAILGGLFGAIVAFLLALRRL 6w9y-a1-m1-cB_6w9y-a1-m1-cC De novo designed receptor transmembrane domains enhance CAR-T cytotoxicity and attenuate cytokine release 2.55 X-RAY DIFFRACTION 37 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 28 6w9y-a1-m1-cA_6w9y-a1-m1-cB PELLFILVAILGGLFGAIVAFLLALRRL PELLFILVAILGGLFGAIVAFLLALRRL 6w9z-a1-m1-cA_6w9z-a1-m1-cB De novo designed receptor transmembrane domains enhance CAR-T cytotoxicity and attenuate cytokine release 2.7 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 28 6w9z-a2-m1-cC_6w9z-a2-m1-cD 6w9z-a3-m1-cF_6w9z-a3-m1-cE PELTVALILGIFLGTFIAFWVVYLLRRL PELTVALILGIFLGTFIAFWVVYLLRRL 6wa0-a2-m1-cD_6wa0-a2-m1-cE De novo designed receptor transmembrane domains enhance CAR-T cytotoxicity and attenuate cytokine release 3.484 X-RAY DIFFRACTION 65 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 30 6wa0-a1-m1-cA_6wa0-a1-m1-cB 6wa0-a3-m1-cG_6wa0-a3-m1-cH PETALLVAFVAYYTALIALIFAILATRRL EPETALLVAFVAYYTALIALIFAILATRRL 6wa0-a2-m1-cF_6wa0-a2-m1-cE De novo designed receptor transmembrane domains enhance CAR-T cytotoxicity and attenuate cytokine release 3.484 X-RAY DIFFRACTION 48 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 30 6wa0-a1-m1-cB_6wa0-a1-m1-cC 6wa0-a3-m1-cH_6wa0-a3-m1-cI PETALLVAFVAYYTALIALIFAILATRRL EPETALLVAFVAYYTALIALIFAILATRRL 6wa0-a3-m1-cG_6wa0-a3-m1-cI De novo designed receptor transmembrane domains enhance CAR-T cytotoxicity and attenuate cytokine release 3.484 X-RAY DIFFRACTION 62 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 30 6wa0-a1-m1-cA_6wa0-a1-m1-cC 6wa0-a2-m1-cD_6wa0-a2-m1-cF EPETALLVAFVAYYTALIALIFAILATR EPETALLVAFVAYYTALIALIFAILATRRL 6wa1-a1-m1-cA_6wa1-a1-m1-cB Dimeric form of the trans-stabilized Hemolysin II C-terminal domain Q81AN8 Q81AN8 NOT SOLUTION NMR 67 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 94 94 DNQKALEEQMNSINSVNDKLNKGKGKLSLSMNGNQLKATSSNAGYGISYEDKNWGIFVNGEKVYTFNEKSTVGNISNDINKLNIKGMYIEIKQI DNQKALEEQMNSINSVNDKLNKGKGKLSLSMNGNQLKATSSNAGYGISYEDKNWGIFVNGEKVYTFNEKSTVGNISNDINKLNIKGMYIEIKQI 6wao-a1-m1-cB_6wao-a1-m1-cA Crystal structure of Arabidopsis thaliana isochorismoyl-glutamate A pyruvoyl-glutamate lyase in complex with (2-(3-carboxyphenoxy)acetyl)-L-glutamic acid Q9FH97 Q9FH97 1.76 X-RAY DIFFRACTION 83 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 406 431 6wcs-a1-m1-cB_6wcs-a1-m1-cA ELVVISKSIVNPRSLSVKKIQLTPWDLSRLRFGYLQRGLLFHKIEVKQLQASLSVALDRFYPLAGRLVKLKNDDDTVSFFISCDGSGVEFVHAVAKNIELSDVLELSGSVPGFFASFFPATGIKNYHGVSRSLLMVQVTEMKDGVFIGFGYNSTVADATSIWKFINAWSEICSKFQRRLHLKGWFFDEIDYPIHIPDPETNLQEKMFHVTKENVLKLDAKANDEADQKISSIQAVLAYIWRSMVKHSGMSREEETHCRLPINMRQRLNPPLEEECFGNVSQTGIATVTVGELLDHGLGWAAMQINNMELSQTDEKAKAFAENWVKNIKIPSKDLVVTNSHRFDVYCNDFGWGKPIAARAGPPYLNGRLVVFKGIGEASLDFQACLLPQVVEKLVKDAEFNEYVSIV ELVVISKSIVNPRSLKKPTSVKKIQLTPWDLSRLRFGYLQRGLLFHKIEVKQLQASLSVALDRFYPLAGRLVKLKNDDDTVSFFISCDGSGVEFVHAVAKNIELSDVLELSGSVPGFFASFFPATGIKNYHGVSRSLLMVQVTEMKDGVFIGFGYNSTVADATSIWKFINAWSEICSKDSSGSQTFQRRLHLKGWFFDEIDYPIHIPDPETKPTSYVTTPTNLQEKMFHVTKENVLKLDAKANDEADQKISSIQAVLAYIWRSMVKHSGMSREEETHCRLPINMRQRLNPPLEEECFGNVSQTGIATVTVGELLDHGLGWAAMQINNMELSQTDEKAKAFAENWVKNIKIPVSVGSKDLVVTNSHRFDVYCNDFGWGKPIAARAGPPYLNGRLVVFKGIGEASLDFQACLLPQVVEKLVKDAEFNEYVSIV 6wb3-a1-m1-cA_6wb3-a1-m1-cB Crystal structure of coiled coil region of human septin 4 O43236 O43236 1.35 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 ETEKLIREKDEELRRMQEMLHKIQKQMKEN ETEKLIREKDEELRRMQEMLHKIQKQMKEN 6wb4-a1-m1-cA_6wb4-a1-m1-cB Microbiome-derived Acarbose Kinase Mak1 Labeled with selenomethionine A0A1Q8WGS1 A0A1Q8WGS1 2.593 X-RAY DIFFRACTION 55 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 292 299 6wb5-a1-m1-cA_6wb5-a1-m1-cB TQADVLVVGGVGVDHIVRVKSLPLPVVDSVPPIVTVVGHTGNGVALGVHALGRASAADVIGDDAEGRLIQDAYSAAGIPITFVTHISGTRRSVNLVTEEGQRSLYDPRHPFEFIPDPSLWREGIERSRHVHVSINWARYALRDAVAAGRSTSTDLHDWDGVADYHKDFAYGADYVFVSAAALRDESGVVADVFARGRAQFVVVAGSEGARVWRRSDELPLRISPISIPGRPVVDSNGAGDSFVAAFLCHYLDHGDIFGAARAGAVGGAWACGTLGTHTSFVDVETLERLLAR LVPRGSHTQADVLVVGGVGVDHIVRVKSLPLPVVDSVPPIVTVVGHTGNGVALGVHALGRASAADVIGDDAEGRLIQDAYSAAGIPITFVTHISGTRRSVNLVTEEGQRSLYDPRHPFEFIPDPSLWREGIERSRHVHVSINWARYALRDAVAAGRSTSTDLHDWDGVADYHKDFAYGADYVFVSAAALRDESGVVADVFARGRAQFVVVAGSEGARVWRRSDELPLRISPISIPGRPVVDSNGAGDSFVAAFLCHYLDHGDIFGAARAGAVGGAWACGTLGTHTSFVDVETLERLLAR 6wb7-a2-m1-cC_6wb7-a2-m1-cD Acarbose Kinase AcbK as a Complex with Acarbose and AMP-PNP Q8RMD4 Q8RMD4 2.44 X-RAY DIFFRACTION 111 1.0 134676 (Actinoplanes sp. SE50/110) 134676 (Actinoplanes sp. SE50/110) 293 294 6wb7-a1-m1-cB_6wb7-a1-m1-cA HTDVLVLGGAGVDTIAYVPELPLPFQDSYVVAAIEPRAGQTGDNVALGLHTLGLRTMHVDVLGDDPEGDLVRAFHTRHGLPFAALPTAAGTKRAVNLVGPDGRRLSLWDGSREAEEDRYPAALIAAHTAHARHVHVCITPPGQHVFGQLNDLPVTVSTDLHNWDGAYEGFEVYAFNADLVFLSATALTDVAATMRRVIDRGRARLVVATDGAHGGSVLVRGETEVRRYAAVAPEAPVVDSNGAGDAFVSGFLFGHLAGEPLETCLRYGAIAGAYACTIPATRAGAIDRAALLR HTDVLVLGGAGVDTIAYVPELPLPFQDSYVVAAIEPRAGQTGDNVALGLHTLGLRTMHVDVLGDDPEGDLVRAFHTRHGLPFAALPTAAGTKRAVNLVGPDGRRLSLWDGSREAEEDRYPAALIAAHTAHARHVHVCITPPGQHVFGQLNDLPVTVSTDLHNWDGAYEGFEVYAFNADLVFLSATALTDVAATMRRVIDRGRARLVVATDGAHGGSVLVRGETEVRRYAAVAPEAPVVDSNGAGDAFVSGFLFGHLAGEPLETCLRYGAIAGAYACTIPATRAGAIDRAALLRP 6wbd-a1-m1-cA_6wbd-a1-m1-cB Crystal Structure of Lysyl-tRNA synthetase from Stenotrophomonas maltophilia with bound L-lysine B2FQ84 B2FQ84 2.05 X-RAY DIFFRACTION 276 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 479 485 DENKLIAERREKLKALRGQGIAYPNDFRREDFAGRLQEEFADAETWTAEALEGNGRQVKMAGRLMAKRIMGKASFAQIQDESGRIQLFLQGAVLGDAYTAFKGWDVGDIIAVEGGLTRTKTGELSVKAESIRLLTKSLRPLPQRYRQRYVDLIVTPESRAVFIKRSKIIRAMRAWLDNRDFLEVETPMMHYIPGGAAAKPFTTHHNALDLDLYLRVAPELYLKRLTVGGLERVYEINRNFRNEGVSTRHNPEFTMMELYEAYATYNEIMDLTEGVIRDVAKAVNGGTEVEWDGAKIDLGPAFRRWRMDEAVRHHNPEISAADCTDRDALLRHCERLKIRVKPSYGWGKLLLEIFEATVEHTLIQPTFITDHPVEVSPLARANDNDPGYTDRFELFVNGKELANGFSELNDPEDQAQRFQAQVAAKEGGDDEAMHYDADYIRALEYGMAPTGGLGIGVDRLVMLLTGSSSIRDVLLFPYM DENKLIAERREKLKALRGQGIAYPNDFRREDFAGRLQEEFADAETWTAEALEGNGRQVKMAGRLMAKRIMGKASFAQIQDESGRIQLFLQGAVLGDAYTAFKGWDVGDIIAVEGGLTRTKTGELSVKAESIRLLTKSLRPLPDDVEQRYRQRYVDLIVTPESRAVFIKRSKIIRAMRAWLDNRDFLEVETPMMHYIPGGAAAKPFTTHHNALDLDLYLRVAPELYLKRLTVGGLERVYEINRNFRNEGVSTRHNPEFTMMELYEAYATYNEIMDLTEGVIRDVAKAVNGGTEVEWDGAKIDLGPAFRRWRMDEAVRHHNPEISAADCTDRDALLRHCERLKIRVKPSYGWGKLLLEIFEATVEHTLIQPTFITDHPVEVSPLARANDNDPGYTDRFELFVNGKELANGFSELNDPEDQAQRFQAQVAAKEGGDDEAMHYDADYIRALEYGMAPTGGLGIGVDRLVMLLTGSSSIRDVLLFPYMRP 6wbe-a1-m2-cC_6wbe-a1-m1-cA Crystal structure of coiled coil region of human septin 1 Q8WYJ6 Q8WYJ6 2.1 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 28 29 DTEKLIREKDEELRRMQEMLEKMQAQMQ DTEKLIREKDEELRRMQEMLEKMQAQMQQ 6wbt-a1-m1-cD_6wbt-a1-m1-cA 2.52 Angstrom Resolution Crystal Structure of 6-phospho-alpha-glucosidase from Gut Microorganisms in Complex with NAD and Glucose-6-phosphate 2.52 X-RAY DIFFRACTION 68 1.0 408169 (metagenomes) 408169 (metagenomes) 413 426 6wbt-a1-m1-cB_6wbt-a1-m1-cC DKELKIVICGGGSTYTPGIVKDLLDQRQKINIKELWLYDIDEERQNKVALIVKEVIKTEAPEVVLKVTVNPKEAFTDADYIAQRVGGLKRVKDEQICLKHGCVGQETCGAGGTYGRTIYPVQLIDYCEEYASKKYWIVNYSNPAAIVAKATYKLRPKARIINICDPVEIEARAEILDCKLEDIESDYFGLNHYGWFTHVRCKGVDVTDKLKEHVRKYGYVSEATFKNSALISSFTDYLPNTYWQYYLPDSIVDYDINNTRGQVINGREKRIFKAAEDIREGKPVDLQQFYVGVHGKFIVKVVESLIHDERSRQLVIVPNNGAIENLSDDATVEIPGYVTDRGVEPVRVGSIPRFYKGLIEQQDACEGLLVEAAIEHSYEKALAFTNRTIPSSLVAKKLLDDIEANKGYWPELK DKELKIVICGGGSTYTPGIVKDLLDQRQKINIKELWLYDIDEERQNKVALIVKEVIKTEAPEVVLKVTVNPKEAFTDADYIAQRVGGLKRVKDEQICLKHGCVGQETCGAGGTYGRTIYPVQLIDYCEEYASKKYWIVNYSNPAAIVAKATYKLRPKARIINICDPVEIEARAEILDCKLEDIESDYFGLNHYGWFTHVRCKGVDVTDKLKEHVRKYGYVSEASNDALLKDPDWVHTFKNSALISSFTDYLPNTYWQYYLPDSIVDYDINNTRGQVINGREKRIFKAAEDIREGKPVDLQQFYVGVHGKFIVKVVESLIHDERSRQLVIVPNNGAIENLSDDATVEIPGYVTDRGVEPVRVGSIPRFYKGLIEQQDACEGLLVEAAIEHSYEKALAFTNRTIPSSLVAKKLLDDIEANKGYWPELK 6wbt-a1-m1-cD_6wbt-a1-m1-cC 2.52 Angstrom Resolution Crystal Structure of 6-phospho-alpha-glucosidase from Gut Microorganisms in Complex with NAD and Glucose-6-phosphate 2.52 X-RAY DIFFRACTION 48 0.998 408169 (metagenomes) 408169 (metagenomes) 413 425 6wbt-a1-m1-cB_6wbt-a1-m1-cA DKELKIVICGGGSTYTPGIVKDLLDQRQKINIKELWLYDIDEERQNKVALIVKEVIKTEAPEVVLKVTVNPKEAFTDADYIAQRVGGLKRVKDEQICLKHGCVGQETCGAGGTYGRTIYPVQLIDYCEEYASKKYWIVNYSNPAAIVAKATYKLRPKARIINICDPVEIEARAEILDCKLEDIESDYFGLNHYGWFTHVRCKGVDVTDKLKEHVRKYGYVSEATFKNSALISSFTDYLPNTYWQYYLPDSIVDYDINNTRGQVINGREKRIFKAAEDIREGKPVDLQQFYVGVHGKFIVKVVESLIHDERSRQLVIVPNNGAIENLSDDATVEIPGYVTDRGVEPVRVGSIPRFYKGLIEQQDACEGLLVEAAIEHSYEKALAFTNRTIPSSLVAKKLLDDIEANKGYWPELK KELKIVICGGGSTYTPGIVKDLLDQRQKINIKELWLYDIDEERQNKVALIVKEVIKTEAPEVVLKVTVNPKEAFTDADYIAQRVGGLKRVKDEQICLKHGCVGQETCGAGGTYGRTIYPVQLIDYCEEYASKKYWIVNYSNPAAIVAKATYKLRPKARIINICDPVEIEARAEILDCKLEDIESDYFGLNHYGWFTHVRCKGVDVTDKLKEHVRKYGYVSEASNDALLKDPDWVHTFKNSALISSFTDYLPNTYWQYYLPDSIVDYDINNTRGQVINGREKRIFKAAEDIREGKPVDLQQFYVGVHGKFIVKVVESLIHDERSRQLVIVPNNGAIENLSDDATVEIPGYVTDRGVEPVRVGSIPRFYKGLIEQQDACEGLLVEAAIEHSYEKALAFTNRTIPSSLVAKKLLDDIEANKGYWPELK 6wci-a1-m1-cA_6wci-a1-m1-cB Crystal structure of a cysteine desulfurase SufS from Stenotrophomonas maltophilia K279a B2FS04 B2FS04 2.05 X-RAY DIFFRACTION 261 0.995 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 400 401 GAPDWDRVRLDFPLLMREVHGKPLVYFDNANTGQKPVQVIGAVDEFYRRYNANVVHALGSEATDAYEGARNTLARFLNVRPSDLVLCSGTTFAINLVAYSWALPRLKAGDVILITRMEHHANIVPWQLVAQRTGATIRVAEITPDGALDLDALRAAMTPEVKLLAVTHVSNVLGTVNPVREICREARKRGIITVVDGSQAVPHRKVDVAAIGCDFYAITGHMCGPTGTGALWARREHLDAMPPFLGGGEMIKEVSFDGTVFNDAPHKFEAGTPNIAGFIGLGVAADYLQQLGQENVEAREAELLAHFTEELRRVDGLRIIGEAPEKAAVVSFLIDGAHAHDLATLLDLEGVAVRSGQHAHPLLQYFGVAATCRASLAFYNTHAEIERFMTALTKVRKLLG APDWDRVRLDFPLLMREVHGKPLVYFDNANTGQKPVQVIGAVDEFYRRYNANVSRAVHALGSEATDAYEGARNTLARFLNVRPSDLVLCSGTTFAINLVAYSWALPRLKAGDVILITRMEHHANIVPWQLVAQRTGATIRVAEITPDGALDLDALRAAMTPEVKLLAVTHVSNVLGTVNPVREICREARKRGIITVVDGSQAVPHRKVDVAAIGCDFYAITGHMCGPTGTGALWARREHLDAMPPFLGGGEMIKEVSFDGTVFNDAPHKFEAGTPNIAGFIGLGVAADYLQQLGQENVEAREAELLAHFTEELRRVDGLRIIGEAPEKAAVVSFLIDGAHAHDLATLLDLEGVAVRSGQHAHPLLQYFGVAATCRASLAFYNTHAEIERFMTALTKVRKLL 6wcu-a1-m1-cA_6wcu-a1-m1-cB Crystal structure of coiled coil region of human septin 5 Q99719 Q99719 1.8 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 ETEKLIRMKDEELRRMQEMLQRMKQQMQDQ ETEKLIRMKDEELRRMQEMLQRMKQQMQDQ 6we5-a1-m1-cB_6we5-a1-m1-cC Crystal structure of an inorganic pyrophosphatase from Chlamydia trachomatis D/UW-3/Cx O84777 O84777 2.25 X-RAY DIFFRACTION 82 0.995 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 206 206 6we5-a1-m1-cA_6we5-a1-m1-cB 6we5-a1-m1-cA_6we5-a1-m1-cC KTPLSIAHPWHGPVLTRDDYESLCCYIEITPADSVKFELDKETGILKVDRPQKFSNFCPCLYGLLPKTYCGDLSGEYSGQQSNRENIKGDGDPLDICVLTEKNITQGNILLQARPIGGIRILDSEEADDKIIAVLEDDLVYGNIEDISECPGTVLDMIQHYFLTYKATPESLIQAKPAKIEIVGLYGKKEAQKVIRLAHEDYCNLF TPLSIAHPWHGPVLTRDDYESLCCYIEITPADSVKFELDKETGILKVDRPQKFSNFCPCLYGLLPKTYCGDLSGEYSGQQSNRENIKGDGDPLDICVLTEKNITQGNILLQARPIGGIRILDSEEADDKIIAVLEDDLVYGNIEDISECPGTVLDMIQHYFLTYKATPESLIQAKPAKIEIVGLYGKKEAQKVIRLAHEDYCNLFM 6we8-a3-m1-cB_6we8-a3-m2-cA YTH domain of human YTHDC1 Q96MU7 Q96MU7 1.18 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 GTSKLKYVLQDARFFLIKSNNHENVSLAKAKGVWSTLPVNEKKLNLAFRSARSVILIFSVRESGKFQGFARLSSESHHGGSPIHWVLPAGMSAKMLGGVFKIDWICRRELPFTKSAHLTNPWNEHKPVKIGRDGQEIELECGTQLCLLFPPDESIDLYQVIHKM GTSKLKYVLQDARFFLIKSNNHENVSLAKAKGVWSTLPVNEKKLNLAFRSARSVILIFSVRESGKFQGFARLSSESHHGGSPIHWVLPAGMSAKMLGGVFKIDWICRRELPFTKSAHLTNPWNEHKPVKIGRDGQEIELECGTQLCLLFPPDESIDLYQVIHKM 6weq-a2-m1-cC_6weq-a2-m1-cD DENV1 NS1 in complex with neutralizing 2B7 Fab fragment Q9J7C6 Q9J7C6 3.2 X-RAY DIFFRACTION 223 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 340 340 4oig-a1-m1-cA_4oig-a1-m1-cB 4oig-a2-m1-cD_4oig-a2-m1-cE 6weq-a1-m1-cA_6weq-a1-m1-cB GTENLYFQSNADSGCVINWKGRELKCGSGIFVTNEVHTWTEQYKFQADSPKRLSAAIGKAWEEGVCGIRSATRLENIMWKQISNELNHILLENDMKFTVVVGDVSGILAQGKKMIRPQPQNTTFIIDGPNTPECPDNQRAWNIWEVEDYGFGIFTTNIWLKLRDSYTQVCDHRLMSAAIKDSKAVHADMGYWIESEKNETWKLARASFIEVKTCIWPKSHTLWSNGVLESEMIIPKIYGGPISQHNYRPGYFTQTAGPWHLGKLELDFDFCEGTTVVVDEHCGNRGPSLRTTTVTGKIIHEWCCRSCTLPPLRFKGEDGCWYGMEIRPVKDKEENLVKSM GTENLYFQSNADSGCVINWKGRELKCGSGIFVTNEVHTWTEQYKFQADSPKRLSAAIGKAWEEGVCGIRSATRLENIMWKQISNELNHILLENDMKFTVVVGDVSGILAQGKKMIRPQPQNTTFIIDGPNTPECPDNQRAWNIWEVEDYGFGIFTTNIWLKLRDSYTQVCDHRLMSAAIKDSKAVHADMGYWIESEKNETWKLARASFIEVKTCIWPKSHTLWSNGVLESEMIIPKIYGGPISQHNYRPGYFTQTAGPWHLGKLELDFDFCEGTTVVVDEHCGNRGPSLRTTTVTGKIIHEWCCRSCTLPPLRFKGEDGCWYGMEIRPVKDKEENLVKSM 6wfm-a1-m1-cB_6wfm-a1-m1-cA Crystal structure of UDP-N-acetylglucosamine 1-carboxyvinyltransferase (murA) from Stenotrophomonas maltophilia K279a B2FRX1 B2FRX1 1.95 X-RAY DIFFRACTION 54 0.998 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 416 417 HMAKIVVTGGAALHGEVSISGAKNAVLPILCATLLADEPVEITNVPHLHDVVTTVKLLGELGAKVTIDQGTLSRGSAIVVDPRPVNQHVAPYELVKTMRASILVLGPLLARFGAAEVSLPGGPVDQHIKGLQALGAEIVVENGFIKASAKRLKGGHFTFDMVSVTGTENVLMGAVLAEGTTVLDNCAMEPEVTDLAHCLIALGAKIEGLGTARLVIEGVERLSGGRHEVLPDRIETGTFLVAAAMTGGKVTVNRARPNTMDAVLSKLVEAGAKIETTDDSITLDMQGRRPKAVNLTTAPYPAFPTDMQAQFMALNCVADGVGVINETENRFMHVNELLRLGADIQVEGHTAIVRGSEHLSGAPVMATDLRASASLILAGLMASGDTTIDRIYHLDRGYENIEEKLSSLGATIRRVP HMAKIVVTGGAALHGEVSISGAKNAVLPILCATLLADEPVEITNVPHLHDVVTTVKLLGELGAKVTIDQGTLSRGSAIVVDPRPVNQHVAPYELVKTMRASILVLGPLLARFGAAEVSLPGPVDQHIKGLQALGAEIVVENGFIKASAKRLKGGHFTFDMVSVTGTENVLMGAVLAEGTTVLDNCAMEPEVTDLAHCLIALGAKIEGLGTARLVIEGVERLSGGRHEVLPDRIETGTFLVAAAMTGGKVTVNRARPNTMDAVLSKLVEAGAKIETTDDSITLDMQGRRPKAVNLTTAPYPAFPTDMQAQFMALNCVADGVGVINETIFENRFMHVNELLRLGADIQVEGHTAIVRGSEHLSGAPVMATDLRASASLILAGLMASGDTTIDRIYHLDRGYENIEEKLSSLGATIRRVP 6wg1-a1-m1-cH_6wg1-a1-m1-cA Crystal structure of Fab399 in complex with NPNA6 peptide from circumsporozoite protein 2.086 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 215 EVQLVESGGGLVQPGRSLRLSCTTSGFTFGDYAMSWFRQAPGKGLEWVGFIRSKGFGGTAEYAAFVKGRFTISRDDSRSIAYLQMTSLKPEDTAVYYCSRVGVVIATAVYWGQGTLVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP EVQLVESGGGLVQPGRSLRLSCTTSGFTFGDYAMSWFRQAPGKGLEWVGFIRSKGFGGTAEYAAFVKGRFTISRDDSRSIAYLQMTSLKPEDTAVYYCSRVGVVIATAVYWGQGTLVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK 6wg2-a1-m1-cI_6wg2-a1-m1-cH Crystal structure of Fab239 in complex with NPNA4 peptide from circumsporozoite protein 2.534 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 216 217 VQLVESGGGVVQPGRSLRLSCAASRLTFRNFGMHWVRQTPGKGLEWVAVIWHDGSNKFYADSVEGRFTISRDNSKNTLYLQMNSLRDEDTAIYYCAKDWGGASDRVFDYWGRGTLVIVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS QVQLVESGGGVVQPGRSLRLSCAASRLTFRNFGMHWVRQTPGKGLEWVAVIWHDGSNKFYADSVEGRFTISRDNSKNTLYLQMNSLRDEDTAIYYCAKDWGGASDRVFDYWGRGTLVIVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS 6wg7-a1-m1-cC_6wg7-a1-m1-cF Coordinates of NanR dimer fitted in Hexameric NanR-DNA hetero-complex cryo-EM map P0A8W0 P0A8W0 8.3 ELECTRON MICROSCOPY 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 228 228 NLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV NLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV 6wg7-a1-m1-cD_6wg7-a1-m1-cF Coordinates of NanR dimer fitted in Hexameric NanR-DNA hetero-complex cryo-EM map P0A8W0 P0A8W0 8.3 ELECTRON MICROSCOPY 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 219 228 KKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV NLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV 6wg7-a1-m1-cE_6wg7-a1-m1-cF Coordinates of NanR dimer fitted in Hexameric NanR-DNA hetero-complex cryo-EM map P0A8W0 P0A8W0 8.3 ELECTRON MICROSCOPY 24 1.0 562 (Escherichia coli) 562 (Escherichia coli) 228 228 NLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV NLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV 6wg7-a1-m1-cH_6wg7-a1-m1-cF Coordinates of NanR dimer fitted in Hexameric NanR-DNA hetero-complex cryo-EM map P0A8W0 P0A8W0 8.3 ELECTRON MICROSCOPY 64 1.0 562 (Escherichia coli) 562 (Escherichia coli) 219 228 6wfq-a1-m1-cD_6wfq-a1-m1-cC 6wg7-a1-m1-cD_6wg7-a1-m1-cC 6wg7-a1-m1-cG_6wg7-a1-m1-cE KKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV NLRSRPLARKKLSEMVEEELEQMIRRREFGEGEQLPSERELMAFFNVGRPSVREALAALKRKGLVQINNGERARVSRPSADTIIGELSGMAKDFLSHPGGIAHFEQLRLFFESSLVRYAAEHATDEQIDLLAKALEINSQSLDNNAAFIRSDVDFHRVLAEIPGNPIFMAIHVALLDWLIAARPTVTDQALHEHNNVSYQQHIAIVDAIRRHDPDEADRALQSHLNSV 6wgy-a2-m1-cC_6wgy-a2-m1-cB Crystal structure of a Putative citrate synthase 2 from Mycobacterium bovis in complex with citrate P63778 P63778 2.3 X-RAY DIFFRACTION 379 1.0 233413 (Mycobacterium tuberculosis variant bovis AF2122/97) 233413 (Mycobacterium tuberculosis variant bovis AF2122/97) 371 374 6wgy-a1-m1-cD_6wgy-a1-m1-cA MTVVPENFVPGLDGVVAFTTEIAEPDKDGGALRYRGVDIEDLVSQRVTFGDVWALLVDGNFGSGLPPAEPFPLPIHSGDVRVDVQAGLAMLAPIWGYAPLLDIDDATARQQLARASVMALSYVAQSARGIYQPAVPQRIIDECSTVTARFMTRWQGEPDPRHIEAIDAYWVSAAEHGMNASTFTARVIASTGADVAAALSGAIGAMSGPLHGGAPARVLPMLDEVERAGDARSVVKGILDRGEKLMGFGHRVYRAEDPRARVLRAAAERLGAPRYEVAVAVEQAALSELRERRPDRAIETNVEFWAAVVLDFARVPANMMPAMFTCGRTAGWCAHILEQKRLGKLVRPSAIYVGPGPRSPESVDGWERVLT MTVVPENFVPGLDGVVAFTTEIAEPDKDGGALRYRGVDIEDLVSQRVTFGDVWALLVDGNFGSGLPPAEPFPLPIHSGDVRVDVQAGLAMLAPIWGYAPLLDIDDATARQQLARASVMALSYVAQSARGIYQPAVPQRIIDECSTVTARFMTRWQGEPDPRHIEAIDAYWVSAAEHGMNASTFTARVIASTGADVAAALSGAIGAMSGPLHGGAPARVLPMLDEVERAGDARSVVKGILDRGEKLMGFGHRVYRAEDPRARVLRAAAERLGAPRYEVAVAVEQAALSELRERRPDRAIETNVEFWAAVVLDFARVPANMMPAMFTCGRTAGWCAHILEQKRLGKLVRPSAIYVGPGPRSPESVDGWERVLTTAG 6wh8-a1-m1-cA_6wh8-a1-m1-cB The structure of NTMT1 in complex with compound BM-30 Q9BV86 Q9BV86 1.729 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 225 227 RGSTSEVIEDEKQFYSKAKTYWKQIPPTVDGMLGGYGHISSIDINSSRKFLQRFLREGPNKTGTSCALDCGAGIGRITKRLLLPLFREVDMVDITEDFLVQAKTYLGEEGKRVRNYFCCGLQDFTPEPDSYDVIWIQWVIGHLTDQHLAEFLRRCKGSLRPNGIIVIKDNMAQEGVILDDVDSSVCRDLDVVRRIICSAGLSLLAEERQENLPDEIYHVYSFALR VPRGSTSEVIEDEKQFYSKAKTYWKQIPPTVDGMLGGYGHISSIDINSSRKFLQRFLREGPNKTGTSCALDCGAGIGRITKRLLLPLFREVDMVDITEDFLVQAKTYLGEEGKRVRNYFCCGLQDFTPEPDSYDVIWIQWVIGHLTDQHLAEFLRRCKGSLRPNGIIVIKDNMAQEGVILDDVDSSVCRDLDVVRRIICSAGLSLLAEERQENLPDEIYHVYSFALR 6whg-a1-m1-cC_6whg-a1-m1-cD PI3P and calcium bound full-length TRPY1 in detergent Q12324 Q12324 3.1 ELECTRON MICROSCOPY 175 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 523 523 6whg-a1-m1-cA_6whg-a1-m1-cB 6whg-a1-m1-cA_6whg-a1-m1-cD 6whg-a1-m1-cB_6whg-a1-m1-cC GFEAPTPRQILRVTLNLKYLIDKVVPIVYILSPKVVKLAYEACGGNPKDKANKRKYQSVIIFSLLKVCEWYSILATMEVHNAKLYETRNLASQQLCKLLIEREETRDLQFLFMQLLLRRYVINENDEDQEPLNALELATDMHCTTVIGSSGFQRCLKWIWRGWIVQNGLDPTTFIKDDSLAFNPVRLKAPVYQNYLQMIFSFLFLGLYTLVVNGKDSERVQSFDLLESIFYVFNTGFILDELTKLYYIGYAHLSFWNLFNDTTYLIITFAMGFRAMSVTPYSSEDWDKISYRVLSCAAPFVWSRLLLYLESQRFIGIMLVILKHMMKESIVFFFLLFLIMIGFTQGFLGLDSADGKRDITGPILGNLTITVLGLGSFDVFEEFAPPYAAILYYGYYFIVSVILLNILIALYSTAYQKVIDNADDEYMALMSQKTLRYIRKDLSYTVMTIVYSPFLLLISVKETREARRIKYNRMKRLNDDANEYDTPWDLTDGYLDDNRNSGMRATQLKNSRSLKLQRTAEQE GFEAPTPRQILRVTLNLKYLIDKVVPIVYILSPKVVKLAYEACGGNPKDKANKRKYQSVIIFSLLKVCEWYSILATMEVHNAKLYETRNLASQQLCKLLIEREETRDLQFLFMQLLLRRYVINENDEDQEPLNALELATDMHCTTVIGSSGFQRCLKWIWRGWIVQNGLDPTTFIKDDSLAFNPVRLKAPVYQNYLQMIFSFLFLGLYTLVVNGKDSERVQSFDLLESIFYVFNTGFILDELTKLYYIGYAHLSFWNLFNDTTYLIITFAMGFRAMSVTPYSSEDWDKISYRVLSCAAPFVWSRLLLYLESQRFIGIMLVILKHMMKESIVFFFLLFLIMIGFTQGFLGLDSADGKRDITGPILGNLTITVLGLGSFDVFEEFAPPYAAILYYGYYFIVSVILLNILIALYSTAYQKVIDNADDEYMALMSQKTLRYIRKDLSYTVMTIVYSPFLLLISVKETREARRIKYNRMKRLNDDANEYDTPWDLTDGYLDDNRNSGMRATQLKNSRSLKLQRTAEQE 6whj-a2-m1-cD_6whj-a2-m1-cC Structure of Ribokinase from Giardia lamblia A8B6Y7 A8B6Y7 2.65 X-RAY DIFFRACTION 95 0.994 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 310 329 6whj-a1-m1-cA_6whj-a1-m1-cB TAKIVIIGSYNRDLVWYVKDFPIGGQTINGSFASSHGGKGSNQAIACGKVLRDPSRAFFVGAVGKDTFGDEILAHYRELGIPNCIKQVSGAPTGNAGIYVAESGENMIVISEGANGMLKPSLVPDLMAVLVKATLVVMQCEISPDNTLLFVEVIKQAKAQNSSLRFVFNPAPYRADYDFSKILSITDIFCPNELEALEISGTICDDSMMKALVEKMSSLSPSLKFVLFTLGSRGSRIVQTKSYESRTVDTSGAGDCFIGSFCVRLMELAEESPSALNDIDTIAEAARFASVAAGISASVPRRQEVDDALS TAKIVIIGSYNRDLVWYVKDFPIGGQTINGSFASSHGGKGSNQAIACGKVLRDPSRAFFVGAVGKDTFGDEILAHYRELGIPNCIKQVSGAPTGNAGIYVAESGENMIVISEGANGMLKPSLVPDLMAVLVKATLVVMQCEISPDNTLLFVEVIKQAKAQNSSLRFVFNPAPYRADYDFSKILSITDIFCPNELEALEISICDDSMMKALVEKMSSLSPSLKFVLFTLGSRGSRIVQTKSYESRTVGIYSHGRAIDTSGAGDCFIGSFCVRLMELAEESTRGPSALNDIDTIAEAARFASVAAGISVTRKGTSASVPRRQEVDDALSKF 6whp-a1-m1-cA_6whp-a1-m2-cA Structure of Choline kinase from Cryptococcus neoformans var. grubii serotype A J9VWY8 J9VWY8 2.25 X-RAY DIFFRACTION 130 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 428 428 VRHVALSVDASEWRQPVFKQKVLAILRRLHVPRWSSPLLTPTNIHLQKVSGALTNAVFFVSFNPAPNPTSPSESPLLTPTIPPSDPSHPPPLTPEQYPHTLLFRVYGPSLISRSEELRILHVLSTQYGIGPRVFGTFTNGRVEEFFPSRALTAQELRDPIISRGIARRMRELHSVDLRRLGYEQGRATEPALWICLKEWSEAAEDVISSLTALGGTLEAWVERFSLHRIREEVTIYRNFVESQSGKGNGVVFAHNDTQYGNLLRLDVELPPNTPEHCRYIVIDFEYASPNPRGYDIANHFHEWRANYHHPTHSHSLIPHFPYPTPIQREDFYRSYLSVEVDGRNGEEVVGKRKDVPADKVAALEHEVRIWSPGCSINWALWGLVQAEEQVCALATKKEGYVPEFDYLSYAAERLEMFRDEAKKLGVPL VRHVALSVDASEWRQPVFKQKVLAILRRLHVPRWSSPLLTPTNIHLQKVSGALTNAVFFVSFNPAPNPTSPSESPLLTPTIPPSDPSHPPPLTPEQYPHTLLFRVYGPSLISRSEELRILHVLSTQYGIGPRVFGTFTNGRVEEFFPSRALTAQELRDPIISRGIARRMRELHSVDLRRLGYEQGRATEPALWICLKEWSEAAEDVISSLTALGGTLEAWVERFSLHRIREEVTIYRNFVESQSGKGNGVVFAHNDTQYGNLLRLDVELPPNTPEHCRYIVIDFEYASPNPRGYDIANHFHEWRANYHHPTHSHSLIPHFPYPTPIQREDFYRSYLSVEVDGRNGEEVVGKRKDVPADKVAALEHEVRIWSPGCSINWALWGLVQAEEQVCALATKKEGYVPEFDYLSYAAERLEMFRDEAKKLGVPL 6wig-a1-m1-cB_6wig-a1-m2-cA Structure of STENOFOLIA Protein HD domain bound with DNA G0ZGT3 G0ZGT3 2.1 X-RAY DIFFRACTION 36 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 68 84 VVSSRWNPTPEQLRALEELYRRGTRTPSAEQIQQITAQLRKFGKIEGKNVFYWFQNHKARERQKRRRQ AAVVVSSRWNPTPEQLRALEELYRRGTRTPSAEQIQQITAQLRKFGKIEGKNVFYWFQNHKARERQKRRRQMESAAAEFDSAIE 6wir-a1-m1-cC_6wir-a1-m2-cC Fab antigen complex Q16552 Q16552 2.96 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 89 89 4qhu-a1-m1-cD_4qhu-a1-m1-cC 5hhv-a1-m1-cA_5hhv-a1-m2-cA 5hi3-a1-m1-cB_5hi3-a1-m1-cA 5hi4-a1-m1-cA_5hi4-a1-m1-cB 6wio-a1-m1-cC_6wio-a1-m2-cC 7amg-a1-m1-cA_7amg-a1-m1-cB 7amg-a2-m1-cC_7amg-a2-m1-cD 8b7w-a1-m1-cC_8b7w-a1-m2-cC SDYYNRSTSPWNLHRNEDPERYPSVIWEAKCRHLGCINADGNVDYHMNSVPIQQEILVLRREPPHCPNSFRLEKILVSVGCTCVTPIVH SDYYNRSTSPWNLHRNEDPERYPSVIWEAKCRHLGCINADGNVDYHMNSVPIQQEILVLRREPPHCPNSFRLEKILVSVGCTCVTPIVH 6wiw-a1-m1-cA_6wiw-a1-m1-cB c-Src Bound to ATP-Competitive Inhibitor I14 P00523 P00523 2.3 X-RAY DIFFRACTION 16 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 255 262 3u4w-a1-m1-cB_3u4w-a1-m1-cA 4ybj-a1-m1-cB_4ybj-a1-m1-cA AWEIPRESLRLEVKLGQGCFGEVWMGTWNGTTRVAIKTLKPGTMSPEAFLQEAQVMKKLRHEKLVQLYAVVSEEPIYIVTEYMSKGSLLDFLKGEMGKYLRLPQLVDMAAQIASGMAYVERMNYVHRDLRAANILVGENLVCKVADPIKWTAPEAALYGRFTIKSDVWSFGILLTELTTKGRVPYPGMVNREVLDQVERGYRMPCPPECPESLHDLMCQCWRKDPEERPTFEYLQAFLEDYFTSTEPQYQPGENL AWEIPRESLRLEVKLGQGCFGEVWMGTWNGTTRVAIKTLKPGTMSPEAFLQEAQVMKKLRHEKLVQLYAVVSEEPIYIVTEYMSKGSLLDFLKGEMGKYLRLPQLVDMAAQIASGMAYVERMNYVHRDLRAANILVGENLVCKVADFGLARLIPIKWTAPEAALYGRFTIKSDVWSFGILLTELTTKGRVPYPGMVNREVLDQVERGYRMPCPPECPESLHDLMCQCWRKDPEERPTFEYLQAFLEDYFTSTEPQYQPGENL 6wix-a1-m2-cB_6wix-a1-m3-cB Crystal Structure of HIV-1 MI369 RnS-DS.SOSIP Prefusion Env Trimer in Complex with Human Antibodies 3H109L and 35O22 at 3.5 Angstrom O55774 O55774 2.67 X-RAY DIFFRACTION 43 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 120 120 6wix-a1-m1-cB_6wix-a1-m2-cB 6wix-a1-m1-cB_6wix-a1-m3-cB 7llk-a1-m1-cB_7llk-a1-m1-cF 7llk-a1-m1-cB_7llk-a1-m1-cJ 7llk-a1-m1-cF_7llk-a1-m1-cJ AVFLGFLGAAGSTMGAASNQHLLKLTVWGIKQLQARVLAVERYLEVQQLLGIWGCSGKLICCTNVPWNSSWSNKSLDEIWNNMTWLQWDKEINNYTQLIYRLIEESQFQQEINEVELLAL AVFLGFLGAAGSTMGAASNQHLLKLTVWGIKQLQARVLAVERYLEVQQLLGIWGCSGKLICCTNVPWNSSWSNKSLDEIWNNMTWLQWDKEINNYTQLIYRLIEESQFQQEINEVELLAL 6wix-a1-m3-cG_6wix-a1-m2-cG Crystal Structure of HIV-1 MI369 RnS-DS.SOSIP Prefusion Env Trimer in Complex with Human Antibodies 3H109L and 35O22 at 3.5 Angstrom Q0H5Z3 Q0H5Z3 2.67 X-RAY DIFFRACTION 29 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 425 425 6wix-a1-m1-cG_6wix-a1-m2-cG 6wix-a1-m3-cG_6wix-a1-m1-cG AENLWVTVYYGVPVWRDADTTLFCASDAHNVWATHACVPTDPNPQEIHLDNVTEKFNMWKNNMVEQMHTDIISLWDQSLKPCVKLTPLCVTLHCTNFNPREEIKNCSFNMTTELRDKKQRVHSLFYKLDIVQINSEYRLINCNTSACTQACPKVSFEPIPIHYCAPAGFAILKCKDEEFNGTGPCKNVSTVQCTHGIKPVVSTQLLLNGSLAKKEVKIRSENITNNVKTIIVQLVNPVIINCTRPNNNTRKSIRIGPGQAFYATGAIIGDIRQAHCNVSRSDWNKTLQQVARQLRKHFVKTIIFTNSSGGDLEVTTHSFNCGGEFFYCNTSGLFNSTWENITLPCRIKQIINMWQRTGQCMYAPPIPGVISCVSNITGLLLTRDGNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRR AENLWVTVYYGVPVWRDADTTLFCASDAHNVWATHACVPTDPNPQEIHLDNVTEKFNMWKNNMVEQMHTDIISLWDQSLKPCVKLTPLCVTLHCTNFNPREEIKNCSFNMTTELRDKKQRVHSLFYKLDIVQINSEYRLINCNTSACTQACPKVSFEPIPIHYCAPAGFAILKCKDEEFNGTGPCKNVSTVQCTHGIKPVVSTQLLLNGSLAKKEVKIRSENITNNVKTIIVQLVNPVIINCTRPNNNTRKSIRIGPGQAFYATGAIIGDIRQAHCNVSRSDWNKTLQQVARQLRKHFVKTIIFTNSSGGDLEVTTHSFNCGGEFFYCNTSGLFNSTWENITLPCRIKQIINMWQRTGQCMYAPPIPGVISCVSNITGLLLTRDGNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRR 6wj8-a1-m1-cC_6wj8-a1-m1-cD Crystal structure of gamma-aminobutyrate aminotransferase PuuE from Klebsiella pneumoniae in complex with PLP A0A0H3GYJ5 A0A0H3GYJ5 2.59 X-RAY DIFFRACTION 381 1.0 1379688 (Klebsiella pneumoniae subsp. pneumoniae SA1) 1379688 (Klebsiella pneumoniae subsp. pneumoniae SA1) 418 418 6wj8-a1-m1-cA_6wj8-a1-m1-cB SSELNQRRQQATPRGVGVMCNYFVEKAENATLWDIEGNEVIDFAAGIAVLNTGHRHPKVVAAVADQLQAFTHTAYQIVPYESYVSLAERINDLAPIDGPAKTAFFTTGAEAVENAVKIARAYTGRPGLITFGGGFHGRTFMTMALTGKVAPYKIGFGPFPGSVYHGVYPNAAHGVTTADALKSLERIFKADIAPDQVAAIILEPIQGEGGFNVAPADFMQALRDLCDTHGILLIADEVQTGFARTGKLFAMQHYEVKPDLMTMASLAGGFPLSGVVGRAEVMDAPAPGGLGGTYAGNPLAVAAAHAVLDVIAEEQLCQRAEQLGSHLQEVLNQARATCPAIVDVRGRGSMVAVEFNDPQTGEPSPEFTRLVQQKAQENGLLLLSCGVYGNVIRFLYPLTIPDAQFSKALDILARVLKS SSELNQRRQQATPRGVGVMCNYFVEKAENATLWDIEGNEVIDFAAGIAVLNTGHRHPKVVAAVADQLQAFTHTAYQIVPYESYVSLAERINDLAPIDGPAKTAFFTTGAEAVENAVKIARAYTGRPGLITFGGGFHGRTFMTMALTGKVAPYKIGFGPFPGSVYHGVYPNAAHGVTTADALKSLERIFKADIAPDQVAAIILEPIQGEGGFNVAPADFMQALRDLCDTHGILLIADEVQTGFARTGKLFAMQHYEVKPDLMTMASLAGGFPLSGVVGRAEVMDAPAPGGLGGTYAGNPLAVAAAHAVLDVIAEEQLCQRAEQLGSHLQEVLNQARATCPAIVDVRGRGSMVAVEFNDPQTGEPSPEFTRLVQQKAQENGLLLLSCGVYGNVIRFLYPLTIPDAQFSKALDILARVLKS 6wj8-a1-m1-cD_6wj8-a1-m1-cA Crystal structure of gamma-aminobutyrate aminotransferase PuuE from Klebsiella pneumoniae in complex with PLP A0A0H3GYJ5 A0A0H3GYJ5 2.59 X-RAY DIFFRACTION 86 1.0 1379688 (Klebsiella pneumoniae subsp. pneumoniae SA1) 1379688 (Klebsiella pneumoniae subsp. pneumoniae SA1) 418 420 6wj8-a1-m1-cC_6wj8-a1-m1-cB SSELNQRRQQATPRGVGVMCNYFVEKAENATLWDIEGNEVIDFAAGIAVLNTGHRHPKVVAAVADQLQAFTHTAYQIVPYESYVSLAERINDLAPIDGPAKTAFFTTGAEAVENAVKIARAYTGRPGLITFGGGFHGRTFMTMALTGKVAPYKIGFGPFPGSVYHGVYPNAAHGVTTADALKSLERIFKADIAPDQVAAIILEPIQGEGGFNVAPADFMQALRDLCDTHGILLIADEVQTGFARTGKLFAMQHYEVKPDLMTMASLAGGFPLSGVVGRAEVMDAPAPGGLGGTYAGNPLAVAAAHAVLDVIAEEQLCQRAEQLGSHLQEVLNQARATCPAIVDVRGRGSMVAVEFNDPQTGEPSPEFTRLVQQKAQENGLLLLSCGVYGNVIRFLYPLTIPDAQFSKALDILARVLKS MKSSELNQRRQQATPRGVGVMCNYFVEKAENATLWDIEGNEVIDFAAGIAVLNTGHRHPKVVAAVADQLQAFTHTAYQIVPYESYVSLAERINDLAPIDGPAKTAFFTTGAEAVENAVKIARAYTGRPGLITFGGGFHGRTFMTMALTGKVAPYKIGFGPFPGSVYHGVYPNAAHGVTTADALKSLERIFKADIAPDQVAAIILEPIQGEGGFNVAPADFMQALRDLCDTHGILLIADEVQTGFARTGKLFAMQHYEVKPDLMTMASLAGGFPLSGVVGRAEVMDAPAPGGLGGTYAGNPLAVAAAHAVLDVIAEEQLCQRAEQLGSHLQEVLNQARATCPAIVDVRGRGSMVAVEFNDPQTGEPSPEFTRLVQQKAQENGLLLLSCGVYGNVIRFLYPLTIPDAQFSKALDILARVLKS 6wja-a1-m1-cA_6wja-a1-m1-cB UDP-GlcNAc C4-epimerase mutant S121A/Y146F from Pseudomonas protegens in complex with UDP-GalNAc Q4KCF6 Q4KCF6 2.094 X-RAY DIFFRACTION 56 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 307 308 6wj9-a1-m1-cA_6wj9-a1-m1-cB 6wjb-a1-m1-cA_6wjb-a1-m1-cB ERILVTGGAGFIGSHLVDALLAKGYAVRVLDDLSTGKVGNLPMGDAGLELLVGDAADAALLADAVQGCDAVVHLAAVASVQASVEDPVATHQSNFIATLRLCEAMTAAGIRRVVFASAAAVYGNNGEGTPIAEDTPKSPLTPFAADKLASEYYLDFYRRQHGLEPVILRFFNIFGPRQDPSSPYSGVISIFSERAKAGRPITLFGDGGQTRDFVYVADLVKILVQGLESPAPAADATNVGLGGVTTLNDLIGALQQISGKPLQVSHGATRSGDIRHSKADNRRLRERFDLGTPSSLAEGLERLYRSL AERILVTGGAGFIGSHLVDALLAKGYAVRVLDDLSTGKVGNLPMGDAGLELLVGDAADAALLADAVQGCDAVVHLAAVASVQASVEDPVATHQSNFIATLRLCEAMTAAGIRRVVFASAAAVYGNNGEGTPIAEDTPKSPLTPFAADKLASEYYLDFYRRQHGLEPVILRFFNIFGPRQDPSSPYSGVISIFSERAKAGRPITLFGDGGQTRDFVYVADLVKILVQGLESPAPAADATNVGLGGVTTLNDLIGALQQISGKPLQVSHGATRSGDIRHSKADNRRLRERFDLGTPSSLAEGLERLYRSL 6wjj-a1-m1-cK_6wjj-a1-m1-cL Anthrax octamer prechannel bound to full-length lethal factor P15917 P15917 3.8 ELECTRON MICROSCOPY 17 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 723 723 6wjj-a1-m1-cI_6wjj-a1-m1-cJ 6wjj-a1-m1-cI_6wjj-a1-m1-cL 6wjj-a1-m1-cJ_6wjj-a1-m1-cK 6zxj-a1-m1-cH_6zxj-a1-m1-cI 6zxk-a1-m1-cH_6zxk-a1-m1-cI 6zxk-a1-m1-cJ_6zxk-a1-m1-cH 6zxl-a1-m1-cH_6zxl-a1-m1-cI 6zxl-a1-m1-cJ_6zxl-a1-m1-cI NKTQEEHLKEIMKHIVKIEVKGEEAVKKEAAEKLLEKVPSDVLEMYKAIGGKIYIVDGDITKHISLEALSEDKKKIKDIYGKDALLHEHYVYAKEGYEPVLVIQSSEDYVENTEKALNVYYEIGKILSRDILSKINQPYQKFLDVLNTIKNASDSDGQDLLFTNQLKEHPTDFSVEFLEQNSNEVQEVFAKAFAYYIEPQHRDVLQLYAPEAFNYMDKFNEQEINLSLEELKDQRMLSRYEKWEKIKQHYQHWSDSLSEEGRGLLKKLQIPIEPKKDDIIHSLSQEEKELLKRIQIDSSDFLSTEEKEFLKKLQIDILSEKEKEFLKKLKLDIQPYDINQRLQDTGGLIDSPSINLDVRKQYKRDIQNIDALLHQSIGSTLYNKIYLYENMNINNLTATLGADLVDSTDNTKINRGIFNEFKKNFKYSISSNYMIVDINERPALDNERLKWRIQLSPDTRAGYLENGKLILQRNIGLEIKDVQIIKQSEKEYIRIDAKVVPKSKIDTKIQEAQLNINQEWNKALGLPKYTKLITFNVHNRYASNIVESAYLILNEWKNNIQSDLIKKVTNYLVDGNGRFVFTDITLPNIAEQYTHQDEIYEQVHSKGLYVPESRSILLHGPSKGVELRNDSEGFIHEFGHAVDDYAGYLLDKNQSDLVTNSKKFIDIFKEEGSNLTSYGRTNEAEFFAEAFRLMHSTDHAERLKVQKNAPKTFQFINDQIKFI NKTQEEHLKEIMKHIVKIEVKGEEAVKKEAAEKLLEKVPSDVLEMYKAIGGKIYIVDGDITKHISLEALSEDKKKIKDIYGKDALLHEHYVYAKEGYEPVLVIQSSEDYVENTEKALNVYYEIGKILSRDILSKINQPYQKFLDVLNTIKNASDSDGQDLLFTNQLKEHPTDFSVEFLEQNSNEVQEVFAKAFAYYIEPQHRDVLQLYAPEAFNYMDKFNEQEINLSLEELKDQRMLSRYEKWEKIKQHYQHWSDSLSEEGRGLLKKLQIPIEPKKDDIIHSLSQEEKELLKRIQIDSSDFLSTEEKEFLKKLQIDILSEKEKEFLKKLKLDIQPYDINQRLQDTGGLIDSPSINLDVRKQYKRDIQNIDALLHQSIGSTLYNKIYLYENMNINNLTATLGADLVDSTDNTKINRGIFNEFKKNFKYSISSNYMIVDINERPALDNERLKWRIQLSPDTRAGYLENGKLILQRNIGLEIKDVQIIKQSEKEYIRIDAKVVPKSKIDTKIQEAQLNINQEWNKALGLPKYTKLITFNVHNRYASNIVESAYLILNEWKNNIQSDLIKKVTNYLVDGNGRFVFTDITLPNIAEQYTHQDEIYEQVHSKGLYVPESRSILLHGPSKGVELRNDSEGFIHEFGHAVDDYAGYLLDKNQSDLVTNSKKFIDIFKEEGSNLTSYGRTNEAEFFAEAFRLMHSTDHAERLKVQKNAPKTFQFINDQIKFI 6wk2-a1-m1-cA_6wk2-a1-m1-cD SETD3 mutant (N255V) in Complex with an Actin Peptide with His73 Replaced with Methionine Q86TU7 Q86TU7 1.76 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 483 483 6wk1-a1-m1-cA_6wk1-a1-m1-cB VSPKEILNLTSELLQKCSSPAPGPGKEWEEYVQIRTLVEKIRKKQKGLSVTFDGKREDYFPDLMKWASENGASVEGFEMVNFKEEGFGLRATRDIKAEELFLWVPRKLLMTVESAKNSVLGPLYSQDRILQAMGNIALAFHLLCERASPNSFWQPYIQTLPSEYDTPLYFEEDEVRYLQSTQAIHDVFSQYKNTARQYAYFYKVIQTHPHANKLPLKDSFTYEDYRWAVSSVMTRQVQIPTEDGSRVTLALIPLWDMCNHTNGLITTGYNLEDDRCECVALQDFRAGEQIYIFYGTRSNAEFVIHSGFFFDNNSHDRVKIKLGVSKSDRLYAMKAEVLARAGIPTSSVFALHFTEPPISAQLLAFLRVFCMTEEELKEHLLGDSAIDRIFTLGNSEFPVSWDNEVKLWTFLEDRASLLLKTYKTTIEEDKSVLKNHDLSVRAKMAIKLRLGEKEILEKAVKSAAVNREYYRQQMEEKAPLPKY VSPKEILNLTSELLQKCSSPAPGPGKEWEEYVQIRTLVEKIRKKQKGLSVTFDGKREDYFPDLMKWASENGASVEGFEMVNFKEEGFGLRATRDIKAEELFLWVPRKLLMTVESAKNSVLGPLYSQDRILQAMGNIALAFHLLCERASPNSFWQPYIQTLPSEYDTPLYFEEDEVRYLQSTQAIHDVFSQYKNTARQYAYFYKVIQTHPHANKLPLKDSFTYEDYRWAVSSVMTRQVQIPTEDGSRVTLALIPLWDMCNHTNGLITTGYNLEDDRCECVALQDFRAGEQIYIFYGTRSNAEFVIHSGFFFDNNSHDRVKIKLGVSKSDRLYAMKAEVLARAGIPTSSVFALHFTEPPISAQLLAFLRVFCMTEEELKEHLLGDSAIDRIFTLGNSEFPVSWDNEVKLWTFLEDRASLLLKTYKTTIEEDKSVLKNHDLSVRAKMAIKLRLGEKEILEKAVKSAAVNREYYRQQMEEKAPLPKY 6wk3-a2-m1-cC_6wk3-a2-m2-cD Engineered carbene transferase RmaNOD Q52V, putative nitric oxide dioxygenase from Rhodothermus marinus D0MGT2 D0MGT2 2.45 X-RAY DIFFRACTION 35 1.0 518766 (Rhodothermus marinus DSM 4252) 518766 (Rhodothermus marinus DSM 4252) 145 146 6wk3-a1-m1-cB_6wk3-a1-m1-cA MAPTLSEQTRQLVRASVPALQKHSVAISATMYRLLFERYPETRSLFELPERVIHKLASALLAYARSIDNPSALQAAIRRMVLSHARAGVQAVHYPLVWECLRDAIKEVLGPDATETLLQAWKEAYDFLAHLLSTKEAQVYAVLAE SMAPTLSEQTRQLVRASVPALQKHSVAISATMYRLLFERYPETRSLFELPERVIHKLASALLAYARSIDNPSALQAAIRRMVLSHARAGVQAVHYPLVWECLRDAIKEVLGPDATETLLQAWKEAYDFLAHLLSTKEAQVYAVLAE 6wk8-a1-m1-cA_6wk8-a1-m1-cB Crystal structure of Gdx-Clo from Small Multidrug Resistance family of transporters in complex with phenylguanidinium U2EQ00 U2EQ00 2.53 X-RAY DIFFRACTION 121 1.0 1321778 (Clostridiales bacterium oral taxon 876 str. F0540) 1321778 (Clostridiales bacterium oral taxon 876 str. F0540) 104 104 6wk5-a1-m1-cA_6wk5-a1-m1-cB 6wk9-a1-m1-cA_6wk9-a1-m1-cB 6wk9-a2-m1-cE_6wk9-a2-m1-cF 7szt-a1-m1-cA_7szt-a1-m1-cB 7szt-a2-m1-cC_7szt-a2-m1-cD MAWLILIIAGIFEVVWAIALKYSNGFTRLIPSMITLIGMLISFYLLSQATKTLPIGTAYAIWTGIGALGAVICGIIFFKEPLTALRIVFMILLLTGIIGLKATS MAWLILIIAGIFEVVWAIALKYSNGFTRLIPSMITLIGMLISFYLLSQATKTLPIGTAYAIWTGIGALGAVICGIIFFKEPLTALRIVFMILLLTGIIGLKATS 6wkk-a1-m1-cB_6wkk-a1-m1-cF Phage G gp27 major capsid proteins and gp26 decoration proteins G3MB97 G3MB97 6.1 ELECTRON MICROSCOPY 10 1.0 1084719 (Donellivirus gee) 1084719 (Donellivirus gee) 280 280 MSQLSNQEKEYLISKALETEEGRVALAQAMANPIRVSLDYQGVGRKLLVVDPLPQGALPVYDKDVDAKAFVISKRGQVPDQVIEGDRIQVPTFEIVSYPQVRFSQVKERRFNVIDRAQQRAKADIMAVEDAEIFSLLEGAATAVNAVTISSGGLQRAALTKAFQEVEKHDLVVTKIVMNASAFADIRAWGQNEFDPVTQHEVLQTGLFGHIWTADILISKKVPQNTVYVLADPEFVGVMPIRQDIQVIPADKPEELRLGWVIYEELGLAVVNSLAIAKIS MSQLSNQEKEYLISKALETEEGRVALAQAMANPIRVSLDYQGVGRKLLVVDPLPQGALPVYDKDVDAKAFVISKRGQVPDQVIEGDRIQVPTFEIVSYPQVRFSQVKERRFNVIDRAQQRAKADIMAVEDAEIFSLLEGAATAVNAVTISSGGLQRAALTKAFQEVEKHDLVVTKIVMNASAFADIRAWGQNEFDPVTQHEVLQTGLFGHIWTADILISKKVPQNTVYVLADPEFVGVMPIRQDIQVIPADKPEELRLGWVIYEELGLAVVNSLAIAKIS 6wkk-a1-m1-cE_6wkk-a1-m1-cF Phage G gp27 major capsid proteins and gp26 decoration proteins G3MB97 G3MB97 6.1 ELECTRON MICROSCOPY 192 1.0 1084719 (Donellivirus gee) 1084719 (Donellivirus gee) 280 280 6wkk-a1-m1-cA_6wkk-a1-m1-cB 6wkk-a1-m1-cA_6wkk-a1-m1-cF 6wkk-a1-m1-cB_6wkk-a1-m1-cC 6wkk-a1-m1-cC_6wkk-a1-m1-cD 6wkk-a1-m1-cD_6wkk-a1-m1-cE MSQLSNQEKEYLISKALETEEGRVALAQAMANPIRVSLDYQGVGRKLLVVDPLPQGALPVYDKDVDAKAFVISKRGQVPDQVIEGDRIQVPTFEIVSYPQVRFSQVKERRFNVIDRAQQRAKADIMAVEDAEIFSLLEGAATAVNAVTISSGGLQRAALTKAFQEVEKHDLVVTKIVMNASAFADIRAWGQNEFDPVTQHEVLQTGLFGHIWTADILISKKVPQNTVYVLADPEFVGVMPIRQDIQVIPADKPEELRLGWVIYEELGLAVVNSLAIAKIS MSQLSNQEKEYLISKALETEEGRVALAQAMANPIRVSLDYQGVGRKLLVVDPLPQGALPVYDKDVDAKAFVISKRGQVPDQVIEGDRIQVPTFEIVSYPQVRFSQVKERRFNVIDRAQQRAKADIMAVEDAEIFSLLEGAATAVNAVTISSGGLQRAALTKAFQEVEKHDLVVTKIVMNASAFADIRAWGQNEFDPVTQHEVLQTGLFGHIWTADILISKKVPQNTVYVLADPEFVGVMPIRQDIQVIPADKPEELRLGWVIYEELGLAVVNSLAIAKIS 6wko-a1-m2-cA_6wko-a1-m3-cA Structure of an influenza C virus hemagglutinin-esterase-fusion (HEF2) intermediate P07975 P07975 2.401 X-RAY DIFFRACTION 69 1.0 100673 (Influenza C virus (C/Johannesburg/1/66)) 100673 (Influenza C virus (C/Johannesburg/1/66)) 90 90 6wko-a1-m1-cA_6wko-a1-m2-cA 6wko-a1-m1-cA_6wko-a1-m3-cA NDIQILKSSINIAIEKLNDRISHDEQAIRDLTLEIENARSEALLGELGIIRALLVGNISIGLQESLWELASEITNRAGDLAVEVSPGSWI NDIQILKSSINIAIEKLNDRISHDEQAIRDLTLEIENARSEALLGELGIIRALLVGNISIGLQESLWELASEITNRAGDLAVEVSPGSWI 6wkp-a1-m1-cA_6wkp-a1-m1-cB Crystal structure of RNA-binding domain of nucleocapsid phosphoprotein from SARS CoV-2, monoclinic crystal form P0DTC9 P0DTC9 2.67 X-RAY DIFFRACTION 24 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 103 117 ASWFTALTQHGKEDLKFPRGQGVPINTNSSPDDQIGYYRRAPRWYFYYLGTGPEAGLPYGANKDGIIWVATEGALNTPKDHIGTRAIVLQLPQGTTLPKGFYA NTASWFTALTQHGKEDLKFPRGQGVPINTNSSPDDQIGYYRRATRKDLSPRWYFYYLGTGPEAGLPYGANKDGIIWVATEGALNTPKDHIGTRNPANNAAIVLQLPQGTTLPKGFYA 6wkp-a1-m1-cA_6wkp-a1-m1-cD Crystal structure of RNA-binding domain of nucleocapsid phosphoprotein from SARS CoV-2, monoclinic crystal form P0DTC9 P0DTC9 2.67 X-RAY DIFFRACTION 18 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 103 115 ASWFTALTQHGKEDLKFPRGQGVPINTNSSPDDQIGYYRRAPRWYFYYLGTGPEAGLPYGANKDGIIWVATEGALNTPKDHIGTRAIVLQLPQGTTLPKGFYA TASWFTALTQHGKEDLKFPRGQGVPINTNSSPDDQIGYYRRATRDLSPRWYFYYLGTGPEAGLPYGANKDGIIWVATEGALNTPKDHIGTRNPANNAAIVLQLPQGTTLPKGFYA 6wkz-a1-m1-cA_6wkz-a1-m2-cA Cocomplex structure of Deoxyhypusine synthase with inhibitor 6-[(1R)-2-AMINO-1-PHENYLETHYL]-3-(PYRIDIN-3-YL)-4H,5H,6H,7H-THIENO[2,3-C]PYRIDIN-7-ONE P49366 P49366 2.23 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 6wkz-a1-m1-cB_6wkz-a1-m2-cB 6wl6-a1-m1-cA_6wl6-a1-m2-cA 6wl6-a1-m1-cB_6wl6-a1-m2-cB STQVRGYDFNRGVNYRALLEAFGTTGFQATNFGRAVQQVNAMIEKKLEPLSQDEDQRPLTSCTIFLGYTSNLISSGIRETIRYLVQHNMVDVLVTTAGGVEEDLIKCLAPTYLGEFLRENGINRIGNLLVPNENYCKFEDWLMPILDQMVMEQNTEGVKWTPSKMIARLGKEINNPESVYYWAQKNHIPVFSPALTDGSLGDMIFFHSYKNPGLVLDIVEDLRLINTQAIFAKCTGMIILGGGVVKHHGADYAVYINTAQEFDGSQPVKVYADASLVFPLLVAETFAQKMDAFM STQVRGYDFNRGVNYRALLEAFGTTGFQATNFGRAVQQVNAMIEKKLEPLSQDEDQRPLTSCTIFLGYTSNLISSGIRETIRYLVQHNMVDVLVTTAGGVEEDLIKCLAPTYLGEFLRENGINRIGNLLVPNENYCKFEDWLMPILDQMVMEQNTEGVKWTPSKMIARLGKEINNPESVYYWAQKNHIPVFSPALTDGSLGDMIFFHSYKNPGLVLDIVEDLRLINTQAIFAKCTGMIILGGGVVKHHGADYAVYINTAQEFDGSQPVKVYADASLVFPLLVAETFAQKMDAFM 6wkz-a1-m1-cA_6wkz-a1-m2-cB Cocomplex structure of Deoxyhypusine synthase with inhibitor 6-[(1R)-2-AMINO-1-PHENYLETHYL]-3-(PYRIDIN-3-YL)-4H,5H,6H,7H-THIENO[2,3-C]PYRIDIN-7-ONE P49366 P49366 2.23 X-RAY DIFFRACTION 193 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 294 296 6wkz-a1-m2-cA_6wkz-a1-m1-cB STQVRGYDFNRGVNYRALLEAFGTTGFQATNFGRAVQQVNAMIEKKLEPLSQDEDQRPLTSCTIFLGYTSNLISSGIRETIRYLVQHNMVDVLVTTAGGVEEDLIKCLAPTYLGEFLRENGINRIGNLLVPNENYCKFEDWLMPILDQMVMEQNTEGVKWTPSKMIARLGKEINNPESVYYWAQKNHIPVFSPALTDGSLGDMIFFHSYKNPGLVLDIVEDLRLINTQAIFAKCTGMIILGGGVVKHHGADYAVYINTAQEFDGSQPVKVYADASLVFPLLVAETFAQKMDAFM STQVRGYDFNRGVNYRALLEAFGTTGFQATNFGRAVQQVNAMIEKKLEPLSQTQSRRPLTSCTIFLGYTSNLISSGIRETIRYLVQHNMVDVLVTTAGGVEEDLIKCLAPTYLGEFELRENGINRIGNLLVPNENYCKFEDWLMPILDQMVMEQNTEGVKWTPSKMIARLGKEINNPESVYYWAQKNHIPVFSPALTDGSLGDMIFFHSYKNPGLVLDIVEDLRLINTQAIFAKCTGMIILGGGVVKHHGADYAVYINTAQEFDGSDQPVKVYADASLVFPLLVAETFAQKMDAFM 6wkz-a1-m2-cA_6wkz-a1-m2-cB Cocomplex structure of Deoxyhypusine synthase with inhibitor 6-[(1R)-2-AMINO-1-PHENYLETHYL]-3-(PYRIDIN-3-YL)-4H,5H,6H,7H-THIENO[2,3-C]PYRIDIN-7-ONE P49366 P49366 2.23 X-RAY DIFFRACTION 133 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 294 296 6wkz-a1-m1-cA_6wkz-a1-m1-cB STQVRGYDFNRGVNYRALLEAFGTTGFQATNFGRAVQQVNAMIEKKLEPLSQDEDQRPLTSCTIFLGYTSNLISSGIRETIRYLVQHNMVDVLVTTAGGVEEDLIKCLAPTYLGEFLRENGINRIGNLLVPNENYCKFEDWLMPILDQMVMEQNTEGVKWTPSKMIARLGKEINNPESVYYWAQKNHIPVFSPALTDGSLGDMIFFHSYKNPGLVLDIVEDLRLINTQAIFAKCTGMIILGGGVVKHHGADYAVYINTAQEFDGSQPVKVYADASLVFPLLVAETFAQKMDAFM STQVRGYDFNRGVNYRALLEAFGTTGFQATNFGRAVQQVNAMIEKKLEPLSQTQSRRPLTSCTIFLGYTSNLISSGIRETIRYLVQHNMVDVLVTTAGGVEEDLIKCLAPTYLGEFELRENGINRIGNLLVPNENYCKFEDWLMPILDQMVMEQNTEGVKWTPSKMIARLGKEINNPESVYYWAQKNHIPVFSPALTDGSLGDMIFFHSYKNPGLVLDIVEDLRLINTQAIFAKCTGMIILGGGVVKHHGADYAVYINTAQEFDGSDQPVKVYADASLVFPLLVAETFAQKMDAFM 6wlb-a1-m1-cB_6wlb-a1-m1-cC Structure of homotrimeric poplar cellulose synthase isoform 8 Q6J8X0 Q6J8X0 3.5 ELECTRON MICROSCOPY 55 1.0 47664 (Populus tremula x Populus tremuloides) 47664 (Populus tremula x Populus tremuloides) 720 720 6wlb-a1-m1-cA_6wlb-a1-m1-cB 6wlb-a1-m1-cA_6wlb-a1-m1-cC 8g27-a1-m1-cC_8g27-a1-m1-cI 8g27-a1-m1-cD_8g27-a1-m1-cC 8g27-a1-m1-cD_8g27-a1-m1-cI 8g2j-a1-m1-cC_8g2j-a1-m1-cI 8g2j-a1-m1-cD_8g2j-a1-m1-cC 8g2j-a1-m1-cD_8g2j-a1-m1-cI EPLSIVYPIPRNKLTPYRAVIIMRLIILGLFFHYRITNPVDSAFGLWLTSVICEIWFAFSWVLDQFPKWKPVNRETFIERLSARYEREGEPSQLAAVDFFVSTVDPLKEPPLITANTVLSILAVDYPVDKVSCYVSDDGAAMLTFESLVETAEFARKWVPFCKKFSIEPRAPEFYFSQKIDYLKDKVQPSFVKERRAMKRDYEEYKVRVNALVAKAQKTPDEGWTMQDGTPWPGNNTRDHPGMIQVFLGNTGARDIEGNELPRLVYVSREKRPGYQHHKKAGAENALVRVSAVLTNAPYILNLDCDHYVNNSKAVREAMCILMDPQVGRDVCYVQFPQRFDGIDRSDRYANRNIVFFDVNMKGLDGIQGPMYVGTGCVFNRQALYGYGPPSMPSQLSFEKTFGLSPVFIESTLMENGGVPESANSSTLIKEAIHVIGCGFEEKTEWGKEIGWIYGSVTEDILSGFKMHCRGWRSIYCMPVRPAFKGSAPINLSDRLHQVLRWALGSVEIFFSRHCPFWYGYGGGRLKWLQRLAYINTIVYPFTSLPLIAYCTIPAVCLLTGKFIIPTLSNLASMLFLGLFISIIVTAVLELRWSGVSIEDLWRNEQFWVIGGVSAHLFAVFQGFLKMLAGVKWTTLLIPPTTLLIINIVGVVAGFSDALNKGYEAWGPLFGKVFFAFWVILHLYPFLKGLMGRQNRTPTIVVLWSVLLTSVFSLVWVKIN EPLSIVYPIPRNKLTPYRAVIIMRLIILGLFFHYRITNPVDSAFGLWLTSVICEIWFAFSWVLDQFPKWKPVNRETFIERLSARYEREGEPSQLAAVDFFVSTVDPLKEPPLITANTVLSILAVDYPVDKVSCYVSDDGAAMLTFESLVETAEFARKWVPFCKKFSIEPRAPEFYFSQKIDYLKDKVQPSFVKERRAMKRDYEEYKVRVNALVAKAQKTPDEGWTMQDGTPWPGNNTRDHPGMIQVFLGNTGARDIEGNELPRLVYVSREKRPGYQHHKKAGAENALVRVSAVLTNAPYILNLDCDHYVNNSKAVREAMCILMDPQVGRDVCYVQFPQRFDGIDRSDRYANRNIVFFDVNMKGLDGIQGPMYVGTGCVFNRQALYGYGPPSMPSQLSFEKTFGLSPVFIESTLMENGGVPESANSSTLIKEAIHVIGCGFEEKTEWGKEIGWIYGSVTEDILSGFKMHCRGWRSIYCMPVRPAFKGSAPINLSDRLHQVLRWALGSVEIFFSRHCPFWYGYGGGRLKWLQRLAYINTIVYPFTSLPLIAYCTIPAVCLLTGKFIIPTLSNLASMLFLGLFISIIVTAVLELRWSGVSIEDLWRNEQFWVIGGVSAHLFAVFQGFLKMLAGVKWTTLLIPPTTLLIINIVGVVAGFSDALNKGYEAWGPLFGKVFFAFWVILHLYPFLKGLMGRQNRTPTIVVLWSVLLTSVFSLVWVKIN 6wlc-a1-m2-cA_6wlc-a1-m3-cB Crystal Structure of NSP15 Endoribonuclease from SARS CoV-2 in the Complex with Uridine-5'-Monophosphate P0DTD1 P0DTD1 1.82 X-RAY DIFFRACTION 62 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 348 348 5s6x-a1-m1-cA_5s6x-a1-m5-cB 5s6x-a1-m2-cA_5s6x-a1-m6-cB 5s6x-a1-m3-cA_5s6x-a1-m4-cB 5s6y-a1-m1-cA_5s6y-a1-m5-cB 5s6y-a1-m2-cA_5s6y-a1-m6-cB 5s6y-a1-m3-cA_5s6y-a1-m4-cB 5s6z-a1-m1-cA_5s6z-a1-m5-cB 5s6z-a1-m2-cA_5s6z-a1-m6-cB 5s6z-a1-m3-cA_5s6z-a1-m4-cB 5s70-a1-m1-cA_5s70-a1-m5-cB 5s70-a1-m2-cA_5s70-a1-m6-cB 5s70-a1-m3-cA_5s70-a1-m4-cB 5s71-a1-m1-cA_5s71-a1-m5-cB 5s71-a1-m2-cA_5s71-a1-m6-cB 5s71-a1-m3-cA_5s71-a1-m4-cB 5s72-a1-m1-cA_5s72-a1-m5-cB 5s72-a1-m2-cA_5s72-a1-m6-cB 5s72-a1-m3-cA_5s72-a1-m4-cB 5sa4-a1-m1-cA_5sa4-a1-m5-cB 5sa4-a1-m2-cA_5sa4-a1-m6-cB 5sa4-a1-m3-cA_5sa4-a1-m4-cB 5sa5-a1-m1-cA_5sa5-a1-m5-cB 5sa5-a1-m2-cA_5sa5-a1-m6-cB 5sa5-a1-m3-cA_5sa5-a1-m4-cB 5sa6-a1-m1-cA_5sa6-a1-m5-cB 5sa6-a1-m2-cA_5sa6-a1-m6-cB 5sa6-a1-m3-cA_5sa6-a1-m4-cB 5sa7-a1-m1-cA_5sa7-a1-m5-cB 5sa7-a1-m2-cA_5sa7-a1-m6-cB 5sa7-a1-m3-cA_5sa7-a1-m4-cB 5sa8-a1-m1-cA_5sa8-a1-m5-cB 5sa8-a1-m2-cA_5sa8-a1-m6-cB 5sa8-a1-m3-cA_5sa8-a1-m4-cB 5sa9-a1-m1-cA_5sa9-a1-m5-cB 5sa9-a1-m2-cA_5sa9-a1-m6-cB 5sa9-a1-m3-cA_5sa9-a1-m4-cB 5saa-a1-m1-cA_5saa-a1-m5-cB 5saa-a1-m2-cA_5saa-a1-m6-cB 5saa-a1-m3-cA_5saa-a1-m4-cB 5sab-a1-m1-cA_5sab-a1-m5-cB 5sab-a1-m2-cA_5sab-a1-m6-cB 5sab-a1-m3-cA_5sab-a1-m4-cB 5sac-a1-m1-cA_5sac-a1-m5-cB 5sac-a1-m2-cA_5sac-a1-m6-cB 5sac-a1-m3-cA_5sac-a1-m4-cB 5sad-a1-m1-cA_5sad-a1-m5-cB 5sad-a1-m2-cA_5sad-a1-m6-cB 5sad-a1-m3-cA_5sad-a1-m4-cB 5sae-a1-m1-cA_5sae-a1-m5-cB 5sae-a1-m2-cA_5sae-a1-m6-cB 5sae-a1-m3-cA_5sae-a1-m4-cB 5saf-a1-m1-cA_5saf-a1-m5-cB 5saf-a1-m2-cA_5saf-a1-m6-cB 5saf-a1-m3-cA_5saf-a1-m4-cB 5sag-a1-m1-cA_5sag-a1-m5-cB 5sag-a1-m2-cA_5sag-a1-m6-cB 5sag-a1-m3-cA_5sag-a1-m4-cB 5sah-a1-m1-cA_5sah-a1-m5-cB 5sah-a1-m2-cA_5sah-a1-m6-cB 5sah-a1-m3-cA_5sah-a1-m4-cB 5sai-a1-m1-cA_5sai-a1-m5-cB 5sai-a1-m2-cA_5sai-a1-m6-cB 5sai-a1-m3-cA_5sai-a1-m4-cB 5sbf-a1-m1-cA_5sbf-a1-m5-cB 5sbf-a1-m2-cA_5sbf-a1-m6-cB 5sbf-a1-m3-cA_5sbf-a1-m4-cB 6vww-a1-m1-cA_6vww-a1-m2-cB 6vww-a1-m1-cB_6vww-a1-m3-cA 6vww-a1-m2-cA_6vww-a1-m3-cB 6w01-a1-m1-cA_6w01-a1-m3-cB 6w01-a1-m1-cB_6w01-a1-m2-cA 6w01-a1-m2-cB_6w01-a1-m3-cA 6wlc-a1-m1-cA_6wlc-a1-m2-cB 6wlc-a1-m1-cB_6wlc-a1-m3-cA 6wxc-a1-m1-cB_6wxc-a1-m2-cA 6wxc-a1-m2-cB_6wxc-a1-m3-cA 6wxc-a1-m3-cB_6wxc-a1-m1-cA 6x1b-a1-m1-cB_6x1b-a1-m3-cA 6x1b-a1-m2-cB_6x1b-a1-m1-cA 6x1b-a1-m3-cB_6x1b-a1-m2-cA 6x4i-a1-m1-cB_6x4i-a1-m3-cA 6x4i-a1-m2-cB_6x4i-a1-m1-cA 6x4i-a1-m3-cB_6x4i-a1-m2-cA 7k0r-a1-m1-cA_7k0r-a1-m1-cD 7k0r-a1-m1-cB_7k0r-a1-m1-cF 7k0r-a1-m1-cC_7k0r-a1-m1-cE 7k1l-a1-m1-cA_7k1l-a1-m2-cB 7k1l-a1-m1-cB_7k1l-a1-m3-cA 7k1l-a1-m2-cA_7k1l-a1-m3-cB 7k1o-a1-m1-cA_7k1o-a1-m2-cC 7k1o-a1-m1-cB_7k1o-a1-m2-cB 7k1o-a1-m2-cA_7k1o-a1-m1-cC 7k9p-a1-m1-cA_7k9p-a1-m5-cB 7k9p-a1-m2-cA_7k9p-a1-m6-cB 7k9p-a1-m3-cA_7k9p-a1-m4-cB 7keg-a1-m1-cA_7keg-a1-m5-cB 7keg-a1-m2-cA_7keg-a1-m6-cB 7keg-a1-m3-cA_7keg-a1-m4-cB 7keh-a1-m1-cA_7keh-a1-m6-cB 7keh-a1-m2-cA_7keh-a1-m4-cB 7keh-a1-m3-cA_7keh-a1-m5-cB 7kf4-a1-m1-cA_7kf4-a1-m1-cF 7kf4-a1-m1-cB_7kf4-a1-m1-cE 7kf4-a1-m1-cC_7kf4-a1-m1-cD 7me0-a1-m1-cA_7me0-a1-m1-cF 7me0-a1-m1-cB_7me0-a1-m1-cE 7me0-a1-m1-cC_7me0-a1-m1-cD 7n06-a1-m1-cA_7n06-a1-m1-cD 7n06-a1-m1-cB_7n06-a1-m1-cF 7n06-a1-m1-cC_7n06-a1-m1-cE 7n33-a1-m1-cA_7n33-a1-m1-cD 7n33-a1-m1-cB_7n33-a1-m1-cF 7n33-a1-m1-cC_7n33-a1-m1-cE 7n7r-a1-m1-cA_7n7r-a1-m5-cB 7n7r-a1-m2-cA_7n7r-a1-m6-cB 7n7r-a1-m3-cA_7n7r-a1-m4-cB 7n7u-a1-m1-cA_7n7u-a1-m5-cB 7n7u-a1-m2-cA_7n7u-a1-m6-cB 7n7u-a1-m3-cA_7n7u-a1-m4-cB 7n7w-a1-m1-cA_7n7w-a1-m5-cB 7n7w-a1-m2-cA_7n7w-a1-m6-cB 7n7w-a1-m3-cA_7n7w-a1-m4-cB 7n7y-a1-m1-cA_7n7y-a1-m5-cB 7n7y-a1-m2-cA_7n7y-a1-m6-cB 7n7y-a1-m3-cA_7n7y-a1-m4-cB 7n83-a1-m1-cA_7n83-a1-m5-cB 7n83-a1-m2-cA_7n83-a1-m6-cB 7n83-a1-m3-cA_7n83-a1-m4-cB 7rb0-a1-m1-cA_7rb0-a1-m1-cF 7rb0-a1-m1-cB_7rb0-a1-m1-cC 7rb0-a1-m1-cD_7rb0-a1-m1-cE 7rb2-a1-m1-cA_7rb2-a1-m1-cF 7rb2-a1-m1-cB_7rb2-a1-m1-cE 7rb2-a1-m1-cC_7rb2-a1-m1-cD 7tj2-a1-m1-cB_7tj2-a1-m1-cF 7tj2-a1-m1-cC_7tj2-a1-m1-cE 7tj2-a1-m1-cD_7tj2-a1-m1-cA 7tqv-a1-m1-cB_7tqv-a1-m1-cF 7tqv-a1-m1-cC_7tqv-a1-m1-cE 7tqv-a1-m1-cD_7tqv-a1-m1-cA NMSLENVAFNVVNKGHFDGQQGEVPVSIINNTVYTKVDGVDVELFENKTTLPVNVAFELWAKRNIKPVPEVKILNNLGVDIAANTVIWDYKRDAPAHISTIGVCSMTDIAKKPTETICAPLTVFFDGRVDGQVDLFRNARNGVLITEGSVKGLQPSVGPKQASLNGVTLIGEAVKTQFNYYKKVDGVVQQLPETYFTQSRNLQEFKPRSQMEIDFLELAMDEFIERYKLEGYAFEHIVYGDFSHSQLGGLHLLIGLAKRFKESPFELEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVVSKVVKVTIDYTEISFMLWCKDGHVETFYPKLQ NMSLENVAFNVVNKGHFDGQQGEVPVSIINNTVYTKVDGVDVELFENKTTLPVNVAFELWAKRNIKPVPEVKILNNLGVDIAANTVIWDYKRDAPAHISTIGVCSMTDIAKKPTETICAPLTVFFDGRVDGQVDLFRNARNGVLITEGSVKGLQPSVGPKQASLNGVTLIGEAVKTQFNYYKKVDGVVQQLPETYFTQSRNLQEFKPRSQMEIDFLELAMDEFIERYKLEGYAFEHIVYGDFSHSQLGGLHLLIGLAKRFKESPFELEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVVSKVVKVTIDYTEISFMLWCKDGHVETFYPKLQ 6wlg-a1-m2-cB_6wlg-a1-m1-cA Ints3 C-terminal Domain Q68E01 Q68E01 3.111 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 346 361 ESLRDKVLQLQAQCEVMQEIVDQVLESEQLSVLASCLQEVLPEEITEESLEESVGKPLYLIFRNLCQSSFSLLLDLLSELYQKQPKIGYHLLYYLRAAGKMNLYESFAQATLHTCLMMDMKACQEDDVRLLCHLTPSIYTEFPDETLRSGELLNMIVAVIDSAQLQELVCHVMMGNLVMFRKDSVLNILIQSLDWETFEQYCAWQLFLAHNIPLETIIPILQHLKYKEHPEALSCLLLQLRREKPSEEMVKMVLSRPCHPDDQFTTSILRHWCMKHDELLAEHIKSLLIKNQLTLEQILEHLDNLRLNLTNTKQNFFSQTPILQALQHVQAAHKMKFSDLFSLAEE LDQLDESLRDKVLQLQAQCEVMQEIVDQVLEEDFDSEQLSVLASCLQEVLPEEITEESLEESVGKPLYLIFRNLCQMSSFSLLLDLLSELYQKQPKIGYHLLYYLRAAGKMNLYESFAQATLHTCLMMDMKACQEDDVRLLCHLTPSIYTEFPDETLRSGELLNMIVAVIDSAQLQELVCHVMMGNLVMFRKDSVLNILIQSLDWETFEQYCAWQLFLAHNIPLETIIPILQHLKYKEHPEALSCLLLQLRREKPSEEMVKMVLSRPCHPDDQFTTSILRHWCMKHDELLAEHIKSLLIKNQLTLEQILEHLDNLRLNLTNTKQNFFSQTPILQALQHVQASCDEAHKMKFSDLFSLAEEY 6wm0-a1-m1-cA_6wm0-a1-m1-cB TASK2 in MSP1D1 lipid nanodisc at pH 8.5 Q9JK62 Q9JK62 3.52 ELECTRON MICROSCOPY 266 1.0 10090 (Mus musculus) 10090 (Mus musculus) 255 255 6wlv-a1-m1-cA_6wlv-a1-m1-cB PLLTSAIIFYLAIGAAIFEVLEEPHWKEAKKNYYTQKLHLLKEFPCLSQEGLDKILQVVSDAADQGVAITGNQTFNNWNWPNAMIFAATVITTIGYGNVAPKTPAGRLFCVFYGLFGVPLCLTWISALGKFFGGRAKRLGQFLTRRGVSLRKAQITCTAIFIVWGVLVHLVIPPFVFMVTEEWNYIEGLYYSFITISTIGFGDFVAGVNPSANYHALYRYFVELWIYLGLAWLSLFVNWKVSMFVEVHKAIKKRR PLLTSAIIFYLAIGAAIFEVLEEPHWKEAKKNYYTQKLHLLKEFPCLSQEGLDKILQVVSDAADQGVAITGNQTFNNWNWPNAMIFAATVITTIGYGNVAPKTPAGRLFCVFYGLFGVPLCLTWISALGKFFGGRAKRLGQFLTRRGVSLRKAQITCTAIFIVWGVLVHLVIPPFVFMVTEEWNYIEGLYYSFITISTIGFGDFVAGVNPSANYHALYRYFVELWIYLGLAWLSLFVNWKVSMFVEVHKAIKKRR 6wm5-a1-m1-cC_6wm5-a1-m1-cA Structure of a phosphatidylinositol-phosphate synthase (PIPS) from Mycobacterium kansasii U5WZP7 U5WZP7 1.961 X-RAY DIFFRACTION 144 0.997 557599 (Mycobacterium kansasii ATCC 12478) 557599 (Mycobacterium kansasii ATCC 12478) 335 337 6wmv-a1-m1-cA_6wmv-a1-m1-cC MRLAYVKNHEIYGEKLLGLTLRERIEKTLQRAGFDVRFFDELSLEEAEDYLIILEPVLILERDLLLEGRKILVSDGFTVGYFFGGDFRTVFDGNLQSSIEKYLSLNNLESYEIWAIKLSNDNLKTAEKLLLSSLIAFARITLPLARALLRIGLTPDAVTIIGTTASVAGALVLFPMGKLFPGACVVWFFVLFDMLDGAMARLRSGGTRFGAVLDAACDRISDGAVFSGLLWWIAFGMRDRLLVVATLTCLVTSQVISYIKARAEASGLRGDGGIIERPERLIIVLVGAGVSDFPFIAWPPALPVAMWVLAVASVITLGQRLHTVWTSPGATDRIP MRLAYVKNHEIYGEKLLGLTLRERIEKTLQRAGFDVRFFDELSLEEAEDYLIILEPVLILERDLLLEGRKILVSDGFTVGYFFGGDFRTVFDGNLQSSIEKYLSLNNLESYEIWAIKLSNDNLKTAEKLLLSSLISRAAFARITLPLARALLRIGLTPDAVTIIGTTASVAGALVLFPMGKLFPGACVVWFFVLFDMLDGAMARLRSGGTRFGAVLDAACDRISDGAVFSGLLWWIAFGMRDRLLVVATLTCLVTSQVISYIKARAEASGLRGDGGIIERPERLIIVLVGAGVSDFPFIAWPPALPVAMWVLAVASVITLGQRLHTVWTSPGATDRI 6wm8-a1-m1-cC_6wm8-a1-m1-cA Proliferation-Associated protein 2G4 (PA2G4) Q9UQ80 Q9UQ80 2.6 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 353 354 6wm8-a1-m1-cB_6wm8-a1-m1-cA 6wm8-a1-m1-cB_6wm8-a1-m1-cC QEQTIAEDLVVTKYKMGGDIANRVLRSLVEASSSGVSVLSLCEKGDAMIMEETGKIFKKEKEMKKGIAFPTSISVNNCVCHFSPLKSDQDYILKEGDLVKIDLGVHVDGFIANVAHTFVVDVAQGTQVTGRKADVIKAAHLCAEAALRLVKPGNQNTQVTEAWNKVAHSFNCTPIEGMLSHQLKQHVIDGEKTIIQNPTDQQKKDHEKAEFEVHEVYAVDVLVSSGEGKAKDAGQRTTIYKRDPSKQYGLKMKTSRAFFSEVERRFDAMPFTLRAFEDEKKARMGVVECAKHELLQPFNVLYEKEGEFVAQFKFTVLLMPNGPMRITSGPFEPDLYKSEMEVQDAELKALLQS QQEQTIAEDLVVTKYKMGGDIANRVLRSLVEASSSGVSVLSLCEKGDAMIMEETGKIFKKEKEMKKGIAFPTSISVNNCVCHFSPLKSDQDYILKEGDLVKIDLGVHVDGFIANVAHTFVVDVAQGTQVTGRKADVIKAAHLCAEAALRLVKPGNQNTQVTEAWNKVAHSFNCTPIEGMLSHQLKQHVIDGEKTIIQNPTDQQKKDHEKAEFEVHEVYAVDVLVSSGEGKAKDAGQRTTIYKRDPSKQYGLKMKTSRAFFSEVERRFDAMPFTLRAFEDEKKARMGVVECAKHELLQPFNVLYEKEGEFVAQFKFTVLLMPNGPMRITSGPFEPDLYKSEMEVQDAELKALLQS 6wmo-a1-m1-cB_6wmo-a1-m1-cA Human poly-N-acetyl-lactosamine synthase structure demonstrates a modular assembly of catalytic subsites for GT-A glycosyltransferases Q9NY97 Q9NY97 1.85 X-RAY DIFFRACTION 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 313 325 6wmm-a1-m1-cA_6wmm-a1-m1-cB 6wmn-a1-m1-cA_6wmn-a1-m1-cB 6wmn-a2-m1-cD_6wmn-a2-m1-cC EAYWNREQEKLNRQYNSHLNYCEPDLRVTSVVTGFNNLPDRFKDFLLYLRCRNYSLLIDQPDKCAKKPFLLLAIKSLTPHFARRQAIRESWGQESNAGNQTVVRVFLLGQTPPEDNHPDLSDMLKFESEKHQDILMWNYRDTFFNLSLKEVLFLRWVSTSCPDTEFVFKGDDDVFVNTHHILNYLNSLSKTKAKDLFIGDVIHNAGPHRDKKLKYYIPEVVYSGLYPPYAGGGGFLYSGHLALRLYHITDQVHLYPIDDVYTGMCLQKLGLVPEKHKGFRTFDIENICSYVDLMLVHSRKPQEMIDIWSQLQS PPEAYWNREQEKLNRQYNSHLNYCEPDLRVTSVVTGFNNLPDRFKDFLLYLRCRNYSLLIDQPDKCAKKPFLLLAIKSLTPHFARRQAIRESWGQESNAGNQTVVRVFLLGQTPPEDNHPDLSDMLKFESEKHQDILMWNYRDTFFNLSLKEVLFLRWVSTSCPDTEFVFKGDDDVFVNTHHILNYLNSLSKTKAKDLFIGDVIHNAGPHRDKKLKYYIPEVVYSGLYPPYAGGGGFLYSGHLALRLYHITDQVHLYPIDDVYTGMCLQKLGLVPEKHKGFRTFDIEEKNKNNICSYVDLMLVHSRKPQEMIDIWSQLQSAHLKC 6wms-a1-m1-cA_6wms-a1-m1-cB Crystal Structure of Human REV-ERBbeta Ligand Binding Domain Co-Bound to Heme and NCoR ID2 Peptide Q14995 Q14995 2 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 6wmq-a1-m1-cA_6wmq-a1-m1-cB HLVCPMSKSPYVDPHKSGHEIWEEFSMSFTPAVKEVVEFAKRIPGFRDLSQHDQVNLLKAGTFEVLMVRFASLFDAKERTVTFLSGKKYSVDDLHSMGAGDLLNSMFEFSEKLNALQLSDEEMSLFTAVVLVSADRSGIENVNSVEALQETLIRALRTLIMKNHPNEASIFTKLLLKLPDLRSLNNMHSEELLAFK HLVCPMSKSPYVDPHKSGHEIWEEFSMSFTPAVKEVVEFAKRIPGFRDLSQHDQVNLLKAGTFEVLMVRFASLFDAKERTVTFLSGKKYSVDDLHSMGAGDLLNSMFEFSEKLNALQLSDEEMSLFTAVVLVSADRSGIENVNSVEALQETLIRALRTLIMKNHPNEASIFTKLLLKLPDLRSLNNMHSEELLAFK 6wn5-a1-m1-cA_6wn5-a1-m2-cA 1.52 Angstrom Resolution Crystal Structure of Transcriptional Regulator HdfR from Klebsiella pneumoniae W1HWH8 W1HWH8 1.52 X-RAY DIFFRACTION 96 1.0 72407 (Klebsiella pneumoniae subsp. pneumoniae) 72407 (Klebsiella pneumoniae subsp. pneumoniae) 171 171 NEFSIGASASLWECLNGWLGTLYSAPYNLQFEARIAQRQSLVKQLHERQLDLLITTESPKDELSSQLLGNFTLALYCASPAKNRNELNYLRLEWGPDFQDVPLLTTSSAELIYQQLSRLNGCCWLPARWAKEKHGLHTVDSATLSRPLYAIWLQNSDKQAQIHEILKNPIL NEFSIGASASLWECLNGWLGTLYSAPYNLQFEARIAQRQSLVKQLHERQLDLLITTESPKDELSSQLLGNFTLALYCASPAKNRNELNYLRLEWGPDFQDVPLLTTSSAELIYQQLSRLNGCCWLPARWAKEKHGLHTVDSATLSRPLYAIWLQNSDKQAQIHEILKNPIL 6wn6-a2-m1-cC_6wn6-a2-m1-cD Crystal structure of 3-keto-D-glucoside 4-epimerase, YcjR, from E. coli, apo form P76044 P76044 1.86 X-RAY DIFFRACTION 48 1.0 562 (Escherichia coli) 562 (Escherichia coli) 264 264 6wn6-a1-m1-cA_6wn6-a1-m1-cB KKMKIGTQNQAFFPENILEKFRYIKEMGFDGFEIDGKLLVNNIEEVKAAIKETGLPVTTACGGYDGWIGDFIEERRLNGLKQIERILEALAEVGGKGIVVPAAWGMFTFRLPPMTSPRSLDGDRKMVSDSLRVLEQVAARTGTVVYLEPLNRYQDHMINTLADARRYIVENDLKHVQIIGDFYHMNIEEDNLAQALHDNRDLLGHVHIADNHRYQPGSGTLDFHALFEQLRADNYQGYVVYEGRIRAEDPAQAYRDSLAWLRTC KKMKIGTQNQAFFPENILEKFRYIKEMGFDGFEIDGKLLVNNIEEVKAAIKETGLPVTTACGGYDGWIGDFIEERRLNGLKQIERILEALAEVGGKGIVVPAAWGMFTFRLPPMTSPRSLDGDRKMVSDSLRVLEQVAARTGTVVYLEPLNRYQDHMINTLADARRYIVENDLKHVQIIGDFYHMNIEEDNLAQALHDNRDLLGHVHIADNHRYQPGSGTLDFHALFEQLRADNYQGYVVYEGRIRAEDPAQAYRDSLAWLRTC 6wn7-a3-m1-cF_6wn7-a3-m1-cE Homo sapiens S100A5 P33763 P33763 1.25 X-RAY DIFFRACTION 90 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 88 91 2kay-a1-m1-cA_2kay-a1-m1-cB 4dir-a1-m1-cA_4dir-a1-m1-cB ETPLEKALTTMVTTFHKYSGREGSKLTLSRKELKELIKKELSLMKESSIDDLMKSLDKNSDQEIDFKEYSVFLTMLSMAYNDFFLEDN AMETPLEKALTTMVTTFHKYSGREGSKLTLSRKELKELIKKELSEMKESSIDDLMKSLDKNSDQEIDFKEYSVFLTMLSMAYNDFFLEDNK 6wng-a1-m1-cA_6wng-a1-m1-cD Crystal structure of an aspartate ammonia-lyase from Elizabethkingia anophelis NUHP1 A0A077EBQ3 A0A077EBQ3 1.55 X-RAY DIFFRACTION 151 1.0 1338014 (Elizabethkingia anophelis NUH1) 1338014 (Elizabethkingia anophelis NUH1) 466 466 6wng-a1-m1-cB_6wng-a1-m1-cC NDYRIESDLIGELKVPVNAYYGVQTQRAIDNFKISNDHLSDHPEFIKAFAFVKKAAAQTNFELGLLDEIINKNIATACDEIIAGKMHKEFPTDMIQGGAGTSMNMNANEVIANRALELMGHQKGEYQFCSPNDHVNLSQSTNDAYPTAIRIALYNLNKTLVERLELLIQSFRKKADDLKDVIKMGRTQLQDAVPMTMGQEFNAFANTLQEEIARLNTNADLFLETNMGATAIGTGLNAHPDYAVKCTENLAKISGADVVLASDLVEATPDTGAYVIYSSAMKRMAVKLSKICNDLRLLASGPRAGLYEINLPKMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLTQSIMESIRFLKNAMDTLREKCIDGITANKEICLNMVKNSIGIVTALNPYIGYKNSTKIAKEALDTGKSVYDLVLEHELLSKEKLDEILAPENMLNPHTKF NDYRIESDLIGELKVPVNAYYGVQTQRAIDNFKISNDHLSDHPEFIKAFAFVKKAAAQTNFELGLLDEIINKNIATACDEIIAGKMHKEFPTDMIQGGAGTSMNMNANEVIANRALELMGHQKGEYQFCSPNDHVNLSQSTNDAYPTAIRIALYNLNKTLVERLELLIQSFRKKADDLKDVIKMGRTQLQDAVPMTMGQEFNAFANTLQEEIARLNTNADLFLETNMGATAIGTGLNAHPDYAVKCTENLAKISGADVVLASDLVEATPDTGAYVIYSSAMKRMAVKLSKICNDLRLLASGPRAGLYEINLPKMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLTQSIMESIRFLKNAMDTLREKCIDGITANKEICLNMVKNSIGIVTALNPYIGYKNSTKIAKEALDTGKSVYDLVLEHELLSKEKLDEILAPENMLNPHTKF 6wng-a1-m1-cB_6wng-a1-m1-cD Crystal structure of an aspartate ammonia-lyase from Elizabethkingia anophelis NUHP1 A0A077EBQ3 A0A077EBQ3 1.55 X-RAY DIFFRACTION 258 1.0 1338014 (Elizabethkingia anophelis NUH1) 1338014 (Elizabethkingia anophelis NUH1) 466 466 6wng-a1-m1-cA_6wng-a1-m1-cC NDYRIESDLIGELKVPVNAYYGVQTQRAIDNFKISNDHLSDHPEFIKAFAFVKKAAAQTNFELGLLDEIINKNIATACDEIIAGKMHKEFPTDMIQGGAGTSMNMNANEVIANRALELMGHQKGEYQFCSPNDHVNLSQSTNDAYPTAIRIALYNLNKTLVERLELLIQSFRKKADDLKDVIKMGRTQLQDAVPMTMGQEFNAFANTLQEEIARLNTNADLFLETNMGATAIGTGLNAHPDYAVKCTENLAKISGADVVLASDLVEATPDTGAYVIYSSAMKRMAVKLSKICNDLRLLASGPRAGLYEINLPKMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLTQSIMESIRFLKNAMDTLREKCIDGITANKEICLNMVKNSIGIVTALNPYIGYKNSTKIAKEALDTGKSVYDLVLEHELLSKEKLDEILAPENMLNPHTKF NDYRIESDLIGELKVPVNAYYGVQTQRAIDNFKISNDHLSDHPEFIKAFAFVKKAAAQTNFELGLLDEIINKNIATACDEIIAGKMHKEFPTDMIQGGAGTSMNMNANEVIANRALELMGHQKGEYQFCSPNDHVNLSQSTNDAYPTAIRIALYNLNKTLVERLELLIQSFRKKADDLKDVIKMGRTQLQDAVPMTMGQEFNAFANTLQEEIARLNTNADLFLETNMGATAIGTGLNAHPDYAVKCTENLAKISGADVVLASDLVEATPDTGAYVIYSSAMKRMAVKLSKICNDLRLLASGPRAGLYEINLPKMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLTQSIMESIRFLKNAMDTLREKCIDGITANKEICLNMVKNSIGIVTALNPYIGYKNSTKIAKEALDTGKSVYDLVLEHELLSKEKLDEILAPENMLNPHTKF 6wng-a1-m1-cC_6wng-a1-m1-cD Crystal structure of an aspartate ammonia-lyase from Elizabethkingia anophelis NUHP1 A0A077EBQ3 A0A077EBQ3 1.55 X-RAY DIFFRACTION 239 1.0 1338014 (Elizabethkingia anophelis NUH1) 1338014 (Elizabethkingia anophelis NUH1) 466 466 6wng-a1-m1-cA_6wng-a1-m1-cB NDYRIESDLIGELKVPVNAYYGVQTQRAIDNFKISNDHLSDHPEFIKAFAFVKKAAAQTNFELGLLDEIINKNIATACDEIIAGKMHKEFPTDMIQGGAGTSMNMNANEVIANRALELMGHQKGEYQFCSPNDHVNLSQSTNDAYPTAIRIALYNLNKTLVERLELLIQSFRKKADDLKDVIKMGRTQLQDAVPMTMGQEFNAFANTLQEEIARLNTNADLFLETNMGATAIGTGLNAHPDYAVKCTENLAKISGADVVLASDLVEATPDTGAYVIYSSAMKRMAVKLSKICNDLRLLASGPRAGLYEINLPKMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLTQSIMESIRFLKNAMDTLREKCIDGITANKEICLNMVKNSIGIVTALNPYIGYKNSTKIAKEALDTGKSVYDLVLEHELLSKEKLDEILAPENMLNPHTKF NDYRIESDLIGELKVPVNAYYGVQTQRAIDNFKISNDHLSDHPEFIKAFAFVKKAAAQTNFELGLLDEIINKNIATACDEIIAGKMHKEFPTDMIQGGAGTSMNMNANEVIANRALELMGHQKGEYQFCSPNDHVNLSQSTNDAYPTAIRIALYNLNKTLVERLELLIQSFRKKADDLKDVIKMGRTQLQDAVPMTMGQEFNAFANTLQEEIARLNTNADLFLETNMGATAIGTGLNAHPDYAVKCTENLAKISGADVVLASDLVEATPDTGAYVIYSSAMKRMAVKLSKICNDLRLLASGPRAGLYEINLPKMQPGSSIMPGKVNPVIPEVVNQVCFKVIGNDLTVTFAAEAGQLQLNVMEPVLTQSIMESIRFLKNAMDTLREKCIDGITANKEICLNMVKNSIGIVTALNPYIGYKNSTKIAKEALDTGKSVYDLVLEHELLSKEKLDEILAPENMLNPHTKF 6wom-a2-m1-cC_6wom-a2-m2-cC Crystal structure of Aspartyl-tRNA ligase from Elizabethkingia sp. A0A1T3DDI2 A0A1T3DDI2 2.15 X-RAY DIFFRACTION 323 1.0 1117645 (Elizabethkingia anophelis) 1117645 (Elizabethkingia anophelis) 549 549 6wom-a1-m1-cA_6wom-a1-m1-cB MFRTHTNGELEEVTLSGWVQTIRDKIWIDLRDRYGITQLVFSAALLEEAKKLGREFVIQVSGKVIEIEILVEKLTILNNSELPPFTIEDETDGGEELRMKYRYLDIRRNPVKEKLIFRHKIAQKVRNYLSDQGFIEVETPVLIKSTPEGARDFVVPSRMNPGQFYALPQSPQTFKQLLMVGGMDKYFQIVKCFRDEDLRADRQPEFTQIDCEMAFVEQEDVMNIFEGLTQNLLKDIAGQEFGKFPRMTFAEAMKKYGNDKPDIRFGMEFHELNDLVKGKDFKIFDEAELVVGINVEGCAEYTRKQIDELTDWIKRPQIGATGMVWIKYQADGIVTSSVNKFYNEEDLKKIAEEFGAKPGDLMLVLSGNENKVRAQLSALRMELGNRLGLRKGNEFAPLWVIDFPLLEWDQRYHAMHHPFTSPKPEDIHLLENEAGKARANAYDLVINGNEIGGGSIRIFDKDLQAQMFSLLGFTPEEAEAQFGFLMNAFKYGAPPHGGLAFGFDRLVAVLDGNEVIRDYIAFPKNNSGRDVMIDAPASIANEQLDELAL MFRTHTNGELEEVTLSGWVQTIRDKIWIDLRDRYGITQLVFSAALLEEAKKLGREFVIQVSGKVIEIEILVEKLTILNNSELPPFTIEDETDGGEELRMKYRYLDIRRNPVKEKLIFRHKIAQKVRNYLSDQGFIEVETPVLIKSTPEGARDFVVPSRMNPGQFYALPQSPQTFKQLLMVGGMDKYFQIVKCFRDEDLRADRQPEFTQIDCEMAFVEQEDVMNIFEGLTQNLLKDIAGQEFGKFPRMTFAEAMKKYGNDKPDIRFGMEFHELNDLVKGKDFKIFDEAELVVGINVEGCAEYTRKQIDELTDWIKRPQIGATGMVWIKYQADGIVTSSVNKFYNEEDLKKIAEEFGAKPGDLMLVLSGNENKVRAQLSALRMELGNRLGLRKGNEFAPLWVIDFPLLEWDQRYHAMHHPFTSPKPEDIHLLENEAGKARANAYDLVINGNEIGGGSIRIFDKDLQAQMFSLLGFTPEEAEAQFGFLMNAFKYGAPPHGGLAFGFDRLVAVLDGNEVIRDYIAFPKNNSGRDVMIDAPASIANEQLDELAL 6wop-a1-m1-cB_6wop-a1-m2-cB Crystal structure of gamma-aminobutyrate aminotransferase PuuE from Acinetobacter baumannii D0CCF6 D0CCF6 1.85 X-RAY DIFFRACTION 80 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 417 417 6wop-a1-m1-cA_6wop-a1-m2-cA QHSALNARKQQATPRGVGVMCQWYAEKAENATIWDKEGNQFIDFAGGIAVLNTGHRHPKVIAAVTEQLTKFTHTAYQVTPYESYVALAERINERAPIAGPAKAAFFTTGAEAVENAVKIARCYTGRHGIITFGNGFHGRSFMTMAMTGKTAPYKRDFGVMPAGVFHARYPVPAKGISVDAAIESVEDIFSEDIAPHDVAAIVLEPVQGEGGFNVVPAEFLKRLRAICDKHGILLVADEVQSGFARTGKLFAMNHYETKADLITMAKSLGGGFPISGVVGRAEVMDAPNPGGLGGTYAGSPIAVAAAHAVIDAIEEENLCDRANELGAELVATLKDIQQATGDVVTDIRALGSMVAVELETAEQAKVVQNYAMENGLLLLTCGKYGNVIRFLYPLTIPAEQFRQGLDILKQGFATLKA QHSALNARKQQATPRGVGVMCQWYAEKAENATIWDKEGNQFIDFAGGIAVLNTGHRHPKVIAAVTEQLTKFTHTAYQVTPYESYVALAERINERAPIAGPAKAAFFTTGAEAVENAVKIARCYTGRHGIITFGNGFHGRSFMTMAMTGKTAPYKRDFGVMPAGVFHARYPVPAKGISVDAAIESVEDIFSEDIAPHDVAAIVLEPVQGEGGFNVVPAEFLKRLRAICDKHGILLVADEVQSGFARTGKLFAMNHYETKADLITMAKSLGGGFPISGVVGRAEVMDAPNPGGLGGTYAGSPIAVAAAHAVIDAIEEENLCDRANELGAELVATLKDIQQATGDVVTDIRALGSMVAVELETAEQAKVVQNYAMENGLLLLTCGKYGNVIRFLYPLTIPAEQFRQGLDILKQGFATLKA 6wop-a1-m2-cA_6wop-a1-m2-cB Crystal structure of gamma-aminobutyrate aminotransferase PuuE from Acinetobacter baumannii D0CCF6 D0CCF6 1.85 X-RAY DIFFRACTION 365 0.998 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 417 417 6wop-a1-m1-cA_6wop-a1-m1-cB TQHSALNARKQQATPRGVGVMCQWYAEKAENATIWDKEGNQFIDFAGGIAVLNTGHRHPKVIAAVTEQLTKFTHTAYQVTPYESYVALAERINERAPIAGPAKAAFFTTGAEAVENAVKIARCYTGRHGIITFGNGFHGRSFMTMAMTGKTAPYKRDFGVMPAGVFHARYPVPAKGISVDAAIESVEDIFSEDIAPHDVAAIVLEPVQGEGGFNVVPAEFLKRLRAICDKHGILLVADEVQSGFARTGKLFAMNHYETKADLITMAKSLGGGFPISGVVGRAEVMDAPNPGGLGGTYAGSPIAVAAAHAVIDAIEEENLCDRANELGAELVATLKDIQQATGDVVTDIRALGSMVAVELETAEQAKVVQNYAMENGLLLLTCGKYGNVIRFLYPLTIPAEQFRQGLDILKQGFATLK QHSALNARKQQATPRGVGVMCQWYAEKAENATIWDKEGNQFIDFAGGIAVLNTGHRHPKVIAAVTEQLTKFTHTAYQVTPYESYVALAERINERAPIAGPAKAAFFTTGAEAVENAVKIARCYTGRHGIITFGNGFHGRSFMTMAMTGKTAPYKRDFGVMPAGVFHARYPVPAKGISVDAAIESVEDIFSEDIAPHDVAAIVLEPVQGEGGFNVVPAEFLKRLRAICDKHGILLVADEVQSGFARTGKLFAMNHYETKADLITMAKSLGGGFPISGVVGRAEVMDAPNPGGLGGTYAGSPIAVAAAHAVIDAIEEENLCDRANELGAELVATLKDIQQATGDVVTDIRALGSMVAVELETAEQAKVVQNYAMENGLLLLTCGKYGNVIRFLYPLTIPAEQFRQGLDILKQGFATLKA 6wot-a1-m1-cB_6wot-a1-m1-cD Cryo-EM structure of recombinant rabbit Ryanodine Receptor type 1 mutant R164C in complex with FKBP12.6 P11716 P11716 3.54 ELECTRON MICROSCOPY 20 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 4197 4197 6wot-a1-m1-cA_6wot-a1-m1-cC QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVCVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVSPGQQGRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAALPAEAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGLKDMELDTSSIEKRFAFGFLQQLLRWMDISQPFIAHIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVALLPVLTTLFQHIAQHQFGDDVILDDVQVCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGENEEVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEAEGAAGTVAAGATARLAAAAARAFTGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVCVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVSPGQQGRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAALPAEAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGLKDMELDTSSIEKRFAFGFLQQLLRWMDISQPFIAHIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVALLPVLTTLFQHIAQHQFGDDVILDDVQVCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGENEEVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEAEGAAGTVAAGATARLAAAAARAFTGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 6wot-a1-m1-cC_6wot-a1-m1-cD Cryo-EM structure of recombinant rabbit Ryanodine Receptor type 1 mutant R164C in complex with FKBP12.6 P11716 P11716 3.54 ELECTRON MICROSCOPY 177 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 4197 4197 6wot-a1-m1-cA_6wot-a1-m1-cB 6wot-a1-m1-cA_6wot-a1-m1-cD 6wot-a1-m1-cB_6wot-a1-m1-cC QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVCVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVSPGQQGRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAALPAEAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGLKDMELDTSSIEKRFAFGFLQQLLRWMDISQPFIAHIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVALLPVLTTLFQHIAQHQFGDDVILDDVQVCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGENEEVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEAEGAAGTVAAGATARLAAAAARAFTGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVCVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSARLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVSPGQQGRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAALPAEAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRGLKDMELDTSSIEKRFAFGFLQQLLRWMDISQPFIAHIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVALLPVLTTLFQHIAQHQFGDDVILDDVQVCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGENEEVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEAEGAAGTVAAGATARLAAAAARAFTGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 6wpq-a1-m7-cA_6wpq-a1-m9-cA GNYNVF from hnRNPA2-low complexity domain segment, residues 286-291, D290V variant P22626 P22626 1.1 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 6 6 6wpq-a1-m10-cA_6wpq-a1-m9-cA 6wpq-a1-m1-cA_6wpq-a1-m2-cA 6wpq-a1-m1-cA_6wpq-a1-m3-cA 6wpq-a1-m2-cA_6wpq-a1-m4-cA 6wpq-a1-m3-cA_6wpq-a1-m5-cA 6wpq-a1-m6-cA_6wpq-a1-m7-cA 6wpq-a1-m6-cA_6wpq-a1-m8-cA GNYNVF GNYNVF 6wps-a1-m1-cB_6wps-a1-m1-cE Structure of the SARS-CoV-2 spike glycoprotein in complex with the S309 neutralizing antibody Fab fragment P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 308 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 955 955 6wps-a1-m1-cA_6wps-a1-m1-cB 6wps-a1-m1-cA_6wps-a1-m1-cE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDILQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDILQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 6wpt-a1-m1-cB_6wpt-a1-m1-cC Structure of the SARS-CoV-2 spike glycoprotein in complex with the S309 neutralizing antibody Fab fragment (open state) P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 269 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 937 952 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSNLREFVFKNYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 6wpz-a2-m1-cB_6wpz-a2-m2-cB The structure of Pf4r from a superinfective isolate of the filamentous phage Pf4 of Pseudomonas aeruginosa PA01 A0A509JD33 A0A509JD33 1.993 X-RAY DIFFRACTION 72 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 89 89 6wnm-a1-m1-cA_6wnm-a1-m3-cA 6wnm-a2-m1-cB_6wnm-a2-m2-cB 6wpz-a1-m1-cA_6wpz-a1-m3-cA STPADRARLLIKKIGPKKVSLHGGDYERWKSVSKGAIRVSTEEIDVLVKIFPNYALWIASGSIAPEVGQTSPDYDEANLNLGAHHHHHH STPADRARLLIKKIGPKKVSLHGGDYERWKSVSKGAIRVSTEEIDVLVKIFPNYALWIASGSIAPEVGQTSPDYDEANLNLGAHHHHHH 6wqh-a1-m1-cA_6wqh-a1-m1-cF Molecular basis for the ATPase-powered substrate translocation by the Lon AAA+ protease A0A059VAZ3 A0A059VAZ3 3.6 ELECTRON MICROSCOPY 115 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 537 537 6wqh-a1-m1-cE_6wqh-a1-m1-cF 7fd4-a1-m1-cE_7fd4-a1-m1-cF 7fd5-a1-m1-cA_7fd5-a1-m1-cF 7fid-a1-m1-cE_7fid-a1-m1-cF 7fie-a1-m1-cA_7fie-a1-m1-cF 7fiz-a1-m1-cA_7fiz-a1-m1-cF SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 6wqh-a1-m1-cD_6wqh-a1-m1-cC Molecular basis for the ATPase-powered substrate translocation by the Lon AAA+ protease A0A059VAZ3 A0A059VAZ3 3.6 ELECTRON MICROSCOPY 187 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 537 538 6wqh-a1-m1-cD_6wqh-a1-m1-cE 7fd4-a1-m1-cC_7fd4-a1-m1-cD 7fd5-a1-m1-cD_7fd5-a1-m1-cE 7fid-a1-m1-cC_7fid-a1-m1-cD 7fie-a1-m1-cD_7fie-a1-m1-cE 7fiz-a1-m1-cD_7fiz-a1-m1-cE SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV SDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVVQ 6wqk-a1-m1-cB_6wqk-a1-m1-cE hnRNPA2 Low complexity domain (LCD) determined by cryoEM P22626 P22626 3.1 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 6wqk-a1-m1-cA_6wqk-a1-m1-cC 6wqk-a1-m1-cA_6wqk-a1-m1-cD GYGNQGGGYGGGYDNYGGGNYGSGNYNDFGNYNQQPSNYGPMKSGNFGGSRNMGGPY GYGNQGGGYGGGYDNYGGGNYGSGNYNDFGNYNQQPSNYGPMKSGNFGGSRNMGGPY 6wqk-a1-m1-cD_6wqk-a1-m1-cE hnRNPA2 Low complexity domain (LCD) determined by cryoEM P22626 P22626 3.1 ELECTRON MICROSCOPY 240 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 57 57 6wqk-a1-m1-cA_6wqk-a1-m1-cB 6wqk-a1-m1-cA_6wqk-a1-m1-cE 6wqk-a1-m1-cB_6wqk-a1-m1-cC GYGNQGGGYGGGYDNYGGGNYGSGNYNDFGNYNQQPSNYGPMKSGNFGGSRNMGGPY GYGNQGGGYGGGYDNYGGGNYGSGNYNDFGNYNQQPSNYGPMKSGNFGGSRNMGGPY 6wqm-a1-m1-cB_6wqm-a1-m1-cC Crystal structure of 2,3,4,5-tetrahydropyridine-2-carboxylate N-succinyltransferase from Bartonella henselae Q6G549 Q6G549 2.15 X-RAY DIFFRACTION 128 1.0 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 279 280 6wqm-a1-m1-cA_6wqm-a1-m1-cC 6wqm-a1-m1-cB_6wqm-a1-m1-cA 6wqm-a2-m1-cD_6wqm-a2-m1-cE 6wqm-a2-m1-cF_6wqm-a2-m1-cD 6wqm-a2-m1-cF_6wqm-a2-m1-cE DLTQLEMIIEKAFDDRNSINTTTKGEILESVEHALNLLDKGEVRVVKRQKNGKWHVHQWLKKAVLLSFRLNPMQIMTGGVNGTSWWDKVPSKFSHWQEADFKKADFRSVPGAIVRHSAYIAPNVILMPSFVNLGAFVDEGTMVDTWATVGSCAQIGKHVHLSGGVGIGGVLEPLQANPTIIEDHCFIGARSEVVEGCIIREGSVLGMGVFIGKSTKIIDRTTGEIFIGEVPPYSVVVPGSLPGKPLPNGEIGPNLYCAVIVKRVDQKTREKTSINDLLR TDLTQLEMIIEKAFDDRNSINTTTKGEILESVEHALNLLDKGEVRVVKRQKNGKWHVHQWLKKAVLLSFRLNPMQIMTGGVNGTSWWDKVPSKFSHWQEADFKKADFRSVPGAIVRHSAYIAPNVILMPSFVNLGAFVDEGTMVDTWATVGSCAQIGKHVHLSGGVGIGGVLEPLQANPTIIEDHCFIGARSEVVEGCIIREGSVLGMGVFIGKSTKIIDRTTGEIFIGEVPPYSVVVPGSLPGKPLPNGEIGPNLYCAVIVKRVDQKTREKTSINDLLR 6wsg-a1-m1-cA_6wsg-a1-m1-cB ClpX-ClpP complex bound to ssrA-tagged GFP, intermediate complex P0A6H1 P0A6H1 3.16 ELECTRON MICROSCOPY 61 1.0 562 (Escherichia coli) 562 (Escherichia coli) 301 334 PTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTDVENIIQKLLQKSDYDVQKAQRGIVYIDEIDKISRGVQQALLKLIEGTVVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIY ALPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKSDYDVQKAQRGIVYIDEIDKISRKSDNTRDVSGEGVQQALLKLIEGTVAAVPPFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIYG 6wsg-a1-m1-cA_6wsg-a1-m1-cF ClpX-ClpP complex bound to ssrA-tagged GFP, intermediate complex P0A6H1 P0A6H1 3.16 ELECTRON MICROSCOPY 62 0.987 562 (Escherichia coli) 562 (Escherichia coli) 301 331 PTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTDVENIIQKLLQKSDYDVQKAQRGIVYIDEIDKISRGVQQALLKLIEGTVVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAKSDKASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIY LPTPHEIRNHLDDYVIGQEQAKKVLAVAVYNHYKRLRNGDTSNGVELGKSNILLIGPTGSGKTLLAETLARLLDVPFTMADATTLTEAGYVGEDVENIIQKLLQKSDYDVQKAQRGIVYIDEIDKISRKTRDVSGEGVQQALLKLIEGTVAAVPPQFLQVDTSKILFICGGAFAGLDKVISHRVETGSGIGFGATVKAASEGELLAQVEPEDLIKFGLIPEFIGRLPVVATLNELSEEALIQILKEPKNALTKQYQALFNLEGVDLEFRDEALDAIAKKAMARKTGARGLRSIVEAALLDTMYDLPSMEDVEKVVIDESVIDGQSEPLLIY 6wsh-a1-m1-cA_6wsh-a1-m1-cB Crystal structure of EutV from Enterococcus faecalis Q834L5 Q834L5 2.12 X-RAY DIFFRACTION 123 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 190 190 6ww6-a1-m1-cA_6ww6-a1-m1-cB NMDGRIVIVDDEPITRLDIRDIVIEAGYEVVGEAADGFEAIEVCKKTQPDLVLMDIQMPILDGLKAGKKIVQDQLASSIVFLSAYSDVQNTDKAKKLGALGYLVKPLDEKSLIPTIEMSIERGKQTQLLLSQIDKLSLKLEERKIIEKAKGILVKENHISEEEAYQMLRTLSMNKRARMSEIAELIVMDD NMDGRIVIVDDEPITRLDIRDIVIEAGYEVVGEAADGFEAIEVCKKTQPDLVLMDIQMPILDGLKAGKKIVQDQLASSIVFLSAYSDVQNTDKAKKLGALGYLVKPLDEKSLIPTIEMSIERGKQTQLLLSQIDKLSLKLEERKIIEKAKGILVKENHISEEEAYQMLRTLSMNKRARMSEIAELIVMDD 6wsm-a1-m1-cA_6wsm-a1-m2-cA Crystal structure of coiled coil region of human septin 8 Q92599 Q92599 2.451 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 SELQRKEEEMRQMFVNKVKETELELKEKERELHEKFEHLKRVHQEEKRKVEEKRRELEEETNAFNRRKAAVEAL SELQRKEEEMRQMFVNKVKETELELKEKERELHEKFEHLKRVHQEEKRKVEEKRRELEEETNAFNRRKAAVEAL 6wt2-a2-m1-cC_6wt2-a2-m1-cD Crystal Structure of Putative NAD(P)H-Flavin Oxidoreductase from Neisseria meningitidis A0A0U1RIB4 A0A0U1RIB4 1.75 X-RAY DIFFRACTION 220 1.0 122587 (Neisseria meningitidis Z2491) 122587 (Neisseria meningitidis Z2491) 213 213 6wt2-a1-m1-cA_6wt2-a1-m1-cB TVLDREQVLSAFKNRKSCRHYDAARKISAEDFQFILELGRLSPSSVGSEPWQFVVVQNPEIRQAIKPFSWGADALDTASHLVVFLAKKNARFDSPFLESLKRRGVTEPDAAKSLARYQAFQADDIKILDDSRALFDWCCRQTYIALGNTGAAAGIDSCPVEGFNYADERVLSGQFGLFDAAEWGVSVAATFGYRVQEIATKARRPLEETVIWA TVLDREQVLSAFKNRKSCRHYDAARKISAEDFQFILELGRLSPSSVGSEPWQFVVVQNPEIRQAIKPFSWGADALDTASHLVVFLAKKNARFDSPFLESLKRRGVTEPDAAKSLARYQAFQADDIKILDDSRALFDWCCRQTYIALGNTGAAAGIDSCPVEGFNYADERVLSGQFGLFDAAEWGVSVAATFGYRVQEIATKARRPLEETVIWA 6wt4-a1-m1-cB_6wt4-a1-m1-cA Structure of a bacterial STING receptor from Flavobacteriaceae sp. in complex with 3',3'-cGAMP P0DUD7 P0DUD7 1.78 X-RAY DIFFRACTION 90 1.0 49546 (Flavobacteriaceae) 49546 (Flavobacteriaceae) 140 147 SPAFALAVGYFKNFIFPAITQIKENGEVNPKICIYKPKHFDELTSTNIDMIKAELTNKKYNLSEINLSLKGARARDILTLNKKSKIHSYFDFPNTLLSLYSYVKKFVELLIEQFYLKLNELIQENNLTNNITFCDKNLQG SPAFALAVGYFKNFIFPAITQIKENGEVNPKICIYKPKHFDELTSTNIDMIKAELTNKKYNLSEINLSLKGARARDILTLNKKSKIHSYFDFPNTLLSLYSYVDSELKKKKFVELLIEQFYLKLNELIQENNLTNNITFCDKNLQGL 6wt5-a2-m1-cD_6wt5-a2-m1-cC Structure of a bacterial STING receptor from Capnocytophaga granulosa A0A381HAP5 A0A381HAP5 2.8 X-RAY DIFFRACTION 84 0.985 45242 (Capnocytophaga granulosa) 45242 (Capnocytophaga granulosa) 134 150 DINFFPSSTLAAVYYENFIKPTCSHIINNGGLLDIYKKCTIKIIIPKKLTSDVNSQFQRIKAKIETKELSFEYPRNINVEVIIDFPTILSGINYAISNLLDYEAILSRELERFVYTLKKIALRDGFDDLIKIVD NDSDINFFPSSTLAAVYYENFIKPTCSHIINNGGLLDKNGYIYKKCTIKIIIPKKLTSDVNSQFQRIKAKIETKELSFEYLGRPRNINVEIIAEDGEVIIDFPTILSGINYAISNLLEAILSRELERFVYTLKKIALRDGFDDLIKIVDE 6wt6-a1-m1-cA_6wt6-a1-m2-cA Structure of a metazoan TIR-STING receptor from C. gigas P0DUE1 P0DUE1 2.41 X-RAY DIFFRACTION 147 1.0 29159 (Crassostrea gigas) 29159 (Crassostrea gigas) 309 309 6wt7-a1-m1-cA_6wt7-a1-m2-cA SVPVLRHPHVYHAFISYCADADTSHARTILDSVESRGFTCCFAERDFLPGECTSDVVVDAIHCSKNVILVISPASLQSEWSKFEMLMAVDDSHQRNNVCLVPVLLGGVKVDDLPPPLRPLTCIRNTDDIIQAISKPVGNLAHGFAWGYYYGYLKIILPDLDKTVRQWRRVNNAEGRMSEKLFLFFPQSCRCRDSIADESSLIKHRGHLPKNTIYSVTDDNGEDYFFAGEYIGVIHTMFEMEQNATTGLQTREKYVQSMRFYLTLKRILDTDPECSKKCKIVFYKDVNNSSDAMPRLICNEIKNQLRKES SVPVLRHPHVYHAFISYCADADTSHARTILDSVESRGFTCCFAERDFLPGECTSDVVVDAIHCSKNVILVISPASLQSEWSKFEMLMAVDDSHQRNNVCLVPVLLGGVKVDDLPPPLRPLTCIRNTDDIIQAISKPVGNLAHGFAWGYYYGYLKIILPDLDKTVRQWRRVNNAEGRMSEKLFLFFPQSCRCRDSIADESSLIKHRGHLPKNTIYSVTDDNGEDYFFAGEYIGVIHTMFEMEQNATTGLQTREKYVQSMRFYLTLKRILDTDPECSKKCKIVFYKDVNNSSDAMPRLICNEIKNQLRKES 6wtb-a1-m1-cA_6wtb-a1-m1-cB Sort-Tagged Drosophila Cryptochrome O77059 O77059 2.58 X-RAY DIFFRACTION 60 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 537 547 4jzy-a1-m1-cA_4jzy-a1-m1-cB 4k03-a1-m1-cA_4k03-a1-m1-cB TRGANVIWFRHGLRLHDNPALLAALADKDQGIALIPVFIFDGESAGTKNVGYNRMRFLLDSLQDIDDQLQAATDGRGRLLVFEGEPAYIFRRLHEQVRLHRICIEQDCEPIWNERDESIRSLCRELNIDFVEKVSHTLWDPQLVIETNGGIPPLTYQMFLHTVQIIGLPPRPTADARLEDATFVELDPEFCRSLKLFEQLPTPEHFNVYGDNMGFLAKINWRGGETQALLLLDERLKVEQHAFERGFYLPNQALPNIHDSPKSMSAHLRFGCLSVRRFYWSVHDLFKNVQLRACVRGVQMTGGAHITGQLIWREYFYTMSVNNPNYDRMEGNDICLSIPWAKPNENLLQSWRLGQTGFPLIDGAMRQLLAEGWLHHTLRNTVATFLTRGGLWQSWEHGLQHFLKYLLDADWSVCAGNWMWVSSSAFERLLDSSLVTCPVALAKRLDPDGTYIKQYVPELMNVPKEFVHEPWRMSAEQQEQYECLIGVHYPERIIDLSMAVKRNMLAMKSLRNSLITPPPHCRPSNEEEVRQFFWLAD ATRGANVIWFRHGLRLHDNPALLAALADKDQGIALIPVFIFDGESAGTKNVGYNRMRFLLDSLQDIDDQLQAATDGRGRLLVFEGEPAYIFRRLHEQVRLHRICIEQDCEPIWNERDESIRSLCRELNIDFVEKVSHTLWDPQLVIETNGGIPPLTYQMFLHTVQIIGLPPRPTADARLEDATFVELDPEFCRSLKLFEQLPTPEHFNVYGDNMGFLAKINWRGGETQALLLLDERLKVEQHAFERGFYLPNQALPNIHDSPKSMSAHLRFGCLSVRRFYWSVHDLFKNVQLRACVRGVQMTGGAHITGQLIWREYFYTMSVNNPNYDRMEGNDICLSIPWAKPNENLLQSWRLGQTGFPLIDGAMRQLLAEGWLHHTLRNTVATFLTRGGLWQSWEHGLQHFLKYLLDADWSVCAGNWMWVSSSAFERLLDSSLVTCPVALAKRLDPDGTYIKQYVPELMNVPKEFVHEPWRMSAEQQEQYECLIGVHYPERIIDLSMAVKRNMLAMKSLRNSLITPPPHCRPSNEEEVRQFFWLADLPGTGGGGC 6wtw-a1-m1-cA_6wtw-a1-m1-cB Structure of LaINDY crystallized in the presence of alpha-ketoglutarate and malate Q5FKK5 Q5FKK5 2.86 X-RAY DIFFRACTION 183 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 489 489 6wu1-a1-m1-cA_6wu1-a1-m1-cB 6wu2-a1-m1-cA_6wu2-a1-m1-cB 6wu4-a1-m1-cA_6wu4-a1-m1-cB AMKTLEKVNYKGFIWPLAVGIVLWLITPWRPGGLSVQAWEMFAIFVATIVGCITKPLPIGGTTLLGMVVTVLVGLAPVKDVVNSKGVVIQTGILSSFGNSAAWLIAMAFIMAHGISKTGLGNRVAYVMIEKFGKRSIGIGYAITGLELMMGALIPSNSARTGGVTWPVVESISKSYDSKPNDPSRKKIGAYLDFMAFHANILSTALFITGAAPNLVAQQMAAQKGYQMSWVSWFWAALVPVLVATVIIPLVIYKMYPPEVKETPNAKNWADDKLKEMGPISKPEKIMATVFCLAILLWVLSGFFKIPQLDSAFVAFLAVTLLLITGVLSMEDALHETGAWNILIWLSILIFMAGKLISYGFIAWFAKFIQSEVHGINWGLVLVVLILLMFYTHYFFASGTAHMTALYLPFLTVATAMGAPLGLSAMLLAFTGVINASTTHYANGPASILATTGYVKQSEWWKMNFILGLIYMVIFGIVGTIWMKIIGIW AMKTLEKVNYKGFIWPLAVGIVLWLITPWRPGGLSVQAWEMFAIFVATIVGCITKPLPIGGTTLLGMVVTVLVGLAPVKDVVNSKGVVIQTGILSSFGNSAAWLIAMAFIMAHGISKTGLGNRVAYVMIEKFGKRSIGIGYAITGLELMMGALIPSNSARTGGVTWPVVESISKSYDSKPNDPSRKKIGAYLDFMAFHANILSTALFITGAAPNLVAQQMAAQKGYQMSWVSWFWAALVPVLVATVIIPLVIYKMYPPEVKETPNAKNWADDKLKEMGPISKPEKIMATVFCLAILLWVLSGFFKIPQLDSAFVAFLAVTLLLITGVLSMEDALHETGAWNILIWLSILIFMAGKLISYGFIAWFAKFIQSEVHGINWGLVLVVLILLMFYTHYFFASGTAHMTALYLPFLTVATAMGAPLGLSAMLLAFTGVINASTTHYANGPASILATTGYVKQSEWWKMNFILGLIYMVIFGIVGTIWMKIIGIW 6wu5-a1-m1-cA_6wu5-a1-m1-cB Human Calcium and Integrin Binding Protein 3 Q96Q77 Q96Q77 1.88 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 183 QTVFTHEQLEAYQDCTFFTRKEIMRLFYRYQDLAPQLVPLDYTTCPDVKVPYELIGSMPELKDNPFRQRIAQVFSEDGDGHMTLDNFLDMFSVMSEMAPRDLKAYYAFKIYDFNNDDYICAWDLEQTVTKLTRGELSAEEVSLVCEKVLDEADGDHDGRLSLEDFQNMILRAPDFLSTFHI KQTVFTHEQLEAYQDCTFFTRKEIMRLFYRYQDLAPQLVPLDYTTCPDVKVPYELIGSMPELKDNPFRQRIAQVFSEDGDGHMTLDNFLDMFSVMSEMAPRDLKAYYAFKIYDFNNDDYICAWDLEQTVTKLTRGELSAEEVSLVCEKVLDEADGDHDGRLSLEDFQNMILRAPDFLSTFHIR 6wu7-a1-m1-cA_6wu7-a1-m1-cB Human Calcium and Integrin Binding Protein 3 E150Q K151H Q96Q77 Q96Q77 1.84 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 183 QTVFTHEQLEAYQDCTFFTRKEIMRLFYRYQDLAPQLVPLDYTTCPDVKVPYELIGSMPELKDNPFRQRIAQVFSEDGDGHMTLDNFLDMFSVMSEMAPRDLKAYYAFKIYDFNNDDYICAWDLEQTVTKLTRGELSAEEVSLVCQHVLDEADGDHDGRLSLEDFQNMILRAPDFLSTFHI QTVFTHEQLEAYQDCTFFTRKEIMRLFYRYQDLAPQLVPLDYTTCPDVKVPYELIGSMPELKDNPFRQRIAQVFSEDGDGHMTLDNFLDMFSVMSEMAPRDLKAYYAFKIYDFNNDDYICAWDLEQTVTKLTRGELSAEEVSLVCQHVLDEADGDHDGRLSLEDFQNMILRAPDFLSTFHIRI 6wue-a1-m1-cB_6wue-a1-m2-cA Tetragonal crystal form of SbtB from Synechocystis PCC6803 P73954 P73954 1.8 X-RAY DIFFRACTION 90 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 87 90 PANKLVIVTEKILLKKIAKIIDESGAKGYTVMNTANIKFEILTETREMAEEIADRVAVKYFNDYAGIIYICSAEVLYGHTFCGPEGC AKPANKLVIVTEKILLKKIAKIIDESGAKGYTVMNTEANIKFEILTETREMAEEIADRVAVKYFNDYAGIIYICSAEVLYGHTFCGPEGC 6wum-a1-m1-cB_6wum-a1-m1-ca Mitochondrial SAM complex - dimer 2 in detergent G2QFF9 G2QFF9 3.6 ELECTRON MICROSCOPY 46 1.0 78579 (Thermothelomyces thermophilus) 78579 (Thermothelomyces thermophilus) 445 445 STLEVHGATNTRRSLLDQIFKPVLEDTTTLGQVLDRVGAATKKLARFDIFKEEGFGVFLSEAALDISIRVKEKSRLVFSAGTDFGNAEGSAYTNAVVRNIFGGAETLTVNASTGTRTRSAYNATFSTPINGNPDLRLSVEALRSATQKPWASHEEHLTGANLRLAWLTEKGDTHALAYSSVWRQLTGLAPTASPTVRADAGDSLKSSLTHTFTRDRRDNPMLPQSGYLFRSVSELAGWGPLNGDVSFAKTEVEASGALPVAIKSGVSVGGGLRLGVLYPLPLGYSLTGAAQPSRINDRFQLGGPNDVRGFKIGGLGPHDGVDAVGGDVFAAGSVNALLPLPRTGPDSPLRLQLYANAGRLVALNSKGTDKEGKEGLAMDSAAVFKGVKSAVGKLTNGIPSLAAGVGLVYAHPVARFELNFSLPLVLRRGEEGRKGLQVGVGISFL STLEVHGATNTRRSLLDQIFKPVLEDTTTLGQVLDRVGAATKKLARFDIFKEEGFGVFLSEAALDISIRVKEKSRLVFSAGTDFGNAEGSAYTNAVVRNIFGGAETLTVNASTGTRTRSAYNATFSTPINGNPDLRLSVEALRSATQKPWASHEEHLTGANLRLAWLTEKGDTHALAYSSVWRQLTGLAPTASPTVRADAGDSLKSSLTHTFTRDRRDNPMLPQSGYLFRSVSELAGWGPLNGDVSFAKTEVEASGALPVAIKSGVSVGGGLRLGVLYPLPLGYSLTGAAQPSRINDRFQLGGPNDVRGFKIGGLGPHDGVDAVGGDVFAAGSVNALLPLPRTGPDSPLRLQLYANAGRLVALNSKGTDKEGKEGLAMDSAAVFKGVKSAVGKLTNGIPSLAAGVGLVYAHPVARFELNFSLPLVLRRGEEGRKGLQVGVGISFL 6wum-a1-m1-cC_6wum-a1-m1-cb Mitochondrial SAM complex - dimer 2 in detergent G2Q6R7 G2Q6R7 3.6 ELECTRON MICROSCOPY 69 1.0 78579 (Thermothelomyces thermophilus) 78579 (Thermothelomyces thermophilus) 346 346 6wul-a1-m1-cC_6wul-a1-m1-cF SAWSHPQFEKAVQLHVWGPAFGLPSIDAECLAAIAYLAQTLGSADYQLIQSSPSAVPTQHLPTLYDSRTSTWIGGFTSITAHLHAASATADGTAYTAFLSAHAAPLLALSLYVSSANYGAATRPAYSAVLPLPLPWTEPPAVRAAMARRAAHLGLSSLKSRIRLEEAAREVLDVLAEVDWAAGGGGRQVAAEVRCLAFGYLALMLLPDVPRPWLREIMEGRYPALCTFVRDFRARVFPQGGKLLPWADGGAQASASASASASAVALRFVRAVMAEVPLVGEWWSRWWTARKKREVLASKGAKPAPSNDLLLLLGAGLGLTVVGAGVFFYRGLPPFGEAVQVWRKPV SAWSHPQFEKAVQLHVWGPAFGLPSIDAECLAAIAYLAQTLGSADYQLIQSSPSAVPTQHLPTLYDSRTSTWIGGFTSITAHLHAASATADGTAYTAFLSAHAAPLLALSLYVSSANYGAATRPAYSAVLPLPLPWTEPPAVRAAMARRAAHLGLSSLKSRIRLEEAAREVLDVLAEVDWAAGGGGRQVAAEVRCLAFGYLALMLLPDVPRPWLREIMEGRYPALCTFVRDFRARVFPQGGKLLPWADGGAQASASASASASAVALRFVRAVMAEVPLVGEWWSRWWTARKKREVLASKGAKPAPSNDLLLLLGAGLGLTVVGAGVFFYRGLPPFGEAVQVWRKPV 6wun-a1-m1-cB_6wun-a1-m1-cD Mitochondrial SAM complex - dimer 3 in detergent G2QFF9 G2QFF9 3.9 ELECTRON MICROSCOPY 44 1.0 78579 (Thermothelomyces thermophilus) 78579 (Thermothelomyces thermophilus) 403 403 RSLLDQIFKPVLEDQVLDRVGAATKKLARFDIFVKEKSRLVFSAGTDFGNAEGSAYTNAVVRNIFGGAETLTVNASTGTRTRSAYNATFSTPINGNPDLRLSVEALRSATQKPWASHEEHLTGANLRLAWLTEKGDTHALAYSSVWRQLTGLAPTASPTVRADAGDSLKSSLTHTFTRDRRDNPMLPQSGYLFRSVSELAGWGPLNGDVSFAKTEVEASGALPVKSGVSVGGGLRLGVLYPLPLGYSLTGAAQPSRINDRFQLGGPNDVRGFKIGGLGPHDGVDAVGGDVFAAGSVNALLPLPRTGPDSPLRLQLYANAGRLVALNSKGTDEGLAMDSAAVFKGVKSAVGKLTNGIPSLAAGVGLVYAHPVARFELNFSLPLVLRRGEEGRKGLQVGVGISFL RSLLDQIFKPVLEDQVLDRVGAATKKLARFDIFVKEKSRLVFSAGTDFGNAEGSAYTNAVVRNIFGGAETLTVNASTGTRTRSAYNATFSTPINGNPDLRLSVEALRSATQKPWASHEEHLTGANLRLAWLTEKGDTHALAYSSVWRQLTGLAPTASPTVRADAGDSLKSSLTHTFTRDRRDNPMLPQSGYLFRSVSELAGWGPLNGDVSFAKTEVEASGALPVKSGVSVGGGLRLGVLYPLPLGYSLTGAAQPSRINDRFQLGGPNDVRGFKIGGLGPHDGVDAVGGDVFAAGSVNALLPLPRTGPDSPLRLQLYANAGRLVALNSKGTDEGLAMDSAAVFKGVKSAVGKLTNGIPSLAAGVGLVYAHPVARFELNFSLPLVLRRGEEGRKGLQVGVGISFL 6wux-a1-m1-cA_6wux-a1-m1-cB NMR soltution structure of homotarsinin homodimer - Htr P84337 P84337 NOT SOLUTION NMR 23 1.0 306084 (Phyllomedusa tarsius) 306084 (Phyllomedusa tarsius) 24 24 NLVSDIIGSKKHMEKLISIIKKCR NLVSDIIGSKKHMEKLISIIKKCR 6wvv-a1-m1-cF_6wvv-a1-m1-cE Plasmodium vivax M17 leucyl aminopeptidase A5K3U9 A5K3U9 2.33 X-RAY DIFFRACTION 12 0.988 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 497 503 7k5k-a1-m1-cA_7k5k-a1-m1-cE 7k5k-a1-m1-cB_7k5k-a1-m1-cD 7k5k-a1-m1-cC_7k5k-a1-m1-cF ATTVPQVVSLDPTTIPIDYHTPIDDLSIEVKDISAEACPADEGLIVFLLNSQIKINSSVKDNTINEFMENFTGKLGTSYANDQKKYVSLAYVGCGPANEETELEIRKVAYALVTLLHDSHKKVSIIFEIKIEEALFRFFLEHLFYEYVTDERFKSATDFIKNLSLHIANADAYKGQIDKARVYFYGTYYAAQLIAAPSNYCNPVSLSNAAVELAQKVNLECKILDVKELEELKMGAYLSVGKGSMYPNKFIHLTYKGAQTGKKIALIGKGITFDSGGYNLKAAPGSMIDLMKFDMSGCAAVLGCAYCIGTIKPDNVEVHFLSAVCENMVSKNSYRPGDIITASNGKTIEVGNTDAEGRLTLADALVYAEKLGVDYIVDIATLTGAMLYSLGTSYAGVFGNNDQLINKILSSSKTSNEPVWWLPIINEYRSSLNSKYADLNNISSSVKASSVVASLFLKEFIENTPWAHIDIAGVSWNFKARKPKGFGVRLLTEFVLN ATTVPQVVSLDPTTIPIDYHTPIDDLSIEVKDISAEACPADEGLIVFLLNSQIKINDNTINEFLKNMENFTGKLGTSKSFYIANDQKKYVSLAYVGCGPANEETELEIRKVAYALVTLLHDSHKKVSIIFEIKIEEALFRFFLEHLFYEYVTDERFKSADETDFIKNLSLHIANADAYKGQIDKARVYFYGTYYAAQLIAAPSNYCNPVSLSNAAVELAQKVNLECKILDVKELEELKMGAYLSVGKGSMYPNKFIHLTYKGAQTKKKIALIGKGITFDSGGYNLKAAPGSMIDLMKFDMSGCAAVLGCAYCIGTIKPDNVEVHFLSAVCENMVSKNSYRPGDIITASNGKTIEVGNTDAEGRLTLADALVYAEKLGVDYIVDIATLTGAMLYSLGTSYAGVFGNNDQLINKILSSSKTSNEPVWWLPIINEYRSSLNSKYADLNNISSSVKASSVVASLFLKEFIENTPWAHIDIAGVSWNFKARKPKGFGVRLLTEFVLND 6ww1-a1-m1-cA_6ww1-a1-m1-cB Crystal structure of the LmFPPS mutant E97Y Q4QBL1 Q4QBL1 2.05 X-RAY DIFFRACTION 163 1.0 5664 (Leishmania major) 5664 (Leishmania major) 362 362 4jzb-a1-m1-cA_4jzb-a1-m1-cB 4jzx-a1-m1-cA_4jzx-a1-m1-cB 4k10-a1-m1-cA_4k10-a1-m1-cB 4k10-a2-m1-cC_4k10-a2-m1-cD 6vjc-a1-m1-cA_6vjc-a1-m1-cB 6w7i-a1-m1-cA_6w7i-a1-m1-cB MAHMERFQKVYEEVQEFLLGDAEKRFEMDVHRKGYLKSMMDTTCLGGKYNRGLCVVDVAEAMAKDTQMDAAAMERVLHDACVCGWMIEMLQAHFLVYDDIMDHSKTRRGKPCWYLHPGVTAQVAINDGLILLAWATQMALHYFADRPFLAEVLRVFHDVDLTTTIGQLYDVTSMVDSAKLDAKVAHANTTDYVEYTPFNHRRIVVYKTAYYTYWLPLVMGLLVSGTLEKVDKKATHKVAMVMGEYFQVQDDVMDCFTPPEKLGKIGTDIEDAKCSWLAVTFLTTAPAEKVAEFKANYGSTDPAAVAVIKQLYTEQNLLARFEEYEKAVVAEVEQLIAALEAQNAAFAASVKVLWSKTYKRQK MAHMERFQKVYEEVQEFLLGDAEKRFEMDVHRKGYLKSMMDTTCLGGKYNRGLCVVDVAEAMAKDTQMDAAAMERVLHDACVCGWMIEMLQAHFLVYDDIMDHSKTRRGKPCWYLHPGVTAQVAINDGLILLAWATQMALHYFADRPFLAEVLRVFHDVDLTTTIGQLYDVTSMVDSAKLDAKVAHANTTDYVEYTPFNHRRIVVYKTAYYTYWLPLVMGLLVSGTLEKVDKKATHKVAMVMGEYFQVQDDVMDCFTPPEKLGKIGTDIEDAKCSWLAVTFLTTAPAEKVAEFKANYGSTDPAAVAVIKQLYTEQNLLARFEEYEKAVVAEVEQLIAALEAQNAAFAASVKVLWSKTYKRQK 6wwa-a1-m1-cB_6wwa-a1-m1-cA Crystal structure of human SHLD2-SHLD3-REV7 complex Q9UI95 Q9UI95 3.8 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 149 192 GQVVADVLCEFLEVAVHLILYVREVYPVGIFQKRKKYNVPVQMSCHPELNQYIQDTLHCVKPLLEKNDVEKVVVVILDKEHRPVEKFVFEITQPPLLSHVEQLLRAFILKISVCDAVLDHNPPGCTFTVLVHTREAATRMQLYVEERAH GQVVADVLCEFLEVAVHLILYVREVYPVGIFQKRKKYNVPVQMSCHPELNQYIQDTLHCVKPLLEKNDVEKVVVVILDKEHRPVEKFVFEITQPPLLSLLSHVEQLLRAFILKISVCDAVLDHNPPGCTFTVLVHTREAATRNMEKIQVIKDFPWILADEQDVHMHDPRLIPLKTMTSDILKMQLYVEERAH 6wwa-a2-m1-cC_6wwa-a2-m1-cD Crystal structure of human SHLD2-SHLD3-REV7 complex Q9UI95 Q9UI95 3.8 X-RAY DIFFRACTION 57 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 157 192 GQVVADVLCEFLEVAVHLILYVREVYPVGIFQKRKKYNVPVQMSCHPELNQYIQDTLHCVKPLLEKNDVEKVVVVILDKEHRPVEKFVFEITQPPSSDSLLSHVEQLLRAFILKISVCDAVLDHNPPGCTFTVLVHTRKTMTSDILKMQLYVEERAH GQVVADVLCEFLEVAVHLILYVREVYPVGIFQKRKKYNVPVQMSCHPELNQYIQDTLHCVKPLLEKNDVEKVVVVILDKEHRPVEKFVFEITQPPLLSLLSHVEQLLRAFILKISVCDAVLDHNPPGCTFTVLVHTREAATRNMEKIQVIKDFPWILADEQDVHMHDPRLIPLKTMTSDILKMQLYVEERAH 6wwd-a1-m1-cA_6wwd-a1-m1-cD Crystal structure of Nucleoside-triphosphatase / dITP/XTP pyrophosphatase from Mycobacterium abscessus ATCC 19977 / DSM 44196 B1MLZ4 B1MLZ4 2.1 X-RAY DIFFRACTION 206 0.98 561007 (Mycobacteroides abscessus ATCC 19977) 561007 (Mycobacteroides abscessus ATCC 19977) 196 199 MKILVASRNPKKLAELSRVLESSGVSGVELVSLTDVPEYEEVPETGASFEDNALIKAREGVKHTGLACVADDSGLAVDALNWMPGVLSARWSGRHGDDAANTALLLAQLSDIPDERRGAAFVSACALVTPEGEEVVVEGRWKGSIARIPAGQNGFGYDPIFVPRGGLRTAAELTPEEKDAVSHRGRALAALLPMLR MKILVASRNPKKLAELSRVLESSGVSGVELVSLTDVPEYEEVPETGASFEDNALIKAREGVKHTGLACVADDSGLAVDALNWMPGVLSARWSGRHGDDAANTALLLAQLSDIPDERRGAAFVSACALVTPEGEEVVVEGRWKGSIARIPAGQNGFGYDPIFVPRGGLRTAAELTPEEKHRGRALAALLPMLRNLVNLGR 6wwl-a1-m1-cN_6wwl-a1-m1-cK KIF14[391-755] dimer two-heads-bound state - AMP-PNP in complex with a microtubule L0N7N1 L0N7N1 3.1 ELECTRON MICROSCOPY 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 365 367 6wwg-a1-m1-cN_6wwg-a1-m1-cK 6wwh-a1-m1-cN_6wwh-a1-m1-cK 6wwk-a1-m1-cN_6wwk-a1-m1-cK NSQVTVAVRVRPFSKREKTEKASQVVFTNGEEITVEHPDMKQVYSFIYDVSFWSFDECHPGYASQTTVYETLAAPLLDRAFEGYNTCLFAYGQTGSGKSYTMMGLNEEPGIIPRFCEDLFAQIAKKQTSEVSYHLEMSFFEVYNEKIHDLLVCKGENGQRKQPLRAREHPVSGPYVEGLSMNVVSSYSDIQSWLELGNKQRATAATGMNDKSSRSHSVFTLVMTQTKTEVVEGEEHDHRITSRINLVDLAGSERCSTAHSSGQRLKEGVSINKSLLTLGKVISALSEQANGKRVFIPYRESTLTWLLKESLGGNSKTAMIATVSPAASNIEETLSTLRYATQARLIVNIAKVNEDMNAKLIRELK GSNSQVTVAVRVRPFSKREKTEKASQVVFTNGEEITVEHPDMKQVYSFIYDVSFWSFDECHPGYASQTTVYETLAAPLLDRAFEGYNTCLFAYGQTGSGKSYTMMGLNEEPGIIPRFCEDLFAQIAKKQTSEVSYHLEMSFFEVYNEKIHDLLVCKGENGQRKQPLRAREHPVSGPYVEGLSMNVVSSYSDIQSWLELGNKQRATAATGMNDKSSRSHSVFTLVMTQTKTEVVEGEEHDHRITSRINLVDLAGSERCSTAHSSGQRLKEGVSINKSLLTLGKVISALSEQANGKRVFIPYRESTLTWLLKESLGGNSKTAMIATVSPAASNIEETLSTLRYATQARLIVNIAKVNEDMNAKLIRELK 6wxq-a1-m1-cA_6wxq-a1-m1-cB Crystal structure of CRISPR-associated transcription factor Csa3 complexed with cA4 Q97Y88 Q97Y88 2.05 X-RAY DIFFRACTION 114 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 208 212 2wte-a1-m1-cB_2wte-a1-m1-cA 6w11-a1-m1-cB_6w11-a1-m1-cA MKSYFVTMGFNETFLLRLLNETSAQKEDSLVIVVPSPIVSGTRAAIESLRAQISRLNYPPPRIYEIEITDFNLALSKILDIILTLPEPIISDLTMGMRMINTLILLGIIVSRKRFTVYVRDEGGGSRVISFNDNTIRALMRDYSREEMKLLNVLYETKGTGITELAKMLDKSEKTLINKIAELKKFGILTQRKVELNELGLNVIKLNK MKSYFVTMGFNETFLLRLLNETSAQKEDSLVIVVPSPIVSGTRAAIESLRAQISRLNYPPPRIYEIEITDFNLALSKILDIILTLPEPIISDLTMGMRMINTLILLGIIVSRKRFTVYVRDEGGGSRVISFNDNTIRALMRDYSREEMKLLNVLYETKGTGITELAKMLDKSEKTLINKIAELKKFGILTQKGKDRKVELNELGLNVIKLNK 6wxu-a1-m1-cA_6wxu-a1-m1-cC CryoEM structure of mouse DUOX1-DUOXA1 complex in the dimer-of-dimer state A2AQ92 A2AQ92 2.7 ELECTRON MICROSCOPY 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 834 834 NSISWEVQRFDGWYNNLMEHRWGSKGSRLQRLVPASYADGVYQPLKEPYLPNPRHLSNRVMRGSAGQPSLRNRTVLGVFFGYHVLSDLVSVETPGCPAEFLNIYIPHGDPVFDPDKRGNVVLPFQRSRWDRNTGQSPSNPRDQSNQVTGWLDGSAIYGSSHSWSDTLRSFSGGQLASGPDPAFPSDSQSSLLMWMAPDPSTGQGGPRGVYAFGAQRGNREPFLQALGLLWFRYHNLCARKLAQEHPHWGDEELFQHARKRVIATYQNIAMYEWLPSFLKQTPPEYPGYRPFLDPSISPEFVVASEQFLSTMVPSGVYMRNASCHFQGISGALRVCNSYWSREHPKLQRAEDVDALLLGMASQIAEREDHVVVEDMQDFWPGPLKFSRTDYLASCLQRGRDLGLPSYTKAREALGLSPISHWQDINPALSRSNGTVLEATAALYNQDLSRLELLPGGLLESHGDPGPLFSTIVLDQFVRLRDGDRYWFENTRNGLFSKEEIAEIRNTSLRDILVAVTNVDPSALQPNVFFWLAGDPCPQPSQLSAKGLPACAPLFIRDYFEGSGFGFGLTIGTLCCFPLVSLLSAWIVARLRKRTVQQFKRFIENYRRHIGCVAVFYTITGALFLERAYYYAFAAHHSGITDTTRVGIILSRGTAASISFMFSYILLTMCRNLITFLRETFLNRYIPFDAAVDFHRLIASTAIILTVLHSAGHVVNVYLFSISPLSVLSCLFPGLFHDDGSEFPQKYYWWFFQTVPGLTGVLLLLALAIMYVFASHHFRRRSFRGFWLTHHLYIFLYILLIIHGSFALIQMPRFHIFFLVPAIIYVGDKLVSLSR NSISWEVQRFDGWYNNLMEHRWGSKGSRLQRLVPASYADGVYQPLKEPYLPNPRHLSNRVMRGSAGQPSLRNRTVLGVFFGYHVLSDLVSVETPGCPAEFLNIYIPHGDPVFDPDKRGNVVLPFQRSRWDRNTGQSPSNPRDQSNQVTGWLDGSAIYGSSHSWSDTLRSFSGGQLASGPDPAFPSDSQSSLLMWMAPDPSTGQGGPRGVYAFGAQRGNREPFLQALGLLWFRYHNLCARKLAQEHPHWGDEELFQHARKRVIATYQNIAMYEWLPSFLKQTPPEYPGYRPFLDPSISPEFVVASEQFLSTMVPSGVYMRNASCHFQGISGALRVCNSYWSREHPKLQRAEDVDALLLGMASQIAEREDHVVVEDMQDFWPGPLKFSRTDYLASCLQRGRDLGLPSYTKAREALGLSPISHWQDINPALSRSNGTVLEATAALYNQDLSRLELLPGGLLESHGDPGPLFSTIVLDQFVRLRDGDRYWFENTRNGLFSKEEIAEIRNTSLRDILVAVTNVDPSALQPNVFFWLAGDPCPQPSQLSAKGLPACAPLFIRDYFEGSGFGFGLTIGTLCCFPLVSLLSAWIVARLRKRTVQQFKRFIENYRRHIGCVAVFYTITGALFLERAYYYAFAAHHSGITDTTRVGIILSRGTAASISFMFSYILLTMCRNLITFLRETFLNRYIPFDAAVDFHRLIASTAIILTVLHSAGHVVNVYLFSISPLSVLSCLFPGLFHDDGSEFPQKYYWWFFQTVPGLTGVLLLLALAIMYVFASHHFRRRSFRGFWLTHHLYIFLYILLIIHGSFALIQMPRFHIFFLVPAIIYVGDKLVSLSR 6wxx-a2-m1-cC_6wxx-a2-m1-cD crystal structure of cA4-activated Card1 F2NWD3 F2NWD3 3 X-RAY DIFFRACTION 97 1.0 869209 (Treponema succinifaciens DSM 2489) 869209 (Treponema succinifaciens DSM 2489) 372 372 6wxw-a1-m1-cA_6wxw-a1-m1-cB 6wxx-a1-m1-cA_6wxx-a1-m1-cB 6wxy-a1-m1-cB_6wxy-a1-m1-cC 6xl1-a1-m1-cA_6xl1-a1-m1-cB KETILVNLVSEQTIPNVQFIKWYFNKKQTPMKILLVSTKEMEQKEKSLFIKNALHFSDSFVEWETIHTDGNDISKTENILTDYFRDNEYKNIIVNITGGTKIMSLAAFDFFNNKPNTEIFYQPIGKELQELYPNKQKYDMFEVLSLKEYLDAHGISYKYDNECVKDWNYNKTVYDLCVADNRELIKGMIALQNNSYFNNVYKRKDFLDFTQIEEEKFIAINHPAATKENMIKILQIFGFDVSRIEHKHIRYITGGWFEEYVYQKICNEYHNVDEKNVALNVTIQKGNDKNELDVIYLDKDNKLHVIECKSFVDGNEGNRVLNDALYKLQAIIKSKFGLYVKQHLYTKSIIEKETPLNRAKEFGIDIKDGTQL KETILVNLVSEQTIPNVQFIKWYFNKKQTPMKILLVSTKEMEQKEKSLFIKNALHFSDSFVEWETIHTDGNDISKTENILTDYFRDNEYKNIIVNITGGTKIMSLAAFDFFNNKPNTEIFYQPIGKELQELYPNKQKYDMFEVLSLKEYLDAHGISYKYDNECVKDWNYNKTVYDLCVADNRELIKGMIALQNNSYFNNVYKRKDFLDFTQIEEEKFIAINHPAATKENMIKILQIFGFDVSRIEHKHIRYITGGWFEEYVYQKICNEYHNVDEKNVALNVTIQKGNDKNELDVIYLDKDNKLHVIECKSFVDGNEGNRVLNDALYKLQAIIKSKFGLYVKQHLYTKSIIEKETPLNRAKEFGIDIKDGTQL 6wyi-a1-m2-cA_6wyi-a1-m3-cA Crystal structure of EchA19, enoyl-CoA hydratase from Mycobacterium tuberculosis O53561 O53561 1.915 X-RAY DIFFRACTION 125 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 237 237 6wyi-a1-m1-cA_6wyi-a1-m2-cA 6wyi-a1-m1-cA_6wyi-a1-m3-cA ESGPDALVERRGHTLIVTMNRPAARNALSTEMMRIMVQAWDRVDNDPDIRCCILTGAGGYFCAIDALLKGRRLTKPLIAAVEGPAIAGGTEILQGTDIRVAGESAKFGISEAKWSLYPMGGSAVRLVRQIPYTLACDLLLTGRHITAAEAKEMGLIGHVVPDGQALTKALELADAISANGPLAVQAILRSIRETECMPENEAFKIDTQIGIKVFLSDDAKEGPRAFAEKRAPNFQNR ESGPDALVERRGHTLIVTMNRPAARNALSTEMMRIMVQAWDRVDNDPDIRCCILTGAGGYFCAIDALLKGRRLTKPLIAAVEGPAIAGGTEILQGTDIRVAGESAKFGISEAKWSLYPMGGSAVRLVRQIPYTLACDLLLTGRHITAAEAKEMGLIGHVVPDGQALTKALELADAISANGPLAVQAILRSIRETECMPENEAFKIDTQIGIKVFLSDDAKEGPRAFAEKRAPNFQNR 6wzj-a1-m1-cF_6wzj-a1-m1-cE LY3041658 Fab bound to CXCL2 Q0EAC2 Q0EAC2 2.37 X-RAY DIFFRACTION 57 1.0 9541 (Macaca fascicularis) 9541 (Macaca fascicularis) 59 63 1mgs-a1-m1-cA_1mgs-a1-m1-cB ELRCQCLQTLHGIHIQSVNVKAPGPHCAQTEVIATLKNGQKACLNPASPMVKKIIGKML ELRCQCLQTLHGIHPKNIQSVNVKAPGPHCAQTEVIATLKNGQKACLNPASPMVKKIIGKMLN 6wzk-a1-m1-cE_6wzk-a1-m1-cF LY3041658 Fab bound to CXCL3 Q0EAC1 Q0EAC1 1.8 X-RAY DIFFRACTION 64 1.0 9541 (Macaca fascicularis) 9541 (Macaca fascicularis) 64 64 1qnk-a1-m1-cA_1qnk-a1-m1-cB ELRCQCLQTLQGIHPKNIQSVIVKAPGPHCAETEVIATLKNGQKACLNPASPMVQKIIEKILNK ELRCQCLQTLQGIHPKNIQSVIVKAPGPHCAETEVIATLKNGQKACLNPASPMVQKIIEKILNK 6x04-a1-m1-cB_6x04-a1-m1-cL Nup133 (aa55-481) from S. cerevisiae bound by VHH-SAN5 2.68 X-RAY DIFFRACTION 24 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 116 116 6x04-a1-m1-cD_6x04-a1-m1-cJ 6x04-a1-m1-cF_6x04-a1-m1-cH VQLVESGGGLVQAGGSLRLSCAASGSIGSLDAMAWYRRAPGKQRERVASISRYGTYYVDSVKGRFTISRDNAKNTVYLQMNSLKPEDTGVYYCKGVMEVGGVIDEYWGQGTQVTVS VQLVESGGGLVQAGGSLRLSCAASGSIGSLDAMAWYRRAPGKQRERVASISRYGTYYVDSVKGRFTISRDNAKNTVYLQMNSLKPEDTGVYYCKGVMEVGGVIDEYWGQGTQVTVS 6x04-a1-m1-cI_6x04-a1-m1-cA Nup133 (aa55-481) from S. cerevisiae bound by VHH-SAN5 P36161 P36161 2.68 X-RAY DIFFRACTION 24 0.997 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 346 367 FTENNRYIVKTLYSSGDELNGYIDMQIGYGLVNDHKKVYIWNIYITVPFPRCILTFPAETGGLIIIKGSKAIYYEDINFSHELELPINSSGGEKCDLMLNCEPAGIVLSTNMGRIFFITIRNSMGKPQLKLGKLLNKNSSVVSLRNGPILGKGTRLVYITTNKGIFQTWQLSATSHPTKLIDVNIYEAILESLQDLYPFAHGTLKIWDSHPLQDESSQLFLSSIYDSSCNETYYILSTIIFDSSSNSFTIFSTYRLNTFMESITDTKFKPKIFIPQMVTSILVMFPNAVVITQVNSKLDSSYSMRRKWEDIVSLRNDIDIIGSGYDSKSLYVLTKQMGVLQFFVKE FTENNRYIVKTLQTDYSSGDELNGYIDMQIGYGLVNDHKKVYIWNIHPYITVPFPRCILTFPETGGLIIIKGSKAIYYEDINSINNLNEKFSHELELPINSSGGEKCDLMLNCEPAGIVLSTNMGRIFFITIRNSMGKPQLKLGKLLNKNSSVVSLRNGPILGKGTRLVYITTNKGIFQTWQLSATNSHPTKLIDVNIYEAILESLQDLYPFAHGTLKIWDSHPLQDESSQLFLSSIYDSSCNETYYILSTIIFDSSSNSFTIFSTYRLNTFMESITDTKFKPKIFIPQMENANDTNEVTSILVMFPNAVVITQVNSKLDSSYSMRRKWEDIVSLRNDIDIIGSGYDSKSLYVLTKQMGVLQFFVKE 6x04-a1-m1-cJ_6x04-a1-m1-cL Nup133 (aa55-481) from S. cerevisiae bound by VHH-SAN5 2.68 X-RAY DIFFRACTION 24 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 116 116 6x04-a1-m1-cB_6x04-a1-m1-cD 6x04-a1-m1-cB_6x04-a1-m1-cF 6x04-a1-m1-cD_6x04-a1-m1-cF 6x04-a1-m1-cH_6x04-a1-m1-cJ 6x04-a1-m1-cH_6x04-a1-m1-cL VQLVESGGGLVQAGGSLRLSCAASGSIGSLDAMAWYRRAPGKQRERVASISRYGTYYVDSVKGRFTISRDNAKNTVYLQMNSLKPEDTGVYYCKGVMEVGGVIDEYWGQGTQVTVS VQLVESGGGLVQAGGSLRLSCAASGSIGSLDAMAWYRRAPGKQRERVASISRYGTYYVDSVKGRFTISRDNAKNTVYLQMNSLKPEDTGVYYCKGVMEVGGVIDEYWGQGTQVTVS 6x0k-a2-m1-cG_6x0k-a2-m1-cE Structure of dithionite-reduced SidA ornithine hydroxylase with the FAD ""in"" and complexed with L-ornithine E9QYP0 E9QYP0 2.231 X-RAY DIFFRACTION 45 0.998 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 440 441 4b63-a1-m1-cA_4b63-a1-m4-cA 4b63-a1-m2-cA_4b63-a1-m3-cA 4b64-a1-m1-cA_4b64-a1-m4-cA 4b64-a1-m2-cA_4b64-a1-m3-cA 4b65-a1-m1-cA_4b65-a1-m4-cA 4b65-a1-m2-cA_4b65-a1-m3-cA 4b66-a1-m1-cA_4b66-a1-m4-cA 4b66-a1-m2-cA_4b66-a1-m3-cA 4b67-a1-m1-cA_4b67-a1-m4-cA 4b67-a1-m2-cA_4b67-a1-m3-cA 4b68-a1-m1-cA_4b68-a1-m4-cA 4b68-a1-m2-cA_4b68-a1-m3-cA 4b69-a1-m1-cA_4b69-a1-m4-cA 4b69-a1-m2-cA_4b69-a1-m3-cA 4nzh-a1-m1-cA_4nzh-a1-m3-cA 4nzh-a1-m2-cA_4nzh-a1-m4-cA 5cku-a1-m1-cA_5cku-a1-m3-cA 5cku-a1-m2-cA_5cku-a1-m4-cA 6x0h-a1-m1-cC_6x0h-a1-m1-cA 6x0h-a1-m1-cD_6x0h-a1-m1-cB 6x0i-a1-m1-cA_6x0i-a1-m1-cC 6x0i-a1-m1-cD_6x0i-a1-m1-cB 6x0j-a1-m1-cA_6x0j-a1-m1-cC 6x0j-a1-m1-cD_6x0j-a1-m1-cB 6x0k-a1-m1-cC_6x0k-a1-m1-cA 6x0k-a1-m1-cD_6x0k-a1-m1-cB 6x0k-a2-m1-cF_6x0k-a2-m1-cH 7jvk-a1-m1-cB_7jvk-a1-m1-cD 7jvk-a1-m1-cC_7jvk-a1-m1-cA 7jvl-a1-m1-cA_7jvl-a1-m1-cC 7jvl-a1-m1-cD_7jvl-a1-m1-cB LRSTPQDELHDLLCVGFGPASLAIAIALHDALDPRLNKQPKICFLERQKQFAWHSGMLVPGSKMQISFIKDLATLRDPRSSFTFLNYLHQKGRLIHFTNLSTFLPARLEFEDYMRWCAQQFSDVVAYGEEVVEVIPGKSDPSSSVVDFFTVRSRNVETGEISARRTRKVVIAIGGTAKMPSGLPQDPRIIHSSKYCTTLPALLKDKSKPYNIAVLGSGQSAAEIFHDLQKRYPNSRTTLIMRDSAMRPSDDSPFVNEIFNPERVDKFYSQSAAERQRSLLADKATNYSVVRLELIEEIYNDMYLQRVKNPDETQWQHRILPERKITRVEHHGPQSRMRIHLKSSKETLEVDALMVATGYNRNAHERLLSKVQHLRPTGQDQWKPHRDYRVEMDPSKVSSEAGIWLQGCNERTHGLSDSLLSVLAVRGGEMVQSIFGEQLE LRSTPQDELHDLLCVGFGPASLAIAIALHDALDPRLNQPKICFLERQKQFAWHSGMLVPGSKMQISFIKDLATLRDPRSSFTFLNYLHQKGRLIHFTNLSTFLPARLEFEDYMRWCAQQFSDVVAYGEEVVEVIPGKSDPSSSVVDFFTVRSRNVETGEISARRTRKVVIAIGGTAKMPSGLPQDPRIIHSSKYCTTLPALLKDKSKPYNIAVLGSGQSAAEIFHDLQKRYPNSRTTLIMRDSAMRPSDDSPFVNEIFNPERVDKFYSQSAAERQRSLLADKATNYSVVRLELIEEIYNDMYLQRVKNPDETQWQHRILPERKITRVEHHGPQSRMRIHLKSSKPKETLEVDALMVATGYNRNAHERLLSKVQHLRPTGQDQWKPHRDYRVEMDPSKVSSEAGIWLQGCNERTHGLSDSLLSVLAVRGGEMVQSIFGEQLE 6x0k-a2-m1-cH_6x0k-a2-m1-cE Structure of dithionite-reduced SidA ornithine hydroxylase with the FAD ""in"" and complexed with L-ornithine E9QYP0 E9QYP0 2.231 X-RAY DIFFRACTION 61 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 437 441 4b63-a1-m1-cA_4b63-a1-m2-cA 4b63-a1-m3-cA_4b63-a1-m4-cA 4b64-a1-m1-cA_4b64-a1-m2-cA 4b64-a1-m3-cA_4b64-a1-m4-cA 4b65-a1-m1-cA_4b65-a1-m2-cA 4b65-a1-m3-cA_4b65-a1-m4-cA 4b66-a1-m1-cA_4b66-a1-m2-cA 4b66-a1-m3-cA_4b66-a1-m4-cA 4b67-a1-m1-cA_4b67-a1-m2-cA 4b67-a1-m3-cA_4b67-a1-m4-cA 4b68-a1-m1-cA_4b68-a1-m2-cA 4b68-a1-m3-cA_4b68-a1-m4-cA 4b69-a1-m1-cA_4b69-a1-m2-cA 4b69-a1-m3-cA_4b69-a1-m4-cA 4nzh-a1-m1-cA_4nzh-a1-m4-cA 4nzh-a1-m2-cA_4nzh-a1-m3-cA 5cku-a1-m1-cA_5cku-a1-m4-cA 5cku-a1-m2-cA_5cku-a1-m3-cA 6x0h-a1-m1-cC_6x0h-a1-m1-cB 6x0h-a1-m1-cD_6x0h-a1-m1-cA 6x0i-a1-m1-cB_6x0i-a1-m1-cC 6x0i-a1-m1-cD_6x0i-a1-m1-cA 6x0j-a1-m1-cC_6x0j-a1-m1-cB 6x0j-a1-m1-cD_6x0j-a1-m1-cA 6x0k-a1-m1-cA_6x0k-a1-m1-cD 6x0k-a1-m1-cC_6x0k-a1-m1-cB 6x0k-a2-m1-cF_6x0k-a2-m1-cG 7jvk-a1-m1-cC_7jvk-a1-m1-cB 7jvk-a1-m1-cD_7jvk-a1-m1-cA 7jvl-a1-m1-cA_7jvl-a1-m1-cD 7jvl-a1-m1-cC_7jvl-a1-m1-cB LRSTPQDELHDLLCVGFGPASLAIAIALHDALDPRLNQPKICFLERQKQFAWHSGMLVPGSKMQISFIKDLATLRDPRSSFTFLNYLHQKGRLIHFTNLSTFLPARLEFEDYMRWCAQQFSDVVAYGEEVVEVIPGKSDPSSSVVDFFTVRSRNVETGEISARRTRKVVIAIGGTAKMPSGLPQDPRIIHSSKYCTTLPALLKDKSKPYNIAVLGSGQSAAEIFHDLQKRYPNSRTTLIMRDSAMRPSDDSPFVNEIFNPERVDKFYSQSAAERQRSLLADKATNYSVVRLELIEEIYNDMYLQRVKNPDETQWQHRILPERKITRVEHSRMRIHLKSSKPKETLEVDALMVATGYNRNAHERLLSKVQHLRPTGQDQWKPHRDYRVEMDPSKVSSEAGIWLQGCNERTHGLSDSLLSVLAVRGGEMVQSIFGEQLE LRSTPQDELHDLLCVGFGPASLAIAIALHDALDPRLNQPKICFLERQKQFAWHSGMLVPGSKMQISFIKDLATLRDPRSSFTFLNYLHQKGRLIHFTNLSTFLPARLEFEDYMRWCAQQFSDVVAYGEEVVEVIPGKSDPSSSVVDFFTVRSRNVETGEISARRTRKVVIAIGGTAKMPSGLPQDPRIIHSSKYCTTLPALLKDKSKPYNIAVLGSGQSAAEIFHDLQKRYPNSRTTLIMRDSAMRPSDDSPFVNEIFNPERVDKFYSQSAAERQRSLLADKATNYSVVRLELIEEIYNDMYLQRVKNPDETQWQHRILPERKITRVEHHGPQSRMRIHLKSSKPKETLEVDALMVATGYNRNAHERLLSKVQHLRPTGQDQWKPHRDYRVEMDPSKVSSEAGIWLQGCNERTHGLSDSLLSVLAVRGGEMVQSIFGEQLE 6x0k-a2-m1-cH_6x0k-a2-m1-cG Structure of dithionite-reduced SidA ornithine hydroxylase with the FAD ""in"" and complexed with L-ornithine E9QYP0 E9QYP0 2.231 X-RAY DIFFRACTION 72 0.995 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 437 440 4b63-a1-m1-cA_4b63-a1-m3-cA 4b63-a1-m2-cA_4b63-a1-m4-cA 4b64-a1-m1-cA_4b64-a1-m3-cA 4b64-a1-m2-cA_4b64-a1-m4-cA 4b65-a1-m1-cA_4b65-a1-m3-cA 4b65-a1-m2-cA_4b65-a1-m4-cA 4b66-a1-m1-cA_4b66-a1-m3-cA 4b66-a1-m2-cA_4b66-a1-m4-cA 4b67-a1-m1-cA_4b67-a1-m3-cA 4b67-a1-m2-cA_4b67-a1-m4-cA 4b68-a1-m1-cA_4b68-a1-m3-cA 4b68-a1-m2-cA_4b68-a1-m4-cA 4b69-a1-m1-cA_4b69-a1-m3-cA 4b69-a1-m2-cA_4b69-a1-m4-cA 4nzh-a1-m1-cA_4nzh-a1-m2-cA 4nzh-a1-m3-cA_4nzh-a1-m4-cA 5cku-a1-m1-cA_5cku-a1-m2-cA 5cku-a1-m3-cA_5cku-a1-m4-cA 6x0h-a1-m1-cB_6x0h-a1-m1-cA 6x0h-a1-m1-cD_6x0h-a1-m1-cC 6x0i-a1-m1-cA_6x0i-a1-m1-cB 6x0i-a1-m1-cD_6x0i-a1-m1-cC 6x0j-a1-m1-cA_6x0j-a1-m1-cB 6x0j-a1-m1-cD_6x0j-a1-m1-cC 6x0k-a1-m1-cA_6x0k-a1-m1-cB 6x0k-a1-m1-cC_6x0k-a1-m1-cD 6x0k-a2-m1-cF_6x0k-a2-m1-cE 7jvk-a1-m1-cB_7jvk-a1-m1-cA 7jvk-a1-m1-cC_7jvk-a1-m1-cD 7jvl-a1-m1-cA_7jvl-a1-m1-cB 7jvl-a1-m1-cD_7jvl-a1-m1-cC LRSTPQDELHDLLCVGFGPASLAIAIALHDALDPRLNQPKICFLERQKQFAWHSGMLVPGSKMQISFIKDLATLRDPRSSFTFLNYLHQKGRLIHFTNLSTFLPARLEFEDYMRWCAQQFSDVVAYGEEVVEVIPGKSDPSSSVVDFFTVRSRNVETGEISARRTRKVVIAIGGTAKMPSGLPQDPRIIHSSKYCTTLPALLKDKSKPYNIAVLGSGQSAAEIFHDLQKRYPNSRTTLIMRDSAMRPSDDSPFVNEIFNPERVDKFYSQSAAERQRSLLADKATNYSVVRLELIEEIYNDMYLQRVKNPDETQWQHRILPERKITRVEHSRMRIHLKSSKPKETLEVDALMVATGYNRNAHERLLSKVQHLRPTGQDQWKPHRDYRVEMDPSKVSSEAGIWLQGCNERTHGLSDSLLSVLAVRGGEMVQSIFGEQLE LRSTPQDELHDLLCVGFGPASLAIAIALHDALDPRLNKQPKICFLERQKQFAWHSGMLVPGSKMQISFIKDLATLRDPRSSFTFLNYLHQKGRLIHFTNLSTFLPARLEFEDYMRWCAQQFSDVVAYGEEVVEVIPGKSDPSSSVVDFFTVRSRNVETGEISARRTRKVVIAIGGTAKMPSGLPQDPRIIHSSKYCTTLPALLKDKSKPYNIAVLGSGQSAAEIFHDLQKRYPNSRTTLIMRDSAMRPSDDSPFVNEIFNPERVDKFYSQSAAERQRSLLADKATNYSVVRLELIEEIYNDMYLQRVKNPDETQWQHRILPERKITRVEHHGPQSRMRIHLKSSKETLEVDALMVATGYNRNAHERLLSKVQHLRPTGQDQWKPHRDYRVEMDPSKVSSEAGIWLQGCNERTHGLSDSLLSVLAVRGGEMVQSIFGEQLE 6x1i-a1-m2-cB_6x1i-a1-m6-cB Two-Component D3 Assembly Constructed by Fusing Symmetric Oligomers to Coiled Coils Q7D0S4 Q7D0S4 4.32 X-RAY DIFFRACTION 16 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 146 146 6x1i-a1-m1-cB_6x1i-a1-m4-cB 6x1i-a1-m3-cB_6x1i-a1-m5-cB QLKKKLQALKKKNAQLKWKLQALKKKLAQATQHLTIAQTYLAAWNEEDNERRRHLVGQAWAENTRYVDPLMQGEGQQGIAAMIEAARQKFPGYRFVLAGTPDGHGNFTRFSWRLISPDGDDVAGGTDVVSLNTEGRIDNVVGFLDG QLKKKLQALKKKNAQLKWKLQALKKKLAQATQHLTIAQTYLAAWNEEDNERRRHLVGQAWAENTRYVDPLMQGEGQQGIAAMIEAARQKFPGYRFVLAGTPDGHGNFTRFSWRLISPDGDDVAGGTDVVSLNTEGRIDNVVGFLDG 6x1i-a1-m5-cA_6x1i-a1-m6-cA Two-Component D3 Assembly Constructed by Fusing Symmetric Oligomers to Coiled Coils O58404 O58404 4.32 X-RAY DIFFRACTION 48 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 171 171 6x1i-a1-m1-cA_6x1i-a1-m2-cA 6x1i-a1-m1-cA_6x1i-a1-m3-cA 6x1i-a1-m2-cA_6x1i-a1-m3-cA 6x1i-a1-m4-cA_6x1i-a1-m5-cA 6x1i-a1-m4-cA_6x1i-a1-m6-cA SPIIEANGTLDELTSFIGEAKHYVDEEMKGILEEIQNDIYKIMGEIGSKGKIEGISEERIKWLEGLISRYEEMVNLKSFVLPGGTLESAKLDVCRTIARRAERKVATVLREFGIGKEALVYLNRLSDLLFLLARVIEIAAAAQLEKELQALEKENAQLEWELQALEKELAQ SPIIEANGTLDELTSFIGEAKHYVDEEMKGILEEIQNDIYKIMGEIGSKGKIEGISEERIKWLEGLISRYEEMVNLKSFVLPGGTLESAKLDVCRTIARRAERKVATVLREFGIGKEALVYLNRLSDLLFLLARVIEIAAAAQLEKELQALEKENAQLEWELQALEKELAQ 6x1l-a1-m1-cA_6x1l-a1-m2-cA The crystal structure of a functional uncharacterized protein KP1_0663 from Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044 A0A0C4KUT2 A0A0C4KUT2 2 X-RAY DIFFRACTION 44 1.0 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 484021 (Klebsiella pneumoniae subsp. pneumoniae NTUH-K2044) 255 255 TNKLKFDLLLKSYHLSHRFVYKANPGNAGDGVIASATYDFFERNALTYIPYRDGERYSSETDILIFGGGGNLIEGLYSEGHDFIQNNIGKFHKVIIPSTIRGYSDLFINNIDKFVVFCRENITFDYIKSLNYEPNKNVFITDDAFYLDLNKYLSLKPVYKKQANCFRTDSENNHDISLTWNGDYWDNEFLARNSTRCINFLEEYKVVNTDRLHVAILASLLGKEVNFYPNSYYKNEAVYNYSLFNRYPKTCFITA TNKLKFDLLLKSYHLSHRFVYKANPGNAGDGVIASATYDFFERNALTYIPYRDGERYSSETDILIFGGGGNLIEGLYSEGHDFIQNNIGKFHKVIIPSTIRGYSDLFINNIDKFVVFCRENITFDYIKSLNYEPNKNVFITDDAFYLDLNKYLSLKPVYKKQANCFRTDSENNHDISLTWNGDYWDNEFLARNSTRCINFLEEYKVVNTDRLHVAILASLLGKEVNFYPNSYYKNEAVYNYSLFNRYPKTCFITA 6x2a-a1-m1-cB_6x2a-a1-m1-cC SARS-CoV-2 u1S2q 1-RBD Up Spike Protein Trimer P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 282 0.994 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 948 961 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDILDITDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTYIGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDILDITDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTYIGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6x2b-a1-m1-cB_6x2b-a1-m1-cC SARS-CoV-2 u1S2q 2-RBD Up Spike Protein Trimer P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 272 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 949 949 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDILDITDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKYIGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDILDITDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKYIGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6x2d-a1-m1-cA_6x2d-a1-m1-cB Crystal Structure of DNase I Domain of Ribonuclease E from Vibrio cholerae Q9KQG8 Q9KQG8 1.85 X-RAY DIFFRACTION 66 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 106 107 QREVRLPSGGSIVIDPTEALTSIDINSAGGDIEETALNTNLEAADEIARQLRLRDLGGLVVIDFIDTPVRHQREVENRLREAVRVDRARVQIGRISRFGLLESRQR QREVRLPSGGSIVIDPTEALTSIDINSAKGGDIEETALNTNLEAADEIARQLRLRDLGGLVVIDFIDTPVRHQREVENRLREAVRVDRARVQIGRISRFGLLESRQR 6x34-a1-m1-cF_6x34-a1-m1-cH Pig R615C RyR1 EGTA (all classes, open) 4.7 ELECTRON MICROSCOPY 139 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3715 3715 6x34-a1-m1-cB_6x34-a1-m1-cD 6x34-a1-m1-cB_6x34-a1-m1-cH 6x34-a1-m1-cD_6x34-a1-m1-cF FLRTDDEVVLQCNATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSGMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTTHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSGCEEGYVTGGHVLRLFHGHMDECLTISPADSDDQRRLVYYEGGSVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALIEDQGLVVDASKAHTKATSFCFRISKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALSLTRCQQEESQAARMIYSTAGLYNHFIKGLDSFSGKPRGSGAPAGTALPLEGVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYEILASLIRGNRANCALFSNNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVCSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGTTQYSKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVPRLVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLNGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLRKTKLPKTYMMSNGYKPAPLDAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIERVRIFRAEKSYAVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSELFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFRDIEVGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEAVPLEHPHYEVSRVDGTVDTPPCLRLTHRSLVEMLFLRLSLPVQFHQLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLTKVRAVTVTMGDNIHSSLKCSNCYMVWGGDFVSHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLRVETRRAGERLGWAVPLTMMALHIPEENRCMDILELSERLDLQQFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSAPCFVAALPEAPARLSPSIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRDRYGILMKAFTMTAAETARRTREFRSPPQEQINMLLHFKPLPDEIRQDLLEFHQDLLTHCGIQLQSLQELVSHTVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRLLATIEEAIAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTMSASFVPDHKASMVLFLDRVYGFLLHVLDVGFALALNRYLCLAVLPLITKCAPLFAMVDSMLHTVYRLSRGRSLTKAQRDVIEECLMALCRYIRPSMLQHLLRRLVFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNPSAEELFRMVGEIFIYWSKKHNFKREEQNFVVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLSFEEKEMEKQRLLYQQARLHNRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNADVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKXXXXXXEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGESEKMELFVSFCEDTIFEEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPVYYFLEESTGYMEPALRCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIYGRERIAEGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGSDYFDTTPHRFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQ FLRTDDEVVLQCNATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSGMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTTHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSGCEEGYVTGGHVLRLFHGHMDECLTISPADSDDQRRLVYYEGGSVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALIEDQGLVVDASKAHTKATSFCFRISKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALSLTRCQQEESQAARMIYSTAGLYNHFIKGLDSFSGKPRGSGAPAGTALPLEGVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYEILASLIRGNRANCALFSNNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVCSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGTTQYSKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVPRLVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLNGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLRKTKLPKTYMMSNGYKPAPLDAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIERVRIFRAEKSYAVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSELFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFRDIEVGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEAVPLEHPHYEVSRVDGTVDTPPCLRLTHRSLVEMLFLRLSLPVQFHQLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLTKVRAVTVTMGDNIHSSLKCSNCYMVWGGDFVSHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLRVETRRAGERLGWAVPLTMMALHIPEENRCMDILELSERLDLQQFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSAPCFVAALPEAPARLSPSIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRDRYGILMKAFTMTAAETARRTREFRSPPQEQINMLLHFKPLPDEIRQDLLEFHQDLLTHCGIQLQSLQELVSHTVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRLLATIEEAIAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTMSASFVPDHKASMVLFLDRVYGFLLHVLDVGFALALNRYLCLAVLPLITKCAPLFAMVDSMLHTVYRLSRGRSLTKAQRDVIEECLMALCRYIRPSMLQHLLRRLVFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNPSAEELFRMVGEIFIYWSKSHNFKREEQNFVVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLSFEEKEMEKQRLLYQQARLHNRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNADVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKXXXXXXEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGESEKMELFVSFCEDTIFEEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPVYYFLEESTGYMEPALRCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIYGRERIAEGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGSDYFDTTPHRFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQ 6x35-a1-m1-cH_6x35-a1-m1-cK Pig R615C RyR1 in complex with CaM, EGTA (class 1, open) 4.2 ELECTRON MICROSCOPY 150 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 3801 3801 6x35-a1-m1-cB_6x35-a1-m1-cE 6x35-a1-m1-cB_6x35-a1-m1-cK 6x35-a1-m1-cE_6x35-a1-m1-cH QFLRTDDEVVLQCNATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSGMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTTHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSGCEEGYVTGGHVLRLFHGHMDECLTISPADQRRLVYYEGGSVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALIEDQGLVVVDASKAHTKATSFCFRISKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALSLTRCQQEESQAARMIYSTAGLYNHFIKGLDSFSGKPRPAGTALPLEGVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYEILASLIRGNRANCALFSNNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVCSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGTTQYSKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVPRLVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLNGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLRKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGRVRIFRAEKSYAVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSELFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFRDIEVGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEAVPLEHPHYEVSRVDGTVDTPPCLRLTHRSLVEMLFLRLSLPVQFHQLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLTKVRAVTVTMGDNIHSSLKCSNCYMVWGGDFVSHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLRVETRRAGERLGWAVQCQEPLTMMALHIPEENRCMDILELSERLDLQQFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSAPCFVAALPEAPARLSPSIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRDRYGILMKAFTMTAAETARRTREFRSPPQEQINMLLHFKPLPDEIRQDLLEFHQDLLTHCGIQLQSLQELVSHTVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRLLATIEEAIGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPLMSASFVPDHKASMVLFLDRVYGIEFLLHVLDVGFEMALALNRYLCLAVLPLITKCAPLFAMVDSMLHTVYRLSRGRSLTKAQRDVIEECLMALCRYIRPSMLQHLLRRLVFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNPSAEELFRMVGEIFIYWSKSHNFKREEQNFVVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEESFEEKEMEKQRLLYQQARLHNRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNADVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVIGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKXXXXXXEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGESEKMELFVSFCEDTIFEMQXXXXXXXXXXXXXXXXXEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPVYYFLEESTGYMEPALRCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPEDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIYGRERIAEGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGSDYFDTTPHRFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQL QFLRTDDEVVLQCNATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFVLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSGMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTTHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSGCEEGYVTGGHVLRLFHGHMDECLTISPADQRRLVYYEGGSVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALIEDQGLVVVDASKAHTKATSFCFRISKEKLKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALSLTRCQQEESQAARMIYSTAGLYNHFIKGLDSFSGKPRPAGTALPLEGVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEFAGEEAAESWKEIVNLLYEILASLIRGNRANCALFSNNLDWLVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVCSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGTTQYSKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVPRLVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLNGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVDFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLRKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGRVRIFRAEKSYAVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSELFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFRDIEVGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEAVPLEHPHYEVSRVDGTVDTPPCLRLTHRSLVEMLFLRLSLPVQFHQLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLTKVRAVTVTMGDNIHSSLKCSNCYMVWGGDFVSHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEMQMLMPVSWSRMPNHFLRVETRRAGERLGWAVQCQEPLTMMALHIPEENRCMDILELSERLDLQQFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSAPCFVAALPEAPARLSPSIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRDRYGILMKAFTMTAAETARRTREFRSPPQEQINMLLHFKPLPDEIRQDLLEFHQDLLTHCGIQLQSLQELVSHTVVRWAQEDFVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRLLATIEEAIGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPLMSASFVPDHKASMVLFLDRVYGIEFLLHVLDVGFEMALALNRYLCLAVLPLITKCAPLFAMVDSMLHTVYRLSRGRSLTKAQRDVIEECLMALCRYIRPSMLQHLLRRLVFXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENIDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNPSAEELFRMVGEIFIYWSKSHNFKREEQNFVVXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEESFEEKEMEKQRLLYQQARLHNRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNADVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVIGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKXXXXXXEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGESEKMELFVSFCEDTIFEMQXXXXXXXXXXXXXXXXXEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPVYYFLEESTGYMEPALRCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPEDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIYGRERIAEGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVREDMETKCFICGIGSDYFDTTPHRFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQL 6x3b-a2-m1-cC_6x3b-a2-m1-cD Structure of RMD from Pseudomonas aeruginosa complexed with NADPH Q9HTB6 Q9HTB6 1.91 X-RAY DIFFRACTION 73 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 289 292 6x3b-a1-m1-cB_6x3b-a1-m1-cA QRLFVTGLSGFVGKHLQAYLAAAHTPWALLPVPHRYDLLEPDSLGDLWPELPDAVIHLAGQTYVPEAFRDPARTLQINLLGTLNLLQALKARGFSGTFLYISSGDVYGQVAEAALPIHEELIPHPRNPYAVSKLAAESLCLQWGITEGWRVLVARPFNHIGPGQKDSFVIASAARQIARMKQGLQANRLEVGDIDVSRDFLDVQDVLSAYLRLLSHGEAGAVYNVCSGQEQKIRELIELLADIAQVELEIVQEQRRVRGSHARLHDATGWKPEITIKQSLRAILSDWES TQRLFVTGLSGFVGKHLQAYLAAAHTPWALLPVPHRYDLLEPDSLGDLWPELPDAVIHLAGQTYVPEAFRDPARTLQINLLGTLNLLQALKARGFSGTFLYISSGDVYGQVAEAALPIHEELIPHPRNPYAVSKLAAESLCLQWGITEGWRVLVARPFNHIGPGQKDSFVIASAARQIARMKQGLQANRLEVGDIDVSRDFLDVQDVLSAYLRLLSHGEAGAVYNVCSGQEQKIRELIELLADIAQVELEIVQDPQRRVRGSHARLHDATGWKPEITIKQSLRAILSDWESR 6x68-a1-m1-cC_6x68-a1-m1-cD Cryo-EM structure of piggyBac transposase synaptic complex with hairpin DNA (SNHP) Q283G1 Q283G1 3.66 ELECTRON MICROSCOPY 38 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 478 478 6x67-a1-m1-cC_6x67-a1-m1-cD SQRGPTRMCRNIYDPLLCFKLFFTDEIISEIVKWTNAEISLKRRESMTGATFRDTNEDEIYAFFGILVMTAVRKDNHMSTDDLFDRSLSMVYVSVMSRDRFDFLIRCLRMDDKSIRPTLRENDVFTPVRKIWDLFIHQCIQNYTPGAHLTIDEQLLGFRGRCPFRMYIPNKPSKYGIKILMMCDSGTKYMINGMPYLGRGTQTNGVPLGEYYVKELSKPVRGSCRNITCDNWFTSIPLAKNLLQEPYKLTIVGTVRSNKREIPEVLKNSRSRPVGTSMFCFDGPLTLVSYKPKPAKMVYLLSSCDEDASINESTGKPQMVMYYNQTKGGVDTLDQMCSVMTCSRKTNRWPMALLYGMINIACINSFIIYSHNVSSKGEKVQSRKKFMRNLYMSLTSSFMRKRLEAPTLKRYLRDNISNILPNEVPGTSDDSTEEPVTKKRTYCTYCPSKIRRKANASCKKCKKVICREHNIDMCQSCF SQRGPTRMCRNIYDPLLCFKLFFTDEIISEIVKWTNAEISLKRRESMTGATFRDTNEDEIYAFFGILVMTAVRKDNHMSTDDLFDRSLSMVYVSVMSRDRFDFLIRCLRMDDKSIRPTLRENDVFTPVRKIWDLFIHQCIQNYTPGAHLTIDEQLLGFRGRCPFRMYIPNKPSKYGIKILMMCDSGTKYMINGMPYLGRGTQTNGVPLGEYYVKELSKPVRGSCRNITCDNWFTSIPLAKNLLQEPYKLTIVGTVRSNKREIPEVLKNSRSRPVGTSMFCFDGPLTLVSYKPKPAKMVYLLSSCDEDASINESTGKPQMVMYYNQTKGGVDTLDQMCSVMTCSRKTNRWPMALLYGMINIACINSFIIYSHNVSSKGEKVQSRKKFMRNLYMSLTSSFMRKRLEAPTLKRYLRDNISNILPNEVPGTSDDSTEEPVTKKRTYCTYCPSKIRRKANASCKKCKKVICREHNIDMCQSCF 6x6a-a1-m1-cI_6x6a-a1-m1-cF Cryo-EM structure of NLRP1-DPP9 complex Q9C000 Q9C000 3.6 ELECTRON MICROSCOPY 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 144 6x6a-a1-m1-cG_6x6a-a1-m1-cC SPLGVLLKMIHNALRFIPVTSVVLLYHRVHPEEVTFHLYLIPSDCSIRKAIDDLEMKFQFVRIHKPPPLTPLYMGCRYTVSGSGSGMLEILPKELELCYRSPGEDQLFSEFYVGHLGSGIRLQVKDKKDETLVWEALV SPLGVLLKMIHNALRFIPVTSVVLLYHRVHPEEVTFHLYLIPSDCSIRKAIDDLEMKFQFVRIHKPPPLTPLYMGCRYTVSGSGSGMLEILPKELELCYRSPGEDQLFSEFYVGHLGSGIRLQVKDKKDETLVWEALVKPGDLM 6x6f-a3-m1-cF_6x6f-a3-m1-cH The structure of Pf6r from the filamentous phage Pf6 of Pseudomonas aeruginosa PA01 1.735 X-RAY DIFFRACTION 67 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 84 84 6x6f-a1-m1-cA_6x6f-a1-m1-cB 6x6f-a2-m1-cC_6x6f-a2-m1-cD ESIQSRARTLIDKAGIDRLVRHGEISHSRWQSVRYKDIRMSTEELEVLQSLFPHYRLWLISGEVMPEAGQVSPDFEEASRNLAG ESIQSRARTLIDKAGIDRLVRHGEISHSRWQSVRYKDIRMSTEELEVLQSLFPHYRLWLISGEVMPEAGQVSPDFEEASRNLAG 6x6i-a1-m3-cAAA_6x6i-a1-m6-cAAA Crystal structure of acetyltransferase Eis from Mycobacterium tuberculosis in complex with inhibitor SGT543 P9WFK7 P9WFK7 1.904 X-RAY DIFFRACTION 128 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 391 391 3r1k-a1-m1-cA_3r1k-a1-m5-cA 3r1k-a1-m2-cA_3r1k-a1-m4-cA 3r1k-a1-m3-cA_3r1k-a1-m6-cA 3ryo-a1-m1-cA_3ryo-a1-m1-cB 3ryo-a1-m1-cC_3ryo-a1-m1-cD 3ryo-a1-m1-cE_3ryo-a1-m1-cF 3ryo-a2-m1-cG_3ryo-a2-m1-cH 3ryo-a2-m1-cI_3ryo-a2-m1-cJ 3ryo-a2-m1-cK_3ryo-a2-m1-cL 3sxo-a1-m1-cA_3sxo-a1-m1-cB 3sxo-a2-m1-cA_3sxo-a2-m1-cB 3sxo-a2-m2-cA_3sxo-a2-m2-cB 3sxo-a2-m3-cA_3sxo-a2-m3-cB 3uy5-a1-m1-cA_3uy5-a1-m5-cA 3uy5-a1-m2-cA_3uy5-a1-m4-cA 3uy5-a1-m3-cA_3uy5-a1-m6-cA 4jd6-a1-m1-cA_4jd6-a1-m1-cD 4jd6-a1-m1-cB_4jd6-a1-m1-cE 4jd6-a1-m1-cC_4jd6-a1-m1-cF 5ebv-a1-m1-cA_5ebv-a1-m5-cA 5ebv-a1-m2-cA_5ebv-a1-m4-cA 5ebv-a1-m3-cA_5ebv-a1-m6-cA 5ec4-a1-m1-cA_5ec4-a1-m5-cA 5ec4-a1-m2-cA_5ec4-a1-m4-cA 5ec4-a1-m3-cA_5ec4-a1-m6-cA 5iv0-a1-m1-cA_5iv0-a1-m5-cA 5iv0-a1-m2-cA_5iv0-a1-m4-cA 5iv0-a1-m3-cA_5iv0-a1-m6-cA 5tvj-a1-m1-cA_5tvj-a1-m5-cA 5tvj-a1-m2-cA_5tvj-a1-m4-cA 5tvj-a1-m3-cA_5tvj-a1-m6-cA 6b0u-a1-m1-cA_6b0u-a1-m2-cA 6b0u-a1-m1-cC_6b0u-a1-m1-cB 6b0u-a1-m2-cC_6b0u-a1-m2-cB 6p3t-a1-m1-cA_6p3t-a1-m5-cA 6p3t-a1-m2-cA_6p3t-a1-m4-cA 6p3t-a1-m3-cA_6p3t-a1-m6-cA 6p3u-a1-m1-cA_6p3u-a1-m5-cA 6p3u-a1-m2-cA_6p3u-a1-m4-cA 6p3u-a1-m3-cA_6p3u-a1-m6-cA 6p3v-a1-m1-cA_6p3v-a1-m5-cA 6p3v-a1-m2-cA_6p3v-a1-m4-cA 6p3v-a1-m3-cA_6p3v-a1-m6-cA 6vur-a1-m1-cA_6vur-a1-m5-cA 6vur-a1-m2-cA_6vur-a1-m4-cA 6vur-a1-m3-cA_6vur-a1-m6-cA 6vus-a1-m1-cA_6vus-a1-m5-cA 6vus-a1-m2-cA_6vus-a1-m4-cA 6vus-a1-m3-cA_6vus-a1-m6-cA 6vut-a1-m1-cA_6vut-a1-m5-cA 6vut-a1-m2-cA_6vut-a1-m4-cA 6vut-a1-m3-cA_6vut-a1-m6-cA 6vuu-a1-m1-cA_6vuu-a1-m5-cA 6vuu-a1-m2-cA_6vuu-a1-m4-cA 6vuu-a1-m3-cA_6vuu-a1-m6-cA 6vuw-a1-m1-cA_6vuw-a1-m5-cA 6vuw-a1-m2-cA_6vuw-a1-m4-cA 6vuw-a1-m3-cA_6vuw-a1-m6-cA 6vux-a1-m1-cA_6vux-a1-m5-cA 6vux-a1-m2-cA_6vux-a1-m4-cA 6vux-a1-m3-cA_6vux-a1-m6-cA 6vuy-a1-m1-cA_6vuy-a1-m5-cA 6vuy-a1-m2-cA_6vuy-a1-m4-cA 6vuy-a1-m3-cA_6vuy-a1-m6-cA 6vuz-a1-m1-cA_6vuz-a1-m5-cA 6vuz-a1-m2-cA_6vuz-a1-m4-cA 6vuz-a1-m3-cA_6vuz-a1-m6-cA 6vv0-a1-m1-cA_6vv0-a1-m5-cA 6vv0-a1-m2-cA_6vv0-a1-m4-cA 6vv0-a1-m3-cA_6vv0-a1-m6-cA 6vv1-a1-m1-cA_6vv1-a1-m5-cA 6vv1-a1-m2-cA_6vv1-a1-m4-cA 6vv1-a1-m3-cA_6vv1-a1-m6-cA 6vv2-a1-m1-cA_6vv2-a1-m5-cA 6vv2-a1-m2-cA_6vv2-a1-m4-cA 6vv2-a1-m3-cA_6vv2-a1-m6-cA 6vv3-a1-m1-cA_6vv3-a1-m5-cA 6vv3-a1-m2-cA_6vv3-a1-m4-cA 6vv3-a1-m3-cA_6vv3-a1-m6-cA 6x10-a1-m1-cA_6x10-a1-m5-cA 6x10-a1-m2-cA_6x10-a1-m4-cA 6x10-a1-m3-cA_6x10-a1-m6-cA 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6vux-a1-m2-cA_6vux-a1-m3-cA 6vux-a1-m4-cA_6vux-a1-m5-cA 6vux-a1-m4-cA_6vux-a1-m6-cA 6vux-a1-m5-cA_6vux-a1-m6-cA 6vuy-a1-m1-cA_6vuy-a1-m2-cA 6vuy-a1-m1-cA_6vuy-a1-m3-cA 6vuy-a1-m2-cA_6vuy-a1-m3-cA 6vuy-a1-m4-cA_6vuy-a1-m5-cA 6vuy-a1-m4-cA_6vuy-a1-m6-cA 6vuy-a1-m5-cA_6vuy-a1-m6-cA 6vuz-a1-m1-cA_6vuz-a1-m2-cA 6vuz-a1-m1-cA_6vuz-a1-m3-cA 6vuz-a1-m2-cA_6vuz-a1-m3-cA 6vuz-a1-m4-cA_6vuz-a1-m5-cA 6vuz-a1-m4-cA_6vuz-a1-m6-cA 6vuz-a1-m5-cA_6vuz-a1-m6-cA 6vv0-a1-m1-cA_6vv0-a1-m2-cA 6vv0-a1-m1-cA_6vv0-a1-m3-cA 6vv0-a1-m2-cA_6vv0-a1-m3-cA 6vv0-a1-m4-cA_6vv0-a1-m5-cA 6vv0-a1-m4-cA_6vv0-a1-m6-cA 6vv0-a1-m5-cA_6vv0-a1-m6-cA 6vv1-a1-m1-cA_6vv1-a1-m2-cA 6vv1-a1-m1-cA_6vv1-a1-m3-cA 6vv1-a1-m2-cA_6vv1-a1-m3-cA 6vv1-a1-m4-cA_6vv1-a1-m5-cA 6vv1-a1-m4-cA_6vv1-a1-m6-cA 6vv1-a1-m5-cA_6vv1-a1-m6-cA 6vv2-a1-m1-cA_6vv2-a1-m2-cA 6vv2-a1-m1-cA_6vv2-a1-m3-cA 6vv2-a1-m2-cA_6vv2-a1-m3-cA 6vv2-a1-m4-cA_6vv2-a1-m5-cA 6vv2-a1-m4-cA_6vv2-a1-m6-cA 6vv2-a1-m5-cA_6vv2-a1-m6-cA 6vv3-a1-m1-cA_6vv3-a1-m2-cA 6vv3-a1-m1-cA_6vv3-a1-m3-cA 6vv3-a1-m2-cA_6vv3-a1-m3-cA 6vv3-a1-m4-cA_6vv3-a1-m5-cA 6vv3-a1-m4-cA_6vv3-a1-m6-cA 6vv3-a1-m5-cA_6vv3-a1-m6-cA 6x10-a1-m1-cA_6x10-a1-m2-cA 6x10-a1-m1-cA_6x10-a1-m3-cA 6x10-a1-m2-cA_6x10-a1-m3-cA 6x10-a1-m4-cA_6x10-a1-m5-cA 6x10-a1-m4-cA_6x10-a1-m6-cA 6x10-a1-m5-cA_6x10-a1-m6-cA 6x6g-a1-m1-cAAA_6x6g-a1-m2-cAAA 6x6g-a1-m1-cAAA_6x6g-a1-m3-cAAA 6x6g-a1-m2-cAAA_6x6g-a1-m3-cAAA 6x6g-a1-m4-cAAA_6x6g-a1-m5-cAAA 6x6g-a1-m4-cAAA_6x6g-a1-m6-cAAA 6x6g-a1-m5-cAAA_6x6g-a1-m6-cAAA 6x6i-a1-m1-cAAA_6x6i-a1-m2-cAAA 6x6i-a1-m1-cAAA_6x6i-a1-m3-cAAA 6x6i-a1-m2-cAAA_6x6i-a1-m3-cAAA 6x6i-a1-m4-cAAA_6x6i-a1-m5-cAAA 6x6i-a1-m4-cAAA_6x6i-a1-m6-cAAA 6x6y-a1-m1-cAAA_6x6y-a1-m2-cAAA 6x6y-a1-m1-cAAA_6x6y-a1-m3-cAAA 6x6y-a1-m2-cAAA_6x6y-a1-m3-cAAA 6x6y-a1-m4-cAAA_6x6y-a1-m5-cAAA 6x6y-a1-m4-cAAA_6x6y-a1-m6-cAAA 6x6y-a1-m5-cAAA_6x6y-a1-m6-cAAA 6x7a-a1-m1-cAAA_6x7a-a1-m2-cAAA 6x7a-a1-m1-cAAA_6x7a-a1-m3-cAAA 6x7a-a1-m2-cAAA_6x7a-a1-m3-cAAA 6x7a-a1-m4-cAAA_6x7a-a1-m5-cAAA 6x7a-a1-m4-cAAA_6x7a-a1-m6-cAAA 6x7a-a1-m5-cAAA_6x7a-a1-m6-cAAA 8d1r-a1-m1-cA_8d1r-a1-m2-cA 8d1r-a1-m1-cA_8d1r-a1-m3-cA 8d1r-a1-m2-cA_8d1r-a1-m3-cA 8d1r-a1-m4-cA_8d1r-a1-m5-cA 8d1r-a1-m4-cA_8d1r-a1-m6-cA 8d1r-a1-m5-cA_8d1r-a1-m6-cA 8d23-a1-m1-cA_8d23-a1-m2-cA 8d23-a1-m1-cA_8d23-a1-m3-cA 8d23-a1-m2-cA_8d23-a1-m3-cA 8d23-a1-m4-cA_8d23-a1-m5-cA 8d23-a1-m4-cA_8d23-a1-m6-cA 8d23-a1-m5-cA_8d23-a1-m6-cA 8d25-a1-m1-cA_8d25-a1-m2-cA 8d25-a1-m1-cA_8d25-a1-m3-cA 8d25-a1-m2-cA_8d25-a1-m3-cA 8d25-a1-m4-cA_8d25-a1-m5-cA 8d25-a1-m4-cA_8d25-a1-m6-cA 8d25-a1-m5-cA_8d25-a1-m6-cA 8f4a-a1-m1-cA_8f4a-a1-m2-cA 8f4a-a1-m1-cA_8f4a-a1-m3-cA 8f4a-a1-m2-cA_8f4a-a1-m3-cA 8f4a-a1-m4-cA_8f4a-a1-m5-cA 8f4a-a1-m4-cA_8f4a-a1-m6-cA 8f4a-a1-m5-cA_8f4a-a1-m6-cA 8f4t-a1-m1-cA_8f4t-a1-m2-cA 8f4t-a1-m1-cA_8f4t-a1-m3-cA 8f4t-a1-m2-cA_8f4t-a1-m3-cA 8f4t-a1-m4-cA_8f4t-a1-m5-cA 8f4t-a1-m4-cA_8f4t-a1-m6-cA 8f4t-a1-m5-cA_8f4t-a1-m6-cA 8f4u-a1-m1-cA_8f4u-a1-m2-cA 8f4u-a1-m1-cA_8f4u-a1-m3-cA 8f4u-a1-m2-cA_8f4u-a1-m3-cA 8f4u-a1-m4-cA_8f4u-a1-m5-cA 8f4u-a1-m4-cA_8f4u-a1-m6-cA 8f4u-a1-m5-cA_8f4u-a1-m6-cA 8f4w-a1-m1-cA_8f4w-a1-m2-cA 8f4w-a1-m1-cA_8f4w-a1-m3-cA 8f4w-a1-m2-cA_8f4w-a1-m3-cA 8f4w-a1-m4-cA_8f4w-a1-m5-cA 8f4w-a1-m4-cA_8f4w-a1-m6-cA 8f4w-a1-m5-cA_8f4w-a1-m6-cA 8f4z-a1-m1-cA_8f4z-a1-m2-cA 8f4z-a1-m1-cA_8f4z-a1-m3-cA 8f4z-a1-m2-cA_8f4z-a1-m3-cA 8f4z-a1-m4-cA_8f4z-a1-m5-cA 8f4z-a1-m4-cA_8f4z-a1-m6-cA 8f4z-a1-m5-cA_8f4z-a1-m6-cA 8f51-a1-m1-cA_8f51-a1-m2-cA 8f51-a1-m1-cA_8f51-a1-m3-cA 8f51-a1-m2-cA_8f51-a1-m3-cA 8f51-a1-m4-cA_8f51-a1-m5-cA 8f51-a1-m4-cA_8f51-a1-m6-cA 8f51-a1-m5-cA_8f51-a1-m6-cA 8f55-a1-m1-cA_8f55-a1-m2-cA 8f55-a1-m1-cA_8f55-a1-m3-cA 8f55-a1-m2-cA_8f55-a1-m3-cA 8f55-a1-m4-cA_8f55-a1-m5-cA 8f55-a1-m4-cA_8f55-a1-m6-cA 8f55-a1-m5-cA_8f55-a1-m6-cA 8f57-a1-m1-cA_8f57-a1-m2-cA 8f57-a1-m1-cA_8f57-a1-m3-cA 8f57-a1-m2-cA_8f57-a1-m3-cA 8f57-a1-m4-cA_8f57-a1-m5-cA 8f57-a1-m4-cA_8f57-a1-m6-cA 8f57-a1-m5-cA_8f57-a1-m6-cA 8f58-a1-m1-cA_8f58-a1-m2-cA 8f58-a1-m1-cA_8f58-a1-m3-cA 8f58-a1-m2-cA_8f58-a1-m3-cA 8f58-a1-m4-cA_8f58-a1-m5-cA 8f58-a1-m4-cA_8f58-a1-m6-cA 8f58-a1-m5-cA_8f58-a1-m6-cA VTLCSPTEDDWPGMFLLAAASFTDFIGPESATAWRTLVPTDGAVVVRDSEVVGMALYMDLRLTVPGEVVLPTAGLSFVAVAPTHRRRGLLRAMCAELHRRIADSGYPVAALHASEGGIYGRFGYGPATTLHELTVDRRFARFHADAPGGSSVRLVRPTEHRGEFEAIYERWRQQVPGGLLRPQVLWDELLAEAKAAPGGDRESFALLHPDGYALYRVDRTDLKLARVSELRAVTADAHCALWRALIGLDSMERISIITHPQDPLPHLLTDTRLARTTWRQDGLWLRIMNVPAALEARGYAHEVGEFSTVLEVSDGGRFALKIGDGRARCTPTDAAAEIEMDRDVLGSLYLGAHRASTLAAANRLRTKDSQLLRRLDAAFASDVPVQTAFEF VTLCSPTEDDWPGMFLLAAASFTDFIGPESATAWRTLVPTDGAVVVRDSEVVGMALYMDLRLTVPGEVVLPTAGLSFVAVAPTHRRRGLLRAMCAELHRRIADSGYPVAALHASEGGIYGRFGYGPATTLHELTVDRRFARFHADAPGGSSVRLVRPTEHRGEFEAIYERWRQQVPGGLLRPQVLWDELLAEAKAAPGGDRESFALLHPDGYALYRVDRTDLKLARVSELRAVTADAHCALWRALIGLDSMERISIITHPQDPLPHLLTDTRLARTTWRQDGLWLRIMNVPAALEARGYAHEVGEFSTVLEVSDGGRFALKIGDGRARCTPTDAAAEIEMDRDVLGSLYLGAHRASTLAAANRLRTKDSQLLRRLDAAFASDVPVQTAFEF 6x6p-a1-m1-cB_6x6p-a1-m1-cC Characterization of the SARS-CoV-2 S Protein: Biophysical, Biochemical, Structural, and Antigenic Analysis P0DTC2 P0DTC2 3.22 ELECTRON MICROSCOPY 316 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1017 1017 6x6p-a1-m1-cA_6x6p-a1-m1-cB 6x6p-a1-m1-cA_6x6p-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6x79-a1-m1-cB_6x79-a1-m1-cC Prefusion SARS-CoV-2 S ectodomain trimer covalently stabilized in the closed conformation P0DTC2 P0DTC2 2.9 ELECTRON MICROSCOPY 291 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 950 950 6x79-a1-m1-cA_6x79-a1-m1-cB 6x79-a1-m1-cA_6x79-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNNVVIKVCEFQFDPFLGCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVCPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRPFERDILQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLCPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNNVVIKVCEFQFDPFLGCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVCPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRPFERDILQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLCPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 6x7h-a1-m1-cA_6x7h-a1-m1-cB Cyanovirin-N Mutation I34Y with Dimannose bound P81180 P81180 1.25 X-RAY DIFFRACTION 34 0.99 45916 (Nostoc ellipsosporum) 45916 (Nostoc ellipsosporum) 100 100 2pys-a1-m1-cA_2pys-a1-m1-cB 2z21-a1-m1-cA_2z21-a1-m1-cB GNFSQACYNSAIQGSVLTSTCIRTNGGYNTSSYDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIAAIDGTLKYE LGNFSQACYNSAIQGSVLTSTCIRTNGGYNTSSYDLNSVIENVDGSLKWQGSNFIETCRNTQLAGSSELAAECKTRAQQFVSTKINLDDHIAAIDGTLKY 6x7n-a1-m1-cA_6x7n-a1-m2-cA LnmK in complex with 2-nitronate-propionyl-amino(dethia)-CoA Q8GGP1 Q8GGP1 1.42 X-RAY DIFFRACTION 127 1.0 66869 (Streptomyces atroolivaceus) 66869 (Streptomyces atroolivaceus) 302 302 4hzn-a1-m1-cA_4hzn-a1-m2-cA 4hzo-a1-m1-cA_4hzo-a1-m2-cA 4hzp-a1-m1-cA_4hzp-a1-m2-cA 6x7l-a1-m1-cA_6x7l-a1-m2-cA 6x7m-a1-m1-cA_6x7m-a1-m2-cA 6x7o-a1-m1-cA_6x7o-a1-m2-cA 6x7p-a1-m1-cA_6x7p-a1-m2-cA RPEIKQAVTVRPGMCGPGSLFVGQLGDWTWETVSAQCDTDVFAARDASGNPTYLAFYYFRVRGGRELHPGSLTFGDRLTVTSGCYDQGTESVLTLHRIDRAGSDDAQRPLDLHEFYERPRDGSLYVENFNRWVTRSAPGSNEDLVKSSPPGFRNDGLPQLPAAYSPRAVYREARTAHTFRALDEPGFRLLPDTVEVEHPVDIVRDVNGVGLLYFASYFSMVDKAALALWRRLGRSDRAFLRRVVVDQQMCYLGNADLDSVLTLGARVRVSTETPGEELVDVVISDRDSGRVIAVSTLHTQHD RPEIKQAVTVRPGMCGPGSLFVGQLGDWTWETVSAQCDTDVFAARDASGNPTYLAFYYFRVRGGRELHPGSLTFGDRLTVTSGCYDQGTESVLTLHRIDRAGSDDAQRPLDLHEFYERPRDGSLYVENFNRWVTRSAPGSNEDLVKSSPPGFRNDGLPQLPAAYSPRAVYREARTAHTFRALDEPGFRLLPDTVEVEHPVDIVRDVNGVGLLYFASYFSMVDKAALALWRRLGRSDRAFLRRVVVDQQMCYLGNADLDSVLTLGARVRVSTETPGEELVDVVISDRDSGRVIAVSTLHTQHD 6x88-a1-m1-cB_6x88-a1-m1-cA PDE6 chicken GAF domain P52731 P52731 3.19974 X-RAY DIFFRACTION 136 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 375 382 RLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLARDRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLRNHHTSYLYNIESRRSQMLLWSANKVFEELTDIERQFHKALYTIRMYLNCERYSVGLLDMTPDGREVNFYKIIDYILHGKEEIKVIPTPPADHWCLISGLPTYVAENGFICNMMNAPADEYFTFQKGPVDETGWVIKNVLSLPIVNKKEEIVGVATFYNRKDGKPFDEYDEQIIETLTQFLGWSVLNTDTYDKMNKLENRKDIAQ VSFKDMSRLEECNILFELLTEIQDEAGSMEKIVHKTLQRLSQLLARDRCSMFICRSRNGIPEVATRLLNVTPTSKFEDNLVNPDKETVFPLDIGIAGWVAHTKKFFNIPDVKKNNHFSDYLDKKTGYTTVNMMAIPITQGKEVLAVVMALNKLNASEFSKEDEEVFKKYLNFISLVLRNHHTSYLYNIESRRSQMLLWSANKVFEELTDIERQFHKALYTIRMYLNCERYSVGLLDMTPDGREVNFYKIIDYILHGKEEIKVIPTPPADHWCLISGLPTYVAENGFICNMMNAPADEYFTFQKGPVDETGWVIKNVLSLPIVNKKEEIVGVATFYNRKDGKPFDEYDEQIIETLTQFLGWSVLNTDTYDKMNKLENRKDIAQ 6x8o-a1-m1-cA_6x8o-a1-m1-cC BimBH3 peptide tetramer O43521 O43521 1.31 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 26 DMRPEIWIAQELRRIGDEFNAYYARR DMRPEIWIAQELRRIGDEFNAYYARR 6x8o-a1-m1-cA_6x8o-a1-m1-cD BimBH3 peptide tetramer O43521 O43521 1.31 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 26 6x8o-a1-m1-cB_6x8o-a1-m1-cC DMRPEIWIAQELRRIGDEFNAYYARR DMRPEIWIAQELRRIGDEFNAYYARR 6x8o-a1-m1-cB_6x8o-a1-m1-cD BimBH3 peptide tetramer O43521 O43521 1.31 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 26 26 DMRPEIWIAQELRRIGDEFNAYYARR DMRPEIWIAQELRRIGDEFNAYYARR 6x93-a1-m1-cA_6x93-a1-m1-cD Interleukin-10 signaling complex with IL-10RA and IL-10RB P22301 P22301 3.5 ELECTRON MICROSCOPY 196 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 135 145 CTHFPGYLPNMLRDLRDAFSRVKTFFQMKDQLDNLLLKESLLEDFKGYLGCQALSEMIQFYLEEVMPQAENQDPDIKAHVQSLGENLKDLRLWLRRCHRKNAFNKLQEKGIYKAMSEFDIFINYIEAYMTMKIRN CTHFPGYLPNMLRDLRDAFSRVKTFFQMKDQLDNLLLKESLLEDFKGYLGCQALSEMIQFYLEEVMPQAENQDPDIKAHVQSLGENLKDLRLWLRRLPCENKSKAVEQVKNAFNKLQEKGIYKAMSEFDIFINYIEAYMTMKIRN 6x9l-a2-m1-cB_6x9l-a2-m3-cB Crystal Structure of Aldehyde Dehydrogenase C (AldC) mutant (C291A) from Pseudomonas syringae in complexed with NAD+ and Octanal Q87YZ5 Q87YZ5 2.52 X-RAY DIFFRACTION 162 1.0 223283 (Pseudomonas syringae pv. tomato str. DC3000) 223283 (Pseudomonas syringae pv. tomato str. DC3000) 484 484 6x9l-a1-m1-cA_6x9l-a1-m2-cA LNSHRVDPHTAQKFYIDGHWSAPLSPVSIAVVNPATEEVVAHVASGSAADVDRAVAAARAAFAGWSGTSPEVRAQVIGRIHELIIERKEELAQAISLEMGAAISSARAMQVPLAAEHVRVARDLLATYRFQTVEGGTAIEREPIGVCALITPWNWPLYQITAKVAPAIAAGCTVVLKPSELSPLSALLFAQLVHDAGLPPGVFNLVNGSGPEVGGAMAAHPDIDMISITGSNRAGALVAQAAAPTVKRVTQELGGKSPNILLPDADFANAVPPGVMAAFRNVGQSASAPTRMIVPRNRLAEVEALAAQTAGTIVVGDPQLEHTVLGPIANEAQFHRVQAMINAGICEGAKLVCGGPGRVQGHEQGFYTRPTVFSEVDSSMRIAREEIFGPVLCLIAYDTIDEAVAIANDTVYGLGAHVQGQDLELARSVASRIRAGQVHLNYPSWNPMAPFGGYKRSGNGREYGVHGFEEYLETKAIVGFAPAD LNSHRVDPHTAQKFYIDGHWSAPLSPVSIAVVNPATEEVVAHVASGSAADVDRAVAAARAAFAGWSGTSPEVRAQVIGRIHELIIERKEELAQAISLEMGAAISSARAMQVPLAAEHVRVARDLLATYRFQTVEGGTAIEREPIGVCALITPWNWPLYQITAKVAPAIAAGCTVVLKPSELSPLSALLFAQLVHDAGLPPGVFNLVNGSGPEVGGAMAAHPDIDMISITGSNRAGALVAQAAAPTVKRVTQELGGKSPNILLPDADFANAVPPGVMAAFRNVGQSASAPTRMIVPRNRLAEVEALAAQTAGTIVVGDPQLEHTVLGPIANEAQFHRVQAMINAGICEGAKLVCGGPGRVQGHEQGFYTRPTVFSEVDSSMRIAREEIFGPVLCLIAYDTIDEAVAIANDTVYGLGAHVQGQDLELARSVASRIRAGQVHLNYPSWNPMAPFGGYKRSGNGREYGVHGFEEYLETKAIVGFAPAD 6xaf-a1-m1-cA_6xaf-a1-m1-cB 1.9A crystal structure of the GTPase domain of Parkinson's disease-associated protein LRRK2 carrying R1398H Q5S007 Q5S007 1.968 X-RAY DIFFRACTION 147 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 172 174 MKLMIVGNTGSGKTTLLQQLMKQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGHEEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEAQRAACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIR RMKLMIVGNTGSGKTTLLQQLMKQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGHEEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEAQRAACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRD 6xat-a2-m1-cA_6xat-a2-m2-cA Crystal structure of the human FoxP4 DNA binding Domain Q8IVH2 Q8IVH2 2.2 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 77 DVRPPFTYASLIRQAILETPDRQLTLNEIYNWFTRMFAYFRRNTATWKNAVRHNLSLHKCFVRVENVKGAVWTVDER DVRPPFTYASLIRQAILETPDRQLTLNEIYNWFTRMFAYFRRNTATWKNAVRHNLSLHKCFVRVENVKGAVWTVDER 6xb3-a4-m1-cG_6xb3-a4-m1-cH Structure of AcNPV poxin in post-reactive state with Gp[2'-5']Ap[3'] P08358 P08358 1.9 X-RAY DIFFRACTION 60 1.0 46015 (Autographa californica nucleopolyhedrovirus) 46015 (Autographa californica nucleopolyhedrovirus) 226 232 6xb3-a1-m1-cB_6xb3-a1-m1-cA 6xb3-a2-m1-cD_6xb3-a2-m1-cC 6xb3-a3-m1-cF_6xb3-a3-m1-cE 6xb3-a5-m1-cI_6xb3-a5-m1-cJ 6xb3-a6-m1-cK_6xb3-a6-m1-cL 6xb3-a7-m1-cN_6xb3-a7-m1-cM 6xb3-a8-m1-cO_6xb3-a8-m1-cP SMELYNIKYAIDPTNKIVIEQVDNVDAFVHILEPGQEVFDETLSQYHQFPGVVSSIIFPQLVLNTIISVLSEDGSLLTLKLENTCFNFHVCNKRFVFGNLPAAVVNNETKQKLRIGAPIFAGKKLVSVVTAFHRVGENEWLLPVTGIREASQLSGHMKVLNGVRVEKWRPNMSVYGTVQLPYDKIKQHALEQLESCVLFYKDSEIRITYNKGDYEIMHLRMPGPLI SMELYNIKYAIDPTNKIVIEQVDNVDAFVHILEPGQEVFDETLSQYHQFPGVVSSIIFPQLVLNTIISVLSEDGSLLTLKLENTCFNFHVCNKRFVFGNLPAAVVNNETKQKLRIGAPIFAGKKLVSVVTAFHRVGENEWLLPVTGIREASQLSGHMKVLNGVRVEKWRPNMSVYGTVQLPYDKIKQHALEQENKALESCVLFYKDSEIRITYNKGDYEIMHLRMPGPLIQP 6xb4-a2-m1-cD_6xb4-a2-m1-cC Structure of PrGV poxin in post-reactive state with Gp[2'-5']Ap[3'] V9XTR0 V9XTR0 1.9 X-RAY DIFFRACTION 65 0.995 252584 (Pieris rapae granulovirus) 252584 (Pieris rapae granulovirus) 186 189 6xb4-a1-m1-cB_6xb4-a1-m1-cA ESLAPFGYNKVSFKQTHHHYCGFYSLNILANIIDNVVVVNGKQYPVSDETAIDWAYDGVDTIVCEKRLVYTEREWPLHTPIYNINNQIVGLVTHGVQLSSQEYCYAVQDGFNLYNNHLTGMNLIVREKKKLIAYADREFDNKSELQIYIGYGAILYHVNKKNAQLILHNNGLQISNSRLRKNVFGN ESLAPFGYNKVSFKQTHHHYCGFYSLNILANIIDNVVVVNGKQYPVSDETAIDWAYDGVDTIVCEKRLVYTEREWPLHTPIYNINNQIVGLVTHGVQLSSQEYCYAVQDGFNLYNNHLTGMNLIVREKKKLIAYADREFDNKSELQIYIEETQGYGAILYHVNKKNAQLILHNNGLQISNSRLRKNVFG 6xb5-a1-m1-cA_6xb5-a1-m1-cB Structure of Trichoplusia ni poxin in post-reactive state with Gp[2'-5']Ap[3'] A0A7E5VPD6 A0A7E5VPD6 2.9 X-RAY DIFFRACTION 85 1.0 7111 (Trichoplusia ni) 7111 (Trichoplusia ni) 240 240 MGRTVLNESNKGLVENFSIPAELHERDGKRFASFGTTVPIHCCTPEQVAEFANKTHHYCDVFTEQVLAPLDELVYVRIDENTAEKVFINRSKRILLVSSDGVLAQWRSAPTFESSNRFLAGTPIVNKDGDLVSVVTARKGNHYAVSTFEGEGGYFETSQPWKVLDPPEGAAVYGDRWFPSREEVRAYTLSLPGAAVSAGSPPAPVLHRGGSGRLVLADARGRQLSHHYLHGVATTDVQYL MGRTVLNESNKGLVENFSIPAELHERDGKRFASFGTTVPIHCCTPEQVAEFANKTHHYCDVFTEQVLAPLDELVYVRIDENTAEKVFINRSKRILLVSSDGVLAQWRSAPTFESSNRFLAGTPIVNKDGDLVSVVTARKGNHYAVSTFEGEGGYFETSQPWKVLDPPEGAAVYGDRWFPSREEVRAYTLSLPGAAVSAGSPPAPVLHRGGSGRLVLADARGRQLSHHYLHGVATTDVQYL 6xb6-a1-m1-cA_6xb6-a1-m1-cB Structure of Danaus plexippus poxin cGAMP nuclease A0A212FM92 A0A212FM92 1.45 X-RAY DIFFRACTION 76 1.0 13037 (Danaus plexippus) 13037 (Danaus plexippus) 239 239 KSTALNEKYYGLVENVTIPASLHEYNGKPYSKVGNAMPIHCATQEEKELLSRTTHHYCDLFTDKLFAPLEELVFVRLDENKAEKVFLNRHKRLFLTSSDGVVASWRCAPTLESLNKFMAGTPLVGRDGRVVSLLTAKHGNHYAVSHLEGDGGYFETSKPWEIKDMEDGRLYYGNKSFNSRDELRAYIQNLPPLEVDSSAPPQPILLRGKNPRIILVAENGRQISHQYISSNLITDVEYL KSTALNEKYYGLVENVTIPASLHEYNGKPYSKVGNAMPIHCATQEEKELLSRTTHHYCDLFTDKLFAPLEELVFVRLDENKAEKVFLNRHKRLFLTSSDGVVASWRCAPTLESLNKFMAGTPLVGRDGRVVSLLTAKHGNHYAVSHLEGDGGYFETSKPWEIKDMEDGRLYYGNKSFNSRDELRAYIQNLPPLEVDSSAPPQPILLRGKNPRIILVAENGRQISHQYISSNLITDVEYL 6xb9-a2-m1-cB_6xb9-a2-m1-cG Crystal structure of Azotobacter vinelandii 3-mercaptopropionic acid dioxygenase in complex with 3-hydroxypropionic acid C1DN94 C1DN94 2.25 X-RAY DIFFRACTION 97 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 193 194 6xb9-a1-m2-cF_6xb9-a1-m1-cA 6xb9-a3-m3-cC_6xb9-a3-m1-cH 6xb9-a4-m1-cD_6xb9-a4-m1-cE 6xb9-a5-m1-cI_6xb9-a5-m1-cK 6xb9-a6-m1-cL_6xb9-a6-m1-cJ 7kov-a1-m1-cC_7kov-a1-m1-cB 7kov-a2-m1-cA_7kov-a2-m1-cD LRLDRLRDFVSALGELLDRHPDEESVLREGRSLLGELVRHDDWLPEEFAQPDPERYQQYLLHADSRQRFSVVSFVWGPGQTTPVHDHRVWGLIGMLRGAEDAQSFELGAEGLRPIGDPVRLSPGQVEAVSPRIGDIHRVFNASPDQPSISIHVYGANIGAVRRAVYLPDGSEKPFISGYSNQFLPNIWDQSKE PLRLDRLRDFVSALGELLDRHPDEESVLREGRSLLGELVRHDDWLPEEFAQPDPERYQQYLLHADSRQRFSVVSFVWGPGQTTPVHDHRVWGLIGMLRGAEDAQSFELGAEGLRPIGDPVRLSPGQVEAVSPRIGDIHRVFNASPDQPSISIHVYGANIGAVRRAVYLPDGSEKPFISGYSNQFLPNIWDQSKE 6xbt-a1-m1-cA_6xbt-a1-m2-cA Streptomyces coelicolor methylmalonyl-CoA epimerase (Q60A) in complex with 2-nitronate-propionyl-CoA Q9L2C2 Q9L2C2 1.49 X-RAY DIFFRACTION 97 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 140 140 6wf6-a1-m1-cB_6wf6-a1-m1-cA 6wf7-a1-m1-cA_6wf7-a1-m2-cA 6wfh-a1-m1-cA_6wfh-a1-m2-cA 6wfi-a1-m1-cA_6wfi-a1-m2-cA 6xbq-a1-m1-cA_6xbq-a1-m2-cA 6xbr-a1-m1-cA_6xbr-a1-m2-cA 6xbs-a1-m1-cA_6xbs-a1-m2-cA 6xbv-a1-m1-cA_6xbv-a1-m2-cA SLTRIDHIGIACHDLDATVEFYRATYGFEVFHTEVNEEQGVREAMLKINDTSDGGASYLALLEPTREDSAVGKWLAKNGEGVHHIAFGTADVDADAADIRDKGVRVLYDEPRRGSMGSRITFLHPKDCHGVLTELVTSAA SLTRIDHIGIACHDLDATVEFYRATYGFEVFHTEVNEEQGVREAMLKINDTSDGGASYLALLEPTREDSAVGKWLAKNGEGVHHIAFGTADVDADAADIRDKGVRVLYDEPRRGSMGSRITFLHPKDCHGVLTELVTSAA 6xbu-a1-m1-cA_6xbu-a1-m2-cA polymerase domain of polymerase-theta O75417 O75417 3.29 X-RAY DIFFRACTION 132 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 605 605 ESLSIIDVASDQNLFQTFIKEWRCKKRFSISLACEKIRGGDDTLVVGLAVCWGGRDAYYFSLLDPSLTLKDRMWYLQSCLRKESDKECSVVIYDFIQSYKILLLSCGISLEQSYEDPKVACWLLDPDSQEPTLHSIVTSFLPHELPLLEGMETSQGIQSLGLSEHSGRYRASVESILIFNSMNQLNSLLQKENLQDVFRKVEMPSQYCLALLELNGIGFSTAECESQKHIMQAKLDAIETQSFTSSDDIAEVLFLSTSKDVLNKLKALHPLPGLILEWRRITNAITKVVFPLQREKCLNPFLGMERIYPVSQSHTATGRITFTEPNIQNVPRDFEIKMGMPFSISMRHAFVPFPGGSILAADYSQLELRILAHLSHDRRLIQVLNTGADVFRSIAAEWKMIEPESVGDDDRQQAKQICYGIIYGMGAKSLGEQMGIKENDAACYIDSFKSRYTGINQFMTETVKNCKRDGFVQTILGRRRYLPGIKDNNPYRKAHAERQAINTIVQGSAADIVKIATVNIQKQLETFHSTFKSHGHREGMLQSDCPIRGGFFILQLHDELLYEVAEEDVVQVAQIVKNEMESAVKLSVKLKVKVKIGASWGELKD ESLSIIDVASDQNLFQTFIKEWRCKKRFSISLACEKIRGGDDTLVVGLAVCWGGRDAYYFSLLDPSLTLKDRMWYLQSCLRKESDKECSVVIYDFIQSYKILLLSCGISLEQSYEDPKVACWLLDPDSQEPTLHSIVTSFLPHELPLLEGMETSQGIQSLGLSEHSGRYRASVESILIFNSMNQLNSLLQKENLQDVFRKVEMPSQYCLALLELNGIGFSTAECESQKHIMQAKLDAIETQSFTSSDDIAEVLFLSTSKDVLNKLKALHPLPGLILEWRRITNAITKVVFPLQREKCLNPFLGMERIYPVSQSHTATGRITFTEPNIQNVPRDFEIKMGMPFSISMRHAFVPFPGGSILAADYSQLELRILAHLSHDRRLIQVLNTGADVFRSIAAEWKMIEPESVGDDDRQQAKQICYGIIYGMGAKSLGEQMGIKENDAACYIDSFKSRYTGINQFMTETVKNCKRDGFVQTILGRRRYLPGIKDNNPYRKAHAERQAINTIVQGSAADIVKIATVNIQKQLETFHSTFKSHGHREGMLQSDCPIRGGFFILQLHDELLYEVAEEDVVQVAQIVKNEMESAVKLSVKLKVKVKIGASWGELKD 6xcn-a1-m1-cC_6xcn-a1-m1-cE Structure of the SARS-CoV-2 spike glycoprotein in complex with the C105 neutralizing antibody Fab fragment (state 2) P0DTC2 P0DTC2 3.66 ELECTRON MICROSCOPY 262 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 985 985 6xcm-a1-m1-cB_6xcm-a1-m1-cC 6xcn-a1-m1-cA_6xcn-a1-m1-cC 6xcn-a1-m1-cA_6xcn-a1-m1-cE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6xcv-a1-m1-cA_6xcv-a1-m1-cB Crystal structure of apo SznF from Streptomyces achromogenes var. streptozoticus NRRL 2697 A0A411MR89 A0A411MR89 1.77 X-RAY DIFFRACTION 221 1.0 285532 (Streptomyces achromogenes subsp. streptozoticus) 285532 (Streptomyces achromogenes subsp. streptozoticus) 457 459 6m9r-a1-m1-cB_6m9r-a1-m1-cA 6m9s-a1-m1-cB_6m9s-a1-m1-cA 6m9s-a2-m1-cD_6m9s-a2-m1-cC 6vzy-a1-m1-cB_6vzy-a1-m1-cA VPPHVPFELSGAELRDAIVQYATNPIYHDNLDWLNHDNPYRRQLRPQVLPHLDYDKVPGRENILNYASLAVQRLLTSVYEADLVFFPKSGLKGKEEDFRAFYSPANRALGERIRPALERYAFGFLDDEVWTAQSLDAYLDSLEQSPVEKAILGSADRERAARMWLVQFAPDFLSEASPMMRNVLGYYGPAQSEWFKVVIDEYGYGVHDTKHSTLFERTLESVGLESDLHRYWQYYLNSSLLLNNYFHYLGKNHELFFRYVGALYYTESSLVDFCRRADHLLREVFGDTVDTTYFTEHIHIDQHHGRMAREKIIKPLVEAHGDGIIPEIVRGIEEYRVLLEIGDFDFSEQIAWMDAQPELKKLHDPVFEGLKQGKVDAPVAHLVEPRGELSNTHCHDGDELCHIVSGTMRFESGLGSSLTLQAGEGVVIKRNRLHGANIESDECVYEIHSVGDYRKCL VPPHVPFELSGAELRDAIVQYATNPIYHDNLDWLNHDNPYRRQLRPQVLPHLDYDKVPGRENILNYASLAVQRLLTSVYEADLVFFPKSGLKGKEEDFRAFYSPANRALGERIRPALERYAFGFLDDEVETWTAQSLDAYLDSLEQSPVEKAILGSADRERAARMWLVQFAPDFLSEASPMMRNVLGYYGPAQSEWFKVVIDEYGYGVHDTKHSTLFERTLESVGLESDLHRYWQYYLNSSLLLNNYFHYLGKNHELFFRYVGALYYTESSLVDFCRRADHLLREVFGDTVDTTYFTEHIHIDQHHGRMAREKIIKPLVEAHGDGIIPEIVRGIEEYRVLLEIGDFDFSEQIAWMDAQPELKKLHDPVFEGLKQGKVDAPVAHLVEPRGELSNTHCHDGDELCHIVSGTMRFESGLGSSLTLQAGEGVVIKRNRLHGANIESDECVYEIHSVGDYRKCL 6xdk-a2-m1-cC_6xdk-a2-m1-cD Crystal structure of Phosphoserine aminotransferase (SerC) from Stenotrophomonas maltophilia K279a B2FKF0 B2FKF0 1.6 X-RAY DIFFRACTION 132 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 355 359 6xdk-a1-m1-cB_6xdk-a1-m1-cA RAFNFSAGPATLPESVLRQAQAEMLDWHGSGASIVEMSHRGAEFMSVAAEAEADLRRLLDIPDDYAVLFLSGGATTQQALIPLNFAAPGQRADYVVSGHWGKTAVKQAGVYVDVNIAASSEANGYRELPARADWQLSRDAAYVHITANETIHGVEFRDVPDTGNVPLIADFSSSIASEPLDVRRYGVIYAGAQKNLGPVGVAVMIIRRDLLERSGQPRADIFDYRSHVARNTPPTWNWYLAGLVFKWMLAEGGVTEFAKRNAAKAALVYGAIDGSGGFYRNEVAYAARSRMNIPFFLPDAELDARFVAEAKAAGLLALKGHKVVGGIRASLYNAMPLAGAEALVAFMADFQQRHG RAFNFSAGPATLPESVLRQAQAEMLDWHGSGASIVEMSHRGAEFMSVAAEAEADLRRLLDIPDDYAVLFLSGGATTQQALIPLNFAAPGQRADYVVSGHWGKTAVKQAGVYVDVNIAASSEANGYRELPARADWQLSRDAAYVHITANETIHGVEFRDVPDTGNVPLIADFSSSIASEPLDVRRYGVIYAGAQKNLGPVGVAVMIIRRDLLERSGQPRADIFDYRSHVARDSMLNTPPTWNWYLAGLVFKWMLAEGGVTEFAKRNAAKAALVYGAIDGSGGFYRNEVAYAARSRMNIPFFLPDAELDARFVAEAKAAGLLALKGHKVVGGIRASLYNAMPLAGAEALVAFMADFQQRHG 6xe9-a1-m1-cC_6xe9-a1-m1-cO 10S myosin II (smooth muscle) G3URE9 G3URE9 4.3 ELECTRON MICROSCOPY 12 1.0 9103 (Meleagris gallopavo) 9103 (Meleagris gallopavo) 143 143 6z47-a1-m1-cE_6z47-a1-m1-cF 7mf3-a1-m1-cE_7mf3-a1-m1-cD FDQSQIQEFKEAFNMIDQNRDGFIDKEDLHDMLASMGKNPTDEYLEGMMSEAPGPINFTMFLTMFGEKLNGTDPEDVIRNAFACFDEEASGFIHEDHLRELLTTMGDRFTDEEVDEMYREAPIDKKGNFNYVEFTRILKHGAK FDQSQIQEFKEAFNMIDQNRDGFIDKEDLHDMLASMGKNPTDEYLEGMMSEAPGPINFTMFLTMFGEKLNGTDPEDVIRNAFACFDEEASGFIHEDHLRELLTTMGDRFTDEEVDEMYREAPIDKKGNFNYVEFTRILKHGAK 6xep-a1-m1-cA_6xep-a1-m2-cA Crystal structure of Thiamine-monophosphate kinase from Stenotrophomonas maltophilia K279a B2FNL5 B2FNL5 1.8 X-RAY DIFFRACTION 179 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 316 316 HHHHMSLAEFALIDRIRARTLERDDILLGIGDDAALLQPRANEQLVVTADTLNSGVHFPVETRAFDIGWKTLAVNLSDLAAMGARPAWCTLALSLPEASEDWIEAFGDGFFALADQHDIALIGGDTTRGPLSLSVTAMGQVGRGQALRRDRAQLGDDIWVSGTLGDAAGALRLWQQGALNLATATLLADYESLRLRLLRPTPRVTLGLRLRAFAHAAVDVSDGLLADLGHIAARSNVAAHVDADSLPISHALRELLGRDDARDCALRGGDDYELCFTAAADQRDALHYLAESLDLPLTRIGRIADGQGVHVDGEAA HHHHMSLAEFALIDRIRARTLERDDILLGIGDDAALLQPRANEQLVVTADTLNSGVHFPVETRAFDIGWKTLAVNLSDLAAMGARPAWCTLALSLPEASEDWIEAFGDGFFALADQHDIALIGGDTTRGPLSLSVTAMGQVGRGQALRRDRAQLGDDIWVSGTLGDAAGALRLWQQGALNLATATLLADYESLRLRLLRPTPRVTLGLRLRAFAHAAVDVSDGLLADLGHIAARSNVAAHVDADSLPISHALRELLGRDDARDCALRGGDDYELCFTAAADQRDALHYLAESLDLPLTRIGRIADGQGVHVDGEAA 6xeq-a1-m1-cD_6xeq-a1-m1-cA Crystal structure of the tetrameric 6-phosphogluconate dehydrogenase from Gluconobacter oxidans G5EBD7 G5EBD7 3.2 X-RAY DIFFRACTION 330 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 315 320 6xeq-a1-m1-cB_6xeq-a1-m1-cC QGHMRIGIIGLGRMGGNIAVRLTRHGHDVVVHDRTSEVTTSVVGRCEAGRATPADTLADMAKLLEGDEHRVVWVMLPAGAITEDCVQQLGGLLGRGDIIIDGGNTYYKDDVRRSAELAEKGISYVDVGTSGGVWGLERGYCMMFGGTKETAEYIDPILSALAPGIGDVPRTPGRDEAGHDPRAEQGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPILAEKDRFELNMGDIAEVWRRGSVVSSWLLDLTAEALTRSSGEGRWTIEAAIEEDVPAPVMTAALFTRFRSRSGNNFAEKILSAQRFG FQGHMRIGIIGLGRMGGNIAVRLTRHGHDVVVHDRTSEVTTSVVGRCEAGRATPADTLADMAKLLEGDEHRVVWVMLPAGAITEDCVQQLGGLLGRGDIIIDGGNTYYKDDVRRSAELAEKGISYVDVGTSGGVWGLERGYCMMFGGTKETAEYIDPILSALAPGIGDVPRTPGRDEAGHDPRAEQGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPILAEKDRFELNMGDIAEVWRRGSVVSSWLLDLTAEALTRSESGEGRWTIEAAIEEDVPAPVMTAALFTRFRSRSGNNFAEKILSAQRFGFGG 6xeq-a1-m1-cD_6xeq-a1-m1-cB Crystal structure of the tetrameric 6-phosphogluconate dehydrogenase from Gluconobacter oxidans G5EBD7 G5EBD7 3.2 X-RAY DIFFRACTION 102 1.0 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 315 318 6xeq-a1-m1-cC_6xeq-a1-m1-cA QGHMRIGIIGLGRMGGNIAVRLTRHGHDVVVHDRTSEVTTSVVGRCEAGRATPADTLADMAKLLEGDEHRVVWVMLPAGAITEDCVQQLGGLLGRGDIIIDGGNTYYKDDVRRSAELAEKGISYVDVGTSGGVWGLERGYCMMFGGTKETAEYIDPILSALAPGIGDVPRTPGRDEAGHDPRAEQGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPILAEKDRFELNMGDIAEVWRRGSVVSSWLLDLTAEALTRSSGEGRWTIEAAIEEDVPAPVMTAALFTRFRSRSGNNFAEKILSAQRFG QGHMRIGIIGLGRMGGNIAVRLTRHGHDVVVHDRTSEVTTSVVGRCEAGRATPADTLADMAKLLEGDEHRVVWVMLPAGAITEDCVQQLGGLLGRGDIIIDGGNTYYKDDVRRSAELAEKGISYVDVGTSGGVWGLERGYCMMFGGTKETAEYIDPILSALAPGIGDVPRTPGRDEAGHDPRAEQGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPILAEKDRFELNMGDIAEVWRRGSVVSSWLLDLTAEALTRSDSGEGRWTIEAAIEEDVPAPVMTAALFTRFRSRSGNNFAEKILSAQRFGFG 6xeq-a1-m1-cD_6xeq-a1-m1-cC Crystal structure of the tetrameric 6-phosphogluconate dehydrogenase from Gluconobacter oxidans G5EBD7 G5EBD7 3.2 X-RAY DIFFRACTION 44 0.997 442 (Gluconobacter oxydans) 442 (Gluconobacter oxydans) 315 318 6xeq-a1-m1-cB_6xeq-a1-m1-cA QGHMRIGIIGLGRMGGNIAVRLTRHGHDVVVHDRTSEVTTSVVGRCEAGRATPADTLADMAKLLEGDEHRVVWVMLPAGAITEDCVQQLGGLLGRGDIIIDGGNTYYKDDVRRSAELAEKGISYVDVGTSGGVWGLERGYCMMFGGTKETAEYIDPILSALAPGIGDVPRTPGRDEAGHDPRAEQGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPILAEKDRFELNMGDIAEVWRRGSVVSSWLLDLTAEALTRSSGEGRWTIEAAIEEDVPAPVMTAALFTRFRSRSGNNFAEKILSAQRFG YFQGHMRIGIIGLGRMGGNIAVRLTRHGHDVVVHDRTSEVTTSVVGRCEAGRATPADTLADMAKLLEGDEHRVVWVMLPAGAITEDCVQQLGGLLGRGDIIIDGGNTYYKDDVRRSAELAEKGISYVDVGTSGGVWGLERGYCMMFGGTKETAEYIDPILSALAPGIGDVPRTPGRDEAGHDPRAEQGYLHCGPAGSGHFVKMVHNGIEYGMMQAFAEGFDIMKSKNSPILAEKDRFELNMGDIAEVWRRGSVVSSWLLDLTAEALTRSGEGRWTIEAAIEEDVPAPVMTAALFTRFRSRSGNNFAEKILSAQRFGFG 6xf5-a1-m1-cB_6xf5-a1-m1-cC Cryo-EM structure of a biotinylated SARS-CoV-2 spike probe in the prefusion state (RBDs down) P0DTC2 P0DTC2 3.45 ELECTRON MICROSCOPY 306 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1009 1009 6xf5-a1-m1-cA_6xf5-a1-m1-cB 6xf5-a1-m1-cA_6xf5-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEEL 6xf6-a1-m1-cB_6xf6-a1-m1-cC Cryo-EM structure of a biotinylated SARS-CoV-2 spike probe in the prefusion state (1 RBD up) P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 258 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 945 991 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6xf9-a1-m1-cE_6xf9-a1-m1-cD Crystal structure of KSHV ORF68 P88958 P88958 2.22 X-RAY DIFFRACTION 85 1.0 435895 (Human herpesvirus 8 type M) 435895 (Human herpesvirus 8 type M) 425 426 6xf9-a1-m1-cA_6xf9-a1-m1-cE 6xf9-a1-m1-cB_6xf9-a1-m1-cA 6xf9-a1-m1-cB_6xf9-a1-m1-cC 6xf9-a1-m1-cC_6xf9-a1-m1-cD FVPWQLGTITRHRDELQKLLAASLLPEHPEESLGNPIMTQIHQSLQPSSPCRVCQLLFSLVRPMGFFEDYACLCFFCLYAPHCWTSTMAAAADLCEIMHLHFPEEEATYGLFGPGRLMGIDLQLHFFVQKCFKTTAAEKILGISNLQFLKSEFIRGMLTGTITFKTSWTPCCQITDTTTAPASGIPELARATFCGASRPTKPSLLPALIDIWSTSSELLDPFFSPPLQADTSQGPCLMHPTLGLRYKNGTASVCLLCECLAAHPEAPKALQTLQCEVMGHIENNVKLVDRIAFVLDNPFAMPYVSDPLLRELIRGCTPQEIHKHLFCDPLCALNAKVVSEDVLFRLPREQEYKKLRASAAAGQLLDANTLFDCEVVQTLVFLFKGLQNARVGKTTSLDIIRELTAQLKRHRLDLAHPSQTSHLYA FVPWQLGTITRHRDELQKLLAASLLPEHPEESLGNPIMTQIHQSLQPSSPCRVCQLLFSLVRPMGFFEDYACLCFFCLYAPHCWTSTMAAAADLCEIMHLHFPEEEATYGLFGPGRLMGIDLQLHFFVQKCFKTTAAEKILGISNLQFLKSEFIRGMLTGTITFKTSWPTPCCQITDTTTAPASGIPELARATFCGASRPTKPSLLPALIDIWSTSSELLDPFFSPPLQADTSQGPCLMHPTLGLRYKNGTASVCLLCECLAAHPEAPKALQTLQCEVMGHIENNVKLVDRIAFVLDNPFAMPYVSDPLLRELIRGCTPQEIHKHLFCDPLCALNAKVVSEDVLFRLPREQEYKKLRASAAAGQLLDANTLFDCEVVQTLVFLFKGLQNARVGKTTSLDIIRELTAQLKRHRLDLAHPSQTSHLYA 6xfa-a1-m1-cI_6xfa-a1-m1-cJ Cryo-EM structure of EBV BFLF1 P03184 P03184 3.6 ELECTRON MICROSCOPY 76 1.0 10376 (Human gammaherpesvirus 4) 10376 (Human gammaherpesvirus 4) 406 406 6xfa-a1-m1-cA_6xfa-a1-m1-cB 6xfa-a1-m1-cA_6xfa-a1-m1-cE 6xfa-a1-m1-cB_6xfa-a1-m1-cC 6xfa-a1-m1-cC_6xfa-a1-m1-cD 6xfa-a1-m1-cD_6xfa-a1-m1-cE 6xfa-a1-m1-cF_6xfa-a1-m1-cG 6xfa-a1-m1-cF_6xfa-a1-m1-cJ 6xfa-a1-m1-cG_6xfa-a1-m1-cH 6xfa-a1-m1-cH_6xfa-a1-m1-cI DFVPWTVDNLKSQFEAVGLLMAHSYLPANAEEGIAYPPLVHTYESLSPASTCRVCDLLDTLVNHSDAPVAFFEDYALLCYYCLNAPRAWISSLITGMDFLHILIKYFPMAGGLDSLFMPSRILAIDIQLHFYICRCFLPVSSSDMIRNANLGYYKLEFLKSILTGQSPANFCFKSMWTKADYCGLLLGTWQGTDLLGGPGAELALAITRPEAGDHSQGPCLLAPMFGLRHKNASRTICPLCESLGAHPDAKDTLDRFKSLILDSFGNNIKILDRIVFLIKTQNTLLDVPCPRLRAWLQMCTPQDFHKHLFCDPLCAINHSITNPSVLFGQIYPPSFQAFKAALAAGQNLEQGVCDSLITLVYIFKSTQVARVGKTILVDVTKELDVVLRIHGLDLVQSYQTSQVYV DFVPWTVDNLKSQFEAVGLLMAHSYLPANAEEGIAYPPLVHTYESLSPASTCRVCDLLDTLVNHSDAPVAFFEDYALLCYYCLNAPRAWISSLITGMDFLHILIKYFPMAGGLDSLFMPSRILAIDIQLHFYICRCFLPVSSSDMIRNANLGYYKLEFLKSILTGQSPANFCFKSMWTKADYCGLLLGTWQGTDLLGGPGAELALAITRPEAGDHSQGPCLLAPMFGLRHKNASRTICPLCESLGAHPDAKDTLDRFKSLILDSFGNNIKILDRIVFLIKTQNTLLDVPCPRLRAWLQMCTPQDFHKHLFCDPLCAINHSITNPSVLFGQIYPPSFQAFKAALAAGQNLEQGVCDSLITLVYIFKSTQVARVGKTILVDVTKELDVVLRIHGLDLVQSYQTSQVYV 6xfj-a2-m1-cD_6xfj-a2-m1-cC Crystal structure of the type III secretion pilotin InvH P0CL43 P0CL43 1.2 X-RAY DIFFRACTION 119 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 76 77 6xfj-a1-m1-cA_6xfj-a1-m1-cB SASKNSAISSSIFCEKYKQTKEQALTFFQEHPQYMRSKEDEEQLMTEFKKVLLEPGSKNLSIYQTLLAAHERLQAL NSASKNSAISSSIFCEKYKQTKEQALTFFQEHPQYMRSKEDEEQLMTEFKKVLLEPGSKNLSIYQTLLAAHERLQAL 6xfr-a1-m1-cA_6xfr-a1-m1-cB Metallo-beta-lactamase from Pontibacter korlensis A0A0E3ZJD7 A0A0E3ZJD7 2.608 X-RAY DIFFRACTION 55 1.0 400092 (Pontibacter korlensis) 400092 (Pontibacter korlensis) 215 216 QLEVTKISSKVWIHTSYKTYHGTVVPSHGLIVSTKEGAVLIDTGWGKEPTEELLTWIKTNLKQPVKVCVPTHWHDDKLGGMEAVQRQGVPVVTSELTAILAAENSKGTPDVTFATDTTFAIGGQQLEVYFPGGGHTADNVVVYLPQQKILFGGCLVKDLQAKNLGNTADADLKSWPLAIQRLQQRYPKAKVVVPSHGPWGDQSLLSHTLSLLQNQ QQLEVTKISSKVWIHTSYKTYHGTVVPSHGLIVSTKEGAVLIDTGWGKEPTEELLTWIKTNLKQPVKVCVPTHWHDDKLGGMEAVQRQGVPVVTSELTAILAAENSKGTPDVTFATDTTFAIGGQQLEVYFPGGGHTADNVVVYLPQQKILFGGCLVKDLQAKNLGNTADADLKSWPLAIQRLQQRYPKAKVVVPSHGPWGDQSLLSHTLSLLQNQ 6xg8-a1-m1-cB_6xg8-a1-m1-cA ISCth4 transposase, pre-cleaved complex, PCC A3DBR0 A3DBR0 3.5 X-RAY DIFFRACTION 106 0.994 203119 (Acetivibrio thermocellus ATCC 27405) 203119 (Acetivibrio thermocellus ATCC 27405) 351 401 6xgw-a1-m1-cB_6xgw-a1-m1-cA 6xgx-a1-m1-cB_6xgx-a1-m1-cA KRIITPEKKELIRNLISEYNITSAKDLQEALKDLLGDTIQNMLEAELDEHLGDISEIENKIIAMYARGMSTREINEQIQEIYGFEVSAEMVSKITDKILPEIEEWQKRPLGEVYPIVFIDAIHFSVKNDGIVGKKAVYIVLAIDIEGQKDVIGIYVGENESSKFWLSVLNDLKNRGVKDILILCADALSGIKDAINAAFPNTEYQRCIVHQIRNTLKYVSDKDRKEFARDLKRIYTAPNEKAGYDQMLEVSEKWEKKYPAAMKSWKSNWDVICPFFKYSEELRKIMYTTNTIESLNSSYRRINKSRTVFPGDQSLLKSIYLATVKITSKWTMRYKNWGLILGQLQIMFEGR IITPEKKELIRNLISEYNITSAKDLQEALKDLLGDTIQNMLEAELDEHLGYEKYESTEEAKSNYRNGYTSKTLKSSVGQVEIDIPRDRNAEFEPKIVPRYKRDISEIENKIIAMYARGMSTREINEQIQEIYGFEVSAEMVSKITDKILPEIEEWQKRPLGEVYPIVFIDAIHFSVKNDGIVGKKAVYIVLAIDIEGQKDVIGIYVGENESSKFWLSVLNDLKNRGVKDILILCADALSGIKDAINAAFPNTEYQRCIVHQIRNTLKYVSDKDRKEFARDLKRIYTAPNEKAGYDQMLEVSEKWEKKYPAAMKSWKSNWDVICPFFKYSEELRKIMYTTNTIESLNSSYRRINKSRTVFPGDQSLLKSIYLATVKITSKWTMRYKNWGLILGQLQIMFEGR 6xgs-a1-m1-cA_6xgs-a1-m1-cD Crystal Structure of Dihydrodipicolinate synthase (DHDPS) from Brucella suis 1330 Q8G1R0 Q8G1R0 2.2 X-RAY DIFFRACTION 83 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 294 294 6xgs-a1-m1-cB_6xgs-a1-m1-cC SMLKGSITALVTPFDREGAFDEKAFRAFVNWQIEEGTKGLVPVGTTGETPTLSHDEHKRVIEVCIEVAAGRVPVIAGAGSNNTVEAIELAQHAEKAGADAVLVVTPYYNKPNQRGLYEHFSRVVRSISIPLVIYNIPGRSIIDMTPETMGALVRDCKNIVGVKDATGKIERVSEQRAICGKEFIQLSGEDATALGFNAHGGVGCISVTSNIAPRLCAEFQEACQAGNFAKALELQDRLMPLHKALFLEPNPSGPKYALSRLGRIENVLRSPMVTIEAATAEKIDHAMKHAGLIN SMLKGSITALVTPFDREGAFDEKAFRAFVNWQIEEGTKGLVPVGTTGETPTLSHDEHKRVIEVCIEVAAGRVPVIAGAGSNNTVEAIELAQHAEKAGADAVLVVTPYYNKPNQRGLYEHFSRVVRSISIPLVIYNIPGRSIIDMTPETMGALVRDCKNIVGVKDATGKIERVSEQRAICGKEFIQLSGEDATALGFNAHGGVGCISVTSNIAPRLCAEFQEACQAGNFAKALELQDRLMPLHKALFLEPNPSGPKYALSRLGRIENVLRSPMVTIEAATAEKIDHAMKHAGLIN 6xgs-a1-m1-cC_6xgs-a1-m1-cD Crystal Structure of Dihydrodipicolinate synthase (DHDPS) from Brucella suis 1330 Q8G1R0 Q8G1R0 2.2 X-RAY DIFFRACTION 109 1.0 204722 (Brucella suis 1330) 204722 (Brucella suis 1330) 294 294 6xgs-a1-m1-cA_6xgs-a1-m1-cB SMLKGSITALVTPFDREGAFDEKAFRAFVNWQIEEGTKGLVPVGTTGETPTLSHDEHKRVIEVCIEVAAGRVPVIAGAGSNNTVEAIELAQHAEKAGADAVLVVTPYYNKPNQRGLYEHFSRVVRSISIPLVIYNIPGRSIIDMTPETMGALVRDCKNIVGVKDATGKIERVSEQRAICGKEFIQLSGEDATALGFNAHGGVGCISVTSNIAPRLCAEFQEACQAGNFAKALELQDRLMPLHKALFLEPNPSGPKYALSRLGRIENVLRSPMVTIEAATAEKIDHAMKHAGLIN SMLKGSITALVTPFDREGAFDEKAFRAFVNWQIEEGTKGLVPVGTTGETPTLSHDEHKRVIEVCIEVAAGRVPVIAGAGSNNTVEAIELAQHAEKAGADAVLVVTPYYNKPNQRGLYEHFSRVVRSISIPLVIYNIPGRSIIDMTPETMGALVRDCKNIVGVKDATGKIERVSEQRAICGKEFIQLSGEDATALGFNAHGGVGCISVTSNIAPRLCAEFQEACQAGNFAKALELQDRLMPLHKALFLEPNPSGPKYALSRLGRIENVLRSPMVTIEAATAEKIDHAMKHAGLIN 6xgy-a1-m1-cA_6xgy-a1-m2-cA Crystal structure of E. coli MlaFB ABC transport subunits in the dimeric state 2.9 X-RAY DIFFRACTION 130 1.0 1417796 (Escherichia coli LAU-EC10) 1417796 (Escherichia coli LAU-EC10) 264 264 6xbd-a1-m1-cI_6xbd-a1-m1-cJ 6zy2-a1-m1-cF_6zy2-a1-m1-cG 6zy3-a1-m1-cF_6zy3-a1-m1-cG 6zy4-a1-m1-cF_6zy4-a1-m1-cG 6zy9-a1-m1-cF_6zy9-a1-m1-cG 7cge-a1-m1-cB_7cge-a1-m1-cE 7cgn-a1-m1-cB_7cgn-a1-m1-cE 7ch0-a1-m1-cB_7ch0-a1-m1-cE 7ch6-a1-m1-cC_7ch6-a1-m1-cD 7ch7-a1-m1-cC_7ch7-a1-m1-cD VANLVDMRDVSFTRGNRCIFDNISLTVPRGKITAIMGPSGIGKTTLLRLIGGQIAPDHGEILFDGENIPAMSRSRLYTVRKRMSMLFQSGALFTDMNVFDNVAYPLREHTQLPAPLLHSTVMMKLEAVGLRGAAKLMPSELSGGMARRAALARAIALEPDLIMFDEPFVGQDPITMGVLVKLISELNSALGVTCVVVSHDVPEVLSIADHAWILADKKIVAHGSAQALQANPDPRVRQFLDGIADGPVPFRYPAGDYHADLLPG VANLVDMRDVSFTRGNRCIFDNISLTVPRGKITAIMGPSGIGKTTLLRLIGGQIAPDHGEILFDGENIPAMSRSRLYTVRKRMSMLFQSGALFTDMNVFDNVAYPLREHTQLPAPLLHSTVMMKLEAVGLRGAAKLMPSELSGGMARRAALARAIALEPDLIMFDEPFVGQDPITMGVLVKLISELNSALGVTCVVVSHDVPEVLSIADHAWILADKKIVAHGSAQALQANPDPRVRQFLDGIADGPVPFRYPAGDYHADLLPG 6xh5-a1-m1-cA_6xh5-a1-m1-cC Hierarchical design of multi-scale protein complexes by combinatorial assembly of oligomeric helical bundle and repeat protein building blocks 3.32 X-RAY DIFFRACTION 44 1.0 32630 (synthetic construct) 32630 (synthetic construct) 347 348 6xh5-a1-m1-cA_6xh5-a1-m1-cB 6xh5-a1-m1-cB_6xh5-a1-m1-cC 6xh5-a2-m1-cD_6xh5-a2-m1-cE 6xh5-a2-m1-cD_6xh5-a2-m1-cF 6xh5-a2-m1-cE_6xh5-a2-m1-cF SEEEQERIRRILKEARKSGTEESLRQAIEDVAQLAKKSQDSEVLEEAIRVILRIAKESGSEEALRQAIRAVAEIAKEAQDSEVLEEAIRVILRIAKESGSEEALRQALRAVAEIAEEAKDERVRKEAVRVMLQIAKESGSKEAVKLAFEMILRVVRIIAVLRANSVEEAKEKALAVFEGGVLAIEITFTVPDADTVIKELSFLEKEGAIIGAGTVTSVEQCRKAVESGALFIVSPHLDEEISQFCDEAGVAYAPGVMTPTELVKAMKLGHRILKLFPGEVVGPQFVKAMKGPFPNVRFVPTGGVNLDNVAEWFKAGVLAVGVGSALVKGTPDEVREKAKAFVEKIKA SEEEQERIRRILKEARKSGTEESLRQAIEDVAQLAKKSQDSEVLEEAIRVILRIAKESGSEEALRQAIRAVAEIAKEAQDSEVLEEAIRVILRIAKESGSEEALRQALRAVAEIAEEAKDERVRKEAVRVMLQIAKESGSKEAVKLAFEMILRVVRIIAVLRANSVEEAKEKALAVFEGGVLAIEITFTVPDADTVIKELSFLEKEGAIIGAGTVTSVEQCRKAVESGALFIVSPHLDEEISQFCDEAGVAYAPGVMTPTELVKAMKLGHRILKLFPGEVVGPQFVKAMKGPFPNVRFVPTGGVNLDNVAEWFKAGVLAVGVGSALVKGTPDEVREKAKAFVEKIKAA 6xh9-a1-m1-cA_6xh9-a1-m2-cA Crystal structure of S. aureus TarJ Q2G1B9 Q2G1B9 3.2 X-RAY DIFFRACTION 90 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 309 309 MINQVYQLVAPRQFEVTYNNVDIYSDYVIVRPLYMSIAADQRYYTGKLPMSLIHEGVGEVVFDSKGVFNKGTKVVMVPNTPDGFMQDFVLLNHDRAVPLPDDIDLSIISYTELVTVSLHAIRRFEKKSISNKNTFGIWGDGNLGYITAILLRKLYPESKIYVFGKTDYKLSHFSFVDDVFFINKIPEGLTFDHAFECVGGRGSQSAINQMIDYISPEGSIALLGVSEFPVEVNTRLVLEKGLTLIGSSRSGSKDFQDVVDLYIQYPDIVDKLALLKGQEFEIATINDLTEAFEADLSTSWGKTVLKWIM MINQVYQLVAPRQFEVTYNNVDIYSDYVIVRPLYMSIAADQRYYTGKLPMSLIHEGVGEVVFDSKGVFNKGTKVVMVPNTPDGFMQDFVLLNHDRAVPLPDDIDLSIISYTELVTVSLHAIRRFEKKSISNKNTFGIWGDGNLGYITAILLRKLYPESKIYVFGKTDYKLSHFSFVDDVFFINKIPEGLTFDHAFECVGGRGSQSAINQMIDYISPEGSIALLGVSEFPVEVNTRLVLEKGLTLIGSSRSGSKDFQDVVDLYIQYPDIVDKLALLKGQEFEIATINDLTEAFEADLSTSWGKTVLKWIM 6xi4-a1-m1-cA_6xi4-a1-m1-cB Crystal structure of Maf domain of human N-acetylserotonin O-methyltransferase-like protein soaked with TFBQ O95671 O95671 2.22 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 204 6xi5-a1-m1-cA_6xi5-a1-m1-cB LLHKRVVLASASPRRQEILSNAGLRFEVVPSKFKEKLDKASFATPYGYAMETAKQKALEVANRLYQKDLRAPDVVIGADTIVTVGGLILEKPVDKQDAYRMLSRLSGREHSVFTGVAIVHCSSKDHQLDTRVSEFYEETKVKFSELSEELLWEYVHSGEPMDKAGGYGIQALGGMLVESVHGDFLNVVGFPLNHFCKQLVKLYY LLHKRVVLASASPRRQEILSNAGLRFEVVPSKFKEKLDKASFATPYGYAMETAKQKALEVANRLYQKDLRAPDVVIGADTIVTVGGLILEKPVDKQDAYRMLSRLSGREHSVFTGVAIVHCSSKDHQLDTRVSEFYEETKVKFSELSEELLWEYVHSGEPMDKAGGYGIQALGGMLVESVHGDFLNVVGFPLNHFCKQLVKLYY 6xi6-a1-m2-cA_6xi6-a1-m3-cA Hierarchical design of multi-scale protein complexes by combinatorial assembly of oligomeric helical bundle and repeat protein building blocks 2.69 X-RAY DIFFRACTION 79 1.0 32630 (synthetic construct) 32630 (synthetic construct) 269 269 6xi6-a1-m1-cA_6xi6-a1-m2-cA 6xi6-a1-m1-cA_6xi6-a1-m3-cA GKELEIVARLQQLNIELARKLLEAVARLQELNIDLVRKTSELTDEKTIREEIRKVKEESKRIVEEAEQEIRKAEAESLRLTAEAAADAARKAALRMGDERVRRLAAELVRLAQEAAEEATRDPNSSDQNEALRLIILAIEAAVRALDKAIEKGDPEDRERAREMVRAAVRAAELVQRYPSASAANEALKALVAAIDEGDKDAARCAEELVEQAEEALRKKNPEEARAVYEAARDVLEALQRLEEAKRRGDEEERREAEERLRQACERAR GKELEIVARLQQLNIELARKLLEAVARLQELNIDLVRKTSELTDEKTIREEIRKVKEESKRIVEEAEQEIRKAEAESLRLTAEAAADAARKAALRMGDERVRRLAAELVRLAQEAAEEATRDPNSSDQNEALRLIILAIEAAVRALDKAIEKGDPEDRERAREMVRAAVRAAELVQRYPSASAANEALKALVAAIDEGDKDAARCAEELVEQAEEALRKKNPEEARAVYEAARDVLEALQRLEEAKRRGDEEERREAEERLRQACERAR 6xig-a1-m1-cA_6xig-a1-m1-cB X-ray crystal structure of MqnE from Pedobacter heparinus C6XW09 C6XW09 1.59 X-RAY DIFFRACTION 51 0.997 485917 (Pedobacter heparinus DSM 2366) 485917 (Pedobacter heparinus DSM 2366) 379 383 GTENLYFQSMDTTSKLALILADADLPAALKAIALKVQNQERITFDEGVYLYENAELGYLGVLANYIREQKHGDNTYFNRNFHIEPTNVCVYDCKFCSYSRLIGWEMSVDGMMEVLKKYDHEPVTEVHITGGVVPKQNLEFYSDFFRRAKAHRPELHIKALTPVEYYYIFKKAKLSHYDGMKYMQEAGLDSMPGGGAEIFHPEVREKIAHDKCNAEQWLDIHEQAHKLGMKTNATMLYGHIEQFWHRVDHMERLRRQQDKTGGFQAFIPLKFRNQHNQMDHVPEVSVIEDLRNYAIARIYMDNFDHIKAYWAMISRQTAQLSLNFGVDDIDGTLDDTTKIYSMPAMSTRDLVDLIKQVKRKPIERDTLYNVVTDYSQVTF GTENLYFQSMDTTSKLALILADADLPAALKAIALKVQNQERITFDEGVYLYENAELGYLGVLANYIREQKHGDNTYFNRNFHIEPTNVCVYDCKFCSYSRLIKQKEEGWEMSVDGMMEVLKKYDHEPVTEVHITGGVVPKQNLEFYSDFFRRAKAHRPELHIKALTPVEYYYIFKKAKLSHYDGMKYMQEAGLDSMPGGGAEIFHPEVREKIAHDKCNAEQWLDIHEQAHKLGMKTNATMLYGHIEQFWHRVDHMERLRRQQDKTGGFQAFIPLKFRNQHNQMDHVPEVSVIEDLRNYAIARIYMDNFDHIKAYWAMISRQTAQLSLNFGVDDIDGTLDDTTKIYSPAMSTRDLVDLIKQVKRKPIERDTLYNVVTDYSQVTF 6xiv-a1-m2-cB_6xiv-a1-m1-cA SeMet-Rns, in complex with potential inhibitor P16114 P16114 2.8 X-RAY DIFFRACTION 42 0.992 562 (Escherichia coli) 562 (Escherichia coli) 245 246 6xiu-a1-m1-cA_6xiu-a1-m2-cB EKETIKINNIIHKYTVLYTSNCIDIYSEEEKITCFSNRLVFLERGVNISVRQKQILSEKPYVAFRLNGDLRHLKDALIIYGSKIDTNACRSSRKITTEVNKTLLDELKNINSHDNSAFISSLIYLISKLENNEKIIESIYISSVSFFSDKVRNLIEKDLSRKWTLGIIADAFNASEITIRKRLESENTNFNQILQLRSKAALLLLENSYQISQISNIGISSASYFIRIFNKHYGVTPKQFFTYFK YTEEKETIKINNIIHKYTVLYTSNCIDIYSEEEKITCFSNRLVFLERGVNISVRQKQILSEKPYVAFRLNGDLRHLKDALIIYGSDTNACRSSRKITTEVNKTLLDELKNINSHDNSAFISSLIYLISKLENNEKIIESIYISSVSFFSDKVRNLIEKDLSRKWTLGIIADAFNASEITIRKRLESENTNFNQILQLRSKAALLLLENSYQISQISNIGISSASYFIRIFNKHYGVTPKQFFTYFK 6xix-a3-m1-cD_6xix-a3-m1-cC Triuret Hydrolase (TrtA) from Herbaspirillum sp. BH-1 A0A2N6JFX7 A0A2N6JFX7 2.1 X-RAY DIFFRACTION 97 1.0 2058884 (Herbaspirillum sp. BH-1) 2058884 (Herbaspirillum sp. BH-1) 220 221 6xix-a1-m1-cA_6xix-a1-m1-cG 6xix-a2-m1-cB_6xix-a2-m1-cE 6xix-a4-m1-cF_6xix-a4-m1-cH 6xj4-a1-m1-cA_6xj4-a1-m1-cB 6xj4-a2-m1-cC_6xj4-a2-m1-cD 6xje-a1-m1-cA_6xje-a1-m1-cB 6xje-a2-m1-cC_6xje-a2-m1-cD MIRIDATPYPYQFHPRSTALVVIDMQRDFIEEGGFGSALGNDVRPLAAIVPTVAALLQLAREAGMLVVHTRESHLPDLSDCPRSKRLRGNPTLGIGDVGPMGRILVQGEPGNQILPQLAPVEGELVIDKPGKGAFYATDLHAQLQERRITHLLVAGVTTEVCVQTSMREANDRGYECLVIEDACASYFPDFHRITLEMLTAQGGIVGWRTPLAQLQAGVA HMIRIDATPYPYQFHPRSTALVVIDMQRDFIEEGGFGSALGNDVRPLAAIVPTVAALLQLAREAGMLVVHTRESHLPDLSDCPRSKRLRGNPTLGIGDVGPMGRILVQGEPGNQILPQLAPVEGELVIDKPGKGAFYATDLHAQLQERRITHLLVAGVTTEVCVQTSMREANDRGYECLVIEDACASYFPDFHRITLEMLTAQGGIVGWRTPLAQLQAGVA 6xj1-a1-m1-cA_6xj1-a1-m1-cB Crystal Structure of CDC15 F-BAR Domain from Schizosaccharomyces pombe Q09822 Q09822 3.52 X-RAY DIFFRACTION 227 0.992 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 266 277 DALMSRTKSSLSVLESIDEFYAKRASIEREYASKLQELAASSADIPEVGSTLNNILSMRTETGSMAKAHEEVSQQINTELRNKIREYIDQTEQQKVVAANAIEELYQKKTALEIDLSKKKDAYEYSCNKLNSYMRQTKKMTGRELDKYNLKIRQAALAVKKMDAEYRETNELLLTVTREWIDRWTEVCDAFQHIEEYRLEFLKTNMWAYANIISTACVKDDESCEKIRLTLENTNIDEDITQMIQNEGTGTTIPPLPEFNDYFKEN FRDNFWGSKDAGMDALMSRTKSSLSVLESIDEFYAKRASIEREYASKLQELAASSADIPEVGSTLNNILSMRTETGSMAKAHEEVSQQINTELRNKIREYIDQTEQQKVVAANAIEELYQKKTALEIDLSKKKDAYEYSCNKLNSYMRQTKKMTGRELDKYNLKIRQAALAVKKMDAEYRETNELLLTVTREWIDRWTEVCDAFQHIEEYRLEFLKTNMWAYANIISTACVKDDESCEKIRLTLENTNIDEDITQMIQNEGTGTTIPPLPEFNDYFK 6xj9-a1-m1-cB_6xj9-a1-m1-cA Structure of PfGH50B 2 X-RAY DIFFRACTION 46 1.0 1872678 (Pseudoalteromonas fuliginea) 1872678 (Pseudoalteromonas fuliginea) 681 706 THHTSVDYQSNSAIVKNENSVLNVQFQSKKNSYASIVFSPEKPWDWSEFNDFNLAFELANPGTHSVQIYLDISDIDGANYTRSVNVPVGGYNTYYAKLDGHDTSGLRSNPDTWESDEVQFISMWGKKNLNLKGIAKIAISVQSTLHDKELAIKSISLRKNPQFNTAFLTKIVDEFGQNAKQEFAGKVHSEAELLSDKKQEATQLLSKRPTNRSRFGGWAEGPKLEATGYFRTAKYNDKWSLVDPDGYLYLATGIDIIRLANSTTLTGYDLKSRFVASQVRKNLFEWLPDYSDTLGKHFGYRKSAHSGPLEHGETYSFYAANLERKYGQNNADYMQKWREVTLDRMITWGFSSLGNWTDPSYYDNQKVPYFANGWIIGDFKTVSSGNGAMPDVFDPEFTVRANETVSVVAKEVKNSPWAVGVFIDNEKSFGRPDSVKSHYGIVINTLGRDAKTVPTKAEFSRLMKEKYTDVAELNKVWHLNLASWAEFDKGVTIDIKNEEQLVDFSILLTAYADKYFSVVNAAMDKYLPNHMYLGARFPDWGMPIEVVKASAKYVDVISFNAYKEGLRDDKWAFLSQFDKPAIIGEFHVGSSDSGLFHPGLIHAANQQDRANMYTDYMNSVIDNPYFIGAHWFQYIDSPITGRAYDGENYNVGFISVTDRPYIEMIEAAKAMNESMYERRFK FADDTHHTTSVDYQSNSAIVKNENSVLNVQFQSKKNSYASIVFSPEKPWDWSEFNDFNLAFELANPGTHSVQIYLDISDIDGANYTRSVNVPVGGYNTYYAKLDGHDLAFTSGLRSNPDTWESDEVQFISMWGKKNLNLKGIAKIAISVQSTLHDKELAIKSISLRKNPQFNTAFLTKIVDEFGQNAKQEFAGKVHSEAELLSDKKQEATQLLSKRPTNRSRFGGWAEGPKLEATGYFRTAKYNDKWSLVDPDGYLYLATGIDIIRLANSTTLTGYDFDQALLANQVNKEALKSRFVASQVRKNLFEWLPDYSDTLGKHFGYRKSAHSGPLEHGETYSFYAANLERKYGQNNADYMQKWREVTLDRMITWGFSSLGNWTDPSYYDNQKVPYFANGWIIGDFKTVSSGNDFWGAMPDVFDPEFTVRANETVSVVAKEVKNSPWAVGVFIDNEKSFGRPDSVKSHYGIVINTLGRDAKTVPTKAEFSRLMKEKYTDVAELNKVWHLNLASWAEFDKGVTIDIKNEEQLVDFSILLTAYADKYFSVVNAAMDKYLPNHMYLGARFPDWGMPIEVVKASAKYVDVISFNAYKEGLRDDKWAFLSQFDKPAIIGEFHVGSSDSGLFHPGLIHAANQQDRANMYTDYMNSVIDNPYFIGAHWFQYIDSPITGRAYDGENYNVGFISVTDRPYIEMIEAAKAMNESMYERRFK 6xja-a1-m1-cA_6xja-a1-m1-cB Streptococcus Pneumoniae IgA1 Protease with IgA1 substrate P01876 P01876 4.0 ELECTRON MICROSCOPY 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 210 CHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDR CCHPRLSLHRPALEDLLLGSEANLTCTLTGLRDASGVTFTWTPSSGKSAVQGPPERDLCGCYSVSSVLPGCAEPWNHGKTFTCTAAYPESKTPLTATLSKSGNTFRPEVHLLPPPSEELALNELVTLTCLARGFSPKDVLVRWLQGSQELPREKYLTWASRQEPSQGTTTFAVTSILRVAAEDWKKGDTFSCMVGHEALPLAFTQKTIDR 6xji-a1-m1-cA_6xji-a1-m1-cB PmtCD ABC exporter at C1 symmetry Q2FWX0 Q2FWX0 4.0 ELECTRON MICROSCOPY 64 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 251 251 6xjh-a1-m1-cA_6xjh-a1-m1-cB VPRGSHRILNLVKYDLYSIFKSPLTYLAILVVSSLIATQSILMANSMDNPKHIIVYGSVFAAAKWLLLIIGLMFVVKTITRDFSQGTIQLYMSKVKTRVGYIISKTISIILISILFALIHYVILIVVQASSNGKNLAFSKYVDNLWFFLIFLLFFGLFLFLITLASQKTAMIFSLGVFLVLIVPFIKPFITFIPRYGEKVLDAFDYIPFAYLTDKMISSNFDFSNWQWVISLGSIVIFFILNILYVAKKDI VPRGSHRILNLVKYDLYSIFKSPLTYLAILVVSSLIATQSILMANSMDNPKHIIVYGSVFAAAKWLLLIIGLMFVVKTITRDFSQGTIQLYMSKVKTRVGYIISKTISIILISILFALIHYVILIVVQASSNGKNLAFSKYVDNLWFFLIFLLFFGLFLFLITLASQKTAMIFSLGVFLVLIVPFIKPFITFIPRYGEKVLDAFDYIPFAYLTDKMISSNFDFSNWQWVISLGSIVIFFILNILYVAKKDI 6xji-a1-m1-cC_6xji-a1-m1-cD PmtCD ABC exporter at C1 symmetry X5EJW5 X5EJW5 4.0 ELECTRON MICROSCOPY 113 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 290 290 6xjh-a1-m1-cC_6xjh-a1-m1-cD MKLEHITKKYGSNVVLNDIDFDFGDSRIVGLIGKNGVGKTTVMKVMNGNIIKFDGKVDIDNADNIGFLIEHPKLYDNKSGLYNLKLFAQVLGKGFDKAYTDKIIDAFGMRPYIKKKVKKYSMGMKQKLAIAVSLMNKPKFLILDEPTNGMDPDGSIDVLTTIKSLVNELDMRILISSHKLEDIELICDRAVFLRDGHFVQDVNMEEGVASDTTIVTVDHKDFDRTEKYLAEHFQLQNVDKADGHLMINAQKNYQVILKALSELDIYPKYIETRKSSLRDTYFNINQRGDK MKLEHITKKYGSNVVLNDIDFDFGDSRIVGLIGKNGVGKTTVMKVMNGNIIKFDGKVDIDNADNIGFLIEHPKLYDNKSGLYNLKLFAQVLGKGFDKAYTDKIIDAFGMRPYIKKKVKKYSMGMKQKLAIAVSLMNKPKFLILDEPTNGMDPDGSIDVLTTIKSLVNELDMRILISSHKLEDIELICDRAVFLRDGHFVQDVNMEEGVASDTTIVTVDHKDFDRTEKYLAEHFQLQNVDKADGHLMINAQKNYQVILKALSELDIYPKYIETRKSSLRDTYFNINQRGDK 6xjo-a1-m1-cB_6xjo-a1-m1-cA Human atlastin-3 (residues 1-334) bound to GDP-Mg2+ exhibits an ordered amino terminus Q6DD88 Q6DD88 2.1 X-RAY DIFFRACTION 35 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 295 326 SKPGPVQVVLVHSFELDEKALASILLQDHIRDLDVVVVSVAGAFRKGKSFILDFMLRYLYSQKESNWLGDPEEPLTGFSWRDPETTGIQIWSEVFTVEKPGGKKVAVVLMDTQGAKDCATIFALSTMTSSVQIYNLSQNIQEDDLQQLQLFTEYGRLAMDEIFQKPFQTLMFLVRDWSFPYEYSYGLQGGMAFLDKRLQVKEHQHEEIQNVRNHIHSCFSDVTCFLLPHPGLQVATSPDFDGKLKDIAGEFKEQLQALIPYVLNPSKLMEKEINGSKVTCRGLLEYFKAYIKIYQ MLSPQRVAAAASRGADDAMESSKPGPVQVVLVQKHSFELDEKALASILLQDHIRDLDVVVVSVAGAFRKGKSFILDFMLRYLYSQKESNWLGDPEEPLTGFSWRGGPETTGIQIWSEVFTVEKPGGKKVAVVLMDTQGAFDSQSTVKDCATIFALSTMTSSVQIYNLSQNIQEDDLQQLQLFTEYGRLAMDEIFQKPFQTLMFLVRDWSFPYEYSYGLQGGMAFLDKRLQVKEHQHEEIQNVRNHIHSCFSDVTCFLLPHPGLQVATSPDFDGKLKDIAGEFKEQLQALIPYVLNPSKLMEKEINGSKVTCRGLLEYFKAYIKIYQ 6xk1-a1-m1-cA_6xk1-a1-m1-cD Biuret Hydrolase (BiuH) from Rhodococcus sp. Mel C169S Apo form H8ZKV9 H8ZKV9 1.7 X-RAY DIFFRACTION 128 1.0 1093626 (Rhodococcus sp. Mel) 1093626 (Rhodococcus sp. Mel) 226 230 6xjm-a1-m1-cA_6xjm-a1-m1-cD 6xjm-a1-m1-cB_6xjm-a1-m1-cC 6xk1-a1-m1-cB_6xk1-a1-m1-cC IYSTVNANPYAWPYDGSIDPAHTALILIDWQIDFCGPGGYVDSMGYDLSLTRSGLEPTARVLAAARDTGMTVIHTREGHRPDLADLPPNKRWRSASAGAEIGSVGPCGRILVRGEPGWEIVPEVAPREGEPIIDKPGKGAFYATDLDLLLRTRGITHLILTGITTDVSVHTTMREANDRGYECLILSDCTGATDRKHHEAALSMVTMQGGVFGATAHSDDLLAALG MIYSTVNANPYAWPYDGSIDPAHTALILIDWQIDFCGPGGYVDSMGYDLSLTRSGLEPTARVLAAARDTGMTVIHTREGHRPDLADLPPNKRWRSASAGAEIGSVGPCGRILVRGEPGWEIVPEVAPREGEPIIDKPGKGAFYATDLDLLLRTRGITHLILTGITTDVSVHTTMREANDRGYECLILSDCTGATDRKHHEAALSMVTMQGGVFGATAHSDDLLAALGTTV 6xk1-a1-m1-cC_6xk1-a1-m1-cD Biuret Hydrolase (BiuH) from Rhodococcus sp. Mel C169S Apo form H8ZKV9 H8ZKV9 1.7 X-RAY DIFFRACTION 48 1.0 1093626 (Rhodococcus sp. Mel) 1093626 (Rhodococcus sp. Mel) 228 230 6xjm-a1-m1-cA_6xjm-a1-m1-cB 6xjm-a1-m1-cC_6xjm-a1-m1-cD 6xk1-a1-m1-cA_6xk1-a1-m1-cB MIYSTVNANPYAWPYDGSIDPAHTALILIDWQIDFCGPGGYVDSMGYDLSLTRSGLEPTARVLAAARDTGMTVIHTREGHRPDLADLPPNKRWRSASAGAEIGSVGPCGRILVRGEPGWEIVPEVAPREGEPIIDKPGKGAFYATDLDLLLRTRGITHLILTGITTDVSVHTTMREANDRGYECLILSDCTGATDRKHHEAALSMVTMQGGVFGATAHSDDLLAALGT MIYSTVNANPYAWPYDGSIDPAHTALILIDWQIDFCGPGGYVDSMGYDLSLTRSGLEPTARVLAAARDTGMTVIHTREGHRPDLADLPPNKRWRSASAGAEIGSVGPCGRILVRGEPGWEIVPEVAPREGEPIIDKPGKGAFYATDLDLLLRTRGITHLILTGITTDVSVHTTMREANDRGYECLILSDCTGATDRKHHEAALSMVTMQGGVFGATAHSDDLLAALGTTV 6xk2-a2-m1-cC_6xk2-a2-m1-cB Crystal structure of Ribokinase from Cryptococcus neoformans var. grubii serotype A in complex with ADP J9VQ51 J9VQ51 2.5 X-RAY DIFFRACTION 96 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 311 320 6xk2-a1-m1-cD_6xk2-a1-m1-cA SSRCLVRGSVNIDEFFHLPHIVRPGETISSTGLTKRAGGKGANQAFAVARAGGQVELDGAIGDDGIWVKEMLESAGVGTDKLKIVKDEVTGRAVIQSAADGENSIVLHAGANYYLPSPTTSLATYTHLLVQNEVPLSSTLAYLTAAGQSSPPLTSVFNPSPMLTPAQLREFPWKHLSWLIVNEGELGDLLLAFGSKEDELQAKASAGILELHENDYFSKNVGIICTLGAKGILCYEPGKEVGYLPAAKLQNPVKDTTGAGDCFAGYFVAGLMSGKSLQDALKTCLVACGICVENEGAMESVPTLNAVKERL SSRCLVRGSVNIDEFFHLPHIVRPGETISSTGLTKRAGGKGANQAFAVARAGGQVELDGAIGDDGIWVKEMLESAGVGTDKLKIVKDEVTGRAVIQSAADGENSIVLHAGANYYLPSPTPTTSLATYTHLLVQNEVPLSSTLAYLTAAGQSSPPLTSVFNPSPMLTPAQLREFPWKHLSWLIVNEGELGDLLLAFGSSANPGEAKEDELQAKASAGILELHENDYFSKNVGIICTLGAKGILCYEPGKEVGYLPAAKLQNPVKDTTGAGDCFAGYFVAGLMSGKSLQDALKTCLVACGICVENEGAMESVPTLNAVKERL 6xkc-a1-m1-cA_6xkc-a1-m1-cE Crystal structure of E3 ligase Q96JP0 Q96JP0 2.03 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 243 6xkc-a1-m1-cB_6xkc-a1-m1-cD 6xkc-a1-m1-cC_6xkc-a1-m1-cF DLKTAVFNAARDGKLRLLTKLLASKSKEEVSSLISEKTNGATPLLMAARYGHLDMVEFLLEQCSASIEVGGSVNFDGETIEGAPPLWAASAAGHLKVVQSLLNHGASVNNTTLTNSTPLRAACFDGHLEIVKYLVEHKADLEVSNRHGHTCLMISCYKGHKEIAQYLLEKGADVNRKSVKGNTALHDCAESGSLDIMKMLLMYCAKMEKDGYGMTPLLSASVTGHTNIVDFLTHHAQTSKTER DLKTAVFNAARDGKLRLLTKLLASKSKEEVSSLISEKTNGATPLLMAARYGHLDMVEFLLEQCSASIEVGGSVNFDGETIEGAPPLWAASAAGHLKVVQSLLNHGASVNNTTLTNSTPLRAACFDGHLEIVKYLVEHKADLEVSNRHGHTCLMISCYKGHKEIAQYLLEKGADVNRKSVKGNTALHDCAESGSLDIMKMLLMYCAKMEKDGYGMTPLLSASVTGHTNIVDFLTHHAQTSKTER 6xkc-a1-m1-cD_6xkc-a1-m1-cE Crystal structure of E3 ligase Q96JP0 Q96JP0 2.03 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 243 243 6xkc-a1-m1-cA_6xkc-a1-m1-cB 6xkc-a1-m1-cA_6xkc-a1-m1-cC 6xkc-a1-m1-cB_6xkc-a1-m1-cC 6xkc-a1-m1-cD_6xkc-a1-m1-cF 6xkc-a1-m1-cE_6xkc-a1-m1-cF DLKTAVFNAARDGKLRLLTKLLASKSKEEVSSLISEKTNGATPLLMAARYGHLDMVEFLLEQCSASIEVGGSVNFDGETIEGAPPLWAASAAGHLKVVQSLLNHGASVNNTTLTNSTPLRAACFDGHLEIVKYLVEHKADLEVSNRHGHTCLMISCYKGHKEIAQYLLEKGADVNRKSVKGNTALHDCAESGSLDIMKMLLMYCAKMEKDGYGMTPLLSASVTGHTNIVDFLTHHAQTSKTER DLKTAVFNAARDGKLRLLTKLLASKSKEEVSSLISEKTNGATPLLMAARYGHLDMVEFLLEQCSASIEVGGSVNFDGETIEGAPPLWAASAAGHLKVVQSLLNHGASVNNTTLTNSTPLRAACFDGHLEIVKYLVEHKADLEVSNRHGHTCLMISCYKGHKEIAQYLLEKGADVNRKSVKGNTALHDCAESGSLDIMKMLLMYCAKMEKDGYGMTPLLSASVTGHTNIVDFLTHHAQTSKTER 6xlk-a1-m1-cG_6xlk-a1-m1-cH Cryo-EM structure of EcmrR-DNA complex in EcmrR-RPitc-4nt 3.3 ELECTRON MICROSCOPY 125 1.0 562 (Escherichia coli) 562 (Escherichia coli) 268 268 6xl5-a1-m1-cG_6xl5-a1-m1-cH 6xl6-a1-m1-cG_6xl6-a1-m1-cH 6xl9-a1-m1-cG_6xl9-a1-m1-cH 6xla-a1-m1-cG_6xla-a1-m1-cH 6xlj-a1-m1-cG_6xlj-a1-m1-cH SQIGLFSKICRVTIKTLHYYNKIGLLVPAYINPDNGYRFYTSDQLMKFHQIASLRQLGFTITEIVTLTQDENSCHIIERRRLEIQKQIRDMADMLSRINHYLQHKKKERIMLYQAALKEIPECIVYSKRFIVPDFSSYIKLIPPIGQEVMKANPGLTLTTPAYCFTLYHDKEYKEKNMDVEFCEAVNDFGKNEGNIIFQVIPAITAVTVIHKGPYDSLRNAYIYLMQWVEDNGYLLTNSPRESYIDGIWNKQDSAEWMTEIQFPVEKV SQIGLFSKICRVTIKTLHYYNKIGLLVPAYINPDNGYRFYTSDQLMKFHQIASLRQLGFTITEIVTLTQDENSCHIIERRRLEIQKQIRDMADMLSRINHYLQHKKKERIMLYQAALKEIPECIVYSKRFIVPDFSSYIKLIPPIGQEVMKANPGLTLTTPAYCFTLYHDKEYKEKNMDVEFCEAVNDFGKNEGNIIFQVIPAITAVTVIHKGPYDSLRNAYIYLMQWVEDNGYLLTNSPRESYIDGIWNKQDSAEWMTEIQFPVEKV 6xlz-a1-m1-cA_6xlz-a1-m1-cP Structure of NHP D11A.F2 Fab in complex with 16055 V2b peptide A1EAI1 A1EAI1 2.8 X-RAY DIFFRACTION 16 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 6 20 SKYRLI LDIVPLEEERKGNSSKYRLI 6xm2-a1-m1-cH_6xm2-a1-m1-cB The structure of the 4A11.v7 antibody in complex with human TGFb2 1.91 X-RAY DIFFRACTION 21 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 217 221 6xm2-a2-m1-cD_6xm2-a2-m1-cF 7rco-a1-m1-cD_7rco-a1-m1-cF QQLQESGPGLVKPSETLSLTCTVTGFSLSSYTVNWVRQPAGKGLEWIGYISYGGSAYYASWANGRFTISKDSSKNQVSLKLSSVTAADTAVYFCARHMQVGGAPTGSMAAFDPWGPGTLVTVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP QQLQESGPGLVKPSETLSLTCTVTGFSLSSYTVNWVRQPAGKGLEWIGYISYGGSAYYASWANGRFTISKDSSKNQVSLKLSSVTAADTAVYFCARHMQVGGAPTGSMAAFDPWGPGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLTYICNVNHKPSNTKVDKKVEP 6xma-a1-m1-cA_6xma-a1-m2-cA Crystal structure of iron-bound LSD4 from Sphingobium sp. strain SYK-6 G2IQT9 G2IQT9 1.45 X-RAY DIFFRACTION 68 1.0 627192 (Sphingobium sp. SYK-6) 627192 (Sphingobium sp. SYK-6) 479 479 6xm6-a1-m1-cA_6xm6-a1-m2-cA 6xm7-a1-m1-cA_6xm7-a1-m2-cA 6xm8-a1-m1-cA_6xm8-a1-m2-cA 6xm9-a1-m1-cA_6xm9-a1-m2-cA AHFPDTPAFTGFNAPSRIECDIPNLVHEGTIPPELNGAFFRVQPDPQFPPRLGDDISFNGDGMITRFHIHDGQCDIKQRWAKTNKWKLENAAGKALFGSYRNPLTDDESVKGEYRSTANTNAFVFAGKLWAMKEDSPSLTMDPATMETFGFEKFGGKMTGQTFTAHPKVDPLTGNMVAIGYAASGLCTDDVCLYEISPDGELIYEAWFKVPYYCMMHDFGVTKDYLVLHIVPSIGSWDRLEKGLPHFGFDTTLPVYLGIIPRRADLKQEDIRWFKRENCFASHVMNAFQEGTKVHVDVPEAENNMFPFFPDVHGAPFNPQQAMSRLTRWTVDMASNSDEFDSVTRLTETAGEFPRIDDRMTGLPYRYGWMLEMDMKRPVELMNCLFLKDHQTGAEQHWWCGPTSSLQEPAFIPRSKDAPEGDGWIVQVCNRLADHKSDLLIFEALDIEKGPVATVHLPFALRFGLHGNWANAEEIGLAA AHFPDTPAFTGFNAPSRIECDIPNLVHEGTIPPELNGAFFRVQPDPQFPPRLGDDISFNGDGMITRFHIHDGQCDIKQRWAKTNKWKLENAAGKALFGSYRNPLTDDESVKGEYRSTANTNAFVFAGKLWAMKEDSPSLTMDPATMETFGFEKFGGKMTGQTFTAHPKVDPLTGNMVAIGYAASGLCTDDVCLYEISPDGELIYEAWFKVPYYCMMHDFGVTKDYLVLHIVPSIGSWDRLEKGLPHFGFDTTLPVYLGIIPRRADLKQEDIRWFKRENCFASHVMNAFQEGTKVHVDVPEAENNMFPFFPDVHGAPFNPQQAMSRLTRWTVDMASNSDEFDSVTRLTETAGEFPRIDDRMTGLPYRYGWMLEMDMKRPVELMNCLFLKDHQTGAEQHWWCGPTSSLQEPAFIPRSKDAPEGDGWIVQVCNRLADHKSDLLIFEALDIEKGPVATVHLPFALRFGLHGNWANAEEIGLAA 6xmb-a2-m1-cC_6xmb-a2-m2-cC Structure of a anophensin from Anopheles stephensi A5HUP6 A5HUP6 2.31 X-RAY DIFFRACTION 68 1.0 30069 (Anopheles stephensi) 30069 (Anopheles stephensi) 113 113 6xmb-a1-m1-cA_6xmb-a1-m1-cB RKHVQQLMKVFRAIDFDFTKKAFYLHRAKYGVQNQLRNPLYLKAMSLPRAKLSQPCLNKMIDEVNDLESTFYAGFSFNCHDHDQYSMDCLEAAEPTYLDGLKKLAASTEQCLV RKHVQQLMKVFRAIDFDFTKKAFYLHRAKYGVQNQLRNPLYLKAMSLPRAKLSQPCLNKMIDEVNDLESTFYAGFSFNCHDHDQYSMDCLEAAEPTYLDGLKKLAASTEQCLV 6xmj-a1-m1-cT_6xmj-a1-m1-cU Human 20S proteasome bound to an engineered 11S (PA26) activator Q9U8G2 Q9U8G2 3.0 ELECTRON MICROSCOPY 99 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 207 207 6xmj-a1-m1-cO_6xmj-a1-m1-cP 6xmj-a1-m1-cO_6xmj-a1-m1-cU 6xmj-a1-m1-cQ_6xmj-a1-m1-cP 6xmj-a1-m1-cQ_6xmj-a1-m1-cR 6xmj-a1-m1-cR_6xmj-a1-m1-cS 6xmj-a1-m1-cS_6xmj-a1-m1-cT KRAALIQNLRDSYTETSSFAVIEEWAAGTLQEIEGIAKAAAEAHGVIRNSTYGRAQAEKSPEQLLGVLQRYQDLCHNVYCQAETIRTVIAIRIPEHKEADNLGVAVQHAVLKIIDELEIKTLGSPIGMYALREYLSARSTVEDKLLGGGSQSPSLLLELRQIDADFMLKVELATTHLSTMVRAVINAYLLNWKKLIQPRTGNLSYYT KRAALIQNLRDSYTETSSFAVIEEWAAGTLQEIEGIAKAAAEAHGVIRNSTYGRAQAEKSPEQLLGVLQRYQDLCHNVYCQAETIRTVIAIRIPEHKEADNLGVAVQHAVLKIIDELEIKTLGSPIGMYALREYLSARSTVEDKLLGGGSQSPSLLLELRQIDADFMLKVELATTHLSTMVRAVINAYLLNWKKLIQPRTGNLSYYT 6xn7-a1-m1-cD_6xn7-a1-m1-cC Structure of the Lactococcus lactis Csm NTR CRISPR-Cas Complex L0CFW2 L0CFW2 3.47 ELECTRON MICROSCOPY 39 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 135 139 6xn3-a1-m1-cD_6xn3-a1-m1-cC 6xn3-a1-m1-cE_6xn3-a1-m1-cD 6xn4-a1-m1-cD_6xn4-a1-m1-cC 6xn7-a1-m1-cE_6xn7-a1-m1-cD TELKIGNEKVNSTNFGDFAEKAIRGINHKPFVNSKGGEQKITTSKIRGILELVNKVYNRVINTNDVELSENILADIAYIKVKIAYESGREPVVKDFIQRTAFTAAITDVMNQRTRESFLLFARYVESLIAYFKFY TELKIGNEKVNSTNFGDFAEKAIRGINHKPFVNSKGGEQKITTSKIRGILELVNKVYNRVINTNDVELSENILADIAYIKVKIAYESGREPVVKDFIQRTAFTAAITDVMNQRTRESFLLFARYVESLIAYFKFYGGKD 6xn8-a1-m1-cB_6xn8-a1-m2-cB Crystal Structure of 2-hydroxyacyl CoA lyase (HACL) from Rhodospirillales bacterium URHD0017 A0A1H8YFL8 A0A1H8YFL8 1.95 X-RAY DIFFRACTION 34 1.0 1380357 (Rhodospirillales bacterium URHD0017) 1380357 (Rhodospirillales bacterium URHD0017) 539 539 6xn8-a1-m1-cA_6xn8-a1-m2-cA SEVDGATLIARSLKQQGIDHLFGVVGFPITAIAAAAQKEGVAYLGMRNEQSAAYAAAAYGYLTGRPGAAVVVTGPGVVHGLSGLANAQQNCWPMILIGGASETYRGGMGAFQEERQVLIASPFCKFAHGIESVARIPFYVEMATRNAIYGRPGATYLDMPDDIIRGTCETDKIAQAERVPEAPRSVAPAENVEAALDLLEKAQRPLVLLGKGMAWSRGEDEVRAFIERTQVPFVRSPMGKGVMPDDHPLSASAARTLALQQADVIFLMGARLNWIFHFGLPPRYAKDVKVIQLDIAPEEIGHNKPTEVALVGDGKAIMAQLNKALVNRQWFHPKDTPWRQALTKKAAENVATIKPQVDDDQGPAGYYRALRDVAAWMPKNAILSAEGAGTMDIGLTQLASSNARSVLNAGTYGTMGVGLGQAIAAAVSDPSRPVIHLSGDSAIGFSGMEMETLVRYNLPVKIVVLNNGGIGPGMPEIPENPMFNLKPNALIYGARYDKVMEAFGGKGIFVKEPKDIRKALDEAMAFKGPALVNVVLSQG SEVDGATLIARSLKQQGIDHLFGVVGFPITAIAAAAQKEGVAYLGMRNEQSAAYAAAAYGYLTGRPGAAVVVTGPGVVHGLSGLANAQQNCWPMILIGGASETYRGGMGAFQEERQVLIASPFCKFAHGIESVARIPFYVEMATRNAIYGRPGATYLDMPDDIIRGTCETDKIAQAERVPEAPRSVAPAENVEAALDLLEKAQRPLVLLGKGMAWSRGEDEVRAFIERTQVPFVRSPMGKGVMPDDHPLSASAARTLALQQADVIFLMGARLNWIFHFGLPPRYAKDVKVIQLDIAPEEIGHNKPTEVALVGDGKAIMAQLNKALVNRQWFHPKDTPWRQALTKKAAENVATIKPQVDDDQGPAGYYRALRDVAAWMPKNAILSAEGAGTMDIGLTQLASSNARSVLNAGTYGTMGVGLGQAIAAAVSDPSRPVIHLSGDSAIGFSGMEMETLVRYNLPVKIVVLNNGGIGPGMPEIPENPMFNLKPNALIYGARYDKVMEAFGGKGIFVKEPKDIRKALDEAMAFKGPALVNVVLSQG 6xn8-a1-m2-cB_6xn8-a1-m1-cA Crystal Structure of 2-hydroxyacyl CoA lyase (HACL) from Rhodospirillales bacterium URHD0017 A0A1H8YFL8 A0A1H8YFL8 1.95 X-RAY DIFFRACTION 68 1.0 1380357 (Rhodospirillales bacterium URHD0017) 1380357 (Rhodospirillales bacterium URHD0017) 539 540 6xn8-a1-m1-cB_6xn8-a1-m2-cA SEVDGATLIARSLKQQGIDHLFGVVGFPITAIAAAAQKEGVAYLGMRNEQSAAYAAAAYGYLTGRPGAAVVVTGPGVVHGLSGLANAQQNCWPMILIGGASETYRGGMGAFQEERQVLIASPFCKFAHGIESVARIPFYVEMATRNAIYGRPGATYLDMPDDIIRGTCETDKIAQAERVPEAPRSVAPAENVEAALDLLEKAQRPLVLLGKGMAWSRGEDEVRAFIERTQVPFVRSPMGKGVMPDDHPLSASAARTLALQQADVIFLMGARLNWIFHFGLPPRYAKDVKVIQLDIAPEEIGHNKPTEVALVGDGKAIMAQLNKALVNRQWFHPKDTPWRQALTKKAAENVATIKPQVDDDQGPAGYYRALRDVAAWMPKNAILSAEGAGTMDIGLTQLASSNARSVLNAGTYGTMGVGLGQAIAAAVSDPSRPVIHLSGDSAIGFSGMEMETLVRYNLPVKIVVLNNGGIGPGMPEIPENPMFNLKPNALIYGARYDKVMEAFGGKGIFVKEPKDIRKALDEAMAFKGPALVNVVLSQG SSEVDGATLIARSLKQQGIDHLFGVVGFPITAIAAAAQKEGVAYLGMRNEQSAAYAAAAYGYLTGRPGAAVVVTGPGVVHGLSGLANAQQNCWPMILIGGASETYRGGMGAFQEERQVLIASPFCKFAHGIESVARIPFYVEMATRNAIYGRPGATYLDMPDDIIRGTCETDKIAQAERVPEAPRSVAPAENVEAALDLLEKAQRPLVLLGKGMAWSRGEDEVRAFIERTQVPFVRSPMGKGVMPDDHPLSASAARTLALQQADVIFLMGARLNWIFHFGLPPRYAKDVKVIQLDIAPEEIGHNKPTEVALVGDGKAIMAQLNKALVNRQWFHPKDTPWRQALTKKAAENVATIKPQVDDDQGPAGYYRALRDVAAWMPKNAILSAEGAGTMDIGLTQLASSNARSVLNAGTYGTMGVGLGQAIAAAVSDPSRPVIHLSGDSAIGFSGMEMETLVRYNLPVKIVVLNNGGIGPGMPEIPENPMFNLKPNALIYGARYDKVMEAFGGKGIFVKEPKDIRKALDEAMAFKGPALVNVVLSQG 6xn8-a1-m2-cB_6xn8-a1-m2-cA Crystal Structure of 2-hydroxyacyl CoA lyase (HACL) from Rhodospirillales bacterium URHD0017 A0A1H8YFL8 A0A1H8YFL8 1.95 X-RAY DIFFRACTION 206 1.0 1380357 (Rhodospirillales bacterium URHD0017) 1380357 (Rhodospirillales bacterium URHD0017) 539 540 6xn8-a1-m1-cB_6xn8-a1-m1-cA SEVDGATLIARSLKQQGIDHLFGVVGFPITAIAAAAQKEGVAYLGMRNEQSAAYAAAAYGYLTGRPGAAVVVTGPGVVHGLSGLANAQQNCWPMILIGGASETYRGGMGAFQEERQVLIASPFCKFAHGIESVARIPFYVEMATRNAIYGRPGATYLDMPDDIIRGTCETDKIAQAERVPEAPRSVAPAENVEAALDLLEKAQRPLVLLGKGMAWSRGEDEVRAFIERTQVPFVRSPMGKGVMPDDHPLSASAARTLALQQADVIFLMGARLNWIFHFGLPPRYAKDVKVIQLDIAPEEIGHNKPTEVALVGDGKAIMAQLNKALVNRQWFHPKDTPWRQALTKKAAENVATIKPQVDDDQGPAGYYRALRDVAAWMPKNAILSAEGAGTMDIGLTQLASSNARSVLNAGTYGTMGVGLGQAIAAAVSDPSRPVIHLSGDSAIGFSGMEMETLVRYNLPVKIVVLNNGGIGPGMPEIPENPMFNLKPNALIYGARYDKVMEAFGGKGIFVKEPKDIRKALDEAMAFKGPALVNVVLSQG SSEVDGATLIARSLKQQGIDHLFGVVGFPITAIAAAAQKEGVAYLGMRNEQSAAYAAAAYGYLTGRPGAAVVVTGPGVVHGLSGLANAQQNCWPMILIGGASETYRGGMGAFQEERQVLIASPFCKFAHGIESVARIPFYVEMATRNAIYGRPGATYLDMPDDIIRGTCETDKIAQAERVPEAPRSVAPAENVEAALDLLEKAQRPLVLLGKGMAWSRGEDEVRAFIERTQVPFVRSPMGKGVMPDDHPLSASAARTLALQQADVIFLMGARLNWIFHFGLPPRYAKDVKVIQLDIAPEEIGHNKPTEVALVGDGKAIMAQLNKALVNRQWFHPKDTPWRQALTKKAAENVATIKPQVDDDQGPAGYYRALRDVAAWMPKNAILSAEGAGTMDIGLTQLASSNARSVLNAGTYGTMGVGLGQAIAAAVSDPSRPVIHLSGDSAIGFSGMEMETLVRYNLPVKIVVLNNGGIGPGMPEIPENPMFNLKPNALIYGARYDKVMEAFGGKGIFVKEPKDIRKALDEAMAFKGPALVNVVLSQG 6xnb-a1-m1-cA_6xnb-a1-m4-cA The Crystal Structure of the S154Y Mutant Carbonyl Reductase from Leifsonia xyli Explains Enhanced Activity for 3,5-Bis(trifluoromethyl)acetophenone Reduction T2FLN4 T2FLN4 1.16 X-RAY DIFFRACTION 12 1.0 1575 (Leifsonia xyli) 1575 (Leifsonia xyli) 251 251 6xnb-a1-m2-cA_6xnb-a1-m3-cA MAQYDVAGRSAIVTGGGSGIGRAIALTLAASGAAVLVTDLNEENANAVVAEISAAGGTARALAGDVTDPAFAEASVAAANELAPLRIAVNNAGIGGAAAPVGDYPLDSWRKVIEVNLNAVFYGMQAQLDAIGANGGGAIVNMASILGSVGFANYSAYVTAKHALLGLTQNAALEYAGKNVRVVAVGPGFIRTPLVASNMDADTLAFLEGKHALGRLGEPEEVASLVAFLASDAASFITGSYHLVDGGYTAQ MAQYDVAGRSAIVTGGGSGIGRAIALTLAASGAAVLVTDLNEENANAVVAEISAAGGTARALAGDVTDPAFAEASVAAANELAPLRIAVNNAGIGGAAAPVGDYPLDSWRKVIEVNLNAVFYGMQAQLDAIGANGGGAIVNMASILGSVGFANYSAYVTAKHALLGLTQNAALEYAGKNVRVVAVGPGFIRTPLVASNMDADTLAFLEGKHALGRLGEPEEVASLVAFLASDAASFITGSYHLVDGGYTAQ 6xnb-a1-m2-cA_6xnb-a1-m4-cA The Crystal Structure of the S154Y Mutant Carbonyl Reductase from Leifsonia xyli Explains Enhanced Activity for 3,5-Bis(trifluoromethyl)acetophenone Reduction T2FLN4 T2FLN4 1.16 X-RAY DIFFRACTION 127 1.0 1575 (Leifsonia xyli) 1575 (Leifsonia xyli) 251 251 6xnb-a1-m1-cA_6xnb-a1-m3-cA MAQYDVAGRSAIVTGGGSGIGRAIALTLAASGAAVLVTDLNEENANAVVAEISAAGGTARALAGDVTDPAFAEASVAAANELAPLRIAVNNAGIGGAAAPVGDYPLDSWRKVIEVNLNAVFYGMQAQLDAIGANGGGAIVNMASILGSVGFANYSAYVTAKHALLGLTQNAALEYAGKNVRVVAVGPGFIRTPLVASNMDADTLAFLEGKHALGRLGEPEEVASLVAFLASDAASFITGSYHLVDGGYTAQ MAQYDVAGRSAIVTGGGSGIGRAIALTLAASGAAVLVTDLNEENANAVVAEISAAGGTARALAGDVTDPAFAEASVAAANELAPLRIAVNNAGIGGAAAPVGDYPLDSWRKVIEVNLNAVFYGMQAQLDAIGANGGGAIVNMASILGSVGFANYSAYVTAKHALLGLTQNAALEYAGKNVRVVAVGPGFIRTPLVASNMDADTLAFLEGKHALGRLGEPEEVASLVAFLASDAASFITGSYHLVDGGYTAQ 6xnb-a1-m3-cA_6xnb-a1-m4-cA The Crystal Structure of the S154Y Mutant Carbonyl Reductase from Leifsonia xyli Explains Enhanced Activity for 3,5-Bis(trifluoromethyl)acetophenone Reduction T2FLN4 T2FLN4 1.16 X-RAY DIFFRACTION 151 1.0 1575 (Leifsonia xyli) 1575 (Leifsonia xyli) 251 251 6xnb-a1-m1-cA_6xnb-a1-m2-cA MAQYDVAGRSAIVTGGGSGIGRAIALTLAASGAAVLVTDLNEENANAVVAEISAAGGTARALAGDVTDPAFAEASVAAANELAPLRIAVNNAGIGGAAAPVGDYPLDSWRKVIEVNLNAVFYGMQAQLDAIGANGGGAIVNMASILGSVGFANYSAYVTAKHALLGLTQNAALEYAGKNVRVVAVGPGFIRTPLVASNMDADTLAFLEGKHALGRLGEPEEVASLVAFLASDAASFITGSYHLVDGGYTAQ MAQYDVAGRSAIVTGGGSGIGRAIALTLAASGAAVLVTDLNEENANAVVAEISAAGGTARALAGDVTDPAFAEASVAAANELAPLRIAVNNAGIGGAAAPVGDYPLDSWRKVIEVNLNAVFYGMQAQLDAIGANGGGAIVNMASILGSVGFANYSAYVTAKHALLGLTQNAALEYAGKNVRVVAVGPGFIRTPLVASNMDADTLAFLEGKHALGRLGEPEEVASLVAFLASDAASFITGSYHLVDGGYTAQ 6xnk-a2-m1-cE_6xnk-a2-m1-cG Crystal structure of dimeric K72A human cytochrome c alkaline conformer P99999 P99999 2.08 X-RAY DIFFRACTION 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 104 6xnk-a1-m1-cA_6xnk-a1-m1-cC GDVEKGKKIFIMKCSQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGYSYTAANKNKGIIWGEDTLMEYLENPAKYIPGTKMIFVGIKKKEERADLIAYLKKATNE GDVEKGKKIFIMKCSQCHTVEKGGKHKTGPNLHGLFGRKTGQAPGYSYTAANKNKGIIWGEDTLMEYLENPAKYIPGTKMIFVGIKKKEERADLIAYLKKATNE 6xnr-a1-m1-cAAA_6xnr-a1-m2-cAAA Crystal structure of Rhagium Mordax antifreeze protein 2.05 X-RAY DIFFRACTION 89 1.0 295679 (Rhagium mordax) 295679 (Rhagium mordax) 139 139 MYSCRAVGVDASTVTDVQGTCHAKATGPGAVASGTSVDGSTSTATATGSGATATSTSTGTGTATTTATSNAAATSNAIGQGTATSTATGTAAARAIGSSTTSASATEPTQTKTVSGPGAQTATAIAIDTATTTVTASLE MYSCRAVGVDASTVTDVQGTCHAKATGPGAVASGTSVDGSTSTATATGSGATATSTSTGTGTATTTATSNAAATSNAIGQGTATSTATGTAAARAIGSSTTSASATEPTQTKTVSGPGAQTATAIAIDTATTTVTASLE 6xnr-a3-m1-cDDD_6xnr-a3-m1-cEEE Crystal structure of Rhagium Mordax antifreeze protein 2.05 X-RAY DIFFRACTION 101 1.0 295679 (Rhagium mordax) 295679 (Rhagium mordax) 136 138 6xnr-a2-m1-cBBB_6xnr-a2-m1-cCCC YSCRAVGVDASTVTDVQGTCHAKATGPGAVASGTSVDGSTSTATATGSGATATSTSTGTGTATTTATSNAAATSNAIGQGTATSTATGTAAARAIGSSTTSASATEPTQTKTVSGPGAQTATAIAIDTATTTVTAS MYSCRAVGVDASTVTDVQGTCHAKATGPGAVASGTSVDGSTSTATATGSGATATSTSTGTGTATTTATSNAAATSNAIGQGTATSTATGTAAARAIGSSTTSASATEPTQTKTVSGPGAQTATAIAIDTATTTVTASL 6xns-a2-m1-cE_6xns-a2-m1-cF C3_crown-05 3.19 X-RAY DIFFRACTION 76 0.994 32630 (synthetic construct) 32630 (synthetic construct) 326 327 6xns-a1-m1-cA_6xns-a1-m1-cB 6xns-a1-m1-cA_6xns-a1-m1-cC 6xns-a1-m1-cC_6xns-a1-m1-cB 6xns-a2-m1-cE_6xns-a2-m1-cD 6xns-a2-m1-cF_6xns-a2-m1-cD DRSDHAKKLKTFLENLRRHLDRLDKHIKQLRDILSENPEDERVKDVIDLSERSVRIVKTVIKIFEDSVRKLLKQINKEAEELAKSPDPEDLKRAVELAEAVVRADPGSNLSKKALEIILRAAAELAKLPDPDALAAAARAASKVQQEQPGSNLAKAAQEIMRQASRAAEEAARRAKETLEKAEKDPETALKAVETVVKVARALNQIATMAGSEEAQERAARVASEAARLAERVLELAEKQGDPEVARRARELQEKVLDILLDILEQILQTATKIIDDANKLLEKLRRSERKDPKVVETYVELLKRHERLVKQLLEIAKAHAEAVEG SDHAKKLKTFLENLRRHLDRLDKHIKQLRDILSENPEDERVKDVIDLSERSVRIVKTVIKIFEDSVRKLLKQINKEAEELAKSPDPEDLKRAVELAEAVVRADPGSNLSKKALEIILRAAAELAKLPDPDALAAAARAASKVQQEQPGSNLAKAAQEIMRQASRAAEEAARRAKETLEKAEKDGDPETALKAVETVVKVARALNQIATMAGSEEAQERAARVASEAARLAERVLELAEKQGDPEVARRARELQEKVLDILLDILEQILQTATKIIDDANKLLEKLRRSERKDPKVVETYVELLKRHERLVKQLLEIAKAHAEAVEGG 6xnu-a1-m1-cB_6xnu-a1-m1-cA CRYSTAL STRUCTURE OF CBPB PROTEIN (LMO1009) FROM LISTERIA MONOCYTOGENES Q8Y8A3 Q8Y8A3 1.62 X-RAY DIFFRACTION 89 0.992 1639 (Listeria monocytogenes) 1639 (Listeria monocytogenes) 128 137 6xnv-a1-m1-cB_6xnv-a1-m1-cA ADSMISAEKVAHVQLGNNLEHALLVLTKCGYSVIPVLDFEFKLHGLISAAMITDAILGLERIEFERLEDLKVEDVMQTDFPVIKDFNNNERIVHLLVDHPFVCVVDSDHHFEGIVTRRVVLKQVNRYI NELADSMISAEKVAHVQLGNNLEHALLVLTKCGYSVIPVLDFEFKLHGLISAAMITDAILGLRIEFERLEDLKVEDVMQTDFPVIKDFNNNERIVHLLVDHPFVCVVDSDHHFEGIVTRRVVLKQVNRYIHLQVEEN 6xor-a1-m1-cA_6xor-a1-m1-cB Structure of the Self-Association Domain of Swallow P40688 P40688 NOT SOLUTION NMR 109 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 71 71 SFDRLLAENESLQQKINSLEVEAKRLQGFNEYVQERLDRITDDFVKMKDNFETLRTELSEAQQKLRRQQDN SFDRLLAENESLQQKINSLEVEAKRLQGFNEYVQERLDRITDDFVKMKDNFETLRTELSEAQQKLRRQQDN 6xpe-a1-m1-cA_6xpe-a1-m1-cB Cryo-EM structure of human ZnT8 WT, in the presence of zinc, determined in outward-facing conformation Q8IWU4 Q8IWU4 4.1 ELECTRON MICROSCOPY 152 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 277 277 6xpd-a1-m1-cA_6xpd-a1-m1-cB HCHANEYAYAKWKLCSASAICFIFMIAAHLLIDLTSFLLSLFSLWLSSKPPSKRLTFGWHRAEILGALLSILCIWVVTGVLVYLACERLLYPDYQATVMIIVSSCAVAANIVLTVVLHQANASVRAAFVHALGDLFQSISVLISALIIYFKPEYKIADPICTFIFSILVLASTITILKDFSILLMEGVPKSLNYSGVKELILAVDGVLSVHSLHIWSLTMNQVILSAHVATAASRDSQVVRREIAKALSKSFTMHSLTIQMESPVDQDCLFCEDPCD HCHANEYAYAKWKLCSASAICFIFMIAAHLLIDLTSFLLSLFSLWLSSKPPSKRLTFGWHRAEILGALLSILCIWVVTGVLVYLACERLLYPDYQATVMIIVSSCAVAANIVLTVVLHQANASVRAAFVHALGDLFQSISVLISALIIYFKPEYKIADPICTFIFSILVLASTITILKDFSILLMEGVPKSLNYSGVKELILAVDGVLSVHSLHIWSLTMNQVILSAHVATAASRDSQVVRREIAKALSKSFTMHSLTIQMESPVDQDCLFCEDPCD 6xqi-a2-m1-cC_6xqi-a2-m1-cD Structure of HIV-1 Vpr in complex with the human nucleotide excision repair protein hHR23A P12520 P12520 2.34 X-RAY DIFFRACTION 27 1.0 11698 (Human immunodeficiency virus type 1 (NEW YORK-5 ISOLATE)) 11698 (Human immunodeficiency virus type 1 (NEW YORK-5 ISOLATE)) 63 64 6xqi-a1-m1-cA_6xqi-a1-m1-cB NEWTLELLEELKSEAVRHFPRIWLHNLGQHIYETYGDTWAGVEAIIRILQQLLFIHFRIGCSH ANEWTLELLEELKSEAVRHFPRIWLHNLGQHIYETYGDTWAGVEAIIRILQQLLFIHFRIGCSH 6xqn-a1-m1-cA_6xqn-a1-m1-cC Structure of a mitochondrial calcium uniporter holocomplex (MICU1, MICU2, MCU, EMRE) in low Ca2+ D6WIX5 D6WIX5 3.3 ELECTRON MICROSCOPY 25 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 154 154 6x4s-a1-m1-cA_6x4s-a1-m1-cC DVKTLVNQLYEALNVREHQLQKEVELTTQLETLQQELLPLEEKKLELEQVANRRSNWMAWAGLGLMSVQFGILARLTWWEYSWDIMEPVTYFVTYGTAMAAYAYFVLTRNDVRDRQQLLLLHKKAKKTGFDVNQYNVLKDQIAKLELDLKRLRD DVKTLVNQLYEALNVREHQLQKEVELTTQLETLQQELLPLEEKKLELEQVANRRSNWMAWAGLGLMSVQFGILARLTWWEYSWDIMEPVTYFVTYGTAMAAYAYFVLTRNDVRDRQQLLLLHKKAKKTGFDVNQYNVLKDQIAKLELDLKRLRD 6xqn-a1-m1-cB_6xqn-a1-m1-cD Structure of a mitochondrial calcium uniporter holocomplex (MICU1, MICU2, MCU, EMRE) in low Ca2+ D6WIX5 D6WIX5 3.3 ELECTRON MICROSCOPY 22 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 151 151 6x4s-a1-m1-cB_6x4s-a1-m1-cD GLSDVKTLVNQLYEALNVREHQLQKEVELTTQLETLQQELLPLEEKKLELEQVANRRSNWMAWAGLGLMSVQFGILARLTWWEYSWDIMEPVTYFVTYGTAMAAYAYFVLTREEYILNDVRDRQQLFDVNQYNVLKDQIAKLELDLKRLRD GLSDVKTLVNQLYEALNVREHQLQKEVELTTQLETLQQELLPLEEKKLELEQVANRRSNWMAWAGLGLMSVQFGILARLTWWEYSWDIMEPVTYFVTYGTAMAAYAYFVLTREEYILNDVRDRQQLFDVNQYNVLKDQIAKLELDLKRLRD 6xr2-a2-m1-cD_6xr2-a2-m1-cE Computationally designed right-handed alpha/alpha homotrimeric toroid with 3 repeats per subunit 3.2 X-RAY DIFFRACTION 92 0.994 32630 (synthetic construct) 32630 (synthetic construct) 167 171 ELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNLALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEG GNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEG 6xr2-a2-m1-cF_6xr2-a2-m1-cE Computationally designed right-handed alpha/alpha homotrimeric toroid with 3 repeats per subunit 3.2 X-RAY DIFFRACTION 67 0.994 32630 (synthetic construct) 32630 (synthetic construct) 165 171 6xr2-a1-m1-cA_6xr2-a1-m1-cC 6xr2-a1-m1-cB_6xr2-a1-m1-cA 6xr2-a1-m1-cB_6xr2-a1-m1-cC NLELALKALQILVNAAYVLAEIAGNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQAR GNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRNEELLEKAARLAEEAARQAEEIARQARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEG 6xr4-a1-m1-cA_6xr4-a1-m1-cB Integrative in situ structure of Parkinsons disease-linked human LRRK2 Q5S007 Q5S007 14.0 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1040 1040 YNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLSDLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDVEKFLSKKRKFPKNYMSQYFKLLEKFQIALPIGEEYLLVIIIRLYEMPYFPMGFWSRLINRLLEISPYMLSGRERALRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGTAQYCCRMGIKTSEGTPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSARRILLPKNVIVECMVATNASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNSFQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSEVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQNVMLVLGYNREIQSCLTVW YNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSDEKQRKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLSDLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDVEKFLSKKRKFPKNYMSQYFKLLEKFQIALPIGEEYLLVIIIRLYEMPYFPMGFWSRLINRLLEISPYMLSGRERALRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGTAQYCCRMGIKTSEGTPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSARRILLPKNVIVECMVATNASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNSFQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSEVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQNVMLVLGYNREIQSCLTVW 6xr5-a2-m1-cB_6xr5-a2-m1-cG Crystal Structure of Diphosphomevalonate decarboxylase (MVD1) Cryptococcus neoformans var. grubii serotype A J9VRT5 J9VRT5 1.7 X-RAY DIFFRACTION 85 0.995 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 391 393 6xr5-a1-m1-cE_6xr5-a1-m1-cA 6xr5-a3-m1-cC_6xr5-a3-m1-cH 6xr5-a4-m1-cF_6xr5-a4-m1-cD HMVHEATASAPVNIACIKYWGKRDTRLILPTNSSLSVTLDQDHLRSTTTSRADASFEAGDRLWLNGREEAIKEGGRLAVCIKELRAWRKEMETKDKNLPKLSEWPLRIASYNNFPAAGLASSASGLAALVASLASLYSLPQSPSQLSLVARQGSGSACRSLFGGFVAWREGTDPAGSDSLAEEVAPREHWPEMHALICVVSDASSTSGMQKTVETSTLLQERLRVVPKRMDAISQAIKARDFAEFAKLTMADSNSFHAVCLDTAPPIFYLNDVSRAIIAVVEELNRAAGEIIAAYTFDAGPNAVIYTLEKNMPFVLGAIKRFFPTSEEFESPFQTGVRDLPEGFNTGVVREGGWEKGAVKGLIHTRVGDGPRVLEKEDSLLGENGVPKVLA MVHEATASAPVNIACIKYWGKRDTRLILPTNSSLSVTLDQDHLRSTTTSRADASFEAGDRLWLNGREEAIKEGGRLAVCIKELRAWRKEMETKDKNLPKLSEWPLRIASYNNFPTAAGLASSASGLAALVASLASLYSLPQSPSQLSLVARQGSGSACRSLFGGFVAWREGTDPAGSDSLAEEVAPREHWPEMHALICVVSDAKKGSTSGMQKTVETSTLLQERLRVVPKRMDAISQAIKARDFAEFAKLTMADSNSFHAVCLDTAPPIFYLNDVSRAIIAVVEELNRAAGEIIAAYTFDAGPNAVIYTLEKNMPFVLGAIKRFFPTSEEFESPFQTGVRDLPEGFNTGVVREGGWEKGAVKGLIHTRVGDGPRVLEKEDSLLGENGVPKVLA 6xr8-a1-m1-cB_6xr8-a1-m1-cC Distinct conformational states of SARS-CoV-2 spike protein P0DTC2 P0DTC2 2.9 ELECTRON MICROSCOPY 439 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1107 1107 6xr8-a1-m1-cA_6xr8-a1-m1-cB 6xr8-a1-m1-cA_6xr8-a1-m1-cC 7swx-a1-m1-cA_7swx-a1-m1-cB 7swx-a1-m1-cA_7swx-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEELDKYFKNHTSP QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEELDKYFKNHTSP 6xrf-a1-m1-cA_6xrf-a1-m1-cB EagT6 Tse6 NT complex Q9I738 Q9I738 2.56 X-RAY DIFFRACTION 128 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 140 140 1tu1-a1-m1-cA_1tu1-a1-m1-cB 6xrf-a2-m1-cD_6xrf-a2-m1-cE 6xrf-a3-m1-cG_6xrf-a3-m1-cH TLYRLHEADLEIPDAWQDQSINIFKLPASGPAREASFVISRDASQGDAPFADYVARQLENAEKQLPGFKLHKRWDINIHGHAAVLLDYQWQREGRDLMLRQVFIERRPAVLITTLTTTPADLPHHEPAWKQAMQTLVPRP TLYRLHEADLEIPDAWQDQSINIFKLPASGPAREASFVISRDASQGDAPFADYVARQLENAEKQLPGFKLHKRWDINIHGHAAVLLDYQWQREGRDLMLRQVFIERRPAVLITTLTTTPADLPHHEPAWKQAMQTLVPRP 6xri-a1-m1-cF_6xri-a1-m1-cA MSMEG_2027 domain-swapped dimer A0QU01 A0QU01 2.37 X-RAY DIFFRACTION 140 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 134 135 6xri-a2-m1-cC_6xri-a2-m1-cB 6xri-a3-m1-cE_6xri-a3-m1-cD 6xri-a4-m1-cH_6xri-a4-m1-cG 6xri-a5-m1-cJ_6xri-a5-m1-cI 6xri-a6-m1-cL_6xri-a6-m1-cK 6xri-a7-m1-cN_6xri-a7-m1-cM SPTDWVREQTERILEQGTTDGVHVLDRPIVLFTTTGAKSGKKRYVPLMRVEENGKYAMVASKGGDPKHPSWYFNVKANPTVSVQDGDKVLPDRTARELEGEEREHWWKLAVEAYPPYAEYQTKTDRLIPVFIVE LSPTDWVREQTERILEQGTTDGVHVLDRPIVLFTTTGAKSGKKRYVPLMRVEENGKYAMVASKGGDPKHPSWYFNVKANPTVSVQDGDKVLPDRTARELEGEEREHWWKLAVEAYPPYAEYQTKTDRLIPVFIVE 6xrr-a4-m1-cH_6xrr-a4-m1-cK Structure of SciW bound to the Rhs1 Transmembrane Domain from Salmonella typhimurium Q7CR57 Q7CR57 1.9 X-RAY DIFFRACTION 110 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 141 146 6xrb-a1-m1-cB_6xrb-a1-m1-cA 6xrr-a1-m1-cI_6xrr-a1-m1-cE 6xrr-a2-m1-cA_6xrr-a2-m1-cB 6xrr-a3-m1-cD_6xrr-a3-m1-cF MDRPYRIQEGCFVLPETFTDRSVNIFILTSPSLNISRDTLKPDEDLPAYIDRQIALMKKNLGQHRVLSRAPAQAGTGNDALMGEQIAATHKSGKTEVYQRQAGFIATPGKVLVFTLTSPRPFDDKADLLWNTWLAGFQPDK MDRPYRIQEGCFVLPETFTDRSVNIFILEGNERTSPSLNISRDTLKPDEDLPAYIDRQIALMKKNLGQHRVLSRAPAQAGTGNDALMGEQIAATHKSGKTEVYQRQAGFIATPGKVLVFTLTSPRPFDDKADLLWNTWLAGFQPDK 6xrs-a2-m1-cB_6xrs-a2-m1-cD Crystal structure of a GTP-binding protein EngA (Der homolog) from Neisseria gonorrhoeae bound to GDP B4RKD2 B4RKD2 2.8 X-RAY DIFFRACTION 93 0.987 521006 (Neisseria gonorrhoeae NCCP11945) 521006 (Neisseria gonorrhoeae NCCP11945) 392 392 IMKPTIALIGRPNVGKSTLFNRLTRTKDALVHDLPGLTRDRHYGHGKVGSKPYFVIDTGGFEHEMAKQTLQAVDEADAVVFLVDGRTGLTPQDKIIADRLRQSPRPVYLAVNKGEGGDRAVLAAEFYELALGEPHVISGAHGDGVYYLIEEILENFPEADAKHPVFAVIGRPNVGKSTLVNAILGEKRVIAIHIDFEREGKPFTIIDTFSVIKAMQAVEAANVAVLVLDAQQDIADQDATIAGFALEAGRALVVAVNKWDGISEERREQVKRDISRKLYFLDFAKFHFISALKERGIDGLFESIQAAYNAAMIKMPTPKITRVLQTAVGRQQPPLVRPKMRYAHQGGMNPPVIVVHGNSLHAISDSYTRYLTQTFRKAFNLQGTPLRIQYNV IMKPTIALIGRPNVGKSTLFNRLTRTKDHDLPGLTRDRHYGHGKVGSKPYFVIDTGGFEMAKQTLQAVDEADAVVFLVDGRTGLTPQDKIIADRLRQSPRPVYLAVNKGEGGDRAVLAAEFYELALGEPHVISGAHGDGVYYLIEEILENFPEADAKHPVFAVIGRPNVGKSTLVNAILGEKRVIAFDIHIDFEREGKPFTIIDTFSVIKAMQAVEAANVAVLVLDAQQDIADQDATIAGFALEAGRALVVAVNKWDGISEERREQVKRDISRKLYFLDFAKFHFISALKERGIDGLFESIQAAYNAAMIKMPTPKITRVLQTAVGRQQPPRAGLVRPKMRYAHQGGMNPPVIVVHGNSLHAISDSYTRYLTQTFRKAFNLQGTPLRIQYNV 6xrw-a2-m1-cD_6xrw-a2-m2-cD Chromosomal ParDE TA system from P. aeruginosa Q9I707 Q9I707 1.77 X-RAY DIFFRACTION 109 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 75 75 6xrw-a1-m1-cB_6xrw-a1-m2-cB MSTVVSFRADDALVAALDELARATHRDRPYHLRQALAQYLERQQWQVAAIDEGLADANAGRLLEHIEIEKRWGLQ MSTVVSFRADDALVAALDELARATHRDRPYHLRQALAQYLERQQWQVAAIDEGLADANAGRLLEHIEIEKRWGLQ 6xs4-a1-m1-cA_6xs4-a1-m1-cB Crystal structure of glycyl radical enzyme ECL_02896 from Enterobacter cloacae subsp. cloacae A0A0H3CPF7 A0A0H3CPF7 2.33 X-RAY DIFFRACTION 67 1.0 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 810 810 MTTLNLNTLSERIKAHKMALVHIVKPPVCTERAQHYTEMYQQHMDKPIPVRRALALAHHLAQRTIWIKHDELIVGNQASEVRAAPIFPEYTVSWIEKEIDDLADRPGAGFAVSEENKRVLHEICPWWRGQTVQDRCYGMFTDEQKSLLETGIIKAEGNMTSGDAHLAVNFPLVLEKGLDGLRAKVAERRSRINLTVLDDLHGDQFLKAIDIVLEAVSLHIERFAALAREMAATESRVSRRDELLAIAENCDAIAHEPPKTFWQALQLCYFIQLILQIESNGHSVSFARMDQYLYPYYRRDVELNQSLDREHVIELLHSCWLKLLEVNKIRSGSHSKASAGSPLYQNVTIGGQKLVNGEPMDAVNPLSYAILESCGRLRSTQPNLSVRYHAGMSNDFLDACVQVIRCGFGMPAFNNDEIVIPEFIKLGVEKEDAYDYAAIGCIETAVGGKWGYRCTGMSFINFARVMLAALEGGRDATSGKVFLPQEKALSAGNFGNFDEVMTAWDTQIRYYTRKSIEIEYVVDTMLEENVHDILCSALVDDCIERAKSIKQGGAKYDWVSGLQVGIANLGNSLAAVKKLVFEQGVIGQQQLAAALADDFDGLTHEQLRQRLINGAPKYGNDDDSVDMLLTRAYQTYIDELKQYHNPRYGRGPIGGNYYAGTSSISANVPFGAATMATPDGRKAHTPLAEGASPASGTDHLGPTAVIGSVGKLPTEAILGGVLLNQKLNPSTLENDSDRQKLMVLLRTFFEVHKGWHIQYNIVSRETLLDAKKHPDQYRDLVVRVAGYSAFFTALSPDAQDDIIARTEHTL MTTLNLNTLSERIKAHKMALVHIVKPPVCTERAQHYTEMYQQHMDKPIPVRRALALAHHLAQRTIWIKHDELIVGNQASEVRAAPIFPEYTVSWIEKEIDDLADRPGAGFAVSEENKRVLHEICPWWRGQTVQDRCYGMFTDEQKSLLETGIIKAEGNMTSGDAHLAVNFPLVLEKGLDGLRAKVAERRSRINLTVLDDLHGDQFLKAIDIVLEAVSLHIERFAALAREMAATESRVSRRDELLAIAENCDAIAHEPPKTFWQALQLCYFIQLILQIESNGHSVSFARMDQYLYPYYRRDVELNQSLDREHVIELLHSCWLKLLEVNKIRSGSHSKASAGSPLYQNVTIGGQKLVNGEPMDAVNPLSYAILESCGRLRSTQPNLSVRYHAGMSNDFLDACVQVIRCGFGMPAFNNDEIVIPEFIKLGVEKEDAYDYAAIGCIETAVGGKWGYRCTGMSFINFARVMLAALEGGRDATSGKVFLPQEKALSAGNFGNFDEVMTAWDTQIRYYTRKSIEIEYVVDTMLEENVHDILCSALVDDCIERAKSIKQGGAKYDWVSGLQVGIANLGNSLAAVKKLVFEQGVIGQQQLAAALADDFDGLTHEQLRQRLINGAPKYGNDDDSVDMLLTRAYQTYIDELKQYHNPRYGRGPIGGNYYAGTSSISANVPFGAATMATPDGRKAHTPLAEGASPASGTDHLGPTAVIGSVGKLPTEAILGGVLLNQKLNPSTLENDSDRQKLMVLLRTFFEVHKGWHIQYNIVSRETLLDAKKHPDQYRDLVVRVAGYSAFFTALSPDAQDDIIARTEHTL 6xs6-a1-m1-cB_6xs6-a1-m1-cC SARS-CoV-2 Spike D614G variant, minus RBD P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 214 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 785 787 6xs6-a1-m1-cA_6xs6-a1-m1-cB 6xs6-a1-m1-cA_6xs6-a1-m1-cC 7lwq-a1-m1-cB_7lwq-a1-m1-cC 7tpl-a1-m1-cA_7tpl-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTV AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTV 6xs9-a1-m1-cE_6xs9-a1-m1-cF Crystal structure of human Vps29 complexed with RaPID-derived cyclic peptide RT-L1 2.69 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 14 14 YIKTPLGTFPNRHG YIKTPLGTFPNRHG 6xss-a1-m1-cC_6xss-a1-m1-cD CryoEM structure of designed helical fusion protein C4_nat_HFuse-7900 3.7 ELECTRON MICROSCOPY 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 260 260 6xss-a1-m1-cA_6xss-a1-m1-cB 6xss-a1-m1-cA_6xss-a1-m1-cD 6xss-a1-m1-cB_6xss-a1-m1-cC ASSWVMLGLLLSLLNRLSLAAEAYKKAIELDPNDALAWLLLGSVLLLLGREEEAEEAARKAIELKPEMDSARRLEGIIELIRRAREAAERAQEAAERTGDPRVRELARELKRLAQEAAEEVRRDPDSKDVNEALKLIVEAIEAAVRALEAAERTGDPEVRELARELVRLAVEAAEEVQRNPSSSDVNEALKLIVEAIDAAVRALEAAEKTGDPEVRELARELVRLAVEAAEEVQRNPSSEEVNEALKDIVKAIQEAVESL ASSWVMLGLLLSLLNRLSLAAEAYKKAIELDPNDALAWLLLGSVLLLLGREEEAEEAARKAIELKPEMDSARRLEGIIELIRRAREAAERAQEAAERTGDPRVRELARELKRLAQEAAEEVRRDPDSKDVNEALKLIVEAIEAAVRALEAAERTGDPEVRELARELVRLAVEAAEEVQRNPSSSDVNEALKLIVEAIDAAVRALEAAEKTGDPEVRELARELVRLAVEAAEEVQRNPSSEEVNEALKDIVKAIQEAVESL 6xt4-a1-m2-cA_6xt4-a1-m3-cA C3_HD-1069 (1BH-69) - fusion protein of helical bundle and repeat protein 2.4 X-RAY DIFFRACTION 95 1.0 32630 (synthetic construct) 32630 (synthetic construct) 235 235 6xt4-a1-m1-cA_6xt4-a1-m2-cA 6xt4-a1-m1-cA_6xt4-a1-m3-cA EKEKLKELLKRAEELAKSPDPEDLKEAVRLAEEVVRERPGSNLAKKALEIILRAAEELAKLPDPKALIAAVLAAIKVVREQPGSNLAKKALEIILRAAEELAKLPDPLALAAAVVAATIVVLTQPGSELAKKALEIIERAAEELKKSPDPLAQLLAIAAEALVIALKSKEMVKLTTLALLTSLLILILILLDLKEMLERLEDVIVKVLKVIVKAIEASVLNQAISAINQILLALS EKEKLKELLKRAEELAKSPDPEDLKEAVRLAEEVVRERPGSNLAKKALEIILRAAEELAKLPDPKALIAAVLAAIKVVREQPGSNLAKKALEIILRAAEELAKLPDPLALAAAVVAATIVVLTQPGSELAKKALEIIERAAEELKKSPDPLAQLLAIAAEALVIALKSKEMVKLTTLALLTSLLILILILLDLKEMLERLEDVIVKVLKVIVKAIEASVLNQAISAINQILLALS 6xt5-a1-m1-cA_6xt5-a1-m1-cB Jack bean asparaginyl endopeptidase P49046 P49046 2.69 X-RAY DIFFRACTION 59 0.998 3823 (Canavalia ensiformis) 3823 (Canavalia ensiformis) 431 434 GTRWAVLVAGSNGYGNYRHQADVCHAYQLLIKGGVKEENIVVFMYDDIAYNAMNPRPGVIINHPQGPDVYAGVPKDYTGEDVTPENLYAVILGDKSKVKGGSGKVINSNPEDRIFIFYSHGGPGVLGMPNAPFVYAMDFIDVLKKKHASGGYKEMVIYIEACESGSIFEGIMPKDLNIYVTTASNAQENSFGTYCPGMNPPPPEEYVTCLGDLYSVSWMEDSETHNLKRETVQQQYQSVRKRTSNSNSYRFGSHVMQYGDTNITAEKLYLYHGFDPATVNFPPHNKMEVVNQRDAELLFMWQMYQRSNQPEKKTHILEQITETVKHRNHLDGSVELIGVLLYGPGKSSSVLHSVRAPGLPLVDDWTCLKSMVRVFETHCGSLTQYGMKHMRAFGNVCNSGVSKASMEEACKAACGGYDAGLLYPSNTGYSA GTRWAVLVAGSNGYGNYRHQADVCHAYQLLIKGGVKEENIVVFMYDDIAYNAMNPRPGVIINHPQGPDVYAGVPKDYTGEDVTPENLYAVILGDKSKVKGGSGKVINSNPEDRIFIFYSHGGPGVLGMPNAPFVYAMDFIDVLKKKHASGGYKEMVIYIEACESGSIFEGIMPKDLNIYVTTASNAQENSFGTYCPGMNPPPPEEYVTCLGDLYSVSWMEDSETHNLKRETVQQQYQSVRKRTSNSNSYRFGSHVMQYGDTNITAEKLYLYHGFDPATVNFPPHLEAKMEVVNQRDAELLFMWQMYQRSNHQPEKKTHILEQITETVKHRNHLDGSVELIGVLLYGPGKSSSVLHSVRAPGLPLVDDWTCLKSMVRVFETHCGSLTQYGMKHMRAFGNVCNSGVSKASMEEACKAACGGYDAGLLYPSNTGYSA 6xt6-a1-m1-cA_6xt6-a1-m2-cB pro-concanavalin A: Precursor of circularly permuted concanavalin A P02866 P02866 2.103 X-RAY DIFFRACTION 47 0.988 3823 (Canavalia ensiformis) 3823 (Canavalia ensiformis) 241 241 6xt6-a1-m1-cB_6xt6-a1-m2-cA TNALHFMFNQFSKDQKDLILQGDATTGTDGNLELTRVSSNGSPQGSSVGRALFYAPVHIWESSAVVASFEATFTFLIKSPDSHPADGIAFFISNIDSSIPSGSTGRLLGLFPDANADTIVAVELDTYPNTDIGDPSYPHIGIDIKSVRSKKTAKWNMQNGKVGTAHIIYNSVDKRLSAVVSYPNADSATVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSKLKSNEIPDIATV THETNALHFMFNQFSKDQKDLILQGDATTGTDGNLELTRVSSNGSPQGSSVGRALFYAPVHIWESSAVVASFEATFTFLIKSPDSHPADGIAFFISNIDSSIPSGSTGRLLGLFPDANADTIVAVELDTYPNTDIGDPSYPHIGIDIKSVRSKKTAKWNMQNGKVGTAHIIYNSVDKRLSAVVSYPNADSATVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSKLKSNEIPDI 6xt6-a1-m2-cA_6xt6-a1-m2-cB pro-concanavalin A: Precursor of circularly permuted concanavalin A P02866 P02866 2.103 X-RAY DIFFRACTION 63 0.988 3823 (Canavalia ensiformis) 3823 (Canavalia ensiformis) 241 241 6xt6-a1-m1-cA_6xt6-a1-m1-cB TNALHFMFNQFSKDQKDLILQGDATTGTDGNLELTRVSSNGSPQGSSVGRALFYAPVHIWESSAVVASFEATFTFLIKSPDSHPADGIAFFISNIDSSIPSGSTGRLLGLFPDANADTIVAVELDTYPNTDIGDPSYPHIGIDIKSVRSKKTAKWNMQNGKVGTAHIIYNSVDKRLSAVVSYPNADSATVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSKLKSNEIPDIATV THETNALHFMFNQFSKDQKDLILQGDATTGTDGNLELTRVSSNGSPQGSSVGRALFYAPVHIWESSAVVASFEATFTFLIKSPDSHPADGIAFFISNIDSSIPSGSTGRLLGLFPDANADTIVAVELDTYPNTDIGDPSYPHIGIDIKSVRSKKTAKWNMQNGKVGTAHIIYNSVDKRLSAVVSYPNADSATVSYDVDLDNVLPEWVRVGLSASTGLYKETNTILSWSFTSKLKSNEIPDI 6xt8-a2-m1-cC_6xt8-a2-m1-cD Crystal structure of haloalkane dehalogenase variant DhaA115 domain-swapped dimer type-2 P0A3G2 P0A3G2 1.7 X-RAY DIFFRACTION 447 1.0 32630 (synthetic construct) 32630 (synthetic construct) 290 292 6xt8-a1-m1-cA_6xt8-a1-m1-cB IGTGFPFDPHYVEVLGSRMHYVDVGPRDGTPVLFLHGNPTSSYLWRNIIPHVAPSHRCIAPDLIGMGKSDKPDLDYRFDDHVRYLDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERVKGIAFMEFIRPIPTWDEWPEFARELFQAFRTPDVGRELIIDQNAFIEGILPKFVVRPLTEVEMDHYREPFLKPVWREPLWRFPNELPIAGEPANIWALVEAYMNWLHQSPVPKLLFWGTPGVLIPPAEAARLAESLPNLKTVFIGPGLHYLQEDNPDLIGSEIARWLPAL EIGTGFPFDPHYVEVLGSRMHYVDVGPRDGTPVLFLHGNPTSSYLWRNIIPHVAPSHRCIAPDLIGMGKSDKPDLDYRFDDHVRYLDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERVKGIAFMEFIRPIPTWDEWPEFARELFQAFRTPDVGRELIIDQNAFIEGILPKFVVRPLTEVEMDHYREPFLKPVWREPLWRFPNELPIAGEPANIWALVEAYMNWLHQSPVPKLLFWGTPGVLIPPAEAARLAESLPNLKTVFIGPGLHYLQEDNPDLIGSEIARWLPALH 6xtc-a2-m1-cC_6xtc-a2-m1-cD Crystal structure of haloalkane dehalogenase variant DhaA177 domain-swapped dimer type-3 P0A3G2 P0A3G2 2.543 X-RAY DIFFRACTION 447 1.0 32630 (synthetic construct) 32630 (synthetic construct) 291 291 6xtc-a1-m1-cA_6xtc-a1-m1-cB EIGTGFPFDPHYVEVLGERMHYVDVGPRDGTPVLFLHGNPTSSYLWRNIIPHVAPSHRCIAPDLIGMGKSDKPDLDYFFDDHVRYLDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERVKGIACMEFIRPIPTWDEWPEFARELFQAFRTPDVGRELIIDQNAFIEGILPKFVVRPLTEVEMDHYREPFLKPVDREPLWRFPNELPIAGEPANIVALVEAYMNWLHQSPVPKLLFWGTPGVLIPPAEAARLAESLPNCKTVDIGPGLHYLQEDNPDLIGSEIARWLPAL EIGTGFPFDPHYVEVLGERMHYVDVGPRDGTPVLFLHGNPTSSYLWRNIIPHVAPSHRCIAPDLIGMGKSDKPDLDYFFDDHVRYLDAFIEALGLEEVVLVIHDWGSALGFHWAKRNPERVKGIACMEFIRPIPTWDEWPEFARELFQAFRTPDVGRELIIDQNAFIEGILPKFVVRPLTEVEMDHYREPFLKPVDREPLWRFPNELPIAGEPANIVALVEAYMNWLHQSPVPKLLFWGTPGVLIPPAEAARLAESLPNCKTVDIGPGLHYLQEDNPDLIGSEIARWLPAL 6xtf-a1-m1-cA_6xtf-a1-m1-cB Crystal structure a Thioredoxin Reductase from Gloeobacter violaceus bound to its electron donor Q7NMP6 Q7NMP6 2.23 X-RAY DIFFRACTION 25 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 315 315 QFDFDVVIVGGGPAGCTCALYTARSELKTVILDKNPAAGALAITHKIANYPGVPGEMSGDHLLEVMRDQAVEFGTVYRRAQVYGLDLSEPVKKVYTPEGIFTGRALVLATGAMGRIASIPGEAEYLGRGVSYCATCDGAFYRNREVVVVGLNPEAVEEAQVLTKFASTVHWITPKDPHTLDGHADELLAHPSVKLWEKTRLIRIKGEEAGVTAVEVRHPGESDSQELLAEGVFVYLQGSKPITDFVAGQVEMKPDGGVWVDEMMQTSVPGVWGIGDIRNTPFKQAVVAAGDGCIAAMAIDRFLNSRKAIKPDWAH QFDFDVVIVGGGPAGCTCALYTARSELKTVILDKNPAAGALAITHKIANYPGVPGEMSGDHLLEVMRDQAVEFGTVYRRAQVYGLDLSEPVKKVYTPEGIFTGRALVLATGAMGRIASIPGEAEYLGRGVSYCATCDGAFYRNREVVVVGLNPEAVEEAQVLTKFASTVHWITPKDPHTLDGHADELLAHPSVKLWEKTRLIRIKGEEAGVTAVEVRHPGESDSQELLAEGVFVYLQGSKPITDFVAGQVEMKPDGGVWVDEMMQTSVPGVWGIGDIRNTPFKQAVVAAGDGCIAAMAIDRFLNSRKAIKPDWAH 6xtu-a1-m1-cA_6xtu-a1-m1-cB FULL-LENGTH LTTR LYSG FROM CORYNEBACTERIUM GLUTAMICUM P94632 P94632 2.52 X-RAY DIFFRACTION 84 1.0 1310161 (Corynebacterium glutamicum MB001) 1310161 (Corynebacterium glutamicum MB001) 286 286 6xtv-a1-m1-cA_6xtv-a1-m1-cB HMNPIQLDTLLSIIDEGSFEGASLALSISPSAVSQRVKALEHHVGRVLVSRTQPAKATEAGEVLVQAARKMVLLQAETKAQLSGRLAEIPLTIAINADSLSTWFPPVFNEVASWGGATLTLRLEDEAHTLSLLRRGDVLGAVTREANPVAGCEVVELGTMRHLAIATPSLRDAYMVDGKLDWAAMPVLRFGPDRDLDGRVDGPVGRRRVSIVPSAEGFGEAIRRGLGWGLLPETQAAPMLKAGEVILLDEIPIDTPMYWQRWRLESRSLARLTDAVVDAAIEGLRP HMNPIQLDTLLSIIDEGSFEGASLALSISPSAVSQRVKALEHHVGRVLVSRTQPAKATEAGEVLVQAARKMVLLQAETKAQLSGRLAEIPLTIAINADSLSTWFPPVFNEVASWGGATLTLRLEDEAHTLSLLRRGDVLGAVTREANPVAGCEVVELGTMRHLAIATPSLRDAYMVDGKLDWAAMPVLRFGPDRDLDGRVDGPVGRRRVSIVPSAEGFGEAIRRGLGWGLLPETQAAPMLKAGEVILLDEIPIDTPMYWQRWRLESRSLARLTDAVVDAAIEGLRP 6xu3-a2-m1-cB_6xu3-a2-m1-cC (R)-selective amine transaminase from Shinella sp. A0A4Q8MG35 A0A4Q8MG35 2.1 X-RAY DIFFRACTION 130 1.0 2527671 (Shinella sp. JR1-6) 2527671 (Shinella sp. JR1-6) 321 322 6xu3-a1-m1-cA_6xu3-a1-m1-cD SYTDHIFDDYRLRVKALEASDNPFAKGIAYIAGEYVPLHEARIPILDQGFLHSDLTYDVPAVWNGRFFRLEDHLDRFEKSCAQLRLKSPLSREEIRDRLVEMTVKSGIRDAYVMMIVTRGLRFVRQYAPEECDNFCYLMVMPYLWVMDEATQKNGGSAVITRTVRRVPPGAIDPTVKNLQWGDFTRGLMEARDRGAMYPILTDGDANLTEGSGFNVILIKDGKLYTPRKGVLEGVTRKSVLAVAEKLGYPYTIDDVPVELAYQCDEILFVTTAGGVMPITTLDGQPVGDGQVGPISKALWKGYWDAHADPELSFAVEDYRA MSYTDHIFDDYRLRVKALEASDNPFAKGIAYIAGEYVPLHEARIPILDQGFLHSDLTYDVPAVWNGRFFRLEDHLDRFEKSCAQLRLKSPLSREEIRDRLVEMTVKSGIRDAYVMMIVTRGLRFVRQYAPEECDNFCYLMVMPYLWVMDEATQKNGGSAVITRTVRRVPPGAIDPTVKNLQWGDFTRGLMEARDRGAMYPILTDGDANLTEGSGFNVILIKDGKLYTPRKGVLEGVTRKSVLAVAEKLGYPYTIDDVPVELAYQCDEILFVTTAGGVMPITTLDGQPVGDGQVGPISKALWKGYWDAHADPELSFAVEDYRA 6xve-a1-m1-cA_6xve-a1-m2-cA Engineered beta-lactoglobulin: variant F105L P02754 P02754 2.15 X-RAY DIFFRACTION 32 1.0 9913 (Bos taurus) 9913 (Bos taurus) 134 134 ASVTQTMKGLDIQKVAGTWYSLAMAASDISLLPLRVYVEELKPTPEGDLEILLQKAQKKIIAEKTKIPAVFKIALNENKVLVLDTDYKKYLLLCMENSLACQCLVRTPEVDDEALEKFDKALKALPMHIRLSFN ASVTQTMKGLDIQKVAGTWYSLAMAASDISLLPLRVYVEELKPTPEGDLEILLQKAQKKIIAEKTKIPAVFKIALNENKVLVLDTDYKKYLLLCMENSLACQCLVRTPEVDDEALEKFDKALKALPMHIRLSFN 6xvu-a2-m1-cC_6xvu-a2-m1-cD Bacteriophytochrome response regulator from Deinococcus radiodurans Q9RZA5 Q9RZA5 2.1 X-RAY DIFFRACTION 80 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 139 141 6xvu-a1-m1-cA_6xvu-a1-m1-cB VPLRLLLVEDNAADIFLMEMALEYSSVHTELLVARDGLEALELLEQAKTGGPFPDLILLDLNMPRVDGFELLQALRADPHLAHLPAIVLTTSNDPSDVKRAYALQANSYLTKPSTLEDFLQLIERLTAYWFGTAAIPQT VPLRLLLVEDNAADIFLMEMALEYSSVHTELLVARDGLEALELLEQAKTGGPFPDLILLDLNMPRVDGFELLQALRADPHLAHLPAIVLTTSNDPSDVKRAYALQANSYLTKPSTLEDFLQLIERLTAYWFGTAAIPQTYQ 6xwb-a2-m1-cB_6xwb-a2-m2-cB Crystal structure of an R-selective transaminase from Thermomyces stellatus. 2.2 X-RAY DIFFRACTION 119 1.0 2075419 (Thermomyces stellatus) 2075419 (Thermomyces stellatus) 319 319 6xwb-a1-m1-cA_6xwb-a1-m2-cA MATMDKVFAGYAARQKAMEAAGNPLSEGIAWVEGEMVPLHEARIPMLDEGFMRSDLTYDVPSVWDGRFFRLDDHLSRLEASCAKLRLKLPLPREEVKKILVEMVAKSGIRDAFVEIIVTRGLKGVRGSRPEEIVNRLYMLVQPYVWVMEPEVQPVGGDAVIARTVRRVPPGSIDPTVKNLQWGDFVRGLFEASDRGATYPFLTDGDANLTEGSGFNIVLVKDGVLYTPDRGVLQGVTRKSVIDVANAKGFEVRVEYVPVEAAYHADEIFMCTTAGGIMPIRSLDGKPVNDGKVGPITKAIWDGYWEMHYDPAYSFEIKY MATMDKVFAGYAARQKAMEAAGNPLSEGIAWVEGEMVPLHEARIPMLDEGFMRSDLTYDVPSVWDGRFFRLDDHLSRLEASCAKLRLKLPLPREEVKKILVEMVAKSGIRDAFVEIIVTRGLKGVRGSRPEEIVNRLYMLVQPYVWVMEPEVQPVGGDAVIARTVRRVPPGSIDPTVKNLQWGDFVRGLFEASDRGATYPFLTDGDANLTEGSGFNIVLVKDGVLYTPDRGVLQGVTRKSVIDVANAKGFEVRVEYVPVEAAYHADEIFMCTTAGGIMPIRSLDGKPVNDGKVGPITKAIWDGYWEMHYDPAYSFEIKY 6xwk-a1-m2-cBBB_6xwk-a1-m3-cBBB Crystal structure of Phormidium rubidum phycocyanin 1.17 X-RAY DIFFRACTION 10 1.0 865859 (Phormidium rubidum A09DM) 865859 (Phormidium rubidum A09DM) 171 171 6xwk-a1-m1-cBBB_6xwk-a1-m2-cBBB 6xwk-a1-m1-cBBB_6xwk-a1-m3-cBBB MFDAFTKVVSQADARGAYVTNDQIGALNQLVSDGNKRIDVVNRITSNASTIVADAARSLFADQPQLIAPGGAYTSRRMAACLRDMEIILRYVTYAIFTGDGSVMDDRCLNGLRETYVALGVPGASVAQGVSKMKQAAIAIANDRGGITQGDCSSLMSELSGYFDRAAAAVG MFDAFTKVVSQADARGAYVTNDQIGALNQLVSDGNKRIDVVNRITSNASTIVADAARSLFADQPQLIAPGGAYTSRRMAACLRDMEIILRYVTYAIFTGDGSVMDDRCLNGLRETYVALGVPGASVAQGVSKMKQAAIAIANDRGGITQGDCSSLMSELSGYFDRAAAAVG 6xwt-a1-m1-cA_6xwt-a1-m1-cC drosophila melanogaster CENP-A/H4 bound to N-terminal CAL1 fragment Q9V6Q2 Q9V6Q2 3.47 X-RAY DIFFRACTION 17 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 74 74 LIPKLPFSRLVREFIVKYSDDEPLRVTEGALLAMQESCEMYLTQRLADSYMLTKHRNRVTLEVRDMALMAYICD LIPKLPFSRLVREFIVKYSDDEPLRVTEGALLAMQESCEMYLTQRLADSYMLTKHRNRVTLEVRDMALMAYICD 6xwv-a1-m1-cD_6xwv-a1-m1-cC Crystal structure of drosophila melanogaster CENP-C bound to CAL1 Q9VHP9 Q9VHP9 2.27 X-RAY DIFFRACTION 103 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 123 131 6o2k-a1-m1-cA_6o2k-a1-m1-cB 6xwu-a1-m1-cA_6xwu-a1-m2-cA 6xwv-a1-m1-cB_6xwv-a1-m1-cA DEQEEASTKLMQWLRGVVSSANELIFYQVDGIDYAFYNTKEKAMLGYMRFKPYQKRSMKQAKVHPLKLLVQFGEFNVETLAVGEEKEVHSVLRVGDMIEIDRGTRYSIQNAIDKVSVLMCIRS DEQEEASTKLMQWLRGVGDAPPSASVSSANELIFYQVDGIDYAFYNTKEKAMLGYMRFKPYQKRSMKQAKVHPLKLLVQFGEFNVETLAVGEEKEVHSVLRVGDMIEIDRGTRYSIQNAIDKVSVLMCIRS 6xxw-a1-m1-cA_6xxw-a1-m4-cA Structure of beta-D-Glucuronidase for Dictyoglomus thermophilum. B5YFE0 B5YFE0 1.851 X-RAY DIFFRACTION 38 1.0 309799 (Dictyoglomus thermophilum H-6-12) 309799 (Dictyoglomus thermophilum H-6-12) 578 578 6xxw-a1-m2-cA_6xxw-a1-m3-cA MLYPKESETREVKDLSGVWEFRTESDKNYILMPVPASFNDITQDINLRDYVGRVYYKKSFFIPVYWKERNIFLRVGAAAHFSEVYVNGNLVTKHKGGFLPFEAEISKFVNYGQENIIEIMVDNTLTWDVLPPGELKVIEDEMHPKGYKVLNYYFDFFNYSGIHRPVVIYTTPKVYIKDFSVITELSNNSALVKYSIESEGNNFQVILRDKDKNIVAENFGKSGVLEVKNPKLWEPGNPYLYNLEIKLLEKDNFDIYRMDIGIRTVRVEGKQFLINEKPFYFKGFGKHEDSDIRGKGLDQVINIKDFNLLKWIGANSFRTSHYPYSEEILFLADQYGIAVIEEAPAVGLNLWNRNEKVFTEGRVDGKTLEHHLEIMRELIARDKNHPSVIMWSVANEAATYEDGAEEYFRRVIEETRRLDPTRPITIVENTKASETKVSKYVDVICVNRYYSWYTDSGDLSVIEYQLERDLREWYELYRKPIILSEFGADAISGFHSDPPLMFTEEYQQEMIKRFVGVLDRLDFVVGEHIWNFADFMTKQSITRVVGNKKGVFTRNRQPKMVAHFLKERWSKLPDFWEK MLYPKESETREVKDLSGVWEFRTESDKNYILMPVPASFNDITQDINLRDYVGRVYYKKSFFIPVYWKERNIFLRVGAAAHFSEVYVNGNLVTKHKGGFLPFEAEISKFVNYGQENIIEIMVDNTLTWDVLPPGELKVIEDEMHPKGYKVLNYYFDFFNYSGIHRPVVIYTTPKVYIKDFSVITELSNNSALVKYSIESEGNNFQVILRDKDKNIVAENFGKSGVLEVKNPKLWEPGNPYLYNLEIKLLEKDNFDIYRMDIGIRTVRVEGKQFLINEKPFYFKGFGKHEDSDIRGKGLDQVINIKDFNLLKWIGANSFRTSHYPYSEEILFLADQYGIAVIEEAPAVGLNLWNRNEKVFTEGRVDGKTLEHHLEIMRELIARDKNHPSVIMWSVANEAATYEDGAEEYFRRVIEETRRLDPTRPITIVENTKASETKVSKYVDVICVNRYYSWYTDSGDLSVIEYQLERDLREWYELYRKPIILSEFGADAISGFHSDPPLMFTEEYQQEMIKRFVGVLDRLDFVVGEHIWNFADFMTKQSITRVVGNKKGVFTRNRQPKMVAHFLKERWSKLPDFWEK 6xxw-a1-m2-cA_6xxw-a1-m4-cA Structure of beta-D-Glucuronidase for Dictyoglomus thermophilum. B5YFE0 B5YFE0 1.851 X-RAY DIFFRACTION 83 1.0 309799 (Dictyoglomus thermophilum H-6-12) 309799 (Dictyoglomus thermophilum H-6-12) 578 578 6xxw-a1-m1-cA_6xxw-a1-m3-cA MLYPKESETREVKDLSGVWEFRTESDKNYILMPVPASFNDITQDINLRDYVGRVYYKKSFFIPVYWKERNIFLRVGAAAHFSEVYVNGNLVTKHKGGFLPFEAEISKFVNYGQENIIEIMVDNTLTWDVLPPGELKVIEDEMHPKGYKVLNYYFDFFNYSGIHRPVVIYTTPKVYIKDFSVITELSNNSALVKYSIESEGNNFQVILRDKDKNIVAENFGKSGVLEVKNPKLWEPGNPYLYNLEIKLLEKDNFDIYRMDIGIRTVRVEGKQFLINEKPFYFKGFGKHEDSDIRGKGLDQVINIKDFNLLKWIGANSFRTSHYPYSEEILFLADQYGIAVIEEAPAVGLNLWNRNEKVFTEGRVDGKTLEHHLEIMRELIARDKNHPSVIMWSVANEAATYEDGAEEYFRRVIEETRRLDPTRPITIVENTKASETKVSKYVDVICVNRYYSWYTDSGDLSVIEYQLERDLREWYELYRKPIILSEFGADAISGFHSDPPLMFTEEYQQEMIKRFVGVLDRLDFVVGEHIWNFADFMTKQSITRVVGNKKGVFTRNRQPKMVAHFLKERWSKLPDFWEK MLYPKESETREVKDLSGVWEFRTESDKNYILMPVPASFNDITQDINLRDYVGRVYYKKSFFIPVYWKERNIFLRVGAAAHFSEVYVNGNLVTKHKGGFLPFEAEISKFVNYGQENIIEIMVDNTLTWDVLPPGELKVIEDEMHPKGYKVLNYYFDFFNYSGIHRPVVIYTTPKVYIKDFSVITELSNNSALVKYSIESEGNNFQVILRDKDKNIVAENFGKSGVLEVKNPKLWEPGNPYLYNLEIKLLEKDNFDIYRMDIGIRTVRVEGKQFLINEKPFYFKGFGKHEDSDIRGKGLDQVINIKDFNLLKWIGANSFRTSHYPYSEEILFLADQYGIAVIEEAPAVGLNLWNRNEKVFTEGRVDGKTLEHHLEIMRELIARDKNHPSVIMWSVANEAATYEDGAEEYFRRVIEETRRLDPTRPITIVENTKASETKVSKYVDVICVNRYYSWYTDSGDLSVIEYQLERDLREWYELYRKPIILSEFGADAISGFHSDPPLMFTEEYQQEMIKRFVGVLDRLDFVVGEHIWNFADFMTKQSITRVVGNKKGVFTRNRQPKMVAHFLKERWSKLPDFWEK 6xxw-a1-m3-cA_6xxw-a1-m4-cA Structure of beta-D-Glucuronidase for Dictyoglomus thermophilum. B5YFE0 B5YFE0 1.851 X-RAY DIFFRACTION 91 1.0 309799 (Dictyoglomus thermophilum H-6-12) 309799 (Dictyoglomus thermophilum H-6-12) 578 578 6xxw-a1-m1-cA_6xxw-a1-m2-cA MLYPKESETREVKDLSGVWEFRTESDKNYILMPVPASFNDITQDINLRDYVGRVYYKKSFFIPVYWKERNIFLRVGAAAHFSEVYVNGNLVTKHKGGFLPFEAEISKFVNYGQENIIEIMVDNTLTWDVLPPGELKVIEDEMHPKGYKVLNYYFDFFNYSGIHRPVVIYTTPKVYIKDFSVITELSNNSALVKYSIESEGNNFQVILRDKDKNIVAENFGKSGVLEVKNPKLWEPGNPYLYNLEIKLLEKDNFDIYRMDIGIRTVRVEGKQFLINEKPFYFKGFGKHEDSDIRGKGLDQVINIKDFNLLKWIGANSFRTSHYPYSEEILFLADQYGIAVIEEAPAVGLNLWNRNEKVFTEGRVDGKTLEHHLEIMRELIARDKNHPSVIMWSVANEAATYEDGAEEYFRRVIEETRRLDPTRPITIVENTKASETKVSKYVDVICVNRYYSWYTDSGDLSVIEYQLERDLREWYELYRKPIILSEFGADAISGFHSDPPLMFTEEYQQEMIKRFVGVLDRLDFVVGEHIWNFADFMTKQSITRVVGNKKGVFTRNRQPKMVAHFLKERWSKLPDFWEK MLYPKESETREVKDLSGVWEFRTESDKNYILMPVPASFNDITQDINLRDYVGRVYYKKSFFIPVYWKERNIFLRVGAAAHFSEVYVNGNLVTKHKGGFLPFEAEISKFVNYGQENIIEIMVDNTLTWDVLPPGELKVIEDEMHPKGYKVLNYYFDFFNYSGIHRPVVIYTTPKVYIKDFSVITELSNNSALVKYSIESEGNNFQVILRDKDKNIVAENFGKSGVLEVKNPKLWEPGNPYLYNLEIKLLEKDNFDIYRMDIGIRTVRVEGKQFLINEKPFYFKGFGKHEDSDIRGKGLDQVINIKDFNLLKWIGANSFRTSHYPYSEEILFLADQYGIAVIEEAPAVGLNLWNRNEKVFTEGRVDGKTLEHHLEIMRELIARDKNHPSVIMWSVANEAATYEDGAEEYFRRVIEETRRLDPTRPITIVENTKASETKVSKYVDVICVNRYYSWYTDSGDLSVIEYQLERDLREWYELYRKPIILSEFGADAISGFHSDPPLMFTEEYQQEMIKRFVGVLDRLDFVVGEHIWNFADFMTKQSITRVVGNKKGVFTRNRQPKMVAHFLKERWSKLPDFWEK 6xxy-a1-m1-cA_6xxy-a1-m1-cB Crystal structure of Haemophilus influenzae 3-isopropylmalate dehydrogenase in complex with O-isobutenyl oxalylhydroxamate. P43860 P43860 2.09 X-RAY DIFFRACTION 187 1.0 71421 (Haemophilus influenzae Rd KW20) 71421 (Haemophilus influenzae Rd KW20) 358 358 MESYNIAVLAGDGIGPEVMAEAIKVLNRVQEKFGFKLNFNEFFVGGAAIEHCGYPLPAETLKGCDQADAILFGSVGGPKWTNLPPDQQPERGALLPLRKHFKLFCNLRPATLYKGLEKFCPLRADIAAKGFDMVVVRELTGGIYFGQPKGREGDGVQTKAFDTEVYYKYEIERIARAAFEAAMKRNKKVTSVDKANVLQSSILWRETVTEMAKDYPEVTLEHIYIDNATMQLIKSPESFDVLLCSNIFGDIISDEAAMITGSMGMLPSASLNEEGFGLYEPAGGSAPDIAGKGIANPIAQILSAAMMLRYSFNLNEAADAIESAVQKVLASGHRTADLADDSTPVSTAEMGTLITQAI MESYNIAVLAGDGIGPEVMAEAIKVLNRVQEKFGFKLNFNEFFVGGAAIEHCGYPLPAETLKGCDQADAILFGSVGGPKWTNLPPDQQPERGALLPLRKHFKLFCNLRPATLYKGLEKFCPLRADIAAKGFDMVVVRELTGGIYFGQPKGREGDGVQTKAFDTEVYYKYEIERIARAAFEAAMKRNKKVTSVDKANVLQSSILWRETVTEMAKDYPEVTLEHIYIDNATMQLIKSPESFDVLLCSNIFGDIISDEAAMITGSMGMLPSASLNEEGFGLYEPAGGSAPDIAGKGIANPIAQILSAAMMLRYSFNLNEAADAIESAVQKVLASGHRTADLADDSTPVSTAEMGTLITQAI 6xxz-a1-m2-cA_6xxz-a1-m2-cB Crystal structure of a de novo designed parallel four-helix coiled coil, 2-EK-4 1.7 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6xxz-a1-m1-cA_6xxz-a1-m1-cB 6xxz-a1-m1-cA_6xxz-a1-m2-cB 6xxz-a1-m1-cB_6xxz-a1-m2-cA GEIKQQLAEIKQQLAEIKWQLAEIKQQLAG GEIKQQLAEIKQQLAEIKWQLAEIKQQLAG 6xy0-a1-m1-cA_6xy0-a1-m1-cD Crystal structure of a de novo designed parallel four-helix coiled coil, 3-EK-4 1.11 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6xy0-a1-m1-cB_6xy0-a1-m1-cC GAIQQELKAIQQELKAIQWELKAIQQELKG GAIQQELKAIQQELKAIQWELKAIQQELKG 6xy0-a1-m1-cB_6xy0-a1-m1-cD Crystal structure of a de novo designed parallel four-helix coiled coil, 3-EK-4 1.11 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6xy0-a1-m1-cA_6xy0-a1-m1-cC GAIQQELKAIQQELKAIQWELKAIQQELKG GAIQQELKAIQQELKAIQWELKAIQQELKG 6xy1-a1-m1-cB_6xy1-a1-m1-cD Crystal structure of a de novo designed parallel four-helix coiled coil, 4-KE-4. 1.5 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 6xy1-a1-m1-cA_6xy1-a1-m1-cB 6xy1-a1-m1-cA_6xy1-a1-m1-cC 6xy1-a1-m1-cC_6xy1-a1-m1-cD GEIQKQLKEIQKQLKEIQWQLKEIQKQLKG GEIQKQLKEIQKQLKEIQWQLKEIQKQLKG 6xy9-a1-m1-cB_6xy9-a1-m1-cA Crystal structure of haloalkane dehalogenase DbeA-M1 loop variant from Bradyrhizobium elkanii E2RV62 E2RV62 2.2 X-RAY DIFFRACTION 105 0.997 398524 (Bradyrhizobium elkanii USDA 94) 398524 (Bradyrhizobium elkanii USDA 94) 301 303 4k2a-a1-m1-cD_4k2a-a1-m1-cA 4k2a-a2-m1-cB_4k2a-a2-m1-cC ADISLHHRAVLGSTMAYRETGRSDAPHVLFLHGNPTSSYIWRNIMPLVAPVGHCIAPDLIGYGQSGKPDISYRFFDQADYLDALIDELGIASAYLVAQDWGTALAFHLAARRPQLVRGLAFMEFIRPMRDWSDFHQHDVAQDHAEAARETFRKFRTPGVGEAMILDNNAFVERVLPGSILRTLSEEEMAAYRAPFATRESRMPTLMLPRELPIAGEPADVTQALTAAHAALAASTYPKLLFVGSPGALVSPAFAAEFAKTLKHCAVIQLGAGGHYLQEDHPEAIGRSVAGWIAGIEAASAQ DISLHHRAVLGSTMAYRETGRSDAPHVLFLHGNPTSSYIWRNIMPLVAPVGHCIAPDLIGYGQSGKPDISYRFFDQADYLDALIDELGIASAYLVAQDWGTALAFHLAARRPQLVRGLAFMEFIRPMRDWSDFHQHDVAEQDHAEAARETFRKFRTPGVGEAMILDNNAFVERVLPGSILRTLSEEEMAAYRAPFATRESRMPTLMLPRELPIAGEPADVTQALTAAHAALAASTYPKLLFVGSPGALVSPAFAAEFAKTLKHCAVIQLGAGGHYLQEDHPEAIGRSVAGWIAGIEAASAQRH 6xyd-a1-m1-cA_6xyd-a1-m1-cC Crystal structure of Q4D6Q6, a conserved kinetoplastid-specific protein from Trypanosoma cruzi Q4D6Q6 Q4D6Q6 1.81 X-RAY DIFFRACTION 81 0.981 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 106 106 6xyb-a1-m1-cA_6xyb-a1-m1-cC 6xyb-a1-m1-cB_6xyb-a1-m1-cA 6xyb-a1-m1-cB_6xyb-a1-m1-cD 6xyb-a1-m1-cD_6xyb-a1-m1-cC 6xyd-a1-m1-cB_6xyd-a1-m1-cC 6xyd-a1-m1-cD_6xyd-a1-m1-cA 6xyd-a1-m1-cD_6xyd-a1-m1-cB HMPNLCVSATFNPPVITMLGSALREETVKLLEQRIPTGVSVKFLFYPNPDHWRMELSQHFDDLHKSAVFLTIIEGLEGEGWNLRASNSIRDSESGKDTTKLFFARR GSHMPNLCVSATFNPPVITMLGSALREETVKLLEQRIPTGVKFLFYPNPDHWRMELSQHFDDLHKSAVFLTIIEGLEGEGWNLRASNSIRDSESGKDTTKLFFARR 6xye-a1-m1-cD_6xye-a1-m1-cF Cryo-EM structure of the prefusion state of canine distemper virus fusion protein ectodomain Q9YKL7 Q9YKL7 4.3 ELECTRON MICROSCOPY 128 1.0 11232 () 11232 () 357 357 6xye-a1-m1-cB_6xye-a1-m1-cD 6xye-a1-m1-cB_6xye-a1-m1-cF GVVLAGAALGVATAAQITAGIALHQSNLNAQAIQSLRTSLEQSNKAIEEIREATQETVIAVQGVQDYVNNELVPAMQHMSCELVGQRLGLKLLRYYTELLSIFGPSLRDPISAEISIQALSYALGGEIHKILEKLGYSGNDMIAILESRGIKTKITHVDLPGKLIILSISYPTLSEVKGVIVHRLEAVSYNIGSQEWYTTVPRYVATNGYLISNFDESPCVFVSESAICSQNSLYPMSPLLQQCIRGDTSSCARTLVSGTMGNKFILSKGNIVANCASILCKCYSTGTIINQSPDKLLTFIASDTCPLVEIDGVTIQVGGRQYPDMVYESKVALGPAISLERLDVGTNLGNALKKLD GVVLAGAALGVATAAQITAGIALHQSNLNAQAIQSLRTSLEQSNKAIEEIREATQETVIAVQGVQDYVNNELVPAMQHMSCELVGQRLGLKLLRYYTELLSIFGPSLRDPISAEISIQALSYALGGEIHKILEKLGYSGNDMIAILESRGIKTKITHVDLPGKLIILSISYPTLSEVKGVIVHRLEAVSYNIGSQEWYTTVPRYVATNGYLISNFDESPCVFVSESAICSQNSLYPMSPLLQQCIRGDTSSCARTLVSGTMGNKFILSKGNIVANCASILCKCYSTGTIINQSPDKLLTFIASDTCPLVEIDGVTIQVGGRQYPDMVYESKVALGPAISLERLDVGTNLGNALKKLD 6xyj-a1-m1-cCCC_6xyj-a1-m1-cDDD Hfq from E.coli with inserted long loop L4 sequence A6VD57 A6VD57 2.772 X-RAY DIFFRACTION 55 1.0 381754 (Pseudomonas aeruginosa PA7) 381754 (Pseudomonas aeruginosa PA7) 79 80 6xyj-a1-m1-cAAA_6xyj-a1-m1-cBBB 6xyj-a1-m1-cAAA_6xyj-a1-m1-cDDD 6xyj-a1-m1-cCCC_6xyj-a1-m1-cFFF 6xyj-a1-m1-cEEE_6xyj-a1-m1-cBBB 6xyj-a1-m1-cEEE_6xyj-a1-m1-cFFF SLQDPYLNTLRKERVPVSIYLVNGIKLQGQIESFDQFVILLKNTAEEIQNGEVVRKVVSQMVYKHAISTVVPSRPVRLP HSLQDPYLNTLRKERVPVSIYLVNGIKLQGQIESFDQFVILLKNTAEEIQNGEVVRKVVSQMVYKHAISTVVPSRPVRLP 6xyo-a1-m1-cF_6xyo-a1-m1-cJ Multiple system atrophy Type I alpha-synuclein filament P37840 P37840 2.6 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 6xyo-a1-m1-cB_6xyo-a1-m1-cD 6xyo-a1-m1-cB_6xyo-a1-m1-cH 6xyp-a1-m1-cB_6xyp-a1-m1-cH KTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ KTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 6xyq-a1-m1-cB_6xyq-a1-m1-cF Multiple system atrophy Type II-2 alpha-synuclein filament P37840 P37840 3.09 ELECTRON MICROSCOPY 250 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 64 64 6xyo-a1-m1-cB_6xyo-a1-m1-cF 6xyo-a1-m1-cB_6xyo-a1-m1-cJ 6xyo-a1-m1-cD_6xyo-a1-m1-cF 6xyo-a1-m1-cH_6xyo-a1-m1-cJ 6xyp-a1-m1-cB_6xyp-a1-m1-cF 6xyp-a1-m1-cB_6xyp-a1-m1-cJ 6xyp-a1-m1-cD_6xyp-a1-m1-cF 6xyp-a1-m1-cH_6xyp-a1-m1-cJ 6xyq-a1-m1-cB_6xyq-a1-m1-cJ 6xyq-a1-m1-cD_6xyq-a1-m1-cF 6xyq-a1-m1-cH_6xyq-a1-m1-cJ GVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ GVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 6xyq-a1-m1-cC_6xyq-a1-m1-cE Multiple system atrophy Type II-2 alpha-synuclein filament P37840 P37840 3.09 ELECTRON MICROSCOPY 339 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 81 81 6xyp-a1-m1-cA_6xyp-a1-m1-cC 6xyp-a1-m1-cA_6xyp-a1-m1-cE 6xyp-a1-m1-cA_6xyp-a1-m1-cG 6xyp-a1-m1-cA_6xyp-a1-m1-cI 6xyp-a1-m1-cC_6xyp-a1-m1-cE 6xyp-a1-m1-cE_6xyp-a1-m1-cI 6xyp-a1-m1-cG_6xyp-a1-m1-cI 6xyq-a1-m1-cA_6xyq-a1-m1-cE 6xyq-a1-m1-cA_6xyq-a1-m1-cG 6xyq-a1-m1-cA_6xyq-a1-m1-cI 6xyq-a1-m1-cG_6xyq-a1-m1-cI GVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGF GVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGF 6xyu-a1-m1-cA_6xyu-a1-m2-cA Update of AChE from Drosophila Melanogaster complex with tacrine derivative 9-(3-iodobenzylamino)-1,2,3,4-tetrahydroacridine P07140 P07140 2.51 X-RAY DIFFRACTION 32 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 537 537 6xys-a1-m1-cA_6xys-a1-m2-cA 6xyy-a1-m1-cA_6xyy-a1-m2-cA DRLVVQTSSGPVRGRSVTVQGREVHVYTGIPYAKPPVEDLRFRKPVPAEPWHGVLDATGLSATCVQERYEYFPGFSGEEIWNPNTNVSEDCLYINVWAPATTNGLPILIWIYGGGFMTGSATLDIYNADIMAAVGNVIVASFQYRVGAFGFLHLAPEMPSEFAEEAPGNVGLWDQALAIRWLKDNAHAFGGNPEWMTLFGESAGSSSVNAQLMSPVTRGLVKRGMMQSGTMNAPWSHMTSEKAVEIGKALINDCNCNASMLKTNPAHVMSCMRSVDAKTISVQQWNSYSGILSFPSAPTIDGAFLPADPMTLMKTADLKDYDILMGNVRDEGTYFLLYDFIDYFDKDDATALPRDKYLEIMNNIFGKATQAEREAIIFQYTSWEGNPGYQNQQQIGRAVGDHFFTCPTNEYAQALAERGASVHYYYFTHRTSTSLWGEWMGVLHGDEIEYFFGQPLNNSLQYRPVERELGKRMLSAVIEFAKTGNPAQDGEEWPNFSKEDPVYYIFSTDDKIEKLARGPLAARCSFWNDYLPKVRSW DRLVVQTSSGPVRGRSVTVQGREVHVYTGIPYAKPPVEDLRFRKPVPAEPWHGVLDATGLSATCVQERYEYFPGFSGEEIWNPNTNVSEDCLYINVWAPATTNGLPILIWIYGGGFMTGSATLDIYNADIMAAVGNVIVASFQYRVGAFGFLHLAPEMPSEFAEEAPGNVGLWDQALAIRWLKDNAHAFGGNPEWMTLFGESAGSSSVNAQLMSPVTRGLVKRGMMQSGTMNAPWSHMTSEKAVEIGKALINDCNCNASMLKTNPAHVMSCMRSVDAKTISVQQWNSYSGILSFPSAPTIDGAFLPADPMTLMKTADLKDYDILMGNVRDEGTYFLLYDFIDYFDKDDATALPRDKYLEIMNNIFGKATQAEREAIIFQYTSWEGNPGYQNQQQIGRAVGDHFFTCPTNEYAQALAERGASVHYYYFTHRTSTSLWGEWMGVLHGDEIEYFFGQPLNNSLQYRPVERELGKRMLSAVIEFAKTGNPAQDGEEWPNFSKEDPVYYIFSTDDKIEKLARGPLAARCSFWNDYLPKVRSW 6xz4-a1-m1-cA_6xz4-a1-m1-cB Crystal structure of TLNRD1 Q9H1K6 Q9H1K6 2.3 X-RAY DIFFRACTION 87 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 304 304 6xz3-a1-m1-cA_6xz3-a1-m2-cA CKGKMQLVADLLLLSSEARPVLFEGPASSGAGAESFEQCRDTIIARTKGLSILTHDVQSQLNMGRFGEAGDSLVELGDLVVSLTECSAHAAYLAAVATPGAQPAQPGLVDRYRVTRCRHEVEQGCAVLRATPLADMTPQLLLEVSQGLSRNLKFLTDACALASDKSRDRFSREQFKLGVKCMSTSASALLACVREVKVAPSELARSRCALFSGPLVQAVSALVGFATEPQFLGRAAAVSAEGKAVQTAILGGAMSVVSACVLLTQCLRDLAQHPDGGAKMSDHRERLRNSACAVSEGCTLLSQA HCKGKMQLVADLLLLSSEARPVLFEGPASSGAGAESFEQCRDTIIARTKGLSILTHDVQSQLNMGRFGEAGDSLVELGDLVVSLTECSAHAAYLAAVATPGAQPAQPGLVDRYRVTRCRHEVEQGCAVLRATPLADMTPQLLLEVSQGLSRNLKFLTDACALASDKSRDRFSREQFKLGVKCMSTSASALLACVREVKVAPSELARSRCALFSGPLVQAVSALVGFATEPQFLGRAAAVSAEGKAVQTAILGGAMSVVSACVLLTQCLRDLAQHPDGGAKMSDHRERLRNSACAVSEGCTLLSQ 6xz5-a1-m1-cA_6xz5-a1-m6-cA RovC - regulator of virulence interconnected with the Csr system A0A0H3B5N9 A0A0H3B5N9 2.3 X-RAY DIFFRACTION 47 1.0 502800 (Yersinia pseudotuberculosis YPIII) 502800 (Yersinia pseudotuberculosis YPIII) 214 214 6xz5-a1-m2-cA_6xz5-a1-m3-cA 6xz5-a1-m4-cA_6xz5-a1-m5-cA KKLYNDFAWECLRRNPQYISDWELFMKNTLTNGGGIPSELIQSELDLNAEKKWGVMKYIDPYNSDPTNVFWSLKLSNRSVRVKLWGDMSNLPGVKHQRLLMHDNTLCVKIFSQNGYFQLFIXXXXXXXXXXXXXXXXXXXXXXXXXXKEEQYLGLLKTIDDRKQGFSHRDIASEIFGKELVKNEWSADSWVRAKIRYRIKKANALINYGYLNFL KKLYNDFAWECLRRNPQYISDWELFMKNTLTNGGGIPSELIQSELDLNAEKKWGVMKYIDPYNSDPTNVFWSLKLSNRSVRVKLWGDMSNLPGVKHQRLLMHDNTLCVKIFSQNGYFQLFIXXXXXXXXXXXXXXXXXXXXXXXXXXKEEQYLGLLKTIDDRKQGFSHRDIASEIFGKELVKNEWSADSWVRAKIRYRIKKANALINYGYLNFL 6xz5-a1-m5-cA_6xz5-a1-m6-cA RovC - regulator of virulence interconnected with the Csr system A0A0H3B5N9 A0A0H3B5N9 2.3 X-RAY DIFFRACTION 67 1.0 502800 (Yersinia pseudotuberculosis YPIII) 502800 (Yersinia pseudotuberculosis YPIII) 214 214 6xz5-a1-m1-cA_6xz5-a1-m2-cA 6xz5-a1-m3-cA_6xz5-a1-m4-cA KKLYNDFAWECLRRNPQYISDWELFMKNTLTNGGGIPSELIQSELDLNAEKKWGVMKYIDPYNSDPTNVFWSLKLSNRSVRVKLWGDMSNLPGVKHQRLLMHDNTLCVKIFSQNGYFQLFIXXXXXXXXXXXXXXXXXXXXXXXXXXKEEQYLGLLKTIDDRKQGFSHRDIASEIFGKELVKNEWSADSWVRAKIRYRIKKANALINYGYLNFL KKLYNDFAWECLRRNPQYISDWELFMKNTLTNGGGIPSELIQSELDLNAEKKWGVMKYIDPYNSDPTNVFWSLKLSNRSVRVKLWGDMSNLPGVKHQRLLMHDNTLCVKIFSQNGYFQLFIXXXXXXXXXXXXXXXXXXXXXXXXXXKEEQYLGLLKTIDDRKQGFSHRDIASEIFGKELVKNEWSADSWVRAKIRYRIKKANALINYGYLNFL 6xzr-a1-m1-cFP1_6xzr-a1-m1-cCP1 Influenza C virus polymerase in complex with chicken ANP32A - Subclass 1 Q9IMP3 Q9IMP3 3.3 ELECTRON MICROSCOPY 19 1.0 100673 (Influenza C virus (C/Johannesburg/1/66)) 100673 (Influenza C virus (C/Johannesburg/1/66)) 599 772 6xzd-a1-m1-cFP1_6xzd-a1-m1-cCP1 6xzg-a1-m1-cFP1_6xzg-a1-m1-cCP1 6xzp-a1-m1-cFP1_6xzp-a1-m1-cCP1 6xzq-a1-m1-cF_6xzq-a1-m1-cC KFPIIANKRMLEEAQIPKEHNNVALWVLASASCINYWNFCGPCVNNSEVIKEVYKSRFGRLERRKEIMWKELRFTLVDPERMELIHALGGETWIQEANTAGISNVDQRKNDIRAVCRKVCLAANASIMNAKSKLVEYIKSTSMRIGETERKLEELILETDDVSPEVTLCKSALGGQLGKTLSFGPMLLKKISGSGVKVKDTVYIQGVRAVQFEYWSEQEEFYGEYKSATALFSRKERSLEWITIGGGINEDRKRLLAMCMIFCRDGDYFKDAPATITMADLSTKLGREIPYQYVMMNWIQKSEDNLEALLYSRGIVETNPGKMGSSMGIDGSKRAIKSLRAVTIQSGKIDMPESKEKIHLELSDNLEAFDSSGRIVATILDLPSDKKVTFQDVSFQHPDLAVLRDEKTAITKGYEALIKRLGTGDNDIPSLIAKKDYLSLYNLPEVKLMAPLIRPNRKGVYSRVARKLVSTQVTTGHYSLHELIKVLPFTYFAPKQGMFEGRLFFSNDSFVEPGVNNNVFSWSKADSSKIYCHGIAIRVPLVVGDEHMDTSLALLEGFSVCENDPRAPMVTRQDLIDVGFGQKVRLFVGQGSVRTFKRT MSLLLTIAKEYKRLCQDAKAAQMMTVGTVSNYTTFKKWTTSRKEKNPSLRMRWAMSSKFPIIANKRMLEEAQIPKEHNNVALWEDTEDVSKRDHVLASASCINYWNFCGPCVNNSEVIKEVYKSRFGRLERRKEIMWKELRFTLVDRQRRRVDTQPVEQRLRTGEIKDLQMWTLFEDEAPLASKFILDNYGLVKEMRSKFANKPLNKEVVAHMLEKQFNPESRFLPVFGAIRPERMELIHALGGETWIQEANTAGISNVDQRKNDIRAVCRKVCLAANASIMNAKSKLVEYIKSTSMRIGETERKLEELILETDDVSPEVTLCKSALGGQLGKTLSFGPMLLKKISGSGVKVKDTVYIQGVRAVQFEYWSEQEEFYGEYKSATALFSRKERSLEWITIGGGINEDRKRLLAMCMIFCRDGDYFKDAPATITMADLSTKLGREIPYQYVMMNWIQKSEDNLEALLYSRGIVETNPGKMGSSMGIDGSKRAIKSLRAVTIQSGKIDMPESKEKIHLELSDNLEAFDSSGRIVATILDLPSDKKVTFQDVSFQHPDLAVLRDEKTAITKGYEALIKRLGTGDNDIPSLIAKKDYLSLYNLPEVKLMAPLIRPNRKGVYSRVARKLVSTQVTTGHYSLHELIKVLPFTYFAPKQGMFEGRLFFSNDSFVEPGVNNNVFSWSKADSSKIYCHGIAIRVPLVVGDEHMDTSLALLEGFSVCENDPRAPMVTRQDLIDVGFGQKVRLFVGQGSVRTFKRTASQRAASSDVNKNVKKIKM 6y01-a1-m1-cAAA_6y01-a1-m1-cDDD The structure of the molybdenum cofactor binding protein from the phototrophic bacterium Rippkaea orientalis B7K4Z0 B7K4Z0 1.23 X-RAY DIFFRACTION 14 1.0 41431 (Rippkaea orientalis PCC 8801) 41431 (Rippkaea orientalis PCC 8801) 164 166 6y01-a1-m1-cCCC_6y01-a1-m1-cBBB SMRKPIIGVMGPGEQATPTDLKNAYQLGQLIALEGWVLLTGGRNVGVMEHASQGAKKAEGLTIGILPSKNTHNVSDAVDIAIVTGLGNARNNINVLSSDVVIACGIGLGTLSEVALALKNQKPVILLNDDLLSQELFANLSNNQVWIASSPENCIELIKSIITV SMRKPIIGVMGPGEQATPTDLKNAYQLGQLIALEGWVLLTGGRNVGVMEHASQGAKKAEGLTIGILPSKNTHNVSDAVDIAIVTGLGNARNNINVLSSDVVIACGIGLGTLSEVALALKNQKPVILLNDDLLSQELFANLSNNQVWIASSPENCIELIKSIITVKL 6y01-a1-m1-cBBB_6y01-a1-m1-cDDD The structure of the molybdenum cofactor binding protein from the phototrophic bacterium Rippkaea orientalis B7K4Z0 B7K4Z0 1.23 X-RAY DIFFRACTION 64 1.0 41431 (Rippkaea orientalis PCC 8801) 41431 (Rippkaea orientalis PCC 8801) 165 166 6y01-a1-m1-cCCC_6y01-a1-m1-cAAA SMRKPIIGVMGPGEQATPTDLKNAYQLGQLIALEGWVLLTGGRNVGVMEHASQGAKKAEGLTIGILPSKNTHNVSDAVDIAIVTGLGNARNNINVLSSDVVIACGIGLGTLSEVALALKNQKPVILLNDDLLSQELFANLSNNQVWIASSPENCIELIKSIITVK SMRKPIIGVMGPGEQATPTDLKNAYQLGQLIALEGWVLLTGGRNVGVMEHASQGAKKAEGLTIGILPSKNTHNVSDAVDIAIVTGLGNARNNINVLSSDVVIACGIGLGTLSEVALALKNQKPVILLNDDLLSQELFANLSNNQVWIASSPENCIELIKSIITVKL 6y01-a1-m1-cCCC_6y01-a1-m1-cDDD The structure of the molybdenum cofactor binding protein from the phototrophic bacterium Rippkaea orientalis B7K4Z0 B7K4Z0 1.23 X-RAY DIFFRACTION 78 1.0 41431 (Rippkaea orientalis PCC 8801) 41431 (Rippkaea orientalis PCC 8801) 163 166 6y01-a1-m1-cAAA_6y01-a1-m1-cBBB SMRKPIIGVMGPGEQATPTDLKNAYQLGQLIALEGWVLLTGGRNVGVMEHASQGAKKAEGLTIGILPSKNTHNVSDAVDIAIVTGLGNARNNINVLSSDVVIACGIGLGTLSEVALALKNQKPVILLNDDLLSQELFANLSNNQVWIASSPENCIELIKSIIT SMRKPIIGVMGPGEQATPTDLKNAYQLGQLIALEGWVLLTGGRNVGVMEHASQGAKKAEGLTIGILPSKNTHNVSDAVDIAIVTGLGNARNNINVLSSDVVIACGIGLGTLSEVALALKNQKPVILLNDDLLSQELFANLSNNQVWIASSPENCIELIKSIITVKL 6y04-a1-m1-cA_6y04-a1-m1-cB Crystal structure of beta-carbonic anhydrase isoform I (TvaCA1) from the Trichomonas vaginalis protozoan. A2ENQ8 A2ENQ8 2.48 X-RAY DIFFRACTION 298 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 182 182 MSQLELITSANQAFLEANPELTKLNKAPQRHIAIVTCMDTRLVNFAEDAIGVKRGEATVIKAAGNGIWTTGLSDIVVSLLVSIYELGVQEIFIMGHECCGMTHASTDSLGAQMLKSGIKPEDIEKFKSDLSKWVDDFKDPIDNIKNSVRCVRENPLIPKNIPIHGLLIHPDTGKVTTIINGY MSQLELITSANQAFLEANPELTKLNKAPQRHIAIVTCMDTRLVNFAEDAIGVKRGEATVIKAAGNGIWTTGLSDIVVSLLVSIYELGVQEIFIMGHECCGMTHASTDSLGAQMLKSGIKPEDIEKFKSDLSKWVDDFKDPIDNIKNSVRCVRENPLIPKNIPIHGLLIHPDTGKVTTIINGY 6y0k-a1-m1-cAAA_6y0k-a1-m2-cAAA Sulfite oxidase from Thermus thermophilus with coordinated phosphate Q5SIP4 Q5SIP4 1.7 X-RAY DIFFRACTION 138 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 377 377 APTADQLVKGKNPKLLVLSQRPIVLETPYDLLVSQPERTPKEILYIRNNVDLPGYNTVEGASLDGWKVEVGGLVDKPFTFEAKELLELPQHEVTMVLQCSGNGRSLFQPRTSGNPWKRGGVGNVTFRGVRLKDLLEAKGVKLGEKALYITAHASRQGNAPEFVRSVPIHALGHALLALSMNGEPLPAVHGGPIRLVFPGYFGVNNVKWVQKIEFTEAENTTAEQMPRYRVPAIPNANIPFLPQEPGKTYPYSFTNSRPNWLVAINSFIFAPLEGQTVEGPYVRVEGVAFNDGIVPLVSVEVSANGGRTWQQARLERQEKSFGWVRWQATLYLRPGEHEVMARAWDAVGRSQPLDGNIAWNERGYEYNGVMRVKFTVA APTADQLVKGKNPKLLVLSQRPIVLETPYDLLVSQPERTPKEILYIRNNVDLPGYNTVEGASLDGWKVEVGGLVDKPFTFEAKELLELPQHEVTMVLQCSGNGRSLFQPRTSGNPWKRGGVGNVTFRGVRLKDLLEAKGVKLGEKALYITAHASRQGNAPEFVRSVPIHALGHALLALSMNGEPLPAVHGGPIRLVFPGYFGVNNVKWVQKIEFTEAENTTAEQMPRYRVPAIPNANIPFLPQEPGKTYPYSFTNSRPNWLVAINSFIFAPLEGQTVEGPYVRVEGVAFNDGIVPLVSVEVSANGGRTWQQARLERQEKSFGWVRWQATLYLRPGEHEVMARAWDAVGRSQPLDGNIAWNERGYEYNGVMRVKFTVA 6y1r-a1-m1-cB_6y1r-a1-m1-cA Nb22-LBT 1.85 X-RAY DIFFRACTION 11 1.0 9844 (Lama glama) 9844 (Lama glama) 129 141 VQLQESGGGLVQAGGSLRLSCAASGGMAWFRQAGYIDTNNDGWIEGDELYKAREFAAGISWSGGSTDYEDSVKGRFTISRDNAKNTMYLQMNSLKPEDTAVYYCAAARVVTRADDVDYWGKGTQVTVSS QVQLQESGGGLVQAGGSLRLSCAASGGTFKSGGMAWFRQAGYIDTNNDGWIEGDELYKAREFAAGISWSGGSTDYEDSVKGRFTISRDNAKNTMYLQMNSLKPEDTAVYYCAAARRFRAGVVTRADDVDYWGKGTQVTVSS 6y1r-a1-m1-cC_6y1r-a1-m1-cB Nb22-LBT 1.85 X-RAY DIFFRACTION 47 1.0 9844 (Lama glama) 9844 (Lama glama) 141 129 QVQLQESGGGLVQAGGSLRLSCAASGGTFKSGGMAWFRQAGYIDTNNDGWIEGDELYKAREFAAGISWSGGSTDYEDSVKGRFTISRDNAKNTMYLQMNSLKPEDTAVYYCAAARRFRAGVVTRADDVDYWGKGTQVTVSS VQLQESGGGLVQAGGSLRLSCAASGGMAWFRQAGYIDTNNDGWIEGDELYKAREFAAGISWSGGSTDYEDSVKGRFTISRDNAKNTMYLQMNSLKPEDTAVYYCAAARVVTRADDVDYWGKGTQVTVSS 6y1w-a1-m1-cB_6y1w-a1-m1-cA Xcc4156, a flavin-dependent halogenase from Xanthomonas campestris B0RXY9 B0RXY9 1.6 X-RAY DIFFRACTION 97 1.0 509169 (Xanthomonas campestris pv. campestris str. B100) 509169 (Xanthomonas campestris pv. campestris str. B100) 493 505 RLVRRVVIAGGGTAGWMAAAALSKLLGRQLQITLVESDEIGTVGVGEATIPSLVTFHRLLEIDEAQFMAATQATFKVGIAFEHWRDVDRHYIHSFGHTGTDHWSAGFQHFWLKAHARGVARDFGDYCLELRAAQEGRFAHLPNGGMNYAYHLDAGLYARFLRRFSEGFGVQRIEGRIGSVQTDAHSGDIAALVLDDGTRIEGDLFLDCTGFRALLIGQTLGVGSEDWSRWLFADSALAVQTESVGAPVTFTRARADRAGWMWRIPLQHRVGNGIVYSSRYTDQDSAAQVLEHNLQGRALTTPRALRFTPNQRHRVWEKNCVALGLASGFLEPIESTNIHLIQRGIVRLLQTFPQVIDPVDIAEYNRQAAEEIAHIRDFVILHYHATDRRDTAFWRDCASMEIPDSLRHRMELFRQSGRVFHQGNELFAENSWIQVMLGQGIVPRHHHPVADLMGDAELSQFLEGIRQRVEATLARLPPHAEFLRRYCPAPAPP PSESQRLVRRVVIAGGGTAGWMAAAALSKLLGRQLQITLVESDEIGTVGVGEATIPSLVTFHRLLEIDEAQFMAATQATFKVGIAFEHWRDVDRHYIHSFGHTGTDHWSAGFQHFWLKAHARGVARDFGDYCLELRAAQEGRFAHLPNGGMNYAYHLDAGLYARFLRRFSEGFGVQRIEGRIGSVQTDAHSGDIAALVLDDGTRIEGDLFLDCTGFRALLIGQTLGVGSEDWSRWLFADSALAVQTESVGAPVTFTRARADRAGWMWRIPLQHRVGNGIVYSSRYTDQDSAAQVLEHNLQGRALTTPRALRFTPNQRHRVWEKNCVALGLASGFLEPIESTNIHLIQRGIVRLLQTFPQVIDPVDIAEYNRQAAEEIAHIRDFVILHYHATDRRDTAFWRDCASMEIPDSLRHRMELFRQSGRVFHQGNELFAENSWIQVMLGQGIVPRHHHPVADLMGDAELSQFLEGIRQRVEATLARLPPHAEFLRRYCPAPAPPAPMPQPA 6y1y-a1-m1-cA_6y1y-a1-m1-cB CheA dimerization domain of Treponema denticola O85747 O85747 1.5 X-RAY DIFFRACTION 161 1.0 158 (Treponema denticola) 158 (Treponema denticola) 125 128 VDANRIDYLLNLVSETVITKASLNQSTIEFAELYDKFQNSSTIYKDKTRRLLDKMPEYLEKIQQGYDINSIKQDVLNEYSSLLEVFGDFDSLMKAAVTKFKSSSQNLGRISGELQEGVMKIRMVP ILRVDANRIDYLLNLVSETVITKASLNQSTIEFAELYDKFQNSSTIYKDKTRRLLDKMPEYLEKIQQGYDINSIKQDVLNEYSSLLEVFGDFDSLMKAAVTKFKSSSQNLGRISGELQEGVMKIRMVP 6y20-a1-m1-cB_6y20-a1-m1-cA Crystal structure of Protein Scalloped (222-440) bound to Protein Vestigial (298-337) P30052 P30052 1.849 X-RAY DIFFRACTION 52 0.995 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 208 212 RAIATHKFRLLEFTAFMEIQRDEIYHRHLFVQLGSFSDPLLETVDIRQIFDKFPEKSGGLKDLYEKGPQNAFYLVKCWADLNTDLDFYGVTSQYESNENVVLVCSTIVCSFGKQVVEKVESEYSRLENNRYVYRIQRSPMCEYMINFIQKLKNLPERYMMNSVLENFTILQVMRARETQETLLCIAYVFEVAAQNSGTTHHIYRLIKE GRAIATHKFRLLEFTAFMEIQRDEIYHRHLFVQLGGKPSFSDPLLETVDIRQIFDKFPEKSGGLKDLYEKGPQNAFYLVKCWADLNTDLGDFYGVTSQYESNENVVLVCSTIVCSFGKQVVEVESEYSRLENNRYVYRIQRSPMCEYMINFIQKLKNLPERYMMNSVLENFTILQVMRARETQETLLCIAYVFEVAAQNSGTTHHIYRLIKE 6y2k-a1-m3-cA_6y2k-a1-m6-cA Crystal structure of beta-galactosidase from the psychrophilic Marinomonas ef1 1.9 X-RAY DIFFRACTION 59 1.0 2005043 (Marinomonas sp. ef1) 2005043 (Marinomonas sp. ef1) 656 656 6y2k-a1-m1-cA_6y2k-a1-m5-cA 6y2k-a1-m2-cA_6y2k-a1-m4-cA MKLGVCYYPEHWPKSRWVEDAQHMRRIGIQYVRVGEFSWSTIEPTPGELHWEWLDESLDILHSQGLKVILGTPTATPPKWLVDRHPSMLAKDEAGRVRGFGSRRHYTFASLEYREECRRMVTMMAERYGHHPAVASWQTDNEYGCHDTVLSYAEADLAAFRLWLAEKYGTVEALNKAWGNVFWSMDYRSFDEIELPNLTVTEANPSHRLDFQRCCSDQVVAFNKLQVDILREHSAGRDLVHNYMGFFTAFDHHKVGQDLDVASWDSYPLGSLDKEPLYTEDEKHTYLRVGHPDAGAFHHDLYRGCGNGRLWIMEQQPGPVNWAPHNPTPADGAVRLWTWEAFSHGAELVSYFRWRQAPFGQEQMHAGLLRPDAQEAEAAKEATLVAQEVKVLAESIGLDADELMSLPSAGKVALMFDYDACWSLDIQPQSRAYRYFFWCYRMYEAMRELGLSVDIVPSNAPLDMYELLVLPAQAHITPELQNRLNSYQGVLLAGPRTGSKTETYQIPENLAPGPLASLLPLTVERVDALPEHTQPAVSGRWGAGKLKHWHEQIKTELPCLLKDDGGNPVLMGEGRHYYLGSCIDNTLLKASLAKLSEVAGLSTYYLPKGVRVRERGNVIFAFNYSSNTVVFEPQNAELVIGSMCLGAADVAIWKKQ MKLGVCYYPEHWPKSRWVEDAQHMRRIGIQYVRVGEFSWSTIEPTPGELHWEWLDESLDILHSQGLKVILGTPTATPPKWLVDRHPSMLAKDEAGRVRGFGSRRHYTFASLEYREECRRMVTMMAERYGHHPAVASWQTDNEYGCHDTVLSYAEADLAAFRLWLAEKYGTVEALNKAWGNVFWSMDYRSFDEIELPNLTVTEANPSHRLDFQRCCSDQVVAFNKLQVDILREHSAGRDLVHNYMGFFTAFDHHKVGQDLDVASWDSYPLGSLDKEPLYTEDEKHTYLRVGHPDAGAFHHDLYRGCGNGRLWIMEQQPGPVNWAPHNPTPADGAVRLWTWEAFSHGAELVSYFRWRQAPFGQEQMHAGLLRPDAQEAEAAKEATLVAQEVKVLAESIGLDADELMSLPSAGKVALMFDYDACWSLDIQPQSRAYRYFFWCYRMYEAMRELGLSVDIVPSNAPLDMYELLVLPAQAHITPELQNRLNSYQGVLLAGPRTGSKTETYQIPENLAPGPLASLLPLTVERVDALPEHTQPAVSGRWGAGKLKHWHEQIKTELPCLLKDDGGNPVLMGEGRHYYLGSCIDNTLLKASLAKLSEVAGLSTYYLPKGVRVRERGNVIFAFNYSSNTVVFEPQNAELVIGSMCLGAADVAIWKKQ 6y2k-a1-m5-cA_6y2k-a1-m6-cA Crystal structure of beta-galactosidase from the psychrophilic Marinomonas ef1 1.9 X-RAY DIFFRACTION 160 1.0 2005043 (Marinomonas sp. ef1) 2005043 (Marinomonas sp. ef1) 656 656 6y2k-a1-m1-cA_6y2k-a1-m2-cA 6y2k-a1-m1-cA_6y2k-a1-m3-cA 6y2k-a1-m2-cA_6y2k-a1-m3-cA 6y2k-a1-m4-cA_6y2k-a1-m5-cA 6y2k-a1-m4-cA_6y2k-a1-m6-cA MKLGVCYYPEHWPKSRWVEDAQHMRRIGIQYVRVGEFSWSTIEPTPGELHWEWLDESLDILHSQGLKVILGTPTATPPKWLVDRHPSMLAKDEAGRVRGFGSRRHYTFASLEYREECRRMVTMMAERYGHHPAVASWQTDNEYGCHDTVLSYAEADLAAFRLWLAEKYGTVEALNKAWGNVFWSMDYRSFDEIELPNLTVTEANPSHRLDFQRCCSDQVVAFNKLQVDILREHSAGRDLVHNYMGFFTAFDHHKVGQDLDVASWDSYPLGSLDKEPLYTEDEKHTYLRVGHPDAGAFHHDLYRGCGNGRLWIMEQQPGPVNWAPHNPTPADGAVRLWTWEAFSHGAELVSYFRWRQAPFGQEQMHAGLLRPDAQEAEAAKEATLVAQEVKVLAESIGLDADELMSLPSAGKVALMFDYDACWSLDIQPQSRAYRYFFWCYRMYEAMRELGLSVDIVPSNAPLDMYELLVLPAQAHITPELQNRLNSYQGVLLAGPRTGSKTETYQIPENLAPGPLASLLPLTVERVDALPEHTQPAVSGRWGAGKLKHWHEQIKTELPCLLKDDGGNPVLMGEGRHYYLGSCIDNTLLKASLAKLSEVAGLSTYYLPKGVRVRERGNVIFAFNYSSNTVVFEPQNAELVIGSMCLGAADVAIWKKQ MKLGVCYYPEHWPKSRWVEDAQHMRRIGIQYVRVGEFSWSTIEPTPGELHWEWLDESLDILHSQGLKVILGTPTATPPKWLVDRHPSMLAKDEAGRVRGFGSRRHYTFASLEYREECRRMVTMMAERYGHHPAVASWQTDNEYGCHDTVLSYAEADLAAFRLWLAEKYGTVEALNKAWGNVFWSMDYRSFDEIELPNLTVTEANPSHRLDFQRCCSDQVVAFNKLQVDILREHSAGRDLVHNYMGFFTAFDHHKVGQDLDVASWDSYPLGSLDKEPLYTEDEKHTYLRVGHPDAGAFHHDLYRGCGNGRLWIMEQQPGPVNWAPHNPTPADGAVRLWTWEAFSHGAELVSYFRWRQAPFGQEQMHAGLLRPDAQEAEAAKEATLVAQEVKVLAESIGLDADELMSLPSAGKVALMFDYDACWSLDIQPQSRAYRYFFWCYRMYEAMRELGLSVDIVPSNAPLDMYELLVLPAQAHITPELQNRLNSYQGVLLAGPRTGSKTETYQIPENLAPGPLASLLPLTVERVDALPEHTQPAVSGRWGAGKLKHWHEQIKTELPCLLKDDGGNPVLMGEGRHYYLGSCIDNTLLKASLAKLSEVAGLSTYYLPKGVRVRERGNVIFAFNYSSNTVVFEPQNAELVIGSMCLGAADVAIWKKQ 6y2n-a1-m1-cA_6y2n-a1-m2-cA Crystal structure of ribonucleotide reductase R2 subunit solved by serial synchrotron crystallography A4F980 A4F980 2.4 X-RAY DIFFRACTION 124 1.0 405948 (Saccharopolyspora erythraea NRRL 2338) 405948 (Saccharopolyspora erythraea NRRL 2338) 306 306 GRVDVAEKAMINSRADVNQLLPLKYGWAWEKYLAGCNNHWMPTEVSMQADIALWKSRDGLTDDERMMLKRNLGFFATAESLVANNIVLAVYRHITNPECRQYLLRQAFEEAVHTHTFQYICESLGLDEGELFNMYREIPSISDKDAWALRYTQNLENPIGTPEADQAFLRDLVAFYVIFEGMWFYTGFAQILSLGRRNKMVGIAEQYQYILRDESIHLNFGIDCINQIKIENPHLWTPEFQEEVRTMLTEACELEVAYGRDTMPRGILGLNAGLCEEYMRFITNRRCAQLGLEPVFPETANPFPWM GRVDVAEKAMINSRADVNQLLPLKYGWAWEKYLAGCNNHWMPTEVSMQADIALWKSRDGLTDDERMMLKRNLGFFATAESLVANNIVLAVYRHITNPECRQYLLRQAFEEAVHTHTFQYICESLGLDEGELFNMYREIPSISDKDAWALRYTQNLENPIGTPEADQAFLRDLVAFYVIFEGMWFYTGFAQILSLGRRNKMVGIAEQYQYILRDESIHLNFGIDCINQIKIENPHLWTPEFQEEVRTMLTEACELEVAYGRDTMPRGILGLNAGLCEEYMRFITNRRCAQLGLEPVFPETANPFPWM 6y2p-a1-m1-cB_6y2p-a1-m1-cA Escherichia coli RnlA-RnlB Toxin-Antitoxin System. P52129 P52129 2.64 X-RAY DIFFRACTION 273 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 348 355 RSYKNLNLVRANIETESRQFIEQSIGPMPGSRAGLRVVFTRPGVNLATVDIFYNGDGSTTIQYLTGANRSLGQELADHLFETINPAEFEQVNMVLQGFVETSVLPVLELSADESHIEFREHSRNAHTVVWKIISTSYQDELTVSLHITTGKLQIQGRPLSCYRVFTFNLAALLDLQGLEKVLIRQEDGKANIVQQEVARTYLQTVMADAYPHLHVTAEKLLVSGLCVKLAAPDLPDYCMLLYPELRTIEGVLKSKMSGLGMPVQQPAGFGTYFDKPAAHYILKPQFAATLRPEQINIISTAYTFFNVERHSLFHMETVVDASRMISDMARLMGKATRAWGIIKDLYIV IRSYKNLNLVRANIETESRQFIENKNYSIQSIGPMPGSRAGLRVVFTRPGVNLATVDIFYNGDGSTTIQYLTGANRSLGQELADHLFETINPAEFEQVNMVLQGFVETSVLPVLELSADESHIEFREHSRNAHTVVWKIISTSYQDELTVSLHITTGKLQIQGRPLSCYRVFTFNLAALLDLQGLEKVLIRQEDGKANIVQQEVARTYLQTVMADAYPHLHVTAEKLLVSGLCVKLAAPDLPDYCMLLYPELRTIEGVLKSKMSGLGMPVQQPAGFGTYFDKPAAHYILKPQFAATLRPEQINIISTAYTFFNVERHSLFHMETVVDASRMISDMARLMGKATRAWGIIKDLYIV 6y2q-a1-m1-cA_6y2q-a1-m1-cB Escherichia coli RnlA endoribonuclease P52129 P52129 2.99 X-RAY DIFFRACTION 57 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 346 346 4i8o-a3-m1-cA_4i8o-a3-m2-cB 6y2r-a1-m1-cB_6y2r-a1-m1-cA 6y2s-a1-m1-cB_6y2s-a1-m1-cA 7aex-a1-m1-cA_7aex-a1-m2-cA IRSYKNLNLVRANIETESRQFIENKNYSIQSIGPMPGSRAGLRVVFTRPGVNLATVDIFYNGDGSTTIQYLTGANRSLGQELADHLFETINPAEFEQVNMVLQGFVETSVLPVLELSADESHIEFREHSRNAHTVVWKIISTSYQDELTVSLHITTGKLQIQGRPLSCYRVFTFNLAALLDLQGLEKVLIRQEDGKANIVQQEVARTYLQTVMADAYPHLHVTAEKLLVSGLCVKLAAPDLPDYCMLLYPELRTIEGVLKSKMSGLGMPVQQPAGFGTYFDKPAAHYILKPQFAATLRPEQINIISTAYTFFNVERHSLFHMETDMARLMGKATRAWGIIKDLYIV IRSYKNLNLVRANIETESRQFIENKNYSIQSIGPMPGSRAGLRVVFTRPGVNLATVDIFYNGDGSTTIQYLTGANRSLGQELADHLFETINPAEFEQVNMVLQGFVETSVLPVLELSADESHIEFREHSRNAHTVVWKIISTSYQDELTVSLHITTGKLQIQGRPLSCYRVFTFNLAALLDLQGLEKVLIRQEDGKANIVQQEVARTYLQTVMADAYPHLHVTAEKLLVSGLCVKLAAPDLPDYCMLLYPELRTIEGVLKSKMSGLGMPVQQPAGFGTYFDKPAAHYILKPQFAATLRPEQINIISTAYTFFNVERHSLFHMETDMARLMGKATRAWGIIKDLYIV 6y38-a1-m1-cA_6y38-a1-m1-cB Crystal structure of Whirlin PDZ3 in complex with Myosin 15a C-terminal PDZ binding motif peptide Q80VW5 Q80VW5 1.697 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 91 92 TSTLVRVRKSAATLGIAIEGGANTRQPLPRIVTIQRGGSAHNCGQLKVGHVILEVNGQTLRGKEHKEAARIIAEAFKTKERDYIDFLVTEF PTSTLVRVRKSAATLGIAIEGGANTRQPLPRIVTIQRGGSAHNCGQLKVGHVILEVNGQTLRGKEHKEAARIIAEAFKTKERDYIDFLVTEF 6y3d-a1-m1-cEEE_6y3d-a1-m1-cKKK X-ray structure of thermophilic C-phycocyanin from Galdiera phlegrea O19910 O19910 1.8 X-RAY DIFFRACTION 21 1.0 2771 (Cyanidium caldarium) 2771 (Cyanidium caldarium) 162 162 6y3d-a1-m1-cAAA_6y3d-a1-m1-cCCC 6y3d-a1-m1-cGGG_6y3d-a1-m1-cIII MKTPITEAIATADSQGRFLSNTELQSCAGRFQRAGASLDAARSLTANAQRLIDGAAQAVYSKFPYTTQMTGPCYASSAIGKAKCSRDIGYYLRMVTYCLVAGGTGPMDEYLVAGLEEINRTFDLSPSWYVEALKNIKASHGLSGAAASEANAYINYAINSLS MKTPITEAIATADSQGRFLSNTELQSCAGRFQRAGASLDAARSLTANAQRLIDGAAQAVYSKFPYTTQMTGPCYASSAIGKAKCSRDIGYYLRMVTYCLVAGGTGPMDEYLVAGLEEINRTFDLSPSWYVEALKNIKASHGLSGAAASEANAYINYAINSLS 6y3d-a1-m1-cHHH_6y3d-a1-m1-cLLL X-ray structure of thermophilic C-phycocyanin from Galdiera phlegrea O19909 O19909 1.8 X-RAY DIFFRACTION 10 1.0 2771 (Cyanidium caldarium) 2771 (Cyanidium caldarium) 171 171 MLDAFSKVVAQADARGEFLSNTQLDALSKMVADGNKRLDATAAISANAATIVTNAARSLFSEQPQLIQPGGAYTNRRMAACLRDMEIILRYVSYATIAGDSSVLDDRCLNGLRETYQALGVPGASVALAVEKMKEAAIAFANDSSNVTIGDCSALISEIATYFDRAAKAVV MLDAFSKVVAQADARGEFLSNTQLDALSKMVADGNKRLDATAAISANAATIVTNAARSLFSEQPQLIQPGGAYTNRRMAACLRDMEIILRYVSYATIAGDSSVLDDRCLNGLRETYQALGVPGASVALAVEKMKEAAIAFANDSSNVTIGDCSALISEIATYFDRAAKAVV 6y3d-a1-m1-cIII_6y3d-a1-m1-cKKK X-ray structure of thermophilic C-phycocyanin from Galdiera phlegrea O19910 O19910 1.8 X-RAY DIFFRACTION 87 1.0 2771 (Cyanidium caldarium) 2771 (Cyanidium caldarium) 162 162 6y3d-a1-m1-cAAA_6y3d-a1-m1-cEEE 6y3d-a1-m1-cCCC_6y3d-a1-m1-cGGG MKTPITEAIATADSQGRFLSNTELQSCAGRFQRAGASLDAARSLTANAQRLIDGAAQAVYSKFPYTTQMTGPCYASSAIGKAKCSRDIGYYLRMVTYCLVAGGTGPMDEYLVAGLEEINRTFDLSPSWYVEALKNIKASHGLSGAAASEANAYINYAINSLS MKTPITEAIATADSQGRFLSNTELQSCAGRFQRAGASLDAARSLTANAQRLIDGAAQAVYSKFPYTTQMTGPCYASSAIGKAKCSRDIGYYLRMVTYCLVAGGTGPMDEYLVAGLEEINRTFDLSPSWYVEALKNIKASHGLSGAAASEANAYINYAINSLS 6y3y-a1-m1-cA_6y3y-a1-m1-cB Human Coronavirus HKU1 Haemagglutinin-Esterase Q5MQD1 Q5MQD1 3.39 ELECTRON MICROSCOPY 85 1.0 290028 (Human coronavirus HKU1) 290028 (Human coronavirus HKU1) 332 332 NEPLNVVSHLNHDWFLFGDSRSDCNHINNLKIKNFDYLDIHPSLCNNGKISSSAGDSIFKSFHFTRFYNYTGEGDQIIFYEGVNFNPYHRFKCFPNGSNDVWLLNKVRFYRALYSNMAFFRYLTFVDIPYNVSLSKFNSCKSDILSLNNPIFINYSKEVYFTLLGCSLYLVPLCLFKSNFSQYYYNIDTGSVYGFSNVVYPDLDCIYISLKPGSYKVSTTAPFLSLPTKALCFDKSKQFVPVQVVDSRWNNERASDISLSVACQLPYCYFRNSSANYVGKYDINHGDSGFISILSGLLYNVSCISYYGVFLYDNFTSIWPYYSFGRCPTSSI NEPLNVVSHLNHDWFLFGDSRSDCNHINNLKIKNFDYLDIHPSLCNNGKISSSAGDSIFKSFHFTRFYNYTGEGDQIIFYEGVNFNPYHRFKCFPNGSNDVWLLNKVRFYRALYSNMAFFRYLTFVDIPYNVSLSKFNSCKSDILSLNNPIFINYSKEVYFTLLGCSLYLVPLCLFKSNFSQYYYNIDTGSVYGFSNVVYPDLDCIYISLKPGSYKVSTTAPFLSLPTKALCFDKSKQFVPVQVVDSRWNNERASDISLSVACQLPYCYFRNSSANYVGKYDINHGDSGFISILSGLLYNVSCISYYGVFLYDNFTSIWPYYSFGRCPTSSI 6y4d-a1-m1-cA_6y4d-a1-m2-cB Crystal structure of a short-chain dehydrogenase/reductase (SDR) from Zephyranthes treatiae in complex with NADP+ 2.1 X-RAY DIFFRACTION 23 1.0 1263248 (Zephyranthes treatiae) 1263248 (Zephyranthes treatiae) 257 257 6y4d-a1-m1-cB_6y4d-a1-m2-cA MSLEKRWSLKGTTALVTGGTKGIGHAIVEELAGFGARVYTCSRNEAELTKCLQEWENLNFDVAGSVCDIASRTEREELMERVSSVFNGNLNILINNAGGYVNKPIDDVTAEDFSFLVAVNLESAFHLCQLAHPMLKASGRGSIVHVSSCCAQIALPGHSMYSATKGAINQLTRNLACEWAKDNIRTNTVAPGAIRTPSSEPFVNDKDAVAKEVARVPLGRIGEPEEVAAITVFLCMPAASYITGQVICVDGGRTING MSLEKRWSLKGTTALVTGGTKGIGHAIVEELAGFGARVYTCSRNEAELTKCLQEWENLNFDVAGSVCDIASRTEREELMERVSSVFNGNLNILINNAGGYVNKPIDDVTAEDFSFLVAVNLESAFHLCQLAHPMLKASGRGSIVHVSSCCAQIALPGHSMYSATKGAINQLTRNLACEWAKDNIRTNTVAPGAIRTPSSEPFVNDKDAVAKEVARVPLGRIGEPEEVAAITVFLCMPAASYITGQVICVDGGRTING 6y4d-a1-m1-cB_6y4d-a1-m2-cB Crystal structure of a short-chain dehydrogenase/reductase (SDR) from Zephyranthes treatiae in complex with NADP+ 2.1 X-RAY DIFFRACTION 111 1.0 1263248 (Zephyranthes treatiae) 1263248 (Zephyranthes treatiae) 257 257 6y4d-a1-m1-cA_6y4d-a1-m2-cA MSLEKRWSLKGTTALVTGGTKGIGHAIVEELAGFGARVYTCSRNEAELTKCLQEWENLNFDVAGSVCDIASRTEREELMERVSSVFNGNLNILINNAGGYVNKPIDDVTAEDFSFLVAVNLESAFHLCQLAHPMLKASGRGSIVHVSSCCAQIALPGHSMYSATKGAINQLTRNLACEWAKDNIRTNTVAPGAIRTPSSEPFVNDKDAVAKEVARVPLGRIGEPEEVAAITVFLCMPAASYITGQVICVDGGRTING MSLEKRWSLKGTTALVTGGTKGIGHAIVEELAGFGARVYTCSRNEAELTKCLQEWENLNFDVAGSVCDIASRTEREELMERVSSVFNGNLNILINNAGGYVNKPIDDVTAEDFSFLVAVNLESAFHLCQLAHPMLKASGRGSIVHVSSCCAQIALPGHSMYSATKGAINQLTRNLACEWAKDNIRTNTVAPGAIRTPSSEPFVNDKDAVAKEVARVPLGRIGEPEEVAAITVFLCMPAASYITGQVICVDGGRTING 6y4d-a1-m2-cA_6y4d-a1-m2-cB Crystal structure of a short-chain dehydrogenase/reductase (SDR) from Zephyranthes treatiae in complex with NADP+ 2.1 X-RAY DIFFRACTION 119 1.0 1263248 (Zephyranthes treatiae) 1263248 (Zephyranthes treatiae) 257 257 6y4d-a1-m1-cA_6y4d-a1-m1-cB MSLEKRWSLKGTTALVTGGTKGIGHAIVEELAGFGARVYTCSRNEAELTKCLQEWENLNFDVAGSVCDIASRTEREELMERVSSVFNGNLNILINNAGGYVNKPIDDVTAEDFSFLVAVNLESAFHLCQLAHPMLKASGRGSIVHVSSCCAQIALPGHSMYSATKGAINQLTRNLACEWAKDNIRTNTVAPGAIRTPSSEPFVNDKDAVAKEVARVPLGRIGEPEEVAAITVFLCMPAASYITGQVICVDGGRTING MSLEKRWSLKGTTALVTGGTKGIGHAIVEELAGFGARVYTCSRNEAELTKCLQEWENLNFDVAGSVCDIASRTEREELMERVSSVFNGNLNILINNAGGYVNKPIDDVTAEDFSFLVAVNLESAFHLCQLAHPMLKASGRGSIVHVSSCCAQIALPGHSMYSATKGAINQLTRNLACEWAKDNIRTNTVAPGAIRTPSSEPFVNDKDAVAKEVARVPLGRIGEPEEVAAITVFLCMPAASYITGQVICVDGGRTING 6y5e-a1-m1-cC_6y5e-a1-m1-cG Structure of human cGAS (K394E) bound to the nucleosome (focused refinement of cGAS-NCP subcomplex) Q16777 Q16777 3.15 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 RAKAKSRSSRAGLQFPVGRVHRLLRKGNYAERVGAGAPVYMAAVLEYLTAEILELAGNAARDNKKTRIIPRHLQLAIRNDEELNKLLGKVTIAQGGVLPNIQAVLLP RAKAKSRSSRAGLQFPVGRVHRLLRKGNYAERVGAGAPVYMAAVLEYLTAEILELAGNAARDNKKTRIIPRHLQLAIRNDEELNKLLGKVTIAQGGVLPNIQAVLLPK 6y68-a1-m2-cA_6y68-a1-m3-cA Structure of Maporal virus envelope glycoprotein Gc in postfusion conformation Q5MYC0 Q5MYC0 2.4 X-RAY DIFFRACTION 189 1.0 238817 (Maporal virus) 238817 (Maporal virus) 413 413 6y68-a1-m1-cA_6y68-a1-m2-cA 6y68-a1-m1-cA_6y68-a1-m3-cA 6y6q-a1-m1-cA_6y6q-a1-m2-cA 6y6q-a1-m1-cA_6y6q-a1-m3-cA 6y6q-a1-m2-cA_6y6q-a1-m3-cA EPGWSDTAHGVGEVPLKTDLELDFSLPSSSSYSYRRKLTNPANKEESIPFHFQMDKQVIHAEVQVLGHWMDATFNIKTAFHCYGACQKYSYPWQTAKCFFEKDYQYENGWGCNPGDCPGVGTGCTACGIYLDKLKSVGKAYKIISLKYSRKVCIQLGTEQTCKHIDANDCLVTPSVKVCMVGTVSKLQPADTILFLGPLEQGGIILKQWCTTSCTFGDPGDIMSTTAGMRCPEHTGSFRKICAFATTPVCEYQGNTISGYKRMMATKDSFQSFNLTDPHLTTNKLEWIDPDGNTRDHVNLVLNRDVSFQDLSDNPCKVDLHTQSIEGAWGSGVGFTLTCTVSLTECPSFMTSIKACDMAMCYGSTVTNLARGSNTVKVVGKGGHSGSAFKCCHDTDCSTEGLAASAPHLERVT EPGWSDTAHGVGEVPLKTDLELDFSLPSSSSYSYRRKLTNPANKEESIPFHFQMDKQVIHAEVQVLGHWMDATFNIKTAFHCYGACQKYSYPWQTAKCFFEKDYQYENGWGCNPGDCPGVGTGCTACGIYLDKLKSVGKAYKIISLKYSRKVCIQLGTEQTCKHIDANDCLVTPSVKVCMVGTVSKLQPADTILFLGPLEQGGIILKQWCTTSCTFGDPGDIMSTTAGMRCPEHTGSFRKICAFATTPVCEYQGNTISGYKRMMATKDSFQSFNLTDPHLTTNKLEWIDPDGNTRDHVNLVLNRDVSFQDLSDNPCKVDLHTQSIEGAWGSGVGFTLTCTVSLTECPSFMTSIKACDMAMCYGSTVTNLARGSNTVKVVGKGGHSGSAFKCCHDTDCSTEGLAASAPHLERVT 6y6a-a8-m1-cl_6y6a-a8-m1-cm Structure of Finch Polyomavirus VP1 in complex with 2-O-Methyl-5-N-acetyl-alpha-D-neuraminic acid R4UMH0 R4UMH0 2.65 X-RAY DIFFRACTION 163 0.991 349564 (Finch polyomavirus) 349564 (Finch polyomavirus) 235 259 EVLDVKTGPDSTTTIEAYLNPRVGQNWSTEITVASNDAPTEIPCYSSARISLPLLNTLLMWEAVSVKTEVVSSMLHSYGLRAFGGYGGGYTIEGSHIHFFSVGGEPLDLQGLMQNHSTQYPLVGPKKSAQVLNPIYKAKLDKDATYPIECWCPDPSRNENSRYFGSYTGGVETPPVLSFTNTSTTILLDENGVGPLCKGDGLYLSSADVAGTFVQQTSWRGLPRYFNITLRKRAV IEVLDVKTGPDSTTTIEAYLNPRVGQNWGFSTEITVASNGYNDAPHLTEIPCYSSARISLPLLNLMWEAVSVKTEVVGISSMLNMHSYGLRAFGGYGGGYTIEGSHIHFFSVGGEPLDLQGLMQNHSTQYPSPLVGPKKPDGTTDDSAQVLNPIYKAKLDKDATYPIECWCPDPSRNENSRYFGSYTGGVETPPVLSFTNTSTTILLDENGVGPLCKGDGLYLSSADVAGTFVQQTSQKQYWRGLPRYFNITLRKRAVK 6y75-a1-m1-cB_6y75-a1-m1-cA BIL2 domain from T.thermophila BUBL1 locus (C1A-N143A) Q236S9 Q236S9 2.3 X-RAY DIFFRACTION 50 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 150 153 6tmm-a1-m1-cBBB_6tmm-a1-m1-cAAA 6tmm-a1-m1-cDDD_6tmm-a1-m1-cCCC 6y75-a2-m1-cD_6y75-a2-m1-cC NLRGGAFVSNTQITMADKQKKFINEIQEGDLVRSYSITDETFQQNAVTSIVKHEADQLCQINFGKQHVVCTVNHRFYDPESKLWKSVCPHPGSGISFLKKYDYLLSEEGEKLQITEIKTFTTKQPVFIYHIQVENNHNFFANGVLAHAMQ NLRGGAFVSNTQITMADKQKKFINEIQEGDLVRSYSITDETFQQNAVTSIVKHEADQLCQINFGKQHVVCTVNHRFYDPESKLWKSVCPHPGSGISFLKKYDYLLSEEGEKLQITEIKTFTTKQPVFIYHIQVENNHNFFANGVLAHAMQVSI 6y7f-a1-m1-cA_6y7f-a1-m1-cB Crystal structure of human ELOVL fatty acid elongase 7 (ELOVL7) A1L3X0 A1L3X0 2.052 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 254 256 NWIKDADPRVEDWLLMSSPLPQTILLGFYVYFVTSLGPKLMENRKPFELKKAMITYNFFIVLFSVYMCYEFVMSGWGIGYSFRCDIVDYSRSPTALRMARTCWLYYFSKFIELLDTIFFVLRKKNSQVTFLHVFHHTIMPWTWWFGVKFAAGGLGTFHALLNTAVHVVMYSYYGLSALGPAYQKYLWWKKYLTSLQLVQFVIVAIHISQFFFMEDCKYQFPVFACIIMSYSFMFLLLFLHFWYRAYTKGQRLPK YDNWIKDADPRVEDWLLMSSPLPQTILLGFYVYFVTSLGPKLMENRKPFELKKAMITYNFFIVLFSVYMCYEFVMSGWGIGYSFRCDIVDYSRSPTALRMARTCWLYYFSKFIELLDTIFFVLRKKNSQVTFLHVFHHTIMPWTWWFGVKFAAGGLGTFHALLNTAVHVVMYSYYGLSALGPAYQKYLWWKKYLTSLQLVQFVIVAIHISQFFFMEDCKYQFPVFACIIMSYSFMFLLLFLHFWYRAYTKGQRLPK 6y7n-a1-m1-cA_6y7n-a1-m1-cB The crystal structure of the eight-bladed symmetrical designer protein Tako8 in the presence of tellurotungstic Anderson-Evans (TEW) 1.6 X-RAY DIFFRACTION 176 1.0 32630 (synthetic construct) 32630 (synthetic construct) 319 319 GQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIK GQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIKTGQSLRTLQGHQSAVTSLQFNDNIVVSGSDDSTVKVWDIK 6y7q-a1-m1-cAAA_6y7q-a1-m2-cAAA Crystal Structure of the N-terminal PAS domain from the hERG3 Potassium Channel Q9NS40 Q9NS40 1.39 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 117 IIRKFEGQNKKFIIANARVQNCAIIYCNDGFCEMTGFSRPDVMQKPCTCDFLHGPETKRHDIAQIAQALLGSEERKVEVTYYHKNGSTFICNTHIIPVKNQEGVAMMFIINFEYVTD IIRKFEGQNKKFIIANARVQNCAIIYCNDGFCEMTGFSRPDVMQKPCTCDFLHGPETKRHDIAQIAQALLGSEERKVEVTYYHKNGSTFICNTHIIPVKNQEGVAMMFIINFEYVTD 6y86-a1-m1-cA_6y86-a1-m2-cA Active YidC insertase crystal structure with the first transmembrane domain resolved Q9X1H2 Q9X1H2 3.4 X-RAY DIFFRACTION 32 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 425 425 MVLRKVVAILLAILPIFLFAVEPIKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTLVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSIVYNYGYVKKIFTIKNNENYTFFVDIENSKPVDVTVPRVSVDTSTDRYLENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPGFNKWYDSVFYGLVWFFWWLKDLTKNFGWAIMLFTLIVRLILYPLYHAQTKSLINMRKLQPQIEAIKKKYKDPTKQQEALLKLYREAGVNPASGCLMLLIQLPIFMLLWSVIRYYVEEFAYSGSFLIWKDLSAGGFSNNWLFLVITIVASYYTTLLTSQDARTAWQGIIMSVIFPFLFVGLPSGLFLYYATNTLIQLAVTYYTY MVLRKVVAILLAILPIFLFAVEPIKVVRSEKEIVVLTRFEEYHFDLEKGILKDFYTLVDGRKHVFTYGNDGFDVLDEGTPLTVIEEPIVTGVGKVSEGFSDEVSIVYNYGYVKKIFTIKNNENYTFFVDIENSKPVDVTVPRVSVDTSTDRYLENYFASFNPKTRTLVLLKHDEGLLFEGTLKVNGQKRFIVFMGPNKRTLIKKAFPEDYDVLIKALVNIPGFNKWYDSVFYGLVWFFWWLKDLTKNFGWAIMLFTLIVRLILYPLYHAQTKSLINMRKLQPQIEAIKKKYKDPTKQQEALLKLYREAGVNPASGCLMLLIQLPIFMLLWSVIRYYVEEFAYSGSFLIWKDLSAGGFSNNWLFLVITIVASYYTTLLTSQDARTAWQGIIMSVIFPFLFVGLPSGLFLYYATNTLIQLAVTYYTY 6y8l-a1-m1-cB_6y8l-a1-m1-cA Mycobacterium thermoresistibile GyrB21 in complex with novobiocin G7CIP8 G7CIP8 1.4 X-RAY DIFFRACTION 45 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 179 184 GLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGHATKVRVRLLADGGVEVSDDGRGIPVEMGVPTVDVVMTQVGVSVVNALSTRMEVEICRDGYQWFQTYDKSVPGTLKQGEKTRKTGTVVRFWPDPDVFETTTFDFETVARRLQEQAFLNKGLTIELIDERDGKHRTFYYPG LEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGHATKVRVRLLADGGVEVSDDGRGIPVEMHESGVPTVDVVMTQVGVSVVNALSTRMEVEICRDGYQWFQTYDKSVPGTLKQGEKTRKTGTVVRFWPDPDVFETTTFDFETVARRLQEQAFLNKGLTIELIDERDGKHRTFYYPG 6y8o-a1-m1-cB_6y8o-a1-m1-cA Mycobacterium smegmatis GyrB 22kDa ATPase sub-domain in complex with novobiocin A0QNE0 A0QNE0 1.6 X-RAY DIFFRACTION 32 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 186 188 TILEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGFATRVDVKIHADGSVEVRDDGRGIPVEMHATGMPTIDVVMTQVGVSVVNALSTRLEATVLRDGYEWFQYYDRSVPGKLKQGGETKETGTTIRFWADPEIFETTDYNFETVARRLQEMAFLNKGLTIELTDERDGKHRVFHYPG SITILEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGFATRVDVKIHADGSVEVRDDGRGIPVEMHATGMPTIDVVMTQVGVSVVNALSTRLEATVLRDGYEWFQYYDRSVPGKLKQGGETKETGTTIRFWADPEIFETTDYNFETVARRLQEMAFLNKGLTIELTDERDGKHRVFHYPG 6y90-a1-m1-cC_6y90-a1-m1-cH Structure of full-length CD20 in complex with Rituximab Fab 3.69 ELECTRON MICROSCOPY 15 1.0 10090 (Mus musculus) 10090 (Mus musculus) 224 224 QVQLQQPGAELVKPGASVKMSCKASGYTFTSYNMHWVKQTPGRGLEWIGAIYPGNGDTSYNQKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYYCARSTYYGGDWYFNVWGAGTTVTVSAASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC QVQLQQPGAELVKPGASVKMSCKASGYTFTSYNMHWVKQTPGRGLEWIGAIYPGNGDTSYNQKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYYCARSTYYGGDWYFNVWGAGTTVTVSAASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 6y9a-a1-m1-cA_6y9a-a1-m1-cB Structure of full-length CD20 in complex with Obinutuzumab Fab P11836 P11836 4.2 ELECTRON MICROSCOPY 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 169 169 6vja-a1-m1-cC_6vja-a1-m1-cD 6y90-a1-m1-cA_6y90-a1-m1-cB 6y92-a1-m1-cA_6y92-a1-m1-cB 6y97-a1-m1-cA_6y97-a1-m1-cB FMRESKTLGAVQIMNGLFHIALGGLLMIPAGIYAPICVTVWYPLWGGIMYIISGSLLAATEKNSRKCLVKGKMIMNSLSLFAAISGMILSIMDILNIKISHFLKMESLNFIRAHTPYINIYNCEPANPSEKNSPSTQYCYSIQSLFLGILSVMLIFAFFQELVIAGIVE FMRESKTLGAVQIMNGLFHIALGGLLMIPAGIYAPICVTVWYPLWGGIMYIISGSLLAATEKNSRKCLVKGKMIMNSLSLFAAISGMILSIMDILNIKISHFLKMESLNFIRAHTPYINIYNCEPANPSEKNSPSTQYCYSIQSLFLGILSVMLIFAFFQELVIAGIVE 6y9b-a1-m1-cB_6y9b-a1-m1-cC Cryo-EM structure of trimeric human STEAP1 bound to three Fab120.545 fragments Q9UHE8 Q9UHE8 2.97 ELECTRON MICROSCOPY 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 244 6y9b-a1-m1-cA_6y9b-a1-m1-cB 6y9b-a1-m1-cA_6y9b-a1-m1-cC LFPQWHLPIKIAAIIASLTFLYTLLREVIHPLATSHQQYFYKIPILVINKVLPMVSITLLALVYLPGVIAAIVQLHNGTKKFPHWLDKWMLTRKQFGLLSFFFAVLHAIYSLSYPMRRSYRYKLLNWAYQQVQQNKEDAWIEHDVWRMEIYVSLGIVGLAILALLAVTSIPSVSDSLTWREFHYIQSKLGIVSLLLGTIHALIFAWNKWIDIKQFVWYTPPTFMIAVFLPIVVLIFKSILFLPC LFPQWHLPIKIAAIIASLTFLYTLLREVIHPLATSHQQYFYKIPILVINKVLPMVSITLLALVYLPGVIAAIVQLHNGTKKFPHWLDKWMLTRKQFGLLSFFFAVLHAIYSLSYPMRRSYRYKLLNWAYQQVQQNKEDAWIEHDVWRMEIYVSLGIVGLAILALLAVTSIPSVSDSLTWREFHYIQSKLGIVSLLLGTIHALIFAWNKWIDIKQFVWYTPPTFMIAVFLPIVVLIFKSILFLPC 6y9i-a1-m1-cBBB_6y9i-a1-m1-cAAA Structure of apo Chimpanzee Polyomavirus VP1 1.9 X-RAY DIFFRACTION 182 1.0 2035845 (Chimpanzee polyomavirus Bob) 2035845 (Chimpanzee polyomavirus Bob) 281 282 6y9i-a1-m1-cCCC_6y9i-a1-m1-cBBB 6y9i-a1-m1-cCCC_6y9i-a1-m1-cDDD 6y9i-a1-m1-cEEE_6y9i-a1-m1-cAAA 6y9i-a1-m1-cEEE_6y9i-a1-m1-cDDD VEVLNIITGPDSTTEIELYLEPRMGINSPTGDKKEWYGYSEVIHHADGYDNNLLSIQMPQYSCARVQLPMLNTTLMMWEAVSCKTEIVGIGSLISVHLLEAKMAAKEGGDGPSQPIEGMNYHMFAVGGEPLDLQGIESNALTKYASAIPPKTIHPNDIAKLAEEEKPQLQGLVPKAKARLDKDGFYPIEEWSPDPSRNENSRYFGSFVGGLNTPPNLQFTNAVTTVLLDENGVGPLCKGDGLFVSAADICGVMVKADNEAIRYRGLPRYFKVTLRKRAVKN VEVLNIITGPDSTTEIELYLEPRMGINSPTGDKKEWYGYSEVIHHADGYDNNLLSIQMPQYSCARVQLPMLNTDTLMMWEAVSCKTEIVGIGSLISVHLLEAKMAAKEGGDGPSQPIEGMNYHMFAVGGEPLDLQGIESNALTKYASAIPPKTIHPNDIAKLAEEEKPQLQGLVPKAKARLDKDGFYPIEEWSPDPSRNENSRYFGSFVGGLNTPPNLQFTNAVTTVLLDENGVGPLCKGDGLFVSAADICGVMVKADNEAIRYRGLPRYFKVTLRKRAVKN 6y9k-a2-m1-cCCC_6y9k-a2-m1-cDDD Esterase EST8 with transacylase activity 2.298 X-RAY DIFFRACTION 43 1.0 256318 (metagenome) 256318 (metagenome) 297 297 6y9k-a1-m1-cAAA_6y9k-a1-m1-cBBB ASPQLQMALDGFKMMGEKMAQAGGDVKAMRAVMEEMATFPSAGETKCTPVNAGGVPAEWIAAPGAADDRVILYLHGGGYVMGSITTHRETIARLSKASGARALALDYRLAPEYPFPAAVDDATAAYRWLLSQDIKPSRIVVAGDSAGGGLVLATLVALRDAKVPLPAAGVCISPWADMEGTGASMTTRAKADPVVQKEMLVNMGKTYLGGKDAKSPLAAPLHADFRGLPPLFIQVGDAETLLDDSTRVAEKAKMAGVKVDLEIWPEMPHVWHLFAPFLPEGQQAIDKIGQYVKQRTA ASPQLQMALDGFKMMGEKMAQAGGDVKAMRAVMEEMATFPSAGETKCTPVNAGGVPAEWIAAPGAADDRVILYLHGGGYVMGSITTHRETIARLSKASGARALALDYRLAPEYPFPAAVDDATAAYRWLLSQDIKPSRIVVAGDSAGGGLVLATLVALRDAKVPLPAAGVCISPWADMEGTGASMTTRAKADPVVQKEMLVNMGKTYLGGKDAKSPLAAPLHADFRGLPPLFIQVGDAETLLDDSTRVAEKAKMAGVKVDLEIWPEMPHVWHLFAPFLPEGQQAIDKIGQYVKQRTA 6y9m-a1-m1-cA_6y9m-a1-m1-cD Crystal structure of TSWV glycoprotein N ectodomain (sGn) P36291 P36291 3.4 X-RAY DIFFRACTION 57 1.0 36413 (Tomato spotted wilt virus (strain Brazilian BR-01)) 36413 (Tomato spotted wilt virus (strain Brazilian BR-01)) 195 199 6y9l-a1-m1-cB_6y9l-a1-m1-cD 6y9l-a2-m1-cC_6y9l-a2-m1-cA 6y9m-a2-m1-cC_6y9m-a2-m1-cB 6ya0-a1-m1-cB_6ya0-a1-m1-cA 6ya2-a1-m1-cA_6ya2-a1-m1-cB LPNNCLNASSLKCEIKGISTYNVYYQVENNGVIYSCVSDSAEGLEKCDNSLNLPKRFSKVPVIPITKLDNKRHFSVGTKFFISESLTQDNYPITYNSYPTNGTVSLQTVKLSGDCKITKSNFANPYTVSITSPEKIMGYLIKKPGENVEHKVISFSGSASITFTEEMLDGEHNLLCGDKSAKIPKTNKRVRDCII LPNNCLNASSLKCEIKGISTYNVYYQVENNGVIYSCVSDSAEGLEKCDNSLNLPKRFSKVPVIPITKLDNKRHFSVGTKFFISESLTQDNYPITYNSYPTNGTVSLQTVKLSGDCKITKSNFANPYTVSITSPEKIMGYLIKKPGENVEHKVISFSGSASITFTEEMLDGEHNLLCGDKSAKIPKTNKRVRDCIIKYSK 6yaj-a1-m1-cAAA_6yaj-a1-m1-cDDD Split gene transketolase, inactive beta4 tetramer 1.9 X-RAY DIFFRACTION 50 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 303 311 6yaj-a1-m1-cBBB_6yaj-a1-m1-cCCC GIATREAYGKALVELGQENPKIVVLDADLSKSTKTSDFAKAFPERFFNMGIAEQNLMGVAAGLSTVGKIPFASTFAVFAAGRAFEIIRNSICYPKLNVKIAATHAGGASHQAIEDLALMRVLPNMQVFVPADAAQTRAIVKKAAEIEGPVYIRLGRSGVPEVFSPDIRFEPGRGTVLKEGKDVTIVALGIMTAKALEAAKMLEAEGIAARVVDMASLKPIDRELLVESARLTGAVVTAEEHSVIGGLGSAVAEVLSEEYPIPVVKVGVNDVFGESTPQALLEKYGLTARDVVAAVQKALTLKR GGIATREAYGKALVELGQENPKIVVLDADLSKSTKTSDFAKAFPERFFNMGIAEQNLMGVAAGLSTVGKIPFASTFAVFAAGRAFEIIRNSICYPKLNVKIAATHAGLTVGEDGASHQAIEDLALMRVLPNMQVFVPADAAQTRAIVKKAAEIEGPVYIRLGRSGVPEVFSPDIRFEPGRGTVLKEGKDVTIVALGIMTAKALEAAKMLEAEGIAARVVDMASLKPIDRELLVESARLTGAVVTAEEHSVIGGLGSAVAEVLSEEYPIPVVKVGVNDVFGESGTPQALLEKYGLTARDVVAAVQKALTLKR 6yaj-a1-m1-cCCC_6yaj-a1-m1-cAAA Split gene transketolase, inactive beta4 tetramer 1.9 X-RAY DIFFRACTION 122 0.997 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 300 303 6yaj-a1-m1-cBBB_6yaj-a1-m1-cDDD 6yak-a1-m1-cBBB_6yak-a1-m1-cDDD GGIATREAYGKALVELGQENPKIVVLDADLSKSTKTSDFAKAFPERFFNMGIAEQNLMGVAAGLSTVGKIPFASTFAVFAAGRAFEIIRNSICYPKLNVKIAATHAGGASHQAIEDLALMRVLPNMQVFVPADAAQTRAIVKKAAEIEGPVYIRLGRSGVPEVFSPDIRFEPGRGTVLKEGKDVTIVALGIMTAKALEAAKMLEAEGIAARVVDMASLKPIDRELLVESARLTGAVVTAEEHSVIGGLGSAVAEVLSEEYPIPVVKVGVNDVFGEALLEKYGLTARDVVAAVQKALTLKR GIATREAYGKALVELGQENPKIVVLDADLSKSTKTSDFAKAFPERFFNMGIAEQNLMGVAAGLSTVGKIPFASTFAVFAAGRAFEIIRNSICYPKLNVKIAATHAGGASHQAIEDLALMRVLPNMQVFVPADAAQTRAIVKKAAEIEGPVYIRLGRSGVPEVFSPDIRFEPGRGTVLKEGKDVTIVALGIMTAKALEAAKMLEAEGIAARVVDMASLKPIDRELLVESARLTGAVVTAEEHSVIGGLGSAVAEVLSEEYPIPVVKVGVNDVFGESTPQALLEKYGLTARDVVAAVQKALTLKR 6yak-a1-m1-cAAA_6yak-a1-m1-cCCC Split gene transketolase, active alpha2beta2 heterotetramer 1.34 X-RAY DIFFRACTION 45 1.0 129958 (Carboxydothermus hydrogenoformans) 129958 (Carboxydothermus hydrogenoformans) 282 282 DDMQDEILNLKLIANQLRQHVVKMVGEANSGHPGGSLSAADILAVLFFKEMRIDPANPKWQDRDRFVLSKGHASPVLYAALAERGFFPKEWLSQFRKINSPLQGHPDMKKVPGVEMSTGSLGQGFSTAVGMALGLKLDRSPARVYVLLGDGEIQEGIVWEAAMAAAHYKLNNLTAILDYNGLQIDGPVQEVMNPEPVADKWRSFGFKVITVDGHNIPEIINAIDAARLHLEGPTIIIAKTVKGKGVSFMENRVEWHGSAPKPEQVAEALSELQVGREKLWEE DDMQDEILNLKLIANQLRQHVVKMVGEANSGHPGGSLSAADILAVLFFKEMRIDPANPKWQDRDRFVLSKGHASPVLYAALAERGFFPKEWLSQFRKINSPLQGHPDMKKVPGVEMSTGSLGQGFSTAVGMALGLKLDRSPARVYVLLGDGEIQEGIVWEAAMAAAHYKLNNLTAILDYNGLQIDGPVQEVMNPEPVADKWRSFGFKVITVDGHNIPEIINAIDAARLHLEGPTIIIAKTVKGKGVSFMENRVEWHGSAPKPEQVAEALSELQVGREKLWEE 6yav-a1-m1-cE_6yav-a1-m2-cE Structure of FeSII (Shethna) protein from Azotobacter vinelandii Q44501 Q44501 1.65 X-RAY DIFFRACTION 40 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 109 109 ATIYFSSPLMPHNKKVQAVAGKRSTLLGVAQENGVKIPFECQDGNCGSCLVKITHLDGERIKGMLLTDKERNVLKSVGKLPRDLPPTYRLACQTIVTDEDLLVEFTGEP ATIYFSSPLMPHNKKVQAVAGKRSTLLGVAQENGVKIPFECQDGNCGSCLVKITHLDGERIKGMLLTDKERNVLKSVGKLPRDLPPTYRLACQTIVTDEDLLVEFTGEP 6yav-a2-m1-cA_6yav-a2-m1-cB Structure of FeSII (Shethna) protein from Azotobacter vinelandii Q44501 Q44501 1.65 X-RAY DIFFRACTION 83 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 119 119 ATIYFSSPLMPHNKKVQAVAGKRSTLLGVAQENGVKIPFECQDGNCGSCLVKITHLDGERIKGMLLTDKERNVLKSVGKLPKSEEERAAVRDLPPTYRLACQTIVTDEDLLVEFTGEPG ATIYFSSPLMPHNKKVQAVAGKRSTLLGVAQENGVKIPFECQDGNCGSCLVKITHLDGERIKGMLLTDKERNVLKSVGKLPKSEEERAAVRDLPPTYRLACQTIVTDEDLLVEFTGEPG 6yav-a3-m1-cC_6yav-a3-m1-cD Structure of FeSII (Shethna) protein from Azotobacter vinelandii Q44501 Q44501 1.65 X-RAY DIFFRACTION 60 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 119 119 5ffi-a1-m1-cB_5ffi-a1-m2-cA 5ffi-a2-m3-cB_5ffi-a2-m1-cA 5ffi-a3-m3-cC_5ffi-a3-m1-cD 5ffi-a4-m1-cC_5ffi-a4-m2-cD 5frt-a1-m1-cC_5frt-a1-m1-cD 5frt-a2-m1-cA_5frt-a2-m2-cB 5frt-a3-m1-cB_5frt-a3-m3-cA ATIYFSSPLMPHNKKVQAVAGKRSTLLGVAQENGVKIPFECQDGNCGSCLVKITHLDGERIKGMLLTDKERNVLKSVGKLPKSEEERAAVRDLPPTYRLACQTIVTDEDLLVEFTGEPG ATIYFSSPLMPHNKKVQAVAGKRSTLLGVAQENGVKIPFECQDGNCGSCLVKITHLDGERIKGMLLTDKERNVLKSVGKLPKSEEERAAVRDLPPTYRLACQTIVTDEDLLVEFTGEPG 6yax-a1-m1-cMMM_6yax-a1-m1-cLLL Crystal structure of CD32b (Fc Gamma Receptor IIb) in complex with Human IgG1 Fab fragment (5C05) 2.8 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 182 214 SVLTQPPSASGTPGQRVTISCTGSSSNIGAGYDVHWYQQLPGTAPKLLIYSNSQRPSGVPDRFSGSKSGTSASLAISGLRSEDEADYYCAAWDDSLNGQVVFGGGTKLTVLGQPKANPTVTLFSEEANCLISDFYPGAVTVAWGSPVETTKPSKQSNNKYAASSYLSLCQVTHEGSTVEKTV SVLTQPPSASGTPGQRVTISCTGSSSNIGAGYDVHWYQQLPGTAPKLLIYSNSQRPSGVPDRFSGSKSGTSASLAISGLRSEDEADYYCAAWDDSLNGQVVFGGGTKLTVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 6yb5-a1-m1-cA_6yb5-a1-m1-cB Orthorhombic crystal structure of a native BcsRQ complex crystallized in the presence of ADP P0DP92 P0DP92 1.59 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 243 243 6yar-a1-m1-cB_6yar-a1-m1-cA 6yay-a1-m1-cB_6yay-a1-m1-cA 6yb3-a1-m1-cB_6yb3-a1-m1-cA 6ybb-a1-m1-cA_6ybb-a1-m1-cB 6ybu-a1-m1-cA_6ybu-a1-m1-cB 6ybu-a2-m1-cH_6ybu-a2-m1-cG AVLGLQGVRGGVGTTTITAALAWSLQMLGENVLVVDACPDNLLRLSFNVDFTHRQGWARAMLDGQDWRDAGLRYTSQLDLLPFGQLSIEEQENPQHWQTRLSDICSGLQQLKASGRYQWILIDLPRDASQITHQLLSLCDHSLAIVNVDANCHIRLHQQALPDGAHILINNFRIGSQVQDDIYQLWLQSQRRLLPMLIHRDEAMAECLAAKQPVGEYRSDALAAEEILTLANWCLLNYSGLKT AVLGLQGVRGGVGTTTITAALAWSLQMLGENVLVVDACPDNLLRLSFNVDFTHRQGWARAMLDGQDWRDAGLRYTSQLDLLPFGQLSIEEQENPQHWQTRLSDICSGLQQLKASGRYQWILIDLPRDASQITHQLLSLCDHSLAIVNVDANCHIRLHQQALPDGAHILINNFRIGSQVQDDIYQLWLQSQRRLLPMLIHRDEAMAECLAAKQPVGEYRSDALAAEEILTLANWCLLNYSGLKT 6ybm-a1-m1-cA_6ybm-a1-m1-cB Scaffold-ligand complex with ligand unmodelled. P30405 P30405 1.41 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 GNPLVYLDVDANGKPLGRVVLELKADVVPKTAENFRALCTGEKGFGYKGSTFHRVIPSFMCQAGDFTNHNGTGGKSIYGSRFPDENFTLKHVGPGVLSMANAGPNTNGSQFFICTIKTDWLDGKHVVFGHVIEGMDVVKKIESFGSKSGRTSKKIVITDCGQLS GNPLVYLDVDANGKPLGRVVLELKADVVPKTAENFRALCTGEKGFGYKGSTFHRVIPSFMCQAGDFTNHNGTGGKSIYGSRFPDENFTLKHVGPGVLSMANAGPNTNGSQFFICTIKTDWLDGKHVVFGHVIEGMDVVKKIESFGSKSGRTSKKIVITDCGQLS 6ybm-a1-m1-cB_6ybm-a1-m1-cC Scaffold-ligand complex with ligand unmodelled. P30405 P30405 1.41 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 GNPLVYLDVDANGKPLGRVVLELKADVVPKTAENFRALCTGEKGFGYKGSTFHRVIPSFMCQAGDFTNHNGTGGKSIYGSRFPDENFTLKHVGPGVLSMANAGPNTNGSQFFICTIKTDWLDGKHVVFGHVIEGMDVVKKIESFGSKSGRTSKKIVITDCGQLS GNPLVYLDVDANGKPLGRVVLELKADVVPKTAENFRALCTGEKGFGYKGSTFHRVIPSFMCQAGDFTNHNGTGGKSIYGSRFPDENFTLKHVGPGVLSMANAGPNTNGSQFFICTIKTDWLDGKHVVFGHVIEGMDVVKKIESFGSKSGRTSKKIVITDCGQLS 6yca-a1-m1-cB_6yca-a1-m1-cA Crystal structure of Eis1 from Mycobacterium abscessus A0A418LDP6 A0A418LDP6 2.9 X-RAY DIFFRACTION 45 1.0 36809 (Mycobacteroides abscessus) 36809 (Mycobacteroides abscessus) 389 390 6yca-a1-m1-cC_6yca-a1-m1-cE 6yca-a1-m1-cD_6yca-a1-m1-cC 6yca-a1-m1-cD_6yca-a1-m1-cE 6yca-a1-m1-cF_6yca-a1-m1-cA 6yca-a1-m1-cF_6yca-a1-m1-cB TDIRFLQSRAEHERAFTVFWRAMVGLPAVAADELLELGRYLGAFVQGELIGGADSYTSWLTVPGGSRVPHAAVTHIGVLPTHTRRGILTALVTRQLTDIAGRGEIVASLRASEAVIYRRFGYGIATSSATYRIQRRRAAPLRPIDTGAIALLDAAASPEGLAAIYERAAWTGSVARPPQWWRLHELFDAADPVKPYVVTHPDGYVRYRPQDTAEWFSSSARTISVDDLVAHSDEAYRALVGHLLDLDLVDVIELGPRPIDDPLPHLVTDPRAVAVAGIRDETWLRLVDVEAALAARTYTDGAPVVIEVQDTLLPHNAARFSVSSDKVRRTQHTPDISVDVAALGSVYLGGNTWTRLERAGLVSAQSPGAIRAADALFSTGTQPFAGTNF TDIRFLQSRAEHERAFTVFWRAMVGLPALVAADELLELGRYLGAFVQGELIGGADSYTSWLTVPGGSRVPHAAVTHIGVLPTHTRRGILTALVTRQLTDIAGRGEIVASLRASEAVIYRRFGYGIATSSATYRIQRRRAAPLRPIDTGAIALLDAAASPEGLAAIYERAAWTGSVARPPQWWRLHELFDAADPVKPYVVTHPDGYVRYRPQDTAEWFSSSARTISVDDLVAHSDEAYRALVGHLLDLDLVDVIELGPRPIDDPLPHLVTDPRAVAVAGIRDETWLRLVDVEAALAARTYTDGAPVVIEVQDTLLPHNAARFSVSSDKVRRTQHTPDISVDVAALGSVYLGGNTWTRLERAGLVSAQSPGAIRAADALFSTGTQPFAGTNF 6yca-a1-m1-cF_6yca-a1-m1-cC Crystal structure of Eis1 from Mycobacterium abscessus A0A418LDP6 A0A418LDP6 2.9 X-RAY DIFFRACTION 134 1.0 36809 (Mycobacteroides abscessus) 36809 (Mycobacteroides abscessus) 386 388 6yca-a1-m1-cD_6yca-a1-m1-cA 6yca-a1-m1-cE_6yca-a1-m1-cB VTDIRFLQSRAEHERAFTVFWRAMVGLPAELLELGRYLGAFVQGELIGGADSYTSWLTVPGGSRVPHAAVTHIGVLPTHTRRGILTALVTRQLTDIAGRGEIVASLRASEAVIYRRFGYGIATSSATYRIQRRRAAPLRPIDTGAIALLDAAASPEGLAAIYERAAWTGSVARPPQWWRLHELFDAADPVKPYVVTHPDGYVRYRPQDTAEWFSSSARTISVDDLVAHSDEAYRALVGHLLDLDLVDVIELGPRPIDDPLPHLVTDPRAVAVAGIRDETWLRLVDVEAALAARTYTDGAPVVIEVQDTLLPHNAARFSVSSDKVRRTQHTPDISVDVAALGSVYLGGNTWTRLERAGLVSAQSPGAIRAADALFSTGTQPFAGTNF VTDIRFLQSRAEHERAFTVFWRAMVGLPAADELLELGRYLGAFVQGELIGGADSYTSWLTVPGGSRVPHAAVTHIGVLPTHTRRGILTALVTRQLTDIAGRGEIVASLRASEAVIYRRFGYGIATSSATYRIQRRRAAPLRPIDTGAIALLDAAASPEGLAAIYERAAWTGSVARPPQWWRLHELFDAADPVKPYVVTHPDGYVRYRPQDTAEWFSSSARTISVDDLVAHSDEAYRALVGHLLDLDLVDVIELGPRPIDDPLPHLVTDPRAVAVAGIRDETWLRLVDVEAALAARTYTDGAPVVIEVQDTLLPHNAARFSVSSDKVRRTQHTPDISVDVAALGSVYLGGNTWTRLERAGLVSAQSPGAIRAADALFSTGTQPFAGTNF 6ycx-a1-m1-cA_6ycx-a1-m1-cB Plasmodium falciparum Myosin A full-length, pre-powerstroke state Q8IDR3 Q8IDR3 3.99 X-RAY DIFFRACTION 63 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 813 816 AVTNEEIKTASKIVRRVNVEAFDKSGSVFKGYQIWTDISPTIENDPNIMFVKCVVQQKEKLTVVQIDPPGTGTPYDIDPTHAWNCNSQVDPMSFGDIGLLNHTNIPCVLDFLKHRYLKNQIYTTAVPLIVAINPYKDLGNTTNEWIRRYRDTADHTKLPPHVFTCAREALSNLHGVNKSQTIIVSGESGAGKTEATKQIMRYFASSKSGNMDLRIQTAIMAANPVLEAFGNAKTIRNNNSSRFGRFMQLVISHEGGIRYGSVVAFLLEKSRIITQDDNERSYHIFYQFLKGANSTMKSKFGLKGVTEYKLLNPNSTEVSGVDDVKDFEEVIESLKNMELSESDIEVIFSIVAGILTLGNVRLIEKQEAGLSDAAAIMDEDMGVFNKACELMYLDPELIKREILIKVTVAGGTKIEGRWNKNDAEVLKSSLCKAMYEKLFLWIIRHLNSRIEPEGGFKTFMGMLDIFGFEVFKNNSLEQLFINITNEMLQKNFVDIVFERESKLYKDEGISTAELKYTSNKEVINVLCEKGKSVLSYLEDQCLAPGGTDEKFVSSCATNLKENNKFTPAKVASNKNFIIQHTIGPIQYCAESFLLKNKDVLRGDLVEVIKDSPNPIVQQLFEGQVIEKGKIAKGSLIGSQFLNQLTSLMNLINSTEPHFIRCIKPNENKKPLEWCEPKILIQLHALSILEALVLRQLGYSYRRTFEEFLYQYKFVDIAAAEDSSVENQNKCVNILKLSGLSESMYKIGKSMVFLKQEGAKILTKIQREKLVEWENCVSVIEAAILKHKYKQKVNKNIPSLLRVQAHIRKKMVAQ AVTNEEIKTASKIVRRVNVEAFDKSGSVFKGYQIWTDISPTIENDPNIMFVKCVVQQGSKKEKLTVVQIDPPGTGTPYDIDPTHAWNCNSQVDPMSFGDIGLLNHTNIPCVLDFLKHRYLKNQIYTTAVPLIVAINPYKDLGNTTNEWIRRYRDTADHTKLPPHVFTCAREALSNLHGVNKSQTIIVSGESGAGKTEATKQIMRYFASSKSGNMDLRIQTAIMAANPVLEAFGNAKTIRNNNSSRFGRFMQLVISHEGGIRYGSVVAFLLEKSRIITQDDNERSYHIFYQFLKGANSTMKSKFGLKGVTEYKLLNPNSTEVSGVDDVKDFEEVIESLKNMELSESDIEVIFSIVAGILTLGNVRLIEKQEAGLSDAAAIMDEDMGVFNKACELMYLDPELIKREILIKVTVAGGTKIEGRWNKNDAEVLKSSLCKAMYEKLFLWIIRHLNSRIEPEGGFKTFMGMLDIFGFEVFKNNSLEQLFINITNEMLQKNFVDIVFERESKLYKDEGISTAELKYTSNKEVINVLCEKGKSVLSYLEDQCLAPGGTDEKFVSSCATNLKENNKFTPAKVASNKNFIIQHTIGPIQYCAESFLLKNKDVLRGDLVEVIKDSPNPIVQQLFEGQVIEKGKIAKGSLIGSQFLNQLTSLMNLINSTEPHFIRCIKPNENKKPLEWCEPKILIQLHALSILEALVLRQLGYSYRRTFEEFLYQYKFVDIAAAEDSSVENQNKCVNILKLSGLSESMYKIGKSMVFLKQEGAKILTKIQREKLVEWENCVSVIEAAILKHKYKQKVNKNIPSLLRVQAHIRKKMVAQ 6ydr-a1-m1-cA_6ydr-a1-m2-cA Crystal structure of Mengla Virus VP30 C-terminal domain A0A3S8UVN5 A0A3S8UVN5 1.34 X-RAY DIFFRACTION 141 1.0 2496529 () 2496529 () 129 129 NRDILTLENLGDILKYLNSADLTTLDEVSMRAALSLTCAGIRKTSRSMINTLTEQHVSAENLSPDQTQIIKQTYTGIHLDKGGNFEAALWKNWDRRSISLFLQAAISVLNTTPCESSKSVISAYNHFLQ NRDILTLENLGDILKYLNSADLTTLDEVSMRAALSLTCAGIRKTSRSMINTLTEQHVSAENLSPDQTQIIKQTYTGIHLDKGGNFEAALWKNWDRRSISLFLQAAISVLNTTPCESSKSVISAYNHFLQ 6ye4-a1-m1-cD_6ye4-a1-m1-cE Structure of ExbB pentamer from Serratia marcescens by single particle cryo electron microscopy A0A542C9I8 A0A542C9I8 3.2 ELECTRON MICROSCOPY 93 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 236 236 6ye4-a1-m1-cA_6ye4-a1-m1-cB 6ye4-a1-m1-cA_6ye4-a1-m1-cE 6ye4-a1-m1-cB_6ye4-a1-m1-cC 6ye4-a1-m1-cC_6ye4-a1-m1-cD 7ajq-a1-m1-cA_7ajq-a1-m1-cB 7ajq-a1-m1-cA_7ajq-a1-m1-cE 7ajq-a1-m1-cB_7ajq-a1-m1-cC 7ajq-a1-m1-cC_7ajq-a1-m1-cD 7ajq-a1-m1-cD_7ajq-a1-m1-cE DLSIWGMYQHADAVVKAVMIGLVLASIVTWTILFAKGSELLRAKRRLRREQLALAEARSLDEASELAQNFSPESVSAVLLNDAQNELELSAESNDNNGIKERTGFRLERRVAAYSRNMGRGNGFLATIGAISPFVGLFGTVWGIMNSFIGIAHSQTTNLAVVAPGIAEALLATAMGLVAAIPAVVIYNIFARVISGHRAQVGDVAAQVLLLQGRDLDLAATAEAKRSQHAHQLRAG DLSIWGMYQHADAVVKAVMIGLVLASIVTWTILFAKGSELLRAKRRLRREQLALAEARSLDEASELAQNFSPESVSAVLLNDAQNELELSAESNDNNGIKERTGFRLERRVAAYSRNMGRGNGFLATIGAISPFVGLFGTVWGIMNSFIGIAHSQTTNLAVVAPGIAEALLATAMGLVAAIPAVVIYNIFARVISGHRAQVGDVAAQVLLLQGRDLDLAATAEAKRSQHAHQLRAG 6yex-a1-m1-cB_6yex-a1-m1-cA VcaM4I restriction endonuclease in the absence of DNA A0A344KQF3 A0A344KQF3 1.5 X-RAY DIFFRACTION 136 1.0 680 (Vibrio campbellii) 680 (Vibrio campbellii) 303 309 6ymg-a1-m1-cA_6ymg-a1-m1-cB MNYWWVSQKQTFKQEFEGGYMWSPKENKNGTQSHYYNNMTLVQPGDVVFSFANGLILSVGIARSHAYSYNKPTEFGVNDGWKIDLEYHLVENKIRPKAHIDFIRPYLPQKYSPLQDNGNGNQAYLFSVPHELASKVVELIGSEAEEVIFGFADTTEITTTADAIECQISNDASIDETEKHQLVKSRRGQGIFRSRLEQVESRCRVTGVQLKNHLIASHIKPWAVSNNQERLDGHNGLLLAPHVDHLFDKGFISFEDNGEMIVSEKLNLDVLKAWSISQGNYGYFSKQQQEYMCYHRENVFKKL MNYWWVSQKQTFKQEFEGGYMWSPKENKNGTQSHYYNNMTLVQPGDVVFSFANGLILSVGIARSHAYSYNKPTEFGVAGADWANDGWKIDLEYHLVENKIRPKAHIDFIRPYLPQKYSPLQDNGNGNQAYLFSVPHELASKVVELIGSEAEEVIFGFADTTEITTTADAIECQISNDASIDETEKHQLVKSRRGQGIFRSRLEQVESRCRVTGVQLKNHLIASHIKPWAVSNNQERLDGHNGLLLAPHVDHLFDKGFISFEDNGEMIVSEKLNLDVLKAWSISQGNYGYFSKQQQEYMCYHRENVFKKL 6yf5-a2-m1-cD_6yf5-a2-m1-cC Lamin A 17-70 coil1A dimer stabilized by C-terminal capping Q15691 Q15691 1.83 X-RAY DIFFRACTION 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 82 87 6yf5-a1-m1-cB_6yf5-a1-m1-cA 6ysh-a1-m1-cB_6ysh-a1-m1-cA RITRLQEKEDLQELNDRLAVYIDRVRSLETENAGLRLRITESEEVVDFYFGKLRNIELICQENEGENDPVLQRIVDILYATD PLSPTRITRLQEKEDLQELNDRLAVYIDRVRSLETENAGLRLRITESEEVVDFYFGKLRNIELICQENEGENDPVLQRIVDILYATD 6yf6-a1-m1-cA_6yf6-a1-m1-cB EclA C-terminal domain; sugar-binding protein A0A0H3CQ33 A0A0H3CQ33 2 X-RAY DIFFRACTION 209 0.993 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 716541 (Enterobacter cloacae subsp. cloacae ATCC 13047) 140 140 FEDLTNFERDNWNNWQAGPAGHDLYLVDASTRAVEFITRPNKNHAGEILKKTLTGLTAGYEYTWTVKIARIIGKYEAPKVSLRADGKDISAPLELKQANEWVTLSGKFKATGSQAELAVVSHVSASMGNDFRIKELKIKG PFEDLTNFERDNWNNWQAGPAGHDLYLVDASTRAVEFITRPNKNHAGEILKKTLTGLTAGYEYTWTVKIARIIGKYEAPKVSLRADGKDISAPLELKQANEWVTLSGKFKATGSQAELAVVSHVSASMGNDFRIKELKIK 6yge-a1-m1-cA_6yge-a1-m1-cB NADase from Aspergillus fumigatus Q4WL81 Q4WL81 1.6 X-RAY DIFFRACTION 181 0.995 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 208 208 6ygf-a1-m1-cA_6ygf-a1-m1-cB 6ygg-a1-m1-cA_6ygg-a1-m1-cB DSLFPARCWPDPCAGITFQNDTYVCGDPRLGPVVLPQKFPLNNELRTYARFGALCPAEFLDKWATDVAPNGTYIYPPANGFALDTEEQPILGNATLPVGMKLDRFGSEYGTFLAPLGAPYIERSLPPSNLNTFDGMYPYNYHVYQVTKEFVVGLGPIAPWFEQPGMGTQFVTYTNVLGLIDDGYLRRLDESEYDEKVEYSNPYTPGPN SLFPARCWPDPCAGITFQNDTYVCGDPRLGPVVLPQKFPLNNELRTYARFGALCPAEFLDKWATDVAPNGTYIYPPANGFALDTEEQPILGNATLPVGMKLDRFGSEYGTFLAPLGAPYIERSLPPSNLNTFDGMYPYNYHVYQVTKEFVVGLGPIAPWFEQPGMGTQFVTYTNVLGLIDDGYLRRLDESEYDEKVEYSNPYTPGPNQ 6ygq-a2-m1-cB_6ygq-a2-m1-cC EclA N-terminal domain; PllA-like lectin A0A0M7CBI0 A0A0M7CBI0 1.9 X-RAY DIFFRACTION 76 1.0 550 (Enterobacter cloacae) 550 (Enterobacter cloacae) 120 120 6ygq-a1-m1-cD_6ygq-a1-m1-cA ASENLIWSGKVDAKNAEGTNTGVALKAGEIITILASGWARNGSENFALTAPQGRIPREGETLTLRNPSLQARLGNENYPVGNHKYRWSVPAEGTLTLFFADGKDQYKDNAGEFSVEVYRE ASENLIWSGKVDAKNAEGTNTGVALKAGEIITILASGWARNGSENFALTAPQGRIPREGETLTLRNPSLQARLGNENYPVGNHKYRWSVPAEGTLTLFFADGKDQYKDNAGEFSVEVYRE 6yhh-a1-m1-cA_6yhh-a1-m1-cB X-ray Structure of Flavobacterium johnsoniae chitobiase (FjGH20) A5FB64 A5FB64 1.7 X-RAY DIFFRACTION 133 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 655 655 QMQKEQLNLMPWPQNVVVNDGNFTLTKNFKVNISGNPDSRIFGGVTRFLRRLDGRTGIFFEQGFITKLNEFPNAELQINCTKNGKIGLYEDESYSLDVKANKITINATSDLGALHGLETLLQLLQNDSKKFYFPVSQISDFPRFTWRGLMLDASRHFQPVDVVKRNLDALAAMKMNVFHWHLVDDQGWRIETKKHPKLIELASDGLYYTQEEIRNIVKYADERGILIVPEIDVPGHGSAILTAYPEIGSKVTYRIERNAGIFSPTLDPSNPKTYKILSELFDEVCPLFPGAYFHIGGDENEGKDWDANPKIQEFKKKHNLKTNHELQTYFTMQLAPMLKKHGKQLMGWEEILTKDLSKEAIVHSWRGPNEGMVAGQSLVDAVKKGYKTVLSNGFYIDLMYPVASHYLNDPMPKGADLSAEEKARILGGEATMWTELATPETFDSRVWPRTAAIAERLWSAENITDVANMRKRLESVSFRLEELGLTHIKNKAVILRNIANNQNIKSVNEFTNVCEPLKGYTRNKGGTEYQMYSPFTLFADACTPDAKDSLAFDEAVSQYLANKSADNKAKVAAFFNKWIAVNKGLVELSANAPLVQPILPLSKKLSDASQELLLVLDNKSTLKTADLKTLIEQCNTKDHADVELSVYESLKKLIA QMQKEQLNLMPWPQNVVVNDGNFTLTKNFKVNISGNPDSRIFGGVTRFLRRLDGRTGIFFEQGFITKLNEFPNAELQINCTKNGKIGLYEDESYSLDVKANKITINATSDLGALHGLETLLQLLQNDSKKFYFPVSQISDFPRFTWRGLMLDASRHFQPVDVVKRNLDALAAMKMNVFHWHLVDDQGWRIETKKHPKLIELASDGLYYTQEEIRNIVKYADERGILIVPEIDVPGHGSAILTAYPEIGSKVTYRIERNAGIFSPTLDPSNPKTYKILSELFDEVCPLFPGAYFHIGGDENEGKDWDANPKIQEFKKKHNLKTNHELQTYFTMQLAPMLKKHGKQLMGWEEILTKDLSKEAIVHSWRGPNEGMVAGQSLVDAVKKGYKTVLSNGFYIDLMYPVASHYLNDPMPKGADLSAEEKARILGGEATMWTELATPETFDSRVWPRTAAIAERLWSAENITDVANMRKRLESVSFRLEELGLTHIKNKAVILRNIANNQNIKSVNEFTNVCEPLKGYTRNKGGTEYQMYSPFTLFADACTPDAKDSLAFDEAVSQYLANKSADNKAKVAAFFNKWIAVNKGLVELSANAPLVQPILPLSKKLSDASQELLLVLDNKSTLKTADLKTLIEQCNTKDHADVELSVYESLKKLIA 6yid-a1-m1-cA_6yid-a1-m1-cB Crystal structure of ULK2 in complex with SBI-0206965 Q8IYT8 Q8IYT8 2.7 X-RAY DIFFRACTION 134 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 259 264 6qat-a1-m2-cB_6qat-a1-m1-cA 6qat-a2-m3-cD_6qat-a2-m1-cC 6qau-a2-m1-cC_6qau-a2-m1-cB 6yid-a2-m2-cD_6yid-a2-m1-cC SMEVVGDFEYSKRDLVGHGAFAVVFRGRHRQKTDWEVAIKSINKKNLSKSQILLGKEIKILKELQHENIVALYDVQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLHQIAAAMRILHSKGIIHRDLKPQNILLSYANSGIRIKIADFGFARYLHSPMYMAPEVIMSQHYDAKADLWSIGTVIYQCLVGKPPFQANSPQDLRMFYEKNRSLMPSIPRETSPYLANLLLGLLQRNQKDRMDFEAFFSHPFLEQG GGGSMEVVGDFEYSKRDLVGHGAFAVVFRGRHRQKTDWEVAIKSINKKNLSKSQILLGKEIKILKELQHENIVALYDVQELPNSVFLVMEYCNGGDLADYLQAKGTLSEDTIRVFLHQIAAAMRILHSKGIIHRDLKPQNILLSYANSVSGIRIKIADFGFARYLHSSPMYMAPEVIMSQHYDAKADLWSIGTVIYQCLVGKPPFQANSPQDLRMFYEKNRSLMPSIPRETSPYLANLLLGLLQRNQKDRMDFEAFFSHPFLEQ 6yip-a1-m1-cB_6yip-a1-m1-cA Structure of MKLP2 coiled coil O95235 O95235 1.43 X-RAY DIFFRACTION 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 71 QQREQWCSEHLDTQKELLEEMYEEKLNILKESLTSFYQEEIQERDEKIEELEALLQEARQQS GPMVEQMQQREQWCSEHLDTQKELLEEMYEEKLNILKESLTSFYQEEIQERDEKIEELEALLQEARQQSVA 6yj2-a1-m1-cA_6yj2-a1-m1-cB Structural and DNA binding studies of the transcriptional repressor Rv2506 (BkaR) from Mycobacterium tuberculosis supports a role in L-Leucine catabolism O06169 O06169 2 X-RAY DIFFRACTION 112 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 186 192 4g12-a1-m1-cA_4g12-a1-m1-cB 6yj2-a2-m1-cC_6yj2-a2-m1-cD 6yl2-a1-m1-cA_6yl2-a1-m1-cB DRRFQLLAAAERLFAERGFLAVRLEDIGAAAGVSGPAIYRHFPNKESLLVELLVGVSARLLAGARDVTTRSANLAAALDGLIEFHLDFALGEADLIRIQDRDLAHLPAVAERQVRKAQRQYVEVWVGVLRELNPGLAEADARLMAHAVFGLLNSTPHSMKKPARTVRARAVLRAMTVAALSAADRC SDRRFQLLAAAERLFAERGFLAVRLEDIGAAAGVSGPAIYRHFPNKESLLVELLVGVSARLLAGARDVTTRSANLAAALDGLIEFHLDFALGEADLIRIQDRDLAHLPAVAERQVRKAQRQYVEVWVGVLRELNPGLAEADARLMAHAVFGLLNSTPHSMKAADSKPARTVRARAVLRAMTVAALSAADRCL 6yj9-a1-m1-cB_6yj9-a1-m1-cA DarB in complex with 3'3'cGAMP O31698 O31698 1.5 X-RAY DIFFRACTION 78 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 135 143 1yav-a1-m1-cA_1yav-a1-m1-cB 6yj7-a1-m1-cB_6yj7-a1-m1-cA 6yj8-a1-m1-cB_6yj8-a1-m1-cA 6yja-a1-m1-cB_6yja-a1-m1-cA LEATVGQFMIEADKVAHVQVGNNLEHALLVLTKTGYTAIPVLDPSYRLHGLIGTNMIMNSIFGLERIEFEKLDQITVEEVMLTDIPRLHINDPIMKGFGMVINNGFVCVENDEQVFEGIFTRRVVLKELNKHIRS SLQSDQLLEATVGQFMIEADKVAHVQVGNNLEHALLVLTKTGYTAIPVLDPSYRLHGLIGTNMIMNSIFGLERIEFEKLDQITVEEVMLTDIPRLHINDPIMKGFGMVINNGFVCVENDEQVFEGIFTRRVVLKELNKHIRSL 6yjb-a1-m1-cA_6yjb-a1-m2-cA VcaM4I restriction endonuclease 5hmC-ssDNA complex A0A344KQF3 A0A344KQF3 1.55 X-RAY DIFFRACTION 26 1.0 680 (Vibrio campbellii) 680 (Vibrio campbellii) 309 309 MNYWWVSQKQTFKQEFEGGYMWSPKENKNGTQSHYYNNMTLVQPGDVVFSFANGLILSVGIARSHAYSYNKPTEFGVAGADWANDGWKIDLEYHLVENKIRPKAHIDFIRPYLPQKYSPLQDNGNGNQAYLFSVPHELASKVVELIGSEAEEVIFGFADTTEITTTADAIECQISNDASIDETEKHQLVKSRRGQGIFRSRLEQVESRCRVTGVQLKNHLIASHIKPWAVSNNQERLDGHNGLLLAPHVDHLFDKGFISFEDNGEMIVSEKLNLDVLKAWSISQGNYGYFSKQQQEYMCYHRENVFKKL MNYWWVSQKQTFKQEFEGGYMWSPKENKNGTQSHYYNNMTLVQPGDVVFSFANGLILSVGIARSHAYSYNKPTEFGVAGADWANDGWKIDLEYHLVENKIRPKAHIDFIRPYLPQKYSPLQDNGNGNQAYLFSVPHELASKVVELIGSEAEEVIFGFADTTEITTTADAIECQISNDASIDETEKHQLVKSRRGQGIFRSRLEQVESRCRVTGVQLKNHLIASHIKPWAVSNNQERLDGHNGLLLAPHVDHLFDKGFISFEDNGEMIVSEKLNLDVLKAWSISQGNYGYFSKQQQEYMCYHRENVFKKL 6yk1-a2-m1-cC_6yk1-a2-m1-cD Crystal structure of mouse pyridoxal kinase in complex with ATP-gamma-S and artesunate Q8K183 Q8K183 2.4 X-RAY DIFFRACTION 123 1.0 10090 (Mus musculus) 10090 (Mus musculus) 304 305 6yjz-a1-m1-cA_6yjz-a1-m1-cB 6yjz-a2-m1-cC_6yjz-a2-m1-cD 6yk0-a1-m1-cA_6yk0-a1-m1-cB 6yk0-a2-m1-cC_6yk0-a2-m1-cD 6yk1-a1-m1-cB_6yk1-a1-m1-cA ECRVLSIQSHVVRGYVGNRAAMFPLQVLGFEVDAVNSVQFSNHTGYAHWKGQVLKSQELHELYEGLKVNDVNKYDYVLTGYTRDKSFLAMVVDIVRELKQQNSRLVYVCDPVMGDKSMYVPQDLLPVYRDKVVPVADIITPNQFEAELLSGRKIHSQEEAFEVMDMLHCMGPDTVVITSSDLPSSQGSDYLIALGSQRMRKPDGSTVTQRIRMEMRKVEAVFVGTGDLFAAMLLAWTHKHPDNLKVACEKTVSAMQHVLQRTIRCAKAEAGEGQKPSPAQLELRMVQSKRDIEDPEIVVQATVL ECRVLSIQSHVVRGYVGNRAAMFPLQVLGFEVDAVNSVQFSNHTGYAHWKGQVLKSQELHELYEGLKVNDVNKYDYVLTGYTRDKSFLAMVVDIVRELKQQNSRLVYVCDPVMGDKGSMYVPQDLLPVYRDKVVPVADIITPNQFEAELLSGRKIHSQEEAFEVMDMLHCMGPDTVVITSSDLPSSQGSDYLIALGSQRMRKPDGSTVTQRIRMEMRKVEAVFVGTGDLFAAMLLAWTHKHPDNLKVACEKTVSAMQHVLQRTIRCAKAEAGEGQKPSPAQLELRMVQSKRDIEDPEIVVQATVL 6yk8-a1-m1-cA_6yk8-a1-m1-cB OTU-like deubiquitinase from Legionella -Lpg2529 Q5ZSI8 Q5ZSI8 2.42 X-RAY DIFFRACTION 17 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 271 271 CLYYAYSISLMYYLRAKNNVKITEDIFNKLGLKEEDRARLRKLLSKDPAFTRDEIKTIIEPILGRATRDLAAEHTKVEFKSSPHDTPLFSSLHYAVEFGFKRSLQINESELTLLIDNDFSNPDYTEAEIYKVSGLLDALQEYILTRTPSVIEEFNRQWENKKQSLTEKEIQVHQATILDNILRKETIDFLLAENEKHLDEYREHLRREFVWGSEETLMVLHRAIQGERMVRNEPVYDHEIILHVHRNGASPGSPEMILNNEGNVHWTSIIP CLYYAYSISLMYYLRAKNNVKITEDIFNKLGLKEEDRARLRKLLSKDPAFTRDEIKTIIEPILGRATRDLAAEHTKVEFKSSPHDTPLFSSLHYAVEFGFKRSLQINESELTLLIDNDFSNPDYTEAEIYKVSGLLDALQEYILTRTPSVIEEFNRQWENKKQSLTEKEIQVHQATILDNILRKETIDFLLAENEKHLDEYREHLRREFVWGSEETLMVLHRAIQGERMVRNEPVYDHEIILHVHRNGASPGSPEMILNNEGNVHWTSIIP 6yk9-a2-m1-cB_6yk9-a2-m1-cC [Fe]-hydrogenase from Methanolacinia paynteri with bound guanylylpyridinol at 1.7-A resolution 1.7 X-RAY DIFFRACTION 355 1.0 694436 (Methanolacinia paynteri G-2000) 694436 (Methanolacinia paynteri G-2000) 341 341 6yk9-a1-m1-cA_6yk9-a1-m1-cE 6yka-a1-m1-cA_6yka-a1-m1-cB 6ykb-a1-m1-cA_6ykb-a1-m1-cC TIKKVAILGAGCYRTHSATGITNFARACEVAEMVGKPEIAMTHSTIAMAAELKYLAGIDNIVISDPSFAGEFTVVKDFDYNEVIKAHKENPETIMPKIREKVNELAKTVPKPPKGAIHFVHPEDLGLKVTTDDREAVRDADLIITWLPKGDMQKGIIEKFAGDIKQGAIITHACTIPTTLFYKIFEELGIADKVEVTSYHPGAVPEMKGQVYIAEGYASEEAINTIYELGKKARGHAFKLPAELIGPVCDMCAALTAITYAGLLVYRDAVMNILGAPAGFSQMMATESLEQITAYMKKVGIKNLEENLDPGVFLGTADSMNFGPIAEILPTVLKSLEKRAK TIKKVAILGAGCYRTHSATGITNFARACEVAEMVGKPEIAMTHSTIAMAAELKYLAGIDNIVISDPSFAGEFTVVKDFDYNEVIKAHKENPETIMPKIREKVNELAKTVPKPPKGAIHFVHPEDLGLKVTTDDREAVRDADLIITWLPKGDMQKGIIEKFAGDIKQGAIITHACTIPTTLFYKIFEELGIADKVEVTSYHPGAVPEMKGQVYIAEGYASEEAINTIYELGKKARGHAFKLPAELIGPVCDMCAALTAITYAGLLVYRDAVMNILGAPAGFSQMMATESLEQITAYMKKVGIKNLEENLDPGVFLGTADSMNFGPIAEILPTVLKSLEKRAK 6ykr-a1-m1-cF_6ykr-a1-m1-cG Structure of a protonation mimic of unplugged C. jejuni MotAB A0A0H3PBX6 A0A0H3PBX6 3.0 ELECTRON MICROSCOPY 41 1.0 354242 (Campylobacter jejuni subsp. jejuni 81-176) 354242 (Campylobacter jejuni subsp. jejuni 81-176) 25 26 6ykm-a1-m1-cF_6ykm-a1-m1-cG 6ykp-a1-m1-cF_6ykp-a1-m1-cG KWAVPYANFLSLLLALFIALWAISK KWAVPYANFLSLLLALFIALWAISKT 6ymf-a1-m1-cA_6ymf-a1-m2-cA Crystal structure of serine hydroxymethyltransferase from Aphanothece halophytica in the PLP-Serine external aldimine state I7H6W6 I7H6W6 1.63 X-RAY DIFFRACTION 277 1.0 72020 (Aphanothece halophytica) 72020 (Aphanothece halophytica) 418 418 6ymd-a1-m1-cB_6ymd-a1-m1-cA 6yme-a1-m1-cA_6yme-a1-m2-cA QTNLDFLLQTDPTISGMMQKELQRQREHLELIASENFTSPAVMATQGSVLTNKYAEGLPKKRYYGGCEFIDEIEQVAIDRAKELFGAASANVQPHSGAQANFAVFLTLLKPGDKIMGMDLSHGGHLTHGSPANVSGKWFEAVHYGVSQETEQLDYDHILEVARQERPKLIICGYSAYPRIINFEKFRAIADEVGAYLLADIAHIAGLVASGHHPNPVPHCDVVTTTTHKTLRGPRGGLILTRDPELGKKFNKSVFPGTQGGPLEHVIAGKAVAFGEALKPEFKAYSGQVIANAQAMAQQLQNRGFKIVSGGTDNHLMLVDLRSVNLTGKQADQLVSDVNITANKNTVPFDPESPFVTSGLRLGSPAMTTRGLGTEDFAEIANIIADRLQNPEDEQVKQACVQRVAALCERFPLYPHLN QTNLDFLLQTDPTISGMMQKELQRQREHLELIASENFTSPAVMATQGSVLTNKYAEGLPKKRYYGGCEFIDEIEQVAIDRAKELFGAASANVQPHSGAQANFAVFLTLLKPGDKIMGMDLSHGGHLTHGSPANVSGKWFEAVHYGVSQETEQLDYDHILEVARQERPKLIICGYSAYPRIINFEKFRAIADEVGAYLLADIAHIAGLVASGHHPNPVPHCDVVTTTTHKTLRGPRGGLILTRDPELGKKFNKSVFPGTQGGPLEHVIAGKAVAFGEALKPEFKAYSGQVIANAQAMAQQLQNRGFKIVSGGTDNHLMLVDLRSVNLTGKQADQLVSDVNITANKNTVPFDPESPFVTSGLRLGSPAMTTRGLGTEDFAEIANIIADRLQNPEDEQVKQACVQRVAALCERFPLYPHLN 6ymh-a1-m1-cAAA_6ymh-a1-m1-cBBB X-ray structure of the K72I, Y129F, R133L, H199A quadruple mutant of PNP-oxidase from E. coli in complex with PLP P0AFI7 P0AFI7 2.417 X-RAY DIFFRACTION 124 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 153 202 1wv4-a1-m1-cB_1wv4-a1-m1-cA YTKGGLRRRDLPADPLTLFERWLSQACEAKLADPTAMVVATVDEHGQPYQRIVLLIHYDEKGMVFYTNLGSRKAHQIENNPRVSLLFPWHTLERQVMVIGKAERLSTLEVSFWGGFRVSLEQIEFWQGGEHRLADRFLYQRENDAWKIDRLAP RREYTKGGLRRRDLPADPLTLFERWLSQACEAKLADPTAMVVATVDEHGQPYQRIVLLIHYDEKGMVFYTNLGSRKAHQIENNPRVSLLFPWHTLERQVMVIGKAERLSTLEVMKFFHSLPRDSQIGAWVSKQSSRISARGILESKFLELKQKGEVPLPSFWGGFRVSLEQIEFWQGGEHRLADRFLYQRENDAWKIDRLAP 6yn7-a1-m1-cC_6yn7-a1-m1-cA Crystal Structure of AHE enzyme from Alicyclobacillus herbarius 1.98 X-RAY DIFFRACTION 23 1.0 122960 (Alicyclobacillus herbarius) 122960 (Alicyclobacillus herbarius) 440 447 REFISFPQDFLFGTATASYQIEGAVHEDGRGESIWDRFSHTPGKVYQGHTGDVACDHYHRYREDVALMKELGIPAYRFSIAWPRIFPEKGMKNEAGLDFYRRLLEALHEADIRSFVTLYHWDLPQWLQDRGGWANRDTAEYFAEYASLIYERLGDGIDAFITHNEPWCAAFLGHGFGVHAPGHTDWREAFQAAHHILYSHGLAVQAHRASSHKGQIGITLNFTWVDAATDSATDQAAAEVSHAFNNRWFLEPVAGRGYPQEFQQLVEQRIGQFDFVRQGDLAVIAEPIDFLGINFYTRSVVAANDALFGLRTLEANRTEMGWEIHPDSLYRLLTWVQSVTGQLPLYITENGAAFADEPVNGRVEDVRRIHYIADHLEAAKRFVDAGGPLKGYFLWSFMDNFEWALGYSKRFGMVYVDYESQQRLVKDSGRWFSEQIAAHK TREFISFPQDFLFGTATASYQIEGAVHEDGRGESIWDRFSHTPGKVYQGHTGDVACDHYHRYREDVALMKELGIPAYRFSIAWPRIFPEKGMKNEAGLDFYRRLLEALHEADIRSFVTLYHWDLPQWLQDRGGWANRDTAEYFAEYASLIYERLGDGIDAFITHNEPWCAAFLGHGFGVHAPGHTDWREAFQAAHHILYSHGLAVQAHRASSHKGQIGITLNFTWVDAATDSATDQAAAEVSHAFNNRWFLEPVAGRGYPQEFQQLVEQRIGQFDFVRQGDLAVIAEPIDFLGINFYTRSVVAANPDDALFGLRTLEADNRTEMGWEIHPDSLYRLLTWVQSVTGQLPLYITENGAAFADEPVNGRVEDVRRIHYIADHLEAAKRFVDAGGPLKGYFLWSFMDNFEWALGYSKRFGMVYVDYESQQRLVKDSGRWFSEQIAAHKGQV 6yn7-a1-m1-cC_6yn7-a1-m1-cD Crystal Structure of AHE enzyme from Alicyclobacillus herbarius 1.98 X-RAY DIFFRACTION 36 0.995 122960 (Alicyclobacillus herbarius) 122960 (Alicyclobacillus herbarius) 440 440 6yn7-a1-m1-cA_6yn7-a1-m1-cB REFISFPQDFLFGTATASYQIEGAVHEDGRGESIWDRFSHTPGKVYQGHTGDVACDHYHRYREDVALMKELGIPAYRFSIAWPRIFPEKGMKNEAGLDFYRRLLEALHEADIRSFVTLYHWDLPQWLQDRGGWANRDTAEYFAEYASLIYERLGDGIDAFITHNEPWCAAFLGHGFGVHAPGHTDWREAFQAAHHILYSHGLAVQAHRASSHKGQIGITLNFTWVDAATDSATDQAAAEVSHAFNNRWFLEPVAGRGYPQEFQQLVEQRIGQFDFVRQGDLAVIAEPIDFLGINFYTRSVVAANDALFGLRTLEANRTEMGWEIHPDSLYRLLTWVQSVTGQLPLYITENGAAFADEPVNGRVEDVRRIHYIADHLEAAKRFVDAGGPLKGYFLWSFMDNFEWALGYSKRFGMVYVDYESQQRLVKDSGRWFSEQIAAHK REFISFPQDFLFGTATASYQIEGAVHEDGRGESIWDRFSHTPGKVYQGHTGDVACDHYHRYREDVALMKELGIPAYRFSIAWPRIFPEKGMKNEAGLDFYRRLLEALHEADIRSFVTLYHWDLPQWLQDRGGWANRDTAEYFAEYASLIYERLGDGIDAFITHNEPWCAAFLGHGFGVHAPGHTDWREAFQAAHHILYSHGLAVQAHRASSHKGQIGITLNFTWVDAATDSATDQAAAEVSHAFNNRWFLEPVAGRGYPQEFQQLVEQRIGQFDFVRQGDLAVIAEPIDFLGINFYTRSVVAANPDALFGLRTLEDNRTEMGWEIHPDSLYRLLTWVQSVTGQLPLYITENGAAFADEPVNGRVEDVRRIHYIADHLEAAKRFVDAGGPLKGYFLWSFMDNFEWALGYSKRFGMVYVDYESQQRLVKDSGRWFSEQIAAH 6yns-a1-m1-ca_6yns-a1-m1-cc CaM-P458 complex (crystal form 2) P0DKX7 P0DKX7 3.94 X-RAY DIFFRACTION 40 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 24 24 6yns-a2-m1-cb_6yns-a2-m1-ck 6yns-a3-m1-cd_6yns-a3-m1-ce 6yns-a4-m1-cf_6yns-a4-m1-cg 6yns-a5-m1-ch_6yns-a5-m1-ci 6yns-a6-m1-cj_6yns-a6-m1-cl WGQRALQGAQAVAAAQRLVHAIAL WGQRALQGAQAVAAAQRLVHAIAL 6yns-a2-m1-cY_6yns-a2-m1-cO CaM-P458 complex (crystal form 2) P0DKX7 P0DKX7 3.94 X-RAY DIFFRACTION 33 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 22 24 6yns-a3-m1-cS_6yns-a3-m1-cR 6yns-a5-m1-cW_6yns-a5-m1-cV GQRALQGAQAVAAAQRLVHAIA WGQRALQGAQAVAAAQRLVHAIAL 6yns-a4-m1-cG_6yns-a4-m1-cF CaM-P458 complex (crystal form 2) P0DP23 P0DP23 3.94 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 138 142 6yns-a1-m1-cC_6yns-a1-m1-cA EEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK TEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMTDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK 6yns-a6-m1-cJ_6yns-a6-m1-cL CaM-P458 complex (crystal form 2) P0DP23 P0DP23 3.94 X-RAY DIFFRACTION 20 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 131 140 6yns-a5-m1-cH_6yns-a5-m1-cI EFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMASEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTAK EEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMKDSEEEIREAFRVFDKDGNGYISAAELRHVMTNLGEKLTDEEVDEMIREADIDGDGQVNYEEFVQMMTA 6yns-a6-m1-cX_6yns-a6-m1-cZ CaM-P458 complex (crystal form 2) P0DKX7 P0DKX7 3.94 X-RAY DIFFRACTION 37 1.0 520 (Bordetella pertussis) 520 (Bordetella pertussis) 20 22 RALQGAQAVAAAQRLVHAIA GQRALQGAQAVAAAQRLVHAIA 6ynz-a1-m1-cA3_6ynz-a1-m1-ca3 Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model Q951C1 Q951C1 3.1 ELECTRON MICROSCOPY 11 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 433 433 6ynx-a1-m1-cA_6ynx-a1-m1-ca 6yny-a1-m1-cA_6yny-a1-m1-ca 6ynz-a1-m1-cA_6ynz-a1-m1-ca YEDFVFTTPYFQPESTFKSVPKLFSDILLGGVEWVYTTSESVLAYDYKLWYLWSGVSNLDESFDMFFNQYWALSLSTSVFQLFYAVILDRYLSVLFQNTPYTNDWFRMMLHSKETALIWLYHPELSWHINGLNQFFTYFYGGILEFVYFDKSNPDMCILVHTLWIHLLILFLIFTGFVTILFSFYGNPNTEENTIDSDYLAASGTVEAEKEITSIDDYLGLVFAIAYVFGVFFYVHGWTSMLSHAVLLLSCYSIIIMFLFILGMPTLLLYDFGIFFLAYLKGAGKYISSVAEMMFDYTACLVFYIRILAQWIRVVLMVVTFISLSHYVSDFDITNSALIGSENQSDSMNELNTNFSMTYYILTVLPGKFIYWIYEILHTFFVVCSQFVAFFAIVFWLFLFLYTFFIIEKHEDFFSKKREERKKKLKELWNLKN YEDFVFTTPYFQPESTFKSVPKLFSDILLGGVEWVYTTSESVLAYDYKLWYLWSGVSNLDESFDMFFNQYWALSLSTSVFQLFYAVILDRYLSVLFQNTPYTNDWFRMMLHSKETALIWLYHPELSWHINGLNQFFTYFYGGILEFVYFDKSNPDMCILVHTLWIHLLILFLIFTGFVTILFSFYGNPNTEENTIDSDYLAASGTVEAEKEITSIDDYLGLVFAIAYVFGVFFYVHGWTSMLSHAVLLLSCYSIIIMFLFILGMPTLLLYDFGIFFLAYLKGAGKYISSVAEMMFDYTACLVFYIRILAQWIRVVLMVVTFISLSHYVSDFDITNSALIGSENQSDSMNELNTNFSMTYYILTVLPGKFIYWIYEILHTFFVVCSQFVAFFAIVFWLFLFLYTFFIIEKHEDFFSKKREERKKKLKELWNLKN 6ynz-a1-m1-cB3_6ynz-a1-m1-cb3 Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model I7MJ84 I7MJ84 3.1 ELECTRON MICROSCOPY 66 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 354 354 6ynx-a1-m1-cB_6ynx-a1-m1-cb 6yny-a1-m1-cB_6yny-a1-m1-cb 6ynz-a1-m1-cB_6ynz-a1-m1-cb QVAQANYSKFRADYSASVAAFQQRIKTIEKENTGSMKKPMAKAYEHPYNSEHHPLNFSAVKIAETFHDFIGPEQVSPHYESFAMSRKFLLTFWGGFFVLNFGMATVDLNWIMKSTYIPWIFWFQLMYFYVEGKNSMFMPLLQRFYRRAAANEIFTMEAFYHENIENKLRNLMRITKGQLEYWDIHTSYGEIRADSINNFLANEYLRLQSHITSRALNILKQAQAYETMNQAALLQKLIDDATSAIDNALKGDKKAEVLARSLDSAIDGLSKGYMDYQNDPLLPLILSSIEANVKKITTLSAQEQANLIGLTAEQLKSIKENDVRARKEFLESQPKLDNNLKNIESVKKILATWG QVAQANYSKFRADYSASVAAFQQRIKTIEKENTGSMKKPMAKAYEHPYNSEHHPLNFSAVKIAETFHDFIGPEQVSPHYESFAMSRKFLLTFWGGFFVLNFGMATVDLNWIMKSTYIPWIFWFQLMYFYVEGKNSMFMPLLQRFYRRAAANEIFTMEAFYHENIENKLRNLMRITKGQLEYWDIHTSYGEIRADSINNFLANEYLRLQSHITSRALNILKQAQAYETMNQAALLQKLIDDATSAIDNALKGDKKAEVLARSLDSAIDGLSKGYMDYQNDPLLPLILSSIEANVKKITTLSAQEQANLIGLTAEQLKSIKENDVRARKEFLESQPKLDNNLKNIESVKKILATWG 6ynz-a1-m1-cF3_6ynz-a1-m1-cf3 Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model Q24I07 Q24I07 3.1 ELECTRON MICROSCOPY 75 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 200 200 6ynx-a1-m1-cF_6ynx-a1-m1-cf 6yny-a1-m1-cF_6yny-a1-m1-cf 6ynz-a1-m1-cF_6ynz-a1-m1-cf SLHEKMQTDYLWVKDHSQADSWAKARTHGYNYIAHTVPNKKERYEMIWRSMGKSTDWELEKFRLGKKFPDRGNKRRWFKNLFRLIKNPMGYIFWKTYKARLAKPSLIVTSMFIGFTLGFIKLKAQSIAYSKKQYATLRAGKNIEGSGQVHFGYHDQKWGMPAIPMFQLMYYELPGNSIVVNPCRNQNYRLYFEMRKKLGI SLHEKMQTDYLWVKDHSQADSWAKARTHGYNYIAHTVPNKKERYEMIWRSMGKSTDWELEKFRLGKKFPDRGNKRRWFKNLFRLIKNPMGYIFWKTYKARLAKPSLIVTSMFIGFTLGFIKLKAQSIAYSKKQYATLRAGKNIEGSGQVHFGYHDQKWGMPAIPMFQLMYYELPGNSIVVNPCRNQNYRLYFEMRKKLGI 6ynz-a1-m1-cI3_6ynz-a1-m1-ci Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model I7LZW2 I7LZW2 3.1 ELECTRON MICROSCOPY 14 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 209 209 MNPIQKAWLKILEPVSYVINEKMAKRTGIIGKLGRFFAIGPREYGVHPINRMFIFMNRKYMAFQAVALHRYSFVKSLTHNGFHMLRVFRHFAFVLPATVLAGLGLFVYWGDDNKCYSPDRFPYLKKRAGDMALPLNSLNQRTSAHYIEINAIYGAEMMKRYHKVWENIIEERSKATDQEKKTRYAHPSYQYSPLPVVSIPNVLNPLNLQ MNPIQKAWLKILEPVSYVINEKMAKRTGIIGKLGRFFAIGPREYGVHPINRMFIFMNRKYMAFQAVALHRYSFVKSLTHNGFHMLRVFRHFAFVLPATVLAGLGLFVYWGDDNKCYSPDRFPYLKKRAGDMALPLNSLNQRTSAHYIEINAIYGAEMMKRYHKVWENIIEERSKATDQEKKTRYAHPSYQYSPLPVVSIPNVLNPLNLQ 6ynz-a1-m1-cL3_6ynz-a1-m1-cl Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model I7MCQ6 I7MCQ6 3.1 ELECTRON MICROSCOPY 30 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 246 246 PVKEGQAKLWFSTKEEADAYDDKMISNIELKSQDYEDENFSPVFNRKTQEYFLEPSEKFKSDFAELLRPLRSLSFNQVVDRYVLIPPNHTFYRNWTYEKFLGGFGLSYLILRELPLRNFYARVFVMYAFAAKVLDHLGNPFPFSGHGQIVAAADRWNHWDVRCYDNVMKALKYIRIPTVQNNIPEATRWYGRQPGHLLRADTYWIPNLVSQRFAKHQPAHWDGTQNMPIFRLADPKHKDSYMVQFR PVKEGQAKLWFSTKEEADAYDDKMISNIELKSQDYEDENFSPVFNRKTQEYFLEPSEKFKSDFAELLRPLRSLSFNQVVDRYVLIPPNHTFYRNWTYEKFLGGFGLSYLILRELPLRNFYARVFVMYAFAAKVLDHLGNPFPFSGHGQIVAAADRWNHWDVRCYDNVMKALKYIRIPTVQNNIPEATRWYGRQPGHLLRADTYWIPNLVSQRFAKHQPAHWDGTQNMPIFRLADPKHKDSYMVQFR 6ynz-a1-m1-cR3_6ynz-a1-m1-cr3 Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model I7M0G0 I7M0G0 3.1 ELECTRON MICROSCOPY 37 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 140 145 6ynx-a1-m1-cR_6ynx-a1-m1-cr 6yny-a1-m1-cR_6yny-a1-m1-cr 6ynz-a1-m1-cR_6ynz-a1-m1-cr PQLWPNPNKLRFADLYKYQGVEMKKINDSIKNYKAAKFYIGGILGGCLVFKFFIDAAVDKYIFGENGNGGKFLEMQTINSNYDYYYNRQFQRMRYLTEDPAGDDPLQKTKDEHLVDLGFIPKVFGANVEVRKRAPHDKYL PKIVNPQLWPNPNKLRFADLYKYQGVEMKKINDSIKNYKAAKFYIGGILGGCLVFKFFIDAAVDKYIFGENGNGGKFLEMQTINSNYDYYYNRQFQRMRYLTEDPAGDDPLQKTKDEHLVDLGFIPKVFGANVEVRKRAPHDKYL 6ynz-a1-m1-ci5_6ynz-a1-m1-ci4 Cryo-EM structure of Tetrahymena thermophila mitochondrial ATP synthase - F1Fo composite tetramer model I7M7C0 I7M7C0 3.1 ELECTRON MICROSCOPY 31 1.0 5911 (Tetrahymena thermophila) 5911 (Tetrahymena thermophila) 64 68 6ynx-a1-m1-ci1_6ynx-a1-m1-ci2 6yny-a1-m1-ci2_6yny-a1-m1-ci1 6ynz-a1-m1-ci2_6ynz-a1-m1-ci1 TREEEWLDKRTKSQEKVYFDQEDRKAMKRLLEKLNTLEVENILKRYHINYTQALIDELVDWKTG TREEEWLDKRTKSQEKVYFDQEDRKAMKRLLEKLNTAPQNLEVENILKRYHINYTQALIDELVDWKTG 6yoa-a1-m1-cB_6yoa-a1-m1-cA Lig v 1 structure and the inflammatory response to the Ole e 1 protein family O82015 O82015 2.83 X-RAY DIFFRACTION 88 1.0 13597 (Ligustrum vulgare) 13597 (Ligustrum vulgare) 137 138 SQFYIQGQVYCDTCRARFITELSEFIPGAGVRLQCKDGENGKITFTEVGYTRAEGLYSMLIERDHKNEFCEITLLSSSRKDCDEIPIEGWVKPSLKFMLNTVNGTTRTINPLGFFKKEALPKCPQVFNKLGMYPPNM VSQFYIQGQVYCDTCRARFITELSEFIPGAGVRLQCKDGENGKITFTEVGYTRAEGLYSMLIERDHKNEFCEITLLSSSRKDCDEIPIEGWVKPSLKFMLNTVNGTTRTINPLGFFKKEALPKCPQVFNKLGMYPPNM 6yp4-a1-m1-cA_6yp4-a1-m2-cA Putative adenylyl cyclase HpAC1 from Hippeastrum reveals a dominant triphophatase activity E1AQY1 E1AQY1 1.94541 X-RAY DIFFRACTION 51 1.0 679627 (Hippeastrum hybrid cultivar) 679627 (Hippeastrum hybrid cultivar) 210 210 MEIEIKLRLPSPSAHQLLSDALSPFHLKTHLQHNLFFDTAAGDLASVFSALRIRFYDANAKCVLSLKSRPKLSEGVSHVEEDEEEIDPQIGQEVTANPSKMGSLLEKSRIWRRVVDEIGVADDGGEFVCLGGFRNVRAVYRWVEGLILELDETEYGFGTSYEIECETTEPERVKGLLEGFLKEKGIPYEYSGASKFAVFRSGKLLPLEHH MEIEIKLRLPSPSAHQLLSDALSPFHLKTHLQHNLFFDTAAGDLASVFSALRIRFYDANAKCVLSLKSRPKLSEGVSHVEEDEEEIDPQIGQEVTANPSKMGSLLEKSRIWRRVVDEIGVADDGGEFVCLGGFRNVRAVYRWVEGLILELDETEYGFGTSYEIECETTEPERVKGLLEGFLKEKGIPYEYSGASKFAVFRSGKLLPLEHH 6yq0-a1-m1-cAAA_6yq0-a1-m1-cBBB Promiscuous Reductase LugOII Catalyzes Keto-reduction at C1 during Lugdunomycin Biosynthesis A0A2S6PN47 A0A2S6PN47 1.08 X-RAY DIFFRACTION 99 1.0 2093747 (Streptomyces sp. QL37) 2093747 (Streptomyces sp. QL37) 254 254 6ypz-a1-m1-cBBB_6ypz-a1-m1-cAAA 6yq3-a1-m1-cAAA_6yq3-a1-m1-cBBB 6yq6-a1-m1-cAAA_6yq6-a1-m1-cBBB SRLTGKNALVTGSSRGIGRATAVRLAREGALVAVHYASNEAAADETVAQIEREGGRAFPVRAELGVAGDVHELFLGLEQGLKERTGETTLDILVNNAAVTGVDGILPEDVTAEQLDRYYAVNAKAPFLLVQRAVRNMPDGGRIINISSGLTRCAVPEQVAYSMTKGALEQITLHMAKHLAPRGITVNSVAPGITDNGGAVFDIPEIVEQMAQSSAFKRVGEAGDVADVVTFIATDESRWITGAFIDASGGTLLG SRLTGKNALVTGSSRGIGRATAVRLAREGALVAVHYASNEAAADETVAQIEREGGRAFPVRAELGVAGDVHELFLGLEQGLKERTGETTLDILVNNAAVTGVDGILPEDVTAEQLDRYYAVNAKAPFLLVQRAVRNMPDGGRIINISSGLTRCAVPEQVAYSMTKGALEQITLHMAKHLAPRGITVNSVAPGITDNGGAVFDIPEIVEQMAQSSAFKRVGEAGDVADVVTFIATDESRWITGAFIDASGGTLLG 6yq9-a3-m1-cAAA_6yq9-a3-m1-cBBB Taka-amylase in complex with alpha-glucosyl epi-cyclophellitol epoxide inhibitor A0A1S9DH83 A0A1S9DH83 1.55 X-RAY DIFFRACTION 45 1.0 5062 (Aspergillus oryzae) 5062 (Aspergillus oryzae) 476 476 ATPADWRSQSIYFLLTDRFARTDGSTTATCNTADQKYCGGTWQGIIDKLDYIQGMGFTAIWITPVTAQLPQTTAYGDAYHGYWQQDIYSLNENYGTADDLKALSSALHERGMYLMVDVVANHMGYDGAGSSVDYSVFKPFSSQDYFHPFCFIQNYEDQTQVEDCWLGDNTVSLPDLDTTKDVVKNEWYDWVGSLVSNYSIDGLRIDTVKHVQKDFWPGYNKAAGVYCIGEVLDGDPAYTCPYQNVMDGVLNYPIYYPLLNAFKSTSGSMDDLYNMINTVKSDCPDSTLLGTFVENHDNPRFASYTNDIALAKNVAAFIILNDGIPIIYAGQEQHYAGGNDPANREATWLSGYPTDSELYKLIASANAIRNYAISKDTGFVTYKNWPIYKDDTTIAMRKGTDGSQIVTILSNKGASGDSYTLSLSGAGYTAGQQLTEVIGCTTVTVGSDGNVPVPMAGGLPRVLYPTEKLAGSKICS ATPADWRSQSIYFLLTDRFARTDGSTTATCNTADQKYCGGTWQGIIDKLDYIQGMGFTAIWITPVTAQLPQTTAYGDAYHGYWQQDIYSLNENYGTADDLKALSSALHERGMYLMVDVVANHMGYDGAGSSVDYSVFKPFSSQDYFHPFCFIQNYEDQTQVEDCWLGDNTVSLPDLDTTKDVVKNEWYDWVGSLVSNYSIDGLRIDTVKHVQKDFWPGYNKAAGVYCIGEVLDGDPAYTCPYQNVMDGVLNYPIYYPLLNAFKSTSGSMDDLYNMINTVKSDCPDSTLLGTFVENHDNPRFASYTNDIALAKNVAAFIILNDGIPIIYAGQEQHYAGGNDPANREATWLSGYPTDSELYKLIASANAIRNYAISKDTGFVTYKNWPIYKDDTTIAMRKGTDGSQIVTILSNKGASGDSYTLSLSGAGYTAGQQLTEVIGCTTVTVGSDGNVPVPMAGGLPRVLYPTEKLAGSKICS 6yqf-a2-m1-cB_6yqf-a2-m2-cB Crystal structure of the SYCE2-TEX12 delta-Ctip complex in a 4:4 assembly Q6PIF2 Q6PIF2 3.33 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 90 SSLDSSIDILQKRAQELIENINKSRQKDHALMTNFRNSLKTKVSDLTEKLEERIYQIYNDHNKIIQEKLQEFTQKMAKISHLETELKQVC SSLDSSIDILQKRAQELIENINKSRQKDHALMTNFRNSLKTKVSDLTEKLEERIYQIYNDHNKIIQEKLQEFTQKMAKISHLETELKQVC 6yqf-a2-m2-cB_6yqf-a2-m1-cA Crystal structure of the SYCE2-TEX12 delta-Ctip complex in a 4:4 assembly Q6PIF2 Q6PIF2 3.33 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 94 6yqf-a2-m1-cB_6yqf-a2-m2-cA SSLDSSIDILQKRAQELIENINKSRQKDHALMTNFRNSLKTKVSDLTEKLEERIYQIYNDHNKIIQEKLQEFTQKMAKISHLETELKQVC GLYFSSLDSSIDILQKRAQELIENINKSRQKDHALMTNFRNSLKTKVSDLTEKLEERIYQIYNDHNKIIQEKLQEFTQKMAKISHLETELKQVC 6yqf-a2-m2-cB_6yqf-a2-m2-cA Crystal structure of the SYCE2-TEX12 delta-Ctip complex in a 4:4 assembly Q6PIF2 Q6PIF2 3.33 X-RAY DIFFRACTION 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 90 94 6r17-a1-m1-cA_6r17-a1-m1-cB 6yqf-a1-m1-cB_6yqf-a1-m1-cA 6yqf-a2-m1-cB_6yqf-a2-m1-cA SSLDSSIDILQKRAQELIENINKSRQKDHALMTNFRNSLKTKVSDLTEKLEERIYQIYNDHNKIIQEKLQEFTQKMAKISHLETELKQVC GLYFSSLDSSIDILQKRAQELIENINKSRQKDHALMTNFRNSLKTKVSDLTEKLEERIYQIYNDHNKIIQEKLQEFTQKMAKISHLETELKQVC 6ys4-a3-m1-cF_6ys4-a3-m1-cE Structure of the Homo sapiens SAS-6 coiled-coil domain Q6UVJ0 Q6UVJ0 2.11 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 102 6ys4-a1-m1-cB_6ys4-a1-m1-cA 6ys4-a2-m1-cD_6ys4-a2-m1-cC GPSQELTNEKEKALQAQVQYQQQHEQQKKDLEILHQQNIHQLQNRSELEAANKDLTERKYKGDSTIRELKAKLSGVEEELQRTKQEVLSLRRENSTLDVE GPSQELTNEKEKALQAQVQYQQQHEQQKKDLEILHQQNIHQLQNRSELEAANKDLTERKYKGDSTIRELKAKLSGVEEELQRTKQEVLSLRRENSTLDVECH 6ys8-a1-m1-cA_6ys8-a1-m1-cB Structure of GldLM, the proton-powered motor that drives protein transport and gliding motility Q5EGM3 Q5EGM3 3.9 ELECTRON MICROSCOPY 89 1.0 986 (Flavobacterium johnsoniae) 986 (Flavobacterium johnsoniae) 218 219 TPRQKMINLMYLVFIAMLAMNVSKEVISAFGLMNEKFEAANTSSVTTNESLLTSLDQKAAEAKGEFAKAAETAHKVQAASKEFYDYIGTLKTQAVKGFEVDKETGKMPYEAMDRGDNIDDWFTGDGYTKKGNEIIAKIEKYKSDIKAALGTDKKYAGIISEVEKKFDVSDVKNKEGIKEKYLAYHFKGFPAIASAAKLSAWQNDVKKTEADVYNSALG TPRQKMINLMYLVFIAMLAMNVSKEVISAFGLMNEKFEAANTSSVTTNESLLTSLDQKAAEAKGEFAKAAETAHKVQAASKEFYDYIGTLKTQAVKGFEVDKETGKMPYEAMDRGDNIDDWFTGDGYTKKGNEIIAKIEKYKSDIKAALGTDKKYAGIISEVEKKFDVSDVKNKEGIKEKYLAYHFKGFPAIASAAKLSAWQNDVKKTEADVYNSALGK 6ys8-a1-m1-cF_6ys8-a1-m1-cG Structure of GldLM, the proton-powered motor that drives protein transport and gliding motility Q5EGM4 Q5EGM4 3.9 ELECTRON MICROSCOPY 39 1.0 986 (Flavobacterium johnsoniae) 986 (Flavobacterium johnsoniae) 60 60 6ys8-a1-m1-cC_6ys8-a1-m1-cD 6ys8-a1-m1-cC_6ys8-a1-m1-cG 6ys8-a1-m1-cD_6ys8-a1-m1-cE 6ys8-a1-m1-cE_6ys8-a1-m1-cF LLSKKVMNFAYGMGAAVVIVGALFKITHFEIGPLTGTVMLSIGLLTEALIFALSAFEPVE LLSKKVMNFAYGMGAAVVIVGALFKITHFEIGPLTGTVMLSIGLLTEALIFALSAFEPVE 6ysf-a1-m1-cA_6ysf-a1-m1-cB Structure of the flagellar MotAB stator complex from Clostridium sporogenes A0A1V9IL35 A0A1V9IL35 3.4 ELECTRON MICROSCOPY 33 1.0 1509 (Clostridium sporogenes) 1509 (Clostridium sporogenes) 29 33 IRGDEWLATFSDTITLLLTFFILLYSFSS GDEIRGDEWLATFSDTITLLLTFFILLYSFSSV 6ysf-a1-m1-cC_6ysf-a1-m1-cD Structure of the flagellar MotAB stator complex from Clostridium sporogenes 3.4 ELECTRON MICROSCOPY 144 1.0 1509 (Clostridium sporogenes) 1509 (Clostridium sporogenes) 252 252 6ysf-a1-m1-cC_6ysf-a1-m1-cG 6ysf-a1-m1-cD_6ysf-a1-m1-cE 6ysf-a1-m1-cE_6ysf-a1-m1-cF 6ysf-a1-m1-cG_6ysf-a1-m1-cF TPIGFVLCFGLVLWGMASGGSNLKVFWDVASVFITIGGSMAAMLITYPMDEFKRLLIVIRQTFKDNGMSNIDVIQNFVDLSRKARREGLLSLEDAINNLTDDYMKKGLRMVVDGIEPETIREIMELEIDEMEKRHKSGADMLKTWGGYAPAFGMVGTLIGLIQMLANLTDSSTIASGMGKALITTFYGSLMANAVFNPMGANLMFKSGVEATTREMVLEGVLAIQSGVNPRIMEEKLVSYLSPPERQAYSKV TPIGFVLCFGLVLWGMASGGSNLKVFWDVASVFITIGGSMAAMLITYPMDEFKRLLIVIRQTFKDNGMSNIDVIQNFVDLSRKARREGLLSLEDAINNLTDDYMKKGLRMVVDGIEPETIREIMELEIDEMEKRHKSGADMLKTWGGYAPAFGMVGTLIGLIQMLANLTDSSTIASGMGKALITTFYGSLMANAVFNPMGANLMFKSGVEATTREMVLEGVLAIQSGVNPRIMEEKLVSYLSPPERQAYSKV 6ysl-a1-m1-cB_6ysl-a1-m1-cA Structure of the flagellar MotAB stator complex from Bacillus subtilis P28612 P28612 3.5 ELECTRON MICROSCOPY 35 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 25 26 DESWLVPYADILTLLLALFIVLYAS VDESWLVPYADILTLLLALFIVLYAS 6ysl-a1-m1-cC_6ysl-a1-m1-cD Structure of the flagellar MotAB stator complex from Bacillus subtilis P28611 P28611 3.5 ELECTRON MICROSCOPY 140 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 255 255 6ysl-a1-m1-cD_6ysl-a1-m1-cE 6ysl-a1-m1-cF_6ysl-a1-m1-cE 6ysl-a1-m1-cF_6ysl-a1-m1-cG 6ysl-a1-m1-cG_6ysl-a1-m1-cC DKTSLIGIILAFVALSVGMVLKGVSFSALANPAAILIIIAGTISAVVIAFPTKEIKKVPTLFRVLFKENKQLTIEELIPMFSEWAQLARREGLLALEASIEDVDDAFLKNGLSMAVDGQSAEFIRDIMTEEVEAMEDRHQAGAAIFTQAGTYAPTLGVLGAVIGLIAALSHMDNTDELGHAISAAFVATLLGIFTGYVLWHPFANKLKRKSKQEVKLREVMIEGVLSVLEGQAPKVIEQKLLMYLPAKDRLKFAE DKTSLIGIILAFVALSVGMVLKGVSFSALANPAAILIIIAGTISAVVIAFPTKEIKKVPTLFRVLFKENKQLTIEELIPMFSEWAQLARREGLLALEASIEDVDDAFLKNGLSMAVDGQSAEFIRDIMTEEVEAMEDRHQAGAAIFTQAGTYAPTLGVLGAVIGLIAALSHMDNTDELGHAISAAFVATLLGIFTGYVLWHPFANKLKRKSKQEVKLREVMIEGVLSVLEGQAPKVIEQKLLMYLPAKDRLKFAE 6ytu-a1-m1-cB_6ytu-a1-m1-cA Atomic-resolution structure of the coiled-coil dimerisation domain of human Arc Q7LC44 Q7LC44 0.95 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 33 34 QETIANLERWVKREMHVWREVFYRLERWADRLE QETIANLERWVKREMHVWREVFYRLERWADRLES 6ytz-a1-m1-cA_6ytz-a1-m2-cA Crystal structure of Malus domestica Double Bond Reductase (MdDBR) in complex with NADPH 1.4 X-RAY DIFFRACTION 95 1.0 3750 (Malus domestica) 3750 (Malus domestica) 351 351 GLMAASTEGVISNKQVILKDYVTGFPKESDMQLTTATTKLKLPEGSKGVLVKNLYLSCDPYMRSRMTKREPGASYVDSFDAGSPIVGYGVAKVLESGDPKFKKGDLIWGMTGWEEYSVITSTESLFKIQHIDVPLSYYTGILGMPGMTAYAGFYEICNPKKGETVFVSAASGAVGQLVGQFAKLLGCYVVGSAGSKEKVDLLKNKFGFDNAFNYKEEPDLDAALKRYFPEGIDIYFENVGGVMLDAVLPNMRVHGRIAVCGLISQYNIAAAEGCRNLMYLIIKQVRMQGFLVFSYYHLYEKFLEMVLPAIKEGKLTYVEDVVEGLESAPAALIGLYAGRNVGKQVVVVSRE GLMAASTEGVISNKQVILKDYVTGFPKESDMQLTTATTKLKLPEGSKGVLVKNLYLSCDPYMRSRMTKREPGASYVDSFDAGSPIVGYGVAKVLESGDPKFKKGDLIWGMTGWEEYSVITSTESLFKIQHIDVPLSYYTGILGMPGMTAYAGFYEICNPKKGETVFVSAASGAVGQLVGQFAKLLGCYVVGSAGSKEKVDLLKNKFGFDNAFNYKEEPDLDAALKRYFPEGIDIYFENVGGVMLDAVLPNMRVHGRIAVCGLISQYNIAAAEGCRNLMYLIIKQVRMQGFLVFSYYHLYEKFLEMVLPAIKEGKLTYVEDVVEGLESAPAALIGLYAGRNVGKQVVVVSRE 6yu9-a2-m1-cC_6yu9-a2-m1-cD CO-dehydrogenase homodimer from Clostridium autoethanogenum at 1.90-A resolution U5RSY1 U5RSY1 1.904 X-RAY DIFFRACTION 316 1.0 1341692 (Clostridium autoethanogenum DSM 10061) 1341692 (Clostridium autoethanogenum DSM 10061) 626 628 6ytt-a1-m1-cB_6ytt-a1-m1-cC 6yu9-a1-m1-cB_6yu9-a1-m1-cA 6yua-a1-m1-cB_6yua-a1-m1-cC KAKSIDQATLQLLDKAKQDGVETVWDRKADMKVQCGFGSAGVCCRNCSMGPCRVSPVPGKGVERGICGATADVIVSRNFARMVAAGTAAHSDHGRSIALSLYHTSKDGDIKVKDENKLKEVAKSFNVETEGRDIYDIAHDVAKEGLSNYGKQLGEVTLPPSLPEKRKELWRKLGVYPRAVDREIAAVMHSTHIGCNADAEAMIKMSMRCSLTDGWMGSFMGTEFSDIMFGTPHSIDTEANLGVLEKNSVNVVLHGHEPLLSEMVVEAASDPELVELAKSVGADGINLCGMCCTGNEVSMRHGIKIAGNFMQQELAVVTGAVDGLIVDVQCIMPALAKLSKSYHTKFITTSPKAHITDSIYMEFDEENPLDSAKKILKEAILNFKNRDQSKVMIPELKCKAILGYSVEEIINKLDKVVNTGPMQTVKPLADVLVSGVLRGAAAVVGCNNPKVVQDSAHIETIKGLIKNDVIVVVTGCAAQAAAKYGLLQKEAAEKYAGPGLATVCKLVDIPPVLHMGSCVDISRILDLVGRVANLLGVDMSDLPVAGVAPEWMSEKAVAIGTYVVTSGIDTWLGVAPPVTGGPEVVDILTNKMEDWVGAKFFIETDPHKAVEQIVNRMNEKRKKLGI KAKSIDQATLQLLDKAKQDGVETVWDRKADMKVQCGFGSAGVCCRNCSMGPCRVSPVPGKGVERGICGATADVIVSRNFARMVAAGTAAHSDHGRSIALSLYHTSKDGDIKVKDENKLKEVAKSFNVETEGRDIYDIAHDVAKEGLSNYGKQLGEVTLPPSLPEKRKELWRKLGVYPRAVDREIAAVMHSTHIGCNADAEAMIKMSMRCSLTDGWMGSFMGTEFSDIMFGTPHSIDTEANLGVLEKNSVNVVLHGHEPLLSEMVVEAASDPELVELAKSVGADGINLCGMCCTGNEVSMRHGIKIAGNFMQQELAVVTGAVDGLIVDVQCIMPALAKLSKSYHTKFITTSPKAHITDSIYMEFDEENPLDSAKKILKEAILNFKNRDQSKVMIPELKCKAILGYSVEEIINKLDKVVNTQIGPMQTVKPLADVLVSGVLRGAAAVVGCNNPKVVQDSAHIETIKGLIKNDVIVVVTGCAAQAAAKYGLLQKEAAEKYAGPGLATVCKLVDIPPVLHMGSCVDISRILDLVGRVANLLGVDMSDLPVAGVAPEWMSEKAVAIGTYVVTSGIDTWLGVAPPVTGGPEVVDILTNKMEDWVGAKFFIETDPHKAVEQIVNRMNEKRKKLGI 6yuc-a1-m1-cD_6yuc-a1-m2-cD Crystal structure of Uba4-Urm1 from Chaetomium thermophilum G0SC54 G0SC54 3.15 X-RAY DIFFRACTION 181 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 285 285 6yub-a1-m1-cB_6yub-a1-m1-cA 6z6s-a1-m1-cDDD_6z6s-a1-m2-cDDD TQKSLSKEEIERYSRQMIVPGMGKEGQLRLMNAKVLIIGAGGLGCPAAQYLAGAGVGTIGIVDGDSVEGMLKVDSLITHLIEINPLPVYVPYRFDLTPQNAAQIIKPWDVILDCTDNPATRYLISDVCVLLGKPLVSAASVQKSGQLIVLNCPPTPQGVVNKKAAPCYRCCFKKPPPPSAQTSKGEAGIMGPVVGMMGVAQAGEAIKILVSQLHMPPKGEEVSPEKNLVQPTLLIYTYDLNSAIGPYSFRALKMGGRKKDCFACGENSTLTLDGIKSGNPNYVQF TQKSLSKEEIERYSRQMIVPGMGKEGQLRLMNAKVLIIGAGGLGCPAAQYLAGAGVGTIGIVDGDSVEGMLKVDSLITHLIEINPLPVYVPYRFDLTPQNAAQIIKPWDVILDCTDNPATRYLISDVCVLLGKPLVSAASVQKSGQLIVLNCPPTPQGVVNKKAAPCYRCCFKKPPPPSAQTSKGEAGIMGPVVGMMGVAQAGEAIKILVSQLHMPPKGEEVSPEKNLVQPTLLIYTYDLNSAIGPYSFRALKMGGRKKDCFACGENSTLTLDGIKSGNPNYVQF 6yud-a6-m1-cI_6yud-a6-m1-cJ Structure of Csx3/Crn3 from Archaeoglobus fulgidus in complex with cyclic tetra-adenylate (cA4) O28415 O28415 1.84 X-RAY DIFFRACTION 91 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 98 98 3wzg-a1-m1-cA_3wzg-a1-m1-cB 3wzh-a1-m1-cA_3wzh-a1-m1-cB 3wzi-a1-m1-cA_3wzi-a1-m1-cB 6vjg-a1-m1-cA_6vjg-a1-m2-cA 6yud-a1-m1-cA_6yud-a1-m1-cB 6yud-a2-m1-cC_6yud-a2-m1-cD 6yud-a3-m1-cF_6yud-a3-m1-cE SMKFAVIDRKNFTLIHFEIEKPIKPEILKEIEIPSVDTRKGVVISGRGPIWLHCFLAHKYAHTPFVAVYDPRLGAVVVQSHSELREGDVIDVVVEEIL SMKFAVIDRKNFTLIHFEIEKPIKPEILKEIEIPSVDTRKGVVISGRGPIWLHCFLAHKYAHTPFVAVYDPRLGAVVVQSHSELREGDVIDVVVEEIL 6yue-a1-m1-cA_6yue-a1-m2-cA Fragment of nitrate/nitrite sensor histidine kinase NarQ (R50S variant) P27896 P27896 2.4 X-RAY DIFFRACTION 200 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 227 227 5iji-a1-m1-cA_5iji-a1-m2-cA 5jef-a1-m1-cA_5jef-a1-m1-cB 5jeq-a1-m1-cA_5jeq-a1-m2-cA 5jgp-a1-m1-cA_5jgp-a1-m2-cA 6xyn-a1-m1-cA_6xyn-a1-m2-cA MIVKRPVSASLARAFFYIVLLSILSTGIALLTLASSLRDAEAINIAGSLSMQSYRLGYDLQSGSPQLNAHRQLFQQALHSPVLTNLNVWYVPEAVKTRYAHLNANWLEMNNRLSKGDLPWYQANINNYVNQIDLFVLALQHYAERKMLLVVAISLAGGIGIFTLVFFTLRRIRHQVVAPLNQLVTASQRIEHGQFDSPPLDTNLPNELGLLAKTFNQMSSELHKLYR MIVKRPVSASLARAFFYIVLLSILSTGIALLTLASSLRDAEAINIAGSLSMQSYRLGYDLQSGSPQLNAHRQLFQQALHSPVLTNLNVWYVPEAVKTRYAHLNANWLEMNNRLSKGDLPWYQANINNYVNQIDLFVLALQHYAERKMLLVVAISLAGGIGIFTLVFFTLRRIRHQVVAPLNQLVTASQRIEHGQFDSPPLDTNLPNELGLLAKTFNQMSSELHKLYR 6yug-a1-m1-cA_6yug-a1-m1-cB Crystal structure of C. parvum GNA1 in complex with acetyl-CoA and glucose 6P. Q5CPU3 Q5CPU3 1.95 X-RAY DIFFRACTION 190 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 143 143 ISSFEVRKATIDDYFELRNLICDVTRCTETLSREQAEERFRYNTYHPYCLVDTENGRIVGYAGFYIIPHLGRKNDSRIEHVIISKEYRNRGLGRLLCKQIIEDAKNKFNCGRIDLTVESHIAKKLYSSLEFEKVNTEVMRNSF ISSFEVRKATIDDYFELRNLICDVTRCTETLSREQAEERFRYNTYHPYCLVDTENGRIVGYAGFYIIPHLGRKNDSRIEHVIISKEYRNRGLGRLLCKQIIEDAKNKFNCGRIDLTVESHIAKKLYSSLEFEKVNTEVMRNSF 6yuz-a1-m1-cA_6yuz-a1-m1-cC Homodimeric structure of the rBAT complex Q07837 Q07837 2.8 ELECTRON MICROSCOPY 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 594 594 6li9-a1-m1-cA_6li9-a1-m1-cC 6lid-a1-m1-cA_6lid-a1-m1-cC 6yup-a1-m1-cA_6yup-a1-m1-cC LTVASVLVLIAATIAIIALSPKCLDWWQEGPMYQIYPRSFKDSNKDGNGDLKGIQDKLDYITALNIKTVWITSFYKSSLKDFRYGVEDFREVDPIFGTMEDFENLVAAIHDKGLKLIIDFIPNHTSDKHIWFQLSRTRTGKYTDYYIWHDCTHENGKTIPPNNWLSVYGNSSWHFDEVRNQCYFHQFMKEQPDLNFRNPDVQEEIKEILRFWLTKGVDGFSLDAVKFLLEAKHLRDEIQVNKTQIPDTVTQYSELYHDFTTTQVGMHDIVRSFRQTMDQYSTEPGRYRFMGTEAYAESIDRTVMYYGLPFIQEADFPFNNYLSMLDTVSGNSVYEVITSWMENMPEGKWPNWMIGGPDSSRLTSRLGNQYVNVMNMLLFTLPGTPITYYGEEIGMGNIVAANLNESYDINTLRSKSPMQWDNSSNAGFSEASNTWLPTNSDYHTVNVDVQKTQPRSALKLYQDLSLLHANELLLNRGWFCHLRNDSHYVVYTRELDGIDRIFIVVLNFGESTLLNLHNMISGLPAKMRIRLSTNSADKGSKVDTSGIFLDKGEGLIFEHNTKNLLHRQTAFRDRCFVSNRACYSSVLNILYTSC LTVASVLVLIAATIAIIALSPKCLDWWQEGPMYQIYPRSFKDSNKDGNGDLKGIQDKLDYITALNIKTVWITSFYKSSLKDFRYGVEDFREVDPIFGTMEDFENLVAAIHDKGLKLIIDFIPNHTSDKHIWFQLSRTRTGKYTDYYIWHDCTHENGKTIPPNNWLSVYGNSSWHFDEVRNQCYFHQFMKEQPDLNFRNPDVQEEIKEILRFWLTKGVDGFSLDAVKFLLEAKHLRDEIQVNKTQIPDTVTQYSELYHDFTTTQVGMHDIVRSFRQTMDQYSTEPGRYRFMGTEAYAESIDRTVMYYGLPFIQEADFPFNNYLSMLDTVSGNSVYEVITSWMENMPEGKWPNWMIGGPDSSRLTSRLGNQYVNVMNMLLFTLPGTPITYYGEEIGMGNIVAANLNESYDINTLRSKSPMQWDNSSNAGFSEASNTWLPTNSDYHTVNVDVQKTQPRSALKLYQDLSLLHANELLLNRGWFCHLRNDSHYVVYTRELDGIDRIFIVVLNFGESTLLNLHNMISGLPAKMRIRLSTNSADKGSKVDTSGIFLDKGEGLIFEHNTKNLLHRQTAFRDRCFVSNRACYSSVLNILYTSC 6yvr-a1-m1-cAAA_6yvr-a1-m1-cBBB Crystal structure of the neurotensin receptor 1 in complex with the peptide full agonist NTS8-13 P20789 P20789 2.458 X-RAY DIFFRACTION 100 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 470 470 GPNSDLDVNTDIYSKVLVTAIYLALFVVGTVGNGVTLFTLARKKSLQSLQSRVDYYLGSLALSDLLILLFALPVDLYNFIWVHHPWAFGDAGCKGYYFLREACTYATALNVVSLSVELYLAICHPFKAKTLMSRSRTKKFISAIWLASALLAIPMLFTMGLQNLSGDGTHPGGLVCTPIVDTATLRVVIQLNTFMSFLFPMLVASILNTVAARRLTVMVHQIEPGRVQALRRGVLVLRAVVIAFVVCWLPYHVRRLMFVYISDEQWTTALFDFYHYFYMLSNALVYVSAAINPILYNLAEDLVEDWEKARKLLEAARKGQDDEVRILLANGADVNTADETGFTPLHLAAWEGHLGIVEVLLKNGADVNANDERGHTPLHLAAYTGHLEIVEVLLKNGAGVNATDVIGTAPLHLAAMWGHLEIVEVLLKNGADVNAQDKFGKTPFDLAIDNGNEDIAEVLQKAATRELEVL GPNSDLDVNTDIYSKVLVTAIYLALFVVGTVGNGVTLFTLARKKSLQSLQSRVDYYLGSLALSDLLILLFALPVDLYNFIWVHHPWAFGDAGCKGYYFLREACTYATALNVVSLSVELYLAICHPFKAKTLMSRSRTKKFISAIWLASALLAIPMLFTMGLQNLSGDGTHPGGLVCTPIVDTATLRVVIQLNTFMSFLFPMLVASILNTVAARRLTVMVHQIEPGRVQALRRGVLVLRAVVIAFVVCWLPYHVRRLMFVYISDEQWTTALFDFYHYFYMLSNALVYVSAAINPILYNLAEDLVEDWEKARKLLEAARKGQDDEVRILLANGADVNTADETGFTPLHLAAWEGHLGIVEVLLKNGADVNANDERGHTPLHLAAYTGHLEIVEVLLKNGAGVNATDVIGTAPLHLAAMWGHLEIVEVLLKNGADVNAQDKFGKTPFDLAIDNGNEDIAEVLQKAATRELEVL 6ywy-a1-m1-c55_6ywy-a1-m1-c44 The structure of the mitoribosome from Neurospora crassa with bound tRNA at the P-site A0A0B0DM95 A0A0B0DM95 3.05 ELECTRON MICROSCOPY 103 0.991 5141 (Neurospora crassa) 5141 (Neurospora crassa) 232 260 6yw5-a1-m1-c55_6yw5-a1-m1-c44 6ywe-a1-m1-c55_6ywe-a1-m1-c44 6ywx-a1-m1-c55_6ywx-a1-m1-c44 QHYLMPLRDNFEQEGIRNFLSPGSVNMAYTEYQTFILEKLNALVVGTDFEQKDTKSIVLATARDPELAHVFNHASMAHNNHFFFDHLSPVPVKMGDKLFYHINENFGSVDTLRDEMIGTAVSMFGPGFVWLVRTQLPGQPVALRVMATYLAGSPYPGAHWRRQENKLEPTAPGGTDLIPILCLNTWEYAWLREYGTGVGGMGGKLAYAQSWWNMIDWAKVEEEARLETRILT QHYLMPLRDNFEQEGIRNFLSPGSVNMAYTEYQTFILEKLNALVVGTDFEQKDTKSIVLATARDPELAHVFNHASMAHNNHFFFDHLSPVPVKMGDKLFYHINENFGSVDTLRDEMIGTAVSMFGPGFVWLVRTQLPGQPVALRVMATYLAGSPYPGAHWRRQEMDAQTSIGSSPQGLSNGQRFFERSAAGFKGNKLEPTAPGGTDLIPILCLNTWEYAWLREYGTGVGGMGGKLAYAQSWWNMIDWAKVEEEARLETRI 6yx7-a1-m1-cAAA_6yx7-a1-m1-cIII The high resolution structure of allophycocyanin from cyanobacterium Nostoc sp. WR13, the P21212 crystal form. A0A4Y5PW22 A0A4Y5PW22 1.419 X-RAY DIFFRACTION 11 1.0 2283151 (Nostoc sp. WR13) 2283151 (Nostoc sp. WR13) 160 160 6yx7-a1-m1-cCCC_6yx7-a1-m1-cGGG 6yx7-a1-m1-cEEE_6yx7-a1-m1-cKKK SIVTKSIVNADAEARYLSPGELDRIKSFVSGGAQRLRIAQVLTDNRERIVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGIVGVREMYKSLGTPIDAVAGGVAAMKSVAAGLLSAEDAGEAGAYFDYVVGAMQ SIVTKSIVNADAEARYLSPGELDRIKSFVSGGAQRLRIAQVLTDNRERIVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGIVGVREMYKSLGTPIDAVAGGVAAMKSVAAGLLSAEDAGEAGAYFDYVVGAMQ 6yx7-a1-m1-cCCC_6yx7-a1-m1-cKKK The high resolution structure of allophycocyanin from cyanobacterium Nostoc sp. WR13, the P21212 crystal form. A0A4Y5PW22 A0A4Y5PW22 1.419 X-RAY DIFFRACTION 26 1.0 2283151 (Nostoc sp. WR13) 2283151 (Nostoc sp. WR13) 160 160 6yx7-a1-m1-cAAA_6yx7-a1-m1-cGGG SIVTKSIVNADAEARYLSPGELDRIKSFVSGGAQRLRIAQVLTDNRERIVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGIVGVREMYKSLGTPIDAVAGGVAAMKSVAAGLLSAEDAGEAGAYFDYVVGAMQ SIVTKSIVNADAEARYLSPGELDRIKSFVSGGAQRLRIAQVLTDNRERIVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGIVGVREMYKSLGTPIDAVAGGVAAMKSVAAGLLSAEDAGEAGAYFDYVVGAMQ 6yxa-a1-m1-cA_6yxa-a1-m2-cA Structure of the bifunctional Rel enzyme from B. subtilis O54408 O54408 3.95 X-RAY DIFFRACTION 79 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 536 536 ANEQVLTAEQVIDKARSYLSDEHIAFVEKAYLYAEDAHREQYRKSGEPYIIHPIQVAGILVDLEMDPSTIAGGFLHDVVEDTDVTLDDLKEAFSEEVAMLVDGVTKLGKIKYKSQEEQQAENHRKMFVAMAQDIRVILIKLADRLHNMRTLKHLPQEKQRRISNETLEIFAPLAHRLGISKIKWELEDTALRYLNPQQYYRIVNLMKKKRAERELYVDEVVNEVKKRVEEVNIKADFSGRPKHIYSIYRKMVLQNKQFNEIYDLLAVRILVNSIKDCYAVLGIIHTCWKPMPGRFKDYIAMPKPNMYQSLHTTVIGPKGDPLEVQIRTFEMHEIAEYGVAAHWEGATFEKKLSWFREILEFQNESTDAEEFMESLDLFSDMVYVFTPKGDVIELPSGSVPIDFSYRIHSEIGNKTIGAKVNGKMVTLDHKLRTGDIVEILTSKHSYGPSQDWVKLAQTSQAKHKIRQFFKKQRREENVEKGRELVEKEIKNLDFELKDVLTPENIQKVADKFNFSNEEDMYAAVGYNGITALQVAN ANEQVLTAEQVIDKARSYLSDEHIAFVEKAYLYAEDAHREQYRKSGEPYIIHPIQVAGILVDLEMDPSTIAGGFLHDVVEDTDVTLDDLKEAFSEEVAMLVDGVTKLGKIKYKSQEEQQAENHRKMFVAMAQDIRVILIKLADRLHNMRTLKHLPQEKQRRISNETLEIFAPLAHRLGISKIKWELEDTALRYLNPQQYYRIVNLMKKKRAERELYVDEVVNEVKKRVEEVNIKADFSGRPKHIYSIYRKMVLQNKQFNEIYDLLAVRILVNSIKDCYAVLGIIHTCWKPMPGRFKDYIAMPKPNMYQSLHTTVIGPKGDPLEVQIRTFEMHEIAEYGVAAHWEGATFEKKLSWFREILEFQNESTDAEEFMESLDLFSDMVYVFTPKGDVIELPSGSVPIDFSYRIHSEIGNKTIGAKVNGKMVTLDHKLRTGDIVEILTSKHSYGPSQDWVKLAQTSQAKHKIRQFFKKQRREENVEKGRELVEKEIKNLDFELKDVLTPENIQKVADKFNFSNEEDMYAAVGYNGITALQVAN 6yxe-a2-m1-cB_6yxe-a2-m2-cB Structure of the Trim69 RING domain Q86WT6 Q86WT6 2.1 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 6yxe-a1-m1-cA_6yxe-a1-m3-cA QDITMELHCPLCNDWFRDPLMLSCGHNFCEACIQDFWRLQAKETFCPECKMLCQYNNCTFNPVLDKLVEKIK QDITMELHCPLCNDWFRDPLMLSCGHNFCEACIQDFWRLQAKETFCPECKMLCQYNNCTFNPVLDKLVEKIK 6yxy-a1-m1-cEP_6yxy-a1-m1-cEO State B of the Trypanosoma brucei mitoribosomal large subunit assembly intermediate C9ZMA6 C9ZMA6 3.1 ELECTRON MICROSCOPY 103 0.996 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 245 275 6yxx-a1-m1-cEP_6yxx-a1-m1-cEO MFTVSCNVAFLCHPAVHHSLLLLRALRQRHTLAIERGGTVSLSQCGNHISIVPPNGLQRVHDPQHILYLFSSASPVRQSALDGQIQSYLNAVVVSNQVLRAADDVLIALSIGEMEAVRQTHGNLIDCVAALDASLQQTTENTQEVDCLSTWPLFTTIQFLVEEGGLPLGPFPRMSRAYYRLKESTPVVAHSQLVWRTFELSRGPEGPTGELPAWPHRGFLRDIQRQIAEYTQRTPARIPWTMQGL MFTVSCNVAFLCHPAVHHSLLLLRALRQRHTLAIERGGTVSLSQCGNHISIVPPGLQRVHDPQHILYLFSSASPVRQSALDGQIQSYLNAVVVSNQVLRAADDVLIALSIGEMEAVRQTHGNLIDCVAALDASLQQTTENTQEVDCLSTWPLFTTIQFLVEEGGLPLGPFPRMSRAYYRLKESTPVVAHSQLVWRTFELSRGPEGPTGELPAWPHRGFLRDIQRQIAEYTTDPPERIMAGVTGEKGPLRARVSGARLGLQRTPARIPWTMQGLHR 6yyi-a1-m1-cA_6yyi-a1-m1-cB Crystal structure of beta-D-xylosidase from Dictyoglomus thermophilum bound to beta-D-xylopyranose B5YB78 B5YB78 2.67 X-RAY DIFFRACTION 72 1.0 309799 (Dictyoglomus thermophilum H-6-12) 309799 (Dictyoglomus thermophilum H-6-12) 502 502 6yyh-a1-m1-cB_6yyh-a1-m1-cA MNHIKIEKGKYVGVFPDNWKFCVGSGRIGLALQKEYIDALSFVKRHIDFKYLRAHGLLHDDVGIYREDIVDGKTIPFYNFTYIDRIYDSFLEIGIRPFVEIGFMPSKLASGDQTVFYWRGNVTPPKDYKEWEKLIKNVVKHFIDRYGEKEVTQWPFEIWNEPNLTVFWKDANQAEYFKLYEVTVKAIKEVNENIKVGGPAICGGSDYWITDFLNFCYKNNVPVDFLTRHAYTGKPPIYTPHFVYQDVHPIEYMLNEFKTVREMVKNSPFPNLPIHITEFNSSYHPLCPIHDTPFNAAYLARVLSEGGDYVDSFSYWTFSDVFEEADVPRSLFHGGFGLVAFHNIPKPVFHMFTFFNAMGEKILYRDDHILITEREDKSVALIAWNEVMTKEENQERKYRIEIPVDYKEVFIKQKLIDEEYGNPWRTWIQMGRPRFPSKKQIETLREVATPKVTTFRKTVENGHITLEFTLGKNAVTLFEISKVIDESHTYIGLDDSKIPGGY MNHIKIEKGKYVGVFPDNWKFCVGSGRIGLALQKEYIDALSFVKRHIDFKYLRAHGLLHDDVGIYREDIVDGKTIPFYNFTYIDRIYDSFLEIGIRPFVEIGFMPSKLASGDQTVFYWRGNVTPPKDYKEWEKLIKNVVKHFIDRYGEKEVTQWPFEIWNEPNLTVFWKDANQAEYFKLYEVTVKAIKEVNENIKVGGPAICGGSDYWITDFLNFCYKNNVPVDFLTRHAYTGKPPIYTPHFVYQDVHPIEYMLNEFKTVREMVKNSPFPNLPIHITEFNSSYHPLCPIHDTPFNAAYLARVLSEGGDYVDSFSYWTFSDVFEEADVPRSLFHGGFGLVAFHNIPKPVFHMFTFFNAMGEKILYRDDHILITEREDKSVALIAWNEVMTKEENQERKYRIEIPVDYKEVFIKQKLIDEEYGNPWRTWIQMGRPRFPSKKQIETLREVATPKVTTFRKTVENGHITLEFTLGKNAVTLFEISKVIDESHTYIGLDDSKIPGGY 6yzf-a1-m1-cAAA_6yzf-a1-m1-cBBB Crystal structure of the M295Y variant of Ssl1 B5HSR1 B5HSR1 1.684 X-RAY DIFFRACTION 124 1.0 463191 (Streptomyces sviceus ATCC 29083) 463191 (Streptomyces sviceus ATCC 29083) 266 266 3tas-a1-m1-cA_3tas-a1-m1-cB 3tas-a1-m1-cA_3tas-a1-m1-cC 3tas-a1-m1-cC_3tas-a1-m1-cB 3tbb-a1-m1-cB_3tbb-a1-m1-cA 3tbb-a1-m1-cC_3tbb-a1-m1-cA 3tbb-a1-m1-cC_3tbb-a1-m1-cB 3tbb-a2-m1-cB_3tbb-a2-m1-cA 3tbb-a2-m1-cC_3tbb-a2-m1-cA 3tbb-a2-m1-cC_3tbb-a2-m1-cB 3tbb-a2-m2-cB_3tbb-a2-m2-cA 3tbb-a2-m2-cC_3tbb-a2-m2-cA 3tbb-a2-m2-cC_3tbb-a2-m2-cB 3tbc-a1-m1-cB_3tbc-a1-m1-cA 3tbc-a1-m1-cC_3tbc-a1-m1-cA 3tbc-a1-m1-cC_3tbc-a1-m1-cB 3tbc-a2-m1-cB_3tbc-a2-m1-cA 3tbc-a2-m1-cC_3tbc-a2-m1-cA 3tbc-a2-m1-cC_3tbc-a2-m1-cB 3tbc-a2-m2-cB_3tbc-a2-m2-cA 3tbc-a2-m2-cC_3tbc-a2-m2-cA 3tbc-a2-m2-cC_3tbc-a2-m2-cB 4m3h-a1-m1-cA_4m3h-a1-m1-cB 4m3h-a1-m1-cA_4m3h-a1-m1-cC 4m3h-a1-m1-cB_4m3h-a1-m1-cC 4uah-a1-m1-cA_4uah-a1-m1-cC 4uah-a1-m1-cB_4uah-a1-m1-cA 4uah-a1-m1-cB_4uah-a1-m1-cC 4uan-a1-m1-cB_4uan-a1-m1-cA 4uan-a1-m1-cB_4uan-a1-m1-cC 4uan-a1-m1-cC_4uan-a1-m1-cA 4w1t-a1-m1-cA_4w1t-a1-m1-cC 4w1t-a1-m1-cB_4w1t-a1-m1-cA 4w1t-a1-m1-cB_4w1t-a1-m1-cC 4wtq-a1-m1-cB_4wtq-a1-m1-cA 4wtq-a1-m1-cB_4wtq-a1-m1-cC 4wtq-a1-m1-cC_4wtq-a1-m1-cA 5lhl-a1-m1-cA_5lhl-a1-m1-cB 5lhl-a1-m1-cC_5lhl-a1-m1-cA 5lhl-a1-m1-cC_5lhl-a1-m1-cB 5lhl-a2-m1-cE_5lhl-a2-m1-cD 5lhl-a2-m1-cE_5lhl-a2-m1-cF 5lhl-a2-m1-cF_5lhl-a2-m1-cD 5mkm-a1-m1-cA_5mkm-a1-m1-cB 5mkm-a1-m1-cC_5mkm-a1-m1-cA 5mkm-a1-m1-cC_5mkm-a1-m1-cB 5mkm-a2-m1-cD_5mkm-a2-m1-cE 5mkm-a2-m1-cF_5mkm-a2-m1-cD 5mkm-a2-m1-cF_5mkm-a2-m1-cE 5o3k-a1-m1-cB_5o3k-a1-m1-cA 5o3k-a1-m1-cC_5o3k-a1-m1-cA 5o3k-a1-m1-cC_5o3k-a1-m1-cB 5o3k-a2-m1-cE_5o3k-a2-m1-cD 5o3k-a2-m1-cF_5o3k-a2-m1-cD 5o3k-a2-m1-cF_5o3k-a2-m1-cE 5o3k-a3-m1-cH_5o3k-a3-m1-cG 5o3k-a3-m1-cI_5o3k-a3-m1-cG 5o3k-a3-m1-cI_5o3k-a3-m1-cH 5o3k-a4-m1-cK_5o3k-a4-m1-cJ 5o3k-a4-m1-cL_5o3k-a4-m1-cJ 5o3k-a4-m1-cL_5o3k-a4-m1-cK 5o4i-a1-m1-cA_5o4i-a1-m1-cB 5o4i-a1-m1-cC_5o4i-a1-m1-cA 5o4i-a1-m1-cC_5o4i-a1-m1-cB 5o4i-a2-m1-cD_5o4i-a2-m1-cE 5o4i-a2-m1-cF_5o4i-a2-m1-cD 5o4i-a2-m1-cF_5o4i-a2-m1-cE 5o4i-a3-m1-cH_5o4i-a3-m1-cG 5o4i-a3-m1-cI_5o4i-a3-m1-cG 5o4i-a3-m1-cI_5o4i-a3-m1-cH 5o4i-a4-m1-cJ_5o4i-a4-m1-cL 5o4i-a4-m1-cK_5o4i-a4-m1-cJ 5o4i-a4-m1-cK_5o4i-a4-m1-cL 5o4q-a1-m1-cB_5o4q-a1-m1-cA 5o4q-a1-m1-cC_5o4q-a1-m1-cA 5o4q-a1-m1-cC_5o4q-a1-m1-cB 5o4q-a2-m1-cD_5o4q-a2-m1-cE 5o4q-a2-m1-cF_5o4q-a2-m1-cD 5o4q-a2-m1-cF_5o4q-a2-m1-cE 5o4q-a3-m1-cG_5o4q-a3-m1-cH 5o4q-a3-m1-cI_5o4q-a3-m1-cG 5o4q-a3-m1-cI_5o4q-a3-m1-cH 5o4q-a4-m1-cK_5o4q-a4-m1-cJ 5o4q-a4-m1-cL_5o4q-a4-m1-cJ 5o4q-a4-m1-cL_5o4q-a4-m1-cK 6fc7-a1-m1-cA_6fc7-a1-m1-cB 6fc7-a1-m1-cC_6fc7-a1-m1-cA 6fc7-a1-m1-cC_6fc7-a1-m1-cB 6fc7-a2-m1-cD_6fc7-a2-m1-cE 6fc7-a2-m1-cF_6fc7-a2-m1-cD 6fc7-a2-m1-cF_6fc7-a2-m1-cE 6fc7-a3-m1-cG_6fc7-a3-m1-cI 6fc7-a3-m1-cH_6fc7-a3-m1-cG 6fc7-a3-m1-cH_6fc7-a3-m1-cI 6fc7-a4-m1-cJ_6fc7-a4-m1-cK 6fc7-a4-m1-cL_6fc7-a4-m1-cJ 6fc7-a4-m1-cL_6fc7-a4-m1-cK 6fdj-a1-m1-cA_6fdj-a1-m1-cB 6fdj-a1-m1-cC_6fdj-a1-m1-cA 6fdj-a1-m1-cC_6fdj-a1-m1-cB 6fdj-a2-m1-cE_6fdj-a2-m1-cD 6fdj-a2-m1-cF_6fdj-a2-m1-cD 6fdj-a2-m1-cF_6fdj-a2-m1-cE 6fdj-a3-m1-cH_6fdj-a3-m1-cG 6fdj-a3-m1-cI_6fdj-a3-m1-cG 6fdj-a3-m1-cI_6fdj-a3-m1-cH 6fdj-a4-m1-cK_6fdj-a4-m1-cJ 6fdj-a4-m1-cK_6fdj-a4-m1-cL 6fdj-a4-m1-cL_6fdj-a4-m1-cJ 6rh9-a1-m1-cA_6rh9-a1-m1-cB 6rh9-a1-m1-cC_6rh9-a1-m1-cA 6rh9-a1-m1-cC_6rh9-a1-m1-cB 6rh9-a2-m1-cE_6rh9-a2-m1-cD 6rh9-a2-m1-cF_6rh9-a2-m1-cD 6rh9-a2-m1-cF_6rh9-a2-m1-cE 6rh9-a3-m1-cH_6rh9-a3-m1-cG 6rh9-a3-m1-cI_6rh9-a3-m1-cG 6rh9-a3-m1-cI_6rh9-a3-m1-cH 6rh9-a4-m1-cJ_6rh9-a4-m1-cK 6rh9-a4-m1-cL_6rh9-a4-m1-cJ 6rh9-a4-m1-cL_6rh9-a4-m1-cK 6rhq-a1-m1-cB_6rhq-a1-m1-cA 6rhq-a1-m1-cC_6rhq-a1-m1-cA 6rhq-a1-m1-cC_6rhq-a1-m1-cB 6rhq-a2-m1-cD_6rhq-a2-m1-cE 6rhq-a2-m1-cF_6rhq-a2-m1-cD 6rhq-a2-m1-cF_6rhq-a2-m1-cE 6s0o-a1-m1-cA_6s0o-a1-m1-cB 6s0o-a1-m1-cC_6s0o-a1-m1-cA 6s0o-a1-m1-cC_6s0o-a1-m1-cB 6s0o-a2-m1-cD_6s0o-a2-m1-cE 6s0o-a2-m1-cF_6s0o-a2-m1-cD 6s0o-a2-m1-cF_6s0o-a2-m1-cE 6y4a-a1-m1-cAAA_6y4a-a1-m1-cBBB 6y4a-a1-m1-cAAA_6y4a-a1-m1-cCCC 6y4a-a1-m1-cBBB_6y4a-a1-m1-cCCC 6yo5-a1-m1-cAAA_6yo5-a1-m1-cBBB 6yo5-a1-m1-cAAA_6yo5-a1-m1-cCCC 6yo5-a1-m1-cBBB_6yo5-a1-m1-cCCC 6yzd-a1-m1-cAAA_6yzd-a1-m1-cBBB 6yzd-a1-m1-cAAA_6yzd-a1-m1-cCCC 6yzd-a1-m1-cBBB_6yzd-a1-m1-cCCC 6yzf-a1-m1-cAAA_6yzf-a1-m1-cCCC 6yzf-a1-m1-cBBB_6yzf-a1-m1-cCCC 6yzy-a1-m1-cAAA_6yzy-a1-m1-cCCC 6yzy-a1-m1-cBBB_6yzy-a1-m1-cAAA 6yzy-a1-m1-cBBB_6yzy-a1-m1-cCCC 6zij-a1-m1-cA_6zij-a1-m1-cB 6zij-a1-m1-cA_6zij-a1-m1-cC 6zij-a1-m1-cC_6zij-a1-m1-cB 6zij-a2-m1-cD_6zij-a2-m1-cE 6zij-a2-m1-cF_6zij-a2-m1-cD 6zij-a2-m1-cF_6zij-a2-m1-cE 6zip-a1-m1-cA_6zip-a1-m1-cB 6zip-a1-m1-cC_6zip-a1-m1-cA 6zip-a1-m1-cC_6zip-a1-m1-cB 6zip-a2-m1-cD_6zip-a2-m1-cE 6zip-a2-m1-cF_6zip-a2-m1-cD 6zip-a2-m1-cF_6zip-a2-m1-cE 6zip-a3-m1-cG_6zip-a3-m1-cH 6zip-a3-m1-cI_6zip-a3-m1-cG 6zip-a3-m1-cI_6zip-a3-m1-cH 6zip-a4-m1-cJ_6zip-a4-m1-cK 6zip-a4-m1-cL_6zip-a4-m1-cJ 6zip-a4-m1-cL_6zip-a4-m1-cK 7pen-a1-m1-cA_7pen-a1-m1-cB 7pen-a1-m1-cA_7pen-a1-m1-cC 7pen-a1-m1-cC_7pen-a1-m1-cB 7pen-a2-m1-cD_7pen-a2-m1-cE 7pen-a2-m1-cD_7pen-a2-m1-cF 7pen-a2-m1-cE_7pen-a2-m1-cF 7pes-a1-m1-cB_7pes-a1-m1-cA 7pes-a1-m1-cB_7pes-a1-m1-cC 7pes-a1-m1-cC_7pes-a1-m1-cA 7pes-a2-m1-cE_7pes-a2-m1-cD 7pes-a2-m1-cE_7pes-a2-m1-cF 7pes-a2-m1-cF_7pes-a2-m1-cD 7pfr-a1-m1-cA_7pfr-a1-m1-cB 7pfr-a1-m1-cC_7pfr-a1-m1-cA 7pfr-a1-m1-cC_7pfr-a1-m1-cB 7pfr-a2-m1-cD_7pfr-a2-m1-cE 7pfr-a2-m1-cD_7pfr-a2-m1-cF 7pfr-a2-m1-cE_7pfr-a2-m1-cF 7ptm-a1-m1-cA_7ptm-a1-m1-cB 7ptm-a1-m1-cC_7ptm-a1-m1-cA 7ptm-a1-m1-cC_7ptm-a1-m1-cB 7ptm-a2-m1-cD_7ptm-a2-m1-cE 7ptm-a2-m1-cF_7ptm-a2-m1-cD 7ptm-a2-m1-cF_7ptm-a2-m1-cE 7pu0-a1-m1-cB_7pu0-a1-m1-cA 7pu0-a1-m1-cC_7pu0-a1-m1-cA 7pu0-a1-m1-cC_7pu0-a1-m1-cB 7pu0-a2-m1-cD_7pu0-a2-m1-cE 7pu0-a2-m1-cF_7pu0-a2-m1-cD 7pu0-a2-m1-cF_7pu0-a2-m1-cE 7puh-a1-m1-cB_7puh-a1-m1-cA 7puh-a1-m1-cB_7puh-a1-m1-cC 7puh-a1-m1-cC_7puh-a1-m1-cA 7puh-a2-m1-cD_7puh-a2-m1-cE 7puh-a2-m1-cD_7puh-a2-m1-cF 7puh-a2-m1-cE_7puh-a2-m1-cF GEVRRIKLYAERLADGQMGYGLEKGRATIPGPLIELNEGDTLHIEFENTMDVRASLHVHGLDYEVSSDGTTLNKSDVEPGGTRTYTWRTHAPGRRSDGTWRAGSAGYWHYHDHVVGTEHGTGGIRKGLYGPVIVRRKGDVLPDATHTIVFNDMLINNRPAPNFEATVGDRVEFVMITHGEYYHTFHMHGHRWADNRTGMLTGPDDPSQVVDNKIVGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGYVGLFLVKKTDGTIPGY GEVRRIKLYAERLADGQMGYGLEKGRATIPGPLIELNEGDTLHIEFENTMDVRASLHVHGLDYEVSSDGTTLNKSDVEPGGTRTYTWRTHAPGRRSDGTWRAGSAGYWHYHDHVVGTEHGTGGIRKGLYGPVIVRRKGDVLPDATHTIVFNDMLINNRPAPNFEATVGDRVEFVMITHGEYYHTFHMHGHRWADNRTGMLTGPDDPSQVVDNKIVGPADSFGFQVIAGEGVGAGAWMYHCHVQSHSDMGYVGLFLVKKTDGTIPGY 6yzg-a1-m1-cA_6yzg-a1-m2-cA Streptococcal surface adhesin - CshB NR2 A8AXC5 A8AXC5 1.4 X-RAY DIFFRACTION 629 1.0 467705 (Streptococcus gordonii str. Challis substr. CH1) 467705 (Streptococcus gordonii str. Challis substr. CH1) 279 279 WLDFSDSASWKNLDQRGGLKVGTTFTKEISPGYVVTLTVKELKPFNSTEIYKKRVAGTATEGTYDPDAENGFLTSAPYYGKTPPPSVTGAAQQKRKTQLVYPMNSTNWGVKFDIEATYLGKRVAPTVVMADGEDANPGEFAIFTTNGTGWEYMGEWKMAYNVITKKMLDDEDVKRRGLLILKDKSVDWYKYLSPDTVTGGLGSQVFGPNRSNERTVPVVMTRGASEVGFYVASSGQQAMMMGFLVVAVSDAPESYGEAFHTISTRDSVTNDPINQPYLG WLDFSDSASWKNLDQRGGLKVGTTFTKEISPGYVVTLTVKELKPFNSTEIYKKRVAGTATEGTYDPDAENGFLTSAPYYGKTPPPSVTGAAQQKRKTQLVYPMNSTNWGVKFDIEATYLGKRVAPTVVMADGEDANPGEFAIFTTNGTGWEYMGEWKMAYNVITKKMLDDEDVKRRGLLILKDKSVDWYKYLSPDTVTGGLGSQVFGPNRSNERTVPVVMTRGASEVGFYVASSGQQAMMMGFLVVAVSDAPESYGEAFHTISTRDSVTNDPINQPYLG 6z01-a1-m2-cB_6z01-a1-m1-cA DNA Topoisomerase E6N697 E6N697 1.9 X-RAY DIFFRACTION 70 0.998 311458 (Candidatus Caldarchaeum subterraneum) 311458 (Candidatus Caldarchaeum subterraneum) 508 512 6z03-a1-m1-cB_6z03-a1-m1-cA WRTLVHNGVALPPPYQPKGLSIKIRGETVKLDPLQEEAYAWALKKDTPYVQDPVFQKNFLTDFLKTFNGRFQDVTINEIDFSEVYEYVERERQLKADKEYSAERKRLREELKARYGWAEDGKRFEIANWVEPPGIFGRGNHPLRGRWKPRVYEEDITLNLGEDAPVPPGNWGQIVHDHDSWLARWDDKLTGKEKYVWLSDTADIKQKRDKSKYDKAELENHIDRVREKIFKGLRSKEPKREIALACYLIDRLARVGDEKDPDEADTVGATTLRVEHVKLLEDRIEFDFLGKDSVRWQKSIDLRNEPPEVRQVFEELLEGKKEGDQIFQNINSRHVNRFLGKIVKGLTAKVFRTYIATKIVKDFLAAIPREKVTSQEKFIYYAKLANLKAAEALNHKRAPPKNWEQSIQKKEERVKKLQQLREAESEKKKARIAERLEKAELNLDLAVKVRDYNLATSLRNYIDPRVYKAWGRYTGYEWRKIYTASLLRKFKWVEKASVKHVLQYFAEK KWRTLVHNGVALPPPYQPKGLSIKIRGETVKLDPLQEEAYAWALKKDTPYVQDPVFQKNFLTDFLKTFNGRFQDVTINEIDFSEVYEYVERERQLKADKEYRKKISAERKRLREELKARYGWAEDGKRFEIANWVEPPGIFGRGNHPLRGRWKPRVYEEDITLNLGEDAPVPPGNWGQIVHDHDSWLARWDDKLTGKEKYVWLSDTADIKQKRDKSKYDKAELENHIDRVREKIFKGLRSKEPKREIALACYLIDRLARVGDEKDPDEADTVGATTLRVEHVKLLEDRIEFDFLGKDSVRWQKSIDLRNEPPEVRQVFEELLEGKKEGDQIFQNINSRHVNRFLGKIVKGLTAKVFRTYIATKIVKDFLAAIPREKVTSQEKFIYYAKLANLKAAEALNHKRAPPKNWEQSIQKKEERVKKLQQLREAESEKKKARIAERLEKAELNLDLAVKVRDYNLATSLRNYIDPRVYKAWGRYTGYEWRKIYTASLLRKFKWVEKASVKHVLQYFAE 6z0e-a1-m2-cA_6z0e-a1-m3-cA HtrA1 inactive protease domain S328A with CARASIL mutation R274Q Q92743 Q92743 2.6 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 196 196 3num-a1-m1-cA_3num-a1-m2-cA 3num-a1-m1-cA_3num-a1-m3-cA 3num-a1-m2-cA_3num-a1-m3-cA 3nwu-a1-m1-cB_3nwu-a1-m1-cA 3nwu-a1-m1-cC_3nwu-a1-m1-cA 3nwu-a2-m1-cB_3nwu-a2-m1-cA 3nwu-a2-m1-cC_3nwu-a2-m1-cA 3nwu-a2-m2-cB_3nwu-a2-m2-cA 3nwu-a2-m2-cC_3nwu-a2-m2-cA 3nzi-a1-m1-cA_3nzi-a1-m2-cA 3nzi-a1-m1-cA_3nzi-a1-m3-cA 3nzi-a1-m2-cA_3nzi-a1-m3-cA 3tjn-a1-m1-cA_3tjn-a1-m2-cA 3tjn-a1-m1-cA_3tjn-a1-m3-cA 3tjn-a1-m2-cA_3tjn-a1-m3-cA 3tjn-a2-m1-cB_3tjn-a2-m4-cB 3tjn-a2-m1-cB_3tjn-a2-m5-cB 3tjn-a2-m4-cB_3tjn-a2-m5-cB 3tjn-a3-m1-cD_3tjn-a3-m2-cD 3tjn-a3-m1-cD_3tjn-a3-m3-cD 3tjn-a3-m2-cD_3tjn-a3-m3-cD 3tjo-a1-m1-cA_3tjo-a1-m1-cB 3tjo-a1-m1-cD_3tjo-a1-m1-cA 3tjo-a1-m1-cD_3tjo-a1-m1-cB 6z0e-a1-m1-cA_6z0e-a1-m2-cA 6z0e-a1-m1-cA_6z0e-a1-m3-cA 6z0e-a2-m1-cB_6z0e-a2-m2-cB 6z0e-a2-m1-cB_6z0e-a2-m3-cB 6z0e-a2-m2-cB_6z0e-a2-m3-cB 6z0x-a1-m1-cA_6z0x-a1-m2-cA 6z0x-a1-m1-cA_6z0x-a1-m4-cA 6z0x-a1-m2-cA_6z0x-a1-m4-cA 6z0x-a2-m1-cB_6z0x-a2-m3-cB 6z0x-a2-m1-cB_6z0x-a2-m5-cB 6z0x-a2-m3-cB_6z0x-a2-m5-cB 6z0x-a3-m1-cC_6z0x-a3-m2-cC 6z0x-a3-m1-cC_6z0x-a3-m4-cC 6z0x-a3-m2-cC_6z0x-a3-m4-cC 6z0y-a1-m1-cA_6z0y-a1-m2-cA 6z0y-a1-m1-cA_6z0y-a1-m4-cA 6z0y-a1-m2-cA_6z0y-a1-m4-cA 6z0y-a2-m1-cB_6z0y-a2-m3-cB 6z0y-a2-m1-cB_6z0y-a2-m5-cB 6z0y-a2-m3-cB_6z0y-a2-m5-cB 6z0y-a3-m1-cC_6z0y-a3-m2-cC 6z0y-a3-m1-cC_6z0y-a3-m4-cC 6z0y-a3-m2-cC_6z0y-a3-m4-cC 7sjn-a1-m1-cA_7sjn-a1-m1-cB 7sjn-a1-m1-cA_7sjn-a1-m1-cC 7sjn-a1-m1-cB_7sjn-a1-m1-cC 7sjo-a1-m1-cA_7sjo-a1-m1-cB 7sjo-a1-m1-cA_7sjo-a1-m1-cC 7sjo-a1-m1-cB_7sjo-a1-m1-cC DPNSLRHKYNFIADVVEKIAPAVVHIELFRKLPFSKREVPVASGSGFIVSEDGLIVTNAHVVTNKHRVKVELKNGATYEAKIKDVDEKADIALIKIDHQGKLPVLLLGRSSELQPGEFVVAIGSPFSLQNTVTTGIVSTTQDYIQTDAIINYGNAGGPLVNLDGEVIGINTLKVTAGISFAIPSDKIKKFLTESHD DPNSLRHKYNFIADVVEKIAPAVVHIELFRKLPFSKREVPVASGSGFIVSEDGLIVTNAHVVTNKHRVKVELKNGATYEAKIKDVDEKADIALIKIDHQGKLPVLLLGRSSELQPGEFVVAIGSPFSLQNTVTTGIVSTTQDYIQTDAIINYGNAGGPLVNLDGEVIGINTLKVTAGISFAIPSDKIKKFLTESHD 6z0f-a1-m1-cB_6z0f-a1-m1-cA Crystal structure of the membrane pseudokinase YukC/EssB from Bacillus subtilis T7SS P71070 P71070 2.553 X-RAY DIFFRACTION 148 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 369 384 EQKSYLENQLEAVAEKTDAGYTFTFQREKIKLANVIKDINPFFHKEIDVTDDEVIITIQPPSSYKAFRFMKAKDKKSKWQFAYQLVQAVQQHNLSRLNLIVAPENIVFDKGLTPYFLHYGVKESIPPYERDEERVWQELKAAAALAVDGAFAFEDYLKFNETLTFSAEAKAILDAESYDDLLELIQTHIDELEAKAKTYIHIPRKKWNIQRYIGLGLIVLLVPALIYSMYALFFAQPKHQAIVDSNRAFLNKQYSEVISTLSKYDAESLPESVQYQLATSYVEVENLGSAKTKNIENNLVTLQSDPQHFLYWIDYGRGEYKEAISIGRKLEYNDYIYFALAKYKQQLLSEDTNDEDIQKELDSVNSELE GEQKSYLENQLEAVAEKTDAGYTFTFQREKIKLLDGLEANVIKDINPFFHKEIDVTDDEVIITIQPPSSYKAFRFMKAKDKKSKWQFAYQLVQAVQQHNLSRLNLIVAPENIVFDKGLTPYFLHYGVKESIPPYERDEERVWQELKAAAALAVDGAFAFEDYLKFNETLTFSAEAKAILDAESYDDLLELIQTHIDELEAKAKTYIHIPRKKWNIQRYIGLGLIVLLVPALIYSMYALFFAQPKHQAIVDSNRAFLNKQYSEVISTLSKYDAESLPESVQYQLATSYVEVENLGSAKTKNIENNLVTLQSDPQHFLYWIDYGRGEYKEAISIGRKLEYNDYIYFALAKYKQQLLSEDTNDEDIQKELDSVNSELEKAQKERQEN 6z0p-a1-m1-cA_6z0p-a1-m1-cB BceF Tyrosine Kinase Domain Q0GYW2 Q0GYW2 1.85 X-RAY DIFFRACTION 40 0.996 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 242 242 GIEDPDRIERAFNLPLYGLVPQSAEQVKLDAQAEKSGSRTRPILASLRPKDLSVESLRSLRTAMQFAMMDAKNRVIVLTGPTPGIGKSFLTVNLAVLLAHSGKRVLLIDADMRRGLLDRYFPGLSELLSDQSALEDAVRETPVQGLSFISAGTRPPNPSELLMSTRLPQYLEGLGKRYDVVLIDSPPVLAVTDATIIGRMAGSTFLVLRSGMHTEGEIADAIKRLRTAGVDLEGGIFNGVPP QGIEDPDRIERAFNLPLYGLVPQSAEQVKLDAQAEKSGSRTRPILASLRPKDLSVESLRSLRTAMQFAMMDAKNRVIVLTGPTPGIGKSFLTVNLAVLLAHSGKRVLLIDADMRRGLLDRYFPGLSELLSDQSALEDAVRETPVQGLSFISAGTRPPNPSELLMSTRLPQYLEGLGKRYDVVLIDSPPVLAVTDATIIGRMAGSTFLVLRSGMHTEGEIADAIKRLRTAGVDLEGGIFNGVP 6z16-a1-m1-cE_6z16-a1-m1-ce Structure of the Mrp antiporter complex B7GL97 B7GL97 2.98 ELECTRON MICROSCOPY 10 1.0 491915 (Anoxybacillus flavithermus WK1) 491915 (Anoxybacillus flavithermus WK1) 158 158 MAFQILLNVILAFVWMFLTVSFDGASFLVGYMIGLFILFILRRFFHSRFYLVPVFVIIKLLFIFFKELILSNIAVAKVVMQRSLTIQPAIFALPTELKKEWEITVLAMLITLTPGTLVLDVSDDGSTLYIHALNSPDVHEAIESIKQSFEKTIMEVSK MAFQILLNVILAFVWMFLTVSFDGASFLVGYMIGLFILFILRRFFHSRFYLVPVFVIIKLLFIFFKELILSNIAVAKVVMQRSLTIQPAIFALPTELKKEWEITVLAMLITLTPGTLVLDVSDDGSTLYIHALNSPDVHEAIESIKQSFEKTIMEVSK 6z1g-a1-m1-cD_6z1g-a1-m3-cE CryoEM structure of the interaction between Rubisco Activase small-subunit-like (SSUL) domain with Rubisco from Nostoc sp. (strain PCC7120) P06514 P06514 8.2 ELECTRON MICROSCOPY 13 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 106 106 MQTLPKERRYETLSYLPPLTDVQIEKQVQYILSQGYIPAVEFNEVSEPTELYWTLWKLPLFGAKTSREVLAEVQSCRSQYPGHYIRVVGFDNIKQCQILSFIVHKP MQTLPKERRYETLSYLPPLTDVQIEKQVQYILSQGYIPAVEFNEVSEPTELYWTLWKLPLFGAKTSREVLAEVQSCRSQYPGHYIRVVGFDNIKQCQILSFIVHKP 6z1h-a1-m1-cB_6z1h-a1-m1-cA Ancestral glycosidase (family 1) 2.5 X-RAY DIFFRACTION 55 0.989 32630 (synthetic construct) 32630 (synthetic construct) 373 382 SLKFPKDFLWGAATAAYQIEGAANEDGRGPSIWDTFSHTPGKVHNGDNGDVACDHYHRYKEDVELMKELGLNAYRFSISWPRILPEGEGKVNQKGLDFYNNLIDELLENGIEPFVTLYHWDLPQALQDKGGWENRETVDAFAEYARVCFERFGDRVKYWITFNEPNVFAVLGYLSGVHPPGMKDLKKAFRAAHNLLLAHARAVKAYREISQNGQIGITLNLSPVYPPEITDEMEILSASLDFIGLNYYTSWEIYPEGLYDLLKRIHEKYNLPIYITENGMAVDDEVEDGAVHDTNRIDYLKEHLEAVHKAIEEGVNVRGYFVWSLMDNFEWANGYSKRFGLIYVDYKTQKRTPKKSAYWYREVIKSNGLELEH SLKFPKDFLWGAATAAYQIEGAANEDGRGPSIWDTFSHTPGKVHNGDNGDVACDHYHRYKEDVELMKELGLNAYRFSISWPRILPEGEGKVNQKGLDFYNNLIDELLENGIEPFVTLYHWDLPQALQDKGGWENRETVDAFAEYARVCFERFGDRVKYWITFNEPNVFAVLGYLSGVHPPGMKDLKKAFRAAHNLLLAHARAVKAYREISQNGQIGITLNLSPVYPEITDEMEILSASLDFIGLNYYTSNLVPPDLPRTDMGWEIYPEGLYDLLKRIHEKYNLPIYITENGMAVDDEVEDGAVHDTNRIDYLKEHLEAVHKAIEEGVNVRGYFVWSLMDNFEWANGYSKRFGLIYVDYKTQKRTPKKSAYWYREVIKSNGLE 6z26-a2-m1-cB_6z26-a2-m1-cC Structure of the Danio rerio SAS-6 coiled-coil domain Q7ZVT3 Q7ZVT3 2.32 X-RAY DIFFRACTION 126 0.99 7955 (Danio rerio) 7955 (Danio rerio) 101 101 6z26-a1-m1-cD_6z26-a1-m1-cA RSTQQLQTKVSELETANRELIDKKYKSDSTIRDLKAKTSLEEECQRSKQQVLSLRRENSALDSECHEKERLNQLQTRVAVLEQEIKDKDQLVLRTKEVLEA HRSTQQLQTKVSELETANRELIDKKYKSDSTIRDLKAKTSLEEECQRSKQQVLSLRRENSALDSECHEKERLNQLQTRVAVLEQEIKDKDQLVLRTKEVLE 6z2q-a1-m1-cD_6z2q-a1-m1-cA Crystal structure of wild type OgpA from Akkermansia muciniphila in complex with an O-glycopeptide (GalGalNAc-TS) product P36193 B2UR60 2.347 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 349741 (Akkermansia muciniphila ATCC BAA-835) 2 355 TS TVPDALKDRIALKKTARQLNIVYFLGSDTEPVPDYERRLSELLLYLQQFYGKEMQRHGYGARSFGLDIKSPGRVNIIEYKAKNPAAHYPYENGGGWKAAQELDEFFKAHPDRKKSQHTLIIMPTWNDEKNGPDNPGGVPFYGMGRNCFALDYPAFDIKHLGQKTREGRLLTKWYGGMAHELGHGLNLPHNHQTASDGKKYGTALMGSGNYTFGTSPTFLTPASCALLDACEVFSVTPSQQFYEGKPEVEVGDVAISFKGDQILVSGNYKSPQTVKALNVYIQDPPYAVNQDYDAVSFSRRLGKKSGKFSMKIDKKELEGLNNNEFRISLMFILANGLHMQKHFTFHWDALQDYRD 6z2x-a1-m1-cE_6z2x-a1-m1-cF Mec1-Ddc2 (F2244L mutant) in complex with Mg AMP-PNP (State II) P38111 P38111 3.2 ELECTRON MICROSCOPY 132 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 2325 2325 6z2w-a1-m1-cE_6z2w-a1-m1-cF 6z3a-a1-m1-cE_6z3a-a1-m1-cF 7wzr-a1-m1-cF_7wzr-a1-m1-cC 7wzw-a1-m1-cE_7wzw-a1-m1-cF ESHVKYLDELILAIKDLNSGVDSKVQIKKVPSLKILNTLIRNLKDQRRNNIMKNDTIFSKTVSALALLLEYNPFLLVMKDSNGNFEIQRLIDDFLNISVLNYDNYHRIWFMRRKLGSWCKACVEFYGKPAKFQLTAHFENTMNLYEQALTEVLLGKTELLKFYDTLKGLYILLYWFTSEYSTFGNSIAFLDSSLGFTKFDFNFQRLIRIVLYVFDSCELAALEYAEIQLKYISLVVDYVCNRTISTALDAPALVCCEQLKFVLTTMHHFLDNKYGLLDNDPTMAKGILRLYSLCISNDFSKCFVDHFPIDQWADFSQSEHFPFTQLTNKALSIVYFDLKRRSLPVEALKYDNKFNIWVYQSEPDSSLKNVTSPFDDRYKQLEKLRLLVLKKFNKTERGTLLKYRVNQLSPGFFQRAGNDFKLILNEASVSIQTCFKTNNITRLTSWTVILGRLACLESEKFSSTKDMDNWYVCHLCDIEKTGNPFVRINPNRPEAAGKSEIFRILHSNFLSHPNIDEFSESLLSGILFSLHRIFSHFQPPKLTDGNGQINKSFKLVQKCFMNSNRYLRLLSTRIIPLFNISDSHNSEDEHTATLIKFLQSQKLPVVKENLVIAWTQLTLTTSNDVFDTLLLKLIDIFNSDDYSLRIMMTLQIKNMAKILKKTPYQLLSPILPVLLRQLGKNLVERKVGFQNLIELLGYSSKTILDIFQRYIIPYAIIQYKSDVLSEIAKIMCDGDTSLINQMKVNLLKKNSRQIFAVALVKHGLFSLDILETLFLNRAPTFDKGYITAYLPDYKTLAEITKLYKNSVTKDASDSENANMILCSLRFLITNFEKDKRHGSKYKNINNWTDDQEQAFQKKLQDNILGIFQVFSSDIHDVEGRTTYYEKLRVINGISFLIIYAPKKSIISALAQISICLQTGLGLKEVRYEAFRCWHLLVRHLNDEELSTVIDSLIAFILQKWSEFNGKLRNIVYSILDTLIKEKSDLILKLKPYTTLALVGKPELGILARDGQFARMVNKIRSTTDLIPIFANNLKSSNKYVINQNLDDIEVYLRRKQTERSIDFTPSDITLVLGALLDTSHKFRNLDKDLCEKCAKCISMIGVLDVTKHEFKRTTYSENEVYDLNDSVQTIKFLIWVINDILVPAFWQSENPSKQLFVALVIQESLKYCGLSSESWDMNHKELYPNEAKLWEKFNSVSKTTIYPLLSSLYLAQSWKEYVPLKYPSNNFKEGYKIWVKRFTLDLLKTGTTENHPLHVFSSLIREDDGSLSNFLLPYISLDIIIKAEKGTPYADILNGIIIEFDSIFTCNLEGMNNLQVDSLRMCYESIFRVFEYCKKWATEFKQNYSKLHGTFIIKDTKTTNMLLRIDEFLRTTPSDLLAQRSLETDSFERSALYLEQCYRQNPHDKNQNGQLLKNLQITYEEIGDIDSLDGVLRTFATGNLVSKIEELQYSENWKLAQDCFNVLGKFSDDPKTTTRMLKSMYDHQLYSQIISNSSFHSSDGKISLSPDVKEWYSIGLEAANLEGNVQTLKNWVEQIESLRNIDDREVLLQYNIAKALIAISNEDPLRTQKYIHNSFRLIGTNFITSSKETTLLKKQNLLMKLHSLYDLSFLSSAKDKFEYKSNTTILDYRMERIGADFVPNHYILSMRKSFDQLKMNEQADADLGKTFFTLAQLARNNARLDIASESLMHCLERRLPQAELEFAEILWKQGENDRALKIVQEIHEKYQENSSVNARDRAAVLLKFTEWLDLSNNSASEQIIKQYQDIFQIDSKWDKPYYSIGLYYSRLLERKKAEGYITNGRFEYRAISYFLLAFEKNTAKVRENLPKVITFWLDIAAASISEAPRKEMLSKATEDICSHVEEALQHCPTYIWYFVLTQLLSRLLHSHQSSAQIIMHILLSLAVEYPSHILWYITALVNSNSSKRVLRGKHILEKYRQHSQNPHDLVSSALDLTKALTRVCLQDVKFKFDMNVAPSAMVVPVRKNLDIISPLEGYQPFRPVVSIIRFGSSYKVFSSLKKPKQLNIIGSDGNIYGIMCKKEDVRQDNQYMQFATTMDFLLSKDIASRKRSLGINIYSVLSLREDCGILEMVPNVVTLRSILSTKYESLKIKYSLKSLHDRWQHTAVDGKLEFYMEQVDKFPPILYQWFLENFPDPINWFNARNTYARSYAVMAMVGHILGLGDRHCENILLDIQTGKVLHVDLDCLFEKGKRLPVPEIVPFRLTPNLLDALGIIGTEGTFKKSSEVTLALMRKNEVALMNVIETIMYDRNMDHSIQKALKVLRNKIRGIDPQDGLVLSVAGQTETLIQEATSEDNLSKMYIGWLPFW ESHVKYLDELILAIKDLNSGVDSKVQIKKVPSLKILNTLIRNLKDQRRNNIMKNDTIFSKTVSALALLLEYNPFLLVMKDSNGNFEIQRLIDDFLNISVLNYDNYHRIWFMRRKLGSWCKACVEFYGKPAKFQLTAHFENTMNLYEQALTEVLLGKTELLKFYDTLKGLYILLYWFTSEYSTFGNSIAFLDSSLGFTKFDFNFQRLIRIVLYVFDSCELAALEYAEIQLKYISLVVDYVCNRTISTALDAPALVCCEQLKFVLTTMHHFLDNKYGLLDNDPTMAKGILRLYSLCISNDFSKCFVDHFPIDQWADFSQSEHFPFTQLTNKALSIVYFDLKRRSLPVEALKYDNKFNIWVYQSEPDSSLKNVTSPFDDRYKQLEKLRLLVLKKFNKTERGTLLKYRVNQLSPGFFQRAGNDFKLILNEASVSIQTCFKTNNITRLTSWTVILGRLACLESEKFSSTKDMDNWYVCHLCDIEKTGNPFVRINPNRPEAAGKSEIFRILHSNFLSHPNIDEFSESLLSGILFSLHRIFSHFQPPKLTDGNGQINKSFKLVQKCFMNSNRYLRLLSTRIIPLFNISDSHNSEDEHTATLIKFLQSQKLPVVKENLVIAWTQLTLTTSNDVFDTLLLKLIDIFNSDDYSLRIMMTLQIKNMAKILKKTPYQLLSPILPVLLRQLGKNLVERKVGFQNLIELLGYSSKTILDIFQRYIIPYAIIQYKSDVLSEIAKIMCDGDTSLINQMKVNLLKKNSRQIFAVALVKHGLFSLDILETLFLNRAPTFDKGYITAYLPDYKTLAEITKLYKNSVTKDASDSENANMILCSLRFLITNFEKDKRHGSKYKNINNWTDDQEQAFQKKLQDNILGIFQVFSSDIHDVEGRTTYYEKLRVINGISFLIIYAPKKSIISALAQISICLQTGLGLKEVRYEAFRCWHLLVRHLNDEELSTVIDSLIAFILQKWSEFNGKLRNIVYSILDTLIKEKSDLILKLKPYTTLALVGKPELGILARDGQFARMVNKIRSTTDLIPIFANNLKSSNKYVINQNLDDIEVYLRRKQTERSIDFTPSDITLVLGALLDTSHKFRNLDKDLCEKCAKCISMIGVLDVTKHEFKRTTYSENEVYDLNDSVQTIKFLIWVINDILVPAFWQSENPSKQLFVALVIQESLKYCGLSSESWDMNHKELYPNEAKLWEKFNSVSKTTIYPLLSSLYLAQSWKEYVPLKYPSNNFKEGYKIWVKRFTLDLLKTGTTENHPLHVFSSLIREDDGSLSNFLLPYISLDIIIKAEKGTPYADILNGIIIEFDSIFTCNLEGMNNLQVDSLRMCYESIFRVFEYCKKWATEFKQNYSKLHGTFIIKDTKTTNMLLRIDEFLRTTPSDLLAQRSLETDSFERSALYLEQCYRQNPHDKNQNGQLLKNLQITYEEIGDIDSLDGVLRTFATGNLVSKIEELQYSENWKLAQDCFNVLGKFSDDPKTTTRMLKSMYDHQLYSQIISNSSFHSSDGKISLSPDVKEWYSIGLEAANLEGNVQTLKNWVEQIESLRNIDDREVLLQYNIAKALIAISNEDPLRTQKYIHNSFRLIGTNFITSSKETTLLKKQNLLMKLHSLYDLSFLSSAKDKFEYKSNTTILDYRMERIGADFVPNHYILSMRKSFDQLKMNEQADADLGKTFFTLAQLARNNARLDIASESLMHCLERRLPQAELEFAEILWKQGENDRALKIVQEIHEKYQENSSVNARDRAAVLLKFTEWLDLSNNSASEQIIKQYQDIFQIDSKWDKPYYSIGLYYSRLLERKKAEGYITNGRFEYRAISYFLLAFEKNTAKVRENLPKVITFWLDIAAASISEAPRKEMLSKATEDICSHVEEALQHCPTYIWYFVLTQLLSRLLHSHQSSAQIIMHILLSLAVEYPSHILWYITALVNSNSSKRVLRGKHILEKYRQHSQNPHDLVSSALDLTKALTRVCLQDVKFKFDMNVAPSAMVVPVRKNLDIISPLEGYQPFRPVVSIIRFGSSYKVFSSLKKPKQLNIIGSDGNIYGIMCKKEDVRQDNQYMQFATTMDFLLSKDIASRKRSLGINIYSVLSLREDCGILEMVPNVVTLRSILSTKYESLKIKYSLKSLHDRWQHTAVDGKLEFYMEQVDKFPPILYQWFLENFPDPINWFNARNTYARSYAVMAMVGHILGLGDRHCENILLDIQTGKVLHVDLDCLFEKGKRLPVPEIVPFRLTPNLLDALGIIGTEGTFKKSSEVTLALMRKNEVALMNVIETIMYDRNMDHSIQKALKVLRNKIRGIDPQDGLVLSVAGQTETLIQEATSEDNLSKMYIGWLPFW 6z3a-a1-m1-cC_6z3a-a1-m1-cD Mec1-Ddc2 (wild-type) in complex with AMP-PNP Q04377 Q04377 3.8 ELECTRON MICROSCOPY 49 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 554 554 6z2w-a1-m1-cC_6z2w-a1-m1-cD 6z2x-a1-m1-cC_6z2x-a1-m1-cD 7wzr-a1-m1-cD_7wzr-a1-m1-cE 7wzw-a1-m1-cC_7wzw-a1-m1-cD NMVPLNPNRIIPDETSLFLESILLHQIIGADLSTIEILNRLKLDYITEFKFKNFVIAKGAPIGKSIVSLLLRCKKTLTLDRFIDTLLEDIAVLIKEISVHPNESKLAVPFLVALMYQIVQFRPSATHNLALKDCFLFICDLIRIYHHVLKVPIHESNMNLHVEPQIFQYELIDYLIISYSFDLLEGILRVLQSHPKQTYMEFFDENILKSFEFVYKLALTISYKPMVNVIFSAVEVVNIITSIILNMDNSSDLKSLISGSWWRDCITRLYALLEKEIKSGDVYNENVDTTTLHMSKYHDFFGLIRNIGDNELGGLISKLIYTDRLQSVPRVISKEDIGFTAPIIGYKMEKWLLKLKDEVLNIFENLLMIYGDDATIVNGEMLIHSSKFLSREQALMIERYVGQDSPNLDLRCHLIEHTLTIIYRLWKDHFKQLREEQIKQVESQLIMSLWRFLVCQTETVTANEREMRDHRHLVDSLHDLTIKDQASYYEDAFEDLPEYIEEELKMQLNKRTGRIMQVKYDEKFQEMARTILESKSFDLTTLEEADSLYISMGL NMVPLNPNRIIPDETSLFLESILLHQIIGADLSTIEILNRLKLDYITEFKFKNFVIAKGAPIGKSIVSLLLRCKKTLTLDRFIDTLLEDIAVLIKEISVHPNESKLAVPFLVALMYQIVQFRPSATHNLALKDCFLFICDLIRIYHHVLKVPIHESNMNLHVEPQIFQYELIDYLIISYSFDLLEGILRVLQSHPKQTYMEFFDENILKSFEFVYKLALTISYKPMVNVIFSAVEVVNIITSIILNMDNSSDLKSLISGSWWRDCITRLYALLEKEIKSGDVYNENVDTTTLHMSKYHDFFGLIRNIGDNELGGLISKLIYTDRLQSVPRVISKEDIGFTAPIIGYKMEKWLLKLKDEVLNIFENLLMIYGDDATIVNGEMLIHSSKFLSREQALMIERYVGQDSPNLDLRCHLIEHTLTIIYRLWKDHFKQLREEQIKQVESQLIMSLWRFLVCQTETVTANEREMRDHRHLVDSLHDLTIKDQASYYEDAFEDLPEYIEEELKMQLNKRTGRIMQVKYDEKFQEMARTILESKSFDLTTLEEADSLYISMGL 6z3c-a1-m1-cBBB_6z3c-a1-m1-cAAA High resolution structure of RgNanOx A0A2N5NNS3 A0A2N5NNS3 1.74 X-RAY DIFFRACTION 110 1.0 33038 ([Ruminococcus] gnavus) 33038 ([Ruminococcus] gnavus) 376 379 6z3b-a1-m1-cB_6z3b-a1-m1-cA AMADIGSMKTVGYAIVGTGYFGAELGRIMKEQEGARIVAVLDPENGQTIAEELDCDVETDLDTLYSREDVEAVIVATPNYLHKEPVIKAAEHGVNVFCEKPIALSYQDCDEMVRTCQEHGVIFMAGHVMNFFHGVRYAKKLINDGVIGKVLYCHSARNGWEEQQPTISWKKIREKSGGHLYHHIHELDCVQFLMGGMPEEVTMTGGNVAHQGEAFGDEDDMLFVNMQFSDNRYAVLEWGSAFHWPEHYVLIQGTKGAIKIDMCDCGGTLKVDGREEHFLVHESQEEDDDRTRIYHGTEMDGAIMYGKPGKKPPMWLHSIMKNEMKYLNGILHGKEVDDEFRPLLTGEAARAAIATADACTKSRFEDRKVKLSEIIG GAMADIGSMKTVGYAIVGTGYFGAELGRIMKEQEGARIVAVLDPENGQTIAEELDCDVETDLDTLYSREDVEAVIVATPNYLHKEPVIKAAEHGVNVFCEKPIALSYQDCDEMVRTCQEHGVIFMAGHVMNFFHGVRYAKKLINDGVIGKVLYCHSARNGWEEQQPTISWKKIREKSGGHLYHHIHELDCVQFLMGGMPEEVTMTGGNVAHQGEAFGDEDDMLFVNMQFSDNRYAVLEWGSAFHWPEHYVLIQGTKGAIKIDMCDCGGTLKVDGREEHFLVHESQEEDDDRTRIYHGTEMDGAIMYGKPGKKPPMWLHSIMKNEMKYLNGILHGKEVDDEFRPLLTGEAARAAIATADACTKSRFEDRKVKLSEIIGEG 6z3n-a1-m1-cCCC_6z3n-a1-m2-cAAA Apo Structure of a Hydrolase from Pseudomonas aeruginosa PAO1 Q9I686 Q9I686 1.58 X-RAY DIFFRACTION 65 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 176 176 6z3n-a2-m1-cBBB_6z3n-a2-m1-cDDD 6z3o-a1-m2-cCCC_6z3o-a1-m1-cAAA 6z3o-a2-m1-cBBB_6z3o-a2-m1-cDDD THLADHYNQAWLFAARAHRNQTLSGSPLPYLVHLGVANELLAADRDGAIERLGETLQIAVLHDTLEDTATSPEELRQQFGEFVCAGVQALSKRVGDGPKRSLDDYLQALAEGPAQYALVKLCDRITNLQPPPQTWNQDKIANYHQESQLILARLGHAHAATARRLREKIEHYRQYY THLADHYNQAWLFAARAHRNQTLSGSPLPYLVHLGVANELLAADRDGAIERLGETLQIAVLHDTLEDTATSPEELRQQFGEFVCAGVQALSKRVGDGPKRSLDDYLQALAEGPAQYALVKLCDRITNLQPPPQTWNQDKIANYHQESQLILARLGHAHAATARRLREKIEHYRQYY 6z3z-a1-m1-cA_6z3z-a1-m1-cB CryoEM structure of horse sodium/proton exchanger NHE9 without C-terminal regulatory domain in an inward-facing conformation F7B113 F7B113 3.19 ELECTRON MICROSCOPY 80 1.0 9796 (Equus caballus) 9796 (Equus caballus) 384 385 6z3y-a1-m1-cA_6z3y-a1-m1-cB ELLVFNFLLILTILTIWLFKNHRFRFLGAMVYGLIMGLILRYILEKMTFDPEIFFNVLLPPIIFHAGYSLKKRHFFQNLGSILTYAFLGTAISCIVIGLIMYGFVKAMVFHFTDCLFFGSLMSATDPVTVLAIFHELHVDPDLYTLLFGESVLNDAVAIVLTYSISIYSAAFFQSVGNFLGIFAGSFAMGSAYAVVTALLTKFTKLCEFPMLETGLFFLLSWSAFLSAEAAGLTGIVAVLFCGVTQAHYTYNNLSLDSKMRTKQLFEFMNFLAENVIFCYMGLALFTFQNHIFNALFILGAFLAIFVARACNIYPLSFLLNLGPWNFQHMMMFSGLRGAIAFALAIRDTESQPKQMMFSTTLLLVFFTVWVFGGGTTGENLYFQ ELLVFNFLLILTILTIWLFKNHRFRFLGAMVYGLIMGLILRYILEKMTFDPEIFFNVLLPPIIFHAGYSLKKRHFFQNLGSILTYAFLGTAISCIVIGLIMYGFVKAMVFHFTDCLFFGSLMSATDPVTVLAIFHELHVDPDLYTLLFGESVLNDAVAIVLTYSISIYSPAAFFQSVGNFLGIFAGSFAMGSAYAVVTALLTKFTKLCEFPMLETGLFFLLSWSAFLSAEAAGLTGIVAVLFCGVTQAHYTYNNLSLDSKMRTKQLFEFMNFLAENVIFCYMGLALFTFQNHIFNALFILGAFLAIFVARACNIYPLSFLLNLGPWNFQHMMMFSGLRGAIAFALAIRDTESQPKQMMFSTTLLLVFFTVWVFGGGTTGENLYFQ 6z42-a1-m1-cC_6z42-a1-m1-cD The low resolution structure of a zinc-dependent alcohol dehydrogenase from Halomonas elongata. E1V3M3 E1V3M3 4 X-RAY DIFFRACTION 98 0.991 768066 (Halomonas elongata DSM 2581) 768066 (Halomonas elongata DSM 2581) 319 329 6z42-a1-m1-cB_6z42-a1-m1-cA KSAVVRTFREPLVIEVPVPRPGPGEILVKVAASGVCHTDLHAARGDWPVKPPPFIPGHEGVGHVVAVGRGVQHVKEGDRVGVPWLYSTCGHCEHCLGGWETLCESQQNTGYSVNGGEYTLAQADYVGKLPDNVGFVEIAPVLCAGVTVYKGLKMTDTRPGQWVVISGIGGLGHMAVQYARAMGLNVAAVDDAKLALAERLGATITVNAMQTDPARYLKQTIGGAHGALVTAVSPKAFEQALGMIRRGGTVALNLPPGDFPLPIFDMVLNGITVRGSIVGTRLDLQEALDFAGEGKVATVKTEKLENINTVFDQMTQGHI MKSAVVRTFREPLVIEEVPVPRPGPGEILVKVAASGVCHTDLHAARGDWPVKPPPFIPGHEGVGHVVAVGRGVQHVKEGDRVGVPWLYSTCGHCEHCLGGWETLCESQQNTGYSVNAEYTLAQADYVGKLPDNVGFVEIAPVLCAGVTVYKGLKMTDTRPGQWVVISGIGGLGHMAVQYARAMGLNVAAVDVDDAKLALAERLGATITVNAMQTDPARYLKQTIGGAHGALVTAVSPKAFEQALGMIRRGGTVALNLPPGDFPLPIFDMVLNGITVRSIVGTRLDLQEALDFAGEGKVQATVKTEKLENINTVFDQMTQGHIRIVLDLA 6z42-a1-m1-cD_6z42-a1-m1-cA The low resolution structure of a zinc-dependent alcohol dehydrogenase from Halomonas elongata. E1V3M3 E1V3M3 4 X-RAY DIFFRACTION 32 0.997 768066 (Halomonas elongata DSM 2581) 768066 (Halomonas elongata DSM 2581) 329 336 6z42-a1-m1-cC_6z42-a1-m1-cB MKSAVVRTFREPLVIEEVPVPRPGPGEILVKVAASGVCHTDLHAARGDWPVKPPPFIPGHEGVGHVVAVGRGVQHVKEGDRVGVPWLYSTCGHCEHCLGGWETLCESQQNTGYSVNAEYTLAQADYVGKLPDNVGFVEIAPVLCAGVTVYKGLKMTDTRPGQWVVISGIGGLGHMAVQYARAMGLNVAAVDVDDAKLALAERLGATITVNAMQTDPARYLKQTIGGAHGALVTAVSPKAFEQALGMIRRGGTVALNLPPGDFPLPIFDMVLNGITVRSIVGTRLDLQEALDFAGEGKVQATVKTEKLENINTVFDQMTQGHIRIVLDLA DSTMKSAVVRTFREPLVIEEVPVPRPGPGEILVKVAASGVCHTDLHAARGDWPVKPEPPFIPGHEGVGHVVAVGRGVQHVKEGDRVGVPWLYSTCGHCEHCLGGWETLCESQQNTGYSVNGEYTLAQADYVGKLPDNVGFVEIAPVLCAGVTVYKGLKMTDTRPGQWVVISGIGGLGHMAVQYARAMGLNVAAVDVDDAKLALAERLGATITVNAMQTDPARYLKQTIGGAHGALVTAVSPKAFEQALGMIRRGGTVALNGLPPGDFPLPIFDMVLNGITVRGSIVGTRLDLQEALDFAGEGKVQATVKTEKLENINTVFDQMTQGHIGRIVLDLA 6z42-a1-m1-cD_6z42-a1-m1-cB The low resolution structure of a zinc-dependent alcohol dehydrogenase from Halomonas elongata. E1V3M3 E1V3M3 4 X-RAY DIFFRACTION 24 0.988 768066 (Halomonas elongata DSM 2581) 768066 (Halomonas elongata DSM 2581) 329 334 6z42-a1-m1-cC_6z42-a1-m1-cA MKSAVVRTFREPLVIEEVPVPRPGPGEILVKVAASGVCHTDLHAARGDWPVKPPPFIPGHEGVGHVVAVGRGVQHVKEGDRVGVPWLYSTCGHCEHCLGGWETLCESQQNTGYSVNAEYTLAQADYVGKLPDNVGFVEIAPVLCAGVTVYKGLKMTDTRPGQWVVISGIGGLGHMAVQYARAMGLNVAAVDVDDAKLALAERLGATITVNAMQTDPARYLKQTIGGAHGALVTAVSPKAFEQALGMIRRGGTVALNLPPGDFPLPIFDMVLNGITVRSIVGTRLDLQEALDFAGEGKVQATVKTEKLENINTVFDQMTQGHIRIVLDLA TMKSAVVRTFREPLVIEEVPVPPGPGEILVKVAASGVCHTDLHAARGDWPVKPEPPIPGHEGVGHVVAVGRGVQHVKEGDRVGVPWLYSTCGHCEHCLGGWETLCESQQNTGYSVNGGFAEYTLAQADYVGKLPDNVGFVEIAPVLCAGVTVYKGLKMTDTRPGQWVVISIGGLGHMAVQYARAMGLNVAAVDVDDAKLALAERLGATITVNAMQTDPARYLKQTIGGAHGALVTAVSPKAFEQALGMIRRGGTVALNGLPPGDFPLPIFDMVLNGITVRSIVGTRLDLQEALDFAGEGKVQATVKTEKLENINTVFDQMTQGHIEGRIVLDLA 6z46-a1-m1-cF_6z46-a1-m1-cG Structure of the S. acidocaldarius 20S proteasome (Saci0613/Saci0662) Q4JB24 Q4JB24 3.698 X-RAY DIFFRACTION 84 0.995 2285 (Sulfolobus acidocaldarius) 2285 (Sulfolobus acidocaldarius) 219 220 6z46-a1-m1-cC_6z46-a1-m1-cB 6z46-a1-m1-cD_6z46-a1-m1-cC 6z46-a1-m1-cD_6z46-a1-m1-cE 6z46-a1-m1-cE_6z46-a1-m1-cF 6z46-a1-m1-cP_6z46-a1-m1-cO 6z46-a1-m1-cR_6z46-a1-m1-cQ 6z46-a1-m1-cU_6z46-a1-m1-cO ITIFSPDGSLYQVDYAFEAVKRGWTTLGVKTKSGVVLLAEKRKATQLLDVDGIEKIFMLDDHVGCTFAGLASDGRILIDYARSQALQHRLIYDEPISIEYLTKVISDVKQAYTQHGGVRPFGVALIVGGIDKGKQPKLLMTEPSGQFMPYYAVAIGQGGYTATEYLEKNYKEDLDIQSTILLALRALMNYSSVEIGYADVDSGTFKKLTTEERSDLLQK TIFSPDGSLYQVDYAFEAVKRGWTTLGVKTKSGVVLLAEKRKATQLLDVDGIEKIFMLDDHVGCTFAGLASDGRILIDYARSQALQHRLIYDEPISIEYLTKVISDVKQAYTQHGGVRPFGVALIVGGIDKGKQPKLLMTEPSGQFMPYYAVAIGQGGYTATEYLEKNYKEDLDIQSTILLALRALMLNYSSVEIGYADVDSGTFKKLTTEERSDLLQKI 6z4e-a1-m1-cA_6z4e-a1-m2-cA The structure of the C-terminal domain of RssB from E. coli P0AEV1 P0AEV1 2 X-RAY DIFFRACTION 61 1.0 562 (Escherichia coli) 562 (Escherichia coli) 207 207 SRVEEEERLFRDWDAMVDNPAAAAKLLQELQPPVQQVISHCRVNYRQLVAADKPGLVLDIAALSENDLAFYCLDVTRAGHNGVLAALLLRALFNGLLQEQLAHQNQRLPELGALLKQVNHLLRQANLPGQFPLLVGYYHRELKNLILVSAGLNATLNTGEHQVQISNGVPLGTLGNAYLNQLSQRCDAWQCQIWGTGGRLRLMLSAE SRVEEEERLFRDWDAMVDNPAAAAKLLQELQPPVQQVISHCRVNYRQLVAADKPGLVLDIAALSENDLAFYCLDVTRAGHNGVLAALLLRALFNGLLQEQLAHQNQRLPELGALLKQVNHLLRQANLPGQFPLLVGYYHRELKNLILVSAGLNATLNTGEHQVQISNGVPLGTLGNAYLNQLSQRCDAWQCQIWGTGGRLRLMLSAE 6z5l-a1-m11-cA_6z5l-a1-m9-cA Helical reconstruction of influenza A virus M1 in complex with nucleic acid. P03485 P03485 3.8 ELECTRON MICROSCOPY 154 1.0 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 251 251 6z5l-a1-m10-cA_6z5l-a1-m6-cA 6z5l-a1-m10-cA_6z5l-a1-m9-cA 6z5l-a1-m11-cA_6z5l-a1-m12-cA 6z5l-a1-m12-cA_6z5l-a1-m13-cA 6z5l-a1-m13-cA_6z5l-a1-m14-cA 6z5l-a1-m14-cA_6z5l-a1-m15-cA 6z5l-a1-m15-cA_6z5l-a1-m16-cA 6z5l-a1-m16-cA_6z5l-a1-m17-cA 6z5l-a1-m17-cA_6z5l-a1-m18-cA 6z5l-a1-m18-cA_6z5l-a1-m19-cA 6z5l-a1-m19-cA_6z5l-a1-m21-cA 6z5l-a1-m1-cA_6z5l-a1-m40-cA 6z5l-a1-m20-cA_6z5l-a1-m21-cA 6z5l-a1-m20-cA_6z5l-a1-m22-cA 6z5l-a1-m22-cA_6z5l-a1-m23-cA 6z5l-a1-m23-cA_6z5l-a1-m24-cA 6z5l-a1-m24-cA_6z5l-a1-m25-cA 6z5l-a1-m25-cA_6z5l-a1-m26-cA 6z5l-a1-m26-cA_6z5l-a1-m27-cA 6z5l-a1-m27-cA_6z5l-a1-m29-cA 6z5l-a1-m28-cA_6z5l-a1-m29-cA 6z5l-a1-m28-cA_6z5l-a1-m30-cA 6z5l-a1-m2-cA_6z5l-a1-m3-cA 6z5l-a1-m30-cA_6z5l-a1-m31-cA 6z5l-a1-m31-cA_6z5l-a1-m32-cA 6z5l-a1-m32-cA_6z5l-a1-m33-cA 6z5l-a1-m33-cA_6z5l-a1-m34-cA 6z5l-a1-m34-cA_6z5l-a1-m35-cA 6z5l-a1-m35-cA_6z5l-a1-m36-cA 6z5l-a1-m36-cA_6z5l-a1-m37-cA 6z5l-a1-m37-cA_6z5l-a1-m38-cA 6z5l-a1-m38-cA_6z5l-a1-m39-cA 6z5l-a1-m39-cA_6z5l-a1-m40-cA 6z5l-a1-m3-cA_6z5l-a1-m5-cA 6z5l-a1-m41-cA_6z5l-a1-m42-cA 6z5l-a1-m42-cA_6z5l-a1-m43-cA 6z5l-a1-m43-cA_6z5l-a1-m44-cA 6z5l-a1-m44-cA_6z5l-a1-m45-cA 6z5l-a1-m45-cA_6z5l-a1-m46-cA 6z5l-a1-m46-cA_6z5l-a1-m47-cA 6z5l-a1-m47-cA_6z5l-a1-m48-cA 6z5l-a1-m48-cA_6z5l-a1-m49-cA 6z5l-a1-m49-cA_6z5l-a1-m50-cA 6z5l-a1-m4-cA_6z5l-a1-m5-cA 6z5l-a1-m4-cA_6z5l-a1-m8-cA 6z5l-a1-m50-cA_6z5l-a1-m51-cA 6z5l-a1-m51-cA_6z5l-a1-m53-cA 6z5l-a1-m52-cA_6z5l-a1-m53-cA 6z5l-a1-m52-cA_6z5l-a1-m54-cA 6z5l-a1-m54-cA_6z5l-a1-m55-cA 6z5l-a1-m55-cA_6z5l-a1-m56-cA 6z5l-a1-m56-cA_6z5l-a1-m57-cA 6z5l-a1-m57-cA_6z5l-a1-m58-cA 6z5l-a1-m58-cA_6z5l-a1-m59-cA 6z5l-a1-m59-cA_6z5l-a1-m60-cA 6z5l-a1-m60-cA_6z5l-a1-m61-cA 6z5l-a1-m61-cA_6z5l-a1-m63-cA 6z5l-a1-m62-cA_6z5l-a1-m63-cA 6z5l-a1-m62-cA_6z5l-a1-m64-cA 6z5l-a1-m64-cA_6z5l-a1-m65-cA 6z5l-a1-m65-cA_6z5l-a1-m66-cA 6z5l-a1-m66-cA_6z5l-a1-m67-cA 6z5l-a1-m67-cA_6z5l-a1-m68-cA 6z5l-a1-m68-cA_6z5l-a1-m69-cA 6z5l-a1-m69-cA_6z5l-a1-m70-cA 6z5l-a1-m6-cA_6z5l-a1-m7-cA 6z5l-a1-m70-cA_6z5l-a1-m71-cA 6z5l-a1-m71-cA_6z5l-a1-m72-cA 6z5l-a1-m72-cA_6z5l-a1-m73-cA 6z5l-a1-m73-cA_6z5l-a1-m74-cA 6z5l-a1-m74-cA_6z5l-a1-m75-cA 6z5l-a1-m75-cA_6z5l-a1-m76-cA 6z5l-a1-m76-cA_6z5l-a1-m77-cA 6z5l-a1-m77-cA_6z5l-a1-m78-cA 6z5l-a1-m78-cA_6z5l-a1-m79-cA 6z5l-a1-m79-cA_6z5l-a1-m80-cA 6z5l-a1-m7-cA_6z5l-a1-m8-cA 7jm3-a1-m10-cC_7jm3-a1-m11-cC 7jm3-a1-m10-cC_7jm3-a1-m9-cC 7jm3-a1-m11-cC_7jm3-a1-m12-cC 7jm3-a1-m12-cC_7jm3-a1-m13-cC 7jm3-a1-m13-cC_7jm3-a1-m14-cC 7jm3-a1-m14-cC_7jm3-a1-m15-cC 7jm3-a1-m15-cC_7jm3-a1-m16-cC 7jm3-a1-m16-cC_7jm3-a1-m17-cC 7jm3-a1-m17-cC_7jm3-a1-m18-cC 7jm3-a1-m18-cC_7jm3-a1-m19-cC 7jm3-a1-m19-cC_7jm3-a1-m20-cC 7jm3-a1-m1-cC_7jm3-a1-m30-cC 7jm3-a1-m1-cC_7jm3-a1-m31-cC 7jm3-a1-m20-cC_7jm3-a1-m21-cC 7jm3-a1-m21-cC_7jm3-a1-m22-cC 7jm3-a1-m22-cC_7jm3-a1-m23-cC 7jm3-a1-m23-cC_7jm3-a1-m24-cC 7jm3-a1-m24-cC_7jm3-a1-m25-cC 7jm3-a1-m25-cC_7jm3-a1-m26-cC 7jm3-a1-m26-cC_7jm3-a1-m27-cC 7jm3-a1-m27-cC_7jm3-a1-m28-cC 7jm3-a1-m28-cC_7jm3-a1-m29-cC 7jm3-a1-m29-cC_7jm3-a1-m30-cC 7jm3-a1-m2-cC_7jm3-a1-m3-cC 7jm3-a1-m31-cC_7jm3-a1-m32-cC 7jm3-a1-m32-cC_7jm3-a1-m33-cC 7jm3-a1-m33-cC_7jm3-a1-m34-cC 7jm3-a1-m34-cC_7jm3-a1-m35-cC 7jm3-a1-m35-cC_7jm3-a1-m36-cC 7jm3-a1-m36-cC_7jm3-a1-m37-cC 7jm3-a1-m37-cC_7jm3-a1-m38-cC 7jm3-a1-m38-cC_7jm3-a1-m39-cC 7jm3-a1-m39-cC_7jm3-a1-m40-cC 7jm3-a1-m3-cC_7jm3-a1-m4-cC 7jm3-a1-m40-cC_7jm3-a1-m41-cC 7jm3-a1-m41-cC_7jm3-a1-m42-cC 7jm3-a1-m42-cC_7jm3-a1-m43-cC 7jm3-a1-m43-cC_7jm3-a1-m44-cC 7jm3-a1-m44-cC_7jm3-a1-m45-cC 7jm3-a1-m45-cC_7jm3-a1-m46-cC 7jm3-a1-m46-cC_7jm3-a1-m47-cC 7jm3-a1-m47-cC_7jm3-a1-m48-cC 7jm3-a1-m48-cC_7jm3-a1-m49-cC 7jm3-a1-m49-cC_7jm3-a1-m50-cC 7jm3-a1-m4-cC_7jm3-a1-m5-cC 7jm3-a1-m50-cC_7jm3-a1-m51-cC 7jm3-a1-m51-cC_7jm3-a1-m52-cC 7jm3-a1-m52-cC_7jm3-a1-m53-cC 7jm3-a1-m53-cC_7jm3-a1-m54-cC 7jm3-a1-m54-cC_7jm3-a1-m55-cC 7jm3-a1-m55-cC_7jm3-a1-m56-cC 7jm3-a1-m56-cC_7jm3-a1-m57-cC 7jm3-a1-m57-cC_7jm3-a1-m58-cC 7jm3-a1-m58-cC_7jm3-a1-m59-cC 7jm3-a1-m59-cC_7jm3-a1-m60-cC 7jm3-a1-m5-cC_7jm3-a1-m6-cC 7jm3-a1-m6-cC_7jm3-a1-m7-cC 7jm3-a1-m7-cC_7jm3-a1-m8-cC 7jm3-a1-m8-cC_7jm3-a1-m9-cC SLLTEVETYVLSIIPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPLTKGILGFVFTLTVPSERGLQRRRFVQNALNGNGDPNNMDKAVKLYRKLKREITFHGAKEISLSYSAGALASCMGLIYNKMGAVTTEVAFGLVCATCEQIADSQHRSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRFK SLLTEVETYVLSIIPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPLTKGILGFVFTLTVPSERGLQRRRFVQNALNGNGDPNNMDKAVKLYRKLKREITFHGAKEISLSYSAGALASCMGLIYNKMGAVTTEVAFGLVCATCEQIADSQHRSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRFK 6z68-a1-m1-cB_6z68-a1-m1-cA A novel metagenomic alpha/beta-fold esterase A0A1M6Y2K1 A0A1M6Y2K1 1.35 X-RAY DIFFRACTION 51 1.0 1848 (Pseudonocardia thermophila) 1848 (Pseudonocardia thermophila) 357 363 RRPGRLGDPDRCLRTDPRTDPRTVEALAPFGLDVNAAPAPIGPDAPREQQLEYAMGAEAAFEGVFAALMDGLDPVPGIERRTETISGPAGNEIKLYVHRPAGAVGPLPGIFHIHGGGMVILQAAGPVYVRFRDELAATGTVVVGVEYRNGAGVLGPHPFPAGLHDCAVALDWVHARRAELGISTLTVAGESGGGNLTLATAIRAKREGRLDAIDGVYALVPYISGMYGRSREEREAELPSLVECDGYFISCDLCAVFVEVYDPGTAHLTDPLAWPYHAAREDLVGLPPHVISVNEVDPLRDEGLAYYRKLVEAGVEARSRVVPGACHAADMMFRKAAPDMYEATVQDIHDFVTSLHR RRPGRLGDPDRCLRTDPRTDPRTVEALAPFGLDVNAAPAPIGPDAPREQQLEYAMGAEAAFEGVFAALMDGLDPVPGIERRTETISGPAGNEIKLYVHRPAGAVGPLPGIFHIHGGGMVILQAAGPVYVRFRDELAATGTVVVGVEYRNGAGVLGPHPFPAGLHDCAVALDWVHARRAELGISTLTVAGESGGGNLTLATAIRAKREGRLDAIDGVYALVPYISGMYGRSREEREAELPSLVECDGYFISCDLCAVFVEVYDPGTAHLTDPLAWPYHAAREDLVGLPPHVISVNEVDPLRDEGLAYYRKLVEAGVEARSRVVPGACHAADMMFRKAAPDMYEATVQDIHDFVTSLHRLEHHHH 6z6e-a1-m3-cC_6z6e-a1-m3-cB Crystal structure of the HK97 bacteriophage small terminase Q9MBW4 Q9MBW4 1.4 X-RAY DIFFRACTION 75 1.0 37554 (Byrnievirus HK97) 37554 (Byrnievirus HK97) 101 102 6z6e-a1-m1-cB_6z6e-a1-m1-cA 6z6e-a1-m1-cC_6z6e-a1-m1-cB 6z6e-a1-m1-cC_6z6e-a1-m2-cA 6z6e-a1-m2-cB_6z6e-a1-m2-cA 6z6e-a1-m2-cC_6z6e-a1-m2-cB 6z6e-a1-m2-cC_6z6e-a1-m3-cA 6z6e-a1-m3-cB_6z6e-a1-m3-cA 6z6e-a1-m3-cC_6z6e-a1-m1-cA DTIDPPSHAGLEKKAEPFWHDNIRSKALDSWTPADLLAAVELANNQLYITVLRKDLRKEERIRGEERDEGLIKDLRKQIVELQRTILAQRRDLQIHSHATN VDTIDPPSHAGLEKKAEPFWHDNIRSKALDSWTPADLLAAVELANNQLYITVLRKDLRKEERIRGEERDEGLIKDLRKQIVELQRTILAQRRDLQIHSHATN 6z6o-a1-m1-cM_6z6o-a1-m1-cN HDAC-TC P53973 P53973 3.8 ELECTRON MICROSCOPY 300 0.989 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 656 661 5j8j-a1-m1-cA_5j8j-a1-m2-cA 6z6f-a1-m1-cA_6z6f-a1-m1-cB 6z6h-a1-m1-cA_6z6h-a1-m1-cB 6z6h-a1-m1-cF_6z6h-a1-m1-cG 6z6o-a1-m1-cA_6z6o-a1-m1-cB 6z6o-a1-m1-cE_6z6o-a1-m1-cF 6z6o-a1-m1-cI_6z6o-a1-m1-cJ 6z6p-a1-m1-cK_6z6p-a1-m1-cL RQVIVPVCMPKIHYSPLKTGLCYDVRMRYHAKIFTSYFEYIDPHPEDPRRIYRIYKILAENGLINDPTLSGVDDLGDLMLKIPVRAATSEEILEVHTKEHLEFIESTEKMSREELLKETEKGDSVYFNNDSYASARLPCGGAIEACKAVVEGRVKNSLAVVRPPGHHAEPQAAGGFCLFSNVAVAAKNILKNYPESVRRIMILDWDIHHGNGTQKSFYQDDQVLYVSLHRFEMGKYYPGTIQGQYDQTGEGKGEGFNCNITWPVGGVGDAEYMWAFEQVVMPMGREFKPDLVIISSGFDAADGDTIGQCHVTPSCYGHMTHMLKSLARGNLCVVLEGGYNLDAIARSALSVAKVLIGEPPDELPDPLSDPKPEVIEMIDKVIRLQSKYWNCFRRRHANSGCNFNEPLNDSIISKNFPLQKAIRQQQQHYLSDEFNFVTLPLVSMDLPDNTVLCTPNISESNTIIIVVHDTSDIWAKRNVISGTIDLSSSVIIDNSLDFIKWGLDRKYGIIDVNIPLTLFEPDNYSGMITSQEVLIYLWDNYIKYFPSVAKIAFIGIGDSYSGIVHLLGHRDTRAVTKTVINFLGDKQLKPLVPLVDETLSEWYFKNSLIFSNNSHQCWKKPRKKFGRVLRCDTDGLNNIIEERFEEATDFILDSFE ENSLSTTSKSKRQVIVPVCMPKIHYSPLKTGLCYDVRMRYHAKIFTSYFEYIDPHPEDPRRIYRIYKILAENGLINDPTLSGVDDLGDLMLKIPVRAATSEEILEVHTKEHLEFIESTEKMSREELLKETEKGDSVYFNNDSYASARLPCGGAIEACKAVVEGRVKNSLAVVRPPGHHAEPQAAGGFCLFSNVAVAAKNILKNYPESVRRIMILDWDIHHGNGTQKSFYQDDQVLYVSLHRFEMGKYYPGTIQGQYDQTGEGKGEGFNCNITWPVGGVGDAEYMWAFEQVVMPMGREFKPDLVIISSGFDAADGDTIGQCHVTPSCYGHMTHMLKSLARGNLCVVLEGGYNLDAIARSALSVAKVLIGEPPDELPDPLSDPKPEVIEMIDKVIRLQSKYWNCFRRRHANSGCNFNEPINDSIISKNFPLQKAIRQQQQHYLSDEFNFVTLPLVSMDLPDNTVLCTPNISESNTIIIVVHDTSDIWAKRNVISGTIDLSSSVIIDNSLDFIKWGLDRKYGIIDVNIPLTLFEPDNYSGMITSQEVLIYLWDNYIKYFPSVAKIAFIGIGDSYSGIVHLLGHRDTRAVTKTVINFLGDKQLKPLVPLVDETLSEWYFKNSLIFSNNSHQCKKFGRVLRCDTDLNNIIEERFEEATDFILDSFE 6z70-a1-m1-cA_6z70-a1-m1-cB Structure of the MATE family multidrug resistance transporter Aq_128 from Aquifex aeolicus in the outward-facing state O66528 O66528 2 X-RAY DIFFRACTION 66 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 444 444 6fv8-a1-m1-cB_6fv8-a1-m1-cA MQRIIVNPNEPYLSVIKKVVKLSIPIIVVNLLYTVENMISMILVSSISPSAVAATGFSLSLLWFIYSLMALSYSGTNILIAQFVGAKKDPSPILINGLFLSFLISLPLFFYGKDFVLFLMKVLGASETVRSLAKEYLTPIFWFIPIGFLTNTFYGAYNGAGDTKTPMKVAIIMNLTHIGTAYTLINGKFGLPKLGVEGAGWGIAISEILAFFIYTFLLIFFKKPFPLHLRLEPKLLFKMVRLGTPTALERAITTLSFNVFVGFLAKFGDKVLAAHQIGLRIESISFMIGFGVMIASTTLAGQNYGARNYRGMVHAVNTSAHFTALVMSLTGLILILFPHYLVYPFSRDPEVIEWASYYLQIVGISQPAMAYASIYSGALKGMGKTHIPLFVNISSFWLFRIIPSYFLLKVIHSPLVPWGFMTFETAVRALFYYTVFKKVVGKLL MQRIIVNPNEPYLSVIKKVVKLSIPIIVVNLLYTVENMISMILVSSISPSAVAATGFSLSLLWFIYSLMALSYSGTNILIAQFVGAKKDPSPILINGLFLSFLISLPLFFYGKDFVLFLMKVLGASETVRSLAKEYLTPIFWFIPIGFLTNTFYGAYNGAGDTKTPMKVAIIMNLTHIGTAYTLINGKFGLPKLGVEGAGWGIAISEILAFFIYTFLLIFFKKPFPLHLRLEPKLLFKMVRLGTPTALERAITTLSFNVFVGFLAKFGDKVLAAHQIGLRIESISFMIGFGVMIASTTLAGQNYGARNYRGMVHAVNTSAHFTALVMSLTGLILILFPHYLVYPFSRDPEVIEWASYYLQIVGISQPAMAYASIYSGALKGMGKTHIPLFVNISSFWLFRIIPSYFLLKVIHSPLVPWGFMTFETAVRALFYYTVFKKVVGKLL 6z79-a1-m1-cA_6z79-a1-m2-cA Variant Surface Glycoprotein VSGsur, I3C (""Magic Triangle"") derivative used for phasing of the structure and subsequently as a model for molecular replacement of native, mutants, and drug soaks. A0A291L8F4 A0A291L8F4 1.92 X-RAY DIFFRACTION 283 1.0 31286 (Trypanosoma brucei rhodesiense) 31286 (Trypanosoma brucei rhodesiense) 336 336 DTAAGHVTTPCTEILFDLTLAKHYENQIQAAESALNRNYAAIRSWTLLEAMNRQNAYTGLIAYGIQITVNAEQELQGPKQTKLRAAHALRHRAANLSAALQIQAAQQATLTKPTAGGAQTPFSGATGTCKYEGITATAGEQSCKYSTEDEEKINAAHMNPEVMTQITTIGDKYLTTITLDAIAGSKGNPTQSSATYAEQDCQDGGNPGPNFGGANALGLQVTKLGTKATTEKTNLYTAGGTECEHQPGNGPQKTKQRLAYLVCEANKAAIITPTDLQTLTLDALISAPEMAAIGQLLKKAYGQTNEQFQKNFIKPQTTVAALMSSPNSGLALAYHK DTAAGHVTTPCTEILFDLTLAKHYENQIQAAESALNRNYAAIRSWTLLEAMNRQNAYTGLIAYGIQITVNAEQELQGPKQTKLRAAHALRHRAANLSAALQIQAAQQATLTKPTAGGAQTPFSGATGTCKYEGITATAGEQSCKYSTEDEEKINAAHMNPEVMTQITTIGDKYLTTITLDAIAGSKGNPTQSSATYAEQDCQDGGNPGPNFGGANALGLQVTKLGTKATTEKTNLYTAGGTECEHQPGNGPQKTKQRLAYLVCEANKAAIITPTDLQTLTLDALISAPEMAAIGQLLKKAYGQTNEQFQKNFIKPQTTVAALMSSPNSGLALAYHK 6z7a-a1-m1-cA_6z7a-a1-m2-cA Variant Surface Glycoprotein VSGsur A0A291L8F4 A0A291L8F4 1.21 X-RAY DIFFRACTION 308 1.0 31286 (Trypanosoma brucei rhodesiense) 31286 (Trypanosoma brucei rhodesiense) 359 359 6z7b-a1-m1-cB_6z7b-a1-m1-cA 6z7c-a1-m1-cA_6z7c-a1-m2-cA 6z7d-a1-m1-cA_6z7d-a1-m2-cA 6z7e-a1-m1-cA_6z7e-a1-m2-cA AKDTAAGHVTTPCTEILFDLTLAKHYENQIQAAESALNRNYAAIRSWTLLEAMSSDGNRQNAYTGLIAYGIQITVNAEQELQGPKQTKLRAAHALRHRAANLSAALQIQAAQQATLTKPTAGGAQTPFSGATGTCKYEGITATAGEQSCKYSTEDEEKINAAHMNPEVMTQITTIGDKYLTTITLDAIAGSKGNPTQSSATYAEQDCQDGGNPGPNFGGANALGLQVTKLGTKATTEKTNLYTAGGTECEHQPGNGPQKTKQRLAYLVCEANKAAIITPTDLQTLTLDALISAPEMAAIGDALLIQQLLKKAYGQTNEQFQKNFIKPLAAQTVKFKSNTVAALMSSPNSGLALAYHKGK AKDTAAGHVTTPCTEILFDLTLAKHYENQIQAAESALNRNYAAIRSWTLLEAMSSDGNRQNAYTGLIAYGIQITVNAEQELQGPKQTKLRAAHALRHRAANLSAALQIQAAQQATLTKPTAGGAQTPFSGATGTCKYEGITATAGEQSCKYSTEDEEKINAAHMNPEVMTQITTIGDKYLTTITLDAIAGSKGNPTQSSATYAEQDCQDGGNPGPNFGGANALGLQVTKLGTKATTEKTNLYTAGGTECEHQPGNGPQKTKQRLAYLVCEANKAAIITPTDLQTLTLDALISAPEMAAIGDALLIQQLLKKAYGQTNEQFQKNFIKPLAAQTVKFKSNTVAALMSSPNSGLALAYHKGK 6z7o-a1-m1-cA_6z7o-a1-m2-cA Crystal structure of Thioredoxin T from Drosophila melanogaster Q8IFW4 Q8IFW4 2.33 X-RAY DIFFRACTION 11 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 110 110 MVYPVRNKDDLDQQLILAEDKLVVIDFYADWCGPCKIIAPKLDELAHEYSDRVVVLKVNVDENEDITVEYNVNSMPTFVFIKGGNVLELFVGCNSDKLAKLMEKHACIVD MVYPVRNKDDLDQQLILAEDKLVVIDFYADWCGPCKIIAPKLDELAHEYSDRVVVLKVNVDENEDITVEYNVNSMPTFVFIKGGNVLELFVGCNSDKLAKLMEKHACIVD 6z7v-a1-m1-cB_6z7v-a1-m1-cA Crystal structure of Mindy2 (C266A) in complex with Lys48 linked di-ubiquitin (K48-Ub2) Q8NBR6 Q8NBR6 2.65 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 259 260 SVYHIKWIQWKEENTPIITQNENGPAPLLAILNVLLLAWKVKLPPMMEIITAEQLMEYLGDYMLDAKPKEISEIQRLNYEQNMSDAMAILHKLQTGLDVNVRFTGVRVFEYTPECIVFDLLDIPLYHGWLVDPQIDDIVKAVGNCSYNQLVEKIISCKQSDNSELVSEGFVAEQFLNNTATQLTYHGLCELTSTVQEGELCVFFRNNHFSTMTKYKGQLYLLVTDQGFLTEEKVVWESLHNVDGDGNFCDSEFHLRPPS MSVYHIKWIQWKEENTPIITQNENGPAPLLAILNVLLLAWKVKLPPMMEIITAEQLMEYLGDYMLDAKPKEISEIQRLNYEQNMSDAMAILHKLQTGLDVNVRFTGVRVFEYTPECIVFDLLDIPLYHGWLVDPQIDDIVKAVGNCSYNQLVEKIISCKQSDNSELVSEGFVAEQFLNNTATQLTYHGLCELTSTVQEGELCVFFRNNHFSTMTKYKGQLYLLVTDQGFLTEEKVVWESLHNVDGDGNFCDSEFHLRPPS 6z8h-a1-m1-cB_6z8h-a1-m1-cA Crystal structure of Variant Surface Glycoprotein VSG13 Q58NS4 Q58NS4 1.38 X-RAY DIFFRACTION 300 0.991 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 350 351 6z8g-a1-m1-cA_6z8g-a1-m1-cB NAPCTTACGCKSRLLKRLDLYTSKYADGINNERENSEAYSKLVTAALAAVPTMQRKILPLLGAAADILDICRRELATARPLVQAAISKIEEAAGVYNTLHKLERGLGEAKIEFTDLRLTKTKFRATSLGTIHTADCPNGEVKIGLEHEENEPEPAKLITHGHLDATCASGVGQSSSCHTTAVEANTHLTLGLTFSGSSKDESATWNAATNNKRAIHSNDADFLGSNATVAHEALKAIRSAGASTPCSSLITDFNAVRANPKFKLMVIKALLNKPTAEKESDAPADEVNNAINSAYGREGSEYNTKTWKDIGSTRIPKADPPGEKTDTIDKLSSLPQWGDAIARLLLQEIT NAPCTTACGCKSRLLKRLDLYTSKYADGINNERENSEAYSKLVTAALAAVPTMQRKILPLLGAAADILDICRRELATARPLVQAAISKIEEAAGVYNTLHKLERGLGEAKIEFGGTDLRLTKTKFRATSLGTIHTADCPNADEVKIGLEHEENEPEPAKLITHGHLDATCASGVGQSSSCTAVEANTHLTLGLTFSGSSKDESATWNAATNNKRAIHSNDADFLGSNATVAHEALKAIRSAGASTPCSSLITDFNAVRANPKFKLMVIKALLNKPTAEKESDAPADEVNNAINSAYGREGSEYNTKTWKDIGSTRIPKADPPGEKTDTIDKLSSLPQWGDAIARLLLQEIT 6z8i-a1-m1-cB_6z8i-a1-m2-cB Fructo-oligosaccharide transporter BT 1762-63 Q8A6W3 Q8A6W3 2.62 X-RAY DIFFRACTION 201 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 807 807 5t4y-a1-m1-cC_5t4y-a1-m1-cD 6z9a-a1-m1-cB_6z9a-a1-m2-cB 6zaz-a1-m1-cB_6zaz-a1-m2-cB 6zlt-a1-m1-cB_6zlt-a1-m2-cB 6zlu-a1-m1-cB_6zlu-a1-m2-cB 6zm1-a1-m1-cD_6zm1-a1-m1-cB GQIKINFDASVSASMYQSKMNVLNTEQYGRAMWQAYVNDGENPNGNALGYAYNWGYNADGNPVLYGMTLSKYLDSKNTMPVADTDWFDEITRTGVIQQYNLSVSNGSEKGSSFFSLGYYKNLGVIKDTDFDRFSARMNSDYKLIDDILTIGQHFTLNRTSEVQAPGGIIETALDIPSAIPVYASDGSWGGPVGGWPDRRNPRAVLEYNKDNRYTYWRMFGDAYVNLTPFKGFNLRSTFGLDYANKQARYFTYPYQEGTQTNNGKSAVEAKQEHWTKWMWNAIATYQLEVGKHRGDVMIGMELNREDDSHFSGYKEDFSILTPDYMWPDAGSGTAQAYGAGEGYSLVSFFGKMNYSYADRYLLSLTLRRDGSSRFGKNHRYATFPSVSLGWRITQENFMKELTWLDDLKLRASWGQTGNQEISNLARYTIYAPNYGTTDSFGGQSYGTAYDITGSNGGGVLPSGFKRNQIGNDNIKWETTTQTNVGIDFSLFKQSLYGSLEYYYKKATDILTEMAGVGVLGEGGSRWINSGAMKNQGFEFNLGYRNKTAFGLTYDLNGNISTYRNEILELPETVAANGKFGGNGVKSVVGHTYGAQVGYIADGIFKSQDEVDNHATQEGAAVGRIRYRDIDHNGVIDERDQNWIYDPTPSFSYGLNIYLEYKNFDLTMFWQGVQGVDIISDVKKKSDFWSASNVGFLNKGTRLLNAWSPTNPNSDIPALTRSDTNNEQRVSTYFVENGSFLKLRNIQLGYTVPAVISKKMRMDRLRFYCSAQNLLTIKSKNFTGEDPENPNFSYPIPVNITFGLNIGF GQIKINFDASVSASMYQSKMNVLNTEQYGRAMWQAYVNDGENPNGNALGYAYNWGYNADGNPVLYGMTLSKYLDSKNTMPVADTDWFDEITRTGVIQQYNLSVSNGSEKGSSFFSLGYYKNLGVIKDTDFDRFSARMNSDYKLIDDILTIGQHFTLNRTSEVQAPGGIIETALDIPSAIPVYASDGSWGGPVGGWPDRRNPRAVLEYNKDNRYTYWRMFGDAYVNLTPFKGFNLRSTFGLDYANKQARYFTYPYQEGTQTNNGKSAVEAKQEHWTKWMWNAIATYQLEVGKHRGDVMIGMELNREDDSHFSGYKEDFSILTPDYMWPDAGSGTAQAYGAGEGYSLVSFFGKMNYSYADRYLLSLTLRRDGSSRFGKNHRYATFPSVSLGWRITQENFMKELTWLDDLKLRASWGQTGNQEISNLARYTIYAPNYGTTDSFGGQSYGTAYDITGSNGGGVLPSGFKRNQIGNDNIKWETTTQTNVGIDFSLFKQSLYGSLEYYYKKATDILTEMAGVGVLGEGGSRWINSGAMKNQGFEFNLGYRNKTAFGLTYDLNGNISTYRNEILELPETVAANGKFGGNGVKSVVGHTYGAQVGYIADGIFKSQDEVDNHATQEGAAVGRIRYRDIDHNGVIDERDQNWIYDPTPSFSYGLNIYLEYKNFDLTMFWQGVQGVDIISDVKKKSDFWSASNVGFLNKGTRLLNAWSPTNPNSDIPALTRSDTNNEQRVSTYFVENGSFLKLRNIQLGYTVPAVISKKMRMDRLRFYCSAQNLLTIKSKNFTGEDPENPNFSYPIPVNITFGLNIGF 6z97-a1-m1-cC_6z97-a1-m1-cA Structure of the prefusion SARS-CoV-2 spike glycoprotein P10104 P10104 3.4 ELECTRON MICROSCOPY 309 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 991 995 6z97-a1-m1-cB_6z97-a1-m1-cA 7nd3-a1-m1-cB_7nd3-a1-m1-cA 7nd3-a1-m1-cC_7nd3-a1-m1-cA 7nd5-a1-m1-cB_7nd5-a1-m1-cA 7nd5-a1-m1-cC_7nd5-a1-m1-cA 7nd6-a1-m1-cB_7nd6-a1-m1-cA 7nd6-a1-m1-cC_7nd6-a1-m1-cA 7q0a-a1-m1-cB_7q0a-a1-m1-cA 7q0a-a1-m1-cC_7q0a-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6z9u-a1-m1-cA_6z9u-a1-m1-cC Crystal structure of a TSEN15-34 heterodimer. Q9BSV6 Q9BSV6 2.10002 X-RAY DIFFRACTION 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 88 95 AHELRYSIYRDLWERGFFLSAAGKFGGDFLVYPGDPLRFHAHYIAQCWAPEDTIPLQDLGTSVRKTLLLCSPQPDGKVVYTSLQWASL PAHELRYSIYRDLWERGFFLSAAGKFGGDFLVYPGDPLRFHAHYIAQCWAPEDTIPLQDLVAAGRLGTSVRKTLLLCSPQPDGKVVYTSLQWASL 6za2-a1-m1-cA_6za2-a1-m1-cB Crystal structure of dimeric latent PorU from Porphyromonas gingivalis B2RGP6 B2RGP6 3.35 X-RAY DIFFRACTION 266 0.995 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 1081 1083 QRAMGKTADRSLMASGHWVKIRVDASGVYRLTDEQLRANGFSDPSKVGVFGYGGGVLPEDLSRITTDDLPPVPVLRQGNALYFYAVGPVTWFYNPAKTTMEHTVNTYSTHGYYFLSDAAGAPLQMSQYTGGGASAEALIDYYDELMLHEQELYSPKESGRDLYGESFSAVNTRTVKFPLRGNTRSSGELGTVFSYIAKARSAGGGREMSLSANGILIFSDPFSMTSNEVSNSYLAGKKRRLYRSTPMNSLVNELRLDANYSMTGDAVNLDFIEVATQNDLRYDGAPMHIRRFSNLPVLGGESCRFVISEVPESLVVLQANSSLTASLVPVKTVGDKTIEFVAPPKGQDRRTINTFYAVDLSQASAPEILGAVPNQNLHGEEIPDLIIVSTQALLPEADRLATYRREKNGLKVLVVLQEQVFNEFSGGTPDATAYRLFAKMFYDRWKANAPVGETFPMQMLLFGDGAHDNRKVSVAWQKPYLQQTEFLLTFQAVNSTNVNSYVTDDYFGLLDDQPASVNIGWRNYNMAVGRFPVRTPAEARIAVDKTIRYEEDRESGAWRIRACFAMPVRAFQDKKKMLETLQSGIILLNYAGHGGPAGWSDEHLLTLNDIHNFNYKHMPIWITATCEEVFLHEKSGTPIMFSTTRVVYNTQNEKINGFMLRRMFEKAKDGRYRTMGEIIRSAKQGMLSTVFPDSINQLSFFLMGDPSVRMNLPTHKVQLTAINGQDPEGQYGTIMLKSLERVALKGKVTDEKGTFDETFSGKVFLTVFDGRKKMTALEEEGNDLSLVYYDYPNVMYAGIAEVKDGLFETSFIVPKDVNYSEHEGRINLYAYNESTKAEAMGVDFSIRVQPGIPDEVTEDNTPPEIISCFLNDSTFRSGDEVNPTPLFMAEVFDLNGINITGSGVGHDITLCIDGRADLTYNLNAYFTSSATDAGVGTILFMIPALAEGDHTARLTVWDIFNNAVHHDFSFRVVDGIAPDVADVILFPNPVRESATFRIFHNRPGSDLNVVVEIYDFTGRLVNSLPVKTYSSSYGEPIEIKWDLTSKYGVKIGNGFYLYRCVVNSPGGQTASMAKKMIVVAQ SSARLQQRAMGKTADRSLMASGHWVKIRVDASGVYRLTDEQLRANGFSDPSKVGVFGYGGGVLPEDLSRITTDDLPPVPVLRQGNALYFYAVGPVTWFYNPAKTTMEHTVNTYSTHGYYFLSDAAGAPLQMSQYTGGGASAEALIDYYDELMLHEQELYSPKESGRDLYGESFSAVNTRTVKFPLRGNTRSSGELGTVFSYIAKARSAGGGREMSLSANGILIFSDPFSMTSNEVSNSYLAGKKRRLYRSTPMNSLVNELRLDANYSMTGDAVNLDFIEVATQNDLRYDGAPMHIRRFSNLPVLGGESCRFVISEVPESLVVLQANSSLTASLVPVKTVGDKTIEFVAPPKGQDRRTINTFYAVDLSQASAPEILGAVPNQNLHGEEIPDLIIVSTQALLPEADRLATYRREKNGLKVLVVLQEQVFNEFSGGTPDATAYRLFAKMFYDRWKANAPVGETFPMQMLLFGDGAHDNRKVSVAWQKPYLQQTEFLLTFQAVNSTNVNSYVTDDYFGLLDDQPASVNIGWRNYNMAVGRFPVRTPAEARIAVDKTIRYEEDRESGAWRIRAMPVRAFQDKKKMLETLQSGIILLNYAGHGGPAGWSDEHLLTLNDIHNFNYKHMPIWITAGEEVFLHEKSGTPIMFSTTRVVYNTQNEKINGFMLRRMFEKAKDGRYRTMGEIIRSAKQGMLSTVFPDSINQLSFFLMGDPSVRMNLPTHKVQLTAINGQDPEGQYGTIMLKSLERVALKGKVTDEKGTFDETFSGKVFLTVFDGRKKMTALEEEGNDLSLVYYDYPNVMYAGIAEVKDGLFETSFIVPKDVNYSEHEGRINLYAYNESTKAEAMGVDFSIRVQPGIPDEVTEDNTPPEIISCFLNDSTFRSGDEVNPTPLFMAEVFDLNGINITGSGVGHDITLCIDGRADLTYNLNAYFTSSATDAGVGTILFMIPALAEGDHTARLTVWDIFNNAVHHDFSFRVVDGIAPDVADVILFPNPVRESATFRIFHNRPGSDLNVVVEIYDFTGRLVNSLPVKTYSSSYGEPIEIKWDLTSKYGVKIGNGFYLYRCVVNSPGGQTASMAKKMIVVAQ 6zay-a1-m1-cC_6zay-a1-m1-cD Crystal structure of Atg16L in complex with GDP-bound Rab33B Q8C0J2 Q8C0J2 2.4 X-RAY DIFFRACTION 49 1.0 10090 (Mus musculus) 10090 (Mus musculus) 86 86 6y09-a1-m1-cC_6y09-a1-m1-cD MLETNCLDLRTKLQDLEVANQTLKDEYDALQITFTALEEKLRKTTEENQELVTRWMAEKAQEANRLNAENEKDSRRRQARLQKELA MLETNCLDLRTKLQDLEVANQTLKDEYDALQITFTALEEKLRKTTEENQELVTRWMAEKAQEANRLNAENEKDSRRRQARLQKELA 6zb4-a1-m1-cC_6zb4-a1-m1-cA SARS CoV-2 Spike protein, Closed conformation, C1 symmetry P0DTC2 P0DTC2 3.03 ELECTRON MICROSCOPY 337 0.997 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1035 1048 6zb4-a1-m1-cA_6zb4-a1-m1-cB 6zb4-a1-m1-cC_6zb4-a1-m1-cB CVNLLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLGFIKQYGDCLGDDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD CVNLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSQPFFKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD 6zb5-a1-m1-cB_6zb5-a1-m1-cC SARS CoV-2 Spike protein, Closed conformation, C3 symmetry P0DTC2 P0DTC2 2.85 ELECTRON MICROSCOPY 336 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1032 1032 6zb5-a1-m1-cA_6zb5-a1-m1-cB 6zb5-a1-m1-cA_6zb5-a1-m1-cC 7fce-a1-m1-cB_7fce-a1-m1-cA 7fce-a1-m1-cC_7fce-a1-m1-cA CVNLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLALHRGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLGFIKQYGDCLGDDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD CVNLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLALHRGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLGFIKQYGDCLGDDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD 6zb8-a1-m1-cA_6zb8-a1-m1-cB Exo-beta-1,3-glucanase from moose rumen microbiome, active site mutant E167Q/E295Q 1.35 X-RAY DIFFRACTION 116 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 367 370 6zb9-a1-m1-cA_6zb9-a1-m1-cB MKIKGVNLGNWLVLEKWMSSAIWEGTDAEDEYYLPRGLDSKVYEARIKMHRAEYISERDFARIKAMGFNSVRIPIPYFIYGDRAPFIGCIDELDRAFSWAEKYDLKILIDLHTVPMSQNGFDNGGLSGVCKWAQIPEEVDFVLNLLEKLAKRYGKRKGLLGIEPINQPVSEEMWNDMGVQKRYPPLDKEMAEGSAPISFEWLKGFYDKAADRILPNIDDDKYIVFHDGFRLHAWEEYLTQDRYKGRVILDTHQYLMIAEMLGCEQTLEAYKTFIKEKFEDEITKVEKYVPVVVGQWCIFNSYCVVSDEEKRKVYMELSKAQLKAWDSLSGYFYWTYKMLLDPTNQATWRGWDCWDLAKCVDEGWFPG MKIKGVNLGNWLVLEKWMSSAIWEGTDAEDEYYLPRGLDSKVYEARIKMHRAEYISERDFARIKAMGFNSVRIPIPYFIYGDRAPFIGCIDELDRAFSWAEKYDLKILIDLHTVPMSQNGFDNGGLSGVCKWAQIPEEVDFVLNLLEKLAKRYGKRKGLLGIEPINQPVSEEMWNDMGVQKRYPPLDKEMAEGSAPISFEWLKGFYDKAADRILPNIDDDKYIVFHDGFRLHAWEEYLTQDRYKGRVILDTHQYLMIAEMLGCEQTLEAYKTFIKEKFEDEITKVEKYVPVVVGQWCIFNSYCVVSDEEKRKVYMELSKAQLKAWDSLSGYFYWTYKMLLDPTNQATWRGWDCWDLAKCVDEGWFPGRVA 6zbl-a1-m1-cB_6zbl-a1-m1-cD Plasmodium falciparum merozoite surface protein 1 dimer, conformation 2 Q8I0U8 Q8I0U8 3.6 ELECTRON MICROSCOPY 12 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 498 498 6zbj-a1-m1-cB_6zbj-a1-m1-cD GVAVSSGPAVVEESHDPLTVLSISNDLKGIVSLLNLGNKTKVPNPLTISTTEMEKFYENILKNNDTYFNDDIKQFVKSNSKVITGLTETQKNALNDEIKKLKDTLQLSFDLYNKYKLKLDRLFNKKKELGQDKMQIKKLTLLKEQLESKLNSLNNPHNVLQNFSVFFNKKKEAEIAETENTLENTKILLKHYKGLVKYYNGESSPLKTLSEVSIQTEDNYANLEKFRVLSKIDGKLNDNLHLGKKKLSFLSSGLHHLITELKEVIKNKNYTGNSPSENNKKVNEALKSYENFLPEALSGFENEYDVIYLKPLAGVYRSLKKQIEKNIFTFNLNLNDILNSRLKKRKYFLDVLESDLMQFKHISSNEYIIEDSFKLLNSEQKNTLLKSYKYIKESVENDIKFAQEGISYYEKVLAKYKDDLESIKKVIKEEKEKFPESKFLPFLTNIETLYNNLVNKIDDYLINLKAKINDCNVEKDEAHVKITKLSDLKAIDDKIDLF GVAVSSGPAVVEESHDPLTVLSISNDLKGIVSLLNLGNKTKVPNPLTISTTEMEKFYENILKNNDTYFNDDIKQFVKSNSKVITGLTETQKNALNDEIKKLKDTLQLSFDLYNKYKLKLDRLFNKKKELGQDKMQIKKLTLLKEQLESKLNSLNNPHNVLQNFSVFFNKKKEAEIAETENTLENTKILLKHYKGLVKYYNGESSPLKTLSEVSIQTEDNYANLEKFRVLSKIDGKLNDNLHLGKKKLSFLSSGLHHLITELKEVIKNKNYTGNSPSENNKKVNEALKSYENFLPEALSGFENEYDVIYLKPLAGVYRSLKKQIEKNIFTFNLNLNDILNSRLKKRKYFLDVLESDLMQFKHISSNEYIIEDSFKLLNSEQKNTLLKSYKYIKESVENDIKFAQEGISYYEKVLAKYKDDLESIKKVIKEEKEKFPESKFLPFLTNIETLYNNLVNKIDDYLINLKAKINDCNVEKDEAHVKITKLSDLKAIDDKIDLF 6zd0-a1-m1-cA_6zd0-a1-m1-cE Disulfide-locked early prepore intermedilysin-CD59 Q9LCB8 Q9LCB8 4.6 ELECTRON MICROSCOPY 169 1.0 1338 (Streptococcus intermedius) 1338 (Streptococcus intermedius) 460 460 6zd0-a1-m1-cA_6zd0-a1-m1-cC NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVCEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKCEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKEYENILKNTKITAVVLEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK NSEAAKKALNDYIWGLQYDKLNILTHQGEKLKNHSSREAFHRPGEYVVCEKKKQSISNATSKLSVSSANDDRIFPGALLKADQSLLENLPTLIPVNRGKTTISVNLPGLKNGESNLTVENPSNSTVRTAVNNLVEKWIQNYSKTHAVPARMQYESISAQSMSQLQAKFGADFSKVGAPLNVDFSSVHKCEKQVFIANFRQVYYTASVDSPNSPSALFGSGITPTDLINRGVNSKTPPVYVSNVSYGRAMYVKFETTSKSTKVQAAIDAVVKEYENILKNTKITAVVLEASKVITGNIDTLKDLIQKGSNFSAQSPAVPISYTTSFVKDNSIATIQNNTDYIETKVTSYKDGALTLNHDGAFVARFYVYWEELGHDADGYETIRSRSWSGNGYNRGAHYSTTLRFKGNVRNIRVKVLGATGLAWEPWRLIYSKNDLPLVPQRNISTWGTTLHPQFEDKVVK 6zdb-a1-m1-cA_6zdb-a1-m1-cB NMR structural analysis of yeast Cox13 reveals its C-terminus in interaction with ATP P32799 P32799 NOT SOLUTION NMR 25 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 129 129 MFRQCAKRYASSLPPNALKPAFGPPDKVAAQKFKESLMATEKHAKDTSNMWVKISVWVALPAIALTAVNTYFVEKEHAEHREHLKHVPDSEWPRDYEFMNIRSKPFFWGDGDKTLFWNPVVNRHIEHDD MFRQCAKRYASSLPPNALKPAFGPPDKVAAQKFKESLMATEKHAKDTSNMWVKISVWVALPAIALTAVNTYFVEKEHAEHREHLKHVPDSEWPRDYEFMNIRSKPFFWGDGDKTLFWNPVVNRHIEHDD 6zdu-a1-m1-cA_6zdu-a1-m1-cB Structure of telomerase from Candida albicans in complexe with TWJ fragment of telomeric RNA A0A1D8PEA0 A0A1D8PEA0 3.45 X-RAY DIFFRACTION 127 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 693 693 VSKYITKFNVLYNSYSRDFSRFEMIRPSIQTILQDILSFSGLNPGRSSKRYRGFKSLLSRIIANDKKCRYDILYAKFIGTSKCNFANVVSNKTEISQVIQFVLLVLGKLLPLDAWGGVSNKKIIKDRVVDFLLLGANEKIHMDDLFRGIRLKDFKWLGRAHQISSKQDFELRTAFLKGYLWWLFEHLLKNILRSFWYITETSSIVSLELNYFPQYLWKELYESWVSKYAKNNLVKMPSKIQREQLPCGKIKLIPKRSSFRVICVPIKRSLKLLNKKLELDTLEKEKREFERYRKEVLSPVGQILRLKLSKLRDTYESYRASVHSSSDVAEKISDYRDSLLTRFGEIPKLFILKFDMKECYDRLSQPVLMKKLEELFENQDNKTSYYVRYYAQLDAHNLNILSSSRHLSVDKTKTIALQKGNILEVCRSQIYDVVGSVKDARGNLHLYKRKRGVFQGFSLSSIFCDILYSAMVHDCFQFLWKSKQDFLFVRLVDDFLLVTPDSNIYDQVHNILSGKILESYGAFVNKDKTVVVNQTTTKPSIDFVGLEVNTTDLSIKRNSGSISLVTTNFRTFKTLVKYLKTFYQLNLEGFLLDCSFGVLENVLENMGSLLRLVLREFKTKFTSIVKYDTFHCYKFIKFLYDISNYTIVKYVETNSDWDGAPELLNCIKQIIVKEFSSFESYSEIVEWVQTLNI VSKYITKFNVLYNSYSRDFSRFEMIRPSIQTILQDILSFSGLNPGRSSKRYRGFKSLLSRIIANDKKCRYDILYAKFIGTSKCNFANVVSNKTEISQVIQFVLLVLGKLLPLDAWGGVSNKKIIKDRVVDFLLLGANEKIHMDDLFRGIRLKDFKWLGRAHQISSKQDFELRTAFLKGYLWWLFEHLLKNILRSFWYITETSSIVSLELNYFPQYLWKELYESWVSKYAKNNLVKMPSKIQREQLPCGKIKLIPKRSSFRVICVPIKRSLKLLNKKLELDTLEKEKREFERYRKEVLSPVGQILRLKLSKLRDTYESYRASVHSSSDVAEKISDYRDSLLTRFGEIPKLFILKFDMKECYDRLSQPVLMKKLEELFENQDNKTSYYVRYYAQLDAHNLNILSSSRHLSVDKTKTIALQKGNILEVCRSQIYDVVGSVKDARGNLHLYKRKRGVFQGFSLSSIFCDILYSAMVHDCFQFLWKSKQDFLFVRLVDDFLLVTPDSNIYDQVHNILSGKILESYGAFVNKDKTVVVNQTTTKPSIDFVGLEVNTTDLSIKRNSGSISLVTTNFRTFKTLVKYLKTFYQLNLEGFLLDCSFGVLENVLENMGSLLRLVLREFKTKFTSIVKYDTFHCYKFIKFLYDISNYTIVKYVETNSDWDGAPELLNCIKQIIVKEFSSFESYSEIVEWVQTLNI 6zdw-a1-m1-cAAA_6zdw-a1-m1-cBBB Crystal structure of the ribonuclease core of R3B2 A0A162MUP0 A0A162MUP0 1.65 X-RAY DIFFRACTION 48 1.0 29924 (Mucor lusitanicus) 29924 (Mucor lusitanicus) 142 146 DTVEQFIHTIFARVTGRPVDITAALPLLKQILTGYTQEVAEHKFNYIGESAVQFAMHLILADHFSKYENGCLSAIAKKYTVPLQLYKLIGKQIHLKEYVRPVYLKETLDMIVGILFRCYGITAVYKFIQEEFILLVNQDINN TDTVEQFIHTIFARVTDDHGRPVDITAALPLLKQILTGYTQEVAEHKFNYIGESAVQFAMHLILADHFSKYENGCLSAIAKKYTVPLQLYKLIGKQIHLKEYVRPVYLKETLDMIVGILFRCYGITAVYKFIQEEFILLVNQDINN 6zdy-a1-m1-cA_6zdy-a1-m2-cA Crystal structure of WT murine S100A9 bound to calcium and zinc P31725 P31725 1.45 X-RAY DIFFRACTION 104 1.0 10090 (Mus musculus) 10090 (Mus musculus) 108 108 6zfe-a1-m1-cA_6zfe-a1-m2-cA APSQMERSITTIIDTFHQYSRKEGHPDTLSKKEFRQMVEAQLATFMKKEKRNEALINDIMEDLDTNQDNQLSFEECMMLMAKLIFACHEKLHENNPRGHGHSHGKGCG APSQMERSITTIIDTFHQYSRKEGHPDTLSKKEFRQMVEAQLATFMKKEKRNEALINDIMEDLDTNQDNQLSFEECMMLMAKLIFACHEKLHENNPRGHGHSHGKGCG 6ze0-a2-m1-cC_6ze0-a2-m2-cC Orthorhombic crystal structure of the bulky-bulky ketone specific alcohol dehydrogenase from Comamonas testosteroni A0A2G6ZQ46 A0A2G6ZQ46 1.99 X-RAY DIFFRACTION 254 1.0 2035201 (Comamonas sp. 26) 2035201 (Comamonas sp. 26) 251 251 6zdz-a1-m1-cB_6zdz-a1-m1-cA 6ze0-a1-m1-cA_6ze0-a1-m1-cB TNLPTALITGASSGIGATYAERFARRGHNLVMVARDKVRMDVLASRLREETKVTIDVIQADLTQQKDLAEVETRLREDTSIGILINNAGMGQSGAFVQQNAQSIDRLVMLNTTAPTRLAAAVAARFAQEGKGSIVNIGSVVGFAPELGMTIYGATKAFVLFLSQGLNLELGPKGIYVQAVLPAATRTDINTLPEVMDVNELVDAALIGFDRKELVTIPPLHVAERWNELDQARQGLMSEIRQAHAAERYLP TNLPTALITGASSGIGATYAERFARRGHNLVMVARDKVRMDVLASRLREETKVTIDVIQADLTQQKDLAEVETRLREDTSIGILINNAGMGQSGAFVQQNAQSIDRLVMLNTTAPTRLAAAVAARFAQEGKGSIVNIGSVVGFAPELGMTIYGATKAFVLFLSQGLNLELGPKGIYVQAVLPAATRTDINTLPEVMDVNELVDAALIGFDRKELVTIPPLHVAERWNELDQARQGLMSEIRQAHAAERYLP 6ze9-a2-m1-cB_6ze9-a2-m4-cB Non-native fold of the putative VPS39 zinc finger domain Q96JC1 Q96JC1 2.9 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 6ze9-a1-m1-cC_6ze9-a1-m1-cA 6ze9-a1-m5-cC_6ze9-a1-m5-cA 6ze9-a2-m2-cB_6ze9-a2-m3-cB HHHHMVCMVCKKKIGNSAFARYPNGVVVHYFCSKEVNPADT HHHHMVCMVCKKKIGNSAFARYPNGVVVHYFCSKEVNPADT 6ze9-a2-m2-cB_6ze9-a2-m4-cB Non-native fold of the putative VPS39 zinc finger domain Q96JC1 Q96JC1 2.9 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 41 6ze9-a1-m1-cC_6ze9-a1-m5-cA 6ze9-a1-m5-cC_6ze9-a1-m1-cA 6ze9-a2-m1-cB_6ze9-a2-m3-cB HHHHMVCMVCKKKIGNSAFARYPNGVVVHYFCSKEVNPADT HHHHMVCMVCKKKIGNSAFARYPNGVVVHYFCSKEVNPADT 6zee-a1-m1-cK_6zee-a1-m1-cP Structure of PP1(7-300) bound to Phactr1 (507-580) at pH8.4 P62136 P62136 1.9 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 SLNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA SLNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA 6zee-a1-m1-cQ_6zee-a1-m1-cP Structure of PP1(7-300) bound to Phactr1 (507-580) at pH8.4 P62136 P62136 1.9 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 6zee-a1-m1-cI_6zee-a1-m1-cK SLNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA SLNLDSIIGRLLEVQGSRPGKNVQLTENEIRGLCLKSREIFLSQPILLELEAPLKICGDIHGQYYDLLRLFEYGGFPPESNYLFLGDYVDRGKQSLETICLLLAYKIKYPENFFLLRGNHECASINRIYGFYDECKRRYNIKLWKTFTDCFNCLPIAAIVDEKIFCCHGGLSPDLQSMEQIRRIMRPTDVPDQGLLCDLLWSDPDKDVQGWGENDRGVSFTFGAEVVAKFLHKHDLDLICRAHQVVEDGYEFFAKRQLVTLFSAPNYCGEFDNAGAMMSVDETLMCSFQILKPA 6zek-a2-m1-cB_6zek-a2-m1-cD Crystal structure of mouse CSAD Q9DBE0 Q9DBE0 2.1 X-RAY DIFFRACTION 417 0.998 10090 (Mus musculus) 10090 (Mus musculus) 469 473 6zek-a1-m1-cA_6zek-a1-m1-cC 7a0a-a1-m1-cA_7a0a-a1-m1-cC 7a0a-a2-m1-cB_7a0a-a2-m1-cD DPVAVEALLQDVFGIVVDEAILKGTSASEKVCEWKEPEELKQLLDLELQSQGESREQILERCRTVIHYSVKTGHPRFFNQLFSGLDPHALAGRIITESLNTSQYTYEIAPVFVLMEEEVLKKLRALVGWNSGDGVFCPGGSISNMYAMNLARFQRYPDCKQRGLRALPPLALFTSKECHYSITKGAAFLGLGTDSVRVVKADERGRMIPEDLERQIILAEAEGSVPFLVSATSGTTVLGAFDPLDAIADVCQRHGLWFHVDAAWGGSVLLSRTHRHLLDGIQRADSVAWNPHLLAAGLQCSALLLRDTSNLLKRCHGSQKFYDVALDTGDKVVQCGRRVDCLKLWLMWKAQGGQGLERRIDQAFALTRYLVEEIKKREGFELVMEPEFVNVCFWFVPPSLRGKKESPDYSQRLSQVAPVLKERMVKKGTMMIGYQPHANFFRMVVANPILAQADIDFLLGELELLGQDL PVAVEALLQDVFGIVVDEAILKGTSASEKVCEWKEPEELKQLLDLELQSQGESREQILERCRTVIHYSVKTGHPRFFNQLFSGLDPHALAGRIITESLNTSQYTYEIAPVFVLMEEEVLKKLRALVGWNSGDGVFCPGGSISNMYAMNLARFQRYPDCKQRGLRALPPLALFTSKECHYSITKGAAFLGLGTDSVRVVKADERGRMIPEDLERQIILAEAEGSVPFLVSATSGTTVLGAFDPLDAIADVCQRHGLWFHVDAAWGGSVLLSRTHRHLLDGIQRADSVAWNPHLLAAGLQCSALLLRDTSNLLKRCHGSQQDKFYDVALDTGDKVVQCGRRVDCLKLWLMWKAQGGQGLERRIDQAFALTRYLVEEIKKREGFELVMEPEFVNVCFWFVPPSLRGKKESPDYSQRLSQVAPVLKERMVKKGTMMIGYQPHGTRANFFRMVVANPILAQADIDFLLGELELLGQDL 6zfb-a1-m1-cV_6zfb-a1-m1-cU Structure of the B. subtilis RNA POLYMERASE in complex with HelD (dimer) P20429 P20429 3.9 ELECTRON MICROSCOPY 108 0.991 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 227 231 6wvj-a1-m1-cA_6wvj-a1-m1-cB 6wvk-a1-m1-cA_6wvk-a1-m1-cB 6zca-a1-m1-cV_6zca-a1-m1-cU 6zfb-a1-m1-cv_6zfb-a1-m1-cu 7ckq-a1-m1-cB_7ckq-a1-m1-cA 7f75-a1-m1-cB_7f75-a1-m1-cA IEKPKIETVEISDDAKFGKFVVEPLERGYGTTLGNSLRRILLSSLPGAAVTSIQIDGVLHEFSTIEGVVEDVTTIILHIKKLALKIYSDEEKTLEIDVQGEGTVTAADITHDSDVEILNPDLHIATLGENASFRVRLTAQRGRGYTPADANKRDDQPIGVIPIDSIYTPVSRVSYQVENTRVGQVANYDKLTLDVWTDGSTGPKEAIALGSKILTEHLNIFVGLTDE KPKIETVEISDDAKFGKFVVEPLERGYGTTLGNSLRRILLSSLPGAAVTSIQIDGVLHEFSTIEGVVEDVTTIILHIKKLALKIYSDEEKTLEIDVQGEGTVTAADITHDSDVEILNPDLHIATLGENASFRVRLTAQRGRGYTPADANKRDDQPIGVIPIDSIYTPVSRVSYQVENTRVGQVANYDKLTLDVWTDGSTGPKEAIALGSKILTEHLNIFVGLTDEAQHAEI 6zfb-a1-m1-cY_6zfb-a1-m1-cy Structure of the B. subtilis RNA POLYMERASE in complex with HelD (dimer) P37871 P37871 3.9 ELECTRON MICROSCOPY 34 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 1127 1127 NFEYMNIGLASPDKIRSWSFGEVKKPETINYRTLKPEKDGLFCERIFGPTKDWECHCGKYKRVRYKGVVCDRCGVEVTRAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVIYFASYVVTDPANTPLEKKQLLSEKEYRAYLDKYGNKFQASMGAEAIHKLLQDIDLVKEVDMLKEELKTSQGQRRTRAIKRLEVLEAFRNSGNKPSWMILDVLPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPSIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGRSVIVVGPHLKMYQCGLPKEMALELFKPFVMKELVEKGLAHNIKSAKRKIERVQPEVWDVLESVIKEHPVLLNIQAFEPTLVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSAEAQAEARILMLAAQNILNPKDGKPVVTPSQDMVLGNYYLTLERAGAVGEGMVFKNTDEALLAYQNGYVHLHTRVAVAANSLKNVTFTEEQRSKLLITTVGKLVFNEILPESFPYMNEPTKSNIEEKTPDRFFLEKGADVKAVIAQQPINAPFKKGILGKIIAEIFKRFHITETSKMLDRMKNLGFKYSTKAGITVGVSDIVVLDDKQEILEEAQSKVDNVMKQFRRGLITEEERYERVISIWSAAKDVIQGKLMKSLDELNPIYMMSDSGARGNASNFTQLAGMRGLMANPAGRIIELPIKSSFREGLTVLEYFISTHGARKGLADTALKTADSGYLTRRLVDVAQDVIIRETDCGTDRGILAKPLKEGTETIERLEERLIGRFARKQVKHPETGEVLVNENELIDEDKALEIVEAGIEEVWIRSAFTCNTPHGVCKRCYGRNLATGSDVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQELFEARNPKGQATITEIDGTVVEINEVRDKQQEIVVQGAVETRSYTAPYNSRLKVAEGDKITRGQVLTEGSIDPKELLKVTDLTTVQEYLLHEVQKVYRMQGVEIGDKHVEVMVRQMLRKVRVIDAGDTDVLPGTLLDIHQFTEANKKVLLEGNRPATGRPVLLGITKASLETDSFLSAASFQETTRVLTDAAIKGKRDELL NFEYMNIGLASPDKIRSWSFGEVKKPETINYRTLKPEKDGLFCERIFGPTKDWECHCGKYKRVRYKGVVCDRCGVEVTRAKVRRERMGHIELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVIYFASYVVTDPANTPLEKKQLLSEKEYRAYLDKYGNKFQASMGAEAIHKLLQDIDLVKEVDMLKEELKTSQGQRRTRAIKRLEVLEAFRNSGNKPSWMILDVLPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPSIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGRSVIVVGPHLKMYQCGLPKEMALELFKPFVMKELVEKGLAHNIKSAKRKIERVQPEVWDVLESVIKEHPVLLNIQAFEPTLVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSAEAQAEARILMLAAQNILNPKDGKPVVTPSQDMVLGNYYLTLERAGAVGEGMVFKNTDEALLAYQNGYVHLHTRVAVAANSLKNVTFTEEQRSKLLITTVGKLVFNEILPESFPYMNEPTKSNIEEKTPDRFFLEKGADVKAVIAQQPINAPFKKGILGKIIAEIFKRFHITETSKMLDRMKNLGFKYSTKAGITVGVSDIVVLDDKQEILEEAQSKVDNVMKQFRRGLITEEERYERVISIWSAAKDVIQGKLMKSLDELNPIYMMSDSGARGNASNFTQLAGMRGLMANPAGRIIELPIKSSFREGLTVLEYFISTHGARKGLADTALKTADSGYLTRRLVDVAQDVIIRETDCGTDRGILAKPLKEGTETIERLEERLIGRFARKQVKHPETGEVLVNENELIDEDKALEIVEAGIEEVWIRSAFTCNTPHGVCKRCYGRNLATGSDVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQELFEARNPKGQATITEIDGTVVEINEVRDKQQEIVVQGAVETRSYTAPYNSRLKVAEGDKITRGQVLTEGSIDPKELLKVTDLTTVQEYLLHEVQKVYRMQGVEIGDKHVEVMVRQMLRKVRVIDAGDTDVLPGTLLDIHQFTEANKKVLLEGNRPATGRPVLLGITKASLETDSFLSAASFQETTRVLTDAAIKGKRDELL 6zfb-a1-m1-cx_6zfb-a1-m1-cX Structure of the B. subtilis RNA POLYMERASE in complex with HelD (dimer) P37870 P37870 3.9 ELECTRON MICROSCOPY 53 0.999 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 1092 1093 TGQLVQYGRHRQRRSYARISEVLELPNLIEIQTSSYQWFLDEGLREMFQDISPIEDFTGNLSLEFIDYSLGEPKYPVEESKERDVTYSAPLRVKVRLINKETGEVKDQDVFMGDFPIMTDTGTFIINGAERVIVSQLVRSPSVYFSGKVDKNGKKGFTATVIPNRGAWLEYETDAKDVVYVRIDRTRKLPVTVLLRALGFGSDQEILDLIGENEYLRNTLDKDNTENSDKALLEIYERLRPGEPPTVENAKSLLDSRFFDPKRYDLANVGRYKINKKLHIKNRLFNQRLAETLVKVLPYLENGIGFRKLYPNGGVVEDEVTLQSIKIFAPTDQEGEQVINVIGNAYIEEEIKNITPADIISSISYFFNLLHGVGDTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDTNTITPQQLINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGAGMEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSYAKVNRFGFIETPYRRVDPETGKVTGRIDYLTADEEDNYVVAQANARLDDEGAFIDDSIVARFRGENTVVSRNRVDYMDVSPKQVVSAATACIPFLENDDSNRALMGANMQRQAVPLMQPEAPFVGTGMEYVSGKDSGAAVICKHPGIVERVEAKNVWVRRYEEVDGQKVKGNLDKYSLLKFVRSNQGTCYNQRPIVSVGDEVVKGEILADGPSMELGELALGRNVMVGFMTWDGYNYEDAIIMSERLVKDDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEDALRNLDDRGIIRIGAEVKDGDLLVGKVTPKGVTELTAEERLLHAIFGEKAREVRDTSLRVPHGGGGIIHDVKVFNREDGDELPPGVNQLVRVYIVQKRKISEGDKMAGRHGNKGVISKILPEEDMPYLPDGTPIDIMLNPLGVPSRMNIGQVLELHMGMAARYLGIHIASPVFDGAREEDVWETLEEAGMSRDAKTVLYDGRTGEPFDNRVSVGIMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVVPESFKVLIKELQSLGMDVKIL TGQLVQYGRHRQRRSYARISEVLELPNLIEIQTSSYQWFLDEGLREMFQDISPIEDFTGNLSLEFIDYSLGEPKYPVEESKERDVTYSAPLRVKVRLINKETGEVKDQDVFMGDFPIMTDTGTFIINGAERVIVSQLVRSPSVYFSGKVDKNGKKGFTATVIPNRGAWLEYETDAKDVVYVRIDRTRKLPVTVLLRALGFGSDQEILDLIGENEYLRNTLDKDNTENSDKALLEIYERLRPGEPPTVENAKSLLDSRFFDPKRYDLANVGRYKINKKLHIKNRLFNQRLAETLVKVLPYLENGIGFRKLYPNGGVVEDEVTLQSIKIFAPTDQEGEQVINVIGNAYIEEEIKNITPADIISSISYFFNLLHGVGDTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDTNTITPQQLINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGGLGMEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSYAKVNRFGFIETPYRRVDPETGKVTGRIDYLTADEEDNYVVAQANARLDDEGAFIDDSIVARFRGENTVVSRNRVDYMDVSPKQVVSAATACIPFLENDDSNRALMGANMQRQAVPLMQPEAPFVGTGMEYVSGKDSGAAVICKHPGIVERVEAKNVWVRRYEEVDGQKVKGNLDKYSLLKFVRSNQGTCYNQRPIVSVGDEVVKGEILADGPSMELGELALGRNVMVGFMTWDGYNYEDAIIMSERLVKDDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEDALRNLDDRGIIRIGAEVKDGDLLVGKVTPKGVTELTAEERLLHAIFGEKAREVRDTSLRVPHGGGGIIHDVKVFNREDGDELPPGVNQLVRVYIVQKRKISEGDKMAGRHGNKGVISKILPEEDMPYLPDGTPIDIMLNPLGVPSRMNIGQVLELHMGMAARYLGIHIASPVFDGAREEDVWETLEEAGMSRDAKTVLYDGRTGEPFDNRVSVGIMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVVPESFKVLIKELQSLGMDVKIL 6zfc-a1-m1-cB_6zfc-a1-m1-cC Fucose-binding lectin from Burkholderia ambifaria (BamBL) in complex with a fucosyl derivative Q0B4G1 Q0B4G1 1.65 X-RAY DIFFRACTION 53 1.0 339670 (Burkholderia ambifaria AMMD) 339670 (Burkholderia ambifaria AMMD) 87 87 3zw0-a1-m1-cA_3zw0-a1-m1-cC 3zw0-a1-m1-cB_3zw0-a1-m1-cA 3zw0-a1-m1-cB_3zw0-a1-m1-cC 3zw1-a1-m1-cA_3zw1-a1-m2-cA 3zw1-a1-m1-cA_3zw1-a1-m3-cA 3zw1-a1-m2-cA_3zw1-a1-m3-cA 3zw1-a2-m1-cB_3zw1-a2-m4-cB 3zw1-a2-m1-cB_3zw1-a2-m5-cB 3zw1-a2-m4-cB_3zw1-a2-m5-cB 3zw2-a1-m1-cA_3zw2-a1-m1-cB 3zw2-a1-m1-cA_3zw2-a1-m1-cC 3zw2-a1-m1-cB_3zw2-a1-m1-cC 3zwe-a1-m1-cA_3zwe-a1-m1-cB 3zwe-a1-m1-cA_3zwe-a1-m1-cC 3zwe-a1-m1-cB_3zwe-a1-m1-cC 3zzv-a1-m1-cA_3zzv-a1-m1-cB 3zzv-a1-m1-cA_3zzv-a1-m1-cC 3zzv-a1-m1-cB_3zzv-a1-m1-cC 6zfc-a1-m1-cA_6zfc-a1-m1-cB 6zfc-a1-m1-cA_6zfc-a1-m1-cC 6zfc-a2-m1-cD_6zfc-a2-m1-cE 6zfc-a2-m1-cD_6zfc-a2-m1-cF 6zfc-a2-m1-cE_6zfc-a2-m1-cF MQTAAISWGTTPSIRVYTANGNKITERCYDGSNWYTGAFNQAGDNVSATCWLSGSAVHIRVYATSGGSTTEWCWDGDGWTRGAYTGL MQTAAISWGTTPSIRVYTANGNKITERCYDGSNWYTGAFNQAGDNVSATCWLSGSAVHIRVYATSGGSTTEWCWDGDGWTRGAYTGL 6zff-a1-m1-cB_6zff-a1-m1-cA Pyrococcus furiosus Rad50 coiled coils in rod configuration P58301 P58301 3 X-RAY DIFFRACTION 38 1.0 186497 (Pyrococcus furiosus DSM 3638) 186497 (Pyrococcus furiosus DSM 3638) 124 126 KLGDKSPEDIKKLLEELETKKTTIEEERNEITQRIGELKNKIGDLKTAIEELKKCGRELTDEHREELLSKYHLDLNNSKNTLAKLIDRKSELERELRRIDMEIKRLTPLLTVAEQIRSIEEELN EKLGDKSPEDIKKLLEELETKKTTIEEERNEITQRIGELKNKIGDLKTAIEELKKACGRELTDEHREELLSKYHLDLNNSKNTLAKLIDRKSELERELRRIDMEIKRLTPLLTVAEQIRSIEEELN 6zfm-a1-m1-cA_6zfm-a1-m1-cD Structure of alpha-Cobratoxin with a peptide inhibitor P01391 P01391 1.9 X-RAY DIFFRACTION 32 1.0 8649 (Naja kaouthia) 8649 (Naja kaouthia) 71 71 IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPTRKRP IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPTRKRP 6zfm-a1-m1-cE_6zfm-a1-m1-cA Structure of alpha-Cobratoxin with a peptide inhibitor P01391 P01391 1.9 X-RAY DIFFRACTION 38 1.0 8649 (Naja kaouthia) 8649 (Naja kaouthia) 65 71 6zfm-a1-m1-cB_6zfm-a1-m1-cD IRCFITPDISKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFP IRCFITPDITSKDCPNGHVCYTKTWCDAFCSIRGKRVDLGCAATCPTVKTGVDIQCCSTDNCNPFPTRKRP 6zg6-a1-m1-cE_6zg6-a1-m1-cG COPII on membranes, outer coat vertex P38968 P38968 12.0 ELECTRON MICROSCOPY 49 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 383 383 6zg6-a1-m1-cA_6zg6-a1-m1-cC 6zg6-a1-m1-cA_6zg6-a1-m1-cG 6zg6-a1-m1-cC_6zg6-a1-m1-cE AEFSRTATFAWSHDKIPLLVSGTVSGTVDANFSTDSSLELWSLLAADSEKPIASLQVDSKFNDLDWSHNNKIIAGALDNGSLELYSTNEANNAINSMARFSNHSSSVKTVKFNAKQDNVLASGGNNGEIFIWDMNKCTESPSNYTPLTPGQSMSSVDEVISLAWNQSLAHVFASAGSSNFASIWDLKAKKEVIHLSYTSPNSGIKQQLSVVEWHPKNSTRVATATGSDNDPSILIWDLRNANTPLQTLNQGHQKGILSLDWCHQDEHLLLSSGRDNTVLLWNPESAEQLSQFPARGNWCFKTKFAPEAPDLFACASFDNKIEVQTLQNLTNTLDESKEKPSVFHLQAPTWYGEPSPAAHWAFGGKLVQITPDGKGVSITNPKI AEFSRTATFAWSHDKIPLLVSGTVSGTVDANFSTDSSLELWSLLAADSEKPIASLQVDSKFNDLDWSHNNKIIAGALDNGSLELYSTNEANNAINSMARFSNHSSSVKTVKFNAKQDNVLASGGNNGEIFIWDMNKCTESPSNYTPLTPGQSMSSVDEVISLAWNQSLAHVFASAGSSNFASIWDLKAKKEVIHLSYTSPNSGIKQQLSVVEWHPKNSTRVATATGSDNDPSILIWDLRNANTPLQTLNQGHQKGILSLDWCHQDEHLLLSSGRDNTVLLWNPESAEQLSQFPARGNWCFKTKFAPEAPDLFACASFDNKIEVQTLQNLTNTLDESKEKPSVFHLQAPTWYGEPSPAAHWAFGGKLVQITPDGKGVSITNPKI 6zga-a1-m1-cE_6zga-a1-m1-cA COPII on membranes, inner coat P15303 P15303 4.6 ELECTRON MICROSCOPY 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 750 751 4bzi-a1-m1-cA_4bzi-a1-m1-cG DFETNEDINGVRFTWNVFPSTRSDANSNVVPVGCLYTPLKEYDELNVAPYNPVVCSGPHCKSILNPYCVIDPRNSSWSCPICNSRNHLPPQYTNLSQENMPLELQSTTIEYITNKPVTVPPIFFFVVDLTSETENLDSLKESIITSLSLLPPNALIGLITYGNVVQLHDLSSETIDRCNVFRGDREYQLEALTEMLTGQKPTGPGGAASHLPNAMNKVTPFSLNRFFLPLEQVEFKLNQLLENLSPDQWSVPAGHRPLRATGSALNIASLLLQGCYKNIPARIILFASGPGTVAPGLIVNSELKDPLRSHHDIDSDHAQHYKKACKFYNQIAQRVAANGHTVDIFAGCYDQIGMSEMKQLTDSTGGVLLLTDAFSTAIFKQSYLRLFAKDEEGYLKMAFNGNMAVKTSKDLKVQGLIGHASAVKKTDANNISESEIGIGATSTWKMASLSPYHSYAIFFEIANTHLAYTQFITTYQHSSGTNRIRVTTVANQLLPFGTPAIAASFDQEAAAVLMARIAVHKAETDDGADVIRWLDRTLIKLCQKYADYNKDDPQSFRLAPNFSLYPQFTYYLRRSQFLSVFNNSPDETAFYRHIFTREDTTNSLIMIQPTLTSFSMEDDPQPVLLDSISVKPNTILLLDTFFFILIYHGEQIAQWRKAGYQDDPQYADFKALLEEPKLEAAELLVDRFPLPRFIDTEAGGSQARFLLSKLNPSDNYQDMARGGSTIVLTDDVSLQNFMTHLQQVAVSGQA DFETNEDINGVRFTWNVFPSTRSDANSNVVPVGCLYTPLKEYDELNVAPYNPVVCSGPHCKSILNPYCVIDPRNSSWSCPICNSRNHLPPQYTNLSQENMPLELQSTTIEYITNKPVTVPPIFFFVVDLTSETENLDSLKESIITSLSLLPPNALIGLITYGNVVQLHDLSSETIDRCNVFRGDREYQLEALTEMLTGQKPTGPGGAASHLPNAMNKVTPFSLNRFFLPLEQVEFKLNQLLENLSPDQWSVPAGHRPLRATGSALNIASLLLQGCYKNIPARIILFASGPGTVAPGLIVNSELKDPLRSHHDIDSDHAQHYKKACKFYNQIAQRVAANGHTVDIFAGCYDQIGMSEMKQLTDSTGGVLLLTDAFSTAIFKQSYLRLFAKDEEGYLKMAFNGNMAVKTSKDLKVQGLIGHASAVKKTDANNISESEIGIGATSTWKMASLSPYHSYAIFFEIANTAHLAYTQFITTYQHSSGTNRIRVTTVANQLLPFGTPAIAASFDQEAAAVLMARIAVHKAETDDGADVIRWLDRTLIKLCQKYADYNKDDPQSFRLAPNFSLYPQFTYYLRRSQFLSVFNNSPDETAFYRHIFTREDTTNSLIMIQPTLTSFSMEDDPQPVLLDSISVKPNTILLLDTFFFILIYHGEQIAQWRKAGYQDDPQYADFKALLEEPKLEAAELLVDRFPLPRFIDTEAGGSQARFLLSKLNPSDNYQDMARGGSTIVLTDDVSLQNFMTHLQQVAVSGQA 6zgf-a1-m1-cB_6zgf-a1-m1-cC Spike Protein of RaTG13 Bat Coronavirus in Closed Conformation A0A6B9WHD3 A0A6B9WHD3 3.1 ELECTRON MICROSCOPY 331 1.0 2709072 (Bat coronavirus RaTG13) 2709072 (Bat coronavirus RaTG13) 1060 1060 6zgf-a1-m1-cA_6zgf-a1-m1-cB 6zgf-a1-m1-cA_6zgf-a1-m1-cC 7fcd-a1-m1-cB_7fcd-a1-m1-cC 7n9c-a1-m1-cB_7n9c-a1-m1-cA 7n9c-a1-m1-cC_7n9c-a1-m1-cA 7wou-a1-m1-cA_7wou-a1-m1-cB 7wou-a1-m1-cC_7wou-a1-m1-cA QCVNLTQLPPAYTNSSTRGVYYPDKVFRSSVLHLTQDLFLPFFSNVTWFHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYWMESEFRVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPPGFSALEPLVDLPIGINITRFQTLLALHRAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTDSIVRFPNITNLCPFGEVFNATTFASVYAWNRKRISNCVADYSVLYNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVITGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSKHIDAKEGGNFNYLYRLFRKANLKPFERDISTEIYQAGSKPCNGQTGLNCYYPLYRYGFYPTDGVGHQPYRVVVLSFELLNAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKQYGDCLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGSCDVVIGIVNNTVYDPLQPE QCVNLTQLPPAYTNSSTRGVYYPDKVFRSSVLHLTQDLFLPFFSNVTWFHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYWMESEFRVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPPGFSALEPLVDLPIGINITRFQTLLALHRAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTDSIVRFPNITNLCPFGEVFNATTFASVYAWNRKRISNCVADYSVLYNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVITGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSKHIDAKEGGNFNYLYRLFRKANLKPFERDISTEIYQAGSKPCNGQTGLNCYYPLYRYGFYPTDGVGHQPYRVVVLSFELLNAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKQYGDCLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGSCDVVIGIVNNTVYDPLQPE 6zgh-a1-m1-cA_6zgh-a1-m1-cC Furin Cleaved Spike Protein of SARS-CoV-2 in Intermediate Conformation P0DTC2 P0DTC2 6.8 ELECTRON MICROSCOPY 328 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 875 1080 6zgh-a1-m1-cA_6zgh-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 6zhk-a1-m1-cA_6zhk-a1-m1-cB Crystal structure of adenosylmethionine-8-amino-7-oxononanoate aminotransferase from Methanocaldococcus jannaschii DSM 2661 Q58696 Q58696 1.8 X-RAY DIFFRACTION 430 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 438 438 DKNLLEKWDKEYIWHPYTQMKEYRESKNLIIERGEGNYLIDIYGNKYLDAVSSIWCNLFGHSRKEIIEAIKNQADKICHSTLLGCGNVPSILLAKKLVDITPKHLTKVFYSEDGAEAVEIAIKMAYQYYVLRGDKGRTKFISVKEGYHGDTVGAMSVGGSELFHGVFKPLLFKGYHANPPYEMECLNEMISLIEKHAEEVFCVILEGGIMGSAGMIPYPDGYIEGVAKACKENDVIFILDEVATGFGRTGKMFFCDNEELKKLEKPDILCLGKGLTGGYLPLAATLTTDEIYNQFLGEFGESKQLYHGHTYTGNQLLCSAALATLEIFEKENVIENIQPKIKLFHKELRKLKELEHVGDVRGRGFMVGIELVKDKETKEPYPYGYKAGYRVAEKLLEKGIYMRPIGNVIILVPPLSITEKEIIYLCDALYEAIKEADL DKNLLEKWDKEYIWHPYTQMKEYRESKNLIIERGEGNYLIDIYGNKYLDAVSSIWCNLFGHSRKEIIEAIKNQADKICHSTLLGCGNVPSILLAKKLVDITPKHLTKVFYSEDGAEAVEIAIKMAYQYYVLRGDKGRTKFISVKEGYHGDTVGAMSVGGSELFHGVFKPLLFKGYHANPPYEMECLNEMISLIEKHAEEVFCVILEGGIMGSAGMIPYPDGYIEGVAKACKENDVIFILDEVATGFGRTGKMFFCDNEELKKLEKPDILCLGKGLTGGYLPLAATLTTDEIYNQFLGEFGESKQLYHGHTYTGNQLLCSAALATLEIFEKENVIENIQPKIKLFHKELRKLKELEHVGDVRGRGFMVGIELVKDKETKEPYPYGYKAGYRVAEKLLEKGIYMRPIGNVIILVPPLSITEKEIIYLCDALYEAIKEADL 6zi1-a1-m1-cBBB_6zi1-a1-m1-cAAA Crystal structure of the isolated H. influenzae VapD toxin (D7N mutant) Q4QN95 Q4QN95 2.2 X-RAY DIFFRACTION 107 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 82 83 AMYAIAFNLVVQEAYTDIGAVLAKFGFVRTQGSLYTNMNEDMANLFQAMNALKQLAWISQSVRDIRAFRIEQWSDFTDFIRN AMYAIAFNLVVVQEAYTDIGAVLAKFGFVRTQGSLYTNMNEDMANLFQAMNALKQLAWISQSVRDIRAFRIEQWSDFTDFIRN 6zif-a1-m1-cB_6zif-a1-m1-cD The structure of a cytosolic copper storage protein from Methylocystis sp. Strain Rockwell (ATCC 49242) 2.2 X-RAY DIFFRACTION 17 1.0 622637 (Methylocystis sp. ATCC 49242) 622637 (Methylocystis sp. ATCC 49242) 107 107 6zif-a1-m1-cA_6zif-a1-m1-cC SKEMQSCVDECLRCYQMCFGMAMTHCLETGGDHVKPKHFRAMISCAEMCRNAAHMMLMKSPQARHICEDCAEACEACAKECDALPDMKDCAAQCRRCAEACRKMAGQ SKEMQSCVDECLRCYQMCFGMAMTHCLETGGDHVKPKHFRAMISCAEMCRNAAHMMLMKSPQARHICEDCAEACEACAKECDALPDMKDCAAQCRRCAEACRKMAGQ 6zif-a1-m1-cD_6zif-a1-m1-cA The structure of a cytosolic copper storage protein from Methylocystis sp. Strain Rockwell (ATCC 49242) 2.2 X-RAY DIFFRACTION 28 1.0 622637 (Methylocystis sp. ATCC 49242) 622637 (Methylocystis sp. ATCC 49242) 107 108 6zif-a1-m1-cB_6zif-a1-m1-cC SKEMQSCVDECLRCYQMCFGMAMTHCLETGGDHVKPKHFRAMISCAEMCRNAAHMMLMKSPQARHICEDCAEACEACAKECDALPDMKDCAAQCRRCAEACRKMAGQ SKEMQSCVDECLRCYQMCFGMAMTHCLETGGDHVKPKHFRAMISCAEMCRNAAHMMLMKSPQARHICEDCAEACEACAKECDALPDMKDCAAQCRRCAEACRKMAGQK 6zif-a1-m1-cD_6zif-a1-m1-cC The structure of a cytosolic copper storage protein from Methylocystis sp. Strain Rockwell (ATCC 49242) 2.2 X-RAY DIFFRACTION 48 1.0 622637 (Methylocystis sp. ATCC 49242) 622637 (Methylocystis sp. ATCC 49242) 107 108 6zif-a1-m1-cB_6zif-a1-m1-cA SKEMQSCVDECLRCYQMCFGMAMTHCLETGGDHVKPKHFRAMISCAEMCRNAAHMMLMKSPQARHICEDCAEACEACAKECDALPDMKDCAAQCRRCAEACRKMAGQ SKEMQSCVDECLRCYQMCFGMAMTHCLETGGDHVKPKHFRAMISCAEMCRNAAHMMLMKSPQARHICEDCAEACEACAKECDALPDMKDCAAQCRRCAEACRKMAGQK 6zj2-a3-m1-cL_6zj2-a3-m1-cM Structure of RcsB from Salmonella enterica serovar Typhimurium bound to promoter rprA in the presence of phosphomimetic BeF3- P58663 P58663 3.38 X-RAY DIFFRACTION 55 0.982 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 166 179 NMNVIIADDHPIVLFGIRKSLEQIEEDSTALINNLPKLDAHVLITDLSMPGDKYGDGITLIKYIKRHFPSLSIIVLTMNNNPAILSAVLDLDIEGIVLKQGAPTDLPKALAALQRLSPKESEVLRLFAEGFLVTEIAKKLNRSIKTISSQKKSAMMKLGVENDIAL NNMNVIIADDHPIVLFGIRKSLEQIEWVNVVGEFEDSTALINNLPKLDAHVLITDLSMPGDKYGDGITLIKYIKRHFPSLSIIVLTMNNNPAILSAVLDLDIEGIVLKQGAPTDLPKALAALSPKESEVLRLFAEGFLVTEIAKKLNRSIKTISSQKKSAMMKLGVENDIALLNYLSSV 6zjc-a2-m1-cC_6zjc-a2-m1-cD Crystal structure of Equus ferus caballus glutathione transferase A3-3 in complex with glutathione and triethyltin M9ZT87 M9ZT87 2.2 X-RAY DIFFRACTION 74 1.0 9796 (Equus caballus) 9796 (Equus caballus) 220 220 6zj9-a1-m1-cA_6zj9-a1-m2-cA 6zjc-a1-m1-cA_6zjc-a1-m1-cB VKPMLHYFNGRGRMEPIRWLLAAAGVEFEETFIDTPEDFEKLKNDGSLMFQQVPMVEIDGMKLVQSRAILNYVAAKHNLYGKDIKERALIDMYIEGVADLNEMILLLPITPPAEKDAKIMLIKDRTTNRYLPAFEKVLKSHGEDYLVGNRLSRADIHLVELLYLVEELDPSLLTNFPLLKALKARISNLPTVKKFLQPGGARKPPGDEKSVEKSRKIFKF VKPMLHYFNGRGRMEPIRWLLAAAGVEFEETFIDTPEDFEKLKNDGSLMFQQVPMVEIDGMKLVQSRAILNYVAAKHNLYGKDIKERALIDMYIEGVADLNEMILLLPITPPAEKDAKIMLIKDRTTNRYLPAFEKVLKSHGEDYLVGNRLSRADIHLVELLYLVEELDPSLLTNFPLLKALKARISNLPTVKKFLQPGGARKPPGDEKSVEKSRKIFKF 6zjk-a2-m1-cB_6zjk-a2-m1-cA Ribonucleotide reductase R2 subunit from Clostridium botulinum B1KYY8 B1KYY8 2 X-RAY DIFFRACTION 158 1.0 498214 (Clostridium botulinum A3 str. Loch Maree) 498214 (Clostridium botulinum A3 str. Loch Maree) 316 317 6zjk-a1-m1-cD_6zjk-a1-m1-cC SMLKKMIFNEKGQRGTESMINGNTTNLREWNRIKYSWASDFYRTMLNNFWIPEEISLNEDIKQFPYLTDGERNAFDKIISFLNFLDSVQSENLPNISRYITAAEVSSLLNIQTFQEEIHAQSYSYILDTVTNPITRDKIYDQWREDEHLLERNKFIAGIYEKFNKEPEIHNFLRAIMANYILEGIYFYSGFSFFYTLARQGKMTATSTIFKYINRDEVTHLVLFQNIIKELKNENSHIFTEELEEEFRQMMRMGVEHEIQWGQYVTNNEILGLNDELIERYIKYLSNLRLVAIGLKPLYPEINKHPMEWIDGFSKL QSMLKKMIFNEKGQRGTESMINGNTTNLREWNRIKYSWASDFYRTMLNNFWIPEEISLNEDIKQFPYLTDGERNAFDKIISFLNFLDSVQSENLPNISRYITAAEVSSLLNIQTFQEEIHAQSYSYILDTVTNPITRDKIYDQWREDEHLLERNKFIAGIYEKFNKEPEIHNFLRAIMANYILEGIYFYSGFSFFYTLARQGKMTATSTIFKYINRDEVTHLVLFQNIIKELKNENSHIFTEELEEEFRQMMRMGVEHEIQWGQYVTNNEILGLNDELIERYIKYLSNLRLVAIGLKPLYPEINKHPMEWIDGFSKL 6zjo-a1-m1-cA_6zjo-a1-m1-cB Crystal Structure of Staphylococcus aureus RsgA. Q9KX08 Q9KX08 2.01 X-RAY DIFFRACTION 25 0.996 451515 (Staphylococcus aureus subsp. aureus USA300_FPR3757) 451515 (Staphylococcus aureus subsp. aureus USA300_FPR3757) 265 268 MKTGRIVKSISGVYQVDVNGERFNTKPRGLFRKKKFSPVVGDIVEFEVQNINEGYIHQVFERENELKRPPVSNIDTLVIVMSAVEPNFSTQLLDRFLVIAHSYQLNARILVTKKDKTPIEKQFEINELLKIYENIGYETEFIGNDDDRKKIVEAWPAGLIVLSGQSGVGKSTFLNHYRPHVELFERQNGYIADTPGFSALDFDHIDKDEIKDYFLELNRYGETCKFRNCNHIKEPNCNVKHQLEIGNIAQFRYDHYLQLFNEISN RGSHMKTGRIVKSISGVYQVDVNGERFNTKPRGLFRKKKFSPVVGDIVEFEVQNINEGYIHQVFERENELKRPPVSNIDTLVIVMSAVEPNFSTQLLDRFLVIAHSYQLNARILVTKKDKTPIEKQFEINELLKIYENIGYETEFIGNDDDRKKIVEAWPAGLIVLSGQSGVGKSTFLNHYRHVELFERQNGYIADTPGFSALDFDHIDKDEIKDYFLELNRYGETCKFRNCNHIKEPNCNVKHQLEIGNIAQFRYDHYLQLFNEISN 6zk3-a2-m1-cD_6zk3-a2-m1-cC Plant nucleoside hydrolase - ZmNRh2b in complex with ribose B6THD4 B6THD4 1.75 X-RAY DIFFRACTION 82 1.0 4577 (Zea mays) 4577 (Zea mays) 317 318 6zk1-a1-m1-cA_6zk1-a1-m1-cB 6zk1-a2-m1-cC_6zk1-a2-m1-cD 6zk2-a1-m1-cA_6zk2-a1-m1-cB 6zk2-a2-m1-cC_6zk2-a2-m1-cD 6zk3-a1-m1-cB_6zk3-a1-m1-cA 6zk3-a3-m1-cE_6zk3-a3-m1-cF 6zk4-a1-m1-cA_6zk4-a1-m1-cB 6zk4-a2-m1-cD_6zk4-a2-m1-cC RRDKLIIDTDPGIDDSMTILMAFRAPSVEIIGLTTIFGNVDTKGATRNALLLCERAGCPEVPVAEGSHEPLKGGKPRVADFVHGSDGIGNLFLPAPSAKKVEESAADFLINKVSEFPGEVSVLALGPLTNVALAIKRDPSFASKVKKIVVLGGAFFAAGNVNPAAEANIHGDPEAADIVFTSGADIVVVGINITTQVCLTDEDLLELRNSKGKHAAFLYEMCKFYRDWHAKSDGFHGIFLHDPVSFTAVLHPEYFTFKKGVVRVETQGICTGHTLMDQGLKKWNSENPWSGYKPISVAWTVDVPKVISFIKKLLMAP IRRDKLIIDTDPGIDDSMTILMAFRAPSVEIIGLTTIFGNVDTKGATRNALLLCERAGCPEVPVAEGSHEPLKGGKPRVADFVHGSDGIGNLFLPAPSAKKVEESAADFLINKVSEFPGEVSVLALGPLTNVALAIKRDPSFASKVKKIVVLGGAFFAAGNVNPAAEANIHGDPEAADIVFTSGADIVVVGINITTQVCLTDEDLLELRNSKGKHAAFLYEMCKFYRDWHAKSDGFHGIFLHDPVSFTAVLHPEYFTFKKGVVRVETQGICTGHTLMDQGLKKWNSENPWSGYKPISVAWTVDVPKVISFIKKLLMAP 6zk5-a1-m1-cA_6zk5-a1-m1-cB Plant nucleoside hydrolase - ZmNRh3 enzyme in complex with forodesine B6T563 B6T563 1.9 X-RAY DIFFRACTION 90 1.0 4577 (Zea mays) 4577 (Zea mays) 316 316 4kpo-a1-m1-cB_4kpo-a1-m1-cA NSKIIIDTDPGIDDSVAILMAFQMPGVQVLGLTTIFGNCTTEHATRNALILCEKASHLEVPVAEGSHEPLKGGKPHVADFVHGPDGLGNVDLPDPTIKKVEESATDFLVDKVSRFPGEVSVLALGPLTNIALAIKKDPSFVKNVKKIVVLGGAFFAAGNATPSAEANIHSDPEAADMVFTSGADIYVVGLNITTQVSFTDKDLLELRNSQGKYAQFLCDVCKFYLDWHTESYGAPVIFLHDPVSFAALVRPELFTFKKGVVRVETQGICVGHTSMDMLLKKWNSENPWTGYSPISVAWTVDVPKVVAFVKELVTKP NSKIIIDTDPGIDDSVAILMAFQMPGVQVLGLTTIFGNCTTEHATRNALILCEKASHLEVPVAEGSHEPLKGGKPHVADFVHGPDGLGNVDLPDPTIKKVEESATDFLVDKVSRFPGEVSVLALGPLTNIALAIKKDPSFVKNVKKIVVLGGAFFAAGNATPSAEANIHSDPEAADMVFTSGADIYVVGLNITTQVSFTDKDLLELRNSQGKYAQFLCDVCKFYLDWHTESYGAPVIFLHDPVSFAALVRPELFTFKKGVVRVETQGICVGHTSMDMLLKKWNSENPWTGYSPISVAWTVDVPKVVAFVKELVTKP 6zll-a1-m1-cB_6zll-a1-m1-cA Crystal Structure of UDP-Glucuronic acid 4-epimerase from Bacillus cereus in complex with UDP-Galacturonic acid and NAD 1.85 X-RAY DIFFRACTION 83 1.0 1053203 (Bacillus cereus HuA2-4) 1053203 (Bacillus cereus HuA2-4) 315 321 6zl6-a1-m1-cA_6zl6-a1-m1-cB 6zla-a1-m1-cB_6zla-a1-m1-cA 6zla-a2-m1-cC_6zla-a2-m2-cD 6zld-a1-m1-cA_6zld-a1-m2-cB 6zlj-a1-m1-cA_6zlj-a1-m2-cB 6zlk-a1-m1-cC_6zlk-a1-m1-cA 6zlk-a2-m1-cB_6zlk-a2-m1-cD 6zll-a2-m1-cC_6zll-a2-m1-cD MKILVTGAAGFIGSHLCQALLKNSAYHVVGIDHFIGPTPATLKTGNIQSLELNSRFQFIREDILNTDLSKLLQDIDVVYHLAAIPGVRTSWGKDFQPYVTNNIMVTQQLLEACKHIKLDKFIHISTSSVYGEKSGAVSEDLLPIPLSPYGVTKLSGEHLCHVYHKNFHIPIVILRYFTVYGPRQRPDMAFHRLIKQMLEDKPLTIFGDGTQTRDFTYIDDCIRGTVAALETKKNIIGEVINIGGKEQASILDIISMLEKISGKSATKNFLKSVPGEPKQTWADISKASTLLQYSPTVSLSDGLEAEYDYIKQLYK MKILVTGAAGFIGSHLCQALLKNSAYHVVGIDHFIGPTPATLKTGNIQSLELNSRFQFIREDILNTDLSKLLQDIDVVYHLAAIPGVRTSWGKDFQPYVTNNIMVTQQLLEACKHIKLDKFIHISTSSVYGEKSGAVSEDLLPIPLSPYGVTKLSGEHLCHVYHKNFHIPIVILRYFTVYGPRQRPDMAFHRLIKQMLEDKPLTIFGDGTQTRDFTYIDDCIRGTVAALETKKNIIGEVINIGGKEQASILDIISMLEKISGKSATKNFLKSVPGEPKQTWADISKASTLLQYSPTVSLSDGLEAEYDYIKQLYKGDAAWS 6zlv-a1-m1-cA_6zlv-a1-m1-cD MreC Q9HVU1 Q9HVU1 3.5 ELECTRON MICROSCOPY 10 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 176 176 AALTEQNVRLRELLNSAALVDDKVLVSELIGVDPNPFTQRIMIDKGENDGVFVGQPVLDASGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIAVGTGNPERLELRYVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAVVRAVPTAKMNRSRYVLLVF AALTEQNVRLRELLNSAALVDDKVLVSELIGVDPNPFTQRIMIDKGENDGVFVGQPVLDASGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIAVGTGNPERLELRYVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAVVRAVPTAKMNRSRYVLLVF 6zlv-a1-m1-cB_6zlv-a1-m1-cD MreC Q9HVU1 Q9HVU1 3.5 ELECTRON MICROSCOPY 40 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 176 176 6zlv-a1-m1-cA_6zlv-a1-m1-cC AALTEQNVRLRELLNSAALVDDKVLVSELIGVDPNPFTQRIMIDKGENDGVFVGQPVLDASGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIAVGTGNPERLELRYVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAVVRAVPTAKMNRSRYVLLVF AALTEQNVRLRELLNSAALVDDKVLVSELIGVDPNPFTQRIMIDKGENDGVFVGQPVLDASGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIAVGTGNPERLELRYVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAVVRAVPTAKMNRSRYVLLVF 6zlv-a1-m1-cC_6zlv-a1-m1-cD MreC Q9HVU1 Q9HVU1 3.5 ELECTRON MICROSCOPY 40 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 176 176 6zlv-a1-m1-cA_6zlv-a1-m1-cB AALTEQNVRLRELLNSAALVDDKVLVSELIGVDPNPFTQRIMIDKGENDGVFVGQPVLDASGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIAVGTGNPERLELRYVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAVVRAVPTAKMNRSRYVLLVF AALTEQNVRLRELLNSAALVDDKVLVSELIGVDPNPFTQRIMIDKGENDGVFVGQPVLDASGLMGQVVEVMPYTARVLLLTDTTHSIPVQVNRNGLRAIAVGTGNPERLELRYVADTADIKEGDLLVSSGLGQRFPAGYPVATVKEVIHDSGQPFAVVRAVPTAKMNRSRYVLLVF 6zm6-a1-m1-ct5_6zm6-a1-m1-ct6 Human mitochondrial ribosome in complex with mRNA, A/A tRNA and P/P tRNA P52815 P52815 2.59 ELECTRON MICROSCOPY 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 31 6zm5-a1-m1-ct4_6zm5-a1-m1-ct3 6zm5-a1-m1-ct5_6zm5-a1-m1-ct6 6zm6-a1-m1-ct4_6zm6-a1-m1-ct3 7po4-a1-m1-cx_7po4-a1-m1-cy 7qi4-a1-m1-cw_7qi4-a1-m1-cv 7qi4-a1-m1-cx_7qi4-a1-m1-cy 7qi6-a1-m1-cw_7qi6-a1-m1-cv 7qi6-a1-m1-cx_7qi6-a1-m1-cy PPKIQQLVQDIASLTLLEISDLNELLKKTLK PPKIQQLVQDIASLTLLEISDLNELLKKTLK 6zm9-a1-m2-cA_6zm9-a1-m3-cA PHAGE SAM LYASE IN COMPLEX WITH S-METHYL-5'-THIOADENOSINE 1.45 X-RAY DIFFRACTION 76 1.0 32644 (unidentified) 32644 (unidentified) 129 129 6zm9-a1-m1-cA_6zm9-a1-m2-cA 6zm9-a1-m1-cA_6zm9-a1-m3-cA 6zmg-a1-m1-cA_6zmg-a1-m2-cA 6zmg-a1-m1-cA_6zmg-a1-m3-cA 6zmg-a1-m2-cA_6zmg-a1-m3-cA 6znb-a1-m1-cAA_6znb-a1-m2-cAA 6znb-a1-m1-cAA_6znb-a1-m3-cAA 6znb-a1-m2-cAA_6znb-a1-m3-cAA SLMERLGGGGFSARIFVGLNVGDKPTYTIEDVVKDTIAIRKRQGILPDASFVAQRGVYTEQRSGQLVTENSVQIIIIDLEGLSKEDFTGKVQALGKELREDFKQESVIVEIQERGIVQDVYSITAEWYE SLMERLGGGGFSARIFVGLNVGDKPTYTIEDVVKDTIAIRKRQGILPDASFVAQRGVYTEQRSGQLVTENSVQIIIIDLEGLSKEDFTGKVQALGKELREDFKQESVIVEIQERGIVQDVYSITAEWYE 6zmc-a1-m1-cB_6zmc-a1-m1-cC Structure of the tRNA-Monooxygenase enzyme MiaE frozen under 2000 bar using the high pressure freezing method A0A179QS89 A0A179QS89 2.5 X-RAY DIFFRACTION 60 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 199 200 2itb-a1-m1-cB_2itb-a1-m1-cA 6zma-a1-m1-cB_6zma-a1-m1-cC 6zmb-a1-m1-cB_6zmb-a1-m1-cC 8afj-a1-m1-cA_8afj-a1-m1-cB LIPEIDAFLGCPTPDAWIEAALADQETLLIDHKNCEFKAASTALSLIAKYNTHLDLINMMSRLAREELVHHEQVLRLMKRRGVPLRPVSAGRYASGLRRLVRAHEPVKLVDTLVVGAFIEARSCERFAALVPHLDEELGRFYHGLLKSEARHYQGYLKLAHNYGDEADIARRVELVRAAEMELIQSPDQELRFHSGIPQ SLIPEIDAFLGCPTPDAWIEAALADQETLLIDHKNCEFKAASTALSLIAKYNTHLDLINMMSRLAREELVHHEQVLRLMKRRGVPLRPVSAGRYASGLRRLVRAHEPVKLVDTLVVGAFIEARSCERFAALVPHLDEELGRFYHGLLKSEARHYQGYLKLAHNYGDEADIARRVELVRAAEMELIQSPDQELRFHSGIPQ 6zmm-a1-m1-cA_6zmm-a1-m1-cB Crystal structure of human NDRG1 Q92597 Q92597 2.96 X-RAY DIFFRACTION 33 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 251 252 VQEQDIETLHGSVHVTLCGTRPVILTYHDIGMNHKTCYNPLFNYEDMQEITQHFAVCHVDAPGQQDGAASFPAGYMYPSMDQLAEMLPGVLQQFGLKSIIGMGTGAGAYILTRFALNNPEMVEGLVLINVNPCAQALPDMVVSHLFGVVHTYRQHIVNDMNPGNLHLFINAYNSRRDLEIERPVTLQCPALLVVGDSSPAVDAVVECNSKLDPTKTTLLKMADCGGLPQISQPAKLAEAFKYFVQGMGYMP VQEQDIETLHGSVHVTLCGTNRPVILTYHDIGMNHKTCYNPLFNYEDMQEITQHFAVCHVDAPGQQDGAASFPAGYMYPSMDQLAEMLPGVLQQFGLKSIIGMGTGAGAYILTRFALNNPEMVEGLVLINVNPCTQALPDMVVSHLFVEVVHTYRQHIVNDMNPGNLHLFINAYNSRRDLEIERVTLQCPALLVVGDSSPAVDAVVECNSKLDPTKTTLLKMADCGGLPQISQPAKLAEAFKYFVQGMGYMP 6zmn-a1-m1-cB_6zmn-a1-m1-cA Crystal structure of the Smad3-Smad5 MH1 domain chimera bound to the GGCGC site P84022 P84022 2.333 X-RAY DIFFRACTION 72 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 119 120 GPAVKRLLGWKQGDEEEKWCEKAVKSLVKKLKKTGQLDELEKAITTQNVNTKCITIPRSLDGRLQVSHRKGLPHVIYCRLWRWPDLHSHHELRAMELCEFAFNMKKDEVCVNPYHYQRV PAVKRLLGWKQGDEEEKWCEKAVKSLVKKLKKTGQLDELEKAITTQNVNTKCITIPRSLDGRLQVSHRKGLPHVIYCRLWRWPDLHSHHELRAMELCEFAFNMKKDEVCVNPYHYQRVET 6zmu-a1-m1-cB_6zmu-a1-m1-cA Crystal structure of the germline-specific thioredoxin protein Deadhead (Thioredoxin-1) from Drospohila melanogaster, P43212 P47938 P47938 1.95 X-RAY DIFFRACTION 31 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 105 107 MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLV MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLVKA 6zmu-a1-m1-cB_6zmu-a1-m1-cC Crystal structure of the germline-specific thioredoxin protein Deadhead (Thioredoxin-1) from Drospohila melanogaster, P43212 P47938 P47938 1.95 X-RAY DIFFRACTION 20 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 105 105 MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLV MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLV 6zmu-a1-m1-cB_6zmu-a1-m1-cD Crystal structure of the germline-specific thioredoxin protein Deadhead (Thioredoxin-1) from Drospohila melanogaster, P43212 P47938 P47938 1.95 X-RAY DIFFRACTION 13 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 105 106 MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLV MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLVK 6zmu-a1-m1-cC_6zmu-a1-m1-cA Crystal structure of the germline-specific thioredoxin protein Deadhead (Thioredoxin-1) from Drospohila melanogaster, P43212 P47938 P47938 1.95 X-RAY DIFFRACTION 18 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 105 107 MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLV MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLVKA 6zmu-a1-m1-cC_6zmu-a1-m1-cD Crystal structure of the germline-specific thioredoxin protein Deadhead (Thioredoxin-1) from Drospohila melanogaster, P43212 P47938 P47938 1.95 X-RAY DIFFRACTION 33 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 105 106 MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLV MASVRTMNDYHKRIEAADDKLIVLDFYATWCGPCKEMESTVKSLARKYSSKAVVLKIDVDKFEELTERYKVRSMPTFVFLRQNRRLASFAGADEHKLTNMMAKLVK 6zn8-a2-m1-cD_6zn8-a2-m1-cE Crystal structure of the H. influenzae VapXD toxin-antitoxin complex Q4QN95 Q4QN95 3.211 X-RAY DIFFRACTION 70 1.0 281310 (Haemophilus influenzae 86-028NP) 281310 (Haemophilus influenzae 86-028NP) 86 86 6zi0-a1-m1-cAAA_6zi0-a1-m2-cAAA 6zn8-a1-m1-cA_6zn8-a1-m1-cB YAIAFDLVVKDTQDYHPKGVQEAYTDIGAVLAKFGFVRTQGSLYTNNEDANLFQANALKQLAWISQSVRDIRAFRIEQWSDFTDFI YAIAFDLVVKDTQDYHPKGVQEAYTDIGAVLAKFGFVRTQGSLYTNNEDANLFQANALKQLAWISQSVRDIRAFRIEQWSDFTDFI 6zna-a1-m1-cAe_6zna-a1-m1-cCe Porcine ATP synthase Fo domain Q9MYT8 Q9MYT8 6.2 ELECTRON MICROSCOPY 25 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 57 57 PPVQVSPLIKLGRYSALFLGVAYGAKRYNYLKPRAEEERRIAAEEKKKQDELKRIER PPVQVSPLIKLGRYSALFLGVAYGAKRYNYLKPRAEEERRIAAEEKKKQDELKRIER 6zna-a1-m1-cAg_6zna-a1-m1-cCg Porcine ATP synthase Fo domain F1SAK7 F1SAK7 6.2 ELECTRON MICROSCOPY 11 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 93 93 AQFVRNLAEKAPVLVNAAVTYSKPRLATFWHYAKVELVPPTPAEIPTAIQSLKKIVNSAQTGSFKQLTVKEALLNGLVATEVLMWFYVGEIIA AQFVRNLAEKAPVLVNAAVTYSKPRLATFWHYAKVELVPPTPAEIPTAIQSLKKIVNSAQTGSFKQLTVKEALLNGLVATEVLMWFYVGEIIA 6znl-a1-m1-cz_6znl-a1-m1-cZ Cryo-EM structure of the dynactin complex A0A287B8J2 A0A287B8J2 3.8 ELECTRON MICROSCOPY 53 0.987 9823 (Sus scrofa) 9823 (Sus scrofa) 155 192 VKDSPLLLQQISAMRLHISQLQHENSVLKGAQMKASLAALPPLHVAKLSLPPHEGPGSELAAGALYRKTNQLLETLNQLSTHTHVVDKDEVLKETVSQRPGATVPTDFATFPSSAFLRAKEEQQDDTVYMGKVTFQRHRLVLTQEQLHQLHDRLI DSPLLLQQISAMRLHISQLQHENSVLKGAQMKASLAALPPLHVAKLSLPPHEGPGSELAAGALYRKTNQLLETLNQLSTHTHVVDITRSSPAAKSPSAQLLEQVTQLKSLSDTIEKLKDEVLKETVSQRPGATVPTDFATFPSSAFLRAKEEQQDDTVYMGKVTFSCAAGLGQRHRLVLTQEQLHQLHDRLI 6znx-a2-m2-cC_6znx-a2-m1-cB Ribokinase from Thermus Species A0A0B0SD75 A0A0B0SD75 2.4 X-RAY DIFFRACTION 61 1.0 1577051 (Thermus sp. 2.9) 1577051 (Thermus sp. 2.9) 265 292 6znx-a1-m3-cD_6znx-a1-m1-cA 8cqx-a1-m1-cA_8cqx-a1-m1-cD 8cqx-a2-m1-cB_8cqx-a2-m2-cC MILVVGSLNMDLVLREDYQTHPGGKGANQAVAIARLGGKVRMLGRVGEDPFGQALKSGLAQEGVDVAWVLETPGPSGTAFVDPEGQNQIAVAPGANARLVPEDLPATAFQGVGVVLLQLEIPLETVVRAAALGRKAGARILLNAAPAHALPSEILQSVDLLLVNEVEAAQALARQLRGAQVVLLGAQGAVWSGEESHFPAFPVRAVDTTAAGDAFAGALALGLAEGQNMRAALRFANAAGALATTRPGAQPSLPFRDEVEALLFG MILVVGSLNMDLVLRVPRPGETVLGEDYQTHPGGKGANQAVAIARLGGKVRMLGRVGEDPFGQALKSGLAQEGVDVAWVLETPGPSGTAFILVDPEGQNQIAVAPGANARLVPEDLPATAFQGVGVVLLQLEIPLETVVRAAALGRKAGARILLNAAPAHALPSEILQSVDLLLVNEVEAAQLTEASPEEALALARQLRGRAPQAQVVLTLGAQGAVWSGEESHFPAFPVRAVDTTAAGDAFAGALALGLAEGQNMRAALRFANAAGALATTRPGAQPSLPFRDEVEALLFG 6zot-a1-m1-cA_6zot-a1-m1-cB Crystal structure of YTHDF3 YTH domain in complex with m6A RNA Q7Z739 Q7Z739 2.7 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 180 NYNPKDFDWNLKNGRVFIIKSYSEDDIHRSIKYSIWCSTEHGNKRLDAAYRSLNGKGPLYLLFSVNGSGHFCGVAEMKSVVDYNAKGKFEVKWIFVKDVPNNQLRHIRLENNDNKPVTNSRDTQEVPLEKAKQVLKIIATFKHTTSIFDD HPVLEKLKAINNYNPKDFDWNLKNGRVFIIKSYSEDDIHRSIKYSIWCSTEHGNKRLDAAYRSLNGKGPLYLLFSVNGSGHFCGVAEMKSVVDYNAYAGVWSQDKWKGKFEVKWIFVKDVPNNQLRHIRLENNDNKPVTNSRDTQEVPLEKAKQVLKIIATFKHTTSIFDDFAHYEKRQE 6zow-a1-m1-cA_6zow-a1-m1-cC SARS-CoV-2 spike in prefusion state P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 291 0.989 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 801 943 6zow-a1-m1-cA_6zow-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCSANNCTFEYVSQNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSF AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFRVYNNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDYNYLYRNLKPFERDISTFPLQSVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 6zox-a1-m1-cB_6zox-a1-m1-cC Structure of Disulphide-stabilized SARS-CoV-2 Spike Protein Trimer (x2 disulphide-bond mutant, G413C, V987C, single Arg S1/S2 cleavage site) P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 338 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1017 1017 6zox-a1-m1-cA_6zox-a1-m1-cB 6zox-a1-m1-cA_6zox-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPCQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKCEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPCQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKCEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 6zp0-a1-m1-cB_6zp0-a1-m1-cC Structure of SARS-CoV-2 Spike Protein Trimer (single Arg S1/S2 cleavage site) in Closed State P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 334 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1030 1030 6zp0-a1-m1-cA_6zp0-a1-m1-cB 6zp0-a1-m1-cA_6zp0-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 6zp1-a1-m1-cB_6zp1-a1-m1-cC Structure of SARS-CoV-2 Spike Protein Trimer (K986P, V987P, single Arg S1/S2 cleavage site) in Closed State P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 294 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1017 1017 6zp1-a1-m1-cA_6zp1-a1-m1-cB 6zp1-a1-m1-cA_6zp1-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 6zp5-a1-m1-cC_6zp5-a1-m1-cA SARS-CoV-2 spike in prefusion state (flexibility analysis, 1-up closed conformation) P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 281 0.994 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 930 988 6zp5-a1-m1-cB_6zp5-a1-m1-cA 6zp7-a1-m1-cB_6zp7-a1-m1-cA 6zp7-a1-m1-cC_6zp7-a1-m1-cA 7ub5-a1-m1-cC_7ub5-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCFRVYSNCTFEYVSQLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSNLKPFERDISTVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS YTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCSANNCTFEYVSQNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSF 6zp5-a1-m1-cC_6zp5-a1-m1-cB SARS-CoV-2 spike in prefusion state (flexibility analysis, 1-up closed conformation) P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 304 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 930 943 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCFRVYSNCTFEYVSQLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSNLKPFERDISTVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFRVYNNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDYNYLYRNLKPFERDISTFPLQSVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 6zp7-a1-m1-cB_6zp7-a1-m1-cC SARS-CoV-2 spike in prefusion state (flexibility analysis, 1-up open conformation) P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 299 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 930 943 6zow-a1-m1-cB_6zow-a1-m1-cC 7m8k-a1-m1-cA_7m8k-a1-m1-cB 7m8k-a1-m1-cA_7m8k-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCFRVYSNCTFEYVSQLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSNLKPFERDISTVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFRVYNNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDYNYLYRNLKPFERDISTFPLQSVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 6zpd-a1-m15-cA_6zpd-a1-m9-cA gamma-tocopherol transfer protein P49638 P49638 2.24 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 231 5mue-a1-m10-cA_5mue-a1-m14-cA 5mue-a1-m10-cA_5mue-a1-m16-cA 5mue-a1-m11-cA_5mue-a1-m13-cA 5mue-a1-m11-cA_5mue-a1-m15-cA 5mue-a1-m12-cA_5mue-a1-m14-cA 5mue-a1-m12-cA_5mue-a1-m16-cA 5mue-a1-m13-cA_5mue-a1-m9-cA 5mue-a1-m15-cA_5mue-a1-m9-cA 5mue-a1-m17-cA_5mue-a1-m6-cA 5mue-a1-m17-cA_5mue-a1-m8-cA 5mue-a1-m18-cA_5mue-a1-m5-cA 5mue-a1-m18-cA_5mue-a1-m7-cA 5mue-a1-m19-cA_5mue-a1-m6-cA 5mue-a1-m19-cA_5mue-a1-m8-cA 5mue-a1-m1-cA_5mue-a1-m21-cA 5mue-a1-m1-cA_5mue-a1-m23-cA 5mue-a1-m20-cA_5mue-a1-m5-cA 5mue-a1-m20-cA_5mue-a1-m7-cA 5mue-a1-m21-cA_5mue-a1-m3-cA 5mue-a1-m22-cA_5mue-a1-m4-cA 5mue-a1-m23-cA_5mue-a1-m3-cA 5mue-a1-m24-cA_5mue-a1-m4-cA 5mue-a1-m2-cA_5mue-a1-m22-cA 5mue-a1-m2-cA_5mue-a1-m24-cA 5mug-a1-m10-cA_5mug-a1-m14-cA 5mug-a1-m10-cA_5mug-a1-m16-cA 5mug-a1-m11-cA_5mug-a1-m13-cA 5mug-a1-m11-cA_5mug-a1-m15-cA 5mug-a1-m12-cA_5mug-a1-m14-cA 5mug-a1-m12-cA_5mug-a1-m16-cA 5mug-a1-m13-cA_5mug-a1-m9-cA 5mug-a1-m15-cA_5mug-a1-m9-cA 5mug-a1-m17-cA_5mug-a1-m6-cA 5mug-a1-m17-cA_5mug-a1-m8-cA 5mug-a1-m18-cA_5mug-a1-m5-cA 5mug-a1-m18-cA_5mug-a1-m7-cA 5mug-a1-m19-cA_5mug-a1-m6-cA 5mug-a1-m19-cA_5mug-a1-m8-cA 5mug-a1-m1-cA_5mug-a1-m21-cA 5mug-a1-m1-cA_5mug-a1-m23-cA 5mug-a1-m20-cA_5mug-a1-m5-cA 5mug-a1-m20-cA_5mug-a1-m7-cA 5mug-a1-m21-cA_5mug-a1-m3-cA 5mug-a1-m22-cA_5mug-a1-m4-cA 5mug-a1-m23-cA_5mug-a1-m3-cA 5mug-a1-m24-cA_5mug-a1-m4-cA 5mug-a1-m2-cA_5mug-a1-m22-cA 5mug-a1-m2-cA_5mug-a1-m24-cA 6zpd-a1-m10-cA_6zpd-a1-m14-cA 6zpd-a1-m10-cA_6zpd-a1-m16-cA 6zpd-a1-m11-cA_6zpd-a1-m13-cA 6zpd-a1-m11-cA_6zpd-a1-m15-cA 6zpd-a1-m12-cA_6zpd-a1-m14-cA 6zpd-a1-m12-cA_6zpd-a1-m16-cA 6zpd-a1-m13-cA_6zpd-a1-m9-cA 6zpd-a1-m17-cA_6zpd-a1-m6-cA 6zpd-a1-m17-cA_6zpd-a1-m8-cA 6zpd-a1-m18-cA_6zpd-a1-m5-cA 6zpd-a1-m18-cA_6zpd-a1-m7-cA 6zpd-a1-m19-cA_6zpd-a1-m6-cA 6zpd-a1-m19-cA_6zpd-a1-m8-cA 6zpd-a1-m1-cA_6zpd-a1-m21-cA 6zpd-a1-m1-cA_6zpd-a1-m23-cA 6zpd-a1-m20-cA_6zpd-a1-m5-cA 6zpd-a1-m20-cA_6zpd-a1-m7-cA 6zpd-a1-m21-cA_6zpd-a1-m3-cA 6zpd-a1-m22-cA_6zpd-a1-m4-cA 6zpd-a1-m23-cA_6zpd-a1-m3-cA 6zpd-a1-m24-cA_6zpd-a1-m4-cA 6zpd-a1-m2-cA_6zpd-a1-m22-cA 6zpd-a1-m2-cA_6zpd-a1-m24-cA TDSFLLRFLRARDFDLDLAWRLLKNYYKWRAECPEISADLHPRSIIGLLKAGYHGVLRSRDPTGSKVLIYRIAHWDPKVFTAYDVFRVSLITSELIVQEVETQRNGIKLIFDLEGWQFSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKERIHMHGNNYKQSLLQHFPDILPLEYGGEEFSMEDICQEWTNFIMKSEDYLSSISESIQ TDSFLLRFLRARDFDLDLAWRLLKNYYKWRAECPEISADLHPRSIIGLLKAGYHGVLRSRDPTGSKVLIYRIAHWDPKVFTAYDVFRVSLITSELIVQEVETQRNGIKLIFDLEGWQFSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKERIHMHGNNYKQSLLQHFPDILPLEYGGEEFSMEDICQEWTNFIMKSEDYLSSISESIQ 6zpd-a1-m8-cA_6zpd-a1-m9-cA gamma-tocopherol transfer protein P49638 P49638 2.24 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 231 231 5mue-a1-m10-cA_5mue-a1-m4-cA 5mue-a1-m10-cA_5mue-a1-m5-cA 5mue-a1-m11-cA_5mue-a1-m3-cA 5mue-a1-m11-cA_5mue-a1-m7-cA 5mue-a1-m12-cA_5mue-a1-m6-cA 5mue-a1-m13-cA_5mue-a1-m18-cA 5mue-a1-m13-cA_5mue-a1-m24-cA 5mue-a1-m14-cA_5mue-a1-m20-cA 5mue-a1-m14-cA_5mue-a1-m21-cA 5mue-a1-m15-cA_5mue-a1-m19-cA 5mue-a1-m15-cA_5mue-a1-m23-cA 5mue-a1-m16-cA_5mue-a1-m17-cA 5mue-a1-m16-cA_5mue-a1-m22-cA 5mue-a1-m17-cA_5mue-a1-m22-cA 5mue-a1-m18-cA_5mue-a1-m24-cA 5mue-a1-m19-cA_5mue-a1-m23-cA 5mue-a1-m1-cA_5mue-a1-m12-cA 5mue-a1-m1-cA_5mue-a1-m6-cA 5mue-a1-m20-cA_5mue-a1-m21-cA 5mue-a1-m2-cA_5mue-a1-m8-cA 5mue-a1-m2-cA_5mue-a1-m9-cA 5mue-a1-m3-cA_5mue-a1-m7-cA 5mue-a1-m4-cA_5mue-a1-m5-cA 5mue-a1-m8-cA_5mue-a1-m9-cA 5mug-a1-m10-cA_5mug-a1-m4-cA 5mug-a1-m10-cA_5mug-a1-m5-cA 5mug-a1-m11-cA_5mug-a1-m3-cA 5mug-a1-m11-cA_5mug-a1-m7-cA 5mug-a1-m12-cA_5mug-a1-m6-cA 5mug-a1-m13-cA_5mug-a1-m18-cA 5mug-a1-m13-cA_5mug-a1-m24-cA 5mug-a1-m14-cA_5mug-a1-m20-cA 5mug-a1-m14-cA_5mug-a1-m21-cA 5mug-a1-m15-cA_5mug-a1-m19-cA 5mug-a1-m15-cA_5mug-a1-m23-cA 5mug-a1-m16-cA_5mug-a1-m17-cA 5mug-a1-m16-cA_5mug-a1-m22-cA 5mug-a1-m17-cA_5mug-a1-m22-cA 5mug-a1-m18-cA_5mug-a1-m24-cA 5mug-a1-m19-cA_5mug-a1-m23-cA 5mug-a1-m1-cA_5mug-a1-m12-cA 5mug-a1-m1-cA_5mug-a1-m6-cA 5mug-a1-m20-cA_5mug-a1-m21-cA 5mug-a1-m2-cA_5mug-a1-m8-cA 5mug-a1-m2-cA_5mug-a1-m9-cA 5mug-a1-m3-cA_5mug-a1-m7-cA 5mug-a1-m4-cA_5mug-a1-m5-cA 5mug-a1-m8-cA_5mug-a1-m9-cA 6zpd-a1-m10-cA_6zpd-a1-m4-cA 6zpd-a1-m10-cA_6zpd-a1-m5-cA 6zpd-a1-m11-cA_6zpd-a1-m3-cA 6zpd-a1-m11-cA_6zpd-a1-m7-cA 6zpd-a1-m12-cA_6zpd-a1-m6-cA 6zpd-a1-m13-cA_6zpd-a1-m18-cA 6zpd-a1-m13-cA_6zpd-a1-m24-cA 6zpd-a1-m14-cA_6zpd-a1-m20-cA 6zpd-a1-m14-cA_6zpd-a1-m21-cA 6zpd-a1-m15-cA_6zpd-a1-m19-cA 6zpd-a1-m15-cA_6zpd-a1-m23-cA 6zpd-a1-m16-cA_6zpd-a1-m17-cA 6zpd-a1-m16-cA_6zpd-a1-m22-cA 6zpd-a1-m17-cA_6zpd-a1-m22-cA 6zpd-a1-m18-cA_6zpd-a1-m24-cA 6zpd-a1-m19-cA_6zpd-a1-m23-cA 6zpd-a1-m1-cA_6zpd-a1-m12-cA 6zpd-a1-m1-cA_6zpd-a1-m6-cA 6zpd-a1-m20-cA_6zpd-a1-m21-cA 6zpd-a1-m2-cA_6zpd-a1-m8-cA 6zpd-a1-m2-cA_6zpd-a1-m9-cA 6zpd-a1-m3-cA_6zpd-a1-m7-cA 6zpd-a1-m4-cA_6zpd-a1-m5-cA TDSFLLRFLRARDFDLDLAWRLLKNYYKWRAECPEISADLHPRSIIGLLKAGYHGVLRSRDPTGSKVLIYRIAHWDPKVFTAYDVFRVSLITSELIVQEVETQRNGIKLIFDLEGWQFSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKERIHMHGNNYKQSLLQHFPDILPLEYGGEEFSMEDICQEWTNFIMKSEDYLSSISESIQ TDSFLLRFLRARDFDLDLAWRLLKNYYKWRAECPEISADLHPRSIIGLLKAGYHGVLRSRDPTGSKVLIYRIAHWDPKVFTAYDVFRVSLITSELIVQEVETQRNGIKLIFDLEGWQFSHAFQITPSVAKKIAAVLTDSFPLKVRGIHLINEPVIFHAVFSMIKPFLTEKIKERIHMHGNNYKQSLLQHFPDILPLEYGGEEFSMEDICQEWTNFIMKSEDYLSSISESIQ 6zpj-a1-m1-cB_6zpj-a1-m1-cA Crystal structure of the unconventional kinetochore protein Leishmania mexicana KKT4 coiled coil domain E9AN40 E9AN40 1.9 X-RAY DIFFRACTION 98 1.0 929439 (Leishmania mexicana MHOM/GT/2001/U1103) 929439 (Leishmania mexicana MHOM/GT/2001/U1103) 77 110 GSTANKLTEAQRRIAELEKELQRTTQRVDQLSDVVQQQKDELQAAKDRHALEMEETRHAYNAVIHRKDEVQEEALRQ GSTANKLTEAQRRIAELEKELQRTTQRVDQLSDVVQQQKDELQAAKDRHALEMEETRHAYNAVIHRKDEVQEEALRQLLKSRQLMVSAARYEAVVAAKKLHAQEFELGAP 6zpm-a1-m1-cB_6zpm-a1-m1-cA Crystal structure of the unconventional kinetochore protein Trypanosoma cruzi KKT4 coiled coil domain A0A2V2WCI2 A0A2V2WCI2 1.9 X-RAY DIFFRACTION 124 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 100 103 SSLQRYEKLVKECRRLEEELEQKTHEASDASQRVRQLERETTRLMRRVEQLVSAVEGQKQKLDETEAKHKLELAEIENRHELEIQSKMSSHEEALRRLMD SSLQRYEKLVKECRRLEEELEQKTHEASDASQRVRQLERETTRLMRRVEQLVSAVEGQKQKLDETEAKHKLELAEIENRHELEIQSKMSSHEEALRRLMDARR 6zq4-a4-m1-cF_6zq4-a4-m3-cG Crystal structure of Chaetomium thermophilum Glycerol Kinase in complex with substrate in P1 space group G0SAG9 G0SAG9 2.02 X-RAY DIFFRACTION 78 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 512 512 6zq4-a1-m2-cD_6zq4-a1-m1-cA 6zq4-a2-m2-cC_6zq4-a2-m1-cB 6zq4-a3-m1-cE_6zq4-a3-m2-cH 6zq6-a1-m1-cD_6zq6-a1-m2-cA 6zq6-a2-m1-cC_6zq6-a2-m3-cB 6zq7-a1-m1-cA_6zq7-a1-m2-cA 6zq8-a1-m1-cA_6zq8-a1-m2-cB GSFVGSIDQGTTSSRFLIFNGEGNPVASHQIEFENLYPKSGWHEQDPYELLNSVQQCIDGAMHKFASLGYSKENIRAIGITNQRETTVVWDSVTGEPLHNAIVWPDTRTSALVRELKARQSADSLLELCGLPLSTYPSSVKLLWLIQNVDAVKQAYEEGRLAFGTVDSWLIYKLNGGAQAERPIHVTDSTNASRTMFMNLRTLQYDDKLLGFFGIDRNKIKLPKIVPSSDPEAFGKVATGALAGVPIAGCLGDQSSALVGQCGFSPGQAKNTYGTGCFLLYNVGTEPVISKYGLLATVAYDFGRGRKPVYALEGSIAVAGAGITFLMNNLGFAPKPSEINALAESVLDNGGVVFVTAFSGLFAPYWIDDAKGTLFGITQHTTKGHIARATLEATCYQTRAILDAMEKDSGHKLESLAVDGGLSASDLCMQTQADISGIPVDRPRMRETTALGAAIAAGLATGVWRELDHVKESIAGGNAREVFYPKMDRKKAERLFRKWEQAVEMSRGWVRE GSFVGSIDQGTTSSRFLIFNGEGNPVASHQIEFENLYPKSGWHEQDPYELLNSVQQCIDGAMHKFASLGYSKENIRAIGITNQRETTVVWDSVTGEPLHNAIVWPDTRTSALVRELKARQSADSLLELCGLPLSTYPSSVKLLWLIQNVDAVKQAYEEGRLAFGTVDSWLIYKLNGGAQAERPIHVTDSTNASRTMFMNLRTLQYDDKLLGFFGIDRNKIKLPKIVPSSDPEAFGKVATGALAGVPIAGCLGDQSSALVGQCGFSPGQAKNTYGTGCFLLYNVGTEPVISKYGLLATVAYDFGRGRKPVYALEGSIAVAGAGITFLMNNLGFAPKPSEINALAESVLDNGGVVFVTAFSGLFAPYWIDDAKGTLFGITQHTTKGHIARATLEATCYQTRAILDAMEKDSGHKLESLAVDGGLSASDLCMQTQADISGIPVDRPRMRETTALGAAIAAGLATGVWRELDHVKESIAGGNAREVFYPKMDRKKAERLFRKWEQAVEMSRGWVRE 6zq5-a1-m1-cA_6zq5-a1-m1-cB Crystal structure of Chaetomium thermophilum Glycerol Kinase in P2221 space group G0SAG9 G0SAG9 2.14 X-RAY DIFFRACTION 13 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 510 510 GSFVGSIDQGTTSSRFLIFNGEGNPVASHQIEFENLYPKSGWHEQDPYELLNSVQQCIDGAMHKFASLGYSKENIRAIGITNQRETTVVWDSVTGEPLHNAIVWPDTRTSALVRELKARQSADSLLELCGLPLSTYPSSVKLLWLIQNVDAVKQAYEEGRLAFGTVDSWLIYKLNGGAQAERPIHVTDSTNASRTMFMNLRTLQYDDKLLGFFGIDRNKIKLPKIVPSSDPEAFGKVATGALAGVPIAGCLGDQSSALVGQCGFSPGQAKNTYGTGCFLLYNVGTEPVISKYGLLATVAYDFGRGRKPVYALEGSIAVAGAGITFLMNNLGFAPKPSEINALAESVLDNGGVVFVTAFSGLFAPYWIDDAKGTLFGITQHTTKGHIARATLEATCYQTRAILDAMEKDSGHKLESLAVDGGLSASDLCMQTQADISGIPVDRPRMRETTALGAAIAAGLATGVWRELDHVKESIAGAREVFYPKMDRKKAERLFRKWEQAVEMSRGWVRE GSFVGSIDQGTTSSRFLIFNGEGNPVASHQIEFENLYPKSGWHEQDPYELLNSVQQCIDGAMHKFASLGYSKENIRAIGITNQRETTVVWDSVTGEPLHNAIVWPDTRTSALVRELKARQSADSLLELCGLPLSTYPSSVKLLWLIQNVDAVKQAYEEGRLAFGTVDSWLIYKLNGGAQAERPIHVTDSTNASRTMFMNLRTLQYDDKLLGFFGIDRNKIKLPKIVPSSDPEAFGKVATGALAGVPIAGCLGDQSSALVGQCGFSPGQAKNTYGTGCFLLYNVGTEPVISKYGLLATVAYDFGRGRKPVYALEGSIAVAGAGITFLMNNLGFAPKPSEINALAESVLDNGGVVFVTAFSGLFAPYWIDDAKGTLFGITQHTTKGHIARATLEATCYQTRAILDAMEKDSGHKLESLAVDGGLSASDLCMQTQADISGIPVDRPRMRETTALGAAIAAGLATGVWRELDHVKESIAGAREVFYPKMDRKKAERLFRKWEQAVEMSRGWVRE 6zrk-a1-m2-cC_6zrk-a1-m3-cC Crystal structure of H8 haemagglutinin G0KTJ4 G0KTJ4 2 X-RAY DIFFRACTION 40 1.0 1074858 (Influenza A virus (A/blue-winged teal/Guatemala/CIP049-14/2010(H8N4))) 1074858 (Influenza A virus (A/blue-winged teal/Guatemala/CIP049-14/2010(H8N4))) 328 328 6v46-a1-m1-cA_6v46-a1-m1-cC 6v46-a1-m1-cA_6v46-a1-m1-cE 6v46-a1-m1-cC_6v46-a1-m1-cE 6zrk-a1-m1-cC_6zrk-a1-m2-cC 6zrk-a1-m1-cC_6zrk-a1-m3-cC DPDRICIGYQSNNSTDTVNTLIEQNVPVTQTMELVETEKHPAYCNTDLGTPLELRDCKIEAVIYGNPKCDIHLKDQGWSYIVERPSAPEGMCYPGSVENLEELRFVFSNAASYKRIRLFDYSRWNVTSSGTSKACNASTGGQAFYRSINWLTKKKPDTYDFNEGSYVNNEDGDIIFLWGIHHPPNTKEQTTLYKNANTLSSVTTNTINRSFQPNIGPRPLVRGQQGRMDYYWGILKRGETLKIRTNGNLIAPEFGYLLKGESHGRIIQNEDIPIGNCHTKCQTYAGAINSSKPFQNASRHYMGECPKYVKKASLRLAVGLRNTPSIEP DPDRICIGYQSNNSTDTVNTLIEQNVPVTQTMELVETEKHPAYCNTDLGTPLELRDCKIEAVIYGNPKCDIHLKDQGWSYIVERPSAPEGMCYPGSVENLEELRFVFSNAASYKRIRLFDYSRWNVTSSGTSKACNASTGGQAFYRSINWLTKKKPDTYDFNEGSYVNNEDGDIIFLWGIHHPPNTKEQTTLYKNANTLSSVTTNTINRSFQPNIGPRPLVRGQQGRMDYYWGILKRGETLKIRTNGNLIAPEFGYLLKGESHGRIIQNEDIPIGNCHTKCQTYAGAINSSKPFQNASRHYMGECPKYVKKASLRLAVGLRNTPSIEP 6zrk-a1-m2-cD_6zrk-a1-m3-cD Crystal structure of H8 haemagglutinin G0KTD9 G0KTD9 2 X-RAY DIFFRACTION 50 1.0 11320 (Influenza A virus) 11320 (Influenza A virus) 162 162 6v46-a1-m1-cB_6v46-a1-m1-cD 6v46-a1-m1-cB_6v46-a1-m1-cF 6v46-a1-m1-cD_6v46-a1-m1-cF 6zrk-a1-m1-cD_6zrk-a1-m2-cD 6zrk-a1-m1-cD_6zrk-a1-m3-cD GLFGAIAGFIEGGWSGMIDGWYGFHHSNSEGTGMAADQKSTQEAIDKITNKVNNIVDKMNREFEVVNHEFSEVEKRINMINDKIDDQIEDLWAYNAELLVLLENQKTLDEHDSNVKNLFDEVKRRLSTNAIDAGNGCFDILHKCNNECMETIKNGTYNHKEY GLFGAIAGFIEGGWSGMIDGWYGFHHSNSEGTGMAADQKSTQEAIDKITNKVNNIVDKMNREFEVVNHEFSEVEKRINMINDKIDDQIEDLWAYNAELLVLLENQKTLDEHDSNVKNLFDEVKRRLSTNAIDAGNGCFDILHKCNNECMETIKNGTYNHKEY 6zs1-a1-m1-cC_6zs1-a1-m1-cH Chaetomium thermophilum CuZn-superoxide dismutase G0S1F8 G0S1F8 1.56 X-RAY DIFFRACTION 12 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 154 155 6zs1-a1-m1-cD_6zs1-a1-m1-cG MVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ EMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ 6zs1-a1-m1-cD_6zs1-a1-m1-cA Chaetomium thermophilum CuZn-superoxide dismutase G0S1F8 G0S1F8 1.56 X-RAY DIFFRACTION 38 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 154 157 6zs1-a1-m1-cC_6zs1-a1-m1-cB MVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ YVEMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ 6zs1-a1-m1-cF_6zs1-a1-m1-cA Chaetomium thermophilum CuZn-superoxide dismutase G0S1F8 G0S1F8 1.56 X-RAY DIFFRACTION 77 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 154 157 6zs1-a1-m1-cE_6zs1-a1-m1-cB MVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ YVEMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ 6zs1-a1-m1-cH_6zs1-a1-m1-cA Chaetomium thermophilum CuZn-superoxide dismutase G0S1F8 G0S1F8 1.56 X-RAY DIFFRACTION 19 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 155 157 6zs1-a1-m1-cG_6zs1-a1-m1-cB EMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ YVEMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ 6zs1-a1-m1-cH_6zs1-a1-m1-cB Chaetomium thermophilum CuZn-superoxide dismutase G0S1F8 G0S1F8 1.56 X-RAY DIFFRACTION 39 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 155 157 6zs1-a1-m1-cG_6zs1-a1-m1-cA EMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ YVEMVKAVAVVRGDSKVTGTVTFEQESESSPTIITWDITGHDPNAKRGMHIHTFGDNTNGCTSAGPHFNPHGKTHGAPTDENRHVGDLGNIETDANGNSKGTMTDHLVKLIGPESVIGRTVVVHAGTDDLGKGGNEESLKTGNAGPRPACGVIGIAQ 6zs9-a1-m1-ct6_6zs9-a1-m1-ct3 Human mitochondrial ribosome in complex with ribosome recycling factor P52815 P52815 4.0 ELECTRON MICROSCOPY 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 30 6gaw-a1-m1-cHL_6gaw-a1-m1-cEL 6gb2-a1-m1-cHL_6gb2-a1-m1-cEL 6ydp-a1-m1-cHL_6ydp-a1-m1-cEL 6ydw-a1-m1-cHL_6ydw-a1-m1-cEL 6zsa-a1-m1-ct6_6zsa-a1-m1-ct3 6zsb-a1-m1-ct6_6zsb-a1-m1-ct3 6zsc-a1-m1-ct6_6zsc-a1-m1-ct3 6zsd-a1-m1-ct6_6zsd-a1-m1-ct3 6zse-a1-m1-ct6_6zse-a1-m1-ct3 7nqh-a1-m1-cHL_7nqh-a1-m1-cEL 7nql-a1-m1-cHL_7nql-a1-m1-cEL 7nsh-a1-m1-cHL_7nsh-a1-m1-cEL 7nsi-a1-m1-cHL_7nsi-a1-m1-cEL 7nsj-a1-m1-cHL_7nsj-a1-m1-cEL 7o9k-a1-m1-ct6_7o9k-a1-m1-ct3 7o9m-a1-m1-ct6_7o9m-a1-m1-ct3 7og4-a1-m1-ct6_7og4-a1-m1-ct3 KIQQLVQDIASLTLLEISDLNELLKKT PKIQQLVQDIASLTLLEISDLNELLKKTLK 6zsd-a1-m1-ct6_6zsd-a1-m1-ct5 Human mitochondrial ribosome in complex with mRNA, P-site tRNA and E-site tRNA P52815 P52815 3.7 ELECTRON MICROSCOPY 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 29 6zs9-a1-m1-ct4_6zs9-a1-m1-ct3 6zs9-a1-m1-ct6_6zs9-a1-m1-ct5 6zsa-a1-m1-ct4_6zsa-a1-m1-ct3 6zsa-a1-m1-ct6_6zsa-a1-m1-ct5 6zsb-a1-m1-ct4_6zsb-a1-m1-ct3 6zsb-a1-m1-ct6_6zsb-a1-m1-ct5 6zsc-a1-m1-ct4_6zsc-a1-m1-ct3 6zsc-a1-m1-ct6_6zsc-a1-m1-ct5 6zsd-a1-m1-ct4_6zsd-a1-m1-ct3 6zse-a1-m1-ct4_6zse-a1-m1-ct3 6zse-a1-m1-ct6_6zse-a1-m1-ct5 6zsg-a1-m1-ct4_6zsg-a1-m1-ct3 7o9k-a1-m1-ct4_7o9k-a1-m1-ct3 7o9k-a1-m1-ct6_7o9k-a1-m1-ct5 7o9m-a1-m1-ct4_7o9m-a1-m1-ct3 7o9m-a1-m1-ct6_7o9m-a1-m1-ct5 7og4-a1-m1-ct4_7og4-a1-m1-ct3 7og4-a1-m1-ct6_7og4-a1-m1-ct5 KIQQLVQDIASLTLLEISDLNELLKKT PKIQQLVQDIASLTLLEISDLNELLKKTL 6zsg-a1-m1-ct6_6zsg-a1-m1-ct3 Human mitochondrial ribosome in complex with mRNA, A-site tRNA, P-site tRNA and E-site tRNA P52815 P52815 4.0 ELECTRON MICROSCOPY 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 30 KIQQLVQDIASLTLLEISDLNELLKKT PKIQQLVQDIASLTLLEISDLNELLKKTLK 6zsg-a1-m1-ct6_6zsg-a1-m1-ct4 Human mitochondrial ribosome in complex with mRNA, A-site tRNA, P-site tRNA and E-site tRNA P52815 P52815 4.0 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 29 KIQQLVQDIASLTLLEISDLNELLKKT PKIQQLVQDIASLTLLEISDLNELLKKTL 6zt0-a1-m2-cA_6zt0-a1-m3-cA Crystal structure of the Eiger TNF domain/Grindelwald extracellular domain complex Q8MUJ1 Q8MUJ1 2.02 X-RAY DIFFRACTION 64 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 141 141 6zt0-a1-m1-cA_6zt0-a1-m2-cA 6zt0-a1-m1-cA_6zt0-a1-m3-cA DSRPAAHFHLSSRRRHQGSMGYHGDMYIGNDNERNSYQGHFQTRDGVLTVTNTGLYYVYAQICYNNSHDQNGFIVFQGDTPFLQCLNTVPTNMPHKVHTCHTSGLIHLERNERIHLKDIHNDRNAVLREGNNRSYFGIFKV DSRPAAHFHLSSRRRHQGSMGYHGDMYIGNDNERNSYQGHFQTRDGVLTVTNTGLYYVYAQICYNNSHDQNGFIVFQGDTPFLQCLNTVPTNMPHKVHTCHTSGLIHLERNERIHLKDIHNDRNAVLREGNNRSYFGIFKV 6zt3-a1-m1-cA_6zt3-a1-m2-cA N-terminal 47 kDa fragment of the Mycobacterium smegmatis DNA Gyrase B subunit complexed with ADPNP A0QNE0 A0QNE0 1.56 X-RAY DIFFRACTION 230 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 394 394 SMAAQKNNAPKEYGADSITILEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGFATRVDVKIHADGSVEVRDDGRGIPVEMHATGMPTIDVVMTQLHAGGKFDGETYAVSGGLHGVGVSVVNALSTRLEATVLRDGYEWFQYYDRSVPGKLKQGGETKETGTTIRFWADPEIFETTDYNFETVARRLQEMAFLNKGLTIELTDERVVKHRVFHYPGGLVDYVKHINRTKTPIQQSIIDFDGKGPGHEVEIAMQWNAGYSESVHTFANTINTHEGGTHEEGFRAALTSVVNRYAKDKKLLKDKDPNLTGDDIREGLAAVISVKVAEPQFEGQTKTKLGNTEVKSFVQKICNEQLQHWFEANPAEAKTVVNKAVSSAQARIAARKARE SMAAQKNNAPKEYGADSITILEGLEAVRKRPGMYIGSTGERGLHHLIWEVVDNAVDEAMAGFATRVDVKIHADGSVEVRDDGRGIPVEMHATGMPTIDVVMTQLHAGGKFDGETYAVSGGLHGVGVSVVNALSTRLEATVLRDGYEWFQYYDRSVPGKLKQGGETKETGTTIRFWADPEIFETTDYNFETVARRLQEMAFLNKGLTIELTDERVVKHRVFHYPGGLVDYVKHINRTKTPIQQSIIDFDGKGPGHEVEIAMQWNAGYSESVHTFANTINTHEGGTHEEGFRAALTSVVNRYAKDKKLLKDKDPNLTGDDIREGLAAVISVKVAEPQFEGQTKTKLGNTEVKSFVQKICNEQLQHWFEANPAEAKTVVNKAVSSAQARIAARKARE 6zt4-a1-m1-cA_6zt4-a1-m1-cB Pentapeptide repeat protein MfpA from Mycobacterium smegmatis A0QSY0 A0QSY0 1.77 X-RAY DIFFRACTION 71 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 180 181 6zt5-a1-m1-cB_6zt5-a1-m1-cA TVWADEEFAGRDFRDEDLSRIRTERVVFTECDFSGVDLSESEHHGSAFRNCTFRRSTIWHSTFTNCSLLGSVFTECRIRPVTFVECDFTLAVLGGCDLRAVDLSDCRLREVSLVGADLRKAVLRRADLTGSRVQDARLEEADLRGTRVDPTFWTTAKVRGAKIDIEQALAYAAAHGLAVH TVWADEEFAGRDFRDEDLSRIRTERVVFTECDFSGVDLSESEHHGSAFRNCTFRRSTIWHSTFTNCSLLGSVFTECRIRPVTFVECDFTLAVLGGCDLRAVDLSDCRLREVSLVGADLRKAVLRRADLTGSRVQDARLEEADLRGTRVDPTFWTTAKVRGAKIDIEQALAYAAAHGLAVHG 6zti-a1-m1-cB_6zti-a1-m1-cD Phospholipase PlaB from Legionella pneumophila in complex with thio-NAD A0A378K488 A0A378K488 1.81 X-RAY DIFFRACTION 37 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 466 466 6zth-a1-m1-cB_6zth-a1-m1-cD 6zth-a1-m1-cC_6zth-a1-m1-cA 6zti-a1-m1-cC_6zti-a1-m1-cA TMIVIFVHGWSVTHTNTYGELPQWLENQSKQGKLDIQVGNIYLGRYISFDDTVTVDDIARAFDQAVRDEIADKLRDGQRFACITHSTGGPIVRKWMDLYFKNNLAKCPLSHLIMLAPANHGSALAQLGKSRLGEPGKCVLDWLELGSDMSWQLNESWLDYDCTANGVYSFVLTGQKIDRQFYDAVNSYTGESGSNGVVRVAATNMNYSLLKLHQEGDNGESLVVAKMTRTQPMAFGVLPGLSHSGKNIGIIRSITMANAATHPTAIWILRCLQVKSRDSYNKLVKELDNITKETQKNEHKEFVKTLVFTREYITNRYSMIIFRLIDDRGNHLIDYDLYLTAGPQYSEQALPAGFFVDRQRNLNNRGKLTYFLDYDIMEGGINTPKMQGNLGFRVKAYPESSDQALAYYRLLDFHSSLADIHKILHPNETVMVEIMLQRRVDRTVFRISNNLTPAKISGKPTGKKID TMIVIFVHGWSVTHTNTYGELPQWLENQSKQGKLDIQVGNIYLGRYISFDDTVTVDDIARAFDQAVRDEIADKLRDGQRFACITHSTGGPIVRKWMDLYFKNNLAKCPLSHLIMLAPANHGSALAQLGKSRLGEPGKCVLDWLELGSDMSWQLNESWLDYDCTANGVYSFVLTGQKIDRQFYDAVNSYTGESGSNGVVRVAATNMNYSLLKLHQEGDNGESLVVAKMTRTQPMAFGVLPGLSHSGKNIGIIRSITMANAATHPTAIWILRCLQVKSRDSYNKLVKELDNITKETQKNEHKEFVKTLVFTREYITNRYSMIIFRLIDDRGNHLIDYDLYLTAGPQYSEQALPAGFFVDRQRNLNNRGKLTYFLDYDIMEGGINTPKMQGNLGFRVKAYPESSDQALAYYRLLDFHSSLADIHKILHPNETVMVEIMLQRRVDRTVFRISNNLTPAKISGKPTGKKID 6zti-a1-m1-cC_6zti-a1-m1-cD Phospholipase PlaB from Legionella pneumophila in complex with thio-NAD A0A378K488 A0A378K488 1.81 X-RAY DIFFRACTION 206 1.0 446 (Legionella pneumophila) 446 (Legionella pneumophila) 464 466 6zth-a1-m1-cA_6zth-a1-m1-cB 6zth-a1-m1-cC_6zth-a1-m1-cD 6zti-a1-m1-cA_6zti-a1-m1-cB TMIVIFVHGWSVTHTNTYGELPQWLENQSKQGKLDIQVGNIYLGRYISFDDTVTVDDIARAFDQAVRDEIADKLRDGQRFACITHSTGGPIVRKWMDLYFKNNLAKCPLSHLIMLAPANHGSALAQLGKSRLGEPGKCVLDWLELGSDMSWQLNESWLDYDCTANGVYSFVLTGQKIDRQFYDAVNSYTGESGSNGVVRVAATNMNYSLLKLHQEGGESLVVAKMTRTQPMAFGVLPGLSHSGKNIGIIRSITMANAATHPTAIWILRCLQVKSRDSYNKLVKELDNITKETQKNEHKEFVKTLVFTREYITNRYSMIIFRLIDDRGNHLIDYDLYLTAGPQYSEQALPAGFFVDRQRNLNNRGKLTYFLDYDIMEGGINTPKMQGNLGFRVKAYPESSDQALAYYRLLDFHSSLADIHKILHPNETVMVEIMLQRRVDRTVFRISNNLTPAKISGKPTGKKID TMIVIFVHGWSVTHTNTYGELPQWLENQSKQGKLDIQVGNIYLGRYISFDDTVTVDDIARAFDQAVRDEIADKLRDGQRFACITHSTGGPIVRKWMDLYFKNNLAKCPLSHLIMLAPANHGSALAQLGKSRLGEPGKCVLDWLELGSDMSWQLNESWLDYDCTANGVYSFVLTGQKIDRQFYDAVNSYTGESGSNGVVRVAATNMNYSLLKLHQEGDNGESLVVAKMTRTQPMAFGVLPGLSHSGKNIGIIRSITMANAATHPTAIWILRCLQVKSRDSYNKLVKELDNITKETQKNEHKEFVKTLVFTREYITNRYSMIIFRLIDDRGNHLIDYDLYLTAGPQYSEQALPAGFFVDRQRNLNNRGKLTYFLDYDIMEGGINTPKMQGNLGFRVKAYPESSDQALAYYRLLDFHSSLADIHKILHPNETVMVEIMLQRRVDRTVFRISNNLTPAKISGKPTGKKID 6zu0-a1-m1-cD_6zu0-a1-m1-cA Crystal structure of citrate synthase (GltA) from Pseudomonas aeruginosa P14165 P14165 3.397 X-RAY DIFFRACTION 19 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 424 425 6zu0-a1-m1-cB_6zu0-a1-m1-cC 6zu0-a1-m1-cE_6zu0-a1-m1-cA 6zu0-a1-m1-cE_6zu0-a1-m1-cD 6zu0-a1-m1-cF_6zu0-a1-m1-cB 6zu0-a1-m1-cF_6zu0-a1-m1-cC DKKAQLIIEGSAPVELPVLSGTMGPDVVDVRGLTATGHFTFDPGFMSTASCESKITYIDGDKGVLLHRGYPIEQLAEKSDYLETCYLLLNGELPTAAQKEQFVGTIKNHTMVHEQLKTFFNGFRRDAHPMAVMCGVIGALSAFYHDSLDINNPKHREVSAHRLIAKMPTIAAMVYKYSKGEPMMYPRNDLNYAENFLHMMFNTPCETKPISPVLAKAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIASGIAALWGPAHGGANEAVLRMLDEIGDVSNIDKFVEKAKDKNDPFKLMGFGHRVYKNFDPRAKVMKQTCDEVLQELGINDPQLELAMKLEEIARHDPYFVERNLYPNVDFYSGIILKAIGIPTSMFTVIFALARTVGWISHWQEMLSGPYKIGRPRQLYTGHTQRDFTALKD DKKAQLIIEGSAPVELPVLSGTMGPDVVDVRGLTATGHFTFDPGFMSTASCESKITYIDGDKGVLLHRGYPIEQLAEKSDYLETCYLLLNGELPTAAQKEQFVGTIKNHTMVHEQLKTFFNGFRRDAHPMAVMCGVIGALSAFYHDSLDINNPKHREVSAHRLIAKMPTIAAMVYKYSKGEPMMYPRNDLNYAENFLHMMFNTPCETKPISPVLAKAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIASGIAALWGPAHGGANEAVLRMLDEIGDVSNIDKFVEKAKDKNDPFKLMGFGHRVYKNFDPRAKVMKQTCDEVLQELGINDPQLELAMKLEEIARHDPYFVERNLYPNVDFYSGIILKAIGIPTSMFTVIFALARTVGWISHWQEMLSGPYKIGRPRQLYTGHTQRDFTALKDR 6zu0-a1-m1-cE_6zu0-a1-m1-cF Crystal structure of citrate synthase (GltA) from Pseudomonas aeruginosa P14165 P14165 3.397 X-RAY DIFFRACTION 488 0.995 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 422 422 6zu0-a1-m1-cB_6zu0-a1-m1-cA 6zu0-a1-m1-cD_6zu0-a1-m1-cC DKKAQLIIGSAPVELPVLSGTMGPDVVDVRGLTATGHFTFDPGFMSTASCESKITYIDGDKGVLLHRGYPIEQLAEKSDYLETCYLLLNGELPTAAQKEQFVGTIKNHTMVHEQLKTFFNGFRRDAHPMAVMCGVIGALSAFYHDSLDINNPKHREVSAHRLIAKMPTIAAMVYKYSKGEPMMYPRNDLNYAENFLHMMFNTPCETKPISPVLAKAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIASGIAALWGPAHGGANEAVLRMLDEIGDVSNIDKFVEKAKDKNDPFKLMGFGHRVYKNFDPRAKVMKQTCDEVLQELGINDPQLELAMKLEEIARHDPYFVERNLYPNVDFYSGIILKAIGIPTSMFTVIFALARTVGWISHWQEMLSGPYKIGRPRQLYTGHTQRDFTALK KAQLIIEGSAPVELPVLSGTMGPDVVDVRGLTATGHFTFDPGFMSTASCESKITYIDGDKGVLLHRGYPIEQLAEKSDYLETCYLLLNGELPTAAQKEQFVGTIKNHTMVHEQLKTFFNGFRRDAHPMAVMCGVIGALSAFYHDSLDINNPKHREVSAHRLIAKMPTIAAMVYKYSKGEPMMYPRNDLNYAENFLHMMFNTPCETKPISPVLAKAMDRIFILHADHEQNASTSTVRLAGSSGANPFACIASGIAALWGPAHGGANEAVLRMLDEIGDVSNIDKFVEKAKDKNDPFKLMGFGHRVYKNFDPRAKVMKQTCDEVLQELGINDPQLELAMKLEEIARHDPYFVERNLYPNVDFYSGIILKAIGIPTSMFTVIFALARTVGWISHWQEMLSGPYKIGRPRQLYTGHTQRDFTALKD 6zur-a1-m1-cA_6zur-a1-m1-cB Psychrophilic aromatic amino acids aminotransferase from Psychrobacter sp. B6 cocrystalized with substrate analog - L-p-hydroxyphenyllactic acid C7E5X4 C7E5X4 2.31 X-RAY DIFFRACTION 211 1.0 408968 (Psychrobacter sp. B6) 408968 (Psychrobacter sp. B6) 398 398 4rkc-a1-m1-cA_4rkc-a1-m1-cB 4rkd-a1-m1-cA_4rkd-a1-m1-cB 4rkd-a2-m1-cC_4rkd-a2-m1-cD 4rkd-a3-m1-cE_4rkd-a3-m1-cF 4rkd-a4-m1-cG_4rkd-a4-m1-cH 6t3v-a1-m1-cA_6t3v-a1-m2-cA 6zup-a1-m1-cA_6zup-a1-m1-cB 6zvg-a1-m1-cB_6zvg-a1-m1-cA 6zvg-a2-m1-cD_6zvg-a2-m1-cC MFERIDYYAGDPILGLVEKFAADNNPDKVNLGIGIYYDESGVMPVLDCVKIAEQRIADPISPRPYLPMAGLPGHRKGCQELLFGKDAPVLKDGLVATIATIGGSGALKVGAEFIHEWFPQSKCYVSDPTWGNHIAIFEGCDIEVGKYPYYDTATGGIKFDEMIAFFETLNKDDVLLLHPCCHNPTGVDLTREQWDTVLNVIQERELIPFMDIAYQGFGEDMDSDAYAIRKAVDMGLPLFVSNSFSKNLSLYGERVGGLSVVCPTVDETERVFGQLNSTVRRIYSSPPSHGGRVVDIVMNDAALHEQWVGEVYAMRDRIKSMRTKLKSVLEAKISGRNFDYLTAQNGMFSFTGLTPEQVERLQSEFGIYMISNSRMCVAGLNSSNIDYVANAMVDVLKD MFERIDYYAGDPILGLVEKFAADNNPDKVNLGIGIYYDESGVMPVLDCVKIAEQRIADPISPRPYLPMAGLPGHRKGCQELLFGKDAPVLKDGLVATIATIGGSGALKVGAEFIHEWFPQSKCYVSDPTWGNHIAIFEGCDIEVGKYPYYDTATGGIKFDEMIAFFETLNKDDVLLLHPCCHNPTGVDLTREQWDTVLNVIQERELIPFMDIAYQGFGEDMDSDAYAIRKAVDMGLPLFVSNSFSKNLSLYGERVGGLSVVCPTVDETERVFGQLNSTVRRIYSSPPSHGGRVVDIVMNDAALHEQWVGEVYAMRDRIKSMRTKLKSVLEAKISGRNFDYLTAQNGMFSFTGLTPEQVERLQSEFGIYMISNSRMCVAGLNSSNIDYVANAMVDVLKD 6zv9-a1-m1-cA_6zv9-a1-m1-cB Terbium(III)-bound de novo TIM barrel-ferredoxin fold fusion dimer with 4-glutamate binding site and tryptophan antenna (TFD-EE N6W) 1.85 X-RAY DIFFRACTION 139 1.0 32630 (synthetic construct) 32630 (synthetic construct) 166 169 6wxo-a1-m1-cA_6wxo-a1-m1-cB 6wxp-a1-m1-cB_6wxp-a1-m1-cA DILIVWAKDVDEMLKQVEILRRLGAKQIAVESSDWRILQEALKKGGDILIVNGGGMTITFRGDDLEALLKAAIEMIKQALKFGATITLSLDGNDLNINITGVPEQVRKELAKEAERLAKEFGITVTRTGGGDVDEMLKQVEILRRLGAKQIAVESDDWRILQEALK GDILIVWAKDVDEMLKQVEILRRLGAKQIAVESSDWRILQEALKKGGDILIVNGGGMTITFRGDDLEALLKAAIEMIKQALKFGATITLSLDGNDLNINITGVPEQVRKELAKEAERLAKEFGITVTRTGGGDVDEMLKQVEILRRLGAKQIAVESDDWRILQEALKKG 6zw0-a1-m1-cA_6zw0-a1-m1-cB Connectase MJ0548 from Methanocaldococcus jannaschii in complex with an MtrA-derived peptide Q57968 Q57968 3.05 X-RAY DIFFRACTION 82 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 299 299 ALIICYYGKNGAVIGGDRRQIFFRGSEENRKILEEKLYSGEIKSEEELYKLAEKLNIKIIIEDDREKVRKISDSVVCGEVRSLGIDAKRRRVYATKGKCAIVDILNDTVTNQTIKEGFGIVVLGNRFLKKKAEEELKRTAKLFPMMPIQQIEDAIKEIFEKLKWHPTVSKEYDIYSVNKYEKNFEEVIKKDIESLFKYREQLRKQLIDFGKVMSIVNKIVKNGEIGVIKDGKLHLYDDYIAIDKIDPNPKVFKVVDVEGNFKDGDIVVIENGDMKIKGTNEKVTTKYIIIHKGSHHHHH ALIICYYGKNGAVIGGDRRQIFFRGSEENRKILEEKLYSGEIKSEEELYKLAEKLNIKIIIEDDREKVRKISDSVVCGEVRSLGIDAKRRRVYATKGKCAIVDILNDTVTNQTIKEGFGIVVLGNRFLKKKAEEELKRTAKLFPMMPIQQIEDAIKEIFEKLKWHPTVSKEYDIYSVNKYEKNFEEVIKKDIESLFKYREQLRKQLIDFGKVMSIVNKIVKNGEIGVIKDGKLHLYDDYIAIDKIDPNPKVFKVVDVEGNFKDGDIVVIENGDMKIKGTNEKVTTKYIIIHKGSHHHHH 6zw0-a1-m1-cC_6zw0-a1-m1-cD Connectase MJ0548 from Methanocaldococcus jannaschii in complex with an MtrA-derived peptide Q58261 Q58261 3.05 X-RAY DIFFRACTION 16 1.0 2190 (Methanocaldococcus jannaschii) 2190 (Methanocaldococcus jannaschii) 26 26 KITQAIKECLSKDPGAIDEDPFIIEL KITQAIKECLSKDPGAIDEDPFIIEL 6zwt-a2-m1-cB_6zwt-a2-m1-cD Crystal structure of DNA-binding domain of OmpR of two-component system of Acinetobacter baumannii B0VPC9 B0VPC9 2.2 X-RAY DIFFRACTION 24 1.0 509170 (Acinetobacter baumannii SDF) 509170 (Acinetobacter baumannii SDF) 99 99 6zwt-a1-m1-cC_6zwt-a1-m1-cA EVVSFGPWSLDLSTRTLTREGQIVTLTTGEFAVLKALVQHPREPLTRDKLMNLARERSIDVQVSRLRRLIEDNPARARYIQTVWGVGYVFVPDGAEHHH EVVSFGPWSLDLSTRTLTREGQIVTLTTGEFAVLKALVQHPREPLTRDKLMNLARERSIDVQVSRLRRLIEDNPARARYIQTVWGVGYVFVPDGAEHHH 6zxa-a1-m1-cK_6zxa-a1-m1-cM LH2 complex from Marichromatium purpuratum W0E6A1 W0E6A1 2.38 ELECTRON MICROSCOPY 26 1.0 765910 (Marichromatium purpuratum 984) 765910 (Marichromatium purpuratum 984) 69 69 6zxa-a1-m1-cA_6zxa-a1-m1-cC 6zxa-a1-m1-cA_6zxa-a1-m1-cM 6zxa-a1-m1-cC_6zxa-a1-m1-cE 6zxa-a1-m1-cE_6zxa-a1-m1-cG 6zxa-a1-m1-cG_6zxa-a1-m1-cI 6zxa-a1-m1-cI_6zxa-a1-m1-cK KVPVMMADESIATINHPEDDWKIWTVINPATWMVPFFGILFVQMWLIHSYALSLPGYGFKDSVRVAQPA KVPVMMADESIATINHPEDDWKIWTVINPATWMVPFFGILFVQMWLIHSYALSLPGYGFKDSVRVAQPA 6zxb-a1-m1-cA_6zxb-a1-m1-cB Diguanylate cyclase DgcR (I-site mutant) in native state B0SUI1 B0SUI1 2.2 X-RAY DIFFRACTION 83 1.0 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 293 293 RKILIIEDSELQRKLLSRWVSKNGYIAIEAESISVAREKIISESIDVVLLDWELPDGNGIDLISDILSTSPVGWLPIIMVTGHTEPEYFKIAIEAGATDYITKPAKEIELLARIFSALRIKALHDQLRETAIRDVMTGLYNRRYMEERIEQEFQRCKRHDSLLSMAMIDIDKFKNINDTYGHEIGDQVIKQLAHELKTSFAKSAIISRFGGEEFVILFPETGVVDATRILDRVRENVSKLEMKSDTDQIFHFTFSGGVAGGDLSDIQSNQELLKIADKNLYEAKSSGRNQIIS RKILIIEDSELQRKLLSRWVSKNGYIAIEAESISVAREKIISESIDVVLLDWELPDGNGIDLISDILSTSPVGWLPIIMVTGHTEPEYFKIAIEAGATDYITKPAKEIELLARIFSALRIKALHDQLRETAIRDVMTGLYNRRYMEERIEQEFQRCKRHDSLLSMAMIDIDKFKNINDTYGHEIGDQVIKQLAHELKTSFAKSAIISRFGGEEFVILFPETGVVDATRILDRVRENVSKLEMKSDTDQIFHFTFSGGVAGGDLSDIQSNQELLKIADKNLYEAKSSGRNQIIS 6zxc-a2-m1-cC_6zxc-a2-m1-cD Diguanylate cyclase DgcR (I-site mutant) in activated state B0SUI1 B0SUI1 2.8 X-RAY DIFFRACTION 62 1.0 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 292 292 6zxc-a1-m1-cA_6zxc-a1-m1-cB RKILIIEDSELQRKLLSRWVSKNGYIAIEAESISVAREKIISESIDVVLLWELPDGNGIDLISDILSTSPVGWLPIIMVTGHTEPEYFKIAIEAGATDYITKPAKEIELLARIFSALRIKALHDQLRETAIRDVMTGLYNRRYMEERIEQEFQRCKRHDSLLSMAMIDIDKFKNINDTYGHEIGDQVIKQLAHELKTSFAKSAIISRFGGEEFVILFPETGVVDATRILDRVRENVSKLEMKSDTDQIFHFTFSGGVAGGDLSDIQSNQELLKIADKNLYEAKSSGRNQIIS RKILIIEDSELQRKLLSRWVSKNGYIAIEAESISVAREKIISESIDVVLLWELPDGNGIDLISDILSTSPVGWLPIIMVTGHTEPEYFKIAIEAGATDYITKPAKEIELLARIFSALRIKALHDQLRETAIRDVMTGLYNRRYMEERIEQEFQRCKRHDSLLSMAMIDIDKFKNINDTYGHEIGDQVIKQLAHELKTSFAKSAIISRFGGEEFVILFPETGVVDATRILDRVRENVSKLEMKSDTDQIFHFTFSGGVAGGDLSDIQSNQELLKIADKNLYEAKSSGRNQIIS 6zxm-a1-m1-cA_6zxm-a1-m1-cB Diguanylate cyclase DgcR in complex with c-di-GMP B0SUI1 B0SUI1 3.3 X-RAY DIFFRACTION 96 1.0 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 456481 (Leptospira biflexa serovar Patoc strain 'Patoc 1 (Paris)') 293 293 6zxm-a2-m1-cC_6zxm-a2-m1-cD 6zxm-a3-m1-cE_6zxm-a3-m1-cF RKILIIEDSELQRKLLSRWVSKNGYIAIEAESISVAREKIISESIDVVLLDWELPDGNGIDLISDILSTSPVGWLPIIMVTGHTEPEYFKIAIEAGATDYITKPAKEIELLARIFSALRIKALHDQLRETAIRDVMTGLYNRRYMEERIEQEFQRCKRHDSLLSMAMIDIDKFKNINDTYGHEIGDQVIKQLAHELKTSFRKSDIISRFGGEEFVILFPETGVVDATRILDRVRENVSKLEMKSDTDQIFHFTFSGGVAGGDLSDIQSNQELLKIADKNLYEAKSSGRNQIIS RKILIIEDSELQRKLLSRWVSKNGYIAIEAESISVAREKIISESIDVVLLDWELPDGNGIDLISDILSTSPVGWLPIIMVTGHTEPEYFKIAIEAGATDYITKPAKEIELLARIFSALRIKALHDQLRETAIRDVMTGLYNRRYMEERIEQEFQRCKRHDSLLSMAMIDIDKFKNINDTYGHEIGDQVIKQLAHELKTSFRKSDIISRFGGEEFVILFPETGVVDATRILDRVRENVSKLEMKSDTDQIFHFTFSGGVAGGDLSDIQSNQELLKIADKNLYEAKSSGRNQIIS 6zxq-a1-m1-cA_6zxq-a1-m2-cA Adenylosuccinate Synthetase from H. pylori in complex with HDA, GDP, IMO, Mg P56137 P56137 1.4 X-RAY DIFFRACTION 170 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 410 410 7pvo-a1-m1-cA_7pvo-a1-m2-cA ADVVVGIQWGDEGKGKIVDRIAKDYDFVVRYQGGHNAGHTIVHKGVKHSLHLMPSGVLYPKCKNIISSAVVVSVKDLCEEISAFEDLENRLFVSDRAHVILPYHAKKDAFKEKSQNIGTTKKGIGPCYEDKMARSGIRMGDLLDDKILEEKLNAHFKAIEPFKKAYDLGENYEKDLMGYFKTYAPKICPFIKDTTSMLIEANQKGEKILLEGAQGTLLDIDLGTYPFVTSSNTTSASACVSTGLNPKAINEVIGITKAYSTRVGNGPFPSEDTTPMGDHLRTKGAEFGTTTKRPRRCGWLDLVALKYACALNGCTQLALMKLDVLDGIDAIKVCVAYERKGERLEIFPSDLKDCVPIYQTFKGWEKSVGVRKLDDLEPNVREYIRFIEKEVGVKIRLISTSPEREDTIFL ADVVVGIQWGDEGKGKIVDRIAKDYDFVVRYQGGHNAGHTIVHKGVKHSLHLMPSGVLYPKCKNIISSAVVVSVKDLCEEISAFEDLENRLFVSDRAHVILPYHAKKDAFKEKSQNIGTTKKGIGPCYEDKMARSGIRMGDLLDDKILEEKLNAHFKAIEPFKKAYDLGENYEKDLMGYFKTYAPKICPFIKDTTSMLIEANQKGEKILLEGAQGTLLDIDLGTYPFVTSSNTTSASACVSTGLNPKAINEVIGITKAYSTRVGNGPFPSEDTTPMGDHLRTKGAEFGTTTKRPRRCGWLDLVALKYACALNGCTQLALMKLDVLDGIDAIKVCVAYERKGERLEIFPSDLKDCVPIYQTFKGWEKSVGVRKLDDLEPNVREYIRFIEKEVGVKIRLISTSPEREDTIFL 6zxt-a1-m1-cA_6zxt-a1-m1-cB High resolution crystal structure of chloroplastic ribose-5-phosphate isomerase from Chlamydomonas reinhardtii A8IRQ1 A8IRQ1 1.4 X-RAY DIFFRACTION 70 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 236 238 TQLSQDELKKQAAWKAVEYVKSGMVVGLGTGSTAAFAVDRIGQLLKEGKLQNIVGVPTSIRTYEQALSLGIPLATLDEQPKLDVAIDGADEVDPNLDVVKGRGGALLREKMVEMASAKFVCIVDDSKLVEGLGGSKLAMPVEIVQFCHKYTLQRLANLPEVKGCEAKLRMNGDKPYVTDNSNYIVDLYFQTPIKDSQAASKAILGLDGVVDHGLFLDMVDVCIIAGATGVTVQERP TQLSQDELKKQAAWKAVEYVKSGMVVGLGTGSTAAFAVDRIGQLLKEGKLQNIVGVPTSIRTYEQALSLGIPLATLDEQPKLDVAIDGADEVDPNLDVVKGRGGALLREKMVEMASAKFVCIVDDSKLVEGLGGSKLAMPVEIVQFCHKYTLQRLANLPEVKGCEAKLRMNGDKPYVTDNSNYIVDLYFQTPIKDSQAASKAILGLDGVVDHGLFLDMVDVCIIAGATGVTVQERPNP 6zy9-a1-m1-cD_6zy9-a1-m1-cI Cryo-EM structure of MlaFEDB in complex with AMP-PNP P64604 P64604 3.3 ELECTRON MICROSCOPY 31 1.0 550676 (Escherichia coli B185) 550676 (Escherichia coli B185) 108 131 TKKNEIWVGIFLLAALLYTLYATFDNIGGLKARSPVSIGGVVVGRVADITLDPKTYLPRVTLEIEQRYNHIPDTSSLSILALNLKDGDTIQDTKSAMVLEDLIGQFLY QTKKNEIWVGIFLLAALLAALFVCLKYTLYATFDNIGGLKARSPVSIGGVVVGRVADITLDPKTYLPRVTLEIEQRYNHIPDTSSLSIRTSGLLGEQYLALNVGFILKDGDTIQDTKSAMVLEDLIGQFLY 6zyd-a1-m1-cF_6zyd-a1-m1-cG YnaI P0AEB5 P0AEB5 3.0 ELECTRON MICROSCOPY 193 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 323 323 6zyd-a1-m1-cA_6zyd-a1-m1-cB 6zyd-a1-m1-cA_6zyd-a1-m1-cC 6zyd-a1-m1-cB_6zyd-a1-m1-cD 6zyd-a1-m1-cC_6zyd-a1-m1-cG 6zyd-a1-m1-cD_6zyd-a1-m1-cE 6zyd-a1-m1-cE_6zyd-a1-m1-cF XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDFICTSLIAVILTIKLFLLINQFEKQQIKKGRDITSARIMSRIIKITIIVVLVLLYGEHFGMSLSGLLTFGGIGGLAVGMAGKDILSNFFSGIMLYFDRPFSIGDWIRSPDRNIEGTVAEIGWRITKITTFDNRPLYVPNSLFSSISVENPGRMTNRRITTTIGLRYEDAAKVGVIVEAVREMLKNHPAIDQRQTLLVYFNQFADSSLNIMVYCFTKTTVWAEWLAAQQDVYLKIIDIVQSHGADFAFPSQTLYMD XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXDFICTSLIAVILTIKLFLLINQFEKQQIKKGRDITSARIMSRIIKITIIVVLVLLYGEHFGMSLSGLLTFGGIGGLAVGMAGKDILSNFFSGIMLYFDRPFSIGDWIRSPDRNIEGTVAEIGWRITKITTFDNRPLYVPNSLFSSISVENPGRMTNRRITTTIGLRYEDAAKVGVIVEAVREMLKNHPAIDQRQTLLVYFNQFADSSLNIMVYCFTKTTVWAEWLAAQQDVYLKIIDIVQSHGADFAFPSQTLYMD 6zyh-a1-m1-cA_6zyh-a1-m1-cB Crystal structure of GRP78 (70kDa heat shock protein 5 / BiP) ATPase domain in complex with ADP and calcium G3I8R9 G3I8R9 1.88 X-RAY DIFFRACTION 31 1.0 10029 (Cricetulus griseus) 10029 (Cricetulus griseus) 379 379 3iuc-a1-m1-cA_3iuc-a1-m1-cC GTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFFEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLS GTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGTFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFFEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLS 6zz4-a1-m1-cB_6zz4-a1-m1-cA Crystal structure of the PTPN2 C216G mutant P17706 P17706 2.43 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 277 279 PTTIEREFEELDTQRRWQPLYLEIRNESHDYPHRVAKFPENRNRNRYRDVSPYDHSRVKLQNAENDYINASLVDIEEAQRSYILTQGPLPNTCCHFWLMVWQQKTKAVVMLNRIVEKESVKCAQYWPTDDQEMLFKETGFSVKLLSEDVKSYYTVHLLQLENINSGETRTISHFHYTTWPDFGVPESPASFLNFLFKVRESGSLNPDHGPAVIHGSAGIGRSGTFSLVDTCLVLMEKGDDINIKQVLLNMRKYRMGLIQTPDQLRFSYMAIIEGAKC PTTIEREFEELDTQRRWQPLYLEIRNESHDYPHRVAKFPENRNRNRYRDVSPYDHSRVKLQNAENDYINASLVDIEEAQRSYILTQGPLPNTCCHFWLMVWQQKTKAVVMLNRIVEKESVKCAQYWPTDDQEMLFKETGFSVKLLSEDVKSYYTVHLLQLENINSGETRTISHFHYTTWPDFGVPESPASFLNFLFKVRESGSLNPDHGPAVIHGSAGIGRSGTFSLVDTCLVLMEKGDDINIKQVLLNMRKYRMGLIQTPDQLRFSYMAIIEGAKCIK 6zza-a1-m1-cA_6zza-a1-m2-cA Crystal structure of CbpB in complex with c-di-AMP A0A076YWK5 A0A076YWK5 2.491 X-RAY DIFFRACTION 63 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 150 150 6zz9-a1-m1-cB_6zz9-a1-m1-cA GSQIAKEFESFLLSHLDHYLIPAEDVAIFVDTHNADHVMLLLASNGFSRVPVITKEKKYVGTISISDIMAYQSKGQLTDWEMAQTDIVEMVNTKIEPINEAATLTAIMHKIVDYPFLPVISDQNDFRGIITRKSILKAINSLLHDFTDEY GSQIAKEFESFLLSHLDHYLIPAEDVAIFVDTHNADHVMLLLASNGFSRVPVITKEKKYVGTISISDIMAYQSKGQLTDWEMAQTDIVEMVNTKIEPINEAATLTAIMHKIVDYPFLPVISDQNDFRGIITRKSILKAINSLLHDFTDEY 6zzm-a2-m3-cB_6zzm-a2-m5-cB Crystal structure of the catalytic domain of Corynebacterium mustelae predicted acetyltransferase AceF (E2p). A0A0G3H170 A0A0G3H170 2.5 X-RAY DIFFRACTION 110 1.0 571915 (Corynebacterium mustelae) 571915 (Corynebacterium mustelae) 238 238 6zzm-a1-m1-cA_6zzm-a1-m2-cA 6zzm-a1-m1-cA_6zzm-a1-m4-cA 6zzm-a1-m2-cA_6zzm-a1-m4-cA 6zzm-a2-m1-cB_6zzm-a2-m3-cB 6zzm-a2-m1-cB_6zzm-a2-m5-cB IGTTAKVNRIREITAAKMVEALQISAQLTHLQEVDMTKIAELRKESKPAFQQKYGVNLTYLPFFVKAAVEALVSHPNVNASYNAETKEMTYHADVNVAIAVDTPRGLLTPVIHKAQELTFPEIAQAIVDLADRARNNKLKPQDLMGATFTITNIGSEGALSDTPILVPPQAGILGTAAIQKRAVVVTEDGVDAIAIRQMCYMPFTYDHQVVDGADAGRFTTTIKDRLETANFADDLAL IGTTAKVNRIREITAAKMVEALQISAQLTHLQEVDMTKIAELRKESKPAFQQKYGVNLTYLPFFVKAAVEALVSHPNVNASYNAETKEMTYHADVNVAIAVDTPRGLLTPVIHKAQELTFPEIAQAIVDLADRARNNKLKPQDLMGATFTITNIGSEGALSDTPILVPPQAGILGTAAIQKRAVVVTEDGVDAIAIRQMCYMPFTYDHQVVDGADAGRFTTTIKDRLETANFADDLAL 6zzn-a1-m20-cA_6zzn-a1-m9-cA Crystal structure of the cubic catalytic core of the Mycobacterium tuberculosis branched-chain alphaketoacid acyltransferase component (E2b). O06159 O06159 1.5 X-RAY DIFFRACTION 63 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 224 224 6zzn-a1-m10-cA_6zzn-a1-m19-cA 6zzn-a1-m11-cA_6zzn-a1-m17-cA 6zzn-a1-m12-cA_6zzn-a1-m18-cA 6zzn-a1-m14-cA_6zzn-a1-m2-cA 6zzn-a1-m15-cA_6zzn-a1-m4-cA 6zzn-a1-m16-cA_6zzn-a1-m3-cA 6zzn-a1-m1-cA_6zzn-a1-m13-cA 6zzn-a1-m21-cA_6zzn-a1-m8-cA 6zzn-a1-m22-cA_6zzn-a1-m7-cA 6zzn-a1-m23-cA_6zzn-a1-m5-cA 6zzn-a1-m24-cA_6zzn-a1-m6-cA DVRPVHGVHARMAEKMTLSHKEIPTAKASVEVICAELLRLRDRFVSAAPEITPFALTLRLLVIALKHNVILNSTWVDPQVHVHRGVHLGFGAATERGLLVPVVTDAQDKNTRELASRVAELITGAREGTLTPAELRGSTFTVSNFGALGVDDGVPVINHPEAAILGLGAIKPRPVVVGGEVVARPTMTLTCVFDHRVVDGAQVAQFMCELRDLIESPETALLDL DVRPVHGVHARMAEKMTLSHKEIPTAKASVEVICAELLRLRDRFVSAAPEITPFALTLRLLVIALKHNVILNSTWVDPQVHVHRGVHLGFGAATERGLLVPVVTDAQDKNTRELASRVAELITGAREGTLTPAELRGSTFTVSNFGALGVDDGVPVINHPEAAILGLGAIKPRPVVVGGEVVARPTMTLTCVFDHRVVDGAQVAQFMCELRDLIESPETALLDL 6zzn-a1-m5-cA_6zzn-a1-m9-cA Crystal structure of the cubic catalytic core of the Mycobacterium tuberculosis branched-chain alphaketoacid acyltransferase component (E2b). O06159 O06159 1.5 X-RAY DIFFRACTION 100 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 224 224 3l60-a1-m1-cA_3l60-a1-m2-cA 3l60-a1-m1-cA_3l60-a1-m3-cA 3l60-a1-m2-cA_3l60-a1-m3-cA 6zzn-a1-m10-cA_6zzn-a1-m3-cA 6zzn-a1-m10-cA_6zzn-a1-m8-cA 6zzn-a1-m11-cA_6zzn-a1-m4-cA 6zzn-a1-m11-cA_6zzn-a1-m6-cA 6zzn-a1-m12-cA_6zzn-a1-m2-cA 6zzn-a1-m12-cA_6zzn-a1-m7-cA 6zzn-a1-m13-cA_6zzn-a1-m17-cA 6zzn-a1-m13-cA_6zzn-a1-m21-cA 6zzn-a1-m14-cA_6zzn-a1-m19-cA 6zzn-a1-m14-cA_6zzn-a1-m24-cA 6zzn-a1-m15-cA_6zzn-a1-m20-cA 6zzn-a1-m15-cA_6zzn-a1-m22-cA 6zzn-a1-m16-cA_6zzn-a1-m18-cA 6zzn-a1-m16-cA_6zzn-a1-m23-cA 6zzn-a1-m17-cA_6zzn-a1-m21-cA 6zzn-a1-m18-cA_6zzn-a1-m23-cA 6zzn-a1-m19-cA_6zzn-a1-m24-cA 6zzn-a1-m1-cA_6zzn-a1-m5-cA 6zzn-a1-m1-cA_6zzn-a1-m9-cA 6zzn-a1-m20-cA_6zzn-a1-m22-cA 6zzn-a1-m2-cA_6zzn-a1-m7-cA 6zzn-a1-m3-cA_6zzn-a1-m8-cA 6zzn-a1-m4-cA_6zzn-a1-m6-cA DVRPVHGVHARMAEKMTLSHKEIPTAKASVEVICAELLRLRDRFVSAAPEITPFALTLRLLVIALKHNVILNSTWVDPQVHVHRGVHLGFGAATERGLLVPVVTDAQDKNTRELASRVAELITGAREGTLTPAELRGSTFTVSNFGALGVDDGVPVINHPEAAILGLGAIKPRPVVVGGEVVARPTMTLTCVFDHRVVDGAQVAQFMCELRDLIESPETALLDL DVRPVHGVHARMAEKMTLSHKEIPTAKASVEVICAELLRLRDRFVSAAPEITPFALTLRLLVIALKHNVILNSTWVDPQVHVHRGVHLGFGAATERGLLVPVVTDAQDKNTRELASRVAELITGAREGTLTPAELRGSTFTVSNFGALGVDDGVPVINHPEAAILGLGAIKPRPVVVGGEVVARPTMTLTCVFDHRVVDGAQVAQFMCELRDLIESPETALLDL 7a0g-a1-m1-cJJJ_7a0g-a1-m1-cCCC Structure of the SmhB pore of the tripartite alpha-pore forming toxin, Smh, from Serratia marcescens. A0A1Q4NVM7 A0A1Q4NVM7 6.979 X-RAY DIFFRACTION 93 0.994 615 (Serratia marcescens) 615 (Serratia marcescens) 320 329 7a0g-a1-m1-cBBB_7a0g-a1-m1-cHHH 7a0g-a1-m1-cDDD_7a0g-a1-m1-cEEE 7a0g-a1-m1-cFFF_7a0g-a1-m1-cAAA 7a0g-a1-m1-cIII_7a0g-a1-m1-cGGG QSSQALHIQTYCNSVRQQIPVDFGRFPNLRESERQINTGLGAARQHAEHYLKDIQPLIIRNVTNIQDYFETQNLISTVMPSGATKEQWLSALGMVSDKAKEYQEVSANTRRTIGSLNDKLIIDSNNYQLIVVNLNNVVNGNNGVLEQLNRDIDGINAAIDGAIAGIVVGGLLVIGGAIVTAIGAVAGLVTAGTSTPVVMGGIAMMTAGAGGVIGGAIVLDKSLSAREKLYRDRSQLNSEVLVASQIGSGYRGLQTQAQSAVTAATQMNNAWDSLTSELETLNANLRKGIIDDSFLRQLFLTASQTSVTKVLDGTKIIKQQ MNDGMNAQSSQALHIQTYCNSVRQQIPVDFGRFPNLRESERQINTGLGAARQHAEHYLKDIQPLIIRNVTNIQDYFETQNLISTVMPSGATKEQWLSALGMVSDKAKEYQEVSANTRRTIGSLNDKLIIDSNNYQLIVVNLNNVVNGNNGVLEQLNRDIDGINAAIDGAIAGIVVGGLLVIGGAIVTAIGAVAGLVTTSTPVVMGGIAMMTAGAGGVIGGAIVLDKSLSAREKLYRDRSQLNSEVLVASQIGSGYRGLQTQAQSAVTAATQMNNAWDSLTSELETLNANLRKGIIDDSFLRQLFLTASQTSVTKVLDGTKIIKQQMAGV 7a0g-a1-m1-cJJJ_7a0g-a1-m1-cGGG Structure of the SmhB pore of the tripartite alpha-pore forming toxin, Smh, from Serratia marcescens. A0A1Q4NVM7 A0A1Q4NVM7 6.979 X-RAY DIFFRACTION 217 0.994 615 (Serratia marcescens) 615 (Serratia marcescens) 320 329 7a0g-a1-m1-cBBB_7a0g-a1-m1-cAAA 7a0g-a1-m1-cDDD_7a0g-a1-m1-cCCC 7a0g-a1-m1-cFFF_7a0g-a1-m1-cEEE 7a0g-a1-m1-cIII_7a0g-a1-m1-cHHH QSSQALHIQTYCNSVRQQIPVDFGRFPNLRESERQINTGLGAARQHAEHYLKDIQPLIIRNVTNIQDYFETQNLISTVMPSGATKEQWLSALGMVSDKAKEYQEVSANTRRTIGSLNDKLIIDSNNYQLIVVNLNNVVNGNNGVLEQLNRDIDGINAAIDGAIAGIVVGGLLVIGGAIVTAIGAVAGLVTAGTSTPVVMGGIAMMTAGAGGVIGGAIVLDKSLSAREKLYRDRSQLNSEVLVASQIGSGYRGLQTQAQSAVTAATQMNNAWDSLTSELETLNANLRKGIIDDSFLRQLFLTASQTSVTKVLDGTKIIKQQ MNDGMNAQSSQALHIQTYCNSVRQQIPVDFGRFPNLRESERQINTGLGAARQHAEHYLKDIQPLIIRNVTNIQDYFETQNLISTVMPSGATKEQWLSALGMVSDKAKEYQEVSANTRRTIGSLNDKLIIDSNNYQLIVVNLNNVVNGNNGVLEQLNRDIDGINAAIDGAIAGIVVGGLLVIGGAIVTAIGAVAGLVTTSTPVVMGGIAMMTAGAGGVIGGAIVLDKSLSAREKLYRDRSQLNSEVLVASQIGSGYRGLQTQAQSAVTAATQMNNAWDSLTSELETLNANLRKGIIDDSFLRQLFLTASQTSVTKVLDGTKIIKQQMAGV 7a0h-a1-m1-cB_7a0h-a1-m1-cA Structure of homodimeric actin capping protein alpha subunit from Plasmodium berghei A0A509AR49 A0A509AR49 2.22 X-RAY DIFFRACTION 137 0.988 5823 (Plasmodium berghei ANKA) 5823 (Plasmodium berghei ANKA) 255 285 LLNEKKKFIRHVLSNAPPGKVFDLISNLKTIFGSNAIIQNFIEDIISKYNEDNYILIPFESDEYIIICKESKSGNLYLHPNLKILANVNHLKRKVIDTTPHPDILEKYRVACNNKLKEYVDIYYKVKCASSVYASKYNLFLLICCDRYYLKNFHASSWRSSWNVNFLEADQEIILTGTIDVVLTYFEDANINFKTRKVFEKRVSVTNDIENFASSILSVIRECENDVLYDLNHLIANTSSDLIKNTRKIIPLNAH DSLLNEKKKFIRHVLSNAPPGKVFDLISNLKTIFGSNAIIQNFIEDIISKYNEDNYILIPFESDEYIIICKESKSGNLYLHPNLKILANVNHLKRKVIDTTPLTKLDHPDILEKYRVACNNKLKEYVDIYYKKWSDHQTGNYPTVNIGSKHGLNVKCASSVYASECENKYNLFLLICCDRYYLKNFHASSWRSSWNVNFLEADQEIILTGTIDVVLTYFEDANINFKTRKVFEKRVSVTNDIENFASSILSVIRECENDVLYDLNHLIANTSSDLIKNTRKIIPL 7a0n-a2-m1-cB_7a0n-a2-m1-cA Structure of TSC1 NTD and linker domain G0S5K3 G0S5K3 4.3 X-RAY DIFFRACTION 56 0.99 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 385 386 7a0m-a2-m1-cD_7a0m-a2-m1-cC 7a0n-a1-m1-cB_7a0n-a1-m1-cA SSRDLFRALNSFIQTPPPADLDAIISSYLERHDKPEEGSGDRLNDELLAIWDKAVQDHPEKYAAFVAVLRQLRPGLGAPARTFQWWDKLLDPVLDNATREKGLARSFDFTLEILSSSIPWLNRLLVRWELRSTDLKEQVLTDALLAFGKKDPKGFNALNAFVLRREHRNSAFSLLCAFVNSGPPHLYLILQTPLFGNILQSLQKDESTFTVNLALIALVLLPFFPGDIVPYLPTLFNIYARLLFWDRDSYFAQQHPWDKVLLDPDYDGHSVPYLPEYFTILYGLYPINFVDYIRKPHIDVHAAEIRERSERFRKQHLLHPNFYEYTIETEKTNITRWLKSEADEIIADCALVVQVSLLRYQRHRLLNDLQYERFVRQQHSHGELR GSSRDLFRALNSFIQTPTLPPPADLDAIISSYLERHDKPEEGSGDRLNDELLAIWDKAVQDHPEKYAAFVAVLRQLRPGLGAPARTFQWWDKLLDPVLDNATREKGLARSFDFTLEILSSSIPWLNRLLVRWELRESTDLKEQVLTDALLAFGKKDPKGFNALNAFVLRREHRNSAFSLLCAFVNSGPPHLYLILQTPLFGNILQSLQKDESTFTVNLALIALVLLPFFPGDIVPYLPTLFNIYARLLFWDRDSYFAQQWDKVLLDPDYDGHSVPYLPEYFTILYGLYPINFVDYIRKPIDVHAAEIRERSERFRKQHLLHPNFYEYTIETEKTNITRWLKSEADEIIADCALVVQVSLLRYQRHRLLNDLQYERFVRQQHSHGEL 7a0n-a2-m1-cD_7a0n-a2-m1-cB Structure of TSC1 NTD and linker domain G0S5K3 G0S5K3 4.3 X-RAY DIFFRACTION 75 0.992 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 379 385 SRDLFRALNSLPPPADLDAIISSYLERHDKPEEGSGDRLNDELLAIWDKAVQDHPEKYAAFVAVLRQLRPGLGAPARTFQWWDKLLDPVLDNATREKGLARSFDFTLEILSSSIPWLNRLLVRWELRETDLKEQVLTDALLAFGKKDPKGFNALNAFVLRREHRNSAFSLLCAFVNSGPPHLYLILQTPLFGNILQSLQKDESTFTVNLALIALVLLPFFPGDIVPYLPTLFNIYARLLFWDRDSYFAQQHWDKVLLDPDYDGHSVPYLPEYFTILYGLYPINFVDYIRKIDVHAAEIRERSERFRKQHLLHPNFYEYTIETEKTNITRWLKSEADEIIADCALVVEQVSLLRYQRHRLLNDLQYERFVRQQHSHGELR SSRDLFRALNSFIQTPPPADLDAIISSYLERHDKPEEGSGDRLNDELLAIWDKAVQDHPEKYAAFVAVLRQLRPGLGAPARTFQWWDKLLDPVLDNATREKGLARSFDFTLEILSSSIPWLNRLLVRWELRSTDLKEQVLTDALLAFGKKDPKGFNALNAFVLRREHRNSAFSLLCAFVNSGPPHLYLILQTPLFGNILQSLQKDESTFTVNLALIALVLLPFFPGDIVPYLPTLFNIYARLLFWDRDSYFAQQHPWDKVLLDPDYDGHSVPYLPEYFTILYGLYPINFVDYIRKPHIDVHAAEIRERSERFRKQHLLHPNFYEYTIETEKTNITRWLKSEADEIIADCALVVQVSLLRYQRHRLLNDLQYERFVRQQHSHGELR 7a0v-a1-m1-cB_7a0v-a1-m1-cF Crystal structure of the 5-phosphatase domain of Synaptojanin1 in complex with a nanobody 2.3 X-RAY DIFFRACTION 24 1.0 9844 (Lama glama) 9844 (Lama glama) 123 124 QVQLVESGGGFAQAGGSLRLSCAASGSTFRFRAMGWFRQAPGKEREFVAGISWSGSTKYTDSVKGRFTISRDNAKNTVHLQMNNLTPEDTAVYYCAQSRAIEADDSRGYDYWGQGTQVTVSSH QVQLVESGGGFAQAGGSLRLSCAASGSTFRFRAMGWFRQAPGKEREFVAGISWSGSTKYTDSVKGRFTISRDNAKNTVHLQMNNLTPEDTAVYYCAQSRAIEADDSRGYDYWGQGTQVTVSSHH 7a0v-a1-m1-cC_7a0v-a1-m1-cA Crystal structure of the 5-phosphatase domain of Synaptojanin1 in complex with a nanobody O43426 O43426 2.3 X-RAY DIFFRACTION 33 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 309 333 KPKKIRVCVGTWNVNGIAFKNQTLTDWLLDAPKLAGIQEFQDKRSKPTDIFAIGFEEMVTTNQKLWAVELQKTISRDNKYVLLASEQLVGVCLFVFIRPQHAPFIRDVAVDTVKTNKGAVAIRMLFHTTSLCFVCSHFAAGQSQVKERNEDFIEIARKLSFPMGRMLFSHDYVFWCGDFNYRIDLPNEEVKELIRQQNWDSLIAGDQLINQKNAGQVFRGFLEGKVTFAPTYKYDLFSDDYDTSEKCRTPAWTDRVLWRRRKWPFDRSAEDLDLYTWTPGTLLHYGRAELKTSDHRPVVALIDIDIFEV SKPKKIRVCVGTWNVNGGKQFRSINQTLTDWLLDAPKLAGIQEFQDKRSKPTDIFAIGFEEMVELNAGNIVSASTTNQKLWAVELQKTISRDNKYVLLASEQLVGVCLFVFIRPQHAPFIRDVAVDTVKTGMGGATGNKGAVAIRMLFHTTSLCFVCSHFAAGQSQVKERNEDFIEIARKLSFPMGRMLFSHDYVFWCGDFNYRIDLPNEEVKELIRQQNWDSLIAGDQLINQKNAGQVFRGFLEGKVTFAPTYKYDLFSDDYDTSEKCRTPAWTDRVLWRRRKWPFDRSAEDLDLLNYTWTPGTLLHYGRAELKTSDHRPVVALIDIDIFEV 7a0v-a1-m1-cF_7a0v-a1-m1-cD Crystal structure of the 5-phosphatase domain of Synaptojanin1 in complex with a nanobody 2.3 X-RAY DIFFRACTION 15 1.0 9844 (Lama glama) 9844 (Lama glama) 124 125 QVQLVESGGGFAQAGGSLRLSCAASGSTFRFRAMGWFRQAPGKEREFVAGISWSGSTKYTDSVKGRFTISRDNAKNTVHLQMNNLTPEDTAVYYCAQSRAIEADDSRGYDYWGQGTQVTVSSHH QVQLVESGGGFAQAGGSLRLSCAASGSTFRFRAMGWFRQAPGKEREFVAGISWSGSTKYTDSVKGRFTISRDNAKNTVHLQMNNLTPEDTAVYYCAQSRAIEADDSRGYDYWGQGTQVTVSSHHH 7a0x-a2-m1-cA_7a0x-a2-m1-cB Structure of dimeric sodium proton antiporter NhaA, at pH 6.0, crystallized with chimeric Fab antibodies Q8ZRZ3 Q8ZRZ3 2.37 X-RAY DIFFRACTION 28 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 370 373 3fi1-a1-m1-cA_3fi1-a1-m2-cA 4atv-a1-m1-cB_4atv-a1-m1-cA 4atv-a2-m1-cD_4atv-a2-m1-cC 4au5-a1-m1-cB_4au5-a1-m1-cA 4au5-a2-m1-cD_4au5-a2-m1-cC 7a0w-a1-m1-cA_7a0w-a1-m1-cB 7a0w-a2-m1-cA_7a0w-a2-m1-cB 7a0x-a1-m1-cA_7a0x-a1-m1-cB 7a0y-a1-m1-cA_7a0y-a1-m1-cB 7a0y-a2-m1-cA_7a0y-a2-m1-cB DASGGIILIIAAALAMLMANMGATSGWYHDFLETPVQLRVGALEINKNMLLWINDALMAVFFLLIGLEVKRELMQGSLASLRQAAFPVIAAIGGMIVPALLYLAFNYSDPVTREGWAIPAATDIAFALGVLALLGSRVPLALKIFLMALAIIDDLGAIVIIALFYTSDLSIVSLGVAAFAIAVLALLNLCGVRRTGVYILVGAVLWTAVLKSGVHATLAGVIVGFFIPLKEKHGRSPAKRLEHVLHPWVAYLILPLFAFANAGVSLQGVTIDGLTSMLPLGIIAGLLIGKPLGISLFCWLALRFKLAHLPQGTTYQQIMAVGILCGIGFTMSIFIASLAFGNVDPELINWAKLGILIGSLLSAVVGYSWL DASGGIILIIAAALAMLMANMGATSGWYHDFLETPVQLRVGALEINKNMLLWINDALMAVFFLLIGLEVKRELMQGSLASLRQAAFPVIAAIGGMIVPALLYLAFNYSDPVTREGWAIPAATDIAFALGVLALLGSRVPLALKIFLMALAIIDDLGAIVIIALFYTSDLSIVSLGVAAFAIAVLALLNLCGVRRTGVYILVGAVLWTAVLKSGVHATLAGVIVGFFIPLKEKHGRSPAKRLEHVLHPWVAYLILPLFAFANAGVSLQGVTIDGLTSMLPLGIIAGLLIGKPLGISLFCWLALRFKLAHLPQGTTYQQIMAVGILCGIGFTMSIFIASLAFGNVDPELINWAKLGILIGSLLSAVVGYSWLRAR 7a1f-a1-m1-cA_7a1f-a1-m1-cL Crystal structure of human 5' exonuclease Appollo in complex with 5'dAMP Q9H816 Q9H816 1.8 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 328 334 NGVLIPHTPIAVDFWSLRRAGTARLFFLSHMHSDHTVGLSSTWARPLYCSPITAHLLHRHLQVSKQWIQALEVGESHVLPLDEIGQETMTVTLLDANHCPGSVMFLFEGYFGTILYTGDFRYTPSMLKEPALTLGKQIHTLYLDNTNCNPALVLPSRQEAAHQIVQLIRKHPQHNIKIGLYSLGKESLLEQLALEFQTWVVLSPRRLELVQLLGLADVFTVEEKAGRIHAVDHMEICHSNMLRWNQTHPTIAILPTSRKIHSSHPDIHVIPYSDHSSYSELRAFVAALKPCQVVPIVSRRPCGGFQDSLSPRISVPLIPDSVQQYMSS NGVLIPHTPIAVDFWSLRRAGTARLFFLSHMHSDHTVGLSSTWARPLYCSPITAHLLHRHLQVSKQWIQALEVGESHVLPLDEIGQETMTVTLLDANHCPGSVMFLFEGYFGTILYTGDFRYTPSMLKEPALTLGKQIHTLYLDNTNCNPALVLPSRQEAAHQIVQLIRKHPQHNIKIGLYSLGKESLLEQLALEFQTWVVLSPRRLELVQLLGLADVFTVEEKAGRIHAVDHMEICHSNMLRWNQTHPTIAILPTSRKIHSSHPDIHVIPYSDHSSYSELRAFVAALKPCQVVPIVSRRPCGGFQDSLSPRISVPLIPDSVQQYMSSSSRKPS 7a1t-a1-m1-cA_7a1t-a1-m1-cB A collapsed hexameric state of a de novo coiled-coil assembly: CC-Type2-(GgLaId)4-W19BrPhe. 1.42 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 7a1t-a1-m1-cB_7a1t-a1-m1-cC 7a1t-a1-m1-cD_7a1t-a1-m1-cE 7a1t-a1-m1-cE_7a1t-a1-m1-cF GEIAQGLKEIAKGLKEIAGLKEIAQGLKG GEIAQGLKEIAKGLKEIAGLKEIAQGLKG 7a1t-a1-m1-cA_7a1t-a1-m1-cF A collapsed hexameric state of a de novo coiled-coil assembly: CC-Type2-(GgLaId)4-W19BrPhe. 1.42 X-RAY DIFFRACTION 27 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 7a1t-a1-m1-cD_7a1t-a1-m1-cC GEIAQGLKEIAKGLKEIAGLKEIAQGLKG GEIAQGLKEIAKGLKEIAGLKEIAQGLKG 7a24-a1-m1-cp_7a24-a1-m1-cq Assembly intermediate of the plant mitochondrial complex I Q9FWR5 Q9FWR5 3.8 ELECTRON MICROSCOPY 192 1.0 3712 (Brassica oleracea) 3712 (Brassica oleracea) 224 228 7a23-a1-m1-cp_7a23-a1-m1-cq RAFYSVGFWIRETGQALDRLGCRLQGKNYFREQLSRHRTLMNVFDKAPIVDKEAFVAPSASVIGDVHIGRGSSIWYGCVLRGDVNTVSVGSGTNIQDNSLVHVAKSNLSGKVHPTIIGDNVTIGHSAVLHGCTVEDETFIGMGATLLDGVVVEKHGMVAAGALVRQNTRIPSGEVWGGNPARFLRKLTDEEIAFISQSATNYSNLAQAHAAENAKPLNVIEFEK RAFYSVGFWIRETGQALDRLGCRLQGKNYFREQLSRHRTLMNVFDKAPIVDKEAFVAPSASVIGDVHIGRGSSIWYGCVLRGDVNTVSVGSGTNIQDNSLVHVAKSNLSGKVHPTIIGDNVTIGHSAVLHGCTVEDETFIGMGATLLDGVVVEKHGMVAAGALVRQNTRIPSGEVWGGNPARFLRKLTDEEIAFISQSATNYSNLAQAHAAENAKPLNVIEFEKVLRK 7a3o-a1-m1-cA_7a3o-a1-m2-cA Crystal structure of dengue 1 virus envelope glycoprotein in complex with the scFv fragment of the broadly neutralizing human antibody EDE1 C10 Q9II02 Q9II02 2.8 X-RAY DIFFRACTION 95 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 377 377 3j05-a1-m10-cA_3j05-a1-m24-cA 3j05-a1-m10-cB_3j05-a1-m10-cC 3j05-a1-m11-cA_3j05-a1-m16-cA 3j05-a1-m11-cB_3j05-a1-m11-cC 3j05-a1-m12-cA_3j05-a1-m38-cA 3j05-a1-m12-cB_3j05-a1-m12-cC 3j05-a1-m13-cA_3j05-a1-m47-cA 3j05-a1-m13-cB_3j05-a1-m13-cC 3j05-a1-m14-cA_3j05-a1-m45-cA 3j05-a1-m14-cB_3j05-a1-m14-cC 3j05-a1-m15-cA_3j05-a1-m29-cA 3j05-a1-m15-cB_3j05-a1-m15-cC 3j05-a1-m16-cB_3j05-a1-m16-cC 3j05-a1-m17-cA_3j05-a1-m28-cA 3j05-a1-m17-cB_3j05-a1-m17-cC 3j05-a1-m18-cA_3j05-a1-m52-cA 3j05-a1-m18-cB_3j05-a1-m18-cC 3j05-a1-m19-cA_3j05-a1-m60-cA 3j05-a1-m19-cB_3j05-a1-m19-cC 3j05-a1-m1-cA_3j05-a1-m6-cA 3j05-a1-m1-cB_3j05-a1-m1-cC 3j05-a1-m20-cA_3j05-a1-m39-cA 3j05-a1-m20-cB_3j05-a1-m20-cC 3j05-a1-m21-cA_3j05-a1-m26-cA 3j05-a1-m21-cB_3j05-a1-m21-cC 3j05-a1-m22-cA_3j05-a1-m43-cA 3j05-a1-m22-cB_3j05-a1-m22-cC 3j05-a1-m23-cB_3j05-a1-m23-cC 3j05-a1-m24-cB_3j05-a1-m24-cC 3j05-a1-m25-cA_3j05-a1-m54-cA 3j05-a1-m25-cB_3j05-a1-m25-cC 3j05-a1-m26-cB_3j05-a1-m26-cC 3j05-a1-m27-cA_3j05-a1-m53-cA 3j05-a1-m27-cB_3j05-a1-m27-cC 3j05-a1-m28-cB_3j05-a1-m28-cC 3j05-a1-m29-cB_3j05-a1-m29-cC 3j05-a1-m2-cA_3j05-a1-m23-cA 3j05-a1-m2-cB_3j05-a1-m2-cC 3j05-a1-m30-cA_3j05-a1-m44-cA 3j05-a1-m30-cB_3j05-a1-m30-cC 3j05-a1-m31-cA_3j05-a1-m36-cA 3j05-a1-m31-cB_3j05-a1-m31-cC 3j05-a1-m32-cA_3j05-a1-m58-cA 3j05-a1-m32-cB_3j05-a1-m32-cC 3j05-a1-m33-cA_3j05-a1-m7-cA 3j05-a1-m33-cB_3j05-a1-m33-cC 3j05-a1-m34-cA_3j05-a1-m5-cA 3j05-a1-m34-cB_3j05-a1-m34-cC 3j05-a1-m35-cA_3j05-a1-m49-cA 3j05-a1-m35-cB_3j05-a1-m35-cC 3j05-a1-m36-cB_3j05-a1-m36-cC 3j05-a1-m37-cA_3j05-a1-m48-cA 3j05-a1-m37-cB_3j05-a1-m37-cC 3j05-a1-m38-cB_3j05-a1-m38-cC 3j05-a1-m39-cB_3j05-a1-m39-cC 3j05-a1-m3-cA_3j05-a1-m42-cA 3j05-a1-m3-cB_3j05-a1-m3-cC 3j05-a1-m40-cA_3j05-a1-m59-cA 3j05-a1-m40-cB_3j05-a1-m40-cC 3j05-a1-m41-cA_3j05-a1-m46-cA 3j05-a1-m41-cB_3j05-a1-m41-cC 3j05-a1-m42-cB_3j05-a1-m42-cC 3j05-a1-m43-cB_3j05-a1-m43-cC 3j05-a1-m44-cB_3j05-a1-m44-cC 3j05-a1-m45-cB_3j05-a1-m45-cC 3j05-a1-m46-cB_3j05-a1-m46-cC 3j05-a1-m47-cB_3j05-a1-m47-cC 3j05-a1-m48-cB_3j05-a1-m48-cC 3j05-a1-m49-cB_3j05-a1-m49-cC 3j05-a1-m4-cA_3j05-a1-m50-cA 3j05-a1-m4-cB_3j05-a1-m4-cC 3j05-a1-m50-cB_3j05-a1-m50-cC 3j05-a1-m51-cA_3j05-a1-m56-cA 3j05-a1-m51-cB_3j05-a1-m51-cC 3j05-a1-m52-cB_3j05-a1-m52-cC 3j05-a1-m53-cB_3j05-a1-m53-cC 3j05-a1-m54-cB_3j05-a1-m54-cC 3j05-a1-m55-cA_3j05-a1-m9-cA 3j05-a1-m55-cB_3j05-a1-m55-cC 3j05-a1-m56-cB_3j05-a1-m56-cC 3j05-a1-m57-cA_3j05-a1-m8-cA 3j05-a1-m57-cB_3j05-a1-m57-cC 3j05-a1-m58-cB_3j05-a1-m58-cC 3j05-a1-m59-cB_3j05-a1-m59-cC 3j05-a1-m5-cB_3j05-a1-m5-cC 3j05-a1-m60-cB_3j05-a1-m60-cC 3j05-a1-m6-cB_3j05-a1-m6-cC 3j05-a1-m7-cB_3j05-a1-m7-cC 3j05-a1-m8-cB_3j05-a1-m8-cC 3j05-a1-m9-cB_3j05-a1-m9-cC 4c2i-a1-m10-cA_4c2i-a1-m24-cA 4c2i-a1-m10-cC_4c2i-a1-m10-cE 4c2i-a1-m11-cA_4c2i-a1-m16-cA 4c2i-a1-m11-cC_4c2i-a1-m11-cE 4c2i-a1-m12-cA_4c2i-a1-m38-cA 4c2i-a1-m12-cC_4c2i-a1-m12-cE 4c2i-a1-m13-cA_4c2i-a1-m47-cA 4c2i-a1-m13-cC_4c2i-a1-m13-cE 4c2i-a1-m14-cA_4c2i-a1-m45-cA 4c2i-a1-m14-cC_4c2i-a1-m14-cE 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4cct-a1-m42-cB_4cct-a1-m42-cC 4cct-a1-m43-cB_4cct-a1-m43-cC 4cct-a1-m44-cB_4cct-a1-m44-cC 4cct-a1-m45-cB_4cct-a1-m45-cC 4cct-a1-m46-cB_4cct-a1-m46-cC 4cct-a1-m47-cB_4cct-a1-m47-cC 4cct-a1-m48-cB_4cct-a1-m48-cC 4cct-a1-m49-cB_4cct-a1-m49-cC 4cct-a1-m4-cA_4cct-a1-m50-cA 4cct-a1-m4-cB_4cct-a1-m4-cC 4cct-a1-m50-cB_4cct-a1-m50-cC 4cct-a1-m51-cA_4cct-a1-m56-cA 4cct-a1-m51-cB_4cct-a1-m51-cC 4cct-a1-m52-cB_4cct-a1-m52-cC 4cct-a1-m53-cB_4cct-a1-m53-cC 4cct-a1-m54-cB_4cct-a1-m54-cC 4cct-a1-m55-cA_4cct-a1-m9-cA 4cct-a1-m55-cB_4cct-a1-m55-cC 4cct-a1-m56-cB_4cct-a1-m56-cC 4cct-a1-m57-cA_4cct-a1-m8-cA 4cct-a1-m57-cB_4cct-a1-m57-cC 4cct-a1-m58-cB_4cct-a1-m58-cC 4cct-a1-m59-cB_4cct-a1-m59-cC 4cct-a1-m5-cB_4cct-a1-m5-cC 4cct-a1-m60-cB_4cct-a1-m60-cC 4cct-a1-m6-cB_4cct-a1-m6-cC 4cct-a1-m7-cB_4cct-a1-m7-cC 4cct-a1-m8-cB_4cct-a1-m8-cC 4cct-a1-m9-cB_4cct-a1-m9-cC 7dwt-a1-m10-cB_7dwt-a1-m24-cB 7dwt-a1-m11-cB_7dwt-a1-m16-cB 7dwt-a1-m12-cB_7dwt-a1-m38-cB 7dwt-a1-m13-cB_7dwt-a1-m47-cB 7dwt-a1-m14-cB_7dwt-a1-m45-cB 7dwt-a1-m15-cB_7dwt-a1-m29-cB 7dwt-a1-m17-cB_7dwt-a1-m28-cB 7dwt-a1-m18-cB_7dwt-a1-m52-cB 7dwt-a1-m19-cB_7dwt-a1-m60-cB 7dwt-a1-m1-cB_7dwt-a1-m6-cB 7dwt-a1-m20-cB_7dwt-a1-m39-cB 7dwt-a1-m21-cB_7dwt-a1-m26-cB 7dwt-a1-m22-cB_7dwt-a1-m43-cB 7dwt-a1-m25-cB_7dwt-a1-m54-cB 7dwt-a1-m27-cB_7dwt-a1-m53-cB 7dwt-a1-m2-cB_7dwt-a1-m23-cB 7dwt-a1-m30-cB_7dwt-a1-m44-cB 7dwt-a1-m31-cB_7dwt-a1-m36-cB 7dwt-a1-m32-cB_7dwt-a1-m58-cB 7dwt-a1-m33-cB_7dwt-a1-m7-cB 7dwt-a1-m34-cB_7dwt-a1-m5-cB 7dwt-a1-m35-cB_7dwt-a1-m49-cB 7dwt-a1-m37-cB_7dwt-a1-m48-cB 7dwt-a1-m3-cB_7dwt-a1-m42-cB 7dwt-a1-m40-cB_7dwt-a1-m59-cB 7dwt-a1-m41-cB_7dwt-a1-m46-cB 7dwt-a1-m4-cB_7dwt-a1-m50-cB 7dwt-a1-m51-cB_7dwt-a1-m56-cB 7dwt-a1-m55-cB_7dwt-a1-m9-cB 7dwt-a1-m57-cB_7dwt-a1-m8-cB 7dwu-a1-m10-cB_7dwu-a1-m24-cB 7dwu-a1-m11-cB_7dwu-a1-m16-cB 7dwu-a1-m12-cB_7dwu-a1-m38-cB 7dwu-a1-m13-cB_7dwu-a1-m47-cB 7dwu-a1-m14-cB_7dwu-a1-m45-cB 7dwu-a1-m15-cB_7dwu-a1-m29-cB 7dwu-a1-m17-cB_7dwu-a1-m28-cB 7dwu-a1-m18-cB_7dwu-a1-m52-cB 7dwu-a1-m19-cB_7dwu-a1-m60-cB 7dwu-a1-m1-cB_7dwu-a1-m6-cB 7dwu-a1-m20-cB_7dwu-a1-m39-cB 7dwu-a1-m21-cB_7dwu-a1-m26-cB 7dwu-a1-m22-cB_7dwu-a1-m43-cB 7dwu-a1-m25-cB_7dwu-a1-m54-cB 7dwu-a1-m27-cB_7dwu-a1-m53-cB 7dwu-a1-m2-cB_7dwu-a1-m23-cB 7dwu-a1-m30-cB_7dwu-a1-m44-cB 7dwu-a1-m31-cB_7dwu-a1-m36-cB 7dwu-a1-m32-cB_7dwu-a1-m58-cB 7dwu-a1-m33-cB_7dwu-a1-m7-cB 7dwu-a1-m34-cB_7dwu-a1-m5-cB 7dwu-a1-m35-cB_7dwu-a1-m49-cB 7dwu-a1-m37-cB_7dwu-a1-m48-cB 7dwu-a1-m3-cB_7dwu-a1-m42-cB 7dwu-a1-m40-cB_7dwu-a1-m59-cB 7dwu-a1-m41-cB_7dwu-a1-m46-cB 7dwu-a1-m4-cB_7dwu-a1-m50-cB 7dwu-a1-m51-cB_7dwu-a1-m56-cB 7dwu-a1-m55-cB_7dwu-a1-m9-cB 7dwu-a1-m57-cB_7dwu-a1-m8-cB MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKNKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTVVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVTIATITPQAPTSEIQLTDYGTLTLDCSPRTGLDFNEVVLLTMKEKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEITTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSTQDVTQNGRLITANPIVTDKEKPINIETEPPFGESYIIVGEKALKLSWFKKG MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKNKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDANFVCRRTVVDRGWGNGCGLFGKGSLLTCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVTIATITPQAPTSEIQLTDYGTLTLDCSPRTGLDFNEVVLLTMKEKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEITTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSTQDVTQNGRLITANPIVTDKEKPINIETEPPFGESYIIVGEKALKLSWFKKG 7a3q-a1-m1-cB_7a3q-a1-m1-cA Crystal structure of dengue 4 virus envelope glycoprotein in complex with the scFv fragment of the broadly neutralizing human antibody EDE1 C10 P09866 P09866 2.7 X-RAY DIFFRACTION 99 0.989 11070 (Dengue virus type 4) 11070 (Dengue virus type 4) 366 372 3uaj-a1-m1-cB_3uaj-a1-m1-cA 4cbf-a1-m10-cA_4cbf-a1-m24-cA 4cbf-a1-m10-cC_4cbf-a1-m10-cE 4cbf-a1-m11-cA_4cbf-a1-m16-cA 4cbf-a1-m11-cC_4cbf-a1-m11-cE 4cbf-a1-m12-cA_4cbf-a1-m38-cA 4cbf-a1-m12-cC_4cbf-a1-m12-cE 4cbf-a1-m13-cA_4cbf-a1-m47-cA 4cbf-a1-m13-cC_4cbf-a1-m13-cE 4cbf-a1-m14-cA_4cbf-a1-m45-cA 4cbf-a1-m14-cC_4cbf-a1-m14-cE 4cbf-a1-m15-cA_4cbf-a1-m29-cA 4cbf-a1-m15-cC_4cbf-a1-m15-cE 4cbf-a1-m16-cC_4cbf-a1-m16-cE 4cbf-a1-m17-cA_4cbf-a1-m28-cA 4cbf-a1-m17-cC_4cbf-a1-m17-cE 4cbf-a1-m18-cA_4cbf-a1-m52-cA 4cbf-a1-m18-cC_4cbf-a1-m18-cE 4cbf-a1-m19-cA_4cbf-a1-m60-cA 4cbf-a1-m19-cC_4cbf-a1-m19-cE 4cbf-a1-m1-cA_4cbf-a1-m6-cA 4cbf-a1-m1-cC_4cbf-a1-m1-cE 4cbf-a1-m20-cA_4cbf-a1-m39-cA 4cbf-a1-m20-cC_4cbf-a1-m20-cE 4cbf-a1-m21-cA_4cbf-a1-m26-cA 4cbf-a1-m21-cC_4cbf-a1-m21-cE 4cbf-a1-m22-cA_4cbf-a1-m43-cA 4cbf-a1-m22-cC_4cbf-a1-m22-cE 4cbf-a1-m23-cC_4cbf-a1-m23-cE 4cbf-a1-m24-cC_4cbf-a1-m24-cE 4cbf-a1-m25-cA_4cbf-a1-m54-cA 4cbf-a1-m25-cC_4cbf-a1-m25-cE 4cbf-a1-m26-cC_4cbf-a1-m26-cE 4cbf-a1-m27-cA_4cbf-a1-m53-cA 4cbf-a1-m27-cC_4cbf-a1-m27-cE 4cbf-a1-m28-cC_4cbf-a1-m28-cE 4cbf-a1-m29-cC_4cbf-a1-m29-cE 4cbf-a1-m2-cA_4cbf-a1-m23-cA 4cbf-a1-m2-cC_4cbf-a1-m2-cE 4cbf-a1-m30-cA_4cbf-a1-m44-cA 4cbf-a1-m30-cC_4cbf-a1-m30-cE 4cbf-a1-m31-cA_4cbf-a1-m36-cA 4cbf-a1-m31-cC_4cbf-a1-m31-cE 4cbf-a1-m32-cA_4cbf-a1-m58-cA 4cbf-a1-m32-cC_4cbf-a1-m32-cE 4cbf-a1-m33-cA_4cbf-a1-m7-cA 4cbf-a1-m33-cC_4cbf-a1-m33-cE 4cbf-a1-m34-cA_4cbf-a1-m5-cA 4cbf-a1-m34-cC_4cbf-a1-m34-cE 4cbf-a1-m35-cA_4cbf-a1-m49-cA 4cbf-a1-m35-cC_4cbf-a1-m35-cE 4cbf-a1-m36-cC_4cbf-a1-m36-cE 4cbf-a1-m37-cA_4cbf-a1-m48-cA 4cbf-a1-m37-cC_4cbf-a1-m37-cE 4cbf-a1-m38-cC_4cbf-a1-m38-cE 4cbf-a1-m39-cC_4cbf-a1-m39-cE 4cbf-a1-m3-cA_4cbf-a1-m42-cA 4cbf-a1-m3-cC_4cbf-a1-m3-cE 4cbf-a1-m40-cA_4cbf-a1-m59-cA 4cbf-a1-m40-cC_4cbf-a1-m40-cE 4cbf-a1-m41-cA_4cbf-a1-m46-cA 4cbf-a1-m41-cC_4cbf-a1-m41-cE 4cbf-a1-m42-cC_4cbf-a1-m42-cE 4cbf-a1-m43-cC_4cbf-a1-m43-cE 4cbf-a1-m44-cC_4cbf-a1-m44-cE 4cbf-a1-m45-cC_4cbf-a1-m45-cE 4cbf-a1-m46-cC_4cbf-a1-m46-cE 4cbf-a1-m47-cC_4cbf-a1-m47-cE 4cbf-a1-m48-cC_4cbf-a1-m48-cE 4cbf-a1-m49-cC_4cbf-a1-m49-cE 4cbf-a1-m4-cA_4cbf-a1-m50-cA 4cbf-a1-m4-cC_4cbf-a1-m4-cE 4cbf-a1-m50-cC_4cbf-a1-m50-cE 4cbf-a1-m51-cA_4cbf-a1-m56-cA 4cbf-a1-m51-cC_4cbf-a1-m51-cE 4cbf-a1-m52-cC_4cbf-a1-m52-cE 4cbf-a1-m53-cC_4cbf-a1-m53-cE 4cbf-a1-m54-cC_4cbf-a1-m54-cE 4cbf-a1-m55-cA_4cbf-a1-m9-cA 4cbf-a1-m55-cC_4cbf-a1-m55-cE 4cbf-a1-m56-cC_4cbf-a1-m56-cE 4cbf-a1-m57-cA_4cbf-a1-m8-cA 4cbf-a1-m57-cC_4cbf-a1-m57-cE 4cbf-a1-m58-cC_4cbf-a1-m58-cE 4cbf-a1-m59-cC_4cbf-a1-m59-cE 4cbf-a1-m5-cC_4cbf-a1-m5-cE 4cbf-a1-m60-cC_4cbf-a1-m60-cE 4cbf-a1-m6-cC_4cbf-a1-m6-cE 4cbf-a1-m7-cC_4cbf-a1-m7-cE 4cbf-a1-m8-cC_4cbf-a1-m8-cE 4cbf-a1-m9-cC_4cbf-a1-m9-cE MRCVGVGNRDFVEGVSVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFSCSGKITGNLVQIENLEYTVVVTVHNHGVTAMITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGEVHWNYKERMVTFKVPQDVTVLGSQEGAMHSALAGATEVDHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPLAENTNSVTNIELEPPFGDSYIVIGVGNSALTLHWFRKG MRCVGVGNRDFVEGVWVDLVLEHGGCVTTMAQGKPTLDFELTKTTAKEVALLRTYCIEASISNITTATRCPTQGEPYLKEEQDQQYICRRDVVDRGWGNGCGLFGKGGVVTCAKFSCSGKITGNLVQIENLEYTVVVTVHNGVTAMITPRSPSVEVKLPDYGELTLDCEPRSGIDFNEMILMKMKKKTWLVHKQWFLDLPLPWTAGVHWNYKERMVTFKVPHAKRQDVTVLGSQEGAMHSALAGATEVDSGDGNHMFAGHLKCKVRMEKLRIKGMSYTMCSGKFSIDKEMAETQHGTTVVKVKYEGAGAPCKVPIEIRDVNKEKVVGRIISSTPLAENTNSVTNIELEPPFGDSYIVIGVGNSALTLHWFRK 7a3s-a1-m1-cA_7a3s-a1-m2-cA Crystal structure of dengue 3 virus envelope glycoprotein P27915 P27915 2.8 X-RAY DIFFRACTION 115 1.0 408870 (Dengue virus 3 Philippines/H87/1956) 408870 (Dengue virus 3 Philippines/H87/1956) 384 384 1uzg-a1-m1-cA_1uzg-a1-m1-cB 3j6s-a1-m10-cA_3j6s-a1-m24-cA 3j6s-a1-m10-cC_3j6s-a1-m10-cE 3j6s-a1-m11-cA_3j6s-a1-m16-cA 3j6s-a1-m11-cC_3j6s-a1-m11-cE 3j6s-a1-m12-cA_3j6s-a1-m38-cA 3j6s-a1-m12-cC_3j6s-a1-m12-cE 3j6s-a1-m13-cA_3j6s-a1-m47-cA 3j6s-a1-m13-cC_3j6s-a1-m13-cE 3j6s-a1-m14-cA_3j6s-a1-m45-cA 3j6s-a1-m14-cC_3j6s-a1-m14-cE 3j6s-a1-m15-cA_3j6s-a1-m29-cA 3j6s-a1-m15-cC_3j6s-a1-m15-cE 3j6s-a1-m16-cC_3j6s-a1-m16-cE 3j6s-a1-m17-cA_3j6s-a1-m28-cA 3j6s-a1-m17-cC_3j6s-a1-m17-cE 3j6s-a1-m18-cA_3j6s-a1-m52-cA 3j6s-a1-m18-cC_3j6s-a1-m18-cE 3j6s-a1-m19-cA_3j6s-a1-m60-cA 3j6s-a1-m19-cC_3j6s-a1-m19-cE 3j6s-a1-m1-cA_3j6s-a1-m6-cA 3j6s-a1-m1-cC_3j6s-a1-m1-cE 3j6s-a1-m20-cA_3j6s-a1-m39-cA 3j6s-a1-m20-cC_3j6s-a1-m20-cE 3j6s-a1-m21-cA_3j6s-a1-m26-cA 3j6s-a1-m21-cC_3j6s-a1-m21-cE 3j6s-a1-m22-cA_3j6s-a1-m43-cA 3j6s-a1-m22-cC_3j6s-a1-m22-cE 3j6s-a1-m23-cC_3j6s-a1-m23-cE 3j6s-a1-m24-cC_3j6s-a1-m24-cE 3j6s-a1-m25-cA_3j6s-a1-m54-cA 3j6s-a1-m25-cC_3j6s-a1-m25-cE 3j6s-a1-m26-cC_3j6s-a1-m26-cE 3j6s-a1-m27-cA_3j6s-a1-m53-cA 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3j6u-a1-m37-cA_3j6u-a1-m48-cA 3j6u-a1-m37-cC_3j6u-a1-m37-cE 3j6u-a1-m38-cC_3j6u-a1-m38-cE 3j6u-a1-m39-cC_3j6u-a1-m39-cE 3j6u-a1-m3-cA_3j6u-a1-m42-cA 3j6u-a1-m3-cC_3j6u-a1-m3-cE 3j6u-a1-m40-cA_3j6u-a1-m59-cA 3j6u-a1-m40-cC_3j6u-a1-m40-cE 3j6u-a1-m41-cA_3j6u-a1-m46-cA 3j6u-a1-m41-cC_3j6u-a1-m41-cE 3j6u-a1-m42-cC_3j6u-a1-m42-cE 3j6u-a1-m43-cC_3j6u-a1-m43-cE 3j6u-a1-m44-cC_3j6u-a1-m44-cE 3j6u-a1-m45-cC_3j6u-a1-m45-cE 3j6u-a1-m46-cC_3j6u-a1-m46-cE 3j6u-a1-m47-cC_3j6u-a1-m47-cE 3j6u-a1-m48-cC_3j6u-a1-m48-cE 3j6u-a1-m49-cC_3j6u-a1-m49-cE 3j6u-a1-m4-cA_3j6u-a1-m50-cA 3j6u-a1-m4-cC_3j6u-a1-m4-cE 3j6u-a1-m50-cC_3j6u-a1-m50-cE 3j6u-a1-m51-cA_3j6u-a1-m56-cA 3j6u-a1-m51-cC_3j6u-a1-m51-cE 3j6u-a1-m52-cC_3j6u-a1-m52-cE 3j6u-a1-m53-cC_3j6u-a1-m53-cE 3j6u-a1-m54-cC_3j6u-a1-m54-cE 3j6u-a1-m55-cA_3j6u-a1-m9-cA 3j6u-a1-m55-cC_3j6u-a1-m55-cE 3j6u-a1-m56-cC_3j6u-a1-m56-cE 3j6u-a1-m57-cA_3j6u-a1-m8-cA 3j6u-a1-m57-cC_3j6u-a1-m57-cE 3j6u-a1-m58-cC_3j6u-a1-m58-cE 3j6u-a1-m59-cC_3j6u-a1-m59-cE 3j6u-a1-m5-cC_3j6u-a1-m5-cE 3j6u-a1-m60-cC_3j6u-a1-m60-cE 3j6u-a1-m6-cC_3j6u-a1-m6-cE 3j6u-a1-m7-cC_3j6u-a1-m7-cE 3j6u-a1-m8-cC_3j6u-a1-m8-cE 3j6u-a1-m9-cC_3j6u-a1-m9-cE 7a3s-a2-m1-cC_7a3s-a2-m1-cB 7a3t-a1-m1-cA_7a3t-a1-m3-cA 7c2s-a1-m10-cA_7c2s-a1-m10-cB 7c2s-a1-m11-cA_7c2s-a1-m11-cB 7c2s-a1-m12-cA_7c2s-a1-m12-cB 7c2s-a1-m13-cA_7c2s-a1-m13-cB 7c2s-a1-m14-cA_7c2s-a1-m14-cB 7c2s-a1-m15-cA_7c2s-a1-m15-cB 7c2s-a1-m16-cA_7c2s-a1-m16-cB 7c2s-a1-m1-cA_7c2s-a1-m1-cB 7c2s-a1-m2-cA_7c2s-a1-m2-cB 7c2s-a1-m3-cA_7c2s-a1-m3-cB 7c2s-a1-m4-cA_7c2s-a1-m4-cB 7c2s-a1-m5-cA_7c2s-a1-m5-cB 7c2s-a1-m6-cA_7c2s-a1-m6-cB 7c2s-a1-m7-cA_7c2s-a1-m7-cB 7c2s-a1-m8-cA_7c2s-a1-m8-cB 7c2s-a1-m9-cA_7c2s-a1-m9-cB MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVIITVHTGDQHQVGNETQGVTAEITSQASTAEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWTSGATTKTPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQTSTSIFAGHLKCRLKMDKLKLKGMSYAMCLNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTENGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDKALKINWYRKG MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVIITVHTGDQHQVGNETQGVTAEITSQASTAEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWTSGATTKTPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQTSTSIFAGHLKCRLKMDKLKLKGMSYAMCLNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTENGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDKALKINWYRKG 7a3w-a1-m1-cA_7a3w-a1-m1-cB Structure of Imine Reductase from Pseudomonas sp. 1.59 X-RAY DIFFRACTION 350 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 288 293 NKPSVSVLGLGAMGSVLARTLLQAGYGVTVWNRSPERATALVQEGASLAREASEAINASNLIIICMIDKAVFQDVLSSLDPLLNMSGKTIVNMSTGTVDDVERIAKRVDQHNGLYVDAGIMCYPKDIGGQHTTILYSGNSDAYHAHESTLKVLAGNPKFLGADPTACTPTYLALYAFYFGAFAAWLEGAVLASCAGVSVQDFKALSPIMSDMLVDGIKTAADRIAASDYSGEQASVDVHVAGQEVVLDALQRANAPHASTDAYLSYCRMAQTAGMGELDIASLFKAMH SMSGSNKPSVSVLGLGAMGSVLARTLLQAGYGVTVWNRSPERATALVQEGASLAREASEAINASNLIIICMIDKAVFQDVLSSLDPLLNMSGKTIVNMSTGTVDDVERIAKRVDQHNGLYVDAGIMCYPKDIGGQHTTILYSGNSDAYHAHESTLKVLAGNPKFLGADPTACTPTYLALYAFYFGAFAAWLEGAVLASCAGVSVQDFKALSPIMSDMLVDGIKTAADRIAASDYSGEQASVDVHVAGQEVVLDALQRANAPHASTDAYLSYCRMAQTAGMGELDIASLFKAMH 7a41-a1-m1-cA_7a41-a1-m1-cB MALT1 in complex with a NVS-MALT1 chemical probe Q9UDY8 Q9UDY8 2.13 X-RAY DIFFRACTION 60 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 354 363 4i1r-a1-m1-cA_4i1r-a1-m2-cA 6f7i-a1-m1-cA_6f7i-a1-m1-cB 7ak0-a1-m1-cA_7ak0-a1-m1-cB QPLAKDKVALLIGNMNYREHPKLKAPLVDVYELTNLLRQLDFKVVSLLDLTEYEMRNAVDEFLLLLDKGVYGLLYYAGHGYENFGNSFMVPVDAPNPYRSENCLCVQNILKLMQEKETGLNVFLLDMCRTANIVFGYATCQGGLANGIFMKFLKDRLLEDKKITVLLDEVAEDMGKCHLTKGKQALEIRSSLSEKRALTDPIQGTEYSAESLVRNLQWAKAHELPESMCLKFDCGVQIQLGFAAEFSNVMIIYTSIVYKPPEIIMCDAYVTDFPLDLDIDPKDANKGTPEETGSYLVSKDLPKHCLYTRLSSLQKLKEHLVFTVCLSYQYSGLEDTVEDKQEVNVGKPLIAKLD DQPLAKDKVALLIGNMNYREHPKLKAPLVDVYELTNLLRQLDFKVVSLLDLTEYEMRNAVDEFLLLLDKGVYGLLYYAGHGYENFGNSFMVPVDAPNPYRSENCLCVQNILKLMQEKETGLNVFLLDMCRTANIVFGYATCQGAEAFEIQHSGLANGIFMKFLKDRLLEDKKITVLLDEVAEDMGKCHLTKGKQALEIRSSLSEKRALTDPIQGTEYSAESLVRNLQWAKAHELPESMCLKFDCGVQIQLGFAAEFSNVMIIYTSIVYKPPEIIMCDAYVTDFPLDLDIDPKDANKGTPEETGSYLVSKDLPKHCLYTRLSSLQKLKEHLVFTVCLSYQYSGLEDTVEDKQEVNVGKPLIAKL 7a43-a1-m1-cB_7a43-a1-m1-cA Fluoroacetate Dehalogenase measured by serial femtosecond crystallography Q6NAM1 Q6NAM1 1.75 X-RAY DIFFRACTION 69 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 297 298 3r3u-a1-m1-cB_3r3u-a1-m1-cA 3r3u-a2-m1-cD_3r3u-a2-m1-cC 3r3v-a1-m1-cB_3r3v-a1-m1-cA 3r3w-a1-m1-cB_3r3w-a1-m1-cA 3r3x-a1-m1-cB_3r3x-a1-m1-cA 3r3y-a1-m1-cB_3r3y-a1-m1-cA 3r3z-a1-m1-cB_3r3z-a1-m1-cA 3r3z-a2-m1-cD_3r3z-a2-m1-cC 3r40-a1-m1-cB_3r40-a1-m1-cA 3r41-a1-m1-cB_3r41-a1-m1-cA 5k3a-a1-m1-cB_5k3a-a1-m1-cA 5k3b-a1-m1-cA_5k3b-a1-m1-cB 5k3c-a1-m1-cB_5k3c-a1-m1-cA 5k3d-a1-m1-cA_5k3d-a1-m1-cB 5k3e-a1-m1-cB_5k3e-a1-m1-cA 5k3f-a1-m1-cB_5k3f-a1-m1-cA 5nyv-a1-m1-cA_5nyv-a1-m1-cB 5o2g-a1-m1-cA_5o2g-a1-m1-cB 5o2i-a1-m1-cA_5o2i-a1-m1-cB 5swn-a1-m1-cA_5swn-a1-m1-cB 5t4t-a1-m1-cB_5t4t-a1-m1-cA 6fsx-a1-m1-cA_6fsx-a1-m1-cB 6gxd-a1-m1-cA_6gxd-a1-m1-cB 6gxf-a1-m1-cA_6gxf-a1-m1-cB 6gxh-a1-m1-cA_6gxh-a1-m1-cB 6gxl-a1-m1-cA_6gxl-a1-m1-cB 6gxt-a1-m1-cB_6gxt-a1-m1-cA 6muh-a1-m1-cA_6muh-a1-m1-cB 6muy-a1-m1-cA_6muy-a1-m1-cB 6mzz-a1-m1-cA_6mzz-a1-m1-cB 6n00-a1-m1-cA_6n00-a1-m1-cB 6qhp-a1-m1-cA_6qhp-a1-m1-cB 6qhq-a1-m1-cA_6qhq-a1-m1-cB 6qhs-a1-m1-cA_6qhs-a1-m1-cB 6qht-a1-m1-cB_6qht-a1-m1-cA 6qhu-a1-m1-cA_6qhu-a1-m1-cB 6qhv-a1-m1-cA_6qhv-a1-m1-cB 6qhw-a1-m1-cA_6qhw-a1-m1-cB 6qhx-a1-m1-cA_6qhx-a1-m1-cB 6qhy-a1-m1-cA_6qhy-a1-m1-cB 6qhz-a1-m1-cB_6qhz-a1-m1-cA 6qi0-a1-m1-cB_6qi0-a1-m1-cA 6qi1-a1-m1-cB_6qi1-a1-m1-cA 6qi2-a1-m1-cA_6qi2-a1-m1-cB 6qi3-a1-m1-cA_6qi3-a1-m1-cB 6qks-a1-m1-cB_6qks-a1-m1-cA 6qkt-a1-m1-cB_6qkt-a1-m1-cA 6qku-a1-m1-cA_6qku-a1-m1-cB 6qkw-a1-m1-cB_6qkw-a1-m1-cA 7a42-a1-m1-cB_7a42-a1-m1-cA DLADLFPGFGSEWINTSSGRIFARVGGDGPPLLLLHGFPQTHVMWHRVAPKLAERFKVIVADLPGYGWSDMPESDEQHTPYTKRAMAKQLIEAMEQLGHVHFALAGHDRGARVSYRLALDSPGRLSKLAVLDILPTYEYWQRMNRAYALKIYHWSFLAQPAPLPENLLGGDPDFYVKAKLASWTRAGDLSAFDPRAVEHYRIAFADPMRRHVMCEDYRAGAYADFEHDKIDVEAGNKIPVPMLALWGASGIAQSAATPLDVWRKWASDVQGAPIESGHFLPEEAPDQTAEALVRFFS DLADLFPGFGSEWINTSSGRIFARVGGDGPPLLLLHGFPQTHVMWHRVAPKLAERFKVIVADLPGYGWSDMPESDEQHTPYTKRAMAKQLIEAMEQLGHVHFALAGHDRGARVSYRLALDSPGRLSKLAVLDILPTYEYWQRMNRAYALKIYHWSFLAQPAPLPENLLGGDPDFYVKAKLASWTRAGDLSAFDPRAVEHYRIAFADPMRRHVMCEDYRAGAYADFEHDKIDVEAGNKIPVPMLALWGASGIAQSAATPLDVWRKWASDVQGAPIESGHFLPEEAPDQTAEALVRFFSA 7a46-a1-m1-cF_7a46-a1-m1-cG small conductance mechanosensitive channel YbiO P75783 P75783 3.0 ELECTRON MICROSCOPY 148 1.0 562 (Escherichia coli) 562 (Escherichia coli) 223 223 7a46-a1-m1-cA_7a46-a1-m1-cB 7a46-a1-m1-cA_7a46-a1-m1-cG 7a46-a1-m1-cB_7a46-a1-m1-cC 7a46-a1-m1-cC_7a46-a1-m1-cD 7a46-a1-m1-cD_7a46-a1-m1-cE 7a46-a1-m1-cE_7a46-a1-m1-cF XXXXXXXXXXXXXXXXLAVIISTITIMIVLSEIGVNIAPLLAGAGALGLAISFGSQTLVKDIITGVFIQFENGMNTGDLVTIGPLTGTVERMSIRSVGVRQDTGAYHIIPWSSITTFANFVRGIGSVVANYDVDRHEDADKANQALKDAVAELMENEEIRGLIIGEPNFAGIVGLSNTAFTLRVSFTTLPLKQWTVRFALDSQVKKHFDLAGVRAPVQTYQVL XXXXXXXXXXXXXXXXLAVIISTITIMIVLSEIGVNIAPLLAGAGALGLAISFGSQTLVKDIITGVFIQFENGMNTGDLVTIGPLTGTVERMSIRSVGVRQDTGAYHIIPWSSITTFANFVRGIGSVVANYDVDRHEDADKANQALKDAVAELMENEEIRGLIIGEPNFAGIVGLSNTAFTLRVSFTTLPLKQWTVRFALDSQVKKHFDLAGVRAPVQTYQVL 7a48-a1-m1-cB_7a48-a1-m2-cB Crystal structure of the APH coiled-coil in complex with Nb49 1.547 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 40 40 LEEELKQLEEELQAIEEQLAQLQWKAQARKEKLAQLKEKL LEEELKQLEEELQAIEEQLAQLQWKAQARKEKLAQLKEKL 7a4a-a1-m1-cB_7a4a-a1-m1-cC Envelope glycprotein of endogenous retrovirus Y032 (Atlas virus) from the human hookworm Ancylostoma ceylanicum A0A016UZK2 A0A016UZK2 3.76 ELECTRON MICROSCOPY 215 1.0 53326 (Ancylostoma ceylanicum) 53326 (Ancylostoma ceylanicum) 439 439 7a4a-a1-m1-cA_7a4a-a1-m1-cB 7a4a-a1-m1-cA_7a4a-a1-m1-cC CSEVISVTSTEEVCTIQENKETCTFNHATTITLQPLQQQTCLTLNDPEKRPMGMLTVKPDGIKFRCNKKIEFFTRDHQIVSESVHRCHRAGSCHSDECHHVKDTDALPEFSSEANSRPGYTSCSSSCGCITCDGCFFCEPSCLFHRLYAIPTTPTIYSIFYCPSWELEVDAEISLQREDETTTSTIRLLPGRTSTWNNIRFSLIGTIVPQLPILSSAFVTNGRQTSIVKPAYAGQLQSNSVGQLQCPNLEAAKQFECHFSRNLCTCTNALHKVSCTCYDGSVEDHMEALPLPQTSKNFLVFEKDRNIYAKTHVGSALQLHIVAQDLKITTVKHTSHCQVEASDLSGCYSCTSGASLTLSCKSDNGEVLANMKCNEQTHVIRCTESGFINNILLMFDTSEVAADCTAACPGGIVNFTIKGLLAFVNERIISQSYSATDVE CSEVISVTSTEEVCTIQENKETCTFNHATTITLQPLQQQTCLTLNDPEKRPMGMLTVKPDGIKFRCNKKIEFFTRDHQIVSESVHRCHRAGSCHSDECHHVKDTDALPEFSSEANSRPGYTSCSSSCGCITCDGCFFCEPSCLFHRLYAIPTTPTIYSIFYCPSWELEVDAEISLQREDETTTSTIRLLPGRTSTWNNIRFSLIGTIVPQLPILSSAFVTNGRQTSIVKPAYAGQLQSNSVGQLQCPNLEAAKQFECHFSRNLCTCTNALHKVSCTCYDGSVEDHMEALPLPQTSKNFLVFEKDRNIYAKTHVGSALQLHIVAQDLKITTVKHTSHCQVEASDLSGCYSCTSGASLTLSCKSDNGEVLANMKCNEQTHVIRCTESGFINNILLMFDTSEVAADCTAACPGGIVNFTIKGLLAFVNERIISQSYSATDVE 7a4d-a2-m1-cH_7a4d-a2-m1-cG Crystal structure of the APH coiled-coil in complex with nanobodies Nb28 and Nb30 2.694 X-RAY DIFFRACTION 21 1.0 9844 (Lama glama) 9844 (Lama glama) 116 120 7a4d-a1-m1-cB_7a4d-a1-m1-cA QLQESGGGLVQPGGSLRLSCAAPGFRLDNYVIGWFRQAPGKEREGVSCISSSAGSTYYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCATACYSSYVTYWGQGTQVTVSS QVQLQESGGGLVQPGGSLRLSCAAPGFRLDNYVIGWFRQAPGKEREGVSCISSSAGSTYYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCATACYSSYVTYWGQGTQVTVSSGR 7a4d-a2-m1-cI_7a4d-a2-m1-cJ Crystal structure of the APH coiled-coil in complex with nanobodies Nb28 and Nb30 2.694 X-RAY DIFFRACTION 27 1.0 9844 (Lama glama) 9844 (Lama glama) 113 113 7a4d-a1-m1-cD_7a4d-a1-m1-cC QLQESGGGLVQPGGSLRLSCAASGSIFSDNDMGWYRQPPGKQREWVATITYDHVTWYADSVKGRFAISRDNAKNTVYLQMNDLKPEDTAVYYCNAVPGRRGSWGQGTQVTVSS QLQESGGGLVQPGGSLRLSCAASGSIFSDNDMGWYRQPPGKQREWVATITYDHVTWYADSVKGRFAISRDNAKNTVYLQMNDLKPEDTAVYYCNAVPGRRGSWGQGTQVTVSS 7a4d-a2-m1-cK_7a4d-a2-m1-cL Crystal structure of the APH coiled-coil in complex with nanobodies Nb28 and Nb30 2.694 X-RAY DIFFRACTION 53 1.0 32630 (synthetic construct) 32630 (synthetic construct) 40 40 7a4d-a1-m1-cE_7a4d-a1-m1-cF 7a50-a1-m1-cB_7a50-a1-m1-cD LEEELKQLEEELQAIEEQLAQLQWKAQARKEKLAQLKEKL LEEELKQLEEELQAIEEQLAQLQWKAQARKEKLAQLKEKL 7a4u-a1-m1-cA_7a4u-a1-m3-cA Crystal structure of lid-truncated apo BiP in an oligomeric state G3I8R9 G3I8R9 1.77 X-RAY DIFFRACTION 79 1.0 10029 (Cricetulus griseus) 10029 (Cricetulus griseus) 523 523 7a4v-a1-m1-cA_7a4v-a1-m2-cA SGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGAFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFFEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLSGDQDTGDLVLLDVCPLTLGIETVGGVMTKLIPRNTVVPTKKSQIFSTASDNQPTFTIKVYEGERPLTKDNHLLGTFDLTGIPPAPRGVPQIEVTFEIDVNGILRVTAEDKGTGNKNKITITNDQNRLTPEEIERMVNDAEKFA SGTVVGIDLGTTYSCVGVFKNGRVEIIANDQGNRITPSYVAFTPEGERLIGDAAKNQLTSNPENTVFDAKRLIGRTWNDPSVQQDIKFLPFKVVEKKTKPYIQVDIGGGQTKTFAPEEISAMVLTKMKETAEAYLGKKVTHAVVTVPAYFNDAQRQATKDAGTIAGLNVMRIINEPTAAAIAYGLDKREGEKNILVFDLGGGAFDVSLLTIDNGVFEVVATNGDTHLGGEDFDQRVMEHFIKLYKKKTGKDVRKDNRAVQKLRREVEKAKRALSSQHQARIEIESFFEGEDFSETLTRAKFEELNMDLFRSTMKPVQKVLEDSDLKKSDIDEIVLVGGSTRIPKIQQLVKEFFNGKEPSRGINPDEAVAYGAAVQAGVLSGDQDTGDLVLLDVCPLTLGIETVGGVMTKLIPRNTVVPTKKSQIFSTASDNQPTFTIKVYEGERPLTKDNHLLGTFDLTGIPPAPRGVPQIEVTFEIDVNGILRVTAEDKGTGNKNKITITNDQNRLTPEEIERMVNDAEKFA 7a56-a1-m2-cA_7a56-a1-m3-cA Schmallenberg Virus Envelope Glycoprotein Gc Fusion Domains in Postfusion Conformation H2AM12 H2AM12 1.85 X-RAY DIFFRACTION 138 1.0 1318464 (Bovine Schmallenberg virus BH80/Germany/2011) 1318464 (Bovine Schmallenberg virus BH80/Germany/2011) 419 419 7a56-a1-m1-cA_7a56-a1-m2-cA 7a56-a1-m1-cA_7a56-a1-m3-cA KSINHPDIENYIAALQSDIANDLTMHYFKPLKNLPAIIPQYKTMTLNGDKVSNGIRNSYIESHIPAINGLSAGINIAMPNGESLFSIIIYVRRVINKASYRFLYETGPTIGINAKHEEVCTGKCPSPIPHQDGWVTFSKERSSNWGCEEWGCLAINDGCLYGSCQDIIRPEYKIYKKSSIEQKDVEVCITMAHESFCSTVDVLQPLISDRIQLDIQTIQMDSMPNIIAVKNGKVYVGDINDLGSTAKKCGSVQLYSEGIIGSGTPKFDYVCHAFNRKDVILRRCFDNSYQSCLLLEQDNTLTIASMEVHKKVSSVGTINYKIMLGDFDYNAYSTQATVTIDEIRCGGCYGCPEGMACALKLSTNTIGSCSIKSNCDTYIKIIAVDPMQSEYSIKLNCPLATETVSVSVCSASAYTKPSI KSINHPDIENYIAALQSDIANDLTMHYFKPLKNLPAIIPQYKTMTLNGDKVSNGIRNSYIESHIPAINGLSAGINIAMPNGESLFSIIIYVRRVINKASYRFLYETGPTIGINAKHEEVCTGKCPSPIPHQDGWVTFSKERSSNWGCEEWGCLAINDGCLYGSCQDIIRPEYKIYKKSSIEQKDVEVCITMAHESFCSTVDVLQPLISDRIQLDIQTIQMDSMPNIIAVKNGKVYVGDINDLGSTAKKCGSVQLYSEGIIGSGTPKFDYVCHAFNRKDVILRRCFDNSYQSCLLLEQDNTLTIASMEVHKKVSSVGTINYKIMLGDFDYNAYSTQATVTIDEIRCGGCYGCPEGMACALKLSTNTIGSCSIKSNCDTYIKIIAVDPMQSEYSIKLNCPLATETVSVSVCSASAYTKPSI 7a57-a1-m1-cC_7a57-a1-m1-cA La Crosse Virus Envelope Glycoprotein Gc W1066H Mutant Fusion Domains in Postfusion Conformation Q8JPR1 Q8JPR1 3.155 X-RAY DIFFRACTION 181 1.0 796210 (La Crosse virus L78) 796210 (La Crosse virus L78) 436 437 7a57-a1-m1-cA_7a57-a1-m1-cB 7a57-a1-m1-cC_7a57-a1-m1-cB IEQYKKAITQKLQTSLSLFKYAKTKNLPHIKPIYKYITIEGTETAEGIESAYIESEVPALAGTSIGFKINSKEGKHLLDVIAYVKSASYSSVYTKLYSTGPTSGINTKHDELCTGPCPANINHQVGWLTFARERTSSHGCEEFGCLAVSDGCVFGSCQDIIKEELSVYRKETEEVTDVELCLTFSDKTYCTNLNPVTPIITDLFEVQFKTVETYSLPRIVAVQNHEIKIGQINDLGVYSKGCGNVQKVNGTIYGNGVPRFDYLCHLASRKEVIVRKCFDNDYQACKFLQSPASYRLEEDSGTVTIIDYKKILGTIKMKAILGDVKYKTFADSVDITAEGSCTGCINCFENIHCELTLHTTIEASCPIKSSCTVFHDRILVTPNEHKYALKMVCTEKPGNTLTIKVCNTKVEASMALVDAKPIIELAPVDQTAYIRE DIEQYKKAITQKLQTSLSLFKYAKTKNLPHIKPIYKYITIEGTETAEGIESAYIESEVPALAGTSIGFKINSKEGKHLLDVIAYVKSASYSSVYTKLYSTGPTSGINTKHDELCTGPCPANINHQVGWLTFARERTSSHGCEEFGCLAVSDGCVFGSCQDIIKEELSVYRKETEEVTDVELCLTFSDKTYCTNLNPVTPIITDLFEVQFKTVETYSLPRIVAVQNHEIKIGQINDLGVYSKGCGNVQKVNGTIYGNGVPRFDYLCHLASRKEVIVRKCFDNDYQACKFLQSPASYRLEEDSGTVTIIDYKKILGTIKMKAILGDVKYKTFADSVDITAEGSCTGCINCFENIHCELTLHTTIEASCPIKSSCTVFHDRILVTPNEHKYALKMVCTEKPGNTLTIKVCNTKVEASMALVDAKPIIELAPVDQTAYIRE 7a5a-a2-m1-cE_7a5a-a2-m1-cF Crimean-Congo Hemorrhagic Fever Virus Envelope Glycoprotein Gc W1191H/W1197A/W1199A Mutant in Postfusion Conformation (Monoclinic Crystal Form) Q8JSZ3 Q8JSZ3 2.989 X-RAY DIFFRACTION 199 1.0 652961 (Crimean-Congo hemorrhagic fever virus strain IbAr10200) 652961 (Crimean-Congo hemorrhagic fever virus strain IbAr10200) 499 499 7a59-a1-m1-cA_7a59-a1-m1-cB 7a59-a1-m1-cA_7a59-a1-m1-cC 7a59-a1-m1-cC_7a59-a1-m1-cB 7a5a-a1-m1-cA_7a5a-a1-m1-cB 7a5a-a1-m1-cC_7a5a-a1-m1-cA 7a5a-a1-m1-cC_7a5a-a1-m1-cB 7a5a-a2-m1-cD_7a5a-a2-m1-cE 7a5a-a2-m1-cD_7a5a-a2-m1-cF TSLSIEAPWGAYKPTVSTANIALSWSSVEHRGNKILVSGRSESIMKLEERTGISWDLGVEDASESKLLTVSVMDLSQMYSPVFEYLSGDRQVGEWPKATCTGDCPERCGCTSSTCLHKEWPHSRNHRCNPTACAGVGTGCTCCGLDVKDLFTDYMFVKWKVEYIKTEAIVCVELTSQERQCSLIEAGTRFNLGPVTITLSEPRNIQQKLPPEIITLHPRIEEGFFDLMHVQKVLSASTVCKLQSCTHGVPGDLQVYHIGNLLKGDKVNGHLIHKIEPHFNTSWMSWDGCDLDYYCNMGDWPSCTYTGVTQHNHASFVNLLNIETDYTKNFHFHSKRVTAHGDTPQLDLKARPTYGAGEITVLVEVADMELHTKKIEISGLKFASLACTGCYACSSGISCKVRIHVDEPDELTVHVKSDDPDVVAASSSLMARKLEFGTDSTFKAFSAMPKTSLCFYIVEREHCKSCSEEDTKKCVNTKLEQPQSILIEHKGTIIGKQNS TSLSIEAPWGAYKPTVSTANIALSWSSVEHRGNKILVSGRSESIMKLEERTGISWDLGVEDASESKLLTVSVMDLSQMYSPVFEYLSGDRQVGEWPKATCTGDCPERCGCTSSTCLHKEWPHSRNHRCNPTACAGVGTGCTCCGLDVKDLFTDYMFVKWKVEYIKTEAIVCVELTSQERQCSLIEAGTRFNLGPVTITLSEPRNIQQKLPPEIITLHPRIEEGFFDLMHVQKVLSASTVCKLQSCTHGVPGDLQVYHIGNLLKGDKVNGHLIHKIEPHFNTSWMSWDGCDLDYYCNMGDWPSCTYTGVTQHNHASFVNLLNIETDYTKNFHFHSKRVTAHGDTPQLDLKARPTYGAGEITVLVEVADMELHTKKIEISGLKFASLACTGCYACSSGISCKVRIHVDEPDELTVHVKSDDPDVVAASSSLMARKLEFGTDSTFKAFSAMPKTSLCFYIVEREHCKSCSEEDTKKCVNTKLEQPQSILIEHKGTIIGKQNS 7a5c-a1-m1-cA_7a5c-a1-m1-cB Crystal structure of spin labelled VcSiaP R125A bound to an artificial peptide ligand. Q9KR64 Q9KR64 2.2 X-RAY DIFFRACTION 94 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 314 314 DYDIPTTENLYFQGAMGATTLKMGMQASVGSVEYNSAKMLADTLEEMSQGEIKLALYPSAQLGDDRAMLQLTLGDLDITYAEFGRMGLWIPRAEAVMLPYVAKDFDHLRRMFESDFGQGVRDEMLQKFNWRALDTWYNGTAETTSNRPLNSIEDFKGLKLRVPNAKQNLNYAKLSGASPTPMSFSEVYALQTNAVDGQENPLPTIKTMKFYEVQKNLAMTHHIVNDQMVIISESTWQKLSDTDKDIIQKAVQKVGDAHTQTVKTQEAELVSFFKSEGINVTYPDLEPFREAMQPLYKEFDSNIGQPIVSKLAAM DYDIPTTENLYFQGAMGATTLKMGMQASVGSVEYNSAKMLADTLEEMSQGEIKLALYPSAQLGDDRAMLQLTLGDLDITYAEFGRMGLWIPRAEAVMLPYVAKDFDHLRRMFESDFGQGVRDEMLQKFNWRALDTWYNGTAETTSNRPLNSIEDFKGLKLRVPNAKQNLNYAKLSGASPTPMSFSEVYALQTNAVDGQENPLPTIKTMKFYEVQKNLAMTHHIVNDQMVIISESTWQKLSDTDKDIIQKAVQKVGDAHTQTVKTQEAELVSFFKSEGINVTYPDLEPFREAMQPLYKEFDSNIGQPIVSKLAAM 7a6p-a1-m1-cB_7a6p-a1-m1-cA Structural determinants underlying the adduct lifetime in a short LOV protein PpSB2-LOV Q88JB0 Q88JB0 1.93 X-RAY DIFFRACTION 105 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 148 149 MINAKLLQLMVEHSNDGIVVAEQEGNESILIYVNPAFERLTGYCADDILYQDCRFLQGEDHDQPGIAIIREAIREGRPCCQVLRNYRKDGSLFWNELSITPVHNEADQLTYYIGIQRDVTAQVFAEERVRELEAEVAELRRQQGQAKH HMINAKLLQLMVEHSNDGIVVAEQEGNESILIYVNPAFERLTGYCADDILYQDCRFLQGEDHDQPGIAIIREAIREGRPCCQVLRNYRKDGSLFWNELSITPVHNEADQLTYYIGIQRDVTAQVFAEERVRELEAEVAELRRQQGQAKH 7a6u-a1-m1-cC_7a6u-a1-m1-cD Cryo-EM structure of the cytoplasmic domain of human TRPC6 Q9Y210 Q9Y210 3.62 ELECTRON MICROSCOPY 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 332 332 6cv9-a1-m1-cA_6cv9-a1-m1-cB 6cv9-a1-m1-cA_6cv9-a1-m1-cD 6cv9-a1-m1-cB_6cv9-a1-m1-cC 6cv9-a1-m1-cC_6cv9-a1-m1-cD 7a6u-a1-m1-cA_7a6u-a1-m1-cB 7a6u-a1-m1-cA_7a6u-a1-m1-cD 7a6u-a1-m1-cB_7a6u-a1-m1-cC YMFSDRSTSLSIEEERFLDAAEYGNIPVVRKMLEECHSLNVNCVDYMGQNALQLAVANEHLEITELLLKKENLSRVGDALLLAISKGYVRIVEAILSHPAFAEGKRLATSPSQSELQQDDFYAYDEDGTRFSHDVTPIILAAHCQEYEIVHTLLRKGARIERPHDYFCKCNDCNQKQKHDSFSHSRSRINAYKGLASPAYLSLSSEDPVMTALELSNELAVLANIEKEFKNDYKKLSMQCKDFVVGLLDLCRNTEEVEAILNGDRQYQKIMKRLIKRYVLQAQIDKESDEVNEGELKEIKQDISSLRYELLEEKSQNTEDLAELIRELGEKL YMFSDRSTSLSIEEERFLDAAEYGNIPVVRKMLEECHSLNVNCVDYMGQNALQLAVANEHLEITELLLKKENLSRVGDALLLAISKGYVRIVEAILSHPAFAEGKRLATSPSQSELQQDDFYAYDEDGTRFSHDVTPIILAAHCQEYEIVHTLLRKGARIERPHDYFCKCNDCNQKQKHDSFSHSRSRINAYKGLASPAYLSLSSEDPVMTALELSNELAVLANIEKEFKNDYKKLSMQCKDFVVGLLDLCRNTEEVEAILNGDRQYQKIMKRLIKRYVLQAQIDKESDEVNEGELKEIKQDISSLRYELLEEKSQNTEDLAELIRELGEKL 7a76-a1-m1-cD_7a76-a1-m1-cA Bacillithiol Disulfide Reductase Bdr (YpdA) from Bacillus cereus Q81FS4 Q81FS4 1.65 X-RAY DIFFRACTION 34 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 324 326 7a76-a1-m1-cC_7a76-a1-m1-cB QKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVRRKSVRVNAFERVEKVQKDGEAFQVETTKRDGSKEIYIAKYIVVATGYYDNPNYMNVPGEELKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKSGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEALTIKNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPFYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASRE MQKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVRRKSVRVNAFERVEKVQKDGEAFQVETTKRDGSKEIYIAKYIVVATGYYDNPNYMNVPGEELKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKSGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEALTIKNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPFYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASREK 7a76-a1-m1-cD_7a76-a1-m1-cB Bacillithiol Disulfide Reductase Bdr (YpdA) from Bacillus cereus Q81FS4 Q81FS4 1.65 X-RAY DIFFRACTION 19 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 324 326 7a76-a1-m1-cC_7a76-a1-m1-cA QKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVRRKSVRVNAFERVEKVQKDGEAFQVETTKRDGSKEIYIAKYIVVATGYYDNPNYMNVPGEELKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKSGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEALTIKNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPFYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASRE MQKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVRRKSVRVNAFERVEKVQKDGEAFQVETTKRDGSKEIYIAKYIVVATGYYDNPNYMNVPGEELKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKSGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEALTIKNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPFYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASREK 7a76-a1-m1-cD_7a76-a1-m1-cC Bacillithiol Disulfide Reductase Bdr (YpdA) from Bacillus cereus Q81FS4 Q81FS4 1.65 X-RAY DIFFRACTION 64 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 324 325 7a76-a1-m1-cA_7a76-a1-m1-cB QKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVRRKSVRVNAFERVEKVQKDGEAFQVETTKRDGSKEIYIAKYIVVATGYYDNPNYMNVPGEELKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKSGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEALTIKNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPFYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASRE MQKETVIIIGGGPCGLAAAISLQKVGINPLVIEKGNIVNAIYNYPTHQTFFSSSEKLEIGDVAFITENRKPVRNQALAYYREVVRRKSVRVNAFERVEKVQKDGEAFQVETTKRDGSKEIYIAKYIVVATGYYDNPNYMNVPGEELKKVAHYFKEGHPYFDRDVVVIGGKNSSVDAALELVKSGARVTVLYRGIEYSPSIKPWILPEFEALVRNGTIQMHFGAHVKEITEHTLTFTVDGEALTIKNDFVFAMTGYHPDHSFLTKMGVQIDEETGRPFYTEDRMETNAENIFIAGVIAAGNNANEIFIENGRFHGDAIAQTIASRE 7a7b-a3-m1-cG_7a7b-a3-m3-cH Bacillithiol Disulfide Reductase Bdr (YpdA) from Staphylococcus aureus A0A0H2WWS2 A0A0H2WWS2 2.9 X-RAY DIFFRACTION 32 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 265 323 MQKVESIIIGGGPCGLSAAIEQKRKGIDTLIIEKGNVVESIYNYPTHQTFFSSSDKLSIGDVPFIVEESKPRRNQALVYYREVVKHHQLKVNAFEEVLTVKKMNNKFTITTTKDVYECRFLTIATGYYGQHNTLEVEGADLPKVFHYFKEAHPYFDQDFNANVTQITEDTVTYEVNGESKTIHNDYVFAMIGYHPDYEFLKSVGIQINTNEFGTAPMYNKETYETNIENCYIAGVIAAGNDANTIFIENGKFHGGIIAQSMLAKK MQKVESIIIGGGPCGLSAAIEQKRKGIDTLIIEKGNVVESIYNYPTHQTFFSSSDKLSIGDVPFIVEESKPRRNQALVYYREVVKHHQLKVNAFEEVLTVKKMNNKFTITTTKDVYECRFLTIATGYYGQHNTLEVEGADLPKVFHYFKEAHPYFDQDVVIIGGKNSAIDAALELEKAGANVTVLYRGGDYSPSIKPWILPNFTALVNHEKIDMEFNANVTQITEDTVTYEVNGESKTIHNDYVFAMIGYHPDYEFLKSVGIQINTNEFGTAPMYNKETYETNIENCYIAGVIAAGNDANTIFIENGKFHGGIIAQSMLAKKQ 7a7b-a3-m3-cG_7a7b-a3-m3-cH Bacillithiol Disulfide Reductase Bdr (YpdA) from Staphylococcus aureus A0A0H2WWS2 A0A0H2WWS2 2.9 X-RAY DIFFRACTION 51 1.0 93062 (Staphylococcus aureus subsp. aureus COL) 93062 (Staphylococcus aureus subsp. aureus COL) 265 323 7a7b-a3-m1-cG_7a7b-a3-m1-cH MQKVESIIIGGGPCGLSAAIEQKRKGIDTLIIEKGNVVESIYNYPTHQTFFSSSDKLSIGDVPFIVEESKPRRNQALVYYREVVKHHQLKVNAFEEVLTVKKMNNKFTITTTKDVYECRFLTIATGYYGQHNTLEVEGADLPKVFHYFKEAHPYFDQDFNANVTQITEDTVTYEVNGESKTIHNDYVFAMIGYHPDYEFLKSVGIQINTNEFGTAPMYNKETYETNIENCYIAGVIAAGNDANTIFIENGKFHGGIIAQSMLAKK MQKVESIIIGGGPCGLSAAIEQKRKGIDTLIIEKGNVVESIYNYPTHQTFFSSSDKLSIGDVPFIVEESKPRRNQALVYYREVVKHHQLKVNAFEEVLTVKKMNNKFTITTTKDVYECRFLTIATGYYGQHNTLEVEGADLPKVFHYFKEAHPYFDQDVVIIGGKNSAIDAALELEKAGANVTVLYRGGDYSPSIKPWILPNFTALVNHEKIDMEFNANVTQITEDTVTYEVNGESKTIHNDYVFAMIGYHPDYEFLKSVGIQINTNEFGTAPMYNKETYETNIENCYIAGVIAAGNDANTIFIENGKFHGGIIAQSMLAKKQ 7a7d-a1-m1-cd_7a7d-a1-m1-ce Cadherin fit into cryo-ET map Q02487 Q02487 26.0 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 544 544 RWAPIPCSMLENSLGPFPLFLQQVQSDTAQNYTIYYSIRGPGVDQEPRNLFYVERDTGNLYCTRPVDREQYESFEIIAFATTPDGYTPELPLPLIIKIEDENDNYPIFTEETYTFTIFENCRVGTTVGQVCATDKDEPDTMHTRLKYSIIGQVPPSPTLFSMHPTTGVITTTSSQLDRELIDKYQLKIKVQDMDGQYFGLQTTSTCIINIDDVNDHLPTFTRTSYVTSVEENTVDVEILRVTVEDKDLVNTANWRANYTILKGNENGNFKIVTDAKTNEGVLCVVKPLNYEEKQQMILQIGVVNEAPFSREASPRSAMSTATVTVNVEDQDEGPECNPPIQTVRMKENAEVGTTSNGYKAYDPETRSSSGIRYKKLTDPTGWVTIDENTGSIKVFRSLDREAETIKNGIYNITVLASDQGGRTCTGTLGIILQDVNDNSPFIPKKTVIICKPTMSSAEIVAVDPDEPIHGPPFDFSLESSTSEVQRMWRLKAINDTAARLSYQNDPPFGSYVVPITVRDRLGMSSVTSLDVTLCDCITENDCTH RWAPIPCSMLENSLGPFPLFLQQVQSDTAQNYTIYYSIRGPGVDQEPRNLFYVERDTGNLYCTRPVDREQYESFEIIAFATTPDGYTPELPLPLIIKIEDENDNYPIFTEETYTFTIFENCRVGTTVGQVCATDKDEPDTMHTRLKYSIIGQVPPSPTLFSMHPTTGVITTTSSQLDRELIDKYQLKIKVQDMDGQYFGLQTTSTCIINIDDVNDHLPTFTRTSYVTSVEENTVDVEILRVTVEDKDLVNTANWRANYTILKGNENGNFKIVTDAKTNEGVLCVVKPLNYEEKQQMILQIGVVNEAPFSREASPRSAMSTATVTVNVEDQDEGPECNPPIQTVRMKENAEVGTTSNGYKAYDPETRSSSGIRYKKLTDPTGWVTIDENTGSIKVFRSLDREAETIKNGIYNITVLASDQGGRTCTGTLGIILQDVNDNSPFIPKKTVIICKPTMSSAEIVAVDPDEPIHGPPFDFSLESSTSEVQRMWRLKAINDTAARLSYQNDPPFGSYVVPITVRDRLGMSSVTSLDVTLCDCITENDCTH 7a8u-a1-m1-cA_7a8u-a1-m2-cA Crystal structure of sarcomeric protein FATZ-1 (d91-FATZ-1 construct) in complex with rod domain of alpha-actinin-2 P35609 P35609 3.802 X-RAY DIFFRACTION 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 474 474 1hci-a1-m1-cA_1hci-a1-m1-cB 1quu-a1-m1-cA_1quu-a1-m2-cA 4d1e-a1-m1-cA_4d1e-a1-m2-cA 7a8t-a1-m1-cA_7a8t-a1-m2-cA SAVNQENERLMEEYERLASELLEWIRRTIPWLENRTPEKTMQAMQKKLEDFRDYRRKHKPPKVQEKCQLEINFNTLQTKLRISNRPAFMPSEGKMVSDIAGAWQRLEQAEKGYEEWLLNEIRRLERLEHLAEKFRQKASTHETWAYGKEQILLQKDYESASLTEVRALLRKHEAFESDLAAHQDRVEQIAAIAQELNELDYHDAVNVNDRCQKICDQWDRLGTLTQKRREALERMEKLLETIDQLHLEFAKRAAPFNNWMEGAMEDLQDMFIVHSIEEIQSLITAHEQFKATLPEADGERQSIMAIQNEVEKVIQSYNIRISSSNPYSTVTMDELRTKWDKVKQLVPIRDQSLQEELARQHANERLRRQFAAQANAIGPWIQNKMEEIARSSIQITGALEDQMNQLKQYEHNIINYKNNIDKLEGDHQLIQEALVFDNKHTNYTMEHIRVGWELLLTTIARTINEVETQILTRD SAVNQENERLMEEYERLASELLEWIRRTIPWLENRTPEKTMQAMQKKLEDFRDYRRKHKPPKVQEKCQLEINFNTLQTKLRISNRPAFMPSEGKMVSDIAGAWQRLEQAEKGYEEWLLNEIRRLERLEHLAEKFRQKASTHETWAYGKEQILLQKDYESASLTEVRALLRKHEAFESDLAAHQDRVEQIAAIAQELNELDYHDAVNVNDRCQKICDQWDRLGTLTQKRREALERMEKLLETIDQLHLEFAKRAAPFNNWMEGAMEDLQDMFIVHSIEEIQSLITAHEQFKATLPEADGERQSIMAIQNEVEKVIQSYNIRISSSNPYSTVTMDELRTKWDKVKQLVPIRDQSLQEELARQHANERLRRQFAAQANAIGPWIQNKMEEIARSSIQITGALEDQMNQLKQYEHNIINYKNNIDKLEGDHQLIQEALVFDNKHTNYTMEHIRVGWELLLTTIARTINEVETQILTRD 7a9d-a2-m3-cC_7a9d-a2-m5-cC Crystal structure of H12 Haemagglutinin P03446 P03446 2.7 X-RAY DIFFRACTION 32 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 322 322 7a9d-a1-m1-cA_7a9d-a1-m2-cA 7a9d-a1-m1-cA_7a9d-a1-m4-cA 7a9d-a1-m2-cA_7a9d-a1-m4-cA 7a9d-a2-m1-cC_7a9d-a2-m3-cC 7a9d-a2-m1-cC_7a9d-a2-m5-cC PDKICIGYQTNNSTETVNTLSEQNVPVTQVEELVHGGIDPILCGTELGSPLVLDDCSLEGLILGNPKCDLYLNGREWSYIVERPKEMEGVCYPGSIENQEELRSLFSSIKKYERVKMFDFTKWNVTYTGTSKACNNTSNQGSFYRSMRWLTLKSGQFPVQTDEYKNTRDSDIVFTWAIHHPPTSDEQVKLYKNPDTLSSVTTDEINRSFKPNIGPRPLVRGQQGRMDYYWAVLKPGQTVKIQTNGNLIAPEYGHLITGKSHGRILKNNLPMGQCVTECQLNEGVMNTSKPFQNTSKHYIGKCPKYIPSGSLKLAIGLRNVPQ PDKICIGYQTNNSTETVNTLSEQNVPVTQVEELVHGGIDPILCGTELGSPLVLDDCSLEGLILGNPKCDLYLNGREWSYIVERPKEMEGVCYPGSIENQEELRSLFSSIKKYERVKMFDFTKWNVTYTGTSKACNNTSNQGSFYRSMRWLTLKSGQFPVQTDEYKNTRDSDIVFTWAIHHPPTSDEQVKLYKNPDTLSSVTTDEINRSFKPNIGPRPLVRGQQGRMDYYWAVLKPGQTVKIQTNGNLIAPEYGHLITGKSHGRILKNNLPMGQCVTECQLNEGVMNTSKPFQNTSKHYIGKCPKYIPSGSLKLAIGLRNVPQ 7a9d-a2-m3-cD_7a9d-a2-m5-cD Crystal structure of H12 Haemagglutinin P03446 P03446 2.7 X-RAY DIFFRACTION 48 1.0 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 385582 (Influenza A virus (A/duck/Alberta/60/1976(H12N5))) 167 167 7a9d-a1-m1-cB_7a9d-a1-m2-cB 7a9d-a1-m1-cB_7a9d-a1-m4-cB 7a9d-a1-m2-cB_7a9d-a1-m4-cB 7a9d-a2-m1-cD_7a9d-a2-m3-cD 7a9d-a2-m1-cD_7a9d-a2-m5-cD GLFGAIAGFIEGGWPGLVAGWYGFQHQNAEGTGIAADRDSTQRAIDNMQNKLNNVIDKMNKQFEVVNHEFSEVESRINMINSKIDDQITDIWAYNAELLVLLENQKTLDEHDANVRNLHDRVRRVLRENAIDTGDGCFEILHKCDNNCMDTIRNGTYNHKEYEEESK GLFGAIAGFIEGGWPGLVAGWYGFQHQNAEGTGIAADRDSTQRAIDNMQNKLNNVIDKMNKQFEVVNHEFSEVESRINMINSKIDDQITDIWAYNAELLVLLENQKTLDEHDANVRNLHDRVRRVLRENAIDTGDGCFEILHKCDNNCMDTIRNGTYNHKEYEEESK 7a9y-a2-m1-cBBB_7a9y-a2-m3-cAAA Structural comparison of cellular retinoic acid binding protein I and II in the presence and absence of natural and synthetic ligands P29762 P29762 1.64 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 136 137 1cbr-a1-m1-cA_1cbr-a1-m1-cB 7a9y-a1-m2-cBBB_7a9y-a1-m1-cAAA PNFAGTWKMRSSENFDELLKALGVNAMCRKVAVAAASKPHVEIRQDGDQFYIKTSTTVRTTEINFKVGEGFEEETVDGRKCRSLATWENENKIHCTQTLLEGDGPKTYWTRELANDELILTFGADDVVCTRIYVRE MPNFAGTWKMRSSENFDELLKALGVNAMCRKVAVAAASKPHVEIRQDGDQFYIKTSTTVRTTEINFKVGEGFEEETVDGRKCRSLATWENENKIHCTQTLLEGDGPKTYWTRELANDELILTFGADDVVCTRIYVRE 7a9z-a2-m3-cAAA_7a9z-a2-m1-cBBB Structural comparison of cellular retinoic acid binding protein I and II in the presence and absence of natural and synthetic ligands P29762 P29762 2.41 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 135 136 1cbi-a1-m1-cA_1cbi-a1-m1-cB 7a9z-a1-m1-cAAA_7a9z-a1-m2-cBBB NFAGTWKMRSSENFDELLKALGVNAMCRKVAVAAASKPHVEIRQDGDQFYIKTSTTVRTTEINFKVGEGFEEETVDGRKCRSLATWENENKIHCTQTLLEGDGPKTYWTRELANDELILTFGADDVVCTRIYVRE PNFAGTWKMRSSENFDELLKALGVNAMCRKVAVAAASKPHVEIRQDGDQFYIKTSTTVRTTEINFKVGEGFEEETVDGRKCRSLATWENENKIHCTQTLLEGDGPKTYWTRELANDELILTFGADDVVCTRIYVRE 7aa3-a1-m1-cB_7aa3-a1-m1-cA T275P after heme uptake from M. tuberculosis P9WIE5 P9WIE5 3.56 ELECTRON MICROSCOPY 127 0.996 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 544 550 7a2i-a1-m1-cA_7a2i-a1-m1-cB 7a7c-a1-m1-cA_7a7c-a1-m1-cB 7a8z-a1-m1-cB_7a8z-a1-m1-cA LNLKVLHQNPAVADPMGAAFDYAAEVATIDVDALTRDIEEVMTTSQPWWPADYGHYGPLFIRMAWHAAGTYRIHDGRGGAGGLDKARRLLWPVKKKYGKKLSWADLIVFAGNCALESMGFKTFGFGFGRVDQWEPMAAAVDIRETFRRMAMNDVETAALIVGGHTFDNSFLEILYGYEWELTLATDLSLRVDPIYERITRRWLEHPEELADEFAKAWYKLIHRDMGPVARYLGPLVPKQTLLWQDPVPAVSHDLVGEAEIASLKSQIRASGLTVSQLVSTAWAAASSFRGSDKRGGANGGRIRLQPQVGWEVNDPDGDLRKVIRTLEEIQESFNSAAPGNIKVSFADLVVLGGCAAIEKAAKAAGHNITVPFTPGRTDASQEQTDVESFAVLEPKADGFRNYLGKGNPLPAEYMLLDKANLLTLSAPEMTVLVGGLRVLGANYKRLPLGVFTEASESLTNDFFVNLLDMGITWEPSPADDGTYQGKDGSGKVKWTGSRVDLVFGSNSELRALVEVYGADDAQPKFVQDFVAAWDKVMNLDRFDV RLNLKVLHQNPAVADPMGAAFDYAAEVATIDVDALTRDIEEVMTTSQPWWPADYGHYGPLFIRMAWHAAGTYRIHDGRGGAGGGMLDKARRLLWPVKKKYGKKLSWADLIVFAGNCALESMGFKTFGFGFGRVDQWEPNPDPMAAAVDIRETFRRMAMNDVETAALIVGGHTFDNSFLEILYGYEWELATDLSLRVDPIYERITRRWLEHPEELADEFAKAWYKLIHRDMGPVARYLGPLVPKQTLLWQDPVPAVSHDLVGEAEIASLKSQIRASGLTVSQLVSTAWAAASSFRGSDKRGGANGGRIRLQPQVGWEVNDPDGDLRKVIRTLEEIQESFNSAAPGNIKVSFADLVVLGGCAAIEKAAKAAGHNITVPFTPGRTDASQEQTDVESFAVLEPKADGFRNYLGKGNPLPAEYMLLDKANLLTLSAPEMTVLVGGLRVLGANYKRLPLGVFTEASESLTNDFFVNLLDMGITWEPSPADDGTYQGKDGSGKVKWTGSRVDLVFGSNSELRALVEVYGADDAQPKFVQDFVAAWDKVMNLDRFDVR 7aa5-a1-m1-cC_7aa5-a1-m1-cD Human TRPV4 structure in presence of 4a-PDD P42212 P42212 4.18 ELECTRON MICROSCOPY 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 612 612 7aa5-a1-m1-cA_7aa5-a1-m1-cB 7aa5-a1-m1-cA_7aa5-a1-m1-cC 7aa5-a1-m1-cB_7aa5-a1-m1-cD VFNRPILFDIVSRGSTADLDGLLPFLLTHKKRLTDEEFREPSTGKTCLPKALLNLSNGRNDTIPVLLDIAERTGNMREFINSPFRDIYYRGQTALHIAIERRCKHYVELLVAQGADVHAQARGRFFQPKDEGGYFYFGELPLSLAACTNQPHIVNYLTENPHKKADMRRQDSRGNTVLHALVAIADNTRENTKFVTKMYDLLLLKCARLFPDSNLEAVLNNDGLSPLMMAAKTGKIGIFQHIIRREVTDEDTRHLSRKFKDWAYGPVYSSLYDLSSLDTCGEEASVLEILVYNSKIENRHEMLAVEPINELLRDKWRKFGAVSFYINVVSYLCAMVIFTLTAYYQPLEGTPPYPYRTTVDYLRLAGEVITLFTGVLFFFTNIKDLFQLLYFIYSVLVIVSAALYLAGIEAYLAVMVFALVLGWMNALYFTRGLKLTGTYSIMIQKILFKDLFRFLLVYLLFMIGYASALVSLLNPCANMKVCNESCRDSETFSTFLLDLFKLTIGMGDLEMLSSTKYPVVFIILLVTYIILTFVLLLNMLIALMGETVGQVSKESKHIWKLQWATTILDIERSFPVFLRKAFRSGEMVTVGKSSDGTPDRRWCFRVDEVNWS VFNRPILFDIVSRGSTADLDGLLPFLLTHKKRLTDEEFREPSTGKTCLPKALLNLSNGRNDTIPVLLDIAERTGNMREFINSPFRDIYYRGQTALHIAIERRCKHYVELLVAQGADVHAQARGRFFQPKDEGGYFYFGELPLSLAACTNQPHIVNYLTENPHKKADMRRQDSRGNTVLHALVAIADNTRENTKFVTKMYDLLLLKCARLFPDSNLEAVLNNDGLSPLMMAAKTGKIGIFQHIIRREVTDEDTRHLSRKFKDWAYGPVYSSLYDLSSLDTCGEEASVLEILVYNSKIENRHEMLAVEPINELLRDKWRKFGAVSFYINVVSYLCAMVIFTLTAYYQPLEGTPPYPYRTTVDYLRLAGEVITLFTGVLFFFTNIKDLFQLLYFIYSVLVIVSAALYLAGIEAYLAVMVFALVLGWMNALYFTRGLKLTGTYSIMIQKILFKDLFRFLLVYLLFMIGYASALVSLLNPCANMKVCNESCRDSETFSTFLLDLFKLTIGMGDLEMLSSTKYPVVFIILLVTYIILTFVLLLNMLIALMGETVGQVSKESKHIWKLQWATTILDIERSFPVFLRKAFRSGEMVTVGKSSDGTPDRRWCFRVDEVNWS 7aan-a1-m1-cA_7aan-a1-m1-cB Crystal structure of the F-BAR domain of PSTIPIP1 O43586 O43586 2.14 X-RAY DIFFRACTION 285 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 285 286 7aal-a1-m1-cA_7aal-a1-m1-cB 7aam-a1-m1-cA_7aam-a1-m1-cB LQFKDAFWCRDFTAHTGYEVLLQRLLDGRKMCKDMEELLRQRAQAEERYGKELVQIARKAGGQTEINSLRASFDSLKQQMENVGSSHIQLALTLREELRSLEEFRERQKEQRKKYEAVMDRVQKSKLSLYKKAMESKKTYEQKCRDADDAEQAFERISANGHQKQVEKSQNKARQCKDSATEAERVYRQSIAQLEKVRAEWEQEHRTTCEAFQLQEFDRLTILRNALWVHSNQLSMQCVKDDELYEEVRLTLEGCSIDADIDSFIQAKSTGTEPPAPVPYQNYYD QLQFKDAFWCRDFTAHTGYEVLLQRLLDGRKMCKDMEELLRQRAQAEERYGKELVQIARKAGGQTEINSLRASFDSLKQQMENVGSSHIQLALTLREELRSLEEFRERQKEQRKKYEAVMDRVQKSKLSLYKKAMESKKTYEQKCRDADDAEQAFERISANGHQKQVEKSQNKARQCKDSATEAERVYRQSIAQLEKVRAEWEQEHRTTCEAFQLQEFDRLTILRNALWVHSNQLSMQCVKDDELYEEVRLTLEGCSIDADIDSFIQAKSTGTEPPAPVPYQNYYD 7aas-a1-m1-cA_7aas-a1-m1-cF Crystal structure of nitrosoglutathione reductase (GSNOR) from Chlamydomonas reinhardtii A0A2K3D6R4 A0A2K3D6R4 1.8 X-RAY DIFFRACTION 113 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 377 377 7aas-a2-m1-cB_7aas-a2-m1-cC 7aas-a3-m1-cE_7aas-a3-m1-cD 7aau-a1-m1-cA_7aau-a1-m1-cF 7aau-a2-m1-cB_7aau-a2-m1-cC 7aau-a3-m1-cE_7aau-a3-m1-cD 7av7-a1-m1-cA_7av7-a1-m1-cF 7av7-a2-m1-cB_7av7-a2-m1-cC 7av7-a3-m1-cE_7av7-a3-m1-cD SETAGKPIECKAAIAWEAKKPLEVRTVTVAPPGPGEVRVQIKATALCQTDAYTLGGLDPEGRFPCILGHEAAGVVESVGEGVTSVKPGDHVIPCYQAYCGECKFCKHPESNLCVSVRAFTGKGVMKSDGKPRFTVDGKPIYHFMGTSTFSEYTVVHEQSVAKIDVNAPLDKVCLLGCGVSTGWGAVFNTAKVTAGSTVAVFGLGAVGLAVIEAAKRAGASRIIAVDIDPTKFPTAKEFGATDCINPKDHEKPIQQVIVEMTEWGCDYTFECIGNTAVMRAALECAHRGWGTSVIVGVAAAGQEISTRPFQLVTGRRWMGTAFGGYKSRVQVPDLVTDYMSGATLLDKYITHNMKFDQINEAFELLHAGECLRCVLTF SETAGKPIECKAAIAWEAKKPLEVRTVTVAPPGPGEVRVQIKATALCQTDAYTLGGLDPEGRFPCILGHEAAGVVESVGEGVTSVKPGDHVIPCYQAYCGECKFCKHPESNLCVSVRAFTGKGVMKSDGKPRFTVDGKPIYHFMGTSTFSEYTVVHEQSVAKIDVNAPLDKVCLLGCGVSTGWGAVFNTAKVTAGSTVAVFGLGAVGLAVIEAAKRAGASRIIAVDIDPTKFPTAKEFGATDCINPKDHEKPIQQVIVEMTEWGCDYTFECIGNTAVMRAALECAHRGWGTSVIVGVAAAGQEISTRPFQLVTGRRWMGTAFGGYKSRVQVPDLVTDYMSGATLLDKYITHNMKFDQINEAFELLHAGECLRCVLTF 7aaw-a1-m1-cB_7aaw-a1-m1-cA Thioredoxin Reductase from Bacillus cereus Q815J1 Q815J1 2.25 X-RAY DIFFRACTION 110 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 311 315 EKIYDVVIIGAGPAGMTAAVYTSRANLSTLMLERGIPGGQMANTEDVENYPGYESILGPDLSNKMFEHAKKFGAEYAYGDVKEVIDGKEYKTIIAGKKEYKARAIIVASGAEYKKIGVPGETELGGRGVSYCAVCDGAFFKGKELIVIGGGDSAVEEGVFLTRFASKVTIVHRRDTLRAQKILQDRAFQNEKVDFIWNHTIKEINEASGKVGSVTLVDVNSGEEKEVKTDGVFVYIGMLPLSKPFVELGITNENGYLETNERMETKIPGIFAAGDVREKMLRQIVTATGDGSIAAQSAQHYVEELLEELKT VSEEKIYDVVIIGAGPAGMTAAVYTSRANLSTLMLERGIPGGQMANTEDVENYPGYESILGPDLSNKMFEHAKKFGAEYAYGDVKEVIDGKEYKTIIAGKKEYKARAIIVASGAEYKKIGVPGETELGGRGVSYCAVCDGAFFKGKELIVIGGGDSAVEEGVFLTRFASKVTIVHRRDTLRAQKILQDRAFQNEKVDFIWNHTIKEINEASGKVGSVTLVDVNSGEEKEVKTDGVFVYIGMLPLSKPFVELGITNENGYLETNERMETKIPGIFAAGDVREKMLRQIVTATGDGSIAAQSAQHYVEELLEELKTV 7ab5-a1-m1-cA_7ab5-a1-m1-cD Crystal structure of the Escherichia coli toxin-antitoxin system HipBST (HipT D233Q) B7UL98 B7UL98 2.9 X-RAY DIFFRACTION 107 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 70 70 7ab3-a1-m1-cD_7ab3-a1-m1-cA 7ab4-a1-m1-cA_7ab4-a1-m1-cD PLLTIETPRHLGEQLNARRKELGIDLYTLELQTGISTSTLKRLFKDPEQVKFGSVFAVANVLGVKLCIGE PLLTIETPRHLGEQLNARRKELGIDLYTLELQTGISTSTLKRLFKDPEQVKFGSVFAVANVLGVKLCIGE 7ab8-a1-m1-cB_7ab8-a1-m2-cB Crystal structure of a GDNF-GFRalpha1 complex Q98TU0 Q98TU0 2.2 X-RAY DIFFRACTION 106 1.0 7955 (Danio rerio) 7955 (Danio rerio) 98 98 7aml-a1-m1-cC_7aml-a1-m1-cF QGRGCLLKEIHLNVTDLDLGYRTKEELIFRYCSGPCHDAETNYDKILNNLTHNKKLDKDTPSRTCCRPIAFDDDISFLDDSLEYHTLKKHSAKKCACV QGRGCLLKEIHLNVTDLDLGYRTKEELIFRYCSGPCHDAETNYDKILNNLTHNKKLDKDTPSRTCCRPIAFDDDISFLDDSLEYHTLKKHSAKKCACV 7abo-a1-m1-cB_7abo-a1-m1-cC Structure of the N318H variant of the reversible pyrrole-2-carboxylic acid decarboxylase PA0254/HudA in complex with FMN Q9I6N5 Q9I6N5 1.95 X-RAY DIFFRACTION 271 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 496 499 4ip2-a1-m1-cB_4ip2-a1-m1-cA 4ip2-a2-m1-cC_4ip2-a2-m2-cC 4iws-a1-m1-cA_4iws-a1-m1-cB 4iws-a2-m1-cC_4iws-a2-m1-cD 7abn-a1-m1-cM_7abn-a1-m1-cD 7abn-a2-m1-cH_7abn-a2-m1-cA 7abo-a2-m1-cD_7abo-a2-m1-cA MNRSALDFRHFVDHLRRQGDLVDVHTEVDANLEIGAITRRVYERRAPAPLFHNIRDSLPGARVLGAPAGLRADRARAHSRLALHFGLPEHSGPRDIVAMLRAAMRAEPIAPRRLERGPVQENVWLGEQVDLTRFPVPLLHEQDGGRYFGTYGFHVVQTPDGSWDSWSVGRLMLVDRNTLAGPTIPTQHIGIIREQWRRLGKPTPWAMALGAPPAALAAAGMPLPEGVSEAGYVGALVGEPVEVVRTQTNGLWVPANTEIVLEGEISLDETALEGPMGEYHGYSFPIGKPQPLFHVHALSFRDQPILPICVAGTPPEEHHTIWGTMISAQLLDVAQNAGLPVDMVWCSYEAATCWAVLSIDVQRLAALGTDAAAFAARVAETVFGSHAGHLVPKLILVGNDIDVTEIDQVVWALATRAHPLHDHFAFPQIRDFPMVPYLDAEDKARGSGGRLVINCLYPEQFAGQMRAATASFRHAYPTALRRRVEERWSDYGFGDA FQSMNRSALDFRHFVDHLRRQGDLVDVHTEVDANLEIGAITRRVYERRAPAPLFHNIRDSLPGARVLGAPAGLRADRARAHSRLALHFGLPEHSGPRDIVAMLRAAMRAEPIAPRRLERGPVQENVWLGEQVDLTRFPVPLLHEQDGGRYFGTYGFHVVQTPDGSWDSWSVGRLMLVDRNTLAGPTIPTQHIGIIREQWRRLGKPTPWAMALGAPPAALAAAGMPLPEGVSEAGYVGALVGEPVEVVRTQTNGLWVPANTEIVLEGEISLDETALEGPMGEYHGYSFPIGKPQPLFHVHALSFRDQPILPICVAGTPPEEHHTIWGTMISAQLLDVAQNAGLPVDMVWCSYEAATCWAVLSIDVQRLAALGTDAAAFAARVAETVFGSHAGHLVPKLILVGNDIDVTEIDQVVWALATRAHPLHDHFAFPQIRDFPMVPYLDAEDKARGSGGRLVINCLYPEQFAGQMRAATASFRHAYPTALRRRVEERWSDYGFGDA 7abr-a1-m1-cC_7abr-a1-m1-cD Cryo-EM structure of B. subtilis ClpC (DWB mutant) hexamer bound to a substrate polypeptide P37571 P37571 3.7 ELECTRON MICROSCOPY 223 0.998 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 578 586 7abr-a1-m1-cA_7abr-a1-m1-cB 7abr-a1-m1-cB_7abr-a1-m1-cC 7abr-a1-m1-cE_7abr-a1-m1-cD ANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDALHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFTEKQGQENSEVTVDDIAMVVSSWTGVPVSKIAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASEKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTT ANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDALHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFKEKQGQENSEVTVDDIAMVVSSWTGVPVSKIAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASELKRTQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA 7abr-a1-m1-cF_7abr-a1-m1-cE Cryo-EM structure of B. subtilis ClpC (DWB mutant) hexamer bound to a substrate polypeptide P37571 P37571 3.7 ELECTRON MICROSCOPY 88 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 536 571 7abr-a1-m1-cF_7abr-a1-m1-cA NTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVGEFEDRLKKVMDEIRQAGNIILFIDALHTLIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFSEVTVDDIAMVVSSWTGVPVSKIAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGAHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA ANTPTLDSLARDLTAIAKEDSLDPVIGRSKEIQRVIEVLSRRTKNNPVLIGEPGVGKTAIAEGLAQQIINNEVPEILRDKRVMTLDMGTVVAGTKYRGEFEDRLKKVMDEIRQAGNIILFIDALHTLIGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDQPSVDESIQILQGLRDRYEAHHRVSITDDAIEAAVKLSDRYISDRFLPDKAIDLIDEAGSKVRLRSFQENSEVTVDDIAMVVSSWTGVPVSKIAQTETDKLLNMENILHSRVIGQDEAVVAVAKAVRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESIFGDEESMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRRKPYSVVLLDAIEKAHPDVFNILLQVLEDGRLTDSKGRTVDFRNTILIMTSNVGASEQNHKDMKDKVMGELKRAFRPEFINRIDEIIVFHSLEKKHLTEIVSLMSDQLTKRLKEQDLSIELTDAAKAKVAEEGVDLEYGARPLRRAIQKHVEDRLSEELLRGNIHKGQHIVLDVEDGEFVVKTTA 7acb-a1-m1-cA_7acb-a1-m1-cD Covalent/noncovalent tetramer of Capra hircus Cathelicidin-1 in DPC (dodecylphosphocholine) micelles W5VVI0 W5VVI0 NOT SOLUTION NMR 23 1.0 9925 (Capra hircus) 9925 (Capra hircus) 12 12 RICQFVLIRVCR RICQFVLIRVCR 7acb-a1-m1-cC_7acb-a1-m1-cD Covalent/noncovalent tetramer of Capra hircus Cathelicidin-1 in DPC (dodecylphosphocholine) micelles W5VVI0 W5VVI0 NOT SOLUTION NMR 36 1.0 9925 (Capra hircus) 9925 (Capra hircus) 12 12 7acb-a1-m1-cA_7acb-a1-m1-cB RICQFVLIRVCR RICQFVLIRVCR 7ace-a1-m1-cA_7ace-a1-m1-cB Covalent dimer of Capra hircus Cathelicidin-1 in water W5VVI0 W5VVI0 NOT SOLUTION NMR 38 1.0 9925 (Capra hircus) 9925 (Capra hircus) 12 12 RICQFVLIRVCR RICQFVLIRVCR 7aco-a1-m1-cA_7aco-a1-m1-cB Crystal structure of E. coli HTH-type transcriptional regulator RcdA in complex with Tris at 1.80 A resolution P75811 P75811 1.798 X-RAY DIFFRACTION 135 1.0 562 (Escherichia coli) 562 (Escherichia coli) 173 180 5x5i-a2-m1-cB_5x5i-a2-m1-cG 5x5i-a4-m1-cH_5x5i-a4-m1-cD 7acl-a1-m1-cA_7acl-a1-m1-cB 7acm-a1-m1-cA_7acm-a1-m1-cB DPQRREKIIQATLEAVKLYGIHAVTHRKIATLAGVPLGSMTYYFSGIDELLLEAFSSFTEIMSRQYQAFFSDVSDAPGACQAITDMIYSSQVATPDNMELMYQLYALASRKPLLKTVMQNWMQRSQQTLEQWFEPGTARALDAFIEGMTLHFVTDRKPLSREEILRMVERVAG MAMRRANDPQRREKIIQATLEAVKLYGIHAVTHRKIATLAGVPLGSMTYYFSGIDELLLEAFSSFTEIMSRQYQAFFSDVSDAPGACQAITDMIYSSQVATPDNMELMYQLYALASRKPLLKTVMQNWMQRSQQTLEQWFEPGTARALDAFIEGMTLHFVTDRKPLSREEILRMVERVAG 7acy-a1-m1-cB_7acy-a1-m1-cD H/L (SLPH/SLPL) complex from C. difficile (CD630 strain) Q183M8 Q183M8 2.55 X-RAY DIFFRACTION 31 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 373 373 7qgq-a1-m1-cB_7qgq-a1-m1-cD 7qgq-a1-m1-cJ_7qgq-a1-m1-cT 7qgq-a1-m1-cK_7qgq-a1-m1-cV 7qgq-a1-m1-cL_7qgq-a1-m1-cU 7qgq-a1-m1-cM_7qgq-a1-m1-cW 7qgq-a1-m1-cN_7qgq-a1-m1-cX NDTIASQDTPAKVVIKANKLKDLKDYVDDLKTYNNTYSNVVTVAGEDRIETAIELSSKYYNSDDKNAITDKAVNDIVLVGSTSIVDGLVASPLASEKTAPLLLTSKDKLDSSVKSEIKRVMNLKSDTGINTSKKVYLAGGVNSISKDVENELKNMGLKVTRLSGEDRYETSLAIADEIGLDNDKAFVVGGTGLADAMSIAPVASQLKDGDATPIVVVDGKAKEISDDAKSFLGTSDVDIIGGKNSVSKEIEESIDSATGKTPDRISGDDRQATNAEVLKEDDYFTDGEVVNYFVAKDGSTKEDQLVDALAAAPIAGRFKESPAPIILATDTLSSDQNVAVSKAVPKDGGTNLVQVGKGIASSVINKMKDLLDM NDTIASQDTPAKVVIKANKLKDLKDYVDDLKTYNNTYSNVVTVAGEDRIETAIELSSKYYNSDDKNAITDKAVNDIVLVGSTSIVDGLVASPLASEKTAPLLLTSKDKLDSSVKSEIKRVMNLKSDTGINTSKKVYLAGGVNSISKDVENELKNMGLKVTRLSGEDRYETSLAIADEIGLDNDKAFVVGGTGLADAMSIAPVASQLKDGDATPIVVVDGKAKEISDDAKSFLGTSDVDIIGGKNSVSKEIEESIDSATGKTPDRISGDDRQATNAEVLKEDDYFTDGEVVNYFVAKDGSTKEDQLVDALAAAPIAGRFKESPAPIILATDTLSSDQNVAVSKAVPKDGGTNLVQVGKGIASSVINKMKDLLDM 7ad1-a1-m1-cB_7ad1-a1-m1-cC Cryo-EM structure of a prefusion stabilized SARS-CoV-2 Spike (D614N, R682S, R685G, A892P, A942P and V987P)(One up trimer) M1E1E4 M1E1E4 2.92 ELECTRON MICROSCOPY 266 0.989 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 935 945 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFTVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQNVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQNVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ad1-a1-m1-cC_7ad1-a1-m1-cA Cryo-EM structure of a prefusion stabilized SARS-CoV-2 Spike (D614N, R682S, R685G, A892P, A942P and V987P)(One up trimer) M1E1E4 M1E1E4 2.92 ELECTRON MICROSCOPY 313 0.99 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 945 950 7ad1-a1-m1-cB_7ad1-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQNVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDYNYLYRLFRKSNLKPFERDISTFPLQSYGFQPTNGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQNVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7adr-a1-m1-cB_7adr-a1-m1-cE CO bound as bridging ligand at the active site of vanadium nitrogenase VFe protein P16856 P16856 1 X-RAY DIFFRACTION 102 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 465 466 5n6y-a1-m1-cB_5n6y-a1-m1-cE 6fea-a1-m1-cB_6fea-a1-m1-cE 7ady-a1-m1-cB_7ady-a1-m1-cE 7aiz-a1-m1-cB_7aiz-a1-m1-cE PAEVKLSPRDREGIINPMYDCQPAGAQYAGIGIKDCIPLVHGGQGCTMFVRLLFAQHFKENFDVASTSLHEESAVFGGAKRVEEGVLVLARRYPNLRVIPIITTCSTEVIGDDIEGSIRVCNRALEAEFPDRKIYLAPVHTPSFKGSHVTGYAECVKSVFKTITDAHGKGQPSGKLNVFPGWVNPGDVVLLKRYFKEMDVEANIYMDTEDFDSPMLPNKSIETHGRTTVEDIADSANALATLSLARYEGNTTGELLQKTFAVPNALVNTPYGIKNTDDMLRKIAEVTGKEIPESLVRERGIALDALADLAHMFFANKKVAIFGHPDLVLGLAQFCMEVELEPVLLLIGDDQGNKYKKDPRIEELKNTAHFDIEIVHNADLWELEKRINAGLQLDLIMGHSKGRYVAIEANIPMVRVGFPTFDRAGLYRKPSIGYQGAMELGEMIANAMFAHMEYTRNKEWILNTW KPAEVKLSPRDREGIINPMYDCQPAGAQYAGIGIKDCIPLVHGGQGCTMFVRLLFAQHFKENFDVASTSLHEESAVFGGAKRVEEGVLVLARRYPNLRVIPIITTCSTEVIGDDIEGSIRVCNRALEAEFPDRKIYLAPVHTPSFKGSHVTGYAECVKSVFKTITDAHGKGQPSGKLNVFPGWVNPGDVVLLKRYFKEMDVEANIYMDTEDFDSPMLPNKSIETHGRTTVEDIADSANALATLSLARYEGNTTGELLQKTFAVPNALVNTPYGIKNTDDMLRKIAEVTGKEIPESLVRERGIALDALADLAHMFFANKKVAIFGHPDLVLGLAQFCMEVELEPVLLLIGDDQGNKYKKDPRIEELKNTAHFDIEIVHNADLWELEKRINAGLQLDLIMGHSKGRYVAIEANIPMVRVGFPTFDRAGLYRKPSIGYQGAMELGEMIANAMFAHMEYTRNKEWILNTW 7adz-a1-m1-c0E_7adz-a1-m1-c0F Cryo-EM structure of an extracellular contractile injection system in marine bacterium Algoriphagus machipongonensis, the cap portion in extended state. A3HTC4 A3HTC4 2.5 ELECTRON MICROSCOPY 71 1.0 388413 (Algoriphagus machipongonensis) 388413 (Algoriphagus machipongonensis) 197 197 7adz-a1-m1-c0A_7adz-a1-m1-c0B 7adz-a1-m1-c0A_7adz-a1-m1-c0F 7adz-a1-m1-c0B_7adz-a1-m1-c0C 7adz-a1-m1-c0C_7adz-a1-m1-c0D 7adz-a1-m1-c0D_7adz-a1-m1-c0E MIFEVLKILTDEVNQNFKGLEMEDSEVVLNNVALIDSQQDVATELQNKVILSMINLREEVTMKNFPNNVLEGTKVTYKNPKLNINLFLIFCANRTGYKKSLSDLSRILEFFQHKSVFTQSNTSFDRDLEEMENVKNFRFTMELFTPTFEELNYIWGTLGGRQYPSVFYKLNLIVIDRDATTSEEGVITNIHRNYETL MIFEVLKILTDEVNQNFKGLEMEDSEVVLNNVALIDSQQDVATELQNKVILSMINLREEVTMKNFPNNVLEGTKVTYKNPKLNINLFLIFCANRTGYKKSLSDLSRILEFFQHKSVFTQSNTSFDRDLEEMENVKNFRFTMELFTPTFEELNYIWGTLGGRQYPSVFYKLNLIVIDRDATTSEEGVITNIHRNYETL 7ae8-a1-m1-cB_7ae8-a1-m1-cA Crystal structure of HEPN(R102A) toxin A0A0B0QJR1 A0A0B0QJR1 2 X-RAY DIFFRACTION 45 1.0 1532906 (Aphanizomenon flos-aquae 2012/KM1/D3) 1532906 (Aphanizomenon flos-aquae 2012/KM1/D3) 150 152 7ae2-a1-m1-cA_7ae2-a1-m2-cA 7ae6-a1-m1-cB_7ae6-a1-m1-cA 7ae8-a2-m1-cC_7ae8-a2-m1-cD 7ae9-a1-m1-cB_7ae9-a1-m1-cA 7ae9-a2-m1-cD_7ae9-a2-m1-cC TNIEPVIIETRLELIGRYLDHLKKFENISLDDYLSSFEQQLITERLLQLITQAAIDINDHILSKLKSGKSYTNFEAFIELGKYQILTPELAKQIAPSSGLANRLVHEYDDIDPNQVFMAISFALQQYPLYVRQINSYLITLEEENDLESG TNIEPVIIETRLELIGRYLDHLKKFENISLDDYLSSFEQQLITERLLQLITQAAIDINDHILSKLKSGKSYTNFEAFIELGKYQILTPELAKQIAPSSGLANRLVHEYDDIDPNQVFMAISFALQQYPLYVRQINSYLITLEEENDLESGHH 7aed-a1-m1-cA_7aed-a1-m1-cB VirB8 domain of PrgL from Enterococcus faecalis pCF10 D1LHF8 D1LHF8 1.753 X-RAY DIFFRACTION 63 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 128 138 EELTTSTVKKFLIAYYTKKDLGENRNRYEPLVTSAMYNELVNVEKQPVNQAYKGYVVNQVLDTYKIYIDTENNEVIVDVTYKNTQRTKRNNDEGALKNQSNQEALKLTFVKQGANFLVDKMAPVTLTN EELTTSTVKKFLIAYYTKKDLGENRNRYEPLVTSAMYNELVNVEKQPVNQAYKGYVVNQVLDTYKIYIDTENNEVIVDVTYKNTQRTKRNNDEGALKNQSNQEALKLTFVKQGANFLVDKMAPVTLTNELQEEPNSYN 7aef-a1-m1-cr_7aef-a1-m1-cs Cryo-EM structure of an extracellular contractile injection system in marine bacterium Algoriphagus machipongonensis, the baseplate complex in extended state applied 3-fold symmetry. A3HTB7 A3HTB7 2.8 ELECTRON MICROSCOPY 498 1.0 388413 (Algoriphagus machipongonensis) 388413 (Algoriphagus machipongonensis) 580 580 7aef-a1-m1-cq_7aef-a1-m1-cr 7aef-a1-m1-cq_7aef-a1-m1-cs NNSGTIETSQSVDRVTHKILIDGSEIPGTYQVKSIQVTKEVNRIPTARLVILDGDAAERDFKVSNSDHFVPGKEIEITVGYHSDDETIFKGVVIRQNLKIRNNQSILIVESRDMAVKMTLRRKSKYFYELSDSDILEELISNHGLEADVASTENQHTELVQYDVTDWDFMMLRLQANGLLCLVDDGKVSIQKPDLSSEALETVTFGATILEFDAEMDARNQLPKVVSQAWNMSDQELLEKEGVDPSLETNGNISSSDLASLFDQEEEVLRHGGSKKDGSLQEWANAKWTFQQLAKTRGRIKFQGIPTVKPGVNLLLEGVGDRFNGKVFITGVNHQISEGNWTVDAQFGLNPEWFSESESNIHTPPAAGLTAAISGLHVGLVTDLEDPDGEDRIKVKIPIINNEEEGVWCRQAFPDAGNERGITFRPEIEDEVIVGFINEDPNDAVVLGMLHSSANPNPIEASNDNHEKGIQTRSGIKMIFNDEKSILQIETPTGNLVTLDDDAGSITIEDQNGNKTVMDSDGITMESAKDMNLKASGDINLEGTNVNIKANAEFKAEGSAGAEVSTSAVAVLKGSLVQIN NNSGTIETSQSVDRVTHKILIDGSEIPGTYQVKSIQVTKEVNRIPTARLVILDGDAAERDFKVSNSDHFVPGKEIEITVGYHSDDETIFKGVVIRQNLKIRNNQSILIVESRDMAVKMTLRRKSKYFYELSDSDILEELISNHGLEADVASTENQHTELVQYDVTDWDFMMLRLQANGLLCLVDDGKVSIQKPDLSSEALETVTFGATILEFDAEMDARNQLPKVVSQAWNMSDQELLEKEGVDPSLETNGNISSSDLASLFDQEEEVLRHGGSKKDGSLQEWANAKWTFQQLAKTRGRIKFQGIPTVKPGVNLLLEGVGDRFNGKVFITGVNHQISEGNWTVDAQFGLNPEWFSESESNIHTPPAAGLTAAISGLHVGLVTDLEDPDGEDRIKVKIPIINNEEEGVWCRQAFPDAGNERGITFRPEIEDEVIVGFINEDPNDAVVLGMLHSSANPNPIEASNDNHEKGIQTRSGIKMIFNDEKSILQIETPTGNLVTLDDDAGSITIEDQNGNKTVMDSDGITMESAKDMNLKASGDINLEGTNVNIKANAEFKAEGSAGAEVSTSAVAVLKGSLVQIN 7aef-a1-m1-cu_7aef-a1-m1-cv Cryo-EM structure of an extracellular contractile injection system in marine bacterium Algoriphagus machipongonensis, the baseplate complex in extended state applied 3-fold symmetry. A3HTB9 A3HTB9 2.8 ELECTRON MICROSCOPY 23 1.0 388413 (Algoriphagus machipongonensis) 388413 (Algoriphagus machipongonensis) 40 40 7aef-a1-m1-ct_7aef-a1-m1-cu 7aef-a1-m1-ct_7aef-a1-m1-cv PIEIKELHIKITVDDSEDKQQLVAQCVEQVLDVLKSQKER PIEIKELHIKITVDDSEDKQQLVAQCVEQVLDVLKSQKER 7ag0-a1-m1-cA_7ag0-a1-m2-cA Complex between the bone morphogenetic protein 2 and its antagonist Noggin Q13253 Q13253 3.104 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 LHIRPAPSDNLPLVDLIEHPDPIFDPKEKDLNETLLRSLLGGHYDPGFMATSPPRRKLQMWLWSQTFCPVLYAWNDLGSRFWPRYVKVGSCFSKRSCSVPEGMVCKPSKSVHLTVLRWRCQRCGWIPIQYPIISECKCSC LHIRPAPSDNLPLVDLIEHPDPIFDPKEKDLNETLLRSLLGGHYDPGFMATSPPRRKLQMWLWSQTFCPVLYAWNDLGSRFWPRYVKVGSCFSKRSCSVPEGMVCKPSKSVHLTVLRWRCQRCGWIPIQYPIISECKCSC 7ag1-a1-m1-cZ_7ag1-a1-m2-cZ Crystal structure of E. coli SFP aldolase (YihT) from sulfo-EMP pathway P32141 P32141 2 X-RAY DIFFRACTION 49 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 297 297 7ag1-a1-m1-cX_7ag1-a1-m2-cX NKYTINDITRASGGFAMLAVDQREAMRMMFAAAGAPAPVADSVLTDFKVNAAKALSPYASAILVDQQFCYRQVVEQNAIAKSCAMIVAADEFIPGNGIPVDSVVIDRKINPLQIKQDGGKALKLLVLWRSDEDAQQRLDMVKEFNELCHSHGLVSIIEPVVRPPRRGDKFDREQAIIDAAKELGDSGADLYKVEMPLYGKGPQQELLCASQRLNDHINMPWVILSSGVDEKLFPRAVRVAMTAGASGFLAGRAVWASVVGLPDNELMLRDVCAPKLQQLGDIVDEMMAKRRLEHHHH NKYTINDITRASGGFAMLAVDQREAMRMMFAAAGAPAPVADSVLTDFKVNAAKALSPYASAILVDQQFCYRQVVEQNAIAKSCAMIVAADEFIPGNGIPVDSVVIDRKINPLQIKQDGGKALKLLVLWRSDEDAQQRLDMVKEFNELCHSHGLVSIIEPVVRPPRRGDKFDREQAIIDAAKELGDSGADLYKVEMPLYGKGPQQELLCASQRLNDHINMPWVILSSGVDEKLFPRAVRVAMTAGASGFLAGRAVWASVVGLPDNELMLRDVCAPKLQQLGDIVDEMMAKRRLEHHHH 7ag1-a1-m2-cX_7ag1-a1-m2-cZ Crystal structure of E. coli SFP aldolase (YihT) from sulfo-EMP pathway P32141 P32141 2 X-RAY DIFFRACTION 49 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 293 297 7ag1-a1-m1-cX_7ag1-a1-m1-cZ NKYTINDITRASGGFAMLAVDQREAMRMMFAAAGAPAPVADSVLTDFKVNAAKALSPYASAILVDQQFCYRQVVEQNAIAKSCAMIVAADEFIPGNGIPVDSVVIDRKINPLQIKQDGGKALKLLVLWRSDEDAQQRLDMVKEFNELCHSHGLVSIIEPVVRPPRRGDKFDREQAIIDAAKELGDSGADLYKVEMPLYGKGPQQELLCASQRLNDHINMPWVILSSGVDEKLFPRAVRVAMTAGASGFLAGRAVWASVVGLPDNELMLRDVCAPKLQQLGDIVDEMMAKRRLE NKYTINDITRASGGFAMLAVDQREAMRMMFAAAGAPAPVADSVLTDFKVNAAKALSPYASAILVDQQFCYRQVVEQNAIAKSCAMIVAADEFIPGNGIPVDSVVIDRKINPLQIKQDGGKALKLLVLWRSDEDAQQRLDMVKEFNELCHSHGLVSIIEPVVRPPRRGDKFDREQAIIDAAKELGDSGADLYKVEMPLYGKGPQQELLCASQRLNDHINMPWVILSSGVDEKLFPRAVRVAMTAGASGFLAGRAVWASVVGLPDNELMLRDVCAPKLQQLGDIVDEMMAKRRLEHHHH 7ag9-a1-m1-cA_7ag9-a1-m1-cB Structure of the Kar9 protein G0VE12 G0VE12 3.3 X-RAY DIFFRACTION 51 0.987 1064592 (Naumovozyma castellii CBS 4309) 1064592 (Naumovozyma castellii CBS 4309) 375 384 ILPMELQNLLPRLEATVTDLKLAHKLDVVKIRQQLQWIHDTIIIIQSTLANGLFPSDFKEYQEMHKYMNAILERKVELFKFINCINEVEPVLSHILDLLEEDLSATPKGNVDFDLLFDLIENCTHESNFLTPNLKQLKECIDAAMEFNEISRDHMDTLDDLINKNVEKCFEIQELKFSSDQLIKLLSSNNKIPNFSPVEESLSRKFLILKRNIPPIEQSLTEILPQRIEQFCGRNIININLLADFLQLKYKRIMKNFRFMMNEIKDLKIELIDKRWNILFINLNNELEYIIEEVRLLLKKINENDDLAQTIKDRFNSQLAKKSKIITKTFNIIYRALEFSLLDAGIALKTNELAKVWVDLRPKSDEILLHIKKFD LPMELQNLLPRLEATVTDLKLAHKLDVVKIRQQLQWIHDTIIIIQSTLANGLFPSDFKEYQEMHKYMNAILERKVELFKFINCINEVEPVLSHILDLLEEDLSATPKGNVDFDLLFDLIENCTHESNFLTPNLKQLKECIDAAMEFNEISRDHMDTLDDLINKNVEKCFEIQELKFSSPVRHTPNFTLDQLIKLLSSNNNTEPKIPNFSPVEESLSRKFLILKRNIPPIEQSLTEILPQRIEQFCGRNIININLLADFLQLKYKRIMKNFRFMMNEIKDLKIELIDKRWNILFINLNNELEYIIEEVRLLLKKINENDDLAQTIKDRFNSQLAKKSKIITKTFNIIYRALEFSLLDAGIALKTNELAKVWVDLRPKSDEILLHI 7agh-a2-m1-cA_7agh-a2-m2-cD Crystal structure of SF kinase YihV from E. coli in complex with AMPPNP-Mg P32143 P32143 2.93 X-RAY DIFFRACTION 91 0.997 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 295 296 7ag6-a1-m1-cB_7ag6-a1-m1-cA 7agh-a1-m1-cB_7agh-a1-m1-cC 7agk-a1-m1-cD_7agk-a1-m1-cC 7agk-a2-m1-cA_7agk-a2-m1-cB MIRVACVGITVMDRIYYVEGLPTESGKYVARNYTEVGGGPAATAAVAAARLGAQVDFIGRVGDDDTGNSLLAELESWGVNTRYTKRYNQAKSSQSAIMVDTKGERIIINYPSPDLLPDAEWLEEIDFSQWDVVLADVRWHDGAKKAFTLARQAGVMTVLDGDITPQDISELVALSDHAAFSEPGLARLTGVKEMASALKQAQTLTNGHVYVTQGSAGCDWLEGRQHQPAFKVDVVDTTGAGDVFHGALAVALATSGDLAESVRFASGVAALKCTRPGGRAGIPDCDQTRSFLSLF MIRVACVGITVMDRIYYVEGLPTESGKYVARNYTEVGGGPAATAAVAAARLGAQVDFIGRVGDDDTGNSLLAELESWGVNTRYTKRYNQAKSSQSAIMVDTKGERIIINYPSPDLLPDAEWLEEIDFSQWDVVLADVRWHDGAKKAFTLARQAGVMTVLDGDITPQDISELVALSDHAAFSEPGLARLTGVKEMASALKQAQTLTNGHVYVTQGSAGCDWLENGGRQHQPAFKVDVVDTTGAGDVFHGALAVALATSGDLAESVRFASGVAALKCTRPGGRAGIPDCDQTRSFLSL 7agj-a1-m1-cB_7agj-a1-m1-cA Ribonucleotide Reductase R1 protein from Aquifex aeolicus O66503 O66503 2.7 X-RAY DIFFRACTION 93 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 721 731 MYVIKRSGRKEKLDINKIRIAIKFACEGLNVDPLELEADAQIQFRDGITTKEIQQLLIKTAAEKVSAERPDWTYTAARLLLYDLYKDVAHLRGYSLRDDLGKYKPYNRKNFYSFVKEYVEKGIYGEYLLENYSEEDFNKLANYIKPERDLYFTYTGIKILYDRYLVRDEEGRVIELPQEMYMLIAMTLAVPEKPEERLKWAKKFYDVLSEHKVTVATPTLMNARRPFTQLSSCFVLTVDDDLFDIFDNVKKAGMISKFAGGLGVYLGKIRATVIPVVKLINDTMTYVSASITLDIWHKDILDFLEVKTHDIHPAVSIPDLFMKRLKNREDWTLIDPYWARQYITRKIEPKGLEDFYGEEFEKWYLELEENLPSYAKKKVNSFELWKRLLTVAFETGEPYIFFRDEANRKNPNKHTGMVYSSNLCHEIVQTMSPSKHEKPVLDPETGEITYKKEAGDLPVCNLGSVNLGKVHTEEEIKEVLPLLVRMLDNVIEMNFYAIPEAEYTNKRYRAIGIGVSNYHYCLVKNGIKWESEEHLKFADKLFELIAFYALKGSLELAKERGRYKLFDGSNWSKGILFGRSVEEIEENSRQNGNNLPWRELAEEIKKYGIRNAYLLALMPTGSTSLILGATPSIDPIFARFYKEILPQVPPEVDRFYWHYKTAYTIDHEWTIRAAAVRQKWIDQAQSLNLFVDPQNIDGPRLSRLYELAWELGLKTIYYLRS TMYVIKRSGRKEKLDINKIRIAIKFACEGLNVDPLELEADAQIQFRDGITTKEIQQLLIKTAAEKVSAERPDWTYTAARLLLYDLYKDVAHLRGYSLRDDLGKYKPYNRKNFYSFVKEYVEKGIYGEYLLENYSEEDFNKLANYIKPERDLYFTYTGIKILYDRYLVRDEEGRVIELPQEMYMLIAMTLAVPEKPEERLKWAKKFYDVLSEHKVTVATPTLMNARRPFTQLSSCFVLTVDDDLFDIFDNVKKAGMISKFAGGLGVYLGKIRATSGVIPVVKLINDTMTYVSASITLDIWHKDILDFLEVKTERKKAHDIHPAVSIPDLFMKRLKNREDWTLIDPYWARQYITRKIEPKGLEDFYGEEFEKWYLELEENLPSYAKKKVNSFELWKRLLTVAFETGEPYIFFRDEANRKNPNKHTGMVYSSNLCHEIVQTMSPSKHEKPVLDPETGEITYKKEAGDLPVCNLGSVNLGKVHTEEEIKEVLPLLVRMLDNVIEMNFYAIPEAEYTNKRYRAIGIGVSNYHYCLVKNGIKWESEEHLKFADKLFELIAFYALKGSLELAKERGRYKLFDGSNWSKGILFGRSVEEIEENSRQNGNNLPWRELAEEIKKYGIRNAYLLALMPTGSTSLILGATPSIDPIFARFYKEENILPQVPPEVDRFYWHYKTAYTIDHEWTIRAAAVRQKWIDQAQSLNLFVDPQNIDGPRLSRLYELAWELGLKTIYYLRS 7agv-a4-m1-cG_7agv-a4-m1-cH High-resolution structure of the K+/H+ antiporter subunit KhtT in complex with c-di-AMP O07535 O07535 1.85 X-RAY DIFFRACTION 197 0.994 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 160 162 7agv-a1-m1-cA_7agv-a1-m1-cB 7agv-a2-m1-cC_7agv-a2-m1-cD 7agv-a3-m1-cE_7agv-a3-m1-cF SGLNIKENDLPGIGKKFEIETRSHEKMTIIIHDDGRREIYRFNDRDPDELLSNISLDDSEARQIAAILGGMVYKPQALESIEMAFSDLIIEWFKVEKGAKSIGRTLGELDVRQNYDVTVIAIIKHNQEKLLNPGADSIIEENDTLVLSGERKHLKKLIHD GLNIKENDLPGIGKKFEIETRSHEKMTIIIHDDGRREIYRFNDRDPDELLSNISLDDSEARQIAAILGGMVYKPQALESIEMAFSDLIIEWFKVEKGAKSIGRTLGELDVRQNYDVTVIAIIKHNQEKLLNPGADSIIEENDTLVLSGERKHLKKLIHDFLS 7agx-a1-m1-c1G_7agx-a1-m1-c1H Apo-state type 3 secretion system export apparatus complex from Salmonella enterica typhimurium P0A1L7 P0A1L7 3.6 ELECTRON MICROSCOPY 37 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 73 83 DDLVFAGNKALYLVLILSGWPTIVATIIGLLVGLFLPFGIKLLGVCLCLFLLSGWYGEVLLSYGRQVIFLALA DDLVFAGNKALYLVLILSGWPTIVATIIGLLVGLFQTVTQLQEQTLPFGIKLLGVCLCLFLLSGWYGEVLLSYGRQVIFLALA 7ah1-a1-m1-cA_7ah1-a1-m2-cA L19 diabody fragment from immunocytokine L19-IL2 A2KBC1 A2KBC1 2 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 227 EVQLLESGGGLVQPGGSLRLSCAASGFTFSSFSMSWVRQAPGKGLEWVSSISGSSGTTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAKPFPYFDYWGQGTLVTVSSGASEIVLTQSPGTLSLSPGERATLSCRASQSVSSSFLAWYQQKPGQAPRLLIYYASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQTGRIPPTFGQGTKVEIK EVQLLESGGGLVQPGGSLRLSCAASGFTFSSFSMSWVRQAPGKGLEWVSSISGSSGTTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCAKPFPYFDYWGQGTLVTVSSGASEIVLTQSPGTLSLSPGERATLSCRASQSVSSSFLAWYQQKPGQAPRLLIYYASSRATGIPDRFSGSGSGTDFTLTISRLEPEDFAVYYCQQTGRIPPTFGQGTKVEIK 7ah2-a1-m1-cAAA_7ah2-a1-m1-cBBB Crystal structure of Zebrafish MDM2 RING domain homodimer O42354 O42354 2.872 X-RAY DIFFRACTION 66 1.0 7955 (Danio rerio) 7955 (Danio rerio) 58 58 CLEPCVICQSRPKNGCIVHGRTGHLMACYTCAKKLKNRNKLCPVCREPIQSVVLTYMS CLEPCVICQSRPKNGCIVHGRTGHLMACYTCAKKLKNRNKLCPVCREPIQSVVLTYMS 7ahd-a1-m1-cB_7ahd-a1-m1-cA OpuA (E190Q) occluded A0A0V8ETW8 A0A0V8ETW8 3.4 ELECTRON MICROSCOPY 264 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 294 547 GQVPIANWVSSATDWITSTFSSGFDVIQKSGTVLMNGITGALTAVPFWLMIAVVTILAILVSGKKIAFPLFTFIGLSLIANQGLWSDLMSTITLVLLSSLLSIIIGVPLGIWMAKSDLVAKIVQPILDFMQTMPGFVYLIPAVAFFGIGVVPGVFASVIFALPPTVRMTNLGIRQVSTELVEAADSFGSTARQKLFKLEFPLAKGTIMAGVNQTIMLALSMVVIASMIGAPGLGRGVLAAVQSADIGKGFVSGISLVILAIIIDRFTQKLNVVKKWKRGIALVSLLALIIGAFS GQVPIANWVSSATDWITSTFSSGFDVIQKSGTVLMNGITGALTAVPFWLMIAVVTILAILVSGKKIAFPLFTFIGLSLIANQGLWSDLMSTITLVLLSSLLSIIIGVPLGIWMAKSDLVAKIVQPILDFMQTMPGFVYLIPAVAFFGIGVVPGVFASVIFALPPTVRMTNLGIRQVSTELVEAADSFGSTARQKLFKLEFPLAKGTIMAGVNQTIMLALSMVVIASMIGAPGLGRGVLAAVQSADIGKGFVSGISLVILAIIIDRFTQKLNVVKKWKRGIALVSLLALIIGAFSDKKVDLVYMNWDSEVASINVLTQAMKEHGFDVKTTALDNAVAWQTVANGQADGMVSAWLPNTHKTQWQKYGKSVDLLGPNLKGAKVGFVVPSYMNVNSIEDLTNQANKTITGIEPGAGVMAASEKTLNSYDNLKDWKLVPSSSGAMTVALGEAIKQHKDIVITGWSPHWMFNKYDLKYLADPKGTMGTSENINTIVRKGLKKENPEAYKVLDKFNWTTKDMEAVMLDIQNGKTPEEAAKNWIKDHQKEVDKWF 7ahd-a1-m1-cC_7ahd-a1-m1-cD OpuA (E190Q) occluded Q9KIF7 Q9KIF7 3.4 ELECTRON MICROSCOPY 85 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 260 260 VKIKIEHLTKIFGKRIKTALTMVEKGEPKNEILKKTGATVGVYDTNFEINEGEIFVIMGLSGSGKSTLLRLLNRLIEPTSGKIFIDNQDVATLNKEDLLQVRRKTMSMVFQNFGLFPHRTILENTEYGLEVQNVPKEERRKRAEKALDNANLLDFKDQYPKQLSGGMQQRVGLARALANDPEILLMDQAFSALDPLIRREMQDELLELQAKFQKTIIFVSHDLNEALRIGDRIAIMKDGKIMQIGTGEEILTNPANDYVK VKIKIEHLTKIFGKRIKTALTMVEKGEPKNEILKKTGATVGVYDTNFEINEGEIFVIMGLSGSGKSTLLRLLNRLIEPTSGKIFIDNQDVATLNKEDLLQVRRKTMSMVFQNFGLFPHRTILENTEYGLEVQNVPKEERRKRAEKALDNANLLDFKDQYPKQLSGGMQQRVGLARALANDPEILLMDQAFSALDPLIRREMQDELLELQAKFQKTIIFVSHDLNEALRIGDRIAIMKDGKIMQIGTGEEILTNPANDYVK 7ahe-a1-m1-cA_7ahe-a1-m1-cB OpuA inhibited inward facing A0A0V8ETW8 A0A0V8ETW8 4.1 ELECTRON MICROSCOPY 138 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 272 272 7ahc-a1-m1-cA_7ahc-a1-m1-cB 7ahh-a1-m1-cB_7ahh-a1-m1-cA GQVPIANWVSSATDWITSTFSSGFDVIQKSGTVLMNGITGALTAVPFWLMIAVVTILAILVSGKKIAFPLFTFIGLSLIANQGLWSDLMSTITLVLLSSLLSIIIGVPLGIWMAKSDLVAKIVQPILDFMQTMPGFVYLIPAVAFFGIGVVPGVFASVIFALPPTVRMTNLGIRQVSTELVEAADSFGSTARQKLFKLEFPLAKGTIMAGVNQTIMLALSMVVIASMIGAPGLGRGVLAAVQSADIGKGFVSGISLVILAIIIDRFTQKLNV GQVPIANWVSSATDWITSTFSSGFDVIQKSGTVLMNGITGALTAVPFWLMIAVVTILAILVSGKKIAFPLFTFIGLSLIANQGLWSDLMSTITLVLLSSLLSIIIGVPLGIWMAKSDLVAKIVQPILDFMQTMPGFVYLIPAVAFFGIGVVPGVFASVIFALPPTVRMTNLGIRQVSTELVEAADSFGSTARQKLFKLEFPLAKGTIMAGVNQTIMLALSMVVIASMIGAPGLGRGVLAAVQSADIGKGFVSGISLVILAIIIDRFTQKLNV 7ahh-a1-m1-cC_7ahh-a1-m1-cD OpuA inhibited inward-facing, SBD docked Q9KIF7 Q9KIF7 3.5 ELECTRON MICROSCOPY 121 1.0 1360 (Lactococcus lactis subsp. lactis) 1360 (Lactococcus lactis subsp. lactis) 382 382 7ahe-a1-m1-cC_7ahe-a1-m1-cD VKIKIEHLTKIFGKRIKTALTMVEKGEPKNEILKKTGATVGVYDTNFEINEGEIFVIMGLSGSGKSTLLRLLNRLIEPTSGKIFIDNQDVATLNKEDLLQVRRKTMSMVFQNFGLFPHRTILENTEYGLEVQNVPKEERRKRAEKALDNANLLDFKDQYPKQLSGGMQQRVGLARALANDPEILLMDEAFSALDPLIRREMQDELLELQAKFQKTIIFVSHDLNEALRIGDRIAIMKDGKIMQIGTGEEILTNPANDYVKTFVEDTAENIMIPALTTNIDVDGPSVALKKMKTEEVSSLMAVDKKRQFRGVVTSEQAIAARKNNQPLKDVMTTDVGTVSKEMLVRDILPIIYDAPTPLAVVDDNGFLKGVLIRGSVLEALAD VKIKIEHLTKIFGKRIKTALTMVEKGEPKNEILKKTGATVGVYDTNFEINEGEIFVIMGLSGSGKSTLLRLLNRLIEPTSGKIFIDNQDVATLNKEDLLQVRRKTMSMVFQNFGLFPHRTILENTEYGLEVQNVPKEERRKRAEKALDNANLLDFKDQYPKQLSGGMQQRVGLARALANDPEILLMDEAFSALDPLIRREMQDELLELQAKFQKTIIFVSHDLNEALRIGDRIAIMKDGKIMQIGTGEEILTNPANDYVKTFVEDTAENIMIPALTTNIDVDGPSVALKKMKTEEVSSLMAVDKKRQFRGVVTSEQAIAARKNNQPLKDVMTTDVGTVSKEMLVRDILPIIYDAPTPLAVVDDNGFLKGVLIRGSVLEALAD 7ahi-a1-m1-c1K_7ahi-a1-m1-c1L Substrate-engaged type 3 secretion system needle complex from Salmonella enterica typhimurium - SpaR state 2 P41785 P41785 3.3 ELECTRON MICROSCOPY 15 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 90 94 7ah9-a1-m1-c1K_7ah9-a1-m1-c1L VIGQAVNIRSMETDIVSLDDRLLQAFSGSAIATAVDKQTITNRIEDPNLVTDPKELAISQEMISDYNLYVSMVSTLTRKGVGAVETLLRS PENAVIGQAVNIRSMETDIVSLDDRLLQAFSGSAIATAVDKQTITNRIEDPNLVTDPKELAISQEMISDYNLYVSMVSTLTRKGVGAVETLLRS 7ahi-a1-m1-c2B_7ahi-a1-m1-c2M Substrate-engaged type 3 secretion system needle complex from Salmonella enterica typhimurium - SpaR state 2 P41784 P41784 3.3 ELECTRON MICROSCOPY 24 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 60 78 6q15-a1-m1-cAS_6q15-a1-m1-cBD 6q15-a1-m1-cAT_6q15-a1-m1-cBE 6q15-a1-m1-cAU_6q15-a1-m1-cBF 6q15-a1-m1-cAV_6q15-a1-m1-cBG 6q15-a1-m1-cAW_6q15-a1-m1-cBH 7ah9-a1-m1-c2A_7ah9-a1-m1-c2L 7ah9-a1-m1-c2B_7ah9-a1-m1-c2M 7ah9-a1-m1-c2C_7ah9-a1-m1-c2N 7ah9-a1-m1-c2O_7ah9-a1-m1-c2D 7ahi-a1-m1-c2A_7ahi-a1-m1-c2L 7ahi-a1-m1-c2C_7ahi-a1-m1-c2N 7ahi-a1-m1-c2O_7ahi-a1-m1-c2D DNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR TPWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 7ahi-a1-m1-c2C_7ahi-a1-m1-c2I Substrate-engaged type 3 secretion system needle complex from Salmonella enterica typhimurium - SpaR state 2 P41784 P41784 3.3 ELECTRON MICROSCOPY 35 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 59 75 2mex-a1-m1-cA_2mex-a1-m1-cB 2mex-a1-m1-cC_2mex-a1-m1-cD 6pep-a1-m1-cAS_6pep-a1-m1-cAY 6q15-a1-m1-cAS_6q15-a1-m1-cAY 6q15-a1-m1-cAT_6q15-a1-m1-cAZ 6q15-a1-m1-cAU_6q15-a1-m1-cBA 6q15-a1-m1-cAV_6q15-a1-m1-cBB 6q15-a1-m1-cAW_6q15-a1-m1-cBC 6q16-a1-m1-cAS_6q16-a1-m1-cAY 7agx-a1-m1-c2A_7agx-a1-m1-c2G 7agx-a1-m1-c2B_7agx-a1-m1-c2H 7agx-a1-m1-c2C_7agx-a1-m1-c2I 7agx-a1-m1-c2D_7agx-a1-m1-c2J 7agx-a1-m1-c2E_7agx-a1-m1-c2K 7ah9-a1-m1-c2A_7ah9-a1-m1-c2G 7ah9-a1-m1-c2B_7ah9-a1-m1-c2H 7ah9-a1-m1-c2C_7ah9-a1-m1-c2I 7ah9-a1-m1-c2J_7ah9-a1-m1-c2D 7ahi-a1-m1-c2A_7ahi-a1-m1-c2G 7ahi-a1-m1-c2B_7ahi-a1-m1-c2H 7ahi-a1-m1-c2J_7ahi-a1-m1-c2D NLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR SGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 7ahi-a1-m1-c2E_7ahi-a1-m1-c2K Substrate-engaged type 3 secretion system needle complex from Salmonella enterica typhimurium - SpaR state 2 P41784 P41784 3.3 ELECTRON MICROSCOPY 40 0.985 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 68 77 7ah9-a1-m1-c2E_7ah9-a1-m1-c2K TPWSGYLDDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR PWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 7ahi-a1-m1-c2E_7ahi-a1-m1-c2P Substrate-engaged type 3 secretion system needle complex from Salmonella enterica typhimurium - SpaR state 2 P41784 P41784 3.3 ELECTRON MICROSCOPY 22 0.985 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 68 77 7ah9-a1-m1-c2E_7ah9-a1-m1-c2P TPWSGYLDDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR PWSGYLDDVSAKFDTGVDNLQTQVTEALDKLAAKPSDPALLAAYQSKLSEYNLYRNAQSNTVKVFKDIDAAIIQNFR 7ahl-a1-m1-cF_7ahl-a1-m1-cG ALPHA-HEMOLYSIN FROM STAPHYLOCOCCUS AUREUS P09616 P09616 1.89 X-RAY DIFFRACTION 198 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 293 293 3anz-a1-m1-cA_3anz-a1-m1-cB 3anz-a1-m1-cC_3anz-a1-m1-cB 3anz-a1-m1-cC_3anz-a1-m1-cD 3anz-a1-m1-cD_3anz-a1-m1-cE 3anz-a1-m1-cF_3anz-a1-m1-cE 3anz-a1-m1-cF_3anz-a1-m1-cG 3anz-a1-m1-cG_3anz-a1-m1-cA 3anz-a2-m1-cH_3anz-a2-m1-cI 3anz-a2-m1-cH_3anz-a2-m1-cN 3anz-a2-m1-cI_3anz-a2-m1-cJ 3anz-a2-m1-cJ_3anz-a2-m1-cK 3anz-a2-m1-cL_3anz-a2-m1-cK 3anz-a2-m1-cL_3anz-a2-m1-cM 3anz-a2-m1-cN_3anz-a2-m1-cM 3anz-a3-m1-cO_3anz-a3-m1-cU 3anz-a3-m1-cP_3anz-a3-m1-cO 3anz-a3-m1-cP_3anz-a3-m1-cQ 3anz-a3-m1-cQ_3anz-a3-m1-cR 3anz-a3-m1-cR_3anz-a3-m1-cS 3anz-a3-m1-cT_3anz-a3-m1-cS 3anz-a3-m1-cT_3anz-a3-m1-cU 3anz-a4-m1-ca_3anz-a4-m1-cb 3anz-a4-m1-cV_3anz-a4-m1-cb 3anz-a4-m1-cW_3anz-a4-m1-cV 3anz-a4-m1-cW_3anz-a4-m1-cX 3anz-a4-m1-cX_3anz-a4-m1-cY 3anz-a4-m1-cY_3anz-a4-m1-cZ 3anz-a4-m1-cZ_3anz-a4-m1-ca 3m2l-a1-m1-cA_3m2l-a1-m1-cB 3m2l-a1-m1-cA_3m2l-a1-m1-cG 3m2l-a1-m1-cB_3m2l-a1-m1-cC 3m2l-a1-m1-cC_3m2l-a1-m1-cD 3m2l-a1-m1-cD_3m2l-a1-m1-cE 3m2l-a1-m1-cE_3m2l-a1-m1-cF 3m2l-a1-m1-cF_3m2l-a1-m1-cG 3m3r-a1-m1-cA_3m3r-a1-m1-cB 3m3r-a1-m1-cA_3m3r-a1-m1-cG 3m3r-a1-m1-cB_3m3r-a1-m1-cC 3m3r-a1-m1-cC_3m3r-a1-m1-cD 3m3r-a1-m1-cD_3m3r-a1-m1-cE 3m3r-a1-m1-cE_3m3r-a1-m1-cF 3m3r-a1-m1-cF_3m3r-a1-m1-cG 3m4d-a1-m1-cA_3m4d-a1-m1-cB 3m4d-a1-m1-cA_3m4d-a1-m1-cG 3m4d-a1-m1-cB_3m4d-a1-m1-cC 3m4d-a1-m1-cC_3m4d-a1-m1-cD 3m4d-a1-m1-cD_3m4d-a1-m1-cE 3m4d-a1-m1-cE_3m4d-a1-m1-cF 3m4d-a1-m1-cF_3m4d-a1-m1-cG 3m4e-a1-m1-cA_3m4e-a1-m1-cB 3m4e-a1-m1-cA_3m4e-a1-m1-cG 3m4e-a1-m1-cB_3m4e-a1-m1-cC 3m4e-a1-m1-cC_3m4e-a1-m1-cD 3m4e-a1-m1-cD_3m4e-a1-m1-cE 3m4e-a1-m1-cE_3m4e-a1-m1-cF 3m4e-a1-m1-cF_3m4e-a1-m1-cG 4p24-a1-m1-cA_4p24-a1-m1-cG 4p24-a1-m1-cB_4p24-a1-m1-cA 4p24-a1-m1-cB_4p24-a1-m1-cC 4p24-a1-m1-cC_4p24-a1-m1-cD 4p24-a1-m1-cE_4p24-a1-m1-cD 4p24-a1-m1-cF_4p24-a1-m1-cE 4p24-a1-m1-cF_4p24-a1-m1-cG 6u3t-a3-m1-cA_6u3t-a3-m1-cB 6u3t-a3-m1-cA_6u3t-a3-m3-cB 6u3t-a3-m2-cA_6u3t-a3-m2-cB 6u3t-a3-m2-cA_6u3t-a3-m4-cB 6u3t-a3-m3-cA_6u3t-a3-m2-cB 6u3t-a3-m3-cA_6u3t-a3-m3-cB 6u3t-a3-m4-cA_6u3t-a3-m1-cB 6u3t-a3-m4-cA_6u3t-a3-m4-cB 6u3t-a3-m5-cA_6u3t-a3-m5-cB 6u3t-a3-m5-cA_6u3t-a3-m7-cB 6u3t-a3-m6-cA_6u3t-a3-m6-cB 6u3t-a3-m6-cA_6u3t-a3-m8-cB 6u3t-a3-m7-cA_6u3t-a3-m6-cB 6u3t-a3-m7-cA_6u3t-a3-m7-cB 6u3t-a3-m8-cA_6u3t-a3-m5-cB 6u3t-a3-m8-cA_6u3t-a3-m8-cB 6u49-a1-m1-cA_6u49-a1-m1-cB 6u49-a1-m1-cA_6u49-a1-m1-cG 6u49-a1-m1-cB_6u49-a1-m1-cC 6u49-a1-m1-cC_6u49-a1-m1-cD 6u49-a1-m1-cD_6u49-a1-m1-cE 6u49-a1-m1-cE_6u49-a1-m1-cF 6u49-a1-m1-cF_6u49-a1-m1-cG 6u4p-a1-m1-cA_6u4p-a1-m1-cB 6u4p-a1-m1-cA_6u4p-a1-m1-cG 6u4p-a1-m1-cB_6u4p-a1-m1-cC 6u4p-a1-m1-cC_6u4p-a1-m1-cD 6u4p-a1-m1-cD_6u4p-a1-m1-cE 6u4p-a1-m1-cE_6u4p-a1-m1-cF 6u4p-a1-m1-cF_6u4p-a1-m1-cG 7ahl-a1-m1-cA_7ahl-a1-m1-cB 7ahl-a1-m1-cA_7ahl-a1-m1-cG 7ahl-a1-m1-cB_7ahl-a1-m1-cC 7ahl-a1-m1-cC_7ahl-a1-m1-cD 7ahl-a1-m1-cD_7ahl-a1-m1-cE 7ahl-a1-m1-cE_7ahl-a1-m1-cF ADSDINIKTGTTDIGSNTTVKTGDLVTYDKENGMHKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTYGFNGNVTGDDTGKIGGLIGANVSIGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN ADSDINIKTGTTDIGSNTTVKTGDLVTYDKENGMHKKVFYSFIDDKNHNKKLLVIRTKGTIAGQYRVYSEEGANKSGLAWPSAFKVQLQLPDNEVAQISDYYPRNSIDTKEYMSTLTYGFNGNVTGDDTGKIGGLIGANVSIGHTLKYVQPDFKTILESPTDKKVGWKVIFNNMVNQNWGPYDRDSWNPVYGNQLFMKTRNGSMKAADNFLDPNKASSLLSSGFSPDFATVITMDRKASKQQTNIDVIYERVRDDYQLHWTSTNWKGTNTKDKWTDRSSERYKIDWEKEEMTN 7ahm-a2-m1-cC_7ahm-a2-m1-cD Low-resolution structure of the K+/H+ antiporter subunit KhtT in complex with c-di-AMP O07535 O07535 3.14 X-RAY DIFFRACTION 189 0.994 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 161 161 7agw-a1-m1-cA_7agw-a1-m1-cB 7agy-a1-m1-cA_7agy-a1-m1-cB 7ahm-a1-m1-cA_7ahm-a1-m1-cB 7aht-a1-m1-cB_7aht-a1-m1-cA LNIKENDLPGIGKKFEIETRSHEKMTIIIHDDGRREIYRFNDRDPDELLSNISLDDSEARQIAAILGGMVYKPQALESIEMAFSDLIIEWFKVEKGAKSIGRTLGELDVRQNYDVTVIAIIKHNQEKLLNPGADSIIEENDTLVLSGERKHLKKLIHDFLS GLNIKENDLPGIGKKFEIETRSHEKMTIIIHDDGRREIYRFNDRDPDELLSNISLDDSEARQIAAILGGMVYKPQALESIEMAFSDLIIEWFKVEKGAKSIGRTLGELDVRQNYDVTVIAIIKHNQEKLLNPGADSIIEENDTLVLSGERKHLKKLIHDFL 7ai3-a2-m1-cD_7ai3-a2-m1-cC Crystal structure of MCE domain of Mce4A from Mycobacterium tuberculosis H37Rv I6YC99 I6YC99 2.9 X-RAY DIFFRACTION 329 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 107 113 7ai2-a1-m1-cA_7ai2-a1-m1-cB 7ai2-a2-m1-cD_7ai2-a2-m1-cC 7ai3-a1-m1-cA_7ai3-a1-m1-cB ASTDTVTVSSPRAGLVMEKGAKVKYRGIQVGKVTDISYSGNQARLKLAIDSGEMGFIPSNATVRIAGNTIFGAKSVEFIPPKTPSPKPLSPNAHVAASQVQLELEHH YFQGAMASTDTVTVSSPRAGLVMEKGAKVKYRGIQVGKVTDISYSGNQARLKLAIDSGEMGFIPSNATVRIAGNTIFGAKSVEFIPPKTPSPKPLSPNAHVAASQVQLELEHH 7ail-a1-m1-cA_7ail-a1-m2-cA Ribonucleotide Reductase R2m protein from Aquifex aeolicus O67475 O67475 1.73 X-RAY DIFFRACTION 163 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 320 320 7aik-a1-m1-cA_7aik-a1-m2-cA 7q39-a1-m1-cAAA_7q39-a1-m2-cAAA 7q3c-a1-m1-cAAA_7q3c-a1-m2-cAAA ELVRKLIFNPQGDREASKRKIIKGNPTNIFELNEIKYSWAFDLYKLMGFTNFWIPEEIQMLEDRKQYETVLSDYEKRAYELVLSFLIALDSFQVDMLKEFGRMITAPEVEMAITAQEFQESVHAYSYQFILESVVDPVKADEIYNYWREDERLLERNKVIAELYNEFIRKPNEENFIKATIGNYILESLYFYSGFAFFYTLGRQGKMRNTVQQIKYINRDELCHVTLFRNIINTLRKENPELFTPEIEKWIVEYFKYAVNEEIKWGQYVTQNQILGINDVLIERYIKYLGNLRITQIGFDPIYPEVTENPLKWIDEFRKI ELVRKLIFNPQGDREASKRKIIKGNPTNIFELNEIKYSWAFDLYKLMGFTNFWIPEEIQMLEDRKQYETVLSDYEKRAYELVLSFLIALDSFQVDMLKEFGRMITAPEVEMAITAQEFQESVHAYSYQFILESVVDPVKADEIYNYWREDERLLERNKVIAELYNEFIRKPNEENFIKATIGNYILESLYFYSGFAFFYTLGRQGKMRNTVQQIKYINRDELCHVTLFRNIINTLRKENPELFTPEIEKWIVEYFKYAVNEEIKWGQYVTQNQILGINDVLIERYIKYLGNLRITQIGFDPIYPEVTENPLKWIDEFRKI 7aio-a1-m1-cA_7aio-a1-m1-cB Structure of Human Potassium Chloride Transporter KCC3 S45D/T940D/T997D in NaCl (Subclass) Q9UHW9 Q9UHW9 3.31 ELECTRON MICROSCOPY 205 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 909 910 6m1y-a1-m1-cA_6m1y-a1-m1-cB 6m22-a1-m1-cA_6m22-a1-m1-cB 6y5r-a1-m1-cA_6y5r-a1-m1-cB 6y5v-a1-m1-cA_6y5v-a1-m1-cB 7ain-a1-m1-cA_7ain-a1-m1-cB 7d90-a1-m1-cA_7d90-a1-m1-cB 7ngb-a1-m1-cA_7ngb-a1-m1-cB MANYTNLTQGAKEHEEAENITEKKPTKTPQMGTFMGVYLPCLQNIFGVILFLRLTWVVGTAGVLQAFAIVLICCCCTMLTAISMSAIATNGVVPAGGSYFMISRALGPEFGGAVGLCFYLGTTFAAAMYILGAIEIFLVYIVPRAAIFHSDDALKESAAMLNNMRVYGTAFLVLMVLVVFIGVRYVNKFASLFLACVIVSILAIYAGAIKSSFAPPHFPVCMLGNRTLSSRHIDVCSKTKEINNMTVPSKLWGFFCNSSQFFNATCDEYFVHNNVTSIQGIPGLASGIITENLWSNYLPKGEIIEKPSAKSSDVLGSLNHEYVLVDITTSFTLLVGIFFPSVTGIMAGSNRSGDLKDAQKSIPIGTILAILTTSFVYLSNVVLFGACIEGVVLRDKFGDAVKGNLVVGTLSWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIAKDNIIPFLRVFGHSKANGEPTWALLLTAAIAELGILIASLDLVAPILSMFFLMCYLFVNLACALQTLLRTPNWRPRFRYYHWALSFMGMSICLALMFISSWYYAIVAMVIAGMIYKYIEYQGAEKEWGDGIRGLSLSAARFALLRLEEGPPHTKNWRPQLLVLLKLDEDLHVKHPRLLTFASQLKAGKGLTIVGSVIVGNFLENYGEALAAEQTIKHLMEAEKVKGFCQLVVAAKLREGISHLIQSCGLGGMKHNTVVMGWPNGWRQSEDARAWKTFIGTVRVTTAAHLALLVAKNISFFPSNVEQFSEGNIDVWWIVHDGGMLMLLPFLLKQHKVWRKCSIRIFTVANSIQMKKDLATFLYHLRIEAEVEVVEMHDSDISAYTYERDLMMEQRSQMSNVRRMHTAVKLNEVIVNKSHEAKLVLLNMPGPPRNPEGDENYMEFLEVLTEGLERVLLVRGGGSEV MANYTNLTQGAKEHEEAENITEKKPTKTPQMGTFMGVYLPCLQNIFGVILFLRLTWVVGTAGVLQAFAIVLICCCCTMLTAISMSAIATNGVVPAGGSYFMISRALGPEFGGAVGLCFYLGTTFAAAMYILGAIEIFLVYIVPRAAIFHSDDALKESAAMLNNMRVYGTAFLVLMVLVVFIGVRYVNKFASLFLACVIVSILAIYAGAIKSSFAPPHFPVCMLGNRTLSSRHIDVCSKTKEINNMTVPSKLWGFFCNSSQFFNATCDEYFVHNNVTSIQGIPGLASGIITENLWSNYLPKGEIIEKPSAKSSDVLGSLNHEYVLVDITTSFTLLVGIFFPSVTGIMAGSNRSGDLKDAQKSIPIGTILAILTTSFVYLSNVVLFGACIEGVVLRDKFGDAVKGNLVVGTLSWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIAKDNIIPFLRVFGHSKANGEPTWALLLTAAIAELGILIASLDLVAPILSMFFLMCYLFVNLACALQTLLRTPNWRPRFRYYHWALSFMGMSICLALMFISSWYYAIVAMVIAGMIYKYIEYQGAEKEWGDGIRGLSLSAARFALLRLEEGPPHTKNWRPQLLVLLKLDEDLHVKHPRLLTFASQLKAGKGLTIVGSVIVGNFLENYGEALAAEQTIKHLMEAEKVKGFCQLVVAAKLREGISHLIQSCGLGGMKHNTVVMGWPNGWRQSEDARAWKTFIGTVRVTTAAHLALLVAKNISFFPSNVEQFSEGNIDVWWIVHDGGMLMLLPFLLKQHKVWRKCSIRIFTVAQLEDNSIQMKKDLATFLYHLRIEAEVEVVEMHDSDISAYTYERDLMMEQRSNVRRMHTAVKLNEVIVNKSHEAKLVLLNMPGPPRNPEGDENYMEFLEVLTEGLERVLLVRGGGSEV 7aip-a1-m1-cA_7aip-a1-m1-cB Structure of Human Potassium Chloride Transporter KCC1 in NaCl (Reference Map) Q9UP95 Q9UP95 3.12 ELECTRON MICROSCOPY 162 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 865 865 7aiq-a1-m1-cB_7aiq-a1-m1-cA 7air-a1-m1-cB_7air-a1-m1-cA 7tth-a1-m1-cA_7tth-a1-m1-cB PSMGTLMGVYLPCLQNIFGVILFLRLTWMVGTAGVLQALLIVLICCCCTLLTAISMSAIATNGVVPAGGSYFMISRSLGPEFGGAVGLCFYLGTTFAAAMYILGAIEILLTYIAPPAAIFYSNATLNNMRVYGTIFLTFMTLVVFVGVKYVNKFASLFLACVIISILSIYAGGIKSIFDPPVFPVCMLGNRTLSRDQFDICAKTAVVDNETVATQLWSFFCHSPNLTTDSCDPYFMLNNVTEIPGIPGAAAGVLQENLWSAYLEKGDIVEKHGLPSADAPSLKESLPLYVVADIATSFTVLVGIFFPSVTGIMAGSNRSGDLRDAQKSIPVGTILAIITTSLVYFSSVVLFGACIEGVVLRDKYGDGVSRNLVVGTLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIAKDNIIPFLRVFGHGKVNGEPTWALLLTALIAELGILIASLDMVAPILSMFFLMCYLFVNLACAVQTLLRTPNWRPRFKYYHWALSFLGMSLCLALMFVSSWYYALVAMLIAGMIYKYIEYQGAEKEWGDGIRGLSLSAARYALLRLEEGPPHTKNWRPQLLVLLKLDEDLHVKYPRLLTFASQLKAGKGLTIVGSVIQGFLESYGEAQAAEQTIKNMMEIEKVKGFCQVVVASKVREGLAHLIQSCGLGGMRHNSVVLGWPYGWRQSEDPRAWKTFIDTVRCTTAAHLALLVPKNIAFYPSNHERYLEGHIDVWWIVHDGGMLMLLPFLLRQHKVWRKCRMRIFTVNSIQMKKDLAVFLYHLRLEAEVEVVEMHNDISAYTYERTSNVRRMHTAVKLNEVIVTRSHDARLVLLNMPGPPRNSEGDENYMEFLEVLTEGLERVLLVRGGGREVI PSMGTLMGVYLPCLQNIFGVILFLRLTWMVGTAGVLQALLIVLICCCCTLLTAISMSAIATNGVVPAGGSYFMISRSLGPEFGGAVGLCFYLGTTFAAAMYILGAIEILLTYIAPPAAIFYSNATLNNMRVYGTIFLTFMTLVVFVGVKYVNKFASLFLACVIISILSIYAGGIKSIFDPPVFPVCMLGNRTLSRDQFDICAKTAVVDNETVATQLWSFFCHSPNLTTDSCDPYFMLNNVTEIPGIPGAAAGVLQENLWSAYLEKGDIVEKHGLPSADAPSLKESLPLYVVADIATSFTVLVGIFFPSVTGIMAGSNRSGDLRDAQKSIPVGTILAIITTSLVYFSSVVLFGACIEGVVLRDKYGDGVSRNLVVGTLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIAKDNIIPFLRVFGHGKVNGEPTWALLLTALIAELGILIASLDMVAPILSMFFLMCYLFVNLACAVQTLLRTPNWRPRFKYYHWALSFLGMSLCLALMFVSSWYYALVAMLIAGMIYKYIEYQGAEKEWGDGIRGLSLSAARYALLRLEEGPPHTKNWRPQLLVLLKLDEDLHVKYPRLLTFASQLKAGKGLTIVGSVIQGFLESYGEAQAAEQTIKNMMEIEKVKGFCQVVVASKVREGLAHLIQSCGLGGMRHNSVVLGWPYGWRQSEDPRAWKTFIDTVRCTTAAHLALLVPKNIAFYPSNHERYLEGHIDVWWIVHDGGMLMLLPFLLRQHKVWRKCRMRIFTVNSIQMKKDLAVFLYHLRLEAEVEVVEMHNDISAYTYERTSNVRRMHTAVKLNEVIVTRSHDARLVLLNMPGPPRNSEGDENYMEFLEVLTEGLERVLLVRGGGREVI 7ajl-a1-m1-cBBB_7ajl-a1-m1-cAAA Cyrstal structure of CYRI-B/Fam49B Q921M7 Q921M7 2.37 X-RAY DIFFRACTION 67 0.996 10090 (Mus musculus) 10090 (Mus musculus) 276 281 EKEIYNQVNVVLKDAEGILEDLQSYRGAGHEIREAIQHPADEKLQEKAWGAVVPLVGKLKKFYEFSQRLEAALRGLLGALTSTPYSPTQHLEREQALAKQFAEILHFTLRFDELKTNPAIQNDFSYYRRTLSRRINNVPNELANRSLFYAEATPLKTLSDATTKFVSENKNLPIENTTDCLSTASVCRVLETPEYRSRFTNEETVSFCLRVVGVIILYDHVHPVGAFAKTSKIDKGCIKVLKDQPPNSVEGLLNALRYTTKHLNDETTSKQIRSLQ PTESEKEIYNQVNVVLKDAEGILEDLQSYRGAGHEIREAIQHPADEKLQEKAWGAVVPLVGKLKKFYEFSQRLEAALRGLLGALTSTPYSPTQHLEREQALAKQFAEILHFTLRFDELKTNPAIQNDFSYYRRTLSRRINNEVNNELANRSLFYAEATPLKTLSDATTKFVSENKNLPIENTTDCLSTASVCRVLETPEYRSRFTNEETVSFCLRVVGVIILYDHVHPVGAFAKTSKIDKGCIKVLKDQPPNSVEGLLNALRYTTKHLNDETTSKQIRSLQ 7ajq-a1-m1-cF_7ajq-a1-m1-cG cryo-EM structure of ExbBD from Serratia Marcescens V5YUQ0 V5YUQ0 4.0 ELECTRON MICROSCOPY 46 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 23 25 6tyi-a1-m1-cZ_6tyi-a1-m1-cY INVTPFIDVMLVLLIIFMVAAPL HEINVTPFIDVMLVLLIIFMVAAPL 7ak7-a1-m1-cE_7ak7-a1-m1-cC Structure of Salmonella TacT2 toxin bound to TacA2 antitoxin Q8ZKC7 Q8ZKC7 2.14 X-RAY DIFFRACTION 11 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 71 87 KRETLNLRIKPAERDLIDRAAKARGKNRTDFVLEAARAAAEEALIEQRIIMADPEAYQEFLVRLDQTPSPN MKRETLNLRIKPAERDLIDRAAKARGKNRTDFVLEAARAAAEEALIEQRIIMADPEAYQEFLVRLDQTPSPNAALRKTMQTPAPWEQ 7ak7-a1-m1-cE_7ak7-a1-m1-cF Structure of Salmonella TacT2 toxin bound to TacA2 antitoxin Q8ZKC7 Q8ZKC7 2.14 X-RAY DIFFRACTION 10 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 71 73 KRETLNLRIKPAERDLIDRAAKARGKNRTDFVLEAARAAAEEALIEQRIIMADPEAYQEFLVRLDQTPSPN AMKRETLNLRIKPAERDLIDRAAKARGKNRTDFVLEAARAAAEEALIEQRIIMADPEAYQEFLVRLDQTPSPN 7ak7-a1-m1-cF_7ak7-a1-m1-cC Structure of Salmonella TacT2 toxin bound to TacA2 antitoxin Q8ZKC7 Q8ZKC7 2.14 X-RAY DIFFRACTION 123 0.986 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 73 87 7ak7-a1-m1-cE_7ak7-a1-m1-cD AMKRETLNLRIKPAERDLIDRAAKARGKNRTDFVLEAARAAAEEALIEQRIIMADPEAYQEFLVRLDQTPSPN MKRETLNLRIKPAERDLIDRAAKARGKNRTDFVLEAARAAAEEALIEQRIIMADPEAYQEFLVRLDQTPSPNAALRKTMQTPAPWEQ 7ak8-a3-m1-cK_7ak8-a3-m1-cL Structure of Salmonella TacT1 toxin bound to TacA1 antitoxin C-terminal peptide Q8ZL97 Q8ZL97 2.5 X-RAY DIFFRACTION 10 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 37 38 7ak8-a2-m1-cJ_7ak8-a2-m1-cI SFNFNDEQYEEFINLLDAPVADDPVIEKLLARKPQWD GSFNFNDEQYEEFINLLDAPVADDPVIEKLLARKPQWD 7akd-a1-m1-cA_7akd-a1-m1-cC Structure of the SARS-CoV-2 spike glycoprotein in complex with the 47D11 neutralizing antibody Fab fragment P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 207 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 970 992 7akd-a1-m1-cA_7akd-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7akd-a1-m1-cB_7akd-a1-m1-cC Structure of the SARS-CoV-2 spike glycoprotein in complex with the 47D11 neutralizing antibody Fab fragment P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 224 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 990 992 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7akk-a1-m1-cB_7akk-a1-m1-cC Structure of a complement factor-receptor complex P01024 P01024 3.395 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 645 645 SPMYSIITPNILRLESEETMVLEAHDAQGDVPVTVTVHDFPGKKLVLSSEKTVLTPATNHMGNVTFTIPANREFKSEKGRNKFVTVQATFGTQVVEKVVLVSLQSGYLFIQTDKTIYTPGSTVLYRIFTVNHKLLPVGRTVMVNIENPEGIPVKQDSLSSQNQLGVLPLSWDIPELVNMGQWKIRAYYENSPQQVFSTEFEVKEYVLPSFEVIVEPTEKFYYIYNEKGLEVTITARFLYGKKVEGTAFVIFGIQDGEQRISLPESLKRIPIEDGSGEVVLSRKVLLDGVQNPRAEDLVGKSLYVSATVILHSGSDMVQAERSGIPIVTSPYQIHFTKTPKYFKPGMPFDLMVFVTNPDGSPAYRVPVAVQGEDTVQSLTQGDGVAKLSINTHPSQKPLSITVRTKKQELSEAEQATRTMQALPYSTVGNSNNYLHLSVLRTELRPGETLNVNFLLRMDRAHEAKIRYYTYLIMNKGRLLKAGRQVREPGQDLVVLPLSITTDFIPSFRLVAYYTLIGASGQREVVADSVWVDVKDSCVGSLVVKSGQSEDRQPVPGQQMTLKIEGDHGARVVLVAVDKGVFVLNKKNKLTQSKIWDVVEKADIGCTPGSGKDYAGVFSDAGLTFTSSSGQQTAQRAELQCPQPAA SPMYSIITPNILRLESEETMVLEAHDAQGDVPVTVTVHDFPGKKLVLSSEKTVLTPATNHMGNVTFTIPANREFKSEKGRNKFVTVQATFGTQVVEKVVLVSLQSGYLFIQTDKTIYTPGSTVLYRIFTVNHKLLPVGRTVMVNIENPEGIPVKQDSLSSQNQLGVLPLSWDIPELVNMGQWKIRAYYENSPQQVFSTEFEVKEYVLPSFEVIVEPTEKFYYIYNEKGLEVTITARFLYGKKVEGTAFVIFGIQDGEQRISLPESLKRIPIEDGSGEVVLSRKVLLDGVQNPRAEDLVGKSLYVSATVILHSGSDMVQAERSGIPIVTSPYQIHFTKTPKYFKPGMPFDLMVFVTNPDGSPAYRVPVAVQGEDTVQSLTQGDGVAKLSINTHPSQKPLSITVRTKKQELSEAEQATRTMQALPYSTVGNSNNYLHLSVLRTELRPGETLNVNFLLRMDRAHEAKIRYYTYLIMNKGRLLKAGRQVREPGQDLVVLPLSITTDFIPSFRLVAYYTLIGASGQREVVADSVWVDVKDSCVGSLVVKSGQSEDRQPVPGQQMTLKIEGDHGARVVLVAVDKGVFVLNKKNKLTQSKIWDVVEKADIGCTPGSGKDYAGVFSDAGLTFTSSSGQQTAQRAELQCPQPAA 7al1-a1-m1-cA_7al1-a1-m2-cA Cell division protein SepF from Methanobrevibacter smithii A5UK83 A5UK83 1.4 X-RAY DIFFRACTION 78 1.0 420247 (Methanobrevibacter smithii ATCC 35061) 420247 (Methanobrevibacter smithii ATCC 35061) 85 85 7al2-a1-m1-cA_7al2-a1-m2-cA YEIMLIRPKTIDDINYVVDQVLEESNPVILDLSFLEKESPANFKLAGEKIKQMRSNYGAEALLLSRCNDKNLIIIAPKGVSLVRK YEIMLIRPKTIDDINYVVDQVLEESNPVILDLSFLEKESPANFKLAGEKIKQMRSNYGAEALLLSRCNDKNLIIIAPKGVSLVRK 7al4-a2-m1-cC_7al4-a2-m1-cB Ancestral Flavin-containing monooxygenase (FMO) 1 (mammalian) 3 X-RAY DIFFRACTION 152 0.998 9685 (Felis catus) 9685 (Felis catus) 520 523 7al4-a1-m1-cA_7al4-a1-m1-cD AKRVAIVGAGVSGLASIKCCLEEGLEPTCFERSDDLGGLWRFTEHVEEGRASLYKSVVSNSCKEMSCYSDFPFPEDYPNYVPNSQFLEYLKMYANRFNLLKHIQFKTKVCSVTKCPDFTVTGQWEVVTQHEGKQESAIFDAVMVCTGFLTDPYLPLDSFPGINTFKGQYFHSRQYKHPDIFKDKRVLVVGMGNSGTDIAVEASHLAKKVFLSTTGGAWVMSRVFDSGYPWDMVFTTRFQNMLRNSLPTPIVTWLMARKMNSWFNHANYGLVPEDRTQLREPVLNDELPGCIITGKVLIKPSIKEVKENSVIFNNTPKEEPIDIIVFATGYTFAFPFLDESVVENGQASLYKYIFPAHLPKPTVIGLIKPLGSIIPTGETQARWAVRVLKGINKLPPQSVMIEEVNARKENKPSGFGLCYCKALQSDYITYIDELLTYINAKPNLLSMLLTDPRLALTIFFGPCTPYQFRLTGPGKWEGARNAILTQWDRTFKVTKTRIVQESPSPFASLLKLLSLPVLLL AKRVAIVGAGVSGLASIKCCLEEGLEPTCFERSDDLGGLWRFTEHVEEGRASLYKSVVSNSCKEMSCYSDFPFPEDYPNYVPNSQFLEYLKMYANRFNLLKHIQFKTKVCSVTKCPDFTVTGQWEVVTQHEGKQESAIFDAVMVCTGFLTDPYLPLDSFPGINTFKGQYFHSRQYKHPDIFKDKRVLVVGMGNSGTDIAVEASHLAKKVFLSTTGGAWVMSRVFDSGYPWDMVFTTRFQNMLRNSLPTPIVTWLMARKMNSWFNHANYGLVPEDRTQLREPVLNDELPGCIITGKVLIKPSIKEVKENSVIFNNTPKEEPIDIIVFATGYTFAFPFLDESVVKVENGQASLYKYIFPAHLPKPTLAVIGLIKPLGSIIPTGETQARWAVRVLKGINKLPPQSVMIEEVNARKENKPSGFGLCYCKALQSDYITYIDELLTYINAKPNLLSMLLTDPRLALTIFFGPCTPYQFRLTGPGKWEGARNAILTQWDRTFKVTKTRIVQESPSPFASLLKLLSLPVLL 7al5-a1-m1-cD_7al5-a1-m1-cB Crystal structure of the selenomethionine substituted hypothetical protein PA1622 from Pseudomonas aeruginosa PAO1 Q9I3A0 Q9I3A0 2.42 X-RAY DIFFRACTION 74 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 274 277 7al5-a1-m1-cA_7al5-a1-m1-cC 7al6-a1-m1-cA_7al6-a1-m1-cC 7al6-a1-m1-cD_7al6-a1-m1-cB VEEVRISLPHIELAAHLFGPPDGKPVIALHGWLDNASFSRLAPKLAGLRIVALDFAGHGHSAHRAEGASYLLWDYALDVLVAEQLGWERFSLLGHSGAIVSVLLAGALPERIERLALIDGLIPYTGEADKAPQKLGEALKAQLALRHKRKPVYAELEKAVEARRGEISREAAELLAQRGLEPVPGGYTWRTDARLTLPSPLRLTQAHALNFVRSVECPVSLVLAEQGLAVEPRRALLETLPFERHHLPGGHHLHLDDEAGAQAVARVFAAFFAR SLQVEEVRISLPHIELAAHLFGPPDGKPVIALHGWLDNASFSRLAPKLAGLRIVALDFAGHGHSAHRAEGASYLLWDYALDVLVAEQLGWERFSLLGHSGAIVSVLLAGALPERIERLALIDGLIPYTGEADKAPQKLGEALKAQLALRHKRKPVYAELEKAVEARRGEISREAAELLAQRGLEPVPGGYTWRTDARLTLPSPLRLTQAHALNFVRSVECPVSLVLAEQGLAVEPRRALLETLPFERHHLPGGHHLHLDDEAGAQAVARVFAAFFAR 7al6-a1-m1-cA_7al6-a1-m1-cB Crystal structure of the hypothetical protein PA1622 from Pseudomonas aeruginosa PAO1 Q9I3A0 Q9I3A0 2.1 X-RAY DIFFRACTION 121 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 285 285 7al5-a1-m1-cA_7al5-a1-m1-cB 7al5-a1-m1-cD_7al5-a1-m1-cC 7al6-a1-m1-cD_7al6-a1-m1-cC SLQVEEVRISLPHIELAAHLFGPPDGKPVIALHGWLDNAMSFSRLAPKLAGLRIVALDFAGHGHSAHRAEGASYLLWDYALDVLMVAEQLGWERFSLLGHSMGAIVSVLLAGALPERIERLALIDGLIPYTGEADKAPQKLGEALKAQLALRHKRKPVYAELEKAVEARMRGVGEISREAAELLAQRGLEPVPGGYTWRTDARLTLPSPLRLTQAHALNFVRSVECPVSLVLAEQGMLAVEPRMRALLETLPFERHHLPGGHHLHLDDEAGAQAVARVFAAFFAR SLQVEEVRISLPHIELAAHLFGPPDGKPVIALHGWLDNAMSFSRLAPKLAGLRIVALDFAGHGHSAHRAEGASYLLWDYALDVLMVAEQLGWERFSLLGHSMGAIVSVLLAGALPERIERLALIDGLIPYTGEADKAPQKLGEALKAQLALRHKRKPVYAELEKAVEARMRGVGEISREAAELLAQRGLEPVPGGYTWRTDARLTLPSPLRLTQAHALNFVRSVECPVSLVLAEQGMLAVEPRMRALLETLPFERHHLPGGHHLHLDDEAGAQAVARVFAAFFAR 7als-a1-m1-cB_7als-a1-m1-cA Alpha and beta Lactose isomer structure of Galectin 8, N-terminal domain O00214 O00214 1.35 X-RAY DIFFRACTION 42 0.993 9606 (Homo sapiens) 9606 (Homo sapiens) 149 150 7p1m-a1-m1-cB_7p1m-a1-m1-cA NNLQNIIYNPVIPFVGTIPDQLDPGTLIVIRGHVPSDADRFQVDLQNGSSMKPRADVAFHFNPRFKRAGCIVCNTLINEKWGREEITYDTPFKREKSFEIVIMVLKDKFQVAVNGKHTLLYGHRIGPEKIDTLGIYGKVNIHSIGFSFS NLQNIIYNPVIPFVGTIPDQLDPGTLIVIRGHVPSDADRFQVDLQNGSSMKPRADVAFHFNPRFKRAGCIVCNTLINEKWGREEITYDTPFKREKSFEIVIMVLKDKFQVAVNGKHTLLYGHRIGPEKIDTLGIYGKVNIHSIGFSFSSD 7alz-a1-m1-cA_7alz-a1-m1-cB GqqA- a novel type of quorum quenching acylases A0A0M0ELU2 A0A0M0ELU2 1.67 X-RAY DIFFRACTION 118 1.0 33995 (Komagataeibacter europaeus) 33995 (Komagataeibacter europaeus) 189 189 GERIIAFQGRPGAYSDLACRQARPGWTTLPCQTFAQTIAAVHDGRAELALACENSLAGRVPDIHALLPEAGLFIVGEHFQRVHNTTRFYIASRRPATLPPPGPGFTTLLFRVNNQPGALYKALGGLATAGVNTRLESYLEGSFSATQFLDVEGHPEAPPLARALDELSFFSEQQEILGVYPASPFRRKP GERIIAFQGRPGAYSDLACRQARPGWTTLPCQTFAQTIAAVHDGRAELALACENSLAGRVPDIHALLPEAGLFIVGEHFQRVHNTTRFYIASRRPATLPPPGPGFTTLLFRVNNQPGALYKALGGLATAGVNTRLESYLEGSFSATQFLDVEGHPEAPPLARALDELSFFSEQQEILGVYPASPFRRKP 7am0-a2-m1-cC_7am0-a2-m1-cD GqqA- a novel type of quorum quenching acylases A0A0M0ELU2 A0A0M0ELU2 2.5 X-RAY DIFFRACTION 131 1.0 33995 (Komagataeibacter europaeus) 33995 (Komagataeibacter europaeus) 273 278 7am0-a1-m1-cA_7am0-a1-m1-cB RIIAFQGRPGAYSDLACRQARPGWTTLPCQTFAQTIAAVHDGRAELAMLACENSLAGRVPDIHALLPEAGLFIVGEHFQRVEHCLLGIPGSTLADARRIHTHPVAMAQVRGIITELGLDPVVEFDTAGAAEMVREWGRKEDVAVASALAAELNGLEILRRNVEDANTTRFYIASRRPATLPPPGPGFMTTLLFRVNNQPGALYKALGGLATAGVNMTRLESYMLEGSFSATQFLMDVEGHPEAPPLARALDELSFFSEQQEILGVYPASPFRR ERIIAFQGRPGAYSDLACRQARPGWTTLPCQTFAQTIAAVHDGRAELAMLACENSLAGRVPDIHALLPEAGLFIVGEHFQRVEHCLLGIPGSTLADARRIHTHPVAMAQVRGIITELGLDPVVEFDTAGAAEMVREWGRKEDVAVASALAAELNGLEILRRNVEDATHNTTRFYIASRRPATLPPPGPGFMTTLLFRVNNQPGALYKALGGLATAGVNMTRLESYMLEGSFSATQFLMDVEGHPEAPPLARALDELSFFSEQQEILGVYPASPFRRKP 7am2-a1-m1-cBX_7am2-a1-m1-cBY Intermediate assembly of the Large subunit from Leishmania major mitochondrial ribosome E9AFB3 E9AFB3 3.4 ELECTRON MICROSCOPY 73 1.0 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 272 275 VIDDVNHALVQHFLKLSTNDKYRQARQMLVIGGRAMIEELCRAGHRPRHLMVECGKPIPEFLHDRRKTDVVLVDRSVSVAVTPGSDGYVGDFAIPTPPMKEKLIANHQRLNRVLVLDNIEDPGVLGTLLRTASGYQYDAIIATNHCADLYDHRVVRAARGAHFQTSVPIYTLKDEDGDDVYGLLNHIVERNNLLPLCYIAQADAAGVDGETAGTQTGFVSSPEAPVGRVFRSSVVGAAPVPLPAPRQSDSSYAASLSRELASVSQAREELLS VIDDVNHALVQHFLKLSTNDKYRQARQMLVIGGRAMIEELCRAGHRPRHLMVECGKPIPEFLHDRRKTDVVLVDRSVSVAVTPGSDGYVGDFAIPTPPMKEKLIANHQRLNRVLVLDNIEDPGVLGTLLRTASGYQYDAIIATNHCADLYDHRVVRAARGAHFQTSVPIYTLKDEDGDDVYGLLNHIVERNNLLPLCYIAQADAAGVDGETAGTQTGFVSSPEAPVGRVFRSSVVGAAPVPLPAPRQSDSSYAASLSRELASVSQAREELLSDFC 7amk-a1-m1-cB_7amk-a1-m1-cA Zebrafish RET Cadherin Like Domains 1 to 4. A8E7C6 A8E7C6 2.2 X-RAY DIFFRACTION 116 1.0 7955 (Danio rerio) 7955 (Danio rerio) 472 476 LYFPQRLYTENIYVGQQQGSPLLQVISMREFPTERPYFFLCSHRDAFTSWFHIDEASGVLYLNKTLEWSDFSSLRSGSVRSPKDLTLKVGVSSTPPMKVMCTILPTVEVKLSFINDTAPSCGQVELSTLCFPEKISNPHITENREPGALRQLRRFTHMSICPNYTISYGVVAGSSVPFAVDDSTSELVVTAQVDREEKEVYHLDIVCMVRTERNLEEVFRSLHVNIYDEDDNSPYVQGTDTEDVLVEFDRSEGTVFGTLFVYDRDTTPVYVQNKLVGTLMTQDSWIKNNFAIEHKFREEKAIFGNVRGTVHEYKLKLSQNLSVTEQRSFLLGYLVNDTTFPGPEGTVLLHFNVTVLPVPIRFSQVTYSFTVSQKATTYSQIGKVCVENCQKFKGIDVTYQLEIVDRQITAEAQSCYWAVSLAQNPNDNTGVLYVNDTKVLRRPECQELEYVVIAQEQQNKLQAKTQLTVSFQ LYFPQRLYTENIYVGQQQGSPLLQVISMREFPTERPYFFLCSHRDAFTSWFHIDEASGVLYLNKTLEWSDFSSLRSGSVRSPKDLTLKVGVSSTPPMKVMCTILPTVEVKLSFINDTAPSCGQVELSTLCFPEKISNPHITENREPGALRQLRRFTHMSICPNYTISYGVVAGSSVPFAVDDSTSELVVTAQVDREEKEVYHLDIVCMVRTERNLEEVFRSLHVNIYDEDDNSPYVQGTDTEDVLVEFDRSEGTVFGTLFVYDRDTTPVYPTNQVQNKLVGTLMTQDSWIKNNFAIEHKFREEKAIFGNVRGTVHEYKLKLSQNLSVTEQRSFLLGYLVNDTTFPGPEGTVLLHFNVTVLPVPIRFSQVTYSFTVSQKATTYSQIGKVCVENCQKFKGIDVTYQLEIVDRQITAEAQSCYWAVSLAQNPNDNTGVLYVNDTKVLRRPECQELEYVVIAQEQQNKLQAKTQLTVSFQ 7amy-a1-m1-cH_7amy-a1-m1-cI Nonameric cytoplasmic domain of FlhA from Vibrio parahaemolyticus Q87FX4 Q87FX4 3.75 ELECTRON MICROSCOPY 74 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 353 353 7amy-a1-m1-cA_7amy-a1-m1-cB 7amy-a1-m1-cA_7amy-a1-m1-cI 7amy-a1-m1-cB_7amy-a1-m1-cC 7amy-a1-m1-cC_7amy-a1-m1-cD 7amy-a1-m1-cD_7amy-a1-m1-cF 7amy-a1-m1-cE_7amy-a1-m1-cF 7amy-a1-m1-cE_7amy-a1-m1-cG 7amy-a1-m1-cG_7amy-a1-m1-cH EEDTPLTWDDIPHVHTLSLALGYRLVHLVNKDQGAPLSQRIRGVRRNLSEQVGFLLPEVRIRDNLSLKPNQYTISLNGEVIEQGFIEPERLMAIAVGDTYGEIDGILGSDPAYQLPAVWIEHQDKAKALNMGYQVVDDGTVIATHISKIMKTNLAELFTHDDVEAMTQRLTQQAPKLAEALAAALNPAQQLKVYRQLLLDQVPLKDIRTIANTMLESSENTKDPILLAADVRCALKRTLVNLIAGQKPELNVYALSDELEQMLLTSLQQAQASGTVVLDSFPIEPNILGQFQQNLPLIRQQLKQQGLPPILLVMPQLRPLLARYARTFTQGLAVLSYNEIPENKQINVVGNLG EEDTPLTWDDIPHVHTLSLALGYRLVHLVNKDQGAPLSQRIRGVRRNLSEQVGFLLPEVRIRDNLSLKPNQYTISLNGEVIEQGFIEPERLMAIAVGDTYGEIDGILGSDPAYQLPAVWIEHQDKAKALNMGYQVVDDGTVIATHISKIMKTNLAELFTHDDVEAMTQRLTQQAPKLAEALAAALNPAQQLKVYRQLLLDQVPLKDIRTIANTMLESSENTKDPILLAADVRCALKRTLVNLIAGQKPELNVYALSDELEQMLLTSLQQAQASGTVVLDSFPIEPNILGQFQQNLPLIRQQLKQQGLPPILLVMPQLRPLLARYARTFTQGLAVLSYNEIPENKQINVVGNLG 7an4-a2-m1-cD_7an4-a2-m2-cC MlghB, GDP-mannoheptose C3,5 epimerase from Campylobacter jejuni complex with GDP-mannose Q0P8I4 Q0P8I4 2.6 X-RAY DIFFRACTION 105 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 176 177 7an4-a1-m1-cB_7an4-a1-m1-cA 7ang-a1-m1-cD_7ang-a1-m1-cA 7ang-a2-m1-cC_7ang-a2-m1-cB 7m14-a1-m1-cA_7m14-a1-m1-cB 7m14-a2-m1-cD_7m14-a2-m1-cC 7m14-a3-m1-cF_7m14-a3-m1-cE 7m15-a1-m1-cA_7m15-a1-m1-cB 7m15-a2-m1-cC_7m15-a2-m1-cD 7m15-a3-m1-cE_7m15-a3-m1-cF AIEFDIQESKILKGVYIITPNKFRDLRGEIWTAFTDEYLSKLVPDGIKFKHDKFINSHFNVLRGIHGDVKTYKLVTCVYGEVHQVVVDCRKDSPTYLKWEKFIISYKNQQLILLPPNMGNSHYVSSKEAVYYYKLAYEGEYMDAPDQFTYAWNDERIGIDWPTNTPILSDRDILAT MAIEFDIQESKILKGVYIITPNKFRDLRGEIWTAFTDEYLSKLVPDGIKFKHDKFINSHFNVLRGIHGDVKTYKLVTCVYGEVHQVVVDCRKDSPTYLKWEKFIISYKNQQLILLPPNMGNSHYVSSKEAVYYYKLAYEGEYMDAPDQFTYAWNDERIGIDWPTNTPILSDRDILAT 7an5-a1-m1-cA_7an5-a1-m1-cB Enzyme of biosynthetic pathway Q9L0T8 Q9L0T8 1.91 X-RAY DIFFRACTION 56 1.0 100226 (Streptomyces coelicolor A3(2)) 100226 (Streptomyces coelicolor A3(2)) 281 284 2nxo-a1-m1-cD_2nxo-a1-m1-cA 7ahr-a1-m1-cA_7ahr-a1-m1-cB 7an6-a1-m1-cB_7an6-a1-m1-cA 7an7-a1-m1-cA_7an7-a1-m1-cB 7an8-a1-m1-cB_7an8-a1-m1-cA 7an9-a1-m1-cB_7an9-a1-m1-cA 7ywc-a1-m1-cB_7ywc-a1-m1-cA SRTRPRVGHIQFLNCLPLYWGLARTGTLLDFELTKDTPEKLSEQLVRGDLDIGPVTLVEFLKNADDLVAFPDIAVGCDGPVMSCVIVSQVPLDRLDGARVALGSTSRTSVRLAQLLLSERFGVQPDYYTCPPDLSLMMQEADAAVLIGDAALRANMIDGPRYGLDVHDLGALWKEWTGLPFVFAVWAARRDYAEREPVITRKVHEAFLASRNLSLEEVEKVAEQAARWEAFDEDTLAKYFTTLDFRFGAPQLEAVTEFARRVGPTTGFPADVKVELLKPLE VDNSRTRPRVGHIQFLNCLPLYWGLARTGTLLDFELTKDTPEKLSEQLVRGDLDIGPVTLVEFLKNADDLVAFPDIAVGCDGPVMSCVIVSQVPLDRLDGARVALGSTSRTSVRLAQLLLSERFGVQPDYYTCPPDLSLMMQEADAAVLIGDAALRANMIDGPRYGLDVHDLGALWKEWTGLPFVFAVWAARRDYAEREPVITRKVHEAFLASRNLSLEEVEKVAEQAARWEAFDEDTLAKYFTTLDFRFGAPQLEAVTEFARRVGPTTGFPADVKVELLKPLE 7anc-a1-m1-cB_7anc-a1-m1-cA MlghC, GDP-mannoheptose C4 reductase from Campylobacter jejuni with NADP bound Q0P8I6 Q0P8I6 1.66 X-RAY DIFFRACTION 101 0.997 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 314 336 7cxt-a1-m1-cA_7cxt-a1-m1-cB 7m13-a1-m1-cA_7m13-a1-m1-cB GMQTNSKIYIAGHKGTAGTALVENLQKRGFNNLVLKTRQELDLVNQQAVAKFFKEEKPEYVFLTAVLPCGAANVAQRADFIYENLMIQNNVIHNSFLNNVKKLVFFGSGYMYPENAKNPLKEEYLFQGDLEYGAYSFGAAKIAGAIMCESYNIQYGTNFITLVLNNLYGTKANRVLPALLRKFHLAKLLSEGNITQINFGISKKSVEIWGTGKVRREFIHSDDLADVAIYTMQNIDFKDLISKNTHINIGTGIDYSIKEVALMVKNIVGFSGELVFNTSTMDRLMDCSKIHSLGWKHKIELKDGIKMMYEWYKT GMQTNSKIYIAGHKGTAGTALVENLQKRGFNNLVLKTRQELDLVNQQAVAKFFKEEKPEYVFLTAVLPCGAANVAQRADFIYENLMIQNNVIHNSFLNNVKKLVFFGSGYMYPENAKNPLKEEYLFQGDLEYGAYSFGAAKIAGAIMCESYNIQYGTNFITLVLNNLYGTKANFDFGKSRVLPALLRKFHLAKLLSEGNITQILQDLKMNNFEEAKEYLHNFGISKKSVEIWGTGKVRREFIHSDDLADVAIYTMQNIDFKDLISKNTHINIGTGIDYSIKEVALMVKNIVGFSGELVFNTTMDRLMDCSKIHSLGWKHKIELKDGIKMMYEWYKT 7anh-a1-m1-cA_7anh-a1-m2-cA DdhaC A0A5T1PRU5 A0A5T1PRU5 2.08 X-RAY DIFFRACTION 104 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 347 347 GMQKDSKIYIAGHSGLVGSAILNELKQQGYKNLVFKTHFELDLTNQKAVADFFEREKPEYVILAAAKAGGILANNTYRADFIYQNLMIECNVIHNAYLHKVKKLLFIASTTVYPKNATLPTSEEQMLSGDLEYTNKPYAIAKISGLMLCESYNLQYNTNFIAITPTNLYGNNDKFDLEKSHVLPGILRKMHLAKLLNEKRYEDLLNDLKFDSIEEAKNYLKKFGVDKDNVEIWGSGKPTREFLHSQDLANACLFIMNNIDFKDLKSIEIINTHLNIGPHKNITIKELAELIKNIVGFKGKLVFNLNRMQKFTDCSKIHSLGWKHKIELEDGIKMMYKWYLKEQNIRQ GMQKDSKIYIAGHSGLVGSAILNELKQQGYKNLVFKTHFELDLTNQKAVADFFEREKPEYVILAAAKAGGILANNTYRADFIYQNLMIECNVIHNAYLHKVKKLLFIASTTVYPKNATLPTSEEQMLSGDLEYTNKPYAIAKISGLMLCESYNLQYNTNFIAITPTNLYGNNDKFDLEKSHVLPGILRKMHLAKLLNEKRYEDLLNDLKFDSIEEAKNYLKKFGVDKDNVEIWGSGKPTREFLHSQDLANACLFIMNNIDFKDLKSIEIINTHLNIGPHKNITIKELAELIKNIVGFKGKLVFNLNRMQKFTDCSKIHSLGWKHKIELEDGIKMMYKWYLKEQNIRQ 7anj-a1-m1-cB_7anj-a1-m1-cA DdahB, GDP-mannoheptose C3,5 epimerase from Campylobacter jejuni complexed to GDP-mannose Q6EF58 Q6EF58 2.35 X-RAY DIFFRACTION 105 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 163 172 7ani-a1-m1-cA_7ani-a1-m1-cB 8dak-a1-m1-cB_8dak-a1-m1-cA 8dcl-a1-m1-cB_8dcl-a1-m1-cA AIEFIQESKILKGVYIITPNKFRDLRGEIWTAFTSKAVDKLLPNGLKFIHDKFIHSKHNVIRGIHGDVKTYKLATCVYGEIHQVVVDCRKDSPTYLKYEKFIINQDNQQIILVPAGFGNAHYVTSESAVYYYKCAYQFTYAWNDERIGIDWPTNSPILSERDI AIEFNIQESKILKGVYIITPNKFRDLRGEIWTAFTSKAVDKLLPNGLKFIHDKFIHSKHNVIRGIHGDVKTYKLATCVYGEIHQVVVDCRKDSPTYLKYEKFIINQDNQQIILVPAGFGNAHYVTSESAVYYYKCAYKGDYVQFTYAWNDERIGIDWPTNSPILSERDILAT 7aoa-a1-m1-cA_7aoa-a1-m1-cD Structure of the extended MTA1/HDAC1/MBD2/RBBP4 NURD deacetylase complex Q13330 Q13330 19.4 ELECTRON MICROSCOPY 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 343 343 4bkx-a1-m1-cA_4bkx-a1-m2-cA 5icn-a1-m1-cA_5icn-a1-m2-cA 7ao8-a1-m1-cA_7ao8-a1-m1-cD 7ao9-a1-m1-cA_7ao9-a1-m1-cD GDYVYFENSSSNPYLIRRIEELNKTANGNVEAKVVCFYRRRDISHQLRHRELFLSRQLESLPATHIRGKCSVTLLNETESLKSYLEREDFFFYSLVYDPQQKTLADGEIRVGNRYQADITDLLKEGEEDGRDQSRLETQVWEAHNPLTDKQIDQFLVVARSVGTFARALDSLHMSAAAASRDITLFHAMDTLHKNIYDISKAISALVPQGGPVLCRDEMEEWSASEANLFEEALEKYGKDFTDIQQDFLPWKSLTSIIEYYYMWKTTDRYVQQKRQAFYLHTTKLTRIARRLCREILRPWHAARHPYLPINSAAIKAECTARLPEAVRKPLEAVLRYLETHPR GDYVYFENSSSNPYLIRRIEELNKTANGNVEAKVVCFYRRRDISHQLRHRELFLSRQLESLPATHIRGKCSVTLLNETESLKSYLEREDFFFYSLVYDPQQKTLADGEIRVGNRYQADITDLLKEGEEDGRDQSRLETQVWEAHNPLTDKQIDQFLVVARSVGTFARALDSLHMSAAAASRDITLFHAMDTLHKNIYDISKAISALVPQGGPVLCRDEMEEWSASEANLFEEALEKYGKDFTDIQQDFLPWKSLTSIIEYYYMWKTTDRYVQQKRQAFYLHTTKLTRIARRLCREILRPWHAARHPYLPINSAAIKAECTARLPEAVRKPLEAVLRYLETHPR 7aob-a1-m1-cA_7aob-a1-m1-cD Crystal structure of Thermaerobacter marianensis malate dehydrogenase E6SLT2 E6SLT2 2.12 X-RAY DIFFRACTION 85 1.0 73919 (Thermaerobacter marianensis) 73919 (Thermaerobacter marianensis) 309 309 7aob-a1-m1-cB_7aob-a1-m1-cC MKRPKVSIVGAGNTGAALAHWLAIKQVADIVLVDVVEGMPQGKALDLMQSAPVEGFDVVITGSNDYAATAGSDVVVITAGAARKPGMSRDDLVNINTGIVREITAQVARYSPDAYLIVLTNPLDVMCYVAYKVSGFPKHRVMGQSGILDSARFRTFIARELNVSFEDVHALVLGGHGDSMVPLPRYTHVGGIPVTQLLPKEKIDELVRRTRDGGAEIVRLLKTGSAFFAPGAAMAEMVEAILRDRKRVLPVSAYLEGEYGESGIFMGVPVVLGGNGIEKILEIELTDEERQAFARSAADVRQTLSKLDL MKRPKVSIVGAGNTGAALAHWLAIKQVADIVLVDVVEGMPQGKALDLMQSAPVEGFDVVITGSNDYAATAGSDVVVITAGAARKPGMSRDDLVNINTGIVREITAQVARYSPDAYLIVLTNPLDVMCYVAYKVSGFPKHRVMGQSGILDSARFRTFIARELNVSFEDVHALVLGGHGDSMVPLPRYTHVGGIPVTQLLPKEKIDELVRRTRDGGAEIVRLLKTGSAFFAPGAAMAEMVEAILRDRKRVLPVSAYLEGEYGESGIFMGVPVVLGGNGIEKILEIELTDEERQAFARSAADVRQTLSKLDL 7aob-a1-m1-cB_7aob-a1-m1-cD Crystal structure of Thermaerobacter marianensis malate dehydrogenase E6SLT2 E6SLT2 2.12 X-RAY DIFFRACTION 31 1.0 73919 (Thermaerobacter marianensis) 73919 (Thermaerobacter marianensis) 308 309 7aob-a1-m1-cC_7aob-a1-m1-cA MKRPKVSIVGAGNTGAALAHWLAIKQVADIVLVDVVEGMPQGKALDLMQSAPVEGFDVVITGSNDYAATAGSDVVVITAGAARKPGMSRDDLVNINTGIVREITAQVARYSPDAYLIVLTNPLDVMCYVAYKVSGFPKHRVMGQSGILDSARFRTFIARELNVSFEDVHALVLGGHGDSMVPLPRYTHVGGIPVTQLLPKEKIDELVRRTRDGGAEIVRLLKTGSAFFAPGAAMAEMVEAILRDRKRVLPVSAYLEGEYGESGIFMGVPVVLGGNGIEKILEIELTDEERQAFARSAADVRQTLSKLD MKRPKVSIVGAGNTGAALAHWLAIKQVADIVLVDVVEGMPQGKALDLMQSAPVEGFDVVITGSNDYAATAGSDVVVITAGAARKPGMSRDDLVNINTGIVREITAQVARYSPDAYLIVLTNPLDVMCYVAYKVSGFPKHRVMGQSGILDSARFRTFIARELNVSFEDVHALVLGGHGDSMVPLPRYTHVGGIPVTQLLPKEKIDELVRRTRDGGAEIVRLLKTGSAFFAPGAAMAEMVEAILRDRKRVLPVSAYLEGEYGESGIFMGVPVVLGGNGIEKILEIELTDEERQAFARSAADVRQTLSKLDL 7aob-a1-m1-cC_7aob-a1-m1-cD Crystal structure of Thermaerobacter marianensis malate dehydrogenase E6SLT2 E6SLT2 2.12 X-RAY DIFFRACTION 132 1.0 73919 (Thermaerobacter marianensis) 73919 (Thermaerobacter marianensis) 308 309 7aob-a1-m1-cB_7aob-a1-m1-cA MKRPKVSIVGAGNTGAALAHWLAIKQVADIVLVDVVEGMPQGKALDLMQSAPVEGFDVVITGSNDYAATAGSDVVVITAGAARKPGMSRDDLVNINTGIVREITAQVARYSPDAYLIVLTNPLDVMCYVAYKVSGFPKHRVMGQSGILDSARFRTFIARELNVSFEDVHALVLGGHGDSMVPLPRYTHVGGIPVTQLLPKEKIDELVRRTRDGGAEIVRLLKTGSAFFAPGAAMAEMVEAILRDRKRVLPVSAYLEGEYGESGIFMGVPVVLGGNGIEKILEIELTDEERQAFARSAADVRQTLSKLD MKRPKVSIVGAGNTGAALAHWLAIKQVADIVLVDVVEGMPQGKALDLMQSAPVEGFDVVITGSNDYAATAGSDVVVITAGAARKPGMSRDDLVNINTGIVREITAQVARYSPDAYLIVLTNPLDVMCYVAYKVSGFPKHRVMGQSGILDSARFRTFIARELNVSFEDVHALVLGGHGDSMVPLPRYTHVGGIPVTQLLPKEKIDELVRRTRDGGAEIVRLLKTGSAFFAPGAAMAEMVEAILRDRKRVLPVSAYLEGEYGESGIFMGVPVVLGGNGIEKILEIELTDEERQAFARSAADVRQTLSKLDL 7aoi-a1-m1-cUA_7aoi-a1-m1-cBB Trypanosoma brucei mitochondrial ribosome large subunit assembly intermediate A0A3L6KX69 3.5 ELECTRON MICROSCOPY 17 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 46 371 AAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAA KAWFEPYTPKKFDMEHQRISHNFYNLETKLIWTAFDTPELIGILLHDETIKGAPHLYDAEFLESAVHWTRESRYWRCIGITKPFYNKTTLRAQCWHDRGLQVGTLVFSQAMRDALMDLERAVRRKELGLEPNYVWDRWGPVGFIDGARTDHLPRFAHNPYVDPDGVEVTEVDIAPFNTHEQIKERYGAFIDPDLRPFAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAAALAAAAEKVEALRLMENTRHDAARVRTFYEEKCGFSDFMRTPDKVITAAVLCYLQELQRICTETDWGKPLARCLTDLERVNVMGKDAFLVYRHIEDAILDKKRRVWATRFA 7aon-a1-m11-cA_7aon-a1-m9-cA Crystal structure of CI2 double mutant L49I,I57V P01053 P01053 1.3 X-RAY DIFFRACTION 33 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 64 64 1ciq-a1-m1-cA_1ciq-a1-m5-cA 1ciq-a1-m1-cA_1ciq-a1-m6-cA 1ciq-a1-m2-cA_1ciq-a1-m4-cA 1ciq-a1-m2-cA_1ciq-a1-m6-cA 1ciq-a1-m3-cA_1ciq-a1-m4-cA 1ciq-a1-m3-cA_1ciq-a1-m5-cA 1coa-a1-m10-cI_1coa-a1-m12-cI 1coa-a1-m10-cI_1coa-a1-m6-cI 1coa-a1-m11-cI_1coa-a1-m12-cI 1coa-a1-m11-cI_1coa-a1-m8-cI 1coa-a1-m1-cI_1coa-a1-m2-cI 1coa-a1-m1-cI_1coa-a1-m3-cI 1coa-a1-m2-cI_1coa-a1-m5-cI 1coa-a1-m3-cI_1coa-a1-m7-cI 1coa-a1-m4-cI_1coa-a1-m6-cI 1coa-a1-m4-cI_1coa-a1-m8-cI 1coa-a1-m5-cI_1coa-a1-m9-cI 1coa-a1-m7-cI_1coa-a1-m9-cI 1cq4-a1-m1-cA_1cq4-a1-m2-cA 1cq4-a2-m1-cA_1cq4-a2-m2-cA 1cq4-a2-m1-cA_1cq4-a2-m6-cA 1cq4-a2-m2-cA_1cq4-a2-m3-cA 1cq4-a2-m3-cA_1cq4-a2-m5-cA 1cq4-a2-m4-cA_1cq4-a2-m5-cA 1cq4-a2-m4-cA_1cq4-a2-m6-cA 1cq4-a3-m10-cA_1cq4-a3-m8-cA 1cq4-a3-m10-cA_1cq4-a3-m9-cA 1cq4-a3-m11-cA_1cq4-a3-m7-cA 1cq4-a3-m11-cA_1cq4-a3-m9-cA 1cq4-a3-m12-cA_1cq4-a3-m7-cA 1cq4-a3-m12-cA_1cq4-a3-m8-cA 1cq4-a3-m1-cA_1cq4-a3-m2-cA 1cq4-a3-m1-cA_1cq4-a3-m6-cA 1cq4-a3-m2-cA_1cq4-a3-m3-cA 1cq4-a3-m3-cA_1cq4-a3-m5-cA 1cq4-a3-m4-cA_1cq4-a3-m5-cA 1cq4-a3-m4-cA_1cq4-a3-m6-cA 2ci2-a1-m1-cI_2ci2-a1-m2-cI 2ci2-a1-m1-cI_2ci2-a1-m3-cI 2ci2-a1-m2-cI_2ci2-a1-m4-cI 2ci2-a1-m3-cI_2ci2-a1-m5-cI 2ci2-a1-m4-cI_2ci2-a1-m6-cI 2ci2-a1-m5-cI_2ci2-a1-m6-cI 6qiy-a1-m10-cA_6qiy-a1-m8-cA 6qiy-a1-m10-cA_6qiy-a1-m9-cA 6qiy-a1-m11-cA_6qiy-a1-m7-cA 6qiy-a1-m11-cA_6qiy-a1-m9-cA 6qiy-a1-m12-cA_6qiy-a1-m7-cA 6qiy-a1-m12-cA_6qiy-a1-m8-cA 6qiy-a1-m1-cA_6qiy-a1-m5-cA 6qiy-a1-m1-cA_6qiy-a1-m6-cA 6qiy-a1-m2-cA_6qiy-a1-m4-cA 6qiy-a1-m2-cA_6qiy-a1-m6-cA 6qiy-a1-m3-cA_6qiy-a1-m4-cA 6qiy-a1-m3-cA_6qiy-a1-m5-cA 7a1h-a1-m10-cA_7a1h-a1-m8-cA 7a1h-a1-m10-cA_7a1h-a1-m9-cA 7a1h-a1-m11-cA_7a1h-a1-m7-cA 7a1h-a1-m11-cA_7a1h-a1-m9-cA 7a1h-a1-m12-cA_7a1h-a1-m7-cA 7a1h-a1-m12-cA_7a1h-a1-m8-cA 7a1h-a1-m1-cA_7a1h-a1-m5-cA 7a1h-a1-m1-cA_7a1h-a1-m6-cA 7a1h-a1-m2-cA_7a1h-a1-m4-cA 7a1h-a1-m2-cA_7a1h-a1-m6-cA 7a1h-a1-m3-cA_7a1h-a1-m4-cA 7a1h-a1-m3-cA_7a1h-a1-m5-cA 7aon-a1-m10-cA_7aon-a1-m8-cA 7aon-a1-m10-cA_7aon-a1-m9-cA 7aon-a1-m11-cA_7aon-a1-m7-cA 7aon-a1-m12-cA_7aon-a1-m7-cA 7aon-a1-m12-cA_7aon-a1-m8-cA 7aon-a1-m1-cA_7aon-a1-m5-cA 7aon-a1-m1-cA_7aon-a1-m6-cA 7aon-a1-m2-cA_7aon-a1-m4-cA 7aon-a1-m2-cA_7aon-a1-m6-cA 7aon-a1-m3-cA_7aon-a1-m4-cA 7aon-a1-m3-cA_7aon-a1-m5-cA MKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRIFVDKLDNVAQVPRVG MKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRIFVDKLDNVAQVPRVG 7aon-a1-m2-cA_7aon-a1-m9-cA Crystal structure of CI2 double mutant L49I,I57V P01053 P01053 1.3 X-RAY DIFFRACTION 10 1.0 4513 (Hordeum vulgare) 4513 (Hordeum vulgare) 64 64 1coa-a1-m10-cI_1coa-a1-m7-cI 1coa-a1-m11-cI_1coa-a1-m5-cI 1coa-a1-m12-cI_1coa-a1-m9-cI 1coa-a1-m1-cI_1coa-a1-m4-cI 1coa-a1-m2-cI_1coa-a1-m8-cI 1coa-a1-m3-cI_1coa-a1-m6-cI 6qiy-a1-m10-cA_6qiy-a1-m4-cA 6qiy-a1-m11-cA_6qiy-a1-m6-cA 6qiy-a1-m12-cA_6qiy-a1-m5-cA 6qiy-a1-m1-cA_6qiy-a1-m7-cA 6qiy-a1-m2-cA_6qiy-a1-m9-cA 6qiy-a1-m3-cA_6qiy-a1-m8-cA 7a1h-a1-m10-cA_7a1h-a1-m4-cA 7a1h-a1-m11-cA_7a1h-a1-m6-cA 7a1h-a1-m12-cA_7a1h-a1-m5-cA 7a1h-a1-m1-cA_7a1h-a1-m7-cA 7a1h-a1-m2-cA_7a1h-a1-m9-cA 7a1h-a1-m3-cA_7a1h-a1-m8-cA 7aon-a1-m10-cA_7aon-a1-m4-cA 7aon-a1-m11-cA_7aon-a1-m6-cA 7aon-a1-m12-cA_7aon-a1-m5-cA 7aon-a1-m1-cA_7aon-a1-m7-cA 7aon-a1-m3-cA_7aon-a1-m8-cA MKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRIFVDKLDNVAQVPRVG MKTEWPELVGKSVEEAKKVILQDKPEAQIIVLPVGTIVTMEYRIDRVRIFVDKLDNVAQVPRVG 7aoo-a1-m1-cD_7aoo-a1-m1-cA Plasmoredoxin, a redox-active protein unique for malaria parasites Q8I224 Q8I224 1.6 X-RAY DIFFRACTION 46 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 160 168 7aoo-a1-m1-cC_7aoo-a1-m1-cB YEKYANYMNYLYYYQNNELKKIDSSYFKDKYLGLFFGASWCKYCVTFIDSLNIFKKNFPNVEIIYIPFDRTYQEYQSFLKNTNFYALPFDNYLYICKKYQIKNLPSFMLITPNNNILVKDAAQLIKTDEYINNLKSLIKNYIIHPKTFQFNNRFFDLFRN YPNDKTAEYEKYANYMNYLYYYQNNELKKIDSSYFKDKYLGLFFGASWCKYCVTFIDSLNIFKKNFPNVEIIYIPFDRTYQEYQSFLKNTNFYALPFDNYLYICKKYQIKNLPSFMLITPNNNILVKDAAQLIKTDEYINNLKSLIKNYIIHPKTFQFNNRFFDLFRN 7aoo-a1-m1-cD_7aoo-a1-m1-cB Plasmoredoxin, a redox-active protein unique for malaria parasites Q8I224 Q8I224 1.6 X-RAY DIFFRACTION 44 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 160 165 7aoo-a1-m1-cC_7aoo-a1-m1-cA YEKYANYMNYLYYYQNNELKKIDSSYFKDKYLGLFFGASWCKYCVTFIDSLNIFKKNFPNVEIIYIPFDRTYQEYQSFLKNTNFYALPFDNYLYICKKYQIKNLPSFMLITPNNNILVKDAAQLIKTDEYINNLKSLIKNYIIHPKTFQFNNRFFDLFRN DKTAEYEKYANYMNYLYYYQNNELKKIDSSYFKDKYLGLFFGASWCKYCVTFIDSLNIFKKNFPNVEIIYIPFDRTYQEYQSFLKNTNFYALPFDNYLYICKKYQIKNLPSFMLITPNNNILVKDAAQLIKTDEYINNLKSLIKNYIIHPKTFQFNNRFFDLFRN 7ape-a3-m1-cA_7ape-a3-m1-cB Crystal structure of LpqY from Mycobacterium thermoresistible in complex with trehalose G7CES0 G7CES0 1.7 X-RAY DIFFRACTION 85 1.0 1797 (Mycolicibacterium thermoresistibile) 1797 (Mycolicibacterium thermoresistibile) 435 435 GEIVISYYTPANEAATFTAVAQRCNAELGGRFRIEQRSLPREADAQRLQLARRLTGNDRSLDVMALDVVWTAEFAEAGWALPLSEDPAGLAEADATTNTLPGPLETAKWNGELYAAPITTNTQLLWYRADLMDEPPATWDEMLSEAARLHAQGGPSWIAVQGKQYEGLVVWFNTLLESAGGQVLSDDGQRVTLTDTPEHRAATVKALEIIKAVATAPGADPSITQTDENTARLALEQGRAALEVNWPYVLPSLLENAIKGGVGFLPLNENPALRGSINDVGTFAPTDEQFDLALNASKEVFGFARYPGVRPDEPARVTLGGLNLAVASTTRHKAEAFEAVRCLRNEENQRLTSIEGGLPAVRTSLYDDPQFQAKYPQYEIIRDQLINAAVRPATPVYQAMSTRMSATLAPISQIDPERTADELAEQVQQAIDGKG GEIVISYYTPANEAATFTAVAQRCNAELGGRFRIEQRSLPREADAQRLQLARRLTGNDRSLDVMALDVVWTAEFAEAGWALPLSEDPAGLAEADATTNTLPGPLETAKWNGELYAAPITTNTQLLWYRADLMDEPPATWDEMLSEAARLHAQGGPSWIAVQGKQYEGLVVWFNTLLESAGGQVLSDDGQRVTLTDTPEHRAATVKALEIIKAVATAPGADPSITQTDENTARLALEQGRAALEVNWPYVLPSLLENAIKGGVGFLPLNENPALRGSINDVGTFAPTDEQFDLALNASKEVFGFARYPGVRPDEPARVTLGGLNLAVASTTRHKAEAFEAVRCLRNEENQRLTSIEGGLPAVRTSLYDDPQFQAKYPQYEIIRDQLINAAVRPATPVYQAMSTRMSATLAPISQIDPERTADELAEQVQQAIDGKG 7aps-a1-m1-cA_7aps-a1-m1-cB The Fk1 domain of FKBP51 in complex with (2S)-2-((1S,5R,6R)-10-((3,5-dichlorophenyl)sulfonyl)-2-oxo-5-vinyl-3,10-diazabicyclo[4.3.1]decan-3-yl)propanoic acid Q13451 Q13451 0.94 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 GAPATVTEQGEDITSKKDRGVLKIVKRVGNGEETPMIGDKVYVHYKGKLSNGKKFDSSHDRNEPFVFSLGKGQVIKAWDIGVATMKKGEICHLLCKPEYAYGSAGSLPKIPSNATLFFEIELLDFKGE GAPATVTEQGEDITSKKDRGVLKIVKRVGNGEETPMIGDKVYVHYKGKLSNGKKFDSSHDRNEPFVFSLGKGQVIKAWDIGVATMKKGEICHLLCKPEYAYGSAGSLPKIPSNATLFFEIELLDFKGE 7apz-a1-m1-cA_7apz-a1-m2-cA CLIP peptide bound to chicken MHC class II molecule (BL-2) from B2 haplotype with a decamer mode of binding Q4U5Z6 Q4U5Z6 1.97 X-RAY DIFFRACTION 34 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 184 184 DRRHVLLQAEFYQRSEGPDKAWAQFGFHFDADELFHVELDAAQTVWRLPEFGRFASFEAQGALQNMAVGKQNLEVMISNSNRSQQDFVTPELALFPAEAVSLEEPNVLICYADKFWPPVATMEWRRNGAVVSEGVYDSVYYGRPDLLFRKFSYLPFVPQRGDVYSCAVRHWGAEGPVQRMWEPE DRRHVLLQAEFYQRSEGPDKAWAQFGFHFDADELFHVELDAAQTVWRLPEFGRFASFEAQGALQNMAVGKQNLEVMISNSNRSQQDFVTPELALFPAEAVSLEEPNVLICYADKFWPPVATMEWRRNGAVVSEGVYDSVYYGRPDLLFRKFSYLPFVPQRGDVYSCAVRHWGAEGPVQRMWEPE 7apz-a1-m1-cB_7apz-a1-m2-cB CLIP peptide bound to chicken MHC class II molecule (BL-2) from B2 haplotype with a decamer mode of binding B5BSA0 B5BSA0 1.97 X-RAY DIFFRACTION 19 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 206 206 MSMSTMNMPMAMKVGGGSGSSAFFFCGAIFECHYLNGTERVRYLQRYIYNRQQLVHFDSDVGKFVADTPLGEPQAEYWNSNAELLENIMNIADGSCRHNYGILESFTVQRSVEPKVRVSALQSGSLPETDRLACYVTGFYPPEIEVKWFLNGREETERVVSTDVMQNGDWTYQVLVVLETVPRRGDSYVCRVEHASLRQPISQAWE MSMSTMNMPMAMKVGGGSGSSAFFFCGAIFECHYLNGTERVRYLQRYIYNRQQLVHFDSDVGKFVADTPLGEPQAEYWNSNAELLENIMNIADGSCRHNYGILESFTVQRSVEPKVRVSALQSGSLPETDRLACYVTGFYPPEIEVKWFLNGREETERVVSTDVMQNGDWTYQVLVVLETVPRRGDSYVCRVEHASLRQPISQAWE 7aqo-a1-m1-cC_7aqo-a1-m1-cJ yeast THO-Sub2 complex dimer O13539 O13539 4.5 ELECTRON MICROSCOPY 13 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 227 230 GRTYFESLCEEEQSLQESQTHLLNILDILSVLADPDDLLTESLKKLPDLHRELINSSIRLRYDKYQTREAQLLEDTKTGRDVAAGVQNPKSISEYYSTFEHLNRDTLRYINLLKRLSVDLAKQVEVSDPSVTVYEMDKWVPSEKLQGILEQYCAPDTDIRGVDAQIKNYLDQIKMARAKFGLENKYSLKERLSTLTKELNHWRKEWDDIEMLMFGDDAHSMKKMIQK GRTYFESLCEEEQSLQESQTHLLNILDILSVLADPDDLLTESLKKLPDLHRELINSSIRLRYDKYQTREAQLLEDTKTGRDVAAGVQNPKSISEYYSTFEHLNRDTLRYINLLKRLSVDLAKQVEVSDPSVTVYEMDKWVPSEKLQGILEQYCAPDTDIRGVDAQIKNYLDQIKMARAKFGLENKYSLKERLSTLTKELNHWRKEWDDIEMLMFGDDAHSMKKMIQKIDS 7aqo-a1-m1-cD_7aqo-a1-m1-cI yeast THO-Sub2 complex dimer P33441 P33441 4.5 ELECTRON MICROSCOPY 13 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 225 227 PLSQKQIDQVRTKVHYSEVDTPFNKYLDILGKVTKLTGSIINGTLSNDDSKIEKLTEQNISQLKESAHLRFLDLQSSIDTKKVADENWETCQQETLAKLENLKDKLPDIKSIHSKLLLRIGKLQGLYDSVQVINREVEGLSEGRTSLVVTRAEWEKELGTDLVKFLIEIYDDFSKGPKELESINASMKSDIENVRQEVSSYKEKWLRDAEIFGKITSIFKEELLK PLSQKQIDQVRTKVHYSEVDTPFNKYLDILGKVTKLTGSIINGTLSNDDSKIEKLTEQNISQLKESAHLRFLDLQSSIDTKKVADENWETCQQETLAKLENLKDKLPDIKSIHSKLLLRIGKLQGLYDSVQVINREVEGLSEGRTSLVVTRAEWEKELGTDLVKFLIEIYDDFSKGPKELESINASMKSDIENVRQEVSSYKEKWLRDAEIFGKITSIFKEELLKRD 7aqo-a1-m1-cE_7aqo-a1-m1-cK yeast THO-Sub2 complex dimer P53851 P53851 4.5 ELECTRON MICROSCOPY 18 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 348 348 SVTSKYLQSTFSKGNTSHIEDKRFIHVSSRSHITPNEILSLKFHVSGSSMAYSRMDGSLTVWFIKDASFDKSVEVYIPDCCGSDKLATDLSWNPTSLNQIAVVSNSSEISLLLINEKSLTASKLRTLSLGSKTKVNTCLYDPLGNWLLAATKSEKIYLFDVKKDHSSVCSLNISDISQEDNDVVYSLAWSNGGSHIFIGFKSGYLAILKAKHGILEVCTKIKAHTGPITEIKMDPWGRNFITGSIDGNCYVWNMKSLCCELIINDLNSAVTTLDVCHLGKILGICTEDEMVYFYDLNSGNLLHSKSLANYKTDPVLKFYPDKSWYIMSGKNDTLSNHFVKNEKNLITY SVTSKYLQSTFSKGNTSHIEDKRFIHVSSRSHITPNEILSLKFHVSGSSMAYSRMDGSLTVWFIKDASFDKSVEVYIPDCCGSDKLATDLSWNPTSLNQIAVVSNSSEISLLLINEKSLTASKLRTLSLGSKTKVNTCLYDPLGNWLLAATKSEKIYLFDVKKDHSSVCSLNISDISQEDNDVVYSLAWSNGGSHIFIGFKSGYLAILKAKHGILEVCTKIKAHTGPITEIKMDPWGRNFITGSIDGNCYVWNMKSLCCELIINDLNSAVTTLDVCHLGKILGICTEDEMVYFYDLNSGNLLHSKSLANYKTDPVLKFYPDKSWYIMSGKNDTLSNHFVKNEKNLITY 7aqx-a1-m1-cA_7aqx-a1-m1-cB Co-Crystal Structure of Variant Surface Glycoprotein VSG2 in complex with Nanobody VSG2(NB9) P26332 P26332 1.499 X-RAY DIFFRACTION 324 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 362 362 1vsg-a1-m1-cA_1vsg-a1-m1-cB 7aqy-a1-m1-cA_7aqy-a1-m1-cB 7aqz-a1-m1-cA_7aqz-a1-m1-cB 7ar0-a1-m1-cA_7ar0-a1-m2-cA 7p56-a1-m1-cB_7p56-a1-m1-cA 7p57-a2-m1-cA_7p57-a2-m2-cA AAEKGFKQAFWQPLCQVSEELDDQPKGALFTLQAAASKIQKMRDAALRASIYAEINHGTNRAKAAVIVANHYAMKADSGLEALKQTLSSQEVTATATASYLKGRIDEYLNLLLQTKESGTSGCMMDTSGTNTVTKAGGTIGGVPCKLQLSPIQPKRPAATYLGKAGYVGLTRQADAANNFHDNDAECRLASGHNTNGLGKSGQLSAAVTMAAGYVTVANSQTAVTVQALDALQEASGAAHQPWIDAWKAKKALTGAETAEFRNETAGIAGKTGVTKLVEEALLKKKDSEASEIQTELKKYFSGHENEQWTAIEKLISEQPVAQNLVGDNQPTKLGELEGNAKLTTILAYYRMETAGKFEVLT AAEKGFKQAFWQPLCQVSEELDDQPKGALFTLQAAASKIQKMRDAALRASIYAEINHGTNRAKAAVIVANHYAMKADSGLEALKQTLSSQEVTATATASYLKGRIDEYLNLLLQTKESGTSGCMMDTSGTNTVTKAGGTIGGVPCKLQLSPIQPKRPAATYLGKAGYVGLTRQADAANNFHDNDAECRLASGHNTNGLGKSGQLSAAVTMAAGYVTVANSQTAVTVQALDALQEASGAAHQPWIDAWKAKKALTGAETAEFRNETAGIAGKTGVTKLVEEALLKKKDSEASEIQTELKKYFSGHENEQWTAIEKLISEQPVAQNLVGDNQPTKLGELEGNAKLTTILAYYRMETAGKFEVLT 7ara-a1-m1-cA_7ara-a1-m2-cB Rhinovirus A2 2A protease in complex with zVAM.fmk P04936 P04936 2.243 X-RAY DIFFRACTION 39 1.0 12130 (rhinovirus A2) 12130 (rhinovirus A2) 139 139 GPSDMYVHVGNLIYRNLHLFNSEMHESILVSYSSDLIIYRTNTVGDDYIPSCDCTQATYYCKHKNRYFPITVTSHDWYEIQESEYYPKHIQYNLLIGEGPCEPGDCGGKLLCKHGVIGIVTAGGDNHVAFIDLRHFHCA GPSDMYVHVGNLIYRNLHLFNSEMHESILVSYSSDLIIYRTNTVGDDYIPSCDCTQATYYCKHKNRYFPITVTSHDWYEIQESEYYPKHIQYNLLIGEGPCEPGDCGGKLLCKHGVIGIVTAGGDNHVAFIDLRHFHCA 7aro-a1-m1-cA_7aro-a1-m2-cA Crystal structure of the non-ribose partial agonist LUF5833 bound to the adenosine A2A receptor P29274 P29274 3.119 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 381 381 GAPPIMGSSVYITVELAIAVLAILGNVLVCWAVWLNSNLQNVTNYFVVSLAAADILVGVLAIPFAITISTGFCAACHGCLFIACFVLVLAQSSIFSLLAIAIDRYIAIAIPLRYNGLVTGTRAAGIIAICWVLSFAIGLTPMLGWNNCGQPKEGKAHSQGCGEGQVACLFEDVVPMNYMVYFNFFACVLVPLLLMLGVYLRIFAAARRQLADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLERARSTLQKEVHAAKSAAIIAGLFALCWLPLHIINCFTFFCPDCSHAPLWLMYLAIVLAHTNSVVNPFIYAYRIREFRQTFRKIIRS GAPPIMGSSVYITVELAIAVLAILGNVLVCWAVWLNSNLQNVTNYFVVSLAAADILVGVLAIPFAITISTGFCAACHGCLFIACFVLVLAQSSIFSLLAIAIDRYIAIAIPLRYNGLVTGTRAAGIIAICWVLSFAIGLTPMLGWNNCGQPKEGKAHSQGCGEGQVACLFEDVVPMNYMVYFNFFACVLVPLLLMLGVYLRIFAAARRQLADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLERARSTLQKEVHAAKSAAIIAGLFALCWLPLHIINCFTFFCPDCSHAPLWLMYLAIVLAHTNSVVNPFIYAYRIREFRQTFRKIIRS 7arr-a1-m1-cD_7arr-a1-m1-cA The de novo designed hybrid alpha/beta-miniprotein 1.1 X-RAY DIFFRACTION 17 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 32 7arr-a2-m1-cC_7arr-a2-m1-cB 7ars-a1-m1-cB_7ars-a1-m1-cA LSEEEIQRIFGLSSEQIKSLPEEYKKVETG LSEEEIQRIFGLSSEQIKSLPEEYKKVETGYL 7arz-a1-m1-cA_7arz-a1-m2-cA Ternary complex of NAD-dependent formate dehydrogenase from Physcomitrium patens A9SQZ2 A9SQZ2 2.15 X-RAY DIFFRACTION 196 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 361 361 AFSYSSAAGGESKKILGVFFAAHEYAKNPEFLGCVENALGIREWLESKGHKYVVTSDKDGPDSELDKELADAHILITTPFHPAYMTKERLAKAKNLELLVTAGVGSDHIDLHAAAEKGLTVSEVTGSNVTSVAEDEVLRILVLVRNFAPGWKQVSEGGWNVAAVVHHAYDLIDRTVGTVGGGRIGQELMKRLKGFGLKEMLYYDRNSLGAEREKELGCKRETDLDTMLSKCDVVVVNTPLTDQTRGLFNKERIAKMKKGAYLVNNARGAIADTEAVKEACESGHLGGYGGDVWNAQPAGKDHPWRYMPNHAMTPHISGTTLDAQKRFAAGTKDMIDRWLKHEAFPEQNYIVREGKLASQYL AFSYSSAAGGESKKILGVFFAAHEYAKNPEFLGCVENALGIREWLESKGHKYVVTSDKDGPDSELDKELADAHILITTPFHPAYMTKERLAKAKNLELLVTAGVGSDHIDLHAAAEKGLTVSEVTGSNVTSVAEDEVLRILVLVRNFAPGWKQVSEGGWNVAAVVHHAYDLIDRTVGTVGGGRIGQELMKRLKGFGLKEMLYYDRNSLGAEREKELGCKRETDLDTMLSKCDVVVVNTPLTDQTRGLFNKERIAKMKKGAYLVNNARGAIADTEAVKEACESGHLGGYGGDVWNAQPAGKDHPWRYMPNHAMTPHISGTTLDAQKRFAAGTKDMIDRWLKHEAFPEQNYIVREGKLASQYL 7as6-a2-m2-cA_7as6-a2-m3-cA 2.0 angstrom structure of plant Extended Synaptotagmin 1, C2A domain Q9SKR2 Q9SKR2 2 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 131 131 7as6-a2-m1-cA_7as6-a2-m2-cA 7as6-a2-m1-cA_7as6-a2-m3-cA 7atp-a2-m1-cA_7atp-a2-m2-cA 7atp-a2-m1-cA_7atp-a2-m3-cA 7atp-a2-m2-cA_7atp-a2-m3-cA RRPVGIVHVKVVRAVGLRKKDLMGGADPFVKIKLSEDKIPSKKTTVKHKNLNPEWNEEFKFSVRDPQTQVLEFSVYDWEQVGNPEKMGMNVLALKEMVPDEHKAFTLELRKTLDKYRGKLEVELLYKPFTE RRPVGIVHVKVVRAVGLRKKDLMGGADPFVKIKLSEDKIPSKKTTVKHKNLNPEWNEEFKFSVRDPQTQVLEFSVYDWEQVGNPEKMGMNVLALKEMVPDEHKAFTLELRKTLDKYRGKLEVELLYKPFTE 7asi-a1-m1-cA_7asi-a1-m2-cA Fixed-target serial femtosecond crystallography using in cellulo grown Neurospora crassa HEX-1 microcrystals. (Chips 1+2) P87252 P87252 1.704 X-RAY DIFFRACTION 48 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 141 141 1khi-a1-m1-cA_1khi-a1-m2-cA 7asx-a1-m1-cA_7asx-a1-m2-cA 7njh-a1-m1-cA_7njh-a1-m2-cA 7nji-a1-m1-cA_7nji-a1-m2-cA QTVTIPCHHIRLGDILILQGRPCQVIRISTSAATGQHRYLGVDLFTKQLHEESSFVSNPAPSVVVQTMLGPVFKQYRVLDMQDGSIVAMTETGDVKQNLPVIDQSSLWNRLQKAFESGRGSVRVLVVSDHGREMAVDMKVV QTVTIPCHHIRLGDILILQGRPCQVIRISTSAATGQHRYLGVDLFTKQLHEESSFVSNPAPSVVVQTMLGPVFKQYRVLDMQDGSIVAMTETGDVKQNLPVIDQSSLWNRLQKAFESGRGSVRVLVVSDHGREMAVDMKVV 7asv-a1-m1-cA_7asv-a1-m1-cB Crystal structure of tWHD2 of Rpc5 subunit of human RNA Polymerase III Q9NVU0 Q9NVU0 1.55 X-RAY DIFFRACTION 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 150 APTPVARELKAFVEATFQRQFVLTLSELKRLFNLHLASLPPGHTLFSGISDRLQDTVLAAGCKQILVPFPPQTAASPDEQKVFALWESGDSDQHRQVLLEIFSKNYRVRRNIQSRLTQEGEDLSKQEVDKVLKDCCVSYGGWYLKGTVQS APTPVARELKAFVEATFQRQFVLTLSELKRLFNLHLASLPPGHTLFSGISDRLQDTVLAAGCKQILVPFPPQTAASPDEQKVFALWESGDSDQHRQVLLEIFSKNYRVRRNIQSRLTQEGEDLSKQEVDKVLKDCCVSYGGWYLKGTVQS 7ath-a1-m1-cAAA_7ath-a1-m2-cAAA Crystal structure of UipA A0A3Q9JIL7 A0A3Q9JIL7 2.343 X-RAY DIFFRACTION 254 1.0 51671 (Microbacterium sp.) 51671 (Microbacterium sp.) 136 136 7atk-a1-m1-cAAA_7atk-a1-m2-cAAA TGIGTASADELIAIADAARGAADGEVTSIDAKRDGTWEVQLTTAAGAETEVRVDEALVASVTSTDAADGTGPALTLDDETIRALVSAALAEAEGMITDLDVDGDDVSPYDASVLTSDNRSIDIDFSADFAVVGTDI TGIGTASADELIAIADAARGAADGEVTSIDAKRDGTWEVQLTTAAGAETEVRVDEALVASVTSTDAADGTGPALTLDDETIRALVSAALAEAEGMITDLDVDGDDVSPYDASVLTSDNRSIDIDFSADFAVVGTDI 7atr-a1-m1-cB_7atr-a1-m1-cA The Crystal Structure of YejA - an ABC Peptide Transporter Receptor P33913 P33913 1.55 X-RAY DIFFRACTION 57 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 11 580 LGEPRYAFNFN MQAIKESYAFAVLGEPRYAFNFNHFDYVNPAAPKGGQITLSALGTFDNFNRYALRGNPGARTEQLYDTLFTTSDDEPGSYYPLIAESARYADDYSWVEVAINPRARFHDGSPITARDVEFTFQKFMTEGVPQFRLVYKGTTVKAIAPLTVRIELAKPGKEDMLSLFSLPVFPEKYWKDHKLSDPLATPPLASGPYRVTSWKMGQNIVYSRVKDYWAANLPVNRGRWNFDTIRYDYYLDDNVAFEAFKAGAFDLRMENDAKNWATRYTGKNFDKKYIIKDEQKNESAQDTRWLAFNIQRPVFSDRRVREAITLAFDFEWMNKALFYNAWSRTNSYFQNTEYAARNYPDAAELVLLAPMKKDLPSEVFTQIYQPPVSKGDGYDRDNLLKADKLLNEAGWVLKGQQRVNATTGQPLSFELLLPASSNSQWVLPFQHSLQRLGINMDIRKVDNSQITNRMRSRDYDMMPRVWRAMPWPSSDLQISWSSEYINSTYNAPGVQSPVIDSLINQIIAAQGNKEKLLPLGRALDRVLTWNYYMLPMWYMAEDRLAWWDKFSQPAVRPIYSLGIDTWWYDVNKAAKLPS 7aua-a1-m1-cA_7aua-a1-m1-cB Cryo-EM structure of human exostosin-like 3 (EXTL3) in complex with UDP O43909 O43909 2.93 ELECTRON MICROSCOPY 324 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 686 686 7au2-a1-m1-cA_7au2-a1-m1-cB GCRLHNCFDYSRCPLTSGFPVYVYDSDQFVFGSYLDPLVKQAFQATARANVYVTENADIACLYVILVGEMQEPVVLRPAELEKQLYSLPHWRTDGHNHVIINLSRKSDTQNLLYNVSTGRAMVAQSTFYTVQYRPGFDLVVSPLVHAMSEPNFMEIPPQVPVKRKYLFTFQGEKDYDDRIIATLKAVQDSKLDQVLVEFTCKNQPKPSLPTEWALCGEREDRLELLKLSTFALIITPGDPRLVISSGCATRLFEALEVGAVPVVLGEQVQLPYQDMLQWNEAALVVPKPRVTEVHFLLRSLSDSDLLAMRRQGRFLWETYFSTADSIFNTVLAMIRTRIQIPAAPIREEAAAEIPHRSPPYASPRYLRNFTLTVTDFYRSWNCAPGPFHLFPHTPFDPVLPSEAKFLGSGTGFRPIGGGAGGSGKEFQAALGGNVPREQFTVVMLTYEREEVLMNSLERLNGLPYLNKVVVVWNSPKLPSEDLLWPDIGVPIMVVRTEKNSLNNRFLPWNEIETEAILSIDDDAHLRHDEIMFGFRVWREARDRIVGFPGRYHAWDIPHQSWLYNSNYSCELSMVLTGAAFFHKYYAYLYSYVMPQAIRDMVDEYINCEDIAMNFLVSHITRKPPIKVTSRWTFRDDSHFHERHKCINFFVKVYGYMPLLYTQFRVDSVLFKTRLPHDKTKCFKFI GCRLHNCFDYSRCPLTSGFPVYVYDSDQFVFGSYLDPLVKQAFQATARANVYVTENADIACLYVILVGEMQEPVVLRPAELEKQLYSLPHWRTDGHNHVIINLSRKSDTQNLLYNVSTGRAMVAQSTFYTVQYRPGFDLVVSPLVHAMSEPNFMEIPPQVPVKRKYLFTFQGEKDYDDRIIATLKAVQDSKLDQVLVEFTCKNQPKPSLPTEWALCGEREDRLELLKLSTFALIITPGDPRLVISSGCATRLFEALEVGAVPVVLGEQVQLPYQDMLQWNEAALVVPKPRVTEVHFLLRSLSDSDLLAMRRQGRFLWETYFSTADSIFNTVLAMIRTRIQIPAAPIREEAAAEIPHRSPPYASPRYLRNFTLTVTDFYRSWNCAPGPFHLFPHTPFDPVLPSEAKFLGSGTGFRPIGGGAGGSGKEFQAALGGNVPREQFTVVMLTYEREEVLMNSLERLNGLPYLNKVVVVWNSPKLPSEDLLWPDIGVPIMVVRTEKNSLNNRFLPWNEIETEAILSIDDDAHLRHDEIMFGFRVWREARDRIVGFPGRYHAWDIPHQSWLYNSNYSCELSMVLTGAAFFHKYYAYLYSYVMPQAIRDMVDEYINCEDIAMNFLVSHITRKPPIKVTSRWTFRDDSHFHERHKCINFFVKVYGYMPLLYTQFRVDSVLFKTRLPHDKTKCFKFI 7auw-a1-m1-cA_7auw-a1-m1-cC Inhibitory complex of human meprin beta with mouse fetuin-B. Q16820 Q16820 2.8 X-RAY DIFFRACTION 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 532 532 4gwm-a1-m1-cB_4gwm-a1-m1-cA 4gwn-a1-m1-cA_4gwn-a1-m2-cA 7aq1-a1-m1-cA_7aq1-a1-m1-cB NSIIGEKYRWPHTIPYVLEDSLEMNAKGVILNAFERYRLKTCIDFKPWAGETNYISVFKGSGCWSSVGNRRVGKQELSIGANCDRIATVQHEFLHALGFWHEQSRSDRDDYVRIMWDRILSGREHNFNTYSDDISDSLNVPYDYTSVMHYSKTAFQNGTEPTIVTRISDFEDVIGQRMDFSDSDLLKLNQLYNCSSSLSFMDSCSFELENVCGMIQSSGDNADWQRVSQVPRGPESDHSNMGQCQGSGFFMHFDSSSVNVGATAVLESRTLYPKRGFQCLQFYLYNSGSESDQLNIYIREYSADNVDGNLTLVEEIKEIPTGSWQLYHVTLKVTKKFRVVFEGRKGSGASLGGLSIDDINLSETRCPHHIWHIRNFTQFIGSPNGTLYSPPFYSSKGYAFQIYLNLAHVTNAGIYFHLISGANDDQLQWPCPWQQATMTLLDQNPDIRQRMSNQRSITTDPFMTTDNGNYFWDRPSKVGTVALFSNGTQFRRGGGYGTSAFITHERLKSRDFIKGDDVYILLTVEDISHLNS NSIIGEKYRWPHTIPYVLEDSLEMNAKGVILNAFERYRLKTCIDFKPWAGETNYISVFKGSGCWSSVGNRRVGKQELSIGANCDRIATVQHEFLHALGFWHEQSRSDRDDYVRIMWDRILSGREHNFNTYSDDISDSLNVPYDYTSVMHYSKTAFQNGTEPTIVTRISDFEDVIGQRMDFSDSDLLKLNQLYNCSSSLSFMDSCSFELENVCGMIQSSGDNADWQRVSQVPRGPESDHSNMGQCQGSGFFMHFDSSSVNVGATAVLESRTLYPKRGFQCLQFYLYNSGSESDQLNIYIREYSADNVDGNLTLVEEIKEIPTGSWQLYHVTLKVTKKFRVVFEGRKGSGASLGGLSIDDINLSETRCPHHIWHIRNFTQFIGSPNGTLYSPPFYSSKGYAFQIYLNLAHVTNAGIYFHLISGANDDQLQWPCPWQQATMTLLDQNPDIRQRMSNQRSITTDPFMTTDNGNYFWDRPSKVGTVALFSNGTQFRRGGGYGTSAFITHERLKSRDFIKGDDVYILLTVEDISHLNS 7av6-a1-m1-cA_7av6-a1-m2-cA FAST in a domain-swapped dimer form P16113 P16113 1.5 X-RAY DIFFRACTION 151 1.0 1053 (Halorhodospira halophila) 1053 (Halorhodospira halophila) 99 99 GLAFGAIQLDGDGNILQYNADITGRDPKQVIGKNFFKDVAPGTDSPEFYGKFKEGVASGNLNTMFEWMIPTSRGPTKVKVHMKKALSGDSYWVFVKRVK GLAFGAIQLDGDGNILQYNADITGRDPKQVIGKNFFKDVAPGTDSPEFYGKFKEGVASGNLNTMFEWMIPTSRGPTKVKVHMKKALSGDSYWVFVKRVK 7avr-a2-m1-cE_7avr-a2-m1-cH The tetrameric structure of haloalkane dehalogenase DpaA from Paraglaciecola agarilytica NO2 K6XNL5 K6XNL5 2 X-RAY DIFFRACTION 84 1.0 1125747 (Paraglaciecola agarilytica NO2) 1125747 (Paraglaciecola agarilytica NO2) 298 299 7avr-a1-m1-cB_7avr-a1-m1-cA 7avr-a1-m1-cD_7avr-a1-m1-cC 7avr-a2-m1-cF_7avr-a2-m1-cG IKALRTPEERFSVLPAFPYQPNYVDDLGGYESLRMAYIDEGDKDSEYTFLCLHGEPTWSYLYRKMIPVFTDAGHRVVAPDLFGFGRSDKPIEDSVYNFEFHRNSLIQLIEHLDLKNIVLVCQDWGGGLGLTIPMDMQDRFKKLIVMNTTISNGEPLAEAAVQWMAFNETISELPVAGLVACDAGAAVNVMDALAYDAPFPNKNYKVGVKRFPQMIPTNADDDAVKYGLRAIEFWSNEWSGESFMAIGMKDAVLGEAAMMQLKTVIKGCPEPMKIEEAGHFVQEYGVEVAEQALASFTM IKALRTPEERFSVLPAFPYQPNYVDDLGGYESLRMAYIDEGDKDSEYTFLCLHGEPTWSYLYRKMIPVFTDAGHRVVAPDLFGFGRSDKPIEDSVYNFEFHRNSLIQLIEHLDLKNIVLVCQDWGGGLGLTIPMDMQDRFKKLIVMNTTISNGEPLAEAAVQWMAFNETISELPVAGLVACDAGAAVNVMDALAYDAPFPNKNYKVGVKRFPQMIPTNADDDAVKYGLRAIEFWSNEWSGESFMAIGMKDAVLGEAAMMQLKTVIKGCPEPMKIEEAGHFVQEYGVEVAEQALASFTMI 7avr-a2-m1-cF_7avr-a2-m1-cH The tetrameric structure of haloalkane dehalogenase DpaA from Paraglaciecola agarilytica NO2 K6XNL5 K6XNL5 2 X-RAY DIFFRACTION 36 0.997 1125747 (Paraglaciecola agarilytica NO2) 1125747 (Paraglaciecola agarilytica NO2) 298 299 7avr-a1-m1-cB_7avr-a1-m1-cC 7avr-a1-m1-cD_7avr-a1-m1-cA 7avr-a2-m1-cE_7avr-a2-m1-cG TIKALRTPEERFSVLPAFPYQPNYVDDLGGYESLRMAYIDEGDKDSEYTFLCLHGEPTWSYLYRKMIPVFTDAGHRVVAPDLFGFGRSDKPIEDSVYNFEFHRNSLIQLIEHLDLKNIVLVCQDWGGGLGLTIPMDMQDRFKKLIVMNTTISNGEPLAEAAVQWMAFNETISELPVAGLVACDAGAAVNVMDALAYDAPFPNKNYKVGVKRFPQMIPTNADDDAVKYGLRAIEFWSNEWSGESFMAIGMKDAVLGEAAMMQLKTVIKGCPEPMKIEEAGHFVQEYGVEVAEQALASFT IKALRTPEERFSVLPAFPYQPNYVDDLGGYESLRMAYIDEGDKDSEYTFLCLHGEPTWSYLYRKMIPVFTDAGHRVVAPDLFGFGRSDKPIEDSVYNFEFHRNSLIQLIEHLDLKNIVLVCQDWGGGLGLTIPMDMQDRFKKLIVMNTTISNGEPLAEAAVQWMAFNETISELPVAGLVACDAGAAVNVMDALAYDAPFPNKNYKVGVKRFPQMIPTNADDDAVKYGLRAIEFWSNEWSGESFMAIGMKDAVLGEAAMMQLKTVIKGCPEPMKIEEAGHFVQEYGVEVAEQALASFTMI 7aw7-a1-m1-cE_7aw7-a1-m1-cD CCAAT-binding complex and HapX bound to Aspergillus nidulans cccA DNA G5EAX9 G5EAX9 3.4 X-RAY DIFFRACTION 61 1.0 227321 (Aspergillus nidulans FGSC A4) 227321 (Aspergillus nidulans FGSC A4) 68 93 7aw9-a1-m1-cE_7aw9-a1-m1-cD PTKRKAQNRAAQRAFRERRAARVSELEDQIKKIEDDHEIHVATFKEQIANLSREVEQCRTEMGWWRDR VTSKEWIIPPRPKPGRKPATDTPPTKRKAQNRAAQRAFRERRAARVSELEDQIKKIEDDHEIHVATFKEQIANLSREVEQCRTEMGWWRDRSH 7awe-a1-m1-cH_7awe-a1-m1-cV HUMAN IMMUNOPROTEASOME 20S PARTICLE IN COMPLEX WITH [(1R)-2-(1-benzofuran-3-yl)-1-{[(1S,2R,4R)-7-oxabicyclo[2.2.1]heptan-2-yl]formamido}ethyl]boronic acid P28065 P28065 2.288 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 199 199 3unf-a1-m1-cN_3unf-a1-m1-cb 3unh-a1-m1-cN_3unh-a1-m1-cb 6avo-a1-m1-cA_6avo-a1-m1-cF 6e5b-a1-m1-cN_6e5b-a1-m1-cb 7b12-a1-m1-cH_7b12-a1-m1-cV 7dr6-a1-m1-cW_7dr6-a1-m1-cZ 7dr7-a1-m1-cW_7dr7-a1-m1-cZ 7drw-a1-m1-cW_7drw-a1-m1-cZ TTIMAVEFDGGVVMGSDSRVSAGEAVVNRVFDKLSPLHERIYCALSGSAADAQAVADMAAYQLELHGIELEEPPLVLAAANVVRNISYKYREDLSAHLMVAGWDQREGGQVYGTLGGMLTRQPFAIGGSGSTFIYGYVDAAYKPGMSPEECRRFTTDAIALAMSRDGSSGGVIYLVTITAAGVDHRVILGNELPKFYDE TTIMAVEFDGGVVMGSDSRVSAGEAVVNRVFDKLSPLHERIYCALSGSAADAQAVADMAAYQLELHGIELEEPPLVLAAANVVRNISYKYREDLSAHLMVAGWDQREGGQVYGTLGGMLTRQPFAIGGSGSTFIYGYVDAAYKPGMSPEECRRFTTDAIALAMSRDGSSGGVIYLVTITAAGVDHRVILGNELPKFYDE 7awv-a1-m1-cB_7awv-a1-m1-cA Azoreductase (AzoRo) from Rhodococcus opacus 1CP A0A1B1KJ01 A0A1B1KJ01 2.2 X-RAY DIFFRACTION 111 1.0 37919 (Rhodococcus opacus) 37919 (Rhodococcus opacus) 205 210 HLLHIDSSISGPASVSRPLTARAAANWKAAHPDGTVTYRDLGASPLPHINTASALAGVTPAAERRPEQSAAWAVSELVVEEVREATTIILGLPLYNYGPPSSVKAWVDYLIAPGLSLDAHTRAPLLGRRELLVLATRGGGFGPGTPREGWDHAQPWLPHGLAMTGLEPEFITTELTLAPVTPGMEHLVPLAKESRAAAERAIDQR MAHLLHIDSSISGPASVSRPLTARAAANWKAAHPDGTVTYRDLGASPLPHINTASALAGVTPAAERRPEQSAAWAVSELVVEEVREATTIILGLPLYNYGPPSSVKAWVDYLIAPGLSLDAHTRAPLLGRRELLVLATRGGGFGPGTPREGWDHAQPWLPHGLAMTGLEPEFITTELTLAPVTPGMEHLVPLAKESRAAAERAIDQRWVT 7ax0-a2-m1-cA_7ax0-a2-m2-cA Crystal structure of the computationally designed Scone-E protein co-crystallized with STA form a 2.2 X-RAY DIFFRACTION 34 1.0 32630 (synthetic construct) 32630 (synthetic construct) 317 317 RFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAGYWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTEKRIESSPVIGNTDTIYFGSYDGHLYAINPDGTEKWRFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAGYWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTEKRIESSPVIGNTDTIYFGSYDGHLYAINPDGTEKWRFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTE RFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAGYWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTEKRIESSPVIGNTDTIYFGSYDGHLYAINPDGTEKWRFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAGYWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTEKRIESSPVIGNTDTIYFGSYDGHLYAINPDGTEKWRFKTNDAITSAASIGKDGTIYFGSDKVYAINPDGTEKWNFYAWTVTRPAISEDGTIYVTSLDGHLYAINPDGTEKWRFKTE 7ayb-a1-m1-cA_7ayb-a1-m2-cA Crystal Structure of wild type human mitochondrial 2-Enoyl Thioester Reductase (MECR) Q9BV79 Q9BV79 1.85 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 340 340 1zsy-a1-m1-cA_1zsy-a1-m2-cA 2vcy-a1-m1-cA_2vcy-a1-m1-cB 7ayc-a1-m1-cA_7ayc-a1-m2-cA RVRALVYGHHGDPAKVVELKNLELAAVRGSDVRVKMLAAPINPSDINMIQGNYGLLPELPAVGGNEGVAQVVAVGSNVTGLKPGDWVIPANAGLGTWRTEAVFSEEALIQVPSDIPLQSAATLGVNPCTAYRMLMDFEQLQPGDSVIQNASNSGVGQAVIQIAAALGLRTINVVRDRPDIQKLSDRLKSLGAEHVITEEELRRPEMKNFFKDMPQPRLALNCVGGKSSTELLRQLARGGTMVTYGGMAKQPVVASVSLLIFKDLKLRGFWLSQWKKDHSPDQFKELILTLCDLIRRGQLTAPACSQVPLQDYQSALEASMKPFISSKQILTMLEHHHHHH RVRALVYGHHGDPAKVVELKNLELAAVRGSDVRVKMLAAPINPSDINMIQGNYGLLPELPAVGGNEGVAQVVAVGSNVTGLKPGDWVIPANAGLGTWRTEAVFSEEALIQVPSDIPLQSAATLGVNPCTAYRMLMDFEQLQPGDSVIQNASNSGVGQAVIQIAAALGLRTINVVRDRPDIQKLSDRLKSLGAEHVITEEELRRPEMKNFFKDMPQPRLALNCVGGKSSTELLRQLARGGTMVTYGGMAKQPVVASVSLLIFKDLKLRGFWLSQWKKDHSPDQFKELILTLCDLIRRGQLTAPACSQVPLQDYQSALEASMKPFISSKQILTMLEHHHHHH 7az0-a1-m1-cBBB_7az0-a1-m1-cAAA Structure of the mouse 8-oxoguanine DNA Glycosylase mOGG1 in complex with TH12161 O08760 O08760 2.4 X-RAY DIFFRACTION 12 0.997 10090 (Mus musculus) 10090 (Mus musculus) 310 312 7ayz-a1-m1-cBBB_7ayz-a1-m1-cAAA 7ayz-a1-m1-cBBB_7ayz-a1-m1-cCCC 7az0-a1-m1-cCCC_7az0-a1-m1-cBBB SHMRHRTLSSSPALWASIPCPRSELRLDLVLASGQSFRWKEQSPAHWSGVLADQVWTLTQTEDQLYCTVYRDSQVSRPTLEELETLHKYFQLDVSLAQLYSHWASVDSHFQRVAQKFQGVRLLRQDPTECLFSFICSSNNNIARITGMVERLCQAFGPRLIQLDDVTYHGFPNLHALAGPEAETHLRKLGLGYRARYVRASAKAILEEQGGPAWLQQLRVAPYEEAHKALCTLPGVGAKVADCICLMALDKPQAVPVDVHVWQIAHRDYGWHPKTGPSPLANKELGNFFRNLWGPYAGWAQAVLFSADLR GSHMRHRTLSSSPALWASIPCPRSELRLDLVLASGQSFRWKEQSPAHWSGVLADQVWTLTQTEDQLYCTVYRGDDSQVSRPTLEELETLHKYFQLDVSLAQLYSHWASVDSHFQRVAQKFQGVRLLRQDPTECLFSFICSSNNNIARITGMVERLCQAFGPRLIQLDDVTYHGFPNLHALAGPEAETHLRKLGLGYRARYVRASAKAILEEQGGPAWLQQLRVAPYEEAHKALCTLPGVGAKVADCICLMALDKPQAVPVDVHVWQIAHRDYGWHPKTGPSPLANKELGNFFRNLWGPYAGWAQAVLFSADL 7azq-a1-m1-cA_7azq-a1-m1-cE Crystal structure of the iron/manganese cambialistic superoxide dismutase from Rhodobacter capsulatus complex with Fe O30970 O30970 2 X-RAY DIFFRACTION 59 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 199 199 7azr-a1-m1-cA_7azr-a1-m1-cE AFELPALPYAHDALASLGMSKETLEYHHDLHHKAYVDNGNKLIAGTEWEGKSVEEIVKGTYCAGAVAQSGIFNNASQHWNHAQFWEMMGPGEDKKMPGALEKALVESFGSVAKFKEDFAAAGAGQFGSGWAWLVKDSDGALKITKTENGVNPLCFGQTALLGCDVWEHSYYIDFRNKRPAYLTNFLDKLVNWENVASRM AFELPALPYAHDALASLGMSKETLEYHHDLHHKAYVDNGNKLIAGTEWEGKSVEEIVKGTYCAGAVAQSGIFNNASQHWNHAQFWEMMGPGEDKKMPGALEKALVESFGSVAKFKEDFAAAGAGQFGSGWAWLVKDSDGALKITKTENGVNPLCFGQTALLGCDVWEHSYYIDFRNKRPAYLTNFLDKLVNWENVASRM 7b03-a1-m1-cD_7b03-a1-m1-cE Cryo-EM structure of the green-light absorbing proteorhodopsin Q6J4G7 Q6J4G7 2.93 ELECTRON MICROSCOPY 42 1.0 86473 (uncultured Gammaproteobacteria bacterium) 86473 (uncultured Gammaproteobacteria bacterium) 217 217 7b03-a1-m1-cA_7b03-a1-m1-cB 7b03-a1-m1-cA_7b03-a1-m1-cE 7b03-a1-m1-cB_7b03-a1-m1-cC 7b03-a1-m1-cC_7b03-a1-m1-cD DASDYTGVSFWLVTAALLASTVFFFVERDRVSAKWKTSLTVSGLVTGIAFWHYMYMRGVWIETGDSPTVFRYIDWLLTVPLLICEFYLILAAATNVAGSLFKKLLVGSLVMLVFGYMGEAGIMAAWPAFIIGCLAWVYMIYELWAGEGKSACNTASPAVQSAYNTMMYIIIFGWAIYPVGYFTGYLNLNLIYNLADFVNKILFGLIIWNVAVKESSN DASDYTGVSFWLVTAALLASTVFFFVERDRVSAKWKTSLTVSGLVTGIAFWHYMYMRGVWIETGDSPTVFRYIDWLLTVPLLICEFYLILAAATNVAGSLFKKLLVGSLVMLVFGYMGEAGIMAAWPAFIIGCLAWVYMIYELWAGEGKSACNTASPAVQSAYNTMMYIIIFGWAIYPVGYFTGYLNLNLIYNLADFVNKILFGLIIWNVAVKESSN 7b0a-a1-m1-cA_7b0a-a1-m1-cD Puumala virus-like particle glycoprotein spike and lattice contacts model. Q9WJ31 Q9WJ31 13.9 ELECTRON MICROSCOPY 51 1.0 1980486 () 1980486 () 422 422 TDTAHGSGIIPMRTDLELDFSLPSSASYTYRRQLQNPANEQEKIPFHLQISKQVIHAEIQHLGHWMDGTFNLKTAFHCYGSCEKYAYPWQTAGCFIEKDYEYESGWGCNPPDCPGVGTGCTACGVYLDKLKSVGKAFKIVSLRYTRKACIQLGTEQTCKSVDSNDCLVTTSVKVCLIGTVSKFQPSDTLLFLGPLEQGGLIFKQWCTTTCQFGDPGDIMSTPVGMKCPELNGSFRKKCAFATTPVCQFDGNTLSGYKRMIATKDSFQSFNVTEPHISASSLEWIDPDSSLRDHINVIVGRDLSFQDLSETPCQVDLATTSIDGAWGSGVGFNLVCSVSLTECSTFLTSIKACDSAMCYGSTTANLLRGQNTVHIVGKGGHSGSKFMCCHDTKCSSTGLVAAADSDKIFDDGAPECGISCWFT TDTAHGSGIIPMRTDLELDFSLPSSASYTYRRQLQNPANEQEKIPFHLQISKQVIHAEIQHLGHWMDGTFNLKTAFHCYGSCEKYAYPWQTAGCFIEKDYEYESGWGCNPPDCPGVGTGCTACGVYLDKLKSVGKAFKIVSLRYTRKACIQLGTEQTCKSVDSNDCLVTTSVKVCLIGTVSKFQPSDTLLFLGPLEQGGLIFKQWCTTTCQFGDPGDIMSTPVGMKCPELNGSFRKKCAFATTPVCQFDGNTLSGYKRMIATKDSFQSFNVTEPHISASSLEWIDPDSSLRDHINVIVGRDLSFQDLSETPCQVDLATTSIDGAWGSGVGFNLVCSVSLTECSTFLTSIKACDSAMCYGSTTANLLRGQNTVHIVGKGGHSGSKFMCCHDTKCSSTGLVAAADSDKIFDDGAPECGISCWFT 7b0d-a1-m1-cA_7b0d-a1-m1-cB Sugar transaminase from Archaeoglobus veneficus F2KQE6 F2KQE6 1.27 X-RAY DIFFRACTION 151 1.0 693661 (Archaeoglobus veneficus SNP6) 693661 (Archaeoglobus veneficus SNP6) 367 367 DMIPFVDLKREYQEIKEEIDQAIQRVLERGWFILGEELEAFEKEFSSYIGAKYGIGVNSGSDALYLGVKALGIGKGDEVITVSHTFISTVDAIVRNGAKPVFVDIDPETYTIDVSQIEKKITERTKAILPVHLYGHPADMGSIMEIGEKYSLFVIEDACQAHGAEYNGKKVGSIGDIGCFSFYPTNLGAYGDGGIVVTNDDELANKLRTLRNYGSSKKYYHEFVGVNSRLDEIQAAILRVKLKYLEEWNEKRRNIARLYNEFLESSDLVTPTEKEYAKHVYHLYVIRYKERDKLQQNLLKCGIQTQIHYPIPMHRQKAYLELEYNTSLPVTEKICNEILSLPMHPWLREEEIRRISNCIGEFLWMSN DMIPFVDLKREYQEIKEEIDQAIQRVLERGWFILGEELEAFEKEFSSYIGAKYGIGVNSGSDALYLGVKALGIGKGDEVITVSHTFISTVDAIVRNGAKPVFVDIDPETYTIDVSQIEKKITERTKAILPVHLYGHPADMGSIMEIGEKYSLFVIEDACQAHGAEYNGKKVGSIGDIGCFSFYPTNLGAYGDGGIVVTNDDELANKLRTLRNYGSSKKYYHEFVGVNSRLDEIQAAILRVKLKYLEEWNEKRRNIARLYNEFLESSDLVTPTEKEYAKHVYHLYVIRYKERDKLQQNLLKCGIQTQIHYPIPMHRQKAYLELEYNTSLPVTEKICNEILSLPMHPWLREEEIRRISNCIGEFLWMSN 7b0h-a1-m1-cE_7b0h-a1-m1-cF TgoT_6G12 Ternary complex P56689 P56689 3.15 X-RAY DIFFRACTION 32 1.0 71997 (Thermococcus gorgonarius) 71997 (Thermococcus gorgonarius) 713 762 MILDTDYITEDGKPVIRIFKKENGEFKIDYDRNFEPYIYALLKDDSAIEDVKKITAERHGTTVRVVRAEKVKKKFLGRPIEVWKLYFTHPQDQPAIRDKIKEHPAVVDIYEYDIPFAKRYLIDKGLIPMEGDEELKMLAFAIATLYHEGEEFAEGPILMISYADEEGARVITWKNIDLPYVDVVSTEKEMIKRFLKVVKEKDPDVLITYNGDNFDFAYLKKRSEKLGVKFILGREGSEPKIQRMGDRFAVEVKGRIHFDLYPVIRRTINLPTYTLEAVYEAIFGQPKEKVYAEEIAQAWETGEGLERVARYSMEDAKVTYELGKEFFPMEAQLSRLVGQSLWDVSRSSTGNLVEWFLLRKAYERNELAPNKPDERELARRRESYAGGYVKEPERGLWENIVYLDFRSLYPSIIITHNVSPDTLNREGCEEYDVAPQVGHKFCKDFPGFIPSLLGDLLEERQKVKKKMKATIDPIEKKLLDYRQRLIKILANSFYGYYGYAKARWYCKECAESVTAWGRQYIETTIREIEEKFGFKVLYADTDGFFATIPGADAETVKKKAKEFLDYINAKLPGLLELEYEGFYKRGFFATKKKYAVIDEEDKITTRGLKMVRRDWSEIAKETQARVLEAILKHGDVEEAVRIVKEVTEKLSKYEVPPEQLVIYIRPGTVISYIVPDEFDPAKHKYDAGYYIENQVLPAVERILRAFGYRKEDL MILDTDYITEDGKPVIRIFKKENGEFKIDYDRNFEPYIYALLKDDSAIEDVKKITAERHGTTVRVVRAEKVKKKFLGRPIEVWKLYFTHPQDQPAIRDKIKEHPAVVDIYEYDIPFAKRYLIDKGLIPMEGDEELKMLAFAIATLYHEGEEFAEGPILMISYADEEGARVITWKNIDLPYVDVVSTEKEMIKRFLKVVKEKDPDVLITYNGDNFDFAYLKKRSEKLGVKFILGREGSEPKIQRMGDRFAVEVKGRIHFDLYPVIRRTINLPTYTLEAVYEAIFGQPKEKVYAEEIAQAWETGEGLERVARYSMEDAKVTYELGKEFFPMEAQLSRLVGQSLWDVSRSSTGNLVEWFLLRKAYERNELAPNKPDERELARRRESYAGGYVKEPERGLWENIVYLDFRSLYPSIIITHNVSPDTLNREGCEEYDVAPQVGHKFCKDFPGFIPSLLGDLLEERQKVKKKMKATIDPIEKKLLDYRQRLIKILANSFYGYYGYAKARWYCKECAESVTAWGRQYIETTIREIEEKFGFKVLYADTDGFFATIPGADAETVKKKAKEFLDYINAKLPGLLELEYEGFYKRGFFATKKKYAVIDEEDKITTRGLKMVRRDWSEIAKETQARVLEAILKHGDVEEAVRIVKEVTEKLSKYEVPPEQLVIYQPITKQLHDYRARGPHVSVAKRLAARGIKIRPGTVISYIVPKGSGRIGDRAIPFDEFDPAKHKYDAGYYIENQVLPAVERILRAFGYRKEDLRYQKTRQ 7b0m-a1-m1-cAAA_7b0m-a1-m2-cAAA Sugar transaminase from a metagenome collected from troll oil field production water A0A5Q0MTV0 A0A5Q0MTV0 1.43 X-RAY DIFFRACTION 147 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 368 368 CELYLDSPNLGELEKEYILKAIDSNFVSTVGPFVPEFEEKFAKYLRVTSCVAVQSGTAAIHAALYELGIKEGDEIIVPAITFVATVNPIVYCGATPVFVDIDKDTWDIDPKEIEKSITSKTKAIIPVHLYGNPCDMDEIMKIAEKYGLYVIEDATESLGAEYKGRMTGTIGHIGCFSFNGNIITTGGGGMISTNNEKWASHIKFLVNQARDASQGYFHPEIGFNYRMTNLEAALGLAQLERLPEFLKKKRMYFEAYKKIFGGIDEIALQKEYEGAISSAWLPSIKIDRKKIKMTIPEIQDKLKEKGIPTRRIFNPIVDFPPYVKYKNGNYHNSYEIFENGLSLPASTLNTLENIEYAAKTLLNILGIK CELYLDSPNLGELEKEYILKAIDSNFVSTVGPFVPEFEEKFAKYLRVTSCVAVQSGTAAIHAALYELGIKEGDEIIVPAITFVATVNPIVYCGATPVFVDIDKDTWDIDPKEIEKSITSKTKAIIPVHLYGNPCDMDEIMKIAEKYGLYVIEDATESLGAEYKGRMTGTIGHIGCFSFNGNIITTGGGGMISTNNEKWASHIKFLVNQARDASQGYFHPEIGFNYRMTNLEAALGLAQLERLPEFLKKKRMYFEAYKKIFGGIDEIALQKEYEGAISSAWLPSIKIDRKKIKMTIPEIQDKLKEKGIPTRRIFNPIVDFPPYVKYKNGNYHNSYEIFENGLSLPASTLNTLENIEYAAKTLLNILGIK 7b1c-a1-m1-cB_7b1c-a1-m1-cA Cryo-EM of Aedes Aegypti Toll5A trimer bound to Spz1C A0A6I8TEX2 A0A6I8TEX2 3.74 ELECTRON MICROSCOPY 37 0.999 7159 (Aedes aegypti) 7159 (Aedes aegypti) 751 752 7b1b-a1-m1-cB_7b1b-a1-m1-cA TCPEESEASNCSCEEFPSKTHFYCPDFNPTLYVDVEDRMRVDFKCYDEPHDFKSLPNLAIGSVKLLTVVDCVLDDDRPILESFKFLEVADVRSFVYNNHENGIRYNAKYFEGMEQLENLTLARGVVSIDRDTFSGFLNLKRLTIEHNKLNLQPGTFEALSNLTYLGLVYNGLNEIQPGLFDGLESLEALSLSYNDIKSLSAGSFNGLSSLRMLNLRVNKIESFDANTFASLKELSRLEITLNPFVSLPRGLFSENKKLKTLILTNNRKLVTLPEELLANLKELTVVNLSHNGVGNLPESLLSGSSGIIELNLGYNRLNSLPEELLSDQPQLQVLNLDHNQLESIPDYFLERNVELQTLYLSHNRLRSLSEKAFTKLKNLKELHLENNQLQTIPQFLFSGTPKLEEIYMQNNQLALHANSFINEELSIADNDNTPFQVLQKLRILHLRNNSISTIFQDWYINNLEMQSLDLSFNKLPGLSYTQLQFQSNITLNLSNNEISQVLLIDDLDLQPYQRINVDLNHNPLNCNCNALKFIQLIQSKAEHGLQFNVDQLRCSEPPNLLDATMDQLQTKDLLCDFESADDCPKDCQCAMRLLDHTVIVNCSGRGLTEFPDLPIPSQLHEDFNALEVHVENNRLTKLPNLTKHNEITQLYARNNSIQNLLPHNIPSKLRIIDLSQNLLKMIDDSTLAQINRSSHLETIRLSQNQWLCDCPASSFLIFVQQNSRLISDMSAIRCHPSGKSLDSITVNELCF RFTCPEESEASNCSCEEFPSKTHFYCPDFNPTLYVDVEDRMRVDFKCYDEPHDFKSLPNLAIGSVKLLTVVDCVLDDDRPILESFKFLEVADVRSFVYNNHENGIRYNAKYFEGMEQLENLTLARGVVSIDRDTFSGFLNLKRLTIEHNKLNLQPGTFEALSNLTYLGLVYNGLNEIQPGLFDGLESLEALSLSYNDIKSLSAGSFNGLSSLRMLNLRVNKIESFDANTFASLKELSRLEITLNPFVSLPRGLFSENKKLKTLILTNNRKLVTLPEELLANLKELTVVNLSHNGVGNLPESLLSGSSGIIELNLGYNRLNSLPEELLSDQPQLQVLNLDHNQLESIPDYFLERNVELQTLYLSHNRLRSLSEKAFTKLKNLKELHLENNQLQTIPQFLFSGTPKLEEIYMQNNQLALHANSFINEELSIADNDNTPFQVLQKLRILHLRNNSISTIFQDWYINNLEMQSLDLSFNKLPGLSYTQLQFQSNITLNLSNNEISQVLLIDDLDLQPYQRINVDLNHNPLNCNCNALKFIQLIQSKAEHGLQFNVDQLRCSEPPNLLDATMDQLQTKDLLCDFESADDCPKDCQCAMRLLDHTVIVNCSGRGLTEFPDLPIPSQLHEDFNALEVHVENNRLTKLPNLTKHNEITQLYARNNSIQNLLPHNIPSKLRIIDLSQNLLKMIDDSTLAQINRSSHLETIRLSQNQWLCDCPASSFLIFVQQNSRLISDMSAIRCHPSGKSLDSITVNELC 7b1c-a1-m1-cP_7b1c-a1-m1-cD Cryo-EM of Aedes Aegypti Toll5A trimer bound to Spz1C A0A6I8TNM9 A0A6I8TNM9 3.74 ELECTRON MICROSCOPY 81 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 91 96 7b1b-a1-m1-cP_7b1b-a1-m1-cD PFLCESEQLLIHPKEELSRNNSMVWIVNTKDYKQGVRIEKCLKRQLGKPCNFCDADTECKQLFHYRTLVAVDKVTKKPYKEQVLLPSCCKC PFLCESEQLLIHPKEELSRNNSMVWIVNTKDYKQGVRIEKCLKRQLGKPCNFCDADTECKQLFHYRTLVAVDKVTKKPYKEQVLLPSCCKCAKILS 7b1d-a1-m1-cC_7b1d-a1-m1-cB Cryo-EM of Aedes Aegypti Toll5A A0A6I8TEX2 A0A6I8TEX2 3.41 ELECTRON MICROSCOPY 60 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 752 753 7b1c-a1-m1-cC_7b1c-a1-m1-cB FTCPEESEASNCSCEEFPSKTHFYCPDFNPTLYVDVEDRMRVDFKCYDEPHDFKSLPNLAIGSVKLLTVVDCVLDDDRPILESFKFLEVADVRSFVYNNHENGIRYNAKYFEGMEQLENLTLARGVVSIDRDTFSGFLNLKRLTIEHNKLNLQPGTFEALSNLTYLGLVYNGLNEIQPGLFDGLESLEALSLSYNDIKSLSAGSFNGLSSLRMLNLRVNKIESFDANTFASLKELSRLEITLNPFVSLPRGLFSENKKLKTLILTNNRKLVTLPEELLANLKELTVVNLSHNGVGNLPESLLSGSSGIIELNLGYNRLNSLPEELLSDQPQLQVLNLDHNQLESIPDYFLERNVELQTLYLSHNRLRSLSEKAFTKLKNLKELHLENNQLQTIPQFLFSGTPKLEEIYMQNNQLALHANSFINEELSIADNDNTPFQVLQKLRILHLRNNSISTIFQDWYINNLEMQSLDLSFNKLPGLSYTQLQFQSNITLNLSNNEISQVLLIDDLDLQPYQRINVDLNHNPLNCNCNALKFIQLIQSKAEHGLQFNVDQLRCSEPPNLLDATMDQLQTKDLLCDFESADDCPKDCQCAMRLLDHTVIVNCSGRGLTEFPDLPIPSQLHEDFNALEVHVENNRLTKLPNLTKHNEITQLYARNNSIQNLLPHNIPSKLRIIDLSQNLLKMIDDSTLAQINRSSHLETIRLSQNQWLCDCPASSFLIFVQQNSRLISDMSAIRCHPSGKSLDSITVNELCF RFTCPEESEASNCSCEEFPSKTHFYCPDFNPTLYVDVEDRMRVDFKCYDEPHDFKSLPNLAIGSVKLLTVVDCVLDDDRPILESFKFLEVADVRSFVYNNHENGIRYNAKYFEGMEQLENLTLARGVVSIDRDTFSGFLNLKRLTIEHNKLNLQPGTFEALSNLTYLGLVYNGLNEIQPGLFDGLESLEALSLSYNDIKSLSAGSFNGLSSLRMLNLRVNKIESFDANTFASLKELSRLEITLNPFVSLPRGLFSENKKLKTLILTNNRKLVTLPEELLANLKELTVVNLSHNGVGNLPESLLSGSSGIIELNLGYNRLNSLPEELLSDQPQLQVLNLDHNQLESIPDYFLERNVELQTLYLSHNRLRSLSEKAFTKLKNLKELHLENNQLQTIPQFLFSGTPKLEEIYMQNNQLALHANSFINEELSIADNDNTPFQVLQKLRILHLRNNSISTIFQDWYINNLEMQSLDLSFNKLPGLSYTQLQFQSNITLNLSNNEISQVLLIDDLDLQPYQRINVDLNHNPLNCNCNALKFIQLIQSKAEHGLQFNVDQLRCSEPPNLLDATMDQLQTKDLLCDFESADDCPKDCQCAMRLLDHTVIVNCSGRGLTEFPDLPIPSQLHEDFNALEVHVENNRLTKLPNLTKHNEITQLYARNNSIQNLLPHNIPSKLRIIDLSQNLLKMIDDSTLAQINRSSHLETIRLSQNQWLCDCPASSFLIFVQQNSRLISDMSAIRCHPSGKSLDSITVNELCF 7b1h-a1-m1-cA_7b1h-a1-m1-cB Monoclinic P21 Structure of Human Mad1 C-terminal Domain in Complex with Phosphorylated Bub1 CD1 Domain Q9Y6D9 Q9Y6D9 2.4 X-RAY DIFFRACTION 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 122 4dzo-a1-m1-cA_4dzo-a1-m1-cB 7b1f-a1-m1-cB_7b1f-a1-m1-cA 7b1h-a2-m1-cE_7b1h-a2-m1-cF 7b1j-a1-m1-cA_7b1j-a1-m1-cB SSKEVAELKKQVESAELKNQRLKEVFQTKIQEFRKACYTLTGYQIDITTENQYRLTSLYAEHPGDCLIFKATSPSGSKMQLLETEFSHTVGELIEVHLRRQDSIPAFLSSLTLELFSRQTVA SSKEVAELKKQVESAELKNQRLKEVFQTKIQEFRKACYTLTGYQIDITTENQYRLTSLYAEHPGDCLIFKATSPSGSKMQLLETEFSHTVGELIEVHLRRQDSIPAFLSSLTLELFSRQTVA 7b1l-a1-m1-cA_7b1l-a1-m1-cB Crystal structure of phosphatidyl serine synthase (PSS) in the closed conformation with bound citrate. Q58609 Q58609 1.85 X-RAY DIFFRACTION 112 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 196 196 7b1k-a1-m1-cA_7b1k-a1-m1-cB 7b1n-a1-m1-cA_7b1n-a1-m1-cB 7pow-a1-m1-cA_7pow-a1-m1-cB FSIRKIITISDYVTLNIITGLLAILLNSFSLIYLSIIFDSLDGYVARKTGTVSDFGAELDSISDVVSFGVAPAYLLYNNFESNLALISAIIFCLCGALRLARFGILNVKGFIGLPIPAGALLLVGFCQLINSYLINSILAILIGLLISDIKYPKYPNKIFIYIFAVSLCLAIVGIPHFALLCLIYAIYGIIKYIRG FSIRKIITISDYVTLNIITGLLAILLNSFSLIYLSIIFDSLDGYVARKTGTVSDFGAELDSISDVVSFGVAPAYLLYNNFESNLALISAIIFCLCGALRLARFGILNVKGFIGLPIPAGALLLVGFCQLINSYLINSILAILIGLLISDIKYPKYPNKIFIYIFAVSLCLAIVGIPHFALLCLIYAIYGIIKYIRG 7b1s-a1-m1-cA_7b1s-a1-m1-cD Crystal structure of the ethyl-coenzyme M reductase from Candidatus Ethanoperedens thermophilum at 0.994-A resolution A0A7R9R780 A0A7R9R780 0.992 X-RAY DIFFRACTION 374 1.0 2766897 (Candidatus Ethanoperedens thermophilum) 2766897 (Candidatus Ethanoperedens thermophilum) 584 586 7b2c-a1-m1-cA_7b2c-a1-m1-cD PKQLFLESKNSKMNSIEMKYGQDPAINRAEFHVYGGVRQSKRKSEAWEAAKRITKERGIPNYNPDLHLKGAQMGQKVLQTYRITGLDREWAGGEDTPAHKGWKPGTDIAGLEMDDLNYENNPAMQQCYDDMRRTAINGLSIAHETIERRFGKEVTPETINLYFEMLNHNIGAGAIMMEHTAETNPELVKDSYAKCFTGNDELADALDQRFLIDINKMFPKYQADQIKAEVGDRIFQVARIPTMAVRTSDGGLSRAWVGQQASLAFLCAYDIPAGDAVTSDFVFTIKGDVVFMGTQLPYRAQRNNSAGGIALGYYSDCNQTSRTPEALEGLDGGIDPVKVIVEALTPGVITDQGWLHNYLAGGSSGWSNYISVYTDEVLEDYGYHGAIYAMDKWKCGVGEVPNTYENMMTIAEEVSRWSQKNYDEYPGLMEAHFGGSRYSIQAAASGAAVGAMTGDPDLGNAAWHYNTPLCKEHYLRLGFYDLQDQQNMGHTYSYRSDQGIPYELKGPNYPDFAMNVGHMGGYIGIIAGAAHARGAAYSTNPIIKAAFADPNLQFDFRYPRREFGIGGLRQFMPAGERDAVIPPH KYPKQLFLESKNSKMNSIEMKYGQDPAINRAEFHVYGGVRQSKRKSEAWEAAKRITKERGIPNYNPDLHLKGAQMGQKVLQTYRITGLDREWAGGEDTPAHKGWKPGTDIAGLEMDDLNYENNPAMQQCYDDMRRTAINGLSIAHETIERRFGKEVTPETINLYFEMLNHNIGAGAIMMEHTAETNPELVKDSYAKCFTGNDELADALDQRFLIDINKMFPKYQADQIKAEVGDRIFQVARIPTMAVRTSDGGLSRAWVGQQASLAFLCAYDIPAGDAVTSDFVFTIKGDVVFMGTQLPYRAQRNNSAGGIALGYYSDCNQTSRTPEALEGLDGGIDPVKVIVEALTPGVITDQGWLHNYLAGGSSGWSNYISVYTDEVLEDYGYHGAIYAMDKWKCGVGEVPNTYENMMTIAEEVSRWSQKNYDEYPGLMEAHFGGSRYSIQAAASGAAVGAMTGDPDLGNAAWHYNTPLCKEHYLRLGFYDLQDQQNMGHTYSYRSDQGIPYELKGPNYPDFAMNVGHMGGYIGIIAGAAHARGAAYSTNPIIKAAFADPNLQFDFRYPRREFGIGGLRQFMPAGERDAVIPPH 7b1s-a1-m1-cB_7b1s-a1-m1-cE Crystal structure of the ethyl-coenzyme M reductase from Candidatus Ethanoperedens thermophilum at 0.994-A resolution A0A7R9N4Z1 A0A7R9N4Z1 0.992 X-RAY DIFFRACTION 174 1.0 2766897 (Candidatus Ethanoperedens thermophilum) 2766897 (Candidatus Ethanoperedens thermophilum) 466 466 7b2c-a1-m1-cB_7b2c-a1-m1-cE AYLTEKIDLYGDNGKVLESDIPLEAVTPVQNPAVRELASIFKRSVAVNLGGAQKALSTGHYANEYIHFPDIPNKDKLGIKSSPGGKYPPKSVKVRTMDLPLVDDADDIAARLKERLQVNPDDGTEVRVMKKGNVLYVKISEQLANTGVEYTTALTTTAQAMTDLVMEKYDLDFHASPLVHCAFYGRYPQTYEFMGGNVISLLAASCANEGPGFAMRNIMANHIVAATRKRTLEAVALSSTLEAIGHVEMGDAIGRWRRWQALVHACQGLNANNVVYDLVKEAGHGCTGDVVAATVGRALEDGIISVKKTLPSGYKFYTANDPSMWNAYVCAGLVAAVIVNQGAARAAQGVSSTLLYFNDLIEHETGLPHAGYGDGMGNGVSFSFFSHAIYGGGSPGIFSGNHIVTRHSKGFAIPVIAAAVSLDSGTAVYGPEATSGLVGDIFGEVDLIRRPMEAIASAAAEIKDKF AYLTEKIDLYGDNGKVLESDIPLEAVTPVQNPAVRELASIFKRSVAVNLGGAQKALSTGHYANEYIHFPDIPNKDKLGIKSSPGGKYPPKSVKVRTMDLPLVDDADDIAARLKERLQVNPDDGTEVRVMKKGNVLYVKISEQLANTGVEYTTALTTTAQAMTDLVMEKYDLDFHASPLVHCAFYGRYPQTYEFMGGNVISLLAASCANEGPGFAMRNIMANHIVAATRKRTLEAVALSSTLEAIGHVEMGDAIGRWRRWQALVHACQGLNANNVVYDLVKEAGHGCTGDVVAATVGRALEDGIISVKKTLPSGYKFYTANDPSMWNAYVCAGLVAAVIVNQGAARAAQGVSSTLLYFNDLIEHETGLPHAGYGDGMGNGVSFSFFSHAIYGGGSPGIFSGNHIVTRHSKGFAIPVIAAAVSLDSGTAVYGPEATSGLVGDIFGEVDLIRRPMEAIASAAAEIKDKF 7b1x-a2-m2-cB_7b1x-a2-m4-cA Crystal structure of cold-active esterase PMGL3 from permafrost metagenomic library 2.3 X-RAY DIFFRACTION 50 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 302 302 7b1x-a1-m1-cA_7b1x-a1-m3-cB 7b1x-a1-m1-cB_7b1x-a1-m3-cA 7b1x-a2-m1-cA_7b1x-a2-m3-cB MNGNDPDIAGFKQQLVQMTAMRESQPPSIEIERQMFDAQHGAVPPAEGCLIEPISTGGVRGERITPKSADTSKALIYFHGGGHLFGSALSHRHLVSRLAAAAGVVAYNMEYRLAPENPYPAGLDDAEQAYRFVLAQGFKPEDIIVAGESAGGNLAAALLLKLRDQDLPQPAGAYLLSPWLDMSQSGASYEARGPHDPMITHNALTGCSAAYRAGASAEDPLISPAKADLADLPSLFIQVGADEVLLSDSVEFTRRAALAGLDVRLHVWANMVHAWPLFHFALPVSGLAAIDEAGAWISRQLG MNGNDPDIAGFKQQLVQMTAMRESQPPSIEIERQMFDAQHGAVPPAEGCLIEPISTGGVRGERITPKSADTSKALIYFHGGGHLFGSALSHRHLVSRLAAAAGVVAYNMEYRLAPENPYPAGLDDAEQAYRFVLAQGFKPEDIIVAGESAGGNLAAALLLKLRDQDLPQPAGAYLLSPWLDMSQSGASYEARGPHDPMITHNALTGCSAAYRAGASAEDPLISPAKADLADLPSLFIQVGADEVLLSDSVEFTRRAALAGLDVRLHVWANMVHAWPLFHFALPVSGLAAIDEAGAWISRQLG 7b1x-a2-m3-cB_7b1x-a2-m4-cA Crystal structure of cold-active esterase PMGL3 from permafrost metagenomic library 2.3 X-RAY DIFFRACTION 29 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 302 302 7b1x-a2-m1-cA_7b1x-a2-m2-cB MNGNDPDIAGFKQQLVQMTAMRESQPPSIEIERQMFDAQHGAVPPAEGCLIEPISTGGVRGERITPKSADTSKALIYFHGGGHLFGSALSHRHLVSRLAAAAGVVAYNMEYRLAPENPYPAGLDDAEQAYRFVLAQGFKPEDIIVAGESAGGNLAAALLLKLRDQDLPQPAGAYLLSPWLDMSQSGASYEARGPHDPMITHNALTGCSAAYRAGASAEDPLISPAKADLADLPSLFIQVGADEVLLSDSVEFTRRAALAGLDVRLHVWANMVHAWPLFHFALPVSGLAAIDEAGAWISRQLG MNGNDPDIAGFKQQLVQMTAMRESQPPSIEIERQMFDAQHGAVPPAEGCLIEPISTGGVRGERITPKSADTSKALIYFHGGGHLFGSALSHRHLVSRLAAAAGVVAYNMEYRLAPENPYPAGLDDAEQAYRFVLAQGFKPEDIIVAGESAGGNLAAALLLKLRDQDLPQPAGAYLLSPWLDMSQSGASYEARGPHDPMITHNALTGCSAAYRAGASAEDPLISPAKADLADLPSLFIQVGADEVLLSDSVEFTRRAALAGLDVRLHVWANMVHAWPLFHFALPVSGLAAIDEAGAWISRQLG 7b1x-a3-m1-cA_7b1x-a3-m1-cB Crystal structure of cold-active esterase PMGL3 from permafrost metagenomic library 2.3 X-RAY DIFFRACTION 86 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 302 302 7b1x-a1-m1-cA_7b1x-a1-m1-cB 7b1x-a1-m3-cA_7b1x-a1-m3-cB MNGNDPDIAGFKQQLVQMTAMRESQPPSIEIERQMFDAQHGAVPPAEGCLIEPISTGGVRGERITPKSADTSKALIYFHGGGHLFGSALSHRHLVSRLAAAAGVVAYNMEYRLAPENPYPAGLDDAEQAYRFVLAQGFKPEDIIVAGESAGGNLAAALLLKLRDQDLPQPAGAYLLSPWLDMSQSGASYEARGPHDPMITHNALTGCSAAYRAGASAEDPLISPAKADLADLPSLFIQVGADEVLLSDSVEFTRRAALAGLDVRLHVWANMVHAWPLFHFALPVSGLAAIDEAGAWISRQLG MNGNDPDIAGFKQQLVQMTAMRESQPPSIEIERQMFDAQHGAVPPAEGCLIEPISTGGVRGERITPKSADTSKALIYFHGGGHLFGSALSHRHLVSRLAAAAGVVAYNMEYRLAPENPYPAGLDDAEQAYRFVLAQGFKPEDIIVAGESAGGNLAAALLLKLRDQDLPQPAGAYLLSPWLDMSQSGASYEARGPHDPMITHNALTGCSAAYRAGASAEDPLISPAKADLADLPSLFIQVGADEVLLSDSVEFTRRAALAGLDVRLHVWANMVHAWPLFHFALPVSGLAAIDEAGAWISRQLG 7b1y-a1-m1-cD_7b1y-a1-m1-cC DtxR-like iron-dependent regulator IdeR complexed with cobalt and its consensus DNA-binding sequence A0A2A9J1W2 A0A2A9J1W2 2.12 X-RAY DIFFRACTION 48 1.0 405948 (Saccharopolyspora erythraea NRRL 2338) 405948 (Saccharopolyspora erythraea NRRL 2338) 137 224 7b1y-a1-m1-cA_7b1y-a1-m1-cB 7b20-a1-m1-cA_7b20-a1-m1-cB 7b20-a1-m1-cD_7b20-a1-m1-cC 7b23-a1-m1-cA_7b23-a1-m1-cB 7b23-a1-m1-cD_7b23-a1-m1-cC 7b25-a1-m1-cA_7b25-a1-m1-cB 7b25-a1-m1-cD_7b25-a1-m1-cC DLIDTTEMYLRTIYDLEEEGVVPLRARIAERLEQSGPTVSQTVARMERDGLLTVAEDRHLELTKAGRARAISVMRKHRLAERLLVDVIGLEWEQVHLEARWEHVMSEAVERKLVKLLGNPTTSPYGNPIPGLDELGV NDLIDTTEMYLRTIYDLEEEGVVPLRARIAERLEQSGPTVSQTVARMERDGLLTVAEDRHLELTKAGRARAISVMRKHRLAERLLVDVIGLEWEQVHLEARWEHVMSEAVERKLVKLLGNPTTSPYGNPIPGLDELGVPVDTDLRRVDEVARSGGGRALVCRIAEHVQLDPDLMSELKKVGVVPGNEIDIVAVAGVNKPIQVQGSEGGTQLQPGIAHAVMVRVK 7b2n-a2-m1-cG_7b2n-a2-m1-cE Crystal structure of Chlamydomonas reinhardtii chloroplastic Fructose bisphosphate aldolase Q42690 Q42690 2.36 X-RAY DIFFRACTION 49 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 330 333 7b2n-a1-m1-cA_7b2n-a1-m1-cB 7b2n-a1-m1-cD_7b2n-a1-m1-cH 7b2n-a2-m1-cF_7b2n-a2-m1-cC GKYDEELIKTAGTVASKGRGILAMDESNATCGKRLDSIGVENTEENRRAYRELLVTAPGLGQYISGAILFEETLYQSTASGKKFVDVMKEQNIVPGIKVDKGLVPLSNTNGESWCMGLDGLDKRCAEYYKAGARFAKWRSVVSIPHGPSIIAARDCAYGLARYAAIAQNAGLVPIVEPEVLLDGEHDIDRCLEVQEAIWAETFKYMADNKVMFEGILLKPAMVTPGADCKNKAGPAKVAEYTLKMLRRRVPPAVPGIMFLSGGQSELESTLNLNAMNQSPNPWHVSFSYARALQNTVLKTWQGKPENVQAAQAALLKRAKANSDAQQGKY MGKYDEELIKTAGTVASKGRGILAMDESNATCGKRLDSIGVENTEENRRAYRELLVTAPGLGQYISGAILFEETLYQSTASGKKFVDVMKEQNIVPGIKVDKGLVPLSNTNGESWCMGLDGLDKRCAEYYKAGARFAKWRSVVSIPHGPSIIAARDCAYGLARYAAIAQNAGLVPIVEPEVLLDGEHDIDRCLEVQEAIWAETFKYMADNKVMFEGILLKPAMVTPGADCKNKAGPAKVAEYTLKMLRRRVPPAVPGIMFLSGGQSELESTLNLNAMNQSPNPWHVSFSYARALQNTVLKTWQGKPENVQAAQAALLKRAKANSDAQQGKYDA 7b2n-a2-m1-cG_7b2n-a2-m1-cF Crystal structure of Chlamydomonas reinhardtii chloroplastic Fructose bisphosphate aldolase Q42690 Q42690 2.36 X-RAY DIFFRACTION 55 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 330 331 7b2n-a1-m1-cD_7b2n-a1-m1-cA 7b2n-a1-m1-cH_7b2n-a1-m1-cB 7b2n-a2-m1-cC_7b2n-a2-m1-cE GKYDEELIKTAGTVASKGRGILAMDESNATCGKRLDSIGVENTEENRRAYRELLVTAPGLGQYISGAILFEETLYQSTASGKKFVDVMKEQNIVPGIKVDKGLVPLSNTNGESWCMGLDGLDKRCAEYYKAGARFAKWRSVVSIPHGPSIIAARDCAYGLARYAAIAQNAGLVPIVEPEVLLDGEHDIDRCLEVQEAIWAETFKYMADNKVMFEGILLKPAMVTPGADCKNKAGPAKVAEYTLKMLRRRVPPAVPGIMFLSGGQSELESTLNLNAMNQSPNPWHVSFSYARALQNTVLKTWQGKPENVQAAQAALLKRAKANSDAQQGKY GKYDEELIKTAGTVASKGRGILAMDESNATCGKRLDSIGVENTEENRRAYRELLVTAPGLGQYISGAILFEETLYQSTASGKKFVDVMKEQNIVPGIKVDKGLVPLSNTNGESWCMGLDGLDKRCAEYYKAGARFAKWRSVVSIPHGPSIIAARDCAYGLARYAAIAQNAGLVPIVEPEVLLDGEHDIDRCLEVQEAIWAETFKYMADNKVMFEGILLKPAMVTPGADCKNKAGPAKVAEYTLKMLRRRVPPAVPGIMFLSGGQSELESTLNLNAMNQSPNPWHVSFSYARALQNTVLKTWQGKPENVQAAQAALLKRAKANSDAQQGKYD 7b46-a1-m1-cC_7b46-a1-m1-cB Structural basis of reactivation of oncogenic p53 mutants by a small molecule: methylene quinuclidinone (MQ). Human wild-type p53DBD bound to DNA and MQ: wt-DNA-MQ (P1) P04637 P04637 2.02 X-RAY DIFFRACTION 15 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 189 191 2ac0-a1-m1-cA_2ac0-a1-m1-cD 2ac0-a1-m1-cC_2ac0-a1-m1-cB 2ady-a1-m1-cA_2ady-a1-m2-cB 2ady-a1-m2-cA_2ady-a1-m1-cB 2ahi-a1-m1-cC_2ahi-a1-m1-cB 2ata-a1-m1-cC_2ata-a1-m1-cB 4ibu-a1-m1-cC_4ibu-a1-m1-cB SVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDNTFRHSVVVPYEPPESDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEE SVPSQKTYQGSYGFRLGFLHTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENL 7b47-a1-m1-cB_7b47-a1-m1-cC Structural basis of reactivation of oncogenic p53 mutants by a small molecule: methylene quinuclidinone (MQ). Human p53DBD-R273H mutant bound to MQ: R273H-MQ (I) P04637 P04637 1.8 X-RAY DIFFRACTION 26 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 191 191 7b47-a1-m1-cD_7b47-a1-m1-cA 7b48-a1-m1-cC_7b48-a1-m1-cB 7b48-a1-m1-cD_7b48-a1-m1-cA 7b4b-a1-m1-cC_7b4b-a1-m1-cB 7b4b-a1-m1-cD_7b4b-a1-m1-cA 7b4c-a1-m1-cA_7b4c-a1-m1-cD 7b4c-a1-m1-cB_7b4c-a1-m1-cC VPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVHVCACPGRDRRTEEE SVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVHVCACPGRDRRTEEEN 7b48-a1-m1-cD_7b48-a1-m1-cC Structural basis of reactivation of oncogenic p53 mutants by a small molecule: methylene quinuclidinone (MQ). Human p53DBD-R273H mutant bound to MQ: R273H-MQ (II) P04637 P04637 2.05 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 189 192 VPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVHVCACPGRDRRTEEEN SVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVHVCACPGRDRRTEEENL 7b4c-a1-m1-cB_7b4c-a1-m1-cA Structural basis of reactivation of oncogenic p53 mutants by a small molecule: methylene quinuclidinone (MQ). Human p53DBD-R273C mutant bound to MQ: R273C-MQ (II) P04637 P04637 1.71 X-RAY DIFFRACTION 35 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 190 191 7b47-a1-m1-cA_7b47-a1-m1-cB 7b48-a1-m1-cA_7b48-a1-m1-cB 7b4b-a1-m1-cA_7b4b-a1-m1-cB 7ygi-a1-m1-cA_7ygi-a1-m1-cB VPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVCVCACPGRDRRTEEEN SVPSQKTYQGSYGFRLGFLHSGTAKSVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERDSDGLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVCVCACPGRDRRTEEEN 7b4i-a1-m1-cAAA_7b4i-a1-m1-cBBB Thermostable omega transaminase PjTA-R6 variant W58G engineered for asymmetric synthesis of enantiopure bulky amines 1.7 X-RAY DIFFRACTION 425 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 449 452 6g4b-a1-m1-cA_6g4b-a1-m1-cB 6g4c-a1-m1-cA_6g4c-a1-m1-cB 6g4d-a1-m1-cA_6g4d-a1-m1-cB 6g4e-a1-m1-cA_6g4e-a1-m1-cB 6g4f-a1-m1-cA_6g4f-a1-m1-cB 6tb0-a1-m1-cA_6tb0-a1-m1-cB 6tb1-a1-m1-cA_6tb1-a1-m1-cB 7b4j-a1-m1-cA_7b4j-a1-m1-cB SLAEKDIQYQLHPYTNARLHQELGPLIIERGQGIYVYDDQGKGYIEAMAGLGSVALGFSNQRLIKAAEQQFNTLPFYHLFNHKSHRPSIELAEKLIEMAPVPMSKVFFTNSGSEANDTVVKFVWYLNNALGKPAKKKFISRVNGYHGVTVASASLTGLPGNQRGFDLPLPGFLHVGCPHHYRFALAGESEEHFADRLAVELEQKILAEGPETIAAFIGEPLMGAGGVIVPPRTYWEKIQKVCRKYDILVIADEVICGFGRTGQMFGSQTFGIQPDIMVLSKQLSSSYQPIAAILINAPVFEGIADQSQALGALGHGFTGSGHPVATAVALENLKIIEEESLVEHAAQMGQLLRSGLQHFIDHPLVGEIRGCGLIAAVELVGDRVSKAPYQALGTLGRYMAGRAQEHGMITRAMGDAVAFCPPLIVNEQEVGMIVERFARALDDTTQWVG SSLAEKDIQYQLHPYTNARLHQELGPLIIERGQGIYVYDDQGKGYIEAMAGLGSVALGFSNQRLIKAAEQQFNTLPFYHLFNHKSHRPSIELAEKLIEMAPVPMSKVFFTNSGSEANDTVVKFVWYLNNALGKPAKKKFISRVNGYHGVTVASASLTGLPGNQRGFDLPLPGFLHVGCPHHYRFALAGESEEHFADRLAVELEQKILAEGPETIAAFIGEPLMGAGGVIVPPRTYWEKIQKVCRKYDILVIADEVICGFGRTGQMFGSQTFGIQPDIMVLSKQLSSSYQPIAAILINAPVFEGIADQSQALGALGHGFTGSGHPVATAVALENLKIIEEESLVEHAAQMGQLLRSGLQHFIDHPLVGEIRGCGLIAAVELVGDRVSKAPYQALGTLGRYMAGRAQEHGMITRAMGDAVAFCPPLIVNEQEVGMIVERFARALDDTTQWVGPG 7b4m-a1-m1-cA_7b4m-a1-m1-cB CryoEM structure of the human sodium proton exchanger NHA2 in nanodisc Q86UD5 Q86UD5 7.2 ELECTRON MICROSCOPY 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 459 459 7b4l-a1-m1-cA_7b4l-a1-m1-cB PTEANHVQRLRQMLACPPHGLLDRVITNVTIIVLLWAVVWSITGSECLPGGNLFGIIILFYCAIIGGKLLGLIKLPTLPPLPSLLGMLLAGFLIRNIPVINDNVQIKHKWSSSLRSIALSIILVRAGLGLDSKALKKLKGVCVRLSMGPCIVEACTSALLAHYLLGLPWQWGFILGFVLGAVSPAVVVPSMLLLQGGGYGVEKGVPTLLMAAGSFDDILAITGFNTCLGIAFSTGSTVFNVLRGVLEVVIGVATGSVLGFFIQYFPSRDQDKLVCKRTFLVLGLSVLAVFSSVHFGFPGSGGLCTLVMAFLAGMGWTSEKAEVEKIIAVAWDIFQPLLFGLIGAEVSIASLRPETVGLCVATVGIAVLIRILTTFLMVCFAGFNLKEKIFISFAWLPKATVQAAIGSVALDTARSHGEKQLEDYGMDVLTVAFLSILITAPIGSLLIGLLGPRLLQKVE PTEANHVQRLRQMLACPPHGLLDRVITNVTIIVLLWAVVWSITGSECLPGGNLFGIIILFYCAIIGGKLLGLIKLPTLPPLPSLLGMLLAGFLIRNIPVINDNVQIKHKWSSSLRSIALSIILVRAGLGLDSKALKKLKGVCVRLSMGPCIVEACTSALLAHYLLGLPWQWGFILGFVLGAVSPAVVVPSMLLLQGGGYGVEKGVPTLLMAAGSFDDILAITGFNTCLGIAFSTGSTVFNVLRGVLEVVIGVATGSVLGFFIQYFPSRDQDKLVCKRTFLVLGLSVLAVFSSVHFGFPGSGGLCTLVMAFLAGMGWTSEKAEVEKIIAVAWDIFQPLLFGLIGAEVSIASLRPETVGLCVATVGIAVLIRILTTFLMVCFAGFNLKEKIFISFAWLPKATVQAAIGSVALDTARSHGEKQLEDYGMDVLTVAFLSILITAPIGSLLIGLLGPRLLQKVE 7b4n-a1-m1-cA_7b4n-a1-m2-cA Structural basis of reactivation of oncogenic p53 mutants by a small molecule: methylene quinuclidinone (MQ). Human wild-type p53DBD bound to DNA and MQ: wt-DNA-MQ (II) P04637 P04637 1.32 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 192 192 2ac0-a1-m1-cA_2ac0-a1-m1-cB 2ac0-a1-m1-cC_2ac0-a1-m1-cD 2ady-a1-m1-cA_2ady-a1-m1-cB 2ady-a1-m2-cA_2ady-a1-m2-cB 2ahi-a1-m1-cA_2ahi-a1-m1-cB 2ahi-a1-m1-cC_2ahi-a1-m1-cD 2ata-a1-m1-cA_2ata-a1-m1-cB 2ata-a1-m1-cC_2ata-a1-m1-cD 3d0a-a1-m1-cA_3d0a-a1-m1-cB 3d0a-a2-m1-cC_3d0a-a2-m1-cD 3igk-a1-m1-cA_3igk-a1-m2-cA 3igl-a1-m1-cA_3igl-a1-m2-cA 3kmd-a1-m1-cA_3kmd-a1-m1-cB 3kmd-a1-m1-cC_3kmd-a1-m1-cD 3kz8-a1-m1-cA_3kz8-a1-m2-cB 3kz8-a1-m1-cB_3kz8-a1-m2-cA 3q05-a1-m1-cA_3q05-a1-m1-cB 3q05-a1-m1-cC_3q05-a1-m1-cD 3q06-a1-m1-cA_3q06-a1-m1-cB 3q06-a1-m1-cC_3q06-a1-m1-cD 3ts8-a1-m1-cA_3ts8-a1-m1-cB 3ts8-a1-m1-cC_3ts8-a1-m1-cD 4hje-a1-m1-cA_4hje-a1-m1-cB 4hje-a1-m1-cC_4hje-a1-m1-cD 4ibu-a1-m1-cA_4ibu-a1-m1-cB 4ibu-a1-m1-cC_4ibu-a1-m1-cD 4ibv-a1-m1-cA_4ibv-a1-m2-cA 4ibw-a1-m1-cA_4ibw-a1-m2-cA 4mzr-a1-m1-cA_4mzr-a1-m1-cB 4mzr-a1-m1-cC_4mzr-a1-m1-cD 5bua-a1-m1-cA_5bua-a1-m2-cA 5lgy-a1-m1-cA_5lgy-a1-m1-cB 5lgy-a1-m1-cC_5lgy-a1-m1-cD 5mct-a1-m1-cA_5mct-a1-m2-cB 5mct-a1-m1-cB_5mct-a1-m2-cA 5mcu-a1-m1-cA_5mcu-a1-m2-cB 5mcu-a1-m1-cB_5mcu-a1-m2-cA 5mcv-a1-m1-cA_5mcv-a1-m2-cB 5mcv-a1-m1-cB_5mcv-a1-m2-cA 5mcw-a1-m1-cA_5mcw-a1-m2-cB 5mcw-a1-m1-cB_5mcw-a1-m2-cA 5mf7-a1-m1-cA_5mf7-a1-m2-cB 5mf7-a1-m1-cB_5mf7-a1-m2-cA 5mg7-a1-m1-cA_5mg7-a1-m2-cB 5mg7-a1-m1-cB_5mg7-a1-m2-cA 6fj5-a1-m1-cA_6fj5-a1-m1-cD 6fj5-a1-m1-cB_6fj5-a1-m1-cC 6znc-a1-m1-cA_6znc-a1-m2-cA 7b46-a1-m1-cB_7b46-a1-m1-cA 7b46-a1-m1-cC_7b46-a1-m1-cD 7b49-a1-m1-cA_7b49-a1-m2-cB 7b49-a1-m1-cB_7b49-a1-m2-cA 7b4a-a1-m1-cA_7b4a-a1-m2-cB 7b4a-a1-m1-cB_7b4a-a1-m2-cA 7b4d-a1-m1-cA_7b4d-a1-m2-cA 7b4e-a1-m1-cA_7b4e-a1-m2-cA 7b4f-a1-m1-cA_7b4f-a1-m2-cA 7b4g-a1-m1-cA_7b4g-a1-m2-cA 7b4h-a1-m1-cA_7b4h-a1-m2-cA 7eeu-a1-m1-cA_7eeu-a1-m1-cC 7eeu-a1-m1-cB_7eeu-a1-m1-cD 7eeu-a2-m1-cE_7eeu-a2-m1-cG 7eeu-a2-m1-cF_7eeu-a2-m1-cH 7xzx-a1-m1-cK_7xzx-a1-m1-cL 7xzx-a1-m1-cM_7xzx-a1-m1-cN 7xzz-a1-m1-cK_7xzz-a1-m1-cL 7xzz-a1-m1-cM_7xzz-a1-m1-cN SSSVPSQKTYQGSYGFRLGFLHSAKVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKKG SSSVPSQKTYQGSYGFRLGFLHSAKVTCTYSPALNKMFCQLAKTCPVQLWVDSTPPPGTRVRAMAIYKQSQHMTEVVRRCPHHERCLAPPQHLIRVEGNLRVEYLDDRNTFRHSVVVPYEPPEVGSDCTTIHYNYMCNSSCMGGMNRRPILTIITLEDSSGNLLGRNSFEVRVCACPGRDRRTEEENLRKKG 7b4p-a2-m1-cCCC_7b4p-a2-m1-cDDD A Bacteroidetes bacterium CuZn-superoxide dismutase with CuZn metalation A0A1F3DVA5 A0A1F3DVA5 2.7 X-RAY DIFFRACTION 77 1.0 1797313 (Bacteroidetes bacterium GWA2_30_7) 1797313 (Bacteroidetes bacterium GWA2_30_7) 149 149 7b4o-a1-m1-cAAA_7b4o-a1-m1-cBBB 7b4o-a2-m1-cCCC_7b4o-a2-m1-cDDD 7b4p-a1-m1-cBBB_7b4p-a1-m1-cAAA KTQKAVCVIYPTQDYKVTGVITFTKSDDGVKVVADLNGLSPGKHGFHIHECGDCSASDGTSAGGHFNPEEKSHGAPMDMSRHIGDLGNITADENGKAHLEYIDKMIVFEGEHSIIGRSMIVHKNEDDLKTQPTGNAGARVACGVIGIGK KTQKAVCVIYPTQDYKVTGVITFTKSDDGVKVVADLNGLSPGKHGFHIHECGDCSASDGTSAGGHFNPEEKSHGAPMDMSRHIGDLGNITADENGKAHLEYIDKMIVFEGEHSIIGRSMIVHKNEDDLKTQPTGNAGARVACGVIGIGK 7b4q-a1-m1-cA_7b4q-a1-m1-cB Structure of a cold active HSL family esterase reveals mechanisms of low temperature adaptation and substrate specificity A0A2K9UV39 A0A2K9UV39 1.61 X-RAY DIFFRACTION 62 1.0 1314751 (Sutcliffiella cohnii NBRC 15565) 1314751 (Sutcliffiella cohnii NBRC 15565) 314 314 MKNRIDPELRAMLDMFPPLNLDDVQATRKAMEEAAQLTELPVDEEVVVSNRMVPGPEDNPYVRVRIYEPKEKIEKLPGLLWIHGGGYVLGAPEGDDLLCQRFVKEANCVVVSVDYRLAPEHPYPAPLEDCYAALQWFAKKVDELGVDASRIGVGGQSAGGGLTAALALLARDRKGPELCFQMPLYPMIDDKNNSPSSLEITGNLIWNHDLNEKGWSMYLDGKNGTDDVPVHAAPARATDLTNLPYTYTCVGQLDPFRDETLDYVKRLCQAGVDVEFHLYPGAYHGFETLNPAAAVSQRALAEYVGAVKHVLNRE MKNRIDPELRAMLDMFPPLNLDDVQATRKAMEEAAQLTELPVDEEVVVSNRMVPGPEDNPYVRVRIYEPKEKIEKLPGLLWIHGGGYVLGAPEGDDLLCQRFVKEANCVVVSVDYRLAPEHPYPAPLEDCYAALQWFAKKVDELGVDASRIGVGGQSAGGGLTAALALLARDRKGPELCFQMPLYPMIDDKNNSPSSLEITGNLIWNHDLNEKGWSMYLDGKNGTDDVPVHAAPARATDLTNLPYTYTCVGQLDPFRDETLDYVKRLCQAGVDVEFHLYPGAYHGFETLNPAAAVSQRALAEYVGAVKHVLNRE 7b5e-a1-m1-cA_7b5e-a1-m1-cB Structure of calcium-bound mTMEM16A(ac)-I551A chloride channel at 4.1 A resolution Q8BHY3 Q8BHY3 4.1 ELECTRON MICROSCOPY 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 718 718 5oyb-a1-m1-cA_5oyb-a1-m1-cB 5oyg-a1-m1-cA_5oyg-a1-m1-cB 6bgi-a1-m1-cA_6bgi-a1-m1-cB 6bgj-a1-m1-cA_6bgj-a1-m1-cB 7b5c-a1-m1-cA_7b5c-a1-m1-cB 7b5d-a1-m1-cA_7b5d-a1-m1-cB MDYHEDDKRFRREELCREAEFLKLKMPTKKVYHISETRGLLKTINSVLQKITDPIQPKVAEHRPQTTKRLSYPFSREKQHLFDLTDRDSFFDSKTRSTIVYEILKRTTCGITSLLANGVYSAAYPLHDGDYEGDNVEFNDRKLLYEEWASYGVFYKYQPIDLVRKYFGEKVGLYFAWLGAYTQMLIPASIVGVIVFLYGCATVDENIPSMEMCDQRYNITMCPLCDKTCSYWKMSSACATARASHLFDNPATVFFSVFMALWAATFMEHWKRKQMRLNYRWDLTGFEEEEEAVKDHPRAEYEARVLEKSPAYFTNLVSIIFMIAVTFAIVLGVIIYRISTAAALAMNSSPSVRSNIRVTVTATAVIINLVVIALLDEVYGCIARWLTKIEVPKTEKSFEERLTFKAFLLKFVNSYTPIFYVAFFKGRFVGRPGDYVYIFRSFRMEECAPGGCLMELCIQLSIIMLGKQLIQNNLFEIGIPKMKKFIRYLKRKQRYEVDFNLEPFAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAIRAKDIGIWYNILRGVGKLAVIINAFVISFTSDFIPRLVYLYMYSQNGTMHGFVNHTLSSFNVSDFQNGTAPNDPLDLGYEVQICRYKDYREPPWSEHKYDISKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVIPDIPKDISQQIHKEKVLMVELFMR MDYHEDDKRFRREELCREAEFLKLKMPTKKVYHISETRGLLKTINSVLQKITDPIQPKVAEHRPQTTKRLSYPFSREKQHLFDLTDRDSFFDSKTRSTIVYEILKRTTCGITSLLANGVYSAAYPLHDGDYEGDNVEFNDRKLLYEEWASYGVFYKYQPIDLVRKYFGEKVGLYFAWLGAYTQMLIPASIVGVIVFLYGCATVDENIPSMEMCDQRYNITMCPLCDKTCSYWKMSSACATARASHLFDNPATVFFSVFMALWAATFMEHWKRKQMRLNYRWDLTGFEEEEEAVKDHPRAEYEARVLEKSPAYFTNLVSIIFMIAVTFAIVLGVIIYRISTAAALAMNSSPSVRSNIRVTVTATAVIINLVVIALLDEVYGCIARWLTKIEVPKTEKSFEERLTFKAFLLKFVNSYTPIFYVAFFKGRFVGRPGDYVYIFRSFRMEECAPGGCLMELCIQLSIIMLGKQLIQNNLFEIGIPKMKKFIRYLKRKQRYEVDFNLEPFAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAIRAKDIGIWYNILRGVGKLAVIINAFVISFTSDFIPRLVYLYMYSQNGTMHGFVNHTLSSFNVSDFQNGTAPNDPLDLGYEVQICRYKDYREPPWSEHKYDISKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVIPDIPKDISQQIHKEKVLMVELFMR 7b5h-a1-m1-cCJ_7b5h-a1-m1-cEJ Cryo-EM structure of the contractile injection system base plate from Anabaena PCC7120 Q8YRX2 Q8YRX2 3.2 ELECTRON MICROSCOPY 548 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 585 585 7b5h-a1-m1-cAJ_7b5h-a1-m1-cCJ 7b5h-a1-m1-cAJ_7b5h-a1-m1-cEJ IIPRNSLYDVATFKLLSDGKDITNDYTVLSITVNQIVNRVPTARIILRDGAAADETFAASEGADLVPGQEVEIAAGYDGSDQKIFQGLIVKHALKVTANGDSMLMLDCRGLATKLTVGRHNRYFVDTKDSDAIAEIIAQHSLSADVAATQVQHPEIVQYYATDWDFILSRAEMNGQIVVAQDEKIKVKAPNTSGAPQITLTYGVNLLELEAAMDARHQYQAVKATSWNYADQALVEAEASEPTVNNQGNLSGRQLAQVIDLSALELRHSGLVAEPELKAWADAQLLKSRLAKIQGRVKTKGYPDAKVDVLIQLAGVGDRFNGLAYVSGIRHEIVGGAWDTHIQMGLPPQWFYQEVDIIDKPAAGLLPGVNGLQIGVVVQLQDDPNGEDRILVKVPIIDAQAEGIWARIATLDAGNNRGSFFRPEVGDEVILGFLNDDPRDPVVLGMLNSSAKPAPLRATAENHRKGFFTRSQMQLTFDDDKKIITLQTPGGNKVTISDEDKGITLTDQNGNTFAMSDRGIAMNSPKDITLEATGKLTLKATQDVSIEGLNVNIAANAQFKAQGNAGAEVSSSAIAVLKGSLVMIN IIPRNSLYDVATFKLLSDGKDITNDYTVLSITVNQIVNRVPTARIILRDGAAADETFAASEGADLVPGQEVEIAAGYDGSDQKIFQGLIVKHALKVTANGDSMLMLDCRGLATKLTVGRHNRYFVDTKDSDAIAEIIAQHSLSADVAATQVQHPEIVQYYATDWDFILSRAEMNGQIVVAQDEKIKVKAPNTSGAPQITLTYGVNLLELEAAMDARHQYQAVKATSWNYADQALVEAEASEPTVNNQGNLSGRQLAQVIDLSALELRHSGLVAEPELKAWADAQLLKSRLAKIQGRVKTKGYPDAKVDVLIQLAGVGDRFNGLAYVSGIRHEIVGGAWDTHIQMGLPPQWFYQEVDIIDKPAAGLLPGVNGLQIGVVVQLQDDPNGEDRILVKVPIIDAQAEGIWARIATLDAGNNRGSFFRPEVGDEVILGFLNDDPRDPVVLGMLNSSAKPAPLRATAENHRKGFFTRSQMQLTFDDDKKIITLQTPGGNKVTISDEDKGITLTDQNGNTFAMSDRGIAMNSPKDITLEATGKLTLKATQDVSIEGLNVNIAANAQFKAQGNAGAEVSSSAIAVLKGSLVMIN 7b5h-a1-m1-cCL_7b5h-a1-m1-cEL Cryo-EM structure of the contractile injection system base plate from Anabaena PCC7120 Q8YRX0 Q8YRX0 3.2 ELECTRON MICROSCOPY 24 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 37 37 7b5h-a1-m1-cAL_7b5h-a1-m1-cCL 7b5h-a1-m1-cAL_7b5h-a1-m1-cEL PLEIRELVIKASVNEQSAIIAACVEQVLAILQEKSER PLEIRELVIKASVNEQSAIIAACVEQVLAILQEKSER 7b5h-a1-m1-cED_7b5h-a1-m1-cFD Cryo-EM structure of the contractile injection system base plate from Anabaena PCC7120 Q8YRX7 Q8YRX7 3.2 ELECTRON MICROSCOPY 16 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 1109 1109 7b5h-a1-m1-cAD_7b5h-a1-m1-cBD 7b5h-a1-m1-cAD_7b5h-a1-m1-cDD 7b5h-a1-m1-cBD_7b5h-a1-m1-cED 7b5h-a1-m1-cCD_7b5h-a1-m1-cDD 7b5h-a1-m1-cCD_7b5h-a1-m1-cFD PEYLSISKQKPDFPPYLNFQTLRDIGITHLQALSGKIWTDYNLHDPGVTILEVLCYAITDLGYRNNLDIADLLALNPQDGNSRENNFFTPDAVLTCNPVTELDVRKRLIDIPGVRNAWLQKVTSYEPNIYVNFSDKRLQYNPPTAESKTLNPRGLYTVRLDLDQDYRKNACGQIDRSWGDTLDEVKQVLCDSRNLCEDFADIVILGEEEIGICADIQLETNADAEDVLVNIYVRIQQFLSPRLKFYTLQELLDKGKSPAEIFAGRPSVFDGENRLYKSHGFIDTDELEALTLPTILHTSDLYQEILQVPGVSAIKKLSIANYINGLRQTQGHPWYLQLTDQYRPVLGVKTSKINFFKSELPIGVDEEEVERRYYEQQAAYIKTIRDRDELDIPVPKGSYYDLADHYSIHHDFPTTYGISEDGLPPTVPALRKAQALQLKAYLVFFDQLLASYLAQLSHIRDLFSWEVDVTQPQQNDYATRLQEKQRTYFTQKLDFPEIEKIIPDNYLDVLDEAPETYRDRRNRFLDHLLARFSESFSDYVLLNYQMFATRNNKATQETEIIHDKAQFLQDYPTLSRDRFRAYNYYDCHAVWDTDNVAGFKKRVLRLLGIDDVRRRHLSHYRVDKDSRNLFLSIDFSSDDLTLTSKQRYATTEQAQADQDKLLLFALHPNFYKRLSYKYYYHYSWEILDTQNQSIVRSDRFFPSTKERAAALEPLLQSLLTQLSQLDDTALQNLVITQPTDEDLYSFRLQIPVITFTGVQRYFSRTEAVDAGVISLRLIQDVQNYRNITLGQTTPQKFTYYGYGLVDHQGSLLSEYTHHFPTELERELSLQRWLTHIQANQLRISTNSLDSLAYISQIYNPDNQLILQGTQRYTSEDIAWEQGNTLMELAQDEENFRLIDSDDGVYGWELTNEGKDEIFAAQYYNSREERTAAIAEIQKYSNDEGFHLLEHILLRPRTKLPDLTAGDGFLPILVTPEDVNTEPDDPYLLARTDPYSFWVTIVLPYWPQRFRDIPFRRFVERTLRLEAPAHIALKIAWVNVRQMRDFELAYRHWLEQLALESCENAACDLTGTLNRLLKILPQLRNVYPKATLHDCNNPAILNQTALGTAN PEYLSISKQKPDFPPYLNFQTLRDIGITHLQALSGKIWTDYNLHDPGVTILEVLCYAITDLGYRNNLDIADLLALNPQDGNSRENNFFTPDAVLTCNPVTELDVRKRLIDIPGVRNAWLQKVTSYEPNIYVNFSDKRLQYNPPTAESKTLNPRGLYTVRLDLDQDYRKNACGQIDRSWGDTLDEVKQVLCDSRNLCEDFADIVILGEEEIGICADIQLETNADAEDVLVNIYVRIQQFLSPRLKFYTLQELLDKGKSPAEIFAGRPSVFDGENRLYKSHGFIDTDELEALTLPTILHTSDLYQEILQVPGVSAIKKLSIANYINGLRQTQGHPWYLQLTDQYRPVLGVKTSKINFFKSELPIGVDEEEVERRYYEQQAAYIKTIRDRDELDIPVPKGSYYDLADHYSIHHDFPTTYGISEDGLPPTVPALRKAQALQLKAYLVFFDQLLASYLAQLSHIRDLFSWEVDVTQPQQNDYATRLQEKQRTYFTQKLDFPEIEKIIPDNYLDVLDEAPETYRDRRNRFLDHLLARFSESFSDYVLLNYQMFATRNNKATQETEIIHDKAQFLQDYPTLSRDRFRAYNYYDCHAVWDTDNVAGFKKRVLRLLGIDDVRRRHLSHYRVDKDSRNLFLSIDFSSDDLTLTSKQRYATTEQAQADQDKLLLFALHPNFYKRLSYKYYYHYSWEILDTQNQSIVRSDRFFPSTKERAAALEPLLQSLLTQLSQLDDTALQNLVITQPTDEDLYSFRLQIPVITFTGVQRYFSRTEAVDAGVISLRLIQDVQNYRNITLGQTTPQKFTYYGYGLVDHQGSLLSEYTHHFPTELERELSLQRWLTHIQANQLRISTNSLDSLAYISQIYNPDNQLILQGTQRYTSEDIAWEQGNTLMELAQDEENFRLIDSDDGVYGWELTNEGKDEIFAAQYYNSREERTAAIAEIQKYSNDEGFHLLEHILLRPRTKLPDLTAGDGFLPILVTPEDVNTEPDDPYLLARTDPYSFWVTIVLPYWPQRFRDIPFRRFVERTLRLEAPAHIALKIAWVNVRQMRDFELAYRHWLEQLALESCENAACDLTGTLNRLLKILPQLRNVYPKATLHDCNNPAILNQTALGTAN 7b5h-a1-m1-cEH_7b5h-a1-m1-cFH Cryo-EM structure of the contractile injection system base plate from Anabaena PCC7120 Q8YRX5 Q8YRX5 3.2 ELECTRON MICROSCOPY 43 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 1227 1227 7b5h-a1-m1-cAH_7b5h-a1-m1-cBH 7b5h-a1-m1-cAH_7b5h-a1-m1-cDH 7b5h-a1-m1-cBH_7b5h-a1-m1-cEH 7b5h-a1-m1-cCH_7b5h-a1-m1-cDH 7b5h-a1-m1-cCH_7b5h-a1-m1-cFH NRDLPKNPLIRDGVSQRQRQVSALSPASIGVDERDLADFLVLVYRLSAKVMYYRAENQPWSPSDADGNWQNFFEGNTPIQIALISKVSPQVVKDIYSQKLAAFLAERTVTSLSEVLSIWKTEILTKIQQWYLGIEAYTPLKSVIKGLVKTNLTEPLMRMQSFELGCGNVDEEFYRGFSGVFGLTIDAPLRSDRTPLMGTVKDARTELDTVFQVLLQTYRQIIQQAPNYLKASLSDRQDHQPFLSLYFAFLEVLQPARDDLNRLTQRHLDFFYRQVLLLPDRPAQADQVHLLFELAKSQREYKLTAGTSFKAGKDATGVDLFYQLDAETVIHKAQIASLKGLFLDSQERKTAAVPQNLTGLYASPVANSVDGKGGAFPQEQIVKTWLPFGNEQRDHARLGVAIASDVLLLQEGRRVVEFKLSLGGFFPRLPDNQLHQAFVVYLSGEKAWIPAPILPVGQLATNGQEQTRWDGSNLYLVVELAADVAPILPYRPDAPIPYDPKELNLPLQLERPIPVARLELNHQLLVNERSPYHYFRDAQILDITVQTRVDEVRNLVVQNDVSVLNPARPFEPFGFQPQDKANLYIGSQEVLQKRLIALTISLELATPKPNNWIEFYAGYDIPANFQPGKVKIQGLRQKTWYPTTANVTANLLDTPEISLTSKLANLKLDSFDQSAPVEMFTPQTKTGFLRLQLSGNFLHEQYPRVLAKQVLAAATNQTVVVSSNQKRQAVIGAYYRRPDKSIFAATTYYVNLDDEPIIPNEPYLPVVRSLSLKYTAQAGMSDCILFHLHPFGGFAKVNLAVNPPLLPYFNQEGELFIGLQNLDPPTALPLLFQVAEETADISLRRQEEYKLQWYYLKDNAWESLGDRIVNDASNGLVTSGIINLGIPADISRNQTTILDPNFHWLKVTIPARSRTVCEIIGVHTQAARVTFKDAGNDPNHLGSPLAGGTISKLAVPQPEVKKIAQPYTSFGGRVKEQPENFYIRISERLRHKGRAVAIFDYERLVLEKFPQIYKVRCINHGQFDDAQEQLYELAPGSVTLAVIPDLSQRSTTNDLEPKVNINLLQEIEKYLASVSSPWAMIKVVNPQYERIQVDFQVKLKAPYSSNFGYYRRELQQAIVGFLTPWTVDSGADINFGGKVYRSSILKFVEEQYYVDYVVNFKMNLNNQQDIREAIAITPRSVITSVSPKTSNQDHMIEEFIEQAIVFNNQKLESGVLGYESLNDLELG NRDLPKNPLIRDGVSQRQRQVSALSPASIGVDERDLADFLVLVYRLSAKVMYYRAENQPWSPSDADGNWQNFFEGNTPIQIALISKVSPQVVKDIYSQKLAAFLAERTVTSLSEVLSIWKTEILTKIQQWYLGIEAYTPLKSVIKGLVKTNLTEPLMRMQSFELGCGNVDEEFYRGFSGVFGLTIDAPLRSDRTPLMGTVKDARTELDTVFQVLLQTYRQIIQQAPNYLKASLSDRQDHQPFLSLYFAFLEVLQPARDDLNRLTQRHLDFFYRQVLLLPDRPAQADQVHLLFELAKSQREYKLTAGTSFKAGKDATGVDLFYQLDAETVIHKAQIASLKGLFLDSQERKTAAVPQNLTGLYASPVANSVDGKGGAFPQEQIVKTWLPFGNEQRDHARLGVAIASDVLLLQEGRRVVEFKLSLGGFFPRLPDNQLHQAFVVYLSGEKAWIPAPILPVGQLATNGQEQTRWDGSNLYLVVELAADVAPILPYRPDAPIPYDPKELNLPLQLERPIPVARLELNHQLLVNERSPYHYFRDAQILDITVQTRVDEVRNLVVQNDVSVLNPARPFEPFGFQPQDKANLYIGSQEVLQKRLIALTISLELATPKPNNWIEFYAGYDIPANFQPGKVKIQGLRQKTWYPTTANVTANLLDTPEISLTSKLANLKLDSFDQSAPVEMFTPQTKTGFLRLQLSGNFLHEQYPRVLAKQVLAAATNQTVVVSSNQKRQAVIGAYYRRPDKSIFAATTYYVNLDDEPIIPNEPYLPVVRSLSLKYTAQAGMSDCILFHLHPFGGFAKVNLAVNPPLLPYFNQEGELFIGLQNLDPPTALPLLFQVAEETADISLRRQEEYKLQWYYLKDNAWESLGDRIVNDASNGLVTSGIINLGIPADISRNQTTILDPNFHWLKVTIPARSRTVCEIIGVHTQAARVTFKDAGNDPNHLGSPLAGGTISKLAVPQPEVKKIAQPYTSFGGRVKEQPENFYIRISERLRHKGRAVAIFDYERLVLEKFPQIYKVRCINHGQFDDAQEQLYELAPGSVTLAVIPDLSQRSTTNDLEPKVNINLLQEIEKYLASVSSPWAMIKVVNPQYERIQVDFQVKLKAPYSSNFGYYRRELQQAIVGFLTPWTVDSGADINFGGKVYRSSILKFVEEQYYVDYVVNFKMNLNNQQDIREAIAITPRSVITSVSPKTSNQDHMIEEFIEQAIVFNNQKLESGVLGYESLNDLELG 7b5h-a1-m1-cEK_7b5h-a1-m1-cFK Cryo-EM structure of the contractile injection system base plate from Anabaena PCC7120 Q8YRX1 Q8YRX1 3.2 ELECTRON MICROSCOPY 108 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 232 232 7b5h-a1-m1-cAK_7b5h-a1-m1-cBK 7b5h-a1-m1-cAK_7b5h-a1-m1-cDK 7b5h-a1-m1-cBK_7b5h-a1-m1-cEK 7b5h-a1-m1-cCK_7b5h-a1-m1-cDK 7b5h-a1-m1-cCK_7b5h-a1-m1-cFK ALTKVKLLAYQDKRFENKLGEFELPINPEQFSQSFKVEYNREQAQGSQRNDPEFKFTKPEELKLDFTFDGTGVVPVNNGKPGEFHQDVADQVRVFLDLVYSMNSETHKPNFLRLIWGDFSFGEKNGFDCLLTDLQINYTLFDQTGKPLRAKLSTTFTSYVEQNRRVREEGKQSPDVTHQRKVKAGDTLPLMTHRIYGDPAYYLQIAKVNGLINFRKLATNTDLRFPPLEKTQ ALTKVKLLAYQDKRFENKLGEFELPINPEQFSQSFKVEYNREQAQGSQRNDPEFKFTKPEELKLDFTFDGTGVVPVNNGKPGEFHQDVADQVRVFLDLVYSMNSETHKPNFLRLIWGDFSFGEKNGFDCLLTDLQINYTLFDQTGKPLRAKLSTTFTSYVEQNRRVREEGKQSPDVTHQRKVKAGDTLPLMTHRIYGDPAYYLQIAKVNGLINFRKLATNTDLRFPPLEKTQ 7b5h-a1-m1-cEM_7b5h-a1-m1-cFM Cryo-EM structure of the contractile injection system base plate from Anabaena PCC7120 Q8YRW9 Q8YRW9 3.2 ELECTRON MICROSCOPY 89 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 153 153 7b5h-a1-m1-cAM_7b5h-a1-m1-cBM 7b5h-a1-m1-cAM_7b5h-a1-m1-cDM 7b5h-a1-m1-cBM_7b5h-a1-m1-cEM 7b5h-a1-m1-cCM_7b5h-a1-m1-cDM 7b5h-a1-m1-cCM_7b5h-a1-m1-cFM IRTYPPVSFFFEVVFQGENLDKDVVETRFQSVTGLSVDMQTETLKEGGENRFEHILPVRTKYDPLVLKRGLVNDSQMVKWCMDAILNFDIRPMNLLVRLLHIERSSSTIAPLMTWKVINAWPKKWSVSEFNAEQNSIAVESLELNYSYFETLK IRTYPPVSFFFEVVFQGENLDKDVVETRFQSVTGLSVDMQTETLKEGGENRFEHILPVRTKYDPLVLKRGLVNDSQMVKWCMDAILNFDIRPMNLLVRLLHIERSSSTIAPLMTWKVINAWPKKWSVSEFNAEQNSIAVESLELNYSYFETLK 7b5i-a1-m1-cEA_7b5i-a1-m1-cFA Cryo-EM structure of the contractile injection system cap complex from Anabaena PCC7120 Q8YRW5 Q8YRW5 2.8 ELECTRON MICROSCOPY 75 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 187 187 7b5i-a1-m1-cAA_7b5i-a1-m1-cBA 7b5i-a1-m1-cAA_7b5i-a1-m1-cFA 7b5i-a1-m1-cBA_7b5i-a1-m1-cCA 7b5i-a1-m1-cCA_7b5i-a1-m1-cDA 7b5i-a1-m1-cDA_7b5i-a1-m1-cEA MISDAMRLIQVALQRYILEFEPELGLSQVVIIENIAMAEELGGQNNQINGHVVMSLVNLQEETTLKNSPHYRLDNGRTIYQNPPVNLNLFILFSALHNQYETSLRLLSRVVEFFQWQKELSFTTTPGSRDLRILPDLYSLTFEQLNHLWGALGGKQVPFVLYRARILSLEAPKRQAEGSTITEIYIN MISDAMRLIQVALQRYILEFEPELGLSQVVIIENIAMAEELGGQNNQINGHVVMSLVNLQEETTLKNSPHYRLDNGRTIYQNPPVNLNLFILFSALHNQYETSLRLLSRVVEFFQWQKELSFTTTPGSRDLRILPDLYSLTFEQLNHLWGALGGKQVPFVLYRARILSLEAPKRQAEGSTITEIYIN 7b6b-a1-m1-cB_7b6b-a1-m1-cA The carbohydrate binding module family 48 (CBM48) and carboxy-terminal carbohydrate esterase family 1 (CE1) domains of the multidomain esterase DmCE1B from Dysgonomonas mossii in complex with methyl ferulate F8X1N1 F8X1N1 1.41 X-RAY DIFFRACTION 117 0.994 742767 (Dysgonomonas mossii DSM 22836) 742767 (Dysgonomonas mossii DSM 22836) 345 346 7b5v-a1-m1-cB_7b5v-a1-m1-cA EVGISASTNIPGAQYPQILSGNRVLFRIKAPDAKRVQVDLGKKYDMVREEEGSWAITTDPIVEGFHYYSILIDGVAVCDPASRTFYGMSRMASGIEIPEEGVDYYNLKNVPHGQIRQIRYFSDVTKAWRRAFVYTPAGYDANTSQRYPVLYLQHGGGEDETGWPNQGKMDAIIDNLIAEGKAKPMIVVMDNGYAVDPSANSALEKVFINEIIPLVDKEFRTIADRDHRAMAGLSMGGFQAFQIAMTNLDKFAYVGGFSGGGIIGDFSKMYNNVWSDVDTFNKRVKLIYLSIGTAEPTNMYQTVNNFHKEFEKAGIKHVYYESPGTSHEWLTWRRSLNQFAELLFK EVGISASTNIPGAQYPQILSGNRVLFRIKAPDAKRVQVDLGKKYDMVREEEGSWAITTDPIVEGFHYYSILIDGVAVCDPASRTFYGMSRMASGIEIPEEGVDYYNLKNVPHGQIRQIRYFSDVTKAWRRAFVYTPAGYDANTSQRYPVLYLQHGGGEDETGWPNQGKMDAIIDNLIAEGKAKPMIVVMDNGYAVDPSASFQNSALEKVFINEIIPLVDKEFRTIADRDHRAMAGLSMGGFQAFQIAMTNLDKFAYVGGFSGGGIDFSKMYNNVWSDVDTFNKRVKLIYLSIGTAEPTNMYQTVNNFHKEFEKAGIKHVYYESPGTSHEWLTWRRSLNQFAELLFK 7b73-a1-m1-cD_7b73-a1-m1-cB Insight into the molecular determinants of thermal stability in halohydrin dehalogenase HheD2. Q1YQT8 Q1YQT8 1.6 X-RAY DIFFRACTION 147 1.0 314287 (gamma proteobacterium HTCC2207) 314287 (gamma proteobacterium HTCC2207) 224 230 7b73-a1-m1-cC_7b73-a1-m1-cA NSQLAGKRILVTQADTFMGPTLCEVFAEMGAEVIADNNLLTDPALPAKIIQQAGHIDVLVINLAIPAPFTKGELVDDSEWSATFSAVVDPMPRLCTAVLPQMIERQGGKILVMGSASALRGMKRASTYSAARGAQLSYVKAMGVEMAPQGIQINAIAQNFVDNPTYFPEETKANPKFQERLKRDVPLGRLVSLREDALFAAYLCSDAADCFVGQVFPVSGGWAV HHHHHSNSQLAGKRILVTQADTFMGPTLCEVFAEMGAEVIADNNLLTDPALPAKIIQQAGHIDVLVINLAIPAPFTKGELVDDSEWSATFSAVVDPMPRLCTAVLPQMIERQGGKILVMGSASALRGMKRASTYSAARGAQLSYVKAMGVEMAPQGIQINAIAQNFVDNPTYFPEETKANPKFQERLKRDVPLGRLVSLREDALFAAYLCSDAADCFVGQVFPVSGGWAV 7b73-a1-m1-cD_7b73-a1-m1-cC Insight into the molecular determinants of thermal stability in halohydrin dehalogenase HheD2. Q1YQT8 Q1YQT8 1.6 X-RAY DIFFRACTION 85 1.0 314287 (gamma proteobacterium HTCC2207) 314287 (gamma proteobacterium HTCC2207) 224 228 7b73-a1-m1-cB_7b73-a1-m1-cA NSQLAGKRILVTQADTFMGPTLCEVFAEMGAEVIADNNLLTDPALPAKIIQQAGHIDVLVINLAIPAPFTKGELVDDSEWSATFSAVVDPMPRLCTAVLPQMIERQGGKILVMGSASALRGMKRASTYSAARGAQLSYVKAMGVEMAPQGIQINAIAQNFVDNPTYFPEETKANPKFQERLKRDVPLGRLVSLREDALFAAYLCSDAADCFVGQVFPVSGGWAV HHHSNSQLAGKRILVTQADTFMGPTLCEVFAEMGAEVIADNNLLTDPALPAKIIQQAGHIDVLVINLAIPAPFTKGELVDDSEWSATFSAVVDPMPRLCTAVLPQMIERQGGKILVMGSASALRGMKRASTYSAARGAQLSYVKAMGVEMAPQGIQINAIAQNFVDNPTYFPEETKANPKFQERLKRDVPLGRLVSLREDALFAAYLCSDAADCFVGQVFPVSGGWAV 7b75-a1-m1-cA_7b75-a1-m1-cB Cryo-EM Structure of Human Thyroglobulin P01266 P01266 3.2 ELECTRON MICROSCOPY 579 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2483 2483 6scj-a1-m1-cA_6scj-a1-m1-cB PLRPCELQRETAFLKQADYVPQCAEDGSFQTVQCQNDGRSCWCVGANGSEVLGSRQPGRPVACLSFCQLQKQQILLSYLPQCQDSGDYAPVQCDVQQVQCWCVDAEGMEVYGTRQLGRPKRCPRSCEIRNRRLLHGVGDKSPPQCSAEGEFMPVQCKFVNTTDMMIFDLVHSYNRFPDAFVTFSSFQRRFPEVSGYCHCADSQGRELAETGLELLLDEIYDTIFAGLDLPSTFTETTLYRILQRRFLAVQSVISGRFRCPTKCEVERFTATSFGHPYVPSCRRNGDYQAVQCQTEGPCWCVDAQGKEMHGTRQQGEPPSCAEGQSCASERQQALSRLYFGTSATSCPPTIKELFVDSGLLRPMVEGQSQQFSVSENLLKEAIRAIFPSRGLARLALQFTTNPKRLQQNLFGGKFLVNVGQFNLSGALGTRGTFNPTVGSFGFEINLQENQNALKFLASLLELPEFLLFLQHAISVPEDVARDLGDVMETVLSSQTCEQTPERLFVPSCTTEGSYEDVQCFSGECWCVNSWGKELPGSRVRGGQPRCPTDCEKQRARMQSLMGSQPAGSTLFVPACTSEGHFLPVQCFNSECYCVDAEGQAIPGTRSAIGKPKKCPTPCQLQSEQAFLRTVQALLSNSSMLPTLSDTYIPQCSTDGQWRQVQCNGPPEQVFELYQRWEAQNKGQDLTPAKLLVKIMSYRELQDVPLAALEGKRPQPRENILLEPYLFWQILNGQLSQYPGSYSDFSTPLAHFDLRNCWCVDEAGQELEGMRSEPSKLPTCPGSCEEAKLRVLQFIRETEEIVSASNSSRFPLGESFLVAKGIRLRNEDLGLPPLFPPREAFAEQFLRGSDYAIRLAAQSTLSFYQRRRFSPDDSAGASALLRSGPYMPQCDAFGSWEPVQCHAGTGHCWCVDEKGGFIPGSLTARSLQIPQCPTTCEKSRTSGLLSSWKQARSQENPSPKDLFVPACLETGEYARLQASGAGTWCVDPASGEELRPGSSSSAQCPSLCNVLKSGVLSRRVSPGYVPACRAEDGGFSPVQCDQAQGSCWCVMDSGEEVPGTRVTGGQPACESPRCPLPFNASEVVGGTILCQQCQLLCRQGSWSVFPPGQLPQPRACQRPQLWQTIQTQGHFQLQLPPGKMCSADYADLLQTFQVFILDELTARGFCQIQVKTFGTLVSIPVCNNSSVVNVTWKSRLEDIPVASLPDLHDIERALVGKDLLGRFTDLIQSGSFQLHLDSQGDHFGTSPRTWFGCSEGFYQVLTSEASQDGLGCVKCPEGSYSQDEECIPCPVGFYQEQAGSLACVPCPVGRTTISAGAFSQTHCVTDCQRNEAGLQCDQNGQYRASQKDRGSGKAFCVDGEGRRLPWWETEAPLEDSQCLMMQKFEKVPESKVIFDANAPVAVRSKVPDSEFPVMQCLTDCTEDEACSFFTVSTTEPEISCDFYAWTSDLRCQVKVRSHGQDSPAVYLKKGQGSTTTLQKRFEPTGFQNMLSGLYNPIVFSASGANLTDAHLFCLLACDRDLCCDGFVLTQVQGGAIICGLLSSPSVLLCNVKDWMDPSEAWANATCPGVTNFQQVYLWKDSDMGSRPESMGCRKDTVPRPASPTEAGLTTELFSPVDLNQVIVNGNQSLSSQKHWLFKHLFSAQQANLWCLSRCVQEHSFCQLAEITESASLYFTCTLYPEAQVCDDIMESNAQGCRLILPQMPKALFRKKVILEDKVKNFYTRLPFQKLMGISIRNKVPMSEKSISNGFFECERRCDADPCCTGFGFLNVSQLKGGEVTCLTLNSLGIQMCSEENGGAWRILDCGSPDIEVHTYPFGWYQKPIAQNNAPSFCPLVVLPSLTEKVSLDSWQSLALSSVVVDPSIRHFDVAHVSTAATSNFSAVRDLCLSECSQHEACLITTLQTQPGAVRCMFYADTQSCTHSLQGQNCRLLLREEATHIYRKPGISLLSYEASVPSVPISTHGRLLGRSQAIQVGTSWKQVDQFLGVPYAAPPLAERRFQAPEPLNWTGSWDASKPRASCWQPGTRTSTSPGVSEDCLYLNVFIPQNVAPNASVLVFFHNTMDREESEGWPAIDGSFLAAVGNLIVVTASYRVGVFGFLSSGSGEVSGNWGLLDQVAALTWVQTHIRGFGGDPRRVSLAADRGGADVASIHLLTARATNSQLFRRAVLMGGSALSPAAVISHERAQQQAIALAKEVSCPMSSSQEVVSCLRQKPANVLNDAQTKLLAVSGPFHYWGPVIDGHFLREPPARALKRSLWVEVDLLIGSSQDDGLINRAKAVKQFEESRGRTSSKTAFYQALQNSLGGEDSDARVEAAATWYYSLEHSTDDYASFSRALENATRDYFIICPIIDMASAWAKRARGNVFMYHAPENYGHGSLELLADVQFALGLPFYPAYEGQFSLEEKSLSLKIMQYFSHFIRSGNPNYPYEFSRKVPTFATPWPDFVPRAGGENYKEFSELLPNRQGLKKADCSFWSKYISSLKT PLRPCELQRETAFLKQADYVPQCAEDGSFQTVQCQNDGRSCWCVGANGSEVLGSRQPGRPVACLSFCQLQKQQILLSYLPQCQDSGDYAPVQCDVQQVQCWCVDAEGMEVYGTRQLGRPKRCPRSCEIRNRRLLHGVGDKSPPQCSAEGEFMPVQCKFVNTTDMMIFDLVHSYNRFPDAFVTFSSFQRRFPEVSGYCHCADSQGRELAETGLELLLDEIYDTIFAGLDLPSTFTETTLYRILQRRFLAVQSVISGRFRCPTKCEVERFTATSFGHPYVPSCRRNGDYQAVQCQTEGPCWCVDAQGKEMHGTRQQGEPPSCAEGQSCASERQQALSRLYFGTSATSCPPTIKELFVDSGLLRPMVEGQSQQFSVSENLLKEAIRAIFPSRGLARLALQFTTNPKRLQQNLFGGKFLVNVGQFNLSGALGTRGTFNPTVGSFGFEINLQENQNALKFLASLLELPEFLLFLQHAISVPEDVARDLGDVMETVLSSQTCEQTPERLFVPSCTTEGSYEDVQCFSGECWCVNSWGKELPGSRVRGGQPRCPTDCEKQRARMQSLMGSQPAGSTLFVPACTSEGHFLPVQCFNSECYCVDAEGQAIPGTRSAIGKPKKCPTPCQLQSEQAFLRTVQALLSNSSMLPTLSDTYIPQCSTDGQWRQVQCNGPPEQVFELYQRWEAQNKGQDLTPAKLLVKIMSYRELQDVPLAALEGKRPQPRENILLEPYLFWQILNGQLSQYPGSYSDFSTPLAHFDLRNCWCVDEAGQELEGMRSEPSKLPTCPGSCEEAKLRVLQFIRETEEIVSASNSSRFPLGESFLVAKGIRLRNEDLGLPPLFPPREAFAEQFLRGSDYAIRLAAQSTLSFYQRRRFSPDDSAGASALLRSGPYMPQCDAFGSWEPVQCHAGTGHCWCVDEKGGFIPGSLTARSLQIPQCPTTCEKSRTSGLLSSWKQARSQENPSPKDLFVPACLETGEYARLQASGAGTWCVDPASGEELRPGSSSSAQCPSLCNVLKSGVLSRRVSPGYVPACRAEDGGFSPVQCDQAQGSCWCVMDSGEEVPGTRVTGGQPACESPRCPLPFNASEVVGGTILCQQCQLLCRQGSWSVFPPGQLPQPRACQRPQLWQTIQTQGHFQLQLPPGKMCSADYADLLQTFQVFILDELTARGFCQIQVKTFGTLVSIPVCNNSSVVNVTWKSRLEDIPVASLPDLHDIERALVGKDLLGRFTDLIQSGSFQLHLDSQGDHFGTSPRTWFGCSEGFYQVLTSEASQDGLGCVKCPEGSYSQDEECIPCPVGFYQEQAGSLACVPCPVGRTTISAGAFSQTHCVTDCQRNEAGLQCDQNGQYRASQKDRGSGKAFCVDGEGRRLPWWETEAPLEDSQCLMMQKFEKVPESKVIFDANAPVAVRSKVPDSEFPVMQCLTDCTEDEACSFFTVSTTEPEISCDFYAWTSDLRCQVKVRSHGQDSPAVYLKKGQGSTTTLQKRFEPTGFQNMLSGLYNPIVFSASGANLTDAHLFCLLACDRDLCCDGFVLTQVQGGAIICGLLSSPSVLLCNVKDWMDPSEAWANATCPGVTNFQQVYLWKDSDMGSRPESMGCRKDTVPRPASPTEAGLTTELFSPVDLNQVIVNGNQSLSSQKHWLFKHLFSAQQANLWCLSRCVQEHSFCQLAEITESASLYFTCTLYPEAQVCDDIMESNAQGCRLILPQMPKALFRKKVILEDKVKNFYTRLPFQKLMGISIRNKVPMSEKSISNGFFECERRCDADPCCTGFGFLNVSQLKGGEVTCLTLNSLGIQMCSEENGGAWRILDCGSPDIEVHTYPFGWYQKPIAQNNAPSFCPLVVLPSLTEKVSLDSWQSLALSSVVVDPSIRHFDVAHVSTAATSNFSAVRDLCLSECSQHEACLITTLQTQPGAVRCMFYADTQSCTHSLQGQNCRLLLREEATHIYRKPGISLLSYEASVPSVPISTHGRLLGRSQAIQVGTSWKQVDQFLGVPYAAPPLAERRFQAPEPLNWTGSWDASKPRASCWQPGTRTSTSPGVSEDCLYLNVFIPQNVAPNASVLVFFHNTMDREESEGWPAIDGSFLAAVGNLIVVTASYRVGVFGFLSSGSGEVSGNWGLLDQVAALTWVQTHIRGFGGDPRRVSLAADRGGADVASIHLLTARATNSQLFRRAVLMGGSALSPAAVISHERAQQQAIALAKEVSCPMSSSQEVVSCLRQKPANVLNDAQTKLLAVSGPFHYWGPVIDGHFLREPPARALKRSLWVEVDLLIGSSQDDGLINRAKAVKQFEESRGRTSSKTAFYQALQNSLGGEDSDARVEAAATWYYSLEHSTDDYASFSRALENATRDYFIICPIIDMASAWAKRARGNVFMYHAPENYGHGSLELLADVQFALGLPFYPAYEGQFSLEEKSLSLKIMQYFSHFIRSGNPNYPYEFSRKVPTFATPWPDFVPRAGGENYKEFSELLPNRQGLKKADCSFWSKYISSLKT 7b7q-a1-m1-cA_7b7q-a1-m1-cB CooS-V with oxidized hybrid cluster Q3AG28 Q3AG28 1.35 X-RAY DIFFRACTION 303 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 628 628 7b7t-a1-m1-cA_7b7t-a1-m1-cB 7b95-a1-m1-cA_7b95-a1-m1-cB 7b97-a1-m1-cA_7b97-a1-m1-cB 7b9a-a1-m1-cB_7b9a-a1-m1-cA 7b9a-a2-m1-cC_7b9a-a2-m1-cD MATKTSIHPSVNELYQRLAEDQLSNCFDRFDPQEKIRCNYCELGVSCQLCSNGPCRINEKVGATLGVCGINADGMAMRYMLLRNVMGTSTYTYHAYEAYKTLKMTALGNTPFTITDKDKLYQMAKDLELNTEGKPEDVAVRLSDFLIWELYRDYDEPGKMIEVYAPLKRKEVWRKLGIYPAGPLHELKDAAASCLTNVDGDYVSLATKGLRLGLSCIYGAQIGLELVQDILFGTGMPHEMDVDLGIFDADYINIVFNGHEPFVGVALILAAKEAVNQDKAKAAGAKSLRIYGSIESGQEVVQRFQKDEVFRGLTGNWLTIEPMLATGAVDVLAMDMNCSPPNLGPLAEKYGATLVSVSRLVRFPGIHHFLDYKPSEVREIAQKIIDIAVDSFKNKRHGKITPKIPANIQKAITGFTPEAILKALGGSINPLIEVIKAGKIKGAVGLINCTTLKNGPQDYVTVNLAKELIKRDILILSGGCGNHALEVAGLCNLDAINLAGPGLSEVCRNLNIPPVLSFGTTDTGRISLVVTALANALNVDTADLPVAVTAPMYMEQKATIDALFALAYGLYTHVAPDPPVMGAPNLVKLLTRDLPSITGGRIAVGSDPVKVADDILAHINDRRAKLGI MATKTSIHPSVNELYQRLAEDQLSNCFDRFDPQEKIRCNYCELGVSCQLCSNGPCRINEKVGATLGVCGINADGMAMRYMLLRNVMGTSTYTYHAYEAYKTLKMTALGNTPFTITDKDKLYQMAKDLELNTEGKPEDVAVRLSDFLIWELYRDYDEPGKMIEVYAPLKRKEVWRKLGIYPAGPLHELKDAAASCLTNVDGDYVSLATKGLRLGLSCIYGAQIGLELVQDILFGTGMPHEMDVDLGIFDADYINIVFNGHEPFVGVALILAAKEAVNQDKAKAAGAKSLRIYGSIESGQEVVQRFQKDEVFRGLTGNWLTIEPMLATGAVDVLAMDMNCSPPNLGPLAEKYGATLVSVSRLVRFPGIHHFLDYKPSEVREIAQKIIDIAVDSFKNKRHGKITPKIPANIQKAITGFTPEAILKALGGSINPLIEVIKAGKIKGAVGLINCTTLKNGPQDYVTVNLAKELIKRDILILSGGCGNHALEVAGLCNLDAINLAGPGLSEVCRNLNIPPVLSFGTTDTGRISLVVTALANALNVDTADLPVAVTAPMYMEQKATIDALFALAYGLYTHVAPDPPVMGAPNLVKLLTRDLPSITGGRIAVGSDPVKVADDILAHINDRRAKLGI 7b9p-a1-m1-cA_7b9p-a1-m2-cA Structure of Ribonucleotide reductase from Rhodobacter sphaeroides Q3J3H6 Q3J3H6 2.646 X-RAY DIFFRACTION 193 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 899 899 7b9q-a1-m1-cB_7b9q-a1-m1-cA KIERKFTTAEGGAYGGVGFTTTVSEIRNPVFRNESVEVPEGWSQVASDVLAQKYFRKAGVPARLKRVKEKGVPDFLWRSVPDEAELAKLPEEERFVGETSARQVFDRLAGAWAYWGWKGGYFSTEADARAYYDEMRHMLARQMAAPNSPQWFNTGLHWAYGIDGPSQGHFYVDHATGKLQKSDSAYEHPQPHACFIQSVQDDLVNEGGIMDLWVREARLFKYGSGTGTNFSSLRGEGEKLSGGGKSSGLMGFLKIGDRAAGAIKSGGTTRRAAKMVICDMDHPDIEQFINWKVIEEQKVASLVAGSKQHEAKLNDIFAAIRSFDGSIEGATDPAGNAGLKTAIRAAKKAMIPETYINRVLQYARQGFSSIEFPTYDTDWDSEAYTTVSGQNSNNSVRVTDAFLQAVKDDADWALVRRTDGKVAKTIKARELWDQVGHAAWACADPGIQFHDTVNAWHTCPEDGQIRGSNPCSEYMFLDDTACNLASMNLLTFFEAGRFDAEGYVHATRLWTVTLEISVMMAQFPSKEIAQLSYDFRTLGLGYANIGGLLMNMGLGYDSSEGRALCGALSAIMTGVAYATSAEMAGELGAFSGYERNAGHMLRVIRNHRTAAHGHTTGYEGVNVSPVALDQVNCPDPRLVALAKSSWDEALRLGEAHGYRNAQVTVIAPTGTIGLVMDCDTTGIEPDFALVKFKKLAGGGYFKIINRSVPAALETLGYASAQISQIVAYAVGHGTLANCPTISHSALVGHGFGAREIEKIEAALPSAFDIRFVFNQWTLGDPTFDLLRHLGFTRAQIEAANDHVCGTMTLEGAPHLKAEHLPVFDCANPCGKKGKRYLSVESHIHMMAAAQSFISGAISKTINMPNSATIAETLAAYELSHSLGIKANALYRDGSKLSQP KIERKFTTAEGGAYGGVGFTTTVSEIRNPVFRNESVEVPEGWSQVASDVLAQKYFRKAGVPARLKRVKEKGVPDFLWRSVPDEAELAKLPEEERFVGETSARQVFDRLAGAWAYWGWKGGYFSTEADARAYYDEMRHMLARQMAAPNSPQWFNTGLHWAYGIDGPSQGHFYVDHATGKLQKSDSAYEHPQPHACFIQSVQDDLVNEGGIMDLWVREARLFKYGSGTGTNFSSLRGEGEKLSGGGKSSGLMGFLKIGDRAAGAIKSGGTTRRAAKMVICDMDHPDIEQFINWKVIEEQKVASLVAGSKQHEAKLNDIFAAIRSFDGSIEGATDPAGNAGLKTAIRAAKKAMIPETYINRVLQYARQGFSSIEFPTYDTDWDSEAYTTVSGQNSNNSVRVTDAFLQAVKDDADWALVRRTDGKVAKTIKARELWDQVGHAAWACADPGIQFHDTVNAWHTCPEDGQIRGSNPCSEYMFLDDTACNLASMNLLTFFEAGRFDAEGYVHATRLWTVTLEISVMMAQFPSKEIAQLSYDFRTLGLGYANIGGLLMNMGLGYDSSEGRALCGALSAIMTGVAYATSAEMAGELGAFSGYERNAGHMLRVIRNHRTAAHGHTTGYEGVNVSPVALDQVNCPDPRLVALAKSSWDEALRLGEAHGYRNAQVTVIAPTGTIGLVMDCDTTGIEPDFALVKFKKLAGGGYFKIINRSVPAALETLGYASAQISQIVAYAVGHGTLANCPTISHSALVGHGFGAREIEKIEAALPSAFDIRFVFNQWTLGDPTFDLLRHLGFTRAQIEAANDHVCGTMTLEGAPHLKAEHLPVFDCANPCGKKGKRYLSVESHIHMMAAAQSFISGAISKTINMPNSATIAETLAAYELSHSLGIKANALYRDGSKLSQP 7b9s-a1-m1-cP_7b9s-a1-m1-cV Structure of the mycobacterial ESX-5 Type VII Secretion System hexameric pore complex I0RZI0 I0RZI0 3.4 ELECTRON MICROSCOPY 61 1.0 1150591 (Mycobacterium xenopi RIVM700367) 1150591 (Mycobacterium xenopi RIVM700367) 396 396 7b9s-a1-m1-c2_7b9s-a1-m1-cC 7b9s-a1-m1-c2_7b9s-a1-m1-cV 7b9s-a1-m1-cC_7b9s-a1-m1-cF 7b9s-a1-m1-cF_7b9s-a1-m1-cK 7b9s-a1-m1-cK_7b9s-a1-m1-cP APVVKPENIVLPTPLSVPPPEGKPWWLVVVGVLVVGLLVGMVGMTVASGSRLFLGAGAIFPIFMIGGVAMMMFGGRFGGQQQMSRPKLDAMRAQFMLMLDMLRETAQESADSMDANYRWFHPAPTTLAAAVGSSRMWERQPDGKDLNFGVVRVGVGMTRPEVTWGEPQNMPTDIELEPVTGKALQEFGRYQSVVYNLPKMVSLLVEPWYSLVGEREQVLGLTRAIICQLAFSHGPDHVQMIVVTSDPDRWDWVKWIPHFGDPRRRDAAGNARMVYTSVREFATEQAELFAGRGSFTTPTPHHVIISDIEDPQWEYVISSEGVDGVTFFDLTGSPLWTGAPQRVLRFTDSAGVIETLPRDRDTWMVIDDNAWFFALADQMSEADAEQFAHQMAHWRL APVVKPENIVLPTPLSVPPPEGKPWWLVVVGVLVVGLLVGMVGMTVASGSRLFLGAGAIFPIFMIGGVAMMMFGGRFGGQQQMSRPKLDAMRAQFMLMLDMLRETAQESADSMDANYRWFHPAPTTLAAAVGSSRMWERQPDGKDLNFGVVRVGVGMTRPEVTWGEPQNMPTDIELEPVTGKALQEFGRYQSVVYNLPKMVSLLVEPWYSLVGEREQVLGLTRAIICQLAFSHGPDHVQMIVVTSDPDRWDWVKWIPHFGDPRRRDAAGNARMVYTSVREFATEQAELFAGRGSFTTPTPHHVIISDIEDPQWEYVISSEGVDGVTFFDLTGSPLWTGAPQRVLRFTDSAGVIETLPRDRDTWMVIDDNAWFFALADQMSEADAEQFAHQMAHWRL 7b9s-a1-m1-cZ_7b9s-a1-m1-cW Structure of the mycobacterial ESX-5 Type VII Secretion System hexameric pore complex I0RSS8 I0RSS8 3.4 ELECTRON MICROSCOPY 270 1.0 1150591 (Mycobacterium xenopi RIVM700367) 1150591 (Mycobacterium xenopi RIVM700367) 462 485 7b9f-a1-m1-cX_7b9f-a1-m1-cD 7b9s-a1-m1-c5_7b9s-a1-m1-c3 7b9s-a1-m1-cI_7b9s-a1-m1-cG 7b9s-a1-m1-cN_7b9s-a1-m1-cL 7b9s-a1-m1-cS_7b9s-a1-m1-cQ 7b9s-a1-m1-cX_7b9s-a1-m1-cD PQAAVVAIMAADVQIAVVLDAHAPISVMIDPLLKVVNTRLRELGVAPLEAKGRGRWMLCLVDGTPLRPNLSLTEQEVYDGDRLWLKFLEDTEHRSEVIEHISTAVATNLSKRFAPIDPVVAVQVGATMVAVGVLLGSALLGWWRWQHESWLPAPFAAVIAVLVLTVATMILARSKTVPDRRVGDILLLSGLVPLAVAIAATAPGPVGAPHAVLGFGVFGVAAMLVMRFTGRRLGVYTALVTLCAAATAAGLARMVLLTSAVTLLTCVLLACVLMYHGAPALSRWLSGIRLPVFPSATSRWVFEARPLEGPASVRDVLLRAERARSFLTGLLVGLGVLTVVCLAGLCDPHAGRRWLPLLLAAFTFGFLILRGRSYVDRWQAITLAATAVLIIAAVAVRYVLVSGSPAVLSAGVAVLVLLPAAGLTAAAVVPNTIYSPLFRKIVEWIEYLCLMPIFPLALWLMN PQAAVVAIMAADVQIAVVLDAHAPISVMIDPLLKVVNTRLRELGVAPLEAKGRGRWMLCLVDGTPLRPNLSLTEQEVYDGDRLWLKFLEDTEHRSEVIEHISTAVATNLSKRFAPIDPVVAVQVGATMVAVGVLLGSALLGWWRWQHESWLPAPFAAVIAVLVLTVATMILARSKTVPDRRVGDILLLSGLVPLAVAIAATAPGPVGAPHAVLGFGVFGVAAMLVMRFTGRRLGVYTALVTLCAAATAAGLARMVLLTSAVTLLTCVLLACVLMYHGAPALSRWLSGIRLPVFPSATSRWVFEARPDLPTTVVVSGGGQPTLEGPASVRDVLLRAERARSFLTGLLVGLGVLTVVCLAGLCDPHAGRRWLPLLLAAFTFGFLILRGRSYVDRWQAITLAATAVLIIAAVAVRYVLVSGSPAVLSAGVAVLVLLPAAGLTAAAVVPNTIYSPLFRKIVEWIEYLCLMPIFPLALWLMNVYEAIRYR 7ba4-a1-m1-cD_7ba4-a1-m1-cA Structure of Cystathionine gamma-lyase from Pseudomonas aeruginosa A0A509J8D5 A0A509J8D5 2 X-RAY DIFFRACTION 63 0.994 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 358 377 AQAFATRVIHAGQAPDPSTGAIMPPIYANSTYIQESSHNPTRWALERCVADLEGGTQAFAFASGLAAISSVLELLDAGSHIVSGNDLYGGTFRLFERVRRRSAGHRFSFVDPTDLQAFEAALTPETRMVWVETPSNPLLRLTDLRAIAQLCRARGIISVADNTFASPYIQRPLELGFDVVVHSTTKYLNGHSDVIGGIAIVGDNPDLRERLGFLQNSVGAISGPFDAFLTLRGVKTLALRMERHCSNALALAQWLERQPQVARVYYPGLASHPQHELAKRQMRGFGGMISLDLRCDLAGARRFLENVRIFSLAESLGGVESLIEHPAGDSLIRLSVGVEALEDLQADLAQALAKIHHH DAPAQAFATRVIHAGQAPDPSTGAIMPPIYANSTYIQRSHNPTRWALERCVADLEGGTQAFAFASGLAAISSVLELLDAGSHIVSGNDLYGGTFRLFERVRRRSAGHRFSFVDPTDLQAFEAALTPETRMVWVETPSNPLLRLTDLRAIAQLCRARGIISVADNTFASPYIQRPLELGFDVVVHSTTKYLNGHSDVIGGIAIVGDNPDLRERLGFLQNSVGAISGPFDAFLTLRGVKTLALRMERHCSNALALAQWLERQPQVARVYYPGLASHPQHELAKRQMRGFGGMISLDLRCDLAGARRFLENVRIFSLAESLGGVESLIEHPAIMTHASIPAETRADLGIGDSLIRLSVGVEALEDLQADLAQALAKIHHH 7ba4-a1-m1-cD_7ba4-a1-m1-cB Structure of Cystathionine gamma-lyase from Pseudomonas aeruginosa A0A509J8D5 A0A509J8D5 2 X-RAY DIFFRACTION 102 0.997 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 358 370 7ba4-a1-m1-cC_7ba4-a1-m1-cA AQAFATRVIHAGQAPDPSTGAIMPPIYANSTYIQESSHNPTRWALERCVADLEGGTQAFAFASGLAAISSVLELLDAGSHIVSGNDLYGGTFRLFERVRRRSAGHRFSFVDPTDLQAFEAALTPETRMVWVETPSNPLLRLTDLRAIAQLCRARGIISVADNTFASPYIQRPLELGFDVVVHSTTKYLNGHSDVIGGIAIVGDNPDLRERLGFLQNSVGAISGPFDAFLTLRGVKTLALRMERHCSNALALAQWLERQPQVARVYYPGLASHPQHELAKRQMRGFGGMISLDLRCDLAGARRFLENVRIFSLAESLGGVESLIEHPAGDSLIRLSVGVEALEDLQADLAQALAKIHHH APAQAFATRVIHAGQAPDPSTGAIMPPIYANSTYIQESPGVHKGLDYGRSHNPTRWALERCVADLEGGTQAFAFASGLAAISSVLELLDAGSHIVSGNDLYGGTFRLFERVRRRSAGHRFSFVDPTDLQAFEAALTPETRMVWVETPSNPLLRLTDLRAIAQLCRARGIISVADNTFASPYIQRPLELGFDVVVHSTTKYLNGHSDVIGGIAIVGDNPDLRERLGFLQNSVGAISGPFDAFLTLRGVKTLALRMERHCSNALALAQWLERQPQVARVYYPGLASHPQHELAKRQMRGFGGMISLDLRCDLAGARRFLENVRIFSLAESLGGVESLIEHPAGDSLIRLSVGVEALEDLQADLAQALAKIHH 7ba4-a1-m1-cD_7ba4-a1-m1-cC Structure of Cystathionine gamma-lyase from Pseudomonas aeruginosa A0A509J8D5 A0A509J8D5 2 X-RAY DIFFRACTION 167 0.994 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 358 366 AQAFATRVIHAGQAPDPSTGAIMPPIYANSTYIQESSHNPTRWALERCVADLEGGTQAFAFASGLAAISSVLELLDAGSHIVSGNDLYGGTFRLFERVRRRSAGHRFSFVDPTDLQAFEAALTPETRMVWVETPSNPLLRLTDLRAIAQLCRARGIISVADNTFASPYIQRPLELGFDVVVHSTTKYLNGHSDVIGGIAIVGDNPDLRERLGFLQNSVGAISGPFDAFLTLRGVKTLALRMERHCSNALALAQWLERQPQVARVYYPGLASHPQHELAKRQMRGFGGMISLDLRCDLAGARRFLENVRIFSLAESLGGVESLIEHPAGDSLIRLSVGVEALEDLQADLAQALAKIHHH PAQAFATRVIHAGQAPDPSTGAIMPPIYANSTYIQRSHNPTRWALERCVADLEGGTQAFAFASGLAAISSVLELLDAGSHIVSGNDLYGGTFRLFERVRRRSAGHRFSFVDPTDLQAFEAALTPETRMVWVETPSNPLLRLTDLRAIAQLCRARGIISVADNTFASPYIQRPLELGFDVVVHSTTKYLNGHSDVIGGIAIVGDNPDLRERLGFLQNSVGAISGPFDAFLTLRGVKTLALRMERHCSNALALAQWLERQPQVARVYYPGLASHPQHELAKRQMRGFGGMISLDLRCDLAGARRFLENVRIFSLAESLGGVESLIEHPAETRADLGIGDSLIRLSVGVEALEDLQADLAQALAKIHHH 7ban-a1-m1-cA_7ban-a1-m1-cB human Teneurin4 Mut C2 Q6N022 Q6N022 2.7 ELECTRON MICROSCOPY 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1904 1904 7bam-a1-m1-cA_7bam-a1-m1-cB METACGDSKDNDGDGLVDCMDPDCCLQPLCHINPLCLGSPNPLDIIQETQVPVSQQNLHSFYDRIKFLVGRDSTHIIPGENPFDGGHACVIRGQVMTSDGTPLVGVNISFVNNPLFGYTISRQDGSFDLVTNGGISIILRFERAPFITQEHTLWLPWDRFFVMETIIMRHEENEIPSCDLSNFARPNPVVSPSPLTSFASSCAEKGPIVPEIQALQEEISISGCKMRLSYLSSRTPGYKSVLRISLTHPTIPFNLMKVHLMVAVEGRLFRKWFAAAPDLSYYFIWDKTDVYNQKVFGLSEAFVSVGYEYESCPDLILWEKRTTVLQGYEIDASKLGGWSLDKHHALNIQSGILHKGNGENQFVSQQPPVIGSIMGNGRRRSISCPSCNGLADGNKLLAPVALTCGSDGSLYVGDFNYIRRIFPSGNVTNILELRNKDFRHSHSPAHKYYLATDPMSGAVFLSDSNSRRVFKIKSTVVVKDLVKNSEVVAGTGDQCLRCGDGGKATEATLTNPRGITVDKFGLIYFVDGTMIRRIDQNGIISTLLGSLSCDSVMDISQVHLEWPTDLAINPMDNSLYVLDNNVVLQISENHQVRIVAGRPMHCLLSKVAIHATLESATALAVSHNGVLYIAETDEKKINRIRQVTTSGEISLVAGAPSGCDCKNDANCDCFSGDDGYAKDAKLNTPSSLAVCADGELYVADLGNIRIRFIRKNKPFLNTQNMYELSSPIDQELYLFDTTGKHLYTQSLPTGDYLYNFTYTGDGDITLITDNNGNMVNVRRDSTGMPLWLVVPDGQVYWVTMGTNSALKSVTTQGHELAMMTYHGNSGLLATKSNENGWTTFYEYDSFGRLTNVTFPTGQVSSFRSDTDSSVHVQVETSSKDDVTITTNLSASGAFYTLLQDQVRNSYYIGADGSLRLLLANGMEVALQTEPHLLAGTVNPTVGKRNVTLPIDNGLNLVEWRQRKEQARGQVTVFGRRLRVHNRNLLSLDFDRVTRTEKIYDDHRKFTLRILYDQAGRPSLWSPSSRLNGVNVTYSPGGYIAGIQRGIMSERMEYDQAGRITSRIFADGKTWSYTYLEKSMVLLLHSQRQYIFEFDKNDRLSSVTMPNVARQTLETIRSVGYYRNIYQPPEGNASVIQDFTEDGHLLHTFYLGTGRRVIYKYGKLSKLAETLYDTTKVSFTYDETAGMLKTINLQNEGFTCTIRYRQIGPLIDRQIFRFTEEGMVNARFDYNYDNSFRVTSMQAVINETPLPIDLYRYDDVSGKTEQFGKFGVIYYDINQIITTAVMTHTKHFDAYGRMKEVQYEIFRSLMYWMTVQYDNMGRVVKKELKVGPYANTTRYSYEYDADGQLQTVSINDKPLWRYSYDLNGNLHLLSPGNSARLTPLRYDIRDRITRLGDVQYKMDEDGFLRQRGGDIFEYNSAGLLIKAYNRAGSWSVRYRYDGLGRRVSSKSSHSHHLQFFYADLTNPTKVTHLYNHSSSEITSLYYDLQGHLFAMELSSGDEFYIACDNIGTPLAVFSGTGLMIKQILYTAYGEIYMDTNPNFQIIIGYHGGLYDPLTKLVHMGRRDYDVLAGRWTSPDHELWKHLSSSNVMPFNLYMFKNNNPISNSQDIKCFMTDVNSWLLTFGFQLHNVIPGYPKPDMDAMEPSYELIHTQMKTQEWDNSKSILGVQCEVQKQLKAFVTLERFDQLYGSAPKTKKFASSGSVFGKGVKFALKDGRVTTDIICVANEDGRRVAAILNHAHYLENLHFTIDGVDTHYFVKPGPSEGDLAILGLSGGRRTLENGVNVTVSQINTVLNGRTRRYTDIQLQYGALCLNTRYGTTLDEEKARVLELARQRAVRQAWAREQQRLREGEEGLRAWTEGEKQQVLSTGRVQGYDGFFVISVEQYPELSDSANNIHFMRQSE METACGDSKDNDGDGLVDCMDPDCCLQPLCHINPLCLGSPNPLDIIQETQVPVSQQNLHSFYDRIKFLVGRDSTHIIPGENPFDGGHACVIRGQVMTSDGTPLVGVNISFVNNPLFGYTISRQDGSFDLVTNGGISIILRFERAPFITQEHTLWLPWDRFFVMETIIMRHEENEIPSCDLSNFARPNPVVSPSPLTSFASSCAEKGPIVPEIQALQEEISISGCKMRLSYLSSRTPGYKSVLRISLTHPTIPFNLMKVHLMVAVEGRLFRKWFAAAPDLSYYFIWDKTDVYNQKVFGLSEAFVSVGYEYESCPDLILWEKRTTVLQGYEIDASKLGGWSLDKHHALNIQSGILHKGNGENQFVSQQPPVIGSIMGNGRRRSISCPSCNGLADGNKLLAPVALTCGSDGSLYVGDFNYIRRIFPSGNVTNILELRNKDFRHSHSPAHKYYLATDPMSGAVFLSDSNSRRVFKIKSTVVVKDLVKNSEVVAGTGDQCLRCGDGGKATEATLTNPRGITVDKFGLIYFVDGTMIRRIDQNGIISTLLGSLSCDSVMDISQVHLEWPTDLAINPMDNSLYVLDNNVVLQISENHQVRIVAGRPMHCLLSKVAIHATLESATALAVSHNGVLYIAETDEKKINRIRQVTTSGEISLVAGAPSGCDCKNDANCDCFSGDDGYAKDAKLNTPSSLAVCADGELYVADLGNIRIRFIRKNKPFLNTQNMYELSSPIDQELYLFDTTGKHLYTQSLPTGDYLYNFTYTGDGDITLITDNNGNMVNVRRDSTGMPLWLVVPDGQVYWVTMGTNSALKSVTTQGHELAMMTYHGNSGLLATKSNENGWTTFYEYDSFGRLTNVTFPTGQVSSFRSDTDSSVHVQVETSSKDDVTITTNLSASGAFYTLLQDQVRNSYYIGADGSLRLLLANGMEVALQTEPHLLAGTVNPTVGKRNVTLPIDNGLNLVEWRQRKEQARGQVTVFGRRLRVHNRNLLSLDFDRVTRTEKIYDDHRKFTLRILYDQAGRPSLWSPSSRLNGVNVTYSPGGYIAGIQRGIMSERMEYDQAGRITSRIFADGKTWSYTYLEKSMVLLLHSQRQYIFEFDKNDRLSSVTMPNVARQTLETIRSVGYYRNIYQPPEGNASVIQDFTEDGHLLHTFYLGTGRRVIYKYGKLSKLAETLYDTTKVSFTYDETAGMLKTINLQNEGFTCTIRYRQIGPLIDRQIFRFTEEGMVNARFDYNYDNSFRVTSMQAVINETPLPIDLYRYDDVSGKTEQFGKFGVIYYDINQIITTAVMTHTKHFDAYGRMKEVQYEIFRSLMYWMTVQYDNMGRVVKKELKVGPYANTTRYSYEYDADGQLQTVSINDKPLWRYSYDLNGNLHLLSPGNSARLTPLRYDIRDRITRLGDVQYKMDEDGFLRQRGGDIFEYNSAGLLIKAYNRAGSWSVRYRYDGLGRRVSSKSSHSHHLQFFYADLTNPTKVTHLYNHSSSEITSLYYDLQGHLFAMELSSGDEFYIACDNIGTPLAVFSGTGLMIKQILYTAYGEIYMDTNPNFQIIIGYHGGLYDPLTKLVHMGRRDYDVLAGRWTSPDHELWKHLSSSNVMPFNLYMFKNNNPISNSQDIKCFMTDVNSWLLTFGFQLHNVIPGYPKPDMDAMEPSYELIHTQMKTQEWDNSKSILGVQCEVQKQLKAFVTLERFDQLYGSAPKTKKFASSGSVFGKGVKFALKDGRVTTDIICVANEDGRRVAAILNHAHYLENLHFTIDGVDTHYFVKPGPSEGDLAILGLSGGRRTLENGVNVTVSQINTVLNGRTRRYTDIQLQYGALCLNTRYGTTLDEEKARVLELARQRAVRQAWAREQQRLREGEEGLRAWTEGEKQQVLSTGRVQGYDGFFVISVEQYPELSDSANNIHFMRQSE 7bas-a1-m1-cA_7bas-a1-m1-cE A de novo pentameric coiled-coil assembly: CC-Type2-(TgLaId)4-W19BrPhe. 1.1 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 7bas-a1-m1-cB_7bas-a1-m1-cE 7bas-a1-m1-cC_7bas-a1-m1-cB 7bas-a1-m1-cC_7bas-a1-m1-cD 7bas-a1-m1-cD_7bas-a1-m1-cA 7bav-a1-m1-cA_7bav-a1-m1-cB 7bav-a1-m1-cA_7bav-a1-m1-cD 7bav-a1-m1-cB_7bav-a1-m1-cE 7bav-a1-m1-cC_7bav-a1-m1-cD 7bav-a1-m1-cC_7bav-a1-m1-cE GEIAQTLKEIAKTLKEIATLKEIAQTLKG GEIAQTLKEIAKTLKEIATLKEIAQTLKG 7bau-a2-m1-cH_7bau-a2-m1-cI A de novo pentameric coiled-coil assembly: CC-Type2-(TgIaId)4-W19BrPhe. 1.42 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 28 29 7bau-a1-m1-cA_7bau-a1-m1-cD 7bau-a1-m1-cB_7bau-a1-m1-cC 7bau-a1-m1-cC_7bau-a1-m1-cE 7bau-a1-m1-cD_7bau-a1-m1-cE 7bau-a2-m1-cF_7bau-a2-m1-cG 7bau-a2-m1-cF_7bau-a2-m1-cJ 7bau-a2-m1-cH_7bau-a2-m1-cG 7bau-a2-m1-cI_7bau-a2-m1-cJ GEIAQTIKEIAKTIKEIATIKEIAQTIK GEIAQTIKEIAKTIKEIATIKEIAQTIKG 7bb3-a1-m1-cB_7bb3-a1-m2-cA Structure of S. pombe YG-box oligomer Q09808 Q09808 2.158 X-RAY DIFFRACTION 44 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 54 54 DDSELRNAFETALHEFKKYHSIEAKGYDETYKKLIMSWYYAGYYTGLAEGLAKS DDSELRNAFETALHEFKKYHSIEAKGYDETYKKLIMSWYYAGYYTGLAEGLAKS 7bb3-a2-m1-cA_7bb3-a2-m1-cB Structure of S. pombe YG-box oligomer Q09808 Q09808 2.158 X-RAY DIFFRACTION 53 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 54 54 7bb3-a1-m1-cA_7bb3-a1-m1-cB 7bb3-a1-m2-cA_7bb3-a1-m2-cB DDSELRNAFETALHEFKKYHSIEAKGYDETYKKLIMSWYYAGYYTGLAEGLAKS DDSELRNAFETALHEFKKYHSIEAKGYDETYKKLIMSWYYAGYYTGLAEGLAKS 7bbh-a1-m1-cB_7bbh-a1-m1-cC Structure of Coronavirus Spike from Smuggled Guangdong Pangolin A0A6M3G9R1 A0A6M3G9R1 2.9 ELECTRON MICROSCOPY 367 1.0 2708335 (Pangolin coronavirus) 2708335 (Pangolin coronavirus) 1063 1063 7bbh-a1-m1-cA_7bbh-a1-m1-cB 7bbh-a1-m1-cA_7bbh-a1-m1-cC QCVNLTGRAAIQPSFTNSSQRGVYYPDTIFRSNTLVLSQGYFLPFYSNVSWYYALKRVDNPVLDFKDGIYFAATEKSNIVRGWIFGTTLDNTSQSLLIVNNATNVIIKVCNFQFCYDPYLSEFAVYSSYANCTFEYVSKSFMLFDTLREFVFRNVDGYFKIYSKYTPVNVNSNLPIGFSALEPLVEIPAGINITKFRTLLTIHVFSAAYYVGYLAPRTFMLNYNENGTITDAVDCALDPLSEAKCTLKSLTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATTFASVYAWNRKRISNCVADYSVLYNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVVRGDEVRQIAPGQTGRIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFHPTNGVGYQPYRVVVLSFELLKAPATVCGPKQSTNLVKNKCVNFNFNGLTGTGVLTESSKKFLPFQQFGRDIADTTDAVRDTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNTYECDIPIGAGICASYQTNSQAIIAYTMSLGAENSVAYANNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSIECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSFIEDLLFNKVTLAIKQYGDCLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPSQEKNFTTTPAICHEGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGSCDVVIGIVNNTVYDPLQPEL QCVNLTGRAAIQPSFTNSSQRGVYYPDTIFRSNTLVLSQGYFLPFYSNVSWYYALKRVDNPVLDFKDGIYFAATEKSNIVRGWIFGTTLDNTSQSLLIVNNATNVIIKVCNFQFCYDPYLSEFAVYSSYANCTFEYVSKSFMLFDTLREFVFRNVDGYFKIYSKYTPVNVNSNLPIGFSALEPLVEIPAGINITKFRTLLTIHVFSAAYYVGYLAPRTFMLNYNENGTITDAVDCALDPLSEAKCTLKSLTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATTFASVYAWNRKRISNCVADYSVLYNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVVRGDEVRQIAPGQTGRIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFHPTNGVGYQPYRVVVLSFELLKAPATVCGPKQSTNLVKNKCVNFNFNGLTGTGVLTESSKKFLPFQQFGRDIADTTDAVRDTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNTYECDIPIGAGICASYQTNSQAIIAYTMSLGAENSVAYANNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSIECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSFIEDLLFNKVTLAIKQYGDCLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPSQEKNFTTTPAICHEGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGSCDVVIGIVNNTVYDPLQPEL 7bbn-a1-m1-cA_7bbn-a1-m1-cB Crystal structure of an ancient sequence-reconstructed Elongation Factor Tu (node 317) 1.68 X-RAY DIFFRACTION 32 1.0 32630 (synthetic construct) 32630 (synthetic construct) 361 366 KPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIIRGSALKALEGEAEWEAKIIELAEALDSYIPEPERAIDQPFLLPIEDVFSISGRGTVVTGRVERGIVKVGEEVEIVGIKDTTKTTCTGVEMFDEGRAGENVGVLLRGTKRDEIERGQVLAKPGSITPHTTFESEVYVLSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMTVTLIHPIAMDEGLRFAIREGGRTVGAGVVAKII KPHVNVGTIGHVDHGKTTLTAAITTVLAKTYGGITINTSHVEYDTPTRHYAHVDCPGHADYVKNMITGAAQMDGAILVVAATDGPMPQTREHILLGRQVGVPYIIVFLNKCDMVDDEELLELVEMEVRELLSQYDFPGDDTPIIRGSALKALEGEAEWEAKIIELAEALDSYIPEPERAIDQPFLLPIEDVFSISGRGTVVTGRVERGIVKVGEEVEIVGIKDTTKTTCTGVEMFRKLDEGRAGENVGVLLRGTKRDEIERGQVLAKPGSITPHTTFESEVYVLSKDEGGRHTPFFKGYRPQFYFRTTDVTGTIELPEGVEMVMPGDNIKMTVTLIHPIAMDEGLRFAIREGGRTVGAGVVAKIIA 7bbq-a1-m1-cA_7bbq-a1-m2-cA Crystal structure of the HTH DNA binding protein ArdK from R388 plasmid. Apo form. Q6I6B7 Q6I6B7 3 X-RAY DIFFRACTION 62 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 92 92 LGRLTEETIDIAREVLVEGKSQSDVARERGLSRQRVSSVKSVVSAANEIPREWQRVEVWLPPNLAEKVRQEADAKADVARKNQLTDAALEHH LGRLTEETIDIAREVLVEGKSQSDVARERGLSRQRVSSVKSVVSAANEIPREWQRVEVWLPPNLAEKVRQEADAKADVARKNQLTDAALEHH 7bbs-a1-m1-cB_7bbs-a1-m1-cA Structure of Bg10: an alcohol-tolerant and glucose-stimulated B-glucosidase A0A1L3HS62 A0A1L3HS62 2.3 X-RAY DIFFRACTION 54 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 451 452 SYRFPPGFVWGAATAAYQIEGAAAEDGRTPSIWDTFSHTPGRVLNGDTGDIAADHYHRFRDDVALMSDLNLGAYRFSVSWSRVQPTGRGPAVQRGLDFYRQLVDELLEKGITPVATLYHWDLPQDLEDVGGWTVRDTPERFAEYTEIVAAALGDRVPYWTTLNEPWCSAYLGYGSGVHAPGRTDPEAALKAVHHLNLAHGRGIGVLRSLLPSTARTSITLNLHQIRPLSTSPADLDAARRIDAVGNRVWLGPILDGAYPQDVLADTGHLVDWDRLVRDGDLEEISRPIDLLGINYYTPTLVSDGRAHSPWPGSEHVAFHLAPGETTAMRWAVDASGLYDLLMRIHREHPGLPMMVTENGAAYDDYISPEGAINDPDRIAYLRGHLSAVHRALADGADVRGYFLWSLLDNFEWAYGYSKRFGAVYVDFGTQRRIPKQSAHWYAAVARDNVLP SYRFPPGFVWGAATAAYQIEGAAAEDGRTPSIWDTFSHTPGRVLNGDTGDIAADHYHRFRDDVALMSDLNLGAYRFSVSWSRVQPTGRGPAVQRGLDFYRQLVDELLEKGITPVATLYHWDLPQDLEDVGGWTVRDTPERFAEYTEIVAAALGDRVPYWTTLNEPWCSAYLGYGSGVHAPGRTDPEAALKAVHHLNLAHGRGIGVLRSLLPSTARTSITLNLHQIRPLSTSPADLDAARRIDAVGNRVWLGPILDGAYPQDVLADTGHLVDWDRLVRDGDLEEISRPIDLLGINYYTPTLVSDGRAHHSPWPGSEHVAFHLAPGETTAMRWAVDASGLYDLLMRIHREHPGLPMMVTENGAAYDDYISPEGAINDPDRIAYLRGHLSAVHRALADGADVRGYFLWSLLDNFEWAYGYSKRFGAVYVDFGTQRRIPKQSAHWYAAVARDNVLP 7bdu-a2-m1-cC_7bdu-a2-m1-cD Crystal structure of a Hsp47-collagen peptide complex Q96A83 Q96A83 2.49 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 20 21 7bdu-a1-m1-cC_7bdu-a1-m1-cD PGPPGPPGPRGLPGPPGPPG PPGPPGPPGPRGLPGPPGPPG 7bdv-a1-m1-cB_7bdv-a1-m1-cA Structure of Can2 from Sulfobacillus thermosulfidooxidans in complex with cyclic tetra-adenylate (cA4) 2.02 X-RAY DIFFRACTION 94 0.994 28034 (Sulfobacillus thermosulfidooxidans) 28034 (Sulfobacillus thermosulfidooxidans) 339 352 HDTYVCLLSDHLLPNVIPVIQAPPQRVILLYTPNNKERVQRFRQATESVPTEIIEKQVHPYQYAQTQRICDEILEQFPNAILNVTGGTKIALAAFDRFRHNHRPIIYVDSDSQRILYLHNGESERLGDPLTVKQYLACYGFKADNPKTWREVEDLFAQNSTKWQNQLGRLNWIAAQQQPIFTLQTGELQDLLLKANLIKPAEGFQFTSDQARQFINGGWFEHYVYSLLRQISAQYPIKNLTKNIEISNDSVSNELDVVFLYHNKLHVIECKTRHFTKINPETIYKIDSVTNRVAGIKGKSFASYYPLTQAAKKRCLNNSIYVSDQPSQLHHQLIKWINA RLDDLFIIHDTYVCLLSDHLLPNVIPVIQAPPQRVILLYTPNNKERVQRFRQATESVPTEIIEKQVHPYQYAQTQRICDEILEQFPNAILNVTGGTKIALAAFDRFRHNHRPIIYVDSDSQRILYLHNGESERLGDPLTVKQYLACYGFKADKTWREVEDLFAQNSTKWQNQLGRLNWIAAQQQPIFTLQTGELQDLLLKANLIKPAEAKNAGFQFTSDQARQFINGGWFEHYVYSLLRQISAQYPIKNLTKNIEISNDSVSNELDVVFLYHNKLHVIECKTRHFTADGKINPETIYKIDSVTNRVAGIKGKSFASYYPLTQAAKKRCLNNSIYVSDQPSQLHHQLIKWINA 7bee-a2-m1-cB_7bee-a2-m1-cA Crystal structure of a Hsp47-collagen peptide complex A0A8I3N7V2 A0A8I3N7V2 1.939 X-RAY DIFFRACTION 33 0.995 9615 (Canis lupus familiaris) 9615 (Canis lupus familiaris) 373 378 7bdu-a2-m1-cB_7bdu-a2-m1-cA MLSPKAATLAERSAGLAFSLYQAMAKDQAVENILLSPVVVASSLGLVSLGGKATTASQAKAVLSAEQLRDEEVHAGLGELLRSLSNSTARNVTWKLGSRLYGPSSVSFAEDFVRSSKQHYNCEHSKINFRDKRSALQSINEWAAQTTDGKLPEVTKDVERTDGALLVNAMFFKPHWDEKFHHKMVDNRGFMVTRSYTVGVTMMHRTGLYNYYDDEKEKLQIVEMPLAHKLSSLIILMPHHVEPLERLEKLLTKEQLKIWMGKMQKKAVAISLPKGVVEVTHDLQKHLAGLGLTEAIDKNKADLSRMSGKKDLYLASVFHATAFEWDTEGNPFDELRSPKLFYADHPFIFLVRDTQSGSLLFIGRLVRPKGDKM MLSPKAATLAERSAGLAFSLYQAMAKDQAVENILLSPVVVASSLGLVSLGGKATTASQAKAVLSAEQLRDEEVHAGLGELLRSLSNSTARNVTWKLGSRLYGPSSVSFAEDFVRSSKQHYNCEHSKINFRDKRSALQSINEWAAQTTDGKLPEVTKDVERTDGALLVNAMFFKPHWDEKFHHKMVDNRGFMVTRSYTVGVTMMHRTGLYNYYDDEKEKLQIVEMPLAHKLSSLIILMPHHVEPLERLEKLLTKEQLKIWMGKMQKKAVAISLPKGVVEVTHDLQKHLAGLGLTEAIDKNKADLSRMSGKKDLYLASVFHATAFEWDTEGNPFDQDIYGREELRSPKLFYADHPFIFLVRDTQSGSLLFIGRLVRPKGD 7bee-a2-m1-cD_7bee-a2-m1-cC Crystal structure of a Hsp47-collagen peptide complex Q96A83 Q96A83 1.939 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 20 7bee-a1-m1-cD_7bee-a1-m1-cC PPGPPGPPGPRGFPGPPGP PPGPPGPPGPRGFPGPPGPP 7bee-a2-m1-cE_7bee-a2-m1-cC Crystal structure of a Hsp47-collagen peptide complex Q96A83 Q96A83 1.939 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 20 7bee-a1-m1-cE_7bee-a1-m1-cC PPGPPGPPGPRGFPGPPGP PPGPPGPPGPRGFPGPPGPP 7bee-a3-m1-cH_7bee-a3-m1-cG Crystal structure of a Hsp47-collagen peptide complex Q96A83 Q96A83 1.939 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 19 7bee-a1-m1-cD_7bee-a1-m1-cE 7bee-a2-m1-cD_7bee-a2-m1-cE 7bee-a2-m1-cH_7bee-a2-m1-cG PPGPPGPPGPRGFPGPPG PPGPPGPPGPRGFPGPPGP 7bgf-a1-m1-cB_7bgf-a1-m1-cA CRYSTAL STRUCTURE OF THE N-TERMINAL DIMERIC COILED COIL OF THE HUMAN CTIP PROTEIN Q99708 Q99708 2.802 X-RAY DIFFRACTION 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 112 HDREVQGLQVKVTKLKQERILDAQRLEEFFTKNQQLREQQKVLHETIKVLEDRLRAGLADRAAVTEEHMRKKQQEFENIRQQNLKLITELMNERNTLQEENKKLSEQL GHDREVQGLQVKVTKLKQERILDAQRLEEFFTKNQQLREQQKVLHETIKVLEDRLRAGLADRAAVTEEHMRKKQQEFENIRQQNLKLITELMNERNTLQEENKKLSEQLQQK 7bgn-a2-m1-cD_7bgn-a2-m1-cC Crystal structure of MtHISN2-AMP complex, a bifunctional enzyme from the histidine biosynthetic pathway A0A072U2X9 A0A072U2X9 2.7 X-RAY DIFFRACTION 253 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 203 204 7bgm-a1-m1-cB_7bgm-a1-m1-cA 7bgn-a1-m1-cA_7bgn-a1-m1-cB 7bgn-a3-m1-cE_7bgn-a3-m1-cF NAVDSLLDSVKWDNKGLAVAIAQNVDTGAILMQGFANREAVATTISSRKATFYSRSRSSLWTKGETSNNFINVHDVFLDCDRDSIIYLGKPDGPTCHTGAETCYYTPVFDLNKLALTSLYALESTISQRKAEVSWTKRLLLNDKLLCSKIREEANELCETLENNEDKSRTASEMADVLYHAMVLLALKDVKVEEVLQVLRQRF NAVDSLLDSVKWDNKGLAVAIAQNVDTGAILMQGFANREAVATTISSRKATFYSRSRSSLWTKGETSNNFINVHDVFLDCDRDSIIYLGKPDGPTCHTGAETCYYTPVFDLLNKLALTSLYALESTISQRKAEVSWTKRLLLNDKLLCSKIREEANELCETLENNEDKSRTASEMADVLYHAMVLLALKDVKVEEVLQVLRQRF 7bgs-a1-m1-cA_7bgs-a1-m1-cB Archeal holliday junction resolvase from Thermus thermophilus phage 15-6 A0A411CW95 A0A411CW95 2.5 X-RAY DIFFRACTION 13 1.0 12333 (unclassified bacterial viruses) 12333 (unclassified bacterial viruses) 119 126 7bnx-a1-m1-cA_7bnx-a1-m1-cB KGRRYENELVELLKQRGFTAWRVPSDVRVLAGQEHRVEVKRSTPQAASATRILSKLPFSCQGYRVFFLECKLPKNWVRWLNGAHILAVRLPKRFTSPYGGLTGWIIVLPDTLWDAWRSE KGRRYENELVELLKQRGFTAWRVPLSDVRVLAGQEHRVEVKRSTPQAASATRILSKLPFSCQGYRVFFLEALDSQCKLPKNWVRWLNGAHILAVRLPKRFTSPYGGLTGWIIVLPDTLWDAWRSES 7bgt-a1-m1-cA_7bgt-a1-m1-cB Mason-Pfizer Monkey Virus Protease mutant C7A/D26N/C106A in complex with peptidomimetic inhibitor P07572 P07572 1.93 X-RAY DIFFRACTION 138 1.0 11855 (Mason-Pfizer monkey virus) 11855 (Mason-Pfizer monkey virus) 108 108 6s1u-a1-m1-cA_6s1u-a1-m1-cB 6s1v-a1-m1-cA_6s1v-a1-m1-cB 7bgt-a2-m1-cC_7bgt-a2-m1-cD 7bgu-a1-m1-cA_7bgu-a1-m1-cB 7bgu-a2-m1-cC_7bgu-a2-m1-cD WVQPITAQKPSLTLWLDDKMFTGLINTGADVTIIKLEDWPPNWPITDTLTNLRGIGQSNNPKQSSKYLTWRDKENNSGLIKPFVIPNLPVNLWGRDLLSQMKIMMASP WVQPITAQKPSLTLWLDDKMFTGLINTGADVTIIKLEDWPPNWPITDTLTNLRGIGQSNNPKQSSKYLTWRDKENNSGLIKPFVIPNLPVNLWGRDLLSQMKIMMASP 7bgx-a1-m1-cAAA_7bgx-a1-m2-cAAA Mutant F105L of recombinant beta-lactoglobulin P02754 P02754 2 X-RAY DIFFRACTION 37 1.0 9913 (Bos taurus) 9913 (Bos taurus) 155 155 VTQTMKGLDIQKVAGTWYSLAMAASDISLLDAQSAPLRVYVEELKPTPEGDLEILLQKWENGECAQKKIIAEKTKIPAVFKIDALNENKVLVLDTDYKKYLLLCMENQSLACQCLVRTPEVDDEALEKFDKALKALPMHIRLSFNPTQLEEQCHI VTQTMKGLDIQKVAGTWYSLAMAASDISLLDAQSAPLRVYVEELKPTPEGDLEILLQKWENGECAQKKIIAEKTKIPAVFKIDALNENKVLVLDTDYKKYLLLCMENQSLACQCLVRTPEVDDEALEKFDKALKALPMHIRLSFNPTQLEEQCHI 7bhi-a1-m1-cB_7bhi-a1-m1-cA Crystal structure of RecJ-Cdc45 from Methanothermobacter Thermoautotrophicus O27473 O27473 2.7 X-RAY DIFFRACTION 28 0.998 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 440 444 LPDSILKRGAEASKVLEEHLERGNIIRIISHNDADGLSAAGVVARAISSMNGQFHISILSRLKKEFIKKLSGEKYSLFFFCDMGSAYLEEISRLKGDVIVADHHQPSGPHVVHINPHLHGLDGSRDLSASGTAYLATRLLNRKTAPLALVGALGDMQYTDGFTGANRFIMEEAVEEGVLQVHSDLKLASRYTEPLYRSIAYTFNPALPGLTGDMEASMGFLENIGVSYGVKYPDLSPEERDVLRDELTRINPEIFGEVFTSREFRNIGDLSDIAGVLDACGKNRKYGIGIGLCLGEREGALDVALELQKNYREELVKGLAWIRREGSTTLENLQYIYSEDKAFKGIMGTIASISLSLKILDPDIPLLGLSRMDQHVKVSARTTRPAVERGVNLGVALRDAAASFGGTGGGHDIAAGAMVPYRDMESFLQLVDEILGTQTG KLPDSILKRGAEASKVLEEHLERGNIIRIISHNDADGLSAAGVVARAISSMNGQFHISILSRLKKEFIKKLSGEKYSLFFFCDMGSAYLEEISRLKGDVIVADHHQPSESEAGPHVVHINPHLHGLDGSRDLSASGTAYLATRLLNRKTAPLALVGALGDMQYTDGFTGANRFIMEEAVEEGVLQVHSDLKLASRYTEPLYRSIAYTFNPALPGLTGDMEASMGFLENIGVSYGVKYPDLSPEERDVLRDELTRINPEIFGEVFTSREFRNIGDLSDIAGVLDACGKNRKYGIGIGLCLGEREGALDVALELQKNYREELVKGLAWIRREGSTTLENLQYIYSEDKAFKGIMGTIASISLSLKILDPDIPLLGLSRMDQHVKVSARTTRPAVERGVNLGVALRDAAASFGGTGGGHDIAAGAMVPYRDMESFLQLVDEILGTQT 7bhy-a2-m1-cC_7bhy-a2-m2-cC DNA-binding domain of DeoR in complex with the DNA operator P39140 P39140 2.3 X-RAY DIFFRACTION 43 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 55 55 7bhy-a1-m1-cB_7bhy-a1-m1-cA AASEKQQLSIEAARLYYQSDYSQQQIAEQLNISRPTVSRLLQYAKEKGYVQIRVM AASEKQQLSIEAARLYYQSDYSQQQIAEQLNISRPTVSRLLQYAKEKGYVQIRVM 7bih-a1-m1-cB_7bih-a1-m1-cA Crystal structure of RecJ-Cdc45 from Methanothermobacter Thermoautotrophicus in the closed state. O27473 O27473 3 X-RAY DIFFRACTION 37 1.0 187420 (Methanothermobacter thermautotrophicus str. Delta H) 187420 (Methanothermobacter thermautotrophicus str. Delta H) 443 444 LPDSILKRGAEASKVLEEHLERGNIIRIISHNDADGLSAAGVVARAISSMNGQFHISILSRLKKEFIKKLSGEKYSLFFFCDMGSAYLEEISRLKGDVIVADHHQPSESEAGPHVVHINPHLHGLDGSRDLSASGTAYLATRLLNRKTAPLALVGALGDMQYTDGFTGANRFIMEEAVEEGVLQVHSDLKLASRYTEPLYRSIAYTFNPALPGLTGDMEASMGFLENIGVSYGVKYPDLSPEERDVLRDELTRINPEIFGEVFTSREFRNIGDLSDIAGVLDACGKNRKYGIGIGLCLGEREGALDVALELQKNYREELVKGLAWIRREGSTTLENLQYIYSEDKAFKGIMGTIASISLSLKILDPDIPLLGLSRMDQHVKVSARTTRPAVERGVNLGVALRDAAASFGGTGGGHDIAAGAMVPYRDMESFLQLVDEILGTQT LPDSILKRGAEASKVLEEHLERGNIIRIISHNDADGLSAAGVVARAISSMNGQFHISILSRLKKEFIKKLSGEKYSLFFFCDMGSAYLEEISRLKGDVIVADHHQPSESEAGPHVVHINPHLHGLDGSRDLSASGTAYLATRLLNRKTAPLALVGALGDMQYTDGFTGANRFIMEEAVEEGVLQVHSDLKLASRYTEPLYRSIAYTFNPALPGLTGDMEASMGFLENIGVSYGVKYPDLSPEERDVLRDELTRINPEIFGEVFTSREFRNIGDLSDIAGVLDACGKNRKYGIGIGLCLGEREGALDVALELQKNYREELVKGLAWIRREGSTTLENLQYIYSEDKAFKGIMGTIASISLSLKILDPDIPLLGLSRMDQHVKVSARTTRPAVERGVNLGVALRDAAASFGGTGGGHDIAAGAMVPYRDMESFLQLVDEILGTQTG 7bil-a1-m1-cA_7bil-a1-m1-cB Crystal structure of helicase Pif1 from Thermus oshimai in complex with oligo GGTTTGGTTTGGTT K7RJ88 K7RJ88 2.21 X-RAY DIFFRACTION 45 1.0 751945 (Thermus oshimai JL-2) 751945 (Thermus oshimai JL-2) 436 436 GLSSEQQRAFLAVTQTPHPAHLITGPAGTGKTTLLYALQEFYKGRAVTLAPTGTAALQARGQTVHSFFRFPARLLRYRHPEDIRPPGPHSPLRKAIEQMEVLILDEVGMVRVDLLEAMDWALRKTRKRLEEPFGGVKVLLLGDTRQLEPVVPGGEEALYIARTWGGPFFFQAHVWEEVALRVHRLWESQRQREDPLFAELLKRLRQGDPQALETLNRAAVRPDGGEEPGTLILTPRRKEADALNLKRLEALPGKPLEYQAQVKGEFAETDFPTEAALTLKKGAQVILLRNDPLGEYFNGDLGWVEDLEAEALAVRLKRNGRRVVIRPFVWEKIVYTYDSEREEIKPQVVGTFRQVPVRLAWALTVHKAQGLTLDKVHLELGRGLFAHGQLYVALTRVRRLQDLSLSRPIAPTELLWRPEVEVFETRIQEGIWQKSH GLSSEQQRAFLAVTQTPHPAHLITGPAGTGKTTLLYALQEFYKGRAVTLAPTGTAALQARGQTVHSFFRFPARLLRYRHPEDIRPPGPHSPLRKAIEQMEVLILDEVGMVRVDLLEAMDWALRKTRKRLEEPFGGVKVLLLGDTRQLEPVVPGGEEALYIARTWGGPFFFQAHVWEEVALRVHRLWESQRQREDPLFAELLKRLRQGDPQALETLNRAAVRPDGGEEPGTLILTPRRKEADALNLKRLEALPGKPLEYQAQVKGEFAETDFPTEAALTLKKGAQVILLRNDPLGEYFNGDLGWVEDLEAEALAVRLKRNGRRVVIRPFVWEKIVYTYDSEREEIKPQVVGTFRQVPVRLAWALTVHKAQGLTLDKVHLELGRGLFAHGQLYVALTRVRRLQDLSLSRPIAPTELLWRPEVEVFETRIQEGIWQKSH 7bio-a1-m1-cA_7bio-a1-m1-cB Crystal structure of monooxygenase RslO4 from Streptomyces bottropensis W8QLE0 W8QLE0 1.795 X-RAY DIFFRACTION 132 1.0 42235 (Streptomyces bottropensis) 42235 (Streptomyces bottropensis) 106 111 AVVFVNKLTLIGDAEEFESRYEAVGAFMETQPGLVRYSLVRSTKDDSVYFNIAEWDDEDTFRKALAEPEFRRRLDALTGLIKGEPHLSLPVRQGRAAQVLENLYFQ AVVFVNKLTLIGDAEEFESRYEAVGAFMETQPGLVRYSLVRSTKDDSVYFNIAEWDDEDTFRKALAEPEFRRRLDALTGLIKGEPHLSLPVRQGRAAQVLENLYFQGHHHH 7bip-a1-m1-cA_7bip-a1-m1-cB Crystal structure of monooxygenase RslO1 from Streptomyces bottropensis W8QPS6 W8QPS6 1.6 X-RAY DIFFRACTION 178 1.0 42235 (Streptomyces bottropensis) 42235 (Streptomyces bottropensis) 329 329 MKFGINLFPTVGPAEKSAGQHFEESLRLAELADELGFHHVKTVEHYFHEYGGYSPDPVTFLAAAAARTRRVRLVTGAVLPVFTHPLKLAGKLAMLDNISQGRLDVGFGRAFLPDEFTAFEISMDESRARFDEGVEAVRRLWAEEDVVWEGTFHRFGPVTMLPRTWQRPHPRILVATAKTPASAEAAARAGHGVMLVPSINPREQVQKTLSLYRDAASAAGFKPTEEDIHMSYNCYLAEDGQEARQKGGQASERANRALASAVSGDFDRAVAERKALVGTPDEVRAAIDDIRGWFGDFTISLQVISGAMPFEESARTMRLFAEHLLPHYA MKFGINLFPTVGPAEKSAGQHFEESLRLAELADELGFHHVKTVEHYFHEYGGYSPDPVTFLAAAAARTRRVRLVTGAVLPVFTHPLKLAGKLAMLDNISQGRLDVGFGRAFLPDEFTAFEISMDESRARFDEGVEAVRRLWAEEDVVWEGTFHRFGPVTMLPRTWQRPHPRILVATAKTPASAEAAARAGHGVMLVPSINPREQVQKTLSLYRDAASAAGFKPTEEDIHMSYNCYLAEDGQEARQKGGQASERANRALASAVSGDFDRAVAERKALVGTPDEVRAAIDDIRGWFGDFTISLQVISGAMPFEESARTMRLFAEHLLPHYA 7bis-a1-m1-cA_7bis-a1-m2-cA Crystal structure of 3-hydroxydecanoyl-acyl carrier protein dehydratase (FabA)from Pseudomonas aeruginosa in complex with DDD00082063 O33877 O33877 1.96 X-RAY DIFFRACTION 115 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 163 163 4b0b-a1-m1-cB_4b0b-a1-m1-cA 4b0c-a1-m1-cA_4b0c-a1-m1-cB 4b0c-a2-m1-cC_4b0c-a2-m1-cD 4b0c-a3-m1-cE_4b0c-a3-m2-cE 4b0i-a1-m1-cC_4b0i-a1-m1-cD 4b0i-a2-m1-cA_4b0i-a2-m1-cB 4b0i-a3-m1-cE_4b0i-a3-m2-cE 4b0j-a10-m1-cR_4b0j-a10-m1-cQ 4b0j-a1-m1-cS_4b0j-a1-m1-cT 4b0j-a2-m1-cC_4b0j-a2-m1-cD 4b0j-a3-m1-cA_4b0j-a3-m1-cB 4b0j-a4-m1-cG_4b0j-a4-m1-cH 4b0j-a5-m1-cE_4b0j-a5-m1-cF 4b0j-a6-m1-cM_4b0j-a6-m1-cN 4b0j-a7-m1-cO_4b0j-a7-m1-cP 4b0j-a8-m1-cK_4b0j-a8-m1-cL 4b0j-a9-m1-cJ_4b0j-a9-m1-cI 4b8u-a1-m1-cB_4b8u-a1-m1-cA 4b8u-a2-m1-cC_4b8u-a2-m1-cD 4b8u-a3-m1-cE_4b8u-a3-m2-cE 4cl6-a1-m1-cA_4cl6-a1-m1-cB 4cl6-a2-m1-cE_4cl6-a2-m2-cE 4cl6-a3-m1-cD_4cl6-a3-m1-cC 4fq9-a1-m1-cA_4fq9-a1-m1-cB 4fq9-a2-m1-cC_4fq9-a2-m1-cD 4fq9-a3-m1-cE_4fq9-a3-m1-cF 4fq9-a4-m1-cG_4fq9-a4-m1-cH 4fq9-a5-m1-cJ_4fq9-a5-m1-cI 7bhj-a1-m1-cA_7bhj-a1-m2-cA 7bhj-a2-m1-cB_7bhj-a2-m1-cC 7bhj-a3-m1-cD_7bhj-a3-m1-cE 7bis-a2-m1-cB_7bis-a2-m1-cC 7bis-a3-m1-cE_7bis-a3-m1-cD 7bk9-a1-m1-cA_7bk9-a1-m2-cA 7bk9-a2-m1-cC_7bk9-a2-m1-cB 7bk9-a3-m1-cD_7bk9-a3-m1-cE 7bka-a1-m1-cA_7bka-a1-m2-cA 7bka-a2-m1-cC_7bka-a2-m1-cB 7bka-a3-m1-cD_7bka-a3-m1-cE 8b72-a1-m1-cA_8b72-a1-m1-cB 8b72-a2-m1-cD_8b72-a2-m1-cC 8b72-a3-m1-cE_8b72-a3-m2-cE TKQHAFTREDLLRCSRGELFGPGNAQLPAPNMLMIDRIVHISDVGGKYGKGELVAELDINPDLWFFACHFEGDPVMPGCLGLDAMWQLVGFYLGWQGNPGRGRALGSGEVKFFGQVLPTAKKVTYNIHIKRTINLVLAIADGTVSVDGREIYSAEGLRVGLFT TKQHAFTREDLLRCSRGELFGPGNAQLPAPNMLMIDRIVHISDVGGKYGKGELVAELDINPDLWFFACHFEGDPVMPGCLGLDAMWQLVGFYLGWQGNPGRGRALGSGEVKFFGQVLPTAKKVTYNIHIKRTINLVLAIADGTVSVDGREIYSAEGLRVGLFT 7bjg-a1-m1-cA_7bjg-a1-m2-cA Crystal structure of atypical Tm1 (Tm1-I/C), residues 262-363 Q8IGY1 Q8IGY1 2.45 X-RAY DIFFRACTION 86 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 98 98 SMKFNIIRNELHNIMNTQLKRAESEVAALNRRIQLLEEDLERSEERLGSATAKLSEASQAADESERARKILENRALADEERMDALENQLKEARFLAEE SMKFNIIRNELHNIMNTQLKRAESEVAALNRRIQLLEEDLERSEERLGSATAKLSEASQAADESERARKILENRALADEERMDALENQLKEARFLAEE 7bji-a2-m1-cD_7bji-a2-m1-cB Crystal structure of the Danio rerio centrosomal protein Cep135 coiled-coil fragment 64-190 Q5RG45 Q5RG45 2.58 X-RAY DIFFRACTION 126 1.0 7955 (Danio rerio) 7955 (Danio rerio) 90 92 7bji-a1-m1-cC_7bji-a1-m1-cA PRNVDAILEPYKTENARLVKENNEMHLGLLKLREEKDRISRELKAYIRKLDHETSDLKFLNNQYVQKVRSLEKDSNGKTERILQLQEKNM PRNVDAILEPYKTENARLVKENNEMHLGLLKLREEKDRISRELKAYIRKLDHETSDLKFLNNQYVQKVRSLEKDSNGKTERILQLQEKNMQA 7bjk-a3-m1-cE_7bjk-a3-m2-cE Crystal structure of the chloroplastic Fe superoxide dismutase PAP9 from Arabidopsis thaliana. Q9LU64 Q9LU64 2.25 X-RAY DIFFRACTION 43 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 213 213 7bjk-a1-m1-cA_7bjk-a1-m1-cB 7bjk-a2-m1-cD_7bjk-a2-m1-cC GVITAGFELKPPPYPLDALEPHMSRETLDYHWGKHHKTYVENLNKQILGTDLDALSLEEVVLLSYNKGNMLPAFNNAAQAWNHEFFWESIQPGGGGKPTGELLRLIERDFGSFEEFLERFKSAAASNFGSGWTWLAYKANKKLVIVKTPNAVNPLVWDYSPLLTIDTWEHAYYLDFENRRAEYINTFMEKLVSWETVSTRLESAIARAVQREQ GVITAGFELKPPPYPLDALEPHMSRETLDYHWGKHHKTYVENLNKQILGTDLDALSLEEVVLLSYNKGNMLPAFNNAAQAWNHEFFWESIQPGGGGKPTGELLRLIERDFGSFEEFLERFKSAAASNFGSGWTWLAYKANKKLVIVKTPNAVNPLVWDYSPLLTIDTWEHAYYLDFENRRAEYINTFMEKLVSWETVSTRLESAIARAVQREQ 7bjn-a1-m1-cB_7bjn-a1-m1-cA Crystal structure of atypical Tm1 (Tm1-I/C), residues 270-334 Q8IGY1 Q8IGY1 2.3 X-RAY DIFFRACTION 62 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 43 59 TQLKRAESEVAALNRRIQLLEEDLERSEERLGSATAKLSEASQ HNIMNTQLKRAESEVAALNRRIQLLEEDLERSEERLGSATAKLSEASQAADESERARKI 7bjs-a1-m1-cB_7bjs-a1-m1-cA Crystal structure of Khc/atypical Tm1 complex P17210 P17210 2.28 X-RAY DIFFRACTION 67 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 62 69 SFLENNLDQLTKVHKQLVRDNADLRCELPKLEKRLRCTMERVKALETALKEAKEGAMRDRKR SFLENNLDQLTKVHKQLVRDNADLRCELPKLEKRLRCTMERVKALETALKEAKEGAMRDRKRYQYEVDR 7bjt-a1-m1-cA_7bjt-a1-m1-cB Structure-function analysis of a new PL17 oligoalginate lyase from the marine bacterium Zobellia galactanivorans DsijT G0LCA3 G0LCA3 1.42 X-RAY DIFFRACTION 111 1.0 63186 (Zobellia galactanivorans) 63186 (Zobellia galactanivorans) 727 727 7bm6-a1-m1-cA_7bm6-a1-m1-cB AQEHPSLILTKAGVEKIRAELGNIPIFDATLEKVKAEVDAEIALGIDTPLPKDYSGGYTHERHKRNFFILQKAGVLYQILNDEKYALYIKDMLFQYEGMYKDLPVHPQTRSYARGKLFWQCLNDSNWLVYVSQAYDCVYDYLSKKERKQLEKNLFRPFADYISIENPQFYNRVHNHSTWGNAAVGMIGLVMGDEELIQRALYGIEDDGLPIGAKDNDGGFIKVEGQKAGFLANIDEPFSPDGYYTEGPYYQRYAMYPFLIFAEALHNVRPQQKIFEHKDGVLLKSVNTLLSLSDADGEFFPLNDAQKGMSYHSRELVTAVDIAYHYGNHNPQLLSIAEEQGQVLLDDSGLAVALGIREGKSEDFQKKSIKLSDGANGDQGGVAILRYGNEAMTLVYKYAAQGLSHGHYDKLSFSLYEKGTEILQDYGLARFVNIEQKGGGNYLKENTTWAKQTIAHNTLVQNETSHFEGKYEVGSQHHSELYFFDASNPEVQVVSAKEQNAYPGTEMHRTMALIKTDGFEKPFVLDILRVGSNAANQYDLPFYFKGQVMQTNFDFTTPKSLEPLGSDNGYQHLWSEGLGQPKGDNSQLSWLENGRFYTLTTATNNDDELHFVRIGANDPEFNLRRDAGLIIRRKNTKNTTFVSILESHGHYSPVSEFSVNANSSISKIELMLDTKEYTAVLIDAKSNTEQTLLILANENKNVNKEHIIEIKGKEYRWTGPYQFIKIN AQEHPSLILTKAGVEKIRAELGNIPIFDATLEKVKAEVDAEIALGIDTPLPKDYSGGYTHERHKRNFFILQKAGVLYQILNDEKYALYIKDMLFQYEGMYKDLPVHPQTRSYARGKLFWQCLNDSNWLVYVSQAYDCVYDYLSKKERKQLEKNLFRPFADYISIENPQFYNRVHNHSTWGNAAVGMIGLVMGDEELIQRALYGIEDDGLPIGAKDNDGGFIKVEGQKAGFLANIDEPFSPDGYYTEGPYYQRYAMYPFLIFAEALHNVRPQQKIFEHKDGVLLKSVNTLLSLSDADGEFFPLNDAQKGMSYHSRELVTAVDIAYHYGNHNPQLLSIAEEQGQVLLDDSGLAVALGIREGKSEDFQKKSIKLSDGANGDQGGVAILRYGNEAMTLVYKYAAQGLSHGHYDKLSFSLYEKGTEILQDYGLARFVNIEQKGGGNYLKENTTWAKQTIAHNTLVQNETSHFEGKYEVGSQHHSELYFFDASNPEVQVVSAKEQNAYPGTEMHRTMALIKTDGFEKPFVLDILRVGSNAANQYDLPFYFKGQVMQTNFDFTTPKSLEPLGSDNGYQHLWSEGLGQPKGDNSQLSWLENGRFYTLTTATNNDDELHFVRIGANDPEFNLRRDAGLIIRRKNTKNTTFVSILESHGHYSPVSEFSVNANSSISKIELMLDTKEYTAVLIDAKSNTEQTLLILANENKNVNKEHIIEIKGKEYRWTGPYQFIKIN 7bkc-a1-m1-cA_7bkc-a1-m1-ca Formate dehydrogenase - heterodisulfide reductase - formylmethanofuran dehydrogenase complex from Methanospirillum hungatei (dimeric, composite structure) Q2FKZ1 Q2FKZ1 3.0 ELECTRON MICROSCOPY 220 1.0 323259 (Methanospirillum hungatei JF-1) 323259 (Methanospirillum hungatei JF-1) 662 662 7bkb-a1-m1-cA_7bkb-a1-m1-ca 7bkd-a1-m1-ca_7bkd-a1-m1-cA 7bke-a1-m1-cA_7bke-a1-m1-ca PRIGVFVCHCGTNIAGSMSIDDVVNYAKTLPYVAVADQYQYMCSTPGQKKIDDAIKEYNLTGVVVAACSPRLHEPTFRTATKEGGLNPFRFEMANIREQNSWVHMHGMWDEATQKAKDQVRMAVAKAAKLEDLVPKSVPVEKTAMVVGGGVAGMQAALDLASAGIKTYLIERTPTIGGRMSQLDKTFPTLDCSQCILTPKMVDVGRHPNIEMMTYTEVEKVEGYIGNFDVTLRKKARGVLTPTEATAKGIVGGGCNGCGDCSAVCPVIKPNPFEMGMAPRKAIYIYHAQVMPLIYTVDFDSCVKCGLCVEACGDKKAIDLEMQDEFITVKVGTAVLATGYELFPIENKREWGYKQFDNVINALEFERLICASGPTGGHLVRPSDGKTPMKVGFVLCAGSRDNTGIGKPYCSRFCCMYSLKHAHQIMEKIPGAVAYLFYMDIRSFGKMYEEFYYRIQHEGAKFIRGRVANVLEDKETKNLHVFTEDTLLGRPVDVEVDLLVLAAAVQPNEGANELRKKFGVSASQDGWMLEAHPKLNPCGTTTAGVFLAGVCQGPKDIPDTVAQAEGAASAASIPIHMGEVELEPYFAMCIDELCAGCGMCVNLCPYSALSLGEKNGRTVMVVTEAKCKGCGTCGGFCPGGAIKMQHFTTPQIVAQIDAFFAG PRIGVFVCHCGTNIAGSMSIDDVVNYAKTLPYVAVADQYQYMCSTPGQKKIDDAIKEYNLTGVVVAACSPRLHEPTFRTATKEGGLNPFRFEMANIREQNSWVHMHGMWDEATQKAKDQVRMAVAKAAKLEDLVPKSVPVEKTAMVVGGGVAGMQAALDLASAGIKTYLIERTPTIGGRMSQLDKTFPTLDCSQCILTPKMVDVGRHPNIEMMTYTEVEKVEGYIGNFDVTLRKKARGVLTPTEATAKGIVGGGCNGCGDCSAVCPVIKPNPFEMGMAPRKAIYIYHAQVMPLIYTVDFDSCVKCGLCVEACGDKKAIDLEMQDEFITVKVGTAVLATGYELFPIENKREWGYKQFDNVINALEFERLICASGPTGGHLVRPSDGKTPMKVGFVLCAGSRDNTGIGKPYCSRFCCMYSLKHAHQIMEKIPGAVAYLFYMDIRSFGKMYEEFYYRIQHEGAKFIRGRVANVLEDKETKNLHVFTEDTLLGRPVDVEVDLLVLAAAVQPNEGANELRKKFGVSASQDGWMLEAHPKLNPCGTTTAGVFLAGVCQGPKDIPDTVAQAEGAASAASIPIHMGEVELEPYFAMCIDELCAGCGMCVNLCPYSALSLGEKNGRTVMVVTEAKCKGCGTCGGFCPGGAIKMQHFTTPQIVAQIDAFFAG 7bke-a1-m1-cC_7bke-a1-m1-cc Formate dehydrogenase - heterodisulfide reductase - formylmethanofuran dehydrogenase complex from Methanospirillum hungatei (heterodisulfide reductase core and mobile arm in conformational state 2, composite structure) Q2FKZ3 Q2FKZ3 2.8 ELECTRON MICROSCOPY 30 1.0 323259 (Methanospirillum hungatei JF-1) 323259 (Methanospirillum hungatei JF-1) 189 189 7bkb-a1-m1-cC_7bkb-a1-m1-cc 7bkc-a1-m1-cC_7bkc-a1-m1-cc 7bkd-a1-m1-cC_7bkd-a1-m1-cc AAKSYNIPELDKKLADRRYHLSDTNPEFTQKILKTSRTIANMCYQCGTCTGSCPSAPRSSYRIRLFMRRCVLGLENEALTDPDLWLCTTCYSCTDRCPRDIAPTDVIMAMRNLAFKRDIVPKNFLQTVQLIYNSGHGVPNNDVNRAARTKLGLPADPPTTHSYPEFVKGIQKIIDHYELKENADRILKG AAKSYNIPELDKKLADRRYHLSDTNPEFTQKILKTSRTIANMCYQCGTCTGSCPSAPRSSYRIRLFMRRCVLGLENEALTDPDLWLCTTCYSCTDRCPRDIAPTDVIMAMRNLAFKRDIVPKNFLQTVQLIYNSGHGVPNNDVNRAARTKLGLPADPPTTHSYPEFVKGIQKIIDHYELKENADRILKG 7bkq-a1-m1-cA_7bkq-a1-m2-cA CryoEM structure of MDA5-dsRNA filament in complex with ADP with 92-degree helical twist Q8R5F7 Q8R5F7 3.4 ELECTRON MICROSCOPY 43 1.0 10090 (Mus musculus) 10090 (Mus musculus) 640 640 LQLRPYQMEVAQPALDGKNIIICLPTGSGKTRVAVYITKDHLDKKKQASESGKVIVLVNKVMLAEQLFRKEFNPYLKKWYRIIGLSGDTQLKISFPEVVKSYDVIISTAQILENSLLNLESGDDDGVQLSDFSLIIIDECHHTNKEAVYNNIMRRYLKQKLRNNDLKKQNKPAIPLPQILGLTASPGVGAAKKQSEAEKHILNICANLDAFTIKTVKENLGQLKHQIKKFVIANPFKEKLLEIMASIQTYCQKSPMSDFGTQHYEQWAIQMEKKAAKDGNRKDRVCAEHLRKYNEALQINDTIRMIDAYSHLETFYTDEKEKKFAVLNDKLDETDEFLMNLFFDNKKMLKKLAENPEKLIKLRNTILEQFTRSSSRGIIFTKTRQSTYALSQWIMENAKFAEVGVKAHHLIGAGHSSEVKPMTQTEQKEVISKFRTGEINLLIATTVAEEGLDIKECNIVIRYGLSTYVLVTEREIVNDFREKMMYKAINRVQNMKPEEYAHKILELQVQSILEKKMKVKRSIAKQYNDNPSLITLLCKNCSMLVCSGENIHVIEKMHHVNMTPEFKGLYIVRENKNGEIICKCGQAWGTMMVHKGLDLPCLKIRNFVVNFKNNSPKKQYKKWVELPIRFPDLDYSEYCL LQLRPYQMEVAQPALDGKNIIICLPTGSGKTRVAVYITKDHLDKKKQASESGKVIVLVNKVMLAEQLFRKEFNPYLKKWYRIIGLSGDTQLKISFPEVVKSYDVIISTAQILENSLLNLESGDDDGVQLSDFSLIIIDECHHTNKEAVYNNIMRRYLKQKLRNNDLKKQNKPAIPLPQILGLTASPGVGAAKKQSEAEKHILNICANLDAFTIKTVKENLGQLKHQIKKFVIANPFKEKLLEIMASIQTYCQKSPMSDFGTQHYEQWAIQMEKKAAKDGNRKDRVCAEHLRKYNEALQINDTIRMIDAYSHLETFYTDEKEKKFAVLNDKLDETDEFLMNLFFDNKKMLKKLAENPEKLIKLRNTILEQFTRSSSRGIIFTKTRQSTYALSQWIMENAKFAEVGVKAHHLIGAGHSSEVKPMTQTEQKEVISKFRTGEINLLIATTVAEEGLDIKECNIVIRYGLSTYVLVTEREIVNDFREKMMYKAINRVQNMKPEEYAHKILELQVQSILEKKMKVKRSIAKQYNDNPSLITLLCKNCSMLVCSGENIHVIEKMHHVNMTPEFKGLYIVRENKNGEIICKCGQAWGTMMVHKGLDLPCLKIRNFVVNFKNNSPKKQYKKWVELPIRFPDLDYSEYCL 7bl7-a1-m1-cD_7bl7-a1-m1-cC Crystal structure of UMPK from M. tuberculosis in complex with UDP and UTP (P21212 form) P9WHK5 P9WHK5 3.33 X-RAY DIFFRACTION 78 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 228 230 3nwy-a1-m1-cC_3nwy-a1-m1-cD 3nwy-a1-m1-cE_3nwy-a1-m1-cA 3nwy-a1-m1-cF_3nwy-a1-m1-cB 7bes-a1-m1-cA_7bes-a1-m2-cA 7bes-a1-m1-cC_7bes-a1-m1-cB 7bes-a1-m2-cC_7bes-a1-m2-cB 7bix-a1-m1-cA_7bix-a1-m1-cB 7bix-a1-m1-cD_7bix-a1-m1-cC 7bix-a2-m1-cG_7bix-a2-m1-cH 7bix-a2-m1-cI_7bix-a2-m1-cJ 7bl7-a1-m1-cA_7bl7-a1-m1-cB 7bl7-a1-m1-cF_7bl7-a1-m1-cE 7bl7-a2-m1-cI_7bl7-a2-m1-cJ SGYSRVLLKLGGEMFGGGQVGLDPDVVAQVARQIADVVRGGVQIAVVIGGGNFFRGAQLQQLGMERTRSDYMGMLGTVMNSLALQDFLEKEGIVTRVQTAITMGQVAEPYLPLRAVRHLEKGRVVIFGAGMGLPYFSTDTTAAQRALEIGADVVLMAKAVDGVFAEDAELLTAVSHREVLDRGLRVADATAFSLCMDNGMPILVFNLLTDGNIARAVRGEKIGTLVTT SGYSRVLLKLGGEMFGGGQVGLDPDVVAQVARQIADVVRGGVQIAVVIGGGNFFRGAQLQQLGMERTRSDYMGMLGTVMNSLALQDFLEKEGIVTRVQTAITMGQVAEPYLPLRAVRHLEKGRVVIFGAGMGLPYFSTDTTAAQRALEIGADVVLMAKAVDGVFAEDPRAELLTAVSHREVLDRGLRVADATAFSLCMDNGMPILVFNLLTDGNIARAVRGEKIGTLVTT 7bl7-a2-m1-cH_7bl7-a2-m1-cI Crystal structure of UMPK from M. tuberculosis in complex with UDP and UTP (P21212 form) P9WHK5 P9WHK5 3.33 X-RAY DIFFRACTION 40 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 222 225 3nwy-a1-m1-cA_3nwy-a1-m1-cB 3nwy-a1-m1-cE_3nwy-a1-m1-cD 3nwy-a1-m1-cF_3nwy-a1-m1-cC 7bes-a1-m1-cA_7bes-a1-m1-cB 7bes-a1-m2-cA_7bes-a1-m2-cB 7bix-a1-m1-cB_7bix-a1-m1-cC 7bix-a1-m1-cE_7bix-a1-m1-cD 7bix-a2-m1-cH_7bix-a2-m1-cI 7bix-a2-m1-cJ_7bix-a2-m1-cK 7bl7-a1-m1-cB_7bl7-a1-m1-cC 7bl7-a1-m1-cE_7bl7-a1-m1-cD 7bl7-a2-m1-cK_7bl7-a2-m1-cJ GYSRVLLKLGGEMFGGGQVGLDPDVVAQVARQIADVVRGGVQIAVVIGGGNFFRGAQLQQLGMERTRSDYMGMLGTVMNSLALQDFLEKEGIVTRVQTAITMGQVAEPYLPLRAVRHLEKGRVVIFGAGMGLPYFSTDTTAAQRALEIGADVVLMAKAVDGVFLLTAVSHREVLDRGLRVADATAFSLCMDNGMPILVFNLLTDGNIARAVRGEKIGTLVTT SGYSRVLLKLGGEMFGGGQVGLDPDVVAQVARQIADVVRGGVQIAVVIGGGNFFRGAQLQQLGMERTRSDYMGMLGTVMNSLALQDFLEKEGIVTRVQTAITMGQVAEPYLPLRAVRHLEKGRVVIFGAGMGLPYFSTDTTAAQRALEIGADVVLMAKAVDGVFAELLTAVSHREVLDRGLRVADATAFSLCMDNGMPILVFNLLTDGNIARAVRGEKIGTLVTT 7blf-a2-m1-cB_7blf-a2-m2-cB Crystal structure of ene-reductase OYE4 from Botryotinia fuckeliana (BfOYE4) A0A384K246 A0A384K246 2.15 X-RAY DIFFRACTION 155 1.0 332648 (Botrytis cinerea B05.10) 332648 (Botrytis cinerea B05.10) 404 404 7blf-a1-m1-cA_7blf-a1-m2-cA LLNTPAPGVPFYTPLQSPPSGTALHLSPSTPKLFTPLKIRSLTLQNRIMLSPMCQYSASNGHFTPWHMAHLGGIISRGPGLSMVEATSVLPEGRITPEDSGLWLDSQGDKLKEVVQFAHSQGQLIGIQLSHAGRKASMVAPWLDRSAVATEEAGGWPTKVKGPSAIPYDEHHYKPSAMTLEDIQEFKDAWAASLKRALKAGFDVIEIHNAHGYLLHEFVSPVSNKRTDQYGGSFENRIRLTLEIVEITRKIIPESMPLFLRISATDWLDYEGFGEESWTVADSARLAGILADRGVDLMDVSSGANHPRQKITAGLGYQAPFAKEIKRVVGERMLVGTVGMIGSGRQAEGLLSGMGGERGVDEGKGTELDLVIVARGFQKNPGLVWEWAEELGVRIMVAHQMRWG LLNTPAPGVPFYTPLQSPPSGTALHLSPSTPKLFTPLKIRSLTLQNRIMLSPMCQYSASNGHFTPWHMAHLGGIISRGPGLSMVEATSVLPEGRITPEDSGLWLDSQGDKLKEVVQFAHSQGQLIGIQLSHAGRKASMVAPWLDRSAVATEEAGGWPTKVKGPSAIPYDEHHYKPSAMTLEDIQEFKDAWAASLKRALKAGFDVIEIHNAHGYLLHEFVSPVSNKRTDQYGGSFENRIRLTLEIVEITRKIIPESMPLFLRISATDWLDYEGFGEESWTVADSARLAGILADRGVDLMDVSSGANHPRQKITAGLGYQAPFAKEIKRVVGERMLVGTVGMIGSGRQAEGLLSGMGGERGVDEGKGTELDLVIVARGFQKNPGLVWEWAEELGVRIMVAHQMRWG 7bln-a1-m1-cA_7bln-a1-m1-cC VPS35/VPS29 arch of metazoan membrane-assembled retromer:SNX3 complex modelled with human proteins Q96QK1 Q96QK1 8.9 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 769 769 QEKLLDEAIQAVKVQSFQMKRCLDKNKLMDALKHASNMLGELRTSMLSPKSYYELYMAISDELHYLEVYLTDEFAKGRKVADLYELVQYAGNIIPRLYLLITVGVVYVKSFPQSRKDILKDLVEMCRGVQHPLRGLFLRNYLLQCTRNILPDEGEPTDEETTGDISDSMDFVLLNFAEMNKLWVRMQHQGHSRDREKRERERQELRILVGTNLVRLSQLEGVNVERYKQIVLTGILEQVVNCRDALAQEYLMECIIQVFPDEFHLQTLNPFLRACAELHQNVNVKNIIIALIDRLALFAHREDGPGIPADIKLFDIFSQQVATVIQSRQDMPSEDVVSLQVSLINLAMKCYPDRVDYVDKVLETTVEIFNKLNLEHIATSSAVSKELTRLLKIPVDTYNNILTVLKLKHFHPLFEYFDYESRKSMSCYVLSNVLDYNTEIVSQDQVDSIMNLVSTLIQDQPDQPVEDPDPEDFADEQSLVGRFIHLLRSEDPDQQYLILNTARKHFGAGGNQRIRFTLPPLVFAAYQLAFRYKENSKVDDKWEKKCQKIFSFAHQTISALIKAELAELPLRLFLQGALAAGEIGFENHETVAYEFMSQAFSLYEDEISDSKAQLAAITLIIGTFERMKCFSEENHEPLRTQCALAASKLLKKPDQGRAVSTCAHLFWSGRNTDKNGEELHGGKRVMECLKKALKIANQCMDPSLQVQLFIEILNRYIYFYEKENDAVTIQVLNQLIQKIREDLPNLESSEETEQINKHFHNTLEHLRLR QEKLLDEAIQAVKVQSFQMKRCLDKNKLMDALKHASNMLGELRTSMLSPKSYYELYMAISDELHYLEVYLTDEFAKGRKVADLYELVQYAGNIIPRLYLLITVGVVYVKSFPQSRKDILKDLVEMCRGVQHPLRGLFLRNYLLQCTRNILPDEGEPTDEETTGDISDSMDFVLLNFAEMNKLWVRMQHQGHSRDREKRERERQELRILVGTNLVRLSQLEGVNVERYKQIVLTGILEQVVNCRDALAQEYLMECIIQVFPDEFHLQTLNPFLRACAELHQNVNVKNIIIALIDRLALFAHREDGPGIPADIKLFDIFSQQVATVIQSRQDMPSEDVVSLQVSLINLAMKCYPDRVDYVDKVLETTVEIFNKLNLEHIATSSAVSKELTRLLKIPVDTYNNILTVLKLKHFHPLFEYFDYESRKSMSCYVLSNVLDYNTEIVSQDQVDSIMNLVSTLIQDQPDQPVEDPDPEDFADEQSLVGRFIHLLRSEDPDQQYLILNTARKHFGAGGNQRIRFTLPPLVFAAYQLAFRYKENSKVDDKWEKKCQKIFSFAHQTISALIKAELAELPLRLFLQGALAAGEIGFENHETVAYEFMSQAFSLYEDEISDSKAQLAAITLIIGTFERMKCFSEENHEPLRTQCALAASKLLKKPDQGRAVSTCAHLFWSGRNTDKNGEELHGGKRVMECLKKALKIANQCMDPSLQVQLFIEILNRYIYFYEKENDAVTIQVLNQLIQKIREDLPNLESSEETEQINKHFHNTLEHLRLR 7blo-a1-m1-cF_7blo-a1-m1-cJ VPS26 dimer region of metazoan membrane-assembled retromer:SNX3 complex modelled with human proteins O75436 O75436 9.5 ELECTRON MICROSCOPY 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 294 294 FGPICEIDIVLNDGETRKMAEMKTEDGKVEKHYLFYDGESVSGKVNLAFKQPGKRLEHQGIRIEFVGQIELFNDKSNTHEFVNLVKELALPGELTQSRSYDFEFMQVEKPYESYIGANVRLRYFLKVTIVRRLTDLVKEYDLIVHQLATYPDVNNSIKMEVGIEDCLHIEFEYNKSKYHLKDVIVGKIYFLLVRIKIQHMELQLIKKEITGIGPSTTTETETIAKYEIMDGAPVKGESIPIRLFLAGYDPTPTMRDVNKKFSVRYFLNLVLVDEEDRRYFKQQEIILWRKAPEK FGPICEIDIVLNDGETRKMAEMKTEDGKVEKHYLFYDGESVSGKVNLAFKQPGKRLEHQGIRIEFVGQIELFNDKSNTHEFVNLVKELALPGELTQSRSYDFEFMQVEKPYESYIGANVRLRYFLKVTIVRRLTDLVKEYDLIVHQLATYPDVNNSIKMEVGIEDCLHIEFEYNKSKYHLKDVIVGKIYFLLVRIKIQHMELQLIKKEITGIGPSTTTETETIAKYEIMDGAPVKGESIPIRLFLAGYDPTPTMRDVNKKFSVRYFLNLVLVDEEDRRYFKQQEIILWRKAPEK 7blq-a1-m1-cF_7blq-a1-m1-cJ Vps26 dimer region of the fungal membrane-assembled retromer:Grd19 complex. G0S0E6 G0S0E6 9.2 ELECTRON MICROSCOPY 22 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 292 292 6h7w-a1-m1-cC_6h7w-a1-m1-cJ FSTPVDIDIVLADADKRAMVDVKLDKNRREKVPLYMDGESVKGCVTVRPKDGKRLEHTGIKVQFIGTIEMFFDRGNHYEFLSLVQELAAPGELQHPQTFDFNFKNVEKQYESYNGINVKLRYFVRVTVSRRMADVIREKDIWVYSYRIPPELNSSIKMDVGIEDCLHIEFEYSKSKYHLKDVIVGRIYFLLVRLKIKHMELSIIRRETTGVAPNQYNESETLVRFEIMDGSPSRGETIPIRLFLGGFDLTPTFRDVNKKFSTRYYLSLVLIDEDARRYFKQSEIILYRQPPE FSTPVDIDIVLADADKRAMVDVKLDKNRREKVPLYMDGESVKGCVTVRPKDGKRLEHTGIKVQFIGTIEMFFDRGNHYEFLSLVQELAAPGELQHPQTFDFNFKNVEKQYESYNGINVKLRYFVRVTVSRRMADVIREKDIWVYSYRIPPELNSSIKMDVGIEDCLHIEFEYSKSKYHLKDVIVGRIYFLLVRLKIKHMELSIIRRETTGVAPNQYNESETLVRFEIMDGSPSRGETIPIRLFLGGFDLTPTFRDVNKKFSTRYYLSLVLIDEDARRYFKQSEIILYRQPPE 7blr-a1-m1-cA_7blr-a1-m1-cC Vps35/Vps29 arch of fungal membrane-assembled retromer:Vps5 (SNX-BAR) complex. G0S709 G0S709 9.3 ELECTRON MICROSCOPY 19 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 748 748 6h7w-a1-m1-cQ_6h7w-a1-m1-cR 7blp-a1-m1-cA_7blp-a1-m1-cC RLLEDALIAVRQQTAMMRKFLDTPGKLMDALKCCSTLVSELRTSSLSPKQYYELYMAVFDALRYLSAHLRENHPVNHLADLYELVQYAGNIIPRLYLMITVGTAYMSIDGAPVKELMKDMMDMSRGVQHPVRGLFLRYYLSGQARDYLPTGDSDGPEGNLQDSINFILTNFVEMNKLWVRLQHQGHSRERDLRTQERRELQLLVGSNIVRLSQLVDLPTYRDSILGPLLEQIVQCRDILAQEYLLEVITQVFPDEYHLHTLDQFLGAVSRLNPHVNVKAIVIGMMNRLSDYAEREVPLYDIFFDQVQHLVQAQHLPIQDTIALCCSLANLSLNIYPERLDYVDGILAYALAKVKEHANSADLHSQPAQQSLLSLLQSPLRRYVSIFTALSLPTYVSLFQAQTYPTRRAIAGEIVRTLLKNQTLISTPAHLENVLEILKVLIKEGETDETMEEQGWLARLVHLIHSDDNDTQFRLLQMTRKAYAEGNERIRTTTPPLITAGLKLARRFKAREHYDDNWSSQSSSLFKFLHSAISTLYTRVNGPGVADLCLRLFCSCGQVADMTEFEEVAYEFFAQAFTVYEESISDSKAQFQAVCVIASALHRTRNFGRENYDTLITKCAQHASKLLRKPDQCRAVYLASHLWWATPIAARGETEDTELYRDGKRVLECLQRALRVADSCMETATSIELFVEILDRYVYYFDQRNESVTTKYLNGLIELIHSNLAGNQQDSASVEASRKHFIQTLEMIQ RLLEDALIAVRQQTAMMRKFLDTPGKLMDALKCCSTLVSELRTSSLSPKQYYELYMAVFDALRYLSAHLRENHPVNHLADLYELVQYAGNIIPRLYLMITVGTAYMSIDGAPVKELMKDMMDMSRGVQHPVRGLFLRYYLSGQARDYLPTGDSDGPEGNLQDSINFILTNFVEMNKLWVRLQHQGHSRERDLRTQERRELQLLVGSNIVRLSQLVDLPTYRDSILGPLLEQIVQCRDILAQEYLLEVITQVFPDEYHLHTLDQFLGAVSRLNPHVNVKAIVIGMMNRLSDYAEREVPLYDIFFDQVQHLVQAQHLPIQDTIALCCSLANLSLNIYPERLDYVDGILAYALAKVKEHANSADLHSQPAQQSLLSLLQSPLRRYVSIFTALSLPTYVSLFQAQTYPTRRAIAGEIVRTLLKNQTLISTPAHLENVLEILKVLIKEGETDETMEEQGWLARLVHLIHSDDNDTQFRLLQMTRKAYAEGNERIRTTTPPLITAGLKLARRFKAREHYDDNWSSQSSSLFKFLHSAISTLYTRVNGPGVADLCLRLFCSCGQVADMTEFEEVAYEFFAQAFTVYEESISDSKAQFQAVCVIASALHRTRNFGRENYDTLITKCAQHASKLLRKPDQCRAVYLASHLWWATPIAARGETEDTELYRDGKRVLECLQRALRVADSCMETATSIELFVEILDRYVYYFDQRNESVTTKYLNGLIELIHSNLAGNQQDSASVEASRKHFIQTLEMIQ 7bm8-a1-m1-cA_7bm8-a1-m1-cB Crystal structure of the C-terminally truncated chromosome-partitioning protein ParB from Caulobacter crescentus complexed with CTP-gamma-S B8GW30 B8GW30 2.73 X-RAY DIFFRACTION 136 1.0 565050 (Caulobacter vibrioides NA1000) 565050 (Caulobacter vibrioides NA1000) 180 180 GGSREAPIEILQRNPDQPRRTFREEDLEDLSNSIREKGVLQPILVRPSPDTAGEYQIVAGERRWRAAQRAGLKTVPIMVRELDDLAVLEIGIIENVQRADLNVLEEALSYKVLMEKFERTQENIAQTIGKSRSHVANTMRLLALPDEVQSYLVSGELTAGHARAIAAAADPVALAKQIIE GGSREAPIEILQRNPDQPRRTFREEDLEDLSNSIREKGVLQPILVRPSPDTAGEYQIVAGERRWRAAQRAGLKTVPIMVRELDDLAVLEIGIIENVQRADLNVLEEALSYKVLMEKFERTQENIAQTIGKSRSHVANTMRLLALPDEVQSYLVSGELTAGHARAIAAAADPVALAKQIIE 7bml-a2-m1-cC_7bml-a2-m1-cD Crystal structure of outer surface protein C (OspC) from Borrelia burgdorferi Q44977 Q44977 1.85 X-RAY DIFFRACTION 183 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 159 164 7bml-a1-m1-cB_7bml-a1-m1-cA 7uj2-a1-m1-cB_7uj2-a1-m1-cA LTEISKKITDSNAVLLAVKEVEALLSSIDELAKAIGKKIKNDGSLGDEANHNESLLAGAYTISTLITQKLSKLNGSEGLKEKIAAAKKCSEEFSTKLKDNHAQLGIQGVTDENAKKAILKANAAGKDKGVEELEKLSGSLESLSKAAKEMLANSVKELT LTEISKKITDSNAVLLAVKEVEALLSSIDELAKAIGKKIKNDGSLGDEANHNESLLAGAYTISTLITQKLSKLNGSEGLKEKIAAAKKCSEEFSTKLKDNHAQLGIQGVTDENAKKAILKANAAGKDKGVEELEKLSGSLESLSKAAKEMLANSVKELTSPVVA 7bmm-a2-m1-cB_7bmm-a2-m1-cC Crystal structure of Polyphosphate Kinase 2 from Deinococcus radiodurans in apo form Q9RY20 Q9RY20 2.06 X-RAY DIFFRACTION 87 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 266 266 6aqe-a1-m1-cA_6aqe-a1-m1-cB 7bmm-a1-m1-cA_7bmm-a1-m1-cD 7nmj-a1-m1-cA_7nmj-a1-m1-cD 7nmj-a2-m1-cB_7nmj-a2-m1-cC 7plj-a1-m1-cA_7plj-a1-m1-cB 7plj-a2-m1-cC_7plj-a2-m1-cD MDIDNYRVKPGKRVKLSDWATNDDAGLSKEEGQAQTAKLAGELAEWQERLYAEGKQSLLLILQARDAAGKDGAVKKVIGAFNPAGVQITSFKQPSAEELSHDFLWRIHQKAPAKGYVGVFNRSQYEDVLVTRVYDMIDDKTAKRRLEHIRHFEELLTDNATRIVKVYLHISPEEQKERLQARLDNPGKHWKFNPGDLKDRSNWDKFNDVYEDALTTSTDDAPWYVVPADRKWYRDLVLSHILLGALKDMNPQFPAIDYDPSKVVIH MDIDNYRVKPGKRVKLSDWATNDDAGLSKEEGQAQTAKLAGELAEWQERLYAEGKQSLLLILQARDAAGKDGAVKKVIGAFNPAGVQITSFKQPSAEELSHDFLWRIHQKAPAKGYVGVFNRSQYEDVLVTRVYDMIDDKTAKRRLEHIRHFEELLTDNATRIVKVYLHISPEEQKERLQARLDNPGKHWKFNPGDLKDRSNWDKFNDVYEDALTTSTDDAPWYVVPADRKWYRDLVLSHILLGALKDMNPQFPAIDYDPSKVVIH 7bnp-a2-m2-cA_7bnp-a2-m1-cA Llama nanobody nb17 raised against GldL from Flavobacterium jonhsoniae 1.7 X-RAY DIFFRACTION 190 1.0 9844 (Lama glama) 9844 (Lama glama) 116 116 VQLVESGGGLVQAGGSLRLSCAANYYMGWFRQAPGKERDIVAAISWSGGSTYYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNARSGGSAWQGDFGSWGQGTQVTVSSH VQLVESGGGLVQAGGSLRLSCAANYYMGWFRQAPGKERDIVAAISWSGGSTYYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNARSGGSAWQGDFGSWGQGTQVTVSSH 7bnr-a1-m1-cA_7bnr-a1-m1-cB Crystal structure of a ParB Q52A mutant from Myxococcus xanthus bound to CTPyS Q1CVJ4 Q1CVJ4 1.7 X-RAY DIFFRACTION 137 0.995 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 195 196 7bnk-a1-m1-cB_7bnk-a1-m1-cA 7o0n-a1-m1-cA_7o0n-a1-m1-cB GVLKLPIESIHRDKDAPRTYFDEEKLKELSESIKAQGVLQPILVRKDGDGYRIIAGERRWRASQAAGLKEVPAIVRDVTEVQAFELALVENLQRADLNPIEEAEGYKRLVDEFKLTQEQVSVRVGKERSTVANALRLLALPTDVKGMVADGSLSMGHARALLGVPRLPELQNLAKQVADKKLSVRDTERLVQQSR VLKLPIESIHRDKDAPRTYFDEEKLKELSESIKAQGVLQPILVRKDGDGYRIIAGERRWRASQAAGLKEVPAIVRDVTEVQAFELALVENLQRADLNPIEEAEGYKRLVDEFKLTQEQVSVRVGKERSTVANALRLLALPTDVKGMVADGSLSMGHARALLGVPRLPELQNLAKQVADKKLSVRDTERLVQQSRSS 7bnt-a1-m1-cA_7bnt-a1-m1-cB Complex of rice blast (Magnaporthe oryzae) effector protein AVR-PikD with a predicted ancestral HMA domain of Pik-1 from Oryza spp. 1.32 X-RAY DIFFRACTION 50 1.0 32630 (synthetic construct) 32630 (synthetic construct) 71 75 KQKIVIKVPMASDKCRSKAMALVASTGGVDSVALVGDLRDKIEVVGDGIDSIKLVSALRKKVGHAELLQVS GPGMKQKIVIKVPMASDKCRSKAMALVASTGGVDSVALVGDLRDKIEVVGDGIDSIKLVSALRKKVGHAELLQVS 7boa-a1-m1-cA_7boa-a1-m1-cD A hexameric de novo coiled-coil assembly: CC-Type2-(YaFd)4-W19(BrPhe). 1.65 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 7boa-a1-m1-cB_7boa-a1-m1-cC 7boa-a2-m1-cE_7boa-a2-m1-cF 7boa-a2-m1-cG_7boa-a2-m1-cH GEFAQAYKEFAKAYKEFAAYKEFAQAYKG GEFAQAYKEFAKAYKEFAAYKEFAQAYKG 7bob-a1-m1-cC_7bob-a1-m1-cB Exo-beta-1,4-mannosidase Op5Man5 from Opitutaceae bacterium strain TAV5 W0J1H8 W0J1H8 2.2 X-RAY DIFFRACTION 96 1.0 794903 (Opitutaceae bacterium TAV5) 794903 (Opitutaceae bacterium TAV5) 560 563 7bob-a1-m1-cB_7bob-a1-m1-cA 7bob-a1-m1-cC_7bob-a1-m1-cA MTIDSSGYFRDAAGARFIPVGANYWPASCGVEMWQAWPEDEIFSDLDLMASLGFNTVRFFVRWPDFEPRPGEYDATMLSRLLRLLDACGERGLRPQPSLFVGWMSGGIFWPPWKSDTQNLFSDPVMIERGAAYARTITTHLKPFATHLCGIDLGNELDALPDCSAATPAQVHEWCRRMTGAIREVLPEALILSGCDHQQVIADTGWRLGGPRMVPNPAQPGIDVLTMHGYPVPNWHPVQGSGLADPLTRSLLPFYVKCARAFGPVLLQEFGTILTSRAAAPHTDAYLRAILPACREAGANGYLWWCFKDIPAPLHPYIKNNFESELGLVDIEGRVKKGLEYFVEFARAETQRALAPTVHLYWPRHYYHRNNHRNPGNEPRETSRRLILAHHLLQSAEEHVGIVRGDQPLPSPSEVERIIITGVFTGLDEIKELHSWVEQGGQLLWHAPDPVNWAQAMSRLVGAEIADYRAATPAITATDEGPYEFTCFLRGMRVRIEPRGAQILMTDNEGSPLVLRHRVGAGCVTSVLADVEASFLSQWPDRQTQEASWSAWYAALLTKD MTIDSSGYFRDAAGARFIPVGANYWPASCGVEMWQAWPEDEIFSDLDLMASLGFNTVRFFVRWPDFEPRPGEYDATMLSRLLRLLDACGERGLRPQPSLFVGWMSGGIFWPPWKSDTQNLFSDPVMIERGAAYARTITTHLKPFATHLCGIDLGNELDALPDCSAATPAQVHEWCRRMTGAIREVLPEALILSGCDHQQVIADTGWRLGGAPRMVPNPAQPGIDVLTMHGYPVPNWHPVQGSGLADPLTRSLLPFYVKCARAFGPVLLQEFGTILTSRAAAPHTDAYLRAILPACREAGANGYLWWCFKDIPAPLHPYIKNNFESELGLVDIEGRVKKGLEYFVEFARAETQRALKVAPTVHLYWPRHYYHRNNHRNPGNEPRETSRRLILAHHLLQSAEEHVGIVRGDQPLPSPSEVERIIITGVFTGLDEIKELHSWVEQGGQLLWHAPDPVNWAQAMSRLVGAEIADYRAATPAITATDEGPYEFTCFLRGMRVRIEPRGAQILMTDNEGSPLVLRHRVGAGCVTSVLADVEASFLSQWPDRQTQEASWSAWYAALLTKD 7boc-a1-m1-cA_7boc-a1-m2-cA Crystal structure of the PRMT5 TIM barrel domain in complex with RioK1 peptide O14744 O14744 2.55 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 LCMPVFHPRFKDWNTLIVGKLSPWIRPDSKVEKIRRNSEAAMLQELNFGAYLGLPAFLLPLNQEDNTNLARVLTNHIHTGHHSSMFWMRVPLVAPEDLRYSGEEKTWMWWHNFRTLCDYSKRIAVALEIGADLPSNHVIDRWLGEPIKAAILPTSIFLTNKKGFPVLSKMHQRLIFRLLKLEVQFIITGTNHHSEKEFCSYLQYLEYLSQN LCMPVFHPRFKDWNTLIVGKLSPWIRPDSKVEKIRRNSEAAMLQELNFGAYLGLPAFLLPLNQEDNTNLARVLTNHIHTGHHSSMFWMRVPLVAPEDLRYSGEEKTWMWWHNFRTLCDYSKRIAVALEIGADLPSNHVIDRWLGEPIKAAILPTSIFLTNKKGFPVLSKMHQRLIFRLLKLEVQFIITGTNHHSEKEFCSYLQYLEYLSQN 7boz-a1-m1-cr_7boz-a1-m1-cq N-teminal of mature bacteriophage T7 tail fiber protein gp17 P03748 P03748 3.8 ELECTRON MICROSCOPY 55 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 119 131 7boz-a1-m1-cb_7boz-a1-m1-ca 7boz-a1-m1-cc_7boz-a1-m1-cb 7boz-a1-m1-ce_7boz-a1-m1-cd 7boz-a1-m1-cf_7boz-a1-m1-ce 7boz-a1-m1-ch_7boz-a1-m1-cg 7boz-a1-m1-ci_7boz-a1-m1-ch 7boz-a1-m1-ck_7boz-a1-m1-cj 7boz-a1-m1-cl_7boz-a1-m1-ck 7boz-a1-m1-cn_7boz-a1-m1-cm 7boz-a1-m1-co_7boz-a1-m1-cn 7boz-a1-m1-cq_7boz-a1-m1-cp 7ey7-a1-m1-ca_7ey7-a1-m1-cb 7ey7-a1-m1-ca_7ey7-a1-m1-cc 7ey7-a1-m1-cb_7ey7-a1-m1-cc 7ey7-a1-m1-cd_7ey7-a1-m1-ce 7ey7-a1-m1-cd_7ey7-a1-m1-cf 7ey7-a1-m1-ce_7ey7-a1-m1-cf 7ey7-a1-m1-cg_7ey7-a1-m1-ch 7ey7-a1-m1-cg_7ey7-a1-m1-ci 7ey7-a1-m1-ch_7ey7-a1-m1-ci 7ey7-a1-m1-cj_7ey7-a1-m1-ck 7ey7-a1-m1-cj_7ey7-a1-m1-cl 7ey7-a1-m1-ck_7ey7-a1-m1-cl 7ey7-a1-m1-cm_7ey7-a1-m1-cn 7ey7-a1-m1-cm_7ey7-a1-m1-co 7ey7-a1-m1-cn_7ey7-a1-m1-co 7ey7-a1-m1-cp_7ey7-a1-m1-cq 7ey7-a1-m1-cp_7ey7-a1-m1-cr 7ey7-a1-m1-cq_7ey7-a1-m1-cr 7ey9-a1-m1-cb_7ey9-a1-m1-ca 7ey9-a1-m1-cb_7ey9-a1-m1-cc 7ey9-a1-m1-ce_7ey9-a1-m1-cd 7ey9-a1-m1-ce_7ey9-a1-m1-cf 7ey9-a1-m1-ch_7ey9-a1-m1-cg 7ey9-a1-m1-ch_7ey9-a1-m1-ci 7ey9-a1-m1-ck_7ey9-a1-m1-cj 7ey9-a1-m1-ck_7ey9-a1-m1-cl 7ey9-a1-m1-cn_7ey9-a1-m1-cm 7ey9-a1-m1-cn_7ey9-a1-m1-co 7ey9-a1-m1-cq_7ey9-a1-m1-cp 7ey9-a1-m1-cq_7ey9-a1-m1-cr KTVLTYQLDGSNRDFNIPFEYLARKFVVVTLIGVDRKVLTINTDYRFATRTTISLTKAWGPADGYTTIELRRVTSTTDRLVDFTDGSILRAYDLNVAQIQTMHVAEEARDLTTDTIGVN IKTVLTYQLDGSNRDFNIPFEYLARKFVVVTLIGVDRKVLTINTDYRFATRTTISLTKAWGPADGYTTIELRRVTSTTDRLVDFTDGSILRAYDLNVAQIQTMHVAEEARDLTTDTIGVNNLDARGRRIVN 7bp3-a1-m1-cA_7bp3-a1-m1-cB Cryo-EM structure of the human MCT2 O60669 O60669 3.8 ELECTRON MICROSCOPY 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 394 394 WGWIVVGAAFISIGFSYAFPKAVTVFFKEIQQIFHTTYSEIAWISSIMLAVMYAGGPVSSVLVNKYGSRPVVIAGGLLCCLGMVLASFSSSVVQLYLTMGFITGLGLAFNLQPALTIIGKYFYRKRPMANGLAMAGSPVFLSSLAPFNQYLFNTFGWKGSFLILGSLLLNACVAGSLMRPVNKYLDFSLFKHRGFLIYLSGNVIMFLGFFAPIIFLAPYAKDQGIDEYSAAFLLSVMAFVDMFARPSVGLIANSKYIRPRIQYFFSFAIMFNGVCHLLCPLAQDYTSLVLYAVFFGLGFGSVSSVLFETLMDLVGAPRFSSAVGLVTIVECGPVLLGPPLAGKLVDLTGEYKYMYMSCGAIVVAASVWLLIGNAINYRLLAKERKEENARQKTR WGWIVVGAAFISIGFSYAFPKAVTVFFKEIQQIFHTTYSEIAWISSIMLAVMYAGGPVSSVLVNKYGSRPVVIAGGLLCCLGMVLASFSSSVVQLYLTMGFITGLGLAFNLQPALTIIGKYFYRKRPMANGLAMAGSPVFLSSLAPFNQYLFNTFGWKGSFLILGSLLLNACVAGSLMRPVNKYLDFSLFKHRGFLIYLSGNVIMFLGFFAPIIFLAPYAKDQGIDEYSAAFLLSVMAFVDMFARPSVGLIANSKYIRPRIQYFFSFAIMFNGVCHLLCPLAQDYTSLVLYAVFFGLGFGSVSSVLFETLMDLVGAPRFSSAVGLVTIVECGPVLLGPPLAGKLVDLTGEYKYMYMSCGAIVVAASVWLLIGNAINYRLLAKERKEENARQKTR 7bpo-a1-m1-cB_7bpo-a1-m1-cA Hydroxynitrile lyase from Parafonteria laminate complexed with benzaldehyde 1.37 X-RAY DIFFRACTION 114 1.0 690633 (Parafontaria falcifera) 690633 (Parafontaria falcifera) 164 165 7bow-a1-m1-cB_7bow-a1-m1-cA 7br1-a1-m1-cB_7br1-a1-m1-cA SLTCDKLPKVIPPGIDAFTSHNPFEFSYVLTDDLDCTARVYVQPVHGLTNYSGTAFDIKGTHITINDFTIGADGLTAYLTNCDTGEKQVWHFQYVDLGDPQGANYCAYSCNGPQIAEYKCTTNTGYISPKQLQAVKEARSVPNGDKIHLAQVDCPPHLYCPLYY GSLTCDKLPKVIPPGIDAFTSHNPFEFSYVLTDDLDCTARVYVQPVHGLTNYSGTAFDIKGTHITINDFTIGADGLTAYLTNCDTGEKQVWHFQYVDLGDPQGANYCAYSCNGPQIAEYKCTTNTGYISPKQLQAVKEARSVPNGDKIHLAQVDCPPHLYCPLYY 7bqf-a1-m1-cA_7bqf-a1-m2-cA Dimerization of SAV1 WW tandem Q8VEB2 Q8VEB2 1.70038 X-RAY DIFFRACTION 88 1.0 10090 (Mus musculus) 10090 (Mus musculus) 84 84 DLPLPPGWSVDWTMRGRKYYIDHNTNTTHWSHPLEREGLPPGWERVESSEFGTYYVDHTNKRAQYRHPCAPSVPRYDQPPPITY DLPLPPGWSVDWTMRGRKYYIDHNTNTTHWSHPLEREGLPPGWERVESSEFGTYYVDHTNKRAQYRHPCAPSVPRYDQPPPITY 7bqg-a1-m1-cA_7bqg-a1-m2-cA Complex structure of SAV1 and Dendrin Q80TS7 Q80TS7 1.55011 X-RAY DIFFRACTION 124 1.0 10090 (Mus musculus) 10090 (Mus musculus) 85 85 DLPLPPGWSVDWTMRGRKYYIDHNTNTTHWSHPLEREGLPPGWERVESSEFGTYYVDHTNKRAQYRHPCAPSVPPPYVAPPSYEG DLPLPPGWSVDWTMRGRKYYIDHNTNTTHWSHPLEREGLPPGWERVESSEFGTYYVDHTNKRAQYRHPCAPSVPPPYVAPPSYEG 7bqk-a1-m1-cB_7bqk-a1-m1-cA The structure of PdxI in complex with its substrate analogue A0A1F8A906 A0A1F8A906 1.99 X-RAY DIFFRACTION 341 1.0 109264 (Aspergillus bombycis) 109264 (Aspergillus bombycis) 451 459 7bqj-a1-m1-cA_7bqj-a1-m1-cB 7bql-a1-m1-cA_7bql-a1-m1-cB VTLAELASDIQSQVKVIDTYLTEHNLPQPTFAPDSPRELPLDANVQRARLLLIEKAMALSNLAIGAADNLRWHCMNNKFDDMTLHFLARYNIFDAVPRDEPISYAELSKKVGLAEHRLRRIMSMAYTQHYFCTPKPGFVAHTSNSAMAIGDPLALAWILHNIEEVQPWYSNKLVDATMKWGDSIDPKHTGPNLNAKPGEEKLFYEIMEEDDQGEWNGVKGKGFRLWRLYDTDKFFGTGGAIKGTNLLRAFDWGGLGKATVVDIGGITGHLASTVALANPDLTFIVQERNQPWYEKQFYEQLPAELNGRVSYMPHDKYAEQPVKGADVYFMSTVLHKEPDDKAITILRRCVEAMDPNKSRLLTRDIVMDGGDPPAEDNSKEGSYEAGLGPTGVITRLNIGIDFQVLAVVNGFERTREEWVTLFKKADPRFALKGCIQTVGNCAALMEWILEE VTLAELASDIQSQVKVIDTYLTEHNLPQPTFAPDSPRELPLDANVQRARLLLIEKAMALSNLAIGAADNLRWHCMNNKFDDMTLHFLARYNIFDAVPRDEPISYAELSKKVGLAEHRLRRIMSMAYTQHYFCTPKPGFVAHTSNSAMAIGDPLALAWILHNIEEVQPWYSNKLVDATMKWGDSIDPKHTGPNLNAKPGEEKLFYEIMEEDDQGEWNGVKGKGFRLWRLYDTDKFFGTGGAIKGTNLLRAFDWGGLGKATVVDIGGITGHLASTVALANPDLTFIVQERNQPWYEKQFYEQLPAELNGRVSYMPHDKYAEQPVKGADVYFMSTVLHKEPDDKAITILRRCVEAMDPNKSRLLTRDIVMDGGDPPAEDAVINGRAINSKEGSYEAGLGPTGVITRLNIGIDFQVLAVVNGFERTREEWVTLFKKADPRFALKGCIQTVGNCAALMEWILEE 7bqp-a1-m1-cA_7bqp-a1-m2-cA The structure of HpiI A0A1F8A906 A0A1F8A906 1.33 X-RAY DIFFRACTION 340 1.0 253101 (Hymenoscyphus scutula) 253101 (Hymenoscyphus scutula) 449 449 7bqo-a1-m1-cA_7bqo-a1-m2-cA ATISNLASDIQSQVDVIDSYLKKHNLQQPSFEVDSPSELPLDANVQRARLKLIETATSLANLAIGSADHLRWHCMNNKYDDMVLHFLARYNIFDAVPRNESISYVELSQKIGLPEHRLRRIMSMAYTRHLFCEPKPGFVAHTSNSALAINDPLAMAWILHNVEEVQPWYANKLVDSTKKWGDTTDPRHTGPNLNAKAGEEKLFYQIMEEDDQGEWNGVKGKGFRLWRLFDTDKFFGTGGAIKGTNMLRAFDWGKLGKATVVDLSGITGHLSSTVALAYPDLTFIVQERNQSWLEKQFNDKLPAELKGSGRVRFMAHDKYAQQPVKDVDVFFMSTMLHKEPDEKAITILRHCAEAMDPKKSRIVTRDIVLDGGDPPAEDAVYQAGLGPTGVITRLNAGIDLQMLAVLNAFERTREDWITLFKTADPRFVLKACIQTVGDCASVMEWVLEE ATISNLASDIQSQVDVIDSYLKKHNLQQPSFEVDSPSELPLDANVQRARLKLIETATSLANLAIGSADHLRWHCMNNKYDDMVLHFLARYNIFDAVPRNESISYVELSQKIGLPEHRLRRIMSMAYTRHLFCEPKPGFVAHTSNSALAINDPLAMAWILHNVEEVQPWYANKLVDSTKKWGDTTDPRHTGPNLNAKAGEEKLFYQIMEEDDQGEWNGVKGKGFRLWRLFDTDKFFGTGGAIKGTNMLRAFDWGKLGKATVVDLSGITGHLSSTVALAYPDLTFIVQERNQSWLEKQFNDKLPAELKGSGRVRFMAHDKYAQQPVKDVDVFFMSTMLHKEPDEKAITILRHCAEAMDPKKSRIVTRDIVLDGGDPPAEDAVYQAGLGPTGVITRLNAGIDLQMLAVLNAFERTREDWITLFKTADPRFVLKACIQTVGDCASVMEWVLEE 7bqx-a1-m5-cK_7bqx-a1-m5-cG Epstein-Barr virus, C5 portal vertex P03233 P03233 4.2 ELECTRON MICROSCOPY 42 1.0 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 68 84 7bqx-a1-m1-cK_7bqx-a1-m1-cG 7bqx-a1-m2-cK_7bqx-a1-m2-cG 7bqx-a1-m3-cK_7bqx-a1-m3-cG 7bqx-a1-m4-cK_7bqx-a1-m4-cG 7br7-a1-m1-cK_7br7-a1-m1-cG PELMWAPSLRNSLRVSPEALELAEREAERARSERWDRCAQVLKNRLLRVELDGIMRDHLARAEEIRQD DPARLPRDTGPELMWAPSLRNSLRVSPEALELAEREAERARSERWDRCAQVLKNRLLRVELDGIMRDHLARAEEIRQDLDAVVA 7br0-a1-m1-cA_7br0-a1-m2-cA Crystal structure of AclR, a thioredoxin oxidoreductase fold protein carrying the CXXH catalytic motif B8NI43 B8NI43 2.003 X-RAY DIFFRACTION 151 1.0 332952 (Aspergillus flavus NRRL3357) 332952 (Aspergillus flavus NRRL3357) 318 318 SSIPLYDCLIIGGGIAGLSSALSLVRTLHTAVVFDEGIHRNDQAPHLATVPTWDSQDPKRFRDAAKLNILSKYSTVEFANVKLEKVNQLTDGPYKGYFCVWDTKQRQWLGRKVILAMGVEDLLPTIDGFAECWTKGIFHCLVHRGYEERGSASGGVLAIDGDATFFAARHLAFQARNLTDHVVIYTHGNDELAQEVESQLGPCGFRAESRRIEKLVQHPERAQMEVHFEDGQSETVGFIVHRPRTSIRGPFAEQLGVEMTPEGHIKTQFPFNETTVSGVFVAGDAGSQFKIGTQAVVMGAFAAGGVQMQVNAEKWSQP SSIPLYDCLIIGGGIAGLSSALSLVRTLHTAVVFDEGIHRNDQAPHLATVPTWDSQDPKRFRDAAKLNILSKYSTVEFANVKLEKVNQLTDGPYKGYFCVWDTKQRQWLGRKVILAMGVEDLLPTIDGFAECWTKGIFHCLVHRGYEERGSASGGVLAIDGDATFFAARHLAFQARNLTDHVVIYTHGNDELAQEVESQLGPCGFRAESRRIEKLVQHPERAQMEVHFEDGQSETVGFIVHRPRTSIRGPFAEQLGVEMTPEGHIKTQFPFNETTVSGVFVAGDAGSQFKIGTQAVVMGAFAAGGVQMQVNAEKWSQP 7bra-a1-m1-cA_7bra-a1-m1-cB Bacillus subtilis IRG1 P54956 P54956 1.785 X-RAY DIFFRACTION 160 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 445 445 7e9d-a1-m1-cA_7e9d-a1-m1-cB KQGLTAGLAEAVRTSQPEHSVDAIRKAKKGLLDFTAASFAGREDKGIQKLLRLIEDEGGRPLVPIIGQGKKAAPLQSAMLNGFIAHALDFDDVHSDVRGHPSAVIVPALIASAARGHDERLLGAYIVGVEVMARLGESIGSRHYEKGWHNTGTLGAIAAACAVGYAEELTQEELEKAIGFAATQSAGMRVQFGTEMKPLHAGLAAQAGLLAVKLAQSEFGGSRTAFDGETGFFSLYGDVEKAQHTLLNDWGAPWRIVQPGLWFKIYPFCSAAHHAADAVRQLISEETISAANTERIEVIFPPGGDAALTERSPKTGEEGRFSVEYVIALALHGHGLTVEHFSSQPIPNGIQTTIGHIQRVYDNATQPAPHAVPKGRFTIVRAYLSDGRICEARVDCPKGAPGNELSEEDIIEKLTLTVPQEKARRIITAVEKADIKEFLAHIELE KQGLTAGLAEAVRTSQPEHSVDAIRKAKKGLLDFTAASFAGREDKGIQKLLRLIEDEGGRPLVPIIGQGKKAAPLQSAMLNGFIAHALDFDDVHSDVRGHPSAVIVPALIASAARGHDERLLGAYIVGVEVMARLGESIGSRHYEKGWHNTGTLGAIAAACAVGYAEELTQEELEKAIGFAATQSAGMRVQFGTEMKPLHAGLAAQAGLLAVKLAQSEFGGSRTAFDGETGFFSLYGDVEKAQHTLLNDWGAPWRIVQPGLWFKIYPFCSAAHHAADAVRQLISEETISAANTERIEVIFPPGGDAALTERSPKTGEEGRFSVEYVIALALHGHGLTVEHFSSQPIPNGIQTTIGHIQRVYDNATQPAPHAVPKGRFTIVRAYLSDGRICEARVDCPKGAPGNELSEEDIIEKLTLTVPQEKARRIITAVEKADIKEFLAHIELE 7bri-a1-m1-cA_7bri-a1-m1-cB Atrial Natriuretic Peptide Receptor complexed with Dendroaspis Natriuretic Peptide P18910 P18910 2.45 X-RAY DIFFRACTION 25 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 426 426 1dp4-a1-m1-cC_1dp4-a1-m2-cC 1dp4-a2-m1-cA_1dp4-a2-m3-cA 1t34-a1-m1-cB_1t34-a1-m1-cA 7brg-a1-m1-cA_7brg-a1-m1-cB 7brh-a1-m1-cA_7brh-a1-m1-cB 7brj-a1-m1-cA_7brj-a1-m1-cB 7brk-a1-m1-cA_7brk-a1-m1-cB 7brl-a1-m1-cA_7brl-a1-m1-cB SDLTVAVVLPLTNTSYPWSWARVGPAVELALARVKARPDLLPGWTVRMVLGSSENAAGVCSDTAAPLAAVDLKWEHSPAVFLGPGCVYSAAPVGRFTAHWRVPLLTAGAPALGIGVKDEYALTTRTGPSHVKLGDFVTALHRRLGWEHQALVLYADRLGDDRPCFFIVEGLYMRVRERLNITVNHQEFVEGDPDHYPKLLRAVRRKGRVIYICSSPDAFRNLMLLALNAGLTGEDYVFFHLDVFGQSLKSAQGLVPQKPWERGDGQDRSARQAFQAAKIITYKEPDNPEYLEFLKQLKLLADKKFNFTVEDGLKNIIPASFHDGLLLYVQAVTETLAQGGTVTDGENITQRMWNRSFQGVTGYLKIDRNGDRDTDFSLWDMDPETGAFRVVLNYNGTSQELMAVSEHKLYWPLGYPPPDVPKCGFD SDLTVAVVLPLTNTSYPWSWARVGPAVELALARVKARPDLLPGWTVRMVLGSSENAAGVCSDTAAPLAAVDLKWEHSPAVFLGPGCVYSAAPVGRFTAHWRVPLLTAGAPALGIGVKDEYALTTRTGPSHVKLGDFVTALHRRLGWEHQALVLYADRLGDDRPCFFIVEGLYMRVRERLNITVNHQEFVEGDPDHYPKLLRAVRRKGRVIYICSSPDAFRNLMLLALNAGLTGEDYVFFHLDVFGQSLKSAQGLVPQKPWERGDGQDRSARQAFQAAKIITYKEPDNPEYLEFLKQLKLLADKKFNFTVEDGLKNIIPASFHDGLLLYVQAVTETLAQGGTVTDGENITQRMWNRSFQGVTGYLKIDRNGDRDTDFSLWDMDPETGAFRVVLNYNGTSQELMAVSEHKLYWPLGYPPPDVPKCGFD 7bsx-a4-m1-cD_7bsx-a4-m3-cH SDR protein NapW-NADP S4TKM8 S4TKM8 2 X-RAY DIFFRACTION 101 1.0 68232 (Streptomyces lusitanus) 68232 (Streptomyces lusitanus) 303 303 7bsx-a1-m1-cE_7bsx-a1-m1-cA 7bsx-a2-m1-cB_7bsx-a2-m2-cF 7bsx-a3-m1-cC_7bsx-a3-m1-cG 7btm-a1-m1-cA_7btm-a1-m1-cD 7btm-a2-m1-cB_7btm-a2-m1-cC 7btm-a3-m2-cH_7btm-a3-m1-cE 7btm-a4-m1-cF_7btm-a4-m2-cG APDLRGKIALVAGATRGAGRAIAVQLGAAGATVYVTGRTTRERRSEYNRSETIEETAELVTEAGGTGIAVPTDHLVPEQVRALADRVDTEQGRLDVLVNDVWGGERLFEFDKKVWEHDLDAGLRLMRLGVDTHAISSHFLLPLLVRRPGGLVVEMTDGTAAYNGSHYRNSYFYDLVKNSVLRMGYVLAHELEPYGGTAVTLTPGWMRSEMMLETLGVTEENWRDALTEVPHFCISESPSYVGRAVAALAGDADVARWNGQSVSSGQLAQEYGFTDLDGSRPDCWRYLVEVQEAGKPADPSGYR APDLRGKIALVAGATRGAGRAIAVQLGAAGATVYVTGRTTRERRSEYNRSETIEETAELVTEAGGTGIAVPTDHLVPEQVRALADRVDTEQGRLDVLVNDVWGGERLFEFDKKVWEHDLDAGLRLMRLGVDTHAISSHFLLPLLVRRPGGLVVEMTDGTAAYNGSHYRNSYFYDLVKNSVLRMGYVLAHELEPYGGTAVTLTPGWMRSEMMLETLGVTEENWRDALTEVPHFCISESPSYVGRAVAALAGDADVARWNGQSVSSGQLAQEYGFTDLDGSRPDCWRYLVEVQEAGKPADPSGYR 7bto-a1-m1-cF_7bto-a1-m1-cG EcoR124I-ArdA in the Translocation State P10486 P10486 3.97 ELECTRON MICROSCOPY 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 436 436 NFIVLDKYIKAEPTGDSYQSESDLERELIQDLRNQGYEFISVKSQSAMLANVREQLQNLNGVVFNDSEWRRFTEQYLDNPSDGILDKTRKIHIDYICDFIFDDERLENIYLIDKKNLMRNKVQIIQQFENRYDVTILVNGLPLVQIELKKRGVAIREAFNQIHSENSLFKYLQLFVISNGTDTRYFANTTKRDKNSFDFTMNWAKSDNTLIKDLKDFTATCFQKHTLLNVLVNYSVFDSSQTLLVMRPYQIAATERILWKIKSSFTAKNWSKPESGGYIWHTTGSGKTLTSFKAARLATELDFIDKVFFVVDRKDLDYQTMKEYQRFSPDSVNGSENTAGLKRNLDKDDNKIIVTTIQKLNNLMKAESDLPVYNQQVVFIFDECHRSQFGEAQKNLKKKFKRYYQFGFTGTPIFPENALGSETTASVFGRELHSYV NFIVLDKYIKAEPTGDSYQSESDLERELIQDLRNQGYEFISVKSQSAMLANVREQLQNLNGVVFNDSEWRRFTEQYLDNPSDGILDKTRKIHIDYICDFIFDDERLENIYLIDKKNLMRNKVQIIQQFENRYDVTILVNGLPLVQIELKKRGVAIREAFNQIHSENSLFKYLQLFVISNGTDTRYFANTTKRDKNSFDFTMNWAKSDNTLIKDLKDFTATCFQKHTLLNVLVNYSVFDSSQTLLVMRPYQIAATERILWKIKSSFTAKNWSKPESGGYIWHTTGSGKTLTSFKAARLATELDFIDKVFFVVDRKDLDYQTMKEYQRFSPDSVNGSENTAGLKRNLDKDDNKIIVTTIQKLNNLMKAESDLPVYNQQVVFIFDECHRSQFGEAQKNLKKKFKRYYQFGFTGTPIFPENALGSETTASVFGRELHSYV 7btp-a1-m1-cB_7btp-a1-m1-cC EcoR124I-Ocr in Restriction-Alleviation State P10484 P10484 4.01 ELECTRON MICROSCOPY 18 1.0 562 (Escherichia coli) 562 (Escherichia coli) 473 473 7bst-a1-m1-cD_7bst-a1-m1-cE AELHRQIWQIANDVRGSVDGWDFKQYVLGALFYRFISENFSSYIEATDDIKDDAIKTKGYFIYPSQLFCNVAAKANTNDRLNADLNSIFVAIESSAYGYPSEADIKGLFADFDTTSNRLGNTVKDKNARLAAVLKGVEGLKLGIDLFGDAYEFLISNYAAEFFTPQHVSKLIAQLAMHGQTHVNKIYDPAAGSGSLLLQAKKQFDNHIIEEGFFGQEINHTTYNLARMNMFLHNINYDKFDIKLGNTLTEPHFRDEKPFDAIVSNPPYSVKWIGSDDPTLINDERFAPAGVLAPKSKADFAFVLHALNYLSAKGRAAIVCFPGIFYRGGAEQKIRQYLVDNNYVETVISLAPNLFFGTTIAVNILVLSKHKTDTNVQFIDASELFKKETNNNILTDAHIEQIMQVFASKEDVAHLAKSVAFETVVANDYNLSVSSYVEAKDNREIIDIAELNAELKTTVSKIDQLRKDIDAIV AELHRQIWQIANDVRGSVDGWDFKQYVLGALFYRFISENFSSYIEATDDIKDDAIKTKGYFIYPSQLFCNVAAKANTNDRLNADLNSIFVAIESSAYGYPSEADIKGLFADFDTTSNRLGNTVKDKNARLAAVLKGVEGLKLGIDLFGDAYEFLISNYAAEFFTPQHVSKLIAQLAMHGQTHVNKIYDPAAGSGSLLLQAKKQFDNHIIEEGFFGQEINHTTYNLARMNMFLHNINYDKFDIKLGNTLTEPHFRDEKPFDAIVSNPPYSVKWIGSDDPTLINDERFAPAGVLAPKSKADFAFVLHALNYLSAKGRAAIVCFPGIFYRGGAEQKIRQYLVDNNYVETVISLAPNLFFGTTIAVNILVLSKHKTDTNVQFIDASELFKKETNNNILTDAHIEQIMQVFASKEDVAHLAKSVAFETVVANDYNLSVSSYVEAKDNREIIDIAELNAELKTTVSKIDQLRKDIDAIV 7btu-a1-m1-cA_7btu-a1-m1-cB Crystal structure of TrmO from P. areuginosa Q9RPT0 Q9RPT0 1.91 X-RAY DIFFRACTION 254 0.986 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 213 215 7btz-a1-m1-cB_7btz-a1-m1-cA 7bu1-a1-m1-cA_7bu1-a1-m1-cB EFELMTHSVSPIGYIRSCFMEKFAIPRQPLLAPAARGTLELLPPFDQVEALEGLEQVSHVWLLFLFHQAPRSLGVFATRATHRPNGIGQSVVRLEGFEAGRLWLSGIDLLDGTPVLDIKPYVPYADAVADARNGIADAPPPGIAVEWSEQARRQAHEHGQRLRQPVAELIEQCLAQDPRPEPGRRYGVRLWDLDVHWHYPRPDLIRVLDVAGG FELMTHSVSPIGYIRSCFMEKFAIPRQPLLAPAARGTLELLPPFDQVEALEGLEQVSHVWLLFLFHQKPRLKVSLGVFATRATHRPNGIGQSVVRLEGFEAGRLWLSGIDLLDGTPVLDIKPYVPYADAVADARNGIADAPPPGIAVEWSEQARRQAHEHGQRLRQPVAELIEQCLAQDPRPPEPGRRYGVRLWDLDVHWHYPRPDLIRVLDVAG 7btw-a1-m1-cA_7btw-a1-m1-cD The mitochondrial SAM complex from S.cere E9P977 E9P977 2.9 ELECTRON MICROSCOPY 48 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 348 348 TFTAKTGTNFGNDNDAEAYLQFEKLIDKKYLKLPTRVNLEILRGTKIHSSFLFNSYSSLSPQSILNLKVFSQFYNWNTNKGLDIGQRGARLSLRYESPTLFHEWFLETCWRSTKICSQGTSAPYMYSGTMLSQAGDQLRTILGHTFVLDKRDHIMCPTKGSMLKWSNELSPGKHLKTQLELNSVKSWMNDDFITFSTTIKTGYLKNLSSQQSLPVHICDKFQSGGPSDIRGFQTFGLGPRDLYDAVGGDAFVSYGLSVFSRLPWKKVEKSNFRLHWFFNGGKLVNHDNTSLGNCIGQLSKEHSTSTGIGLVLRHPMARFELNFTLPITAHENDLIRKGFQFGLGLAFL TFTAKTGTNFGNDNDAEAYLQFEKLIDKKYLKLPTRVNLEILRGTKIHSSFLFNSYSSLSPQSILNLKVFSQFYNWNTNKGLDIGQRGARLSLRYESPTLFHEWFLETCWRSTKICSQGTSAPYMYSGTMLSQAGDQLRTILGHTFVLDKRDHIMCPTKGSMLKWSNELSPGKHLKTQLELNSVKSWMNDDFITFSTTIKTGYLKNLSSQQSLPVHICDKFQSGGPSDIRGFQTFGLGPRDLYDAVGGDAFVSYGLSVFSRLPWKKVEKSNFRLHWFFNGGKLVNHDNTSLGNCIGQLSKEHSTSTGIGLVLRHPMARFELNFTLPITAHENDLIRKGFQFGLGLAFL 7bu0-a1-m1-cA_7bu0-a1-m1-cB Crystal structure of a OTU deubiquitinase in complex with Ub-PA Q5ZSI8 Q5ZSI8 2.43 X-RAY DIFFRACTION 43 0.998 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 407 407 VNMFNVDNSGKGNCLYYAYSISLMYYLRAKNNVKITEDIFNKLGLKEEDRARLRKLLSKDPDRAFTRDEIKTIIEPILGRATRDLAAEHTKVEFKSSPHDTPLFSSLHYAVEFGFKRSLQINESELTLLIDNDFSNPDYTEAEIYKVSGLLDALQEYILTRTPSVIEEFNRQWENKKQELKEQSLTEKEIQVHQATILDNILRKETIDFLLAENEKHLDEYREHLRREFVWGSEETLMVLHRAIQGERMVRNHEGRIEPVYDHEIILHVHRNGASPSYQAGSPEMILNNEGNVHWTSIIPDAIFTSKLTDKEEKLLDMLERMQSEYGSKELGVEKYSSISDWLSDLMKQIELIKTSPTAVTKQKEIELFFQLLAKATPKLASEPALRMSLGTLFSNFLECIPALMVE GVNMFNVDNSGKGNCLYYAYSISLMYYLRAKNNVKITEDIFNKLGLKEEDRARLRKLLSKDPDRAFTRDEIKTIIEPILGRATRDLAAEHTKVEFKSSPHDTPLFSSLHYAVEFGFKRSLQINESELTLLIDNDFSNPDYTEAEIYKVSGLLDALQEYILTRTPSVIEEFNRQWENKKQELKEQSLTEKEIQVHQATILDNILRKETIDFLLAENEKHLDEYREHLRREFVWGSEETLMVLHRAIQGERMVRNHEGRIEPVYDHEIILHVHRNGASPSYQAGSPEMILNNEGNVHWTSIIPDAIFTSKLTDKEEKLLDMLERMQSEYGSKELGVEKYSSISDWLSDLMKQIELIKTSPTAVTKQKEIELFFQLLAKATPKLASEPALRMSLGTLFSNFLECIPALMV 7bu2-a1-m1-cA_7bu2-a1-m1-cB Structure of alcohol dehydrogenase YjgB from Escherichia coli P27250 P27250 1.553 X-RAY DIFFRACTION 47 0.997 562 (Escherichia coli) 562 (Escherichia coli) 337 339 SMIKSYAAKEAGGELEVYEYDPGELRPQDVEVQVDYCGICHSDLSMIDNEWGFSQYPLVAGHEVIGRVVALGSAAQDKGLQVGQRVGIGWTARSCGHCDACISGNQINCEQGAVPTIMNRGGFAEKLRADWQWVIPLPENIDIESAGPLLCGGITVFKPLLMHHITATSRVGVIGIGGLGHIAIKLLHAMGCEVTAFSSNPAKEQEVLAMGADKVVNSRDPQALKALAGQFDLIINTVNVSLDWQPYFEALTYGGNFHTVGAVLTPLSVPAFTLIAGDRSVSGSATGTPYELRKLMRFAARSKVAPTTELFPMSKINDAIQHVRDGKARYRVVLKAD MIKSYAAKEAGGELEVYEYDPGELRPQDVEVQVDYCGICHSDLSMIDNEWGFSQYPLVAGHEVIGRVVALGSAAQDKGLQVGQRVGIGWTARSCGHCDACISGNQINCEQGAVPTIMNRGGFAEKLRADWQWVIPLPENIDIESAGPLLCGGITVFKPLLMHHITATSRVGVIGIGGLGHIAIKLLHAMGCEVTAFSSNPAKEQEVLAMGADKVVNSRDPQALKALAGQFDLIINTVNVSLDWQPYFEALTYGGNFHTVGAVLTPLSVPAFTLIAGDRSVSGSATGTPYELRKLMRFAARSKVAPTTELFPMSKINDAIQHVRDGKARYRVVLKADYLA 7bu3-a1-m1-cA_7bu3-a1-m1-cB Structure of alcohol dehydrogenase YjgB in complex with NADP from Escherichia coli P27250 P27250 2 X-RAY DIFFRACTION 46 0.997 562 (Escherichia coli) 562 (Escherichia coli) 336 337 SMIKSYAAKEAGGELEVYEYDPGELRPQDVEVQVDYCGICHSDLSMIDNEWGFSQYPLVAGHEVIGRVVALGSAAQDKGLQVGQRVGIGWTARSCGHCDACISGNQINCEQGAVPTIMNRGGFAEKLRADWQWVIPLPENIDIESAGPLLCGGITVFKPLLMHHITATSRVGVIGIGGLGHIAIKLLHAMGCEVTAFSSNPAKEQEVLAMGADKVVNSRDPQALKALAGQFDLIINTVNVSLDWQPYFEALTYGGNFHTVGAVLTPLSVPAFTLIAGDRSVSGSATGTPYELRKLMRFAARSKVAPTTELFPMSKINDAIQHVRDGKARYRVVLKA MIKSYAAKEAGGELEVYEYDPGELRPQDVEVQVDYCGICHSDLSMIDNEWGFSQYPLVAGHEVIGRVVALGSAAQDKGLQVGQRVGIGWTARSCGHCDACISGNQINCEQGAVPTIMNRGGFAEKLRADWQWVIPLPENIDIESAGPLLCGGITVFKPLLMHHITATSRVGVIGIGGLGHIAIKLLHAMGCEVTAFSSNPAKEQEVLAMGADKVVNSRDPQALKALAGQFDLIINTVNVSLDWQPYFEALTYGGNFHTVGAVLTPLSVPAFTLIAGDRSVSGSATGTPYELRKLMRFAARSKVAPTTELFPMSKINDAIQHVRDGKARYRVVLKADY 7bug-a1-m1-cA_7bug-a1-m1-cC Reduced oxygenase of carbazole 1,9a-dioxygenase Q84II6 Q84II6 1.6 X-RAY DIFFRACTION 103 1.0 213804 (Janthinobacterium sp. J3) 213804 (Janthinobacterium sp. J3) 383 383 1ww9-a1-m1-cA_1ww9-a1-m2-cA 1ww9-a1-m1-cA_1ww9-a1-m3-cA 1ww9-a1-m2-cA_1ww9-a1-m3-cA 2de5-a1-m1-cA_2de5-a1-m1-cB 2de5-a1-m1-cA_2de5-a1-m1-cC 2de5-a1-m1-cB_2de5-a1-m1-cC 2de6-a1-m1-cA_2de6-a1-m1-cB 2de6-a1-m1-cA_2de6-a1-m1-cC 2de6-a1-m1-cC_2de6-a1-m1-cB 2de7-a1-m1-cA_2de7-a1-m1-cC 2de7-a1-m1-cB_2de7-a1-m1-cA 2de7-a1-m1-cB_2de7-a1-m1-cC 3vmg-a1-m1-cA_3vmg-a1-m1-cB 3vmg-a1-m1-cA_3vmg-a1-m1-cC 3vmg-a1-m1-cB_3vmg-a1-m1-cC 3vmh-a1-m1-cA_3vmh-a1-m1-cB 3vmh-a1-m1-cA_3vmh-a1-m1-cC 3vmh-a1-m1-cB_3vmh-a1-m1-cC 3vmi-a1-m1-cA_3vmi-a1-m1-cC 3vmi-a1-m1-cB_3vmi-a1-m1-cA 3vmi-a1-m1-cB_3vmi-a1-m1-cC 4nb8-a1-m1-cA_4nb8-a1-m1-cB 4nb8-a1-m1-cA_4nb8-a1-m1-cC 4nb8-a1-m1-cB_4nb8-a1-m1-cC 4nb9-a1-m1-cA_4nb9-a1-m1-cB 4nb9-a1-m1-cA_4nb9-a1-m1-cC 4nb9-a1-m1-cB_4nb9-a1-m1-cC 4nba-a1-m1-cA_4nba-a1-m1-cB 4nba-a1-m1-cA_4nba-a1-m1-cC 4nba-a1-m1-cB_4nba-a1-m1-cC 4nbb-a1-m1-cA_4nbb-a1-m1-cB 4nbb-a1-m1-cA_4nbb-a1-m1-cC 4nbb-a1-m1-cB_4nbb-a1-m1-cC 4nbc-a1-m1-cA_4nbc-a1-m1-cB 4nbc-a1-m1-cA_4nbc-a1-m1-cC 4nbc-a1-m1-cB_4nbc-a1-m1-cC 4nbd-a1-m1-cA_4nbd-a1-m1-cB 4nbd-a1-m1-cA_4nbd-a1-m1-cC 4nbd-a1-m1-cB_4nbd-a1-m1-cC 4nbe-a1-m1-cA_4nbe-a1-m1-cB 4nbe-a1-m1-cA_4nbe-a1-m1-cC 4nbe-a1-m1-cB_4nbe-a1-m1-cC 4nbf-a1-m1-cA_4nbf-a1-m1-cB 4nbf-a1-m1-cC_4nbf-a1-m1-cA 4nbf-a1-m1-cC_4nbf-a1-m1-cB 4nbg-a1-m1-cA_4nbg-a1-m1-cB 4nbg-a1-m1-cA_4nbg-a1-m1-cC 4nbg-a1-m1-cB_4nbg-a1-m1-cC 4nbh-a1-m1-cA_4nbh-a1-m1-cB 4nbh-a1-m1-cA_4nbh-a1-m1-cC 4nbh-a1-m1-cC_4nbh-a1-m1-cB 6ll0-a1-m1-cA_6ll0-a1-m1-cB 6ll0-a1-m1-cA_6ll0-a1-m1-cC 6ll0-a1-m1-cB_6ll0-a1-m1-cC 6ll1-a1-m1-cA_6ll1-a1-m1-cB 6ll1-a1-m1-cA_6ll1-a1-m1-cC 6ll1-a1-m1-cB_6ll1-a1-m1-cC 6ll4-a1-m1-cA_6ll4-a1-m1-cB 6ll4-a1-m1-cA_6ll4-a1-m1-cC 6ll4-a1-m1-cB_6ll4-a1-m1-cC 6llf-a1-m1-cA_6llf-a1-m1-cB 6llf-a1-m1-cA_6llf-a1-m1-cC 6llf-a1-m1-cC_6llf-a1-m1-cB 6llh-a1-m1-cA_6llh-a1-m1-cB 6llh-a1-m1-cA_6llh-a1-m1-cC 6llh-a1-m1-cB_6llh-a1-m1-cC 6llk-a1-m1-cA_6llk-a1-m2-cA 6llk-a1-m1-cA_6llk-a1-m3-cA 6llk-a1-m2-cA_6llk-a1-m3-cA 6llm-a1-m1-cA_6llm-a1-m2-cA 6llm-a1-m1-cA_6llm-a1-m3-cA 6llm-a1-m2-cA_6llm-a1-m3-cA 7bug-a1-m1-cA_7bug-a1-m1-cB 7bug-a1-m1-cB_7bug-a1-m1-cC 7bui-a1-m1-cA_7bui-a1-m1-cB 7bui-a1-m1-cC_7bui-a1-m1-cA 7bui-a1-m1-cC_7bui-a1-m1-cB ANVDEAILKRVKGWAPYVDAKLGFRNHWYPVMFSKEINEGEPKTLKLLGENLLVNRIDGKLYCLKDRCLHRGVQLSVKVECKTKSTITCWYHAWTYRWEDGVLCDILTNPTSAQIGRQKLKTYPVQEAKGCVFIYLGDGDPPPLARDTPPNFLDDDMEILGKNQIIKSNWRLAVENGFDPSHIYIHKDSILVKDNDLALPLGFAPGGDRKQQTRVVDDDVVGRKGVYDLIGEHGVPVFEGTIGGEVVREGAYGEKIVANDISIWLPGVLKVNPFPNPDMMQFEWYVPIDENTHYYFQTLGKPCANDEERKKYEQEFESKWKPMALEGFNNDDIWAREAMVDFYADDKGWVNEILFESDEAIVAWRKLASEHNQGIQTQAHVSG ANVDEAILKRVKGWAPYVDAKLGFRNHWYPVMFSKEINEGEPKTLKLLGENLLVNRIDGKLYCLKDRCLHRGVQLSVKVECKTKSTITCWYHAWTYRWEDGVLCDILTNPTSAQIGRQKLKTYPVQEAKGCVFIYLGDGDPPPLARDTPPNFLDDDMEILGKNQIIKSNWRLAVENGFDPSHIYIHKDSILVKDNDLALPLGFAPGGDRKQQTRVVDDDVVGRKGVYDLIGEHGVPVFEGTIGGEVVREGAYGEKIVANDISIWLPGVLKVNPFPNPDMMQFEWYVPIDENTHYYFQTLGKPCANDEERKKYEQEFESKWKPMALEGFNNDDIWAREAMVDFYADDKGWVNEILFESDEAIVAWRKLASEHNQGIQTQAHVSG 7bup-a1-m1-cC_7bup-a1-m1-cB Crystal structure of PCNA from pathogenic yeast Candida albicans Q5AMN0 Q5AMN0 2.7 X-RAY DIFFRACTION 49 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 246 255 7bup-a1-m1-cA_7bup-a1-m1-cB 7bup-a1-m1-cA_7bup-a1-m1-cC MLEGKFEEAALLKKVVEAIKDCVKKCNFNCSEHGITVQAVDDSRVLLVSLLIGQTSFSEYRCDRDVTLGIDLESFSKIIKSANNEDFLTLLAEDSPDQIMAILEEKQKEKISEYSLKLMDIDMEYDAVVNMPSSDFAKLVRDLKNLSESLRVVVTKDSVKFTSEGDSGSGSVILKPYTNLKNERESVTISLDDPVDLTFGLKYLNDIVKAATLSDVITIKLADKTPALFEFKMQSGGYLRFYLAPK MLEGKFEEAALLKKVVEAIKDCVKKCNFNCSEHGITVQAVDDSRVLLVSLLIGQTSFSEYRCDRDVTLGIDLESFSKIIKSANNEDFLTLLAEDSPDQIMAILEEKQKEKISEYSLKLMDIDSEFLQIDDMEYDAVVNMPSSDFAKLVRDLKNLSESLRVVVTKDSVKFTSEGDSGSGSVILKPYTNLKNERESVTISLDDPVDLTFGLKYLNDIVKAATLSDVITIKLADKTPALFEFKMQSGGYLRFYLAPKF 7bur-a1-m1-cA_7bur-a1-m1-cB Chalcone synthase from Glycine max (L.) Merr (soybean) complexed with naringenin P24826 P24826 1.82 X-RAY DIFFRACTION 169 1.0 3847 (Glycine max) 3847 (Glycine max) 386 387 7bus-a1-m1-cA_7bus-a1-m1-cB MVSVEEIRKAQRAEGPATVMAIGTATPPNCVDQSTYPDYYFRITNSEHMTELKEKFKRMCDKSMIKKRYYLNEEILKENPSVCAYMAPSLDARQDMVVVEVPKLGKEAATKAIKEWGQPKSKITHLIFCTTSGVDMPGADYQLTKLLGLRPSVKRYMMYQQGFAGGTVLRLAKDLAENNKGARVLVVCSEITAVTFRGPTDTHLDSLVGQALFGDGAAAVIVGSDPLPVEKPLFQLVWTAQTILPDSEGAIDGHLREVGLTFHLLKDVPGLISKNIEKALVEAFQPLGISDYNSIFWIAHPGGPAILDQVEAKLGLKPEKMEATRHVLSEYGNMSSACVLFILDQMRKKSIENGLGTTGEGLDWGVLFGFGPGLTVETVVLRSVTL HMVSVEEIRKAQRAEGPATVMAIGTATPPNCVDQSTYPDYYFRITNSEHMTELKEKFKRMCDKSMIKKRYYLNEEILKENPSVCAYMAPSLDARQDMVVVEVPKLGKEAATKAIKEWGQPKSKITHLIFCTTSGVDMPGADYQLTKLLGLRPSVKRYMMYQQGFAGGTVLRLAKDLAENNKGARVLVVCSEITAVTFRGPTDTHLDSLVGQALFGDGAAAVIVGSDPLPVEKPLFQLVWTAQTILPDSEGAIDGHLREVGLTFHLLKDVPGLISKNIEKALVEAFQPLGISDYNSIFWIAHPGGPAILDQVEAKLGLKPEKMEATRHVLSEYGNMSSACVLFILDQMRKKSIENGLGTTGEGLDWGVLFGFGPGLTVETVVLRSVTL 7buv-a2-m1-cC_7buv-a2-m1-cD Eucommia ulmoides TPT3, crystal form 2 A0A1L3KPU1 A0A1L3KPU1 3.3 X-RAY DIFFRACTION 108 0.988 4392 (Eucommia ulmoides) 4392 (Eucommia ulmoides) 322 325 7buv-a1-m1-cB_7buv-a1-m1-cA 7buv-a3-m1-cE_7buv-a3-m1-cF 7buv-a4-m1-cG_7buv-a4-m2-cG ELKSKFVKVYSVLKKELLHDSAFTDDSRNWVERIMDYNVPGGKLNRGLSVVDSYKLLRELSDDEIFLASVLGWSVEWIQACALVLDDIMDHSHFRLPKVGMIAINDGLILRNHVPRILRTHFQTEHYYLQLVDLFHEVECQTIAGQMLDLITTLAGEINLSSYSLPVYQQITLSKTSYYSFYLPVACALVMLGENLESHDDMKDILLEMGTYFQVQDDYLDCFGDPEVIGKIGTDIEDNKCTWLVVQALEHCNEEQKKLLYDNYGPKQVAKVKELYKTLNLEDLFTQYENKTCKKLTKSIEALPNVAVQAVLKSFLAKIHKR LKSKFVKVYSVLKKELLHDSAFTDDSRNWVERIMDYNVPGGKLNRGLSVVDSYKLLRELTLSDDEIFLASVLGWSVEWIQACALVLDDIMDWFRLPKVGMIAINDGLILRNHVPRILRTHFQTEHYYLQLVDLFHEVECQTIAGQMLDLITTLAGEINLSSYSLPVYQQITLSKTSYYSFYLPVACALVMLGENLESHDDMKDILLEMGTYFQVQDDYLDCFGDPEVIGKIGTDIEDNKCTWLVVQALEHCNEEQKKLLYDNYGRKDPKQVAKVKELYKTLNLEDLFTQYENKTCKKLTKSIEALPNVAVQAVLKSFLAKIHKRL 7bux-a1-m1-cB_7bux-a1-m1-cA Eucommia ulmoides FPS1 Q94IE8 Q94IE8 2.2 X-RAY DIFFRACTION 132 1.0 4392 (Eucommia ulmoides) 4392 (Eucommia ulmoides) 331 341 DLKSKFLEVYSVLKSELLNDPAFDFTDDSRLWVERMLDYNVPGGKLNRGLSVIDSFKLLKEGKEPTDEEIFLACVLGWCIEWLQAYFLVLDDIMDSSHTRRGQPCWFRLPKVGMIAVNDGLILRNHIPRILKKHFKGKPYYVDLLDLFNEVEFQTASGQMIDLITTLVGEKDLSKYSLPLHHRIVQYKTAYYSFYLPVACALVMSGENLDNHVDVKNILVEMGTYFQVQDDYLDCFGTDIEDFKCSWLVVKALELANDEQKKLLHENYGKEDPECVAKVKKLYETLNLQDVFGEYERQSHGKLIKAIEGHSNKAVQFVLKSSLEKIYQRQK SDLKSKFLEVYSVLKSELLNDPAFDFTDDSRLWVERMLDYNVPGGKLNRGLSVIDSFKLLKEGKEPTDEEIFLACVLGWCIEWLQAYFLVLDDIMDSSHTRRGQPCWFRLPKVGMIAVNDGLILRNHIPRILKKHFKGKPYYVDLLDLFNEVEFQTASGQMIDLITTLVGEKDLSKYSLPLHHRIVQYKTAYYSFYLPVACALVMSGENLDNHVDVKNILVEMGTYFQVQDDYLDCFGDPKFIGKIGTDIEDFKCSWLVVKALELANDEQKKLLHENYGKEDPECVAKVKKLYETLNLQDVFGEYERQSHGKLIKAIEGHSNKAVQFVLKSSLEKIYQRQK 7bv3-a1-m1-cB_7bv3-a1-m1-cA Crystal structure of a ugt transferase from Siraitia grosvenorii in complex with UDP A0A346A6C4 A0A346A6C4 1.85 X-RAY DIFFRACTION 42 0.989 190515 (Siraitia grosvenorii) 190515 (Siraitia grosvenorii) 439 457 KVELVFVPGPGIGHLSTALQIADLLLRRDHRLSVTVLSIPLPSRIRFISLPQRQAVFETQKQNVKEAVAKLSDSSILAGLVLDMFCVTMVDVAKQLGVPSYVFFTSSAGYLSFTSHLQDLSDRHGKETQQLMRSDVEIAVPGFTNPVPGKVIPGVYFNKNMAEWLHDCARRFRETNGILVNTFSELESQVMDSFSDATAASQFPAVYAVGPILSLNAASSESQSGDEILKWLDQQPPSSVVFLCFGSKGSLNPDQAREIAHALERSGHRFVWSLRQPSPKGKFEKPIEYDNIEDVLPEGFLDRTAEMGRVIGWAPQVEILGHPATGGFVSHCGWNSTLESLWYGVPIATWPMYAEQHFNAFEMGVELGLAVGISSESSIEEGVIVSAEKIEEGIRKLMGGGGGEVRKLVKAKSEESRKSVMEGGSSFTSLNRFIDEVMK KVELVFVPGPGIGHLSTALQIADLLLRRDHRLSVTVLSIPLPWQPESLFPSSTTTTTSRIRFISLPQRPLPGPFQFQAVFETQKQNVKEAVAKLSDSSILAGLVLDMFCVTMVDVAKQLGVPSYVFFTSSAGYLSFTSHLQDLSDRHGKETQQLMRSDVEIAVPGFTNPVPGKVIPGVYFNKNMAEWLHDCARRFRETNGILVNTFSELESQVMDSFSDATAASQFPAVYAVGPILSLNASSESQSGDEILKWLDQQPPSSVVFLCFGSKGSLNPDQAREIAHALERSGHRFVWSLRQPSPKGKFEKPIEYDNIEDVLPEGFLDRTAEMGRVIGWAPQVEILGHPATGGFVSHCGWNSTLESLWYGVPIATWPMYAEQHFNAFEMGVELGLAVGISSESSIGVIVSAEKIEEGIRKLMGGGEVRKLVKAKSEESRKSVMEGGSSFTSLNRFIDEVMK 7bvd-a1-m1-cB_7bvd-a1-m1-cA Anthranilate synthase component I (TrpE)[Mycolicibacterium smegmatis] A0QX93 A0QX93 1.7 X-RAY DIFFRACTION 151 0.996 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 495 499 GAALAETTSREDFRALATEHRVVPVIRKVLADSETPLSAYRKLAANRPGTFLLESAEGRSWSRWSFIGAGAPSALTVRDNAAAWLGTAPEGAPSGGDPLDALRATLDLLKTEAMAGLPPLSSGLVGFFAYDMVRRLERLPELAVDDLGLPDMLLLLATDIAAVDHHEGTITLIANAVNWNGTDERVDWAYDDAVARLDVMTKALGQPLTSAVATFSRPAPDHRAQRTMEEYTEIVDKLVGDIEAGEAFQVVPSQRFEMDTAADPLDVYRILRVTNPSPYMYLLNIPDADGGLDFSIVGSSPEALVTVKDGRATTHPIAGTRWRDVLLEKELLADEKEHLMLVDLGRNDLGRVCRPGTVRVDDYSHIERYSHVMHLVSTVTGELAEDKTALDAVTACFPAGTLSGAPKVRAMELIEEVEKTRRGLYGGVVGYLDFAGNADFAIAIRTALMRNGTAYVQAGGGVVADSNGPYEYTEAANKARAVLNAIAAAATLAEP AALAETTSREDFRALATEHRVVPVIRKVLADSETPLSAYRKLAANRPGTFLLESAENRSWSRWSFIGAGAPSALTVRDNAAAWLGTAPEGAPSGGDPLDALRATLDLLKTEAMAGLPPLSSGLVGFFAYDMVRRLERLPELAVDDLGLPDMLLLLATDIAAVDHHEGTITLIANAVNWNGTDERVDWAYDDAVARLDVMTKALGQPLTSAVATFSRPAPDHRAQRTMEEYTEIVDKLVGDIEAGEAFQVVPSQRFEMDTAADPLDVYRILRVTNPSPYMYLLNIPDADGGLDFSIVGSSPEALVTVKDGRATTHPIAGTRWREEDVLLEKELLADEKERAEHLMLVDLGRNDLGRVCRPGTVRVDDYSHIERYSHVMHLVSTVTGELAEDKTALDAVTACFPAGTLSGAPKVRAMELIEEVEKTRRGLYGGVVGYLDFAGNADFAIAIRTALMRNGTAYVQAGGGVVADSNGPYEYTEAANKARAVLNAIAAAATLAEP 7bvh-a1-m1-cA_7bvh-a1-m1-cB Crystal structure of arabinosyltransferase EmbC2-AcpM2 complex from Mycobacterium smegmatis complexed with di-arabinose A0R612 A0R612 3.3 X-RAY DIFFRACTION 32 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 1035 1035 7bve-a1-m1-cA_7bve-a1-m1-cB SNHRTARLVAIIAGLLGTLMAIATPLLPVEQTTAELNWPQNGVWQSVDAPLIGYVATDLTVTVPCQAAAGLVGPENRNRSVLLSTVPKQAPKAIDRGLLIERINNDLTVIVRNTPVVSAPLEQVLSPDCRYLTFTAHADKVTGEFVGLTQGPDDDDPGEAVRGERSGYDFRPQIVGVFTDLSGPAPEGLQLSATIDTRYSTSPTLLKLLAMIVGVAMTVIALGALHVLDCADGRRHKRFLPSRWWSMTPLDGLVSAMLVWWHFVGANTADDGYILTMARVSEHAGYMANYYRWFGTPESPFGWYYDLLALWAHVSTASVWMRFPTLLMGLACWWVISREVIPRLGAAAKHSRAAAWTAAGLFLAFWLPLNNGLRPEPIIALGILLTWCSVERGVATSRLLPVAVAIIIGALTLFSGPTGIAAVGALLVAIGPLKTIVAAHVSRFGYWALLAPIAAAGTVTIFLIFRDQTLAAELQASSFKSAVGPSLAWFDEHIRYSRLFTTSPDGSVARRFAVLTLLLALAVSIAMTLRKGRIPGTALGPSRRIIGITIISFLAMMFTPTKWTHHFGVFAGLAGCLGALAAVAVTTTAMKSRRNRTVFGAAVLFVTALSFATVNGWWYVSNFGVPWSNSFPEFKFGFTTMLLGLSVLALLVAAWFHFSGRDVSPDRPQRRWQRLLVAPLAVATWALVIFEVVSLTLGMINQYPAWSVGRSNLNALTGKTCGLANDVLVEQNANAGMLTPIGEPAGQALGAVTSLGFGPNGIPSDVSADPAAGINGSRARLPYGLNPATTPVLGSWRSGTQQPAVLRSAWYRLPDRDQAGPLLVVSAAGRFDQGEVEVQWATDEQAAANEPGGSITFGDVGAAPAWRNLRAPLSSIPPEATQIRLVASDDDLAPQHWIALTPPRIPELRTLQEVVGSSDPVMLDWLVGLAFPCQRPFDHRYGVVEVPKWRILPDRFGAEANSPVMDYLGGGPLGITELLLRPSSVPTYLKDDWYRDWGSLQRLTPWYPDAQPARLDLGTATRSGWWSPAPLRLSH SNHRTARLVAIIAGLLGTLMAIATPLLPVEQTTAELNWPQNGVWQSVDAPLIGYVATDLTVTVPCQAAAGLVGPENRNRSVLLSTVPKQAPKAIDRGLLIERINNDLTVIVRNTPVVSAPLEQVLSPDCRYLTFTAHADKVTGEFVGLTQGPDDDDPGEAVRGERSGYDFRPQIVGVFTDLSGPAPEGLQLSATIDTRYSTSPTLLKLLAMIVGVAMTVIALGALHVLDCADGRRHKRFLPSRWWSMTPLDGLVSAMLVWWHFVGANTADDGYILTMARVSEHAGYMANYYRWFGTPESPFGWYYDLLALWAHVSTASVWMRFPTLLMGLACWWVISREVIPRLGAAAKHSRAAAWTAAGLFLAFWLPLNNGLRPEPIIALGILLTWCSVERGVATSRLLPVAVAIIIGALTLFSGPTGIAAVGALLVAIGPLKTIVAAHVSRFGYWALLAPIAAAGTVTIFLIFRDQTLAAELQASSFKSAVGPSLAWFDEHIRYSRLFTTSPDGSVARRFAVLTLLLALAVSIAMTLRKGRIPGTALGPSRRIIGITIISFLAMMFTPTKWTHHFGVFAGLAGCLGALAAVAVTTTAMKSRRNRTVFGAAVLFVTALSFATVNGWWYVSNFGVPWSNSFPEFKFGFTTMLLGLSVLALLVAAWFHFSGRDVSPDRPQRRWQRLLVAPLAVATWALVIFEVVSLTLGMINQYPAWSVGRSNLNALTGKTCGLANDVLVEQNANAGMLTPIGEPAGQALGAVTSLGFGPNGIPSDVSADPAAGINGSRARLPYGLNPATTPVLGSWRSGTQQPAVLRSAWYRLPDRDQAGPLLVVSAAGRFDQGEVEVQWATDEQAAANEPGGSITFGDVGAAPAWRNLRAPLSSIPPEATQIRLVASDDDLAPQHWIALTPPRIPELRTLQEVVGSSDPVMLDWLVGLAFPCQRPFDHRYGVVEVPKWRILPDRFGAEANSPVMDYLGGGPLGITELLLRPSSVPTYLKDDWYRDWGSLQRLTPWYPDAQPARLDLGTATRSGWWSPAPLRLSH 7bvz-a1-m1-cA_7bvz-a1-m3-cA Crystal structure of MreB5 of Spiroplasma citri bound to ADP Q8VQG1 Q8VQG1 2.3 X-RAY DIFFRACTION 75 1.0 2133 (Spiroplasma citri) 2133 (Spiroplasma citri) 329 329 7bvy-a1-m1-cA_7bvy-a1-m2-cA 7bvy-a1-m1-cA_7bvy-a1-m3-cA 7bvz-a1-m1-cA_7bvz-a1-m2-cA PETRPFISLDLGTANVLAYVSGQGVVYNEPSLMAYNNKTNSLIALGKAAYDMVGKTHGDIRMVTPLVDGVIADMEAAQDLLKHIFSRMKMMKNAIVLLACPSGVTELEREALKNVAKEMGAELVIIEEEAKMAALGAGINIELPQGHLIIDIGGGTTDLAIISSGDIVVSRSIKVAGNHFDDDIRKYIRSEYNIAIGQKTAEDVKKFIGSLVKYHNERSMQIYGRDIVSGLPKEAKISSEEIRNVLLNAFSKITDLVIELLENTPPELAGDIMRNGITVCGGGALIRNIDKYFFDIFQLPTKIASDSLNCVIEGTKIFEKTIKKNIENG PETRPFISLDLGTANVLAYVSGQGVVYNEPSLMAYNNKTNSLIALGKAAYDMVGKTHGDIRMVTPLVDGVIADMEAAQDLLKHIFSRMKMMKNAIVLLACPSGVTELEREALKNVAKEMGAELVIIEEEAKMAALGAGINIELPQGHLIIDIGGGTTDLAIISSGDIVVSRSIKVAGNHFDDDIRKYIRSEYNIAIGQKTAEDVKKFIGSLVKYHNERSMQIYGRDIVSGLPKEAKISSEEIRNVLLNAFSKITDLVIELLENTPPELAGDIMRNGITVCGGGALIRNIDKYFFDIFQLPTKIASDSLNCVIEGTKIFEKTIKKNIENG 7bw6-a1-m10-ca_7bw6-a1-m23-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m10-ca_7bw6-a1-m23-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m11-ca_7bw6-a1-m20-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m11-ca_7bw6-a1-m20-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m13-ca_7bw6-a1-m46-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m13-ca_7bw6-a1-m46-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m15-ca_7bw6-a1-m28-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m15-ca_7bw6-a1-m28-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m16-ce_7bw6-a1-m11-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m11-cc_7bw6-a1-m11-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m17-ca_7bw6-a1-m27-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m17-ca_7bw6-a1-m27-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m19-ca_7bw6-a1-m59-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m19-ca_7bw6-a1-m59-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m20-ca_7bw6-a1-m38-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m20-ca_7bw6-a1-m38-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m22-ca_7bw6-a1-m42-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m22-ca_7bw6-a1-m42-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m24-ca_7bw6-a1-m9-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m24-ca_7bw6-a1-m9-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m24-cc_7bw6-a1-m24-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m26-cc_7bw6-a1-m26-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m28-cc_7bw6-a1-m28-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m28-ce_7bw6-a1-m17-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m17-cc_7bw6-a1-m17-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m29-ce_7bw6-a1-m15-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m15-cc_7bw6-a1-m15-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m3-ca_7bw6-a1-m41-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m3-ca_7bw6-a1-m41-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m31-ca_7bw6-a1-m40-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m31-ca_7bw6-a1-m40-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m33-ca_7bw6-a1-m6-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m33-ca_7bw6-a1-m6-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m35-ca_7bw6-a1-m48-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m35-ca_7bw6-a1-m48-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m36-ce_7bw6-a1-m31-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m31-cc_7bw6-a1-m31-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m37-ca_7bw6-a1-m47-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m37-ca_7bw6-a1-m47-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m39-cc_7bw6-a1-m39-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m39-ce_7bw6-a1-m20-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m20-cc_7bw6-a1-m20-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m40-ca_7bw6-a1-m58-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m40-ca_7bw6-a1-m58-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m42-cc_7bw6-a1-m42-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m42-ce_7bw6-a1-m3-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m3-cc_7bw6-a1-m3-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m43-ce_7bw6-a1-m22-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m22-cc_7bw6-a1-m22-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m44-cc_7bw6-a1-m44-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m45-cc_7bw6-a1-m45-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m10-cc_7bw6-a1-m10-ca 7bw6-a1-m24-ce_7bw6-a1-m10-ca KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m46-cc_7bw6-a1-m46-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m47-cc_7bw6-a1-m47-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m47-ce_7bw6-a1-m13-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m13-cc_7bw6-a1-m13-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m48-cc_7bw6-a1-m48-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m48-ce_7bw6-a1-m37-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m37-cc_7bw6-a1-m37-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m49-cc_7bw6-a1-m49-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m49-ce_7bw6-a1-m35-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m35-cc_7bw6-a1-m35-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m5-cc_7bw6-a1-m5-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m50-cc_7bw6-a1-m50-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m51-ca_7bw6-a1-m60-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m51-ca_7bw6-a1-m60-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m52-cc_7bw6-a1-m52-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m53-cc_7bw6-a1-m53-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m54-cc_7bw6-a1-m54-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m55-ca_7bw6-a1-m8-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m55-ca_7bw6-a1-m8-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m56-cc_7bw6-a1-m56-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m56-ce_7bw6-a1-m51-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m51-cc_7bw6-a1-m51-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m57-ca_7bw6-a1-m7-cB Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 127 0.999 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1336 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m57-ca_7bw6-a1-m7-cD Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 119 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1335 1337 GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL IAGLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m58-cc_7bw6-a1-m58-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m59-cc_7bw6-a1-m59-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m59-ce_7bw6-a1-m40-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m40-cc_7bw6-a1-m40-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m6-cc_7bw6-a1-m6-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m60-cc_7bw6-a1-m60-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m60-ce_7bw6-a1-m19-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m19-cc_7bw6-a1-m19-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m7-cc_7bw6-a1-m7-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m7-ce_7bw6-a1-m33-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m33-cc_7bw6-a1-m33-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m8-cc_7bw6-a1-m8-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 287 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m8-ce_7bw6-a1-m57-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m57-cc_7bw6-a1-m57-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m9-cc_7bw6-a1-m9-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 288 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 KQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw6-a1-m9-ce_7bw6-a1-m55-ca Varicella-zoster virus capsid Q6QCL5 Q6QCL5 3.7 ELECTRON MICROSCOPY 300 1.0 10335 (Human alphaherpesvirus 3) 10335 (Human alphaherpesvirus 3) 1298 1335 7bw6-a1-m55-cc_7bw6-a1-m55-ca DNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL GLFNIPAGIIPTGNVLSTIEVCAHRCIFDFFKQIRSDDNSLYSAQFDILLGTYCNTLNFVRFLELGLSVACICTKFPELAYVRDGVIQFEVQQPMIARDGPHPVDQPVHNYMVKRIHKRSLSAAFAIASEALSLLSNTYVDGTEIDSSLRIRAIQQMARNLRTVLDSFERGTADQLLGVLLEKAPPLSLLSPINKFQPEGHLNRVARAALLSDLKRRVCADMFFMTRHAREPRLISAYLSDMVSCTQPSVMVSRITHTNTRGRQVDGVLVTTATLKRQLLQGILQIDDTAADVPVTYGEMVLQGTNLVTALVMGKAVRGMDDVANARVPADLVIVGDKLVFLEALERRVYQATRVAYPLIGNIDITFIMPMGVFQANSMDRYTRHAGDFSTVSEQDPRQFPPQGIFFYNKDGILTQLTLRDAMGTICHSSLLDVEATLVALRQQHLDRQCYFGVYVAEGTEDTLDVQMGRFMETWADMMPHHPHWVNEHLTILQFIAPSNPRLRFELNPAFDFFVAPGDVDLPGPQRPPEAMPTVNATLRIINGNIPVPLCPISFRDCRGTQLGLGRHTMTPATIKAVKDTFEDRAYPTIFYMLEAVIHGNERNFCALLRLLTQCIRGYWEQSHRVAFVNNFHMLMYITTYLGNGELPEVCINIYRDLLQHVRALRQTITDFTIQGEGHNGETSEALNNILTDDTFIAPILWDCDALIYRDEAARDRLPAIRVSGRNGYQALHFVDMAGHNFQRRDNVLIHGRPVIPITPHHDREWGILSKIYYYIVIPAFSRGSCCTMGVRYDRLYPALQAVIVPEIPADEEAPTTPEDPRHPLHAHQLVPNSLNVYFHNAHLTVDGDALLTLQELMGDMAERTTAILVSSAPDAGAATATTRNMRIYDGALYHGLIMMAYQAYDETIATGTFFYPVPVNPLFACPEHLASLRGMTNARRVLAKMVPPIPPFLGANHHATIRQPVAYHVTHSKSDFNTLTYSLLGGYFKFTPISLTHQLRTGFHPGIAFTVVRQDRFATEQLLYAERASESYFVGQIQVHHHDAIGGVNFTLTQPRAHVDLGVGYTAVCATAALRCPLTDMGNTAQNLFFSRGGVPMLHDNVTESLRRITASGGRLNPTEPLPIFGGLRPATSAGIARGQASVCEFVAMPVSTDLQYFRTACNPRGRASGMLYMGDRDADIEAIMFDHTQSDVAYTDRATLNPWASQKHSYGDRLYNGTYNLTGASPIYSPCFKFFTPAEVNTNCNTLDRLLMEAKAVASQSSTDTEYQFKRPPGSTEMTQDPCGLFQEAYPPLCSSDAAMLRTAHAGETGADEVHLAQYLIRDASPLRGCLPL 7bw9-a1-m1-cB_7bw9-a1-m1-cC Crystal structure of Serine acetyltransferase isoform 3 in complex with cysteine from Entamoeba histolytica Q401L4 Q401L4 2.131 X-RAY DIFFRACTION 126 1.0 5759 (Entamoeba histolytica) 5759 (Entamoeba histolytica) 276 277 7bw9-a1-m1-cB_7bw9-a1-m1-cA 7bw9-a1-m1-cC_7bw9-a1-m1-cA MSSLLQQTSQLLVQSYQSDNIAFKSTKQFPEKKSFLELELIQKILFPDFFTRRDKRTFNNVLERLSLLVYHIQNSIEAYYNQQLAEKCITALLSQFVTIRELVKQDIIAAYTGDPAASSLAMIIRSYPGIHVMMIQRVAHILYMNGDIEYSRELMENIHSVTGIDIHPGTSIGNHFFIDHGVGVVIGETAVIGNWCRVYQSVTLGAMSFNKRHPTIGDFVVIGAGAKVLGNITIGSNVKIGANCWITQNIDQDQIVFISEHPSQITKENLSWVNSP MSSLLQQTSQLLVQSYQSDNIAFKSTKQFPEKKSFLELELIQKILFPDFFTRRDKRTFNNVLERLSLLVYHIQNSIEAYYNQQLAEKCITALLSQFVTIRELVKQDIIAAYTGDPAASSLAMIIRSYPGIHVMMIQRVAHILYMNGDIEYSRELMENIHSVTGIDIHPGTSIGNHFFIDHGVGVVIGETAVIGNWCRVYQSVTLGAMSFNKRHPTIGDFVVIGAGAKVLGNITIGSNVKIGANCWITQNIDQDQIVFISEHPSQITKENLSWVNSPE 7bwg-a1-m1-cB_7bwg-a1-m1-cA A Glycoside Hydrolase Family 20 beta-N-Acetylglucosaminidase A0A1W6AQA7 A0A1W6AQA7 2.85 X-RAY DIFFRACTION 43 0.985 1566025 (Microbacterium sp. HJ5) 1566025 (Microbacterium sp. HJ5) 473 485 PLPAVVPAPAAIEQATGAPFRLADAASALSALLEARTGAVIALRIEGGGPAESYALTADEASVTVTGADAAGLFYGVQTLGQLLADAWVVPAVSIEDAPRFAYRGVMLDVARHFHPVETVKAYIGHAASLKLNALHLHLSDDQGWRIELHSRPELTALASSTAVGGDPGGFYTKDDYREIVEYAASRHMIVVPEIDMPSHTHAIGLAYPELAEEPVITDPMRETLPESGTPYLGIEVGFSSLKIHDEATYDFAADVFGELAGMTPGPYLHLGGDEAHGTAEEDFALFVSRVSTIIADLGKTPVAWHEAGDAGGLAGATVGQYWGYVTPTDGMDDRARGFVSNGGQLILSPADAIYLDMKYPTGPDLGLSWANGPTSVQRAYDWEPSTVIPGIDDADILGVEAPLWSETLRSLDDIETMAFPRIAAAAEAAWSPATGASDLRTWESFRARVGALGPLWTSLGIGFHPSGEIDWA LPAVVPAPAAIEQATGAPFRLDASTRIEGEADAASALSALLEARTGAVIALRIEGGGPAESYALTADEASVTVTGADAAGLFYGVQTLGQLLARDGDAWVVPAVSIEDAPRFAYRGVMLDVARHFHPVETVKAYIGHAASLKLNALHLHLSDDQGWRIELHSRPELTALASSTAVGGDPGGFYTKDDYREIVEYAASRHMIVVPEIDMPSHTHAIGLAYPELAEITDPMRETAAATGGALPESGTPYLGIEVGFSSLKIHDEATYDFAADVFGELAGMTPGPYLHLGGDEAHGTAEEDFALFVSRVSTIIADLGKTPVAWHEAGDAGGLAGATVGQYWGYVTPTDGMDDRARGFVSNGGQLILSPADAIYLDMKYPTGPDLGLSWANGPTSVQRAYDWEPSTVIPGIDDADILGVEAPLWSETLRSLDDIETMAFPRIAAAAEAAWSPATDLRTWESFRARVGALGPLWTSLGIGFHPSGEIDWA 7bwu-a1-m1-cC_7bwu-a1-m1-cD Restructuring hemagglutinin-neuraminidase (HN) of Newcastle disease virus produced from Oryza sativa I7EFR1 I7EFR1 1.87 X-RAY DIFFRACTION 29 0.998 445 447 APVHDPDYIGGIGKELIVDDISDVTSFYPSAYQEHLNFIPAPTTGSGCTRIPSFDMSTTHYCYTHNVILSGCRDHSHSHQYLALGVLRTSATGRVFFSTLRSINLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYKSVAPTSMVHGRLGFDGQYHEKDLDTTVLFKDWVANYPGVGGGSFIDDRVWFPVYGGLKPNSPSDTAQEGKYVIYKRHNNTCPDEQDYQIRMAKSSYKPGRFGGKRVQQAILSIKVSTSLGKDPVLTIPPNTITLMGAEGRILTVGTSHFLYQRGSSYFSPALLYPMTVNNKTATLHSPYTFNAFTRPGSVPCQASARCPNSCITGVYTDPYPLIFHRNHTLRGVFGTMLDDEQARLNPVSAVFDNISRSRVTRVSSSSTKAAYTTSTCFKVVKTNKAYCLSIAEISNTLFGEFRIVPLLVEILKDD GCGAPVHDPDYIGGIGKELIVDDISDVTSFYPSAYQEHLNFIPAPTTGSGCTRIPSFDMSTTHYCYTHNVILSGCRDHSHSHQYLALGVLRTSATGRVFFSTLRSINLDDTQNRKSCSVSATPLGCDMLCSKVTETEEEDYKSVAPTSMVHGRLGFDGQYHEKDLDTTVLFKDWVANYPGVGGGSFIDDRVWFPVYGGLKPNSPSDTAQEGKYVIYKRHNNTCPDEQDYQIRMAKSSYKPGRFGGKRVQQAILSIKVSTSLGKDPVLTIPPNTITLMGAEGRILTVGTSHFLYQRGSSYFSPALLYPMTVNNKTATLHSPYTFNAFTRPGSVPCQASARCPNSCITGVYTDPYPLIFHRNHTLRGVFGTMLDDEQARLNPVSAVFDNISRSRVTRVSSSSTKAAYTTSTCFKVVKTNKAYCLSIAEISNTLFGEFRIVPLLVEILKD 7bww-a5-m1-cC_7bww-a5-m1-cD Structure of the engineered metallo-Diels-Alderase DA7 W16S 1.5 X-RAY DIFFRACTION 45 1.0 32630 (synthetic construct) 32630 (synthetic construct) 86 88 7bww-a5-m1-cB_7bww-a5-m1-cA PLAQQIKNILSLISQADAAGRMDEVRTLQLNLCQLMVEYFQGSPLAQQIKNIHSFGHQAWAAGRLDEVLTIQENLYQLMKEYFQQS GSPLAQQIKNILSLISQADAAGRMDEVRTLQLNLCQLMVEYFQGSPLAQQIKNIHSFGHQAWAAGRLDEVLTIQENLYQLMKEYFQQS 7bww-a5-m1-cD_7bww-a5-m1-cA Structure of the engineered metallo-Diels-Alderase DA7 W16S 1.5 X-RAY DIFFRACTION 39 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 90 7bww-a5-m1-cC_7bww-a5-m1-cB GSPLAQQIKNILSLISQADAAGRMDEVRTLQLNLCQLMVEYFQGSPLAQQIKNIHSFGHQAWAAGRLDEVLTIQENLYQLMKEYFQQS SGSPLAQQIKNILSLISQADAAGRMDEVRTLQLNLCQLMVEYFQQGSPLAQQIKNIHSFGHQAWAAGRLDEVLTIQENLYQLMKEYFQQS 7bx7-a1-m1-cC_7bx7-a1-m1-cF Cryo-EM structure of amyloid fibril formed by hnRNPA1 low complexity domain P09651 P09651 2.8 ELECTRON MICROSCOPY 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 7bx7-a1-m1-cA_7bx7-a1-m1-cD 7bx7-a1-m1-cB_7bx7-a1-m1-cD 7bx7-a1-m1-cB_7bx7-a1-m1-cE 7bx7-a1-m1-cC_7bx7-a1-m1-cE GSNFGGGGSYNDFGNYNNQSSNFGPMKGGNFGGRSSGPYGGGGQY GSNFGGGGSYNDFGNYNNQSSNFGPMKGGNFGGRSSGPYGGGGQY 7bx7-a1-m1-cE_7bx7-a1-m1-cF Cryo-EM structure of amyloid fibril formed by hnRNPA1 low complexity domain P09651 P09651 2.8 ELECTRON MICROSCOPY 186 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 45 45 7bx7-a1-m1-cA_7bx7-a1-m1-cB 7bx7-a1-m1-cB_7bx7-a1-m1-cC 7bx7-a1-m1-cD_7bx7-a1-m1-cE GSNFGGGGSYNDFGNYNNQSSNFGPMKGGNFGGRSSGPYGGGGQY GSNFGGGGSYNDFGNYNNQSSNFGPMKGGNFGGRSSGPYGGGGQY 7bx8-a1-m1-cA_7bx8-a1-m1-cB Mycobacterium smegmatis arabinosyltransferase complex EmbB2-AcpM2 in symmetric ""resting state"" A0R614 A0R614 3.6 ELECTRON MICROSCOPY 39 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 1038 1038 7bwr-a1-m1-cB_7bwr-a1-m1-cA VRIARWVATIAGLLGFVLSVSIPLLPVTQTTATLNWPQQGRLDNVTAPLISQAPLELTATVPCSVVRDLPPEGGLVFGTAPAEGRDAALNAMLVNVTETRVDVIVRNVVVASVNRDRVCQRIEITSNLDGTYADFVGLTQISGEDAGKLQRTGYPDPNLRPAIVGVFTDLTGPAPQGLSVSAEIDTRFTTHPTALKLAAMLLAIVSTVIALLALWRLDRLDGRRMHRLIPTRWRTVTAVDGVVVGGMAIWYVIGANSSDDGYILQMARTAEHAGYMANYFRWFGSPEDPFGWYYNVLALMTKVSDASIWIRLPDLICALICWLLLSREVLPRLGPAVAGSRAAMWAAGLVLLGAWMPFNNGLRPEGQIATGALITYVLIERAVTSGRLTPAALAITTAAFTLGIQPTGLIAVAALLAGGRPILRIVMRRRRLVGTWPLIAPLLAAGTVILAVVFADQTIATVLEATRIRTAIGPSQGAISRRVAFVFTAMCLFPSLFMMLRRKHIAGVARGPAWRLMGIIFATMFFLMFTPTKWIHHFGLFAAVGGAMAALATVLVSPTVLRSARNRMAFLSLVLFVLAFCFASTNGWWYVSNFGAPFNNSVPKVGGVQISAIFFALSAIAALWAFWLHLTRRTESRVVDRLTAAPIPVAAGFMVVVMMASMAIGVVRQYPTYSNGWANIRAFAGGCGLADDVLVEPDSNAGFLTPLPGAYGPLGPLGGEDPQGFSPDGVPDRIIAEAIRLNNPQPGTDYDWNRPIKLDEPGINGSTVPLPYGLDPKRVPVAGTYSTEAQQESRLSSAWYELPARDETERAAHPLVVITAAGTITGESVANGLTTGQTVDLEYATRGPDGTLVPAGRVTPYDVGPTPSWRNLRYPRSEIPDDAVAVRVVAEDLSLSQGDWIAVTPPRVPELQSVQEYVGSDQPVLMDWAVGLAFPCQQPMLHANGVTEVPKFRISPDYYAKLQSTDTWQDGINGGLLGITDLLLRASVMSTYLSQDWGQDWGSLRKFDTVVEATPAELDFGSQTHSGLYSPGPLRIRP VRIARWVATIAGLLGFVLSVSIPLLPVTQTTATLNWPQQGRLDNVTAPLISQAPLELTATVPCSVVRDLPPEGGLVFGTAPAEGRDAALNAMLVNVTETRVDVIVRNVVVASVNRDRVCQRIEITSNLDGTYADFVGLTQISGEDAGKLQRTGYPDPNLRPAIVGVFTDLTGPAPQGLSVSAEIDTRFTTHPTALKLAAMLLAIVSTVIALLALWRLDRLDGRRMHRLIPTRWRTVTAVDGVVVGGMAIWYVIGANSSDDGYILQMARTAEHAGYMANYFRWFGSPEDPFGWYYNVLALMTKVSDASIWIRLPDLICALICWLLLSREVLPRLGPAVAGSRAAMWAAGLVLLGAWMPFNNGLRPEGQIATGALITYVLIERAVTSGRLTPAALAITTAAFTLGIQPTGLIAVAALLAGGRPILRIVMRRRRLVGTWPLIAPLLAAGTVILAVVFADQTIATVLEATRIRTAIGPSQGAISRRVAFVFTAMCLFPSLFMMLRRKHIAGVARGPAWRLMGIIFATMFFLMFTPTKWIHHFGLFAAVGGAMAALATVLVSPTVLRSARNRMAFLSLVLFVLAFCFASTNGWWYVSNFGAPFNNSVPKVGGVQISAIFFALSAIAALWAFWLHLTRRTESRVVDRLTAAPIPVAAGFMVVVMMASMAIGVVRQYPTYSNGWANIRAFAGGCGLADDVLVEPDSNAGFLTPLPGAYGPLGPLGGEDPQGFSPDGVPDRIIAEAIRLNNPQPGTDYDWNRPIKLDEPGINGSTVPLPYGLDPKRVPVAGTYSTEAQQESRLSSAWYELPARDETERAAHPLVVITAAGTITGESVANGLTTGQTVDLEYATRGPDGTLVPAGRVTPYDVGPTPSWRNLRYPRSEIPDDAVAVRVVAEDLSLSQGDWIAVTPPRVPELQSVQEYVGSDQPVLMDWAVGLAFPCQQPMLHANGVTEVPKFRISPDYYAKLQSTDTWQDGINGGLLGITDLLLRASVMSTYLSQDWGQDWGSLRKFDTVVEATPAELDFGSQTHSGLYSPGPLRIRP 7bx9-a1-m1-cA_7bx9-a1-m4-cA Purification, characterization and X-ray structure of YhdA-type azoreductase from Bacillus velezensis B3VPZ9 B3VPZ9 1.38 X-RAY DIFFRACTION 26 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 168 168 7bx9-a1-m2-cA_7bx9-a1-m3-cA MMSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQALRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMERRTVSEDMAVSLKDMIEELNMFT MMSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQALRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMERRTVSEDMAVSLKDMIEELNMFT 7bx9-a1-m2-cA_7bx9-a1-m4-cA Purification, characterization and X-ray structure of YhdA-type azoreductase from Bacillus velezensis B3VPZ9 B3VPZ9 1.38 X-RAY DIFFRACTION 22 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 168 168 7bx9-a1-m1-cA_7bx9-a1-m3-cA MMSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQALRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMERRTVSEDMAVSLKDMIEELNMFT MMSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQALRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMERRTVSEDMAVSLKDMIEELNMFT 7bx9-a1-m3-cA_7bx9-a1-m4-cA Purification, characterization and X-ray structure of YhdA-type azoreductase from Bacillus velezensis B3VPZ9 B3VPZ9 1.38 X-RAY DIFFRACTION 105 1.0 1390 (Bacillus amyloliquefaciens) 1390 (Bacillus amyloliquefaciens) 168 168 7bx9-a1-m1-cA_7bx9-a1-m2-cA MMSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQALRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMERRTVSEDMAVSLKDMIEELNMFT MMSILVISGTPRKNGRTRIAASYIRDRFHTDFIDLSESELPLYNGEEEQNELPSVQALRRQVKKSAAVVLLSPEYHSGMSGALKNAIDFLSSDHWAYKPVAIIAAAGGGKGGMNALANMRTVMRGVYANVIPKQLVLDPIHIDMERRTVSEDMAVSLKDMIEELNMFT 7bxd-a2-m2-cA_7bxd-a2-m3-cA Crystal structure of Ca_00815 A4E8S4 A4E8S4 1.18 X-RAY DIFFRACTION 64 1.0 411903 (Collinsella aerofaciens ATCC 25986) 411903 (Collinsella aerofaciens ATCC 25986) 219 219 7bxd-a2-m1-cA_7bxd-a2-m2-cA 7bxd-a2-m1-cA_7bxd-a2-m3-cA KSLSESTICCFGDSTTWGDNGCGGGGNDISWTSHLGALLGGAVVENFGIKGSRIAIKADRTDSFVERLDGIDDAADVYVVFGGVNDFSRNVPLGELGSTDAHEFYGAVDYLIRTITARSPQAKLVFMTPCKTSGKHEKDIPASDELNHLGLTQAAYVRAMLEVCDRYSVPVIDLYAQSGISPFLPEHRELYMPDGLHYSPAGYERLAHRIAAGLTAVCR KSLSESTICCFGDSTTWGDNGCGGGGNDISWTSHLGALLGGAVVENFGIKGSRIAIKADRTDSFVERLDGIDDAADVYVVFGGVNDFSRNVPLGELGSTDAHEFYGAVDYLIRTITARSPQAKLVFMTPCKTSGKHEKDIPASDELNHLGLTQAAYVRAMLEVCDRYSVPVIDLYAQSGISPFLPEHRELYMPDGLHYSPAGYERLAHRIAAGLTAVCR 7bxq-a1-m1-cA_7bxq-a1-m1-cB 2-amino-3-ketobutyrate CoA ligase from Cupriavidus necator L-Threonine binding form Q0K313 Q0K313 2.49 X-RAY DIFFRACTION 334 1.0 106590 (Cupriavidus necator) 106590 (Cupriavidus necator) 399 399 7bxp-a1-m1-cA_7bxp-a1-m1-cB 7bxr-a1-m1-cA_7bxr-a1-m1-cB 7bxs-a1-m1-cA_7bxs-a1-m1-cB MSNAEAFYASIRTELESIRAAGLFKNERVIATPQGARVRTTDGREVINLCANNYLGLSSHPQVIEAAHEALRTHGFGLSSVRFICGTQDLHKTLEARLSAFLGTEDTILYGSAFDANGGLFETLLGAEDAVISDALNHASIIDGVRLSKARRYRYQHNDMDDLRVQLEQARADGARYTLVFSDGVFSMDGTVARLDEMRAICDEYGALLGIDECHATGFMGQRGRGTHEARGVFGKIDIITGTLGAALGGASGGFTSARKEVVALLRQRSRPYLFSNTVAPAIVGASIAVLDILEASTELRDRLEGNTRFFRAGLDRLGFDVKAGDHPIIPIMVYDADKAQQLAQRLLELGVYVVGFFYPVVPKGQARIRVQMSALHDEAALQAALDAFGQAGRELGLI MSNAEAFYASIRTELESIRAAGLFKNERVIATPQGARVRTTDGREVINLCANNYLGLSSHPQVIEAAHEALRTHGFGLSSVRFICGTQDLHKTLEARLSAFLGTEDTILYGSAFDANGGLFETLLGAEDAVISDALNHASIIDGVRLSKARRYRYQHNDMDDLRVQLEQARADGARYTLVFSDGVFSMDGTVARLDEMRAICDEYGALLGIDECHATGFMGQRGRGTHEARGVFGKIDIITGTLGAALGGASGGFTSARKEVVALLRQRSRPYLFSNTVAPAIVGASIAVLDILEASTELRDRLEGNTRFFRAGLDRLGFDVKAGDHPIIPIMVYDADKAQQLAQRLLELGVYVVGFFYPVVPKGQARIRVQMSALHDEAALQAALDAFGQAGRELGLI 7by3-a1-m1-cB_7by3-a1-m1-cD Toxin-antitoxin complex from klebsiella pneumoniae A0A447RTX7 A0A447RTX7 2 X-RAY DIFFRACTION 48 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 122 122 7by2-a1-m1-cB_7by2-a1-m2-cB GSALFDTNILIDLFSGRREAKQALEAWPPQNAISLITWMEVMVGAKKYHQEQRTRMALSTFNIINISQDIAERSVALRQEYKLKLPDAIILATAQLHRLELITRNTKDFAGIPGVVTPYEIH GSALFDTNILIDLFSGRREAKQALEAWPPQNAISLITWMEVMVGAKKYHQEQRTRMALSTFNIINISQDIAERSVALRQEYKLKLPDAIILATAQLHRLELITRNTKDFAGIPGVVTPYEIH 7bya-a1-m1-cA_7bya-a1-m1-cB Malate Dehydrogenase from Geobacillus stearothermophilus (gs-MDH) complexed with Oxaloacetic Acid (OAA) and Adenosine 5'-Diphosphoribose (APR) A0A143T1U9 A0A143T1U9 2.2 X-RAY DIFFRACTION 74 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 311 311 7by8-a1-m1-cC_7by8-a1-m1-cB 7by8-a1-m1-cD_7by8-a1-m1-cA 7by9-a1-m1-cA_7by9-a1-m1-cD 7by9-a1-m1-cC_7by9-a1-m1-cB 7bya-a1-m1-cC_7bya-a1-m1-cD 7f8d-a1-m1-cB_7f8d-a1-m1-cC 7f8d-a1-m1-cD_7f8d-a1-m1-cA 7x1l-a1-m1-cE_7x1l-a1-m1-cB 7x1l-a1-m1-cF_7x1l-a1-m1-cA 7x1l-a2-m1-cC_7x1l-a2-m2-cC 7x1l-a2-m1-cD_7x1l-a2-m2-cD AMKRKKISVIGAGFTGATTAFLLAQKELGDVVLVDIPQLENPTKGKALDMLEASPVLGFDANIIGTSDYADTADSDIVVITAGIARKPGMSRDDLVTTNQKIMKQVTKEVVKYSPNCYIIVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAEELNISVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLEKLIPKDRLDAIVERTRKGGGEIVNLLGNGSAYYAPAASLVEMVEAILKDQRRILPAIAYLEGEYGYEGIYLGVPTILGGNGIEKVIELELTEEEKAALAKSVESVKNVMRMLE AMKRKKISVIGAGFTGATTAFLLAQKELGDVVLVDIPQLENPTKGKALDMLEASPVLGFDANIIGTSDYADTADSDIVVITAGIARKPGMSRDDLVTTNQKIMKQVTKEVVKYSPNCYIIVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAEELNISVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLEKLIPKDRLDAIVERTRKGGGEIVNLLGNGSAYYAPAASLVEMVEAILKDQRRILPAIAYLEGEYGYEGIYLGVPTILGGNGIEKVIELELTEEEKAALAKSVESVKNVMRMLE 7bya-a1-m1-cC_7bya-a1-m1-cA Malate Dehydrogenase from Geobacillus stearothermophilus (gs-MDH) complexed with Oxaloacetic Acid (OAA) and Adenosine 5'-Diphosphoribose (APR) A0A143T1U9 A0A143T1U9 2.2 X-RAY DIFFRACTION 41 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 303 311 7by8-a1-m1-cC_7by8-a1-m1-cA 7by8-a1-m1-cD_7by8-a1-m1-cB 7by9-a1-m1-cB_7by9-a1-m1-cD 7by9-a1-m1-cC_7by9-a1-m1-cA 7bya-a1-m1-cB_7bya-a1-m1-cD 7f8d-a1-m1-cA_7f8d-a1-m1-cC 7f8d-a1-m1-cB_7f8d-a1-m1-cD 7x1l-a1-m1-cE_7x1l-a1-m1-cA 7x1l-a1-m1-cF_7x1l-a1-m1-cB 7x1l-a2-m1-cC_7x1l-a2-m2-cD 7x1l-a2-m1-cD_7x1l-a2-m2-cC AMKRKKISVIGAGFTGATTAFLLAQKELGDVVLVDIPQLENPTKGKALDMLEASPVLGFDANIIGTSDYADTADSDIVVITAGIDDLVTTNQKIMKQVTKEVVKYSPNCYIIVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAEELNISVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLEKLIPKDRLDAIVERTRKGGGEIVNLLGNGSAYYAPAASLVEMVEAILKDQRRILPAIAYLEGEYGYEGIYLGVPTILGGNGIEKVIELELTEEEKAALAKSVESVKNVMRMLE AMKRKKISVIGAGFTGATTAFLLAQKELGDVVLVDIPQLENPTKGKALDMLEASPVLGFDANIIGTSDYADTADSDIVVITAGIARKPGMSRDDLVTTNQKIMKQVTKEVVKYSPNCYIIVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAEELNISVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLEKLIPKDRLDAIVERTRKGGGEIVNLLGNGSAYYAPAASLVEMVEAILKDQRRILPAIAYLEGEYGYEGIYLGVPTILGGNGIEKVIELELTEEEKAALAKSVESVKNVMRMLE 7bye-a2-m1-cF_7bye-a2-m1-cE Toxin-antitoxin complex from klebsiella pneumoniae A6TJ73 A6TJ73 2.3 X-RAY DIFFRACTION 58 1.0 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 272620 (Klebsiella pneumoniae subsp. pneumoniae MGH 78578) 98 100 7bye-a1-m1-cC_7bye-a1-m1-cB TYCPARGDVILLDKRPALVVSDDLFNQVTGFAVVCPITNQIKGYPFEVPVDGTTKTTGVILADQVKSLDWKARAARTVDSVSGETVTTVVDMVSKIIK TYCPARGDVILLDFGKRPALVVSDDLFNQVTGFAVVCPITNQIKGYPFEVPVDGTTKTTGVILADQVKSLDWKARAARTVDSVSGETVTTVVDMVSKIIK 7byw-a1-m1-cA_7byw-a1-m1-cB Crystal structure of Acidovorax avenae L-fucose mutarotase (L-fucose-bound form) F0Q4R9 F0Q4R9 1.75 X-RAY DIFFRACTION 103 1.0 643561 (Acidovorax avenae subsp. avenae ATCC 19860) 643561 (Acidovorax avenae subsp. avenae ATCC 19860) 108 108 7byu-a1-m1-cA_7byu-a1-m1-cB QRMGMVIGIKPEHIDEYKRLHAAVWPAVLARLAEAHVRNYSIFLREPENLLFGYWEYHGTDYAADMEAIAQDPETRRWWTFCGPCQEPLASRQPGEHWAHMEEVFHVD QRMGMVIGIKPEHIDEYKRLHAAVWPAVLARLAEAHVRNYSIFLREPENLLFGYWEYHGTDYAADMEAIAQDPETRRWWTFCGPCQEPLASRQPGEHWAHMEEVFHVD 7byy-a2-m1-cD_7byy-a2-m1-cC Crystal structure of bacterial toxin A0A066QLB1 A0A066QLB1 2.799 X-RAY DIFFRACTION 86 0.994 562 (Escherichia coli) 562 (Escherichia coli) 173 176 7byy-a1-m1-cB_7byy-a1-m1-cA PIVLSCNYQSDITYPGQKQFDCGNPVIDKFVRASLKKSVRNSDCAAKALIDRQSGELIGICTFTAYSLEKQRVSGVLQGSQPSEIGVVRLVMLGVARKYQKRGFDQDLLCDFFEHVKIIHQALPIKGVYLDADPAAINFYARLGFVQLSATPNAFGAVPMFLAIQHILAALEH IVLSCNYQSDITYPGQKQFDCGNPVIDKFVRASLKKSVRNSDCAAKALIDRQSGELIGICTFTAYSLEKQRVSGVLQGSQPSEIGVVRLVMLGVARKYQKRGFDQDLLCDFFEHVKIIHQALPIKGVYLDADPAAINFYARLGFVQLSATPNAFGAVPMFLAIQHILAALEHHHHH 7bze-a1-m1-cA_7bze-a1-m2-cA Structure of Bacillus subtilis HxlR, K13A mutant P42406 P42406 1.658 X-RAY DIFFRACTION 107 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 108 108 7bzd-a1-m1-cA_7bzd-a1-m2-cA DDKRFNCEAELTLAVIGGKWKMLILWHLGKEGTKRFNELKTLIPDITQKILVNQLRELEQDMIVHREVYPVVPPKVEYSLTPHGESLMPILEAMYEWGKGYMELIDID DDKRFNCEAELTLAVIGGKWKMLILWHLGKEGTKRFNELKTLIPDITQKILVNQLRELEQDMIVHREVYPVVPPKVEYSLTPHGESLMPILEAMYEWGKGYMELIDID 7bzg-a3-m1-cI_7bzg-a3-m1-cJ Structure of Bacillus subtilis HxlR, wild type in complex with formaldehyde and DNA P42406 P42406 2.9 X-RAY DIFFRACTION 91 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 110 110 7bzg-a1-m1-cA_7bzg-a1-m1-cB 7bzg-a2-m1-cE_7bzg-a2-m1-cF SRMDDKRFNCEKELTLAVIGGKWKMLILWHLGKEGTKRFNELKTLIPDITQKILVNQLRELEQDMIVHREVYPVVPPKVEYSLTPHGESLMPILEAMYEWGKGYMELIDI SRMDDKRFNCEKELTLAVIGGKWKMLILWHLGKEGTKRFNELKTLIPDITQKILVNQLRELEQDMIVHREVYPVVPPKVEYSLTPHGESLMPILEAMYEWGKGYMELIDI 7bzv-a1-m1-cA_7bzv-a1-m2-cB Crystal structure of 2-aminomuconic 6-semialdehyde dehydrogenase from Pseudomonas species AP-3 Q9KWS5 Q9KWS5 1.988 X-RAY DIFFRACTION 42 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 489 490 7bzv-a1-m2-cA_7bzv-a1-m1-cB SMKQYRNFVDGKWVESSKTFQDVTPIDGSVVAVVHEADRDLVDAAVKAGHRALEGEWGRTTAAQRVDWLRRIANEMERRQQDFLDAEMADTGKPLSMAATIDIPRGIANFRNFADILATAPVDSHRLDLPDGAYALNYAARKPLGVVGVISPWNLPLLLLTWKVAPALACGNAVVVKPSEDTPGTATLLAEVMEAVGIPPGVFNLVHGFGPNSAGEFISQHPDISAITFTGESKTGSTIMRAAAEGVKPVSFELGGKNAAVIFADCDFEKMLDGMMRALFLNSGQVCLCSERVYVERPIFDRFCVALAERIKALKVDWPHETDTQMGPLISSKHRDKVLSYFELARQEGATFLAGGGVPRFGDERDNGAWVEPTVIAGLSDDARVVREEIFGPICHVTPFDSESEVIRRANDTRYGLAATIWTTNLSRAHRVSELMRVGISWVNTWFLRDLRTPFGGAGLSGIGREGGMHSLNFYSELTNVCVRIDKES SMKQYRNFVDGKWVESSKTFQDVTPIDGSVVAVVHEADRDLVDAAVKAGHRALEGEWGRTTAAQRVDWLRRIANEMERRQQDFLDAEMADTGKPLSMAATIDIPRGIANFRNFADILATAPVDSHRLDLPDGAYALNYAARKPLGVVGVISPWNLPLLLLTWKVAPALACGNAVVVKPSEDTPGTATLLAEVMEAVGIPPGVFNLVHGFGPNSAGEFISQHPDISAITFTGESKTGSTIMRAAAEGVKPVSFELGGKNAAVIFADCDFEKMLDGMMRALFLNSGQVCLCSERVYVERPIFDRFCVALAERIKALKVDWPHETDTQMGPLISSKHRDKVLSYFELARQEGATFLAGGGVPRFGDERDNGAWVEPTVIAGLSDDARVVREEIFGPICHVTPFDSESEVIRRANDTRYGLAATIWTTNLSRAHRVSELMRVGISWVNTWFLRDLRTPFGGAGLSGIGREGGMHSLNFYSELTNVCVRIDKESP 7bzv-a1-m1-cB_7bzv-a1-m2-cB Crystal structure of 2-aminomuconic 6-semialdehyde dehydrogenase from Pseudomonas species AP-3 Q9KWS5 Q9KWS5 1.988 X-RAY DIFFRACTION 60 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 490 490 7bzv-a1-m1-cA_7bzv-a1-m2-cA SMKQYRNFVDGKWVESSKTFQDVTPIDGSVVAVVHEADRDLVDAAVKAGHRALEGEWGRTTAAQRVDWLRRIANEMERRQQDFLDAEMADTGKPLSMAATIDIPRGIANFRNFADILATAPVDSHRLDLPDGAYALNYAARKPLGVVGVISPWNLPLLLLTWKVAPALACGNAVVVKPSEDTPGTATLLAEVMEAVGIPPGVFNLVHGFGPNSAGEFISQHPDISAITFTGESKTGSTIMRAAAEGVKPVSFELGGKNAAVIFADCDFEKMLDGMMRALFLNSGQVCLCSERVYVERPIFDRFCVALAERIKALKVDWPHETDTQMGPLISSKHRDKVLSYFELARQEGATFLAGGGVPRFGDERDNGAWVEPTVIAGLSDDARVVREEIFGPICHVTPFDSESEVIRRANDTRYGLAATIWTTNLSRAHRVSELMRVGISWVNTWFLRDLRTPFGGAGLSGIGREGGMHSLNFYSELTNVCVRIDKESP SMKQYRNFVDGKWVESSKTFQDVTPIDGSVVAVVHEADRDLVDAAVKAGHRALEGEWGRTTAAQRVDWLRRIANEMERRQQDFLDAEMADTGKPLSMAATIDIPRGIANFRNFADILATAPVDSHRLDLPDGAYALNYAARKPLGVVGVISPWNLPLLLLTWKVAPALACGNAVVVKPSEDTPGTATLLAEVMEAVGIPPGVFNLVHGFGPNSAGEFISQHPDISAITFTGESKTGSTIMRAAAEGVKPVSFELGGKNAAVIFADCDFEKMLDGMMRALFLNSGQVCLCSERVYVERPIFDRFCVALAERIKALKVDWPHETDTQMGPLISSKHRDKVLSYFELARQEGATFLAGGGVPRFGDERDNGAWVEPTVIAGLSDDARVVREEIFGPICHVTPFDSESEVIRRANDTRYGLAATIWTTNLSRAHRVSELMRVGISWVNTWFLRDLRTPFGGAGLSGIGREGGMHSLNFYSELTNVCVRIDKESP 7bzv-a1-m2-cA_7bzv-a1-m2-cB Crystal structure of 2-aminomuconic 6-semialdehyde dehydrogenase from Pseudomonas species AP-3 Q9KWS5 Q9KWS5 1.988 X-RAY DIFFRACTION 198 1.0 306 (Pseudomonas sp.) 306 (Pseudomonas sp.) 489 490 7bzv-a1-m1-cA_7bzv-a1-m1-cB SMKQYRNFVDGKWVESSKTFQDVTPIDGSVVAVVHEADRDLVDAAVKAGHRALEGEWGRTTAAQRVDWLRRIANEMERRQQDFLDAEMADTGKPLSMAATIDIPRGIANFRNFADILATAPVDSHRLDLPDGAYALNYAARKPLGVVGVISPWNLPLLLLTWKVAPALACGNAVVVKPSEDTPGTATLLAEVMEAVGIPPGVFNLVHGFGPNSAGEFISQHPDISAITFTGESKTGSTIMRAAAEGVKPVSFELGGKNAAVIFADCDFEKMLDGMMRALFLNSGQVCLCSERVYVERPIFDRFCVALAERIKALKVDWPHETDTQMGPLISSKHRDKVLSYFELARQEGATFLAGGGVPRFGDERDNGAWVEPTVIAGLSDDARVVREEIFGPICHVTPFDSESEVIRRANDTRYGLAATIWTTNLSRAHRVSELMRVGISWVNTWFLRDLRTPFGGAGLSGIGREGGMHSLNFYSELTNVCVRIDKES SMKQYRNFVDGKWVESSKTFQDVTPIDGSVVAVVHEADRDLVDAAVKAGHRALEGEWGRTTAAQRVDWLRRIANEMERRQQDFLDAEMADTGKPLSMAATIDIPRGIANFRNFADILATAPVDSHRLDLPDGAYALNYAARKPLGVVGVISPWNLPLLLLTWKVAPALACGNAVVVKPSEDTPGTATLLAEVMEAVGIPPGVFNLVHGFGPNSAGEFISQHPDISAITFTGESKTGSTIMRAAAEGVKPVSFELGGKNAAVIFADCDFEKMLDGMMRALFLNSGQVCLCSERVYVERPIFDRFCVALAERIKALKVDWPHETDTQMGPLISSKHRDKVLSYFELARQEGATFLAGGGVPRFGDERDNGAWVEPTVIAGLSDDARVVREEIFGPICHVTPFDSESEVIRRANDTRYGLAATIWTTNLSRAHRVSELMRVGISWVNTWFLRDLRTPFGGAGLSGIGREGGMHSLNFYSELTNVCVRIDKESP 7bzy-a1-m1-c11_7bzy-a1-m1-c13 Hsp21-DXPS Q38854 Q38854 3.7 ELECTRON MICROSCOPY 290 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 584 584 7bzx-a1-m1-cA_7bzx-a1-m1-cB PTPLLDTINYPIHMKNLSVKELKQLSDELRSDVIFNVSKTGGHLGSSLGVVELTVALHYIFNTPQDKILWDVGHQSYPHKILTGRRGKMPTMRQTNGLSGFTKRGESEHDCFGTGHSSTTISAGLGMAVGRDLKGKNNNVVAVIGDGAMTAGQAYEAMNNAGYLDSDMIVILNDNKQVSLPTATLDGPSPPVGSSLFEELGLYYIGPVDGHNIDDLVAILKEVKSTRTTGPVLIHVVTEKGRGYPYAERADDKYHGVVKFDPATGRQFKTTNKTQSYTTYFAEALVAEAEVDKDVVAIHAAMGGGTGLNLFQRRFPTRCFDVGIAEQHAVTFAAGLACEGLKPFCAIYSSFMQRAYDQVVHDVDLQKLPVRFAMDRAGLVGADGPTHCGAFDVTFMACLPNMIVMAPSDEADLFNMVATAVAIDDRPSCFRYPRGNGIGVALPPGNKGVPIEIGKGRILKEGERVALLGYGSAVQSCLGAAVMLEERGLNVTVADARFCKPLDRALIRSLAKSHEVLITVEEGSIGGFGSHVVQFLALDGLLDGKLKWRPMVLPDRYIDHGAPADQLAEAGLMPSHIAATALNL PTPLLDTINYPIHMKNLSVKELKQLSDELRSDVIFNVSKTGGHLGSSLGVVELTVALHYIFNTPQDKILWDVGHQSYPHKILTGRRGKMPTMRQTNGLSGFTKRGESEHDCFGTGHSSTTISAGLGMAVGRDLKGKNNNVVAVIGDGAMTAGQAYEAMNNAGYLDSDMIVILNDNKQVSLPTATLDGPSPPVGSSLFEELGLYYIGPVDGHNIDDLVAILKEVKSTRTTGPVLIHVVTEKGRGYPYAERADDKYHGVVKFDPATGRQFKTTNKTQSYTTYFAEALVAEAEVDKDVVAIHAAMGGGTGLNLFQRRFPTRCFDVGIAEQHAVTFAAGLACEGLKPFCAIYSSFMQRAYDQVVHDVDLQKLPVRFAMDRAGLVGADGPTHCGAFDVTFMACLPNMIVMAPSDEADLFNMVATAVAIDDRPSCFRYPRGNGIGVALPPGNKGVPIEIGKGRILKEGERVALLGYGSAVQSCLGAAVMLEERGLNVTVADARFCKPLDRALIRSLAKSHEVLITVEEGSIGGFGSHVVQFLALDGLLDGKLKWRPMVLPDRYIDHGAPADQLAEAGLMPSHIAATALNL 7c03-a2-m1-cA_7c03-a2-m2-cA Crystal structure of POLArISact(T57S), genetically encoded probe for fluorescent polarization 2.501 X-RAY DIFFRACTION 71 1.0 32630 (synthetic construct) 32630 (synthetic construct) 312 312 GVVPILVELDGDVNGHKFSVRGEGEGDATIGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKRHDFFKSAMPEGYVQERTISFKDDGKYKTRAVVKFEGDTLVNRIELKGTDFKEDGNILGHKLEYNFNSHNVYITADKQKNGIKANFTVRHNVEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQTVLSKDPNEKRDHMVLHEYVNAAGITLGMSKGEELFEAAAKASLEIEELARFAVDEHNKKENALLEFVRVVKAKEQSSVPHWWWTTMYYLTLEAAKVWVKRDPNMIFKINFKELQEFKPV GVVPILVELDGDVNGHKFSVRGEGEGDATIGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKRHDFFKSAMPEGYVQERTISFKDDGKYKTRAVVKFEGDTLVNRIELKGTDFKEDGNILGHKLEYNFNSHNVYITADKQKNGIKANFTVRHNVEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQTVLSKDPNEKRDHMVLHEYVNAAGITLGMSKGEELFEAAAKASLEIEELARFAVDEHNKKENALLEFVRVVKAKEQSSVPHWWWTTMYYLTLEAAKVWVKRDPNMIFKINFKELQEFKPV 7c0d-a2-m1-cE_7c0d-a2-m1-cH Crystal structure of Azospirillum brasilense L-2-keto-3-deoxyarabonate dehydratase (Hydroxypyruvate-bound form) Q1JUQ0 Q1JUQ0 1.6 X-RAY DIFFRACTION 70 1.0 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 302 303 3fkk-a2-m1-cA_3fkk-a2-m2-cA 3fkk-a2-m1-cB_3fkk-a2-m2-cB 7c0c-a1-m1-cA_7c0c-a1-m1-cD 7c0c-a1-m1-cC_7c0c-a1-m1-cB 7c0c-a2-m1-cG_7c0c-a2-m1-cF 7c0c-a2-m1-cH_7c0c-a2-m1-cE 7c0c-a3-m1-cK_7c0c-a3-m1-cJ 7c0c-a3-m1-cL_7c0c-a3-m1-cI 7c0d-a1-m1-cC_7c0d-a1-m1-cB 7c0d-a1-m1-cD_7c0d-a1-m1-cA 7c0d-a2-m1-cF_7c0d-a2-m1-cG 7c0d-a3-m1-cI_7c0d-a3-m1-cL 7c0d-a3-m1-cJ_7c0d-a3-m1-cK 7c0e-a1-m1-cB_7c0e-a1-m1-cC 7c0e-a1-m1-cD_7c0e-a1-m1-cA 7c0e-a2-m1-cF_7c0e-a2-m1-cG 7c0e-a2-m1-cH_7c0e-a2-m1-cE 7c0e-a3-m1-cK_7c0e-a3-m1-cJ 7c0e-a3-m1-cL_7c0e-a3-m1-cI TPRHRGIFPVVPTTFADTGELDLASQKRAVDFMIDAGSDGLCILANFSEQFAITDDERDVLTRTILEHVAGRVPVIVTTSHYSTQVCAARSLRAQQLGAAMVMAMPPYHGATFRVPEAQIFEFYARVSDAIAIPIMVQDAPASGTALSAPFLARMAREIEQVAYFIETPGAANKLRELIRLGGDAIEGPWDGEEAITLLADLHAGATGAMTGGGFPDGIRPILEAWREGRHDDAYARYQAWLPLINHENRQSGILTAKALMREGGVIASERPRHPMPELHPDTRAELLAIARRLDPLVLRWA TPRHRGIFPVVPTTFADTGELDLASQKRAVDFMIDAGSDGLCILANFSEQFAITDDERDVLTRTILEHVAGRVPVIVTTSHYSTQVCAARSLRAQQLGAAMVMAMPPYHGATFRVPEAQIFEFYARVSDAIAIPIMVQDAPASGTALSAPFLARMAREIEQVAYFIETPGAANKLRELIRLGGDAIEGPWDGEEAITLLADLHAGATGAMTGGGFPDGIRPILEAWREGRHDDAYARYQAWLPLINHENRQSGILTAKALMREGGVIASERPRHPMPELHPDTRAELLAIARRLDPLVLRWAH 7c0d-a3-m1-cK_7c0d-a3-m1-cL Crystal structure of Azospirillum brasilense L-2-keto-3-deoxyarabonate dehydratase (Hydroxypyruvate-bound form) Q1JUQ0 Q1JUQ0 1.6 X-RAY DIFFRACTION 115 0.997 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 301 301 3fkk-a1-m1-cA_3fkk-a1-m1-cB 3fkk-a2-m1-cA_3fkk-a2-m1-cB 3fkk-a2-m2-cA_3fkk-a2-m2-cB 3fkr-a1-m1-cA_3fkr-a1-m1-cB 7c0c-a1-m1-cA_7c0c-a1-m1-cB 7c0c-a1-m1-cC_7c0c-a1-m1-cD 7c0c-a2-m1-cE_7c0c-a2-m1-cF 7c0c-a2-m1-cG_7c0c-a2-m1-cH 7c0c-a3-m1-cI_7c0c-a3-m1-cJ 7c0c-a3-m1-cK_7c0c-a3-m1-cL 7c0d-a1-m1-cA_7c0d-a1-m1-cB 7c0d-a1-m1-cC_7c0d-a1-m1-cD 7c0d-a2-m1-cE_7c0d-a2-m1-cF 7c0d-a2-m1-cG_7c0d-a2-m1-cH 7c0d-a3-m1-cI_7c0d-a3-m1-cJ 7c0e-a1-m1-cB_7c0e-a1-m1-cA 7c0e-a1-m1-cD_7c0e-a1-m1-cC 7c0e-a2-m1-cF_7c0e-a2-m1-cE 7c0e-a2-m1-cG_7c0e-a2-m1-cH 7c0e-a3-m1-cI_7c0e-a3-m1-cJ 7c0e-a3-m1-cL_7c0e-a3-m1-cK PRHRGIFPVVPTTFADTGELDLASQKRAVDFMIDAGSDGLCILANFSEQFAITDDERDVLTRTILEHVAGRVPVIVTTSHYSTQVCAARSLRAQQLGAAMVMAMPPYHGATFRVPEAQIFEFYARVSDAIAIPIMVQDAPASGTALSAPFLARMAREIEQVAYFIETPGAANKLRELIRLGGDAIEGPWDGEEAITLLADLHAGATGAMTGGGFPDGIRPILEAWREGRHDDAYARYQAWLPLINHENRQSGILTAKALMREGGVIASERPRHPMPELHPDTRAELLAIARRLDPLVLRWA TPRHRGIFPVVPTTFADTGELDLASQKRAVDFMIDAGSDGLCILANFSEQFAITDDERDVLTRTILEHVAGRVPVIVTTSHYSTQVCAARSLRAQQLGAAMVMAMPPYHGATFRVPEAQIFEFYARVSDAIAIPIMVQDAPASGTALSAPFLARMAREIEQVAYFIETPGAANKLRELIRLGGDAIEGPWDGEEAITLLADLHAGATGAMTGGGFPDGIRPILEAWREGRHDDAYARYQAWLPLINHENRQSGILTAKALMREGGVIASERPRHPMPELHPDTRAELLAIARRLDPLVLRW 7c0i-a2-m1-cC_7c0i-a2-m2-cC Crystal structure of chimeric mutant of E3L in complex with Z-DNA P21605 P21605 2.4 X-RAY DIFFRACTION 27 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 65 65 IDERSNAEIVCEAIKTIGIEGATAAQLTRQLNMEKKEINRVLYSLAKKGKVYSSDDIPPRWFMTT IDERSNAEIVCEAIKTIGIEGATAAQLTRQLNMEKKEINRVLYSLAKKGKVYSSDDIPPRWFMTT 7c0n-a1-m1-cA_7c0n-a1-m1-cB Crystal structure of a self-assembling galactosylated peptide homodimer 1.552 X-RAY DIFFRACTION 13 1.0 32630 (synthetic construct) 32630 (synthetic construct) 5 5 YYCYY YYCYY 7c0q-a2-m1-cB_7c0q-a2-m1-cD a Legionella pneumophila effector Lpg2505 Q5ZSL2 Q5ZSL2 2.6 X-RAY DIFFRACTION 97 0.996 446 (Legionella pneumophila) 446 (Legionella pneumophila) 274 274 7c0q-a1-m1-cC_7c0q-a1-m1-cA HMASMIKGKLMPNSLKDVQKLICDNVITTLSRLKPFDLAMLKATSDNKVKTLLDSDELKPFWVNKFNKLRLEKDHIFQFRNPDPQSRADFYCGYVLYLAALKEKQKEISSYYDYLNLSFTTFNCFYAAQEILTFLIGACKNDTKRENIDLLYNFVTSQSTQIQEHKTPGCLLLANAYFYLAGFYLSLDLKAESIECYKECWGQLHLAQLLETDSEREIHNAYFNKGLATSNAFGLNSISEIKARCLDLASEALPYPARNVMEANAVKTFENRFK HMASMIKGKLMPNSLKDVQKLICTDNVITTLSRLKPFDLAMLKATSDNKVKTLLDSDELKPFWVNKFNKLRLEKDHIFQFRNPDPQSRADFYCGYVLYLAALKEKQKEISSYYDYLNLSFTTFNCFYAAQEILTFLIGACKNDTKRENIDLLYNFVTSQSTQIQEHKTPGCLLLANAYFYLAGFYLSLDLKAESIECYKECWGQLHLAQLLETDSEREIHNAYFNKGLATSNAFGLNSISEIKARCLDLASEALPYPARNVMEANAVKTFENRF 7c11-a1-m1-cC_7c11-a1-m1-cD Formate--tetrahydrofolate ligase from Methylobacterium extorquens CM4 strain B7L0A5 B7L0A5 2.815 X-RAY DIFFRACTION 208 1.0 440085 (Methylorubrum extorquens CM4) 440085 (Methylorubrum extorquens CM4) 556 556 7c11-a1-m1-cA_7c11-a1-m1-cB 7c11-a2-m1-cM_7c11-a2-m1-cN 7c11-a2-m1-cP_7c11-a2-m1-cO PSDIEIARAATLKPIAQVAEKLGIPDEALHNYGKHIAKIDHDFIASLEGKPEGKLVLVTAISPTPAGEGKTTTTVGLGDALNRIGKRAVMCLREPSLGPCFGMKGGAAGGGKAQVVPMEQINLHFTGDFHAITSAHSLAAALIDNHIYWANELNIDVRRIHWRRVVDMNDRALRAINQSLGGVANGFPREDGFDITVASEVMAVFCLAKNLADLEERLGRIVIAETRDRKPVTLADVKATGAMTVLLKDALQPNLVQTLEGNPALIHGGPFANIAHGCNSVIATRTGLRLADYTVTEAGFGADLGAEKFIDIKCRQTGLKPSSVVIVATIRALKMHGGVNKKDLQAENLDALEKGFANLERHVNNVRSFGLPVVVGVNHFFQDTDAEHARLKELCRDRLQVEAITCKHWAEGGAGAEALAQAVVKLAEGEQKPLTFAYETETKITDKIKAIATKLYGAADIQIESKAATKLAGFEKDGYGKLPVCMAKTQYSFSTDPTLMGAPSGHLVSVRDVRLSAGAGFVVVICGEIMTMPGLPKVPAADTIRLDANGQIDGLF PSDIEIARAATLKPIAQVAEKLGIPDEALHNYGKHIAKIDHDFIASLEGKPEGKLVLVTAISPTPAGEGKTTTTVGLGDALNRIGKRAVMCLREPSLGPCFGMKGGAAGGGKAQVVPMEQINLHFTGDFHAITSAHSLAAALIDNHIYWANELNIDVRRIHWRRVVDMNDRALRAINQSLGGVANGFPREDGFDITVASEVMAVFCLAKNLADLEERLGRIVIAETRDRKPVTLADVKATGAMTVLLKDALQPNLVQTLEGNPALIHGGPFANIAHGCNSVIATRTGLRLADYTVTEAGFGADLGAEKFIDIKCRQTGLKPSSVVIVATIRALKMHGGVNKKDLQAENLDALEKGFANLERHVNNVRSFGLPVVVGVNHFFQDTDAEHARLKELCRDRLQVEAITCKHWAEGGAGAEALAQAVVKLAEGEQKPLTFAYETETKITDKIKAIATKLYGAADIQIESKAATKLAGFEKDGYGKLPVCMAKTQYSFSTDPTLMGAPSGHLVSVRDVRLSAGAGFVVVICGEIMTMPGLPKVPAADTIRLDANGQIDGLF 7c11-a1-m1-cD_7c11-a1-m1-cB Formate--tetrahydrofolate ligase from Methylobacterium extorquens CM4 strain B7L0A5 B7L0A5 2.815 X-RAY DIFFRACTION 34 1.0 440085 (Methylorubrum extorquens CM4) 440085 (Methylorubrum extorquens CM4) 556 558 7c11-a1-m1-cC_7c11-a1-m1-cA 7c11-a2-m1-cM_7c11-a2-m1-cO 7c11-a2-m1-cP_7c11-a2-m1-cN PSDIEIARAATLKPIAQVAEKLGIPDEALHNYGKHIAKIDHDFIASLEGKPEGKLVLVTAISPTPAGEGKTTTTVGLGDALNRIGKRAVMCLREPSLGPCFGMKGGAAGGGKAQVVPMEQINLHFTGDFHAITSAHSLAAALIDNHIYWANELNIDVRRIHWRRVVDMNDRALRAINQSLGGVANGFPREDGFDITVASEVMAVFCLAKNLADLEERLGRIVIAETRDRKPVTLADVKATGAMTVLLKDALQPNLVQTLEGNPALIHGGPFANIAHGCNSVIATRTGLRLADYTVTEAGFGADLGAEKFIDIKCRQTGLKPSSVVIVATIRALKMHGGVNKKDLQAENLDALEKGFANLERHVNNVRSFGLPVVVGVNHFFQDTDAEHARLKELCRDRLQVEAITCKHWAEGGAGAEALAQAVVKLAEGEQKPLTFAYETETKITDKIKAIATKLYGAADIQIESKAATKLAGFEKDGYGKLPVCMAKTQYSFSTDPTLMGAPSGHLVSVRDVRLSAGAGFVVVICGEIMTMPGLPKVPAADTIRLDANGQIDGLF MPSDIEIARAATLKPIAQVAEKLGIPDEALHNYGKHIAKIDHDFIASLEGKPEGKLVLVTAISPTPAGEGKTTTTVGLGDALNRIGKRAVMCLREPSLGPCFGMKGGAAGGGKAQVVPMEQINLHFTGDFHAITSAHSLAAALIDNHIYWANELNIDVRRIHWRRVVDMNDRALRAINQSLGGVANGFPREDGFDITVASEVMAVFCLAKNLADLEERLGRIVIAETRDRKPVTLADVKATGAMTVLLKDALQPNLVQTLEGNPALIHGGPFANIAHGCNSVIATRTGLRLADYTVTEAGFGADLGAEKFIDIKCRQTGLKPSSVVIVATIRALKMHGGVNKKDLQAENLDALEKGFANLERHVNNVRSFGLPVVVGVNHFFQDTDAEHARLKELCRDRLQVEAITCKHWAEGGAGAEALAQAVVKLAEGEQKPLTFAYETETKITDKIKAIATKLYGAADIQIESKAATKLAGFEKDGYGKLPVCMAKTQYSFSTDPTLMGAPSGHLVSVRDVRLSAGAGFVVVICGEIMTMPGLPKVPAADTIRLDANGQIDGLFA 7c12-a1-m1-cA_7c12-a1-m1-cD beta1 domain-swapped structure of monothiol cGrx1(C16S) A8MIN3 A8MIN3 2.803 X-RAY DIFFRACTION 48 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 73 73 7c12-a1-m1-cB_7c12-a1-m1-cC EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEELLG EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEELLG 7c12-a1-m1-cB_7c12-a1-m1-cD beta1 domain-swapped structure of monothiol cGrx1(C16S) A8MIN3 A8MIN3 2.803 X-RAY DIFFRACTION 122 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 73 73 EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEELLG EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEELLG 7c13-a1-m1-cB_7c13-a1-m2-cB beta1 domain-swapped structure of monothiol cGrx1(C16S) A8MIN3 A8MIN3 2.799 X-RAY DIFFRACTION 113 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 71 71 EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEEL EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEEL 7c13-a1-m1-cB_7c13-a1-m2-cC beta1 domain-swapped structure of monothiol cGrx1(C16S) A8MIN3 A8MIN3 2.799 X-RAY DIFFRACTION 20 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 71 71 7c13-a1-m1-cC_7c13-a1-m2-cB EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEEL EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEEL 7c13-a1-m2-cB_7c13-a1-m2-cC beta1 domain-swapped structure of monothiol cGrx1(C16S) A8MIN3 A8MIN3 2.799 X-RAY DIFFRACTION 37 1.0 350688 (Alkaliphilus oremlandii OhILAs) 350688 (Alkaliphilus oremlandii OhILAs) 71 71 7c13-a1-m1-cB_7c13-a1-m1-cC EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEEL EVIVYTSNTCPHSFTVKEFLSENNVEFTEKNIQTDAAARKELMKKGIMAVPVIQIDEEVVVGFDRDKIEEL 7c1i-a2-m1-cE_7c1i-a2-m1-cF Crystal structure of histidine-containing phosphotransfer protein B (HptB) from Pseudomonas aeruginosa PAO1 Q9HYQ0 Q9HYQ0 1.58 X-RAY DIFFRACTION 27 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 115 115 7c1i-a1-m1-cA_7c1i-a1-m1-cB 7c1i-a1-m1-cA_7c1i-a1-m1-cC 7c1i-a1-m1-cB_7c1i-a1-m1-cC 7c1i-a2-m1-cD_7c1i-a2-m1-cE 7c1i-a2-m1-cD_7c1i-a2-m1-cF SAPHLDDRVLASLQEVMEDEYPVLLDTFVLDSEERLRSLHAALQAGDAQALRHTAHSFKGGSSNMGAVLLAGYCKELEESARRGELQRAPALIEQMEREFAIVRILFKQERQRYR SAPHLDDRVLASLQEVMEDEYPVLLDTFVLDSEERLRSLHAALQAGDAQALRHTAHSFKGGSSNMGAVLLAGYCKELEESARRGELQRAPALIEQMEREFAIVRILFKQERQRYR 7c1k-a2-m1-cD_7c1k-a2-m1-cA Crystal structure of the starter condensation domain of rhizomide synthetase RzmA mutant R148A E5ATN9 E5ATN9 2.755 X-RAY DIFFRACTION 42 0.982 882378 (Mycetohabitans rhizoxinica HKI 454) 882378 (Mycetohabitans rhizoxinica HKI 454) 399 409 MSTTYALSAAQTEIWLAQQLYPDSPVYNIAQYTVIEGVIEPAVFEAALRQVIDEADTLRLQFIDSDDRQRIGTPAWSMPVLDLTAQADPQAAAQAWMRADYQQPVNLTQGPLFCYALLKVAPAQWMWYQRYHHIMMDGYGAYLIAQRVAYVYSALCEGTTPAECDFGSILQLLESDAQYQISAQRAQDEAYWLKHCAQQRLRQTTYLAIQALGDTAPDARRLAQFMTAAMAAYLYRFTGEQDVVLGLPVKVGADRHIPGMKSNTLPLRLTMRPGMNLSSLMQQAAQEMQSGLRHQRYPSEALRRQLLFGTTVNVMPFDLDLSFGGYSATNHNLLNGPAEDLMLGVYWTPGSHQLRIDFDANPACYTPEGLGAHQRRFIRFMQVLAADATQPIDSIDLLD STTYALSAAQTEIWLAQQLYPDSPVYNIAQYTVIEGVIEPAVFEAALRQVIDEADTLRLQFIDSDDGLRQRIGTPAWSMPVLDLTAQADPQAAAQAWMRADYQQPVNLTQGPLFCYALLKVAPAQWMWYQRYHHIMMDGYGAYLIAQRVAYVYSALCEGTTPAECDFGSILQLLESDAQYQISAQRAQDEAYWLKHCANWSEPATLASQRLRQTTYLAIQAPDARRLAQFMTAAMAAYLYRFTGEQDVVLGLPVKVRFGADRHIPGMKSNTLPLRLTMRPGMNLSSLMQQAAQEMQSGLRHQRYPSEALRRQLGQRLFGTTVNVMPFDLDLSFGGYSATNHNLLNGPAEDLMLGVYWTPGSHQLRIDFDANPACYTPEGLGAHQRRFIRFMQVLAADATQPIDSIDLLD 7c1y-a1-m1-cB_7c1y-a1-m1-cA Pseudouridine and ADP bound structure of Pseudouridine kinase (PUKI) from Arabidopsis thaliana Q94AT3 Q94AT3 2.08343 X-RAY DIFFRACTION 143 0.98 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 347 356 MEPVIIGALILDVHAKPSTTPISGTTVPGQVLFAPGGVARNVADCIFKLGITPFMIGTLGLDGPANVLLKEWKLSMKGILRREDISTPIVSLVYDTNGEVAAGVAGVDAVENFLTPEWIQRFEYNISSARLLMVDANLSSLALEASCKLAAESSVPVWFEPVSVTKSQRIASIAKYVTIVSPNQDELIAMANALCAKNLFHPFRENKLSIEDMFRALKPAILVLLKNGVKVVIVTLGSNGALLCSKGNPKKALNIDRVQSVCSPSLFAMHFPTIPAKVKKLTGAGDCLVGGTVASLSDGLDLIQSLAVGIASAKAAVESDDNVPPEFKLDLISGDAELVYNGAKMLM MEPVIIGALILDVHAKPSTTPISGTTVPGQVLFAPGGVARNVADCIFKLGITPFMIGTLGLDGPANVLLKEWKLSMKGILRREDISTPIVSLVYDTNGEVAAGVAGVDAVENFLTPEWIQRFEYNISSARLLMVDANLSSLALEASCKLAAESSVPVWFEPVSVTKSQRIASIAKYVTIVSPNQDELIAMANALCAKNLFHPFLSIEDMFRALKPAILVLLKNGVKVVIVTLGSNGALLCSKGNPKKALLRSGEVFKRVQSVCSPNRFSESPSLFAMHFPTIPAKVKKLTGAGDCLVGGTVASLSDGLDLIQSLAVGIASAKAAVESDDNVPPEFKLDLISGDAELVYNGAKMLMV 7c23-a1-m1-cA_7c23-a1-m1-cB Crystal structure of CrmE10, a SGNH-hydrolase family esterase A0A1Z1F9L9 A0A1Z1F9L9 1.9 X-RAY DIFFRACTION 206 1.0 450378 (Croceicoccus marinus) 450378 (Croceicoccus marinus) 194 194 DAVMPTGPAIDVLAFGDSLFAGYRLDRDESYPARLQAALRERGLNVNVTNAGVSGDTTAAGLQRIDFVLDSMAGEPDLVLLELGANDMLRGLPAEEARRNLDTILQRLDQRDIPVMVYGMRAAPNLGGDYGRSFDSIFPDLADKYDAELVPFFIEPLIFDRSLVQQDQLHPTAQGVDAMVEQTVEQVEDRIDDL DAVMPTGPAIDVLAFGDSLFAGYRLDRDESYPARLQAALRERGLNVNVTNAGVSGDTTAAGLQRIDFVLDSMAGEPDLVLLELGANDMLRGLPAEEARRNLDTILQRLDQRDIPVMVYGMRAAPNLGGDYGRSFDSIFPDLADKYDAELVPFFIEPLIFDRSLVQQDQLHPTAQGVDAMVEQTVEQVEDRIDDL 7c28-a1-m1-cB_7c28-a1-m1-cA Unusual quaternary structure of a homodimeric synergistic toxin from mamba snake venom P01407 P01407 2.4 X-RAY DIFFRACTION 35 1.0 8619 (Dendroaspis jamesoni kaimosae) 8619 (Dendroaspis jamesoni kaimosae) 59 65 LTCVTDITEECAAGQKICFKNWKKMGPKLYDVKRGCTATCPKADDNGCVKCCNTDKCNK LTCVTDKSFGGVITEECAAGQKICFKNWKKMGPKLYDVKRGCTATCPKADDNGCVKCCNTDKCNK 7c29-a2-m3-cB_7c29-a2-m4-cB Esterase CrmE10 mutant-D178A A0A1Z1F9L9 A0A1Z1F9L9 2.18 X-RAY DIFFRACTION 232 1.0 450378 (Croceicoccus marinus) 450378 (Croceicoccus marinus) 188 188 7c29-a1-m1-cA_7c29-a1-m2-cA GPAIDVLAFGDSLFAGYRLDRDESYPARLQAALRERGLNVNVTNAGVSGDTTAAGLQRIDFVLDSMAGEPDLVLLELGANDMLRGLPAEEARRNLDTILQRLDQRDIPVMVYGMRAAPNLGGDYGRSFDSIFPDLADKYDAELVPFFIEPLIFDRSLVQQAQLHPTAQGVDAMVEQTVEQVEDRIDDL GPAIDVLAFGDSLFAGYRLDRDESYPARLQAALRERGLNVNVTNAGVSGDTTAAGLQRIDFVLDSMAGEPDLVLLELGANDMLRGLPAEEARRNLDTILQRLDQRDIPVMVYGMRAAPNLGGDYGRSFDSIFPDLADKYDAELVPFFIEPLIFDRSLVQQAQLHPTAQGVDAMVEQTVEQVEDRIDDL 7c2l-a1-m1-cC_7c2l-a1-m1-cB S protein of SARS-CoV-2 in complex bound with 4A8 P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 266 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1049 1055 QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLYNYLYRLFRKSNLKPFERDISTENCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSYNYLYRLFRKSNLKPFERDISTEIYQAGNCYFPLQSYGFQVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7c2s-a1-m16-cA_7c2s-a1-m9-cB Helical reconstruction of Dengue virus serotype 3 complexed with Fab C10 O39791 O39791 10.4 ELECTRON MICROSCOPY 10 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 394 394 7c2s-a1-m10-cA_7c2s-a1-m4-cB 7c2s-a1-m11-cA_7c2s-a1-m5-cB 7c2s-a1-m12-cA_7c2s-a1-m6-cB 7c2s-a1-m13-cA_7c2s-a1-m7-cB 7c2s-a1-m14-cA_7c2s-a1-m8-cB 7c2s-a1-m1-cA_7c2s-a1-m2-cB 7c2s-a1-m1-cB_7c2s-a1-m15-cA 7c2s-a1-m3-cB_7c2s-a1-m9-cA MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTVEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWTSGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCLNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDKALKINWYKKGS MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTVEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWTSGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCLNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDKALKINWYKKGS 7c2s-a1-m6-cB_7c2s-a1-m9-cB Helical reconstruction of Dengue virus serotype 3 complexed with Fab C10 O39791 O39791 10.4 ELECTRON MICROSCOPY 199 1.0 11069 (Dengue virus type 3) 11069 (Dengue virus type 3) 394 394 7c2s-a1-m10-cA_7c2s-a1-m14-cA 7c2s-a1-m10-cA_7c2s-a1-m7-cA 7c2s-a1-m10-cB_7c2s-a1-m14-cB 7c2s-a1-m10-cB_7c2s-a1-m7-cB 7c2s-a1-m11-cA_7c2s-a1-m15-cA 7c2s-a1-m11-cA_7c2s-a1-m8-cA 7c2s-a1-m11-cB_7c2s-a1-m15-cB 7c2s-a1-m11-cB_7c2s-a1-m8-cB 7c2s-a1-m12-cA_7c2s-a1-m16-cA 7c2s-a1-m12-cB_7c2s-a1-m16-cB 7c2s-a1-m13-cA_7c2s-a1-m9-cA 7c2s-a1-m13-cB_7c2s-a1-m9-cB 7c2s-a1-m1-cA_7c2s-a1-m12-cA 7c2s-a1-m1-cA_7c2s-a1-m5-cA 7c2s-a1-m1-cB_7c2s-a1-m12-cB 7c2s-a1-m1-cB_7c2s-a1-m5-cB 7c2s-a1-m2-cA_7c2s-a1-m6-cA 7c2s-a1-m2-cB_7c2s-a1-m6-cB 7c2s-a1-m3-cA_7c2s-a1-m7-cA 7c2s-a1-m3-cB_7c2s-a1-m7-cB 7c2s-a1-m4-cA_7c2s-a1-m8-cA 7c2s-a1-m4-cB_7c2s-a1-m8-cB 7c2s-a1-m6-cA_7c2s-a1-m9-cA MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTVEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWTSGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCLNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDKALKINWYKKGS MRCVGVGNRDFVEGLSGATWVDVVLEHGGCVTTMAKNKPTLDIELQKTEATQLATLRKLCIEGKITNITTDSRCPTQGEAILPEEQDQNYVCKHTYVDRGWGNGCGLFGKGSLVTCAKFQCLESIEGKVVQHENLKYTVIITVHTGDQHQVGNETQGVTAEITPQASTVEAILPEYGTLGLECSPRTGLDFNEMILLTMKNKAWMVHRQWFFDLPLPWTSGATTETPTWNRKELLVTFKNAHAKKQEVVVLGSQEGAMHTALTGATEIQNSGGTSIFAGHLKCRLKMDKLELKGMSYAMCLNTFVLKKEVSETQHGTILIKVEYKGEDAPCKIPFSTEDGQGKAHNGRLITANPVVTKKEEPVNIEAEPPFGESNIVIGIGDKALKINWYKKGS 7c31-a1-m1-cA_7c31-a1-m1-cB Crystal structure of the grapevine defensin VvK1 F6HGI0 F6HGI0 1.3 X-RAY DIFFRACTION 24 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 47 47 RVCESQSHKFEGACMGDHNCALVCRNEGFSGGKCKGLRRRCFCTKLC RVCESQSHKFEGACMGDHNCALVCRNEGFSGGKCKGLRRRCFCTKLC 7c38-a1-m1-cB_7c38-a1-m1-cA Crystal structure of AofleA from Arthrobotrys oligospora in complex with L-fucose G1XA82 G1XA82 1.2 X-RAY DIFFRACTION 120 1.0 756982 (Orbilia oligospora ATCC 24927) 756982 (Orbilia oligospora ATCC 24927) 343 344 7c37-a1-m1-cA_7c37-a1-m1-cB 7c39-a1-m1-cB_7c39-a1-m1-cA 7c3c-a1-m1-cA_7c3c-a1-m1-cB 7c3d-a1-m1-cA_7c3d-a1-m1-cB 7c3e-a1-m1-cB_7c3e-a1-m1-cA 7c3e-a2-m1-cD_7c3e-a2-m1-cC PVEFPKSLRASSHSSEGGTTKEEDIYGYELLYRSAFASYIAPTGAWNLVWFQAADGSIKQARWYGEWVISTVLAPGKALQGTPLTALLWGPQDTVRLYYLSPQFELQEWCWDTKNGADNKYDGALNAAKVKVAPYSKLGAVSFGGANLRVYYQGTNNKLEEYTFGGGQGWKKGATLPGDPLPGTYISFVNRNKWDANPPSIRGYFQTVTGSLAEQVWETGGWRIGQFVIPAAPFLTPISATVSPEKDFPKIHVYWLSVESTIIESVNWHGWKAPKQIDNISVVKADISATSFTRDDGTVDVRIYGTAQLNVLFERIFRYGVWEEKIHSISVGKEIPIEVVGVA PVEFPKSLRASSHSSEGGTTKEEDIYGYELLYRSAFASYIAPTGAWNLVWFQAADGSIKQARWYGEWVISTVLAPGKALQGTPLTALLWGPQDTVRLYYLSPQFELQEWCWDTKNGADNKYDGALNAAKVKVAPYSKLGAVSFGGANLRVYYQGTNNKLEEYTFGGGQGWKKGATLPGDPLPGTYISFVNRNKWDANPPSIRGYFQTVTGSLAEQVWETGGWRIGQFVIPAAPFLTPISATVSPEKDFPKIHVYWLSVESTIIESVNWHGWKAPKQIDNISVVKADISATSFTRDDGTVDVRIYGTAQLNVLFERIFRYGVWEEKIHSISVGKEIPIEVVGVAA 7c3l-a1-m1-cA_7c3l-a1-m1-cB Structure of L-lysine oxidase D212A/D315A in complex with L-tyrosine A0A0G4DCU0 A0A0G4DCU0 1.8 X-RAY DIFFRACTION 154 1.0 5547 (Trichoderma viride) 5547 (Trichoderma viride) 505 505 3x0v-a1-m1-cA_3x0v-a1-m2-cA 3x0v-a2-m1-cB_3x0v-a2-m2-cB 7c3h-a1-m1-cA_7c3h-a1-m1-cB 7c3i-a1-m1-cA_7c3i-a1-m1-cB 7c3j-a1-m1-cA_7c3j-a1-m1-cB 7d4c-a1-m1-cA_7d4c-a1-m2-cA 7d4d-a1-m1-cA_7d4d-a1-m2-cA 7d4e-a1-m1-cA_7d4e-a1-m2-cA ELPPRKVCIVGAGVSGLYIAMILDDLKIPNLTYDIFESSSRTGGRLYTHHFTDAKHDYYDIGAMRYPDIPSMKRTFNLFKRTGMPLIKYYLDGENTPQLYNNHFFAKGVVDPYMVSVANGGTVPDDVVDSVGEKLQQAFGYYKEKLAEDFDKGFDELMLVDDMTTREYLKRGGPKGEAPKYDFFAIQWMETQNTGTNLFDQAFSESVIASFDFDNPTKPEWYCIEGGTSLLVDAMKETLVHKVQNNKRVEAISIDLDAPDDGNMSVKIGGKDYSGYSTVFNTTALGCLDRMDLRGLNLHPTQADAIRCLHYANSTKVALKFSYPWWIKDCGITCGGAASTDLPLRTCVYPSYNLGDTGEAVLLASYTWSQDATRIGSLVKDAPPQPEDELVELILQNLARLHAEHMTYEKIKEAYTGVYHAYCWANDPNVGGAFALFGPGQFSNLYPYLMRPAAGGKFHIVGEASSVHHAWIIGSLESAYTAVYQFLYKYKMWDYLRLLLERWQY ELPPRKVCIVGAGVSGLYIAMILDDLKIPNLTYDIFESSSRTGGRLYTHHFTDAKHDYYDIGAMRYPDIPSMKRTFNLFKRTGMPLIKYYLDGENTPQLYNNHFFAKGVVDPYMVSVANGGTVPDDVVDSVGEKLQQAFGYYKEKLAEDFDKGFDELMLVDDMTTREYLKRGGPKGEAPKYDFFAIQWMETQNTGTNLFDQAFSESVIASFDFDNPTKPEWYCIEGGTSLLVDAMKETLVHKVQNNKRVEAISIDLDAPDDGNMSVKIGGKDYSGYSTVFNTTALGCLDRMDLRGLNLHPTQADAIRCLHYANSTKVALKFSYPWWIKDCGITCGGAASTDLPLRTCVYPSYNLGDTGEAVLLASYTWSQDATRIGSLVKDAPPQPEDELVELILQNLARLHAEHMTYEKIKEAYTGVYHAYCWANDPNVGGAFALFGPGQFSNLYPYLMRPAAGGKFHIVGEASSVHHAWIIGSLESAYTAVYQFLYKYKMWDYLRLLLERWQY 7c4a-a2-m1-cA_7c4a-a2-m1-cB nicA2 with cofactor FAD F8G0P2 F8G0P2 2.05 X-RAY DIFFRACTION 82 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 426 427 6c71-a1-m1-cA_6c71-a1-m1-cB 6c71-a2-m2-cD_6c71-a2-m1-cC 7c4a-a1-m1-cA_7c4a-a1-m1-cB GFDYDVVVVGGGFAGATAARECGLQGYRTLLLEARSRLGGRTFTSRFAGQEIEFGGAWVHWLQPHVWAEQRYGLGVVEDPLTNLDKTLIYNDGSVESISPDEFGKNIRIAFEKLCHDAWEVFPRPHEPFTERARELDKSSVLDRIKTLGLSRLQQAQINSYALYAGETTDKFGLPGVLKLFACGGWNYDAFDTETHYRIQGGTIGLINALTDSGAEVRSVPVTAVEQVNGGVKIKTDDDEIITAGVVVTVPLNTYKHIGFTPALSKGKQRFIKEGQLSKGAKLYVHVKQNLGRVFAFADEQQPLNWVQTHDYSDELGTILSITIARKETIDVNDRDAVTREVQKFPGVEVLGTAAYDWTADPFSLGAWAAYGVGQLSRLKDLQAAEGRILFAGAETSNGWHANIDGAVESGLRAGREVKQLLSLEH GGFDYDVVVVGGGFAGATAARECGLQGYRTLLLEARSRLGGRTFTSRFAGQEIEFGGAWVHWLQPHVWAEQRYGLGVVEDPLTNLDKTLIYNDGSVESISPDEFGKNIRIAFEKLCHDAWEVFPRPHEPFTERARELDKSSVLDRIKTLGLSRLQQAQINSYALYAGETTDKFGLPGVLKLFACGGWNYDAFDTETHYRIQGGTIGLINALTDSGAEVRSVPVTAVEQVNGGVKIKTDDDEIITAGVVVTVPLNTYKHIGFTPALSKGKQRFIKEGQLSKGAKLYVHVKQNLGRVFAFADEQQPLNWVQTHDYSDELGTILSITIARKETIDVNDRDAVTREVQKFPGVEVLGTAAYDWTADPFSLGAWAAYGVGQLSRLKDLQAAEGRILFAGAETSNGWHANIDGAVESGLRAGREVKQLLSLEH 7c4h-a1-m1-cA_7c4h-a1-m1-cB Crystal structure of BCP1 from Saccharomyces Cerevisiae Q06338 Q06338 1.83 X-RAY DIFFRACTION 91 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 228 228 ENEEEQNGEEEIVNIDFDFFGGNPEVDFHALKNLLRQLFGPQESTRIQLSSLADLILGSPTTTIKTDGKESDPYCFLSFVDFKANHLSDYVKYLQKVDMRLSTFFKTMIDSGNKNCALVLSERLINMPPEVVPPLYKITLEDVATALGDDKHYDFYIIVTRKYEVNEVDYFHEEDRFFEKYAKIHFESEAKKGVISSYMILDHEGLVKSIDELETEISTWLEHHHHHH ENEEEQNGEEEIVNIDFDFFGGNPEVDFHALKNLLRQLFGPQESTRIQLSSLADLILGSPTTTIKTDGKESDPYCFLSFVDFKANHLSDYVKYLQKVDMRLSTFFKTMIDSGNKNCALVLSERLINMPPEVVPPLYKITLEDVATALGDDKHYDFYIIVTRKYEVNEVDYFHEEDRFFEKYAKIHFESEAKKGVISSYMILDHEGLVKSIDELETEISTWLEHHHHHH 7c4n-a1-m1-cA_7c4n-a1-m2-cA Ancestral L-amino acid oxidase (AncLAAO-N5) L-Phe binding form 2.2 X-RAY DIFFRACTION 106 1.0 32630 (synthetic construct) 32630 (synthetic construct) 614 614 7c4k-a1-m1-cA_7c4k-a1-m2-cA 7c4l-a1-m1-cA_7c4l-a1-m2-cA 7c4m-a1-m1-cA_7c4m-a1-m2-cA SIPKEVKVAIVGAGMSGLYSAWRLQSEANVGDLAIFERSDRTGGRLDSDLIEFKDNRAGAGSTITVKEEQGGMRFLFEGMDDLMALFLKLGLEDQIVPFPMNSGGNNRLYFRGTSFSVNDAEQDDYHIWSALYNLDPSEQGVNPKDIINVVFNRILQVNPQFDSRPEVRGPEFWQNFRLQCQWQGEPLYNWSLWDLLTDMGYSQECITMLYRVLGFNGTFLSKMNAGVAYQLLEDFPADVEFRTFKDGFSTLPNALVDKIGKDKIHLQTSIDSIAFDKADSKYVLKYTKIDQSGQVSEGKFKAEKVILGLPRLALEKLFIASDAFKQLPKKRRDELWDTLQSTSNQPLLKINLYYDTAWWGTGMTGRPAVSFGPNFADLPTGSVYPFYALNDELAAALMYDERHATPNPDTQHKLDGIDAAKYARPAALTIYCDYLNINFWSALQNKGELYHHPHESELVESIPSDIFPASEAVVQQATQFFKDIFNTHYVPQPTLTSARIWEGNVNFNVPENLQFGFGVHQWAIGANDKEVIEDLVEPLPNLFTCGEAYSDYQGWVEGALRSTDLVLQKGFGLAPLSEVYEQDQGRSSSEAIQIAYRKISNKMIMEYIDPNFS SIPKEVKVAIVGAGMSGLYSAWRLQSEANVGDLAIFERSDRTGGRLDSDLIEFKDNRAGAGSTITVKEEQGGMRFLFEGMDDLMALFLKLGLEDQIVPFPMNSGGNNRLYFRGTSFSVNDAEQDDYHIWSALYNLDPSEQGVNPKDIINVVFNRILQVNPQFDSRPEVRGPEFWQNFRLQCQWQGEPLYNWSLWDLLTDMGYSQECITMLYRVLGFNGTFLSKMNAGVAYQLLEDFPADVEFRTFKDGFSTLPNALVDKIGKDKIHLQTSIDSIAFDKADSKYVLKYTKIDQSGQVSEGKFKAEKVILGLPRLALEKLFIASDAFKQLPKKRRDELWDTLQSTSNQPLLKINLYYDTAWWGTGMTGRPAVSFGPNFADLPTGSVYPFYALNDELAAALMYDERHATPNPDTQHKLDGIDAAKYARPAALTIYCDYLNINFWSALQNKGELYHHPHESELVESIPSDIFPASEAVVQQATQFFKDIFNTHYVPQPTLTSARIWEGNVNFNVPENLQFGFGVHQWAIGANDKEVIEDLVEPLPNLFTCGEAYSDYQGWVEGALRSTDLVLQKGFGLAPLSEVYEQDQGRSSSEAIQIAYRKISNKMIMEYIDPNFS 7c4o-a1-m1-cA_7c4o-a1-m1-cB Solution structure of the Orange domain from human protein HES1 Q14469 Q14469 NOT SOLUTION NMR 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 48 48 DPSVLGKYRAGFSECMNEVTRFLSTCEGVNTEVRTRLLGHLANCMTQI DPSVLGKYRAGFSECMNEVTRFLSTCEGVNTEVRTRLLGHLANCMTQI 7c4x-a1-m1-cB_7c4x-a1-m2-cB Crystal structure of germination protease from the spore-forming bacterium Paenisporosarcina sp. TG-20 in its inactive form 2.5 X-RAY DIFFRACTION 32 1.0 1932001 (Paenisporosarcina sp.) 1932001 (Paenisporosarcina sp.) 321 321 7c4x-a1-m1-cA_7c4x-a1-m2-cA KFMRSDLIDEAKEVVQHRTEKEKDTLHETPGIKMKEDRNGRVHITHIDVDESGAESIGKKKGTYITLTVPTLTVEDAQGFQELNQQLISSLKDIHQALMLTDQSKILVIGLGNRTITPDAIGPVAIDRFHEAIFSSPIEFGQVVYYAPGVTGQTGLETGEFVRAISERVKPDLIIVIDALAARNQDRLCKSLQITNTGIHPGSGVGNSRNEISFESLGVPVTAIGVPMVVDAPVLVVEAIETVFKVISSQIGPINVDAIKPIFGEWTAWSSEELHALLDEVLPPRHQQLFVTPKESDAWVIMHADLIQTGILNWLQDDVFG KFMRSDLIDEAKEVVQHRTEKEKDTLHETPGIKMKEDRNGRVHITHIDVDESGAESIGKKKGTYITLTVPTLTVEDAQGFQELNQQLISSLKDIHQALMLTDQSKILVIGLGNRTITPDAIGPVAIDRFHEAIFSSPIEFGQVVYYAPGVTGQTGLETGEFVRAISERVKPDLIIVIDALAARNQDRLCKSLQITNTGIHPGSGVGNSRNEISFESLGVPVTAIGVPMVVDAPVLVVEAIETVFKVISSQIGPINVDAIKPIFGEWTAWSSEELHALLDEVLPPRHQQLFVTPKESDAWVIMHADLIQTGILNWLQDDVFG 7c4x-a1-m2-cB_7c4x-a1-m1-cA Crystal structure of germination protease from the spore-forming bacterium Paenisporosarcina sp. TG-20 in its inactive form 2.5 X-RAY DIFFRACTION 43 1.0 1932001 (Paenisporosarcina sp.) 1932001 (Paenisporosarcina sp.) 321 343 7c4x-a1-m1-cB_7c4x-a1-m2-cA KFMRSDLIDEAKEVVQHRTEKEKDTLHETPGIKMKEDRNGRVHITHIDVDESGAESIGKKKGTYITLTVPTLTVEDAQGFQELNQQLISSLKDIHQALMLTDQSKILVIGLGNRTITPDAIGPVAIDRFHEAIFSSPIEFGQVVYYAPGVTGQTGLETGEFVRAISERVKPDLIIVIDALAARNQDRLCKSLQITNTGIHPGSGVGNSRNEISFESLGVPVTAIGVPMVVDAPVLVVEAIETVFKVISSQIGPINVDAIKPIFGEWTAWSSEELHALLDEVLPPRHQQLFVTPKESDAWVIMHADLIQTGILNWLQDDVFG HHHHHSSGLVPRGSHMMSKIKFMRSDLIDEAKEVVQHRTEKEKDTLHETPGIKMKEDRNGRVHITHIDVDESGAESIGKKKGTYITLTVPTLTVEDAQGFQELNQQLISSLKDIHQALMLTDQSKILVIGLGNRTITPDAIGPVAIDRFHEAIFSSPIEFGQVVYYAPGVTGQTGLETGEFVRAISERVKPDLIIVIDALAARNQDRLCKSLQITNTGIHPGSGVGNSRNEISFESLGVPVTAIGVPMVVDAPVLVVEAIETVFKVISSQIGEEPINVDAIKPIFGEWTAWSSEELHALLDEVLPPRHQQLFVTPKESDAWVIMHADLIQTGILNWLQDDVFG 7c4x-a1-m2-cB_7c4x-a1-m2-cA Crystal structure of germination protease from the spore-forming bacterium Paenisporosarcina sp. TG-20 in its inactive form 2.5 X-RAY DIFFRACTION 118 1.0 1932001 (Paenisporosarcina sp.) 1932001 (Paenisporosarcina sp.) 321 343 7c4x-a1-m1-cB_7c4x-a1-m1-cA KFMRSDLIDEAKEVVQHRTEKEKDTLHETPGIKMKEDRNGRVHITHIDVDESGAESIGKKKGTYITLTVPTLTVEDAQGFQELNQQLISSLKDIHQALMLTDQSKILVIGLGNRTITPDAIGPVAIDRFHEAIFSSPIEFGQVVYYAPGVTGQTGLETGEFVRAISERVKPDLIIVIDALAARNQDRLCKSLQITNTGIHPGSGVGNSRNEISFESLGVPVTAIGVPMVVDAPVLVVEAIETVFKVISSQIGPINVDAIKPIFGEWTAWSSEELHALLDEVLPPRHQQLFVTPKESDAWVIMHADLIQTGILNWLQDDVFG HHHHHSSGLVPRGSHMMSKIKFMRSDLIDEAKEVVQHRTEKEKDTLHETPGIKMKEDRNGRVHITHIDVDESGAESIGKKKGTYITLTVPTLTVEDAQGFQELNQQLISSLKDIHQALMLTDQSKILVIGLGNRTITPDAIGPVAIDRFHEAIFSSPIEFGQVVYYAPGVTGQTGLETGEFVRAISERVKPDLIIVIDALAARNQDRLCKSLQITNTGIHPGSGVGNSRNEISFESLGVPVTAIGVPMVVDAPVLVVEAIETVFKVISSQIGEEPINVDAIKPIFGEWTAWSSEELHALLDEVLPPRHQQLFVTPKESDAWVIMHADLIQTGILNWLQDDVFG 7c53-a2-m1-cD_7c53-a2-m1-cF Crystal Structure of SARS-CoV-2 HR1 motif in complex with pan-CoVs inhibitor EK1 P0DTC2 P0DTC2 2.278 X-RAY DIFFRACTION 100 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 89 92 7c53-a1-m1-cA_7c53-a1-m1-cB 7c53-a1-m1-cC_7c53-a1-m1-cA 7c53-a1-m1-cC_7c53-a1-m1-cB 7c53-a2-m1-cD_7c53-a2-m1-cE 7c53-a2-m1-cF_7c53-a2-m1-cE TQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNDQINVTFLDLEYEMKKLEEAIKKLEESYIDL TQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNLDQINVTFLDLEYEMKKLEEAIKKLEESYIDLKE 7c5y-a1-m1-cB_7c5y-a1-m1-cA Crystal structure of the iota-carbonic anhydrase from eukaryotic microalga complexed with iodide 2.2 X-RAY DIFFRACTION 312 1.0 227086 (Bigelowiella natans) 227086 (Bigelowiella natans) 487 506 7c5x-a1-m1-cB_7c5x-a1-m1-cA TITEAEVLNAQSKWAEAIKTISRTYLNGGDYIKTAGDAAAELYGYGKSKVLFKPTKAAEFPFRPTGEEAMSYFVGGNAVEKGYKEDAGFAINGGKGWSNVVFNNHDIDINGNTAVAMGSYVFTCATTGTETKVEYTFGYKRNDDGKVRIFLHHSSVPYSESPAPVTLKEVTECQEKWANAIQTISKTYLDGGDYIGEAGKQAGILYGYGNTNVLFKPTKATDHPFRPTGEQAMSYFVGGDVVDNGYVGEDAGFAINGGKGWSKVVFRNHQVDLNGPVAIAMGDYVFTSAADGSETRVEYTFGYKRNDDGNVRIFVHHSSVPYKEEVAPITEAEVLECQKNWANAIQTISKTYLDGGDYIGEAGKQAGILYGYGNTNVLFKPTKATDHPFRPTGEEAMSYFVGGDVVENGYVGEDAGFAINGGKGWKNVVFRNHQLDFNGPVAIAMGDYVFTSAADNSETRVEYTFGYKRNPDGKPRIFLHHSSVPYK HDATITEAEVLNAQSKWAEAIKTISRTYLNGGDYIKTAGDAAAELYGYGKSKVLFKPTKAAEFPFRPTGEEAMSYFVGGNAVEKGYKEDAGFAINGGKGWSNVVFNNHDIDINGNTAVAMGSYVFTCATTGTETKVEYTFGYKRNDDGKVRIFLHHSSVPYSESPAPVTLKEVTECQEKWANAIQTISKTYLDGGDYIGEAGKQAGILYGYGNTNVLFKPTKATDHPFRPTGEQAMSYFVGGDVVDNGYVGEDAGFAINGGKGWSKVVFRNHQVDLNGPVAIAMGDYVFTSAADGSETRVEYTFGYKRNDDGNVRIFVHHSSVPYKEEVAPITEAEVLECQKNWANAIQTISKTYLDGGDYIGEAGKQAGILYGYGNTNVLFKPTKATDHPFRPTGEEAMSYFVGGDVVENGYVGEDAGFAINGGKGWKNVVFRNHQLDFNGPVAIAMGDYVFTSAADNSETRVEYTFGYKRNPDGKPRIFLHHSSVPYKEEPVTNTIRKRLFASA 7c5z-a1-m1-cB_7c5z-a1-m1-cA Crystal structure of spring viremia of carp virus phosphoprotein central domain A7J936 A7J936 1.5 X-RAY DIFFRACTION 87 0.987 696863 (Sprivivirus cyprinus) 696863 (Sprivivirus cyprinus) 78 82 STGIDLGFGPGIVPSVSNHEGGTYVRYNGLGNVDPNYKNLISKRSLIGQIGNKYGYDIDLFDYQGDFLEVFLPHKPSK SWEEESTGIDLGFGPGIVPSVSNHEGGTYVRYNGLGNVDPNYKNLISKRSLIGQIGNKYGYDIDLFDYQGDFLEVFLPHKPS 7c64-a1-m1-cA_7c64-a1-m1-cB Crystal structure of beta-glycosides-binding protein of ABC transporter in an open state (Form II) Q53W80 Q53W80 1.63 X-RAY DIFFRACTION 95 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 415 415 KTLEVWIMPNSPQPAEDFKALVAPFEKAHGVEVKVTVLDWGVAWTKITTAATSGVGPDLTQLGTTWVGAISAMGVLEPVDDVLEALGGEKAYLPAVWRTTRLEGARQATAVPWFSELRAFYYRTDALKAAGVNPAEMFASWQGFEAGLARLKASSFRDPETKAPLAPLCTPGKNSWDVLHNAAPWIWGAGGEIVRQAGGRWQSALNSPESLEGLYFFLSLAQKGYVPAESLEKNTAQIEADFQAGKCAVFASGPWMIQRAQVPEAKGGFAERTAAKNLGVAPYPAGPKGRYTFFGGSNLALFNFSKNKPLAKELLKYLGGPEAQVRYAQMTGMLPALRSAWSDPSFQQNPLLRTFIQAAQFGRTYPSLAGWGGVENLAVQHLGMAWDLVAQGRLTREALKDLMDKASAAINQALR KTLEVWIMPNSPQPAEDFKALVAPFEKAHGVEVKVTVLDWGVAWTKITTAATSGVGPDLTQLGTTWVGAISAMGVLEPVDDVLEALGGEKAYLPAVWRTTRLEGARQATAVPWFSELRAFYYRTDALKAAGVNPAEMFASWQGFEAGLARLKASSFRDPETKAPLAPLCTPGKNSWDVLHNAAPWIWGAGGEIVRQAGGRWQSALNSPESLEGLYFFLSLAQKGYVPAESLEKNTAQIEADFQAGKCAVFASGPWMIQRAQVPEAKGGFAERTAAKNLGVAPYPAGPKGRYTFFGGSNLALFNFSKNKPLAKELLKYLGGPEAQVRYAQMTGMLPALRSAWSDPSFQQNPLLRTFIQAAQFGRTYPSLAGWGGVENLAVQHLGMAWDLVAQGRLTREALKDLMDKASAAINQALR 7c67-a1-m1-cA_7c67-a1-m1-cB Crystal structure of beta-glycosides-binding protein of ABC transporter in a closed state bound to cellotriose Q53W80 Q53W80 2 X-RAY DIFFRACTION 119 0.998 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 417 417 7c66-a1-m1-cA_7c66-a1-m1-cB 7c68-a1-m1-cB_7c68-a1-m1-cA 7c69-a1-m1-cA_7c69-a1-m1-cB QKTLEVWIMPNSPQPAEDFKALVAPFEKAHGVEVKVTVLDWGVAWTKITTAATSGVGPDLTQLGTTWVGAISAMGVLEPVDDVLEALGGEKAYLPAVWRTTRLEGARQATAVPWFSELRAFYYRTDALKAAGVNPAEMFASWQGFEAGLARLKASSFRDPETKAPLAPLCTPGKNSWDVLHNAAPWIWGAGGEIVRQAGGRWQSALNSPESLEGLYFFLSLAQKGYVPAESLEKNTAQIEADFQAGKCAVFASGPWMIQRAQVPEAKGGFAERTAAKNLGVAPYPAGPKGRYTFFGGSNLALFNFSKNKPLAKELLKYLGGPEAQVRYAQMTGMLPALRSAWSDPSFQQNPLLRTFIQAAQFGRTYPSLAGWGGVENLAVQHLGMAWDLVAQGRLTREALKDLMDKASAAINQALRH KTLEVWIMPNSPQPAEDFKALVAPFEKAHGVEVKVTVLDWGVAWTKITTAATSGVGPDLTQLGTTWVGAISAMGVLEPVDDVLEALGGEKAYLPAVWRTTRLEGARQATAVPWFSELRAFYYRTDALKAAGVNPAEMFASWQGFEAGLARLKASSFRDPETKAPLAPLCTPGKNSWDVLHNAAPWIWGAGGEIVRQAGGRWQSALNSPESLEGLYFFLSLAQKGYVPAESLEKNTAQIEADFQAGKCAVFASGPWMIQRAQVPEAKGGFAERTAAKNLGVAPYPAGPKGRYTFFGGSNLALFNFSKNKPLAKELLKYLGGPEAQVRYAQMTGMLPALRSAWSDPSFQQNPLLRTFIQAAQFGRTYPSLAGWGGVENLAVQHLGMAWDLVAQGRLTREALKDLMDKASAAINQALRHH 7c6i-a1-m1-cB_7c6i-a1-m1-cA Crystal structure of beta-glycosides-binding protein (W177X) of ABC transporter in an open-liganded state bound to sophorose Q53W80 Q53W80 1.7 X-RAY DIFFRACTION 77 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 417 420 7c6g-a1-m1-cB_7c6g-a1-m1-cA QKTLEVWIMPNSPQPAEDFKALVAPFEKAHGVEVKVTVLDWGVAWTKITTAATSGVGPDLTQLGTTWVGAISAMGVLEPVDDVLEALGGEKAYLPAVWRTTRLEGARQATAVPWFSELRAFYYRTDALKAAGVNPAEMFASWQGFEAGLARLKASSFRDPETKAPLAPLCTPGRTPRTLHNAAPWIWGAGGEIVRQAGGRWQSALNSPESLEGLYFFLSLAQKGYVPAESLEKNTAQIEADFQAGKCAVFASGPWMIQRAQVPEAKGGFAERTAAKNLGVAPYPAGPKGRYTFFGGSNLALFNFSKNKPLAKELLKYLGGPEAQVRYAQMTGMLPALRSAWSDPSFQQNPLLRTFIQAAQFGRTYPSLAGWGGVENLAVQHLGMAWDLVAQGRLTREALKDLMDKASAAINQALRHH MQKTLEVWIMPNSPQPAEDFKALVAPFEKAHGVEVKVTVLDWGVAWTKITTAATSGVGPDLTQLGTTWVGAISAMGVLEPVDDVLEALGGEKAYLPAVWRTTRLEGARQATAVPWFSELRAFYYRTDALKAAGVNPAEMFASWQGFEAGLARLKASSFRDPETKAPLAPLCTPGRTPRTLHNAAPWIWGAGGEIVRQAGGRWQSALNSPESLEGLYFFLSLAQKGYVPAESLEKNTAQIEADFQAGKCAVFASGPWMIQRAQVPEAKGGFAERTAAKNLGVAPYPAGPKGRYTFFGGSNLALFNFSKNKPLAKELLKYLGGPEAQVRYAQMTGMLPALRSAWSDPSFQQNPLLRTFIQAAQFGRTYPSLAGWGGVENLAVQHLGMAWDLVAQGRLTREALKDLMDKASAAINQALRHHHH 7c7e-a1-m1-cA_7c7e-a1-m2-cA Crystal structure of C terminal domain of Escherichia coli DgoR A0A0H3MRW3 A0A0H3MRW3 2.047 X-RAY DIFFRACTION 42 1.0 585057 (Escherichia coli IAI39) 585057 (Escherichia coli IAI39) 138 138 TDVLQWVLENDYDPRLISASEVRNLVEPAIARWAAERATSSDLAQIESALNEIANNQDREAFNEADIRYHEAVLQSVHNPVLQQLSIAISSLQRAVFEGDEANPQTLQEHKALFDAIRHQDGDAAEQAALTIASSTRR TDVLQWVLENDYDPRLISASEVRNLVEPAIARWAAERATSSDLAQIESALNEIANNQDREAFNEADIRYHEAVLQSVHNPVLQQLSIAISSLQRAVFEGDEANPQTLQEHKALFDAIRHQDGDAAEQAALTIASSTRR 7c7i-a1-m1-cA_7c7i-a1-m1-cB Crystal structure of SHANK3 SPN domain in complex with GTP-bound Rap1b(E30D,K31E) P61224 P61224 2.28 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 MREYKLVVLGSGGVGKSALTVQFVQGIFVDEYDPTIEDSYRKQVEVDAQQCMLEILDTAGTQFTAMRDLYMKNGQGFALVYSITAQSTFNDLQDLREQILRVKDTDDVPMILVGNKCDLEDERVVGKEQGQNLARQWNNCAFLESSAKSKINVNEIFYDLVRQINR MREYKLVVLGSGGVGKSALTVQFVQGIFVDEYDPTIEDSYRKQVEVDAQQCMLEILDTAGTQFTAMRDLYMKNGQGFALVYSITAQSTFNDLQDLREQILRVKDTDDVPMILVGNKCDLEDERVVGKEQGQNLARQWNNCAFLESSAKSKINVNEIFYDLVRQINR 7c7l-a1-m1-cB_7c7l-a1-m1-cA Cryo-EM structure of the Cas12f1-sgRNA-target DNA complex A0A482D308 A0A482D308 3.3 ELECTRON MICROSCOPY 62 0.981 115547 (uncultured archaeon) 115547 (uncultured archaeon) 372 503 7l48-a1-m1-cB_7l48-a1-m1-cA 7l49-a1-m1-cB_7l49-a1-m1-cA TITKTLKLRIVRPFWQEISEIFRQLQKQAAEIYNQSLIELYYEIFIKGKGIANASSVEHYLSDVCYTRAAELFKNAAIASGLRSKIKSNFRLKELKNMKSGLPTTKSDNFPIPLVFEISNFIIKIPFGRWQVKKEIDKYRPWEKFDFEQVQKSPKPISLLLSYIEVKRGSSAWMLNLSIDVPDPSIIGGIAVGVKSPLVCAINNAFSRYSISDNDLFHFNKKMFARRRILLKKPITILTEKSERFRKKLIERWACEIADFFIKNKVGTVQMENLESMKRKEDSYFNIRLRGFWPYAEMQNKIEFKLKQYGIEIRKVAPNNTSKTCSKCGHLNNYFNFEYRKKNKFPHFKCEKCNFKENADYNAALNISNPKL KNTITKTLKLRIVRPYNSAEVEKIVADEKNNREKIALKEACSKHLKVTTQVERNACLFCKARKLDDKFYQKLRGQFPDAVFWQEISEIFRQLQKQAAEIYNQSLIELYYEIFIKGKGIANASSVEHYLSDVCYTRAAELFKNAAIASGLRSKIKSNFRLKELKNMKSGLPTTKSDNFPIPLVKQKGGQYTGFEISNHNSDFIIKIPFGRWQVKKEIDKYRPWEKFDFEQVQKSPKPISLLLSTQRRKRNKGWSKDEGTEAEIKKVMNGDYQTSYIEVKRGSKIGEKSAWMLNLSIDVPKIDKGVDPSIIGGIAVGVKSPLVCAINNAFSRYSISDNDLFHFNKKMFARRRILLKKNRHKRAGHGAKNKLKPITILTEKSERFRKKLIERWACEIADFFIKNKVGTVQMENLESMKRKEDSYFNIRLWPYAEMQNKIEFKLKQYGIEIRKVAPNNTSKTCSKCGHLNNYFNFEYRKKNKFPHFKCEKCNADYNAALNISNPKLK 7c7y-a1-m1-cB_7c7y-a1-m1-cC C-terminal domain of B. cereus TubY Q74P26 Q74P26 2.6 X-RAY DIFFRACTION 58 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 64 65 7c7y-a1-m1-cA_7c7y-a1-m1-cB 7c7y-a1-m1-cD_7c7y-a1-m1-cA 7c7y-a1-m1-cD_7c7y-a1-m1-cC NPDFIEALTEKITEEVTAKVTEELTKQNEFFAAVAKQSQDNFDRINKRLEERDEKLSTIRLIQE NPDFIEALTEKITEEVTAKVTEELTKQNEFFAAVAKQSQDNFDRINKRLEERDEKLSTIRLIQEQ 7c7y-a1-m1-cD_7c7y-a1-m1-cB C-terminal domain of B. cereus TubY Q74P26 Q74P26 2.6 X-RAY DIFFRACTION 11 1.0 222523 (Bacillus cereus ATCC 10987) 222523 (Bacillus cereus ATCC 10987) 62 64 PDFIEALTEKITEEVTAKVTEELTKQNEFFAAVAKQSQDNFDRINKRLEERDEKLSTIRLIQ NPDFIEALTEKITEEVTAKVTEELTKQNEFFAAVAKQSQDNFDRINKRLEERDEKLSTIRLIQE 7c81-a1-m55-cB_7c81-a1-m9-cB E30 F-particle in complex with 6C5 A0A0F6T703 A0A0F6T703 3.1 ELECTRON MICROSCOPY 58 1.0 41846 (Echovirus E30) 41846 (Echovirus E30) 251 251 7c80-a1-m10-cB_7c80-a1-m5-cB 7c80-a1-m11-cB_7c80-a1-m37-cB 7c80-a1-m12-cB_7c80-a1-m46-cB 7c80-a1-m13-cB_7c80-a1-m44-cB 7c80-a1-m14-cB_7c80-a1-m28-cB 7c80-a1-m15-cB_7c80-a1-m20-cB 7c80-a1-m16-cB_7c80-a1-m27-cB 7c80-a1-m17-cB_7c80-a1-m51-cB 7c80-a1-m18-cB_7c80-a1-m59-cB 7c80-a1-m19-cB_7c80-a1-m38-cB 7c80-a1-m1-cB_7c80-a1-m22-cB 7c80-a1-m21-cB_7c80-a1-m42-cB 7c80-a1-m23-cB_7c80-a1-m9-cB 7c80-a1-m24-cB_7c80-a1-m53-cB 7c80-a1-m25-cB_7c80-a1-m30-cB 7c80-a1-m26-cB_7c80-a1-m52-cB 7c80-a1-m29-cB_7c80-a1-m43-cB 7c80-a1-m2-cB_7c80-a1-m41-cB 7c80-a1-m31-cB_7c80-a1-m57-cB 7c80-a1-m32-cB_7c80-a1-m6-cB 7c80-a1-m33-cB_7c80-a1-m4-cB 7c80-a1-m34-cB_7c80-a1-m48-cB 7c80-a1-m35-cB_7c80-a1-m40-cB 7c80-a1-m36-cB_7c80-a1-m47-cB 7c80-a1-m39-cB_7c80-a1-m58-cB 7c80-a1-m3-cB_7c80-a1-m49-cB 7c80-a1-m45-cB_7c80-a1-m50-cB 7c80-a1-m54-cB_7c80-a1-m8-cB 7c80-a1-m55-cB_7c80-a1-m60-cB 7c80-a1-m56-cB_7c80-a1-m7-cB 7c81-a1-m10-cB_7c81-a1-m24-cB 7c81-a1-m11-cB_7c81-a1-m16-cB 7c81-a1-m12-cB_7c81-a1-m38-cB 7c81-a1-m13-cB_7c81-a1-m47-cB 7c81-a1-m14-cB_7c81-a1-m45-cB 7c81-a1-m15-cB_7c81-a1-m29-cB 7c81-a1-m17-cB_7c81-a1-m28-cB 7c81-a1-m18-cB_7c81-a1-m52-cB 7c81-a1-m19-cB_7c81-a1-m60-cB 7c81-a1-m1-cB_7c81-a1-m6-cB 7c81-a1-m20-cB_7c81-a1-m39-cB 7c81-a1-m21-cB_7c81-a1-m26-cB 7c81-a1-m22-cB_7c81-a1-m43-cB 7c81-a1-m25-cB_7c81-a1-m54-cB 7c81-a1-m27-cB_7c81-a1-m53-cB 7c81-a1-m2-cB_7c81-a1-m23-cB 7c81-a1-m30-cB_7c81-a1-m44-cB 7c81-a1-m31-cB_7c81-a1-m36-cB 7c81-a1-m32-cB_7c81-a1-m58-cB 7c81-a1-m33-cB_7c81-a1-m7-cB 7c81-a1-m34-cB_7c81-a1-m5-cB 7c81-a1-m35-cB_7c81-a1-m49-cB 7c81-a1-m37-cB_7c81-a1-m48-cB 7c81-a1-m3-cB_7c81-a1-m42-cB 7c81-a1-m40-cB_7c81-a1-m59-cB 7c81-a1-m41-cB_7c81-a1-m46-cB 7c81-a1-m4-cB_7c81-a1-m50-cB 7c81-a1-m51-cB_7c81-a1-m56-cB 7c81-a1-m57-cB_7c81-a1-m8-cB 7c9s-a1-m10-cB_7c9s-a1-m5-cB 7c9s-a1-m11-cB_7c9s-a1-m37-cB 7c9s-a1-m12-cB_7c9s-a1-m46-cB 7c9s-a1-m13-cB_7c9s-a1-m44-cB 7c9s-a1-m14-cB_7c9s-a1-m28-cB 7c9s-a1-m15-cB_7c9s-a1-m20-cB 7c9s-a1-m16-cB_7c9s-a1-m27-cB 7c9s-a1-m17-cB_7c9s-a1-m51-cB 7c9s-a1-m18-cB_7c9s-a1-m59-cB 7c9s-a1-m19-cB_7c9s-a1-m38-cB 7c9s-a1-m1-cB_7c9s-a1-m22-cB 7c9s-a1-m21-cB_7c9s-a1-m42-cB 7c9s-a1-m23-cB_7c9s-a1-m9-cB 7c9s-a1-m24-cB_7c9s-a1-m53-cB 7c9s-a1-m25-cB_7c9s-a1-m30-cB 7c9s-a1-m26-cB_7c9s-a1-m52-cB 7c9s-a1-m29-cB_7c9s-a1-m43-cB 7c9s-a1-m2-cB_7c9s-a1-m41-cB 7c9s-a1-m31-cB_7c9s-a1-m57-cB 7c9s-a1-m32-cB_7c9s-a1-m6-cB 7c9s-a1-m33-cB_7c9s-a1-m4-cB 7c9s-a1-m34-cB_7c9s-a1-m48-cB 7c9s-a1-m35-cB_7c9s-a1-m40-cB 7c9s-a1-m36-cB_7c9s-a1-m47-cB 7c9s-a1-m39-cB_7c9s-a1-m58-cB 7c9s-a1-m3-cB_7c9s-a1-m49-cB 7c9s-a1-m45-cB_7c9s-a1-m50-cB 7c9s-a1-m54-cB_7c9s-a1-m8-cB 7c9s-a1-m55-cB_7c9s-a1-m60-cB 7c9s-a1-m56-cB_7c9s-a1-m7-cB 7c9t-a1-m10-cB_7c9t-a1-m5-cB 7c9t-a1-m11-cB_7c9t-a1-m37-cB 7c9t-a1-m12-cB_7c9t-a1-m46-cB 7c9t-a1-m13-cB_7c9t-a1-m44-cB 7c9t-a1-m14-cB_7c9t-a1-m28-cB 7c9t-a1-m15-cB_7c9t-a1-m20-cB 7c9t-a1-m16-cB_7c9t-a1-m27-cB 7c9t-a1-m17-cB_7c9t-a1-m51-cB 7c9t-a1-m18-cB_7c9t-a1-m59-cB 7c9t-a1-m19-cB_7c9t-a1-m38-cB 7c9t-a1-m1-cB_7c9t-a1-m22-cB 7c9t-a1-m21-cB_7c9t-a1-m42-cB 7c9t-a1-m23-cB_7c9t-a1-m9-cB 7c9t-a1-m24-cB_7c9t-a1-m53-cB 7c9t-a1-m25-cB_7c9t-a1-m30-cB 7c9t-a1-m26-cB_7c9t-a1-m52-cB 7c9t-a1-m29-cB_7c9t-a1-m43-cB 7c9t-a1-m2-cB_7c9t-a1-m41-cB 7c9t-a1-m31-cB_7c9t-a1-m57-cB 7c9t-a1-m32-cB_7c9t-a1-m6-cB 7c9t-a1-m33-cB_7c9t-a1-m4-cB 7c9t-a1-m34-cB_7c9t-a1-m48-cB 7c9t-a1-m35-cB_7c9t-a1-m40-cB 7c9t-a1-m36-cB_7c9t-a1-m47-cB 7c9t-a1-m39-cB_7c9t-a1-m58-cB 7c9t-a1-m3-cB_7c9t-a1-m49-cB 7c9t-a1-m45-cB_7c9t-a1-m50-cB 7c9t-a1-m54-cB_7c9t-a1-m8-cB 7c9t-a1-m55-cB_7c9t-a1-m60-cB 7c9t-a1-m56-cB_7c9t-a1-m7-cB 7c9u-a1-m10-cB_7c9u-a1-m5-cB 7c9u-a1-m11-cB_7c9u-a1-m37-cB 7c9u-a1-m12-cB_7c9u-a1-m46-cB 7c9u-a1-m13-cB_7c9u-a1-m44-cB 7c9u-a1-m14-cB_7c9u-a1-m28-cB 7c9u-a1-m15-cB_7c9u-a1-m20-cB 7c9u-a1-m16-cB_7c9u-a1-m27-cB 7c9u-a1-m17-cB_7c9u-a1-m51-cB 7c9u-a1-m18-cB_7c9u-a1-m59-cB 7c9u-a1-m19-cB_7c9u-a1-m38-cB 7c9u-a1-m1-cB_7c9u-a1-m22-cB 7c9u-a1-m21-cB_7c9u-a1-m42-cB 7c9u-a1-m23-cB_7c9u-a1-m9-cB 7c9u-a1-m24-cB_7c9u-a1-m53-cB 7c9u-a1-m25-cB_7c9u-a1-m30-cB 7c9u-a1-m26-cB_7c9u-a1-m52-cB 7c9u-a1-m29-cB_7c9u-a1-m43-cB 7c9u-a1-m2-cB_7c9u-a1-m41-cB 7c9u-a1-m31-cB_7c9u-a1-m57-cB 7c9u-a1-m32-cB_7c9u-a1-m6-cB 7c9u-a1-m33-cB_7c9u-a1-m4-cB 7c9u-a1-m34-cB_7c9u-a1-m48-cB 7c9u-a1-m35-cB_7c9u-a1-m40-cB 7c9u-a1-m36-cB_7c9u-a1-m47-cB 7c9u-a1-m39-cB_7c9u-a1-m58-cB 7c9u-a1-m3-cB_7c9u-a1-m49-cB 7c9u-a1-m45-cB_7c9u-a1-m50-cB 7c9u-a1-m54-cB_7c9u-a1-m8-cB 7c9u-a1-m55-cB_7c9u-a1-m60-cB 7c9u-a1-m56-cB_7c9u-a1-m7-cB 7c9v-a1-m10-cB_7c9v-a1-m24-cB 7c9v-a1-m11-cB_7c9v-a1-m16-cB 7c9v-a1-m12-cB_7c9v-a1-m38-cB 7c9v-a1-m13-cB_7c9v-a1-m47-cB 7c9v-a1-m14-cB_7c9v-a1-m45-cB 7c9v-a1-m15-cB_7c9v-a1-m29-cB 7c9v-a1-m17-cB_7c9v-a1-m28-cB 7c9v-a1-m18-cB_7c9v-a1-m52-cB 7c9v-a1-m19-cB_7c9v-a1-m60-cB 7c9v-a1-m1-cB_7c9v-a1-m6-cB 7c9v-a1-m20-cB_7c9v-a1-m39-cB 7c9v-a1-m21-cB_7c9v-a1-m26-cB 7c9v-a1-m22-cB_7c9v-a1-m43-cB 7c9v-a1-m25-cB_7c9v-a1-m54-cB 7c9v-a1-m27-cB_7c9v-a1-m53-cB 7c9v-a1-m2-cB_7c9v-a1-m23-cB 7c9v-a1-m30-cB_7c9v-a1-m44-cB 7c9v-a1-m31-cB_7c9v-a1-m36-cB 7c9v-a1-m32-cB_7c9v-a1-m58-cB 7c9v-a1-m33-cB_7c9v-a1-m7-cB 7c9v-a1-m34-cB_7c9v-a1-m5-cB 7c9v-a1-m35-cB_7c9v-a1-m49-cB 7c9v-a1-m37-cB_7c9v-a1-m48-cB 7c9v-a1-m3-cB_7c9v-a1-m42-cB 7c9v-a1-m40-cB_7c9v-a1-m59-cB 7c9v-a1-m41-cB_7c9v-a1-m46-cB 7c9v-a1-m4-cB_7c9v-a1-m50-cB 7c9v-a1-m51-cB_7c9v-a1-m56-cB 7c9v-a1-m55-cB_7c9v-a1-m9-cB 7c9v-a1-m57-cB_7c9v-a1-m8-cB 7c9w-a1-m10-cB_7c9w-a1-m5-cB 7c9w-a1-m11-cB_7c9w-a1-m37-cB 7c9w-a1-m12-cB_7c9w-a1-m46-cB 7c9w-a1-m13-cB_7c9w-a1-m44-cB 7c9w-a1-m14-cB_7c9w-a1-m28-cB 7c9w-a1-m15-cB_7c9w-a1-m20-cB 7c9w-a1-m16-cB_7c9w-a1-m27-cB 7c9w-a1-m17-cB_7c9w-a1-m51-cB 7c9w-a1-m18-cB_7c9w-a1-m59-cB 7c9w-a1-m19-cB_7c9w-a1-m38-cB 7c9w-a1-m1-cB_7c9w-a1-m22-cB 7c9w-a1-m21-cB_7c9w-a1-m42-cB 7c9w-a1-m23-cB_7c9w-a1-m9-cB 7c9w-a1-m24-cB_7c9w-a1-m53-cB 7c9w-a1-m25-cB_7c9w-a1-m30-cB 7c9w-a1-m26-cB_7c9w-a1-m52-cB 7c9w-a1-m29-cB_7c9w-a1-m43-cB 7c9w-a1-m2-cB_7c9w-a1-m41-cB 7c9w-a1-m31-cB_7c9w-a1-m57-cB 7c9w-a1-m32-cB_7c9w-a1-m6-cB 7c9w-a1-m33-cB_7c9w-a1-m4-cB 7c9w-a1-m34-cB_7c9w-a1-m48-cB 7c9w-a1-m35-cB_7c9w-a1-m40-cB 7c9w-a1-m36-cB_7c9w-a1-m47-cB 7c9w-a1-m39-cB_7c9w-a1-m58-cB 7c9w-a1-m3-cB_7c9w-a1-m49-cB 7c9w-a1-m45-cB_7c9w-a1-m50-cB 7c9w-a1-m54-cB_7c9w-a1-m8-cB 7c9w-a1-m55-cB_7c9w-a1-m60-cB 7c9w-a1-m56-cB_7c9w-a1-m7-cB 7cmk-a1-m10-cB_7cmk-a1-m24-cB 7cmk-a1-m11-cB_7cmk-a1-m16-cB 7cmk-a1-m12-cB_7cmk-a1-m38-cB 7cmk-a1-m13-cB_7cmk-a1-m47-cB 7cmk-a1-m14-cB_7cmk-a1-m45-cB 7cmk-a1-m15-cB_7cmk-a1-m29-cB 7cmk-a1-m17-cB_7cmk-a1-m28-cB 7cmk-a1-m18-cB_7cmk-a1-m52-cB 7cmk-a1-m19-cB_7cmk-a1-m60-cB 7cmk-a1-m1-cB_7cmk-a1-m6-cB 7cmk-a1-m20-cB_7cmk-a1-m39-cB 7cmk-a1-m21-cB_7cmk-a1-m26-cB 7cmk-a1-m22-cB_7cmk-a1-m43-cB 7cmk-a1-m25-cB_7cmk-a1-m54-cB 7cmk-a1-m27-cB_7cmk-a1-m53-cB 7cmk-a1-m2-cB_7cmk-a1-m23-cB 7cmk-a1-m30-cB_7cmk-a1-m44-cB 7cmk-a1-m31-cB_7cmk-a1-m36-cB 7cmk-a1-m32-cB_7cmk-a1-m58-cB 7cmk-a1-m33-cB_7cmk-a1-m7-cB 7cmk-a1-m34-cB_7cmk-a1-m5-cB 7cmk-a1-m35-cB_7cmk-a1-m49-cB 7cmk-a1-m37-cB_7cmk-a1-m48-cB 7cmk-a1-m3-cB_7cmk-a1-m42-cB 7cmk-a1-m40-cB_7cmk-a1-m59-cB 7cmk-a1-m41-cB_7cmk-a1-m46-cB 7cmk-a1-m4-cB_7cmk-a1-m50-cB 7cmk-a1-m51-cB_7cmk-a1-m56-cB 7cmk-a1-m55-cB_7cmk-a1-m9-cB 7cmk-a1-m57-cB_7cmk-a1-m8-cB DRVRSITLGNSTITTQECANVVVGYGVWPTYLSDHEATAVDQPTQPDVATCRFYTLESVKWESSSAGWWWKFPEALSDMGLFGQNMQYHYLGRTGYTIHVQCNASKFHQGCLLVVCVPEAEMGAATTDHAFNHTKLSNIGQAMEFSAKKSTDQTGPQTAVHNAGMGVAVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMYRHYNFTLMVIPFAKLEHSPQASTYVPITVTVAPMCAEYNGLRLAGHQ DRVRSITLGNSTITTQECANVVVGYGVWPTYLSDHEATAVDQPTQPDVATCRFYTLESVKWESSSAGWWWKFPEALSDMGLFGQNMQYHYLGRTGYTIHVQCNASKFHQGCLLVVCVPEAEMGAATTDHAFNHTKLSNIGQAMEFSAKKSTDQTGPQTAVHNAGMGVAVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMYRHYNFTLMVIPFAKLEHSPQASTYVPITVTVAPMCAEYNGLRLAGHQ 7c8f-a1-m1-cB_7c8f-a1-m2-cA Structure of alginate lyase AlyC3 in complex with dimannuronate(2M) 1.461 X-RAY DIFFRACTION 31 1.0 1884585 (Psychromonas sp.) 1884585 (Psychromonas sp.) 266 266 7c8g-a1-m1-cA_7c8g-a1-m1-cB NVQFSNQDGALGEPANYTQFQHVLTESELQISDAEGKKGNKEYFALDGNFTGIVNQYFYVDKKSEALVFKMKNDHLRNEVRVHKNFRTDLPNKLYTLSAEVEIIDPVASMKNSNSKQNEITFLQVANKGLDNQGTHNVPHPLLRVVWKEDANSVKGHFWAMVKNNAVICKGSFGKKNKDKEMCKADVAYKKYDLGKAPLNKATAFDITVGNKQLIIDVDGKRLVEHDIDYWRHLLSYFKAGVANQFTNGMSEAHFNKLEYKALETK NVQFSNQDGALGEPANYTQFQHVLTESELQISDAEGKKGNKEYFALDGNFTGIVNQYFYVDKKSEALVFKMKNDHLRNEVRVHKNFRTDLPNKLYTLSAEVEIIDPVASMKNSNSKQNEITFLQVANKGLDNQGTHNVPHPLLRVVWKEDANSVKGHFWAMVKNNAVICKGSFGKKNKDKEMCKADVAYKKYDLGKAPLNKATAFDITVGNKQLIIDVDGKRLVEHDIDYWRHLLSYFKAGVANQFTNGMSEAHFNKLEYKALETK 7c8i-a1-m1-cC_7c8i-a1-m1-cH Ambient temperature structure of Bifidobacgterium longum phosphoketolase with thiamine diphosphate and phosphoenol pyuruvate Q6R2Q7 Q6R2Q7 2.5 X-RAY DIFFRACTION 13 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 806 808 6lxv-a1-m1-cA_6lxv-a1-m1-cE 6lxv-a1-m1-cA_6lxv-a1-m1-cH 6lxv-a1-m1-cB_6lxv-a1-m1-cF 6lxv-a1-m1-cB_6lxv-a1-m1-cG 6lxv-a1-m1-cC_6lxv-a1-m1-cE 6lxv-a1-m1-cC_6lxv-a1-m1-cH 6lxv-a1-m1-cD_6lxv-a1-m1-cF 6lxv-a1-m1-cD_6lxv-a1-m1-cG 7c8h-a1-m1-cA_7c8h-a1-m1-cE 7c8h-a1-m1-cA_7c8h-a1-m1-cH 7c8h-a1-m1-cB_7c8h-a1-m1-cF 7c8h-a1-m1-cC_7c8h-a1-m1-cE 7c8h-a1-m1-cC_7c8h-a1-m1-cH 7c8h-a1-m1-cF_7c8h-a1-m1-cD 7c8h-a1-m1-cG_7c8h-a1-m1-cB 7c8h-a1-m1-cG_7c8h-a1-m1-cD 7c8i-a1-m1-cA_7c8i-a1-m1-cE 7c8i-a1-m1-cA_7c8i-a1-m1-cH 7c8i-a1-m1-cC_7c8i-a1-m1-cE 7c8i-a1-m1-cD_7c8i-a1-m1-cF 7c8i-a1-m1-cD_7c8i-a1-m1-cG 7c8i-a1-m1-cF_7c8i-a1-m1-cB 7c8i-a1-m1-cG_7c8i-a1-m1-cB TSPVIGTPWKKLNAPVSEEALEGVDKYWRVANYLSIGQIYLRSNPLMKEPFTREDVKHRLVGHWGTTPGLNFLIGHINRFIADHGQNTVIIMGPGHGGPAGTSQSYLDGTYTETFPKITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAIMDNPSLFVPAIVGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILSRISDEELHEFFHGMGYEPYEFVAGFDDEDHMSIHRRFAELWETIWDEICDIKATAQTDNVHRPFYPMLIFRTPKGWTCPKYIDGKKTEGSWRSHQVPLASARDTEAHFEVLKNWLESYKPEELFDANGAVKDDVLAFMPKGELRIGANPNANGGVIRNDLKLPNLEDYEVKEVAEYGHGWGQLEATRTLGAYTRDIIKNNPRDFRIFGPDETASNRLQASYEVTNKQWDAGYISDEVDEHMHVSGQVVEQLSEHQMEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPIASMNLLVSSHVWRQDHNGFSHQDPGVTSVLLNKCFHNDHVIGIYFATDANMLLAIAEKCYKSTNKINAIIAGKQPAATWLTLDEARAELEKGAAAWDWASTAKNNDEAEVVLAAAGDVPTQEIMAASDKLKELGVKFKVVNVADLLSLQSAKENDEALTDEEFADIFTADKPVLFAYHSYAHDVRGLIYDRPNHDNFNVHGYEEEGSTTTPYDMVRVNRIDRYELTAEALRMIDADKYADKIDELEKFRDEAFQFAVDNGYDHPDYTDWVYSGVN TSPVIGTPWKKLNAPVSEEALEGVDKYWRVANYLSIGQIYLRSNPLMKEPFTREDVKHRLVGHWGTTPGLNFLIGHINRFIADHGQNTVIIMGPGHGGPAGTSQSYLDGTYTETFPKITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAIMDNPSLFVPAIVGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILSRISDEELHEFFHGMGYEPYEFVAGFDDEDHMSIHRRFAELWETIWDEICDIKATAQTDNVHRPFYPMLIFRTPKGWTCPKYIDGKKTEGSWRSHQVPLASARDTEAHFEVLKNWLESYKPEELFDANGAVKDDVLAFMPKGELRIGANPNANGGVIRNDLKLPNLEDYEVKEVAEYGHGWGQLEATRTLGAYTRDIIKNNPRDFRIFGPDETASNRLQASYEVTNKQWDAGYISDEVDEHMHVSGQVVEQLSEHQMEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPIASMNLLVSSHVWRQDHNGFSHQDPGVTSVLLNKCFHNDHVIGIYFATDANMLLAIAEKCYKSTNKINAIIAGKQPAATWLTLDEARAELEKGAAAWDWASTAKNNDEAEVVLAAAGDVPTQEIMAASDKLKELGVKFKVVNVADLLSLQSAKENDEALTDEEFADIFTADKPVLFAYHSYAHDVRGLIYDRPNHDNFNVHGYEEEGSTTTPYDMVRVNRIDRYELTAEALRMIDADKYADKIDELEKFRDEAFQFAVDNGYDHPDYTDWVYSGVNTD 7c8i-a1-m1-cH_7c8i-a1-m1-cB Ambient temperature structure of Bifidobacgterium longum phosphoketolase with thiamine diphosphate and phosphoenol pyuruvate Q6R2Q7 Q6R2Q7 2.5 X-RAY DIFFRACTION 27 1.0 216816 (Bifidobacterium longum) 216816 (Bifidobacterium longum) 808 811 6lxv-a1-m1-cA_6lxv-a1-m1-cF 6lxv-a1-m1-cB_6lxv-a1-m1-cH 6lxv-a1-m1-cC_6lxv-a1-m1-cG 6lxv-a1-m1-cD_6lxv-a1-m1-cE 7c8h-a1-m1-cA_7c8h-a1-m1-cF 7c8h-a1-m1-cB_7c8h-a1-m1-cH 7c8h-a1-m1-cD_7c8h-a1-m1-cE 7c8h-a1-m1-cG_7c8h-a1-m1-cC 7c8i-a1-m1-cA_7c8i-a1-m1-cF 7c8i-a1-m1-cC_7c8i-a1-m1-cG 7c8i-a1-m1-cD_7c8i-a1-m1-cE TSPVIGTPWKKLNAPVSEEALEGVDKYWRVANYLSIGQIYLRSNPLMKEPFTREDVKHRLVGHWGTTPGLNFLIGHINRFIADHGQNTVIIMGPGHGGPAGTSQSYLDGTYTETFPKITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAIMDNPSLFVPAIVGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILSRISDEELHEFFHGMGYEPYEFVAGFDDEDHMSIHRRFAELWETIWDEICDIKATAQTDNVHRPFYPMLIFRTPKGWTCPKYIDGKKTEGSWRSHQVPLASARDTEAHFEVLKNWLESYKPEELFDANGAVKDDVLAFMPKGELRIGANPNANGGVIRNDLKLPNLEDYEVKEVAEYGHGWGQLEATRTLGAYTRDIIKNNPRDFRIFGPDETASNRLQASYEVTNKQWDAGYISDEVDEHMHVSGQVVEQLSEHQMEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPIASMNLLVSSHVWRQDHNGFSHQDPGVTSVLLNKCFHNDHVIGIYFATDANMLLAIAEKCYKSTNKINAIIAGKQPAATWLTLDEARAELEKGAAAWDWASTAKNNDEAEVVLAAAGDVPTQEIMAASDKLKELGVKFKVVNVADLLSLQSAKENDEALTDEEFADIFTADKPVLFAYHSYAHDVRGLIYDRPNHDNFNVHGYEEEGSTTTPYDMVRVNRIDRYELTAEALRMIDADKYADKIDELEKFRDEAFQFAVDNGYDHPDYTDWVYSGVNTD TSPVIGTPWKKLNAPVSEEALEGVDKYWRVANYLSIGQIYLRSNPLMKEPFTREDVKHRLVGHWGTTPGLNFLIGHINRFIADHGQNTVIIMGPGHGGPAGTSQSYLDGTYTETFPKITKDEAGLQKFFRQFSYPGGIPSHFAPETPGSIHEGGELGYALSHAYGAIMDNPSLFVPAIVGDGEAETGPLATGWQSNKLVNPRTDGIVLPILHLNGYKIANPTILSRISDEELHEFFHGMGYEPYEFVAGFDDEDHMSIHRRFAELWETIWDEICDIKATAQTDNVHRPFYPMLIFRTPKGWTCPKYIDGKKTEGSWRSHQVPLASARDTEAHFEVLKNWLESYKPEELFDANGAVKDDVLAFMPKGELRIGANPNANGGVIRNDLKLPNLEDYEVKEVAEYGHGWGQLEATRTLGAYTRDIIKNNPRDFRIFGPDETASNRLQASYEVTNKQWDAGYISDEVDEHMHVSGQVVEQLSEHQMEGFLEAYLLTGRHGIWSSYESFVHVIDSMLNQHAKWLEATVREIPWRKPIASMNLLVSSHVWRQDHNGFSHQDPGVTSVLLNKCFHNDHVIGIYFATDANMLLAIAEKCYKSTNKINAIIAGKQPAATWLTLDEARAELEKGAAAWDWASTAKNNDEAEVVLAAAGDVPTQEIMAASDKLKELGVKFKVVNVADLLSLQSAKENDEALTDEEFADIFTADKPVLFAYHSYAHDVRGLIYDRPNHDNFNVHGYEEEGSTTTPYDMVRVNRIDRYELTAEALRMIDADKYADKIDELEKFRDEAFQFAVDNGYDHPDYTDWVYSGVNTDKKG 7c8m-a1-m1-cA_7c8m-a1-m1-cC Crystal structure of IscU wild-type A0B757 A0B757 3.5 X-RAY DIFFRACTION 55 1.0 2224 (Methanothrix thermoacetophila) 2224 (Methanothrix thermoacetophila) 128 128 GYSKKVMEHFMNPRNVGVIDDPDGYGKVGNPVCGDLMEIFIKVGDEKIEDIKFRTFGCGAAIATSSMITEMARGKSLEEAMRITRNDVADALDGLPPQKMHCSNLAADALHAAINDYLSKKQKHLEHH GYSKKVMEHFMNPRNVGVIDDPDGYGKVGNPVCGDLMEIFIKVGDEKIEDIKFRTFGCGAAIATSSMITEMARGKSLEEAMRITRNDVADALDGLPPQKMHCSNLAADALHAAINDYLSKKQKHLEHH 7c8o-a2-m1-cB_7c8o-a2-m1-cC Crystal structure of IscU D40A/H106A variant A0B757 A0B757 1.84 X-RAY DIFFRACTION 53 0.991 2224 (Methanothrix thermoacetophila) 2224 (Methanothrix thermoacetophila) 117 120 7c8o-a1-m1-cD_7c8o-a1-m1-cA KVMEHFMNPRNVGVIDDPDGYGKVGNPVCGALMEIFIKVGDEKIEDIKFRTFGCGAAIATSSMITEMARGKSLEEAMRITRNDVADALDGLPPQKMACSNLAADALHAAINDYLSKK GYSKKVMEHFMNPRNVGVIDDPDGYGKVGNPVCGALMEIFIKVGDEKIEDIKFRTFGCGAAIATSSMITEMARGKSLEEAMRITRNDVADALDGLPPQKMACSNLAADALHAAINDYLSK 7c8p-a1-m1-cA_7c8p-a1-m1-cB Structural and functional characterization of human group A rotavirus P[25] VP8* M1GR78 M1GR78 2.6 X-RAY DIFFRACTION 42 1.0 28875 (Rotavirus A) 28875 (Rotavirus A) 161 161 VLDGPYQPTSFNLPVDYWMMMSPTQAGRVAEGTNGTDRWFACIIVEPNVSLQSRDYVLDGQTVQLQVDNTSNTMWKFILFIKLTKSGNYSQYSSLLTNHKLCAWIKRDSRVYWFDGTVPNSSDNYYLTINNDNSIVSSDVDFYLIPRTQTDSCRRCINNGL VLDGPYQPTSFNLPVDYWMMMSPTQAGRVAEGTNGTDRWFACIIVEPNVSLQSRDYVLDGQTVQLQVDNTSNTMWKFILFIKLTKSGNYSQYSSLLTNHKLCAWIKRDSRVYWFDGTVPNSSDNYYLTINNDNSIVSSDVDFYLIPRTQTDSCRRCINNGL 7c8z-a2-m2-cG_7c8z-a2-m3-cG Crystal structure of salicylate 5-hydroxylase NagGH (a Rieske non-heme iron-dependent monooxgenase) O52379 O52379 2.6 X-RAY DIFFRACTION 95 1.0 54061 (Ralstonia sp.) 54061 (Ralstonia sp.) 383 383 7c8z-a1-m1-cA_7c8z-a1-m1-cC 7c8z-a1-m1-cA_7c8z-a1-m1-cE 7c8z-a1-m1-cC_7c8z-a1-m1-cE 7c8z-a2-m1-cG_7c8z-a2-m2-cG 7c8z-a2-m1-cG_7c8z-a2-m3-cG PVFPQDPKWPGEGSSRVPFWAYTREDLYKRELERLFYANHWCYVGLEAEIPNPGDFKRTVIGERSVIMVRDPDGGINVVENVCAHRGMRFCRERHGNAKDFFCPYHQWNYSLKGDLQGVPFRRGVKQDGKVNGGMPKDFKLEEHGLTKLKVAARGGAVFASFDHDVEPFEEFLGPTILHYFDRVFNGRKLKILGYRRQRIPGNWKLMQENIKDPYHPGLLHTWFKSELKMDAKFRHAAMISTVNDPRLLDIVPEPWWGGPTAVMTTIFPSVIIQQQVNSVSTRHIQPNGHGSFDFVWTHFGFEDDNEEWTQRRLIQANLFGPAGFVSADDGEVIEWSQEGFEQKPTHRTVIEMGGHEIGDTDHMVTETLIRGMYDYWRKVMGE PVFPQDPKWPGEGSSRVPFWAYTREDLYKRELERLFYANHWCYVGLEAEIPNPGDFKRTVIGERSVIMVRDPDGGINVVENVCAHRGMRFCRERHGNAKDFFCPYHQWNYSLKGDLQGVPFRRGVKQDGKVNGGMPKDFKLEEHGLTKLKVAARGGAVFASFDHDVEPFEEFLGPTILHYFDRVFNGRKLKILGYRRQRIPGNWKLMQENIKDPYHPGLLHTWFKSELKMDAKFRHAAMISTVNDPRLLDIVPEPWWGGPTAVMTTIFPSVIIQQQVNSVSTRHIQPNGHGSFDFVWTHFGFEDDNEEWTQRRLIQANLFGPAGFVSADDGEVIEWSQEGFEQKPTHRTVIEMGGHEIGDTDHMVTETLIRGMYDYWRKVMGE 7c8z-a2-m2-cH_7c8z-a2-m3-cH Crystal structure of salicylate 5-hydroxylase NagGH (a Rieske non-heme iron-dependent monooxgenase) O52380 O52380 2.6 X-RAY DIFFRACTION 80 1.0 54061 (Ralstonia sp.) 54061 (Ralstonia sp.) 161 161 7c8z-a1-m1-cB_7c8z-a1-m1-cD 7c8z-a1-m1-cB_7c8z-a1-m1-cF 7c8z-a1-m1-cD_7c8z-a1-m1-cF 7c8z-a2-m1-cH_7c8z-a2-m2-cH 7c8z-a2-m1-cH_7c8z-a2-m3-cH MVDFKTYFELLNLYSDYAMVCDSANWEKWPDFFIETGTYRLQPRENFEQGLPLCLLALESKAMIRDRVYGVKETMYHDPYYQRHIVGTPRVLSVERDADGERITAEASYAVIRTKYDGDSTIFNAGYYRDVIVRTPEGLKLKSRLCVYDSEMIPNSVIYPI MVDFKTYFELLNLYSDYAMVCDSANWEKWPDFFIETGTYRLQPRENFEQGLPLCLLALESKAMIRDRVYGVKETMYHDPYYQRHIVGTPRVLSVERDADGERITAEASYAVIRTKYDGDSTIFNAGYYRDVIVRTPEGLKLKSRLCVYDSEMIPNSVIYPI 7c90-a1-m1-cC_7c90-a1-m1-cD Crystal structure of Cytochrome CL from the marine methylotrophic bacterium Methylophaga aminisulfidivorans MPT (Ma-CytcL) F5SWR8 F5SWR8 2.13 X-RAY DIFFRACTION 36 0.993 1026882 (Methylophaga aminisulfidivorans MP) 1026882 (Methylophaga aminisulfidivorans MP) 145 150 7c90-a1-m1-cA_7c90-a1-m1-cB LVFRNTVTGDVLDLGEKTEAVEHFLNTGENLYNTDDEAIKAGESLFMTACSGCHGHHAEGKLGPALGDDYYTYPKNANDKGLFETIYGGARSMMGPQYNNLTKDEILHIMAWVRSVYWGSADKADWLTEEQKANFKPAEVPEDFK QLVFRNTVTGDVLDLSFGKKGEKTEAVEHFLNTGENLYNTDDEAIKAGESLFMTACSGCHGHHAEGKLGPALGDDYYTYPKNANDKGLFETIYGGARSMMGPQYNNLTKDEILHIMAWVRSVYWGSADKADWLTEEQKANFKPAEVPEDF 7c90-a1-m1-cD_7c90-a1-m1-cA Crystal structure of Cytochrome CL from the marine methylotrophic bacterium Methylophaga aminisulfidivorans MPT (Ma-CytcL) F5SWR8 F5SWR8 2.13 X-RAY DIFFRACTION 31 1.0 1026882 (Methylophaga aminisulfidivorans MP) 1026882 (Methylophaga aminisulfidivorans MP) 150 151 7c90-a1-m1-cC_7c90-a1-m1-cB QLVFRNTVTGDVLDLSFGKKGEKTEAVEHFLNTGENLYNTDDEAIKAGESLFMTACSGCHGHHAEGKLGPALGDDYYTYPKNANDKGLFETIYGGARSMMGPQYNNLTKDEILHIMAWVRSVYWGSADKADWLTEEQKANFKPAEVPEDF QLVFRNTVTGDVLDLSFGKKGEKTEAVEHFLNTGENLYNTDDEAIKAGESLFMTACSGCHGHHAEGKLGPALGDDYYTYPKNANDKGLFETIYGGARSMMGPQYNNLTKDEILHIMAWVRSVYWGSADKADWLTEEQKANFKPAEVPEDFK 7c9b-a1-m1-cA_7c9b-a1-m2-cA Crystal structure of dipeptidase-E from Xenopus laevis Q91642 Q91642 1.4 X-RAY DIFFRACTION 69 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 233 233 7ffp-a1-m1-cA_7ffp-a1-m2-cA MMTMRRHLLLVSNSTLHGGGYLEHCQEHILKFLGAQVKRVLFIPYALHDRDAYAKTARQKFEALGYGLDSVHESPDPVDAVKKAEAIFIGGGNTFRLLKALYDNDLIAAIRKRVLEDGVPYIGSSAGTNVATISINTTNDMPIVYPPSLKALELVPFNINPHYLDPGETREQRITQYHEEHDTPPVLGLREGCFLLVEGDKATLLGITRARLFLRGKNPTEHEPGHDFSFLLG MMTMRRHLLLVSNSTLHGGGYLEHCQEHILKFLGAQVKRVLFIPYALHDRDAYAKTARQKFEALGYGLDSVHESPDPVDAVKKAEAIFIGGGNTFRLLKALYDNDLIAAIRKRVLEDGVPYIGSSAGTNVATISINTTNDMPIVYPPSLKALELVPFNINPHYLDPGETREQRITQYHEEHDTPPVLGLREGCFLLVEGDKATLLGITRARLFLRGKNPTEHEPGHDFSFLLG 7cac-a1-m1-cA_7cac-a1-m1-cC SARS-CoV-2 S trimer with one RBD in the open state and complexed with one H014 Fab. P0DTC2 P0DTC2 3.55 ELECTRON MICROSCOPY 294 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1026 1026 7cac-a1-m1-cA_7cac-a1-m1-cB 7cac-a1-m1-cB_7cac-a1-m1-cC PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTMAYRFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTMAYRFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7caf-a1-m1-cC_7caf-a1-m1-cD Mycobacterium smegmatis LpqY-SugABC complex in the pre-translocation state A0R2C0 A0R2C0 3.3 ELECTRON MICROSCOPY 82 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 384 384 7cad-a1-m1-cC_7cad-a1-m1-cD 7cae-a1-m1-cC_7cae-a1-m1-cD 7cag-a1-m1-cC_7cag-a1-m1-cD AEIVLDRVTKSYPRAAVKEFSMTIADGEFIILVGPSGCGKSTTLNMIAGLEEITSGELRIGGERVNEKAPKDRDIAMVFQSYALYPHMTVRQNIAFPLTLAKVPKAEIAAKVEETAKILDLSELLDRKPGQLSGGQRQRVAMGRAIVRSPKAFLMDQPLSNLDAKLRVQMRAEISRLQDRLGTTTVYVTHDQTEAMTLGDRVVVMLAGEVQQIGTPDELYSSPANLFVAGFIGSPAMNFFPATRTDVGVRLPFGEVTLTPHMLDLLDKQARPENIIVGIRPEHIEDSALLDGYARIRALTFSVRADIVESLGADKYVHFTTEGAGAESAQLAELAADSGAGTNQFIARVSADSRVRTGEQIELAIDTTKLSIFDAATGLNLTRD AEIVLDRVTKSYPRAAVKEFSMTIADGEFIILVGPSGCGKSTTLNMIAGLEEITSGELRIGGERVNEKAPKDRDIAMVFQSYALYPHMTVRQNIAFPLTLAKVPKAEIAAKVEETAKILDLSELLDRKPGQLSGGQRQRVAMGRAIVRSPKAFLMDQPLSNLDAKLRVQMRAEISRLQDRLGTTTVYVTHDQTEAMTLGDRVVVMLAGEVQQIGTPDELYSSPANLFVAGFIGSPAMNFFPATRTDVGVRLPFGEVTLTPHMLDLLDKQARPENIIVGIRPEHIEDSALLDGYARIRALTFSVRADIVESLGADKYVHFTTEGAGAESAQLAELAADSGAGTNQFIARVSADSRVRTGEQIELAIDTTKLSIFDAATGLNLTRD 7cai-a1-m1-cA_7cai-a1-m1-cB SARS-CoV-2 S trimer with two RBDs in the open state and complexed with two H014 Fab P0DTC2 P0DTC2 3.49 ELECTRON MICROSCOPY 260 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1023 1023 7cai-a1-m1-cA_7cai-a1-m1-cC 7cai-a1-m1-cB_7cai-a1-m1-cC PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7caj-a1-m1-cA_7caj-a1-m1-cD Crystal structure of SETDB1 Tudor domain in complexed with Compound 2. Q15047 Q15047 2.198 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 7c9n-a1-m1-cA_7c9n-a1-m1-cB 7cd9-a1-m1-cA_7cd9-a1-m1-cB LSKDGDLIVSMRILGKKRTKTWHKGTLIAIQTVGPGKKYKVKFDNKGKSLLSGNHIAYDYHPPADKLYVGSRVVAKYKDGNQVWLYAGIVAETPNVKNKLRFLIFFDDGYASYVTQSELYPICRPLKKTWEDIEDISCRDFIEEYVTAYPNRPMVLLKSGQLIKTEWEGTWWKSRVEEVDGSLVRILFLDDKRCEWIYRGSTRLEPMFSMK LSKDGDLIVSMRILGKKRTKTWHKGTLIAIQTVGPGKKYKVKFDNKGKSLLSGNHIAYDYHPPADKLYVGSRVVAKYKDGNQVWLYAGIVAETPNVKNKLRFLIFFDDGYASYVTQSELYPICRPLKKTWEDIEDISCRDFIEEYVTAYPNRPMVLLKSGQLIKTEWEGTWWKSRVEEVDGSLVRILFLDDKRCEWIYRGSTRLEPMFSMK 7cav-a1-m1-cA_7cav-a1-m1-cB Versatile cis-prenyltransferase MM_0014 from Methanosarcina mazei (crystal type: co-FG+DMAPP) A0A0F8R9A0 A0A0F8R9A0 1.91 X-RAY DIFFRACTION 80 1.0 192952 (Methanosarcina mazei Go1) 192952 (Methanosarcina mazei Go1) 211 222 7caq-a1-m1-cB_7caq-a1-m1-cA 7car-a1-m1-cB_7car-a1-m1-cA 7cas-a1-m1-cB_7cas-a1-m1-cA 7cav-a2-m1-cD_7cav-a2-m1-cC 7cav-a3-m1-cE_7cav-a3-m1-cF 7cav-a4-m1-cH_7cav-a4-m1-cG 7cc3-a1-m1-cA_7cc3-a1-m1-cB 7cc3-a2-m1-cD_7cc3-a2-m1-cC 7cc3-a3-m1-cF_7cc3-a3-m1-cE 7cc3-a4-m1-cG_7cc3-a4-m1-cH GYQMDIPKFKRLPRHIAIIPDGNRRWALARGLEKHEGYSSGIIPGLEVYDICVKIGIGEVTFFGFTQDNTKRPQIQRKAFTDACIKSVQEIAKRDAEILVVGNTNSDIFPEELLEYTKRTKVGKGKIKINFLINYGWYWDLTYAYDKMIENIASAEIPRVDLLIRWGGRCRLSGMLPVQTVYSDIYVVDEMWPDFKPEHLFKALEFYQNQD GYQMDIPKFKRLPRHIAIIPDGNRRWALARGLEKHEGYSSGIIPGLEVYDICVKIGIGEVTFFGFTQDNTKRPQIQRKAFTDACIKSVQEIAKRDAEILVVGNTNSDIFPEELLEYTKRTKVGKGKIKINFLINYGWYWDLTYAYDNSPDGKKMIENIASAEIPRVDLLIRWGGRCRLSGMLPVQTVYSDIYVVDEMWPDFKPEHLFKALEFYQNQDITLGG 7caw-a1-m1-cA_7caw-a1-m1-cD Crystal structure of bacterial reductase A0A1K1L6W4 A0A1K1L6W4 1.876 X-RAY DIFFRACTION 93 0.996 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 230 230 6nrp-a1-m1-cB_6nrp-a1-m1-cA 6nrp-a1-m1-cC_6nrp-a1-m1-cD 7caw-a1-m1-cC_7caw-a1-m1-cB 7cax-a1-m1-cA_7cax-a1-m1-cD 7cax-a1-m1-cB_7cax-a1-m1-cC TRRILVTGSSRGIGKAIALQLAKAGFDVTVHARSRQAEAEQVVQEIQALGQNSHYLMFDVNERQTVQQILEQDVEQHGGFYGVVLNAGLTHDGAFPALTDQDWDEVISTSLDGFYNVLKPLIMPMIHLRKGGRIVTLSSVSGIMGNRGQVNYSAAKAGLIGATKALALELAKRKITVNCVAPGLIETELKMIPLQRMGQVDEVASVVKFLCSDEASYVTRQVISVNGGLI TRRILVTGSSRGIGKAIALQLAKAGFDVTVHARSRQAEAEQVVQEIQALGQNSHYLMFDVNERQTVQQILEQDVEQHGGFYGVVLNAGLTHDGAFPALTDQDWDEVISTSLDGFYNVLKPLIMPMIHLRKGGRIVTLSSVSGIMGNRGQVNYSAAKAGLIGATKALALELAKRKITVNCVAPGLIETALKMIPLQRMGQVDEVASVVKFLCSDEASYVTRQVISVNGGLI 7cb2-a1-m1-cA_7cb2-a1-m1-cB The 6-phosphogluconate dehydrogenase (NADP-bound) from Staphylococcus aureus A0A0H3KGN1 A0A0H3KGN1 2.15 X-RAY DIFFRACTION 359 1.0 426430 (Staphylococcus aureus subsp. aureus str. Newman) 426430 (Staphylococcus aureus subsp. aureus str. Newman) 466 466 7cb0-a1-m1-cA_7cb0-a1-m1-cB 7cb0-a2-m2-cD_7cb0-a2-m1-cC 7cb2-a2-m1-cC_7cb2-a2-m1-cD 7cb5-a1-m1-cA_7cb5-a1-m1-cB 7cb5-a2-m1-cD_7cb5-a2-m1-cC 7cb6-a1-m1-cA_7cb6-a1-m1-cB 7cb6-a2-m1-cC_7cb6-a2-m1-cD MTQQIGVIGLAVMGKNLAWNIESRGYSVSVFNRSSEKTDLMVEESKGKNIHPTYSLEEFVNSLEKPRKILLMVQAGKATDATIDSLLPLLDDGDILIDGGNTNYQDTIRRNKALAQSAINFIGMGVSGGEIGALTGPSLMPGGQEEAYNKVADILDAIAAKAKDGASCVTYIGPNGAGHYVKMVHNGIEYADMQLIAESYAMMKELLGMSHEDIAQTFKDWNAGELESYLIEITGDIFMKLDENKEALVEKILDTAGQKGTGKWTSINALELGIPLTIITESVFARFISSIKEERVNASKELNGPKASFDGDKKDFLEKIRKALYMSKICSYAQGFAQMRKASEDNEWNLKLGDLAMIWREGCIIRAQFLQKIKDAYDNNPGLQNLLLDPYFKNIVTEYQDALRDVVATGVQNGVPTPGFSSSINYYDSYRAADLPANLIQAQRDYFGAHTYERKDKEGVFHTQWI MTQQIGVIGLAVMGKNLAWNIESRGYSVSVFNRSSEKTDLMVEESKGKNIHPTYSLEEFVNSLEKPRKILLMVQAGKATDATIDSLLPLLDDGDILIDGGNTNYQDTIRRNKALAQSAINFIGMGVSGGEIGALTGPSLMPGGQEEAYNKVADILDAIAAKAKDGASCVTYIGPNGAGHYVKMVHNGIEYADMQLIAESYAMMKELLGMSHEDIAQTFKDWNAGELESYLIEITGDIFMKLDENKEALVEKILDTAGQKGTGKWTSINALELGIPLTIITESVFARFISSIKEERVNASKELNGPKASFDGDKKDFLEKIRKALYMSKICSYAQGFAQMRKASEDNEWNLKLGDLAMIWREGCIIRAQFLQKIKDAYDNNPGLQNLLLDPYFKNIVTEYQDALRDVVATGVQNGVPTPGFSSSINYYDSYRAADLPANLIQAQRDYFGAHTYERKDKEGVFHTQWI 7cb3-a1-m1-cA_7cb3-a1-m1-cB Crystal structure of type III polyketide synthase from Mycobacterium marinum B2HNE1 B2HNE1 2.31 X-RAY DIFFRACTION 177 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 362 362 7d41-a1-m1-cB_7d41-a1-m1-cA TTVAVIEGMATGAPQRVVAQADAAARVSELFVDPQQRERISRIYDKTRIDTRRMAVDPLDDEFDEFRREPATIRDRMNLFYQHAVPLAVDVAARALDGLPYAPDEIGQLVFVTSTGFIAPGVDVEIVKQLGLPRSISRVVVNFMGAAAMNAIRTATNYVRAHPSMKALVVCIELSSVNAVFADDINDVVIHSLFGDGCGALVIGASQVQQPLPAGNVVIRSSFSQLLDDSEDGIVLGVNHDGITCELSENLPSYIYRSVDPVVAEMLRDNGLSKADIDLWAIHPGGPKIIEQSARSLGIPVGRAVQSWDVLAQFGNMLSVSLIFVLEMMVAQAESDKPISTGVAFAFAPGVTVEGMLFDIIR TTVAVIEGMATGAPQRVVAQADAAARVSELFVDPQQRERISRIYDKTRIDTRRMAVDPLDDEFDEFRREPATIRDRMNLFYQHAVPLAVDVAARALDGLPYAPDEIGQLVFVTSTGFIAPGVDVEIVKQLGLPRSISRVVVNFMGAAAMNAIRTATNYVRAHPSMKALVVCIELSSVNAVFADDINDVVIHSLFGDGCGALVIGASQVQQPLPAGNVVIRSSFSQLLDDSEDGIVLGVNHDGITCELSENLPSYIYRSVDPVVAEMLRDNGLSKADIDLWAIHPGGPKIIEQSARSLGIPVGRAVQSWDVLAQFGNMLSVSLIFVLEMMVAQAESDKPISTGVAFAFAPGVTVEGMLFDIIR 7cbe-a1-m1-cA_7cbe-a1-m1-cB Crystal structure of Homoserine O-succinyltransferase from Escherichia coli K-12 P07623 P07623 1.7 X-RAY DIFFRACTION 166 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 283 292 6mtg-a1-m1-cA_6mtg-a1-m1-cB PIRVPDELPAVNFLREENVFVMTTSREIRPLKVLILNLMPKKIETENQFLRLLSNSPLQVDIQLLRIDAEHLNNFYCNFEDIQDQNFDGLIVTGAPLGLVEFNDVAYWPQIKQVLEWSKDHVTSTLFVCWAVQAALNILYGIPKQTRTEKLSGVYEHHILHPHALLTRGFDDSFLAPHSRYADFPAALIRDYTDLEILAETEEGDAYLFASKDKRIAFVTGHPEYDAQTLAQEFFRDVEAGLDPDVPYNYFPHNDPQNTPRASWRSHGNLLFTNWLNYYVYQI PIRVPDELPAVNFLREENVFVMTTSRASGQEIRPLKVLILNLMPKKIETENQFLRLLSNSPLQVDIQLLRIDSRETPAEHLNNFYCNFEDIQDQNFDGLIVTGAPLGLVEFNDVAYWPQIKQVLEWSKDHVTSTLFVCWAVQAALNILYGIPKQTRTEKLSGVYEHHILHPHALLTRGFDDSFLAPHSRYADFPAALIRDYTDLEILAETEEGDAYLFASKDKRIAFVTGHPEYDAQTLAQEFFRDVEAGLDPDVPYNYFPHNDPQNTPRASWRSHGNLLFTNWLNYYVYQI 7cbf-a1-m1-cB_7cbf-a1-m1-cA Crystal structure of benzophenone synthase from Garcinia mangostana L. pericarps reveals basis for substrate specificity and catalysis L7NCQ3 L7NCQ3 2.301 X-RAY DIFFRACTION 161 1.0 58228 (Garcinia mangostana) 58228 (Garcinia mangostana) 377 383 RGSANVLAIGTANPPNVILQEDYPDFYFKVTNSEHLTDLKEKFKRICVKSKTRKRHFYLTEQILKENPGIATYGAGSLDSRQKILETEIPKLGKEAAMVAIQEWGQPVSKITHVVFATTSGFMMPGADYSITRLLGLNPNVRRVMIYNQGCFAGGTALRVAKDLAENNKGARVLVVCAENTAMTFHGPNENHLDVLVGQAMFSDGAAALIIGANPNLPEERPVYEMVAAHQTIVPESDGAIVAHFYEMGMSYFLKENVIPLFGNNIEACMEAAFKEYGISDWNSLFYSVHPGGRAIVDGIAEKLGLDEENLKATRHVLSEYGNMGSACVIFILDELRKKSKEEKKLTTGDGKEWGCLIGLGPGLTVETVVLRSVPIA QSRGSANVLAIGTANPPNVILQEDYPDFYFKVTNSEHLTDLKEKFKRICVKSKTRKRHFYLTEQILKENPGIATYGAGSLDSRQKILETEIPKLGKEAAMVAIQEWGQPVSKITHVVFATTSGFMMPGADYSITRLLGLNPNVRRVMIYNQGCFAGGTALRVAKDLAENNKGARVLVVCAENTAMTFHGPNENHLDVLVGQAMFSDGAAALIIGANPNLPEERPVYEMVAAHQTIVPESDGAIVAHFYEMGMSYFLKENVIPLFGNNIEACMEAAFKEYGISDWNSLFYSVHPGGRAIVDGIAEKLGLDEENLKATRHVLSEYGNMGSACVIFILDELRKKSKEEKKLTTGDGKEWGCLIGLGPGLTVETVVLRSVPIAAAAL 7cbl-a1-m1-cW_7cbl-a1-m1-cZ Cryo-EM structure of the flagellar LP ring from Salmonella P0A1N8 P0A1N8 2.8 ELECTRON MICROSCOPY 29 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 211 211 7bgl-a1-m1-cA_7bgl-a1-m1-cD 7bgl-a1-m1-cA_7bgl-a1-m1-cX 7bgl-a1-m1-cB_7bgl-a1-m1-cE 7bgl-a1-m1-cB_7bgl-a1-m1-cY 7bgl-a1-m1-cC_7bgl-a1-m1-cF 7bgl-a1-m1-cC_7bgl-a1-m1-cZ 7bgl-a1-m1-cD_7bgl-a1-m1-cG 7bgl-a1-m1-cE_7bgl-a1-m1-cH 7bgl-a1-m1-cF_7bgl-a1-m1-cI 7bgl-a1-m1-cG_7bgl-a1-m1-cJ 7bgl-a1-m1-cH_7bgl-a1-m1-cK 7bgl-a1-m1-cI_7bgl-a1-m1-cL 7bgl-a1-m1-cJ_7bgl-a1-m1-cM 7bgl-a1-m1-cK_7bgl-a1-m1-cN 7bgl-a1-m1-cL_7bgl-a1-m1-cO 7bgl-a1-m1-cM_7bgl-a1-m1-cP 7bgl-a1-m1-cN_7bgl-a1-m1-cQ 7bgl-a1-m1-cO_7bgl-a1-m1-cR 7bgl-a1-m1-cP_7bgl-a1-m1-cS 7bgl-a1-m1-cQ_7bgl-a1-m1-cT 7bgl-a1-m1-cR_7bgl-a1-m1-cU 7bgl-a1-m1-cS_7bgl-a1-m1-cV 7bgl-a1-m1-cT_7bgl-a1-m1-cW 7bgl-a1-m1-cU_7bgl-a1-m1-cX 7bgl-a1-m1-cV_7bgl-a1-m1-cY 7bgl-a1-m1-cW_7bgl-a1-m1-cZ 7cbl-a1-m1-cA_7cbl-a1-m1-cD 7cbl-a1-m1-cA_7cbl-a1-m1-cX 7cbl-a1-m1-cB_7cbl-a1-m1-cE 7cbl-a1-m1-cB_7cbl-a1-m1-cY 7cbl-a1-m1-cC_7cbl-a1-m1-cF 7cbl-a1-m1-cC_7cbl-a1-m1-cZ 7cbl-a1-m1-cD_7cbl-a1-m1-cG 7cbl-a1-m1-cE_7cbl-a1-m1-cH 7cbl-a1-m1-cF_7cbl-a1-m1-cI 7cbl-a1-m1-cG_7cbl-a1-m1-cJ 7cbl-a1-m1-cH_7cbl-a1-m1-cK 7cbl-a1-m1-cI_7cbl-a1-m1-cL 7cbl-a1-m1-cJ_7cbl-a1-m1-cM 7cbl-a1-m1-cK_7cbl-a1-m1-cN 7cbl-a1-m1-cL_7cbl-a1-m1-cO 7cbl-a1-m1-cM_7cbl-a1-m1-cP 7cbl-a1-m1-cN_7cbl-a1-m1-cQ 7cbl-a1-m1-cO_7cbl-a1-m1-cR 7cbl-a1-m1-cP_7cbl-a1-m1-cS 7cbl-a1-m1-cQ_7cbl-a1-m1-cT 7cbl-a1-m1-cR_7cbl-a1-m1-cU 7cbl-a1-m1-cS_7cbl-a1-m1-cV 7cbl-a1-m1-cT_7cbl-a1-m1-cW 7cbl-a1-m1-cU_7cbl-a1-m1-cX 7cbl-a1-m1-cV_7cbl-a1-m1-cY 7cgo-a1-m1-cAA_7cgo-a1-m1-cAD 7cgo-a1-m1-cAA_7cgo-a1-m1-cAX 7cgo-a1-m1-cAB_7cgo-a1-m1-cAE 7cgo-a1-m1-cAB_7cgo-a1-m1-cAY 7cgo-a1-m1-cAC_7cgo-a1-m1-cAF 7cgo-a1-m1-cAC_7cgo-a1-m1-cAZ 7cgo-a1-m1-cAD_7cgo-a1-m1-cAG 7cgo-a1-m1-cAE_7cgo-a1-m1-cAH 7cgo-a1-m1-cAF_7cgo-a1-m1-cAI 7cgo-a1-m1-cAG_7cgo-a1-m1-cAJ 7cgo-a1-m1-cAH_7cgo-a1-m1-cAK 7cgo-a1-m1-cAI_7cgo-a1-m1-cAL 7cgo-a1-m1-cAJ_7cgo-a1-m1-cAM 7cgo-a1-m1-cAK_7cgo-a1-m1-cAN 7cgo-a1-m1-cAL_7cgo-a1-m1-cAO 7cgo-a1-m1-cAM_7cgo-a1-m1-cAP 7cgo-a1-m1-cAN_7cgo-a1-m1-cAQ 7cgo-a1-m1-cAO_7cgo-a1-m1-cAR 7cgo-a1-m1-cAP_7cgo-a1-m1-cAS 7cgo-a1-m1-cAQ_7cgo-a1-m1-cAT 7cgo-a1-m1-cAR_7cgo-a1-m1-cAU 7cgo-a1-m1-cAS_7cgo-a1-m1-cAV 7cgo-a1-m1-cAT_7cgo-a1-m1-cAW 7cgo-a1-m1-cAU_7cgo-a1-m1-cAX 7cgo-a1-m1-cAV_7cgo-a1-m1-cAY 7cgo-a1-m1-cAW_7cgo-a1-m1-cAZ 7clr-a1-m1-ca_7clr-a1-m1-cd 7clr-a1-m1-ca_7clr-a1-m1-cy 7clr-a1-m1-cb_7clr-a1-m1-ce 7clr-a1-m1-cb_7clr-a1-m1-cu 7clr-a1-m1-cc_7clr-a1-m1-cf 7clr-a1-m1-cc_7clr-a1-m1-cz 7clr-a1-m1-cd_7clr-a1-m1-cg 7clr-a1-m1-ce_7clr-a1-m1-ch 7clr-a1-m1-cf_7clr-a1-m1-ci 7clr-a1-m1-cg_7clr-a1-m1-cj 7clr-a1-m1-ch_7clr-a1-m1-ck 7clr-a1-m1-ci_7clr-a1-m1-cl 7clr-a1-m1-cj_7clr-a1-m1-cm 7clr-a1-m1-ck_7clr-a1-m1-cn 7clr-a1-m1-cl_7clr-a1-m1-co 7clr-a1-m1-cm_7clr-a1-m1-cp 7clr-a1-m1-cn_7clr-a1-m1-cq 7clr-a1-m1-co_7clr-a1-m1-cr 7clr-a1-m1-cp_7clr-a1-m1-cs 7clr-a1-m1-cq_7clr-a1-m1-ct 7clr-a1-m1-cr_7clr-a1-m1-cv 7clr-a1-m1-cs_7clr-a1-m1-cw 7clr-a1-m1-ct_7clr-a1-m1-cx 7clr-a1-m1-cu_7clr-a1-m1-cw 7clr-a1-m1-cv_7clr-a1-m1-cy 7clr-a1-m1-cx_7clr-a1-m1-cz 7nvg-a1-m1-cA3_7nvg-a1-m1-cD3 7nvg-a1-m1-cA3_7nvg-a1-m1-cX3 7nvg-a1-m1-cB3_7nvg-a1-m1-cE3 7nvg-a1-m1-cB3_7nvg-a1-m1-cY3 7nvg-a1-m1-cC3_7nvg-a1-m1-cF3 7nvg-a1-m1-cC3_7nvg-a1-m1-cZ3 7nvg-a1-m1-cD3_7nvg-a1-m1-cG3 7nvg-a1-m1-cE3_7nvg-a1-m1-cH3 7nvg-a1-m1-cF3_7nvg-a1-m1-cI3 7nvg-a1-m1-cG3_7nvg-a1-m1-cJ3 7nvg-a1-m1-cH3_7nvg-a1-m1-cK3 7nvg-a1-m1-cI3_7nvg-a1-m1-cL3 7nvg-a1-m1-cJ3_7nvg-a1-m1-cM3 7nvg-a1-m1-cK3_7nvg-a1-m1-cN3 7nvg-a1-m1-cL3_7nvg-a1-m1-cO3 7nvg-a1-m1-cM3_7nvg-a1-m1-cP3 7nvg-a1-m1-cN3_7nvg-a1-m1-cQ3 7nvg-a1-m1-cO3_7nvg-a1-m1-cR3 7nvg-a1-m1-cP3_7nvg-a1-m1-cS3 7nvg-a1-m1-cQ3_7nvg-a1-m1-cT3 7nvg-a1-m1-cR3_7nvg-a1-m1-cU3 7nvg-a1-m1-cS3_7nvg-a1-m1-cV3 7nvg-a1-m1-cU3_7nvg-a1-m1-cX3 7nvg-a1-m1-cV3_7nvg-a1-m1-cY3 7nvg-a1-m1-cW3_7nvg-a1-m1-cT3 7nvg-a1-m1-cW3_7nvg-a1-m1-cZ3 CAWIPAKPLVQGATTAQPIPGPVPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTSFGFDTVPRYLQGLFGNSRADMEASGGNSFNGKGGANASNTFSGTLTVTVDQVLANGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNSVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM CAWIPAKPLVQGATTAQPIPGPVPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTSFGFDTVPRYLQGLFGNSRADMEASGGNSFNGKGGANASNTFSGTLTVTVDQVLANGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNSVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM 7cbr-a1-m1-cA_7cbr-a1-m1-cB Blasnase-T13A with D-asn A0A6I7U6Y2 A0A6I7U6Y2 1.8 X-RAY DIFFRACTION 207 1.0 1648923 (Bacillus paralicheniformis) 1648923 (Bacillus paralicheniformis) 321 321 7c8q-a1-m1-cA_7c8q-a1-m1-cB 7c8x-a1-m1-cA_7c8x-a1-m1-cB 7c91-a1-m1-cA_7c91-a1-m1-cB 7cb4-a1-m1-cA_7cb4-a1-m1-cB 7cbu-a1-m1-cA_7cbu-a1-m1-cB 7cbw-a1-m1-cA_7cbw-a1-m1-cB KKKVALITTGGTIASRKTESGRLAAGAISGPELAEMCSLPEDVQIDVYPAFQLPSMHITFQHLLELKQTVERVFQDGSYDGVVVTHGTDTLEETAYFLDLTLQDERPVVVTGSQRAPEQQGTDAYTNIRHAVYTACSPDIKGAGTVVVFNERIFNARYVKKVHASNLQGFDVFGFGYLGIIDNDKVYVYQKPLKRDVHQLQRPLPEVDIVKCYLDGDGKFIRAAVREGAAGIVLEGVGRGQVPPNMVGDIEQALHQGVYIVITTSAEEGEVYTTYDMAGSSYDLAKKGVILGKDYDSKKARMKLAVLLASYEEGIKDKFCY KKKVALITTGGTIASRKTESGRLAAGAISGPELAEMCSLPEDVQIDVYPAFQLPSMHITFQHLLELKQTVERVFQDGSYDGVVVTHGTDTLEETAYFLDLTLQDERPVVVTGSQRAPEQQGTDAYTNIRHAVYTACSPDIKGAGTVVVFNERIFNARYVKKVHASNLQGFDVFGFGYLGIIDNDKVYVYQKPLKRDVHQLQRPLPEVDIVKCYLDGDGKFIRAAVREGAAGIVLEGVGRGQVPPNMVGDIEQALHQGVYIVITTSAEEGEVYTTYDMAGSSYDLAKKGVILGKDYDSKKARMKLAVLLASYEEGIKDKFCY 7cbs-a3-m1-cG_7cbs-a3-m1-cC Crystal structure of SpaB basal pilin from Lactobacillus rhamnosus GG 2.39 X-RAY DIFFRACTION 36 1.0 47715 (Lacticaseibacillus rhamnosus) 47715 (Lacticaseibacillus rhamnosus) 127 130 7cbs-a1-m1-cE_7cbs-a1-m1-cA 7cbs-a2-m1-cL_7cbs-a2-m1-cB TVPTTVDVVLHKLDVPLNGVTFTVYDVTADFWQLVSKNGGAIEVAQTTLSQDSYQPASSLIAQVVTAGQGEAYFGDLPLRQGQHAAVYLFKETAAPKNIEASQNLVVVMSSNLQHGNQSRIDLFPKN ATVPTTVDVVLHKLLDVPLNGVTFTVYDVTADFWQLVSKNGGAIEVAQTTLSQDSYQPASSSLIAQVVTAGQGEAYFGDLPLRQGQHAAVYLFKETAAPKNIEASQNLVVVMSSNLQHGNQSRIDLFPKN 7cc8-a1-m1-cB_7cc8-a1-m1-cA Crystal structure of White Spot Syndrome Virus Thymidylate Synthase - Apo form Q77J90 Q77J90 2.3 X-RAY DIFFRACTION 101 1.0 654913 (Shrimp white spot syndrome virus (isolate Tongan)) 654913 (Shrimp white spot syndrome virus (isolate Tongan)) 280 294 7cca-a1-m1-cB_7cca-a1-m1-cA MEGEHQYLNLVREILERGVKKDDRTGTGTLSIFGPQMRFSLRDDTIPVLTTKKIFWRGVVEELLWFIRGNTDAKELAKKKIHIWNANGSREFLDSRGLYDRAEGDLGPVYGFQWRHFGAEYDTCSSDYTGKGIDQLANILKTLRENPDDRRMIMTAWNPMDLHLMALPPCHMTAQFYVANGELSCQLYQRSGDVGLGVPFNIASYSLLTHLMASMVGLKPGEFILTLGDAHIYNTHIEVLKKQLCRVPRPFPKLRILMAPEKIEDFTIDMFYLEGYQPHS MEGEHQYLNLVREILERGVKKDDRTGTGTLSIFGPQMRFSLRDDTIPVLTTKKIFWRGVVEELLWFIRGNTDAKELAKKKIHIWNANGSREFLDSRGLYDRAEGDLGPVYGFQWRHFGAEYDTCSSDYTGKGIDQLANILKTLRENPDDRRMIMTAWNPMDLHLMALPPCHMTAQFYVANGELSCQLYQRSGDVGLGVPFNIASYSLLTHLMASMVGLKPGEFILTLGDAHIYNTHIEVLKKQLCRVPRPFPKLRILMAPEKIEDFTIDMFYLEGYQPHSGNLQMKMAVLEHHH 7ccb-a1-m1-cA_7ccb-a1-m1-cB Crystal structure of the SPRY domain-containing protein 7 (SPRY7) Q5W111 Q5W111 1.62 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 164 164 AVQLDTQHMGTDVVIVKNGRRICGTGGCLASAPLHQNKSYFEFKIQSTGIWGIGVATQKVNLNQIPLGRDMHSLVMRNDGALYHNNEEKNRLPANSLPQEGDVVGITYDHVELNVYLNGKNMHCPASGIRGTVYPVVYVDDSAILDCQFSEFYHTPPPGFEKIL AVQLDTQHMGTDVVIVKNGRRICGTGGCLASAPLHQNKSYFEFKIQSTGIWGIGVATQKVNLNQIPLGRDMHSLVMRNDGALYHNNEEKNRLPANSLPQEGDVVGITYDHVELNVYLNGKNMHCPASGIRGTVYPVVYVDDSAILDCQFSEFYHTPPPGFEKIL 7ccg-a1-m2-cA_7ccg-a1-m3-cA Crystal structure of ClA1, a kind of a chlorinase from soil bacteria A0A059WF38 A0A059WF38 1.85 X-RAY DIFFRACTION 84 1.0 262 262 7ccg-a1-m1-cA_7ccg-a1-m2-cA 7ccg-a1-m1-cA_7ccg-a1-m3-cA PIIAYLSDIGNHDEAHALGKGLIKTIAPGAEIVDITHQVTPFDVREGGLYLQDVPASFPANTVIAAYVYPETGTSTRTVVVRNEKGQLLVAPNNGLLTWALKAVPAVEAWEVTSPDVMNQPVTPTWYGKDVVVACGAHLAAGVAPSAVGPKIDVAKLVTLPTTPAVQLGDGSVRGEVVRIDKAFGNVWTNISLDALSGKTLQVTAEGLSVEIPYYATFGEVPIGEPLVYNNSRGKVALGLNQGSFLERYGVAAGDTVTIGLV PIIAYLSDIGNHDEAHALGKGLIKTIAPGAEIVDITHQVTPFDVREGGLYLQDVPASFPANTVIAAYVYPETGTSTRTVVVRNEKGQLLVAPNNGLLTWALKAVPAVEAWEVTSPDVMNQPVTPTWYGKDVVVACGAHLAAGVAPSAVGPKIDVAKLVTLPTTPAVQLGDGSVRGEVVRIDKAFGNVWTNISLDALSGKTLQVTAEGLSVEIPYYATFGEVPIGEPLVYNNSRGKVALGLNQGSFLERYGVAAGDTVTIGLV 7cch-a1-m1-cA_7cch-a1-m2-cA Acinetobacter baumannii histidine kinase AdeS E3TGV8 E3TGV8 2.848 X-RAY DIFFRACTION 81 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 197 197 AIAHELRTPITILQGRLQGIIDGVFKPDEVLFKSLLNQVEVLSHLVEDLRTLSLVENQQLRLNYELFDFKAVVEKVLKAFEDRLDQAKLVPELDLTSTPVYCDRRRIEQVLIALIDNAIRYSHAGKLKISSEVVSQNWILKIEDEGPGIATEDDLFKPFTGLGLAVVHAIIVALKGTIQYSNQGSKSIFTIKISMNN AIAHELRTPITILQGRLQGIIDGVFKPDEVLFKSLLNQVEVLSHLVEDLRTLSLVENQQLRLNYELFDFKAVVEKVLKAFEDRLDQAKLVPELDLTSTPVYCDRRRIEQVLIALIDNAIRYSHAGKLKISSEVVSQNWILKIEDEGPGIATEDDLFKPFTGLGLAVVHAIIVALKGTIQYSNQGSKSIFTIKISMNN 7cci-a1-m1-cA_7cci-a1-m1-cB Acinetobacter baumannii response regulator AdeR with disordered N terminus Q6TA00 Q6TA00 1.65 X-RAY DIFFRACTION 69 0.992 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 133 134 HHHFDHSFSFDCQDKVILVVEDDYDIGDIIENYLKREGMSVIRAMNGKQAIELHASQPIDLILLDIKLPELNGWEVLNKIRQKAQTPVIMLTALDQDIDKVMALRIGADDFVVAPFNPNEVIARVQAVLRRTQ HHFDHSFSFDCQDKVILVVEDDYDIGDIIENYLKREGMSVIRAMNGKQAIELHASQPIDLILLDIKLPELNGWEVLNKIRQKAQTPVIMLTALDQDIDKVMALRIGADDFVVAPFNPNEVIARVQAVLRRTQFA 7cd1-a2-m1-cB_7cd1-a2-m1-cD Crystal structure of inhibitory Smad, Smad7 O35253 O35253 1.89 X-RAY DIFFRACTION 109 1.0 10090 (Mus musculus) 10090 (Mus musculus) 180 180 7cd1-a1-m1-cA_7cd1-a1-m1-cC SDSQLLLEPGDRSHWCVVAYWEEKTRVGRLYCVQEPSLDIFYDLPQGNGFCLGQLNSDNKSQLVQKVRSKIGCGIQLTREVDGVWVYNRSSYPIFIKSATLDNPDSRTLLVHKVFPGFSIKAFDYEKAYSLQRPNDHEFMQQPWTGFTVQISFVKGWGQCYTRQFISSCPCWLEVIFNSR SDSQLLLEPGDRSHWCVVAYWEEKTRVGRLYCVQEPSLDIFYDLPQGNGFCLGQLNSDNKSQLVQKVRSKIGCGIQLTREVDGVWVYNRSSYPIFIKSATLDNPDSRTLLVHKVFPGFSIKAFDYEKAYSLQRPNDHEFMQQPWTGFTVQISFVKGWGQCYTRQFISSCPCWLEVIFNSR 7cd3-a2-m1-cE_7cd3-a2-m4-cE Crystal structure of the S103F mutant of Bacillus subtilis (natto) YabJ protein. D4G3D4 D4G3D4 2.1 X-RAY DIFFRACTION 53 1.0 645657 (Bacillus subtilis subsp. natto BEST195) 645657 (Bacillus subtilis subsp. natto BEST195) 110 110 7cd2-a1-m1-cA_7cd2-a1-m1-cC 7cd2-a1-m1-cB_7cd2-a1-m1-cD 7cd2-a2-m1-cE_7cd2-a2-m1-cG 7cd2-a2-m1-cF_7cd2-a2-m1-cH 7cd2-a3-m1-cI_7cd2-a3-m1-cK 7cd2-a3-m1-cL_7cd2-a3-m1-cJ 7cd2-a4-m1-cN_7cd2-a4-m1-cP 7cd2-a4-m1-cO_7cd2-a4-m1-cM 7cd2-a5-m1-cQ_7cd2-a5-m1-cS 7cd2-a5-m1-cR_7cd2-a5-m1-cT 7cd3-a1-m1-cA_7cd3-a1-m1-cC 7cd3-a1-m1-cB_7cd3-a1-m1-cD 7cd3-a2-m2-cE_7cd3-a2-m3-cE 7cd4-a1-m1-cB_7cd4-a1-m1-cD 7cd4-a1-m1-cC_7cd4-a1-m1-cA PYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARFCVEVARLPKDALVEIEVIALVK PYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARFCVEVARLPKDALVEIEVIALVK 7cd3-a2-m2-cE_7cd3-a2-m4-cE Crystal structure of the S103F mutant of Bacillus subtilis (natto) YabJ protein. D4G3D4 D4G3D4 2.1 X-RAY DIFFRACTION 27 1.0 645657 (Bacillus subtilis subsp. natto BEST195) 645657 (Bacillus subtilis subsp. natto BEST195) 110 110 7cd2-a1-m1-cA_7cd2-a1-m1-cB 7cd2-a1-m1-cD_7cd2-a1-m1-cC 7cd2-a2-m1-cE_7cd2-a2-m1-cF 7cd2-a2-m1-cH_7cd2-a2-m1-cG 7cd2-a3-m1-cI_7cd2-a3-m1-cJ 7cd2-a3-m1-cK_7cd2-a3-m1-cL 7cd2-a4-m1-cN_7cd2-a4-m1-cM 7cd2-a4-m1-cO_7cd2-a4-m1-cP 7cd2-a5-m1-cQ_7cd2-a5-m1-cR 7cd2-a5-m1-cT_7cd2-a5-m1-cS 7cd3-a1-m1-cB_7cd3-a1-m1-cA 7cd3-a1-m1-cC_7cd3-a1-m1-cD 7cd3-a2-m1-cE_7cd3-a2-m3-cE 7cd4-a1-m1-cB_7cd4-a1-m1-cA 7cd4-a1-m1-cD_7cd4-a1-m1-cC PYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARFCVEVARLPKDALVEIEVIALVK PYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARFCVEVARLPKDALVEIEVIALVK 7cd3-a2-m3-cE_7cd3-a2-m4-cE Crystal structure of the S103F mutant of Bacillus subtilis (natto) YabJ protein. D4G3D4 D4G3D4 2.1 X-RAY DIFFRACTION 27 1.0 645657 (Bacillus subtilis subsp. natto BEST195) 645657 (Bacillus subtilis subsp. natto BEST195) 110 110 7cd2-a1-m1-cA_7cd2-a1-m1-cD 7cd2-a1-m1-cB_7cd2-a1-m1-cC 7cd2-a2-m1-cE_7cd2-a2-m1-cH 7cd2-a2-m1-cF_7cd2-a2-m1-cG 7cd2-a3-m1-cI_7cd2-a3-m1-cL 7cd2-a3-m1-cK_7cd2-a3-m1-cJ 7cd2-a4-m1-cM_7cd2-a4-m1-cP 7cd2-a4-m1-cN_7cd2-a4-m1-cO 7cd2-a5-m1-cQ_7cd2-a5-m1-cT 7cd2-a5-m1-cR_7cd2-a5-m1-cS 7cd3-a1-m1-cA_7cd3-a1-m1-cD 7cd3-a1-m1-cB_7cd3-a1-m1-cC 7cd3-a2-m1-cE_7cd3-a2-m2-cE 7cd4-a1-m1-cB_7cd4-a1-m1-cC 7cd4-a1-m1-cD_7cd4-a1-m1-cA PYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARFCVEVARLPKDALVEIEVIALVK PYSQGIIVNNMFYSSGQIPLTPSGEMVNGDIKEQTHQVFSNLKAVLEEAGASFETVVKATVFIADMEQFAEVNEVYGQYFDTHKPARFCVEVARLPKDALVEIEVIALVK 7cdh-a1-m2-cX_7cdh-a1-m8-cX Crystal structure of Betaaspartyl dipeptidase from thermophilic keratin degrading Fervidobacterium islandicum-AW-1 A0A1B0VPV0 A0A1B0VPV0 2.6 X-RAY DIFFRACTION 56 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 367 367 7cdh-a1-m1-cX_7cdh-a1-m7-cX 7cdh-a1-m3-cX_7cdh-a1-m5-cX 7cdh-a1-m4-cX_7cdh-a1-m6-cX 7cf6-a1-m1-cB_7cf6-a1-m2-cB 7cf6-a1-m1-cC_7cf6-a1-m1-cA 7cf6-a1-m1-cD_7cf6-a1-m2-cD 7cf6-a1-m2-cC_7cf6-a1-m2-cA MIKIIKNAKVFSPEYIGKKDVIFYHKVIHVGEGVNTSVLPFEHEIYDANGLLLLPGLIDPHVHITGGGGEGGFETRTPELKISDCIRSGVTTVVGCLGTDGITRSLENLYAKAKSLESEGLNTFIYTGSYRVPPVTFTGSIMRDIVLIDKVIGVGEIAISDHRSSQPTLEEILRIVADIRVGGMISGKAGIVNFHVGSGKRGIEYLFDIIEKTEIPIQHLYPTHMSRSRKLFEQGLEFAKRGGTIDLTALQPKAEFTTIDAICEAYENGLLDNVTISSDGQGSDVGSVSAVWYTIRKVLEKGLPLAEVLKISTTNPARVFKLNKGKIAKGQDADFILVDEQSFEIVSVISKGEFLMKDGVMKNLNFE MIKIIKNAKVFSPEYIGKKDVIFYHKVIHVGEGVNTSVLPFEHEIYDANGLLLLPGLIDPHVHITGGGGEGGFETRTPELKISDCIRSGVTTVVGCLGTDGITRSLENLYAKAKSLESEGLNTFIYTGSYRVPPVTFTGSIMRDIVLIDKVIGVGEIAISDHRSSQPTLEEILRIVADIRVGGMISGKAGIVNFHVGSGKRGIEYLFDIIEKTEIPIQHLYPTHMSRSRKLFEQGLEFAKRGGTIDLTALQPKAEFTTIDAICEAYENGLLDNVTISSDGQGSDVGSVSAVWYTIRKVLEKGLPLAEVLKISTTNPARVFKLNKGKIAKGQDADFILVDEQSFEIVSVISKGEFLMKDGVMKNLNFE 7cdh-a1-m6-cX_7cdh-a1-m8-cX Crystal structure of Betaaspartyl dipeptidase from thermophilic keratin degrading Fervidobacterium islandicum-AW-1 A0A1B0VPV0 A0A1B0VPV0 2.6 X-RAY DIFFRACTION 55 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 367 367 7cdh-a1-m1-cX_7cdh-a1-m3-cX 7cdh-a1-m1-cX_7cdh-a1-m4-cX 7cdh-a1-m2-cX_7cdh-a1-m3-cX 7cdh-a1-m2-cX_7cdh-a1-m4-cX 7cdh-a1-m5-cX_7cdh-a1-m7-cX 7cdh-a1-m5-cX_7cdh-a1-m8-cX 7cdh-a1-m6-cX_7cdh-a1-m7-cX 7cf6-a1-m1-cB_7cf6-a1-m2-cA 7cf6-a1-m1-cC_7cf6-a1-m1-cB 7cf6-a1-m1-cD_7cf6-a1-m1-cA 7cf6-a1-m1-cD_7cf6-a1-m2-cC 7cf6-a1-m2-cB_7cf6-a1-m1-cA 7cf6-a1-m2-cC_7cf6-a1-m2-cB 7cf6-a1-m2-cD_7cf6-a1-m1-cC 7cf6-a1-m2-cD_7cf6-a1-m2-cA MIKIIKNAKVFSPEYIGKKDVIFYHKVIHVGEGVNTSVLPFEHEIYDANGLLLLPGLIDPHVHITGGGGEGGFETRTPELKISDCIRSGVTTVVGCLGTDGITRSLENLYAKAKSLESEGLNTFIYTGSYRVPPVTFTGSIMRDIVLIDKVIGVGEIAISDHRSSQPTLEEILRIVADIRVGGMISGKAGIVNFHVGSGKRGIEYLFDIIEKTEIPIQHLYPTHMSRSRKLFEQGLEFAKRGGTIDLTALQPKAEFTTIDAICEAYENGLLDNVTISSDGQGSDVGSVSAVWYTIRKVLEKGLPLAEVLKISTTNPARVFKLNKGKIAKGQDADFILVDEQSFEIVSVISKGEFLMKDGVMKNLNFE MIKIIKNAKVFSPEYIGKKDVIFYHKVIHVGEGVNTSVLPFEHEIYDANGLLLLPGLIDPHVHITGGGGEGGFETRTPELKISDCIRSGVTTVVGCLGTDGITRSLENLYAKAKSLESEGLNTFIYTGSYRVPPVTFTGSIMRDIVLIDKVIGVGEIAISDHRSSQPTLEEILRIVADIRVGGMISGKAGIVNFHVGSGKRGIEYLFDIIEKTEIPIQHLYPTHMSRSRKLFEQGLEFAKRGGTIDLTALQPKAEFTTIDAICEAYENGLLDNVTISSDGQGSDVGSVSAVWYTIRKVLEKGLPLAEVLKISTTNPARVFKLNKGKIAKGQDADFILVDEQSFEIVSVISKGEFLMKDGVMKNLNFE 7cdw-a1-m1-cB_7cdw-a1-m1-cA Crystal Structure of Mycobacterium Tuberculosis Elongation Factor G1 P9WNM7 P9WNM7 3 X-RAY DIFFRACTION 84 0.989 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 662 667 KDVLTDLSRVRNFGIAHIDAGKTTTTERILYYTGINYKQEQERGITITSAATTTFWKDNQLNIIDTPGHVDFTVEVERNLRVLDGAVAVFDGKEGVEPQSEQVWRQADKYDVPRICFVNKDKIGADFYFSVRTGERLGANAVPIQLPVGAEADFEGVVDLVENAKVWRGETKLGETYDTVEIPADLAEQAEEYRTKLLEVVAESDEHLLEKYLGGEELTVDEIKGAIRKLTIASEIYPVLCGSAFKNKGVQPLDAVVDYLPSPLDVPPAIGHAPAKEDEEVVRKATTDEPFAALAFKIATHPFFGKLTYIRVYSGTVESGSQVINATKGKKERLGKLFQHSNKENPVDRASAGHIYAVIGLKDTTTGDTLSDPNQQIVLESTFPDPVIEVAIEPKTKLSLSIQKLAEEDPTFKVHLDSETGQTVIGGGELHLDILVDRRREFKVEANVGKPQVAYKETIKRLVQNVEYTHKKQTGGSGQFAKVIINLEPFTGEEGATYEFESKVTGGRIPREYIPSVDAGAQDAQYGVLAGYPLVNLKVTLLDGAYHEVDSSEAFKIAGSQVLKKAAALAQPVILEPIAVEVTTPEDYGDVIGDLNSRRGQIQAEERAGARVVRAHVPLSEFGYVGDLRSKTQGRANYSVFDSYSEVPANVSKEIIAKATGE QKDVLTDLSRVRNFGIAHIDAGKTTTTERILYYTGINYKIGEVHDERGITITSAATTTFWKDNQLNIIDTPGTVEVERNLRVLDGAVAVFDGKEGVEPQSEQVWRQADKYDVPRICFVNKDKIGADFYFSVRTGERLGANAVPIQLPVGAEADFEGVVDLVENAKVWRGETKLGETYDTVEIPADLAEQAEEYRTKLLEVVAESDEHLLEKYLGGEELTVDEIKGAIRKLTIASEIYPVLCGSAFKNKGVQPLDAVVDYLPSPLDVPPAIGHAPAKEDEEVVRKATTDEPFAALAFKIATHPFFGKLTYIRVYSGTVESGSQVINATKGKKERLGKLFQHSNKENPVDRASAGHIYAVIGLKDTTTGDTLSDPNQQIVLESTFPDPVIEVAIEPKTKSDQEKLSLSIQKLAEEDPTFKVHLDSETGQTVIGGGELHLDILVDRRREFKVEANVGKPQVAYKETIKRLVQNVEYTHKKQTGGSGQFAKVIINLEPFTGEEGATYEFESKVTGGRIPREYIPSVDAGAQDAQYGVLAGYPLVNLKVTLLDGAYHEVDSSEAFKIAGSQVLKKAAALAQPVILEPIAVEVTTPEDYGDVIGDLNSRRGQIQAEERAGARVVRAHVPLSEFGYVGDLRSKTQGRANYSVFDSYSEVPANVSKEIIAKATGE 7cdx-a1-m1-cA_7cdx-a1-m1-cB Complex STRUCTURE OF A NOVEL VIRULENCE REGULATION FACTOR SghR with its effector sucrose A0A2I4PGE9 A0A2I4PGE9 2.103 X-RAY DIFFRACTION 84 0.993 1453998 (Agrobacterium tumefaciens A6) 1453998 (Agrobacterium tumefaciens A6) 272 272 7cdv-a1-m1-cB_7cdv-a1-m1-cA 7ce1-a1-m1-cB_7ce1-a1-m1-cA 7ce1-a2-m1-cD_7ce1-a2-m1-cC 7ce1-a3-m1-cG_7ce1-a3-m1-cH 7ce1-a4-m1-cL_7ce1-a4-m1-cK 7ce1-a5-m1-cO_7ce1-a5-m1-cP GKTNVIALVLSVDEELMGFTSQMVFGITEVLATTQYHLVVTPHTHAKDSMVPIRYILETGSADGVIISKIEPNDPRVRFMTERKMPFVTHGRSDMGIEHAYHDFDNEAYAYEAVERLAQCGRKRIAIIVPPSRFAFHDHARKGFTRGIRDFGVSEFPLDAITIETPLDKIRDFGKRLMQSDDRPDGIVSISGSSTIALVAGFEAAGVRIGKDIDIVSKQSAEFLNWIQPQIHTVNEDIKLAGRELAKALLARINGAPPETLQSVSRPVWSSM TNVIALVLSVDEELMGFTSQMVFGITEVLATTQYHLVVTPHTHAKDSMVPIRYILETGSADGVIISKIEPNDPRVRFMTERKMPFVTHGRSDMGIEHAYHDFDNEAYAYEAVERLAQCGRKRIAIIVPPSRFAFHDHARKGFTRGIRDFGVSEFPLDAITIETPLDKIRDFGKRLMQSDDRPDGIVSISGSSTIALVAGFEAAGVRIGKDIDIVSKQSAEFLNWIQPQIHTVNEDIKLAGRELAKALLARINGAPPETLQSVSRPVWSSMAP 7cdy-a1-m1-cB_7cdy-a1-m1-cA Crystal structure of glucose dehydrogenase 1.329 X-RAY DIFFRACTION 27 1.0 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 344 346 PTVSQLQDGLEHPWSLAFLPAEQGLLITERPGRLRLWQQDKGLSPPIAGVPQVYAEGQGGLLEVLPAPDFAASRRVYLSFAEPGEGGKAGTAVGYGRLSDDDARLENFKVIFRQQPKLSVGNHFGGKLAFDRQGYLFIALGENNQRPTAQETDKLQGKLVRLTAEGAVPPDNPWVGQAGKRPEVWSYGHRNPQGLALNPWSGAIWEHEHGGGDELNIPLPGKNYGWPLATYGINYSGQPIPEAKGERVPGTEQPLHYWRVSPGLSGMAFYDGQRFPAWRHSLFIGALAQKALIRLTLEGDKVVAEERLLGDRGERIREVRSGPDGYLYLLTDERDGKLLKVGAS PTVSQLQDGLEHPWSLAFLPAEQGLLITERPGRLRLWQQDKGLSPPIAGVPQVYAEGQGGLLEVLPAPDFAASRRVYLSFAEPGEGGKAGTAVGYGRLSDDDARLENFKVIFRQQPKLSVGNHFGGKLAFDRQGYLFIALGENNQRPTAQETDKLQGKLVRLTAEGAVPPDNPWVGQAGKRPEVWSYGHRNPQGLALNPWSGAIWEHEHGPRGGDELNIPLPGKNYGWPLATYGINYSGQPIPEAKGERVPGTEQPLHYWRVSPGLSGMAFYDGQRFPAWRHSLFIGALAQKALIRLTLEGDKVVAEERLLGDRGERIREVRSGPDGYLYLLTDERDGKLLKVGAS 7ce1-a6-m1-cS_7ce1-a6-m1-cT Complex STRUCTURE OF TRANSCRIPTION FACTOR SghR with its COGNATE DNA A0A2I4PGE9 A0A2I4PGE9 3.2 X-RAY DIFFRACTION 76 0.985 1453998 (Agrobacterium tumefaciens A6) 1453998 (Agrobacterium tumefaciens A6) 259 292 ERPTLKTIAYMTGLGITTVSRALKDAPDIGAETKERVRLIAQQIGYQPNRAGVRLRTGKTNVIALVLSVDEELMGFTSQMVFGITEVLATTQYHLVVTPHTHAKDSMVPIRYILETGSADGVIISKIEPNDPRVRFMTERKMPFVTHGRSDMGIEHAYHDFDNEAYAYEIVPPSRFAFHDHARKGFTRGIRDFGVSEFTIETPLDKIRDFSGSSTIALVAGFEAAGVRIGKEDIKLAGRELAKALLARINGAPPETLQS ERPTLKTIAYMTGLGITTVSRALKDAPDIGAETKERVRLIAQQIGYQPNRAGVRLRTGKTNVIALVLSVDEELMGFTSQMVFGITEVLATTQYHLVVTPHTHAKDSMVPIRYILETGSADGVIISKIEPNDPRVRFMTERKMPFVTHGRSDMGIEHAYHDDNEAYAYEAVERLAQCGRKVPPSRFAFHDHARKGFTRGIRDFGVSEFTIETPLDKIRDFGKRLMQSDDRPDGSSTIALVAGFEAAGVRIGEFLNWIQPQIHVNEDIKLAGRELAKALLARINGAPPETLQSV 7ce3-a1-m1-cA_7ce3-a1-m1-cC Crystal structure of human IDH3 holoenzyme in APO form. P50213 P50213 3.472 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 335 GVQTVTLIPGDGIGPEISAAVMKIFDAAKAPIQWEERNVTAIQKWMIPSEAKESMDKNKMGLKGPLKTHPSMNLLLRKTFDLYANVRPCVSIEGYKTPYTDVNIVTIRENTEGEYSGIEHVIVDGVVQSIKLITEGASKRIAEFAFEYARNNHRSNVTAVHKANIMRMSDGLFLQKCREVAESCKDIKFNEMYLDTVCLNMVQDPSQFDVLVMPNLYGDILSDLCAGLIGGLGVTPSGNIGANGVAIFESVHGTAPDIAGKDMANPTALLLSAVMMLRHMGLFDHAARIEAACFATIKDGKSLTKDLGGNAKCSDFTEEICRRVKD GVQTVTLIPGDGIGPEISAAVMKIFDAAKAPIQWEERNVTAIQGPGGKWMIPSEAKESMDKNKMGLKGPLKTPIAAGHPSMNLLLRKTFDLYANVRPCVSIEGYKTPYTDVNIVTIRENTEGEYSGIEHVIVDGVVQSIKLITEGASKRIAEFAFEYARNNHRSNVTAVHKANIMRMSDGLFLQKCREVAESCKDIKFNEMYLDTVCLNMVQDPSQFDVLVMPNLYGDILSDLCAGLIGGLGVTPSGNIGANGVAIFESVHGTAPDIAGKDMANPTALLLSAVMMLRHMGLFDHAARIEAACFATIKDGKSLTKDLGGNAKCSDFTEEICRRVKD 7cee-a1-m1-cB_7cee-a1-m1-cA Crystal structure of mouse neuroligin-3 Q8BYM5 Q8BYM5 2.763 X-RAY DIFFRACTION 44 1.0 10090 (Mus musculus) 10090 (Mus musculus) 533 534 APTVNTHFGKLRGARVPLPSEILGPVDQYLGVPYAAPPIGEKRFLPPEPPPSWSGIRNATHFPPVCPQNIHTAVPEVMLPVWFTANLDIVATYIQEPNEDCLYLNVYVPTGAKPVMVYIHGGSYMEGTGNMIDGSVLASYGNVIVITLNYRVGVLGFLSTGDQAAKGNYGLLDQIQALRWVSENIAFFGGDPRRITVFGSGIGASCVSLLTLSHHSEGLFQRAIIQSGSALSSWAVNYQPVKYTSLLADKVGCNVLDTVDMVDCLRQKSAKELVEQDIQPARYHVAFGPVIDGDVIPDDPEILMEQGEFLNYDIMLGVNQGEGLKFVEGVVDPEDGVSGTDFDYSVSNFVDNLYGYPEGKDTLRETIKFMYTDWADRDNPETRRKTLVALFTDHQWVEPSVVTADLHARYGSPTYFYAFYHHCQSLMKPAWSDAAHGDEVPYVFGVPMVGPTDLFPCNFSKNDVMLSAVVMTYWTNFAKTGDPNKPVPQDVAWSKYNPRDQLYLHIGLKPRVRDHYRATKVAFWKHLVPHLYN APTVNTHFGKLRGARVPLPSEILGPVDQYLGVPYAAPPIGEKRFLPPEPPPSWSGIRNATHFPPVCPQNIHTAVPEVMLPVWFTANLDIVATYIQEPNEDCLYLNVYVPTSGAKPVMVYIHGGSYMEGTGNMIDGSVLASYGNVIVITLNYRVGVLGFLSTGDQAAKGNYGLLDQIQALRWVSENIAFFGGDPRRITVFGSGIGASCVSLLTLSHHSEGLFQRAIIQSGSALSSWAVNYQPVKYTSLLADKVGCNVLDTVDMVDCLRQKSAKELVEQDIQPARYHVAFGPVIDGDVIPDDPEILMEQGEFLNYDIMLGVNQGEGLKFVEGVVDPEDGVSGTDFDYSVSNFVDNLYGYPEGKDTLRETIKFMYTDWADRDNPETRRKTLVALFTDHQWVEPSVVTADLHARYGSPTYFYAFYHHCQSLMKPAWSDAAHGDEVPYVFGVPMVGPTDLFPCNFSKNDVMLSAVVMTYWTNFAKTGDPNKPVPQDVAWSKYNPRDQLYLHIGLKPRVRDHYRATKVAFWKHLVPHLYN 7cf6-a1-m2-cB_7cf6-a1-m2-cA Crystal structure of Beta-aspartyl dipeptidase from thermophilic keratin degrading Fervidobacterium islandicum AW-1 in complex with beta-Asp-Leu dipeptide A0A1B0VPV0 A0A1B0VPV0 2.75 X-RAY DIFFRACTION 53 1.0 2423 (Fervidobacterium islandicum) 2423 (Fervidobacterium islandicum) 372 384 7cdh-a1-m1-cX_7cdh-a1-m5-cX 7cdh-a1-m2-cX_7cdh-a1-m6-cX 7cdh-a1-m3-cX_7cdh-a1-m8-cX 7cdh-a1-m4-cX_7cdh-a1-m7-cX 7cf6-a1-m1-cB_7cf6-a1-m1-cA 7cf6-a1-m1-cD_7cf6-a1-m1-cC 7cf6-a1-m2-cD_7cf6-a1-m2-cC MIKIIKNAKVFSPEYIGKKDVIFYHKVIHVGEGVFEHEIYDANGLLLLPGLIDPHVHITGGGGEGGFETRTPELKISDCIRSGVTTVVGCLGTDGITRSLENLYAKAKSLESEGLNTFIYTGSYRVPPVTFTGSIMRDIVLIDKVIGVGEIAISDHRSSQPTLEEILRIVADIRVGGMISGKAGIVNFHVGSGKRGIEYLFDIIEKTEIPIQHLYPTHMSRSRKLFEQGLEFAKRGGTIDLTALQPEFTTIDAICEAYENGLLDNVTISSDGQGSLPKFDDNGNFVGLDVGSVSAVWYTIRKVLEKGLPLAEVLKISTTNPARVFKLNKGKIAKGQDADFILVDEQSFEIVSVISKGEFLMKDGVMKNLNFE MRGSMIKIIKNAKVFSPEYIGKKDVIFYHKVIHVGEGVNTSVLPFEHEIYDANGLLLLPGLIDPHVHITGGGGEGGFETRTPELKISDCIRSGVTTVVGCLGTDGITRSLENLYAKAKSLESEGLNTFIYTGSYRVPPVTFTGSIMRDIVLIDKVIGVGEIAISDHRSSQPTLEEILRIVADIRVGGMISGKAGIVNFHVGSGKRGIEYLFDIIEKTEIPIQHLYPTHMSRSRKLFEQGLEFAKRGGTIDLTALQPKDEFTTIDAICEAYENGLLDNVTISSDGQGSLPKFDDNGNFVGLDVGSVSAVWYTIRKVLEKGLPLAEVLKISTTNPARVFKLNKGKIAKGQDADFILVDEQSFEIVSVISKGEFLMKDGVMKNLNFE 7cfa-a1-m1-cB_7cfa-a1-m1-cA Crystal structure of the restriction DNA glycosylase R.CcoLI 2.355 X-RAY DIFFRACTION 98 1.0 195 (Campylobacter coli) 195 (Campylobacter coli) 193 234 GPGMKFKIDYELPLKIRIKQRVKHYVEWQIGYDMVGNFIGANGKDKKLYELSDIIFQFFKHNIILKENLFGIKNFLENNEELIEDKMKINRTNFTQKQVAGINFLESYVSYPLLVYQFEFLSEIIIGVQGMLYFCFPVHLLKNINGERNFLKGYLEISRNNINIFLEMLKIFGILSNNHRYNVLQIIEFILNS GPGMKFKIDYELPLTSVAGKIRIKQRSTDYGLPVAININVKHYVEWQIGYDMVAGKNDGNFIGANGKDKKLYELSDIIFQFFKHNIILKENLFGIKNFLENNEELIEDKMKINRTNFTQKQVAGINFLESYVSYPLLVYQFNNNEFLSEIIIKEKQRAIGVQGMLYFCFPVHLLKNINGERNFLNRSIESKEKGYLEISRNNINIFLEMLKIFGILSNNHRYNVLQIIEFILNS 7cff-a1-m1-cA_7cff-a1-m2-cA Structure of the thermostabilized transmembrane domain of the bacterial CNNM/CorC family Mg2+ transporter in complex with Mg2+ A0A109QFA5 A0A109QFA5 2 X-RAY DIFFRACTION 133 1.0 456163 (Thermus parvatiensis) 456163 (Thermus parvatiensis) 156 156 7cfg-a1-m1-cA_7cfg-a1-m2-cA ENPWLWAVLVLLLALSAFFSASETAITTLYPWKLKELAESKNGPFRLLAEDITRFLTTILVGNNLVNIAATALATELATQAFGSAGVGVATGAMTFLILFFGEITPKSLAVHHAEAIARLAAWPIYGLSVLFYPVGRFFSLVSGGLLRLLGLEPRL ENPWLWAVLVLLLALSAFFSASETAITTLYPWKLKELAESKNGPFRLLAEDITRFLTTILVGNNLVNIAATALATELATQAFGSAGVGVATGAMTFLILFFGEITPKSLAVHHAEAIARLAAWPIYGLSVLFYPVGRFFSLVSGGLLRLLGLEPRL 7cfh-a1-m1-cA_7cfh-a1-m1-cB Structure of the CBS domain of the bacterial CNNM/CorC family Mg2+ transporter A0A109QFA5 A0A109QFA5 2 X-RAY DIFFRACTION 122 1.0 456163 (Thermus parvatiensis) 456163 (Thermus parvatiensis) 165 169 7cfi-a1-m1-cA_7cfi-a1-m2-cA 7cfk-a1-m1-cA_7cfk-a1-m1-cB LVSEEELKLILAGAEESGAIQPQEEEMIHSILELEETPVREIMTPRVEMVAIEDEATLEDLLALYREHRASRVPVYRESVDHIVGVAYAKDLLDYYCEEDLKGRTVASITHPPYFVPENMDAWSLLKELRRRKVHMAIVVDEFGGTAGLVTLEDVIEEIVGEIYD TPLVSEEELKLILAGAEESGAIQPQEEEMIHSILELEETPVREIMTPRVEMVAIEDEATLEDLLALYREHRASRVPVYRESVDHIVGVAYAKDLLDYYCEEDLKGRTVASITHPPYFVPENMDAWSLLKELRRRKVHMAIVVDEFGGTAGLVTLEDVIEEIVGEIYDET 7cfu-a1-m1-cD_7cfu-a1-m1-cU Crystal Structure of FMN-dependent Cysteine Decarboxylases SpaF A0A1R1S5L5 A0A1R1S5L5 2.15 X-RAY DIFFRACTION 18 1.0 1331668 (Streptomyces sparsogenes DSM 40356) 1331668 (Streptomyces sparsogenes DSM 40356) 175 175 7cfu-a1-m1-cD_7cfu-a1-m1-cH 7cfu-a1-m1-cE_7cfu-a1-m1-cF 7cfu-a1-m1-cE_7cfu-a1-m1-cN 7cfu-a1-m1-cF_7cfu-a1-m1-cN 7cfu-a1-m1-cG_7cfu-a1-m1-cM 7cfu-a1-m1-cG_7cfu-a1-m1-cS 7cfu-a1-m1-cH_7cfu-a1-m1-cU 7cfu-a1-m1-cL_7cfu-a1-m1-cP 7cfu-a1-m1-cL_7cfu-a1-m1-cT 7cfu-a1-m1-cM_7cfu-a1-m1-cS 7cfu-a1-m1-cP_7cfu-a1-m1-cT 7cfu-a2-m1-cA_7cfu-a2-m1-cJ 7cfu-a2-m1-cA_7cfu-a2-m2-cR 7cfu-a2-m1-cB_7cfu-a2-m1-cI 7cfu-a2-m1-cB_7cfu-a2-m1-cX 7cfu-a2-m1-cC_7cfu-a2-m1-cW 7cfu-a2-m1-cC_7cfu-a2-m2-cO 7cfu-a2-m1-cI_7cfu-a2-m1-cX 7cfu-a2-m1-cJ_7cfu-a2-m2-cR 7cfu-a2-m1-cK_7cfu-a2-m1-cV 7cfu-a2-m1-cK_7cfu-a2-m2-cQ 7cfu-a2-m1-cV_7cfu-a2-m2-cQ 7cfu-a2-m1-cW_7cfu-a2-m2-cO ALAQVRLLWGVCGSFSAVAVPHVNAWLRGTVGVQEIRTVMTAQARALMGPRMIEAVTGHAPVTDWEDHKGGGAAHVALGAWADVLVILPATANFLAKAAHGIADDVLTATVLAAECPTVIAPVMNAAMWSKPAVQRNVDQLREDGYRIVEPKEGIPGSLGDFQSAISTALIQAAA ALAQVRLLWGVCGSFSAVAVPHVNAWLRGTVGVQEIRTVMTAQARALMGPRMIEAVTGHAPVTDWEDHKGGGAAHVALGAWADVLVILPATANFLAKAAHGIADDVLTATVLAAECPTVIAPVMNAAMWSKPAVQRNVDQLREDGYRIVEPKEGIPGSLGDFQSAISTALIQAAA 7cfu-a2-m1-cJ_7cfu-a2-m2-cQ Crystal Structure of FMN-dependent Cysteine Decarboxylases SpaF A0A1R1S5L5 A0A1R1S5L5 2.15 X-RAY DIFFRACTION 33 1.0 1331668 (Streptomyces sparsogenes DSM 40356) 1331668 (Streptomyces sparsogenes DSM 40356) 175 175 7cfu-a1-m1-cD_7cfu-a1-m1-cF 7cfu-a1-m1-cE_7cfu-a1-m1-cM 7cfu-a1-m1-cG_7cfu-a1-m1-cU 7cfu-a1-m1-cH_7cfu-a1-m1-cT 7cfu-a1-m1-cL_7cfu-a1-m1-cS 7cfu-a1-m1-cN_7cfu-a1-m1-cP 7cfu-a2-m1-cA_7cfu-a2-m1-cI 7cfu-a2-m1-cB_7cfu-a2-m1-cW 7cfu-a2-m1-cC_7cfu-a2-m2-cR 7cfu-a2-m1-cK_7cfu-a2-m1-cX 7cfu-a2-m1-cV_7cfu-a2-m2-cO ALAQVRLLWGVCGSFSAVAVPHVNAWLRGTVGVQEIRTVMTAQARALMGPRMIEAVTGHAPVTDWEDHKGGGAAHVALGAWADVLVILPATANFLAKAAHGIADDVLTATVLAAECPTVIAPVMNAAMWSKPAVQRNVDQLREDGYRIVEPKEGIPGSLGDFQSAISTALIQAAA ALAQVRLLWGVCGSFSAVAVPHVNAWLRGTVGVQEIRTVMTAQARALMGPRMIEAVTGHAPVTDWEDHKGGGAAHVALGAWADVLVILPATANFLAKAAHGIADDVLTATVLAAECPTVIAPVMNAAMWSKPAVQRNVDQLREDGYRIVEPKEGIPGSLGDFQSAISTALIQAAA 7cfu-a2-m2-cQ_7cfu-a2-m2-cR Crystal Structure of FMN-dependent Cysteine Decarboxylases SpaF A0A1R1S5L5 A0A1R1S5L5 2.15 X-RAY DIFFRACTION 48 1.0 1331668 (Streptomyces sparsogenes DSM 40356) 1331668 (Streptomyces sparsogenes DSM 40356) 175 175 7cfu-a1-m1-cD_7cfu-a1-m1-cE 7cfu-a1-m1-cD_7cfu-a1-m1-cG 7cfu-a1-m1-cE_7cfu-a1-m1-cG 7cfu-a1-m1-cF_7cfu-a1-m1-cH 7cfu-a1-m1-cF_7cfu-a1-m1-cP 7cfu-a1-m1-cH_7cfu-a1-m1-cP 7cfu-a1-m1-cL_7cfu-a1-m1-cM 7cfu-a1-m1-cL_7cfu-a1-m1-cN 7cfu-a1-m1-cM_7cfu-a1-m1-cN 7cfu-a1-m1-cS_7cfu-a1-m1-cT 7cfu-a1-m1-cS_7cfu-a1-m1-cU 7cfu-a1-m1-cT_7cfu-a1-m1-cU 7cfu-a2-m1-cA_7cfu-a2-m1-cB 7cfu-a2-m1-cA_7cfu-a2-m1-cC 7cfu-a2-m1-cB_7cfu-a2-m1-cC 7cfu-a2-m1-cI_7cfu-a2-m1-cJ 7cfu-a2-m1-cI_7cfu-a2-m1-cK 7cfu-a2-m1-cJ_7cfu-a2-m1-cK 7cfu-a2-m1-cV_7cfu-a2-m1-cW 7cfu-a2-m1-cV_7cfu-a2-m1-cX 7cfu-a2-m1-cW_7cfu-a2-m1-cX 7cfu-a2-m2-cO_7cfu-a2-m2-cQ 7cfu-a2-m2-cO_7cfu-a2-m2-cR ALAQVRLLWGVCGSFSAVAVPHVNAWLRGTVGVQEIRTVMTAQARALMGPRMIEAVTGHAPVTDWEDHKGGGAAHVALGAWADVLVILPATANFLAKAAHGIADDVLTATVLAAECPTVIAPVMNAAMWSKPAVQRNVDQLREDGYRIVEPKEGIPGSLGDFQSAISTALIQAAA ALAQVRLLWGVCGSFSAVAVPHVNAWLRGTVGVQEIRTVMTAQARALMGPRMIEAVTGHAPVTDWEDHKGGGAAHVALGAWADVLVILPATANFLAKAAHGIADDVLTATVLAAECPTVIAPVMNAAMWSKPAVQRNVDQLREDGYRIVEPKEGIPGSLGDFQSAISTALIQAAA 7cg3-a1-m1-cA_7cg3-a1-m1-cB Staggered ring conformation of CtHsp104 (Hsp104 from Chaetomium Thermophilum) A0A2Z6G185 A0A2Z6G185 5.1 ELECTRON MICROSCOPY 65 1.0 568 568 7cg3-a1-m1-cA_7cg3-a1-m1-cF 7cg3-a1-m1-cB_7cg3-a1-m1-cC NLSKFCIDMTAMAREGKIDPVIGREEEIRRVIRILSRRTKNNPVLIGEPGVGKTTIVEGLAQRIVNADVPDNLAACKLLSLDVGALVAGSKYRGEFEERMKGVLKEIQESKETIILFVDEIHLLMGLKPMLARGQLHCIGATTLAEYRKYIEKDAAFERRFQQVLVKEPSITETISILRGLKEKYEVHHGVNIADAAIVAAANLAARYLTSRRLPDSAVDLIDEAAAAVRVARESMITDVVGPDQINEIVARWTGIPVTRLKTSEKEKLLHMEQALSKIVVGQKEAVQSVSNAIRLQRSGLSNPNQPPSFLFCGPSGTGKTLLTKALAEFLFDDPKSMIRFDMSEYQERHSLSRMIGAPPGYVGHDAGGQLTEALRRRPFSILLFDEVEKAAKEVLTVLLQLMDDGRITDGQGRVVDAKNCIVVMTSNLGAEYLSRAIDPTTRELVMNTLRNYFLPEFLNRISSIVIFNRLTRREIRKIVDLRIAEIQKRLTDNDRNVTIKVSDEAKDKLGAQGYSPVYGARPLQRLLEKEVLNRLAILILRGQIREGEVACVELVDGKVQVLPNHPD NLSKFCIDMTAMAREGKIDPVIGREEEIRRVIRILSRRTKNNPVLIGEPGVGKTTIVEGLAQRIVNADVPDNLAACKLLSLDVGALVAGSKYRGEFEERMKGVLKEIQESKETIILFVDEIHLLMGLKPMLARGQLHCIGATTLAEYRKYIEKDAAFERRFQQVLVKEPSITETISILRGLKEKYEVHHGVNIADAAIVAAANLAARYLTSRRLPDSAVDLIDEAAAAVRVARESMITDVVGPDQINEIVARWTGIPVTRLKTSEKEKLLHMEQALSKIVVGQKEAVQSVSNAIRLQRSGLSNPNQPPSFLFCGPSGTGKTLLTKALAEFLFDDPKSMIRFDMSEYQERHSLSRMIGAPPGYVGHDAGGQLTEALRRRPFSILLFDEVEKAAKEVLTVLLQLMDDGRITDGQGRVVDAKNCIVVMTSNLGAEYLSRAIDPTTRELVMNTLRNYFLPEFLNRISSIVIFNRLTRREIRKIVDLRIAEIQKRLTDNDRNVTIKVSDEAKDKLGAQGYSPVYGARPLQRLLEKEVLNRLAILILRGQIREGEVACVELVDGKVQVLPNHPD 7cg3-a1-m1-cF_7cg3-a1-m1-cE Staggered ring conformation of CtHsp104 (Hsp104 from Chaetomium Thermophilum) A0A2Z6G185 A0A2Z6G185 5.1 ELECTRON MICROSCOPY 50 1.0 568 686 NLSKFCIDMTAMAREGKIDPVIGREEEIRRVIRILSRRTKNNPVLIGEPGVGKTTIVEGLAQRIVNADVPDNLAACKLLSLDVGALVAGSKYRGEFEERMKGVLKEIQESKETIILFVDEIHLLMGLKPMLARGQLHCIGATTLAEYRKYIEKDAAFERRFQQVLVKEPSITETISILRGLKEKYEVHHGVNIADAAIVAAANLAARYLTSRRLPDSAVDLIDEAAAAVRVARESMITDVVGPDQINEIVARWTGIPVTRLKTSEKEKLLHMEQALSKIVVGQKEAVQSVSNAIRLQRSGLSNPNQPPSFLFCGPSGTGKTLLTKALAEFLFDDPKSMIRFDMSEYQERHSLSRMIGAPPGYVGHDAGGQLTEALRRRPFSILLFDEVEKAAKEVLTVLLQLMDDGRITDGQGRVVDAKNCIVVMTSNLGAEYLSRAIDPTTRELVMNTLRNYFLPEFLNRISSIVIFNRLTRREIRKIVDLRIAEIQKRLTDNDRNVTIKVSDEAKDKLGAQGYSPVYGARPLQRLLEKEVLNRLAILILRGQIREGEVACVELVDGKVQVLPNHPD NLSKFCIDMTAMAREGKIDPVIGREEEIRRVIRILSRRTKNNPVLIGEPGVGKTTIVEGLAQRIVNADVPDNLAACKLLSLDVGALVAGSKYRGEFEERMKGVLKEIQESKETIILFVDEIHLLMGLKPMLARGQLHCIGATTLAEYRKYIEKDAAFERRFQQVLVKEPSITETISILRGLKEKYEVHHGVNIADAAIVAAANLAARYLTSRRLPDSAVDLIDEAAAAVRVARESQPEIIDSLERRLRQLKIEIHALSREKDEASKARLAQAKQDAQNVEEELRPLREKYERERQRGKAIQEAKMKLEALRVKAEDASRMGDHSRAADLQYYAIPEQEAIIKRLEAEKAAADSMITDVVGPDQINEIVARWTGIPVTRLKTSEKEKLLHMEQALSKIVVGQKEAVQSVSNAIRLQRSGLSNPNQPPSFLFCGPSGTGKTLLTKALAEFLFDDPKSMIRFDMSEYQERHSLSRMIGAPPGYVGHDAGGQLTEALRRRPFSILLFDEVEKAAKEVLTVLLQLMDDGRITDGQGRVVDAKNCIVVMTSNLGAEYLSRAIDPTTRELVMNTLRNYFLPEFLNRISSIVIFNRLTRREIRKIVDLRIAEIQKRLTDNDRNVTIKVSDEAKDKLGAQGYSPVYGARPLQRLLEKEVLNRLAILILRGQIREGEVACVELVDGKVQVLPNHPD 7cg8-a1-m1-cA_7cg8-a1-m1-cD Structure of the sensor domain (short construct) of the anti-sigma factor RsgI4 in Pseudobacteroides cellulosolvens A0A0L6JMH4 A0A0L6JMH4 1.5 X-RAY DIFFRACTION 48 1.0 398512 (Pseudobacteroides cellulosolvens ATCC 35603 = DSM 2933) 398512 (Pseudobacteroides cellulosolvens ATCC 35603 = DSM 2933) 105 105 7cg8-a1-m1-cC_7cg8-a1-m1-cB SVSPVEIAINPASEITATSAFISGTVTKFEQSKGFYGSGCNISLLYWEASNPMHVKVASSISKKDFPADISATIKDLKPHTTYQFKVTVNFYFSSSLQTFKTLAL SVSPVEIAINPASEITATSAFISGTVTKFEQSKGFYGSGCNISLLYWEASNPMHVKVASSISKKDFPADISATIKDLKPHTTYQFKVTVNFYFSSSLQTFKTLAL 7cg8-a1-m1-cB_7cg8-a1-m1-cD Structure of the sensor domain (short construct) of the anti-sigma factor RsgI4 in Pseudobacteroides cellulosolvens A0A0L6JMH4 A0A0L6JMH4 1.5 X-RAY DIFFRACTION 14 1.0 398512 (Pseudobacteroides cellulosolvens ATCC 35603 = DSM 2933) 398512 (Pseudobacteroides cellulosolvens ATCC 35603 = DSM 2933) 105 105 SVSPVEIAINPASEITATSAFISGTVTKFEQSKGFYGSGCNISLLYWEASNPMHVKVASSISKKDFPADISATIKDLKPHTTYQFKVTVNFYFSSSLQTFKTLAL SVSPVEIAINPASEITATSAFISGTVTKFEQSKGFYGSGCNISLLYWEASNPMHVKVASSISKKDFPADISATIKDLKPHTTYQFKVTVNFYFSSSLQTFKTLAL 7cg8-a1-m1-cC_7cg8-a1-m1-cD Structure of the sensor domain (short construct) of the anti-sigma factor RsgI4 in Pseudobacteroides cellulosolvens A0A0L6JMH4 A0A0L6JMH4 1.5 X-RAY DIFFRACTION 34 1.0 398512 (Pseudobacteroides cellulosolvens ATCC 35603 = DSM 2933) 398512 (Pseudobacteroides cellulosolvens ATCC 35603 = DSM 2933) 100 105 7cg8-a1-m1-cA_7cg8-a1-m1-cB SVSPVEIAINPASEITATSAFISGTVTKFEQGSGCNISLLYWEASNPMHVKVASSISKKDFPADISATIKDLKPHTTYQFKVTVNFYFSSSLQTFKTLAL SVSPVEIAINPASEITATSAFISGTVTKFEQSKGFYGSGCNISLLYWEASNPMHVKVASSISKKDFPADISATIKDLKPHTTYQFKVTVNFYFSSSLQTFKTLAL 7cgo-a1-m1-cAX_7cgo-a1-m1-cAZ Cryo-EM structure of the flagellar motor-hook complex from Salmonella P0A1N8 P0A1N8 3.9 ELECTRON MICROSCOPY 62 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 210 210 7bgl-a1-m1-cA_7bgl-a1-m1-cC 7bgl-a1-m1-cA_7bgl-a1-m1-cY 7bgl-a1-m1-cB_7bgl-a1-m1-cD 7bgl-a1-m1-cB_7bgl-a1-m1-cZ 7bgl-a1-m1-cC_7bgl-a1-m1-cE 7bgl-a1-m1-cD_7bgl-a1-m1-cF 7bgl-a1-m1-cE_7bgl-a1-m1-cG 7bgl-a1-m1-cF_7bgl-a1-m1-cH 7bgl-a1-m1-cG_7bgl-a1-m1-cI 7bgl-a1-m1-cH_7bgl-a1-m1-cJ 7bgl-a1-m1-cI_7bgl-a1-m1-cK 7bgl-a1-m1-cJ_7bgl-a1-m1-cL 7bgl-a1-m1-cK_7bgl-a1-m1-cM 7bgl-a1-m1-cL_7bgl-a1-m1-cN 7bgl-a1-m1-cM_7bgl-a1-m1-cO 7bgl-a1-m1-cN_7bgl-a1-m1-cP 7bgl-a1-m1-cO_7bgl-a1-m1-cQ 7bgl-a1-m1-cP_7bgl-a1-m1-cR 7bgl-a1-m1-cQ_7bgl-a1-m1-cS 7bgl-a1-m1-cR_7bgl-a1-m1-cT 7bgl-a1-m1-cS_7bgl-a1-m1-cU 7bgl-a1-m1-cT_7bgl-a1-m1-cV 7bgl-a1-m1-cU_7bgl-a1-m1-cW 7bgl-a1-m1-cV_7bgl-a1-m1-cX 7bgl-a1-m1-cW_7bgl-a1-m1-cY 7bgl-a1-m1-cX_7bgl-a1-m1-cZ 7cbl-a1-m1-cA_7cbl-a1-m1-cC 7cbl-a1-m1-cA_7cbl-a1-m1-cY 7cbl-a1-m1-cB_7cbl-a1-m1-cD 7cbl-a1-m1-cB_7cbl-a1-m1-cZ 7cbl-a1-m1-cC_7cbl-a1-m1-cE 7cbl-a1-m1-cD_7cbl-a1-m1-cF 7cbl-a1-m1-cE_7cbl-a1-m1-cG 7cbl-a1-m1-cF_7cbl-a1-m1-cH 7cbl-a1-m1-cG_7cbl-a1-m1-cI 7cbl-a1-m1-cH_7cbl-a1-m1-cJ 7cbl-a1-m1-cI_7cbl-a1-m1-cK 7cbl-a1-m1-cJ_7cbl-a1-m1-cL 7cbl-a1-m1-cK_7cbl-a1-m1-cM 7cbl-a1-m1-cL_7cbl-a1-m1-cN 7cbl-a1-m1-cM_7cbl-a1-m1-cO 7cbl-a1-m1-cN_7cbl-a1-m1-cP 7cbl-a1-m1-cO_7cbl-a1-m1-cQ 7cbl-a1-m1-cP_7cbl-a1-m1-cR 7cbl-a1-m1-cQ_7cbl-a1-m1-cS 7cbl-a1-m1-cR_7cbl-a1-m1-cT 7cbl-a1-m1-cS_7cbl-a1-m1-cU 7cbl-a1-m1-cT_7cbl-a1-m1-cV 7cbl-a1-m1-cU_7cbl-a1-m1-cW 7cbl-a1-m1-cV_7cbl-a1-m1-cX 7cbl-a1-m1-cW_7cbl-a1-m1-cY 7cbl-a1-m1-cX_7cbl-a1-m1-cZ 7cgo-a1-m1-cAA_7cgo-a1-m1-cAC 7cgo-a1-m1-cAA_7cgo-a1-m1-cAY 7cgo-a1-m1-cAB_7cgo-a1-m1-cAD 7cgo-a1-m1-cAB_7cgo-a1-m1-cAZ 7cgo-a1-m1-cAC_7cgo-a1-m1-cAE 7cgo-a1-m1-cAD_7cgo-a1-m1-cAF 7cgo-a1-m1-cAE_7cgo-a1-m1-cAG 7cgo-a1-m1-cAF_7cgo-a1-m1-cAH 7cgo-a1-m1-cAG_7cgo-a1-m1-cAI 7cgo-a1-m1-cAH_7cgo-a1-m1-cAJ 7cgo-a1-m1-cAI_7cgo-a1-m1-cAK 7cgo-a1-m1-cAJ_7cgo-a1-m1-cAL 7cgo-a1-m1-cAK_7cgo-a1-m1-cAM 7cgo-a1-m1-cAL_7cgo-a1-m1-cAN 7cgo-a1-m1-cAM_7cgo-a1-m1-cAO 7cgo-a1-m1-cAN_7cgo-a1-m1-cAP 7cgo-a1-m1-cAO_7cgo-a1-m1-cAQ 7cgo-a1-m1-cAP_7cgo-a1-m1-cAR 7cgo-a1-m1-cAQ_7cgo-a1-m1-cAS 7cgo-a1-m1-cAR_7cgo-a1-m1-cAT 7cgo-a1-m1-cAS_7cgo-a1-m1-cAU 7cgo-a1-m1-cAT_7cgo-a1-m1-cAV 7cgo-a1-m1-cAU_7cgo-a1-m1-cAW 7cgo-a1-m1-cAV_7cgo-a1-m1-cAX 7cgo-a1-m1-cAW_7cgo-a1-m1-cAY 7clr-a1-m1-ca_7clr-a1-m1-cc 7clr-a1-m1-ca_7clr-a1-m1-cu 7clr-a1-m1-cb_7clr-a1-m1-cd 7clr-a1-m1-cb_7clr-a1-m1-cz 7clr-a1-m1-cc_7clr-a1-m1-ce 7clr-a1-m1-cd_7clr-a1-m1-cf 7clr-a1-m1-ce_7clr-a1-m1-cg 7clr-a1-m1-cf_7clr-a1-m1-ch 7clr-a1-m1-cg_7clr-a1-m1-ci 7clr-a1-m1-ch_7clr-a1-m1-cj 7clr-a1-m1-ci_7clr-a1-m1-ck 7clr-a1-m1-cj_7clr-a1-m1-cl 7clr-a1-m1-ck_7clr-a1-m1-cm 7clr-a1-m1-cl_7clr-a1-m1-cn 7clr-a1-m1-cm_7clr-a1-m1-co 7clr-a1-m1-cn_7clr-a1-m1-cp 7clr-a1-m1-co_7clr-a1-m1-cq 7clr-a1-m1-cp_7clr-a1-m1-cr 7clr-a1-m1-cq_7clr-a1-m1-cs 7clr-a1-m1-cr_7clr-a1-m1-ct 7clr-a1-m1-cs_7clr-a1-m1-cv 7clr-a1-m1-ct_7clr-a1-m1-cw 7clr-a1-m1-cu_7clr-a1-m1-cx 7clr-a1-m1-cv_7clr-a1-m1-cx 7clr-a1-m1-cw_7clr-a1-m1-cy 7clr-a1-m1-cy_7clr-a1-m1-cz 7nvg-a1-m1-cA3_7nvg-a1-m1-cC3 7nvg-a1-m1-cA3_7nvg-a1-m1-cY3 7nvg-a1-m1-cB3_7nvg-a1-m1-cD3 7nvg-a1-m1-cB3_7nvg-a1-m1-cZ3 7nvg-a1-m1-cC3_7nvg-a1-m1-cE3 7nvg-a1-m1-cD3_7nvg-a1-m1-cF3 7nvg-a1-m1-cE3_7nvg-a1-m1-cG3 7nvg-a1-m1-cF3_7nvg-a1-m1-cH3 7nvg-a1-m1-cG3_7nvg-a1-m1-cI3 7nvg-a1-m1-cH3_7nvg-a1-m1-cJ3 7nvg-a1-m1-cI3_7nvg-a1-m1-cK3 7nvg-a1-m1-cJ3_7nvg-a1-m1-cL3 7nvg-a1-m1-cK3_7nvg-a1-m1-cM3 7nvg-a1-m1-cL3_7nvg-a1-m1-cN3 7nvg-a1-m1-cM3_7nvg-a1-m1-cO3 7nvg-a1-m1-cN3_7nvg-a1-m1-cP3 7nvg-a1-m1-cO3_7nvg-a1-m1-cQ3 7nvg-a1-m1-cP3_7nvg-a1-m1-cR3 7nvg-a1-m1-cQ3_7nvg-a1-m1-cS3 7nvg-a1-m1-cR3_7nvg-a1-m1-cT3 7nvg-a1-m1-cS3_7nvg-a1-m1-cU3 7nvg-a1-m1-cT3_7nvg-a1-m1-cV3 7nvg-a1-m1-cV3_7nvg-a1-m1-cX3 7nvg-a1-m1-cW3_7nvg-a1-m1-cU3 7nvg-a1-m1-cW3_7nvg-a1-m1-cY3 7nvg-a1-m1-cX3_7nvg-a1-m1-cZ3 AWIPAKPLVQGATTAQPIPGPVPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTSFGFDTVPRYLQGLFGNSRADMEASGGNSFNGKGGANASNTFSGTLTVTVDQVLANGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNSVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM AWIPAKPLVQGATTAQPIPGPVPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTSFGFDTVPRYLQGLFGNSRADMEASGGNSFNGKGGANASNTFSGTLTVTVDQVLANGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNSVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM 7cgo-a1-m1-cAY_7cgo-a1-m1-cAZ Cryo-EM structure of the flagellar motor-hook complex from Salmonella P0A1N8 P0A1N8 3.9 ELECTRON MICROSCOPY 221 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 210 210 7bgl-a1-m1-cA_7bgl-a1-m1-cB 7bgl-a1-m1-cA_7bgl-a1-m1-cZ 7bgl-a1-m1-cB_7bgl-a1-m1-cC 7bgl-a1-m1-cC_7bgl-a1-m1-cD 7bgl-a1-m1-cD_7bgl-a1-m1-cE 7bgl-a1-m1-cE_7bgl-a1-m1-cF 7bgl-a1-m1-cF_7bgl-a1-m1-cG 7bgl-a1-m1-cG_7bgl-a1-m1-cH 7bgl-a1-m1-cH_7bgl-a1-m1-cI 7bgl-a1-m1-cI_7bgl-a1-m1-cJ 7bgl-a1-m1-cJ_7bgl-a1-m1-cK 7bgl-a1-m1-cK_7bgl-a1-m1-cL 7bgl-a1-m1-cL_7bgl-a1-m1-cM 7bgl-a1-m1-cM_7bgl-a1-m1-cN 7bgl-a1-m1-cN_7bgl-a1-m1-cO 7bgl-a1-m1-cO_7bgl-a1-m1-cP 7bgl-a1-m1-cP_7bgl-a1-m1-cQ 7bgl-a1-m1-cQ_7bgl-a1-m1-cR 7bgl-a1-m1-cR_7bgl-a1-m1-cS 7bgl-a1-m1-cS_7bgl-a1-m1-cT 7bgl-a1-m1-cT_7bgl-a1-m1-cU 7bgl-a1-m1-cU_7bgl-a1-m1-cV 7bgl-a1-m1-cV_7bgl-a1-m1-cW 7bgl-a1-m1-cW_7bgl-a1-m1-cX 7bgl-a1-m1-cX_7bgl-a1-m1-cY 7bgl-a1-m1-cY_7bgl-a1-m1-cZ 7cbl-a1-m1-cA_7cbl-a1-m1-cB 7cbl-a1-m1-cA_7cbl-a1-m1-cZ 7cbl-a1-m1-cB_7cbl-a1-m1-cC 7cbl-a1-m1-cC_7cbl-a1-m1-cD 7cbl-a1-m1-cD_7cbl-a1-m1-cE 7cbl-a1-m1-cE_7cbl-a1-m1-cF 7cbl-a1-m1-cF_7cbl-a1-m1-cG 7cbl-a1-m1-cG_7cbl-a1-m1-cH 7cbl-a1-m1-cH_7cbl-a1-m1-cI 7cbl-a1-m1-cI_7cbl-a1-m1-cJ 7cbl-a1-m1-cJ_7cbl-a1-m1-cK 7cbl-a1-m1-cK_7cbl-a1-m1-cL 7cbl-a1-m1-cL_7cbl-a1-m1-cM 7cbl-a1-m1-cM_7cbl-a1-m1-cN 7cbl-a1-m1-cN_7cbl-a1-m1-cO 7cbl-a1-m1-cO_7cbl-a1-m1-cP 7cbl-a1-m1-cP_7cbl-a1-m1-cQ 7cbl-a1-m1-cQ_7cbl-a1-m1-cR 7cbl-a1-m1-cR_7cbl-a1-m1-cS 7cbl-a1-m1-cS_7cbl-a1-m1-cT 7cbl-a1-m1-cT_7cbl-a1-m1-cU 7cbl-a1-m1-cU_7cbl-a1-m1-cV 7cbl-a1-m1-cV_7cbl-a1-m1-cW 7cbl-a1-m1-cW_7cbl-a1-m1-cX 7cbl-a1-m1-cX_7cbl-a1-m1-cY 7cbl-a1-m1-cY_7cbl-a1-m1-cZ 7cgo-a1-m1-cAA_7cgo-a1-m1-cAB 7cgo-a1-m1-cAA_7cgo-a1-m1-cAZ 7cgo-a1-m1-cAB_7cgo-a1-m1-cAC 7cgo-a1-m1-cAC_7cgo-a1-m1-cAD 7cgo-a1-m1-cAD_7cgo-a1-m1-cAE 7cgo-a1-m1-cAE_7cgo-a1-m1-cAF 7cgo-a1-m1-cAF_7cgo-a1-m1-cAG 7cgo-a1-m1-cAG_7cgo-a1-m1-cAH 7cgo-a1-m1-cAH_7cgo-a1-m1-cAI 7cgo-a1-m1-cAI_7cgo-a1-m1-cAJ 7cgo-a1-m1-cAJ_7cgo-a1-m1-cAK 7cgo-a1-m1-cAK_7cgo-a1-m1-cAL 7cgo-a1-m1-cAL_7cgo-a1-m1-cAM 7cgo-a1-m1-cAM_7cgo-a1-m1-cAN 7cgo-a1-m1-cAN_7cgo-a1-m1-cAO 7cgo-a1-m1-cAO_7cgo-a1-m1-cAP 7cgo-a1-m1-cAP_7cgo-a1-m1-cAQ 7cgo-a1-m1-cAQ_7cgo-a1-m1-cAR 7cgo-a1-m1-cAR_7cgo-a1-m1-cAS 7cgo-a1-m1-cAS_7cgo-a1-m1-cAT 7cgo-a1-m1-cAT_7cgo-a1-m1-cAU 7cgo-a1-m1-cAU_7cgo-a1-m1-cAV 7cgo-a1-m1-cAV_7cgo-a1-m1-cAW 7cgo-a1-m1-cAW_7cgo-a1-m1-cAX 7cgo-a1-m1-cAX_7cgo-a1-m1-cAY 7clr-a1-m1-ca_7clr-a1-m1-cb 7clr-a1-m1-ca_7clr-a1-m1-cz 7clr-a1-m1-cb_7clr-a1-m1-cc 7clr-a1-m1-cc_7clr-a1-m1-cd 7clr-a1-m1-cd_7clr-a1-m1-ce 7clr-a1-m1-ce_7clr-a1-m1-cf 7clr-a1-m1-cf_7clr-a1-m1-cg 7clr-a1-m1-cg_7clr-a1-m1-ch 7clr-a1-m1-ch_7clr-a1-m1-ci 7clr-a1-m1-ci_7clr-a1-m1-cj 7clr-a1-m1-cj_7clr-a1-m1-ck 7clr-a1-m1-ck_7clr-a1-m1-cl 7clr-a1-m1-cl_7clr-a1-m1-cm 7clr-a1-m1-cm_7clr-a1-m1-cn 7clr-a1-m1-cn_7clr-a1-m1-co 7clr-a1-m1-co_7clr-a1-m1-cp 7clr-a1-m1-cp_7clr-a1-m1-cq 7clr-a1-m1-cq_7clr-a1-m1-cr 7clr-a1-m1-cr_7clr-a1-m1-cs 7clr-a1-m1-cs_7clr-a1-m1-ct 7clr-a1-m1-ct_7clr-a1-m1-cv 7clr-a1-m1-cu_7clr-a1-m1-cy 7clr-a1-m1-cu_7clr-a1-m1-cz 7clr-a1-m1-cv_7clr-a1-m1-cw 7clr-a1-m1-cw_7clr-a1-m1-cx 7clr-a1-m1-cx_7clr-a1-m1-cy 7nvg-a1-m1-cA3_7nvg-a1-m1-cB3 7nvg-a1-m1-cA3_7nvg-a1-m1-cZ3 7nvg-a1-m1-cB3_7nvg-a1-m1-cC3 7nvg-a1-m1-cC3_7nvg-a1-m1-cD3 7nvg-a1-m1-cD3_7nvg-a1-m1-cE3 7nvg-a1-m1-cE3_7nvg-a1-m1-cF3 7nvg-a1-m1-cF3_7nvg-a1-m1-cG3 7nvg-a1-m1-cG3_7nvg-a1-m1-cH3 7nvg-a1-m1-cH3_7nvg-a1-m1-cI3 7nvg-a1-m1-cI3_7nvg-a1-m1-cJ3 7nvg-a1-m1-cJ3_7nvg-a1-m1-cK3 7nvg-a1-m1-cK3_7nvg-a1-m1-cL3 7nvg-a1-m1-cL3_7nvg-a1-m1-cM3 7nvg-a1-m1-cM3_7nvg-a1-m1-cN3 7nvg-a1-m1-cN3_7nvg-a1-m1-cO3 7nvg-a1-m1-cO3_7nvg-a1-m1-cP3 7nvg-a1-m1-cP3_7nvg-a1-m1-cQ3 7nvg-a1-m1-cQ3_7nvg-a1-m1-cR3 7nvg-a1-m1-cR3_7nvg-a1-m1-cS3 7nvg-a1-m1-cS3_7nvg-a1-m1-cT3 7nvg-a1-m1-cT3_7nvg-a1-m1-cU3 7nvg-a1-m1-cU3_7nvg-a1-m1-cV3 7nvg-a1-m1-cW3_7nvg-a1-m1-cV3 7nvg-a1-m1-cW3_7nvg-a1-m1-cX3 7nvg-a1-m1-cX3_7nvg-a1-m1-cY3 7nvg-a1-m1-cY3_7nvg-a1-m1-cZ3 AWIPAKPLVQGATTAQPIPGPVPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTSFGFDTVPRYLQGLFGNSRADMEASGGNSFNGKGGANASNTFSGTLTVTVDQVLANGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNSVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM AWIPAKPLVQGATTAQPIPGPVPVANGSIFQSAQPINYGYQPLFEDRRPRNIGDTLTIVLQENVSASKSSSANASRDGKTSFGFDTVPRYLQGLFGNSRADMEASGGNSFNGKGGANASNTFSGTLTVTVDQVLANGNLHVVGEKQIAINQGTEFIRFSGVVNPRTISGSNSVPSTQVADARIEYVGNGYINEAQNMGWLQRFFLNLSPM 7cgr-a2-m1-cD_7cgr-a2-m1-cC Crystal structure of Azospirillum brasilense L-arabinose 1-dehydrogenase E147A mutant (NADP and glycerol bound form) Q53TZ2 Q53TZ2 2.093 X-RAY DIFFRACTION 93 1.0 192 (Azospirillum brasilense) 192 (Azospirillum brasilense) 305 306 6jnj-a1-m1-cA_6jnj-a1-m1-cB 6jnk-a1-m1-cA_6jnk-a1-m1-cB 6jnk-a2-m1-cC_6jnk-a2-m1-cD 7cgq-a1-m1-cB_7cgq-a1-m1-cA 7cgq-a2-m1-cD_7cgq-a2-m1-cC 7cgr-a1-m1-cB_7cgr-a1-m1-cA QVSLGVVGIGKIARDQHLPAIDAEPGFKLTACASRHAEVTGVRNYRDLRALLAAERELDAVSLCAPPQVRYAQARAALEAGKHVMLEKPPGATLGEVAVLEALARERGLTLFATWHSRCASAVEPAREWLATRAIRAVQVRWKADVRRWHPGQQWIWEPGGLGVFDPGINALSIVTRILPRELVLREATLIVPSDVQTPIAAELDCADTDGVPVRAEFDWRHGPVEQWEIAVDTADGVLAISRGGAQLSIAGEPVELGPEREYPALYAHFHALIARGESDVDVRPLRLVADAFLFGRRVQTDAFG DQVSLGVVGIGKIARDQHLPAIDAEPGFKLTACASRHAEVTGVRNYRDLRALLAAERELDAVSLCAPPQVRYAQARAALEAGKHVMLEKPPGATLGEVAVLEALARERGLTLFATWHSRCASAVEPAREWLATRAIRAVQVRWKADVRRWHPGQQWIWEPGGLGVFDPGINALSIVTRILPRELVLREATLIVPSDVQTPIAAELDCADTDGVPVRAEFDWRHGPVEQWEIAVDTADGVLAISRGGAQLSIAGEPVELGPEREYPALYAHFHALIARGESDVDVRPLRLVADAFLFGRRVQTDAFG 7cgv-a1-m2-cD_7cgv-a1-m1-cA Full consensus L-threonine 3-dehydrogenase, FcTDH-IIYM (NAD+ bound form) 2.38 X-RAY DIFFRACTION 17 1.0 32630 (synthetic construct) 32630 (synthetic construct) 303 310 7cgv-a1-m1-cB_7cgv-a1-m2-cC KRILVIGANGQIGSELVPALRKRYGADNVIASDIRPPNLYEAGPFEYLDVLDKEALAELVKKYKITQIYHLAALLSQKAWDLNMDGLLNVLEIARERGPLKVFWPSSIAAFGPNTPKDNTPQDTIMRPTTIYGISKVAGELLCEYYHTKYGVDVRSVRYPGIISYKTPPGGGTTDYAVEIFYEALKGGKYECFLGPDTTLPMMYMPDAIRATIELMEAPAEKLKHRSSYNVAAMSFTPEELAAEIKKHIPDFEITYKPDVRQAIADSWPKSLDDSAARADWGWKPRYDLEEMTKDMLENLDVK KRILVIGANGQIGSELVPALRKRYGADNVIASDIRPPNLYEAGPFEYLDVLDKEALAELVKKYKITQIYHLAALLSATGEKNPQKAWDLNMDGLLNVLEIARERGPLKVFWPSSIAAFGPNTPKDNTPQDTIMRPTTIYGISKVAGELLCEYYHTKYGVDVRSVRYPGIISYKTPPGGGTTDYAVEIFYEALKGGKYECFLGPDTTLPMMYMPDAIRATIELMEAPAEKLKHRSSYNVAAMSFTPEELAAEIKKHIPDFEITYKPDVRQAIADSWPKSLDDSAARADWGWKPRYDLEEMTKDMLENLDVK 7cgv-a1-m2-cD_7cgv-a1-m2-cC Full consensus L-threonine 3-dehydrogenase, FcTDH-IIYM (NAD+ bound form) 2.38 X-RAY DIFFRACTION 53 1.0 32630 (synthetic construct) 32630 (synthetic construct) 303 310 7cgv-a1-m1-cB_7cgv-a1-m1-cA KRILVIGANGQIGSELVPALRKRYGADNVIASDIRPPNLYEAGPFEYLDVLDKEALAELVKKYKITQIYHLAALLSQKAWDLNMDGLLNVLEIARERGPLKVFWPSSIAAFGPNTPKDNTPQDTIMRPTTIYGISKVAGELLCEYYHTKYGVDVRSVRYPGIISYKTPPGGGTTDYAVEIFYEALKGGKYECFLGPDTTLPMMYMPDAIRATIELMEAPAEKLKHRSSYNVAAMSFTPEELAAEIKKHIPDFEITYKPDVRQAIADSWPKSLDDSAARADWGWKPRYDLEEMTKDMLENLDVK KRILVIGANGQIGSELVPALRKRYGADNVIASDIRPPNLYEAGPFEYLDVLDKEALAELVKKYKITQIYHLAALLSATGEKNPQKAWDLNMDGLLNVLEIARERGPLKVFWPSSIAAFGPNTPKDNTPQDTIMRPTTIYGISKVAGELLCEYYHTKYGVDVRSVRYPGIISYKTPPGGGTTDYAVEIFYEALKGGKYECFLGPDTTLPMMYMPDAIRATIELMEAPAEKLKHRSSYNVAAMSFTPEELAAEIKKHIPDFEITYKPDVRQAIADSWPKSLDDSAARADWGWKPRYDLEEMTKDMLENLDVK 7cgz-a1-m1-cA_7cgz-a1-m1-cB glucose dehydrogenase 1.94 X-RAY DIFFRACTION 39 1.0 1327989 (Serratia sp. FS14) 1327989 (Serratia sp. FS14) 321 342 PTVSQLQDGLEHPWSLAFLPAEQGLLITERPGRLRLWQQDKGLSPPIAGVPQVYAEGQGGLLEVLPAPDFAASRRVYLSFAEPGEGGKAGTAVGYGRLSDDDARLENFKVIFRQQPKLSVGNHFGGKLAFDRQGYLFIALGENNQRPTAQETDKLQGKLVRLTAEGAVPPDNPWVGQAGKRPEVWSYGHRNPQGLALNPWSGAIWEHEHGPRGGDELNIPLPGKNYGTEQPLHYWRVSPGLSGMAFYDGQRFPAWRHSLFIGALAQKALIRLTLEGDKVVAEERLLGDRGERIREVRSGPDGYLYLLTDERDGKLLKVGAS PTVSQLQDGLEHPWSLAFLPAEQGLLITERPGRLRLWQQDKGLSPPIAGVPQVYAEGQGGLLEVLPAPDFAASRRVYLSFAEPGEGGKAGTAVGYGRLSDDDARLENFKVIFRQQPKLSVGNHFGGKLAFDRQGYLFIALGENNQRPTAQETDKLQGKLVRLTAEGAVPPDNPWVGQAGKRPEVWSYGHRNPQGLALNPWSGAIWEHEHGPRGGDELNIPLPGKNYGWPLATYGIPIPEAKGERVPGTEQPLHYWRVSPGLSGMAFYDGQRFPAWRHSLFIGALAQKALIRLTLEGDKVVAEERLLGDRGERIREVRSGPDGYLYLLTDERDGKLLKVGASL 7ch1-a1-m1-cA_7ch1-a1-m1-cB The overall structure of SLC26A9 Q7LBE3 Q7LBE3 2.6 ELECTRON MICROSCOPY 339 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 640 640 PRPRYVVDRAAYSLTLFDDEFEKSAKIKAVVFGLLPVLSWLPKYKIKDYIIPDLLGGLSGGSIQVPQGMAFALLANLPAVNGLYSSFFPLLTYFFLGGVHQMVPGTFAVISILVGNICLQLAPESKFQVSYVDTAAMEAERLHVSATLACLTAIIQMGLGFMQFGFVAIYLSESFIRGFMTAAGLQILISVLKYIFGLTIPSYTGPGSIVFTFIDICKNLPHTNIASLIFALISGAFLVLVKELNARYMHKIRFPIPTEMIVVVVATAISGGCKMPKKYHMQIVGEIQRGFPTPVSPVVSQWKDMIGTAFSLAIVSYVINLAMGRTLANKHGYDVDSNQEMIALGCSNFFGSFFKIHVICCALSVTLAVDGAGGKSQVASLCVSLVVMITMLVLGIYLYPLPKSVLGALIAVNLKNSLKQLTDPYYLWRKSKLDCCIWVVSFLSSFFLSLPYGVAVGVAFSVLVVVFQTQFRNGYALAQVMDTDIYVNPKTYNRAQDIQGIKIITYCSPLYFANSEIFRQKVIAKTGMDPQKVLLAKQKLASVPPFVTFHTLILDMSGVSFVDLMGIKALAKLSSTYGKIGVKVFLVNIHAQVYNDISHGGVFEDGSLECKHVFPSIHDAVLFAQANADLEQEMFGSMFH PRPRYVVDRAAYSLTLFDDEFEKSAKIKAVVFGLLPVLSWLPKYKIKDYIIPDLLGGLSGGSIQVPQGMAFALLANLPAVNGLYSSFFPLLTYFFLGGVHQMVPGTFAVISILVGNICLQLAPESKFQVSYVDTAAMEAERLHVSATLACLTAIIQMGLGFMQFGFVAIYLSESFIRGFMTAAGLQILISVLKYIFGLTIPSYTGPGSIVFTFIDICKNLPHTNIASLIFALISGAFLVLVKELNARYMHKIRFPIPTEMIVVVVATAISGGCKMPKKYHMQIVGEIQRGFPTPVSPVVSQWKDMIGTAFSLAIVSYVINLAMGRTLANKHGYDVDSNQEMIALGCSNFFGSFFKIHVICCALSVTLAVDGAGGKSQVASLCVSLVVMITMLVLGIYLYPLPKSVLGALIAVNLKNSLKQLTDPYYLWRKSKLDCCIWVVSFLSSFFLSLPYGVAVGVAFSVLVVVFQTQFRNGYALAQVMDTDIYVNPKTYNRAQDIQGIKIITYCSPLYFANSEIFRQKVIAKTGMDPQKVLLAKQKLASVPPFVTFHTLILDMSGVSFVDLMGIKALAKLSSTYGKIGVKVFLVNIHAQVYNDISHGGVFEDGSLECKHVFPSIHDAVLFAQANADLEQEMFGSMFH 7ch6-a1-m1-cA_7ch6-a1-m1-cB Cryo-EM structure of E.coli MlaFEB with AMPPNP P64606 P64606 3.4 ELECTRON MICROSCOPY 129 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 248 248 6xbd-a1-m1-cH_6xbd-a1-m1-cG 6zy2-a1-m1-cE_6zy2-a1-m1-cH 6zy3-a1-m1-cE_6zy3-a1-m1-cH 6zy4-a1-m1-cE_6zy4-a1-m1-cH 6zy9-a1-m1-cE_6zy9-a1-m1-cH 7cge-a1-m1-cA_7cge-a1-m1-cD 7cgn-a1-m1-cA_7cgn-a1-m1-cD 7ch0-a1-m1-cA_7ch0-a1-m1-cD 7ch7-a1-m1-cA_7ch7-a1-m1-cB GIKTLRTFGRAGLMLFNALVGKPEFRKHAPLLVRQLYNVGVLSMLIIVVSGVFIGMVLGLQGYLVLTTYSAETSLGMLVALSLLRELGPVVAALLFAGRAGSALTAEIGLMRATEQLSSMEMMAVDPLRRVISPRFWAGVISLPLLTVIFVAVGIWGGSLVGVSWKGIDSGFFWSAMQNAVDWRMDLVNCLIKSVVFAITVTWISLFNGYDAIPTSAGISRATTRTVVHSSLAVLGLDFVLTALMFGN GIKTLRTFGRAGLMLFNALVGKPEFRKHAPLLVRQLYNVGVLSMLIIVVSGVFIGMVLGLQGYLVLTTYSAETSLGMLVALSLLRELGPVVAALLFAGRAGSALTAEIGLMRATEQLSSMEMMAVDPLRRVISPRFWAGVISLPLLTVIFVAVGIWGGSLVGVSWKGIDSGFFWSAMQNAVDWRMDLVNCLIKSVVFAITVTWISLFNGYDAIPTSAGISRATTRTVVHSSLAVLGLDFVLTALMFGN 7ch8-a1-m1-cC_7ch8-a1-m1-cD Cryo-EM structure of P.aeruginosa MlaFEBD with ADP-V Q9HVW3 Q9HVW3 3.9 ELECTRON MICROSCOPY 64 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 148 148 7ch8-a1-m1-cB_7ch8-a1-m1-cA 7ch8-a1-m1-cB_7ch8-a1-m1-cF 7ch8-a1-m1-cC_7ch8-a1-m1-cA 7ch8-a1-m1-cD_7ch8-a1-m1-cE 7ch8-a1-m1-cF_7ch8-a1-m1-cE 7ch9-a1-m1-cB_7ch9-a1-m1-cA 7ch9-a1-m1-cB_7ch9-a1-m1-cF 7ch9-a1-m1-cC_7ch9-a1-m1-cA 7ch9-a1-m1-cC_7ch9-a1-m1-cD 7ch9-a1-m1-cD_7ch9-a1-m1-cE 7ch9-a1-m1-cF_7ch9-a1-m1-cE 7cha-a1-m1-cB_7cha-a1-m1-cA 7cha-a1-m1-cC_7cha-a1-m1-cA 7cha-a1-m1-cC_7cha-a1-m1-cD 7cha-a1-m1-cD_7cha-a1-m1-cE 7cha-a1-m1-cF_7cha-a1-m1-cB 7cha-a1-m1-cF_7cha-a1-m1-cE TRTLEIGVGLFLLAGLLALLLLALRVSGLSVGNAGDTYKVYAYFDNIAGVTVRGKVTLAGVTIGKVTAVDLDRDSYTGRVTMEINQNVNNLPVDSTASILTAGLLGEKYIGISVGGDEDVLKDGSTIHDTQSALVLEDLIGKFLLNSV TRTLEIGVGLFLLAGLLALLLLALRVSGLSVGNAGDTYKVYAYFDNIAGVTVRGKVTLAGVTIGKVTAVDLDRDSYTGRVTMEINQNVNNLPVDSTASILTAGLLGEKYIGISVGGDEDVLKDGSTIHDTQSALVLEDLIGKFLLNSV 7cha-a1-m1-cG_7cha-a1-m1-cH Cryo-EM structure of P.aeruginosa MlaFEBD with AMPPNP Q9HVW2 Q9HVW2 3.9 ELECTRON MICROSCOPY 141 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 258 258 7ch8-a1-m1-cG_7ch8-a1-m1-cH 7ch9-a1-m1-cH_7ch9-a1-m1-cG SPLERIRLFGRAGLDVVAALGRSTLFLGHALLGRRTPGTGLHLLVKQLYSVGVLSLAIIVVSGLFIGMVLALQGYNILISYGSEQAVGQMVALTLLRELGPVVTGLLFAGRAGSALTAEIGNMKATEQLSSLEMIGVDPLKYIVAPRLWAGFISMPLLAAIFSVVGIWGGAMVAVDWLGVYEGSFWANMQNSVQFTEDVLNGVIKSIVFAFVVTWIAVYQGYDCEPTSEGISRATTRTVVYASLAVLGLDFILTALMF SPLERIRLFGRAGLDVVAALGRSTLFLGHALLGRRTPGTGLHLLVKQLYSVGVLSLAIIVVSGLFIGMVLALQGYNILISYGSEQAVGQMVALTLLRELGPVVTGLLFAGRAGSALTAEIGNMKATEQLSSLEMIGVDPLKYIVAPRLWAGFISMPLLAAIFSVVGIWGGAMVAVDWLGVYEGSFWANMQNSVQFTEDVLNGVIKSIVFAFVVTWIAVYQGYDCEPTSEGISRATTRTVVYASLAVLGLDFILTALMF 7cha-a1-m1-cI_7cha-a1-m1-cJ Cryo-EM structure of P.aeruginosa MlaFEBD with AMPPNP Q9HVW1 Q9HVW1 3.9 ELECTRON MICROSCOPY 122 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 262 262 7ch8-a1-m1-cI_7ch8-a1-m1-cJ 7ch9-a1-m1-cI_7ch9-a1-m1-cJ AYAVELKGLTFKRGSRAIFDNIDVRIPRGKVTGIMGPSGCGKTTLLRLIASQLRPSKGEVWVNGQNLPQLSRGDLFDMRKQFGVLFQSGALFTDLDVFENVAFPLRVHTQLPEEMIRDIVLMKLQAVGLRGAVELMPDELSGGMKRRVALARAIALDPQILLYDEPFVGQDPIAMGVLVRLIRLLNDALGITSIVVSHDLAETASIADYIYIVGDGRVLGHGTPDVLKETDDPRIRQFVKGIPDGPVPFHYPARDYRADLLG AYAVELKGLTFKRGSRAIFDNIDVRIPRGKVTGIMGPSGCGKTTLLRLIASQLRPSKGEVWVNGQNLPQLSRGDLFDMRKQFGVLFQSGALFTDLDVFENVAFPLRVHTQLPEEMIRDIVLMKLQAVGLRGAVELMPDELSGGMKRRVALARAIALDPQILLYDEPFVGQDPIAMGVLVRLIRLLNDALGITSIVVSHDLAETASIADYIYIVGDGRVLGHGTPDVLKETDDPRIRQFVKGIPDGPVPFHYPARDYRADLLG 7chd-a2-m1-cH_7chd-a2-m3-cH AtaT complexed with acetyl-methionyl-tRNAfMet Q8XED1 Q8XED1 3.804 X-RAY DIFFRACTION 101 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 168 168 6gtp-a1-m1-cA_6gtp-a1-m2-cA 7chd-a1-m1-cG_7chd-a1-m2-cG 7chd-a3-m1-cA_7chd-a3-m1-cB 7chd-a4-m1-cD_7chd-a4-m1-cC 7chd-a5-m1-cE_7chd-a5-m1-cF TIEILTDDADYDLQRFDCGEEALNLFLTTHLVRQHRNKILRAYILCRNTPERQVLGYYTLCGSCFERAALPSKSKQKKIPYKNIPSVTLGRLAIDRSLQGQGWDATLVAHAMNVVWSASLAVGIHGLFVEALNEKAHTFYKSLGFIPLVGENENALFFPTKSIELLFT TIEILTDDADYDLQRFDCGEEALNLFLTTHLVRQHRNKILRAYILCRNTPERQVLGYYTLCGSCFERAALPSKSKQKKIPYKNIPSVTLGRLAIDRSLQGQGWDATLVAHAMNVVWSASLAVGIHGLFVEALNEKAHTFYKSLGFIPLVGENENALFFPTKSIELLFT 7chh-a1-m1-cB_7chh-a1-m1-cC Cryo-EM structure of the SARS-CoV-2 S-6P in complex with BD-368-2 Fabs P0DTC2 P0DTC2 3.49 ELECTRON MICROSCOPY 281 0.991 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 994 999 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLSEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7chh-a1-m1-cC_7chh-a1-m1-cA Cryo-EM structure of the SARS-CoV-2 S-6P in complex with BD-368-2 Fabs P0DTC2 P0DTC2 3.49 ELECTRON MICROSCOPY 278 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 999 1003 7chh-a1-m1-cB_7chh-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7chk-a1-m55-cC_7chk-a1-m9-cC Cryo-EM Structure of Apple Latent Spherical Virus (ALSV) Q9JGP1 Q9JGP1 2.87 ELECTRON MICROSCOPY 37 1.0 101688 (Apple latent spherical virus) 101688 (Apple latent spherical virus) 215 215 7chk-a1-m10-cC_7chk-a1-m24-cC 7chk-a1-m11-cC_7chk-a1-m16-cC 7chk-a1-m12-cC_7chk-a1-m38-cC 7chk-a1-m13-cC_7chk-a1-m47-cC 7chk-a1-m14-cC_7chk-a1-m45-cC 7chk-a1-m15-cC_7chk-a1-m29-cC 7chk-a1-m17-cC_7chk-a1-m28-cC 7chk-a1-m18-cC_7chk-a1-m52-cC 7chk-a1-m19-cC_7chk-a1-m60-cC 7chk-a1-m1-cC_7chk-a1-m6-cC 7chk-a1-m20-cC_7chk-a1-m39-cC 7chk-a1-m21-cC_7chk-a1-m26-cC 7chk-a1-m22-cC_7chk-a1-m43-cC 7chk-a1-m25-cC_7chk-a1-m54-cC 7chk-a1-m27-cC_7chk-a1-m53-cC 7chk-a1-m2-cC_7chk-a1-m23-cC 7chk-a1-m30-cC_7chk-a1-m44-cC 7chk-a1-m31-cC_7chk-a1-m36-cC 7chk-a1-m32-cC_7chk-a1-m58-cC 7chk-a1-m33-cC_7chk-a1-m7-cC 7chk-a1-m34-cC_7chk-a1-m5-cC 7chk-a1-m35-cC_7chk-a1-m49-cC 7chk-a1-m37-cC_7chk-a1-m48-cC 7chk-a1-m3-cC_7chk-a1-m42-cC 7chk-a1-m40-cC_7chk-a1-m59-cC 7chk-a1-m41-cC_7chk-a1-m46-cC 7chk-a1-m4-cC_7chk-a1-m50-cC 7chk-a1-m51-cC_7chk-a1-m56-cC 7chk-a1-m57-cC_7chk-a1-m8-cC PDFTKIIWPTVVERNFSNPQSEITTTLQELYGDTFETVSICPPQSYGGELLKGKIFFSSTPEFTREDLVEGKILASFKLDEVLSGLGMGAMLMTQIMSGHATIRVSAKVMLSKFCSFALKLVYDELMQLNSDTTDFGKISVLPGAIFSTQEEEFSFDFELFSPGVHLKFDNNKLLGKVHLAALSAPNLTENMPESFSCTFNFSIVDVKTTFYNIG PDFTKIIWPTVVERNFSNPQSEITTTLQELYGDTFETVSICPPQSYGGELLKGKIFFSSTPEFTREDLVEGKILASFKLDEVLSGLGMGAMLMTQIMSGHATIRVSAKVMLSKFCSFALKLVYDELMQLNSDTTDFGKISVLPGAIFSTQEEEFSFDFELFSPGVHLKFDNNKLLGKVHLAALSAPNLTENMPESFSCTFNFSIVDVKTTFYNIG 7chk-a1-m8-cB_7chk-a1-m9-cB Cryo-EM Structure of Apple Latent Spherical Virus (ALSV) Q9JGP1 Q9JGP1 2.87 ELECTRON MICROSCOPY 47 1.0 101688 (Apple latent spherical virus) 101688 (Apple latent spherical virus) 147 147 7chk-a1-m10-cB_7chk-a1-m6-cB 7chk-a1-m10-cB_7chk-a1-m9-cB 7chk-a1-m11-cB_7chk-a1-m12-cB 7chk-a1-m11-cB_7chk-a1-m15-cB 7chk-a1-m12-cB_7chk-a1-m13-cB 7chk-a1-m13-cB_7chk-a1-m14-cB 7chk-a1-m14-cB_7chk-a1-m15-cB 7chk-a1-m16-cB_7chk-a1-m17-cB 7chk-a1-m16-cB_7chk-a1-m20-cB 7chk-a1-m17-cB_7chk-a1-m18-cB 7chk-a1-m18-cB_7chk-a1-m19-cB 7chk-a1-m19-cB_7chk-a1-m20-cB 7chk-a1-m1-cB_7chk-a1-m2-cB 7chk-a1-m1-cB_7chk-a1-m5-cB 7chk-a1-m21-cB_7chk-a1-m22-cB 7chk-a1-m21-cB_7chk-a1-m25-cB 7chk-a1-m22-cB_7chk-a1-m23-cB 7chk-a1-m23-cB_7chk-a1-m24-cB 7chk-a1-m24-cB_7chk-a1-m25-cB 7chk-a1-m26-cB_7chk-a1-m27-cB 7chk-a1-m26-cB_7chk-a1-m30-cB 7chk-a1-m27-cB_7chk-a1-m28-cB 7chk-a1-m28-cB_7chk-a1-m29-cB 7chk-a1-m29-cB_7chk-a1-m30-cB 7chk-a1-m2-cB_7chk-a1-m3-cB 7chk-a1-m31-cB_7chk-a1-m32-cB 7chk-a1-m31-cB_7chk-a1-m35-cB 7chk-a1-m32-cB_7chk-a1-m33-cB 7chk-a1-m33-cB_7chk-a1-m34-cB 7chk-a1-m34-cB_7chk-a1-m35-cB 7chk-a1-m36-cB_7chk-a1-m37-cB 7chk-a1-m36-cB_7chk-a1-m40-cB 7chk-a1-m37-cB_7chk-a1-m38-cB 7chk-a1-m38-cB_7chk-a1-m39-cB 7chk-a1-m39-cB_7chk-a1-m40-cB 7chk-a1-m3-cB_7chk-a1-m4-cB 7chk-a1-m41-cB_7chk-a1-m42-cB 7chk-a1-m41-cB_7chk-a1-m45-cB 7chk-a1-m42-cB_7chk-a1-m43-cB 7chk-a1-m43-cB_7chk-a1-m44-cB 7chk-a1-m44-cB_7chk-a1-m45-cB 7chk-a1-m46-cB_7chk-a1-m47-cB 7chk-a1-m46-cB_7chk-a1-m50-cB 7chk-a1-m47-cB_7chk-a1-m48-cB 7chk-a1-m48-cB_7chk-a1-m49-cB 7chk-a1-m49-cB_7chk-a1-m50-cB 7chk-a1-m4-cB_7chk-a1-m5-cB 7chk-a1-m51-cB_7chk-a1-m52-cB 7chk-a1-m51-cB_7chk-a1-m55-cB 7chk-a1-m52-cB_7chk-a1-m53-cB 7chk-a1-m53-cB_7chk-a1-m54-cB 7chk-a1-m54-cB_7chk-a1-m55-cB 7chk-a1-m56-cB_7chk-a1-m57-cB 7chk-a1-m56-cB_7chk-a1-m60-cB 7chk-a1-m57-cB_7chk-a1-m58-cB 7chk-a1-m58-cB_7chk-a1-m59-cB 7chk-a1-m59-cB_7chk-a1-m60-cB 7chk-a1-m6-cB_7chk-a1-m7-cB 7chk-a1-m7-cB_7chk-a1-m8-cB SFLLNYSHCGTLVESSLNKGGMWCVPVSPVNLAAYKTHNWLHFMASTTAYWRGTLHYQMRVTYKDRNAACRNLVAFYTTISSVMGDSFSVDITVPFLIPTCYLQTIRGSCNGCIYFHLPTKSATSVQLWVRPGQDFDFARFRLLKAG SFLLNYSHCGTLVESSLNKGGMWCVPVSPVNLAAYKTHNWLHFMASTTAYWRGTLHYQMRVTYKDRNAACRNLVAFYTTISSVMGDSFSVDITVPFLIPTCYLQTIRGSCNGCIYFHLPTKSATSVQLWVRPGQDFDFARFRLLKAG 7chk-a1-m8-cC_7chk-a1-m9-cC Cryo-EM Structure of Apple Latent Spherical Virus (ALSV) Q9JGP1 Q9JGP1 2.87 ELECTRON MICROSCOPY 65 1.0 101688 (Apple latent spherical virus) 101688 (Apple latent spherical virus) 215 215 7chk-a1-m10-cC_7chk-a1-m6-cC 7chk-a1-m10-cC_7chk-a1-m9-cC 7chk-a1-m11-cC_7chk-a1-m12-cC 7chk-a1-m11-cC_7chk-a1-m15-cC 7chk-a1-m12-cC_7chk-a1-m13-cC 7chk-a1-m13-cC_7chk-a1-m14-cC 7chk-a1-m14-cC_7chk-a1-m15-cC 7chk-a1-m16-cC_7chk-a1-m17-cC 7chk-a1-m16-cC_7chk-a1-m20-cC 7chk-a1-m17-cC_7chk-a1-m18-cC 7chk-a1-m18-cC_7chk-a1-m19-cC 7chk-a1-m19-cC_7chk-a1-m20-cC 7chk-a1-m1-cC_7chk-a1-m2-cC 7chk-a1-m1-cC_7chk-a1-m5-cC 7chk-a1-m21-cC_7chk-a1-m22-cC 7chk-a1-m21-cC_7chk-a1-m25-cC 7chk-a1-m22-cC_7chk-a1-m23-cC 7chk-a1-m23-cC_7chk-a1-m24-cC 7chk-a1-m24-cC_7chk-a1-m25-cC 7chk-a1-m26-cC_7chk-a1-m27-cC 7chk-a1-m26-cC_7chk-a1-m30-cC 7chk-a1-m27-cC_7chk-a1-m28-cC 7chk-a1-m28-cC_7chk-a1-m29-cC 7chk-a1-m29-cC_7chk-a1-m30-cC 7chk-a1-m2-cC_7chk-a1-m3-cC 7chk-a1-m31-cC_7chk-a1-m32-cC 7chk-a1-m31-cC_7chk-a1-m35-cC 7chk-a1-m32-cC_7chk-a1-m33-cC 7chk-a1-m33-cC_7chk-a1-m34-cC 7chk-a1-m34-cC_7chk-a1-m35-cC 7chk-a1-m36-cC_7chk-a1-m37-cC 7chk-a1-m36-cC_7chk-a1-m40-cC 7chk-a1-m37-cC_7chk-a1-m38-cC 7chk-a1-m38-cC_7chk-a1-m39-cC 7chk-a1-m39-cC_7chk-a1-m40-cC 7chk-a1-m3-cC_7chk-a1-m4-cC 7chk-a1-m41-cC_7chk-a1-m42-cC 7chk-a1-m41-cC_7chk-a1-m45-cC 7chk-a1-m42-cC_7chk-a1-m43-cC 7chk-a1-m43-cC_7chk-a1-m44-cC 7chk-a1-m44-cC_7chk-a1-m45-cC 7chk-a1-m46-cC_7chk-a1-m47-cC 7chk-a1-m46-cC_7chk-a1-m50-cC 7chk-a1-m47-cC_7chk-a1-m48-cC 7chk-a1-m48-cC_7chk-a1-m49-cC 7chk-a1-m49-cC_7chk-a1-m50-cC 7chk-a1-m4-cC_7chk-a1-m5-cC 7chk-a1-m51-cC_7chk-a1-m52-cC 7chk-a1-m51-cC_7chk-a1-m55-cC 7chk-a1-m52-cC_7chk-a1-m53-cC 7chk-a1-m53-cC_7chk-a1-m54-cC 7chk-a1-m54-cC_7chk-a1-m55-cC 7chk-a1-m56-cC_7chk-a1-m57-cC 7chk-a1-m56-cC_7chk-a1-m60-cC 7chk-a1-m57-cC_7chk-a1-m58-cC 7chk-a1-m58-cC_7chk-a1-m59-cC 7chk-a1-m59-cC_7chk-a1-m60-cC 7chk-a1-m6-cC_7chk-a1-m7-cC 7chk-a1-m7-cC_7chk-a1-m8-cC PDFTKIIWPTVVERNFSNPQSEITTTLQELYGDTFETVSICPPQSYGGELLKGKIFFSSTPEFTREDLVEGKILASFKLDEVLSGLGMGAMLMTQIMSGHATIRVSAKVMLSKFCSFALKLVYDELMQLNSDTTDFGKISVLPGAIFSTQEEEFSFDFELFSPGVHLKFDNNKLLGKVHLAALSAPNLTENMPESFSCTFNFSIVDVKTTFYNIG PDFTKIIWPTVVERNFSNPQSEITTTLQELYGDTFETVSICPPQSYGGELLKGKIFFSSTPEFTREDLVEGKILASFKLDEVLSGLGMGAMLMTQIMSGHATIRVSAKVMLSKFCSFALKLVYDELMQLNSDTTDFGKISVLPGAIFSTQEEEFSFDFELFSPGVHLKFDNNKLLGKVHLAALSAPNLTENMPESFSCTFNFSIVDVKTTFYNIG 7chl-a2-m1-cI_7chl-a2-m1-cK Crystal structure of hybrid Arabinose isomerase AI-10 Q5KYP7 Q5KYP7 3.4 X-RAY DIFFRACTION 146 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 498 498 7chl-a1-m1-cA_7chl-a1-m1-cD 7chl-a1-m1-cB_7chl-a1-m1-cC 7chl-a1-m1-cB_7chl-a1-m1-cE 7chl-a1-m1-cE_7chl-a1-m1-cC 7chl-a1-m1-cF_7chl-a1-m1-cA 7chl-a1-m1-cF_7chl-a1-m1-cD 7chl-a2-m1-cG_7chl-a2-m1-cJ 7chl-a2-m1-cH_7chl-a2-m1-cI 7chl-a2-m1-cH_7chl-a2-m1-cK 7chl-a2-m1-cL_7chl-a2-m1-cG 7chl-a2-m1-cL_7chl-a2-m1-cJ 7cxo-a1-m1-cA_7cxo-a1-m1-cB 7cxo-a1-m1-cC_7cxo-a1-m1-cA 7cxo-a1-m1-cC_7cxo-a1-m1-cB 7cxo-a1-m1-cD_7cxo-a1-m1-cE 7cxo-a1-m1-cD_7cxo-a1-m1-cF 7cxo-a1-m1-cF_7cxo-a1-m1-cE MKMPAYEFWFVVGSQHLYGDEALAQVEAHAREMVPALQAAVGNAHVLRWKGVLKDADEIRRLCLEASADDVCAGVIAWMHTFSPAKMWIRGLLALRKPLLHLHTQFNRDIPWDTIDMDFMNLNQSAHGDREYGFIGARMGVARKVVVGHWEDPEVRERLAKWMRTAVAFAESRNLKVARFGDNMREVAVTEGDKVGAQIQFGWSVNGYGIGDLVQYIRDVSEQKVNELLDEYEELYDIVPAGRQEGPVRESIREQARIELGLKAFLQDGNFTAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR MKMPAYEFWFVVGSQHLYGDEALAQVEAHAREMVPALQAAVGNAHVLRWKGVLKDADEIRRLCLEASADDVCAGVIAWMHTFSPAKMWIRGLLALRKPLLHLHTQFNRDIPWDTIDMDFMNLNQSAHGDREYGFIGARMGVARKVVVGHWEDPEVRERLAKWMRTAVAFAESRNLKVARFGDNMREVAVTEGDKVGAQIQFGWSVNGYGIGDLVQYIRDVSEQKVNELLDEYEELYDIVPAGRQEGPVRESIREQARIELGLKAFLQDGNFTAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR 7chl-a2-m1-cL_7chl-a2-m1-cK Crystal structure of hybrid Arabinose isomerase AI-10 Q5KYP7 Q5KYP7 3.4 X-RAY DIFFRACTION 74 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 496 498 7chl-a1-m1-cB_7chl-a1-m1-cA 7chl-a1-m1-cC_7chl-a1-m1-cD 7chl-a1-m1-cF_7chl-a1-m1-cE 7chl-a2-m1-cH_7chl-a2-m1-cG 7chl-a2-m1-cI_7chl-a2-m1-cJ 7cxo-a1-m1-cA_7cxo-a1-m1-cE 7cxo-a1-m1-cC_7cxo-a1-m1-cF 7cxo-a1-m1-cD_7cxo-a1-m1-cB KMPAYEFWFVVGSQHLYGDEALAQVEAHAREMVPALQAAVGNAHVLRWKGVLKDADEIRRLCLEASADDVCAGVIAWMHTFSPAKMWIRGLLALRKPLLHLHTQFNRDIPWDTIDMDFMNLNQSAHGDREYGFIGARMGVARKVVVGHWEDPEVRERLAKWMRTAVAFAESRNLKVARFGDNMREVAVTEGDKVGAQIQFGWSVNGYGIGDLVQYIRDVSEQKVNELLDEYEELYDIVPAGRQEGPVRESIREQARIELGLKAFLQDGNFTAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRG MKMPAYEFWFVVGSQHLYGDEALAQVEAHAREMVPALQAAVGNAHVLRWKGVLKDADEIRRLCLEASADDVCAGVIAWMHTFSPAKMWIRGLLALRKPLLHLHTQFNRDIPWDTIDMDFMNLNQSAHGDREYGFIGARMGVARKVVVGHWEDPEVRERLAKWMRTAVAFAESRNLKVARFGDNMREVAVTEGDKVGAQIQFGWSVNGYGIGDLVQYIRDVSEQKVNELLDEYEELYDIVPAGRQEGPVRESIREQARIELGLKAFLQDGNFTAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR 7chu-a1-m1-cB_7chu-a1-m1-cC Geobacillus virus E2 - ORF18 A6M964 A6M964 2.008 X-RAY DIFFRACTION 300 1.0 447909 (Geobacillus virus E2) 447909 (Geobacillus virus E2) 517 517 7chu-a1-m1-cA_7chu-a1-m1-cB 7chu-a1-m1-cA_7chu-a1-m1-cC KTRWLNPVATFADIATTYPNPQHGDTVMVTDDGENSGSVYRYENGQWNLTQKHNDLAIADVQNKIGILKTIAVNVKEFGTKGDGVTDDTVAIQNAINSIVSSLNNASGQGGIVYFPTGTYKVTSKITINKSNIRLVGAGMSATCIKSTITNGNPVFEFVPSDTAQRLCFVGIEKMCIDGQNNDCIGVSLKKISLGRFLDFGVRYCANHGLYIEEVWDTNIIGLYNTDNGDLARNKHGVYIYNGTSDNSNRLLFIACHFEANNGSHVYFDSTGNRRRNGNNQFIGCKFHGKDPSALPGNNPNTPHMYLDGDVTYVMNCYFYQCNNDFIKVKGDRNKIIGCDFYNCTGYFVNLTGTSMLNVIDGCSGQYFGSGLAPFNNPTNENFFCSDFIGENRKLGWNRSYILDQGGRLALFQNVYRSGANFIQPKGTNASFGIQIADNTVDGVAFVGANASGTDNSNVTLTTLLNVTLDGIKPKVPITFTPVTASSTLNNSLFVDSADNKLKFKDNTGTVKIVTLT KTRWLNPVATFADIATTYPNPQHGDTVMVTDDGENSGSVYRYENGQWNLTQKHNDLAIADVQNKIGILKTIAVNVKEFGTKGDGVTDDTVAIQNAINSIVSSLNNASGQGGIVYFPTGTYKVTSKITINKSNIRLVGAGMSATCIKSTITNGNPVFEFVPSDTAQRLCFVGIEKMCIDGQNNDCIGVSLKKISLGRFLDFGVRYCANHGLYIEEVWDTNIIGLYNTDNGDLARNKHGVYIYNGTSDNSNRLLFIACHFEANNGSHVYFDSTGNRRRNGNNQFIGCKFHGKDPSALPGNNPNTPHMYLDGDVTYVMNCYFYQCNNDFIKVKGDRNKIIGCDFYNCTGYFVNLTGTSMLNVIDGCSGQYFGSGLAPFNNPTNENFFCSDFIGENRKLGWNRSYILDQGGRLALFQNVYRSGANFIQPKGTNASFGIQIADNTVDGVAFVGANASGTDNSNVTLTTLLNVTLDGIKPKVPITFTPVTASSTLNNSLFVDSADNKLKFKDNTGTVKIVTLT 7ci1-a1-m1-cB_7ci1-a1-m1-cA Crystal structure of AcrVA2 2.3 X-RAY DIFFRACTION 38 1.0 386891 (Moraxella bovoculi) 386891 (Moraxella bovoculi) 295 296 SMHHTIARMNAFNKAFANAKDCYKKMQAWHLLNKPKHAFFPMQNTPALDNGLAALYELRGGKEDAHILSILSRLYLYGAWRNTLGIYQLDEEIIKDCKELPDDTPTSIFLNLPDWCVYVDISSAQIATFDDGVAKHIKGFWAIYDIVEMNGINHDVLDFVVDTDTDDNVYVPQPFILSSGQSVAEVLDYGDTSNTLIKGLLPYLLWLCVAEPDITYKGLPVSREELTRPKHINKKTGAFVTPSEPFIYQIGERLGSEVRRYQSIIPHIRRGHWHGYWQGQAKEFRVRWQPAVFVN SMHHTIARMNAFNKAFANAKDCYKKMQAWHLLNKPKHAFFPMQNTPALDNGLAALYELRGGKEDAHILSILSRLYLYGAWRNTLGIYQLDEEIIKDCKELPDDTPTSIFLNLPDWCVYVDISSAQIATFDDGVAKHIKGFWAIYDIVEMNGINHDVLDFVVDTDTDDNVYVPQPFILSSGQSVAEVLDYGDTSNTLIKGLLPYLLWLCVAEPDITYKGLPVSREELTRPKHINKKTGAFVTPSEPFIYQIGERLGSEVRRYQSIIDPHIRRGHWHGYWQGQAKEFRVRWQPAVFVN 7cii-a1-m1-cA_7cii-a1-m1-cB Crystal structure of L-methionine decarboxylase from Streptomyces sp.590 in complexed with L- methionine methyl ester (external aldimine form). A0A0G4DBU7 A0A0G4DBU7 1.51 X-RAY DIFFRACTION 340 0.994 1510823 (Streptomyces sp. 590 KI-2014) 1510823 (Streptomyces sp. 590 KI-2014) 518 521 7cif-a1-m1-cB_7cif-a1-m1-cA 7cig-a1-m1-cA_7cig-a1-m1-cB 7cij-a1-m1-cA_7cij-a1-m1-cB 7cim-a1-m1-cB_7cim-a1-m1-cA ELDGGDFALPEGGLDDDRRLRALDAVDEYLTRKRKHLVGYQATQDMQGTALDLARFMPNNINNLGDPFQSGGYKPNTKVVERAVLDYYAKLWHAERPHDPADPESYWGYMLSMGSTEGNMYALWNARDYLSGKALIQPPRNPNAHHPVAFYSEDTHYSFAKAVAVLGVETFHAVGLEKYADECPLVDPVTGLRTWPTEVPSRPGPSGLSWDGPGEIDVDALAVLVEFFAAKGHPVFVNLNLGSTFKGAHDDVRAVCERLLPIFERHGLVQREVVYGSCPQTGRPLVDVRRGFWIHVDGALGAGYAPFLRLAAEDPEGYGWTPEAELPEFDFGLRLPTAGHGEVDMVSSIAMSGHKWAGAPWPCGIYMTKVKYQISPPSQPDYIGAPDTTFAGSRNGFSPLILWDHLSRYSYRDQVERIREAQELAAYLERRLTAMERELGVELWPARTPGAVTVRFRKPSAELVAKWSLSSQDVLMVPGDETTRRSYVHVFVMPSVDRAKLDALLAELAEDPVILGAP AVDPGPELDGGDFALPEGGLDDDRRLRALDAVDEYLTRKRKHLVGYQATQDMQGTALDLARFMPNNINNLGDPFQSGGYKPNTKVVERAVLDYYAKLWHAERPHDPADPESYWGYMLSMGSTEGNMYALWNARDYLSGKALIQPRNPNAHHPVAFYSEDTHYSFAKAVAVLGVETFHAVGLEKYADECPLVDPVTGLRTWPTEVPSRPGPSGLSWDGPGEIDVDALAVLVEFFAAKGHPVFVNLNLGSTFKGAHDDVRAVCERLLPIFERHGLVQREVVYGSCPQTGRPLVDVRRGFWIHVDGALGAGYAPFLRLAAEDPEGYGWTPEAELPEFDFGLRLPTAGHGEVDMVSSIAMSGHKWAGAPWPCGIYMTKVKYQISPPSQPDYIGAPDTTFAGSRNGFSPLILWDHLSRYSYRDQVERIREAQELAAYLERRLTAMERELGVELWPARTPGAVTVRFRKPSAELVAKWSLSSQDVLMVPGDETTRRSYVHVFVMPSVDRAKLDALLAELAEDPVILG 7cik-a1-m1-cA_7cik-a1-m1-cB Structure of the 58-213 fragment of FliF O67241 O67241 2.29 X-RAY DIFFRACTION 96 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 156 156 PDDLNAVVTELDKEGVKYKISPDGRTIYVPENVARELRLKLAAKGVPRKGIVGYELFDKSGIVLSRFQQLVNFKRAIEGELAKTIMSLDCVEFARVHIVLPEKSLFIREEEEAKASVFLKLKPGCELTPEQVKAIRNLVSGSVENLKPSQVVVVDD PDDLNAVVTELDKEGVKYKISPDGRTIYVPENVARELRLKLAAKGVPRKGIVGYELFDKSGIVLSRFQQLVNFKRAIEGELAKTIMSLDCVEFARVHIVLPEKSLFIREEEEAKASVFLKLKPGCELTPEQVKAIRNLVSGSVENLKPSQVVVVDD 7cj3-a1-m1-cA_7cj3-a1-m1-cB Crystal structure of the transmembrane domain of Salpingoeca rosetta rhodopsin phosphodiesterase F2TZN0 F2TZN0 2.6 X-RAY DIFFRACTION 69 1.0 946362 (Salpingoeca rosetta) 946362 (Salpingoeca rosetta) 262 264 7d7q-a1-m1-cA_7d7q-a1-m1-cB TKEVQWQGIFMIIVWLCVMGSLIFFANPEASRRVFAKFSHLQSFYGATSVAFAFATGLDILAYVNAVSDEKRVLSGILAYVDGVACISYLSMATLNLYFLVDSTQGNPVWLMRYAEWIITCPTLLYWCGLASRADRSSVSDIATADALLLAGGALSSILPSWPAFFVFAGSFATYIYVMLHMWGMFGKAMQPDFQPPPPLPRHALHLLRCEIVMSWSIFPLVEFLRRQGYIDFQVGEAMNCVADYAAKVGLAMIMVNCNLEQ ASTKEVQWQGIFMIIVWLCVMGSLIFFANPEASRRVFAKFSHLQSFYGATSVAFAFATGLDILAYVNAVSDEKRVLSGILAYVDGVACISYLSMATLNLYFLVDSTQGNPVWLMRYAEWIITCPTLLYWCGLASRADRSSVSDIATADALLLAGGALSSILPSWPAFFVFAGSFATYIYVMLHMWGMFGKAMQPDFQPPPPLPRHALHLLRCEIVMSWSIFPLVEFLRRQGYIDFQVGEAMNCVADYAAKVGLAMIMVNCNLEQ 7cj9-a4-m1-cG_7cj9-a4-m1-cH Crystal structure of N-terminal His-tagged D-allulose 3-epimerase from Methylomonas sp. with additional C-terminal residues A0A172U6X0 A0A172U6X0 1.58 X-RAY DIFFRACTION 89 1.0 1727196 (Methylomonas sp. DH-1) 1727196 (Methylomonas sp. DH-1) 286 288 7cj4-a1-m1-cA_7cj4-a1-m1-cB 7cj5-a1-m1-cB_7cj5-a1-m1-cA 7cj6-a1-m1-cA_7cj6-a1-m1-cB 7cj7-a1-m1-cA_7cj7-a1-m1-cB 7cj8-a1-m1-cA_7cj8-a1-m1-cB 7cj8-a2-m1-cC_7cj8-a2-m1-cD 7cj8-a3-m1-cE_7cj8-a3-m1-cF 7cj9-a1-m1-cA_7cj9-a1-m1-cB 7cj9-a2-m1-cC_7cj9-a2-m1-cD 7cj9-a3-m1-cF_7cj9-a3-m1-cE MAFPKRLEIGGHALVWSGDWSAAGARKAIAGAARAGFDYIEIALLDPWQIDVALTKDLLQEYNLRAHASLGLSAATDVTSTDPAIVAKGDELLRKATDVLYALGGSELCGVIYCALGKYPGPASRENRANSVAAMQRLADYAADKGINIDLEVVNRYETNIMNTGLEGLAFLDEVNRPNAFLHLDTYHMNIEENGMAKSVLAAGDRLGYVHIGESHRGYLGTGNVDFASFFAALKQIDYRGPITFESFSSEIVDPKLSNTLCVWRNLWHDSDDLAGKALEFIKQRL SMAFPKRLEIGGHALVWSGDWSAAGARKAIAGAARAGFDYIEIALLDPWQIDVALTKDLLQEYNLRAHASLGLSAATDVTSTDPAIVAKGDELLRKATDVLYALGGSELCGVIYCALGKYPGPASRENRANSVAAMQRLADYAADKGINIDLEVVNRYETNIMNTGLEGLAFLDEVNRPNAFLHLDTYHMNIEENGMAKSVLAAGDRLGYVHIGESHRGYLGTGNVDFASFFAALKQIDYRGPITFESFSSEIVDPKLSNTLCVWRNLWHDSDDLAGKALEFIKQRLT 7cjn-a1-m1-cB_7cjn-a1-m1-cD grass carp interleukin-2 A0A4D6NYT7 A0A4D6NYT7 2.66 X-RAY DIFFRACTION 41 1.0 7959 (Ctenopharyngodon idella) 7959 (Ctenopharyngodon idella) 115 115 RSIIAQDMFKTAFKGFKDGISAKCPKDTRLYSPDIQEDCLSSALKCTIAELKVLEVECNVTENDDFMMIYEGLNKEKWNTSSSSPRNCTCELYNQTHVKEFVENMERLVQLLYTR RSIIAQDMFKTAFKGFKDGISAKCPKDTRLYSPDIQEDCLSSALKCTIAELKVLEVECNVTENDDFMMIYEGLNKEKWNTSSSSPRNCTCELYNQTHVKEFVENMERLVQLLYTR 7cjy-a1-m1-cA_7cjy-a1-m1-cB Drimenol synthase from Persicaria hydropiper W0FFD7 W0FFD7 2.2 X-RAY DIFFRACTION 156 1.0 46901 (Persicaria hydropiper) 46901 (Persicaria hydropiper) 540 540 GIASFHPSPWGDYFLKYVPCDQVTQAKMEDEVKKVEEDVKKELRKLAKAVGKPLELLNFIDVVERLGVGYRLEQEIEDLVQAIFDNDKFGVDEFDLYHTSLWFRLLRQHGFHVSCDVFGKFKGRNGRFKDSLASDVKGILGLYEASHVRTHGDDTLDEALVFTTTHLKAVVTNQPNHPLVPQVTHALMQPYHKGMPRLESRHFIAFYEKDPYHDKTLLKFGKLDFNLVQALHKKELKDLSRWWKDLDMHAKMPFPSRDRVPEGYFWTLGPFYEPQFALCRKFFLQVFKVTSIVDDIYDAYGTIDELTAFTKAAERWDRSCLDELPEYMKVSYASLIDTFEEFERDLAPQGRSWSVKYAREEMIQMCRVYYQEAKWCHEKYSPTCDEYLEKASIVSFGYNLGTVVCFLGMGDVATKEAFEWARGNPKVVRAAGIIGRLMDDIGSHHFEQGRDHVPSAVECYIRQHGVDEVTAQRELGKRVESSWKDINEMMLKPYMMPKPLLTRILNECRIVDVIYKGEYTFSNTTMKKNISHILTDPIPI GIASFHPSPWGDYFLKYVPCDQVTQAKMEDEVKKVEEDVKKELRKLAKAVGKPLELLNFIDVVERLGVGYRLEQEIEDLVQAIFDNDKFGVDEFDLYHTSLWFRLLRQHGFHVSCDVFGKFKGRNGRFKDSLASDVKGILGLYEASHVRTHGDDTLDEALVFTTTHLKAVVTNQPNHPLVPQVTHALMQPYHKGMPRLESRHFIAFYEKDPYHDKTLLKFGKLDFNLVQALHKKELKDLSRWWKDLDMHAKMPFPSRDRVPEGYFWTLGPFYEPQFALCRKFFLQVFKVTSIVDDIYDAYGTIDELTAFTKAAERWDRSCLDELPEYMKVSYASLIDTFEEFERDLAPQGRSWSVKYAREEMIQMCRVYYQEAKWCHEKYSPTCDEYLEKASIVSFGYNLGTVVCFLGMGDVATKEAFEWARGNPKVVRAAGIIGRLMDDIGSHHFEQGRDHVPSAVECYIRQHGVDEVTAQRELGKRVESSWKDINEMMLKPYMMPKPLLTRILNECRIVDVIYKGEYTFSNTTMKKNISHILTDPIPI 7ck4-a1-m2-cE_7ck4-a1-m4-cE Structural and functional analysis of small heat shock protein from Synechococcus phage S-ShM2 E3SJI7 E3SJI7 7 X-RAY DIFFRACTION 28 1.0 445683 (Synechococcus phage S-ShM2) 445683 (Synechococcus phage S-ShM2) 102 102 7ck4-a1-m1-cA_7ck4-a1-m3-cA 7ck4-a1-m1-cA_7ck4-a1-m4-cA 7ck4-a1-m1-cE_7ck4-a1-m3-cE 7ck4-a1-m1-cE_7ck4-a1-m4-cE 7ck4-a1-m2-cA_7ck4-a1-m3-cA 7ck4-a1-m2-cA_7ck4-a1-m4-cA 7ck4-a1-m2-cE_7ck4-a1-m3-cE AYPPYNLVKESNVKWRIEMALAGWSPDAVEVSTESNVLLIKSKAPHQHTDPDHEYIHRGVSTRTFNLSDDVEIGKVSFQDGLLVIDLQKIIPDHQKLKVYEI AYPPYNLVKESNVKWRIEMALAGWSPDAVEVSTESNVLLIKSKAPHQHTDPDHEYIHRGVSTRTFNLSDDVEIGKVSFQDGLLVIDLQKIIPDHQKLKVYEI 7ck4-a1-m4-cB_7ck4-a1-m4-cA Structural and functional analysis of small heat shock protein from Synechococcus phage S-ShM2 E3SJI7 E3SJI7 7 X-RAY DIFFRACTION 59 1.0 445683 (Synechococcus phage S-ShM2) 445683 (Synechococcus phage S-ShM2) 92 106 7ck4-a1-m1-cB_7ck4-a1-m1-cA 7ck4-a1-m2-cB_7ck4-a1-m2-cA 7ck4-a1-m3-cB_7ck4-a1-m3-cA YPPYNLVKESNVKWRIEMALAGWSPDAVEVSTESNVLLIKSKAPHQHTDPDHEYIHRGFARGFNLSDDVEIGKVSFQDGLLVIDLQKIIPDH AYPPYNLVKESNVKWRIEMALAGWSPDAVEVSTESNVLLIKSKAPHQHTDPDHEYIHRGVSTRTFARGFNLSDDVEIGKVSFQDGLLVIDLQKIIPDHQKLKVYEI 7ckc-a1-m1-cBi_7ckc-a1-m1-cCz Simplified Alpha-Carboxysome, T=4 P45689 P45689 2.9 ELECTRON MICROSCOPY 23 1.0 555778 (Halothiobacillus neapolitanus c2) 555778 (Halothiobacillus neapolitanus c2) 89 89 7ckb-a1-m1-cB0_7ckb-a1-m1-cCb 7ckb-a1-m1-cB1_7ckb-a1-m1-cCc 7ckb-a1-m1-cB2_7ckb-a1-m1-cCd 7ckb-a1-m1-cB3_7ckb-a1-m1-cCe 7ckb-a1-m1-cB4_7ckb-a1-m1-cCa 7ckb-a1-m1-cB5_7ckb-a1-m1-cC2 7ckb-a1-m1-cB6_7ckb-a1-m1-cC3 7ckb-a1-m1-cB7_7ckb-a1-m1-cC4 7ckb-a1-m1-cB8_7ckb-a1-m1-cC0 7ckb-a1-m1-cB9_7ckb-a1-m1-cC1 7ckb-a1-m1-cBA_7ckb-a1-m1-cCB 7ckb-a1-m1-cBa_7ckb-a1-m1-cCN 7ckb-a1-m1-cBB_7ckb-a1-m1-cCC 7ckb-a1-m1-cBb_7ckb-a1-m1-cCO 7ckb-a1-m1-cBC_7ckb-a1-m1-cCD 7ckb-a1-m1-cBc_7ckb-a1-m1-cCK 7ckb-a1-m1-cBD_7ckb-a1-m1-cCE 7ckb-a1-m1-cBd_7ckb-a1-m1-cCL 7ckb-a1-m1-cBE_7ckb-a1-m1-cCA 7ckb-a1-m1-cBe_7ckb-a1-m1-cCM 7ckb-a1-m1-cBf_7ckb-a1-m1-cCH 7ckb-a1-m1-cBF_7ckb-a1-m1-cCX 7ckb-a1-m1-cBg_7ckb-a1-m1-cCI 7ckb-a1-m1-cBG_7ckb-a1-m1-cCY 7ckb-a1-m1-cBh_7ckb-a1-m1-cCJ 7ckb-a1-m1-cBH_7ckb-a1-m1-cCZ 7ckb-a1-m1-cBi_7ckb-a1-m1-cCF 7ckb-a1-m1-cBI_7ckb-a1-m1-cCV 7ckb-a1-m1-cBj_7ckb-a1-m1-cCG 7ckb-a1-m1-cBJ_7ckb-a1-m1-cCW 7ckb-a1-m1-cBk_7ckb-a1-m1-cC6 7ckb-a1-m1-cBK_7ckb-a1-m1-cCn 7ckb-a1-m1-cBl_7ckb-a1-m1-cC7 7ckb-a1-m1-cBL_7ckb-a1-m1-cCo 7ckb-a1-m1-cBm_7ckb-a1-m1-cC8 7ckb-a1-m1-cBM_7ckb-a1-m1-cCk 7ckb-a1-m1-cBn_7ckb-a1-m1-cC9 7ckb-a1-m1-cBN_7ckb-a1-m1-cCl 7ckb-a1-m1-cBo_7ckb-a1-m1-cC5 7ckb-a1-m1-cBO_7ckb-a1-m1-cCm 7ckb-a1-m1-cBP_7ckb-a1-m1-cCT 7ckb-a1-m1-cBp_7ckb-a1-m1-cCy 7ckb-a1-m1-cBQ_7ckb-a1-m1-cCP 7ckb-a1-m1-cBq_7ckb-a1-m1-cCz 7ckb-a1-m1-cBR_7ckb-a1-m1-cCQ 7ckb-a1-m1-cBr_7ckb-a1-m1-cCv 7ckb-a1-m1-cBS_7ckb-a1-m1-cCR 7ckb-a1-m1-cBs_7ckb-a1-m1-cCw 7ckb-a1-m1-cBT_7ckb-a1-m1-cCS 7ckb-a1-m1-cBt_7ckb-a1-m1-cCx 7ckb-a1-m1-cBv_7ckb-a1-m1-cCj 7ckb-a1-m1-cBV_7ckb-a1-m1-cCt 7ckb-a1-m1-cBw_7ckb-a1-m1-cCf 7ckb-a1-m1-cBW_7ckb-a1-m1-cCp 7ckb-a1-m1-cBx_7ckb-a1-m1-cCg 7ckb-a1-m1-cBX_7ckb-a1-m1-cCq 7ckb-a1-m1-cBy_7ckb-a1-m1-cCh 7ckb-a1-m1-cBY_7ckb-a1-m1-cCr 7ckb-a1-m1-cBz_7ckb-a1-m1-cCi 7ckb-a1-m1-cBZ_7ckb-a1-m1-cCs 7ckc-a1-m1-cB0_7ckc-a1-m1-cCS 7ckc-a1-m1-cB1_7ckc-a1-m1-cCc 7ckc-a1-m1-cB2_7ckc-a1-m1-cCV 7ckc-a1-m1-cB3_7ckc-a1-m1-cCJ 7ckc-a1-m1-cB4_7ckc-a1-m1-cC6 7ckc-a1-m1-cB5_7ckc-a1-m1-cCI 7ckc-a1-m1-cB6_7ckc-a1-m1-cCh 7ckc-a1-m1-cB7_7ckc-a1-m1-cCk 7ckc-a1-m1-cB8_7ckc-a1-m1-cCT 7ckc-a1-m1-cB9_7ckc-a1-m1-cC1 7ckc-a1-m1-cBa_7ckc-a1-m1-cC3 7ckc-a1-m1-cBA_7ckc-a1-m1-cCY 7ckc-a1-m1-cBb_7ckc-a1-m1-cCR 7ckc-a1-m1-cBB_7ckc-a1-m1-cCr 7ckc-a1-m1-cBc_7ckc-a1-m1-cCK 7ckc-a1-m1-cBC_7ckc-a1-m1-cCv 7ckc-a1-m1-cBD_7ckc-a1-m1-cCj 7ckc-a1-m1-cBd_7ckc-a1-m1-cCt 7ckc-a1-m1-cBE_7ckc-a1-m1-cCG 7ckc-a1-m1-cBe_7ckc-a1-m1-cCW 7ckc-a1-m1-cBf_7ckc-a1-m1-cC8 7ckc-a1-m1-cBF_7ckc-a1-m1-cCi 7ckc-a1-m1-cBG_7ckc-a1-m1-cC7 7ckc-a1-m1-cBg_7ckc-a1-m1-cCH 7ckc-a1-m1-cBH_7ckc-a1-m1-cC0 7ckc-a1-m1-cBh_7ckc-a1-m1-cCA 7ckc-a1-m1-cBI_7ckc-a1-m1-cCZ 7ckc-a1-m1-cBJ_7ckc-a1-m1-cCB 7ckc-a1-m1-cBj_7ckc-a1-m1-cCl 7ckc-a1-m1-cBK_7ckc-a1-m1-cCn 7ckc-a1-m1-cBk_7ckc-a1-m1-cCy 7ckc-a1-m1-cBl_7ckc-a1-m1-cCM 7ckc-a1-m1-cBL_7ckc-a1-m1-cCx 7ckc-a1-m1-cBm_7ckc-a1-m1-cCP 7ckc-a1-m1-cBM_7ckc-a1-m1-cCp 7ckc-a1-m1-cBn_7ckc-a1-m1-cC9 7ckc-a1-m1-cBN_7ckc-a1-m1-cCe 7ckc-a1-m1-cBo_7ckc-a1-m1-cCg 7ckc-a1-m1-cBO_7ckc-a1-m1-cCQ 7ckc-a1-m1-cBp_7ckc-a1-m1-cCD 7ckc-a1-m1-cBP_7ckc-a1-m1-cCd 7ckc-a1-m1-cBQ_7ckc-a1-m1-cC2 7ckc-a1-m1-cBq_7ckc-a1-m1-cCX 7ckc-a1-m1-cBR_7ckc-a1-m1-cC5 7ckc-a1-m1-cBr_7ckc-a1-m1-cCa 7ckc-a1-m1-cBs_7ckc-a1-m1-cCO 7ckc-a1-m1-cBS_7ckc-a1-m1-cCo 7ckc-a1-m1-cBT_7ckc-a1-m1-cCL 7ckc-a1-m1-cBt_7ckc-a1-m1-cCw 7ckc-a1-m1-cBv_7ckc-a1-m1-cCN 7ckc-a1-m1-cBV_7ckc-a1-m1-cCs 7ckc-a1-m1-cBW_7ckc-a1-m1-cCC 7ckc-a1-m1-cBw_7ckc-a1-m1-cCm 7ckc-a1-m1-cBx_7ckc-a1-m1-cCf 7ckc-a1-m1-cBX_7ckc-a1-m1-cCF 7ckc-a1-m1-cBY_7ckc-a1-m1-cC4 7ckc-a1-m1-cBy_7ckc-a1-m1-cCE 7ckc-a1-m1-cBZ_7ckc-a1-m1-cCb 7ckc-a1-m1-cBz_7ckc-a1-m1-cCq 7ckc-a1-m1-cD0_7ckc-a1-m1-cD9 7ckc-a1-m1-cD0_7ckc-a1-m1-cDR 7ckc-a1-m1-cD1_7ckc-a1-m1-cDb 7ckc-a1-m1-cD1_7ckc-a1-m1-cDQ 7ckc-a1-m1-cD2_7ckc-a1-m1-cDa 7ckc-a1-m1-cD2_7ckc-a1-m1-cDZ 7ckc-a1-m1-cD3_7ckc-a1-m1-cDI 7ckc-a1-m1-cD3_7ckc-a1-m1-cDY 7ckc-a1-m1-cD4_7ckc-a1-m1-cD5 7ckc-a1-m1-cD4_7ckc-a1-m1-cDH 7ckc-a1-m1-cD5_7ckc-a1-m1-cDH 7ckc-a1-m1-cD6_7ckc-a1-m1-cDg 7ckc-a1-m1-cD6_7ckc-a1-m1-cDG 7ckc-a1-m1-cD7_7ckc-a1-m1-cDf 7ckc-a1-m1-cD7_7ckc-a1-m1-cDo 7ckc-a1-m1-cD8_7ckc-a1-m1-cDn 7ckc-a1-m1-cD8_7ckc-a1-m1-cDS 7ckc-a1-m1-cD9_7ckc-a1-m1-cDR 7ckc-a1-m1-cDA_7ckc-a1-m1-cDJ 7ckc-a1-m1-cDA_7ckc-a1-m1-cDX 7ckc-a1-m1-cDB_7ckc-a1-m1-cDq 7ckc-a1-m1-cDB_7ckc-a1-m1-cDW 7ckc-a1-m1-cDC_7ckc-a1-m1-cDp 7ckc-a1-m1-cDC_7ckc-a1-m1-cDz 7ckc-a1-m1-cDD_7ckc-a1-m1-cDi 7ckc-a1-m1-cDd_7ckc-a1-m1-cDs 7ckc-a1-m1-cDD_7ckc-a1-m1-cDy 7ckc-a1-m1-cDE_7ckc-a1-m1-cDF 7ckc-a1-m1-cDE_7ckc-a1-m1-cDh 7ckc-a1-m1-cDe_7ckc-a1-m1-cDr 7ckc-a1-m1-cDF_7ckc-a1-m1-cDh 7ckc-a1-m1-cDf_7ckc-a1-m1-cDo 7ckc-a1-m1-cDG_7ckc-a1-m1-cDg 7ckc-a1-m1-cDi_7ckc-a1-m1-cDy 7ckc-a1-m1-cDI_7ckc-a1-m1-cDY 7ckc-a1-m1-cDj_7ckc-a1-m1-cDk 7ckc-a1-m1-cDj_7ckc-a1-m1-cDx 7ckc-a1-m1-cDJ_7ckc-a1-m1-cDX 7ckc-a1-m1-cDK_7ckc-a1-m1-cDm 7ckc-a1-m1-cDK_7ckc-a1-m1-cDT 7ckc-a1-m1-cDk_7ckc-a1-m1-cDx 7ckc-a1-m1-cDL_7ckc-a1-m1-cDl 7ckc-a1-m1-cDl_7ckc-a1-m1-cDw 7ckc-a1-m1-cDL_7ckc-a1-m1-cDw 7ckc-a1-m1-cDM_7ckc-a1-m1-cDt 7ckc-a1-m1-cDM_7ckc-a1-m1-cDv 7ckc-a1-m1-cDN_7ckc-a1-m1-cDd 7ckc-a1-m1-cDN_7ckc-a1-m1-cDs 7ckc-a1-m1-cDO_7ckc-a1-m1-cDc 7ckc-a1-m1-cDO_7ckc-a1-m1-cDP 7ckc-a1-m1-cDP_7ckc-a1-m1-cDc 7ckc-a1-m1-cDp_7ckc-a1-m1-cDz 7ckc-a1-m1-cDQ_7ckc-a1-m1-cDb 7ckc-a1-m1-cDS_7ckc-a1-m1-cDn 7ckc-a1-m1-cDT_7ckc-a1-m1-cDm 7ckc-a1-m1-cDt_7ckc-a1-m1-cDv 7ckc-a1-m1-cDV_7ckc-a1-m1-cDe 7ckc-a1-m1-cDV_7ckc-a1-m1-cDr 7ckc-a1-m1-cDW_7ckc-a1-m1-cDq 7ckc-a1-m1-cDZ_7ckc-a1-m1-cDa GIALGMIETRGLVPAIEAADAMTKAAEVRLVGRQFVGGGYVTVLVRGETGAVNAAVRAGADACERVGDGLVAAHIIARVHSEVENILPK GIALGMIETRGLVPAIEAADAMTKAAEVRLVGRQFVGGGYVTVLVRGETGAVNAAVRAGADACERVGDGLVAAHIIARVHSEVENILPK 7ckf-a1-m1-cA_7ckf-a1-m1-cB The N-terminus of interferon-inducible antiviral protein-dimer Q96PP8 Q96PP8 2.284 X-RAY DIFFRACTION 113 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 256 256 SDPMCLIENFNEQLKVNQEALEILSAITQPVVVVAIVGLYRTGKSYLMNKLAGKNKGFSVASTVQSHTKGIWIWCVPHPNWPNHTLVLLDTEGLGDVEKADNKNDIQIFALALLLSSTFVYNTVNKIDQGAIDLLHNVTELTDLLKAPDLVWTLRDFCLGLEIDGQLVTPDEYLENSLRPFPKKKCFIFDLPAHQKKLAQLETLPDDELEPEFVQQVTEFCSYIFSHSMTKTLPGGIMVNGSRLKNLVLTYVNAIS HMSDPMCLIENFNEQLKVNQEALEILSAITQPVVVVAIVGLYRTGKSYLMNKLAGKNKGFSVASTVQSHTKGIWIWCVPHPNWPNHTLVLLDTEGLGDVEKADNKNDIQIFALALLLSSTFVYNTVNKIDQGAIDLLHNVTELTDLLPDLVWTLRDFCLGLEIDGQLVTPDEYLENSLRPFPKKKCFIFDLPAHQKKLAQLETLPDDELEPEFVQQVTEFCSYIFSHSMTKTLPGGIMVNGSRLKNLVLTYVNAIS 7cl3-a1-m1-cB_7cl3-a1-m1-cA The crystal structure of KanJ in complex with kanamycin B Q6L732 Q6L732 2.2 X-RAY DIFFRACTION 28 0.989 1967 (Streptomyces kanamyceticus) 1967 (Streptomyces kanamyceticus) 281 282 7cl2-a1-m1-cA_7cl2-a1-m1-cB 7cl2-a2-m1-cC_7cl2-a2-m2-cD 7cl2-a3-m1-cF_7cl2-a3-m1-cE 7cl3-a2-m2-cD_7cl3-a2-m1-cC 7cl3-a3-m1-cF_7cl3-a3-m1-cE 7cl4-a1-m1-cA_7cl4-a1-m1-cB 7cl4-a2-m1-cC_7cl4-a2-m2-cD 7cl4-a3-m1-cE_7cl4-a3-m1-cF 7cl5-a1-m1-cB_7cl5-a1-m1-cA 7cl5-a2-m1-cC_7cl5-a2-m2-cD 7cl5-a3-m1-cE_7cl5-a3-m1-cF 7cl6-a1-m1-cB_7cl6-a1-m1-cA 7cl6-a2-m2-cD_7cl6-a2-m1-cC 7cl6-a3-m1-cF_7cl6-a3-m1-cE ALAAPPGELTLALTPDDKTLDPASLDRALAILAEHGILVLTGMLRTRLTDQLRTAMLDDLPEVLRQQDVPTNFVPGHVQQDPPVRESLLFPDVLLNPVVYQITHAVLGADARNAVYSGNMNLPGSHEQPVHLDEPHLWPGISHPPYCLCVDVPLIDFTLENGSTEYWPGSHVLNPDECYDERGCVLPAELERRRAVAPPVRFPIPVGSVVIRDGRLWHRGVPNLSAAPRPLLAMTHYTEWFDMPPIQLPDTVKSWVDGSDRHTHAHFVAGDVDHLTGDHPF HMALAAPPGELTLALTPDDKTLDPASLDRALAILAEHGILVLTGMLRTRLTDQLRTAMLDDLPEVLRQQDVPTNFVPGHVQQDPPVRESLLFPDVLLNPVVYQITHAVLGADARNAVYSGNMNLPGSHEQPVHLDEPHLWPGISHPPYCLCVDVPLIDFTLENGSTEYWPGSHVLNPDECYDERGCVLPAELERRRAVAPPVRFPIPVGSVVIRDGRLWHRGVPNLSAAPRPLLAMTHYTEWFDMPPIQLPDTVKSWVDGSDRHTHAHFVAGDVDHLHPFAV 7cla-a1-m1-cA_7cla-a1-m2-cA Crystal structure of HTH-type transcriptional regulator SkgA from Caulobacter crescentus P0CAV4 P0CAV4 2.5 X-RAY DIFFRACTION 147 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 139 139 HMSVYTVKQMARLSGVSVRALHHYDAIGLLKPRAVGANGYRYYDRQDLLRLQQILFHRALETPLKDIQAALDQPGFDLAAALRAQRERLAAQAERYARLVDVVDRTLADLEGDETMDDKHLFEGFDPEKQARHEAWLVE HMSVYTVKQMARLSGVSVRALHHYDAIGLLKPRAVGANGYRYYDRQDLLRLQQILFHRALETPLKDIQAALDQPGFDLAAALRAQRERLAAQAERYARLVDVVDRTLADLEGDETMDDKHLFEGFDPEKQARHEAWLVE 7clj-a1-m1-cA_7clj-a1-m2-cA Crystal structure of Thermoplasmatales archaeon heliorhodopsin E108D mutant A0A151EDA9 A0A151EDA9 2.6 X-RAY DIFFRACTION 159 1.0 1803816 (Thermoplasmatales archaeon SG8-52-1) 1803816 (Thermoplasmatales archaeon SG8-52-1) 250 250 6is6-a1-m1-cA_6is6-a1-m2-cA 7u55-a1-m1-cA_7u55-a1-m2-cA NEEINFRKFRIFNGIMGVIHLIQVFLVLYLSNNFSLPITVNKPVYNEITNSISPVAETLFSIEIGPLVAMFLFISATAHILIATVLYYRYVQNLKNHMNPYRWFDYSISASFMIVIIAMLTTIYDLGTLLALFTLTAVMNLMGLMMELHNQTTQNTNWTSYIIGCIAGFVPWIVIFIPLISAESVPDFVIYIFISIAIFFNCFAINMYLQYKKIGKWKNYLHGEKVYIILSLVAKSALAWQVFAGTLRPM NEEINFRKFRIFNGIMGVIHLIQVFLVLYLSNNFSLPITVNKPVYNEITNSISPVAETLFSIEIGPLVAMFLFISATAHILIATVLYYRYVQNLKNHMNPYRWFDYSISASFMIVIIAMLTTIYDLGTLLALFTLTAVMNLMGLMMELHNQTTQNTNWTSYIIGCIAGFVPWIVIFIPLISAESVPDFVIYIFISIAIFFNCFAINMYLQYKKIGKWKNYLHGEKVYIILSLVAKSALAWQVFAGTLRPM 7cll-a1-m2-cB_7cll-a1-m2-cA Mycobacterium tubeculosis enolase in complex with 2-Phosphoglycerate P9WNL1 P9WNL1 1.99 X-RAY DIFFRACTION 130 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 424 425 6l7d-a1-m1-cA_6l7d-a1-m5-cA 6l7d-a1-m2-cA_6l7d-a1-m6-cA 6l7d-a1-m3-cA_6l7d-a1-m8-cA 6l7d-a1-m4-cA_6l7d-a1-m7-cA 7clk-a1-m1-cA_7clk-a1-m5-cA 7clk-a1-m2-cA_7clk-a1-m6-cA 7clk-a1-m3-cA_7clk-a1-m8-cA 7clk-a1-m4-cA_7clk-a1-m7-cA 7cll-a1-m1-cB_7cll-a1-m1-cA 7cll-a1-m1-cD_7cll-a1-m1-cC 7cll-a1-m2-cD_7cll-a1-m2-cC 7dlr-a1-m1-cA_7dlr-a1-m5-cA 7dlr-a1-m2-cA_7dlr-a1-m6-cA 7dlr-a1-m3-cA_7dlr-a1-m8-cA 7dlr-a1-m4-cA_7dlr-a1-m7-cA 7e4f-a1-m1-cA_7e4f-a1-m5-cA 7e4f-a1-m2-cA_7e4f-a1-m6-cA 7e4f-a1-m3-cA_7e4f-a1-m8-cA 7e4f-a1-m4-cA_7e4f-a1-m7-cA 7e4x-a1-m1-cA_7e4x-a1-m1-cB 7e4x-a1-m1-cC_7e4x-a1-m1-cD 7e4x-a1-m1-cE_7e4x-a1-m1-cF 7e4x-a1-m1-cG_7e4x-a1-m1-cH 7e51-a1-m1-cA_7e51-a1-m1-cB 7e51-a1-m1-cC_7e51-a1-m1-cD 7e51-a1-m1-cE_7e51-a1-m1-cF 7e51-a1-m1-cG_7e51-a1-m1-cH MPIIEQVRAREILDSRGNPTVEVEVALIDGTFARAAVPSGASTGEHEAVELRDGGDRYGGKGVQKAVQAVLDEIGPAVIGLNADDQRLVDQALVDLDGTPDKSRLGGNAILGVSLAVAKAAADSAELPLFRYVGGPNAHILPVPMMNILNGGAHADTAVDIQEFMVAPIGAPSFVEALRWGAEVYHALKSVLKKEGLSTGLGDEGGFAPDVAGTTAALDLISRAIESAGLRPGADVALALDAAATEFFTDGTGYVFEGTTRTADQMTEFYAGLLGAYPLVSIEDPLSEDDWDGWAALTASIGDRVQIVGDDIFVTNPERLEEGIERGVANALLVKVNQIGTLTETLDAVTLAHHGGYRTMISHRSGETEDTMIADLAVAIGSGQIKTGAPARSERVAKYNQLLRIEEALGDAARYAGDLAFPRF MPIIEQVRAREILDSRGNPTVEVEVALIDGTFARAAVPSGASTGEHEAVELRDGGDRYGGKGVQKAVQAVLDEIGPAVIGLNADDQRLVDQALVDLDGTPDKSRLGGNAILGVSLAVAKAAADSAELPLFRYVGGPNAHILPVPMMNILNGGAHADTAVDIQEFMVAPIGAPSFVEALRWGAEVYHALKSVLKKEGLSTGLGDEGGFAPDVAGTTAALDLISRAIESAGLRPGADVALALDAAATEFFTDGTGYVFEGTTRTADQMTEFYAGLLGAYPLVSIEDPLSEDDWDGWAALTASIGDRVQIVGDDIFVTNPERLEEGIERGVANALLVKVNQIGTLTETLDAVTLAHHGGYRTMISHRSGETEDTMIADLAVAIGSGQIKTGAPARSERVAKYNQLLRIEEALGDAARYAGDLAFPRFA 7clu-a1-m1-cB_7clu-a1-m1-cA PigF with SAH Q5W249 Q5W249 1.9 X-RAY DIFFRACTION 248 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 302 338 7clf-a1-m1-cA_7clf-a1-m1-cB PLTKQDAVNQMMGFFQAKALTAALALKLFDQLRDRDADAAHIAARLDCPARSTEQLLIALRAMGYLDQRDGLYHLPAAHRAFLLSDEPQWLGWLGRHIDTFLYPLWGELKTAVRNAAPFIAGFVRDYDFSQHRAFLDIGSGIGSLPMAIADAYPGIALAICELPQASAFLRDKLTLQGYGERIDVVEGDVISGDLPIGGYDLIHLGWMLHDYAPETQLTILRNIYRAMPAGGRFIASETPLNEDKSGPEFTALLSLNMLVSTDGGIESSAQEYLDRFRLAGFSNARIMKIAGPRTLIVGEKL PLTKQDAVNQMMGFFQAKALTAALALKLFDQLRDRDADAAHIAARLDCPARSTEQLLIALRAMGYLDQRDGLYHLPAAHRAFLLSDEPQWLGWLGRHIDTFLYPLWGELKTAVRNDAHQRRTVFGDDRSWFDILYQNPDDVADFQEFLGKFAAPFIAGFVRDYDFSQHRAFLDIGSGIGSLPMAIADAYPGIALAICELPQASAFLRDKLTLQGYGERIDVVEGDVISGDLPIGGYDLIHLGWMLHDYAPETQLTILRNIYRAMPAGGRFIASETPLNEDKSGPEFTALLSLNMLVSTDGGIESSAQEYLDRFRLAGFSNARIMKIAGPRTLIVGEKL 7clv-a1-m1-cA_7clv-a1-m1-cB Solution structure of mitochondrial Tim23 channel in complex with a signaling peptide P32897 P32897 NOT SOLUTION NMR 147 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 222 222 MSWLFGDKTPTDDANAAVGGQDTTKPKELSLKQSLGFEPNINNIISGPGGMHVDTARLHPLAGLDKGVEYLDLEEEQLSSLEGSQGLIPSRGWTDDLCYGTGAVYLLGLGIGGFSGMMQGLQNIPPNSPGKLQLNTVLNHITKRGPFLGNNAGILALSYNIINSTIDALRGKHDTAGSIGAGALTGALFKSSKGLKPMGYSSAMVAAACAVWCSVKKRLLEK MSWLFGDKTPTDDANAAVGGQDTTKPKELSLKQSLGFEPNINNIISGPGGMHVDTARLHPLAGLDKGVEYLDLEEEQLSSLEGSQGLIPSRGWTDDLCYGTGAVYLLGLGIGGFSGMMQGLQNIPPNSPGKLQLNTVLNHITKRGPFLGNNAGILALSYNIINSTIDALRGKHDTAGSIGAGALTGALFKSSKGLKPMGYSSAMVAAACAVWCSVKKRLLEK 7cm9-a2-m1-cD_7cm9-a2-m1-cC DMSP lyase DddX A0A7V8UZ53 A0A7V8UZ53 2.249 X-RAY DIFFRACTION 215 1.0 56811 (Psychrobacter sp.) 56811 (Psychrobacter sp.) 692 693 7cm9-a1-m1-cA_7cm9-a1-m1-cB MKKENLKILAKKAQTIAIVGANYRFATRVLLENLDKMDFTGTIYLVNPRYENIDGVRCYQSLLEIEDTIDVVVGLVNPQLMIQVASNASKINAKVLVIPGGGYGESGVEGQNIQNAILERAADSGMRIVGPNCMGYLNMHAQFTPYIGTLHRPLRPIKKGPVSIISQSGSVNDAFIASKLGISKIYSTGNEADVQMHDYLNLLAEDPETSVIILYIEAIRNHLSFLRALDLCSKNKKPVIAIKVGRTIKSAAVANAHSGALAGDYEIEKLFLEGHGVLFVEDIDQAVAVALLLSQPYLPTVNTVAALTVSGGQAGILLDLAEDYGVDFPDFSAVTNYEIASKLPELGGLSNPLDIWGKSSKDFSEVSNICLSSIVKDADIGIITVAIDAPIGQGDHEFDFTSIPAKDLASLRGNSDKPFLYFSHIQTEFDPRVESILDEAGIAVIQGSRNALVACRALFKYKEFLEKNNHTPIYSVEDLSIQKGLKLLHDNEGRKLLDESGFVSPREQVVTSLQEGVDYAESIGYPVVLKAQGLAHKTDVGGVALNIKSAAKLKKAWGKMEHLNSPYYLIQEMVTDGFETILAYRTDMNYGPVVIFGLGGIYTELFNEVVLAVPPITHKKAEQMVKSIPMLWKSIEGYRGNPALDLEALTASIVQMGETAMEKYEEIVEFEINPLSVRVKGVVALDVLASVK AMKKENLKILAKKAQTIAIVGANYRFATRVLLENLDKMDFTGTIYLVNPRYENIDGVRCYQSLLEIEDTIDVVVGLVNPQLMIQVASNASKINAKVLVIPGGGYGESGVEGQNIQNAILERAADSGMRIVGPNCMGYLNMHAQFTPYIGTLHRPLRPIKKGPVSIISQSGSVNDAFIASKLGISKIYSTGNEADVQMHDYLNLLAEDPETSVIILYIEAIRNHLSFLRALDLCSKNKKPVIAIKVGRTIKSAAVANAHSGALAGDYEIEKLFLEGHGVLFVEDIDQAVAVALLLSQPYLPTVNTVAALTVSGGQAGILLDLAEDYGVDFPDFSAVTNYEIASKLPELGGLSNPLDIWGKSSKDFSEVSNICLSSIVKDADIGIITVAIDAPIGQGDHEFDFTSIPAKDLASLRGNSDKPFLYFSHIQTEFDPRVESILDEAGIAVIQGSRNALVACRALFKYKEFLEKNNHTPIYSVEDLSIQKGLKLLHDNEGRKLLDESGFVSPREQVVTSLQEGVDYAESIGYPVVLKAQGLAHKTDVGGVALNIKSAAKLKKAWGKMEHLNSPYYLIQEMVTDGFETILAYRTDMNYGPVVIFGLGGIYTELFNEVVLAVPPITHKKAEQMVKSIPMLWKSIEGYRGNPALDLEALTASIVQMGETAMEKYEEIVEFEINPLSVRVKGVVALDVLASVK 7cma-a1-m1-cA_7cma-a1-m2-cC Structure of A151R from African swine fever virus Georgia A0A2X0TC55 A0A2X0TC55 2.01 X-RAY DIFFRACTION 24 1.0 874269 (African swine fever virus Georgia 2007/1) 874269 (African swine fever virus Georgia 2007/1) 155 155 NKKIIVMMALLHKEKLIECIYHELENGGTILLLTKNIVVSEISYIGNTYKYFTFNDNHDLISKEDLKGATSKNIAKMIYNWIIKNPQNNKIWSGEPRTQIYFENDLYHTNYNHKCIKDFWNVSTSVGPHIFNDRSIWCTKCTSFYPFTNIMSPNI NKKIIVMMALLHKEKLIECIYHELENGGTILLLTKNIVVSEISYIGNTYKYFTFNDNHDLISKEDLKGATSKNIAKMIYNWIIKNPQNNKIWSGEPRTQIYFENDLYHTNYNHKCIKDFWNVSTSVGPHIFNDRSIWCTKCTSFYPFTNIMSPNI 7cmc-a1-m1-cB_7cmc-a1-m1-cA CRYSTAL STRUCTURE OF DEOXYHYPUSINE SYNTHASE FROM PYROCOCCUS HORIKOSHII O50105 O50105 2.2 X-RAY DIFFRACTION 218 0.987 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 300 312 EGVEVKGPWLDDAQSLEEVVSYYYRIGFQATHLGRAIEIWRKVEEKRERGEEIRVFLGYTSNIISSGLREIIAWLVKEKKVDVIVTTAGGVEEDFIKSLKPFILGDWEVDDAELRKKGVNRIGNIFVPNDRYIEFEKYMIPFFERVLKIEEKLSRPLTASEFIYEMGRYMDEKLGKEKEKSVIYWAYKNNIPIFCPAITDGSIGDMLYFFKEERRDSRLIIDIANDIVKLNNLAITAKETASIILGGSLPKHAIINANLFRGGTDYAIYISTAVPADYVEVWGDATLIFPILVWMVMKAR EGVEVKGPWLDDAQSLEEVVSYYYRIGFQATHLGRAIEIWRKVEEKRERGEEIRVFLGYTSNIISSGLREIIAWLVKEKKVDVIVTTAGGVEEDFIKSLKPFILGDWAELRKKGVNRIGNIFVPNDRYIEFEKYMIPFFERVLKIEEKLSRPLTASEFIYEMGRYMDEKLGKEKEKSVIYWAYKNNIPIFCPAITDGSIGDMLYFFKEERRDSRLIIDIANDIVKLNNLAITAKETASIILGGSLPKHAIINANLFRGGTDYAIYISTAVPWDGSLSGAPPREGVSWADYVEVWGDATLIFPILVWMVMKAR 7cmc-a1-m1-cD_7cmc-a1-m1-cA CRYSTAL STRUCTURE OF DEOXYHYPUSINE SYNTHASE FROM PYROCOCCUS HORIKOSHII O50105 O50105 2.2 X-RAY DIFFRACTION 135 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 301 312 7cmc-a1-m1-cC_7cmc-a1-m1-cB EGVEVKGPWLDDAQSLEEVVSYYYRIGFQATHLGRAIEIWRKVEEKRERGEEIRVFLGYTSNIISSGLREIIAWLVKEKKVDVIVTTAGGVEEDFIKSLKPFILGDKGVNRIGNIFVPNDRYIEFEKYMIPFFERVLKIEEKLSRPLTASEFIYEMGRYMDEKLGKEKEKSVIYWAYKNNIPIFCPAITDGSIGDMLYFFKEERRDSRLIIDIANDIVKLNNLAITAKETASIILGGSLPKHAIINANLFRGGTDYAIYISTAVPWDGSLSGAPPRADYVEVWGDATLIFPILVWMVMKAR EGVEVKGPWLDDAQSLEEVVSYYYRIGFQATHLGRAIEIWRKVEEKRERGEEIRVFLGYTSNIISSGLREIIAWLVKEKKVDVIVTTAGGVEEDFIKSLKPFILGDWAELRKKGVNRIGNIFVPNDRYIEFEKYMIPFFERVLKIEEKLSRPLTASEFIYEMGRYMDEKLGKEKEKSVIYWAYKNNIPIFCPAITDGSIGDMLYFFKEERRDSRLIIDIANDIVKLNNLAITAKETASIILGGSLPKHAIINANLFRGGTDYAIYISTAVPWDGSLSGAPPREGVSWADYVEVWGDATLIFPILVWMVMKAR 7cmg-a1-m1-cB_7cmg-a1-m1-cA The Structure of the periplasmic domain of PorM B2RLE8 B2RLE8 3.7 X-RAY DIFFRACTION 478 0.996 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 480 487 6ey6-a1-m1-cA_6ey6-a1-m1-cB 6ey6-a2-m1-cC_6ey6-a2-m1-cD 6ey6-a3-m1-cF_6ey6-a3-m1-cE 6ey6-a4-m1-cG_6ey6-a4-m1-cH VSSEVLDGFDKVDKSLTSSIDGSDKRNNLVLSELNTAYRTNPEKVKVWYERSLVLQKEADSLCTFIDDLKLAIARESDGKDADNLDASSVVMLNPINGKGSTLRKEVDKFRELVATLMTDKAKLKLIEQALNTESGTKGKSWESSLFENMPTVAAITLLTKLQSDVRYAQGEVLADLVKSVDVGDYRVNSITAQVIPQSQIVMSGDTYKANIVLSSVDTTQRPDVFVNGKLLSPENMGLFTATAGAPGTYPVKGYIEMMGNDGVKIRRDFESEYFVTEPMASVAPTMMNVLYAGIDNPINIAVPGVAQQNVSATINNGTLTRRGNLWIARPTKVGSEAIISVTAQSGGRTIQMAKTTLRVRALPDPLPYIEYKDVQGNTKRFKGGRLGKREILAAGGIKAALDDDLLEVNYTVVKFQLVFYDSMGNSIPEVSDGASFSERQKRQIQNLGKGKRFYVTEVIARGPDGIERKIPAIEVIVNL SEVLDGFDKVDKSLTSSIDGSDKRNNLVLSELNTAYRTNPEKVKVWYERSLVLQKEADSLCTFIDDLKLAIARESDGKDAKVNDIRRKDNLDASSVVMLNPINGKGSTLRKEVDKFRELVATLMTDKAKLKLIEQALNTESGTKGKSWESSLFENMPTVAAITLLTKLQSDVRYAQGEVLADLVKSVDVGDYRVNSITAQVIPQSQIVMSGDTYKANIVLSSVDTTQRPDVFVNGKLLSPENMGLFTATAGAPGTYPVKGYIEMMGNDGVKIRRDFESEYFVTEPMASVAPTMMNVLYAGIDNPINIAVPGVAQQNVSATINNGTLTRRGNLWIARPTKVGSEAIISVTAQSGGRTIQMAKTTLRVRALPDPLPYIEYKDVQGNTKRFKGGRLGKREILAAGGIKAALDDDLLEVNYTVVKFQLVFYDSMGNSIPEVSDGASFSERQKRQIQNLGKGKRFYVTEVIARGPDGIERKIPAIEVIVNLE 7cmj-a1-m1-cB_7cmj-a1-m2-cB Crystal structure of L.donovani Hypoxanthine-guanine phosphoribosyl transferase (HGPRT) Q7KLF3 Q7KLF3 2.76 X-RAY DIFFRACTION 67 1.0 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 175 175 7cmj-a1-m1-cA_7cmj-a1-m2-cA SAHTLVTQEQVWAATAKCAKKIAEDYRSFKLTTDNPLYLLCVLKGSFIFTADLARFLADEGVPVKVEFICASSYGTGVETSGQVRMLLDVRDSVENRHILIVEDIVDSAITLQYLMRFMLAKKPASLKTVVLLDKPRKVEVLVDYPVITIPHAFVIGYGMDYAESYRELRDICVL SAHTLVTQEQVWAATAKCAKKIAEDYRSFKLTTDNPLYLLCVLKGSFIFTADLARFLADEGVPVKVEFICASSYGTGVETSGQVRMLLDVRDSVENRHILIVEDIVDSAITLQYLMRFMLAKKPASLKTVVLLDKPRKVEVLVDYPVITIPHAFVIGYGMDYAESYRELRDICVL 7cmj-a1-m2-cB_7cmj-a1-m2-cA Crystal structure of L.donovani Hypoxanthine-guanine phosphoribosyl transferase (HGPRT) Q7KLF3 Q7KLF3 2.76 X-RAY DIFFRACTION 93 1.0 981087 (Leishmania donovani BPK282A1) 981087 (Leishmania donovani BPK282A1) 175 184 7cmj-a1-m1-cB_7cmj-a1-m1-cA SAHTLVTQEQVWAATAKCAKKIAEDYRSFKLTTDNPLYLLCVLKGSFIFTADLARFLADEGVPVKVEFICASSYGTGVETSGQVRMLLDVRDSVENRHILIVEDIVDSAITLQYLMRFMLAKKPASLKTVVLLDKPRKVEVLVDYPVITIPHAFVIGYGMDYAESYRELRDICVL YPMSAHTLVTQEQVWAATAKCAKKIAEDYRSFKLTTDNPLYLLCVLKGSFIFTADLARFLADEGVPVKVEFICASSYGTGVETSGQVRMLLDVRDSVENRHILIVEDIVDSAITLQYLMRFMLAKKPASLKTVVLLDKPSGRKVEVLVDYPVITIPHAFVIGYGMDYAESYRELRDICVLKKEY 7cmp-a2-m1-cC_7cmp-a2-m1-cD parE in complex with AMPPNP Q5GYJ8 Q5GYJ8 2.886 X-RAY DIFFRACTION 146 1.0 291331 (Xanthomonas oryzae pv. oryzae KACC 10331) 291331 (Xanthomonas oryzae pv. oryzae KACC 10331) 374 374 7cmp-a1-m1-cA_7cmp-a1-m1-cB RYNAADIEVLSGLDPVKRRPGMYTDTARPNHLAQEVIDNSVDEALAGHAKQIEVTLYKDGSCEVSDDGRGMPVDIHPEEKIPGVELILTRLHAGGKFNNRNYTFSGGLHGVGVSVVNALSTKVELFIKREGSEHRMEFRDGNAASKLEVVGTVGKKNTGTRLRFWADPKYFDTPKFNVRALRHLLRAKAVLCPGLTVKLHDEATGEQDSWYFENGLRDYLKGEMAEHEMLPADLFVGSLKKDTEIVDWAAGWVPEGELVQESYVNLIPTAQHGTHVNGLRSGLTDALREFCDFRNLLPRGVKLAPEDVWDRVTFVLSLKMTDPQFSGQTKERLSSRQAAGFIEGAAHDAFSLYLNQNVEIGEKIAQIAIDRASA RYNAADIEVLSGLDPVKRRPGMYTDTARPNHLAQEVIDNSVDEALAGHAKQIEVTLYKDGSCEVSDDGRGMPVDIHPEEKIPGVELILTRLHAGGKFNNRNYTFSGGLHGVGVSVVNALSTKVELFIKREGSEHRMEFRDGNAASKLEVVGTVGKKNTGTRLRFWADPKYFDTPKFNVRALRHLLRAKAVLCPGLTVKLHDEATGEQDSWYFENGLRDYLKGEMAEHEMLPADLFVGSLKKDTEIVDWAAGWVPEGELVQESYVNLIPTAQHGTHVNGLRSGLTDALREFCDFRNLLPRGVKLAPEDVWDRVTFVLSLKMTDPQFSGQTKERLSSRQAAGFIEGAAHDAFSLYLNQNVEIGEKIAQIAIDRASA 7cmx-a1-m1-cD_7cmx-a1-m1-cA Isocitrate lyase from Bacillus cereus ATCC 14579 Q81GQ9 Q81GQ9 1.79 X-RAY DIFFRACTION 101 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 421 422 7cmx-a1-m1-cB_7cmx-a1-m1-cC 7cmy-a1-m1-cA_7cmy-a1-m2-cC 7cmy-a1-m2-cA_7cmy-a1-m1-cC NERIEKLQESWELDERWEGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKAIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQF KNERIEKLQESWELDERWEGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKAIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQF 7cmx-a1-m1-cD_7cmx-a1-m1-cB Isocitrate lyase from Bacillus cereus ATCC 14579 Q81GQ9 Q81GQ9 1.79 X-RAY DIFFRACTION 61 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 421 422 7cmx-a1-m1-cA_7cmx-a1-m1-cC 7cmy-a1-m1-cA_7cmy-a1-m2-cA 7cmy-a1-m1-cC_7cmy-a1-m2-cC NERIEKLQESWELDERWEGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKAIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQF KNERIEKLQESWELDERWEGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKAIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQF 7cmx-a1-m1-cD_7cmx-a1-m1-cC Isocitrate lyase from Bacillus cereus ATCC 14579 Q81GQ9 Q81GQ9 1.79 X-RAY DIFFRACTION 414 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 421 422 7cmx-a1-m1-cA_7cmx-a1-m1-cB 7cmy-a1-m1-cA_7cmy-a1-m1-cC 7cmy-a1-m2-cA_7cmy-a1-m2-cC NERIEKLQESWELDERWEGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKAIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQF KNERIEKLQESWELDERWEGITRPYSAEDVIRLRGSIDIEHTLARRGAEKLWTSLHTEDYINALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGHMYPDQSLYPANSVPAVVKRINQTLQRADQIQHMEGSDDTDYFVPIVADAEAGFGGQLNVFELMKGMIEAGASGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARLAADVMGVPTIIVARTDADAADLITSDIDPVDKAFITGERTPEGFYRTNAGLDQAIARGLAYAPYADLVWCETSEPNLEDAKRFADAIHKEHPGKLLAYNCSPSFNWKQKLDEKAIASFQKEIASYGYKFQFVTLAGFHSLNYGMFELARGYKERGMAAYSELQQAEFAAEKHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTEEAQF 7cn2-a1-m1-cJ_7cn2-a1-m1-cK Subparticle refinement of human papillomavirus type 16 pesudovirus in complex with H16.001 Fab 3.43 ELECTRON MICROSCOPY 14 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 120 120 7cn2-a1-m1-cG_7cn2-a1-m1-cH 7cn2-a1-m1-cG_7cn2-a1-m1-cI 7cn2-a1-m1-cH_7cn2-a1-m1-cK 7cn2-a1-m1-cI_7cn2-a1-m1-cJ QSVKESEGRLVTPGTPLTLTCTASGFTMSRYHMTWVRQAPGKGLEWIGIIYARNSDTYYANWAKGRFTISKTSTTVDLKITSPTIEDTATYFCARVDSDSSGAFDRLDLWGQGTLVTVSS QSVKESEGRLVTPGTPLTLTCTASGFTMSRYHMTWVRQAPGKGLEWIGIIYARNSDTYYANWAKGRFTISKTSTTVDLKITSPTIEDTATYFCARVDSDSSGAFDRLDLWGQGTLVTVSS 7cn8-a1-m1-cB_7cn8-a1-m1-cC Cryo-EM structure of PCoV_GX spike glycoprotein A0A6G6A2Q2 A0A6G6A2Q2 2.5 ELECTRON MICROSCOPY 397 1.0 2708335 (Pangolin coronavirus) 2708335 (Pangolin coronavirus) 1125 1125 7cn8-a1-m1-cA_7cn8-a1-m1-cB 7cn8-a1-m1-cA_7cn8-a1-m1-cC QCVNLTTRTGIPPGYTNSSTRGVYYPDKVFRSSILHLTQDLFLPFFSNVTWFNTINYQGGFKKFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDARTQSLLIVNNATNVVIKVCEFQFCTDPFLGVYYHNNNKTWVENEFRVYSSANNCTFEYISQPFLMDLEGKQGNFKNLREFVFKNVDGYFKIYSKHTPIDLVRDLPRGFAALEPLVDLPIGINITRFQTLLALHRSYLTPGNLESGWTTGAAAYYVGYLQQRTFLLSYNQNGTITDAVDCSLDPLSETKCTLKSLTVEKGIYQTSNFRVQPTISIVRFPNITNLCPFGEVFNASKFASVYAWNRKRISNCVADYSVLYNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVVKGDEVRQIAPGQTGVIADYNYKLPDDFTGCVIAWNSVKQDALTGGNYGYLYRLFRKSKLKPFERDISTEIYQAGSTPCNGQVGLNCYYPLERYGFHPTTGVNYQPFRVVVLSFELLNGPATVCGPKLSTTLVKDKCVNFNFNGLTGTGVLTTSKKQFLPFQQFGRDISDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPMAIHAEQLTPAWRVYSAGANVFQTRAGCLVGAEHVNNSYECDIPVGAGICASYHSMSSLRSVNQRSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSIECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHEGKAHFPREGVFVSNGTHWFITQRNFYEPQIITTDNTFVSGSCDVVIGIVNNTVYDPLQPE QCVNLTTRTGIPPGYTNSSTRGVYYPDKVFRSSILHLTQDLFLPFFSNVTWFNTINYQGGFKKFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDARTQSLLIVNNATNVVIKVCEFQFCTDPFLGVYYHNNNKTWVENEFRVYSSANNCTFEYISQPFLMDLEGKQGNFKNLREFVFKNVDGYFKIYSKHTPIDLVRDLPRGFAALEPLVDLPIGINITRFQTLLALHRSYLTPGNLESGWTTGAAAYYVGYLQQRTFLLSYNQNGTITDAVDCSLDPLSETKCTLKSLTVEKGIYQTSNFRVQPTISIVRFPNITNLCPFGEVFNASKFASVYAWNRKRISNCVADYSVLYNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVVKGDEVRQIAPGQTGVIADYNYKLPDDFTGCVIAWNSVKQDALTGGNYGYLYRLFRKSKLKPFERDISTEIYQAGSTPCNGQVGLNCYYPLERYGFHPTTGVNYQPFRVVVLSFELLNGPATVCGPKLSTTLVKDKCVNFNFNGLTGTGVLTTSKKQFLPFQQFGRDISDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPMAIHAEQLTPAWRVYSAGANVFQTRAGCLVGAEHVNNSYECDIPVGAGICASYHSMSSLRSVNQRSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSIECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHEGKAHFPREGVFVSNGTHWFITQRNFYEPQIITTDNTFVSGSCDVVIGIVNNTVYDPLQPE 7cn9-a1-m1-cA_7cn9-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Spike ectodomain P0DTC2 P0DTC2 4.7 ELECTRON MICROSCOPY 276 0.987 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1011 1037 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSRLFRKPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAGSVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 7cna-a1-m1-cA_7cna-a1-m1-cD Crystal structure of Spindlin1/C11orf84 complex bound to histone H3K4me3K9me3 peptide Q9Y657 Q9Y657 1.6 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 206 RNIVGCRIQHGWKEGNGPVTQWKGTVLDQVPVNPSLYLIKYDGFDCVYGLELNKDERVSALEVLPDRVATSRISDAHLADTMIGKAVEHMFETEDGSKDEWRGMVLARAPVMNTWFYITYEKDPVLYMYQLLDDYKEGDLRIMPDREPGEVVDSLVGKQVEYAKEDGSKRTGMVIHQVEAKPSVYFIKFDDDFHIYVYDLVKTS RNIVGCRIQHGWKEGNGPVTQWKGTVLDQVPVNPSLYLIKYDGFDCVYGLELNKDERVSALEVLPDRVATSRISDAHLADTMIGKAVEHMFETEDGSKDEWRGMVLARAPVMNTWFYITYEKDPVLYMYQLLDDYKEGDLRIMPDSEREPGEVVDSLVGKQVEYAKEDGSKRTGMVIHQVEAKPSVYFIKFDDDFHIYVYDLVKTS 7cnb-a1-m1-cA_7cnb-a1-m2-cA Crystal structure of Gp16 C-terminal domain from Bacillus virus phi29 P11014 P11014 2.32 X-RAY DIFFRACTION 44 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 107 107 DSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMRIQ DSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMRIQ 7cnr-a2-m1-cE_7cnr-a2-m1-cG Crystal structure of Thermococcus kodakaraensis aconitase X (apo-form) Q5JGJ6 Q5JGJ6 3.39 X-RAY DIFFRACTION 106 1.0 69014 (Thermococcus kodakarensis KOD1) 69014 (Thermococcus kodakarensis KOD1) 386 386 7cnr-a1-m1-cA_7cnr-a1-m1-cC 7cns-a1-m1-cA_7cns-a1-m2-cA MYLTKEEELILAGEYGYALQKAMEILVALGDIYGADRLIPIKSAQVAGVSYKNIGDAGIEFLRDFVEAGAKVSVYTTLNPAGIGDDEFMEKQMEVLELYRKMGIEVTSTCTPYYGANLPKFGDHIAWSESSAVSFANSILGARTNREGGPSSLAAAIVGKTPNYGLHLDENRKATVIVDVKAKVKTFADYSVLGYHVGKTLGNDVPYFKNLKPEKTEFLKELGAAMGATGSIALYHVEGETPEYREAITDKLETITVEDSDLKAVRESFQDDWSDIDMILIGCPHASLPEVKEIAELLRMRGKPLKIPLFITASRAVKALADALGYTEIIERYNGKIIPDSCFVVSPIKGWYRGIATNSGKSAFYFRSFGFSVRLDDVENLIKEAP MYLTKEEELILAGEYGYALQKAMEILVALGDIYGADRLIPIKSAQVAGVSYKNIGDAGIEFLRDFVEAGAKVSVYTTLNPAGIGDDEFMEKQMEVLELYRKMGIEVTSTCTPYYGANLPKFGDHIAWSESSAVSFANSILGARTNREGGPSSLAAAIVGKTPNYGLHLDENRKATVIVDVKAKVKTFADYSVLGYHVGKTLGNDVPYFKNLKPEKTEFLKELGAAMGATGSIALYHVEGETPEYREAITDKLETITVEDSDLKAVRESFQDDWSDIDMILIGCPHASLPEVKEIAELLRMRGKPLKIPLFITASRAVKALADALGYTEIIERYNGKIIPDSCFVVSPIKGWYRGIATNSGKSAFYFRSFGFSVRLDDVENLIKEAP 7cnv-a2-m1-cC_7cnv-a2-m1-cD Crystal structure of IscU H106C variant A0B757 A0B757 2.23 X-RAY DIFFRACTION 32 1.0 2224 (Methanothrix thermoacetophila) 2224 (Methanothrix thermoacetophila) 123 127 7c8n-a1-m1-cA_7c8n-a1-m2-cA 7cnv-a1-m1-cB_7cnv-a1-m1-cA 7cnv-a3-m1-cF_7cnv-a3-m1-cE MIQQTGYSKKVMEHFMNPRNVGVIDDPDGYGKVGNPVCGDLMEIFIKVGDEKIEDIKFRTFGCGAAIATSSMITEMARGKSLEEAMRITRNDVADALDGLPPQKMCSNLAADALHAAINDYLS MIQQTGYSKKVMEHFMNPRNVGVIDDPDGYGKVGNPVCGDLMEIFIKVGDEKIEDIKFRTFGCGAAIATSSMITEMARGKSLEEAMRITRNDVADALDGLPPQKMCCSNLAADALHAAINDYLSKKQ 7co3-a1-m2-cA_7co3-a1-m3-cA HtrA-type protease AlgWS227A with tripeptide Q9HVX1 Q9HVX1 1.9 X-RAY DIFFRACTION 75 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 301 301 7co2-a1-m1-cA_7co2-a1-m2-cA 7co2-a1-m1-cA_7co2-a1-m3-cA 7co2-a1-m2-cA_7co2-a1-m3-cA 7co3-a1-m1-cA_7co3-a1-m2-cA 7co3-a1-m1-cA_7co3-a1-m3-cA 7co5-a1-m1-cB_7co5-a1-m1-cF 7co5-a1-m1-cB_7co5-a1-m1-cJ 7co5-a1-m1-cD_7co5-a1-m1-cH 7co5-a1-m1-cD_7co5-a1-m1-cL 7co5-a1-m1-cF_7co5-a1-m1-cJ 7co5-a1-m1-cH_7co5-a1-m1-cL 7co7-a1-m1-cD_7co7-a1-m2-cD 7co7-a1-m1-cD_7co7-a1-m3-cD 7co7-a1-m2-cD_7co7-a1-m3-cD VSYANAVSRAAPAVANLYTTKMESSLGSAVIMSAEGYLLTNNHVTAGADQIIVALRDGRETIAQLVGSDPETDLAVLKIDLKNLPAMTLGRSDGIRTGDVCLAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNAGGALVDAAGNLIGINTAIFSKSGGSQGIGFAIPTKLALEVMQSIIEHGQVIRGWLGVEVKALTPELAESLGLGETAGIVVAGVYRDGPAARGGLLPGDVILTIDKQEASDGRRSMNQVARTRPGQKISIVVLRNGQKVNLTAEVGLRPPPDGGE VSYANAVSRAAPAVANLYTTKMESSLGSAVIMSAEGYLLTNNHVTAGADQIIVALRDGRETIAQLVGSDPETDLAVLKIDLKNLPAMTLGRSDGIRTGDVCLAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNAGGALVDAAGNLIGINTAIFSKSGGSQGIGFAIPTKLALEVMQSIIEHGQVIRGWLGVEVKALTPELAESLGLGETAGIVVAGVYRDGPAARGGLLPGDVILTIDKQEASDGRRSMNQVARTRPGQKISIVVLRNGQKVNLTAEVGLRPPPDGGE 7co5-a1-m1-cF_7co5-a1-m1-cH HtrA-type protease AlgW with decapeptide Q9HVX1 Q9HVX1 2.345 X-RAY DIFFRACTION 42 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 325 325 7co5-a1-m1-cB_7co5-a1-m1-cD 7co5-a1-m1-cJ_7co5-a1-m1-cL VSYANAVSRAAPAVANLYTTKMVSKPSHPLFDDPMFRRFFGDNLPQQKRMESSLGSAVIMSAEGYLLTNNHVTAGADQIIVALRDGRETIAQLVGSDPETDLAVLKIDLKNLPAMTLGRSDGIRTGDVCLAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNSGGALVDAAGNLIGINTAIFSKSGGSQGIGFAIPTKLALEVMQSIIEHGQVIRGWLGVEVKALTPELAESLGLGETAGIVVAGVYRDGPAARGGLLPGDVILTIDKQEASDGRRSMNQVARTRPGQKISIVVLRNGQKVNLTAEVGLRPPP VSYANAVSRAAPAVANLYTTKMVSKPSHPLFDDPMFRRFFGDNLPQQKRMESSLGSAVIMSAEGYLLTNNHVTAGADQIIVALRDGRETIAQLVGSDPETDLAVLKIDLKNLPAMTLGRSDGIRTGDVCLAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNSGGALVDAAGNLIGINTAIFSKSGGSQGIGFAIPTKLALEVMQSIIEHGQVIRGWLGVEVKALTPELAESLGLGETAGIVVAGVYRDGPAARGGLLPGDVILTIDKQEASDGRRSMNQVARTRPGQKISIVVLRNGQKVNLTAEVGLRPPP 7co5-a1-m1-cF_7co5-a1-m1-cL HtrA-type protease AlgW with decapeptide Q9HVX1 Q9HVX1 2.345 X-RAY DIFFRACTION 10 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 325 325 VSYANAVSRAAPAVANLYTTKMVSKPSHPLFDDPMFRRFFGDNLPQQKRMESSLGSAVIMSAEGYLLTNNHVTAGADQIIVALRDGRETIAQLVGSDPETDLAVLKIDLKNLPAMTLGRSDGIRTGDVCLAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNSGGALVDAAGNLIGINTAIFSKSGGSQGIGFAIPTKLALEVMQSIIEHGQVIRGWLGVEVKALTPELAESLGLGETAGIVVAGVYRDGPAARGGLLPGDVILTIDKQEASDGRRSMNQVARTRPGQKISIVVLRNGQKVNLTAEVGLRPPP VSYANAVSRAAPAVANLYTTKMVSKPSHPLFDDPMFRRFFGDNLPQQKRMESSLGSAVIMSAEGYLLTNNHVTAGADQIIVALRDGRETIAQLVGSDPETDLAVLKIDLKNLPAMTLGRSDGIRTGDVCLAIGNPFGVGQTVTMGIISATGRNQLGLNTYEDFIQTDAAINPGNSGGALVDAAGNLIGINTAIFSKSGGSQGIGFAIPTKLALEVMQSIIEHGQVIRGWLGVEVKALTPELAESLGLGETAGIVVAGVYRDGPAARGGLLPGDVILTIDKQEASDGRRSMNQVARTRPGQKISIVVLRNGQKVNLTAEVGLRPPP 7coi-a1-m1-cB_7coi-a1-m1-cD Crystal structure of the b-carbonic anhydrase CafA of the fungal pathogen Aspergillus fumigatus Q4WQ18 Q4WQ18 1.8 X-RAY DIFFRACTION 84 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 208 208 7coi-a1-m1-cA_7coi-a1-m1-cC 7coj-a1-m1-cA_7coj-a1-m1-cC 7coj-a1-m1-cB_7coj-a1-m1-cD DKFSAALAKNKEWAAKCSQEHPELLPTLAVGQHPEILWIGCSDSRCPETTILGLLPGDVFTHRNIANVIHPADLSSGAVIEFAVRHLRVKHVVICGHTKCGGVAAALGNKGLGILDPWLIPLRQLREQHLAELQSLSRDEAVVRLAELNVKEGLKALTQKSVVLEAMQERGLQVHGLIYDVGSGFLRQLDAAEPEEALKARLTSFKTD DKFSAALAKNKEWAAKCSQEHPELLPTLAVGQHPEILWIGCSDSRCPETTILGLLPGDVFTHRNIANVIHPADLSSGAVIEFAVRHLRVKHVVICGHTKCGGVAAALGNKGLGILDPWLIPLRQLREQHLAELQSLSRDEAVVRLAELNVKEGLKALTQKSVVLEAMQERGLQVHGLIYDVGSGFLRQLDAAEPEEALKARLTSFKTD 7coi-a1-m1-cD_7coi-a1-m1-cA Crystal structure of the b-carbonic anhydrase CafA of the fungal pathogen Aspergillus fumigatus Q4WQ18 Q4WQ18 1.8 X-RAY DIFFRACTION 11 0.995 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 208 209 7coi-a1-m1-cB_7coi-a1-m1-cC 7coj-a1-m1-cB_7coj-a1-m1-cC 7coj-a1-m1-cD_7coj-a1-m1-cA DKFSAALAKNKEWAAKCSQEHPELLPTLAVGQHPEILWIGCSDSRCPETTILGLLPGDVFTHRNIANVIHPADLSSGAVIEFAVRHLRVKHVVICGHTKCGGVAAALGNKGLGILDPWLIPLRQLREQHLAELQSLSRDEAVVRLAELNVKEGLKALTQKSVVLEAMQERGLQVHGLIYDVGSGFLRQLDAAEPEEALKARLTSFKTD LSDKFSAALAKNKEWAAKCSQEHPELLPTLAVGQHPEILWIGCSDSRCPETTILGLLPGDVFTHRNIANVIHPADLSSGAVIEFAVRHLRVKHVVICGHTKCGGVAAALGNKGLGILDPWLIPLRQLREQHLAELQSLSRDEAVVRLAELNVKEGLKALTQKSVVLEAMQERGLQVHGLIYDVGSGFLRQLDAAEPEEALKARLTSFKT 7coi-a1-m1-cD_7coi-a1-m1-cC Crystal structure of the b-carbonic anhydrase CafA of the fungal pathogen Aspergillus fumigatus Q4WQ18 Q4WQ18 1.8 X-RAY DIFFRACTION 242 0.995 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 208 209 7coi-a1-m1-cB_7coi-a1-m1-cA 7coj-a1-m1-cB_7coj-a1-m1-cA 7coj-a1-m1-cD_7coj-a1-m1-cC DKFSAALAKNKEWAAKCSQEHPELLPTLAVGQHPEILWIGCSDSRCPETTILGLLPGDVFTHRNIANVIHPADLSSGAVIEFAVRHLRVKHVVICGHTKCGGVAAALGNKGLGILDPWLIPLRQLREQHLAELQSLSRDEAVVRLAELNVKEGLKALTQKSVVLEAMQERGLQVHGLIYDVGSGFLRQLDAAEPEEALKARLTSFKTD LSDKFSAALAKNKEWAAKCSQEHPELLPTLAVGQHPEILWIGCSDSRCPETTILGLLPGDVFTHRNIANVIHPADLSSGAVIEFAVRHLRVKHVVICGHTKCGGVAAALGNKGLGILDPWLIPLRQLREQHLAELQSLSRDEAVVRLAELNVKEGLKALTQKSVVLEAMQERGLQVHGLIYDVGSGFLRQLDAAEPEEALKARLTSFKT 7cok-a1-m1-cB_7cok-a1-m1-cA Crystal structure of ligand-free form of 5-ketofructose reductase of Gluconobacter sp. strain CHM43 A0A0K8N474 A0A0K8N474 1.5 X-RAY DIFFRACTION 91 1.0 1876758 (Gluconobacter sp.) 1876758 (Gluconobacter sp.) 277 278 7col-a1-m1-cB_7col-a1-m1-cA GFRSILTGSFSTPCADNPTVAMVEAGYHHAGLDARYINCDVKASGLADAVKGAKAMEWVGFNCSLPHKVAVLDHLDDIAESARLIGAVNCVAIREGKLIGHNTDGKGFLASLKTVTSPAGKRVVILGAGGAARAIAVELALAGAAHITIVNRDASKAETIAALINDKTEATGEAQAWSGKFSLPTGTDILINATSIGLGDPNAAPPVEMGSLTKETVVADVIPNPPQTRFLKDAKALGCTTLDGLGMLVNQGVIGVEIWLGRTLDSAVMAQTLENIF GFRSILTGSFSTPCADNPTVAMVEAGYHHAGLDARYINCDVKASGLADAVKGAKAMEWVGFNCSLPHKVAVLDHLDDIAESARLIGAVNCVAIREGKLIGHNTDGKGFLASLKTVTSPAGKRVVILGAGGAARAIAVELALAGAAHITIVNRDASKAETIAALINDKTEATGEAQAWSGKFSLPTGTDILINATSIGLGDPNAAPPVEMGSLTKETVVADVIPNPPQTRFLKDAKALGCTTLDGLGMLVNQGVIGVEIWLGRTLDSAVMAQTLENIFG 7coy-a1-m1-cbL_7coy-a1-m1-ccL Structure of the far-red light utilizing photosystem I of Acaryochloris marina B0C7S4 B0C7S4 2.5 ELECTRON MICROSCOPY 42 1.0 329726 (Acaryochloris marina MBIC11017) 329726 (Acaryochloris marina MBIC11017) 147 147 7coy-a1-m1-caL_7coy-a1-m1-cbL 7coy-a1-m1-caL_7coy-a1-m1-ccL LVKHGGDPLVGDLATPVNSSGIVKAWINNLPAYRKGMSANARGLEIGMAHGYYLYGPFATSGPIRGTTMSLVSGVLSASAVVIVLSVAIQIYSSVSSAKPLPSVTTADPGSDFGTKEGWSAVGSGFLIGGCGGAVIAGVLSYAIAAF LVKHGGDPLVGDLATPVNSSGIVKAWINNLPAYRKGMSANARGLEIGMAHGYYLYGPFATSGPIRGTTMSLVSGVLSASAVVIVLSVAIQIYSSVSSAKPLPSVTTADPGSDFGTKEGWSAVGSGFLIGGCGGAVIAGVLSYAIAAF 7cp9-a1-m1-cI_7cp9-a1-m1-cJ Cryo-EM structure of human mitochondrial translocase TOM complex at 3.0 angstrom. O96008 O96008 3.0 ELECTRON MICROSCOPY 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 286 286 7ck6-a1-m1-cA_7ck6-a1-m1-cB 7vby-a1-m1-cB_7vby-a1-m1-cI 7vc4-a1-m1-cB_7vc4-a1-m1-cI 7vd2-a1-m1-cB_7vd2-a1-m1-cI 7vdd-a1-m1-cB_7vdd-a1-m1-cI CLPNPGTFEECHRKCKELFPIQMEGVKLTVNKGLSNHFQVNHTVALSTIGESNYHFGVTYVGTKQLSPTEAFPVLVGDMDNSGSLNAQVIHQLGPGLRSKMAIQTQQSKFVNWQVDGEYRGSDFTAAVTLGNPDVLVGSGILVAHYLQSITPCLALGGELVYHRRPGEEGTVMSLAGKYTLNNWLATVTLGQAGMHATYYHKASDQLQVGVEFEASTRMQDTSVSFGYQLDLPKANLLFKGSVDSNWIVGATLEKKLPPLPLTLALGAFLNHRKNKFQCGFGLTIG CLPNPGTFEECHRKCKELFPIQMEGVKLTVNKGLSNHFQVNHTVALSTIGESNYHFGVTYVGTKQLSPTEAFPVLVGDMDNSGSLNAQVIHQLGPGLRSKMAIQTQQSKFVNWQVDGEYRGSDFTAAVTLGNPDVLVGSGILVAHYLQSITPCLALGGELVYHRRPGEEGTVMSLAGKYTLNNWLATVTLGQAGMHATYYHKASDQLQVGVEFEASTRMQDTSVSFGYQLDLPKANLLFKGSVDSNWIVGATLEKKLPPLPLTLALGAFLNHRKNKFQCGFGLTIG 7cph-a1-m1-cA_7cph-a1-m1-cB Crystal structure of tRNA adenosine deaminase from Bacillus subtilis P21335 P21335 2.3 X-RAY DIFFRACTION 101 0.987 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 152 156 MTQDELYMKEAIKEAKKAEEKGEVPIGAVLVINGEIIARAHNLRETEQRSIAHAEMLVIDEACKALGTWRLEGATLYVTLEPCPMCAGAVVLSRVEKVVFGAFDPKGGCSGTLMNLLQEERFNHQAEVVSGVLEEECGGMLSAFFRELRKKK LYFQGSMTQDELYMKEAIKEAKKAEEKGEVPIGAVLVINGEIIARAHNLRETEQRSIAHAEMLVIDEACKALGTWRLEGATLYVTLEPCPMCAGAVVLSRVEKVVFGAFDPKGGCSGTLMNLLQEERFNHQAEVVSGVLEEECGGMLSAFFRELRK 7cpn-a2-m1-cD_7cpn-a2-m1-cC CRYSTAL STRUCTURE OF DODECAPRENYL DIPHOSPHATE SYNTHASE FROM THERMOBIFIDA FUSCA Q47RM6 Q47RM6 2.28 X-RAY DIFFRACTION 113 0.995 269800 (Thermobifida fusca YX) 269800 (Thermobifida fusca YX) 221 231 7cpm-a1-m1-cA_7cpm-a1-m1-cB 7cpm-a2-m1-cC_7cpm-a2-m1-cD 7cpm-a3-m1-cE_7cpm-a3-m1-cF 7cpn-a1-m1-cB_7cpn-a1-m1-cA 7cpn-a3-m1-cE_7cpn-a3-m1-cF RPPQLPRELIPRHVAIVMDGNGRWAKQRGLPRTEGHKAGESSLFDVIEGALELGVPYLSAYASPDEVRFLMGFNRDVIRRRRDELHARGVRVRWAGRPWKSVIKELTEAEELTKHNTKLTLQFCVNYGGRAEIADAAAALARDVAAGRLSPNRVTEATLARYLYHPDIPDVDLFIRSSGEQRLSNFLLWQSSYAEFVFLDTLWPDFDRRHFWQACEIYARR PPQLPRELIPRHVAIVMDGNGRWAKQRGLPRTEGHKAGESSLFDVIEGALELGVPYLSAYAFSTENWKRSPDEVRFLMGFNRDVIRRRRDELHARGVRVRWAGRPGRLWKSVIKELTEAEELTKHNTKLTLQFCVNYGGRAEIADAAAALARDVAAGRLSPNRVTEATLARYLYHPDIPDVDLFIRSSGEQRLSNFLLWQSSYAEFVFLDTLWPDFDRRHFWQACEIYARR 7cpr-a1-m1-cD_7cpr-a1-m1-cJ glutamine synthetase from Drosophila P20478 P20478 2.12 X-RAY DIFFRACTION 10 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 364 367 7cpr-a1-m1-cC_7cpr-a1-m1-cF 7cpr-a1-m1-cE_7cpr-a1-m1-cI 7cpr-a1-m1-cG_7cpr-a1-m1-cB 7cpr-a1-m1-cH_7cpr-a1-m1-cA RILEDSPNARINKTILDRYLSLPLQENIVQATYVWIDGTGEDLRCKDRTLDFIPQSPKELPVWNYDGSSCYQAEGSNSDTYLYPVAIYKDPFRRGNNILVMCDTYKFDGTPTDTNKRKTCLEVANKCAAEEPWFGIEQEYTFLDFDGHPLGWPKNGFPGPQGPYYCGVGANKVYARDIVDAHYRACLYAGIKVSGTNAEVMPAQWEFQVGPCEGISIGDDLWMARFLLHRISEEFGIVSTLDPKPMPGDWNGAGAHTNVSTKAMREDGGIRDIEKAVAKLSKCHERHIRAYDPKQGQDNARRLTGKHETSSINDFSAGVANRGCSIRIPRGVNDDGKGYFEDRRPSSNCDPYSVVEAILRTICL ARILEDSPNARINKTILDRYLSLPLQENIVQATYVWIDGTGEDLRCKDRTLDFIPQSPKELPVWNYDGSSCYQAEGSNSDTYLYPVAIYKDPFRRGNNILVMCDTYKFDGTPTDTNKRKTCLEVANKCAAEEPWFGIEQEYTFLDFDGHPLGWPKNGFPGPQGPYYCGVGANKVYARDIVDAHYRACLYAGIKVSGTNAEVMPAQWEFQVGPCEGISIGDDLWMARFLLHRISEEFGIVSTLDPKPMPGDWNGAGAHTNVSTKAMREDGGIRDIEKAVAKLSKCHERHIRAYDPKQGQDNARRLTGKHETSSINDFSAGVANRGCSIRIPRGVNDDGKGYFEDRRPSSNCDPYSVVEAILRTICLDE 7cpr-a1-m1-cE_7cpr-a1-m1-cJ glutamine synthetase from Drosophila P20478 P20478 2.12 X-RAY DIFFRACTION 23 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 365 367 7cpr-a1-m1-cB_7cpr-a1-m1-cH 7cpr-a1-m1-cD_7cpr-a1-m1-cF 7cpr-a1-m1-cG_7cpr-a1-m1-cC 7cpr-a1-m1-cI_7cpr-a1-m1-cA ARILEDSPNARINKTILDRYLSLPLQENIVQATYVWIDGTGEDLRCKDRTLDFIPQSPKELPVWNYDGSSCYQAEGSNSDTYLYPVAIYKDPFRRGNNILVMCDTYKFDGTPTDTNKRKTCLEVANKCAAEEPWFGIEQEYTFLDFDGHPLGWPKNGFPGPQGPYYCGVGANKVYARDIVDAHYRACLYAGIKVSGTNAEVMPAQWEFQVGPCEGISIGDDLWMARFLLHRISEEFGIVSTLDPKPMPGDWNGAGAHTNVSTKAMREDGGIRDIEKAVAKLSKCHERHIRAYDPKQGQDNARRLTGKHETSSINDFSAGVANRGCSIRIPRGVNDDGKGYFEDRRPSSNCDPYSVVEAILRTICL ARILEDSPNARINKTILDRYLSLPLQENIVQATYVWIDGTGEDLRCKDRTLDFIPQSPKELPVWNYDGSSCYQAEGSNSDTYLYPVAIYKDPFRRGNNILVMCDTYKFDGTPTDTNKRKTCLEVANKCAAEEPWFGIEQEYTFLDFDGHPLGWPKNGFPGPQGPYYCGVGANKVYARDIVDAHYRACLYAGIKVSGTNAEVMPAQWEFQVGPCEGISIGDDLWMARFLLHRISEEFGIVSTLDPKPMPGDWNGAGAHTNVSTKAMREDGGIRDIEKAVAKLSKCHERHIRAYDPKQGQDNARRLTGKHETSSINDFSAGVANRGCSIRIPRGVNDDGKGYFEDRRPSSNCDPYSVVEAILRTICLDE 7cpr-a1-m1-cF_7cpr-a1-m1-cJ glutamine synthetase from Drosophila P20478 P20478 2.12 X-RAY DIFFRACTION 141 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 367 367 7cpr-a1-m1-cB_7cpr-a1-m1-cA 7cpr-a1-m1-cB_7cpr-a1-m1-cC 7cpr-a1-m1-cD_7cpr-a1-m1-cC 7cpr-a1-m1-cD_7cpr-a1-m1-cE 7cpr-a1-m1-cE_7cpr-a1-m1-cA 7cpr-a1-m1-cG_7cpr-a1-m1-cF 7cpr-a1-m1-cG_7cpr-a1-m1-cH 7cpr-a1-m1-cI_7cpr-a1-m1-cH 7cpr-a1-m1-cI_7cpr-a1-m1-cJ ARILEDSPNARINKTILDRYLSLPLQENIVQATYVWIDGTGEDLRCKDRTLDFIPQSPKELPVWNYDGSSCYQAEGSNSDTYLYPVAIYKDPFRRGNNILVMCDTYKFDGTPTDTNKRKTCLEVANKCAAEEPWFGIEQEYTFLDFDGHPLGWPKNGFPGPQGPYYCGVGANKVYARDIVDAHYRACLYAGIKVSGTNAEVMPAQWEFQVGPCEGISIGDDLWMARFLLHRISEEFGIVSTLDPKPMPGDWNGAGAHTNVSTKAMREDGGIRDIEKAVAKLSKCHERHIRAYDPKQGQDNARRLTGKHETSSINDFSAGVANRGCSIRIPRGVNDDGKGYFEDRRPSSNCDPYSVVEAILRTICLDE ARILEDSPNARINKTILDRYLSLPLQENIVQATYVWIDGTGEDLRCKDRTLDFIPQSPKELPVWNYDGSSCYQAEGSNSDTYLYPVAIYKDPFRRGNNILVMCDTYKFDGTPTDTNKRKTCLEVANKCAAEEPWFGIEQEYTFLDFDGHPLGWPKNGFPGPQGPYYCGVGANKVYARDIVDAHYRACLYAGIKVSGTNAEVMPAQWEFQVGPCEGISIGDDLWMARFLLHRISEEFGIVSTLDPKPMPGDWNGAGAHTNVSTKAMREDGGIRDIEKAVAKLSKCHERHIRAYDPKQGQDNARRLTGKHETSSINDFSAGVANRGCSIRIPRGVNDDGKGYFEDRRPSSNCDPYSVVEAILRTICLDE 7cpy-a1-m1-cA_7cpy-a1-m1-cB Lovastatin nonaketide synthase with LovC Q9Y8A5 Q9Y8A5 3.6 ELECTRON MICROSCOPY 515 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 2262 2262 7cpx-a1-m1-cA_7cpx-a1-m1-cB AQSMYPNEPIVVVGSGCRFPGDANTPSKLWELLQHPRDVQSRIPKERFDVDTFYHPDGKHHGRTNAPYAYVLQDDLGAFDAAFFNIQAGEAESMDPQHRLLLETVYEAVTNAGMRIQDLQGTSTAVYVGVMTHDYETVSTRDLESIPTYSATGVAVSVASNRISYFFDWHGPSMTIDTACSSSLVAVHLAVQQLRTGQSSMAIAAGANLILGPMTFVLESKLSMLSPSGRSRMWDAGADGYARGEAVCSVVLKTLSQALRDGDTIECVIRETGVNQDGRTTGITMPNHSAQEALIKATYAQAGLDITKAEDRCQFFEAHGTGTPAGDPQEAEAIATAFFGHERAPLFVGSAKTVVGHTEGTAGLAGLMKASFAVRHGVIPPNLLFDKISPRVAPFYKNLRIPTEATQWPALPPGQPRRASVNSFGFGGTNAHAIIEEYMEPLSLPLVLSAKSQRSLKIMMEEMLQFLQSHPEIHLHDLTWSLLRKRSVLPFRRAIVGHSHETIRRALEDAIEDGIVSSDGQPSVLGIFTGQGAQWPGMLKNLIEASPYVRNIVRELDDSLQSLPEKYRPSWTLLDQFMLEGEASNVQYATFSQPLCCAVQIVLVRLLEAARIRFTAVVGHSSGEIACAFAAGLISASLAIRIAYLRGVASNSPDSVTFSGDAYHSHHMLPCADPYMQALEECGSVPWYSSVDAENRQMAARDVTAKYWKDNLVSPVLFSHAVQRAVVTHKALDIGIEVGCHPALKSPCVATIKDVLSGVDLAYTGCLERGKNDLDSFSRALAYLWERFGASSFDADEFMRAVAPDRPCMSVSKLLPAYPWDRSRRYWVESRATRHHLRGPKPHLLLGKLSEYSTPLSFQWLNFVRPRDIEWLDGHALQGQTVFPAAGYIVMAMEAALMIAGTHAKQVKLLEILDMSIDKAVIFDDEDSLVELNLTADVSRNAGEAGSMTISFKIDSCLSKEGNLSLSAKGQLALTIEDVHHLPPPEEEHPHMNRVNINAFYHELGLMGYNYSKDFRRLHNMQRADLRASGTLDFIPLMDEGNGCPLLLHPASLDVAFQTVIGAYSSPGDRRLRCLYVPTHVDRITLVPSLCLATAESGCEKVAFNTINTYDKGDYLSGDIVVFDAEQTTLFQVENITFKPFSPPDASTDHAMFARWSWGPLTPDSLLDNPEYWATAQDKEAIPIIERIVYFYIRSFLSQLTLEERQQAAFHLQKQIEWLEQVLASAKEGRHLWYDPGWENDTEAQIEHLCTANSYHPHVRLVQRVGQHLLPTVRSNGNPFDLLDHDGLLTEFYTNTLSFGPALHYARELVAQIAHRYQSMDILEIGAGTGGATKYVLATPQLGFNSYTYTDISTGFFEQAREQFAPFEDRMVFEPLDIRRSPAEQGFEPHAYDLIIASNVLHATPDLEKTMAHARSLLKPGGQMVILEITHKEHTRLGFIFGLFADWWAGVDDGRCTEPFVSFDRWDAILKRVGFSGVDSRTTDRDANLFPTSVFSTHAIDATVEYYPPLVVVGGQTPQSQRLLNDIKAIMPPRPLQTYKRLVDLLDAEELPMKSTFVMLTELDEELFAGLTEETFEATKLLLTYASNTVWLTENAWVQHPHQASTIGMLRSIRREHPDLGVHVLDVDAVETVEQVLRLEEHTDELASSTTWTQEPEVSWCKGRPWIPRLKRDLARNNRMNSSRRPIYEMIDSSRAPVALQTARDSSSYFLESAETWFVPESVQQMETKTIYVHFSCPHALRVQALGFFYLVQGHVQEGNREVPVVALAERNASIVHVRPDYIYTEADNNLSEGGGSLMVTVLAAAVLAETVISVTDSILVLNPPSICGQMLLHAGEEIGLQVHLATTSSWLTLHARDTDWHLRRVLPRGVQALVDLSADQSCEGLTQRMMKVLMPGCAHYRAADLFTDTVSLPAAYWEHVVSLARQGLPSVSEGWEVMPCTQFAAHADKTRPDLSTVISWPRESDEATLPTRVRSIDAETLFAADKTYLLVGLTGDLGRSLGRWMVQHGACHIVLTSRNPQVNPKWLAHVEELGGRVTVLSMDVTSQNSVEAGLAKLKDLHLPPVGGIAFGPLVLQDVMLNNMELPMMEMVLNPKVEGVRILHEKFSDPTSSNPLDFFVMFSSIVAVMGNPGQANYSAANCYLQALAQQRVASGLAASTIDIGAVYGVGFVTRAELEEDFNAIRFMFDSVEEHELHTLFAEAVVAGRRAVHQQEQQRKFATVLDMADLELTTGIPPLDPALKDRITFFDDPRIGNLKIPEY AQSMYPNEPIVVVGSGCRFPGDANTPSKLWELLQHPRDVQSRIPKERFDVDTFYHPDGKHHGRTNAPYAYVLQDDLGAFDAAFFNIQAGEAESMDPQHRLLLETVYEAVTNAGMRIQDLQGTSTAVYVGVMTHDYETVSTRDLESIPTYSATGVAVSVASNRISYFFDWHGPSMTIDTACSSSLVAVHLAVQQLRTGQSSMAIAAGANLILGPMTFVLESKLSMLSPSGRSRMWDAGADGYARGEAVCSVVLKTLSQALRDGDTIECVIRETGVNQDGRTTGITMPNHSAQEALIKATYAQAGLDITKAEDRCQFFEAHGTGTPAGDPQEAEAIATAFFGHERAPLFVGSAKTVVGHTEGTAGLAGLMKASFAVRHGVIPPNLLFDKISPRVAPFYKNLRIPTEATQWPALPPGQPRRASVNSFGFGGTNAHAIIEEYMEPLSLPLVLSAKSQRSLKIMMEEMLQFLQSHPEIHLHDLTWSLLRKRSVLPFRRAIVGHSHETIRRALEDAIEDGIVSSDGQPSVLGIFTGQGAQWPGMLKNLIEASPYVRNIVRELDDSLQSLPEKYRPSWTLLDQFMLEGEASNVQYATFSQPLCCAVQIVLVRLLEAARIRFTAVVGHSSGEIACAFAAGLISASLAIRIAYLRGVASNSPDSVTFSGDAYHSHHMLPCADPYMQALEECGSVPWYSSVDAENRQMAARDVTAKYWKDNLVSPVLFSHAVQRAVVTHKALDIGIEVGCHPALKSPCVATIKDVLSGVDLAYTGCLERGKNDLDSFSRALAYLWERFGASSFDADEFMRAVAPDRPCMSVSKLLPAYPWDRSRRYWVESRATRHHLRGPKPHLLLGKLSEYSTPLSFQWLNFVRPRDIEWLDGHALQGQTVFPAAGYIVMAMEAALMIAGTHAKQVKLLEILDMSIDKAVIFDDEDSLVELNLTADVSRNAGEAGSMTISFKIDSCLSKEGNLSLSAKGQLALTIEDVHHLPPPEEEHPHMNRVNINAFYHELGLMGYNYSKDFRRLHNMQRADLRASGTLDFIPLMDEGNGCPLLLHPASLDVAFQTVIGAYSSPGDRRLRCLYVPTHVDRITLVPSLCLATAESGCEKVAFNTINTYDKGDYLSGDIVVFDAEQTTLFQVENITFKPFSPPDASTDHAMFARWSWGPLTPDSLLDNPEYWATAQDKEAIPIIERIVYFYIRSFLSQLTLEERQQAAFHLQKQIEWLEQVLASAKEGRHLWYDPGWENDTEAQIEHLCTANSYHPHVRLVQRVGQHLLPTVRSNGNPFDLLDHDGLLTEFYTNTLSFGPALHYARELVAQIAHRYQSMDILEIGAGTGGATKYVLATPQLGFNSYTYTDISTGFFEQAREQFAPFEDRMVFEPLDIRRSPAEQGFEPHAYDLIIASNVLHATPDLEKTMAHARSLLKPGGQMVILEITHKEHTRLGFIFGLFADWWAGVDDGRCTEPFVSFDRWDAILKRVGFSGVDSRTTDRDANLFPTSVFSTHAIDATVEYYPPLVVVGGQTPQSQRLLNDIKAIMPPRPLQTYKRLVDLLDAEELPMKSTFVMLTELDEELFAGLTEETFEATKLLLTYASNTVWLTENAWVQHPHQASTIGMLRSIRREHPDLGVHVLDVDAVETVEQVLRLEEHTDELASSTTWTQEPEVSWCKGRPWIPRLKRDLARNNRMNSSRRPIYEMIDSSRAPVALQTARDSSSYFLESAETWFVPESVQQMETKTIYVHFSCPHALRVQALGFFYLVQGHVQEGNREVPVVALAERNASIVHVRPDYIYTEADNNLSEGGGSLMVTVLAAAVLAETVISVTDSILVLNPPSICGQMLLHAGEEIGLQVHLATTSSWLTLHARDTDWHLRRVLPRGVQALVDLSADQSCEGLTQRMMKVLMPGCAHYRAADLFTDTVSLPAAYWEHVVSLARQGLPSVSEGWEVMPCTQFAAHADKTRPDLSTVISWPRESDEATLPTRVRSIDAETLFAADKTYLLVGLTGDLGRSLGRWMVQHGACHIVLTSRNPQVNPKWLAHVEELGGRVTVLSMDVTSQNSVEAGLAKLKDLHLPPVGGIAFGPLVLQDVMLNNMELPMMEMVLNPKVEGVRILHEKFSDPTSSNPLDFFVMFSSIVAVMGNPGQANYSAANCYLQALAQQRVASGLAASTIDIGAVYGVGFVTRAELEEDFNAIRFMFDSVEEHELHTLFAEAVVAGRRAVHQQEQQRKFATVLDMADLELTTGIPPLDPALKDRITFFDDPRIGNLKIPEY 7cq0-a1-m1-cA_7cq0-a1-m4-cA Crystal structure of Streptoavidin-C1 from Streptomyces cinamonensis A0A0M8UVL7 A0A0M8UVL7 2.03 X-RAY DIFFRACTION 173 1.0 1519487 (Streptomyces sp. H036) 1519487 (Streptomyces sp. H036) 140 140 7cpz-a1-m1-cA_7cpz-a1-m4-cA 7cpz-a1-m2-cA_7cpz-a1-m3-cA 7cq0-a1-m2-cA_7cq0-a1-m3-cA PGILGTWYNQLGSVMVVTRAANGGFVGTYESAVGNAEKRYVMTGRYDSAPADGTGTAVGWTVAYRNAHRNAHSVATWSGQYVGGSQERIVTQWLLSYGTTPADQWKSTFLGHDEFTRVKPSAADVEKARQLGVTSANPPA PGILGTWYNQLGSVMVVTRAANGGFVGTYESAVGNAEKRYVMTGRYDSAPADGTGTAVGWTVAYRNAHRNAHSVATWSGQYVGGSQERIVTQWLLSYGTTPADQWKSTFLGHDEFTRVKPSAADVEKARQLGVTSANPPA 7cq0-a1-m2-cA_7cq0-a1-m4-cA Crystal structure of Streptoavidin-C1 from Streptomyces cinamonensis A0A0M8UVL7 A0A0M8UVL7 2.03 X-RAY DIFFRACTION 16 1.0 1519487 (Streptomyces sp. H036) 1519487 (Streptomyces sp. H036) 140 140 7cpz-a1-m1-cA_7cpz-a1-m3-cA 7cpz-a1-m2-cA_7cpz-a1-m4-cA 7cq0-a1-m1-cA_7cq0-a1-m3-cA PGILGTWYNQLGSVMVVTRAANGGFVGTYESAVGNAEKRYVMTGRYDSAPADGTGTAVGWTVAYRNAHRNAHSVATWSGQYVGGSQERIVTQWLLSYGTTPADQWKSTFLGHDEFTRVKPSAADVEKARQLGVTSANPPA PGILGTWYNQLGSVMVVTRAANGGFVGTYESAVGNAEKRYVMTGRYDSAPADGTGTAVGWTVAYRNAHRNAHSVATWSGQYVGGSQERIVTQWLLSYGTTPADQWKSTFLGHDEFTRVKPSAADVEKARQLGVTSANPPA 7cq0-a1-m3-cA_7cq0-a1-m4-cA Crystal structure of Streptoavidin-C1 from Streptomyces cinamonensis A0A0M8UVL7 A0A0M8UVL7 2.03 X-RAY DIFFRACTION 54 1.0 1519487 (Streptomyces sp. H036) 1519487 (Streptomyces sp. H036) 140 140 7cpz-a1-m1-cA_7cpz-a1-m2-cA 7cpz-a1-m3-cA_7cpz-a1-m4-cA 7cq0-a1-m1-cA_7cq0-a1-m2-cA PGILGTWYNQLGSVMVVTRAANGGFVGTYESAVGNAEKRYVMTGRYDSAPADGTGTAVGWTVAYRNAHRNAHSVATWSGQYVGGSQERIVTQWLLSYGTTPADQWKSTFLGHDEFTRVKPSAADVEKARQLGVTSANPPA PGILGTWYNQLGSVMVVTRAANGGFVGTYESAVGNAEKRYVMTGRYDSAPADGTGTAVGWTVAYRNAHRNAHSVATWSGQYVGGSQERIVTQWLLSYGTTPADQWKSTFLGHDEFTRVKPSAADVEKARQLGVTSANPPA 7cq5-a1-m1-cD_7cq5-a1-m1-cC Structure of the human CLCN7-OSTM1 complex with ATP P51798 P51798 2.6 ELECTRON MICROSCOPY 183 0.999 9606 (Homo sapiens) 9606 (Homo sapiens) 679 681 7bxu-a1-m1-cA_7bxu-a1-m1-cB 7cq6-a1-m1-cC_7cq6-a1-m1-cD 7cq7-a1-m1-cC_7cq7-a1-m1-cD 7jm7-a1-m1-cA_7jm7-a1-m1-cC YESLDYDNSENQLFLEEERRINHTAFRTVEIKRWVICALIGILTGLVACFIDIVVENLAGLKYRVIKGNIDKFTEKGGLSFSLLLWATLNAAFVLVGSVIVAFIEPVAAGSGIPQIKCFLNGVKIPHVVRLKTLVIKVSGVILSVVGGLAVGKEGPMIHSGSVIAAGISQGRSTSLKRDFKIFEYFRRDTEKRDFVSAGAAAGVSAAFGAPVGGVLFSLEEGASFWNQFLTWRIFFASMISTFTLNFVLSIYHGNMWDLSSPGLINFGRFDSEKMAYTIHEIPVFIAMGVVGGVLGAVFNALNYWLTMFRIRYIHRPCLQVIEAVLVAAVTATVAFVLIYSSRDCQPLQGGSMSYPLQLFCADGEYNSMAAAFFNTPEKSVVSLFHDPPGSYNPLTLGLFTLVYFFLACWTYGLTVSAGVFIPSLLIGAAWGRLFGISLSYLTGAAIWADPGKYALMGAAAQLGGIVRMTLSLTVIMMEATSNVTYGFPIMLVLMTAKIVGDVFIEGLYDMHIQLQSVPFLHWEAPVTSHSLTAREVMSTPVTCLRRREKVGVIVDVLSDTASNHNGFPVVARLQGLILRSQLIVLLKHKVFVELRLKDFRDAYPRFPPIQSIHVSQDERECTMDLSEFMNPSPYTVPQEASLPRVFKLFRALGLRHLVVVDNRNQVVGLVTRKDLARY YESLDYDNSENQLFLEEERRINHTAFRTVEIKRWVICALIGILTGLVACFIDIVVENLAGLKYRVIKGNIDKFTEKGGLSFSLLLWATLNAAFVLVGSVIVAFIEPVAAGSGIPQIKCFLNGVKIPHVVRLKTLVIKVSGVILSVVGGLAVGKEGPMIHSGSVIAAGISQGRSTSLKRDFKIFEYFRRDTEKRDFVSAGAAAGVSAAFGAPVGGVLFSLEEGASFWNQFLTWRIFFASMISTFTLNFVLSIYHGNMWDLSSPGLINFGRFDSEKMAYTIHEIPVFIAMGVVGGVLGAVFNALNYWLTMFRIRYIHRPCLQVIEAVLVAAVTATVAFVLIYSSRDCQPLQGGSMSYPLQLFCADGEYNSMAAAFFNTPEKSVVSLFHDPPGSYNPLTLGLFTLVYFFLACWTYGLTVSAGVFIPSLLIGAAWGRLFGISLSYLTGAAIWADPGKYALMGAAAQLGGIVRMTLSLTVIMMEATSNVTYGFPIMLVLMTAKIVGDVFIEGLYDMHIQLQSVPFLHWEAPVTSHSLTAREVMSTPVTCLRRREKVGVIVDVLSDTASNHNGFPVVEARLQGLILRSQLIVLLKHKVFVRRLRLKDFRDAYPRFPPIQSIHVSQDERECTMDLSEFMNPSPYTVPQEASLPRVFKLFRALGLRHLVVVDNRNQVVGLVTRKDLARY 7cq6-a1-m1-cB_7cq6-a1-m1-cA Structure of the human CLCN7-OSTM1 complex Q86WC4 Q86WC4 3.0 ELECTRON MICROSCOPY 132 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 208 209 7bxu-a1-m1-cC_7bxu-a1-m1-cD 7cq5-a1-m1-cA_7cq5-a1-m1-cB 7cq7-a1-m1-cA_7cq7-a1-m1-cB 7jm7-a1-m1-cB_7jm7-a1-m1-cD LPPDLPDLDPECRELLLDFANSSAELTGCLVRSARPVRLCQTCYPLFQQVVSKMDNISRCARSLLMADRMQIVVILSEFFNTTWQEANCANCLTNNSEELSNSTVYFLNLFNHTLTCFEHNLQNYSEVCKNCREAYKTLSSLYSEMQKMNELENHLCIDVEDAMNITRKLWSRTFNCSVPCSDTVPVIAVSVFILFLPVVFYLSSFLH SLPPDLPDLDPECRELLLDFANSSAELTGCLVRSARPVRLCQTCYPLFQQVVSKMDNISRCARSLLMADRMQIVVILSEFFNTTWQEANCANCLTNNSEELSNSTVYFLNLFNHTLTCFEHNLNYSEVCKNCREAYKTLSSLYSEMQKMNELETHLCIDVEDAMNITRKLWSRTFNCSVPCSDTVPVIAVSVFILFLPVVFYLSSFLHS 7cql-a1-m3-cA_7cql-a1-m4-cC Apo GmaS without ligand A0A369R1N0 A0A369R1N0 2.801 X-RAY DIFFRACTION 11 1.0 2203891 (Rhodovulum sp. 12E13) 2203891 (Rhodovulum sp. 12E13) 421 421 7cql-a1-m1-cA_7cql-a1-m2-cC 7cql-a1-m1-cC_7cql-a1-m2-cA 7cql-a1-m3-cC_7cql-a1-m4-cA 7cqw-a1-m1-cB_7cqw-a1-m2-cA 7cqw-a1-m1-cC_7cqw-a1-m3-cC 7cqw-a1-m2-cB_7cqw-a1-m1-cA 7cqw-a1-m2-cC_7cqw-a1-m4-cC 7cqw-a1-m3-cB_7cqw-a1-m4-cA 7cqw-a1-m4-cB_7cqw-a1-m3-cA 7cqx-a1-m1-cA_7cqx-a1-m2-cB 7cqx-a1-m1-cB_7cqx-a1-m2-cA 7cqx-a1-m1-cC_7cqx-a1-m3-cC 7cqx-a1-m2-cC_7cqx-a1-m4-cC 7cqx-a1-m3-cA_7cqx-a1-m4-cB 7cqx-a1-m3-cB_7cqx-a1-m4-cA MTDLASIAREKGIEFFLISFTDLLGVQRAKLVPARAIADMAVNGAGFAGFAAWLDMSPADADILAIPDPESLIQLPWKPSVGWLAADVHFEGRPFPKAPRVALKSVLARAAGKDMHLKHGVECEFFLIQPDGSAISDPADTQAKPCYDQDALMRRFDVIAEICSYMVDLGWGPYQNDHEDANGQFEMNWDYADALVTADRHAFFKFMVKSVAERHGLRATFMPKPFAHLTGNGCHTHLSMWTAAGDNLFEGDGELGLSPTAYAFLGGLIGHAKGLTAVVNPTVNSYKRLNASPNTITYGGNNRTHMVRIPDAGRLELRLPDGAANPYLMPAAILAAGLDGIETQADPGQRLDIDMYVEGHSVEAEQLPLNLLDAVRALEADEVLAGGLGAAAAAFAKFKRAEWADYKSQLTEWERRTTLDC MTDLASIAREKGIEFFLISFTDLLGVQRAKLVPARAIADMAVNGAGFAGFAAWLDMSPADADILAIPDPESLIQLPWKPSVGWLAADVHFEGRPFPKAPRVALKSVLARAAGKDMHLKHGVECEFFLIQPDGSAISDPADTQAKPCYDQDALMRRFDVIAEICSYMVDLGWGPYQNDHEDANGQFEMNWDYADALVTADRHAFFKFMVKSVAERHGLRATFMPKPFAHLTGNGCHTHLSMWTAAGDNLFEGDGELGLSPTAYAFLGGLIGHAKGLTAVVNPTVNSYKRLNASPNTITYGGNNRTHMVRIPDAGRLELRLPDGAANPYLMPAAILAAGLDGIETQADPGQRLDIDMYVEGHSVEAEQLPLNLLDAVRALEADEVLAGGLGAAAAAFAKFKRAEWADYKSQLTEWERRTTLDC 7cqn-a1-m3-cA_7cqn-a1-m4-cC GmaS in complex with AMPPCP A0A369R1N0 A0A369R1N0 1.962 X-RAY DIFFRACTION 102 1.0 2203891 (Rhodovulum sp. 12E13) 2203891 (Rhodovulum sp. 12E13) 429 429 7cql-a1-m1-cA_7cql-a1-m1-cB 7cql-a1-m1-cA_7cql-a1-m1-cC 7cql-a1-m1-cB_7cql-a1-m4-cC 7cql-a1-m1-cC_7cql-a1-m4-cB 7cql-a1-m2-cA_7cql-a1-m2-cB 7cql-a1-m2-cA_7cql-a1-m2-cC 7cql-a1-m2-cB_7cql-a1-m3-cC 7cql-a1-m2-cC_7cql-a1-m3-cB 7cql-a1-m3-cA_7cql-a1-m3-cB 7cql-a1-m3-cA_7cql-a1-m3-cC 7cql-a1-m4-cA_7cql-a1-m4-cB 7cql-a1-m4-cA_7cql-a1-m4-cC 7cqn-a1-m1-cA_7cqn-a1-m1-cB 7cqn-a1-m1-cA_7cqn-a1-m2-cC 7cqn-a1-m1-cB_7cqn-a1-m3-cC 7cqn-a1-m1-cC_7cqn-a1-m2-cA 7cqn-a1-m1-cC_7cqn-a1-m3-cB 7cqn-a1-m2-cA_7cqn-a1-m2-cB 7cqn-a1-m2-cB_7cqn-a1-m4-cC 7cqn-a1-m2-cC_7cqn-a1-m4-cB 7cqn-a1-m3-cA_7cqn-a1-m3-cB 7cqn-a1-m3-cC_7cqn-a1-m4-cA 7cqn-a1-m4-cA_7cqn-a1-m4-cB 7cqq-a1-m1-cA_7cqq-a1-m1-cB 7cqq-a1-m1-cA_7cqq-a1-m1-cC 7cqq-a1-m1-cB_7cqq-a1-m4-cC 7cqq-a1-m1-cC_7cqq-a1-m4-cB 7cqq-a1-m2-cA_7cqq-a1-m2-cB 7cqq-a1-m2-cA_7cqq-a1-m2-cC 7cqq-a1-m2-cB_7cqq-a1-m3-cC 7cqq-a1-m2-cC_7cqq-a1-m3-cB 7cqq-a1-m3-cA_7cqq-a1-m3-cB 7cqq-a1-m3-cA_7cqq-a1-m3-cC 7cqq-a1-m4-cA_7cqq-a1-m4-cB 7cqq-a1-m4-cA_7cqq-a1-m4-cC 7cqu-a1-m1-cA_7cqu-a1-m1-cB 7cqu-a1-m1-cA_7cqu-a1-m3-cC 7cqu-a1-m1-cB_7cqu-a1-m2-cC 7cqu-a1-m1-cC_7cqu-a1-m2-cB 7cqu-a1-m1-cC_7cqu-a1-m3-cA 7cqu-a1-m2-cA_7cqu-a1-m2-cB 7cqu-a1-m2-cA_7cqu-a1-m4-cC 7cqu-a1-m2-cC_7cqu-a1-m4-cA 7cqu-a1-m3-cA_7cqu-a1-m3-cB 7cqu-a1-m3-cB_7cqu-a1-m4-cC 7cqu-a1-m3-cC_7cqu-a1-m4-cB 7cqu-a1-m4-cA_7cqu-a1-m4-cB 7cqw-a1-m1-cB_7cqw-a1-m1-cA 7cqw-a1-m1-cB_7cqw-a1-m2-cC 7cqw-a1-m1-cC_7cqw-a1-m2-cB 7cqw-a1-m1-cC_7cqw-a1-m3-cA 7cqw-a1-m2-cB_7cqw-a1-m2-cA 7cqw-a1-m2-cC_7cqw-a1-m4-cA 7cqw-a1-m3-cB_7cqw-a1-m3-cA 7cqw-a1-m3-cB_7cqw-a1-m4-cC 7cqw-a1-m3-cC_7cqw-a1-m1-cA 7cqw-a1-m3-cC_7cqw-a1-m4-cB 7cqw-a1-m4-cB_7cqw-a1-m4-cA 7cqw-a1-m4-cC_7cqw-a1-m2-cA 7cqx-a1-m1-cA_7cqx-a1-m1-cB 7cqx-a1-m1-cA_7cqx-a1-m2-cC 7cqx-a1-m1-cB_7cqx-a1-m3-cC 7cqx-a1-m1-cC_7cqx-a1-m2-cA 7cqx-a1-m1-cC_7cqx-a1-m3-cB 7cqx-a1-m2-cA_7cqx-a1-m2-cB 7cqx-a1-m2-cB_7cqx-a1-m4-cC 7cqx-a1-m2-cC_7cqx-a1-m4-cB 7cqx-a1-m3-cA_7cqx-a1-m3-cB 7cqx-a1-m3-cA_7cqx-a1-m4-cC 7cqx-a1-m3-cC_7cqx-a1-m4-cA 7cqx-a1-m4-cA_7cqx-a1-m4-cB TDLASIAREKGIEFFLISFTDLLGVQRAKLVPARAIADMAVNGAGFAGFAAWLDMSPADADILAIPDPESLIQLPWKPSVGWLAADVHFEGRPFPKAPRVALKSVLARAAGKDMHLKHGVECEFFLIQPDGSAISDPADTQAKPCYDQDALMRRFDVIAEICSYMVDLGWGPYQNDHEDANGQFEMNWDYADALVTADRHAFFKFMVKSVAERHGLRATFMPKPFAHLTGNGCHTHLSMWTAAGDNLFEGDGELGLSPTAYAFLGGLIGHAKGLTAVVNPTVNSYKRLNAPVTVSGATWSPNTITYGGNNRTHMVRIPDAGRLELRLPDGAANPYLMPAAILAAGLDGIETQADPGQRLDIDMYVEGHSVEAEQLPLNLLDAVRALEADEVLAGGLGAAAAAFAKFKRAEWADYKSQLTEWERRTTLDC TDLASIAREKGIEFFLISFTDLLGVQRAKLVPARAIADMAVNGAGFAGFAAWLDMSPADADILAIPDPESLIQLPWKPSVGWLAADVHFEGRPFPKAPRVALKSVLARAAGKDMHLKHGVECEFFLIQPDGSAISDPADTQAKPCYDQDALMRRFDVIAEICSYMVDLGWGPYQNDHEDANGQFEMNWDYADALVTADRHAFFKFMVKSVAERHGLRATFMPKPFAHLTGNGCHTHLSMWTAAGDNLFEGDGELGLSPTAYAFLGGLIGHAKGLTAVVNPTVNSYKRLNAPVTVSGATWSPNTITYGGNNRTHMVRIPDAGRLELRLPDGAANPYLMPAAILAAGLDGIETQADPGQRLDIDMYVEGHSVEAEQLPLNLLDAVRALEADEVLAGGLGAAAAAFAKFKRAEWADYKSQLTEWERRTTLDC 7cqu-a1-m4-cA_7cqu-a1-m4-cC GmaS/ADP/MetSox-P complex A0A369R1N0 A0A369R1N0 2.06 X-RAY DIFFRACTION 102 1.0 2203891 (Rhodovulum sp. 12E13) 2203891 (Rhodovulum sp. 12E13) 429 429 7cql-a1-m1-cA_7cql-a1-m3-cB 7cql-a1-m1-cB_7cql-a1-m3-cA 7cql-a1-m1-cC_7cql-a1-m2-cC 7cql-a1-m2-cA_7cql-a1-m4-cB 7cql-a1-m2-cB_7cql-a1-m4-cA 7cql-a1-m3-cC_7cql-a1-m4-cC 7cqn-a1-m1-cA_7cqn-a1-m2-cA 7cqn-a1-m1-cB_7cqn-a1-m1-cC 7cqn-a1-m2-cB_7cqn-a1-m2-cC 7cqn-a1-m3-cA_7cqn-a1-m4-cA 7cqn-a1-m3-cB_7cqn-a1-m3-cC 7cqn-a1-m4-cB_7cqn-a1-m4-cC 7cqq-a1-m1-cA_7cqq-a1-m3-cB 7cqq-a1-m1-cB_7cqq-a1-m3-cA 7cqq-a1-m1-cC_7cqq-a1-m2-cC 7cqq-a1-m2-cA_7cqq-a1-m4-cB 7cqq-a1-m2-cB_7cqq-a1-m4-cA 7cqq-a1-m3-cC_7cqq-a1-m4-cC 7cqu-a1-m1-cA_7cqu-a1-m1-cC 7cqu-a1-m1-cB_7cqu-a1-m2-cB 7cqu-a1-m2-cA_7cqu-a1-m2-cC 7cqu-a1-m3-cA_7cqu-a1-m3-cC 7cqu-a1-m3-cB_7cqu-a1-m4-cB 7cqw-a1-m1-cB_7cqw-a1-m2-cB 7cqw-a1-m1-cC_7cqw-a1-m1-cA 7cqw-a1-m2-cC_7cqw-a1-m2-cA 7cqw-a1-m3-cB_7cqw-a1-m4-cB 7cqw-a1-m3-cC_7cqw-a1-m3-cA 7cqw-a1-m4-cC_7cqw-a1-m4-cA 7cqx-a1-m1-cA_7cqx-a1-m2-cA 7cqx-a1-m1-cB_7cqx-a1-m1-cC 7cqx-a1-m2-cB_7cqx-a1-m2-cC 7cqx-a1-m3-cA_7cqx-a1-m4-cA 7cqx-a1-m3-cB_7cqx-a1-m3-cC 7cqx-a1-m4-cB_7cqx-a1-m4-cC TDLASIAREKGIEFFLISFTDLLGVQRAKLVPARAIADMAVNGAGFAGFAAWLDMSPADADILAIPDPESLIQLPWKPSVGWLAADVHFEGRPFPKAPRVALKSVLARAAGKDMHLKHGVECEFFLIQPDGSAISDPADTQAKPCYDQDALMRRFDVIAEICSYMVDLGWGPYQNDHEDANGQFEMNWDYADALVTADRHAFFKFMVKSVAERHGLRATFMPKPFAHLTGNGCHTHLSMWTAAGDNLFEGDGELGLSPTAYAFLGGLIGHAKGLTAVVNPTVNSYKRLNAPVTVSGATWSPNTITYGGNNRTHMVRIPDAGRLELRLPDGAANPYLMPAAILAAGLDGIETQADPGQRLDIDMYVEGHSVEAEQLPLNLLDAVRALEADEVLAGGLGAAAAAFAKFKRAEWADYKSQLTEWERRTTLDC TDLASIAREKGIEFFLISFTDLLGVQRAKLVPARAIADMAVNGAGFAGFAAWLDMSPADADILAIPDPESLIQLPWKPSVGWLAADVHFEGRPFPKAPRVALKSVLARAAGKDMHLKHGVECEFFLIQPDGSAISDPADTQAKPCYDQDALMRRFDVIAEICSYMVDLGWGPYQNDHEDANGQFEMNWDYADALVTADRHAFFKFMVKSVAERHGLRATFMPKPFAHLTGNGCHTHLSMWTAAGDNLFEGDGELGLSPTAYAFLGGLIGHAKGLTAVVNPTVNSYKRLNAPVTVSGATWSPNTITYGGNNRTHMVRIPDAGRLELRLPDGAANPYLMPAAILAAGLDGIETQADPGQRLDIDMYVEGHSVEAEQLPLNLLDAVRALEADEVLAGGLGAAAAAFAKFKRAEWADYKSQLTEWERRTTLDC 7cqv-a1-m1-cE_7cqv-a1-m1-cA Complex of TRP_CBS1 and Calmodulin_Nlobe C6SUZ2 C6SUZ2 1.78 X-RAY DIFFRACTION 17 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 77 80 MADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKM GPMADQLTEEQIAEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLTMMARKMK 7cr2-a1-m1-cC_7cr2-a1-m1-cD human KCNQ2 in complex with retigabine O43526 O43526 3.2 ELECTRON MICROSCOPY 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 251 251 7cr0-a1-m1-cA_7cr0-a1-m1-cB 7cr0-a1-m1-cA_7cr0-a1-m1-cD 7cr0-a1-m1-cB_7cr0-a1-m1-cC 7cr0-a1-m1-cC_7cr0-a1-m1-cD 7cr1-a1-m1-cA_7cr1-a1-m1-cB 7cr1-a1-m1-cA_7cr1-a1-m1-cD 7cr1-a1-m1-cB_7cr1-a1-m1-cC 7cr1-a1-m1-cC_7cr1-a1-m1-cD 7cr2-a1-m1-cA_7cr2-a1-m1-cB 7cr2-a1-m1-cA_7cr2-a1-m1-cD 7cr2-a1-m1-cB_7cr2-a1-m1-cC 7cr3-a1-m1-cA_7cr3-a1-m1-cB 7cr3-a1-m1-cA_7cr3-a1-m1-cG 7cr3-a1-m1-cB_7cr3-a1-m1-cD 7cr3-a1-m1-cD_7cr3-a1-m1-cG 7cr4-a1-m1-cA_7cr4-a1-m1-cB 7cr4-a1-m1-cA_7cr4-a1-m1-cD 7cr4-a1-m1-cB_7cr4-a1-m1-cF 7cr4-a1-m1-cD_7cr4-a1-m1-cF 7cr7-a1-m1-cA_7cr7-a1-m1-cB 7cr7-a1-m1-cA_7cr7-a1-m1-cG 7cr7-a1-m1-cB_7cr7-a1-m1-cD 7cr7-a1-m1-cD_7cr7-a1-m1-cG RNAFYRKLQNFLYNVLERPRGWAFIYHAYVFLLVFSCLVLSVFSTIKEYEKSSEGALYILEIVTIVVFGVEYFVRIWAAGCCCRYRGWRGRLKFARKPFCVIDIMVLIASIAVLASALRSLRFLQILRMIRMDRRGGTWKLLGSVVYAHSKELVTAWYIGFLCLILASFLVYLAEKGENDHFDTYADALWWGLITLTTIGYGDKYPQTWNGRLLAATFTLIGVSFFALPAGILGSGFALKVQEQHRQKHFE RNAFYRKLQNFLYNVLERPRGWAFIYHAYVFLLVFSCLVLSVFSTIKEYEKSSEGALYILEIVTIVVFGVEYFVRIWAAGCCCRYRGWRGRLKFARKPFCVIDIMVLIASIAVLASALRSLRFLQILRMIRMDRRGGTWKLLGSVVYAHSKELVTAWYIGFLCLILASFLVYLAEKGENDHFDTYADALWWGLITLTTIGYGDKYPQTWNGRLLAATFTLIGVSFFALPAGILGSGFALKVQEQHRQKHFE 7cr8-a6-m1-cD_7cr8-a6-m1-cC Synechocystis Cas1-Cas2-prespacerL complex Q6ZEI2 Q6ZEI2 3.7 X-RAY DIFFRACTION 111 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 322 325 7cr6-a1-m1-cA_7cr6-a1-m1-cB 7cr6-a1-m1-cD_7cr6-a1-m1-cC 7cr8-a1-m1-cI_7cr8-a1-m1-cJ 7cr8-a1-m1-cL_7cr8-a1-m1-cK 7cr8-a2-m1-cQ_7cr8-a2-m1-cR 7cr8-a2-m1-cT_7cr8-a2-m1-cS 7cr8-a3-m1-ca_7cr8-a3-m1-cb 7cr8-a3-m1-cd_7cr8-a3-m1-cc 7cr8-a4-m1-ci_7cr8-a4-m1-cj 7cr8-a4-m1-cl_7cr8-a4-m1-ck 7cr8-a5-m1-cq_7cr8-a5-m1-cr 7cr8-a5-m1-ct_7cr8-a5-m1-cs 7cr8-a6-m1-cA_7cr8-a6-m1-cB MSTLYLTQPDAVLSKKHEAFHVALKQEDGSWKKQPIPAQTLEDIVLLGYPSITGEALGYALELGLPVHYLTQFGKYVGSALPSESRNGQLRLAQFRAHEDPIQRLDIVKAFVKGKVHNQYNLLYRRGQVDNPLKGRGKLVMRQQTLEQVRGIEGLAAREYFASWQEMLGHEWTFTGRFRRPPTDPVNALLSFGYGLLRTQVTAAVHIAGLDPYIGFLHETTRGQPAMILDLMEEFRALVADSVVLTVLKQREIQRQDFTESLGAFRLTDSATKTFLGAFDRKLSSEFKHFNYKCTYRRAIELQARLLARHLQEGVVYEPLVI MSTLYLTQPDAVLSKKHEAFHVALKQEDGSWKKQPIPAQTLEDIVLLGYPSITGEALGYALELGLPVHYLTQFGKYVGSALPSESRNGQLRLAQFRAHEDPIQRLDIVKAFVKGKVHNQYNLLYRRGQVDNPLKGRGKLVMRQQTLEQVRGIEGLAAREYFASWQEMLGHEWTFTGRFRRPPTDPVNALLSFGYGLLRTQVTAAVHIAGLDPYIGFLHETTRGQPAMILDLMEEFRALVADSVVLTVLKQREIQRQDFTESLGAFRLTDSATKTFLGAFDRKLSSEFKHPIFNYKCTYRRAIELQARLLARHLQEGVVYEPLVIR 7cr8-a6-m1-cE_7cr8-a6-m1-cF Synechocystis Cas1-Cas2-prespacerL complex Q6ZEI1 Q6ZEI1 3.7 X-RAY DIFFRACTION 88 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 93 93 7cr6-a1-m1-cE_7cr6-a1-m1-cF 7cr8-a1-m1-cM_7cr8-a1-m1-cN 7cr8-a2-m1-cU_7cr8-a2-m1-cV 7cr8-a3-m1-ce_7cr8-a3-m1-cf 7cr8-a4-m1-cm_7cr8-a4-m1-cn 7cr8-a5-m1-cu_7cr8-a5-m1-cv MLYLIIYDVPATKAGNKRRTRLFDLLSGYGKWRQFSVFECFLSVKQFAKLQTAMEKLIKLDEDAVCIYVLDENTVQRTITYGTPQPEKPGSII MLYLIIYDVPATKAGNKRRTRLFDLLSGYGKWRQFSVFECFLSVKQFAKLQTAMEKLIKLDEDAVCIYVLDENTVQRTITYGTPQPEKPGSII 7cr9-a1-m1-cB_7cr9-a1-m1-cA Crystal structure of the N-terminal fragment (residue 1-206) of LonA protease from Meiothermus taiwanensis A0A059VAZ3 A0A059VAZ3 2.095 X-RAY DIFFRACTION 28 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 206 207 HMRLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELD HMRLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELD 7crc-a1-m1-cC_7crc-a1-m1-cD Cryo-EM structure of plant NLR RPP1 tetramer in complex with ATR1 Q9ZSN5 Q9ZSN5 3.02 ELECTRON MICROSCOPY 110 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 1108 1112 7crc-a1-m1-cA_7crc-a1-m1-cB 7crc-a1-m1-cA_7crc-a1-m1-cD 7crc-a1-m1-cC_7crc-a1-m1-cB 7dfv-a1-m1-cA_7dfv-a1-m1-cB 7dfv-a1-m1-cA_7dfv-a1-m1-cD 7dfv-a1-m1-cC_7dfv-a1-m1-cB 7dfv-a1-m1-cC_7dfv-a1-m1-cD HQVFPSFHGADVRKTILSHILESFRRKGIDPFIDNNIERSKSIGHELKEAIKGSKIAIVLLSKNYASSSWCLDELAEIMKCRELLGQIVMTIFYEVDPTDIKKQTGEFGKAFTKTCKGKTKEYVERWRKALEDVATIAGYHSHKWRNEADMIEKIATDVSNMLNSFKPSRDFNGLVGMRAHMDMLEQLLRLVLDEVRMIGIWGPPGIGKTTIARFLFNQVSDRFQLSAIMVNIKGCYPRPCFDEYSAQLQLQNQMLSQMINHKDIMISHLGVAQERLRDKKVFLVLDEVDQLGQLDALAKETRWFGPGSRIIITTEDLGVLKAHGINHVYKVGYPSNDEAFQIFCMNAFGQKQPHEGFDEIAREVMALAGELPLGLKVLGSALRGKSKPEWERTLPRLKTSLDGKIGSIIQFSYDALCDEDKYLFLYIACLFNKESTTKVEGLLGKFLDVRQGLHILAQKSLISIEDGNIYMHTLLEQFGRETSRKQFIHHGYTKHQLLVGERDICEVLNDDTIDSRRFIGINLDLYKNVEELNISEKALERIHDFQFVRINGKNHALHERLQGLIYQSPQIRSLHWKCYQNICLPSTFNSEFLVELDMSFSKLQKLWEGTKQLRNLKWMDLSYSSYLKELPNLSTATNLEELKLRNCSSLVELPSSIEKLTSLQILDLHRCSSLVELPSFGNATKLEILNLENCSSLVKLPPSINANNLQELSLTNCSRVVELPAIENATNLWKLNLLNCSSLIELPLSIGTATNLKHLDFRGCSSLVKLPSSIGDMTNLEVFYLSNCSNLVELPSSIGNLRKLTLLLMRGCSKLETLPTNINLKSLHTLNLIDCSRLKSFPEISTHIKYLRLIGTAIKEVPLSIMSWSPLAHFQISYFESLKEFPHALDIITELQLSKDIQEVPPWVKRMSRLRALRLNNCNNLVSLPQLPDSLAYLYADNCKSLERLDCCFNNPEIRLYFPKCFKLNQEARDLIMHTSTRNFAMLPGTQVPACFNHRATSLKIKLKESPLPTTLTFKACIMLVNEEMSYDLKSMSVDIVIRDEQNDLKVQCTPSYHQCTEIYVLTEHIYTFELEVEEVTSTELVFEFTSVNESICKIGECGILQR RIWKHQVFPSFHGADVRKTILSHILESFRRKGIDPFIDNNIERSKSIGHELKEAIKGSKIAIVLLSKNYASSSWCLDELAEIMKCRELLGQIVMTIFYEVDPTDIKKQTGEFGKAFTKTCKGKTKEYVERWRKALEDVATIAGYHSHKWRNEADMIEKIATDVSNMLNSFKPSRDFNGLVGMRAHMDMLEQLLRLVLDEVRMIGIWGPPGIGKTTIARFLFNQVSDRFQLSAIMVNIKGCYPRPCFDEYSAQLQLQNQMLSQMINHKDIMISHLGVAQERLRDKKVFLVLDEVDQLGQLDALAKETRWFGPGSRIIITTEDLGVLKAHGINHVYKVGYPSNDEAFQIFCMNAFGQKQPHEGFDEIAREVMALAGELPLGLKVLGSALRGKSKPEWERTLPRLKTSLDGKIGSIIQFSYDALCDEDKYLFLYIACLFNKESTTKVEGLLGKFLDVRQGLHILAQKSLISIEDGNIYMHTLLEQFGRETSRKQFIHHGYTKHQLLVGERDICEVLNDDTIDSRRFIGINLDLYKNVEELNISEKALERIHDFQFVRINGKNHALHERLQGLIYQSPQIRSLHWKCYQNICLPSTFNSEFLVELDMSFSKLQKLWEGTKQLRNLKWMDLSYSSYLKELPNLSTATNLEELKLRNCSSLVELPSSIEKLTSLQILDLHRCSSLVELPSFGNATKLEILNLENCSSLVKLPPSINANNLQELSLTNCSRVVELPAIENATNLWKLNLLNCSSLIELPLSIGTATNLKHLDFRGCSSLVKLPSSIGDMTNLEVFYLSNCSNLVELPSSIGNLRKLTLLLMRGCSKLETLPTNINLKSLHTLNLIDCSRLKSFPEISTHIKYLRLIGTAIKEVPLSIMSWSPLAHFQISYFESLKEFPHALDIITELQLSKDIQEVPPWVKRMSRLRALRLNNCNNLVSLPQLPDSLAYLYADNCKSLERLDCCFNNPEIRLYFPKCFKLNQEARDLIMHTSTRNFAMLPGTQVPACFNHRATSLKIKLKESPLPTTLTFKACIMLVNEEMSYDLKSMSVDIVIRDEQNDLKVQCTPSYHQCTEIYVLTEHIYTFELEVEEVTSTELVFEFTSVNESICKIGECGILQR 7crg-a2-m1-cB_7crg-a2-m2-cB Beta-strand-mediated dimeric formation of the extended Ig-like domains of human lamin A/C P02545 P02545 1.8 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 7crg-a1-m1-cA_7crg-a1-m1-cC ESTESRSSFSQHARTSGRVAVEEVDEEGKFVRLRNKSNEDQSMGNWQIKRQNGDDPLLTYRFPPKFTLKAGQVVTIWAAGAGATHSPPTDLVWKAQNTWGCGNSLRTALINSTGEEVAMRKLVRSVTVVED ESTESRSSFSQHARTSGRVAVEEVDEEGKFVRLRNKSNEDQSMGNWQIKRQNGDDPLLTYRFPPKFTLKAGQVVTIWAAGAGATHSPPTDLVWKAQNTWGCGNSLRTALINSTGEEVAMRKLVRSVTVVED 7crn-a2-m1-cB_7crn-a2-m2-cB The Functional Characterization and Crystal Structure of the Bifunctional Thioesterase Catalyzing Epimerization and Cyclization A0A1J0R317 A0A1J0R317 2.26 X-RAY DIFFRACTION 89 1.0 1227734 (Streptomyces abietis) 1227734 (Streptomyces abietis) 264 264 7crn-a1-m1-cC_7crn-a1-m1-cA 7dxo-a1-m1-cA_7dxo-a1-m1-cB 7dxo-a2-m1-cC_7dxo-a2-m2-cC GDTLDVLLPLRTTGEKAPLFCVHPAGGLSWVYSGLMQHIGADRPLYGLQARGLADPSATLPSSIEEMAADYVTQIRGVQPSGPYHLLGWSLGSLVIHAMATQLRAEGEEVGLLVNLDQYPIDRSRPAPESQPDQQDALRIMLDFVGYDMDSPLDYAMVADVLRERQSVFANLDETAITALANVFANSRSLFGSFAPQPLDSDVLVIVAEPDETVPAAELAARVEQWRPFVTGKIEYQTVRCSHPHMMQPEPAAEIGRLIAEKLG GDTLDVLLPLRTTGEKAPLFCVHPAGGLSWVYSGLMQHIGADRPLYGLQARGLADPSATLPSSIEEMAADYVTQIRGVQPSGPYHLLGWSLGSLVIHAMATQLRAEGEEVGLLVNLDQYPIDRSRPAPESQPDQQDALRIMLDFVGYDMDSPLDYAMVADVLRERQSVFANLDETAITALANVFANSRSLFGSFAPQPLDSDVLVIVAEPDETVPAAELAARVEQWRPFVTGKIEYQTVRCSHPHMMQPEPAAEIGRLIAEKLG 7crv-a1-m1-cB_7crv-a1-m1-cD Crystal structure of rNLRP1-FIIND D9I2F9 D9I2F9 2 X-RAY DIFFRACTION 36 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 142 146 SPMGVLLRMIPAVGHFIPITSITLIYYRLYLEDITFHLYLVPNDCTIRKAIDEEELKFQFVRINKPPPVDALYVGSRYIVSSSKEVEILPKELELCYRSPRESQLFSEIYVGNIGSGINLQLTDKKYMNLIWEALLKPGDLR SPMGVLLRMIPAVGHFIPITSITLIYYRLYLEDITFHLYLVPNDCTIRKAIDEEELKFQFVRINKPPPVDALYVGSRYIVSSSKEVEILPKELELCYRSPRESQLFSEIYVGNIGSGINLQLTDKKYMNLIWEALLKPGDLRPALP 7crw-a1-m1-cB_7crw-a1-m1-cA Cryo-EM structure of rNLRP1-rDPP9 complex D9I2F9 D9I2F9 3.18 ELECTRON MICROSCOPY 39 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 134 279 RMIPAVGHFIPITSITLIYYRLYLEDITFHLYLVPNDCTIRKAIDEEELKFQFVRINKPPPVDALYVGSRYIVSSSKEVEILPKELELCYRSPRESQLFSEIYVGNIGSGINLQLTDKKYMNLIWEALLKPGDL DDDFWGPSGPVSTEVVDRERNLYRVRLPMAGSYHCPSTGLHFVVTRAVTIEIGFCAWSQFLHETPLQHSHMVAGPLFDIKAEHGAVTAVCLPHFVSLQEGKVDSSLFHVAHFQDHGMVLETPARVEPHFAVLENPSFSPMGVLLRMIPAVGHFIPITSITLIYYRLYLEDITFHLYLVPNDCTIRKAIDEEELKFQFVRINKPPPVDALYVGSRYIVSSSKEVEILPKELELCYRSPRESQLFSEIYVGNIGSGINLQLTDKKYMNLIWEALLKPGDLR 7crw-a1-m1-cC_7crw-a1-m1-cD Cryo-EM structure of rNLRP1-rDPP9 complex M0R781 M0R781 3.18 ELECTRON MICROSCOPY 103 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 807 837 ARFCVQKHSWDGLRNIIHGSRKSSKAPHDFQFVQKPDGPHSHRLYYLGMPYGSRENSLLYSEIPKKVRKEALLLLSWKQMLDHFQATPFGITSYDFHSESGLFLFQASNSLFHCRDGGKNGFMVSPMKPLEIKTQCSGPRMDPKICPADPAFFSFINNNDLWVANIETGEERRLTFCHQGVLDNPKSAGVATFVIQEEFDRFTGCWWCPTASWLKTLRILYEEVDESEVEVIHVPSPALEERKTDSYRYPRTGSKNPKIALKLAELQTDHQGKIVSSCEKELVQPFSSLFPKVEYIARAGWTRDGRYAWAMFLDRPQQRLQLVLLPPALFIPTLESEAQWQEAARAIPKNVQPFIIYEEVTNVWINVHDIFHPFPQAEGQQDFCFLRANECKTGFCHLYRVTVDLKTNDYDWTEPLSPAEDEFKCPIKEEVALTSGEWEVLSRHGSKIWVNEQTKLVYFQGTKDTPLEHHLYVVSYESAGEIVRLTTPGFSHSCSMSQNFDMFVSHYSSVSTPPCVHVYKLSGPDDDPLHKQPRFWASMMEAASCPPDYVPPEIFHFHTRADVQLYGMIYKPHTLQPGRKHPTVLFVYGGPQVQLVNNSFKGIKYLRLNTLASLGYAVVVIDGRGSCQRGLHFEGALKNQMGQVEIEDQVEGLQYVAEKYGFIDLSRVAIHGWSYGGFLSLMGLIHKPQVFKVAIAGAPVTVWMAYDTGYTERYMDVPENNQQGYEAGSVALHVEKLPNEPNRLLILHGFLDENVHFFHTNFLVSQLIRAGKPYQLQIYPNERHSIRCRESGEHYEVTLLHFLQEHL ARFCVQKHSWDGLRNIIHGSRKSSGLIVSKAPHDFQFVQKPDESGPHSHRLYYLGMPYGSRENSLLYSEIPKKVRKEALLLLSWKQMLDHFQATPHHGVYSREEELLRERKRLGVFGITSYDFHSESGLFLFQASNSLFHCRDGGKNGFMVSPMKPLEIKTQCSGPRMDPKICPADPAFFSFINNNDLWVANIETGEERRLTFCHQGSASVLDNPKSAGVATFVIQEEFDRFTGCWWCPTASWLKTLRILYEEVDESEVEVIHVPSPALEERKTDSYRYPRTGSKNPKIALKLAELQTDHQGKIVSSCEKELVQPFSSLFPKVEYIARAGWTRDGRYAWAMFLDRPQQRLQLVLLPPALFIPTLESEAQWQEAARAIPKNVQPFIIYEEVTNVWINVHDIFHPFPQAEGQQDFCFLRANECKTGFCHLYRVTVDLKTNDYDWTEPLSPAEDEFKCPIKEEVALTSGEWEVLSRHGSKIWVNEQTKLVYFQGTKDTPLEHHLYVVSYESAGEIVRLTTPGFSHSCSMSQNFDMFVSHYSSVSTPPCVHVYKLSGPDDDPLHKQPRFWASMMEAASCPPDYVPPEIFHFHTRADVQLYGMIYKPHTLQPGRKHPTVLFVYGGPQVQLVNNSFKGIKYLRLNTLASLGYAVVVIDGRGSCQRGLHFEGALKNQMGQVEIEDQVEGLQYVAEKYGFIDLSRVAIHGWSYGGFLSLMGLIHKPQVFKVAIAGAPVTVWMAYDTGYTERYMDVPENNQQGYEAGSVALHVEKLPNEPNRLLILHGFLDENVHFFHTNFLVSQLIRAGKPYQLQIYPNERHSIRCRESGEHYEVTLLHFLQEHL 7cs1-a1-m1-cB_7cs1-a1-m1-cA Aminoglycoside 2'-N-acetyltransferase from Mycolicibacterium smegmatis-Complex with Coenzyme A and Neomycin P94968 P94968 1.966 X-RAY DIFFRACTION 89 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 187 191 7crm-a1-m1-cB_7crm-a1-m1-cA 7crm-a2-m1-cC_7crm-a2-m1-cD 7cs0-a1-m1-cA_7cs0-a1-m1-cB 7csi-a1-m1-cB_7csi-a1-m1-cA 7csj-a1-m1-cB_7csj-a1-m1-cA IHTARLIHTSDLDQETRDGARRMVIEAFRDDFTDDDWDHALGGMHALISHHGALIAHGAVVQRRLMYRGPDGRGHALRCGYVEAVAVREDRRGDGLGTAVLDALEQVIRGAYQIGALSASDIARPMYIARGWLSWEGPTSVLTPTEGIVRTPEDDRSLFVLPVDLPDGLELDTAREITCDWRSGDPW IHTARLIHTSDLDQETRDGARRMVIEAFRDDFTDDFTDDDWDHALGGMHALISHHGALIAHGAVVQRRLMYRGPDGRGHALRCGYVEAVAVREDRRGDGLGTAVLDALEQVIRGAYQIGALSASDIARPMYIARGWLSWEGPTSVLTPTEGIVRTPEDDRSLFVLPVDLPDGLELDTAREITCDWRSGDPW 7cs6-a2-m1-cB_7cs6-a2-m1-cF IiPLR1 with NADP+ and (-)lariciresinol I6LRS1 I6LRS1 2.2014 X-RAY DIFFRACTION 45 1.0 161756 (Isatis tinctoria) 161756 (Isatis tinctoria) 289 300 7cs2-a1-m1-cC_7cs2-a1-m1-cA 7cs2-a2-m1-cD_7cs2-a2-m1-cB 7cs2-a3-m1-cF_7cs2-a3-m1-cE 7cs3-a1-m1-cA_7cs3-a1-m2-cC 7cs3-a2-m1-cF_7cs3-a2-m1-cB 7cs3-a3-m1-cE_7cs3-a3-m1-cD 7cs4-a1-m1-cE_7cs4-a1-m2-cF 7cs4-a2-m1-cA_7cs4-a2-m1-cB 7cs4-a3-m1-cC_7cs4-a3-m1-cD 7cs5-a1-m1-cE_7cs5-a1-m2-cF 7cs5-a2-m1-cA_7cs5-a2-m1-cB 7cs5-a3-m1-cC_7cs5-a3-m1-cD 7cs6-a1-m1-cA_7cs6-a1-m2-cC 7cs6-a3-m1-cE_7cs6-a3-m1-cD 7cs7-a1-m2-cC_7cs7-a1-m1-cA 7cs7-a2-m1-cB_7cs7-a2-m1-cF 7cs7-a3-m1-cD_7cs7-a3-m1-cE 7cs8-a1-m2-cC_7cs8-a1-m1-cA 7cs8-a2-m1-cB_7cs8-a2-m1-cF 7cs8-a3-m1-cD_7cs8-a3-m1-cE GEKTRVLVVGGTGTMGRRIVRACLAEGHETYVLQQPETRVDIEKVQLLYSYKRLGARLIEASFSDHQSLVSAVKQVDIVVAAMSGVHFHSILVQLKLVEAIKEAGNIKRFLPSEFGMDPSRMDQKLEVRNAIEAAGIPHTYVVGACFAAYFAGNLSQMGTLIPPKKKVNIYGDGNVKVVYVDEDDIAEYTAKTLDDPRTINKTVYVRPTENVLTQMELVQIWEKLTGKELEKTNISANDFLAQAGLGHFYHIFYEGCLTDHEVGDDEEASKLYPDVKYTRMDEYLKIFL GEKTRVLVVGGTGTMGRRIVRACLAEGHETYVLQQPETRVDIEKVQLLYSYKRLGARLIEASFSDHQSLVSAVKQVDIVVAAMSGVHFRSHSILVQLKLVEAIKEAGNIKRFLPSEFGMDPSRMDQKLEVRNAIEAAGIPHTYVVGACFAAYFAGNLSQMGTLIPPKKKVNIYGDGNVKVVYVDEDDIAEYTAKTLDDPRTINKTVYVRPTENVLTQMELVQIWEKLTGKELEKTNISANDFLADIEDKEIPHQAGLGHFYHIFYEGCLTDHEVGDDEEASKLYPDVKYTRMDEYLKIFL 7csb-a1-m1-cC_7csb-a1-m1-cD AtPrR1 with NADP+ and (+)pinoresinol Q9FVQ6 Q9FVQ6 2.00202 X-RAY DIFFRACTION 43 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 309 309 7cs9-a1-m1-cB_7cs9-a1-m1-cC 7cs9-a2-m1-cA_7cs9-a2-m1-cD 7csa-a1-m1-cA_7csa-a1-m1-cB 7csa-a2-m1-cC_7csa-a2-m1-cD 7csb-a2-m1-cA_7csb-a2-m1-cB 7csc-a1-m1-cE_7csc-a1-m1-cF 7csc-a2-m1-cA_7csc-a2-m1-cB 7csc-a3-m1-cC_7csc-a3-m1-cD 7csd-a1-m1-cC_7csd-a1-m1-cD 7csd-a2-m1-cA_7csd-a2-m1-cB 7cse-a1-m1-cE_7cse-a1-m1-cF 7cse-a2-m1-cA_7cse-a2-m1-cB 7cse-a3-m1-cC_7cse-a3-m1-cD 7csf-a1-m1-cC_7csf-a1-m1-cD 7csf-a2-m1-cA_7csf-a2-m1-cB KTRVLVVGATGYIGKRIVRACLAEGHETYVLQRPEIGLEIEKVQLFLSFKKLGARIVEGSFSDHQSLVSAVKLVDVVVSAMSGVHFRSHNILVQLKLVEAIKEAGNVKRFLPSEFGMDPPRMGHALPPGRETFDQKMEVRQAIEAAGIPYTYVVGACFAAYFAGNLSQMVTLLPPKEKVNIYGDGNVKVVFADEDDIAKYTAKTLNDPRTLNKTVNIRPPDNVLTQLELVQIWEKLTGKELEKTNIAAQDFLANIEQMEIPHQAGIGHFYHIFYEGCLTDHEVGEDEEASSLYPDVKYKRMDDYLRMFL KTRVLVVGATGYIGKRIVRACLAEGHETYVLQRPEIGLEIEKVQLFLSFKKLGARIVEGSFSDHQSLVSAVKLVDVVVSAMSGVHFRSHNILVQLKLVEAIKEAGNVKRFLPSEFGMDPPRMGHALPPGRETFDQKMEVRQAIEAAGIPYTYVVGACFAAYFAGNLSQMVTLLPPKEKVNIYGDGNVKVVFADEDDIAKYTAKTLNDPRTLNKTVNIRPPDNVLTQLELVQIWEKLTGKELEKTNIAAQDFLANIEQMEIPHQAGIGHFYHIFYEGCLTDHEVGEDEEASSLYPDVKYKRMDDYLRMFL 7csh-a1-m1-cA_7csh-a1-m2-cA AtPrR2 with NADP+ and (+)pinoresinol Q9SVP6 Q9SVP6 1.59078 X-RAY DIFFRACTION 49 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 312 312 7csg-a1-m1-cA_7csg-a1-m1-cB FGEKTRVLVVGGTGSLGRRIVSACLAEGHETYVLQRPEIGVDIEKVQLLLSFKRLGAHLVEGSFSDHQSLVSAVKQVDVVVSAMSGVHFRTHNIPVQLKLVAAIKEAGNVKRFLPSEFGMDPSRMGHAMPPGSETFDQKMEIRNAIKAAGISHTYLVGACFAAYFGGNLSQMGTLFPPKNKVDIYGDGNVKVVFVDEDDMAKYTAKTLNDPRTLNKTVYVRPTDNILTQMELVQIWEKLTEKELEKTYVSGNDFLADIEDKEISHQAGLGHFYHIYYEGCLTDHEVGDDEEATKLYPDVKYKRMDEYLKIFV FGEKTRVLVVGGTGSLGRRIVSACLAEGHETYVLQRPEIGVDIEKVQLLLSFKRLGAHLVEGSFSDHQSLVSAVKQVDVVVSAMSGVHFRTHNIPVQLKLVAAIKEAGNVKRFLPSEFGMDPSRMGHAMPPGSETFDQKMEIRNAIKAAGISHTYLVGACFAAYFGGNLSQMGTLFPPKNKVDIYGDGNVKVVFVDEDDMAKYTAKTLNDPRTLNKTVYVRPTDNILTQMELVQIWEKLTEKELEKTYVSGNDFLADIEDKEISHQAGLGHFYHIYYEGCLTDHEVGDDEEATKLYPDVKYKRMDEYLKIFV 7ct3-a1-m1-cA_7ct3-a1-m2-cA Crystal Structure of MglC from Myxococcus xanthus Q1D0B6 Q1D0B6 1.85 X-RAY DIFFRACTION 72 1.0 246197 (Myxococcus xanthus DK 1622) 246197 (Myxococcus xanthus DK 1622) 117 117 7cy1-a1-m1-cA_7cy1-a1-m2-cA SFRTHLESVVNQVEGALACSVGFDGISVDTFQKDESAELDLNGAWVEYANLLTQLRNAAETLKTGTVSEVSVNSEKVLTVRLVSPDYFLVLALHADGNFGKGRYVLRVTAPKVRAEL SFRTHLESVVNQVEGALACSVGFDGISVDTFQKDESAELDLNGAWVEYANLLTQLRNAAETLKTGTVSEVSVNSEKVLTVRLVSPDYFLVLALHADGNFGKGRYVLRVTAPKVRAEL 7ct4-a1-m1-cA_7ct4-a1-m1-cD Crystal structure of D-amino acid oxidase from Rasamsonia emersonii strain YA A0A499UB99 A0A499UB99 2 X-RAY DIFFRACTION 12 0.997 68825 (Rasamsonia emersonii) 68825 (Rasamsonia emersonii) 341 342 7ct4-a1-m1-cB_7ct4-a1-m1-cC TNNIVVLGAGVSGLTTAWLLSKDPSNKITVAAKHMPGDYDIEYCSPWAGANYLPVGAENSRVGQWERATWPHLRDIAQNHPEAGIHFQDTVVYNRTKDPNPWYGKVLPNFRELSKDELPPGIDNANRFTSVCINTAVYLPWLVGQCRKNGVVFKRAVFKHVAEAANAHHSGQKADLVVNCTGLSSRKLGGVQDNTLLPARGQIVVVRNDPGLMCSISGTDDGDDEVTYMMTRAAGGGTILGGTYQKHNWDSLPDPNLAVRIMKRCIELCPSLVAPGQGIEGLDIIRHGVGLRPVREDGPRIEKELIDGVWVVHNYGHGGYGYQTSFGCATTAVEVVREALQ TNNIVVLGAGVSGLTTAWLLSKDPSNKITVAAKHMPGDYDIEYCSPWAGANYLPVGAENSRVGQWERATWPHLRDIAQNHPEAGIHFQDTVVYNRTKPNPWYGKVLPNFRELSKDELPPGIDNANRFTSVCINTAVYLPWLVGQCRKNGVVFKRAVFKHVAEAANAHHSGQKADLVVNCTGLSSRKLGGVQDNTLLPARGQIVVVRNDPGLMCSISGTDDGDDEVTYMMTRAAGGGTILGGTYQKHNWDSLPDPNLAVRIMKRCIELCPSLVAPGQGIEGLDIIRHGVGLRPVREDGPRIEKELIDGVWVVHNYGHGGYGYQTSFGCATTAVEVVREALQQQ 7ct4-a1-m1-cD_7ct4-a1-m1-cB Crystal structure of D-amino acid oxidase from Rasamsonia emersonii strain YA A0A499UB99 A0A499UB99 2 X-RAY DIFFRACTION 32 0.997 68825 (Rasamsonia emersonii) 68825 (Rasamsonia emersonii) 342 346 7ct4-a1-m1-cA_7ct4-a1-m1-cC TNNIVVLGAGVSGLTTAWLLSKDPSNKITVAAKHMPGDYDIEYCSPWAGANYLPVGAENSRVGQWERATWPHLRDIAQNHPEAGIHFQDTVVYNRTKPNPWYGKVLPNFRELSKDELPPGIDNANRFTSVCINTAVYLPWLVGQCRKNGVVFKRAVFKHVAEAANAHHSGQKADLVVNCTGLSSRKLGGVQDNTLLPARGQIVVVRNDPGLMCSISGTDDGDDEVTYMMTRAAGGGTILGGTYQKHNWDSLPDPNLAVRIMKRCIELCPSLVAPGQGIEGLDIIRHGVGLRPVREDGPRIEKELIDGVWVVHNYGHGGYGYQTSFGCATTAVEVVREALQQQ SHMATNNIVVLGAGVSGLTTAWLLSKDPSNKITVAAKHMPGDYDIEYCSPWAGANYLPVGAENSRVGQWERATWPHLRDIAQNHPEAGIHFQDTVVYNRTKDPNPWYGKVLPNFRELSKDELPPGIDNANRFTSVCINTAVYLPWLVGQCRKNGVVFKRAVFKHVAEAANAHHSGQKADLVVNCTGLSSRKLGGVQDNTLLPARGQIVVVRNDPGLMCSISGTDDGDDEVTYMMTRAAGGGTILGGTYQKHNWDSLPDPNLAVRIMKRCIELCPSLVAPGQGIEGLDIIRHGVGLRPVREDGPRIEKELIDGVWVVHNYGHGGYGYQTSFGCATTAVEVVREALQQ 7ct4-a1-m1-cD_7ct4-a1-m1-cC Crystal structure of D-amino acid oxidase from Rasamsonia emersonii strain YA A0A499UB99 A0A499UB99 2 X-RAY DIFFRACTION 114 1.0 68825 (Rasamsonia emersonii) 68825 (Rasamsonia emersonii) 342 347 7ct4-a1-m1-cA_7ct4-a1-m1-cB TNNIVVLGAGVSGLTTAWLLSKDPSNKITVAAKHMPGDYDIEYCSPWAGANYLPVGAENSRVGQWERATWPHLRDIAQNHPEAGIHFQDTVVYNRTKPNPWYGKVLPNFRELSKDELPPGIDNANRFTSVCINTAVYLPWLVGQCRKNGVVFKRAVFKHVAEAANAHHSGQKADLVVNCTGLSSRKLGGVQDNTLLPARGQIVVVRNDPGLMCSISGTDDGDDEVTYMMTRAAGGGTILGGTYQKHNWDSLPDPNLAVRIMKRCIELCPSLVAPGQGIEGLDIIRHGVGLRPVREDGPRIEKELIDGVWVVHNYGHGGYGYQTSFGCATTAVEVVREALQQQ ATNNIVVLGAGVSGLTTAWLLSKDPSNKITVAAKHMPGDYDIEYCSPWAGANYLPVGAENSRVGQWERATWPHLRDIAQNHPEAGIHFQDTVVYNRTKDKPNPWYGKVLPNFRELSKDELPPGIDNANRFTSVCINTAVYLPWLVGQCRKNGVVFKRAVFKHVAEAANAHHSGQKADLVVNCTGLSSRKLGGVQDNTLLPARGQIVVVRNDPGLMCSISGTDDGDDEVTYMMTRAAGGGTILGGTYQKHNWDSLPDPNLAVRIMKRCIELCPSLVAPGQGIEGLDIIRHGVGLRPVREDGPRIEKELIDGVWVVHNYGHGGYGYQTSFGCATTAVEVVREALQQQKQ 7ct6-a1-m1-cA_7ct6-a1-m2-cB Crystal structure of GCL from Deinococcus metallilatus A0A7W8I250 A0A7W8I250 2.1 X-RAY DIFFRACTION 85 1.0 1211322 (Deinococcus metallilatus) 1211322 (Deinococcus metallilatus) 539 539 PRTAVEAAVHVRLEGVDTAFGVPGAAINPLYAALRKVGGVNHILARHVEGASHADGYTRAKFGNIGVCIGTSGPAGTDITGLYAAIADSVPILCITGQAPRARLYKEDFQAVDIESIAKPVTKAVTVREPALVPYVFQQAFHVRSGRPGPVLIDLPFDVQTEIEFDPETYAPLPIYKPLATRAQVEKATLNASERPLLVSGGGVIGADASDLLVQFAELTGVPVIPTLGWGSIPDDHPLVGVGLQTSQRYGNANLLASDFVGIGNRWANRHTGGLDVYTEGRKFVHVDIEPTQIGRVFGPDYAIVSDAKAALQLFVEVAREWRAAGKLKDRGEWAESCRERKRTLRKTHYDNVPIKPQRVYEENKAFGRDVTYVTTIGLSQIAGGQFLHVYKPRHWINAGQAGPLGWTVPAALGVAAAKPGAEIVALSGDYDFQFIEELAVGAQFNLPFIQVLVNNSYLGLIRQSQRGFDDYQVQLSFENINSPEVNGYGVDHLKVVEGLGCKALRVFKPDDILPAFEKARDLQEYRVPVVVEVILERV PRTAVEAAVHVRLEGVDTAFGVPGAAINPLYAALRKVGGVNHILARHVEGASHADGYTRAKFGNIGVCIGTSGPAGTDITGLYAAIADSVPILCITGQAPRARLYKEDFQAVDIESIAKPVTKAVTVREPALVPYVFQQAFHVRSGRPGPVLIDLPFDVQTEIEFDPETYAPLPIYKPLATRAQVEKATLNASERPLLVSGGGVIGADASDLLVQFAELTGVPVIPTLGWGSIPDDHPLVGVGLQTSQRYGNANLLASDFVGIGNRWANRHTGGLDVYTEGRKFVHVDIEPTQIGRVFGPDYAIVSDAKAALQLFVEVAREWRAAGKLKDRGEWAESCRERKRTLRKTHYDNVPIKPQRVYEENKAFGRDVTYVTTIGLSQIAGGQFLHVYKPRHWINAGQAGPLGWTVPAALGVAAAKPGAEIVALSGDYDFQFIEELAVGAQFNLPFIQVLVNNSYLGLIRQSQRGFDDYQVQLSFENINSPEVNGYGVDHLKVVEGLGCKALRVFKPDDILPAFEKARDLQEYRVPVVVEVILERV 7ct9-a1-m1-cA_7ct9-a1-m2-cB Crystal structure of SAH bound CmoB from Vibrio Vulnificus Q8DAP0 Q8DAP0 2.3 X-RAY DIFFRACTION 55 1.0 914127 (Vibrio vulnificus MO6-24/O) 914127 (Vibrio vulnificus MO6-24/O) 328 328 7ct8-a1-m1-cB_7ct8-a1-m1-cA 7ct8-a1-m2-cB_7ct8-a1-m2-cA 7ct9-a1-m1-cB_7ct9-a1-m2-cA 7cta-a1-m1-cB_7cta-a1-m1-cA 7cta-a1-m2-cB_7cta-a1-m2-cA MMFNFANFYQLIAQDTRLQPWLNVLPQQLTDWQNAEHGDFPRWLKALNKIPEGAPDQIDIKHSVTISNDTPFHQGELKKLESLLRTFHPWRKGPYTVHGIHIDTEWRSDWKWDRVLPHISPLKNRSVLDVGCGNGYHMWRMLGEGARLCVGIDPSHLFLIQFEAIRKLMGGDQRAHLLPLGIEQLPKLEAFDTVFSMGVLYHRRSPLDHLIQLKDQLVSGGELILETLVIEGDETAVLVPKERYAQMRNVYFFPSARALKVWLELVGFEDVRIVDENVTSVDEQRTTNWMTHNSLPDYLDQNDPSKTVEGYPAPRRAILVAKKPGHHH MMFNFANFYQLIAQDTRLQPWLNVLPQQLTDWQNAEHGDFPRWLKALNKIPEGAPDQIDIKHSVTISNDTPFHQGELKKLESLLRTFHPWRKGPYTVHGIHIDTEWRSDWKWDRVLPHISPLKNRSVLDVGCGNGYHMWRMLGEGARLCVGIDPSHLFLIQFEAIRKLMGGDQRAHLLPLGIEQLPKLEAFDTVFSMGVLYHRRSPLDHLIQLKDQLVSGGELILETLVIEGDETAVLVPKERYAQMRNVYFFPSARALKVWLELVGFEDVRIVDENVTSVDEQRTTNWMTHNSLPDYLDQNDPSKTVEGYPAPRRAILVAKKPGHHH 7cta-a1-m2-cB_7cta-a1-m1-cA Crystal structure of Cx-SAM bound CmoB from Vibrio vulnificus Q8DAP0 Q8DAP0 2.9 X-RAY DIFFRACTION 41 1.0 914127 (Vibrio vulnificus MO6-24/O) 914127 (Vibrio vulnificus MO6-24/O) 327 329 7ct8-a1-m1-cA_7ct8-a1-m2-cA 7ct8-a1-m1-cB_7ct8-a1-m2-cB 7ct9-a1-m1-cA_7ct9-a1-m1-cB 7ct9-a1-m2-cA_7ct9-a1-m2-cB 7cta-a1-m1-cB_7cta-a1-m2-cA MMFNFANFYQLIAQDTRLQPWLNVLPQQLTDWQNAEHGDFPRWLKALNKIPEGAPDQIDIKHSVTISNDTPFHQGELKKLESLLRTFHPWRKGPYTVHGIHIDTEWRSDWKWDRVLPHISPLKNRSVLDVGCGNGYHMWRMLGEGARLCVGIDPSHLFLIQFEAIRKLMGGDQRAHLLPLGIEQLPKLEAFDTVFSMGVLYHRRSPLDHLIQLKDQLVSGGELILETLVIEGDETAVLVPKERYAQMRNVYFFPSARALKVWLELVGFEDVRIVDENVTSVDEQRTTNWMTHNSLPDYLDQNDPSKTVEGYPAPRRAILVAKKPGHH MMFNFANFYQLIAQDTRLQPWLNVLPQQLTDWQNAEHGDFPRWLKALNKIPEGAPDQIDIKHSVTISNDTPFHQGELKKLESLLRTFHPWRKGPYTVHGIHIDTEWRSDWKWDRVLPHISPLKNRSVLDVGCGNGYHMWRMLGEGARLCVGIDPSHLFLIQFEAIRKLMGGDQRAHLLPLGIEQLPKLEAFDTVFSMGVLYHRRSPLDHLIQLKDQLVSGGELILETLVIEGDETAVLVPKERYAQMRNVYFFPSARALKVWLELVGFEDVRIVDENVTSVDEQRTTNWMTHNSLPDYLDQNDPSKTVEGYPAPRRAILVAKKPGHHHH 7ctc-a1-m1-cA_7ctc-a1-m1-cD FECH - inhibitor complex 1 P22830 P22830 2 X-RAY DIFFRACTION 122 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 359 359 1hrk-a1-m1-cA_1hrk-a1-m1-cB 2hrc-a1-m1-cA_2hrc-a1-m1-cB 2hre-a1-m1-cA_2hre-a1-m1-cB 2hre-a2-m1-cC_2hre-a2-m1-cD 2hre-a3-m1-cA_2hre-a3-m1-cB 2hre-a3-m2-cC_2hre-a3-m2-cD 2pnj-a1-m1-cA_2pnj-a1-m1-cB 2po5-a1-m1-cA_2po5-a1-m1-cB 2po7-a1-m1-cA_2po7-a1-m1-cB 2qd2-a1-m1-cA_2qd2-a1-m1-cB 2qd3-a1-m1-cA_2qd3-a1-m1-cB 2qd4-a1-m1-cA_2qd4-a1-m1-cB 2qd5-a1-m1-cA_2qd5-a1-m1-cB 3aqi-a1-m1-cA_3aqi-a1-m1-cB 3hcn-a1-m1-cA_3hcn-a1-m1-cB 3hco-a1-m1-cA_3hco-a1-m1-cB 3hcp-a1-m1-cA_3hcp-a1-m1-cB 3hcr-a1-m1-cA_3hcr-a1-m1-cB 3w1w-a1-m1-cA_3w1w-a1-m1-cB 4f4d-a1-m1-cA_4f4d-a1-m1-cB 4kla-a1-m1-cA_4kla-a1-m1-cB 4klc-a1-m1-cA_4klc-a1-m1-cB 4klr-a1-m1-cA_4klr-a1-m1-cB 4kmm-a1-m1-cA_4kmm-a1-m1-cB 4mk4-a1-m1-cA_4mk4-a1-m1-cB 7ct7-a1-m1-cA_7ct7-a1-m1-cB RKPKTGILMLNMGGPETLGDVHDFLLRLFLDRDLMTLPIQNKLAPFIAKRLTPKIQEQYRRIGGGSPIKIWTSKQGEGMVKLLDELSPNTAPHKYYIGFRYVHPLTEEAIEEMERDGLERAIAFTQYPQYSCSTTGSSLNAIYRYYNQVGRKPTMKWSTIDRWPTHHLLIQCFADHILKELDHFPLEKRSEVVILFSAHSLPMSVVNRGDPYPQEVSATVQKVMERLEYCNPYRLVWQSKVGPMPWLGPQTDESIKGLCERGRKNILLVPIAFTSDHIETLYELDIEYSQVLAKECGVENIRRAESLNGNPLFSKALADLVHSHIQSNELCSKQLTLSCPLCVNPVCRETKSFFTSQQL RKPKTGILMLNMGGPETLGDVHDFLLRLFLDRDLMTLPIQNKLAPFIAKRLTPKIQEQYRRIGGGSPIKIWTSKQGEGMVKLLDELSPNTAPHKYYIGFRYVHPLTEEAIEEMERDGLERAIAFTQYPQYSCSTTGSSLNAIYRYYNQVGRKPTMKWSTIDRWPTHHLLIQCFADHILKELDHFPLEKRSEVVILFSAHSLPMSVVNRGDPYPQEVSATVQKVMERLEYCNPYRLVWQSKVGPMPWLGPQTDESIKGLCERGRKNILLVPIAFTSDHIETLYELDIEYSQVLAKECGVENIRRAESLNGNPLFSKALADLVHSHIQSNELCSKQLTLSCPLCVNPVCRETKSFFTSQQL 7cu0-a1-m1-cB_7cu0-a1-m1-cA Crystal structure of Streptomyces albogriseolus flavin-dependent tryptophan 6-halogenase Thal in complex with tryptophan A1E280 A1E280 1.95 X-RAY DIFFRACTION 112 1.0 1887 (Streptomyces albogriseolus) 1887 (Streptomyces albogriseolus) 530 531 6sls-a1-m1-cB_6sls-a1-m1-cA 6slt-a1-m1-cB_6slt-a1-m1-cA 7aqu-a1-m1-cB_7aqu-a1-m1-cA 7aqv-a1-m1-cA_7aqv-a1-m1-cB 7cu1-a1-m1-cB_7cu1-a1-m1-cA 7cu2-a1-m1-cB_7cu2-a1-m1-cA 8ad7-a1-m1-cB_8ad7-a1-m1-cA 8ad8-a1-m1-cB_8ad8-a1-m1-cA DNRIKTVVILGGGTAGWMTAAYLGKALQNTVKIVVLEAPTIPRIGVGEATVPNLQRAFFDYLGIPEEEWMRECNASYKMAVKFINWRTPGEGSPDPRTLDDGHTDTFHHPFGLLPSADQIPLSHYWAAKRLQGETDENFDEACFADTAIMNAKKAPRFLDMRRATNYAWHFDASKVAAFLRNFAVTKQAVEHVEDEMTEVLTDERGFITALRTKSGRILQGDLFVDCSGFRGLLINKAMEEPFIDMSDHLLCNSAVATAVPHDDEKNGVEPYTSSIAMEAGWTWKIPMLGRFGSGHVYSDHFATQDEATLAFSKLWGLDPDNTEFNHVRFRVGRNRRAWVRNCVSVGLASCFVEPLESSGIYFIYAAIHMLAKHFPDKTFDKVLVDRFNREIEEMFDDTRDFLQAHYYFSPRVDTPFWRANKELKLADSIKDKVETYRAGLPVNLPVTDEGTYYGNFEAEFRNFWTNGSYYCIFAGLGLMPRNPLPALAYKPQSIAEAELLFADVKRKGDTLVESLPSTYDLLRQLHGAS MDNRIKTVVILGGGTAGWMTAAYLGKALQNTVKIVVLEAPTIPRIGVGEATVPNLQRAFFDYLGIPEEEWMRECNASYKMAVKFINWRTPGEGSPDPRTLDDGHTDTFHHPFGLLPSADQIPLSHYWAAKRLQGETDENFDEACFADTAIMNAKKAPRFLDMRRATNYAWHFDASKVAAFLRNFAVTKQAVEHVEDEMTEVLTDERGFITALRTKSGRILQGDLFVDCSGFRGLLINKAMEEPFIDMSDHLLCNSAVATAVPHDDEKNGVEPYTSSIAMEAGWTWKIPMLGRFGSGHVYSDHFATQDEATLAFSKLWGLDPDNTEFNHVRFRVGRNRRAWVRNCVSVGLASCFVEPLESSGIYFIYAAIHMLAKHFPDKTFDKVLVDRFNREIEEMFDDTRDFLQAHYYFSPRVDTPFWRANKELKLADSIKDKVETYRAGLPVNLPVTDEGTYYGNFEAEFRNFWTNGSYYCIFAGLGLMPRNPLPALAYKPQSIAEAELLFADVKRKGDTLVESLPSTYDLLRQLHGAS 7cu5-a1-m2-cA_7cu5-a1-m2-cB N-Glycosylation of PD-1 and glycosylation dependent binding of PD-1 specific monoclonal antibody camrelizumab 2.81 X-RAY DIFFRACTION 120 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 230 MEVQLVESGGGLVQPGGSLRLSCAASGFTFSSYMMSWVRQAPGKGLEWVATISGGGANTYYPDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARQLYYFDYWGQGTTVTVSSGGGGSDIQMTQSPSSLSASVGDRVTITCLASQTIGTWLTWYQQKPGKAPKLLIYTATSLADGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQVYSIPWTFGGGTKVEIKR MEVQLVESGGGLVQPGGSLRLSCAASGFTFSSYMMSWVRQAPGKGLEWVATISGGGANTYYPDSVKGRFTISRDNAKNSLYLQMNSLRAEDTAVYYCARQLYYFDYWGQGTTVTVSSGGGGSDIQMTQSPSSLSASVGDRVTITCLASQTIGTWLTWYQQKPGKAPKLLIYTATSLADGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQVYSIPWTFGGGTKVEIKR 7cu8-a1-m1-cA_7cu8-a1-m1-cB Crystal structure of the soluble domain of TiME protein from Mycobacterium tuberculosis I6XI06 I6XI06 3.3 X-RAY DIFFRACTION 52 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 188 188 7cu8-a1-m1-cA_7cu8-a1-m1-cF 7cu8-a1-m1-cB_7cu8-a1-m1-cC 7cu8-a1-m1-cC_7cu8-a1-m1-cD 7cu8-a1-m1-cF_7cu8-a1-m1-cE 7cu8-a1-m1-cG_7cu8-a1-m1-cD 7cu8-a1-m1-cG_7cu8-a1-m1-cE HPSEPGVVSYAVLGKGSVGNIVGAPMGWEAVFTRPFQAFWVELPACNNWVDIGLPEVYDDPDLASFNGATTQTSATDQTHLVKQAVGVFASNDAADRAFHRVVDRTVGCSGQTTAIHLDDGTTQVWSFAGGPSTGTDEAWTKQEAGTDRRCFVQTRLRENVLLQAKVCQSGNAGPAVNVLAGAMQNTL HPSEPGVVSYAVLGKGSVGNIVGAPMGWEAVFTRPFQAFWVELPACNNWVDIGLPEVYDDPDLASFNGATTQTSATDQTHLVKQAVGVFASNDAADRAFHRVVDRTVGCSGQTTAIHLDDGTTQVWSFAGGPSTGTDEAWTKQEAGTDRRCFVQTRLRENVLLQAKVCQSGNAGPAVNVLAGAMQNTL 7cu9-a1-m1-cA_7cu9-a1-m1-cB Crystal structure of the soluble domain of TiME protein from Mycobacterium smegmatis A0R5N2 A0R5N2 1.55 X-RAY DIFFRACTION 58 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 191 193 RPSDPGVVSYAVMPKGSVSNIVGAPIRWESEFTAPFQAFSVDNPVCNNWADIGLPEVFNDPDLASFGGATAQTAAGDATHLVKQAVGVFATVDAADRAYHRVVDRTVGCAGQTTAMHLDNFHTEVWTFTGGPAGPADADWVKQEAGTDRRCFNTTRKRENVLLQAKVCQSGNGGPAVNVLAGAMQNTLGQL RPSDPGVVSYAVMPKGSVSNIVGAPIRWESEFTAPFQAFSVDNPVCNNWADIGLPEVFNDPDLASFGGATAQTAAGDATHLVKQAVGVFATVDAADRAYHRVVDRTVGCAGQTTAMHLDNFHTEVWTFTGGPAGPADADWVKQEAGTDRRCFNTTRKRENVLLQAKVCQSGNGGPAVNVLAGAMQNTLGQLEH 7cua-a1-m1-cA_7cua-a1-m1-cB The structure of YoeB dimer from Staphylococcus aureus Q2G286 Q2G286 1.8 X-RAY DIFFRACTION 38 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 87 87 ARLNITFSPQAFEDYKYFQQNDKKMVKKINELLKSIDRNGALEGIGKPEKLKSNLTGYYSRRINHEHRLVYTVDDNHIKIASCKYHY ARLNITFSPQAFEDYKYFQQNDKKMVKKINELLKSIDRNGALEGIGKPEKLKSNLTGYYSRRINHEHRLVYTVDDNHIKIASCKYHY 7cua-a1-m1-cA_7cua-a1-m1-cC The structure of YoeB dimer from Staphylococcus aureus Q2G286 Q2G286 1.8 X-RAY DIFFRACTION 20 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 87 87 ARLNITFSPQAFEDYKYFQQNDKKMVKKINELLKSIDRNGALEGIGKPEKLKSNLTGYYSRRINHEHRLVYTVDDNHIKIASCKYHY ARLNITFSPQAFEDYKYFQQNDKKMVKKINELLKSIDRNGALEGIGKPEKLKSNLTGYYSRRINHEHRLVYTVDDNHIKIASCKYHY 7cuj-a1-m1-cB_7cuj-a1-m1-cA Crystal structure of fission yeast Ccq1 and Tpz1 Q10432 Q10432 2.4 X-RAY DIFFRACTION 23 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 256 258 SVLDIGLPMSALQRKMMHRLVQYFAFCIDHFCTGPSDSRIQEKIRLFIQSAHNIAKHPSLYDTEVRNFSSYAENSSKFLFLQELFKNLSPSYSKTFFLFISNQFLANTLTQWLKSQNIDAELWAEHPAIWICVSKKAPSASHFLQSCPDLSATIFYDIEAYMSVTSSLPSIQSLVLRLIHLGSIEHAIKCFQSSYNASFLVNIVGVVATLSSSHSSITEKTRDIAKNVATWLKNGENFSSWPLPPLMDLASLSVAE SVLDIGLPMSALQRKMMHRLVQYFAFCIDHFCTGPSDSRIQEKIRLFIQSAHNIAKHPSLYDTEVRNFSSYAENSSKFLFLQELFKNLSPSYSKTFFLFISNQFLANTLTQWLKSQNIDAELWAEHPAIWICVSKKAPSASHFLQSCPDLSATIFYDIEAYMSVTSSLPSIQSLVLRLIHLGSIEHAIKCFQSSYNASFLVNIVGVVATLSSSESHSSITEKTRDIAKNVATWLKNGENFSSWPLPPLMDLASLSVAE 7cuo-a1-m1-cB_7cuo-a1-m1-cA IclR transcription factor complexed with 4-hydroxybenzoic acid from Microbacterium hydrocarbonoxydans 2 X-RAY DIFFRACTION 152 1.0 273678 (Microbacterium hydrocarbonoxydans) 273678 (Microbacterium hydrocarbonoxydans) 239 241 7dqb-a1-m1-cA_7dqb-a1-m1-cB DSMLARVVRVLETFNVDRTAQTASDIGRRAALPSSTAHRVVDEMVLVGILERGIDGKVRLGMRLWELALRGSMALRLRQVALPHMERVQQRVREHTQLAVLEHNEVLFLERLSHHEAVSNLARVAGRLPVHASSSGLMLLAHAGPEVREEVLSKPLPRVGPGTVTDPEALRRLLANAYRAGYVAAPGYIEAVATGIAVPIRSEGVVIAALSAVQPLQNAVEPTVEILREAAVGIETDLR DSMLARVVRVLETFNVDRTAQTASDIGRRAALPSSTAHRVVDEMVLVGILERGIDGKVRLGMRLWELALRGSMALRLRQVALPHMERVQQRVREHTQLAVLEHNEVLFLERLSHHEAVSNLARVAGRLPVHASSSGLMLLAHAGPEVREEVLSKPLPRVGPGTVTDPEALRRLLANAYRAGYVAAPGYIEAVATGIAVPIRSEGVVIAALSAVQPLQNAVEPTVEILREAAVGIETDLRAS 7cup-a1-m1-cF_7cup-a1-m1-cB Structure of 2,5-dihydroxypridine Dioxygenase from Pseudomonas putida KT2440 Q88FY1 Q88FY1 2 X-RAY DIFFRACTION 77 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 347 348 7cn3-a1-m1-cA_7cn3-a1-m1-cE 7cn3-a1-m1-cB_7cn3-a1-m1-cF 7cn3-a1-m1-cC_7cn3-a1-m1-cD 7cnt-a1-m1-cA_7cnt-a1-m1-cB 7cnt-a1-m1-cC_7cnt-a1-m1-cF 7cnt-a1-m1-cD_7cnt-a1-m1-cE 7cup-a1-m1-cC_7cup-a1-m1-cD 7cup-a1-m1-cE_7cup-a1-m1-cA PVSNAQLTQMFEHVLKLSRVDETQSVAVLKSHYSDPRTVNAAMEAAQRLKAKVYAVELPAFNHPTAMGNDMTAYCGDTALTGNLAAQRALEAADLVVDTMMLLHSPEQEQILKTGTRILLAVEPPEVLARMLPTEDDKRRVLAAETLLKQARSLHVRSKAGSDFHAPLGQYPAVTEYGYADEPGRWDHWPSGFLFTWPNEDSAEGTLVLDVGDIILPFKNYCRERITLEIEKGFITGIHGGFEAEYLRDYMKYFNDPEVYGISHIGWGLQPRAQWTAMGLHDRNDGMCMDARAFYGNFLFSTGPNTEVGGKRKTPCHLDIPLRNCDIYLDDKAVVLAGDVVAPEESR PVSNAQLTQMFEHVLKLSRVDETQSVAVLKSHYSDPRTVNAAMEAAQRLKAKVYAVELPAFNHPTAMGNDMTAYCGDTALTGNLAAQRALEAADLVVDTMMLLHSPEQEQILKTGTRILLAVEPPEVLARMLPTEDDKRRVLAAETLLKQARSLHVRSKAGSDFHAPLGQYPAVTEYGYADEPGRWDHWPSGFLFTWPNEDSAEGTLVLDVGDIILPFKNYCRERITLEIEKGFITGIHGGFEAEYLRDYMKYFNDPEVYGISHIGWGLQPRAQWTAMGLHDRNDGMCMDARAFYGNFLFSTGPNTEVGGKRKTPCHLDIPLRNCDIYLDDKAVVLAGDVVAPEESRA 7cup-a1-m1-cF_7cup-a1-m1-cC Structure of 2,5-dihydroxypridine Dioxygenase from Pseudomonas putida KT2440 Q88FY1 Q88FY1 2 X-RAY DIFFRACTION 70 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 347 348 7cn3-a1-m1-cA_7cn3-a1-m1-cC 7cn3-a1-m1-cA_7cn3-a1-m1-cF 7cn3-a1-m1-cB_7cn3-a1-m1-cD 7cn3-a1-m1-cB_7cn3-a1-m1-cE 7cn3-a1-m1-cE_7cn3-a1-m1-cD 7cn3-a1-m1-cF_7cn3-a1-m1-cC 7cnt-a1-m1-cA_7cnt-a1-m1-cC 7cnt-a1-m1-cA_7cnt-a1-m1-cE 7cnt-a1-m1-cB_7cnt-a1-m1-cD 7cnt-a1-m1-cB_7cnt-a1-m1-cF 7cnt-a1-m1-cC_7cnt-a1-m1-cE 7cnt-a1-m1-cD_7cnt-a1-m1-cF 7cup-a1-m1-cA_7cup-a1-m1-cC 7cup-a1-m1-cB_7cup-a1-m1-cD 7cup-a1-m1-cE_7cup-a1-m1-cB 7cup-a1-m1-cE_7cup-a1-m1-cD 7cup-a1-m1-cF_7cup-a1-m1-cA PVSNAQLTQMFEHVLKLSRVDETQSVAVLKSHYSDPRTVNAAMEAAQRLKAKVYAVELPAFNHPTAMGNDMTAYCGDTALTGNLAAQRALEAADLVVDTMMLLHSPEQEQILKTGTRILLAVEPPEVLARMLPTEDDKRRVLAAETLLKQARSLHVRSKAGSDFHAPLGQYPAVTEYGYADEPGRWDHWPSGFLFTWPNEDSAEGTLVLDVGDIILPFKNYCRERITLEIEKGFITGIHGGFEAEYLRDYMKYFNDPEVYGISHIGWGLQPRAQWTAMGLHDRNDGMCMDARAFYGNFLFSTGPNTEVGGKRKTPCHLDIPLRNCDIYLDDKAVVLAGDVVAPEESR PVSNAQLTQMFEHVLKLSRVDETQSVAVLKSHYSDPRTVNAAMEAAQRLKAKVYAVELPAFNHPTAMGNDMTAYCGDTALTGNLAAQRALEAADLVVDTMMLLHSPEQEQILKTGTRILLAVEPPEVLARMLPTEDDKRRVLAAETLLKQARSLHVRSKAGSDFHAPLGQYPAVTEYGYADEPGRWDHWPSGFLFTWPNEDSAEGTLVLDVGDIILPFKNYCRERITLEIEKGFITGIHGGFEAEYLRDYMKYFNDPEVYGISHIGWGLQPRAQWTAMGLHDRNDGMCMDARAFYGNFLFSTGPNTEVGGKRKTPCHLDIPLRNCDIYLDDKAVVLAGDVVAPEESRA 7cup-a1-m1-cF_7cup-a1-m1-cD Structure of 2,5-dihydroxypridine Dioxygenase from Pseudomonas putida KT2440 Q88FY1 Q88FY1 2 X-RAY DIFFRACTION 20 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 347 348 7cn3-a1-m1-cA_7cn3-a1-m1-cB 7cn3-a1-m1-cE_7cn3-a1-m1-cC 7cn3-a1-m1-cF_7cn3-a1-m1-cD 7cnt-a1-m1-cA_7cnt-a1-m1-cD 7cnt-a1-m1-cB_7cnt-a1-m1-cC 7cnt-a1-m1-cE_7cnt-a1-m1-cF 7cup-a1-m1-cA_7cup-a1-m1-cB 7cup-a1-m1-cE_7cup-a1-m1-cC PVSNAQLTQMFEHVLKLSRVDETQSVAVLKSHYSDPRTVNAAMEAAQRLKAKVYAVELPAFNHPTAMGNDMTAYCGDTALTGNLAAQRALEAADLVVDTMMLLHSPEQEQILKTGTRILLAVEPPEVLARMLPTEDDKRRVLAAETLLKQARSLHVRSKAGSDFHAPLGQYPAVTEYGYADEPGRWDHWPSGFLFTWPNEDSAEGTLVLDVGDIILPFKNYCRERITLEIEKGFITGIHGGFEAEYLRDYMKYFNDPEVYGISHIGWGLQPRAQWTAMGLHDRNDGMCMDARAFYGNFLFSTGPNTEVGGKRKTPCHLDIPLRNCDIYLDDKAVVLAGDVVAPEESR PVSNAQLTQMFEHVLKLSRVDETQSVAVLKSHYSDPRTVNAAMEAAQRLKAKVYAVELPAFNHPTAMGNDMTAYCGDTALTGNLAAQRALEAADLVVDTMMLLHSPEQEQILKTGTRILLAVEPPEVLARMLPTEDDKRRVLAAETLLKQARSLHVRSKAGSDFHAPLGQYPAVTEYGYADEPGRWDHWPSGFLFTWPNEDSAEGTLVLDVGDIILPFKNYCRERITLEIEKGFITGIHGGFEAEYLRDYMKYFNDPEVYGISHIGWGLQPRAQWTAMGLHDRNDGMCMDARAFYGNFLFSTGPNTEVGGKRKTPCHLDIPLRNCDIYLDDKAVVLAGDVVAPEESRA 7cux-a1-m1-cA_7cux-a1-m1-cE Crystal structure of human Schlafen 5 N'-terminal domain (SLFN5-N) involved in ssRNA cleaving and DNA binding Q08AF3 Q08AF3 3.29477 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 292 295 7cux-a1-m1-cB_7cux-a1-m1-cF 7cux-a1-m1-cC_7cux-a1-m1-cD ECVVDAGKVTLGTQQRQEMDPRLREKQNEIILRAVCALLNSGGGIIKAEIENKGYNYERGLDVPPIFRSHLDKMQKENHFLIFVKSWNTEAGVPLATLCSNLYHRERTSTDVMDSQEALAFLKCRTQNVSAAALFDRKRLQYLEKLNLPESTHVEFVMFSTDVSHCVKDRLPKCVSAFANTEGGYVFFGVHDETCQVIGCEKEKIDLTSLRASIDGCIKKLPVHHFCTQRPEIKYVLNFLEVHDKGALRGYVCAIKVEKFCCAVFAKVPSSWQVKDNRVRQLPTREWTAWMM ECVVDAGKVTLGTQQRQEMDPRLREKQNEIILRAVCALLNSGGGIIKAEIENKGYNYERHGVGLDVPPIFRSHLDKMQKENHFLIFVKSWNTEAGVPLATLCSNLYHRERTSTDVMDSQEALAFLKCRTQNVSAAALFDRKRLQYLEKLNLPESTHVEFVMFSTDVSHCVKDRLPKCVSAFANTEGGYVFFGVHDETCQVIGCEKEKIDLTSLRASIDGCIKKLPVHHFCTQRPEIKYVLNFLEVHDKGALRGYVCAIKVEKFCCAVFAKVPSSWQVKDNRVRQLPTREWTAWMM 7cux-a1-m1-cE_7cux-a1-m1-cF Crystal structure of human Schlafen 5 N'-terminal domain (SLFN5-N) involved in ssRNA cleaving and DNA binding Q08AF3 Q08AF3 3.29477 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 295 296 7cux-a1-m1-cB_7cux-a1-m1-cD 7cux-a1-m1-cC_7cux-a1-m1-cA ECVVDAGKVTLGTQQRQEMDPRLREKQNEIILRAVCALLNSGGGIIKAEIENKGYNYERHGVGLDVPPIFRSHLDKMQKENHFLIFVKSWNTEAGVPLATLCSNLYHRERTSTDVMDSQEALAFLKCRTQNVSAAALFDRKRLQYLEKLNLPESTHVEFVMFSTDVSHCVKDRLPKCVSAFANTEGGYVFFGVHDETCQVIGCEKEKIDLTSLRASIDGCIKKLPVHHFCTQRPEIKYVLNFLEVHDKGALRGYVCAIKVEKFCCAVFAKVPSSWQVKDNRVRQLPTREWTAWMM ECVVDAGKVTLGTQQRQEMDPRLREKQNEIILRAVCALLNSGGGIIKAEIENKGYNYERHGVGLDVPPIFRSHLDKMQKENHFLIFVKSWNTEAGVPLATLCSNLYHRERTSTDVMDSQEALAFLKCRTQNVSAAALFDRKRLQYLEKLNLPESTHVEFVMFSTDVSHCVKDRLPKCVSAFANTEGGYVFFGVHDETCQVIGCEKEKIDLTSLRASIDGCIKKLPVHHFCTQRPEIKYVLNFLEVHDKGALRGYVCAIKVEKFCCAVFAKVPSSWQVKDNRVRQLPTREWTAWMME 7cuz-a2-m1-cB_7cuz-a2-m5-cD Structural insights into a novel carbohydrate esterase family 7 acetyl xylan esterase from Lactococcus lactis A9QSE8 A9QSE8 2.41067 X-RAY DIFFRACTION 55 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 312 312 7cuz-a1-m1-cA_7cuz-a1-m2-cC 7cuz-a1-m1-cC_7cuz-a1-m4-cA 7cuz-a1-m2-cA_7cuz-a1-m4-cC 7cuz-a2-m1-cD_7cuz-a2-m3-cB 7cuz-a2-m3-cD_7cuz-a2-m5-cB MTKINNWQDYQGSSLKPEDFDKFWDEKINLVSNHQFEFELIEKNLSSKVVNFYHLWFTAIDGAKIHAQLIVPKNLKEKYPAILQFHGYHCDSGDWVDKIGIVAEGNVVLALDCRGQGGLSQDNIQTMGMTMKGLIVRGIDEGYENLYYVRQFMDLITATKILSEFDFVDETNISAQGASQGGALAVACAALSPLIKKVTATYPFLSDYRKAYELGAEESAFEELPYWFQFKDPLHLREDWFFNQLEYIDIQNLAPRIKAEVIWILGGKDTVVPPITQMAAYNKIQSKKSLYVLPEYGHEYLPKISDWLRENQ MTKINNWQDYQGSSLKPEDFDKFWDEKINLVSNHQFEFELIEKNLSSKVVNFYHLWFTAIDGAKIHAQLIVPKNLKEKYPAILQFHGYHCDSGDWVDKIGIVAEGNVVLALDCRGQGGLSQDNIQTMGMTMKGLIVRGIDEGYENLYYVRQFMDLITATKILSEFDFVDETNISAQGASQGGALAVACAALSPLIKKVTATYPFLSDYRKAYELGAEESAFEELPYWFQFKDPLHLREDWFFNQLEYIDIQNLAPRIKAEVIWILGGKDTVVPPITQMAAYNKIQSKKSLYVLPEYGHEYLPKISDWLRENQ 7cuz-a2-m3-cB_7cuz-a2-m5-cB Structural insights into a novel carbohydrate esterase family 7 acetyl xylan esterase from Lactococcus lactis A9QSE8 A9QSE8 2.41067 X-RAY DIFFRACTION 22 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 312 312 7cuz-a1-m1-cA_7cuz-a1-m2-cA 7cuz-a1-m1-cA_7cuz-a1-m4-cA 7cuz-a1-m1-cC_7cuz-a1-m2-cC 7cuz-a1-m1-cC_7cuz-a1-m4-cC 7cuz-a1-m2-cA_7cuz-a1-m4-cA 7cuz-a1-m2-cC_7cuz-a1-m4-cC 7cuz-a2-m1-cB_7cuz-a2-m3-cB 7cuz-a2-m1-cB_7cuz-a2-m5-cB 7cuz-a2-m1-cD_7cuz-a2-m3-cD 7cuz-a2-m1-cD_7cuz-a2-m5-cD 7cuz-a2-m3-cD_7cuz-a2-m5-cD MTKINNWQDYQGSSLKPEDFDKFWDEKINLVSNHQFEFELIEKNLSSKVVNFYHLWFTAIDGAKIHAQLIVPKNLKEKYPAILQFHGYHCDSGDWVDKIGIVAEGNVVLALDCRGQGGLSQDNIQTMGMTMKGLIVRGIDEGYENLYYVRQFMDLITATKILSEFDFVDETNISAQGASQGGALAVACAALSPLIKKVTATYPFLSDYRKAYELGAEESAFEELPYWFQFKDPLHLREDWFFNQLEYIDIQNLAPRIKAEVIWILGGKDTVVPPITQMAAYNKIQSKKSLYVLPEYGHEYLPKISDWLRENQ MTKINNWQDYQGSSLKPEDFDKFWDEKINLVSNHQFEFELIEKNLSSKVVNFYHLWFTAIDGAKIHAQLIVPKNLKEKYPAILQFHGYHCDSGDWVDKIGIVAEGNVVLALDCRGQGGLSQDNIQTMGMTMKGLIVRGIDEGYENLYYVRQFMDLITATKILSEFDFVDETNISAQGASQGGALAVACAALSPLIKKVTATYPFLSDYRKAYELGAEESAFEELPYWFQFKDPLHLREDWFFNQLEYIDIQNLAPRIKAEVIWILGGKDTVVPPITQMAAYNKIQSKKSLYVLPEYGHEYLPKISDWLRENQ 7cuz-a2-m5-cB_7cuz-a2-m5-cD Structural insights into a novel carbohydrate esterase family 7 acetyl xylan esterase from Lactococcus lactis A9QSE8 A9QSE8 2.41067 X-RAY DIFFRACTION 66 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 312 312 7cuz-a1-m1-cA_7cuz-a1-m1-cC 7cuz-a1-m2-cA_7cuz-a1-m2-cC 7cuz-a1-m4-cA_7cuz-a1-m4-cC 7cuz-a2-m1-cB_7cuz-a2-m1-cD 7cuz-a2-m3-cB_7cuz-a2-m3-cD 7xmj-a1-m1-cA_7xmj-a1-m1-cC 7xmj-a2-m1-cD_7xmj-a2-m1-cB MTKINNWQDYQGSSLKPEDFDKFWDEKINLVSNHQFEFELIEKNLSSKVVNFYHLWFTAIDGAKIHAQLIVPKNLKEKYPAILQFHGYHCDSGDWVDKIGIVAEGNVVLALDCRGQGGLSQDNIQTMGMTMKGLIVRGIDEGYENLYYVRQFMDLITATKILSEFDFVDETNISAQGASQGGALAVACAALSPLIKKVTATYPFLSDYRKAYELGAEESAFEELPYWFQFKDPLHLREDWFFNQLEYIDIQNLAPRIKAEVIWILGGKDTVVPPITQMAAYNKIQSKKSLYVLPEYGHEYLPKISDWLRENQ MTKINNWQDYQGSSLKPEDFDKFWDEKINLVSNHQFEFELIEKNLSSKVVNFYHLWFTAIDGAKIHAQLIVPKNLKEKYPAILQFHGYHCDSGDWVDKIGIVAEGNVVLALDCRGQGGLSQDNIQTMGMTMKGLIVRGIDEGYENLYYVRQFMDLITATKILSEFDFVDETNISAQGASQGGALAVACAALSPLIKKVTATYPFLSDYRKAYELGAEESAFEELPYWFQFKDPLHLREDWFFNQLEYIDIQNLAPRIKAEVIWILGGKDTVVPPITQMAAYNKIQSKKSLYVLPEYGHEYLPKISDWLRENQ 7cvv-a2-m1-cB_7cvv-a2-m2-cB Crystal structure of Catechol o-methyl transferase (COMT) from Niastella koreensis G8T6H8 G8T6H8 2.52 X-RAY DIFFRACTION 107 1.0 700598 (Niastella koreensis GR20-10) 700598 (Niastella koreensis GR20-10) 219 219 7cvu-a1-m1-cA_7cvu-a1-m1-cC 7cvu-a2-m1-cB_7cvu-a2-m1-cD 7cvv-a1-m1-cA_7cvv-a1-m1-cC 7cvw-a1-m1-cA_7cvw-a1-m1-cB 7cvx-a1-m1-cA_7cvx-a1-m1-cB NQIFESVDHYISDLLGYEDDALLAATNSLAEAGMPAISVSPNQGKFLQLLAQLCQAKNILELGTLAGYSTIWMARALPKNGRLITLEYDPKHAAVAQKNIDRAGLTSQVQIRTGKAIDILPQLVEEGAGPFDMIFIDADKPPYTEYFQWALRLSRPGTLIVADNVIRDGKVLDENSTEPAVQGARRFNAMLGANTAVDATILQMVGVKEYDGMALAIVK NQIFESVDHYISDLLGYEDDALLAATNSLAEAGMPAISVSPNQGKFLQLLAQLCQAKNILELGTLAGYSTIWMARALPKNGRLITLEYDPKHAAVAQKNIDRAGLTSQVQIRTGKAIDILPQLVEEGAGPFDMIFIDADKPPYTEYFQWALRLSRPGTLIVADNVIRDGKVLDENSTEPAVQGARRFNAMLGANTAVDATILQMVGVKEYDGMALAIVK 7cvy-a1-m24-cD_7cvy-a1-m9-cS Cryo-EM structure of Chikungunya virus in complex with Fab fragments of mAb CHK-124 5.2 ELECTRON MICROSCOPY 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 220 220 7cvy-a1-m10-cD_7cvy-a1-m23-cS 7cvy-a1-m11-cD_7cvy-a1-m20-cS 7cvy-a1-m11-cS_7cvy-a1-m38-cD 7cvy-a1-m12-cD_7cvy-a1-m37-cS 7cvy-a1-m12-cS_7cvy-a1-m47-cD 7cvy-a1-m13-cD_7cvy-a1-m46-cS 7cvy-a1-m13-cS_7cvy-a1-m45-cD 7cvy-a1-m14-cD_7cvy-a1-m44-cS 7cvy-a1-m14-cS_7cvy-a1-m29-cD 7cvy-a1-m15-cD_7cvy-a1-m28-cS 7cvy-a1-m15-cS_7cvy-a1-m16-cD 7cvy-a1-m16-cS_7cvy-a1-m28-cD 7cvy-a1-m17-cD_7cvy-a1-m27-cS 7cvy-a1-m17-cS_7cvy-a1-m52-cD 7cvy-a1-m18-cD_7cvy-a1-m51-cS 7cvy-a1-m18-cS_7cvy-a1-m60-cD 7cvy-a1-m19-cD_7cvy-a1-m59-cS 7cvy-a1-m19-cS_7cvy-a1-m39-cD 7cvy-a1-m1-cD_7cvy-a1-m10-cS 7cvy-a1-m1-cS_7cvy-a1-m23-cD 7cvy-a1-m20-cD_7cvy-a1-m38-cS 7cvy-a1-m21-cD_7cvy-a1-m30-cS 7cvy-a1-m21-cS_7cvy-a1-m43-cD 7cvy-a1-m22-cD_7cvy-a1-m42-cS 7cvy-a1-m24-cS_7cvy-a1-m54-cD 7cvy-a1-m25-cD_7cvy-a1-m53-cS 7cvy-a1-m25-cS_7cvy-a1-m26-cD 7cvy-a1-m26-cS_7cvy-a1-m53-cD 7cvy-a1-m27-cD_7cvy-a1-m52-cS 7cvy-a1-m29-cS_7cvy-a1-m44-cD 7cvy-a1-m2-cD_7cvy-a1-m22-cS 7cvy-a1-m2-cS_7cvy-a1-m42-cD 7cvy-a1-m30-cD_7cvy-a1-m43-cS 7cvy-a1-m31-cD_7cvy-a1-m40-cS 7cvy-a1-m31-cS_7cvy-a1-m58-cD 7cvy-a1-m32-cD_7cvy-a1-m57-cS 7cvy-a1-m32-cS_7cvy-a1-m7-cD 7cvy-a1-m33-cD_7cvy-a1-m6-cS 7cvy-a1-m33-cS_7cvy-a1-m5-cD 7cvy-a1-m34-cD_7cvy-a1-m4-cS 7cvy-a1-m34-cS_7cvy-a1-m49-cD 7cvy-a1-m35-cD_7cvy-a1-m48-cS 7cvy-a1-m35-cS_7cvy-a1-m36-cD 7cvy-a1-m36-cS_7cvy-a1-m48-cD 7cvy-a1-m37-cD_7cvy-a1-m47-cS 7cvy-a1-m39-cS_7cvy-a1-m59-cD 7cvy-a1-m3-cD_7cvy-a1-m41-cS 7cvy-a1-m3-cS_7cvy-a1-m50-cD 7cvy-a1-m40-cD_7cvy-a1-m58-cS 7cvy-a1-m41-cD_7cvy-a1-m50-cS 7cvy-a1-m45-cS_7cvy-a1-m46-cD 7cvy-a1-m4-cD_7cvy-a1-m49-cS 7cvy-a1-m51-cD_7cvy-a1-m60-cS 7cvy-a1-m54-cS_7cvy-a1-m9-cD 7cvy-a1-m55-cD_7cvy-a1-m8-cS 7cvy-a1-m55-cS_7cvy-a1-m56-cD 7cvy-a1-m56-cS_7cvy-a1-m8-cD 7cvy-a1-m57-cD_7cvy-a1-m7-cS 7cvy-a1-m5-cS_7cvy-a1-m6-cD QLQESGGGLVQPGGSMKLSCVASGFTFSNYWMNWVRQSPEKGLEWVAQIRLKSDSYATYYADSVKGRFTVSRDDSKSNVYLQMNSLRAEDTGIYYCTDFYGFGDFFPYWGQGTLVTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR QLQESGGGLVQPGGSMKLSCVASGFTFSNYWMNWVRQSPEKGLEWVAQIRLKSDSYATYYADSVKGRFTVSRDDSKSNVYLQMNSLRAEDTGIYYCTDFYGFGDFFPYWGQGTLVTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR 7cw0-a1-m10-cO_7cw0-a1-m9-cQ Cryo-EM structure of Chikungunya virus in complex with mAb CHK-263 IgG 5.9 ELECTRON MICROSCOPY 13 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 7cvz-a1-m10-cO_7cvz-a1-m9-cQ 7cvz-a1-m10-cQ_7cvz-a1-m6-cO 7cvz-a1-m11-cO_7cvz-a1-m15-cQ 7cvz-a1-m11-cQ_7cvz-a1-m12-cO 7cvz-a1-m12-cQ_7cvz-a1-m13-cO 7cvz-a1-m13-cQ_7cvz-a1-m14-cO 7cvz-a1-m14-cQ_7cvz-a1-m15-cO 7cvz-a1-m16-cO_7cvz-a1-m20-cQ 7cvz-a1-m16-cQ_7cvz-a1-m17-cO 7cvz-a1-m17-cQ_7cvz-a1-m18-cO 7cvz-a1-m18-cQ_7cvz-a1-m19-cO 7cvz-a1-m19-cQ_7cvz-a1-m20-cO 7cvz-a1-m1-cO_7cvz-a1-m5-cQ 7cvz-a1-m1-cQ_7cvz-a1-m2-cO 7cvz-a1-m21-cO_7cvz-a1-m25-cQ 7cvz-a1-m21-cQ_7cvz-a1-m22-cO 7cvz-a1-m22-cQ_7cvz-a1-m23-cO 7cvz-a1-m23-cQ_7cvz-a1-m24-cO 7cvz-a1-m24-cQ_7cvz-a1-m25-cO 7cvz-a1-m26-cO_7cvz-a1-m30-cQ 7cvz-a1-m26-cQ_7cvz-a1-m27-cO 7cvz-a1-m27-cQ_7cvz-a1-m28-cO 7cvz-a1-m28-cQ_7cvz-a1-m29-cO 7cvz-a1-m29-cQ_7cvz-a1-m30-cO 7cvz-a1-m2-cQ_7cvz-a1-m3-cO 7cvz-a1-m31-cO_7cvz-a1-m35-cQ 7cvz-a1-m31-cQ_7cvz-a1-m32-cO 7cvz-a1-m32-cQ_7cvz-a1-m33-cO 7cvz-a1-m33-cQ_7cvz-a1-m34-cO 7cvz-a1-m34-cQ_7cvz-a1-m35-cO 7cvz-a1-m36-cO_7cvz-a1-m40-cQ 7cvz-a1-m36-cQ_7cvz-a1-m37-cO 7cvz-a1-m37-cQ_7cvz-a1-m38-cO 7cvz-a1-m38-cQ_7cvz-a1-m39-cO 7cvz-a1-m39-cQ_7cvz-a1-m40-cO 7cvz-a1-m3-cQ_7cvz-a1-m4-cO 7cvz-a1-m41-cO_7cvz-a1-m45-cQ 7cvz-a1-m41-cQ_7cvz-a1-m42-cO 7cvz-a1-m42-cQ_7cvz-a1-m43-cO 7cvz-a1-m43-cQ_7cvz-a1-m44-cO 7cvz-a1-m44-cQ_7cvz-a1-m45-cO 7cvz-a1-m46-cO_7cvz-a1-m50-cQ 7cvz-a1-m46-cQ_7cvz-a1-m47-cO 7cvz-a1-m47-cQ_7cvz-a1-m48-cO 7cvz-a1-m48-cQ_7cvz-a1-m49-cO 7cvz-a1-m49-cQ_7cvz-a1-m50-cO 7cvz-a1-m4-cQ_7cvz-a1-m5-cO 7cvz-a1-m51-cO_7cvz-a1-m55-cQ 7cvz-a1-m51-cQ_7cvz-a1-m52-cO 7cvz-a1-m52-cQ_7cvz-a1-m53-cO 7cvz-a1-m53-cQ_7cvz-a1-m54-cO 7cvz-a1-m54-cQ_7cvz-a1-m55-cO 7cvz-a1-m56-cO_7cvz-a1-m60-cQ 7cvz-a1-m56-cQ_7cvz-a1-m57-cO 7cvz-a1-m57-cQ_7cvz-a1-m58-cO 7cvz-a1-m58-cQ_7cvz-a1-m59-cO 7cvz-a1-m59-cQ_7cvz-a1-m60-cO 7cvz-a1-m6-cQ_7cvz-a1-m7-cO 7cvz-a1-m7-cQ_7cvz-a1-m8-cO 7cvz-a1-m8-cQ_7cvz-a1-m9-cO 7cw0-a1-m10-cQ_7cw0-a1-m6-cO 7cw0-a1-m11-cO_7cw0-a1-m15-cQ 7cw0-a1-m11-cQ_7cw0-a1-m12-cO 7cw0-a1-m12-cQ_7cw0-a1-m13-cO 7cw0-a1-m13-cQ_7cw0-a1-m14-cO 7cw0-a1-m14-cQ_7cw0-a1-m15-cO 7cw0-a1-m16-cO_7cw0-a1-m20-cQ 7cw0-a1-m16-cQ_7cw0-a1-m17-cO 7cw0-a1-m17-cQ_7cw0-a1-m18-cO 7cw0-a1-m18-cQ_7cw0-a1-m19-cO 7cw0-a1-m19-cQ_7cw0-a1-m20-cO 7cw0-a1-m1-cO_7cw0-a1-m5-cQ 7cw0-a1-m1-cQ_7cw0-a1-m2-cO 7cw0-a1-m21-cO_7cw0-a1-m25-cQ 7cw0-a1-m21-cQ_7cw0-a1-m22-cO 7cw0-a1-m22-cQ_7cw0-a1-m23-cO 7cw0-a1-m23-cQ_7cw0-a1-m24-cO 7cw0-a1-m24-cQ_7cw0-a1-m25-cO 7cw0-a1-m26-cO_7cw0-a1-m30-cQ 7cw0-a1-m26-cQ_7cw0-a1-m27-cO 7cw0-a1-m27-cQ_7cw0-a1-m28-cO 7cw0-a1-m28-cQ_7cw0-a1-m29-cO 7cw0-a1-m29-cQ_7cw0-a1-m30-cO 7cw0-a1-m2-cQ_7cw0-a1-m3-cO 7cw0-a1-m31-cO_7cw0-a1-m35-cQ 7cw0-a1-m31-cQ_7cw0-a1-m32-cO 7cw0-a1-m32-cQ_7cw0-a1-m33-cO 7cw0-a1-m33-cQ_7cw0-a1-m34-cO 7cw0-a1-m34-cQ_7cw0-a1-m35-cO 7cw0-a1-m36-cO_7cw0-a1-m40-cQ 7cw0-a1-m36-cQ_7cw0-a1-m37-cO 7cw0-a1-m37-cQ_7cw0-a1-m38-cO 7cw0-a1-m38-cQ_7cw0-a1-m39-cO 7cw0-a1-m39-cQ_7cw0-a1-m40-cO 7cw0-a1-m3-cQ_7cw0-a1-m4-cO 7cw0-a1-m41-cO_7cw0-a1-m45-cQ 7cw0-a1-m41-cQ_7cw0-a1-m42-cO 7cw0-a1-m42-cQ_7cw0-a1-m43-cO 7cw0-a1-m43-cQ_7cw0-a1-m44-cO 7cw0-a1-m44-cQ_7cw0-a1-m45-cO 7cw0-a1-m46-cO_7cw0-a1-m50-cQ 7cw0-a1-m46-cQ_7cw0-a1-m47-cO 7cw0-a1-m47-cQ_7cw0-a1-m48-cO 7cw0-a1-m48-cQ_7cw0-a1-m49-cO 7cw0-a1-m49-cQ_7cw0-a1-m50-cO 7cw0-a1-m4-cQ_7cw0-a1-m5-cO 7cw0-a1-m51-cO_7cw0-a1-m55-cQ 7cw0-a1-m51-cQ_7cw0-a1-m52-cO 7cw0-a1-m52-cQ_7cw0-a1-m53-cO 7cw0-a1-m53-cQ_7cw0-a1-m54-cO 7cw0-a1-m54-cQ_7cw0-a1-m55-cO 7cw0-a1-m56-cO_7cw0-a1-m60-cQ 7cw0-a1-m56-cQ_7cw0-a1-m57-cO 7cw0-a1-m57-cQ_7cw0-a1-m58-cO 7cw0-a1-m58-cQ_7cw0-a1-m59-cO 7cw0-a1-m59-cQ_7cw0-a1-m60-cO 7cw0-a1-m6-cQ_7cw0-a1-m7-cO 7cw0-a1-m7-cQ_7cw0-a1-m8-cO 7cw0-a1-m8-cQ_7cw0-a1-m9-cO 7cw3-a1-m1-cm_7cw3-a1-m1-co VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR 7cw2-a1-m1-cU_7cw2-a1-m1-cW Cryo-EM structure of Chikungunya virus in complex with Fab fragments of mAb CHK-263 (subregion around icosahedral 5-fold vertex) 4.5 ELECTRON MICROSCOPY 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR 7cw3-a1-m1-cm_7cw3-a1-m1-cq Cryo-EM structure of Chikungunya virus in complex with mAb CHK-263 IgG (subregion around icosahedral 2-fold vertex) 9.4 ELECTRON MICROSCOPY 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR 7cw3-a1-m1-co_7cw3-a1-m1-cq Cryo-EM structure of Chikungunya virus in complex with mAb CHK-263 IgG (subregion around icosahedral 2-fold vertex) 9.4 ELECTRON MICROSCOPY 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 216 216 VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR VQLQQSGAELVKPGASVKISCKASGYAFSSYWMNWVKQRPGKGLEWIGQIYPGDGDTNYNGKFKGKATLTADKSSSTAYMQLSSLTSEDSAVYFCARGGLTIDYWGQGTTLTVSSAKTTAPSVYPLAPVCGGTTGSSVTLGCLVKGYFPEPVTLTWNSGSLSSGVHTFPALLQSGLYTLSSSVTVTSNTWPSQTITCNVAHPASSTKVDKKIESRR 7cw4-a1-m1-cA_7cw4-a1-m2-cB Acetyl-CoA acetyltransferase from Bacillus cereus ATCC 14579 Q814S6 Q814S6 1.56 X-RAY DIFFRACTION 26 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 392 392 7cw4-a1-m1-cB_7cw4-a1-m2-cA 7cw5-a1-m1-cA_7cw5-a1-m2-cB 7cw5-a1-m2-cA_7cw5-a1-m1-cB SKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDPIVVAKDEAPREDTTIEKLAKLKPVFDKTATVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH SKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDPIVVAKDEAPREDTTIEKLAKLKPVFDKTATVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH 7cw4-a1-m1-cB_7cw4-a1-m2-cB Acetyl-CoA acetyltransferase from Bacillus cereus ATCC 14579 Q814S6 Q814S6 1.56 X-RAY DIFFRACTION 44 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 392 392 7cw4-a1-m1-cA_7cw4-a1-m2-cA 7cw5-a1-m1-cA_7cw5-a1-m2-cA 7cw5-a1-m1-cB_7cw5-a1-m2-cB SKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDPIVVAKDEAPREDTTIEKLAKLKPVFDKTATVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH SKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDPIVVAKDEAPREDTTIEKLAKLKPVFDKTATVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH 7cw4-a1-m2-cA_7cw4-a1-m2-cB Acetyl-CoA acetyltransferase from Bacillus cereus ATCC 14579 Q814S6 Q814S6 1.56 X-RAY DIFFRACTION 203 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 392 392 7cw4-a1-m1-cA_7cw4-a1-m1-cB 7cw5-a1-m1-cA_7cw5-a1-m1-cB 7cw5-a1-m2-cA_7cw5-a1-m2-cB SKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDPIVVAKDEAPREDTTIEKLAKLKPVFDKTATVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH SKTVILSAARTPVGKFGGSLKDVKATELGGIAIKAALERANVAASDVEEVIFGTVIQGGQGQIPSRQAARAAGIPWEVQTETVNKVCASGLRAVTLADQIIRTGDQSLIVAGGMESMSNSPYILRGARWGYRMGNNEVIDLNVADGLTCAFSGTHMGVYGGEVAKEDGISREAQDEWAYRSHQRAVSAHKEGRFEEEIVPVTIPQRKGDPIVVAKDEAPREDTTIEKLAKLKPVFDKTATVTAGNAPGLNDGGAALVLMSEDRAKQEGRKPLATILAHTAIAVESKDFPRTPGYAINALLEKTGKTIEDIDLFEINEAFAAVAIASTEIAGIDPEKLNVNGGAVAMGHPIGASGARIIVTLIHALKQRGGGIGIASICSGGGQGDAVMIEVH 7cwk-a1-m1-cC_7cwk-a1-m1-cA Structure of a triple-helix region of human collagen type I 1.539 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 20 21 7cwk-a1-m1-cA_7cwk-a1-m1-cB PGPGPGQRGERGFPGPGPGP PGPGPGQRGERGFPGPGPGPG 7cwk-a1-m1-cC_7cwk-a1-m1-cB Structure of a triple-helix region of human collagen type I 1.539 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 20 21 PGPGPGQRGERGFPGPGPGP PGPGPGQRGERGFPGPGPGPG 7cwp-a1-m1-cA_7cwp-a1-m2-cB Root induced Secreted protein Tsp1 from Biocontrol fungi Trichoderma virens G9MQD3 G9MQD3 2.1 X-RAY DIFFRACTION 122 1.0 413071 (Trichoderma virens Gv29-8) 413071 (Trichoderma virens Gv29-8) 125 128 7cwj-a1-m1-cA_7cwj-a1-m2-cB 7esw-a1-m1-cB_7esw-a1-m1-cA DKSMMAAVPEWTITNLKRVCNAGNTSCTWTFGVDTHLATATSCTYVVKANANASQASGGPVTCGPYTITSSWSGQFGPNNGFTTFAVTDFSKKLIVWPAYTDVQVQAGKVVSPNQSYAPANLPLE PADKSMMAAVPEWTITNLKRVCNAGNTSCTWTFGVDTHLATATSCTYVVKANANASQASGGPVTCGPYTITSSWSGQFGPNNGFTTFAVTDFSKKLIVWPAYTDVQVQAGKVVSPNQSYAPANLPLEH 7cwq-a1-m1-cA_7cwq-a1-m1-cB Crystal structure of a novel cutinase from Burkhoderiales bacterium RIFCSPLOWO2_02_FULL_57_36 A0A1F4JXW8 A0A1F4JXW8 1.65 X-RAY DIFFRACTION 42 1.0 1797562 (Burkholderiales bacterium RIFCSPLOWO2_02_FULL_57_36) 1797562 (Burkholderiales bacterium RIFCSPLOWO2_02_FULL_57_36) 270 270 MNPFEKGPDPTKTMLEASTGPFTYTTTTVSSTTASGYRQGTIYHPTNVTGPFAAVAVVPGYLASQSSINWWGPRLASHGFVVITIDTNSTSDQPPSRATQLMAALNQLKTFSNTSSHPIYRKVDPNRLGVMGWSMGGGGTLIAARDNPTLKAAIPFAPWNSSTNFSTVSVPTLIIACESDSTAPVNSHASPFYNSLPSTTKKAYLEMNNGSHSCANSGNSNAGLIGKYGVSWMKRFMDNDTRFSPYLCGAPHQADLSLTAIDEYRENCPY MNPFEKGPDPTKTMLEASTGPFTYTTTTVSSTTASGYRQGTIYHPTNVTGPFAAVAVVPGYLASQSSINWWGPRLASHGFVVITIDTNSTSDQPPSRATQLMAALNQLKTFSNTSSHPIYRKVDPNRLGVMGWSMGGGGTLIAARDNPTLKAAIPFAPWNSSTNFSTVSVPTLIIACESDSTAPVNSHASPFYNSLPSTTKKAYLEMNNGSHSCANSGNSNAGLIGKYGVSWMKRFMDNDTRFSPYLCGAPHQADLSLTAIDEYRENCPY 7cwv-a2-m1-cI_7cwv-a2-m2-cL Crystal structure of Arabinose isomerase from hyper thermophilic bacterium Thermotoga maritima (TMAI) wt Q9WYB3 Q9WYB3 3.53 X-RAY DIFFRACTION 60 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 495 495 7ch3-a1-m1-cA_7ch3-a1-m1-cD 7ch3-a1-m1-cB_7ch3-a1-m1-cH 7ch3-a1-m1-cC_7ch3-a1-m1-cF 7ch3-a2-m1-cE_7ch3-a2-m1-cJ 7ch3-a2-m1-cG_7ch3-a2-m1-cI 7ch3-a2-m1-cK_7ch3-a2-m1-cL 7cwv-a1-m1-cA_7cwv-a1-m1-cG 7cwv-a1-m1-cC_7cwv-a1-m1-cE 7cwv-a1-m1-cD_7cwv-a1-m1-cF 7cwv-a2-m1-cH_7cwv-a2-m1-cJ 7cwv-a2-m2-cB_7cwv-a2-m1-cK MIDLKQYEFWFLVGSQYLYGLETLKKVEQQASKIVDSLNDDPIFPSKIVLKPVLKSSSEITEIFEKANADPKCAGVIVWMHTFSPSKMWIRGLSINKKPLLHLHTQYNREIPWDTIDMDYMNLNQSAHGDREHGFIHARMRLPRKVVVGHWEEKEVREKIAKWMRVACAIQDGRMGQIVRFGDNMREVASTEGDKVEAQIKLGWSINTWGVGELAERVKAVPEREVEELLKEYREKYIMPEDEYSLKAIREQAKIEIALREFLKEKNAVGFTTTFEDLHDLPQLPGLAVQRLMEEGYGFGAEGDWKAAGLVRAIKVMGTSLPGGTSFMEDYTYHLTPGNELVLGAHMLEVCPTIAKEKPRIEVHPLSIGGKADPARLVFDGQEGPAVNASIVDMGNRFRLVVNKVLSVPIERKMPKLPTARVLWKPLPDFKRATTAWILAGGSHHTAFSTAIDVEYLIDWAEALEIEYVVIDENLDLEDFKKELRWNELYWGLLK MIDLKQYEFWFLVGSQYLYGLETLKKVEQQASKIVDSLNDDPIFPSKIVLKPVLKSSSEITEIFEKANADPKCAGVIVWMHTFSPSKMWIRGLSINKKPLLHLHTQYNREIPWDTIDMDYMNLNQSAHGDREHGFIHARMRLPRKVVVGHWEEKEVREKIAKWMRVACAIQDGRMGQIVRFGDNMREVASTEGDKVEAQIKLGWSINTWGVGELAERVKAVPEREVEELLKEYREKYIMPEDEYSLKAIREQAKIEIALREFLKEKNAVGFTTTFEDLHDLPQLPGLAVQRLMEEGYGFGAEGDWKAAGLVRAIKVMGTSLPGGTSFMEDYTYHLTPGNELVLGAHMLEVCPTIAKEKPRIEVHPLSIGGKADPARLVFDGQEGPAVNASIVDMGNRFRLVVNKVLSVPIERKMPKLPTARVLWKPLPDFKRATTAWILAGGSHHTAFSTAIDVEYLIDWAEALEIEYVVIDENLDLEDFKKELRWNELYWGLLK 7cwv-a2-m1-cK_7cwv-a2-m2-cL Crystal structure of Arabinose isomerase from hyper thermophilic bacterium Thermotoga maritima (TMAI) wt Q9WYB3 Q9WYB3 3.53 X-RAY DIFFRACTION 156 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 495 495 7ch3-a1-m1-cA_7ch3-a1-m1-cB 7ch3-a1-m1-cA_7ch3-a1-m1-cC 7ch3-a1-m1-cB_7ch3-a1-m1-cC 7ch3-a1-m1-cD_7ch3-a1-m1-cF 7ch3-a1-m1-cD_7ch3-a1-m1-cH 7ch3-a1-m1-cF_7ch3-a1-m1-cH 7ch3-a2-m1-cE_7ch3-a2-m1-cG 7ch3-a2-m1-cE_7ch3-a2-m1-cK 7ch3-a2-m1-cG_7ch3-a2-m1-cK 7ch3-a2-m1-cI_7ch3-a2-m1-cJ 7ch3-a2-m1-cI_7ch3-a2-m1-cL 7ch3-a2-m1-cJ_7ch3-a2-m1-cL 7cwv-a1-m1-cA_7cwv-a1-m1-cD 7cwv-a1-m1-cC_7cwv-a1-m1-cA 7cwv-a1-m1-cC_7cwv-a1-m1-cD 7cwv-a1-m1-cE_7cwv-a1-m1-cF 7cwv-a1-m1-cE_7cwv-a1-m1-cG 7cwv-a1-m1-cF_7cwv-a1-m1-cG 7cwv-a2-m1-cH_7cwv-a2-m1-cI 7cwv-a2-m1-cJ_7cwv-a2-m1-cK 7cwv-a2-m1-cJ_7cwv-a2-m2-cL 7cwv-a2-m2-cB_7cwv-a2-m1-cH 7cwv-a2-m2-cB_7cwv-a2-m1-cI MIDLKQYEFWFLVGSQYLYGLETLKKVEQQASKIVDSLNDDPIFPSKIVLKPVLKSSSEITEIFEKANADPKCAGVIVWMHTFSPSKMWIRGLSINKKPLLHLHTQYNREIPWDTIDMDYMNLNQSAHGDREHGFIHARMRLPRKVVVGHWEEKEVREKIAKWMRVACAIQDGRMGQIVRFGDNMREVASTEGDKVEAQIKLGWSINTWGVGELAERVKAVPEREVEELLKEYREKYIMPEDEYSLKAIREQAKIEIALREFLKEKNAVGFTTTFEDLHDLPQLPGLAVQRLMEEGYGFGAEGDWKAAGLVRAIKVMGTSLPGGTSFMEDYTYHLTPGNELVLGAHMLEVCPTIAKEKPRIEVHPLSIGGKADPARLVFDGQEGPAVNASIVDMGNRFRLVVNKVLSVPIERKMPKLPTARVLWKPLPDFKRATTAWILAGGSHHTAFSTAIDVEYLIDWAEALEIEYVVIDENLDLEDFKKELRWNELYWGLLK MIDLKQYEFWFLVGSQYLYGLETLKKVEQQASKIVDSLNDDPIFPSKIVLKPVLKSSSEITEIFEKANADPKCAGVIVWMHTFSPSKMWIRGLSINKKPLLHLHTQYNREIPWDTIDMDYMNLNQSAHGDREHGFIHARMRLPRKVVVGHWEEKEVREKIAKWMRVACAIQDGRMGQIVRFGDNMREVASTEGDKVEAQIKLGWSINTWGVGELAERVKAVPEREVEELLKEYREKYIMPEDEYSLKAIREQAKIEIALREFLKEKNAVGFTTTFEDLHDLPQLPGLAVQRLMEEGYGFGAEGDWKAAGLVRAIKVMGTSLPGGTSFMEDYTYHLTPGNELVLGAHMLEVCPTIAKEKPRIEVHPLSIGGKADPARLVFDGQEGPAVNASIVDMGNRFRLVVNKVLSVPIERKMPKLPTARVLWKPLPDFKRATTAWILAGGSHHTAFSTAIDVEYLIDWAEALEIEYVVIDENLDLEDFKKELRWNELYWGLLK 7cwv-a2-m2-cB_7cwv-a2-m2-cL Crystal structure of Arabinose isomerase from hyper thermophilic bacterium Thermotoga maritima (TMAI) wt Q9WYB3 Q9WYB3 3.53 X-RAY DIFFRACTION 94 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 494 495 7ch3-a1-m1-cA_7ch3-a1-m1-cH 7ch3-a1-m1-cB_7ch3-a1-m1-cF 7ch3-a1-m1-cC_7ch3-a1-m1-cD 7ch3-a2-m1-cE_7ch3-a2-m1-cI 7ch3-a2-m1-cG_7ch3-a2-m1-cL 7ch3-a2-m1-cJ_7ch3-a2-m1-cK 7cwv-a1-m1-cA_7cwv-a1-m1-cF 7cwv-a1-m1-cC_7cwv-a1-m1-cG 7cwv-a1-m1-cD_7cwv-a1-m1-cE 7cwv-a2-m1-cH_7cwv-a2-m1-cK 7cwv-a2-m1-cI_7cwv-a2-m1-cJ IDLKQYEFWFLVGSQYLYGLETLKKVEQQASKIVDSLNDDPIFPSKIVLKPVLKSSSEITEIFEKANADPKCAGVIVWMHTFSPSKMWIRGLSINKKPLLHLHTQYNREIPWDTIDMDYMNLNQSAHGDREHGFIHARMRLPRKVVVGHWEEKEVREKIAKWMRVACAIQDGRMGQIVRFGDNMREVASTEGDKVEAQIKLGWSINTWGVGELAERVKAVPEREVEELLKEYREKYIMPEDEYSLKAIREQAKIEIALREFLKEKNAVGFTTTFEDLHDLPQLPGLAVQRLMEEGYGFGAEGDWKAAGLVRAIKVMGTSLPGGTSFMEDYTYHLTPGNELVLGAHMLEVCPTIAKEKPRIEVHPLSIGGKADPARLVFDGQEGPAVNASIVDMGNRFRLVVNKVLSVPIERKMPKLPTARVLWKPLPDFKRATTAWILAGGSHHTAFSTAIDVEYLIDWAEALEIEYVVIDENLDLEDFKKELRWNELYWGLLK MIDLKQYEFWFLVGSQYLYGLETLKKVEQQASKIVDSLNDDPIFPSKIVLKPVLKSSSEITEIFEKANADPKCAGVIVWMHTFSPSKMWIRGLSINKKPLLHLHTQYNREIPWDTIDMDYMNLNQSAHGDREHGFIHARMRLPRKVVVGHWEEKEVREKIAKWMRVACAIQDGRMGQIVRFGDNMREVASTEGDKVEAQIKLGWSINTWGVGELAERVKAVPEREVEELLKEYREKYIMPEDEYSLKAIREQAKIEIALREFLKEKNAVGFTTTFEDLHDLPQLPGLAVQRLMEEGYGFGAEGDWKAAGLVRAIKVMGTSLPGGTSFMEDYTYHLTPGNELVLGAHMLEVCPTIAKEKPRIEVHPLSIGGKADPARLVFDGQEGPAVNASIVDMGNRFRLVVNKVLSVPIERKMPKLPTARVLWKPLPDFKRATTAWILAGGSHHTAFSTAIDVEYLIDWAEALEIEYVVIDENLDLEDFKKELRWNELYWGLLK 7cwy-a2-m1-cC_7cwy-a2-m1-cB Crystal structure of a tyrosine decarboxylase from Enterococcus faecalis in complex with the cofactor PLP Q838D6 Q838D6 2.59 X-RAY DIFFRACTION 460 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 592 602 7cwx-a1-m1-cA_7cwx-a1-m2-cA 7cwx-a2-m1-cC_7cwx-a2-m1-cB 7cwy-a1-m1-cA_7cwy-a1-m2-cA 7cwz-a1-m1-cA_7cwz-a1-m2-cA 7cwz-a2-m1-cC_7cwz-a2-m1-cB 7cx0-a1-m1-cA_7cx0-a1-m2-cA 7cx0-a2-m1-cC_7cx0-a2-m1-cB 7cx1-a1-m1-cA_7cx1-a1-m2-cA 7cx1-a2-m1-cC_7cx1-a2-m1-cB LAKGEMNLNALFIGDKAENGQLYKDLLIDLVDEHLGWRQNYMPQDMPVISSQERTSKSYEKTVNHMKDVLNEISSRMRTHSVPWHTAGRYWGHMNSETLMPSLLAYNFAMLWNGNNVAYESSPATSQMEEEVGHEFAHLMSYKNGWGHIVADGSLANLEGLWYARNIKSLPFAMKEVKPELVAGKSDWELLNMPTKEIMDLLESAEDEIDEIKAHSARSGKHLQAIGKWLVPQTKHYSWLKAADIIGIGLDQVIPVPVDHNYRMDINELEKIVRGLAEEQIPVLGVVGVVGSTEEGAVDSIDKIIALRDELMKDGIYYYVHVDAAYGGYGRAIFLDEDNNFIPYEDLQDVHEEYGVFKEKKEHISREVYDAYKAIELAESVTIDPHMGYIPYSAGGIVIQDIRMRDVISYFIPALLGAYILEGSKAGATAASVWAAHHVLPLNVAGYGKLIGASIEGSHHFYNFLNDLTFEVHTLTHPDFNMVDYVFKEKGNDDLVAMNKLNHDVYDYASYVKGNIYNNEFITSHTDFAIPDYGNSPLKFVNSLGFSDEEWNRAGKVTVLRAAVMTPYMNDKEEFDVYAPKIQAALQEKLEQ LAKGEMNLNALFIGDKAENGQLYKDLLIDLVDEHLGWRQNYMPQDMPVISSQERTSKSYEKTVNHMKDVLNEISSRMRTHSVPWHTAGRYWGHMNSETLMPSLLAYNFAMLWNGNNVAYESSPATSQMEEEVGHEFAHLMSYKNGWGHIVADGSLANLEGLWYARNIKSLPFAMKEVKPELVAGKSDWELLNMPTKEIMDLLESAEDEIDEIKAHSARSGKHLQAIGKWLVPQTKHYSWLKAADIIGIGLDQVIPVPVDHNYRMDINELEKIVRGLAEEQIPVLGVVGVVGSTEEGAVDSIDKIIALRDELMKDGIYYYVHVDAAYGGYGRAIFLDEDNNFIPYEDLQDVHEEYGVFKEKKEHISREVYDAYKAIELAESVTIDPHMGYIPYSAGGIVIQDIRMRDVISYFIPALLGAYILEGSKAGATAASVWAAHHVLPLNVAGYGKLIGASIEGSHHFYNFLNDLTFKVGDKEIEVHTLTHPDFNMVDYVFKEKGNDDLVAMNKLNHDVYDYASYVKGNIYNNEFITSHTDFAIPDYGNSPLKFVNSLGFSDEEWNRAGKVTVLRAAVMTPYMNDKEEFDVYAPKIQAALQEKLEQIYD 7cx7-a1-m1-cA_7cx7-a1-m2-cC Crystal structure of Arabinose isomerase from hybrid AI8 Q5KYP7 Q5KYP7 2.49 X-RAY DIFFRACTION 51 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 495 495 7cx7-a1-m1-cB_7cx7-a1-m1-cE 7cx7-a1-m2-cF_7cx7-a1-m2-cD 7cyy-a1-m1-cA_7cyy-a1-m2-cC 7cyy-a1-m1-cD_7cyy-a1-m1-cE 7cyy-a1-m2-cF_7cyy-a1-m1-cB LSLRPYEFWFVTGSQHLYGEEALKQVEEHSRIMVNEWNRDSVFPFPFVFKSVVTTPEEIRRVCLEANASEQCAGVVTWMHTFSPAKMWIGGLLELRKPLLHLHTQFNRDIPWDSIDMDFMNLNQSAHGDREFGFMVTRLGMPRKVIVGHWQDAEVARRVRGWAMTAVAAAVSRGLKVARFGDNMRQVAVTEGDKVEAEARFGWSVNGYGVGDLAERVRAVSEAEIDRLIDEYQSLYEFAPGCEKGGPLHDGVREQARIELGLRSFLEEGGFEAFTTTFEDLHGMKQLPGLAVQRLMAEGYGFGGEGDWKTAALVRLMKVMADGKGTSFMEDYTYHFEPGNEMILGAHMLEVCPTIAATRPRIEVHPLSIGGKEDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR LSLRPYEFWFVTGSQHLYGEEALKQVEEHSRIMVNEWNRDSVFPFPFVFKSVVTTPEEIRRVCLEANASEQCAGVVTWMHTFSPAKMWIGGLLELRKPLLHLHTQFNRDIPWDSIDMDFMNLNQSAHGDREFGFMVTRLGMPRKVIVGHWQDAEVARRVRGWAMTAVAAAVSRGLKVARFGDNMRQVAVTEGDKVEAEARFGWSVNGYGVGDLAERVRAVSEAEIDRLIDEYQSLYEFAPGCEKGGPLHDGVREQARIELGLRSFLEEGGFEAFTTTFEDLHGMKQLPGLAVQRLMAEGYGFGGEGDWKTAALVRLMKVMADGKGTSFMEDYTYHFEPGNEMILGAHMLEVCPTIAATRPRIEVHPLSIGGKEDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR 7cx7-a1-m2-cD_7cx7-a1-m2-cC Crystal structure of Arabinose isomerase from hybrid AI8 Q5KYP7 Q5KYP7 2.49 X-RAY DIFFRACTION 102 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 494 495 7cx7-a1-m1-cA_7cx7-a1-m1-cB 7cx7-a1-m2-cF_7cx7-a1-m1-cE 7cyy-a1-m1-cB_7cyy-a1-m2-cC 7cyy-a1-m1-cD_7cyy-a1-m2-cF 7cyy-a1-m1-cE_7cyy-a1-m1-cA LSLRPYEFWFVTGSQHLGEEALKQVEEHSRIMVNEWNRDSVFPFPFVFKSVVTTPEEIRRVCLEANASEQCAGVVTWMHTFSPAKMWIGGLLELRKPLLHLHTQFNRDIPWDSIDMDFMNLNQSAHGDREFGFMVTRLGMPRKVIVGHWQDAEVARRVRGWAMTAVAAAVSRGLKVARFGDNMRQVAVTEGDKVEAEARFGWSVNGYGVGDLAERVRAVSEAEIDRLIDEYQSLYEFAPGCEKGGPLHDGVREQARIELGLRSFLEEGGFEAFTTTFEDLHGMKQLPGLAVQRLMAEGYGFGGEGDWKTAALVRLMKVMADGKGTSFMEDYTYHFEPGNEMILGAHMLEVCPTIAATRPRIEVHPLSIGGKEDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR LSLRPYEFWFVTGSQHLYGEEALKQVEEHSRIMVNEWNRDSVFPFPFVFKSVVTTPEEIRRVCLEANASEQCAGVVTWMHTFSPAKMWIGGLLELRKPLLHLHTQFNRDIPWDSIDMDFMNLNQSAHGDREFGFMVTRLGMPRKVIVGHWQDAEVARRVRGWAMTAVAAAVSRGLKVARFGDNMRQVAVTEGDKVEAEARFGWSVNGYGVGDLAERVRAVSEAEIDRLIDEYQSLYEFAPGCEKGGPLHDGVREQARIELGLRSFLEEGGFEAFTTTFEDLHGMKQLPGLAVQRLMAEGYGFGGEGDWKTAALVRLMKVMADGKGTSFMEDYTYHFEPGNEMILGAHMLEVCPTIAATRPRIEVHPLSIGGKEDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR 7cxm-a1-m1-cE_7cxm-a1-m1-cF Architecture of a SARS-CoV-2 mini replication and transcription complex P0DTD1 P0DTD1 2.9 ELECTRON MICROSCOPY 15 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 596 596 6xez-a1-m1-cE_6xez-a1-m1-cF 7cxn-a1-m1-cE_7cxn-a1-m1-cF 7kro-a1-m1-cE_7kro-a1-m1-cF 7rdy-a1-m1-cE_7rdy-a1-m1-cF 7rdz-a1-m1-cE_7rdz-a1-m1-cF 7re1-a1-m1-cE_7re1-a1-m1-cF AVGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPARARVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSLEIPRRN AVGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPARARVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSLEIPRRN 7cxo-a1-m1-cA_7cxo-a1-m1-cD Crystal structure of Arabinose isomerase from hybrid AI10 Q5KYP7 Q5KYP7 3.2 X-RAY DIFFRACTION 56 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 494 494 7chl-a1-m1-cA_7chl-a1-m1-cC 7chl-a1-m1-cE_7chl-a1-m1-cD 7chl-a1-m1-cF_7chl-a1-m1-cB 7chl-a2-m1-cG_7chl-a2-m1-cI 7chl-a2-m1-cJ_7chl-a2-m1-cK 7chl-a2-m1-cL_7chl-a2-m1-cH 7cxo-a1-m1-cC_7cxo-a1-m1-cE 7cxo-a1-m1-cF_7cxo-a1-m1-cB MPAYEFWFVVGSQHLYGDEALAQVEAHAREMVPALQAAVGNAHVLRWKGVLKDADEIRRLCLEASADDVCAGVIAWMHTFSPAKMWIRGLLALRKPLLHLHTQFNRDIPWDTIDMDFMNLNQSAHGDREYGFIGARMGVARKVVVGHWEDPEVRERLAKWMRTAVAFAESRNLKVARFGDNMREVAVTEGDKVGAQIQFGWSVNGYGIGDLVQYIRDVSEQKVNELLDEYEELYDIVPAGRQEGPVRESIREQARIELGLKAFLQDGNFTAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWR MPAYEFWFVVGSQHLYGDEALAQVEAHAREMVPALQAAVGNAHVLRWKGVLKDADEIRRLCLEASADDVCAGVIAWMHTFSPAKMWIRGLLALRKPLLHLHTQFNRDIPWDTIDMDFMNLNQSAHGDREYGFIGARMGVARKVVVGHWEDPEVRERLAKWMRTAVAFAESRNLKVARFGDNMREVAVTEGDKVGAQIQFGWSVNGYGIGDLVQYIRDVSEQKVNELLDEYEELYDIVPAGRQEGPVRESIREQARIELGLKAFLQDGNFTAFTTTFEDLHGLKQLPGLAVQRLMQQGYGFAGEGDWKTAALLRIMKVMSTGLQGGTSFMEDYTYHFEKGNDLVLGSHMLEVCPSIAAEEKPILDVQHLGIGGKDDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWR 7cxs-a1-m1-cA_7cxs-a1-m2-cB Crystal structure of CmnK, a L-Dap formation enzyme in capreomycin biosynthesis A6YEI2 A6YEI2 1.83 X-RAY DIFFRACTION 179 1.0 66854 (Saccharothrix mutabilis subsp. capreolus) 66854 (Saccharothrix mutabilis subsp. capreolus) 326 327 7cxu-a1-m2-cA_7cxu-a1-m1-cB 7cxv-a1-m1-cA_7cxv-a1-m2-cB SEELLFLDRETVRACVAGVDPVEVVESVLRSHAAGRTTLPAEGYLPWENDQGAYCRSIAMLGAVDGERGPTYGIKLINAAVSNPSIGLDRAGGCGFLFDPRTARPVVLAEAAYLSGLRTAAYTMASLRHLGPVGFDAVSFIGTGAQARVHAALLARYFPAVRDLHVFDTERSRAEAFTGAGHTVHVHDTAEAAVRASHVLVTLTTVDDGYIPHDWFRPGSFVAHVSLDDLLPEVFFKSEALFVDDLELIRENPRRVLGALLADGDVPVTGSLGGVLTGAVAPVRPRDGVVVSNPFGMAVLDVGLLAEVAAHARSAGLGTTLDLLGA SEELLFLDRETVRACVAGVDPVEVVESVLRSHAAGRTTLPAEGYLPWENDQGAYCRSIAMLGAVDGERGPTYGIKLINAAVSNPSIGLDRAGGCGFLFDPRTARPVVLAEAAYLSGLRTAAYTMASLRHLGPVGFDAVSFIGTGAQARVHAALLARYFPAVRDLHVFDTERSRAEAFTGASGHTVHVHDTAEAAVRASHVLVTLTTVDDGYIPHDWFRPGSFVAHVSLDDLLPEVFFKSEALFVDDLELIRENPRRVLGALLADGDVPVTGSLGGVLTGAVAPVRPRDGVVVSNPFGMAVLDVGLLAEVAAHARSAGLGTTLDLLGA 7cxw-a1-m1-cA_7cxw-a1-m1-cB Structural insights into novel mechanisms of inhibition of the major b-carbonic anhydrase CafB from the pathogenic fungus Aspergillus fumigatus (C116 flipped form) A4DA32 A4DA32 2.2 X-RAY DIFFRACTION 222 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 216 216 7cxx-a1-m1-cB_7cxx-a1-m1-cA 7cxy-a1-m1-cB_7cxy-a1-m1-cA TVPQYLKQSHERIFENNRAWVATKMKDDPAFFEKLSAGQTPEYLYIGCSDSRVPANEIMGLEAGEVFVHRNIANLVPNTDLNVMSVINYAVRHLQVKHIVVCGHYHCGGVKAALTPSDLGLLNPWLRNVRDVYRLHEQELDGIQDATARYRRLVELNVIESCRNVIKTAAVQQSFHERQFPVVHGWIFDVETGLLRDLEIDFEETLRDIKKIYNLA TVPQYLKQSHERIFENNRAWVATKMKDDPAFFEKLSAGQTPEYLYIGCSDSRVPANEIMGLEAGEVFVHRNIANLVPNTDLNVMSVINYAVRHLQVKHIVVCGHYHCGGVKAALTPSDLGLLNPWLRNVRDVYRLHEQELDGIQDATARYRRLVELNVIESCRNVIKTAAVQQSFHERQFPVVHGWIFDVETGLLRDLEIDFEETLRDIKKIYNLA 7cyd-a1-m1-cB_7cyd-a1-m1-cC Cryo-EM structures of Alphacoronavirus spike glycoprotein P15423 P15423 3.55 ELECTRON MICROSCOPY 301 1.0 11137 (Human coronavirus 229E) 11137 (Human coronavirus 229E) 964 964 6u7h-a1-m1-cA_6u7h-a1-m1-cB 6u7h-a1-m1-cA_6u7h-a1-m1-cC 6u7h-a1-m1-cB_6u7h-a1-m1-cC 7cyc-a1-m1-cA_7cyc-a1-m1-cB 7cyc-a1-m1-cA_7cyc-a1-m1-cC 7cyc-a1-m1-cB_7cyc-a1-m1-cC 7cyd-a1-m1-cA_7cyd-a1-m1-cB 7cyd-a1-m1-cA_7cyd-a1-m1-cC IPSDFAFNNWFLLTNTSSVVDGVVRSFQPLLLNCLWSVSGLRFTTGFVYFNGTGRGDCKGFSSDVLSDVIRYNLNFEENLRRGTILFKTSYGVVVFYCTNNTLVSGDAHIPFGTVFYCFVNTTIGNETTSAFVGALPKTVREFVISRTGHFYINGYRYFTLGNVEAVNFNVTTAETTDFCTVALASYADVLVNVSQTSIANIIYCNSVINRLRCDQLSFDVPDGFYSTSPIQSVELPVSIVSLPVYHKHTFIVLYVDFKPQSGGGKCFNCYPAGVNITLANFNETKGPLCVDTSHFTTKYVAVYANVGRWSASINTGNCPFSFGKVNNFVKFGSVCFSLKDIPGGCAMPIVANWAYSKYYTIGSLYVSWSDGDGITGVPQPVEGVSSFMNVTLDKCTKYNIYDVSGVGVIRVSNDTFLNGITYTSTSGNLLGFKDVTKGTIYSITPCNPPDQLVVYQQAVVGAMLSENFTSYGFSNVVELPKFFYASNGTYNCTDAVLTYSSFGVCADGSIIAVQPRNVSYDSVSAIVTANLSIPSNWTTSVQVEYLQITSTPIVVDCSTYVCNGNVRCVELLKQYTSACKTIEDALRNSAMLESADVSEMLTFDKKAFTLANVSSFGDYNLSSVIPSLPRSGSRSAIEDILFSKLVTDADYKKCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGIALGGLTSAASIPFSLAIQSRLNYVALQTDVLQENQKILAASFNKAMTNIVDAFTSQALQTVATALNKIQDVVNQQGNSLNHLTSQLRQNFQAISSSIQAIYDRLDIIQADQQVDRLITGRLAALNVFVSHTLTKYTEVRASRQLAQQKVNECVKSQSKRYGFCGNGTHIFSLVNAAPEGLVFLHTVLLPTQYKDVEAWSGLCVDGRNGYVLRQPNLALYKEGNYYRITSRIMFEPRIPTIADFVQIENCNVTFVNISRSELQTIVPEY IPSDFAFNNWFLLTNTSSVVDGVVRSFQPLLLNCLWSVSGLRFTTGFVYFNGTGRGDCKGFSSDVLSDVIRYNLNFEENLRRGTILFKTSYGVVVFYCTNNTLVSGDAHIPFGTVFYCFVNTTIGNETTSAFVGALPKTVREFVISRTGHFYINGYRYFTLGNVEAVNFNVTTAETTDFCTVALASYADVLVNVSQTSIANIIYCNSVINRLRCDQLSFDVPDGFYSTSPIQSVELPVSIVSLPVYHKHTFIVLYVDFKPQSGGGKCFNCYPAGVNITLANFNETKGPLCVDTSHFTTKYVAVYANVGRWSASINTGNCPFSFGKVNNFVKFGSVCFSLKDIPGGCAMPIVANWAYSKYYTIGSLYVSWSDGDGITGVPQPVEGVSSFMNVTLDKCTKYNIYDVSGVGVIRVSNDTFLNGITYTSTSGNLLGFKDVTKGTIYSITPCNPPDQLVVYQQAVVGAMLSENFTSYGFSNVVELPKFFYASNGTYNCTDAVLTYSSFGVCADGSIIAVQPRNVSYDSVSAIVTANLSIPSNWTTSVQVEYLQITSTPIVVDCSTYVCNGNVRCVELLKQYTSACKTIEDALRNSAMLESADVSEMLTFDKKAFTLANVSSFGDYNLSSVIPSLPRSGSRSAIEDILFSKLVTDADYKKCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGIALGGLTSAASIPFSLAIQSRLNYVALQTDVLQENQKILAASFNKAMTNIVDAFTSQALQTVATALNKIQDVVNQQGNSLNHLTSQLRQNFQAISSSIQAIYDRLDIIQADQQVDRLITGRLAALNVFVSHTLTKYTEVRASRQLAQQKVNECVKSQSKRYGFCGNGTHIFSLVNAAPEGLVFLHTVLLPTQYKDVEAWSGLCVDGRNGYVLRQPNLALYKEGNYYRITSRIMFEPRIPTIADFVQIENCNVTFVNISRSELQTIVPEY 7cyi-a2-m1-cB_7cyi-a2-m1-cC Crystal structure of Alcohol dehydrogenase 1 from Artemisia annua A0A2U1Q018 A0A2U1Q018 2.95 X-RAY DIFFRACTION 116 1.0 35608 (Artemisia annua) 35608 (Artemisia annua) 375 375 6ljh-a1-m1-cA_6ljh-a1-m2-cA 7cyi-a1-m1-cA_7cyi-a1-m1-cD PGVITCKAAVVWESSGPVVLEEIRVDPPKASEVRIKMLCASLCHTDVLCTKGFPIPLFPRIPGHEGVGVIESIGKDAKGLKPGDIVMPLYLGECGQCLNCKTGKTNLCHVYPPSFSGLMNDGTSRMSIARTGESIYHFASCSTWTEYAVADCNYVLKINPKISYPHASFLSCGFTTGFGATWRETQVSKGSSVAVFGIGTVGLGVIKGAQLQGASKIIGVDVNQYKAAKGKVFGMTDFINPKDHPDKSVSELVKELTHGLGVDHCFECTGVPSLLNEALEASKIGIGTVVPIGAGGEASVAINSLILFSGRTLKFTAFGGVRTQSDLPVIIDKCLNKEIQLDELLTHEIHLDNIQEAFEILKKPDCVKILIKFLE PGVITCKAAVVWESSGPVVLEEIRVDPPKASEVRIKMLCASLCHTDVLCTKGFPIPLFPRIPGHEGVGVIESIGKDAKGLKPGDIVMPLYLGECGQCLNCKTGKTNLCHVYPPSFSGLMNDGTSRMSIARTGESIYHFASCSTWTEYAVADCNYVLKINPKISYPHASFLSCGFTTGFGATWRETQVSKGSSVAVFGIGTVGLGVIKGAQLQGASKIIGVDVNQYKAAKGKVFGMTDFINPKDHPDKSVSELVKELTHGLGVDHCFECTGVPSLLNEALEASKIGIGTVVPIGAGGEASVAINSLILFSGRTLKFTAFGGVRTQSDLPVIIDKCLNKEIQLDELLTHEIHLDNIQEAFEILKKPDCVKILIKFLE 7cym-a1-m1-cA_7cym-a1-m1-cB Crystal structure of LI-Cadherin EC1-4 Q12864 Q12864 2.7 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 417 418 KFSGPLKPMTFSIYEGQEPSQIIFQFKANPPAVTFELTGETDNIFVIEREGLLYYNRALDRETRSTHNLQVAALDANGIIVEGPVPITIKVKDINDNRPTFLQSKYEGSVRQNSRPGKPFLYVNATDLDDPATPNGQLYYQIVIQLPMINNVMYFQINNKTGAISLTREGSQELNPAKNPSYNLVISVKDMGGQSENSFSDTTSVDIIVTENIWKAPKPVEMVENSTDPHPIKITQVRWNDPGAQYSLVDKEKLPRFPFSIDQEGDIYVTQPLDREEKDAYVFYAVAKDEYGKPLSYPLEIHVKVKDINDNPPTCPSPVTVFEVQENERLGNSIGTLTAHDRDEENTANSFLNYRIVEQTPKLPMDGLFLIQTYAGMLQLAKQSLKKQDTPQYNLTIEVSDKDFKTLCFVQINVIDE KFSGPLKPMTFSIYEGQEPSQIIFQFKANPPAVTFELTGETDNIFVIEREGLLYYNRALDRETRSTHNLQVAALDANGIIVEGPVPITIKVKDINDNRPTFLQSKYEGSVRQNSRPGKPFLYVNATDLDDPATPNGQLYYQIVIQLPMINNVMYFQINNKTGAISLTREGSQELNPAKNPSYNLVISVKDMGGQSENSFSDTTSVDIIVTENIWKAPKPVEMVENSTDPHPIKITQVRWNDPGAQYSLVDKEKLPRFPFSIDQEGDIYVTQPLDREEKDAYVFYAVAKDEYGKPLSYPLEIHVKVKDINDNPPTCPSPVTVFEVQENERLGNSIGTLTAHDRDEENTANSFLNYRIVEQTPKLPMDGLFLIQTYAGMLQLAKQSLKKQDTPQYNLTIEVSDKDFKTLCFVQINVIDEQ 7cyx-a1-m1-cB_7cyx-a1-m1-cA Crystal strcuture of Glycine oxidase from Bacillus cereus ATCC 14579 Q81HQ7 Q81HQ7 2.41 X-RAY DIFFRACTION 42 0.994 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 357 363 KYDVAIIGGGVIGSSVAHFLAERGHKVAIVEKQSIASEASKAAAGLLGVWDAYNPLFELARESRAIFPQLAAVLREKTGVDIGYEEKGIYRIAQNEDEKERILHIMDWQQKTGEDSYFLTGDHVREKEPYLSESIIGAVYYPKDGHVIAPELTKAFAHSAAISGADIYEQTEVFDIRIENNKVTGVITSEGIVTCEKVVIAGGSWSTKLLSYFHRDWGTYPVKGEVVAVRSRKQLLKAPIFQERFYITPKRGGRYVIGATMKPHTFNKTVQPESITSILERAYTILPALKEAEWESTWAGLRPQSNHEAPYMGEHEEIKGLYACTGHYRNGILLSPISGQYMADLIEGKQENHLLDS KYDVAIIGGGVIGSSVAHFLAERGHKVAIVEKQSIASEASKAAAGLLGVAYNPLFELARESRAIFPQLAAVLREKTGVDIGYEEKGIYRIAQNEDEKERILHIMDWQQKTGEDSYFLTGDHVREKEPYLSESIIGAVYYPKDGHVIAPELTKAFAHSAAISGADIYEQTEVFDIRIENNKVTGVITSEGIVTCEKVVIAGGSWSTKLLSYFHRDWGTYPVKGEVVAVRSRKQLLKAPIFQERFYITPKRGGRYVIGATMKPHTFNKTVQPESITSILERAYTILPALKEAEWESTWAGLRPQSNHEAPYMGEHEEIKGLYACTGHYRNGILLSPISGQYMADLIEGKQENHLLDSLLSRRVLE 7cyy-a1-m2-cF_7cyy-a1-m2-cC Crystal structure of Arabinose isomerase from hybrid AI8 with Adonitol Q5KYP7 Q5KYP7 2.6 X-RAY DIFFRACTION 161 1.0 235909 (Geobacillus kaustophilus HTA426) 235909 (Geobacillus kaustophilus HTA426) 493 497 7cx7-a1-m1-cA_7cx7-a1-m1-cE 7cx7-a1-m1-cB_7cx7-a1-m2-cC 7cx7-a1-m2-cD_7cx7-a1-m1-cA 7cx7-a1-m2-cD_7cx7-a1-m1-cE 7cx7-a1-m2-cF_7cx7-a1-m1-cB 7cx7-a1-m2-cF_7cx7-a1-m2-cC 7cyy-a1-m1-cB_7cyy-a1-m1-cA 7cyy-a1-m1-cD_7cyy-a1-m1-cA 7cyy-a1-m1-cD_7cyy-a1-m1-cB 7cyy-a1-m1-cE_7cyy-a1-m2-cC 7cyy-a1-m1-cE_7cyy-a1-m2-cF LSLRPYEFWFVTGSQHLYGEEALKQVEEHSRIMVNEWNRDFPFPFVFKSVVTTPEEIRRVCLEANASEQCAGVVTWMHTFSPAKMWIGGLLELRKPLLHLHTQFNRDIPWDSIDMDFMNLNQSAHGDREFGFMVTRLGMPRKVIVGHWQDAEVARRVRGWAMTAVAAAVSRGLKVARFGDNMRQVAVTEGDKVEAEARFGWSVNGYGVGDLAERVRAVSEAEIDRLIDEYQSLYEFAPGCEKGGPLHDGVREQARIELGLRSFLEEGGFEAFTTTFEDLHGMKQLPGLAVQRLMAEGYGFGGEGDWKTAALVRLMKVMADGKGTSFMEDYTYHFEPGNEMILGAHMLEVCPTIAATRPRIEVHPLSIGGKEDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR MMLSLRPYEFWFVTGSQHLYGEEALKQVEEHSRIMVNEWNRDSVFPFPFVFKSVVTTPEEIRRVCLEANASEQCAGVVTWMHTFSPAKMWIGGLLELRKPLLHLHTQFNRDIPWDSIDMDFMNLNQSAHGDREFGFMVTRLGMPRKVIVGHWQDAEVARRVRGWAMTAVAAAVSRGLKVARFGDNMRQVAVTEGDKVEAEARFGWSVNGYGVGDLAERVRAVSEAEIDRLIDEYQSLYEFAPGCEKGGPLHDGVREQARIELGLRSFLEEGGFEAFTTTFEDLHGMKQLPGLAVQRLMAEGYGFGGEGDWKTAALVRLMKVMADGKGTSFMEDYTYHFEPGNEMILGAHMLEVCPTIAATRPRIEVHPLSIGGKEDPARLVFDGGEGAAVNASLIDLGHRFRLIVNEVDAVKPEHDMPKLPVARILWKPRPSLRDSAEAWILAGGAHHTCFSFAVTTEQLQDFAEMAGIECVVINEHTSVSSFKNELKWNEVFWRGR 7cz3-a1-m1-cE_7cz3-a1-m1-cF Crystal strcuture of Acyl-CoA thioesterase from Bacillus cereus ATCC 14579 Q814K4 Q814K4 2.9 X-RAY DIFFRACTION 120 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 162 162 7cz3-a1-m1-cB_7cz3-a1-m1-cA 7cz3-a1-m1-cD_7cz3-a1-m1-cC EKKFMRESKAIKTTRVFPNDLNNHQTLFGGKLLAEIDSIASIAAARHSRKHCVTASIDSVDFLTPIHQADSVCYEAFVCYTGKSSMEVFVKVIAENLLAGERRIAATCFITFVAIKDGKPSSVPQVLPETQEEHWLHKTGLERAENRKKGRLKSKEMAEVLT EKKFMRESKAIKTTRVFPNDLNNHQTLFGGKLLAEIDSIASIAAARHSRKHCVTASIDSVDFLTPIHQADSVCYEAFVCYTGKSSMEVFVKVIAENLLAGERRIAATCFITFVAIKDGKPSSVPQVLPETQEEHWLHKTGLERAENRKKGRLKSKEMAEVLT 7cz3-a1-m1-cF_7cz3-a1-m1-cA Crystal strcuture of Acyl-CoA thioesterase from Bacillus cereus ATCC 14579 Q814K4 Q814K4 2.9 X-RAY DIFFRACTION 52 0.994 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 162 168 7cz3-a1-m1-cB_7cz3-a1-m1-cD 7cz3-a1-m1-cE_7cz3-a1-m1-cC EKKFMRESKAIKTTRVFPNDLNNHQTLFGGKLLAEIDSIASIAAARHSRKHCVTASIDSVDFLTPIHQADSVCYEAFVCYTGKSSMEVFVKVIAENLLAGERRIAATCFITFVAIKDGKPSSVPQVLPETQEEHWLHKTGLERAENRKKGRLKSKEMAEVLT KKFMRESKAIKTTRVFPNDLNNHQTLFGGKLLAEIDSIASIAAARHSRKHCVTASIDSVDFLTPIHQADSVCYEAFVCYTGKSSMEVFVKVIAENLLAGERRIAATCFITFVAIKDGKPSSVPQVLPETQEEHWLHKTGLERAENRKKGRLKSKEMAEVLTLSKPWNI 7cz6-a1-m4-cC_7cz6-a1-m5-cC Protrusion structure of Omono River virus A0A7M3VBX7 A0A7M3VBX7 4.1 ELECTRON MICROSCOPY 118 1.0 753758 (Omono River virus) 753758 (Omono River virus) 126 126 7cz6-a1-m1-cC_7cz6-a1-m2-cC 7cz6-a1-m1-cC_7cz6-a1-m5-cC 7cz6-a1-m2-cC_7cz6-a1-m3-cC 7cz6-a1-m3-cC_7cz6-a1-m4-cC IDCDSSVFGNNFNITTSPQTLTMSGPLAPGKYQTTLTVQALIGGTGVVVGTVTFAGKTVAYQVFDDSFASFDLGTVTVSASTTPSVIWTGSTGATLTMAVNIICKPITPTSVAISGQPIWTTPYAP IDCDSSVFGNNFNITTSPQTLTMSGPLAPGKYQTTLTVQALIGGTGVVVGTVTFAGKTVAYQVFDDSFASFDLGTVTVSASTTPSVIWTGSTGATLTMAVNIICKPITPTSVAISGQPIWTTPYAP 7cz9-a2-m1-cE_7cz9-a2-m1-cF Crystal structure of multidrug efflux transporter OqxB from Klebsiella pneumoniae U5U6L7 U5U6L7 1.85 X-RAY DIFFRACTION 204 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 1039 1040 7cz9-a1-m1-cA_7cz9-a1-m1-cB 7cz9-a1-m1-cA_7cz9-a1-m1-cC 7cz9-a1-m1-cC_7cz9-a1-m1-cB 7cz9-a2-m1-cD_7cz9-a2-m1-cF 7cz9-a2-m1-cE_7cz9-a2-m1-cD MDFSRFFIDRPIFAAVLSILIFITGLIAIPLLPVSEYPDVVPPSVQVRAEYPGANPKVIAETVATPLEEAINGVENMMYMKSVAGSDGVLVTTVTFRPGTDPDQAQVQVQNRVAQAEARLPEDVRRLGITTQKQSPTLTLVVHLFSPNGKYDSLYMRNYATLKVKDELARLPGVGQIQIFGSGEYAMRVWLDPNKVAARGLTASDVVTAMQEQNVQVSAGQLGAEPLPQESDFLISINAQGRLHTEEEFGNIILKTAQDGSLVRLRDVARIEMGSGSYALRSQLNNKDAVGIGIFQSPGANAIDLSNAVRAKMAELATRFPEDMQWAAPYDPTVFVRDSIRAVVQTLLEAVVLVVLVVILFLQTWRASIIPLIAVPVSVVGTFSILYLLGFSLNTLSLFGLVLAIGIVVDDAIVVVENVERNIEEGLAPLAAAHQAMREVSGPIIAIALVLCAVFVPMAFLSGVTGQFYKQFAVTIAISTVISAINSLTLSPALAALLLKPHGAKKDLPTRLIDRLFGWIFRPFNRFFLRSSNGYQGLVSKTLGRRGAVFAVYLLLLCAAGVMFKVVPGGFIPTQDKLYLIGGVKMPEGSSLARTDAVIRKMSEIGMNTEGVDYAVAFPGLNALQFTNTPNTGTVFFGLKPFDQRKHTAAEINAEINAKIAQIQQGFGFSILPPPILGLGQGSGYSLYIQDRGGLGYGALQSAVNAMSGAIMQTPGMHFPISTYQANVPQLDVQVDRDKAKAQGVSLTELFGTLQTYLGSSYVNDFNQFGRTWRVMAQADGPYRESVEDIANLRTRNNQGEMVPIGSMVNISTTYGPDPVIRYNGYPAADLIGDADPRVLSSSQAMTHLEELSKQILPNGMNIEWTDLSFQQATQGNTALIVFPVAVLLAFLVLAALYESWTLPLAVILIVPMTMLSALFGVWLTGGDNNVFVQVGLVVLMGLACKNAILIVEFARELEIQGKGIMEAALEACRLRLRPIVMTSIAFIAGTIPLILGHGAGAEVRGVTGITVFSGMLGVTLFGLFLTPVFYVTLRKLVT MDFSRFFIDRPIFAAVLSILIFITGLIAIPLLPVSEYPDVVPPSVQVRAEYPGANPKVIAETVATPLEEAINGVENMMYMKSVAGSDGVLVTTVTFRPGTDPDQAQVQVQNRVAQAEARLPEDVRRLGITTQKQSPTLTLVVHLFSPNGKYDSLYMRNYATLKVKDELARLPGVGQIQIFGSGEYAMRVWLDPNKVAARGLTASDVVTAMQEQNVQVSAGQLGAEPLPQESDFLISINAQGRLHTEEEFGNIILKTAQDGSLVRLRDVARIEMGSGSYALRSQLNNKDAVGIGIFQSPGANAIDLSNAVRAKMAELATRFPEDMQWAAPYDPTVFVRDSIRAVVQTLLEAVVLVVLVVILFLQTWRASIIPLIAVPVSVVGTFSILYLLGFSLNTLSLFGLVLAIGIVVDDAIVVVENVERNIEEGLAPLAAAHQAMREVSGPIIAIALVLCAVFVPMAFLSGVTGQFYKQFAVTIAISTVISAINSLTLSPALAALLLKPHGAKKDLPTRLIDRLFGWIFRPFNRFFLRSSNGYQGLVSKTLGRRGAVFAVYLLLLCAAGVMFKVVPGGFIPTQDKLYLIGGVKMPEGSSLARTDAVIRKMSEIGMNTEGVDYAVAFPGLNALQFTNTPNTGTVFFGLKPFDQRKHTAAEINAEINAKIAQIQQGFGFSILPPPILGLGQGSGYSLYIQDRGGLGYGALQSAVNAMSGAIMQTPGMHFPISTYQANVPQLDVQVDRDKAKAQGVSLTELFGTLQTYLGSSYVNDFNQFGRTWRVMAQADGPYRESVEDIANLRTRNNQGEMVPIGSMVNISTTYGPDPVIRYNGYPAADLIGDADPRVLSSSQAMTHLEELSKQILPNGMNIEWTDLSFQQATQGNTALIVFPVAVLLAFLVLAALYESWTLPLAVILIVPMTMLSALFGVWLTGGDNNVFVQVGLVVLMGLACKNAILIVEFARELEIQGKGIMEAALEACRLRLRPIVMTSIAFIAGTIPLILGHGAGAEVRGVTGITVFSGMLGVTLFGLFLTPVFYVTLRKLVTR 7czb-a1-m1-cC_7czb-a1-m1-cD The cryo-EM structure of the ERAD retrotranslocation channel formed by human Derlin-1 Q9BUN8 Q9BUN8 3.8 ELECTRON MICROSCOPY 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 194 194 7czb-a1-m1-cA_7czb-a1-m1-cB 7czb-a1-m1-cA_7czb-a1-m1-cD 7czb-a1-m1-cB_7czb-a1-m1-cC FRSIPAITRYWFAATVAVPLVGKLGLISPAYLFLWPEAFLYRFQIWRPITATFYFPVGPGTGFLYLVNLYFLYQYSTRLETGAFDGRPADYLFMLLFNWICIVITGLAMDMQLLMIPLIMSVLYVWAQLNRDMIVSFWFGTRFKACYLPWVILGFNYIIGGSVINELIGNLVGHLYFFLMFRYPMDLGGRNFLS FRSIPAITRYWFAATVAVPLVGKLGLISPAYLFLWPEAFLYRFQIWRPITATFYFPVGPGTGFLYLVNLYFLYQYSTRLETGAFDGRPADYLFMLLFNWICIVITGLAMDMQLLMIPLIMSVLYVWAQLNRDMIVSFWFGTRFKACYLPWVILGFNYIIGGSVINELIGNLVGHLYFFLMFRYPMDLGGRNFLS 7czc-a1-m1-cD_7czc-a1-m1-cB Crystal structure of apo-FabG from Vibrio harveyi K5VE97 K5VE97 2 X-RAY DIFFRACTION 95 1.0 669 (Vibrio harveyi) 669 (Vibrio harveyi) 239 241 7czc-a1-m1-cA_7czc-a1-m1-cC TRQVLVTGASKGIGKAIAVQLAKDGFHIVVHYMGDQQGAQNTLETIEQHGGSGRLIQFDISNREECRTKLEADIAEHGAYYGVVNNAGITRDTAFPAMTEEEWDGVIHTNLDSFYNVLHPCVMPMVQKRKGGRIVTLAVSGLMGNRGQTNYSAAKAGVIGATKSLALELAKRKITVNCVAPGLIDTGMVDEHVKEHAMPQIPLRRMGEPEEVAGLVSYLMSDIAGYVTRQVISVNGGLV MTRQVLVTGASKGIGKAIAVQLAKDGFHIVVHYMGDQQGAQNTLETIEQHGGSGRLIQFDISNREECRTKLEADIAEHGAYYGVVNNAGITRDTAFPAMTEEEWDGVIHTNLDSFYNVLHPCVMPMVQKRKGGRIVTLASVSGLMGNRGQTNYSAAKAGVIGATKSLALELAKRKITVNCVAPGLIDTGMVDEHVKEHAMPQIPLRRMGEPEEVAGLVSYLMSDIAGYVTRQVISVNGGLV 7czc-a1-m1-cD_7czc-a1-m1-cC Crystal structure of apo-FabG from Vibrio harveyi K5VE97 K5VE97 2 X-RAY DIFFRACTION 120 0.992 669 (Vibrio harveyi) 669 (Vibrio harveyi) 239 240 7czc-a1-m1-cA_7czc-a1-m1-cB TRQVLVTGASKGIGKAIAVQLAKDGFHIVVHYMGDQQGAQNTLETIEQHGGSGRLIQFDISNREECRTKLEADIAEHGAYYGVVNNAGITRDTAFPAMTEEEWDGVIHTNLDSFYNVLHPCVMPMVQKRKGGRIVTLAVSGLMGNRGQTNYSAAKAGVIGATKSLALELAKRKITVNCVAPGLIDTGMVDEHVKEHAMPQIPLRRMGEPEEVAGLVSYLMSDIAGYVTRQVISVNGGLV MTRQVLVTGASKGIGKAIAVQLAKDGFHIVVHYMGDQQGAQNTLETIEQHGGSGRLIQFDISNREECRTKLEADIAEHGAYYGVVNNAGITRDTAFPAMTEEEWDGVIHTNLDSFYNVLHPCVMPMVQKRKGGRIVTLASVGLMGNRGQTNYSAAKAGVIGATKSLALELAKRKITVNCVAPGLIDTGMVDEHVKEHAMPQIPLRRMGEPEEVAGLVSYLMSDIAGYVTRQVISVNGGLV 7czp-a1-m1-cH_7czp-a1-m1-cJ S protein of SARS-CoV-2 in complex bound with P2B-1A1 Q5EFE5 Q5EFE5 3.0 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 222 222 QVQLQESGPGLVKPSETLSLTCTVSGGSISSYYWSWIRQPPGKGLEWIGYIYYSGSTNYNPSLKSRVTISVDTSKKQFSLKLSSVTAADTAVYYCARLERDWPLDAFDIWGQGTMVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS QVQLQESGPGLVKPSETLSLTCTVSGGSISSYYWSWIRQPPGKGLEWIGYIYYSGSTNYNPSLKSRVTISVDTSKKQFSLKLSSVTAADTAVYYCARLERDWPLDAFDIWGQGTMVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS 7czr-a1-m1-cB_7czr-a1-m1-cC S protein of SARS-CoV-2 in complex bound with P5A-1B8_2B P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 261 0.997 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 982 1004 7czp-a1-m1-cB_7czp-a1-m1-cC 7czq-a1-m1-cB_7czq-a1-m1-cC 7czt-a1-m1-cB_7czt-a1-m1-cC 7czu-a1-m1-cB_7czu-a1-m1-cC 7czw-a1-m1-cB_7czw-a1-m1-cC 7czy-a1-m1-cB_7czy-a1-m1-cC 7d00-a1-m1-cB_7d00-a1-m1-cC 7d0c-a1-m1-cB_7d0c-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLYLYRLFRKSNLKPFERDISTEIYQANCYFPLQSYGFVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7czy-a1-m1-cK_7czy-a1-m1-cN S protein of SARS-CoV-2 in complex bound with P5A-2F11_2B P01834 P01834 3.3 ELECTRON MICROSCOPY 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNNKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQQYYSTPLTFGGGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNNKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQQYYSTPLTFGGGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 7d09-a1-m1-cA_7d09-a1-m1-cD Acinetobacter MlaFEDB complex in ATP-bound Vtrans2 conformation V5V9F4 V5V9F4 3.6 ELECTRON MICROSCOPY 128 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 256 256 6ic4-a1-m1-cG_6ic4-a1-m1-cH 6z5u-a1-m1-cA_6z5u-a1-m1-cB 7d06-a1-m1-cA_7d06-a1-m1-cD 7d08-a1-m1-cA_7d08-a1-m1-cD 7d0a-a1-m1-cA_7d0a-a1-m1-cD MNTIAWLGRLVIERIRGIGVAALMLLQIIFSLPSAGGFGRFVYQMHRVGVMSLLIITVSGLFIGLVLGLQGYSILVNVGSESMLGTMVSLTLLRELAPVVAALLFAGRAGSALTAEIGSMKQSEQLASMEMIGVDPLKQIVSPRLWAGIVSLPMLTVIFAAIGIVGGKLVGVDFLGVDEGSFWSGMQNNVQFGHDVVNGIIKSIVFALLCTWIAVFQGYACDPTPEGIATAMTRTVVYSSLCVLGFDFVLTAVMFG MNTIAWLGRLVIERIRGIGVAALMLLQIIFSLPSAGGFGRFVYQMHRVGVMSLLIITVSGLFIGLVLGLQGYSILVNVGSESMLGTMVSLTLLRELAPVVAALLFAGRAGSALTAEIGSMKQSEQLASMEMIGVDPLKQIVSPRLWAGIVSLPMLTVIFAAIGIVGGKLVGVDFLGVDEGSFWSGMQNNVQFGHDVVNGIIKSIVFALLCTWIAVFQGYACDPTPEGIATAMTRTVVYSSLCVLGFDFVLTAVMFG 7d09-a1-m1-cB_7d09-a1-m1-cE Acinetobacter MlaFEDB complex in ATP-bound Vtrans2 conformation A0A086HZU3 A0A086HZU3 3.6 ELECTRON MICROSCOPY 108 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 263 263 6ic4-a1-m1-cI_6ic4-a1-m1-cJ 6z5u-a1-m1-cK_6z5u-a1-m1-cL 7d06-a1-m1-cB_7d06-a1-m1-cE 7d08-a1-m1-cB_7d08-a1-m1-cE TQSLIEVKNLSFNRGERVIYDNISLNIRRGQITAIMGPSGTGKTTLLRLIGGQLVPDQGEVLLDGKDIAQMSRQELFAARARMGMLFQSGALFTDMSVYENVAFPIRAHTKLSENLIAELVALKLESVGLRGTEQLMPTELSGGMNRRVALARAIALDPDLIMYDEPFAGQDPIVKGVLTRLIRSLREALDLTTIIVSHDVPETLSIADYIYVVAEGKIQGEGTPEELQAYASPFVKQFLTGSAEGPVEYQFSHQAYLDNEVR TQSLIEVKNLSFNRGERVIYDNISLNIRRGQITAIMGPSGTGKTTLLRLIGGQLVPDQGEVLLDGKDIAQMSRQELFAARARMGMLFQSGALFTDMSVYENVAFPIRAHTKLSENLIAELVALKLESVGLRGTEQLMPTELSGGMNRRVALARAIALDPDLIMYDEPFAGQDPIVKGVLTRLIRSLREALDLTTIIVSHDVPETLSIADYIYVVAEGKIQGEGTPEELQAYASPFVKQFLTGSAEGPVEYQFSHQAYLDNEVR 7d0a-a1-m1-cB_7d0a-a1-m1-cE Acinetobacter MlaFEDB complex in ADP-vanadate trapped Vclose conformation A0A086HZU3 A0A086HZU3 4.0 ELECTRON MICROSCOPY 135 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 263 263 TQSLIEVKNLSFNRGERVIYDNISLNIRRGQITAIMGPSGTGKTTLLRLIGGQLVPDQGEVLLDGKDIAQMSRQELFAARARMGMLFQSGALFTDMSVYENVAFPIRAHTKLSENLIAELVALKLESVGLRGTEQLMPTELSGGMNRRVALARAIALDPDLIMYDEPFAGQDPIVKGVLTRLIRSLREALDLTTIIVSHDVPETLSIADYIYVVAEGKIQGEGTPEELQAYASPFVKQFLTGSAEGPVEYQFSHQAYLDNEVR TQSLIEVKNLSFNRGERVIYDNISLNIRRGQITAIMGPSGTGKTTLLRLIGGQLVPDQGEVLLDGKDIAQMSRQELFAARARMGMLFQSGALFTDMSVYENVAFPIRAHTKLSENLIAELVALKLESVGLRGTEQLMPTELSGGMNRRVALARAIALDPDLIMYDEPFAGQDPIVKGVLTRLIRSLREALDLTTIIVSHDVPETLSIADYIYVVAEGKIQGEGTPEELQAYASPFVKQFLTGSAEGPVEYQFSHQAYLDNEVR 7d0b-a1-m1-cB_7d0b-a1-m1-cC S protein of SARS-CoV-2 in complex bound with P5A-3C12_1B P0DTC2 P0DTC2 3.9 ELECTRON MICROSCOPY 286 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 981 981 7d03-a1-m1-cB_7d03-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLYLYRLFRKSNLKPFERDISTEIYQANCYFPLQSYGFVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLYLYRLFRKSNLKPFERDISTEIYQANCYFPLQSYGFVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7d0d-a1-m1-cC_7d0d-a1-m1-cA S protein of SARS-CoV-2 in complex bound with P5A-3C12_2B P0DTC2 P0DTC2 3.8 ELECTRON MICROSCOPY 261 0.997 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 982 1004 7d0d-a1-m1-cA_7d0d-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLYLYRLFRKSNLKPFERDISTEIYQANCYFPLQSYGFVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7d0e-a1-m1-cA_7d0e-a1-m2-cA Crystal structure of FIP200 Claw/p-CCPG1 FIR2 Q8TDY2 Q8TDY2 1.4 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 96 7ea2-a1-m1-cB_7ea2-a1-m1-cA SRHSEKIAIRDFQVGDLVLIILDERHDNYVLFTVSPTLYFLHSESLPALDLKPGSRRPWVLGKVMEKEYCQAKKAQNRFKVPLGTKFYRVKAVSWN SRHSEKIAIRDFQVGDLVLIILDERHDNYVLFTVSPTLYFLHSESLPALDLKPGSRRPWVLGKVMEKEYCQAKKAQNRFKVPLGTKFYRVKAVSWN 7d0i-a1-m1-cF_7d0i-a1-m1-cL Cryo-EM structure of Schizosaccharomyces pombe Atg9 O74312 O74312 3.0 ELECTRON MICROSCOPY 21 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 424 424 7d0i-a1-m1-cB_7d0i-a1-m1-cJ 7d0i-a1-m1-cD_7d0i-a1-m1-cH WANVENLDSFLQQVYTYYTGKGLSCIIVHRLFQILTVSFVIGFTTFITSPITYLVLWLFLSFLLALWIYYLTDIPRLWQMREFYIHALKIATADMPTVSWQRVLYRLLKLKKRLDAYAIANRIMRKDNYFIALINNGIINIELPLLHRRILTHTTEWNINWCIFNFVFDEQGQLRSAFRNPNSRKRLSEELRRRFIVAGFLNCLFAPIVAIYLVIHNFFRYFNEYHKNPGALSTRRYTPLALWTFREYNELQHFFDERINDSYAAASHYVSQFPDFNMIRLFKYISFILGSFTAILVIITVFDPSVLFYLGLFGSLIAVSRSIIPDETLVFAPEKALRRVITFTHYMPGWWSDNMHSKAVQQEFCSLYSYRIVNLLWEILGILLTPVLLFFTFPSCSQDIVDFFREHTINVEGVGYVCSYAVFQ WANVENLDSFLQQVYTYYTGKGLSCIIVHRLFQILTVSFVIGFTTFITSPITYLVLWLFLSFLLALWIYYLTDIPRLWQMREFYIHALKIATADMPTVSWQRVLYRLLKLKKRLDAYAIANRIMRKDNYFIALINNGIINIELPLLHRRILTHTTEWNINWCIFNFVFDEQGQLRSAFRNPNSRKRLSEELRRRFIVAGFLNCLFAPIVAIYLVIHNFFRYFNEYHKNPGALSTRRYTPLALWTFREYNELQHFFDERINDSYAAASHYVSQFPDFNMIRLFKYISFILGSFTAILVIITVFDPSVLFYLGLFGSLIAVSRSIIPDETLVFAPEKALRRVITFTHYMPGWWSDNMHSKAVQQEFCSLYSYRIVNLLWEILGILLTPVLLFFTFPSCSQDIVDFFREHTINVEGVGYVCSYAVFQ 7d0i-a1-m1-cJ_7d0i-a1-m1-cL Cryo-EM structure of Schizosaccharomyces pombe Atg9 O74312 O74312 3.0 ELECTRON MICROSCOPY 67 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 424 424 7d0i-a1-m1-cB_7d0i-a1-m1-cD 7d0i-a1-m1-cB_7d0i-a1-m1-cF 7d0i-a1-m1-cD_7d0i-a1-m1-cF 7d0i-a1-m1-cH_7d0i-a1-m1-cJ 7d0i-a1-m1-cH_7d0i-a1-m1-cL WANVENLDSFLQQVYTYYTGKGLSCIIVHRLFQILTVSFVIGFTTFITSPITYLVLWLFLSFLLALWIYYLTDIPRLWQMREFYIHALKIATADMPTVSWQRVLYRLLKLKKRLDAYAIANRIMRKDNYFIALINNGIINIELPLLHRRILTHTTEWNINWCIFNFVFDEQGQLRSAFRNPNSRKRLSEELRRRFIVAGFLNCLFAPIVAIYLVIHNFFRYFNEYHKNPGALSTRRYTPLALWTFREYNELQHFFDERINDSYAAASHYVSQFPDFNMIRLFKYISFILGSFTAILVIITVFDPSVLFYLGLFGSLIAVSRSIIPDETLVFAPEKALRRVITFTHYMPGWWSDNMHSKAVQQEFCSLYSYRIVNLLWEILGILLTPVLLFFTFPSCSQDIVDFFREHTINVEGVGYVCSYAVFQ WANVENLDSFLQQVYTYYTGKGLSCIIVHRLFQILTVSFVIGFTTFITSPITYLVLWLFLSFLLALWIYYLTDIPRLWQMREFYIHALKIATADMPTVSWQRVLYRLLKLKKRLDAYAIANRIMRKDNYFIALINNGIINIELPLLHRRILTHTTEWNINWCIFNFVFDEQGQLRSAFRNPNSRKRLSEELRRRFIVAGFLNCLFAPIVAIYLVIHNFFRYFNEYHKNPGALSTRRYTPLALWTFREYNELQHFFDERINDSYAAASHYVSQFPDFNMIRLFKYISFILGSFTAILVIITVFDPSVLFYLGLFGSLIAVSRSIIPDETLVFAPEKALRRVITFTHYMPGWWSDNMHSKAVQQEFCSLYSYRIVNLLWEILGILLTPVLLFFTFPSCSQDIVDFFREHTINVEGVGYVCSYAVFQ 7d0j-a1-m1-cP_7d0j-a1-m1-cU Photosystem I-LHCI-LHCII of Chlamydomonas reinhardtii Q93WL4 Q93WL4 3.42 ELECTRON MICROSCOPY 13 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 219 219 IEFYGPNRAKWLGPYSENATPAYLTGEFPGDYGWDTAGLSADPETFKRYRELELIHARWAMLGALGCITPELLAKSGTQFGEAVWFKAGAQIFSEGGLDYLGNPSLVHAQNIVATLAVQVILMGLVEGYRVNGGPAGEGLDPLYPGESFDPLGLADDPDTFAELKVKEIKNGRLAMFSMFGFFVQAIVTGKGPIQNLDDHLSNPTVNNAFAFATKFTPS IEFYGPNRAKWLGPYSENATPAYLTGEFPGDYGWDTAGLSADPETFKRYRELELIHARWAMLGALGCITPELLAKSGTQFGEAVWFKAGAQIFSEGGLDYLGNPSLVHAQNIVATLAVQVILMGLVEGYRVNGGPAGEGLDPLYPGESFDPLGLADDPDTFAELKVKEIKNGRLAMFSMFGFFVQAIVTGKGPIQNLDDHLSNPTVNNAFAFATKFTPS 7d0j-a1-m1-cQ_7d0j-a1-m1-cU Photosystem I-LHCI-LHCII of Chlamydomonas reinhardtii Q93WL4 Q93WL4 3.42 ELECTRON MICROSCOPY 11 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 219 219 IEFYGPNRAKWLGPYSENATPAYLTGEFPGDYGWDTAGLSADPETFKRYRELELIHARWAMLGALGCITPELLAKSGTQFGEAVWFKAGAQIFSEGGLDYLGNPSLVHAQNIVATLAVQVILMGLVEGYRVNGGPAGEGLDPLYPGESFDPLGLADDPDTFAELKVKEIKNGRLAMFSMFGFFVQAIVTGKGPIQNLDDHLSNPTVNNAFAFATKFTPS IEFYGPNRAKWLGPYSENATPAYLTGEFPGDYGWDTAGLSADPETFKRYRELELIHARWAMLGALGCITPELLAKSGTQFGEAVWFKAGAQIFSEGGLDYLGNPSLVHAQNIVATLAVQVILMGLVEGYRVNGGPAGEGLDPLYPGESFDPLGLADDPDTFAELKVKEIKNGRLAMFSMFGFFVQAIVTGKGPIQNLDDHLSNPTVNNAFAFATKFTPS 7d0l-a1-m55-cA_7d0l-a1-m9-cA The major capsid of Omono River virus (strain:LZ), protrusion-free status. A0A7M3VBX7 A0A7M3VBX7 2.95 ELECTRON MICROSCOPY 63 1.0 753758 (Omono River virus) 753758 (Omono River virus) 852 852 6s2c-a1-m10-cA_6s2c-a1-m54-cA 6s2c-a1-m11-cA_6s2c-a1-m24-cA 6s2c-a1-m12-cA_6s2c-a1-m23-cA 6s2c-a1-m13-cA_6s2c-a1-m25-cA 6s2c-a1-m14-cA_6s2c-a1-m22-cA 6s2c-a1-m15-cA_6s2c-a1-m21-cA 6s2c-a1-m16-cA_6s2c-a1-m3-cA 6s2c-a1-m18-cA_6s2c-a1-m4-cA 6s2c-a1-m19-cA_6s2c-a1-m5-cA 6s2c-a1-m1-cA_6s2c-a1-m17-cA 6s2c-a1-m26-cA_6s2c-a1-m60-cA 6s2c-a1-m27-cA_6s2c-a1-m59-cA 6s2c-a1-m28-cA_6s2c-a1-m57-cA 6s2c-a1-m29-cA_6s2c-a1-m56-cA 6s2c-a1-m2-cA_6s2c-a1-m20-cA 6s2c-a1-m30-cA_6s2c-a1-m58-cA 6s2c-a1-m31-cA_6s2c-a1-m45-cA 6s2c-a1-m32-cA_6s2c-a1-m44-cA 6s2c-a1-m33-cA_6s2c-a1-m42-cA 6s2c-a1-m34-cA_6s2c-a1-m41-cA 6s2c-a1-m35-cA_6s2c-a1-m43-cA 6s2c-a1-m36-cA_6s2c-a1-m50-cA 6s2c-a1-m37-cA_6s2c-a1-m49-cA 6s2c-a1-m38-cA_6s2c-a1-m47-cA 6s2c-a1-m39-cA_6s2c-a1-m46-cA 6s2c-a1-m40-cA_6s2c-a1-m48-cA 6s2c-a1-m51-cA_6s2c-a1-m8-cA 6s2c-a1-m52-cA_6s2c-a1-m6-cA 6s2c-a1-m53-cA_6s2c-a1-m9-cA 6s2c-a1-m55-cA_6s2c-a1-m7-cA 7d0k-a1-m10-cA_7d0k-a1-m24-cA 7d0k-a1-m11-cA_7d0k-a1-m16-cA 7d0k-a1-m12-cA_7d0k-a1-m38-cA 7d0k-a1-m13-cA_7d0k-a1-m47-cA 7d0k-a1-m14-cA_7d0k-a1-m45-cA 7d0k-a1-m15-cA_7d0k-a1-m29-cA 7d0k-a1-m17-cA_7d0k-a1-m28-cA 7d0k-a1-m18-cA_7d0k-a1-m52-cA 7d0k-a1-m19-cA_7d0k-a1-m60-cA 7d0k-a1-m1-cA_7d0k-a1-m6-cA 7d0k-a1-m20-cA_7d0k-a1-m39-cA 7d0k-a1-m21-cA_7d0k-a1-m26-cA 7d0k-a1-m22-cA_7d0k-a1-m43-cA 7d0k-a1-m25-cA_7d0k-a1-m54-cA 7d0k-a1-m27-cA_7d0k-a1-m53-cA 7d0k-a1-m2-cA_7d0k-a1-m23-cA 7d0k-a1-m30-cA_7d0k-a1-m44-cA 7d0k-a1-m31-cA_7d0k-a1-m36-cA 7d0k-a1-m32-cA_7d0k-a1-m58-cA 7d0k-a1-m33-cA_7d0k-a1-m7-cA 7d0k-a1-m34-cA_7d0k-a1-m5-cA 7d0k-a1-m35-cA_7d0k-a1-m49-cA 7d0k-a1-m37-cA_7d0k-a1-m48-cA 7d0k-a1-m3-cA_7d0k-a1-m42-cA 7d0k-a1-m40-cA_7d0k-a1-m59-cA 7d0k-a1-m41-cA_7d0k-a1-m46-cA 7d0k-a1-m4-cA_7d0k-a1-m50-cA 7d0k-a1-m51-cA_7d0k-a1-m56-cA 7d0k-a1-m55-cA_7d0k-a1-m9-cA 7d0k-a1-m57-cA_7d0k-a1-m8-cA 7d0l-a1-m10-cA_7d0l-a1-m24-cA 7d0l-a1-m11-cA_7d0l-a1-m16-cA 7d0l-a1-m12-cA_7d0l-a1-m38-cA 7d0l-a1-m13-cA_7d0l-a1-m47-cA 7d0l-a1-m14-cA_7d0l-a1-m45-cA 7d0l-a1-m15-cA_7d0l-a1-m29-cA 7d0l-a1-m17-cA_7d0l-a1-m28-cA 7d0l-a1-m18-cA_7d0l-a1-m52-cA 7d0l-a1-m19-cA_7d0l-a1-m60-cA 7d0l-a1-m1-cA_7d0l-a1-m6-cA 7d0l-a1-m20-cA_7d0l-a1-m39-cA 7d0l-a1-m21-cA_7d0l-a1-m26-cA 7d0l-a1-m22-cA_7d0l-a1-m43-cA 7d0l-a1-m25-cA_7d0l-a1-m54-cA 7d0l-a1-m27-cA_7d0l-a1-m53-cA 7d0l-a1-m2-cA_7d0l-a1-m23-cA 7d0l-a1-m30-cA_7d0l-a1-m44-cA 7d0l-a1-m31-cA_7d0l-a1-m36-cA 7d0l-a1-m32-cA_7d0l-a1-m58-cA 7d0l-a1-m33-cA_7d0l-a1-m7-cA 7d0l-a1-m34-cA_7d0l-a1-m5-cA 7d0l-a1-m35-cA_7d0l-a1-m49-cA 7d0l-a1-m37-cA_7d0l-a1-m48-cA 7d0l-a1-m3-cA_7d0l-a1-m42-cA 7d0l-a1-m40-cA_7d0l-a1-m59-cA 7d0l-a1-m41-cA_7d0l-a1-m46-cA 7d0l-a1-m4-cA_7d0l-a1-m50-cA 7d0l-a1-m51-cA_7d0l-a1-m56-cA 7d0l-a1-m57-cA_7d0l-a1-m8-cA PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAES PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAES 7d0l-a1-m55-cA_7d0l-a1-m9-cB The major capsid of Omono River virus (strain:LZ), protrusion-free status. A0A7M3VBX7 A0A7M3VBX7 2.95 ELECTRON MICROSCOPY 36 1.0 753758 (Omono River virus) 753758 (Omono River virus) 852 894 6s2c-a1-m10-cA_6s2c-a1-m47-cB 6s2c-a1-m11-cA_6s2c-a1-m29-cB 6s2c-a1-m12-cA_6s2c-a1-m28-cB 6s2c-a1-m13-cA_6s2c-a1-m30-cB 6s2c-a1-m14-cA_6s2c-a1-m27-cB 6s2c-a1-m15-cA_6s2c-a1-m26-cB 6s2c-a1-m16-cA_6s2c-a1-m1-cB 6s2c-a1-m17-cA_6s2c-a1-m2-cB 6s2c-a1-m18-cA_6s2c-a1-m3-cB 6s2c-a1-m19-cA_6s2c-a1-m4-cB 6s2c-a1-m1-cA_6s2c-a1-m24-cB 6s2c-a1-m20-cA_6s2c-a1-m5-cB 6s2c-a1-m21-cA_6s2c-a1-m20-cB 6s2c-a1-m22-cA_6s2c-a1-m19-cB 6s2c-a1-m23-cA_6s2c-a1-m17-cB 6s2c-a1-m24-cA_6s2c-a1-m16-cB 6s2c-a1-m25-cA_6s2c-a1-m18-cB 6s2c-a1-m26-cA_6s2c-a1-m55-cB 6s2c-a1-m27-cA_6s2c-a1-m54-cB 6s2c-a1-m28-cA_6s2c-a1-m52-cB 6s2c-a1-m29-cA_6s2c-a1-m51-cB 6s2c-a1-m2-cA_6s2c-a1-m23-cB 6s2c-a1-m30-cA_6s2c-a1-m53-cB 6s2c-a1-m31-cA_6s2c-a1-m37-cB 6s2c-a1-m32-cA_6s2c-a1-m40-cB 6s2c-a1-m33-cA_6s2c-a1-m36-cB 6s2c-a1-m34-cA_6s2c-a1-m38-cB 6s2c-a1-m35-cA_6s2c-a1-m39-cB 6s2c-a1-m36-cA_6s2c-a1-m45-cB 6s2c-a1-m37-cA_6s2c-a1-m44-cB 6s2c-a1-m38-cA_6s2c-a1-m42-cB 6s2c-a1-m39-cA_6s2c-a1-m41-cB 6s2c-a1-m3-cA_6s2c-a1-m25-cB 6s2c-a1-m40-cA_6s2c-a1-m43-cB 6s2c-a1-m41-cA_6s2c-a1-m35-cB 6s2c-a1-m42-cA_6s2c-a1-m34-cB 6s2c-a1-m43-cA_6s2c-a1-m32-cB 6s2c-a1-m44-cA_6s2c-a1-m31-cB 6s2c-a1-m45-cA_6s2c-a1-m33-cB 6s2c-a1-m46-cA_6s2c-a1-m57-cB 6s2c-a1-m47-cA_6s2c-a1-m60-cB 6s2c-a1-m48-cA_6s2c-a1-m56-cB 6s2c-a1-m49-cA_6s2c-a1-m58-cB 6s2c-a1-m4-cA_6s2c-a1-m22-cB 6s2c-a1-m50-cA_6s2c-a1-m59-cB 6s2c-a1-m51-cA_6s2c-a1-m11-cB 6s2c-a1-m52-cA_6s2c-a1-m12-cB 6s2c-a1-m53-cA_6s2c-a1-m13-cB 6s2c-a1-m54-cA_6s2c-a1-m14-cB 6s2c-a1-m55-cA_6s2c-a1-m15-cB 6s2c-a1-m56-cA_6s2c-a1-m6-cB 6s2c-a1-m57-cA_6s2c-a1-m7-cB 6s2c-a1-m58-cA_6s2c-a1-m8-cB 6s2c-a1-m59-cA_6s2c-a1-m9-cB 6s2c-a1-m5-cA_6s2c-a1-m21-cB 6s2c-a1-m60-cA_6s2c-a1-m10-cB 6s2c-a1-m6-cA_6s2c-a1-m48-cB 6s2c-a1-m7-cA_6s2c-a1-m46-cB 6s2c-a1-m8-cA_6s2c-a1-m49-cB 6s2c-a1-m9-cA_6s2c-a1-m50-cB 7d0k-a1-m10-cA_7d0k-a1-m24-cB 7d0k-a1-m11-cA_7d0k-a1-m16-cB 7d0k-a1-m12-cA_7d0k-a1-m38-cB 7d0k-a1-m13-cA_7d0k-a1-m47-cB 7d0k-a1-m14-cA_7d0k-a1-m45-cB 7d0k-a1-m15-cA_7d0k-a1-m29-cB 7d0k-a1-m16-cA_7d0k-a1-m11-cB 7d0k-a1-m17-cA_7d0k-a1-m28-cB 7d0k-a1-m18-cA_7d0k-a1-m52-cB 7d0k-a1-m19-cA_7d0k-a1-m60-cB 7d0k-a1-m1-cA_7d0k-a1-m6-cB 7d0k-a1-m20-cA_7d0k-a1-m39-cB 7d0k-a1-m21-cA_7d0k-a1-m26-cB 7d0k-a1-m22-cA_7d0k-a1-m43-cB 7d0k-a1-m23-cA_7d0k-a1-m2-cB 7d0k-a1-m24-cA_7d0k-a1-m10-cB 7d0k-a1-m25-cA_7d0k-a1-m54-cB 7d0k-a1-m26-cA_7d0k-a1-m21-cB 7d0k-a1-m27-cA_7d0k-a1-m53-cB 7d0k-a1-m28-cA_7d0k-a1-m17-cB 7d0k-a1-m29-cA_7d0k-a1-m15-cB 7d0k-a1-m2-cA_7d0k-a1-m23-cB 7d0k-a1-m30-cA_7d0k-a1-m44-cB 7d0k-a1-m31-cA_7d0k-a1-m36-cB 7d0k-a1-m32-cA_7d0k-a1-m58-cB 7d0k-a1-m33-cA_7d0k-a1-m7-cB 7d0k-a1-m34-cA_7d0k-a1-m5-cB 7d0k-a1-m35-cA_7d0k-a1-m49-cB 7d0k-a1-m36-cA_7d0k-a1-m31-cB 7d0k-a1-m37-cA_7d0k-a1-m48-cB 7d0k-a1-m38-cA_7d0k-a1-m12-cB 7d0k-a1-m39-cA_7d0k-a1-m20-cB 7d0k-a1-m3-cA_7d0k-a1-m42-cB 7d0k-a1-m40-cA_7d0k-a1-m59-cB 7d0k-a1-m41-cA_7d0k-a1-m46-cB 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PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAESAGEVPATKALTDLQAVDVSSLPSTSDPSNVLSQPAPLMSPPT PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAESAGEVPATKALTDLQAVDVSSLPSTSDPSNVLSQPAPLMSPPT 7d0l-a1-m8-cA_7d0l-a1-m9-cA The major capsid of Omono River virus (strain:LZ), protrusion-free status. A0A7M3VBX7 A0A7M3VBX7 2.95 ELECTRON MICROSCOPY 29 1.0 753758 (Omono River virus) 753758 (Omono River virus) 852 852 6s2c-a1-m10-cA_6s2c-a1-m14-cA 6s2c-a1-m10-cA_6s2c-a1-m26-cA 6s2c-a1-m11-cA_6s2c-a1-m16-cA 6s2c-a1-m11-cA_6s2c-a1-m8-cA 6s2c-a1-m12-cA_6s2c-a1-m17-cA 6s2c-a1-m12-cA_6s2c-a1-m6-cA 6s2c-a1-m13-cA_6s2c-a1-m18-cA 6s2c-a1-m13-cA_6s2c-a1-m9-cA 6s2c-a1-m14-cA_6s2c-a1-m19-cA 6s2c-a1-m15-cA_6s2c-a1-m20-cA 6s2c-a1-m15-cA_6s2c-a1-m7-cA 6s2c-a1-m16-cA_6s2c-a1-m25-cA 6s2c-a1-m17-cA_6s2c-a1-m24-cA 6s2c-a1-m18-cA_6s2c-a1-m22-cA 6s2c-a1-m19-cA_6s2c-a1-m21-cA 6s2c-a1-m1-cA_6s2c-a1-m2-cA 6s2c-a1-m1-cA_6s2c-a1-m3-cA 6s2c-a1-m20-cA_6s2c-a1-m23-cA 6s2c-a1-m21-cA_6s2c-a1-m26-cA 6s2c-a1-m22-cA_6s2c-a1-m27-cA 6s2c-a1-m23-cA_6s2c-a1-m28-cA 6s2c-a1-m24-cA_6s2c-a1-m29-cA 6s2c-a1-m25-cA_6s2c-a1-m30-cA 6s2c-a1-m27-cA_6s2c-a1-m9-cA 6s2c-a1-m28-cA_6s2c-a1-m7-cA 6s2c-a1-m29-cA_6s2c-a1-m6-cA 6s2c-a1-m2-cA_6s2c-a1-m5-cA 6s2c-a1-m30-cA_6s2c-a1-m8-cA 6s2c-a1-m31-cA_6s2c-a1-m32-cA 6s2c-a1-m31-cA_6s2c-a1-m33-cA 6s2c-a1-m32-cA_6s2c-a1-m35-cA 6s2c-a1-m33-cA_6s2c-a1-m34-cA 6s2c-a1-m34-cA_6s2c-a1-m35-cA 6s2c-a1-m36-cA_6s2c-a1-m42-cA 6s2c-a1-m36-cA_6s2c-a1-m59-cA 6s2c-a1-m37-cA_6s2c-a1-m45-cA 6s2c-a1-m37-cA_6s2c-a1-m58-cA 6s2c-a1-m38-cA_6s2c-a1-m41-cA 6s2c-a1-m38-cA_6s2c-a1-m60-cA 6s2c-a1-m39-cA_6s2c-a1-m43-cA 6s2c-a1-m39-cA_6s2c-a1-m57-cA 6s2c-a1-m3-cA_6s2c-a1-m4-cA 6s2c-a1-m40-cA_6s2c-a1-m44-cA 6s2c-a1-m40-cA_6s2c-a1-m56-cA 6s2c-a1-m41-cA_6s2c-a1-m46-cA 6s2c-a1-m42-cA_6s2c-a1-m47-cA 6s2c-a1-m43-cA_6s2c-a1-m48-cA 6s2c-a1-m44-cA_6s2c-a1-m49-cA 6s2c-a1-m45-cA_6s2c-a1-m50-cA 6s2c-a1-m46-cA_6s2c-a1-m55-cA 6s2c-a1-m47-cA_6s2c-a1-m54-cA 6s2c-a1-m48-cA_6s2c-a1-m52-cA 6s2c-a1-m49-cA_6s2c-a1-m51-cA 6s2c-a1-m4-cA_6s2c-a1-m5-cA 6s2c-a1-m50-cA_6s2c-a1-m53-cA 6s2c-a1-m51-cA_6s2c-a1-m56-cA 6s2c-a1-m52-cA_6s2c-a1-m57-cA 6s2c-a1-m53-cA_6s2c-a1-m58-cA 6s2c-a1-m54-cA_6s2c-a1-m59-cA 6s2c-a1-m55-cA_6s2c-a1-m60-cA 7d0k-a1-m10-cA_7d0k-a1-m6-cA 7d0k-a1-m10-cA_7d0k-a1-m9-cA 7d0k-a1-m11-cA_7d0k-a1-m12-cA 7d0k-a1-m11-cA_7d0k-a1-m15-cA 7d0k-a1-m12-cA_7d0k-a1-m13-cA 7d0k-a1-m13-cA_7d0k-a1-m14-cA 7d0k-a1-m14-cA_7d0k-a1-m15-cA 7d0k-a1-m16-cA_7d0k-a1-m17-cA 7d0k-a1-m16-cA_7d0k-a1-m20-cA 7d0k-a1-m17-cA_7d0k-a1-m18-cA 7d0k-a1-m18-cA_7d0k-a1-m19-cA 7d0k-a1-m19-cA_7d0k-a1-m20-cA 7d0k-a1-m1-cA_7d0k-a1-m2-cA 7d0k-a1-m1-cA_7d0k-a1-m5-cA 7d0k-a1-m21-cA_7d0k-a1-m22-cA 7d0k-a1-m21-cA_7d0k-a1-m25-cA 7d0k-a1-m22-cA_7d0k-a1-m23-cA 7d0k-a1-m23-cA_7d0k-a1-m24-cA 7d0k-a1-m24-cA_7d0k-a1-m25-cA 7d0k-a1-m26-cA_7d0k-a1-m27-cA 7d0k-a1-m26-cA_7d0k-a1-m30-cA 7d0k-a1-m27-cA_7d0k-a1-m28-cA 7d0k-a1-m28-cA_7d0k-a1-m29-cA 7d0k-a1-m29-cA_7d0k-a1-m30-cA 7d0k-a1-m2-cA_7d0k-a1-m3-cA 7d0k-a1-m31-cA_7d0k-a1-m32-cA 7d0k-a1-m31-cA_7d0k-a1-m35-cA 7d0k-a1-m32-cA_7d0k-a1-m33-cA 7d0k-a1-m33-cA_7d0k-a1-m34-cA 7d0k-a1-m34-cA_7d0k-a1-m35-cA 7d0k-a1-m36-cA_7d0k-a1-m37-cA 7d0k-a1-m36-cA_7d0k-a1-m40-cA 7d0k-a1-m37-cA_7d0k-a1-m38-cA 7d0k-a1-m38-cA_7d0k-a1-m39-cA 7d0k-a1-m39-cA_7d0k-a1-m40-cA 7d0k-a1-m3-cA_7d0k-a1-m4-cA 7d0k-a1-m41-cA_7d0k-a1-m42-cA 7d0k-a1-m41-cA_7d0k-a1-m45-cA 7d0k-a1-m42-cA_7d0k-a1-m43-cA 7d0k-a1-m43-cA_7d0k-a1-m44-cA 7d0k-a1-m44-cA_7d0k-a1-m45-cA 7d0k-a1-m46-cA_7d0k-a1-m47-cA 7d0k-a1-m46-cA_7d0k-a1-m50-cA 7d0k-a1-m47-cA_7d0k-a1-m48-cA 7d0k-a1-m48-cA_7d0k-a1-m49-cA 7d0k-a1-m49-cA_7d0k-a1-m50-cA 7d0k-a1-m4-cA_7d0k-a1-m5-cA 7d0k-a1-m51-cA_7d0k-a1-m52-cA 7d0k-a1-m51-cA_7d0k-a1-m55-cA 7d0k-a1-m52-cA_7d0k-a1-m53-cA 7d0k-a1-m53-cA_7d0k-a1-m54-cA 7d0k-a1-m54-cA_7d0k-a1-m55-cA 7d0k-a1-m56-cA_7d0k-a1-m57-cA 7d0k-a1-m56-cA_7d0k-a1-m60-cA 7d0k-a1-m57-cA_7d0k-a1-m58-cA 7d0k-a1-m58-cA_7d0k-a1-m59-cA 7d0k-a1-m59-cA_7d0k-a1-m60-cA 7d0k-a1-m6-cA_7d0k-a1-m7-cA 7d0k-a1-m7-cA_7d0k-a1-m8-cA 7d0k-a1-m8-cA_7d0k-a1-m9-cA 7d0l-a1-m10-cA_7d0l-a1-m6-cA 7d0l-a1-m10-cA_7d0l-a1-m9-cA 7d0l-a1-m11-cA_7d0l-a1-m12-cA 7d0l-a1-m11-cA_7d0l-a1-m15-cA 7d0l-a1-m12-cA_7d0l-a1-m13-cA 7d0l-a1-m13-cA_7d0l-a1-m14-cA 7d0l-a1-m14-cA_7d0l-a1-m15-cA 7d0l-a1-m16-cA_7d0l-a1-m17-cA 7d0l-a1-m16-cA_7d0l-a1-m20-cA 7d0l-a1-m17-cA_7d0l-a1-m18-cA 7d0l-a1-m18-cA_7d0l-a1-m19-cA 7d0l-a1-m19-cA_7d0l-a1-m20-cA 7d0l-a1-m1-cA_7d0l-a1-m2-cA 7d0l-a1-m1-cA_7d0l-a1-m5-cA 7d0l-a1-m21-cA_7d0l-a1-m22-cA 7d0l-a1-m21-cA_7d0l-a1-m25-cA 7d0l-a1-m22-cA_7d0l-a1-m23-cA 7d0l-a1-m23-cA_7d0l-a1-m24-cA 7d0l-a1-m24-cA_7d0l-a1-m25-cA 7d0l-a1-m26-cA_7d0l-a1-m27-cA 7d0l-a1-m26-cA_7d0l-a1-m30-cA 7d0l-a1-m27-cA_7d0l-a1-m28-cA 7d0l-a1-m28-cA_7d0l-a1-m29-cA 7d0l-a1-m29-cA_7d0l-a1-m30-cA 7d0l-a1-m2-cA_7d0l-a1-m3-cA 7d0l-a1-m31-cA_7d0l-a1-m32-cA 7d0l-a1-m31-cA_7d0l-a1-m35-cA 7d0l-a1-m32-cA_7d0l-a1-m33-cA 7d0l-a1-m33-cA_7d0l-a1-m34-cA 7d0l-a1-m34-cA_7d0l-a1-m35-cA 7d0l-a1-m36-cA_7d0l-a1-m37-cA 7d0l-a1-m36-cA_7d0l-a1-m40-cA 7d0l-a1-m37-cA_7d0l-a1-m38-cA 7d0l-a1-m38-cA_7d0l-a1-m39-cA 7d0l-a1-m39-cA_7d0l-a1-m40-cA 7d0l-a1-m3-cA_7d0l-a1-m4-cA 7d0l-a1-m41-cA_7d0l-a1-m42-cA 7d0l-a1-m41-cA_7d0l-a1-m45-cA 7d0l-a1-m42-cA_7d0l-a1-m43-cA 7d0l-a1-m43-cA_7d0l-a1-m44-cA 7d0l-a1-m44-cA_7d0l-a1-m45-cA 7d0l-a1-m46-cA_7d0l-a1-m47-cA 7d0l-a1-m46-cA_7d0l-a1-m50-cA 7d0l-a1-m47-cA_7d0l-a1-m48-cA 7d0l-a1-m48-cA_7d0l-a1-m49-cA 7d0l-a1-m49-cA_7d0l-a1-m50-cA 7d0l-a1-m4-cA_7d0l-a1-m5-cA 7d0l-a1-m51-cA_7d0l-a1-m52-cA 7d0l-a1-m51-cA_7d0l-a1-m55-cA 7d0l-a1-m52-cA_7d0l-a1-m53-cA 7d0l-a1-m53-cA_7d0l-a1-m54-cA 7d0l-a1-m54-cA_7d0l-a1-m55-cA 7d0l-a1-m56-cA_7d0l-a1-m57-cA 7d0l-a1-m56-cA_7d0l-a1-m60-cA 7d0l-a1-m57-cA_7d0l-a1-m58-cA 7d0l-a1-m58-cA_7d0l-a1-m59-cA 7d0l-a1-m59-cA_7d0l-a1-m60-cA 7d0l-a1-m6-cA_7d0l-a1-m7-cA 7d0l-a1-m7-cA_7d0l-a1-m8-cA PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAES PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAES 7d0l-a1-m8-cA_7d0l-a1-m9-cB The major capsid of Omono River virus (strain:LZ), protrusion-free status. A0A7M3VBX7 A0A7M3VBX7 2.95 ELECTRON MICROSCOPY 209 1.0 753758 (Omono River virus) 753758 (Omono River virus) 852 894 6s2c-a1-m10-cA_6s2c-a1-m10-cB 6s2c-a1-m11-cA_6s2c-a1-m11-cB 6s2c-a1-m12-cA_6s2c-a1-m12-cB 6s2c-a1-m13-cA_6s2c-a1-m13-cB 6s2c-a1-m14-cA_6s2c-a1-m14-cB 6s2c-a1-m15-cA_6s2c-a1-m15-cB 6s2c-a1-m16-cA_6s2c-a1-m16-cB 6s2c-a1-m17-cA_6s2c-a1-m17-cB 6s2c-a1-m18-cA_6s2c-a1-m18-cB 6s2c-a1-m19-cA_6s2c-a1-m19-cB 6s2c-a1-m1-cA_6s2c-a1-m1-cB 6s2c-a1-m20-cA_6s2c-a1-m20-cB 6s2c-a1-m21-cA_6s2c-a1-m21-cB 6s2c-a1-m22-cA_6s2c-a1-m22-cB 6s2c-a1-m23-cA_6s2c-a1-m23-cB 6s2c-a1-m24-cA_6s2c-a1-m24-cB 6s2c-a1-m25-cA_6s2c-a1-m25-cB 6s2c-a1-m26-cA_6s2c-a1-m26-cB 6s2c-a1-m27-cA_6s2c-a1-m27-cB 6s2c-a1-m28-cA_6s2c-a1-m28-cB 6s2c-a1-m29-cA_6s2c-a1-m29-cB 6s2c-a1-m2-cA_6s2c-a1-m2-cB 6s2c-a1-m30-cA_6s2c-a1-m30-cB 6s2c-a1-m31-cA_6s2c-a1-m31-cB 6s2c-a1-m32-cA_6s2c-a1-m32-cB 6s2c-a1-m33-cA_6s2c-a1-m33-cB 6s2c-a1-m34-cA_6s2c-a1-m34-cB 6s2c-a1-m35-cA_6s2c-a1-m35-cB 6s2c-a1-m36-cA_6s2c-a1-m36-cB 6s2c-a1-m37-cA_6s2c-a1-m37-cB 6s2c-a1-m38-cA_6s2c-a1-m38-cB 6s2c-a1-m39-cA_6s2c-a1-m39-cB 6s2c-a1-m3-cA_6s2c-a1-m3-cB 6s2c-a1-m40-cA_6s2c-a1-m40-cB 6s2c-a1-m41-cA_6s2c-a1-m41-cB 6s2c-a1-m42-cA_6s2c-a1-m42-cB 6s2c-a1-m43-cA_6s2c-a1-m43-cB 6s2c-a1-m44-cA_6s2c-a1-m44-cB 6s2c-a1-m45-cA_6s2c-a1-m45-cB 6s2c-a1-m46-cA_6s2c-a1-m46-cB 6s2c-a1-m47-cA_6s2c-a1-m47-cB 6s2c-a1-m48-cA_6s2c-a1-m48-cB 6s2c-a1-m49-cA_6s2c-a1-m49-cB 6s2c-a1-m4-cA_6s2c-a1-m4-cB 6s2c-a1-m50-cA_6s2c-a1-m50-cB 6s2c-a1-m51-cA_6s2c-a1-m51-cB 6s2c-a1-m52-cA_6s2c-a1-m52-cB 6s2c-a1-m53-cA_6s2c-a1-m53-cB 6s2c-a1-m54-cA_6s2c-a1-m54-cB 6s2c-a1-m55-cA_6s2c-a1-m55-cB 6s2c-a1-m56-cA_6s2c-a1-m56-cB 6s2c-a1-m57-cA_6s2c-a1-m57-cB 6s2c-a1-m58-cA_6s2c-a1-m58-cB 6s2c-a1-m59-cA_6s2c-a1-m59-cB 6s2c-a1-m5-cA_6s2c-a1-m5-cB 6s2c-a1-m60-cA_6s2c-a1-m60-cB 6s2c-a1-m6-cA_6s2c-a1-m6-cB 6s2c-a1-m7-cA_6s2c-a1-m7-cB 6s2c-a1-m8-cA_6s2c-a1-m8-cB 6s2c-a1-m9-cA_6s2c-a1-m9-cB 7d0k-a1-m10-cA_7d0k-a1-m6-cB 7d0k-a1-m11-cA_7d0k-a1-m12-cB 7d0k-a1-m12-cA_7d0k-a1-m13-cB 7d0k-a1-m13-cA_7d0k-a1-m14-cB 7d0k-a1-m14-cA_7d0k-a1-m15-cB 7d0k-a1-m15-cA_7d0k-a1-m11-cB 7d0k-a1-m16-cA_7d0k-a1-m17-cB 7d0k-a1-m17-cA_7d0k-a1-m18-cB 7d0k-a1-m18-cA_7d0k-a1-m19-cB 7d0k-a1-m19-cA_7d0k-a1-m20-cB 7d0k-a1-m1-cA_7d0k-a1-m2-cB 7d0k-a1-m20-cA_7d0k-a1-m16-cB 7d0k-a1-m21-cA_7d0k-a1-m22-cB 7d0k-a1-m22-cA_7d0k-a1-m23-cB 7d0k-a1-m23-cA_7d0k-a1-m24-cB 7d0k-a1-m24-cA_7d0k-a1-m25-cB 7d0k-a1-m25-cA_7d0k-a1-m21-cB 7d0k-a1-m26-cA_7d0k-a1-m27-cB 7d0k-a1-m27-cA_7d0k-a1-m28-cB 7d0k-a1-m28-cA_7d0k-a1-m29-cB 7d0k-a1-m29-cA_7d0k-a1-m30-cB 7d0k-a1-m2-cA_7d0k-a1-m3-cB 7d0k-a1-m30-cA_7d0k-a1-m26-cB 7d0k-a1-m31-cA_7d0k-a1-m32-cB 7d0k-a1-m32-cA_7d0k-a1-m33-cB 7d0k-a1-m33-cA_7d0k-a1-m34-cB 7d0k-a1-m34-cA_7d0k-a1-m35-cB 7d0k-a1-m35-cA_7d0k-a1-m31-cB 7d0k-a1-m36-cA_7d0k-a1-m37-cB 7d0k-a1-m37-cA_7d0k-a1-m38-cB 7d0k-a1-m38-cA_7d0k-a1-m39-cB 7d0k-a1-m39-cA_7d0k-a1-m40-cB 7d0k-a1-m3-cA_7d0k-a1-m4-cB 7d0k-a1-m40-cA_7d0k-a1-m36-cB 7d0k-a1-m41-cA_7d0k-a1-m42-cB 7d0k-a1-m42-cA_7d0k-a1-m43-cB 7d0k-a1-m43-cA_7d0k-a1-m44-cB 7d0k-a1-m44-cA_7d0k-a1-m45-cB 7d0k-a1-m45-cA_7d0k-a1-m41-cB 7d0k-a1-m46-cA_7d0k-a1-m47-cB 7d0k-a1-m47-cA_7d0k-a1-m48-cB 7d0k-a1-m48-cA_7d0k-a1-m49-cB 7d0k-a1-m49-cA_7d0k-a1-m50-cB 7d0k-a1-m4-cA_7d0k-a1-m5-cB 7d0k-a1-m50-cA_7d0k-a1-m46-cB 7d0k-a1-m51-cA_7d0k-a1-m52-cB 7d0k-a1-m52-cA_7d0k-a1-m53-cB 7d0k-a1-m53-cA_7d0k-a1-m54-cB 7d0k-a1-m54-cA_7d0k-a1-m55-cB 7d0k-a1-m55-cA_7d0k-a1-m51-cB 7d0k-a1-m56-cA_7d0k-a1-m57-cB 7d0k-a1-m57-cA_7d0k-a1-m58-cB 7d0k-a1-m58-cA_7d0k-a1-m59-cB 7d0k-a1-m59-cA_7d0k-a1-m60-cB 7d0k-a1-m5-cA_7d0k-a1-m1-cB 7d0k-a1-m60-cA_7d0k-a1-m56-cB 7d0k-a1-m6-cA_7d0k-a1-m7-cB 7d0k-a1-m7-cA_7d0k-a1-m8-cB 7d0k-a1-m8-cA_7d0k-a1-m9-cB 7d0k-a1-m9-cA_7d0k-a1-m10-cB 7d0l-a1-m10-cA_7d0l-a1-m6-cB 7d0l-a1-m11-cA_7d0l-a1-m12-cB 7d0l-a1-m12-cA_7d0l-a1-m13-cB 7d0l-a1-m13-cA_7d0l-a1-m14-cB 7d0l-a1-m14-cA_7d0l-a1-m15-cB 7d0l-a1-m15-cA_7d0l-a1-m11-cB 7d0l-a1-m16-cA_7d0l-a1-m17-cB 7d0l-a1-m17-cA_7d0l-a1-m18-cB 7d0l-a1-m18-cA_7d0l-a1-m19-cB 7d0l-a1-m19-cA_7d0l-a1-m20-cB 7d0l-a1-m1-cA_7d0l-a1-m2-cB 7d0l-a1-m20-cA_7d0l-a1-m16-cB 7d0l-a1-m21-cA_7d0l-a1-m22-cB 7d0l-a1-m22-cA_7d0l-a1-m23-cB 7d0l-a1-m23-cA_7d0l-a1-m24-cB 7d0l-a1-m24-cA_7d0l-a1-m25-cB 7d0l-a1-m25-cA_7d0l-a1-m21-cB 7d0l-a1-m26-cA_7d0l-a1-m27-cB 7d0l-a1-m27-cA_7d0l-a1-m28-cB 7d0l-a1-m28-cA_7d0l-a1-m29-cB 7d0l-a1-m29-cA_7d0l-a1-m30-cB 7d0l-a1-m2-cA_7d0l-a1-m3-cB 7d0l-a1-m30-cA_7d0l-a1-m26-cB 7d0l-a1-m31-cA_7d0l-a1-m32-cB 7d0l-a1-m32-cA_7d0l-a1-m33-cB 7d0l-a1-m33-cA_7d0l-a1-m34-cB 7d0l-a1-m34-cA_7d0l-a1-m35-cB 7d0l-a1-m35-cA_7d0l-a1-m31-cB 7d0l-a1-m36-cA_7d0l-a1-m37-cB 7d0l-a1-m37-cA_7d0l-a1-m38-cB 7d0l-a1-m38-cA_7d0l-a1-m39-cB 7d0l-a1-m39-cA_7d0l-a1-m40-cB 7d0l-a1-m3-cA_7d0l-a1-m4-cB 7d0l-a1-m40-cA_7d0l-a1-m36-cB 7d0l-a1-m41-cA_7d0l-a1-m42-cB 7d0l-a1-m42-cA_7d0l-a1-m43-cB 7d0l-a1-m43-cA_7d0l-a1-m44-cB 7d0l-a1-m44-cA_7d0l-a1-m45-cB 7d0l-a1-m45-cA_7d0l-a1-m41-cB 7d0l-a1-m46-cA_7d0l-a1-m47-cB 7d0l-a1-m47-cA_7d0l-a1-m48-cB 7d0l-a1-m48-cA_7d0l-a1-m49-cB 7d0l-a1-m49-cA_7d0l-a1-m50-cB 7d0l-a1-m4-cA_7d0l-a1-m5-cB 7d0l-a1-m50-cA_7d0l-a1-m46-cB 7d0l-a1-m51-cA_7d0l-a1-m52-cB 7d0l-a1-m52-cA_7d0l-a1-m53-cB 7d0l-a1-m53-cA_7d0l-a1-m54-cB 7d0l-a1-m54-cA_7d0l-a1-m55-cB 7d0l-a1-m55-cA_7d0l-a1-m51-cB 7d0l-a1-m56-cA_7d0l-a1-m57-cB 7d0l-a1-m57-cA_7d0l-a1-m58-cB 7d0l-a1-m58-cA_7d0l-a1-m59-cB 7d0l-a1-m59-cA_7d0l-a1-m60-cB 7d0l-a1-m5-cA_7d0l-a1-m1-cB 7d0l-a1-m60-cA_7d0l-a1-m56-cB 7d0l-a1-m6-cA_7d0l-a1-m7-cB 7d0l-a1-m7-cA_7d0l-a1-m8-cB 7d0l-a1-m9-cA_7d0l-a1-m10-cB PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAES PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAESAGEVPATKALTDLQAVDVSSLPSTSDPSNVLSQPAPLMSPPT 7d0l-a1-m9-cA_7d0l-a1-m9-cB The major capsid of Omono River virus (strain:LZ), protrusion-free status. A0A7M3VBX7 A0A7M3VBX7 2.95 ELECTRON MICROSCOPY 286 1.0 753758 (Omono River virus) 753758 (Omono River virus) 852 894 6s2c-a1-m10-cA_6s2c-a1-m14-cB 6s2c-a1-m11-cA_6s2c-a1-m16-cB 6s2c-a1-m12-cA_6s2c-a1-m17-cB 6s2c-a1-m13-cA_6s2c-a1-m18-cB 6s2c-a1-m14-cA_6s2c-a1-m19-cB 6s2c-a1-m15-cA_6s2c-a1-m20-cB 6s2c-a1-m16-cA_6s2c-a1-m25-cB 6s2c-a1-m17-cA_6s2c-a1-m24-cB 6s2c-a1-m18-cA_6s2c-a1-m22-cB 6s2c-a1-m19-cA_6s2c-a1-m21-cB 6s2c-a1-m1-cA_6s2c-a1-m2-cB 6s2c-a1-m20-cA_6s2c-a1-m23-cB 6s2c-a1-m21-cA_6s2c-a1-m26-cB 6s2c-a1-m22-cA_6s2c-a1-m27-cB 6s2c-a1-m23-cA_6s2c-a1-m28-cB 6s2c-a1-m24-cA_6s2c-a1-m29-cB 6s2c-a1-m25-cA_6s2c-a1-m30-cB 6s2c-a1-m26-cA_6s2c-a1-m10-cB 6s2c-a1-m27-cA_6s2c-a1-m9-cB 6s2c-a1-m28-cA_6s2c-a1-m7-cB 6s2c-a1-m29-cA_6s2c-a1-m6-cB 6s2c-a1-m2-cA_6s2c-a1-m5-cB 6s2c-a1-m30-cA_6s2c-a1-m8-cB 6s2c-a1-m31-cA_6s2c-a1-m33-cB 6s2c-a1-m32-cA_6s2c-a1-m31-cB 6s2c-a1-m33-cA_6s2c-a1-m34-cB 6s2c-a1-m34-cA_6s2c-a1-m35-cB 6s2c-a1-m35-cA_6s2c-a1-m32-cB 6s2c-a1-m36-cA_6s2c-a1-m59-cB 6s2c-a1-m37-cA_6s2c-a1-m58-cB 6s2c-a1-m38-cA_6s2c-a1-m60-cB 6s2c-a1-m39-cA_6s2c-a1-m57-cB 6s2c-a1-m3-cA_6s2c-a1-m1-cB 6s2c-a1-m40-cA_6s2c-a1-m56-cB 6s2c-a1-m41-cA_6s2c-a1-m38-cB 6s2c-a1-m42-cA_6s2c-a1-m36-cB 6s2c-a1-m43-cA_6s2c-a1-m39-cB 6s2c-a1-m44-cA_6s2c-a1-m40-cB 6s2c-a1-m45-cA_6s2c-a1-m37-cB 6s2c-a1-m46-cA_6s2c-a1-m41-cB 6s2c-a1-m47-cA_6s2c-a1-m42-cB 6s2c-a1-m48-cA_6s2c-a1-m43-cB 6s2c-a1-m49-cA_6s2c-a1-m44-cB 6s2c-a1-m4-cA_6s2c-a1-m3-cB 6s2c-a1-m50-cA_6s2c-a1-m45-cB 6s2c-a1-m51-cA_6s2c-a1-m49-cB 6s2c-a1-m52-cA_6s2c-a1-m48-cB 6s2c-a1-m53-cA_6s2c-a1-m50-cB 6s2c-a1-m54-cA_6s2c-a1-m47-cB 6s2c-a1-m55-cA_6s2c-a1-m46-cB 6s2c-a1-m56-cA_6s2c-a1-m51-cB 6s2c-a1-m57-cA_6s2c-a1-m52-cB 6s2c-a1-m58-cA_6s2c-a1-m53-cB 6s2c-a1-m59-cA_6s2c-a1-m54-cB 6s2c-a1-m5-cA_6s2c-a1-m4-cB 6s2c-a1-m60-cA_6s2c-a1-m55-cB 6s2c-a1-m6-cA_6s2c-a1-m12-cB 6s2c-a1-m7-cA_6s2c-a1-m15-cB 6s2c-a1-m8-cA_6s2c-a1-m11-cB 6s2c-a1-m9-cA_6s2c-a1-m13-cB 7d0k-a1-m10-cA_7d0k-a1-m10-cB 7d0k-a1-m11-cA_7d0k-a1-m11-cB 7d0k-a1-m12-cA_7d0k-a1-m12-cB 7d0k-a1-m13-cA_7d0k-a1-m13-cB 7d0k-a1-m14-cA_7d0k-a1-m14-cB 7d0k-a1-m15-cA_7d0k-a1-m15-cB 7d0k-a1-m16-cA_7d0k-a1-m16-cB 7d0k-a1-m17-cA_7d0k-a1-m17-cB 7d0k-a1-m18-cA_7d0k-a1-m18-cB 7d0k-a1-m19-cA_7d0k-a1-m19-cB 7d0k-a1-m1-cA_7d0k-a1-m1-cB 7d0k-a1-m20-cA_7d0k-a1-m20-cB 7d0k-a1-m21-cA_7d0k-a1-m21-cB 7d0k-a1-m22-cA_7d0k-a1-m22-cB 7d0k-a1-m23-cA_7d0k-a1-m23-cB 7d0k-a1-m24-cA_7d0k-a1-m24-cB 7d0k-a1-m25-cA_7d0k-a1-m25-cB 7d0k-a1-m26-cA_7d0k-a1-m26-cB 7d0k-a1-m27-cA_7d0k-a1-m27-cB 7d0k-a1-m28-cA_7d0k-a1-m28-cB 7d0k-a1-m29-cA_7d0k-a1-m29-cB 7d0k-a1-m2-cA_7d0k-a1-m2-cB 7d0k-a1-m30-cA_7d0k-a1-m30-cB 7d0k-a1-m31-cA_7d0k-a1-m31-cB 7d0k-a1-m32-cA_7d0k-a1-m32-cB 7d0k-a1-m33-cA_7d0k-a1-m33-cB 7d0k-a1-m34-cA_7d0k-a1-m34-cB 7d0k-a1-m35-cA_7d0k-a1-m35-cB 7d0k-a1-m36-cA_7d0k-a1-m36-cB 7d0k-a1-m37-cA_7d0k-a1-m37-cB 7d0k-a1-m38-cA_7d0k-a1-m38-cB 7d0k-a1-m39-cA_7d0k-a1-m39-cB 7d0k-a1-m3-cA_7d0k-a1-m3-cB 7d0k-a1-m40-cA_7d0k-a1-m40-cB 7d0k-a1-m41-cA_7d0k-a1-m41-cB 7d0k-a1-m42-cA_7d0k-a1-m42-cB 7d0k-a1-m43-cA_7d0k-a1-m43-cB 7d0k-a1-m44-cA_7d0k-a1-m44-cB 7d0k-a1-m45-cA_7d0k-a1-m45-cB 7d0k-a1-m46-cA_7d0k-a1-m46-cB 7d0k-a1-m47-cA_7d0k-a1-m47-cB 7d0k-a1-m48-cA_7d0k-a1-m48-cB 7d0k-a1-m49-cA_7d0k-a1-m49-cB 7d0k-a1-m4-cA_7d0k-a1-m4-cB 7d0k-a1-m50-cA_7d0k-a1-m50-cB 7d0k-a1-m51-cA_7d0k-a1-m51-cB 7d0k-a1-m52-cA_7d0k-a1-m52-cB 7d0k-a1-m53-cA_7d0k-a1-m53-cB 7d0k-a1-m54-cA_7d0k-a1-m54-cB 7d0k-a1-m55-cA_7d0k-a1-m55-cB 7d0k-a1-m56-cA_7d0k-a1-m56-cB 7d0k-a1-m57-cA_7d0k-a1-m57-cB 7d0k-a1-m58-cA_7d0k-a1-m58-cB 7d0k-a1-m59-cA_7d0k-a1-m59-cB 7d0k-a1-m5-cA_7d0k-a1-m5-cB 7d0k-a1-m60-cA_7d0k-a1-m60-cB 7d0k-a1-m6-cA_7d0k-a1-m6-cB 7d0k-a1-m7-cA_7d0k-a1-m7-cB 7d0k-a1-m8-cA_7d0k-a1-m8-cB 7d0k-a1-m9-cA_7d0k-a1-m9-cB 7d0l-a1-m10-cA_7d0l-a1-m10-cB 7d0l-a1-m11-cA_7d0l-a1-m11-cB 7d0l-a1-m12-cA_7d0l-a1-m12-cB 7d0l-a1-m13-cA_7d0l-a1-m13-cB 7d0l-a1-m14-cA_7d0l-a1-m14-cB 7d0l-a1-m15-cA_7d0l-a1-m15-cB 7d0l-a1-m16-cA_7d0l-a1-m16-cB 7d0l-a1-m17-cA_7d0l-a1-m17-cB 7d0l-a1-m18-cA_7d0l-a1-m18-cB 7d0l-a1-m19-cA_7d0l-a1-m19-cB 7d0l-a1-m1-cA_7d0l-a1-m1-cB 7d0l-a1-m20-cA_7d0l-a1-m20-cB 7d0l-a1-m21-cA_7d0l-a1-m21-cB 7d0l-a1-m22-cA_7d0l-a1-m22-cB 7d0l-a1-m23-cA_7d0l-a1-m23-cB 7d0l-a1-m24-cA_7d0l-a1-m24-cB 7d0l-a1-m25-cA_7d0l-a1-m25-cB 7d0l-a1-m26-cA_7d0l-a1-m26-cB 7d0l-a1-m27-cA_7d0l-a1-m27-cB 7d0l-a1-m28-cA_7d0l-a1-m28-cB 7d0l-a1-m29-cA_7d0l-a1-m29-cB 7d0l-a1-m2-cA_7d0l-a1-m2-cB 7d0l-a1-m30-cA_7d0l-a1-m30-cB 7d0l-a1-m31-cA_7d0l-a1-m31-cB 7d0l-a1-m32-cA_7d0l-a1-m32-cB 7d0l-a1-m33-cA_7d0l-a1-m33-cB 7d0l-a1-m34-cA_7d0l-a1-m34-cB 7d0l-a1-m35-cA_7d0l-a1-m35-cB 7d0l-a1-m36-cA_7d0l-a1-m36-cB 7d0l-a1-m37-cA_7d0l-a1-m37-cB 7d0l-a1-m38-cA_7d0l-a1-m38-cB 7d0l-a1-m39-cA_7d0l-a1-m39-cB 7d0l-a1-m3-cA_7d0l-a1-m3-cB 7d0l-a1-m40-cA_7d0l-a1-m40-cB 7d0l-a1-m41-cA_7d0l-a1-m41-cB 7d0l-a1-m42-cA_7d0l-a1-m42-cB 7d0l-a1-m43-cA_7d0l-a1-m43-cB 7d0l-a1-m44-cA_7d0l-a1-m44-cB 7d0l-a1-m45-cA_7d0l-a1-m45-cB 7d0l-a1-m46-cA_7d0l-a1-m46-cB 7d0l-a1-m47-cA_7d0l-a1-m47-cB 7d0l-a1-m48-cA_7d0l-a1-m48-cB 7d0l-a1-m49-cA_7d0l-a1-m49-cB 7d0l-a1-m4-cA_7d0l-a1-m4-cB 7d0l-a1-m50-cA_7d0l-a1-m50-cB 7d0l-a1-m51-cA_7d0l-a1-m51-cB 7d0l-a1-m52-cA_7d0l-a1-m52-cB 7d0l-a1-m53-cA_7d0l-a1-m53-cB 7d0l-a1-m54-cA_7d0l-a1-m54-cB 7d0l-a1-m55-cA_7d0l-a1-m55-cB 7d0l-a1-m56-cA_7d0l-a1-m56-cB 7d0l-a1-m57-cA_7d0l-a1-m57-cB 7d0l-a1-m58-cA_7d0l-a1-m58-cB 7d0l-a1-m59-cA_7d0l-a1-m59-cB 7d0l-a1-m5-cA_7d0l-a1-m5-cB 7d0l-a1-m60-cA_7d0l-a1-m60-cB 7d0l-a1-m6-cA_7d0l-a1-m6-cB 7d0l-a1-m7-cA_7d0l-a1-m7-cB 7d0l-a1-m8-cA_7d0l-a1-m8-cB PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAES PISADFSEVENAPSFLSLAENTDEVLKPYTGLEIQTIITNIVGDANPNQSRIFDQDRLRGNQYSAGGLVTQNAVSAIPFTNLIPRTIRVGNILVNSANRLQITETNVSEYYSNPIIATKLSEMISDQVKNNQFSTWRRDNTSLQGFNAFDIATINTAILPNGLSLESMLLKLSLLHSIKAMNVDAASINRSQYQVIDHNTVPTIGAPAVVGVNNSPVFGEDCGGNNPVYPFGGGTGAIAFHVTLQTVPDERKSYAIFVPPAILQATSDANEALALFALSMSEWPHALYTVTKQTTDLAGANAGQQVFIPTQSTIHIGGRRVLDLIIPRREIAPNPTTLVAANAMCMVRPQAGPDATAGAIPLAAGQLFNMNFIGAPAFEEWPMTSYLYSWAGRFDITTIRQYMGRLATMVGVKDAYWAAHELNVALSQVAPKMTTAAGGWAAQAANSAQQSDVCYSSLLTVTRSAANFPLANQPAADMRVYDTDPATWNKVALGLATAANLVPEQSMDVPFVVGDARASFWERLQAIPMCIAWTMYYHSRGITTLAWDNAYTDNTNKWLQKMVRNTFSTTQSVGTIIPARYGKIVCNLYKNMFHRAPAYVATSVGGKELHITHFERWLPGGTYANVYSGAGAVVNCFSPVLIPDIWCQYFTAKLPLFAGAFPPAQGQNSTKGFNSKQGLMIHRNQNNNLVAPYLEKFADNSSYFPVGQGPEINDMATWNGRLWMTTGNVQYLDYSGAAIVEAVPPAGELPVGKQIPLLAGENAPIELTNAATTCVPRYSNDGRRIFTYLTTAQSVIPVQACNRAANLARSCWLLSNVYAEPALQALGDEVEDAFDTLTNSSFLDVAKSVAESAGEVPATKALTDLQAVDVSSLPSTSDPSNVLSQPAPLMSPPT 7d14-a1-m1-cA_7d14-a1-m1-cB Mouse KCC2 Q91V14 Q91V14 3.8 ELECTRON MICROSCOPY 165 1.0 10090 (Mus musculus) 10090 (Mus musculus) 850 850 LSGLANYTNLPQGSREHEEAENNERMGTFMGVYLPCLQNIFGVILFLRLTWVVGIAGIMESFCMVFICCSCTMLTAISMSAIATNGVVPAGGSYYMISRSLGPEFGGAVGLCFYLGTTFAGAMYILGTIEILLAYLFPAMAIASGEAAAMLNNMRVYGTCVLTCMATVVFVGVKYVNKFALVFLGCVILSILAIYAGVIKSAFDPPNFPICLLGNRTLSRHGFDVCAKLAWEGNETVIQGIPGAASGLIKENLWSSYLTKGVIVERRGMPSVGLADGTPVDMDHPYVFSDMTSYFTLLVGIYFPSVTGIMAGSNRSGDLRDAQKSIPTGTILAIATTSAVYISSVVLFGACIEGVVLRDKFGEAVNGNLWVIVIGSFFSTCGAGLQSLTGAPRLLQAISRDGIVPFLQVFGHGKANGEPTWALLLTACICEIGILIASLDEVAPILSMFFLMCYMFVNLACAVQTLLRTPNWRPRFRYYHWTLSFLGMSLCLALMFICSWYYALVAMLIAGLIYKYIEYRGAEKEWGDGIRGLSLSAARYALLRLWRPQLLVLVRVDQDQNVVHPQLLSLTSQLKAGKGLTIVGSVLEGTFLDNHPQAQRAEESIRRLMEAEKVKGFCQVVISSNLRDGVSHLIQSGGLGGLQHNTVLVGWPRNWRQKEDHQTWRNFIELVRETTAGHLALLVTKNVSMFPGNPERFSIDVWWIVHDGGMLMLLPFLLRHHKKCKMRIFTVAQIQMKKDLTTFLYHLRITAEVEVVEMHESDISAYTYEKTLVMEQRSQIQMHLTKNERERAVRLNEVIVNKSRDAKLVLLNMPGPPDENYMEFLEVLTEQLDRVMLVRGGGREVITIYS LSGLANYTNLPQGSREHEEAENNERMGTFMGVYLPCLQNIFGVILFLRLTWVVGIAGIMESFCMVFICCSCTMLTAISMSAIATNGVVPAGGSYYMISRSLGPEFGGAVGLCFYLGTTFAGAMYILGTIEILLAYLFPAMAIASGEAAAMLNNMRVYGTCVLTCMATVVFVGVKYVNKFALVFLGCVILSILAIYAGVIKSAFDPPNFPICLLGNRTLSRHGFDVCAKLAWEGNETVIQGIPGAASGLIKENLWSSYLTKGVIVERRGMPSVGLADGTPVDMDHPYVFSDMTSYFTLLVGIYFPSVTGIMAGSNRSGDLRDAQKSIPTGTILAIATTSAVYISSVVLFGACIEGVVLRDKFGEAVNGNLWVIVIGSFFSTCGAGLQSLTGAPRLLQAISRDGIVPFLQVFGHGKANGEPTWALLLTACICEIGILIASLDEVAPILSMFFLMCYMFVNLACAVQTLLRTPNWRPRFRYYHWTLSFLGMSLCLALMFICSWYYALVAMLIAGLIYKYIEYRGAEKEWGDGIRGLSLSAARYALLRLWRPQLLVLVRVDQDQNVVHPQLLSLTSQLKAGKGLTIVGSVLEGTFLDNHPQAQRAEESIRRLMEAEKVKGFCQVVISSNLRDGVSHLIQSGGLGGLQHNTVLVGWPRNWRQKEDHQTWRNFIELVRETTAGHLALLVTKNVSMFPGNPERFSIDVWWIVHDGGMLMLLPFLLRHHKKCKMRIFTVAQIQMKKDLTTFLYHLRITAEVEVVEMHESDISAYTYEKTLVMEQRSQIQMHLTKNERERAVRLNEVIVNKSRDAKLVLLNMPGPPDENYMEFLEVLTEQLDRVMLVRGGGREVITIYS 7d19-a1-m1-cB_7d19-a1-m1-cA Crystal structure of mouse Cryptochrome 1 in complex with compound TH129 P97784 P97784 2.35 X-RAY DIFFRACTION 68 0.996 10090 (Mus musculus) 10090 (Mus musculus) 481 482 GVNAVHWFRKGLRLHDNPALKECIQGADTIRCVYILDPWFAGSSNVGINRWRFLLQCLEDLDANLRKLNSRLFVIRGQPADVFPRLFKEWNITKLSIEYDSEPFGKERDAAIKKLATEAGVEVIVRISHTLYDLDKIIELNGGQPPLTYKRFQTLVSKMEPLEMPADTITSDVIGKCMTPLSDDHDEKYGVPSLEELGFDTDGLSSAVWPGGETEALTRLERHLERKAWVANANSLLASPTGLSPYLRFGCLSCRLFYFKLTDLYKKVKKNSSPPLSLYGQLLWREFFYTAATNNPRFDKMEGNPICVQIPWDKNPEALAKWAEGRTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWISWEEGMKVFEELLLDADWSINAGSWMWLSCSSFFQQFFHCYCPVGFGRRTDPNGDYIRRYLPVLRGFPAKYIYDPWNAPEGIQKVAKCLIGVNYPKPMVNHAEASRLNIERMKQIYQ GVNAVHWFRKGLRLHDNPALKECIQGADTIRCVYILDPWFAGSSNVGINRWRFLLQCLEDLDANLRKLNSRLFVIRGQPADVFPRLFKEWNITKLSIEYDSEPFGKERDAAIKKLATEAGVEVIVRISHTLYDLDKIIELNGGQPPLTYKRFQTLVSKMLEMPADTITSDVIGKCMTPLSDDHDEKYGVPSLEELGFDTDGLSSAVWPGGETEALTRLERHLERKAWVANANSLLASPTGLSPYLRFGCLSCRLFYFKLTDLYKKVKKNSSPPLSLYGQLLWREFFYTAATNNPRFDKMEGNPICVQIPWDKNPEALAKWAEGRTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWISWEEGMKVFEELLLDADWSINAGSWMWLSCSSFFQQFFHCYCPVGFGRRTDPNGDYIRRYLPVLRGFPAKYIYDPWNAPEGIQKVAKCLIGVNYPKPMVNHAEASRLNIERMKQIYQQLS 7d1i-a1-m2-cB_7d1i-a1-m2-cA Crystal structure of acinetobacter baumannii MurG A3M9Y1 A3M9Y1 3.487 X-RAY DIFFRACTION 58 0.991 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 332 347 7d1i-a1-m1-cB_7d1i-a1-m1-cA 7d1i-a1-m1-cC_7d1i-a1-m2-cC PKHVMMMAAGTGGHVFPALAVAKQLQQQGCQVSWLATPTGMENRLLKDQNIPIYQIDIIRKLAAPFKILKATFSAMRYMKQLKVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAKVVCEAFPNTFPASEKVVTTGNPREQADKPLNILIVGGSLGAKALNERLPPALKQLEVPLNIFHQCGQQQVEATQALYADAPANLTIQVLPFIEDMAKAYSEADLIICRAGALTVTEVATAGVAAVFVPLPIAVDDHQTANAKFLADIGAAKICQQSTMTPEVLNQLFTTLMNRQLLTEMAVKARQHAQPNATQHVVDLIQKM PKHVMMMAAGTGGHVFPALAVAKQLQQQGCQVSWLATPTGMENRLLKDQNIPIYQIDIQGVRGNGVIRKLAAPFKILKATFSAMRYMKQLKVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAKVVCEAFPNTFPASEKVVTTILSPKWRYDEREQADKPLNILIVGGSLGAKALNERLPPALKQLEVPLNIFHQCGQQQVEATQALYADAPANLTIQVLPFIEDMAKAYSEADLIICRAGALTVTEVATAGVAAVFVPLPIAVDDHQTANAKFLADIGAAKICQQSTMTPEVLNQLFTTLMNRQLLTEMAVKARQHAQPNATQHVVDLIQKM 7d1i-a1-m2-cB_7d1i-a1-m2-cC Crystal structure of acinetobacter baumannii MurG A3M9Y1 A3M9Y1 3.487 X-RAY DIFFRACTION 60 0.988 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 332 343 7d1i-a1-m1-cA_7d1i-a1-m2-cA 7d1i-a1-m1-cB_7d1i-a1-m1-cC PKHVMMMAAGTGGHVFPALAVAKQLQQQGCQVSWLATPTGMENRLLKDQNIPIYQIDIIRKLAAPFKILKATFSAMRYMKQLKVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAKVVCEAFPNTFPASEKVVTTGNPREQADKPLNILIVGGSLGAKALNERLPPALKQLEVPLNIFHQCGQQQVEATQALYADAPANLTIQVLPFIEDMAKAYSEADLIICRAGALTVTEVATAGVAAVFVPLPIAVDDHQTANAKFLADIGAAKICQQSTMTPEVLNQLFTTLMNRQLLTEMAVKARQHAQPNATQHVVDLIQKM PKHVMMMAAGTGGHVFPALAVAKQLQQQGCQVSWLATPTGMENRLLKDQNIPIYQIDIQGVRGNGVIRKLAAPFKILKATFSAMRYMKQLKVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAKVVCEAFPNTFPASEKVVTTGSPKWRYDEREQADKPLNILIVGGSLGAKALNERLPPALKQLEVPLNIFHQCGQQQVEATQALYADAPANLTIQVLPFIEDMAKAYSEADLIICRAGALTVTEVATAGVAAVFVPLPIAHQTANAKFLADIGAAKICQQSTMTPEVLNQLFTTLMNRQLLTEMAVKARQHAQPNATQHVVDLIQKM 7d1i-a1-m2-cC_7d1i-a1-m2-cA Crystal structure of acinetobacter baumannii MurG A3M9Y1 A3M9Y1 3.487 X-RAY DIFFRACTION 25 0.997 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 343 347 7d1i-a1-m1-cB_7d1i-a1-m2-cA 7d1i-a1-m1-cB_7d1i-a1-m2-cC 7d1i-a1-m1-cC_7d1i-a1-m1-cA 7d1i-a1-m2-cB_7d1i-a1-m1-cA 7d1i-a1-m2-cB_7d1i-a1-m1-cC PKHVMMMAAGTGGHVFPALAVAKQLQQQGCQVSWLATPTGMENRLLKDQNIPIYQIDIQGVRGNGVIRKLAAPFKILKATFSAMRYMKQLKVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAKVVCEAFPNTFPASEKVVTTGSPKWRYDEREQADKPLNILIVGGSLGAKALNERLPPALKQLEVPLNIFHQCGQQQVEATQALYADAPANLTIQVLPFIEDMAKAYSEADLIICRAGALTVTEVATAGVAAVFVPLPIAHQTANAKFLADIGAAKICQQSTMTPEVLNQLFTTLMNRQLLTEMAVKARQHAQPNATQHVVDLIQKM PKHVMMMAAGTGGHVFPALAVAKQLQQQGCQVSWLATPTGMENRLLKDQNIPIYQIDIQGVRGNGVIRKLAAPFKILKATFSAMRYMKQLKVDAVAGFGGYVAGPGGLAARLLGIPVLIHEQNAVAGFTNAQLSRVAKVVCEAFPNTFPASEKVVTTILSPKWRYDEREQADKPLNILIVGGSLGAKALNERLPPALKQLEVPLNIFHQCGQQQVEATQALYADAPANLTIQVLPFIEDMAKAYSEADLIICRAGALTVTEVATAGVAAVFVPLPIAVDDHQTANAKFLADIGAAKICQQSTMTPEVLNQLFTTLMNRQLLTEMAVKARQHAQPNATQHVVDLIQKM 7d2e-a1-m1-cA_7d2e-a1-m1-cD Tetrameric coiled-coil structure of liprin-alpha2_H3 O75334 O75334 1.7 X-RAY DIFFRACTION 64 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 62 63 7d2e-a1-m1-cB_7d2e-a1-m1-cC SSEVEVLKALKSLFEHHKALDEKVRERLRVSLERVSALEEELAAANQEIVALREQNVHIQRK SEVEVLKALKSLFEHHKALDEKVRERLRVSLERVSALEEELAAANQEIVALREQNVHIQRKMA 7d2e-a1-m1-cC_7d2e-a1-m1-cA Tetrameric coiled-coil structure of liprin-alpha2_H3 O75334 O75334 1.7 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 62 SEVEVLKALKSLFEHHKALDEKVRERLRVSLERVSALEEELAAANQEIVALREQNVHIQ SSEVEVLKALKSLFEHHKALDEKVRERLRVSLERVSALEEELAAANQEIVALREQNVHIQRK 7d2e-a1-m1-cC_7d2e-a1-m1-cD Tetrameric coiled-coil structure of liprin-alpha2_H3 O75334 O75334 1.7 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 59 63 7d2e-a1-m1-cB_7d2e-a1-m1-cA SEVEVLKALKSLFEHHKALDEKVRERLRVSLERVSALEEELAAANQEIVALREQNVHIQ SEVEVLKALKSLFEHHKALDEKVRERLRVSLERVSALEEELAAANQEIVALREQNVHIQRKMA 7d2g-a2-m1-cC_7d2g-a2-m1-cD Coiled-coil structure of liprin-alpha2_H2delC O75334 O75334 1.7 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 46 49 7d2g-a1-m1-cB_7d2g-a1-m1-cA SEFEFAATKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALV PGSEFEFAATKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVS 7d2h-a1-m1-cB_7d2h-a1-m1-cC Tetrameric coiled-coil structure of liprin-alpha2_H2 O75334 O75334 2.2 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 56 SEFAALTKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVSRHERSLRMT GSEFAALTKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVSRHERSLRMT 7d2h-a1-m1-cB_7d2h-a1-m1-cD Tetrameric coiled-coil structure of liprin-alpha2_H2 O75334 O75334 2.2 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 55 60 7d2h-a1-m1-cC_7d2h-a1-m1-cA SEFAALTKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVSRHERSLRMT SEFAALTKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVSRHERSLRMTVVKRQ 7d2h-a1-m1-cC_7d2h-a1-m1-cD Tetrameric coiled-coil structure of liprin-alpha2_H2 O75334 O75334 2.2 X-RAY DIFFRACTION 46 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 56 60 7d2h-a1-m1-cB_7d2h-a1-m1-cA GSEFAALTKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVSRHERSLRMT SEFAALTKELNACREQLLEKEEEISELKAERNNTRLLLEHLEALVSRHERSLRMTVVKRQ 7d2n-a1-m1-cC_7d2n-a1-m1-cB Crystal structure of MazE-MazF (Form-III) from Deinococcus radiodurans Q9RX98 Q9RX98 1.6 X-RAY DIFFRACTION 68 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 100 108 7d28-a1-m1-cD_7d28-a1-m1-cA 7d28-a2-m1-cC_7d28-a2-m1-cB 7d2m-a1-m1-cC_7d2m-a1-m1-cB 7d2n-a1-m1-cD_7d2n-a1-m1-cA 7d2p-a1-m1-cC_7d2p-a1-m1-cB 7d2p-a1-m1-cD_7d2p-a1-m1-cA 7d2q-a1-m1-cA_7d2q-a1-m1-cE 7d2q-a1-m1-cC_7d2q-a1-m1-cG 7dhp-a1-m1-cA_7dhp-a1-m1-cB DYVPDAGHLVWLNRRPALVLSPAAYNGVTGLMQACPVTSRAKGYPFEVTLPAHLGVSGVVLADHCRSLDWRSRRAEQLAEAPADVLAEVRGKLGSLLGMS DYVPDAGHLVWLNFTPQAGGGRRPALVLSPAAYNGVTGLMQACPVTSRAKGYPFEVTLPAHLGVSGVVLADHCRSLDWRSRRAEQLAEAPADVLAEVRGKLGSLLGMS 7d2p-a1-m1-cA_7d2p-a1-m1-cB Crystal structure of MazE-MazF (Form-II) from Deinococcus radiodurans Q9RX98 Q9RX98 2.07 X-RAY DIFFRACTION 18 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 111 111 DYVPDAGHLVWLNFTPQAGHEQGGRRPALVLSPAAYNGVTGLMQACPVTSRAKGYPFEVTLPAHLGVSGVVLADHCRSLDWRSRRAEQLAEAPADVLAEVRGKLGSLLGMS DYVPDAGHLVWLNFTPQAGHEQGGRRPALVLSPAAYNGVTGLMQACPVTSRAKGYPFEVTLPAHLGVSGVVLADHCRSLDWRSRRAEQLAEAPADVLAEVRGKLGSLLGMS 7d2q-a1-m1-cA_7d2q-a1-m1-cG Crystal structure of MazE-MazF (Form-I) from Deinococcus radiodurans Q9RX98 Q9RX98 1.99 X-RAY DIFFRACTION 12 0.99 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 100 110 SDYVPDAGHLVWLNFRPALVLSPAAYNGVTGLMQACPVTSRAKGYPFEVTLPAHLGVSGVVLADHCRSLDWRSRRAEQLAEAPADVLAEVRGKLGSLLGM DYVPDAGHLVWLNFTPQAGHEQGGRRPALVLSPAAYNGVTGLMQACPVTSRAKGYPFEVTLPAHLGVSGVVLADHCRSLDWRSRRAEQLAEAPADVLAEVRGKLGSLLGM 7d2q-a1-m1-cD_7d2q-a1-m1-cF Crystal structure of MazE-MazF (Form-I) from Deinococcus radiodurans Q9RX99 Q9RX99 1.99 X-RAY DIFFRACTION 16 1.0 1299 (Deinococcus radiodurans) 1299 (Deinococcus radiodurans) 30 30 YDLAALLAEMTPENLHGETDWGALEGREEW YDLAALLAEMTPENLHGETDWGALEGREEW 7d2w-a1-m1-cA_7d2w-a1-m1-cB Crystal structure of PHIT/PHISTa-like subfamily PF3D7_1372300 protein from plasmodium falciparum A0A143ZZR8 A0A143ZZR8 1.97 X-RAY DIFFRACTION 46 0.992 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 125 125 EQLTREELYELFDLLVQVPPRTYLLNIWNHKNGICRQGTKDLLKNLRGIAPKPPKITWQGCSYDCNMMVSTLETEQTNRFYNLLNKKAPIDEIKSFIRSCIDEFDKLHTDLYVKYEKIFSEQKLE EQLTREELYELFDLLVQVPPRTYLLNIWNHKNGICRQGTKDLLKNLRGIAPKSPPKITWQGCSYDCNMMVSTLETEQTNRFYNLLNKKAPIDEIKSFIRSCIDEFDKLHTDLYVKYEKIFSEQKL 7d2y-a1-m1-cD_7d2y-a1-m1-cC complex of two RRM domains O76616 O76616 2.68 X-RAY DIFFRACTION 39 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 81 82 7d1l-a1-m1-cC_7d1l-a1-m1-cD 7ocx-a1-m1-cA_7ocx-a1-m1-cB 7ocz-a1-m1-cA_7ocz-a1-m1-cB QENMLKISGYPGMLNTFGIAQLLTPYRVNGITITGAQSAVVALENKFQVYQAVQDFNGKKLDRNHKLQVSSLVVSSPAVPL DQENMLKISGYPGMLNTFGIAQLLTPYRVNGITITGAQSAVVALENKFQVYQAVQDFNGKKLDRNHKLQVSSLVVSSPAVPL 7d34-a1-m1-cA_7d34-a1-m1-cB AtClpS1-peptide complex Q9SX29 Q9SX29 2.007 X-RAY DIFFRACTION 41 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 79 79 LAPPYRVILHNDNFNKREYVVQVLMKVIPGMTVDNAVNIMQEAHINGLAVVIVCAQADAEQHCMQLRGNGLLSSVEPDG LAPPYRVILHNDNFNKREYVVQVLMKVIPGMTVDNAVNIMQEAHINGLAVVIVCAQADAEQHCMQLRGNGLLSSVEPDG 7d3f-a1-m1-cA_7d3f-a1-m1-cC Cryo-EM structure of human DUOX1-DUOXA1 in high-calcium state Q9NRD9 Q9NRD9 2.6 ELECTRON MICROSCOPY 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1369 1369 7d3e-a1-m1-cA_7d3e-a1-m1-cC QNPISWEVQRFDGWYNNLMEHRWGSKGSRLQRLVPASYADGVYQPLGEPHLPNPRDLSNTISRGPAGLASLRNRTVLGVFFGYHVLSDLVSVETPGCPAEFLNIRIPPGDPMFDPDQRGDVVLPFQRSRWDPETGRSPSNPRDPANQVTGWLDGSAIYGSSHSWSDALRSFSRGQLASGPDPAFPRDSQNPLLMWAAPDPATGQNGPRGLYAFGAERGNREPFLQALGLLWFRYHNLWAQRLARQHPDWEDEELFQHARKRVIATYQNIAVYEWLPSFLQKTLPEYTGYRPFLDPSISSEFVAASEQFLSTMVPPGVYMRNASCHFQGVINRNSSVSRALRVCNSYWSREHPSLQSAEDVDALLLGMASQIAEREDHVLVEDVRDFWPGPLKFSRTDHLASCLQRGRDLGLPSYTKARAALGLSPITRWQDINPALSRSNDTVLEATAALYNQDLSWLELLPGGLLESHRDPGPLFSTIVLEQFVRLRDGDRYWFENTRNGLFSKKEIEEIRNTTLQDVLVAVINIDPSALQPNVFVWHKGDPCPQPRQLSTEGLPACAPSVVRDYFEGSGFGFGVTIGTLCCFPLVSLLSAWIVARLMEALEWQGHKEPCRPVLVYLQPGQIRVVDGRLTVLRTIQLQPVNFVLSRTLLLKIPKEYDLVLLFNLEEERQALVENLRGALKESIQEWELREQELMRAAVTREQRRHLLETFFRHLFSQVLSQKVREALTCELSRAEFAESLGLKPQDMFVESMFSLADKDGNGYLSFREFLDILVVFMKGSPEEKSRLMFRMYDFDGNGLISKDEFIRMLRSFIKAQLAEVVESELTWEDFHFMLLLFTEAHREKFQRSCLHQTVQQFKRFIENYRRHIGCVAVFYAIAGGLFLERAYYYAFAAHHTGITDTTRVGIILSRGTAASISFMFSYILLTMCRNLITFLRETFLNRYVPFDAAVDFHRLIASTAIVLTVLHSVGHVVNVYLFSISPLSVLSCLFPGLFHDDGSEFPQKYYWWFFQTVPGLTGVVLLLILAIMYVFASHHFRRRSFRGFWLTHHLYILLYVLLIIHGSFALIQLPRFHIFFLVPAIIYGGDKLVSLSRKKVEISVVKAELLPSGVTHLRFQRPQGFEYKSGQWVRIACLALGTTEYHPFTLTSAPHEDTLSLHIRAAGPWTTRLREIYSAPTYPKLYLDGPFGEGHQEWHKFEVSVLVGGGIGVTPFASILKDLVFKSSVSCQVFCKKIYFIWVTRTQRQFEWLADIIREVEENDHQDLVSVHIYITQLAEKFDLRTTMLYICERHFQKVLNRSLFTGLRSITHFGRPPFEPFFNSLQEVHPQVRKIGVFSCGPPGMTKNVEKACQLINRQDRTHFSHHYENF QNPISWEVQRFDGWYNNLMEHRWGSKGSRLQRLVPASYADGVYQPLGEPHLPNPRDLSNTISRGPAGLASLRNRTVLGVFFGYHVLSDLVSVETPGCPAEFLNIRIPPGDPMFDPDQRGDVVLPFQRSRWDPETGRSPSNPRDPANQVTGWLDGSAIYGSSHSWSDALRSFSRGQLASGPDPAFPRDSQNPLLMWAAPDPATGQNGPRGLYAFGAERGNREPFLQALGLLWFRYHNLWAQRLARQHPDWEDEELFQHARKRVIATYQNIAVYEWLPSFLQKTLPEYTGYRPFLDPSISSEFVAASEQFLSTMVPPGVYMRNASCHFQGVINRNSSVSRALRVCNSYWSREHPSLQSAEDVDALLLGMASQIAEREDHVLVEDVRDFWPGPLKFSRTDHLASCLQRGRDLGLPSYTKARAALGLSPITRWQDINPALSRSNDTVLEATAALYNQDLSWLELLPGGLLESHRDPGPLFSTIVLEQFVRLRDGDRYWFENTRNGLFSKKEIEEIRNTTLQDVLVAVINIDPSALQPNVFVWHKGDPCPQPRQLSTEGLPACAPSVVRDYFEGSGFGFGVTIGTLCCFPLVSLLSAWIVARLMEALEWQGHKEPCRPVLVYLQPGQIRVVDGRLTVLRTIQLQPVNFVLSRTLLLKIPKEYDLVLLFNLEEERQALVENLRGALKESIQEWELREQELMRAAVTREQRRHLLETFFRHLFSQVLSQKVREALTCELSRAEFAESLGLKPQDMFVESMFSLADKDGNGYLSFREFLDILVVFMKGSPEEKSRLMFRMYDFDGNGLISKDEFIRMLRSFIKAQLAEVVESELTWEDFHFMLLLFTEAHREKFQRSCLHQTVQQFKRFIENYRRHIGCVAVFYAIAGGLFLERAYYYAFAAHHTGITDTTRVGIILSRGTAASISFMFSYILLTMCRNLITFLRETFLNRYVPFDAAVDFHRLIASTAIVLTVLHSVGHVVNVYLFSISPLSVLSCLFPGLFHDDGSEFPQKYYWWFFQTVPGLTGVVLLLILAIMYVFASHHFRRRSFRGFWLTHHLYILLYVLLIIHGSFALIQLPRFHIFFLVPAIIYGGDKLVSLSRKKVEISVVKAELLPSGVTHLRFQRPQGFEYKSGQWVRIACLALGTTEYHPFTLTSAPHEDTLSLHIRAAGPWTTRLREIYSAPTYPKLYLDGPFGEGHQEWHKFEVSVLVGGGIGVTPFASILKDLVFKSSVSCQVFCKKIYFIWVTRTQRQFEWLADIIREVEENDHQDLVSVHIYITQLAEKFDLRTTMLYICERHFQKVLNRSLFTGLRSITHFGRPPFEPFFNSLQEVHPQVRKIGVFSCGPPGMTKNVEKACQLINRQDRTHFSHHYENF 7d3t-a2-m1-cC_7d3t-a2-m1-cD Crystal structure of OSPHR2 in complex with DNA B8B5N8 B8B5N8 2.7 X-RAY DIFFRACTION 15 1.0 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 59 62 7d3t-a1-m1-cA_7d3t-a1-m1-cB TRMRWTPELHERFVDAVNLLGGSEKATPKGVLKLMKADNLTIYHVKSHLQKYRTARYRP TRMRWTPELHERFVDAVNLLGGSEKATPKGVLKLMKADNLTIYHVKSHLQKYRTARYRPELS 7d3y-a1-m1-cB_7d3y-a1-m1-cA Crystal structure of the osPHR2-osSPX2 complex O75367 O75367 3.11 X-RAY DIFFRACTION 229 1.0 39946 (Oryza sativa Indica Group) 39946 (Oryza sativa Indica Group) 337 341 SLSSQIVEMQPEWRDNFLSYKDLKKRLNLTLEQAGFVGLLDAELDKFNFFFLEKEEEYVIKQKELRERKMASAEEVMRVRKEIVDLHGEMVLLENYSALNYTGLVKILKKYDKRTGSMIRLPFVQKVLQQPFFTTDLLYKLVKECEEMLDQLMFTVLSTKSLFLGQKLQVVQADIASIDSDAVVHPTNTDFYIGGEVGNTLEKKGGKEFVEAVLELRKKNGPLEVAGAAVSAGHGLPAKFVIHCNSPVWGADKCEELLEKTVKNCLALADDKKLKSIAFPSIGSGRNGFPKQTAAQLILKAISSYFVSTMSSSIKTVYFVLFDSESIGIYVQEMAKL KFGKSLSSQIVEMQPEWRDNFLSYKDLKKRLNLTLEQAGFVGLLDAELDKFNFFFLEKEEEYVIKQKELRERKMASAEEVMRVRKEIVDLHGEMVLLENYSALNYTGLVKILKKYDKRTGSMIRLPFVQKVLQQPFFTTDLLYKLVKECEEMLDQLMFTVLSTKSLFLGQKLQVVQADIASIDSDAVVHPTNTDFYIGGEVGNTLEKKGGKEFVEAVLELRKKNGPLEVAGAAVSAGHGLPAKFVIHCNSPVWGADKCEELLEKTVKNCLALADDKKLKSIAFPSIGSGRNGFPKQTAAQLILKAISSYFVSTMSSSIKTVYFVLFDSESIGIYVQEMAKL 7d3y-a1-m1-cE_7d3y-a1-m1-cC Crystal structure of the osPHR2-osSPX2 complex Q6Z156 Q6Z156 3.11 X-RAY DIFFRACTION 42 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 35 103 GNFDLTEALRLQLELQKRLHEQLEIQRSLQLRILE RMRWTPELHERFVDAVNLLGGSEKATPKGVLKLMKADNLTIYHVKSHLQKYRTARYRPELSEGNFDLTEALRLQLELQKRLHEQLEIQRSLQLRILEHHHHHH 7d4m-a1-m1-cB_7d4m-a1-m1-cA Crystal structure of Tmm from strain HTCC7211 soaked with DMS for 5 min B6BQB2 B6BQB2 1.786 X-RAY DIFFRACTION 96 1.0 439493 (Candidatus Pelagibacter sp. HTCC7211) 439493 (Candidatus Pelagibacter sp. HTCC7211) 442 444 7d4k-a1-m1-cB_7d4k-a1-m1-cA 7d4n-a1-m1-cA_7d4n-a1-m1-cB MSKVAIIGAGPCGLSILRAFEHLEKKGEKIPEIVCFEKQESWGGLWNYNWRTGSDQYGDPVPNSMYRYLWSNGPKECLEFADYSFDQHFGKSIPSFPPREVLQDYILGRVSKGNIKNKIKFNTRVINTVYRNDKFEINYQDKVNDKTLSDTFDYLVVSTGHFSVPFIPEYEGMSSFPGRIMHSHDFRDAEEFRGKNVIVLGSSYSAEDVALQCNKYGAKSVTIGYRHNPMGFKWPKGMKEVHYLDKLDGKKAIFKDGTEQDADVVILCTGYLHHFPFLDESLKLKTHNRLYPPKLYKGVVWQDNHKLLYLGMQDQFHTFNMFDCQAWFARDVIMDKIKMPSDDEIDKDINKWVSMEEKLENPDQMIDFQTEYTKELHNISDYPKIDFELIRKHFKEWEHHKVEDILTYRNKSFSSPVTGSVAPVHHTPWEKAMDDSMKTFLN MSKVAIIGAGPCGLSILRAFEHLEKKGEKIPEIVCFEKQESWGGLWNYNWRTGSDQYGDPVPNSMYRYLWSNGPKECLEFADYSFDQHFGKSIPSFPPREVLQDYILGRVSKGNIKNKIKFNTRVINTVYRNDKFEINYQDKVNDKTLSDTFDYLVVSTGHFSVPFIPEYEGMSSFPGRIMHSHDFRDAEEFRGKNVIVLGSSYSAEDVALQCNKYGAKSVTIGYRHNPMGFKWPKGMKEVHYLDKLDGKKAIFKDGTEQDADVVILCTGYLHHFPFLDESLKLKTHNRLYPPKLYKGVVWQDNHKLLYLGMQDQFHTFNMFDCQAWFARDVIMDKIKMPSDDEIDKDINKWVSMEEKLENPDQMIDFQTEYTKELHNISDYPKIDFELIRKHFKEWEHHKVEDILTYRNKSFSSPVTGSVAPVHHTPWEKAMDDSMKTFLNKR 7d53-a2-m1-cC_7d53-a2-m2-cD SpuA mutant - H221N with Glu Q9I6J4 Q9I6J4 1.6 X-RAY DIFFRACTION 112 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 248 249 7d4r-a1-m1-cB_7d4r-a1-m1-cA 7d50-a1-m1-cA_7d50-a1-m1-cB 7d53-a1-m1-cB_7d53-a1-m1-cA RLPLIGVTACTKQIGLHPYHIAGDKYLRAVVNGAGGLPLIIPALGESIDQAALLDSVDGLLFTGSPSNVEPRHYSGPASEPGTLHDSDRDATTLPLVRAAIDAGIPVLGICRGFQEMNVAFGGSLHQKVHEVGTFMDHREPADQPLEVQYAPRHAMHVQPGGVLAGIGLPSEFQVNSIHGQGVDRLAPGLRVEALAPDGLVEAISVEGAKAFALGVQWNPEWQVLTNPNYLAIFQAFGKACSKRAGQR SRLPLIGVTACTKQIGLHPYHIAGDKYLRAVVNGAGGLPLIIPALGESIDQAALLDSVDGLLFTGSPSNVEPRHYSGPASEPGTLHDSDRDATTLPLVRAAIDAGIPVLGICRGFQEMNVAFGGSLHQKVHEVGTFMDHREPADQPLEVQYAPRHAMHVQPGGVLAGIGLPSEFQVNSIHGQGVDRLAPGLRVEALAPDGLVEAISVEGAKAFALGVQWNPEWQVLTNPNYLAIFQAFGKACSKRAGQR 7d54-a1-m1-cA_7d54-a1-m1-cB Crstal structure MsGATase with Gln A0R003 A0R003 1.85 X-RAY DIFFRACTION 52 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 241 241 EFMAPKVLFIHNEHMCTEAMLGDAFSECGFDIETFEVVPPERVETPAGDVAFPDPTAYDVIVPLGARWPVYEQSLVGTWVTAEMDMMRKAADAGVGILGVFGGQLLAQTFGGSVARAETAEVGWFELDTDDAGLIAPGPWFQWHFDRWTVPPGATEIARTSRSSQAFVLGRALALQFHPEVDVDLLEGWLADDREGISGKLGYNHDDLRLRTKELVDDAAVRVRELVRAFLDKVVRADPAS EFMAPKVLFIHNEHMCTEAMLGDAFSECGFDIETFEVVPPERVETPAGDVAFPDPTAYDVIVPLGARWPVYEQSLVGTWVTAEMDMMRKAADAGVGILGVFGGQLLAQTFGGSVARAETAEVGWFELDTDDAGLIAPGPWFQWHFDRWTVPPGATEIARTSRSSQAFVLGRALALQFHPEVDVDLLEGWLADDREGISGKLGYNHDDLRLRTKELVDDAAVRVRELVRAFLDKVVRADPAS 7d55-a1-m1-cB_7d55-a1-m1-cD Crystal structure of lys170 CBD A0A2Z6FZW5 A0A2Z6FZW5 1.397 X-RAY DIFFRACTION 41 1.0 2218498 (Enterococcus phage phiM1EF22) 2218498 (Enterococcus phage phiM1EF22) 87 87 7d55-a1-m1-cA_7d55-a1-m1-cC 7d55-a1-m1-cA_7d55-a1-m1-cD 7d55-a1-m1-cB_7d55-a1-m1-cC MYCLYERPINSKTGVLEWNGDAWTVMFCNGVNCRRVSHPDEMKVIEDIYRKNNGKDIPFYSQKEWNKNAPWYNRLETVCPVVGITKK MYCLYERPINSKTGVLEWNGDAWTVMFCNGVNCRRVSHPDEMKVIEDIYRKNNGKDIPFYSQKEWNKNAPWYNRLETVCPVVGITKK 7d5k-a1-m1-cB_7d5k-a1-m1-cC CryoEM structure of cotton cellulose synthase isoform 7 L7NUA2 L7NUA2 3.5 ELECTRON MICROSCOPY 47 1.0 3635 (Gossypium hirsutum) 3635 (Gossypium hirsutum) 727 727 7d5k-a1-m1-cA_7d5k-a1-m1-cB 7d5k-a1-m1-cA_7d5k-a1-m1-cC ARQPLSRKVPIASSKINPYRMVIVARLLILAFFLRYRILNPVHDAIGLWLTSVICEIWFAFSWILDQFPKWFPIDRETYLDRLSLRYEREGEPNMLAPVDIFVSTVDPMKEPPLVTANTVLSILAMDYPVDKISCYISDDGASMLTFESLSETAEFARKWVPFCKKFAIEPRAPEMYFTLKVDYLKDKVQPTFVKERRAMKREYEEFKVRINALVAKAQKVPPEGWIMQDGTPWPGNNTKDHPGMIQVFLGQSGGHDTEGNELPRLVYVSREKRPGFLHHKKAGAMNALVRVSGVLTNAPFMLNLDCDHYINNSKAAREAMCFLMDPQIGRKVCYVQFPQRFDGIDRHDRYANRNTVFFDINMKGLDGIQGPVYVGTGCVFRRQALYGYEPPKGMSQMNFEKKFGQSAIFVTSTLMDQGGVPPSSSPAALLKEAIHVISCGYEDKTEWGSELGWIYGSITEDILTGFKMHCRGWRSIYCMPKLPAFKGSAPINLSDRLNQVLRWALGSVEIFFSRHCPAWYGLKGAKLRWLERFAYVNTTIYPFTSLPLLAYCTLPAICLLTDKFIMPPISTFASLFFIALFLSIFATGILELRWSGVSIEEWWRNEQFWVIGGISAHLFAVVQGLLKVLAGELYTFKWTTLLIPPTTVLIINLVGVVAGISDAINNGYQSWGPLFGKLFFSFWVIVHLYPFLKGLMGRQNRTPTIVVIWSVLLASIFSLLWVRIDP ARQPLSRKVPIASSKINPYRMVIVARLLILAFFLRYRILNPVHDAIGLWLTSVICEIWFAFSWILDQFPKWFPIDRETYLDRLSLRYEREGEPNMLAPVDIFVSTVDPMKEPPLVTANTVLSILAMDYPVDKISCYISDDGASMLTFESLSETAEFARKWVPFCKKFAIEPRAPEMYFTLKVDYLKDKVQPTFVKERRAMKREYEEFKVRINALVAKAQKVPPEGWIMQDGTPWPGNNTKDHPGMIQVFLGQSGGHDTEGNELPRLVYVSREKRPGFLHHKKAGAMNALVRVSGVLTNAPFMLNLDCDHYINNSKAAREAMCFLMDPQIGRKVCYVQFPQRFDGIDRHDRYANRNTVFFDINMKGLDGIQGPVYVGTGCVFRRQALYGYEPPKGMSQMNFEKKFGQSAIFVTSTLMDQGGVPPSSSPAALLKEAIHVISCGYEDKTEWGSELGWIYGSITEDILTGFKMHCRGWRSIYCMPKLPAFKGSAPINLSDRLNQVLRWALGSVEIFFSRHCPAWYGLKGAKLRWLERFAYVNTTIYPFTSLPLLAYCTLPAICLLTDKFIMPPISTFASLFFIALFLSIFATGILELRWSGVSIEEWWRNEQFWVIGGISAHLFAVVQGLLKVLAGELYTFKWTTLLIPPTTVLIINLVGVVAGISDAINNGYQSWGPLFGKLFFSFWVIVHLYPFLKGLMGRQNRTPTIVVIWSVLLASIFSLLWVRIDP 7d5l-a1-m1-cA_7d5l-a1-m1-cB Discovery of BMS-986144, a Third Generation, Pan Genotype NS3/4A Protease Inhibitor for the Treatment of Hepatitis C Virus Infection A0A0B4WYC6 A0A0B4WYC6 2.15 X-RAY DIFFRACTION 40 1.0 11103 () 11103 () 193 193 KGSVVIVGRINLSGDTAYAQQTRGEEGCQETSQTGRDKNQVEGEVQIVSTATQTFLATSINGVLWTVYHGAGTRTIASPKGPVTQMYTNVDKDLVGWQAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSSGGPLLCPAGHAVGIFRAAVCTRGVAKAVDFIPVESLETTMRS KGSVVIVGRINLSGDTAYAQQTRGEEGCQETSQTGRDKNQVEGEVQIVSTATQTFLATSINGVLWTVYHGAGTRTIASPKGPVTQMYTNVDKDLVGWQAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSSGGPLLCPAGHAVGIFRAAVCTRGVAKAVDFIPVESLETTMRS 7d5l-a1-m1-cA_7d5l-a1-m1-cE Discovery of BMS-986144, a Third Generation, Pan Genotype NS3/4A Protease Inhibitor for the Treatment of Hepatitis C Virus Infection A0A0B4WYC6 A0A0B4WYC6 2.15 X-RAY DIFFRACTION 17 1.0 11103 () 11103 () 193 193 7d5l-a1-m1-cB_7d5l-a1-m1-cD KGSVVIVGRINLSGDTAYAQQTRGEEGCQETSQTGRDKNQVEGEVQIVSTATQTFLATSINGVLWTVYHGAGTRTIASPKGPVTQMYTNVDKDLVGWQAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSSGGPLLCPAGHAVGIFRAAVCTRGVAKAVDFIPVESLETTMRS KGSVVIVGRINLSGDTAYAQQTRGEEGCQETSQTGRDKNQVEGEVQIVSTATQTFLATSINGVLWTVYHGAGTRTIASPKGPVTQMYTNVDKDLVGWQAPQGSRSLTPCTCGSSDLYLVTRHADVIPVRRRGDSRGSLLSPRPISYLKGSSGGPLLCPAGHAVGIFRAAVCTRGVAKAVDFIPVESLETTMRS 7d5m-a1-m1-cA_7d5m-a1-m4-cA Crystal structure of inositol dehydrogenase homolog complexed with NAD+ from Azotobacter vinelandii C1DLC3 C1DLC3 1.75 X-RAY DIFFRACTION 27 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 389 389 7d5m-a1-m2-cA_7d5m-a1-m3-cA 7d5n-a1-m1-cA_7d5n-a1-m2-cA 7d5n-a1-m1-cB_7d5n-a1-m2-cB MINGSKRIAQPIRWAMVGGGRNSQIGYIHRSAALRDQSFALVAGAFDIDPGRGREFGVQLGVDPQRCYPDYRTLFEQEARRPDGIQAVSVATPNGTHFAITRAALEAGLHVVCEKPLCFTLEEAETLREIALANNRVVGVTYGYAGHQLIEQARAMIADGELGEIRMVHMQFAHGFHSAPVEGQNEATKWRVDPRLAGPSYVLGDVGTHPLYLSEVMLPEFRIKRLMCSRQSFVKSRAPLEDNAYTLMEYEGGAMGLVWSSAVNAGSMHGQKIRVIGSRASLEWWDEHPNQLAFEIQGQPVQVLERGMGYLHPGALLDDRIGAGHPEGLFEAWSNLYYRFAMAMDATERGDGALLAGLRYPDIHAGVEGVRWVERCVQSADRGGVWVDY MINGSKRIAQPIRWAMVGGGRNSQIGYIHRSAALRDQSFALVAGAFDIDPGRGREFGVQLGVDPQRCYPDYRTLFEQEARRPDGIQAVSVATPNGTHFAITRAALEAGLHVVCEKPLCFTLEEAETLREIALANNRVVGVTYGYAGHQLIEQARAMIADGELGEIRMVHMQFAHGFHSAPVEGQNEATKWRVDPRLAGPSYVLGDVGTHPLYLSEVMLPEFRIKRLMCSRQSFVKSRAPLEDNAYTLMEYEGGAMGLVWSSAVNAGSMHGQKIRVIGSRASLEWWDEHPNQLAFEIQGQPVQVLERGMGYLHPGALLDDRIGAGHPEGLFEAWSNLYYRFAMAMDATERGDGALLAGLRYPDIHAGVEGVRWVERCVQSADRGGVWVDY 7d5m-a1-m2-cA_7d5m-a1-m4-cA Crystal structure of inositol dehydrogenase homolog complexed with NAD+ from Azotobacter vinelandii C1DLC3 C1DLC3 1.75 X-RAY DIFFRACTION 107 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 389 389 7d5m-a1-m1-cA_7d5m-a1-m3-cA 7d5n-a1-m1-cA_7d5n-a1-m2-cB 7d5n-a1-m2-cA_7d5n-a1-m1-cB MINGSKRIAQPIRWAMVGGGRNSQIGYIHRSAALRDQSFALVAGAFDIDPGRGREFGVQLGVDPQRCYPDYRTLFEQEARRPDGIQAVSVATPNGTHFAITRAALEAGLHVVCEKPLCFTLEEAETLREIALANNRVVGVTYGYAGHQLIEQARAMIADGELGEIRMVHMQFAHGFHSAPVEGQNEATKWRVDPRLAGPSYVLGDVGTHPLYLSEVMLPEFRIKRLMCSRQSFVKSRAPLEDNAYTLMEYEGGAMGLVWSSAVNAGSMHGQKIRVIGSRASLEWWDEHPNQLAFEIQGQPVQVLERGMGYLHPGALLDDRIGAGHPEGLFEAWSNLYYRFAMAMDATERGDGALLAGLRYPDIHAGVEGVRWVERCVQSADRGGVWVDY MINGSKRIAQPIRWAMVGGGRNSQIGYIHRSAALRDQSFALVAGAFDIDPGRGREFGVQLGVDPQRCYPDYRTLFEQEARRPDGIQAVSVATPNGTHFAITRAALEAGLHVVCEKPLCFTLEEAETLREIALANNRVVGVTYGYAGHQLIEQARAMIADGELGEIRMVHMQFAHGFHSAPVEGQNEATKWRVDPRLAGPSYVLGDVGTHPLYLSEVMLPEFRIKRLMCSRQSFVKSRAPLEDNAYTLMEYEGGAMGLVWSSAVNAGSMHGQKIRVIGSRASLEWWDEHPNQLAFEIQGQPVQVLERGMGYLHPGALLDDRIGAGHPEGLFEAWSNLYYRFAMAMDATERGDGALLAGLRYPDIHAGVEGVRWVERCVQSADRGGVWVDY 7d5m-a1-m3-cA_7d5m-a1-m4-cA Crystal structure of inositol dehydrogenase homolog complexed with NAD+ from Azotobacter vinelandii C1DLC3 C1DLC3 1.75 X-RAY DIFFRACTION 115 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 389 389 7d5m-a1-m1-cA_7d5m-a1-m2-cA 7d5n-a1-m1-cA_7d5n-a1-m1-cB 7d5n-a1-m2-cA_7d5n-a1-m2-cB MINGSKRIAQPIRWAMVGGGRNSQIGYIHRSAALRDQSFALVAGAFDIDPGRGREFGVQLGVDPQRCYPDYRTLFEQEARRPDGIQAVSVATPNGTHFAITRAALEAGLHVVCEKPLCFTLEEAETLREIALANNRVVGVTYGYAGHQLIEQARAMIADGELGEIRMVHMQFAHGFHSAPVEGQNEATKWRVDPRLAGPSYVLGDVGTHPLYLSEVMLPEFRIKRLMCSRQSFVKSRAPLEDNAYTLMEYEGGAMGLVWSSAVNAGSMHGQKIRVIGSRASLEWWDEHPNQLAFEIQGQPVQVLERGMGYLHPGALLDDRIGAGHPEGLFEAWSNLYYRFAMAMDATERGDGALLAGLRYPDIHAGVEGVRWVERCVQSADRGGVWVDY MINGSKRIAQPIRWAMVGGGRNSQIGYIHRSAALRDQSFALVAGAFDIDPGRGREFGVQLGVDPQRCYPDYRTLFEQEARRPDGIQAVSVATPNGTHFAITRAALEAGLHVVCEKPLCFTLEEAETLREIALANNRVVGVTYGYAGHQLIEQARAMIADGELGEIRMVHMQFAHGFHSAPVEGQNEATKWRVDPRLAGPSYVLGDVGTHPLYLSEVMLPEFRIKRLMCSRQSFVKSRAPLEDNAYTLMEYEGGAMGLVWSSAVNAGSMHGQKIRVIGSRASLEWWDEHPNQLAFEIQGQPVQVLERGMGYLHPGALLDDRIGAGHPEGLFEAWSNLYYRFAMAMDATERGDGALLAGLRYPDIHAGVEGVRWVERCVQSADRGGVWVDY 7d5v-a1-m1-cA_7d5v-a1-m1-cB Structure of the C646A mutant of peptidylarginine deiminase type III (PAD3) Q9ULW8 Q9ULW8 2.102 X-RAY DIFFRACTION 176 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 620 620 6ce1-a1-m1-cA_6ce1-a1-m2-cA 7d4y-a1-m1-cA_7d4y-a1-m1-cB SLQRIVRVSLEHPTSAVCVAGVETLVDIYGSVPEGTEMFEVYGTPGVDIYISPNMERGRERADTRRWRFDATLEIIVVMNSPSNDLNDSHVQISYHSSHEPLPLAYAVLYLTCVDISLDCDLNCEGRQDRNFVDKRQWVWGPSGYGGILLVNCDRDLQDLEDMSVMVLRTQGPAALFDDHKLVLHTSSYDAKRAQVFHICGPEDVCEAYRHVLGQDKVSYEVPRLHGDEERFFVEGLSFPDAGFTGLISFHVTLLDDSNEDFSASPIFTDTVVFRVAPWIMTPSTLPPLEVYVCRVRNNTCFVDAVAELARKAGCKLTICPWIQDEMELGYVQAPHKTLPVVFDSPRLQDFPYKRILGPDFGYVTREPRDLDSFGNLEVSPPVVANGKEYPLGRILIGGNLPGSSGRRVTQVVRDFLHAQKVQPPVELFVDWLAVGHVDEFLSFVPAPDGKGFRMLLASPGACFKLFQEKQKCGHGRALLFQGVVDDEQVKTISINQVLSNKDLINYNKFVQSCIDWNREVLKRELGLAECDIIDIPQLFKTERKKATAFFPDLVNMLVLGKHLGIPKPFGPIINGCCCLEEKVRSLLEPLGLHCTFIDDFAGTNVCRKPFSFKWWNMVP SLQRIVRVSLEHPTSAVCVAGVETLVDIYGSVPEGTEMFEVYGTPGVDIYISPNMERGRERADTRRWRFDATLEIIVVMNSPSNDLNDSHVQISYHSSHEPLPLAYAVLYLTCVDISLDCDLNCEGRQDRNFVDKRQWVWGPSGYGGILLVNCDRDLQDLEDMSVMVLRTQGPAALFDDHKLVLHTSSYDAKRAQVFHICGPEDVCEAYRHVLGQDKVSYEVPRLHGDEERFFVEGLSFPDAGFTGLISFHVTLLDDSNEDFSASPIFTDTVVFRVAPWIMTPSTLPPLEVYVCRVRNNTCFVDAVAELARKAGCKLTICPWIQDEMELGYVQAPHKTLPVVFDSPRLQDFPYKRILGPDFGYVTREPRDLDSFGNLEVSPPVVANGKEYPLGRILIGGNLPGSSGRRVTQVVRDFLHAQKVQPPVELFVDWLAVGHVDEFLSFVPAPDGKGFRMLLASPGACFKLFQEKQKCGHGRALLFQGVVDDEQVKTISINQVLSNKDLINYNKFVQSCIDWNREVLKRELGLAECDIIDIPQLFKTERKKATAFFPDLVNMLVLGKHLGIPKPFGPIINGCCCLEEKVRSLLEPLGLHCTFIDDFAGTNVCRKPFSFKWWNMVP 7d62-a1-m1-cB_7d62-a1-m1-cA pGpG-specific phosphodiesterase - PggH from Vibrio cholrae Q9KLZ6 Q9KLZ6 1.9 X-RAY DIFFRACTION 92 0.983 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 293 294 SLKYRLVTRSDFDGLVCAVLLKSIELIDDIQFVHPKDMQDGKVPITERDIITNLPYVANAHLVFDHHHIINPNAPSAARVVWEHYGGTKTFPFEWVEMMEAVDKSAQFTRDEVLDSTGWNLLNFLMDARTGLGRFHNFRISNYNLMMALIDHCTHASIDEILQLPDVKERVELYRKHETLFKEQIQRCGKVYQNLVLLDLTEEETIYAGNRFIIYALYPQCNISIHKMWGFQKQNIVFATGKSIFDRSSRTNIGELMLKYGGGGHAAAGTCQIAIEDADRVEKALITQINADG KYRLVTRSDFDGLVCAVLLKSIELIDDIQFVHPKDMQDGKVPITERDIITNLPYVANAHLVFDHHHRPNHIINPNAPSAARVVWEHYGGTKTFPFEWVEMMEAVDKGDSAQFTRDEVLDSTGWNLLNFLMDARTGLGNFRISNYNLMMALIDHCTHASIDEILQLPDVKERVELYRKHETLFKEQIQRCGKVYQNLVLLDLTEEETIYAGNRFIIYALYPQCNISIHKMWGFQKQNIVFATGKSIFDRSSRTNIGELMLKYGGGGHAAAGTCQIAIEDADRVEKALITQINADG 7d65-a1-m1-cJ_7d65-a1-m1-cK Cryo-EM Structure of human CALHM5 in the presence of Ca2+ Q8N5C1 Q8N5C1 2.94 ELECTRON MICROSCOPY 143 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 288 288 7d60-a1-m1-cA_7d60-a1-m1-cB 7d60-a1-m1-cA_7d60-a1-m1-cK 7d60-a1-m1-cB_7d60-a1-m1-cC 7d60-a1-m1-cC_7d60-a1-m1-cD 7d60-a1-m1-cD_7d60-a1-m1-cE 7d60-a1-m1-cE_7d60-a1-m1-cF 7d60-a1-m1-cF_7d60-a1-m1-cG 7d60-a1-m1-cG_7d60-a1-m1-cH 7d60-a1-m1-cH_7d60-a1-m1-cI 7d60-a1-m1-cI_7d60-a1-m1-cJ 7d60-a1-m1-cJ_7d60-a1-m1-cK 7d61-a1-m1-cA_7d61-a1-m1-cB 7d61-a1-m1-cA_7d61-a1-m1-cK 7d61-a1-m1-cB_7d61-a1-m1-cC 7d61-a1-m1-cC_7d61-a1-m1-cD 7d61-a1-m1-cD_7d61-a1-m1-cE 7d61-a1-m1-cE_7d61-a1-m1-cF 7d61-a1-m1-cF_7d61-a1-m1-cG 7d61-a1-m1-cG_7d61-a1-m1-cH 7d61-a1-m1-cH_7d61-a1-m1-cI 7d61-a1-m1-cI_7d61-a1-m1-cJ 7d61-a1-m1-cJ_7d61-a1-m1-cK 7d65-a1-m1-cA_7d65-a1-m1-cB 7d65-a1-m1-cA_7d65-a1-m1-cK 7d65-a1-m1-cB_7d65-a1-m1-cC 7d65-a1-m1-cC_7d65-a1-m1-cD 7d65-a1-m1-cD_7d65-a1-m1-cE 7d65-a1-m1-cE_7d65-a1-m1-cF 7d65-a1-m1-cF_7d65-a1-m1-cG 7d65-a1-m1-cG_7d65-a1-m1-cH 7d65-a1-m1-cH_7d65-a1-m1-cI 7d65-a1-m1-cI_7d65-a1-m1-cJ MDAFQGILKFFLNQKTVIGYSFMALLTVGSERLFSVVAFKCPCSTENMTYGLVFLFAPAWVLLILGFFLNNRSWRLFTGCCVNPRKIFPRGHSCRFFYVLGQITLSSLVAPVMWLSVALLNGTFYECAMSGTRSSGLLELICKGKPKECWEELHKVSCGKTSMLPTVNEELKLSLQAQSQILGWCLICSASFFSLLTTCYARCRSKVSYLQLSFWKTYAQKEKEQLENTFLDYANKLSERNLKCFFENKRPDPFPMPTFAAWEAASELHSFHQSQQHYSTLHRVVDNG MDAFQGILKFFLNQKTVIGYSFMALLTVGSERLFSVVAFKCPCSTENMTYGLVFLFAPAWVLLILGFFLNNRSWRLFTGCCVNPRKIFPRGHSCRFFYVLGQITLSSLVAPVMWLSVALLNGTFYECAMSGTRSSGLLELICKGKPKECWEELHKVSCGKTSMLPTVNEELKLSLQAQSQILGWCLICSASFFSLLTTCYARCRSKVSYLQLSFWKTYAQKEKEQLENTFLDYANKLSERNLKCFFENKRPDPFPMPTFAAWEAASELHSFHQSQQHYSTLHRVVDNG 7d66-a1-m1-cE_7d66-a1-m1-cF Crystal structure of retroviral protease-like domain of Ddi1 from Toxoplasma gondii S7W9N7 S7W9N7 2.126 X-RAY DIFFRACTION 67 1.0 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 110 121 7d66-a1-m1-cB_7d66-a1-m1-cA 7d66-a1-m1-cD_7d66-a1-m1-cC 7d66-a2-m1-cJ_7d66-a2-m1-cI 7d66-a2-m1-cK_7d66-a2-m1-cL VYMLFIDIEVNGVPIKAFVDSGAQSTFMSYACAQKCSLLRLMDTRIVGKIHLATLKIGQRFFPSSFTVLQDNKVEFLFGLDLLRRYQCCIDLKKSVLRIDNEEIPFLDIT VYMLFIDIEVNGVPIKAFVDSGAQSTFMSYACAQKCSLLRLMDTRRGVVGKTEIVGKIHLATLKIGQRFFPSSFTVLQDNKVEFLFGLDLLRRYQCCIDLKKSVLRIDNEEIPFLSEKDIT 7d66-a2-m1-cH_7d66-a2-m1-cK Crystal structure of retroviral protease-like domain of Ddi1 from Toxoplasma gondii S7W9N7 S7W9N7 2.126 X-RAY DIFFRACTION 15 0.992 507601 (Toxoplasma gondii GT1) 507601 (Toxoplasma gondii GT1) 119 123 7d66-a1-m1-cB_7d66-a1-m1-cF 7d66-a1-m1-cE_7d66-a1-m1-cD YMLFIDIEVNGVPIKAFVDSGAQSTFMSYACAQKCSLLRLMDTRYGVAKTEIVGKIHLATLKIGQRFFPSSFTVLQDNKVEFLFGLDLLRRYQCCIDLKKSVLRIDNEEIPFLSEKDIT VYMLFIDIEVNGVPIKAFVDSGAQSTFMSYACAQKCSLLRLMDTRYRGVAQVGTEIVGKIHLATLKIGQRFFPSSFTVLQDNKVEFLFGLDLLRRYQCCIDLKKSVLRIDNEEIPFLSEKDIT 7d69-a1-m1-cA_7d69-a1-m1-cE Cryo-EM structure of the nucleosome containing Giardia histones E2RU29 E2RU29 3.57 ELECTRON MICROSCOPY 42 1.0 5741 (Giardia intestinalis) 5741 (Giardia intestinalis) 90 99 EIKKYQKSTDLLIRKLPFSKLVRDIVTSGLSKSDIRFQGAAVEALQESAENYIISLFVDTQLCAEHAKRVTIMKPDMELATRIGKRIEPE KQGMVAVKEIKKYQKSTDLLIRKLPFSKLVRDIVTSGLSKSDIRFQGAAVEALQESAENYIISLFVDTQLCAEHAKRVTIMKPDMELATRIGKRIEPEY 7d6c-a2-m1-c3_7d6c-a2-m1-c5 Crystal structure of CcmM N-terminal domain in complex with CcmN P46204 P46204 2.89 X-RAY DIFFRACTION 106 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 106 121 7d6c-a1-m1-c4_7d6c-a1-m1-cF SDRYFASGEVTIAADVVIAPGVLLIAEADSRIEIASGVCIGLGSVIHARGGAIIIQAGALLAAGVLIVGQSIVGRQACLGASTTLVNTSIEAGGVTAPGSLLSAET QSNMHLPPLEPPISDRYFASGEVTIAADVVIAPGVLLIAEADSRIEIASGVCIGLGSVIHARGGAIIIQAGALLAAGVLIVGQSIVGRQACLGASTTLVNTSIEAGGVTAPGSLLSAETPP 7d6e-a1-m1-cQ_7d6e-a1-m1-cR Structural insights into membrane remodeling by SNX1 Q9WV80 Q9WV80 10.0 ELECTRON MICROSCOPY 82 1.0 10090 (Mus musculus) 10090 (Mus musculus) 380 380 7d6d-a1-m1-cA_7d6d-a1-m1-cB 7d6d-a1-m1-cC_7d6d-a1-m1-cD 7d6d-a1-m1-cE_7d6d-a1-m1-cF 7d6d-a1-m1-cG_7d6d-a1-m1-cH 7d6d-a1-m1-cI_7d6d-a1-m1-cJ 7d6d-a1-m1-cK_7d6d-a1-m1-cL 7d6d-a1-m1-cM_7d6d-a1-m1-cN 7d6d-a1-m1-cO_7d6d-a1-m1-cP 7d6e-a1-m1-cA_7d6e-a1-m1-cB 7d6e-a1-m1-cC_7d6e-a1-m1-cD 7d6e-a1-m1-cE_7d6e-a1-m1-cF 7d6e-a1-m1-cG_7d6e-a1-m1-cH 7d6e-a1-m1-cI_7d6e-a1-m1-cJ 7d6e-a1-m1-cK_7d6e-a1-m1-cL 7d6e-a1-m1-cM_7d6e-a1-m1-cN 7d6e-a1-m1-cO_7d6e-a1-m1-cP FDLTVGITDPEKIGDGMNAYVAYKVTTQTSLPMFRSRQFAVKRRFSDFLGLYEKLSEKHSQNGFIVPPPPEKSLIGMTKVKVGKEDSSSAEFLEKRRAALERYLQRIVNHPTMLQDPDVREFLEKEELPRAVGTQALSGAGLLKMFNKATDAVSKMTIKMNESDIWFEEKLQEVECEEQRLRKLHAVVETLVNHRKELALNTALFAKSLAMLGSSEDNTALSRALSQLAEVEEKIEQLHQEQANNDFFLLAELLSDYIRLLAIVRAAFDQRMKTWQRWQDAQATLQKKRESEARLLWANKPDKLQQAKDEITEWESRVTQYERDFERISTVVRKEVTRFEKEKSKDFKNHVMKYLETLLHSQQQLAKYWEAFLPEAKAIS FDLTVGITDPEKIGDGMNAYVAYKVTTQTSLPMFRSRQFAVKRRFSDFLGLYEKLSEKHSQNGFIVPPPPEKSLIGMTKVKVGKEDSSSAEFLEKRRAALERYLQRIVNHPTMLQDPDVREFLEKEELPRAVGTQALSGAGLLKMFNKATDAVSKMTIKMNESDIWFEEKLQEVECEEQRLRKLHAVVETLVNHRKELALNTALFAKSLAMLGSSEDNTALSRALSQLAEVEEKIEQLHQEQANNDFFLLAELLSDYIRLLAIVRAAFDQRMKTWQRWQDAQATLQKKRESEARLLWANKPDKLQQAKDEITEWESRVTQYERDFERISTVVRKEVTRFEKEKSKDFKNHVMKYLETLLHSQQQLAKYWEAFLPEAKAIS 7d6n-a1-m1-cF_7d6n-a1-m1-cG Crystal structure of tick-borne encephalitis virus RNA-dependent RNA polymerase K4P8A2 K4P8A2 3.168 X-RAY DIFFRACTION 91 0.995 11084 (Tick-borne encephalitis virus) 11084 (Tick-borne encephalitis virus) 583 584 7d6n-a1-m1-cA_7d6n-a1-m1-cE 7d6n-a1-m1-cB_7d6n-a1-m1-cA 7d6n-a1-m1-cB_7d6n-a1-m1-cC 7d6n-a1-m1-cC_7d6n-a1-m1-cD 7d6n-a1-m1-cE_7d6n-a1-m1-cD 7d6n-a1-m1-cG_7d6n-a1-m1-cH 7d6n-a1-m1-cI_7d6n-a1-m1-cH 7d6n-a1-m1-cJ_7d6n-a1-m1-cF 7d6n-a1-m1-cJ_7d6n-a1-m1-cI KVKEKDVQERISALREQYGETWHMDREHPYRTWQYWGSYRTAPTGSAASLINGVVKLLSWPWNAREDVVRMAMTDTTAFGQQRVFKEKVDTKAQEPQPGTKVIMRAVNDWILERLARKSKPRMCSREEFIAKVKSQNSAKEAVEDPAFWQLVDEERERHLAGRCAHCVYNMMWYMWLGSRFLEFEALGFLNEDHWASRGSSGSGVEGISLNYLGWYLKGLSTLEGGLFYADDTAGWDTKVTNADLEDEEQLLRYMEGEHKQLAATIMQKAYHAKVVKVARPSRDGGCVMDVITRRDQRGSGQVVTYALNTLTNIKVQLIRMMEGEGVIEASDAHNPRLLRVERWLRDHGEERLGRMLVSGDDCVVRPVDDRFSRALYFLNDMAKTRKDIGEWEHSVGFSNWEEVPFCSHHFHELVMKDGRALIVPCRDQDELVGRARVSPGCGWSVRETACLSKAYGQMWLLSYFHRRDLRTLGLAICSAVPIDWVPTGRTTWSIHASGAWMTTEDMLDVWNRVWILDNPFMHSKEKIVEWRDVPYLPKSHDMLCSLVRKERAEWAKNIWGAVEKVRKMIGQEKFKDYLSCMD KVKEKDVQERISALREQYGETWHMDREHPYRTWQYWGSYRTAPTGSAASLINGVVKLLSWPWNAREDVVRMAMTDTTAFGQQRVFKEKVDTKAQEPQPGTKVIMRAVNDWILERLARKSKPRMCSREEFIAKVKSQNSAKEAVEDPAFWQLVDEERERHLAGRCAHCVYNMMYMWLGSRFLEFEALGFLNEDHWASRGSSGSGVEGISLNYLGWYLKGLSTLEGGLFYADDTAGWDTKVTNADLEDEEQLLRYMEGEHKQLAATIMQKAYHAKVVKVARPSRDGGCVMDVITRRDQRGSGQVVTYALNTLTNIKVQLIRMMEGEGVIEASDAHNPRLLRVERWLRDHGEERLGRMLVSGDDCVVRPVDDRFSRALYFLNDMAKTRKDIGEWEHSVGFSNWEEVPFCSHHFHELVMKDGRALIVPCRDQDELVGRARVSPGCGWSVRETACLSKAYGQMWLLSYFHRRDLRTLGLAICSAVPIDWVPTGRTTWSIHASGAWMTTEDMLDVWNRVWILDNPFMHSKEKIVEWRDVPYLPKSHDMLCSSLVGRKERAEWAKNIWGAVEKVRKMIGQEKFKDYLSCMD 7d6n-a1-m1-cJ_7d6n-a1-m1-cB Crystal structure of tick-borne encephalitis virus RNA-dependent RNA polymerase K4P8A2 K4P8A2 3.168 X-RAY DIFFRACTION 20 0.995 11084 (Tick-borne encephalitis virus) 11084 (Tick-borne encephalitis virus) 582 584 7d6n-a1-m1-cC_7d6n-a1-m1-cI 7d6n-a1-m1-cF_7d6n-a1-m1-cA 7d6n-a1-m1-cG_7d6n-a1-m1-cE 7d6n-a1-m1-cH_7d6n-a1-m1-cD KVKEKDVQERISALREQYGETWHMDREHPYRTWQYWGSYRTAPTGSAASLINGVVKLLSWPWNAREDVVRMAMTDTTAFGQQRVFKEKVDTKAQEPQPGTKVIMRAVNDWILERLARKSKPRMCSREEFIAKVKSSAKEAVEDPAFWQLVDEERERHLAGRCAHCVYNMMYMWLGSRFLEFEALGFLNEDHWASRGSSGSGVEGISLNYLGWYLKGLSTLEGGLFYADDTAGWDTKVTNADLEDEEQLLRYMEGEHKQLAATIMQKAYHAKVVKVARPSRDGGCVMDVITRRDQRGSGQVVTYALNTLTNIKVQLIRMMEGEGVIEASDAHNPRLLRVERWLRDHGEERLGRMLVSGDDCVVRPVDDRFSRALYFLNDMAKTRKDIGEWEHSVGFSNWEEVPFCSHHFHELVMKDGRALIVPCRDQDELVGRARVSPGCGWSVRETACLSKAYGQMWLLSYFHRRDLRTLGLAICSAVPIDWVPTGRTTWSIHASGAWMTTEDMLDVWNRVWILDNPFMHSKEKIVEWRDVPYLPKSHDMLCSSLVGRKERAEWAKNIWGAVEKVRKMIGQEKFKDYLSCMD DKVKEKDVQERISALREQYGETWHMDREHPYRTWQYWGSYRTAPTGSAASLINGVVKLLSWPWNAREDVVRMAMTDTTAFGQQRVFKEKVDTKAQEPQPGTKVIMRAVNDWILERLARKSKPRMCSREEFIAKVKSNQNRSAKEAVEDPAFWQLVDEERERHLAGRCAHCVYNMMYMWLGSRFLEFEALGFLNEDHWASRGSSGSGVEGISLNYLGWYLKGLSTLEGGLFYADDTAGWDTKVTNADLEDEEQLLRYMEGEHKQLAATIMQKAYHAKVVKVARPSRDGGCVMDVITRRDQRGSGQVVTYALNTLTNIKVQLIRMMEGEGVIEASDAHNPRLLRVERWLRDHGEERLGRMLVSGDDCVVRPVDDRFSRALYFLNDMAKTRKDIGEWEHSVGFSNWEEVPFCSHHFHELVMKDGRALIVPCRDQDELVGRARVSPGWSVRETACLSKAYGQMWLLSYFHRRDLRTLGLAICSAVPIDWVPTGRTTWSIHASGAWMTTEDMLDVWNRVWILDNPFMHSKEKIVEWRDVPYLPKSHDMLCSSLVGRKERAEWAKNIWGAVEKVRKMIGQEKFKDYLSCM 7d6w-a1-m1-cH_7d6w-a1-m1-cL Crystal structure of Phycocyanin from Synechococcus sp. R42DM P06539 P06539 2.15 X-RAY DIFFRACTION 10 1.0 1980980 (Synechococcus sp. R42DM) 1980980 (Synechococcus sp. R42DM) 171 171 4h0m-a1-m1-cB_4h0m-a1-m1-cF TFDAFTKVVAQADARGEFLSDAQLDALSRLVAEGNKRIDTVNRITGNASSIVANAARALFAEQPSLIAPGGAYTNRRMAACLRDMEIILRYVTYAVFTGDASILDDRCLNGLRETYLALGVPGASVAEGVRKMKDAAVAIVSDRNGITQGDCSAIISELGSYFDKAAAAVA TFDAFTKVVAQADARGEFLSDAQLDALSRLVAEGNKRIDTVNRITGNASSIVANAARALFAEQPSLIAPGGAYTNRRMAACLRDMEIILRYVTYAVFTGDASILDDRCLNGLRETYLALGVPGASVAEGVRKMKDAAVAIVSDRNGITQGDCSAIISELGSYFDKAAAAVA 7d72-a1-m1-cE_7d72-a1-m1-cG Cryo-EM structures of human GMPPA/GMPPB complex bound to GDP-Mannose Q9Y5P6 Q9Y5P6 3.4 ELECTRON MICROSCOPY 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 360 360 7d72-a1-m1-cJ_7d72-a1-m1-cL 7d73-a1-m1-cE_7d73-a1-m1-cG 7d73-a1-m1-cJ_7d73-a1-m1-cL 7d74-a1-m1-cG_7d74-a1-m1-cE 7d74-a1-m1-cJ_7d74-a1-m1-cL MKALILVGGYGTRLRPLTLSTPKPLVDFCNKPILLHQVEALAAAGVDHVILAVSYMSQVLEKEMKAQEQRLGIRISMSHEEEPLGTAGPLALARDLLSETADPFFVLNSDVICDFPFQAMVQFHRHHGQEGSILVTKVEEPSKYGVVVCEADTGRIHRFVEKPQVFVSNKINAGMYILSPAVLQRIQLQPTSIEKEVFPIMAKEGQLYAMELQGFWMDIGQPKDFLTGMCLFLQSLRQKQPERLCSGPGIVGNVLVDPSARIGQNCSIGPNVSLGPGVVVEDGVCIRRCTVLRDARIRSHSWLESCIVGWRCRVGQWVRMENVTVLGEDVIVNDELYLNGASVLPHKSIGESVPEPRIIM MKALILVGGYGTRLRPLTLSTPKPLVDFCNKPILLHQVEALAAAGVDHVILAVSYMSQVLEKEMKAQEQRLGIRISMSHEEEPLGTAGPLALARDLLSETADPFFVLNSDVICDFPFQAMVQFHRHHGQEGSILVTKVEEPSKYGVVVCEADTGRIHRFVEKPQVFVSNKINAGMYILSPAVLQRIQLQPTSIEKEVFPIMAKEGQLYAMELQGFWMDIGQPKDFLTGMCLFLQSLRQKQPERLCSGPGIVGNVLVDPSARIGQNCSIGPNVSLGPGVVVEDGVCIRRCTVLRDARIRSHSWLESCIVGWRCRVGQWVRMENVTVLGEDVIVNDELYLNGASVLPHKSIGESVPEPRIIM 7d73-a1-m1-cC_7d73-a1-m1-cD Cryo-EM structure of GMPPA/GMPPB complex bound to GTP (State I) Q96IJ6 Q96IJ6 3.0 ELECTRON MICROSCOPY 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 406 406 7d72-a1-m1-cB_7d72-a1-m1-cA 7d72-a1-m1-cC_7d72-a1-m1-cD 7d73-a1-m1-cB_7d73-a1-m1-cA 7d74-a1-m1-cA_7d74-a1-m1-cB 7d74-a1-m1-cC_7d74-a1-m1-cD MLKAVILIGGPQKGTRFRPLSFEVPKPLFPVAGVPMIQHHIEACAQVPGMQEILLIGFYQPDEPLTQFLEAAQQEFNLPVRYLQEFAPLGTGGGLYHFRDQILAGSPEAFFVLNADVCSDFPLSAMLEAHRRQRHPFLLLGTTANRTQSLNYGCIVENPQTHEVLHYVEKPSTFISDIINCGIYLFSPEALKPLRDVFQRNQQGTIRLEQDVFSALAGQGQIYVHLTDGIWSQIKSAGSALYASRLYLSRYQDTHPERLAKHTPGGPWIRGNVYIHPTAKVAPSAVLGPNVSIGKGVTVGEGVRLRESIVLHGATLQEHTCVLHSIVGWGSTVGRWARVEGTPSDPNPNDPRARMDSESLFKDGKLLPAITILGCRVRIPAEVLILNSIVLPHKELSRSFTNQIIL MLKAVILIGGPQKGTRFRPLSFEVPKPLFPVAGVPMIQHHIEACAQVPGMQEILLIGFYQPDEPLTQFLEAAQQEFNLPVRYLQEFAPLGTGGGLYHFRDQILAGSPEAFFVLNADVCSDFPLSAMLEAHRRQRHPFLLLGTTANRTQSLNYGCIVENPQTHEVLHYVEKPSTFISDIINCGIYLFSPEALKPLRDVFQRNQQGTIRLEQDVFSALAGQGQIYVHLTDGIWSQIKSAGSALYASRLYLSRYQDTHPERLAKHTPGGPWIRGNVYIHPTAKVAPSAVLGPNVSIGKGVTVGEGVRLRESIVLHGATLQEHTCVLHSIVGWGSTVGRWARVEGTPSDPNPNDPRARMDSESLFKDGKLLPAITILGCRVRIPAEVLILNSIVLPHKELSRSFTNQIIL 7d73-a1-m1-cD_7d73-a1-m1-cA Cryo-EM structure of GMPPA/GMPPB complex bound to GTP (State I) Q96IJ6 Q96IJ6 3.0 ELECTRON MICROSCOPY 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 406 407 7d72-a1-m1-cB_7d72-a1-m1-cC 7d72-a1-m1-cD_7d72-a1-m1-cA 7d73-a1-m1-cB_7d73-a1-m1-cC 7d74-a1-m1-cA_7d74-a1-m1-cD 7d74-a1-m1-cB_7d74-a1-m1-cC MLKAVILIGGPQKGTRFRPLSFEVPKPLFPVAGVPMIQHHIEACAQVPGMQEILLIGFYQPDEPLTQFLEAAQQEFNLPVRYLQEFAPLGTGGGLYHFRDQILAGSPEAFFVLNADVCSDFPLSAMLEAHRRQRHPFLLLGTTANRTQSLNYGCIVENPQTHEVLHYVEKPSTFISDIINCGIYLFSPEALKPLRDVFQRNQQGTIRLEQDVFSALAGQGQIYVHLTDGIWSQIKSAGSALYASRLYLSRYQDTHPERLAKHTPGGPWIRGNVYIHPTAKVAPSAVLGPNVSIGKGVTVGEGVRLRESIVLHGATLQEHTCVLHSIVGWGSTVGRWARVEGTPSDPNPNDPRARMDSESLFKDGKLLPAITILGCRVRIPAEVLILNSIVLPHKELSRSFTNQIIL MLKAVILIGGPQKGTRFRPLSFEVPKPLFPVAGVPMIQHHIEACAQVPGMQEILLIGFYQPDEPLTQFLEAAQQEFNLPVRYLQEFAPLGTGGGLYHFRDQILAGSPEAFFVLNADVCSDFPLSAMLEAHRRQRHPFLLLGTTANRTQSLNYGCIVENPQTHEVLHYVEKPSTFISDIINCGIYLFSPEALKPLRDVFQRNQQAGTIRLEQDVFSALAGQGQIYVHLTDGIWSQIKSAGSALYASRLYLSRYQDTHPERLAKHTPGGPWIRGNVYIHPTAKVAPSAVLGPNVSIGKGVTVGEGVRLRESIVLHGATLQEHTCVLHSIVGWGSTVGRWARVEGTPSDPNPNDPRARMDSESLFKDGKLLPAITILGCRVRIPAEVLILNSIVLPHKELSRSFTNQIIL 7d74-a1-m1-cK_7d74-a1-m1-cL Cryo-EM structure of GMPPA/GMPPB complex bound to GTP (state II) Q9Y5P6 Q9Y5P6 3.1 ELECTRON MICROSCOPY 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 360 360 7d72-a1-m1-cE_7d72-a1-m1-cF 7d72-a1-m1-cG_7d72-a1-m1-cH 7d72-a1-m1-cI_7d72-a1-m1-cJ 7d72-a1-m1-cK_7d72-a1-m1-cL 7d73-a1-m1-cF_7d73-a1-m1-cE 7d73-a1-m1-cG_7d73-a1-m1-cH 7d73-a1-m1-cI_7d73-a1-m1-cJ 7d73-a1-m1-cK_7d73-a1-m1-cL 7d74-a1-m1-cE_7d74-a1-m1-cF 7d74-a1-m1-cG_7d74-a1-m1-cH 7d74-a1-m1-cI_7d74-a1-m1-cJ MKALILVGGYGTRLRPLTLSTPKPLVDFCNKPILLHQVEALAAAGVDHVILAVSYMSQVLEKEMKAQEQRLGIRISMSHEEEPLGTAGPLALARDLLSETADPFFVLNSDVICDFPFQAMVQFHRHHGQEGSILVTKVEEPSKYGVVVCEADTGRIHRFVEKPQVFVSNKINAGMYILSPAVLQRIQLQPTSIEKEVFPIMAKEGQLYAMELQGFWMDIGQPKDFLTGMCLFLQSLRQKQPERLCSGPGIVGNVLVDPSARIGQNCSIGPNVSLGPGVVVEDGVCIRRCTVLRDARIRSHSWLESCIVGWRCRVGQWVRMENVTVLGEDVIVNDELYLNGASVLPHKSIGESVPEPRIIM MKALILVGGYGTRLRPLTLSTPKPLVDFCNKPILLHQVEALAAAGVDHVILAVSYMSQVLEKEMKAQEQRLGIRISMSHEEEPLGTAGPLALARDLLSETADPFFVLNSDVICDFPFQAMVQFHRHHGQEGSILVTKVEEPSKYGVVVCEADTGRIHRFVEKPQVFVSNKINAGMYILSPAVLQRIQLQPTSIEKEVFPIMAKEGQLYAMELQGFWMDIGQPKDFLTGMCLFLQSLRQKQPERLCSGPGIVGNVLVDPSARIGQNCSIGPNVSLGPGVVVEDGVCIRRCTVLRDARIRSHSWLESCIVGWRCRVGQWVRMENVTVLGEDVIVNDELYLNGASVLPHKSIGESVPEPRIIM 7d78-a1-m1-cA_7d78-a1-m1-cD The structure of thioesterase DcsB J4WAT9 J4WAT9 1.96543 X-RAY DIFFRACTION 76 1.0 655819 (Beauveria bassiana ARSEF 2860) 655819 (Beauveria bassiana ARSEF 2860) 295 297 7d79-a1-m1-cA_7d79-a1-m1-cD 7d79-a2-m1-cC_7d79-a2-m2-cB SFQVVECKTIDGIIIRGRFYAVDGKGPAIIMTPGFNCVKEMLLPDIAETFQSQGFNTYIYDPRSIGDSDGSPKNLIDPLQQAEDLADIVTHISSLPSVDSSKITLWGMSFGGTVSACAAAVDRRVKALVMVCPILSFYQAEKRDKAFLQLIRDRQSQLRGNEPFMLPPFNSKGENPIGMAGSGGPGGIEAYGFMGAVIDRGAPNFRNKIALQTYQKLAWWQPKEILKLVDKTPVLMVTPELDTMSPPEEQKAAFELFPQTKKFLEAKGKGHLTVLSGEGSVEVVDAMTEFIRENV SFQVVECKTIDGIIIRGRFYAVDGKGPAIIMTPGFNCVKEMLLPDIAETFQSQGFNTYIYDPRSIGDSDGSPKNLIDPLQQAEDLADIVTHISSLPSVDSSKITLWGMSFGGTVSACAAAVDRRVKALVMVCPILSFYQAEKRDKAFLQLIRDRQSQLRGNEPFMLPPFNSKGENPIGMAGSGGPGGIEAYGFMGAVIDRGAPNFRNKIALQTYQKLAWWQPKEILKLVDKTPVLMVTPELDTMSPPEEQKAAFELFPQTKKFLEAKGKGHLTVLSGEGSVEVVDAMTEFIRENVAG 7d7o-a1-m1-cA_7d7o-a1-m2-cB Crystal structure of cystathionine gamma-lyase from Bacillus cereus ATCC 14579 Q818A3 Q818A3 1.98 X-RAY DIFFRACTION 111 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 372 377 7d7o-a1-m2-cA_7d7o-a1-m1-cB MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVEEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHARRKELGITDTLIRISVGIEDGEDLIEDLAQALA MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVEEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHASIPADRRKELGITDTLIRISVGIEDGEDLIEDLAQALA 7d7o-a1-m1-cB_7d7o-a1-m2-cB Crystal structure of cystathionine gamma-lyase from Bacillus cereus ATCC 14579 Q818A3 Q818A3 1.98 X-RAY DIFFRACTION 83 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 377 377 7d7o-a1-m1-cA_7d7o-a1-m2-cA MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVEEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHASIPADRRKELGITDTLIRISVGIEDGEDLIEDLAQALA MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVEEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHASIPADRRKELGITDTLIRISVGIEDGEDLIEDLAQALA 7d7o-a1-m2-cA_7d7o-a1-m2-cB Crystal structure of cystathionine gamma-lyase from Bacillus cereus ATCC 14579 Q818A3 Q818A3 1.98 X-RAY DIFFRACTION 184 1.0 226900 (Bacillus cereus ATCC 14579) 226900 (Bacillus cereus ATCC 14579) 372 377 7d7o-a1-m1-cA_7d7o-a1-m1-cB MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVEEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHARRKELGITDTLIRISVGIEDGEDLIEDLAQALA MRAKTKLIHGIRIGEPSTGSVNVPIYQTSTYKQEAVGKHQGYEYSRTGNPTRAALEEMIAVLENGHAGFAFGSGMAAITATIMLFSKGDHVILTDDVYGGTYRVITKVLNRFGIEHTFVDTTNLEEVEEAIRPNTKAIYVETPTNPLLKITDIKKISTLAKEKDLLTIIDNTFMTPYWQSPISLGADIVLHSATKYLGGHSDVVAGLVVVNSPQLAEDLHFVQNSTGGILGPQDSFLLLRGLKTLGIRMEEHETNSRAIAEFLNNHPKVNKVYYPGLESHQNHELATEQANGFGAIISFDVDSEETLNKVLEKLQYFTLAESLGAVESLISIPSQMTHASIPADRRKELGITDTLIRISVGIEDGEDLIEDLAQALA 7d7r-a1-m1-cA_7d7r-a1-m1-cB Cryo-EM structure of the core domain of human ABCB6 transporter Q9NP58 Q9NP58 4.0 ELECTRON MICROSCOPY 268 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 580 580 7d7n-a1-m1-cA_7d7n-a1-m1-cB 7dny-a1-m1-cA_7dny-a1-m1-cB 7dnz-a1-m1-cA_7dnz-a1-m1-cB 7ekm-a1-m1-cA_7ekm-a1-m1-cB 8fwk-a1-m1-cA_8fwk-a1-m1-cB DFGRKLRLLSGYLWPRGSPALQLVVLICLGLMGLERALNVLVPIFYRNIVNLLTEKATVTSYVFLKFLQGGGTGSTGFVSNLRTFLWIRVQQFTSRRVELLIFSHLHELSLRWHLGRRTGEVLRIADRGTSSVTGLLSYLVFNVIPTLADIIIGIIYFSMFFNAWFGLIVFLCMSLYLTLTIVVTEWRTKFRRAMNTQENATRARAVDSLLNFETVKYYNAESYEVERYREAIIKYQGLEWKSSASLVLLNQTQNLVIGLGLLAGSLLCAYFVTEQKLQVGDYVLFGTYIIQLYMPLNWFGTYYRMIQTNFIDMENMFDLLKEETEVKDLPGAGPLRFQKGRIEFENVHFSYADGRETLQDVSFTVMPGQTLALVGPSGAGKSTILRLLFRFYDISSGCIRIDGQDISQVTQASLRSHIGVVPQDTVLFNDTIADNIRYGRVTAGNDEVEAAAQAAGIHDAIMAFPEGYRTQVGERGLKLSGGEKQRVAIARTILKAPGIILLDEATSALDTSNERAIQASLAKVCANRTTIVVAHRLSTVVNADQILVIKDGCIVERGRHEALLSRGGVYADMWQLQQG DFGRKLRLLSGYLWPRGSPALQLVVLICLGLMGLERALNVLVPIFYRNIVNLLTEKATVTSYVFLKFLQGGGTGSTGFVSNLRTFLWIRVQQFTSRRVELLIFSHLHELSLRWHLGRRTGEVLRIADRGTSSVTGLLSYLVFNVIPTLADIIIGIIYFSMFFNAWFGLIVFLCMSLYLTLTIVVTEWRTKFRRAMNTQENATRARAVDSLLNFETVKYYNAESYEVERYREAIIKYQGLEWKSSASLVLLNQTQNLVIGLGLLAGSLLCAYFVTEQKLQVGDYVLFGTYIIQLYMPLNWFGTYYRMIQTNFIDMENMFDLLKEETEVKDLPGAGPLRFQKGRIEFENVHFSYADGRETLQDVSFTVMPGQTLALVGPSGAGKSTILRLLFRFYDISSGCIRIDGQDISQVTQASLRSHIGVVPQDTVLFNDTIADNIRYGRVTAGNDEVEAAAQAAGIHDAIMAFPEGYRTQVGERGLKLSGGEKQRVAIARTILKAPGIILLDEATSALDTSNERAIQASLAKVCANRTTIVVAHRLSTVVNADQILVIKDGCIVERGRHEALLSRGGVYADMWQLQQG 7d8j-a1-m1-cA_7d8j-a1-m2-cA S. aureus SsbB with 5-FU A0A3F2YLU4 A0A3F2YLU4 2.88 X-RAY DIFFRACTION 80 1.0 681288 (Staphylococcus aureus subsp. aureus ED98) 681288 (Staphylococcus aureus subsp. aureus ED98) 112 112 5yyu-a1-m1-cC_5yyu-a1-m1-cB 5yyu-a1-m1-cD_5yyu-a1-m1-cA 7d8j-a1-m1-cB_7d8j-a1-m2-cB 7dep-a1-m1-cA_7dep-a1-m2-cA 7dep-a1-m1-cB_7dep-a1-m2-cB MLNRVVLVGRLTKDPELRSTPNGVNVGTFTLAVNRTFTNAQGEREADFINVVVFKKQAENVKNYLSKGSLAGVDGRLQTRNYENKDGQRVFVTEVVADSVQFLEPKNNNQQQ MLNRVVLVGRLTKDPELRSTPNGVNVGTFTLAVNRTFTNAQGEREADFINVVVFKKQAENVKNYLSKGSLAGVDGRLQTRNYENKDGQRVFVTEVVADSVQFLEPKNNNQQQ 7d8j-a1-m2-cB_7d8j-a1-m1-cA S. aureus SsbB with 5-FU A0A3F2YLU4 A0A3F2YLU4 2.88 X-RAY DIFFRACTION 19 1.0 681288 (Staphylococcus aureus subsp. aureus ED98) 681288 (Staphylococcus aureus subsp. aureus ED98) 98 112 5yyu-a1-m1-cC_5yyu-a1-m1-cA 5yyu-a1-m1-cD_5yyu-a1-m1-cB 7d8j-a1-m1-cB_7d8j-a1-m2-cA MLNRVVLVGRLTKDPELRSTPNGVNVGTFTLAVNRTFTNAQGEREADFINVVVFKKQAENVKNYLSKGSLAGVDGRLQTRNYVFVTEVVADSVQFLEP MLNRVVLVGRLTKDPELRSTPNGVNVGTFTLAVNRTFTNAQGEREADFINVVVFKKQAENVKNYLSKGSLAGVDGRLQTRNYENKDGQRVFVTEVVADSVQFLEPKNNNQQQ 7d8j-a1-m2-cB_7d8j-a1-m2-cA S. aureus SsbB with 5-FU A0A3F2YLU4 A0A3F2YLU4 2.88 X-RAY DIFFRACTION 23 1.0 681288 (Staphylococcus aureus subsp. aureus ED98) 681288 (Staphylococcus aureus subsp. aureus ED98) 98 112 5yyu-a1-m1-cB_5yyu-a1-m1-cA 7d8j-a1-m1-cB_7d8j-a1-m1-cA MLNRVVLVGRLTKDPELRSTPNGVNVGTFTLAVNRTFTNAQGEREADFINVVVFKKQAENVKNYLSKGSLAGVDGRLQTRNYVFVTEVVADSVQFLEP MLNRVVLVGRLTKDPELRSTPNGVNVGTFTLAVNRTFTNAQGEREADFINVVVFKKQAENVKNYLSKGSLAGVDGRLQTRNYENKDGQRVFVTEVVADSVQFLEPKNNNQQQ 7d8r-a2-m1-cC_7d8r-a2-m1-cD MITF HLHLZ structure O66738 O66738 3 X-RAY DIFFRACTION 81 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 168 174 7d8r-a1-m1-cB_7d8r-a1-m1-cA NINDRIKELGTLIPNKGTILKASVDYIRKLQREQQRAKELENRQKKLEHANRHLLLRIQELGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLSAAL NINDRIKELGTLIPKSNDPWNKGTILKASVDYIRKLQREQQRAKELENRQKKLEHANRHLLLRIQELGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLSAAL 7d8s-a2-m1-cD_7d8s-a2-m1-cC MITF bHLHLZ apo structure O66738 O66738 2.28 X-RAY DIFFRACTION 83 0.994 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 175 184 7d8s-a1-m1-cB_7d8s-a1-m1-cA RFNINDRIKELGTLIPKMRWNKGTILKASVDYIRKLQREQQRAKELENRQKKLEHACRHLLLRIQELGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLSAALE DNHNLIERRRRFNINDRIKELGTLIPKRWNKGTILKASVDYIRKLQREQQRAKELENRQKKLEHACRHLLLRIQELGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLSAALE 7d8t-a1-m1-cA_7d8t-a1-m1-cB MITF bHLHLZ complex with M-box DNA O66738 O66738 3.201 X-RAY DIFFRACTION 71 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 199 199 4ati-a1-m1-cA_4ati-a1-m1-cB 6g1l-a1-m1-cA_6g1l-a1-m2-cA SLAKERQKKDNHNLIERRRRFNINDRIKELGTLIPKSNDPDMRWNKGTILKASVDYIRKLQREQQRAKELENRQKKLEHACRHLLLRIQELGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLSAALE SLAKERQKKDNHNLIERRRRFNINDRIKELGTLIPKSNDPDMRWNKGTILKASVDYIRKLQREQQRAKELENRQKKLEHACRHLLLRIQELGIEDFLKVDLRVAKVLSAERVEGSEKLLKLTLSLGDEERTVVAGIAKYYTPEELVGKKIVIVANLKPRKIFGIESQGMILAASDGENLSVIVPDRDVKEGAKLSAALE 7d8v-a1-m1-cA_7d8v-a1-m2-cA Crystal Structure of A Kinesin-3 KIF13B mutant-T192Y A0A0G2K8Z9 A0A0G2K8Z9 2.3 X-RAY DIFFRACTION 70 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 365 365 6a1z-a1-m1-cA_6a1z-a1-m2-cA DSKVKVAVRVRPMNRREIDLHTKCVVDVEANKVILNPINTNLDARGQPKIFAYDHCFWSMDESVREKYAGQDDVFKCLGENILQNAFDGYNACIFAYGQTGSGKSYTMMGTADQPGLIPRLCSGLFERTQKEENEEQSFKVEVSYMEIYNEKVRDLLDPKGSRQTLKVREHSVLGPYVDGLSKLAVYSYKDIESLMSEGNKSRTVAATNMNEESSRSHAVFKITLTHTLYDVKSGTSGEKVGKLSLVDLAGSERSNINKSLTTLGLVISALADQGAGKNKNKFVPYRDSVLTWLLKDSLGGNSKTAMVATVSPAADNYDETLSTLRYADRAKHIINHAVVNEDPNARIIRDLREEVEKLREQLTK DSKVKVAVRVRPMNRREIDLHTKCVVDVEANKVILNPINTNLDARGQPKIFAYDHCFWSMDESVREKYAGQDDVFKCLGENILQNAFDGYNACIFAYGQTGSGKSYTMMGTADQPGLIPRLCSGLFERTQKEENEEQSFKVEVSYMEIYNEKVRDLLDPKGSRQTLKVREHSVLGPYVDGLSKLAVYSYKDIESLMSEGNKSRTVAATNMNEESSRSHAVFKITLTHTLYDVKSGTSGEKVGKLSLVDLAGSERSNINKSLTTLGLVISALADQGAGKNKNKFVPYRDSVLTWLLKDSLGGNSKTAMVATVSPAADNYDETLSTLRYADRAKHIINHAVVNEDPNARIIRDLREEVEKLREQLTK 7d8z-a1-m1-cA_7d8z-a1-m1-cB human potassium-chloride co-transporter KCC2 Q9H2X9 Q9H2X9 3.4 ELECTRON MICROSCOPY 168 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 895 895 6m23-a1-m1-cA_6m23-a1-m1-cB VSSLLSGLANYTNLPQGSREHEEAENNPRMGTFMGVYLPCLQNIFGVILFLRLTWVVGIAGIMESFCMVFICCSCTMLTAISMSAIATNGVVPAGGSYYMISRSLGPEFGGAVGLCFYLGTTFAGAMYILGTIEILLAYLFPAMAIFKAEDASGEAAAMLNNMRVYGTCVLTCMATVVFVGVKYVNKFALVFLGCVILSILAIYAGVIKSAFDPPNFPICLLGNRTLSRHGFDVCAKLAWEGNETVTTRLWGLFCSSRFLNATCDEYFTRNNVTEIQGIPGAASGLIKENLWSSYLTKGVIVERSGMTSVGLADGTPIDMDHPYVFSDMTSYFTLLVGIYFPSVTGIMAGSNRSGDLRDAQKSIPTGTILAIATTSAVYISSVVLFGACIEGVVLRDKFGEAVNGNLVVGTLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAISRDGIVPFLQVFGHGKANGEPTWALLLTACICEIGILIASLDEVAPILSMFFLMCYMFVNLACAVQTLLRTPNWRPRFRYYHWTLSFLGMSLCLALMFICSWYYALVAMLIAGLIYKYIEYRGAEKEWGDGIRGLSLSAARYALLRLEEGPPHTKNWRPQLLVLVRVDQDQNVVHPQLLSLTSQLKAGKGLTIVGSVLEGTFLENHPQAQRAEESIRRLMEAEKVKGFCQVVISSNLRDGVSHLIQSGGLGGLQHNTVLVGWPRNWRQKEDHQTWRNFIELVRETTAGHLALLVTKNVSMFPGNPERFSEGSIDVWWIVHDGGMLMLLPFLLRHHKVWRKCKMRIFTVAQMDDNSIQMKKDLTTFLYHLRITAEVEVVEMQSNVRRMHTAVRLNEVIVKKSRDAKLVLLNMPGPPRNRNGDENYMEFLEVLTEHLDRVMLVRGGGREVI VSSLLSGLANYTNLPQGSREHEEAENNPRMGTFMGVYLPCLQNIFGVILFLRLTWVVGIAGIMESFCMVFICCSCTMLTAISMSAIATNGVVPAGGSYYMISRSLGPEFGGAVGLCFYLGTTFAGAMYILGTIEILLAYLFPAMAIFKAEDASGEAAAMLNNMRVYGTCVLTCMATVVFVGVKYVNKFALVFLGCVILSILAIYAGVIKSAFDPPNFPICLLGNRTLSRHGFDVCAKLAWEGNETVTTRLWGLFCSSRFLNATCDEYFTRNNVTEIQGIPGAASGLIKENLWSSYLTKGVIVERSGMTSVGLADGTPIDMDHPYVFSDMTSYFTLLVGIYFPSVTGIMAGSNRSGDLRDAQKSIPTGTILAIATTSAVYISSVVLFGACIEGVVLRDKFGEAVNGNLVVGTLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAISRDGIVPFLQVFGHGKANGEPTWALLLTACICEIGILIASLDEVAPILSMFFLMCYMFVNLACAVQTLLRTPNWRPRFRYYHWTLSFLGMSLCLALMFICSWYYALVAMLIAGLIYKYIEYRGAEKEWGDGIRGLSLSAARYALLRLEEGPPHTKNWRPQLLVLVRVDQDQNVVHPQLLSLTSQLKAGKGLTIVGSVLEGTFLENHPQAQRAEESIRRLMEAEKVKGFCQVVISSNLRDGVSHLIQSGGLGGLQHNTVLVGWPRNWRQKEDHQTWRNFIELVRETTAGHLALLVTKNVSMFPGNPERFSEGSIDVWWIVHDGGMLMLLPFLLRHHKVWRKCKMRIFTVAQMDDNSIQMKKDLTTFLYHLRITAEVEVVEMQSNVRRMHTAVRLNEVIVKKSRDAKLVLLNMPGPPRNRNGDENYMEFLEVLTEHLDRVMLVRGGGREVI 7d95-a1-m1-cA_7d95-a1-m1-cB Crystal structure of acivicin-bound GATase subunit of Methanocaldococcus jannaschii GMP synthetase Q58970 Q58970 1.67 X-RAY DIFFRACTION 18 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 186 186 MIVILDNGGQYVHRIHRSLKYIGVSSKIVPNTTPLEEIESNKEVKGIILSGGPDIEKAKNCIDIALNAKLPILGILGHQLIALAYGGEVGRAEAEEYALTKVYVDKEDLFKNVPREFNAWASHKDEVKKVPEGFEILAHSDICQVEAMKHKTKPIYGVQFHPEVAHTEYGNEILKNFCKVCGYKFE MIVILDNGGQYVHRIHRSLKYIGVSSKIVPNTTPLEEIESNKEVKGIILSGGPDIEKAKNCIDIALNAKLPILGILGHQLIALAYGGEVGRAEAEEYALTKVYVDKEDLFKNVPREFNAWASHKDEVKKVPEGFEILAHSDICQVEAMKHKTKPIYGVQFHPEVAHTEYGNEILKNFCKVCGYKFE 7d99-a1-m1-cA_7d99-a1-m1-cB human potassium-chloride co-transporter KCC4 Q9Y666 Q9Y666 2.9 ELECTRON MICROSCOPY 182 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 891 891 VSSLLNKLANYTNLSQGVVEHEEDPRMGTFIGVYLPCLQNILGVILFLRLTWIVGVAGVLESFLIVAMCCTCTMLTAISMSAIATNGVVPAGGSYYMISRSLGPEFGGAVGLCFYLGTTFAGAMYILGTIEIFLTYISPGAAIFQAEAAGGEAAAMLHNMRVYGTCTLVLMALVVFVGVKYVNKLALVFLACVVLSILAIYAGVIKSAFDPPDIPVCLLGNRTLSRRSFDACVKAYGIHNNSATSALWGLFCNGSQPSAACDEYFIQNNVTEIQGIPGAASGVFLENLWSTYAHAGAFVEKKGVPSVPVAEESRASALPYVLTDIAASFTLLVGIYFPSVTGIMAGSNRSGDLKDAQKSIPTGTILAIVTTSFIYLSCIVLFGACIEGVVLRDKFGEALQGNLVIGMLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIARDGIVPFLQVFGHGKANGEPTWALLLTVLICETGILIASLDSVAPILSMFFLMCYLFVNLACAVQTLLRTPNWRPRFKFYHWTLSFLGMSLCLALMFICSWYYALSAMLIAGCIYKYIEYRGAEKEWGDGIRGLSLNAARYALLRVEHGPPHTKNWRPQVLVMLNLDAEQAVKHPRLLSFTSQLKAGKGLTIVGSVLEGTYLDKHMEAQRAEENIRSLMSTEKTKGFCQLVVSSSLRDGMSHLIQSAGLGGLKHNTVLMAWPASWKQEDNPFSWKNFVDTVRDTTAAHQALLVAKNVDSFPQNQERFGGGHIDVWWIVHDGGMLMLLPFLLRQHKVWRKCRMRIFTVAQVDDNSIQMKKDLQMFLYHLRISAEVEVVEMQSNVRRMHTAVKLNGVVLNKSQDAQLVLLNMPGPPKNRQGDENYMEFLEVLTEGLNRVLLVRGGGREVI VSSLLNKLANYTNLSQGVVEHEEDPRMGTFIGVYLPCLQNILGVILFLRLTWIVGVAGVLESFLIVAMCCTCTMLTAISMSAIATNGVVPAGGSYYMISRSLGPEFGGAVGLCFYLGTTFAGAMYILGTIEIFLTYISPGAAIFQAEAAGGEAAAMLHNMRVYGTCTLVLMALVVFVGVKYVNKLALVFLACVVLSILAIYAGVIKSAFDPPDIPVCLLGNRTLSRRSFDACVKAYGIHNNSATSALWGLFCNGSQPSAACDEYFIQNNVTEIQGIPGAASGVFLENLWSTYAHAGAFVEKKGVPSVPVAEESRASALPYVLTDIAASFTLLVGIYFPSVTGIMAGSNRSGDLKDAQKSIPTGTILAIVTTSFIYLSCIVLFGACIEGVVLRDKFGEALQGNLVIGMLAWPSPWVIVIGSFFSTCGAGLQSLTGAPRLLQAIARDGIVPFLQVFGHGKANGEPTWALLLTVLICETGILIASLDSVAPILSMFFLMCYLFVNLACAVQTLLRTPNWRPRFKFYHWTLSFLGMSLCLALMFICSWYYALSAMLIAGCIYKYIEYRGAEKEWGDGIRGLSLNAARYALLRVEHGPPHTKNWRPQVLVMLNLDAEQAVKHPRLLSFTSQLKAGKGLTIVGSVLEGTYLDKHMEAQRAEENIRSLMSTEKTKGFCQLVVSSSLRDGMSHLIQSAGLGGLKHNTVLMAWPASWKQEDNPFSWKNFVDTVRDTTAAHQALLVAKNVDSFPQNQERFGGGHIDVWWIVHDGGMLMLLPFLLRQHKVWRKCRMRIFTVAQVDDNSIQMKKDLQMFLYHLRISAEVEVVEMQSNVRRMHTAVKLNGVVLNKSQDAQLVLLNMPGPPKNRQGDENYMEFLEVLTEGLNRVLLVRGGGREVI 7d9c-a1-m1-cA_7d9c-a1-m2-cA Alpha-glucosidase from Weissella cibaria BBK-1 bound with maltose A0A482PRE5 A0A482PRE5 1.36 X-RAY DIFFRACTION 138 1.0 1583 (Weissella confusa) 1583 (Weissella confusa) 588 588 7d9b-a1-m1-cA_7d9b-a1-m2-cA 7dcg-a1-m1-cA_7dcg-a1-m2-cA 7dch-a1-m1-cA_7dch-a1-m2-cA 7ehh-a1-m1-cA_7ehh-a1-m2-cA 7ehi-a1-m1-cA_7ehi-a1-m2-cA GNLAGIMHRPDSEMAYVVNEQTVNIRLRTAKDDIVSVELLAGDPYSLRSLPTDEKFYQVPKQMTKIMSDGISDFWQVTVTEPKRRLAYAFLVTDMLGIQKIYSDKGFFKVADADLMDMNFYFRMPFFQTIDQYNAPEWVTDTVWYQIFPERFANGDVSNDPVGTKPWDSTDHPGREDFYGGDLQGILDHLDHLQELGISGIYLNPIFQAPSNHKYDTQDYMTVDPHFGDAKLFKQLVQAAHERGIRVMLDAVFNHIGDKSVQWQDVLKNEQASPYADWFHIHQFPATYTPTDNFEFAADATYDTFDYTPHMPKLNTSNPEVVDYLLNIATYWVKEFDIDAWRLDVANEIDHHFWRKFHDAMMALKPDFYILGQIWHTSQSWLVGDEFTAVMNYSYTGAILQYFLENESADALVQKMSHQLMLYRDATNRMMFNTVDSHDTPRLMTLAHEDKQLAKSILTFTFMQPGVPSIYYGTEYGMTGENDPDDRKPMVWQPELQDHDLYDFMQKLVQVRRQVIAKLSDDKIIFDVIGERQIRLTREDNQTRIVGVFNNGTTDLTVAQPTSILLKTNQSETQLAPNDFMIWTEPVR GNLAGIMHRPDSEMAYVVNEQTVNIRLRTAKDDIVSVELLAGDPYSLRSLPTDEKFYQVPKQMTKIMSDGISDFWQVTVTEPKRRLAYAFLVTDMLGIQKIYSDKGFFKVADADLMDMNFYFRMPFFQTIDQYNAPEWVTDTVWYQIFPERFANGDVSNDPVGTKPWDSTDHPGREDFYGGDLQGILDHLDHLQELGISGIYLNPIFQAPSNHKYDTQDYMTVDPHFGDAKLFKQLVQAAHERGIRVMLDAVFNHIGDKSVQWQDVLKNEQASPYADWFHIHQFPATYTPTDNFEFAADATYDTFDYTPHMPKLNTSNPEVVDYLLNIATYWVKEFDIDAWRLDVANEIDHHFWRKFHDAMMALKPDFYILGQIWHTSQSWLVGDEFTAVMNYSYTGAILQYFLENESADALVQKMSHQLMLYRDATNRMMFNTVDSHDTPRLMTLAHEDKQLAKSILTFTFMQPGVPSIYYGTEYGMTGENDPDDRKPMVWQPELQDHDLYDFMQKLVQVRRQVIAKLSDDKIIFDVIGERQIRLTREDNQTRIVGVFNNGTTDLTVAQPTSILLKTNQSETQLAPNDFMIWTEPVR 7d9m-a1-m1-cB_7d9m-a1-m2-cD grass carp interleukin-2 A0A4D6NYT7 A0A4D6NYT7 2.66 X-RAY DIFFRACTION 32 1.0 7959 (Ctenopharyngodon idella) 7959 (Ctenopharyngodon idella) 115 115 RSIIAQDMFKTAFKGFKDGISAKCPKDTRLYSPDIQEDCLSSALKCTIAELKVLEVECNVTENDDFMMIYEGLNKEKWNTSSSSPRNCTCELYNQTHVKEFVENMERLVQLLYTR RSIIAQDMFKTAFKGFKDGISAKCPKDTRLYSPDIQEDCLSSALKCTIAELKVLEVECNVTENDDFMMIYEGLNKEKWNTSSSSPRNCTCELYNQTHVKEFVENMERLVQLLYTR 7d9q-a1-m1-cA_7d9q-a1-m2-cB Crystal Structure of Recombinant Human Acetylcholinesterase in Complex with Compound 7 P22303 P22303 2.66 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 528 528 1b41-a1-m1-cA_1b41-a1-m2-cA 1f8u-a2-m1-cA_1f8u-a2-m2-cA 2x8b-a1-m1-cA_2x8b-a1-m2-cA 3lii-a1-m1-cB_3lii-a1-m1-cA 4bdt-a1-m1-cA_4bdt-a1-m2-cA 4bdt-a2-m1-cA_4bdt-a2-m2-cA 4bdt-a2-m3-cA_4bdt-a2-m4-cA 4bdt-a2-m5-cA_4bdt-a2-m6-cA 4ey4-a1-m1-cA_4ey4-a1-m1-cB 4ey5-a1-m1-cA_4ey5-a1-m1-cB 4ey6-a1-m1-cA_4ey6-a1-m1-cB 4ey7-a1-m1-cA_4ey7-a1-m1-cB 4m0e-a1-m1-cA_4m0e-a1-m1-cB 4m0f-a1-m1-cA_4m0f-a1-m1-cB 4pqe-a1-m1-cA_4pqe-a1-m2-cA 5fpq-a1-m2-cB_5fpq-a1-m1-cA 5fpq-a2-m1-cB_5fpq-a2-m3-cA 5hf5-a1-m1-cA_5hf5-a1-m1-cB 5hf6-a1-m1-cA_5hf6-a1-m1-cB 5hf8-a1-m1-cA_5hf8-a1-m1-cB 5hf9-a1-m1-cA_5hf9-a1-m1-cB 5hfa-a1-m1-cA_5hfa-a1-m1-cB 5hq3-a1-m1-cB_5hq3-a1-m1-cA 6cqt-a1-m1-cA_6cqt-a1-m2-cB 6cqu-a1-m2-cB_6cqu-a1-m1-cA 6cqv-a1-m2-cB_6cqv-a1-m1-cA 6cqw-a1-m2-cB_6cqw-a1-m1-cA 6cqx-a1-m2-cB_6cqx-a1-m1-cA 6cqy-a1-m2-cB_6cqy-a1-m1-cA 6cqz-a1-m2-cB_6cqz-a1-m1-cA 6f25-a1-m1-cA_6f25-a1-m1-cB 6nea-a1-m2-cB_6nea-a1-m1-cA 6ntg-a1-m2-cA_6ntg-a1-m1-cB 6nth-a1-m2-cB_6nth-a1-m1-cA 6ntk-a1-m2-cB_6ntk-a1-m1-cA 6ntl-a1-m2-cB_6ntl-a1-m1-cA 6ntm-a1-m2-cB_6ntm-a1-m1-cA 6ntn-a1-m2-cB_6ntn-a1-m1-cA 6nto-a1-m2-cB_6nto-a1-m1-cA 6o4w-a1-m1-cB_6o4w-a1-m2-cA 6o4x-a1-m1-cA_6o4x-a1-m2-cB 6o50-a1-m1-cA_6o50-a1-m2-cB 6o52-a1-m1-cA_6o52-a1-m2-cB 6o5r-a1-m1-cA_6o5r-a1-m2-cB 6o5s-a2-m1-cA_6o5s-a2-m2-cB 6o5v-a2-m1-cA_6o5v-a2-m2-cB 6o66-a1-m1-cA_6o66-a1-m2-cB 6u34-a1-m1-cB_6u34-a1-m2-cA 6u37-a1-m1-cA_6u37-a1-m2-cB 6u3p-a1-m1-cB_6u3p-a1-m2-cA 6wuv-a1-m2-cA_6wuv-a1-m1-cB 6wuy-a1-m1-cA_6wuy-a1-m2-cB 6wuz-a1-m2-cA_6wuz-a1-m1-cB 6wv1-a1-m2-cB_6wv1-a1-m1-cA 6wvc-a1-m2-cB_6wvc-a1-m1-cA 6wvo-a1-m1-cA_6wvo-a1-m1-cB 6wvp-a1-m1-cB_6wvp-a1-m2-cA 6wvq-a1-m2-cB_6wvq-a1-m1-cA 6zwe-a1-m1-cA_6zwe-a1-m1-cB 7d9o-a1-m1-cA_7d9o-a1-m2-cB 7d9p-a1-m2-cB_7d9p-a1-m1-cA 7e3d-a1-m1-cA_7e3d-a1-m1-cB 7e3h-a1-m1-cA_7e3h-a1-m1-cB 7p1n-a1-m1-cB_7p1n-a1-m1-cA 7p1p-a1-m1-cB_7p1p-a1-m1-cA 7rb5-a1-m1-cA_7rb5-a1-m2-cA 7rb6-a1-m1-cB_7rb6-a1-m2-cA 7rb7-a1-m1-cA_7rb7-a1-m2-cB 7xn1-a1-m1-cA_7xn1-a1-m1-cB EDAELLVTVRGGRLRGIRLKTPGGPVSAFLGIPFAEPPMGPRRFLPPEPKQPWSGVVDATTFQSVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPTSPTPVLVWIYGGGFYSGASSLDVYDGRFLVQAERTVLVSMNYRVGAFGFLALPGSREAPGNVGLLDQRLALQWVQENVAAFGGDPTSVTLFGESAGAASVGMHLLSPPSRGLFHRAVLQSGAPNGPWATVGMGEARRRATQLAHLVGCPNDTELVACLRTRPAQVLVNHEWHVLPQESVFRFSFVPVVDGDFLSDTPEALINAGDFHGLQVLVGVVKDEGSYFLVYGAPGFSKDNESLISRAEFLAGVRVGVPQVSDLAAEAVVLHYTDWLHPEDPARLREALSDVVGDHNVVCPVAQLAGRLAAQGARVYAYVFEHRASTLSWPLWMGVPHGYEIEFIFGIPLDPSRNYTAEEKIFAQRLMRYWANFARTGDPNEPPQWPPYTAGAQQYVSLDLRPLEVRRGLRAQACAFWNRFLPKLLSA EDAELLVTVRGGRLRGIRLKTPGGPVSAFLGIPFAEPPMGPRRFLPPEPKQPWSGVVDATTFQSVCYQYVDTLYPGFEGTEMWNPNRELSEDCLYLNVWTPYPRPTSPTPVLVWIYGGGFYSGASSLDVYDGRFLVQAERTVLVSMNYRVGAFGFLALPGSREAPGNVGLLDQRLALQWVQENVAAFGGDPTSVTLFGESAGAASVGMHLLSPPSRGLFHRAVLQSGAPNGPWATVGMGEARRRATQLAHLVGCPNDTELVACLRTRPAQVLVNHEWHVLPQESVFRFSFVPVVDGDFLSDTPEALINAGDFHGLQVLVGVVKDEGSYFLVYGAPGFSKDNESLISRAEFLAGVRVGVPQVSDLAAEAVVLHYTDWLHPEDPARLREALSDVVGDHNVVCPVAQLAGRLAAQGARVYAYVFEHRASTLSWPLWMGVPHGYEIEFIFGIPLDPSRNYTAEEKIFAQRLMRYWANFARTGDPNEPPQWPPYTAGAQQYVSLDLRPLEVRRGLRAQACAFWNRFLPKLLSA 7da0-a1-m1-cB_7da0-a1-m2-cB High-resolution crystal structure of the chicken MHF complex E1BSW7 E1BSW7 1.25 X-RAY DIFFRACTION 28 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 95 95 7da1-a1-m1-cA_7da1-a1-m1-cB 7da2-a1-m1-cC_7da2-a1-m1-cA EQRELLIQRLRAAVHYTTGALAQDVAEDKGVLFSKQTVAAISEITFRQAENFARDLEMFARHAKRSTITSEDVKLLARRSNSLLKYITQKSDELA EQRELLIQRLRAAVHYTTGALAQDVAEDKGVLFSKQTVAAISEITFRQAENFARDLEMFARHAKRSTITSEDVKLLARRSNSLLKYITQKSDELA 7da1-a1-m1-cC_7da1-a1-m1-cD Crystal structure of the chicken MHF complex P0DJH7 P0DJH7 2.01 X-RAY DIFFRACTION 10 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 75 75 3b0b-a1-m1-cC_3b0b-a1-m1-cD GGFRKETVERLLRLHFRDGRTRVNGDALLLMAELLKVFVREAAARAARQAQAEDLEKVDIEHVEKVLPQLLLDFV GGFRKETVERLLRLHFRDGRTRVNGDALLLMAELLKVFVREAAARAARQAQAEDLEKVDIEHVEKVLPQLLLDFV 7da4-a1-m1-cB_7da4-a1-m1-cC Cryo-EM structure of amyloid fibril formed by human RIPK3 Q9Y572 Q9Y572 4.24 ELECTRON MICROSCOPY 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 22 7da4-a1-m1-cA_7da4-a1-m1-cB PLVNIYNCSGVQVGDNNYLTMQ PLVNIYNCSGVQVGDNNYLTMQ 7da9-a1-m1-cA_7da9-a1-m1-cB Structure of 6-hydroxy-3-succinoyl-pyridine 3-monooxygenase (HspB) from Pseudomonas putida S16 F8G0M4 F8G0M4 2.108 X-RAY DIFFRACTION 46 1.0 1042876 (Pseudomonas putida S16) 1042876 (Pseudomonas putida S16) 388 388 QRVIIVGGGPVGLLTALGLAKAGTNVVVLEAESQPSDSPRALVYHFPVLPHLKRLGVLDDCVAAGLMRQNFAWRVHSTSEMIFWDLSCLEGDVELPYALHLGQDKLSRILIEHLKALPNVEVRYSSPVVDCEVGPRSVRVVLGGESPGVIVEGDWLIGADGANSFVRREVLNQNFFGITWPQRYVATNTRFDFDKLGFGKTTMQVDDVYGSVICNIDADSLWRVTFMEDPNLPMEGIRGRIDQVFKELLPTNDPYEVVAFSPYRMHQRVTDRMRNGRVILIGDAAHVTNPTGGLGLTGGMFDAFALTSVLNQVIHDGRSEDILDVFEADRRRKFIELVSPRASDNLRNLYHQKPGEGKNDWVNNTRSISKDIDRMRDALRFPETMETF QRVIIVGGGPVGLLTALGLAKAGTNVVVLEAESQPSDSPRALVYHFPVLPHLKRLGVLDDCVAAGLMRQNFAWRVHSTSEMIFWDLSCLEGDVELPYALHLGQDKLSRILIEHLKALPNVEVRYSSPVVDCEVGPRSVRVVLGGESPGVIVEGDWLIGADGANSFVRREVLNQNFFGITWPQRYVATNTRFDFDKLGFGKTTMQVDDVYGSVICNIDADSLWRVTFMEDPNLPMEGIRGRIDQVFKELLPTNDPYEVVAFSPYRMHQRVTDRMRNGRVILIGDAAHVTNPTGGLGLTGGMFDAFALTSVLNQVIHDGRSEDILDVFEADRRRKFIELVSPRASDNLRNLYHQKPGEGKNDWVNNTRSISKDIDRMRDALRFPETMETF 7dac-a1-m1-cC_7dac-a1-m1-cD Human RIPK3 amyloid fibril revealed by solid-state NMR Q9Y572 Q9Y572 NOT SOLID-STATE NMR 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 29 29 7dac-a1-m1-cA_7dac-a1-m1-cB 7dac-a1-m1-cB_7dac-a1-m1-cC 7dac-a1-m1-cD_7dac-a1-m1-cE RPLVNIYNCSGVQVGDNNYLTMQQTTALP RPLVNIYNCSGVQVGDNNYLTMQQTTALP 7dag-a1-m1-cE_7dag-a1-m1-cF Vibrio cholera aldehyde-alcohol dehrogenase Q9KQG5 Q9KQG5 4.37 ELECTRON MICROSCOPY 152 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 867 867 7dag-a1-m1-cA_7dag-a1-m1-cB 7dag-a1-m1-cC_7dag-a1-m1-cD PVTNLAELDALVARVKAAQAEFATFSQEQVDKIFRAASLAANQARIPLAQMAVEESGMGIVEDKVIKNHFASEFIYNKYKDEKTCGILEEDDNLGTMTIAEPVGIICGIVPTTNPTSTAIFKSLISLKTRNGIIFSPHPRAKNSTNAAAKLVLDAAIAAGAPKDIIGWIDQPSVELSNALMKHDGIALILATGGPGMVKAAYSSGKPAIGVGAGNVPVVIDETADIKRAVASILMSKTFDNGVVCASEQAAIVVSEVYDEVKERFATHKAHVLSKADADKVRKVLLIDGALNAKIVGQPAAAIAEMAGVKVPADTKVLVGEGLGKVSYDDEFAHEKLSPTLGLFRADNFEDAVAQAVTMVEIGGIGHTSGLYTNQDVNADRIRYFGDKLKTARILVNIPTTHGGIGDLYNFNVAPSLTLGCGSWGGNSISENVGPKHLINKKTVAKRAENMLWHKLPKSIYFRRGSLPIALSDLEGKKRAFLVTDRFLFNNGYADDVVALLKAQGMEVQTFFEVEADPTLSVVEKGAAAMQSFQPDVILALGGGSPMDAAKIMWVMYEHPDTHFEELAMRFMDIRKRIYKFPKMGKKAELVCITTTSGTGSEVTPFAVVTDDKTGAKYPLADYELTPQMAIVDANLVMNMPKSLTAFGGYDAVTHALEAYVSVLANEYSDGQALQALKMLKEYLPSSYANGAKDPIAREKVHNAATIAGIAFANAFLGVCHSMAHKIGAEFHLPHGLANALLIANVVRYNANDNPTKQTAFSQYDRPQARRRYAEVADHLGLSQPGDRTAQKIERLLTWLDELKVNLDIPKSIQAAGVAEADFLAKVDELAVEAFDDQCTGANPRYPLIAELKEVLLASYYGKPFVE PVTNLAELDALVARVKAAQAEFATFSQEQVDKIFRAASLAANQARIPLAQMAVEESGMGIVEDKVIKNHFASEFIYNKYKDEKTCGILEEDDNLGTMTIAEPVGIICGIVPTTNPTSTAIFKSLISLKTRNGIIFSPHPRAKNSTNAAAKLVLDAAIAAGAPKDIIGWIDQPSVELSNALMKHDGIALILATGGPGMVKAAYSSGKPAIGVGAGNVPVVIDETADIKRAVASILMSKTFDNGVVCASEQAAIVVSEVYDEVKERFATHKAHVLSKADADKVRKVLLIDGALNAKIVGQPAAAIAEMAGVKVPADTKVLVGEGLGKVSYDDEFAHEKLSPTLGLFRADNFEDAVAQAVTMVEIGGIGHTSGLYTNQDVNADRIRYFGDKLKTARILVNIPTTHGGIGDLYNFNVAPSLTLGCGSWGGNSISENVGPKHLINKKTVAKRAENMLWHKLPKSIYFRRGSLPIALSDLEGKKRAFLVTDRFLFNNGYADDVVALLKAQGMEVQTFFEVEADPTLSVVEKGAAAMQSFQPDVILALGGGSPMDAAKIMWVMYEHPDTHFEELAMRFMDIRKRIYKFPKMGKKAELVCITTTSGTGSEVTPFAVVTDDKTGAKYPLADYELTPQMAIVDANLVMNMPKSLTAFGGYDAVTHALEAYVSVLANEYSDGQALQALKMLKEYLPSSYANGAKDPIAREKVHNAATIAGIAFANAFLGVCHSMAHKIGAEFHLPHGLANALLIANVVRYNANDNPTKQTAFSQYDRPQARRRYAEVADHLGLSQPGDRTAQKIERLLTWLDELKVNLDIPKSIQAAGVAEADFLAKVDELAVEAFDDQCTGANPRYPLIAELKEVLLASYYGKPFVE 7dag-a1-m1-cG_7dag-a1-m1-cF Vibrio cholera aldehyde-alcohol dehrogenase Q9KQG5 Q9KQG5 4.37 ELECTRON MICROSCOPY 62 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 419 867 7dag-a1-m1-cB_7dag-a1-m1-cC 7dag-a1-m1-cD_7dag-a1-m1-cE ENMLWHKLPKSIYFRRGSLPIALSDLEGKKRAFLVTDRFLFNNGYADDVVALLKAQGMEVQTFFEVEADPTLSVVEKGAAAMQSFQPDVILALGGGSPMDAAKIMWVMYEHPDTHFEELAMRFMDIRKRIYKFPKMGKKAELVCITTTSGTGSEVTPFAVVTDDKTGAKYPLADYELTPQMAIVDANLVMNMPKSLTAFGGYDAVTHALEAYVSVLANEYSDGQALQALKMLKEYLPSSYANGAKDPIAREKVHNAATIAGIAFANAFLGVCHSMAHKIGAEFHLPHGLANALLIANVVRYNANDNPTKQTAFSQYDRPQARRRYAEVADHLGLSQPGDRTAQKIERLLTWLDELKVNLDIPKSIQAAGVAEADFLAKVDELAVEAFDDQCTGANPRYPLIAELKEVLLASYYGKPFVE PVTNLAELDALVARVKAAQAEFATFSQEQVDKIFRAASLAANQARIPLAQMAVEESGMGIVEDKVIKNHFASEFIYNKYKDEKTCGILEEDDNLGTMTIAEPVGIICGIVPTTNPTSTAIFKSLISLKTRNGIIFSPHPRAKNSTNAAAKLVLDAAIAAGAPKDIIGWIDQPSVELSNALMKHDGIALILATGGPGMVKAAYSSGKPAIGVGAGNVPVVIDETADIKRAVASILMSKTFDNGVVCASEQAAIVVSEVYDEVKERFATHKAHVLSKADADKVRKVLLIDGALNAKIVGQPAAAIAEMAGVKVPADTKVLVGEGLGKVSYDDEFAHEKLSPTLGLFRADNFEDAVAQAVTMVEIGGIGHTSGLYTNQDVNADRIRYFGDKLKTARILVNIPTTHGGIGDLYNFNVAPSLTLGCGSWGGNSISENVGPKHLINKKTVAKRAENMLWHKLPKSIYFRRGSLPIALSDLEGKKRAFLVTDRFLFNNGYADDVVALLKAQGMEVQTFFEVEADPTLSVVEKGAAAMQSFQPDVILALGGGSPMDAAKIMWVMYEHPDTHFEELAMRFMDIRKRIYKFPKMGKKAELVCITTTSGTGSEVTPFAVVTDDKTGAKYPLADYELTPQMAIVDANLVMNMPKSLTAFGGYDAVTHALEAYVSVLANEYSDGQALQALKMLKEYLPSSYANGAKDPIAREKVHNAATIAGIAFANAFLGVCHSMAHKIGAEFHLPHGLANALLIANVVRYNANDNPTKQTAFSQYDRPQARRRYAEVADHLGLSQPGDRTAQKIERLLTWLDELKVNLDIPKSIQAAGVAEADFLAKVDELAVEAFDDQCTGANPRYPLIAELKEVLLASYYGKPFVE 7dal-a1-m1-cA_7dal-a1-m1-cB The crystal structure of a serotonin N-acetyltransferase in complex with serotonin and acetyl-CoA from Oryza Sativa Q5KQI6 Q5KQI6 2.5 X-RAY DIFFRACTION 168 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 146 146 7dai-a1-m1-cA_7dai-a1-m2-cA 7daj-a1-m1-cA_7daj-a1-m1-cB 7dak-a1-m1-cA_7dak-a1-m1-cB EELVLLERTLEQIIFSSAGDVNVYDLQALCDKVGWPRRPLTKIAASLRNSYLVATLHSVTKQLIGMARATSDHAFNATIWDVLVDPSYQGQGLGKALMEKVIRTLLQRDISNITLFADNKVVDFYKNLGFEADPQGIKGMFWYPRF EELVLLERTLEQIIFSSAGDVNVYDLQALCDKVGWPRRPLTKIAASLRNSYLVATLHSVTKQLIGMARATSDHAFNATIWDVLVDPSYQGQGLGKALMEKVIRTLLQRDISNITLFADNKVVDFYKNLGFEADPQGIKGMFWYPRF 7dam-a1-m2-cA_7dam-a1-m3-cA Adenosine triphosphate phosphoribosyltransferase from Vibrio cholerae Q9KSX4 Q9KSX4 2.7 X-RAY DIFFRACTION 53 1.0 579112 (Vibrio cholerae M66-2) 579112 (Vibrio cholerae M66-2) 284 284 7dah-a1-m1-cA_7dah-a1-m3-cE 7dah-a1-m1-cC_7dah-a1-m2-cB 7dah-a1-m1-cD_7dah-a1-m1-cC 7dah-a1-m1-cD_7dah-a1-m2-cB 7dah-a1-m1-cF_7dah-a1-m3-cE 7dam-a1-m1-cA_7dam-a1-m2-cA 7dam-a1-m1-cA_7dam-a1-m3-cA 7dam-a1-m1-cB_7dam-a1-m2-cB 7dam-a1-m1-cB_7dam-a1-m3-cB 7dam-a1-m2-cB_7dam-a1-m3-cB TQRLRIAIQKKGRLSQECQELLKKCGVKFNIMGERLVVHSLNMPIDLLLVRDDDIPGLIMDGVVDLGFVGENVLEETRLDRLALNQRNEFTTLRRMDFGGCRLSIAIEKDAEYRGPQDLNGKRIATTYPQLLKAYMDRQGVDFSTCMLTGSVEVAPRAGLADAIADLVSTGATLEANGLKEVEVIFESKATLIQRPGAFAADKAALIDKLLTRMHGVQQAKESKYIMLHAKLAQIKTLLPEDPTVLKVAVHMVSSENLFWETMEQLKALGASSILVLPIEKMME TQRLRIAIQKKGRLSQECQELLKKCGVKFNIMGERLVVHSLNMPIDLLLVRDDDIPGLIMDGVVDLGFVGENVLEETRLDRLALNQRNEFTTLRRMDFGGCRLSIAIEKDAEYRGPQDLNGKRIATTYPQLLKAYMDRQGVDFSTCMLTGSVEVAPRAGLADAIADLVSTGATLEANGLKEVEVIFESKATLIQRPGAFAADKAALIDKLLTRMHGVQQAKESKYIMLHAKLAQIKTLLPEDPTVLKVAVHMVSSENLFWETMEQLKALGASSILVLPIEKMME 7dam-a1-m3-cB_7dam-a1-m1-cA Adenosine triphosphate phosphoribosyltransferase from Vibrio cholerae Q9KSX4 Q9KSX4 2.7 X-RAY DIFFRACTION 10 0.985 579112 (Vibrio cholerae M66-2) 579112 (Vibrio cholerae M66-2) 272 284 7dam-a1-m1-cB_7dam-a1-m2-cA 7dam-a1-m2-cB_7dam-a1-m3-cA QRLRIAIQKKGRLSQECQELLKKCGVKFNIMRLVVHSLNMPIDLLLVRDDDIPGLIMDGVVDLGFVGENVLEETRLDRLALNQRNEFTTLRRMDFGGCRLSIAIEKDAEYRGPQDLNGKRIATTYPQLLKAYMDRQGVDFSTCMLTGSVEVAPRAGLADAIADLVSTGATLEANGLKEVEVIFESKATLIQRPGAFADKAALIDKLLTRMHGVQQAKESKYIMLHLAQIKTLLPGAEDPVLVSSENLFWETMEQLKALGASSILVLPIEKMM TQRLRIAIQKKGRLSQECQELLKKCGVKFNIMGERLVVHSLNMPIDLLLVRDDDIPGLIMDGVVDLGFVGENVLEETRLDRLALNQRNEFTTLRRMDFGGCRLSIAIEKDAEYRGPQDLNGKRIATTYPQLLKAYMDRQGVDFSTCMLTGSVEVAPRAGLADAIADLVSTGATLEANGLKEVEVIFESKATLIQRPGAFAADKAALIDKLLTRMHGVQQAKESKYIMLHAKLAQIKTLLPEDPTVLKVAVHMVSSENLFWETMEQLKALGASSILVLPIEKMME 7dam-a1-m3-cB_7dam-a1-m3-cA Adenosine triphosphate phosphoribosyltransferase from Vibrio cholerae Q9KSX4 Q9KSX4 2.7 X-RAY DIFFRACTION 69 0.985 579112 (Vibrio cholerae M66-2) 579112 (Vibrio cholerae M66-2) 272 284 7dah-a1-m1-cA_7dah-a1-m1-cC 7dah-a1-m1-cD_7dah-a1-m1-cF 7dah-a1-m2-cB_7dah-a1-m3-cE 7dam-a1-m1-cB_7dam-a1-m1-cA 7dam-a1-m2-cB_7dam-a1-m2-cA QRLRIAIQKKGRLSQECQELLKKCGVKFNIMRLVVHSLNMPIDLLLVRDDDIPGLIMDGVVDLGFVGENVLEETRLDRLALNQRNEFTTLRRMDFGGCRLSIAIEKDAEYRGPQDLNGKRIATTYPQLLKAYMDRQGVDFSTCMLTGSVEVAPRAGLADAIADLVSTGATLEANGLKEVEVIFESKATLIQRPGAFADKAALIDKLLTRMHGVQQAKESKYIMLHLAQIKTLLPGAEDPVLVSSENLFWETMEQLKALGASSILVLPIEKMM TQRLRIAIQKKGRLSQECQELLKKCGVKFNIMGERLVVHSLNMPIDLLLVRDDDIPGLIMDGVVDLGFVGENVLEETRLDRLALNQRNEFTTLRRMDFGGCRLSIAIEKDAEYRGPQDLNGKRIATTYPQLLKAYMDRQGVDFSTCMLTGSVEVAPRAGLADAIADLVSTGATLEANGLKEVEVIFESKATLIQRPGAFAADKAALIDKLLTRMHGVQQAKESKYIMLHAKLAQIKTLLPEDPTVLKVAVHMVSSENLFWETMEQLKALGASSILVLPIEKMME 7dan-a2-m1-cA_7dan-a2-m1-cB Structure of the Ca2+-bound wild-type peptidylarginine deiminase type III (PAD3) Q9ULW8 Q9ULW8 3.1 X-RAY DIFFRACTION 101 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 635 635 7d56-a1-m1-cC_7d56-a1-m2-cC 7d56-a2-m1-cB_7d56-a2-m1-cA 7d5r-a1-m1-cA_7d5r-a1-m1-cB 7d8n-a1-m1-cA_7d8n-a1-m1-cB 7dan-a1-m1-cC_7dan-a1-m2-cC MSLQRIVRVSLEHPTSAVCVAGVETLVDIYGSVPEGTEMFEVYGTPGVDIYISPNMERGRERADTRRWRFDATLEIIVVMNSPSNDLNDSHVQISYHSSHEPLPLAYAVLYLTCVDISLDCDLNCEDKRQWVWGPSGYGGILLVNCDRDDPSCDQDNCDQHVHCLQDLEDMSVMVLRTQGPAALFDDHKLVLHTSSYDAKRAQVFHICGPEDVCEAYRHVLGQDKVSYEVPRLHGDEERFFVEGLSFPDAGFTGLISFHVTLLDDSNASPIFTDTVVFRVAPWIMTPSTLPPLEVYVCRVRNNTCFVDAVAELARKAGCKLTICPRWIQDEMELGYVQAPHKTLPVVFDSPRNGELQDFPYKRILGPDFGYVTREPRVSGLDSFGNLEVSPPVVANGKEYPLGRILIGGNLPGRVTQVVRDFLHAQKVQPPVELFVDWLAVGHVDEFLSFVPAPDGKGFRMLLASPGACFKLFQEKQKCGHGRALLFQGVVDDVKTISINQVLSNKDLINYNKFVQSCIDWNREVLKRELGLAECDIIDIPQLFKTERKKATAFFPDLVNMLVLGKHLGIPKPFGPIINGCCCLEEKVRSLLEPLGLHCTFIDDFTPYHMLHGEVHCGTNVCRKPFSFKWWNMVP MSLQRIVRVSLEHPTSAVCVAGVETLVDIYGSVPEGTEMFEVYGTPGVDIYISPNMERGRERADTRRWRFDATLEIIVVMNSPSNDLNDSHVQISYHSSHEPLPLAYAVLYLTCVDISLDCDLNCEDKRQWVWGPSGYGGILLVNCDRDDVQDNCDQHVHCLQDLEDMSVMVLRTQGPAALFDDHKLVLHTSSYDAKRAQVFHICGPEDVCEAYRHVLGQDKVSYEVPRLHGDEERFFVEGLSFPDAGFTGLISFHVTLLDDSASPIFTDTVVFRVAPWIMTPSTLPPLEVYVCRVRNNTCFVDAVAELARKAGCKLTICPQRWIQDEMELGYVQAPHKTLPVVFDSPRNGELQDFPYKRILGPDFGYVTREPRSVSGLDSFGNLEVSPPVVANGKEYPLGRILIGGNLPGSRRVTQVVRDFLHAQKVQPPVELFVDWLAVGHVDEFLSFVPAPDGKGFRMLLASPGACFKLFQEKQKCGHGRALLFQGVVDDVKTISINQVLSNKDLINYNKFVQSCIDWNREVLKRELGLAECDIIDIPQLFKTERKKATAFFPDLVNMLVLGKHLGIPKPFGPIINGCCCLEEKVRSLLEPLGLHCTFIDDFTPYHMLHGEVHCGTNVCRKPFSFKWWNMVP 7das-a1-m1-cB_7das-a1-m1-cA Mouse Toll-like receptor 3 ectodomain in complex with lncRNA Rmrp in lapped form Q99MB1 Q99MB1 3.64 ELECTRON MICROSCOPY 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 671 674 YFQSQCTVRYNVADCSHLKLTHIPDDLPSNITVLNLTHNQLRRLPPTNFTRYSQLAILDAGFNSISKLEPELCQILPLLKVLNLQHNELSQISDQTFVFCTNLTELDLMSNSIHKIKSNPFKNQKNLIKLDLSHNGLSSTKLGTGVQLENLQELLLAKNKILALRSEELEFLGNSSLRKLDLSSNPLKEFSPGCFQTIGKLFALLLNNAQLNPHLTEKLCWELSNTSIQNLSLANNQLLATSESTFSGLKWTNLTQLDLSYNNLHDVGNGSFSYLPSLRYLSLEYNNIQRLSPRSFYGLSNLRYLSLKRAFTKQSASHPNIDDFSFQWLKYLEYLNMDDNNIPSTKSNTFTGLVSLKYLSLSKTFTSLQTLTNETFVSLAHSPLLTLNLTKNHISKIANGTFSWLGQLRILDLGLNEIEQKLSGQEWRGLRNIFEIYLSYNKYLQLSTSSFALVPSLQRLMLRRVALKNVDISPSPFRPLRNLTILDLSNNNIANINEDLLEGLENLEILDFQHNNLARLWKRANPGGPVNFLKGLSHLHILNLESNGLDEIPVGVFKNLFELKSINLGLNNLNKLEPFIFDDQTSLRSLNLQKNLITSVEKDVFGPPFQNLNSLDMRFNPFDCTCESISWFVNWINQTHTNISELSTHYLCNTPHHYYGFPLKLFDTSSC NLYFQSQCTVRYNVADCSHLKLTHIPDDLPSNITVLNLTHNQLRRLPPTNFTRYSQLAILDAGFNSISKLEPELCQILPLLKVLNLQHNELSQISDQTFVFCTNLTELDLMSNSIHKIKSNPFKNQKNLIKLDLSHNGLSSTKLGTGVQLENLQELLLAKNKILALRSEELEFLGNSSLRKLDLSSNPLKEFSPGCFQTIGKLFALLLNNAQLNPHLTEKLCWELSNTSIQNLSLANNQLLATSESTFSGLKWTNLTQLDLSYNNLHDVGNGSFSYLPSLRYLSLEYNNIQRLSPRSFYGLSNLRYLSLKRAFTKQSASHPNIDDFSFQWLKYLEYLNMDDNNIPSTKSNTFTGLVSLKYLSLSKTFTSLQTLTNETFVSLAHSPLLTLNLTKNHISKIANGTFSWLGQLRILDLGLNEIEQKLSGQEWRGLRNIFEIYLSYNKYLQLSTSSFALVPSLQRLMLRRVALKNVDISPSPFRPLRNLTILDLSNNNIANINEDLLEGLENLEILDFQHNNLARLWKRANPGGPVNFLKGLSHLHILNLESNGLDEIPVGVFKNLFELKSINLGLNNLNKLEPFIFDDQTSLRSLNLQKNLITSVEKDVFGPPFQNLNSLDMRFNPFDCTCESISWFVNWINQTHTNISELSTHYLCNTPHHYYGFPLKLFDTSSCK 7daw-a1-m1-cA_7daw-a1-m2-cA Crystal structure of Mycobacterium tuberculosis phenylalanyl-tRNA synthetase P9WFU3 P9WFU3 2.83 X-RAY DIFFRACTION 11 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 267 267 7db7-a1-m1-cA_7db7-a1-m2-cA 7db8-a1-m1-cA_7db8-a1-m2-cA 7k9m-a1-m1-cA_7k9m-a1-m2-cA 7ka0-a1-m1-cD_7ka0-a1-m1-cA 7kab-a1-m1-cA_7kab-a1-m2-cA DERLATLRAERDAAVLVAEGIDVTLPSTRVPAGARHPIIMLAEHVADTFIAMGWELAEGPEVETEQFNFDALNFPADHPARGEQDTFYIAPEDSRQLLRTHTSPVQIRTLLARELPVYIISIGRTFRTDELDATHTPIFHQVEGLAVDRGLSMAHLRGTLDAFARAEFGPSARTRIRPHFFPFTEPSAEVDVWFANKIGGAAWVEWGGCGMVHPNVLRATGIDPDLYSGFAFGMGLERTLQFRNGIPDMRDMVEGDVRFSLPFGVGA DERLATLRAERDAAVLVAEGIDVTLPSTRVPAGARHPIIMLAEHVADTFIAMGWELAEGPEVETEQFNFDALNFPADHPARGEQDTFYIAPEDSRQLLRTHTSPVQIRTLLARELPVYIISIGRTFRTDELDATHTPIFHQVEGLAVDRGLSMAHLRGTLDAFARAEFGPSARTRIRPHFFPFTEPSAEVDVWFANKIGGAAWVEWGGCGMVHPNVLRATGIDPDLYSGFAFGMGLERTLQFRNGIPDMRDMVEGDVRFSLPFGVGA 7dbe-a1-m1-cA_7dbe-a1-m1-cB Structure of a novel transaminase 1.9 X-RAY DIFFRACTION 125 1.0 2183910 (Rhodobacter sp. 140A) 2183910 (Rhodobacter sp. 140A) 330 332 7dbe-a1-m1-cC_7dbe-a1-m1-cD 7wud-a1-m1-cB_7wud-a1-m1-cC 7wud-a1-m1-cD_7wud-a1-m1-cA NQLTILEAGLDEIICETVPGEAIQYSRYSLDRTSPLAGGCAWIEGAFVPAAAARISIFDAGFGHSDVTYTVAHVWHGNFFRLEDHVERFLAGAEKMRIPMPATKAEIMDLMRGCVSKSGLREAYVNVCVTRGYGRKPGTLEALESQLYVYAIPYLWVFSPIRQIEGIDAVIAQSVRRSPANVMDPWIKNYQWGDLVRATFEAQERGARTAFLLDSDGFVTEGPGFNVLMVKDGTVFTAARNVLPGITRRTALEIARDFGLQTVIGDVTPEMLRGADEIFAATTAGGVTPVVALDGAPVGAGVPGDWTRKIRTRYWQMMDEPSDLIEPVSY NQLTILEAGLDEIICETVPGEAIQYSRYSLDRTSPLAGGCAWIEGAFVPAAAARISIFDAGFGHSDVTYTVAHVWHGNFFRLEDHVERFLAGAEKMRIPMPATKAEIMDLMRGCVSKSGLREAYVNVCVTRGYGRKPGEKTLEALESQLYVYAIPYLWVFSPIRQIEGIDAVIAQSVRRSPANVMDPWIKNYQWGDLVRATFEAQERGARTAFLLDSDGFVTEGPGFNVLMVKDGTVFTAARNVLPGITRRTALEIARDFGLQTVIGDVTPEMLRGADEIFAATTAGGVTPVVALDGAPVGAGVPGDWTRKIRTRYWQMMDEPSDLIEPVSY 7dbe-a1-m1-cD_7dbe-a1-m1-cA Structure of a novel transaminase 1.9 X-RAY DIFFRACTION 34 0.997 2183910 (Rhodobacter sp. 140A) 2183910 (Rhodobacter sp. 140A) 329 330 7dbe-a1-m1-cC_7dbe-a1-m1-cB 7wud-a1-m1-cD_7wud-a1-m1-cC NQLTILEAGLDEIICETVPGEAIQYSRYSLDRTSPLAGGCAWIEGAFVPAAAARISIFDAGFGHSDVTYTVAHVWHGNFFRLEDHVERFLAGAEKMRIPMPATKAEIMDLMRGCVSKSGLREAYVNVCVTRGYGRKPGEEALESQLYVYAIPYLWVFSPIRQIEGIDAVIAQSVRRSPANVMDPWIKNYQWGDLVRATFEAQERGARTAFLLDSDGFVTEGPGFNVLMVKDGTVFTAARNVLPGITRRTALEIARDFGLQTVIGDVTPEMLRGADEIFAATTAGGVTPVVALDGAPVGAGVPGDWTRKIRTRYWQMMDEPSDLIEPVSY NQLTILEAGLDEIICETVPGEAIQYSRYSLDRTSPLAGGCAWIEGAFVPAAAARISIFDAGFGHSDVTYTVAHVWHGNFFRLEDHVERFLAGAEKMRIPMPATKAEIMDLMRGCVSKSGLREAYVNVCVTRGYGRKPGTLEALESQLYVYAIPYLWVFSPIRQIEGIDAVIAQSVRRSPANVMDPWIKNYQWGDLVRATFEAQERGARTAFLLDSDGFVTEGPGFNVLMVKDGTVFTAARNVLPGITRRTALEIARDFGLQTVIGDVTPEMLRGADEIFAATTAGGVTPVVALDGAPVGAGVPGDWTRKIRTRYWQMMDEPSDLIEPVSY 7dbl-a1-m1-cB_7dbl-a1-m1-cA Acyl-CoA hydrolase MpaH' mutant S139A in complex with MPA A0A0B5LB55 A0A0B5LB55 1.84 X-RAY DIFFRACTION 203 1.0 5074 (Penicillium brevicompactum) 5074 (Penicillium brevicompactum) 418 422 7dbi-a1-m1-cD_7dbi-a1-m1-cA 7dbi-a2-m1-cB_7dbi-a2-m1-cC 7dbl-a2-m1-cC_7dbl-a2-m1-cD TEKFTITEHLVPGSHIREYPGSTVNQEDVLKIHVKQYTPKREGPVPDDAITFIATHGVGLPKELYEPLWDELLDQASGFHIRAIWMADVASMNQSGIHNEDKLSMDCSWMDHARDLLLMINHFRDQMPRPLVGIGHAFGGNIITNLAYLHPRLFTTLLLLDPLIQLSPPSLGFGTDAPSAINYTLWRDDVWPSREVAIRANRAIMQGMDPRCLDRMTKHFFRDLPTPLYPDVEAIKALFGTTADSTTTPVTLTTPKYHELVAQIRQNFNARDPKTGRIEVPRDTHADMDPLVAYIPLYRPEPRSTFRRLETLRPSCLWVIAGATFLNIDEIREGVKICGSGIGGSGGVPDGRVREVVLPGFGHLMPFQEVKTVAETCIVWLQQEMDRFRQTERQWKEDRDGKSHLAVEENWYKVLKPI MSTEKFTITEHLVPGSHIREYPGSTVNQEDVLKIHVKQYTPKREGPVPDDAITFIATHGVGLPKELYEPLWDELLDQASGFHIRAIWMADVASMNQSGIHNEDKLSMDCSWMDHARDLLLMINHFRDQMPRPLVGIGHAFGGNIITNLAYLHPRLFTTLLLLDPLIQLSPPSLGFGTDAPSAINYTLWRDDVWPSREVAIRANRAIMQGMDPRCLDRMTKHFFRDLPTPLYPDVEAIKALFGTTADSTTTPVTLTTPKYHELVAQIRQNFNARDPKTGRIEVPRDTHADMDPLVAYIPLYRPEPRSTFRRLETLRPSCLWVIAGATFLNIDEIREGVKICGSGIGGSGGVPDGRVREVVLPGFGHLMPFQEVKTVAETCIVWLQQEMDRFRQTERQWKEDRDGKSHLAVEENWYKVLKPIPS 7dbw-a2-m1-cA_7dbw-a2-m4-cB PnpA1, the oxygenase component of a two-component para-nitrophenol hydroxylase from Rhodococcus imtechensis RKJ300 I0WZP1 I0WZP1 2.5 X-RAY DIFFRACTION 26 1.0 1165867 (Rhodococcus opacus RKJ300 = JCM 13270) 1165867 (Rhodococcus opacus RKJ300 = JCM 13270) 498 498 7dbw-a1-m1-cC_7dbw-a1-m2-cC 7dbw-a1-m3-cC_7dbw-a1-m5-cC 7dbw-a2-m1-cB_7dbw-a2-m4-cA MRTGQQYLESLRDGRQVYVGGELIDDVTTHPKTSGYAKAIAEYYDLHLDPEHQDVLTFVDDDGVRKSMHWFLPRSKADAARRRAYHEFWFRHFQGGIFTRPPAGMHVVMYAQIDDPEPWGDNAVVAGGRTISFADNIRSQWQRVTTDDVALSPMFVDVQFDVETPMLSIVEQNDQGIVVRGWKAMGTSLPFVNELLVGNLWRPGQTSDQTVYAIVPVNTPGLSLVCRQSNATPDADPYDHPLSTIGDELDGMAYFDDVFIPWENVQHIGNPDHAKWYPQRQFDWVHIETQIRHAVHAELIVGLALLLTNALGTNNNPIVQSQLADLVRFRETCKAFAIAAEETGFTTAGGLFKPNNIYVDLGRAHYLENIHNAVNQLIEFCGRGVVMSPTKADFDHPFLGPKLEEALRGTSISARDRVSIFRQISERYLTQWGARHEMFEKFNGTPLYLVRLLTMQRTEYQVDGPLTDLARQVLGFGDTEALAARAAEVEKNSNWASV MRTGQQYLESLRDGRQVYVGGELIDDVTTHPKTSGYAKAIAEYYDLHLDPEHQDVLTFVDDDGVRKSMHWFLPRSKADAARRRAYHEFWFRHFQGGIFTRPPAGMHVVMYAQIDDPEPWGDNAVVAGGRTISFADNIRSQWQRVTTDDVALSPMFVDVQFDVETPMLSIVEQNDQGIVVRGWKAMGTSLPFVNELLVGNLWRPGQTSDQTVYAIVPVNTPGLSLVCRQSNATPDADPYDHPLSTIGDELDGMAYFDDVFIPWENVQHIGNPDHAKWYPQRQFDWVHIETQIRHAVHAELIVGLALLLTNALGTNNNPIVQSQLADLVRFRETCKAFAIAAEETGFTTAGGLFKPNNIYVDLGRAHYLENIHNAVNQLIEFCGRGVVMSPTKADFDHPFLGPKLEEALRGTSISARDRVSIFRQISERYLTQWGARHEMFEKFNGTPLYLVRLLTMQRTEYQVDGPLTDLARQVLGFGDTEALAARAAEVEKNSNWASV 7dbw-a2-m1-cB_7dbw-a2-m4-cB PnpA1, the oxygenase component of a two-component para-nitrophenol hydroxylase from Rhodococcus imtechensis RKJ300 I0WZP1 I0WZP1 2.5 X-RAY DIFFRACTION 152 1.0 1165867 (Rhodococcus opacus RKJ300 = JCM 13270) 1165867 (Rhodococcus opacus RKJ300 = JCM 13270) 498 498 7dbw-a1-m1-cC_7dbw-a1-m3-cC 7dbw-a1-m2-cC_7dbw-a1-m5-cC 7dbw-a2-m1-cA_7dbw-a2-m4-cA MRTGQQYLESLRDGRQVYVGGELIDDVTTHPKTSGYAKAIAEYYDLHLDPEHQDVLTFVDDDGVRKSMHWFLPRSKADAARRRAYHEFWFRHFQGGIFTRPPAGMHVVMYAQIDDPEPWGDNAVVAGGRTISFADNIRSQWQRVTTDDVALSPMFVDVQFDVETPMLSIVEQNDQGIVVRGWKAMGTSLPFVNELLVGNLWRPGQTSDQTVYAIVPVNTPGLSLVCRQSNATPDADPYDHPLSTIGDELDGMAYFDDVFIPWENVQHIGNPDHAKWYPQRQFDWVHIETQIRHAVHAELIVGLALLLTNALGTNNNPIVQSQLADLVRFRETCKAFAIAAEETGFTTAGGLFKPNNIYVDLGRAHYLENIHNAVNQLIEFCGRGVVMSPTKADFDHPFLGPKLEEALRGTSISARDRVSIFRQISERYLTQWGARHEMFEKFNGTPLYLVRLLTMQRTEYQVDGPLTDLARQVLGFGDTEALAARAAEVEKNSNWASV MRTGQQYLESLRDGRQVYVGGELIDDVTTHPKTSGYAKAIAEYYDLHLDPEHQDVLTFVDDDGVRKSMHWFLPRSKADAARRRAYHEFWFRHFQGGIFTRPPAGMHVVMYAQIDDPEPWGDNAVVAGGRTISFADNIRSQWQRVTTDDVALSPMFVDVQFDVETPMLSIVEQNDQGIVVRGWKAMGTSLPFVNELLVGNLWRPGQTSDQTVYAIVPVNTPGLSLVCRQSNATPDADPYDHPLSTIGDELDGMAYFDDVFIPWENVQHIGNPDHAKWYPQRQFDWVHIETQIRHAVHAELIVGLALLLTNALGTNNNPIVQSQLADLVRFRETCKAFAIAAEETGFTTAGGLFKPNNIYVDLGRAHYLENIHNAVNQLIEFCGRGVVMSPTKADFDHPFLGPKLEEALRGTSISARDRVSIFRQISERYLTQWGARHEMFEKFNGTPLYLVRLLTMQRTEYQVDGPLTDLARQVLGFGDTEALAARAAEVEKNSNWASV 7dbw-a2-m4-cA_7dbw-a2-m4-cB PnpA1, the oxygenase component of a two-component para-nitrophenol hydroxylase from Rhodococcus imtechensis RKJ300 I0WZP1 I0WZP1 2.5 X-RAY DIFFRACTION 234 1.0 1165867 (Rhodococcus opacus RKJ300 = JCM 13270) 1165867 (Rhodococcus opacus RKJ300 = JCM 13270) 498 498 7dbw-a1-m1-cC_7dbw-a1-m5-cC 7dbw-a1-m2-cC_7dbw-a1-m3-cC 7dbw-a2-m1-cA_7dbw-a2-m1-cB MRTGQQYLESLRDGRQVYVGGELIDDVTTHPKTSGYAKAIAEYYDLHLDPEHQDVLTFVDDDGVRKSMHWFLPRSKADAARRRAYHEFWFRHFQGGIFTRPPAGMHVVMYAQIDDPEPWGDNAVVAGGRTISFADNIRSQWQRVTTDDVALSPMFVDVQFDVETPMLSIVEQNDQGIVVRGWKAMGTSLPFVNELLVGNLWRPGQTSDQTVYAIVPVNTPGLSLVCRQSNATPDADPYDHPLSTIGDELDGMAYFDDVFIPWENVQHIGNPDHAKWYPQRQFDWVHIETQIRHAVHAELIVGLALLLTNALGTNNNPIVQSQLADLVRFRETCKAFAIAAEETGFTTAGGLFKPNNIYVDLGRAHYLENIHNAVNQLIEFCGRGVVMSPTKADFDHPFLGPKLEEALRGTSISARDRVSIFRQISERYLTQWGARHEMFEKFNGTPLYLVRLLTMQRTEYQVDGPLTDLARQVLGFGDTEALAARAAEVEKNSNWASV MRTGQQYLESLRDGRQVYVGGELIDDVTTHPKTSGYAKAIAEYYDLHLDPEHQDVLTFVDDDGVRKSMHWFLPRSKADAARRRAYHEFWFRHFQGGIFTRPPAGMHVVMYAQIDDPEPWGDNAVVAGGRTISFADNIRSQWQRVTTDDVALSPMFVDVQFDVETPMLSIVEQNDQGIVVRGWKAMGTSLPFVNELLVGNLWRPGQTSDQTVYAIVPVNTPGLSLVCRQSNATPDADPYDHPLSTIGDELDGMAYFDDVFIPWENVQHIGNPDHAKWYPQRQFDWVHIETQIRHAVHAELIVGLALLLTNALGTNNNPIVQSQLADLVRFRETCKAFAIAAEETGFTTAGGLFKPNNIYVDLGRAHYLENIHNAVNQLIEFCGRGVVMSPTKADFDHPFLGPKLEEALRGTSISARDRVSIFRQISERYLTQWGARHEMFEKFNGTPLYLVRLLTMQRTEYQVDGPLTDLARQVLGFGDTEALAARAAEVEKNSNWASV 7dc3-a3-m3-cC_7dc3-a3-m5-cC Crystal structure of the MyRF ICA domain Q3UR85 Q3UR85 2.4 X-RAY DIFFRACTION 164 1.0 10090 (Mus musculus) 10090 (Mus musculus) 138 138 7dc3-a1-m1-cA_7dc3-a1-m2-cA 7dc3-a1-m1-cA_7dc3-a1-m4-cA 7dc3-a1-m2-cA_7dc3-a1-m4-cA 7dc3-a2-m1-cB_7dc3-a2-m2-cB 7dc3-a2-m1-cB_7dc3-a2-m4-cB 7dc3-a2-m2-cB_7dc3-a2-m4-cB 7dc3-a3-m1-cC_7dc3-a3-m3-cC 7dc3-a3-m1-cC_7dc3-a3-m5-cC TDRPDEALVVHGNVKVGSLHPADLRAKEHVQEVDTTEQLKRISRRLVHYRYKPEFAASAGIEATAPETGVIAQEVKEILPEAVKDTGDVVFANGKTIENFLVVNKERIFENVGAVKELCKLTDNLETRIDELERWSHK TDRPDEALVVHGNVKVGSLHPADLRAKEHVQEVDTTEQLKRISRRLVHYRYKPEFAASAGIEATAPETGVIAQEVKEILPEAVKDTGDVVFANGKTIENFLVVNKERIFENVGAVKELCKLTDNLETRIDELERWSHK 7dck-a1-m1-cB_7dck-a1-m1-cA Crystal structure of phosphodiesterase tw9814 A0A426W059 A0A426W059 2.34 X-RAY DIFFRACTION 56 1.0 2496635 (Epsilonproteobacteria bacterium (ex Lamellibrachia satsuma)) 2496635 (Epsilonproteobacteria bacterium (ex Lamellibrachia satsuma)) 241 246 HHMASNTVKITISFDNYAYLEGFQTLWGFSCFVETDETTFLFDTGSNGRVLLQNMQQLDIDLKKAEALILSHPHWDHIGGVDSVLEVHPQMHLFVPNSLSKHLIRDLNAQTLGVTVINESPQQLLPSVYSTGVMGDIGEQSIVIDTEKGLVVITGCAHPGIEHIAARSIEMLQKPIYLLMGGFHLMYENTARISEVIETLDELGIQNVCPTHCSGDLAISMFKSHFGDRCLQGGIGRVITI SHHHHHHMASNTVKITISFDNYAYLEGFQTLWGFSCFVETDETTFLFDTGSNGRVLLQNMQQLDIDLKKAEALILSHPHWDHIGGVDSVLEVHPQMHLFVPNSLSKHLIRDLNAQTLGVTVINESPQQLLPSVYSTGVMGDIGEQSIVIDTEKGLVVITGCAHPGIEHIAARSIEMLQKPIYLLMGGFHLMYENTARISEVIETLDELGIQNVCPTHCSGDLAISMFKSHFGDRCLQGGIGRVITI 7dcs-a2-m1-cF_7dcs-a2-m1-cE Crystal structure of HSF1 DNA-binding domain in complex with 3-site HSE DNA (23 bp) Q00613 Q00613 2.4 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 105 7dcs-a1-m1-cC_7dcs-a1-m1-cB 7dct-a1-m1-cC_7dct-a1-m1-cB 7dct-a2-m1-cF_7dct-a2-m1-cE VPAFLTKLWTLVSDPDTDALICWSPSGNSFHVFDQGQFAKEVLPKYFKHNNMASFVRQLNMYGFRKVVHDTEFQHPCFLRGQEQLLENIKRKV VPAFLTKLWTLVSDPDTDALICWSPSGNSFHVFDQGQFAKEVLPKYFKHNNMASFVRQLNMYGFRKVVHIEQGGLVKPERDDTEFQHPCFLRGQEQLLENIKRKV 7dcu-a1-m1-cC_7dcu-a1-m1-cB Crystal structure of HSF2 DNA-binding domain in complex with 3-site HSE DNA (21 bp) Q03933 Q03933 1.75 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 92 102 VPAFLSKLWTLVEETHTNEFITWSQNGQSFLVLDEQRFAKEILPKYFKHNNMASFVRQLNMYGFRKVVPVEFQHPYFKQGQDDLLENIKRKV VPAFLSKLWTLVEETHTNEFITWSQNGQSFLVLDEQRFAKEILPKYFKHNNMASFVRQLNMYGFRKVVHIDSGIRDGPVEFQHPYFKQGQDDLLENIKRKVS 7dd0-a2-m1-cD_7dd0-a2-m1-cB Crystal structure of the N-terminal domain of TagH from Bacillus subtilis P42954 P42954 2.7 X-RAY DIFFRACTION 126 0.996 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 241 260 7dd0-a1-m1-cA_7dd0-a1-m1-cC MKLKVSFRNVSKQYHLYKGFFAVRNVSFDVYEGETIGFVGINGSGKSTMSNLLAKIIPPTSGEIEMNGQPSLIAIAAGLNNQLTGRDNVRLKCLMMGLTNKEIDDMYDSIVEFAEIGDFINQPVKNYSSGMKSRLGFAISVHIDPDILIIDEALSVGDQTFYQKCVDRINEFKKQGKTIFFVSHSIGQIEKMCDRVAWMHYGELRMFDETKTVVKEYKAFIDWFNKLSKKEKETYKKEQTE KLKVSFRNVSKQYHLYKKQSDKIKGLFFPAKDNGFFAVRNVSFDVYEGETIGFVGINGSGKSTMSNLLAKIIPPTSGEIEMNGQPSLIAIAAGLNNQLTGRDNVRLKCLMMGLTNKEIDDMYDSIVEFAEIGDFINQPVKNYSSGMKSRLGFAISVHIDPDILIIDEALSVGDQTFYQKCVDRINEFKKQGKTIFFVSHSIGQIEKMCDRVAWMHYGELRMFDETKTVVKEYKAFIDWFNKLSKKEKETYKKEQTEERKK 7dd2-a1-m1-cD_7dd2-a1-m1-cK S-3C1-F2 structure, two RBDs are up and one RBD is down, the two up RBD bind with a 3C1 fab. P0DTC2 P0DTC2 5.6 ELECTRON MICROSCOPY 321 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1059 1061 7dcx-a1-m1-cD_7dcx-a1-m1-cK 7dd8-a1-m1-cD_7dd8-a1-m1-cE QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7dd9-a1-m1-cA_7dd9-a1-m1-cG Cryo-EM structure of the Ams1 and Nbr1 complex P0AEX9 P0AEX9 2.4 ELECTRON MICROSCOPY 120 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 1129 1129 6lz1-a1-m1-cA_6lz1-a1-m1-cD 6lz1-a1-m1-cB_6lz1-a1-m1-cC 7dd9-a1-m1-cC_7dd9-a1-m1-cE TLFPVLNNTPVGKQVDSIYESRLDQFLSEGQYRDFNLPSVYDHARIDNPSGDVNNDLSKGFVDLKVYRVPDLSRPSFNEVVGHKKFDETASKGDTFGPSWATFWFEVHIRLPKSWAKYEQVIFQWNCDNEGLVYSQDGVPLQAFSGSERTDFILPDSWKTTEDTFYIEMACNGMFGTGAGSQIAPPDPNRYFTLTKADLVAPNLPAMALAYDFLLMQQCVKQLPSNCWQKYKARQICNDIMNTFHPNDLSTINECRNLAKAFLGNDIDSEAVFEKNNDKANVFAIGHCHIDTAWLWPFAETRRKIVRSWATQMNIMDRYPEYQFVCSQALQYLWLKEDHPDVFEKLKEYVNQNKFIPIGGSWVEHDTNIPNGESLIRQFLLGQHFFEKEFGVRCRTFWLPDTFGYSSQIPQICRLCGMDRFLTQKLSWNNINSFPTSTFNWVALDGSQVICHMPPANTYTADTNVNDVLHSIDQHKNLVNDQAGLLVFGIGDGGGGPTPEMLEKLRRCKGIANTVGYLPNVKLGNTVDEFFDGILKRTNAGQTLPSWNGELYFEFHRGTYTTQAELKKLMRKVEIALHDAEYVSTLASIFSKDYSYPKESLQDLWRDTLLCQFHDVLPGSCIEMVYKDAIPIMSKVLKNTEALLWQAIEQLGFKKASSSDNKEQLCLLNTLPWNVRGVITETEENKLVYFESCDGKGILTAAHTSLKHPAAAYQKDDNFILVNDHLRVTIAPNGLILSLFDLHKEREILDLKSGKNHAGANQYVLFEDTPLSWQAWDTEVFSLEKYEVLDKGKVSIKESGPLRASVVVDIPISELSHMKATISLEGYNDCSEFTGVNFTCEVDWHESCKFLKVEFPVDIHSEFASYETQFGITKRPTHYNTSWDVAKFEVCHQKFADYSDFTYGVSVLNDCKYGFSTHGNLMRLSLLRSPKQPDAHADMGKHTIRYAVYPHSKPLDSSTVRAAHKFNSNFRLLTRASDTANLDIFDAFQLVGEPNVILSHIKMAEKGKSIILRVYESLGGKSRARLVIKSLTVASVTKCNGLEEDLEELCTLKSNDYYEVPIELRAFEIATFKVNLGFKSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS TLFPVLNNTPVGKQVDSIYESRLDQFLSEGQYRDFNLPSVYDHARIDNPSGDVNNDLSKGFVDLKVYRVPDLSRPSFNEVVGHKKFDETASKGDTFGPSWATFWFEVHIRLPKSWAKYEQVIFQWNCDNEGLVYSQDGVPLQAFSGSERTDFILPDSWKTTEDTFYIEMACNGMFGTGAGSQIAPPDPNRYFTLTKADLVAPNLPAMALAYDFLLMQQCVKQLPSNCWQKYKARQICNDIMNTFHPNDLSTINECRNLAKAFLGNDIDSEAVFEKNNDKANVFAIGHCHIDTAWLWPFAETRRKIVRSWATQMNIMDRYPEYQFVCSQALQYLWLKEDHPDVFEKLKEYVNQNKFIPIGGSWVEHDTNIPNGESLIRQFLLGQHFFEKEFGVRCRTFWLPDTFGYSSQIPQICRLCGMDRFLTQKLSWNNINSFPTSTFNWVALDGSQVICHMPPANTYTADTNVNDVLHSIDQHKNLVNDQAGLLVFGIGDGGGGPTPEMLEKLRRCKGIANTVGYLPNVKLGNTVDEFFDGILKRTNAGQTLPSWNGELYFEFHRGTYTTQAELKKLMRKVEIALHDAEYVSTLASIFSKDYSYPKESLQDLWRDTLLCQFHDVLPGSCIEMVYKDAIPIMSKVLKNTEALLWQAIEQLGFKKASSSDNKEQLCLLNTLPWNVRGVITETEENKLVYFESCDGKGILTAAHTSLKHPAAAYQKDDNFILVNDHLRVTIAPNGLILSLFDLHKEREILDLKSGKNHAGANQYVLFEDTPLSWQAWDTEVFSLEKYEVLDKGKVSIKESGPLRASVVVDIPISELSHMKATISLEGYNDCSEFTGVNFTCEVDWHESCKFLKVEFPVDIHSEFASYETQFGITKRPTHYNTSWDVAKFEVCHQKFADYSDFTYGVSVLNDCKYGFSTHGNLMRLSLLRSPKQPDAHADMGKHTIRYAVYPHSKPLDSSTVRAAHKFNSNFRLLTRASDTANLDIFDAFQLVGEPNVILSHIKMAEKGKSIILRVYESLGGKSRARLVIKSLTVASVTKCNGLEEDLEELCTLKSNDYYEVPIELRAFEIATFKVNLGFKSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS 7dd9-a1-m1-cC_7dd9-a1-m1-cG Cryo-EM structure of the Ams1 and Nbr1 complex P0AEX9 P0AEX9 2.4 ELECTRON MICROSCOPY 156 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 1129 1129 6lz1-a1-m1-cA_6lz1-a1-m1-cC 6lz1-a1-m1-cB_6lz1-a1-m1-cD 7dd9-a1-m1-cA_7dd9-a1-m1-cE TLFPVLNNTPVGKQVDSIYESRLDQFLSEGQYRDFNLPSVYDHARIDNPSGDVNNDLSKGFVDLKVYRVPDLSRPSFNEVVGHKKFDETASKGDTFGPSWATFWFEVHIRLPKSWAKYEQVIFQWNCDNEGLVYSQDGVPLQAFSGSERTDFILPDSWKTTEDTFYIEMACNGMFGTGAGSQIAPPDPNRYFTLTKADLVAPNLPAMALAYDFLLMQQCVKQLPSNCWQKYKARQICNDIMNTFHPNDLSTINECRNLAKAFLGNDIDSEAVFEKNNDKANVFAIGHCHIDTAWLWPFAETRRKIVRSWATQMNIMDRYPEYQFVCSQALQYLWLKEDHPDVFEKLKEYVNQNKFIPIGGSWVEHDTNIPNGESLIRQFLLGQHFFEKEFGVRCRTFWLPDTFGYSSQIPQICRLCGMDRFLTQKLSWNNINSFPTSTFNWVALDGSQVICHMPPANTYTADTNVNDVLHSIDQHKNLVNDQAGLLVFGIGDGGGGPTPEMLEKLRRCKGIANTVGYLPNVKLGNTVDEFFDGILKRTNAGQTLPSWNGELYFEFHRGTYTTQAELKKLMRKVEIALHDAEYVSTLASIFSKDYSYPKESLQDLWRDTLLCQFHDVLPGSCIEMVYKDAIPIMSKVLKNTEALLWQAIEQLGFKKASSSDNKEQLCLLNTLPWNVRGVITETEENKLVYFESCDGKGILTAAHTSLKHPAAAYQKDDNFILVNDHLRVTIAPNGLILSLFDLHKEREILDLKSGKNHAGANQYVLFEDTPLSWQAWDTEVFSLEKYEVLDKGKVSIKESGPLRASVVVDIPISELSHMKATISLEGYNDCSEFTGVNFTCEVDWHESCKFLKVEFPVDIHSEFASYETQFGITKRPTHYNTSWDVAKFEVCHQKFADYSDFTYGVSVLNDCKYGFSTHGNLMRLSLLRSPKQPDAHADMGKHTIRYAVYPHSKPLDSSTVRAAHKFNSNFRLLTRASDTANLDIFDAFQLVGEPNVILSHIKMAEKGKSIILRVYESLGGKSRARLVIKSLTVASVTKCNGLEEDLEELCTLKSNDYYEVPIELRAFEIATFKVNLGFKSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS TLFPVLNNTPVGKQVDSIYESRLDQFLSEGQYRDFNLPSVYDHARIDNPSGDVNNDLSKGFVDLKVYRVPDLSRPSFNEVVGHKKFDETASKGDTFGPSWATFWFEVHIRLPKSWAKYEQVIFQWNCDNEGLVYSQDGVPLQAFSGSERTDFILPDSWKTTEDTFYIEMACNGMFGTGAGSQIAPPDPNRYFTLTKADLVAPNLPAMALAYDFLLMQQCVKQLPSNCWQKYKARQICNDIMNTFHPNDLSTINECRNLAKAFLGNDIDSEAVFEKNNDKANVFAIGHCHIDTAWLWPFAETRRKIVRSWATQMNIMDRYPEYQFVCSQALQYLWLKEDHPDVFEKLKEYVNQNKFIPIGGSWVEHDTNIPNGESLIRQFLLGQHFFEKEFGVRCRTFWLPDTFGYSSQIPQICRLCGMDRFLTQKLSWNNINSFPTSTFNWVALDGSQVICHMPPANTYTADTNVNDVLHSIDQHKNLVNDQAGLLVFGIGDGGGGPTPEMLEKLRRCKGIANTVGYLPNVKLGNTVDEFFDGILKRTNAGQTLPSWNGELYFEFHRGTYTTQAELKKLMRKVEIALHDAEYVSTLASIFSKDYSYPKESLQDLWRDTLLCQFHDVLPGSCIEMVYKDAIPIMSKVLKNTEALLWQAIEQLGFKKASSSDNKEQLCLLNTLPWNVRGVITETEENKLVYFESCDGKGILTAAHTSLKHPAAAYQKDDNFILVNDHLRVTIAPNGLILSLFDLHKEREILDLKSGKNHAGANQYVLFEDTPLSWQAWDTEVFSLEKYEVLDKGKVSIKESGPLRASVVVDIPISELSHMKATISLEGYNDCSEFTGVNFTCEVDWHESCKFLKVEFPVDIHSEFASYETQFGITKRPTHYNTSWDVAKFEVCHQKFADYSDFTYGVSVLNDCKYGFSTHGNLMRLSLLRSPKQPDAHADMGKHTIRYAVYPHSKPLDSSTVRAAHKFNSNFRLLTRASDTANLDIFDAFQLVGEPNVILSHIKMAEKGKSIILRVYESLGGKSRARLVIKSLTVASVTKCNGLEEDLEELCTLKSNDYYEVPIELRAFEIATFKVNLGFKSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS 7dd9-a1-m1-cE_7dd9-a1-m1-cG Cryo-EM structure of the Ams1 and Nbr1 complex P0AEX9 P0AEX9 2.4 ELECTRON MICROSCOPY 106 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 1129 1129 6lz1-a1-m1-cA_6lz1-a1-m1-cB 6lz1-a1-m1-cC_6lz1-a1-m1-cD 7dd9-a1-m1-cA_7dd9-a1-m1-cC TLFPVLNNTPVGKQVDSIYESRLDQFLSEGQYRDFNLPSVYDHARIDNPSGDVNNDLSKGFVDLKVYRVPDLSRPSFNEVVGHKKFDETASKGDTFGPSWATFWFEVHIRLPKSWAKYEQVIFQWNCDNEGLVYSQDGVPLQAFSGSERTDFILPDSWKTTEDTFYIEMACNGMFGTGAGSQIAPPDPNRYFTLTKADLVAPNLPAMALAYDFLLMQQCVKQLPSNCWQKYKARQICNDIMNTFHPNDLSTINECRNLAKAFLGNDIDSEAVFEKNNDKANVFAIGHCHIDTAWLWPFAETRRKIVRSWATQMNIMDRYPEYQFVCSQALQYLWLKEDHPDVFEKLKEYVNQNKFIPIGGSWVEHDTNIPNGESLIRQFLLGQHFFEKEFGVRCRTFWLPDTFGYSSQIPQICRLCGMDRFLTQKLSWNNINSFPTSTFNWVALDGSQVICHMPPANTYTADTNVNDVLHSIDQHKNLVNDQAGLLVFGIGDGGGGPTPEMLEKLRRCKGIANTVGYLPNVKLGNTVDEFFDGILKRTNAGQTLPSWNGELYFEFHRGTYTTQAELKKLMRKVEIALHDAEYVSTLASIFSKDYSYPKESLQDLWRDTLLCQFHDVLPGSCIEMVYKDAIPIMSKVLKNTEALLWQAIEQLGFKKASSSDNKEQLCLLNTLPWNVRGVITETEENKLVYFESCDGKGILTAAHTSLKHPAAAYQKDDNFILVNDHLRVTIAPNGLILSLFDLHKEREILDLKSGKNHAGANQYVLFEDTPLSWQAWDTEVFSLEKYEVLDKGKVSIKESGPLRASVVVDIPISELSHMKATISLEGYNDCSEFTGVNFTCEVDWHESCKFLKVEFPVDIHSEFASYETQFGITKRPTHYNTSWDVAKFEVCHQKFADYSDFTYGVSVLNDCKYGFSTHGNLMRLSLLRSPKQPDAHADMGKHTIRYAVYPHSKPLDSSTVRAAHKFNSNFRLLTRASDTANLDIFDAFQLVGEPNVILSHIKMAEKGKSIILRVYESLGGKSRARLVIKSLTVASVTKCNGLEEDLEELCTLKSNDYYEVPIELRAFEIATFKVNLGFKSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS TLFPVLNNTPVGKQVDSIYESRLDQFLSEGQYRDFNLPSVYDHARIDNPSGDVNNDLSKGFVDLKVYRVPDLSRPSFNEVVGHKKFDETASKGDTFGPSWATFWFEVHIRLPKSWAKYEQVIFQWNCDNEGLVYSQDGVPLQAFSGSERTDFILPDSWKTTEDTFYIEMACNGMFGTGAGSQIAPPDPNRYFTLTKADLVAPNLPAMALAYDFLLMQQCVKQLPSNCWQKYKARQICNDIMNTFHPNDLSTINECRNLAKAFLGNDIDSEAVFEKNNDKANVFAIGHCHIDTAWLWPFAETRRKIVRSWATQMNIMDRYPEYQFVCSQALQYLWLKEDHPDVFEKLKEYVNQNKFIPIGGSWVEHDTNIPNGESLIRQFLLGQHFFEKEFGVRCRTFWLPDTFGYSSQIPQICRLCGMDRFLTQKLSWNNINSFPTSTFNWVALDGSQVICHMPPANTYTADTNVNDVLHSIDQHKNLVNDQAGLLVFGIGDGGGGPTPEMLEKLRRCKGIANTVGYLPNVKLGNTVDEFFDGILKRTNAGQTLPSWNGELYFEFHRGTYTTQAELKKLMRKVEIALHDAEYVSTLASIFSKDYSYPKESLQDLWRDTLLCQFHDVLPGSCIEMVYKDAIPIMSKVLKNTEALLWQAIEQLGFKKASSSDNKEQLCLLNTLPWNVRGVITETEENKLVYFESCDGKGILTAAHTSLKHPAAAYQKDDNFILVNDHLRVTIAPNGLILSLFDLHKEREILDLKSGKNHAGANQYVLFEDTPLSWQAWDTEVFSLEKYEVLDKGKVSIKESGPLRASVVVDIPISELSHMKATISLEGYNDCSEFTGVNFTCEVDWHESCKFLKVEFPVDIHSEFASYETQFGITKRPTHYNTSWDVAKFEVCHQKFADYSDFTYGVSVLNDCKYGFSTHGNLMRLSLLRSPKQPDAHADMGKHTIRYAVYPHSKPLDSSTVRAAHKFNSNFRLLTRASDTANLDIFDAFQLVGEPNVILSHIKMAEKGKSIILRVYESLGGKSRARLVIKSLTVASVTKCNGLEEDLEELCTLKSNDYYEVPIELRAFEIATFKVNLGFKSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS 7dda-a1-m2-cA_7dda-a1-m3-cA Envelope protein VP37 a crystal structure from White Spot Syndrome Virus A0A2U9GDM4 A0A2U9GDM4 2.51 X-RAY DIFFRACTION 38 1.0 92652 (Shrimp white spot syndrome virus) 92652 (Shrimp white spot syndrome virus) 122 122 7dda-a1-m1-cA_7dda-a1-m2-cA 7dda-a1-m1-cA_7dda-a1-m3-cA SDSKTATVIVKADCETGDIDEVYNLAVADSFHIYKISATDSDSGNTKKLLYGLRNKKAGYTCLCRIFAEIESDGIMANTNIGVAENNRDEIDENEEGKYGFLIPKQPAGAKLIIYFFLNCWT SDSKTATVIVKADCETGDIDEVYNLAVADSFHIYKISATDSDSGNTKKLLYGLRNKKAGYTCLCRIFAEIESDGIMANTNIGVAENNRDEIDENEEGKYGFLIPKQPAGAKLIIYFFLNCWT 7dde-a1-m1-cE_7dde-a1-m1-cX Cryo-EM structure of the Ape4 and Nbr1 complex P0AEX9 P0AEX9 2.26 ELECTRON MICROSCOPY 288 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 525 525 7dde-a1-m1-cA_7dde-a1-m1-cC 7dde-a1-m1-cG_7dde-a1-m1-cM 7dde-a1-m1-cI_7dde-a1-m1-cK 7dde-a1-m1-cO_7dde-a1-m1-cV 7dde-a1-m1-cQ_7dde-a1-m1-cS MQLHGKMTATAKSCALDFLDFVNASPTPYHAVQNLAEHYMSHGFQYLSEKSDWQSKIEPGNSYFVTRNKSSIIAFSIGKKWKPGNGFSIIATHTDSPTLRLKPKSQKSAYGYLQVGVEKYGGGIWHTWFDRDLSLAGRVMVEEEDGRVIQYNVHIDRPLLRIPTLAIHLDPSANSSFSFNMETEFVPLIGLENELAKEETSDNGDKYHHPVLLSLLANEISKSLETTIDPSKIVDFELILGDAEKARLGGIHEEFVFSPRLDNLGMTFCASQALTKSLENNSLDNESCVRVVPSFDHEEIGSVSAQGAESTFLPAVLQRICELGKESSLFSISMVKSFLVSADMAHAMHPNYSSRYENSNTPFLNKGTVIKVNANQRYTTNSAGIVLLKKVAQLADVPIQSFVVRNDSPCGSTIGPKLAAMTGMRTLDLGNPMLSMHSCREMCGSKDFEYAVVLFSSFFQNFANLEEKIIIDEGFSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS MQLHGKMTATAKSCALDFLDFVNASPTPYHAVQNLAEHYMSHGFQYLSEKSDWQSKIEPGNSYFVTRNKSSIIAFSIGKKWKPGNGFSIIATHTDSPTLRLKPKSQKSAYGYLQVGVEKYGGGIWHTWFDRDLSLAGRVMVEEEDGRVIQYNVHIDRPLLRIPTLAIHLDPSANSSFSFNMETEFVPLIGLENELAKEETSDNGDKYHHPVLLSLLANEISKSLETTIDPSKIVDFELILGDAEKARLGGIHEEFVFSPRLDNLGMTFCASQALTKSLENNSLDNESCVRVVPSFDHEEIGSVSAQGAESTFLPAVLQRICELGKESSLFSISMVKSFLVSADMAHAMHPNYSSRYENSNTPFLNKGTVIKVNANQRYTTNSAGIVLLKKVAQLADVPIQSFVVRNDSPCGSTIGPKLAAMTGMRTLDLGNPMLSMHSCREMCGSKDFEYAVVLFSSFFQNFANLEEKIIIDEGFSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS 7dde-a1-m1-cV_7dde-a1-m1-cX Cryo-EM structure of the Ape4 and Nbr1 complex P0AEX9 P0AEX9 2.26 ELECTRON MICROSCOPY 151 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 525 525 7dde-a1-m1-cA_7dde-a1-m1-cI 7dde-a1-m1-cA_7dde-a1-m1-cQ 7dde-a1-m1-cC_7dde-a1-m1-cE 7dde-a1-m1-cC_7dde-a1-m1-cG 7dde-a1-m1-cE_7dde-a1-m1-cG 7dde-a1-m1-cI_7dde-a1-m1-cQ 7dde-a1-m1-cK_7dde-a1-m1-cM 7dde-a1-m1-cK_7dde-a1-m1-cO 7dde-a1-m1-cM_7dde-a1-m1-cO 7dde-a1-m1-cS_7dde-a1-m1-cV 7dde-a1-m1-cS_7dde-a1-m1-cX MQLHGKMTATAKSCALDFLDFVNASPTPYHAVQNLAEHYMSHGFQYLSEKSDWQSKIEPGNSYFVTRNKSSIIAFSIGKKWKPGNGFSIIATHTDSPTLRLKPKSQKSAYGYLQVGVEKYGGGIWHTWFDRDLSLAGRVMVEEEDGRVIQYNVHIDRPLLRIPTLAIHLDPSANSSFSFNMETEFVPLIGLENELAKEETSDNGDKYHHPVLLSLLANEISKSLETTIDPSKIVDFELILGDAEKARLGGIHEEFVFSPRLDNLGMTFCASQALTKSLENNSLDNESCVRVVPSFDHEEIGSVSAQGAESTFLPAVLQRICELGKESSLFSISMVKSFLVSADMAHAMHPNYSSRYENSNTPFLNKGTVIKVNANQRYTTNSAGIVLLKKVAQLADVPIQSFVVRNDSPCGSTIGPKLAAMTGMRTLDLGNPMLSMHSCREMCGSKDFEYAVVLFSSFFQNFANLEEKIIIDEGFSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS MQLHGKMTATAKSCALDFLDFVNASPTPYHAVQNLAEHYMSHGFQYLSEKSDWQSKIEPGNSYFVTRNKSSIIAFSIGKKWKPGNGFSIIATHTDSPTLRLKPKSQKSAYGYLQVGVEKYGGGIWHTWFDRDLSLAGRVMVEEEDGRVIQYNVHIDRPLLRIPTLAIHLDPSANSSFSFNMETEFVPLIGLENELAKEETSDNGDKYHHPVLLSLLANEISKSLETTIDPSKIVDFELILGDAEKARLGGIHEEFVFSPRLDNLGMTFCASQALTKSLENNSLDNESCVRVVPSFDHEEIGSVSAQGAESTFLPAVLQRICELGKESSLFSISMVKSFLVSADMAHAMHPNYSSRYENSNTPFLNKGTVIKVNANQRYTTNSAGIVLLKKVAQLADVPIQSFVVRNDSPCGSTIGPKLAAMTGMRTLDLGNPMLSMHSCREMCGSKDFEYAVVLFSSFFQNFANLEEKIIIDEGFSVACNTCLKIIRNDSFHCTKCFDFDVCRDCYAKQAFLHPCPKPHFVLVRS 7ddn-a1-m1-cA_7ddn-a1-m1-cC SARS-Cov2 S protein at open state P0DTC2 P0DTC2 6.3 ELECTRON MICROSCOPY 261 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1066 1068 7ddn-a1-m1-cA_7ddn-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ddq-a1-m1-cf_7ddq-a1-m1-cg Structure of RC-LH1-PufX from Rhodobacter veldkampii A0A2T4JIR4 A0A2T4JIR4 2.84 ELECTRON MICROSCOPY 13 1.0 1185920 (Phaeovulum veldkampii DSM 11550) 1185920 (Phaeovulum veldkampii DSM 11550) 53 53 7ddq-a1-m1-ca_7ddq-a1-m1-cb 7ddq-a1-m1-cb_7ddq-a1-m1-cd 7ddq-a1-m1-cd_7ddq-a1-m1-ce 7ddq-a1-m1-ce_7ddq-a1-m1-cf 7ddq-a1-m1-cg_7ddq-a1-m1-ci 7ddq-a1-m1-cj_7ddq-a1-m1-ck 7ddq-a1-m1-ck_7ddq-a1-m1-cn 7ddq-a1-m1-cn_7ddq-a1-m1-co 7ddq-a1-m1-co_7ddq-a1-m1-cr 7ddq-a1-m1-cr_7ddq-a1-m1-cs 7ddq-a1-m1-cs_7ddq-a1-m1-ct 7ddq-a1-m1-cu_7ddq-a1-m1-ct SKFYKIWLIFDPRRVFVAQGVFLFLLAVMIHLMLLSNPGFNWLDISGVKYERV SKFYKIWLIFDPRRVFVAQGVFLFLLAVMIHLMLLSNPGFNWLDISGVKYERV 7ddy-a1-m1-cC_7ddy-a1-m1-cB Crystal structure of an acetyl xylan esterase AlAXEase A0A2Z4G9P0 A0A2Z4G9P0 2.505 X-RAY DIFFRACTION 43 1.0 1784714 (Arcticibacterium luteifluviistationis) 1784714 (Arcticibacterium luteifluviistationis) 199 200 PIKVIFFGDSITQAGVREGGYITLMQEDLKTKGMTDQYELIGAGIGGNKIYDLYLRMEDDVLSKNPDVVVLFVGVNDVWHKASHGTGTDADKFEKFYQAVIQKLQKQNIKVLLCTPAAIGEKIDHSNEQDGDINHYSNIIRKLADDNNCDLIDLRKDFLAYNLKNNPENKDRGILTRDRVHLNDIGNRFVADKMWSAVI KPIKVIFFGDSITQAGVREGGYITLMQEDLKTKGMTDQYELIGAGIGGNKIYDLYLRMEDDVLSKNPDVVVLFVGVNDVWHKASHGTGTDADKFEKFYQAVIQKLQKQNIKVLLCTPAAIGEKIDHSNEQDGDINHYSNIIRKLADDNNCDLIDLRKDFLAYNLKNNPENKDRGILTRDRVHLNDIGNRFVADKMWSAVI 7ddy-a1-m1-cD_7ddy-a1-m1-cC Crystal structure of an acetyl xylan esterase AlAXEase A0A2Z4G9P0 A0A2Z4G9P0 2.505 X-RAY DIFFRACTION 41 1.0 1784714 (Arcticibacterium luteifluviistationis) 1784714 (Arcticibacterium luteifluviistationis) 198 199 IKVIFFGDSITQAGVREGGYITLMQEDLKTKGMTDQYELIGAGIGGNKIYDLYLRMEDDVLSKNPDVVVLFVGVNDVWHKASHGTGTDADKFEKFYQAVIQKLQKQNIKVLLCTPAAIGEKIDHSNEQDGDINHYSNIIRKLADDNNCDLIDLRKDFLAYNLKNNPENKDRGILTRDRVHLNDIGNRFVADKMWSAVI PIKVIFFGDSITQAGVREGGYITLMQEDLKTKGMTDQYELIGAGIGGNKIYDLYLRMEDDVLSKNPDVVVLFVGVNDVWHKASHGTGTDADKFEKFYQAVIQKLQKQNIKVLLCTPAAIGEKIDHSNEQDGDINHYSNIIRKLADDNNCDLIDLRKDFLAYNLKNNPENKDRGILTRDRVHLNDIGNRFVADKMWSAVI 7deg-a1-m1-cA_7deg-a1-m1-cD Cryo-EM structure of a heme-copper terminal oxidase dimer provides insights into its catalytic mechanism O67937 O67937 3.4 ELECTRON MICROSCOPY 48 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 581 581 VSNAIKFIILTEIIFPTLLLVFGIYHGVMQVFYRSGIIKAESFLGIDYYQGLTLHGVINVIVYTTIFIVGFSNAIVAYSLKKPLREKVQWIALGMMVIGTLMAAWAMFTGRATVLYTFYPPLIAHWTFYLGAVLLVLGSLVPFFFDWIPSAIQWKRENPDQKLPLAVFGTFVNFILWTIMIVPVAIEILFQLLPLSLGLVDEINPLLARTLFWFFGHPVVYFWLLPAYVALYTILPKIVSEKGKLYSDPAARLAFILFLIFSLPVGLHHQFTDPGITNTWKLIHALFTFGVALPSMITAFTVATSLEYSVKAEHPELKNSKFYWWTFLPFMRLEGNKWMFSYFFAGLVLFFIGGITGIVNASYNVNLVVHNTAYVPGHFHTTVGGLVLLVFFALSLYMVSKLRGSEVKLKGLAVLAPYFWMQGMFMFSYAMMVGGVVVGFPRRTNAGLTYLNPDSPLYRPEWTGYAQLAAVGGVLLAIGFAFYFASLIATALAPKVRESTLEFPIADAYHDAPAPLLNNLKTWTVAAIILAVLSYIPPLYDASVRGVFFKSPAYNEKFPMGAEKKEEKKELSKAEGGITQK VSNAIKFIILTEIIFPTLLLVFGIYHGVMQVFYRSGIIKAESFLGIDYYQGLTLHGVINVIVYTTIFIVGFSNAIVAYSLKKPLREKVQWIALGMMVIGTLMAAWAMFTGRATVLYTFYPPLIAHWTFYLGAVLLVLGSLVPFFFDWIPSAIQWKRENPDQKLPLAVFGTFVNFILWTIMIVPVAIEILFQLLPLSLGLVDEINPLLARTLFWFFGHPVVYFWLLPAYVALYTILPKIVSEKGKLYSDPAARLAFILFLIFSLPVGLHHQFTDPGITNTWKLIHALFTFGVALPSMITAFTVATSLEYSVKAEHPELKNSKFYWWTFLPFMRLEGNKWMFSYFFAGLVLFFIGGITGIVNASYNVNLVVHNTAYVPGHFHTTVGGLVLLVFFALSLYMVSKLRGSEVKLKGLAVLAPYFWMQGMFMFSYAMMVGGVVVGFPRRTNAGLTYLNPDSPLYRPEWTGYAQLAAVGGVLLAIGFAFYFASLIATALAPKVRESTLEFPIADAYHDAPAPLLNNLKTWTVAAIILAVLSYIPPLYDASVRGVFFKSPAYNEKFPMGAEKKEEKKELSKAEGGITQK 7dek-a2-m1-cD_7dek-a2-m1-cF Pseudomonas aeruginosa FK506-binding protein PaFkbA Q9HYX8 Q9HYX8 2.9 X-RAY DIFFRACTION 183 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 202 206 7dek-a1-m1-cG_7dek-a1-m1-cA ELKTPAQKASYGIGLNMGKSLSQEGMDDLDSKAVAKGIEDALGKKKQQLTDEELTEAFAFLQKRAEERMAAIGDENAKAGKKFLEENGKRDGVTTTASGLQYEIVKKADGPQPKATDVVTVHYEGRLTDGTVFDSSIERGSPIDLPVSGVIPGWVEALQLMHVGEKIKLYIPSELAYGAQSPSPAIPANSVLVFDMELLGIK QTNVELKTPAQKASYGIGLNMGKSLSQEGMDDLDSKAVAKGIEDALGKKKQQLTDEELTEAFAFLQKRAEERMAAIGDENAKAGKKFLEENGKRDGVTTTASGLQYEIVKKADGPQPKATDVVTVHYEGRLTDGTVFDSSIERGSPIDLPVSGVIPGWVEALQLMHVGEKIKLYIPSELAYGAQSPSPAIPANSVLVFDMELLGIK 7dey-a2-m1-cB_7dey-a2-m1-cD Structure of Dicer from Pichia stipitis A3LS79 A3LS79 2.897 X-RAY DIFFRACTION 82 1.0 322104 (Scheffersomyces stipitis CBS 6054) 322104 (Scheffersomyces stipitis CBS 6054) 199 207 7dey-a1-m1-cA_7dey-a1-m1-cC KHPPLPFIKDQTLYERVFVNSHNERLEFLGDSVLNNLVTLIIYDKFPSASEGKLTKMRSQLIDNHTLTQFSFEYGFDKRLKDQKVYADIFEAYIGALSVERGLDLREIKDWLEKLYAPKLEAFKVNFLSVNKEAKSELYSIVGTASSHPLYVVVEEGNGSHDFVVECRMGNDVLGRAKAPSQKEAGLRAAMDALKNRQL KHPPLPFIKDQTLYERVFVHNSHNERLEFLGDSVLNNLVTLIIYDKFPSASEGKLTKMRSQLIDNHTLTQFSFEYGFDKRLKTKTDDQKVYADIFEAYIGALSVERGLDLREIKDWLEKLYAPKLEAFKVNFLQESVNKEAKSELYSIVGTASSHPLYVVVEEGNGSHDFVVECRMGNDVLGRAKAPSQKEAGLRAAMDALKNRQLL 7df3-a1-m1-cB_7df3-a1-m1-cC SARS-CoV-2 S trimer, S-closed P0DTC2 P0DTC2 2.7 ELECTRON MICROSCOPY 495 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1088 1088 7ddd-a1-m1-cA_7ddd-a1-m1-cB 7ddd-a1-m1-cA_7ddd-a1-m1-cC 7ddd-a1-m1-cB_7ddd-a1-m1-cC 7df3-a1-m1-cA_7df3-a1-m1-cB 7df3-a1-m1-cA_7df3-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7dfe-a1-m1-cA_7dfe-a1-m1-cB NMR structure of TuSp2-RP A5Y0M2 A5Y0M2 NOT SOLUTION NMR 99 1.0 142 142 NLSIGDTTSIIQLFKNFTGPPSVATFISNFHSIVQSSKTLLNLFDVAEENPLEFAKCMYELVLKSANSLGVLNPHLIANNIYQSVVSNLDILHSSAMVNLYANAMAGSLFLEGILNSDNAATLAKKCANDMEAFAKKMVEIG NLSIGDTTSIIQLFKNFTGPPSVATFISNFHSIVQSSKTLLNLFDVAEENPLEFAKCMYELVLKSANSLGVLNPHLIANNIYQSVVSNLDILHSSAMVNLYANAMAGSLFLEGILNSDNAATLAKKCANDMEAFAKKMVEIG 7dft-a1-m1-cA_7dft-a1-m1-cG Crystal structure of Xanthomonas oryzae ClpP Q5H434 Q5H434 1.8 X-RAY DIFFRACTION 97 1.0 347 (Xanthomonas oryzae) 347 (Xanthomonas oryzae) 180 183 7dft-a1-m1-cA_7dft-a1-m1-cB 7dft-a1-m1-cE_7dft-a1-m1-cD 7dfu-a1-m1-cB_7dfu-a1-m1-cA 7dfu-a1-m1-cB_7dfu-a1-m1-cC 7dfu-a1-m1-cC_7dfu-a1-m1-cD 7dfu-a1-m1-cE_7dfu-a1-m1-cD 7dfu-a1-m1-cE_7dfu-a1-m1-cF 7dfu-a1-m1-cG_7dfu-a1-m1-cA 7dfu-a1-m1-cG_7dfu-a1-m1-cF VPMVVAYDIYSRLLKERLIFLVGPIDDHMANVIVAQLLFLEADNPEKDISIYINSPGGVVTAGMAIYDTMQYIKPDVSTICVGQAASMGALLLASGAAGKRYALPNSRVMIHQPLGGFQGQATDIDIHAREILTLRSRLNEILAKHTGQSLETIARDTERDNFKSAVDAQAYGLVDQVLE LVPMVVERAYDIYSRLLKERLIFLVGPIDDHMANVIVAQLLFLEADNPEKDISIYINSPGGVVTAGMAIYDTMQYIKPDVSTICVGQAASMGALLLASGAAGKRYALPNSRVMIHQPLGGFQGQATDIDIHAREILTLRSRLNEILAKHTGQSLETIARDTERDNFKSAVDAQAYGLVDQVLE 7dg0-a1-m1-cA_7dg0-a1-m1-cB Structure and function of Diadenylate cyclase DacM in Mycoplasma ovipneumoniae A0A014M399 A0A014M399 1.895 X-RAY DIFFRACTION 71 1.0 1188239 (Mesomycoplasma ovipneumoniae 14811) 1188239 (Mesomycoplasma ovipneumoniae 14811) 155 155 7dfx-a1-m1-cA_7dfx-a1-m1-cB SFVDLGISTQRKIVYELYFAVKYLSKNKVGAIITLQRNILLDSLRTDGVKIDSLINSSLLIAIFQKSSPLHDGAVIIVDDRILYASTYFSVSESTLEDRYGARHRAALGISEVSDSITVVVSEQSGEVVIVRDANFFKVTNLETFTEVLTKELNS SFVDLGISTQRKIVYELYFAVKYLSKNKVGAIITLQRNILLDSLRTDGVKIDSLINSSLLIAIFQKSSPLHDGAVIIVDDRILYASTYFSVSESTLEDRYGARHRAALGISEVSDSITVVVSEQSGEVVIVRDANFFKVTNLETFTEVLTKELNS 7dh4-a1-m2-cA_7dh4-a1-m2-cB Double mutant- V493I-V507M coiled coil domain of Trypanosoma brucei coronin Q57W63 Q57W63 2.41 X-RAY DIFFRACTION 59 0.98 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 49 49 7dh4-a1-m1-cA_7dh4-a1-m1-cB 7dhb-a1-m1-cA_7dhb-a1-m1-cB 7dhb-a1-m2-cA_7dhb-a1-m2-cB EFSQLLALASLLGQQQAEIQRCREDLQKKESLMMETIAKIKALALEHHH FSQLLALASLLGQQQAEIQRCREDLQKKESLMMETIAKIKALALEHHHH 7dh7-a2-m1-cB_7dh7-a2-m1-cD Crystal structure of apo XcZur Q4UWS5 Q4UWS5 2.2 X-RAY DIFFRACTION 118 1.0 314565 (Xanthomonas campestris pv. campestris str. 8004) 314565 (Xanthomonas campestris pv. campestris str. 8004) 148 150 7dh7-a1-m1-cA_7dh7-a1-m1-cC VDDANSFVRAVERACSERGLRLTPIRANVLRLIADAGKPVKAYELLDWVREGKGVGADAPPTVYRALDFLMANGFVHKLESVNAFVACHHPNSAQHSVPFLICDRCHSAVELEDRDVVSQLEARAKALGFQPQAQTLEVHGLCAKCAA VDDANSFVRAVERACSERGLRLTPIRANVLRLIADAGKPVKAYELLDWVREGKGVGADAPPTVYRALDFLMANGFVHKLESVNAFVACHHPNSAQHSVPFLICDRCHSAVELEDRDVVSQLEARAKALGFQPQAQTLEVHGLCAKCAAAG 7dh8-a1-m1-cA_7dh8-a1-m2-cA Crystal structure of holo XcZur Q4UWS5 Q4UWS5 1.85 X-RAY DIFFRACTION 121 1.0 314565 (Xanthomonas campestris pv. campestris str. 8004) 314565 (Xanthomonas campestris pv. campestris str. 8004) 141 141 ANSFVRAVERACSERGLRLTPIRANVLRLIADAGKPVKAYELLDWVREADAPPTVYRALDFLMANGFVHKLESVNAFVACHHPNSAQHSVPFLICDRCHSAVELEDRDVVSQLEARAKALGFQPQAQTLEVHGLCAKCAAA ANSFVRAVERACSERGLRLTPIRANVLRLIADAGKPVKAYELLDWVREADAPPTVYRALDFLMANGFVHKLESVNAFVACHHPNSAQHSVPFLICDRCHSAVELEDRDVVSQLEARAKALGFQPQAQTLEVHGLCAKCAAA 7dhb-a1-m1-cA_7dhb-a1-m2-cA mutant V507M coiled coil domain of Trypanosoma brucei coronin Q57W63 Q57W63 3.02 X-RAY DIFFRACTION 30 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 46 46 7dgx-a1-m1-cA_7dgx-a1-m2-cA 7dgx-a1-m1-cB_7dgx-a1-m2-cB 7dh4-a1-m1-cA_7dh4-a1-m2-cA 7dh4-a1-m1-cB_7dh4-a1-m2-cB 7dhb-a1-m1-cB_7dhb-a1-m2-cB FSQLLALASLLGQQQAEVQRCREDLQKKESLMMETIAKIKALALEH FSQLLALASLLGQQQAEVQRCREDLQKKESLMMETIAKIKALALEH 7dhq-a1-m1-cC_7dhq-a1-m1-cA Structure of Halothiobacillus neapolitanus Microcompartments Protein CsoS1D D0KZ73 D0KZ73 2.7 X-RAY DIFFRACTION 51 1.0 555778 (Halothiobacillus neapolitanus c2) 555778 (Halothiobacillus neapolitanus c2) 204 205 7dhq-a1-m1-cA_7dhq-a1-m1-cB 7dhq-a1-m1-cC_7dhq-a1-m1-cB 7dhq-a1-m1-cD_7dhq-a1-m1-cE 7dhq-a1-m1-cD_7dhq-a1-m1-cF 7dhq-a1-m1-cF_7dhq-a1-m1-cE NIDLRVYSFIDSLQPQLASYLATSSQGFLPVPGDACLWIEVAPGMAVHRLSDIALKATNVRLGEQVVERAFGSMEIHYRNQSDVLASGEAVLREINHAQEDRLPCRIAWKEIIRAITPDHATLINRQLRKGSMLLPGKSMFILETEPAGYIVQAANEAEKAAHVTLIDVRAFGNFGRLTMMGSEAETEEAMRAAEATIASINAR NNIDLRVYSFIDSLQPQLASYLATSSQGFLPVPGDACLWIEVAPGMAVHRLSDIALKATNVRLGEQVVERAFGSMEIHYRNQSDVLASGEAVLREINHAQEDRLPCRIAWKEIIRAITPDHATLINRQLRKGSMLLPGKSMFILETEPAGYIVQAANEAEKAAHVTLIDVRAFGNFGRLTMMGSEAETEEAMRAAEATIASINAR 7dhq-a1-m1-cC_7dhq-a1-m1-cF Structure of Halothiobacillus neapolitanus Microcompartments Protein CsoS1D D0KZ73 D0KZ73 2.7 X-RAY DIFFRACTION 70 1.0 555778 (Halothiobacillus neapolitanus c2) 555778 (Halothiobacillus neapolitanus c2) 204 204 7dhq-a1-m1-cA_7dhq-a1-m1-cE 7dhq-a1-m1-cD_7dhq-a1-m1-cB NIDLRVYSFIDSLQPQLASYLATSSQGFLPVPGDACLWIEVAPGMAVHRLSDIALKATNVRLGEQVVERAFGSMEIHYRNQSDVLASGEAVLREINHAQEDRLPCRIAWKEIIRAITPDHATLINRQLRKGSMLLPGKSMFILETEPAGYIVQAANEAEKAAHVTLIDVRAFGNFGRLTMMGSEAETEEAMRAAEATIASINAR NIDLRVYSFIDSLQPQLASYLATSSQGFLPVPGDACLWIEVAPGMAVHRLSDIALKATNVRLGEQVVERAFGSMEIHYRNQSDVLASGEAVLREINHAQEDRLPCRIAWKEIIRAITPDHATLINRQLRKGSMLLPGKSMFILETEPAGYIVQAANEAEKAAHVTLIDVRAFGNFGRLTMMGSEAETEEAMRAAEATIASINAR 7dhs-a1-m1-cB_7dhs-a1-m1-cA Crystal Structure Analysis of the BRD4 O60885 O60885 1.76 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 129 SNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELP LVPRGSNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPT 7dib-a1-m1-cA_7dib-a1-m1-cB Crystal structure of D-threonine aldolase from Filomicrobium marinum A0A0D6JKM4 A0A0D6JKM4 2.2 X-RAY DIFFRACTION 144 0.995 1608628 (Candidatus Filomicrobium marinum) 1608628 (Candidatus Filomicrobium marinum) 368 370 MRAPARLGIPLADVDTPALILDLDAFERNLQTMADWAKSKNVRLRPHASHKCPAIAHRQMALGAVGVCCQKVSEAEVMVDAGITNVLISNEVVGRTKLEALAQLALRARMGVCVDDIRQIRDLSEAMHAAGATIDVLVEINIGGNRCGVEPGDPAVRLGAAVAQADGLRFAGLQSYDGITQHVRDPDERKARAARAGDVTAQTIAALRDIGLECETVGGAGTGSFAFDGMSGVWNELQPGSYAFMDADYARNTPVPKFEHAMFVWAIVMSRTSVGQAVVDAGHKVLPIDSGMPVPFDRPGVRYERPSDEHGCLVAELDSALPDLGEKILIVPSHVDPTANQHDFFIGVRGMAGTVQEIWPVTARGCVF APARLGIPLADVDTPALILDLDAFERNLQTMADWAKSKNVRLRPHASHKCPAIAHRQMALGAVGVCCQKVSEAEVMVDAGITNVLISNEVVGRTKLEALAQLALRARMGVCVDDIRQIRDLSEAMHAAGATIDVLVEINIGGNRCGVEPGDPAVRLGAAVAQADGLRFAGLQSYDGITQHVRDPDERKARAARAGDVTAQTIAALRDIGLECETVGGAGTGSFAFDGMSGVWNELQPGSYAFMDADYARNTPAGGDVPKFEHAMFVWAIVMSRTSVGQAVVDAGHKVLPIDSGMPVPFDRPGVRYERPSDEHGCLVAELDSALPDLGEKILIVPSHVDPTANQHDFFIGVRGMAGTVQEIWPVTARGCVF 7die-a1-m2-cF_7die-a1-m4-cF Crystal structure of M. penetrans Ferritin Q8EWB1 Q8EWB1 1.9 X-RAY DIFFRACTION 27 1.0 272633 (Malacoplasma penetrans HF-2) 272633 (Malacoplasma penetrans HF-2) 164 164 7die-a1-m1-cA_7die-a1-m3-cA 7die-a1-m1-cA_7die-a1-m4-cA 7die-a1-m1-cB_7die-a1-m1-cD 7die-a1-m1-cB_7die-a1-m4-cC 7die-a1-m1-cC_7die-a1-m3-cB 7die-a1-m1-cC_7die-a1-m3-cE 7die-a1-m1-cD_7die-a1-m1-cE 7die-a1-m1-cE_7die-a1-m4-cC 7die-a1-m1-cF_7die-a1-m3-cF 7die-a1-m1-cF_7die-a1-m4-cF 7die-a1-m2-cA_7die-a1-m3-cA 7die-a1-m2-cA_7die-a1-m4-cA 7die-a1-m2-cB_7die-a1-m2-cD 7die-a1-m2-cB_7die-a1-m3-cC 7die-a1-m2-cC_7die-a1-m4-cB 7die-a1-m2-cC_7die-a1-m4-cE 7die-a1-m2-cD_7die-a1-m2-cE 7die-a1-m2-cE_7die-a1-m3-cC 7die-a1-m2-cF_7die-a1-m3-cF 7die-a1-m3-cB_7die-a1-m3-cD 7die-a1-m3-cD_7die-a1-m3-cE 7die-a1-m4-cB_7die-a1-m4-cD 7die-a1-m4-cD_7die-a1-m4-cE SVFNKDERIMDLVSKHYNVELCAANLYFHLATVSKALGYDNVAAFFVKMGSDKQSAHMSRLVKYMMKVDSILKINQISVPELVSFETIQEVLDAALKMESKVRESVKNVTEISLLAKDFETFERMQWFVKDSIEDLEEISDVWTYVHSPNVNLINIENIVGKKL SVFNKDERIMDLVSKHYNVELCAANLYFHLATVSKALGYDNVAAFFVKMGSDKQSAHMSRLVKYMMKVDSILKINQISVPELVSFETIQEVLDAALKMESKVRESVKNVTEISLLAKDFETFERMQWFVKDSIEDLEEISDVWTYVHSPNVNLINIENIVGKKL 7die-a1-m4-cD_7die-a1-m4-cF Crystal structure of M. penetrans Ferritin Q8EWB1 Q8EWB1 1.9 X-RAY DIFFRACTION 25 1.0 272633 (Malacoplasma penetrans HF-2) 272633 (Malacoplasma penetrans HF-2) 164 164 7die-a1-m1-cA_7die-a1-m4-cB 7die-a1-m1-cA_7die-a1-m4-cC 7die-a1-m1-cB_7die-a1-m1-cC 7die-a1-m1-cB_7die-a1-m3-cA 7die-a1-m1-cC_7die-a1-m3-cA 7die-a1-m1-cD_7die-a1-m1-cF 7die-a1-m1-cD_7die-a1-m3-cE 7die-a1-m1-cE_7die-a1-m4-cD 7die-a1-m1-cE_7die-a1-m4-cF 7die-a1-m1-cF_7die-a1-m3-cE 7die-a1-m2-cA_7die-a1-m3-cB 7die-a1-m2-cA_7die-a1-m3-cC 7die-a1-m2-cB_7die-a1-m2-cC 7die-a1-m2-cB_7die-a1-m4-cA 7die-a1-m2-cC_7die-a1-m4-cA 7die-a1-m2-cD_7die-a1-m2-cF 7die-a1-m2-cD_7die-a1-m4-cE 7die-a1-m2-cE_7die-a1-m3-cD 7die-a1-m2-cE_7die-a1-m3-cF 7die-a1-m2-cF_7die-a1-m4-cE 7die-a1-m3-cB_7die-a1-m3-cC 7die-a1-m3-cD_7die-a1-m3-cF 7die-a1-m4-cB_7die-a1-m4-cC SVFNKDERIMDLVSKHYNVELCAANLYFHLATVSKALGYDNVAAFFVKMGSDKQSAHMSRLVKYMMKVDSILKINQISVPELVSFETIQEVLDAALKMESKVRESVKNVTEISLLAKDFETFERMQWFVKDSIEDLEEISDVWTYVHSPNVNLINIENIVGKKL SVFNKDERIMDLVSKHYNVELCAANLYFHLATVSKALGYDNVAAFFVKMGSDKQSAHMSRLVKYMMKVDSILKINQISVPELVSFETIQEVLDAALKMESKVRESVKNVTEISLLAKDFETFERMQWFVKDSIEDLEEISDVWTYVHSPNVNLINIENIVGKKL 7die-a1-m4-cE_7die-a1-m4-cF Crystal structure of M. penetrans Ferritin Q8EWB1 Q8EWB1 1.9 X-RAY DIFFRACTION 87 1.0 272633 (Malacoplasma penetrans HF-2) 272633 (Malacoplasma penetrans HF-2) 164 164 7die-a1-m1-cA_7die-a1-m1-cB 7die-a1-m1-cC_7die-a1-m1-cD 7die-a1-m1-cE_7die-a1-m1-cF 7die-a1-m2-cA_7die-a1-m2-cB 7die-a1-m2-cC_7die-a1-m2-cD 7die-a1-m2-cE_7die-a1-m2-cF 7die-a1-m3-cA_7die-a1-m3-cB 7die-a1-m3-cC_7die-a1-m3-cD 7die-a1-m3-cE_7die-a1-m3-cF 7die-a1-m4-cA_7die-a1-m4-cB 7die-a1-m4-cC_7die-a1-m4-cD SVFNKDERIMDLVSKHYNVELCAANLYFHLATVSKALGYDNVAAFFVKMGSDKQSAHMSRLVKYMMKVDSILKINQISVPELVSFETIQEVLDAALKMESKVRESVKNVTEISLLAKDFETFERMQWFVKDSIEDLEEISDVWTYVHSPNVNLINIENIVGKKL SVFNKDERIMDLVSKHYNVELCAANLYFHLATVSKALGYDNVAAFFVKMGSDKQSAHMSRLVKYMMKVDSILKINQISVPELVSFETIQEVLDAALKMESKVRESVKNVTEISLLAKDFETFERMQWFVKDSIEDLEEISDVWTYVHSPNVNLINIENIVGKKL 7djs-a1-m1-cB_7djs-a1-m1-cD Crystal structure of isopiperitenol dehydrogenase from Pseudomonas aeruginosa complexed with NAD A0A8G3T320 A0A8G3T320 1.7 X-RAY DIFFRACTION 145 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 241 251 7djs-a1-m1-cC_7djs-a1-m1-cA LLSGQVALVTGGAAGIGRATAQAFAAAGVKVVVADLDSAGGEGTVEAIRQAGGEAVFIRCDVTRDAEVKALVEGCAAAYGRLDYAFNNAGIEIEQGKLADGNEAEFDAIMAVNVKGVWLCMKHQIPLMLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKGIRVNAVCPAVIDTDMFRAEFAAAMHPLGRVGRVEEIAAAVLYLCSDNAGFTTGIALPVDGGATAI KLLSGQVALVTGGAAGIGRATAQAFAAAGVKVVVADLDSAGGEGTVEAIRQAGGEAVFIRCDVTRDAEVKALVEGCAAAYGRLDYAFNNAGIEIEQGKLADGNEAEFDAIMAVNVKGVWLCMKHQIPLMLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKGIRVNAVCPAVIDTDMFRRAYEADPRKAEFAAAMHPLGRVGRVEEIAAAVLYLCSDNAGFTTGIALPVDGGATAI 7djs-a1-m1-cC_7djs-a1-m1-cB Crystal structure of isopiperitenol dehydrogenase from Pseudomonas aeruginosa complexed with NAD A0A8G3T320 A0A8G3T320 1.7 X-RAY DIFFRACTION 14 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 233 241 LLSGQVALVTGGAAGIGRATAQAFAAAGVKVVVADLDSAGGEGTVEAIRQAGGEAVFIRCDVTRDAEVKALVEGCAAAYGRLDYAFNNAGIEIEQGKLADGNEAEFDAIMAVNVKGVWLCMKHQIPLMLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKGIRVNAVCPAVIDTDMFHPLGRVGRVEEIAAAVLYLCSDNAGFTTGIALPVDGGATAI LLSGQVALVTGGAAGIGRATAQAFAAAGVKVVVADLDSAGGEGTVEAIRQAGGEAVFIRCDVTRDAEVKALVEGCAAAYGRLDYAFNNAGIEIEQGKLADGNEAEFDAIMAVNVKGVWLCMKHQIPLMLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKGIRVNAVCPAVIDTDMFRAEFAAAMHPLGRVGRVEEIAAAVLYLCSDNAGFTTGIALPVDGGATAI 7djs-a1-m1-cC_7djs-a1-m1-cD Crystal structure of isopiperitenol dehydrogenase from Pseudomonas aeruginosa complexed with NAD A0A8G3T320 A0A8G3T320 1.7 X-RAY DIFFRACTION 118 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 233 251 7djs-a1-m1-cA_7djs-a1-m1-cB LLSGQVALVTGGAAGIGRATAQAFAAAGVKVVVADLDSAGGEGTVEAIRQAGGEAVFIRCDVTRDAEVKALVEGCAAAYGRLDYAFNNAGIEIEQGKLADGNEAEFDAIMAVNVKGVWLCMKHQIPLMLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKGIRVNAVCPAVIDTDMFHPLGRVGRVEEIAAAVLYLCSDNAGFTTGIALPVDGGATAI KLLSGQVALVTGGAAGIGRATAQAFAAAGVKVVVADLDSAGGEGTVEAIRQAGGEAVFIRCDVTRDAEVKALVEGCAAAYGRLDYAFNNAGIEIEQGKLADGNEAEFDAIMAVNVKGVWLCMKHQIPLMLAQGGGAIVNTASVAGLGAAPKMSIYAASKHAVIGLTKSAAIEYAKKGIRVNAVCPAVIDTDMFRRAYEADPRKAEFAAAMHPLGRVGRVEEIAAAVLYLCSDNAGFTTGIALPVDGGATAI 7dk3-a1-m1-cA_7dk3-a1-m1-cB SARS-CoV-2 S trimer, S-open P0DTC2 P0DTC2 6.0 ELECTRON MICROSCOPY 312 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1062 1062 7dk3-a1-m1-cC_7dk3-a1-m1-cA 7dk3-a1-m1-cC_7dk3-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7dk7-a1-m1-cA_7dk7-a1-m1-cB S-2H2-F3b structure, three RBDs are up and each RBD binds with a 2H2 Fab. P0DTC2 P0DTC2 9.7 ELECTRON MICROSCOPY 257 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1060 1060 7dk5-a1-m1-cB_7dk5-a1-m1-cA 7dk5-a1-m1-cC_7dk5-a1-m1-cA 7dk6-a1-m1-cA_7dk6-a1-m1-cB 7dk6-a1-m1-cC_7dk6-a1-m1-cA 7dk6-a1-m1-cC_7dk6-a1-m1-cB 7dk7-a1-m1-cA_7dk7-a1-m1-cC 7dk7-a1-m1-cB_7dk7-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7dka-a1-m2-cB_7dka-a1-m1-cA Crystal structure of DsbA-like protein DR2335 from Deinococcus radiodurans R1, C24S mutant protein Q9RRZ4 Q9RRZ4 1.56 X-RAY DIFFRACTION 133 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 210 211 7dk9-a1-m1-cB_7dk9-a1-m1-cA QPTDLYFDFLSPYAWRGVEMAHVLRGSGEGFRLRHFSLVQGNHPQNKDQETVQWWLTDQPLGAEGGSGYMKYQRPSLNAFLAAHAAARQGEEKSWAFALALFRLHHEDKRDLDEAAFQDAATRAGLDLSQWKQDRQDEAGLRRELRADLEAAAALGVFGTPTFDLGGGDVAYFKFEELTRDPQAARDLWNLFTSTLRSEARVATIRRPVP AQPTDLYFDFLSPYAWRGVEMAHVLRGSGEGFRLRHFSLVQGNHPQNKDQETVQWWLTDQPLGAEGGSGYMKYQRPSLNAFLAAHAAARQGEEKSWAFALALFRLHHEDKRDLDEAAFQDAATRAGLDLSQWKQDRQDEAGLRRELRADLEAAAALGVFGTPTFDLGGGDVAYFKFEELTRDPQAARDLWNLFTSTLRSEARVATIRRPVP 7dkc-a1-m1-cA_7dkc-a1-m1-cB Stenotrophomonas maltophilia DPP7 in complex with Tyr-Tyr B4SLK2 B4SLK2 1.86 X-RAY DIFFRACTION 54 1.0 391008 (Stenotrophomonas maltophilia R551-3) 391008 (Stenotrophomonas maltophilia R551-3) 697 697 7dkb-a1-m1-cA_7dkb-a1-m1-cB 7dkd-a1-m1-cA_7dkd-a1-m1-cB 7dke-a1-m1-cA_7dke-a1-m1-cB AEGMWVPQQLPEIAGPLQKAGLKLSPEQLANLTGDPMGAVVALGGCTASFVSPQGLVVTNHHCAYGAIQLNSTAQKNLIKDGFNAPTLKDELSAGPNARVFVLDQITDVTAQAKAAIAGAGNDPLARSRALDAFDKAQVAACEADAGFRCRLYSFSGGNTYRLFRNMEIKDVRLVYAPPGSVGKFGGDVDNWMWPRHTGDFSFYRAYVGKDGKPAAFAADNVPYQPKHFLKFADQPLGADDFVMVAGYPGRTNRYALAGEFNETASFTYPTIAKHYNAVLKMIADAGKADADVKVKYAATAASMNNVAKNYLGQLEGFKRIDAAGQKQAEEAAVLAWLKKQGAAGKPALAAHAQLLKHLDTSKSTRERDLFVGQFNNTSAVGAAITLYRLSIERSKPDAEREAGYQERDLTTIEGGLKQMDRRYVAKMDQQLQTYWLDQYVALPAAQRDNEVLNKWLAGSDAAAVKSLVNKLGGTELGSLDTRLKWFKADRAAFEASNDPAIQYAVAVMPALLKQEEQKKIREGESLTARPLYLQAVADYKKSQGEFVYPDANLSLRITFGNVMGYGKDGVKYTPFTTLEGVAAKETGEDPFDSPKALLDAVKAKRYGGLEDKRLGSVPVNFLSNLDITGGNSGSPVLDANGKLVGLAFDGNWESVSSNWVFDPVMTRMIAVDSRYMQWIMQEVAPAPQLLKELNLA AEGMWVPQQLPEIAGPLQKAGLKLSPEQLANLTGDPMGAVVALGGCTASFVSPQGLVVTNHHCAYGAIQLNSTAQKNLIKDGFNAPTLKDELSAGPNARVFVLDQITDVTAQAKAAIAGAGNDPLARSRALDAFDKAQVAACEADAGFRCRLYSFSGGNTYRLFRNMEIKDVRLVYAPPGSVGKFGGDVDNWMWPRHTGDFSFYRAYVGKDGKPAAFAADNVPYQPKHFLKFADQPLGADDFVMVAGYPGRTNRYALAGEFNETASFTYPTIAKHYNAVLKMIADAGKADADVKVKYAATAASMNNVAKNYLGQLEGFKRIDAAGQKQAEEAAVLAWLKKQGAAGKPALAAHAQLLKHLDTSKSTRERDLFVGQFNNTSAVGAAITLYRLSIERSKPDAEREAGYQERDLTTIEGGLKQMDRRYVAKMDQQLQTYWLDQYVALPAAQRDNEVLNKWLAGSDAAAVKSLVNKLGGTELGSLDTRLKWFKADRAAFEASNDPAIQYAVAVMPALLKQEEQKKIREGESLTARPLYLQAVADYKKSQGEFVYPDANLSLRITFGNVMGYGKDGVKYTPFTTLEGVAAKETGEDPFDSPKALLDAVKAKRYGGLEDKRLGSVPVNFLSNLDITGGNSGSPVLDANGKLVGLAFDGNWESVSSNWVFDPVMTRMIAVDSRYMQWIMQEVAPAPQLLKELNLA 7dl2-a1-m1-cB_7dl2-a1-m1-cA Cryo-EM structure of human TSC complex P49815 P49815 4.4 ELECTRON MICROSCOPY 225 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 1042 1127 FKVIKDYPSNEDLHERLELADFVLQWMDVGLSSKFNSCYLDEYIARMVQSSVDIEVSLQVLDAVPAESLPLFIVTLCRTINVKNLLGTHLGHSAIYNMEDRAYMEDAPLLRGAVFFVGMALWGPTSVLPSFYQAMACPNEVVSYEIVLSITRLIKKWDILLNIIERLLQQLQTLDSPELRTIVHDLLTTVEELCDQNEFYFELVERCADQRPESSLLNLISYRAQSIHPAKDGWIQNLQALMERFFRSESRGAVRIKVLDVLSFVLLINRQFYEEELINSVVISQLSHIPEDKDHQVRKLATQLLVDLAEGCHTHHFNSLLDIIEKVMARSLSPPPELEERDVAAYSASLEDVKTAVLGLLVILQTKLYTLPASHATRVYEMLVSHIQLHYKHSYTLPIASSIRLQAFDFLLLLRAPYSLLFRVLLQCLKQESDWKVLKLVLGRLPESLRYKVLIFTSPCSVDQLCSALCSMLSGPKTLESRTDLHLAVVPVLTALISYHNYLDKTKQREMVYCLEQGLIHRCASQCVVALSICSVEMPDIIIKALPVLVVKLTHISATASMAVPLLEFLSTLARLPHLYRNFAAEQYASVFAISLPYTNPSKFNQYIVCLAHHVIAMWFIRCRLPFRKDFVPFITKGLRSNVLLSFDDTPEKDSFRARSLKNLHLELTETCLDMMARYVFSNFTAVPKRSPVGEFLLAGGRTKTWLVGNKLVTVTTSVGTGTRSLLGKTNLAAYVPLLTQGWAEILVRRPTGNTSWLMSLENPLSPFSSDINNMPLQELSNALMAAERFKKVPGINPSFVFLQLYHSPFFGDESNKPILLPNESQSFERSVQLLDQIPSYDTHKIAVLYVGEGQSNSELAILSNEHGSYRYTEFLTGLGRLIELKDCQPDKVYLGGLDVQFTYCWHDDIMQAVFHIATLMPDKKRHLGNDFVSIVYNDSGEDFKLGTIKGQFNFVHVIVTPLDYECNLVSLQCRKDMEGLVDTSVAKIVSDRNLPFVARQMALHANMASQVHHSRSNPTDIYPSKWIARLRHIKRLRQRIC IKDYPSNEDLHERLEVFKALTDNGRHITYLEEELADFVLQWMDVGLSSEFLLVLVNLVKFNSCYLDEYIARMVQMICLLCVRTASSVDIEVSLQVLDAVVCYNCLPAESLPLFIVTLCRTINVKELCEPCWKLMRNLLGTHLGHSAIYNMCHLMEDRAYMEDAPLLRGAVFFVGMALWGAHRLYSLRNSPTSVLPSFYQAMACPNEVVSYEIVLSITRLIKKWDILLNIIERLLQQLQTLDSPELRTIVHDLLTTVEELCDQNEFHGSQERYFELVERCADQRPESSLLNLISYRAQSIHPAKDGWIQNLQALMERFFRSESRGAVRIKVLDVLSFVLLINRQFYEEELINSVVISQLSHIPEDKDHQVRKLATQLLVDLAEGCHTHHFNSLLDIIEKVMARSLSPPPELEERDVAAYSASLEDVKTAVLGLLVILQTKLYTLPASHATRVYEMLVSHIQLHYKHSYTLPIASSIRLQAFDFLLLLRADSLHRLGLPNKDGVVRFSPYSVPYSLLFRVLLQCLKQESDWKVLKLVLGRLPESLRYKVLIFTSPCSVDQLCSALCSMLSGPKTLERLSRTDLHLAVVPVLTALISYHNYLDKTKQREMVYCLEQGLIHRCASQCVVALSICSVEMPDIIIKALPVLVVKLTHISATASMAVPLLEFLSTLARLPHLYRNFAAEQYASVFAISLPYTNPSKFNQYIVCLAHHVIAMWFIRCRLPFRKDFVPFITKGLRSNVLLSFDDTPEKDSFRARLKNLHLELTETCLDMMARYVFSNFTAVPKRSPVGEFLLAGGRTKTWLVGNKLVTVTTSVGTGTRSLLGNLAAYVPLLTQGWAEILVRRPTGNTSWLMSLENPLSPFSSELSNALMAAERFKEHRGINPSFVFLQLYHSPFFGDESNKPILLPNESQSFERSVQLLDQIPSYDTHKIAVLYVGEGQSNSELAILSNEHGSYRYTEFLTGLGRLIELKDCQPDKVYLGGLDVQFTYCWHDDIMQAVFHIATLMPDKKRHLGNDFVSIVYNDSGEDFKLGTIKGQFNFVHVIVTPLDYECNLVSLQCRKDMEGLVDTSVAKIVSDRNLPFVARQMALHANMASQVHHSRSNPTDIYPSKWIARLRHIKRLRQRIC 7dl2-a1-m1-cC_7dl2-a1-m1-cD Cryo-EM structure of human TSC complex Q92574 Q92574 4.4 ELECTRON MICROSCOPY 292 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 224 226 DIQMWKVSLQKEQARYNQLQEQRDTMVTKLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRIELKKANNKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQNKHSDTTKEVEMMKAAYRKELEKNRSHVLQQTQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKLQARGQLQAAESRYEAQKRITQVFELEILDLYGRL DIQMWKVSLQKEQARYNQLQEQRDTMVTKLHSQIRQLQHDREEFYNQSQELQTKLEDCRNMIAELRIELKKANNKVCHTELLLSQVSQKLSNSESVQQQMEFLNRQLLVLGEVNELYLEQLQNKHSDTTKEVEMMKAAYRKELEKNRSHVLQQTQRLDTSQKRILELESHLAKKDHLLLEQKKYLEDVKLQARGQLQAAESRYEAQKRITQVFELEILDLYGRLEK 7dl3-a1-m1-cC_7dl3-a1-m1-cA The structure of 3,5-DAHDHcca complex with NADPH B0VJ11 B0VJ11 1.84607 X-RAY DIFFRACTION 139 1.0 459349 (Candidatus Cloacimonas acidaminovorans str. Evry) 459349 (Candidatus Cloacimonas acidaminovorans str. Evry) 351 354 7dl0-a1-m1-cA_7dl0-a1-m1-cB 7dl1-a1-m1-cA_7dl1-a1-m1-cC 7dl1-a2-m1-cB_7dl1-a2-m1-cD 7dl3-a2-m1-cB_7dl3-a2-m1-cD 7dl7-a1-m1-cA_7dl7-a1-m1-cF 7dl7-a2-m1-cB_7dl7-a2-m1-cG 7dl7-a3-m1-cH_7dl7-a3-m1-cC 7dl7-a4-m1-cD_7dl7-a4-m1-cE MKSNGCRYGTHRVIEPKGVLPQPAKILNNDMSEIWDNEMLIDVIRLNIDSASFHQIKNKLIAQGHQDLEKAFAEHAIELTNRTGKHKNEDTGSGGMFIGRVAAIGDKFEMKEEVKVGDKIASLVSLSLTPLKINKVKKVLLDKDQMEIEGQAILFSSGVYAKLPDDLDENLALSVLDVAGAPAQVERLVKPDDTVVIIGANGKSGILCNAVAKERAGICGKVIGVVRNENYIPTCKATGCDEVILAQATDAITIQKEVSRLTNGKMADVVINVVNTEDTELPSIMAAKDRGMVYFFSMATSFTKAALGAEGIGADVDMMIGNGYAHHHSEIALDLLRRNSVLMKIFKERYA MKSNGCRYGTHRVIEPKGVLPQPAKILNNDMSEIWDNEMLIDVIRLNIDSASFHQIKNKLIAQGHQDLEKAFAEHAIELTNRTGKHKNEDTGSGGMFIGRVAAIGDKFEMKEEVKVGDKIASLVSLSLTPLKINKVKKVLLDKDQMEIEGQAILFSSGVYAKLPDDLDENLALSVLDVAGAPAQVERLVKPDDTVVIIGANGKSGILCNAVAKERAGICGKVIGVVRNENYIPTCKATGCDEVILAQATDAITIQKEVSRLTNGKMADVVINVVNTEDTELPSIMAAKDRGMVYFFSMATSFTKAALGAEGIGADVDMMIGNGYAHHHSEIALDLLRRNSVLMKIFKERYAEHH 7dl8-a1-m1-cC_7dl8-a1-m1-cD Crystal structure of ALBA1 from Trypanosoma brucei Q385X1 Q385X1 2.459 X-RAY DIFFRACTION 83 0.99 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 98 109 PRNSVRVGYRGTKFLFVDITKHLLHDGEKEVYVSALGGAINEAVSVVEMLKDQQMVVVKKITTSRQVGPVDKIEIVVTKADGFDAKYEEQQKAREAKR RNSVRVGYRGTKFLFVDITKHLLHDGEKEVYVSALGGAINEAVSVVEMLKDQQMVVVKKITTSRQVGPVDKIEIVVTKADGFDAKYEEQQKAREAKRLEKEKNEKEKAT 7dl8-a1-m1-cD_7dl8-a1-m1-cA Crystal structure of ALBA1 from Trypanosoma brucei Q385X1 Q385X1 2.459 X-RAY DIFFRACTION 51 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 109 114 7dl8-a1-m1-cC_7dl8-a1-m1-cB RNSVRVGYRGTKFLFVDITKHLLHDGEKEVYVSALGGAINEAVSVVEMLKDQQMVVVKKITTSRQVGPVDKIEIVVTKADGFDAKYEEQQKAREAKRLEKEKNEKEKAT DRPRNSVRVGYRGTKFLFVDITKHLLHDGEKEVYVSALGGAINEAVSVVEMLKDQQMVVVKKITTSRQVSGPVDKIEIVVTKADGFDAKYEEQQKAREAKRLEKEKNEKEKATA 7dli-a1-m1-cA_7dli-a1-m1-cB Crystal structure of mouse CRY1 in complex with KL001 compound P97784 P97784 2.2 X-RAY DIFFRACTION 35 0.996 10090 (Mus musculus) 10090 (Mus musculus) 472 475 VNAVHWFRKGLRLHDNPALKECIQGADTIRCVYILVGINRWRFLLQCLEDLDANLRKLNSRLFVIRGQPADVFPRLFKEWNITKLSIEYDSEPFGKERDAAIKKLATEAGVEVIVRISHTLYDLDKIIELNGGQPPLTYKRFQTLVSKMEPLEMPADTITSDVIGKCMTPLSDDHDEKYGVPSLEELGFDTDGLSSAVWPGGETEALTRLERHLERKAWVANFERPRMNANSLLASPTGLSPYLRFGCLSCRLFYFKLTDLYKKVKKNSSPPLSLYGQLLWREFFYTAATNNPRFDKMEGNPICVQIPWDKNPEALAKWAEGRTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWISWEEGMKVFEELLLDADWSINAGSWMWLSCSSFFCYCPVGFGRRTDPNGDYIRRYLPVLRGFPAKYIYDPWNAPEGIQKVAKCLIGVNYPKPMVNHAEASRLNIERMKQIY VNAVHWFRKGLRLHDNPALKECIQGADTIRCVYILDPVGINRWRFLLQCLEDLDANLRKLNSRLFVIRGQPADVFPRLFKEWNITKLSIEYDSEPFGKERDAAIKKLATEAGVEVIVRISHTLYDLDKIIELNGGQPPLTYKRFQTLVSKMEPLEMPADTITSDVIGKCMTPLSDDHDEKYGVPSLEELGFDTDGLSSAVWPGGETEALTRLERHLERKAWVANFERPRMNANSLLASPTGLSPYLRFGCLSCRLFYFKLTDLYKKVKKNSSPPLSLYGQLLWREFFYTAATNNPRFDKMEGNPICVQIPWDKNPEALAKWAEGRTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWISWEEGMKVFEELLLDADWSINAGSWMWLSCSSHCYCPVGFGRRTDPNGDYIRRYLPVLRGFPAKYIYDPWNAPEGIQKVAKCLIGVNYPKPMVNHAEASRLNIERMKQIYQQ 7dlm-a1-m1-cA_7dlm-a1-m2-cB Short chain dehydrogenase (SCR) crystal structure with NADPH G8BHG6 G8BHG6 1.59 X-RAY DIFFRACTION 121 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 280 280 3ctm-a1-m1-cD_3ctm-a1-m1-cA 3ctm-a2-m1-cE_3ctm-a2-m1-cG 7dld-a1-m1-cB_7dld-a1-m2-cA 7dld-a1-m2-cB_7dld-a1-m1-cA 7dlm-a1-m1-cB_7dlm-a1-m2-cA 7vyq-a1-m1-cA_7vyq-a1-m1-cG 7vyq-a1-m1-cB_7vyq-a1-m1-cF SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIDVDNYDSWNKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCP SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIDVDNYDSWNKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCP 7dlm-a1-m1-cB_7dlm-a1-m2-cB Short chain dehydrogenase (SCR) crystal structure with NADPH G8BHG6 G8BHG6 1.59 X-RAY DIFFRACTION 17 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 280 280 7dld-a1-m1-cA_7dld-a1-m2-cA 7dld-a1-m1-cB_7dld-a1-m2-cB 7dlm-a1-m1-cA_7dlm-a1-m2-cA 7dn1-a1-m1-cA_7dn1-a1-m2-cA 7vyq-a1-m1-cA_7vyq-a1-m1-cF 7vyq-a1-m1-cB_7vyq-a1-m1-cG SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIDVDNYDSWNKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCP SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIDVDNYDSWNKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCP 7dlm-a1-m2-cA_7dlm-a1-m2-cB Short chain dehydrogenase (SCR) crystal structure with NADPH G8BHG6 G8BHG6 1.59 X-RAY DIFFRACTION 213 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 280 280 7dld-a1-m1-cB_7dld-a1-m1-cA 7dld-a1-m2-cB_7dld-a1-m2-cA 7dlm-a1-m1-cA_7dlm-a1-m1-cB 7vyq-a1-m1-cA_7vyq-a1-m1-cB 7vyq-a1-m1-cF_7vyq-a1-m1-cG SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIDVDNYDSWNKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCP SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVHSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVTWTQGPEIDVDNYDSWNKIISVDLNGVYYCSHNIGKIFKKNGKGSLIITSSISGKIVNIPQLQAPYNTAKAACTHLAKSLAIEWAPFARVNTISPGYIDTDITDFASKDMKAKWWQLTPLGREGLTQELVGGYLYLASNASTFTTGSDVVIDGGYTCP 7dlu-a1-m1-cF_7dlu-a1-m1-cG Mechanosensitive channel MscS K180R mutant Q9HW12 Q9HW12 2.5 ELECTRON MICROSCOPY 177 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 260 260 7dlu-a1-m1-cA_7dlu-a1-m1-cB 7dlu-a1-m1-cA_7dlu-a1-m1-cG 7dlu-a1-m1-cB_7dlu-a1-m1-cC 7dlu-a1-m1-cC_7dlu-a1-m1-cD 7dlu-a1-m1-cD_7dlu-a1-m1-cE 7dlu-a1-m1-cE_7dlu-a1-m1-cF SWLPIVLEYSGKVALALLTLAIGWWLINTLTGRVGGLLARRSVDRTLQGFVGSLVSIVLKILLVVSVASMIGIQTTSFVAAIGAAGLAIGLALQGSLANFAGGVLILLFRPFKVGDWIEAQGVAGTVDSILIFHTVLRSGDNKRIIVPNGALSNGTVTNYSAEPVRRVIFDVGIDYDADLKNAQNILLAMADDPRVLKDPAPVAVVSNLGESAITLSLRVWVKNADYWDVMFMFNEKARDALGKEGIGIPFPQRVVKVVQ SWLPIVLEYSGKVALALLTLAIGWWLINTLTGRVGGLLARRSVDRTLQGFVGSLVSIVLKILLVVSVASMIGIQTTSFVAAIGAAGLAIGLALQGSLANFAGGVLILLFRPFKVGDWIEAQGVAGTVDSILIFHTVLRSGDNKRIIVPNGALSNGTVTNYSAEPVRRVIFDVGIDYDADLKNAQNILLAMADDPRVLKDPAPVAVVSNLGESAITLSLRVWVKNADYWDVMFMFNEKARDALGKEGIGIPFPQRVVKVVQ 7dlv-a2-m1-cG_7dlv-a2-m1-cI shrimp dUTPase in complex with Stl A0A7S4XLZ3 A0A7S4XLZ3 2.525 X-RAY DIFFRACTION 117 1.0 6689 (Penaeus vannamei) 6689 (Penaeus vannamei) 136 136 7dlv-a1-m1-cA_7dlv-a1-m1-cB 7dlv-a1-m1-cA_7dlv-a1-m1-cC 7dlv-a1-m1-cC_7dlv-a1-m1-cB 7dlv-a2-m1-cH_7dlv-a2-m1-cG 7dlv-a2-m1-cH_7dlv-a2-m1-cI KSVLRFKKLTEHAFTPSKGSKFAAGFDLCSAYDLVIPAVGKALVKTDIQVELPEGCYGRIAPRSGLSWKHHIDVGAGVIDRDYRGNVGVVLFNHAKTDYEVKKGDRVAQLICEKIIYPEIQEVEELMETERGEGGF KSVLRFKKLTEHAFTPSKGSKFAAGFDLCSAYDLVIPAVGKALVKTDIQVELPEGCYGRIAPRSGLSWKHHIDVGAGVIDRDYRGNVGVVLFNHAKTDYEVKKGDRVAQLICEKIIYPEIQEVEELMETERGEGGF 7dlw-a2-m1-cC_7dlw-a2-m1-cD Crystal structure of Arabidopsis ACS7 in complex with PPG Q9STR4 Q9STR4 2.19 X-RAY DIFFRACTION 207 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 411 414 7dlw-a1-m1-cA_7dlw-a1-m1-cB 7dly-a1-m1-cA_7dly-a1-m1-cB NNVELSRVAVSDTHGEDSPYFAGWKAYDENPYDESHNPSGVIQMGLAENQVSFDLLETYFRENALFQDYHGLKTFRQAMASFMEQIRGGKARFDPDRIVLTAGATAANELLTFILADPNDALLVPTPYYPGFDRDLRWRTGVKIVPIHCDSSNHFQITPEALESAYQTARDANIRVRGVLITNPSNPLGATVQKKVLEDLLDFCVRKNIHLVSDEIYSGSVFHASEFTSVAEIVENIDDVSVKERVHIVYSLSKDLGLPGFRVGTIYSYNDNVVRTARRMSSFTLVSSQTQHMLASMLSDEEFTEKYIRINRERLRRRYDTIVEGLKKAGIECLKGNAGLFCWMNLGFLLEKKTKDGELQLWDVILKELNLNISPGSSCHCSEVGWFRVCFANMSENTLEIALKRIHEFMD NNVELSRVAVSDTHGEDSPYFAGWKAYDENPYDESHNPSGVIQMGLAENQVSFDLLETYLEKFRENALFQDYHGLKTFRQAMASFMEQIRGGKARFDPDRIVLTAGATAANELLTFILADPNDALLVPTPYYPGFDRDLRWRTGVKIVPIHCDSSNHFQITPEALESAYQTARDANIRVRGVLITNPSNPLGATVQKKVLEDLLDFCVRKNIHLVSDEIYSGSVFHASEFTSVAEIVENIDDVSVKERVHIVYSLSKDLGLPGFRVGTIYSYNDNVVRTARRMSSFTLVSSQTQHMLASMLSDEEFTEKYIRINRERLRRRYDTIVEGLKKAGIECLKGNAGLFCWMNLGFLLEKKTKDGELQLWDVILKELNLNISPGSSCHCSEVGWFRVCFANMSENTLEIALKRIHEFMD 7dm0-a1-m1-cA_7dm0-a1-m1-cB Biofilm associated protein - C region Q79LN3 Q79LN3 1.55 X-RAY DIFFRACTION 109 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 167 167 DAPTVNDVTSDATQVTGQAEPNSTVKLTFPDGTTATGTADDQGNYTIDIPSNVDLNGGEELQVTATDKDGNTSEPSSANVTDTTAPDAPTVNDVTSDATQVTGQAEPNSTVKLTFPDGTTATGTADDQGNYTIDIPSNVDLNGGEELQVTATDKDGNTSESTNTTII DAPTVNDVTSDATQVTGQAEPNSTVKLTFPDGTTATGTADDQGNYTIDIPSNVDLNGGEELQVTATDKDGNTSEPSSANVTDTTAPDAPTVNDVTSDATQVTGQAEPNSTVKLTFPDGTTATGTADDQGNYTIDIPSNVDLNGGEELQVTATDKDGNTSESTNTTII 7dmg-a1-m1-cA_7dmg-a1-m2-cB Short chain dehydrogenase 2 (SCR2) crystal structure with NADP G8BHG4 G8BHG4 1.79 X-RAY DIFFRACTION 136 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 276 276 7dll-a1-m1-cB_7dll-a1-m2-cA 7dll-a1-m2-cB_7dll-a1-m1-cA 7dmg-a1-m1-cB_7dmg-a1-m2-cA SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVRSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVPWTEGPEINVDNYDSWNKIINLDLNGVYYCAHTVGKIFKKNGKGSLVITSSMSGTIVNVPQLQAAYNAAKAACTHLTKSLAVEWAPFARVNCVSPGYIATFVEKDMKAKWWQLTPLGREGLAQELVGAYLYLASNASTYTTGANLAVDGGYTCP SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVRSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVPWTEGPEINVDNYDSWNKIINLDLNGVYYCAHTVGKIFKKNGKGSLVITSSMSGTIVNVPQLQAAYNAAKAACTHLTKSLAVEWAPFARVNCVSPGYIATFVEKDMKAKWWQLTPLGREGLAQELVGAYLYLASNASTYTTGANLAVDGGYTCP 7dmg-a1-m2-cA_7dmg-a1-m2-cB Short chain dehydrogenase 2 (SCR2) crystal structure with NADP G8BHG4 G8BHG4 1.79 X-RAY DIFFRACTION 221 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 276 276 7dll-a1-m1-cB_7dll-a1-m1-cA 7dll-a1-m2-cB_7dll-a1-m2-cA 7dmg-a1-m1-cA_7dmg-a1-m1-cB SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVRSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVPWTEGPEINVDNYDSWNKIINLDLNGVYYCAHTVGKIFKKNGKGSLVITSSMSGTIVNVPQLQAAYNAAKAACTHLTKSLAVEWAPFARVNCVSPGYIATFVEKDMKAKWWQLTPLGREGLAQELVGAYLYLASNASTYTTGANLAVDGGYTCP SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVRSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVPWTEGPEINVDNYDSWNKIINLDLNGVYYCAHTVGKIFKKNGKGSLVITSSMSGTIVNVPQLQAAYNAAKAACTHLTKSLAVEWAPFARVNCVSPGYIATFVEKDMKAKWWQLTPLGREGLAQELVGAYLYLASNASTYTTGANLAVDGGYTCP 7dmo-a1-m2-cF_7dmo-a1-m2-cB Crystal structures of two pericyclases catalyzing [4+2] cycloadditions A0A2Z5XAU0 A0A2Z5XAU0 2 X-RAY DIFFRACTION 42 0.997 1756125 (Pyrenochaetopsis sp.) 1756125 (Pyrenochaetopsis sp.) 374 375 7dmo-a1-m1-cA_7dmo-a1-m1-cE 7dmo-a1-m3-cD_7dmo-a1-m3-cC EPTSSSSLDITSNCIIETPLQPSDFLPKSANLFPKFPERISVDSWELWEFDTFDTNGSVAFGCSLYRDARGVEQGGFHAEVNALWPDGTHWGETLYFAVSEVVENSDGTTGGKWLSKDGGSITFHIASDYTAAALDFNVPGKVSGTMELRNHANVSPTSNLPASDAEAQLCPGVYYTFPMGPVATSVTATFSSVGANGESRELFISSGYGGMVRGWSARPWPTFMNDAYYVVAQVGPYMLQILRTLGSVFVQHKPFAVARLYLDGSLVSAANTVVGKGDAVRLTKVQPDEKSQGLSGKFRDGNVGYVLEFAKKDSEHGWTFQISHKRAVWSEPTSAPGPDGTGKSGWIEAISGGAKGENYEGHGFGGQLQIPVP SEPTSSSSLDITSNCIIETPLQPSDFLPKSANLFPKFPERISVDSWELWEFDTFDTNGSVAFGCSLYRDARGVEQGGFHAEVNALWPDGTHWGETLYFAVSEVVENSDGTTGGKWLSKDGGSITFHIASDYTAAALDFNVPGKVSGTMELRNHANVSPTSNLPASDAEAQLCPGVYYTFPMGPVATSVTATFSSVGANGESRELFISSGYGGMVRGWSARPWPTFMNDAYYVVAQVGPYMLQILRTLGSVFVQHKPFAVARLYLDGSLVSAANTVVGDGDAVRLTKVQPDEKSQGLSGKFRDGNVGYVLEFAKKDSEHGWTFQISHKRAVWSEPTSAPGPDGTGKSGWIEAISGGAKGENYEGHGFGGQLQIPVP 7dmo-a1-m2-cF_7dmo-a1-m3-cD Crystal structures of two pericyclases catalyzing [4+2] cycloadditions A0A2Z5XAU0 A0A2Z5XAU0 2 X-RAY DIFFRACTION 46 0.997 1756125 (Pyrenochaetopsis sp.) 1756125 (Pyrenochaetopsis sp.) 374 374 7dmo-a1-m1-cA_7dmo-a1-m2-cF 7dmo-a1-m1-cA_7dmo-a1-m3-cD 7dmo-a1-m1-cE_7dmo-a1-m2-cB 7dmo-a1-m1-cE_7dmo-a1-m3-cC 7dmo-a1-m2-cB_7dmo-a1-m3-cC EPTSSSSLDITSNCIIETPLQPSDFLPKSANLFPKFPERISVDSWELWEFDTFDTNGSVAFGCSLYRDARGVEQGGFHAEVNALWPDGTHWGETLYFAVSEVVENSDGTTGGKWLSKDGGSITFHIASDYTAAALDFNVPGKVSGTMELRNHANVSPTSNLPASDAEAQLCPGVYYTFPMGPVATSVTATFSSVGANGESRELFISSGYGGMVRGWSARPWPTFMNDAYYVVAQVGPYMLQILRTLGSVFVQHKPFAVARLYLDGSLVSAANTVVGKGDAVRLTKVQPDEKSQGLSGKFRDGNVGYVLEFAKKDSEHGWTFQISHKRAVWSEPTSAPGPDGTGKSGWIEAISGGAKGENYEGHGFGGQLQIPVP SEPTSSSSLDITSNCIIETPLQPSDFLPKSANLFPKFPERISVDSWELWEFDTFDTNGSVAFGCSLYRDARGVEQGGFHAEVNALWPDGTHWGETLYFAVSEVVENSDGTTGGKWLSKDGGSITFHIASDYTAAALDFNVPGKVSGTMELRNHANVSPTSNLPASDAEAQLCPGVYYTFPMGPVATSVTATFSSVGANGESRELFISSGYGGMVRGWSARPWPTFMNDAYYVVAQVGPYMLQILRTLGSVFVQHKPFAVARLYLDGSLVSAANTVVGGDAVRLTKVQPDEKSQGLSGKFRDGNVGYVLEFAKKDSEHGWTFQISHKRAVWSEPTSAPGPDGTGKSGWIEAISGGAKGENYEGHGFGGQLQIPVP 7dmp-a1-m1-cB_7dmp-a1-m1-cb Mouse radial spoke complex Q8BYM7 Q8BYM7 3.2 ELECTRON MICROSCOPY 31 1.0 10090 (Mus musculus) 10090 (Mus musculus) 336 336 LPAYEIAETQKALFLSLPNVMESAYYFEQAGVGLGTDETYRVFLALKQLTDTHPIQRCRFWGKILGLEMNYIVAEVEFRDGEDLPKSLYKAPQVIPKEESRTGANKYVYFVCNVPGRPWVRLPSVTPAQIVTARKIKKFFTGRLDAAVISYPPFPGNESNYLRAQIARISAGTHVSPLGFYQFDSYEENPDFEGIQVIDLVESLSNWVHHVQYILPQGRCNWFNPIQEQEVGPPLLTPISEDLGIQNIPSWTTQLSSNLIPQYAIAVLRSNLWPGAYAFSNGKKFENFYIGWGHKYCVENYTPPSPPPVYQEYPSGPEITEMNDPSVEEEQAFRMT LPAYEIAETQKALFLSLPNVMESAYYFEQAGVGLGTDETYRVFLALKQLTDTHPIQRCRFWGKILGLEMNYIVAEVEFRDGEDLPKSLYKAPQVIPKEESRTGANKYVYFVCNVPGRPWVRLPSVTPAQIVTARKIKKFFTGRLDAAVISYPPFPGNESNYLRAQIARISAGTHVSPLGFYQFDSYEENPDFEGIQVIDLVESLSNWVHHVQYILPQGRCNWFNPIQEQEVGPPLLTPISEDLGIQNIPSWTTQLSSNLIPQYAIAVLRSNLWPGAYAFSNGKKFENFYIGWGHKYCVENYTPPSPPPVYQEYPSGPEITEMNDPSVEEEQAFRMT 7dmp-a1-m1-cC_7dmp-a1-m1-cc Mouse radial spoke complex Q9D9V4 Q9D9V4 3.2 ELECTRON MICROSCOPY 35 1.0 10090 (Mus musculus) 10090 (Mus musculus) 242 242 MDADSLLLSLELASGSGQGLSPDRRASLLTSLMLVKRDYRFARVLFWGRILGLVADYYIAQGLSEDQLAPRKTLYSLNCTEWSLLPPATEEMAMQISVVSGRFMGDPSHEYEHTEVVVQIKEETRLVSIIDQIDKAVAIIPRGALFKTPFGVTHVNRTFEGLPLSEVRKLSSYFHFREALDSLEYDIPRGSWSIQMERGNALVVLRSLLWPGLTFYHAPRTKNYGYIYVGTGEKNMDLPFML MDADSLLLSLELASGSGQGLSPDRRASLLTSLMLVKRDYRFARVLFWGRILGLVADYYIAQGLSEDQLAPRKTLYSLNCTEWSLLPPATEEMAMQISVVSGRFMGDPSHEYEHTEVVVQIKEETRLVSIIDQIDKAVAIIPRGALFKTPFGVTHVNRTFEGLPLSEVRKLSSYFHFREALDSLEYDIPRGSWSIQMERGNALVVLRSLLWPGLTFYHAPRTKNYGYIYVGTGEKNMDLPFML 7dmw-a2-m1-cB_7dmw-a2-m2-cB Crystal structure of CcpC regulatory domain in complex with citrate from Bacillus amyloliquefaciens A7Z428 A7Z428 2.29 X-RAY DIFFRACTION 101 1.0 326423 (Bacillus velezensis FZB42) 326423 (Bacillus velezensis FZB42) 199 199 5z72-a1-m1-cA_5z72-a1-m1-cC 5z72-a2-m1-cB_5z72-a2-m2-cB 7dmw-a1-m1-cA_7dmw-a1-m1-cC GTLKLAVASIIGQHWLPKVLKTYVERYPNAKVSLITGWSSEMLKSLYEDQVHIGIIRGNPEWKGRKDYLMTDHLYLVDTEISCIDDIAHTDRPFIQFKSDSTYFQEIQHWWHQKFKTSPKQTILVDQIETCKQMALHGIGYAILPSVTLEEEDKVNKMPLLDTKDHPIGRDTWLLGYEPAFELKQVQAFVSVIKDMLKQ GTLKLAVASIIGQHWLPKVLKTYVERYPNAKVSLITGWSSEMLKSLYEDQVHIGIIRGNPEWKGRKDYLMTDHLYLVDTEISCIDDIAHTDRPFIQFKSDSTYFQEIQHWWHQKFKTSPKQTILVDQIETCKQMALHGIGYAILPSVTLEEEDKVNKMPLLDTKDHPIGRDTWLLGYEPAFELKQVQAFVSVIKDMLKQ 7dn1-a1-m1-cB_7dn1-a1-m2-cB Hetero-oligomers of SCR-SCR2 crystal structure with NADPH G8BHG6 G8BHG6 1.74 X-RAY DIFFRACTION 15 1.0 5480 (Candida parapsilosis) 5480 (Candida parapsilosis) 280 280 7dll-a1-m1-cA_7dll-a1-m2-cA 7dll-a1-m1-cB_7dll-a1-m2-cB 7dmg-a1-m1-cA_7dmg-a1-m2-cA 7dmg-a1-m1-cB_7dmg-a1-m2-cB SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVRSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVPWTEGPEINVDNYDSWNKIINLDLNGVYYCAHTVGKIFKKNGKGSLVITSSMSGTIVNVPQLQAAYNAAKAACTHLTKSLAVEWAPFARVNCVSPGYIATEISDFVEKDMKAKWWQLTPLGREGLAQELVGAYLYLASNASTYTTGANLAVDGGYTCP SMGEIESYCNKELGPLPTKAPTLSKNVLDLFSLKGKVASVTGSSGGIGWAVAEAYAQAGADVAIWYNSHPADEKAEHLQKTYGVRSKAYKCNISDPKSVEETISQQEKDFGTIDVFVANAGVPWTEGPEINVDNYDSWNKIINLDLNGVYYCAHTVGKIFKKNGKGSLVITSSMSGTIVNVPQLQAAYNAAKAACTHLTKSLAVEWAPFARVNCVSPGYIATEISDFVEKDMKAKWWQLTPLGREGLAQELVGAYLYLASNASTYTTGANLAVDGGYTCP 7dn2-a1-m55-cb_7dn2-a1-m9-cg Acidic stable capsid structure of Helicobacter pylori bacteriophage KHP30 I7H0H9 I7H0H9 2.7 ELECTRON MICROSCOPY 30 0.997 1208236 (Helicobacter phage KHP30) 1208236 (Helicobacter phage KHP30) 366 370 7dn2-a1-m10-ca_7dn2-a1-m6-ce 7dn2-a1-m10-cb_7dn2-a1-m24-cg 7dn2-a1-m10-cc_7dn2-a1-m24-cc 7dn2-a1-m10-ch_7dn2-a1-m25-cd 7dn2-a1-m10-ci_7dn2-a1-m9-cf 7dn2-a1-m11-ca_7dn2-a1-m12-ce 7dn2-a1-m11-cb_7dn2-a1-m16-cg 7dn2-a1-m11-cc_7dn2-a1-m16-cc 7dn2-a1-m11-ch_7dn2-a1-m17-cd 7dn2-a1-m11-ci_7dn2-a1-m15-cf 7dn2-a1-m12-ca_7dn2-a1-m13-ce 7dn2-a1-m12-cb_7dn2-a1-m38-cg 7dn2-a1-m12-cc_7dn2-a1-m38-cc 7dn2-a1-m12-ch_7dn2-a1-m39-cd 7dn2-a1-m12-ci_7dn2-a1-m11-cf 7dn2-a1-m13-ca_7dn2-a1-m14-ce 7dn2-a1-m13-cb_7dn2-a1-m47-cg 7dn2-a1-m13-cc_7dn2-a1-m47-cc 7dn2-a1-m13-ch_7dn2-a1-m48-cd 7dn2-a1-m13-ci_7dn2-a1-m12-cf 7dn2-a1-m14-ca_7dn2-a1-m15-ce 7dn2-a1-m14-cb_7dn2-a1-m45-cg 7dn2-a1-m14-cc_7dn2-a1-m45-cc 7dn2-a1-m14-ch_7dn2-a1-m41-cd 7dn2-a1-m14-ci_7dn2-a1-m13-cf 7dn2-a1-m15-ca_7dn2-a1-m11-ce 7dn2-a1-m15-cb_7dn2-a1-m29-cg 7dn2-a1-m15-cc_7dn2-a1-m29-cc 7dn2-a1-m15-ch_7dn2-a1-m30-cd 7dn2-a1-m15-ci_7dn2-a1-m14-cf 7dn2-a1-m16-ca_7dn2-a1-m17-ce 7dn2-a1-m16-cb_7dn2-a1-m11-cg 7dn2-a1-m16-ch_7dn2-a1-m12-cd 7dn2-a1-m16-ci_7dn2-a1-m20-cf 7dn2-a1-m17-ca_7dn2-a1-m18-ce 7dn2-a1-m17-cb_7dn2-a1-m28-cg 7dn2-a1-m17-cc_7dn2-a1-m28-cc 7dn2-a1-m17-ch_7dn2-a1-m29-cd 7dn2-a1-m17-ci_7dn2-a1-m16-cf 7dn2-a1-m18-ca_7dn2-a1-m19-ce 7dn2-a1-m18-cb_7dn2-a1-m52-cg 7dn2-a1-m18-cc_7dn2-a1-m52-cc 7dn2-a1-m18-ch_7dn2-a1-m53-cd 7dn2-a1-m18-ci_7dn2-a1-m17-cf 7dn2-a1-m19-ca_7dn2-a1-m20-ce 7dn2-a1-m19-cb_7dn2-a1-m60-cg 7dn2-a1-m19-cc_7dn2-a1-m60-cc 7dn2-a1-m19-ch_7dn2-a1-m56-cd 7dn2-a1-m19-ci_7dn2-a1-m18-cf 7dn2-a1-m1-ca_7dn2-a1-m2-ce 7dn2-a1-m1-cb_7dn2-a1-m6-cg 7dn2-a1-m1-cc_7dn2-a1-m6-cc 7dn2-a1-m1-ch_7dn2-a1-m7-cd 7dn2-a1-m1-ci_7dn2-a1-m5-cf 7dn2-a1-m20-ca_7dn2-a1-m16-ce 7dn2-a1-m20-cb_7dn2-a1-m39-cg 7dn2-a1-m20-cc_7dn2-a1-m39-cc 7dn2-a1-m20-ch_7dn2-a1-m40-cd 7dn2-a1-m20-ci_7dn2-a1-m19-cf 7dn2-a1-m21-ca_7dn2-a1-m22-ce 7dn2-a1-m21-cb_7dn2-a1-m26-cg 7dn2-a1-m21-cc_7dn2-a1-m26-cc 7dn2-a1-m21-ch_7dn2-a1-m27-cd 7dn2-a1-m21-ci_7dn2-a1-m25-cf 7dn2-a1-m22-ca_7dn2-a1-m23-ce 7dn2-a1-m22-cb_7dn2-a1-m43-cg 7dn2-a1-m22-cc_7dn2-a1-m43-cc 7dn2-a1-m22-ch_7dn2-a1-m44-cd 7dn2-a1-m22-ci_7dn2-a1-m21-cf 7dn2-a1-m23-ca_7dn2-a1-m24-ce 7dn2-a1-m23-cb_7dn2-a1-m2-cg 7dn2-a1-m23-ch_7dn2-a1-m3-cd 7dn2-a1-m23-ci_7dn2-a1-m22-cf 7dn2-a1-m24-ca_7dn2-a1-m25-ce 7dn2-a1-m24-cb_7dn2-a1-m10-cg 7dn2-a1-m24-ch_7dn2-a1-m6-cd 7dn2-a1-m24-ci_7dn2-a1-m23-cf 7dn2-a1-m25-ca_7dn2-a1-m21-ce 7dn2-a1-m25-cb_7dn2-a1-m54-cg 7dn2-a1-m25-cc_7dn2-a1-m54-cc 7dn2-a1-m25-ch_7dn2-a1-m55-cd 7dn2-a1-m25-ci_7dn2-a1-m24-cf 7dn2-a1-m26-ca_7dn2-a1-m27-ce 7dn2-a1-m26-cb_7dn2-a1-m21-cg 7dn2-a1-m26-ch_7dn2-a1-m22-cd 7dn2-a1-m26-ci_7dn2-a1-m30-cf 7dn2-a1-m27-ca_7dn2-a1-m28-ce 7dn2-a1-m27-cb_7dn2-a1-m53-cg 7dn2-a1-m27-cc_7dn2-a1-m53-cc 7dn2-a1-m27-ch_7dn2-a1-m54-cd 7dn2-a1-m27-ci_7dn2-a1-m26-cf 7dn2-a1-m28-ca_7dn2-a1-m29-ce 7dn2-a1-m28-cb_7dn2-a1-m17-cg 7dn2-a1-m28-ch_7dn2-a1-m18-cd 7dn2-a1-m28-ci_7dn2-a1-m27-cf 7dn2-a1-m29-ca_7dn2-a1-m30-ce 7dn2-a1-m29-cb_7dn2-a1-m15-cg 7dn2-a1-m29-ch_7dn2-a1-m11-cd 7dn2-a1-m29-ci_7dn2-a1-m28-cf 7dn2-a1-m2-ca_7dn2-a1-m3-ce 7dn2-a1-m2-cb_7dn2-a1-m23-cg 7dn2-a1-m2-cc_7dn2-a1-m23-cc 7dn2-a1-m2-ch_7dn2-a1-m24-cd 7dn2-a1-m2-ci_7dn2-a1-m1-cf 7dn2-a1-m30-ca_7dn2-a1-m26-ce 7dn2-a1-m30-cb_7dn2-a1-m44-cg 7dn2-a1-m30-cc_7dn2-a1-m44-cc 7dn2-a1-m30-ch_7dn2-a1-m45-cd 7dn2-a1-m30-ci_7dn2-a1-m29-cf 7dn2-a1-m31-ca_7dn2-a1-m32-ce 7dn2-a1-m31-cb_7dn2-a1-m36-cg 7dn2-a1-m31-cc_7dn2-a1-m36-cc 7dn2-a1-m31-ch_7dn2-a1-m37-cd 7dn2-a1-m31-ci_7dn2-a1-m35-cf 7dn2-a1-m32-ca_7dn2-a1-m33-ce 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7f2p-a1-m59-cd_7f2p-a1-m32-ch 7f2p-a1-m59-ce_7f2p-a1-m58-ca 7f2p-a1-m59-ci_7f2p-a1-m58-cf 7f2p-a1-m5-cb_7f2p-a1-m34-cg 7f2p-a1-m5-cd_7f2p-a1-m50-ch 7f2p-a1-m5-ce_7f2p-a1-m4-ca 7f2p-a1-m5-ci_7f2p-a1-m4-cf 7f2p-a1-m60-cb_7f2p-a1-m19-cg 7f2p-a1-m60-cd_7f2p-a1-m40-ch 7f2p-a1-m60-ce_7f2p-a1-m59-ca 7f2p-a1-m60-ci_7f2p-a1-m59-cf 7f2p-a1-m6-cb_7f2p-a1-m1-cg 7f2p-a1-m6-cd_7f2p-a1-m24-ch 7f2p-a1-m6-ce_7f2p-a1-m10-ca 7f2p-a1-m6-ci_7f2p-a1-m10-cf 7f2p-a1-m7-cb_7f2p-a1-m33-cg 7f2p-a1-m7-cd_7f2p-a1-m1-ch 7f2p-a1-m7-ce_7f2p-a1-m6-ca 7f2p-a1-m7-ci_7f2p-a1-m6-cf 7f2p-a1-m8-cb_7f2p-a1-m57-cg 7f2p-a1-m8-cd_7f2p-a1-m33-ch 7f2p-a1-m8-ce_7f2p-a1-m7-ca 7f2p-a1-m8-ci_7f2p-a1-m7-cf 7f2p-a1-m9-cb_7f2p-a1-m55-cg 7f2p-a1-m9-cd_7f2p-a1-m57-ch 7f2p-a1-m9-ce_7f2p-a1-m8-ca 7f2p-a1-m9-ci_7f2p-a1-m8-cf INFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQEINKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDM KLNNINFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQENKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDME 7dn2-a1-m8-cb_7dn2-a1-m9-cg Acidic stable capsid structure of Helicobacter pylori bacteriophage KHP30 I7H0H9 I7H0H9 2.7 ELECTRON MICROSCOPY 13 0.997 1208236 (Helicobacter phage KHP30) 1208236 (Helicobacter phage KHP30) 366 370 7dn2-a1-m10-cb_7dn2-a1-m6-cg 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7f2p-a1-m9-ce_7f2p-a1-m55-cc 7f2p-a1-m9-ch_7f2p-a1-m51-cf INFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQEINKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDM KLNNINFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQENKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDME 7dn2-a1-m9-c4_7dn2-a1-m9-c6 Acidic stable capsid structure of Helicobacter pylori bacteriophage KHP30 I7HFW5 I7HFW5 2.7 ELECTRON MICROSCOPY 51 1.0 1208236 (Helicobacter phage KHP30) 1208236 (Helicobacter phage KHP30) 126 126 7dn2-a1-m10-c1_7dn2-a1-m10-c2 7dn2-a1-m10-c1_7dn2-a1-m10-c3 7dn2-a1-m10-c2_7dn2-a1-m10-c3 7dn2-a1-m10-c4_7dn2-a1-m10-c5 7dn2-a1-m10-c4_7dn2-a1-m10-c6 7dn2-a1-m10-c5_7dn2-a1-m10-c6 7dn2-a1-m10-c7_7dn2-a1-m10-c8 7dn2-a1-m10-c7_7dn2-a1-m10-c9 7dn2-a1-m10-c8_7dn2-a1-m10-c9 7dn2-a1-m11-c1_7dn2-a1-m11-c2 7dn2-a1-m11-c1_7dn2-a1-m11-c3 7dn2-a1-m11-c2_7dn2-a1-m11-c3 7dn2-a1-m11-c4_7dn2-a1-m11-c5 7dn2-a1-m11-c4_7dn2-a1-m11-c6 7dn2-a1-m11-c5_7dn2-a1-m11-c6 7dn2-a1-m11-c7_7dn2-a1-m11-c8 7dn2-a1-m11-c7_7dn2-a1-m11-c9 7dn2-a1-m11-c8_7dn2-a1-m11-c9 7dn2-a1-m12-c1_7dn2-a1-m12-c2 7dn2-a1-m12-c1_7dn2-a1-m12-c3 7dn2-a1-m12-c2_7dn2-a1-m12-c3 7dn2-a1-m12-c4_7dn2-a1-m12-c5 7dn2-a1-m12-c4_7dn2-a1-m12-c6 7dn2-a1-m12-c5_7dn2-a1-m12-c6 7dn2-a1-m12-c7_7dn2-a1-m12-c8 7dn2-a1-m12-c7_7dn2-a1-m12-c9 7dn2-a1-m12-c8_7dn2-a1-m12-c9 7dn2-a1-m13-c1_7dn2-a1-m13-c2 7dn2-a1-m13-c1_7dn2-a1-m13-c3 7dn2-a1-m13-c2_7dn2-a1-m13-c3 7dn2-a1-m13-c4_7dn2-a1-m13-c5 7dn2-a1-m13-c4_7dn2-a1-m13-c6 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7f2p-a1-m55-cd_7f2p-a1-m9-cg 7f2p-a1-m55-ce_7f2p-a1-m54-cc 7f2p-a1-m55-ci_7f2p-a1-m51-cf 7f2p-a1-m56-ca_7f2p-a1-m57-ca 7f2p-a1-m56-ca_7f2p-a1-m60-ca 7f2p-a1-m56-cd_7f2p-a1-m51-cg 7f2p-a1-m56-ce_7f2p-a1-m60-cc 7f2p-a1-m56-ci_7f2p-a1-m57-cf 7f2p-a1-m57-ca_7f2p-a1-m58-ca 7f2p-a1-m57-cd_7f2p-a1-m8-cg 7f2p-a1-m57-ce_7f2p-a1-m56-cc 7f2p-a1-m57-ci_7f2p-a1-m58-cf 7f2p-a1-m58-ca_7f2p-a1-m59-ca 7f2p-a1-m58-cd_7f2p-a1-m32-cg 7f2p-a1-m58-ce_7f2p-a1-m57-cc 7f2p-a1-m58-ci_7f2p-a1-m59-cf 7f2p-a1-m59-ca_7f2p-a1-m60-ca 7f2p-a1-m59-cd_7f2p-a1-m40-cg 7f2p-a1-m59-ce_7f2p-a1-m58-cc 7f2p-a1-m59-ci_7f2p-a1-m60-cf 7f2p-a1-m5-cd_7f2p-a1-m34-cg 7f2p-a1-m5-ce_7f2p-a1-m4-cc 7f2p-a1-m5-ci_7f2p-a1-m1-cf 7f2p-a1-m60-cd_7f2p-a1-m19-cg 7f2p-a1-m60-ce_7f2p-a1-m59-cc 7f2p-a1-m60-ci_7f2p-a1-m56-cf 7f2p-a1-m6-ca_7f2p-a1-m7-ca 7f2p-a1-m6-cd_7f2p-a1-m1-cg 7f2p-a1-m6-ce_7f2p-a1-m10-cc 7f2p-a1-m6-ci_7f2p-a1-m7-cf 7f2p-a1-m7-ca_7f2p-a1-m8-ca 7f2p-a1-m7-cd_7f2p-a1-m33-cg 7f2p-a1-m7-ce_7f2p-a1-m6-cc 7f2p-a1-m7-ci_7f2p-a1-m8-cf 7f2p-a1-m8-ca_7f2p-a1-m9-ca 7f2p-a1-m8-cd_7f2p-a1-m57-cg 7f2p-a1-m8-ce_7f2p-a1-m7-cc 7f2p-a1-m8-ci_7f2p-a1-m9-cf 7f2p-a1-m9-cd_7f2p-a1-m55-cg 7f2p-a1-m9-ce_7f2p-a1-m8-cc 7f2p-a1-m9-ci_7f2p-a1-m10-cf KLNNINFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQENKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDME KLNNINFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQEINKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDME 7dn2-a1-m9-cg_7dn2-a1-m9-cd Acidic stable capsid structure of Helicobacter pylori bacteriophage KHP30 I7H0H9 I7H0H9 2.7 ELECTRON MICROSCOPY 43 1.0 1208236 (Helicobacter phage KHP30) 1208236 (Helicobacter phage KHP30) 370 371 7dn2-a1-m10-ca_7dn2-a1-m6-cf 7dn2-a1-m10-cb_7dn2-a1-m6-ce 7dn2-a1-m10-cc_7dn2-a1-m24-cd 7dn2-a1-m10-cc_7dn2-a1-m24-cg 7dn2-a1-m10-cg_7dn2-a1-m10-cd 7dn2-a1-m10-ch_7dn2-a1-m24-cb 7dn2-a1-m10-ch_7dn2-a1-m25-ce 7dn2-a1-m10-ci_7dn2-a1-m10-cf 7dn2-a1-m10-ci_7dn2-a1-m9-ca 7dn2-a1-m11-ca_7dn2-a1-m12-cf 7dn2-a1-m11-cb_7dn2-a1-m12-ce 7dn2-a1-m11-cc_7dn2-a1-m16-cd 7dn2-a1-m11-cc_7dn2-a1-m16-cg 7dn2-a1-m11-cg_7dn2-a1-m11-cd 7dn2-a1-m11-ch_7dn2-a1-m16-cb 7dn2-a1-m11-ch_7dn2-a1-m17-ce 7dn2-a1-m11-ci_7dn2-a1-m11-cf 7dn2-a1-m11-ci_7dn2-a1-m15-ca 7dn2-a1-m12-ca_7dn2-a1-m13-cf 7dn2-a1-m12-cb_7dn2-a1-m13-ce 7dn2-a1-m12-cc_7dn2-a1-m38-cd 7dn2-a1-m12-cc_7dn2-a1-m38-cg 7dn2-a1-m12-cg_7dn2-a1-m12-cd 7dn2-a1-m12-ch_7dn2-a1-m38-cb 7dn2-a1-m12-ch_7dn2-a1-m39-ce 7dn2-a1-m12-ci_7dn2-a1-m11-ca 7dn2-a1-m12-ci_7dn2-a1-m12-cf 7dn2-a1-m13-ca_7dn2-a1-m14-cf 7dn2-a1-m13-cb_7dn2-a1-m14-ce 7dn2-a1-m13-cc_7dn2-a1-m47-cd 7dn2-a1-m13-cc_7dn2-a1-m47-cg 7dn2-a1-m13-cg_7dn2-a1-m13-cd 7dn2-a1-m13-ch_7dn2-a1-m47-cb 7dn2-a1-m13-ch_7dn2-a1-m48-ce 7dn2-a1-m13-ci_7dn2-a1-m12-ca 7dn2-a1-m13-ci_7dn2-a1-m13-cf 7dn2-a1-m14-ca_7dn2-a1-m15-cf 7dn2-a1-m14-cb_7dn2-a1-m15-ce 7dn2-a1-m14-cc_7dn2-a1-m45-cd 7dn2-a1-m14-cc_7dn2-a1-m45-cg 7dn2-a1-m14-cg_7dn2-a1-m14-cd 7dn2-a1-m14-ch_7dn2-a1-m41-ce 7dn2-a1-m14-ch_7dn2-a1-m45-cb 7dn2-a1-m14-ci_7dn2-a1-m13-ca 7dn2-a1-m14-ci_7dn2-a1-m14-cf 7dn2-a1-m15-ca_7dn2-a1-m11-cf 7dn2-a1-m15-cb_7dn2-a1-m11-ce 7dn2-a1-m15-cc_7dn2-a1-m29-cd 7dn2-a1-m15-cc_7dn2-a1-m29-cg 7dn2-a1-m15-cg_7dn2-a1-m15-cd 7dn2-a1-m15-ch_7dn2-a1-m29-cb 7dn2-a1-m15-ch_7dn2-a1-m30-ce 7dn2-a1-m15-ci_7dn2-a1-m14-ca 7dn2-a1-m15-ci_7dn2-a1-m15-cf 7dn2-a1-m16-ca_7dn2-a1-m17-cf 7dn2-a1-m16-cb_7dn2-a1-m17-ce 7dn2-a1-m16-cc_7dn2-a1-m11-cd 7dn2-a1-m16-cc_7dn2-a1-m11-cg 7dn2-a1-m16-cg_7dn2-a1-m16-cd 7dn2-a1-m16-ch_7dn2-a1-m11-cb 7dn2-a1-m16-ch_7dn2-a1-m12-ce 7dn2-a1-m16-ci_7dn2-a1-m16-cf 7dn2-a1-m16-ci_7dn2-a1-m20-ca 7dn2-a1-m17-ca_7dn2-a1-m18-cf 7dn2-a1-m17-cb_7dn2-a1-m18-ce 7dn2-a1-m17-cc_7dn2-a1-m28-cd 7dn2-a1-m17-cc_7dn2-a1-m28-cg 7dn2-a1-m17-cg_7dn2-a1-m17-cd 7dn2-a1-m17-ch_7dn2-a1-m28-cb 7dn2-a1-m17-ch_7dn2-a1-m29-ce 7dn2-a1-m17-ci_7dn2-a1-m16-ca 7dn2-a1-m17-ci_7dn2-a1-m17-cf 7dn2-a1-m18-ca_7dn2-a1-m19-cf 7dn2-a1-m18-cb_7dn2-a1-m19-ce 7dn2-a1-m18-cc_7dn2-a1-m52-cd 7dn2-a1-m18-cc_7dn2-a1-m52-cg 7dn2-a1-m18-cg_7dn2-a1-m18-cd 7dn2-a1-m18-ch_7dn2-a1-m52-cb 7dn2-a1-m18-ch_7dn2-a1-m53-ce 7dn2-a1-m18-ci_7dn2-a1-m17-ca 7dn2-a1-m18-ci_7dn2-a1-m18-cf 7dn2-a1-m19-ca_7dn2-a1-m20-cf 7dn2-a1-m19-cb_7dn2-a1-m20-ce 7dn2-a1-m19-cc_7dn2-a1-m60-cd 7dn2-a1-m19-cc_7dn2-a1-m60-cg 7dn2-a1-m19-cg_7dn2-a1-m19-cd 7dn2-a1-m19-ch_7dn2-a1-m56-ce 7dn2-a1-m19-ch_7dn2-a1-m60-cb 7dn2-a1-m19-ci_7dn2-a1-m18-ca 7dn2-a1-m19-ci_7dn2-a1-m19-cf 7dn2-a1-m1-ca_7dn2-a1-m2-cf 7dn2-a1-m1-cb_7dn2-a1-m2-ce 7dn2-a1-m1-cc_7dn2-a1-m6-cd 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7f2p-a1-m47-ci_7f2p-a1-m47-cf 7f2p-a1-m48-ca_7f2p-a1-m49-cf 7f2p-a1-m48-ca_7f2p-a1-m49-ci 7f2p-a1-m48-cb_7f2p-a1-m37-ch 7f2p-a1-m48-cb_7f2p-a1-m49-ce 7f2p-a1-m48-cc_7f2p-a1-m37-cg 7f2p-a1-m48-cd_7f2p-a1-m48-cg 7f2p-a1-m48-ce_7f2p-a1-m13-ch 7f2p-a1-m48-ci_7f2p-a1-m48-cf 7f2p-a1-m49-ca_7f2p-a1-m50-cf 7f2p-a1-m49-ca_7f2p-a1-m50-ci 7f2p-a1-m49-cb_7f2p-a1-m35-ch 7f2p-a1-m49-cb_7f2p-a1-m50-ce 7f2p-a1-m49-cc_7f2p-a1-m35-cg 7f2p-a1-m49-cd_7f2p-a1-m49-cg 7f2p-a1-m49-ce_7f2p-a1-m37-ch 7f2p-a1-m49-ci_7f2p-a1-m49-cf 7f2p-a1-m4-ca_7f2p-a1-m5-cf 7f2p-a1-m4-ca_7f2p-a1-m5-ci 7f2p-a1-m4-cb_7f2p-a1-m50-ch 7f2p-a1-m4-cb_7f2p-a1-m5-ce 7f2p-a1-m4-cc_7f2p-a1-m50-cd 7f2p-a1-m4-cc_7f2p-a1-m50-cg 7f2p-a1-m4-cd_7f2p-a1-m4-cg 7f2p-a1-m4-cd_7f2p-a1-m50-cc 7f2p-a1-m4-ce_7f2p-a1-m42-ch 7f2p-a1-m4-ci_7f2p-a1-m4-cf 7f2p-a1-m50-ca_7f2p-a1-m46-cf 7f2p-a1-m50-cb_7f2p-a1-m46-ce 7f2p-a1-m50-cb_7f2p-a1-m4-ch 7f2p-a1-m50-cc_7f2p-a1-m4-cg 7f2p-a1-m50-cd_7f2p-a1-m50-cg 7f2p-a1-m50-ce_7f2p-a1-m35-ch 7f2p-a1-m50-ci_7f2p-a1-m50-cf 7f2p-a1-m51-ca_7f2p-a1-m52-cf 7f2p-a1-m51-ca_7f2p-a1-m52-ci 7f2p-a1-m51-cb_7f2p-a1-m52-ce 7f2p-a1-m51-cb_7f2p-a1-m56-ch 7f2p-a1-m51-cc_7f2p-a1-m56-cd 7f2p-a1-m51-cc_7f2p-a1-m56-cg 7f2p-a1-m51-cd_7f2p-a1-m51-cg 7f2p-a1-m51-cd_7f2p-a1-m56-cc 7f2p-a1-m51-ce_7f2p-a1-m9-ch 7f2p-a1-m51-ci_7f2p-a1-m51-cf 7f2p-a1-m51-ci_7f2p-a1-m55-ca 7f2p-a1-m52-ca_7f2p-a1-m53-cf 7f2p-a1-m52-ca_7f2p-a1-m53-ci 7f2p-a1-m52-cb_7f2p-a1-m18-ch 7f2p-a1-m52-cb_7f2p-a1-m53-ce 7f2p-a1-m52-cc_7f2p-a1-m18-cg 7f2p-a1-m52-cd_7f2p-a1-m52-cg 7f2p-a1-m52-ce_7f2p-a1-m56-ch 7f2p-a1-m52-ci_7f2p-a1-m52-cf 7f2p-a1-m53-ca_7f2p-a1-m54-cf 7f2p-a1-m53-ca_7f2p-a1-m54-ci 7f2p-a1-m53-cb_7f2p-a1-m27-ch 7f2p-a1-m53-cb_7f2p-a1-m54-ce 7f2p-a1-m53-cc_7f2p-a1-m27-cg 7f2p-a1-m53-cd_7f2p-a1-m53-cg 7f2p-a1-m53-ce_7f2p-a1-m18-ch 7f2p-a1-m53-ci_7f2p-a1-m53-cf 7f2p-a1-m54-ca_7f2p-a1-m55-cf 7f2p-a1-m54-ca_7f2p-a1-m55-ci 7f2p-a1-m54-cb_7f2p-a1-m25-ch 7f2p-a1-m54-cb_7f2p-a1-m55-ce 7f2p-a1-m54-cc_7f2p-a1-m25-cg 7f2p-a1-m54-cd_7f2p-a1-m54-cg 7f2p-a1-m54-ce_7f2p-a1-m27-ch 7f2p-a1-m54-ci_7f2p-a1-m54-cf 7f2p-a1-m55-ca_7f2p-a1-m51-cf 7f2p-a1-m55-cb_7f2p-a1-m51-ce 7f2p-a1-m55-cb_7f2p-a1-m9-ch 7f2p-a1-m55-cc_7f2p-a1-m9-cd 7f2p-a1-m55-cc_7f2p-a1-m9-cg 7f2p-a1-m55-cd_7f2p-a1-m55-cg 7f2p-a1-m55-cd_7f2p-a1-m9-cc 7f2p-a1-m55-ce_7f2p-a1-m25-ch 7f2p-a1-m55-ci_7f2p-a1-m55-cf 7f2p-a1-m56-ca_7f2p-a1-m57-cf 7f2p-a1-m56-ca_7f2p-a1-m57-ci 7f2p-a1-m56-cb_7f2p-a1-m51-ch 7f2p-a1-m56-cb_7f2p-a1-m57-ce 7f2p-a1-m56-cc_7f2p-a1-m51-cg 7f2p-a1-m56-cd_7f2p-a1-m56-cg 7f2p-a1-m56-ce_7f2p-a1-m19-ch 7f2p-a1-m56-ci_7f2p-a1-m56-cf 7f2p-a1-m56-ci_7f2p-a1-m60-ca 7f2p-a1-m57-ca_7f2p-a1-m58-cf 7f2p-a1-m57-ca_7f2p-a1-m58-ci 7f2p-a1-m57-cb_7f2p-a1-m58-ce 7f2p-a1-m57-cb_7f2p-a1-m8-ch 7f2p-a1-m57-cc_7f2p-a1-m8-cd 7f2p-a1-m57-cc_7f2p-a1-m8-cg 7f2p-a1-m57-cd_7f2p-a1-m57-cg 7f2p-a1-m57-cd_7f2p-a1-m8-cc 7f2p-a1-m57-ce_7f2p-a1-m51-ch 7f2p-a1-m57-ci_7f2p-a1-m57-cf 7f2p-a1-m58-ca_7f2p-a1-m59-cf 7f2p-a1-m58-ca_7f2p-a1-m59-ci 7f2p-a1-m58-cb_7f2p-a1-m32-ch 7f2p-a1-m58-cb_7f2p-a1-m59-ce 7f2p-a1-m58-cc_7f2p-a1-m32-cg 7f2p-a1-m58-cd_7f2p-a1-m58-cg 7f2p-a1-m58-ce_7f2p-a1-m8-ch 7f2p-a1-m58-ci_7f2p-a1-m58-cf 7f2p-a1-m59-ca_7f2p-a1-m60-cf 7f2p-a1-m59-ca_7f2p-a1-m60-ci 7f2p-a1-m59-cb_7f2p-a1-m40-ch 7f2p-a1-m59-cb_7f2p-a1-m60-ce 7f2p-a1-m59-cc_7f2p-a1-m40-cg 7f2p-a1-m59-cd_7f2p-a1-m59-cg 7f2p-a1-m59-ce_7f2p-a1-m32-ch 7f2p-a1-m59-ci_7f2p-a1-m59-cf 7f2p-a1-m5-ca_7f2p-a1-m1-cf 7f2p-a1-m5-cb_7f2p-a1-m1-ce 7f2p-a1-m5-cb_7f2p-a1-m34-ch 7f2p-a1-m5-cc_7f2p-a1-m34-cg 7f2p-a1-m5-cd_7f2p-a1-m5-cg 7f2p-a1-m5-ce_7f2p-a1-m50-ch 7f2p-a1-m5-ci_7f2p-a1-m5-cf 7f2p-a1-m60-ca_7f2p-a1-m56-cf 7f2p-a1-m60-cb_7f2p-a1-m19-ch 7f2p-a1-m60-cb_7f2p-a1-m56-ce 7f2p-a1-m60-cc_7f2p-a1-m19-cg 7f2p-a1-m60-cd_7f2p-a1-m60-cg 7f2p-a1-m60-ce_7f2p-a1-m40-ch 7f2p-a1-m60-ci_7f2p-a1-m60-cf 7f2p-a1-m6-ca_7f2p-a1-m7-cf 7f2p-a1-m6-ca_7f2p-a1-m7-ci 7f2p-a1-m6-cb_7f2p-a1-m1-ch 7f2p-a1-m6-cb_7f2p-a1-m7-ce 7f2p-a1-m6-cc_7f2p-a1-m1-cg 7f2p-a1-m6-cd_7f2p-a1-m6-cg 7f2p-a1-m6-ce_7f2p-a1-m24-ch 7f2p-a1-m6-ci_7f2p-a1-m6-cf 7f2p-a1-m7-ca_7f2p-a1-m8-cf 7f2p-a1-m7-ca_7f2p-a1-m8-ci 7f2p-a1-m7-cb_7f2p-a1-m33-ch 7f2p-a1-m7-cb_7f2p-a1-m8-ce 7f2p-a1-m7-cc_7f2p-a1-m33-cg 7f2p-a1-m7-cd_7f2p-a1-m7-cg 7f2p-a1-m7-ce_7f2p-a1-m1-ch 7f2p-a1-m7-ci_7f2p-a1-m7-cf 7f2p-a1-m8-ca_7f2p-a1-m9-cf 7f2p-a1-m8-ca_7f2p-a1-m9-ci 7f2p-a1-m8-cb_7f2p-a1-m57-ch 7f2p-a1-m8-cb_7f2p-a1-m9-ce 7f2p-a1-m8-cc_7f2p-a1-m57-cg 7f2p-a1-m8-cd_7f2p-a1-m8-cg 7f2p-a1-m8-ce_7f2p-a1-m33-ch 7f2p-a1-m8-ci_7f2p-a1-m8-cf 7f2p-a1-m9-ca_7f2p-a1-m10-cf 7f2p-a1-m9-cb_7f2p-a1-m10-ce 7f2p-a1-m9-cb_7f2p-a1-m55-ch 7f2p-a1-m9-cc_7f2p-a1-m55-cg 7f2p-a1-m9-cd_7f2p-a1-m9-cg 7f2p-a1-m9-ce_7f2p-a1-m57-ch 7f2p-a1-m9-ci_7f2p-a1-m9-cf KLNNINFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQENKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDME KLNNINFNNISNNLNLGIEVGREIQNASWIKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLSGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYTQTMNVATIRKAIFHARNGLKGDNSKAFPIKPIRATMQSVGNVMVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKFNVGMPNSSISDSDFMRYLNKANVSSIVTPRQFKEKLNQEINKEISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSDME 7dn4-a1-m1-cC_7dn4-a1-m1-cF The crystal structure of Cpd8 in complex with BPTF bromodomain Q12830 Q12830 2.841 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 7dn4-a1-m1-cA_7dn4-a1-m1-cD 7dn4-a1-m1-cB_7dn4-a1-m1-cE DAMTVLTPLTEKDYEGLKRVLRSLQAHKMAWPFLEPVDPNDAPDYYGVIKEPMDLATMEERVQRRYYEKLTEFVADMTKIFDNCRYYNPSDSPFYQCAEVLESFFVQKLKGFKASRSH DAMTVLTPLTEKDYEGLKRVLRSLQAHKMAWPFLEPVDPNDAPDYYGVIKEPMDLATMEERVQRRYYEKLTEFVADMTKIFDNCRYYNPSDSPFYQCAEVLESFFVQKLKGFKASRSH 7dn4-a1-m1-cE_7dn4-a1-m1-cF The crystal structure of Cpd8 in complex with BPTF bromodomain Q12830 Q12830 2.841 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 7dn4-a1-m1-cB_7dn4-a1-m1-cC DAMTVLTPLTEKDYEGLKRVLRSLQAHKMAWPFLEPVDPNDAPDYYGVIKEPMDLATMEERVQRRYYEKLTEFVADMTKIFDNCRYYNPSDSPFYQCAEVLESFFVQKLKGFKASRSH DAMTVLTPLTEKDYEGLKRVLRSLQAHKMAWPFLEPVDPNDAPDYYGVIKEPMDLATMEERVQRRYYEKLTEFVADMTKIFDNCRYYNPSDSPFYQCAEVLESFFVQKLKGFKASRSH 7dn5-a1-m24-cB_7dn5-a1-m9-cC The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 98 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 472 472 7dn5-a1-m10-cA_7dn5-a1-m24-cA 7dn5-a1-m10-cB_7dn5-a1-m23-cC 7dn5-a1-m11-cA_7dn5-a1-m16-cA 7dn5-a1-m11-cB_7dn5-a1-m20-cC 7dn5-a1-m11-cC_7dn5-a1-m38-cB 7dn5-a1-m12-cA_7dn5-a1-m38-cA 7dn5-a1-m12-cB_7dn5-a1-m37-cC 7dn5-a1-m12-cC_7dn5-a1-m47-cB 7dn5-a1-m13-cA_7dn5-a1-m47-cA 7dn5-a1-m13-cB_7dn5-a1-m46-cC 7dn5-a1-m13-cC_7dn5-a1-m45-cB 7dn5-a1-m14-cA_7dn5-a1-m45-cA 7dn5-a1-m14-cB_7dn5-a1-m44-cC 7dn5-a1-m14-cC_7dn5-a1-m29-cB 7dn5-a1-m15-cA_7dn5-a1-m29-cA 7dn5-a1-m15-cB_7dn5-a1-m28-cC 7dn5-a1-m15-cC_7dn5-a1-m16-cB 7dn5-a1-m16-cC_7dn5-a1-m28-cB 7dn5-a1-m17-cA_7dn5-a1-m28-cA 7dn5-a1-m17-cB_7dn5-a1-m27-cC 7dn5-a1-m17-cC_7dn5-a1-m52-cB 7dn5-a1-m18-cA_7dn5-a1-m52-cA 7dn5-a1-m18-cB_7dn5-a1-m51-cC 7dn5-a1-m18-cC_7dn5-a1-m60-cB 7dn5-a1-m19-cA_7dn5-a1-m60-cA 7dn5-a1-m19-cB_7dn5-a1-m59-cC 7dn5-a1-m19-cC_7dn5-a1-m39-cB 7dn5-a1-m1-cA_7dn5-a1-m6-cA 7dn5-a1-m1-cB_7dn5-a1-m10-cC 7dn5-a1-m1-cC_7dn5-a1-m23-cB 7dn5-a1-m20-cA_7dn5-a1-m39-cA 7dn5-a1-m20-cB_7dn5-a1-m38-cC 7dn5-a1-m21-cA_7dn5-a1-m26-cA 7dn5-a1-m21-cB_7dn5-a1-m30-cC 7dn5-a1-m21-cC_7dn5-a1-m43-cB 7dn5-a1-m22-cA_7dn5-a1-m43-cA 7dn5-a1-m22-cB_7dn5-a1-m42-cC 7dn5-a1-m24-cC_7dn5-a1-m54-cB 7dn5-a1-m25-cA_7dn5-a1-m54-cA 7dn5-a1-m25-cB_7dn5-a1-m53-cC 7dn5-a1-m25-cC_7dn5-a1-m26-cB 7dn5-a1-m26-cC_7dn5-a1-m53-cB 7dn5-a1-m27-cA_7dn5-a1-m53-cA 7dn5-a1-m27-cB_7dn5-a1-m52-cC 7dn5-a1-m29-cC_7dn5-a1-m44-cB 7dn5-a1-m2-cA_7dn5-a1-m23-cA 7dn5-a1-m2-cB_7dn5-a1-m22-cC 7dn5-a1-m2-cC_7dn5-a1-m42-cB 7dn5-a1-m30-cA_7dn5-a1-m44-cA 7dn5-a1-m30-cB_7dn5-a1-m43-cC 7dn5-a1-m31-cA_7dn5-a1-m36-cA 7dn5-a1-m31-cB_7dn5-a1-m40-cC 7dn5-a1-m31-cC_7dn5-a1-m58-cB 7dn5-a1-m32-cA_7dn5-a1-m58-cA 7dn5-a1-m32-cB_7dn5-a1-m57-cC 7dn5-a1-m32-cC_7dn5-a1-m7-cB 7dn5-a1-m33-cA_7dn5-a1-m7-cA 7dn5-a1-m33-cB_7dn5-a1-m6-cC 7dn5-a1-m33-cC_7dn5-a1-m5-cB 7dn5-a1-m34-cA_7dn5-a1-m5-cA 7dn5-a1-m34-cB_7dn5-a1-m4-cC 7dn5-a1-m34-cC_7dn5-a1-m49-cB 7dn5-a1-m35-cA_7dn5-a1-m49-cA 7dn5-a1-m35-cB_7dn5-a1-m48-cC 7dn5-a1-m35-cC_7dn5-a1-m36-cB 7dn5-a1-m36-cC_7dn5-a1-m48-cB 7dn5-a1-m37-cA_7dn5-a1-m48-cA 7dn5-a1-m37-cB_7dn5-a1-m47-cC 7dn5-a1-m39-cC_7dn5-a1-m59-cB 7dn5-a1-m3-cA_7dn5-a1-m42-cA 7dn5-a1-m3-cB_7dn5-a1-m41-cC 7dn5-a1-m3-cC_7dn5-a1-m50-cB 7dn5-a1-m40-cA_7dn5-a1-m59-cA 7dn5-a1-m40-cB_7dn5-a1-m58-cC 7dn5-a1-m41-cA_7dn5-a1-m46-cA 7dn5-a1-m41-cB_7dn5-a1-m50-cC 7dn5-a1-m45-cC_7dn5-a1-m46-cB 7dn5-a1-m4-cA_7dn5-a1-m50-cA 7dn5-a1-m4-cB_7dn5-a1-m49-cC 7dn5-a1-m51-cA_7dn5-a1-m56-cA 7dn5-a1-m51-cB_7dn5-a1-m60-cC 7dn5-a1-m54-cC_7dn5-a1-m9-cB 7dn5-a1-m55-cA_7dn5-a1-m9-cA 7dn5-a1-m55-cB_7dn5-a1-m8-cC 7dn5-a1-m55-cC_7dn5-a1-m56-cB 7dn5-a1-m56-cC_7dn5-a1-m8-cB 7dn5-a1-m57-cA_7dn5-a1-m8-cA 7dn5-a1-m57-cB_7dn5-a1-m7-cC 7dn5-a1-m5-cC_7dn5-a1-m6-cB SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m54-cB_7dn5-a1-m9-cB The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 13 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 472 472 7dn5-a1-m10-cB_7dn5-a1-m23-cB 7dn5-a1-m11-cB_7dn5-a1-m20-cB 7dn5-a1-m11-cB_7dn5-a1-m38-cB 7dn5-a1-m12-cB_7dn5-a1-m37-cB 7dn5-a1-m12-cB_7dn5-a1-m47-cB 7dn5-a1-m13-cB_7dn5-a1-m45-cB 7dn5-a1-m13-cB_7dn5-a1-m46-cB 7dn5-a1-m14-cB_7dn5-a1-m29-cB 7dn5-a1-m14-cB_7dn5-a1-m44-cB 7dn5-a1-m15-cB_7dn5-a1-m16-cB 7dn5-a1-m15-cB_7dn5-a1-m28-cB 7dn5-a1-m16-cB_7dn5-a1-m28-cB 7dn5-a1-m17-cB_7dn5-a1-m27-cB 7dn5-a1-m17-cB_7dn5-a1-m52-cB 7dn5-a1-m18-cB_7dn5-a1-m51-cB 7dn5-a1-m18-cB_7dn5-a1-m60-cB 7dn5-a1-m19-cB_7dn5-a1-m39-cB 7dn5-a1-m19-cB_7dn5-a1-m59-cB 7dn5-a1-m1-cB_7dn5-a1-m10-cB 7dn5-a1-m1-cB_7dn5-a1-m23-cB 7dn5-a1-m20-cB_7dn5-a1-m38-cB 7dn5-a1-m21-cB_7dn5-a1-m30-cB 7dn5-a1-m21-cB_7dn5-a1-m43-cB 7dn5-a1-m22-cB_7dn5-a1-m42-cB 7dn5-a1-m24-cB_7dn5-a1-m54-cB 7dn5-a1-m24-cB_7dn5-a1-m9-cB 7dn5-a1-m25-cB_7dn5-a1-m26-cB 7dn5-a1-m25-cB_7dn5-a1-m53-cB 7dn5-a1-m26-cB_7dn5-a1-m53-cB 7dn5-a1-m27-cB_7dn5-a1-m52-cB 7dn5-a1-m29-cB_7dn5-a1-m44-cB 7dn5-a1-m2-cB_7dn5-a1-m22-cB 7dn5-a1-m2-cB_7dn5-a1-m42-cB 7dn5-a1-m30-cB_7dn5-a1-m43-cB 7dn5-a1-m31-cB_7dn5-a1-m40-cB 7dn5-a1-m31-cB_7dn5-a1-m58-cB 7dn5-a1-m32-cB_7dn5-a1-m57-cB 7dn5-a1-m32-cB_7dn5-a1-m7-cB 7dn5-a1-m33-cB_7dn5-a1-m5-cB 7dn5-a1-m33-cB_7dn5-a1-m6-cB 7dn5-a1-m34-cB_7dn5-a1-m49-cB 7dn5-a1-m34-cB_7dn5-a1-m4-cB 7dn5-a1-m35-cB_7dn5-a1-m36-cB 7dn5-a1-m35-cB_7dn5-a1-m48-cB 7dn5-a1-m36-cB_7dn5-a1-m48-cB 7dn5-a1-m37-cB_7dn5-a1-m47-cB 7dn5-a1-m39-cB_7dn5-a1-m59-cB 7dn5-a1-m3-cB_7dn5-a1-m41-cB 7dn5-a1-m3-cB_7dn5-a1-m50-cB 7dn5-a1-m40-cB_7dn5-a1-m58-cB 7dn5-a1-m41-cB_7dn5-a1-m50-cB 7dn5-a1-m45-cB_7dn5-a1-m46-cB 7dn5-a1-m4-cB_7dn5-a1-m49-cB 7dn5-a1-m51-cB_7dn5-a1-m60-cB 7dn5-a1-m55-cB_7dn5-a1-m56-cB 7dn5-a1-m55-cB_7dn5-a1-m8-cB 7dn5-a1-m56-cB_7dn5-a1-m8-cB 7dn5-a1-m57-cB_7dn5-a1-m7-cB 7dn5-a1-m5-cB_7dn5-a1-m6-cB SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m54-cB_7dn5-a1-m9-cC The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 16 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 472 472 7dn5-a1-m10-cA_7dn5-a1-m9-cC 7dn5-a1-m10-cC_7dn5-a1-m23-cB 7dn5-a1-m11-cA_7dn5-a1-m15-cC 7dn5-a1-m11-cB_7dn5-a1-m38-cC 7dn5-a1-m11-cC_7dn5-a1-m20-cB 7dn5-a1-m12-cA_7dn5-a1-m11-cC 7dn5-a1-m12-cB_7dn5-a1-m47-cC 7dn5-a1-m12-cC_7dn5-a1-m37-cB 7dn5-a1-m13-cA_7dn5-a1-m12-cC 7dn5-a1-m13-cB_7dn5-a1-m45-cC 7dn5-a1-m13-cC_7dn5-a1-m46-cB 7dn5-a1-m14-cA_7dn5-a1-m13-cC 7dn5-a1-m14-cB_7dn5-a1-m29-cC 7dn5-a1-m14-cC_7dn5-a1-m44-cB 7dn5-a1-m15-cA_7dn5-a1-m14-cC 7dn5-a1-m15-cB_7dn5-a1-m16-cC 7dn5-a1-m15-cC_7dn5-a1-m28-cB 7dn5-a1-m16-cA_7dn5-a1-m20-cC 7dn5-a1-m16-cB_7dn5-a1-m28-cC 7dn5-a1-m17-cA_7dn5-a1-m16-cC 7dn5-a1-m17-cB_7dn5-a1-m52-cC 7dn5-a1-m17-cC_7dn5-a1-m27-cB 7dn5-a1-m18-cA_7dn5-a1-m17-cC 7dn5-a1-m18-cB_7dn5-a1-m60-cC 7dn5-a1-m18-cC_7dn5-a1-m51-cB 7dn5-a1-m19-cA_7dn5-a1-m18-cC 7dn5-a1-m19-cB_7dn5-a1-m39-cC 7dn5-a1-m19-cC_7dn5-a1-m59-cB 7dn5-a1-m1-cA_7dn5-a1-m5-cC 7dn5-a1-m1-cB_7dn5-a1-m23-cC 7dn5-a1-m1-cC_7dn5-a1-m10-cB 7dn5-a1-m20-cA_7dn5-a1-m19-cC 7dn5-a1-m20-cC_7dn5-a1-m38-cB 7dn5-a1-m21-cA_7dn5-a1-m25-cC 7dn5-a1-m21-cB_7dn5-a1-m43-cC 7dn5-a1-m21-cC_7dn5-a1-m30-cB 7dn5-a1-m22-cA_7dn5-a1-m21-cC 7dn5-a1-m22-cC_7dn5-a1-m42-cB 7dn5-a1-m23-cA_7dn5-a1-m22-cC 7dn5-a1-m24-cA_7dn5-a1-m23-cC 7dn5-a1-m24-cB_7dn5-a1-m54-cC 7dn5-a1-m24-cC_7dn5-a1-m9-cB 7dn5-a1-m25-cA_7dn5-a1-m24-cC 7dn5-a1-m25-cB_7dn5-a1-m26-cC 7dn5-a1-m25-cC_7dn5-a1-m53-cB 7dn5-a1-m26-cA_7dn5-a1-m30-cC 7dn5-a1-m26-cB_7dn5-a1-m53-cC 7dn5-a1-m27-cA_7dn5-a1-m26-cC 7dn5-a1-m27-cC_7dn5-a1-m52-cB 7dn5-a1-m28-cA_7dn5-a1-m27-cC 7dn5-a1-m29-cA_7dn5-a1-m28-cC 7dn5-a1-m29-cB_7dn5-a1-m44-cC 7dn5-a1-m2-cA_7dn5-a1-m1-cC 7dn5-a1-m2-cB_7dn5-a1-m42-cC 7dn5-a1-m2-cC_7dn5-a1-m22-cB 7dn5-a1-m30-cA_7dn5-a1-m29-cC 7dn5-a1-m30-cC_7dn5-a1-m43-cB 7dn5-a1-m31-cA_7dn5-a1-m35-cC 7dn5-a1-m31-cB_7dn5-a1-m58-cC 7dn5-a1-m31-cC_7dn5-a1-m40-cB 7dn5-a1-m32-cA_7dn5-a1-m31-cC 7dn5-a1-m32-cB_7dn5-a1-m7-cC 7dn5-a1-m32-cC_7dn5-a1-m57-cB 7dn5-a1-m33-cA_7dn5-a1-m32-cC 7dn5-a1-m33-cB_7dn5-a1-m5-cC 7dn5-a1-m33-cC_7dn5-a1-m6-cB 7dn5-a1-m34-cA_7dn5-a1-m33-cC 7dn5-a1-m34-cB_7dn5-a1-m49-cC 7dn5-a1-m34-cC_7dn5-a1-m4-cB 7dn5-a1-m35-cA_7dn5-a1-m34-cC 7dn5-a1-m35-cB_7dn5-a1-m36-cC 7dn5-a1-m35-cC_7dn5-a1-m48-cB 7dn5-a1-m36-cA_7dn5-a1-m40-cC 7dn5-a1-m36-cB_7dn5-a1-m48-cC 7dn5-a1-m37-cA_7dn5-a1-m36-cC 7dn5-a1-m37-cC_7dn5-a1-m47-cB 7dn5-a1-m38-cA_7dn5-a1-m37-cC 7dn5-a1-m39-cA_7dn5-a1-m38-cC 7dn5-a1-m39-cB_7dn5-a1-m59-cC 7dn5-a1-m3-cA_7dn5-a1-m2-cC 7dn5-a1-m3-cB_7dn5-a1-m50-cC 7dn5-a1-m3-cC_7dn5-a1-m41-cB 7dn5-a1-m40-cA_7dn5-a1-m39-cC 7dn5-a1-m40-cC_7dn5-a1-m58-cB 7dn5-a1-m41-cA_7dn5-a1-m45-cC 7dn5-a1-m41-cC_7dn5-a1-m50-cB 7dn5-a1-m42-cA_7dn5-a1-m41-cC 7dn5-a1-m43-cA_7dn5-a1-m42-cC 7dn5-a1-m44-cA_7dn5-a1-m43-cC 7dn5-a1-m45-cA_7dn5-a1-m44-cC 7dn5-a1-m45-cB_7dn5-a1-m46-cC 7dn5-a1-m46-cA_7dn5-a1-m50-cC 7dn5-a1-m47-cA_7dn5-a1-m46-cC 7dn5-a1-m48-cA_7dn5-a1-m47-cC 7dn5-a1-m49-cA_7dn5-a1-m48-cC 7dn5-a1-m4-cA_7dn5-a1-m3-cC 7dn5-a1-m4-cC_7dn5-a1-m49-cB 7dn5-a1-m50-cA_7dn5-a1-m49-cC 7dn5-a1-m51-cA_7dn5-a1-m55-cC 7dn5-a1-m51-cC_7dn5-a1-m60-cB 7dn5-a1-m52-cA_7dn5-a1-m51-cC 7dn5-a1-m53-cA_7dn5-a1-m52-cC 7dn5-a1-m54-cA_7dn5-a1-m53-cC 7dn5-a1-m55-cA_7dn5-a1-m54-cC 7dn5-a1-m55-cB_7dn5-a1-m56-cC 7dn5-a1-m55-cC_7dn5-a1-m8-cB 7dn5-a1-m56-cA_7dn5-a1-m60-cC 7dn5-a1-m56-cB_7dn5-a1-m8-cC 7dn5-a1-m57-cA_7dn5-a1-m56-cC 7dn5-a1-m57-cC_7dn5-a1-m7-cB 7dn5-a1-m58-cA_7dn5-a1-m57-cC 7dn5-a1-m59-cA_7dn5-a1-m58-cC 7dn5-a1-m5-cA_7dn5-a1-m4-cC 7dn5-a1-m5-cB_7dn5-a1-m6-cC 7dn5-a1-m60-cA_7dn5-a1-m59-cC 7dn5-a1-m6-cA_7dn5-a1-m10-cC 7dn5-a1-m7-cA_7dn5-a1-m6-cC 7dn5-a1-m8-cA_7dn5-a1-m7-cC 7dn5-a1-m9-cA_7dn5-a1-m8-cC SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m54-cC_7dn5-a1-m9-cC The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 34 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 472 472 7dn5-a1-m10-cA_7dn5-a1-m24-cB 7dn5-a1-m10-cC_7dn5-a1-m23-cC 7dn5-a1-m10-cD_7dn5-a1-m1-cB 7dn5-a1-m11-cA_7dn5-a1-m16-cB 7dn5-a1-m11-cC_7dn5-a1-m20-cC 7dn5-a1-m11-cC_7dn5-a1-m38-cC 7dn5-a1-m11-cD_7dn5-a1-m38-cB 7dn5-a1-m12-cA_7dn5-a1-m38-cB 7dn5-a1-m12-cC_7dn5-a1-m37-cC 7dn5-a1-m12-cC_7dn5-a1-m47-cC 7dn5-a1-m12-cD_7dn5-a1-m47-cB 7dn5-a1-m13-cA_7dn5-a1-m47-cB 7dn5-a1-m13-cC_7dn5-a1-m45-cC 7dn5-a1-m13-cC_7dn5-a1-m46-cC 7dn5-a1-m13-cD_7dn5-a1-m45-cB 7dn5-a1-m14-cA_7dn5-a1-m45-cB 7dn5-a1-m14-cC_7dn5-a1-m29-cC 7dn5-a1-m14-cC_7dn5-a1-m44-cC 7dn5-a1-m14-cD_7dn5-a1-m29-cB 7dn5-a1-m15-cA_7dn5-a1-m29-cB 7dn5-a1-m15-cC_7dn5-a1-m16-cC 7dn5-a1-m15-cC_7dn5-a1-m28-cC 7dn5-a1-m15-cD_7dn5-a1-m16-cB 7dn5-a1-m16-cA_7dn5-a1-m11-cB 7dn5-a1-m16-cC_7dn5-a1-m28-cC 7dn5-a1-m16-cD_7dn5-a1-m28-cB 7dn5-a1-m17-cA_7dn5-a1-m28-cB 7dn5-a1-m17-cC_7dn5-a1-m27-cC 7dn5-a1-m17-cC_7dn5-a1-m52-cC 7dn5-a1-m17-cD_7dn5-a1-m52-cB 7dn5-a1-m18-cA_7dn5-a1-m52-cB 7dn5-a1-m18-cC_7dn5-a1-m51-cC 7dn5-a1-m18-cC_7dn5-a1-m60-cC 7dn5-a1-m18-cD_7dn5-a1-m60-cB 7dn5-a1-m19-cA_7dn5-a1-m60-cB 7dn5-a1-m19-cC_7dn5-a1-m39-cC 7dn5-a1-m19-cC_7dn5-a1-m59-cC 7dn5-a1-m19-cD_7dn5-a1-m39-cB 7dn5-a1-m1-cA_7dn5-a1-m6-cB 7dn5-a1-m1-cC_7dn5-a1-m10-cC 7dn5-a1-m1-cC_7dn5-a1-m23-cC 7dn5-a1-m1-cD_7dn5-a1-m23-cB 7dn5-a1-m20-cA_7dn5-a1-m39-cB 7dn5-a1-m20-cC_7dn5-a1-m38-cC 7dn5-a1-m20-cD_7dn5-a1-m11-cB 7dn5-a1-m21-cA_7dn5-a1-m26-cB 7dn5-a1-m21-cC_7dn5-a1-m30-cC 7dn5-a1-m21-cC_7dn5-a1-m43-cC 7dn5-a1-m21-cD_7dn5-a1-m43-cB 7dn5-a1-m22-cA_7dn5-a1-m43-cB 7dn5-a1-m22-cC_7dn5-a1-m42-cC 7dn5-a1-m22-cD_7dn5-a1-m2-cB 7dn5-a1-m23-cA_7dn5-a1-m2-cB 7dn5-a1-m23-cD_7dn5-a1-m10-cB 7dn5-a1-m24-cA_7dn5-a1-m10-cB 7dn5-a1-m24-cC_7dn5-a1-m54-cC 7dn5-a1-m24-cC_7dn5-a1-m9-cC 7dn5-a1-m24-cD_7dn5-a1-m54-cB 7dn5-a1-m25-cA_7dn5-a1-m54-cB 7dn5-a1-m25-cC_7dn5-a1-m26-cC 7dn5-a1-m25-cC_7dn5-a1-m53-cC 7dn5-a1-m25-cD_7dn5-a1-m26-cB 7dn5-a1-m26-cA_7dn5-a1-m21-cB 7dn5-a1-m26-cC_7dn5-a1-m53-cC 7dn5-a1-m26-cD_7dn5-a1-m53-cB 7dn5-a1-m27-cA_7dn5-a1-m53-cB 7dn5-a1-m27-cC_7dn5-a1-m52-cC 7dn5-a1-m27-cD_7dn5-a1-m17-cB 7dn5-a1-m28-cA_7dn5-a1-m17-cB 7dn5-a1-m28-cD_7dn5-a1-m15-cB 7dn5-a1-m29-cA_7dn5-a1-m15-cB 7dn5-a1-m29-cC_7dn5-a1-m44-cC 7dn5-a1-m29-cD_7dn5-a1-m44-cB 7dn5-a1-m2-cA_7dn5-a1-m23-cB 7dn5-a1-m2-cC_7dn5-a1-m22-cC 7dn5-a1-m2-cC_7dn5-a1-m42-cC 7dn5-a1-m2-cD_7dn5-a1-m42-cB 7dn5-a1-m30-cA_7dn5-a1-m44-cB 7dn5-a1-m30-cC_7dn5-a1-m43-cC 7dn5-a1-m30-cD_7dn5-a1-m21-cB 7dn5-a1-m31-cA_7dn5-a1-m36-cB 7dn5-a1-m31-cC_7dn5-a1-m40-cC 7dn5-a1-m31-cC_7dn5-a1-m58-cC 7dn5-a1-m31-cD_7dn5-a1-m58-cB 7dn5-a1-m32-cA_7dn5-a1-m58-cB 7dn5-a1-m32-cC_7dn5-a1-m57-cC 7dn5-a1-m32-cC_7dn5-a1-m7-cC 7dn5-a1-m32-cD_7dn5-a1-m7-cB 7dn5-a1-m33-cA_7dn5-a1-m7-cB 7dn5-a1-m33-cC_7dn5-a1-m5-cC 7dn5-a1-m33-cC_7dn5-a1-m6-cC 7dn5-a1-m33-cD_7dn5-a1-m5-cB 7dn5-a1-m34-cA_7dn5-a1-m5-cB 7dn5-a1-m34-cC_7dn5-a1-m49-cC 7dn5-a1-m34-cC_7dn5-a1-m4-cC 7dn5-a1-m34-cD_7dn5-a1-m49-cB 7dn5-a1-m35-cA_7dn5-a1-m49-cB 7dn5-a1-m35-cC_7dn5-a1-m36-cC 7dn5-a1-m35-cC_7dn5-a1-m48-cC 7dn5-a1-m35-cD_7dn5-a1-m36-cB 7dn5-a1-m36-cA_7dn5-a1-m31-cB 7dn5-a1-m36-cC_7dn5-a1-m48-cC 7dn5-a1-m36-cD_7dn5-a1-m48-cB 7dn5-a1-m37-cA_7dn5-a1-m48-cB 7dn5-a1-m37-cC_7dn5-a1-m47-cC 7dn5-a1-m37-cD_7dn5-a1-m12-cB 7dn5-a1-m38-cA_7dn5-a1-m12-cB 7dn5-a1-m38-cD_7dn5-a1-m20-cB 7dn5-a1-m39-cA_7dn5-a1-m20-cB 7dn5-a1-m39-cC_7dn5-a1-m59-cC 7dn5-a1-m39-cD_7dn5-a1-m59-cB 7dn5-a1-m3-cA_7dn5-a1-m42-cB 7dn5-a1-m3-cC_7dn5-a1-m41-cC 7dn5-a1-m3-cC_7dn5-a1-m50-cC 7dn5-a1-m3-cD_7dn5-a1-m50-cB 7dn5-a1-m40-cA_7dn5-a1-m59-cB 7dn5-a1-m40-cC_7dn5-a1-m58-cC 7dn5-a1-m40-cD_7dn5-a1-m31-cB 7dn5-a1-m41-cA_7dn5-a1-m46-cB 7dn5-a1-m41-cC_7dn5-a1-m50-cC 7dn5-a1-m41-cD_7dn5-a1-m3-cB 7dn5-a1-m42-cA_7dn5-a1-m3-cB 7dn5-a1-m42-cD_7dn5-a1-m22-cB 7dn5-a1-m43-cA_7dn5-a1-m22-cB 7dn5-a1-m43-cD_7dn5-a1-m30-cB 7dn5-a1-m44-cA_7dn5-a1-m30-cB 7dn5-a1-m44-cD_7dn5-a1-m14-cB 7dn5-a1-m45-cA_7dn5-a1-m14-cB 7dn5-a1-m45-cC_7dn5-a1-m46-cC 7dn5-a1-m45-cD_7dn5-a1-m46-cB 7dn5-a1-m46-cA_7dn5-a1-m41-cB 7dn5-a1-m46-cD_7dn5-a1-m13-cB 7dn5-a1-m47-cA_7dn5-a1-m13-cB 7dn5-a1-m47-cD_7dn5-a1-m37-cB 7dn5-a1-m48-cA_7dn5-a1-m37-cB 7dn5-a1-m48-cD_7dn5-a1-m35-cB 7dn5-a1-m49-cA_7dn5-a1-m35-cB 7dn5-a1-m49-cD_7dn5-a1-m4-cB 7dn5-a1-m4-cA_7dn5-a1-m50-cB 7dn5-a1-m4-cC_7dn5-a1-m49-cC 7dn5-a1-m4-cD_7dn5-a1-m34-cB 7dn5-a1-m50-cA_7dn5-a1-m4-cB 7dn5-a1-m50-cD_7dn5-a1-m41-cB 7dn5-a1-m51-cA_7dn5-a1-m56-cB 7dn5-a1-m51-cC_7dn5-a1-m60-cC 7dn5-a1-m51-cD_7dn5-a1-m18-cB 7dn5-a1-m52-cA_7dn5-a1-m18-cB 7dn5-a1-m52-cD_7dn5-a1-m27-cB 7dn5-a1-m53-cA_7dn5-a1-m27-cB 7dn5-a1-m53-cD_7dn5-a1-m25-cB 7dn5-a1-m54-cA_7dn5-a1-m25-cB 7dn5-a1-m54-cD_7dn5-a1-m9-cB 7dn5-a1-m55-cA_7dn5-a1-m9-cB 7dn5-a1-m55-cC_7dn5-a1-m56-cC 7dn5-a1-m55-cC_7dn5-a1-m8-cC 7dn5-a1-m55-cD_7dn5-a1-m56-cB 7dn5-a1-m56-cA_7dn5-a1-m51-cB 7dn5-a1-m56-cC_7dn5-a1-m8-cC 7dn5-a1-m56-cD_7dn5-a1-m8-cB 7dn5-a1-m57-cA_7dn5-a1-m8-cB 7dn5-a1-m57-cC_7dn5-a1-m7-cC 7dn5-a1-m57-cD_7dn5-a1-m32-cB 7dn5-a1-m58-cA_7dn5-a1-m32-cB 7dn5-a1-m58-cD_7dn5-a1-m40-cB 7dn5-a1-m59-cA_7dn5-a1-m40-cB 7dn5-a1-m59-cD_7dn5-a1-m19-cB 7dn5-a1-m5-cA_7dn5-a1-m34-cB 7dn5-a1-m5-cC_7dn5-a1-m6-cC 7dn5-a1-m5-cD_7dn5-a1-m6-cB 7dn5-a1-m60-cA_7dn5-a1-m19-cB 7dn5-a1-m60-cD_7dn5-a1-m51-cB 7dn5-a1-m6-cA_7dn5-a1-m1-cB 7dn5-a1-m6-cD_7dn5-a1-m33-cB 7dn5-a1-m7-cA_7dn5-a1-m33-cB 7dn5-a1-m7-cD_7dn5-a1-m57-cB 7dn5-a1-m8-cA_7dn5-a1-m57-cB 7dn5-a1-m8-cD_7dn5-a1-m55-cB 7dn5-a1-m9-cA_7dn5-a1-m55-cB 7dn5-a1-m9-cD_7dn5-a1-m24-cB SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m8-cC_7dn5-a1-m9-cE The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 38 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 472 472 7dn5-a1-m10-cC_7dn5-a1-m6-cE 7dn5-a1-m10-cE_7dn5-a1-m9-cC 7dn5-a1-m11-cC_7dn5-a1-m12-cE 7dn5-a1-m11-cE_7dn5-a1-m15-cC 7dn5-a1-m12-cC_7dn5-a1-m13-cE 7dn5-a1-m13-cC_7dn5-a1-m14-cE 7dn5-a1-m14-cC_7dn5-a1-m15-cE 7dn5-a1-m16-cC_7dn5-a1-m17-cE 7dn5-a1-m16-cE_7dn5-a1-m20-cC 7dn5-a1-m17-cC_7dn5-a1-m18-cE 7dn5-a1-m18-cC_7dn5-a1-m19-cE 7dn5-a1-m19-cC_7dn5-a1-m20-cE 7dn5-a1-m1-cC_7dn5-a1-m2-cE 7dn5-a1-m1-cE_7dn5-a1-m5-cC 7dn5-a1-m21-cC_7dn5-a1-m22-cE 7dn5-a1-m21-cE_7dn5-a1-m25-cC 7dn5-a1-m22-cC_7dn5-a1-m23-cE 7dn5-a1-m23-cC_7dn5-a1-m24-cE 7dn5-a1-m24-cC_7dn5-a1-m25-cE 7dn5-a1-m26-cC_7dn5-a1-m27-cE 7dn5-a1-m26-cE_7dn5-a1-m30-cC 7dn5-a1-m27-cC_7dn5-a1-m28-cE 7dn5-a1-m28-cC_7dn5-a1-m29-cE 7dn5-a1-m29-cC_7dn5-a1-m30-cE 7dn5-a1-m2-cC_7dn5-a1-m3-cE 7dn5-a1-m31-cC_7dn5-a1-m32-cE 7dn5-a1-m31-cE_7dn5-a1-m35-cC 7dn5-a1-m32-cC_7dn5-a1-m33-cE 7dn5-a1-m33-cC_7dn5-a1-m34-cE 7dn5-a1-m34-cC_7dn5-a1-m35-cE 7dn5-a1-m36-cC_7dn5-a1-m37-cE 7dn5-a1-m36-cE_7dn5-a1-m40-cC 7dn5-a1-m37-cC_7dn5-a1-m38-cE 7dn5-a1-m38-cC_7dn5-a1-m39-cE 7dn5-a1-m39-cC_7dn5-a1-m40-cE 7dn5-a1-m3-cC_7dn5-a1-m4-cE 7dn5-a1-m41-cC_7dn5-a1-m42-cE 7dn5-a1-m41-cE_7dn5-a1-m45-cC 7dn5-a1-m42-cC_7dn5-a1-m43-cE 7dn5-a1-m43-cC_7dn5-a1-m44-cE 7dn5-a1-m44-cC_7dn5-a1-m45-cE 7dn5-a1-m46-cC_7dn5-a1-m47-cE 7dn5-a1-m46-cE_7dn5-a1-m50-cC 7dn5-a1-m47-cC_7dn5-a1-m48-cE 7dn5-a1-m48-cC_7dn5-a1-m49-cE 7dn5-a1-m49-cC_7dn5-a1-m50-cE 7dn5-a1-m4-cC_7dn5-a1-m5-cE 7dn5-a1-m51-cC_7dn5-a1-m52-cE 7dn5-a1-m51-cE_7dn5-a1-m55-cC 7dn5-a1-m52-cC_7dn5-a1-m53-cE 7dn5-a1-m53-cC_7dn5-a1-m54-cE 7dn5-a1-m54-cC_7dn5-a1-m55-cE 7dn5-a1-m56-cC_7dn5-a1-m57-cE 7dn5-a1-m56-cE_7dn5-a1-m60-cC 7dn5-a1-m57-cC_7dn5-a1-m58-cE 7dn5-a1-m58-cC_7dn5-a1-m59-cE 7dn5-a1-m59-cC_7dn5-a1-m60-cE 7dn5-a1-m6-cC_7dn5-a1-m7-cE 7dn5-a1-m7-cC_7dn5-a1-m8-cE SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m8-cD_7dn5-a1-m9-cE The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 46 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 454 472 7dn5-a1-m10-cD_7dn5-a1-m6-cE 7dn5-a1-m11-cD_7dn5-a1-m12-cE 7dn5-a1-m12-cD_7dn5-a1-m13-cE 7dn5-a1-m13-cD_7dn5-a1-m14-cE 7dn5-a1-m14-cD_7dn5-a1-m15-cE 7dn5-a1-m15-cD_7dn5-a1-m11-cE 7dn5-a1-m16-cD_7dn5-a1-m17-cE 7dn5-a1-m17-cD_7dn5-a1-m18-cE 7dn5-a1-m18-cD_7dn5-a1-m19-cE 7dn5-a1-m19-cD_7dn5-a1-m20-cE 7dn5-a1-m1-cD_7dn5-a1-m2-cE 7dn5-a1-m20-cD_7dn5-a1-m16-cE 7dn5-a1-m21-cD_7dn5-a1-m22-cE 7dn5-a1-m22-cD_7dn5-a1-m23-cE 7dn5-a1-m23-cD_7dn5-a1-m24-cE 7dn5-a1-m24-cD_7dn5-a1-m25-cE 7dn5-a1-m25-cD_7dn5-a1-m21-cE 7dn5-a1-m26-cD_7dn5-a1-m27-cE 7dn5-a1-m27-cD_7dn5-a1-m28-cE 7dn5-a1-m28-cD_7dn5-a1-m29-cE 7dn5-a1-m29-cD_7dn5-a1-m30-cE 7dn5-a1-m2-cD_7dn5-a1-m3-cE 7dn5-a1-m30-cD_7dn5-a1-m26-cE 7dn5-a1-m31-cD_7dn5-a1-m32-cE 7dn5-a1-m32-cD_7dn5-a1-m33-cE 7dn5-a1-m33-cD_7dn5-a1-m34-cE 7dn5-a1-m34-cD_7dn5-a1-m35-cE 7dn5-a1-m35-cD_7dn5-a1-m31-cE 7dn5-a1-m36-cD_7dn5-a1-m37-cE 7dn5-a1-m37-cD_7dn5-a1-m38-cE 7dn5-a1-m38-cD_7dn5-a1-m39-cE 7dn5-a1-m39-cD_7dn5-a1-m40-cE 7dn5-a1-m3-cD_7dn5-a1-m4-cE 7dn5-a1-m40-cD_7dn5-a1-m36-cE 7dn5-a1-m41-cD_7dn5-a1-m42-cE 7dn5-a1-m42-cD_7dn5-a1-m43-cE 7dn5-a1-m43-cD_7dn5-a1-m44-cE 7dn5-a1-m44-cD_7dn5-a1-m45-cE 7dn5-a1-m45-cD_7dn5-a1-m41-cE 7dn5-a1-m46-cD_7dn5-a1-m47-cE 7dn5-a1-m47-cD_7dn5-a1-m48-cE 7dn5-a1-m48-cD_7dn5-a1-m49-cE 7dn5-a1-m49-cD_7dn5-a1-m50-cE 7dn5-a1-m4-cD_7dn5-a1-m5-cE 7dn5-a1-m50-cD_7dn5-a1-m46-cE 7dn5-a1-m51-cD_7dn5-a1-m52-cE 7dn5-a1-m52-cD_7dn5-a1-m53-cE 7dn5-a1-m53-cD_7dn5-a1-m54-cE 7dn5-a1-m54-cD_7dn5-a1-m55-cE 7dn5-a1-m55-cD_7dn5-a1-m51-cE 7dn5-a1-m56-cD_7dn5-a1-m57-cE 7dn5-a1-m57-cD_7dn5-a1-m58-cE 7dn5-a1-m58-cD_7dn5-a1-m59-cE 7dn5-a1-m59-cD_7dn5-a1-m60-cE 7dn5-a1-m5-cD_7dn5-a1-m1-cE 7dn5-a1-m60-cD_7dn5-a1-m56-cE 7dn5-a1-m6-cD_7dn5-a1-m7-cE 7dn5-a1-m7-cD_7dn5-a1-m8-cE 7dn5-a1-m9-cD_7dn5-a1-m10-cE KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m9-cD_7dn5-a1-m10-cA The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 35 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 454 463 7dn5-a1-m10-cD_7dn5-a1-m6-cA 7dn5-a1-m11-cD_7dn5-a1-m12-cA 7dn5-a1-m12-cD_7dn5-a1-m13-cA 7dn5-a1-m13-cD_7dn5-a1-m14-cA 7dn5-a1-m14-cD_7dn5-a1-m15-cA 7dn5-a1-m15-cD_7dn5-a1-m11-cA 7dn5-a1-m16-cD_7dn5-a1-m17-cA 7dn5-a1-m17-cD_7dn5-a1-m18-cA 7dn5-a1-m18-cD_7dn5-a1-m19-cA 7dn5-a1-m19-cD_7dn5-a1-m20-cA 7dn5-a1-m1-cD_7dn5-a1-m2-cA 7dn5-a1-m20-cD_7dn5-a1-m16-cA 7dn5-a1-m21-cD_7dn5-a1-m22-cA 7dn5-a1-m22-cD_7dn5-a1-m23-cA 7dn5-a1-m23-cD_7dn5-a1-m24-cA 7dn5-a1-m24-cD_7dn5-a1-m25-cA 7dn5-a1-m25-cD_7dn5-a1-m21-cA 7dn5-a1-m26-cD_7dn5-a1-m27-cA 7dn5-a1-m27-cD_7dn5-a1-m28-cA 7dn5-a1-m28-cD_7dn5-a1-m29-cA 7dn5-a1-m29-cD_7dn5-a1-m30-cA 7dn5-a1-m2-cD_7dn5-a1-m3-cA 7dn5-a1-m30-cD_7dn5-a1-m26-cA 7dn5-a1-m31-cD_7dn5-a1-m32-cA 7dn5-a1-m32-cD_7dn5-a1-m33-cA 7dn5-a1-m33-cD_7dn5-a1-m34-cA 7dn5-a1-m34-cD_7dn5-a1-m35-cA 7dn5-a1-m35-cD_7dn5-a1-m31-cA 7dn5-a1-m36-cD_7dn5-a1-m37-cA 7dn5-a1-m37-cD_7dn5-a1-m38-cA 7dn5-a1-m38-cD_7dn5-a1-m39-cA 7dn5-a1-m39-cD_7dn5-a1-m40-cA 7dn5-a1-m3-cD_7dn5-a1-m4-cA 7dn5-a1-m40-cD_7dn5-a1-m36-cA 7dn5-a1-m41-cD_7dn5-a1-m42-cA 7dn5-a1-m42-cD_7dn5-a1-m43-cA 7dn5-a1-m43-cD_7dn5-a1-m44-cA 7dn5-a1-m44-cD_7dn5-a1-m45-cA 7dn5-a1-m45-cD_7dn5-a1-m41-cA 7dn5-a1-m46-cD_7dn5-a1-m47-cA 7dn5-a1-m47-cD_7dn5-a1-m48-cA 7dn5-a1-m48-cD_7dn5-a1-m49-cA 7dn5-a1-m49-cD_7dn5-a1-m50-cA 7dn5-a1-m4-cD_7dn5-a1-m5-cA 7dn5-a1-m50-cD_7dn5-a1-m46-cA 7dn5-a1-m51-cD_7dn5-a1-m52-cA 7dn5-a1-m52-cD_7dn5-a1-m53-cA 7dn5-a1-m53-cD_7dn5-a1-m54-cA 7dn5-a1-m54-cD_7dn5-a1-m55-cA 7dn5-a1-m55-cD_7dn5-a1-m51-cA 7dn5-a1-m56-cD_7dn5-a1-m57-cA 7dn5-a1-m57-cD_7dn5-a1-m58-cA 7dn5-a1-m58-cD_7dn5-a1-m59-cA 7dn5-a1-m59-cD_7dn5-a1-m60-cA 7dn5-a1-m5-cD_7dn5-a1-m1-cA 7dn5-a1-m60-cD_7dn5-a1-m56-cA 7dn5-a1-m6-cD_7dn5-a1-m7-cA 7dn5-a1-m7-cD_7dn5-a1-m8-cA 7dn5-a1-m8-cD_7dn5-a1-m9-cA KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL VYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m9-cD_7dn5-a1-m9-cF The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 37 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 454 454 7dn5-a1-m10-cD_7dn5-a1-m10-cF 7dn5-a1-m10-cF_7dn5-a1-m6-cE 7dn5-a1-m11-cD_7dn5-a1-m11-cF 7dn5-a1-m11-cF_7dn5-a1-m12-cE 7dn5-a1-m12-cD_7dn5-a1-m12-cF 7dn5-a1-m12-cF_7dn5-a1-m13-cE 7dn5-a1-m13-cD_7dn5-a1-m13-cF 7dn5-a1-m13-cF_7dn5-a1-m14-cE 7dn5-a1-m14-cD_7dn5-a1-m14-cF 7dn5-a1-m14-cF_7dn5-a1-m15-cE 7dn5-a1-m15-cD_7dn5-a1-m15-cF 7dn5-a1-m15-cF_7dn5-a1-m11-cE 7dn5-a1-m16-cD_7dn5-a1-m16-cF 7dn5-a1-m16-cF_7dn5-a1-m17-cE 7dn5-a1-m17-cD_7dn5-a1-m17-cF 7dn5-a1-m17-cF_7dn5-a1-m18-cE 7dn5-a1-m18-cD_7dn5-a1-m18-cF 7dn5-a1-m18-cF_7dn5-a1-m19-cE 7dn5-a1-m19-cD_7dn5-a1-m19-cF 7dn5-a1-m19-cF_7dn5-a1-m20-cE 7dn5-a1-m1-cD_7dn5-a1-m1-cF 7dn5-a1-m1-cF_7dn5-a1-m2-cE 7dn5-a1-m20-cD_7dn5-a1-m20-cF 7dn5-a1-m20-cF_7dn5-a1-m16-cE 7dn5-a1-m21-cD_7dn5-a1-m21-cF 7dn5-a1-m21-cF_7dn5-a1-m22-cE 7dn5-a1-m22-cD_7dn5-a1-m22-cF 7dn5-a1-m22-cF_7dn5-a1-m23-cE 7dn5-a1-m23-cD_7dn5-a1-m23-cF 7dn5-a1-m23-cF_7dn5-a1-m24-cE 7dn5-a1-m24-cD_7dn5-a1-m24-cF 7dn5-a1-m24-cF_7dn5-a1-m25-cE 7dn5-a1-m25-cD_7dn5-a1-m25-cF 7dn5-a1-m25-cF_7dn5-a1-m21-cE 7dn5-a1-m26-cD_7dn5-a1-m26-cF 7dn5-a1-m26-cF_7dn5-a1-m27-cE 7dn5-a1-m27-cD_7dn5-a1-m27-cF 7dn5-a1-m27-cF_7dn5-a1-m28-cE 7dn5-a1-m28-cD_7dn5-a1-m28-cF 7dn5-a1-m28-cF_7dn5-a1-m29-cE 7dn5-a1-m29-cD_7dn5-a1-m29-cF 7dn5-a1-m29-cF_7dn5-a1-m30-cE 7dn5-a1-m2-cD_7dn5-a1-m2-cF 7dn5-a1-m2-cF_7dn5-a1-m3-cE 7dn5-a1-m30-cD_7dn5-a1-m30-cF 7dn5-a1-m30-cF_7dn5-a1-m26-cE 7dn5-a1-m31-cD_7dn5-a1-m31-cF 7dn5-a1-m31-cF_7dn5-a1-m32-cE 7dn5-a1-m32-cD_7dn5-a1-m32-cF 7dn5-a1-m32-cF_7dn5-a1-m33-cE 7dn5-a1-m33-cD_7dn5-a1-m33-cF 7dn5-a1-m33-cF_7dn5-a1-m34-cE 7dn5-a1-m34-cD_7dn5-a1-m34-cF 7dn5-a1-m34-cF_7dn5-a1-m35-cE 7dn5-a1-m35-cD_7dn5-a1-m35-cF 7dn5-a1-m35-cF_7dn5-a1-m31-cE 7dn5-a1-m36-cD_7dn5-a1-m36-cF 7dn5-a1-m36-cF_7dn5-a1-m37-cE 7dn5-a1-m37-cD_7dn5-a1-m37-cF 7dn5-a1-m37-cF_7dn5-a1-m38-cE 7dn5-a1-m38-cD_7dn5-a1-m38-cF 7dn5-a1-m38-cF_7dn5-a1-m39-cE 7dn5-a1-m39-cD_7dn5-a1-m39-cF 7dn5-a1-m39-cF_7dn5-a1-m40-cE 7dn5-a1-m3-cD_7dn5-a1-m3-cF 7dn5-a1-m3-cF_7dn5-a1-m4-cE 7dn5-a1-m40-cD_7dn5-a1-m40-cF 7dn5-a1-m40-cF_7dn5-a1-m36-cE 7dn5-a1-m41-cD_7dn5-a1-m41-cF 7dn5-a1-m41-cF_7dn5-a1-m42-cE 7dn5-a1-m42-cD_7dn5-a1-m42-cF 7dn5-a1-m42-cF_7dn5-a1-m43-cE 7dn5-a1-m43-cD_7dn5-a1-m43-cF 7dn5-a1-m43-cF_7dn5-a1-m44-cE 7dn5-a1-m44-cD_7dn5-a1-m44-cF 7dn5-a1-m44-cF_7dn5-a1-m45-cE 7dn5-a1-m45-cD_7dn5-a1-m45-cF 7dn5-a1-m45-cF_7dn5-a1-m41-cE 7dn5-a1-m46-cD_7dn5-a1-m46-cF 7dn5-a1-m46-cF_7dn5-a1-m47-cE 7dn5-a1-m47-cD_7dn5-a1-m47-cF 7dn5-a1-m47-cF_7dn5-a1-m48-cE 7dn5-a1-m48-cD_7dn5-a1-m48-cF 7dn5-a1-m48-cF_7dn5-a1-m49-cE 7dn5-a1-m49-cD_7dn5-a1-m49-cF 7dn5-a1-m49-cF_7dn5-a1-m50-cE 7dn5-a1-m4-cD_7dn5-a1-m4-cF 7dn5-a1-m4-cF_7dn5-a1-m5-cE 7dn5-a1-m50-cD_7dn5-a1-m50-cF 7dn5-a1-m50-cF_7dn5-a1-m46-cE 7dn5-a1-m51-cD_7dn5-a1-m51-cF 7dn5-a1-m51-cF_7dn5-a1-m52-cE 7dn5-a1-m52-cD_7dn5-a1-m52-cF 7dn5-a1-m52-cF_7dn5-a1-m53-cE 7dn5-a1-m53-cD_7dn5-a1-m53-cF 7dn5-a1-m53-cF_7dn5-a1-m54-cE 7dn5-a1-m54-cD_7dn5-a1-m54-cF 7dn5-a1-m54-cF_7dn5-a1-m55-cE 7dn5-a1-m55-cD_7dn5-a1-m55-cF 7dn5-a1-m55-cF_7dn5-a1-m51-cE 7dn5-a1-m56-cD_7dn5-a1-m56-cF 7dn5-a1-m56-cF_7dn5-a1-m57-cE 7dn5-a1-m57-cD_7dn5-a1-m57-cF 7dn5-a1-m57-cF_7dn5-a1-m58-cE 7dn5-a1-m58-cD_7dn5-a1-m58-cF 7dn5-a1-m58-cF_7dn5-a1-m59-cE 7dn5-a1-m59-cD_7dn5-a1-m59-cF 7dn5-a1-m59-cF_7dn5-a1-m60-cE 7dn5-a1-m5-cD_7dn5-a1-m5-cF 7dn5-a1-m5-cF_7dn5-a1-m1-cE 7dn5-a1-m60-cD_7dn5-a1-m60-cF 7dn5-a1-m60-cF_7dn5-a1-m56-cE 7dn5-a1-m6-cD_7dn5-a1-m6-cF 7dn5-a1-m6-cF_7dn5-a1-m7-cE 7dn5-a1-m7-cD_7dn5-a1-m7-cF 7dn5-a1-m7-cF_7dn5-a1-m8-cE 7dn5-a1-m8-cD_7dn5-a1-m8-cF 7dn5-a1-m8-cF_7dn5-a1-m9-cE 7dn5-a1-m9-cF_7dn5-a1-m10-cE KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dn5-a1-m9-cF_7dn5-a1-m9-cE The cryo-EM structure of human papillomavirus type 58 pseudovirus P26535 P26535 4.11 ELECTRON MICROSCOPY 100 1.0 10598 (human papillomavirus 58) 10598 (human papillomavirus 58) 454 472 7dn5-a1-m10-cF_7dn5-a1-m10-cE 7dn5-a1-m11-cF_7dn5-a1-m11-cE 7dn5-a1-m12-cF_7dn5-a1-m12-cE 7dn5-a1-m13-cF_7dn5-a1-m13-cE 7dn5-a1-m14-cF_7dn5-a1-m14-cE 7dn5-a1-m15-cF_7dn5-a1-m15-cE 7dn5-a1-m16-cF_7dn5-a1-m16-cE 7dn5-a1-m17-cF_7dn5-a1-m17-cE 7dn5-a1-m18-cF_7dn5-a1-m18-cE 7dn5-a1-m19-cF_7dn5-a1-m19-cE 7dn5-a1-m1-cF_7dn5-a1-m1-cE 7dn5-a1-m20-cF_7dn5-a1-m20-cE 7dn5-a1-m21-cF_7dn5-a1-m21-cE 7dn5-a1-m22-cF_7dn5-a1-m22-cE 7dn5-a1-m23-cF_7dn5-a1-m23-cE 7dn5-a1-m24-cF_7dn5-a1-m24-cE 7dn5-a1-m25-cF_7dn5-a1-m25-cE 7dn5-a1-m26-cF_7dn5-a1-m26-cE 7dn5-a1-m27-cF_7dn5-a1-m27-cE 7dn5-a1-m28-cF_7dn5-a1-m28-cE 7dn5-a1-m29-cF_7dn5-a1-m29-cE 7dn5-a1-m2-cF_7dn5-a1-m2-cE 7dn5-a1-m30-cF_7dn5-a1-m30-cE 7dn5-a1-m31-cF_7dn5-a1-m31-cE 7dn5-a1-m32-cF_7dn5-a1-m32-cE 7dn5-a1-m33-cF_7dn5-a1-m33-cE 7dn5-a1-m34-cF_7dn5-a1-m34-cE 7dn5-a1-m35-cF_7dn5-a1-m35-cE 7dn5-a1-m36-cF_7dn5-a1-m36-cE 7dn5-a1-m37-cF_7dn5-a1-m37-cE 7dn5-a1-m38-cF_7dn5-a1-m38-cE 7dn5-a1-m39-cF_7dn5-a1-m39-cE 7dn5-a1-m3-cF_7dn5-a1-m3-cE 7dn5-a1-m40-cF_7dn5-a1-m40-cE 7dn5-a1-m41-cF_7dn5-a1-m41-cE 7dn5-a1-m42-cF_7dn5-a1-m42-cE 7dn5-a1-m43-cF_7dn5-a1-m43-cE 7dn5-a1-m44-cF_7dn5-a1-m44-cE 7dn5-a1-m45-cF_7dn5-a1-m45-cE 7dn5-a1-m46-cF_7dn5-a1-m46-cE 7dn5-a1-m47-cF_7dn5-a1-m47-cE 7dn5-a1-m48-cF_7dn5-a1-m48-cE 7dn5-a1-m49-cF_7dn5-a1-m49-cE 7dn5-a1-m4-cF_7dn5-a1-m4-cE 7dn5-a1-m50-cF_7dn5-a1-m50-cE 7dn5-a1-m51-cF_7dn5-a1-m51-cE 7dn5-a1-m52-cF_7dn5-a1-m52-cE 7dn5-a1-m53-cF_7dn5-a1-m53-cE 7dn5-a1-m54-cF_7dn5-a1-m54-cE 7dn5-a1-m55-cF_7dn5-a1-m55-cE 7dn5-a1-m56-cF_7dn5-a1-m56-cE 7dn5-a1-m57-cF_7dn5-a1-m57-cE 7dn5-a1-m58-cF_7dn5-a1-m58-cE 7dn5-a1-m59-cF_7dn5-a1-m59-cE 7dn5-a1-m5-cF_7dn5-a1-m5-cE 7dn5-a1-m60-cF_7dn5-a1-m60-cE 7dn5-a1-m6-cF_7dn5-a1-m6-cE 7dn5-a1-m7-cF_7dn5-a1-m7-cE 7dn5-a1-m8-cF_7dn5-a1-m8-cE KVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL SVWRPSEATVYLPPVPVSKVVSTDEYVSRTSIYYYAGSSRLLAVGNPYFSIKSPNNNKKVLVPKVSGLQYRVFRVRLPDPNKFGFPDTSFYNPDTQRLVWACVGLEIGRGQPLGVGVSGHPYLNKFDDTETSNRYPAQPGSDNRECLSMDYKQTQLCLIGCKPPTGEHWGKGVACNNNAAATDCPPLELFNSIIEDGDMVDTGFGCMDFGTLQANKSDVPIDICNSTCKYPDYLKMASEPYGDSLFFFLRREQMFVRHFFNRAGKLGEAVPDDLYIKGSGNTAVIQSSAFFPTPSGSIVTSESQLFNKPYWLQRAQGHNNGICWGNQLFVTVVDTTRSTNMTLCTEVTKEGTYKNDNFKEYVRHVEEYDLQFVFQLCKITLTAEIMTYIHTMDSNILEDWQFGLTPPPSASLQDTYRFVTSQAITCQKTAPPKEKEDPLNKYTFWEVNLKEKFSADLDQFPLGRKFLLQSGL 7dnf-a2-m1-cD_7dnf-a2-m1-cF DARPin 63_B7 in complex with V3-IY (MN) crown mimetic 1.78 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 153 155 7dnf-a1-m1-cA_7dnf-a1-m1-cC DLGKKLLEAARAGQDDEVRILMANGADVNANDVYGITPLHLAAYMGHLEIVEVLLKYGVDVNASDQFGNTPLHLAADDGHLEIVEVLLKHGTDVNATDTWGSTPLHLAAHRGHLEIVEVLLKYGADVNAQDKFGKTAFDISIDNGNEDLAEIL DLGKKLLEAARAGQDDEVRILMANGADVNANDVYGITPLHLAAYMGHLEIVEVLLKYGVDVNASDQFGNTPLHLAADDGHLEIVEVLLKHGTDVNATDTWGSTPLHLAAHRGHLEIVEVLLKYGADVNAQDKFGKTAFDISIDNGNEDLAEILQK 7dnj-a1-m1-cA_7dnj-a1-m1-cD K63-polyUb MDA5CARDs complex Q9BYX4 Q9BYX4 3.3 ELECTRON MICROSCOPY 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 7dni-a1-m1-cD_7dni-a1-m1-cA GYSTDENFRYLISCFRARVKMYIQVEPVLDYLTFLPAEVKEQIQRTVATSGNMQAVELLLSTLEKGVWHLGWTREFVEALRRTGSPLAARYMNPELTDLPSPSFENAHDEYLQLLNLLQPTLVDKLLVRDVLDKCMEEELLTIEDRNRIAAAENNGNESGVRELLKRIVQKENWFSAFLNVLRQTGNNELVQELTGS GYSTDENFRYLISCFRARVKMYIQVEPVLDYLTFLPAEVKEQIQRTVATSGNMQAVELLLSTLEKGVWHLGWTREFVEALRRTGSPLAARYMNPELTDLPSPSFENAHDEYLQLLNLLQPTLVDKLLVRDVLDKCMEEELLTIEDRNRIAAAENNGNESGVRELLKRIVQKENWFSAFLNVLRQTGNNELVQELTGS 7dnj-a1-m1-cB_7dnj-a1-m1-cC K63-polyUb MDA5CARDs complex Q9BYX4 Q9BYX4 3.3 ELECTRON MICROSCOPY 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 7dni-a1-m1-cB_7dni-a1-m1-cA 7dni-a1-m1-cC_7dni-a1-m1-cB 7dni-a1-m1-cC_7dni-a1-m1-cD 7dnj-a1-m1-cA_7dnj-a1-m1-cB 7dnj-a1-m1-cC_7dnj-a1-m1-cD GYSTDENFRYLISCFRARVKMYIQVEPVLDYLTFLPAEVKEQIQRTVATSGNMQAVELLLSTLEKGVWHLGWTREFVEALRRTGSPLAARYMNPELTDLPSPSFENAHDEYLQLLNLLQPTLVDKLLVRDVLDKCMEEELLTIEDRNRIAAAENNGNESGVRELLKRIVQKENWFSAFLNVLRQTGNNELVQELTGS GYSTDENFRYLISCFRARVKMYIQVEPVLDYLTFLPAEVKEQIQRTVATSGNMQAVELLLSTLEKGVWHLGWTREFVEALRRTGSPLAARYMNPELTDLPSPSFENAHDEYLQLLNLLQPTLVDKLLVRDVLDKCMEEELLTIEDRNRIAAAENNGNESGVRELLKRIVQKENWFSAFLNVLRQTGNNELVQELTGS 7dns-a1-m1-cB_7dns-a1-m1-cA Crystal structure of domain-swapped dimer of H5_Fold-0 Elsa; de novo designed protein with an asymmetric all-alpha topology 2.327 X-RAY DIFFRACTION 89 1.0 32630 (synthetic construct) 32630 (synthetic construct) 88 90 EQKEIETLVELFAEAFREAKRQKKNGTPEEWARDAVEEAARQQGRSRKDVVEALTKYAQEQGRDELLKRLGITPEIYKVIQQIRKEEG GEEQKEIETLVELFAEAFREAKRQKKNGTPEEWARDAVEEAARQQGRSRKDVVEALTKYAQEQGRDELLKRLGITPEIYKVIQQIRKEEG 7dnu-a1-m1-cA_7dnu-a1-m2-cA mRNA-decapping enzyme g5Rp with inhibitor insp6 complex P32092 P32092 2.245 X-RAY DIFFRACTION 89 1.0 10498 (African swine fever virus BA71V) 10498 (African swine fever virus BA71V) 247 247 7dnt-a1-m1-cA_7dnt-a1-m2-cA DTAMQLKTSIGLITCRMNTQNNQIETILVQKRYSLAFSEFIHCHYSINANQGHLIKMFNNMTINERLLVKTLDFDRMWYHIWIETPVYELYHKKYQKFRKNWLLPDNGKKLISLINQAKGSGTLLWEIPKGKPKEDESDLTCAIREFEEETGITREYYQILPEFKKSMSYFDGKTEYKHIYFLAMLCKSLEEPNMNLSLQYENRIAEISKISWQNMEAVRFISKRQSFNLEPMIGPAFNFIKNYLRY DTAMQLKTSIGLITCRMNTQNNQIETILVQKRYSLAFSEFIHCHYSINANQGHLIKMFNNMTINERLLVKTLDFDRMWYHIWIETPVYELYHKKYQKFRKNWLLPDNGKKLISLINQAKGSGTLLWEIPKGKPKEDESDLTCAIREFEEETGITREYYQILPEFKKSMSYFDGKTEYKHIYFLAMLCKSLEEPNMNLSLQYENRIAEISKISWQNMEAVRFISKRQSFNLEPMIGPAFNFIKNYLRY 7do6-a1-m1-cA_7do6-a1-m1-cC Crystal structure of Azotobacter vinelandii L-rhamnose 1-dehydrogenase(NADP bound-form) C1DMX5 C1DMX5 2.37 X-RAY DIFFRACTION 31 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 247 256 7b81-a1-m1-cA_7b81-a1-m2-cA 7b81-a1-m1-cB_7b81-a1-m2-cB 7do5-a1-m1-cA_7do5-a1-m1-cC 7do5-a1-m1-cD_7do5-a1-m1-cB 7do5-a2-m1-cE_7do5-a2-m1-cG 7do5-a2-m1-cF_7do5-a2-m1-cH 7do6-a1-m1-cB_7do6-a1-m1-cD 7do6-a2-m1-cE_7do6-a2-m1-cG 7do6-a2-m1-cF_7do6-a2-m1-cH 7do7-a1-m1-cA_7do7-a1-m2-cA 7do7-a1-m1-cB_7do7-a1-m2-cB SLLIDKTVIVTGASRGIGRAAARECARQGARVVIGHSGSDEGRAGALSLAEEIAAFGGTAIAVGADAADLDSGEKLVAAAVEAFGSVDVLVNNAGICPFHSFLDMPRELYLKTVGTNLNGAYFTVQAAARRMKEQGRGGAIIAVSSISALVGGAMQTHYTPTKAGLLSLMQSCAIALGPYGIRCNAVLPGTIADLEKRERMTSRVPLGRLGEPDDLAGPIVFLASDMARYVTGASLLVDGGLFVNLQ SLLIDKTVIVTGASRGIGRAAARECARQGARVVIGHSGSDEGRAGALSLAEEIAAFGGTAIAVGADAADLDSGEKLVAAAVEAFGSVDVLVNNAGICPFHSFLDMPRELYLKTVGTNLNGAYFTVQAAARRMKEQGRGGAIIAVSSISALVGGAMQTHYTPTKAGLLSLMQSCAIALGPYGIRCNAVLPGTIATDINKEDLSDLEKRERMTSRVPLGRLGEPDDLAGPIVFLASDMARYVTGASLLVDGGLFVNLQ 7do6-a2-m1-cE_7do6-a2-m1-cH Crystal structure of Azotobacter vinelandii L-rhamnose 1-dehydrogenase(NADP bound-form) C1DMX5 C1DMX5 2.37 X-RAY DIFFRACTION 118 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 247 247 7b81-a1-m1-cA_7b81-a1-m1-cB 7b81-a1-m2-cA_7b81-a1-m2-cB 7do5-a1-m1-cA_7do5-a1-m1-cD 7do5-a1-m1-cC_7do5-a1-m1-cB 7do5-a2-m1-cE_7do5-a2-m1-cH 7do5-a2-m1-cF_7do5-a2-m1-cG 7do6-a1-m1-cA_7do6-a1-m1-cD 7do6-a1-m1-cB_7do6-a1-m1-cC 7do6-a2-m1-cF_7do6-a2-m1-cG 7do7-a1-m1-cA_7do7-a1-m1-cB 7do7-a1-m2-cA_7do7-a1-m2-cB SLLIDKTVIVTGASRGIGRAAARECARQGARVVIGHSGSDEGRAGALSLAEEIAAFGGTAIAVGADAADLDSGEKLVAAAVEAFGSVDVLVNNAGICPFHSFLDMPRELYLKTVGTNLNGAYFTVQAAARRMKEQGRGGAIIAVSSISALVGGAMQTHYTPTKAGLLSLMQSCAIALGPYGIRCNAVLPGTIADLEKRERMTSRVPLGRLGEPDDLAGPIVFLASDMARYVTGASLLVDGGLFVNLQ SLLIDKTVIVTGASRGIGRAAARECARQGARVVIGHSGSDEGRAGALSLAEEIAAFGGTAIAVGADAADLDSGEKLVAAAVEAFGSVDVLVNNAGICPFHSFLDMPRELYLKTVGTNLNGAYFTVQAAARRMKEQGRGGAIIAVSSISALVGGAMQTHYTPTKAGLLSLMQSCAIALGPYGIRCNAVLPGTIADLEKRERMTSRVPLGRLGEPDDLAGPIVFLASDMARYVTGASLLVDGGLFVNLQ 7do6-a2-m1-cH_7do6-a2-m1-cG Crystal structure of Azotobacter vinelandii L-rhamnose 1-dehydrogenase(NADP bound-form) C1DMX5 C1DMX5 2.37 X-RAY DIFFRACTION 131 1.0 322710 (Azotobacter vinelandii DJ) 322710 (Azotobacter vinelandii DJ) 247 248 7b81-a1-m1-cA_7b81-a1-m2-cB 7b81-a1-m1-cB_7b81-a1-m2-cA 7do5-a1-m1-cA_7do5-a1-m1-cB 7do5-a1-m1-cC_7do5-a1-m1-cD 7do5-a2-m1-cE_7do5-a2-m1-cF 7do5-a2-m1-cH_7do5-a2-m1-cG 7do6-a1-m1-cA_7do6-a1-m1-cB 7do6-a1-m1-cC_7do6-a1-m1-cD 7do6-a2-m1-cF_7do6-a2-m1-cE 7do7-a1-m1-cA_7do7-a1-m2-cB 7do7-a1-m1-cB_7do7-a1-m2-cA SLLIDKTVIVTGASRGIGRAAARECARQGARVVIGHSGSDEGRAGALSLAEEIAAFGGTAIAVGADAADLDSGEKLVAAAVEAFGSVDVLVNNAGICPFHSFLDMPRELYLKTVGTNLNGAYFTVQAAARRMKEQGRGGAIIAVSSISALVGGAMQTHYTPTKAGLLSLMQSCAIALGPYGIRCNAVLPGTIADLEKRERMTSRVPLGRLGEPDDLAGPIVFLASDMARYVTGASLLVDGGLFVNLQ SLLIDKTVIVTGASRGIGRAAARECARQGARVVIGHSGSDEGRAGALSLAEEIAAFGGTAIAVGADAADLDSGEKLVAAAVEAFGSVDVLVNNAGICPFHSFLDMPRELYLKTVGTNLNGAYFTVQAAARRMKEQGRGGAIIAVSSISALVGGAMQTHYTPTKAGLLSLMQSCAIALGPYGIRCNAVLPGTIATDLEKRERMTSRVPLGRLGEPDDLAGPIVFLASDMARYVTGASLLVDGGLFVNLQ 7dob-a1-m1-cA_7dob-a1-m2-cA Crystal structure of Catabolite repressor activator (Apo) A0A454A0X5 A0A454A0X5 2.4 X-RAY DIFFRACTION 74 1.0 362663 (Escherichia coli 536) 362663 (Escherichia coli 536) 277 277 2iks-a1-m1-cB_2iks-a1-m1-cA 7doa-a1-m1-cA_7doa-a1-m1-cB RAGRTRSIGLVIPDLENTSYTRIANYLERQARQRGYQLLIACSEDQPDNEMRCIEHLLQRQVDAIIVSTSLPPEHPFYQRWANDPFPIVALDRALDREHFTSVVGADQDDAEMLAEELRKFPAETVLYLGALPELSVSFLREQGFRTAWKDDPREVHFLYANSYEREAAAQLFEKWLETHPMPQALFTTSFALLQGVMDVTLRRDGKLPSDLAIATFGDNELLDFLQCPVLAVAQRHRDVAERVLEIVLASLDEPRKPKPGLTRIKRNLYRRGVLSR RAGRTRSIGLVIPDLENTSYTRIANYLERQARQRGYQLLIACSEDQPDNEMRCIEHLLQRQVDAIIVSTSLPPEHPFYQRWANDPFPIVALDRALDREHFTSVVGADQDDAEMLAEELRKFPAETVLYLGALPELSVSFLREQGFRTAWKDDPREVHFLYANSYEREAAAQLFEKWLETHPMPQALFTTSFALLQGVMDVTLRRDGKLPSDLAIATFGDNELLDFLQCPVLAVAQRHRDVAERVLEIVLASLDEPRKPKPGLTRIKRNLYRRGVLSR 7dod-a1-m10-cB_7dod-a1-m9-cC Capsid structure of human sapovirus A0A2Z6DUV0 A0A2Z6DUV0 2.9 ELECTRON MICROSCOPY 79 1.0 2169442 (Sapovirus Hu/GI.6/Nichinan/FP05284/2005/JPN) 2169442 (Sapovirus Hu/GI.6/Nichinan/FP05284/2005/JPN) 530 530 7dod-a1-m10-cA_7dod-a1-m10-cC 7dod-a1-m10-cA_7dod-a1-m6-cB 7dod-a1-m10-cC_7dod-a1-m6-cB 7dod-a1-m11-cA_7dod-a1-m11-cC 7dod-a1-m11-cA_7dod-a1-m12-cB 7dod-a1-m11-cB_7dod-a1-m15-cC 7dod-a1-m11-cC_7dod-a1-m12-cB 7dod-a1-m12-cA_7dod-a1-m12-cC 7dod-a1-m12-cA_7dod-a1-m13-cB 7dod-a1-m12-cC_7dod-a1-m13-cB 7dod-a1-m13-cA_7dod-a1-m13-cC 7dod-a1-m13-cA_7dod-a1-m14-cB 7dod-a1-m13-cC_7dod-a1-m14-cB 7dod-a1-m14-cA_7dod-a1-m14-cC 7dod-a1-m14-cA_7dod-a1-m15-cB 7dod-a1-m14-cC_7dod-a1-m15-cB 7dod-a1-m15-cA_7dod-a1-m11-cB 7dod-a1-m15-cA_7dod-a1-m15-cC 7dod-a1-m16-cA_7dod-a1-m16-cC 7dod-a1-m16-cA_7dod-a1-m17-cB 7dod-a1-m16-cB_7dod-a1-m20-cC 7dod-a1-m16-cC_7dod-a1-m17-cB 7dod-a1-m17-cA_7dod-a1-m17-cC 7dod-a1-m17-cA_7dod-a1-m18-cB 7dod-a1-m17-cC_7dod-a1-m18-cB 7dod-a1-m18-cA_7dod-a1-m18-cC 7dod-a1-m18-cA_7dod-a1-m19-cB 7dod-a1-m18-cC_7dod-a1-m19-cB 7dod-a1-m19-cA_7dod-a1-m19-cC 7dod-a1-m19-cA_7dod-a1-m20-cB 7dod-a1-m19-cC_7dod-a1-m20-cB 7dod-a1-m1-cA_7dod-a1-m1-cC 7dod-a1-m1-cA_7dod-a1-m2-cB 7dod-a1-m1-cB_7dod-a1-m5-cC 7dod-a1-m1-cC_7dod-a1-m2-cB 7dod-a1-m20-cA_7dod-a1-m16-cB 7dod-a1-m20-cA_7dod-a1-m20-cC 7dod-a1-m21-cA_7dod-a1-m21-cC 7dod-a1-m21-cA_7dod-a1-m22-cB 7dod-a1-m21-cB_7dod-a1-m25-cC 7dod-a1-m21-cC_7dod-a1-m22-cB 7dod-a1-m22-cA_7dod-a1-m22-cC 7dod-a1-m22-cA_7dod-a1-m23-cB 7dod-a1-m22-cC_7dod-a1-m23-cB 7dod-a1-m23-cA_7dod-a1-m23-cC 7dod-a1-m23-cA_7dod-a1-m24-cB 7dod-a1-m23-cC_7dod-a1-m24-cB 7dod-a1-m24-cA_7dod-a1-m24-cC 7dod-a1-m24-cA_7dod-a1-m25-cB 7dod-a1-m24-cC_7dod-a1-m25-cB 7dod-a1-m25-cA_7dod-a1-m21-cB 7dod-a1-m25-cA_7dod-a1-m25-cC 7dod-a1-m26-cA_7dod-a1-m26-cC 7dod-a1-m26-cA_7dod-a1-m27-cB 7dod-a1-m26-cB_7dod-a1-m30-cC 7dod-a1-m26-cC_7dod-a1-m27-cB 7dod-a1-m27-cA_7dod-a1-m27-cC 7dod-a1-m27-cA_7dod-a1-m28-cB 7dod-a1-m27-cC_7dod-a1-m28-cB 7dod-a1-m28-cA_7dod-a1-m28-cC 7dod-a1-m28-cA_7dod-a1-m29-cB 7dod-a1-m28-cC_7dod-a1-m29-cB 7dod-a1-m29-cA_7dod-a1-m29-cC 7dod-a1-m29-cA_7dod-a1-m30-cB 7dod-a1-m29-cC_7dod-a1-m30-cB 7dod-a1-m2-cA_7dod-a1-m2-cC 7dod-a1-m2-cA_7dod-a1-m3-cB 7dod-a1-m2-cC_7dod-a1-m3-cB 7dod-a1-m30-cA_7dod-a1-m26-cB 7dod-a1-m30-cA_7dod-a1-m30-cC 7dod-a1-m31-cA_7dod-a1-m31-cC 7dod-a1-m31-cA_7dod-a1-m32-cB 7dod-a1-m31-cB_7dod-a1-m35-cC 7dod-a1-m31-cC_7dod-a1-m32-cB 7dod-a1-m32-cA_7dod-a1-m32-cC 7dod-a1-m32-cA_7dod-a1-m33-cB 7dod-a1-m32-cC_7dod-a1-m33-cB 7dod-a1-m33-cA_7dod-a1-m33-cC 7dod-a1-m33-cA_7dod-a1-m34-cB 7dod-a1-m33-cC_7dod-a1-m34-cB 7dod-a1-m34-cA_7dod-a1-m34-cC 7dod-a1-m34-cA_7dod-a1-m35-cB 7dod-a1-m34-cC_7dod-a1-m35-cB 7dod-a1-m35-cA_7dod-a1-m31-cB 7dod-a1-m35-cA_7dod-a1-m35-cC 7dod-a1-m36-cA_7dod-a1-m36-cC 7dod-a1-m36-cA_7dod-a1-m37-cB 7dod-a1-m36-cB_7dod-a1-m40-cC 7dod-a1-m36-cC_7dod-a1-m37-cB 7dod-a1-m37-cA_7dod-a1-m37-cC 7dod-a1-m37-cA_7dod-a1-m38-cB 7dod-a1-m37-cC_7dod-a1-m38-cB 7dod-a1-m38-cA_7dod-a1-m38-cC 7dod-a1-m38-cA_7dod-a1-m39-cB 7dod-a1-m38-cC_7dod-a1-m39-cB 7dod-a1-m39-cA_7dod-a1-m39-cC 7dod-a1-m39-cA_7dod-a1-m40-cB 7dod-a1-m39-cC_7dod-a1-m40-cB 7dod-a1-m3-cA_7dod-a1-m3-cC 7dod-a1-m3-cA_7dod-a1-m4-cB 7dod-a1-m3-cC_7dod-a1-m4-cB 7dod-a1-m40-cA_7dod-a1-m36-cB 7dod-a1-m40-cA_7dod-a1-m40-cC 7dod-a1-m41-cA_7dod-a1-m41-cC 7dod-a1-m41-cA_7dod-a1-m42-cB 7dod-a1-m41-cB_7dod-a1-m45-cC 7dod-a1-m41-cC_7dod-a1-m42-cB 7dod-a1-m42-cA_7dod-a1-m42-cC 7dod-a1-m42-cA_7dod-a1-m43-cB 7dod-a1-m42-cC_7dod-a1-m43-cB 7dod-a1-m43-cA_7dod-a1-m43-cC 7dod-a1-m43-cA_7dod-a1-m44-cB 7dod-a1-m43-cC_7dod-a1-m44-cB 7dod-a1-m44-cA_7dod-a1-m44-cC 7dod-a1-m44-cA_7dod-a1-m45-cB 7dod-a1-m44-cC_7dod-a1-m45-cB 7dod-a1-m45-cA_7dod-a1-m41-cB 7dod-a1-m45-cA_7dod-a1-m45-cC 7dod-a1-m46-cA_7dod-a1-m46-cC 7dod-a1-m46-cA_7dod-a1-m47-cB 7dod-a1-m46-cB_7dod-a1-m50-cC 7dod-a1-m46-cC_7dod-a1-m47-cB 7dod-a1-m47-cA_7dod-a1-m47-cC 7dod-a1-m47-cA_7dod-a1-m48-cB 7dod-a1-m47-cC_7dod-a1-m48-cB 7dod-a1-m48-cA_7dod-a1-m48-cC 7dod-a1-m48-cA_7dod-a1-m49-cB 7dod-a1-m48-cC_7dod-a1-m49-cB 7dod-a1-m49-cA_7dod-a1-m49-cC 7dod-a1-m49-cA_7dod-a1-m50-cB 7dod-a1-m49-cC_7dod-a1-m50-cB 7dod-a1-m4-cA_7dod-a1-m4-cC 7dod-a1-m4-cA_7dod-a1-m5-cB 7dod-a1-m4-cC_7dod-a1-m5-cB 7dod-a1-m50-cA_7dod-a1-m46-cB 7dod-a1-m50-cA_7dod-a1-m50-cC 7dod-a1-m51-cA_7dod-a1-m51-cC 7dod-a1-m51-cA_7dod-a1-m52-cB 7dod-a1-m51-cB_7dod-a1-m55-cC 7dod-a1-m51-cC_7dod-a1-m52-cB 7dod-a1-m52-cA_7dod-a1-m52-cC 7dod-a1-m52-cA_7dod-a1-m53-cB 7dod-a1-m52-cC_7dod-a1-m53-cB 7dod-a1-m53-cA_7dod-a1-m53-cC 7dod-a1-m53-cA_7dod-a1-m54-cB 7dod-a1-m53-cC_7dod-a1-m54-cB 7dod-a1-m54-cA_7dod-a1-m54-cC 7dod-a1-m54-cA_7dod-a1-m55-cB 7dod-a1-m54-cC_7dod-a1-m55-cB 7dod-a1-m55-cA_7dod-a1-m51-cB 7dod-a1-m55-cA_7dod-a1-m55-cC 7dod-a1-m56-cA_7dod-a1-m56-cC 7dod-a1-m56-cA_7dod-a1-m57-cB 7dod-a1-m56-cB_7dod-a1-m60-cC 7dod-a1-m56-cC_7dod-a1-m57-cB 7dod-a1-m57-cA_7dod-a1-m57-cC 7dod-a1-m57-cA_7dod-a1-m58-cB 7dod-a1-m57-cC_7dod-a1-m58-cB 7dod-a1-m58-cA_7dod-a1-m58-cC 7dod-a1-m58-cA_7dod-a1-m59-cB 7dod-a1-m58-cC_7dod-a1-m59-cB 7dod-a1-m59-cA_7dod-a1-m59-cC 7dod-a1-m59-cA_7dod-a1-m60-cB 7dod-a1-m59-cC_7dod-a1-m60-cB 7dod-a1-m5-cA_7dod-a1-m1-cB 7dod-a1-m5-cA_7dod-a1-m5-cC 7dod-a1-m60-cA_7dod-a1-m56-cB 7dod-a1-m60-cA_7dod-a1-m60-cC 7dod-a1-m6-cA_7dod-a1-m6-cC 7dod-a1-m6-cA_7dod-a1-m7-cB 7dod-a1-m6-cC_7dod-a1-m7-cB 7dod-a1-m7-cA_7dod-a1-m7-cC 7dod-a1-m7-cA_7dod-a1-m8-cB 7dod-a1-m7-cC_7dod-a1-m8-cB 7dod-a1-m8-cA_7dod-a1-m8-cC 7dod-a1-m8-cA_7dod-a1-m9-cB 7dod-a1-m8-cC_7dod-a1-m9-cB 7dod-a1-m9-cA_7dod-a1-m10-cB 7dod-a1-m9-cA_7dod-a1-m9-cC DPPGATGPTTSHVVVSNPEQPNGPAQRLEMAVATGAIQSNVPEAIRNCFAVYRTFAWNDRMPAGTFLGSVSLHPNINPYTSHLSGMWAGWGGSFESRVSISGSGVFAGRVVASVIPPGVDPSSIRDPGVLPHAFVDARITEPVSFMIPDVRNTDYHRMDGNEPTCSLGLWVYQPLINPFSTSAVSTCWVSIETKPGGDFDFCLLKPPGQRMENGVSPEGLLPRRLGYARGNRVGGLVVGLVLVADHHQVNRHFNANSITYGWSTAPVNPMAAEIVVKHDYTNNRNAWLSIGAKNKGPLFPGLPNHFPDSCASTLVGAMDTGRHMPATGVCGPAIGFQDNGDVFENETPAVMFATFNPLTGNPIALYDSINPASLAVMCTKSNSNFDSSGFANDKNVVVQMSWEMYTNSQQIQGRVTPMQGTNFVFTSSGANTLALWEERLLSYDGHQAILYSSQMERTSEYFQNDNVNIPPGSMAVFNVETNSASFQIGIREDGYMVTGGTIGTHVVLDPETRFQYVGLLPLTAALAGPN DPPGATGPTTSHVVVSNPEQPNGPAQRLEMAVATGAIQSNVPEAIRNCFAVYRTFAWNDRMPAGTFLGSVSLHPNINPYTSHLSGMWAGWGGSFESRVSISGSGVFAGRVVASVIPPGVDPSSIRDPGVLPHAFVDARITEPVSFMIPDVRNTDYHRMDGNEPTCSLGLWVYQPLINPFSTSAVSTCWVSIETKPGGDFDFCLLKPPGQRMENGVSPEGLLPRRLGYARGNRVGGLVVGLVLVADHHQVNRHFNANSITYGWSTAPVNPMAAEIVVKHDYTNNRNAWLSIGAKNKGPLFPGLPNHFPDSCASTLVGAMDTGRHMPATGVCGPAIGFQDNGDVFENETPAVMFATFNPLTGNPIALYDSINPASLAVMCTKSNSNFDSSGFANDKNVVVQMSWEMYTNSQQIQGRVTPMQGTNFVFTSSGANTLALWEERLLSYDGHQAILYSSQMERTSEYFQNDNVNIPPGSMAVFNVETNSASFQIGIREDGYMVTGGTIGTHVVLDPETRFQYVGLLPLTAALAGPN 7dod-a1-m9-cA_7dod-a1-m9-cB Capsid structure of human sapovirus A0A2Z6DUV0 A0A2Z6DUV0 2.9 ELECTRON MICROSCOPY 120 1.0 2169442 (Sapovirus Hu/GI.6/Nichinan/FP05284/2005/JPN) 2169442 (Sapovirus Hu/GI.6/Nichinan/FP05284/2005/JPN) 513 530 7dod-a1-m10-cA_7dod-a1-m10-cB 7dod-a1-m10-cC_7dod-a1-m5-cC 7dod-a1-m11-cA_7dod-a1-m11-cB 7dod-a1-m11-cC_7dod-a1-m37-cC 7dod-a1-m12-cA_7dod-a1-m12-cB 7dod-a1-m12-cC_7dod-a1-m46-cC 7dod-a1-m13-cA_7dod-a1-m13-cB 7dod-a1-m13-cC_7dod-a1-m44-cC 7dod-a1-m14-cA_7dod-a1-m14-cB 7dod-a1-m14-cC_7dod-a1-m28-cC 7dod-a1-m15-cA_7dod-a1-m15-cB 7dod-a1-m15-cC_7dod-a1-m20-cC 7dod-a1-m16-cA_7dod-a1-m16-cB 7dod-a1-m16-cC_7dod-a1-m27-cC 7dod-a1-m17-cA_7dod-a1-m17-cB 7dod-a1-m17-cC_7dod-a1-m51-cC 7dod-a1-m18-cA_7dod-a1-m18-cB 7dod-a1-m18-cC_7dod-a1-m59-cC 7dod-a1-m19-cA_7dod-a1-m19-cB 7dod-a1-m19-cC_7dod-a1-m38-cC 7dod-a1-m1-cA_7dod-a1-m1-cB 7dod-a1-m1-cC_7dod-a1-m22-cC 7dod-a1-m20-cA_7dod-a1-m20-cB 7dod-a1-m21-cA_7dod-a1-m21-cB 7dod-a1-m21-cC_7dod-a1-m42-cC 7dod-a1-m22-cA_7dod-a1-m22-cB 7dod-a1-m23-cA_7dod-a1-m23-cB 7dod-a1-m23-cC_7dod-a1-m9-cC 7dod-a1-m24-cA_7dod-a1-m24-cB 7dod-a1-m24-cC_7dod-a1-m53-cC 7dod-a1-m25-cA_7dod-a1-m25-cB 7dod-a1-m25-cC_7dod-a1-m30-cC 7dod-a1-m26-cA_7dod-a1-m26-cB 7dod-a1-m26-cC_7dod-a1-m52-cC 7dod-a1-m27-cA_7dod-a1-m27-cB 7dod-a1-m28-cA_7dod-a1-m28-cB 7dod-a1-m29-cA_7dod-a1-m29-cB 7dod-a1-m29-cC_7dod-a1-m43-cC 7dod-a1-m2-cA_7dod-a1-m2-cB 7dod-a1-m2-cC_7dod-a1-m41-cC 7dod-a1-m30-cA_7dod-a1-m30-cB 7dod-a1-m31-cA_7dod-a1-m31-cB 7dod-a1-m31-cC_7dod-a1-m57-cC 7dod-a1-m32-cA_7dod-a1-m32-cB 7dod-a1-m32-cC_7dod-a1-m6-cC 7dod-a1-m33-cA_7dod-a1-m33-cB 7dod-a1-m33-cC_7dod-a1-m4-cC 7dod-a1-m34-cA_7dod-a1-m34-cB 7dod-a1-m34-cC_7dod-a1-m48-cC 7dod-a1-m35-cA_7dod-a1-m35-cB 7dod-a1-m35-cC_7dod-a1-m40-cC 7dod-a1-m36-cA_7dod-a1-m36-cB 7dod-a1-m36-cC_7dod-a1-m47-cC 7dod-a1-m37-cA_7dod-a1-m37-cB 7dod-a1-m38-cA_7dod-a1-m38-cB 7dod-a1-m39-cA_7dod-a1-m39-cB 7dod-a1-m39-cC_7dod-a1-m58-cC 7dod-a1-m3-cA_7dod-a1-m3-cB 7dod-a1-m3-cC_7dod-a1-m49-cC 7dod-a1-m40-cA_7dod-a1-m40-cB 7dod-a1-m41-cA_7dod-a1-m41-cB 7dod-a1-m42-cA_7dod-a1-m42-cB 7dod-a1-m43-cA_7dod-a1-m43-cB 7dod-a1-m44-cA_7dod-a1-m44-cB 7dod-a1-m45-cA_7dod-a1-m45-cB 7dod-a1-m45-cC_7dod-a1-m50-cC 7dod-a1-m46-cA_7dod-a1-m46-cB 7dod-a1-m47-cA_7dod-a1-m47-cB 7dod-a1-m48-cA_7dod-a1-m48-cB 7dod-a1-m49-cA_7dod-a1-m49-cB 7dod-a1-m4-cA_7dod-a1-m4-cB 7dod-a1-m50-cA_7dod-a1-m50-cB 7dod-a1-m51-cA_7dod-a1-m51-cB 7dod-a1-m52-cA_7dod-a1-m52-cB 7dod-a1-m53-cA_7dod-a1-m53-cB 7dod-a1-m54-cA_7dod-a1-m54-cB 7dod-a1-m54-cC_7dod-a1-m8-cC 7dod-a1-m55-cA_7dod-a1-m55-cB 7dod-a1-m55-cC_7dod-a1-m60-cC 7dod-a1-m56-cA_7dod-a1-m56-cB 7dod-a1-m56-cC_7dod-a1-m7-cC 7dod-a1-m57-cA_7dod-a1-m57-cB 7dod-a1-m58-cA_7dod-a1-m58-cB 7dod-a1-m59-cA_7dod-a1-m59-cB 7dod-a1-m5-cA_7dod-a1-m5-cB 7dod-a1-m60-cA_7dod-a1-m60-cB 7dod-a1-m6-cA_7dod-a1-m6-cB 7dod-a1-m7-cA_7dod-a1-m7-cB 7dod-a1-m8-cA_7dod-a1-m8-cB PEQPNGPAQRLEMAVATGAIQSNVPEAIRNCFAVYRTFAWNDRMPAGTFLGSVSLHPNINPYTSHLSGMWAGWGGSFESRVSISGSGVFAGRVVASVIPPGVDPSSIRDPGVLPHAFVDARITEPVSFMIPDVRNTDYHRMDGNEPTCSLGLWVYQPLINPFSTSAVSTCWVSIETKPGGDFDFCLLKPPGQRMENGVSPEGLLPRRLGYARGNRVGGLVVGLVLVADHHQVNRHFNANSITYGWSTAPVNPMAAEIVVKHDYTNNRNAWLSIGAKNKGPLFPGLPNHFPDSCASTLVGAMDTGRHMPATGVCGPAIGFQDNGDVFENETPAVMFATFNPLTGNPIALYDSINPASLAVMCTKSNSNFDSSGFANDKNVVVQMSWEMYTNSQQIQGRVTPMQGTNFVFTSSGANTLALWEERLLSYDGHQAILYSSQMERTSEYFQNDNVNIPPGSMAVFNVETNSASFQIGIREDGYMVTGGTIGTHVVLDPETRFQYVGLLPLTAALAGPN DPPGATGPTTSHVVVSNPEQPNGPAQRLEMAVATGAIQSNVPEAIRNCFAVYRTFAWNDRMPAGTFLGSVSLHPNINPYTSHLSGMWAGWGGSFESRVSISGSGVFAGRVVASVIPPGVDPSSIRDPGVLPHAFVDARITEPVSFMIPDVRNTDYHRMDGNEPTCSLGLWVYQPLINPFSTSAVSTCWVSIETKPGGDFDFCLLKPPGQRMENGVSPEGLLPRRLGYARGNRVGGLVVGLVLVADHHQVNRHFNANSITYGWSTAPVNPMAAEIVVKHDYTNNRNAWLSIGAKNKGPLFPGLPNHFPDSCASTLVGAMDTGRHMPATGVCGPAIGFQDNGDVFENETPAVMFATFNPLTGNPIALYDSINPASLAVMCTKSNSNFDSSGFANDKNVVVQMSWEMYTNSQQIQGRVTPMQGTNFVFTSSGANTLALWEERLLSYDGHQAILYSSQMERTSEYFQNDNVNIPPGSMAVFNVETNSASFQIGIREDGYMVTGGTIGTHVVLDPETRFQYVGLLPLTAALAGPN 7dod-a1-m9-cB_7dod-a1-m9-cC Capsid structure of human sapovirus A0A2Z6DUV0 A0A2Z6DUV0 2.9 ELECTRON MICROSCOPY 102 1.0 2169442 (Sapovirus Hu/GI.6/Nichinan/FP05284/2005/JPN) 2169442 (Sapovirus Hu/GI.6/Nichinan/FP05284/2005/JPN) 530 530 7dod-a1-m10-cA_7dod-a1-m6-cA 7dod-a1-m10-cA_7dod-a1-m9-cA 7dod-a1-m10-cB_7dod-a1-m10-cC 7dod-a1-m10-cB_7dod-a1-m23-cC 7dod-a1-m11-cA_7dod-a1-m12-cA 7dod-a1-m11-cA_7dod-a1-m15-cA 7dod-a1-m11-cB_7dod-a1-m11-cC 7dod-a1-m11-cB_7dod-a1-m20-cC 7dod-a1-m11-cC_7dod-a1-m38-cB 7dod-a1-m12-cA_7dod-a1-m13-cA 7dod-a1-m12-cB_7dod-a1-m12-cC 7dod-a1-m12-cB_7dod-a1-m37-cC 7dod-a1-m12-cC_7dod-a1-m47-cB 7dod-a1-m13-cA_7dod-a1-m14-cA 7dod-a1-m13-cB_7dod-a1-m13-cC 7dod-a1-m13-cB_7dod-a1-m46-cC 7dod-a1-m13-cC_7dod-a1-m45-cB 7dod-a1-m14-cA_7dod-a1-m15-cA 7dod-a1-m14-cB_7dod-a1-m14-cC 7dod-a1-m14-cB_7dod-a1-m44-cC 7dod-a1-m14-cC_7dod-a1-m29-cB 7dod-a1-m15-cB_7dod-a1-m15-cC 7dod-a1-m15-cB_7dod-a1-m28-cC 7dod-a1-m15-cC_7dod-a1-m16-cB 7dod-a1-m16-cA_7dod-a1-m17-cA 7dod-a1-m16-cA_7dod-a1-m20-cA 7dod-a1-m16-cB_7dod-a1-m16-cC 7dod-a1-m16-cC_7dod-a1-m28-cB 7dod-a1-m17-cA_7dod-a1-m18-cA 7dod-a1-m17-cB_7dod-a1-m17-cC 7dod-a1-m17-cB_7dod-a1-m27-cC 7dod-a1-m17-cC_7dod-a1-m52-cB 7dod-a1-m18-cA_7dod-a1-m19-cA 7dod-a1-m18-cB_7dod-a1-m18-cC 7dod-a1-m18-cB_7dod-a1-m51-cC 7dod-a1-m18-cC_7dod-a1-m60-cB 7dod-a1-m19-cA_7dod-a1-m20-cA 7dod-a1-m19-cB_7dod-a1-m19-cC 7dod-a1-m19-cB_7dod-a1-m59-cC 7dod-a1-m19-cC_7dod-a1-m39-cB 7dod-a1-m1-cA_7dod-a1-m2-cA 7dod-a1-m1-cA_7dod-a1-m5-cA 7dod-a1-m1-cB_7dod-a1-m10-cC 7dod-a1-m1-cB_7dod-a1-m1-cC 7dod-a1-m1-cC_7dod-a1-m23-cB 7dod-a1-m20-cB_7dod-a1-m20-cC 7dod-a1-m20-cB_7dod-a1-m38-cC 7dod-a1-m21-cA_7dod-a1-m22-cA 7dod-a1-m21-cA_7dod-a1-m25-cA 7dod-a1-m21-cB_7dod-a1-m21-cC 7dod-a1-m21-cB_7dod-a1-m30-cC 7dod-a1-m21-cC_7dod-a1-m43-cB 7dod-a1-m22-cA_7dod-a1-m23-cA 7dod-a1-m22-cB_7dod-a1-m22-cC 7dod-a1-m22-cB_7dod-a1-m42-cC 7dod-a1-m23-cA_7dod-a1-m24-cA 7dod-a1-m23-cB_7dod-a1-m23-cC 7dod-a1-m24-cA_7dod-a1-m25-cA 7dod-a1-m24-cB_7dod-a1-m24-cC 7dod-a1-m24-cB_7dod-a1-m9-cC 7dod-a1-m24-cC_7dod-a1-m54-cB 7dod-a1-m25-cB_7dod-a1-m25-cC 7dod-a1-m25-cB_7dod-a1-m53-cC 7dod-a1-m25-cC_7dod-a1-m26-cB 7dod-a1-m26-cA_7dod-a1-m27-cA 7dod-a1-m26-cA_7dod-a1-m30-cA 7dod-a1-m26-cB_7dod-a1-m26-cC 7dod-a1-m26-cC_7dod-a1-m53-cB 7dod-a1-m27-cA_7dod-a1-m28-cA 7dod-a1-m27-cB_7dod-a1-m27-cC 7dod-a1-m27-cB_7dod-a1-m52-cC 7dod-a1-m28-cA_7dod-a1-m29-cA 7dod-a1-m28-cB_7dod-a1-m28-cC 7dod-a1-m29-cA_7dod-a1-m30-cA 7dod-a1-m29-cB_7dod-a1-m29-cC 7dod-a1-m29-cC_7dod-a1-m44-cB 7dod-a1-m2-cA_7dod-a1-m3-cA 7dod-a1-m2-cB_7dod-a1-m22-cC 7dod-a1-m2-cB_7dod-a1-m2-cC 7dod-a1-m2-cC_7dod-a1-m42-cB 7dod-a1-m30-cB_7dod-a1-m30-cC 7dod-a1-m30-cB_7dod-a1-m43-cC 7dod-a1-m31-cA_7dod-a1-m32-cA 7dod-a1-m31-cA_7dod-a1-m35-cA 7dod-a1-m31-cB_7dod-a1-m31-cC 7dod-a1-m31-cB_7dod-a1-m40-cC 7dod-a1-m31-cC_7dod-a1-m58-cB 7dod-a1-m32-cA_7dod-a1-m33-cA 7dod-a1-m32-cB_7dod-a1-m32-cC 7dod-a1-m32-cB_7dod-a1-m57-cC 7dod-a1-m32-cC_7dod-a1-m7-cB 7dod-a1-m33-cA_7dod-a1-m34-cA 7dod-a1-m33-cB_7dod-a1-m33-cC 7dod-a1-m33-cB_7dod-a1-m6-cC 7dod-a1-m33-cC_7dod-a1-m5-cB 7dod-a1-m34-cA_7dod-a1-m35-cA 7dod-a1-m34-cB_7dod-a1-m34-cC 7dod-a1-m34-cB_7dod-a1-m4-cC 7dod-a1-m34-cC_7dod-a1-m49-cB 7dod-a1-m35-cB_7dod-a1-m35-cC 7dod-a1-m35-cB_7dod-a1-m48-cC 7dod-a1-m35-cC_7dod-a1-m36-cB 7dod-a1-m36-cA_7dod-a1-m37-cA 7dod-a1-m36-cA_7dod-a1-m40-cA 7dod-a1-m36-cB_7dod-a1-m36-cC 7dod-a1-m36-cC_7dod-a1-m48-cB 7dod-a1-m37-cA_7dod-a1-m38-cA 7dod-a1-m37-cB_7dod-a1-m37-cC 7dod-a1-m37-cB_7dod-a1-m47-cC 7dod-a1-m38-cA_7dod-a1-m39-cA 7dod-a1-m38-cB_7dod-a1-m38-cC 7dod-a1-m39-cA_7dod-a1-m40-cA 7dod-a1-m39-cB_7dod-a1-m39-cC 7dod-a1-m39-cC_7dod-a1-m59-cB 7dod-a1-m3-cA_7dod-a1-m4-cA 7dod-a1-m3-cB_7dod-a1-m3-cC 7dod-a1-m3-cB_7dod-a1-m41-cC 7dod-a1-m3-cC_7dod-a1-m50-cB 7dod-a1-m40-cB_7dod-a1-m40-cC 7dod-a1-m40-cB_7dod-a1-m58-cC 7dod-a1-m41-cA_7dod-a1-m42-cA 7dod-a1-m41-cA_7dod-a1-m45-cA 7dod-a1-m41-cB_7dod-a1-m41-cC 7dod-a1-m41-cB_7dod-a1-m50-cC 7dod-a1-m42-cA_7dod-a1-m43-cA 7dod-a1-m42-cB_7dod-a1-m42-cC 7dod-a1-m43-cA_7dod-a1-m44-cA 7dod-a1-m43-cB_7dod-a1-m43-cC 7dod-a1-m44-cA_7dod-a1-m45-cA 7dod-a1-m44-cB_7dod-a1-m44-cC 7dod-a1-m45-cB_7dod-a1-m45-cC 7dod-a1-m45-cC_7dod-a1-m46-cB 7dod-a1-m46-cA_7dod-a1-m47-cA 7dod-a1-m46-cA_7dod-a1-m50-cA 7dod-a1-m46-cB_7dod-a1-m46-cC 7dod-a1-m47-cA_7dod-a1-m48-cA 7dod-a1-m47-cB_7dod-a1-m47-cC 7dod-a1-m48-cA_7dod-a1-m49-cA 7dod-a1-m48-cB_7dod-a1-m48-cC 7dod-a1-m49-cA_7dod-a1-m50-cA 7dod-a1-m49-cB_7dod-a1-m49-cC 7dod-a1-m4-cA_7dod-a1-m5-cA 7dod-a1-m4-cB_7dod-a1-m49-cC 7dod-a1-m4-cB_7dod-a1-m4-cC 7dod-a1-m50-cB_7dod-a1-m50-cC 7dod-a1-m51-cA_7dod-a1-m52-cA 7dod-a1-m51-cA_7dod-a1-m55-cA 7dod-a1-m51-cB_7dod-a1-m51-cC 7dod-a1-m51-cB_7dod-a1-m60-cC 7dod-a1-m52-cA_7dod-a1-m53-cA 7dod-a1-m52-cB_7dod-a1-m52-cC 7dod-a1-m53-cA_7dod-a1-m54-cA 7dod-a1-m53-cB_7dod-a1-m53-cC 7dod-a1-m54-cA_7dod-a1-m55-cA 7dod-a1-m54-cB_7dod-a1-m54-cC 7dod-a1-m54-cC_7dod-a1-m9-cB 7dod-a1-m55-cB_7dod-a1-m55-cC 7dod-a1-m55-cB_7dod-a1-m8-cC 7dod-a1-m55-cC_7dod-a1-m56-cB 7dod-a1-m56-cA_7dod-a1-m57-cA 7dod-a1-m56-cA_7dod-a1-m60-cA 7dod-a1-m56-cB_7dod-a1-m56-cC 7dod-a1-m56-cC_7dod-a1-m8-cB 7dod-a1-m57-cA_7dod-a1-m58-cA 7dod-a1-m57-cB_7dod-a1-m57-cC 7dod-a1-m57-cB_7dod-a1-m7-cC 7dod-a1-m58-cA_7dod-a1-m59-cA 7dod-a1-m58-cB_7dod-a1-m58-cC 7dod-a1-m59-cA_7dod-a1-m60-cA 7dod-a1-m59-cB_7dod-a1-m59-cC 7dod-a1-m5-cB_7dod-a1-m5-cC 7dod-a1-m5-cC_7dod-a1-m6-cB 7dod-a1-m60-cB_7dod-a1-m60-cC 7dod-a1-m6-cA_7dod-a1-m7-cA 7dod-a1-m6-cB_7dod-a1-m6-cC 7dod-a1-m7-cA_7dod-a1-m8-cA 7dod-a1-m7-cB_7dod-a1-m7-cC 7dod-a1-m8-cA_7dod-a1-m9-cA 7dod-a1-m8-cB_7dod-a1-m8-cC DPPGATGPTTSHVVVSNPEQPNGPAQRLEMAVATGAIQSNVPEAIRNCFAVYRTFAWNDRMPAGTFLGSVSLHPNINPYTSHLSGMWAGWGGSFESRVSISGSGVFAGRVVASVIPPGVDPSSIRDPGVLPHAFVDARITEPVSFMIPDVRNTDYHRMDGNEPTCSLGLWVYQPLINPFSTSAVSTCWVSIETKPGGDFDFCLLKPPGQRMENGVSPEGLLPRRLGYARGNRVGGLVVGLVLVADHHQVNRHFNANSITYGWSTAPVNPMAAEIVVKHDYTNNRNAWLSIGAKNKGPLFPGLPNHFPDSCASTLVGAMDTGRHMPATGVCGPAIGFQDNGDVFENETPAVMFATFNPLTGNPIALYDSINPASLAVMCTKSNSNFDSSGFANDKNVVVQMSWEMYTNSQQIQGRVTPMQGTNFVFTSSGANTLALWEERLLSYDGHQAILYSSQMERTSEYFQNDNVNIPPGSMAVFNVETNSASFQIGIREDGYMVTGGTIGTHVVLDPETRFQYVGLLPLTAALAGPN DPPGATGPTTSHVVVSNPEQPNGPAQRLEMAVATGAIQSNVPEAIRNCFAVYRTFAWNDRMPAGTFLGSVSLHPNINPYTSHLSGMWAGWGGSFESRVSISGSGVFAGRVVASVIPPGVDPSSIRDPGVLPHAFVDARITEPVSFMIPDVRNTDYHRMDGNEPTCSLGLWVYQPLINPFSTSAVSTCWVSIETKPGGDFDFCLLKPPGQRMENGVSPEGLLPRRLGYARGNRVGGLVVGLVLVADHHQVNRHFNANSITYGWSTAPVNPMAAEIVVKHDYTNNRNAWLSIGAKNKGPLFPGLPNHFPDSCASTLVGAMDTGRHMPATGVCGPAIGFQDNGDVFENETPAVMFATFNPLTGNPIALYDSINPASLAVMCTKSNSNFDSSGFANDKNVVVQMSWEMYTNSQQIQGRVTPMQGTNFVFTSSGANTLALWEERLLSYDGHQAILYSSQMERTSEYFQNDNVNIPPGSMAVFNVETNSASFQIGIREDGYMVTGGTIGTHVVLDPETRFQYVGLLPLTAALAGPN 7dog-a1-m1-cA_7dog-a1-m1-cB Crystal structure of a nuclease and capping domain of SbcD from Staphylococcus aureus Q99UD1 Q99UD1 2.91 X-RAY DIFFRACTION 44 0.997 158878 (Staphylococcus aureus subsp. aureus Mu50) 158878 (Staphylococcus aureus subsp. aureus Mu50) 319 319 MAKIIHTADWHLGKILNGKQLLEDQAYILDMFVEKMKEEEPDIIVIAGDLYDTTYPSKDAIMLLEQAIGKLNLELRIPIIMISGNHDGKERLNYGASWFEHNQLFIRTDFTSINSPIEINGVNFYTLPYATVSEMKHYFEDDTIETHQQGITRCIETIAPEIDEDAVNILISHLTVQGGKTSDSERPLTIGTVESVQKGVFDIFDYVMLGHLHHPFSIEDDKIKYSGSLLQYSFSEAGQAKGYRRLTINDGIINDVFIPLKPLRQLEIISGEYNDVINEKVHVKNKDNYLHFKLKNMSHITDPMMSLKQIYPNTLALTN AKIIHTADWHLGKILNGKQLLEDQAYILDMFVEKMKEEEPDIIVIAGDLYDTTYPSKDAIMLLEQAIGKLNLELRIPIIMISGNHDGKERLNYGASWFEHNQLFIRTDFTSINSPIEINGVNFYTLPYATVSEMKHYFEDDTIETHQQGITRCIETIAPEIDEDAVNILISHLTVQGGKTSDSERPLTIGTVESVQKGVFDIFDYVMLGHLHHPFSIEDDKIKYSGSLLQYSFSEAGQAKGYRRLTINDGIINDVFIPLKPLRQLEIISGEYNDVINEKVHVKNKDNYLHFKLKNMSHITDPMMSLKQIYPNTLALTNE 7dov-a1-m1-cA_7dov-a1-m1-cC The crystal structure of zebrafish tumor necrosis factor alpha Q1L8A5 Q1L8A5 2.59 X-RAY DIFFRACTION 73 1.0 7955 (Danio rerio) 7955 (Danio rerio) 148 148 7dov-a1-m1-cA_7dov-a1-m1-cB 7dov-a1-m1-cB_7dov-a1-m1-cC AAIHLTGGYNSESKTLDWRDDQDQAFSSGGLKLVNREIIIPDDGIYFVYSQVSLHISCTSELTEEQVLMSHAVMRFSESYGGKKPLFSAIRSICTQEPESENLWYNTIYLGAAFHLREGDRLGTDTTTALLPMVENDNGKTFFGVFGL AAIHLTGGYNSESKTLDWRDDQDQAFSSGGLKLVNREIIIPDDGIYFVYSQVSLHISCTSELTEEQVLMSHAVMRFSESYGGKKPLFSAIRSICTQEPESENLWYNTIYLGAAFHLREGDRLGTDTTTALLPMVENDNGKTFFGVFGL 7dp1-a1-m1-cB_7dp1-a1-m1-cA Crystal structure of FMN and NADPH-dependent nitroreductase NfnB mutant Y88A derived from sphigopyxis sp. strain HMH A0A2L0VUJ4 A0A2L0VUJ4 2.0035 X-RAY DIFFRACTION 268 1.0 1908224 (Sphingopyxis sp.) 1908224 (Sphingopyxis sp.) 214 217 7dp0-a1-m1-cA_7dp0-a1-m1-cB 7dp2-a1-m1-cB_7dp2-a1-m1-cA LSASEALARRRSVRAFTDRPVDRALLARIFEIAQRAPSGGNLQPWQATVVTGERWQAVQDAVAARIVMGREGFQPEYDIAPRGLTDPWDSRRFGVGEALYAAGRIAQFQQNYRGFGAPVMLFLHCSRIMGPPQWADMGMWLQSVMLLLVEHGLASCPQECWAMYGATVRAELGLGDDQILFSGLAIGHADEEAPVNRWPVPRVGLDEVIDWQGF LSASEALARRRSVRAFTDRPVDRALLARIFEIAQRAPSGGNLQPWQATVVTGERWQAVQDAVAARIVMGREGFQPEYDIAPRGLTDPWDSRRFGVGEALYASLKAGRIAQFQQNYRGFGAPVMLFLHCSRIMGPPQWADMGMWLQSVMLLLVEHGLASCPQECWAMYGATVRAELGLGDDQILFSGLAIGHADEEAPVNRWPVPRVGLDEVIDWQGF 7dpa-a1-m1-cA_7dpa-a1-m1-cD Cryo-EM structure of the human ELMO1-DOCK5-Rac1 complex Q9H7D0 Q9H7D0 3.8 ELECTRON MICROSCOPY 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1642 1642 MARWIPTKRQKYGVAIYNYNASQDVELSLQIGDTVHILEMYEGWYRGYTLQNKSKKGIFPETYIHLKEATVEDLGQHETVIPGELPLVQELTSTLREWAVIWRKLYVNNKLTLFRQLQQMTYSLIEWRSQILSGTLPKDELAELKKKVTAKIDHGNRMLGLDLVVRDDNGNILDPDETSTIALFKAHEVASKRIEEKIQEEKSILQNLDLRGQSIFSTIHTYGLYVNFKNFVCNIGEDAELFMALYDPDQSTFISENYLIRWGSNGMPKEIEKLNNLQAVFTDLSSMDLIRPRVSLVCQIVRVGHMELKEGKKHTCGLRRPFGVAVMDITDIIHGKVDDEEKQHFIPFQQIAMETYIRQRQLIMSPLITSHVIGENEPLTSVLNKVIAAKEVNHKGQGLWVSLKLLPGDLTQVQKNFSHLVDRSTAIARKMGFPEIILPGDVRNDIYVTLIHGEFDKGKKKTPKNVEVTMSVHDEEGKLLEKAIHPGAGYEGISEYKSVVYYQVKQPCWYETVKVSIAIEEVTRCHIRFTFRHRSSQETRDKSERAFGVAFVKLMNPDGTTLQDGRHDLVVYKGDNKKMEDAKFYLTLPGTKMEMEEKELQASKNLVTFTPSKDSTKDSFQIATLICSTKLTQNVDLLGLLNWRSNSQNIKHNLKKLMEVDGGEIVKFLQDTLDALFNIMMEMSDSETYDFLVFDALVFIISLIGDIKFQHFNPVLETYIYKHFSATLAYVKLSKVLNFYVANADDSSKTELLFAALKALKYLFRFIIQSRVLYLRFYGQSKDGDEFNNSIRQLFLAFNMLMDRPLEEAVKIKGAALKYLPSIINDVKLVFDPVELSVLFCKFIQSIPDNQLVRQKLNCMTKIVESTLFRQSECREVLLPLLTDQLSGQLDDNSNKPDHEASSQLLSNILEVLDRKDVGATAVHIQLIMERLLRRINRTVIGMNRQSPHIGSFVACMIALLQQMDDSHYSHYISTFKTRQDIIDFLMETFIMFKDLIGKNVYAKDWMVMNMTQNRVFLRAINQFAEVLTRFFMDQASFELQLWNNYFHLAVAFLTHESLQLETFSQAKRNKIVKKYGDMRKEIGFRIRDMWYNLGPHKIKFIPSMVGPILEVTLTPEVELRKATIPIFFDMMQCEFNFSGNGNFHMFENELITKLDQEVEGGRGDEQYKVLLEKLLLEHCRKHKYLSSSGEVFALLVSSLLENLLDYRTIIMQDESKENRMSCTVNVLNFYKEKKREDIYIRYLYKLRDLHRDCENYTEAAYTLLLHAELLQWSDKPCVPHLLQRDSYYVYTQQELKEKLYQEIISYFDKGKMWEKAIKLSKELAETYESKVFDYEGLGNLLKKRASFYENIIKAMRPQPEYFAVGYYGQGFPSFLRNKIFIYRGKEYERREDFSLRLLTQFPNAEKMTSTTPPGEDIKSSPKQYMQCFTVKPVMSLPPSYKDKPVPEQILNYYRANEVQQFRYSRPFRKGEKDPDNEFATMWIERTTYTTAYTFPGILKWFEVKQISTEEISPLENAIETMELTNERISNCVQQHAWDRSLSVHPLSMLLSGIVDPAVMGGFSNYEKAFFTEKYLQEHPEDQEKVELLKRLIALQMPLLTEGIRIHGEKLTEQLKPLHERLSSCFRELKEKVEKHYGVITL MARWIPTKRQKYGVAIYNYNASQDVELSLQIGDTVHILEMYEGWYRGYTLQNKSKKGIFPETYIHLKEATVEDLGQHETVIPGELPLVQELTSTLREWAVIWRKLYVNNKLTLFRQLQQMTYSLIEWRSQILSGTLPKDELAELKKKVTAKIDHGNRMLGLDLVVRDDNGNILDPDETSTIALFKAHEVASKRIEEKIQEEKSILQNLDLRGQSIFSTIHTYGLYVNFKNFVCNIGEDAELFMALYDPDQSTFISENYLIRWGSNGMPKEIEKLNNLQAVFTDLSSMDLIRPRVSLVCQIVRVGHMELKEGKKHTCGLRRPFGVAVMDITDIIHGKVDDEEKQHFIPFQQIAMETYIRQRQLIMSPLITSHVIGENEPLTSVLNKVIAAKEVNHKGQGLWVSLKLLPGDLTQVQKNFSHLVDRSTAIARKMGFPEIILPGDVRNDIYVTLIHGEFDKGKKKTPKNVEVTMSVHDEEGKLLEKAIHPGAGYEGISEYKSVVYYQVKQPCWYETVKVSIAIEEVTRCHIRFTFRHRSSQETRDKSERAFGVAFVKLMNPDGTTLQDGRHDLVVYKGDNKKMEDAKFYLTLPGTKMEMEEKELQASKNLVTFTPSKDSTKDSFQIATLICSTKLTQNVDLLGLLNWRSNSQNIKHNLKKLMEVDGGEIVKFLQDTLDALFNIMMEMSDSETYDFLVFDALVFIISLIGDIKFQHFNPVLETYIYKHFSATLAYVKLSKVLNFYVANADDSSKTELLFAALKALKYLFRFIIQSRVLYLRFYGQSKDGDEFNNSIRQLFLAFNMLMDRPLEEAVKIKGAALKYLPSIINDVKLVFDPVELSVLFCKFIQSIPDNQLVRQKLNCMTKIVESTLFRQSECREVLLPLLTDQLSGQLDDNSNKPDHEASSQLLSNILEVLDRKDVGATAVHIQLIMERLLRRINRTVIGMNRQSPHIGSFVACMIALLQQMDDSHYSHYISTFKTRQDIIDFLMETFIMFKDLIGKNVYAKDWMVMNMTQNRVFLRAINQFAEVLTRFFMDQASFELQLWNNYFHLAVAFLTHESLQLETFSQAKRNKIVKKYGDMRKEIGFRIRDMWYNLGPHKIKFIPSMVGPILEVTLTPEVELRKATIPIFFDMMQCEFNFSGNGNFHMFENELITKLDQEVEGGRGDEQYKVLLEKLLLEHCRKHKYLSSSGEVFALLVSSLLENLLDYRTIIMQDESKENRMSCTVNVLNFYKEKKREDIYIRYLYKLRDLHRDCENYTEAAYTLLLHAELLQWSDKPCVPHLLQRDSYYVYTQQELKEKLYQEIISYFDKGKMWEKAIKLSKELAETYESKVFDYEGLGNLLKKRASFYENIIKAMRPQPEYFAVGYYGQGFPSFLRNKIFIYRGKEYERREDFSLRLLTQFPNAEKMTSTTPPGEDIKSSPKQYMQCFTVKPVMSLPPSYKDKPVPEQILNYYRANEVQQFRYSRPFRKGEKDPDNEFATMWIERTTYTTAYTFPGILKWFEVKQISTEEISPLENAIETMELTNERISNCVQQHAWDRSLSVHPLSMLLSGIVDPAVMGGFSNYEKAFFTEKYLQEHPEDQEKVELLKRLIALQMPLLTEGIRIHGEKLTEQLKPLHERLSSCFRELKEKVEKHYGVITL 7dpf-a1-m8-c3_7dpf-a1-m9-c3 Cryo-EM structure of Coxsackievirus B1 mature virion A0A7T7KAA0 A0A7T7KAA0 3.2 ELECTRON MICROSCOPY 47 1.0 12071 (Coxsackievirus B1) 12071 (Coxsackievirus B1) 237 237 7c9z-a1-m10-cC_7c9z-a1-m6-cC 7c9z-a1-m10-cC_7c9z-a1-m9-cC 7c9z-a1-m11-cC_7c9z-a1-m12-cC 7c9z-a1-m11-cC_7c9z-a1-m15-cC 7c9z-a1-m12-cC_7c9z-a1-m13-cC 7c9z-a1-m13-cC_7c9z-a1-m14-cC 7c9z-a1-m14-cC_7c9z-a1-m15-cC 7c9z-a1-m16-cC_7c9z-a1-m17-cC 7c9z-a1-m16-cC_7c9z-a1-m20-cC 7c9z-a1-m17-cC_7c9z-a1-m18-cC 7c9z-a1-m18-cC_7c9z-a1-m19-cC 7c9z-a1-m19-cC_7c9z-a1-m20-cC 7c9z-a1-m1-cC_7c9z-a1-m2-cC 7c9z-a1-m1-cC_7c9z-a1-m5-cC 7c9z-a1-m21-cC_7c9z-a1-m22-cC 7c9z-a1-m21-cC_7c9z-a1-m25-cC 7c9z-a1-m22-cC_7c9z-a1-m23-cC 7c9z-a1-m23-cC_7c9z-a1-m24-cC 7c9z-a1-m24-cC_7c9z-a1-m25-cC 7c9z-a1-m26-cC_7c9z-a1-m27-cC 7c9z-a1-m26-cC_7c9z-a1-m30-cC 7c9z-a1-m27-cC_7c9z-a1-m28-cC 7c9z-a1-m28-cC_7c9z-a1-m29-cC 7c9z-a1-m29-cC_7c9z-a1-m30-cC 7c9z-a1-m2-cC_7c9z-a1-m3-cC 7c9z-a1-m31-cC_7c9z-a1-m32-cC 7c9z-a1-m31-cC_7c9z-a1-m35-cC 7c9z-a1-m32-cC_7c9z-a1-m33-cC 7c9z-a1-m33-cC_7c9z-a1-m34-cC 7c9z-a1-m34-cC_7c9z-a1-m35-cC 7c9z-a1-m36-cC_7c9z-a1-m37-cC 7c9z-a1-m36-cC_7c9z-a1-m40-cC 7c9z-a1-m37-cC_7c9z-a1-m38-cC 7c9z-a1-m38-cC_7c9z-a1-m39-cC 7c9z-a1-m39-cC_7c9z-a1-m40-cC 7c9z-a1-m3-cC_7c9z-a1-m4-cC 7c9z-a1-m41-cC_7c9z-a1-m42-cC 7c9z-a1-m41-cC_7c9z-a1-m45-cC 7c9z-a1-m42-cC_7c9z-a1-m43-cC 7c9z-a1-m43-cC_7c9z-a1-m44-cC 7c9z-a1-m44-cC_7c9z-a1-m45-cC 7c9z-a1-m46-cC_7c9z-a1-m47-cC 7c9z-a1-m46-cC_7c9z-a1-m50-cC 7c9z-a1-m47-cC_7c9z-a1-m48-cC 7c9z-a1-m48-cC_7c9z-a1-m49-cC 7c9z-a1-m49-cC_7c9z-a1-m50-cC 7c9z-a1-m4-cC_7c9z-a1-m5-cC 7c9z-a1-m51-cC_7c9z-a1-m52-cC 7c9z-a1-m51-cC_7c9z-a1-m55-cC 7c9z-a1-m52-cC_7c9z-a1-m53-cC 7c9z-a1-m53-cC_7c9z-a1-m54-cC 7c9z-a1-m54-cC_7c9z-a1-m55-cC 7c9z-a1-m56-cC_7c9z-a1-m57-cC 7c9z-a1-m56-cC_7c9z-a1-m60-cC 7c9z-a1-m57-cC_7c9z-a1-m58-cC 7c9z-a1-m58-cC_7c9z-a1-m59-cC 7c9z-a1-m59-cC_7c9z-a1-m60-cC 7c9z-a1-m6-cC_7c9z-a1-m7-cC 7c9z-a1-m7-cC_7c9z-a1-m8-cC 7c9z-a1-m8-cC_7c9z-a1-m9-cC 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7x4k-a1-m10-cC_7x4k-a1-m9-cC 7x4k-a1-m11-cC_7x4k-a1-m12-cC 7x4k-a1-m11-cC_7x4k-a1-m15-cC 7x4k-a1-m12-cC_7x4k-a1-m13-cC 7x4k-a1-m13-cC_7x4k-a1-m14-cC 7x4k-a1-m14-cC_7x4k-a1-m15-cC 7x4k-a1-m16-cC_7x4k-a1-m17-cC 7x4k-a1-m16-cC_7x4k-a1-m20-cC 7x4k-a1-m17-cC_7x4k-a1-m18-cC 7x4k-a1-m18-cC_7x4k-a1-m19-cC 7x4k-a1-m19-cC_7x4k-a1-m20-cC 7x4k-a1-m1-cC_7x4k-a1-m2-cC 7x4k-a1-m1-cC_7x4k-a1-m5-cC 7x4k-a1-m21-cC_7x4k-a1-m22-cC 7x4k-a1-m21-cC_7x4k-a1-m25-cC 7x4k-a1-m22-cC_7x4k-a1-m23-cC 7x4k-a1-m23-cC_7x4k-a1-m24-cC 7x4k-a1-m24-cC_7x4k-a1-m25-cC 7x4k-a1-m26-cC_7x4k-a1-m27-cC 7x4k-a1-m26-cC_7x4k-a1-m30-cC 7x4k-a1-m27-cC_7x4k-a1-m28-cC 7x4k-a1-m28-cC_7x4k-a1-m29-cC 7x4k-a1-m29-cC_7x4k-a1-m30-cC 7x4k-a1-m2-cC_7x4k-a1-m3-cC 7x4k-a1-m31-cC_7x4k-a1-m32-cC 7x4k-a1-m31-cC_7x4k-a1-m35-cC 7x4k-a1-m32-cC_7x4k-a1-m33-cC 7x4k-a1-m33-cC_7x4k-a1-m34-cC 7x4k-a1-m34-cC_7x4k-a1-m35-cC 7x4k-a1-m36-cC_7x4k-a1-m37-cC 7x4k-a1-m36-cC_7x4k-a1-m40-cC 7x4k-a1-m37-cC_7x4k-a1-m38-cC 7x4k-a1-m38-cC_7x4k-a1-m39-cC 7x4k-a1-m39-cC_7x4k-a1-m40-cC 7x4k-a1-m3-cC_7x4k-a1-m4-cC 7x4k-a1-m41-cC_7x4k-a1-m42-cC 7x4k-a1-m41-cC_7x4k-a1-m45-cC 7x4k-a1-m42-cC_7x4k-a1-m43-cC 7x4k-a1-m43-cC_7x4k-a1-m44-cC 7x4k-a1-m44-cC_7x4k-a1-m45-cC 7x4k-a1-m46-cC_7x4k-a1-m47-cC 7x4k-a1-m46-cC_7x4k-a1-m50-cC 7x4k-a1-m47-cC_7x4k-a1-m48-cC 7x4k-a1-m48-cC_7x4k-a1-m49-cC 7x4k-a1-m49-cC_7x4k-a1-m50-cC 7x4k-a1-m4-cC_7x4k-a1-m5-cC 7x4k-a1-m51-cC_7x4k-a1-m52-cC 7x4k-a1-m51-cC_7x4k-a1-m55-cC 7x4k-a1-m52-cC_7x4k-a1-m53-cC 7x4k-a1-m53-cC_7x4k-a1-m54-cC 7x4k-a1-m54-cC_7x4k-a1-m55-cC 7x4k-a1-m56-cC_7x4k-a1-m57-cC 7x4k-a1-m56-cC_7x4k-a1-m60-cC 7x4k-a1-m57-cC_7x4k-a1-m58-cC 7x4k-a1-m58-cC_7x4k-a1-m59-cC 7x4k-a1-m59-cC_7x4k-a1-m60-cC 7x4k-a1-m6-cC_7x4k-a1-m7-cC 7x4k-a1-m7-cC_7x4k-a1-m8-cC 7x4k-a1-m8-cC_7x4k-a1-m9-cC 7x4m-a1-m10-cC_7x4m-a1-m6-cC 7x4m-a1-m10-cC_7x4m-a1-m9-cC 7x4m-a1-m11-cC_7x4m-a1-m12-cC 7x4m-a1-m11-cC_7x4m-a1-m15-cC 7x4m-a1-m12-cC_7x4m-a1-m13-cC 7x4m-a1-m13-cC_7x4m-a1-m14-cC 7x4m-a1-m14-cC_7x4m-a1-m15-cC 7x4m-a1-m16-cC_7x4m-a1-m17-cC 7x4m-a1-m16-cC_7x4m-a1-m20-cC 7x4m-a1-m17-cC_7x4m-a1-m18-cC 7x4m-a1-m18-cC_7x4m-a1-m19-cC 7x4m-a1-m19-cC_7x4m-a1-m20-cC 7x4m-a1-m1-cC_7x4m-a1-m2-cC 7x4m-a1-m1-cC_7x4m-a1-m5-cC 7x4m-a1-m21-cC_7x4m-a1-m22-cC 7x4m-a1-m21-cC_7x4m-a1-m25-cC 7x4m-a1-m22-cC_7x4m-a1-m23-cC 7x4m-a1-m23-cC_7x4m-a1-m24-cC 7x4m-a1-m24-cC_7x4m-a1-m25-cC 7x4m-a1-m26-cC_7x4m-a1-m27-cC 7x4m-a1-m26-cC_7x4m-a1-m30-cC 7x4m-a1-m27-cC_7x4m-a1-m28-cC 7x4m-a1-m28-cC_7x4m-a1-m29-cC 7x4m-a1-m29-cC_7x4m-a1-m30-cC 7x4m-a1-m2-cC_7x4m-a1-m3-cC 7x4m-a1-m31-cC_7x4m-a1-m32-cC 7x4m-a1-m31-cC_7x4m-a1-m35-cC 7x4m-a1-m32-cC_7x4m-a1-m33-cC 7x4m-a1-m33-cC_7x4m-a1-m34-cC 7x4m-a1-m34-cC_7x4m-a1-m35-cC 7x4m-a1-m36-cC_7x4m-a1-m37-cC 7x4m-a1-m36-cC_7x4m-a1-m40-cC 7x4m-a1-m37-cC_7x4m-a1-m38-cC 7x4m-a1-m38-cC_7x4m-a1-m39-cC 7x4m-a1-m39-cC_7x4m-a1-m40-cC 7x4m-a1-m3-cC_7x4m-a1-m4-cC 7x4m-a1-m41-cC_7x4m-a1-m42-cC 7x4m-a1-m41-cC_7x4m-a1-m45-cC 7x4m-a1-m42-cC_7x4m-a1-m43-cC 7x4m-a1-m43-cC_7x4m-a1-m44-cC 7x4m-a1-m44-cC_7x4m-a1-m45-cC 7x4m-a1-m46-cC_7x4m-a1-m47-cC 7x4m-a1-m46-cC_7x4m-a1-m50-cC 7x4m-a1-m47-cC_7x4m-a1-m48-cC 7x4m-a1-m48-cC_7x4m-a1-m49-cC 7x4m-a1-m49-cC_7x4m-a1-m50-cC 7x4m-a1-m4-cC_7x4m-a1-m5-cC 7x4m-a1-m51-cC_7x4m-a1-m52-cC 7x4m-a1-m51-cC_7x4m-a1-m55-cC 7x4m-a1-m52-cC_7x4m-a1-m53-cC 7x4m-a1-m53-cC_7x4m-a1-m54-cC 7x4m-a1-m54-cC_7x4m-a1-m55-cC 7x4m-a1-m56-cC_7x4m-a1-m57-cC 7x4m-a1-m56-cC_7x4m-a1-m60-cC 7x4m-a1-m57-cC_7x4m-a1-m58-cC 7x4m-a1-m58-cC_7x4m-a1-m59-cC 7x4m-a1-m59-cC_7x4m-a1-m60-cC 7x4m-a1-m6-cC_7x4m-a1-m7-cC 7x4m-a1-m7-cC_7x4m-a1-m8-cC 7x4m-a1-m8-cC_7x4m-a1-m9-cC GLPVMTTPGSTQFLTSDDFQSPSAMPQFDVTPEMQIPGRVNNLMEIAEVDSVVPVNNTEDNVSSLKAYQIPVQSNSDNGKQVFGFPLQPGANNVLNRTLLGEILNYYTHWSGSIKLTFMFCGSAMATGKFLLAYSPPGAGVPKNRKDAMLGTHVIWDVGLQSSCVLCVPWISQTHYRYVVEDEYTAAGYVTCWYQTNIVVPADVQSSCDILCFVSACNDFSVRMLKDTPFIRQDTFY GLPVMTTPGSTQFLTSDDFQSPSAMPQFDVTPEMQIPGRVNNLMEIAEVDSVVPVNNTEDNVSSLKAYQIPVQSNSDNGKQVFGFPLQPGANNVLNRTLLGEILNYYTHWSGSIKLTFMFCGSAMATGKFLLAYSPPGAGVPKNRKDAMLGTHVIWDVGLQSSCVLCVPWISQTHYRYVVEDEYTAAGYVTCWYQTNIVVPADVQSSCDILCFVSACNDFSVRMLKDTPFIRQDTFY 7dph-a1-m2-cA_7dph-a1-m3-cA H-Ras Q61H in complex with GppNHp (state 1) after structural transition by humidity control P01112 P01112 1.54 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 158 158 3oiv-a2-m1-cA_3oiv-a2-m2-cA 3oiv-a2-m1-cA_3oiv-a2-m3-cA 3oiv-a2-m2-cA_3oiv-a2-m3-cA 7dph-a1-m1-cA_7dph-a1-m2-cA 7dph-a1-m1-cA_7dph-a1-m3-cA MTEYKLVVVGAGGVGKSALTIQLIQNHFVDEYDPTIEDSYRKQVVIDGETCLLDILDTAGHQYMRTGEGFLCVFAINNTKSFEDIHQYREQIKRVKDSDDVPMVLVGNKCDLAARTVESRQAQDLARSYGIPYIETSAKTRQGVEDAFYTLVREIRQH MTEYKLVVVGAGGVGKSALTIQLIQNHFVDEYDPTIEDSYRKQVVIDGETCLLDILDTAGHQYMRTGEGFLCVFAINNTKSFEDIHQYREQIKRVKDSDDVPMVLVGNKCDLAARTVESRQAQDLARSYGIPYIETSAKTRQGVEDAFYTLVREIRQH 7dpn-a1-m1-cC_7dpn-a1-m1-cA Crystal structure of BRD2(BD1)with ligand ZB-BD-224 bound P25440 P25440 1.79999 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 106 114 TNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMP RVTNQLQYLHKVVMKALWKHQFAWPFRQPVDAVKLGLPDYHKIIKQPMDMGTIKRRLENNYYWAASECMQDFNTMFTNCYIYNKPTDDIVLMAQTLEKIFLQKVASMPQEEQEL 7dq5-a1-m1-cB_7dq5-a1-m1-cA Crystal structure of HitB in complex with (S)-beta-phenylalanine sulfamoyladenosine A0A0F7R6G7 A0A0F7R6G7 2.45 X-RAY DIFFRACTION 150 0.986 159449 (Embleya scabrispora) 159449 (Embleya scabrispora) 441 490 RAARARESVDNLYWFMLAAANSAPDTPAFVTRVRTLSYRELRTRVDDFAAALAELGLDVDDRVVLEANVTPDAVAMLLACSLLGLPFIPVSPETPSGRLRSILDTAEPALFAQAEDGGRADVPATVGTARFGAGGLRVERAPRARVRHRREIVGTDTAYIIFTSGTTGRPKGVVMSHRSVVSLYRAILEQGLITPEDRIATTSPLQFDFALFDIGLALGTGAALVPVPREELNWPRRFLAFLGDTGATQVHGVPSIWRPVLRHEPELLAGLDRVRGILFTGEDFPLPELRHLQGLLPHARIVNGYGATESMACSFTEVPRPIPSDLERLSIGFPLPGFDVSLLDEHGRPVEEIGVAGQIHLRAPSMFSGYWDDPEATARVLVSDPLDPRSGRTVLRSGDLAYRGEDGELYFAGRVDAVALLHAFIPLTVNGKVDRADLATR RAARARESVDNLYWFMLAAANSAPDTPAFVTRGVRTLSYRELRTRVDDFAAALAELGLDVDDRVVLEANVTPDAVAMLLACSLLGLPFIPVSPETPSGRLRSILDTAEPALFAQAEDGGRADVPATVGTARFGAGGLRVERAPRARVRHRREIVGTDTAYIIFTPKGVVMSHRSVVSLYRAILEQGLITPEDRIATTSPLQFDFALFDIGLALGTGAALVPVPREELNWPRRFLAFLGDTGATQVHGVPSIWRPVLRHEPELLAGLDRVRGILFTGEDFPLPELRHLQGLLPHARIVNGYGATESMACSFTEVPRPIPSDLERLSIGFPLPGFDVSLLDEHGRPVEEIGVAGQIHLRAPSMFSGYWDDPEATARVLVSDPLDPRSGRTVLRSGDLAYRGEDGELYFAGRVDANRVEPGEVERRLLEFPGISAAVALLPVLHAFVVVDKAKARAFCADTLPGYMIPANIVAVDDIPLTVNGKVDRADLATR 7dqg-a1-m1-cA_7dqg-a1-m2-cA Crystal structure of Salmonella phage acetyltransferase G5DEI1 G5DEI1 2.21 X-RAY DIFFRACTION 126 1.0 1090134 (Salmonella phage SPN3US) 1090134 (Salmonella phage SPN3US) 161 161 LMLVINVVEDKIPANVYPELVEWVRDLNSIREEPIKLTMFVEDDIVRGIMAWEPGHLVYMVVPEESRRGGVGRFMLKYLQQNSDRKHVSCRVHPTNIPALGFFHQQGFQIDRWYIAADGQRYFRMTNYNVISSHTPPEEKLLTHYAESVPIFLSMAEGQFV LMLVINVVEDKIPANVYPELVEWVRDLNSIREEPIKLTMFVEDDIVRGIMAWEPGHLVYMVVPEESRRGGVGRFMLKYLQQNSDRKHVSCRVHPTNIPALGFFHQQGFQIDRWYIAADGQRYFRMTNYNVISSHTPPEEKLLTHYAESVPIFLSMAEGQFV 7dqx-a1-m1-cA_7dqx-a1-m1-cD Crystal structure of xanthine dehydrogenase family protein Q933N0 Q933N0 3.44 X-RAY DIFFRACTION 100 1.0 29320 (Paenarthrobacter nicotinovorans) 29320 (Paenarthrobacter nicotinovorans) 765 770 NRQAWIGQEVLRREDRRLLTGTATFAGDLGVPGQLHMRIVRSTQAHARIVSIDATEAEKTPGVRMVITSEHTRHLGSVLLEELGYHEIYENIEDFSHPVLAVDKVLYVGQPVVAVLAVDPYLAEDAAELVSIEYEPLPVLLDPEEALTGKVELFPGRGNEGARIKKAYGDIDRAFAEAEHVIRHKYVTNRHSGVPMEPRAVVVQPDPARDTLFIWGDNRRIIAKMLNLPEVNVRMKHVEIGGSFGVKGGVFPENVVAAWAARTLGVPIKWTEDRVEHMTSTSHAREMVHKLELALDAEGRILGMKDEIFHNHGAYFRQAEPLVSDITAGIVFGPYRVPAYDATLHAVFTNKTPVGAYRAPGRYESTFARERIFDLACAEIGLSKTEFRRRNLLTAEDLPWTPGLDIVHEPYHFDSGDVVKHFNEALEAANFSEWLEESKRLRADGRKVGVGLGVLMDKAGLGLFETGGVEVSRAGRVTVKTGGSSVGQGIETVLAQIVAEELQIAPENIDIVHSDTELIPDGVGSWSSRSTVLAGGAARKAALAVVEKARRLASEMLEADPDDLELTAGSFKVKGTDQQISLYEIAAARDPFTARADNDEPGLAADAVYMNNAMNYPYGVTLVQIELDPDTGGHRILRFSTSTEAGRVINPLTTRGQIIGAAVQGIGGALYEEFLYEEDGQPITTSFMDYLLPSAQEMPNVDCFVTEDAKSPDNPFGAKGLGEIGIIAAGAAIASAIDDAIADGVHTDRLPVTPEQIFSRCQGLN NRQAWIGQEVLRREDRRLLTGTATFAGDLGVPGQLHMRIVRSTQAHARIVSIDATEAEKTPGVRMVITSEHTRHLGSVLLEELGYHEIYENIEDFSHPVLAVDKVLYVGQPVVAVLAVDPYLAEDAAELVSIEYEPLPVLLDPEEALTGKVELFPGRGNEGARIKKAYGDIDRAFAEAEHVIRHKYVTNRHSGVPMEPRAVVVQPDPARDTLFIWGTVHVHDNRRIIAKMLNLPEVNVRMKHVEIGGSFGVKGGVFPENVVAAWAARTLGVPIKWTEDRVEHMTSTSHAREMVHKLELALDAEGRILGMKDEIFHNHGAYFRQAEPLVSDITAGIVFGPYRVPAYDATLHAVFTNKTPVGAYRAPGRYESTFARERIFDLACAEIGLSKTEFRRRNLLTAEDLPWTPGLDIVHEPYHFDSGDVVKHFNEALEAANFSEWLEESKRLRADGRKVGVGLGVLMDKAGLGLFETGGVEVSRAGRVTVKTGGSSVGQGIETVLAQIVAEELQIAPENIDIVHSDTELIPDGVGSWSSRSTVLAGGAARKAALAVVEKARRLASEMLEADPDDLELTAGSFKVKGTDQQISLYEIAAARDPFTARADNDEPGLAADAVYMNNAMNYPYGVTLVQIELDPDTGGHRILRFSTSTEAGRVINPLTTRGQIIGAAVQGIGGALYEEFLYEEDGQPITTSFMDYLLPSAQEMPNVDCFVTEDAKSPDNPFGAKGLGEIGIIAAGAAIASAIDDAIADGVHTDRLPVTPEQIFSRCQGLN 7dr2-a1-m1-caK_7dr2-a1-m1-ccK Structure of GraFix PSI tetramer from Cyanophora paradoxa 3.8 ELECTRON MICROSCOPY 13 1.0 2762 (Cyanophora paradoxa) 2762 (Cyanophora paradoxa) 69 69 TQSVGEAAEKSFVMLASVLFAGAVGGPGIKMKGQGPAWPFNAQIPFTPSEFLAVTALGHIIGTGVILGI TQSVGEAAEKSFVMLASVLFAGAVGGPGIKMKGQGPAWPFNAQIPFTPSEFLAVTALGHIIGTGVILGI 7drd-a1-m1-cA_7drd-a1-m1-cG Cryo-EM structure of DgpB-C at 2.85 angstrom resolution A0A3Q9WXL1 A0A3Q9WXL1 2.85 ELECTRON MICROSCOPY 31 1.0 498716 (human intestinal bacterium PUE) 498716 (human intestinal bacterium PUE) 261 267 7drd-a1-m1-cC_7drd-a1-m1-cE VKLGVTLYSFSTEYCQGKMTLEDCIRTAKELGAAGFEIVATQMIPSYPYVSDKFLGELKSICQYYDMEPVCYGANCDRGLRGDRNLTGDEMVAMAVRDIKNAHKMGCKVVREQWLMGPENFAKLAPFAEHYGVKVGIEVHNPETPITQSTKDYIAAIDKTGSKYLGLIPDFGCFANKPFKKDVSAELQGLKDMIPYCIHMHGKYHYMYENLQEAAIPYDDIMKIVSESDYDGYIVSEYEEYNSGHSIEMLRRHLKMMHNFV SNVKLGVTLYSFSTEYCQGKMTLEDCIRTAKELGAAGFEIVATQMIPSYPYVSDKFLGELKSICQYYDMEPVCYGANCDRGLRGDRNLTGDEMVAMAVRDIKNAHKMGCKVVREQWLMGPENFAKLAPFAEHYGVKVGIEVHNPETPITQSTKDYIAAIDKTGSKYLGLIPDFGCFANKPNKTFKKDVSAELQGLKDMIPYCIHMHGKYHYMYENLQEAAIPYDDIMKIVSESDYDGYIVSEYEEYNSGHSIEMLRRHLKMMHNFVD 7dre-a1-m1-cA_7dre-a1-m1-cG Cryo-EM structure of DfgA-B at 2.54 angstrom resolution I5AX50 I5AX50 2.54 ELECTRON MICROSCOPY 18 1.0 633697 ([Eubacterium] cellulosolvens 6) 633697 ([Eubacterium] cellulosolvens 6) 276 276 7dre-a1-m1-cC_7dre-a1-m1-cE GPKRGVALYSYSAEFGLTKTLEDCFEDLHDMGAHGIEILANTHIENYPYPTDEWVEKWWRLCDKYEIVPVEYGNWIDSHVLGDRDLTTEESVEMLKRDIRLAHRLGFTVMRTKMPVINDLLEPVENWKEIIKGALPLAEELGIKMCPEIHTPSNLKGKLVNDFVEFIKETGTKNFGLNIDFSVFRTSFDPNYTPNKPEDIIPLLPYVYCCHAKFIHMSDDFKETTIPYEEVVKTMEDNGYEGYLLSEYEGADKYDEGYEVGQTLRKHHILLKNLLG GPKRGVALYSYSAEFGLTKTLEDCFEDLHDMGAHGIEILANTHIENYPYPTDEWVEKWWRLCDKYEIVPVEYGNWIDSHVLGDRDLTTEESVEMLKRDIRLAHRLGFTVMRTKMPVINDLLEPVENWKEIIKGALPLAEELGIKMCPEIHTPSNLKGKLVNDFVEFIKETGTKNFGLNIDFSVFRTSFDPNYTPNKPEDIIPLLPYVYCCHAKFIHMSDDFKETTIPYEEVVKTMEDNGYEGYLLSEYEGADKYDEGYEVGQTLRKHHILLKNLLG 7drg-a1-m1-cA_7drg-a1-m1-cB Pseudomonas aeruginosa T6SS protein PA0821 Q9I5B8 Q9I5B8 1.6 X-RAY DIFFRACTION 96 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 339 354 PFDLAAELAKQPHLLEIAGEDYIGAVLCLRGTLYFKKAHTPLVRESLCQCFDEFERLAEPHLTWLWREEPAQGKPLTAYRDTQPLREGADEDDHLSFCYTSGKKSRDAGAWLFDIYGKRSWQAKGHDLSVLEFSVPLLYQERQPLDFLQLFIDFARRLEPEQGYAGHAYNLSPTSWDNDEPSEAFAARPGLDVGTACLLANTPEFKPTRIKTVSWLTLLNNERLALAGGLDALRAQLPSSHFAFYRYGDGVVIQAGAYPYIAGDAEDSRPAPYVLLNHALKGIRYETIGSLHELRLVGWAADQWLKRLDVEDSEIPRWCDKLLSAEPYLDATNTLPERL EQPFDLAAELAKQPHLLEIAGNLLKSGPEDYIGAVLCLRGTLYFKKAHTPLVRESLCQCFDEFERLAEPHLTWLWREEPAQGKPLTAYRDTQPLREGADEDDHLSFCYTSGKKSRDAGAWLFDIYGKRSWQAKGHDLSVLEFSVPLLYQERQPLDFLQLFIDFARRLEPEQGYAGHAYNLSPTSWDNDEPSEAFAARPGLDVGTACLLANTPEFKPTRIKTVSWLTLLNNERLALAGGLDALRAQLPSSHFAFYRYGDGVVIQAGAYPYIAGDAEDSRPAPYVLLNHALKGIRYETIGSLHGGSHDGELRLVGWAADQWLKRLDVEDSEIPRWCDKLLSAEPYLDATNTLPERL 7dri-a1-m1-cB_7dri-a1-m1-cD Structure of SspE_CTD_41658 A0A100JVX1 A0A100JVX1 2.72 X-RAY DIFFRACTION 110 0.996 1930 (Streptomyces scabiei) 1930 (Streptomyces scabiei) 466 467 7dri-a1-m1-cC_7dri-a1-m1-cA EPLTAFETFLPRVVMAEKIQDYQDSDAHEYMKAVQGYLDRFAVGDRLQNATRDLLVTFALAETGEKLSKRLPDQRVYMRDTFERHKDSADDRSAYLRHLRDTAAFIGNAWEPANNSPRALPGLEASAMTDTVKLCLAFLNSLKHTIAIAPLVRFYSEAVHADEGEAREKRVAEFEKAIKAITAFTVFWRATRRGTGNIDSQYRAVMAGADSLTGIGPLARQWAEPDATKPDPDVDAEALKKELAARLSDPKGKGGVPNLASFLADASALPLYKISPPLARFLLLAAYHDTIEDPDNPGLIVQGKAGVASCFTADGWEDDTHLTIEHIAPQSATSGWDAEFYSDKETVHKLGNLVLAPGAANASLSSRPWTEKKVLYAALGASTADDAKSILNSSGFTFAQTTEDLAAMSRYLPHLRALGQREDELDPAFMDQRADVLLRLAYTRLKGWLGLELSDSSSDPVVKVDD GEPLTAFETFLPRVVMAEKIQQDSDAHEYMKAVQGYLDRFAVGDRLQNATRDLLVTFALAETGEKLSKRLPDQRVYMRDTFERHKDSADDRSAYLRHLRDTAAFIGNAWEPANNSPRALPGLEASAMTDTVKLCLAFLNSLKHTIAIAPLVRFYSEAVHADEGEAREKRVAEFEKAIKAITAFTVFWRATRRGTGNIDSQYRAVMAGADSLTGIGPLARQWAEPDATKPDPDVDAEALKKELAARLSDPKGKGGVPNLASFLADASALPLYKISPPLARFLLLAAYHDTIEDPDNPGLIVQGKAGVASCFTADGWEDDTHLTIEHIAPQSATSGWDAEFYSDKETVHKLGNLVLAPGAANASLSSRPWTEKKVLYAALGASTADDAKSILNSSGFTFAQTTEDLAAMSRYLPHLRALGQREDELDPAFMDQRADVLLRLAYTRLKGWLGLELSDSSSDPVVKVDDVE 7dri-a1-m1-cD_7dri-a1-m1-cA Structure of SspE_CTD_41658 A0A100JVX1 A0A100JVX1 2.72 X-RAY DIFFRACTION 21 1.0 1930 (Streptomyces scabiei) 1930 (Streptomyces scabiei) 467 471 GEPLTAFETFLPRVVMAEKIQQDSDAHEYMKAVQGYLDRFAVGDRLQNATRDLLVTFALAETGEKLSKRLPDQRVYMRDTFERHKDSADDRSAYLRHLRDTAAFIGNAWEPANNSPRALPGLEASAMTDTVKLCLAFLNSLKHTIAIAPLVRFYSEAVHADEGEAREKRVAEFEKAIKAITAFTVFWRATRRGTGNIDSQYRAVMAGADSLTGIGPLARQWAEPDATKPDPDVDAEALKKELAARLSDPKGKGGVPNLASFLADASALPLYKISPPLARFLLLAAYHDTIEDPDNPGLIVQGKAGVASCFTADGWEDDTHLTIEHIAPQSATSGWDAEFYSDKETVHKLGNLVLAPGAANASLSSRPWTEKKVLYAALGASTADDAKSILNSSGFTFAQTTEDLAAMSRYLPHLRALGQREDELDPAFMDQRADVLLRLAYTRLKGWLGLELSDSSSDPVVKVDDVE TTGEPLTAFETFLPRVVMAEKIQDYQDSDAHEYMKAVQGYLDRFAVGDRLQNATRDLLVTFALAETGEKLSKRLPDQRVYMRDTFERHKDSADDRSAYLRHLRDTAAFIGNAWEPANNSPRALPGLEASAMTDTVKLCLAFLNSLKHTIAIAPLVRFYSEAVHADEGEAREKRVAEFEKAIKAITAFTVFWRATRRGTGNIDSQYRAVMAGADSLTGIGPLARQWAEPDATKPDPDVDAEALKKELAARLSDPKGKGGVPNLASFLADASALPLYKISPPLARFLLLAAYHDTIEDPDNPGLIVQGKAGVASCFTADGWEDDTHLTIEHIAPQSATSGWDAEFYSDKETVHKLGNLVLAPGAANASLSSRPWTEKKVLYAALGASTADDAKSILNSSGFTFAQTTEDLAAMSRYLPHLRALGQREDELDPAFMDQRADVLLRLAYTRLKGWLGLELSDSSSDPVVKVDDVE 7drj-a1-m1-cB_7drj-a1-m1-cA Crystal structure of phosphatidylglycerol phosphate synthase in complex with phosphatidylglycerol phosphate P63756 P63756 2.5 X-RAY DIFFRACTION 95 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 186 190 7drk-a1-m1-cA_7drk-a1-m1-cB MNIPNQITVFRVVLIPVFILFALVDFGFGNVSFLGGYEIRIELLISGFIFILASLSDFVDGYLARKWNLVTNMGKFLDPLADKLLVASALIVLVQLGLTNSVVAIIIIAREFAVTGLRLLQIEQGFVSAAGQLGKIKTAVTMVAITWLLLGDPLATLIGLSLGQILLYIGVIFTILSGIEYFYKGR MNIPNQITVFRVVLIPVFILFALVDFGFGNVSFLGGYEIRIELLISGFIFILASLSDFVDGYLARKWNLVTNMGKFLDPLADKLLVASALIVLVQLGLTNSVVAIIIIAREFAVTGLRLLQIEQGFVSAAGQLGKIKTAVTMVAITWLLLGDPLATLIGLSLGQILLYIGVIFTILSGIEYFYKGRDVFK 7drm-a2-m1-cD_7drm-a2-m1-cC Structure of ATP-grasp ligase PsnB complexed with minimal precursor, Mg, and ADP A6G4D7 A6G4D7 3.28 X-RAY DIFFRACTION 195 0.984 391625 (Plesiocystis pacifica SIR-1) 391625 (Plesiocystis pacifica SIR-1) 309 311 7drm-a1-m1-cB_7drm-a1-m1-cA 7drn-a1-m1-cB_7drn-a1-m1-cA 7drn-a2-m1-cD_7drn-a2-m1-cC 7dro-a1-m1-cA_7dro-a1-m1-cB 7dro-a2-m1-cD_7dro-a2-m1-cC 7dro-a3-m1-cF_7dro-a3-m1-cE 7drp-a1-m1-cB_7drp-a1-m1-cA 7drp-a2-m1-cD_7drp-a2-m1-cC SHMTNLDTSIVVVGSPDDLHVQSVTEGLRARGHEPYVFDTQRFPEEMTVSLGEQGASIFVDGQQIARPAAVYLRSLYQSPDADKAMQDNWRRTLLAFRERSTLMSAVLLRWEEAGTAVYNSPRASANITKPFQLALLRDAGLPVPRSLWTNDPEAVRRFHAEVGDCIYKPVAGGARTRKLEAKDLEADRIERLSAAPVCFQELLTGDDVRVYVIDDQVICALRIVDEIDFRQAEERIEAIEISDEVKDQCVRAAKLVGLRYTGMDIKAGADGNYRVLELNASAMFRGFEGRANVDICGPLCDALIAQTK LDTSIVVVGSPDDLHVQSVTEGLRARGHEPYVFDTQRFPEEMTVSLGEQGASIFVDGQQIARPAAVYLRSLYQSPGAYGVDADKAMQDNWRRTLLAFRERSTLMSAVLLRWEEAGTAVYNSPRASANITKPFQLALLRDAGLPVPRSLWTNDPEAVRRFHAEVGDCIYKPVAGGARTRKLEAKDLEADRIERLSAAPVCFQELLTGDDVRVYVIDDQVICALRIVTDEIDFRQAEERIEAIEISDEVKDQCVRAAKLVGLRYTGMDIKAGADGNYRVLELNASAMFRGFEGRANVDICGPLCDALIAQTKR 7drs-a1-m1-cA_7drs-a1-m1-cD Structure of SspE_40224 A0A6I8WFL9 A0A6I8WFL9 3.42 X-RAY DIFFRACTION 158 1.0 67386 (Streptomyces yokosukanensis) 67386 (Streptomyces yokosukanensis) 771 771 6jiv-a1-m1-cB_6jiv-a1-m1-cD 6jiv-a1-m1-cC_6jiv-a1-m1-cA 7drr-a1-m1-cA_7drr-a1-m1-cD 7drr-a1-m1-cB_7drr-a1-m1-cC 7drs-a1-m1-cB_7drs-a1-m1-cC METKEIFDAAPLSVSQFLSETGQGLYIPPYQRAYSWELPKIRRLLSDVAHGLDQLAEFEDSICFLGTVIALRDINYTTVEPKYRSQVPSKVMTIIDGQQRMTTLLLLTTVLHEEIRVRAEKLTRDDEPSVWCYNQALDVTGRLSNCFEEDMRYGEHRYYPRLIRSYYDVWSRNKGEARYRSPIGYYLESYGAYARDPDAVKPYRHVPIDPDKTDGVDLEAYRHLDRMRDQMRSMLRKAVGAGVKREDDIQLPTGTDIGQSQNLQFALFNSEFPPSVVEQLEDDAKMTPLTRLIVFANYLLHRVTVAVVTAKREDYGFDMFEALNTTGQPLTAIETFKPRAIKEEGLDEWQESESKLHFDVVEAYLDREGSSSADKRQTVTSSVLLPFAMFQDGTKLTKRLNDQRRYLRTVFDKDPDIVARRKVLAGLAQVARFYEGPWGSPTKVPSCDDATLRTQAGIALAALREGGHDIVVGLLTRYFAAHRLSSPETVESSARQFLLAARSCAAFYALWRGSFGSTAGIDGVYRSLMTHVVEEGMPRFARFERDLTEVPPVEALQSYLKEQLRSEGIYDKQQWVARAAMTPVYQHSKPLTRLLLLAASQNSTPDSATPGLVVRGKSGLLETLELERWNDEAFATIEHVAPQAPSSNGSWNADLYEDPELINRIGNLTLLPAVENASASNRAWHLKRLMFRALSAATVEEAEKTLADAEAQGLRLGSGAGEIVRQARYLPLVAALAQREEEWTAEFVEARSQRLCSLAWDALTPWLGFEP METKEIFDAAPLSVSQFLSETGQGLYIPPYQRAYSWELPKIRRLLSDVAHGLDQLAEFEDSICFLGTVIALRDINYTTVEPKYRSQVPSKVMTIIDGQQRMTTLLLLTTVLHEEIRVRAEKLTRDDEPSVWCYNQALDVTGRLSNCFEEDMRYGEHRYYPRLIRSYYDVWSRNKGEARYRSPIGYYLESYGAYARDPDAVKPYRHVPIDPDKTDGVDLEAYRHLDRMRDQMRSMLRKAVGAGVKREDDIQLPTGTDIGQSQNLQFALFNSEFPPSVVEQLEDDAKMTPLTRLIVFANYLLHRVTVAVVTAKREDYGFDMFEALNTTGQPLTAIETFKPRAIKEEGLDEWQESESKLHFDVVEAYLDREGSSSADKRQTVTSSVLLPFAMFQDGTKLTKRLNDQRRYLRTVFDKDPDIVARRKVLAGLAQVARFYEGPWGSPTKVPSCDDATLRTQAGIALAALREGGHDIVVGLLTRYFAAHRLSSPETVESSARQFLLAARSCAAFYALWRGSFGSTAGIDGVYRSLMTHVVEEGMPRFARFERDLTEVPPVEALQSYLKEQLRSEGIYDKQQWVARAAMTPVYQHSKPLTRLLLLAASQNSTPDSATPGLVVRGKSGLLETLELERWNDEAFATIEHVAPQAPSSNGSWNADLYEDPELINRIGNLTLLPAVENASASNRAWHLKRLMFRALSAATVEEAEKTLADAEAQGLRLGSGAGEIVRQARYLPLVAALAQREEEWTAEFVEARSQRLCSLAWDALTPWLGFEP 7drs-a1-m1-cC_7drs-a1-m1-cD Structure of SspE_40224 A0A6I8WFL9 A0A6I8WFL9 3.42 X-RAY DIFFRACTION 39 1.0 67386 (Streptomyces yokosukanensis) 67386 (Streptomyces yokosukanensis) 771 771 6jiv-a1-m1-cA_6jiv-a1-m1-cD 6jiv-a1-m1-cC_6jiv-a1-m1-cB 7drr-a1-m1-cA_7drr-a1-m1-cB 7drr-a1-m1-cC_7drr-a1-m1-cD 7drs-a1-m1-cA_7drs-a1-m1-cB METKEIFDAAPLSVSQFLSETGQGLYIPPYQRAYSWELPKIRRLLSDVAHGLDQLAEFEDSICFLGTVIALRDINYTTVEPKYRSQVPSKVMTIIDGQQRMTTLLLLTTVLHEEIRVRAEKLTRDDEPSVWCYNQALDVTGRLSNCFEEDMRYGEHRYYPRLIRSYYDVWSRNKGEARYRSPIGYYLESYGAYARDPDAVKPYRHVPIDPDKTDGVDLEAYRHLDRMRDQMRSMLRKAVGAGVKREDDIQLPTGTDIGQSQNLQFALFNSEFPPSVVEQLEDDAKMTPLTRLIVFANYLLHRVTVAVVTAKREDYGFDMFEALNTTGQPLTAIETFKPRAIKEEGLDEWQESESKLHFDVVEAYLDREGSSSADKRQTVTSSVLLPFAMFQDGTKLTKRLNDQRRYLRTVFDKDPDIVARRKVLAGLAQVARFYEGPWGSPTKVPSCDDATLRTQAGIALAALREGGHDIVVGLLTRYFAAHRLSSPETVESSARQFLLAARSCAAFYALWRGSFGSTAGIDGVYRSLMTHVVEEGMPRFARFERDLTEVPPVEALQSYLKEQLRSEGIYDKQQWVARAAMTPVYQHSKPLTRLLLLAASQNSTPDSATPGLVVRGKSGLLETLELERWNDEAFATIEHVAPQAPSSNGSWNADLYEDPELINRIGNLTLLPAVENASASNRAWHLKRLMFRALSAATVEEAEKTLADAEAQGLRLGSGAGEIVRQARYLPLVAALAQREEEWTAEFVEARSQRLCSLAWDALTPWLGFEP METKEIFDAAPLSVSQFLSETGQGLYIPPYQRAYSWELPKIRRLLSDVAHGLDQLAEFEDSICFLGTVIALRDINYTTVEPKYRSQVPSKVMTIIDGQQRMTTLLLLTTVLHEEIRVRAEKLTRDDEPSVWCYNQALDVTGRLSNCFEEDMRYGEHRYYPRLIRSYYDVWSRNKGEARYRSPIGYYLESYGAYARDPDAVKPYRHVPIDPDKTDGVDLEAYRHLDRMRDQMRSMLRKAVGAGVKREDDIQLPTGTDIGQSQNLQFALFNSEFPPSVVEQLEDDAKMTPLTRLIVFANYLLHRVTVAVVTAKREDYGFDMFEALNTTGQPLTAIETFKPRAIKEEGLDEWQESESKLHFDVVEAYLDREGSSSADKRQTVTSSVLLPFAMFQDGTKLTKRLNDQRRYLRTVFDKDPDIVARRKVLAGLAQVARFYEGPWGSPTKVPSCDDATLRTQAGIALAALREGGHDIVVGLLTRYFAAHRLSSPETVESSARQFLLAARSCAAFYALWRGSFGSTAGIDGVYRSLMTHVVEEGMPRFARFERDLTEVPPVEALQSYLKEQLRSEGIYDKQQWVARAAMTPVYQHSKPLTRLLLLAASQNSTPDSATPGLVVRGKSGLLETLELERWNDEAFATIEHVAPQAPSSNGSWNADLYEDPELINRIGNLTLLPAVENASASNRAWHLKRLMFRALSAATVEEAEKTLADAEAQGLRLGSGAGEIVRQARYLPLVAALAQREEEWTAEFVEARSQRLCSLAWDALTPWLGFEP 7dsg-a1-m2-cA_7dsg-a1-m4-cA Crystal structure of Brucella abortus PhiA Q57FR6 Q57FR6 1.9 X-RAY DIFFRACTION 48 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 88 88 7dpy-a1-m1-cA_7dpy-a1-m2-cA 7dpy-a1-m1-cB_7dpy-a1-m2-cB 7dsg-a1-m1-cA_7dsg-a1-m3-cA PIERVDYICERSVVVPVTYIRSNGAPAAAVLEVEGKMVALQWHGDLKKYVAIDEQDSYRWADRGGQATLSHLEADHTAKEVTLLSACR PIERVDYICERSVVVPVTYIRSNGAPAAAVLEVEGKMVALQWHGDLKKYVAIDEQDSYRWADRGGQATLSHLEADHTAKEVTLLSACR 7dsg-a1-m3-cA_7dsg-a1-m4-cA Crystal structure of Brucella abortus PhiA Q57FR6 Q57FR6 1.9 X-RAY DIFFRACTION 22 1.0 262698 (Brucella abortus bv. 1 str. 9-941) 262698 (Brucella abortus bv. 1 str. 9-941) 88 88 7dsg-a1-m1-cA_7dsg-a1-m2-cA PIERVDYICERSVVVPVTYIRSNGAPAAAVLEVEGKMVALQWHGDLKKYVAIDEQDSYRWADRGGQATLSHLEADHTAKEVTLLSACR PIERVDYICERSVVVPVTYIRSNGAPAAAVLEVEGKMVALQWHGDLKKYVAIDEQDSYRWADRGGQATLSHLEADHTAKEVTLLSACR 7dsm-a1-m1-cA_7dsm-a1-m1-cB Anthranilate phosphoribosyltransferase from Saccharomyces cerevisiae P07285 P07285 2.39 X-RAY DIFFRACTION 90 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 353 355 7dsj-a1-m1-cB_7dsj-a1-m1-cA 7dso-a1-m1-cA_7dso-a1-m1-cB 7dsp-a1-m1-cA_7dsp-a1-m1-cB 7dsr-a1-m1-cA_7dsr-a1-m1-cB HHMSEATLLSYTKKLLASPPQLSSTDLHDALLVILSLLQKCDTNSDESLSIYTKVSSFLTALRVTKLDHKAEYIAEAAKAVLRHSDLVDLPLVILDIVGTGGDGQNTFNVSTSAAIVASGIQGLKICKHGGDLIGTLGCDMFKVNSSTVPKLWPDNTFMFLLAPFFHHGMGHVSKIRKFLGIPTVFNVLGPLLHPVSHVNKRILGVYSKELAPEYAKAAALVYPGSETFIVWGHVGLDEVSPIGKTTVWHIDLKTFQLEPSMFGLEEHELSKCASYGPKENARILKEEVLSGKYHLGDNNPIYDYILMNTAVLYCLSQGHQNWKEGIIKAEESIHSGNALRSLEHFIDSVSSL HHHMSEATLLSYTKKLLASPPQLSSTDLHDALLVILSLLQKCDTNSDESLSIYTKVSSFLTALRVTKLDHKAEYIAEAAKAVLRHSDLVDLPLVILDIVGTGGDGQNTFNVSTSAAIVASGIQGLKICKHGGDLIGTLGCDMFKVNSSTVPKLWPDNTFMFLLAPFFHHGMGHVSKIRKFLGIPTVFNVLGPLLHPVSHVNKRILGVYSKELAPEYAKAAALVYPGSETFIVWGHVGLDEVSPIGKTTVWHIDPLKTFQLEPSMFGLEEHELSKCASYGPKENARILKEEVLSGKYHLGDNNPIYDYILMNTAVLYCLSQGHQNWKEGIIKAEESIHSGNALRSLEHFIDSVSSL 7dsw-a1-m1-cA_7dsw-a1-m1-cB Structure of a human NHE1-CHP1 complex under pH 7.5 P19634 P19634 3.3 ELECTRON MICROSCOPY 191 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 420 420 7dsv-a1-m1-cA_7dsv-a1-m1-cB 7dsx-a1-m1-cA_7dsx-a1-m1-cB KAFPVLGIDYTHVRTPFEISLWILLACLMKIGFHVIPTISSIVPESCLLIVVGLLVGGLIKGVGETPPFLQSDVFFLFLLPPIILDAGYFLPLRQFTENLGTILIFAVVGTLWNAFFLGGLMYAVCLVGGEQINNIGLLDNLLFGSIISAVDPVAVLAVFEEIHINELLHILVFGESLLNDAVTVVLYHLFEEFANYEHVGIVDIFLGFLSFFVVALGGVLVGVVYGVIAAFTSRFTSHIRVIEPLFVFLYSYMAYLSAELFHLSGIMALIASGVVMRPYVEANISHKSHTTIKYFLKMWSSVSETLIFIFLGVSTVAGSHHWNWTFVISTLLFCLIARVLGVLGLTWFINKFRIVKLTPKDQFIIAYGGLRGAIAFSLGYLLDKKHFPMCDLFLTAIITVIFFTVFVQGMTIRPLVDLL KAFPVLGIDYTHVRTPFEISLWILLACLMKIGFHVIPTISSIVPESCLLIVVGLLVGGLIKGVGETPPFLQSDVFFLFLLPPIILDAGYFLPLRQFTENLGTILIFAVVGTLWNAFFLGGLMYAVCLVGGEQINNIGLLDNLLFGSIISAVDPVAVLAVFEEIHINELLHILVFGESLLNDAVTVVLYHLFEEFANYEHVGIVDIFLGFLSFFVVALGGVLVGVVYGVIAAFTSRFTSHIRVIEPLFVFLYSYMAYLSAELFHLSGIMALIASGVVMRPYVEANISHKSHTTIKYFLKMWSSVSETLIFIFLGVSTVAGSHHWNWTFVISTLLFCLIARVLGVLGLTWFINKFRIVKLTPKDQFIIAYGGLRGAIAFSLGYLLDKKHFPMCDLFLTAIITVIFFTVFVQGMTIRPLVDLL 7dsy-a1-m1-ca_7dsy-a1-m1-cb Crystal Structure of RNase L in complex with KM05073 A5H025 A5H025 2.651 X-RAY DIFFRACTION 138 0.996 9823 (Sus scrofa) 9823 (Sus scrofa) 672 676 4o1o-a1-m1-cA_4o1o-a1-m1-cB 4o1o-a2-m1-cC_4o1o-a2-m1-cD 4o1p-a1-m1-cB_4o1p-a1-m1-cA 4o1p-a2-m1-cD_4o1p-a2-m1-cC 6m11-a1-m1-ca_6m11-a1-m1-cb 6m12-a1-m1-ca_6m12-a1-m1-cb 6m13-a1-m1-ca_6m13-a1-m1-cb 7dts-a1-m1-ca_7dts-a1-m1-cb 7elw-a1-m1-ca_7elw-a1-m1-cb SLEEMLTQAVQEADIEQVRQLLERGADANFQEEEWGWSPLHSAVQMDSEDLVALLLKHGADPCLRKRNGATPFIIAGITGNVRLLQLLLPNVEDVNECDVNGFTAFMEAAVYGRVEALRFLYENGADVNMHRKTKQDQERIRKGGATALMDAAEKGHVGVVTILLHAMKAEVDARDNMGRNALVYALLNPDDGKAKAITRLLLDHGADVNVRGEGSKTPLILAVERKNLDLVQMLLEQEQIEVNDTDREGKTALLLAVELRLEEIAKLLCHRGASTNCGDLVAIARRNYDSDLVKFLRLHNWKPQSSRWGEALKHLHRIWRPMIGKLKIFIDEEYKIADTAEGGIYLGLYEDQEVAVKRFSEGSTRGQQEVSCLQSSRANDNVVTFYGSESDGSCLHVCLALCEYTLQEHLANHRGDAVPNEEDESARNILSSLFKAIGELHRSGYSHQDLQPQNILIDSKNGTFLADFDKSIKWAEDPQKIKRDLEALGLLVLYVVKKGDISFETLKNQSFEEVIQGSPDEETRDLIHHLFHPGEDRLSSLLAHPFFWSWESRYRTLRDVGNESDIKTRNQNSRILQLLQPSELSTSFAQWTTKIDSFVMEEMNALYQDTLGDLLKFIRNLGEHINEQKNKKMKSIIGEPSQYFQEKFPDLVMYVYTKLQNTEYMKHFPKT LEEMLTQAVQEADIEQVRQLLERGADANFQEEEWGWSPLHSAVQMDSEDLVALLLKHGADPCLRKRNGATPFIIAGITGNVRLLQLLLPNVEDVNECDVNGFTAFMEAAVYGRVEALRFLYENGADVNMHRKTKQDQERIRKGGATALMDAAEKGHVGVVTILLHAMKAEVDARDNMGRNALVYALLNPDDGKAKAITRLLLDHGADVNVRGEGSKTPLILAVERKNLDLVQMLLEQEQIEVNDTDREGKTALLLAVELRLEEIAKLLCHRGASTNCGDLVAIARRNYDSDLVKFLRLHNWKPQSSRWGEALKHLHRIWRPMIGKLKIFIDEEYKIADTAEGGIYLGLYEDQEVAVKRFSEGSTRGQQEVSCLQSSRANDNVVTFYGSESDGSCLHVCLALCEYTLQEHLANHRGDAVPNEEDESARNILSSLFKAIGELHRSGYSHQDLQPQNILIDSKNGTFLADFDKSIKWAEDPQKIKRDLEALGLLVLYVVKKGDISFETLKNQSFEEVIQGSPDEETRDLIHHLFHPGDNVEDRLSSLLAHPFFWSWESRYRTLRDVGNESDIKTRNQNSRILQLLQPGTLSTSFAQWTTKIDSFVMEEMNAYNLYQDTLGDLLKFIRNLGEHINEQKNKKMKSIIGEPSQYFQEKFPDLVMYVYTKLQNTEYMKHFPKT 7dsz-a1-m1-cB_7dsz-a1-m1-cC Crystal structure of Amuc_1102 from Akkermansia muciniphila B2UR43 B2UR43 1.75 X-RAY DIFFRACTION 90 0.995 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 190 192 7dsz-a1-m1-cA_7dsz-a1-m1-cB 7dsz-a1-m1-cA_7dsz-a1-m1-cC HMQTTSNPRMQVRVSLEKLSLYMRQSPNVLTQDDLPKPKKWADFEIPFKVEAAPTPKSGYIDALTFKFYIAVVNPDRSRQYLKLYKEVKYVNVPVGENTYASVYLSPSSVKRITGVEGGRGKWVKYQGVVVEYNGKIVATYSSERGKMEKWWTIQSPSIVETSYYPLLNKDETPFSVFWYDRYPEIMRPN MQTTSNPRMQVRVSLEKLSLYMRQSPNVLTQDDPRPLPKPKKWADFEIPFKVEAAPTPKSGYIDALTFKFYIAVVNPDRSRQYLKLYKEVKYVNVPVGENTYASVYLSPSSVKRITGVEGGRGKWVKYQGVVVEYNGKIVATYSSERGKMEKWWTIQSPSIVETSYYPLLNKDETPFSVFWYDRYPEIMRPN 7dt1-a1-m1-cB_7dt1-a1-m1-cA The structure of Lactobacillus fermentum 4,6-alpha-Glucanotransferase A0A1Z2RUD1 A0A1Z2RUD1 2.43002 X-RAY DIFFRACTION 30 1.0 1613 (Limosilactobacillus fermentum) 1613 (Limosilactobacillus fermentum) 845 846 AGPWENMAYSMDSNSINNIDGYISYTGWYRPYGTSQDGKTWYPTTVADWRPILMYVWPSKDVQVKFIQYFVNHGYENSNYGLTAGSVKDLSENTASIKLNEVAQNLRYVIEQHVVAAKSTSQLANDINNFITTIPELSKASELSVVNSYGYKPDNSGSVDDDQVIFVNNDSKNQKIGNTSYADSNYRLMNRTINNQNGDNNSDDSPELLVGNDIDNSNPVVQAENLNWEYFLLNYGKFMNYNPNGNFDGFRIDAADNIDADVLDQAAQLINSIYNTKGNQANANDHLIYNEGYHLGAANMLDRKSNPELYMDSGYFYTLENVLGRASDRDDINNLITNSIVNRQNDVSENVATPNWSFVTNHDQRKNLINQIVIDDHPGVADIMSDGYKAEYVNQAWKEFYADQARTDKKYTQYNLPAQYALLLTNKDTVPQVYYGDLYDETDQYMQNKSVYYDAITTLMKARKSYVSGGQSMIKINDHLLTSVRYGKGIIDGNVSMTDILGRNSGIAVVVGNDAQMANQTISINMGKAHANQAYKQLLGTIDSGLTSSDTTIYHTDSNGVLNVTVKGYSNPYVSGYLGVWVPLNGGANITTKASEVTNQSDKTYSSNAALDSHVIYEDFSLFQPEPTSKAEHAYNIIADNASLFNELGITDFWMAPAYTPFNTSRYNEGYSMTDRYNLGTEANLTKYGSGEELSNAIAALHDAGLKVQEDLVMNQMIGFSGQEAVTVTRTDGHAKQLTVDGKTFANQIYFAYTRGGGEGQKNYGGKYLDELQKKYPELFTTKAVSTGVAPDPSVHITEWSAKYQNGTSLQNIGIGLAVKLANGDYAYLNDSNNKAFNTTLPETM AGPWENMAYSMDSNSINNIDGYISYTGWYRPYGTSQDGKTWYPTTVADWRPILMYVWPSKDVQVKFIQYFVNHGYENSNYGLTAGSVKDLSENTASIKLNEVAQNLRYVIEQHVVAAKSTSQLANDINNFITTIPELSKASELSVVNSYGYKPDNSGSVDDDQVIFVNNDSKNQKIGNTSYADSNYRLMNRTINNQNGDNNSDDSPELLVGNDIDNSNPVVQAENLNWEYFLLNYGKFMNYNPNGNFDGFRIDAADNIDADVLDQAAQLINSIYNTKGNQANANDHLIYNEGYHLGAANMLDRKSNPELYMDSGYFYTLENVLGRASDRDDINNLITNSIVNRQNDVSENVATPNWSFVTNHDQRKNLINQIVIDDHPGVADIMSDGYKAEYVNQAWKEFYADQARTDKKYTQYNLPAQYALLLTNKDTVPQVYYGDLYDETDQYMQNKSVYYDAITTLMKARKSYVSGGQSMIKINDHLLTSVRYGKGIIDGNVSMTDILGRNSGIAVVVGNDAQMANQTISINMGKAHANQAYKQLLGTIDSGLTSSDTTIYHTDSNGVLNVTVKGYSNPYVSGYLGVWVPLNGGANITTKASEVTNQSDKTYSSNAALDSHVIYEDFSLFQPEPTSKAEHAYNIIADNASLFNELGITDFWMAPAYTPFNTSRYNEGYSMTDRYNLGTEANLTKYGSGEELSNAIAALHDAGLKVQEDLVMNQMIGFSGQEAVTVTRTDGHAKQLTVDGKTFANQIYFAYTRGGGEGQKNYGGKYLDELQKKYPELFTTKAVSTGVAPDPSVHITEWSAKYQNGTSLQNIGIGLAVKLANGDYAYLNDSNNKAFNTTLPETMS 7dtg-a1-m1-cA_7dtg-a1-m1-cE Crystal structure of lamin B1 Ig-like domain from human P20700 P20700 3.6 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 118 7dtg-a2-m1-cB_7dtg-a2-m1-cF 7dtg-a3-m1-cC_7dtg-a3-m1-cD SISHSASATGNVCIEEIDVDGKFIRLKNTSEQDQPMGGWEMIRKIGDTSVSYKYTSRYVLKAGQTVTIWAANAGVTASPPTDLIWKNQNSWGTGEDVKVILKNSQGEEVAQRSTVFKT SISHSASATGNVCIEEIDVDGKFIRLKNTSEQDQPMGGWEMIRKIGDTSVSYKYTSRYVLKAGQTVTIWAANAGVTASPPTDLIWKNQNSWGTGEDVKVILKNSQGEEVAQRSTVFKT 7dtk-a1-m1-cA_7dtk-a1-m1-cB Crystal structure of the RecA1 domain of RNA helicase CGH-1 in C. elegans Q95YF3 Q95YF3 1.849 X-RAY DIFFRACTION 13 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 203 204 VEFEDFCLGRDLLMGIFEKGWEKPSPIQEASIGVALTGQDILARAKNGTGKTGAYCIPVIEKIQPALKAIQAMVIVPTRELALQTSQICVELSKHIQLKVMVTTGGTDLRDDIMRLNGTVHLVIATPGRILDLMEKGVAKMEHCKTLVLDEADKLLSQDFQGILDRLINFLPKERQVMLYSATFPNTVTSFMQKHMHKPYEIN GVEFEDFCLGRDLLMGIFEKGWEKPSPIQEASIGVALTGQDILARAKNGTGKTGAYCIPVIEKIQPALKAIQAMVIVPTRELALQTSQICVELSKHIQLKVMVTTGGTDLRDDIMRLNGTVHLVIATPGRILDLMEKGVAKMEHCKTLVLDEADKLLSQDFQGILDRLINFLPKERQVMLYSATFPNTVTSFMQKHMHKPYEIN 7dtl-a1-m1-cA_7dtl-a1-m1-cB Crystal structure of PSK, an antimicrobial peptide from Chrysomya megacephala 1.8 X-RAY DIFFRACTION 78 1.0 115424 (Chrysomya megacephala) 115424 (Chrysomya megacephala) 61 61 GGAFGKLEAAREEEYFYRKQKEQLERLKNDQIHQAEFHHQQIKEHEEAIQRHKKFLENLTK GGAFGKLEAAREEEYFYRKQKEQLERLKNDQIHQAEFHHQQIKEHEEAIQRHKKFLENLTK 7dtr-a1-m1-cA_7dtr-a1-m2-cA Structure of an AcrIF protein 2.1 X-RAY DIFFRACTION 53 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 163 163 MNAIHIGPFSITPAARGLHYGGLPHHQWTLYYGPREMAIKTLPDSYTSSEVRDEFSDIIAEFVIDARHRYAAPPLAWITGLLPGEVLTHDAEEWRPPTSWELRHVVGEGSFTGVSGAAAAALLGMSATNFRKYTAGDSAANRQKISFAAWHYLLDRLGVKRAS MNAIHIGPFSITPAARGLHYGGLPHHQWTLYYGPREMAIKTLPDSYTSSEVRDEFSDIIAEFVIDARHRYAAPPLAWITGLLPGEVLTHDAEEWRPPTSWELRHVVGEGSFTGVSGAAAAALLGMSATNFRKYTAGDSAANRQKISFAAWHYLLDRLGVKRAS 7du3-a1-m1-cA_7du3-a1-m2-cB ThiL in complex with AMP-PNP Q9HWX7 Q9HWX7 2.54 X-RAY DIFFRACTION 88 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 311 327 YFQSMGEFELIRRFFAAAACAAPAADVALGIGDDCALLAPPAGEQLAVSTDTLVEGVHFPAGCDPFLLAQRALAVSASDLAAMGAAPLAFTLALTLPQADAEWLQGFARGLDAMARQCGLALVGGDTTRGPLSMTLTVFGRVPAGQALTRAGARPGDLLCVGGPLGEAGAALELVLERRSAPAEVAEPLLARYWTPAPQFGLGLALRGKASAALDISDGLLADCGHIARASGVALLVECQRLQASAALSGLLAGEEALRQQLAAGDDYVLVFTLPPEYLGEIRAAWPAMAVIGRVEAGQGVHLLDADGKEL DLGTENLYFQSMGEFELIRRFFAAAACAAPAADVALGIGDDCALLAPPAGEQLAVSTDTLVEGVHFPAGCDPFLLAQRALAVSASDLAAMGAAPLAFTLALTLPQADAEWLQGFARGLDAMARQCGLALVGGDTTRGPLSMTLTVFGRVPAGQALTRAGARPGDLLCVGGPLGEAGAALELVLERRSAPAEVAEPLLARYWTPAPQFGLGLALRGKASAALDISDGLLADCGHIARASGVALLVECQRLQASAALSGLLAGEEALRQQLAAGDDYVLVFTLPPEYLGEIRAAWPAMAVIGRVEAGQGVHLLDADGKELIPAAAGYQH 7du4-a1-m1-cA_7du4-a1-m1-cB The structure of the M.tb MazF-mt9 toxin in complex with a fragment of cognate antitoxin P0CL62 P0CL62 2.18 X-RAY DIFFRACTION 70 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 106 106 5wyg-a1-m1-cA_5wyg-a1-m1-cC 6a6x-a1-m1-cB_6a6x-a1-m1-cA AEPRRGDLWLVSLGGKHRPAVVVSVDELLTGIDDELVVVVPVSSSRSRTPLRPPVAPSEGVAADSVAVCRGVRAVARARLVERLGALKPATMRAIENALTLILGLP AEPRRGDLWLVSLGGKHRPAVVVSVDELLTGIDDELVVVVPVSSSRSRTPLRPPVAPSEGVAADSVAVCRGVRAVARARLVERLGALKPATMRAIENALTLILGLP 7duf-a1-m1-cB_7duf-a1-m1-cA Crystal structure of VIM1 PHD finger. Q8VYZ0 Q8VYZ0 2.61 X-RAY DIFFRACTION 36 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 57 62 DIQLPCDGDGVCMRCKSNPPPEESLTCGTCVTPWHVSCLSSPPKTLASTLQWHCPDC GMARDIQLPCDGDGVCMRCKSNPPPEESLTCGTCVTPWHVSCLSSPPKTLASTLQWHCPDCS 7dus-a1-m1-cA_7dus-a1-m2-cA Crystal structure of Mei2-RRM3 domain in S.pombe P08965 P08965 2.5 X-RAY DIFFRACTION 105 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 130 130 DRNSVDYAQIASGIDTRTTVIKNIPNKFTQQLRDYIDVTNKGTYDFLYLRIDFVNKCNVGYAFINFIEPQSIITFGKARVGTQWNVFHSEKICDISYANIQGKDRLIEKFRNSCVDENPAYRPKIFVSHG DRNSVDYAQIASGIDTRTTVIKNIPNKFTQQLRDYIDVTNKGTYDFLYLRIDFVNKCNVGYAFINFIEPQSIITFGKARVGTQWNVFHSEKICDISYANIQGKDRLIEKFRNSCVDENPAYRPKIFVSHG 7duw-a1-m1-cA_7duw-a1-m1-cB Cryo-EM structure of the multiple peptide resistance factor (MprF) loaded with two lysyl-phosphatidylglycerol molecules A0A6P1C618 A0A6P1C618 2.96 ELECTRON MICROSCOPY 35 1.0 398 (Rhizobium tropici) 398 (Rhizobium tropici) 820 820 6lvf-a1-m1-cA_6lvf-a1-m1-cB LNRYRALIVAVLTVAVFCIAAYAIYDLTTEVRYDDVVHALTTTKISSVLLALLFTGLSFASLIFYDQNALEYIGKRLPFPHVALTSFSAYAVGNTAGFGALSAGAIRYRAYTRLGLSPDDITRVIAFVTLAFGLGLASVGAMALLVIADEIGPLISVDGLWLRLIAIAILAALAFVVYAGRNGREVRIGPVAVRLPDSRTWSRQFLVTAFDIAASASVLYVLLPETSIGWPGFFAIYAIAVGLGVLSHVPAGFGVFETIIIAWLGSSVNEDAVLSSLVLYRVIYNVIPLVIAIAAISVAELRSSMRRIGARLMPQLLSAFALLLGMMLVFSSVTPTPDHNLIVLSDYLPLSLVESAHFLSSLLGLAIIVAARGLSQRLDGAWWVSTFSALFALFFSLLKAIAIVEAGLLAFFVFSLVVSRRLFKRPASLLNQTLTAGWLTAIAVVCIGAIVVLFFVYRDVGYSNELWWQFEFADEAPRGLRAALGISIVSSAIAIFSLLVSDDAVARAVEIVRKQGVADANLVRMGDKSIMFSEKGDAFIMYGKQGRSWIALFDPVGPRQALPDLIWRFVETARAAGCRSVFYQISPALLSYCADAGLRAFKLGELAVVNLANFELKGGKWANLRQTASRAVRDGLEFAVIEPQDIPDVLDQLAHVSDTWLADHNAKEKSFSLGAFDPDYVCSQPVGVLKKDGKIVAFANILMTETKEEGSVDLMRFSPDAPKGSMDFLFVQILEYLKGEGFQRFNLGMAPLSGMSRRESAPVWDRVGGTVFEHGERFYNFKGLRAFKSKFHPEWQPRYLAVSGGVSPMIALMDATFLIG LNRYRALIVAVLTVAVFCIAAYAIYDLTTEVRYDDVVHALTTTKISSVLLALLFTGLSFASLIFYDQNALEYIGKRLPFPHVALTSFSAYAVGNTAGFGALSAGAIRYRAYTRLGLSPDDITRVIAFVTLAFGLGLASVGAMALLVIADEIGPLISVDGLWLRLIAIAILAALAFVVYAGRNGREVRIGPVAVRLPDSRTWSRQFLVTAFDIAASASVLYVLLPETSIGWPGFFAIYAIAVGLGVLSHVPAGFGVFETIIIAWLGSSVNEDAVLSSLVLYRVIYNVIPLVIAIAAISVAELRSSMRRIGARLMPQLLSAFALLLGMMLVFSSVTPTPDHNLIVLSDYLPLSLVESAHFLSSLLGLAIIVAARGLSQRLDGAWWVSTFSALFALFFSLLKAIAIVEAGLLAFFVFSLVVSRRLFKRPASLLNQTLTAGWLTAIAVVCIGAIVVLFFVYRDVGYSNELWWQFEFADEAPRGLRAALGISIVSSAIAIFSLLVSDDAVARAVEIVRKQGVADANLVRMGDKSIMFSEKGDAFIMYGKQGRSWIALFDPVGPRQALPDLIWRFVETARAAGCRSVFYQISPALLSYCADAGLRAFKLGELAVVNLANFELKGGKWANLRQTASRAVRDGLEFAVIEPQDIPDVLDQLAHVSDTWLADHNAKEKSFSLGAFDPDYVCSQPVGVLKKDGKIVAFANILMTETKEEGSVDLMRFSPDAPKGSMDFLFVQILEYLKGEGFQRFNLGMAPLSGMSRRESAPVWDRVGGTVFEHGERFYNFKGLRAFKSKFHPEWQPRYLAVSGGVSPMIALMDATFLIG 7dv2-a1-m1-cB_7dv2-a1-m1-cD Structure of Sulfolobus solfataricus SegB-DNA complex Q981B2 Q981B2 3.1 X-RAY DIFFRACTION 20 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 74 74 EEEKIKNDMLKYIEKDPKIGVWSYPAFLVLQYLYHTVPGFKMSRTAKEALEKGLKEMYPTLFTIAEKIAKERFK EEEKIKNDMLKYIEKDPKIGVWSYPAFLVLQYLYHTVPGFKMSRTAKEALEKGLKEMYPTLFTIAEKIAKERFK 7dv2-a1-m1-cD_7dv2-a1-m1-cC Structure of Sulfolobus solfataricus SegB-DNA complex Q981B2 Q981B2 3.1 X-RAY DIFFRACTION 187 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 74 75 7duv-a1-m1-cA_7duv-a1-m2-cA 7duv-a2-m1-cC_7duv-a2-m1-cB 7dv2-a1-m1-cB_7dv2-a1-m1-cA EEEKIKNDMLKYIEKDPKIGVWSYPAFLVLQYLYHTVPGFKMSRTAKEALEKGLKEMYPTLFTIAEKIAKERFK NEEEKIKNDMLKYIEKDPKIGVWSYPAFLVLQYLYHTVPGFKMSRTAKEALEKGLKEMYPTLFTIAEKIAKERFK 7dv3-a1-m1-cA_7dv3-a1-m1-cB Structure of Sulfolobus solfataricus SegA-AMPPNP protein Q981B3 Q981B3 2.6 X-RAY DIFFRACTION 36 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 220 220 7dut-a1-m1-cA_7dut-a1-m2-cA 7dwr-a1-m1-cA_7dwr-a1-m1-cC MIVTVINQKGGVGKTTTSVNLSYYLSKEKKTGLLDLDPEGGATISYGMKRELKELPLGEKSVNIFNVEVFPAHIGLLKLELNGDVEEISNKIKEIGKQFDFLVIDTPPNLGTLAISAMLVADRIVSPVTPQPLALEAIKNLDSRLKSIGKNAYSFTNFSKKVVKLDNLSSVKFTEITIPPSRLFIEASRLGVPALRYEEVRIKKPKLANYYQQLAKVISE MIVTVINQKGGVGKTTTSVNLSYYLSKEKKTGLLDLDPEGGATISYGMKRELKELPLGEKSVNIFNVEVFPAHIGLLKLELNGDVEEISNKIKEIGKQFDFLVIDTPPNLGTLAISAMLVADRIVSPVTPQPLALEAIKNLDSRLKSIGKNAYSFTNFSKKVVKLDNLSSVKFTEITIPPSRLFIEASRLGVPALRYEEVRIKKPKLANYYQQLAKVISE 7dv4-a2-m1-cC_7dv4-a2-m1-cE Crystal structure of anti-CTLA-4 VH domain in complex with human CTLA-4 P16410 P16410 2.38 X-RAY DIFFRACTION 31 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 113 116 7dv4-a1-m1-cG_7dv4-a1-m1-cA KAMHVAQPAVVLASSRGIASFVCEYATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVID MHVAQPAVVLASSRGIASFVCEYASPGKATEVRVTVLRQADSQVTEVCAATYMMGNELTFLDDSICTGTSSGNQVNLTIQGLRAMDTGLYICKVELMYPPPYYLGIGNGTQIYVID 7dv4-a2-m1-cD_7dv4-a2-m1-cF Crystal structure of anti-CTLA-4 VH domain in complex with human CTLA-4 2.38 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 117 119 7dv4-a1-m1-cB_7dv4-a1-m1-cH EVQLVESGGGLIQPGGSLRLSCAVSGFTVSKNYMSWVRQAPGKGLEWVSVVYSGGSKTYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARAVPHSPSSFDIWGQGTMVTV EVQLVESGGGLIQPGGSLRLSCAVSGFTVSKNYMSWVRQAPGKGLEWVSVVYSGGSKTYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCARAVPHSPSSFDIWGQGTMVTVSS 7dv7-a1-m1-cA_7dv7-a1-m1-cB Structure of a novel beta-mannanase BaMan113A from Bacillus sp. N16-5. A0A140EH91 A0A140EH91 1.44 X-RAY DIFFRACTION 51 1.0 122631 (Bacillus sp. N16-5) 122631 (Bacillus sp. N16-5) 314 327 7dvj-a1-m1-cA_7dvj-a1-m1-cB 7dvz-a1-m1-cB_7dvz-a1-m1-cA 7dw8-a1-m1-cB_7dw8-a1-m1-cA 7dwa-a1-m1-cA_7dwa-a1-m1-cB MDYIKGMTWGWIGNSEDWRSNEAERSMEEMTNLAINWTAIAFQGLQETAHSPDITFAEPPMVTDENVRWAIAKAKSLGLSVILKPIVNVRDGTWRAHINFFDKDVPCEPTWSQWFKSYESFMLHYAKLAEDTGCEMLCIGCEMVQTERREKEWRDLIQKVRQVYSGIITYNCDKYQEDEVTWWDAVDVMSSSGYYPIGSWEHHESRIKKIVESWQKPFFFMEAGCPSRLESGSVPNDWNKNRGQIDMDEQRVFYEEMFKFFHGQKWFYGFMLWDWPAKLYRLEDASENDDYCVYGKPAAEVIKSFFTSNKIAKR HHSSGLVPRGSHMMDYIKGMTWGWIGNSEDWRSNEAERSMEEMTNLAINWTAIAFQGLQETAHSPDITFAEPPMVTDENVRWAIAKAKSLGLSVILKPIVNVRDGTWRAHINFFDKDVPCEPTWSQWFKSYESFMLHYAKLAEDTGCEMLCIGCEMVQTERREKEWRDLIQKVRQVYSGIITYNCDKYQEDEVTWWDAVDVMSSSGYYPIGSWEHHESRIKKIVESWQKPFFFMEAGCPSRLESGSVPNDWNKNRGQIDMDEQRVFYEEMFKFFHGQKWFYGFMLWDWPAKLYRLEDASENDDYCVYGKPAAEVIKSFFTSNKIAKR 7dvi-a1-m1-cA_7dvi-a1-m2-cA Crystal Structure of AbnU: An exo-specific intermolecular Diels-Alderase A0A1S1R073 A0A1S1R073 2 X-RAY DIFFRACTION 38 1.0 573497 (Parafrankia colletiae) 573497 (Parafrankia colletiae) 134 134 GSHMSVVHEGIWEPQIRNEQNVNVADPQVGQIGSYYDELYDSSRELLGITIGRYEIRYKKVGGAVLTYYSEDLFLRDGIIHAEGWADFNDVKNGVWVGYPAVGLDGVYRGLDGRREWRVIEPDQPVEARISLHG GSHMSVVHEGIWEPQIRNEQNVNVADPQVGQIGSYYDELYDSSRELLGITIGRYEIRYKKVGGAVLTYYSEDLFLRDGIIHAEGWADFNDVKNGVWVGYPAVGLDGVYRGLDGRREWRVIEPDQPVEARISLHG 7dvk-a2-m1-cC_7dvk-a2-m1-cD PyrI4 in complex with intermolecular Diels-Alder product K7QVW7 K7QVW7 2.6 X-RAY DIFFRACTION 108 1.0 295838 (Streptomyces rugosporus) 295838 (Streptomyces rugosporus) 163 163 5btu-a1-m1-cA_5btu-a1-m1-cB 5bu3-a1-m1-cA_5bu3-a1-m1-cB 5bu3-a2-m1-cC_5bu3-a2-m1-cD 7dvk-a1-m1-cA_7dvk-a1-m1-cB IVDPGPLDVTALAVAAALAAGLHSAADDPAAALDKCIVLDELTEFAEKLVVHDRPGGIGTTVEYVEVYEDASGVRLGTATGNAVVLKMEPHMWQFHQSVSELADGSFEAVGVIDCTAMLRRMTQVLRVTGRSGRYAGKSGFMTLAISDPNQRPPHYSVQVVLC IVDPGPLDVTALAVAAALAAGLHSAADDPAAALDKCIVLDELTEFAEKLVVHDRPGGIGTTVEYVEVYEDASGVRLGTATGNAVVLKMEPHMWQFHQSVSELADGSFEAVGVIDCTAMLRRMTQVLRVTGRSGRYAGKSGFMTLAISDPNQRPPHYSVQVVLC 7dvl-a1-m1-cA_7dvl-a1-m2-cB Crystal Structure of the Catalytic Domain of Botulinum Neurotoxin Subtype A3 D3IV24 D3IV24 2.006 X-RAY DIFFRACTION 61 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 405 407 SMPFVNKQFNYRDPVNGVDIAYIKIPNAGQMQPVKAFKIHEGVWVIPERDTFTNPEEGDLNPPPEAKQVPVSYYDSTYLSTDNEKDNYLKGVIKLFDRIYSTGLGRMLLSFIVKGIPFWGGSTIDTELKVIDTNCINVIEPGGSYRSEELNLVITGPSADIIQFECKSFGHDVFNLTRNGYGSTQYIRFSPDFTFGFEEGTFATDPAVTLAHQLIHAAHRLYGIAINPNRVLKVKTNAYYEMSGLEVSFEELRTFGGNDTNFIDSLWQKKFSRDAYDNLQNIARILNEAKTIVGTTTPLQYMKNIFIRKYFLSEDASGKISVNKAAFKEFYRVLTRGFTELEFVNPFKVINRKTFLNFDKAVFRINIVPDENYTINEGFNLEGANSNGQNTEINSRNFTRLKNFT SMPFVNKQFNYRDPVNGVDIAYIKIPNAGQMQPVKAFKIHEGVWVIPERDTFTNPEEGDLNPPPEAKQVPVSYYDSTYLSTDNEKDNYLKGVIKLFDRIYSTGLGRMLLSFIVKGIPFWGGSTIDTELKVIDTNCINVIEPGGSYRSEELNLVITGPSADIIQFECKSFGHDVFNLTRNGYGSTQYIRFSPDFTFGFEESLGTFATDPAVTLAHQLIHAAHRLYGIAINPNRVLKVKTNAYYEMSGLEVSFEELRTFGGNDTNFIDSLWQKKFSRDAYDNLQNIARILNEAKTIVGTTTPLQYMKNIFIRKYFLSEDASGKISVNKAAFKEFYRVLTRGFTELEFVNPFKVINRKTFLNFDKAVFRINIVPDENYTINEGFNLEGANSNGQNTEINSRNFTRLKNFT 7dvn-a1-m1-cA_7dvn-a1-m2-cA Crystal structure of a MarR family protein in complex with a lipid-like effector molecule from the psychrophilic bacterium Paenisporosarcina sp. TG-14 1.6 X-RAY DIFFRACTION 174 1.0 1231057 (Paenisporosarcina sp. TG-14) 1231057 (Paenisporosarcina sp. TG-14) 135 135 MDKRIQEAVSLFEEVLIYGTERVIRSVDDPLWREYSPEQMQVLKLIYKEITSGRLAILQGVHKSAISNRLKKLIEKEVISIKILVLTALGETVIKQSDAVLHEYIGKLMTNKVDDQEIEQFLVTFRKLKEILKMN MDKRIQEAVSLFEEVLIYGTERVIRSVDDPLWREYSPEQMQVLKLIYKEITSGRLAILQGVHKSAISNRLKKLIEKEVISIKILVLTALGETVIKQSDAVLHEYIGKLMTNKVDDQEIEQFLVTFRKLKEILKMN 7dvr-a1-m1-cA_7dvr-a1-m2-cA Crystal structure of heme sensor protein PefR from Streptococcus agalactiae in complex with heme Q8E4J9 Q8E4J9 1.7 X-RAY DIFFRACTION 88 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 147 147 7dvt-a1-m1-cA_7dvt-a1-m2-cA 7dvu-a1-m1-cA_7dvu-a1-m2-cA MENPLQKARILVNQLEKYLDRYAKEYDVEHLAGPQGHLVMHLYKHPDKDMSIKDAEEILHISKSVASNLVKRMEKNGFIAIVPSKTDKRVKYLYLTHLGKQKATQFEIFLEKLHSTMLAGITKEEIRTTKKVIRTLAKNMAMEDFDS MENPLQKARILVNQLEKYLDRYAKEYDVEHLAGPQGHLVMHLYKHPDKDMSIKDAEEILHISKSVASNLVKRMEKNGFIAIVPSKTDKRVKYLYLTHLGKQKATQFEIFLEKLHSTMLAGITKEEIRTTKKVIRTLAKNMAMEDFDS 7dvs-a1-m1-cB_7dvs-a1-m1-cA Crystal structure of Apo (heme-free) PefR R4Z9I5 R4Z9I5 2.6 X-RAY DIFFRACTION 85 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 138 139 NPLQKARILVNQLEKYLDRYAKEYDVEHLAGPQGHLVMHLYKHPDKDMSIKDAEEILHISKSVASNLVKRMEKNGFIAIVPSKTDKRVKYLYLTHLGKQKATQFEIFLEKLHSTMLAGITKEEIRTTKKVIRTLAKNM NPLQKARILVNQLEKYLDRYAKEYDVEHLAGPQGHLVMHLYKHPDKDMSIKDAEEILHISKSVASNLVKRMEKNGFIAIVPSKTDKRVKYLYLTHLGKQKATQFEIFLEKLHSTMLAGITKEEIRTTKKVIRTLAKNMA 7dvv-a1-m1-cA_7dvv-a1-m1-cB Heme sensor protein PefR from Streptococcus agalactiae bound to operator DNA (28-mer) Q8E4J9 Q8E4J9 2.49 X-RAY DIFFRACTION 99 1.0 211110 (Streptococcus agalactiae NEM316) 211110 (Streptococcus agalactiae NEM316) 139 140 NPLQKARILVNQLEKYLDRYAKEYDVEHLAGPQGHLVMHLYKHPDKDMSIKDAEEILHISKSVASNLVKRMEKNGFIAIVPSKTDKRVKYLYLTHLGKQKATQFEIFLEKLHSTMLAGITKEEIRTTKKVIRTLAKNMA ENPLQKARILVNQLEKYLDRYAKEYDVEHLAGPQGHLVMHLYKHPDKDMSIKDAEEILHISKSVASNLVKRMEKNGFIAIVPSKTDKRVKYLYLTHLGKQKATQFEIFLEKLHSTMLAGITKEEIRTTKKVIRTLAKNMA 7dw5-a1-m1-cA_7dw5-a1-m1-cB Crystal structure of DUX4 HD1-HD2 domain complexed with ERG sites P0CJ85 P0CJ85 2.83 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 131 RRRRLVWTPSQSEALRACFERNPYPGIATRERLAQAIGIPEPRVQIWFQNERSRQLRQHRRESRPWPGRRGPPEGRRKRTAVTGSQTALLLRAFEKDRFPGIAAREELARETGLPESRIQIWFQNRRARHP RRRRLVWTPSQSEALRACFERNPYPGIATRERLAQAIGIPEPRVQIWFQNERSRQLRQHRRESRPWPGRRGPPEGRRKRTAVTGSQTALLLRAFEKDRFPGIAAREELARETGLPESRIQIWFQNRRARHP 7dwb-a1-m1-cF_7dwb-a1-m1-cG Human Pannexin1 model Q96RD7 Q96RD7 3.15 ELECTRON MICROSCOPY 208 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 421 421 7dwb-a1-m1-cA_7dwb-a1-m1-cB 7dwb-a1-m1-cA_7dwb-a1-m1-cG 7dwb-a1-m1-cB_7dwb-a1-m1-cC 7dwb-a1-m1-cC_7dwb-a1-m1-cD 7dwb-a1-m1-cD_7dwb-a1-m1-cE 7dwb-a1-m1-cE_7dwb-a1-m1-cF AIAHLATEYVFSDFLLKEPTEPKFKGLRLELAVDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVLPLWLHKFFPYILLLFAILLYLPPLFWRFAAAPHICSDLKFIMEELDKVYNRAIKAAKSARDLDMRDGACSVWSHPQFEKPGVTENLGQSLWEVSESHFKYPIVEQYLKTKKNSNNLIIKYISCRLLTLIIILLACIYLGYYFSLSSLSDEFVCSIKSGILRNDSTVPDQFQCKLIAVGIFQLLSVINLVVYVLLAPVVVYTLFVPFRQKTDVLKVYEILPTFDVLHFKSEGYNDLSLYNLFLEENISEVKSYKCLKVLENIKSSGQGIDPMLLLTNLGMIKMDVVDGKTPMSAEMREEQGNQTAELQGMNIDSETKANNGEKNARQRLLDSSC AIAHLATEYVFSDFLLKEPTEPKFKGLRLELAVDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVLPLWLHKFFPYILLLFAILLYLPPLFWRFAAAPHICSDLKFIMEELDKVYNRAIKAAKSARDLDMRDGACSVWSHPQFEKPGVTENLGQSLWEVSESHFKYPIVEQYLKTKKNSNNLIIKYISCRLLTLIIILLACIYLGYYFSLSSLSDEFVCSIKSGILRNDSTVPDQFQCKLIAVGIFQLLSVINLVVYVLLAPVVVYTLFVPFRQKTDVLKVYEILPTFDVLHFKSEGYNDLSLYNLFLEENISEVKSYKCLKVLENIKSSGQGIDPMLLLTNLGMIKMDVVDGKTPMSAEMREEQGNQTAELQGMNIDSETKANNGEKNARQRLLDSSC 7dwm-a1-m1-cA_7dwm-a1-m1-cB Crystal structure of the phage VqmA-DPO complex A2I306 A2I306 2.65 X-RAY DIFFRACTION 116 0.982 261726 (Hapunavirus VP882) 261726 (Hapunavirus VP882) 218 218 SISEGDDAYIRSLIHFFGNQPDPWGIKDTKSVFIYANQPFRELVGMKNRNVEGLTDADMDCETAAFADSFQAQDRLVEQGREKKIVLDVHPYANGWRVFTFTKTPLIMPSGRVAGTIFHGQDLTDTAGRIERAVVELLLNLTEREELVLFFLLRGRTAKDIAGMLGRSPRTIEHAIERIRNKFGAGNKRELIDMAMSKGYYSMVPKALFHTQVSMLLK EGDDAYIRSLIHFFGNQPDPWGIKDTKSVFIYANQPFRELVGMKNRNVEGLTDADMDCETAAFADSFQAQDRLVEQGREKKIVLDVHPYANGWRVFTFTKTPLIMPSGRVAGTIFHGQDLTDTAGRIERAVVELLLPVGLNLTEREELVLFFLLRGRTAKDIAGMLGRSPRTIEHAIERIRNKFGAGNKRELIDMAMSKGYYSMVPKALFHTQVSMLL 7dwo-a1-m1-cA_7dwo-a1-m2-cB Crystal structure of Vibrio fischeri DarR in complex with DNA reveals the transcriptional activation mechanism of LTTR family members Q5E4K6 Q5E4K6 2.611 X-RAY DIFFRACTION 118 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 292 292 7dwn-a1-m1-cA_7dwn-a1-m1-cD 7dwn-a1-m1-cB_7dwn-a1-m1-cC 7dwo-a1-m1-cB_7dwo-a1-m2-cA MNVESKWLEDFLVLAKVKNFSQAAELRNVTQPAFSRRIRLLEDTVGAELVDRKSKPIELTPSGKLFRITARTLVNQIEAGISQISDLSQLGGNVVQVAAAHSLATSLIPKMQQAFDEGDYKPILSVEAIDVDEATKELREGACDILLAFDDDILRLPPYQSQLIAKTELLPVSACDEMGKPIYDFISQGAVPWLTYSSTSYIGRQVEIIREQVALTPIFSSSMTDMLKILVLNKQGIAWLPAYSIQEELAQKKVAIIGEQSLRLPIEYYAYRYQARLHPAGEKVWSILCNLD MNVESKWLEDFLVLAKVKNFSQAAELRNVTQPAFSRRIRLLEDTVGAELVDRKSKPIELTPSGKLFRITARTLVNQIEAGISQISDLSQLGGNVVQVAAAHSLATSLIPKMQQAFDEGDYKPILSVEAIDVDEATKELREGACDILLAFDDDILRLPPYQSQLIAKTELLPVSACDEMGKPIYDFISQGAVPWLTYSSTSYIGRQVEIIREQVALTPIFSSSMTDMLKILVLNKQGIAWLPAYSIQEELAQKKVAIIGEQSLRLPIEYYAYRYQARLHPAGEKVWSILCNLD 7dwo-a1-m2-cA_7dwo-a1-m2-cB Crystal structure of Vibrio fischeri DarR in complex with DNA reveals the transcriptional activation mechanism of LTTR family members Q5E4K6 Q5E4K6 2.611 X-RAY DIFFRACTION 113 1.0 312309 (Aliivibrio fischeri ES114) 312309 (Aliivibrio fischeri ES114) 292 292 7dwn-a1-m1-cA_7dwn-a1-m1-cB 7dwn-a1-m1-cC_7dwn-a1-m1-cD 7dwo-a1-m1-cA_7dwo-a1-m1-cB MNVESKWLEDFLVLAKVKNFSQAAELRNVTQPAFSRRIRLLEDTVGAELVDRKSKPIELTPSGKLFRITARTLVNQIEAGISQISDLSQLGGNVVQVAAAHSLATSLIPKMQQAFDEGDYKPILSVEAIDVDEATKELREGACDILLAFDDDILRLPPYQSQLIAKTELLPVSACDEMGKPIYDFISQGAVPWLTYSSTSYIGRQVEIIREQVALTPIFSSSMTDMLKILVLNKQGIAWLPAYSIQEELAQKKVAIIGEQSLRLPIEYYAYRYQARLHPAGEKVWSILCNLD MNVESKWLEDFLVLAKVKNFSQAAELRNVTQPAFSRRIRLLEDTVGAELVDRKSKPIELTPSGKLFRITARTLVNQIEAGISQISDLSQLGGNVVQVAAAHSLATSLIPKMQQAFDEGDYKPILSVEAIDVDEATKELREGACDILLAFDDDILRLPPYQSQLIAKTELLPVSACDEMGKPIYDFISQGAVPWLTYSSTSYIGRQVEIIREQVALTPIFSSSMTDMLKILVLNKQGIAWLPAYSIQEELAQKKVAIIGEQSLRLPIEYYAYRYQARLHPAGEKVWSILCNLD 7dwt-a1-m24-cA_7dwt-a1-m9-cC Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 1 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 15 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwt-a1-m10-cA_7dwt-a1-m23-cC 7dwt-a1-m11-cA_7dwt-a1-m20-cC 7dwt-a1-m11-cC_7dwt-a1-m38-cA 7dwt-a1-m12-cA_7dwt-a1-m37-cC 7dwt-a1-m12-cC_7dwt-a1-m47-cA 7dwt-a1-m13-cA_7dwt-a1-m46-cC 7dwt-a1-m13-cC_7dwt-a1-m45-cA 7dwt-a1-m14-cA_7dwt-a1-m44-cC 7dwt-a1-m14-cC_7dwt-a1-m29-cA 7dwt-a1-m15-cA_7dwt-a1-m28-cC 7dwt-a1-m15-cC_7dwt-a1-m16-cA 7dwt-a1-m16-cC_7dwt-a1-m28-cA 7dwt-a1-m17-cA_7dwt-a1-m27-cC 7dwt-a1-m17-cC_7dwt-a1-m52-cA 7dwt-a1-m18-cA_7dwt-a1-m51-cC 7dwt-a1-m18-cC_7dwt-a1-m60-cA 7dwt-a1-m19-cA_7dwt-a1-m59-cC 7dwt-a1-m19-cC_7dwt-a1-m39-cA 7dwt-a1-m1-cA_7dwt-a1-m10-cC 7dwt-a1-m1-cC_7dwt-a1-m23-cA 7dwt-a1-m20-cA_7dwt-a1-m38-cC 7dwt-a1-m21-cA_7dwt-a1-m30-cC 7dwt-a1-m21-cC_7dwt-a1-m43-cA 7dwt-a1-m22-cA_7dwt-a1-m42-cC 7dwt-a1-m24-cC_7dwt-a1-m54-cA 7dwt-a1-m25-cA_7dwt-a1-m53-cC 7dwt-a1-m25-cC_7dwt-a1-m26-cA 7dwt-a1-m26-cC_7dwt-a1-m53-cA 7dwt-a1-m27-cA_7dwt-a1-m52-cC 7dwt-a1-m29-cC_7dwt-a1-m44-cA 7dwt-a1-m2-cA_7dwt-a1-m22-cC 7dwt-a1-m2-cC_7dwt-a1-m42-cA 7dwt-a1-m30-cA_7dwt-a1-m43-cC 7dwt-a1-m31-cA_7dwt-a1-m40-cC 7dwt-a1-m31-cC_7dwt-a1-m58-cA 7dwt-a1-m32-cA_7dwt-a1-m57-cC 7dwt-a1-m32-cC_7dwt-a1-m7-cA 7dwt-a1-m33-cA_7dwt-a1-m6-cC 7dwt-a1-m33-cC_7dwt-a1-m5-cA 7dwt-a1-m34-cA_7dwt-a1-m4-cC 7dwt-a1-m34-cC_7dwt-a1-m49-cA 7dwt-a1-m35-cA_7dwt-a1-m48-cC 7dwt-a1-m35-cC_7dwt-a1-m36-cA 7dwt-a1-m36-cC_7dwt-a1-m48-cA 7dwt-a1-m37-cA_7dwt-a1-m47-cC 7dwt-a1-m39-cC_7dwt-a1-m59-cA 7dwt-a1-m3-cA_7dwt-a1-m41-cC 7dwt-a1-m3-cC_7dwt-a1-m50-cA 7dwt-a1-m40-cA_7dwt-a1-m58-cC 7dwt-a1-m41-cA_7dwt-a1-m50-cC 7dwt-a1-m45-cC_7dwt-a1-m46-cA 7dwt-a1-m4-cA_7dwt-a1-m49-cC 7dwt-a1-m51-cA_7dwt-a1-m60-cC 7dwt-a1-m54-cC_7dwt-a1-m9-cA 7dwt-a1-m55-cA_7dwt-a1-m8-cC 7dwt-a1-m55-cC_7dwt-a1-m56-cA 7dwt-a1-m56-cC_7dwt-a1-m8-cA 7dwt-a1-m57-cA_7dwt-a1-m7-cC 7dwt-a1-m5-cC_7dwt-a1-m6-cA MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwt-a1-m24-cB_7dwt-a1-m9-cC Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 1 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 47 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwt-a1-m10-cB_7dwt-a1-m23-cC 7dwt-a1-m11-cB_7dwt-a1-m20-cC 7dwt-a1-m11-cC_7dwt-a1-m38-cB 7dwt-a1-m12-cB_7dwt-a1-m37-cC 7dwt-a1-m12-cC_7dwt-a1-m47-cB 7dwt-a1-m13-cB_7dwt-a1-m46-cC 7dwt-a1-m13-cC_7dwt-a1-m45-cB 7dwt-a1-m14-cB_7dwt-a1-m44-cC 7dwt-a1-m14-cC_7dwt-a1-m29-cB 7dwt-a1-m15-cB_7dwt-a1-m28-cC 7dwt-a1-m15-cC_7dwt-a1-m16-cB 7dwt-a1-m16-cC_7dwt-a1-m28-cB 7dwt-a1-m17-cB_7dwt-a1-m27-cC 7dwt-a1-m17-cC_7dwt-a1-m52-cB 7dwt-a1-m18-cB_7dwt-a1-m51-cC 7dwt-a1-m18-cC_7dwt-a1-m60-cB 7dwt-a1-m19-cB_7dwt-a1-m59-cC 7dwt-a1-m19-cC_7dwt-a1-m39-cB 7dwt-a1-m1-cB_7dwt-a1-m10-cC 7dwt-a1-m1-cC_7dwt-a1-m23-cB 7dwt-a1-m20-cB_7dwt-a1-m38-cC 7dwt-a1-m21-cB_7dwt-a1-m30-cC 7dwt-a1-m21-cC_7dwt-a1-m43-cB 7dwt-a1-m22-cB_7dwt-a1-m42-cC 7dwt-a1-m24-cC_7dwt-a1-m54-cB 7dwt-a1-m25-cB_7dwt-a1-m53-cC 7dwt-a1-m25-cC_7dwt-a1-m26-cB 7dwt-a1-m26-cC_7dwt-a1-m53-cB 7dwt-a1-m27-cB_7dwt-a1-m52-cC 7dwt-a1-m29-cC_7dwt-a1-m44-cB 7dwt-a1-m2-cB_7dwt-a1-m22-cC 7dwt-a1-m2-cC_7dwt-a1-m42-cB 7dwt-a1-m30-cB_7dwt-a1-m43-cC 7dwt-a1-m31-cB_7dwt-a1-m40-cC 7dwt-a1-m31-cC_7dwt-a1-m58-cB 7dwt-a1-m32-cB_7dwt-a1-m57-cC 7dwt-a1-m32-cC_7dwt-a1-m7-cB 7dwt-a1-m33-cB_7dwt-a1-m6-cC 7dwt-a1-m33-cC_7dwt-a1-m5-cB 7dwt-a1-m34-cB_7dwt-a1-m4-cC 7dwt-a1-m34-cC_7dwt-a1-m49-cB 7dwt-a1-m35-cB_7dwt-a1-m48-cC 7dwt-a1-m35-cC_7dwt-a1-m36-cB 7dwt-a1-m36-cC_7dwt-a1-m48-cB 7dwt-a1-m37-cB_7dwt-a1-m47-cC 7dwt-a1-m39-cC_7dwt-a1-m59-cB 7dwt-a1-m3-cB_7dwt-a1-m41-cC 7dwt-a1-m3-cC_7dwt-a1-m50-cB 7dwt-a1-m40-cB_7dwt-a1-m58-cC 7dwt-a1-m41-cB_7dwt-a1-m50-cC 7dwt-a1-m45-cC_7dwt-a1-m46-cB 7dwt-a1-m4-cB_7dwt-a1-m49-cC 7dwt-a1-m51-cB_7dwt-a1-m60-cC 7dwt-a1-m54-cC_7dwt-a1-m9-cB 7dwt-a1-m55-cB_7dwt-a1-m8-cC 7dwt-a1-m55-cC_7dwt-a1-m56-cB 7dwt-a1-m56-cC_7dwt-a1-m8-cB 7dwt-a1-m57-cB_7dwt-a1-m7-cC 7dwt-a1-m5-cC_7dwt-a1-m6-cB MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwt-a1-m54-cC_7dwt-a1-m9-cC Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 1 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 14 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwt-a1-m10-cC_7dwt-a1-m23-cC 7dwt-a1-m11-cC_7dwt-a1-m20-cC 7dwt-a1-m11-cC_7dwt-a1-m38-cC 7dwt-a1-m12-cC_7dwt-a1-m37-cC 7dwt-a1-m12-cC_7dwt-a1-m47-cC 7dwt-a1-m13-cC_7dwt-a1-m45-cC 7dwt-a1-m13-cC_7dwt-a1-m46-cC 7dwt-a1-m14-cC_7dwt-a1-m29-cC 7dwt-a1-m14-cC_7dwt-a1-m44-cC 7dwt-a1-m15-cC_7dwt-a1-m16-cC 7dwt-a1-m15-cC_7dwt-a1-m28-cC 7dwt-a1-m16-cC_7dwt-a1-m28-cC 7dwt-a1-m17-cC_7dwt-a1-m27-cC 7dwt-a1-m17-cC_7dwt-a1-m52-cC 7dwt-a1-m18-cC_7dwt-a1-m51-cC 7dwt-a1-m18-cC_7dwt-a1-m60-cC 7dwt-a1-m19-cC_7dwt-a1-m39-cC 7dwt-a1-m19-cC_7dwt-a1-m59-cC 7dwt-a1-m1-cC_7dwt-a1-m10-cC 7dwt-a1-m1-cC_7dwt-a1-m23-cC 7dwt-a1-m20-cC_7dwt-a1-m38-cC 7dwt-a1-m21-cC_7dwt-a1-m30-cC 7dwt-a1-m21-cC_7dwt-a1-m43-cC 7dwt-a1-m22-cC_7dwt-a1-m42-cC 7dwt-a1-m24-cC_7dwt-a1-m54-cC 7dwt-a1-m24-cC_7dwt-a1-m9-cC 7dwt-a1-m25-cC_7dwt-a1-m26-cC 7dwt-a1-m25-cC_7dwt-a1-m53-cC 7dwt-a1-m26-cC_7dwt-a1-m53-cC 7dwt-a1-m27-cC_7dwt-a1-m52-cC 7dwt-a1-m29-cC_7dwt-a1-m44-cC 7dwt-a1-m2-cC_7dwt-a1-m22-cC 7dwt-a1-m2-cC_7dwt-a1-m42-cC 7dwt-a1-m30-cC_7dwt-a1-m43-cC 7dwt-a1-m31-cC_7dwt-a1-m40-cC 7dwt-a1-m31-cC_7dwt-a1-m58-cC 7dwt-a1-m32-cC_7dwt-a1-m57-cC 7dwt-a1-m32-cC_7dwt-a1-m7-cC 7dwt-a1-m33-cC_7dwt-a1-m5-cC 7dwt-a1-m33-cC_7dwt-a1-m6-cC 7dwt-a1-m34-cC_7dwt-a1-m49-cC 7dwt-a1-m34-cC_7dwt-a1-m4-cC 7dwt-a1-m35-cC_7dwt-a1-m36-cC 7dwt-a1-m35-cC_7dwt-a1-m48-cC 7dwt-a1-m36-cC_7dwt-a1-m48-cC 7dwt-a1-m37-cC_7dwt-a1-m47-cC 7dwt-a1-m39-cC_7dwt-a1-m59-cC 7dwt-a1-m3-cC_7dwt-a1-m41-cC 7dwt-a1-m3-cC_7dwt-a1-m50-cC 7dwt-a1-m40-cC_7dwt-a1-m58-cC 7dwt-a1-m41-cC_7dwt-a1-m50-cC 7dwt-a1-m45-cC_7dwt-a1-m46-cC 7dwt-a1-m4-cC_7dwt-a1-m49-cC 7dwt-a1-m51-cC_7dwt-a1-m60-cC 7dwt-a1-m55-cC_7dwt-a1-m56-cC 7dwt-a1-m55-cC_7dwt-a1-m8-cC 7dwt-a1-m56-cC_7dwt-a1-m8-cC 7dwt-a1-m57-cC_7dwt-a1-m7-cC 7dwt-a1-m5-cC_7dwt-a1-m6-cC MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwt-a1-m9-cA_7dwt-a1-m9-cC Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 1 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 66 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwt-a1-m10-cA_7dwt-a1-m10-cC 7dwt-a1-m11-cA_7dwt-a1-m11-cC 7dwt-a1-m12-cA_7dwt-a1-m12-cC 7dwt-a1-m13-cA_7dwt-a1-m13-cC 7dwt-a1-m14-cA_7dwt-a1-m14-cC 7dwt-a1-m15-cA_7dwt-a1-m15-cC 7dwt-a1-m16-cA_7dwt-a1-m16-cC 7dwt-a1-m17-cA_7dwt-a1-m17-cC 7dwt-a1-m18-cA_7dwt-a1-m18-cC 7dwt-a1-m19-cA_7dwt-a1-m19-cC 7dwt-a1-m1-cA_7dwt-a1-m1-cC 7dwt-a1-m20-cA_7dwt-a1-m20-cC 7dwt-a1-m21-cA_7dwt-a1-m21-cC 7dwt-a1-m22-cA_7dwt-a1-m22-cC 7dwt-a1-m23-cA_7dwt-a1-m23-cC 7dwt-a1-m24-cA_7dwt-a1-m24-cC 7dwt-a1-m25-cA_7dwt-a1-m25-cC 7dwt-a1-m26-cA_7dwt-a1-m26-cC 7dwt-a1-m27-cA_7dwt-a1-m27-cC 7dwt-a1-m28-cA_7dwt-a1-m28-cC 7dwt-a1-m29-cA_7dwt-a1-m29-cC 7dwt-a1-m2-cA_7dwt-a1-m2-cC 7dwt-a1-m30-cA_7dwt-a1-m30-cC 7dwt-a1-m31-cA_7dwt-a1-m31-cC 7dwt-a1-m32-cA_7dwt-a1-m32-cC 7dwt-a1-m33-cA_7dwt-a1-m33-cC 7dwt-a1-m34-cA_7dwt-a1-m34-cC 7dwt-a1-m35-cA_7dwt-a1-m35-cC 7dwt-a1-m36-cA_7dwt-a1-m36-cC 7dwt-a1-m37-cA_7dwt-a1-m37-cC 7dwt-a1-m38-cA_7dwt-a1-m38-cC 7dwt-a1-m39-cA_7dwt-a1-m39-cC 7dwt-a1-m3-cA_7dwt-a1-m3-cC 7dwt-a1-m40-cA_7dwt-a1-m40-cC 7dwt-a1-m41-cA_7dwt-a1-m41-cC 7dwt-a1-m42-cA_7dwt-a1-m42-cC 7dwt-a1-m43-cA_7dwt-a1-m43-cC 7dwt-a1-m44-cA_7dwt-a1-m44-cC 7dwt-a1-m45-cA_7dwt-a1-m45-cC 7dwt-a1-m46-cA_7dwt-a1-m46-cC 7dwt-a1-m47-cA_7dwt-a1-m47-cC 7dwt-a1-m48-cA_7dwt-a1-m48-cC 7dwt-a1-m49-cA_7dwt-a1-m49-cC 7dwt-a1-m4-cA_7dwt-a1-m4-cC 7dwt-a1-m50-cA_7dwt-a1-m50-cC 7dwt-a1-m51-cA_7dwt-a1-m51-cC 7dwt-a1-m52-cA_7dwt-a1-m52-cC 7dwt-a1-m53-cA_7dwt-a1-m53-cC 7dwt-a1-m54-cA_7dwt-a1-m54-cC 7dwt-a1-m55-cA_7dwt-a1-m55-cC 7dwt-a1-m56-cA_7dwt-a1-m56-cC 7dwt-a1-m57-cA_7dwt-a1-m57-cC 7dwt-a1-m58-cA_7dwt-a1-m58-cC 7dwt-a1-m59-cA_7dwt-a1-m59-cC 7dwt-a1-m5-cA_7dwt-a1-m5-cC 7dwt-a1-m60-cA_7dwt-a1-m60-cC 7dwt-a1-m6-cA_7dwt-a1-m6-cC 7dwt-a1-m7-cA_7dwt-a1-m7-cC 7dwt-a1-m8-cA_7dwt-a1-m8-cC MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwu-a1-m24-cB_7dwu-a1-m9-cC Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 2 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 21 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwu-a1-m10-cB_7dwu-a1-m23-cC 7dwu-a1-m11-cB_7dwu-a1-m20-cC 7dwu-a1-m11-cC_7dwu-a1-m38-cB 7dwu-a1-m12-cB_7dwu-a1-m37-cC 7dwu-a1-m12-cC_7dwu-a1-m47-cB 7dwu-a1-m13-cB_7dwu-a1-m46-cC 7dwu-a1-m13-cC_7dwu-a1-m45-cB 7dwu-a1-m14-cB_7dwu-a1-m44-cC 7dwu-a1-m14-cC_7dwu-a1-m29-cB 7dwu-a1-m15-cB_7dwu-a1-m28-cC 7dwu-a1-m15-cC_7dwu-a1-m16-cB 7dwu-a1-m16-cC_7dwu-a1-m28-cB 7dwu-a1-m17-cB_7dwu-a1-m27-cC 7dwu-a1-m17-cC_7dwu-a1-m52-cB 7dwu-a1-m18-cB_7dwu-a1-m51-cC 7dwu-a1-m18-cC_7dwu-a1-m60-cB 7dwu-a1-m19-cB_7dwu-a1-m59-cC 7dwu-a1-m19-cC_7dwu-a1-m39-cB 7dwu-a1-m1-cB_7dwu-a1-m10-cC 7dwu-a1-m1-cC_7dwu-a1-m23-cB 7dwu-a1-m20-cB_7dwu-a1-m38-cC 7dwu-a1-m21-cB_7dwu-a1-m30-cC 7dwu-a1-m21-cC_7dwu-a1-m43-cB 7dwu-a1-m22-cB_7dwu-a1-m42-cC 7dwu-a1-m24-cC_7dwu-a1-m54-cB 7dwu-a1-m25-cB_7dwu-a1-m53-cC 7dwu-a1-m25-cC_7dwu-a1-m26-cB 7dwu-a1-m26-cC_7dwu-a1-m53-cB 7dwu-a1-m27-cB_7dwu-a1-m52-cC 7dwu-a1-m29-cC_7dwu-a1-m44-cB 7dwu-a1-m2-cB_7dwu-a1-m22-cC 7dwu-a1-m2-cC_7dwu-a1-m42-cB 7dwu-a1-m30-cB_7dwu-a1-m43-cC 7dwu-a1-m31-cB_7dwu-a1-m40-cC 7dwu-a1-m31-cC_7dwu-a1-m58-cB 7dwu-a1-m32-cB_7dwu-a1-m57-cC 7dwu-a1-m32-cC_7dwu-a1-m7-cB 7dwu-a1-m33-cB_7dwu-a1-m6-cC 7dwu-a1-m33-cC_7dwu-a1-m5-cB 7dwu-a1-m34-cB_7dwu-a1-m4-cC 7dwu-a1-m34-cC_7dwu-a1-m49-cB 7dwu-a1-m35-cB_7dwu-a1-m48-cC 7dwu-a1-m35-cC_7dwu-a1-m36-cB 7dwu-a1-m36-cC_7dwu-a1-m48-cB 7dwu-a1-m37-cB_7dwu-a1-m47-cC 7dwu-a1-m39-cC_7dwu-a1-m59-cB 7dwu-a1-m3-cB_7dwu-a1-m41-cC 7dwu-a1-m3-cC_7dwu-a1-m50-cB 7dwu-a1-m40-cB_7dwu-a1-m58-cC 7dwu-a1-m41-cB_7dwu-a1-m50-cC 7dwu-a1-m45-cC_7dwu-a1-m46-cB 7dwu-a1-m4-cB_7dwu-a1-m49-cC 7dwu-a1-m51-cB_7dwu-a1-m60-cC 7dwu-a1-m54-cC_7dwu-a1-m9-cB 7dwu-a1-m55-cB_7dwu-a1-m8-cC 7dwu-a1-m55-cC_7dwu-a1-m56-cB 7dwu-a1-m56-cC_7dwu-a1-m8-cB 7dwu-a1-m57-cB_7dwu-a1-m7-cC 7dwu-a1-m5-cC_7dwu-a1-m6-cB MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwu-a1-m55-cA_7dwu-a1-m9-cB Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 2 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 14 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwu-a1-m10-cA_7dwu-a1-m24-cB 7dwu-a1-m10-cB_7dwu-a1-m24-cA 7dwu-a1-m11-cA_7dwu-a1-m16-cB 7dwu-a1-m11-cB_7dwu-a1-m16-cA 7dwu-a1-m12-cA_7dwu-a1-m38-cB 7dwu-a1-m12-cB_7dwu-a1-m38-cA 7dwu-a1-m13-cA_7dwu-a1-m47-cB 7dwu-a1-m13-cB_7dwu-a1-m47-cA 7dwu-a1-m14-cA_7dwu-a1-m45-cB 7dwu-a1-m14-cB_7dwu-a1-m45-cA 7dwu-a1-m15-cA_7dwu-a1-m29-cB 7dwu-a1-m15-cB_7dwu-a1-m29-cA 7dwu-a1-m17-cA_7dwu-a1-m28-cB 7dwu-a1-m17-cB_7dwu-a1-m28-cA 7dwu-a1-m18-cA_7dwu-a1-m52-cB 7dwu-a1-m18-cB_7dwu-a1-m52-cA 7dwu-a1-m19-cA_7dwu-a1-m60-cB 7dwu-a1-m19-cB_7dwu-a1-m60-cA 7dwu-a1-m1-cA_7dwu-a1-m6-cB 7dwu-a1-m1-cB_7dwu-a1-m6-cA 7dwu-a1-m20-cA_7dwu-a1-m39-cB 7dwu-a1-m20-cB_7dwu-a1-m39-cA 7dwu-a1-m21-cA_7dwu-a1-m26-cB 7dwu-a1-m21-cB_7dwu-a1-m26-cA 7dwu-a1-m22-cA_7dwu-a1-m43-cB 7dwu-a1-m22-cB_7dwu-a1-m43-cA 7dwu-a1-m25-cA_7dwu-a1-m54-cB 7dwu-a1-m25-cB_7dwu-a1-m54-cA 7dwu-a1-m27-cA_7dwu-a1-m53-cB 7dwu-a1-m27-cB_7dwu-a1-m53-cA 7dwu-a1-m2-cA_7dwu-a1-m23-cB 7dwu-a1-m2-cB_7dwu-a1-m23-cA 7dwu-a1-m30-cA_7dwu-a1-m44-cB 7dwu-a1-m30-cB_7dwu-a1-m44-cA 7dwu-a1-m31-cA_7dwu-a1-m36-cB 7dwu-a1-m31-cB_7dwu-a1-m36-cA 7dwu-a1-m32-cA_7dwu-a1-m58-cB 7dwu-a1-m32-cB_7dwu-a1-m58-cA 7dwu-a1-m33-cA_7dwu-a1-m7-cB 7dwu-a1-m33-cB_7dwu-a1-m7-cA 7dwu-a1-m34-cA_7dwu-a1-m5-cB 7dwu-a1-m34-cB_7dwu-a1-m5-cA 7dwu-a1-m35-cA_7dwu-a1-m49-cB 7dwu-a1-m35-cB_7dwu-a1-m49-cA 7dwu-a1-m37-cA_7dwu-a1-m48-cB 7dwu-a1-m37-cB_7dwu-a1-m48-cA 7dwu-a1-m3-cA_7dwu-a1-m42-cB 7dwu-a1-m3-cB_7dwu-a1-m42-cA 7dwu-a1-m40-cA_7dwu-a1-m59-cB 7dwu-a1-m40-cB_7dwu-a1-m59-cA 7dwu-a1-m41-cA_7dwu-a1-m46-cB 7dwu-a1-m41-cB_7dwu-a1-m46-cA 7dwu-a1-m4-cA_7dwu-a1-m50-cB 7dwu-a1-m4-cB_7dwu-a1-m50-cA 7dwu-a1-m51-cA_7dwu-a1-m56-cB 7dwu-a1-m51-cB_7dwu-a1-m56-cA 7dwu-a1-m55-cB_7dwu-a1-m9-cA 7dwu-a1-m57-cA_7dwu-a1-m8-cB 7dwu-a1-m57-cB_7dwu-a1-m8-cA MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwu-a1-m9-cA_7dwu-a1-m9-cB Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 2 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 54 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwu-a1-m10-cA_7dwu-a1-m10-cB 7dwu-a1-m11-cA_7dwu-a1-m11-cB 7dwu-a1-m12-cA_7dwu-a1-m12-cB 7dwu-a1-m13-cA_7dwu-a1-m13-cB 7dwu-a1-m14-cA_7dwu-a1-m14-cB 7dwu-a1-m15-cA_7dwu-a1-m15-cB 7dwu-a1-m16-cA_7dwu-a1-m16-cB 7dwu-a1-m17-cA_7dwu-a1-m17-cB 7dwu-a1-m18-cA_7dwu-a1-m18-cB 7dwu-a1-m19-cA_7dwu-a1-m19-cB 7dwu-a1-m1-cA_7dwu-a1-m1-cB 7dwu-a1-m20-cA_7dwu-a1-m20-cB 7dwu-a1-m21-cA_7dwu-a1-m21-cB 7dwu-a1-m22-cA_7dwu-a1-m22-cB 7dwu-a1-m23-cA_7dwu-a1-m23-cB 7dwu-a1-m24-cA_7dwu-a1-m24-cB 7dwu-a1-m25-cA_7dwu-a1-m25-cB 7dwu-a1-m26-cA_7dwu-a1-m26-cB 7dwu-a1-m27-cA_7dwu-a1-m27-cB 7dwu-a1-m28-cA_7dwu-a1-m28-cB 7dwu-a1-m29-cA_7dwu-a1-m29-cB 7dwu-a1-m2-cA_7dwu-a1-m2-cB 7dwu-a1-m30-cA_7dwu-a1-m30-cB 7dwu-a1-m31-cA_7dwu-a1-m31-cB 7dwu-a1-m32-cA_7dwu-a1-m32-cB 7dwu-a1-m33-cA_7dwu-a1-m33-cB 7dwu-a1-m34-cA_7dwu-a1-m34-cB 7dwu-a1-m35-cA_7dwu-a1-m35-cB 7dwu-a1-m36-cA_7dwu-a1-m36-cB 7dwu-a1-m37-cA_7dwu-a1-m37-cB 7dwu-a1-m38-cA_7dwu-a1-m38-cB 7dwu-a1-m39-cA_7dwu-a1-m39-cB 7dwu-a1-m3-cA_7dwu-a1-m3-cB 7dwu-a1-m40-cA_7dwu-a1-m40-cB 7dwu-a1-m41-cA_7dwu-a1-m41-cB 7dwu-a1-m42-cA_7dwu-a1-m42-cB 7dwu-a1-m43-cA_7dwu-a1-m43-cB 7dwu-a1-m44-cA_7dwu-a1-m44-cB 7dwu-a1-m45-cA_7dwu-a1-m45-cB 7dwu-a1-m46-cA_7dwu-a1-m46-cB 7dwu-a1-m47-cA_7dwu-a1-m47-cB 7dwu-a1-m48-cA_7dwu-a1-m48-cB 7dwu-a1-m49-cA_7dwu-a1-m49-cB 7dwu-a1-m4-cA_7dwu-a1-m4-cB 7dwu-a1-m50-cA_7dwu-a1-m50-cB 7dwu-a1-m51-cA_7dwu-a1-m51-cB 7dwu-a1-m52-cA_7dwu-a1-m52-cB 7dwu-a1-m53-cA_7dwu-a1-m53-cB 7dwu-a1-m54-cA_7dwu-a1-m54-cB 7dwu-a1-m55-cA_7dwu-a1-m55-cB 7dwu-a1-m56-cA_7dwu-a1-m56-cB 7dwu-a1-m57-cA_7dwu-a1-m57-cB 7dwu-a1-m58-cA_7dwu-a1-m58-cB 7dwu-a1-m59-cA_7dwu-a1-m59-cB 7dwu-a1-m5-cA_7dwu-a1-m5-cB 7dwu-a1-m60-cA_7dwu-a1-m60-cB 7dwu-a1-m6-cA_7dwu-a1-m6-cB 7dwu-a1-m7-cA_7dwu-a1-m7-cB 7dwu-a1-m8-cA_7dwu-a1-m8-cB MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwu-a1-m9-cA_7dwu-a1-m9-cC Cryo-EM structure of Dengue virus serotype 1 strain WestPac 74 in complex with human antibody 1C19 Fab at 37 deg C (Class 2 particle) P17763 P17763 19.0 ELECTRON MICROSCOPY 106 1.0 11053 (dengue virus type I) 11053 (dengue virus type I) 394 394 7dwu-a1-m10-cA_7dwu-a1-m10-cC 7dwu-a1-m11-cA_7dwu-a1-m11-cC 7dwu-a1-m12-cA_7dwu-a1-m12-cC 7dwu-a1-m13-cA_7dwu-a1-m13-cC 7dwu-a1-m14-cA_7dwu-a1-m14-cC 7dwu-a1-m15-cA_7dwu-a1-m15-cC 7dwu-a1-m16-cA_7dwu-a1-m16-cC 7dwu-a1-m17-cA_7dwu-a1-m17-cC 7dwu-a1-m18-cA_7dwu-a1-m18-cC 7dwu-a1-m19-cA_7dwu-a1-m19-cC 7dwu-a1-m1-cA_7dwu-a1-m1-cC 7dwu-a1-m20-cA_7dwu-a1-m20-cC 7dwu-a1-m21-cA_7dwu-a1-m21-cC 7dwu-a1-m22-cA_7dwu-a1-m22-cC 7dwu-a1-m23-cA_7dwu-a1-m23-cC 7dwu-a1-m24-cA_7dwu-a1-m24-cC 7dwu-a1-m25-cA_7dwu-a1-m25-cC 7dwu-a1-m26-cA_7dwu-a1-m26-cC 7dwu-a1-m27-cA_7dwu-a1-m27-cC 7dwu-a1-m28-cA_7dwu-a1-m28-cC 7dwu-a1-m29-cA_7dwu-a1-m29-cC 7dwu-a1-m2-cA_7dwu-a1-m2-cC 7dwu-a1-m30-cA_7dwu-a1-m30-cC 7dwu-a1-m31-cA_7dwu-a1-m31-cC 7dwu-a1-m32-cA_7dwu-a1-m32-cC 7dwu-a1-m33-cA_7dwu-a1-m33-cC 7dwu-a1-m34-cA_7dwu-a1-m34-cC 7dwu-a1-m35-cA_7dwu-a1-m35-cC 7dwu-a1-m36-cA_7dwu-a1-m36-cC 7dwu-a1-m37-cA_7dwu-a1-m37-cC 7dwu-a1-m38-cA_7dwu-a1-m38-cC 7dwu-a1-m39-cA_7dwu-a1-m39-cC 7dwu-a1-m3-cA_7dwu-a1-m3-cC 7dwu-a1-m40-cA_7dwu-a1-m40-cC 7dwu-a1-m41-cA_7dwu-a1-m41-cC 7dwu-a1-m42-cA_7dwu-a1-m42-cC 7dwu-a1-m43-cA_7dwu-a1-m43-cC 7dwu-a1-m44-cA_7dwu-a1-m44-cC 7dwu-a1-m45-cA_7dwu-a1-m45-cC 7dwu-a1-m46-cA_7dwu-a1-m46-cC 7dwu-a1-m47-cA_7dwu-a1-m47-cC 7dwu-a1-m48-cA_7dwu-a1-m48-cC 7dwu-a1-m49-cA_7dwu-a1-m49-cC 7dwu-a1-m4-cA_7dwu-a1-m4-cC 7dwu-a1-m50-cA_7dwu-a1-m50-cC 7dwu-a1-m51-cA_7dwu-a1-m51-cC 7dwu-a1-m52-cA_7dwu-a1-m52-cC 7dwu-a1-m53-cA_7dwu-a1-m53-cC 7dwu-a1-m54-cA_7dwu-a1-m54-cC 7dwu-a1-m55-cA_7dwu-a1-m55-cC 7dwu-a1-m56-cA_7dwu-a1-m56-cC 7dwu-a1-m57-cA_7dwu-a1-m57-cC 7dwu-a1-m58-cA_7dwu-a1-m58-cC 7dwu-a1-m59-cA_7dwu-a1-m59-cC 7dwu-a1-m5-cA_7dwu-a1-m5-cC 7dwu-a1-m60-cA_7dwu-a1-m60-cC 7dwu-a1-m6-cA_7dwu-a1-m6-cC 7dwu-a1-m7-cA_7dwu-a1-m7-cC 7dwu-a1-m8-cA_7dwu-a1-m8-cC MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK MRCVGIGNRDFVEGLSGATWVDVVLEHGSCVTTMAKDKPTLDIELLKTEVTNPAVLRKLCIEAKISNTTTDSRCPTQGEATLVEEQDTNFVCRRTFVDRGWGNGCGLFGKGSLITCAKFKCVTKLEGKIVQYENLKYSVIVTVHTGDQHQVGNETTEHGTIATITPQAPTSEIQLTDYGALTLDCSPRTGLDFNEMVLLTMEKKSWLVHKQWFLDLPLPWTSGASTSQETWNRQDLLVTFKTAHAKKQEVVVLGSQEGAMHTALTGATEIQTSGTTTIFAGHLKCRLKMDKLTLKGMSYVMCTGSFKLEKEVAETQHGTVLVQVKYEGTDAPCKIPFSSQDEKGVTQNGRLITANPIVTDKEKPVNIEAEPPFGESYIVVGAGEKALKLSWFKK 7dwx-a1-m1-cB_7dwx-a1-m1-cD Conformation 1 of S-ACE2-B0AT1 ternary complex Q9BYF1 Q9BYF1 8.3 ELECTRON MICROSCOPY 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 748 748 6m17-a1-m1-cB_6m17-a1-m1-cD 6m18-a1-m1-cB_6m18-a1-m1-cD 7l7f-a1-m1-cB_7l7f-a1-m1-cD 7v61-a1-m1-cB_7v61-a1-m1-cD 7y75-a1-m1-cA_7y75-a1-m1-cC 7y76-a1-m1-cA_7y76-a1-m1-cC IEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNITEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNPDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNVQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYADQSIKVRISLKSALGDKAYEWNDNEMYLFRSSVAYAMRQYFLKVKNQMILFGEEDVRVANLKPRISFNFFVTAPKNVSDIIPRTEVEKAIRMSRSRINDAFRLNDNSLEFLGIQPTLGPPNQPPVSIWLIVFGVVMGVIVVGIVILIFTGIRDR IEEQAKTFLDKFNHEAEDLFYQSSLASWNYNTNITEENVQNMNNAGDKWSAFLKEQSTLAQMYPLQEIQNLTVKLQLQALQQNGSSVLSEDKSKRLNTILNTMSTIYSTGKVCNPDNPQECLLLEPGLNEIMANSLDYNERLWAWESWRSEVGKQLRPLYEEYVVLKNEMARANHYEDYGDYWRGDYEVNGVDGYDYSRGQLIEDVEHTFEEIKPLYEHLHAYVRAKLMNAYPSYISPIGCLPAHLLGDMWGRFWTNLYSLTVPFGQKPNIDVTDAMVDQAWDAQRIFKEAEKFFVSVGLPNMTQGFWENSMLTDPGNVQKAVCHPTAWDLGKGDFRILMCTKVTMDDFLTAHHEMGHIQYDMAYAAQPFLLRNGANEGFHEAVGEIMSLSAATPKHLKSIGLLSPDFQEDNETEINFLLKQALTIVGTLPFTYMLEKWRWMVFKGEIPKDQWMKKWWEMKREIVGVVEPVPHDETYCDPASLFHVSNDYSFIRYYTRTLYQFQFQEALCQAAKHEGPLHKCDISNSTEAGQKLFNMLRLGKSEPWTLALENVVGAKNMNVRPLLNYFEPLFTWLKDQNKNSFVGWSTDWSPYADQSIKVRISLKSALGDKAYEWNDNEMYLFRSSVAYAMRQYFLKVKNQMILFGEEDVRVANLKPRISFNFFVTAPKNVSDIIPRTEVEKAIRMSRSRINDAFRLNDNSLEFLGIQPTLGPPNQPPVSIWLIVFGVVMGVIVVGIVILIFTGIRDR 7dx1-a1-m1-cB_7dx1-a1-m1-cC S protein of SARS-CoV-2 D614G mutant P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 280 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 971 971 7dx0-a1-m1-cB_7dx0-a1-m1-cA 7dx0-a1-m1-cB_7dx0-a1-m1-cC 7dx0-a1-m1-cC_7dx0-a1-m1-cA 7dx1-a1-m1-cB_7dx1-a1-m1-cA 7dx1-a1-m1-cC_7dx1-a1-m1-cA 7dx2-a1-m1-cB_7dx2-a1-m1-cA 7dx2-a1-m1-cB_7dx2-a1-m1-cC 7dx2-a1-m1-cC_7dx2-a1-m1-cA 7dx3-a1-m1-cB_7dx3-a1-m1-cA 7dx3-a1-m1-cB_7dx3-a1-m1-cC 7dx3-a1-m1-cC_7dx3-a1-m1-cA 7dx5-a1-m1-cB_7dx5-a1-m1-cC 7dx6-a1-m1-cB_7dx6-a1-m1-cC 7dx7-a1-m1-cB_7dx7-a1-m1-cC 7dx8-a1-m1-cB_7dx8-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7dx5-a1-m1-cB_7dx5-a1-m1-cA S protein of SARS-CoV-2 bound with PD of ACE2 in the conformation 2 (1 up RBD and 1 PD bound) P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 248 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 971 1007 7czx-a1-m1-cB_7czx-a1-m1-cC 7dwx-a1-m1-cF_7dwx-a1-m1-cE 7dwx-a1-m1-cF_7dwx-a1-m1-cG 7dwx-a1-m1-cG_7dwx-a1-m1-cE 7dwx-a1-m1-cI_7dwx-a1-m1-cH 7dwx-a1-m1-cI_7dwx-a1-m1-cJ 7dwx-a1-m1-cJ_7dwx-a1-m1-cH 7dwz-a1-m1-cB_7dwz-a1-m1-cA 7dwz-a1-m1-cB_7dwz-a1-m1-cC 7dwz-a1-m1-cC_7dwz-a1-m1-cA 7dx5-a1-m1-cC_7dx5-a1-m1-cA 7dx6-a1-m1-cB_7dx6-a1-m1-cA 7dx6-a1-m1-cC_7dx6-a1-m1-cA 7dx7-a1-m1-cB_7dx7-a1-m1-cA 7dx7-a1-m1-cC_7dx7-a1-m1-cA 7dx8-a1-m1-cB_7dx8-a1-m1-cA 7dx8-a1-m1-cC_7dx8-a1-m1-cA 7dx9-a1-m1-cA_7dx9-a1-m1-cB 7dx9-a1-m1-cA_7dx9-a1-m1-cC 7dx9-a1-m1-cB_7dx9-a1-m1-cC 7epx-a1-m1-cB_7epx-a1-m1-cA 7epx-a1-m1-cC_7epx-a1-m1-cA 7epx-a1-m1-cC_7epx-a1-m1-cB 7wwl-a1-m1-cB_7wwl-a1-m1-cA 7wwl-a1-m1-cB_7wwl-a1-m1-cC 7wwl-a1-m1-cC_7wwl-a1-m1-cA 7wwm-a1-m1-cB_7wwm-a1-m1-cA 7wwm-a1-m1-cB_7wwm-a1-m1-cC 7wwm-a1-m1-cC_7wwm-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7dxe-a1-m1-cB_7dxe-a1-m1-cD Structure of TRPC3 gain of function mutation R803C at 3.2 angstrom in 1340nM free calcium state Q13507 Q13507 3.2 ELECTRON MICROSCOPY 158 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 685 685 6cud-a1-m1-cA_6cud-a1-m1-cB 6cud-a1-m1-cA_6cud-a1-m1-cD 6cud-a1-m1-cB_6cud-a1-m1-cC 6cud-a1-m1-cC_6cud-a1-m1-cD 7dxb-a1-m1-cA_7dxb-a1-m1-cB 7dxb-a1-m1-cA_7dxb-a1-m1-cD 7dxb-a1-m1-cB_7dxb-a1-m1-cC 7dxb-a1-m1-cC_7dxb-a1-m1-cD 7dxc-a1-m1-cA_7dxc-a1-m1-cB 7dxc-a1-m1-cA_7dxc-a1-m1-cC 7dxc-a1-m1-cB_7dxc-a1-m1-cD 7dxc-a1-m1-cC_7dxc-a1-m1-cD 7dxd-a1-m1-cA_7dxd-a1-m1-cB 7dxd-a1-m1-cA_7dxd-a1-m1-cC 7dxd-a1-m1-cB_7dxd-a1-m1-cD 7dxd-a1-m1-cC_7dxd-a1-m1-cD 7dxe-a1-m1-cA_7dxe-a1-m1-cC 7dxe-a1-m1-cA_7dxe-a1-m1-cD 7dxe-a1-m1-cB_7dxe-a1-m1-cC TSLTAEEERFLDAAEYGNIPVVRKMLEESKTLNVNCVDYMGQNALQLAVGNEHLEVTELLLKKENLARIGDALLLAISKGYVRIVEAILNHPGFAASKRLTLSPCEQELQDDDFYAYDEDGTRFSPDITPIILAAHCQKYEVVHMLLMKGARIERPHDYFCKCGDCMEKQRHDSFSHSRSRINAYKGLASPAYLSLSSEDPVLTALELSNELAKLANIEKEFKNDYRKLSMQCKDFVVGVLDLCRDSEEVEAILNGDSLSRVKLAIKYEVKKFVAHPNCQQQLLTIWYENLSGLREQTIAIKCLVVLVVALGLPFLAIGYWIAPCSRLGKILRSPFMKFVAHAASFIIFLGLLVFNASDRFEGITTLPNITVTDYPKQIFRVKTTQFTWTEMLIMVWVLGMMWSECKELWLEGPREYILQLWNVLDFGMLSIFIAAFTARFLAFLQATKAQQYVDSYVQESDLSEVTLPPEIQYFTYARDKWLPSDPQIISEGLYAIAVVLSFSRIAYILPANESFGPLQISLGRTVKDIFKFMVLFIMVFFAFMIGMFILYSYYLGAKVNAAFTTVEESFKTLFWSIFGLSEVTSVVLKYDHKFIENIGYVLYGIYNVTMVVVLLNMLIAMINSSYDDSDVEWKFARSKLWLSYFDKTLPPPFSLVPQPTRYQQIMKRLIKRYVLKAQVDKEND TSLTAEEERFLDAAEYGNIPVVRKMLEESKTLNVNCVDYMGQNALQLAVGNEHLEVTELLLKKENLARIGDALLLAISKGYVRIVEAILNHPGFAASKRLTLSPCEQELQDDDFYAYDEDGTRFSPDITPIILAAHCQKYEVVHMLLMKGARIERPHDYFCKCGDCMEKQRHDSFSHSRSRINAYKGLASPAYLSLSSEDPVLTALELSNELAKLANIEKEFKNDYRKLSMQCKDFVVGVLDLCRDSEEVEAILNGDSLSRVKLAIKYEVKKFVAHPNCQQQLLTIWYENLSGLREQTIAIKCLVVLVVALGLPFLAIGYWIAPCSRLGKILRSPFMKFVAHAASFIIFLGLLVFNASDRFEGITTLPNITVTDYPKQIFRVKTTQFTWTEMLIMVWVLGMMWSECKELWLEGPREYILQLWNVLDFGMLSIFIAAFTARFLAFLQATKAQQYVDSYVQESDLSEVTLPPEIQYFTYARDKWLPSDPQIISEGLYAIAVVLSFSRIAYILPANESFGPLQISLGRTVKDIFKFMVLFIMVFFAFMIGMFILYSYYLGAKVNAAFTTVEESFKTLFWSIFGLSEVTSVVLKYDHKFIENIGYVLYGIYNVTMVVVLLNMLIAMINSSYDDSDVEWKFARSKLWLSYFDKTLPPPFSLVPQPTRYQQIMKRLIKRYVLKAQVDKEND 7dxi-a1-m1-cA_7dxi-a1-m1-cB Structure of Drosophila melanogaster GlcNAc-1-phosphotransferase A1Z7S7 A1Z7S7 3.53 ELECTRON MICROSCOPY 75 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 371 371 ACTAIDAVYTWVNGSDPNFIEDIRRFKNELRYSLRSLEKHAAWIRHVYIVTNGQIPSWLDLSYERVTVVPHEVLAPDPDQLPTFSSSAIETFLHRIPKLSKRFLYLNDDIFLGAPLYPEDLYTEAEGVRVYQATDIYSHSLIATNMLLNRAYGFKARHVLAHVGFLIDKDIVEAMQRRFHQQILDTAHQRFRAPTDLQYAFAYYSFLMSETKVMSVEEIFDEFDTDGSATWSDREVRTFLTRIYQPPLDWSAMRYFEEVVQNCTLPTITRDLVVRCPLLAEALAANFAVRPKYNFHVSPKRTSHSNFMMLTSNLTEVVESLDRLRRNPRKFNCINDNLDANRGEDNEMVRHLLEDFYLSFFPRRSKFELPP ACTAIDAVYTWVNGSDPNFIEDIRRFKNELRYSLRSLEKHAAWIRHVYIVTNGQIPSWLDLSYERVTVVPHEVLAPDPDQLPTFSSSAIETFLHRIPKLSKRFLYLNDDIFLGAPLYPEDLYTEAEGVRVYQATDIYSHSLIATNMLLNRAYGFKARHVLAHVGFLIDKDIVEAMQRRFHQQILDTAHQRFRAPTDLQYAFAYYSFLMSETKVMSVEEIFDEFDTDGSATWSDREVRTFLTRIYQPPLDWSAMRYFEEVVQNCTLPTITRDLVVRCPLLAEALAANFAVRPKYNFHVSPKRTSHSNFMMLTSNLTEVVESLDRLRRNPRKFNCINDNLDANRGEDNEMVRHLLEDFYLSFFPRRSKFELPP 7dxn-a2-m1-cB_7dxn-a2-m2-cB Plant growth-promoting factor YxaL from Bacillus velezensis A7ZAJ3 A7ZAJ3 1.8 X-RAY DIFFRACTION 29 1.0 326423 (Bacillus velezensis FZB42) 326423 (Bacillus velezensis FZB42) 365 365 TVFKQNHAASGFLAGRYDAQASPTFNWSRESRFTSTADGALKWEKNVPATPQNGAGAAVDGDGTVFIQSKDGKLTAYHPDGTVKWVTENLGTTYTLTPVLGTNGVIYLPSHDKKLYFIDKETGNILTSVPLSGAPSSDAAIGPDGTLYVSTLDNYIYAIKPTSPSTWTQKWKFKTNGVVGSAPVLASNGTLYTATYNNIFYAINSGTGQVKWSKTTSNGFKGYPVIDRDGTVYAGNQDGNLYAYTSTGAVKWTFPLNGFSSSSLAIDHNGNVYIGSGSGELFSISKTGNNWSFYTDGPVRTAPLIDADGNVYFGSDDKNVYAVDADGNEKWRYQTDSNVISSPVLAEDGTLYVGTYTKLLAFGAK TVFKQNHAASGFLAGRYDAQASPTFNWSRESRFTSTADGALKWEKNVPATPQNGAGAAVDGDGTVFIQSKDGKLTAYHPDGTVKWVTENLGTTYTLTPVLGTNGVIYLPSHDKKLYFIDKETGNILTSVPLSGAPSSDAAIGPDGTLYVSTLDNYIYAIKPTSPSTWTQKWKFKTNGVVGSAPVLASNGTLYTATYNNIFYAINSGTGQVKWSKTTSNGFKGYPVIDRDGTVYAGNQDGNLYAYTSTGAVKWTFPLNGFSSSSLAIDHNGNVYIGSGSGELFSISKTGNNWSFYTDGPVRTAPLIDADGNVYFGSDDKNVYAVDADGNEKWRYQTDSNVISSPVLAEDGTLYVGTYTKLLAFGAK 7dxp-a1-m1-cA_7dxp-a1-m1-cB Influenza H5N1 nucleoprotein in complex with nucleotides Q9IP53 Q9IP53 2.3 X-RAY DIFFRACTION 31 1.0 88104 (Influenza A virus (A/Hong Kong/483/1997(H5N1))) 88104 (Influenza A virus (A/Hong Kong/483/1997(H5N1))) 399 418 7dkg-a1-m1-cA_7dkg-a1-m1-cB TEIRASVGRMVGGIGRFYIQMCTELKLSDQEGRLIQNSITIERMVLSAFDERRKDPKKTGGPIYRRRDGKWVRELILYDKEEIRRIWRQANNGEDATAGLTHMMIWHSNLNDATYQRTRALVRTGMDPRMCSLMQGSTLPRRSGAAGAAIKGVGTMVMELIRMIKRGIFWNGRRTRIAYERMCNILKGKFQTAAQKAMMDQVRESRNPGNAEIEDLIFLARSALILRGSIAHKSCLPACVYGLAVASGYDFEREGYSLVGIDPFRLLQNSQVFSLIRPNENPAHKSQLVWMACHSAAFEDLRVSSFIRGTRVIPRGQLSTRGVQIASNENVEAMDSSTLELRSRYWAISDMRTEIIRMMESARGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD ATEIRASVGRMVGGIGRFYIQMCTELKLSDQEGRLIQNSITIERMVLSAFDERRNRYAGKDPKKTGGPIYRRRDGKWVRELILYDKEEIRRIWRQANNGEDATAGLTHMMIWHSNLNDATYQRTRALVRTGMDPRMCSLMQGSTLPRRSGAAGAAIKGVGTMVMELIRMIKRGINDRNFWRGENGRRTRIAYERMCNILKGKFQTAAQKAMMDQVRESRNPGNAEIEDLIFLARSALILRGSIAHKSCLPACVYGLAVASGYDFEREGYSLVGIDPFRLLQNSQVFSLIRPNENPAHKSQLVWMACHSAAFEDLRVSSFIRGTRVIPRGQLSTRGVQIASNENVEAMDSSTLELRSRYWAITSDMRTEIIRMMESARPFQGRGVFELSDEKATNPIVPSFDMSNEGSYFFGDNAEEYD 7dxs-a2-m1-cD_7dxs-a2-m1-cC Crystal structure of the ap1h peptide homodimer. 2.102 X-RAY DIFFRACTION 182 1.0 32630 (synthetic construct) 32630 (synthetic construct) 44 49 7dxs-a1-m1-cB_7dxs-a1-m1-cA SSVELRVAEAYPEDVGRGIVRMDKQTRAKLGVSVGDYVEVKKVD GPMANSSVELRVAEAYPEDVGRGIVRMDKQTRAKLGVSVGDYVEVKKVD 7dxt-a1-m1-cA_7dxt-a1-m2-cA Crystal structure of the chemically synthesized mk2h peptide homodimer 1.8 X-RAY DIFFRACTION 175 1.0 32630 (synthetic construct) 32630 (synthetic construct) 43 43 7dxr-a1-m1-cB_7dxr-a1-m1-cA 7dxr-a2-m1-cC_7dxr-a2-m1-cD 7dxu-a1-m1-cA_7dxu-a1-m1-cB 7dxu-a2-m1-cC_7dxu-a2-m1-cD 7dxv-a1-m1-cA_7dxv-a1-m1-cB 7dxw-a1-m1-cA_7dxw-a1-m2-cA KSVVARVAEAYPEDVGKRIVRMDKYERAKLGVSVGDYVEVKKV KSVVARVAEAYPEDVGKRIVRMDKYERAKLGVSVGDYVEVKKV 7dxz-a1-m1-cA_7dxz-a1-m3-cA Crystal structure of the chemically synthesized mk2h_deltaMILPYS peptide homodimer in complex with malonate 1.9 X-RAY DIFFRACTION 174 1.0 32630 (synthetic construct) 32630 (synthetic construct) 42 42 7dxx-a1-m1-cA_7dxx-a1-m1-cB 7dxy-a1-m1-cA_7dxy-a1-m1-cB 7dxz-a2-m1-cB_7dxz-a2-m1-cC 7dxz-a3-m1-cD_7dxz-a3-m2-cD 7dyc-a1-m1-cA_7dyc-a1-m2-cA 7dyc-a2-m1-cB_7dyc-a2-m1-cD 7dyc-a3-m1-cC_7dyc-a3-m3-cC KVVARVAEARAEDVGKRVVRVDKAERAKVGVKVGDVVEVKKV KVVARVAEARAEDVGKRVVRVDKAERAKVGVKVGDVVEVKKV 7dy2-a1-m1-cE_7dy2-a1-m1-cF Crystal Structure of Cyanobacterial Circadian Clock Protein KaiC Q79PF4 Q79PF4 3.04 X-RAY DIFFRACTION 180 0.989 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 463 466 4tl9-a1-m1-cD_4tl9-a1-m1-cC 4tlb-a1-m1-cF_4tlb-a1-m1-cE 4tld-a1-m1-cF_4tld-a1-m1-cE IAKMRTMIEGFDDISHGGLPIGRSTLVSGTSGTGKTLFSIQFLYNGIIEFDEPGVFVTFEETPQDIIKNARSFGWDLAKLVDEGKLFILDASPDPGGFDLSALIERINYAIQKYRARRVSIDSVTSVFQSSVVRRELFRLVARLKQIGATTVMTTERIEEYGPIARYGVEEFVSDNVVILRNVLEGERRRRTLEILKLRGTSHMKGEYPFTITDHGINIFPLGASSNVRVSSGVVRLDEMCGGGFFKDSIILATGATGTGKTLLVSRFVENACANKERAILFAYEESRAQLLRNAYSWGMDFEEMERQNLLKIVCAYPESAGLEDHLQIIKSEINDFKPARIAIDSLSALARGVSNNAFRQFVIGVTGYAKQEEITGLFTNTSDQFMGAHSITDSHITITDTIILLQYVEIRGEMSRAINVFKMRGSWHDKAIREFMISDKGPDIKDSFRNFERIISGSPTRI AIAKMRTMIEGFDDISHGGLPIGRSTLVSGTSGTGKTLFSIQFLYNGIIEFDEPGVFVTFEETPQDIIKNARSFGWDLAKLVDEGKLFILDASPDPEFDLSALIERINYAIQKYRARRVSIDSVTSVFQASSVVRRELFRLVARLKQIGATTVMTTERIEEYGPIARYGVEEFVSDNVVILRNVLEGERRRRTLEILKLRGTSHMKGEYPFTITDHGINIFPRLTQRSSNVRVSSGVVRLDEMCGGGFFKDSIILATGATGTGKTLLVSRFVENACANKERAILFAYEESRAQLLRNAYSWGMDFEEMERQNLLKIVCAYPESAGLEDHLQIIKSEINDFKPARIAIDSLSALARGVSNNAFRQFVIGVTGYAKQEEITGLFTNTSDQFMGAHSITDSHITITDTIILLQYVEIRGEMSRAINVFKMRGSWHDKAIREFMISDKGPDIKDSFRNFERIISGSPTRI 7dy6-a1-m1-cJ_7dy6-a1-m1-cI A refined cryo-EM structure of an Escherichia coli RNAP-promoter open complex (RPo) with SspA P0ACA3 P0ACA3 3.68 ELECTRON MICROSCOPY 44 0.995 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 201 206 6wmu-a1-m1-cK_6wmu-a1-m1-cL 7c97-a1-m1-cJ_7c97-a1-m1-cI VMTLFSGPTDIYSHQVRIVLAEKGVSFEIEHVEKDNPPQDLIDLNPNQSVPTLVDRELTLWESRIIMEYLDERFPHPPLMPVYPVARGESRLYMHRIEKDWYTLMNTIINGSASEADAARKQLREELLAIAPVFGQKPYFLSDEFSLVDCYLAPLLWRLPQLGIEFSGPGAKELKGYMTRVFERDSFLASLTEAEREMRLG AANKRSVMTLFSGPTDIYSHQVRIVLAEKGVSFEIEHVEKDNPPQDLIDLNPNQSVPTLVDRELTLWESRIIMEYLDERFPHPPLMPVYPVARGESRLYMHRIEKDWYTLMNTIINGSASEADAARKQLREELLAIAPVFGQKPYFLSDEFSLVDCYLAPLLWRLPQLGIEFSGPGAKELKGYMTRVFERDSFLASLTEAEREMRL 7dyr-a1-m1-cE_7dyr-a1-m1-cY CryoEM Structure of Mannose Transporter ManYZ and Microcin E492 (MceA) complex P69801 P69801 2.28 ELECTRON MICROSCOPY 30 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 248 248 7dyr-a1-m1-cB_7dyr-a1-m1-cE 7dyr-a1-m1-cB_7dyr-a1-m1-cY MEITTLQIVLVFIVACIAGMGSILDEFQFHRPLIACTLVGIVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTILVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAADNGNLTAISWIHVSSLFLQAMRVAIPAVIVALSVGTSEVQNMLNAIPEVVTNGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGTVMAVLYIQLSPKYNRV MEITTLQIVLVFIVACIAGMGSILDEFQFHRPLIACTLVGIVLGDMKTGIIIGGTLEMIALGWMNIGAAVAPDAALASIISTILVIAGHQSIGAGIALAIPLAAAGQVLTIIVRTITVAFQHAADKAADNGNLTAISWIHVSSLFLQAMRVAIPAVIVALSVGTSEVQNMLNAIPEVVTNGLNIAGGMIVVVGYAMVINMMRAGYLMPFFYLGFVTAAFTNFNLVALGVIGTVMAVLYIQLSPKYNRV 7dys-a1-m1-cC_7dys-a1-m1-cD CryoEM structure of full length mouse TRPML2 Q8K595 Q8K595 3.18 ELECTRON MICROSCOPY 194 1.0 10090 (Mus musculus) 10090 (Mus musculus) 387 387 7dys-a1-m1-cA_7dys-a1-m1-cB 7dys-a1-m1-cA_7dys-a1-m1-cD 7dys-a1-m1-cB_7dys-a1-m1-cC KLGLQILKIVMVTTQLVRFGLSNQLVVAFKEDNTVAFKHLFLKGFSGVDEDDYSCSIYTQENTYESIFFAIKQYRHLKNISLATLGYGEDNRTGLKVCKQHYKTDSDIETDCIHLDLQVLTTEPEDWAQTSFFRLDFYRLVQVDISFALKGIDLQAVHSREIPDCYLFQNTITFDNTAHSGKIKIYLNSEANIEECLLVFDVFVIMICLASLILCTRSIVLALRLRGWYVLVTISDLMTIIGSILKMEDVCSILLGTSTLFVWVGVIRYLGYFQTYNVLILTMQASLPKVLRFCACAGMIYLGYTFCGWIVLGPYHFENLNIVAECLFSLVNGDDMFATFAQIQSILVWLFSRLYLYSFISLFIYMVLSLFIALITDSYHTIKKYQQ KLGLQILKIVMVTTQLVRFGLSNQLVVAFKEDNTVAFKHLFLKGFSGVDEDDYSCSIYTQENTYESIFFAIKQYRHLKNISLATLGYGEDNRTGLKVCKQHYKTDSDIETDCIHLDLQVLTTEPEDWAQTSFFRLDFYRLVQVDISFALKGIDLQAVHSREIPDCYLFQNTITFDNTAHSGKIKIYLNSEANIEECLLVFDVFVIMICLASLILCTRSIVLALRLRGWYVLVTISDLMTIIGSILKMEDVCSILLGTSTLFVWVGVIRYLGYFQTYNVLILTMQASLPKVLRFCACAGMIYLGYTFCGWIVLGPYHFENLNIVAECLFSLVNGDDMFATFAQIQSILVWLFSRLYLYSFISLFIYMVLSLFIALITDSYHTIKKYQQ 7dz2-a1-m1-cA_7dz2-a1-m1-cB Crystal structures of D-allulose 3-epimerase from Sinorhizobium fredii A0A249Q1V1 A0A249Q1V1 1.55 X-RAY DIFFRACTION 64 1.0 1128334 (Sinorhizobium fredii CCBAU 83666) 1128334 (Sinorhizobium fredii CCBAU 83666) 282 282 7dz2-a1-m1-cC_7dz2-a1-m1-cD 7dz3-a1-m1-cA_7dz3-a1-m1-cB 7dz3-a1-m1-cC_7dz3-a1-m1-cD 7dz4-a1-m1-cB_7dz4-a1-m1-cA 7dz4-a1-m1-cD_7dz4-a1-m1-cC 7dz5-a1-m1-cB_7dz5-a1-m1-cA 7dz5-a1-m1-cD_7dz5-a1-m1-cC 7dz6-a1-m1-cA_7dz6-a1-m1-cB 7dz6-a1-m1-cC_7dz6-a1-m1-cD MQGFGVHTSMWTMNWDRPGAERAVAAALKYEVDFIEIPMLNPPAVDTEHTRALLEKNELRALCSLGLPERAWASVRPDAAIEHLKVAIDKTADLGGEALSGVIYGGIGERTGVPPTEAEYDNIARVLSAAAKHAKSRGIELGVEAVNRYENHLINTGWQAVQMIERVGADNIFVHLDTYHMNIEEKGVGNGILDAREHLKYIHLSESDRGTPGYGTCGWDEIFSTLAAIGFKGGLAMESFINMPPEVAYGLAVWRPVAKDEEEVMGNGLPFLRNKAKQYGLI MQGFGVHTSMWTMNWDRPGAERAVAAALKYEVDFIEIPMLNPPAVDTEHTRALLEKNELRALCSLGLPERAWASVRPDAAIEHLKVAIDKTADLGGEALSGVIYGGIGERTGVPPTEAEYDNIARVLSAAAKHAKSRGIELGVEAVNRYENHLINTGWQAVQMIERVGADNIFVHLDTYHMNIEEKGVGNGILDAREHLKYIHLSESDRGTPGYGTCGWDEIFSTLAAIGFKGGLAMESFINMPPEVAYGLAVWRPVAKDEEEVMGNGLPFLRNKAKQYGLI 7dz2-a1-m1-cA_7dz2-a1-m1-cD Crystal structures of D-allulose 3-epimerase from Sinorhizobium fredii A0A249Q1V1 A0A249Q1V1 1.55 X-RAY DIFFRACTION 14 1.0 1128334 (Sinorhizobium fredii CCBAU 83666) 1128334 (Sinorhizobium fredii CCBAU 83666) 282 284 7dz2-a1-m1-cB_7dz2-a1-m1-cC 7dz3-a1-m1-cA_7dz3-a1-m1-cC 7dz3-a1-m1-cB_7dz3-a1-m1-cD 7dz4-a1-m1-cA_7dz4-a1-m1-cD 7dz4-a1-m1-cB_7dz4-a1-m1-cC 7dz5-a1-m1-cA_7dz5-a1-m1-cC 7dz5-a1-m1-cB_7dz5-a1-m1-cD 7dz6-a1-m1-cA_7dz6-a1-m1-cD 7dz6-a1-m1-cB_7dz6-a1-m1-cC MQGFGVHTSMWTMNWDRPGAERAVAAALKYEVDFIEIPMLNPPAVDTEHTRALLEKNELRALCSLGLPERAWASVRPDAAIEHLKVAIDKTADLGGEALSGVIYGGIGERTGVPPTEAEYDNIARVLSAAAKHAKSRGIELGVEAVNRYENHLINTGWQAVQMIERVGADNIFVHLDTYHMNIEEKGVGNGILDAREHLKYIHLSESDRGTPGYGTCGWDEIFSTLAAIGFKGGLAMESFINMPPEVAYGLAVWRPVAKDEEEVMGNGLPFLRNKAKQYGLI MQGFGVHTSMWTMNWDRPGAERAVAAALKYEVDFIEIPMLNPPAVDTEHTRALLEKNELRALCSLGLPERAWASVRPDAAIEHLKVAIDKTADLGGEALSGVIYGGIGERTGVPPTEAEYDNIARVLSAAAKHAKSRGIELGVEAVNRYENHLINTGWQAVQMIERVGADNIFVHLDTYHMNIEEKGVGNGILDAREHLKYIHLSESDRGTPGYGTCGWDEIFSTLAAIGFKGGLAMESFINMPPEVAYGLAVWRPVAKDEEEVMGNGLPFLRNKAKQYGLIGN 7dz2-a1-m1-cB_7dz2-a1-m1-cD Crystal structures of D-allulose 3-epimerase from Sinorhizobium fredii A0A249Q1V1 A0A249Q1V1 1.55 X-RAY DIFFRACTION 86 1.0 1128334 (Sinorhizobium fredii CCBAU 83666) 1128334 (Sinorhizobium fredii CCBAU 83666) 282 284 7dz2-a1-m1-cA_7dz2-a1-m1-cC 7dz3-a1-m1-cA_7dz3-a1-m1-cD 7dz3-a1-m1-cB_7dz3-a1-m1-cC 7dz4-a1-m1-cA_7dz4-a1-m1-cC 7dz4-a1-m1-cB_7dz4-a1-m1-cD 7dz5-a1-m1-cB_7dz5-a1-m1-cC 7dz5-a1-m1-cD_7dz5-a1-m1-cA 7dz6-a1-m1-cA_7dz6-a1-m1-cC 7dz6-a1-m1-cB_7dz6-a1-m1-cD MQGFGVHTSMWTMNWDRPGAERAVAAALKYEVDFIEIPMLNPPAVDTEHTRALLEKNELRALCSLGLPERAWASVRPDAAIEHLKVAIDKTADLGGEALSGVIYGGIGERTGVPPTEAEYDNIARVLSAAAKHAKSRGIELGVEAVNRYENHLINTGWQAVQMIERVGADNIFVHLDTYHMNIEEKGVGNGILDAREHLKYIHLSESDRGTPGYGTCGWDEIFSTLAAIGFKGGLAMESFINMPPEVAYGLAVWRPVAKDEEEVMGNGLPFLRNKAKQYGLI MQGFGVHTSMWTMNWDRPGAERAVAAALKYEVDFIEIPMLNPPAVDTEHTRALLEKNELRALCSLGLPERAWASVRPDAAIEHLKVAIDKTADLGGEALSGVIYGGIGERTGVPPTEAEYDNIARVLSAAAKHAKSRGIELGVEAVNRYENHLINTGWQAVQMIERVGADNIFVHLDTYHMNIEEKGVGNGILDAREHLKYIHLSESDRGTPGYGTCGWDEIFSTLAAIGFKGGLAMESFINMPPEVAYGLAVWRPVAKDEEEVMGNGLPFLRNKAKQYGLIGN 7e01-a1-m1-cA_7e01-a1-m2-cA Trans-3/4-proline-hydroxylase H11 in the sixth reaction state S5TUM1 S5TUM1 1.72 X-RAY DIFFRACTION 61 1.0 1366593 (uncultured bacterium esnapd13) 1366593 (uncultured bacterium esnapd13) 264 264 7dt0-a1-m2-cH_7dt0-a1-m1-cA 7dt0-a2-m1-cB_7dt0-a2-m1-cE 7dt0-a3-m1-cC_7dt0-a3-m1-cD 7dt0-a4-m1-cG_7dt0-a4-m1-cF 7e08-a1-m1-cA_7e08-a1-m2-cA 7e09-a1-m1-cA_7e09-a1-m2-cA MEPHDTLSPAQVDEYRKNGFLVQEHVFDEEEIELLRAEAAQEFASGGERVTVETGIVRGVHGCHLYSEVFGRLVRSPRLLPIARQLLRDDVYVHQFKINAKRAFKGEVWEWHQDYTFWHHEDGMPAPRALSAAIFLDEVTEFNGPLTFVPGGHGSGMIDADVKGEGWANTLTASLKYSLDVETMRGLIERNGMVAPKGPRGSVLWFDANIPHSSVPNISPFDRGLVLITYNSVENKTDVTRGTRPEWLAARDFTPLTALQATSF MEPHDTLSPAQVDEYRKNGFLVQEHVFDEEEIELLRAEAAQEFASGGERVTVETGIVRGVHGCHLYSEVFGRLVRSPRLLPIARQLLRDDVYVHQFKINAKRAFKGEVWEWHQDYTFWHHEDGMPAPRALSAAIFLDEVTEFNGPLTFVPGGHGSGMIDADVKGEGWANTLTASLKYSLDVETMRGLIERNGMVAPKGPRGSVLWFDANIPHSSVPNISPFDRGLVLITYNSVENKTDVTRGTRPEWLAARDFTPLTALQATSF 7e07-a1-m1-cA_7e07-a1-m1-cB Trans-3/4-proline-hydroxylase H11 with AKG and L-proline S5TUM1 S5TUM1 2.14 X-RAY DIFFRACTION 44 1.0 1366593 (uncultured bacterium esnapd13) 1366593 (uncultured bacterium esnapd13) 267 268 7dzz-a1-m1-cA_7dzz-a1-m1-cB 7e00-a1-m1-cA_7e00-a1-m1-cB 7e05-a1-m1-cB_7e05-a1-m1-cA 7e06-a1-m1-cA_7e06-a1-m1-cB QIMEPHDTLSPAQVDEYRKNGFLVQEHVFDEEEIELLRAEAAQEFASGGERVTVENTGIVRGVHGCHLYSEVFGRLVRSPRLLPIARQLLRDDVYVHQFKINAKRAFKGEVWEWHQDYTFWHHEDGMPAPRALSAAIFLDEVTEFNGPLTFVPGGHGSGMIDADVKGEGWANTLTASLKYSLDVETMRGLIERNGMVAPKGPRGSVLWFDANIPHSSVPNISPFDRGLVLITYNSVENKTDVTRGTRPEWLAARDFTPLTALQATSF QIMEPHDTLSPAQVDEYRKNGFLVQEHVFDEEEIELLRAEAAQEFASGGERVTVEQNTGIVRGVHGCHLYSEVFGRLVRSPRLLPIARQLLRDDVYVHQFKINAKRAFKGEVWEWHQDYTFWHHEDGMPAPRALSAAIFLDEVTEFNGPLTFVPGGHGSGMIDADVKGEGWANTLTASLKYSLDVETMRGLIERNGMVAPKGPRGSVLWFDANIPHSSVPNISPFDRGLVLITYNSVENKTDVTRGTRPEWLAARDFTPLTALQATSF 7e0c-a1-m1-cA_7e0c-a1-m2-cA Structure of L-glutamate oxidase R305E mutant Q8L3C7 Q8L3C7 2.65 X-RAY DIFFRACTION 106 1.0 196112 (Streptomyces sp. X-119-6) 196112 (Streptomyces sp. X-119-6) 591 591 2e1m-a1-m1-cA_2e1m-a1-m2-cA EMTYEQLARELLLVGPAPTNEDLKLRYLDVLIDNGLNPPGPPKRILIVGAGIAGLVAGDLLTRAGHDVTILEANANRVGGRIKTFHAKKGEPSPFADPAQYAEAGAMRLPSFHPLTLALIDKLGLKRRLFFNVDIDPQTGNQDAPVPPVFYKSFKDGKTWTNGAPSPEFKEPDKRNHTWIRTNREQVRRAQYATDPSSINEGFHLTGCETRLTVSDMVNQALEPVRDYYSVKQDDGTRVNKPFKEWLAGWADVVRDFDGYSMGRFLREYAEFSDEAVEAIGTIENMTSELHLAFFHSFLGRSDIDPRATYWEIEGGSRMLPETLAKDLRDQIVMGQRMVRLEYYDPTGPGGPAVAIQTVPEAATQTWTGDLAIVTIPFSSLRFVKVTPPFSYKKRRAVIETHYDQATKVLLEFSRRWWEFTEADWKRELDAIAPGLYDYYQGVRPATNAYGGGSTTDNPNRFMYYPSHPVPGTQGGVVLAAYSWSDDAARWDSFDDAERYGYALENLQSVHGRRIEVFYTGAGQTQSWLRDPYACGEAAVYTPHQMTAFHLDVVRPEGPVYFAGEHVSLKHAWIEGAVETAVRAAIAVNEA EMTYEQLARELLLVGPAPTNEDLKLRYLDVLIDNGLNPPGPPKRILIVGAGIAGLVAGDLLTRAGHDVTILEANANRVGGRIKTFHAKKGEPSPFADPAQYAEAGAMRLPSFHPLTLALIDKLGLKRRLFFNVDIDPQTGNQDAPVPPVFYKSFKDGKTWTNGAPSPEFKEPDKRNHTWIRTNREQVRRAQYATDPSSINEGFHLTGCETRLTVSDMVNQALEPVRDYYSVKQDDGTRVNKPFKEWLAGWADVVRDFDGYSMGRFLREYAEFSDEAVEAIGTIENMTSELHLAFFHSFLGRSDIDPRATYWEIEGGSRMLPETLAKDLRDQIVMGQRMVRLEYYDPTGPGGPAVAIQTVPEAATQTWTGDLAIVTIPFSSLRFVKVTPPFSYKKRRAVIETHYDQATKVLLEFSRRWWEFTEADWKRELDAIAPGLYDYYQGVRPATNAYGGGSTTDNPNRFMYYPSHPVPGTQGGVVLAAYSWSDDAARWDSFDDAERYGYALENLQSVHGRRIEVFYTGAGQTQSWLRDPYACGEAAVYTPHQMTAFHLDVVRPEGPVYFAGEHVSLKHAWIEGAVETAVRAAIAVNEA 7e0d-a1-m1-cA_7e0d-a1-m2-cA Structure of L-glutamate oxidase R305E mutant in complex with L-arginine Q8L3C7 Q8L3C7 2.7 X-RAY DIFFRACTION 166 1.0 196112 (Streptomyces sp. X-119-6) 196112 (Streptomyces sp. X-119-6) 604 604 2e1m-a1-m1-cB_2e1m-a1-m2-cB MTYEQLARELLLVGPAPTNEDLKLRYLDVLIDNGLNPPGPPKRILIVGAGIAGLVAGDLLTRAGHDVTILEANANRVGGRIKTFHAKKGEPSPFADPAQYAEAGAMRLPSFHPLTLALIDKLGLKRRLFFNVDIDPQTGNQDAPVPPVFYKSFKDGKTWTNGAPSPEFKEPDKRNHTWIRTNREQVRRAQYATDPSSINEGFHLTGCETRLTVSDMVNQALEPVRDYYSVKQDDGTRVNKPFKEWLAGWADVVRDFDGYSMGRFLREYAEFSDEAVEAIGTIENMTSELHLAFFHSFLGRSDIDPRATYWEIEGGSRMLPETLAKDLRDQIVMGQRMVRLEYYDPGTGPGGPAVAIQTVPEGAATQTWTGDLAIVTIPFSSLRFVKVTPPFSYKKRRAVIETHYDQATKVLLEFSRRWWEFTEADWKRELDAIAPGLYDYYQQWGEDDAEAAGGVRPATNAYGGGSTTDNPNRFMYYPSHPVPGTQGGVVLAAYSWSDDAARWDSFDDAERYGYALENLQSVHGRRIEVFYTGAGQTQSWLRDPYACGEAAVYTPHQMTAFHLDVVRPEGPVYFAGEHVSLKHAWIEGAVETAVRAAIAVNEAP MTYEQLARELLLVGPAPTNEDLKLRYLDVLIDNGLNPPGPPKRILIVGAGIAGLVAGDLLTRAGHDVTILEANANRVGGRIKTFHAKKGEPSPFADPAQYAEAGAMRLPSFHPLTLALIDKLGLKRRLFFNVDIDPQTGNQDAPVPPVFYKSFKDGKTWTNGAPSPEFKEPDKRNHTWIRTNREQVRRAQYATDPSSINEGFHLTGCETRLTVSDMVNQALEPVRDYYSVKQDDGTRVNKPFKEWLAGWADVVRDFDGYSMGRFLREYAEFSDEAVEAIGTIENMTSELHLAFFHSFLGRSDIDPRATYWEIEGGSRMLPETLAKDLRDQIVMGQRMVRLEYYDPGTGPGGPAVAIQTVPEGAATQTWTGDLAIVTIPFSSLRFVKVTPPFSYKKRRAVIETHYDQATKVLLEFSRRWWEFTEADWKRELDAIAPGLYDYYQQWGEDDAEAAGGVRPATNAYGGGSTTDNPNRFMYYPSHPVPGTQGGVVLAAYSWSDDAARWDSFDDAERYGYALENLQSVHGRRIEVFYTGAGQTQSWLRDPYACGEAAVYTPHQMTAFHLDVVRPEGPVYFAGEHVSLKHAWIEGAVETAVRAAIAVNEAP 7e0f-a1-m1-cC_7e0f-a1-m1-cF CryoEM structure of G51D alpha-synuclein amyloid fibril P37840 P37840 3.02 ELECTRON MICROSCOPY 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 49 49 7c1d-a1-m1-cA_7c1d-a1-m1-cC 7c1d-a1-m1-cA_7c1d-a1-m1-cF 7c1d-a1-m1-cB_7c1d-a1-m1-cC 7c1d-a1-m1-cB_7c1d-a1-m1-cD 7c1d-a1-m1-cE_7c1d-a1-m1-cF 7e0f-a1-m1-cA_7e0f-a1-m1-cD 7e0f-a1-m1-cB_7e0f-a1-m1-cD 7e0f-a1-m1-cB_7e0f-a1-m1-cE 7e0f-a1-m1-cC_7e0f-a1-m1-cE HDVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKD HDVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKD 7e0f-a1-m1-cE_7e0f-a1-m1-cF CryoEM structure of G51D alpha-synuclein amyloid fibril P37840 P37840 3.02 ELECTRON MICROSCOPY 200 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 49 49 6l4s-a1-m1-cA_6l4s-a1-m1-cC 6l4s-a1-m1-cA_6l4s-a1-m1-cE 6l4s-a1-m1-cB_6l4s-a1-m1-cD 6l4s-a1-m1-cB_6l4s-a1-m1-cF 7c1d-a1-m1-cA_7c1d-a1-m1-cB 7c1d-a1-m1-cA_7c1d-a1-m1-cE 7c1d-a1-m1-cC_7c1d-a1-m1-cD 7c1d-a1-m1-cC_7c1d-a1-m1-cF 7e0f-a1-m1-cA_7e0f-a1-m1-cB 7e0f-a1-m1-cB_7e0f-a1-m1-cC 7e0f-a1-m1-cD_7e0f-a1-m1-cE HDVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKD HDVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKD 7e0l-a2-m1-cM_7e0l-a2-m1-cK Class III hybrid cluster protein (HCP) from Methanothermobacter marburgensis D9PYV4 D9PYV4 2.82 X-RAY DIFFRACTION 246 1.0 79929 (Methanothermobacter marburgensis str. Marburg) 79929 (Methanothermobacter marburgensis str. Marburg) 483 486 7e0l-a1-m1-cA_7e0l-a1-m1-cB 7wsx-a1-m1-cA_7wsx-a1-m1-cB KYRCKVCDYIYDPEVGDPTSGIKPGTPFQELPEDWLCPVCNVGKDQFEPLPEDIDMFCYQCSQTVRGRACTVKGVCGKEATVARLQDNLLFAIKGISAYLYHARELGYTDEVVDAFLERGFYSTLTNVNFDAEEFVSLALEAGEMNLRTMKLLKKAHMDTYGEPEPAEVRVGALDGPAIIATGHSLKALEELLKQTEGSGVNVYTHSELLPAHGYPGLRKYPHLAGQLGGPWFDQRETFSRYSAAVLGTSNCVLLPRDSYRDRMFTCGVARLPGVEHVDGYDFSPVIEKALELPPLKEEDSATLTTGFGLSTILSLADKIKELVEEGKIRRFFLVGGDSPLPQAKYYTEFVRKLPEDTVVLTLACGKYRFNSMDLGDIDGIPRLIDLGQCNDSIVAVELVEALSNLFSMDVNELPLSIVLSWMEQKAAAILWSLLSLNLRGMYIGPILPGWANDDIINVLVDKYELTPIGDPEEDIKKMMEVD MKYRCKVCDYIYDPEVGDPTSGIKPGTPFQELPEDWLCPVCNVGKDQFEPLRGPEDIDMFCYQCSQTVRGRACTVKGVCGKEATVARLQDNLLFAIKGISAYLYHARELGYTDEVVDAFLERGFYSTLTNVNFDAEEFVSLALEAGEMNLRTMKLLKKAHMDTYGEPEPAEVRVGALDGPAIIATGHSLKALEELLKQTEGSGVNVYTHSELLPAHGYPGLRKYPHLAGQLGGPWFDQRETFSRYSAAVLGTSNCVLLPRDSYRDRMFTCGVARLPGVEHVDGYDFSPVIEKALELPPLKEEDSATLTTGFGLSTILSLADKIKELVEEGKIRRFFLVGGDSPLPQAKYYTEFVRKLPEDTVVLTLACGKYRFNSMDLGDIDGIPRLIDLGQCNDSIVAVELVEALSNLFSMDVNELPLSIVLSWMEQKAAAILWSLLSLNLRGMYIGPILPGWANDDIINVLVDKYELTPIGDPEEDIKKMMEVD 7e0w-a2-m1-cC_7e0w-a2-m1-cB Crystal Structure of BCH domain from S. pombe Q9P3B1 Q9P3B1 2.8 X-RAY DIFFRACTION 184 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 149 151 7e0w-a1-m1-cD_7e0w-a1-m1-cA EFEHDLERLCFIGGYDNDNDKVIVVVTKNLELFKKYDDINLIKEAYNHVHKLIQKDERYTAVFFAHDSTVFSYLGLSLKAYYGMDYYLHKNVKAVYVIHTDWMSKVAIRTLLSIASPKFTRKFRYLNSISDLNKYIPLSHLKLPPIVYE GPEFEHDLERLCFIGGYDNDNDKVIVVVTKNLELFKKYDDINLIKEAYNHVHKLIQKDERYTAVFFAHDSTVFSYLGLSLKAYYGMDYYLHKNVKAVYVIHTDWMSKVAIRTLLSIASPKFTRKFRYLNSISDLNKYIPLSHLKLPPIVYE 7e13-a1-m1-cB_7e13-a1-m1-cD Caprylic acid targets a serine hydroxymethyltransferase to kill horseweed 2.86 X-RAY DIFFRACTION 24 1.0 72917 (Erigeron canadensis) 72917 (Erigeron canadensis) 475 475 7e13-a1-m1-cA_7e13-a1-m1-cC SRVKWTKQLNAPLEEIDPEIADIIELEKARQWKGFELIPSENFTSLSVMQAVGSVMTNKYSEGYPGARYYGGNEYIDMAERLCQKRALEAFNLDPSKWGVNVQSLSGSPANFQVYTALLKPHERIMALDLPHGGHLSHGYQTDTKKISAVSIFFETMPYRLDESTGYIDYEQMEKSAVLFRPKLIVAGASAYARVYDYARMRKVCDKQKAILLADMAHISGLVAAGVVPSPFEYADVVTTTTHKSLRGPRGAMIFFRKGLKEINKKGEEVMYDFEDKINQAVFPGLQGGPHNHTIAGLAVALKQATTPEYKAYQEQVLANCKRFSQSLIERGYSLVSGGTDNHLVLVNLRDKGIDGSRVEKVMELAHIAANKNTVPGDVSAMVPGGIRMGTPALTSRGFLEEDFVKVAELFDASVKLALKIKAASSGTKLKDFVATMNGDEKFQSEIKKIRGEVEEYAKQFPTIGFEKETMKYKN SRVKWTKQLNAPLEEIDPEIADIIELEKARQWKGFELIPSENFTSLSVMQAVGSVMTNKYSEGYPGARYYGGNEYIDMAERLCQKRALEAFNLDPSKWGVNVQSLSGSPANFQVYTALLKPHERIMALDLPHGGHLSHGYQTDTKKISAVSIFFETMPYRLDESTGYIDYEQMEKSAVLFRPKLIVAGASAYARVYDYARMRKVCDKQKAILLADMAHISGLVAAGVVPSPFEYADVVTTTTHKSLRGPRGAMIFFRKGLKEINKKGEEVMYDFEDKINQAVFPGLQGGPHNHTIAGLAVALKQATTPEYKAYQEQVLANCKRFSQSLIERGYSLVSGGTDNHLVLVNLRDKGIDGSRVEKVMELAHIAANKNTVPGDVSAMVPGGIRMGTPALTSRGFLEEDFVKVAELFDASVKLALKIKAASSGTKLKDFVATMNGDEKFQSEIKKIRGEVEEYAKQFPTIGFEKETMKYKN 7e13-a1-m1-cC_7e13-a1-m1-cD Caprylic acid targets a serine hydroxymethyltransferase to kill horseweed 2.86 X-RAY DIFFRACTION 327 1.0 72917 (Erigeron canadensis) 72917 (Erigeron canadensis) 475 475 7e13-a1-m1-cA_7e13-a1-m1-cB SRVKWTKQLNAPLEEIDPEIADIIELEKARQWKGFELIPSENFTSLSVMQAVGSVMTNKYSEGYPGARYYGGNEYIDMAERLCQKRALEAFNLDPSKWGVNVQSLSGSPANFQVYTALLKPHERIMALDLPHGGHLSHGYQTDTKKISAVSIFFETMPYRLDESTGYIDYEQMEKSAVLFRPKLIVAGASAYARVYDYARMRKVCDKQKAILLADMAHISGLVAAGVVPSPFEYADVVTTTTHKSLRGPRGAMIFFRKGLKEINKKGEEVMYDFEDKINQAVFPGLQGGPHNHTIAGLAVALKQATTPEYKAYQEQVLANCKRFSQSLIERGYSLVSGGTDNHLVLVNLRDKGIDGSRVEKVMELAHIAANKNTVPGDVSAMVPGGIRMGTPALTSRGFLEEDFVKVAELFDASVKLALKIKAASSGTKLKDFVATMNGDEKFQSEIKKIRGEVEEYAKQFPTIGFEKETMKYKN SRVKWTKQLNAPLEEIDPEIADIIELEKARQWKGFELIPSENFTSLSVMQAVGSVMTNKYSEGYPGARYYGGNEYIDMAERLCQKRALEAFNLDPSKWGVNVQSLSGSPANFQVYTALLKPHERIMALDLPHGGHLSHGYQTDTKKISAVSIFFETMPYRLDESTGYIDYEQMEKSAVLFRPKLIVAGASAYARVYDYARMRKVCDKQKAILLADMAHISGLVAAGVVPSPFEYADVVTTTTHKSLRGPRGAMIFFRKGLKEINKKGEEVMYDFEDKINQAVFPGLQGGPHNHTIAGLAVALKQATTPEYKAYQEQVLANCKRFSQSLIERGYSLVSGGTDNHLVLVNLRDKGIDGSRVEKVMELAHIAANKNTVPGDVSAMVPGGIRMGTPALTSRGFLEEDFVKVAELFDASVKLALKIKAASSGTKLKDFVATMNGDEKFQSEIKKIRGEVEEYAKQFPTIGFEKETMKYKN 7e17-a1-m1-cA_7e17-a1-m1-cB Structure of dimeric uPAR Q03405 Q03405 2.96 X-RAY DIFFRACTION 281 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 225 232 SLRCMQCKTNGDCRVEECALGQDLCRTTIVRLWEEGEELELVEKSCTHSEKTNRTLSYRTGLKITSLTEVVCGLDLCNQGNSGRAVTYSRSRYLECISCGPEEQCLPGCPGSNGFHNNDTFHFLKCCNTTKCNEGPILELENLPQNGRQCYSCKGNSTHGCSSEETFLIDCRGPMNQCLVATGTQSYMVRGCATASMCQHAHLFSMNHIDVSCCTKSGCNHPDLD SLRCMQCKTNGDCRVEECALGQDLCRTTIVRLWEEGEELELVEKSCTHSEKTNRTLSYRTGLKITSLTEVVCGLDLCNQGNSGRAVTYSRSRYLECISCGCRSPEEQCLCGYLPGCPGSNGFHNNDTFHFLKCCNTTKCNEGPILELENLPQNGRQCYSCKGNSTHGCSSEETFLIDCRGPMNQCLVATGTHEQSYMVRGCATASMCQHAHLMNHIDVSCCTKSGCNHPDLD 7e1b-a1-m1-cD_7e1b-a1-m1-cC Crystal structure of VbrR-DNA complex Q87HP4 Q87HP4 4.587 X-RAY DIFFRACTION 70 0.995 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 208 209 7e1b-a1-m1-cB_7e1b-a1-m1-cA 7e1b-a2-m1-cF_7e1b-a2-m1-cE 7e1b-a2-m1-cH_7e1b-a2-m1-cG 7e90-a1-m1-cB_7e90-a1-m1-cA MKQTLLLVEDDKNLADGLLVSLEQAGYECLHVERIADVEPQWKKADLVILDRQLPDGDSVQHLPEWKKIKDVPVILLTALVTVKDKVAGLDSGANDYLTKPFAEAELFARIRAQLRNADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA KQTLLLVEDDKNLADGLLVSLEQAGYECLHVERIADVEPQWKKADLVILDRQLPDGDSVQHLPEWKKIKDVPVILLTALVTVKDKVAGLDSGANDYLTKPFAEAELFARIRAQLRANADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNTTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA 7e1b-a2-m1-cF_7e1b-a2-m1-cH Crystal structure of VbrR-DNA complex Q87HP4 Q87HP4 4.587 X-RAY DIFFRACTION 38 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 208 208 7e1b-a1-m1-cB_7e1b-a1-m1-cD KQTLLLVEDDKNLADGLLVSLEQAGYECLHVERIADVEPQWKKADLVILDRQLPDGDSVQHLPEWKKIKDVPVILLTALVTVKDKVAGLDSGANDYLTKPFAEAELFARIRAQLRANADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA KQTLLLVEDDKNLADGLLVSLEQAGYECLHVERIADVEPQWKKADLVILDRQLPDGDSVQHLPEWKKIKDVPVILLTALVTVKDKVAGLDSGANDYLTKPFAEAELFARIRAQLRANADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA 7e1b-a2-m1-cH_7e1b-a2-m1-cE Crystal structure of VbrR-DNA complex Q87HP4 Q87HP4 4.587 X-RAY DIFFRACTION 15 0.995 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 208 209 7e1b-a1-m1-cB_7e1b-a1-m1-cC 7e1b-a1-m1-cD_7e1b-a1-m1-cA 7e1b-a2-m1-cF_7e1b-a2-m1-cG KQTLLLVEDDKNLADGLLVSLEQAGYECLHVERIADVEPQWKKADLVILDRQLPDGDSVQHLPEWKKIKDVPVILLTALVTVKDKVAGLDSGANDYLTKPFAEAELFARIRAQLRANADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA MKQTLLLVEDDKNLADGLLVSLEQAGYECLHVERIADVEPQWKKADLVILDRQLPDGDSVQHLPEWKKIKDVPVILLTALVTVKDKVAGLDSGANDYLTKPFAEAELFARIRAQLRNADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNTTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA 7e1e-a1-m1-cB_7e1e-a1-m1-cC Lamprey serum virus-like lectin-LSVL Q98TC9 Q98TC9 3.34 ELECTRON MICROSCOPY 49 1.0 980415 (Lethenteron camtschaticum) 980415 (Lethenteron camtschaticum) 279 279 7e1e-a1-m1-cA_7e1e-a1-m1-cB 7e1e-a1-m1-cA_7e1e-a1-m1-cC RSCKEIKLKTKTKEDGVYCLQTKSGQFYQAFCDMNTNGGGWTLVASVHENNIAAKCAIGDRWSSQLGSNPAVGFVDGDRSWANLNTFGRVESATDDDYKNPGYFDVDAEDISVWHVPNGTPLAQWKISSIFRYHTATEFLTPLGGNLYFLYKIFYPLVYGSGTCPASNGPAIPIVYDFGNTISVASQVCPACLGGTLQGYVHLRVFNNERAPFALCSGLRVLDNCNTEHYCIGGAGYVPEQTPRQCGDFSAFDWSGIGTHVEWSASKSLLEAAVFIFYR RSCKEIKLKTKTKEDGVYCLQTKSGQFYQAFCDMNTNGGGWTLVASVHENNIAAKCAIGDRWSSQLGSNPAVGFVDGDRSWANLNTFGRVESATDDDYKNPGYFDVDAEDISVWHVPNGTPLAQWKISSIFRYHTATEFLTPLGGNLYFLYKIFYPLVYGSGTCPASNGPAIPIVYDFGNTISVASQVCPACLGGTLQGYVHLRVFNNERAPFALCSGLRVLDNCNTEHYCIGGAGYVPEQTPRQCGDFSAFDWSGIGTHVEWSASKSLLEAAVFIFYR 7e1f-a1-m1-cB_7e1f-a1-m1-cA Native-DBD A0A0L8SKF9 A0A0L8SKF9 1.447 X-RAY DIFFRACTION 147 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 93 95 7e1d-a1-m1-cB_7e1d-a1-m1-cA 7e92-a1-m1-cB_7e92-a1-m1-cA KVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNHFPTTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA ADKVMTKDLEIDRATREVIFKGDLITLTRTEFDLLLFLASNLGRVFTRDELLDHVWGYNHFPTTRTVDTHVLQLRQKLPGLEIETLRGVGYKMKA 7e1k-a1-m1-cA_7e1k-a1-m1-cB Crystal structure of Pr55Gag-matrix domain in complex with IP6 in space group R32 T2CJ20 T2CJ20 2.4 X-RAY DIFFRACTION 20 0.992 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 121 121 GARASVLSGGELDKWEKIRLRPGGKKQYKLKHIVWASRELERFAVNPGLLETSEGCRQILGQLQPSLQTGSEELRSLYNTIAVLYCVHQRIDVKDTKEALDKIEEEQNKSKKKAQQAAADT ARASVLSGGELDKWEKIRLRPGGKKQYKLKHIVWASRELERFAVNPGLLETSEGCRQILGQLQPSLQTGSEELRSLYNTIAVLYCVHQRIDVKDTKEALDKIEEEQNKSKKKAQQAAADTG 7e1n-a1-m1-cB_7e1n-a1-m1-cA Crystal structure of PhlH in complex with 2,4-diacetylphloroglucinol Q4JIX5 Q4JIX5 2.1 X-RAY DIFFRACTION 157 0.995 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 205 210 ATRLQILEKAGELFAEQGLANTTSKQICERSQANSAAVNYHFVNKEGLYRAVLLEAHARLVQLETLVSLNERPGSPQDKLRALITVLVERLHNHPDGWALKVLTREVLSPSPEFEVVLKEQSFPKAHILRGLLGQIMNLPADHPTTLRSAISVFAPCLFLLIAHQPLKQHVLQGLSLEPQGLIDHMMSYALGGLQAVAATAHDAA SRLDGQATRLQILEKAGELFAEQGLANTTSKQICERSQANSAAVNYHFVNKEGLYRAVLLEAHARLVQLETLVSLNERPGSPQDKLRALITVLVERLHNHPDGWALKVLTREVLSPSPEFEVVLKEQSFPKAHILRGLLGQIMNLPADHPTTLRSAISVFAPCLFLLIAHQPLKQHVLQGLSLEPQGLIDHMMSYALGGLQAVAATAHDA 7e1y-a1-m1-cC_7e1y-a1-m1-cE Staphylothermus marinus amylopullulanase -SmApu A3DPD7 A3DPD7 2.9 ELECTRON MICROSCOPY 10 1.0 399550 (Staphylothermus marinus F1) 399550 (Staphylothermus marinus F1) 538 538 IDNTCFLVGDPSSREQMYFTIVWHHHQAPNYLPDGRIHGPWAYIYVWSDLLKPYGKGPYHYHSVMLNIHPHFKATYNLSPSLLRQWQIAVEKGVEFVNGEKYDPNHEKIRLVEETLNNYREALFKGQIDVLTSIYAHTIGGFLTDVLGATNIVEEEIRYGKEVTSKIMGNNYNPQGIWTPEMAFSMKLIPIYYDLDIKYTVLDDKFHFFHAEGNKDSQYEPYMVIDTESKKYITVFFRDHDLSDILGFRNNFYSEPHAWRNAYEFALRVAEKWFDKNVKVLTIALDGENWMSFSVNPPLTAYFLDKMIIYLETLSDNKFIKLSTLREIYNKVPANRILTNIPTNSWLGTFRKWRGEVPQHEEYWIKTYSVYRKLLAYEEMIGGRDEFSNEARWALWHALDSDYWWAEFWLPKIIDTWLSVAENILNNRINKIQIIDVRPASEFYEDEKAGLVVTIRNQLEKEIRVSFAIGGTGFSSVNNDLETVKMNPNSSYTRIIPVKAKFIGKHKMVVSAISKGLIIDSKIIDINVKPKLLPNPRL IDNTCFLVGDPSSREQMYFTIVWHHHQAPNYLPDGRIHGPWAYIYVWSDLLKPYGKGPYHYHSVMLNIHPHFKATYNLSPSLLRQWQIAVEKGVEFVNGEKYDPNHEKIRLVEETLNNYREALFKGQIDVLTSIYAHTIGGFLTDVLGATNIVEEEIRYGKEVTSKIMGNNYNPQGIWTPEMAFSMKLIPIYYDLDIKYTVLDDKFHFFHAEGNKDSQYEPYMVIDTESKKYITVFFRDHDLSDILGFRNNFYSEPHAWRNAYEFALRVAEKWFDKNVKVLTIALDGENWMSFSVNPPLTAYFLDKMIIYLETLSDNKFIKLSTLREIYNKVPANRILTNIPTNSWLGTFRKWRGEVPQHEEYWIKTYSVYRKLLAYEEMIGGRDEFSNEARWALWHALDSDYWWAEFWLPKIIDTWLSVAENILNNRINKIQIIDVRPASEFYEDEKAGLVVTIRNQLEKEIRVSFAIGGTGFSSVNNDLETVKMNPNSSYTRIIPVKAKFIGKHKMVVSAISKGLIIDSKIIDINVKPKLLPNPRL 7e1y-a1-m1-cD_7e1y-a1-m1-cH Staphylothermus marinus amylopullulanase -SmApu A3DPD7 A3DPD7 2.9 ELECTRON MICROSCOPY 31 1.0 399550 (Staphylothermus marinus F1) 399550 (Staphylothermus marinus F1) 538 538 7e1y-a1-m1-cA_7e1y-a1-m1-cC 7e1y-a1-m1-cA_7e1y-a1-m1-cH 7e1y-a1-m1-cB_7e1y-a1-m1-cE 7e1y-a1-m1-cB_7e1y-a1-m1-cF 7e1y-a1-m1-cC_7e1y-a1-m1-cD 7e1y-a1-m1-cE_7e1y-a1-m1-cG 7e1y-a1-m1-cF_7e1y-a1-m1-cG IDNTCFLVGDPSSREQMYFTIVWHHHQAPNYLPDGRIHGPWAYIYVWSDLLKPYGKGPYHYHSVMLNIHPHFKATYNLSPSLLRQWQIAVEKGVEFVNGEKYDPNHEKIRLVEETLNNYREALFKGQIDVLTSIYAHTIGGFLTDVLGATNIVEEEIRYGKEVTSKIMGNNYNPQGIWTPEMAFSMKLIPIYYDLDIKYTVLDDKFHFFHAEGNKDSQYEPYMVIDTESKKYITVFFRDHDLSDILGFRNNFYSEPHAWRNAYEFALRVAEKWFDKNVKVLTIALDGENWMSFSVNPPLTAYFLDKMIIYLETLSDNKFIKLSTLREIYNKVPANRILTNIPTNSWLGTFRKWRGEVPQHEEYWIKTYSVYRKLLAYEEMIGGRDEFSNEARWALWHALDSDYWWAEFWLPKIIDTWLSVAENILNNRINKIQIIDVRPASEFYEDEKAGLVVTIRNQLEKEIRVSFAIGGTGFSSVNNDLETVKMNPNSSYTRIIPVKAKFIGKHKMVVSAISKGLIIDSKIIDINVKPKLLPNPRL IDNTCFLVGDPSSREQMYFTIVWHHHQAPNYLPDGRIHGPWAYIYVWSDLLKPYGKGPYHYHSVMLNIHPHFKATYNLSPSLLRQWQIAVEKGVEFVNGEKYDPNHEKIRLVEETLNNYREALFKGQIDVLTSIYAHTIGGFLTDVLGATNIVEEEIRYGKEVTSKIMGNNYNPQGIWTPEMAFSMKLIPIYYDLDIKYTVLDDKFHFFHAEGNKDSQYEPYMVIDTESKKYITVFFRDHDLSDILGFRNNFYSEPHAWRNAYEFALRVAEKWFDKNVKVLTIALDGENWMSFSVNPPLTAYFLDKMIIYLETLSDNKFIKLSTLREIYNKVPANRILTNIPTNSWLGTFRKWRGEVPQHEEYWIKTYSVYRKLLAYEEMIGGRDEFSNEARWALWHALDSDYWWAEFWLPKIIDTWLSVAENILNNRINKIQIIDVRPASEFYEDEKAGLVVTIRNQLEKEIRVSFAIGGTGFSSVNNDLETVKMNPNSSYTRIIPVKAKFIGKHKMVVSAISKGLIIDSKIIDINVKPKLLPNPRL 7e1y-a1-m1-cG_7e1y-a1-m1-cH Staphylothermus marinus amylopullulanase -SmApu A3DPD7 A3DPD7 2.9 ELECTRON MICROSCOPY 147 1.0 399550 (Staphylothermus marinus F1) 399550 (Staphylothermus marinus F1) 538 538 7e1y-a1-m1-cA_7e1y-a1-m1-cE 7e1y-a1-m1-cB_7e1y-a1-m1-cC 7e1y-a1-m1-cD_7e1y-a1-m1-cF IDNTCFLVGDPSSREQMYFTIVWHHHQAPNYLPDGRIHGPWAYIYVWSDLLKPYGKGPYHYHSVMLNIHPHFKATYNLSPSLLRQWQIAVEKGVEFVNGEKYDPNHEKIRLVEETLNNYREALFKGQIDVLTSIYAHTIGGFLTDVLGATNIVEEEIRYGKEVTSKIMGNNYNPQGIWTPEMAFSMKLIPIYYDLDIKYTVLDDKFHFFHAEGNKDSQYEPYMVIDTESKKYITVFFRDHDLSDILGFRNNFYSEPHAWRNAYEFALRVAEKWFDKNVKVLTIALDGENWMSFSVNPPLTAYFLDKMIIYLETLSDNKFIKLSTLREIYNKVPANRILTNIPTNSWLGTFRKWRGEVPQHEEYWIKTYSVYRKLLAYEEMIGGRDEFSNEARWALWHALDSDYWWAEFWLPKIIDTWLSVAENILNNRINKIQIIDVRPASEFYEDEKAGLVVTIRNQLEKEIRVSFAIGGTGFSSVNNDLETVKMNPNSSYTRIIPVKAKFIGKHKMVVSAISKGLIIDSKIIDINVKPKLLPNPRL IDNTCFLVGDPSSREQMYFTIVWHHHQAPNYLPDGRIHGPWAYIYVWSDLLKPYGKGPYHYHSVMLNIHPHFKATYNLSPSLLRQWQIAVEKGVEFVNGEKYDPNHEKIRLVEETLNNYREALFKGQIDVLTSIYAHTIGGFLTDVLGATNIVEEEIRYGKEVTSKIMGNNYNPQGIWTPEMAFSMKLIPIYYDLDIKYTVLDDKFHFFHAEGNKDSQYEPYMVIDTESKKYITVFFRDHDLSDILGFRNNFYSEPHAWRNAYEFALRVAEKWFDKNVKVLTIALDGENWMSFSVNPPLTAYFLDKMIIYLETLSDNKFIKLSTLREIYNKVPANRILTNIPTNSWLGTFRKWRGEVPQHEEYWIKTYSVYRKLLAYEEMIGGRDEFSNEARWALWHALDSDYWWAEFWLPKIIDTWLSVAENILNNRINKIQIIDVRPASEFYEDEKAGLVVTIRNQLEKEIRVSFAIGGTGFSSVNNDLETVKMNPNSSYTRIIPVKAKFIGKHKMVVSAISKGLIIDSKIIDINVKPKLLPNPRL 7e26-a1-m1-cA_7e26-a1-m1-cE Structure of PfFNT in apo state O77389 O77389 2.29 ELECTRON MICROSCOPY 154 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 287 287 6vqq-a1-m1-cA_6vqq-a1-m1-cB 6vqq-a1-m1-cA_6vqq-a1-m1-cD 6vqq-a1-m1-cC_6vqq-a1-m1-cD 6vqq-a1-m1-cE_6vqq-a1-m1-cB 6vqq-a1-m1-cE_6vqq-a1-m1-cC 6vqr-a1-m1-cA_6vqr-a1-m1-cB 6vqr-a1-m1-cA_6vqr-a1-m1-cD 6vqr-a1-m1-cB_6vqr-a1-m1-cE 6vqr-a1-m1-cC_6vqr-a1-m1-cD 6vqr-a1-m1-cC_6vqr-a1-m1-cE 7e26-a1-m1-cA_7e26-a1-m1-cB 7e26-a1-m1-cB_7e26-a1-m1-cC 7e26-a1-m1-cC_7e26-a1-m1-cD 7e26-a1-m1-cD_7e26-a1-m1-cE 7e27-a1-m1-cA_7e27-a1-m1-cD 7e27-a1-m1-cA_7e27-a1-m1-cE 7e27-a1-m1-cB_7e27-a1-m1-cC 7e27-a1-m1-cB_7e27-a1-m1-cD 7e27-a1-m1-cC_7e27-a1-m1-cE 7mxy-a1-m1-cB_7mxy-a1-m1-cE 7mxy-a1-m1-cC_7mxy-a1-m1-cA 7mxy-a1-m1-cC_7mxy-a1-m1-cB 7mxy-a1-m1-cD_7mxy-a1-m1-cA 7mxy-a1-m1-cE_7mxy-a1-m1-cD KYVLDPVSIKSVCGGEESYIRCVEYGKKKAHYSNLNLLAKAILAGMFVGLCAHASGIAGGLFYYHKLREIVGASMSVFVYGFTFPIAFMCIICTGSDLFTGNTLAVTMALYEKKVKLLDYLRVMTISLFGNYVGAVSFAFFVSYLSGAFTNVHAVEKNHFFQFLNDIAEKKVHHTFVECVSLAVGCNIFVCLAVYFVLTLKDGAGYVFSVFFAVYAFAIAGYEHIIANIYTLNIALMVNTKITVYQAYIKNLLPTLLGNYIAGAIVLGLPLYFIYKEHYYNFERSKR KYVLDPVSIKSVCGGEESYIRCVEYGKKKAHYSNLNLLAKAILAGMFVGLCAHASGIAGGLFYYHKLREIVGASMSVFVYGFTFPIAFMCIICTGSDLFTGNTLAVTMALYEKKVKLLDYLRVMTISLFGNYVGAVSFAFFVSYLSGAFTNVHAVEKNHFFQFLNDIAEKKVHHTFVECVSLAVGCNIFVCLAVYFVLTLKDGAGYVFSVFFAVYAFAIAGYEHIIANIYTLNIALMVNTKITVYQAYIKNLLPTLLGNYIAGAIVLGLPLYFIYKEHYYNFERSKR 7e27-a1-m1-cD_7e27-a1-m1-cE Structure of PfFNT in complex with MMV007839 O77389 O77389 2.29 ELECTRON MICROSCOPY 16 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 287 287 6vqr-a1-m1-cA_6vqr-a1-m1-cC 7e26-a1-m1-cA_7e26-a1-m1-cC 7e26-a1-m1-cA_7e26-a1-m1-cD 7e26-a1-m1-cB_7e26-a1-m1-cD 7e26-a1-m1-cB_7e26-a1-m1-cE 7e26-a1-m1-cC_7e26-a1-m1-cE 7e27-a1-m1-cA_7e27-a1-m1-cB 7e27-a1-m1-cA_7e27-a1-m1-cC 7e27-a1-m1-cB_7e27-a1-m1-cE 7e27-a1-m1-cC_7e27-a1-m1-cD 7mxy-a1-m1-cB_7mxy-a1-m1-cD KYVLDPVSIKSVCGGEESYIRCVEYGKKKAHYSNLNLLAKAILAGMFVGLCAHASGIAGGLFYYHKLREIVGASMSVFVYGFTFPIAFMCIICTGSDLFTGNTLAVTMALYEKKVKLLDYLRVMTISLFGNYVGAVSFAFFVSYLSGAFTNVHAVEKNHFFQFLNDIAEKKVHHTFVECVSLAVGCNIFVCLAVYFVLTLKDGAGYVFSVFFAVYAFAIAGYEHIIANIYTLNIALMVNTKITVYQAYIKNLLPTLLGNYIAGAIVLGLPLYFIYKEHYYNFERSKR KYVLDPVSIKSVCGGEESYIRCVEYGKKKAHYSNLNLLAKAILAGMFVGLCAHASGIAGGLFYYHKLREIVGASMSVFVYGFTFPIAFMCIICTGSDLFTGNTLAVTMALYEKKVKLLDYLRVMTISLFGNYVGAVSFAFFVSYLSGAFTNVHAVEKNHFFQFLNDIAEKKVHHTFVECVSLAVGCNIFVCLAVYFVLTLKDGAGYVFSVFFAVYAFAIAGYEHIIANIYTLNIALMVNTKITVYQAYIKNLLPTLLGNYIAGAIVLGLPLYFIYKEHYYNFERSKR 7e28-a1-m1-cA_7e28-a1-m1-cB Crystal structure of SDR family NAD(P)-dependent oxidoreductase from Exiguobacterium Q6BDS0 Q6BDS0 1.83 X-RAY DIFFRACTION 144 0.996 41170 (Exiguobacterium acetylicum) 41170 (Exiguobacterium acetylicum) 224 226 HHKYTVITGASSGIGYETAKLLAGKGKSLVLVARRTSELEKLRDEVKQISPDSDVILKSVDLADNQNVHDLYEGLKELDIETWINNAGFGDFDLVQDIELGKIEKMLRLNIEALTILSSLFVRDHHDIEGTTLVNISSAGGYRIVPNAVTYCATKFYVSAYTEGLAQELQKGGAKLRAKVLAPAAYHTAAEMAGFLHQLIESDAIVGIVDTYEFELRGPLFNYA HKYTVITGASSGIGYETAKLLAGKGKSLVLVARRTSELEKLRDEVKQISPDSDVILKSVDLADNQNVHDLYEGLKELDIETWINNAGFGDFDLVQDIELGKIEKMLRLNIEALTILSSLFVRDHHDIEGTTLVNISSAGGYRIVPNAVTYCATKFYVSAYTEGLAQELQKGGAKLRAKVLAPAAYHTAAEMAGFLHQLIESDAIVGIVDGETYEFELRGPLFNYAG 7e2m-a3-m1-cE_7e2m-a3-m1-cF Crystal structure of the RWD domain of human GCN2 - 2 Q9P2K8 Q9P2K8 2.35 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 129 129 7e2k-a1-m1-cA_7e2k-a1-m2-cA 7e2m-a1-m1-cB_7e2m-a1-m1-cA 7e2m-a2-m1-cC_7e2m-a2-m1-cD HHHHHSGESYPQRQDHELQALEAIYGADFQDLRPDACGPVKEPPEINLVLYPQGLTGEEVYVKVDLRVKCPPTYPDVVPEIELKNAKGLSNESVNLLKSRLEELAKKHCGEVMIFELAYHVQSFLSEHN HHHHHSGESYPQRQDHELQALEAIYGADFQDLRPDACGPVKEPPEINLVLYPQGLTGEEVYVKVDLRVKCPPTYPDVVPEIELKNAKGLSNESVNLLKSRLEELAKKHCGEVMIFELAYHVQSFLSEHN 7e2p-a1-m1-cA_7e2p-a1-m4-cB The Crystal Structure of Mycoplasma bovis enolase A0A7D5V839 A0A7D5V839 1.7 X-RAY DIFFRACTION 89 1.0 28903 (Mycoplasmopsis bovis) 28903 (Mycoplasmopsis bovis) 447 449 7e2p-a1-m2-cA_7e2p-a1-m3-cB 7e2p-a1-m3-cA_7e2p-a1-m1-cB 7e2p-a1-m4-cA_7e2p-a1-m2-cB PIIERIQAREILDSRGNPTVQVEVTTDYEITGVANVPSGEALELRDKGTKYEGNWFGGKGVMTAVDNVNEKIAPELIGMSVFDQRAIDKLMIELDGTATKSKLGANAILGVSLAVARAAATELGMPLYRYIGGANAHTLPLPMLNVLNGGEHASNTVDFQEFMIMPVGAKSLREALQMANKVFHNLAKLLKKAGYGTQVGDEGGFAPNCKSHEEVLDYLVEAIKVAGYTPATSGKNAIAIALDAACSELYDENSKKYTFKKLKQAIAEKRSGFEHLDNVKLEYTTDELIEYFGKLIDKYPIISIEDGLAESDWEGFAKMTAKFGSKVQIVGDDLTVTNPKLLEKAIEQKSMNAILIKLNQIGSLSETMDAINKAQKANMACVVSHRSGETEDTTIADLAVAFNTGQIKTGSMSRTDRIAKYNRLLVIEEELGEQSEFEGSKAFYNIK PIIERIQAREILDSRGNPTVQVEVTTDYEITGVANVPSGSREALELRDKGTKYEGNWFGGKGVMTAVDNVNEKIAPELIGMSVFDQRAIDKLMIELDGTATKSKLGANAILGVSLAVARAAATELGMPLYRYIGGANAHTLPLPMLNVLNGGEHASNTVDFQEFMIMPVGAKSLREALQMANKVFHNLAKLLKKAGYGTQVGDEGGFAPNCKSHEEVLDYLVEAIKVAGYTPATSGKNAIAIALDAACSELYDENSKKYTFKKLKQAIAEKRSGFEHLDNVKLEYTTDELIEYFGKLIDKYPIISIEDGLAESDWEGFAKMTAKFGSKVQIVGDDLTVTNPKLLEKAIEQKSMNAILIKLNQIGSLSETMDAINKAQKANMACVVSHRSGETEDTTIADLAVAFNTGQIKTGSMSRTDRIAKYNRLLVIEEELGEQSEFEGSKAFYNIK 7e2p-a1-m4-cA_7e2p-a1-m4-cB The Crystal Structure of Mycoplasma bovis enolase A0A7D5V839 A0A7D5V839 1.7 X-RAY DIFFRACTION 118 1.0 28903 (Mycoplasmopsis bovis) 28903 (Mycoplasmopsis bovis) 447 449 7e2p-a1-m1-cA_7e2p-a1-m1-cB 7e2p-a1-m2-cA_7e2p-a1-m2-cB 7e2p-a1-m3-cA_7e2p-a1-m3-cB PIIERIQAREILDSRGNPTVQVEVTTDYEITGVANVPSGEALELRDKGTKYEGNWFGGKGVMTAVDNVNEKIAPELIGMSVFDQRAIDKLMIELDGTATKSKLGANAILGVSLAVARAAATELGMPLYRYIGGANAHTLPLPMLNVLNGGEHASNTVDFQEFMIMPVGAKSLREALQMANKVFHNLAKLLKKAGYGTQVGDEGGFAPNCKSHEEVLDYLVEAIKVAGYTPATSGKNAIAIALDAACSELYDENSKKYTFKKLKQAIAEKRSGFEHLDNVKLEYTTDELIEYFGKLIDKYPIISIEDGLAESDWEGFAKMTAKFGSKVQIVGDDLTVTNPKLLEKAIEQKSMNAILIKLNQIGSLSETMDAINKAQKANMACVVSHRSGETEDTTIADLAVAFNTGQIKTGSMSRTDRIAKYNRLLVIEEELGEQSEFEGSKAFYNIK PIIERIQAREILDSRGNPTVQVEVTTDYEITGVANVPSGSREALELRDKGTKYEGNWFGGKGVMTAVDNVNEKIAPELIGMSVFDQRAIDKLMIELDGTATKSKLGANAILGVSLAVARAAATELGMPLYRYIGGANAHTLPLPMLNVLNGGEHASNTVDFQEFMIMPVGAKSLREALQMANKVFHNLAKLLKKAGYGTQVGDEGGFAPNCKSHEEVLDYLVEAIKVAGYTPATSGKNAIAIALDAACSELYDENSKKYTFKKLKQAIAEKRSGFEHLDNVKLEYTTDELIEYFGKLIDKYPIISIEDGLAESDWEGFAKMTAKFGSKVQIVGDDLTVTNPKLLEKAIEQKSMNAILIKLNQIGSLSETMDAINKAQKANMACVVSHRSGETEDTTIADLAVAFNTGQIKTGSMSRTDRIAKYNRLLVIEEELGEQSEFEGSKAFYNIK 7e2q-a2-m1-cC_7e2q-a2-m2-cD Crystal structure of Mycoplasma pneumoniae Enolase P75189 P75189 1.8 X-RAY DIFFRACTION 137 1.0 2104 (Mycoplasmoides pneumoniae) 2104 (Mycoplasmoides pneumoniae) 450 454 7e2q-a1-m1-cB_7e2q-a1-m1-cA DLFKIADLFAYQVFDSRGFPTVACVVKLASGHTGEAMVPSGAGEKEAIELRDGDPKAYFGKGVSQAVQNVNQTIAPKLIGLNATDQAAIDALMIQLDGTPNKAKLGANAILAVSLAVAKAAASAQKTSLFKYLANQVMGLNKTEFILTVPMLNVINGGAHADNNIDFQEFMIMPLGANSMHQALKMASETFHALQKLLKQRGLNTNKGDEGGFAPNLKLAEEALDLMVEAIKAAGYQPGSDIAIALDVAASEFYDDTTKRYVFKKGIKAKILDEKEWSLTTAQMIAYLKKLTEQYPIISIEDGLSEHDWEGMETLTKTLGQHIQIVGDDLYCTNPAIAEKGVAHKATNSILIKLNQIGTLTETIKAINIAKDANWSQVISHRSGETEDTTIADLAVAACTGQIKTGSMSRSERIAKYNRLLQIELELGNNAKYLGWNTFKNIKPQKALEH TDLFKIADLFAYQVFDSRGFPTVACVVKLASGHTGEAMVPSGASTGEKEAIELRDGDPKAYFGKGVSQAVQNVNQTIAPKLIGLNATDQAAIDALMIQLDGTPNKAKLGANAILAVSLAVAKAAASAQKTSLFKYLANQVMGLNKTEFILTVPMLNVINGGAHADNNIDFQEFMIMPLGANSMHQALKMASETFHALQKLLKQRGLNTNKGDEGGFAPNLKLAEEALDLMVEAIKAAGYQPGSDIAIALDVAASEFYDDTTKRYVFKKGIKAKILDEKEWSLTTAQMIAYLKKLTEQYPIISIEDGLSEHDWEGMETLTKTLGQHIQIVGDDLYCTNPAIAEKGVAHKATNSILIKLNQIGTLTETIKAINIAKDANWSQVISHRSGETEDTTIADLAVAACTGQIKTGSMSRSERIAKYNRLLQIELELGNNAKYLGWNTFKNIKPQKALEHH 7e2r-a1-m1-cA_7e2r-a1-m1-cB The ligand-free structure of Arabidopsis thaliana GUN4 Q9LX31 Q9LX31 2.3 X-RAY DIFFRACTION 75 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 141 149 ATIFDVLENHLVNQNFRQADEETRRLLIQISGEAAVKRGYVFFSEVKTISPEDLQAIDNLWIKHSDGRFGYSVQRKIWLKVKKDFTRFFVKVEWMKLYRAFPDEFKWELNDETPLGHLPLTNALRGTQLLKCVLSHPAFAT TTAETATIFDVLENHLVNQNFRQADEETRRLLIQISGEAAVKRGYVFFSEVKTISPEDLQAIDNLWIKHSDGRFGYSVQRKIWLKVKKDFTRFFVKVEWMKLQYNYRAFPDEFKWELNDETPLGHLPLTNALRGTQLLKCVLSHPAFAT 7e2v-a1-m1-cB_7e2v-a1-m1-cA Crystal structure of MaDA-3 2.94 X-RAY DIFFRACTION 53 1.0 3498 (Morus alba) 3498 (Morus alba) 477 500 SFLECLTTRIESIIYTKDNPSYSTILNSTSLNPRFFPSSARYPLLIVTPLHASHVQATVHCAKKHGIQIRIRSGGHDYEGLSYMSNVTFAIVDLRNLSSIDVDVKRKSAWVQSGATLGELHYWIAKKSQNLAFPGVVGHTVGIGGMLGAGGYGYSSRKYGLSADNILDAQLIDVRGRILNRKSMGEDLFWAIRGGGAGSFGIVLAWKVRLVDVPSKVTVFTAIRDWDNNATKKFIHRYQRRIAKVDKDLTIIVRFLTASITIQISTFITATYHGSQDRLLSLMEKEFPELGLLAKECAEGAWVQSILYFNLDVLLNRTLNRAFKIKSDYLKKPIPDQVLENLLVKLYEEDIGETFVEFFPYGGKLDEISESEIPCPHRAGNLYNLRYMVLWKEAVNKHLSWIRRAYNYMTPYVSKNPRGAFLNFRDLDIGTNPYIKQASNWGTKYFKNNFYKLIYVKTIVDPTNFFTYEQSIPSLLP HESFLECLTTRISESIIYTKDNPSYSTILNSTSLNPRFFPSSARYPLLIVTPLHASHVQATVHCAKKHGIQIRIRSGGHDYEGLSYMSNVTFAIVDLRNLSSIDVDVKRKSAWVQSGATLGELHYWIAKKSQNLAFPGVVGHTVGIGGMLGAGGYGYSSRKYGLSADNILDAQLIDVRGRILNRKSMGEDLFWAIRGGGAGSFGIVLAWKVRLVDVPSKVTVFTAIRDWDNNATKKFIHRYQRRIAKVDKDLTIIVRFLTASITDEKGSKKIQISTFITATYHGSQDRLLSLMEKEFPELGLLAKECAEGAWVQSILYFNLSLDVLLNRTLNFEWRAFKIKSDYLKKPIPDQVLENLLVKLYEEDIGETFVEFFPYGGKLDEISESEIPCPHRAGNLYNLRYMVLWKEGQNATAVNKHLSWIRRAYNYMTPYVSKNPRGAFLNFRDLDIGTNPNNYIKQASNWGTKYFKNNFYKLIYVKTIVDPTNFFTYEQSIPSLLPH 7e2w-a2-m1-cD_7e2w-a2-m1-cC Crystal structure of isocitrate dehydrogenase from Ostreococcus tauri in complex with isocitrate and magnesium(II) A0A096P8D3 A0A096P8D3 1.8 X-RAY DIFFRACTION 227 0.997 70448 (Ostreococcus tauri) 70448 (Ostreococcus tauri) 396 400 6ixl-a1-m1-cA_6ixl-a1-m1-cB 6ixl-a2-m1-cD_6ixl-a2-m1-cC 6ixn-a1-m1-cA_6ixn-a1-m1-cB 6ixn-a2-m1-cC_6ixn-a2-m1-cD 6ixt-a1-m1-cA_6ixt-a1-m1-cB 6ixt-a2-m1-cC_6ixt-a2-m1-cD 7e2w-a1-m1-cA_7e2w-a1-m1-cB SKITAAPMVYVRGEEMTAYVMDLIRSRWIEPRVDVGGWETFDLRAKNRDDTEDRVLRDVIEAGKRIKAIFKEPTVTPTADKSWGSPNGAMRRGWNGITISRDTIHIDGVELGYKKPVLFERHAVGGEYSAGYKNVGKGKLTTTFTPSEGPDAGKTVVVDEREIVDEEAAVVTYHNPYDNVHDLARFFFGRCLEAKVTPYVVTKKTVFKWQEPFWQIMRTVFDEEFKAQFVAAGVMKEGEELVHLLSDAATMKLVQWRQGGFGMAAHNYDGDVLTDELAQVHKSPGFITSNLVGVHEDGTLIKEFEASHGTVADMDEARLRGEETSLNPLGMVEGLIGAMNHAADVHNIDRDRTHAFTTKMRTVIHQLFREGKGTRDLCGPSGLTTEQFIDAVAERL KITAAPMVYVRGEEMTAYVMDLIRSRWIEPRVDVGGWETFDLRAKNRDDTEDRVLRDVIEAGKRIKAIFKEPTVTPTADQVKLRKSWGSPNGAMRRGWNGITISRDTIHIDGVELGYKKPVLFERHAVGGEYSAGYKNVGKGKLTTTFTPSEGPDAGKTVVVDEREIVDEEAAVVTYHNPYDNVHDLARFFFGRCLEAKVTPYVVTKKTVFKWQEPFWQIMRTVFDEEFKAQFVAAGVMKEGEELVHLLSDAATMKLVQWRQGGFGMAAHNYDGDVLTDELAQVHKSPGFITSNLVGVHEDGTLIKEFEASHGTVADMDEARLRGEETSLNPLGMVEGLIGAMNHAADVHNIDRDRTHAFTTKMRTVIHQLFREGKGTRDLCGPSGLTTEQFIDAVAERL 7e30-a1-m1-cA_7e30-a1-m1-cB Crystal structure of a novel alpha/beta hydrolase in apo form in complex with citrate 1.56 X-RAY DIFFRACTION 51 1.0 32644 (unidentified) 32644 (unidentified) 258 258 ANPYERGPDPTESSIEAVRGPFAVAQTTVSRLQADGFGGGTIYYPTDTSQGTFGAVAISPGFTAGQESIAWLGPRIASQGFVVITIDTITRLDQPDSRGRQLQAALDHLRTNSVVRNRIDPNRMAVMGHSMGGGGALSAAANNTSLEAAIPLQGWHTRKNWSSVRTPTLVVGAQLDTIAPVSSHSEAFYNSLPSDLDKAYMELRGASHLVSNTPDTTTAKYSIAWLKRFVDDDLRYEQFLCPAPDDFAISEYRSTCPF ANPYERGPDPTESSIEAVRGPFAVAQTTVSRLQADGFGGGTIYYPTDTSQGTFGAVAISPGFTAGQESIAWLGPRIASQGFVVITIDTITRLDQPDSRGRQLQAALDHLRTNSVVRNRIDPNRMAVMGHSMGGGGALSAAANNTSLEAAIPLQGWHTRKNWSSVRTPTLVVGAQLDTIAPVSSHSEAFYNSLPSDLDKAYMELRGASHLVSNTPDTTTAKYSIAWLKRFVDDDLRYEQFLCPAPDDFAISEYRSTCPF 7e31-a1-m1-cA_7e31-a1-m1-cB Crystal structure of a novel alpha/beta hydrolase mutant in apo form 1.38 X-RAY DIFFRACTION 49 1.0 32644 (unidentified) 32644 (unidentified) 258 258 ENPYERGPDPTESSIEAVRGPFAVAQTTVSRLQADGFGGGTIYYPTDTSQGTFGAVAISPGFTAGQESIAWLGPRIASQGFVVITIDTITRLDQPDSRGRQLQAALDHLRTNSVVRNRIDPNRMAVMGHSMGGGGALSAAANNTSLEAAIPLQGWHTRKNWSSVRTPTLVVGAQLDTIAPVSSHSEAFYNSLPSDLDKAYMELRGASHFVSNTPDTTTAKYSIAWLKRFVDNDLRYEQFLCPAPDDFAISEYRATCPF ENPYERGPDPTESSIEAVRGPFAVAQTTVSRLQADGFGGGTIYYPTDTSQGTFGAVAISPGFTAGQESIAWLGPRIASQGFVVITIDTITRLDQPDSRGRQLQAALDHLRTNSVVRNRIDPNRMAVMGHSMGGGGALSAAANNTSLEAAIPLQGWHTRKNWSSVRTPTLVVGAQLDTIAPVSSHSEAFYNSLPSDLDKAYMELRGASHFVSNTPDTTTAKYSIAWLKRFVDNDLRYEQFLCPAPDDFAISEYRATCPF 7e34-a1-m1-cB_7e34-a1-m2-cB Crystal structure of SUN1-Speedy A-CDK2 Q5MJ70 Q5MJ70 3.19 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 142 142 GPCLVIQRQDMTAFFKLFDDDLIQDFLWMDCCCKIADKYLLAMTFVYFKRAKFTISEHTRINFFIALYLANTVEEDEEETKYEIFPWALGKNWRKLFPNFLKLRDQLWDRIDYRAIVSRRCCEEVMAIAPTHYIWQRERSVH GPCLVIQRQDMTAFFKLFDDDLIQDFLWMDCCCKIADKYLLAMTFVYFKRAKFTISEHTRINFFIALYLANTVEEDEEETKYEIFPWALGKNWRKLFPNFLKLRDQLWDRIDYRAIVSRRCCEEVMAIAPTHYIWQRERSVH 7e3r-a1-m1-cA_7e3r-a1-m2-cA Crystal structure of TrmL from Vibrio vulnificus Q7MGW0 Q7MGW0 1.79 X-RAY DIFFRACTION 107 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 145 145 7e3q-a1-m1-cA_7e3q-a1-m1-cB FDIALYEPEIAPNTGNIIRLCANCGANLHLIEPLGFDLDLARVTRHKNYQAFLDYLEQRGEYRIFACTTKTTGHHVDAQYRQGDVLLFGPETRGLPMEVIESLPMSQRIRIPMMPDARSLNLSNAVAIIAFEAWRQLGFQGAKGH FDIALYEPEIAPNTGNIIRLCANCGANLHLIEPLGFDLDLARVTRHKNYQAFLDYLEQRGEYRIFACTTKTTGHHVDAQYRQGDVLLFGPETRGLPMEVIESLPMSQRIRIPMMPDARSLNLSNAVAIIAFEAWRQLGFQGAKGH 7e3s-a1-m1-cA_7e3s-a1-m1-cB Crystal structure of TrmL from Shewanella oneidensis Q8E8X2 Q8E8X2 2.1 X-RAY DIFFRACTION 110 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 145 155 KMFHIALYEPEIAPNTGNIIRLCANNGSQLHLIEPLGFDFDYADLTNVTRHKNFDAFLKAMAGKRIMACTTKGSRPHSELSFAKDDVLLFGPETRGLPMSIIESIPTEQRLRIPMAATSRSLNLSNAVAIISYEAWRQLGFEGAI KMFHIALYEPEIAPNTGNIIRLCANNGSQLHLIEPLGFDFEEKKLRRAGLDYADLTNVTRHKNFDAFLKAMAGKRIMACTTKGSRPHSELSFAKDDVLLFGPETRGLPMSIIESIPTEQRLRIPMAATSRSLNLSNAVAIISYEAWRQLGFEGAI 7e3t-a1-m1-cA_7e3t-a1-m2-cA Crystal structure of TrmL from Mycoplasma capricolum A0A0C2ZKK6 A0A0C2ZKK6 2.1 X-RAY DIFFRACTION 139 1.0 40479 (Mycoplasma capricolum subsp. capricolum) 40479 (Mycoplasma capricolum subsp. capricolum) 174 174 MNKRKINIVLYQPEIAQNVGAIMRTCVAINARLHIIEPLGFIFDDRHLSRSSANEYKYVDCIRYDDWNDFITKHQNITLFCLSRYGQKPISDFDFSKINDNVYLVFGKESTGIAKPILKEHYNTTFRIPMISETRSLNIANTVGIASYEVLRQWDYLDLVKYETQKGKDYILSE MNKRKINIVLYQPEIAQNVGAIMRTCVAINARLHIIEPLGFIFDDRHLSRSSANEYKYVDCIRYDDWNDFITKHQNITLFCLSRYGQKPISDFDFSKINDNVYLVFGKESTGIAKPILKEHYNTTFRIPMISETRSLNIANTVGIASYEVLRQWDYLDLVKYETQKGKDYILSE 7e3w-a2-m1-cE_7e3w-a2-m1-cF Metallo beta-lactamase fold protein (cAMP bound) Q2FXM0 Q2FXM0 1.55 X-RAY DIFFRACTION 86 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 231 231 7e3v-a1-m1-cA_7e3v-a1-m1-cB 7e3v-a1-m1-cA_7e3v-a1-m1-cC 7e3v-a1-m1-cB_7e3v-a1-m1-cC 7e3v-a2-m1-cD_7e3v-a2-m1-cE 7e3v-a2-m1-cD_7e3v-a2-m1-cF 7e3v-a2-m1-cE_7e3v-a2-m1-cF 7e3w-a1-m1-cA_7e3w-a1-m1-cB 7e3w-a1-m1-cC_7e3w-a1-m1-cA 7e3w-a1-m1-cC_7e3w-a1-m1-cB 7e3w-a2-m1-cE_7e3w-a2-m1-cD 7e3w-a2-m1-cF_7e3w-a2-m1-cD HMMKLSFHGQSTIYLEGNNKKVIVDPFISNNPKCDLNIETVQVDYIVLTHGHFDHFGDVVELAKKTGATVIGSAEMADYLSSYHGVENVHGMNIGGKANFDFGSVKFVQAFHSSSFTHENGIPVYLGMPMGIVFEVEGKTIYHTGDTGLFSDMSLIAKRHPVDVCFVPIGDNFTMGIDDASYAINEFIKPKISVPIHYDTFPLIEQDPQQFKDAVNVGDVQILKPGESVQF HMMKLSFHGQSTIYLEGNNKKVIVDPFISNNPKCDLNIETVQVDYIVLTHGHFDHFGDVVELAKKTGATVIGSAEMADYLSSYHGVENVHGMNIGGKANFDFGSVKFVQAFHSSSFTHENGIPVYLGMPMGIVFEVEGKTIYHTGDTGLFSDMSLIAKRHPVDVCFVPIGDNFTMGIDDASYAINEFIKPKISVPIHYDTFPLIEQDPQQFKDAVNVGDVQILKPGESVQF 7e3x-a1-m1-cA_7e3x-a1-m1-cB Crystal structure of SDR family NAD(P)-dependent oxidoreductase from exiguobacterium A0A177S9P4 A0A177S9P4 2.58 X-RAY DIFFRACTION 146 1.0 1805000 (Exiguobacterium sp. KKBO11) 1805000 (Exiguobacterium sp. KKBO11) 248 248 7e24-a1-m1-cA_7e24-a1-m1-cB 7e24-a2-m1-cC_7e24-a2-m1-cD KYTVITGASSGIGYETAKLLAGKGKSLVLVARRTSELEKLRDEVKQISPDSDVILKSVDLADNQNVHDLYEGLKELDIETWINNAGVGDFDLVQDIELGKIEKMLRLNIEALTILSSLFVRDHHDIEGTTLVNISSLGGYMIVPNAVTYCATKFYVSAYTEGLAQELQKGGAKLRAKVLAPAATETEFVDRARGEAGFDYSKNVKKYHTAAEMAGFLHQLIESDAIVGIVDGETYEFELRGPLFNYAG KYTVITGASSGIGYETAKLLAGKGKSLVLVARRTSELEKLRDEVKQISPDSDVILKSVDLADNQNVHDLYEGLKELDIETWINNAGVGDFDLVQDIELGKIEKMLRLNIEALTILSSLFVRDHHDIEGTTLVNISSLGGYMIVPNAVTYCATKFYVSAYTEGLAQELQKGGAKLRAKVLAPAATETEFVDRARGEAGFDYSKNVKKYHTAAEMAGFLHQLIESDAIVGIVDGETYEFELRGPLFNYAG 7e3y-a1-m2-cA_7e3y-a1-m2-cC Crystal structure of serine acetyltransferase from Salmonella typhimurium complexed with cysteine A0A0D6I3Y9 A0A0D6I3Y9 1.9 X-RAY DIFFRACTION 112 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 257 257 1t3d-a1-m1-cA_1t3d-a1-m1-cB 1t3d-a1-m1-cA_1t3d-a1-m1-cC 1t3d-a1-m1-cB_1t3d-a1-m1-cC 1t3d-a1-m2-cA_1t3d-a1-m2-cB 1t3d-a1-m2-cA_1t3d-a1-m2-cC 1t3d-a1-m2-cB_1t3d-a1-m2-cC 6jvu-a1-m1-cB_6jvu-a1-m1-cA 6jvu-a1-m1-cC_6jvu-a1-m1-cA 6jvu-a1-m1-cC_6jvu-a1-m1-cB 6jvu-a1-m1-cE_6jvu-a1-m1-cD 6jvu-a1-m1-cE_6jvu-a1-m1-cF 6jvu-a1-m1-cF_6jvu-a1-m1-cD 7e3y-a1-m1-cA_7e3y-a1-m1-cB 7e3y-a1-m1-cA_7e3y-a1-m1-cC 7e3y-a1-m1-cB_7e3y-a1-m1-cC 7e3y-a1-m2-cA_7e3y-a1-m2-cB 7e3y-a1-m2-cB_7e3y-a1-m2-cC ELEIVWKNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWNKGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPGSDKPSMDMDQHFN ELEIVWKNIKAEARALADCEPMLASFYHATLLKHENLGSALSYMLANKLASPIMPAIAIREVVEEAYAADPEMIASAACDIQAVRTRDPAVDKYSTPLLYLKGFHALQAYRIGHWLWNKGRRALAIFLQNQVSVSFQVDIHPAAKIGRGIMLDHATGIVVGETAVIEDDVSILQSVTLGGTGKTSGDRHPKIREGVMIGAGAKILGNIEVGRGAKIGAGSVVLQPVPPHTTAAGVPARIVGKPGSDKPSMDMDQHFN 7e4d-a1-m1-cB_7e4d-a1-m1-cA Crystal structure of PlDBR A7HS36 A7HS36 2.6 X-RAY DIFFRACTION 64 0.988 402881 (Parvibaculum lavamentivorans DS-1) 402881 (Parvibaculum lavamentivorans DS-1) 320 323 NLSSKEIRLKARPVGMPKDSDFEVASADVLQPGDGEVLVRNIWMSVDPYMRGRMMDRESYVPPFQIGKPLEGGAIGQVVESKSDKLKVGTYVNHMWGWREYATGPAAGFTPVDPSLGPIEAFLGTLGMPGMTAWAGLFKVANLKDGETVFVSAASGAVGSVVCQLAKAHGCYVVGSAGSDEKCKWLEEVAGIDKAINYKTCGDLTKAVADAFPKGIDVYFENVGGKHLEAAINAMRPNGRAALCGMPGPTNLIQIVGKSLRLQGFIVSNYFQHMGEFFAEMGPLIQSGKMKWEETVEEGIENAPKAFLNLGKMLVKIGPD NLSSKEIRLKARPVGMPKDSDFEVASADVLQPGDGEVLVRNIWMSVDPYMRGRMMDRESYVPPFQIGKPLEGGAIGQVVESKSDKLKVGTYVNHMWGWREYATGPAAGFTPVDPSLGPIEAFLGTLGMPGMTAWAGLFKVANLKDGETVFVSAASGAVGSVVCQLAKAHGCYVVGSAGSDEKCKWLEEVAGIDKAINYKTCGDLTKAVADAFPKGIDVYFENVGGKHLEAAINAMRPNGRAALCPTNLIQIVGKSLRLQGFIVSNYFQHMGEFFAEMGPLIQSGKMKWEETVEEGIENAPKAFLNLFKNFGKMLVKIGPDKAV 7e4g-a1-m1-cC_7e4g-a1-m1-cB Crystal structure of schizorhodopsin 4 A0A524F8J2 A0A524F8J2 2.1 X-RAY DIFFRACTION 39 0.995 2591838 (Asgard group archaeon) 2591838 (Asgard group archaeon) 193 196 7e4g-a1-m1-cB_7e4g-a1-m1-cA 7e4g-a1-m1-cC_7e4g-a1-m1-cA MEQIIFYLGIGMFILSTIMFFFLKKKNAKLASINIIVSFVTIVSYILMLSGLFTLSATSGDTIYWTRWAFYAVSCSFLMVEISYLLRIDNTTRLEILVFNSMVMITGLFASISEDLYKWLFFIISSVAYLNVLFLIAKKKAIILFVAIFWSGFPIVWILSPAGLMVLNAFWTALFYLVLDFITKIYFGFHTTF MEQIIFYLGIGMFILSTIMFFFLKKKNAKLASINIIVSFVTIVSYILMLSGLFTLSATSGDTIYWTRWAFYAVSCSFLMVEISYLLRIDNTTRLEILVFNSMVMITGLFASISEDLYKWLFFIISSVAYLNVLFLIAKNRKAIILFVAIFWSGFPIVWILSPAGLMVLNAFWTALFYLVLDFITKIYFGFHTTFKH 7e4j-a2-m1-cB_7e4j-a2-m1-cD X-ray crystal structure of VapB12 antitoxin from mycobacterium tuberculosis in space group P41. P9WJ53 P9WJ53 1.63 X-RAY DIFFRACTION 90 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 44 44 7e4j-a1-m1-cA_7e4j-a1-m1-cC MSAMVQIRNVPDELLHELKARAAAQRMSLSDFLLARLAEIAEEP MSAMVQIRNVPDELLHELKARAAAQRMSLSDFLLARLAEIAEEP 7e4m-a1-m1-cA_7e4m-a1-m2-cA Class I Pimarane-Type Diterpene Synthases Stt4548 1.57 X-RAY DIFFRACTION 99 1.0 1931 (Streptomyces sp.) 1931 (Streptomyces sp.) 270 270 LPDPEACAPVCAHAVHLISDLRSWNQRYGGVVSDVRLIGIGVFTAFIAPWLGPGQLVLPARTAAWCCALDDCADSKETSPEEVARLIDACRHVLTGEDPDTANPIACALAAVRADVAERRLSAAFAHAWNRSLDRVLSATLFECQARHDIAAGLPGPSIEDYLARSTGSILVEVFLLNLCVAEARQNAVSQLKALAPALSHAEYAVRLGNDVASHGDINVIMLGMAPEEARRRTADHARRCRDELRPFLDADPRGCAVMLDRATRLFVGI LPDPEACAPVCAHAVHLISDLRSWNQRYGGVVSDVRLIGIGVFTAFIAPWLGPGQLVLPARTAAWCCALDDCADSKETSPEEVARLIDACRHVLTGEDPDTANPIACALAAVRADVAERRLSAAFAHAWNRSLDRVLSATLFECQARHDIAAGLPGPSIEDYLARSTGSILVEVFLLNLCVAEARQNAVSQLKALAPALSHAEYAVRLGNDVASHGDINVIMLGMAPEEARRRTADHARRCRDELRPFLDADPRGCAVMLDRATRLFVGI 7e4n-a1-m1-cA_7e4n-a1-m2-cA Crystal structure of Sat1646 1.94 X-RAY DIFFRACTION 170 1.0 168694 (Salinispora) 168694 (Salinispora) 290 290 7e4o-a1-m1-cA_7e4o-a1-m2-cA NAMVPTHHAGNGFAVASEQGRICALAARGQRDLRQCVRAYPSLFPNPPVDDTMLSALALSTAFIAPWCSAEQLRVANRASLWVTAEDWQVDRVATSDDAVRSIVSACQAVADGAAPDVDCALGQLLAEIRDELATGAGFTEWQPVWREEVRRMLTADIREWEWRHSARPPSFAEYLDNADNYGASFVNVSHWIVTGDAQTRSHLPELIAASREVQRILRLSNDLASYERDIRSGDLNALLLVDREEVSRQLRDRIRACQDHLHALEVTCPREALYLAREAGFTTGFYHGA NAMVPTHHAGNGFAVASEQGRICALAARGQRDLRQCVRAYPSLFPNPPVDDTMLSALALSTAFIAPWCSAEQLRVANRASLWVTAEDWQVDRVATSDDAVRSIVSACQAVADGAAPDVDCALGQLLAEIRDELATGAGFTEWQPVWREEVRRMLTADIREWEWRHSARPPSFAEYLDNADNYGASFVNVSHWIVTGDAQTRSHLPELIAASREVQRILRLSNDLASYERDIRSGDLNALLLVDREEVSRQLRDRIRACQDHLHALEVTCPREALYLAREAGFTTGFYHGA 7e4s-a1-m1-cD_7e4s-a1-m1-cF Crystal structure of Lactobacillus rhamnosus 4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase KduI complexed with HEPES A0A249DGV6 A0A249DGV6 2.79 X-RAY DIFFRACTION 69 1.0 47715 (Lacticaseibacillus rhamnosus) 47715 (Lacticaseibacillus rhamnosus) 260 279 7e4s-a1-m1-cB_7e4s-a1-m1-cC 7e4s-a1-m1-cE_7e4s-a1-m1-cA 7vgk-a1-m1-cA_7vgk-a1-m3-cE 7vgk-a2-m1-cF_7vgk-a2-m1-cB 7vgk-a3-m2-cD_7vgk-a3-m1-cC SFSMVTRYAHSPEDIQHYDTSKLRHEFLMEKIFNPGDILLTYTYNDRMIFGGVMPTDEPLEIKLSTELGVDFFLQRRELGIINIGGAGAITIDGRKDAMSNQDGYYIGMGTQKVVFTSEDRDHPAKFYVVSTPAHKTYPNKKLPFATALAKPMGDQQHLNKRTIYKYIDASQMDTCQLQMGYTVLEPGSSWNTMHARMETYMYFNFADPETRVFHFLGKPDETRHITLFNEQAVVNPSWSIHCGVGTTNYAFIWAMCGEN SFSMVTRYAHSPEDIQHYDTSKLRHEFLMEKIFNPGDILLTYTYNDRMIFGGVMPTDEPLEIKLSTELGVDFFLQRRELGIINIGGAGAITIDGRKDAMSNQDGYYIGMGTQKVVFTSEDRDHPAKFYVVSTPAHKTYPNKKLPFATALAKPMGDQQHLNKRTIYKYIDASQMDTCQLQMGYTVLEPGSSWNTMPAHTHARRMETYMYFNFADPETRVFHFLGKPDETRHITLFNEQAVVNPSWSIHCGVGTTNYAFIWAMCGENQTYDDMDQVAMNEL 7e4s-a1-m1-cE_7e4s-a1-m1-cF Crystal structure of Lactobacillus rhamnosus 4-deoxy-L-threo-5-hexosulose-uronate ketol-isomerase KduI complexed with HEPES A0A249DGV6 A0A249DGV6 2.79 X-RAY DIFFRACTION 83 1.0 47715 (Lacticaseibacillus rhamnosus) 47715 (Lacticaseibacillus rhamnosus) 270 279 7e4s-a1-m1-cA_7e4s-a1-m1-cB 7e4s-a1-m1-cD_7e4s-a1-m1-cC SFSMVTRYAHSPEDIQHYDTSKLRHEFLMEKIFNPGDILLTYTYNDRMIFGGVMPTDEPLEIKLSTELGVDFFLQRRELGIINIGGAGAITIDGRKDAMSNQDGYYIGMGTQKVVFTSEDRDHPAKFYVVSTPAHKTYPNKKLPFATALAKPMGDQQHLNKRTIYKYIDASQMDTCQLQMGYTVLEPGSSWNTMTHARRMETYMYFNFADPETRVFHFLGKPDETRHITLFNEQAVVNPSWSIHCGVGTTNYAFIWAMCGENQTVAMNEL SFSMVTRYAHSPEDIQHYDTSKLRHEFLMEKIFNPGDILLTYTYNDRMIFGGVMPTDEPLEIKLSTELGVDFFLQRRELGIINIGGAGAITIDGRKDAMSNQDGYYIGMGTQKVVFTSEDRDHPAKFYVVSTPAHKTYPNKKLPFATALAKPMGDQQHLNKRTIYKYIDASQMDTCQLQMGYTVLEPGSSWNTMPAHTHARRMETYMYFNFADPETRVFHFLGKPDETRHITLFNEQAVVNPSWSIHCGVGTTNYAFIWAMCGENQTYDDMDQVAMNEL 7e4u-a5-m1-cI_7e4u-a5-m1-cJ Crystal structure of Peroxiredoxin-1 A0A671UQR2 A0A671UQR2 2.6 X-RAY DIFFRACTION 77 1.0 8175 (Sparus aurata) 8175 (Sparus aurata) 171 171 7e4u-a1-m1-cB_7e4u-a1-m1-cA 7e4u-a2-m1-cC_7e4u-a2-m1-cD 7e4u-a3-m1-cE_7e4u-a3-m1-cF 7e4u-a4-m1-cG_7e4u-a4-m1-cH AGNAQIGKLAPDFTAKAVMPDGQFKDLKMSDYRGKYVVFFFYPLDFTFVCPTEIIAFSDAADDFKKIGCEVIAASVDSHFSHLAWINTPRKQGGLGTMKIPLVSDTRRTISTDYGVLKEDDGIAYRGLFIIDDKGILRQITINDLPVGRSVEETLRLVQAFQFTDKHGEVC AGNAQIGKLAPDFTAKAVMPDGQFKDLKMSDYRGKYVVFFFYPLDFTFVCPTEIIAFSDAADDFKKIGCEVIAASVDSHFSHLAWINTPRKQGGLGTMKIPLVSDTRRTISTDYGVLKEDDGIAYRGLFIIDDKGILRQITINDLPVGRSVEETLRLVQAFQFTDKHGEVC 7e4v-a1-m1-cA_7e4v-a1-m1-cB Crystal structure of mosquito Staufen dsRNA binding domain 4 A0A6I8TL34 A0A6I8TL34 1.37 X-RAY DIFFRACTION 15 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 74 75 MVNPISRLMQIQQARKEKEPVYTLVEERGVARRREFIMEVSASGKSATGIGPTKKLAKKEAAENLLVMLGYGRS GMVNPISRLMQIQQARKEKEPVYTLVEERGVARRREFIMEVSASGKSATGIGPTKKLAKKEAAENLLVMLGYGRS 7e52-a1-m1-cA_7e52-a1-m2-cA Acinetobacter baumannii Thioredoxin reductase A0A0G4QN87 A0A0G4QN87 1.9 X-RAY DIFFRACTION 159 1.0 1310633 (Acinetobacter baumannii 940793) 1310633 (Acinetobacter baumannii 940793) 314 314 SARHSRLIILGSGPAGYSAAVYAARANLKPTLIAGQLTTTTEVDNWPGDPEGLTGPALMDRMQAHAERFGTELVYDHINEVDLNVRPFVLKGDMDEYTCDALIIATGATAQYLGLESEQKFMGQGVSACATCDGFFYKNQNVMVVGGGNTAVEEALYLSNIAEHVTLVHRRDSLRSEKILQDHLFAKEKEGKISIVWNHEVEEVLGDNTGVTGVRLKSTKDDSKQEVQVQGLFIAIGHKPNTSIFEGQLNLRDGYIQVQSGTSGNATATSVAGVFAAGDVADSIYRQAITSAGSGCMAALDAEKYLDNLLEHHH SARHSRLIILGSGPAGYSAAVYAARANLKPTLIAGQLTTTTEVDNWPGDPEGLTGPALMDRMQAHAERFGTELVYDHINEVDLNVRPFVLKGDMDEYTCDALIIATGATAQYLGLESEQKFMGQGVSACATCDGFFYKNQNVMVVGGGNTAVEEALYLSNIAEHVTLVHRRDSLRSEKILQDHLFAKEKEGKISIVWNHEVEEVLGDNTGVTGVRLKSTKDDSKQEVQVQGLFIAIGHKPNTSIFEGQLNLRDGYIQVQSGTSGNATATSVAGVFAAGDVADSIYRQAITSAGSGCMAALDAEKYLDNLLEHHH 7e5a-a1-m1-cA_7e5a-a1-m1-cB interferon-inducible anti-viral protein R356A Q96PP8 Q96PP8 2.5 X-RAY DIFFRACTION 220 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 465 471 IHMSDPMCLIENFNEQLKVNQEALEILSAITQPVVVVAIVGLYRTGKSYLMNKLAGKNKGFSVASTVQSHTKGIWIWCVPHPNWPNHTLVLLDTEGLGDVEKADNKNDIQIFALALLLSSTFVYNTVNKIDQGAIDLLHNVTELTDLLKARNSPEDPADSASFFPDLVWTLRDFCLGLEIDGQLVTPDEYLENSLRPKQGSDQRVQNFNLPRLCIQKFFPKKKCFIFDLPAHQKKLAQLETLPDDELEPEFVQQVTEFCSYIFSHSMTKTLPGGIMVNGSRLKNLVLTYVNAISSGDLPCIENAVLALAQRENSAAVQKAIAHYDQQMGLPMETLQELLDLHATSEREAIEVFMKNSFKDVDQSFQKELETLLDAKQNDICKRNLEASSDYCSALLKDIFGPLEEAVKQGIYSNLFIQKTEELKAKYYREPRKGIQAEEVLQKYLKSKESVSHAILQTDQALTET IHMSDPMCLIENFNEQLKVNQEALEILSAITQPVVVVAIVGLYRTGKSYLMNKLAGKNKGFSVASTVQSHTKGIWIWCVPHPNWPNHTLVLLDTEGLGDVEKADNKNDIQIFALALLLSSTFVYNTVNKIDQGAIDLLHNVTELTDLLKARNSPDPADSASFFPDLVWTLRDFCLGLEIDGQLVTPDEYLENSLRPKQGSDQRVQNFNLPRLCIQKFFPKKKCFIFDLPAHQKKLAQLETLPDDELEPEFVQQVTEFCSYIFSHSMTKTLPGGIMVNGSRLKNLVLTYVNAISSGDLPCIENAVLALAQRENSAAVQKAIAHYDQQMGQKVQLPMETLQELLDLHATSEREAIEVFMKNSFKDVDQSFQKELETLLDAKQNDICKRNLEASSDYCSALLKDIFGPLEEAVKQGIYSKPNLFIQKTEELKAKYYREPRKGIQAEEVLQKYLKSKESVSHAILQTDQALTETE 7e5c-a2-m1-cD_7e5c-a2-m1-cC Bacterial prolidase mutant D45W/L225Y/H226L/H343I A0A1I7CHQ2 A0A1I7CHQ2 2.22 X-RAY DIFFRACTION 112 1.0 1452721 (Pseudoalteromonas lipolytica SCSIO 04301) 1452721 (Pseudoalteromonas lipolytica SCSIO 04301) 438 439 6ah7-a1-m1-cA_6ah7-a1-m1-cB 6ah7-a2-m1-cC_6ah7-a2-m1-cD 6ah8-a1-m1-cA_6ah8-a1-m1-cB 6ah8-a1-m1-cC_6ah8-a1-m1-cD 7e5c-a1-m1-cA_7e5c-a1-m1-cB DKLAVLYAEHIATLQQRTRTITEREGLEGLVIHSGQAKRQFLDWMYYPFKVNPQFKAWLPVIDNPHCWIVVDGASKPKLIFYRPVDFWHKVPDPRDFWAEYFDIELLVQPDQVEKLLPYDKANYAYIGEYLEVAQALGFSIMNPEPVMNYLHFHRAYKTQYELECLRQANRIAVEGHKAARDTFFNGGSEFDIQHAYLMATRQSENEMPYGNIVALNENCAIYLYTHFEPTAPHTHHSFLIDAGANFNGYAADITRTYDFKKSGEFSDLIQVMTEHQIALGKALKPGLLYGELHLECHQRVAQVLSDFNIVKLPAADIVERGITSTFFPHGLGHHLGLQVIDMGGFMADESGTHQAPPEGHPFLRCTRLIEKNQVFTIEPGLYFIDSLLGDLAQTDNKQFINWEKVEEFKPFGGIRIEDNIIVHEDSLENMTRDLHLD DKLAVLYAEHIATLQQRTRTITEREGLEGLVIHSGQAKRQFLDWMYYPFKVNPQFKAWLPVIDNPHCWIVVDGASKPKLIFYRPVDFWHKVPDEPRDFWAEYFDIELLVQPDQVEKLLPYDKANYAYIGEYLEVAQALGFSIMNPEPVMNYLHFHRAYKTQYELECLRQANRIAVEGHKAARDTFFNGGSEFDIQHAYLMATRQSENEMPYGNIVALNENCAIYLYTHFEPTAPHTHHSFLIDAGANFNGYAADITRTYDFKKSGEFSDLIQVMTEHQIALGKALKPGLLYGELHLECHQRVAQVLSDFNIVKLPAADIVERGITSTFFPHGLGHHLGLQVIDMGGFMADESGTHQAPPEGHPFLRCTRLIEKNQVFTIEPGLYFIDSLLGDLAQTDNKQFINWEKVEEFKPFGGIRIEDNIIVHEDSLENMTRDLHLD 7e5i-a1-m1-cA_7e5i-a1-m2-cA HUMAN PPAR ALPHA LIGAND BINDING DOMAIN IN COMPLEX WITH APHM6 OBTAINED BY SOAKING Q07869 Q07869 1.58 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 265 7e5f-a1-m1-cA_7e5f-a1-m2-cA 7e5g-a1-m1-cA_7e5g-a1-m2-cA 7e5h-a1-m1-cA_7e5h-a1-m2-cA TADLKSLAKRIYEAYLKNFNMNKVKARVILSGNPPFVIHDMETLCMAEKTLVAKLVANGIQNKEAEVRIFHCCQCTSVETVTELTEFAKAIPGFANLDLNDQVTLLKYGVYEAIFAMLSSVMNKDGMLVAYGNGFITREFLKSLRKPFCDIMEPKFDFAMKFNALELDDSDISLFVAAIICCGDRPGLLNVGHIEKMQEGIVHVLRLHLQSNHPDDIFLFPKLLQKMADLRQLVTEHAQLVQIIKKTESDAALHPLLQEIYRDMY TADLKSLAKRIYEAYLKNFNMNKVKARVILSGNPPFVIHDMETLCMAEKTLVAKLVANGIQNKEAEVRIFHCCQCTSVETVTELTEFAKAIPGFANLDLNDQVTLLKYGVYEAIFAMLSSVMNKDGMLVAYGNGFITREFLKSLRKPFCDIMEPKFDFAMKFNALELDDSDISLFVAAIICCGDRPGLLNVGHIEKMQEGIVHVLRLHLQSNHPDDIFLFPKLLQKMADLRQLVTEHAQLVQIIKKTESDAALHPLLQEIYRDMY 7e5n-a1-m1-cC_7e5n-a1-m1-cA crystal structure of cis assembled TROP-2 P09758 P09758 3.2 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 237 7e5m-a1-m1-cA_7e5m-a1-m2-cB DNCTCPTNKMTVCSPDGPGGRCQCRALGSGMAVDCSTLTSKCLLLKARMSAPKPSEHALVDNDGLYDPDCDPEGRFKARQCNQTSVCWCVNSVGVRRTDKGDLSLRCDELVRTHHILIDLRHRPTAGAFNHSDLDAELRRLFRERYRLHPKFVAAVHYEQPTIQIELRQNTSQKAAGDVDIGDAAYYFERDIKGESLFQGRGGLDLRVRGEPLQVERTLIYYLDEIPPKF DNCTCPTNKMTVCSPDGPGGRCQCRALGSGMAVDCSTLTSKCLLLKARMSAPKNARTLVRPSEHALVDNDGLYDPDCDPEGRFKARQCNQTSVCWCVNSVGVRRTDKGDLSLRCDELVRTHHILIDLRHRPTAGAFNHSDLDAELRRLFRERYRLHPKFVAAVHYEQPTIQIELRQNTSQKAAGDVDIGDAAYYFERDIKGESLFQGRGGLDLRVRGEPLQVERTLIYYLDEIPPKF 7e5n-a1-m1-cC_7e5n-a1-m1-cD crystal structure of cis assembled TROP-2 P09758 P09758 3.2 X-RAY DIFFRACTION 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 230 237 7e5n-a1-m1-cA_7e5n-a1-m1-cB 7pee-a1-m1-cA_7pee-a1-m1-cD 7pee-a2-m1-cB_7pee-a2-m1-cC DNCTCPTNKMTVCSPDGPGGRCQCRALGSGMAVDCSTLTSKCLLLKARMSAPKPSEHALVDNDGLYDPDCDPEGRFKARQCNQTSVCWCVNSVGVRRTDKGDLSLRCDELVRTHHILIDLRHRPTAGAFNHSDLDAELRRLFRERYRLHPKFVAAVHYEQPTIQIELRQNTSQKAAGDVDIGDAAYYFERDIKGESLFQGRGGLDLRVRGEPLQVERTLIYYLDEIPPKF DNCTCPTNKMTVCSPDGPGGRCQCRALGSGMAVDCSTLTSKCLLLKARMSAPKNARTLVRPSEHALVDNDGLYDPDCDPEGRFKARQCNQTSVCWCVNSVGVRRTDKGDLSLRCDELVRTHHILIDLRHRPTAGAFNHSDLDAELRRLFRERYRLHPKFVAAVHYEQPTIQIELRQNTSQKAAGDVDIGDAAYYFERDIKGESLFQGRGGLDLRVRGEPLQVERTLIYYLDEIPPKF 7e5r-a1-m1-cB_7e5r-a1-m1-cC SARS-CoV-2 S trimer with three-antibody cocktail complex P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 254 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1072 1072 7e5r-a1-m1-cA_7e5r-a1-m1-cB 7e5r-a1-m1-cA_7e5r-a1-m1-cC 7e5s-a1-m1-cA_7e5s-a1-m1-cB 7e5s-a1-m1-cA_7e5s-a1-m1-cC 7e5s-a1-m1-cB_7e5s-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7e5w-a2-m1-cB_7e5w-a2-m1-cC The structure of CcpA from Staphylococcus aureus P99175 P99175 2.55 X-RAY DIFFRACTION 102 1.0 158879 (Staphylococcus aureus subsp. aureus N315) 158879 (Staphylococcus aureus subsp. aureus N315) 319 319 7e5w-a1-m1-cA_7e5w-a1-m2-cA TVTIYDVAREARVSMATVSRVVNGNQNVKAETKNKVNEVIKRLNYRPNATTTVGVIIPDISNIYYSQLARGLEDIATMYKYHSIISNSDNDPEKEKEIFNNLLSKQVDGIIFLGGTITEEMKELINQSSVPVVVSGTNGKDAHIASVNIDFTEAAKEITGELIEKGAKSFALVGGEHSKKAQEDVLEGLTEVLNKNGLQLGDTLNCSGAESYKEGVKAFAKMKGNLPDAILCISDEEAIGIMHSAMDAGIKVPEELQIISFNNTRLVEMVRPQLSSVIQPLYDIGAVGMRLLTKYMNDEKIEEPNVVLPHRIEYRGTTK TVTIYDVAREARVSMATVSRVVNGNQNVKAETKNKVNEVIKRLNYRPNATTTVGVIIPDISNIYYSQLARGLEDIATMYKYHSIISNSDNDPEKEKEIFNNLLSKQVDGIIFLGGTITEEMKELINQSSVPVVVSGTNGKDAHIASVNIDFTEAAKEITGELIEKGAKSFALVGGEHSKKAQEDVLEGLTEVLNKNGLQLGDTLNCSGAESYKEGVKAFAKMKGNLPDAILCISDEEAIGIMHSAMDAGIKVPEELQIISFNNTRLVEMVRPQLSSVIQPLYDIGAVGMRLLTKYMNDEKIEEPNVVLPHRIEYRGTTK 7e63-a1-m1-cA_7e63-a1-m1-cB The crystal structure of peptidoglycan peptidase in complex with inhibitor 2-1 A0A1J6PWI8 A0A1J6PWI8 2.4 X-RAY DIFFRACTION 49 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 255 255 MELIKGQALFLELDKKDFLSLKNNDKNIPTFAHPKNQEKILAIFSLPYKNPPQNTKLIAFYKDKKEEIFIKTLEGNYKSEKLQVENKKIFPPKTIQERIAKELKEANAIYSSYTPKALFNGAFNIPLNSFITSDFGKARTFNEKVASYHSGTDFRAATGTPIYAANSGVVKIAKDRYFAGNSVVIDHGFGIYSQYYHLSKIDVKVGQKIKKGELIGLSGASGRVSGPALHFGILAGGKQVDPLDFVSKFNAIFQL MELIKGQALFLELDKKDFLSLKNNDKNIPTFAHPKNQEKILAIFSLPYKNPPQNTKLIAFYKDKKEEIFIKTLEGNYKSEKLQVENKKIFPPKTIQERIAKELKEANAIYSSYTPKALFNGAFNIPLNSFITSDFGKARTFNEKVASYHSGTDFRAATGTPIYAANSGVVKIAKDRYFAGNSVVIDHGFGIYSQYYHLSKIDVKVGQKIKKGELIGLSGASGRVSGPALHFGILAGGKQVDPLDFVSKFNAIFQL 7e6c-a1-m1-cA_7e6c-a1-m2-cA Crystal structure of L-cycloserine-bound form of cysteine desulfurase SufS C361A from Bacillus subtilis O32164 O32164 1.73 X-RAY DIFFRACTION 286 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 413 413 5j8q-a1-m1-cA_5j8q-a1-m2-cA 5xt5-a1-m1-cA_5xt5-a1-m1-cB 5xt6-a1-m1-cA_5xt6-a1-m1-cB 5zs9-a1-m1-cA_5zs9-a1-m2-cA 5zsk-a1-m1-cA_5zsk-a1-m2-cA 5zso-a1-m1-cA_5zso-a1-m2-cA 6kfy-a1-m1-cA_6kfy-a1-m2-cA 6kfz-a1-m1-cA_6kfz-a1-m2-cA 7ceo-a1-m1-cA_7ceo-a1-m2-cA 7cep-a1-m1-cA_7cep-a1-m2-cA 7ceq-a1-m1-cA_7ceq-a1-m2-cA 7cer-a1-m1-cA_7cer-a1-m2-cA 7ces-a1-m1-cA_7ces-a1-m2-cA 7e6a-a1-m1-cA_7e6a-a1-m2-cA 7e6b-a1-m1-cA_7e6b-a1-m2-cA 7e6d-a1-m1-cA_7e6d-a1-m2-cA 7e6e-a1-m1-cA_7e6e-a1-m2-cA 7e6f-a1-m1-cA_7e6f-a1-m2-cA 7xej-a1-m1-cA_7xej-a1-m2-cA 7xek-a1-m1-cA_7xek-a1-m2-cA 7xel-a1-m1-cA_7xel-a1-m2-cA 7xen-a1-m1-cA_7xen-a1-m2-cA 7xep-a1-m1-cA_7xep-a1-m2-cA 7xet-a1-m1-cA_7xet-a1-m2-cA HMNITDIREQFPILHQQVNGHDLVYLDSAATSQKPRAVIETLDKYYNQYNSNVHRGVHTLGTRATDGYEGAREKVRKFINAKSMAEIIFTKGTTTSLNMVALSYARANLKPGDEVVITYMEHHANIIPWQQAVKATGATLKYIPLQEDGTISLEDVRETVTSNTKIVAVSHVSNVLGTVNPIKEMAKIAHDNGAVIVVDGAQSTPHMKIDVQDLDCDFFALSSHKMCGPTGVGVLYGKKALLENMEPAEFGGEMIDFVGLYESTWKELPWKFEAGTPIIAGAIGLGAAIDFLEEIGLDEISRHEHKLAAYALERFRQLDGVTVYGPEERAGLVTFNLDDVHPHDVATVLDAEGIAVRAGHHAAQPLMKWLDVTATARASFYLYNTEEEIDKLVEALQKTKEYFTNVFVDLEHH HMNITDIREQFPILHQQVNGHDLVYLDSAATSQKPRAVIETLDKYYNQYNSNVHRGVHTLGTRATDGYEGAREKVRKFINAKSMAEIIFTKGTTTSLNMVALSYARANLKPGDEVVITYMEHHANIIPWQQAVKATGATLKYIPLQEDGTISLEDVRETVTSNTKIVAVSHVSNVLGTVNPIKEMAKIAHDNGAVIVVDGAQSTPHMKIDVQDLDCDFFALSSHKMCGPTGVGVLYGKKALLENMEPAEFGGEMIDFVGLYESTWKELPWKFEAGTPIIAGAIGLGAAIDFLEEIGLDEISRHEHKLAAYALERFRQLDGVTVYGPEERAGLVTFNLDDVHPHDVATVLDAEGIAVRAGHHAAQPLMKWLDVTATARASFYLYNTEEEIDKLVEALQKTKEYFTNVFVDLEHH 7e6g-a1-m1-cB_7e6g-a1-m1-cA Crystal structure of diguanylate cyclase SiaD in complex with its activator SiaC from Pseudomonas aeruginosa A0A069QEY1 A0A069QEY1 2.65 X-RAY DIFFRACTION 154 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 260 264 MSRERELDAWIDGLLADPQFHGHPLHQALARLRQQSLEQLVRLERIARISDGFQSMAREQNLSLSERYHKQLRRLEKVARISDRYQQMMRDLNLALKEASIRDPLTGLPNRRMLLERLREENERSQRHGQSYVLAMLDVDFFKQVNDTWGHDSGDRVLVEIARAMESELREYDLCGRWGGEEFLLLLPQTRLQDAGPVLERVRDSVRTLAVRVGTEALSVTASVGVTEHRIGETYSQTVNRADAALLDAKRSGRDKCVFA MSRERELDAWIDGLLADPQFHGHPLHQALARLRQQSLEQLVRLERIARISDGFQSMAREQNLSLSERYHKQLRRLEKVARISDRYQQMMRDLNLALKEASIRDPLTGLPNRRMLLERLREENERSQRHGQSYVLAMLDVDFFKQVNDTWGHDSGDRVLVEIARAMESELREYDLCGRWGGEEFLLLLPQTRLQDAGPVLERVRDSVRTLAVRVGTEALSVTASVGVTEHRIGETYSQTVNRADAALLDAKRSGRDKCVFAALPP 7e6m-a1-m1-cA_7e6m-a1-m1-cB Crystal structure of Human coronavirus NL63 3C-like protease P0C6U6 P0C6U6 1.83445 X-RAY DIFFRACTION 84 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 299 299 3tlo-a1-m1-cA_3tlo-a1-m1-cB 5gwy-a1-m1-cA_5gwy-a1-m1-cB 5nh0-a1-m1-cA_5nh0-a1-m2-cA 5nh0-a1-m1-cC_5nh0-a1-m1-cB 5nh0-a1-m2-cC_5nh0-a1-m2-cB 7e6l-a1-m1-cA_7e6l-a1-m1-cB 7e6n-a1-m1-cB_7e6n-a1-m1-cA 7e6r-a1-m1-cB_7e6r-a1-m1-cA 7eo7-a1-m1-cA_7eo7-a1-m1-cB 7wqh-a1-m1-cB_7wqh-a1-m1-cA GLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYGV GLKKMAQPSGCVERCVVRVCYGSTVLNGVWLGDTVTCPRHVIAPSTTVLIDYDHAYSTMRLHNFSVSHNGVFLGVVGVTMHGSVLRIKVSQSNVHTPKHVFKTLKPGDSFNILACYEGIASGVFGVNLRTNFTIKGSFINGACGSPGYNVRNDGTVEFCYLHQIELGSGAHVGSDFTGSVYGNFDDQPSLQVESANLMLSDNVVAFLYAALLNGCRWWLCSTRVNVDGFNEWAMANGYTSVSSVECYSILAAKTGVSVEQLLASIQHLHEGFGGKNILGYSSLCDEFTLAEVVKQMYGV 7e6o-a1-m1-cA_7e6o-a1-m1-cD Crystal structure of polyol dehydrogenase from Paracoccus denitrificans A1BBK7 A1BBK7 2.1 X-RAY DIFFRACTION 124 0.996 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 242 250 7e6o-a1-m1-cB_7e6o-a1-m1-cC MRLQGKTALITGAARGIGLEFARAYIAEGARVALADINADAVRAAVESLGPQAVAVQMDVTRQDSIDAGFAEVIGTFGHLDILVNNAALFTAAPVEEVTRADYDRVMAVNMTGAFFCMQAAAKHMIARGKGGKIINMASQAGRRGEPLVAVYCASKAAVISMTQSAGLGLIRHGINVNAIAPGVVDGARFEGEKKKLVGAAVPFGRMGVASDLTGMAIFLATAEAEYIVGQTFGVDGGNWLA MRLQGKTALITGAARGIGLEFARAYIAEGARVALADINADAVRAAVESLGPQAVAVQMDVTRQDSIDAGFAEVIGTFGHLDILVNNAALFTAAPVEEVTRADYDRVMAVNMTGAFFCMQAAAKHMIARGKGGKIINMASQAGRRGEPLVAVYCASKAAVISMTQSAGLGLIRHGINVNAIAPGVVDVDEHFARFEGLKPGEKKKLVGAAVPFGRMGVASDLTGMAIFLATAEAEYIVGQTFGVDGGNWLA 7e6o-a1-m1-cD_7e6o-a1-m1-cC Crystal structure of polyol dehydrogenase from Paracoccus denitrificans A1BBK7 A1BBK7 2.1 X-RAY DIFFRACTION 99 1.0 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 250 256 7e6o-a1-m1-cB_7e6o-a1-m1-cA MRLQGKTALITGAARGIGLEFARAYIAEGARVALADINADAVRAAVESLGPQAVAVQMDVTRQDSIDAGFAEVIGTFGHLDILVNNAALFTAAPVEEVTRADYDRVMAVNMTGAFFCMQAAAKHMIARGKGGKIINMASQAGRRGEPLVAVYCASKAAVISMTQSAGLGLIRHGINVNAIAPGVVDVDEHFARFEGLKPGEKKKLVGAAVPFGRMGVASDLTGMAIFLATAEAEYIVGQTFGVDGGNWLA MRLQGKTALITGAARGIGLEFARAYIAEGARVALADINADAVRAAVESLGPQAVAVQMDVTRQDSIDAGFAEVIGTFGHLDILVNNAALFTAAPVEEVTRADYDRVMAVNMTGAFFCMQAAAKHMIARGKGGKIINMASQAGRRGEPLVAVYCASKAAVISMTQSAGLGLIRHGINVNAIAPGVVDGEHWDMVDEHFARFEGLKPGEKKKLVGAAVPFGRMGVASDLTGMAIFLATAEAEYIVGQTFGVDGGNWLA 7e6z-a1-m1-cA_7e6z-a1-m2-cA Time-resolved serial femtosecond crystallography reveals early structural changes in channelrhodopsin: 50 microsecond structure Q8RUT8 Q8RUT8 2.5 X-RAY DIFFRACTION 161 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 296 296 3ug9-a1-m1-cA_3ug9-a1-m2-cA 4yzi-a1-m1-cA_4yzi-a1-m2-cA 6csn-a1-m1-cA_6csn-a1-m2-cA 6cso-a1-m1-cA_6cso-a1-m2-cA 7c86-a1-m1-cA_7c86-a1-m2-cA 7e6x-a1-m1-cA_7e6x-a1-m2-cA 7e6y-a1-m1-cA_7e6y-a1-m2-cA 7e70-a1-m1-cA_7e70-a1-m2-cA 7e71-a1-m1-cA_7e71-a1-m2-cA RMLFQTSYTLENNGSVICIPNNGQCFCLAWLKSNGTNAEKLAANILQWITFALSALCLMFYGYCGWEEIYVATIEMIKFIIEYFHEFDEPAVIYSSNGNKTVWLRYAEWLLTCPVILIHLSNLTGLANDYNKRTMGLLVSDIGTIVWGTTAALSKGYVRVIFFLMGLCYGIYTFFNAAKVYIEAYHTVPKGRCRQVVTGMAWLFFVSWGMFPILFILGPEGFGVLSVYGSTVGHTIIDLMSKNCWGLLGHYLRVLIHEHILIHGDIRKTTKLNITEIEVETLVEDEAEAGAVSSED RMLFQTSYTLENNGSVICIPNNGQCFCLAWLKSNGTNAEKLAANILQWITFALSALCLMFYGYCGWEEIYVATIEMIKFIIEYFHEFDEPAVIYSSNGNKTVWLRYAEWLLTCPVILIHLSNLTGLANDYNKRTMGLLVSDIGTIVWGTTAALSKGYVRVIFFLMGLCYGIYTFFNAAKVYIEAYHTVPKGRCRQVVTGMAWLFFVSWGMFPILFILGPEGFGVLSVYGSTVGHTIIDLMSKNCWGLLGHYLRVLIHEHILIHGDIRKTTKLNITEIEVETLVEDEAEAGAVSSED 7e76-a1-m1-cA_7e76-a1-m1-cB The structure of chloroplastic TaPGI A0A3B6LNA8 A0A3B6LNA8 2.65 X-RAY DIFFRACTION 405 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 515 515 LWDRYVEWLYQHKQLGLFVDVSRMGFTDDFLLQMEPLMQRAFVAMGELEKGAIANPDEGRMVGHYWLRDPGLAPNSFLRTKIEKTVDHILAFSQDIVSGKIKPPSSQAGRFTQILSIGIGGSSLGPQFVSEALAPDNPPLKIRFIDNTDPAGIDHQIAQLGEELKSTLVIVISKSGGTPETRNGLLEVQKAFRDAGLDFSKQGVAITQENSLLDNTARIEGWLDRFPMFDWVGGRTSELSAVGLLPAALQGIDVKEMLVGAALMDEETRNTVVKENPAALLALSWYWATDGIGSKDMVVLPYKDSLLLLSRYLQQLVMESLGKEFDLDGNRVNQGLTVYGNKGSTDQHAYIQQLREGVHNFFVTFIEVLRDRPPGHDWELEPGVTCGDYLFGMLQGTRSALYSNDRESISVTVEEVTPRAVGALVALYERAVGIYASLVNINAYHQPGVEAGKKAAGEVLALQKRVLTVLNEASCKDPAEPLTLEQIADRCHCPEDIEMIYKIIQHMAANDRALI LWDRYVEWLYQHKQLGLFVDVSRMGFTDDFLLQMEPLMQRAFVAMGELEKGAIANPDEGRMVGHYWLRDPGLAPNSFLRTKIEKTVDHILAFSQDIVSGKIKPPSSQAGRFTQILSIGIGGSSLGPQFVSEALAPDNPPLKIRFIDNTDPAGIDHQIAQLGEELKSTLVIVISKSGGTPETRNGLLEVQKAFRDAGLDFSKQGVAITQENSLLDNTARIEGWLDRFPMFDWVGGRTSELSAVGLLPAALQGIDVKEMLVGAALMDEETRNTVVKENPAALLALSWYWATDGIGSKDMVVLPYKDSLLLLSRYLQQLVMESLGKEFDLDGNRVNQGLTVYGNKGSTDQHAYIQQLREGVHNFFVTFIEVLRDRPPGHDWELEPGVTCGDYLFGMLQGTRSALYSNDRESISVTVEEVTPRAVGALVALYERAVGIYASLVNINAYHQPGVEAGKKAAGEVLALQKRVLTVLNEASCKDPAEPLTLEQIADRCHCPEDIEMIYKIIQHMAANDRALI 7e77-a2-m1-cB_7e77-a2-m1-cD The structure of cytosolic TaPGI Q1PBI3 Q1PBI3 2.04 X-RAY DIFFRACTION 447 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 549 549 7e77-a1-m1-cA_7e77-a1-m1-cC 7e78-a1-m1-cA_7e78-a1-m1-cC 7e78-a2-m1-cD_7e78-a2-m1-cB LISDTDQWKALQAHVGAIHKTHLRDLMTDADRCKAMTAEFEGVFLDYSRQQATTETVDKLFKLAEAAKLKEKIDKMFKGEKINTTENRSVLHVALRAPRDAVINSDGVNVVPEVWAVKDKIKQFSETFRSGSWVGATGKPLTNVVSVGIGGSFLGPLFVHTALQTDPEAAESAKGRQLRFLANVDPVDVARSIKDLDPATTLVVVVSKTFTTAETMLNARTIKEWIVSSLGPQAVSKHMIAVSTNLKLVKEFGIDPNNAFAFWDWVGGRYSVCSAVGVLPLSLQYGFPIVQKFLEGASSIDNHFHTSSFEKNIPVLLGLLSVWNVSFLGYPARAILPYSQALEKLAPHIQQLSMESNGKGVSIDGVRLPYEAGEIDFGEPGTNGQHSFYQLIHQGRVIPCDFIGVIKSQQPVYLKGETVSNHDELMSNFFAQPDALAYGKTPEQLHSEKVPENLISHKTFQGNRPSLSFLLSSLSAYEIGQLLSIYEHRIAVQGFIWGINSFDQWGVELGKSLASTVRKQLHASRMEGKPVEGFNPSSASLLTRFLAVK LISDTDQWKALQAHVGAIHKTHLRDLMTDADRCKAMTAEFEGVFLDYSRQQATTETVDKLFKLAEAAKLKEKIDKMFKGEKINTTENRSVLHVALRAPRDAVINSDGVNVVPEVWAVKDKIKQFSETFRSGSWVGATGKPLTNVVSVGIGGSFLGPLFVHTALQTDPEAAESAKGRQLRFLANVDPVDVARSIKDLDPATTLVVVVSKTFTTAETMLNARTIKEWIVSSLGPQAVSKHMIAVSTNLKLVKEFGIDPNNAFAFWDWVGGRYSVCSAVGVLPLSLQYGFPIVQKFLEGASSIDNHFHTSSFEKNIPVLLGLLSVWNVSFLGYPARAILPYSQALEKLAPHIQQLSMESNGKGVSIDGVRLPYEAGEIDFGEPGTNGQHSFYQLIHQGRVIPCDFIGVIKSQQPVYLKGETVSNHDELMSNFFAQPDALAYGKTPEQLHSEKVPENLISHKTFQGNRPSLSFLLSSLSAYEIGQLLSIYEHRIAVQGFIWGINSFDQWGVELGKSLASTVRKQLHASRMEGKPVEGFNPSSASLLTRFLAVK 7e7b-a1-m1-cB_7e7b-a1-m1-cC Cryo-EM structure of the SARS-CoV-2 furin site mutant S-Trimer from a subunit vaccine candidate P02452 P02452 2.6 ELECTRON MICROSCOPY 429 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1102 1102 7e7b-a1-m1-cA_7e7b-a1-m1-cB 7e7b-a1-m1-cA_7e7b-a1-m1-cC 7fce-a1-m1-cB_7fce-a1-m1-cC 7s6k-a1-m1-cA_7s6k-a1-m1-cB 7s6k-a1-m1-cA_7s6k-a1-m1-cE 7s6k-a1-m1-cB_7s6k-a1-m1-cE QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7e7g-a1-m1-cA_7e7g-a1-m2-cA 2-aminoethylphosphonate:pyruvate aminotransferase (AEPT) native Q9I434 Q9I434 2.35 X-RAY DIFFRACTION 186 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 362 362 APILLTPGPLTTSYRTRRAMMVDWGSWDSDFNELTASVCQRLLKIVGGEGSHTCVPLQGSGTFAVEAAIGTLVPRDGKVLVLINGAYGKRLAKICEVLQRPFSTLETEENVPTTAADVERLLAADPAISHVALIHCETSTGILNPLEAIAKVVERHGKRLIVDAMSSFGAIGIDARKVPFDALIAASGKCLEGVPGMGFVFARSAALEASAGNCHSLAMDLQDQHAYMRKTGQWRFTPPTHVVAALHEALSQYEEEGGLPARQRRYASNCETLLGEMARLGFRSFLPAEIQAPIIVTFHAPRDPRYRFADFYQRVREKGFILYPGKLTQVETFRVGCIGHVDAAEMRQAVAAIGEALRELEV APILLTPGPLTTSYRTRRAMMVDWGSWDSDFNELTASVCQRLLKIVGGEGSHTCVPLQGSGTFAVEAAIGTLVPRDGKVLVLINGAYGKRLAKICEVLQRPFSTLETEENVPTTAADVERLLAADPAISHVALIHCETSTGILNPLEAIAKVVERHGKRLIVDAMSSFGAIGIDARKVPFDALIAASGKCLEGVPGMGFVFARSAALEASAGNCHSLAMDLQDQHAYMRKTGQWRFTPPTHVVAALHEALSQYEEEGGLPARQRRYASNCETLLGEMARLGFRSFLPAEIQAPIIVTFHAPRDPRYRFADFYQRVREKGFILYPGKLTQVETFRVGCIGHVDAAEMRQAVAAIGEALRELEV 7e7z-a1-m1-cC_7e7z-a1-m1-cD CryoEM structure of the human Kv4.2-KChIP1 complex, transmembrane region Q9NZV8 Q9NZV8 3.2 ELECTRON MICROSCOPY 80 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 248 248 7e7z-a1-m1-cA_7e7z-a1-m1-cB 7e7z-a1-m1-cA_7e7z-a1-m1-cD 7e7z-a1-m1-cB_7e7z-a1-m1-cC 7e84-a1-m1-cA_7e84-a1-m1-cB 7e84-a1-m1-cA_7e84-a1-m1-cG 7e84-a1-m1-cB_7e84-a1-m1-cD 7e84-a1-m1-cD_7e84-a1-m1-cG 7f3f-a1-m1-cA_7f3f-a1-m1-cB 7f3f-a1-m1-cA_7f3f-a1-m1-cG 7f3f-a1-m1-cB_7f3f-a1-m1-cD 7f3f-a1-m1-cD_7f3f-a1-m1-cG 7uk5-a1-m1-cA_7uk5-a1-m1-cB 7uk5-a1-m1-cA_7uk5-a1-m1-cD 7uk5-a1-m1-cB_7uk5-a1-m1-cC 7uk5-a1-m1-cC_7uk5-a1-m1-cD 7ukc-a1-m1-cA_7ukc-a1-m1-cB 7ukc-a1-m1-cA_7ukc-a1-m1-cD 7ukc-a1-m1-cB_7ukc-a1-m1-cC 7ukc-a1-m1-cC_7ukc-a1-m1-cD 7ukd-a1-m1-cA_7ukd-a1-m1-cB 7ukd-a1-m1-cA_7ukd-a1-m1-cD 7ukd-a1-m1-cB_7ukd-a1-m1-cC 7ukd-a1-m1-cC_7ukd-a1-m1-cD 7uke-a1-m1-cA_7uke-a1-m1-cB 7uke-a1-m1-cA_7uke-a1-m1-cD 7uke-a1-m1-cB_7uke-a1-m1-cC 7uke-a1-m1-cC_7uke-a1-m1-cD 7ukf-a1-m1-cA_7ukf-a1-m1-cB 7ukf-a1-m1-cA_7ukf-a1-m1-cD 7ukf-a1-m1-cB_7ukf-a1-m1-cC 7ukf-a1-m1-cC_7ukf-a1-m1-cD 7ukg-a1-m1-cA_7ukg-a1-m1-cB 7ukg-a1-m1-cA_7ukg-a1-m1-cD 7ukg-a1-m1-cB_7ukg-a1-m1-cC 7ukg-a1-m1-cC_7ukg-a1-m1-cD PTMTARQRVWRAFENPHTSTMALVFYYVTGFFIAVSVIANVVETVHIKELPCGERYAVAFFCLDTACVMIFTVEYLLRLAAAPSRYRFVRSVMSIIDVVAILPYYIGLVMTDNEDVSGAFVTLRVFRVFRIFKFSRHSQGLRILGYTLKSCASELGFLLFSLTMAIIIFATVMFYAEKGSSASKFTSIPAAFWYTIVTMTTLGYGDMVPKTIAGKIFGSICSLSGVLVIALPVPVIVSNFSRIYHQNQ PTMTARQRVWRAFENPHTSTMALVFYYVTGFFIAVSVIANVVETVHIKELPCGERYAVAFFCLDTACVMIFTVEYLLRLAAAPSRYRFVRSVMSIIDVVAILPYYIGLVMTDNEDVSGAFVTLRVFRVFRIFKFSRHSQGLRILGYTLKSCASELGFLLFSLTMAIIIFATVMFYAEKGSSASKFTSIPAAFWYTIVTMTTLGYGDMVPKTIAGKIFGSICSLSGVLVIALPVPVIVSNFSRIYHQNQ 7e80-a1-m1-cv_7e80-a1-m1-cr Cryo-EM structure of the flagellar rod with hook and export apparatus from Salmonella P26462 P26462 3.67 ELECTRON MICROSCOPY 20 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 38 70 7bin-a1-m1-cK_7bin-a1-m1-cP 7cg4-a1-m1-cf_7cg4-a1-m1-cb 7cgo-a1-m1-cv_7cgo-a1-m1-cr 7e82-a1-m1-cv_7e82-a1-m1-cr 7nvg-a1-m1-cK2_7nvg-a1-m1-cP2 IALNDVMADMQKASVSMQMGIQVRNKLVAAYQEVMSMQ AGQLHAALDRISDRQAAARVQAEKFTLGEPGIALNDVMADMQKASVSMQMGIQVRNKLVAAYQEVMSMQV 7e82-a1-m1-cp_7e82-a1-m1-cg Cryo-EM structure of the flagellar rod with partial hook from Salmonella P0A1I7 P0A1I7 3.3 ELECTRON MICROSCOPY 90 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 129 130 7bin-a1-m1-ca_7bin-a1-m1-cV 7cg0-a1-m1-cp_7cg0-a1-m1-cg 7cgo-a1-m1-cp_7cgo-a1-m1-cg 7e80-a1-m1-cp_7e80-a1-m1-cg 7nvg-a1-m1-ca2_7nvg-a1-m1-cV2 ALLNIFDIAGSALAAQSKRLNVAASNLANADSVTGPDGQPYRAKQVVFQVDAAATGGVKVASVIESQAPEKLVYEPGNPLADANGYVKMPNVDVVGEMVNTMSASRSYQANIEVLNTVKSMMLKTLTLG ALLNIFDIAGSALAAQSKRLNVAASNLANADSVTGPDGQPYRAKQVVFQVDAAATGGVKVASVIESQAPEKLVYEPGNPLADANGYVKMPNVDVVGEMVNTMSASRSYQANIEVLNTVKSMMLKTLTLGQ 7e85-a2-m1-cB_7e85-a2-m2-cB SnoaL-like domain-containing protein P72035 P72035 2.424 X-RAY DIFFRACTION 48 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 114 114 7e85-a1-m1-cA_7e85-a1-m1-cC STPPRTPQEVFAHHGQALAAGDLDEIVADYADDSFVITPAGIARGKEGIRQLFVKLLDDIPNALWDLKTQIFEGDILFLEWTANSAVSRVDDGVDTFVFRDGTIWAHTVRYTPH STPPRTPQEVFAHHGQALAAGDLDEIVADYADDSFVITPAGIARGKEGIRQLFVKLLDDIPNALWDLKTQIFEGDILFLEWTANSAVSRVDDGVDTFVFRDGTIWAHTVRYTPH 7e8c-a1-m1-cC_7e8c-a1-m1-cA SARS-CoV-2 S-6P in complex with 9 Fabs P0DTC2 P0DTC2 3.16 ELECTRON MICROSCOPY 256 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1051 1052 7e8c-a1-m1-cA_7e8c-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7e8c-a1-m1-cC_7e8c-a1-m1-cB SARS-CoV-2 S-6P in complex with 9 Fabs P0DTC2 P0DTC2 3.16 ELECTRON MICROSCOPY 249 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1051 1054 QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7e8j-a1-m1-cB_7e8j-a1-m1-cA Crystal structure of Proteinaceous RNase P (PRORP) from Thermococcus celer A0A218P4J1 A0A218P4J1 2.1 X-RAY DIFFRACTION 96 1.0 1293037 (Thermococcus celer Vu 13 = JCM 8558) 1293037 (Thermococcus celer Vu 13 = JCM 8558) 192 197 MRFVLDTSIFVNPEVRDRFGASPTEAMKTFLDYAGRLFGRVEFYMPPGIYREVVHFVDEEELLPGIELYIIKKPPNVHDIRIPAFVVYELIEDVRRRIDKGLRVAEKAVRESVVETDNVDKIIQKLRRNYRRALREGIVDSKEDFELILLAKELDATIVSADVGILTWAQKMGIKWVDAANFRELLEGLVKK MRFVLDTSIFVNPEVRDRFGASPTEAMKTFLDYAGRLFGRVEFYMPPGIYREVVHFVDEEELLPGIELYIIKKPPNVHDIRIPAFVVYELIEDVRRRIDKGLRVAEKAVRESVVETDNVDKIIQKLRRNYRRALREGIVDSKEDFELILLAKELDATIVSADVGILTWAQKMGIKWVDAANFRELLEGLVKKLGGKN 7e8n-a1-m2-cA_7e8n-a1-m2-cC Crystal structure of Type II citrate synthase (HyCS) from Hymenobacter sp. PAMC 26554 A0A142HAE2 A0A142HAE2 2.2 X-RAY DIFFRACTION 504 0.993 1484116 (Hymenobacter psoromatis) 1484116 (Hymenobacter psoromatis) 428 428 7e8n-a1-m1-cA_7e8n-a1-m1-cC 7e8n-a1-m1-cB_7e8n-a1-m2-cB ETAELNLPGGQSISLPIFEGTEQEKAFDIGKLRDATGYVTLDSGYKNTGACKSAITFLDGEEGILRYRGYPIEQLAENSSFLEVAYLLIYGHLPTEAELKDFSGHITKHTLVHEDIRKIFDGFPSSTHPMAILSSLTCALTGFYPESISPNQTPEAIDLTIVRLMAKMSTIAAWTYKNSVGHPLNYPRNDLDYCANFLYMMFSFPTEKYEINPVIVSALNKLLILHADHEQNCSTSTVRLVGSANASLYGSVSAGINALWGPLHGGANQEVIEMLEAIEKDGGDTSKFIAQAKDKNSGFRLMGFGHRVYKNFDPRAKIIKVAADEVLQALGMQNSPLLKIATELEQAALTDQYFIDRKLYPNVDFYSGIIYKALGIPTEMFTVMFALGRLPGWIAQWKEMRENKEPIGRPRQIYVGETERNYVPMTER MAETAELNLPGGQSISLPIFEGTEQEKAFDIGKLRDATGYVTLDSGYKNTGACKSAITFLDGEEGILRYRGYPIEQLAENSSFLEVAYLLIYGHLPTEAELKDFSGHITKHTLVHEDIRKIFDGFPSSTHPMAILSSLTCALTGFYPESISPNQTPEAIDLTIVRLMAKMSTIAAWTYKNSVGHPLNYPRNDLDYCANFLYMMFSFPTEKYEINPVIVSALNKLLILHADHEQNCSTSTVRLVGSANASLYGSVSAGINALWGPLHGGANQEVIEMLEAIEKDGGDTSKFIAQAKDGFRLMGFGHRVYKNFDPRAKIIKVAADEVLQALGMQNSPLLKIATELEQAALTDQYFIDRKLYPNVDFYSGIIYKALGIPTEMFTVMFALGRLPGWIAQWKEMRENKEPIGRPRQIYVGETERNYVPMTERK 7e8n-a1-m2-cB_7e8n-a1-m1-cA Crystal structure of Type II citrate synthase (HyCS) from Hymenobacter sp. PAMC 26554 A0A142HAE2 A0A142HAE2 2.2 X-RAY DIFFRACTION 25 0.993 1484116 (Hymenobacter psoromatis) 1484116 (Hymenobacter psoromatis) 424 428 7e8n-a1-m1-cA_7e8n-a1-m2-cC 7e8n-a1-m1-cB_7e8n-a1-m1-cC 7e8n-a1-m1-cB_7e8n-a1-m2-cA 7e8n-a1-m1-cC_7e8n-a1-m2-cA 7e8n-a1-m2-cB_7e8n-a1-m2-cC MAETAELNLPGGQSISLPIFEGTEQEKAFDIGKLRDATGYVTLDSGYKNTGACKSAITFLDGEEGILRYRGYPIEQLAENSSFLEVAYLLIYGHLPTEAELKDFSGHITKHTLVHEDIRKIFDGFPSSTHPMAILSSLTCALTGFYPESISPNQTPEAIDLTIVRLMAKMSTIAAWTYKNSVGHPLNYPRNDLDYCANFLYMMFSFPTEKYEINPVIVSALNKLLILHADHEQNCSTSTVRLVGSANASLYGSVSAGINALWGPLHGGANQEVIEMLEAIEKDDTSKFIAQAKFRLMGFGHRVYKNFDPRAKIIKVAADEVLQALGMQNSPLLKIATELEQAALTDQYFIDRKLYPNVDFYSGIIYKALGIPTEMFTVMFALGRLPGWIAQWKEMRENKEPIGRPRQIYVGETERNYVPMTERK ETAELNLPGGQSISLPIFEGTEQEKAFDIGKLRDATGYVTLDSGYKNTGACKSAITFLDGEEGILRYRGYPIEQLAENSSFLEVAYLLIYGHLPTEAELKDFSGHITKHTLVHEDIRKIFDGFPSSTHPMAILSSLTCALTGFYPESISPNQTPEAIDLTIVRLMAKMSTIAAWTYKNSVGHPLNYPRNDLDYCANFLYMMFSFPTEKYEINPVIVSALNKLLILHADHEQNCSTSTVRLVGSANASLYGSVSAGINALWGPLHGGANQEVIEMLEAIEKDGGDTSKFIAQAKDKNSGFRLMGFGHRVYKNFDPRAKIIKVAADEVLQALGMQNSPLLKIATELEQAALTDQYFIDRKLYPNVDFYSGIIYKALGIPTEMFTVMFALGRLPGWIAQWKEMRENKEPIGRPRQIYVGETERNYVPMTER 7e8o-a2-m1-cD_7e8o-a2-m1-cC Crystal structure of proteinaceous RNase P(PRORP) from Planctomycetes bacterium GWF2_40_8 complexed with Escherichia coli histidine pre-tRNA A0A1G2XP69 A0A1G2XP69 2.804 X-RAY DIFFRACTION 109 0.995 1801956 (Planctomycetes bacterium GWF2_40_8) 1801956 (Planctomycetes bacterium GWF2_40_8) 185 189 7e8k-a1-m1-cA_7e8k-a1-m1-cB 7e8o-a1-m1-cB_7e8o-a1-m1-cA EERFVIDTSIFTNTDVYILFGRTPTTALKNFLKLISKLKGTNFYMPPSIYEELMNFIDSDKIPKDLQIKIFQKPPKKHEMEVPAFLLYELIEDVRHRIDKGLRVAEQAVRNVPETITNLRKKYRSALREGIIDSKEDVDLILLAKEMDGILVTADTGIMTWADKMGIRFVESRNLRGIINSLIKM RDLKEERFVIDTSIFTNTDVYILFGRTPTTALKNFLKLISKLKGTNFYMPPSIYEELMNFIDSDKIPKDLQIKIFQKPPKKHEMEVPAFLLYELIEDVRHRIDKGLRVAEQAVRNEPETITNLRKKYRSALREGIIDSKEDVDLILLAKEMDGILVTADTGIMTWADKMGIRFVESRNLRGIINSLIKM 7e8r-a1-m1-cA_7e8r-a1-m2-cA EcoT38I restriction endonuclease Q83VS8 Q83VS8 1.9 X-RAY DIFFRACTION 58 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 346 346 MKVLVNHEQAYNVIINAINDAKKLTDYKTNNQWVSIQNVILGTHLTYRYILITGLLAKATDPRVNPLALQANAPVDGAYDARSLCHSVIVGKVEGPFLEGKLGASNEPFLNKPARYMLHSSDNPVRRGNDKVLQQLSIDILHAATTQTLAYEMLVIALYFTLQRTNRVITINFDFHKIIYNIISHPCDGETCAIAAAISLHLLGEQRGWIIKAHPVNQAGSSSKEILDIDVYHDDIVFLSIEVKDKPFNYQDVNHAVSKASASGISKVIFLKGPRATNLDIDESLAIENAATKGVSLSFSDVMTFTTTCYALSPSNDRIIDFINNTLKDIRAKDSTIEYIQSIFKN MKVLVNHEQAYNVIINAINDAKKLTDYKTNNQWVSIQNVILGTHLTYRYILITGLLAKATDPRVNPLALQANAPVDGAYDARSLCHSVIVGKVEGPFLEGKLGASNEPFLNKPARYMLHSSDNPVRRGNDKVLQQLSIDILHAATTQTLAYEMLVIALYFTLQRTNRVITINFDFHKIIYNIISHPCDGETCAIAAAISLHLLGEQRGWIIKAHPVNQAGSSSKEILDIDVYHDDIVFLSIEVKDKPFNYQDVNHAVSKASASGISKVIFLKGPRATNLDIDESLAIENAATKGVSLSFSDVMTFTTTCYALSPSNDRIIDFINNTLKDIRAKDSTIEYIQSIFKN 7e97-a1-m5-cB_7e97-a1-m6-cB Oxy-deoxy intermediate of 400 kDa giant hemoglobin at 58% oxygen saturation Q7M413 Q7M413 2.7 X-RAY DIFFRACTION 14 1.0 55676 (Oligobrachia mashikoi) 55676 (Oligobrachia mashikoi) 142 142 2d2m-a1-m1-cB_2d2m-a1-m2-cB 2d2m-a1-m1-cB_2d2m-a1-m3-cB 2d2m-a1-m2-cB_2d2m-a1-m3-cB 2d2m-a1-m4-cB_2d2m-a1-m5-cB 2d2m-a1-m4-cB_2d2m-a1-m6-cB 2d2m-a1-m5-cB_2d2m-a1-m6-cB 2d2n-a1-m1-cB_2d2n-a1-m2-cB 2d2n-a1-m1-cB_2d2n-a1-m3-cB 2d2n-a1-m2-cB_2d2n-a1-m3-cB 2d2n-a1-m4-cB_2d2n-a1-m5-cB 2d2n-a1-m4-cB_2d2n-a1-m6-cB 2d2n-a1-m5-cB_2d2n-a1-m6-cB 2zfo-a1-m1-cB_2zfo-a1-m2-cB 2zfo-a1-m1-cB_2zfo-a1-m3-cB 2zfo-a1-m2-cB_2zfo-a1-m3-cB 2zfo-a1-m4-cB_2zfo-a1-m5-cB 2zfo-a1-m4-cB_2zfo-a1-m6-cB 2zfo-a1-m5-cB_2zfo-a1-m6-cB 2zs0-a1-m1-cB_2zs0-a1-m2-cB 2zs0-a1-m1-cB_2zs0-a1-m3-cB 2zs0-a1-m2-cB_2zs0-a1-m3-cB 2zs0-a1-m4-cB_2zs0-a1-m5-cB 2zs0-a1-m4-cB_2zs0-a1-m6-cB 2zs0-a1-m5-cB_2zs0-a1-m6-cB 2zs1-a1-m1-cB_2zs1-a1-m2-cB 2zs1-a1-m1-cB_2zs1-a1-m3-cB 2zs1-a1-m2-cB_2zs1-a1-m3-cB 2zs1-a1-m4-cB_2zs1-a1-m5-cB 2zs1-a1-m4-cB_2zs1-a1-m6-cB 2zs1-a1-m5-cB_2zs1-a1-m6-cB 2zs1-a2-m1-cB_2zs1-a2-m2-cB 2zs1-a2-m1-cB_2zs1-a2-m3-cB 2zs1-a2-m2-cB_2zs1-a2-m3-cB 7e96-a1-m1-cB_7e96-a1-m2-cB 7e96-a1-m1-cB_7e96-a1-m3-cB 7e96-a1-m2-cB_7e96-a1-m3-cB 7e96-a1-m4-cB_7e96-a1-m5-cB 7e96-a1-m4-cB_7e96-a1-m6-cB 7e96-a1-m5-cB_7e96-a1-m6-cB 7e97-a1-m1-cB_7e97-a1-m2-cB 7e97-a1-m1-cB_7e97-a1-m3-cB 7e97-a1-m2-cB_7e97-a1-m3-cB 7e97-a1-m4-cB_7e97-a1-m5-cB 7e97-a1-m4-cB_7e97-a1-m6-cB 7e98-a1-m1-cB_7e98-a1-m2-cB 7e98-a1-m1-cB_7e98-a1-m3-cB 7e98-a1-m2-cB_7e98-a1-m3-cB 7e98-a1-m4-cB_7e98-a1-m5-cB 7e98-a1-m4-cB_7e98-a1-m6-cB 7e98-a1-m5-cB_7e98-a1-m6-cB 7e99-a1-m1-cB_7e99-a1-m2-cB 7e99-a1-m1-cB_7e99-a1-m3-cB 7e99-a1-m2-cB_7e99-a1-m3-cB 7e99-a1-m4-cB_7e99-a1-m5-cB 7e99-a1-m4-cB_7e99-a1-m6-cB 7e99-a1-m5-cB_7e99-a1-m6-cB DCTSLNRLLVKRQWAEAYGEGTNRELLGNRIWEDLFANMPDARGLFSRVNGNDIDSSEFQAHSLRVLGGLDMCVASLDDVPVLNALLARLNSQHDSRGIPAAGYPAFVASAISAVRATVGARSFDNDAWNSCMNQIVSGISG DCTSLNRLLVKRQWAEAYGEGTNRELLGNRIWEDLFANMPDARGLFSRVNGNDIDSSEFQAHSLRVLGGLDMCVASLDDVPVLNALLARLNSQHDSRGIPAAGYPAFVASAISAVRATVGARSFDNDAWNSCMNQIVSGISG 7e9h-a1-m1-cS_7e9h-a1-m1-cR Cryo-EM structure of Gi-bound metabotropic glutamate receptor mGlu4 Q14833 Q14833 4.0 ELECTRON MICROSCOPY 87 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 761 766 NSIRIDGDITLGGLFPVHGRGSEGKPCGELKKEKGIHRLEAMLFALDRINNDPDLLPNITLGARILDTCSRDTHALEQSLTFVQALERVVGVIGASGSSVSIMVANILRLFKIPQISYASTAPDLSDNSRYDFFSRVVPSDTYQAQAMVDIVRALKWNYVSTVASEGSYGESGVEAFIQKSREDGGVCIAQSVKIPREPKAGEFDKIIRRLLETSNARAVIIFANEDDIRRVLEAARRANQTGHFFWMGSDSWGSKIAPVLHLEEVAEGAVTILPKRMSVRGFDRYFSSRTLDNNRRNIWFAEFWEDNFHCKKKCTNRERIGQDSAYEQEGKVQFVIDAVYAMGHALHAMHRDLCPGRVGLCPRMDPVDGTQLLKYIRNVNFSGIAGNPVTFNENGDAPGRYDIYQYQLRNDSAEYKVIGSWTDHLHLRIERMHWLPRSICSLPCQPGERKKTVKGMPCCWHCEPCTGYQYQVDRYTCKTCPYDMRPTENRTGCRPIPIIKLEWGSPWAVLPLFLAVVGIAATLFVVITFVRYNDTPIVKASGRELSYVLLAGIFLCYATTFLMIAEPDLGTCSLRRIFLGLGMSISYAALLTKTNRIYRIFEQRFISPASQLAITFSLISLQLLGICVWFVVDPSHSVVDFQDQRTLDPRFARGVLKCDISDLSLICLLGYSMLLMVTCTVYAIKTRGVPETFNEAKPIGFTMYTTCIVWLAFIPIFFGTSQSADKLYIQTTTLTVSVSLSASVSLGMLYMPKVYIILFH NSIRIDGDITLGGLFPVHGRGSEGKPCGELKKEKGIHRLEAMLFALDRINNDPDLLPNITLGARILDTCSRDTHALEQSLTFVQALIERVVGVIGASGSSVSIMVANILRLFKIPQISYASTAPDLSDNSRYDFFSRVVPSDTYQAQAMVDIVRALKWNYVSTVASEGSYGESGVEAFIQKSREDGGVCIAQSVKIPREPKAGEFDKIIRRLLETSNARAVIIFANEDDIRRVLEAARRANQTGHFFWMGSDSWGSKIAPVLHLEEVAEGAVTILPKRMSVRGFDRYFSSRTLDNNRRNIWFAEFWEDNFHCKLVKKCTNRERIGQDSAYEQEGKVQFVIDAVYAMGHALHAMHRDLCPGRVGLCPRMDPVDGTQLLKYIRNVNFSGIAGNPVTFNENGDAPGRYDIYQYQLRAEYKVIGSWTDHLHLRIQQLPRSICSLPCQPGERKKTVKGMPCCWHCEPCTGYQYQVDRYTCKTCPYDMRPTENRTGCRPIPIIKLEWGSPWAVLPLFLAVVGIAATLFVVITFVRYNDTPIVKASGRELSYVLLAGIFLCYATTFLMIAEPDLGTCSLRRIFLGLGMSISYAALLTKTNRIYRIFEQGKRSVSAPRFISPASQLAITFSLISLQLLGICVWFVVDPSHSVVDFQDQRTLDPRFARGVLKCDISDLSLICLLGYSMLLMVTCTVYAIKTRGVPETFNEAKPIGFTMYTTCIVWLAFIPIFFGTSQSADKLYIQTTTLTVSVSLSASVSLGMLYMPKVYIILFH 7e9k-a2-m1-cE_7e9k-a2-m1-cD Crystal Structure of POMGNT2 in complex with UDP and mono-mannosyl peptide (379Man long peptide) Q5NDF2 Q5NDF2 2.05 X-RAY DIFFRACTION 190 0.996 9913 (Bos taurus) 9913 (Bos taurus) 524 525 6xfi-a1-m1-cA_6xfi-a1-m2-cA 6xi2-a1-m1-cB_6xi2-a1-m1-cA 7e9j-a1-m1-cA_7e9j-a1-m1-cB 7e9k-a1-m1-cB_7e9k-a1-m1-cA 7e9l-a1-m1-cB_7e9l-a1-m1-cA PALRIDYPKALQILTEGGTHMVCTGRTHTDRLCRFKWLCYSSEAEEFIFFHGNASVMLPSLGSRRFQPALLDLSTVEDHNTQYFNFVELPAAALRFMPKPVFVPDVALIANRFNPDNLMHVFHDDLLPLFYTLRQFPGLAREARLFFMEGWGEGAHFDLYKLLSPKQPLLRAQLKALGRLLCFSHAFVGLSKVTTWYQYGFVQPQGPKANILVSGNEIRQFAHFLMEKLNVSEEYILVFSRTQNRLILNEAELLLALAQEFQMKTVTVSLEDHAFADVVRLVSNASMLVSMHGAQLVTALFLPRGAAVVELFPYAVNPDHYTPYKTLATLPGMDLQYIAWQNTMPENTVTHPERPWDQGGIAHLDRAEQARILQSREVPRHLCCRNPEWLFRIYQDTKVDIPSLIQTIRRVVKGHPGPKQKWTVSLYPGKVREARCQASVQSEARLSVSWQIPWNLKYLKVREVKYEVWLQEQGENTYVPYMLALQNHTFTENIKPFTTYLVWIRCIFNKTLLGPFADVLVCST PAPALRIDYPKALQILTEGGTHMVCTGRTHTDRLCRFKWLCYSSEAEEFIFFHGNASVMLPSLGSRRFQPALLDLSTVEDHNTQYFNFVELPAAALRFMPKPVFVPDVALIANRFNPDNLMHVFHDDLLPLFYTLRQFPGLAREARLFFMEGWGEGAHFDLYKLLSPKQPLLRAQLKALGRLLCFSHAFVGLSKVTTWYQYGFVQPQGPKANILVSGNEIRQFAHFLMEKLNVSEEYILVFSRTQNRLILNEAELLLALAQEFQMKTVTVSLEDHAFADVVRLVSNASMLVSMHGAQLVTALFLPRGAAVVELFPYAVNPDHYTPYKTLATLPGMDLQYIAWQNTMPENTVTHPERPWDQGGIAHLDRAEQARILQSREVPRHLCCRNPEWLFRIYQDTKVDIPSLIQTIRRVVKGHPGPKQKWTVSLYPGKVREARCQASASEARLSVSWQIPWNLKYLKVREVKYEVWLQEQGENTYVPYMLALQNHTFTENIKPFTTYLVWIRCIFNKTLLGPFADVLVCST 7e9n-a1-m1-cA_7e9n-a1-m1-cC Cryo-EM structure of the SARS-CoV-2 S-6P in complex with 35B5 Fab(1 down RBD, state1) P0DTC2 P0DTC2 3.69 ELECTRON MICROSCOPY 242 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 1002 7e9n-a1-m1-cA_7e9n-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSYNYLYRNLKPFERDISTEIYNCYFPLQSYGFQPTVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7e9n-a1-m1-cB_7e9n-a1-m1-cC Cryo-EM structure of the SARS-CoV-2 S-6P in complex with 35B5 Fab(1 down RBD, state1) P0DTC2 P0DTC2 3.69 ELECTRON MICROSCOPY 232 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1002 1002 7e9o-a1-m1-cA_7e9o-a1-m1-cB 7e9o-a1-m1-cA_7e9o-a1-m1-cC 7e9o-a1-m1-cB_7e9o-a1-m1-cC 7e9q-a1-m1-cA_7e9q-a1-m1-cB 7e9q-a1-m1-cA_7e9q-a1-m1-cC 7e9q-a1-m1-cB_7e9q-a1-m1-cC 7mkl-a1-m1-cB_7mkl-a1-m1-cA 7mkl-a1-m1-cC_7mkl-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7e9t-a1-m1-cB_7e9t-a1-m1-cC Nanometer resolution in situ structure of SARS-CoV-2 post-fusion spike P0DTC2 P0DTC2 10.9 ELECTRON MICROSCOPY 444 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 371 371 6xra-a1-m1-cA_6xra-a1-m1-cB 6xra-a1-m1-cA_6xra-a1-m1-cC 6xra-a1-m1-cB_6xra-a1-m1-cC 7e9t-a1-m1-cA_7e9t-a1-m1-cB 7e9t-a1-m1-cA_7e9t-a1-m1-cC NSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGITQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEELDKYFKNHTSPDVDLGDISGINQKEIDRLNEVAKNLNESLWPWYIWLGFIAGLIAIVMVTIML NSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGITQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEELDKYFKNHTSPDVDLGDISGINQKEIDRLNEVAKNLNESLWPWYIWLGFIAGLIAIVMVTIML 7eaa-a1-m1-cD_7eaa-a1-m1-cC crystal structure of NDP52 SKICH domain in complex with RB1CC1 coiled-coil domain Q8TDY2 Q8TDY2 2.6 X-RAY DIFFRACTION 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 114 SLVAELQEKLQEEKAKFLEQLEEQEKRKNEEMQNVRTSLIAEQQTNFNTVLTREKMRKENIINDLSDKLKSTMQQQERDKDLIESLSEDRARLLEEKKKLEEEVSKLRSS GSEFSLVAELQEKLQEEKAKFLEQLEEQEKRKNEEMQNVRTSLIAEQQTNFNTVLTREKMRKENIINDLSDKLKSTMQQQERDKDLIESLSEDRARLLEEKKKLEEEVSKLRSS 7ead-a1-m1-cA_7ead-a1-m2-cA Crystal structure of beta-sheet cytochrome c prime from Thermus thermophilus. Q746G4 Q746G4 1.74 X-RAY DIFFRACTION 67 1.0 274 (Thermus thermophilus) 274 (Thermus thermophilus) 135 135 8brk-a1-m1-cA_8brk-a1-m2-cA GLPYPEGYRFWTHVKSMELKPGHPLYESFGGLHHIYVNPTGLRTYLEGKKAPFPKGTVIVFDLLEAKVEGNALLEGPRKLIGVMAKDPGRYPDTGGWGYYAFGPDKKPLAIDPKACHACHQGAANTDYVFSAFRP GLPYPEGYRFWTHVKSMELKPGHPLYESFGGLHHIYVNPTGLRTYLEGKKAPFPKGTVIVFDLLEAKVEGNALLEGPRKLIGVMAKDPGRYPDTGGWGYYAFGPDKKPLAIDPKACHACHQGAANTDYVFSAFRP 7eai-a1-m8-cB_7eai-a1-m9-cB Echovirus3 empty compacted particle A0A0K0LDT3 A0A0K0LDT3 3.8 ELECTRON MICROSCOPY 24 1.0 47516 (Echovirus E3) 47516 (Echovirus E3) 285 285 7eai-a1-m10-cB_7eai-a1-m6-cB 7eai-a1-m10-cB_7eai-a1-m9-cB 7eai-a1-m11-cB_7eai-a1-m12-cB 7eai-a1-m11-cB_7eai-a1-m15-cB 7eai-a1-m12-cB_7eai-a1-m13-cB 7eai-a1-m13-cB_7eai-a1-m14-cB 7eai-a1-m14-cB_7eai-a1-m15-cB 7eai-a1-m16-cB_7eai-a1-m17-cB 7eai-a1-m16-cB_7eai-a1-m20-cB 7eai-a1-m17-cB_7eai-a1-m18-cB 7eai-a1-m18-cB_7eai-a1-m19-cB 7eai-a1-m19-cB_7eai-a1-m20-cB 7eai-a1-m1-cB_7eai-a1-m2-cB 7eai-a1-m1-cB_7eai-a1-m5-cB 7eai-a1-m21-cB_7eai-a1-m22-cB 7eai-a1-m21-cB_7eai-a1-m25-cB 7eai-a1-m22-cB_7eai-a1-m23-cB 7eai-a1-m23-cB_7eai-a1-m24-cB 7eai-a1-m24-cB_7eai-a1-m25-cB 7eai-a1-m26-cB_7eai-a1-m27-cB 7eai-a1-m26-cB_7eai-a1-m30-cB 7eai-a1-m27-cB_7eai-a1-m28-cB 7eai-a1-m28-cB_7eai-a1-m29-cB 7eai-a1-m29-cB_7eai-a1-m30-cB 7eai-a1-m2-cB_7eai-a1-m3-cB 7eai-a1-m31-cB_7eai-a1-m32-cB 7eai-a1-m31-cB_7eai-a1-m35-cB 7eai-a1-m32-cB_7eai-a1-m33-cB 7eai-a1-m33-cB_7eai-a1-m34-cB 7eai-a1-m34-cB_7eai-a1-m35-cB 7eai-a1-m36-cB_7eai-a1-m37-cB 7eai-a1-m36-cB_7eai-a1-m40-cB 7eai-a1-m37-cB_7eai-a1-m38-cB 7eai-a1-m38-cB_7eai-a1-m39-cB 7eai-a1-m39-cB_7eai-a1-m40-cB 7eai-a1-m3-cB_7eai-a1-m4-cB 7eai-a1-m41-cB_7eai-a1-m42-cB 7eai-a1-m41-cB_7eai-a1-m45-cB 7eai-a1-m42-cB_7eai-a1-m43-cB 7eai-a1-m43-cB_7eai-a1-m44-cB 7eai-a1-m44-cB_7eai-a1-m45-cB 7eai-a1-m46-cB_7eai-a1-m47-cB 7eai-a1-m46-cB_7eai-a1-m50-cB 7eai-a1-m47-cB_7eai-a1-m48-cB 7eai-a1-m48-cB_7eai-a1-m49-cB 7eai-a1-m49-cB_7eai-a1-m50-cB 7eai-a1-m4-cB_7eai-a1-m5-cB 7eai-a1-m51-cB_7eai-a1-m52-cB 7eai-a1-m51-cB_7eai-a1-m55-cB 7eai-a1-m52-cB_7eai-a1-m53-cB 7eai-a1-m53-cB_7eai-a1-m54-cB 7eai-a1-m54-cB_7eai-a1-m55-cB 7eai-a1-m56-cB_7eai-a1-m57-cB 7eai-a1-m56-cB_7eai-a1-m60-cB 7eai-a1-m57-cB_7eai-a1-m58-cB 7eai-a1-m58-cB_7eai-a1-m59-cB 7eai-a1-m59-cB_7eai-a1-m60-cB 7eai-a1-m6-cB_7eai-a1-m7-cB 7eai-a1-m7-cB_7eai-a1-m8-cB GAQVSTQKTTIHYTNINYYKDAASNSANRQDFTSDRVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ GAQVSTQKTTIHYTNINYYKDAASNSANRQDFTSDRVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ 7eaj-a1-m9-cF_7eaj-a1-m55-cF Echovirus3 empty expanded particle in complex with 5G3 fab 4.1 ELECTRON MICROSCOPY 775 1.0 10090 (Mus musculus) 10090 (Mus musculus) 112 112 7eaj-a1-m16-cF_7eaj-a1-m11-cF 7eaj-a1-m23-cF_7eaj-a1-m2-cF 7eaj-a1-m24-cF_7eaj-a1-m10-cF 7eaj-a1-m26-cF_7eaj-a1-m21-cF 7eaj-a1-m28-cF_7eaj-a1-m17-cF 7eaj-a1-m29-cF_7eaj-a1-m15-cF 7eaj-a1-m36-cF_7eaj-a1-m31-cF 7eaj-a1-m38-cF_7eaj-a1-m12-cF 7eaj-a1-m39-cF_7eaj-a1-m20-cF 7eaj-a1-m42-cF_7eaj-a1-m3-cF 7eaj-a1-m43-cF_7eaj-a1-m22-cF 7eaj-a1-m44-cF_7eaj-a1-m30-cF 7eaj-a1-m45-cF_7eaj-a1-m14-cF 7eaj-a1-m46-cF_7eaj-a1-m41-cF 7eaj-a1-m47-cF_7eaj-a1-m13-cF 7eaj-a1-m48-cF_7eaj-a1-m37-cF 7eaj-a1-m49-cF_7eaj-a1-m35-cF 7eaj-a1-m50-cF_7eaj-a1-m4-cF 7eaj-a1-m52-cF_7eaj-a1-m18-cF 7eaj-a1-m53-cF_7eaj-a1-m27-cF 7eaj-a1-m54-cF_7eaj-a1-m25-cF 7eaj-a1-m56-cF_7eaj-a1-m51-cF 7eaj-a1-m58-cF_7eaj-a1-m32-cF 7eaj-a1-m59-cF_7eaj-a1-m40-cF 7eaj-a1-m5-cF_7eaj-a1-m34-cF 7eaj-a1-m60-cF_7eaj-a1-m19-cF 7eaj-a1-m6-cF_7eaj-a1-m1-cF 7eaj-a1-m7-cF_7eaj-a1-m33-cF 7eaj-a1-m8-cF_7eaj-a1-m57-cF LQQSGAELARPWASVKISCQAFYTFNSYGMQWVKQRPGQGLEWIGTIYPGNGQTSYNQRFKGKATLTADKSPSTAYMQLISLTSEDSAGCFCAVVPTVDFDYWGQGTLVTVS LQQSGAELARPWASVKISCQAFYTFNSYGMQWVKQRPGQGLEWIGTIYPGNGQTSYNQRFKGKATLTADKSPSTAYMQLISLTSEDSAGCFCAVVPTVDFDYWGQGTLVTVS 7eap-a1-m1-cA_7eap-a1-m2-cA Crystal structure of IpeA-XXXG complex Q2U8V9 Q2U8V9 1.42 X-RAY DIFFRACTION 254 1.0 510516 (Aspergillus oryzae RIB40) 510516 (Aspergillus oryzae RIB40) 755 755 5yot-a1-m1-cA_5yot-a1-m1-cB 5yqs-a1-m1-cA_5yqs-a1-m1-cB EKPRYKDPSVPVEERVTDLLGRMTLEEKMSQLIQGDITNWMNETTGEFNLTGLEWSTKMRGGMFYVGYPVPWDYIADNVKKAQDYILQNTTLGIPAIVQTESLHGFLIGNATIYNSPIGFACSFNPELIEKMARLIGQEASALGVNHVMGPVVDLARELRFGRVEETYGEDPFLAGEIGYHYTKGIQSHNISANVKHFVGFSQPEQGLNTAPVHGGERYLRTTWLPSFKRAIMDAGAWSIMSAYHSYDGIPAVADYHTLTEILREEWGYKYWVTSDAGASDRVCTAFKLCRADPIDKEAVTLAILPAGNDVEMGGGSYNFETIIDLVNAGKLDIEIVNTAVSRVLRAKFEMGLFENPYNAAPASEWNKLIHTQEAVDLARELDRESIVLLENHDNALPLKKSGSIAVIGPMAHGFMNYGDYVVYESQYRGVTPLDGIKAAVGDKATINYAQGCERWSNDQSGFAEAVEAAKKSDVAVVVVGTWSRDQKELWAGLNATTGAHVDVNSLSLVGAQAPLIKAIIDTGVPTVVVLSSGKPITEPWLSNNTAALVQQFYPSEQGGNALADVLFGDYNPSGKLSVSFPHSVGDLPIYYDYLNSAREIGDAGYIYSNGTLEFGHQYALGNPKAWYPFGYGKSYSSFEYGAVKLDKTNVTEADTVTVSVDVKNTDATREGTEVVQVYVVDEVASVVVPNRLLKGFKKVVIPAGQTKTVEIPLKVQDLGLWNVRMKYVVEPGAFGVLVGSSSEDIRGNATFYVQ EKPRYKDPSVPVEERVTDLLGRMTLEEKMSQLIQGDITNWMNETTGEFNLTGLEWSTKMRGGMFYVGYPVPWDYIADNVKKAQDYILQNTTLGIPAIVQTESLHGFLIGNATIYNSPIGFACSFNPELIEKMARLIGQEASALGVNHVMGPVVDLARELRFGRVEETYGEDPFLAGEIGYHYTKGIQSHNISANVKHFVGFSQPEQGLNTAPVHGGERYLRTTWLPSFKRAIMDAGAWSIMSAYHSYDGIPAVADYHTLTEILREEWGYKYWVTSDAGASDRVCTAFKLCRADPIDKEAVTLAILPAGNDVEMGGGSYNFETIIDLVNAGKLDIEIVNTAVSRVLRAKFEMGLFENPYNAAPASEWNKLIHTQEAVDLARELDRESIVLLENHDNALPLKKSGSIAVIGPMAHGFMNYGDYVVYESQYRGVTPLDGIKAAVGDKATINYAQGCERWSNDQSGFAEAVEAAKKSDVAVVVVGTWSRDQKELWAGLNATTGAHVDVNSLSLVGAQAPLIKAIIDTGVPTVVVLSSGKPITEPWLSNNTAALVQQFYPSEQGGNALADVLFGDYNPSGKLSVSFPHSVGDLPIYYDYLNSAREIGDAGYIYSNGTLEFGHQYALGNPKAWYPFGYGKSYSSFEYGAVKLDKTNVTEADTVTVSVDVKNTDATREGTEVVQVYVVDEVASVVVPNRLLKGFKKVVIPAGQTKTVEIPLKVQDLGLWNVRMKYVVEPGAFGVLVGSSSEDIRGNATFYVQ 7eaz-a1-m1-cC_7eaz-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Spike D614G variant, one RBD-up conformation 1 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 237 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1018 1020 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7eb0-a1-m1-cA_7eb0-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Spike D614G variant, one RBD-up conformation 2 P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 216 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1013 1015 7eaz-a1-m1-cA_7eaz-a1-m1-cB 7eaz-a1-m1-cA_7eaz-a1-m1-cC 7eb0-a1-m1-cA_7eb0-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7eb0-a1-m1-cB_7eb0-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Spike D614G variant, one RBD-up conformation 2 P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 230 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1015 1027 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7eb4-a1-m1-cC_7eb4-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Spike D614G variant, two RBD-up conformation 1 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 218 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1013 1024 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7eb5-a1-m1-cA_7eb5-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Spike D614G variant, two RBD-up conformation 2 P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 205 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1011 1023 7eb5-a1-m1-cA_7eb5-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7eb5-a1-m1-cC_7eb5-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Spike D614G variant, two RBD-up conformation 2 P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 223 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1023 1024 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7eb9-a1-m1-cB_7eb9-a1-m1-cC The structure of the A20-binding inhibitor of NF-kB 1 in complex with tetra-ubiquitin Q15025 Q15025 3.2 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 54 60 6n5m-a1-m1-cB_6n5m-a1-m1-cD 6n6r-a1-m1-cD_6n6r-a1-m1-cB 6n6s-a1-m1-cA_6n6s-a1-m1-cC 6n6s-a1-m1-cB_6n6s-a1-m1-cD 7eal-a1-m1-cC_7eal-a1-m1-cB 7eao-a1-m1-cC_7eao-a1-m1-cB KQELVTQNELLKQQVKIFEEDFQRERSDRERMNEEKEELKKQVEKLQAQVTLSN AGALLRKQELVTQNELLKQQVKIFEEDFQRERSDRERMNEEKEELKKQVEKLQAQVTLSN 7ebb-a1-m1-cA_7ebb-a1-m1-cB Crystal structure of human pyruvate dehydrogenase kinase 4 in complex with compound 2 Q16654 Q16654 1.9 X-RAY DIFFRACTION 107 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 338 359 2e0a-a1-m1-cB_2e0a-a1-m1-cA 2zdx-a1-m1-cA_2zdx-a1-m1-cB 2zkj-a1-m1-cA_2zkj-a1-m1-cB 3d2r-a1-m1-cA_3d2r-a1-m1-cB REVEHFSRYSPSPLSMKQLLDFGCERTSFAFLRQELPVRLANILKEIDILPTQLVNTSSVQLVKSWYIQSLMDLVEFHEKSPDDQKALSDFVDTLIKVRNRHHNVVPTMAQGIIEYKDACTVDPVTNQNLQYFLDRFYMNRISTRMLMNQHILIFSSHIGSIDPNCDVVAVVQDAFECSRMLCDQYYLSSPELKLTQVNGKFPDQPIHIVYVPSHLHHMLFELFKNAMRATVEHQENQPSLTPIEVIVVLGKEDLTIKISDRGGGVPLRIIDRLFSYFGYGLPISRLYAKYFQGDLNLYSLSGYGTDAIIYLKALSSESIEKLPVFNKSAFKHYDDWC VPREVEHFSRYSPSPLSMKQLLDFGSENACERTSFAFLRQELPVRLANILKEIDILPTQLVNTSSVQLVKSWYIQSLMDLVEFHEKSPDDQKALSDFVDTLIKVRNRHHNVVPTMAQGIIEYKDACTVDPVTNQNLQYFLDRFYMNRISTRMLMNQHILIFSDSQTGNPSHIGSIDPNCDVVAVVQDAFECSRMLCDQYYLSSPELKLTQVNGKFPDQPIHIVYVPSHLHHMLFELFKNAMRATVEHQENQPSLTPIEVIVVLGKEDLTIKISDRGGGVPLRIIDRLFSYTYSTAPTPPLAGFGYGLPISRLYAKYFQGDLNLYSLSGYGTDAIIYLKALSSESIEKLPVFNKSAFKHY 7ebc-a1-m1-cA_7ebc-a1-m1-cD Crystal structure of Isocitrate lyase-1 from Saccaromyces cervisiae P28240 P28240 2.3 X-RAY DIFFRACTION 141 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 524 527 7ebc-a1-m1-cC_7ebc-a1-m1-cB NDFAALQAKLDADAAEIEKWWSDSRWSKTKRNYSARDIAVRRGTFPPIEYPSSVMARKLFKVLEKHHNEGTVSKTFGALDPVQISQMAKYLDTIYISGWQCSSTASTSNEPGPDLADYPMDTVPNKVEHLFKAQLFHDRKQLEARSKAKSQEELDEMGAPIDYLTPIVADADAGHGGLTAVFKLTKMFIERGAAGIHMEDQTSTNKKCGHMAGRCVIPVQEHVNRLVTIRMCADIMHSDLIVVARTDSEAATLISSTIDTRDHYFIVGATNPNIEPFAEVLNDAIMSGASGQELADIEQKWCRDAGLKLFHEAVIDEIERSALSNKQELIKKFTSKVGPLTETSHREAKKLAKEILGHEIFFDWELPRVREGLYRYRGGTQCSIMRARAFAPYADLVWMESNYPDFQQAKEFAEGVKEKFPDQWLAYNLSPSFNWPKAMSVDEQHTFIQRLGDLGYIWQFITLAGLHTNALAVHNFSRDFAKDGMKAYAQNVQQREMDDGVDVLKHQKWSGAEYIDGLLKLAQG NDFAALQAKLDADAAEIEKWWSDSRWSKTKRNYSARDIAVRRGTFPPIEYPSSVMARKLFKVLEKHHNEGTVSKTFGALDPVQISQMAKYLDTIYISGWQCSSTASTSNEPGPDLADYPMDTVPNKVEHLFKAQLFHDRKQLEARSKAKSQEELDEMGAPIDYLTPIVADADAGHGGLTAVFKLTKMFIERGAAGIHMEDQTSTNKKCGHMAGRCVIPVQEHVNRLVTIRMCADIMHSDLIVVARTDSEAATLISSTIDTRDHYFIVGATNPNIEPFAEVLNDAIMSGASGQELADIEQKWCRDAGLKLFHEAVIDEIERSALSNKQELIKKFTSKVGPLTETSHREAKKLAKEILGHEIFFDWELPRVREGLYRYRGGTQCSIMRARAFAPYADLVWMESNYPDFQQAKEFAEGVKEKFPDQWLAYNLSPSFNWPKAMSVDEQHTFIQRLGDLGYIWQFITLAGLHTNALAVHNFSRDFAKDGMKAYAQNVQQREMDDGVDVLKHQKWSGAEYIDGLLKLAQGGVS 7ebc-a1-m1-cB_7ebc-a1-m1-cD Crystal structure of Isocitrate lyase-1 from Saccaromyces cervisiae P28240 P28240 2.3 X-RAY DIFFRACTION 94 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 527 527 7ebc-a1-m1-cC_7ebc-a1-m1-cA NDFAALQAKLDADAAEIEKWWSDSRWSKTKRNYSARDIAVRRGTFPPIEYPSSVMARKLFKVLEKHHNEGTVSKTFGALDPVQISQMAKYLDTIYISGWQCSSTASTSNEPGPDLADYPMDTVPNKVEHLFKAQLFHDRKQLEARSKAKSQEELDEMGAPIDYLTPIVADADAGHGGLTAVFKLTKMFIERGAAGIHMEDQTSTNKKCGHMAGRCVIPVQEHVNRLVTIRMCADIMHSDLIVVARTDSEAATLISSTIDTRDHYFIVGATNPNIEPFAEVLNDAIMSGASGQELADIEQKWCRDAGLKLFHEAVIDEIERSALSNKQELIKKFTSKVGPLTETSHREAKKLAKEILGHEIFFDWELPRVREGLYRYRGGTQCSIMRARAFAPYADLVWMESNYPDFQQAKEFAEGVKEKFPDQWLAYNLSPSFNWPKAMSVDEQHTFIQRLGDLGYIWQFITLAGLHTNALAVHNFSRDFAKDGMKAYAQNVQQREMDDGVDVLKHQKWSGAEYIDGLLKLAQGGVS NDFAALQAKLDADAAEIEKWWSDSRWSKTKRNYSARDIAVRRGTFPPIEYPSSVMARKLFKVLEKHHNEGTVSKTFGALDPVQISQMAKYLDTIYISGWQCSSTASTSNEPGPDLADYPMDTVPNKVEHLFKAQLFHDRKQLEARSKAKSQEELDEMGAPIDYLTPIVADADAGHGGLTAVFKLTKMFIERGAAGIHMEDQTSTNKKCGHMAGRCVIPVQEHVNRLVTIRMCADIMHSDLIVVARTDSEAATLISSTIDTRDHYFIVGATNPNIEPFAEVLNDAIMSGASGQELADIEQKWCRDAGLKLFHEAVIDEIERSALSNKQELIKKFTSKVGPLTETSHREAKKLAKEILGHEIFFDWELPRVREGLYRYRGGTQCSIMRARAFAPYADLVWMESNYPDFQQAKEFAEGVKEKFPDQWLAYNLSPSFNWPKAMSVDEQHTFIQRLGDLGYIWQFITLAGLHTNALAVHNFSRDFAKDGMKAYAQNVQQREMDDGVDVLKHQKWSGAEYIDGLLKLAQGGVS 7ebc-a1-m1-cC_7ebc-a1-m1-cD Crystal structure of Isocitrate lyase-1 from Saccaromyces cervisiae P28240 P28240 2.3 X-RAY DIFFRACTION 330 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 523 527 7ebc-a1-m1-cA_7ebc-a1-m1-cB NDFAALQAKLDADAAEIEKWWSDSRWSKTKRNYSARDIAVRRGTFPPIEYPSSVMARKLFKVLEKHHNEGTVSKTFGALDPVQISQMAKYLDTIYISGWQCSSTASTSNEPGPDLADYPMDTVPNKVEHLFKAQLFHDRKQLEARSKAKSQEELDEMGAPIDYLTPIVADADAGHGGLTAVFKLTKMFIERGAAGIHMEDQTSTNKKCGHMAGRCVIPVQEHVNRLVTIRMCADIMHSDLIVVARTDSEAATLISSTIDTRDHYFIVGATNPNIEPFAEVLNDAIMSGASGQELADIEQKWCRDAGLKLFHEAVIDEIERSALSNKQELIKKFTSKVGPLTETSHREAKKLAKEILGHEIFFDWELPRVREGLYRYRGGTQCSIMRARAFAPYADLVWMESNYPDFQQAKEFAEGVKEKFPDQWLAYNLSPSFNWPKAMSVDEQHTFIQRLGDLGYIWQFITLAGLHTNALAVHNFSRDFAKDGMKAYAQNVQQREMDDGVDVLKHQKWSGAEYIDGLLKLAQ NDFAALQAKLDADAAEIEKWWSDSRWSKTKRNYSARDIAVRRGTFPPIEYPSSVMARKLFKVLEKHHNEGTVSKTFGALDPVQISQMAKYLDTIYISGWQCSSTASTSNEPGPDLADYPMDTVPNKVEHLFKAQLFHDRKQLEARSKAKSQEELDEMGAPIDYLTPIVADADAGHGGLTAVFKLTKMFIERGAAGIHMEDQTSTNKKCGHMAGRCVIPVQEHVNRLVTIRMCADIMHSDLIVVARTDSEAATLISSTIDTRDHYFIVGATNPNIEPFAEVLNDAIMSGASGQELADIEQKWCRDAGLKLFHEAVIDEIERSALSNKQELIKKFTSKVGPLTETSHREAKKLAKEILGHEIFFDWELPRVREGLYRYRGGTQCSIMRARAFAPYADLVWMESNYPDFQQAKEFAEGVKEKFPDQWLAYNLSPSFNWPKAMSVDEQHTFIQRLGDLGYIWQFITLAGLHTNALAVHNFSRDFAKDGMKAYAQNVQQREMDDGVDVLKHQKWSGAEYIDGLLKLAQGGVS 7ebd-a1-m1-cA_7ebd-a1-m1-cB Bacterial STING in complex with c-di-GMP A0A133PTK7 A0A133PTK7 2.25 X-RAY DIFFRACTION 83 1.0 28128 (Prevotella corporis) 28128 (Prevotella corporis) 151 151 GLPSTVIAISYFEGFVKLAAEWIVTEPTTEIDGKTYTSGKLYIKPETLDTDIKKSALFYKKQGLNETQSTNHRNYPIHIVSKEEGDTLEVYDPTILSGIDKAIDYFRVGHIGKTTEQQLAEDNENNFKRVLQLLINEDSFCRECVEILRQA GLPSTVIAISYFEGFVKLAAEWIVTEPTTEIDGKTYTSGKLYIKPETLDTDIKKSALFYKKQGLNETQSTNHRNYPIHIVSKEEGDTLEVYDPTILSGIDKAIDYFRVGHIGKTTEQQLAEDNENNFKRVLQLLINEDSFCRECVEILRQA 7ebe-a1-m1-cD_7ebe-a1-m1-cA Crystal structure of Isocitrate lyase-1 from Candida albicans Q9P8Q7 Q9P8Q7 2.69 X-RAY DIFFRACTION 140 1.0 5476 (Candida albicans) 5476 (Candida albicans) 541 544 7ebe-a1-m1-cC_7ebe-a1-m1-cB 7ebe-a2-m1-cG_7ebe-a2-m1-cF 7ebe-a2-m1-cH_7ebe-a2-m1-cE 7ebf-a1-m1-cA_7ebf-a1-m1-cC 7ebf-a1-m1-cB_7ebf-a1-m1-cD PYTPIDIQKEEADFQKEVAEIKKWWSEPRWRKTKRIYSAEDIAKKRGTLKINHPSSQQADKLFKLLEKHDADKTVSFTFGALDPIHVAQMAKYLDSIYVSGWQCSSTASTSNEPSPDLADYPMDTVPNKVEHLWFAQLFHDRKQREERLTLSKEERAKTPYIDFLRPIIADADTGHGGITAIIKLTKMFIERGAAGIHIEDQAPGTKKCGHMAGKVLVPVQEHINRLVAIRASADIFGSNLLAVARTDSEAATLITSTIDHRDHYFIIGATNPEAGDLAALMAEAESKGINELAAIESEWTKKAGLKLFHEAVIDEIKNGNYSNKDALIKKFTDKVNPLSHTSHKEAKKLAKELTGKDIYFNWDVARAREGYYRYQGGTQCAVMRGRAFAPYADLIWMESALPDYAQAKEFADGVKAAVPDQWLAYNLSPSFNWNKAMPADEQETYIKRLGKLGYVWQFITLAGLHTTALAVDDFSNQYSQIGMKAYGQTVQQPEIEKGVEVVKHQKWSGATYIDGLLKMVSGGVTSTAAMGQGVTEDQFK MPYTPIDIQKEEADFQKEVAEIKKWWSEPRWRKTKRIYSAEDIAKKRGTLKINHPSSQQADKLFKLLEKHDADKTVSFTFGALDPIHVAQMAKYLDSIYVSGWQCSSTASTSNEPSPDLADYPMDTVPNKVEHLWFAQLFHDRKQREERLTLSKEERAKTPYIDFLRPIIADADTGHGGITAIIKLTKMFIERGAAGIHIEDQAPGTKKCGHMAGKVLVPVQEHINRLVAIRASADIFGSNLLAVARTDSEAATLITSTIDHRDHYFIIGATNPEAGDLAALMAEAESKGIYGNELAAIESEWTKKAGLKLFHEAVIDEIKNGNYSNKDALIKKFTDKVNPLSHTSHKEAKKLAKELTGKDIYFNWDVARAREGYYRYQGGTQCAVMRGRAFAPYADLIWMESALPDYAQAKEFADGVKAAVPDQWLAYNLSPSFNWNKAMPADEQETYIKRLGKLGYVWQFITLAGLHTTALAVDDFSNQYSQIGMKAYGQTVQQPEIEKGVEVVKHQKWSGATYIDGLLKMVSGGVTSTAAMGQGVTEDQFK 7ebe-a2-m1-cG_7ebe-a2-m1-cE Crystal structure of Isocitrate lyase-1 from Candida albicans Q9P8Q7 Q9P8Q7 2.69 X-RAY DIFFRACTION 386 0.998 5476 (Candida albicans) 5476 (Candida albicans) 535 542 7ebe-a1-m1-cB_7ebe-a1-m1-cD 7ebe-a1-m1-cC_7ebe-a1-m1-cA 7ebe-a2-m1-cH_7ebe-a2-m1-cF TPIDIQKEEADFQKEVAEIKKWWSEPRWRKTKRIYSAEDIAKKRGTLKINHPSSQQADKLFKLLEKHDADKTVSFTFGALDPIHVAQMAKYLDSIYVSGWQCSSTASTSNEPSPDLADYPMDTVPNKVEHLWFAQLFHDRKQREERLTLSKEERAKTPYIDFLRPIIADADTGHGGITAIIKLTKMFIERGAAGIHIEDQAPGTKKCGHMAGKVLVPVQEHINRLVAIRASADIFGSNLLAVARTDSEAATLITSTIDHRDHYFIIGATNPEAGDLAALMAEAESKGLAAIESEWTKKAGLKLFHEAVIDEIKNGNYSNKDALIKKFTDKVNPLSHTSHKEAKKLAKELTGKDIYFNWDVARAREGYYRYQGGTQCAVMRGRAFAPYADLIWMESALPDYAQAKEFADGVKAAVPDQWLAYNLSPSFNWNKAMPADEQETYIKRLGKLGYVWQFITLAGLHTTALAVDDFSNQYSQIGMKAYGQTVQQPEIEKGVEVVKHQKWSGATYIDGLLKMVSGGVTSTAAMGQGVTEDQF PYTPIDIQKEEADFQKEVAEIKKWWSEPRWRKTKRIYSAEDIAKKRGTLKINHPSSQQADKLFKLLEKHDADKTVSFTFGALDPIHVAQMAKYLDSIYVSGWQCSSTASTSNEPSPDLADYPMDTVPNKVEHLWFAQLFHDRKQREERLTLSKEERAKTPYIDFLRPIIADADTGHGGITAIIKLTKMFIERGAAGIHIEDQAPGTKKCGHMAGKVLVPVQEHINRLVAIRASADIFGSNLLAVARTDSEAATLITSTIDHRDHYFIIGATNPEAGDLAALMAEAESKGIYGNELAAIESEWTKKAGLKLFHEAVIDEIKNGNYSNKDALIKKFTDKVNPLSHTSHKEAKKLAKELTGKDIYFNWDVARAREGYYRYQGGTQCAVMRGRAFAPYADLIWMESALPDYAQAKEFADGVKAAVPDQWLAYNLSPSFNWNKMPADEQETYIKRLGKLGYVWQFITLAGLHTTALAVDDFSNQYSQIGMKAYGQTVQQPEIEKGVEVVKHQKWSGATYIDGLLKMVSGGVTSTAAMGQGVTEDQFK 7ebe-a2-m1-cH_7ebe-a2-m1-cG Crystal structure of Isocitrate lyase-1 from Candida albicans Q9P8Q7 Q9P8Q7 2.69 X-RAY DIFFRACTION 95 0.991 5476 (Candida albicans) 5476 (Candida albicans) 533 535 7ebe-a1-m1-cB_7ebe-a1-m1-cA 7ebe-a1-m1-cC_7ebe-a1-m1-cD 7ebe-a2-m1-cE_7ebe-a2-m1-cF 7ebf-a1-m1-cA_7ebf-a1-m1-cD 7ebf-a1-m1-cB_7ebf-a1-m1-cC TPIDIQKEEADFQKEVAEIKKWWSEPRWRKTKRIYSAEDIAKKRGTLKINHPSSQQADKLFKLLEKHDADKTVSFTFGALDPIHVAQMAKYLDSIYVSGWQCSSTASTSNEPSPDLADYPMDTVPNKVEHLWFAQLFHDRKQREERLTLSKEERAKTPYIDFLRPIIADADTGHGGITAIIKLTKMFIERGAAGIHIEDQAPGTKKCGHMAGKVLVPVQEHINRLVAIRASADIFGSNLLAVARTDSEAATLITSTIDHRDHYFIIGATNPEAGDLAALMAEAESKGIYGNELAAIESEWTKKAGLKLFHEAVIDEIKNGNYSNKDALIKKFTDKVNPLSHTSHKEAKKLAKELTGKDIYFNWDVARAREGYYRYQGGTQCAVMRGRAFAPYADLIWMESALPDYAQAKEFADGVKAAVPDQWLAYNLSPSFNWNKAMPADEQETYIKRLGKLGYVWQFITLAGLHTTALAVDDFSNQYSQIGMKAYGQTVQQPEIEKGVEVVKHQKWSGATYIDGLLKMVSGGVSTAAMGQG TPIDIQKEEADFQKEVAEIKKWWSEPRWRKTKRIYSAEDIAKKRGTLKINHPSSQQADKLFKLLEKHDADKTVSFTFGALDPIHVAQMAKYLDSIYVSGWQCSSTASTSNEPSPDLADYPMDTVPNKVEHLWFAQLFHDRKQREERLTLSKEERAKTPYIDFLRPIIADADTGHGGITAIIKLTKMFIERGAAGIHIEDQAPGTKKCGHMAGKVLVPVQEHINRLVAIRASADIFGSNLLAVARTDSEAATLITSTIDHRDHYFIIGATNPEAGDLAALMAEAESKGLAAIESEWTKKAGLKLFHEAVIDEIKNGNYSNKDALIKKFTDKVNPLSHTSHKEAKKLAKELTGKDIYFNWDVARAREGYYRYQGGTQCAVMRGRAFAPYADLIWMESALPDYAQAKEFADGVKAAVPDQWLAYNLSPSFNWNKAMPADEQETYIKRLGKLGYVWQFITLAGLHTTALAVDDFSNQYSQIGMKAYGQTVQQPEIEKGVEVVKHQKWSGATYIDGLLKMVSGGVTSTAAMGQGVTEDQF 7ebl-a1-m1-cA_7ebl-a1-m1-cB Bacterial STING in complex with c-di-GMP 2.17 X-RAY DIFFRACTION 97 1.0 1458492 (Myroides sp. ZB35) 1458492 (Myroides sp. ZB35) 164 167 LGELGLLPSTVLAIGYFENLVNIICESLNMLPKLEVSGKEYKKFKFTIVIPKDLDANIKKRAKIYFKQKSLIEIEIPTSSRNYPIHIQFDENSTDDILHLYDMPTTIGGIDKAIEMFMRKGHIGKTDQQKLLEERELRNFKTTLENLIATDAFAKEMVEVIIEE GIHLGELGLLPSTVLAIGYFENLVNIICESLNMLPKLEVSGKEYKKFKFTIVIPKDLDANIKKRAKIYFKQKSLIEIEIPTSSRNYPIHIQFDENSTDDILHLYDMPTTIGGIDKAIEMFMRKGHIGKTDQQKLLEERELRNFKTTLENLIATDAFAKEMVEVIIEE 7ebo-a1-m1-cA_7ebo-a1-m1-cB Crystal structure of a feruloyl esterase LP_0796 from Lactobacillus plantarum F9UM18 F9UM18 2.5 X-RAY DIFFRACTION 105 0.988 220668 (Lactiplantibacillus plantarum WCFS1) 220668 (Lactiplantibacillus plantarum WCFS1) 242 242 EPFFFEHGQHAVILLHAYAGSANDVRMLARALEREDYTVYGPQFSGHATDDPRDILAQTPAQWWQDTQQAISFMRQKGYTKISIFGLSLGGIFATAALERDPQLLGGGTFSSPLFAGNRSDVAEMFITLSHHQLAHSQFSIAEREQILMTLPELVQRQLQAVNTFTTTEVTSHLSAVTQPFFIGQGGQDELIDATVARQLRDQLPQVPVDFHWYADAGHVITVNSAHHQLEQDVLTYLKTIY KQPEPFFFEHGQHAVILLHAYAGSANDVRMLARALEREDYTVYGPQFSGHATDDPRDILAQTPAQWWQDTQQAISFMRQKGYTKISIFGLSLGGIFATAALERDPQLLGGGTFSSPLFAGSDVAEMFITLSHHQLAHSQFSIAEREQILMTLPELVQRQLQAVNTFTTTEVTSHLSAVTQPFFIGQGGQDELIDATVARQLRDQLPQVPVDFHWYADAGHVITVNSAHHQLEQDVLTYLKTI 7ebs-a1-m1-cA_7ebs-a1-m2-cA Crystal structure of juvenile hormone acid methyltransferase JHAMT from silkworm 2.95 X-RAY DIFFRACTION 53 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 258 258 NSSSMQRRDALNSLTEYLPKFKWKESKEKILDIGCADGSVTNIISSCCPTDFELFEACDVNVKSVKYATEHYGTSKMRFRVMDIESDLPKEMKGKFDHVFSFYTLHWIENQEKAFQNIYDLTADDGECFLTLLAQMPVFNLFDALKHTEKWRHWLRYIKNFISPYYETSDPDVVIELLLKRVGFRYVDVRCRQKKFEFYDLKSFRNLLEAVSPFKVGQELQEELIDDVMEVAKEMRIIDTQNSTAKLIYNLVVIHCRK NSSSMQRRDALNSLTEYLPKFKWKESKEKILDIGCADGSVTNIISSCCPTDFELFEACDVNVKSVKYATEHYGTSKMRFRVMDIESDLPKEMKGKFDHVFSFYTLHWIENQEKAFQNIYDLTADDGECFLTLLAQMPVFNLFDALKHTEKWRHWLRYIKNFISPYYETSDPDVVIELLLKRVGFRYVDVRCRQKKFEFYDLKSFRNLLEAVSPFKVGQELQEELIDDVMEVAKEMRIIDTQNSTAKLIYNLVVIHCRK 7ebu-a2-m1-cB_7ebu-a2-m3-cB Crystal structure of Aedes aegypti Noppera-bo, glutathione S-transferase epsilon 8, in Daidzein- and glutathione-bound form A0A1S4FIB3 A0A1S4FIB3 1.95 X-RAY DIFFRACTION 93 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 221 221 7ebt-a1-m1-cA_7ebt-a1-m2-cA 7ebt-a2-m1-cB_7ebt-a2-m3-cB 7ebt-a3-m1-cC_7ebt-a3-m4-cD 7ebu-a1-m1-cA_7ebu-a1-m2-cA 7ebu-a3-m1-cC_7ebu-a3-m4-cD 7ebv-a1-m1-cA_7ebv-a1-m2-cA 7ebv-a2-m1-cB_7ebv-a2-m3-cB 7ebv-a3-m1-cC_7ebv-a3-m4-cD 7ebw-a1-m1-cA_7ebw-a1-m2-cA 7ebw-a2-m1-cB_7ebw-a2-m3-cB 7ebw-a3-m1-cC_7ebw-a3-m4-cD VHMMSKPVLYYDDISPPVRGVLLTVAALGIKDQVELKLVRLFEREHLLEDFVKLNPLHAVPVLKHDDLVLTDSHAIIMYLCDIFGQDGDFSLKDPKQRARVHNRLCFNNAVLFQRESIVMRGLINRSIVTLEDHHLKPVQEAYDCLEVYLTNSKFVACDQLTVADFPIVACMSTVGMVCPLSTSRWPKTAAWFETMKQLPYYQQANQVGVDKLKERLHAVM VHMMSKPVLYYDDISPPVRGVLLTVAALGIKDQVELKLVRLFEREHLLEDFVKLNPLHAVPVLKHDDLVLTDSHAIIMYLCDIFGQDGDFSLKDPKQRARVHNRLCFNNAVLFQRESIVMRGLINRSIVTLEDHHLKPVQEAYDCLEVYLTNSKFVACDQLTVADFPIVACMSTVGMVCPLSTSRWPKTAAWFETMKQLPYYQQANQVGVDKLKERLHAVM 7ec0-a2-m1-cP_7ec0-a2-m1-cG Crystal structure of juvenile hormone acid methyltransferase JHAMT in complex with S-Adenosyl homocysteine and methyl farnesoate 2.494 X-RAY DIFFRACTION 73 1.0 7091 (Bombyx mori) 7091 (Bombyx mori) 198 256 7ebx-a1-m1-cA_7ebx-a1-m2-cA 7ec0-a1-m1-cA_7ec0-a1-m1-cD 7ec0-a3-m1-cJ_7ec0-a3-m1-cM 7ejb-a1-m1-cA_7ejb-a1-m2-cA SSMQRRDALNSLTEYLPKFKWKESKEKILDIGFEACDVVMDIESDLPKEMKGKFDHVFSFYTLHWIENQEKAFQNIYDLTADDGECFLTLLAQMPVFNLFDALKHFISPYYETSDPDVVIELLLKRVGFRYVDVRCRQKKFEFYDLKSFRNLLEAVSPFLQEELIDDVMEVAKEMRIIDTQNSTAKLIYNLVVIHCRK SSMQRRDALNSLTEYLPKFKWKESKEKILDIGCADGSVTNIISSCCPTDFELFEACDVNVKSVKYATEHYGTSKMRFRVMDIESDLPKEMKGKFDHVFSFYTLHWIENQEKAFQNIYDLTADDGECFLTLLAQMPVFNLFDALKHTEKWRHWLRYIKNFISPYYETSDPDVVIELLLKRVGFRYVDVRCRQKKFEFYDLKSFRNLLEAVSPFKVGQELQEELIDDVMEVAKEMRIIDTQNSTAKLIYNLVVIHCRK 7ec1-a1-m1-cB_7ec1-a1-m1-cA Crystal structure of SdgB (ligand-free form) A0A0H2XGN0 A0A0H2XGN0 1.85 X-RAY DIFFRACTION 68 1.0 367830 (Staphylococcus aureus subsp. aureus USA300) 367830 (Staphylococcus aureus subsp. aureus USA300) 498 502 7ec3-a1-m1-cA_7ec3-a1-m1-cC 7ec6-a1-m1-cC_7ec6-a1-m1-cA 7ec7-a1-m1-cA_7ec7-a1-m2-cA 7ec7-a2-m1-cB_7ec7-a2-m2-cB 7vfk-a1-m1-cB_7vfk-a1-m1-cA 7vfl-a1-m1-cA_7vfl-a1-m1-cC SMNYFVGNSLGVNLTGIEKAIINRLNLFKEMGRPAQCVFLSWNRYLYRNAQNYITSSDYINMYDFFQEATYLERNEPFDWLSYWTDECHYTLKHVENSHDFRIYDQERFLMYAHFQDPKYRILDYVNHFDSQRRKVKRDFYDVRGFLSCSRILVDKQQTLCEFFYNPEGDTKLEKYFSYPEVQKIIVYYANKQYFFNNETELGAFFIKQLYQHGDLFFSDRNVYTAPIFNLTPESIPVVAVLHSTHIKNIDALDSSPFKNVYKAMFENLSRYRAIIVSTEQQKLDVEKRINHTIPVVNIPVGYSETIDTPVQTLDQRSVKLISVARYSPEKQLHQQIELIKRLVSYVPKIELHMYGFGSESKKLNELIQKYGLENHVYLRGFLSNLDQEYSDAYLSLITSNMEGFSLALLESLAHGVPVISYDIKYGPNELITSDFNGYLITKNDEDALFDKVKYVIDHPEVQQRLSKGSLAKAQQYSKASLIKQWDQFVRLILEHHH SMNYFVGNSLGVNLTGIEKAIINRLNLFKEMGRPAQCVFLSWNRYLYRNAQNYITSSDYINMYDFFQEATYLERNEPFDWLSYWTDECHYTLKHVENSHDFRIYDQERFLMYAHFQDPKYRILDYVNHFDSQRRKVKRDFYDVRGFLSCSRILVDKQQTLCEFFYNPEGDTKLEKYFSYKDGKPEVQKIIVYYANKQYFFNNETELGAFFIKQLYQHGDLFFSDRNVYTAPIFNLTPESIPVVAVLHSTHIKNIDALDSSPFKNVYKAMFENLSRYRAIIVSTEQQKLDVEKRINHTIPVVNIPVGYSETIDTPVQTLDQRSVKLISVARYSPEKQLHQQIELIKRLVSYVPKIELHMYGFGSESKKLNELIQKYGLENHVYLRGFLSNLDQEYSDAYLSLITSNMEGFSLALLESLAHGVPVISYDIKYGPNELITSDFNGYLITKNDEDALFDKVKYVIDHPEVQQRLSKGSLAKAQQYSKASLIKQWDQFVRLILEHHH 7ecr-a1-m1-cB_7ecr-a1-m2-cC Crystal Structure of Aspergillus terreus Glutamate Dehydrogenase (AtGDH) Complexed With Succinate and ADP-ribose T2D1F5 T2D1F5 1.73 X-RAY DIFFRACTION 79 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 460 460 7ecr-a1-m1-cA_7ecr-a1-m2-cA 7ecr-a1-m1-cC_7ecr-a1-m2-cB 7ecs-a1-m1-cA_7ecs-a1-m2-cA 7ecs-a1-m1-cB_7ecs-a1-m2-cC 7ecs-a1-m1-cC_7ecs-a1-m2-cB 7ect-a1-m1-cA_7ect-a1-m2-cA 7ect-a1-m1-cB_7ect-a1-m2-cC 7ect-a1-m2-cB_7ect-a1-m1-cC MSNLPVEPEFEQAYKELASTLENSTLFQKNPEYRKALAVVSVPERVIQFRVVWENDKGEVQVNRGFRVQFNSALGPYKGGLRFHPSVNLSILKFLGFEQIFKNALTGLNMGGGKGGSDFDPKGKSDSEIRRFCVAFMTELCRHIGADTDVPAGDIGVTGREIGYLFGQYRKLRNSWEGVLTGKGGSWGGSLIRPEATGYGVVYYVEHMIAHATNGAESFAGKRVAISGSGNVAQYAALKVIELGGRVVSLSDSQGSLIVKDTAKDSFTPAEIDAIAALKVDRKQIAELVTDAAFADKFTYLPGQRPWVHVGAVDVALPSATQNEVSGEEAQALIAAGCKFIAEGSNMGCTQAAIDAFEAHREANKGAAAIWYAPGKAANAGGVAVSGLEMAQNSARLSWTAEEVDARLKDIMKSCFQNGLDTAKEYATPADGILPSLVTGSNIAGFTKVAAAMKDQGDWW MSNLPVEPEFEQAYKELASTLENSTLFQKNPEYRKALAVVSVPERVIQFRVVWENDKGEVQVNRGFRVQFNSALGPYKGGLRFHPSVNLSILKFLGFEQIFKNALTGLNMGGGKGGSDFDPKGKSDSEIRRFCVAFMTELCRHIGADTDVPAGDIGVTGREIGYLFGQYRKLRNSWEGVLTGKGGSWGGSLIRPEATGYGVVYYVEHMIAHATNGAESFAGKRVAISGSGNVAQYAALKVIELGGRVVSLSDSQGSLIVKDTAKDSFTPAEIDAIAALKVDRKQIAELVTDAAFADKFTYLPGQRPWVHVGAVDVALPSATQNEVSGEEAQALIAAGCKFIAEGSNMGCTQAAIDAFEAHREANKGAAAIWYAPGKAANAGGVAVSGLEMAQNSARLSWTAEEVDARLKDIMKSCFQNGLDTAKEYATPADGILPSLVTGSNIAGFTKVAAAMKDQGDWW 7ecr-a1-m1-cC_7ecr-a1-m2-cC Crystal Structure of Aspergillus terreus Glutamate Dehydrogenase (AtGDH) Complexed With Succinate and ADP-ribose T2D1F5 T2D1F5 1.73 X-RAY DIFFRACTION 16 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 460 460 7ecr-a1-m1-cA_7ecr-a1-m2-cB 7ecr-a1-m1-cB_7ecr-a1-m2-cA 7ecs-a1-m1-cA_7ecs-a1-m2-cB 7ecs-a1-m1-cB_7ecs-a1-m2-cA 7ecs-a1-m1-cC_7ecs-a1-m2-cC 7ect-a1-m1-cA_7ect-a1-m2-cB 7ect-a1-m1-cB_7ect-a1-m2-cA 7ect-a1-m1-cC_7ect-a1-m2-cC MSNLPVEPEFEQAYKELASTLENSTLFQKNPEYRKALAVVSVPERVIQFRVVWENDKGEVQVNRGFRVQFNSALGPYKGGLRFHPSVNLSILKFLGFEQIFKNALTGLNMGGGKGGSDFDPKGKSDSEIRRFCVAFMTELCRHIGADTDVPAGDIGVTGREIGYLFGQYRKLRNSWEGVLTGKGGSWGGSLIRPEATGYGVVYYVEHMIAHATNGAESFAGKRVAISGSGNVAQYAALKVIELGGRVVSLSDSQGSLIVKDTAKDSFTPAEIDAIAALKVDRKQIAELVTDAAFADKFTYLPGQRPWVHVGAVDVALPSATQNEVSGEEAQALIAAGCKFIAEGSNMGCTQAAIDAFEAHREANKGAAAIWYAPGKAANAGGVAVSGLEMAQNSARLSWTAEEVDARLKDIMKSCFQNGLDTAKEYATPADGILPSLVTGSNIAGFTKVAAAMKDQGDWW MSNLPVEPEFEQAYKELASTLENSTLFQKNPEYRKALAVVSVPERVIQFRVVWENDKGEVQVNRGFRVQFNSALGPYKGGLRFHPSVNLSILKFLGFEQIFKNALTGLNMGGGKGGSDFDPKGKSDSEIRRFCVAFMTELCRHIGADTDVPAGDIGVTGREIGYLFGQYRKLRNSWEGVLTGKGGSWGGSLIRPEATGYGVVYYVEHMIAHATNGAESFAGKRVAISGSGNVAQYAALKVIELGGRVVSLSDSQGSLIVKDTAKDSFTPAEIDAIAALKVDRKQIAELVTDAAFADKFTYLPGQRPWVHVGAVDVALPSATQNEVSGEEAQALIAAGCKFIAEGSNMGCTQAAIDAFEAHREANKGAAAIWYAPGKAANAGGVAVSGLEMAQNSARLSWTAEEVDARLKDIMKSCFQNGLDTAKEYATPADGILPSLVTGSNIAGFTKVAAAMKDQGDWW 7ecr-a1-m2-cB_7ecr-a1-m2-cC Crystal Structure of Aspergillus terreus Glutamate Dehydrogenase (AtGDH) Complexed With Succinate and ADP-ribose T2D1F5 T2D1F5 1.73 X-RAY DIFFRACTION 61 1.0 33178 (Aspergillus terreus) 33178 (Aspergillus terreus) 460 460 7ecr-a1-m1-cA_7ecr-a1-m1-cB 7ecr-a1-m1-cA_7ecr-a1-m1-cC 7ecr-a1-m1-cB_7ecr-a1-m1-cC 7ecr-a1-m2-cA_7ecr-a1-m2-cB 7ecr-a1-m2-cA_7ecr-a1-m2-cC 7ecs-a1-m1-cA_7ecs-a1-m1-cB 7ecs-a1-m1-cA_7ecs-a1-m1-cC 7ecs-a1-m1-cB_7ecs-a1-m1-cC 7ecs-a1-m2-cA_7ecs-a1-m2-cB 7ecs-a1-m2-cA_7ecs-a1-m2-cC 7ecs-a1-m2-cB_7ecs-a1-m2-cC 7ect-a1-m1-cA_7ect-a1-m1-cB 7ect-a1-m1-cA_7ect-a1-m1-cC 7ect-a1-m1-cB_7ect-a1-m1-cC 7ect-a1-m2-cA_7ect-a1-m2-cB 7ect-a1-m2-cA_7ect-a1-m2-cC 7ect-a1-m2-cB_7ect-a1-m2-cC MSNLPVEPEFEQAYKELASTLENSTLFQKNPEYRKALAVVSVPERVIQFRVVWENDKGEVQVNRGFRVQFNSALGPYKGGLRFHPSVNLSILKFLGFEQIFKNALTGLNMGGGKGGSDFDPKGKSDSEIRRFCVAFMTELCRHIGADTDVPAGDIGVTGREIGYLFGQYRKLRNSWEGVLTGKGGSWGGSLIRPEATGYGVVYYVEHMIAHATNGAESFAGKRVAISGSGNVAQYAALKVIELGGRVVSLSDSQGSLIVKDTAKDSFTPAEIDAIAALKVDRKQIAELVTDAAFADKFTYLPGQRPWVHVGAVDVALPSATQNEVSGEEAQALIAAGCKFIAEGSNMGCTQAAIDAFEAHREANKGAAAIWYAPGKAANAGGVAVSGLEMAQNSARLSWTAEEVDARLKDIMKSCFQNGLDTAKEYATPADGILPSLVTGSNIAGFTKVAAAMKDQGDWW MSNLPVEPEFEQAYKELASTLENSTLFQKNPEYRKALAVVSVPERVIQFRVVWENDKGEVQVNRGFRVQFNSALGPYKGGLRFHPSVNLSILKFLGFEQIFKNALTGLNMGGGKGGSDFDPKGKSDSEIRRFCVAFMTELCRHIGADTDVPAGDIGVTGREIGYLFGQYRKLRNSWEGVLTGKGGSWGGSLIRPEATGYGVVYYVEHMIAHATNGAESFAGKRVAISGSGNVAQYAALKVIELGGRVVSLSDSQGSLIVKDTAKDSFTPAEIDAIAALKVDRKQIAELVTDAAFADKFTYLPGQRPWVHVGAVDVALPSATQNEVSGEEAQALIAAGCKFIAEGSNMGCTQAAIDAFEAHREANKGAAAIWYAPGKAANAGGVAVSGLEMAQNSARLSWTAEEVDARLKDIMKSCFQNGLDTAKEYATPADGILPSLVTGSNIAGFTKVAAAMKDQGDWW 7ed2-a1-m1-cA_7ed2-a1-m1-cB Transferase from Mycobacterium tuberculosis A0QVP7 A0QVP7 1.65 X-RAY DIFFRACTION 50 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 221 221 7ed1-a1-m1-cA_7ed1-a1-m1-cB SLLSLVLPDRVASAEVYDDPPGLSPLPEEEPLIARSVAKRRNEFVTVRYCARQALGELGVGPVPILKGDKGEPCWPDGVVGSLTHCQGFRGAVVGRSTDVRSVGIDAEPHDVLPNGVLDAITLPIERAELRGLPGDLHWDRILFCAKEATYKAWYPLTHRWLGFEDAHITFEVDGSGTAGSFRSRILIDPVAEHGPPLTALDGRWSVRDGLAVTAIVLLEH SLLSLVLPDRVASAEVYDDPPGLSPLPEEEPLIARSVAKRRNEFVTVRYCARQALGELGVGPVPILKGDKGEPCWPDGVVGSLTHCQGFRGAVVGRSTDVRSVGIDAEPHDVLPNGVLDAITLPIERAELRGLPGDLHWDRILFCAKEATYKAWYPLTHRWLGFEDAHITFEVDGSGTAGSFRSRILIDPVAEHGPPLTALDGRWSVRDGLAVTAIVLLEH 7edb-a1-m1-cB_7edb-a1-m1-cA EcoT38I restriction endonuclease complexed with DNA Q83VS8 Q83VS8 2.39 X-RAY DIFFRACTION 111 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 347 350 MKVLVNHEQAYNVIINAINDAKKLTDYKTNNQWVSIQNVILGTHLTYRYILITGLLAKATDPRVNPLALQANAPVDGAYDARSLCHSVIVGKVEGPFLEGKLGASNEPFLNKPARYMLHSSDNPVRRGNDKVLQQLSIDILHAATTQTLAYEMLVIALYFTLQRTNRVITPNSINFDFHKIIYNIISHPCDGETCAIAAAISLHLLGEQRGWIIKAHPVNQAGSKEILDIDVYHDDIVFLSIEVKDKPFNYQDVNHAVSKASASGISKVIFLKGPRATNLDIDESLAIENAATKGVSLSFSDVMTFTTTCYALSPLLSNDRIIDFINNTLKDIRAKDSTIEYIQSIF MKVLVNHEQAYNVIINAINDAKKLTDYKTNNQWVSIQNVILGTHLTYRYILITGLLAKATDPRVNPLALQANAPVDGAYDARSLCHSVIVGKVEGPFLEGKLGASNEPFLNKPARYMLHSSDNPVRRGNDKVLQQLSIDILHAATTQTLAYEMLVIALYFTLQRTNRVITPNSINFDFHKIIYNIISHPCDGETCAIAAAISLHLLGEQRGWIIKAHPVNQAGSSSKEILDIDVYHDDIVFLSIEVKDKPFNYQDVNHAVSKASASGISKVIFLKGPRATNLDIDESLAIENAATKGVSLSFSDVMTFTTTCYALSPLLSNDRIIDFINNTLKDIRAKDSTIEYIQSIFK 7edc-a1-m1-cA_7edc-a1-m2-cA Crystal structure of mutant tRNA [Gm18] methyltransferase TrmH (E107G) in complex with S-adenosyl-L-methionine from Escherichia coli P0AGJ2 P0AGJ2 1.946 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 236 236 LVPRGSHMNPTRYARICEMLARRQPDLTVCMEQVHKPHNVSAIIRTADAVGVHEVHAVWPGSRMRTMASAAAGSNSWVQVKTHRTIGDAVAHLKGQGMQILATHLSDNAVDFRGIDYTRPTCILMGQEKTGITQEALALADQDIIIPMIGMVQSLNVSVASALILYEAQRQRQNAGMYLRENSMLPEAEQQRLLFEGGYPVLAKVAKRKGLPYPHVNQQGEIEADADWWATMQAAG LVPRGSHMNPTRYARICEMLARRQPDLTVCMEQVHKPHNVSAIIRTADAVGVHEVHAVWPGSRMRTMASAAAGSNSWVQVKTHRTIGDAVAHLKGQGMQILATHLSDNAVDFRGIDYTRPTCILMGQEKTGITQEALALADQDIIIPMIGMVQSLNVSVASALILYEAQRQRQNAGMYLRENSMLPEAEQQRLLFEGGYPVLAKVAKRKGLPYPHVNQQGEIEADADWWATMQAAG 7edg-a1-m1-cC_7edg-a1-m1-cA Cryo-EM structure of SARS-CoV-2 S-UK variant (B.1.1.7), one RBD-up conformation 2 P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 245 0.989 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1008 1015 7edg-a1-m1-cB_7edg-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLSEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYSANNCTFEYVSQPFLFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7edh-a1-m1-cA_7edh-a1-m1-cB Cryo-EM structure of SARS-CoV-2 S-UK variant (B.1.1.7), one RBD-up conformation 3 P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 220 0.994 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 819 1019 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVSEFRVYSSANNCTFEYVSQPFLFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVSEFRVYSSANNCTFEYVSQPFLFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD 7edi-a1-m1-cC_7edi-a1-m1-cA Cryo-EM structure of SARS-CoV-2 S-UK variant (B.1.1.7), two RBD-up conformation P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 227 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1008 1024 7edi-a1-m1-cB_7edi-a1-m1-cA 7edj-a1-m1-cB_7edj-a1-m1-cA 7edj-a1-m1-cC_7edj-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLSEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7edr-a1-m1-cC_7edr-a1-m1-cD The crystal structure of the FERM and C-terminal domain complex of Drosophila Merlin Q24564 Q24564 2.527 X-RAY DIFFRACTION 35 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 120 122 TAGGAELTTHSSHYLVQGDNSSGISDDFEPKEFILTDNEMEQITNEMERNHLDYLRNSKQVQSQLQTLRSEIAPHKIEENQSNLDILSEAQIKAGENKYSTLKKLKSGSTKARVAFFEEL LETAGGAELTTHSSHYLVQGDNSSGISDDFEPKEFILTDNEMEQITNEMERNHLDYLRNSKQVQSQLQTLRSEIAPHKIEENQSNLDILSEAQIKAGENKYSTLKKLKSGSTKARVAFFEEL 7edz-a3-m1-cA_7edz-a3-m1-cB Crystal Structure of human PPCS in complex with P-HoPan and AMPPNP Q9HAB8 Q9HAB8 1.95 X-RAY DIFFRACTION 198 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 305 306 1p9o-a1-m1-cA_1p9o-a1-m1-cB 7edz-a1-m1-cD_7edz-a1-m2-cD 7edz-a2-m1-cC_7edz-a2-m3-cC DPVAEFPQPPGAARWAEVMARFAARLGAQGRRVVLVTSGGTKVPLEARPVRFLDNFSSGRRGATSAEAFLAAGYGVLFLYRARSAFPYAHRFPPQTWLSALRPSGPALSGLLSLEAEENALPGFAEALRSYQEAAAAGTFLVVEFTTLADYLHLLQAAAQALNPLGPSAMFYLAAAVSDFYVPVSEMPEHKIQSSGGPLQITMKMVPKLLSPLVKDWAPKAFIISFKLETDPAIVINRARKALEIYQHQVVVANILESRQSFVLIVTKDSETKLLLSEEEIEKGVEIEEKIVDNLQSRHTAFIGD DPVAEFPQPPGAARWAEVMARFAARLGAQGRRVVLVTSGGTKVPLEARPVRFLDNFSSGRRGATSAEAFLAAGYGVLFLYRARSAFPYAHRFPPQTWLSALRPSGPALSGLLSLEAEENALPGFAEALRSYQEAAAAGTFLVVEFTTLADYLHLLQAAAQALNPLGPSAMFYLAAAVSDFYVPVSEMPEHKIQSSGGPLQITMKMVPKLLSPLVKDWAPKAFIISFKLETDPAIVINRARKALEIYQHQVVVANILESRQSFVLIVTKDSETKLLLSEEEIEKGVEIEEKIVDNLQSRHTAFIGDR 7ee6-a1-m1-cA_7ee6-a1-m1-cD Crystal structure of PltC toxin A0A716TY65 A0A716TY65 2.29 X-RAY DIFFRACTION 75 1.0 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 220341 (Salmonella enterica subsp. enterica serovar Typhi str. CT18) 118 118 7ee3-a1-m1-cA_7ee3-a1-m1-cB 7ee3-a1-m1-cA_7ee3-a1-m1-cD 7ee3-a1-m1-cB_7ee3-a1-m1-cE 7ee3-a1-m1-cD_7ee3-a1-m1-cC 7ee3-a1-m1-cE_7ee3-a1-m1-cC 7ee4-a1-m1-cA_7ee4-a1-m1-cB 7ee4-a1-m1-cA_7ee4-a1-m1-cE 7ee4-a1-m1-cB_7ee4-a1-m1-cD 7ee4-a1-m1-cD_7ee4-a1-m1-cC 7ee4-a1-m1-cE_7ee4-a1-m1-cC 7ee5-a1-m1-cA_7ee5-a1-m1-cB 7ee5-a1-m1-cA_7ee5-a1-m1-cD 7ee5-a1-m1-cB_7ee5-a1-m1-cE 7ee5-a1-m1-cD_7ee5-a1-m1-cC 7ee5-a1-m1-cE_7ee5-a1-m1-cC 7ee6-a1-m1-cA_7ee6-a1-m1-cB 7ee6-a1-m1-cD_7ee6-a1-m1-cC 7ee6-a1-m1-cE_7ee6-a1-m1-cB 7ee6-a1-m1-cE_7ee6-a1-m1-cC AMADYDTYVSNVQINNLSYGVYTSGGKETQFFCIGLKHGSEAISINAMCKVDVYGNHKQGFDNMLNTAKYYYTTGGDVRIYYKENVWRDPDFKSAFSSRELIAITTCSSSSYCMGPTV AMADYDTYVSNVQINNLSYGVYTSGGKETQFFCIGLKHGSEAISINAMCKVDVYGNHKQGFDNMLNTAKYYYTTGGDVRIYYKENVWRDPDFKSAFSSRELIAITTCSSSSYCMGPTV 7eea-a1-m1-cB_7eea-a1-m1-cC Cyanophage Pam1 tailspike receptor-binding domain 2.671 X-RAY DIFFRACTION 232 1.0 32644 (unidentified) 32644 (unidentified) 643 646 7eea-a1-m1-cA_7eea-a1-m1-cC 7eea-a1-m1-cB_7eea-a1-m1-cA GAASIGYKRESGARLRTTADMFKDHLNLKEYCPGDGTNQTTAFNAAIARAVSEGISRIIVPAGHYLVTDLSVTANGLVFEGQGESSRIQVASNNSRCFSLSGDRLTFRGLKFIGDGTASASANGIGILAGDATDLLVEDVWFDSFGFGGVNAGFTTLARGPKFIRTRHRNTGTGGAEIYLRGLYEGADVIDIDAATSNADWAVFAFDEGYAGQRDLEVTRGDFSGYKRYSIGVSDENPSRGFGVKINGGHHKNAGLGAVKVKNYRGVLIQGVTTDNCGIVPIAGISNTGESGTFYINSAGLVDIGGCKLRDNGMDGITVIQGAARNQYIVHDNQIDGCGTASYAGTGTGFRIKSGVHQAFLTNNSARGCTRFVAELGNDPSNISETITVIGNDFSQNLSATNGIYARYINRLKMDMNQIENTGAQVVYGLDIDTVYSGPGDRFGNNTVADFHVRFDSCRDLTLLGDYSSTDYTQWVTATAVPVGAKRWNGANAYVAEAAGTTGATAPTHTSGTVSDGGVNWRYIGKRRIAAAAVALRGTAAALVRMGGTTRTNSTSTAHGIDFSPSPTRWEWSDIDAGTATLAAGTVTVNITDNRRQVDGNYRVLVTGTVNETFYVSARAASNFTITSSNAASTATVMWKIFR GAASIGYKRESGARLRTTADMFKDHLNLKEYCPGDGTNQTTAFNAAIARAVSEGISRIIVPAGHYLVTDLSVTANGLVFEGQGESSRIQVASNNSRCFSLSGDRLTFRGLKFIGDGTASASANGIGILAGDATDLLVEDVWFDSFGFGGVNAGFTTLARGPKFIRTRHRNTGTGGAEIYLRGLYEGADVIDIDAATSNADWAVFAFDEGYAGQRDLEVTRGDFSGYKRYSIGVSDENPSGEDRGFGVKINGGHHKNAGLGAVKVKNYRGVLIQGVTTDNCGIVPIAGISNTGESGTFYINSAGLVDIGGCKLRDNGMDGITVIQGAARNQYIVHDNQIDGCGTASYAGTGTGFRIKSGVHQAFLTNNSARGCTRFVAELGNDPSNISETITVIGNDFSQNLSATNGIYARYINRLKMDMNQIENTGAQVVYGLDIDTVYSGPGDRFGNNTVADFHVRFDSCRDLTLLGDYSSTDYTQWVTATAVPVGAKRWNGANAYVAEAAGTTGATAPTHTSGTVSDGGVNWRYIGKRRIAAAAVALRGTAAALVRMGGTTRTNSTSTAHGIDFSPSPTRWEWSDIDAGTATLAAGTVTVNITDNRRQVDGNYRVLVTGTVNETFYVSARAASNFTITSSNAASTATVMWKIFR 7eeh-a1-m1-cA_7eeh-a1-m1-cD Selenomethionine labeled Fe(II)/(alpha)ketoglutarate-dependent dioxygenase TqaL Q8X0D9 Q8X0D9 2 X-RAY DIFFRACTION 32 0.996 5141 (Neurospora crassa) 5141 (Neurospora crassa) 261 261 7eeh-a1-m1-cB_7eeh-a1-m1-cC RVFNPSYYTAIAEIKLRSKYITNRSIFVEGSDVPLLLGLGATRADLDALQRVSNNLYSDPTLPFRRSRNGRFCFDFSTRSVRRLEFQPVFDEVQDELQLNTAFQALLVFKGICHGVQTTHRPRLDYSSDKWVCTLFNLRTVTTPLEGVHTDGVDHTTTYLGSKNDLAANSAVTFHDNEETGAKYTEIKPQNLRSRVQHRHFLDTLLLVDTENKHSLSPVLPLDETKEATRDLIFFTRRPVKKGNIDSFRPHEELPEVPLFL RVFNPSYYTAIAEIKLRSKYITNRSIFVEGSDVPLLLGLGATRADLDALQRVSNNLYSDPTLPFRRSRNGRFCFDFSTRSVRRLEFQPRVFDEVQDELQLNTAFQALLVFKGICHGVQTTHRPRLDYSSDKWVCTLFNLRTVTTPLEGVHTDGVDHTTTYLGSKNDLAANSAVTFHDNEETGAKYTEIKPQNLRSRVQHRHFLDTLLLVDTENKHSLSPVLPLDETKEATRDLIFFTRRPVKKGNIDSFRPHEELPEVPLF 7eeh-a1-m1-cD_7eeh-a1-m1-cB Selenomethionine labeled Fe(II)/(alpha)ketoglutarate-dependent dioxygenase TqaL Q8X0D9 Q8X0D9 2 X-RAY DIFFRACTION 31 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 261 262 7eeh-a1-m1-cA_7eeh-a1-m1-cC RVFNPSYYTAIAEIKLRSKYITNRSIFVEGSDVPLLLGLGATRADLDALQRVSNNLYSDPTLPFRRSRNGRFCFDFSTRSVRRLEFQPRVFDEVQDELQLNTAFQALLVFKGICHGVQTTHRPRLDYSSDKWVCTLFNLRTVTTPLEGVHTDGVDHTTTYLGSKNDLAANSAVTFHDNEETGAKYTEIKPQNLRSRVQHRHFLDTLLLVDTENKHSLSPVLPLDETKEATRDLIFFTRRPVKKGNIDSFRPHEELPEVPLF RVFNPSYYTAIAEIKLRSKYITNRSIFVEGSDVPLLLGLGATRADLDALQRVSNNLYSDPTLPFRRSRNGRFCFDFSTRSVRRLEFQPRVFDEVQDELQLNTAFQALLVFKGICHGVQTTHRPRLDYSSDKWVCTLFNLRTVTTPLEGVHTDGVDHTTTYLGSKNDLAANSAVTFHDNEETGAKYTEIKPQNLRSRVQHRHFLDTLLLVDTENKHSLSPVLPLDETKEATRDLIFFTRRPVKKGNIDSFRPHEELPEVPLFL 7eel-a1-m51-cC_7eel-a1-m9-cD Cyanophage Pam1 capsid asymmetric unit 3.26 ELECTRON MICROSCOPY 11 1.0 32644 (unidentified) 32644 (unidentified) 365 365 7eel-a1-m10-cA_7eel-a1-m6-cG 7eel-a1-m10-cB_7eel-a1-m25-cE 7eel-a1-m10-cB_7eel-a1-m6-cD 7eel-a1-m10-cC_7eel-a1-m55-cD 7eel-a1-m10-cD_7eel-a1-m25-cC 7eel-a1-m10-cD_7eel-a1-m9-cB 7eel-a1-m10-cE_7eel-a1-m55-cB 7eel-a1-m10-cG_7eel-a1-m9-cA 7eel-a1-m11-cA_7eel-a1-m12-cG 7eel-a1-m11-cB_7eel-a1-m12-cD 7eel-a1-m11-cB_7eel-a1-m17-cE 7eel-a1-m11-cC_7eel-a1-m29-cD 7eel-a1-m11-cD_7eel-a1-m15-cB 7eel-a1-m11-cD_7eel-a1-m17-cC 7eel-a1-m11-cE_7eel-a1-m29-cB 7eel-a1-m11-cG_7eel-a1-m15-cA 7eel-a1-m12-cA_7eel-a1-m13-cG 7eel-a1-m12-cB_7eel-a1-m13-cD 7eel-a1-m12-cB_7eel-a1-m39-cE 7eel-a1-m12-cC_7eel-a1-m16-cD 7eel-a1-m12-cD_7eel-a1-m39-cC 7eel-a1-m12-cE_7eel-a1-m16-cB 7eel-a1-m13-cA_7eel-a1-m14-cG 7eel-a1-m13-cB_7eel-a1-m14-cD 7eel-a1-m13-cB_7eel-a1-m48-cE 7eel-a1-m13-cC_7eel-a1-m38-cD 7eel-a1-m13-cD_7eel-a1-m48-cC 7eel-a1-m13-cE_7eel-a1-m38-cB 7eel-a1-m14-cA_7eel-a1-m15-cG 7eel-a1-m14-cB_7eel-a1-m15-cD 7eel-a1-m14-cB_7eel-a1-m41-cE 7eel-a1-m14-cC_7eel-a1-m47-cD 7eel-a1-m14-cD_7eel-a1-m41-cC 7eel-a1-m14-cE_7eel-a1-m47-cB 7eel-a1-m15-cB_7eel-a1-m30-cE 7eel-a1-m15-cC_7eel-a1-m45-cD 7eel-a1-m15-cD_7eel-a1-m30-cC 7eel-a1-m15-cE_7eel-a1-m45-cB 7eel-a1-m16-cA_7eel-a1-m17-cG 7eel-a1-m16-cB_7eel-a1-m17-cD 7eel-a1-m16-cC_7eel-a1-m39-cD 7eel-a1-m16-cD_7eel-a1-m20-cB 7eel-a1-m16-cE_7eel-a1-m39-cB 7eel-a1-m16-cG_7eel-a1-m20-cA 7eel-a1-m17-cA_7eel-a1-m18-cG 7eel-a1-m17-cB_7eel-a1-m18-cD 7eel-a1-m17-cB_7eel-a1-m29-cE 7eel-a1-m17-cD_7eel-a1-m29-cC 7eel-a1-m18-cA_7eel-a1-m19-cG 7eel-a1-m18-cB_7eel-a1-m19-cD 7eel-a1-m18-cB_7eel-a1-m53-cE 7eel-a1-m18-cC_7eel-a1-m28-cD 7eel-a1-m18-cD_7eel-a1-m53-cC 7eel-a1-m18-cE_7eel-a1-m28-cB 7eel-a1-m19-cA_7eel-a1-m20-cG 7eel-a1-m19-cB_7eel-a1-m20-cD 7eel-a1-m19-cB_7eel-a1-m56-cE 7eel-a1-m19-cC_7eel-a1-m52-cD 7eel-a1-m19-cD_7eel-a1-m56-cC 7eel-a1-m19-cE_7eel-a1-m52-cB 7eel-a1-m1-cA_7eel-a1-m2-cG 7eel-a1-m1-cB_7eel-a1-m2-cD 7eel-a1-m1-cB_7eel-a1-m7-cE 7eel-a1-m1-cC_7eel-a1-m34-cD 7eel-a1-m1-cD_7eel-a1-m5-cB 7eel-a1-m1-cD_7eel-a1-m7-cC 7eel-a1-m1-cE_7eel-a1-m34-cB 7eel-a1-m1-cG_7eel-a1-m5-cA 7eel-a1-m20-cB_7eel-a1-m40-cE 7eel-a1-m20-cC_7eel-a1-m60-cD 7eel-a1-m20-cD_7eel-a1-m40-cC 7eel-a1-m20-cE_7eel-a1-m60-cB 7eel-a1-m21-cA_7eel-a1-m22-cG 7eel-a1-m21-cB_7eel-a1-m22-cD 7eel-a1-m21-cB_7eel-a1-m27-cE 7eel-a1-m21-cC_7eel-a1-m54-cD 7eel-a1-m21-cD_7eel-a1-m25-cB 7eel-a1-m21-cD_7eel-a1-m27-cC 7eel-a1-m21-cE_7eel-a1-m54-cB 7eel-a1-m21-cG_7eel-a1-m25-cA 7eel-a1-m22-cA_7eel-a1-m23-cG 7eel-a1-m22-cB_7eel-a1-m23-cD 7eel-a1-m22-cB_7eel-a1-m44-cE 7eel-a1-m22-cC_7eel-a1-m26-cD 7eel-a1-m22-cD_7eel-a1-m44-cC 7eel-a1-m22-cE_7eel-a1-m26-cB 7eel-a1-m23-cA_7eel-a1-m24-cG 7eel-a1-m23-cB_7eel-a1-m24-cD 7eel-a1-m23-cB_7eel-a1-m3-cE 7eel-a1-m23-cC_7eel-a1-m43-cD 7eel-a1-m23-cD_7eel-a1-m3-cC 7eel-a1-m23-cE_7eel-a1-m43-cB 7eel-a1-m24-cA_7eel-a1-m25-cG 7eel-a1-m24-cB_7eel-a1-m25-cD 7eel-a1-m24-cB_7eel-a1-m6-cE 7eel-a1-m24-cD_7eel-a1-m6-cC 7eel-a1-m25-cB_7eel-a1-m55-cE 7eel-a1-m25-cD_7eel-a1-m55-cC 7eel-a1-m26-cA_7eel-a1-m27-cG 7eel-a1-m26-cB_7eel-a1-m27-cD 7eel-a1-m26-cC_7eel-a1-m44-cD 7eel-a1-m26-cD_7eel-a1-m30-cB 7eel-a1-m26-cE_7eel-a1-m44-cB 7eel-a1-m26-cG_7eel-a1-m30-cA 7eel-a1-m27-cA_7eel-a1-m28-cG 7eel-a1-m27-cB_7eel-a1-m28-cD 7eel-a1-m27-cB_7eel-a1-m54-cE 7eel-a1-m27-cD_7eel-a1-m54-cC 7eel-a1-m28-cA_7eel-a1-m29-cG 7eel-a1-m28-cB_7eel-a1-m29-cD 7eel-a1-m28-cC_7eel-a1-m53-cD 7eel-a1-m28-cE_7eel-a1-m53-cB 7eel-a1-m29-cA_7eel-a1-m30-cG 7eel-a1-m29-cB_7eel-a1-m30-cD 7eel-a1-m2-cA_7eel-a1-m3-cG 7eel-a1-m2-cB_7eel-a1-m24-cE 7eel-a1-m2-cB_7eel-a1-m3-cD 7eel-a1-m2-cC_7eel-a1-m6-cD 7eel-a1-m2-cD_7eel-a1-m24-cC 7eel-a1-m2-cE_7eel-a1-m6-cB 7eel-a1-m30-cB_7eel-a1-m45-cE 7eel-a1-m30-cD_7eel-a1-m45-cC 7eel-a1-m31-cA_7eel-a1-m32-cG 7eel-a1-m31-cB_7eel-a1-m32-cD 7eel-a1-m31-cB_7eel-a1-m37-cE 7eel-a1-m31-cC_7eel-a1-m49-cD 7eel-a1-m31-cD_7eel-a1-m35-cB 7eel-a1-m31-cD_7eel-a1-m37-cC 7eel-a1-m31-cE_7eel-a1-m49-cB 7eel-a1-m31-cG_7eel-a1-m35-cA 7eel-a1-m32-cA_7eel-a1-m33-cG 7eel-a1-m32-cB_7eel-a1-m33-cD 7eel-a1-m32-cB_7eel-a1-m59-cE 7eel-a1-m32-cC_7eel-a1-m36-cD 7eel-a1-m32-cD_7eel-a1-m59-cC 7eel-a1-m32-cE_7eel-a1-m36-cB 7eel-a1-m33-cA_7eel-a1-m34-cG 7eel-a1-m33-cB_7eel-a1-m34-cD 7eel-a1-m33-cB_7eel-a1-m8-cE 7eel-a1-m33-cC_7eel-a1-m58-cD 7eel-a1-m33-cD_7eel-a1-m8-cC 7eel-a1-m33-cE_7eel-a1-m58-cB 7eel-a1-m34-cA_7eel-a1-m35-cG 7eel-a1-m34-cB_7eel-a1-m35-cD 7eel-a1-m34-cC_7eel-a1-m7-cD 7eel-a1-m34-cE_7eel-a1-m7-cB 7eel-a1-m35-cB_7eel-a1-m50-cE 7eel-a1-m35-cC_7eel-a1-m5-cD 7eel-a1-m35-cD_7eel-a1-m50-cC 7eel-a1-m35-cE_7eel-a1-m5-cB 7eel-a1-m36-cA_7eel-a1-m37-cG 7eel-a1-m36-cB_7eel-a1-m37-cD 7eel-a1-m36-cC_7eel-a1-m59-cD 7eel-a1-m36-cD_7eel-a1-m40-cB 7eel-a1-m36-cE_7eel-a1-m59-cB 7eel-a1-m36-cG_7eel-a1-m40-cA 7eel-a1-m37-cA_7eel-a1-m38-cG 7eel-a1-m37-cB_7eel-a1-m38-cD 7eel-a1-m37-cB_7eel-a1-m49-cE 7eel-a1-m37-cD_7eel-a1-m49-cC 7eel-a1-m38-cA_7eel-a1-m39-cG 7eel-a1-m38-cB_7eel-a1-m39-cD 7eel-a1-m38-cC_7eel-a1-m48-cD 7eel-a1-m38-cE_7eel-a1-m48-cB 7eel-a1-m39-cA_7eel-a1-m40-cG 7eel-a1-m39-cB_7eel-a1-m40-cD 7eel-a1-m3-cA_7eel-a1-m4-cG 7eel-a1-m3-cB_7eel-a1-m43-cE 7eel-a1-m3-cB_7eel-a1-m4-cD 7eel-a1-m3-cD_7eel-a1-m43-cC 7eel-a1-m40-cB_7eel-a1-m60-cE 7eel-a1-m40-cD_7eel-a1-m60-cC 7eel-a1-m41-cA_7eel-a1-m42-cG 7eel-a1-m41-cB_7eel-a1-m42-cD 7eel-a1-m41-cB_7eel-a1-m47-cE 7eel-a1-m41-cD_7eel-a1-m45-cB 7eel-a1-m41-cD_7eel-a1-m47-cC 7eel-a1-m41-cG_7eel-a1-m45-cA 7eel-a1-m42-cA_7eel-a1-m43-cG 7eel-a1-m42-cB_7eel-a1-m43-cD 7eel-a1-m42-cC_7eel-a1-m46-cD 7eel-a1-m42-cE_7eel-a1-m46-cB 7eel-a1-m43-cA_7eel-a1-m44-cG 7eel-a1-m43-cB_7eel-a1-m44-cD 7eel-a1-m44-cA_7eel-a1-m45-cG 7eel-a1-m44-cB_7eel-a1-m45-cD 7eel-a1-m46-cA_7eel-a1-m47-cG 7eel-a1-m46-cB_7eel-a1-m47-cD 7eel-a1-m46-cD_7eel-a1-m50-cB 7eel-a1-m46-cG_7eel-a1-m50-cA 7eel-a1-m47-cA_7eel-a1-m48-cG 7eel-a1-m47-cB_7eel-a1-m48-cD 7eel-a1-m48-cA_7eel-a1-m49-cG 7eel-a1-m48-cB_7eel-a1-m49-cD 7eel-a1-m49-cA_7eel-a1-m50-cG 7eel-a1-m49-cB_7eel-a1-m50-cD 7eel-a1-m4-cA_7eel-a1-m5-cG 7eel-a1-m4-cB_7eel-a1-m46-cE 7eel-a1-m4-cB_7eel-a1-m5-cD 7eel-a1-m4-cC_7eel-a1-m42-cD 7eel-a1-m4-cD_7eel-a1-m46-cC 7eel-a1-m4-cE_7eel-a1-m42-cB 7eel-a1-m51-cA_7eel-a1-m52-cG 7eel-a1-m51-cB_7eel-a1-m52-cD 7eel-a1-m51-cB_7eel-a1-m57-cE 7eel-a1-m51-cD_7eel-a1-m55-cB 7eel-a1-m51-cD_7eel-a1-m57-cC 7eel-a1-m51-cE_7eel-a1-m9-cB 7eel-a1-m51-cG_7eel-a1-m55-cA 7eel-a1-m52-cA_7eel-a1-m53-cG 7eel-a1-m52-cB_7eel-a1-m53-cD 7eel-a1-m52-cC_7eel-a1-m56-cD 7eel-a1-m52-cE_7eel-a1-m56-cB 7eel-a1-m53-cA_7eel-a1-m54-cG 7eel-a1-m53-cB_7eel-a1-m54-cD 7eel-a1-m54-cA_7eel-a1-m55-cG 7eel-a1-m54-cB_7eel-a1-m55-cD 7eel-a1-m56-cA_7eel-a1-m57-cG 7eel-a1-m56-cB_7eel-a1-m57-cD 7eel-a1-m56-cD_7eel-a1-m60-cB 7eel-a1-m56-cG_7eel-a1-m60-cA 7eel-a1-m57-cA_7eel-a1-m58-cG 7eel-a1-m57-cB_7eel-a1-m58-cD 7eel-a1-m57-cB_7eel-a1-m9-cE 7eel-a1-m57-cD_7eel-a1-m9-cC 7eel-a1-m58-cA_7eel-a1-m59-cG 7eel-a1-m58-cB_7eel-a1-m59-cD 7eel-a1-m58-cC_7eel-a1-m8-cD 7eel-a1-m58-cE_7eel-a1-m8-cB 7eel-a1-m59-cA_7eel-a1-m60-cG 7eel-a1-m59-cB_7eel-a1-m60-cD 7eel-a1-m5-cC_7eel-a1-m50-cD 7eel-a1-m5-cE_7eel-a1-m50-cB 7eel-a1-m6-cA_7eel-a1-m7-cG 7eel-a1-m6-cB_7eel-a1-m7-cD 7eel-a1-m7-cA_7eel-a1-m8-cG 7eel-a1-m7-cB_7eel-a1-m8-cD 7eel-a1-m8-cA_7eel-a1-m9-cG 7eel-a1-m8-cB_7eel-a1-m9-cD MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD 7eel-a1-m55-cA_7eel-a1-m9-cA Cyanophage Pam1 capsid asymmetric unit 3.26 ELECTRON MICROSCOPY 179 1.0 32644 (unidentified) 32644 (unidentified) 365 365 7eel-a1-m10-cA_7eel-a1-m24-cA 7eel-a1-m11-cA_7eel-a1-m16-cA 7eel-a1-m12-cA_7eel-a1-m38-cA 7eel-a1-m13-cA_7eel-a1-m47-cA 7eel-a1-m14-cA_7eel-a1-m45-cA 7eel-a1-m15-cA_7eel-a1-m29-cA 7eel-a1-m17-cA_7eel-a1-m28-cA 7eel-a1-m18-cA_7eel-a1-m52-cA 7eel-a1-m19-cA_7eel-a1-m60-cA 7eel-a1-m1-cA_7eel-a1-m6-cA 7eel-a1-m20-cA_7eel-a1-m39-cA 7eel-a1-m21-cA_7eel-a1-m26-cA 7eel-a1-m22-cA_7eel-a1-m43-cA 7eel-a1-m25-cA_7eel-a1-m54-cA 7eel-a1-m27-cA_7eel-a1-m53-cA 7eel-a1-m2-cA_7eel-a1-m23-cA 7eel-a1-m30-cA_7eel-a1-m44-cA 7eel-a1-m31-cA_7eel-a1-m36-cA 7eel-a1-m32-cA_7eel-a1-m58-cA 7eel-a1-m33-cA_7eel-a1-m7-cA 7eel-a1-m34-cA_7eel-a1-m5-cA 7eel-a1-m35-cA_7eel-a1-m49-cA 7eel-a1-m37-cA_7eel-a1-m48-cA 7eel-a1-m3-cA_7eel-a1-m42-cA 7eel-a1-m40-cA_7eel-a1-m59-cA 7eel-a1-m41-cA_7eel-a1-m46-cA 7eel-a1-m4-cA_7eel-a1-m50-cA 7eel-a1-m51-cA_7eel-a1-m56-cA 7eel-a1-m57-cA_7eel-a1-m8-cA 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7eel-a1-m59-cK_7eel-a1-m59-cL 7eel-a1-m59-cK_7eel-a1-m59-cM 7eel-a1-m59-cL_7eel-a1-m59-cM 7eel-a1-m5-cH_7eel-a1-m5-cI 7eel-a1-m5-cH_7eel-a1-m5-cJ 7eel-a1-m5-cI_7eel-a1-m5-cJ 7eel-a1-m5-cK_7eel-a1-m5-cL 7eel-a1-m5-cK_7eel-a1-m5-cM 7eel-a1-m5-cL_7eel-a1-m5-cM 7eel-a1-m5-cN_7eel-a1-m50-cN 7eel-a1-m60-cH_7eel-a1-m60-cI 7eel-a1-m60-cH_7eel-a1-m60-cJ 7eel-a1-m60-cI_7eel-a1-m60-cJ 7eel-a1-m60-cK_7eel-a1-m60-cL 7eel-a1-m60-cK_7eel-a1-m60-cM 7eel-a1-m60-cL_7eel-a1-m60-cM 7eel-a1-m6-cH_7eel-a1-m6-cI 7eel-a1-m6-cH_7eel-a1-m6-cJ 7eel-a1-m6-cI_7eel-a1-m6-cJ 7eel-a1-m6-cK_7eel-a1-m6-cL 7eel-a1-m6-cK_7eel-a1-m6-cM 7eel-a1-m6-cL_7eel-a1-m6-cM 7eel-a1-m7-cH_7eel-a1-m7-cI 7eel-a1-m7-cH_7eel-a1-m7-cJ 7eel-a1-m7-cI_7eel-a1-m7-cJ 7eel-a1-m7-cK_7eel-a1-m7-cL 7eel-a1-m7-cK_7eel-a1-m7-cM 7eel-a1-m7-cL_7eel-a1-m7-cM 7eel-a1-m8-cH_7eel-a1-m8-cI 7eel-a1-m8-cH_7eel-a1-m8-cJ 7eel-a1-m8-cI_7eel-a1-m8-cJ 7eel-a1-m8-cK_7eel-a1-m8-cL 7eel-a1-m8-cK_7eel-a1-m8-cM 7eel-a1-m8-cL_7eel-a1-m8-cM 7eel-a1-m9-cH_7eel-a1-m9-cI 7eel-a1-m9-cH_7eel-a1-m9-cJ 7eel-a1-m9-cI_7eel-a1-m9-cJ 7eel-a1-m9-cK_7eel-a1-m9-cL 7eel-a1-m9-cK_7eel-a1-m9-cM 7eel-a1-m9-cL_7eel-a1-m9-cM MPATNSAQARLAAPGHGFGGNVKVSYGSVAFTGTITTADAATVCNLPVGAIVLGVTLESDDLDTNATPTITLNVGDAGSATRYFSASTVAQAGTSSSAPATTGLLWTVTEGNTAVRIAVANNAATSADGSVRVAVTYYLP MPATNSAQARLAAPGHGFGGNVKVSYGSVAFTGTITTADAATVCNLPVGAIVLGVTLESDDLDTNATPTITLNVGDAGSATRYFSASTVAQAGTSSSAPATTGLLWTVTEGNTAVRIAVANNAATSADGSVRVAVTYYLP 7eel-a1-m7-cG_7eel-a1-m9-cG Cyanophage Pam1 capsid asymmetric unit 3.26 ELECTRON MICROSCOPY 29 1.0 32644 (unidentified) 32644 (unidentified) 365 365 7eel-a1-m10-cG_7eel-a1-m7-cG 7eel-a1-m10-cG_7eel-a1-m8-cG 7eel-a1-m11-cG_7eel-a1-m13-cG 7eel-a1-m11-cG_7eel-a1-m14-cG 7eel-a1-m12-cG_7eel-a1-m14-cG 7eel-a1-m12-cG_7eel-a1-m15-cG 7eel-a1-m13-cG_7eel-a1-m15-cG 7eel-a1-m16-cG_7eel-a1-m18-cG 7eel-a1-m16-cG_7eel-a1-m19-cG 7eel-a1-m17-cG_7eel-a1-m19-cG 7eel-a1-m17-cG_7eel-a1-m20-cG 7eel-a1-m18-cG_7eel-a1-m20-cG 7eel-a1-m1-cG_7eel-a1-m3-cG 7eel-a1-m1-cG_7eel-a1-m4-cG 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7eel-a1-m51-cG_7eel-a1-m53-cG 7eel-a1-m51-cG_7eel-a1-m54-cG 7eel-a1-m52-cG_7eel-a1-m54-cG 7eel-a1-m52-cG_7eel-a1-m55-cG 7eel-a1-m53-cG_7eel-a1-m55-cG 7eel-a1-m56-cG_7eel-a1-m58-cG 7eel-a1-m56-cG_7eel-a1-m59-cG 7eel-a1-m57-cG_7eel-a1-m59-cG 7eel-a1-m57-cG_7eel-a1-m60-cG 7eel-a1-m58-cG_7eel-a1-m60-cG 7eel-a1-m6-cG_7eel-a1-m8-cG 7eel-a1-m6-cG_7eel-a1-m9-cG MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD 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7eel-a1-m9-cA_7eel-a1-m9-cB 7eel-a1-m9-cA_7eel-a1-m9-cF 7eel-a1-m9-cB_7eel-a1-m9-cC 7eel-a1-m9-cD_7eel-a1-m9-cE 7eel-a1-m9-cE_7eel-a1-m9-cF MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD 7eel-a1-m9-cE_7eel-a1-m9-cG Cyanophage Pam1 capsid asymmetric unit 3.26 ELECTRON MICROSCOPY 53 1.0 32644 (unidentified) 32644 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7eel-a1-m58-cE_7eel-a1-m58-cG 7eel-a1-m58-cF_7eel-a1-m59-cE 7eel-a1-m58-cF_7eel-a1-m59-cG 7eel-a1-m59-cA_7eel-a1-m60-cD 7eel-a1-m59-cE_7eel-a1-m59-cG 7eel-a1-m59-cF_7eel-a1-m60-cE 7eel-a1-m59-cF_7eel-a1-m60-cG 7eel-a1-m5-cC_7eel-a1-m50-cC 7eel-a1-m5-cD_7eel-a1-m50-cB 7eel-a1-m5-cE_7eel-a1-m5-cG 7eel-a1-m60-cE_7eel-a1-m60-cG 7eel-a1-m6-cA_7eel-a1-m7-cD 7eel-a1-m6-cE_7eel-a1-m6-cG 7eel-a1-m6-cF_7eel-a1-m7-cE 7eel-a1-m6-cF_7eel-a1-m7-cG 7eel-a1-m7-cA_7eel-a1-m8-cD 7eel-a1-m7-cE_7eel-a1-m7-cG 7eel-a1-m7-cF_7eel-a1-m8-cE 7eel-a1-m7-cF_7eel-a1-m8-cG 7eel-a1-m8-cA_7eel-a1-m9-cD 7eel-a1-m8-cE_7eel-a1-m8-cG 7eel-a1-m8-cF_7eel-a1-m9-cE 7eel-a1-m8-cF_7eel-a1-m9-cG MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD MADFSLATASQRKEWSNKAHMEYVRRSRFAPYIRNTENSIFQGYSDLEKRAGDTLNIPLFYKLGGAPVTGDTPIVGNETPLDNYNCGVPVALRGKGVAITKNQTFRTEIDVMNAAKQSLTRYFGELLRDDIIEALGSVVTTGDTTVNYGSASAANRNAFSAANPDRLFFGSISGYSATWATGLGNVDAAETCTAARVGVMKRLAMSASPAITPMQVDDDEGREYFVAFHGSRTFRDLKGDTAMLNANREARPRDVSSNPLLQDGDLIYEGVIHREVPEIDAWAAANGFNTAGAGSAPIRPVFLCGTQSVFLAYAQRPQAGTEKSDIPALNRRMTVGMDEIIGVKKAAFNGKQHGVVMGFFGAAGD 7eep-a1-m1-cJ_7eep-a1-m1-cL Cyanophage Pam1 portal-adaptor complex 3.75 ELECTRON MICROSCOPY 17 1.0 32644 (unidentified) 32644 (unidentified) 529 529 7eep-a1-m1-cA_7eep-a1-m1-cC 7eep-a1-m1-cA_7eep-a1-m1-cK 7eep-a1-m1-cB_7eep-a1-m1-cD 7eep-a1-m1-cB_7eep-a1-m1-cL 7eep-a1-m1-cC_7eep-a1-m1-cE 7eep-a1-m1-cD_7eep-a1-m1-cF 7eep-a1-m1-cE_7eep-a1-m1-cG 7eep-a1-m1-cF_7eep-a1-m1-cH 7eep-a1-m1-cG_7eep-a1-m1-cI 7eep-a1-m1-cH_7eep-a1-m1-cJ 7eep-a1-m1-cI_7eep-a1-m1-cK TMTMPSHAQLKAYFEEARDANEEYRKEAFIDRDYFDGHQWTEEELQKLEARKQPATYFNEVKLSIRGLVGVFEQGDSDPRAWPRNPQDEDSADIATKALRYVKDYSEWSDERSRAALNYFVEGTCAAIVGVDENGRPEIEPIRFEEFFHDPRSRELDFSDARFKGVAKWRFADEVGMEYGIKGEISKLRRVFVVEMYVRWNGVWIRALFWGRGILEMSVSAYLDRNGKPTCPIEARSCYIDRENRRYGEVRDLRSPQDAINKRESKLLHMLNNRQAIATNPEYAYNSDAEMVRKEMSKPDGIIPPGWQPASMTDLANGQFALLSSAREFIQRIGQNPSVLARAQLARQQAGMVDSAMALNGLRRFELAVYRQAWLRCRQFWKAPDYIRVTDDEGAPQFVGINAEPILGYENALAELDVDINIDAVPDTANLAQEQFLQLTELARLYGPQEVPFDDLLELSSMPEKTKLIAKRRERSEQMAQVQAQQGQMQEQIAMQGAMAEIENTQADTAYLAARAQNEMLKPQIEAFK TMTMPSHAQLKAYFEEARDANEEYRKEAFIDRDYFDGHQWTEEELQKLEARKQPATYFNEVKLSIRGLVGVFEQGDSDPRAWPRNPQDEDSADIATKALRYVKDYSEWSDERSRAALNYFVEGTCAAIVGVDENGRPEIEPIRFEEFFHDPRSRELDFSDARFKGVAKWRFADEVGMEYGIKGEISKLRRVFVVEMYVRWNGVWIRALFWGRGILEMSVSAYLDRNGKPTCPIEARSCYIDRENRRYGEVRDLRSPQDAINKRESKLLHMLNNRQAIATNPEYAYNSDAEMVRKEMSKPDGIIPPGWQPASMTDLANGQFALLSSAREFIQRIGQNPSVLARAQLARQQAGMVDSAMALNGLRRFELAVYRQAWLRCRQFWKAPDYIRVTDDEGAPQFVGINAEPILGYENALAELDVDINIDAVPDTANLAQEQFLQLTELARLYGPQEVPFDDLLELSSMPEKTKLIAKRRERSEQMAQVQAQQGQMQEQIAMQGAMAEIENTQADTAYLAARAQNEMLKPQIEAFK 7eep-a1-m1-cK_7eep-a1-m1-cL Cyanophage Pam1 portal-adaptor complex 3.75 ELECTRON MICROSCOPY 286 1.0 32644 (unidentified) 32644 (unidentified) 529 529 7eep-a1-m1-cA_7eep-a1-m1-cB 7eep-a1-m1-cA_7eep-a1-m1-cL 7eep-a1-m1-cB_7eep-a1-m1-cC 7eep-a1-m1-cC_7eep-a1-m1-cD 7eep-a1-m1-cD_7eep-a1-m1-cE 7eep-a1-m1-cE_7eep-a1-m1-cF 7eep-a1-m1-cF_7eep-a1-m1-cG 7eep-a1-m1-cG_7eep-a1-m1-cH 7eep-a1-m1-cH_7eep-a1-m1-cI 7eep-a1-m1-cI_7eep-a1-m1-cJ 7eep-a1-m1-cJ_7eep-a1-m1-cK TMTMPSHAQLKAYFEEARDANEEYRKEAFIDRDYFDGHQWTEEELQKLEARKQPATYFNEVKLSIRGLVGVFEQGDSDPRAWPRNPQDEDSADIATKALRYVKDYSEWSDERSRAALNYFVEGTCAAIVGVDENGRPEIEPIRFEEFFHDPRSRELDFSDARFKGVAKWRFADEVGMEYGIKGEISKLRRVFVVEMYVRWNGVWIRALFWGRGILEMSVSAYLDRNGKPTCPIEARSCYIDRENRRYGEVRDLRSPQDAINKRESKLLHMLNNRQAIATNPEYAYNSDAEMVRKEMSKPDGIIPPGWQPASMTDLANGQFALLSSAREFIQRIGQNPSVLARAQLARQQAGMVDSAMALNGLRRFELAVYRQAWLRCRQFWKAPDYIRVTDDEGAPQFVGINAEPILGYENALAELDVDINIDAVPDTANLAQEQFLQLTELARLYGPQEVPFDDLLELSSMPEKTKLIAKRRERSEQMAQVQAQQGQMQEQIAMQGAMAEIENTQADTAYLAARAQNEMLKPQIEAFK TMTMPSHAQLKAYFEEARDANEEYRKEAFIDRDYFDGHQWTEEELQKLEARKQPATYFNEVKLSIRGLVGVFEQGDSDPRAWPRNPQDEDSADIATKALRYVKDYSEWSDERSRAALNYFVEGTCAAIVGVDENGRPEIEPIRFEEFFHDPRSRELDFSDARFKGVAKWRFADEVGMEYGIKGEISKLRRVFVVEMYVRWNGVWIRALFWGRGILEMSVSAYLDRNGKPTCPIEARSCYIDRENRRYGEVRDLRSPQDAINKRESKLLHMLNNRQAIATNPEYAYNSDAEMVRKEMSKPDGIIPPGWQPASMTDLANGQFALLSSAREFIQRIGQNPSVLARAQLARQQAGMVDSAMALNGLRRFELAVYRQAWLRCRQFWKAPDYIRVTDDEGAPQFVGINAEPILGYENALAELDVDINIDAVPDTANLAQEQFLQLTELARLYGPQEVPFDDLLELSSMPEKTKLIAKRRERSEQMAQVQAQQGQMQEQIAMQGAMAEIENTQADTAYLAARAQNEMLKPQIEAFK 7eep-a1-m1-cW_7eep-a1-m1-cX Cyanophage Pam1 portal-adaptor complex 3.75 ELECTRON MICROSCOPY 87 1.0 32644 (unidentified) 32644 (unidentified) 182 182 7eep-a1-m1-cM_7eep-a1-m1-cN 7eep-a1-m1-cM_7eep-a1-m1-cV 7eep-a1-m1-cN_7eep-a1-m1-cO 7eep-a1-m1-cO_7eep-a1-m1-cP 7eep-a1-m1-cP_7eep-a1-m1-cQ 7eep-a1-m1-cQ_7eep-a1-m1-cR 7eep-a1-m1-cR_7eep-a1-m1-cT 7eep-a1-m1-cS_7eep-a1-m1-cU 7eep-a1-m1-cS_7eep-a1-m1-cX 7eep-a1-m1-cT_7eep-a1-m1-cU 7eep-a1-m1-cV_7eep-a1-m1-cW MITCRDIITLGLQQARVVPLGREPKAKEADAGLTVLQSIYDSMFADGPLGPFTEVYATSAYTAQENERIVTNGAAITIPQTITEGNETRKPYDLTAIIVINGAAQENHVFSLGRWQTAHDLTLNSEAPLAERDKAGLAALFAMEFAEMFGAELPPRTTARGFRFKGAISQKLATKRDDPVYY MITCRDIITLGLQQARVVPLGREPKAKEADAGLTVLQSIYDSMFADGPLGPFTEVYATSAYTAQENERIVTNGAAITIPQTITEGNETRKPYDLTAIIVINGAAQENHVFSLGRWQTAHDLTLNSEAPLAERDKAGLAALFAMEFAEMFGAELPPRTTARGFRFKGAISQKLATKRDDPVYY 7eeq-a1-m1-c5_7eeq-a1-m1-c6 Cyanophage Pam1 tail machine 3.96 ELECTRON MICROSCOPY 107 1.0 32644 (unidentified) 32644 (unidentified) 442 442 7eeq-a1-m1-c1_7eeq-a1-m1-c2 7eeq-a1-m1-c1_7eeq-a1-m1-c6 7eeq-a1-m1-c2_7eeq-a1-m1-c3 7eeq-a1-m1-c3_7eeq-a1-m1-c4 7eeq-a1-m1-c4_7eeq-a1-m1-c5 MKIPYGLGAYTRNRGNLPPLELINLFVEKSDSQGVILQSRKALVEVADVGAGPVRATFQKDGVFGGDRFTLSGDEFYRGATLLGTVAGGGQARIVSNGLEVLVNAGGLVYSYNGTNFINAGFPEAAATTIAFTGRYFIGLSAGTGEWYFSAVNNGRSWDALDFATAENEPDALLDVLVLDGVLVFFGTESIEFWGFTGDADLPYSPIQQRVFEQGIYATGCAVRVDNSFYWVGKDKIVYRNGDVPQAVSDDGIVEKAEGSTNLTLFVLEDERHKFVCLRGDDFTHPHDVTTGQWCEFKSYGRTNFRATADFGDDETGKIWAWGGYDDEGIIERLFMAGAALEEATQIDNIRLTCEVGTTPNLVGIYTDPTLEMRFSYDAGNTWEDWEAETLGAQGKYRQRVEWRALGMFDDPGALFQFRITDPVSFRLSDVQANAATGGRQR MKIPYGLGAYTRNRGNLPPLELINLFVEKSDSQGVILQSRKALVEVADVGAGPVRATFQKDGVFGGDRFTLSGDEFYRGATLLGTVAGGGQARIVSNGLEVLVNAGGLVYSYNGTNFINAGFPEAAATTIAFTGRYFIGLSAGTGEWYFSAVNNGRSWDALDFATAENEPDALLDVLVLDGVLVFFGTESIEFWGFTGDADLPYSPIQQRVFEQGIYATGCAVRVDNSFYWVGKDKIVYRNGDVPQAVSDDGIVEKAEGSTNLTLFVLEDERHKFVCLRGDDFTHPHDVTTGQWCEFKSYGRTNFRATADFGDDETGKIWAWGGYDDEGIIERLFMAGAALEEATQIDNIRLTCEVGTTPNLVGIYTDPTLEMRFSYDAGNTWEDWEAETLGAQGKYRQRVEWRALGMFDDPGALFQFRITDPVSFRLSDVQANAATGGRQR 7eeq-a1-m1-cQ_7eeq-a1-m1-cR Cyanophage Pam1 tail machine 3.96 ELECTRON MICROSCOPY 73 1.0 32644 (unidentified) 32644 (unidentified) 102 102 7eeq-a1-m1-cA_7eeq-a1-m1-cB 7eeq-a1-m1-cA_7eeq-a1-m1-cC 7eeq-a1-m1-cB_7eeq-a1-m1-cC 7eeq-a1-m1-cD_7eeq-a1-m1-cE 7eeq-a1-m1-cD_7eeq-a1-m1-cF 7eeq-a1-m1-cE_7eeq-a1-m1-cF 7eeq-a1-m1-cG_7eeq-a1-m1-cH 7eeq-a1-m1-cG_7eeq-a1-m1-cI 7eeq-a1-m1-cH_7eeq-a1-m1-cI 7eeq-a1-m1-cJ_7eeq-a1-m1-cK 7eeq-a1-m1-cJ_7eeq-a1-m1-cL 7eeq-a1-m1-cK_7eeq-a1-m1-cL 7eeq-a1-m1-cM_7eeq-a1-m1-cN 7eeq-a1-m1-cM_7eeq-a1-m1-cO 7eeq-a1-m1-cN_7eeq-a1-m1-cO 7eeq-a1-m1-cP_7eeq-a1-m1-cQ 7eeq-a1-m1-cP_7eeq-a1-m1-cR MAAELHITPSRATSSNGLNLDGAKWFFYQTGTTTPQSVYTTAALSVAHSNPVVADAAGKFPAIYFDTTLEYRGVLKTADEATTIYDIDPINSGILSVLGTSS MAAELHITPSRATSSNGLNLDGAKWFFYQTGTTTPQSVYTTAALSVAHSNPVVADAAGKFPAIYFDTTLEYRGVLKTADEATTIYDIDPINSGILSVLGTSS 7eew-a1-m1-cA_7eew-a1-m2-cA Crystal structure of the intact MTase from Vibrio vulnificus YJ016 in complex with the DNA-mimicking Ocr protein and the S-adenosyl-L-homocysteine (SAH) Q7MJG0 Q7MJG0 2.896 X-RAY DIFFRACTION 119 1.0 196600 (Vibrio vulnificus YJ016) 196600 (Vibrio vulnificus YJ016) 610 610 NKLMNIIELIRKDTGINNAIDAVEQLALLLLVRYTHEVASNEISKENHIDSFKNLFFDLNVIDFYTLRDKLNHIVVNCRFSFSRNNWEKIENILDQIPFRIRSTKILDLVIHRLEELDLSEGIEIDFDHLLLNMVKDSGSSGAYYSPRPLIKAMVRVLNPKPLATVYDPAMGTGGVFVEAKKHAKGGLSFIGNDLSPFAHLIGALNLLLNDIDISGVSISDSLLDRDCQQYDFVISGVPFGKVNELTKYEYYYHGYSGSLEAMFLKHTMDKLAKGGRAAIVIPDGILFGNASHLDELKRQLLTQFNLHAVLSLPKGTLAPYSGVKVSVLFFDNTVSEKDIWFYELRTNKPLSKVNSITDSDFEDFTSLYERREVSENSCLISKESLLQDKTLNLSFSLPKFDKQEMIASLKSEQLSLVTSIENHFDYMSLNLECKYIHQVKLKDICKLRSGDKLNKSEVMDSGEFPVYGGNGVIGFNVEPNRHGDSIVIGKVGAHCGNIHFSTQPYWLTSNAMSLELLDTTKVYLPYLAHVLKSLELNNLATGTAQKFISINKLYEVEVSLPSLEKQREMSEWFTSIEESKSKIQSLLADFSRNLGTISTESITEKALKG NKLMNIIELIRKDTGINNAIDAVEQLALLLLVRYTHEVASNEISKENHIDSFKNLFFDLNVIDFYTLRDKLNHIVVNCRFSFSRNNWEKIENILDQIPFRIRSTKILDLVIHRLEELDLSEGIEIDFDHLLLNMVKDSGSSGAYYSPRPLIKAMVRVLNPKPLATVYDPAMGTGGVFVEAKKHAKGGLSFIGNDLSPFAHLIGALNLLLNDIDISGVSISDSLLDRDCQQYDFVISGVPFGKVNELTKYEYYYHGYSGSLEAMFLKHTMDKLAKGGRAAIVIPDGILFGNASHLDELKRQLLTQFNLHAVLSLPKGTLAPYSGVKVSVLFFDNTVSEKDIWFYELRTNKPLSKVNSITDSDFEDFTSLYERREVSENSCLISKESLLQDKTLNLSFSLPKFDKQEMIASLKSEQLSLVTSIENHFDYMSLNLECKYIHQVKLKDICKLRSGDKLNKSEVMDSGEFPVYGGNGVIGFNVEPNRHGDSIVIGKVGAHCGNIHFSTQPYWLTSNAMSLELLDTTKVYLPYLAHVLKSLELNNLATGTAQKFISINKLYEVEVSLPSLEKQREMSEWFTSIEESKSKIQSLLADFSRNLGTISTESITEKALKG 7eey-a1-m1-cB_7eey-a1-m3-cD The structure of the N-terminal doamin of the Schizosaccharomyces pombe Tad2 adenosine deaminase O94642 O94642 2.6 X-RAY DIFFRACTION 49 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 194 196 7eey-a1-m2-cA_7eey-a1-m1-cC KSAIIGIAGGPFSGKTQLCEQLLERLKSSAPSTFSKLIHLTSFLYPNSVDRYALSSYDIEAFKKVLSLISQGAEKICLPDGSCIKLPVDQNRIILIEGYYLLLPELLPYYTSKIFVYEDADTRLERCVLQRVKAEKGDLTKVLNDFVTLSKPAYDSSIHPTRENADIILPQKENIDTALLFVSQHLQDILAEMN SVKSAIIGIAGGPFSGKTQLCEQLLERLKSSAPSTFSKLIHLTSFLYPNSVDRYALSSYDIEAFKKVLSLISQGAEKICLPDGSCIKLPVDQNRIILIEGYYLLLPELLPYYTSKIFVYEDADTRLERCVLQRVKAEKGDLTKVLNDFVTLSKPAYDSSIHPTRENADIILPQKENIDTALLFVSQHLQDILAEMN 7eey-a1-m2-cA_7eey-a1-m3-cD The structure of the N-terminal doamin of the Schizosaccharomyces pombe Tad2 adenosine deaminase O94642 O94642 2.6 X-RAY DIFFRACTION 49 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 193 196 7eey-a1-m1-cB_7eey-a1-m1-cC VKSAIIGIAGGPFSGKTQLCEQLLERLKSSAPSTFSKLIHLTSFLYPNSVDRYALSSYDIEAFKKVLSLISQGAEKICLPDGSCIKLPVDQNRIILIEGYYLLLPELLPYYTSKIFVYEDADTRLERCVLQRVKAEKGDLTKVLNDFVTLSKPAYDSSIHPTRENADIILPQKEDTALLFVSQHLQDILAEMN SVKSAIIGIAGGPFSGKTQLCEQLLERLKSSAPSTFSKLIHLTSFLYPNSVDRYALSSYDIEAFKKVLSLISQGAEKICLPDGSCIKLPVDQNRIILIEGYYLLLPELLPYYTSKIFVYEDADTRLERCVLQRVKAEKGDLTKVLNDFVTLSKPAYDSSIHPTRENADIILPQKENIDTALLFVSQHLQDILAEMN 7efs-a1-m1-cA_7efs-a1-m1-cD Fructose-bisphosphate aldolase in Artemisia sieversiana pollen A0A2U1QAU9 A0A2U1QAU9 2.5 X-RAY DIFFRACTION 58 1.0 205378 (Artemisia sieversiana) 205378 (Artemisia sieversiana) 339 340 7efs-a1-m1-cB_7efs-a1-m1-cC MSCYMGKYADELIANAAYIGTPGKGILAADESTGTIGKRFDSIKVENVESNRRALRELLFCTPGALDYLSGIILFEETLYQKTASGKPFVDVMKEANVLPGIKVDKGTVELAGTNGETTTQGLDGLGARCAQYYAAGARFAKWRAVLKIGANEPSQLAINENANGLARYAIICQENGLVPIVEPEILVDGPHDINKCADVTERVLAACYKALNDHHVLLEGTLLKPNMVTPGSDAKKVAPEVVAEYTVRALQRTMPPAVPAVVFLSGGQSEEEATVHLNAMNKLQGKKPWTLTFSFGRALQQSTLKAWAGKEENVQKAQEVFLIRCKANSEATLGKYTG MSCYMGKYADELIANAAYIGTPGKGILAADESTGTIGKRFDSIKVENVESNRRALRELLFCTPGALDYLSGIILFEETLYQKTASGKPFVDVMKEANVLPGIKVDKGTVELAGTNGETTTQGLDGLGARCAQYYAAGARFAKWRAVLKIGANEPSQLAINENANGLARYAIICQENGLVPIVEPEILVDGPHDINKCADVTERVLAACYKALNDHHVLLEGTLLKPNMVTPGSDAKKVAPEVVAEYTVRALQRTMPPAVPAVVFLSGGQSEEEATVHLNAMNKLQGKKPWTLTFSFGRALQQSTLKAWAGKEENVQKAQEVFLIRCKANSEATLGKYTGG 7efs-a1-m1-cC_7efs-a1-m1-cD Fructose-bisphosphate aldolase in Artemisia sieversiana pollen A0A2U1QAU9 A0A2U1QAU9 2.5 X-RAY DIFFRACTION 66 1.0 205378 (Artemisia sieversiana) 205378 (Artemisia sieversiana) 339 340 7efs-a1-m1-cA_7efs-a1-m1-cB MSCYMGKYADELIANAAYIGTPGKGILAADESTGTIGKRFDSIKVENVESNRRALRELLFCTPGALDYLSGIILFEETLYQKTASGKPFVDVMKEANVLPGIKVDKGTVELAGTNGETTTQGLDGLGARCAQYYAAGARFAKWRAVLKIGANEPSQLAINENANGLARYAIICQENGLVPIVEPEILVDGPHDINKCADVTERVLAACYKALNDHHVLLEGTLLKPNMVTPGSDAKKVAPEVVAEYTVRALQRTMPPAVPAVVFLSGGQSEEEATVHLNAMNKLQGKKPWTLTFSFGRALQQSTLKAWAGKEENVQKAQEVFLIRCKANSEATLGKYTG MSCYMGKYADELIANAAYIGTPGKGILAADESTGTIGKRFDSIKVENVESNRRALRELLFCTPGALDYLSGIILFEETLYQKTASGKPFVDVMKEANVLPGIKVDKGTVELAGTNGETTTQGLDGLGARCAQYYAAGARFAKWRAVLKIGANEPSQLAINENANGLARYAIICQENGLVPIVEPEILVDGPHDINKCADVTERVLAACYKALNDHHVLLEGTLLKPNMVTPGSDAKKVAPEVVAEYTVRALQRTMPPAVPAVVFLSGGQSEEEATVHLNAMNKLQGKKPWTLTFSFGRALQQSTLKAWAGKEENVQKAQEVFLIRCKANSEATLGKYTGG 7eft-a1-m1-cA_7eft-a1-m1-cB Crystal structure of cell shape-determining protein MreC P16926 P16926 2.1 X-RAY DIFFRACTION 109 1.0 562 (Escherichia coli) 562 (Escherichia coli) 200 226 ELENRALRQELLLKNSELLMLGQYKQENARLRELLGSPLRQDEQKMVTQVISTVNDPYSDQVVIDKGSVNGVYEGQPVISDKGVVGQVVAVAKLTSRVLLICDATHALPIQVLRNDIRVIAAGNGCTDDLQLEHLPANTDIRVGDVLVTSGLGGRFPEGYPVAVVSSVKLDTQRAYTVIQARPTAGLQRLRYLLLLWGAD DQLELENRALRQELLLKNSELLMLGQYKQENARLRELLGSPLRQDEQKMVTQVISTVNDPYSDQVVIDKGSVNGVYEGQPVISDKGVVGQVVAVAKLTSRVLLICDATHALPIQVLRNDIRVIAAGNGCTDDLQLEHLPANTDIRVGDVLVTSGLGGRFPEGYPVAVVSSVKLDTQRAYTVIQARPTAGLQRLRYLLLLWGADRNGANPMTPEEVHRVANERLMQM 7efv-a1-m1-cA_7efv-a1-m4-cC Crystal structure of octameric state of C-phycocyanin from Thermoleptolyngbya sp. O-77 2.77 X-RAY DIFFRACTION 19 1.0 1080068 (Leptolyngbya sp. O-77) 1080068 (Leptolyngbya sp. O-77) 162 162 7efv-a1-m1-cC_7efv-a1-m3-cA 7efv-a1-m2-cA_7efv-a1-m3-cC 7efv-a1-m2-cC_7efv-a1-m4-cA 7efw-a1-m1-cA_7efw-a1-m1-cI 7efw-a1-m1-cC_7efw-a1-m1-cE 7efw-a1-m1-cG_7efw-a1-m1-cK 7eh8-a1-m1-cA_7eh8-a1-m1-cI 7eh8-a1-m1-cC_7eh8-a1-m1-cE 7eh8-a1-m1-cG_7eh8-a1-m1-cK MKTPITEAIAAADTQGRFLSNTELQAVNGRFERAAASMEAARALTNNAQQLIDGAANAVYQKFPYTTQMQGANFASDSRGKSKCARDIGYYLRIITYSLVAGGTGPLDEYLIAGLDEINRTFDLSPSWYVEALKYIKANHGLSGQAANEANTYIDYAINALS MKTPITEAIAAADTQGRFLSNTELQAVNGRFERAAASMEAARALTNNAQQLIDGAANAVYQKFPYTTQMQGANFASDSRGKSKCARDIGYYLRIITYSLVAGGTGPLDEYLIAGLDEINRTFDLSPSWYVEALKYIKANHGLSGQAANEANTYIDYAINALS 7efv-a1-m4-cA_7efv-a1-m4-cC Crystal structure of octameric state of C-phycocyanin from Thermoleptolyngbya sp. O-77 2.77 X-RAY DIFFRACTION 53 1.0 1080068 (Leptolyngbya sp. O-77) 1080068 (Leptolyngbya sp. O-77) 162 162 7efv-a1-m1-cA_7efv-a1-m1-cC 7efv-a1-m2-cA_7efv-a1-m2-cC 7efv-a1-m3-cA_7efv-a1-m3-cC 7efw-a1-m1-cA_7efw-a1-m1-cC 7efw-a1-m1-cE_7efw-a1-m1-cG 7efw-a1-m1-cI_7efw-a1-m1-cK 7eh7-a1-m1-cA_7eh7-a1-m1-cC 7eh7-a1-m1-cE_7eh7-a1-m1-cG 7eh7-a1-m1-cI_7eh7-a1-m1-cK 7eh7-a1-m1-cM_7eh7-a1-m1-cO 7eh8-a1-m1-cA_7eh8-a1-m1-cC 7eh8-a1-m1-cE_7eh8-a1-m1-cG 7eh8-a1-m1-cI_7eh8-a1-m1-cK MKTPITEAIAAADTQGRFLSNTELQAVNGRFERAAASMEAARALTNNAQQLIDGAANAVYQKFPYTTQMQGANFASDSRGKSKCARDIGYYLRIITYSLVAGGTGPLDEYLIAGLDEINRTFDLSPSWYVEALKYIKANHGLSGQAANEANTYIDYAINALS MKTPITEAIAAADTQGRFLSNTELQAVNGRFERAAASMEAARALTNNAQQLIDGAANAVYQKFPYTTQMQGANFASDSRGKSKCARDIGYYLRIITYSLVAGGTGPLDEYLIAGLDEINRTFDLSPSWYVEALKYIKANHGLSGQAANEANTYIDYAINALS 7efw-a1-m1-cF_7efw-a1-m1-cL Crystal structure of hexameric state of C-phycocyanin from Thermoleptolyngbya sp. O-77 1.65 X-RAY DIFFRACTION 10 1.0 1080068 (Leptolyngbya sp. O-77) 1080068 (Leptolyngbya sp. O-77) 171 171 MLDAFAKVVSQADTKGEFLSSAQLDALSNVVKDGSKRLDAVNRMTSNASTIVANAARSLFEEQPQLIQPGGAYTNRRMAACLRDMEIILRYVTYATLAGDSSVLDDRCLNGLRETYQALGVPGGSVAAGVAKMKDAAIAIVNDPNGITKGDCSALVSEIASYFDRAAAAVA MLDAFAKVVSQADTKGEFLSSAQLDALSNVVKDGSKRLDAVNRMTSNASTIVANAARSLFEEQPQLIQPGGAYTNRRMAACLRDMEIILRYVTYATLAGDSSVLDDRCLNGLRETYQALGVPGGSVAAGVAKMKDAAIAIVNDPNGITKGDCSALVSEIASYFDRAAAAVA 7efy-a1-m1-cA_7efy-a1-m2-cA Crystal structure of retroviral protease-like domain of Ddi1 from Cryptosporidium hominis A0A0S4TE75 A0A0S4TE75 2.8 X-RAY DIFFRACTION 66 1.0 237895 (Cryptosporidium hominis) 237895 (Cryptosporidium hominis) 113 113 VHMLYINAEVNGISIKAFVDSGAQTTIMSKKCAEKCNLVRLIDYRFSKIVGKIHVAQMKIGNSFFPFSITVLEESHVDFLFGLDLLKRYQCCIDLHQNALIIGDEKVQFLSES VHMLYINAEVNGISIKAFVDSGAQTTIMSKKCAEKCNLVRLIDYRFSKIVGKIHVAQMKIGNSFFPFSITVLEESHVDFLFGLDLLKRYQCCIDLHQNALIIGDEKVQFLSES 7eg4-a1-m1-cB_7eg4-a1-m1-cD Cryo-EM structure of nauclefine-induced PDE3A-SLFN12 complex Q8IYM2 Q8IYM2 3.2 ELECTRON MICROSCOPY 196 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 567 567 7eg0-a1-m1-cB_7eg0-a1-m1-cD 7eg1-a1-m1-cB_7eg1-a1-m1-cD 7lrd-a1-m1-cA_7lrd-a1-m1-cC 7lre-a1-m1-cA_7lre-a1-m1-cB NISVDLETNYAELVLDVGRVTLGENSRKKMKDCKLRKKQNESVSRAMCALLNSGGGVIKAEIENEDYSYTKDGIGLDLENSFSNILLFVPEYLDFMQNGNYFLIFVKSWSLNTSGLRITTLSSNLYKRDITSAKVMNATAALEFLKDMKKTRGRLYLRPELLAKRPCVDIQEENNMKALAGVFFDRTELDRKEKLTFTESTHVEIKNFSTERLLQRIKEILPQYVSAFANTDGGYLFIGLNEDKEIIGFKAEMSDLDDLEREIEKSIRKMPVHHFCMEKKKINYSCKFLGVYDKGSLCGYVCALRVERFCCAVFAKEPDSWHVKDNRVMQLTRKEWIQFMVEAEPKFSSAYEEVISQINTSLPAPHSWPLLEWQRQRHHCPGLSGRITYTPENLCRKLFLQHEGLKQLICEEMSSVRKGSLIFSRSWSVDLGLQENHKVLCDALLISQDSPPVLYTFHMVQDEEFKGYSTQTALTLKQKLAKIGGYTKKVCVMTKIFYLSPEGMTSCQYDLRSQVIYPESYYFTRRKYLLKALFKALKRLKSLRDQFSFAENLYQIIGIDCFQKNDK NISVDLETNYAELVLDVGRVTLGENSRKKMKDCKLRKKQNESVSRAMCALLNSGGGVIKAEIENEDYSYTKDGIGLDLENSFSNILLFVPEYLDFMQNGNYFLIFVKSWSLNTSGLRITTLSSNLYKRDITSAKVMNATAALEFLKDMKKTRGRLYLRPELLAKRPCVDIQEENNMKALAGVFFDRTELDRKEKLTFTESTHVEIKNFSTERLLQRIKEILPQYVSAFANTDGGYLFIGLNEDKEIIGFKAEMSDLDDLEREIEKSIRKMPVHHFCMEKKKINYSCKFLGVYDKGSLCGYVCALRVERFCCAVFAKEPDSWHVKDNRVMQLTRKEWIQFMVEAEPKFSSAYEEVISQINTSLPAPHSWPLLEWQRQRHHCPGLSGRITYTPENLCRKLFLQHEGLKQLICEEMSSVRKGSLIFSRSWSVDLGLQENHKVLCDALLISQDSPPVLYTFHMVQDEEFKGYSTQTALTLKQKLAKIGGYTKKVCVMTKIFYLSPEGMTSCQYDLRSQVIYPESYYFTRRKYLLKALFKALKRLKSLRDQFSFAENLYQIIGIDCFQKNDK 7eg5-a1-m1-cA_7eg5-a1-m1-cB FMN-bound form of YviC from Lactococcus lactis subsp. lactis Il1403 Q9CDV0 Q9CDV0 1.96 X-RAY DIFFRACTION 65 1.0 272623 (Lactococcus lactis subsp. lactis Il1403) 272623 (Lactococcus lactis subsp. lactis Il1403) 125 125 MLTKKFKETLKYEGSVSLTSWGAEKSPHVTGTWISYLQLTSDERILAPAAGMHYLEEDIKVNDTIYLMLGVREVEGKNGYQGIGFRVSAKAKLISNGPEFEMMKEKYPFLRAVLELTPVEVEQLL MLTKKFKETLKYEGSVSLTSWGAEKSPHVTGTWISYLQLTSDERILAPAAGMHYLEEDIKVNDTIYLMLGVREVEGKNGYQGIGFRVSAKAKLISNGPEFEMMKEKYPFLRAVLELTPVEVEQLL 7egh-a1-m1-cf_7egh-a1-m1-cF TFIID lobe C subcomplex P49848 P49848 3.04 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 260 267 7egb-a1-m1-cf_7egb-a1-m1-cF 7egc-a1-m1-cf_7egc-a1-m1-cF 7egd-a1-m1-cf_7egd-a1-m1-cF 7ege-a1-m1-cf_7ege-a1-m1-cF 7egi-a1-m1-cf_7egi-a1-m1-cF 7egj-a1-m1-cf_7egj-a1-m1-cF 7ena-a1-m1-cDf_7ena-a1-m1-cDF 8gxq-a1-m1-cDf_8gxq-a1-m1-cDF 8gxs-a1-m1-cDf_8gxs-a1-m1-cDF HELSVEQQLYYKEITEACVGSCEAKRAEALQSIATDPGLYQMLPRFSTFISEGVRVNVVQNNLALLIYLMRMVKALMDNPTLYLEKYVHELIPAVMTCIVSRQLCLRPDVDNHWALRDFAARLVAQICKHFSTTTNNIQSRITKTFTKSWVDEKTPWTTRYGSIAGLAELGHDVIKTLILPRLQQEGERIRSVLDGPVLSNIDRIGADHVQSLLLKHCAPVLAKLRPPPDNQDAYRAEFGSLGPLLCSQVVKARAQAALQ RLKPRSIHELSVEQQLYYKEITEACVGSCEAKRAEALQSIATDPGLYQMLPRFSTFISEGVRVNVVQNNLALLIYLMRMVKALMDNPTLYLEKYVHELIPAVMTCIVSRQLCLRPDVDNHWALRDFAARLVAQICKHFSTTTNNIQSRITKTFTKSWVDEKTPWTTRYGSIAGLAELGHDVIKTLILPRLQQEGERIRSVLDGPVLSNIDRIGADHVQSLLLKHCAPVLAKLRPPPDNQDAYRAEFGSLGPLLCSQVVKARAQAALQ 7egl-a1-m2-cA_7egl-a1-m3-cA Bicarbonate transporter complex SbtA-SbtB bound to HCO3- P73953 P73953 3.2 X-RAY DIFFRACTION 68 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 335 335 7cye-a1-m1-cA_7cye-a1-m1-cB 7cye-a1-m1-cA_7cye-a1-m1-cC 7cye-a1-m1-cB_7cye-a1-m1-cC 7cyf-a1-m1-cA_7cyf-a1-m1-cB 7cyf-a1-m1-cA_7cyf-a1-m1-cC 7cyf-a1-m1-cB_7cyf-a1-m1-cC 7egk-a1-m1-cA_7egk-a1-m1-cC 7egk-a1-m1-cA_7egk-a1-m1-cE 7egk-a1-m1-cC_7egk-a1-m1-cE 7egl-a1-m1-cA_7egl-a1-m2-cA 7egl-a1-m1-cA_7egl-a1-m3-cA DFLSNFLTDFVGQLQSPTLAFLIGGMVIAALGTQLVIPEAISTIIVFMLLTKIGLTGGMAIRNSNLTEMLLPVAFSVILGILIVFIARFTLAKLPNVRTVDALATGGLFGAVSGSTMAAALTTLEESKISYEAWAGALYPFMDIPALVTAIVVANIYLNKRKRKSAAARVKIWPIIEESLQGPALSAMLLGLALGIFTKPESVYEGFYDPLFRGLLSILMLIMGMEAWSRIGELRKVAQWYVVYSLIAPIVHGFIAFGLGMIAHYATGFSLGGVVVLAVIAASSSDISGPPTLRAGIPSANPSAYIGSSTAIGTPIAIGVCIPLFIGLAQTLGAG DFLSNFLTDFVGQLQSPTLAFLIGGMVIAALGTQLVIPEAISTIIVFMLLTKIGLTGGMAIRNSNLTEMLLPVAFSVILGILIVFIARFTLAKLPNVRTVDALATGGLFGAVSGSTMAAALTTLEESKISYEAWAGALYPFMDIPALVTAIVVANIYLNKRKRKSAAARVKIWPIIEESLQGPALSAMLLGLALGIFTKPESVYEGFYDPLFRGLLSILMLIMGMEAWSRIGELRKVAQWYVVYSLIAPIVHGFIAFGLGMIAHYATGFSLGGVVVLAVIAASSSDISGPPTLRAGIPSANPSAYIGSSTAIGTPIAIGVCIPLFIGLAQTLGAG 7egl-a1-m2-cB_7egl-a1-m3-cB Bicarbonate transporter complex SbtA-SbtB bound to HCO3- P73954 P73954 3.2 X-RAY DIFFRACTION 66 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 93 93 7egl-a1-m1-cB_7egl-a1-m2-cB 7egl-a1-m1-cB_7egl-a1-m3-cB AKPANKLVIVTEKILLKKIAKIIDESGAKGYTVMNTGGKGANIKFEILTETREMAEEIADRVAVKYFNDYAGIIYICSAEVLYGHTFCGPEGC AKPANKLVIVTEKILLKKIAKIIDESGAKGYTVMNTGGKGANIKFEILTETREMAEEIADRVAVKYFNDYAGIIYICSAEVLYGHTFCGPEGC 7egp-a1-m1-cD_7egp-a1-m1-cE The structure of SWI/SNF-nucleosome complex P32591 P32591 6.9 ELECTRON MICROSCOPY 284 0.98 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 395 422 7c4j-a1-m1-cB_7c4j-a1-m1-cD 7egm-a1-m1-cD_7egm-a1-m1-cE IPQAHEIVIPSYSKWFNLEKIHSIEVQSLPEFFTNRIPSKTPEVYMRYRNFMVNSYRLNPNEYFSVTTARRNVSGDAAALFRLHKFLTKWGLINYQVDSKLLPKNIEPPLTSQYSTRHDAPRGLFPFESYKPSVQLPDMAKLKKMMNTSDSESTLYKYLKESKRKYDEITLKKVKILEQIDENWSKEDLQKLLKGIQEFGADWYKVAKNVGNKSPEQCILRFLQLPIEDKFLYGDGNGLGPLKYAPHLPFSKSENPVLSTIAFLVGLVNPKTVQSMTQRAIQSAESIKSQYRSHIFATNEERQMNFLTNELIRLQMEKLDAKLNHLKKLEKFMELERKTLERQQENLLIQRLNFNQNSSKIVNVLSKEEIRSQIDHFKSMLSKPETLSIGKNPFN EIPQAHEIVIPSYSKWFNLEKIHSIEVQSLPEFFTNRIPSKTPEVYMRYRNFMVNSYRLNPNEYFSVTTARRNVSGDAAALFRLHKFLTKWGLINYQVDSKLLPKNIEPPLTSQYSTRHDAPRGLFPFESYKPSVQLPDMAKLKKMMNTSDSESTLYKYLKESKRKYDEITHPPLKKVKILEQIDENWSKEDLQKLLKGIQEFGADWYKVAKNVGNKSPEQCILRFLQLPIEDKFLYGDGNGLGPLKYAPHLPFSKSENPVLSTIAFLVGLVNPKTVQSMTQRAIQSAESIKSQKEEISDQKPIEHIKEGSEIAISSLGYRSHIFATNEERQMNFLTNELIRLQMEKLDAKLNHLKKLEKFMELERKTLERQQENLLIQRLNFNQNSSKIVNVLSKCLNLISEIRSQIDHFKSMLSKPETLS 7egq-a1-m1-cA_7egq-a1-m1-cN Co-transcriptional capping machineries in SARS-CoV-2 RTC: Coupling of N7-methyltransferase and 3'-5' exoribonuclease with polymerase reveals mechanisms for capping and proofreading P0DTD1 P0DTD1 3.35 ELECTRON MICROSCOPY 33 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 926 926 AQSFLNRVCGVSAARLTPCGTGTSTDVVYRAFDIYNDKVAGFAKFLKTNCCRFQEKDEDDNLIDSYFVVKRHTFSNYQHEETIYNLLKDCPAVAKHDFFKFRIDGDMVPHISRQRLTKYTMADLVYALRHFDEGNCDTLKEILVTYNCCDDDYFNKKDWYDFVENPDILRVYANLGERVRQALLKTVQFCDAMRNAGIVGVLTLDNQDLNGNWYDFGDFIQTTPGSGVPVVDSYYSLLMPILTLTRALTAESHVDTDLTKPYIKWDLLKYDFTEERLKLFDRYFKYWDQTYHPNCVNCLDDRCILHCANFNVLFSTVFPPTSFGPLVRKIFVDGVPFVVSTGYHFRELGVVHNQDVNLHSSRLSFKELLVYAADPAMHAASGNLLLDKRTTCFSVAALTNNVAFQTVKPGNFNKDFYDFAVSKGFFKEGSSVELKHFFFAQDGNAAISDYDYYRYNLPTMCDIRQLLFVVEVVDKYFDCYDGGCINANQVIVNNLDKSAGFPFNKWGKARLYYDSMSYEDQDALFAYTKRNVIPTITQMNLKYAISAKNRARTVAGVSICSTMTNRQFHQKLLKSIAATRGATVVIGTSKFYGGWHNMLKTVYSDVENPHLMGWDYPKCDRAMPNMLRIMASLVLARKHTTCCSLSHRFYRLANECAQVLSEMVMCGGSLYVKPGGTSSGDATTAYANSVFNICQAVTANVNALLSTDGNKIADKYVRNLQHRLYECLYRNRDVDTDFVNEFYAYLRKHFSMMILSDDAVVCFNSTYASQGLVASIKNFKSVLYYQNNVFMSEAKCWTETDLTKGPHEFCSQHTMLVKQGDDYVYLPYPDPSRILGAGCFVDDIVKTDGTLMIERFVSLAIDAYPLTKHPNQEYADVFHLYLQYIRKLHDELTGHMLDMYSVMLTNDNTSRYWEPEFYEAMYTPHT AQSFLNRVCGVSAARLTPCGTGTSTDVVYRAFDIYNDKVAGFAKFLKTNCCRFQEKDEDDNLIDSYFVVKRHTFSNYQHEETIYNLLKDCPAVAKHDFFKFRIDGDMVPHISRQRLTKYTMADLVYALRHFDEGNCDTLKEILVTYNCCDDDYFNKKDWYDFVENPDILRVYANLGERVRQALLKTVQFCDAMRNAGIVGVLTLDNQDLNGNWYDFGDFIQTTPGSGVPVVDSYYSLLMPILTLTRALTAESHVDTDLTKPYIKWDLLKYDFTEERLKLFDRYFKYWDQTYHPNCVNCLDDRCILHCANFNVLFSTVFPPTSFGPLVRKIFVDGVPFVVSTGYHFRELGVVHNQDVNLHSSRLSFKELLVYAADPAMHAASGNLLLDKRTTCFSVAALTNNVAFQTVKPGNFNKDFYDFAVSKGFFKEGSSVELKHFFFAQDGNAAISDYDYYRYNLPTMCDIRQLLFVVEVVDKYFDCYDGGCINANQVIVNNLDKSAGFPFNKWGKARLYYDSMSYEDQDALFAYTKRNVIPTITQMNLKYAISAKNRARTVAGVSICSTMTNRQFHQKLLKSIAATRGATVVIGTSKFYGGWHNMLKTVYSDVENPHLMGWDYPKCDRAMPNMLRIMASLVLARKHTTCCSLSHRFYRLANECAQVLSEMVMCGGSLYVKPGGTSSGDATTAYANSVFNICQAVTANVNALLSTDGNKIADKYVRNLQHRLYECLYRNRDVDTDFVNEFYAYLRKHFSMMILSDDAVVCFNSTYASQGLVASIKNFKSVLYYQNNVFMSEAKCWTETDLTKGPHEFCSQHTMLVKQGDDYVYLPYPDPSRILGAGCFVDDIVKTDGTLMIERFVSLAIDAYPLTKHPNQEYADVFHLYLQYIRKLHDELTGHMLDMYSVMLTNDNTSRYWEPEFYEAMYTPHT 7egq-a1-m1-cR_7egq-a1-m1-cS Co-transcriptional capping machineries in SARS-CoV-2 RTC: Coupling of N7-methyltransferase and 3'-5' exoribonuclease with polymerase reveals mechanisms for capping and proofreading P0DTD1 P0DTD1 3.35 ELECTRON MICROSCOPY 10 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 588 596 VGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPAVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSLEI AVGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPARARVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSLEIPRRN 7egy-a1-m1-cA_7egy-a1-m2-cB Recombinant head-to-tail dimeric E2 protein Q991S8 Q991S8 4.201 X-RAY DIFFRACTION 22 1.0 68626 (Hog cholera virus strain 'Chinese vaccine, Wuhan') 68626 (Hog cholera virus strain 'Chinese vaccine, Wuhan') 238 238 TNPSTEEMGDDFGFGLCPFDTSPVVKGKYNTTLLNGSAFYLVCPIGWTGVIECTAVSPTTLRTEVVKTFRREKPFPHRMDCVTTTVENEDLFYCKLGGNWTCVKGEPVVYTGGQVKQCKWCGFDFNEPDGLPHYPIGKCILANETGYRIVDSTDCNRDGVVISAKGSHECLIGNTTVKVHASDERLGPMPCRPKEIVSSTSCTFNYAKTLKNKYYEPRDSYFQQYMLKGEYQYWFDLD TNPSTEEMGDDFGFGLCPFDTSPVVKGKYNTTLLNGSAFYLVCPIGWTGVIECTAVSPTTLRTEVVKTFRREKPFPHRMDCVTTTVENEDLFYCKLGGNWTCVKGEPVVYTGGQVKQCKWCGFDFNEPDGLPHYPIGKCILANETGYRIVDSTDCNRDGVVISAKGSHECLIGNTTVKVHASDERLGPMPCRPKEIVSSTSCTFNYAKTLKNKYYEPRDSYFQQYMLKGEYQYWFDLD 7eh5-a1-m1-cB_7eh5-a1-m1-cC Cryo-EM structure of SARS-CoV-2 S-D614G variant in complex with neutralizing antibodies, RBD-chAb15 and RBD-chAb45 P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 205 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 996 996 7eh5-a1-m1-cA_7eh5-a1-m1-cB 7eh5-a1-m1-cA_7eh5-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAINPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQKNLREFVFKNIDGYFKIYSKHTPIPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAINPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQKNLREFVFKNIDGYFKIYSKHTPIPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7ehe-a1-m1-cB_7ehe-a1-m1-cA Acetolactate Synthase from Trichoderma harzianum A0A2N1LPC4 A0A2N1LPC4 2.28 X-RAY DIFFRACTION 199 0.995 5544 (Trichoderma harzianum) 5544 (Trichoderma harzianum) 581 589 MDESFIGKSGGEIFHEMMLRQGVKHIFGYPGGAILPVFDAIYNSKHFDFILPRHEQGAGHMAEGYARASGKPGVVVVTSGPGATNVITPMQDALSDGTPMVVFCGQVPTAAIADVVGISRACTKWNVMVKSVAELPRRINEAFEIATSGRPGPVLVDLPKDVTAGILRRAIPELSTQQLNASIKRAADLINMGKKPVIYAGQGVIQSEGGPELLKELADKASIPVTTTLHGLGAFDELDEKSLHMLGMHGAAYANMAMQQADVIIALGSRFDDRVTGVVSKFAPAARQAAAEGRGGIIHFEIMPKNINKVVQATEAVEGDVGANMKLLIPQVKAKTMEDRKEWFDAIKGWKKKYPLSHYQRTGLIKPQTVMEEISNLTADRKDKTYIATGVGQHQMWVAQHFRWRHPRSMITSGGLGTMGYGLPAAIGAKVAQPDALVIDVDGDASFNMTLTELSTAAQFNIGVKVVVLNNEEQGMVTQWQNLFYEDRYSHTHQRNPDFMKLADAMGIQHQRVAEPDKLVDALKWLINTDGPALLEVVTDKKVPVLPMVPAGSALHEFLVFDPEKDKQRRELMKERTKGVH MDESFIGKSGGEIFHEMMLRQGVKHIFGYPGGAILPVFDAIYNSKHFDFILPRHEQGAGHMAEGYARASGKPGVVVVTSGPGATNVITPMQDALSDGTPMVVFCGQVPTADVVGISRACTKWNVMVKSVAELPRRINEAFEIATSGRPGPVLVDLPKDVTAGILRRAIPTPSAATRAAKELSTQQLNASIKRAADLINMGKKPVIYAGQGVIQSEGGPELLKELADKASIPVTTTLHGLGAFDELDEKSLHMLGMHGAAYANMAMQQADVIIALGSRFDDRVTGVVSKFAPAARQAAAEGRGGIIHFEIMPKNINKVVQATEAVEGDVGANMKLLIPQVKAKTMEDRKEWFDAIKGWKKKYPLSHYQRTGLIKPQTVMEEISNLTADRKDKTYIATGVGQHQMWVAQHFRWRHPRSMITSGGLGTMGYGLPAAIGAKVAQPDALVIDVDGDASFNMTLTELSTAAQFNIGVKVVVLNNEEQGMVTQWQNLFYEDRYSHTHQRNPDFMKLADAMGIQHQRVAEPDKLVDALKWLINTDGPALLEVVTDKKVPVLPMVPAGSALHEFLVFDPEKDKQRRELMKERTKGVHS 7ehl-a1-m1-cA_7ehl-a1-m1-cB Cryo-EM structure of human ABCB8 transporter in nucleotide binding state Q9NUT2 Q9NUT2 NOT ELECTRON MICROSCOPY 260 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 563 563 FNWKLFWQFLHPHLLVLGVAVVLALGAALVNVQIPLLLGQLVEVVAKYTRDMTESQNLSTHLLILYGVQGLLTFGYLVLLSHVGERMAVDMRRALFSSLLRQDITFFDANKTGQLVSRLTTDVQEFKSSFKLVISQGLRSCTQVAGCLVSLSMLTRLTLLLMVATPALMGVGTLMGSGLRKLSRQCQEQIARAMGVADEALGNVRTVRAFAMEQREEERYGAELEACRCRAEELGRGIALFQGLSNIAFNCMVLGTLFIGGSLVAGQLTGGDLMSFLVASQTVQRSMANLSVLFGQVVRGLSAGARVFEYMALNPCIPLSGRGSVTFQNVCFSYPCRPGFEVLKDFTLTLPPGKIVALVGQSGGGKTTVASLLERFYDPTAGVVMLDGRDLRTLDPSWLRGQVVGFISQEPVLFGTTIMENIRFGKLEASDEEVYTAAREANAHEFITSFPEGYNTVGERGTTLSGGQKQRLAIARALIKQPTVLILDEATSALDAESERVVQEALDRASAGRTVLVIAHRLSTVRGAHCIVVMADGRVWEAGTHEELLKKGGLYAELIRRQA FNWKLFWQFLHPHLLVLGVAVVLALGAALVNVQIPLLLGQLVEVVAKYTRDMTESQNLSTHLLILYGVQGLLTFGYLVLLSHVGERMAVDMRRALFSSLLRQDITFFDANKTGQLVSRLTTDVQEFKSSFKLVISQGLRSCTQVAGCLVSLSMLTRLTLLLMVATPALMGVGTLMGSGLRKLSRQCQEQIARAMGVADEALGNVRTVRAFAMEQREEERYGAELEACRCRAEELGRGIALFQGLSNIAFNCMVLGTLFIGGSLVAGQLTGGDLMSFLVASQTVQRSMANLSVLFGQVVRGLSAGARVFEYMALNPCIPLSGRGSVTFQNVCFSYPCRPGFEVLKDFTLTLPPGKIVALVGQSGGGKTTVASLLERFYDPTAGVVMLDGRDLRTLDPSWLRGQVVGFISQEPVLFGTTIMENIRFGKLEASDEEVYTAAREANAHEFITSFPEGYNTVGERGTTLSGGQKQRLAIARALIKQPTVLILDEATSALDAESERVVQEALDRASAGRTVLVIAHRLSTVRGAHCIVVMADGRVWEAGTHEELLKKGGLYAELIRRQA 7ei0-a1-m1-cA_7ei0-a1-m2-cB Crystal structure of falcipain 2 from 3D7 strain Q8I6U4 Q8I6U4 3.4 X-RAY DIFFRACTION 28 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 240 240 QMNYEEVIKKYKGNENFDHAAYDWRLHSGVTPVKDQKNCGSWAFSSIGSVESQYAIRKNKLITLSEQELVDCSFKNYGCNGGLINNAFEDMIELGGICTDDDYPYVSDAPNLCNIDRCTEKYGIKNYLSVPDNKLKEALRFLGPISISVAVSDDFAFYKEGIFDGECGDQLNHAVMLVGFGMKEIVNPLTKKGEKHYYYIIKNSWGQQWGERGFINIETDESGLMRKCGLGTDAFIPLIE QMNYEEVIKKYKGNENFDHAAYDWRLHSGVTPVKDQKNCGSWAFSSIGSVESQYAIRKNKLITLSEQELVDCSFKNYGCNGGLINNAFEDMIELGGICTDDDYPYVSDAPNLCNIDRCTEKYGIKNYLSVPDNKLKEALRFLGPISISVAVSDDFAFYKEGIFDGECGDQLNHAVMLVGFGMKEIVNPLTKKGEKHYYYIIKNSWGQQWGERGFINIETDESGLMRKCGLGTDAFIPLIE 7ei1-a1-m1-cQ_7ei1-a1-m1-cR Structure of Pyrococcus furiosus Cas1Cas2 complex I6V1H0 I6V1H0 3.9 X-RAY DIFFRACTION 109 1.0 1185654 (Pyrococcus furiosus COM1) 1185654 (Pyrococcus furiosus COM1) 84 84 2i0x-a1-m1-cA_2i0x-a1-m2-cA 4tno-a1-m1-cA_4tno-a1-m2-cA 7ei1-a2-m1-cS_7ei1-a2-m1-cT 7ei1-a3-m1-cU_7ei1-a3-m1-cV 7ei1-a4-m1-cW_7ei1-a4-m1-cX MYIVVVYDVGVERVNKVKKFLRMHLNWVQNSVFEGEVTLAEFERIKEGLKKIIDENSDSVIIYKLRSMPPRETLGIEKNPIEEI MYIVVVYDVGVERVNKVKKFLRMHLNWVQNSVFEGEVTLAEFERIKEGLKKIIDENSDSVIIYKLRSMPPRETLGIEKNPIEEI 7ei1-a4-m1-cP_7ei1-a4-m1-cO Structure of Pyrococcus furiosus Cas1Cas2 complex I6TWX9 I6TWX9 3.9 X-RAY DIFFRACTION 146 0.997 1185654 (Pyrococcus furiosus COM1) 1185654 (Pyrococcus furiosus COM1) 306 311 7ei1-a1-m1-cB_7ei1-a1-m1-cA 7ei1-a1-m1-cJ_7ei1-a1-m1-cI 7ei1-a2-m1-cD_7ei1-a2-m1-cC 7ei1-a2-m1-cL_7ei1-a2-m1-cK 7ei1-a3-m1-cF_7ei1-a3-m1-cE 7ei1-a3-m1-cN_7ei1-a3-m1-cM 7ei1-a4-m1-cH_7ei1-a4-m1-cG KSLTIFSDGTLLRRENTLYFENVNGRKPLAIEGIYDIYIYGHVNITSQALHYIAQKGILIHFFNHYGYYDGTFYPRETLLSGDLIIKQAEHYLDKNKRLFLAKSFVVGGAKNMEKNLKNWGISSDFSNHLKELQGAKKVTEIMNVEGRIRQEYYARWDESLPGEFRIGKRTPKNEMNALISFLNSRLYATMISEIYNTQLAPTISYLHEPSERRFSLALDLSEIFKPIIADRIANRLVKKGIIKKDHFREDLNGVLLTDEGMKIVTKAYNQELEKVTRRRLIRLEAYKIIKHLVGVEEYSPLVAWF KKSLTIFSDGTLLRRENTLYFENVNGRKPLAIEGIYDIYIYGHVNITSQALHYIAQKGILIHFFNHYGYYDGTFYPRETLLSGDLIIKQAEHYLDKNKRLFLAKSFVVGGAKNMEKNLKNWGISSDFSNHLKELQGAKKVTEIMNVEGRIRQEYYARWDESLPGEFRIGKRTRRPPKNEMNALISFLNSRLYATMISEIYNTQLAPTISYLHEPSERRFSLALDLSEIFKPIIADRIANRLVKKGIIKKDHFREDLNGVLLTDEGMKIVTKAYNQELEKTVVTRRRLIRLEAYKIIKHLVGVEEYSPLVAW 7eij-a1-m1-cA_7eij-a1-m1-cB Ancestral L-Lys oxidase K387A variant (L-Arg binding form) 2.2 X-RAY DIFFRACTION 96 1.0 32630 (synthetic construct) 32630 (synthetic construct) 586 586 7eih-a1-m1-cB_7eih-a1-m1-cA 7eii-a1-m1-cB_7eii-a1-m1-cA NKNTPLNSGKHPDLKIEVAIIGAGTSGLYTAYRLVTDKKFKAHDVQIFDMNNKLGGRLESVIMPGMNFWGELGGMRYLTSQQIVTTLIEGYPLSEKDPNKRTPVLKDKMTPVPFPMGDPSKLLMYLRKERFKQNAWNEAQKKGEKLPTRYYLNENDLGFSSDQLFNKIIYDVLMADPWVAETYGSKIIKGSSVYDYSFKLTSRDWDDIKPKLVYNFPNSPYDQRKVNDIGFWNLIKDQVSQEGYEFLANAGGYYSNTINWNSAEAFPYMVGDFSAGTIYKTIEEGYDSIAYAVANSYMEHEGACIWSENKLLTFTKDHPLTNTHKYELTFLNLKTNTQWKVYANSIVLAMPRKSLELLDQNNFFFNINKNSVLNNNIRSVIMEPAFAILMGFEYPWWKELGIDSGHSITDLPMRQCYYFGTDPETNNSMLLGSYGDMETETFWKALSDDKVLFEVKAAKSASLRELHQLDDVQATKLMVGELMNQLRELHGDTVTIPEPYVTYFKDWTDEPFGAGYHAWKAGFSVENVMPYMRKPLTDEQIHICGEAYSDQQGWVEGAFCEAEKMLQEYFGLDRPYWLSPDYYLGW NKNTPLNSGKHPDLKIEVAIIGAGTSGLYTAYRLVTDKKFKAHDVQIFDMNNKLGGRLESVIMPGMNFWGELGGMRYLTSQQIVTTLIEGYPLSEKDPNKRTPVLKDKMTPVPFPMGDPSKLLMYLRKERFKQNAWNEAQKKGEKLPTRYYLNENDLGFSSDQLFNKIIYDVLMADPWVAETYGSKIIKGSSVYDYSFKLTSRDWDDIKPKLVYNFPNSPYDQRKVNDIGFWNLIKDQVSQEGYEFLANAGGYYSNTINWNSAEAFPYMVGDFSAGTIYKTIEEGYDSIAYAVANSYMEHEGACIWSENKLLTFTKDHPLTNTHKYELTFLNLKTNTQWKVYANSIVLAMPRKSLELLDQNNFFFNINKNSVLNNNIRSVIMEPAFAILMGFEYPWWKELGIDSGHSITDLPMRQCYYFGTDPETNNSMLLGSYGDMETETFWKALSDDKVLFEVKAAKSASLRELHQLDDVQATKLMVGELMNQLRELHGDTVTIPEPYVTYFKDWTDEPFGAGYHAWKAGFSVENVMPYMRKPLTDEQIHICGEAYSDQQGWVEGAFCEAEKMLQEYFGLDRPYWLSPDYYLGW 7ej3-a1-m1-cA_7ej3-a1-m1-cB UTP cyclohydrolase A0A3D9R4E8 A0A3D9R4E8 1.6 X-RAY DIFFRACTION 371 1.0 44752 (Rhodococcus wratislaviensis) 44752 (Rhodococcus wratislaviensis) 397 401 7eev-a1-m1-cA_7eev-a1-m1-cB GVGALPIHWGAPTASERGPVVGTTTNRAHRNVIGTHSGSYSIYRALAVASGALSRHHKADLTDTAPTNIIGPYPQWSQPGKIVSLDPWGATVAEVFAAELAAGHDIRPSIAVTKAHVILPEVMEAIQKGRLHPDGRFLLPSGAALVTKAAIEPVWHLPGVAERFHCSETDLRRVLFEETGGMYPELVTRSDLEVFLPPIGGQTVYIFGDARDLADPGVELTARVHDECNGSDVFGSDICTCRPYLTHAIEECIQGAQRGGVGLVAYSRKEGRALGEVTKFLVYNARKRQVGGDTADQYFARTECVAGVQDMRFQEMMPDVLHWLGVRKIHRLVSMSNMKYDAITGSGIEVVERVDLPADLIPADARVEIDAKMAAGYFTPGAVPDADELAKVKGREL HSGGVGALPIHWGAPTASERGPVVGTTTNRAHRNVIGTHSGSYSIYRALAVASGALSRHHKADLTDTAPTNIIGPYPQWSQPGKIVSLDPWGATVAEVFAAELAAGHDIRPSIAVTKAHVILPEVMEAIQKGRLHPDGRFLLPSGAALVTKAAIEPVWHLPGVAERFHCSETDLRRVLFEETGGMYPELVTRSDLEVFLPPIGGQTVYIFGDARDLADPGVELTARVHDECNGSDVFGSDICTCRPYLTHAIEECIQGAQRGGVGLVAYSRKEGRALGEVTKFLVYNARKRQVGGDTADQYFARTECVAGVQDMRFQEMMPDVLHWLGVRKIHRLVSMSNMKYDAITGSGIEVVERVDLPADLIPADARVEIDAKMAAGYFTPGAVPDADELAKVKGRELD 7ej4-a1-m1-cC_7ej4-a1-m1-cB Cryo-EM structure of SARS-CoV-2 spike in complex with a neutralizing antibody RBD-chAb-25 P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 203 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1011 1022 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7ej5-a1-m1-cA_7ej5-a1-m1-cC Cryo-EM structure of SARS-CoV-2 spike in complex with a neutralizing antibody RBD-chAb-45 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 205 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1008 1011 7ej4-a1-m1-cA_7ej4-a1-m1-cB 7ej4-a1-m1-cA_7ej4-a1-m1-cC 7ej5-a1-m1-cA_7ej5-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7ej5-a1-m1-cC_7ej5-a1-m1-cB Cryo-EM structure of SARS-CoV-2 spike in complex with a neutralizing antibody RBD-chAb-45 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 212 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1011 1014 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVATWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7ej7-a1-m1-cB_7ej7-a1-m1-cC Yeast Dmc1 post-synaptic complex P25453 P25453 3.41 ELECTRON MICROSCOPY 110 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 316 316 7ej6-a1-m1-cA_7ej6-a1-m1-cB 7ej6-a1-m1-cB_7ej6-a1-m1-cC 7ej7-a1-m1-cA_7ej7-a1-m1-cB ILSVDELQNYGINASDLQKLKSGGIYTVNTVLSTTRRHLCKIKGLSEVKVEKIKEAAGKIIQVGFIPATVQLDIRQRVYSLSTGSKQLDSILGGGIMTMSITEVFGEFRCGKTQMSHTLCVTTQLPREMGGGEGKVAYIDTEGTFRPERIKQIAEGYELDPESCLANVSYARALNSEHQMELVEQLGEELSSGDYRLIVVDSIMANFRVDYCGRGELSERQQKLNQHLFKLNRLAEEFNVAVFLTNQVQSDPGASALFASADGRKPIGGHVLAHASATRILLRKGRGDERVAKLQDSPDMPEKECVYVIGEKGITD ILSVDELQNYGINASDLQKLKSGGIYTVNTVLSTTRRHLCKIKGLSEVKVEKIKEAAGKIIQVGFIPATVQLDIRQRVYSLSTGSKQLDSILGGGIMTMSITEVFGEFRCGKTQMSHTLCVTTQLPREMGGGEGKVAYIDTEGTFRPERIKQIAEGYELDPESCLANVSYARALNSEHQMELVEQLGEELSSGDYRLIVVDSIMANFRVDYCGRGELSERQQKLNQHLFKLNRLAEEFNVAVFLTNQVQSDPGASALFASADGRKPIGGHVLAHASATRILLRKGRGDERVAKLQDSPDMPEKECVYVIGEKGITD 7ej9-a1-m1-cB_7ej9-a1-m1-cA Alternative crystal structure of mouse Cryptochrome 2 in complex with TH301 compound Q9R194 Q9R194 2.6 X-RAY DIFFRACTION 45 1.0 10090 (Mus musculus) 10090 (Mus musculus) 470 482 ASSVHWFRKGLRLHDNPALLAAVRGARCVRCVYILDPWFAASSSVGINRWRFLLQSLEDLDTSLRKLNSRLFVVRGQPADVFPRLFKEWGVTRLTFEYDSEPFGKERDAAIMKMAKEAGVEVVTENSHTLYDLDRIIELNGQKPPLTYKRFQALISRMELPKKPAVAVSSQQMESCRAEIQENHDDTYGVPSLEELGFPTEGLGPAVWQGGETEALARLDKHLERKAWNSLLASPTGLSPYLRFGCLSCRLFYYRLWDLYKKVKRNSTPPLSLFGQLLWREFFYTAATNNPRFDRMEGNPICIQIPWDRNPEALAKWAEGKTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWVSWESGVRVFDELLLDADFSVNAGSWMWLSCSAFFCYCPVGFGRRTDPSGDYIRRYLPKLKGFPSRYIYEPWNAPESVQKAAKCIIGVDYPRPIVNHAETSRLNIERMKQIY ASSVHWFRKGLRLHDNPALLAAVRGARCVRCVYILDPWFAASSSVGINRWRFLLQSLEDLDTSLRKLNSRLFVVRGQPADVFPRLFKEWGVTRLTFEYDSEPFGKERDAAIMKMAKEAGVEVVTENSHTLYDLDRIIELNGQKPPLTYKRFQALISRMELPKKPAVAVSSQQMESCRAEIQENHDDTYGVPSLEELGFPTEGLGPAVWQGGETEALARLDKHLERKAWVANYERPRMNANSLLASPTGLSPYLRFGCLSCRLFYYRLWDLYKKVKRNSTPPLSLFGQLLWREFFYTAATNNPRFDRMEGNPICIQIPWDRNPEALAKWAEGKTGFPWIDAIMTQLRQEGWIHHLARHAVACFLTRGDLWVSWESGVRVFDELLLDADFSVNAGSWMWLSCSAFFHCYCPVGFGRRTDPSGDYIRRYLPKLKGFPSRYIYEPWNAPESVQKAAKCIIGVDYPRPIVNHAETSRLNIERMKQIY 7ejp-a1-m1-cA_7ejp-a1-m1-cB Crystal Structure of the Candida Glabrata Glycogen Debranching Enzyme (W470A) in complex with maltohexaose Q6FSK0 Q6FSK0 3.1 X-RAY DIFFRACTION 23 1.0 284593 (Nakaseomyces glabratus CBS 138) 284593 (Nakaseomyces glabratus CBS 138) 1526 1526 7eim-a1-m1-cA_7eim-a1-m1-cB AHRTLLLRLSDSGEPVTSCSYGQGVLTLPSLPLPQGKKLGDMPVYTVKLAIPAGSPVTRDGLIWTNCPPDFSTQFDREKFYKKIIKTSFHEDDHIDLDIYVPGTYCFYLSFKNDKDELETTRKFYFVVLPILSVNDKFIPLNSIAMQSVVSKWMGPTIKDWEKVFARVASKKYNMIHFTPLQHRGESNSPYSIYDQLEFDPTVFKSEKEVADMVERLRTEHNILSLTDIVFNHTANNSQWLLDHPEAGYNHKTSPHLISAIELDKKLLDFSEQMEALGYPVDLKTVDDLIKVMDGIKEHVIGELKLWEFYVVDVKQTVSELREKWGNSKSWSDDNIPSKDDSTNLAQFVRDNATEPGFGSLGERGSNKINIDKFAAILKKLHSEDYNNGIEELATKILNDINLPFYKEYDDDINEVLEQLFNRIKYLRIDDHGPKQGPITKKLPLSEPYFTRFKAKDGEEYALANNGAIWDGNPLVDFASSQSKAYLRREVIVWGDCVKLRYGKGPSDSPYLWERMSKYVEMNARIFNGFRIDNCHSTPLHVGQYFLDVARRVNPNLYVVAELFSGSEAMDCLFVERLGISSLIREAMQAWSEEELSRLVHRHGGRPIGSYKFVPLDDFPYPADVKIDEEYCAYNPDDHSVKCVSEIMIPKTLTATPPHALFMDCTHDNETPNQKRTVEDTLPNAALVAFCSSAIGSVYGYDEVFPQLLDLVQEKRTYSCAENTGISKVKTLLNNMREEIASEAVDIEDSEMHVHHDGQYITFHRTNAKNGKGWYLVARTKFHSSGDQMLPRIKLSQTKATFKAAFSLERTGDAPISDEIIEGIPTKLRELTGFDIGFDENTKETSILLPQDFPQGSIVIFETQQLGIDDSLDHFIRSGAIKATEKLSLESINYVLYRAEQEEYDYSEGRSGAYDIPDYGKPVYCGLQGWVSILRKIIFYNDLAHPLSNNLRNGHWAVDYVVNRLDLYKDKEGVAEVQEWLRSRMERIKQLPSYLVPSFFALVVGIMYGCCRLRAMQLMSDNVGKSTVFVQSLAMTSIQMVSAMKSTSILPDQNIAAMAAGLPHFSTNYMRCWGRDVFISLRGLLLTTGRYEEAKEHILAFAKTLKHGLIPNLLDAGRNPRYNARDAAWFFVQAIQDYVTIVPGGVSLLQEKVTRRFPLDDEYIPYDDPKAFSYSSTIEEIIYEILNRHAGGIKYREANAGPNLDRVMKDEGFNVEVNVDWETGLIHGGSQFNCGTWMDKMGESEKANSVGVPGTPRDGAAVEINGLLKSCLRFVLQLSKDGKFKYTEVTKPDGSKISLSSWNDLLQENFERCFYVPKNKEDDNKFEIDATIINRRGIYKDLYRSGKPYEDYQFRPNFTIAMVVAPELFTPDYAAGAIELADQVLRGPVGMRTLDPSDYNYRPYYNNGEDSDDFATSKGRNYHQGPEWVWCYGYFIRAYHYFNFLTNPKCQVEGSAKKLKPSSYLYRKLYSRLLKHREWIENSPWAGLAELTNKDGEVCNDSSPTQAWSTGCLLDLFYDLWISYEE AHRTLLLRLSDSGEPVTSCSYGQGVLTLPSLPLPQGKKLGDMPVYTVKLAIPAGSPVTRDGLIWTNCPPDFSTQFDREKFYKKIIKTSFHEDDHIDLDIYVPGTYCFYLSFKNDKDELETTRKFYFVVLPILSVNDKFIPLNSIAMQSVVSKWMGPTIKDWEKVFARVASKKYNMIHFTPLQHRGESNSPYSIYDQLEFDPTVFKSEKEVADMVERLRTEHNILSLTDIVFNHTANNSQWLLDHPEAGYNHKTSPHLISAIELDKKLLDFSEQMEALGYPVDLKTVDDLIKVMDGIKEHVIGELKLWEFYVVDVKQTVSELREKWGNSKSWSDDNIPSKDDSTNLAQFVRDNATEPGFGSLGERGSNKINIDKFAAILKKLHSEDYNNGIEELATKILNDINLPFYKEYDDDINEVLEQLFNRIKYLRIDDHGPKQGPITKKLPLSEPYFTRFKAKDGEEYALANNGAIWDGNPLVDFASSQSKAYLRREVIVWGDCVKLRYGKGPSDSPYLWERMSKYVEMNARIFNGFRIDNCHSTPLHVGQYFLDVARRVNPNLYVVAELFSGSEAMDCLFVERLGISSLIREAMQAWSEEELSRLVHRHGGRPIGSYKFVPLDDFPYPADVKIDEEYCAYNPDDHSVKCVSEIMIPKTLTATPPHALFMDCTHDNETPNQKRTVEDTLPNAALVAFCSSAIGSVYGYDEVFPQLLDLVQEKRTYSCAENTGISKVKTLLNNMREEIASEAVDIEDSEMHVHHDGQYITFHRTNAKNGKGWYLVARTKFHSSGDQMLPRIKLSQTKATFKAAFSLERTGDAPISDEIIEGIPTKLRELTGFDIGFDENTKETSILLPQDFPQGSIVIFETQQLGIDDSLDHFIRSGAIKATEKLSLESINYVLYRAEQEEYDYSEGRSGAYDIPDYGKPVYCGLQGWVSILRKIIFYNDLAHPLSNNLRNGHWAVDYVVNRLDLYKDKEGVAEVQEWLRSRMERIKQLPSYLVPSFFALVVGIMYGCCRLRAMQLMSDNVGKSTVFVQSLAMTSIQMVSAMKSTSILPDQNIAAMAAGLPHFSTNYMRCWGRDVFISLRGLLLTTGRYEEAKEHILAFAKTLKHGLIPNLLDAGRNPRYNARDAAWFFVQAIQDYVTIVPGGVSLLQEKVTRRFPLDDEYIPYDDPKAFSYSSTIEEIIYEILNRHAGGIKYREANAGPNLDRVMKDEGFNVEVNVDWETGLIHGGSQFNCGTWMDKMGESEKANSVGVPGTPRDGAAVEINGLLKSCLRFVLQLSKDGKFKYTEVTKPDGSKISLSSWNDLLQENFERCFYVPKNKEDDNKFEIDATIINRRGIYKDLYRSGKPYEDYQFRPNFTIAMVVAPELFTPDYAAGAIELADQVLRGPVGMRTLDPSDYNYRPYYNNGEDSDDFATSKGRNYHQGPEWVWCYGYFIRAYHYFNFLTNPKCQVEGSAKKLKPSSYLYRKLYSRLLKHREWIENSPWAGLAELTNKDGEVCNDSSPTQAWSTGCLLDLFYDLWISYEE 7ek3-a1-m4-cA_7ek3-a1-m5-cA Cryo-EM structure of VCCN1 Y332A mutant in lipid nanodisc A0A498JCY7 A0A498JCY7 2.7 ELECTRON MICROSCOPY 223 1.0 3750 (Malus domestica) 3750 (Malus domestica) 341 341 7ek1-a1-m1-cA_7ek1-a1-m2-cA 7ek1-a1-m1-cA_7ek1-a1-m5-cA 7ek1-a1-m2-cA_7ek1-a1-m3-cA 7ek1-a1-m3-cA_7ek1-a1-m4-cA 7ek1-a1-m4-cA_7ek1-a1-m5-cA 7ek2-a1-m1-cA_7ek2-a1-m2-cA 7ek2-a1-m1-cA_7ek2-a1-m5-cA 7ek2-a1-m2-cA_7ek2-a1-m3-cA 7ek2-a1-m3-cA_7ek2-a1-m4-cA 7ek2-a1-m4-cA_7ek2-a1-m5-cA 7ek3-a1-m1-cA_7ek3-a1-m2-cA 7ek3-a1-m1-cA_7ek3-a1-m5-cA 7ek3-a1-m2-cA_7ek3-a1-m3-cA 7ek3-a1-m3-cA_7ek3-a1-m4-cA SPVQTLISILRIIPDWSDRTQERGMRQHRTLYDHEKWMHHRSSYRHLRHLLSSLSSRVILSLIPPVIAFTLVAVVIASYNTAVALDLLPGIFPLLRSSSLPYQLTAPALALLLVFRTEASYSRFEEGRKSWTEVIAGANDFARQIISSVETSGDAQLKKALLQYIVAFPVALKCHVIYGSDIARDLQNLLEVDDLLVVLNSKHRPGCIIQFISRSLQLLKLEESRRIMLQSKISCFHEGIGICEQLIGTPIPLSATRLTSRFLVLWHLTLPIILWDDCHWIVVPATFISAASLFCIEQVGVLIEEPFPMLALDDLCNSVRNNVQEALASEKLIRARLAAKG SPVQTLISILRIIPDWSDRTQERGMRQHRTLYDHEKWMHHRSSYRHLRHLLSSLSSRVILSLIPPVIAFTLVAVVIASYNTAVALDLLPGIFPLLRSSSLPYQLTAPALALLLVFRTEASYSRFEEGRKSWTEVIAGANDFARQIISSVETSGDAQLKKALLQYIVAFPVALKCHVIYGSDIARDLQNLLEVDDLLVVLNSKHRPGCIIQFISRSLQLLKLEESRRIMLQSKISCFHEGIGICEQLIGTPIPLSATRLTSRFLVLWHLTLPIILWDDCHWIVVPATFISAASLFCIEQVGVLIEEPFPMLALDDLCNSVRNNVQEALASEKLIRARLAAKG 7ekl-a1-m1-cA_7ekl-a1-m1-cB Mitochondrial outer membrane protein Q9NP58 Q9NP58 3.5 ELECTRON MICROSCOPY 413 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 590 590 TWRDFGRKLRLLSGYLWPRGSPALQLVVLICLGLMGLERALNVLVPIFYRNIVNLLTEKAPWNSLAWTVTSYVFLKFLQGGGTGSTGFVSNLRTFLWIRVQQFTSRRVELLIFSHLHELSLRWHLGRRTGEVLRIADRGTSSVTGLLSYLVFNVIPTLADIIIGIIYFSMFFNAWFGLIVFLCMSLYLTLTIVVTEWRTKFRRAMNTQENATRARAVDSLLNFETVKYYNAESYEVERYREAIIKYQGLEWKSSASLVLLNQTQNLVIGLGLLAGSLLCAYFVTEQKLQVGDYVLFGTYIIQLYMPLNWFGTYYRMIQTNFIDMENMFDLLKEETEVKDLPGAGPLRFQKGRIEFENVHFSYADGRETLQDVSFTVMPGQTLALVGPSGAGKSTILRLLFRFYDISSGCIRIDGQDISQVTQASLRSHIGVVPQDTVLFNDTIADNIRYGRVTAGNDEVEAAAQAAGIHDAIMAFPEGYRTQVGERGLKLSGGEKQRVAIARTILKAPGIILLDQATSALDTSNERAIQASLAKVCANRTTIVVAHRLSTVVNADQILVIKDGCIVERGRHEALLSRGGVYADMWQLQQG TWRDFGRKLRLLSGYLWPRGSPALQLVVLICLGLMGLERALNVLVPIFYRNIVNLLTEKAPWNSLAWTVTSYVFLKFLQGGGTGSTGFVSNLRTFLWIRVQQFTSRRVELLIFSHLHELSLRWHLGRRTGEVLRIADRGTSSVTGLLSYLVFNVIPTLADIIIGIIYFSMFFNAWFGLIVFLCMSLYLTLTIVVTEWRTKFRRAMNTQENATRARAVDSLLNFETVKYYNAESYEVERYREAIIKYQGLEWKSSASLVLLNQTQNLVIGLGLLAGSLLCAYFVTEQKLQVGDYVLFGTYIIQLYMPLNWFGTYYRMIQTNFIDMENMFDLLKEETEVKDLPGAGPLRFQKGRIEFENVHFSYADGRETLQDVSFTVMPGQTLALVGPSGAGKSTILRLLFRFYDISSGCIRIDGQDISQVTQASLRSHIGVVPQDTVLFNDTIADNIRYGRVTAGNDEVEAAAQAAGIHDAIMAFPEGYRTQVGERGLKLSGGEKQRVAIARTILKAPGIILLDQATSALDTSNERAIQASLAKVCANRTTIVVAHRLSTVVNADQILVIKDGCIVERGRHEALLSRGGVYADMWQLQQG 7ekp-a1-m1-cA_7ekp-a1-m1-cB human alpha 7 nicotinic acetylcholine receptor bound to EVP-6124 P36544 P36544 2.85 ELECTRON MICROSCOPY 171 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 396 396 7eki-a1-m1-cA_7eki-a1-m1-cB 7eki-a1-m1-cA_7eki-a1-m1-cE 7eki-a1-m1-cB_7eki-a1-m1-cC 7eki-a1-m1-cC_7eki-a1-m1-cD 7eki-a1-m1-cD_7eki-a1-m1-cE 7ekp-a1-m1-cA_7ekp-a1-m1-cE 7ekp-a1-m1-cB_7ekp-a1-m1-cC 7ekp-a1-m1-cC_7ekp-a1-m1-cD 7ekp-a1-m1-cD_7ekp-a1-m1-cE 7ekt-a1-m1-cA_7ekt-a1-m1-cB 7ekt-a1-m1-cA_7ekt-a1-m1-cE 7ekt-a1-m1-cB_7ekt-a1-m1-cC 7ekt-a1-m1-cC_7ekt-a1-m1-cD 7ekt-a1-m1-cD_7ekt-a1-m1-cE 7koo-a1-m1-cA_7koo-a1-m1-cB 7koo-a1-m1-cA_7koo-a1-m1-cE 7koo-a1-m1-cB_7koo-a1-m1-cC 7koo-a1-m1-cC_7koo-a1-m1-cD 7koo-a1-m1-cD_7koo-a1-m1-cE 7koq-a1-m1-cA_7koq-a1-m1-cB 7koq-a1-m1-cA_7koq-a1-m1-cE 7koq-a1-m1-cB_7koq-a1-m1-cC 7koq-a1-m1-cC_7koq-a1-m1-cD 7koq-a1-m1-cD_7koq-a1-m1-cE 7kox-a1-m1-cA_7kox-a1-m1-cB 7kox-a1-m1-cA_7kox-a1-m1-cE 7kox-a1-m1-cB_7kox-a1-m1-cC 7kox-a1-m1-cC_7kox-a1-m1-cD 7kox-a1-m1-cD_7kox-a1-m1-cE GEFQRKLYKELVKNYNPLERPVANDSQPLTVYFSLSLLQIMDVDEKNQVLTTNIWLQMSWTDHYLQWNVSEYPGVKTVRFPDGQIWKPDILLYNSADERFDATFHTNVLVNSSGHCQYLPPGIFKSSCYIDVRWFPFDVQHCKLKFGSWSYGGWSLDLQMQEADISGYIPNGEWDLVGIPGKRSERFYECCKEPYPDVTFTVTMRRRTLYYGLNLLIPCVLISALALLVFLLPADSGEKISLGITVLLSLTVFMLLVAEIMPATSDSVPLIAQYFASTMIIVGLSVVVTVIVLQYHHHDPDGGKMPKWTRVILLNWCAWFLRMKRDLAKILEEVRYIANRFRCQDESEAVCSEWKFAACVVDRLCLMAFSVFTIICTIGILMSAPNFVEAVSKDFA GEFQRKLYKELVKNYNPLERPVANDSQPLTVYFSLSLLQIMDVDEKNQVLTTNIWLQMSWTDHYLQWNVSEYPGVKTVRFPDGQIWKPDILLYNSADERFDATFHTNVLVNSSGHCQYLPPGIFKSSCYIDVRWFPFDVQHCKLKFGSWSYGGWSLDLQMQEADISGYIPNGEWDLVGIPGKRSERFYECCKEPYPDVTFTVTMRRRTLYYGLNLLIPCVLISALALLVFLLPADSGEKISLGITVLLSLTVFMLLVAEIMPATSDSVPLIAQYFASTMIIVGLSVVVTVIVLQYHHHDPDGGKMPKWTRVILLNWCAWFLRMKRDLAKILEEVRYIANRFRCQDESEAVCSEWKFAACVVDRLCLMAFSVFTIICTIGILMSAPNFVEAVSKDFA 7ekq-a1-m1-cR_7ekq-a1-m1-cS CrClpP-S2c A0A2K3DG79 A0A2K3DG79 3.6 ELECTRON MICROSCOPY 47 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 194 194 ATPVPKQFKAVKPVGDRVLVKVDKEEAKSVGGVLLPASVRNKPTAGSIIALGDAKSVKLSDKVIYSKFAGTELELGGAEHVLLKEEDVIGVLSASEKIAQLKPLSDRILIKGAKAEDKTSGGVLLATESAEKPTFGTVVAVGEGREDEETKALVKPNVTVGATVMYSKYSGTEFEEDGDNYIVVRESDILAQLS ATPVPKQFKAVKPVGDRVLVKVDKEEAKSVGGVLLPASVRNKPTAGSIIALGDAKSVKLSDKVIYSKFAGTELELGGAEHVLLKEEDVIGVLSASEKIAQLKPLSDRILIKGAKAEDKTSGGVLLATESAEKPTFGTVVAVGEGREDEETKALVKPNVTVGATVMYSKYSGTEFEEDGDNYIVVRESDILAQLS 7eku-a1-m1-cB_7eku-a1-m1-cA Crystal Structure of the Candida Glabrata Glycogen Debranching Enzyme (W958A) Q6FSK0 Q6FSK0 3.1 X-RAY DIFFRACTION 11 0.999 284593 (Nakaseomyces glabratus CBS 138) 284593 (Nakaseomyces glabratus CBS 138) 1498 1525 AHRTLLLRLSDSGEPVTSCSYGQGVLTLPSLPLPQGKKLGDMPVYTVKLAIPAGSPVTRDGLIWTNCPPDFSTQFDREKFYKKIIKTSFHEDDHIDLDIYVPGTYCFYLSFKNDKDELETTRKFYFVVLPILSVNDKFIPLNSIAMQSVVSKWMGPTIKDWEKVFARVASKKYNMIHFTPLQHRGESNSPYSIYDQLEFDPTVFKSEKEVADMVERLRTEHNILSLTDIVFNHTANNSQWLLDHPEAGYNHKTSPHLISAIELDKKLLDFSEQMEALGYPVVDDLIKVMDGIKEHVIGWEFYVVDVKQTVSELREKWGNNIPSKSTNLAQFVRDNATEPGFGSLGERGSNKINIDKFAAILKKLHYNNGIEELATKILNDINLPFYKEYDDDINEVLEQLFNRIKYLRIDITKKLPLSEPYFTRFKAKDGEEYALANNGWIWDGNPLVDFASSQSKAYLRREVIVWGDCVKLRYGKGPSDSPYLWERMSKYVEMNARIFNGFRIDNCHSTPLHVGQYFLDVARRVNPNLYVVAELFSGSEAMDCLFVERLGISSLIREAMQAWSEEELSRLVHRHGGRPIGSYKFVPLDDFPYPADVKIDEEYCAYNPDDHSVKCVSEIMIPKTLTATPPHALFMDCTHDNETPNQKRTVEDTLPNAALVAFCSSAIGSVYGYDEVFPQLLDLVQEKRTYSCAENTGISKVKTLLNNMREEIASEAVDIEDSEMHVHHDGQYITFHRTNAKNGKGWYLVARTKFHSSGDQMLPRIKLSQTKATFKAAFSLERTGDAPISDEIIEGIPTKLRELTGFDIGFDENTKETSILLPQDFPQGSIVIFETQQLGIDDSLDHFIRSGAIKATEKLSLESINYVLYRAEQEEYDYSEGRSGAYDIPDYGKPVYCGLQGWVSILRKIIFYNDLAHPLSNNLRNGHAAVDYVVNRLDLYKDKEGVAEVQEWLRSRMERIKQLPSYLVPSFFALVVGIMYGCCRLRAMQLMSDNVGKSTVFVQSLAMTSIQMVSAMKSTSILPDQNIAAMAAGLPHFSTNYMRCWGRDVFISLRGLLLTTGRYEEAKEHILAFAKTLKHGLIPNLLDAGRNPRYNARDAAWFFVQAIQDYVTIVPGGVSLLQEKVTRRFPLDDEYIPYDDPKAFSYSSTIEEIIYEILNRHAGGIKYREANAGPNLDRVMKDEGFNVEVNVDWETGLIHGGSQFNCGTWMDKMGESEKANSVGVPGTPRDGAAVEINGLLKSCLRFVLQLSKDGKFKYTEVTKPDGSKISLSSWNDLLQENFERCFYVPKNKEDDNKFEIDATIINRRGIYKDLYRSGKPYEDYQFRPNFTIAMVVAPELFTPDYAAGAIELADQVLRGPVGMRTLDPSDYNYRPYYNNGEDSDDFATSKGRNYHQGPEWVWCYGYFIRAYHYFNFLTNPKCQVEGSAKKLKPSSYLYRKLYSRLLKHREWIENSPWAGLAELTNKDGEVCNDSSPTQAWSTGCLLDLFYDLWISYEE AHRTLLLRLSDSGEPVTSCSYGQGVLTLPSLPLPQGKKLGDMPVYTVKLAIPAGSPVTRDGLIWTNCPPDFSTQFDREKFYKKIIKTSFHEDDHIDLDIYVPGTYCFYLSFKNDKDELETTRKFYFVVLPILSVNDKFIPLNSIAMQSVVSKWMGPTIKDWEKVFARVASKKYNMIHFTPLQHRGESNSPYSIYDQLEFDPTVFKSEKEVADMVERLRTEHNILSLTDIVFNHTANNSQWLLDHPEAGYNHKTSPHLISAIELDKKLLDFSEQMEALGYPVDLKTVDDLIKVMDGIKEHVIGELKLWEFYVVDVKQTVSELREKWGNSKSWSDDNIPSKDDSTNLAQFVRDNATEPGFGSLGERGSNKINIDKFAAILKKLHSEDYNNGIEELATKILNDINLPFYKEYDDDINEVLEQLFNRIKYLRIDDHGPKQGPITKKLPLSEPYFTRFKAKDGEEYALANNGWIWDGNPLVDFASSQSKAYLRREVIVWGDCVKLRYGKGPSDSPYLWERMSKYVEMNARIFNGFRIDNCHSTPLHVGQYFLDVARRVNPNLYVVAELFSGSEAMDCLFVERLGISSLIREAMQAWSEEELSRLVHRHGGRPIGSYKFVPLDDFPYPADVKIDEEYCAYNPDDHSVKCVSEIMIPKTLTATPPHALFMDCTHDNETPNQKRTVEDTLPNAALVAFCSSAIGSVYGYDEVFPQLLDLVQEKRTYSCAENTGISKVKTLLNNMREEIASEAVDIEDSEMHVHHDGQYITFHRTNAKNGKGWYLVARTKFHSSGDQMLPRIKLSQTKATFKAAFSLERTGDAPISDEIIEGIPTKLRELTGFDIGFDENTKETSILLPQDFPQGSIVIFETQQLGIDDSLDHFIRSGAIKATEKLSLESINYVLYRAEQEEYDYSEGRSGAYDIPDYGKPVYCGLQGWVSILRKIIFYNDLAHPLSNNLRNGHAAVDYVVNRLDLYKDKEGVAEVQEWLRSRMERIKQLPSYLVPSFFALVVGIMYGCCRLRAMQLMSDNVGKSTVFVQSLAMTSIQMVSAMKSTSILPDQNIAAMAAGLPHFSTNYMRCWGRDVFISLRGLLLTTGRYEEAKEHILAFAKTLKHGLIPNLLDAGRNPRYNARDAAWFFVQAIQDYVTIVPGGVSLLQEKVTRRFPLDDEYIPYDDPKAFSYSSTIEEIIYEILNRHAGGIKYREANAGPNLDRVMKDEGFNVEVNVDWETGLIHGGSQFNCGTWMDKMGESEKANSVGVPGTPRDGAAVEINGLLKSCLRFVLQLSKDGKFKYTEVTKPDGSKISLSSWNDLLQENFERCFYVPKNKEDDNKFEIDATIINRRGIYKDLYRSGKPYEDYQFRPNFTIAMVVAPELFTPDYAAGAIELADQVLRGPVGMRTLDPSDYNYRPYYNNGEDSDDFATSKGRNYHQGPEWVWCYGYFIRAYHYFNFLTNPKCQVEGSAKKLKPSSYLYRKLYSRLLKHREWIENSPWAGLAELTNKDGEVCNDSSPTQAWSTGCLLDLFYDLWISYE 7el3-a1-m1-cB_7el3-a1-m1-cA Crystal structure of HpaR-DNA complex from Acinetobacter baumannii A0A4Q4GPX4 A0A4Q4GPX4 1.7 X-RAY DIFFRACTION 129 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 135 138 PSLTLALLEAREAIMSHFRPALNEVGLTEQQWRIIRILYQYEELESNQLAELACILKPSLTGILNRMVEQKLIQKRKDYDDQRISLISLTESGLECFKTQAVKMEASYQKIQEQYGEEKMKQLLELLKDLSKIKL PIRPSLTLALLEAREAIMSHFRPALNEVGLTEQQWRIIRILYQYEELESNQLAELACILKPSLTGILNRMVEQKLIQKRKDYDDQRISLISLTESGLECFKTQAVKMEASYQKIQEQYGEEKMKQLLELLKDLSKIKL 7el6-a1-m1-cB_7el6-a1-m1-cA Structure of SMCR8 bound FEM1B Q8TEV9 Q8TEV9 2.802 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 338 348 MEGLAGYVYKAASEGKVLTLAALLLNRSESDIRYLLGYVSQQGGQRSTPLIIAARNGHAKVVRLLLEHYRVQTQQTGTVRFDGYVIDGATALWCAAGAGHFEVVKLLVSHGANVNHTTVTNSTPLRAACFDGRLDIVKYLVENNANISIANKYDNTCLMIAAYKGHTDVVRYLLEQRADPNAKAHCGATALHFAAEAGHIDIVKELIKWRAAIVVNGHGMTPLKVAAESCKADVVELLLSHADCDRRSRIEALELLGASFANDRENYDIIKTYHYLYLAMLERFNILEKEAYGNRTECRNPQELESIRQDRDALHMEGLIVRERILGSQKWKLIGLQR MEGLAGYVYKAASEGKVLTLAALLLNRSESDIRYLLGYVSQQGGQRSTPLIIAARNGHAKVVRLLLEHYRVQTQQTGTVRFDGYVIDGATALWCAAGAGHFEVVKLLVSHGANVNHTTVTNSTPLRAACFDGRLDIVKYLVENNANISIANKYDNTCLMIAAYKGHTDVVRYLLEQRADPNAKAHCGATALHFAAEAGHIDIVKELIKWRAAIVVNGHGMTPLKVAAESCKADVVELLLSHADCDRRSRIEALELLGASFANDRENYDIIKTYHYLYLAMLERFQDGDNILEKEVLPPIHAYGNRTECRNPQELESIRQDRDALHMEGLIVRERILGSQKWKLIGLQR 7el9-a1-m1-cA_7el9-a1-m1-cD Structure of Machupo virus L polymerase in complex with Z protein and 3'-vRNA (dimeric complex) Q6IVU0 Q6IVU0 3.2 ELECTRON MICROSCOPY 163 1.0 11628 () 11628 () 1731 1731 DEYVQELKGLIRKHEFGHQKVTFLSQSPLLTEGFKLLSSLVELESCEAHACQADGFKLTGKTLILLETFVRVNPDEFEKKWKADMSKLLNLKHDLQKTLVPIVDGRSNYNNRFVADWVIERIRWLLIEILKASEDQEYQRLIHSLSNVKNQSLGLENLEHLKRNSLDYDERLNESLFIGLKGDIRESTVREELIKLKLWFKDEVFSKGLGKFKLTDRRELLESLSSLGAHLDSDVSSCPFCNNKLMEIVYNVTFSCVERTDTHSNIEKHYLSVLSLCNKIKGLKVFNTRRNTLLFLDLIMVNLMVDISDSCQDAIESLRKSGLIVGQMVMLVNDRVLDILEAVKLIRKKIGTNPNWVKNCSKILERSHPEIWHHLSTLIKQPDFNSLISIAQHLVSDRPIMRYSVKICRHKLFQEMSSFEQMRLFKTLSSISLSLINSMKTSFSSRLLVNEYFGNVRLRECYAQRFYLAESLVGFLFYQKTGERSRCYSVYLSDNGVMSEQGSFYCDPKRFFLPVFSDEVLAGMCEEMTSWLDFDTGLMNDTGPILRLLVLAILCSPSKRNQTFLQGLRYFLMAFANQIHHIDLTSKLVVECKSSSEVVVQRLAVGLFIRLLSGESDASLFFSRRFKYLLNVSYLCHLITKETPDRLTDQIKCFEKFIEPKVKFGCAVVNPSLNGKLTVDQEDIMINGLKKFFSKSLRDTEDVQTPGVCKELLNYCVSLFNRGKLKVSGELKNNPFRSPTEFTSISSNSGNLKFGLSYKEQVGSNRELYVGDLNTKLMTRLVEDFSEAVGNSMKYTCLNSEKEFERAICDMKMAVNNGDLSCSYDHSKWGPTMSPALFLALLQMLELRTPVDRSKIDLDSVKSILKWHLHKVVEVPINVAEAYCIGTSLSEEFFHQTMQLNGQIPSHIMSVLDMGQGILHNTSDLYGLITEQFLCYALDLLYDVIPVSYTSSDDQITLIKTPSDAAEWLEMICFHEFLSSKLNKFVSPKSVIGTFVAEFKSRFFVMGEETPLLTKFVAAALHNVKCKTPTQLSETIDTICDQCIANGVSTKIVTRISKRVNQLIRYSGYGETPFGAIEDQDVKDWVDGSRGYRLQRKIEAIFHDDKETSFIRNCARKVFNDIKRGRIFEENLINLIGRGGDEALTGFLQYAGCSEQEVNRVLNYRWVNLSSFGDLRLVEEVPTLIKTLQSKLSRQSSVASGFIGFCKSMGSKCVRDGKGGFLYIKEVYSGVSACTCEICALKPKIIYCNNSLNKVSQFSKPILWDYFSLVLTNACELGEWVFSTVKEPQKPLNNQNFFWAVKPKVVRQIEDQLGMNHVLQSIRRNYPVLFDEHLTPFMNDLQVSRTMDSGRLKFLDVCIALDMMNENLGIISHLLKTRDNSVYIVKQSDCALAHIRQSSYTDWELGLSPQQICTNFKTQLVLSSMVNPLVLSTSCLKSFFWFNEVLELEDDSQIELAELTDFALMVKNQNVSRAMFVEDIAMGYVVSNFEGVRISLSNVMVDGVQLPPQDIGELFGLKAGLVVQIDHVRMSTKFKLKRKMVYSFSLECIMDVGEIQNKEVILKVVAVDQSVSGSGGNHMLLDGVSVVASLPLFTGQASFDLAAMLIESNLAGSNDNFLMRNVTLDLGGFSPELSDKYSYRLSGPENQEDPLVLKDGAFYVGGERLSTYKVEFTGDLVVKALGALEDDESVVSMLHQLWPYLKATSQVILFQQEDFTIVHDLYKKQLTKSIE DEYVQELKGLIRKHEFGHQKVTFLSQSPLLTEGFKLLSSLVELESCEAHACQADGFKLTGKTLILLETFVRVNPDEFEKKWKADMSKLLNLKHDLQKTLVPIVDGRSNYNNRFVADWVIERIRWLLIEILKASEDQEYQRLIHSLSNVKNQSLGLENLEHLKRNSLDYDERLNESLFIGLKGDIRESTVREELIKLKLWFKDEVFSKGLGKFKLTDRRELLESLSSLGAHLDSDVSSCPFCNNKLMEIVYNVTFSCVERTDTHSNIEKHYLSVLSLCNKIKGLKVFNTRRNTLLFLDLIMVNLMVDISDSCQDAIESLRKSGLIVGQMVMLVNDRVLDILEAVKLIRKKIGTNPNWVKNCSKILERSHPEIWHHLSTLIKQPDFNSLISIAQHLVSDRPIMRYSVKICRHKLFQEMSSFEQMRLFKTLSSISLSLINSMKTSFSSRLLVNEYFGNVRLRECYAQRFYLAESLVGFLFYQKTGERSRCYSVYLSDNGVMSEQGSFYCDPKRFFLPVFSDEVLAGMCEEMTSWLDFDTGLMNDTGPILRLLVLAILCSPSKRNQTFLQGLRYFLMAFANQIHHIDLTSKLVVECKSSSEVVVQRLAVGLFIRLLSGESDASLFFSRRFKYLLNVSYLCHLITKETPDRLTDQIKCFEKFIEPKVKFGCAVVNPSLNGKLTVDQEDIMINGLKKFFSKSLRDTEDVQTPGVCKELLNYCVSLFNRGKLKVSGELKNNPFRSPTEFTSISSNSGNLKFGLSYKEQVGSNRELYVGDLNTKLMTRLVEDFSEAVGNSMKYTCLNSEKEFERAICDMKMAVNNGDLSCSYDHSKWGPTMSPALFLALLQMLELRTPVDRSKIDLDSVKSILKWHLHKVVEVPINVAEAYCIGTSLSEEFFHQTMQLNGQIPSHIMSVLDMGQGILHNTSDLYGLITEQFLCYALDLLYDVIPVSYTSSDDQITLIKTPSDAAEWLEMICFHEFLSSKLNKFVSPKSVIGTFVAEFKSRFFVMGEETPLLTKFVAAALHNVKCKTPTQLSETIDTICDQCIANGVSTKIVTRISKRVNQLIRYSGYGETPFGAIEDQDVKDWVDGSRGYRLQRKIEAIFHDDKETSFIRNCARKVFNDIKRGRIFEENLINLIGRGGDEALTGFLQYAGCSEQEVNRVLNYRWVNLSSFGDLRLVEEVPTLIKTLQSKLSRQSSVASGFIGFCKSMGSKCVRDGKGGFLYIKEVYSGVSACTCEICALKPKIIYCNNSLNKVSQFSKPILWDYFSLVLTNACELGEWVFSTVKEPQKPLNNQNFFWAVKPKVVRQIEDQLGMNHVLQSIRRNYPVLFDEHLTPFMNDLQVSRTMDSGRLKFLDVCIALDMMNENLGIISHLLKTRDNSVYIVKQSDCALAHIRQSSYTDWELGLSPQQICTNFKTQLVLSSMVNPLVLSTSCLKSFFWFNEVLELEDDSQIELAELTDFALMVKNQNVSRAMFVEDIAMGYVVSNFEGVRISLSNVMVDGVQLPPQDIGELFGLKAGLVVQIDHVRMSTKFKLKRKMVYSFSLECIMDVGEIQNKEVILKVVAVDQSVSGSGGNHMLLDGVSVVASLPLFTGQASFDLAAMLIESNLAGSNDNFLMRNVTLDLGGFSPELSDKYSYRLSGPENQEDPLVLKDGAFYVGGERLSTYKVEFTGDLVVKALGALEDDESVVSMLHQLWPYLKATSQVILFQQEDFTIVHDLYKKQLTKSIE 7elb-a1-m1-cA_7elb-a1-m1-cC Structure of Machupo virus L polymerase in complex with Z protein (dimeric form) Q6IVU0 Q6IVU0 4.1 ELECTRON MICROSCOPY 146 1.0 11628 () 11628 () 1937 1937 6klh-a1-m1-cA_6klh-a1-m1-cC DEYVQELKGLIRKHIPERCEFGHQKVTFLSQVHPSPLLTEGFKLLSSLVELESCEAHACQANTDQRFVDVILSDNGILCPTLPKVIPDGFKLTGKTLILLETFVRVNPDEFEKKWKADMSKLLNLKHDLQKSGVTLVPIVDGRSNYNNRFVADWVIERIRWLLIEILKASKSEDQEYQRLIHSLSNVKLENLEHLKRNSLDYDERLNESLFIGLKGDIRESTVREELIKLKLWFKDEVFSKGLGKFKLTDRRELLESLSSLGAHLDSDVSSCPFCNNKLMEIVYNVTFSCVERSNIEKHYLSVLSLCNKIKGLKVFNTRRNTLLFLDLIMVNLMVDISDSCQDAIESLRKSGLIVGQMVMLVNDRVLDILEAVKLIRKKIGTNPNWVKNCSKILERSHPEIWHHLSTLIKQPDFNSLISIAQHLVSDRPIMRYSKICRHKLFQEMSSFEQMRLFKTLSSISLSLINSMKTSFSSRLLVNEFGNVRLRECYAQRFYLAESLVGFLFYQKTGERSRCYSVYLSDNGVMSEQGSFYCDPKRFFLPVFSDEVLAGMCEEMTSWLDFDTGLMNDTGPILRLLVLAILCSPSKRNQTFLQGLRYFLMAFANQIHHIDLTSKLVVECKSSSEVVVQRLAVGLFIRLLSGESDASLFFSRRFKYLLNVSYLCHLITKETPDRLTDQIKCFEKFIEPKVKFGCAVVNPSLNGKLTVDQEDIMINGLKKFFSKSLRDTEDVQTPGVCKELLNYCVSLFNRGKLKVSGELKNNPFRIPKLDELGNILSTYDKEKLVSACVSSMAERFKNLDPDSTDYLILKNLTTQEELSLMYEALTEEQVESFNEIKHDVQVALAKMADVSLHEVKDFDPDVLPPEVYKELCDAVYKSSEKCNFFLEGVLDVCPLGLLLKNLTTSSYVDEEYFMCFKYLLIQGHFDQFTNAALRNLCFYSEDSPTEFTSISSNSGNLKFGLSYKEQVGSNRELYVGDLNTKLMTRLVEDFSEAVGNSMKYTCLNSEKEFERAICDMKMAVNNGDLSCSYDHSKWGPTMSPALFLALLQMLELRTPVDRSKIDLDSVKSILKWHLHKVVEVPINVAEAYCIGSTSLSEEFFHQTMQLNGQIPSHIMSVLDMGQGILHNTSDLYGLITEQFLCYALDLLYDVIPVSYTSSDDQITLIKTPSDAAEWLEMICFHEFLSSKLNKFVSPKSVIGTFVAEFKSRFFVMGEETPLLTKFVAAALHNVKCKTPTQLSETIDTICDQCIANGVSTKIVTRISKRVNQLIRYSGYGETPFGAIEDQDVKDWVDGSRGYRLQRKIEAIFHDDKETSFIRNCARKVFNDIKRGRIFEENLINLIGRGGDEALTGFLQYAGCSEQEVNRVLNYRWVNLSSFGDLRLVLRTKLMTVPTLIKTLQSKLSRQSSVASGFIGFCKSMGSKCVRDGGFLYIKEVYSGVSACTCEICALKPKIIYCNNSLNKVSQFSKPILWDYFSLVLTNACELGEWVFSTVKEPQNNQNFFWAVKPKVVRQIEDQLGMNHVLQSIRRNYPVLFDEHLTPFMNDLQVSRTMDSGRLKFLDVCIALDMMNENLGIISHLLKTRDNSVYIVKQSDCALAHIRQSSYTDWELGLSPQQICTNFKTQLVLSSMVNPLVLSTSCLKSFFWFNEVLELEDDSQIELAELTDFALMVKNQNVSRAMFVEDIAMGYVVSNFEGVRISLSNVMVDGVQLPPQDIGELFGLKAGLVVQIDHVRMSTKFKLKRKMVYSFSLECIMDVGEIQNKEVILKVVAVDQSVSGSGGNHMLLDGVSVVASLPLFTGQASFDLAAMLIESNLAGSNDNFLMRNVTLDLGGFSPELSDKYSYRLSGPENQEDPLVLKDGAFYVGGERLSTYKVEFTGDLVVKALGALEDDESVVSMLHQLWPYLKATSQVILFQQEDFTIVHDLYKKQLTKSIE DEYVQELKGLIRKHIPERCEFGHQKVTFLSQVHPSPLLTEGFKLLSSLVELESCEAHACQANTDQRFVDVILSDNGILCPTLPKVIPDGFKLTGKTLILLETFVRVNPDEFEKKWKADMSKLLNLKHDLQKSGVTLVPIVDGRSNYNNRFVADWVIERIRWLLIEILKASKSEDQEYQRLIHSLSNVKLENLEHLKRNSLDYDERLNESLFIGLKGDIRESTVREELIKLKLWFKDEVFSKGLGKFKLTDRRELLESLSSLGAHLDSDVSSCPFCNNKLMEIVYNVTFSCVERSNIEKHYLSVLSLCNKIKGLKVFNTRRNTLLFLDLIMVNLMVDISDSCQDAIESLRKSGLIVGQMVMLVNDRVLDILEAVKLIRKKIGTNPNWVKNCSKILERSHPEIWHHLSTLIKQPDFNSLISIAQHLVSDRPIMRYSKICRHKLFQEMSSFEQMRLFKTLSSISLSLINSMKTSFSSRLLVNEFGNVRLRECYAQRFYLAESLVGFLFYQKTGERSRCYSVYLSDNGVMSEQGSFYCDPKRFFLPVFSDEVLAGMCEEMTSWLDFDTGLMNDTGPILRLLVLAILCSPSKRNQTFLQGLRYFLMAFANQIHHIDLTSKLVVECKSSSEVVVQRLAVGLFIRLLSGESDASLFFSRRFKYLLNVSYLCHLITKETPDRLTDQIKCFEKFIEPKVKFGCAVVNPSLNGKLTVDQEDIMINGLKKFFSKSLRDTEDVQTPGVCKELLNYCVSLFNRGKLKVSGELKNNPFRIPKLDELGNILSTYDKEKLVSACVSSMAERFKNLDPDSTDYLILKNLTTQEELSLMYEALTEEQVESFNEIKHDVQVALAKMADVSLHEVKDFDPDVLPPEVYKELCDAVYKSSEKCNFFLEGVLDVCPLGLLLKNLTTSSYVDEEYFMCFKYLLIQGHFDQFTNAALRNLCFYSEDSPTEFTSISSNSGNLKFGLSYKEQVGSNRELYVGDLNTKLMTRLVEDFSEAVGNSMKYTCLNSEKEFERAICDMKMAVNNGDLSCSYDHSKWGPTMSPALFLALLQMLELRTPVDRSKIDLDSVKSILKWHLHKVVEVPINVAEAYCIGSTSLSEEFFHQTMQLNGQIPSHIMSVLDMGQGILHNTSDLYGLITEQFLCYALDLLYDVIPVSYTSSDDQITLIKTPSDAAEWLEMICFHEFLSSKLNKFVSPKSVIGTFVAEFKSRFFVMGEETPLLTKFVAAALHNVKCKTPTQLSETIDTICDQCIANGVSTKIVTRISKRVNQLIRYSGYGETPFGAIEDQDVKDWVDGSRGYRLQRKIEAIFHDDKETSFIRNCARKVFNDIKRGRIFEENLINLIGRGGDEALTGFLQYAGCSEQEVNRVLNYRWVNLSSFGDLRLVLRTKLMTVPTLIKTLQSKLSRQSSVASGFIGFCKSMGSKCVRDGGFLYIKEVYSGVSACTCEICALKPKIIYCNNSLNKVSQFSKPILWDYFSLVLTNACELGEWVFSTVKEPQNNQNFFWAVKPKVVRQIEDQLGMNHVLQSIRRNYPVLFDEHLTPFMNDLQVSRTMDSGRLKFLDVCIALDMMNENLGIISHLLKTRDNSVYIVKQSDCALAHIRQSSYTDWELGLSPQQICTNFKTQLVLSSMVNPLVLSTSCLKSFFWFNEVLELEDDSQIELAELTDFALMVKNQNVSRAMFVEDIAMGYVVSNFEGVRISLSNVMVDGVQLPPQDIGELFGLKAGLVVQIDHVRMSTKFKLKRKMVYSFSLECIMDVGEIQNKEVILKVVAVDQSVSGSGGNHMLLDGVSVVASLPLFTGQASFDLAAMLIESNLAGSNDNFLMRNVTLDLGGFSPELSDKYSYRLSGPENQEDPLVLKDGAFYVGGERLSTYKVEFTGDLVVKALGALEDDESVVSMLHQLWPYLKATSQVILFQQEDFTIVHDLYKKQLTKSIE 7elf-a1-m1-cA_7elf-a1-m1-cB Nitrilase-Like Protein Nit2 from Kluyve-romyces lactis Q6CN52 Q6CN52 2.2 X-RAY DIFFRACTION 24 0.997 284590 (Kluyveromyces lactis NRRL Y-1140) 284590 (Kluyveromyces lactis NRRL Y-1140) 291 293 NVARIGIGQLCSSSNLKQNLEVVKSLIKKALDQDVKVLFFPEATDYLSRNAEHSKKLASQTPEFISELQSAICQLTKAAGKPIDISIGIHMPPSEVNTKNGDSRVKNVLLYINSNGEILQKYQKLHLFDVDVPILKESNSVQPGSEIPSIINTPVGKLGSCICYDIRFPELSLKLRSKGAQILCFPSAFTMKTGEAHWELLGRARAIDTQSFVVMPAQQGEHDVYADEAVKRISWGHSMIIDPWGRILSAADLTTHDPQLIIADLDIEAQDKIRRDMPLWAQRRRDIFGDF NVARIGIGQLCSSSNLKQNLEVVKSLIKKALDQDVKVLFFPEATDYLSRNAEHSKKLASQTPEFISELQSAICQLTKAAGKPIDISIGIHMPPSEVNTKNGDSRVKNVLLYINSNGEILQKYQKLHLFDVDVPNGPILKESNSVQPGSEIPSIINTPVGKLGSCICYDIRFPELSLKLRSKGAQILCFPSAFTMKTGEAHWELLGRARAIDTQSFVVMPAQQGEHDVYADEVKRISWGHSMIIDPWGRILSAADLTTHDPQLIIADLDIEAQDKIRRDMPLWAQRRRDIFGDF 7ell-a1-m1-cg_7ell-a1-m1-cj In situ structure of capping enzyme lambda2, penetration protein mu1 of mammalian reovirus capsid asymmetric unit. P11078 P11078 3.8 ELECTRON MICROSCOPY 37 1.0 538123 (Mammalian orthoreovirus 3) 538123 (Mammalian orthoreovirus 3) 633 633 7ell-a1-m1-cb_7ell-a1-m1-ce 7ell-a1-m1-cc_7ell-a1-m1-cd 7ell-a1-m1-ce_7ell-a1-m1-ci PGGVPWIAVGDETSVTSPGALRRMTSKDIPETAIINTDNSSGAVPSESALVPYIDEPLVVVTEHAITNFTKAEMALEFNREFLDKMRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLRIDEATWLRMIPKSMNTPFQIQVTDNTGTNWHLNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPADLIGSYTPESLNTSLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSAHFPAP PGGVPWIAVGDETSVTSPGALRRMTSKDIPETAIINTDNSSGAVPSESALVPYIDEPLVVVTEHAITNFTKAEMALEFNREFLDKMRVLSVSPKYSDLLTYVDCYVGVSARQALNNFQKQVPVITPTRQTMYVDSIQAALKALEKWEIDLRVAQTLLPTNVPIGEVSCPMQSVVKLLDDQLPDDSLIRRYPKEAAVALAKRNGGIQWMDVSEGTVMNEAVNAVAASALAPSASAPPLEEKSKLTEQAMDLVTAAEPEIIASLVPVPAPVFAIPPKPADYNVRTLRIDEATWLRMIPKSMNTPFQIQVTDNTGTNWHLNLRGGTRVVNLDQIAPMRFVLDLGGKSYKETSWDPNGKKVGFIVFQSKIPFELWTAASQIGQATVVNYVQLYAEDSSFTAQSIIATTSLAYNYEPEQLNKTDPEMNYYLLATFIDSAAITPTNMTQPDVWDALLTMSPLSAGEVTVKGAVVSEVVPADLIGSYTPESLNTSLPNDAARCMIDRASKIAEAIKIDDDAGPDEYSPNSVPIQGQLAISQLETGYGVRIFNPKGILSKIASRAMQAFIGDPSTIITQAAPVLSDKNNWIALAQGVKTSLRTKSLSAGVKTAVSKLSSSESIQNWTQGFLDKVSAHFPAP 7eme-a1-m1-cB_7eme-a1-m1-cA Putative Leptospira interrogans recombinant L-amino acid oxidase A0A4D8SV19 A0A4D8SV19 1.78 X-RAY DIFFRACTION 103 1.0 173 (Leptospira interrogans) 173 (Leptospira interrogans) 412 413 KTVIVMGGGISGLYASYLLSKTGIKVQLIEATDRLGGRIRTVTDVSGNFLDLGAEWIQAEHRTAKSLIRELGLKTTDFEVQSDLFFGSYRKFGTWDISPKSQEILNKLVQMNSKINSTQQQELDRISFYNFLNYQGMSLEDLNILNFKYSLYYGDSLRSLSAQKVLSDLVNFPKYNTRVEGGMETLTRALVSSLENTEIIFSDPVVSVSQGEGKVIVTTVSGKKIEGNACISTLPANQLTTIQWDPELDKEKKLSALRIRYSRIYKTFLMLREAPWTRGSFSAYSDSVAGFIYDAGTKINSEDKILGMISTGDRYDILASSTDAMKVEYIRLALESLGQGRELQVLRIQSSETSQSKFIPTGIATFPPGSYGSIISLLKPMDRIFFAGEHTAELNGTVEGALASAIRAVNQV RKTVIVMGGGISGLYASYLLSKTGIKVQLIEATDRLGGRIRTVTDVSGNFLDLGAEWIQAEHRTAKSLIRELGLKTTDFEVQSDLFFGSYRKFGTWDISPKSQEILNKLVQMNSKINSTQQQELDRISFYNFLNYQGMSLEDLNILNFKYSLYYGDSLRSLSAQKVLSDLVNFPKYNTRVEGGMETLTRALVSSLENTEIIFSDPVVSVSQGEGKVIVTTVSGKKIEGNACISTLPANQLTTIQWDPELDKEKKLSALRIRYSRIYKTFLMLREAPWTRGSFSAYSDSVAGFIYDAGTKINSEDKILGMISTGDRYDILASSTDAMKVEYIRLALESLGQGRELQVLRIQSSETSQSKFIPTGIATFPPGSYGSIISLLKPMDRIFFAGEHTAELNGTVEGALASAIRAVNQV 7emg-a1-m1-cA_7emg-a1-m1-cB Carbonyl Reductase Variant 4 (R123C/L209P/F183Y/V61K) from Serratia marcescens complexed with NADP+ A0A0G8B235 A0A0G8B235 2.449 X-RAY DIFFRACTION 133 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 233 243 SFEGKIVLVTGASRGIGRAIAETFVARGAKVIGTATSESGAEAISGYLGANGKGFMLNVKDAQSIDSVLASIRAEFGEIDILVNNAGITRDNLLMRMKDDEWEDILDTNLTSVFRLSKAVMCAMMKKRFGRIITIGSVVGTMGNAGQANYAAAKAGLIGFSKSLAREVASRGITVNVVAPGYIETRAGILSSVPANRPGDAKEIASAVAFLASDEAGYITGETLHVNGGMYMI SFEGKIVLVTGASRGIGRAIAETFVARGAKVIGTATSESGAEAISGYLGANGKGFMLNVKDAQSIDSVLASIRAEFGEIDILVNNAGITRDNLLMRMKDDEWEDILDTNLTSVFRLSKAVMCAMMKKRFGRIITIGSVVGTMGNAGQANYAAAKAGLIGFSKSLAREVASRGITVNVVAPGYIETDMTRALTDDQRAGILSSVPANRPGDAKEIASAVAFLASDEAGYITGETLHVNGGMYMI 7emy-a1-m1-cA_7emy-a1-m1-cB Pyochelin synthetase, a dimeric nonribosomal peptide synthetase elongation module G3XCV2 G3XCV2 2.97 ELECTRON MICROSCOPY 203 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 1334 1334 SRTALRDWLTEQLADLLGEPLADVRALADDDDLLGCGLDSIRLMYLQERLRARGSTLDFAQLAQRPCLGAWLDLLACADRLSAPATVALPTAQDRDQPFELSSVQQAYWLGRGAGEVLGNVSCHAFLEFRTRDVDPQRLAAAAECVRQRHPMLRARFLDGRQQILPTPPLSCFDLQDWRTLQVDEAERDWQALRDWRAHECLAVERGQVFLLGLVRMPGGEDRLWLSLDLLAADVESLRLLLAELGVAYLAPERLAEPPALHFADYLAHRAAQRAEAAARARDYWLERLPRLPDAPALPLACAPESIRQPRTRRLAFQLSAGESRRLERLAAQHGVTLSSVFGCAFALVLARWSESAEFLLNVPLFDRHADDPRIGEVIADFTTLLLLECRMQAGVSFAEAVKSFQRNLHGAIDHAAFPALEVLREARRQGQPRSAPVVFASNLGEEGFVPAAFRDAFGDLHDMLSQTPQVWLDHQLYRVGDGILLAWDSVVGLFPEGLPETMFEAYVGLLQRLCDSAWGQPADLPLPWAQQARRALLNGQPACATARTLHRDFFLRAAEAPDADALLYRDQRVTRGELAERALRIAGGLREAGVRPGDAVEVSLPRGPQQVAAVFGVLAAGACYVPLDIDQPPARRRLIEEAAGVCLAITEEDDPQALPPRLDVQRLLRGPALAAPVPLAPQASAYVIYTSGSTGVPKGVEVSHAAAINTIDALLDLLRVNASDRLLAVSALDFDLSVFDLFGGLGAGASLVLPAQEQARDAAAWAEAIQRHAVSLWNSAPALLEMALSLPASQADYRSLRAVLLSGDWVALDLPGRLRPRCAEGCRLHVLGGATEAGIWSNLQSVDTVPPHWRSIPYGRPLPGQAYRVVDTHGRDVPDLVVGELWIGGASLARGYRNDPELSARRFVHDAQGRWYRTGDRGRYWGDGTLEFLGRVDQQVKVRGQRIELGEVEAALCAQAGVESACAAVLGGGVASLGAVLVPRLAPRAEGSMDLPAAQPFAGLAEAEAVLTREILGALLEAPLELDDGLRRRWLDWLADSAASALPSLDEALRRLGWQAAGLTAMGNALRGLLAGEQAPAALLLDPWLAPQAVAARLPDGREALARLLEALPTPAAGERLRVAVLDTRAGLWLDQGMASLLRPGLELTLFERSRVLLDAAATRLPERIVVQALDDGLLPAEHLGRYDRVISFAALHAYEASREGLALAAALLRPQGRLLLVDLLCESPLALLGAALLDDRPLRLAELPSLLADLAAAGLAPRCLWRSERIALVEALAPGLGLDAAALQAGLEQRLPQAMRPERLWCLPSLPLNGNGKVDRRRLAESMTRALG SRTALRDWLTEQLADLLGEPLADVRALADDDDLLGCGLDSIRLMYLQERLRARGSTLDFAQLAQRPCLGAWLDLLACADRLSAPATVALPTAQDRDQPFELSSVQQAYWLGRGAGEVLGNVSCHAFLEFRTRDVDPQRLAAAAECVRQRHPMLRARFLDGRQQILPTPPLSCFDLQDWRTLQVDEAERDWQALRDWRAHECLAVERGQVFLLGLVRMPGGEDRLWLSLDLLAADVESLRLLLAELGVAYLAPERLAEPPALHFADYLAHRAAQRAEAAARARDYWLERLPRLPDAPALPLACAPESIRQPRTRRLAFQLSAGESRRLERLAAQHGVTLSSVFGCAFALVLARWSESAEFLLNVPLFDRHADDPRIGEVIADFTTLLLLECRMQAGVSFAEAVKSFQRNLHGAIDHAAFPALEVLREARRQGQPRSAPVVFASNLGEEGFVPAAFRDAFGDLHDMLSQTPQVWLDHQLYRVGDGILLAWDSVVGLFPEGLPETMFEAYVGLLQRLCDSAWGQPADLPLPWAQQARRALLNGQPACATARTLHRDFFLRAAEAPDADALLYRDQRVTRGELAERALRIAGGLREAGVRPGDAVEVSLPRGPQQVAAVFGVLAAGACYVPLDIDQPPARRRLIEEAAGVCLAITEEDDPQALPPRLDVQRLLRGPALAAPVPLAPQASAYVIYTSGSTGVPKGVEVSHAAAINTIDALLDLLRVNASDRLLAVSALDFDLSVFDLFGGLGAGASLVLPAQEQARDAAAWAEAIQRHAVSLWNSAPALLEMALSLPASQADYRSLRAVLLSGDWVALDLPGRLRPRCAEGCRLHVLGGATEAGIWSNLQSVDTVPPHWRSIPYGRPLPGQAYRVVDTHGRDVPDLVVGELWIGGASLARGYRNDPELSARRFVHDAQGRWYRTGDRGRYWGDGTLEFLGRVDQQVKVRGQRIELGEVEAALCAQAGVESACAAVLGGGVASLGAVLVPRLAPRAEGSMDLPAAQPFAGLAEAEAVLTREILGALLEAPLELDDGLRRRWLDWLADSAASALPSLDEALRRLGWQAAGLTAMGNALRGLLAGEQAPAALLLDPWLAPQAVAARLPDGREALARLLEALPTPAAGERLRVAVLDTRAGLWLDQGMASLLRPGLELTLFERSRVLLDAAATRLPERIVVQALDDGLLPAEHLGRYDRVISFAALHAYEASREGLALAAALLRPQGRLLLVDLLCESPLALLGAALLDDRPLRLAELPSLLADLAAAGLAPRCLWRSERIALVEALAPGLGLDAAALQAGLEQRLPQAMRPERLWCLPSLPLNGNGKVDRRRLAESMTRALG 7en0-a1-m1-cB_7en0-a1-m1-cC Structure and Activity of SLAC1 Channels for Stomatal Signaling in Leaves A0A0Q3IDG7 A0A0Q3IDG7 2.97 ELECTRON MICROSCOPY 54 1.0 15368 (Brachypodium distachyon) 15368 (Brachypodium distachyon) 313 313 7en0-a1-m1-cA_7en0-a1-m1-cB 7en0-a1-m1-cA_7en0-a1-m1-cC WPFLLRFPIGCFGVCLGLGSQAILWGALAASPAMRFLRVTPMINLAVWLLAAAVLAATSVTYALKCVFYFEAIRREFFHPVRVNFFFTPSIAAMFLAIGLPRALAPADGRAMHPAVWCASVAPLFALELKIYGQWLSGGKRRLCKVANPSSHLSVVGNFVGAILAARVGWVEAGKFLWAIGVAHYIVVFVTLYQRELHPVYSMFIATPSAASLAWAAIYGSFDAVARTFFFMALFLYMSLVVRINFFRGFRFSIAWWSYTFPMTTASLATVKYAEAVPCFLSRALALSLSLMSTTMVSLLLVSTLLHAFVWRS WPFLLRFPIGCFGVCLGLGSQAILWGALAASPAMRFLRVTPMINLAVWLLAAAVLAATSVTYALKCVFYFEAIRREFFHPVRVNFFFTPSIAAMFLAIGLPRALAPADGRAMHPAVWCASVAPLFALELKIYGQWLSGGKRRLCKVANPSSHLSVVGNFVGAILAARVGWVEAGKFLWAIGVAHYIVVFVTLYQRELHPVYSMFIATPSAASLAWAAIYGSFDAVARTFFFMALFLYMSLVVRINFFRGFRFSIAWWSYTFPMTTASLATVKYAEAVPCFLSRALALSLSLMSTTMVSLLLVSTLLHAFVWRS 7en2-a1-m1-cA_7en2-a1-m1-cB Pyochelin synthetase, a dimeric nonribosomal peptide synthetase elongation module-after-condensation, condensation G3XCV2 G3XCV2 3.78 ELECTRON MICROSCOPY 220 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 1321 1410 AQDRDQPFELSSVQQAYWLGRGAGEVLGNVSCHAFLEFRTRDVDPQRLAAAAECVRQRHPMLRARFLDGRQQILPTPPLSCFDLQDWRTLQVDEAERDWQALRDWRAHECLAVERGQVFLLGLVRMPGGEDRLWLSLDLLAADVESLRLLLAELGVAYLAPERLAEPPALHFADYLAHRAAQRAEAAARARDYWLERLPRLPDAPALPLACAPESIRQPRTRRLAFQLSAGESRRLERLAAQHGVTLSSVFGCAFALVLARWSESAEFLLNVPLFDRHADDPRIGEVIADFTTLLLLECRMQAGVSFAEAVKSFQRNLHGAIDHAAFPALEVLREARRQGQPRSAPVVFASNLGEEGFVPAAFRDAFGDLHDMLSQTPQVWLDHQLYRVGDGILLAWDSVVGLFPEGLPETMFEAYVGLLQRLCDSAWGQPADLPLPWAQQARRALLNGQPACATARTLHRDFFLRAAEAPDADALLYRDQRVTRGELAERALRIAGGLREAGVRPGDAVEVSLPRGPQQVAAVFGVLAAGACYVPLDIDQPPARRRLIEEAAGVCLAITEEDDPQALPPRLDVQRLLRGPALAAPVPLAPQASAYVIYTSGSTGVPKGVEVSHAAAINTIDALLDLLRVNASDRLLAVSALDFDLSVFDLFGGLGAGASLVLPAQEQARDAAAWAEAIQRHAVSLWNSAPALLEMALSLPASQADYRSLRAVLLSGDWVALDLPGRLRPRCAEGCRLHVLGGATEAGIWSNLQSVDTVPPHWRSIPYGRPLPGQAYRVVDTHGRDVPDLVVGELWIGGASLARGYRNDPELSARRFVHDAQGRWYRTGDRGRYWGDGTLEFLGRVDQQVKVRGQRIELGEVEAALCAQAGVESACAAVLGGGVASLGAVLVPRLAPRAEGSMDLPAAQPFAGLAEAEAVLTREILGALLEAPLELDDGLRRRWLDWLADSAASALPSLDEALRRLGWQAAGLTAMGNALRGLLAGEQAPAALLLDPWLAPQAVAARLPDGREALARLLEALPTPAAGERLRVAVLDTRAGLWLDQGMASLLRPGLELTLFERSRVLLDAAATRLPERIVVQALDDGLLPAEHLGRYDRVISFAALHAYEASREGLALAAALLRPQGRLLLVDLLCESPLALLGAALLDDRPLRLAELPSLLADLAAAGLAPRCLWRSERIALVEALAPGLGLDAAALQAGLEQRLPQAMRPERLWCLPSLPLNGNGKVDRRRLAESMTRALGAEEPLEAHEQALAECWEAVLKRPVRRREASFFSLGGDSLLATRLLAGIRERFGVRLGMADFYRQPTLAGLARHLQVQT SRTALRDWLTEQLADLLGEPLADVRALADDDDLLGCGLDSIRLMYLQERLRARGSTLDFAQLAQRPCLGAWLDLLACADSAPATVALPTAQDRDQPFELSSVQQAYWLGRGAGEVLGNVSCHAFLEFRTRDVDPQRLAAAAECVRQRHPMLRARFLDGRQQILPTPPLSCFDLQDWRTLQVDEAERDWQALRDWRAHECLAVERGQVFLLGLVRMPGGEDRLWLSLDLLAADVESLRLLLAELGVAYLAPERLAEPPALHFADYLAHRAAQRAEAAARARDYWLERLPRLPDAPALPLACAPESIRQPRTRRLAFQLSAGESRRLERLAAQHGVTLSSVFGCAFALVLARWSESAEFLLNVPLFDRHADDPRIGEVIADFTTLLLLECRMQAGVSFAEAVKSFQRNLHGAIDHAAFPALEVLREARRQGQPRSAPVVFASNLGEEGFVPAAFRDAFGDLHDMLSQTPQVWLDHQLYRVGDGILLAWDSVVGLFPEGLPETMFEAYVGLLQRLCDSAWGQPADLPLPWAQQARRALLNGQPACATARTLHRDFFLRAAEAPDADALLYRDQRVTRGELAERALRIAGGLREAGVRPGDAVEVSLPRGPQQVAAVFGVLAAGACYVPLDIDQPPARRRLIEEAAGVCLAITEEDDPQALPPRLDVQRLLRGPALAAPVPLAPQASAYVIYTSGSTGVPKGVEVSHAAAINTIDALLDLLRVNASDRLLAVSALDFDLSVFDLFGGLGAGASLVLPAQEQARDAAAWAEAIQRHAVSLWNSAPALLEMALSLPASQADYRSLRAVLLSGDWVALDLPGRLRPRCAEGCRLHVLGGATEAGIWSNLQSVDTVPPHWRSIPYGRPLPGQAYRVVDTHGRDVPDLVVGELWIGGASLARGYRNDPELSARRFVHDAQGRWYRTGDRGRYWGDGTLEFLGRVDQQVKVRGQRIELGEVEAALCAQAGVESACAAVLGGGVASLGAVLVPRLAPRAEGSMDLPAAQPFAGLAEAEAVLTREILGALLEAPLELDDGLRRRWLDWLADSAASALPSLDEALRRLGWQAAGLTAMGNALRGLLAGEQAPAALLLDPWLAPQAVAARLPDGREALARLLEALPTPAAGERLRVAVLDTRAGLWLDQGMASLLRPGLELTLFERSRVLLDAAATRLPERIVVQALDDGLLPAEHLGRYDRVISFAALHAYEASREGLALAAALLRPQGRLLLVDLLCESPLALLGAALLDDRPLRLAELPSLLADLAAAGLAPRCLWRSERIALVEALAPGLGLDAAALQAGLEQRLPQAMRPERLWCLPSLPLNGNGKVDRRRLAESMTRALGAEEPLEAHEQALAECWEAVLKRPVRRREASFFSLGGDSLLATRLLAGIRERFGVRLGMADFYRQPTLAGLARHLQVQT 7en7-a1-m1-cA_7en7-a1-m4-cA The crystal structure of Escherichia coli MurR in complex with N-acetylmuramic-acid-6-phosphate P77245 P77245 1.22 X-RAY DIFFRACTION 86 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 191 7en5-a1-m1-cA_7en5-a1-m4-cA 7en5-a1-m2-cA_7en5-a1-m3-cA 7en6-a1-m1-cA_7en6-a1-m1-cB 7en7-a1-m2-cA_7en7-a1-m3-cA DDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK DDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK 7en7-a1-m2-cA_7en7-a1-m4-cA The crystal structure of Escherichia coli MurR in complex with N-acetylmuramic-acid-6-phosphate P77245 P77245 1.22 X-RAY DIFFRACTION 25 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 191 7en5-a1-m1-cA_7en5-a1-m3-cA 7en5-a1-m2-cA_7en5-a1-m4-cA 7en6-a1-m1-cB_7en6-a1-m1-cD 7en7-a1-m1-cA_7en7-a1-m3-cA DDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK DDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK 7en7-a1-m3-cA_7en7-a1-m4-cA The crystal structure of Escherichia coli MurR in complex with N-acetylmuramic-acid-6-phosphate P77245 P77245 1.22 X-RAY DIFFRACTION 118 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 191 191 7en5-a1-m1-cA_7en5-a1-m2-cA 7en5-a1-m3-cA_7en5-a1-m4-cA 7en6-a1-m1-cA_7en6-a1-m1-cD 7en7-a1-m1-cA_7en7-a1-m2-cA DDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK DDSLEVIARKLNREKELALEQTCALLDYARLQKIIEVISKAPFIQITGLGGSALVGRDLSFKLMKIGYRVACEADTHVQATVSQALKKGDVQIAISYSGSKKEIVLCAEAARKQGATVIAITSLTDSPLRRLAHFTLDTVSGETEWRSSSMSTRTAQNSVTDLLFVGLVQLNDVESLKMIQRSSELTQRLK 7eo0-a1-m8-c4_7eo0-a1-m9-c4 FOOT AND MOUTH DISEASE VIRUS O/TIBET/99-BOUND THE SINGLE CHAIN FRAGMEN ANTIBODY C4 P87677 P87677 3.75 ELECTRON MICROSCOPY 11 1.0 12110 (Foot-and-mouth disease virus) 12110 (Foot-and-mouth disease virus) 44 44 7eo0-a1-m10-c4_7eo0-a1-m6-c4 7eo0-a1-m10-c4_7eo0-a1-m9-c4 7eo0-a1-m11-c4_7eo0-a1-m12-c4 7eo0-a1-m11-c4_7eo0-a1-m15-c4 7eo0-a1-m12-c4_7eo0-a1-m13-c4 7eo0-a1-m13-c4_7eo0-a1-m14-c4 7eo0-a1-m14-c4_7eo0-a1-m15-c4 7eo0-a1-m16-c4_7eo0-a1-m17-c4 7eo0-a1-m16-c4_7eo0-a1-m20-c4 7eo0-a1-m17-c4_7eo0-a1-m18-c4 7eo0-a1-m18-c4_7eo0-a1-m19-c4 7eo0-a1-m19-c4_7eo0-a1-m20-c4 7eo0-a1-m1-c4_7eo0-a1-m2-c4 7eo0-a1-m1-c4_7eo0-a1-m5-c4 7eo0-a1-m21-c4_7eo0-a1-m22-c4 7eo0-a1-m21-c4_7eo0-a1-m25-c4 7eo0-a1-m22-c4_7eo0-a1-m23-c4 7eo0-a1-m23-c4_7eo0-a1-m24-c4 7eo0-a1-m24-c4_7eo0-a1-m25-c4 7eo0-a1-m26-c4_7eo0-a1-m27-c4 7eo0-a1-m26-c4_7eo0-a1-m30-c4 7eo0-a1-m27-c4_7eo0-a1-m28-c4 7eo0-a1-m28-c4_7eo0-a1-m29-c4 7eo0-a1-m29-c4_7eo0-a1-m30-c4 7eo0-a1-m2-c4_7eo0-a1-m3-c4 7eo0-a1-m31-c4_7eo0-a1-m32-c4 7eo0-a1-m31-c4_7eo0-a1-m35-c4 7eo0-a1-m32-c4_7eo0-a1-m33-c4 7eo0-a1-m33-c4_7eo0-a1-m34-c4 7eo0-a1-m34-c4_7eo0-a1-m35-c4 7eo0-a1-m36-c4_7eo0-a1-m37-c4 7eo0-a1-m36-c4_7eo0-a1-m40-c4 7eo0-a1-m37-c4_7eo0-a1-m38-c4 7eo0-a1-m38-c4_7eo0-a1-m39-c4 7eo0-a1-m39-c4_7eo0-a1-m40-c4 7eo0-a1-m3-c4_7eo0-a1-m4-c4 7eo0-a1-m41-c4_7eo0-a1-m42-c4 7eo0-a1-m41-c4_7eo0-a1-m45-c4 7eo0-a1-m42-c4_7eo0-a1-m43-c4 7eo0-a1-m43-c4_7eo0-a1-m44-c4 7eo0-a1-m44-c4_7eo0-a1-m45-c4 7eo0-a1-m46-c4_7eo0-a1-m47-c4 7eo0-a1-m46-c4_7eo0-a1-m50-c4 7eo0-a1-m47-c4_7eo0-a1-m48-c4 7eo0-a1-m48-c4_7eo0-a1-m49-c4 7eo0-a1-m49-c4_7eo0-a1-m50-c4 7eo0-a1-m4-c4_7eo0-a1-m5-c4 7eo0-a1-m51-c4_7eo0-a1-m52-c4 7eo0-a1-m51-c4_7eo0-a1-m55-c4 7eo0-a1-m52-c4_7eo0-a1-m53-c4 7eo0-a1-m53-c4_7eo0-a1-m54-c4 7eo0-a1-m54-c4_7eo0-a1-m55-c4 7eo0-a1-m56-c4_7eo0-a1-m57-c4 7eo0-a1-m56-c4_7eo0-a1-m60-c4 7eo0-a1-m57-c4_7eo0-a1-m58-c4 7eo0-a1-m58-c4_7eo0-a1-m59-c4 7eo0-a1-m59-c4_7eo0-a1-m60-c4 7eo0-a1-m6-c4_7eo0-a1-m7-c4 7eo0-a1-m7-c4_7eo0-a1-m8-c4 SGNTGSIINNYYMQQYQNSMDTQLGWFSKLASSAFSGLFGALLA SGNTGSIINNYYMQQYQNSMDTQLGWFSKLASSAFSGLFGALLA 7eod-a2-m1-cC_7eod-a2-m1-cD MITF HLHLZ Delta AKE O75030 O75030 1.9 X-RAY DIFFRACTION 96 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 66 69 4ath-a1-m1-cA_4ath-a1-m1-cB 7eod-a1-m1-cB_7eod-a1-m1-cA FNINDRIKELGTLIPKSNDWNKGTILKASVDYIRKLQREQQRLENRQKKLEHANRHLLLRIQELGG NINDRIKELGTLIPKSNDPDMRWNKGTILKASVDYIRKLQREQQRLENRQKKLEHANRHLLLRIQELGG 7eof-a1-m1-cA_7eof-a1-m1-cB Structure of CCDC25-DNA complex Q86WR0 Q86WR0 2.733 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 180 181 7eoe-a1-m1-cA_7eoe-a1-m1-cB MVFYFTSSSVNSSAYTIYMGKDKYENEDLIKHGWPEDIWFHVDKLSSAHVYLRLHKGENIEDIPKEVLMDCAHLVKANSIQGCKMNNVNVVYTPWSNLKKTADMDVGQIGFHRQKDVKIVTVEKKVNEILNRLEKTKVERFPDLAAEKECRDREERNEKKAQIQEMKKREKEEMKKKREM MVFYFTSSSVNSSAYTIYMGKDKYENEDLIKHGWPEDIWFHVDKLSSAHVYLRLHKGENIEDIPKEVLMDCAHLVKANSIQGCKMNNVNVVYTPWSNLKKTADMDVGQIGFHRQKDVKIVTVEKKVNEILNRLEKTKVERFPDLAAEKECRDREERNEKKAQIQEMKKREKEEMKKKREMD 7ep0-a1-m1-cA_7ep0-a1-m1-cB Crystal structure of ZYG11B bound to GSTE degron Q9C0D3 Q9C0D3 2.16 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 245 GSTEQTAQLGTELFIVRQLLQIVKQKTNQNSVDTTLKFTLSALWNLTDESPTTCRHFIENQGLELFRVLESFPTESSIQQKVLGLLNNIAEVQELHSELWKDFIDHISSLLHSVEVEVSYFAAGIIAHLISRGEQAWTLSRSQRNSLLDDLHSAILKWPTPECEVAYRSFNPFFPLLGCFTTPGVQLWAVWAQHVCSKNPSRYCSLIEEGGLQHLYNIKDHEHTDPHVQQIAVAILDSLEKHIVR GSTEQTAQLGTELFIVRQLLQIVKQKTNQNSVDTTLKFTLSALWNLTDESPTTCRHFIENQGLELFRVLESFPTESSIQQKVLGLLNNIAEVQELHSELWKDFIDHISSLLHSVEVEVSYFAAGIIAHLISRGEQAWTLSRSQRNSLLDDLHSAILKWPTPECEVAYRSFNPFFPLLGCFTTPGVQLWAVWAQHVCSKNPSRYCSLIEEGGLQHLYNIKDHEHTDPHVQQIAVAILDSLEKHIVR 7ep2-a2-m1-cD_7ep2-a2-m1-cC Crystal structure of ZYG11B bound to GGFN degron Q9C0D3 Q9C0D3 2.38 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 284 286 7ep2-a1-m1-cB_7ep2-a1-m1-cA GGFNRFEAAKLVMQWLCNHEDQNMQRMAVAIISILAAKLSTEAQLGTELFIVRQLLQIVKQKTNQNSVDTTLKFTLSALWNLTDESPTTCRHFIENQGLELFMRVLESFPTESSIQQKVLGLLNNIAEVQELHSELMWKDFIDHISSLLHSVEVEVSYFAAGIIAHLISRGEQAWTLSRSQRNSLLDDLHSAILKWPTPECEMVAYRSFNPFFPLLGCFTTPGVQLWAVWAMQHVCSKNPSRYCSMLIEEGGLQHLYNIKDHEHTDPHVQQIAVAILDSLEKHI GGFNRFEAAKLVMQWLCNHEDQNMQRMAVAIISILAAKLSTEQTAQLGTELFIVRQLLQIVKQKTNQNSVDTTLKFTLSALWNLTDESPTTCRHFIENQGLELFMRVLESFPTESSIQQKVLGLLNNIAEVQELHSELMWKDFIDHISSLLHSVEVEVSYFAAGIIAHLISRGEQAWTLSRSQRNSLLDDLHSAILKWPTPECEMVAYRSFNPFFPLLGCFTTPGVQLWAVWAMQHVCSKNPSRYCSMLIEEGGLQHLYNIKDHEHTDPHVQQIAVAILDSLEKHI 7ep5-a1-m1-cB_7ep5-a1-m1-cA Crystal structure of ZER1 bound to GKLH degron Q7Z7L7 Q7Z7L7 2.02 X-RAY DIFFRACTION 96 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 244 252 GKLHVGKMGFVVTMLKLIQKKLLDKTCDQVMEFSWSALWNITDETPDNCEMFLNFNGMKLFLDCLKEFPEKQELHRNMLGLLGNVAEVKELRPQLMTSQFISVFSNLLESKADGIEVSYNACGVLSHIMFDGPEAWGVCEPQREEVEERMWAAIQSWDINSRRNINYRSFEPILRLLPQGISPVSQHWATWALYNLVSVYPDKYCPLLIKEGGMPLLRDIIKMATARQETKEMARKVIEHCSNF GKLHVGKMGFVVTMLKLIQKKLLDKTCDQVMEFSWSALWNITDETPDNCEMFLNFNGMKLFLDCLKEFPEKQELHRNMLGLLGNVAEVKELRPQLMTSQFISVFSNLLESKADGIEVSYNACGVLSHIMFDGPEAWGVCEPQREEVEERMWAAIQSWDINSRRNINYRSFEPILRLLPQGISPVSQHWATWALYNLVSVYPDKYCPLLIKEGGMPLLRDIIKMATARQETKEMARKVIEHCSNFKEENMDTS 7ep8-a1-m2-cA_7ep8-a1-m3-cA Crystal structure of PCNA from Neurospora crassa Q7SF71 Q7SF71 1.95 X-RAY DIFFRACTION 49 1.0 367110 (Neurospora crassa OR74A) 367110 (Neurospora crassa OR74A) 256 256 7ep8-a1-m1-cA_7ep8-a1-m2-cA 7ep8-a1-m1-cA_7ep8-a1-m3-cA 7o1e-a1-m1-cA_7o1e-a1-m2-cA 7o1e-a1-m1-cA_7o1e-a1-m3-cA 7o1e-a1-m2-cA_7o1e-a1-m3-cA 7o1f-a1-m1-cB_7o1f-a1-m1-cA 7o1f-a1-m1-cC_7o1f-a1-m1-cA 7o1f-a1-m1-cC_7o1f-a1-m1-cB 7o1f-a2-m1-cE_7o1f-a2-m1-cD 7o1f-a2-m1-cE_7o1f-a2-m1-cF 7o1f-a2-m1-cF_7o1f-a2-m1-cD MLEARLEQASILKKVVDAIKDLVQDCNFDCNDSGIALQAMDNSHVALVSMMLKTETFSPFRCDRNIALGVNLTSLTKVLRAAQNEDILTLKAEDAPDVLNLVFESSENDRISEYDLKLMDIDQEHLGIPDTEYAATISMPSSEFKRITTDLMAMSESVNIEASKDGVKFSCQGDIGNGSITLRQHTNVDKPSENIEIELSEPVSLTFSLKYLVNFCKASALSSTVKICLSNEVPLLVEYNISASSYLRFYLAPKIG MLEARLEQASILKKVVDAIKDLVQDCNFDCNDSGIALQAMDNSHVALVSMMLKTETFSPFRCDRNIALGVNLTSLTKVLRAAQNEDILTLKAEDAPDVLNLVFESSENDRISEYDLKLMDIDQEHLGIPDTEYAATISMPSSEFKRITTDLMAMSESVNIEASKDGVKFSCQGDIGNGSITLRQHTNVDKPSENIEIELSEPVSLTFSLKYLVNFCKASALSSTVKICLSNEVPLLVEYNISASSYLRFYLAPKIG 7ep9-a1-m1-cA_7ep9-a1-m1-cG The structure of carboxypeptidase from Fusobacterium nucleatum A0A377GRD0 A0A377GRD0 2.604 X-RAY DIFFRACTION 148 1.0 851 (Fusobacterium nucleatum) 851 (Fusobacterium nucleatum) 660 660 7ep9-a1-m1-cB_7ep9-a1-m1-cC MENLKLDSFLEYKFLSNLDFNPDGSNLAFSLSEADLENNSYKHFIYNLDTKNKEIKKLTHSGKEKNSLWLNNNTILFSADRDKDIEEKKKLGETWTIFYALDIKNGGEAYEYMKLPVNVTEIKIIDENNFILTADFDNNSLNLNDLKGGEREKAIKQIEENKDYEVLDEIPFWSNGNGFRNKKRNRLYHFDKSNNKLTPISDEYTNVESFNIKENKVIFVGRTYKDKQALTAGLYTYDVKSNKLEIIISDNLYDISYANFIEDKIICALSDMKEYGINENHKIYLIDSNKNINLLYENDTWLACTVGSDCRLGGGKSFKVIGNKLYFLSTIADSVHLSSLDTNGKVEILSSENGSIDFFDIANNEIYYVGMRDYTLQEIYKLENNSSIKLSSFNEEINKKYKISKPEVFDFITNGDTTKGFVIYPIDYDKNKTYPAILDIHGGPKTVYGDVYYHEMQVWANMGYFVIFTNPHGSDGYGNKFADIRGKYGTIDYEDLMNFTDYVLEKYPIDKSRVGVTGGSYGGYMTNWIIGHTDRFKCAASQRSISNWISKFGTTDIGYYFNADQNQATPWINHDKLWWHSPLKYADKAKTPTLFIHSEEDYRCWLAEGLQMFTALKYHGIEARLCMFRGENHELSRSGKPKHRIRRLTEITNWFEKYLK MENLKLDSFLEYKFLSNLDFNPDGSNLAFSLSEADLENNSYKHFIYNLDTKNKEIKKLTHSGKEKNSLWLNNNTILFSADRDKDIEEKKKLGETWTIFYALDIKNGGEAYEYMKLPVNVTEIKIIDENNFILTADFDNNSLNLNDLKGGEREKAIKQIEENKDYEVLDEIPFWSNGNGFRNKKRNRLYHFDKSNNKLTPISDEYTNVESFNIKENKVIFVGRTYKDKQALTAGLYTYDVKSNKLEIIISDNLYDISYANFIEDKIICALSDMKEYGINENHKIYLIDSNKNINLLYENDTWLACTVGSDCRLGGGKSFKVIGNKLYFLSTIADSVHLSSLDTNGKVEILSSENGSIDFFDIANNEIYYVGMRDYTLQEIYKLENNSSIKLSSFNEEINKKYKISKPEVFDFITNGDTTKGFVIYPIDYDKNKTYPAILDIHGGPKTVYGDVYYHEMQVWANMGYFVIFTNPHGSDGYGNKFADIRGKYGTIDYEDLMNFTDYVLEKYPIDKSRVGVTGGSYGGYMTNWIIGHTDRFKCAASQRSISNWISKFGTTDIGYYFNADQNQATPWINHDKLWWHSPLKYADKAKTPTLFIHSEEDYRCWLAEGLQMFTALKYHGIEARLCMFRGENHELSRSGKPKHRIRRLTEITNWFEKYLK 7ep9-a1-m1-cB_7ep9-a1-m1-cG The structure of carboxypeptidase from Fusobacterium nucleatum A0A377GRD0 A0A377GRD0 2.604 X-RAY DIFFRACTION 51 1.0 851 (Fusobacterium nucleatum) 851 (Fusobacterium nucleatum) 660 660 7ep9-a1-m1-cA_7ep9-a1-m1-cC MENLKLDSFLEYKFLSNLDFNPDGSNLAFSLSEADLENNSYKHFIYNLDTKNKEIKKLTHSGKEKNSLWLNNNTILFSADRDKDIEEKKKLGETWTIFYALDIKNGGEAYEYMKLPVNVTEIKIIDENNFILTADFDNNSLNLNDLKGGEREKAIKQIEENKDYEVLDEIPFWSNGNGFRNKKRNRLYHFDKSNNKLTPISDEYTNVESFNIKENKVIFVGRTYKDKQALTAGLYTYDVKSNKLEIIISDNLYDISYANFIEDKIICALSDMKEYGINENHKIYLIDSNKNINLLYENDTWLACTVGSDCRLGGGKSFKVIGNKLYFLSTIADSVHLSSLDTNGKVEILSSENGSIDFFDIANNEIYYVGMRDYTLQEIYKLENNSSIKLSSFNEEINKKYKISKPEVFDFITNGDTTKGFVIYPIDYDKNKTYPAILDIHGGPKTVYGDVYYHEMQVWANMGYFVIFTNPHGSDGYGNKFADIRGKYGTIDYEDLMNFTDYVLEKYPIDKSRVGVTGGSYGGYMTNWIIGHTDRFKCAASQRSISNWISKFGTTDIGYYFNADQNQATPWINHDKLWWHSPLKYADKAKTPTLFIHSEEDYRCWLAEGLQMFTALKYHGIEARLCMFRGENHELSRSGKPKHRIRRLTEITNWFEKYLK MENLKLDSFLEYKFLSNLDFNPDGSNLAFSLSEADLENNSYKHFIYNLDTKNKEIKKLTHSGKEKNSLWLNNNTILFSADRDKDIEEKKKLGETWTIFYALDIKNGGEAYEYMKLPVNVTEIKIIDENNFILTADFDNNSLNLNDLKGGEREKAIKQIEENKDYEVLDEIPFWSNGNGFRNKKRNRLYHFDKSNNKLTPISDEYTNVESFNIKENKVIFVGRTYKDKQALTAGLYTYDVKSNKLEIIISDNLYDISYANFIEDKIICALSDMKEYGINENHKIYLIDSNKNINLLYENDTWLACTVGSDCRLGGGKSFKVIGNKLYFLSTIADSVHLSSLDTNGKVEILSSENGSIDFFDIANNEIYYVGMRDYTLQEIYKLENNSSIKLSSFNEEINKKYKISKPEVFDFITNGDTTKGFVIYPIDYDKNKTYPAILDIHGGPKTVYGDVYYHEMQVWANMGYFVIFTNPHGSDGYGNKFADIRGKYGTIDYEDLMNFTDYVLEKYPIDKSRVGVTGGSYGGYMTNWIIGHTDRFKCAASQRSISNWISKFGTTDIGYYFNADQNQATPWINHDKLWWHSPLKYADKAKTPTLFIHSEEDYRCWLAEGLQMFTALKYHGIEARLCMFRGENHELSRSGKPKHRIRRLTEITNWFEKYLK 7epm-a1-m1-cB_7epm-a1-m2-cB human LDHC complexed with NAD+ and ethylamino acetic acid P07864 P07864 3 X-RAY DIFFRACTION 170 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 7epm-a1-m1-cA_7epm-a1-m2-cA STVKEQLIEKLIEDDENSQCKITIVGTGAVGMACAISILLKDLADELALVDVAEDKLKGEMMDLQHGSLFFSTSKITSGKDYSVSANSRIVIVTAGARQQERLALVQRNVAIMKSIIPAIVHYSPDCKILVVSNPVDILTYIVWKISGLPVTRVIGSGCNLDSARFRYLIGEKLGVHPTSCHGWIIGEHGDSSVPLWSGVNVAGVALKTLDPKLGTDSDKEHWKNIHKQVIQSAYEIIKLKGYTSWAIGLSVMDLVGSILKNLRRVHPVSTMVKGLYGIKEELFLSIPCVLGRNGVSDVVKINLNSEEEALFKKSAETLWNIQKDL STVKEQLIEKLIEDDENSQCKITIVGTGAVGMACAISILLKDLADELALVDVAEDKLKGEMMDLQHGSLFFSTSKITSGKDYSVSANSRIVIVTAGARQQERLALVQRNVAIMKSIIPAIVHYSPDCKILVVSNPVDILTYIVWKISGLPVTRVIGSGCNLDSARFRYLIGEKLGVHPTSCHGWIIGEHGDSSVPLWSGVNVAGVALKTLDPKLGTDSDKEHWKNIHKQVIQSAYEIIKLKGYTSWAIGLSVMDLVGSILKNLRRVHPVSTMVKGLYGIKEELFLSIPCVLGRNGVSDVVKINLNSEEEALFKKSAETLWNIQKDL 7epm-a1-m2-cB_7epm-a1-m1-cA human LDHC complexed with NAD+ and ethylamino acetic acid P07864 P07864 3 X-RAY DIFFRACTION 99 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 335 7epm-a1-m1-cB_7epm-a1-m2-cA STVKEQLIEKLIEDDENSQCKITIVGTGAVGMACAISILLKDLADELALVDVAEDKLKGEMMDLQHGSLFFSTSKITSGKDYSVSANSRIVIVTAGARQQERLALVQRNVAIMKSIIPAIVHYSPDCKILVVSNPVDILTYIVWKISGLPVTRVIGSGCNLDSARFRYLIGEKLGVHPTSCHGWIIGEHGDSSVPLWSGVNVAGVALKTLDPKLGTDSDKEHWKNIHKQVIQSAYEIIKLKGYTSWAIGLSVMDLVGSILKNLRRVHPVSTMVKGLYGIKEELFLSIPCVLGRNGVSDVVKINLNSEEEALFKKSAETLWNIQKDL ASTVKEQLIEKLIEDDENSQCKITIVGTGAVGMACAISILLKDLADELALVDVAEDKLKGEMMDLQHGSLFFSTSKITSGKDYSVSANSRIVIVTAGARQQEGETRLALVQRNVAIMKSIIPAIVHYSPDCKILVVSNPVDILTYIVWKISGLPVTRVIGSGCNLDSARFRYLIGEKLGVHPTSCHGWIIGEHGDSSVPLWSGVNVAGVALKTLDPKLGTDSDKEHWKNIHKQVIQSAYEIIKLKGYTSWAIGLSVMDLVGSILKNLRRVHPVSTMVKGLYGIKEELFLSIPCVLGRNGVSDVVKINLNSEEEALFKKSAETLWNIQKDLQFLEH 7epm-a1-m2-cB_7epm-a1-m2-cA human LDHC complexed with NAD+ and ethylamino acetic acid P07864 P07864 3 X-RAY DIFFRACTION 79 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 335 7epm-a1-m1-cB_7epm-a1-m1-cA STVKEQLIEKLIEDDENSQCKITIVGTGAVGMACAISILLKDLADELALVDVAEDKLKGEMMDLQHGSLFFSTSKITSGKDYSVSANSRIVIVTAGARQQERLALVQRNVAIMKSIIPAIVHYSPDCKILVVSNPVDILTYIVWKISGLPVTRVIGSGCNLDSARFRYLIGEKLGVHPTSCHGWIIGEHGDSSVPLWSGVNVAGVALKTLDPKLGTDSDKEHWKNIHKQVIQSAYEIIKLKGYTSWAIGLSVMDLVGSILKNLRRVHPVSTMVKGLYGIKEELFLSIPCVLGRNGVSDVVKINLNSEEEALFKKSAETLWNIQKDL ASTVKEQLIEKLIEDDENSQCKITIVGTGAVGMACAISILLKDLADELALVDVAEDKLKGEMMDLQHGSLFFSTSKITSGKDYSVSANSRIVIVTAGARQQEGETRLALVQRNVAIMKSIIPAIVHYSPDCKILVVSNPVDILTYIVWKISGLPVTRVIGSGCNLDSARFRYLIGEKLGVHPTSCHGWIIGEHGDSSVPLWSGVNVAGVALKTLDPKLGTDSDKEHWKNIHKQVIQSAYEIIKLKGYTSWAIGLSVMDLVGSILKNLRRVHPVSTMVKGLYGIKEELFLSIPCVLGRNGVSDVVKINLNSEEEALFKKSAETLWNIQKDLQFLEH 7epn-a1-m1-cA_7epn-a1-m1-cB Ketosteroid Isomerase KSI native A0R7C6 A0R7C6 1.9 X-RAY DIFFRACTION 86 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 133 137 7epo-a1-m1-cA_7epo-a1-m2-cA VSTRETVNELLRRIAAGDPGRIAELYAEEVSWKLSWPAGGVVPWIQQRSTRAGVEEHFRLIADHHVAKQSSAEVFSVLVDGADAVVLGELRNTAGPTGRSYEAPFALHLTVENGLVTRHHVYEDSLAVFRAFA MVSTRETVNELLRRIAAGDPGRIAELYAEEVSWKLSWPAGDHMGVVPWIQQRSTRAGVEEHFRLIADHHVAKQSSAEVFSVLVDGADAVVLGELRNTAGPTGRSYEAPFALHLTVENGLVTRHHVYEDSLAVFRAFA 7epp-a1-m54-ca_7epp-a1-m9-ca Recombinant Alfalfa Mosaic virus coat protein virus-like particle (rAMV-CP VLP) P05673 P05673 2.4 ELECTRON MICROSCOPY 21 1.0 12323 (Alfalfa mosaic virus (strain 425 / isolate Madison)) 12323 (Alfalfa mosaic virus (strain 425 / isolate Madison)) 167 167 7epp-a1-m10-ca_7epp-a1-m23-ca 7epp-a1-m11-ca_7epp-a1-m20-ca 7epp-a1-m11-ca_7epp-a1-m38-ca 7epp-a1-m12-ca_7epp-a1-m37-ca 7epp-a1-m12-ca_7epp-a1-m47-ca 7epp-a1-m13-ca_7epp-a1-m45-ca 7epp-a1-m13-ca_7epp-a1-m46-ca 7epp-a1-m14-ca_7epp-a1-m29-ca 7epp-a1-m14-ca_7epp-a1-m44-ca 7epp-a1-m15-ca_7epp-a1-m16-ca 7epp-a1-m15-ca_7epp-a1-m28-ca 7epp-a1-m16-ca_7epp-a1-m28-ca 7epp-a1-m17-ca_7epp-a1-m27-ca 7epp-a1-m17-ca_7epp-a1-m52-ca 7epp-a1-m18-ca_7epp-a1-m51-ca 7epp-a1-m18-ca_7epp-a1-m60-ca 7epp-a1-m19-ca_7epp-a1-m39-ca 7epp-a1-m19-ca_7epp-a1-m59-ca 7epp-a1-m1-ca_7epp-a1-m10-ca 7epp-a1-m1-ca_7epp-a1-m23-ca 7epp-a1-m20-ca_7epp-a1-m38-ca 7epp-a1-m21-ca_7epp-a1-m30-ca 7epp-a1-m21-ca_7epp-a1-m43-ca 7epp-a1-m22-ca_7epp-a1-m42-ca 7epp-a1-m24-ca_7epp-a1-m54-ca 7epp-a1-m24-ca_7epp-a1-m9-ca 7epp-a1-m25-ca_7epp-a1-m26-ca 7epp-a1-m25-ca_7epp-a1-m53-ca 7epp-a1-m26-ca_7epp-a1-m53-ca 7epp-a1-m27-ca_7epp-a1-m52-ca 7epp-a1-m29-ca_7epp-a1-m44-ca 7epp-a1-m2-ca_7epp-a1-m22-ca 7epp-a1-m2-ca_7epp-a1-m42-ca 7epp-a1-m30-ca_7epp-a1-m43-ca 7epp-a1-m31-ca_7epp-a1-m40-ca 7epp-a1-m31-ca_7epp-a1-m58-ca 7epp-a1-m32-ca_7epp-a1-m57-ca 7epp-a1-m32-ca_7epp-a1-m7-ca 7epp-a1-m33-ca_7epp-a1-m5-ca 7epp-a1-m33-ca_7epp-a1-m6-ca 7epp-a1-m34-ca_7epp-a1-m49-ca 7epp-a1-m34-ca_7epp-a1-m4-ca 7epp-a1-m35-ca_7epp-a1-m36-ca 7epp-a1-m35-ca_7epp-a1-m48-ca 7epp-a1-m36-ca_7epp-a1-m48-ca 7epp-a1-m37-ca_7epp-a1-m47-ca 7epp-a1-m39-ca_7epp-a1-m59-ca 7epp-a1-m3-ca_7epp-a1-m41-ca 7epp-a1-m3-ca_7epp-a1-m50-ca 7epp-a1-m40-ca_7epp-a1-m58-ca 7epp-a1-m41-ca_7epp-a1-m50-ca 7epp-a1-m45-ca_7epp-a1-m46-ca 7epp-a1-m4-ca_7epp-a1-m49-ca 7epp-a1-m51-ca_7epp-a1-m60-ca 7epp-a1-m55-ca_7epp-a1-m56-ca 7epp-a1-m55-ca_7epp-a1-m8-ca 7epp-a1-m56-ca_7epp-a1-m8-ca 7epp-a1-m57-ca_7epp-a1-m7-ca 7epp-a1-m5-ca_7epp-a1-m6-ca NTILPQTGCVWQSLGTPLSLSSFNGLGVRFLYSFLKDFAGPRILEEDLIYRMVFSITPSYAGTFCLTDDVTTEDGRAVAHGNPMQEFPHGAFHANEKFGFELVFTAPTHAGMQNQNFKHSYAVALCLDFDAQPEGSKNPSYRFNEVWVERKAFPRAGPLRSLITVGL NTILPQTGCVWQSLGTPLSLSSFNGLGVRFLYSFLKDFAGPRILEEDLIYRMVFSITPSYAGTFCLTDDVTTEDGRAVAHGNPMQEFPHGAFHANEKFGFELVFTAPTHAGMQNQNFKHSYAVALCLDFDAQPEGSKNPSYRFNEVWVERKAFPRAGPLRSLITVGL 7epp-a1-m55-ca_7epp-a1-m9-ca Recombinant Alfalfa Mosaic virus coat protein virus-like particle (rAMV-CP VLP) P05673 P05673 2.4 ELECTRON MICROSCOPY 93 1.0 12323 (Alfalfa mosaic virus (strain 425 / isolate Madison)) 12323 (Alfalfa mosaic virus (strain 425 / isolate Madison)) 167 167 7epp-a1-m10-ca_7epp-a1-m24-ca 7epp-a1-m11-ca_7epp-a1-m16-ca 7epp-a1-m12-ca_7epp-a1-m38-ca 7epp-a1-m13-ca_7epp-a1-m47-ca 7epp-a1-m14-ca_7epp-a1-m45-ca 7epp-a1-m15-ca_7epp-a1-m29-ca 7epp-a1-m17-ca_7epp-a1-m28-ca 7epp-a1-m18-ca_7epp-a1-m52-ca 7epp-a1-m19-ca_7epp-a1-m60-ca 7epp-a1-m1-ca_7epp-a1-m6-ca 7epp-a1-m20-ca_7epp-a1-m39-ca 7epp-a1-m21-ca_7epp-a1-m26-ca 7epp-a1-m22-ca_7epp-a1-m43-ca 7epp-a1-m25-ca_7epp-a1-m54-ca 7epp-a1-m27-ca_7epp-a1-m53-ca 7epp-a1-m2-ca_7epp-a1-m23-ca 7epp-a1-m30-ca_7epp-a1-m44-ca 7epp-a1-m31-ca_7epp-a1-m36-ca 7epp-a1-m32-ca_7epp-a1-m58-ca 7epp-a1-m33-ca_7epp-a1-m7-ca 7epp-a1-m34-ca_7epp-a1-m5-ca 7epp-a1-m35-ca_7epp-a1-m49-ca 7epp-a1-m37-ca_7epp-a1-m48-ca 7epp-a1-m3-ca_7epp-a1-m42-ca 7epp-a1-m40-ca_7epp-a1-m59-ca 7epp-a1-m41-ca_7epp-a1-m46-ca 7epp-a1-m4-ca_7epp-a1-m50-ca 7epp-a1-m51-ca_7epp-a1-m56-ca 7epp-a1-m57-ca_7epp-a1-m8-ca NTILPQTGCVWQSLGTPLSLSSFNGLGVRFLYSFLKDFAGPRILEEDLIYRMVFSITPSYAGTFCLTDDVTTEDGRAVAHGNPMQEFPHGAFHANEKFGFELVFTAPTHAGMQNQNFKHSYAVALCLDFDAQPEGSKNPSYRFNEVWVERKAFPRAGPLRSLITVGL NTILPQTGCVWQSLGTPLSLSSFNGLGVRFLYSFLKDFAGPRILEEDLIYRMVFSITPSYAGTFCLTDDVTTEDGRAVAHGNPMQEFPHGAFHANEKFGFELVFTAPTHAGMQNQNFKHSYAVALCLDFDAQPEGSKNPSYRFNEVWVERKAFPRAGPLRSLITVGL 7epq-a1-m1-cB_7epq-a1-m1-cA Crystal structure of exopolyphosphatase (PPX) from Porphyromonas gingivalis in complex with sulfate and magnesium ions B2RHQ2 B2RHQ2 2.2 X-RAY DIFFRACTION 110 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 292 296 KVHYAAIDVGSNAVRLLIKCVNSEPLSKVLIMRVPIRLGEDSFTKGYIGEEKADNMVRLMRAYNEMMQIYRVKDYRACATSAMRDASNAEAVIAQIREKTGIHIDIIDGDEEARLVSDNHIEQIISDGGNYIYLDVGGGSTELTLFSDTHIKHSQSFDIGTVRLLSEKVRPYVREAFRSELMAITKEYTDITIIGTGGNINRLVRLSGSDRGSSRYSIMPVEALHKTYDLLKPISTEERMVRFHLKPDRADVIIPAAEIFLEVADITGAKTIIAPIVGLADGIIEDLYIRHQ KVHYAAIDVGSNAVRLLIKCVNSEGMEEPLSKVLIMRVPIRLGEDSFTKGYIGEEKADNMVRLMRAYNEMMQIYRVKDYRACATSAMRDASNAEAVIAQIREKTGIHIDIIDGDEEARLVSDNHIEQIISDGGNYIYLDVGGGSTELTLFSDTHIKHSQSFDIGTVRLLSEKVRPYVREAFRSELMAITKEYTDITIIGTGGNINRLVRLSGSDRGSSRYSIMPVEALHKTYDLLKPISTEERMVRFHLKPDRADVIIPAAEIFLEVADITGAKTIIAPIVGLADGIIEDLYIRHQ 7epr-a2-m1-cD_7epr-a2-m1-cC Partial Consensus L-threonine 3-dehydrogenase (C-Change) 2.2 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 284 304 7epr-a1-m1-cA_7epr-a1-m1-cB KILIVGACGQIGSELALALAERYGNTNVITSDIRTHEMLDATDRGELATVVERHKITQVYLLAALLSATGEKNPQWAWNLNMTSLLNVLELARIKRVFWPSSIAVFGPTTPKENTPQYTVMEPSTVYGISKQAGEGWCRWYHANHGVDVRSVRYPGLISWKTPPGGGTTDYAVDIFHAAVTGTCFLSEDTALPMMYMPDAIRATIELMEAPADKIKIRSSYNLAGMSFTPAQIAAAIISYEPDYRQAIADSWPASIDDSVARADWGWKPEFDLKEMVADMLANL KEKILIVGACGQIGSELALALAERYGNTNVITSDIREGTHEMLDATDRGELATVVERHKITQVYLLAALLSATGEKNPQWAWNLNMTSLLNVLELARQTKIKRVFWPSSIAVFGPTTPKENTPQYTVMEPSTVYGISKQAGEGWCRWYHANHGVDVRSVRYPGLISWKTPPGGGTTDYAVDIFHAAVTGGKYTCFLSEDTALPMMYMPDAIRATIELMEAPADKIKIRSSYNLAGMSFTPAQIAAAIREQIPDFKISYEPDYRQAIADSWPASIDDSVARADWGWKPEFDLKEMVADMLANLKA 7eqc-a1-m1-cE_7eqc-a1-m1-cI Crystal structure of the mini-centralspindlin complex Q8MQ03 Q8MQ03 2.5 X-RAY DIFFRACTION 72 0.988 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 81 107 ERIPHSFFTQWNSELDGSVRCNDKDTVDSMYKYARKLSSLQPSSTLLTMIRQYMMEADYQRVEIARLKDSLNDKDEEIKKL RIPHSFFTQWNSELDGSVRMEDDGSREIPCPPTFCLTDCNDKDTVDSMYKYARKLSSLQNSSEEGPSSTLLTMIRQYMMEADYQRVEIARLKDSLNDKDEEIKKLRG 7eqc-a2-m1-cD_7eqc-a2-m1-cG Crystal structure of the mini-centralspindlin complex Q9XUS9 Q9XUS9 2.5 X-RAY DIFFRACTION 121 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 101 107 7eqc-a1-m1-cB_7eqc-a1-m1-cC KVCGENSRHIFNMILNPQFDIKDIGMFHLIDEIERLRKLWKDSEESKKRLNADMREAEEALAKARKKLAMFDIDVKDTQKHLRALMEENKALKLDLNVYET KVCGENSRHIFNMILNSQRPQFDIKDIGMFHLIDEIERLRKLWKDSEESKKRLNADMREAEEALAKARKKLAMFDIDVKDTQKHLRALMEENKALKLDLNVYETREK 7eqf-a1-m1-cA_7eqf-a1-m1-cB Crystal Structure of a Transcription Factor in complex with Ligand A0A4Z1DIH6 A0A4Z1DIH6 2.91 X-RAY DIFFRACTION 90 0.994 29306 (Streptomyces griseoluteus) 29306 (Streptomyces griseoluteus) 180 180 7eqe-a1-m1-cB_7eqe-a1-m1-cA 7eqe-a2-m1-cD_7eqe-a2-m1-cC 7eqf-a2-m1-cC_7eqf-a2-m1-cD PHVRGANTRDKIQSVALELFIERGYEKTSREIAEGLGITKAALYYHFKAKEEILVAISQGLGGPVDELVAWARTQPRTLETKREVLRRYSEALGAAPLFRIQESGAALRTLGIGQTLNDRIAAIGELYQDGASVRSQVRISDALASVHFGAFFLSAIEGDPEEKRKALLESALETLDSSA HVRGANTRDKIQSVALELFIERGYEKTSREIAEGLGITKAALYYHFKAKEEILVAISQGLGGPVDELVAWARTQPRTLETKREVLRRYSEALGAAPLFRIQESGAALRTLGIGQTLNDRIAAIGELYQDGASVRSQVRISDALASVHFGAFFLSAIEGDPEEKRKALLESALETLDSSAE 7eqg-a1-m1-cK_7eqg-a1-m1-cP Structure of Csy-AcrIF5 L7P7V3 L7P7V3 3.2 ELECTRON MICROSCOPY 52 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 78 78 7eqg-a1-m1-cJ_7eqg-a1-m1-cK 7eqg-a1-m1-cQ_7eqg-a1-m1-cR 7eqg-a1-m1-cR_7eqg-a1-m1-cP SRPTVVTVTETPRNPGSYEVNVERDGKMVVGRARAGSDPGAAAAKAMQMAMEWGSPNYVILGSNKVLAFIPEQLRVKM SRPTVVTVTETPRNPGSYEVNVERDGKMVVGRARAGSDPGAAAAKAMQMAMEWGSPNYVILGSNKVLAFIPEQLRVKM 7eqi-a4-m1-cH_7eqi-a4-m1-cG ChlB3 [Aceyltransferase] Q0R4P5 Q0R4P5 3.1 X-RAY DIFFRACTION 196 1.0 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 327 328 7eqi-a1-m1-cA_7eqi-a1-m1-cB 7eqi-a2-m1-cD_7eqi-a2-m1-cC 7eqi-a3-m1-cF_7eqi-a3-m1-cE PDIFIKATGRFLPETVSVEWAVEQGHYSAEDAELHELGGAAVAGDTPAPDMALWAAQQAVKRCGHRPEDLGLLLYVDSWHQGPDGWQPQYYLQRHLVGGDVLAVEIQQGCNGMFSALELAAAHLRAGPRPGSALVVAADNFGTPLFDRWTTGPGYIAGDGAGAVVLTTEPGFARLLAVRSLAVPEAEQMHRGGATIGRPLNFTSRNAAFRELSLMRVHQRTLEVVEKTLSEAGITLGDITRVAYMNFSREIVEQRCMAALGLPMSASTWEFGRKLGHLGASDQVVALDELVTTGELGPGDHLLMLGMGPGVTLSCAVVKVLTPAPWS PDIFIKATGRFLPETVSVEWAVEQGHYSAEDAELHELGGAAVAGDTPAPDMALWAAQQAVKRCGHRPEDLGLLLYVDSWHQGPDGWQPQYYLQRHLVGGDVLAVEIQQGCNGMFSALELAAAHLRAGPRPGSALVVAADNFGTPLFDRWTTGPGYIAGDGAGAVVLTTEPGFARLLAVRSLAVPEAEQMHRGAGATIGRPLNFTSRNAAFRELSLMRVHQRTLEVVEKTLSEAGITLGDITRVAYMNFSREIVEQRCMAALGLPMSASTWEFGRKLGHLGASDQVVALDELVTTGELGPGDHLLMLGMGPGVTLSCAVVKVLTPAPWS 7eql-a1-m1-cA_7eql-a1-m2-cA Crystal structure of (+)-pulegone reductase from Mentha piperita Q6WAU0 Q6WAU0 2.72 X-RAY DIFFRACTION 111 1.0 34256 (Mentha x piperita) 34256 (Mentha x piperita) 338 338 MVMNKQIVLNNYINGSLKQSDLALRTSTICMEIPDGCNGAILVKNLYLSVNPYLILRMGKLDPQFDSPGSTIVSYGVSKVLDSTHPSYEKGELIWGSQAGWEEYTLIQNPYNLFKIQDKDVPLSYYVGILGMPGMTAYAGFFEICSPKKGETVFVTAAAGSVGQLVGQFAKMFGCYVVGSAGSKEKVDLLKNKFGFDDAFNYKEESDYDTALKRHFPEGIDIYFDNVGGKMLEAVINNMRVHGRIAVCGMVSQYSLKQPEGVHNLLKLIPKQIRMQGFVVVDYYHLYPKFLEMVLPRIKEGKVTYVEDISEGLESAPSALLGVYVGRNVGNQVVAVSR MVMNKQIVLNNYINGSLKQSDLALRTSTICMEIPDGCNGAILVKNLYLSVNPYLILRMGKLDPQFDSPGSTIVSYGVSKVLDSTHPSYEKGELIWGSQAGWEEYTLIQNPYNLFKIQDKDVPLSYYVGILGMPGMTAYAGFFEICSPKKGETVFVTAAAGSVGQLVGQFAKMFGCYVVGSAGSKEKVDLLKNKFGFDDAFNYKEESDYDTALKRHFPEGIDIYFDNVGGKMLEAVINNMRVHGRIAVCGMVSQYSLKQPEGVHNLLKLIPKQIRMQGFVVVDYYHLYPKFLEMVLPRIKEGKVTYVEDISEGLESAPSALLGVYVGRNVGNQVVAVSR 7eqt-a1-m1-cB_7eqt-a1-m1-cA Crystal structure of capsid P domain of norovirus GI.3 DSV complexed with Gala1-3Galb1-4Glc Q66418 Q66418 2.05 X-RAY DIFFRACTION 135 1.0 33755 (Desert Shield virus) 33755 (Desert Shield virus) 298 304 7eqs-a1-m1-cB_7eqs-a1-m1-cA 7eqw-a1-m1-cB_7eqw-a1-m1-cA KPFSVPNLPLNTLSNSRVPSLINAMMISRDHGQMVQFQNGRVTLDGQLQGTTPTSLSQLCKIRGKVFHASGGNGLNLTELDGSAYHAFESPAPIGFPDIGDCDWHMSATATNNFTGSSNEYQILIKQESAFAPHLGHVQADNLSAGANTDLIVSLSWISPVSDQHRHDVDPWVIPRYGSQLAPPIYPPGFGEAIVFFMSDFPVVSGVNGMRIPCTLPQEYVAHFVNEQAPTRGEAALLHYVDPDTHRNLGEFKMYPEGFMTCVPNSSGSGPQTLPINGVFTFVSWVSRFYQLKPVGTA KPFSVPNLPLNTLSNSRVPSLINAMMISRDHGQMVQFQNGRVTLDGQLQGTTPTSLSQLCKIRGKVFHASGGNGLNLTELDGSAYHAFESPAPIGFPDIGDCDWHMSATATNNFTGSSNEYQILIKQESAFAPHLGHVQADNLSAGANTDLIVSLSWISPVSDQHRHDVDPWVIPRYGSSLTEAAQLAPPIYPPGFGEAIVFFMSDFPVVSGVNGMRIPCTLPQEYVAHFVNEQAPTRGEAALLHYVDPDTHRNLGEFKMYPEGFMTCVPNSSGSGPQTLPINGVFTFVSWVSRFYQLKPVGTA 7er0-a2-m1-cD_7er0-a2-m1-cC Crystal structure of capsid P domain of norovirus GI.3 VA115 I3V9L6 I3V9L6 2.183 X-RAY DIFFRACTION 133 1.0 647516 (Norovirus GI.3) 647516 (Norovirus GI.3) 302 303 7er0-a1-m1-cB_7er0-a1-m1-cA 7er1-a1-m1-cD_7er1-a1-m1-cA 7er1-a2-m1-cC_7er1-a2-m1-cB KPFSVPNLPLNTLSNSRVPSLIRSMMVSRDHGQMVQFQNGRVTLDGQLQGTTPTSASQLCKIRGSVFHANGGNGYNLTELDGSPYHAFESPAPIGFPDLGECDWHMEASPTTQFDTGDVIKQINVKQEAAFAPHLGTIQADGLSDVSVNTNMIAKLGWVSPASDGHRGNVDPWVIPRYGSTLTEAAQLAPPIYPPGFGEAIVFFMSDFPIAHGANGLSVPCTIPQEFVTHFVNEQAPTRGEAALLHYLDPDTHRNLGEFKLYPEGFMTCVPNSGTGPQTLPINGVFVFVSWVSRFYQLKPVG KPFSVPNLPLNTLSNSRVPSLIRSMMVSRDHGQMVQFQNGRVTLDGQLQGTTPTSASQLCKIRGSVFHANGGNGYNLTELDGSPYHAFESPAPIGFPDLGECDWHMEASPTTQFDTGDVIKQINVKQEAAFAPHLGTIQADGLSDVSVNTNMIAKLGWVSPASDGHRGNVDPWVIPRYGSTLTEAAQLAPPIYPPGFGEAIVFFMSDFPIAHGANGLSVPCTIPQEFVTHFVNEQAPTRGEAALLHYLDPDTHRNLGEFKLYPEGFMTCVPNSSGTGPQTLPINGVFVFVSWVSRFYQLKPVG 7er9-a1-m1-cB_7er9-a1-m1-cA Crystal structure of human Biliverdin IX-beta reductase B with Febuxostat (TEI) P30043 P30043 1.45 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 206 207 7er6-a1-m1-cA_7er6-a1-m1-cB 7er7-a1-m1-cB_7er7-a1-m1-cA 7er8-a1-m1-cB_7er8-a1-m1-cA 7era-a1-m1-cA_7era-a1-m1-cB 7erb-a1-m1-cA_7erb-a1-m1-cB 7erb-a2-m1-cC_7erb-a2-m1-cD 7erc-a1-m1-cA_7erc-a1-m1-cB 7erd-a1-m1-cA_7erd-a1-m1-cB 7ere-a1-m1-cB_7ere-a1-m1-cA 7ere-a2-m1-cD_7ere-a2-m1-cC MAVKKIAIFGATGQTGLTTLAQAVQAGYEVTVLVRDSSRLPSEGPRPAHVVVGDVLQAADVDKTVAGQDAVIVLLGTRNDLSPTTVMSEGARNIVAAMKAHGVDKVVACTSAFLLWDPTKVPPRLQAVTDDHIRMHKVLRESGLKYVAVMPPHIGDQPLTGAYTVTLDGRGPSRVISKHDLGHFMLRCLTTDEYDGHSTYPSHQYQ HMAVKKIAIFGATGQTGLTTLAQAVQAGYEVTVLVRDSSRLPSEGPRPAHVVVGDVLQAADVDKTVAGQDAVIVLLGTRNDLSPTTVMSEGARNIVAAMKAHGVDKVVACTSAFLLWDPTKVPPRLQAVTDDHIRMHKVLRESGLKYVAVMPPHIGDQPLTGAYTVTLDGRGPSRVISKHDLGHFMLRCLTTDEYDGHSTYPSHQYQ 7erl-a1-m1-cB_7erl-a1-m1-cA GH43 domain of bifunctional endoxylanase and arabinofuranosidase of Bi0569 A0A3E4KX04 A0A3E4KX04 1.8933 X-RAY DIFFRACTION 60 1.0 329854 (Bacteroides intestinalis) 329854 (Bacteroides intestinalis) 543 545 GAPVFSQVVYQGNDRVYSENPLSPGEFYNPILQGCYPDPSITRKGDDYFLVCSSFAMFPGVPIFHSKDLVNWTQIGHVLDRTSQLKVHDTGISAGVYAPAIKYNPNNDTFYMITTQFAGGFGNIIVKSKDPFKGWSDPIKLNFDGIDPSIFFDDNGKAYVVHNDGPRRGEELYNGHRVIKIWEYDVENDQVIPGTDQVIVNGGVDLSKKPIWIEAPHIYKKDGRYYLMCAEGGTGGWHSEVIFVSDNPKGPFIPAPSNPDLSQRYLDHNRKNMVDWAGHADLVEGPDGKYYGVFLAIRPNEKGRVNIGRETFILPVDWSGEFPVFENGLIPMEPKLKTPAGVENKTGKDGYFPNGNFTFTENFTSPQLDYRWIGLRGPREEFISILKDGGLQVTPFPVNIKEVKPTSTLFYRQQHNNFSFTTTLNYTPKTEKDLAGITCVQSENFNYVFGLMKQDKDFHMVLAKTEKGNTRLLASAKVDMKNPIRLQVKGVGDNYDFSYSLDGNNFVLLGNTVSGDILSTNVAGGFTGCLIGLHATSANDIRV VKGAPVFSQVVYQGNDRVYSENPLSPGEFYNPILQGCYPDPSITRKGDDYFLVCSSFAMFPGVPIFHSKDLVNWTQIGHVLDRTSQLKVHDTGISAGVYAPAIKYNPNNDTFYMITTQFAGGFGNIIVKSKDPFKGWSDPIKLNFDGIDPSIFFDDNGKAYVVHNDGPRRGEELYNGHRVIKIWEYDVENDQVIPGTDQVIVNGGVDLSKKPIWIEAPHIYKKDGRYYLMCAEGGTGGWHSEVIFVSDNPKGPFIPAPSNPDLSQRYLDHNRKNMVDWAGHADLVEGPDGKYYGVFLAIRPNEKGRVNIGRETFILPVDWSGEFPVFENGLIPMEPKLKTPAGVENKTGKDGYFPNGNFTFTENFTSPQLDYRWIGLRGPREEFISILKDGGLQVTPFPVNIKEVKPTSTLFYRQQHNNFSFTTTLNYTPKTEKDLAGITCVQSENFNYVFGLMKQDKDFHMVLAKTEKGNTRLLASAKVDMKNPIRLQVKGVGDNYDFSYSLDGNNFVLLGNTVSGDILSTNVAGGFTGCLIGLHATSANDIRV 7ern-a1-m1-cA_7ern-a1-m1-cD Crystal structure of D-allulose 3-epimerase with D-fructose from Agrobacterium sp. SUL3 2.05 X-RAY DIFFRACTION 12 1.0 1701910 (Agrobacterium sp. SUL3) 1701910 (Agrobacterium sp. SUL3) 283 283 7erm-a1-m1-cA_7erm-a1-m1-cD 7erm-a1-m1-cB_7erm-a1-m1-cC 7ern-a1-m1-cB_7ern-a1-m1-cC 7ero-a1-m1-cC_7ero-a1-m1-cA 7ero-a1-m1-cD_7ero-a1-m1-cB MQGFGVHAMMWSLNWDHESARRAIAGAADYGQDFIEIPLVDLPSVDTAHTRALLEKYGLRAACSLVLPEPAWASVRPEAAVAHLNAALDKAAEMGAEALTGVTYGGTSERTGFPPTQAEYDNLTRALSQSAGHAKTLGLQFGIEAVNRYENHLVNSAEQAVALVERIGADNIFVHLDTFHMNMEEKGIANGIIAAHDYLKYMHMSESDRGTPGFGNVAWDAVFAALAAIGFKGVLTLESFAAMPEEMAGAISTWRPVASGADEVLDKGLAFLRDKASQYRIFG MQGFGVHAMMWSLNWDHESARRAIAGAADYGQDFIEIPLVDLPSVDTAHTRALLEKYGLRAACSLVLPEPAWASVRPEAAVAHLNAALDKAAEMGAEALTGVTYGGTSERTGFPPTQAEYDNLTRALSQSAGHAKTLGLQFGIEAVNRYENHLVNSAEQAVALVERIGADNIFVHLDTFHMNMEEKGIANGIIAAHDYLKYMHMSESDRGTPGFGNVAWDAVFAALAAIGFKGVLTLESFAAMPEEMAGAISTWRPVASGADEVLDKGLAFLRDKASQYRIFG 7ern-a1-m1-cB_7ern-a1-m1-cD Crystal structure of D-allulose 3-epimerase with D-fructose from Agrobacterium sp. SUL3 2.05 X-RAY DIFFRACTION 97 1.0 1701910 (Agrobacterium sp. SUL3) 1701910 (Agrobacterium sp. SUL3) 283 283 7erm-a1-m1-cA_7erm-a1-m1-cB 7erm-a1-m1-cC_7erm-a1-m1-cD 7ern-a1-m1-cA_7ern-a1-m1-cC 7ero-a1-m1-cA_7ero-a1-m1-cB 7ero-a1-m1-cC_7ero-a1-m1-cD MQGFGVHAMMWSLNWDHESARRAIAGAADYGQDFIEIPLVDLPSVDTAHTRALLEKYGLRAACSLVLPEPAWASVRPEAAVAHLNAALDKAAEMGAEALTGVTYGGTSERTGFPPTQAEYDNLTRALSQSAGHAKTLGLQFGIEAVNRYENHLVNSAEQAVALVERIGADNIFVHLDTFHMNMEEKGIANGIIAAHDYLKYMHMSESDRGTPGFGNVAWDAVFAALAAIGFKGVLTLESFAAMPEEMAGAISTWRPVASGADEVLDKGLAFLRDKASQYRIFG MQGFGVHAMMWSLNWDHESARRAIAGAADYGQDFIEIPLVDLPSVDTAHTRALLEKYGLRAACSLVLPEPAWASVRPEAAVAHLNAALDKAAEMGAEALTGVTYGGTSERTGFPPTQAEYDNLTRALSQSAGHAKTLGLQFGIEAVNRYENHLVNSAEQAVALVERIGADNIFVHLDTFHMNMEEKGIANGIIAAHDYLKYMHMSESDRGTPGFGNVAWDAVFAALAAIGFKGVLTLESFAAMPEEMAGAISTWRPVASGADEVLDKGLAFLRDKASQYRIFG 7ern-a1-m1-cD_7ern-a1-m1-cC Crystal structure of D-allulose 3-epimerase with D-fructose from Agrobacterium sp. SUL3 2.05 X-RAY DIFFRACTION 61 1.0 1701910 (Agrobacterium sp. SUL3) 1701910 (Agrobacterium sp. SUL3) 283 284 7erm-a1-m1-cA_7erm-a1-m1-cC 7erm-a1-m1-cB_7erm-a1-m1-cD 7ern-a1-m1-cA_7ern-a1-m1-cB 7ero-a1-m1-cA_7ero-a1-m1-cD 7ero-a1-m1-cC_7ero-a1-m1-cB MQGFGVHAMMWSLNWDHESARRAIAGAADYGQDFIEIPLVDLPSVDTAHTRALLEKYGLRAACSLVLPEPAWASVRPEAAVAHLNAALDKAAEMGAEALTGVTYGGTSERTGFPPTQAEYDNLTRALSQSAGHAKTLGLQFGIEAVNRYENHLVNSAEQAVALVERIGADNIFVHLDTFHMNMEEKGIANGIIAAHDYLKYMHMSESDRGTPGFGNVAWDAVFAALAAIGFKGVLTLESFAAMPEEMAGAISTWRPVASGADEVLDKGLAFLRDKASQYRIFG MQGFGVHAMMWSLNWDHESARRAIAGAADYGQDFIEIPLVDLPSVDTAHTRALLEKYGLRAACSLVLPEPAWASVRPEAAVAHLNAALDKAAEMGAEALTGVTYGGTSERTGFPPTQAEYDNLTRALSQSAGHAKTLGLQFGIEAVNRYENHLVNSAEQAVALVERIGADNIFVHLDTFHMNMEEKGIANGIIAAHDYLKYMHMSESDRGTPGFGNVAWDAVFAALAAIGFKGVLTLESFAAMPEEMAGAISTWRPVASGADEVLDKGLAFLRDKASQYRIFGN 7erp-a2-m1-cD_7erp-a2-m1-cC The regulatory domain of YeiE, a sulfite sensing LysR-type transcriptional regulator from Cronobacter sakazakii (sulfite-bound form) H9BVC9 H9BVC9 2.03 X-RAY DIFFRACTION 79 0.984 28141 (Cronobacter sakazakii) 28141 (Cronobacter sakazakii) 182 196 7erp-a1-m1-cA_7erp-a1-m1-cB 7erq-a1-m1-cA_7erq-a1-m1-cB 7fdf-a1-m1-cA_7fdf-a1-m2-cA IRVYASSTIGNYILPEIIARYRRPDLPLEMSVGNSLDVVQAVCDFRVDIGLIEGPCHMAEIVAQPWLEDELVVFASPAEGETLERAAMPWILREKGSGTREIVDYLLLSMELGNSEAIKHAVRHGLGVSCLSRRVIAEQLETGSLVEVKVPLPPLVRTLYRIHHRQKHLSSALARFLRYCEL AIRVYASSTIGNYILPEIIARYRRDFPDLPLEMSVGNSLDVVQAVCDFRVDIGLIEGPCHMAEIVAQPWLEDELVVFASPASPLLEGEVTLERLAAMPWILREKGSGTREIVDYLLLSHLPQFRLSMELGNSEAIKHAVRHGLGVSCLSRRVIAEQLETGSLVEVKVPLPPLVRTLYRIHHRQKSALARFLRYCEL 7erv-a1-m1-cA_7erv-a1-m2-cA Crystal structure of L-histidine decarboxylase (C57S/C101V/C282V mutant) from Photobacterium phosphoreum Q1JU62 Q1JU62 2.5 X-RAY DIFFRACTION 272 1.0 659 (Photobacterium phosphoreum) 659 (Photobacterium phosphoreum) 373 373 7eru-a1-m1-cA_7eru-a1-m2-cA MTLSIENQNKLDEFWAYCVKNQYFNIGYPESADFDYTILERFMRFSINNCGDWAEYSNYLLNSFDFEKEVMEYFADLFKIPFEDSWGYVTNGGTESNMFGVYLGRELFPDGTLYYSKDTHYSVAKIVKLLRIKSQLVDSLPNGEIDYDDLISKIKQDDEKHPIIFANIGTTVRGAIDDISKIQAMIGELGIKREDYYIHADAALSGMILPFVDEPQGFNFADGIDSIGVSGHMIGSPIPCGIVVAKKRNVDAISVEIDYISAHDKTITGSRNGHTPLMMWVAVKSHSHADFKRRINRSLDLAQHAVQRLQTAGINAWCNKNSITVVFPCPSEAVWKKHCLATSGGQAHLITTAHHLDASKVDALIDDVIKDAN MTLSIENQNKLDEFWAYCVKNQYFNIGYPESADFDYTILERFMRFSINNCGDWAEYSNYLLNSFDFEKEVMEYFADLFKIPFEDSWGYVTNGGTESNMFGVYLGRELFPDGTLYYSKDTHYSVAKIVKLLRIKSQLVDSLPNGEIDYDDLISKIKQDDEKHPIIFANIGTTVRGAIDDISKIQAMIGELGIKREDYYIHADAALSGMILPFVDEPQGFNFADGIDSIGVSGHMIGSPIPCGIVVAKKRNVDAISVEIDYISAHDKTITGSRNGHTPLMMWVAVKSHSHADFKRRINRSLDLAQHAVQRLQTAGINAWCNKNSITVVFPCPSEAVWKKHCLATSGGQAHLITTAHHLDASKVDALIDDVIKDAN 7esd-a1-m10-cA_7esd-a1-m9-cC Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 12 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cC_7esd-a1-m6-cA 7esd-a1-m11-cA_7esd-a1-m15-cC 7esd-a1-m11-cC_7esd-a1-m12-cA 7esd-a1-m12-cC_7esd-a1-m13-cA 7esd-a1-m13-cC_7esd-a1-m14-cA 7esd-a1-m14-cC_7esd-a1-m15-cA 7esd-a1-m16-cA_7esd-a1-m20-cC 7esd-a1-m16-cC_7esd-a1-m17-cA 7esd-a1-m17-cC_7esd-a1-m18-cA 7esd-a1-m18-cC_7esd-a1-m19-cA 7esd-a1-m19-cC_7esd-a1-m20-cA 7esd-a1-m1-cA_7esd-a1-m5-cC 7esd-a1-m1-cC_7esd-a1-m2-cA 7esd-a1-m21-cA_7esd-a1-m25-cC 7esd-a1-m21-cC_7esd-a1-m22-cA 7esd-a1-m22-cC_7esd-a1-m23-cA 7esd-a1-m23-cC_7esd-a1-m24-cA 7esd-a1-m24-cC_7esd-a1-m25-cA 7esd-a1-m26-cA_7esd-a1-m30-cC 7esd-a1-m26-cC_7esd-a1-m27-cA 7esd-a1-m27-cC_7esd-a1-m28-cA 7esd-a1-m28-cC_7esd-a1-m29-cA 7esd-a1-m29-cC_7esd-a1-m30-cA 7esd-a1-m2-cC_7esd-a1-m3-cA 7esd-a1-m31-cA_7esd-a1-m35-cC 7esd-a1-m31-cC_7esd-a1-m32-cA 7esd-a1-m32-cC_7esd-a1-m33-cA 7esd-a1-m33-cC_7esd-a1-m34-cA 7esd-a1-m34-cC_7esd-a1-m35-cA 7esd-a1-m36-cA_7esd-a1-m40-cC 7esd-a1-m36-cC_7esd-a1-m37-cA 7esd-a1-m37-cC_7esd-a1-m38-cA 7esd-a1-m38-cC_7esd-a1-m39-cA 7esd-a1-m39-cC_7esd-a1-m40-cA 7esd-a1-m3-cC_7esd-a1-m4-cA 7esd-a1-m41-cA_7esd-a1-m45-cC 7esd-a1-m41-cC_7esd-a1-m42-cA 7esd-a1-m42-cC_7esd-a1-m43-cA 7esd-a1-m43-cC_7esd-a1-m44-cA 7esd-a1-m44-cC_7esd-a1-m45-cA 7esd-a1-m46-cA_7esd-a1-m50-cC 7esd-a1-m46-cC_7esd-a1-m47-cA 7esd-a1-m47-cC_7esd-a1-m48-cA 7esd-a1-m48-cC_7esd-a1-m49-cA 7esd-a1-m49-cC_7esd-a1-m50-cA 7esd-a1-m4-cC_7esd-a1-m5-cA 7esd-a1-m51-cA_7esd-a1-m55-cC 7esd-a1-m51-cC_7esd-a1-m52-cA 7esd-a1-m52-cC_7esd-a1-m53-cA 7esd-a1-m53-cC_7esd-a1-m54-cA 7esd-a1-m54-cC_7esd-a1-m55-cA 7esd-a1-m56-cA_7esd-a1-m60-cC 7esd-a1-m56-cC_7esd-a1-m57-cA 7esd-a1-m57-cC_7esd-a1-m58-cA 7esd-a1-m58-cC_7esd-a1-m59-cA 7esd-a1-m59-cC_7esd-a1-m60-cA 7esd-a1-m6-cC_7esd-a1-m7-cA 7esd-a1-m7-cC_7esd-a1-m8-cA 7esd-a1-m8-cC_7esd-a1-m9-cA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m24-cB_7esd-a1-m9-cC Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 55 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cB_7esd-a1-m23-cC 7esd-a1-m11-cB_7esd-a1-m20-cC 7esd-a1-m11-cC_7esd-a1-m38-cB 7esd-a1-m12-cB_7esd-a1-m37-cC 7esd-a1-m12-cC_7esd-a1-m47-cB 7esd-a1-m13-cB_7esd-a1-m46-cC 7esd-a1-m13-cC_7esd-a1-m45-cB 7esd-a1-m14-cB_7esd-a1-m44-cC 7esd-a1-m14-cC_7esd-a1-m29-cB 7esd-a1-m15-cB_7esd-a1-m28-cC 7esd-a1-m15-cC_7esd-a1-m16-cB 7esd-a1-m16-cC_7esd-a1-m28-cB 7esd-a1-m17-cB_7esd-a1-m27-cC 7esd-a1-m17-cC_7esd-a1-m52-cB 7esd-a1-m18-cB_7esd-a1-m51-cC 7esd-a1-m18-cC_7esd-a1-m60-cB 7esd-a1-m19-cB_7esd-a1-m59-cC 7esd-a1-m19-cC_7esd-a1-m39-cB 7esd-a1-m1-cB_7esd-a1-m10-cC 7esd-a1-m1-cC_7esd-a1-m23-cB 7esd-a1-m20-cB_7esd-a1-m38-cC 7esd-a1-m21-cB_7esd-a1-m30-cC 7esd-a1-m21-cC_7esd-a1-m43-cB 7esd-a1-m22-cB_7esd-a1-m42-cC 7esd-a1-m24-cC_7esd-a1-m54-cB 7esd-a1-m25-cB_7esd-a1-m53-cC 7esd-a1-m25-cC_7esd-a1-m26-cB 7esd-a1-m26-cC_7esd-a1-m53-cB 7esd-a1-m27-cB_7esd-a1-m52-cC 7esd-a1-m29-cC_7esd-a1-m44-cB 7esd-a1-m2-cB_7esd-a1-m22-cC 7esd-a1-m2-cC_7esd-a1-m42-cB 7esd-a1-m30-cB_7esd-a1-m43-cC 7esd-a1-m31-cB_7esd-a1-m40-cC 7esd-a1-m31-cC_7esd-a1-m58-cB 7esd-a1-m32-cB_7esd-a1-m57-cC 7esd-a1-m32-cC_7esd-a1-m7-cB 7esd-a1-m33-cB_7esd-a1-m6-cC 7esd-a1-m33-cC_7esd-a1-m5-cB 7esd-a1-m34-cB_7esd-a1-m4-cC 7esd-a1-m34-cC_7esd-a1-m49-cB 7esd-a1-m35-cB_7esd-a1-m48-cC 7esd-a1-m35-cC_7esd-a1-m36-cB 7esd-a1-m36-cC_7esd-a1-m48-cB 7esd-a1-m37-cB_7esd-a1-m47-cC 7esd-a1-m39-cC_7esd-a1-m59-cB 7esd-a1-m3-cB_7esd-a1-m41-cC 7esd-a1-m3-cC_7esd-a1-m50-cB 7esd-a1-m40-cB_7esd-a1-m58-cC 7esd-a1-m41-cB_7esd-a1-m50-cC 7esd-a1-m45-cC_7esd-a1-m46-cB 7esd-a1-m4-cB_7esd-a1-m49-cC 7esd-a1-m51-cB_7esd-a1-m60-cC 7esd-a1-m54-cC_7esd-a1-m9-cB 7esd-a1-m55-cB_7esd-a1-m8-cC 7esd-a1-m55-cC_7esd-a1-m56-cB 7esd-a1-m56-cC_7esd-a1-m8-cB 7esd-a1-m57-cB_7esd-a1-m7-cC 7esd-a1-m5-cC_7esd-a1-m6-cB SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m54-cC_7esd-a1-m9-cC Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 43 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cC_7esd-a1-m23-cC 7esd-a1-m11-cC_7esd-a1-m20-cC 7esd-a1-m11-cC_7esd-a1-m38-cC 7esd-a1-m12-cC_7esd-a1-m37-cC 7esd-a1-m12-cC_7esd-a1-m47-cC 7esd-a1-m13-cC_7esd-a1-m45-cC 7esd-a1-m13-cC_7esd-a1-m46-cC 7esd-a1-m14-cC_7esd-a1-m29-cC 7esd-a1-m14-cC_7esd-a1-m44-cC 7esd-a1-m15-cC_7esd-a1-m16-cC 7esd-a1-m15-cC_7esd-a1-m28-cC 7esd-a1-m16-cC_7esd-a1-m28-cC 7esd-a1-m17-cC_7esd-a1-m27-cC 7esd-a1-m17-cC_7esd-a1-m52-cC 7esd-a1-m18-cC_7esd-a1-m51-cC 7esd-a1-m18-cC_7esd-a1-m60-cC 7esd-a1-m19-cC_7esd-a1-m39-cC 7esd-a1-m19-cC_7esd-a1-m59-cC 7esd-a1-m1-cC_7esd-a1-m10-cC 7esd-a1-m1-cC_7esd-a1-m23-cC 7esd-a1-m20-cC_7esd-a1-m38-cC 7esd-a1-m21-cC_7esd-a1-m30-cC 7esd-a1-m21-cC_7esd-a1-m43-cC 7esd-a1-m22-cC_7esd-a1-m42-cC 7esd-a1-m24-cC_7esd-a1-m54-cC 7esd-a1-m24-cC_7esd-a1-m9-cC 7esd-a1-m25-cC_7esd-a1-m26-cC 7esd-a1-m25-cC_7esd-a1-m53-cC 7esd-a1-m26-cC_7esd-a1-m53-cC 7esd-a1-m27-cC_7esd-a1-m52-cC 7esd-a1-m29-cC_7esd-a1-m44-cC 7esd-a1-m2-cC_7esd-a1-m22-cC 7esd-a1-m2-cC_7esd-a1-m42-cC 7esd-a1-m30-cC_7esd-a1-m43-cC 7esd-a1-m31-cC_7esd-a1-m40-cC 7esd-a1-m31-cC_7esd-a1-m58-cC 7esd-a1-m32-cC_7esd-a1-m57-cC 7esd-a1-m32-cC_7esd-a1-m7-cC 7esd-a1-m33-cC_7esd-a1-m5-cC 7esd-a1-m33-cC_7esd-a1-m6-cC 7esd-a1-m34-cC_7esd-a1-m49-cC 7esd-a1-m34-cC_7esd-a1-m4-cC 7esd-a1-m35-cC_7esd-a1-m36-cC 7esd-a1-m35-cC_7esd-a1-m48-cC 7esd-a1-m36-cC_7esd-a1-m48-cC 7esd-a1-m37-cC_7esd-a1-m47-cC 7esd-a1-m39-cC_7esd-a1-m59-cC 7esd-a1-m3-cC_7esd-a1-m41-cC 7esd-a1-m3-cC_7esd-a1-m50-cC 7esd-a1-m40-cC_7esd-a1-m58-cC 7esd-a1-m41-cC_7esd-a1-m50-cC 7esd-a1-m45-cC_7esd-a1-m46-cC 7esd-a1-m4-cC_7esd-a1-m49-cC 7esd-a1-m51-cC_7esd-a1-m60-cC 7esd-a1-m55-cC_7esd-a1-m56-cC 7esd-a1-m55-cC_7esd-a1-m8-cC 7esd-a1-m56-cC_7esd-a1-m8-cC 7esd-a1-m57-cC_7esd-a1-m7-cC 7esd-a1-m5-cC_7esd-a1-m6-cC SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m8-cA_7esd-a1-m9-cA Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 26 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cA_7esd-a1-m6-cA 7esd-a1-m10-cA_7esd-a1-m9-cA 7esd-a1-m11-cA_7esd-a1-m12-cA 7esd-a1-m11-cA_7esd-a1-m15-cA 7esd-a1-m12-cA_7esd-a1-m13-cA 7esd-a1-m13-cA_7esd-a1-m14-cA 7esd-a1-m14-cA_7esd-a1-m15-cA 7esd-a1-m16-cA_7esd-a1-m17-cA 7esd-a1-m16-cA_7esd-a1-m20-cA 7esd-a1-m17-cA_7esd-a1-m18-cA 7esd-a1-m18-cA_7esd-a1-m19-cA 7esd-a1-m19-cA_7esd-a1-m20-cA 7esd-a1-m1-cA_7esd-a1-m2-cA 7esd-a1-m1-cA_7esd-a1-m5-cA 7esd-a1-m21-cA_7esd-a1-m22-cA 7esd-a1-m21-cA_7esd-a1-m25-cA 7esd-a1-m22-cA_7esd-a1-m23-cA 7esd-a1-m23-cA_7esd-a1-m24-cA 7esd-a1-m24-cA_7esd-a1-m25-cA 7esd-a1-m26-cA_7esd-a1-m27-cA 7esd-a1-m26-cA_7esd-a1-m30-cA 7esd-a1-m27-cA_7esd-a1-m28-cA 7esd-a1-m28-cA_7esd-a1-m29-cA 7esd-a1-m29-cA_7esd-a1-m30-cA 7esd-a1-m2-cA_7esd-a1-m3-cA 7esd-a1-m31-cA_7esd-a1-m32-cA 7esd-a1-m31-cA_7esd-a1-m35-cA 7esd-a1-m32-cA_7esd-a1-m33-cA 7esd-a1-m33-cA_7esd-a1-m34-cA 7esd-a1-m34-cA_7esd-a1-m35-cA 7esd-a1-m36-cA_7esd-a1-m37-cA 7esd-a1-m36-cA_7esd-a1-m40-cA 7esd-a1-m37-cA_7esd-a1-m38-cA 7esd-a1-m38-cA_7esd-a1-m39-cA 7esd-a1-m39-cA_7esd-a1-m40-cA 7esd-a1-m3-cA_7esd-a1-m4-cA 7esd-a1-m41-cA_7esd-a1-m42-cA 7esd-a1-m41-cA_7esd-a1-m45-cA 7esd-a1-m42-cA_7esd-a1-m43-cA 7esd-a1-m43-cA_7esd-a1-m44-cA 7esd-a1-m44-cA_7esd-a1-m45-cA 7esd-a1-m46-cA_7esd-a1-m47-cA 7esd-a1-m46-cA_7esd-a1-m50-cA 7esd-a1-m47-cA_7esd-a1-m48-cA 7esd-a1-m48-cA_7esd-a1-m49-cA 7esd-a1-m49-cA_7esd-a1-m50-cA 7esd-a1-m4-cA_7esd-a1-m5-cA 7esd-a1-m51-cA_7esd-a1-m52-cA 7esd-a1-m51-cA_7esd-a1-m55-cA 7esd-a1-m52-cA_7esd-a1-m53-cA 7esd-a1-m53-cA_7esd-a1-m54-cA 7esd-a1-m54-cA_7esd-a1-m55-cA 7esd-a1-m56-cA_7esd-a1-m57-cA 7esd-a1-m56-cA_7esd-a1-m60-cA 7esd-a1-m57-cA_7esd-a1-m58-cA 7esd-a1-m58-cA_7esd-a1-m59-cA 7esd-a1-m59-cA_7esd-a1-m60-cA 7esd-a1-m6-cA_7esd-a1-m7-cA 7esd-a1-m7-cA_7esd-a1-m8-cA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m9-cA_7esd-a1-m9-cB Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 39 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cA_7esd-a1-m10-cB 7esd-a1-m11-cA_7esd-a1-m11-cB 7esd-a1-m12-cA_7esd-a1-m12-cB 7esd-a1-m13-cA_7esd-a1-m13-cB 7esd-a1-m14-cA_7esd-a1-m14-cB 7esd-a1-m15-cA_7esd-a1-m15-cB 7esd-a1-m16-cA_7esd-a1-m16-cB 7esd-a1-m17-cA_7esd-a1-m17-cB 7esd-a1-m18-cA_7esd-a1-m18-cB 7esd-a1-m19-cA_7esd-a1-m19-cB 7esd-a1-m1-cA_7esd-a1-m1-cB 7esd-a1-m20-cA_7esd-a1-m20-cB 7esd-a1-m21-cA_7esd-a1-m21-cB 7esd-a1-m22-cA_7esd-a1-m22-cB 7esd-a1-m23-cA_7esd-a1-m23-cB 7esd-a1-m24-cA_7esd-a1-m24-cB 7esd-a1-m25-cA_7esd-a1-m25-cB 7esd-a1-m26-cA_7esd-a1-m26-cB 7esd-a1-m27-cA_7esd-a1-m27-cB 7esd-a1-m28-cA_7esd-a1-m28-cB 7esd-a1-m29-cA_7esd-a1-m29-cB 7esd-a1-m2-cA_7esd-a1-m2-cB 7esd-a1-m30-cA_7esd-a1-m30-cB 7esd-a1-m31-cA_7esd-a1-m31-cB 7esd-a1-m32-cA_7esd-a1-m32-cB 7esd-a1-m33-cA_7esd-a1-m33-cB 7esd-a1-m34-cA_7esd-a1-m34-cB 7esd-a1-m35-cA_7esd-a1-m35-cB 7esd-a1-m36-cA_7esd-a1-m36-cB 7esd-a1-m37-cA_7esd-a1-m37-cB 7esd-a1-m38-cA_7esd-a1-m38-cB 7esd-a1-m39-cA_7esd-a1-m39-cB 7esd-a1-m3-cA_7esd-a1-m3-cB 7esd-a1-m40-cA_7esd-a1-m40-cB 7esd-a1-m41-cA_7esd-a1-m41-cB 7esd-a1-m42-cA_7esd-a1-m42-cB 7esd-a1-m43-cA_7esd-a1-m43-cB 7esd-a1-m44-cA_7esd-a1-m44-cB 7esd-a1-m45-cA_7esd-a1-m45-cB 7esd-a1-m46-cA_7esd-a1-m46-cB 7esd-a1-m47-cA_7esd-a1-m47-cB 7esd-a1-m48-cA_7esd-a1-m48-cB 7esd-a1-m49-cA_7esd-a1-m49-cB 7esd-a1-m4-cA_7esd-a1-m4-cB 7esd-a1-m50-cA_7esd-a1-m50-cB 7esd-a1-m51-cA_7esd-a1-m51-cB 7esd-a1-m52-cA_7esd-a1-m52-cB 7esd-a1-m53-cA_7esd-a1-m53-cB 7esd-a1-m54-cA_7esd-a1-m54-cB 7esd-a1-m55-cA_7esd-a1-m55-cB 7esd-a1-m56-cA_7esd-a1-m56-cB 7esd-a1-m57-cA_7esd-a1-m57-cB 7esd-a1-m58-cA_7esd-a1-m58-cB 7esd-a1-m59-cA_7esd-a1-m59-cB 7esd-a1-m5-cA_7esd-a1-m5-cB 7esd-a1-m60-cA_7esd-a1-m60-cB 7esd-a1-m6-cA_7esd-a1-m6-cB 7esd-a1-m7-cA_7esd-a1-m7-cB 7esd-a1-m8-cA_7esd-a1-m8-cB SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m9-cA_7esd-a1-m9-cC Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 78 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cA_7esd-a1-m10-cC 7esd-a1-m10-cB_7esd-a1-m24-cB 7esd-a1-m11-cA_7esd-a1-m11-cC 7esd-a1-m11-cB_7esd-a1-m16-cB 7esd-a1-m12-cA_7esd-a1-m12-cC 7esd-a1-m12-cB_7esd-a1-m38-cB 7esd-a1-m13-cA_7esd-a1-m13-cC 7esd-a1-m13-cB_7esd-a1-m47-cB 7esd-a1-m14-cA_7esd-a1-m14-cC 7esd-a1-m14-cB_7esd-a1-m45-cB 7esd-a1-m15-cA_7esd-a1-m15-cC 7esd-a1-m15-cB_7esd-a1-m29-cB 7esd-a1-m16-cA_7esd-a1-m16-cC 7esd-a1-m17-cA_7esd-a1-m17-cC 7esd-a1-m17-cB_7esd-a1-m28-cB 7esd-a1-m18-cA_7esd-a1-m18-cC 7esd-a1-m18-cB_7esd-a1-m52-cB 7esd-a1-m19-cA_7esd-a1-m19-cC 7esd-a1-m19-cB_7esd-a1-m60-cB 7esd-a1-m1-cA_7esd-a1-m1-cC 7esd-a1-m1-cB_7esd-a1-m6-cB 7esd-a1-m20-cA_7esd-a1-m20-cC 7esd-a1-m20-cB_7esd-a1-m39-cB 7esd-a1-m21-cA_7esd-a1-m21-cC 7esd-a1-m21-cB_7esd-a1-m26-cB 7esd-a1-m22-cA_7esd-a1-m22-cC 7esd-a1-m22-cB_7esd-a1-m43-cB 7esd-a1-m23-cA_7esd-a1-m23-cC 7esd-a1-m24-cA_7esd-a1-m24-cC 7esd-a1-m25-cA_7esd-a1-m25-cC 7esd-a1-m25-cB_7esd-a1-m54-cB 7esd-a1-m26-cA_7esd-a1-m26-cC 7esd-a1-m27-cA_7esd-a1-m27-cC 7esd-a1-m27-cB_7esd-a1-m53-cB 7esd-a1-m28-cA_7esd-a1-m28-cC 7esd-a1-m29-cA_7esd-a1-m29-cC 7esd-a1-m2-cA_7esd-a1-m2-cC 7esd-a1-m2-cB_7esd-a1-m23-cB 7esd-a1-m30-cA_7esd-a1-m30-cC 7esd-a1-m30-cB_7esd-a1-m44-cB 7esd-a1-m31-cA_7esd-a1-m31-cC 7esd-a1-m31-cB_7esd-a1-m36-cB 7esd-a1-m32-cA_7esd-a1-m32-cC 7esd-a1-m32-cB_7esd-a1-m58-cB 7esd-a1-m33-cA_7esd-a1-m33-cC 7esd-a1-m33-cB_7esd-a1-m7-cB 7esd-a1-m34-cA_7esd-a1-m34-cC 7esd-a1-m34-cB_7esd-a1-m5-cB 7esd-a1-m35-cA_7esd-a1-m35-cC 7esd-a1-m35-cB_7esd-a1-m49-cB 7esd-a1-m36-cA_7esd-a1-m36-cC 7esd-a1-m37-cA_7esd-a1-m37-cC 7esd-a1-m37-cB_7esd-a1-m48-cB 7esd-a1-m38-cA_7esd-a1-m38-cC 7esd-a1-m39-cA_7esd-a1-m39-cC 7esd-a1-m3-cA_7esd-a1-m3-cC 7esd-a1-m3-cB_7esd-a1-m42-cB 7esd-a1-m40-cA_7esd-a1-m40-cC 7esd-a1-m40-cB_7esd-a1-m59-cB 7esd-a1-m41-cA_7esd-a1-m41-cC 7esd-a1-m41-cB_7esd-a1-m46-cB 7esd-a1-m42-cA_7esd-a1-m42-cC 7esd-a1-m43-cA_7esd-a1-m43-cC 7esd-a1-m44-cA_7esd-a1-m44-cC 7esd-a1-m45-cA_7esd-a1-m45-cC 7esd-a1-m46-cA_7esd-a1-m46-cC 7esd-a1-m47-cA_7esd-a1-m47-cC 7esd-a1-m48-cA_7esd-a1-m48-cC 7esd-a1-m49-cA_7esd-a1-m49-cC 7esd-a1-m4-cA_7esd-a1-m4-cC 7esd-a1-m4-cB_7esd-a1-m50-cB 7esd-a1-m50-cA_7esd-a1-m50-cC 7esd-a1-m51-cA_7esd-a1-m51-cC 7esd-a1-m51-cB_7esd-a1-m56-cB 7esd-a1-m52-cA_7esd-a1-m52-cC 7esd-a1-m53-cA_7esd-a1-m53-cC 7esd-a1-m54-cA_7esd-a1-m54-cC 7esd-a1-m55-cA_7esd-a1-m55-cC 7esd-a1-m55-cB_7esd-a1-m9-cB 7esd-a1-m56-cA_7esd-a1-m56-cC 7esd-a1-m57-cA_7esd-a1-m57-cC 7esd-a1-m57-cB_7esd-a1-m8-cB 7esd-a1-m58-cA_7esd-a1-m58-cC 7esd-a1-m59-cA_7esd-a1-m59-cC 7esd-a1-m5-cA_7esd-a1-m5-cC 7esd-a1-m60-cA_7esd-a1-m60-cC 7esd-a1-m6-cA_7esd-a1-m6-cC 7esd-a1-m7-cA_7esd-a1-m7-cC 7esd-a1-m8-cA_7esd-a1-m8-cC SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m9-cB_7esd-a1-m9-cC Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 22 1.0 985683 (Donggang virus) 985683 (Donggang virus) 499 499 7esd-a1-m10-cA_7esd-a1-m24-cB 7esd-a1-m10-cB_7esd-a1-m10-cC 7esd-a1-m10-cB_7esd-a1-m24-cA 7esd-a1-m11-cA_7esd-a1-m16-cB 7esd-a1-m11-cB_7esd-a1-m11-cC 7esd-a1-m11-cB_7esd-a1-m16-cA 7esd-a1-m12-cA_7esd-a1-m38-cB 7esd-a1-m12-cB_7esd-a1-m12-cC 7esd-a1-m12-cB_7esd-a1-m38-cA 7esd-a1-m13-cA_7esd-a1-m47-cB 7esd-a1-m13-cB_7esd-a1-m13-cC 7esd-a1-m13-cB_7esd-a1-m47-cA 7esd-a1-m14-cA_7esd-a1-m45-cB 7esd-a1-m14-cB_7esd-a1-m14-cC 7esd-a1-m14-cB_7esd-a1-m45-cA 7esd-a1-m15-cA_7esd-a1-m29-cB 7esd-a1-m15-cB_7esd-a1-m15-cC 7esd-a1-m15-cB_7esd-a1-m29-cA 7esd-a1-m16-cB_7esd-a1-m16-cC 7esd-a1-m17-cA_7esd-a1-m28-cB 7esd-a1-m17-cB_7esd-a1-m17-cC 7esd-a1-m17-cB_7esd-a1-m28-cA 7esd-a1-m18-cA_7esd-a1-m52-cB 7esd-a1-m18-cB_7esd-a1-m18-cC 7esd-a1-m18-cB_7esd-a1-m52-cA 7esd-a1-m19-cA_7esd-a1-m60-cB 7esd-a1-m19-cB_7esd-a1-m19-cC 7esd-a1-m19-cB_7esd-a1-m60-cA 7esd-a1-m1-cA_7esd-a1-m6-cB 7esd-a1-m1-cB_7esd-a1-m1-cC 7esd-a1-m1-cB_7esd-a1-m6-cA 7esd-a1-m20-cA_7esd-a1-m39-cB 7esd-a1-m20-cB_7esd-a1-m20-cC 7esd-a1-m20-cB_7esd-a1-m39-cA 7esd-a1-m21-cA_7esd-a1-m26-cB 7esd-a1-m21-cB_7esd-a1-m21-cC 7esd-a1-m21-cB_7esd-a1-m26-cA 7esd-a1-m22-cA_7esd-a1-m43-cB 7esd-a1-m22-cB_7esd-a1-m22-cC 7esd-a1-m22-cB_7esd-a1-m43-cA 7esd-a1-m23-cB_7esd-a1-m23-cC 7esd-a1-m24-cB_7esd-a1-m24-cC 7esd-a1-m25-cA_7esd-a1-m54-cB 7esd-a1-m25-cB_7esd-a1-m25-cC 7esd-a1-m25-cB_7esd-a1-m54-cA 7esd-a1-m26-cB_7esd-a1-m26-cC 7esd-a1-m27-cA_7esd-a1-m53-cB 7esd-a1-m27-cB_7esd-a1-m27-cC 7esd-a1-m27-cB_7esd-a1-m53-cA 7esd-a1-m28-cB_7esd-a1-m28-cC 7esd-a1-m29-cB_7esd-a1-m29-cC 7esd-a1-m2-cA_7esd-a1-m23-cB 7esd-a1-m2-cB_7esd-a1-m23-cA 7esd-a1-m2-cB_7esd-a1-m2-cC 7esd-a1-m30-cA_7esd-a1-m44-cB 7esd-a1-m30-cB_7esd-a1-m30-cC 7esd-a1-m30-cB_7esd-a1-m44-cA 7esd-a1-m31-cA_7esd-a1-m36-cB 7esd-a1-m31-cB_7esd-a1-m31-cC 7esd-a1-m31-cB_7esd-a1-m36-cA 7esd-a1-m32-cA_7esd-a1-m58-cB 7esd-a1-m32-cB_7esd-a1-m32-cC 7esd-a1-m32-cB_7esd-a1-m58-cA 7esd-a1-m33-cA_7esd-a1-m7-cB 7esd-a1-m33-cB_7esd-a1-m33-cC 7esd-a1-m33-cB_7esd-a1-m7-cA 7esd-a1-m34-cA_7esd-a1-m5-cB 7esd-a1-m34-cB_7esd-a1-m34-cC 7esd-a1-m34-cB_7esd-a1-m5-cA 7esd-a1-m35-cA_7esd-a1-m49-cB 7esd-a1-m35-cB_7esd-a1-m35-cC 7esd-a1-m35-cB_7esd-a1-m49-cA 7esd-a1-m36-cB_7esd-a1-m36-cC 7esd-a1-m37-cA_7esd-a1-m48-cB 7esd-a1-m37-cB_7esd-a1-m37-cC 7esd-a1-m37-cB_7esd-a1-m48-cA 7esd-a1-m38-cB_7esd-a1-m38-cC 7esd-a1-m39-cB_7esd-a1-m39-cC 7esd-a1-m3-cA_7esd-a1-m42-cB 7esd-a1-m3-cB_7esd-a1-m3-cC 7esd-a1-m3-cB_7esd-a1-m42-cA 7esd-a1-m40-cA_7esd-a1-m59-cB 7esd-a1-m40-cB_7esd-a1-m40-cC 7esd-a1-m40-cB_7esd-a1-m59-cA 7esd-a1-m41-cA_7esd-a1-m46-cB 7esd-a1-m41-cB_7esd-a1-m41-cC 7esd-a1-m41-cB_7esd-a1-m46-cA 7esd-a1-m42-cB_7esd-a1-m42-cC 7esd-a1-m43-cB_7esd-a1-m43-cC 7esd-a1-m44-cB_7esd-a1-m44-cC 7esd-a1-m45-cB_7esd-a1-m45-cC 7esd-a1-m46-cB_7esd-a1-m46-cC 7esd-a1-m47-cB_7esd-a1-m47-cC 7esd-a1-m48-cB_7esd-a1-m48-cC 7esd-a1-m49-cB_7esd-a1-m49-cC 7esd-a1-m4-cA_7esd-a1-m50-cB 7esd-a1-m4-cB_7esd-a1-m4-cC 7esd-a1-m4-cB_7esd-a1-m50-cA 7esd-a1-m50-cB_7esd-a1-m50-cC 7esd-a1-m51-cA_7esd-a1-m56-cB 7esd-a1-m51-cB_7esd-a1-m51-cC 7esd-a1-m51-cB_7esd-a1-m56-cA 7esd-a1-m52-cB_7esd-a1-m52-cC 7esd-a1-m53-cB_7esd-a1-m53-cC 7esd-a1-m54-cB_7esd-a1-m54-cC 7esd-a1-m55-cA_7esd-a1-m9-cB 7esd-a1-m55-cB_7esd-a1-m55-cC 7esd-a1-m55-cB_7esd-a1-m9-cA 7esd-a1-m56-cB_7esd-a1-m56-cC 7esd-a1-m57-cA_7esd-a1-m8-cB 7esd-a1-m57-cB_7esd-a1-m57-cC 7esd-a1-m57-cB_7esd-a1-m8-cA 7esd-a1-m58-cB_7esd-a1-m58-cC 7esd-a1-m59-cB_7esd-a1-m59-cC 7esd-a1-m5-cB_7esd-a1-m5-cC 7esd-a1-m60-cB_7esd-a1-m60-cC 7esd-a1-m6-cB_7esd-a1-m6-cC 7esd-a1-m7-cB_7esd-a1-m7-cC 7esd-a1-m8-cB_7esd-a1-m8-cC SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA SQCSGIDKRDFIQGVSGGTWVDVVLDRKGCVTISATGKPTIDVRMVKMEASNLASVRTYCLEASTSEISSVNGCPSTTEAHNDKRKDSTYLCERSYPDRGWGNGCGLFGRGSLDTCVKFACSKKMAGHAISRENIVITAAVSVHGHSGAESDDRSQRKSRKELAELTITFKSSIVEADLGDYGKVQFECLMDFGIDLDDVYTADMSGKWWLVKRDWYHDIALPWTAPSADFWHDMDRLVEFSTPHATKQSVYTLGDQEGAMSTALGDAAVIEYMSSGSKVVFRTGFLKCRVKMENLRLKGSTYMQCSKEFSILKRPTATPYGTVIMQVKYAQTDVPCRVPVGVHERPGGEQVGRIITAHPIILQQNDALVIEVEPPFGDSVIEIGLGTTKIVEQWHRDGSSIGAAFTSTMKGVERMALLGEHAWDFGSVGGFFNSMGKAIHSVFGGLFRAVFGGMSWISKVLIGAILMWLGVSAREKTLAMSLITVGAILLYLSTMTNA 7esd-a1-m9-cD_7esd-a1-m9-cF Mature Donggang virus H9BYJ9 H9BYJ9 3.9 ELECTRON MICROSCOPY 45 1.0 985683 (Donggang virus) 985683 (Donggang virus) 72 72 7esd-a1-m10-cD_7esd-a1-m10-cF 7esd-a1-m10-cE_7esd-a1-m24-cE 7esd-a1-m11-cD_7esd-a1-m11-cF 7esd-a1-m11-cE_7esd-a1-m16-cE 7esd-a1-m12-cD_7esd-a1-m12-cF 7esd-a1-m12-cE_7esd-a1-m38-cE 7esd-a1-m13-cD_7esd-a1-m13-cF 7esd-a1-m13-cE_7esd-a1-m47-cE 7esd-a1-m14-cD_7esd-a1-m14-cF 7esd-a1-m14-cE_7esd-a1-m45-cE 7esd-a1-m15-cD_7esd-a1-m15-cF 7esd-a1-m15-cE_7esd-a1-m29-cE 7esd-a1-m16-cD_7esd-a1-m16-cF 7esd-a1-m17-cD_7esd-a1-m17-cF 7esd-a1-m17-cE_7esd-a1-m28-cE 7esd-a1-m18-cD_7esd-a1-m18-cF 7esd-a1-m18-cE_7esd-a1-m52-cE 7esd-a1-m19-cD_7esd-a1-m19-cF 7esd-a1-m19-cE_7esd-a1-m60-cE 7esd-a1-m1-cD_7esd-a1-m1-cF 7esd-a1-m1-cE_7esd-a1-m6-cE 7esd-a1-m20-cD_7esd-a1-m20-cF 7esd-a1-m20-cE_7esd-a1-m39-cE 7esd-a1-m21-cD_7esd-a1-m21-cF 7esd-a1-m21-cE_7esd-a1-m26-cE 7esd-a1-m22-cD_7esd-a1-m22-cF 7esd-a1-m22-cE_7esd-a1-m43-cE 7esd-a1-m23-cD_7esd-a1-m23-cF 7esd-a1-m24-cD_7esd-a1-m24-cF 7esd-a1-m25-cD_7esd-a1-m25-cF 7esd-a1-m25-cE_7esd-a1-m54-cE 7esd-a1-m26-cD_7esd-a1-m26-cF 7esd-a1-m27-cD_7esd-a1-m27-cF 7esd-a1-m27-cE_7esd-a1-m53-cE 7esd-a1-m28-cD_7esd-a1-m28-cF 7esd-a1-m29-cD_7esd-a1-m29-cF 7esd-a1-m2-cD_7esd-a1-m2-cF 7esd-a1-m2-cE_7esd-a1-m23-cE 7esd-a1-m30-cD_7esd-a1-m30-cF 7esd-a1-m30-cE_7esd-a1-m44-cE 7esd-a1-m31-cD_7esd-a1-m31-cF 7esd-a1-m31-cE_7esd-a1-m36-cE 7esd-a1-m32-cD_7esd-a1-m32-cF 7esd-a1-m32-cE_7esd-a1-m58-cE 7esd-a1-m33-cD_7esd-a1-m33-cF 7esd-a1-m33-cE_7esd-a1-m7-cE 7esd-a1-m34-cD_7esd-a1-m34-cF 7esd-a1-m34-cE_7esd-a1-m5-cE 7esd-a1-m35-cD_7esd-a1-m35-cF 7esd-a1-m35-cE_7esd-a1-m49-cE 7esd-a1-m36-cD_7esd-a1-m36-cF 7esd-a1-m37-cD_7esd-a1-m37-cF 7esd-a1-m37-cE_7esd-a1-m48-cE 7esd-a1-m38-cD_7esd-a1-m38-cF 7esd-a1-m39-cD_7esd-a1-m39-cF 7esd-a1-m3-cD_7esd-a1-m3-cF 7esd-a1-m3-cE_7esd-a1-m42-cE 7esd-a1-m40-cD_7esd-a1-m40-cF 7esd-a1-m40-cE_7esd-a1-m59-cE 7esd-a1-m41-cD_7esd-a1-m41-cF 7esd-a1-m41-cE_7esd-a1-m46-cE 7esd-a1-m42-cD_7esd-a1-m42-cF 7esd-a1-m43-cD_7esd-a1-m43-cF 7esd-a1-m44-cD_7esd-a1-m44-cF 7esd-a1-m45-cD_7esd-a1-m45-cF 7esd-a1-m46-cD_7esd-a1-m46-cF 7esd-a1-m47-cD_7esd-a1-m47-cF 7esd-a1-m48-cD_7esd-a1-m48-cF 7esd-a1-m49-cD_7esd-a1-m49-cF 7esd-a1-m4-cD_7esd-a1-m4-cF 7esd-a1-m4-cE_7esd-a1-m50-cE 7esd-a1-m50-cD_7esd-a1-m50-cF 7esd-a1-m51-cD_7esd-a1-m51-cF 7esd-a1-m51-cE_7esd-a1-m56-cE 7esd-a1-m52-cD_7esd-a1-m52-cF 7esd-a1-m53-cD_7esd-a1-m53-cF 7esd-a1-m54-cD_7esd-a1-m54-cF 7esd-a1-m55-cD_7esd-a1-m55-cF 7esd-a1-m55-cE_7esd-a1-m9-cE 7esd-a1-m56-cD_7esd-a1-m56-cF 7esd-a1-m57-cD_7esd-a1-m57-cF 7esd-a1-m57-cE_7esd-a1-m8-cE 7esd-a1-m58-cD_7esd-a1-m58-cF 7esd-a1-m59-cD_7esd-a1-m59-cF 7esd-a1-m5-cD_7esd-a1-m5-cF 7esd-a1-m60-cD_7esd-a1-m60-cF 7esd-a1-m6-cD_7esd-a1-m6-cF 7esd-a1-m7-cD_7esd-a1-m7-cF 7esd-a1-m8-cD_7esd-a1-m8-cF SIMIPTHSTGGLHQGTEGWHRTNNVKNFLMRVEKWSLRNPGYTALIAILGWTLGTTTAQKVIFIALLLMIAP SIMIPTHSTGGLHQGTEGWHRTNNVKNFLMRVEKWSLRNPGYTALIAILGWTLGTTTAQKVIFIALLLMIAP 7esh-a1-m1-cA_7esh-a1-m1-cD Crystal structure of amylosucrase from Calidithermus timidus 2.29 X-RAY DIFFRACTION 56 1.0 1122223 (Calidithermus timidus DSM 17022) 1122223 (Calidithermus timidus DSM 17022) 646 646 7esh-a1-m1-cB_7esh-a1-m1-cC MFSTPLPAELRPLLERLLTLAQDELSGGDLETFSLRLERYLPDLHAGLTAVYPDAEGLLERLLPILTAAHQARSADLRRLDAKRLLAPDWFQRPEMIAYVAYTERFAGTLRGVEERIDYLEELGVRYLHLMPFLKPRPAPHDGGYAVMDYRAVREDLGTMADLEALTAKLRARGIALCCDLVLNHVAQEHEWALRARRGEAKYQRYFHMFPDRTLPDEYEKTLPEVFPDFAPGNFTFDEESGQWVWTTFNRWQWDLNWANPEVFLEFADLILWLANRGVEVFRLDAIAFIWKRLGTNCQNQPEVHAITQALRAVARIVAPAVLFKAEAIVAPDDLIHYLGQGPHFGLLSDTAYHNSLMVQIWSSLASRDVRLMSEALRRFPLKPTNTAWCTYLRCHDDIGWAIADEDAARVGLSGEAHRRFLSDYYSGRFPASFSRGLVFQENPRTGDRRISGSAASLAGLEQALERGDPHQLHLSLERLLLGHAVVLGFGGIPLLYMGDELALLNDHSYLEEPEHAEDNRWVHRPHMDWEKAARAKADPTSPEGRMYHGLRHLIRVRRTTPHFHAALEAQILEPRNPHVFGYVRRHPLGNLVALYNFSEEVQYYPAEVLWQQGLGLPFDRISGQLVPIEHHLVRLEPYARLWITD MFSTPLPAELRPLLERLLTLAQDELSGGDLETFSLRLERYLPDLHAGLTAVYPDAEGLLERLLPILTAAHQARSADLRRLDAKRLLAPDWFQRPEMIAYVAYTERFAGTLRGVEERIDYLEELGVRYLHLMPFLKPRPAPHDGGYAVMDYRAVREDLGTMADLEALTAKLRARGIALCCDLVLNHVAQEHEWALRARRGEAKYQRYFHMFPDRTLPDEYEKTLPEVFPDFAPGNFTFDEESGQWVWTTFNRWQWDLNWANPEVFLEFADLILWLANRGVEVFRLDAIAFIWKRLGTNCQNQPEVHAITQALRAVARIVAPAVLFKAEAIVAPDDLIHYLGQGPHFGLLSDTAYHNSLMVQIWSSLASRDVRLMSEALRRFPLKPTNTAWCTYLRCHDDIGWAIADEDAARVGLSGEAHRRFLSDYYSGRFPASFSRGLVFQENPRTGDRRISGSAASLAGLEQALERGDPHQLHLSLERLLLGHAVVLGFGGIPLLYMGDELALLNDHSYLEEPEHAEDNRWVHRPHMDWEKAARAKADPTSPEGRMYHGLRHLIRVRRTTPHFHAALEAQILEPRNPHVFGYVRRHPLGNLVALYNFSEEVQYYPAEVLWQQGLGLPFDRISGQLVPIEHHLVRLEPYARLWITD 7esh-a1-m1-cC_7esh-a1-m1-cD Crystal structure of amylosucrase from Calidithermus timidus 2.29 X-RAY DIFFRACTION 74 1.0 1122223 (Calidithermus timidus DSM 17022) 1122223 (Calidithermus timidus DSM 17022) 646 646 7esh-a1-m1-cA_7esh-a1-m1-cB MFSTPLPAELRPLLERLLTLAQDELSGGDLETFSLRLERYLPDLHAGLTAVYPDAEGLLERLLPILTAAHQARSADLRRLDAKRLLAPDWFQRPEMIAYVAYTERFAGTLRGVEERIDYLEELGVRYLHLMPFLKPRPAPHDGGYAVMDYRAVREDLGTMADLEALTAKLRARGIALCCDLVLNHVAQEHEWALRARRGEAKYQRYFHMFPDRTLPDEYEKTLPEVFPDFAPGNFTFDEESGQWVWTTFNRWQWDLNWANPEVFLEFADLILWLANRGVEVFRLDAIAFIWKRLGTNCQNQPEVHAITQALRAVARIVAPAVLFKAEAIVAPDDLIHYLGQGPHFGLLSDTAYHNSLMVQIWSSLASRDVRLMSEALRRFPLKPTNTAWCTYLRCHDDIGWAIADEDAARVGLSGEAHRRFLSDYYSGRFPASFSRGLVFQENPRTGDRRISGSAASLAGLEQALERGDPHQLHLSLERLLLGHAVVLGFGGIPLLYMGDELALLNDHSYLEEPEHAEDNRWVHRPHMDWEKAARAKADPTSPEGRMYHGLRHLIRVRRTTPHFHAALEAQILEPRNPHVFGYVRRHPLGNLVALYNFSEEVQYYPAEVLWQQGLGLPFDRISGQLVPIEHHLVRLEPYARLWITD MFSTPLPAELRPLLERLLTLAQDELSGGDLETFSLRLERYLPDLHAGLTAVYPDAEGLLERLLPILTAAHQARSADLRRLDAKRLLAPDWFQRPEMIAYVAYTERFAGTLRGVEERIDYLEELGVRYLHLMPFLKPRPAPHDGGYAVMDYRAVREDLGTMADLEALTAKLRARGIALCCDLVLNHVAQEHEWALRARRGEAKYQRYFHMFPDRTLPDEYEKTLPEVFPDFAPGNFTFDEESGQWVWTTFNRWQWDLNWANPEVFLEFADLILWLANRGVEVFRLDAIAFIWKRLGTNCQNQPEVHAITQALRAVARIVAPAVLFKAEAIVAPDDLIHYLGQGPHFGLLSDTAYHNSLMVQIWSSLASRDVRLMSEALRRFPLKPTNTAWCTYLRCHDDIGWAIADEDAARVGLSGEAHRRFLSDYYSGRFPASFSRGLVFQENPRTGDRRISGSAASLAGLEQALERGDPHQLHLSLERLLLGHAVVLGFGGIPLLYMGDELALLNDHSYLEEPEHAEDNRWVHRPHMDWEKAARAKADPTSPEGRMYHGLRHLIRVRRTTPHFHAALEAQILEPRNPHVFGYVRRHPLGNLVALYNFSEEVQYYPAEVLWQQGLGLPFDRISGQLVPIEHHLVRLEPYARLWITD 7esj-a1-m1-cA_7esj-a1-m2-cB Acinetobacter baumannii membrane-bound lytic murein transglycosylase A 2.06 X-RAY DIFFRACTION 62 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 345 345 ATYAKAAWSALPPVSDTDLQAGFVAWRSSCTRLKNDAVWAKPCATAAAVSDKDPAAIRQFLQRDLDAYALRAGGHQADGLITGYYEPIYAGSLTRTATATVPVYGTPDDLVVVQLESLYPELKGKRLRGRVEGKVLKPYDDAGTIAAKGANAPVLAWLTDPMDLQLLQIQGSGRVRLADGKQVRLAYAEQNGHPYRAIGRWLVDQGQLKKEDVTMDAIRAWARANPARVPELLRSNPSYVFFVRNPDSPEGPRGSLNVPLTAGYSVAVDRSVVPLGSLLWLSTTRPDGTPVVRPVAAQDTGGAIAGEVRADLYWGSGDAAGKLAGDMKQKGNIWMLWPKGVPLPN ATYAKAAWSALPPVSDTDLQAGFVAWRSSCTRLKNDAVWAKPCATAAAVSDKDPAAIRQFLQRDLDAYALRAGGHQADGLITGYYEPIYAGSLTRTATATVPVYGTPDDLVVVQLESLYPELKGKRLRGRVEGKVLKPYDDAGTIAAKGANAPVLAWLTDPMDLQLLQIQGSGRVRLADGKQVRLAYAEQNGHPYRAIGRWLVDQGQLKKEDVTMDAIRAWARANPARVPELLRSNPSYVFFVRNPDSPEGPRGSLNVPLTAGYSVAVDRSVVPLGSLLWLSTTRPDGTPVVRPVAAQDTGGAIAGEVRADLYWGSGDAAGKLAGDMKQKGNIWMLWPKGVPLPN 7esp-a2-m3-cH_7esp-a2-m2-cG Structure and mutation analysis of the hexameric P4 from Pseudomonas aeruginosa phage phiYY A0A1U9AK63 A0A1U9AK63 2.43 X-RAY DIFFRACTION 126 0.996 1852644 (Pseudomonas phage phiYY) 1852644 (Pseudomonas phage phiYY) 258 263 7eso-a1-m1-cB_7eso-a1-m1-cA 7eso-a1-m1-cB_7eso-a1-m1-cC 7eso-a1-m1-cD_7eso-a1-m1-cC 7eso-a1-m1-cD_7eso-a1-m1-cE 7eso-a1-m1-cF_7eso-a1-m1-cA 7eso-a1-m1-cF_7eso-a1-m1-cE 7eso-a2-m1-cG_7eso-a2-m1-cH 7eso-a2-m1-cG_7eso-a2-m3-cH 7eso-a2-m2-cG_7eso-a2-m1-cH 7eso-a2-m2-cG_7eso-a2-m2-cH 7eso-a2-m3-cG_7eso-a2-m2-cH 7eso-a2-m3-cG_7eso-a2-m3-cH 7esp-a1-m1-cB_7esp-a1-m1-cA 7esp-a1-m1-cB_7esp-a1-m1-cC 7esp-a1-m1-cD_7esp-a1-m1-cC 7esp-a1-m1-cD_7esp-a1-m1-cE 7esp-a1-m1-cF_7esp-a1-m1-cA 7esp-a1-m1-cF_7esp-a1-m1-cE 7esp-a2-m1-cH_7esp-a2-m1-cG 7esp-a2-m1-cH_7esp-a2-m3-cG 7esp-a2-m2-cH_7esp-a2-m1-cG 7esp-a2-m2-cH_7esp-a2-m2-cG 7esp-a2-m3-cH_7esp-a2-m3-cG 7esq-a1-m1-cA_7esq-a1-m1-cB 7esq-a1-m1-cA_7esq-a1-m2-cB 7esq-a1-m1-cB_7esq-a1-m3-cA 7esq-a1-m2-cA_7esq-a1-m2-cB 7esq-a1-m2-cA_7esq-a1-m3-cB 7esq-a1-m3-cA_7esq-a1-m3-cB 7esv-a1-m1-cA_7esv-a1-m1-cB 7esv-a1-m1-cA_7esv-a1-m2-cC 7esv-a1-m2-cA_7esv-a1-m1-cC 7esv-a1-m2-cA_7esv-a1-m2-cB NETVALVVEATTEAEAKKSLREGGLVPAAHEIMIPVGNMILAVDTQVLDKCALALAASDDPGRWFAENESLIHSTVFAPVAKGLHRVYPLLSVRPEVPAGYEASWPTQDHMPGLHLVVGGTGAGKSSYLASQDLTLVIRWGEPAERFDVEGATHAVSDLNEALAVAFVMARAGYRPAIDSFRNLVFGIEGISTALYSAMTAINNVCSRLGIVVMVVVNPMATEAKAELVYNNMAASVAGMTVLMDGAVSKQTVRTLSG ETVALVVEATTEAEAKKSLREGGLVPAAHEIMIPVGNMILAVDTQVLDKCALALAASDDPGRWFAENESLIHSTVFAPVAKGLHRVYPLLSVRPEVPAGYEASWPTQDHMPGLHLVVGGTGAGKSSYLASQDLTLVIRWGEPAERFDVEGATHAVSDLNEALAVAFVMARAGYRPAIDSFRNLVFGIEGISTALYSAMTAINNVCSRLGIVVMVVVNPMATEAKAELVYNNMAASVAGMTVLMDGAVSKQTVRTLSGRTWGVG 7ess-a1-m1-cA_7ess-a1-m1-cB Structure-guided studies of the Holliday junction resolvase RuvX provide novel insights into ATP-stimulated cleavage of branched DNA and RNA substrates P9WGV7 P9WGV7 1.93 X-RAY DIFFRACTION 84 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 149 151 PPDRPGDPAHDPGRGRRLGIDVGAARIGVACSDPDAILATPVETVRRDRSGKHLRRLAALAAELEAVEVIVGLPRTLASAQDAIELAEALARRVSPTPVRLADERLTTVSAQRSLRQAGVASEQRAVIDQAAAVAILQSWLDERLAAMA PPDRPGDPAHDPGRGRRLGIDVGAARIGVACSDPDAILATPVETVRRDRSGKHLRRLAALAAELEAVEVIVGLPRTLARSAQDAIELAEALARRVSPTPVRLADERLTTVSAQRSLRQAGVRASEQRAVIDQAAAVAILQSWLDERLAAMA 7etb-a1-m1-cB_7etb-a1-m2-cC Crystal structure of AbHpaI-Mn-pyruvate complex, Class II aldolase, HpaI from Acinetobacter baumannii A0A8I1ZEE8 A0A8I1ZEE8 1.85 X-RAY DIFFRACTION 37 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 253 253 7et8-a1-m1-cA_7et8-a1-m2-cB 7et8-a1-m1-cB_7et8-a1-m2-cA 7et8-a1-m1-cC_7et8-a1-m2-cC 7et9-a1-m1-cA_7et9-a1-m2-cA 7et9-a1-m1-cB_7et9-a1-m2-cC 7et9-a1-m1-cC_7et9-a1-m2-cB 7eta-a1-m1-cA_7eta-a1-m2-cB 7eta-a1-m1-cB_7eta-a1-m2-cA 7eta-a1-m1-cC_7eta-a1-m2-cC 7etb-a1-m1-cA_7etb-a1-m2-cA 7etb-a1-m1-cC_7etb-a1-m2-cB 7etc-a1-m1-cA_7etc-a1-m2-cC 7etc-a1-m1-cB_7etc-a1-m2-cB 7etc-a1-m1-cC_7etc-a1-m2-cA 7etd-a1-m1-cA_7etd-a1-m2-cC 7etd-a1-m1-cB_7etd-a1-m2-cB 7etd-a1-m1-cC_7etd-a1-m2-cA 7ete-a1-m1-cA_7ete-a1-m2-cA 7ete-a1-m1-cB_7ete-a1-m2-cC 7ete-a1-m1-cC_7ete-a1-m2-cB 7etf-a1-m1-cA_7etf-a1-m2-cA 7etf-a1-m1-cB_7etf-a1-m2-cC 7etf-a1-m1-cC_7etf-a1-m2-cB 7etg-a1-m1-cA_7etg-a1-m2-cB 7etg-a1-m1-cB_7etg-a1-m2-cA 7etg-a1-m1-cC_7etg-a1-m2-cC 7eth-a1-m1-cA_7eth-a1-m2-cA 7eth-a1-m1-cB_7eth-a1-m2-cC 7eth-a1-m1-cC_7eth-a1-m2-cB 7eti-a1-m1-cA_7eti-a1-m2-cB 7eti-a1-m1-cB_7eti-a1-m2-cA 7eti-a1-m1-cC_7eti-a1-m2-cC MVNTVNYFKQKLKTEQQIGMWVGLADGYCAEIAANVGYDWLLIDGEHAPNDVRSILAQLQSIAAYPSQAVVRPVSGDVPLIKQLLDIGAQTLLIPMVESAEQAELMVKATRYPPEGIRGVGAALARASRWNNISDYLQTADEQICLLVQVESKKGLDNLDEILNVDGVDGIFIGPADLSAALGYRGNPGHEFVQNIIVQTIQKIRAAGKAAGILSADEKLAKQYLELGTEFVAVGVDTSLLMKSMKQLLSKFK MVNTVNYFKQKLKTEQQIGMWVGLADGYCAEIAANVGYDWLLIDGEHAPNDVRSILAQLQSIAAYPSQAVVRPVSGDVPLIKQLLDIGAQTLLIPMVESAEQAELMVKATRYPPEGIRGVGAALARASRWNNISDYLQTADEQICLLVQVESKKGLDNLDEILNVDGVDGIFIGPADLSAALGYRGNPGHEFVQNIIVQTIQKIRAAGKAAGILSADEKLAKQYLELGTEFVAVGVDTSLLMKSMKQLLSKFK 7etb-a1-m1-cC_7etb-a1-m2-cC Crystal structure of AbHpaI-Mn-pyruvate complex, Class II aldolase, HpaI from Acinetobacter baumannii A0A8I1ZEE8 A0A8I1ZEE8 1.85 X-RAY DIFFRACTION 95 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 253 253 7et8-a1-m1-cA_7et8-a1-m2-cA 7et8-a1-m1-cB_7et8-a1-m2-cC 7et8-a1-m1-cC_7et8-a1-m2-cB 7et9-a1-m1-cA_7et9-a1-m2-cC 7et9-a1-m1-cB_7et9-a1-m2-cB 7et9-a1-m1-cC_7et9-a1-m2-cA 7eta-a1-m1-cA_7eta-a1-m2-cA 7eta-a1-m1-cB_7eta-a1-m2-cC 7eta-a1-m1-cC_7eta-a1-m2-cB 7etb-a1-m1-cA_7etb-a1-m2-cB 7etb-a1-m1-cB_7etb-a1-m2-cA 7etc-a1-m1-cA_7etc-a1-m2-cA 7etc-a1-m1-cB_7etc-a1-m2-cC 7etc-a1-m1-cC_7etc-a1-m2-cB 7etd-a1-m1-cA_7etd-a1-m2-cA 7etd-a1-m1-cB_7etd-a1-m2-cC 7etd-a1-m1-cC_7etd-a1-m2-cB 7ete-a1-m1-cA_7ete-a1-m2-cB 7ete-a1-m1-cB_7ete-a1-m2-cA 7ete-a1-m1-cC_7ete-a1-m2-cC 7etf-a1-m1-cA_7etf-a1-m2-cC 7etf-a1-m1-cB_7etf-a1-m2-cB 7etf-a1-m1-cC_7etf-a1-m2-cA 7etg-a1-m1-cA_7etg-a1-m2-cA 7etg-a1-m1-cB_7etg-a1-m2-cC 7etg-a1-m1-cC_7etg-a1-m2-cB 7eth-a1-m1-cA_7eth-a1-m2-cC 7eth-a1-m1-cB_7eth-a1-m2-cB 7eth-a1-m1-cC_7eth-a1-m2-cA 7eti-a1-m1-cA_7eti-a1-m2-cA 7eti-a1-m1-cB_7eti-a1-m2-cC 7eti-a1-m1-cC_7eti-a1-m2-cB MVNTVNYFKQKLKTEQQIGMWVGLADGYCAEIAANVGYDWLLIDGEHAPNDVRSILAQLQSIAAYPSQAVVRPVSGDVPLIKQLLDIGAQTLLIPMVESAEQAELMVKATRYPPEGIRGVGAALARASRWNNISDYLQTADEQICLLVQVESKKGLDNLDEILNVDGVDGIFIGPADLSAALGYRGNPGHEFVQNIIVQTIQKIRAAGKAAGILSADEKLAKQYLELGTEFVAVGVDTSLLMKSMKQLLSKFK MVNTVNYFKQKLKTEQQIGMWVGLADGYCAEIAANVGYDWLLIDGEHAPNDVRSILAQLQSIAAYPSQAVVRPVSGDVPLIKQLLDIGAQTLLIPMVESAEQAELMVKATRYPPEGIRGVGAALARASRWNNISDYLQTADEQICLLVQVESKKGLDNLDEILNVDGVDGIFIGPADLSAALGYRGNPGHEFVQNIIVQTIQKIRAAGKAAGILSADEKLAKQYLELGTEFVAVGVDTSLLMKSMKQLLSKFK 7etb-a1-m2-cB_7etb-a1-m2-cC Crystal structure of AbHpaI-Mn-pyruvate complex, Class II aldolase, HpaI from Acinetobacter baumannii A0A8I1ZEE8 A0A8I1ZEE8 1.85 X-RAY DIFFRACTION 77 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 253 253 7et8-a1-m1-cA_7et8-a1-m1-cB 7et8-a1-m1-cA_7et8-a1-m1-cC 7et8-a1-m1-cB_7et8-a1-m1-cC 7et8-a1-m2-cA_7et8-a1-m2-cB 7et8-a1-m2-cA_7et8-a1-m2-cC 7et8-a1-m2-cB_7et8-a1-m2-cC 7et9-a1-m1-cA_7et9-a1-m1-cB 7et9-a1-m1-cA_7et9-a1-m1-cC 7et9-a1-m1-cB_7et9-a1-m1-cC 7et9-a1-m2-cA_7et9-a1-m2-cB 7et9-a1-m2-cA_7et9-a1-m2-cC 7et9-a1-m2-cB_7et9-a1-m2-cC 7eta-a1-m1-cA_7eta-a1-m1-cB 7eta-a1-m1-cA_7eta-a1-m1-cC 7eta-a1-m1-cB_7eta-a1-m1-cC 7eta-a1-m2-cA_7eta-a1-m2-cB 7eta-a1-m2-cA_7eta-a1-m2-cC 7eta-a1-m2-cB_7eta-a1-m2-cC 7etb-a1-m1-cA_7etb-a1-m1-cB 7etb-a1-m1-cA_7etb-a1-m1-cC 7etb-a1-m1-cB_7etb-a1-m1-cC 7etb-a1-m2-cA_7etb-a1-m2-cB 7etb-a1-m2-cA_7etb-a1-m2-cC 7etc-a1-m1-cA_7etc-a1-m1-cB 7etc-a1-m1-cA_7etc-a1-m1-cC 7etc-a1-m1-cB_7etc-a1-m1-cC 7etc-a1-m2-cA_7etc-a1-m2-cB 7etc-a1-m2-cA_7etc-a1-m2-cC 7etc-a1-m2-cB_7etc-a1-m2-cC 7etd-a1-m1-cA_7etd-a1-m1-cB 7etd-a1-m1-cA_7etd-a1-m1-cC 7etd-a1-m1-cB_7etd-a1-m1-cC 7etd-a1-m2-cA_7etd-a1-m2-cB 7etd-a1-m2-cA_7etd-a1-m2-cC 7etd-a1-m2-cB_7etd-a1-m2-cC 7ete-a1-m1-cA_7ete-a1-m1-cB 7ete-a1-m1-cA_7ete-a1-m1-cC 7ete-a1-m1-cB_7ete-a1-m1-cC 7ete-a1-m2-cA_7ete-a1-m2-cB 7ete-a1-m2-cA_7ete-a1-m2-cC 7ete-a1-m2-cB_7ete-a1-m2-cC 7etf-a1-m1-cA_7etf-a1-m1-cB 7etf-a1-m1-cA_7etf-a1-m1-cC 7etf-a1-m1-cB_7etf-a1-m1-cC 7etf-a1-m2-cA_7etf-a1-m2-cB 7etf-a1-m2-cA_7etf-a1-m2-cC 7etf-a1-m2-cB_7etf-a1-m2-cC 7etg-a1-m1-cA_7etg-a1-m1-cB 7etg-a1-m1-cA_7etg-a1-m1-cC 7etg-a1-m1-cB_7etg-a1-m1-cC 7etg-a1-m2-cA_7etg-a1-m2-cB 7etg-a1-m2-cA_7etg-a1-m2-cC 7etg-a1-m2-cB_7etg-a1-m2-cC 7eth-a1-m1-cA_7eth-a1-m1-cB 7eth-a1-m1-cA_7eth-a1-m1-cC 7eth-a1-m1-cB_7eth-a1-m1-cC 7eth-a1-m2-cA_7eth-a1-m2-cB 7eth-a1-m2-cA_7eth-a1-m2-cC 7eth-a1-m2-cB_7eth-a1-m2-cC 7eti-a1-m1-cA_7eti-a1-m1-cB 7eti-a1-m1-cA_7eti-a1-m1-cC 7eti-a1-m1-cB_7eti-a1-m1-cC 7eti-a1-m2-cA_7eti-a1-m2-cB 7eti-a1-m2-cA_7eti-a1-m2-cC 7eti-a1-m2-cB_7eti-a1-m2-cC MVNTVNYFKQKLKTEQQIGMWVGLADGYCAEIAANVGYDWLLIDGEHAPNDVRSILAQLQSIAAYPSQAVVRPVSGDVPLIKQLLDIGAQTLLIPMVESAEQAELMVKATRYPPEGIRGVGAALARASRWNNISDYLQTADEQICLLVQVESKKGLDNLDEILNVDGVDGIFIGPADLSAALGYRGNPGHEFVQNIIVQTIQKIRAAGKAAGILSADEKLAKQYLELGTEFVAVGVDTSLLMKSMKQLLSKFK MVNTVNYFKQKLKTEQQIGMWVGLADGYCAEIAANVGYDWLLIDGEHAPNDVRSILAQLQSIAAYPSQAVVRPVSGDVPLIKQLLDIGAQTLLIPMVESAEQAELMVKATRYPPEGIRGVGAALARASRWNNISDYLQTADEQICLLVQVESKKGLDNLDEILNVDGVDGIFIGPADLSAALGYRGNPGHEFVQNIIVQTIQKIRAAGKAAGILSADEKLAKQYLELGTEFVAVGVDTSLLMKSMKQLLSKFK 7etm-a1-m1-cK_7etm-a1-m1-cL C6 portal vertex in the enveloped virion capsid P16735 P16735 5.9 ELECTRON MICROSCOPY 20 1.0 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 497 497 7etm-a1-m1-cA_7etm-a1-m1-cB 7etm-a1-m1-cA_7etm-a1-m1-cG 7etm-a1-m1-cB_7etm-a1-m1-cC 7etm-a1-m1-cC_7etm-a1-m1-cD 7etm-a1-m1-cD_7etm-a1-m1-cF 7etm-a1-m1-cE_7etm-a1-m1-cH 7etm-a1-m1-cE_7etm-a1-m1-cL 7etm-a1-m1-cF_7etm-a1-m1-cG 7etm-a1-m1-cH_7etm-a1-m1-cI 7etm-a1-m1-cI_7etm-a1-m1-cJ 7etm-a1-m1-cJ_7etm-a1-m1-cK VIDIFPTGQTMSFLRLLHGFLGTCRGQSMHQVLRDPCVLRKQLLYGVCKTLFDTITVRRVAEEWKLHAALFPYRALDEEDLEQYLLVWSASLRQSVQTGVLGALRDILYQYADNDDYGLYVDWCVTVGLVPLLDVKTKPSEAAERAQFVRAAVQRATETHPLAQDLLQANLALLLQVAERLGAVRVANAPEVRVFKKVRSERLEAQLRGKHIRLYVAAEPLAYERDKLLFTTPVAHLHEEILRYDGLCRHQKICQLLNTFPVKVVTASRHELNCKKLVEMMAKKSIMKFLLNFKKQVIKCLEEQIQSQVDEIQDLRTLNQTWENRVRELRDLLTRYASRREDSMSLGARDAELYHLPVLEAVRKARDAAPFRPLAVEDNRLVANSFFSQFVPGTESLERFLTQLWENEYFRTFRLRRLVTHQGAEEAIVYSNYTVERVTLPYLCHILALGTLDPVPEAYLQLSFGEIVAAAYDDSKFCRYVELICSREKARRRQMSR VIDIFPTGQTMSFLRLLHGFLGTCRGQSMHQVLRDPCVLRKQLLYGVCKTLFDTITVRRVAEEWKLHAALFPYRALDEEDLEQYLLVWSASLRQSVQTGVLGALRDILYQYADNDDYGLYVDWCVTVGLVPLLDVKTKPSEAAERAQFVRAAVQRATETHPLAQDLLQANLALLLQVAERLGAVRVANAPEVRVFKKVRSERLEAQLRGKHIRLYVAAEPLAYERDKLLFTTPVAHLHEEILRYDGLCRHQKICQLLNTFPVKVVTASRHELNCKKLVEMMAKKSIMKFLLNFKKQVIKCLEEQIQSQVDEIQDLRTLNQTWENRVRELRDLLTRYASRREDSMSLGARDAELYHLPVLEAVRKARDAAPFRPLAVEDNRLVANSFFSQFVPGTESLERFLTQLWENEYFRTFRLRRLVTHQGAEEAIVYSNYTVERVTLPYLCHILALGTLDPVPEAYLQLSFGEIVAAAYDDSKFCRYVELICSREKARRRQMSR 7etm-a1-m1-cL_7etm-a1-m1-cG C6 portal vertex in the enveloped virion capsid P16735 P16735 5.9 ELECTRON MICROSCOPY 392 0.994 10359 (Human betaherpesvirus 5) 10359 (Human betaherpesvirus 5) 497 498 7etm-a1-m1-cE_7etm-a1-m1-cA 7etm-a1-m1-cE_7etm-a1-m1-cB 7etm-a1-m1-cH_7etm-a1-m1-cB 7etm-a1-m1-cH_7etm-a1-m1-cC 7etm-a1-m1-cI_7etm-a1-m1-cC 7etm-a1-m1-cI_7etm-a1-m1-cD 7etm-a1-m1-cJ_7etm-a1-m1-cD 7etm-a1-m1-cJ_7etm-a1-m1-cF 7etm-a1-m1-cK_7etm-a1-m1-cF 7etm-a1-m1-cK_7etm-a1-m1-cG 7etm-a1-m1-cL_7etm-a1-m1-cA VIDIFPTGQTMSFLRLLHGFLGTCRGQSMHQVLRDPCVLRKQLLYGVCKTLFDTITVRRVAEEWKLHAALFPYRALDEEDLEQYLLVWSASLRQSVQTGVLGALRDILYQYADNDDYGLYVDWCVTVGLVPLLDVKTKPSEAAERAQFVRAAVQRATETHPLAQDLLQANLALLLQVAERLGAVRVANAPEVRVFKKVRSERLEAQLRGKHIRLYVAAEPLAYERDKLLFTTPVAHLHEEILRYDGLCRHQKICQLLNTFPVKVVTASRHELNCKKLVEMMAKKSIMKFLLNFKKQVIKCLEEQIQSQVDEIQDLRTLNQTWENRVRELRDLLTRYASRREDSMSLGARDAELYHLPVLEAVRKARDAAPFRPLAVEDNRLVANSFFSQFVPGTESLERFLTQLWENEYFRTFRLRRLVTHQGAEEAIVYSNYTVERVTLPYLCHILALGTLDPVPEAYLQLSFGEIVAAAYDDSKFCRYVELICSREKARRRQMSR VIDIFPTGQTMSFLRLLHGFLGTCRGQSMHQVLRDPCVLRKQLLYGVCKTLFDTITVRRVAEEWKLHAALFPYRALDEEDLEQYLLVWSASLRQSVQTGVLGALRDILYQYADNDDYGLYVDWCVTVGLVPLLDVKTKPSEAAERAQFVRAAVQRATETHPLAQDLLQANLALLLQVAERLGAVRVANAPEVRVFKKVRSERLEAQLRGKHIRLYVAAEPLAYERDKLLFTTPVAHLHEEILRYDGLCRHQKICQLLNTFPVKVVTASRHELNCKKLVEMMEQHDAKKSIMKFLLNQVIKCLEEQIQSQVDEIQDLRTLNQTWENRVRELRDLLTRYASRREDSMSLGARDAELYHLPVLEAVRKARDAAPFRPLAVEDNRLVANSFFSQFVPGTESLERFLTQLWENEYFRTFRLRRLVTHQGAEEAIVYSNYTVERVTLPYLCHILALGTLDPVPEAYLQLSFGEIVAAAYDDSKFCRYVELICSREKARRRQMSR 7etr-a1-m1-cD_7etr-a1-m1-cC Crystal structure of SO_1444-SO_1445 complex from Shewanella oneidensis Q8EGZ3 Q8EGZ3 3.804 X-RAY DIFFRACTION 10 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 71 81 PQIVFTATALRDLERLREFPPAAQRAASAIINTIRKLESYPDISFRELLIDFGDTGYLAYQLTVLCIRHQK PQIVFTATALRDLERLREFLRSKNPPAAQRAASAIINTIRKLESYPDIGRSFRELLIDFGDTGYLAYQYERLTVLCIRHQK 7ets-a1-m1-cA_7ets-a1-m1-cB Crystal structure of crp protein from Gardnerella Vaginalis A0A0J8F7K9 A0A0J8F7K9 2.22 X-RAY DIFFRACTION 99 0.995 2702 (Gardnerella vaginalis) 2702 (Gardnerella vaginalis) 221 222 DLPLTHTALFKQVPLDQARELLEHLHESVFSKGQAIFNEGDTDRRMYLLERGRVKLVRHSRDNRVQLLSIHTHGEILGEIPVGPRTASAIAITDRTRVLWLENEVLFKWLGHHPRVAVDMLQVLAARLRANNEHISDLVFMDVPARLAKTLLNLASRFGEPVREGVLVPHDLTQEELAQLVGSSRETVNKALMDFAQRGWIKRHGRSIIIYQPGMLIRRAE DLPLTHTALFKQVPLDQARELLEHLHESVFSKGQAIFNEGDTDRRMYLLERGRVKLVRHSRDNRVQLLSIHTHGEILGEIPVFDPRTASAIAITDRTRVLWLENEVLFKWLGHHPRVAVDMLQVLAARLRANNEHISDLVFMDVPARLAKTLLNLASRFGEPVREGVLVPHDLTQEELAQLVGSSRETVNKALMDFAQRGWIKRHGRSIIIYQPGMLIRRAE 7etx-a1-m1-cA_7etx-a1-m2-cA Crystal structure of bifunctional indole-3-glycerol phosphate synthase / phosphoribosylanthranilate isomerase (TrpC) from corynebacterium glutamicum P06560 P06560 2.1 X-RAY DIFFRACTION 158 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 472 472 7ety-a1-m1-cB_7ety-a1-m1-cA NNLPTVLESIVEGRRGHLEEIRARIAHVDVDALPKSTRSLFDSLNQGRGGARFIMECKSASPSLGMIREHYQPGEIARVYSRYASGISVLCEPDRFGGDYDHLATVAATSHLPVLCKDFIIDPVQVHAARYFGADAILLMLSVLDDEEYAALAAEAARFDLDILTEVIDEEEVARAIKLGAKIFGVNHRNLHDLSIDLDRSRRLSKLIPADAVLVSESGVRDTETVRQLGGHSNAFLVGSQLTSQENVDLAARELVYGPNKVCGLTSPSAAQTARAAGAVYGGLIFEEASPRNVSRETLQKIIAAEPNLRYVAVSRRTSGYKDLLVDGIFAVQIHAPLQDSVEAEKALIAAVREEVGPQVQVWRAISMSSPLGAEVAAAVEGDVDKLILDAHEGGSGEVFDWATVPAAVKAKSLLAGGISPDNAAQALAVGCAGLDINSGVEYPAGAGTWAGAKDAGALLKIFATISTFHYL NNLPTVLESIVEGRRGHLEEIRARIAHVDVDALPKSTRSLFDSLNQGRGGARFIMECKSASPSLGMIREHYQPGEIARVYSRYASGISVLCEPDRFGGDYDHLATVAATSHLPVLCKDFIIDPVQVHAARYFGADAILLMLSVLDDEEYAALAAEAARFDLDILTEVIDEEEVARAIKLGAKIFGVNHRNLHDLSIDLDRSRRLSKLIPADAVLVSESGVRDTETVRQLGGHSNAFLVGSQLTSQENVDLAARELVYGPNKVCGLTSPSAAQTARAAGAVYGGLIFEEASPRNVSRETLQKIIAAEPNLRYVAVSRRTSGYKDLLVDGIFAVQIHAPLQDSVEAEKALIAAVREEVGPQVQVWRAISMSSPLGAEVAAAVEGDVDKLILDAHEGGSGEVFDWATVPAAVKAKSLLAGGISPDNAAQALAVGCAGLDINSGVEYPAGAGTWAGAKDAGALLKIFATISTFHYL 7eu4-a3-m1-cF_7eu4-a3-m1-cE Crystal structure of plant ATG12 complexed with the AIM12 of ATG3 Q9LVK3 Q9LVK3 3.2 X-RAY DIFFRACTION 242 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 85 94 7eu4-a2-m1-cD_7eu4-a2-m1-cC QKIVVHLRATGGAPILKQSKFKVSGSDKFANVIDFLRRQLHSDSLFVYVNSAFSPNPDESVIDLYNNFGFDGKLVVNYACSMAWG MATESPNSVQKIVVHLRATGGAPILKQSKFKVSGSDKFANVIDFLRRQLHSDSLFVYVNSAFSPNPDESVIDLYNNFGFDGKLVVNYACSMAWG 7eu4-a5-m1-cI_7eu4-a5-m1-cJ Crystal structure of plant ATG12 complexed with the AIM12 of ATG3 Q9LVK3 Q9LVK3 3.2 X-RAY DIFFRACTION 232 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 84 84 1wz3-a1-m1-cA_1wz3-a1-m1-cB 7eu4-a1-m1-cA_7eu4-a1-m1-cB 7eu4-a4-m1-cG_7eu4-a4-m1-cH QKIVVHLRATGGAPILKQSKFKVSGSDKFANVIDFLRRQLHSDSLFVYVNSAFSPNPDESVIDLYNNFGFDGKLVVNYACSMAW QKIVVHLRATGGAPILKQSKFKVSGSDKFANVIDFLRRQLHSDSLFVYVNSAFSPNPDESVIDLYNNFGFDGKLVVNYACSMAW 7eu4-a7-m1-cN_7eu4-a7-m1-cM Crystal structure of plant ATG12 complexed with the AIM12 of ATG3 Q9LVK3 Q9LVK3 3.2 X-RAY DIFFRACTION 222 0.986 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 74 81 7eu4-a6-m1-cL_7eu4-a6-m1-cK QKIVVHLRATGGAPISGSDKFANVIDFLRRQLHSDSLFVYVNSAFSPNPDESVIDLYNNFGFDGKLVVNYACSM QKIVVHLRATGGAPILKQSKFKVSGSDKFANVIDFLRRQLHSDSLFVYVNSAFSPNPDESVIDLYNNFGFDGKLVVNYACS 7eu6-a1-m1-cB_7eu6-a1-m1-cA Structural and mechanistic studies of a novel non-heme iron epimerase/lyase and its utilization in chemoselective synthesis. L7PIL3 L7PIL3 2.05011 X-RAY DIFFRACTION 105 1.0 1888 (Streptomyces albus) 1888 (Streptomyces albus) 111 119 7eqk-a1-m1-cB_7eqk-a1-m1-cA 7eue-a1-m1-cB_7eue-a1-m1-cA 7eup-a1-m1-cB_7eup-a1-m1-cA 7euz-a1-m1-cB_7euz-a1-m1-cA 7f6x-a1-m1-cB_7f6x-a1-m1-cA AEIVTALPVPLAVPAPFYLTADMFGGLPVQLAGGELSKLVKPVAAPHVHEVDELYFLVSPEPGQARIEVHLDGVRHELVSPAVMRIPAGSEHCFLTLEATVGSYCFGILVG DAEIVTALPVPLAVAGHHQPAPFYLTADMFGGLPVQLAGGELSKLVGKPVAAPHVHEVDELYFLVSPEPGQARIEVHLDGVRHELVSPAVMRIPAGSEHCFLTLEATVGSYCFGILVGD 7eum-a1-m1-cE_7eum-a1-m1-cA Crystal structure of apo Nmar_1308 protein at cryogenic temperature A9A2G5 A9A2G5 2.15 X-RAY DIFFRACTION 52 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 230 232 7eum-a1-m1-cD_7eum-a1-m1-cC 7eum-a1-m1-cF_7eum-a1-m1-cB HMSLVTTSICTVKINRPDKLNAMNTDVAKELIKTFENHNDDVKVIILTGEGEKAFSASKISADESVEYAKTGQLVTATVELVKQPTIAAVNGFALGGGCELAMSCDIRIAADTAKLGQPEVTIGVPPGWGGTQRLMRIVGIAKAKELVYTGKMIKAEEAKEIGLVNHVVPLASLQEEALKMAQQIAGNSTMGVQMSKVAINKGRNADLDTGLGLEILAWRNCFTHPDRQE HMSLVTTSICTVKINRPDKLNAMNTDVAKELIKTFEENHNDDVKVIILTGEGEKAFSAMSKISADESVEYAKTGQLVTATVELVKQPTIAAVNGFALGGGCELAMSCDIRIAADTAKLGQPEVTIGVPPGWGGTQRLMRIVGIAKAKELVYTGKMIKAEEAKEIGLVNHVVPLASLQEEALKMAQQIAGNSTMGVQMSKVAINKGRNADLDTGLGLEILAWRNCFTHPDRQE 7eum-a1-m1-cF_7eum-a1-m1-cA Crystal structure of apo Nmar_1308 protein at cryogenic temperature A9A2G5 A9A2G5 2.15 X-RAY DIFFRACTION 10 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 229 232 7eum-a1-m1-cD_7eum-a1-m1-cB 7eum-a1-m1-cE_7eum-a1-m1-cC HMSLVTTSICTVKINRPDKLNAMNTDVAKELIKTFEHNDDVKVIILTGEGEKAFSASKISADESVEYAKTGQLVTATVELVKQPTIAAVNGFALGGGCELAMSCDIRIAADTAKLGQPEVTIGVPPGWGGTQRLMRIVGIAKAKELVYTGKMIKAEEAKEIGLVNHVVPLASLQEEALKMAQQIAGNSTMGVQMSKVAINKGRNADLDTGLGLEILAWRNCFTHPDRQE HMSLVTTSICTVKINRPDKLNAMNTDVAKELIKTFEENHNDDVKVIILTGEGEKAFSAMSKISADESVEYAKTGQLVTATVELVKQPTIAAVNGFALGGGCELAMSCDIRIAADTAKLGQPEVTIGVPPGWGGTQRLMRIVGIAKAKELVYTGKMIKAEEAKEIGLVNHVVPLASLQEEALKMAQQIAGNSTMGVQMSKVAINKGRNADLDTGLGLEILAWRNCFTHPDRQE 7eum-a1-m1-cF_7eum-a1-m1-cE Crystal structure of apo Nmar_1308 protein at cryogenic temperature A9A2G5 A9A2G5 2.15 X-RAY DIFFRACTION 127 1.0 436308 (Nitrosopumilus maritimus SCM1) 436308 (Nitrosopumilus maritimus SCM1) 229 230 7eum-a1-m1-cA_7eum-a1-m1-cB 7eum-a1-m1-cA_7eum-a1-m1-cC 7eum-a1-m1-cB_7eum-a1-m1-cC 7eum-a1-m1-cD_7eum-a1-m1-cE 7eum-a1-m1-cF_7eum-a1-m1-cD HMSLVTTSICTVKINRPDKLNAMNTDVAKELIKTFEHNDDVKVIILTGEGEKAFSASKISADESVEYAKTGQLVTATVELVKQPTIAAVNGFALGGGCELAMSCDIRIAADTAKLGQPEVTIGVPPGWGGTQRLMRIVGIAKAKELVYTGKMIKAEEAKEIGLVNHVVPLASLQEEALKMAQQIAGNSTMGVQMSKVAINKGRNADLDTGLGLEILAWRNCFTHPDRQE HMSLVTTSICTVKINRPDKLNAMNTDVAKELIKTFENHNDDVKVIILTGEGEKAFSASKISADESVEYAKTGQLVTATVELVKQPTIAAVNGFALGGGCELAMSCDIRIAADTAKLGQPEVTIGVPPGWGGTQRLMRIVGIAKAKELVYTGKMIKAEEAKEIGLVNHVVPLASLQEEALKMAQQIAGNSTMGVQMSKVAINKGRNADLDTGLGLEILAWRNCFTHPDRQE 7ev1-a1-m1-cA_7ev1-a1-m1-cB Crystal structure of LI-Cadherin EC1-2 Q12864 Q12864 1.38 X-RAY DIFFRACTION 40 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 208 6ulm-a1-m1-cA_6ulm-a1-m1-cB GPLKPMTFSIYEGQEPSQIIFQFKANPPAVTFELTGETDNIFVIEREGLLYYNRALDRETRSTHNLQVAALDANGIIVEGPVPITIKVKDINDNRPTFLQSKYEGSVRQNSRPGKPFLYVNATDLDDPATPNGQLYYQIVIQLPMINNVMYFQINNKTGAISLTREGSQELNPAKNPSYNLVISVKDMGGQSENSFSDTTSVDIIVTE GPLKPMTFSIYEGQEPSQIIFQFKANPPAVTFELTGETDNIFVIEREGLLYYNRALDRETRSTHNLQVAALDANGIIVEGPVPITIKVKDINDNRPTFLQSKYEGSVRQNSRPGKPFLYVNATDLDDPATPNGQLYYQIVIQLPMINNVMYFQINNKTGAISLTREGSQELNPAKNPSYNLVISVKDMGGQSENSFSDTTSVDIIVTE 7ev2-a1-m1-cA_7ev2-a1-m2-cA Crystal structure of Mycobacterium tuberculosis tryptophanyl-tRNA synthetase complexed with Y-11 and ATP P9WFT3 P9WFT3 2.1 X-RAY DIFFRACTION 136 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 322 322 7el8-a1-m1-cA_7el8-a1-m2-cA 7elt-a1-m1-cA_7elt-a1-m2-cA 7ens-a1-m1-cA_7ens-a1-m2-cA 7ent-a1-m1-cA_7ent-a1-m2-cA 7ev3-a1-m1-cA_7ev3-a1-m2-cA GSRRIFSGVQPTSDSLHLGNALGAVAQWVGLQDDHDAFFCVVDLHAITIPQDPEALRRRTLITAAQYLALGIDPGRATIFVQSQVPAHTQLAWVLGCFTGFGQASRMTQFKATTVGLFTYPVLQAADVLAYDTELVPVGEDQRQHLELARDVAQRFNSRFPGTLVVPDVLIPKMTAKIYDLQDPTSKMSKSAGTDAGLINLLDDPALSAKKIRSAVTDSERDIRYDPDVKPGVSNLLNIQSAVTGTDIDVLVDGYAGHGYGDLKKDTAEAVVEFVNPIQARVDELTADPAELEAVLAAGAQRAHDVASKTVQRVYDRLGFLL GSRRIFSGVQPTSDSLHLGNALGAVAQWVGLQDDHDAFFCVVDLHAITIPQDPEALRRRTLITAAQYLALGIDPGRATIFVQSQVPAHTQLAWVLGCFTGFGQASRMTQFKATTVGLFTYPVLQAADVLAYDTELVPVGEDQRQHLELARDVAQRFNSRFPGTLVVPDVLIPKMTAKIYDLQDPTSKMSKSAGTDAGLINLLDDPALSAKKIRSAVTDSERDIRYDPDVKPGVSNLLNIQSAVTGTDIDVLVDGYAGHGYGDLKKDTAEAVVEFVNPIQARVDELTADPAELEAVLAAGAQRAHDVASKTVQRVYDRLGFLL 7evp-a1-m1-cA_7evp-a1-m1-cB Cryo-EM structure of the Gp168-beta-clamp complex P0A024 P0A024 3.2 ELECTRON MICROSCOPY 82 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 377 377 MMEFTIKRDYFITQLNDTLKAISPRTTLPILTGIKIDAKEHEVILTGSDSEISIEITIPKTVDGEDIVNISETGSVVLPGRFFVDIIKKLPGKDVKLSTNEQFQTLITSGHSEFNLSGLDPDQYPLLPQVSRDDAIQLSVKVLKNVIAQTNFAVSTSETRPVLTGVNWLIQENELICTATDSHRLAVRKLQLEDVSENKNVIIPGKALAELNKIMSDNEEDIDIFFASNQVLFKVGNVNFISRLLEGHYPDTTRLFPENYEIKLSIDNGEFYHAIDRASLLAREGGNNVIKLSTGDDVVELSSTSPEIGTVKEEVDANDVEGGSLKISFNSKYMMDALKAIDNDEVEVEFFGTMKPFILKPKGDDSVTQLILPIRTY MMEFTIKRDYFITQLNDTLKAISPRTTLPILTGIKIDAKEHEVILTGSDSEISIEITIPKTVDGEDIVNISETGSVVLPGRFFVDIIKKLPGKDVKLSTNEQFQTLITSGHSEFNLSGLDPDQYPLLPQVSRDDAIQLSVKVLKNVIAQTNFAVSTSETRPVLTGVNWLIQENELICTATDSHRLAVRKLQLEDVSENKNVIIPGKALAELNKIMSDNEEDIDIFFASNQVLFKVGNVNFISRLLEGHYPDTTRLFPENYEIKLSIDNGEFYHAIDRASLLAREGGNNVIKLSTGDDVVELSSTSPEIGTVKEEVDANDVEGGSLKISFNSKYMMDALKAIDNDEVEVEFFGTMKPFILKPKGDDSVTQLILPIRTY 7evp-a1-m1-cC_7evp-a1-m1-cD Cryo-EM structure of the Gp168-beta-clamp complex Q4Z971 Q4Z971 3.2 ELECTRON MICROSCOPY 31 1.0 55510 (Twortvirus twort) 55510 (Twortvirus twort) 43 43 LSYYRGGHKDLESMFELALEYIEKLEEEDEQQVTDYENAMEEE LSYYRGGHKDLESMFELALEYIEKLEEEDEQQVTDYENAMEEE 7ewc-a1-m1-cB_7ewc-a1-m1-cA Mycobacterium tuberculosis HigA2 (Form I) O53467 O53467 2.05 X-RAY DIFFRACTION 87 0.985 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 68 70 7ewc-a2-m1-cD_7ewc-a2-m1-cC 7ewd-a1-m1-cA_7ewd-a1-m1-cB 7ewd-a2-m1-cD_7ewd-a2-m1-cC 7ewe-a1-m1-cB_7ewe-a1-m1-cA 7ewe-a2-m1-cD_7ewe-a2-m1-cC 7ewe-a3-m1-cE_7ewe-a3-m2-cE RLRELRAAQSLTQVQVAALAHIRQSRVSSIENGDIGSAQVNTLRKYVSALGGELDITVRLGDETFTLA RAFRLRELRAAQSLTQVQVAALAHIRQSRVSSIENGDIGSAQVNTLRKYVSALGGELDITVRLGDETFTL 7ewj-a2-m1-cD_7ewj-a2-m1-cE Toxin-antitoxin complex from Staphylococcus aureus L7PFJ6 L7PFJ6 2 X-RAY DIFFRACTION 68 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 110 113 7ewi-a1-m1-cC_7ewi-a1-m1-cA 7ewi-a2-m1-cB_7ewi-a2-m1-cD 7ewj-a1-m1-cA_7ewj-a1-m1-cB 7ewj-a3-m1-cG_7ewj-a3-m1-cH NIKQFDILYIDLNPTRGREKHNVRPCLVINNQMSIDGTNFVWVLPITTRGLRYPTDIQLKTKKGLVSGVIDTVQIRALDLKARQYNYKDELQDNLKNDILKAIKTYLKPT SHMNIKQFDILYIDLNPTRGREKHNVRPCLVINNQMSIDGTNFVWVLPITTRGLRYPTDIQLKTKKGLVSGVIDTVQIRALDLKARQYNYKDELQDNLKNDILKAIKTYLKPT 7ewr-a1-m1-cB_7ewr-a1-m1-cA Cryo-EM structure of human GPR158 in complex with RGS7-Gbeta5 in a 2:2:2 ratio Q5T848 Q5T848 4.7 ELECTRON MICROSCOPY 108 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 504 577 7ewl-a1-m1-cB_7ewl-a1-m1-cA 7ewp-a1-m1-cB_7ewp-a1-m1-cA 7she-a1-m1-cB_7she-a1-m1-cA 7shf-a1-m1-cB_7shf-a1-m1-cA AQKLAEEVPMDVASYLYTGDSHQLKRANCSGRYELAGLPGKWPALASAHPSLHRALDTLTHATNFLNVMLQSNKSREQNLQDDLDWYQALVWSLLEGEPSISRAAITFSTQVFLQATREESRILLQDLSSSAPHLANATLETHFKWSPPYLECENGSYKPGWLVTLSSAIYGLLVPEFRGVMKVDINLQKVDIDQCSSDGWFSGTHKCHLNNSECMPIKGLGFVLGAYECICKAGFYHYVCLPCREGCPFCADDSPCFVQEDKYLRLAIISFQALCMLLDFVSMLVVYHFRKAKSIRASGLILLETILFGSLLLYFPVVILYFEPSTFRCILLRWARLLGFATVYGTVTLKLHRVLKVFLRVMRMLAVILLVVFWFLIGWTSSVCQNLEKQISLIGQGKTSDHLIFNMCLIDRWDYMTAVAEFLFLLWGVYLCYAVRTVPSAFHEPRYMAVAVHNELIISAIFHTIRFVLASRLQSDWMLMLYFAHTHLTVTVTIGLLLIPKFS LAQKLAEEVPMDVASYLYTGDSHQLKRANCSGRYELAGLPGKWPALASAHPSLHRALDTLTHATNFLNVMLQSNKSREQNLQDDLDWYQALVWSLLEGEPSISRAAITFSTQVFLQATREESRILLQDPHLANATLETSHFKWSPPYLECENGSYKPGWLVTLSSAIYGLLVPEFRGVMKVDINLQKVDIDQCSSDGWFSGTHKCHLNNSECMPIKGLGFVLGAYECICKAGFYHPAYVCLPCREGCPFCADDSPCFVQEDKYLRLAIISFQALCMLLDFVSMLVVYHFRKAKSIRASGLILLETILFGSLLLYFPVVILYFEPSTFRCILLRWARLLGFATVYGTVTLKLHRVLKVFLSRTAQRIPYMTGGRVMRMLAVILLVVFWFLIGWTSSVCQNLEKQISLIGQGKTSDHLIFNMCLIDRWDYMTAVAEFLFLLWGVYLCYAVRTVPSAFHEPRYMAVAVHNELIISAIFHTIRFVLASRLQSDWMLMLYFAHTHLTVTVTIGLLLIPKFSAWSEHSLDPEDIRDELKKLYAQLEIYKRKKMITNNPHLQKKRCSKKGLGRSIMRRITEIPE 7ews-a1-m1-cA_7ews-a1-m1-cB Crystal structure of arginine kinase (AK3) from the ciliate Paramecium tetraurelia A0C7I4 A0C7I4 2 X-RAY DIFFRACTION 75 1.0 5888 (Paramecium tetraurelia) 5888 (Paramecium tetraurelia) 378 378 KIFAKQDVRKLYLDEQGNVDFNKIQARWDELKNIKVSLANKHYTQAVVEKVKTMSAEDQQRFLDIVIAGLTNDDSQVGISATRPEDYDVFLFYLEPIIREYHKIEGETKQEHDWNIPVGEYVLTKIDPALEKVSMRARVARNVVGYNLPSSMDKDERIKFENQMVTVFENFGIPGNYYSLTPGHKNFISDQKADELRKRHFLFIDMTSDNHLMSNGVASDWPFGRGIWISQDESKMVWVGEEDQLRIISIVQGNDLGKVDQSLHELLNGIEKSGLKFAEHPVYGIITTCPTNMGTGKRQSILGKFPNLSKAGTDEANLKDKAKSIGLQARGIGGEHSSVDQEGTADISPSARFGVTEAIVTKRLFEGLIVLYQIEKTT KIFAKQDVRKLYLDEQGNVDFNKIQARWDELKNIKVSLANKHYTQAVVEKVKTMSAEDQQRFLDIVIAGLTNDDSQVGISATRPEDYDVFLFYLEPIIREYHKIEGETKQEHDWNIPVGEYVLTKIDPALEKVSMRARVARNVVGYNLPSSMDKDERIKFENQMVTVFENFGIPGNYYSLTPGHKNFISDQKADELRKRHFLFIDMTSDNHLMSNGVASDWPFGRGIWISQDESKMVWVGEEDQLRIISIVQGNDLGKVDQSLHELLNGIEKSGLKFAEHPVYGIITTCPTNMGTGKRQSILGKFPNLSKAGTDEANLKDKAKSIGLQARGIGGEHSSVDQEGTADISPSARFGVTEAIVTKRLFEGLIVLYQIEKTT 7ext-a1-m1-cB4_7ext-a1-m1-cJ5 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03943 P03943 3.5 ELECTRON MICROSCOPY 30 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 162 162 7ext-a1-m1-cB8_7ext-a1-m1-cJ1 MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS 7ext-a1-m1-cC8_7ext-a1-m1-cE8 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03944 P03944 3.5 ELECTRON MICROSCOPY 11 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 172 172 7ext-a1-m1-cC4_7ext-a1-m1-cE4 MFDIFTRVVSQADARGEFISSDKLEALKKVVAEGTKRSDAVSRMTNNASSIVTNAARQLFADQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYATFTGDASVLNDRCLNGLRETYVALGVPGASVAAGVRAMGKAAVAIVMDPAGVTSGDCSSLQQEIELYFETAAKAVE MFDIFTRVVSQADARGEFISSDKLEALKKVVAEGTKRSDAVSRMTNNASSIVTNAARQLFADQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYATFTGDASVLNDRCLNGLRETYVALGVPGASVAAGVRAMGKAAVAIVMDPAGVTSGDCSSLQQEIELYFETAAKAVE 7ext-a1-m1-cH7_7ext-a1-m1-cX3 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 B1XQM2 B1XQM2 3.5 ELECTRON MICROSCOPY 43 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 160 160 7ext-a1-m1-cA7_7ext-a1-m1-cI3 7ext-a1-m1-cC7_7ext-a1-m1-cG3 7ext-a1-m1-cd3_7ext-a1-m1-ci3 7ext-a1-m1-cE7_7ext-a1-m1-cK3 7ext-a1-m1-cJ7_7ext-a1-m1-cb3 7ext-a1-m1-cL7_7ext-a1-m1-cZ3 7ext-a1-m1-cN3_7ext-a1-m1-cR3 7ext-a1-m1-cO7_7ext-a1-m1-cu3 7ext-a1-m1-cQ7_7ext-a1-m1-cy3 7ext-a1-m1-cS7_7ext-a1-m1-cw3 7ext-a1-m1-cV7_7ext-a1-m1-co3 7ext-a1-m1-cX7_7ext-a1-m1-cs3 7ext-a1-m1-cZ7_7ext-a1-m1-cq3 SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME 7ext-a1-m1-cJ1_7ext-a1-m1-cJ8 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03943 P03943 3.5 ELECTRON MICROSCOPY 37 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 162 162 7ext-a1-m1-cJ4_7ext-a1-m1-cJ5 MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS 7ext-a1-m1-cK5_7ext-a1-m1-cP5 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03944 P03944 3.5 ELECTRON MICROSCOPY 23 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 172 172 7ext-a1-m1-cI1_7ext-a1-m1-cR1 7ext-a1-m1-cI2_7ext-a1-m1-cR2 7ext-a1-m1-cI4_7ext-a1-m1-cR4 7ext-a1-m1-cI5_7ext-a1-m1-cR5 7ext-a1-m1-cI6_7ext-a1-m1-cR6 7ext-a1-m1-cI8_7ext-a1-m1-cR8 7ext-a1-m1-cK1_7ext-a1-m1-cP1 7ext-a1-m1-cK2_7ext-a1-m1-cP2 7ext-a1-m1-cK4_7ext-a1-m1-cP4 7ext-a1-m1-cK6_7ext-a1-m1-cP6 7ext-a1-m1-cK8_7ext-a1-m1-cP8 7ext-a1-m1-cM1_7ext-a1-m1-cT1 7ext-a1-m1-cM2_7ext-a1-m1-cT2 7ext-a1-m1-cM5_7ext-a1-m1-cT5 7ext-a1-m1-cM6_7ext-a1-m1-cT6 MFDIFTRVVSQADARGEFISSDKLEALKKVVAEGTKRSDAVSRMTNNASSIVTNAARQLFADQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYATFTGDASVLNDRCLNGLRETYVALGVPGASVAAGVRAMGKAAVAIVMDPAGVTSGDCSSLQQEIELYFETAAKAVE MFDIFTRVVSQADARGEFISSDKLEALKKVVAEGTKRSDAVSRMTNNASSIVTNAARQLFADQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYATFTGDASVLNDRCLNGLRETYVALGVPGASVAAGVRAMGKAAVAIVMDPAGVTSGDCSSLQQEIELYFETAAKAVE 7ext-a1-m1-cK6_7ext-a1-m1-cT6 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03944 P03944 3.5 ELECTRON MICROSCOPY 30 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 172 172 7ext-a1-m1-cI1_7ext-a1-m1-cP1 7ext-a1-m1-cI5_7ext-a1-m1-cP5 7ext-a1-m1-cK1_7ext-a1-m1-cT1 7ext-a1-m1-cK2_7ext-a1-m1-cT2 7ext-a1-m1-cK4_7ext-a1-m1-cT4 7ext-a1-m1-cK5_7ext-a1-m1-cT5 7ext-a1-m1-cK8_7ext-a1-m1-cT8 7ext-a1-m1-cM1_7ext-a1-m1-cR1 7ext-a1-m1-cM2_7ext-a1-m1-cR2 7ext-a1-m1-cM4_7ext-a1-m1-cR4 7ext-a1-m1-cM5_7ext-a1-m1-cR5 7ext-a1-m1-cM6_7ext-a1-m1-cR6 7ext-a1-m1-cM8_7ext-a1-m1-cR8 MFDIFTRVVSQADARGEFISSDKLEALKKVVAEGTKRSDAVSRMTNNASSIVTNAARQLFADQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYATFTGDASVLNDRCLNGLRETYVALGVPGASVAAGVRAMGKAAVAIVMDPAGVTSGDCSSLQQEIELYFETAAKAVE MFDIFTRVVSQADARGEFISSDKLEALKKVVAEGTKRSDAVSRMTNNASSIVTNAARQLFADQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYATFTGDASVLNDRCLNGLRETYVALGVPGASVAAGVRAMGKAAVAIVMDPAGVTSGDCSSLQQEIELYFETAAKAVE 7ext-a1-m1-cO6_7ext-a1-m1-cY6 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03943 P03943 3.5 ELECTRON MICROSCOPY 22 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 162 162 7ext-a1-m1-cB1_7ext-a1-m1-cJ1 7ext-a1-m1-cB2_7ext-a1-m1-cJ2 7ext-a1-m1-cB4_7ext-a1-m1-cJ4 7ext-a1-m1-cB5_7ext-a1-m1-cJ5 7ext-a1-m1-cB6_7ext-a1-m1-cJ6 7ext-a1-m1-cB8_7ext-a1-m1-cJ8 7ext-a1-m1-cD1_7ext-a1-m1-cH1 7ext-a1-m1-cD2_7ext-a1-m1-cH2 7ext-a1-m1-cD4_7ext-a1-m1-cH4 7ext-a1-m1-cD5_7ext-a1-m1-cH5 7ext-a1-m1-cD6_7ext-a1-m1-cH6 7ext-a1-m1-cD8_7ext-a1-m1-cH8 7ext-a1-m1-cF1_7ext-a1-m1-cL1 7ext-a1-m1-cF2_7ext-a1-m1-cL2 7ext-a1-m1-cF4_7ext-a1-m1-cL4 7ext-a1-m1-cF5_7ext-a1-m1-cL5 7ext-a1-m1-cF6_7ext-a1-m1-cL6 7ext-a1-m1-cF8_7ext-a1-m1-cL8 7ext-a1-m1-cO1_7ext-a1-m1-cY1 7ext-a1-m1-cO2_7ext-a1-m1-cY2 7ext-a1-m1-cO4_7ext-a1-m1-cY4 7ext-a1-m1-cO5_7ext-a1-m1-cY5 7ext-a1-m1-cO8_7ext-a1-m1-cY8 7ext-a1-m1-cQ1_7ext-a1-m1-cW1 7ext-a1-m1-cQ2_7ext-a1-m1-cW2 7ext-a1-m1-cQ4_7ext-a1-m1-cW4 7ext-a1-m1-cQ5_7ext-a1-m1-cW5 7ext-a1-m1-cQ6_7ext-a1-m1-cW6 7ext-a1-m1-cQ8_7ext-a1-m1-cW8 7ext-a1-m1-cS1_7ext-a1-m1-cU1 7ext-a1-m1-cS2_7ext-a1-m1-cU2 7ext-a1-m1-cS4_7ext-a1-m1-cU4 7ext-a1-m1-cS5_7ext-a1-m1-cU5 7ext-a1-m1-cS6_7ext-a1-m1-cU6 7ext-a1-m1-cS8_7ext-a1-m1-cU8 MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS 7ext-a1-m1-cS7_7ext-a1-m1-cb3 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 B1XQM2 B1XQM2 3.5 ELECTRON MICROSCOPY 14 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 160 160 7ext-a1-m1-cG3_7ext-a1-m1-cZ7 7ext-a1-m1-cL7_7ext-a1-m1-cP3 SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME 7ext-a1-m1-cS8_7ext-a1-m1-cY8 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 P03943 P03943 3.5 ELECTRON MICROSCOPY 79 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 162 162 7ext-a1-m1-cB1_7ext-a1-m1-cH1 7ext-a1-m1-cB2_7ext-a1-m1-cH2 7ext-a1-m1-cB4_7ext-a1-m1-cH4 7ext-a1-m1-cB5_7ext-a1-m1-cH5 7ext-a1-m1-cB6_7ext-a1-m1-cH6 7ext-a1-m1-cB8_7ext-a1-m1-cH8 7ext-a1-m1-cD1_7ext-a1-m1-cL1 7ext-a1-m1-cD2_7ext-a1-m1-cL2 7ext-a1-m1-cD4_7ext-a1-m1-cL4 7ext-a1-m1-cD5_7ext-a1-m1-cL5 7ext-a1-m1-cD6_7ext-a1-m1-cL6 7ext-a1-m1-cD8_7ext-a1-m1-cL8 7ext-a1-m1-cF1_7ext-a1-m1-cJ1 7ext-a1-m1-cF2_7ext-a1-m1-cJ2 7ext-a1-m1-cF4_7ext-a1-m1-cJ4 7ext-a1-m1-cF5_7ext-a1-m1-cJ5 7ext-a1-m1-cF6_7ext-a1-m1-cJ6 7ext-a1-m1-cF8_7ext-a1-m1-cJ8 7ext-a1-m1-cO1_7ext-a1-m1-cW1 7ext-a1-m1-cO2_7ext-a1-m1-cW2 7ext-a1-m1-cO4_7ext-a1-m1-cW4 7ext-a1-m1-cO5_7ext-a1-m1-cW5 7ext-a1-m1-cO6_7ext-a1-m1-cW6 7ext-a1-m1-cO8_7ext-a1-m1-cW8 7ext-a1-m1-cQ1_7ext-a1-m1-cU1 7ext-a1-m1-cQ2_7ext-a1-m1-cU2 7ext-a1-m1-cQ4_7ext-a1-m1-cU4 7ext-a1-m1-cQ5_7ext-a1-m1-cU5 7ext-a1-m1-cQ6_7ext-a1-m1-cU6 7ext-a1-m1-cQ8_7ext-a1-m1-cU8 7ext-a1-m1-cS1_7ext-a1-m1-cY1 7ext-a1-m1-cS2_7ext-a1-m1-cY2 7ext-a1-m1-cS4_7ext-a1-m1-cY4 7ext-a1-m1-cS5_7ext-a1-m1-cY5 7ext-a1-m1-cS6_7ext-a1-m1-cY6 MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS MKTPLTEAVALADSQGRFLSNTELQYLYGRLRQGAFALEAAQTLTAKADTLVNGAAQAVYSKFPYTTSTPGNNFAADQRGKDKCARDIGYYLRMVTYCLVAGGTGPMDEYLIAGVDEINRTFDLSPSWYVEALKHIKANHGLTGDAATETNNYIDYAINALS 7ext-a1-m1-cV7_7ext-a1-m1-cq3 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 B1XQM2 B1XQM2 3.5 ELECTRON MICROSCOPY 33 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 160 160 7ext-a1-m1-cA7_7ext-a1-m1-cK3 7ext-a1-m1-cC7_7ext-a1-m1-cI3 7ext-a1-m1-cd3_7ext-a1-m1-ck3 7ext-a1-m1-cH7_7ext-a1-m1-cZ3 7ext-a1-m1-cJ7_7ext-a1-m1-cX3 7ext-a1-m1-cN3_7ext-a1-m1-cT3 7ext-a1-m1-cO7_7ext-a1-m1-cw3 7ext-a1-m1-cQ7_7ext-a1-m1-cu3 7ext-a1-m1-cX7_7ext-a1-m1-co3 SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME 7ext-a1-m1-ca8_7ext-a1-m1-cN8 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 Q05237 Q05237 3.5 ELECTRON MICROSCOPY 55 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 61 289 7ext-a1-m1-ca1_7ext-a1-m1-cN1 7ext-a1-m1-ca2_7ext-a1-m1-cN2 7ext-a1-m1-ca4_7ext-a1-m1-cN4 7ext-a1-m1-ca5_7ext-a1-m1-cN5 7ext-a1-m1-ca6_7ext-a1-m1-cN6 GSTGLSADDQVVRVEVAALSTPRYPRIRRSSRVFFVPVSRLSQKLQEIQRMGGRVASISPA PVTVAASRLGTAAFDQSPVELRANYSRDDAQTVIRAVYRQVLGNDYVMSSERLTAAESLFTNGFISVRDFVRAVAQSELYKEKFLYNNFQTRVIELNFKHLLGRAPYDEAEVIEHLDRYQNEGFEADINSYIDSAEYTENFGDNIVPYIRSYVVQTGHRTVGFTRMFSLQRGYANSDRAQIAGNASRLAQELARNTTSAVVGPSGVNEGWAFRSAADDYHPGQSLGGSTGLSADDQVVRVEVAALSTPRYPRIRRSSRVFFVPVSRLSQKLQEIQRMGGRVASISPAGQ 7ext-a1-m1-cb3_7ext-a1-m1-cy3 Cryo-EM structure of cyanobacterial phycobilisome from Synechococcus sp. PCC 7002 B1XQM2 B1XQM2 3.5 ELECTRON MICROSCOPY 17 1.0 32049 (Synechococcus sp. PCC 7002) 32049 (Synechococcus sp. PCC 7002) 160 160 7ext-a1-m1-cE7_7ext-a1-m1-cZ7 7ext-a1-m1-cG3_7ext-a1-m1-cf3 7ext-a1-m1-cG3_7ext-a1-m1-cs3 7ext-a1-m1-cL7_7ext-a1-m1-cS7 7ext-a1-m1-cP3_7ext-a1-m1-cb3 SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME SIVTKSIVNADAEARYLSPGELDRIKAFVTSGESRLRIAETLTGSRERIIKSAGDALFQKRPDVVSPGGNAYGEEMTATCLRDMDYYLRLITYGVVAGDVTPIEEIGLVGVREMYKSLGTPVDAVAQAVREMKAVATGMMSGDDAAEAGAYFDYVIGAME 7exz-a1-m1-cC_7exz-a1-m1-cE DgpB-DgpC complex apo 2.5 angstrom A0A3Q9WXL1 A0A3Q9WXL1 2.5 X-RAY DIFFRACTION 36 1.0 498716 (human intestinal bacterium PUE) 498716 (human intestinal bacterium PUE) 323 323 7bvr-a1-m1-cA_7bvr-a1-m1-cG 7bvr-a1-m1-cC_7bvr-a1-m1-cE 7bvr-a2-m1-cA_7bvr-a2-m1-cG 7exz-a1-m1-cA_7exz-a1-m1-cG 7exz-a2-m1-cA_7exz-a2-m1-cG 7xrf-a1-m1-cE_7xrf-a1-m2-cC 7xrf-a1-m2-cG_7xrf-a1-m1-cA SNVKLGVTLYSFSTEYCQGKMTLEDCIRTAKELGAAGFEIVATQMIPSYPYVSDKFLGELKSICQYYDMEPVCYGANCDRGLRGDRNLTGDEMVAMAVRDIKNAHKMGCKVVREQWLMGPENFAKLAPFAEHYGVKVGIEVHNPETPITQSTKDYIAAIDKTGSKYLGLIPDFGCFANKPNKMNWDNALADGADKKLLEMARDMKYDNVPYDEAVKRLTAAGAKKVELTTMRDMYTFLTFKKDVSAELQGLKDMIPYCIHMHGKYHYMYENLQEAAIPYDDIMKIVSESDYDGYIVSEYEEYNSGHSIEMLRRHLKMMHNFVD SNVKLGVTLYSFSTEYCQGKMTLEDCIRTAKELGAAGFEIVATQMIPSYPYVSDKFLGELKSICQYYDMEPVCYGANCDRGLRGDRNLTGDEMVAMAVRDIKNAHKMGCKVVREQWLMGPENFAKLAPFAEHYGVKVGIEVHNPETPITQSTKDYIAAIDKTGSKYLGLIPDFGCFANKPNKMNWDNALADGADKKLLEMARDMKYDNVPYDEAVKRLTAAGAKKVELTTMRDMYTFLTFKKDVSAELQGLKDMIPYCIHMHGKYHYMYENLQEAAIPYDDIMKIVSESDYDGYIVSEYEEYNSGHSIEMLRRHLKMMHNFVD 7ey9-a1-m1-cr_7ey9-a1-m1-cp tail proteins P03748 P03748 3.4 ELECTRON MICROSCOPY 89 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 136 141 7boz-a1-m1-cc_7boz-a1-m1-ca 7boz-a1-m1-cf_7boz-a1-m1-cd 7boz-a1-m1-ci_7boz-a1-m1-cg 7boz-a1-m1-cl_7boz-a1-m1-cj 7boz-a1-m1-co_7boz-a1-m1-cm 7boz-a1-m1-cr_7boz-a1-m1-cp 7ey9-a1-m1-cc_7ey9-a1-m1-ca 7ey9-a1-m1-cf_7ey9-a1-m1-cd 7ey9-a1-m1-ci_7ey9-a1-m1-cg 7ey9-a1-m1-cl_7ey9-a1-m1-cj 7ey9-a1-m1-co_7ey9-a1-m1-cm KTVLTYQLDGSNRDFNIPFEYLARKFVVVTLIGVDRKVLTINTDYRFATRTTISLTKAWGPADGYTTIELRRVTSTTDRLVDFTDGSILRAYDLNVAQIQTMHVAEEARDLTTDTIGVNNDGHLDARGRRIVNLAN NVIKTVLTYQLDGSNRDFNIPFEYLARKFVVVTLIGVDRKVLTINTDYRFATRTTISLTKAWGPADGYTTIELRRVTSTTDRLVDFTDGSILRAYDLNVAQIQTMHVAEEARDLTTDTIGVNNDGHLDARGRRIVNLANAV 7ey9-a1-m1-cw_7ey9-a1-m1-cx tail proteins P03747 P03747 3.4 ELECTRON MICROSCOPY 243 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 792 792 6r21-a1-m1-ca_6r21-a1-m1-cc 6r21-a1-m1-ca_6r21-a1-m1-cf 6r21-a1-m1-cb_6r21-a1-m1-cc 6r21-a1-m1-cb_6r21-a1-m1-cd 6r21-a1-m1-cd_6r21-a1-m1-ce 6r21-a1-m1-ce_6r21-a1-m1-cf 7boy-a1-m1-cs_7boy-a1-m1-ct 7boy-a1-m1-cs_7boy-a1-m1-cx 7boy-a1-m1-ct_7boy-a1-m1-cu 7boy-a1-m1-cu_7boy-a1-m1-cv 7boy-a1-m1-cv_7boy-a1-m1-cw 7boy-a1-m1-cw_7boy-a1-m1-cx 7ey7-a1-m1-cs_7ey7-a1-m1-ct 7ey7-a1-m1-cs_7ey7-a1-m1-cx 7ey7-a1-m1-ct_7ey7-a1-m1-cu 7ey7-a1-m1-cu_7ey7-a1-m1-cv 7ey7-a1-m1-cv_7ey7-a1-m1-cw 7ey7-a1-m1-cw_7ey7-a1-m1-cx 7ey9-a1-m1-cs_7ey9-a1-m1-ct 7ey9-a1-m1-cs_7ey9-a1-m1-cx 7ey9-a1-m1-ct_7ey9-a1-m1-cu 7ey9-a1-m1-cu_7ey9-a1-m1-cv 7ey9-a1-m1-cv_7ey9-a1-m1-cw LISQSIKNLKGGISQQPDILRYPDQGSRQVNGWSSETEGLQKRPPLVFLNTLGDNGALGQAPYIHLINRDEHEQYYAVFTGSGIRVFDLSGNEKQVRYPNGSNYIKTANPRNDLRMVTVADYTFIVNRNVVAQKNTKSVNLPNYNPNQDGLINVRGGQYGRELIVHINGKDVAKYKIPDGSQPEHVNNTDAQWLAEELAKQMRTNLSDWTVNVGQGFIHVTAPSGQQIDSFTTKDGYADQLINPVTHYAQSFSKLPPNAPNGYMVKIVGDASKSADQYYVRYDAERKVWTETLGWNTEDQVLWETMPHALVRAADGNFDFKWLEWSPKSCGDVDTNPWPSFVGSSINDVFFFRNRLGFLSGENIILSRTAKYFNFYPASIANLSDDDPIDVAVSTNRIAILKYAVPFSEELLIWSDEAQFVLTASGTLTSKSVELNLTTQFDVQDRARPFGIGRNVYFASPRSSFTSIHRYYAVQDVSSVKNAEDITSHVPNYIPNGVFSICGSGTENFCSVLSHGDPSKIFMYKFLYLNEELRQQSWSHWDFGENVQVLACQSISSDMYVILRNEFNTFLARISFTKNAIDLQGEPYRAFMDMKIRYTIPSGTYNDDTFTTSIHIPTIYGANFGRGKITVLEPDGKITVFEQPTAGWNSDPWLRLSGNLEGRMVYIGFNINFVYEFSKFLIKQTADDGSTSTEDIGRLQLRRAWVNYENSGTFDIYVENQSSNWKYTMAGARLGSNTLRAGRLNLGTGQYRFPVVGNAKFNTVYILSDETTPLNIIGCGWEGNYLRRSSGI LISQSIKNLKGGISQQPDILRYPDQGSRQVNGWSSETEGLQKRPPLVFLNTLGDNGALGQAPYIHLINRDEHEQYYAVFTGSGIRVFDLSGNEKQVRYPNGSNYIKTANPRNDLRMVTVADYTFIVNRNVVAQKNTKSVNLPNYNPNQDGLINVRGGQYGRELIVHINGKDVAKYKIPDGSQPEHVNNTDAQWLAEELAKQMRTNLSDWTVNVGQGFIHVTAPSGQQIDSFTTKDGYADQLINPVTHYAQSFSKLPPNAPNGYMVKIVGDASKSADQYYVRYDAERKVWTETLGWNTEDQVLWETMPHALVRAADGNFDFKWLEWSPKSCGDVDTNPWPSFVGSSINDVFFFRNRLGFLSGENIILSRTAKYFNFYPASIANLSDDDPIDVAVSTNRIAILKYAVPFSEELLIWSDEAQFVLTASGTLTSKSVELNLTTQFDVQDRARPFGIGRNVYFASPRSSFTSIHRYYAVQDVSSVKNAEDITSHVPNYIPNGVFSICGSGTENFCSVLSHGDPSKIFMYKFLYLNEELRQQSWSHWDFGENVQVLACQSISSDMYVILRNEFNTFLARISFTKNAIDLQGEPYRAFMDMKIRYTIPSGTYNDDTFTTSIHIPTIYGANFGRGKITVLEPDGKITVFEQPTAGWNSDPWLRLSGNLEGRMVYIGFNINFVYEFSKFLIKQTADDGSTSTEDIGRLQLRRAWVNYENSGTFDIYVENQSSNWKYTMAGARLGSNTLRAGRLNLGTGQYRFPVVGNAKFNTVYILSDETTPLNIIGCGWEGNYLRRSSGI 7eyb-a1-m1-cF_7eyb-a1-m1-cH core proteins P03725 P03725 3.7 ELECTRON MICROSCOPY 15 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 647 647 7eyb-a1-m1-cA_7eyb-a1-m1-cC 7eyb-a1-m1-cA_7eyb-a1-m1-cG 7eyb-a1-m1-cB_7eyb-a1-m1-cD 7eyb-a1-m1-cB_7eyb-a1-m1-cH 7eyb-a1-m1-cC_7eyb-a1-m1-cE 7eyb-a1-m1-cD_7eyb-a1-m1-cF 7eyb-a1-m1-cE_7eyb-a1-m1-cG DLADERSNEIIRKLTPEQRREALNNGTLLYQDDPYAMEALRVKTGRNAAYLVDDDVMQKIKEGVFRTREEMEEYRHSRLQEGAKVYAEQFGIDPEDVDYQRGFNGDITERNISLYGAHDNFLSQQAQKGAIMNSRVELNGVLQDPDMLRRPDSADFFEKYIDNGLVTGAIPSDAQATQLISQAFSDASSRAGGADFLMRVGDKKVTLNGATTTYRELIGEEQWNALMVTAQRSQFETDAKLNEQYRLKINSALNQEDPRTAWEMLQGIKAELDKVQPDEQMTPQREWLISAQEQVQNQMNAWTKAQAKALDDSMKSMNKLDVIDKQFQKRINGEWVSTDFKDMPVNENTGEFKHSDMVNYANKKLAEIDSMDIPDGAKDAMKLKYLQADSKDGAFRTAIGTMVTDAGQEWSAAVINGKLPERTPAMDALRRIRNADPQLIAALYPDQAELFLTMDMMDKQGIDPQVILDADRLTVKRSKEQRFEDDKAFESALNASKAPEIARMPASLRESARKIYDSVKYRSGNESMAMEQMTKFLKESTYTFTGDDVDGDTVGVIPKNMMQVNSDPKSWEQGRDILEEARKGIIASNPWITNKQLTMYSQGDSIYLMDTTGQVRVRYDKELLSKVWSENQKKLEEKAREKALADV DLADERSNEIIRKLTPEQRREALNNGTLLYQDDPYAMEALRVKTGRNAAYLVDDDVMQKIKEGVFRTREEMEEYRHSRLQEGAKVYAEQFGIDPEDVDYQRGFNGDITERNISLYGAHDNFLSQQAQKGAIMNSRVELNGVLQDPDMLRRPDSADFFEKYIDNGLVTGAIPSDAQATQLISQAFSDASSRAGGADFLMRVGDKKVTLNGATTTYRELIGEEQWNALMVTAQRSQFETDAKLNEQYRLKINSALNQEDPRTAWEMLQGIKAELDKVQPDEQMTPQREWLISAQEQVQNQMNAWTKAQAKALDDSMKSMNKLDVIDKQFQKRINGEWVSTDFKDMPVNENTGEFKHSDMVNYANKKLAEIDSMDIPDGAKDAMKLKYLQADSKDGAFRTAIGTMVTDAGQEWSAAVINGKLPERTPAMDALRRIRNADPQLIAALYPDQAELFLTMDMMDKQGIDPQVILDADRLTVKRSKEQRFEDDKAFESALNASKAPEIARMPASLRESARKIYDSVKYRSGNESMAMEQMTKFLKESTYTFTGDDVDGDTVGVIPKNMMQVNSDPKSWEQGRDILEEARKGIIASNPWITNKQLTMYSQGDSIYLMDTTGQVRVRYDKELLSKVWSENQKKLEEKAREKALADV 7eyb-a1-m1-cG_7eyb-a1-m1-cH core proteins P03725 P03725 3.7 ELECTRON MICROSCOPY 240 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 647 647 7eyb-a1-m1-cA_7eyb-a1-m1-cB 7eyb-a1-m1-cA_7eyb-a1-m1-cH 7eyb-a1-m1-cB_7eyb-a1-m1-cC 7eyb-a1-m1-cC_7eyb-a1-m1-cD 7eyb-a1-m1-cD_7eyb-a1-m1-cE 7eyb-a1-m1-cE_7eyb-a1-m1-cF 7eyb-a1-m1-cF_7eyb-a1-m1-cG DLADERSNEIIRKLTPEQRREALNNGTLLYQDDPYAMEALRVKTGRNAAYLVDDDVMQKIKEGVFRTREEMEEYRHSRLQEGAKVYAEQFGIDPEDVDYQRGFNGDITERNISLYGAHDNFLSQQAQKGAIMNSRVELNGVLQDPDMLRRPDSADFFEKYIDNGLVTGAIPSDAQATQLISQAFSDASSRAGGADFLMRVGDKKVTLNGATTTYRELIGEEQWNALMVTAQRSQFETDAKLNEQYRLKINSALNQEDPRTAWEMLQGIKAELDKVQPDEQMTPQREWLISAQEQVQNQMNAWTKAQAKALDDSMKSMNKLDVIDKQFQKRINGEWVSTDFKDMPVNENTGEFKHSDMVNYANKKLAEIDSMDIPDGAKDAMKLKYLQADSKDGAFRTAIGTMVTDAGQEWSAAVINGKLPERTPAMDALRRIRNADPQLIAALYPDQAELFLTMDMMDKQGIDPQVILDADRLTVKRSKEQRFEDDKAFESALNASKAPEIARMPASLRESARKIYDSVKYRSGNESMAMEQMTKFLKESTYTFTGDDVDGDTVGVIPKNMMQVNSDPKSWEQGRDILEEARKGIIASNPWITNKQLTMYSQGDSIYLMDTTGQVRVRYDKELLSKVWSENQKKLEEKAREKALADV DLADERSNEIIRKLTPEQRREALNNGTLLYQDDPYAMEALRVKTGRNAAYLVDDDVMQKIKEGVFRTREEMEEYRHSRLQEGAKVYAEQFGIDPEDVDYQRGFNGDITERNISLYGAHDNFLSQQAQKGAIMNSRVELNGVLQDPDMLRRPDSADFFEKYIDNGLVTGAIPSDAQATQLISQAFSDASSRAGGADFLMRVGDKKVTLNGATTTYRELIGEEQWNALMVTAQRSQFETDAKLNEQYRLKINSALNQEDPRTAWEMLQGIKAELDKVQPDEQMTPQREWLISAQEQVQNQMNAWTKAQAKALDDSMKSMNKLDVIDKQFQKRINGEWVSTDFKDMPVNENTGEFKHSDMVNYANKKLAEIDSMDIPDGAKDAMKLKYLQADSKDGAFRTAIGTMVTDAGQEWSAAVINGKLPERTPAMDALRRIRNADPQLIAALYPDQAELFLTMDMMDKQGIDPQVILDADRLTVKRSKEQRFEDDKAFESALNASKAPEIARMPASLRESARKIYDSVKYRSGNESMAMEQMTKFLKESTYTFTGDDVDGDTVGVIPKNMMQVNSDPKSWEQGRDILEEARKGIIASNPWITNKQLTMYSQGDSIYLMDTTGQVRVRYDKELLSKVWSENQKKLEEKAREKALADV 7eyb-a1-m1-cK_7eyb-a1-m1-cL core proteins P03726 P03726 3.7 ELECTRON MICROSCOPY 120 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 1101 1101 7eyb-a1-m1-cI_7eyb-a1-m1-cJ 7eyb-a1-m1-cI_7eyb-a1-m1-cL 7eyb-a1-m1-cJ_7eyb-a1-m1-cK DYDGLFQKAADANGVSYDLLRKVAWTESRFVPTAKSKTGPLGMMQFTKATAKALGLRVTDGPDDDRLNPELAINAAAKQLAGLVGKFDGDELKAALAYNQGEGRLGNPQLEAYSKGDFASISEEGRNYMRNLLDVAKSPMAGQLETAELSNSVAGMAFRAGRLDNGFDVFKDTITPTRWNSHIWTPEELEKIRTEVKNPAYINVVTGGSPENLDDLIKLANENFENDSRAAEAGLGAKLSAGIIGAGVDPLSYVPMVGVTGKGFKLINKALVVGAESAALNVASEGLRTSVAGGDADYAGAALGGFVFGAGMSAISDAVAAGLKRSKPEAEFDNEFIGPMMRLEARETARNANSADLSRMNTENMKFEGEHNGVPYEDLPTERGAVVLHDGSVLSASNPINPKTLKEFSEVDPFGATASDIHERLHGTDQRTYNDLYKAMSDAMKDPEFSTGGAKMSREETRYTIYRRAALAIERPELQKALTPSERIVMDIIKRHFDTKRELMENPAIFGNTKAVSIFPESRHKGTYVPHVYDRHAKALMIQRYGAEGLQEGIARSWMNSYVSRPEVKARVDEMLKELHGVKEVTPEMVEKYAMDKAYGISHSDQFTNNSFLEARNLFDSDLSITMPDGQQFSVNDLRDFDMFRIMPAYDRRVNGDIAIMGSTGKTTKELKDEILALKAKAEGDGKKTGEVHALMDTVKILTGRARRNQDTVWETSLRAINDLGFFAKNAYMGAQNITEIAGMIVTGNVRALGHGIPILRDTLYKSKPVSAKELKELHASLFGKEVDQLIRPKRADIVQRLREATDSPWTKLLNGTTNYLLDAARQGMLGDVISATLTGKTTRWEKEGFLRGASVTPEQMAGIKSLIKEHMFTVKDKQAFSMDPRAMDLWRLADKVADEAMLRPHKVSLQDSHAFGALGKMVMQFKSFTIKSLNSKFLRTFYDGYKNNRAIDAALSIITSMGLAGGFYAMAAHVKAYALPKEKRKEYLERALDPTMIAHAALSRSSQLGAPLAMVDLVGGVLGFESSKMARSTILPKDTVKERDPNKPYTLMNAAGVVNSPNKATEQDFMTGLMNSTKELVPNDPLTQQLVLKIYEANGV DYDGLFQKAADANGVSYDLLRKVAWTESRFVPTAKSKTGPLGMMQFTKATAKALGLRVTDGPDDDRLNPELAINAAAKQLAGLVGKFDGDELKAALAYNQGEGRLGNPQLEAYSKGDFASISEEGRNYMRNLLDVAKSPMAGQLETAELSNSVAGMAFRAGRLDNGFDVFKDTITPTRWNSHIWTPEELEKIRTEVKNPAYINVVTGGSPENLDDLIKLANENFENDSRAAEAGLGAKLSAGIIGAGVDPLSYVPMVGVTGKGFKLINKALVVGAESAALNVASEGLRTSVAGGDADYAGAALGGFVFGAGMSAISDAVAAGLKRSKPEAEFDNEFIGPMMRLEARETARNANSADLSRMNTENMKFEGEHNGVPYEDLPTERGAVVLHDGSVLSASNPINPKTLKEFSEVDPFGATASDIHERLHGTDQRTYNDLYKAMSDAMKDPEFSTGGAKMSREETRYTIYRRAALAIERPELQKALTPSERIVMDIIKRHFDTKRELMENPAIFGNTKAVSIFPESRHKGTYVPHVYDRHAKALMIQRYGAEGLQEGIARSWMNSYVSRPEVKARVDEMLKELHGVKEVTPEMVEKYAMDKAYGISHSDQFTNNSFLEARNLFDSDLSITMPDGQQFSVNDLRDFDMFRIMPAYDRRVNGDIAIMGSTGKTTKELKDEILALKAKAEGDGKKTGEVHALMDTVKILTGRARRNQDTVWETSLRAINDLGFFAKNAYMGAQNITEIAGMIVTGNVRALGHGIPILRDTLYKSKPVSAKELKELHASLFGKEVDQLIRPKRADIVQRLREATDSPWTKLLNGTTNYLLDAARQGMLGDVISATLTGKTTRWEKEGFLRGASVTPEQMAGIKSLIKEHMFTVKDKQAFSMDPRAMDLWRLADKVADEAMLRPHKVSLQDSHAFGALGKMVMQFKSFTIKSLNSKFLRTFYDGYKNNRAIDAALSIITSMGLAGGFYAMAAHVKAYALPKEKRKEYLERALDPTMIAHAALSRSSQLGAPLAMVDLVGGVLGFESSKMARSTILPKDTVKERDPNKPYTLMNAAGVVNSPNKATEQDFMTGLMNSTKELVPNDPLTQQLVLKIYEANGV 7eyd-a1-m1-c19_7eyd-a1-m1-c09 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80559 P80559 3.9 ELECTRON MICROSCOPY 12 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 1043 1049 VKASGGSSVARPQLYQTLAVATITQAEQQDRFLGRGELDELASYFASGAKRLEIAQLLTENSEIIVSRAANRIFPINIARYGPSNMAKSLRDLSWFLRYATYAIVAGDPNIIVVNTRGLREIIENACSGEATIVALQEIKAASLSYFRKDPEAAEIVSQYMDVLITEFKAPTPSNKLRQRPSGDQQGLQLPQIYFSAAERRPKFVMKTGLSATEKNEVIKAAYRQIFERDITRAYSLSISDLESKVKNGDISMKEFVRRLAKSPLYQKQFYQPFINSRVIELAFRHILGRGPSSREEVQKYFSIISNGGLPALVDALVDSAEYSDYFGEETVPYLRGLGQEAQECRNWGPQQDLFNYSAPFRKVPQFITTFAAYDRPLPDQHPYGSGNDPLEIQFGAIFPKETRNPSTSPAPFGKDTRRILIHQGPGINNQVSNPSARGLAPGSLGPKVFKLDQLPGTIGKKAAKGASVKFSESSTQAVIKATYLQVFGRDVYEGQRLKVQEIKLENGEISVRDFVRALAKSDLFRKLYWTPFYVCKAIEYIHRRLLGRPTYGRQENNKYFDIASKKGLYAVVDAILDSLEYTETFGEDTVPYERYLTPAGVALRQLRVGTFVELGTVKENRTQPDIDFRINQGVTKQREQTKVFKRVAGIKDKAAIKTLISAAYRQIFERDIAPYIAQNEFSGWESKLGNGEITVKEFIEGLGYSNLYLKEFYTPYPNTKVIELGTKHFLGRAPIDQAEIRKYNQILATQGIRAFINALVNSQEYNEVFGEDTVPYRRFPTLPAANFPNTQKLYNQLTKQNNDVVIPSFKPVQARIQSDKTPILAKAIADLAAQAKQMDKSKPLFIELGRSYNDGRGQSVEVGVGTTRRKPARIYRLTNGIGQAEKQLVINAIYRQVLDVFSGQVPDYYRRTELDSKLRNGEISVREFVREIASSEIYRKRFYTPYPNTKVIEFLFRHLLGRAPATQGEIRQYNKLLADNGLRAAVEAIVDSPEYSRYFGEDVVPYPRFPSLPAGNYLGSVQAAADLVKQSWSSLSPSTLTG SVKASGGSSVARPQLYQTLAVATITQAEQQDRFLGRGELDELASYFASGAKRLEIAQLLTENSEIIVSRAANRIFPINIARYGPSNMAKSLRDLSWFLRYATYAIVAGDPNIIVVNTRGLREIIENACSGEATIVALQEIKAASLSYFRKDPEAAEIVSQYMDVLITEFKAPTPSNKLRQRPSGDQQGLQLPQIYFSAAERRPKFVMKTGLSATEKNEVIKAAYRQIFERDITRAYSLSISDLESKVKNGDISMKEFVRRLAKSPLYQKQFYQPFINSRVIELAFRHILGRGPSSREEVQKYFSIISNGGLPALVDALVDSAEYSDYFGEETVPYLRGLGQEAQECRNWGPQQDLFNYSAPFRKVPQFITTFAAYDRPLPDQHPYGSGNDPLEIQFGAIFPKETRNPSTSPAPFGKDTRRILIHQGPGINNQVSNPSARGLAPGSLGPKVFKLDQLPGTIGKKAAKGASVKFSESSTQAVIKATYLQVFGRDVYEGQRLKVQEIKLENGEISVRDFVRALAKSDLFRKLYWTPFYVCKAIEYIHRRLLGRPTYGRQENNKYFDIASKKGLYAVVDAILDSLEYTETFGEDTVPYERYLTPAGVALRQLRVGTIREDFVELGTVKENRTQPDIDFRINQGVTKQREQTKVFKRVAGIKDKAAIKTLISAAYRQIFERDIAPYIAQNEFSGWESKLGNGEITVKEFIEGLGYSNLYLKEFYTPYPNTKVIELGTKHFLGRAPIDQAEIRKYNQILATQGIRAFINALVNSQEYNEVFGEDTVPYRRFPTLPAANFPNTQKLYNQLTKQNNDVVIPSFKPVQARIQSDKTPILAKAIADLAAQAKQMDKSKPLFIELGRSYNDGRGQSVEVGVGTTRRKPARIYRLTNGIGQAEKQLVINAIYRQVLDVFSGQVPDYYRRTELDSKLRNGEISVREFVREIASSEIYRKRFYTPYPNTKVIEFLFRHLLGRAPATQGEIRQYNKLLADNGLRAAVEAIVDSPEYSRYFGEDVVPYPRFPSLPAGNYLGSVQAAADLVKQSWSSLSPSTLTGR 7eyd-a1-m1-cC7_7eyd-a1-m1-cE7 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07120 P07120 3.9 ELECTRON MICROSCOPY 11 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 172 173 7eyd-a1-m1-cC2_7eyd-a1-m1-cE2 7eyd-a1-m1-cC3_7eyd-a1-m1-cE3 7eyd-a1-m1-cC6_7eyd-a1-m1-cE6 7eyd-a1-m1-cM1_7eyd-a1-m1-cI1 7eyd-a1-m1-cM4_7eyd-a1-m1-cI4 TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG MTLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG 7eyd-a1-m1-cC8_7eyd-a1-m1-ct8 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80555 P80555 3.9 ELECTRON MICROSCOPY 38 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 159 159 7eyd-a1-m1-cJ8_7eyd-a1-m1-cn8 IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ 7eyd-a1-m1-cE4_7eyd-a1-m1-cR6 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07120 P07120 3.9 ELECTRON MICROSCOPY 12 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 172 172 7eyd-a1-m1-cE1_7eyd-a1-m1-cR2 TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG 7eyd-a1-m1-cE8_7eyd-a1-m1-cf9 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80555 P80555 3.9 ELECTRON MICROSCOPY 11 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 159 159 7eyd-a1-m1-cL8_7eyd-a1-m1-cP9 IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ 7eyd-a1-m1-cFA_7eyd-a1-m1-cHA Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07121 P07121 3.9 ELECTRON MICROSCOPY 21 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 162 162 7eyd-a1-m1-cB1_7eyd-a1-m1-cL1 7eyd-a1-m1-cB2_7eyd-a1-m1-cL2 7eyd-a1-m1-cB3_7eyd-a1-m1-cL3 7eyd-a1-m1-cB4_7eyd-a1-m1-cL4 7eyd-a1-m1-cB5_7eyd-a1-m1-cL5 7eyd-a1-m1-cB6_7eyd-a1-m1-cL6 7eyd-a1-m1-cB7_7eyd-a1-m1-cL7 7eyd-a1-m1-cBA_7eyd-a1-m1-cLA 7eyd-a1-m1-cD1_7eyd-a1-m1-cJ1 7eyd-a1-m1-cD2_7eyd-a1-m1-cJ2 7eyd-a1-m1-cD3_7eyd-a1-m1-cJ3 7eyd-a1-m1-cD4_7eyd-a1-m1-cJ4 7eyd-a1-m1-cD5_7eyd-a1-m1-cJ5 7eyd-a1-m1-cD6_7eyd-a1-m1-cJ6 7eyd-a1-m1-cD7_7eyd-a1-m1-cJ7 7eyd-a1-m1-cDA_7eyd-a1-m1-cJA 7eyd-a1-m1-cF1_7eyd-a1-m1-cH1 7eyd-a1-m1-cF2_7eyd-a1-m1-cH2 7eyd-a1-m1-cF3_7eyd-a1-m1-cH3 7eyd-a1-m1-cF4_7eyd-a1-m1-cH4 7eyd-a1-m1-cF5_7eyd-a1-m1-cH5 7eyd-a1-m1-cF6_7eyd-a1-m1-cH6 7eyd-a1-m1-cF7_7eyd-a1-m1-cH7 7eyd-a1-m1-cO1_7eyd-a1-m1-cY1 7eyd-a1-m1-cO2_7eyd-a1-m1-cY2 7eyd-a1-m1-cO4_7eyd-a1-m1-cY4 7eyd-a1-m1-cO5_7eyd-a1-m1-cY5 7eyd-a1-m1-cO6_7eyd-a1-m1-cY6 7eyd-a1-m1-cOA_7eyd-a1-m1-cYA 7eyd-a1-m1-cQ1_7eyd-a1-m1-cW1 7eyd-a1-m1-cQ2_7eyd-a1-m1-cW2 7eyd-a1-m1-cQ4_7eyd-a1-m1-cW4 7eyd-a1-m1-cQ5_7eyd-a1-m1-cW5 7eyd-a1-m1-cQ6_7eyd-a1-m1-cW6 7eyd-a1-m1-cQA_7eyd-a1-m1-cWA 7eyd-a1-m1-cS1_7eyd-a1-m1-cU1 7eyd-a1-m1-cS2_7eyd-a1-m1-cU2 7eyd-a1-m1-cS4_7eyd-a1-m1-cU4 7eyd-a1-m1-cS5_7eyd-a1-m1-cU5 7eyd-a1-m1-cS6_7eyd-a1-m1-cU6 7eyd-a1-m1-cSA_7eyd-a1-m1-cUA VKTPITEAIAAADTQGRFLGNTELQSARGRYERAAASLEAARGLTSNAQRLIDGATQAVYQKFPYTTQTPGPQFAADSRGKSKCARDVGHYLRIITYSLVAGGTGPLDEYLIAGLAEINSTFDLSPSWYVEALKHIKANHGLSGQAANEANTYIDYAINALS VKTPITEAIAAADTQGRFLGNTELQSARGRYERAAASLEAARGLTSNAQRLIDGATQAVYQKFPYTTQTPGPQFAADSRGKSKCARDVGHYLRIITYSLVAGGTGPLDEYLIAGLAEINSTFDLSPSWYVEALKHIKANHGLSGQAANEANTYIDYAINALS 7eyd-a1-m1-cIA_7eyd-a1-m1-cPA Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07120 P07120 3.9 ELECTRON MICROSCOPY 12 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 172 172 7eyd-a1-m1-cI5_7eyd-a1-m1-cP5 7eyd-a1-m1-cP1_7eyd-a1-m1-cI1 7eyd-a1-m1-cP2_7eyd-a1-m1-cI2 7eyd-a1-m1-cP4_7eyd-a1-m1-cI4 7eyd-a1-m1-cP6_7eyd-a1-m1-cI6 TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG 7eyd-a1-m1-cIA_7eyd-a1-m1-cTA Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07120 P07120 3.9 ELECTRON MICROSCOPY 31 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 172 172 7eyd-a1-m1-cI5_7eyd-a1-m1-cT5 7eyd-a1-m1-cM1_7eyd-a1-m1-cP1 7eyd-a1-m1-cM2_7eyd-a1-m1-cP2 7eyd-a1-m1-cM4_7eyd-a1-m1-cP4 7eyd-a1-m1-cM5_7eyd-a1-m1-cP5 7eyd-a1-m1-cM6_7eyd-a1-m1-cP6 7eyd-a1-m1-cMA_7eyd-a1-m1-cPA 7eyd-a1-m1-cT1_7eyd-a1-m1-cI1 7eyd-a1-m1-cT2_7eyd-a1-m1-cI2 7eyd-a1-m1-cT4_7eyd-a1-m1-cI4 7eyd-a1-m1-cT6_7eyd-a1-m1-cI6 TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG 7eyd-a1-m1-cJ7_7eyd-a1-m1-cL4 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07121 P07121 3.9 ELECTRON MICROSCOPY 15 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 162 162 7eyd-a1-m1-cJ3_7eyd-a1-m1-cL1 VKTPITEAIAAADTQGRFLGNTELQSARGRYERAAASLEAARGLTSNAQRLIDGATQAVYQKFPYTTQTPGPQFAADSRGKSKCARDVGHYLRIITYSLVAGGTGPLDEYLIAGLAEINSTFDLSPSWYVEALKHIKANHGLSGQAANEANTYIDYAINALS VKTPITEAIAAADTQGRFLGNTELQSARGRYERAAASLEAARGLTSNAQRLIDGATQAVYQKFPYTTQTPGPQFAADSRGKSKCARDVGHYLRIITYSLVAGGTGPLDEYLIAGLAEINSTFDLSPSWYVEALKHIKANHGLSGQAANEANTYIDYAINALS 7eyd-a1-m1-cM6_7eyd-a1-m1-cR6 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07120 P07120 3.9 ELECTRON MICROSCOPY 21 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 172 172 7eyd-a1-m1-cK2_7eyd-a1-m1-cT2 7eyd-a1-m1-cK5_7eyd-a1-m1-cT5 7eyd-a1-m1-cK6_7eyd-a1-m1-cT6 7eyd-a1-m1-cKA_7eyd-a1-m1-cTA 7eyd-a1-m1-cM1_7eyd-a1-m1-cR1 7eyd-a1-m1-cM2_7eyd-a1-m1-cR2 7eyd-a1-m1-cM4_7eyd-a1-m1-cR4 7eyd-a1-m1-cM5_7eyd-a1-m1-cR5 7eyd-a1-m1-cMA_7eyd-a1-m1-cRA TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG TLDVFTKVVSQADSRGEFLSNEQLDALANVVKEGNKRLDVVNRITSNASAIVTNAARALFEEQPQLIAPGGNAYTNRRMAACLRDMEIILRYVTYAILAGDASVLDDRCLNGLRETYQALGTPGSSVAVGVQKMKDAAVGIANDPNGITKGDCSQLISEVASYFDRAAAAVG 7eyd-a1-m1-cO8_7eyd-a1-m1-cu9 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80555 P80555 3.9 ELECTRON MICROSCOPY 48 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 159 159 7eyd-a1-m1-cA8_7eyd-a1-m1-cI9 7eyd-a1-m1-cA9_7eyd-a1-m1-co9 7eyd-a1-m1-cC8_7eyd-a1-m1-cG9 7eyd-a1-m1-cc8_7eyd-a1-m1-cj8 7eyd-a1-m1-cC9_7eyd-a1-m1-cs9 7eyd-a1-m1-cd9_7eyd-a1-m1-ci9 7eyd-a1-m1-cE8_7eyd-a1-m1-cK9 7eyd-a1-m1-ce8_7eyd-a1-m1-cn8 7eyd-a1-m1-cE9_7eyd-a1-m1-cq9 7eyd-a1-m1-cg8_7eyd-a1-m1-cl8 7eyd-a1-m1-cH8_7eyd-a1-m1-cX9 7eyd-a1-m1-cJ8_7eyd-a1-m1-cb9 7eyd-a1-m1-cL8_7eyd-a1-m1-cZ9 7eyd-a1-m1-cN9_7eyd-a1-m1-cR9 7eyd-a1-m1-cQ8_7eyd-a1-m1-cy9 7eyd-a1-m1-cS8_7eyd-a1-m1-cw9 7eyd-a1-m1-cV8_7eyd-a1-m1-cp8 7eyd-a1-m1-cX8_7eyd-a1-m1-ct8 7eyd-a1-m1-cZ8_7eyd-a1-m1-cr8 IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ 7eyd-a1-m1-cOA_7eyd-a1-m1-cWA Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P07121 P07121 3.9 ELECTRON MICROSCOPY 79 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 162 162 7eyd-a1-m1-cB1_7eyd-a1-m1-cJ1 7eyd-a1-m1-cB2_7eyd-a1-m1-cJ2 7eyd-a1-m1-cB3_7eyd-a1-m1-cJ3 7eyd-a1-m1-cB4_7eyd-a1-m1-cJ4 7eyd-a1-m1-cB5_7eyd-a1-m1-cJ5 7eyd-a1-m1-cB6_7eyd-a1-m1-cJ6 7eyd-a1-m1-cB7_7eyd-a1-m1-cJ7 7eyd-a1-m1-cBA_7eyd-a1-m1-cJA 7eyd-a1-m1-cD1_7eyd-a1-m1-cH1 7eyd-a1-m1-cD2_7eyd-a1-m1-cH2 7eyd-a1-m1-cD3_7eyd-a1-m1-cH3 7eyd-a1-m1-cD4_7eyd-a1-m1-cH4 7eyd-a1-m1-cD5_7eyd-a1-m1-cH5 7eyd-a1-m1-cD6_7eyd-a1-m1-cH6 7eyd-a1-m1-cD7_7eyd-a1-m1-cH7 7eyd-a1-m1-cDA_7eyd-a1-m1-cHA 7eyd-a1-m1-cF1_7eyd-a1-m1-cL1 7eyd-a1-m1-cF2_7eyd-a1-m1-cL2 7eyd-a1-m1-cF3_7eyd-a1-m1-cL3 7eyd-a1-m1-cF4_7eyd-a1-m1-cL4 7eyd-a1-m1-cF5_7eyd-a1-m1-cL5 7eyd-a1-m1-cF6_7eyd-a1-m1-cL6 7eyd-a1-m1-cF7_7eyd-a1-m1-cL7 7eyd-a1-m1-cFA_7eyd-a1-m1-cLA 7eyd-a1-m1-cO1_7eyd-a1-m1-cW1 7eyd-a1-m1-cO2_7eyd-a1-m1-cW2 7eyd-a1-m1-cO4_7eyd-a1-m1-cW4 7eyd-a1-m1-cO5_7eyd-a1-m1-cW5 7eyd-a1-m1-cO6_7eyd-a1-m1-cW6 7eyd-a1-m1-cQ1_7eyd-a1-m1-cU1 7eyd-a1-m1-cQ2_7eyd-a1-m1-cU2 7eyd-a1-m1-cQ4_7eyd-a1-m1-cU4 7eyd-a1-m1-cQ5_7eyd-a1-m1-cU5 7eyd-a1-m1-cQ6_7eyd-a1-m1-cU6 7eyd-a1-m1-cQA_7eyd-a1-m1-cUA 7eyd-a1-m1-cS1_7eyd-a1-m1-cY1 7eyd-a1-m1-cS2_7eyd-a1-m1-cY2 7eyd-a1-m1-cS4_7eyd-a1-m1-cY4 7eyd-a1-m1-cS5_7eyd-a1-m1-cY5 7eyd-a1-m1-cS6_7eyd-a1-m1-cY6 7eyd-a1-m1-cSA_7eyd-a1-m1-cYA VKTPITEAIAAADTQGRFLGNTELQSARGRYERAAASLEAARGLTSNAQRLIDGATQAVYQKFPYTTQTPGPQFAADSRGKSKCARDVGHYLRIITYSLVAGGTGPLDEYLIAGLAEINSTFDLSPSWYVEALKHIKANHGLSGQAANEANTYIDYAINALS VKTPITEAIAAADTQGRFLGNTELQSARGRYERAAASLEAARGLTSNAQRLIDGATQAVYQKFPYTTQTPGPQFAADSRGKSKCARDVGHYLRIITYSLVAGGTGPLDEYLIAGLAEINSTFDLSPSWYVEALKHIKANHGLSGQAANEANTYIDYAINALS 7eyd-a1-m1-cV8_7eyd-a1-m1-cr8 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80555 P80555 3.9 ELECTRON MICROSCOPY 16 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 159 159 7eyd-a1-m1-cA8_7eyd-a1-m1-cK9 7eyd-a1-m1-cA9_7eyd-a1-m1-cq9 7eyd-a1-m1-cC8_7eyd-a1-m1-cI9 7eyd-a1-m1-cc8_7eyd-a1-m1-cl8 7eyd-a1-m1-cC9_7eyd-a1-m1-co9 7eyd-a1-m1-ce8_7eyd-a1-m1-cj8 7eyd-a1-m1-cg8_7eyd-a1-m1-cn8 7eyd-a1-m1-cH8_7eyd-a1-m1-cZ9 7eyd-a1-m1-cJ8_7eyd-a1-m1-cX9 7eyd-a1-m1-cO8_7eyd-a1-m1-cw9 7eyd-a1-m1-cQ8_7eyd-a1-m1-cu9 7eyd-a1-m1-cX8_7eyd-a1-m1-cp8 7eyd-a1-m1-cZ8_7eyd-a1-m1-ct8 IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ 7eyd-a1-m1-cX9_7eyd-a1-m1-cg8 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80555 P80555 3.9 ELECTRON MICROSCOPY 15 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 159 159 7eyd-a1-m1-cI9_7eyd-a1-m1-cZ8 IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ 7eyd-a1-m1-cb9_7eyd-a1-m1-cy9 Cryo-EM structure of cyanobacterial phycobilisome from Anabaena sp. PCC 7120 P80555 P80555 3.9 ELECTRON MICROSCOPY 11 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 159 159 7eyd-a1-m1-cE8_7eyd-a1-m1-cE9 7eyd-a1-m1-cG9_7eyd-a1-m1-cf9 7eyd-a1-m1-cG9_7eyd-a1-m1-cs9 7eyd-a1-m1-cL8_7eyd-a1-m1-cS8 7eyd-a1-m1-cP9_7eyd-a1-m1-cb9 IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ IVTKSIVNADAEARYLSPGELDRIKSFVAGGQQRLRIAQALTDNRERLVKQAGDQLFQKRPDVVSPGGNAYGQEMTATCLRDLDYYLRLVTYGIVAGDVTPIEEIGVIGVREMYKSLGTPIEAVGEGVRALKNAASTLLSAEDAAEAGSYFDYVVGALQ 7eyk-a1-m1-cA_7eyk-a1-m2-cA Crystal structure of Escherichia coli ppnP-Selenomethionine derived P0C037 P0C037 1.38 X-RAY DIFFRACTION 105 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 92 92 7eyj-a1-m1-cA_7eyj-a1-m2-cA SLQSNEYFSGKVKSIGFSSSSTGRASVGVVEGEYTFSTAEPEETVISGALNVLLPDATDWQVYEAGSVFNVPGHSEFHLQVAEPTSYLCRYL SLQSNEYFSGKVKSIGFSSSSTGRASVGVVEGEYTFSTAEPEETVISGALNVLLPDATDWQVYEAGSVFNVPGHSEFHLQVAEPTSYLCRYL 7eyl-a1-m1-cA_7eyl-a1-m1-cB Crystal structure of Salmonella enterica ppnP Q8ZRE7 Q8ZRE7 1.2 X-RAY DIFFRACTION 98 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 95 95 SMLQSNEYFSGKVKSIGFTSSSTGRASVGVMAEGEYTFGTAEPEEMTVVSGALKVLLPGTVEWKVYTAGEVFNVPGHSEFHLQVAEPASYLCRYL SMLQSNEYFSGKVKSIGFTSSSTGRASVGVMAEGEYTFGTAEPEEMTVVSGALKVLLPGTVEWKVYTAGEVFNVPGHSEFHLQVAEPASYLCRYL 7eym-a1-m1-cB_7eym-a1-m1-cA Crystal structure of Vibrio cholerae ppnP Q9KKY0 Q9KKY0 1.38 X-RAY DIFFRACTION 87 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 94 96 MIKENVYFDGNVKSLGFSQQDGESTVGVMAPGQYTFGTGAPERMTVVKGALTIKRVTDADWVTFTAGEAFEVAGNSSFDLQVEVATAYLCEFLP SMIKENVYFDGNVKSLGFSQQDGESTVGVMAPGQYTFGTGAPERMTVVKGALTIKRVTDADWVTFTAGEAFEVAGNSSFDLQVEVATAYLCEFLPA 7eyp-a1-m1-cA_7eyp-a1-m1-cB Crystal structure of Pseudomonas aeruginosa ppnP Q9I3E3 Q9I3E3 1.5 X-RAY DIFFRACTION 79 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 94 94 SMFKVNEYFDGTVKSIAFDMTAGPATIGVMAAGEYEFGTSQLEIMHVVAGALTVKLPGSDEWQEYASGSQFTVPANSKFQLKVAQDTAYLCEYR SMFKVNEYFDGTVKSIAFDMTAGPATIGVMAAGEYEFGTSQLEIMHVVAGALTVKLPGSDEWQEYASGSQFTVPANSKFQLKVAQDTAYLCEYR 7eyw-a2-m3-cD_7eyw-a2-m1-cA Fe(II)/(alpha)ketoglutarate-dependent dioxygenase SptF with terretonin C A0A6J4CX17 A0A6J4CX17 2.1 X-RAY DIFFRACTION 115 1.0 5065 (Aspergillus sp.) 5065 (Aspergillus sp.) 252 271 7eyr-a1-m2-cD_7eyr-a1-m1-cC 7eys-a1-m2-cD_7eys-a1-m1-cC 7eys-a2-m1-cA_7eys-a2-m3-cB 7eyt-a1-m1-cB_7eyt-a1-m1-cC 7eyt-a2-m1-cA_7eyt-a2-m1-cD 7eyw-a1-m1-cB_7eyw-a1-m2-cC 7fcb-a1-m1-cC_7fcb-a1-m2-cC PQLHYVPYDTPVEDVMRILKESGTLVIRNFLDQNTVQKVQDEVDPSNLSLMSKTYRCEVLNHPWMHAICERMFGPTYGDYWFNGGAILHLEPGENTQPIHQDHVFYQISKWRRPTDPDLTINFTMALTEFTVENGGTRVCPGSHLWENGHASPAEEDMVPVLMQPGDALILPGSMWHSAGANRTSEYRRGFATSFHPCHFTPIESHHHLPREMVEEMTPLVQKMLGFRTLNLHNNVKVWKAGEGNLEDATGL PQLHYVPYDTPVEDVMRILKESGTLVIRNFLDQNTVQKVQDEVDDYVRNWNPGPKYNHSKTKQPSNLSLMSKTYRCEVLNHPWMHAICERMFGPTYGDYWFNGGAILHLEPGENTQPIHQDHVFYQISKWRRPTDPDLTINFTMALTEFTVENGGTRVCPGSHLWENGHASPAEEDMVPVLMQPGDALILPGSMWHSAGANRTSEYRRGFATSFHPCHFTPIESHHHLPREMVEEMTPLVQKMLGFRTLNLHNNVKVWKAGEGNLEDATGL 7ezc-a1-m1-cA_7ezc-a1-m1-cB Adenosine A2a receptor mutant-I92N P29274 P29274 3.8 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 377 379 IMGSSVYITVELAIAVLAILGNVLVCWAVWLNSNLQNVTNYFVVSLAAADIAVGVLAIPFAITISTGFCAACHGCLFIACFVLVLTQSSNFSLLAIAIDRYIAIRIPLRYNGLVTGTRAKGIIAICWVLSFAIGLTPMLGWNNCGQGCGEGQVACLFEDVVPMNYMVYFNFFACVLVPLLLMLGVYLRIFLAARRQLADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLERARSTLQKEVHAAKSLAIIVGLFALCWLPLHIINCFTFFCPDCSHAPLWLMYLAIVLSHTNSVVNPFIYAYRIREFRQTFRKIIRSHV IMGSSVYITVELAIAVLAILGNVLVCWAVWLNSNLQNVTNYFVVSLAAADIAVGVLAIPFAITISTGFCAACHGCLFIACFVLVLTQSSNFSLLAIAIDRYIAIRIPLRYNGLVTGTRAKGIIAICWVLSFAIGLTPMLGWNNCGQGCGEGQVACLFEDVVPMNYMVYFNFFACVLVPLLLMLGVYLRIFLAARRQLADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLERARSTLQKEVHAAKSLAIIVGLFALCWLPLHIINCFTFFCPDCSHAPLWLMYLAIVLSHTNSVVNPFIYAYRIREFRQTFRKIIRSHVL 7ezj-a3-m1-cd_7ezj-a3-m1-ca Crystal structure of p73 DNA binding domain complex bound with 1 bp and 2 bp spacer DNA response elements. O15350 O15350 2.9 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 199 3vd0-a1-m1-cB_3vd0-a1-m1-cC 3vd0-a1-m1-cD_3vd0-a1-m1-cA 3vd0-a2-m1-cI_3vd0-a2-m1-cL 3vd0-a2-m1-cJ_3vd0-a2-m1-cK 3vd1-a1-m1-cB_3vd1-a1-m1-cC 3vd1-a1-m1-cD_3vd1-a1-m1-cA 3vd1-a2-m1-cI_3vd1-a2-m1-cL 3vd1-a2-m1-cJ_3vd1-a2-m1-cK 4g82-a1-m1-cA_4g82-a1-m2-cA 4g82-a1-m1-cB_4g82-a1-m2-cB 4g83-a1-m1-cA_4g83-a1-m2-cA 4g83-a1-m1-cB_4g83-a1-m2-cB 4guo-a1-m1-cB_4guo-a1-m1-cC 4guo-a1-m1-cD_4guo-a1-m1-cA 4guo-a2-m1-cI_4guo-a2-m1-cL 4guo-a2-m1-cJ_4guo-a2-m1-cK 7ezj-a1-m1-cB_7ezj-a1-m1-cC 7ezj-a1-m1-cD_7ezj-a1-m1-cA 7ezj-a2-m1-cI_7ezj-a2-m1-cL 7ezj-a2-m1-cJ_7ezj-a2-m1-cK 7ezj-a3-m1-cb_7ezj-a3-m1-cc 7ezj-a4-m1-cj_7ezj-a4-m1-ck 7ezj-a4-m1-cl_7ezj-a4-m1-ci EFIPSNTDYPGPHHFEVTFQQSSTAKSATWTYSPLLKKLYCQIAKTCPIQIKVSTPPPPGTAIRAMPVYKKAEHVTDVVKRCPNHELGRDFNEGQSAPASHLIRVEGNNLSQYVDDPVTGRQSVVVPYEPPQVGTEFTTILYNFMCNSSCVGGMNRRPILIIITLEMRDGQVLGRRSFEGRICACPGRDRKADEDHYR EFIPSNTDYPGPHHFEVTFQQSSTAKSATWTYSPLLKKLYCQIAKTCPIQIKVSTPPPPGTAIRAMPVYKKAEHVTDVVKRCPNHELGRDFNEGQSAPASHLIRVEGNNLSQYVDDPVTGRQSVVVPYEPPQVGTEFTTILYNFMCNSSCVGGMNRRPILIIITLEMRDGQVLGRRSFEGRICACPGRDRKADEDHYRE 7ezx-a1-m1-cd4_7ezx-a1-m1-cdD Structure of the phycobilisome from the red alga Porphyridium purpureum in Middle Light A0A5J4Z162 A0A5J4Z162 3.0 ELECTRON MICROSCOPY 29 1.0 35688 (Porphyridium purpureum) 35688 (Porphyridium purpureum) 297 297 ITLSGVAASQPVSAPAKMSLEDRQLLVLQAIKQVFGNAYVMEEERASFAKQESMFLSGELSVREFVRELALSDTYRRRFFEPCGPYRFVELNMKHLLGRGPISQAEVSQHVQCYVNNGYEAEISSYVDSDEYYERFGEDTVPYEQFRGTYMTAEDFNRMVSMYGAPGQSDKSLTSRARSTGVANSNKVLSLEGAGRSSKTVGRVATNTASSLTSVKSGIPPRPDIDQPRGQSSKRLVGRRLEIVPGSYMYLSPAEAAEYRAQQAAVSQVSAAFSADVQSKMAQVSKLKRELAALGLS ITLSGVAASQPVSAPAKMSLEDRQLLVLQAIKQVFGNAYVMEEERASFAKQESMFLSGELSVREFVRELALSDTYRRRFFEPCGPYRFVELNMKHLLGRGPISQAEVSQHVQCYVNNGYEAEISSYVDSDEYYERFGEDTVPYEQFRGTYMTAEDFNRMVSMYGAPGQSDKSLTSRARSTGVANSNKVLSLEGAGRSSKTVGRVATNTASSLTSVKSGIPPRPDIDQPRGQSSKRLVGRRLEIVPGSYMYLSPAEAAEYRAQQAAVSQVSAAFSADVQSKMAQVSKLKRELAALGLS 7ezy-a1-m1-cA_7ezy-a1-m1-cB anti-CRISPR-associated Aca2 1.92 X-RAY DIFFRACTION 71 1.0 264574 (Oceanimonas smirnovii) 264574 (Oceanimonas smirnovii) 124 124 MTHYELQALRKLLMLEVSEAAREIGDVSPRSWQYWESGRSPVPDDVANQIRNLTDMRYQLLELRTEQIEKAGKPIQLNFYRTLDDYEAVTGKRDVVSWRLTQAVAATLFAEGDVTLVEQGGLTL MTHYELQALRKLLMLEVSEAAREIGDVSPRSWQYWESGRSPVPDDVANQIRNLTDMRYQLLELRTEQIEKAGKPIQLNFYRTLDDYEAVTGKRDVVSWRLTQAVAATLFAEGDVTLVEQGGLTL 7f00-a1-m2-cB_7f00-a1-m1-cA Crystal structure of SPD_0310 Q8CZ70 Q8CZ70 2.7 X-RAY DIFFRACTION 54 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 468 477 7f00-a1-m1-cB_7f00-a1-m2-cA QAFSSEQYLNLQRDHILERINQFDGKLYLEFGGKMLEDFHAARVLPGYEPDNKIKLLQELKEQVEVVIAINASNIEHSSYDQEVLRLIDKFNELGIFVGSVVITQYPAADAFRNQLEKNGIDSYLHYPIKGYPTDMDHIISPEGMGKNDYIKTSRNLIVVTAPGPGSGKLATCMSNMYHDQINGIKSGYAKFETFPIWNLPLHHPVNLAYEAATADLDDVNMIDPFHLQTYGETTVNYNRDIEIFPVLKRMLERILGKSPYASPTDMGVNMVGFAITDDEAAVEASKQEIIRRYYQTVLDFKAEKVGEAAVKKIELLMNDLGITPADRKVAVVARQKAEETGGPALAFELPNGEIVTGKNSELFGPTAAALINAIKKSADIAKEPEVVKPIQGLKIDHLGSRNPRLHSNEILIALAITATENPDAARAMEELGNLKGSEAHSTIILTDEDKNVLRKLGINVTFDPYYQ KQAFSSEQYLNLQRDHILERINQFDGKLYLEFGGKMLEDFHAARVLPGYEPDNKIKLLQELKEQVEVVIAINASNIEHSKISYDQEVLRLIDKFNELGIFVGSVVITQYAGQPAADAFRNQLEKNGIDSYLHYPIKGYPTDMDHIISPEGMGKNDYIKTSRNLIVVTAPGPGSGKLATCMSNMYHDQINGIKSGYAKFETFPIWNLPLHHPVNLAYEAATADLDDVNMIDPFHLQTYGETTVNYNRDIEIFPVLKRMLERILGKSPYASPTDMGVNMVGFAITDDEAAVEASKQEIIRRYYQTVLDFKAEKVGEAAVKKIELLMNDLGITPADRKVAVVARQKAEETGGPALAFELPNGEIVTGKNSELFGPTAAALINAIKKSADIAKLIEPEVVKPIQGLKIDHLGSRNPRLHSNEILIALAITATENPDAARAMEELGNLKGSEAHSTIILTDEDKNVLRKLGINVTFDPYYQY 7f00-a1-m2-cB_7f00-a1-m2-cA Crystal structure of SPD_0310 Q8CZ70 Q8CZ70 2.7 X-RAY DIFFRACTION 104 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 468 477 7f00-a1-m1-cB_7f00-a1-m1-cA QAFSSEQYLNLQRDHILERINQFDGKLYLEFGGKMLEDFHAARVLPGYEPDNKIKLLQELKEQVEVVIAINASNIEHSSYDQEVLRLIDKFNELGIFVGSVVITQYPAADAFRNQLEKNGIDSYLHYPIKGYPTDMDHIISPEGMGKNDYIKTSRNLIVVTAPGPGSGKLATCMSNMYHDQINGIKSGYAKFETFPIWNLPLHHPVNLAYEAATADLDDVNMIDPFHLQTYGETTVNYNRDIEIFPVLKRMLERILGKSPYASPTDMGVNMVGFAITDDEAAVEASKQEIIRRYYQTVLDFKAEKVGEAAVKKIELLMNDLGITPADRKVAVVARQKAEETGGPALAFELPNGEIVTGKNSELFGPTAAALINAIKKSADIAKEPEVVKPIQGLKIDHLGSRNPRLHSNEILIALAITATENPDAARAMEELGNLKGSEAHSTIILTDEDKNVLRKLGINVTFDPYYQ KQAFSSEQYLNLQRDHILERINQFDGKLYLEFGGKMLEDFHAARVLPGYEPDNKIKLLQELKEQVEVVIAINASNIEHSKISYDQEVLRLIDKFNELGIFVGSVVITQYAGQPAADAFRNQLEKNGIDSYLHYPIKGYPTDMDHIISPEGMGKNDYIKTSRNLIVVTAPGPGSGKLATCMSNMYHDQINGIKSGYAKFETFPIWNLPLHHPVNLAYEAATADLDDVNMIDPFHLQTYGETTVNYNRDIEIFPVLKRMLERILGKSPYASPTDMGVNMVGFAITDDEAAVEASKQEIIRRYYQTVLDFKAEKVGEAAVKKIELLMNDLGITPADRKVAVVARQKAEETGGPALAFELPNGEIVTGKNSELFGPTAAALINAIKKSADIAKLIEPEVVKPIQGLKIDHLGSRNPRLHSNEILIALAITATENPDAARAMEELGNLKGSEAHSTIILTDEDKNVLRKLGINVTFDPYYQY 7f01-a1-m1-cA_7f01-a1-m1-cC Structure of a triple-helix region of human collagen type XVII 1.63 X-RAY DIFFRACTION 57 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 22 PGPGQRGREGPMGPRGPGPGPG PGPGQRGREGPMGPRGPGPGPG 7f01-a1-m1-cB_7f01-a1-m1-cC Structure of a triple-helix region of human collagen type XVII 1.63 X-RAY DIFFRACTION 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 22 7f01-a1-m1-cA_7f01-a1-m1-cB PGPGQRGREGPMGPRGPGPGPG PGPGQRGREGPMGPRGPGPGPG 7f02-a1-m1-cB_7f02-a1-m1-cF Cytochrome c-type biogenesis protein CcmABCD from E. coli P0ABL8 P0ABL8 3.24 ELECTRON MICROSCOPY 116 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 220 220 7f03-a1-m1-cB_7f03-a1-m1-cF 7f04-a1-m1-cB_7f04-a1-m1-cF 7vfj-a1-m1-cB_7vfj-a1-m1-cF 7vfp-a1-m1-cB_7vfp-a1-m1-cF MMFWRIFRLELRVAFRHSAEIANPLWFFLIVITLFPLSIGPEPQLLARIAPGIIWVAALLSSLLALERLFRDDLQDGSLEQLMLLPLPLPAVVLAKVMAHWMVTGLPLLILSPLVAMLLGMDVYGWQVMALTLLLGTPTLGFLGAPGVALTVGLKRGGVLLSILVLPLTIPLLIFATAAMDAASMHLPVDGYLAILGALLAGTATLSPFATAAALRISIQ MMFWRIFRLELRVAFRHSAEIANPLWFFLIVITLFPLSIGPEPQLLARIAPGIIWVAALLSSLLALERLFRDDLQDGSLEQLMLLPLPLPAVVLAKVMAHWMVTGLPLLILSPLVAMLLGMDVYGWQVMALTLLLGTPTLGFLGAPGVALTVGLKRGGVLLSILVLPLTIPLLIFATAAMDAASMHLPVDGYLAILGALLAGTATLSPFATAAALRISIQ 7f04-a1-m1-cA_7f04-a1-m1-cE Cytochrome c-type biogenesis protein CcmABCD from E. coli in complex with Heme and ATP. P33931 P33931 2.86 ELECTRON MICROSCOPY 64 1.0 469008 (Escherichia coli BL21(DE3)) 469008 (Escherichia coli BL21(DE3)) 202 202 7f02-a1-m1-cA_7f02-a1-m1-cE 7f03-a1-m1-cA_7f03-a1-m1-cE MGMLEARELLCERDERTLFSGLSFTLNAGEWVQITGSNGAGKTTLLRLLTGLSRPDAGEVLWQGQPLHQVRDSYHQNLLWIGHQPGIKTRLTALENLHFYHRDGDTAQCLEALAQAGLAGFEDIPVNQLSAGQQRRVALARLWLTRATLWILDEPFTAIDVNGVDRLTQRMAQHTEQGGIVILTTHQPLNVAESKIRRISLT MGMLEARELLCERDERTLFSGLSFTLNAGEWVQITGSNGAGKTTLLRLLTGLSRPDAGEVLWQGQPLHQVRDSYHQNLLWIGHQPGIKTRLTALENLHFYHRDGDTAQCLEALAQAGLAGFEDIPVNQLSAGQQRRVALARLWLTRATLWILDEPFTAIDVNGVDRLTQRMAQHTEQGGIVILTTHQPLNVAESKIRRISLT 7f09-a2-m1-cD_7f09-a2-m1-cC Crystal structure of the HLH-Lz domain of human TFE3 P19532 P19532 2.6 X-RAY DIFFRACTION 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 65 67 7f09-a1-m1-cB_7f09-a1-m1-cA GFNINDRIKELGTLIPWNKGTILKASVDYIRKLQKEQQRSKDLESRQRSLEQANRSLQLRIQELG GFNINDRIKELGTLIPKRWNKGTILKASVDYIRKLQKEQQRSKDLESRQRSLEQANRSLQLRIQELG 7f0h-a1-m1-cA_7f0h-a1-m1-cB Structural and functional characterization of bovine G1P[5] rotavirus VP8* protein Q8JNB4 Q8JNB4 1.695 X-RAY DIFFRACTION 84 1.0 28875 (Rotavirus A) 28875 (Rotavirus A) 161 161 VLDGPYQPASFDLPVGNWMLLAPTGPGVVVEGTDNSGRWLSVILIEPGVTSETRTYTMFGSSKQVLVSNASDTKWKFVEMMKTAIDGDYAEWGTLLSDTKLYGMMKYRKRLFIYEGETPNATTKRYIVTNYASVEVRPYSDFYIISRSQESACTEYINNGL VLDGPYQPASFDLPVGNWMLLAPTGPGVVVEGTDNSGRWLSVILIEPGVTSETRTYTMFGSSKQVLVSNASDTKWKFVEMMKTAIDGDYAEWGTLLSDTKLYGMMKYRKRLFIYEGETPNATTKRYIVTNYASVEVRPYSDFYIISRSQESACTEYINNGL 7f0j-a1-m1-cF_7f0j-a1-m1-cH CryoEM structure of human Kv4.2 Q9NZV8 Q9NZV8 2.9 ELECTRON MICROSCOPY 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 386 386 1nn7-a1-m1-cA_1nn7-a1-m3-cA 1nn7-a1-m1-cA_1nn7-a1-m4-cA 1nn7-a1-m2-cA_1nn7-a1-m3-cA 1nn7-a1-m2-cA_1nn7-a1-m4-cA 7e87-a1-m1-cA_7e87-a1-m1-cB 7e87-a1-m1-cA_7e87-a1-m1-cC 7e87-a1-m1-cB_7e87-a1-m1-cD 7e87-a1-m1-cC_7e87-a1-m1-cD 7e8b-a1-m1-cA_7e8b-a1-m1-cB 7e8b-a1-m1-cA_7e8b-a1-m1-cD 7e8b-a1-m1-cB_7e8b-a1-m1-cC 7e8b-a1-m1-cC_7e8b-a1-m1-cD 7e8e-a1-m1-cB_7e8e-a1-m1-cA 7e8e-a1-m1-cB_7e8e-a1-m1-cC 7e8e-a1-m1-cD_7e8e-a1-m1-cA 7e8e-a1-m1-cD_7e8e-a1-m1-cC 7e8h-a1-m1-cB_7e8h-a1-m1-cA 7e8h-a1-m1-cB_7e8h-a1-m1-cC 7e8h-a1-m1-cD_7e8h-a1-m1-cA 7e8h-a1-m1-cD_7e8h-a1-m1-cC 7f0j-a1-m1-cB_7f0j-a1-m1-cC 7f0j-a1-m1-cB_7f0j-a1-m1-cH 7f0j-a1-m1-cC_7f0j-a1-m1-cF DALIVLNVSGTRFQTWQDTLERYPDTLLGSSERDFFYHPETQQYFFDRDPDIFRHILNFYRTGKLHYPRHECISAYDEELAFFGLIPEIIGDCCYEEYKDRRRENAERLQDDADTDTAGTARQRVWRAFENPHTSTMALVFYYVTGFFIAVSVIANVVETVPCGSSPGHIKELRYAVAFFCLDTACVMIFTVEYLLRLAAAPSRYRFVRSVMSIIDVVAILPYYIGLVMTDNEDVSGAFVTLRVFRVFRIFKFSRHSQGLRILGYTLKSCASELGFLLFSLTMAIIIFATVMFYAEKGSSASKFTSIPAAFWYTIVTMTTLGYGDMVPKTIAGKIFGSICSLSGVLVIALPVPVIVSNFSRIYHQNQRADKRRAQKKARLARIRAA DALIVLNVSGTRFQTWQDTLERYPDTLLGSSERDFFYHPETQQYFFDRDPDIFRHILNFYRTGKLHYPRHECISAYDEELAFFGLIPEIIGDCCYEEYKDRRRENAERLQDDADTDTAGTARQRVWRAFENPHTSTMALVFYYVTGFFIAVSVIANVVETVPCGSSPGHIKELRYAVAFFCLDTACVMIFTVEYLLRLAAAPSRYRFVRSVMSIIDVVAILPYYIGLVMTDNEDVSGAFVTLRVFRVFRIFKFSRHSQGLRILGYTLKSCASELGFLLFSLTMAIIIFATVMFYAEKGSSASKFTSIPAAFWYTIVTMTTLGYGDMVPKTIAGKIFGSICSLSGVLVIALPVPVIVSNFSRIYHQNQRADKRRAQKKARLARIRAA 7f0k-a1-m1-cB_7f0k-a1-m1-cA Crystal structure of Kmp11 C9ZZD9 C9ZZD9 3.5 X-RAY DIFFRACTION 43 1.0 679716 (Trypanosoma brucei gambiense DAL972) 679716 (Trypanosoma brucei gambiense DAL972) 73 81 TYEEFAAKLDRLDAEFAKKEEQNKRFFADKPDEATLSPEKEHYEKFEKIQEHTDKFNKKREHSEHFKAKFAEL ATTYEEFAAKLDRLDAEFAKKEEQNKRFFADKPDEATLSPEKEHYEKFEKIQEHTDKFNKKREHSEHFKAKFAELLEQQKN 7f10-a1-m1-cA_7f10-a1-m1-cB Crystal structure of NsrQ M128I in complex with substrate analogue 3 A0A2I1C3W8 A0A2I1C3W8 1.65 X-RAY DIFFRACTION 66 0.993 340412 (Aspergillus novofumigatus) 340412 (Aspergillus novofumigatus) 140 140 7f0o-a1-m1-cA_7f0o-a1-m1-cB 7f0y-a1-m1-cA_7f0y-a1-m1-cB 7f0z-a1-m1-cA_7f0z-a1-m1-cB 7f11-a1-m1-cB_7f11-a1-m1-cA MPAPAEVQAATLEKFIQGWAGWTPDGFLANWSEDCTQKTLPFSSGVPLRTRADTEKLFPVLMSLMSNFTLDIHNVVHDAPQGKAVIYALTKADTPFGPYRNEHAIFLWFNEIGDRVQKIEEMFDAVVIQEFLPKLDKYVA PAPAEVQAATLEKFIQGWAGWTPDGFLANWSEDCTQKTLPFSSGVPLRTRADTEKLFPVLMSLMSNFTLDIHNVVHDAPQGKAVIYALTKADTPFGPYRNEHAIFLWFNEIGDRVQKIEEMFDAVVIQEFLPKLDKYVAD 7f13-a1-m1-cB_7f13-a1-m1-cA Crystal structure of isomerase Dcr3 2.15 X-RAY DIFFRACTION 83 1.0 54899 (Diaporthe longicolla) 54899 (Diaporthe longicolla) 148 154 7f14-a1-m1-cA_7f14-a1-m1-cB PAPAHVQRATIDAFLDGWDKWTPEAFLATWSEDCTQKTLPYSHNVPIRDRANTNHLFPILMSIMDNFQLKTHNIVHDAAENKAAVYCSTTADTPFGPYTNEHAIFLWFNEAGDKIVKIEEMFDQFTMKDFAPQLEKYAQFIDKKNARA HHSSGLPAPAHVQRATIDAFLDGWDKWTPEAFLATWSEDCTQKTLPYSHNVPIRDRANTNHLFPILMSIMDNFQLKTHNIVHDAAENKAAVYCSTTADTPFGPYTNEHAIFLWFNEAGDKIVKIEEMFDQFTMKDFAPQLEKYAQFIDKKNARA 7f1m-a1-m8-cB_7f1m-a1-m9-cB Marburg virus nucleoprotein-RNA complex Q1PD53 Q1PD53 3.1 ELECTRON MICROSCOPY 124 1.0 378830 (Lake Victoria marburgvirus - Angola2005) 378830 (Lake Victoria marburgvirus - Angola2005) 394 394 7f1m-a1-m10-cA_7f1m-a1-m11-cA 7f1m-a1-m10-cA_7f1m-a1-m9-cA 7f1m-a1-m10-cB_7f1m-a1-m11-cB 7f1m-a1-m10-cB_7f1m-a1-m9-cB 7f1m-a1-m11-cA_7f1m-a1-m12-cA 7f1m-a1-m11-cB_7f1m-a1-m12-cB 7f1m-a1-m12-cA_7f1m-a1-m13-cA 7f1m-a1-m12-cB_7f1m-a1-m13-cB 7f1m-a1-m13-cA_7f1m-a1-m14-cA 7f1m-a1-m13-cB_7f1m-a1-m14-cB 7f1m-a1-m14-cA_7f1m-a1-m15-cA 7f1m-a1-m14-cB_7f1m-a1-m15-cB 7f1m-a1-m15-cA_7f1m-a1-m16-cA 7f1m-a1-m15-cB_7f1m-a1-m16-cB 7f1m-a1-m16-cA_7f1m-a1-m17-cA 7f1m-a1-m16-cB_7f1m-a1-m17-cB 7f1m-a1-m17-cA_7f1m-a1-m18-cA 7f1m-a1-m17-cB_7f1m-a1-m18-cB 7f1m-a1-m18-cA_7f1m-a1-m19-cA 7f1m-a1-m18-cB_7f1m-a1-m19-cB 7f1m-a1-m19-cA_7f1m-a1-m20-cA 7f1m-a1-m19-cB_7f1m-a1-m20-cB 7f1m-a1-m1-cA_7f1m-a1-m31-cA 7f1m-a1-m1-cA_7f1m-a1-m33-cA 7f1m-a1-m1-cB_7f1m-a1-m31-cB 7f1m-a1-m1-cB_7f1m-a1-m33-cB 7f1m-a1-m20-cA_7f1m-a1-m21-cA 7f1m-a1-m20-cB_7f1m-a1-m21-cB 7f1m-a1-m21-cA_7f1m-a1-m22-cA 7f1m-a1-m21-cB_7f1m-a1-m22-cB 7f1m-a1-m22-cA_7f1m-a1-m23-cA 7f1m-a1-m22-cB_7f1m-a1-m23-cB 7f1m-a1-m23-cA_7f1m-a1-m24-cA 7f1m-a1-m23-cB_7f1m-a1-m24-cB 7f1m-a1-m24-cA_7f1m-a1-m25-cA 7f1m-a1-m24-cB_7f1m-a1-m25-cB 7f1m-a1-m25-cA_7f1m-a1-m26-cA 7f1m-a1-m25-cB_7f1m-a1-m26-cB 7f1m-a1-m26-cA_7f1m-a1-m27-cA 7f1m-a1-m26-cB_7f1m-a1-m27-cB 7f1m-a1-m27-cA_7f1m-a1-m28-cA 7f1m-a1-m27-cB_7f1m-a1-m28-cB 7f1m-a1-m28-cA_7f1m-a1-m29-cA 7f1m-a1-m28-cB_7f1m-a1-m29-cB 7f1m-a1-m29-cA_7f1m-a1-m30-cA 7f1m-a1-m29-cB_7f1m-a1-m30-cB 7f1m-a1-m2-cA_7f1m-a1-m3-cA 7f1m-a1-m2-cB_7f1m-a1-m3-cB 7f1m-a1-m30-cA_7f1m-a1-m31-cA 7f1m-a1-m30-cB_7f1m-a1-m31-cB 7f1m-a1-m33-cA_7f1m-a1-m34-cA 7f1m-a1-m33-cB_7f1m-a1-m34-cB 7f1m-a1-m34-cA_7f1m-a1-m35-cA 7f1m-a1-m34-cB_7f1m-a1-m35-cB 7f1m-a1-m35-cA_7f1m-a1-m36-cA 7f1m-a1-m35-cB_7f1m-a1-m36-cB 7f1m-a1-m36-cA_7f1m-a1-m37-cA 7f1m-a1-m36-cB_7f1m-a1-m37-cB 7f1m-a1-m37-cA_7f1m-a1-m38-cA 7f1m-a1-m37-cB_7f1m-a1-m38-cB 7f1m-a1-m38-cA_7f1m-a1-m39-cA 7f1m-a1-m38-cB_7f1m-a1-m39-cB 7f1m-a1-m39-cA_7f1m-a1-m40-cA 7f1m-a1-m39-cB_7f1m-a1-m40-cB 7f1m-a1-m3-cA_7f1m-a1-m4-cA 7f1m-a1-m3-cB_7f1m-a1-m4-cB 7f1m-a1-m40-cA_7f1m-a1-m41-cA 7f1m-a1-m40-cB_7f1m-a1-m41-cB 7f1m-a1-m41-cA_7f1m-a1-m42-cA 7f1m-a1-m41-cB_7f1m-a1-m42-cB 7f1m-a1-m42-cA_7f1m-a1-m43-cA 7f1m-a1-m42-cB_7f1m-a1-m43-cB 7f1m-a1-m43-cA_7f1m-a1-m44-cA 7f1m-a1-m43-cB_7f1m-a1-m44-cB 7f1m-a1-m44-cA_7f1m-a1-m45-cA 7f1m-a1-m44-cB_7f1m-a1-m45-cB 7f1m-a1-m45-cA_7f1m-a1-m46-cA 7f1m-a1-m45-cB_7f1m-a1-m46-cB 7f1m-a1-m46-cA_7f1m-a1-m47-cA 7f1m-a1-m46-cB_7f1m-a1-m47-cB 7f1m-a1-m47-cA_7f1m-a1-m48-cA 7f1m-a1-m47-cB_7f1m-a1-m48-cB 7f1m-a1-m48-cA_7f1m-a1-m49-cA 7f1m-a1-m48-cB_7f1m-a1-m49-cB 7f1m-a1-m49-cA_7f1m-a1-m50-cA 7f1m-a1-m49-cB_7f1m-a1-m50-cB 7f1m-a1-m4-cA_7f1m-a1-m5-cA 7f1m-a1-m4-cB_7f1m-a1-m5-cB 7f1m-a1-m50-cA_7f1m-a1-m51-cA 7f1m-a1-m50-cB_7f1m-a1-m51-cB 7f1m-a1-m51-cA_7f1m-a1-m52-cA 7f1m-a1-m51-cB_7f1m-a1-m52-cB 7f1m-a1-m52-cA_7f1m-a1-m53-cA 7f1m-a1-m52-cB_7f1m-a1-m53-cB 7f1m-a1-m53-cA_7f1m-a1-m54-cA 7f1m-a1-m53-cB_7f1m-a1-m54-cB 7f1m-a1-m54-cA_7f1m-a1-m55-cA 7f1m-a1-m54-cB_7f1m-a1-m55-cB 7f1m-a1-m55-cA_7f1m-a1-m56-cA 7f1m-a1-m55-cB_7f1m-a1-m56-cB 7f1m-a1-m56-cA_7f1m-a1-m57-cA 7f1m-a1-m56-cB_7f1m-a1-m57-cB 7f1m-a1-m57-cA_7f1m-a1-m58-cA 7f1m-a1-m57-cB_7f1m-a1-m58-cB 7f1m-a1-m58-cA_7f1m-a1-m59-cA 7f1m-a1-m58-cB_7f1m-a1-m59-cB 7f1m-a1-m59-cA_7f1m-a1-m60-cA 7f1m-a1-m59-cB_7f1m-a1-m60-cB 7f1m-a1-m5-cA_7f1m-a1-m6-cA 7f1m-a1-m5-cB_7f1m-a1-m6-cB 7f1m-a1-m60-cA_7f1m-a1-m61-cA 7f1m-a1-m60-cB_7f1m-a1-m61-cB 7f1m-a1-m61-cA_7f1m-a1-m62-cA 7f1m-a1-m61-cB_7f1m-a1-m62-cB 7f1m-a1-m62-cA_7f1m-a1-m63-cA 7f1m-a1-m62-cB_7f1m-a1-m63-cB 7f1m-a1-m6-cA_7f1m-a1-m7-cA 7f1m-a1-m6-cB_7f1m-a1-m7-cB 7f1m-a1-m7-cA_7f1m-a1-m8-cA 7f1m-a1-m7-cB_7f1m-a1-m8-cB 7f1m-a1-m8-cA_7f1m-a1-m9-cA MDLHSLLELGTKPTAPHVRNKKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLESTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIYQGVNLVTGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLAGVNVGEQYQQLREAAYDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITHSQTLAVLSQKREKLARLAAEIENN MDLHSLLELGTKPTAPHVRNKKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLESTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIYQGVNLVTGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLAGVNVGEQYQQLREAAYDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITHSQTLAVLSQKREKLARLAAEIENN 7f1m-a1-m9-cA_7f1m-a1-m9-cB Marburg virus nucleoprotein-RNA complex Q1PD53 Q1PD53 3.1 ELECTRON MICROSCOPY 12 1.0 378830 (Lake Victoria marburgvirus - Angola2005) 378830 (Lake Victoria marburgvirus - Angola2005) 394 394 7f1m-a1-m10-cA_7f1m-a1-m10-cB 7f1m-a1-m11-cA_7f1m-a1-m11-cB 7f1m-a1-m12-cA_7f1m-a1-m12-cB 7f1m-a1-m13-cA_7f1m-a1-m13-cB 7f1m-a1-m14-cA_7f1m-a1-m14-cB 7f1m-a1-m15-cA_7f1m-a1-m15-cB 7f1m-a1-m16-cA_7f1m-a1-m16-cB 7f1m-a1-m17-cA_7f1m-a1-m17-cB 7f1m-a1-m18-cA_7f1m-a1-m18-cB 7f1m-a1-m19-cA_7f1m-a1-m19-cB 7f1m-a1-m1-cA_7f1m-a1-m1-cB 7f1m-a1-m20-cA_7f1m-a1-m20-cB 7f1m-a1-m21-cA_7f1m-a1-m21-cB 7f1m-a1-m22-cA_7f1m-a1-m22-cB 7f1m-a1-m23-cA_7f1m-a1-m23-cB 7f1m-a1-m24-cA_7f1m-a1-m24-cB 7f1m-a1-m25-cA_7f1m-a1-m25-cB 7f1m-a1-m26-cA_7f1m-a1-m26-cB 7f1m-a1-m27-cA_7f1m-a1-m27-cB 7f1m-a1-m28-cA_7f1m-a1-m28-cB 7f1m-a1-m29-cA_7f1m-a1-m29-cB 7f1m-a1-m2-cA_7f1m-a1-m2-cB 7f1m-a1-m30-cA_7f1m-a1-m30-cB 7f1m-a1-m31-cA_7f1m-a1-m31-cB 7f1m-a1-m33-cA_7f1m-a1-m33-cB 7f1m-a1-m34-cA_7f1m-a1-m34-cB 7f1m-a1-m35-cA_7f1m-a1-m35-cB 7f1m-a1-m36-cA_7f1m-a1-m36-cB 7f1m-a1-m37-cA_7f1m-a1-m37-cB 7f1m-a1-m38-cA_7f1m-a1-m38-cB 7f1m-a1-m39-cA_7f1m-a1-m39-cB 7f1m-a1-m3-cA_7f1m-a1-m3-cB 7f1m-a1-m40-cA_7f1m-a1-m40-cB 7f1m-a1-m41-cA_7f1m-a1-m41-cB 7f1m-a1-m42-cA_7f1m-a1-m42-cB 7f1m-a1-m43-cA_7f1m-a1-m43-cB 7f1m-a1-m44-cA_7f1m-a1-m44-cB 7f1m-a1-m45-cA_7f1m-a1-m45-cB 7f1m-a1-m46-cA_7f1m-a1-m46-cB 7f1m-a1-m47-cA_7f1m-a1-m47-cB 7f1m-a1-m48-cA_7f1m-a1-m48-cB 7f1m-a1-m49-cA_7f1m-a1-m49-cB 7f1m-a1-m4-cA_7f1m-a1-m4-cB 7f1m-a1-m50-cA_7f1m-a1-m50-cB 7f1m-a1-m51-cA_7f1m-a1-m51-cB 7f1m-a1-m52-cA_7f1m-a1-m52-cB 7f1m-a1-m53-cA_7f1m-a1-m53-cB 7f1m-a1-m54-cA_7f1m-a1-m54-cB 7f1m-a1-m55-cA_7f1m-a1-m55-cB 7f1m-a1-m56-cA_7f1m-a1-m56-cB 7f1m-a1-m57-cA_7f1m-a1-m57-cB 7f1m-a1-m58-cA_7f1m-a1-m58-cB 7f1m-a1-m59-cA_7f1m-a1-m59-cB 7f1m-a1-m5-cA_7f1m-a1-m5-cB 7f1m-a1-m60-cA_7f1m-a1-m60-cB 7f1m-a1-m61-cA_7f1m-a1-m61-cB 7f1m-a1-m62-cA_7f1m-a1-m62-cB 7f1m-a1-m63-cA_7f1m-a1-m63-cB 7f1m-a1-m6-cA_7f1m-a1-m6-cB 7f1m-a1-m7-cA_7f1m-a1-m7-cB 7f1m-a1-m8-cA_7f1m-a1-m8-cB MDLHSLLELGTKPTAPHVRNKKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLESTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIYQGVNLVTGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLAGVNVGEQYQQLREAAYDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITHSQTLAVLSQKREKLARLAAEIENN MDLHSLLELGTKPTAPHVRNKKVILFDTNHQVSICNQIIDAINSGIDLGDLLEGGLLTLCVEHYYNSDKDKFNTSPIAKYLRDAGYEFDVIKNADATRFLDVIPNEPHYSPLILALKTLESTESQRGRIGLFLSFCSLFLPKLVVGDRASIEKALRQVTVHQEQGIVTYPNHWLTTGHMKVIFGILRSSFILKFVLIYQGVNLVTGHDAYDSIISNSVGQTRFSGLLIVKTVLEFILQKTDSGVTLHPLVRTSKVKNEVASFKQALSNLARHGEYAPFARVLNLSGINNLEHGLYPQLSAIALGVATAHGSTLAGVNVGEQYQQLREAAYDAEVKLQRRHEHQEIQAIAEDDEERKILEQFHLQKTEITHSQTLAVLSQKREKLARLAAEIENN 7f1n-a1-m1-cA_7f1n-a1-m1-cB Beta-Glucosidase A0A256XQM7 A0A256XQM7 2.14 X-RAY DIFFRACTION 32 0.996 2012527 (Thermofilum sp. ex4484_79) 2012527 (Thermofilum sp. ex4484_79) 502 502 MPFPEKFFWGASSSGFQFEMGDPEGKSIDPNTDWFKWVHDETNIRRGVVSGDLPEHGINYWDLFRSDHELAASIGMNAYRIGIEWSRIFPKPTLDVRVGIELDPEGYITRVEVDDKAIEELDLLANKEAVSRYREIILDLRDRGLKVFVCLNHFTLPLWIHDPIACRDTKLKRGPKGWVDKTTILEFAKYSAYMAWSLGNIVDYWVTFNEPMVVTEAGYFQPEVGFPPGLRNISAFKTACLNIANAHVVAYDLIKKYDKVRADDDSPSAAYVGIVHNIVPIKPYSERKLDLKAADLMNYIHNKWILEFIVRGKIDRSLVGREKYLIDKFKDKLDWLGVNYYTRIVLKGKWVPVIPDIVKGYGFNCTPGGRSLDGMPVSDFGWEVYPQGLSDALDIASEYGKPLIVTENGIADSEDNIRPYFLVSHLKVLEEYVEKKKNVYGYLHWALTDNYEWAQGFKMRFGLTDVDLETKERKPRESSEVFKIIASEKTVPEELVEKYPKP PFPEKFFWGASSSGFQFEMGDPEGKSIDPNTDWFKWVHDETNIRRGVVSGDLPEHGINYWDLFRSDHELAASIGMNAYRIGIEWSRIFPKPTLDVRVGIELDPEGYITRVEVDDKAIEELDLLANKEAVSRYREIILDLRDRGLKVFVCLNHFTLPLWIHDPIACRDTKLKRGPKGWVDKTTILEFAKYSAYMAWSLGNIVDYWVTFNEPMVVTEAGYFQPEVGFPPGLRNISAFKTACLNIANAHVVAYDLIKKYDKVRADDDSPSAAYVGIVHNIVPIKPYSERKLDLKAADLMNYIHNKWILEFIVRGKIDRSLVGREKYLIDKFKDKLDWLGVNYYTRIVLKGKWVVIPDIVKGYGFNCTPGGRSLDGMPVSDFGWEVYPQGLSDALDIASEYGKPLIVTENGIADSEDNIRPYFLVSHLKVLEEYVEKKKNVYGYLHWALTDNYEWAQGFKMRFGLTDVDLETKERKPRESSEVFKIIASEKTVPEELVEKYPKPIF 7f1y-a1-m1-cA_7f1y-a1-m1-cB L-lactate oxidase without substrate Q44467 Q44467 1.33 X-RAY DIFFRACTION 45 1.0 1377 (Aerococcus viridans) 1377 (Aerococcus viridans) 352 368 2nli-a1-m1-cB_2nli-a1-m1-cA 2nli-a1-m2-cB_2nli-a1-m2-cA 2nli-a1-m3-cB_2nli-a1-m3-cA 2nli-a1-m4-cB_2nli-a1-m4-cA 2zfa-a1-m1-cB_2zfa-a1-m1-cA 2zfa-a1-m2-cB_2zfa-a1-m2-cA 2zfa-a1-m3-cB_2zfa-a1-m3-cA 2zfa-a1-m4-cB_2zfa-a1-m4-cA 7f20-a1-m1-cA_7f20-a1-m1-cB 7f21-a1-m1-cA_7f21-a1-m1-cB 7f22-a1-m1-cA_7f22-a1-m1-cB EYNAPSEIKYIDVVNTYDLEEEASKVVPHGGFNYIAGASGDEWTKRANDRAWKHKLLYPRLAQDVEAPDTSTEILGHKIKAPFIMAPIAAHGLAHTTKEAGTARAVSEFGTIMSISAYSGATFEEISEGLNGGPRWFQIYMAKDDQQNRDILDEAKSDGATAIILTADSTNRDYPFGMPIVQRYLRGTAEGMYGASKQKISPRDIEEIAAHSGLPVFVKGIQHPEDADMAIKRGASGIWVSNHGARQLYEAPGSFDTLPAIAERVNKRVPIVFDSGVRRGEHVAKALASGADVVALGRPVLFGLALGGWQGAYSVLDYFQKDLTRVMQLTGSQNVEDLKGLDLFDNPYGYEY EYNAPSEIKYIDVVNTYDLEEEASKVVPHGGFNYIAGASGDEWTKRANDRAWKHKLLYPRLAQDVEAPDTSTEILGHKIKAPFIMAPIAAHGLAHTTKEAGTARAVSEFGTIMSISAYSGATFEEISEGLNGGPRWFQIYMAKDDQQNRDILDEAKSDGATAIILTADSTVSGNRDRDVKNKFVYPFGMPIVQRYLRGTAEGMSLNNIYGASKQKISPRDIEEIAAHSGLPVFVKGIQHPEDADMAIKRGASGIWVSNHGARQLYEAPGSFDTLPAIAERVNKRVPIVFDSGVRRGEHVAKALASGADVVALGRPVLFGLALGGWQGAYSVLDYFQKDLTRVMQLTGSQNVEDLKGLDLFDNPYGYEY 7f25-a1-m1-cA_7f25-a1-m1-cB Crystal structure of SSB from Salmonella enterica serovar Typhimurium LT2. P0A2F6 P0A2F6 2.87 X-RAY DIFFRACTION 80 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 106 106 SRGVNKVILVGNLGQDPEVRYMGGAVANLTLATSESWRDMKEQTEWHRVVMFGKLAEVAGEYLRKGSQVYIEGQLRTRKWTDQSGQERYTTEINVPQIGGVMQMLG SRGVNKVILVGNLGQDPEVRYMGGAVANLTLATSESWRDMKEQTEWHRVVMFGKLAEVAGEYLRKGSQVYIEGQLRTRKWTDQSGQERYTTEINVPQIGGVMQMLG 7f27-a2-m1-cC_7f27-a2-m1-cD Crystal structure of polyketide ketosynthase A0A7U3XWE2 A0A7U3XWE2 1.806 X-RAY DIFFRACTION 212 1.0 405416 (Acinetobacter baumannii ACICU) 405416 (Acinetobacter baumannii ACICU) 404 408 7f27-a1-m1-cA_7f27-a1-m1-cB MKRVVVTGMAGITSLGETADDIFARFEAGKSGIRYMPEWEQYVDLRTKLAGPVETFHIPKHFNRKVTRGMGRVALMSVVCAETALQNAGLLGHEILSSGEAGVAFGSSAGSVDAVGEFASMLLHKINATTYIRMMAHTSAVNMTVYFGLKGLTLPTSSACTSGSMAIGQAYEAIKYGKQQVMIAGGAEELSAAGAAVFDVLFATSGMNDQPEKTPRPFDAKRDGLVIGEGAGCLILEEYEHAKARGAHIYAEVIGYGSNTDGQHVTRPESEMMGRCMELALKDASVEAKDIAYVNAHGTSTDQGDVAESQATAKVLGYKPISSLKSYFGHTLGACGAIEAWLSIEMMNRGRFIPTLNLDEIDSLCGELDYIVQQPRNLDADIIMSNNFAFGGINTSLIFKRVKQ MKRVVVTGMAGITSLGETADDIFARFEAGKSGIRYMPEWEQYVDLRTKLAGPVETFHIPKHFNRKVTRGMGRVALMSVVCAETALQNAGLLGHEILSSGEAGVAFGSSAGSVDAVGEFASMLLHQSMSKINATTYIRMMAHTSAVNMTVYFGLKGLTLPTSSACTSGSMAIGQAYEAIKYGKQQVMIAGGAEELSAAGAAVFDVLFATSGMNDQPEKTPRPFDAKRDGLVIGEGAGCLILEEYEHAKARGAHIYAEVIGYGSNTDGQHVTRPESEMMGRCMELALKDASVEAKDIAYVNAHGTSTDQGDVAESQATAKVLGYKPISSLKSYFGHTLGACGAIEAWLSIEMMNRGRFIPTLNLDEIDSLCGELDYIVQQPRNLDADIIMSNNFAFGGINTSLIFKRVKQ 7f2f-a1-m1-cA_7f2f-a1-m1-cB The complex of DNA with the C-terminal domain of TYE7 from Saccharomyces cerevisiae. P33122 P33122 2.55 X-RAY DIFFRACTION 85 0.989 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 90 94 LTPFQKQAHNKIEKRYRININTKIARLQQIIPWVASEQTAFEVGDSTKLNKSMILEKAVDYILYLQNNERLYEMEVQRLKSEIDTLKQDQ LTPFQKQAHNKIEKRYRININTKIARLQQIIPWVASEQTAFEVGSTKLNKSMILEKAVDYILYLQNNERLYEMEVQRLKSEIDTLKQDQKLEHH 7f2j-a1-m1-cB_7f2j-a1-m1-cA Crystal structure of AtFKBP53 FKBD in complex with rapamycin Q93ZG9 Q93ZG9 1.6 X-RAY DIFFRACTION 20 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 116 117 QVRTYPNGLIVEELSMGKPNGKRADPGKTVSVRYIGKLQKNGKIFDSNIGKSPFKFRLGIGSVIKGWDVGVNGMRVGDKRKLTIPPSMGYGVKGAGGQIPPNSWLTFDVELINVQL SQVRTYPNGLIVEELSMGKPNGKRADPGKTVSVRYIGKLQKNGKIFDSNIGKSPFKFRLGIGSVIKGWDVGVNGMRVGDKRKLTIPPSMGYGVKGAGGQIPPNSWLTFDVELINVQL 7f2p-a1-m8-ci_7f2p-a1-m9-ci The head structure of Helicobacter pylori bacteriophage KHP40 I7HFY0 I7HFY0 3.0 ELECTRON MICROSCOPY 157 1.0 1204178 (Helicobacter phage KHP40) 1204178 (Helicobacter phage KHP40) 367 367 7dn2-a1-m10-ci_7dn2-a1-m6-ci 7dn2-a1-m10-ci_7dn2-a1-m9-ci 7dn2-a1-m11-ci_7dn2-a1-m12-ci 7dn2-a1-m11-ci_7dn2-a1-m15-ci 7dn2-a1-m12-ci_7dn2-a1-m13-ci 7dn2-a1-m13-ci_7dn2-a1-m14-ci 7dn2-a1-m14-ci_7dn2-a1-m15-ci 7dn2-a1-m16-ci_7dn2-a1-m17-ci 7dn2-a1-m16-ci_7dn2-a1-m20-ci 7dn2-a1-m17-ci_7dn2-a1-m18-ci 7dn2-a1-m18-ci_7dn2-a1-m19-ci 7dn2-a1-m19-ci_7dn2-a1-m20-ci 7dn2-a1-m1-ci_7dn2-a1-m2-ci 7dn2-a1-m1-ci_7dn2-a1-m5-ci 7dn2-a1-m21-ci_7dn2-a1-m22-ci 7dn2-a1-m21-ci_7dn2-a1-m25-ci 7dn2-a1-m22-ci_7dn2-a1-m23-ci 7dn2-a1-m23-ci_7dn2-a1-m24-ci 7dn2-a1-m24-ci_7dn2-a1-m25-ci 7dn2-a1-m26-ci_7dn2-a1-m27-ci 7dn2-a1-m26-ci_7dn2-a1-m30-ci 7dn2-a1-m27-ci_7dn2-a1-m28-ci 7dn2-a1-m28-ci_7dn2-a1-m29-ci 7dn2-a1-m29-ci_7dn2-a1-m30-ci 7dn2-a1-m2-ci_7dn2-a1-m3-ci 7dn2-a1-m31-ci_7dn2-a1-m32-ci 7dn2-a1-m31-ci_7dn2-a1-m35-ci 7dn2-a1-m32-ci_7dn2-a1-m33-ci 7dn2-a1-m33-ci_7dn2-a1-m34-ci 7dn2-a1-m34-ci_7dn2-a1-m35-ci 7dn2-a1-m36-ci_7dn2-a1-m37-ci 7dn2-a1-m36-ci_7dn2-a1-m40-ci 7dn2-a1-m37-ci_7dn2-a1-m38-ci 7dn2-a1-m38-ci_7dn2-a1-m39-ci 7dn2-a1-m39-ci_7dn2-a1-m40-ci 7dn2-a1-m3-ci_7dn2-a1-m4-ci 7dn2-a1-m41-ci_7dn2-a1-m42-ci 7dn2-a1-m41-ci_7dn2-a1-m45-ci 7dn2-a1-m42-ci_7dn2-a1-m43-ci 7dn2-a1-m43-ci_7dn2-a1-m44-ci 7dn2-a1-m44-ci_7dn2-a1-m45-ci 7dn2-a1-m46-ci_7dn2-a1-m47-ci 7dn2-a1-m46-ci_7dn2-a1-m50-ci 7dn2-a1-m47-ci_7dn2-a1-m48-ci 7dn2-a1-m48-ci_7dn2-a1-m49-ci 7dn2-a1-m49-ci_7dn2-a1-m50-ci 7dn2-a1-m4-ci_7dn2-a1-m5-ci 7dn2-a1-m51-ci_7dn2-a1-m52-ci 7dn2-a1-m51-ci_7dn2-a1-m55-ci 7dn2-a1-m52-ci_7dn2-a1-m53-ci 7dn2-a1-m53-ci_7dn2-a1-m54-ci 7dn2-a1-m54-ci_7dn2-a1-m55-ci 7dn2-a1-m56-ci_7dn2-a1-m57-ci 7dn2-a1-m56-ci_7dn2-a1-m60-ci 7dn2-a1-m57-ci_7dn2-a1-m58-ci 7dn2-a1-m58-ci_7dn2-a1-m59-ci 7dn2-a1-m59-ci_7dn2-a1-m60-ci 7dn2-a1-m6-ci_7dn2-a1-m7-ci 7dn2-a1-m7-ci_7dn2-a1-m8-ci 7dn2-a1-m8-ci_7dn2-a1-m9-ci 7f2p-a1-m10-ci_7f2p-a1-m6-ci 7f2p-a1-m10-ci_7f2p-a1-m9-ci 7f2p-a1-m11-ci_7f2p-a1-m12-ci 7f2p-a1-m11-ci_7f2p-a1-m15-ci 7f2p-a1-m12-ci_7f2p-a1-m13-ci 7f2p-a1-m13-ci_7f2p-a1-m14-ci 7f2p-a1-m14-ci_7f2p-a1-m15-ci 7f2p-a1-m16-ci_7f2p-a1-m17-ci 7f2p-a1-m16-ci_7f2p-a1-m20-ci 7f2p-a1-m17-ci_7f2p-a1-m18-ci 7f2p-a1-m18-ci_7f2p-a1-m19-ci 7f2p-a1-m19-ci_7f2p-a1-m20-ci 7f2p-a1-m1-ci_7f2p-a1-m2-ci 7f2p-a1-m1-ci_7f2p-a1-m5-ci 7f2p-a1-m21-ci_7f2p-a1-m22-ci 7f2p-a1-m21-ci_7f2p-a1-m25-ci 7f2p-a1-m22-ci_7f2p-a1-m23-ci 7f2p-a1-m23-ci_7f2p-a1-m24-ci 7f2p-a1-m24-ci_7f2p-a1-m25-ci 7f2p-a1-m26-ci_7f2p-a1-m27-ci 7f2p-a1-m26-ci_7f2p-a1-m30-ci 7f2p-a1-m27-ci_7f2p-a1-m28-ci 7f2p-a1-m28-ci_7f2p-a1-m29-ci 7f2p-a1-m29-ci_7f2p-a1-m30-ci 7f2p-a1-m2-ci_7f2p-a1-m3-ci 7f2p-a1-m31-ci_7f2p-a1-m32-ci 7f2p-a1-m31-ci_7f2p-a1-m35-ci 7f2p-a1-m32-ci_7f2p-a1-m33-ci 7f2p-a1-m33-ci_7f2p-a1-m34-ci 7f2p-a1-m34-ci_7f2p-a1-m35-ci 7f2p-a1-m36-ci_7f2p-a1-m37-ci 7f2p-a1-m36-ci_7f2p-a1-m40-ci 7f2p-a1-m37-ci_7f2p-a1-m38-ci 7f2p-a1-m38-ci_7f2p-a1-m39-ci 7f2p-a1-m39-ci_7f2p-a1-m40-ci 7f2p-a1-m3-ci_7f2p-a1-m4-ci 7f2p-a1-m41-ci_7f2p-a1-m42-ci 7f2p-a1-m41-ci_7f2p-a1-m45-ci 7f2p-a1-m42-ci_7f2p-a1-m43-ci 7f2p-a1-m43-ci_7f2p-a1-m44-ci 7f2p-a1-m44-ci_7f2p-a1-m45-ci 7f2p-a1-m46-ci_7f2p-a1-m47-ci 7f2p-a1-m46-ci_7f2p-a1-m50-ci 7f2p-a1-m47-ci_7f2p-a1-m48-ci 7f2p-a1-m48-ci_7f2p-a1-m49-ci 7f2p-a1-m49-ci_7f2p-a1-m50-ci 7f2p-a1-m4-ci_7f2p-a1-m5-ci 7f2p-a1-m51-ci_7f2p-a1-m52-ci 7f2p-a1-m51-ci_7f2p-a1-m55-ci 7f2p-a1-m52-ci_7f2p-a1-m53-ci 7f2p-a1-m53-ci_7f2p-a1-m54-ci 7f2p-a1-m54-ci_7f2p-a1-m55-ci 7f2p-a1-m56-ci_7f2p-a1-m57-ci 7f2p-a1-m56-ci_7f2p-a1-m60-ci 7f2p-a1-m57-ci_7f2p-a1-m58-ci 7f2p-a1-m58-ci_7f2p-a1-m59-ci 7f2p-a1-m59-ci_7f2p-a1-m60-ci 7f2p-a1-m6-ci_7f2p-a1-m7-ci 7f2p-a1-m7-ci_7f2p-a1-m8-ci MLEKLNNINFNNISNNPNLGIEVGREIQNASWVKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLTGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYNAAMNVATIRKAIFHARNGLKADNSKAFPIKPIRATMQSVGNVVVQNTSYIILLDSYQANQLKADSEFKELRKLYKGMLYSGLLGVIDNCPVIDAGVWNKLNVGMPNSSISDSDFTRYLNKANVSNIVTPMQLKEKLNQENKDISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSNME MLEKLNNINFNNISNNPNLGIEVGREIQNASWVKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLTGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYNAAMNVATIRKAIFHARNGLKADNSKAFPIKPIRATMQSVGNVVVQNTSYIILLDSYQANQLKADSEFKELRKLYKGMLYSGLLGVIDNCPVIDAGVWNKLNVGMPNSSISDSDFTRYLNKANVSNIVTPMQLKEKLNQENKDISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSNME 7f2p-a1-m9-c8_7f2p-a1-m9-c9 The head structure of Helicobacter pylori bacteriophage KHP40 I7GUT5 I7GUT5 3.0 ELECTRON MICROSCOPY 49 1.0 1204178 (Helicobacter phage KHP40) 1204178 (Helicobacter phage KHP40) 124 124 7dou-a1-m1-c4_7dou-a1-m1-c5 7dou-a1-m1-c4_7dou-a1-m1-c6 7dou-a1-m1-c5_7dou-a1-m1-c6 7f2p-a1-m10-c1_7f2p-a1-m10-c2 7f2p-a1-m10-c1_7f2p-a1-m10-c3 7f2p-a1-m10-c2_7f2p-a1-m10-c3 7f2p-a1-m10-c4_7f2p-a1-m10-c5 7f2p-a1-m10-c4_7f2p-a1-m10-c6 7f2p-a1-m10-c5_7f2p-a1-m10-c6 7f2p-a1-m10-c7_7f2p-a1-m10-c8 7f2p-a1-m10-c7_7f2p-a1-m10-c9 7f2p-a1-m10-c8_7f2p-a1-m10-c9 7f2p-a1-m11-c1_7f2p-a1-m11-c2 7f2p-a1-m11-c1_7f2p-a1-m11-c3 7f2p-a1-m11-c2_7f2p-a1-m11-c3 7f2p-a1-m11-c4_7f2p-a1-m11-c5 7f2p-a1-m11-c4_7f2p-a1-m11-c6 7f2p-a1-m11-c5_7f2p-a1-m11-c6 7f2p-a1-m11-c7_7f2p-a1-m11-c8 7f2p-a1-m11-c7_7f2p-a1-m11-c9 7f2p-a1-m11-c8_7f2p-a1-m11-c9 7f2p-a1-m12-c1_7f2p-a1-m12-c2 7f2p-a1-m12-c1_7f2p-a1-m12-c3 7f2p-a1-m12-c2_7f2p-a1-m12-c3 7f2p-a1-m12-c4_7f2p-a1-m12-c5 7f2p-a1-m12-c4_7f2p-a1-m12-c6 7f2p-a1-m12-c5_7f2p-a1-m12-c6 7f2p-a1-m12-c7_7f2p-a1-m12-c8 7f2p-a1-m12-c7_7f2p-a1-m12-c9 7f2p-a1-m12-c8_7f2p-a1-m12-c9 7f2p-a1-m13-c1_7f2p-a1-m13-c2 7f2p-a1-m13-c1_7f2p-a1-m13-c3 7f2p-a1-m13-c2_7f2p-a1-m13-c3 7f2p-a1-m13-c4_7f2p-a1-m13-c5 7f2p-a1-m13-c4_7f2p-a1-m13-c6 7f2p-a1-m13-c5_7f2p-a1-m13-c6 7f2p-a1-m13-c7_7f2p-a1-m13-c8 7f2p-a1-m13-c7_7f2p-a1-m13-c9 7f2p-a1-m13-c8_7f2p-a1-m13-c9 7f2p-a1-m14-c1_7f2p-a1-m14-c2 7f2p-a1-m14-c1_7f2p-a1-m14-c3 7f2p-a1-m14-c2_7f2p-a1-m14-c3 7f2p-a1-m14-c4_7f2p-a1-m14-c5 7f2p-a1-m14-c4_7f2p-a1-m14-c6 7f2p-a1-m14-c5_7f2p-a1-m14-c6 7f2p-a1-m14-c7_7f2p-a1-m14-c8 7f2p-a1-m14-c7_7f2p-a1-m14-c9 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7f2p-a1-m58-c5_7f2p-a1-m58-c6 7f2p-a1-m58-c7_7f2p-a1-m58-c8 7f2p-a1-m58-c7_7f2p-a1-m58-c9 7f2p-a1-m58-c8_7f2p-a1-m58-c9 7f2p-a1-m59-c1_7f2p-a1-m59-c2 7f2p-a1-m59-c1_7f2p-a1-m59-c3 7f2p-a1-m59-c2_7f2p-a1-m59-c3 7f2p-a1-m59-c4_7f2p-a1-m59-c5 7f2p-a1-m59-c4_7f2p-a1-m59-c6 7f2p-a1-m59-c5_7f2p-a1-m59-c6 7f2p-a1-m59-c7_7f2p-a1-m59-c8 7f2p-a1-m59-c7_7f2p-a1-m59-c9 7f2p-a1-m59-c8_7f2p-a1-m59-c9 7f2p-a1-m5-c1_7f2p-a1-m5-c2 7f2p-a1-m5-c1_7f2p-a1-m5-c3 7f2p-a1-m5-c2_7f2p-a1-m5-c3 7f2p-a1-m5-c4_7f2p-a1-m5-c5 7f2p-a1-m5-c4_7f2p-a1-m5-c6 7f2p-a1-m5-c5_7f2p-a1-m5-c6 7f2p-a1-m5-c7_7f2p-a1-m5-c8 7f2p-a1-m5-c7_7f2p-a1-m5-c9 7f2p-a1-m5-c8_7f2p-a1-m5-c9 7f2p-a1-m60-c1_7f2p-a1-m60-c2 7f2p-a1-m60-c1_7f2p-a1-m60-c3 7f2p-a1-m60-c2_7f2p-a1-m60-c3 7f2p-a1-m60-c4_7f2p-a1-m60-c5 7f2p-a1-m60-c4_7f2p-a1-m60-c6 7f2p-a1-m60-c5_7f2p-a1-m60-c6 7f2p-a1-m60-c7_7f2p-a1-m60-c8 7f2p-a1-m60-c7_7f2p-a1-m60-c9 7f2p-a1-m60-c8_7f2p-a1-m60-c9 7f2p-a1-m6-c1_7f2p-a1-m6-c2 7f2p-a1-m6-c1_7f2p-a1-m6-c3 7f2p-a1-m6-c2_7f2p-a1-m6-c3 7f2p-a1-m6-c4_7f2p-a1-m6-c5 7f2p-a1-m6-c4_7f2p-a1-m6-c6 7f2p-a1-m6-c5_7f2p-a1-m6-c6 7f2p-a1-m6-c7_7f2p-a1-m6-c8 7f2p-a1-m6-c7_7f2p-a1-m6-c9 7f2p-a1-m6-c8_7f2p-a1-m6-c9 7f2p-a1-m7-c1_7f2p-a1-m7-c2 7f2p-a1-m7-c1_7f2p-a1-m7-c3 7f2p-a1-m7-c2_7f2p-a1-m7-c3 7f2p-a1-m7-c4_7f2p-a1-m7-c5 7f2p-a1-m7-c4_7f2p-a1-m7-c6 7f2p-a1-m7-c5_7f2p-a1-m7-c6 7f2p-a1-m7-c7_7f2p-a1-m7-c8 7f2p-a1-m7-c7_7f2p-a1-m7-c9 7f2p-a1-m7-c8_7f2p-a1-m7-c9 7f2p-a1-m8-c1_7f2p-a1-m8-c2 7f2p-a1-m8-c1_7f2p-a1-m8-c3 7f2p-a1-m8-c2_7f2p-a1-m8-c3 7f2p-a1-m8-c4_7f2p-a1-m8-c5 7f2p-a1-m8-c4_7f2p-a1-m8-c6 7f2p-a1-m8-c5_7f2p-a1-m8-c6 7f2p-a1-m8-c7_7f2p-a1-m8-c8 7f2p-a1-m8-c7_7f2p-a1-m8-c9 7f2p-a1-m8-c8_7f2p-a1-m8-c9 7f2p-a1-m9-c1_7f2p-a1-m9-c2 7f2p-a1-m9-c1_7f2p-a1-m9-c3 7f2p-a1-m9-c2_7f2p-a1-m9-c3 7f2p-a1-m9-c4_7f2p-a1-m9-c5 7f2p-a1-m9-c4_7f2p-a1-m9-c6 7f2p-a1-m9-c5_7f2p-a1-m9-c6 7f2p-a1-m9-c7_7f2p-a1-m9-c8 7f2p-a1-m9-c7_7f2p-a1-m9-c9 MKQKVHSVSYLAKAEFEYKNGVYDLVALPTGAEVIKISLEVVGLPTAGHVSVGFKDESKKNYSSILTLPVNETSGVVTKDYTVKSDKIVAAEVKDALAEGSDGRPVKCVLRALYFLPSVIEVEY MKQKVHSVSYLAKAEFEYKNGVYDLVALPTGAEVIKISLEVVGLPTAGHVSVGFKDESKKNYSSILTLPVNETSGVVTKDYTVKSDKIVAAEVKDALAEGSDGRPVKCVLRALYFLPSVIEVEY 7f2p-a1-m9-ch_7f2p-a1-m51-cg The head structure of Helicobacter pylori bacteriophage KHP40 I7HFY0 I7HFY0 3.0 ELECTRON MICROSCOPY 214 1.0 1204178 (Helicobacter phage KHP40) 1204178 (Helicobacter phage KHP40) 368 370 7dn2-a1-m10-ca_7dn2-a1-m10-cf 7dn2-a1-m10-cb_7dn2-a1-m10-ca 7dn2-a1-m10-cb_7dn2-a1-m10-cc 7dn2-a1-m10-cc_7dn2-a1-m10-cd 7dn2-a1-m10-ce_7dn2-a1-m10-cd 7dn2-a1-m10-ce_7dn2-a1-m10-cf 7dn2-a1-m10-ch_7dn2-a1-m10-cg 7dn2-a1-m10-ch_7dn2-a1-m25-cg 7dn2-a1-m11-ca_7dn2-a1-m11-cf 7dn2-a1-m11-cb_7dn2-a1-m11-ca 7dn2-a1-m11-cb_7dn2-a1-m11-cc 7dn2-a1-m11-cc_7dn2-a1-m11-cd 7dn2-a1-m11-ce_7dn2-a1-m11-cd 7dn2-a1-m11-ce_7dn2-a1-m11-cf 7dn2-a1-m11-ch_7dn2-a1-m11-cg 7dn2-a1-m11-ch_7dn2-a1-m17-cg 7dn2-a1-m12-ca_7dn2-a1-m12-cf 7dn2-a1-m12-cb_7dn2-a1-m12-ca 7dn2-a1-m12-cb_7dn2-a1-m12-cc 7dn2-a1-m12-cc_7dn2-a1-m12-cd 7dn2-a1-m12-ce_7dn2-a1-m12-cd 7dn2-a1-m12-ce_7dn2-a1-m12-cf 7dn2-a1-m12-ch_7dn2-a1-m12-cg 7dn2-a1-m12-ch_7dn2-a1-m39-cg 7dn2-a1-m13-ca_7dn2-a1-m13-cf 7dn2-a1-m13-cb_7dn2-a1-m13-ca 7dn2-a1-m13-cb_7dn2-a1-m13-cc 7dn2-a1-m13-cc_7dn2-a1-m13-cd 7dn2-a1-m13-ce_7dn2-a1-m13-cd 7dn2-a1-m13-ce_7dn2-a1-m13-cf 7dn2-a1-m13-ch_7dn2-a1-m13-cg 7dn2-a1-m13-ch_7dn2-a1-m48-cg 7dn2-a1-m14-ca_7dn2-a1-m14-cf 7dn2-a1-m14-cb_7dn2-a1-m14-ca 7dn2-a1-m14-cb_7dn2-a1-m14-cc 7dn2-a1-m14-cc_7dn2-a1-m14-cd 7dn2-a1-m14-ce_7dn2-a1-m14-cd 7dn2-a1-m14-ce_7dn2-a1-m14-cf 7dn2-a1-m14-ch_7dn2-a1-m14-cg 7dn2-a1-m14-ch_7dn2-a1-m41-cg 7dn2-a1-m15-ca_7dn2-a1-m15-cf 7dn2-a1-m15-cb_7dn2-a1-m15-ca 7dn2-a1-m15-cb_7dn2-a1-m15-cc 7dn2-a1-m15-cc_7dn2-a1-m15-cd 7dn2-a1-m15-ce_7dn2-a1-m15-cd 7dn2-a1-m15-ce_7dn2-a1-m15-cf 7dn2-a1-m15-ch_7dn2-a1-m15-cg 7dn2-a1-m15-ch_7dn2-a1-m30-cg 7dn2-a1-m16-ca_7dn2-a1-m16-cf 7dn2-a1-m16-cb_7dn2-a1-m16-ca 7dn2-a1-m16-cb_7dn2-a1-m16-cc 7dn2-a1-m16-cc_7dn2-a1-m16-cd 7dn2-a1-m16-ce_7dn2-a1-m16-cd 7dn2-a1-m16-ce_7dn2-a1-m16-cf 7dn2-a1-m16-ch_7dn2-a1-m12-cg 7dn2-a1-m16-ch_7dn2-a1-m16-cg 7dn2-a1-m17-ca_7dn2-a1-m17-cf 7dn2-a1-m17-cb_7dn2-a1-m17-ca 7dn2-a1-m17-cb_7dn2-a1-m17-cc 7dn2-a1-m17-cc_7dn2-a1-m17-cd 7dn2-a1-m17-ce_7dn2-a1-m17-cd 7dn2-a1-m17-ce_7dn2-a1-m17-cf 7dn2-a1-m17-ch_7dn2-a1-m17-cg 7dn2-a1-m17-ch_7dn2-a1-m29-cg 7dn2-a1-m18-ca_7dn2-a1-m18-cf 7dn2-a1-m18-cb_7dn2-a1-m18-ca 7dn2-a1-m18-cb_7dn2-a1-m18-cc 7dn2-a1-m18-cc_7dn2-a1-m18-cd 7dn2-a1-m18-ce_7dn2-a1-m18-cd 7dn2-a1-m18-ce_7dn2-a1-m18-cf 7dn2-a1-m18-ch_7dn2-a1-m18-cg 7dn2-a1-m18-ch_7dn2-a1-m53-cg 7dn2-a1-m19-ca_7dn2-a1-m19-cf 7dn2-a1-m19-cb_7dn2-a1-m19-ca 7dn2-a1-m19-cb_7dn2-a1-m19-cc 7dn2-a1-m19-cc_7dn2-a1-m19-cd 7dn2-a1-m19-ce_7dn2-a1-m19-cd 7dn2-a1-m19-ce_7dn2-a1-m19-cf 7dn2-a1-m19-ch_7dn2-a1-m19-cg 7dn2-a1-m19-ch_7dn2-a1-m56-cg 7dn2-a1-m1-ca_7dn2-a1-m1-cf 7dn2-a1-m1-cb_7dn2-a1-m1-ca 7dn2-a1-m1-cb_7dn2-a1-m1-cc 7dn2-a1-m1-cc_7dn2-a1-m1-cd 7dn2-a1-m1-ce_7dn2-a1-m1-cd 7dn2-a1-m1-ce_7dn2-a1-m1-cf 7dn2-a1-m1-ch_7dn2-a1-m1-cg 7dn2-a1-m1-ch_7dn2-a1-m7-cg 7dn2-a1-m20-ca_7dn2-a1-m20-cf 7dn2-a1-m20-cb_7dn2-a1-m20-ca 7dn2-a1-m20-cb_7dn2-a1-m20-cc 7dn2-a1-m20-cc_7dn2-a1-m20-cd 7dn2-a1-m20-ce_7dn2-a1-m20-cd 7dn2-a1-m20-ce_7dn2-a1-m20-cf 7dn2-a1-m20-ch_7dn2-a1-m20-cg 7dn2-a1-m20-ch_7dn2-a1-m40-cg 7dn2-a1-m21-ca_7dn2-a1-m21-cf 7dn2-a1-m21-cb_7dn2-a1-m21-ca 7dn2-a1-m21-cb_7dn2-a1-m21-cc 7dn2-a1-m21-cc_7dn2-a1-m21-cd 7dn2-a1-m21-ce_7dn2-a1-m21-cd 7dn2-a1-m21-ce_7dn2-a1-m21-cf 7dn2-a1-m21-ch_7dn2-a1-m21-cg 7dn2-a1-m21-ch_7dn2-a1-m27-cg 7dn2-a1-m22-ca_7dn2-a1-m22-cf 7dn2-a1-m22-cb_7dn2-a1-m22-ca 7dn2-a1-m22-cb_7dn2-a1-m22-cc 7dn2-a1-m22-cc_7dn2-a1-m22-cd 7dn2-a1-m22-ce_7dn2-a1-m22-cd 7dn2-a1-m22-ce_7dn2-a1-m22-cf 7dn2-a1-m22-ch_7dn2-a1-m22-cg 7dn2-a1-m22-ch_7dn2-a1-m44-cg 7dn2-a1-m23-ca_7dn2-a1-m23-cf 7dn2-a1-m23-cb_7dn2-a1-m23-ca 7dn2-a1-m23-cb_7dn2-a1-m23-cc 7dn2-a1-m23-cc_7dn2-a1-m23-cd 7dn2-a1-m23-ce_7dn2-a1-m23-cd 7dn2-a1-m23-ce_7dn2-a1-m23-cf 7dn2-a1-m23-ch_7dn2-a1-m23-cg 7dn2-a1-m23-ch_7dn2-a1-m3-cg 7dn2-a1-m24-ca_7dn2-a1-m24-cf 7dn2-a1-m24-cb_7dn2-a1-m24-ca 7dn2-a1-m24-cb_7dn2-a1-m24-cc 7dn2-a1-m24-cc_7dn2-a1-m24-cd 7dn2-a1-m24-ce_7dn2-a1-m24-cd 7dn2-a1-m24-ce_7dn2-a1-m24-cf 7dn2-a1-m24-ch_7dn2-a1-m24-cg 7dn2-a1-m24-ch_7dn2-a1-m6-cg 7dn2-a1-m25-ca_7dn2-a1-m25-cf 7dn2-a1-m25-cb_7dn2-a1-m25-ca 7dn2-a1-m25-cb_7dn2-a1-m25-cc 7dn2-a1-m25-cc_7dn2-a1-m25-cd 7dn2-a1-m25-ce_7dn2-a1-m25-cd 7dn2-a1-m25-ce_7dn2-a1-m25-cf 7dn2-a1-m25-ch_7dn2-a1-m25-cg 7dn2-a1-m25-ch_7dn2-a1-m55-cg 7dn2-a1-m26-ca_7dn2-a1-m26-cf 7dn2-a1-m26-cb_7dn2-a1-m26-ca 7dn2-a1-m26-cb_7dn2-a1-m26-cc 7dn2-a1-m26-cc_7dn2-a1-m26-cd 7dn2-a1-m26-ce_7dn2-a1-m26-cd 7dn2-a1-m26-ce_7dn2-a1-m26-cf 7dn2-a1-m26-ch_7dn2-a1-m22-cg 7dn2-a1-m26-ch_7dn2-a1-m26-cg 7dn2-a1-m27-ca_7dn2-a1-m27-cf 7dn2-a1-m27-cb_7dn2-a1-m27-ca 7dn2-a1-m27-cb_7dn2-a1-m27-cc 7dn2-a1-m27-cc_7dn2-a1-m27-cd 7dn2-a1-m27-ce_7dn2-a1-m27-cd 7dn2-a1-m27-ce_7dn2-a1-m27-cf 7dn2-a1-m27-ch_7dn2-a1-m27-cg 7dn2-a1-m27-ch_7dn2-a1-m54-cg 7dn2-a1-m28-ca_7dn2-a1-m28-cf 7dn2-a1-m28-cb_7dn2-a1-m28-ca 7dn2-a1-m28-cb_7dn2-a1-m28-cc 7dn2-a1-m28-cc_7dn2-a1-m28-cd 7dn2-a1-m28-ce_7dn2-a1-m28-cd 7dn2-a1-m28-ce_7dn2-a1-m28-cf 7dn2-a1-m28-ch_7dn2-a1-m18-cg 7dn2-a1-m28-ch_7dn2-a1-m28-cg 7dn2-a1-m29-ca_7dn2-a1-m29-cf 7dn2-a1-m29-cb_7dn2-a1-m29-ca 7dn2-a1-m29-cb_7dn2-a1-m29-cc 7dn2-a1-m29-cc_7dn2-a1-m29-cd 7dn2-a1-m29-ce_7dn2-a1-m29-cd 7dn2-a1-m29-ce_7dn2-a1-m29-cf 7dn2-a1-m29-ch_7dn2-a1-m11-cg 7dn2-a1-m29-ch_7dn2-a1-m29-cg 7dn2-a1-m2-ca_7dn2-a1-m2-cf 7dn2-a1-m2-cb_7dn2-a1-m2-ca 7dn2-a1-m2-cb_7dn2-a1-m2-cc 7dn2-a1-m2-cc_7dn2-a1-m2-cd 7dn2-a1-m2-ce_7dn2-a1-m2-cd 7dn2-a1-m2-ce_7dn2-a1-m2-cf 7dn2-a1-m2-ch_7dn2-a1-m24-cg 7dn2-a1-m2-ch_7dn2-a1-m2-cg 7dn2-a1-m30-ca_7dn2-a1-m30-cf 7dn2-a1-m30-cb_7dn2-a1-m30-ca 7dn2-a1-m30-cb_7dn2-a1-m30-cc 7dn2-a1-m30-cc_7dn2-a1-m30-cd 7dn2-a1-m30-ce_7dn2-a1-m30-cd 7dn2-a1-m30-ce_7dn2-a1-m30-cf 7dn2-a1-m30-ch_7dn2-a1-m30-cg 7dn2-a1-m30-ch_7dn2-a1-m45-cg 7dn2-a1-m31-ca_7dn2-a1-m31-cf 7dn2-a1-m31-cb_7dn2-a1-m31-ca 7dn2-a1-m31-cb_7dn2-a1-m31-cc 7dn2-a1-m31-cc_7dn2-a1-m31-cd 7dn2-a1-m31-ce_7dn2-a1-m31-cd 7dn2-a1-m31-ce_7dn2-a1-m31-cf 7dn2-a1-m31-ch_7dn2-a1-m31-cg 7dn2-a1-m31-ch_7dn2-a1-m37-cg 7dn2-a1-m32-ca_7dn2-a1-m32-cf 7dn2-a1-m32-cb_7dn2-a1-m32-ca 7dn2-a1-m32-cb_7dn2-a1-m32-cc 7dn2-a1-m32-cc_7dn2-a1-m32-cd 7dn2-a1-m32-ce_7dn2-a1-m32-cd 7dn2-a1-m32-ce_7dn2-a1-m32-cf 7dn2-a1-m32-ch_7dn2-a1-m32-cg 7dn2-a1-m32-ch_7dn2-a1-m59-cg 7dn2-a1-m33-ca_7dn2-a1-m33-cf 7dn2-a1-m33-cb_7dn2-a1-m33-ca 7dn2-a1-m33-cb_7dn2-a1-m33-cc 7dn2-a1-m33-cc_7dn2-a1-m33-cd 7dn2-a1-m33-ce_7dn2-a1-m33-cd 7dn2-a1-m33-ce_7dn2-a1-m33-cf 7dn2-a1-m33-ch_7dn2-a1-m33-cg 7dn2-a1-m33-ch_7dn2-a1-m8-cg 7dn2-a1-m34-ca_7dn2-a1-m34-cf 7dn2-a1-m34-cb_7dn2-a1-m34-ca 7dn2-a1-m34-cb_7dn2-a1-m34-cc 7dn2-a1-m34-cc_7dn2-a1-m34-cd 7dn2-a1-m34-ce_7dn2-a1-m34-cd 7dn2-a1-m34-ce_7dn2-a1-m34-cf 7dn2-a1-m34-ch_7dn2-a1-m1-cg 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7f2p-a1-m44-cb_7f2p-a1-m44-cc 7f2p-a1-m44-cc_7f2p-a1-m44-cd 7f2p-a1-m44-ce_7f2p-a1-m44-cd 7f2p-a1-m44-ce_7f2p-a1-m44-cf 7f2p-a1-m44-ch_7f2p-a1-m26-cg 7f2p-a1-m44-ch_7f2p-a1-m44-cg 7f2p-a1-m45-ca_7f2p-a1-m45-cf 7f2p-a1-m45-cb_7f2p-a1-m45-ca 7f2p-a1-m45-cb_7f2p-a1-m45-cc 7f2p-a1-m45-cc_7f2p-a1-m45-cd 7f2p-a1-m45-ce_7f2p-a1-m45-cd 7f2p-a1-m45-ce_7f2p-a1-m45-cf 7f2p-a1-m45-ch_7f2p-a1-m15-cg 7f2p-a1-m45-ch_7f2p-a1-m45-cg 7f2p-a1-m46-ca_7f2p-a1-m46-cf 7f2p-a1-m46-cb_7f2p-a1-m46-ca 7f2p-a1-m46-cb_7f2p-a1-m46-cc 7f2p-a1-m46-cc_7f2p-a1-m46-cd 7f2p-a1-m46-ce_7f2p-a1-m46-cd 7f2p-a1-m46-ce_7f2p-a1-m46-cf 7f2p-a1-m46-ch_7f2p-a1-m42-cg 7f2p-a1-m46-ch_7f2p-a1-m46-cg 7f2p-a1-m47-ca_7f2p-a1-m47-cf 7f2p-a1-m47-cb_7f2p-a1-m47-ca 7f2p-a1-m47-cb_7f2p-a1-m47-cc 7f2p-a1-m47-cc_7f2p-a1-m47-cd 7f2p-a1-m47-ce_7f2p-a1-m47-cd 7f2p-a1-m47-ce_7f2p-a1-m47-cf 7f2p-a1-m47-ch_7f2p-a1-m14-cg 7f2p-a1-m47-ch_7f2p-a1-m47-cg 7f2p-a1-m48-ca_7f2p-a1-m48-cf 7f2p-a1-m48-cb_7f2p-a1-m48-ca 7f2p-a1-m48-cb_7f2p-a1-m48-cc 7f2p-a1-m48-cc_7f2p-a1-m48-cd 7f2p-a1-m48-ce_7f2p-a1-m48-cd 7f2p-a1-m48-ce_7f2p-a1-m48-cf 7f2p-a1-m48-ch_7f2p-a1-m38-cg 7f2p-a1-m48-ch_7f2p-a1-m48-cg 7f2p-a1-m49-ca_7f2p-a1-m49-cf 7f2p-a1-m49-cb_7f2p-a1-m49-ca 7f2p-a1-m49-cb_7f2p-a1-m49-cc 7f2p-a1-m49-cc_7f2p-a1-m49-cd 7f2p-a1-m49-ce_7f2p-a1-m49-cd 7f2p-a1-m49-ce_7f2p-a1-m49-cf 7f2p-a1-m49-ch_7f2p-a1-m31-cg 7f2p-a1-m49-ch_7f2p-a1-m49-cg 7f2p-a1-m4-ca_7f2p-a1-m4-cf 7f2p-a1-m4-cb_7f2p-a1-m4-ca 7f2p-a1-m4-cb_7f2p-a1-m4-cc 7f2p-a1-m4-cc_7f2p-a1-m4-cd 7f2p-a1-m4-ce_7f2p-a1-m4-cd 7f2p-a1-m4-ce_7f2p-a1-m4-cf 7f2p-a1-m4-ch_7f2p-a1-m46-cg 7f2p-a1-m4-ch_7f2p-a1-m4-cg 7f2p-a1-m50-ca_7f2p-a1-m50-cf 7f2p-a1-m50-cb_7f2p-a1-m50-ca 7f2p-a1-m50-cb_7f2p-a1-m50-cc 7f2p-a1-m50-cc_7f2p-a1-m50-cd 7f2p-a1-m50-ce_7f2p-a1-m50-cd 7f2p-a1-m50-ce_7f2p-a1-m50-cf 7f2p-a1-m50-ch_7f2p-a1-m50-cg 7f2p-a1-m50-ch_7f2p-a1-m5-cg 7f2p-a1-m51-ca_7f2p-a1-m51-cf 7f2p-a1-m51-cb_7f2p-a1-m51-ca 7f2p-a1-m51-cb_7f2p-a1-m51-cc 7f2p-a1-m51-cc_7f2p-a1-m51-cd 7f2p-a1-m51-ce_7f2p-a1-m51-cd 7f2p-a1-m51-ce_7f2p-a1-m51-cf 7f2p-a1-m51-ch_7f2p-a1-m51-cg 7f2p-a1-m51-ch_7f2p-a1-m57-cg 7f2p-a1-m52-ca_7f2p-a1-m52-cf 7f2p-a1-m52-cb_7f2p-a1-m52-ca 7f2p-a1-m52-cb_7f2p-a1-m52-cc 7f2p-a1-m52-cc_7f2p-a1-m52-cd 7f2p-a1-m52-ce_7f2p-a1-m52-cd 7f2p-a1-m52-ce_7f2p-a1-m52-cf 7f2p-a1-m52-ch_7f2p-a1-m19-cg 7f2p-a1-m52-ch_7f2p-a1-m52-cg 7f2p-a1-m53-ca_7f2p-a1-m53-cf 7f2p-a1-m53-cb_7f2p-a1-m53-ca 7f2p-a1-m53-cb_7f2p-a1-m53-cc 7f2p-a1-m53-cc_7f2p-a1-m53-cd 7f2p-a1-m53-ce_7f2p-a1-m53-cd 7f2p-a1-m53-ce_7f2p-a1-m53-cf 7f2p-a1-m53-ch_7f2p-a1-m28-cg 7f2p-a1-m53-ch_7f2p-a1-m53-cg 7f2p-a1-m54-ca_7f2p-a1-m54-cf 7f2p-a1-m54-cb_7f2p-a1-m54-ca 7f2p-a1-m54-cb_7f2p-a1-m54-cc 7f2p-a1-m54-cc_7f2p-a1-m54-cd 7f2p-a1-m54-ce_7f2p-a1-m54-cd 7f2p-a1-m54-ce_7f2p-a1-m54-cf 7f2p-a1-m54-ch_7f2p-a1-m21-cg 7f2p-a1-m54-ch_7f2p-a1-m54-cg 7f2p-a1-m55-ca_7f2p-a1-m55-cf 7f2p-a1-m55-cb_7f2p-a1-m55-ca 7f2p-a1-m55-cb_7f2p-a1-m55-cc 7f2p-a1-m55-cc_7f2p-a1-m55-cd 7f2p-a1-m55-ce_7f2p-a1-m55-cd 7f2p-a1-m55-ce_7f2p-a1-m55-cf 7f2p-a1-m55-ch_7f2p-a1-m10-cg 7f2p-a1-m55-ch_7f2p-a1-m55-cg 7f2p-a1-m56-ca_7f2p-a1-m56-cf 7f2p-a1-m56-cb_7f2p-a1-m56-ca 7f2p-a1-m56-cb_7f2p-a1-m56-cc 7f2p-a1-m56-cc_7f2p-a1-m56-cd 7f2p-a1-m56-ce_7f2p-a1-m56-cd 7f2p-a1-m56-ce_7f2p-a1-m56-cf 7f2p-a1-m56-ch_7f2p-a1-m52-cg 7f2p-a1-m56-ch_7f2p-a1-m56-cg 7f2p-a1-m57-ca_7f2p-a1-m57-cf 7f2p-a1-m57-cb_7f2p-a1-m57-ca 7f2p-a1-m57-cb_7f2p-a1-m57-cc 7f2p-a1-m57-cc_7f2p-a1-m57-cd 7f2p-a1-m57-ce_7f2p-a1-m57-cd 7f2p-a1-m57-ce_7f2p-a1-m57-cf 7f2p-a1-m57-ch_7f2p-a1-m57-cg 7f2p-a1-m57-ch_7f2p-a1-m9-cg 7f2p-a1-m58-ca_7f2p-a1-m58-cf 7f2p-a1-m58-cb_7f2p-a1-m58-ca 7f2p-a1-m58-cb_7f2p-a1-m58-cc 7f2p-a1-m58-cc_7f2p-a1-m58-cd 7f2p-a1-m58-ce_7f2p-a1-m58-cd 7f2p-a1-m58-ce_7f2p-a1-m58-cf 7f2p-a1-m58-ch_7f2p-a1-m33-cg 7f2p-a1-m58-ch_7f2p-a1-m58-cg 7f2p-a1-m59-ca_7f2p-a1-m59-cf 7f2p-a1-m59-cb_7f2p-a1-m59-ca 7f2p-a1-m59-cb_7f2p-a1-m59-cc 7f2p-a1-m59-cc_7f2p-a1-m59-cd 7f2p-a1-m59-ce_7f2p-a1-m59-cd 7f2p-a1-m59-ce_7f2p-a1-m59-cf 7f2p-a1-m59-ch_7f2p-a1-m36-cg 7f2p-a1-m59-ch_7f2p-a1-m59-cg 7f2p-a1-m5-ca_7f2p-a1-m5-cf 7f2p-a1-m5-cb_7f2p-a1-m5-ca 7f2p-a1-m5-cb_7f2p-a1-m5-cc 7f2p-a1-m5-cc_7f2p-a1-m5-cd 7f2p-a1-m5-ce_7f2p-a1-m5-cd 7f2p-a1-m5-ce_7f2p-a1-m5-cf 7f2p-a1-m5-ch_7f2p-a1-m35-cg 7f2p-a1-m5-ch_7f2p-a1-m5-cg 7f2p-a1-m60-ca_7f2p-a1-m60-cf 7f2p-a1-m60-cb_7f2p-a1-m60-ca 7f2p-a1-m60-cb_7f2p-a1-m60-cc 7f2p-a1-m60-cc_7f2p-a1-m60-cd 7f2p-a1-m60-ce_7f2p-a1-m60-cd 7f2p-a1-m60-ce_7f2p-a1-m60-cf 7f2p-a1-m60-ch_7f2p-a1-m20-cg 7f2p-a1-m60-ch_7f2p-a1-m60-cg 7f2p-a1-m6-ca_7f2p-a1-m6-cf 7f2p-a1-m6-cb_7f2p-a1-m6-ca 7f2p-a1-m6-cb_7f2p-a1-m6-cc 7f2p-a1-m6-cc_7f2p-a1-m6-cd 7f2p-a1-m6-ce_7f2p-a1-m6-cd 7f2p-a1-m6-ce_7f2p-a1-m6-cf 7f2p-a1-m6-ch_7f2p-a1-m2-cg 7f2p-a1-m6-ch_7f2p-a1-m6-cg 7f2p-a1-m7-ca_7f2p-a1-m7-cf 7f2p-a1-m7-cb_7f2p-a1-m7-ca 7f2p-a1-m7-cb_7f2p-a1-m7-cc 7f2p-a1-m7-cc_7f2p-a1-m7-cd 7f2p-a1-m7-ce_7f2p-a1-m7-cd 7f2p-a1-m7-ce_7f2p-a1-m7-cf 7f2p-a1-m7-ch_7f2p-a1-m34-cg 7f2p-a1-m7-ch_7f2p-a1-m7-cg 7f2p-a1-m8-ca_7f2p-a1-m8-cf 7f2p-a1-m8-cb_7f2p-a1-m8-ca 7f2p-a1-m8-cb_7f2p-a1-m8-cc 7f2p-a1-m8-cc_7f2p-a1-m8-cd 7f2p-a1-m8-ce_7f2p-a1-m8-cd 7f2p-a1-m8-ce_7f2p-a1-m8-cf 7f2p-a1-m8-ch_7f2p-a1-m58-cg 7f2p-a1-m8-ch_7f2p-a1-m8-cg 7f2p-a1-m9-ca_7f2p-a1-m9-cf 7f2p-a1-m9-cb_7f2p-a1-m9-ca 7f2p-a1-m9-cb_7f2p-a1-m9-cc 7f2p-a1-m9-cc_7f2p-a1-m9-cd 7f2p-a1-m9-ce_7f2p-a1-m9-cd 7f2p-a1-m9-ce_7f2p-a1-m9-cf 7f2p-a1-m9-ch_7f2p-a1-m9-cg NNINFNNISNNPNLGIEVGREIQNASWVKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLTGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYNAAMNVATIRKAIFHARNGLKADNSKAFPIKPIRATMQSVGNVVVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKLNVGMPNSSISDSDFTRYLNKANVSNIVTPMQLKEKLNQENKDISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSNME KLNNINFNNISNNPNLGIEVGREIQNASWVKSPFFSITGTGADRGVRLFSVASQQPFRPRIKAQLTGSGVSGNTDFEANYDNLEILSQTIYPDAFGNSLRSKIKAYSELERIDFIKESVDSLTTWMNEERDKRIVASLTNDFTNYLYNAAMNVATIRKAIFHARNGLKADNSKAFPIKPIRATMQSVGNVVVQNTSYIILLDSYQANQLKADSEFKELRKLYAFAGEDKGMLYSGLLGVIDNCPVIDAGVWNKLNVGMPNSSISDSDFTRYLNKANVSNIVTPMQLKEKLNQENKDISIGCLIGASAVLLAGSKETRFYIDETVDAGRKSLVGVDCLLGVSKARYQSTDGVVTPYDNQDYAVIGLVSNME 7f2v-a1-m1-cA_7f2v-a1-m2-cB Urate oxidase from Thermobispora bispora in apo form D6Y599 D6Y599 1.6 X-RAY DIFFRACTION 11 1.0 469371 (Thermobispora bispora DSM 43833) 469371 (Thermobispora bispora DSM 43833) 300 300 7f2v-a1-m1-cB_7f2v-a1-m2-cA 7f2w-a1-m1-cA_7f2w-a1-m2-cB 7f2w-a1-m1-cB_7f2w-a1-m2-cA AIVLGRNQYGKAEVRVFRVYRDTPRHEVRDLNVWTALRGDFTDAHVTGDQSHVLPTDTQKNTVYALAKKEGIRAIEDFALTLGDHFLRQVPAATGARIAIEEYAWDRIDVDGTGHDHGFVRRGQGTRTTVVTVEGRGDERRAWVLSGISDLIIAKTTGSEFHGFLKDEYTTLEETHDRILATSLHTRWRYLTTDVDWDKTFASVRSILLRQFATVHSLALQQTLYAMGSAVLEAHPEIAEIRLSAPNKHHFLVDLQPFGLDNPGEVFYASDRPYGLIEASVVRDDVPEAPEAWLATPGFC AIVLGRNQYGKAEVRVFRVYRDTPRHEVRDLNVWTALRGDFTDAHVTGDQSHVLPTDTQKNTVYALAKKEGIRAIEDFALTLGDHFLRQVPAATGARIAIEEYAWDRIDVDGTGHDHGFVRRGQGTRTTVVTVEGRGDERRAWVLSGISDLIIAKTTGSEFHGFLKDEYTTLEETHDRILATSLHTRWRYLTTDVDWDKTFASVRSILLRQFATVHSLALQQTLYAMGSAVLEAHPEIAEIRLSAPNKHHFLVDLQPFGLDNPGEVFYASDRPYGLIEASVVRDDVPEAPEAWLATPGFC 7f2v-a1-m1-cB_7f2v-a1-m2-cB Urate oxidase from Thermobispora bispora in apo form D6Y599 D6Y599 1.6 X-RAY DIFFRACTION 286 1.0 469371 (Thermobispora bispora DSM 43833) 469371 (Thermobispora bispora DSM 43833) 300 300 7f2v-a1-m1-cA_7f2v-a1-m2-cA 7f2w-a1-m1-cA_7f2w-a1-m1-cB 7f2w-a1-m2-cA_7f2w-a1-m2-cB AIVLGRNQYGKAEVRVFRVYRDTPRHEVRDLNVWTALRGDFTDAHVTGDQSHVLPTDTQKNTVYALAKKEGIRAIEDFALTLGDHFLRQVPAATGARIAIEEYAWDRIDVDGTGHDHGFVRRGQGTRTTVVTVEGRGDERRAWVLSGISDLIIAKTTGSEFHGFLKDEYTTLEETHDRILATSLHTRWRYLTTDVDWDKTFASVRSILLRQFATVHSLALQQTLYAMGSAVLEAHPEIAEIRLSAPNKHHFLVDLQPFGLDNPGEVFYASDRPYGLIEASVVRDDVPEAPEAWLATPGFC AIVLGRNQYGKAEVRVFRVYRDTPRHEVRDLNVWTALRGDFTDAHVTGDQSHVLPTDTQKNTVYALAKKEGIRAIEDFALTLGDHFLRQVPAATGARIAIEEYAWDRIDVDGTGHDHGFVRRGQGTRTTVVTVEGRGDERRAWVLSGISDLIIAKTTGSEFHGFLKDEYTTLEETHDRILATSLHTRWRYLTTDVDWDKTFASVRSILLRQFATVHSLALQQTLYAMGSAVLEAHPEIAEIRLSAPNKHHFLVDLQPFGLDNPGEVFYASDRPYGLIEASVVRDDVPEAPEAWLATPGFC 7f2v-a1-m2-cA_7f2v-a1-m2-cB Urate oxidase from Thermobispora bispora in apo form D6Y599 D6Y599 1.6 X-RAY DIFFRACTION 191 1.0 469371 (Thermobispora bispora DSM 43833) 469371 (Thermobispora bispora DSM 43833) 300 300 7f2v-a1-m1-cA_7f2v-a1-m1-cB 7f2w-a1-m1-cA_7f2w-a1-m2-cA 7f2w-a1-m1-cB_7f2w-a1-m2-cB AIVLGRNQYGKAEVRVFRVYRDTPRHEVRDLNVWTALRGDFTDAHVTGDQSHVLPTDTQKNTVYALAKKEGIRAIEDFALTLGDHFLRQVPAATGARIAIEEYAWDRIDVDGTGHDHGFVRRGQGTRTTVVTVEGRGDERRAWVLSGISDLIIAKTTGSEFHGFLKDEYTTLEETHDRILATSLHTRWRYLTTDVDWDKTFASVRSILLRQFATVHSLALQQTLYAMGSAVLEAHPEIAEIRLSAPNKHHFLVDLQPFGLDNPGEVFYASDRPYGLIEASVVRDDVPEAPEAWLATPGFC AIVLGRNQYGKAEVRVFRVYRDTPRHEVRDLNVWTALRGDFTDAHVTGDQSHVLPTDTQKNTVYALAKKEGIRAIEDFALTLGDHFLRQVPAATGARIAIEEYAWDRIDVDGTGHDHGFVRRGQGTRTTVVTVEGRGDERRAWVLSGISDLIIAKTTGSEFHGFLKDEYTTLEETHDRILATSLHTRWRYLTTDVDWDKTFASVRSILLRQFATVHSLALQQTLYAMGSAVLEAHPEIAEIRLSAPNKHHFLVDLQPFGLDNPGEVFYASDRPYGLIEASVVRDDVPEAPEAWLATPGFC 7f36-a1-m1-cB_7f36-a1-m1-cA TacT complexed with acetyl-glycyl-tRNAGly Q8ZL98 Q8ZL98 3.098 X-RAY DIFFRACTION 119 0.994 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 158 159 5fvj-a1-m1-cB_5fvj-a1-m1-cA 7f36-a1-m1-cC_7f36-a1-m1-cD VTAPEPLSAFHQVAEFVSGEAVLDDWLKQKGLKNQALGAARTFVVCKKDTKQVAGFYSLATGSVNHTEATGNLRRNMPDPIPVIILARLAVDLSFHGKGLGADLLHDAVLRCYRVAENIGVRAIMVHALTEEAKNFFIHHGFKSSQTQQRTLFLRLPQ GRVTAPEPLSAFHQVAEFVSGEAVLDDWLKQKGLKNQALGAARTFVVCKKDTKQVAGFYSLATGSVNHTEATGNLRRNMPDPIPVIILARLAVDLSFHGKGLGADLLHDAVLRCYRVAENIGVRAIMVHALTEEAKNFFIHHGFKSSQTQQRTLFLRLP 7f37-a1-m1-cB_7f37-a1-m1-cA Crystal structure of AtaT2-AtaR2 complex Q8X6Z9 Q8X6Z9 2.896 X-RAY DIFFRACTION 12 0.994 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 157 161 MGITAPTPLTSEHNLADFCCSDHGMNEWLKKKALKNHSSGLSRVYVICIANTRQVIGYYCLSTGSIQRNLARRNAPESLPVVVLGRLAIDQAWAGKGLGVALLKDAVYRTMSIAQQVGVRALIVHALDDSVRNFYLKYAFVPSPFQSLTLLYPITLE GITAPTPLTSEHNLADFCCSDHGMNEWLKKKALKNHSSGLSRVYVICIANTRQVIGYYCLSTGSIQRNLAPGAMRRNAPESLPVVVLGRLAIDQAWAGKGLGVALLKDAVYRTMSIAQQVGVRALIVHALDDSVRNFYLKYAFVPSPFQSLTLLYPITLEL 7f37-a1-m1-cF_7f37-a1-m1-cD Crystal structure of AtaT2-AtaR2 complex A0A0H3JI71 A0A0H3JI71 2.896 X-RAY DIFFRACTION 14 0.988 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 84 85 PESKEAPINIRAKASQRDLIDMAANLVAKSRTDFMLDAACREAQDILLDQRLFILDDEQYDAFLAALDAPITAERQAKINALMN MKPESKEAPINIRAKASQRDLIDMAANLVAKSRTDFMLDAACREAQDILLDQRLFILDDEQYDAFLAALDAPITAERQAKINALM 7f38-a1-m55-cA_7f38-a1-m9-cE Cyanophage A-1(L) capsid asymmetric unit A0A191SAV5 A0A191SAV5 3.35 ELECTRON MICROSCOPY 84 1.0 1775256 (Nostoc phage A1) 1775256 (Nostoc phage A1) 363 363 7f38-a1-m10-cA_7f38-a1-m10-cD 7f38-a1-m10-cA_7f38-a1-m24-cE 7f38-a1-m10-cB_7f38-a1-m10-cC 7f38-a1-m10-cB_7f38-a1-m9-cF 7f38-a1-m10-cC_7f38-a1-m9-cF 7f38-a1-m10-cD_7f38-a1-m24-cE 7f38-a1-m10-cE_7f38-a1-m24-cA 7f38-a1-m10-cE_7f38-a1-m24-cD 7f38-a1-m10-cF_7f38-a1-m6-cB 7f38-a1-m10-cF_7f38-a1-m6-cC 7f38-a1-m10-cG_7f38-a1-m6-cH 7f38-a1-m10-cH_7f38-a1-m9-cG 7f38-a1-m10-cI_7f38-a1-m10-cH 7f38-a1-m10-cI_7f38-a1-m9-cG 7f38-a1-m11-cA_7f38-a1-m11-cD 7f38-a1-m11-cA_7f38-a1-m16-cE 7f38-a1-m11-cB_7f38-a1-m11-cC 7f38-a1-m11-cB_7f38-a1-m15-cF 7f38-a1-m11-cC_7f38-a1-m15-cF 7f38-a1-m11-cD_7f38-a1-m16-cE 7f38-a1-m11-cE_7f38-a1-m16-cA 7f38-a1-m11-cE_7f38-a1-m16-cD 7f38-a1-m11-cF_7f38-a1-m12-cB 7f38-a1-m11-cF_7f38-a1-m12-cC 7f38-a1-m11-cG_7f38-a1-m12-cH 7f38-a1-m11-cH_7f38-a1-m15-cG 7f38-a1-m11-cI_7f38-a1-m11-cH 7f38-a1-m11-cI_7f38-a1-m15-cG 7f38-a1-m12-cA_7f38-a1-m12-cD 7f38-a1-m12-cA_7f38-a1-m38-cE 7f38-a1-m12-cB_7f38-a1-m12-cC 7f38-a1-m12-cD_7f38-a1-m38-cE 7f38-a1-m12-cE_7f38-a1-m38-cA 7f38-a1-m12-cE_7f38-a1-m38-cD 7f38-a1-m12-cF_7f38-a1-m13-cB 7f38-a1-m12-cF_7f38-a1-m13-cC 7f38-a1-m12-cG_7f38-a1-m13-cH 7f38-a1-m12-cI_7f38-a1-m11-cG 7f38-a1-m12-cI_7f38-a1-m12-cH 7f38-a1-m13-cA_7f38-a1-m13-cD 7f38-a1-m13-cA_7f38-a1-m47-cE 7f38-a1-m13-cB_7f38-a1-m13-cC 7f38-a1-m13-cD_7f38-a1-m47-cE 7f38-a1-m13-cE_7f38-a1-m47-cA 7f38-a1-m13-cE_7f38-a1-m47-cD 7f38-a1-m13-cF_7f38-a1-m14-cB 7f38-a1-m13-cF_7f38-a1-m14-cC 7f38-a1-m13-cG_7f38-a1-m14-cH 7f38-a1-m13-cI_7f38-a1-m12-cG 7f38-a1-m13-cI_7f38-a1-m13-cH 7f38-a1-m14-cA_7f38-a1-m14-cD 7f38-a1-m14-cA_7f38-a1-m45-cE 7f38-a1-m14-cB_7f38-a1-m14-cC 7f38-a1-m14-cD_7f38-a1-m45-cE 7f38-a1-m14-cE_7f38-a1-m45-cA 7f38-a1-m14-cE_7f38-a1-m45-cD 7f38-a1-m14-cF_7f38-a1-m15-cB 7f38-a1-m14-cF_7f38-a1-m15-cC 7f38-a1-m14-cG_7f38-a1-m15-cH 7f38-a1-m14-cI_7f38-a1-m13-cG 7f38-a1-m14-cI_7f38-a1-m14-cH 7f38-a1-m15-cA_7f38-a1-m15-cD 7f38-a1-m15-cA_7f38-a1-m29-cE 7f38-a1-m15-cB_7f38-a1-m15-cC 7f38-a1-m15-cD_7f38-a1-m29-cE 7f38-a1-m15-cE_7f38-a1-m29-cA 7f38-a1-m15-cE_7f38-a1-m29-cD 7f38-a1-m15-cI_7f38-a1-m14-cG 7f38-a1-m15-cI_7f38-a1-m15-cH 7f38-a1-m16-cA_7f38-a1-m16-cD 7f38-a1-m16-cB_7f38-a1-m16-cC 7f38-a1-m16-cB_7f38-a1-m20-cF 7f38-a1-m16-cC_7f38-a1-m20-cF 7f38-a1-m16-cF_7f38-a1-m17-cB 7f38-a1-m16-cF_7f38-a1-m17-cC 7f38-a1-m16-cG_7f38-a1-m17-cH 7f38-a1-m16-cH_7f38-a1-m20-cG 7f38-a1-m16-cI_7f38-a1-m16-cH 7f38-a1-m16-cI_7f38-a1-m20-cG 7f38-a1-m17-cA_7f38-a1-m17-cD 7f38-a1-m17-cA_7f38-a1-m28-cE 7f38-a1-m17-cB_7f38-a1-m17-cC 7f38-a1-m17-cD_7f38-a1-m28-cE 7f38-a1-m17-cE_7f38-a1-m28-cA 7f38-a1-m17-cE_7f38-a1-m28-cD 7f38-a1-m17-cF_7f38-a1-m18-cB 7f38-a1-m17-cF_7f38-a1-m18-cC 7f38-a1-m17-cG_7f38-a1-m18-cH 7f38-a1-m17-cI_7f38-a1-m16-cG 7f38-a1-m17-cI_7f38-a1-m17-cH 7f38-a1-m18-cA_7f38-a1-m18-cD 7f38-a1-m18-cA_7f38-a1-m52-cE 7f38-a1-m18-cB_7f38-a1-m18-cC 7f38-a1-m18-cD_7f38-a1-m52-cE 7f38-a1-m18-cE_7f38-a1-m52-cA 7f38-a1-m18-cE_7f38-a1-m52-cD 7f38-a1-m18-cF_7f38-a1-m19-cB 7f38-a1-m18-cF_7f38-a1-m19-cC 7f38-a1-m18-cG_7f38-a1-m19-cH 7f38-a1-m18-cI_7f38-a1-m17-cG 7f38-a1-m18-cI_7f38-a1-m18-cH 7f38-a1-m19-cA_7f38-a1-m19-cD 7f38-a1-m19-cA_7f38-a1-m60-cE 7f38-a1-m19-cB_7f38-a1-m19-cC 7f38-a1-m19-cD_7f38-a1-m60-cE 7f38-a1-m19-cE_7f38-a1-m60-cA 7f38-a1-m19-cE_7f38-a1-m60-cD 7f38-a1-m19-cF_7f38-a1-m20-cB 7f38-a1-m19-cF_7f38-a1-m20-cC 7f38-a1-m19-cG_7f38-a1-m20-cH 7f38-a1-m19-cI_7f38-a1-m18-cG 7f38-a1-m19-cI_7f38-a1-m19-cH 7f38-a1-m1-cA_7f38-a1-m1-cD 7f38-a1-m1-cA_7f38-a1-m6-cE 7f38-a1-m1-cB_7f38-a1-m1-cC 7f38-a1-m1-cB_7f38-a1-m5-cF 7f38-a1-m1-cC_7f38-a1-m5-cF 7f38-a1-m1-cD_7f38-a1-m6-cE 7f38-a1-m1-cE_7f38-a1-m6-cA 7f38-a1-m1-cE_7f38-a1-m6-cD 7f38-a1-m1-cF_7f38-a1-m2-cB 7f38-a1-m1-cF_7f38-a1-m2-cC 7f38-a1-m1-cG_7f38-a1-m2-cH 7f38-a1-m1-cH_7f38-a1-m5-cG 7f38-a1-m1-cI_7f38-a1-m1-cH 7f38-a1-m1-cI_7f38-a1-m5-cG 7f38-a1-m20-cA_7f38-a1-m20-cD 7f38-a1-m20-cA_7f38-a1-m39-cE 7f38-a1-m20-cB_7f38-a1-m20-cC 7f38-a1-m20-cD_7f38-a1-m39-cE 7f38-a1-m20-cE_7f38-a1-m39-cA 7f38-a1-m20-cE_7f38-a1-m39-cD 7f38-a1-m20-cI_7f38-a1-m19-cG 7f38-a1-m20-cI_7f38-a1-m20-cH 7f38-a1-m21-cA_7f38-a1-m21-cD 7f38-a1-m21-cA_7f38-a1-m26-cE 7f38-a1-m21-cB_7f38-a1-m21-cC 7f38-a1-m21-cB_7f38-a1-m25-cF 7f38-a1-m21-cC_7f38-a1-m25-cF 7f38-a1-m21-cD_7f38-a1-m26-cE 7f38-a1-m21-cE_7f38-a1-m26-cA 7f38-a1-m21-cE_7f38-a1-m26-cD 7f38-a1-m21-cF_7f38-a1-m22-cB 7f38-a1-m21-cF_7f38-a1-m22-cC 7f38-a1-m21-cG_7f38-a1-m22-cH 7f38-a1-m21-cH_7f38-a1-m25-cG 7f38-a1-m21-cI_7f38-a1-m21-cH 7f38-a1-m21-cI_7f38-a1-m25-cG 7f38-a1-m22-cA_7f38-a1-m22-cD 7f38-a1-m22-cA_7f38-a1-m43-cE 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7f38-a1-m57-cE_7f38-a1-m8-cC 7f38-a1-m57-cF_7f38-a1-m58-cA 7f38-a1-m57-cI_7f38-a1-m56-cF 7f38-a1-m58-cB_7f38-a1-m58-cH 7f38-a1-m58-cB_7f38-a1-m8-cD 7f38-a1-m58-cF_7f38-a1-m59-cA 7f38-a1-m58-cI_7f38-a1-m57-cF 7f38-a1-m59-cB_7f38-a1-m59-cH 7f38-a1-m59-cF_7f38-a1-m60-cA 7f38-a1-m59-cI_7f38-a1-m58-cF 7f38-a1-m5-cB_7f38-a1-m50-cD 7f38-a1-m5-cB_7f38-a1-m5-cH 7f38-a1-m5-cI_7f38-a1-m4-cF 7f38-a1-m60-cB_7f38-a1-m60-cH 7f38-a1-m60-cI_7f38-a1-m59-cF 7f38-a1-m6-cB_7f38-a1-m6-cH 7f38-a1-m6-cF_7f38-a1-m7-cA 7f38-a1-m6-cI_7f38-a1-m10-cF 7f38-a1-m7-cB_7f38-a1-m7-cH 7f38-a1-m7-cF_7f38-a1-m8-cA 7f38-a1-m7-cI_7f38-a1-m6-cF 7f38-a1-m8-cB_7f38-a1-m8-cH 7f38-a1-m8-cF_7f38-a1-m9-cA 7f38-a1-m8-cI_7f38-a1-m7-cF 7f38-a1-m9-cI_7f38-a1-m8-cF LTNLTPTELLANKAVDYLANSFLVETPMLGLLANRVINQKQKAIEWGAKVAQGVVGGRTRTGALANDTQGTIKGASLSVPDYYIKHQFDVGKDEIVNSDATGKISAVRDPVGTAIADAFDVLSKKINSVLYTASGVADATNYGIFGLDAAAGTTVANSATGTYAGISKVTFPRWRSIIQGGAVPGTNEALTIARMTAMLRARRTAGVTYKGNQNQRLVILTSDNIENDVLRPLYGTVVDNQNVDFTRLDKDLLPYVNYMVKGIPVVSDIDCPANKMYLLNLDKLAIYSFDQSDADQSNGKITYIPLRYVDETGDTPSESTLWVRLADVSDEHPDLLKFELSVALQLVAFDLIDSISVIRDITQ LTNLTPTELLANKAVDYLANSFLVETPMLGLLANRVINQKQKAIEWGAKVAQGVVGGRTRTGALANDTQGTIKGASLSVPDYYIKHQFDVGKDEIVNSDATGKISAVRDPVGTAIADAFDVLSKKINSVLYTASGVADATNYGIFGLDAAAGTTVANSATGTYAGISKVTFPRWRSIIQGGAVPGTNEALTIARMTAMLRARRTAGVTYKGNQNQRLVILTSDNIENDVLRPLYGTVVDNQNVDFTRLDKDLLPYVNYMVKGIPVVSDIDCPANKMYLLNLDKLAIYSFDQSDADQSNGKITYIPLRYVDETGDTPSESTLWVRLADVSDEHPDLLKFELSVALQLVAFDLIDSISVIRDITQ 7f3e-a1-m1-cJ_7f3e-a1-m1-cL Cryo-EM structure of the minimal protein-only RNase P from Aquifex aeolicus O67035 O67035 3.62 ELECTRON MICROSCOPY 38 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 188 188 7f3e-a1-m1-cA_7f3e-a1-m1-cC 7f3e-a1-m1-cB_7f3e-a1-m1-cD 7f3e-a1-m1-cC_7f3e-a1-m1-cE 7f3e-a1-m1-cD_7f3e-a1-m1-cF 7f3e-a1-m1-cE_7f3e-a1-m1-cG 7f3e-a1-m1-cF_7f3e-a1-m1-cH 7f3e-a1-m1-cG_7f3e-a1-m1-cI 7f3e-a1-m1-cH_7f3e-a1-m1-cJ 7f3e-a1-m1-cI_7f3e-a1-m1-cK MDVFVLDTSVFTNPEIYRTFEERGAMETFIHLALNSRAEFYMPTSVYTEMRKIMDVGELWAEFEMVVKIRSPRRFQLTVPADFLYEFIEELRYRINKGLRIAEEHTREASGCEDVGKLIARLREKYREALRQGILDSKEDVDVLLLAYELDGVLVSADEGLRTWADKIGIKLIDPKNFKNILESLVRH MDVFVLDTSVFTNPEIYRTFEERGAMETFIHLALNSRAEFYMPTSVYTEMRKIMDVGELWAEFEMVVKIRSPRRFQLTVPADFLYEFIEELRYRINKGLRIAEEHTREASGCEDVGKLIARLREKYREALRQGILDSKEDVDVLLLAYELDGVLVSADEGLRTWADKIGIKLIDPKNFKNILESLVRH 7f3e-a1-m1-cK_7f3e-a1-m1-cL Cryo-EM structure of the minimal protein-only RNase P from Aquifex aeolicus O67035 O67035 3.62 ELECTRON MICROSCOPY 115 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 188 188 7f3e-a1-m1-cA_7f3e-a1-m1-cB 7f3e-a1-m1-cC_7f3e-a1-m1-cD 7f3e-a1-m1-cE_7f3e-a1-m1-cF 7f3e-a1-m1-cG_7f3e-a1-m1-cH 7f3e-a1-m1-cI_7f3e-a1-m1-cJ MDVFVLDTSVFTNPEIYRTFEERGAMETFIHLALNSRAEFYMPTSVYTEMRKIMDVGELWAEFEMVVKIRSPRRFQLTVPADFLYEFIEELRYRINKGLRIAEEHTREASGCEDVGKLIARLREKYREALRQGILDSKEDVDVLLLAYELDGVLVSADEGLRTWADKIGIKLIDPKNFKNILESLVRH MDVFVLDTSVFTNPEIYRTFEERGAMETFIHLALNSRAEFYMPTSVYTEMRKIMDVGELWAEFEMVVKIRSPRRFQLTVPADFLYEFIEELRYRINKGLRIAEEHTREASGCEDVGKLIARLREKYREALRQGILDSKEDVDVLLLAYELDGVLVSADEGLRTWADKIGIKLIDPKNFKNILESLVRH 7f3g-a1-m1-cB_7f3g-a1-m1-cA Crystal structure of DCLK1 kinase domain in complex with ruxolitinib O15075 O15075 2.1 X-RAY DIFFRACTION 84 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 266 273 PATITERYKVGRTIGDGNFAVVKECVERSTAREYALKIIKKSKCRGKEHMIQNEVSILRRVKHPNIVLLIEEMDVPTELYLVMELVKGGDLFDAITSTNKYTERDASGMLYNLASAIKYLHSLNIVHRDIKPENLLVYEHQDGSKSLKLGDFGLATIVDGPLYTVCGTPTYVAPEIIAETGYGLKVDIWAAGVITYILLCGFPPFRGSGDDQEVLFDQILMGQVDFPSPYWDNVSDSAKELITMMLLVDVDQRFSAVQVLEHPWVN SEEGFQIPATITERYKVGRTIGDGNFAVVKECVERSTAREYALKIIKKSKCRGKEHMIQNEVSILRRVKHPNIVLLIEEMDVPTELYLVMELVKGGDLFDAITSTNKYTERDASGMLYNLASAIKYLHSLNIVHRDIKPENLLVYEHQDGSKSLKLGDFGLATIVDGPLYTVCGTPTYVAPEIIAETGYGLKVDIWAAGVITYILLCGFPPFRGSGDDQEVLFDQILMGQVDFPSPYWDNVSDSAKELITMMLLVDVDQRFSAVQVLEHPWVN 7f3i-a1-m1-cE_7f3i-a1-m1-cA Crystal structure of human YBX2 CSD in complex with m5C RNA in space group P212121 Q9Y2T7 Q9Y2T7 2.25 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 93 KPVLATKVLGTVKWFNVRNGYGFINRNDTKEDVFVHQTAIKRNNPRKFLRSVGDGETVEFDVVEGEKGAEATNVTGPGGVPVKGSRYAPNR ADKPVLATKVLGTVKWFNVRNGYGFINRNDTKEDVFVHQTAIKRNNPRKFLRSVGDGETVEFDVVEGEKGAEATNVTGPGGVPVKGSRYAPNR 7f3t-a1-m1-cA_7f3t-a1-m1-cB Cryo-EM structure of human TMEM120A in the CoASH-bound state Q9BXJ8 Q9BXJ8 3.69 ELECTRON MICROSCOPY 133 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 7cxr-a1-m1-cA_7cxr-a1-m1-cB 7f3u-a1-m1-cA_7f3u-a1-m1-cB 7f6v-a1-m1-cA_7f6v-a1-m1-cB 7n0k-a1-m1-cA_7n0k-a1-m1-cB 7n0l-a1-m1-cA_7n0l-a1-m1-cB 7n7p-a1-m1-cA_7n7p-a1-m1-cB GPLGDCLRDWEDLQQDFQNIQETHRLYRLKLEELTKLQNNCTSSITRQKKRLQELALALKKCKPSLPAEAEGAAQELENQMKERQGLFFDMEAYLPKKNGLYLSLVLGNVNVTLLSKQAKFAYKDEYEKFKLYLTIILILISFTCRFLLNSRVTDAAFNFLLVWYYCTLTIRESILINNGSRIKGWWVFHHYVSTFLSGVMLTWPDGLMYQKFRNQFLSFSMYQSFVQFLQYYYQSGCLYRLRALGERHTMDLTVEGFQSWMWRGLTFLLPFLFFGHFWQLFNALTLFNLAQDPQCKEWQVLMCGFPFLLLFLGNFFTTLRVVHHKFHSQ GPLGDCLRDWEDLQQDFQNIQETHRLYRLKLEELTKLQNNCTSSITRQKKRLQELALALKKCKPSLPAEAEGAAQELENQMKERQGLFFDMEAYLPKKNGLYLSLVLGNVNVTLLSKQAKFAYKDEYEKFKLYLTIILILISFTCRFLLNSRVTDAAFNFLLVWYYCTLTIRESILINNGSRIKGWWVFHHYVSTFLSGVMLTWPDGLMYQKFRNQFLSFSMYQSFVQFLQYYYQSGCLYRLRALGERHTMDLTVEGFQSWMWRGLTFLLPFLFFGHFWQLFNALTLFNLAQDPQCKEWQVLMCGFPFLLLFLGNFFTTLRVVHHKFHSQ 7f40-a1-m1-cA_7f40-a1-m1-cB Lysophospholipid acyltransferase LPCAT3 in a complex with Arachidonoyl-CoA A0A1L1RNG8 A0A1L1RNG8 3.49 ELECTRON MICROSCOPY 21 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 449 449 LARVAEALGSSEQALRLIVSILMGYPFALFQRYFLFQKETYLIHLYNVFTGLSIAYFNFGMQFFHSLLCVLIQFLILRLMGRTVTAVFTTFVFQMTYLMAGYYFTATEHYDIKWTMPHCVLTLKLIGLAIDYYDGGKDPELLTPEQRRFAVRGVPTLLEVSGFSYFYGAFMVGPQFSMTDYQKLAKGEMTDVPGQRPNSFVPALKRLSLGLLFLVTYTLSSPYISEEYLISDDYMEKPFWFRCGYILVWGKIILYKYVTCWLVTEGVCILVGLGYNGNDQNGKPVWDACANMKVWLYETTPLFTGTIASFNINTNAWVARYVFKRLKFLGNKLLSQALALFFLAIWHGLHSGYLVCFQMELLIVIVERQVINLVRDSPTLSTLASITALQPIFYVLQQTNHWMFMGYSLVPFCLFTWDKWMKVYKSIYFLGHVLFFTLLLVLPYIRKLL LARVAEALGSSEQALRLIVSILMGYPFALFQRYFLFQKETYLIHLYNVFTGLSIAYFNFGMQFFHSLLCVLIQFLILRLMGRTVTAVFTTFVFQMTYLMAGYYFTATEHYDIKWTMPHCVLTLKLIGLAIDYYDGGKDPELLTPEQRRFAVRGVPTLLEVSGFSYFYGAFMVGPQFSMTDYQKLAKGEMTDVPGQRPNSFVPALKRLSLGLLFLVTYTLSSPYISEEYLISDDYMEKPFWFRCGYILVWGKIILYKYVTCWLVTEGVCILVGLGYNGNDQNGKPVWDACANMKVWLYETTPLFTGTIASFNINTNAWVARYVFKRLKFLGNKLLSQALALFFLAIWHGLHSGYLVCFQMELLIVIVERQVINLVRDSPTLSTLASITALQPIFYVLQQTNHWMFMGYSLVPFCLFTWDKWMKVYKSIYFLGHVLFFTLLLVLPYIRKLL 7f42-a1-m1-cB_7f42-a1-m1-cA PARP15 catalytic domain in complex with Iniparib Q460N3 Q460N3 1.41 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 198 200 3gey-a5-m1-cA_3gey-a5-m1-cD 3gey-a6-m1-cB_3gey-a6-m1-cC 4f0e-a5-m2-cD_4f0e-a5-m1-cA 4f0e-a6-m3-cC_4f0e-a6-m1-cB 6ek3-a1-m1-cA_6ek3-a1-m1-cB 7f41-a1-m1-cB_7f41-a1-m1-cA 7f43-a1-m1-cA_7f43-a1-m1-cB 7oqq-a1-m1-cA_7oqq-a1-m1-cB 7osp-a1-m1-cA_7osp-a1-m1-cB 7oss-a1-m1-cA_7oss-a1-m1-cB 7osx-a1-m1-cA_7osx-a1-m1-cB 7otf-a1-m1-cA_7otf-a1-m1-cB 7oth-a1-m1-cA_7oth-a1-m1-cB 7ouw-a1-m1-cA_7ouw-a1-m1-cB 7oux-a1-m1-cA_7oux-a1-m1-cB 7pw3-a1-m1-cA_7pw3-a1-m1-cB 7pwa-a1-m1-cA_7pwa-a1-m1-cB 7pwc-a1-m1-cA_7pwc-a1-m1-cB 7pwk-a1-m1-cA_7pwk-a1-m1-cB 7pwl-a1-m1-cA_7pwl-a1-m1-cB 7pwm-a1-m1-cA_7pwm-a1-m1-cB 7pwp-a1-m1-cA_7pwp-a1-m1-cB 7pwq-a1-m1-cA_7pwq-a1-m1-cB 7pwr-a1-m1-cA_7pwr-a1-m1-cB 7pws-a1-m1-cA_7pws-a1-m1-cB 7pwu-a1-m1-cA_7pwu-a1-m1-cB 7pww-a1-m1-cA_7pww-a1-m1-cB 7px6-a1-m1-cA_7px6-a1-m1-cB 7px7-a1-m1-cA_7px7-a1-m1-cB 7r3o-a1-m1-cA_7r3o-a1-m1-cB 7r4a-a1-m1-cA_7r4a-a1-m1-cB 7r5d-a1-m1-cA_7r5d-a1-m1-cB 7z1v-a1-m1-cA_7z1v-a1-m1-cB 7z1w-a1-m1-cA_7z1w-a1-m1-cB 7z1y-a1-m1-cA_7z1y-a1-m1-cB 7z2o-a1-m1-cA_7z2o-a1-m1-cB 7z2q-a1-m1-cA_7z2q-a1-m1-cB 7z41-a1-m1-cA_7z41-a1-m1-cB NLPEHWTDMNHQLFCMVQLEPGQSEYNTIKDKFTRTCSSYAIEKIERIQNAFLWQSYQVKKRQMDIKNDHKNNERLLFHGTDADSVPYVNQHGFNRSCAGKNAVSYGKGTYFAVDASYSAKDTYSKPDSNGRKHMYVVRVLTGVFTKGRAGLVTPPPKNPHNPTDLFDSVTNNTRSPKLFVVFFDNQAYPEYLITFTA TCNLPEHWTDMNHQLFCMVQLEPGQSEYNTIKDKFTRTCSSYAIEKIERIQNAFLWQSYQVKKRQMDIKNDHKNNERLLFHGTDADSVPYVNQHGFNRSCAGKNAVSYGKGTYFAVDASYSAKDTYSKPDSNGRKHMYVVRVLTGVFTKGRAGLVTPPPKNPHNPTDLFDSVTNNTRSPKLFVVFFDNQAYPEYLITFTA 7f44-a1-m1-cA_7f44-a1-m4-cA Crystal structure of Moraxella catarrhalis enoyl-ACP-reductase (FabI) in complex with the cofactor NAD D5VCE0 D5VCE0 2.12 X-RAY DIFFRACTION 51 1.0 1236608 (Moraxella catarrhalis BBH18) 1236608 (Moraxella catarrhalis BBH18) 267 267 7f44-a1-m2-cA_7f44-a1-m3-cA 7fc8-a1-m1-cA_7fc8-a1-m3-cA 7fc8-a1-m2-cA_7fc8-a1-m4-cA 7fcm-a1-m1-cA_7fcm-a1-m2-cA 7fcm-a1-m1-cB_7fcm-a1-m2-cB MLLKGQRFVVTGIASKLSIAWAIAESLHREGAQLILTYPNDKIKKRVDMAAEAFDAVAVIECDVGSDESIQVCFDEIAKHWGVGDDKGIDGIVHAIGFAPADQLDGDFTQATTREGSQIAHDISSYSFVALAKAGRELLAARQGSLLTLTYEGSISVLPNYNVMGMAKASLEASVRYLASSLGGEGIRVNAISAGPIRTLAASGIKSFRRMLDVSEKIAPLQRNVSQEEVGNAALFLLSPWASGITGEILFVDAGFNTVAISEKIMM MLLKGQRFVVTGIASKLSIAWAIAESLHREGAQLILTYPNDKIKKRVDMAAEAFDAVAVIECDVGSDESIQVCFDEIAKHWGVGDDKGIDGIVHAIGFAPADQLDGDFTQATTREGSQIAHDISSYSFVALAKAGRELLAARQGSLLTLTYEGSISVLPNYNVMGMAKASLEASVRYLASSLGGEGIRVNAISAGPIRTLAASGIKSFRRMLDVSEKIAPLQRNVSQEEVGNAALFLLSPWASGITGEILFVDAGFNTVAISEKIMM 7f44-a1-m2-cA_7f44-a1-m4-cA Crystal structure of Moraxella catarrhalis enoyl-ACP-reductase (FabI) in complex with the cofactor NAD D5VCE0 D5VCE0 2.12 X-RAY DIFFRACTION 120 1.0 1236608 (Moraxella catarrhalis BBH18) 1236608 (Moraxella catarrhalis BBH18) 267 267 7f44-a1-m1-cA_7f44-a1-m3-cA 7fc8-a1-m1-cA_7fc8-a1-m4-cA 7fc8-a1-m2-cA_7fc8-a1-m3-cA 7fcm-a1-m1-cA_7fcm-a1-m2-cB 7fcm-a1-m2-cA_7fcm-a1-m1-cB MLLKGQRFVVTGIASKLSIAWAIAESLHREGAQLILTYPNDKIKKRVDMAAEAFDAVAVIECDVGSDESIQVCFDEIAKHWGVGDDKGIDGIVHAIGFAPADQLDGDFTQATTREGSQIAHDISSYSFVALAKAGRELLAARQGSLLTLTYEGSISVLPNYNVMGMAKASLEASVRYLASSLGGEGIRVNAISAGPIRTLAASGIKSFRRMLDVSEKIAPLQRNVSQEEVGNAALFLLSPWASGITGEILFVDAGFNTVAISEKIMM MLLKGQRFVVTGIASKLSIAWAIAESLHREGAQLILTYPNDKIKKRVDMAAEAFDAVAVIECDVGSDESIQVCFDEIAKHWGVGDDKGIDGIVHAIGFAPADQLDGDFTQATTREGSQIAHDISSYSFVALAKAGRELLAARQGSLLTLTYEGSISVLPNYNVMGMAKASLEASVRYLASSLGGEGIRVNAISAGPIRTLAASGIKSFRRMLDVSEKIAPLQRNVSQEEVGNAALFLLSPWASGITGEILFVDAGFNTVAISEKIMM 7f44-a1-m3-cA_7f44-a1-m4-cA Crystal structure of Moraxella catarrhalis enoyl-ACP-reductase (FabI) in complex with the cofactor NAD D5VCE0 D5VCE0 2.12 X-RAY DIFFRACTION 109 1.0 1236608 (Moraxella catarrhalis BBH18) 1236608 (Moraxella catarrhalis BBH18) 267 267 7f44-a1-m1-cA_7f44-a1-m2-cA 7fc8-a1-m1-cA_7fc8-a1-m2-cA 7fc8-a1-m3-cA_7fc8-a1-m4-cA 7fcm-a1-m1-cA_7fcm-a1-m1-cB 7fcm-a1-m2-cA_7fcm-a1-m2-cB MLLKGQRFVVTGIASKLSIAWAIAESLHREGAQLILTYPNDKIKKRVDMAAEAFDAVAVIECDVGSDESIQVCFDEIAKHWGVGDDKGIDGIVHAIGFAPADQLDGDFTQATTREGSQIAHDISSYSFVALAKAGRELLAARQGSLLTLTYEGSISVLPNYNVMGMAKASLEASVRYLASSLGGEGIRVNAISAGPIRTLAASGIKSFRRMLDVSEKIAPLQRNVSQEEVGNAALFLLSPWASGITGEILFVDAGFNTVAISEKIMM MLLKGQRFVVTGIASKLSIAWAIAESLHREGAQLILTYPNDKIKKRVDMAAEAFDAVAVIECDVGSDESIQVCFDEIAKHWGVGDDKGIDGIVHAIGFAPADQLDGDFTQATTREGSQIAHDISSYSFVALAKAGRELLAARQGSLLTLTYEGSISVLPNYNVMGMAKASLEASVRYLASSLGGEGIRVNAISAGPIRTLAASGIKSFRRMLDVSEKIAPLQRNVSQEEVGNAALFLLSPWASGITGEILFVDAGFNTVAISEKIMM 7f47-a1-m1-cA_7f47-a1-m2-cA Cryo-EM structure of Rhizobium etli MprF Q2K4J4 Q2K4J4 2.99 ELECTRON MICROSCOPY 37 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 830 830 RTPLTAAATLIVFCLVGYAIMQLTNEVRYDDVVAALAATGPSAILLALFFTALSFLSLVFYDLNAIEYIGKKLPFPHVALTAFSAYAVGNTAGFGALSGGAIRYRAYTRLGLSPEDIGRIIAFVTLSFGLGLAAVASIALIIIASEIGPLIGVSPFLLRLIAGSIIAILGAVMIIGREGRVLNFGAVAIRLPDSRTWSRQFLVTAFDIAASASVLYVLLPQTAIGWPVFLAVYAIAVGLGVLSHVPAGLGVFETVIIASLGSAVNIDAVLGSLVLYRLIYHVLPLLIAVLAVSAAELHPAASSVRRIGGRLMPQLLSTLALLLGVMLVFSSVTPTPDQNLEFLSNYLPLPMVEGAHFLSSLLGLALVVAARGLGQRLDGAWWVAVFSAVAALTLSLLKAIALVEAAFLAFLIFGLFVSRRLFTRHASLLNQAMTASWLMAIAVIVVGAVVILLFVYRDVEYSNELWWQFEFTAEAPRGLRALLGITIISSAIAIFSLLRPATFRPEPATEEALTRAVEIVRKQGNADANLVRMGDKSIMFSEKGDAFIMYGRQGRSWIALFDPVGDHGAVQELVWRFVEAARAAGCRAVFYQISPALLSHCADAGLRAFKLGELAVADLRTFEMKGGKWANLRQTASRAQRDGLEFAVVEPENVPDIIDELAAVSTAWLEHHNAKEKGFSLGSFDPDYVSAQPVGILKKDGKIVAFANILVTESKEEGTIDLMRFSPDAPKGSMDFLFVQIMEYLRNQGFTHFNLGMAPLSAAPVWDRIGSTVFEHGERFYNFKGLRAFKSKFHPHWQPRYLAVSGGGNPMIALMDATFLIGGGLKGVVR RTPLTAAATLIVFCLVGYAIMQLTNEVRYDDVVAALAATGPSAILLALFFTALSFLSLVFYDLNAIEYIGKKLPFPHVALTAFSAYAVGNTAGFGALSGGAIRYRAYTRLGLSPEDIGRIIAFVTLSFGLGLAAVASIALIIIASEIGPLIGVSPFLLRLIAGSIIAILGAVMIIGREGRVLNFGAVAIRLPDSRTWSRQFLVTAFDIAASASVLYVLLPQTAIGWPVFLAVYAIAVGLGVLSHVPAGLGVFETVIIASLGSAVNIDAVLGSLVLYRLIYHVLPLLIAVLAVSAAELHPAASSVRRIGGRLMPQLLSTLALLLGVMLVFSSVTPTPDQNLEFLSNYLPLPMVEGAHFLSSLLGLALVVAARGLGQRLDGAWWVAVFSAVAALTLSLLKAIALVEAAFLAFLIFGLFVSRRLFTRHASLLNQAMTASWLMAIAVIVVGAVVILLFVYRDVEYSNELWWQFEFTAEAPRGLRALLGITIISSAIAIFSLLRPATFRPEPATEEALTRAVEIVRKQGNADANLVRMGDKSIMFSEKGDAFIMYGRQGRSWIALFDPVGDHGAVQELVWRFVEAARAAGCRAVFYQISPALLSHCADAGLRAFKLGELAVADLRTFEMKGGKWANLRQTASRAQRDGLEFAVVEPENVPDIIDELAAVSTAWLEHHNAKEKGFSLGSFDPDYVSAQPVGILKKDGKIVAFANILVTESKEEGTIDLMRFSPDAPKGSMDFLFVQIMEYLRNQGFTHFNLGMAPLSAAPVWDRIGSTVFEHGERFYNFKGLRAFKSKFHPHWQPRYLAVSGGGNPMIALMDATFLIGGGLKGVVR 7f4v-a1-m1-cbL_7f4v-a1-m1-ccL Cryo-EM structure of a primordial cyanobacterial photosystem I Q7NIE7 Q7NIE7 2.04 ELECTRON MICROSCOPY 58 1.0 251221 (Gloeobacter violaceus PCC 7421) 251221 (Gloeobacter violaceus PCC 7421) 129 129 7f4v-a1-m1-caL_7f4v-a1-m1-cbL 7f4v-a1-m1-caL_7f4v-a1-m1-ccL LLTPVNNSTAIRWFIDNLPINRVGMDEFTRGLEIGMAHGYWLIGPFALLGPLRNTELGLVAGLVSTIGLLLISTIGLSGYASLVEDVPTEFDRKGWSRLAGGFLVGGVGGAIFAFAILQFFPLVSAIAR LLTPVNNSTAIRWFIDNLPINRVGMDEFTRGLEIGMAHGYWLIGPFALLGPLRNTELGLVAGLVSTIGLLLISTIGLSGYASLVEDVPTEFDRKGWSRLAGGFLVGGVGGAIFAFAILQFFPLVSAIAR 7f4y-a1-m1-cA_7f4y-a1-m1-cB Crystal structure of replisomal dimer of DNA polymerase from bacteriophage RB69 with DNA duplexes Q38087 Q38087 2.2 X-RAY DIFFRACTION 31 0.998 12353 (Escherichia phage RB69) 12353 (Escherichia phage RB69) 899 901 GSMKEFYLTVEQIGDSIFERYIDSNGRERTREVEYKPSLFAHCPESQATKYFDIYGKPCTRKLFANMRDASQWIKRMEDIGLEALGMDDFKLAYLSDTYNYEIKYDHTKIRVANFDIEVTSPDGFPEPSQAKHPIDAITHYDSIDDRFYVFDLLNSPYGNVEEWSIEIAAKLQEQGGDEVPSEIIDKIIYMPFDNEKELLMEYLNFWQQKTPVILTGWNVESFAIPYVYNRIKNIFGESTAKRLSPHRKTRVKVIENMYGSREIITLFGISVLDYIDLYKKFSFTNQPSYSLDYISEFELNVGKLKYDGPISKLRESNHQRYISYNIIAVYRVLQIDAKRQFINLSLDMGYYAKIQIQSVFSPIKTWDAIIFNSLKEQNKVIPQGRSHPVQPYPGAFVKEPIPNRYKYVMSFDLTSLYPSIIRQVNISPETIAGTFKVAPLHDYINAVAERPSDVYSCSPNGMMYYKDRDGVVPTEITKVFNQRKEHKGYMLAAQRNGEIIKEALHNPNLSVDEPLDVDYRFDFSDEIKEKIKKLSAKSLNEMLFRAQRTEVAGMTAQINRKLLINSLYGALGNVWFRYYDLRNATAITTFGQMALQWIERKVNEYLNEVCGTEGEAFVLYGDTDSIYVSADKIIDKVGESKFRDTNHWVDFLDKFARERMEPAIDRGFREMCEYMNNKQHLMFMDREAIAGPPLGSKGIGGFWTGKKRYALNVWDMEGTRYAEPKLKIMGLETQKSSTPKAVQKALKECIRRMLQEGEESLQEYFKEFEKEFRQLNYISIASVSSANNIAKYDVGGFPGPKCPFHIRGILTYNRAIKGNIDAPQVVEGEKVYVLPLREGNPFGDKCIAWPSGTEITDLIKDDVLHWMDYTVLLEKTFIKPLEGFTSAAKLDYEKKASL MKEFYLTVEQIGDSIFERYIDSNGRERTREVEYKPSLFAHCPESQATKYFDIYGKPCTRKLFANMRDASQWIKRMEDIGLEALGMDDFKLAYLSDTYNYEIKYDHTKIRVANFDIEVTSPDGFPEPSQAKHPIDAITHYDSIDDRFYVFDLLNSPYGNVEEWSIEIAAKLQEQGGDEVPSEIIDKIIYMPFDNEKELLMEYLNFWQQKTPVILTGWNVESFAIPYVYNRIKNIFGESTAKRLSPHRKTRVKVIENMYGSREIITLFGISVLDYIDLYKKFSFTNQPSYSLDYISEFELNVGKLKYDGPISKLRESNHQRYISYNIIAVYRVLQIDAKRQFINLSLDMGYYAKIQIQSVFSPIKTWDAIIFNSLKEQNKVIPQGRSHPVQPYPGAFVKEPIPNRYKYVMSFDLTSLYPSIIRQVNISPETIAGTFKVAPLHDYINAVAERPSDVYSCSPNGMMYYKDRDGVVPTEITKVFNQRKEHKGYMLAAQRNGEIIKEALHNPNLSVDEPLDVDYRFDFSDEIKEKIKKLSAKSLNEMLFRAQRTEVAGMTAQINRKLLINSLYGALGNVWFRYYDLRNATAITTFGQMALQWIERKVNEYLNEVCGTEGEAFVLYGDTDSIYVSADKIIDKVGESKFRDTNHWVDFLDKFARERMEPAIDRGFREMCEYMNNKQHLMFMDREAIAGPPLGSKGIGGFWTGKKRYALNVWDMEGTRYAEPKLKIMGLETQKSSTPKAVQKALKECIRRMLQEGEESLQEYFKEFEKEFRQLNYISIASVSSANNIAKYDVGGFPGPKCPFHIRGILTYNRAIKGNIDAPQVVEGEKVYVLPLREGNPFGDKCIAWPSGTEITDLIKDDVLHWMDYTVLLEKTFIKPLEGFTSAAKLDYEKKASLFDMF 7f52-a1-m1-cA_7f52-a1-m1-cB Crystal Structure of IBV Nsp2 P0C6Y3 P0C6Y3 2.559 X-RAY DIFFRACTION 66 1.0 11120 (Infectious bronchitis virus) 11120 (Infectious bronchitis virus) 584 584 LRDVILVSKDIPEQLCDALFFYTSHNPKDYADAFAVRQKFDRNLQTGKQFKFETVCGLFLLKGVDKITPGVPAKVLKATSKLADLEDIFGVSPFARKYRELLKTACQWSLTVEALDVRAQTLDEIFDPTEILWLQVAAKIHVSSMAMRRLVGEVTAKVMDALGSNLSALFQIFKQQIVRIFQKALAIFENVSELPQRIAALKMAFAKCARSITVVVMERTLVVREFAGTCLASINGAVAKFFEELPNGFMGAKIFTTLAFFKEAAVRIVENIPNAPRGTKGFEVVGNAKGTQVVVRGMRNDLTLLDQKADIPVESEGWSAILGGHLCYVFRSGDRFYAAPLSGNFALHDVHCCERVVCLSDGVTPEINDGLILAAIYSSFSVAELVAAIKKGEPFKFLGHKFVYAKDAAVSFTLAKAATIADVLRLFQSARVKVEDVWSSLTEKSFEFWRLAYGKVRNLEEFVKTCFCKAQMAIVILATVLGEGIWHLVSQVIYKVGGLFTKVVDFCEKYWKGFCAQLKRAKLIVTETLCVLKGVAQHCFQLLLDAIQFMYKSFRKCALGRIHGDLLFWKGGVHKIIQEGDEIW LRDVILVSKDIPEQLCDALFFYTSHNPKDYADAFAVRQKFDRNLQTGKQFKFETVCGLFLLKGVDKITPGVPAKVLKATSKLADLEDIFGVSPFARKYRELLKTACQWSLTVEALDVRAQTLDEIFDPTEILWLQVAAKIHVSSMAMRRLVGEVTAKVMDALGSNLSALFQIFKQQIVRIFQKALAIFENVSELPQRIAALKMAFAKCARSITVVVMERTLVVREFAGTCLASINGAVAKFFEELPNGFMGAKIFTTLAFFKEAAVRIVENIPNAPRGTKGFEVVGNAKGTQVVVRGMRNDLTLLDQKADIPVESEGWSAILGGHLCYVFRSGDRFYAAPLSGNFALHDVHCCERVVCLSDGVTPEINDGLILAAIYSSFSVAELVAAIKKGEPFKFLGHKFVYAKDAAVSFTLAKAATIADVLRLFQSARVKVEDVWSSLTEKSFEFWRLAYGKVRNLEEFVKTCFCKAQMAIVILATVLGEGIWHLVSQVIYKVGGLFTKVVDFCEKYWKGFCAQLKRAKLIVTETLCVLKGVAQHCFQLLLDAIQFMYKSFRKCALGRIHGDLLFWKGGVHKIIQEGDEIW 7f56-a1-m1-cA_7f56-a1-m1-cB DNQX-bound GluK2-1xNeto2 complex, with asymmetric LBD P42260 P42260 4.1 ELECTRON MICROSCOPY 226 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 831 831 3h6g-a1-m1-cA_3h6g-a1-m1-cB 3h6h-a1-m1-cB_3h6h-a1-m1-cA 3qlt-a1-m1-cB_3qlt-a1-m1-cA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVE THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVE 7f56-a1-m1-cB_7f56-a1-m1-cC DNQX-bound GluK2-1xNeto2 complex, with asymmetric LBD P42260 P42260 4.1 ELECTRON MICROSCOPY 174 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 831 835 THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVE THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f56-a1-m1-cD_7f56-a1-m1-cB DNQX-bound GluK2-1xNeto2 complex, with asymmetric LBD P42260 P42260 4.1 ELECTRON MICROSCOPY 28 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 831 THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVE 7f56-a1-m1-cD_7f56-a1-m1-cC DNQX-bound GluK2-1xNeto2 complex, with asymmetric LBD P42260 P42260 4.1 ELECTRON MICROSCOPY 244 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 835 THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f57-a1-m1-cD_7f57-a1-m1-cA Kainate-bound GluK2-1xNeto2 complex, at the desensitized state P42260 P42260 3.8 ELECTRON MICROSCOPY 147 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 835 7f56-a1-m1-cD_7f56-a1-m1-cA 7f57-a1-m1-cB_7f57-a1-m1-cC THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f5a-a1-m1-cB_7f5a-a1-m1-cC DNQX-bound GluK2-2xNeto2 complex P42260 P42260 6.4 ELECTRON MICROSCOPY 165 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 835 7f59-a1-m1-cD_7f59-a1-m1-cA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f5a-a1-m1-cB_7f5a-a1-m1-cD DNQX-bound GluK2-2xNeto2 complex P42260 P42260 6.4 ELECTRON MICROSCOPY 27 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 818 7f59-a1-m1-cD_7f59-a1-m1-cB THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA 7f5a-a1-m1-cD_7f5a-a1-m1-cC DNQX-bound GluK2-2xNeto2 complex P42260 P42260 6.4 ELECTRON MICROSCOPY 231 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 835 THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAILGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f5b-a1-m1-cB_7f5b-a1-m1-cA LBD-TMD focused reconstruction of DNQX-bound GluK2-1xNeto2 complex P42260 P42260 3.9 ELECTRON MICROSCOPY 130 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 433 437 7f59-a1-m1-cB_7f59-a1-m1-cA RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVE RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f5b-a1-m1-cD_7f5b-a1-m1-cA LBD-TMD focused reconstruction of DNQX-bound GluK2-1xNeto2 complex P42260 P42260 3.9 ELECTRON MICROSCOPY 177 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 420 437 7f59-a1-m1-cB_7f59-a1-m1-cC 7f5a-a1-m1-cD_7f5a-a1-m1-cA 7f5b-a1-m1-cB_7f5b-a1-m1-cC RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f5b-a1-m1-cD_7f5b-a1-m1-cC LBD-TMD focused reconstruction of DNQX-bound GluK2-1xNeto2 complex P42260 P42260 3.9 ELECTRON MICROSCOPY 141 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 420 437 7f59-a1-m1-cD_7f59-a1-m1-cC RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNAQLEKRSFCSAMVEELRM 7f5t-a1-m1-cB_7f5t-a1-m1-cD Drosophila P5CS filament with glutamate Q9VNW6 Q9VNW6 4.1 ELECTRON MICROSCOPY 224 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 674 674 7f5t-a1-m1-cA_7f5t-a1-m1-cC 7f5x-a1-m1-cA_7f5x-a1-m1-cC 7f5x-a1-m1-cB_7f5x-a1-m1-cD 7wx3-a1-m1-cA_7wx3-a1-m1-cC 7wx3-a1-m1-cB_7wx3-a1-m1-cD 7wx3-a1-m1-cE_7wx3-a1-m1-cA 7wx3-a1-m1-cE_7wx3-a1-m1-cB 7wx3-a1-m1-cF_7wx3-a1-m1-cA 7wx3-a1-m1-cF_7wx3-a1-m1-cB 7wx3-a1-m1-cG_7wx3-a1-m1-cC 7wx3-a1-m1-cG_7wx3-a1-m1-cD 7wx3-a1-m1-cH_7wx3-a1-m1-cC 7wx3-a1-m1-cH_7wx3-a1-m1-cD 7wx4-a1-m1-cE_7wx4-a1-m1-cA PTFTERSQLKYARRLVVKLGSAVITREDNHGLALGRLASIVEQVAECHLEGREVMMVTSGAVAFGKQKLAQELLMSLSMRPRAAAAVGQSGLMSLYDAMFAQYGVKIAQVLVTKPDFYNEETRNNLFCTLSELISLNIVPIINTNDAVSPDNDSLSAMLAAEVQADLLILMSDVDGIYNKPPWEDGAKLMHTYTSKVKAATWALDRGVSVVICNGMQEKAIKTIIGGRKVGTFFTEATESANAVPVEVMAENARTGSRQMQALTPAQRASAVNTLADLLVSREKFILDANAKDLAEAQKSGLAKPLLSRLSLNPAKLKNLSVGLKQIAEDSHKNVGRVLRRTRLADQLELKQVTVPIGVLLVIFESRPDSLPQVAALAMASANGLLLKGGKEAAHSNKALMELVKEALATVGAEHAVSLVSTREEISDLLSMENHIDLIIPRGSSDLVRSIQQQSLHIPVLGHAEGVCHVYIDRDADLEKALRIARDAKCDYPAACNAMETLLIHEDLMSGAIFGDVCNMLKREGVKIYAGPRLNQQLTFGPPAAKSLKHEYGALECCIEVVPSLDEAINHIHTYGSSHTDVIVTENDAAARQFLGSVDSACVFHNASSRFADGFRFGLGAEVGISTARIHARGPVGVEGLLTTKWILEGQDHAAADFAEGGGRTWLHETLPLD PTFTERSQLKYARRLVVKLGSAVITREDNHGLALGRLASIVEQVAECHLEGREVMMVTSGAVAFGKQKLAQELLMSLSMRPRAAAAVGQSGLMSLYDAMFAQYGVKIAQVLVTKPDFYNEETRNNLFCTLSELISLNIVPIINTNDAVSPDNDSLSAMLAAEVQADLLILMSDVDGIYNKPPWEDGAKLMHTYTSKVKAATWALDRGVSVVICNGMQEKAIKTIIGGRKVGTFFTEATESANAVPVEVMAENARTGSRQMQALTPAQRASAVNTLADLLVSREKFILDANAKDLAEAQKSGLAKPLLSRLSLNPAKLKNLSVGLKQIAEDSHKNVGRVLRRTRLADQLELKQVTVPIGVLLVIFESRPDSLPQVAALAMASANGLLLKGGKEAAHSNKALMELVKEALATVGAEHAVSLVSTREEISDLLSMENHIDLIIPRGSSDLVRSIQQQSLHIPVLGHAEGVCHVYIDRDADLEKALRIARDAKCDYPAACNAMETLLIHEDLMSGAIFGDVCNMLKREGVKIYAGPRLNQQLTFGPPAAKSLKHEYGALECCIEVVPSLDEAINHIHTYGSSHTDVIVTENDAAARQFLGSVDSACVFHNASSRFADGFRFGLGAEVGISTARIHARGPVGVEGLLTTKWILEGQDHAAADFAEGGGRTWLHETLPLD 7f5u-a1-m1-cB_7f5u-a1-m1-cD Drosophila P5CS filament with glutamate and ATPgammaS Q9VNW6 Q9VNW6 4.1 ELECTRON MICROSCOPY 229 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 685 685 7f5u-a1-m1-cA_7f5u-a1-m1-cC 7f5v-a1-m1-cA_7f5v-a1-m1-cC 7f5v-a1-m1-cB_7f5v-a1-m1-cD 7wxf-a1-m1-cA_7wxf-a1-m1-cB 7wxh-a1-m1-cA_7wxh-a1-m1-cB 7wxi-a1-m1-cA_7wxi-a1-m1-cB PTFTERSQLKYARRLVVKLGSAVITREDNHGLALGRLASIVEQVAECHLEGREVMMVTSGAVAFGKQKLAQELLMSLSMRETLNEPRAAAAVGQSGLMSLYDAMFAQYGVKIAQVLVTKPDFYNEETRNNLFCTLSELISLNIVPIINTNDAVSPPPIKDNDSLSAMLAAEVQADLLILMSDVDGIYNKPPWEDGAKLMHTYTSDSKVKAATWALDRGVSVVICNGMQEKAIKTIIGGRKVGTFFTEATESANAVPVEVMAENARTGSRQMQALTPAQRASAVNTLADLLVSREKFILDANAKDLAEAQKSGLAKPLLSRLSLNPAKLKNLSVGLKQIAEDSHKNVGRVLRRTRLADQLELKQVTVPIGVLLVIFESRPDSLPQVAALAMASANGLLLKGGKEAAHSNKALMELVKEALATVGAEHAVSLVSTREEISDLLSMENHIDLIIPRGSSDLVRSIQQQSLHIPVLGHAEGVCHVYIDRDADLEKALRIARDAKCDYPAACNAMETLLIHEDLMSGAIFGDVCNMLKREGVKIYAGPRLNQQLTFGPPAAKSLKHEYGALECCIEVVPSLDEAINHIHTYGSSHTDVIVTENDAAARQFLGSVDSACVFHNASSRFADGFRFGLGAEVGISTARIHARGPVGVEGLLTTKWILEGQDHAAADFAEGGGRTWLHETLPLD PTFTERSQLKYARRLVVKLGSAVITREDNHGLALGRLASIVEQVAECHLEGREVMMVTSGAVAFGKQKLAQELLMSLSMRETLNEPRAAAAVGQSGLMSLYDAMFAQYGVKIAQVLVTKPDFYNEETRNNLFCTLSELISLNIVPIINTNDAVSPPPIKDNDSLSAMLAAEVQADLLILMSDVDGIYNKPPWEDGAKLMHTYTSDSKVKAATWALDRGVSVVICNGMQEKAIKTIIGGRKVGTFFTEATESANAVPVEVMAENARTGSRQMQALTPAQRASAVNTLADLLVSREKFILDANAKDLAEAQKSGLAKPLLSRLSLNPAKLKNLSVGLKQIAEDSHKNVGRVLRRTRLADQLELKQVTVPIGVLLVIFESRPDSLPQVAALAMASANGLLLKGGKEAAHSNKALMELVKEALATVGAEHAVSLVSTREEISDLLSMENHIDLIIPRGSSDLVRSIQQQSLHIPVLGHAEGVCHVYIDRDADLEKALRIARDAKCDYPAACNAMETLLIHEDLMSGAIFGDVCNMLKREGVKIYAGPRLNQQLTFGPPAAKSLKHEYGALECCIEVVPSLDEAINHIHTYGSSHTDVIVTENDAAARQFLGSVDSACVFHNASSRFADGFRFGLGAEVGISTARIHARGPVGVEGLLTTKWILEGQDHAAADFAEGGGRTWLHETLPLD 7f5v-a1-m1-cA_7f5v-a1-m1-cD Drosophila P5CS filament with glutamate, ATP, and NADPH Q9VNW6 Q9VNW6 3.6 ELECTRON MICROSCOPY 125 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 690 690 7f5t-a1-m1-cA_7f5t-a1-m1-cD 7f5t-a1-m1-cB_7f5t-a1-m1-cC 7f5u-a1-m1-cA_7f5u-a1-m1-cD 7f5u-a1-m1-cB_7f5u-a1-m1-cC 7f5v-a1-m1-cB_7f5v-a1-m1-cC 7f5x-a1-m1-cA_7f5x-a1-m1-cD 7f5x-a1-m1-cB_7f5x-a1-m1-cC 7wx3-a1-m1-cA_7wx3-a1-m1-cD 7wx3-a1-m1-cB_7wx3-a1-m1-cC PTFTERSQLKYARRLVVKLGSAVITREDNHGLALGRLASIVEQVAECHLEGREVMMVTSGAVAFGKQKLAQELLMSLSMRETLNLEPRAAAAVGQSGLMSLYDAMFAQYGVKIAQVLVTKPDFYNEETRNNLFCTLSELISLNIVPIINTNDAVSPPMFIPIKDNDSLSAMLAAEVQADLLILMSDVDGIYNKPPWEDGAKLMHTYTSMDSKVKAATWALDRGVSVVICNGMQEKAIKTIIGGRKVGTFFTEATESANAVPVEVMAENARTGSRQMQALTPAQRASAVNTLADLLVSREKFILDANAKDLAEAQKSGLAKPLLSRLSLNPAKLKNLSVGLKQIAEDSHKNVGRVLRRTRLADQLELKQVTVPIGVLLVIFESRPDSLPQVAALAMASANGLLLKGGKEAAHSNKALMELVKEALATVGAEHAVSLVSTREEISDLLSMENHIDLIIPRGSSDLVRSIQQQSLHIPVLGHAEGVCHVYIDRDADLEKALRIARDAKCDYPAACNAMETLLIHEDLMSGAIFGDVCNMLKREGVKIYAGPRLNQQLTFGPPAAKSLKHEYGALECCIEVVPSLDEAINHIHTYGSSHTDVIVTENDAAARQFLGSVDSACVFHNASSRFADGFRFGLGAEVGISTARIHARGPVGVEGLLTTKWILEGQDHAAADFAEGGGRTWLHETLPLD PTFTERSQLKYARRLVVKLGSAVITREDNHGLALGRLASIVEQVAECHLEGREVMMVTSGAVAFGKQKLAQELLMSLSMRETLNLEPRAAAAVGQSGLMSLYDAMFAQYGVKIAQVLVTKPDFYNEETRNNLFCTLSELISLNIVPIINTNDAVSPPMFIPIKDNDSLSAMLAAEVQADLLILMSDVDGIYNKPPWEDGAKLMHTYTSMDSKVKAATWALDRGVSVVICNGMQEKAIKTIIGGRKVGTFFTEATESANAVPVEVMAENARTGSRQMQALTPAQRASAVNTLADLLVSREKFILDANAKDLAEAQKSGLAKPLLSRLSLNPAKLKNLSVGLKQIAEDSHKNVGRVLRRTRLADQLELKQVTVPIGVLLVIFESRPDSLPQVAALAMASANGLLLKGGKEAAHSNKALMELVKEALATVGAEHAVSLVSTREEISDLLSMENHIDLIIPRGSSDLVRSIQQQSLHIPVLGHAEGVCHVYIDRDADLEKALRIARDAKCDYPAACNAMETLLIHEDLMSGAIFGDVCNMLKREGVKIYAGPRLNQQLTFGPPAAKSLKHEYGALECCIEVVPSLDEAINHIHTYGSSHTDVIVTENDAAARQFLGSVDSACVFHNASSRFADGFRFGLGAEVGISTARIHARGPVGVEGLLTTKWILEGQDHAAADFAEGGGRTWLHETLPLD 7f5y-a1-m2-cA_7f5y-a1-m2-cB Crystal structure of the single-stranded dna-binding protein from Mycobacterium tuberculosis- Form III P9WGD5 P9WGD5 1.92 X-RAY DIFFRACTION 114 0.982 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 109 120 1ue6-a2-m1-cD_1ue6-a2-m3-cD 7f5y-a1-m1-cA_7f5y-a1-m1-cB KTMAGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFEGEKRTVIEVEVDEIGPSLRYATAKVNK MAGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYDRQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETREGEKRTVIEVEVDEIGPSLRYATAKVNKA 7f5z-a1-m1-cB_7f5z-a1-m2-cB Crystal structure of the single-stranded dna-binding protein from Mycobacterium tuberculosis- Form III P9WGD5 P9WGD5 3 X-RAY DIFFRACTION 69 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 118 118 3afp-a1-m1-cA_3afp-a1-m2-cA 7f5z-a1-m1-cA_7f5z-a1-m2-cA MAGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETREGEKRTVIEVEVDEIGPSLRYATAKVNKA MAGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETREGEKRTVIEVEVDEIGPSLRYATAKVNKA 7f5z-a1-m2-cA_7f5z-a1-m2-cB Crystal structure of the single-stranded dna-binding protein from Mycobacterium tuberculosis- Form III P9WGD5 P9WGD5 3 X-RAY DIFFRACTION 110 0.991 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 117 118 3afp-a1-m1-cA_3afp-a1-m1-cB 3afp-a1-m2-cA_3afp-a1-m2-cB 3afq-a1-m1-cC_3afq-a1-m1-cB 7f5z-a1-m1-cA_7f5z-a1-m1-cB MAGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIRQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETREGEKRTVIEVEVDEIGPSLRYATAKVNK MAGDTTITIVGNLTADPELRFTPSGAAVANFTVASTPRIYQTGEWKDGEALFLRCNIWREAAENVAESLTRGARVIVSGRLKQRSFETREGEKRTVIEVEVDEIGPSLRYATAKVNKA 7f6d-a1-m1-cD_7f6d-a1-m1-cF Reconstruction of the HerA-NurA complex from Deinococcus radiodurans Q9RW32 Q9RW32 3.85 ELECTRON MICROSCOPY 138 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 521 521 7f6d-a1-m1-cA_7f6d-a1-m1-cB 7f6d-a1-m1-cA_7f6d-a1-m1-cF 7f6d-a1-m1-cB_7f6d-a1-m1-cE 7f6d-a1-m1-cC_7f6d-a1-m1-cD 7f6d-a1-m1-cC_7f6d-a1-m1-cE ADAIGMVLGTEDVTPTVFWFAVSHGASVGLDDLVVVETRKPDGTPVRFYGLVDNVRKRHEGVTFESDVEDVVAGLLPASVSYAARVLVTRVDPENFIPPQPGDHVRHAAGRELAMALSADKMEEAAFPGGLLADGQPLPLNFRFINGESGGHINISGISGVATKTSYALFLLHSIFRSGVMDRTAQGSGGRQSGTAGGRALIFNVKGEDLLFLDKPNARMVEKEDKVVRAKGLSADRYALLGLPAEPFRDVQLLAPPRAGAAGTQRSEGVTPFVFTIREFCARRMLPYVFSDASASLNLGFVIGNIEEKLFRLAAAQISYLEYKLLEERFTRRLRGVQKYLSPLIRGDLTPEQAEGYRPDPLRRGIQLTVVDIHALSAHAQMFVVGVLLREVFEYKERVGRQDTVFVVLDELNKYAPREGDSPIKDVLLDIAERGRSLGIILIGAQQTASEVERRIVSNAAIRVVGRLDLAEAERPEYRFLPQSFRGRAGILQPGTMLVSQPDVPNPVLVNYPFPAWATRR ADAIGMVLGTEDVTPTVFWFAVSHGASVGLDDLVVVETRKPDGTPVRFYGLVDNVRKRHEGVTFESDVEDVVAGLLPASVSYAARVLVTRVDPENFIPPQPGDHVRHAAGRELAMALSADKMEEAAFPGGLLADGQPLPLNFRFINGESGGHINISGISGVATKTSYALFLLHSIFRSGVMDRTAQGSGGRQSGTAGGRALIFNVKGEDLLFLDKPNARMVEKEDKVVRAKGLSADRYALLGLPAEPFRDVQLLAPPRAGAAGTQRSEGVTPFVFTIREFCARRMLPYVFSDASASLNLGFVIGNIEEKLFRLAAAQISYLEYKLLEERFTRRLRGVQKYLSPLIRGDLTPEQAEGYRPDPLRRGIQLTVVDIHALSAHAQMFVVGVLLREVFEYKERVGRQDTVFVVLDELNKYAPREGDSPIKDVLLDIAERGRSLGIILIGAQQTASEVERRIVSNAAIRVVGRLDLAEAERPEYRFLPQSFRGRAGILQPGTMLVSQPDVPNPVLVNYPFPAWATRR 7f6d-a1-m1-cG_7f6d-a1-m1-cH Reconstruction of the HerA-NurA complex from Deinococcus radiodurans Q9RW33 Q9RW33 3.85 ELECTRON MICROSCOPY 121 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 332 332 PIDTFEGQLTLKPFAGLVFDVETDRWEAIPTLGIPESVREVLVVDGKPRMEARLLMDDDSGELHLAAFGAYVVGAVSLCPHGTRQAELLDVRARRVLAYSSDAPLEPARLSPRNPHTGVLDYEPYAQVEGPRAAVQKLMLQDEQKLSRQLASPIALEEGEADALPESLVLQDGPVRLGGGGSAVVGYVKTLHTDYLGADRIGLLSSLKCGERTPILRFRVGDRGGTFSEAEGREQRFTWYVRLCDAPFYQHPLAGIMRLEMHAPEDSSFVPAAVQQIADLSGALLSKLGSKLHKDSRAPQNLIPTAALEQAMNRSMGNLELVTRRIRTHLVT PIDTFEGQLTLKPFAGLVFDVETDRWEAIPTLGIPESVREVLVVDGKPRMEARLLMDDDSGELHLAAFGAYVVGAVSLCPHGTRQAELLDVRARRVLAYSSDAPLEPARLSPRNPHTGVLDYEPYAQVEGPRAAVQKLMLQDEQKLSRQLASPIALEEGEADALPESLVLQDGPVRLGGGGSAVVGYVKTLHTDYLGADRIGLLSSLKCGERTPILRFRVGDRGGTFSEAEGREQRFTWYVRLCDAPFYQHPLAGIMRLEMHAPEDSSFVPAAVQQIADLSGALLSKLGSKLHKDSRAPQNLIPTAALEQAMNRSMGNLELVTRRIRTHLVT 7f6w-a1-m1-cA_7f6w-a1-m2-cA Crystal structure of Saccharomyces cerevisiae lysyl-tRNA Synthetase P15180 P15180 2.607 X-RAY DIFFRACTION 282 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 506 506 DPSQYFETRSRQIQELRKTHEPNPYPHKFHVSISNPEFLAKYAHLKKGETLPEEKVSIAGRIHAKRESGSKLKFYVLHGDGVEVQLMSQLQDYCDPDSYEKDHDLLKRGDIVGVEGYVGRTQPKKGGEGEVSVFVSRVQLLTPCLHMLPAFKDQETRYRKRYLDLIMNKDARNRFITRSEIIRYIRRFLDQRKFIEVETPMMNVIAGGATAKPFITHHNDLDMDMYMRIAPELFLKQLVVGGLDRVYEIGRQFRNEGIDMTHNPEFTTCEFYQAYADVYDLMDMTELMFSEMVKEITGSYIIKYHPDPADPAKELELNFSRPWKRINMIEELEKVFNVKFPSGDQLHTAETGEFLKKILVDNKLECPPPLTNARMLDKLVGELEDTCINPTFIFGHPQMMSPLAKYSRDQPGLCERFEVFVATKEICNAYTELNDPFDQRARFEEQARQKDQGDDEAQLVDETFCNALEYGLPPTGGWGCGIDRLAMFLTDSNTIREVLLFPTLKP DPSQYFETRSRQIQELRKTHEPNPYPHKFHVSISNPEFLAKYAHLKKGETLPEEKVSIAGRIHAKRESGSKLKFYVLHGDGVEVQLMSQLQDYCDPDSYEKDHDLLKRGDIVGVEGYVGRTQPKKGGEGEVSVFVSRVQLLTPCLHMLPAFKDQETRYRKRYLDLIMNKDARNRFITRSEIIRYIRRFLDQRKFIEVETPMMNVIAGGATAKPFITHHNDLDMDMYMRIAPELFLKQLVVGGLDRVYEIGRQFRNEGIDMTHNPEFTTCEFYQAYADVYDLMDMTELMFSEMVKEITGSYIIKYHPDPADPAKELELNFSRPWKRINMIEELEKVFNVKFPSGDQLHTAETGEFLKKILVDNKLECPPPLTNARMLDKLVGELEDTCINPTFIFGHPQMMSPLAKYSRDQPGLCERFEVFVATKEICNAYTELNDPFDQRARFEEQARQKDQGDDEAQLVDETFCNALEYGLPPTGGWGCGIDRLAMFLTDSNTIREVLLFPTLKP 7f73-a1-m1-cA_7f73-a1-m1-cB Cryo-EM structure of human TMEM120B A0PK00 A0PK00 4.0 ELECTRON MICROSCOPY 113 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 293 293 LERCEREWHELEGEFQELQETHRIYKQKLEELAALQTLCSSSISKQKKHLKDLKLTLQRCKRHASREEAELVQQMAANIKERQDVFFDMEAYLPKKNGLYLNLVLGNVNVTLLSNQAKFAYKDEYEKFKLYLTIILLLGAVACRFVLHYRVTDEVFNFLLVWYYCTLTIRESILISNGSRIKGWWVSHHYVSTFLSGVMLTWPNGPIYQKFRNQFLAFSIFQSCVQFLQYYYQFLLPFLFCGHFWQLYNAVTLFELSSHEECREWQVFVLAFTFLILFLGNFLTTLKVVHAKL LERCEREWHELEGEFQELQETHRIYKQKLEELAALQTLCSSSISKQKKHLKDLKLTLQRCKRHASREEAELVQQMAANIKERQDVFFDMEAYLPKKNGLYLNLVLGNVNVTLLSNQAKFAYKDEYEKFKLYLTIILLLGAVACRFVLHYRVTDEVFNFLLVWYYCTLTIRESILISNGSRIKGWWVSHHYVSTFLSGVMLTWPNGPIYQKFRNQFLAFSIFQSCVQFLQYYYQFLLPFLFCGHFWQLYNAVTLFELSSHEECREWQVFVLAFTFLILFLGNFLTTLKVVHAKL 7f74-a1-m1-cA_7f74-a1-m1-cD Rv3094c in complex with FMN. O05773 O05773 2 X-RAY DIFFRACTION 117 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 371 371 7f74-a1-m1-cB_7f74-a1-m1-cC TEIEILAEKIARWARARSAEIERDRRLPDELVTRLREAGLLRATMPREVAAPELAPGRALRCAEAVARGDASAGWCVSIAITSALLVAYLPARSREEMFGGGRGVAAGVWAPRGTARSVDGGVVVSGRWPFCSGINHADIMFAGCFVDDRQVPSVVALNKDELQVLDTWHTLGLRGTGSHDCVADDVFVPADRVFSVFDGPIVDRPLYRFPVFGFFALSIGAAALGNARAAIDDLVELAGGKKGLGSTRTLAERSATQAAAATAESALGAARALFYEVIEAAWQVSHDAEAVPVTMRNRLRLAATHAVRTSADVVRSMYDLAGGTAIYDNAPLQRRFRDAFTATAHFQVNEASRELPGRVLLDQPADVSML TEIEILAEKIARWARARSAEIERDRRLPDELVTRLREAGLLRATMPREVAAPELAPGRALRCAEAVARGDASAGWCVSIAITSALLVAYLPARSREEMFGGGRGVAAGVWAPRGTARSVDGGVVVSGRWPFCSGINHADIMFAGCFVDDRQVPSVVALNKDELQVLDTWHTLGLRGTGSHDCVADDVFVPADRVFSVFDGPIVDRPLYRFPVFGFFALSIGAAALGNARAAIDDLVELAGGKKGLGSTRTLAERSATQAAAATAESALGAARALFYEVIEAAWQVSHDAEAVPVTMRNRLRLAATHAVRTSADVVRSMYDLAGGTAIYDNAPLQRRFRDAFTATAHFQVNEASRELPGRVLLDQPADVSML 7f74-a1-m1-cC_7f74-a1-m1-cD Rv3094c in complex with FMN. O05773 O05773 2 X-RAY DIFFRACTION 74 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 371 371 7f74-a1-m1-cA_7f74-a1-m1-cB TEIEILAEKIARWARARSAEIERDRRLPDELVTRLREAGLLRATMPREVAAPELAPGRALRCAEAVARGDASAGWCVSIAITSALLVAYLPARSREEMFGGGRGVAAGVWAPRGTARSVDGGVVVSGRWPFCSGINHADIMFAGCFVDDRQVPSVVALNKDELQVLDTWHTLGLRGTGSHDCVADDVFVPADRVFSVFDGPIVDRPLYRFPVFGFFALSIGAAALGNARAAIDDLVELAGGKKGLGSTRTLAERSATQAAAATAESALGAARALFYEVIEAAWQVSHDAEAVPVTMRNRLRLAATHAVRTSADVVRSMYDLAGGTAIYDNAPLQRRFRDAFTATAHFQVNEASRELPGRVLLDQPADVSML TEIEILAEKIARWARARSAEIERDRRLPDELVTRLREAGLLRATMPREVAAPELAPGRALRCAEAVARGDASAGWCVSIAITSALLVAYLPARSREEMFGGGRGVAAGVWAPRGTARSVDGGVVVSGRWPFCSGINHADIMFAGCFVDDRQVPSVVALNKDELQVLDTWHTLGLRGTGSHDCVADDVFVPADRVFSVFDGPIVDRPLYRFPVFGFFALSIGAAALGNARAAIDDLVELAGGKKGLGSTRTLAERSATQAAAATAESALGAARALFYEVIEAAWQVSHDAEAVPVTMRNRLRLAATHAVRTSADVVRSMYDLAGGTAIYDNAPLQRRFRDAFTATAHFQVNEASRELPGRVLLDQPADVSML 7f76-a1-m1-cA_7f76-a1-m1-cB Crystal Structure of FMN-dependent NADPH-quinone reductase (azoR) from Bacillus cohnii A0A223KLJ1 A0A223KLJ1 1.57 X-RAY DIFFRACTION 110 1.0 33932 (Sutcliffiella cohnii) 33932 (Sutcliffiella cohnii) 172 173 MQLVVINGSPRKSGRTRILATFIEKEFNAKIIDLSEETLPLYNGEEYQGELEHVRALRDTVKKADAVILTSPEYHSGMSGALKNALDFLSNEQFAHKPVGLIAVAGGGKGGINALTNMRTVGRGVYANVIPKQLVLDPHCFDRENYTLTDDSKLLVKGVIDELKLYYKMHQY HMQLVVINGSPRKSGRTRILATFIEKEFNAKIIDLSEETLPLYNGEEYQGELEHVRALRDTVKKADAVILTSPEYHSGMSGALKNALDFLSNEQFAHKPVGLIAVAGGGKGGINALTNMRTVGRGVYANVIPKQLVLDPHCFDRENYTLTDDSKLLVKGVIDELKLYYKMHQY 7f79-a1-m1-cA_7f79-a1-m1-cC Crystal structure of glutamate dehydrogenase 3 from Candida albicans in complex with alpha-ketoglutarate and NADPH A0A1D8PMH8 A0A1D8PMH8 2.7 X-RAY DIFFRACTION 58 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 456 458 7f77-a1-m1-cB_7f77-a1-m1-cA 7f77-a1-m1-cC_7f77-a1-m1-cA 7f77-a1-m2-cB_7f77-a1-m2-cA 7f77-a1-m2-cC_7f77-a1-m2-cA 7f79-a1-m1-cB_7f79-a1-m1-cD 7f79-a1-m1-cB_7f79-a1-m1-cF 7f79-a1-m1-cD_7f79-a1-m1-cF 7f79-a1-m1-cE_7f79-a1-m1-cA 7f79-a1-m1-cE_7f79-a1-m1-cC MVLPHEPEFQQAYDELVSAVEDSTLFKEEPQYKKVIPVVSIPERIIQFRVTWENDKGEIEVNNGFRVQYNSALGPYKGGLRFHPTVNLSILKFLGFEQIFKNALTGLSMGGGKGGSDFNPKNRSDNEIRRFCVSFMRQLARYIGPDTDVPAGDIGVGGREVGFLFGAYKQMRNNWAGVLTGKGLTWGGSLIRPEATGYGCVYYVEKMIEKATNGKETFKGKRVAISGSGNVAQYAALKVIELGGTVVSLSDSKGSIISKNGITADQVYAIAAAKLKFKSLEEIVADSVQLFSGDHSVEYLAGVRPWTKVGQVDVALPSATQNEVSGEEAKALVDAGCKFIAEGSNMGSTKEAIEVFEANRDSNGVWYAPGKAANCGGVAVSGLEMAQNSQRVQWTNEEVDAKLKEIMYTCFENCYKTAQKYSIEKNENGLPSLLKGANIAGFIKVADAMFDQGDVF SHMVLPHEPEFQQAYDELVSAVEDSTLFKEEPQYKKVIPVVSIPERIIQFRVTWENDKGEIEVNNGFRVQYNSALGPYKGGLRFHPTVNLSILKFLGFEQIFKNALTGLSMGGGKGGSDFNPKNRSDNEIRRFCVSFMRQLARYIGPDTDVPAGDIGVGGREVGFLFGAYKQMRNNWAGVLTGKGLTWGGSLIRPEATGYGCVYYVEKMIEKATNGKETFKGKRVAISGSGNVAQYAALKVIELGGTVVSLSDSKGSIISKNGITADQVYAIAAAKLKFKSLEEIVADSVQLFSGDHSVEYLAGVRPWTKVGQVDVALPSATQNEVSGEEAKALVDAGCKFIAEGSNMGSTKEAIEVFEANRDSNGVWYAPGKAANCGGVAVSGLEMAQNSQRVQWTNEEVDAKLKEIMYTCFENCYKTAQKYSIEKNENGLPSLLKGANIAGFIKVADAMFDQGDVF 7f79-a1-m1-cE_7f79-a1-m1-cF Crystal structure of glutamate dehydrogenase 3 from Candida albicans in complex with alpha-ketoglutarate and NADPH A0A1D8PMH8 A0A1D8PMH8 2.7 X-RAY DIFFRACTION 71 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 448 455 7f77-a1-m1-cB_7f77-a1-m2-cA 7f77-a1-m1-cC_7f77-a1-m2-cC 7f77-a1-m2-cB_7f77-a1-m1-cA 7f79-a1-m1-cB_7f79-a1-m1-cA 7f79-a1-m1-cD_7f79-a1-m1-cC LPHEPEFQQAYDELVSAVEDSTLFKEEPQYKKVIPVVSIPERIIQFRVTWENDKGEIEVNNGFRVQYNSALGPYKGGLRFHPTVNLSILKFLGFEQIFKNALTGLSMGGGKGGSDFNPKNRSDNEIRRFCVSFMRQLARYIGPDTDVPAGDIGVGGREVGFLFGAYKQMRNNWAGVLTGKGLTWGGSLIRPEATGYGCVYYVEKMIEKATNGKETFKGKRVAISGSGNVAQYAALKVIELGGTVVSLSDSKGSIISKNGITADQVYAIAAAKLKFKSLEEIVADSVQLFSGDHSVEYLAGVRPWTKVGQVDVALPSATQNEVSGEEAKALVDAGCKFIAEGSNMGSTKEAIEVFEANRDSNGVWYAPGKAANCGGVAVSGLEMAQNSQRVQWTNEEVDAKLKEIMYTCFENCYKTAQKYSILPSLLKGANIAGFIKVADAMFDQGDVF VLPHEPEFQQAYDELVSAVEDSTLFKEEPQYKKVIPVVSIPERIIQFRVTWENDKGEIEVNNGFRVQYNSALGPYKGGLRFHPTVNLSILKFLGFEQIFKNALTGLSMGGGKGGSDFNPKNRSDNEIRRFCVSFMRQLARYIGPDTDVPAGDIGVGGREVGFLFGAYKQMRNNWAGVLTGKGLTWGGSLIRPEATGYGCVYYVEKMIEKATNGKETFKGKRVAISGSGNVAQYAALKVIELGGTVVSLSDSKGSIISKNGITADQVYAIAAAKLKFKSLEEIVADSVQLFSGDHSVEYLAGVRPWTKVGQVDVALPSATQNEVSGEEAKALVDAGCKFIAEGSNMGSTKEAIEVFEANRDSNGVWYAPGKAANCGGVAVSGLEMAQNSQRVQWTNEEVDAKLKEIMYTCFENCYKTAQKYSIEKNENGLPSLLKGANIAGFIKVADAMFDQGDVF 7f79-a1-m1-cF_7f79-a1-m1-cC Crystal structure of glutamate dehydrogenase 3 from Candida albicans in complex with alpha-ketoglutarate and NADPH A0A1D8PMH8 A0A1D8PMH8 2.7 X-RAY DIFFRACTION 15 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 455 458 7f77-a1-m1-cA_7f77-a1-m2-cA 7f79-a1-m1-cD_7f79-a1-m1-cA 7f79-a1-m1-cE_7f79-a1-m1-cB VLPHEPEFQQAYDELVSAVEDSTLFKEEPQYKKVIPVVSIPERIIQFRVTWENDKGEIEVNNGFRVQYNSALGPYKGGLRFHPTVNLSILKFLGFEQIFKNALTGLSMGGGKGGSDFNPKNRSDNEIRRFCVSFMRQLARYIGPDTDVPAGDIGVGGREVGFLFGAYKQMRNNWAGVLTGKGLTWGGSLIRPEATGYGCVYYVEKMIEKATNGKETFKGKRVAISGSGNVAQYAALKVIELGGTVVSLSDSKGSIISKNGITADQVYAIAAAKLKFKSLEEIVADSVQLFSGDHSVEYLAGVRPWTKVGQVDVALPSATQNEVSGEEAKALVDAGCKFIAEGSNMGSTKEAIEVFEANRDSNGVWYAPGKAANCGGVAVSGLEMAQNSQRVQWTNEEVDAKLKEIMYTCFENCYKTAQKYSIEKNENGLPSLLKGANIAGFIKVADAMFDQGDVF SHMVLPHEPEFQQAYDELVSAVEDSTLFKEEPQYKKVIPVVSIPERIIQFRVTWENDKGEIEVNNGFRVQYNSALGPYKGGLRFHPTVNLSILKFLGFEQIFKNALTGLSMGGGKGGSDFNPKNRSDNEIRRFCVSFMRQLARYIGPDTDVPAGDIGVGGREVGFLFGAYKQMRNNWAGVLTGKGLTWGGSLIRPEATGYGCVYYVEKMIEKATNGKETFKGKRVAISGSGNVAQYAALKVIELGGTVVSLSDSKGSIISKNGITADQVYAIAAAKLKFKSLEEIVADSVQLFSGDHSVEYLAGVRPWTKVGQVDVALPSATQNEVSGEEAKALVDAGCKFIAEGSNMGSTKEAIEVFEANRDSNGVWYAPGKAANCGGVAVSGLEMAQNSQRVQWTNEEVDAKLKEIMYTCFENCYKTAQKYSIEKNENGLPSLLKGANIAGFIKVADAMFDQGDVF 7f7d-a1-m1-cA_7f7d-a1-m2-cA Crystal structure of Non-specific class-C acid phosphatase from Sphingobium sp. RSMS bound to Adenosine at pH 5.5 A0A197BYF0 A0A197BYF0 2.2 X-RAY DIFFRACTION 287 1.0 2056888 (Sphingobium sp. 20006FA) 2056888 (Sphingobium sp. 20006FA) 254 254 7cle-a1-m1-cA_7cle-a1-m2-cA 7f7a-a1-m1-cA_7f7a-a1-m2-cA 7f7b-a1-m1-cA_7f7b-a1-m2-cA 7f7c-a1-m1-cA_7f7c-a1-m2-cA ETPPAGMQYLYGSGEASALSLQAYQALLAHVAAKVKVRPADSVILAEGAGLDDPRFVPCGAKPLAAVFDVDETVMLNIGYEYHAARTGRGFDTAAWDAWERTGEAAVAPVPGADRMVRALRQMGVTVVFNTNRAAGNAEPTVRAIKAAGLGDAVHGQTLFLSGDDAMGSRKDGRRATIAARYCVIAMGGDQLGDFSDLFNGGPSVTARRAATMQPAIAQMWGNGWFVLPNPVYGSGLKGGFDEVFPLDKRWAAP ETPPAGMQYLYGSGEASALSLQAYQALLAHVAAKVKVRPADSVILAEGAGLDDPRFVPCGAKPLAAVFDVDETVMLNIGYEYHAARTGRGFDTAAWDAWERTGEAAVAPVPGADRMVRALRQMGVTVVFNTNRAAGNAEPTVRAIKAAGLGDAVHGQTLFLSGDDAMGSRKDGRRATIAARYCVIAMGGDQLGDFSDLFNGGPSVTARRAATMQPAIAQMWGNGWFVLPNPVYGSGLKGGFDEVFPLDKRWAAP 7f7j-a1-m2-cA_7f7j-a1-m1-cB The crystal structure of AKR4C17 A0A5J6VLZ7 A0A5J6VLZ7 1.93 X-RAY DIFFRACTION 21 1.0 90396 (Echinochloa colona) 90396 (Echinochloa colona) 301 306 ARHFVLNTGAKIPSVGLGTWQSDPGVVGDAVYTAVKAGYRHIDCAKVYGNEKEIGLALKKLFEEGVVKREDLFITSKLWNDRHAPEDVPEALNESLTDLQLDYLDLYLIHWPFRVKKGTNTSPENFITPDIPATWGAMEKCYDAGKARAIGVSNFSSKKLGDLLAVARVHPAVDQVECHPGWQQTKLHNFCQSTGVHLTAYSPLGGNVLKEPVIISIAEKLGKTPAQVALRWNIQMGHSVLPKSTNEERIKQNLDVYDWSIPDDLLAKFSEIKQARLLRGNFIVNPQSVYKTHEELWDGEL GMARHFVLNTGAKIPSVGLGTWQSDPGVVGDAVYTAVKAGYRHIDCAKVYGNEKEIGLALKKLFEEGVVKREDLFITSKLWNDRHAPEDVPEALNESLTDLQLDYLDLYLIHWPFRVKKGTNTSPENFITPDIPATWGAMEKCYDAGKARAIGVSNFSSKKLGDLLAVARVHPAVDQVECHPGWQQTKLHNFCQSTGVHLTAYSPLGSPGGNVLKEPVIISIAEKLGKTPAQVALRWNIQMGHSVLPKSTNEERIKQNLDVYDWSIPDDLLAKFSEIKQARLLRGNFIVNPQSVYKTHEELWDGEL 7f83-a1-m1-cB_7f83-a1-m1-cA Crystal Structure of a receptor in Complex with inverse agonist Q92847 Q92847 2.94 X-RAY DIFFRACTION 54 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 389 396 LQLFPAPLLAGVTATCVALFVVGIAGNLLTMLVVSRFRELRTTTNLYLSSMAFSDLLIFLCMPLDLVRLWQYRPWNFGDLLCKLFQFVSESCTYAKVLTITALSVERYFAICFPLRATKGRVKLVIFVIWAVAFCSAGPIFVLVGVEHTNECRPTEFAVRSGLLTVMVWVSSIFFFLPVFCLTVLYSLIGRKLWRRGGTTMADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEEAQAAAEQLKTTRNAYIQKYLDQNHKQTVKMLAVVVFAFILCWLPFHVGRYLFSKSFEPGSLEIAQISQYCNLVSFVLFYLSAAINPILYNIMSKKYRVAVFRLLGF LQLFPAPLLAGVTATCVALFVVGIAGNLLTMLVVSRFRELRTTTNLYLSSMAFSDLLIFLCMPLDLVRLWQYRPWNFGDLLCKLFQFVSESCTYAKVLTITALSVERYFAICFPLRATKGRVKLVIFVIWAVAFCSAGPIFVLVGVEHWDTNECRPTEFAVRSGLLTVMVWVSSIFFFLPVFCLTVLYSLIGRKLWRRRGTTMADLEDNWETLNDNLKVIEKADNAAQVKDALTKMRAAALDAQKATPPKLEDKSPDSPEMKDFRHGFDILVGQIDDALKLANEGKVKEAQAAAEQLKTTRNAYIQKYLRDQNHKQTVKMLAVVVFAFILCWLPFHVGRYLFSKSFEPGSLEIAQISQYCNLVSFVLFYLSAAINPILYNIMSKKYRVAVFRLLGF 7f84-a1-m1-cA_7f84-a1-m1-cB Crystal structure of CRISPR-associated Cas2c of Leptospira interrogans Q72NB8 Q72NB8 2.6 X-RAY DIFFRACTION 118 1.0 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 267671 (Leptospira interrogans serovar Copenhageni str. Fiocruz L1-130) 89 89 DPMFIIVCYDVETITQEGRARLRKVAKTCESHGQRVQKSVFECQLEPADYLQFEAKLSKIINSKTDNLRIYSLDAISVSKIKQFGVSNI DPMFIIVCYDVETITQEGRARLRKVAKTCESHGQRVQKSVFECQLEPADYLQFEAKLSKIINSKTDNLRIYSLDAISVSKIKQFGVSNI 7f8d-a1-m1-cD_7f8d-a1-m1-cC Malate Dehydrogenase from Geobacillus stearothermophilus (gs-MDH) G218Y mutant A0A143T1U9 A0A143T1U9 2.4 X-RAY DIFFRACTION 131 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 312 313 7by8-a1-m1-cA_7by8-a1-m1-cB 7by8-a1-m1-cD_7by8-a1-m1-cC 7by9-a1-m1-cB_7by9-a1-m1-cA 7by9-a1-m1-cC_7by9-a1-m1-cD 7bya-a1-m1-cA_7bya-a1-m1-cD 7bya-a1-m1-cC_7bya-a1-m1-cB 7f8d-a1-m1-cB_7f8d-a1-m1-cA 7x1l-a1-m1-cB_7x1l-a1-m1-cA 7x1l-a1-m1-cE_7x1l-a1-m1-cF 7x1l-a2-m1-cC_7x1l-a2-m1-cD 7x1l-a2-m2-cC_7x1l-a2-m2-cD MAMKRKKISVIGAGFTGATTAFLLAQKELGDVVLVDIPQLENPTKGKALDMLEASPVLGFDANIIGTSDYADTADSDIVVITAGIARKPGMSRDDLVTTNQKIMKQVTKEVVKYSPNCYIIVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAEELNISVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLEKLIPKDRLDAIVERTRKGGYEIVNLLGNGSAYYAPAASLVEMVEAILKDQRRILPAIAYLEGEYGYEGIYLGVPTILGGNGIEKVIELELTEEEKAALAKSVESVKNVMRMLE HMAMKRKKISVIGAGFTGATTAFLLAQKELGDVVLVDIPQLENPTKGKALDMLEASPVLGFDANIIGTSDYADTADSDIVVITAGIARKPGMSRDDLVTTNQKIMKQVTKEVVKYSPNCYIIVLTNPVDAMTYTVFKESGFPKNRVIGQSGVLDTARFRTFVAEELNISVKDVTGFVLGGHGDDMVPLVRYSYAGGIPLEKLIPKDRLDAIVERTRKGGYEIVNLLGNGSAYYAPAASLVEMVEAILKDQRRILPAIAYLEGEYGYEGIYLGVPTILGGNGIEKVIELELTEEEKAALAKSVESVKNVMRMLE 7f8f-a1-m1-cA_7f8f-a1-m2-cA Roadblock from Odinarchaeota LCB_4 A0A1Q9N7N8 A0A1Q9N7N8 1.83 X-RAY DIFFRACTION 104 1.0 1841599 (Candidatus Odinarchaeum yellowstonii) 1841599 (Candidatus Odinarchaeum yellowstonii) 80 80 QRFEGVRGVIITTTEGLPISTTIDREKTEKTAALVTSLVGKARSTVKELEEGELKFLTINTSKGEVHVAQEEDYILIVLK QRFEGVRGVIITTTEGLPISTTIDREKTEKTAALVTSLVGKARSTVKELEEGELKFLTINTSKGEVHVAQEEDYILIVLK 7f8m-a3-m1-cE_7f8m-a3-m1-cF Roadblock from Thorarchaeota SMTZ1-45 A0A135VIJ8 A0A135VIJ8 2.14 X-RAY DIFFRACTION 96 1.0 1706444 (Candidatus Thorarchaeota archaeon SMTZ1-45) 1706444 (Candidatus Thorarchaeota archaeon SMTZ1-45) 116 116 7f8m-a1-m1-cD_7f8m-a1-m1-cA 7f8m-a2-m1-cC_7f8m-a2-m1-cB VDNINKTIRDFETVPGVEGAALVSADGLMISSALPETEQERVAAISAGLLSLGEKATTELDRGNFKEVYVKGEKGYTLLTSVGENALLLVLAKADAQIGLIFVDMRRIADSLLEIL VDNINKTIRDFETVPGVEGAALVSADGLMISSALPETEQERVAAISAGLLSLGEKATTELDRGNFKEVYVKGEKGYTLLTSVGENALLLVLAKADAQIGLIFVDMRRIADSLLEIL 7f8s-a1-m1-cA_7f8s-a1-m2-cB Pennisetum glaucum (Pearl millet) dehydroascorbate reductase (DHAR) with catalytic cysteine (Cy20) in sulphenic and sulfinic acid forms. U5XYA0 U5XYA0 2.63 X-RAY DIFFRACTION 40 1.0 4543 (Cenchrus americanus) 4543 (Cenchrus americanus) 210 211 MAVEVCVKAAVGAPDILGDPFSQRVLLTLEEKKITYEMKLVDLSNKPEWFLKISPEGKVPVFNSGDGKWIADSDVITQVIEEKFPTPSLVTPPEYASVGSKIFPSFVKFLKSKDASDGSEKALLDELQALDEHLKAHGPYISGENVSAADLSLGPKLFHLQVALEHFKGWKIPENLTSVHAYTKALFSRESFVKTKPANQYLIAGWAPKV HMAVEVCVKAAVGAPDILGDPFSQRVLLTLEEKKITYEMKLVDLSNKPEWFLKISPEGKVPVFNSGDGKWIADSDVITQVIEEKFPTPSLVTPPEYASVGSKIFPSFVKFLKSKDASDGSEKALLDELQALDEHLKAHGPYISGENVSAADLSLGPKLFHLQVALEHFKGWKIPENLTSVHAYTKALFSRESFVKTKPANQYLIAGWAPKV 7f99-a1-m1-cA_7f99-a1-m1-cB Homo sapiens Prolyl-tRNA Synthetase (HsPRS) in Complex with L-proline and compound L96 P07814 P07814 1.979 X-RAY DIFFRACTION 156 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 484 488 4hvc-a1-m1-cA_4hvc-a1-m1-cB 4k86-a1-m1-cA_4k86-a1-m2-cA 4k87-a1-m1-cA_4k87-a1-m2-cA 4k88-a1-m1-cA_4k88-a1-m2-cA 5v58-a1-m1-cA_5v58-a1-m2-cA 5vad-a1-m1-cA_5vad-a1-m1-cB 7bbu-a2-m1-cA_7bbu-a2-m2-cA 7f98-a1-m1-cB_7f98-a1-m1-cA 7f9a-a1-m1-cB_7f9a-a1-m1-cA 7f9b-a1-m1-cA_7f9b-a1-m1-cB 7f9c-a1-m1-cB_7f9c-a1-m1-cA 7f9d-a1-m1-cB_7f9d-a1-m1-cA 7osy-a1-m1-cA_7osy-a1-m1-cB 7osz-a1-m1-cB_7osz-a1-m1-cA 7ot0-a1-m1-cB_7ot0-a1-m1-cA 7ot1-a1-m1-cA_7ot1-a1-m1-cB 7ot2-a1-m1-cB_7ot2-a1-m1-cA 7ot3-a1-m1-cB_7ot3-a1-m1-cA LEAKKEENLADWYSQVITKSEMIEYHDISGCYILRPWAYAIWEAIKDFFDAEIKKLGVENCYFPMFVSQSALEKEKTHVADFAPEVAWVTRSGKTELAEPIAIRPTSETVMYPAYAKWVQSHRDLPIKLNQWCNVVRWEFKHPQPFLRTREFLWQEGHSAFATMEEAAEEVLQILDLYAQVYEELLAIPVVKGRKTEKEKFAGGDYTTTIEAFISASGRAIQGGTSHHLGQNFSKMFEIVFEDPKIPGEKQFAYQNSWGLTTRTIGVMTMVHGDNMGLVLPPRVACVQVVIIPCGILSEEDKEALIAKCNDYRRRLLSVNIRVRADLRDNYSPGWKFNHWELKGVPIRLEVGPRDMKSCQFVAVRRDTGEKLTVAENEAETKLQAILEDIQVTLFTRASEDLKTHMVVANTMEDFQKILDSGKIVQIPFCGEIDCEDWIKKTTASMGAKSLCIPFKPLCELQPGAKCVCGKNPAKYYTLFGRSY GLEAKKEENLADWYSQVITKSEMIEYHDISGCYILRPWAYAIWEAIKDFFDAEIKKLGVENCYFPMFVSQSALEKEKTHVADFAPEVAWVTRSGKTELAEPIAIRPTSETVMYPAYAKWVQSHRDLPIKLNQWCNVVRWEFKHPQPFLRTREFLWQEGHSAFATMEEAAEEVLQILDLYAQVYEELLAIPVVKGRKTEKEKFAGGDYTTTIEAFISASGRAIQGGTSHHLGQNFSKMFEIVFEDPKIPGEKQFAYQNSWGLTTRTIGVMTMVHGDNMGLVLPPRVACVQVVIIPCGITNALSEEDKEALIAKCNDYRRRLLSVNIRVRADLRDNYSPGWKFNHWELKGVPIRLEVGPRDMKSCQFVAVRRDTGEKLTVAENEAETKLQAILEDIQVTLFTRASEDLKTHMVVANTMEDFQKILDSGKIVQIPFCGEIDCEDWIKKTTARMGAKSLCIPFKPLCELQPGAKCVCGKNPAKYYTLFGRSY 7f9g-a1-m1-cA_7f9g-a1-m1-cB Thrombocorticin in complex with Ca2+ and fucose 1.331 X-RAY DIFFRACTION 120 1.0 1935377 (Corticium sp. (in: basidiomycete fungi)) 1935377 (Corticium sp. (in: basidiomycete fungi)) 130 131 7f91-a1-m1-cB_7f91-a1-m1-cA 7f9f-a1-m1-cA_7f9f-a1-m1-cC 7f9f-a2-m1-cB_7f9f-a2-m1-cD 7f9j-a1-m1-cA_7f9j-a1-m1-cB 7fbl-a1-m1-cA_7fbl-a1-m1-cB ACTTGPQTISFPAGLIVSLNASVQSSRNESVEVKDSNGNTVSRGSGSSSSGGTFTVINMEPPTFISDGNDYTVELSPQATPGILQTESSRVDNGRLIWQNYAFGANDGGCIVGDRDFNDVFVLITGLVRG TACTTGPQTISFPAGLIVSLNASVQSSRNESVEVKDSNGNTVSRGSGSSSSGGTFTVINMEPPTFISDGNDYTVELSPQATPGILQTESSRVDNGRLIWQNYAFGANDGGCIVGDRDFNDVFVLITGLVRG 7f9i-a1-m1-cA_7f9i-a1-m1-cB The apo-form structure of EnrR 2.5 X-RAY DIFFRACTION 24 1.0 1263550 (Edwardsiella piscicida) 1263550 (Edwardsiella piscicida) 68 69 AQDWHRADIVAALHKRGITLAGLSRAHGLAARTLSNAMERHYPRAERLIAQALDMRPEDIWPQRYRNK AQDWHRADIVAALHKRGITLAGLSRAHGLAARTLSNAMERHYPRAERLIAQALDMRPEDIWPQRYRNKK 7fae-a1-m1-cA_7fae-a1-m1-cC S protein of SARS-CoV-2 in complex bound with P36-5D2(state2) P0DTC2 P0DTC2 3.65 ELECTRON MICROSCOPY 278 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1004 1007 7fae-a1-m1-cA_7fae-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7faf-a1-m1-cC_7faf-a1-m1-cA S protein of SARS-CoV-2 in complex bound with P36-5D2 (state1) P0DTC2 P0DTC2 3.69 ELECTRON MICROSCOPY 259 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 994 996 7faf-a1-m1-cA_7faf-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEVCGPKKSTNLVKNKCVNFNFTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSTVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7faf-a1-m1-cC_7faf-a1-m1-cB S protein of SARS-CoV-2 in complex bound with P36-5D2 (state1) P0DTC2 P0DTC2 3.69 ELECTRON MICROSCOPY 282 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 994 1006 7fae-a1-m1-cB_7fae-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEVCGPKKSTNLVKNKCVNFNFTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fb0-a1-m1-cB_7fb0-a1-m1-cC SARS-CoV-2 spike protein in closed state P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 270 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 975 975 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7fb0-a1-m1-cC_7fb0-a1-m1-cA SARS-CoV-2 spike protein in closed state P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 277 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 975 976 7fb0-a1-m1-cB_7fb0-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7fb1-a1-m1-cC_7fb1-a1-m1-cB SARS-CoV-2 spike protein in one-RBD open state P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 248 0.998 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1029 1036 LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLEFRVYSSANNCTFEYVSQPFLMNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALLTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGESEFRVYSSANNCTFEYVSQPFLMNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fb3-a1-m1-cB_7fb3-a1-m1-cC SARS-CoV-2 spike protein in one-RBD weak state after CTSL-treatment P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 238 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 849 1042 LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNIKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fb3-a1-m1-cC_7fb3-a1-m1-cA SARS-CoV-2 spike protein in one-RBD weak state after CTSL-treatment P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 277 0.998 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1042 1045 7fb3-a1-m1-cB_7fb3-a1-m1-cA 7r16-a1-m1-cC_7r16-a1-m1-cB 7ub5-a1-m1-cB_7ub5-a1-m1-cA 7ub5-a1-m1-cC_7ub5-a1-m1-cA LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fb4-a1-m1-cA_7fb4-a1-m1-cC SARS-CoV-2 spike protein in two-RBD weak state after CTSL-treatment P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 256 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 851 1043 7fb4-a1-m1-cA_7fb4-a1-m1-cB QLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNIKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fb4-a1-m1-cB_7fb4-a1-m1-cC SARS-CoV-2 spike protein in two-RBD weak state after CTSL-treatment P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 236 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 852 1043 LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNIKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fbo-a1-m12-cB_7fbo-a1-m9-cC geranyl pyrophosphate C6-methyltransferase BezA binding with S-adenosylhomocysteine A0A2Z5X7B9 A0A2Z5X7B9 2.56 X-RAY DIFFRACTION 52 1.0 1894972 (Streptomyces sp. RI18) 1894972 (Streptomyces sp. RI18) 281 282 7fbh-a1-m11-cB_7fbh-a1-m10-cC 7fbh-a1-m1-cA_7fbh-a1-m2-cA 7fbh-a1-m3-cA_7fbh-a1-m4-cA 7fbh-a1-m5-cB_7fbh-a1-m8-cC 7fbh-a1-m7-cB_7fbh-a1-m6-cC 7fbh-a1-m9-cB_7fbh-a1-m12-cC 7fbo-a1-m10-cB_7fbo-a1-m11-cC 7fbo-a1-m11-cB_7fbo-a1-m10-cC 7fbo-a1-m1-cA_7fbo-a1-m2-cA 7fbo-a1-m3-cA_7fbo-a1-m4-cA 7fbo-a1-m5-cB_7fbo-a1-m8-cC 7fbo-a1-m6-cB_7fbo-a1-m7-cC 7fbo-a1-m7-cB_7fbo-a1-m6-cC 7fbo-a1-m8-cB_7fbo-a1-m5-cC 7fbo-a1-m9-cB_7fbo-a1-m12-cC RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFER RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFERK 7fbo-a1-m9-cA_7fbo-a1-m9-cC geranyl pyrophosphate C6-methyltransferase BezA binding with S-adenosylhomocysteine A0A2Z5X7B9 A0A2Z5X7B9 2.56 X-RAY DIFFRACTION 39 1.0 1894972 (Streptomyces sp. RI18) 1894972 (Streptomyces sp. RI18) 282 282 7fbo-a1-m10-cA_7fbo-a1-m10-cC 7fbo-a1-m11-cA_7fbo-a1-m11-cC 7fbo-a1-m12-cA_7fbo-a1-m12-cC 7fbo-a1-m1-cA_7fbo-a1-m1-cC 7fbo-a1-m2-cA_7fbo-a1-m2-cC 7fbo-a1-m3-cA_7fbo-a1-m3-cC 7fbo-a1-m4-cA_7fbo-a1-m4-cC 7fbo-a1-m5-cA_7fbo-a1-m5-cC 7fbo-a1-m6-cA_7fbo-a1-m6-cC 7fbo-a1-m7-cA_7fbo-a1-m7-cC 7fbo-a1-m8-cA_7fbo-a1-m8-cC RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFERK RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFERK 7fbo-a1-m9-cB_7fbo-a1-m1-cA geranyl pyrophosphate C6-methyltransferase BezA binding with S-adenosylhomocysteine A0A2Z5X7B9 A0A2Z5X7B9 2.56 X-RAY DIFFRACTION 33 1.0 1894972 (Streptomyces sp. RI18) 1894972 (Streptomyces sp. RI18) 281 282 7fbh-a1-m10-cC_7fbh-a1-m1-cA 7fbh-a1-m11-cB_7fbh-a1-m2-cA 7fbh-a1-m11-cB_7fbh-a1-m6-cC 7fbh-a1-m12-cC_7fbh-a1-m2-cA 7fbh-a1-m5-cB_7fbh-a1-m12-cC 7fbh-a1-m5-cB_7fbh-a1-m3-cA 7fbh-a1-m6-cC_7fbh-a1-m3-cA 7fbh-a1-m7-cB_7fbh-a1-m10-cC 7fbh-a1-m7-cB_7fbh-a1-m4-cA 7fbh-a1-m8-cC_7fbh-a1-m4-cA 7fbh-a1-m9-cB_7fbh-a1-m1-cA 7fbh-a1-m9-cB_7fbh-a1-m8-cC 7fbo-a1-m10-cB_7fbo-a1-m7-cC 7fbo-a1-m11-cA_7fbo-a1-m2-cC 7fbo-a1-m11-cB_7fbo-a1-m2-cA 7fbo-a1-m11-cB_7fbo-a1-m6-cC 7fbo-a1-m12-cB_7fbo-a1-m5-cC 7fbo-a1-m12-cC_7fbo-a1-m2-cA 7fbo-a1-m1-cA_7fbo-a1-m10-cC 7fbo-a1-m1-cB_7fbo-a1-m10-cA 7fbo-a1-m1-cC_7fbo-a1-m9-cA 7fbo-a1-m2-cB_7fbo-a1-m12-cA 7fbo-a1-m3-cA_7fbo-a1-m6-cC 7fbo-a1-m3-cB_7fbo-a1-m6-cA 7fbo-a1-m3-cC_7fbo-a1-m5-cA 7fbo-a1-m4-cA_7fbo-a1-m8-cC 7fbo-a1-m4-cB_7fbo-a1-m8-cA 7fbo-a1-m4-cC_7fbo-a1-m7-cA 7fbo-a1-m5-cB_7fbo-a1-m12-cC 7fbo-a1-m5-cB_7fbo-a1-m3-cA 7fbo-a1-m6-cB_7fbo-a1-m11-cC 7fbo-a1-m7-cB_7fbo-a1-m10-cC 7fbo-a1-m7-cB_7fbo-a1-m4-cA 7fbo-a1-m8-cB_7fbo-a1-m9-cC 7fbo-a1-m9-cB_7fbo-a1-m8-cC RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFER RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFERK 7fbo-a1-m9-cB_7fbo-a1-m9-cA geranyl pyrophosphate C6-methyltransferase BezA binding with S-adenosylhomocysteine A0A2Z5X7B9 A0A2Z5X7B9 2.56 X-RAY DIFFRACTION 20 1.0 1894972 (Streptomyces sp. RI18) 1894972 (Streptomyces sp. RI18) 281 282 7fbo-a1-m10-cB_7fbo-a1-m10-cA 7fbo-a1-m11-cB_7fbo-a1-m11-cA 7fbo-a1-m12-cB_7fbo-a1-m12-cA 7fbo-a1-m1-cB_7fbo-a1-m1-cA 7fbo-a1-m2-cB_7fbo-a1-m2-cA 7fbo-a1-m3-cB_7fbo-a1-m3-cA 7fbo-a1-m4-cB_7fbo-a1-m4-cA 7fbo-a1-m5-cB_7fbo-a1-m5-cA 7fbo-a1-m6-cB_7fbo-a1-m6-cA 7fbo-a1-m7-cB_7fbo-a1-m7-cA 7fbo-a1-m8-cB_7fbo-a1-m8-cA RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFER RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFERK 7fbo-a1-m9-cB_7fbo-a1-m9-cC geranyl pyrophosphate C6-methyltransferase BezA binding with S-adenosylhomocysteine A0A2Z5X7B9 A0A2Z5X7B9 2.56 X-RAY DIFFRACTION 12 1.0 1894972 (Streptomyces sp. RI18) 1894972 (Streptomyces sp. RI18) 281 282 7fbo-a1-m10-cB_7fbo-a1-m10-cC 7fbo-a1-m11-cB_7fbo-a1-m11-cC 7fbo-a1-m12-cB_7fbo-a1-m12-cC 7fbo-a1-m1-cB_7fbo-a1-m1-cC 7fbo-a1-m2-cB_7fbo-a1-m2-cC 7fbo-a1-m3-cB_7fbo-a1-m3-cC 7fbo-a1-m4-cB_7fbo-a1-m4-cC 7fbo-a1-m5-cB_7fbo-a1-m5-cC 7fbo-a1-m6-cB_7fbo-a1-m6-cC 7fbo-a1-m7-cB_7fbo-a1-m7-cC 7fbo-a1-m8-cB_7fbo-a1-m8-cC RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFER RIVGQYYDDKTAKLVRKYGPGPRIHYHVGYYPSSEAPRHTRDVTPDAFRRSIRLHQEGLLRYAAKIWGAEHRLSGRILDVGCGLGGGSLFWAQEYGADVTAVTNAPEHAPIVEGFARECGVGGRVRTLVCDAMHLPLDGGPYDAAVAIESSGYFDRPVWFERLAHVLRPGGSVCIEEVFTTRPHGADVWAEYFYTKPATVLDYAEAAKAAGFELVDDVDATSETLPFWEESTAWTKAVLDSDSTLSAVDRRQLRISLMANQALGAEWQAGGLRLGFLRFERK 7fby-a1-m2-cA_7fby-a1-m8-cA Crystal Structure of PH0140 from Pyrococcus horikosii OT3 O57880 O57880 2.001 X-RAY DIFFRACTION 213 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 153 153 7fby-a1-m1-cA_7fby-a1-m7-cA 7fby-a1-m3-cA_7fby-a1-m5-cA 7fby-a1-m4-cA_7fby-a1-m6-cA RKVELDEIDRAILRLLQEDGRMSYSEISRRINVPESTVRARVNRLVKEGVIRKFAALINPFKAGYEIVAFIAVDAEPAKVKQVVEELAKFPEVDVLGIVTGAHDIFMQVTVKDLQELERFILEKMAKIDGIKSTETSILTSVKKWGYARVFHH RKVELDEIDRAILRLLQEDGRMSYSEISRRINVPESTVRARVNRLVKEGVIRKFAALINPFKAGYEIVAFIAVDAEPAKVKQVVEELAKFPEVDVLGIVTGAHDIFMQVTVKDLQELERFILEKMAKIDGIKSTETSILTSVKKWGYARVFHH 7fby-a1-m4-cA_7fby-a1-m8-cA Crystal Structure of PH0140 from Pyrococcus horikosii OT3 O57880 O57880 2.001 X-RAY DIFFRACTION 24 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 153 153 7fby-a1-m1-cA_7fby-a1-m6-cA 7fby-a1-m2-cA_7fby-a1-m5-cA 7fby-a1-m3-cA_7fby-a1-m7-cA RKVELDEIDRAILRLLQEDGRMSYSEISRRINVPESTVRARVNRLVKEGVIRKFAALINPFKAGYEIVAFIAVDAEPAKVKQVVEELAKFPEVDVLGIVTGAHDIFMQVTVKDLQELERFILEKMAKIDGIKSTETSILTSVKKWGYARVFHH RKVELDEIDRAILRLLQEDGRMSYSEISRRINVPESTVRARVNRLVKEGVIRKFAALINPFKAGYEIVAFIAVDAEPAKVKQVVEELAKFPEVDVLGIVTGAHDIFMQVTVKDLQELERFILEKMAKIDGIKSTETSILTSVKKWGYARVFHH 7fby-a1-m6-cA_7fby-a1-m8-cA Crystal Structure of PH0140 from Pyrococcus horikosii OT3 O57880 O57880 2.001 X-RAY DIFFRACTION 25 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 153 153 7fby-a1-m1-cA_7fby-a1-m3-cA 7fby-a1-m1-cA_7fby-a1-m4-cA 7fby-a1-m2-cA_7fby-a1-m3-cA 7fby-a1-m2-cA_7fby-a1-m4-cA 7fby-a1-m5-cA_7fby-a1-m7-cA 7fby-a1-m5-cA_7fby-a1-m8-cA 7fby-a1-m6-cA_7fby-a1-m7-cA RKVELDEIDRAILRLLQEDGRMSYSEISRRINVPESTVRARVNRLVKEGVIRKFAALINPFKAGYEIVAFIAVDAEPAKVKQVVEELAKFPEVDVLGIVTGAHDIFMQVTVKDLQELERFILEKMAKIDGIKSTETSILTSVKKWGYARVFHH RKVELDEIDRAILRLLQEDGRMSYSEISRRINVPESTVRARVNRLVKEGVIRKFAALINPFKAGYEIVAFIAVDAEPAKVKQVVEELAKFPEVDVLGIVTGAHDIFMQVTVKDLQELERFILEKMAKIDGIKSTETSILTSVKKWGYARVFHH 7fca-a1-m1-cA_7fca-a1-m1-cD PfkB(Mycobacterium marinum) B2HEF4 B2HEF4 2.21 X-RAY DIFFRACTION 17 0.989 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 280 282 7cf8-a1-m1-cA_7cf8-a1-m1-cD MARGLVIGEALIDIVDPDPAEYVGGSPLNVAVGLARLGRDVDLLTHIGRDARGRRIAEYIESSGVQLVSGSQTADRTPTATATYAFDLEWQIPDTPPVTPPLLVHTGSIAAAREPGCLAVAALLDAYRAAATVSFDPNVRPSLSADPDLTRERIQRLVERSDIIKASAEDLHWIDPTQPPEQTARAWLACGPAIVALTLGDQGAVAFCAAGPASVPAQPVDTVGAGDAFMAGLLDTLWEQGLLGADRRTELRKIGVSALTSALEVAALTSALTVARAGAD MARGLVIGEALIDIVDGPDPAEYVGGSPLNVAVGLARLGRDVDLLTHIGRDARGRRIAEYIESSGVQLVSGSQTADRTPTATARTYAFDLEWQIPDTPPVAPPLLVHTGSIAAAREPGCLAVAALLDAYRAAATVSFDPNVRPSLSADPDLTRRRIQRLVERSDIIKASAEDLHWIDPTQPPEQTARAWLACGPAIVALTLGDQGAVAFCAAGPASVPAQPVVDTVGAGDAFMAGLLDTLWEQGLLGADRRTELRKIGVSALTSALEVAALTSALTVARAGA 7fca-a1-m1-cB_7fca-a1-m1-cC PfkB(Mycobacterium marinum) B2HEF4 B2HEF4 2.21 X-RAY DIFFRACTION 23 0.989 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 272 273 7cf8-a1-m1-cB_7cf8-a1-m1-cA 7cf8-a1-m1-cB_7cf8-a1-m1-cC 7cf8-a1-m1-cC_7cf8-a1-m1-cA 7cf8-a1-m1-cE_7cf8-a1-m1-cD 7cf8-a1-m1-cF_7cf8-a1-m1-cD 7cf8-a1-m1-cF_7cf8-a1-m1-cE 7fca-a1-m1-cB_7fca-a1-m1-cA 7fca-a1-m1-cC_7fca-a1-m1-cA 7fca-a1-m1-cE_7fca-a1-m1-cD 7fca-a1-m1-cF_7fca-a1-m1-cD 7fca-a1-m1-cF_7fca-a1-m1-cE ARGLVIGEALIDIVDGEYVGGSPLNVAVGLARLGRDVDLLTHIGRDARGRRIAEYIESSGVQLVSGSQTADRTPTATATYAFDLEWQIPDTPPVTPPLLVHTGSIAAAREPGCLAVAALLDAYRAAATVSFDPNVRPSLSADPDLTRERIQRLVERSDIIKASAEDLHWIDPTQPPEQTARAWLACGPAIVALTLGDQGAVAFCAAGPASVPAQPDTVGAGDAFMAGLLDTLWEQGLLGADRRTELRKIGVSALTSALEVAALTSALTVARA ARGLVIGEALIDIVAEYVGGSPLNVAVGLARLGRDVDLLTHIGRDARGRRIAEYIESSGVQLVSGSQTADRTPTATATYAFDLEWQIPDTPPVTPPLLVHTGSIAAAREPGCLAVAALLDAYRAAATVSFDPNVRPSLSADPDLTRERIQRLVERSDIIKASAEDLHWIDPTQPPEQTARAWLACGPAIVALTLGDQGAVAFCAAGPASVPAQDTVGAGDAFMAGLLDTLWEQGLLGADRRTELRKIGVSALTSALEVAALTSALTVARAGAD 7fca-a1-m1-cC_7fca-a1-m1-cE PfkB(Mycobacterium marinum) B2HEF4 B2HEF4 2.21 X-RAY DIFFRACTION 13 0.996 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 273 278 7cf8-a1-m1-cC_7cf8-a1-m1-cE ARGLVIGEALIDIVAEYVGGSPLNVAVGLARLGRDVDLLTHIGRDARGRRIAEYIESSGVQLVSGSQTADRTPTATATYAFDLEWQIPDTPPVTPPLLVHTGSIAAAREPGCLAVAALLDAYRAAATVSFDPNVRPSLSADPDLTRERIQRLVERSDIIKASAEDLHWIDPTQPPEQTARAWLACGPAIVALTLGDQGAVAFCAAGPASVPAQDTVGAGDAFMAGLLDTLWEQGLLGADRRTELRKIGVSALTSALEVAALTSALTVARAGAD ARGLVIGEALIDIVDGDPAEYVGGSPLNVAVGLARLGRDVDLLTHIGRDARGRRIAEYIESSGVQLVSGSQTADRTPTATATYAFDLEWQIPDTPPVTPPLLVHTGSIAAAREPGCLAVAALLDAYRAAATVSFDPNVRPSLSADPDLTRERIQRLVERSDIIKASAEDLHWIDPTQPPEQTARAWLACGPAIVALTLGDQGAVAFCAAGPASVPAQPVTVGAGDAFMAGLLDTLWEQGLLGADRRTELRKIGVSALTSALEVAALTSALTVARAGAD 7fcd-a1-m1-cA_7fcd-a1-m1-cC Structure of the SARS-CoV-2 A372T spike glycoprotein (open) P0DTC2 P0DTC2 3.9 ELECTRON MICROSCOPY 280 0.99 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1007 1027 7fcd-a1-m1-cA_7fcd-a1-m1-cB QCVNTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYNKSWMESEFRVYSSANNCTFEYFKNLREFVFKYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNVVIKVCEFQFCNDPFLGVYYHKSWMESEFRVYSSANNCTFEYVSQPKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVNATRFASVYAWNRKRISNCVADYSVNSTSFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7fcf-a1-m1-cA_7fcf-a1-m1-cD Crystal structure of T6SS Hcp protein A0A1W0CP47 A0A1W0CP47 3.3 X-RAY DIFFRACTION 49 0.992 394935 (Chromobacterium haemolyticum) 394935 (Chromobacterium haemolyticum) 124 145 7fcf-a1-m1-cA_7fcf-a1-m1-cB AFDAFLKIDGIPGESSDDKHKDWIEIQSFAHKHAAYEITHFLDKASPKIYEACCKGQHIKEITIELCRAGGDKYMEIKMEQVLIAKVEPHGSANDFPSEKVSFTYGKIKWTYTQQAGGGNVSSG AFDAFLKIDGIPGESSDDKHKDWIEIQSFAHKLEQPAVNHAAYEITHFLDKASPKIYEACCKGQHIKEITIELCRAGGDKVKYMEIKMEQVLIAKVEPHGSANDNFPSEKVSFTYGKIKWTYTQQKRADGGNVSSGWDLTANKAI 7fcf-a1-m1-cF_7fcf-a1-m1-cC Crystal structure of T6SS Hcp protein A0A1W0CP47 A0A1W0CP47 3.3 X-RAY DIFFRACTION 79 0.993 394935 (Chromobacterium haemolyticum) 394935 (Chromobacterium haemolyticum) 146 147 AFDAFLKIDGIPGESSDDKHKDWIEIQSFAHKLEQPVNHAAYEITHFLDKASPKIYEACCKGQHIKEITIELCRAGGDVKYMEIKMEQVLIAKVEPHGSANDNFPSEKVSFTYGKIKWTYTQQKRADGAGGGNVSSGWDLTANKAI AFDAFLKIDGIPGESSDDKHKDWIEIQSFAHKLEQRVNHAAYEITHFLDKASPKIYEACCKGQHIKEITIELCRAGGDVKYMEIKMEQVLIAKVEPHGSANDNGFPSEKVSFTYGKIKWTYTQQKRADGAGGGNVSSGWDLTANKAI 7fch-a2-m1-cB_7fch-a2-m1-cD IL-18Rbeta TIR domain O95256 O95256 1.883 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 143 143 7fch-a1-m1-cA_7fch-a1-m2-cC KDFDAFVSYALSEEHLALSLFPDVLENKYGYSLCLLERDVAPGGVYAEDIVSIIKRSRRGIFILSPNYVNGPSIFELQAAVNLALDDQTLKLILIKFCYFQEPESLPHLVKKALRVLPTVTWRGLKSVPPNSRFWAKMRYHMP KDFDAFVSYALSEEHLALSLFPDVLENKYGYSLCLLERDVAPGGVYAEDIVSIIKRSRRGIFILSPNYVNGPSIFELQAAVNLALDDQTLKLILIKFCYFQEPESLPHLVKKALRVLPTVTWRGLKSVPPNSRFWAKMRYHMP 7fcl-a2-m1-cC_7fcl-a2-m2-cC Zebrafish SIGIRR TIR domain K9K3G6 K9K3G6 3.04 X-RAY DIFFRACTION 22 1.0 7955 (Danio rerio) 7955 (Danio rerio) 146 146 7fcl-a1-m1-cA_7fcl-a1-m1-cB MYDAYISYVNNENDRKFVNFILKPHLENKYSHKLLLNNTNILPGAEPSAELLMNISRCQRLIVVLSQSYLEQEWCTTNFRQGLWHLIELSRKPIFIIFQSQQKQISQDISQQLRQHQPCITMITWGAHSMTPSSGFWKELALVMPR MYDAYISYVNNENDRKFVNFILKPHLENKYSHKLLLNNTNILPGAEPSAELLMNISRCQRLIVVLSQSYLEQEWCTTNFRQGLWHLIELSRKPIFIIFQSQQKQISQDISQQLRQHQPCITMITWGAHSMTPSSGFWKELALVMPR 7fco-a1-m1-cB_7fco-a1-m1-cA ChlB4 Halogenase Q0R4P7 Q0R4P7 2.51 X-RAY DIFFRACTION 42 0.988 1890 (Streptomyces antibioticus) 1890 (Streptomyces antibioticus) 429 433 QPDFDAAIVGGGPAGSAMASYLAEAGLSVAVFESEMFPRPHIGESLVPATMPVLDEIGVMPDIEAAGFPKKYGAAWTSAHNGFTGLDHDFKAAEVMFVERDQPGVHRDYTFHVDRGKFDLILLKHAESRGAQVFQKTRVLKADFTDPDLVTLLGPRTLDFTTRMVIDASGRQTMLGNQLKVKVPDPVFNQYAIHAWFEGLDRTAMALDPAKRDYIYVHFLPLEDTWMWQIPITDTITSVGVVTQKHRFKAASDREKFFWDIVSSRKDIYDALQKAERIRPFKAEGDYSYAMRQICGDRFLLIGDAARFVDPIFSSGVSVALNSARLAAKDVIAAHRAGDFKESFATYEEKLRRAVRNWYEFISVYYRLNILFTAFVQDPRYRIDVLKMLQGDFYDGEEPKALKAMRDLVTKVENDPEHLWHPYLGTLRA QPDFDAAIVGGGPAGSAMASYLAEAGLSVAVFESEMFPRPHIGESLVPATMPVLDEIGVMPDIEAAGFPKKYGAAWTSAESRDVPHNGFTGLDHDFKAAEVMFVERDQPGVHRDYTFHVDRGKFDLILLKHAESRGAQVFQKTRVLKADFDTPDLVTLLGPRTLDFTTRMVIDASGRQTMLGNQLKVKVPDPVFNQYAIHAWFEGLDRTAMALDPAKRDYIYVHFLPLEDTWMWQIPITDTITSVGVVTQKHRFKDREKFFWDIVSSRKDIYDALQKAERIRPFKAEGDYSYAMRQICGDRFLLIGDAARFVDPIFSSGVSVALNSARLAAKDVIAAHRAGDFRKESFATYEEKLRRAVRNWYEFISVYYRLNILFTAFVQDPRYRIDVLKMLQGDFYDGEEPKALKAMRDLVTKVENDPEHLWHPYLGTLRA 7fct-a1-m1-cA_7fct-a1-m1-cB Crystal structure of metallo-beta-lactamase MBLBt2 A0A4Y1LJC5 A0A4Y1LJC5 1.8 X-RAY DIFFRACTION 117 1.0 2163421 (Bacillus phage vB_BtM_BMBsp2) 2163421 (Bacillus phage vB_BtM_BMBsp2) 238 239 MFKFIGCGSAFNTRLGNNSAYIKEDGILFMIDCGSANFDRIMRSDLLEGVEDIVVLMTHTHPDHVGSLGDLIFYSYFCMGQVKVPNLTVYAPYDMKISKVLQGMGVERECYRLIQFDNSNEYGFHIKFQVVPNRHVPELLCYGYLITYKDKTIYYSGDANNISPFILRMLEDGEIDYFYQDTCQADYEGNVHLSLKKLSEMVWANRDRVYCMHLDGGFNREQAEELGFNVVQPSYKFM MFKFIGCGSAFNTRLGNNSAYIKEDGILFMIDCGSANFDRIMRSDLLEGVEDIVVLMTHTHPDHVGSLGDLIFYSYFCMGQVKVPNLTVYAPYDMKISKVLQGMGVERECYRLIQFDNSNEYGFHIKFQVVPNRHVPELLCYGYLITYKDKTIYYSGDANNISPFILRMLEDGEIDYFYQDTCQADYEGNVHLSLKKLSEMVWANRDRVYCMHLDGGFNREQAEELGFNVVQPSYKFMI 7fd4-a1-m1-cA_7fd4-a1-m1-cB A complete three-dimensional structure of the Lon protease translocating a protein substrate (conformation 1) A0A059VAZ3 A0A059VAZ3 2.4 ELECTRON MICROSCOPY 167 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 779 779 7fd5-a1-m1-cB_7fd5-a1-m1-cC 7fid-a1-m1-cA_7fid-a1-m1-cB 7fie-a1-m1-cB_7fie-a1-m1-cC 7fiz-a1-m1-cB_7fiz-a1-m1-cC RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 7fd4-a1-m1-cB_7fd4-a1-m1-cE A complete three-dimensional structure of the Lon protease translocating a protein substrate (conformation 1) A0A059VAZ3 A0A059VAZ3 2.4 ELECTRON MICROSCOPY 23 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 779 779 7fd5-a1-m1-cC_7fd5-a1-m1-cF 7fid-a1-m1-cB_7fid-a1-m1-cE 7fie-a1-m1-cC_7fie-a1-m1-cF 7fiz-a1-m1-cC_7fiz-a1-m1-cF RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 7fd4-a1-m1-cD_7fd4-a1-m1-cF A complete three-dimensional structure of the Lon protease translocating a protein substrate (conformation 1) A0A059VAZ3 A0A059VAZ3 2.4 ELECTRON MICROSCOPY 17 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 779 779 7fd5-a1-m1-cA_7fd5-a1-m1-cE 7fid-a1-m1-cD_7fid-a1-m1-cF 7fie-a1-m1-cA_7fie-a1-m1-cE 7fiz-a1-m1-cA_7fiz-a1-m1-cE RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 7fd9-a1-m1-cA_7fd9-a1-m1-cB Thermostabilised full length human mGluR5-5M with orthosteric antagonist, LY341495 P41594 P41594 4.0 ELECTRON MICROSCOPY 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 767 767 6n52-a1-m1-cA_6n52-a1-m1-cB RRVVAHMPGDIIIGALFSVHHQPTVDKVHERKCGAVREQYGIQRVEAMLHTLERINSDPTLLPNITLGCEIRDSCWHSAVALEQSIEFIRDSLISSKKPIVGVIGPGSSSVAIQVQNLLQLFNIPQIAYSATSMDLSDKTLFKYFMRVVPSDAQQARAMVDIVKRYNWTYVSAVHTEGNYGESGMEAFKDMSAKEGICIAHSYKIYSNAGEQSFDKLLKKLTSHLPKARVVACFCEGMTVRGLLMAMRRLGLAGEFLLLGSDGWADRYDVTDGYQREAVGGITIKLQSPDVKWFDDYYLKLRPETNLRNPWFQEFWQHRFQCRLEGFPQENSKYNKTCNSSLTLKTHHVQDSKMGFVINAIYSMAYGLHNMQMSLCPGYAGLCDAMKPIDGRKLLESLMKTAFTGVSGDTILFDENGDSPGRYEIMNFKEMGKDYFDYINVGSWDNGELKMDDDEVWSKKSNIIRSVCSEPCEKGQIKVIRKGEVSCCWTCTPCKENEYVFDEYTCKACQLGSWPTDDLTGCDLIPVQYLRWGDPEPIAAVVFACLGLLATLFVTVVFIIYRDTPVVKSSSRELCYIILAGICLGYLCTFCLIAKPKQIYCYLQRIGIGLSPAMSYSALVTKTNRIARILACAQLVIAFILICIQLGIIVALFIMEPPDIMHDYPSIREVYLICNTTNLGVVAPLGYNGLLILACTFYAFKTRNVPANFNEAKYIAFAMYTTCIIWLAFVPIYFGSNYKAITMCFSVSLSATVLLGCMFVPKVYIIL RRVVAHMPGDIIIGALFSVHHQPTVDKVHERKCGAVREQYGIQRVEAMLHTLERINSDPTLLPNITLGCEIRDSCWHSAVALEQSIEFIRDSLISSKKPIVGVIGPGSSSVAIQVQNLLQLFNIPQIAYSATSMDLSDKTLFKYFMRVVPSDAQQARAMVDIVKRYNWTYVSAVHTEGNYGESGMEAFKDMSAKEGICIAHSYKIYSNAGEQSFDKLLKKLTSHLPKARVVACFCEGMTVRGLLMAMRRLGLAGEFLLLGSDGWADRYDVTDGYQREAVGGITIKLQSPDVKWFDDYYLKLRPETNLRNPWFQEFWQHRFQCRLEGFPQENSKYNKTCNSSLTLKTHHVQDSKMGFVINAIYSMAYGLHNMQMSLCPGYAGLCDAMKPIDGRKLLESLMKTAFTGVSGDTILFDENGDSPGRYEIMNFKEMGKDYFDYINVGSWDNGELKMDDDEVWSKKSNIIRSVCSEPCEKGQIKVIRKGEVSCCWTCTPCKENEYVFDEYTCKACQLGSWPTDDLTGCDLIPVQYLRWGDPEPIAAVVFACLGLLATLFVTVVFIIYRDTPVVKSSSRELCYIILAGICLGYLCTFCLIAKPKQIYCYLQRIGIGLSPAMSYSALVTKTNRIARILACAQLVIAFILICIQLGIIVALFIMEPPDIMHDYPSIREVYLICNTTNLGVVAPLGYNGLLILACTFYAFKTRNVPANFNEAKYIAFAMYTTCIIWLAFVPIYFGSNYKAITMCFSVSLSATVLLGCMFVPKVYIIL 7fdn-a1-m1-cA_7fdn-a1-m1-cB Crystal structure of transcription factor WER in complex with EGL3 Q9CAD0 Q9CAD0 1.9 X-RAY DIFFRACTION 42 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 169 171 DNLKKQLAVSVRNIQWSYGIFWSVSASQPGVLEWGDGYYNGDIKTRIDQLGLERSEQLRELYESLSLAALSPEDLTDTEWYYLVCMSFVFNIGEGIPGGALSNGEPIWLCNAETADSKVFTRSLLAKSASLQTVVCFPFLGGVLEIGTTEHIKEDMNVIQSVKTLFLEA DNLKKQLAVSVRNIQWSYGIFWSVSASQPGVLEWGDGYYNGDIKTRKIDQLGLERSEQLRELYESLSLAAALSPEDLTDTEWYYLVCMSFVFNIGEGIPGGALSNGEPIWLCNAETADSKVFTRSLLAKSASLQTVVCFPFLGGVLEIGTTEHIKEDMNVIQSVKTLFLEA 7fds-a1-m1-cA_7fds-a1-m1-cB High resolution crystal structure of LpqH from Mycobacterium tuberculosis P9WK61 P9WK61 1.258 X-RAY DIFFRACTION 118 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 111 118 PKVVIDGKDQNVTGSVVCTTAAGNVNIAIGGAATGIAAVLTDGNPPEVKSVGLGNVNGVTLGYTSGTGQGNASATKDGSHYKITGTATGVDPVNKSFEIEVTCSTKLAAAL GPKVVIDGKDQNVTGSVVCTTAAGNVNIAIGGAATGIAAVLTDGNPPEVKSVGLGNVNGVTLGYTSGTGQGNASATKDGSHYKITGTATGVDMANPMSPVNKSFEIEVTCSTKLAAAL 7fdw-a1-m1-cA_7fdw-a1-m1-cB Crystal structure of pepsin cleaved lactoferrin C-lobe at 2.28 A resolution P24627 P24627 2.277 X-RAY DIFFRACTION 39 1.0 9913 (Bos taurus) 9913 (Bos taurus) 348 348 5cry-a1-m1-cA_5cry-a1-m1-cB 7enu-a1-m1-cA_7enu-a1-m1-cB 7equ-a1-m1-cA_7equ-a1-m1-cB 7ev0-a1-m1-cA_7ev0-a1-m1-cP 7evq-a1-m1-cA_7evq-a1-m1-cB YTRVVWCAVGPEEQKKCQQWSQQSGQNVTCATASTTDDCIVLVLKGEADALNLDGGYIYTAGKCGLVPVLAENRKSSKHSSLDCVLRPTEGYLAVAVVKKANEGLTWNSLKDKKSCHTAVDRTAGWNIPMGLIVNQTGSCAFDEFFSQSCAPGADPKSRLCALCAGDDQGLDKCVPNSKEKYYGYTGAFRCLAEDVGDVAFVKNDTVWENTNGESTADWAKNLNREDFRLLCLDGTRKPVTEAQSCHLAVAPNHAVVSRSDRAAHVKQVLLHQQALFGKNGKNCPDKFCLFKSETKNLLFNDNTECLAKLGGRPTYEEYLGTEYVTAIANLKKCSTSPLLEACAFLTR YTRVVWCAVGPEEQKKCQQWSQQSGQNVTCATASTTDDCIVLVLKGEADALNLDGGYIYTAGKCGLVPVLAENRKSSKHSSLDCVLRPTEGYLAVAVVKKANEGLTWNSLKDKKSCHTAVDRTAGWNIPMGLIVNQTGSCAFDEFFSQSCAPGADPKSRLCALCAGDDQGLDKCVPNSKEKYYGYTGAFRCLAEDVGDVAFVKNDTVWENTNGESTADWAKNLNREDFRLLCLDGTRKPVTEAQSCHLAVAPNHAVVSRSDRAAHVKQVLLHQQALFGKNGKNCPDKFCLFKSETKNLLFNDNTECLAKLGGRPTYEEYLGTEYVTAIANLKKCSTSPLLEACAFLTR 7fe4-a1-m1-cA_7fe4-a1-m2-cC Crystal structure of GH65 alpha-1,2-glucosidase from Flavobacterium johnsoniae in complex with glucose A5FBJ5 A5FBJ5 1.4 X-RAY DIFFRACTION 32 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 659 659 7fe3-a1-m1-cA_7fe3-a1-m2-cC 7fe3-a1-m1-cB_7fe3-a1-m2-cB 7fe3-a1-m1-cC_7fe3-a1-m2-cA 7fe4-a1-m1-cB_7fe4-a1-m2-cB 7fe4-a1-m1-cC_7fe4-a1-m2-cA HQDPWKLSADKPDSNNYYGETVANGMIGIISSPEPLKVKEVVLAGTYDIYKRGRVSSFIPNYNLLNMKLAFNGESVQTYNINNYKQELDMRNGAFTGSFQFKDLATVTYSYYALRHLPHCIMMVVNINTQKDTEINVENLLETPSSLNNQQNYFQNITNTHVNIPLLTSVAFTPTGRSKIAVSNTFLFDEGKKLQPEILHRMNDADMHAMSFDKKIKAGKTYSFALIGSLISSDHINDPYNEAERLTIYAALEGKSRLLNRHMQEWNSLWQSDIQVEGDPQAQQDIRSMLYHLYSFTRKSTSLSPSPMGLSGLGYNGHVFWDTEIWMFPPMLLLHPEIAKSMIEYRYQRLDAARKKAAIYGYDGAMFPWESADSGAEETPVNALTGAFEHHVTGDVAIAAWQYYLVTGDKEWLKEKGWPILKATAEFWASRVEKNDKGEYEIKNVVAADEWAENIDNNAYTNGTAIRNLQYASKCATVLGVIAPKEWTLIADKILISKMSNGVTREHDSYTDQNIKQADANLLAYPLKLITDKEQIERDLKYYQTKIPQSDTPAMTQAIFSLLYSRLEDSDQAYHWFKDAYQPNLNPPFRVISECKGGTNPYFSTGAGGVLQAVIMGFGGLDIDAAGGIKQVKSVLPKNWKKLTITGIGIEKKTFVLTH HQDPWKLSADKPDSNNYYGETVANGMIGIISSPEPLKVKEVVLAGTYDIYKRGRVSSFIPNYNLLNMKLAFNGESVQTYNINNYKQELDMRNGAFTGSFQFKDLATVTYSYYALRHLPHCIMMVVNINTQKDTEINVENLLETPSSLNNQQNYFQNITNTHVNIPLLTSVAFTPTGRSKIAVSNTFLFDEGKKLQPEILHRMNDADMHAMSFDKKIKAGKTYSFALIGSLISSDHINDPYNEAERLTIYAALEGKSRLLNRHMQEWNSLWQSDIQVEGDPQAQQDIRSMLYHLYSFTRKSTSLSPSPMGLSGLGYNGHVFWDTEIWMFPPMLLLHPEIAKSMIEYRYQRLDAARKKAAIYGYDGAMFPWESADSGAEETPVNALTGAFEHHVTGDVAIAAWQYYLVTGDKEWLKEKGWPILKATAEFWASRVEKNDKGEYEIKNVVAADEWAENIDNNAYTNGTAIRNLQYASKCATVLGVIAPKEWTLIADKILISKMSNGVTREHDSYTDQNIKQADANLLAYPLKLITDKEQIERDLKYYQTKIPQSDTPAMTQAIFSLLYSRLEDSDQAYHWFKDAYQPNLNPPFRVISECKGGTNPYFSTGAGGVLQAVIMGFGGLDIDAAGGIKQVKSVLPKNWKKLTITGIGIEKKTFVLTH 7fe4-a1-m1-cC_7fe4-a1-m2-cC Crystal structure of GH65 alpha-1,2-glucosidase from Flavobacterium johnsoniae in complex with glucose A5FBJ5 A5FBJ5 1.4 X-RAY DIFFRACTION 47 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 659 659 7fe3-a1-m1-cA_7fe3-a1-m2-cB 7fe3-a1-m1-cB_7fe3-a1-m2-cA 7fe3-a1-m1-cC_7fe3-a1-m2-cC 7fe4-a1-m1-cA_7fe4-a1-m2-cB 7fe4-a1-m1-cB_7fe4-a1-m2-cA HQDPWKLSADKPDSNNYYGETVANGMIGIISSPEPLKVKEVVLAGTYDIYKRGRVSSFIPNYNLLNMKLAFNGESVQTYNINNYKQELDMRNGAFTGSFQFKDLATVTYSYYALRHLPHCIMMVVNINTQKDTEINVENLLETPSSLNNQQNYFQNITNTHVNIPLLTSVAFTPTGRSKIAVSNTFLFDEGKKLQPEILHRMNDADMHAMSFDKKIKAGKTYSFALIGSLISSDHINDPYNEAERLTIYAALEGKSRLLNRHMQEWNSLWQSDIQVEGDPQAQQDIRSMLYHLYSFTRKSTSLSPSPMGLSGLGYNGHVFWDTEIWMFPPMLLLHPEIAKSMIEYRYQRLDAARKKAAIYGYDGAMFPWESADSGAEETPVNALTGAFEHHVTGDVAIAAWQYYLVTGDKEWLKEKGWPILKATAEFWASRVEKNDKGEYEIKNVVAADEWAENIDNNAYTNGTAIRNLQYASKCATVLGVIAPKEWTLIADKILISKMSNGVTREHDSYTDQNIKQADANLLAYPLKLITDKEQIERDLKYYQTKIPQSDTPAMTQAIFSLLYSRLEDSDQAYHWFKDAYQPNLNPPFRVISECKGGTNPYFSTGAGGVLQAVIMGFGGLDIDAAGGIKQVKSVLPKNWKKLTITGIGIEKKTFVLTH HQDPWKLSADKPDSNNYYGETVANGMIGIISSPEPLKVKEVVLAGTYDIYKRGRVSSFIPNYNLLNMKLAFNGESVQTYNINNYKQELDMRNGAFTGSFQFKDLATVTYSYYALRHLPHCIMMVVNINTQKDTEINVENLLETPSSLNNQQNYFQNITNTHVNIPLLTSVAFTPTGRSKIAVSNTFLFDEGKKLQPEILHRMNDADMHAMSFDKKIKAGKTYSFALIGSLISSDHINDPYNEAERLTIYAALEGKSRLLNRHMQEWNSLWQSDIQVEGDPQAQQDIRSMLYHLYSFTRKSTSLSPSPMGLSGLGYNGHVFWDTEIWMFPPMLLLHPEIAKSMIEYRYQRLDAARKKAAIYGYDGAMFPWESADSGAEETPVNALTGAFEHHVTGDVAIAAWQYYLVTGDKEWLKEKGWPILKATAEFWASRVEKNDKGEYEIKNVVAADEWAENIDNNAYTNGTAIRNLQYASKCATVLGVIAPKEWTLIADKILISKMSNGVTREHDSYTDQNIKQADANLLAYPLKLITDKEQIERDLKYYQTKIPQSDTPAMTQAIFSLLYSRLEDSDQAYHWFKDAYQPNLNPPFRVISECKGGTNPYFSTGAGGVLQAVIMGFGGLDIDAAGGIKQVKSVLPKNWKKLTITGIGIEKKTFVLTH 7fe4-a1-m2-cB_7fe4-a1-m2-cC Crystal structure of GH65 alpha-1,2-glucosidase from Flavobacterium johnsoniae in complex with glucose A5FBJ5 A5FBJ5 1.4 X-RAY DIFFRACTION 59 1.0 376686 (Flavobacterium johnsoniae UW101) 376686 (Flavobacterium johnsoniae UW101) 659 659 7fe3-a1-m1-cA_7fe3-a1-m1-cB 7fe3-a1-m1-cA_7fe3-a1-m1-cC 7fe3-a1-m1-cB_7fe3-a1-m1-cC 7fe3-a1-m2-cA_7fe3-a1-m2-cB 7fe3-a1-m2-cA_7fe3-a1-m2-cC 7fe3-a1-m2-cB_7fe3-a1-m2-cC 7fe4-a1-m1-cA_7fe4-a1-m1-cB 7fe4-a1-m1-cA_7fe4-a1-m1-cC 7fe4-a1-m1-cB_7fe4-a1-m1-cC 7fe4-a1-m2-cA_7fe4-a1-m2-cB 7fe4-a1-m2-cA_7fe4-a1-m2-cC HQDPWKLSADKPDSNNYYGETVANGMIGIISSPEPLKVKEVVLAGTYDIYKRGRVSSFIPNYNLLNMKLAFNGESVQTYNINNYKQELDMRNGAFTGSFQFKDLATVTYSYYALRHLPHCIMMVVNINTQKDTEINVENLLETPSSLNNQQNYFQNITNTHVNIPLLTSVAFTPTGRSKIAVSNTFLFDEGKKLQPEILHRMNDADMHAMSFDKKIKAGKTYSFALIGSLISSDHINDPYNEAERLTIYAALEGKSRLLNRHMQEWNSLWQSDIQVEGDPQAQQDIRSMLYHLYSFTRKSTSLSPSPMGLSGLGYNGHVFWDTEIWMFPPMLLLHPEIAKSMIEYRYQRLDAARKKAAIYGYDGAMFPWESADSGAEETPVNALTGAFEHHVTGDVAIAAWQYYLVTGDKEWLKEKGWPILKATAEFWASRVEKNDKGEYEIKNVVAADEWAENIDNNAYTNGTAIRNLQYASKCATVLGVIAPKEWTLIADKILISKMSNGVTREHDSYTDQNIKQADANLLAYPLKLITDKEQIERDLKYYQTKIPQSDTPAMTQAIFSLLYSRLEDSDQAYHWFKDAYQPNLNPPFRVISECKGGTNPYFSTGAGGVLQAVIMGFGGLDIDAAGGIKQVKSVLPKNWKKLTITGIGIEKKTFVLTH HQDPWKLSADKPDSNNYYGETVANGMIGIISSPEPLKVKEVVLAGTYDIYKRGRVSSFIPNYNLLNMKLAFNGESVQTYNINNYKQELDMRNGAFTGSFQFKDLATVTYSYYALRHLPHCIMMVVNINTQKDTEINVENLLETPSSLNNQQNYFQNITNTHVNIPLLTSVAFTPTGRSKIAVSNTFLFDEGKKLQPEILHRMNDADMHAMSFDKKIKAGKTYSFALIGSLISSDHINDPYNEAERLTIYAALEGKSRLLNRHMQEWNSLWQSDIQVEGDPQAQQDIRSMLYHLYSFTRKSTSLSPSPMGLSGLGYNGHVFWDTEIWMFPPMLLLHPEIAKSMIEYRYQRLDAARKKAAIYGYDGAMFPWESADSGAEETPVNALTGAFEHHVTGDVAIAAWQYYLVTGDKEWLKEKGWPILKATAEFWASRVEKNDKGEYEIKNVVAADEWAENIDNNAYTNGTAIRNLQYASKCATVLGVIAPKEWTLIADKILISKMSNGVTREHDSYTDQNIKQADANLLAYPLKLITDKEQIERDLKYYQTKIPQSDTPAMTQAIFSLLYSRLEDSDQAYHWFKDAYQPNLNPPFRVISECKGGTNPYFSTGAGGVLQAVIMGFGGLDIDAAGGIKQVKSVLPKNWKKLTITGIGIEKKTFVLTH 7fe5-a1-m1-cB_7fe5-a1-m1-cC AvmM Catalyzes Macrocyclization in Alchivemycin A Biosynthesis A0A8F7LEJ5 A0A8F7LEJ5 2.09 X-RAY DIFFRACTION 69 1.0 1559982 (Streptomyces sp. NBRC 109436) 1559982 (Streptomyces sp. NBRC 109436) 189 189 7fe0-a1-m1-cA_7fe0-a1-m1-cB 7fe0-a1-m1-cA_7fe0-a1-m1-cC 7fe0-a1-m1-cB_7fe0-a1-m1-cC 7fe5-a1-m1-cA_7fe5-a1-m1-cB 7fe5-a1-m1-cA_7fe5-a1-m1-cC 7fe6-a1-m1-cA_7fe6-a1-m1-cB 7fe6-a1-m1-cA_7fe6-a1-m1-cC 7fe6-a1-m1-cB_7fe6-a1-m1-cC GPVYREYKGFRVNDNIVADFIGVPAVITPGETIEFSVFYTNRGRYAYPDTGLNLVIWFSDRDDLRREDFKLFYKVSRADWQEQDPAKCWDPQFPAEGGVHIACQLSGPDGGILSKPDGTVPLPEVESVTAHVRLAFREGITSEHAGIFALPGMLDAPGDKSIIPGLFGNVFGRLQQASFRLGEGPSSLY GPVYREYKGFRVNDNIVADFIGVPAVITPGETIEFSVFYTNRGRYAYPDTGLNLVIWFSDRDDLRREDFKLFYKVSRADWQEQDPAKCWDPQFPAEGGVHIACQLSGPDGGILSKPDGTVPLPEVESVTAHVRLAFREGITSEHAGIFALPGMLDAPGDKSIIPGLFGNVFGRLQQASFRLGEGPSSLY 7fea-a1-m1-cA_7fea-a1-m1-cD PY14 in complex with Col-D A0A7U5Y2I6 A0A7U5Y2I6 1.4 X-RAY DIFFRACTION 225 1.0 1593482 (Massilia sp. YMA4) 1593482 (Massilia sp. YMA4) 395 396 7ei3-a1-m1-cA_7ei3-a1-m1-cB 7ei3-a1-m1-cC_7ei3-a1-m1-cD 7ei4-a1-m1-cB_7ei4-a1-m1-cA 7ei4-a1-m1-cD_7ei4-a1-m1-cC 7fea-a1-m1-cB_7fea-a1-m1-cC VKDEIVISSALRTPIGAFSGTLKDTPAAALGAHVVKTLLERTGLAPERVDEVVMGNVLQAGNGMNVARQVAVNGGLPVAVPAHTVNRVCGSGAQAVVTAYAQIRSGLSNLVIAGGVENMDQAPYLMPSLRHGARMGHTQALDALLRDGLNDAFSDQHSGWHTEDLVAKYEVSREAQDRFAATSQQRFAAAQAAGWFEGEIVPVTITTRKGETVFAKDEANRPDTTEAGLAKLRPAFRKDGTITAGNAPGLNAGAAAMIVSSHATATELGLQPQLVIRGIGVAAVEPGLFGFGPVPAIKLALAQAQWQVQDVDRFEVNEAFAAVGLVVRDELGIAPERFNVDGGAIAHGHPIGATGAILLTKVAHALRRTSERRAVVSLCIGGGQGIALALERVKL VKDEIVISSALRTPIGAFSGTLKDTPAAALGAHVVKTLLERTGLAPERVDEVVMGNVLQAGNGMNVARQVAVNGGLPVAVPAHTVNRVCGSGAQAVVTAYAQIRSGLSNLVIAGGVENMDQAPYLMPSLRHGARMGHTQALDALLRDGLNDAFSDQHSGWHTEDLVAKYEVSREAQDRFAATSQQRFAAAQAAGWFEGEIVPVTITTRKGETVFAKDEANRPDTTEAGLAKLRPAFRKDGTITAGNAPGLNAGAAAMIVSSHATATELGLQPQLVIRGIGVAAVEPGLFGFGPVPAIKLALAQAQWQVQDVDRFEVNEAFAAVGLVVRDELGIAPERFNVDGGAIAHGHPIGATGAILLTKVAHALRRTSERRAVVSLCIGGGQGIALALERVKLA 7fea-a1-m1-cB_7fea-a1-m1-cD PY14 in complex with Col-D A0A7U5Y2I6 A0A7U5Y2I6 1.4 X-RAY DIFFRACTION 44 1.0 1593482 (Massilia sp. YMA4) 1593482 (Massilia sp. YMA4) 396 396 7ei3-a1-m1-cA_7ei3-a1-m1-cC 7ei3-a1-m1-cB_7ei3-a1-m1-cD 7ei4-a1-m1-cB_7ei4-a1-m1-cC 7ei4-a1-m1-cD_7ei4-a1-m1-cA 7fea-a1-m1-cA_7fea-a1-m1-cC VKDEIVISSALRTPIGAFSGTLKDTPAAALGAHVVKTLLERTGLAPERVDEVVMGNVLQAGNGMNVARQVAVNGGLPVAVPAHTVNRVCGSGAQAVVTAYAQIRSGLSNLVIAGGVENMDQAPYLMPSLRHGARMGHTQALDALLRDGLNDAFSDQHSGWHTEDLVAKYEVSREAQDRFAATSQQRFAAAQAAGWFEGEIVPVTITTRKGETVFAKDEANRPDTTEAGLAKLRPAFRKDGTITAGNAPGLNAGAAAMIVSSHATATELGLQPQLVIRGIGVAAVEPGLFGFGPVPAIKLALAQAQWQVQDVDRFEVNEAFAAVGLVVRDELGIAPERFNVDGGAIAHGHPIGATGAILLTKVAHALRRTSERRAVVSLCIGGGQGIALALERVKLA VKDEIVISSALRTPIGAFSGTLKDTPAAALGAHVVKTLLERTGLAPERVDEVVMGNVLQAGNGMNVARQVAVNGGLPVAVPAHTVNRVCGSGAQAVVTAYAQIRSGLSNLVIAGGVENMDQAPYLMPSLRHGARMGHTQALDALLRDGLNDAFSDQHSGWHTEDLVAKYEVSREAQDRFAATSQQRFAAAQAAGWFEGEIVPVTITTRKGETVFAKDEANRPDTTEAGLAKLRPAFRKDGTITAGNAPGLNAGAAAMIVSSHATATELGLQPQLVIRGIGVAAVEPGLFGFGPVPAIKLALAQAQWQVQDVDRFEVNEAFAAVGLVVRDELGIAPERFNVDGGAIAHGHPIGATGAILLTKVAHALRRTSERRAVVSLCIGGGQGIALALERVKLA 7fea-a1-m1-cC_7fea-a1-m1-cD PY14 in complex with Col-D A0A7U5Y2I6 A0A7U5Y2I6 1.4 X-RAY DIFFRACTION 28 1.0 1593482 (Massilia sp. YMA4) 1593482 (Massilia sp. YMA4) 396 396 7ei3-a1-m1-cA_7ei3-a1-m1-cD 7ei3-a1-m1-cB_7ei3-a1-m1-cC 7ei4-a1-m1-cB_7ei4-a1-m1-cD 7ei4-a1-m1-cC_7ei4-a1-m1-cA 7fea-a1-m1-cA_7fea-a1-m1-cB VKDEIVISSALRTPIGAFSGTLKDTPAAALGAHVVKTLLERTGLAPERVDEVVMGNVLQAGNGMNVARQVAVNGGLPVAVPAHTVNRVCGSGAQAVVTAYAQIRSGLSNLVIAGGVENMDQAPYLMPSLRHGARMGHTQALDALLRDGLNDAFSDQHSGWHTEDLVAKYEVSREAQDRFAATSQQRFAAAQAAGWFEGEIVPVTITTRKGETVFAKDEANRPDTTEAGLAKLRPAFRKDGTITAGNAPGLNAGAAAMIVSSHATATELGLQPQLVIRGIGVAAVEPGLFGFGPVPAIKLALAQAQWQVQDVDRFEVNEAFAAVGLVVRDELGIAPERFNVDGGAIAHGHPIGATGAILLTKVAHALRRTSERRAVVSLCIGGGQGIALALERVKLA VKDEIVISSALRTPIGAFSGTLKDTPAAALGAHVVKTLLERTGLAPERVDEVVMGNVLQAGNGMNVARQVAVNGGLPVAVPAHTVNRVCGSGAQAVVTAYAQIRSGLSNLVIAGGVENMDQAPYLMPSLRHGARMGHTQALDALLRDGLNDAFSDQHSGWHTEDLVAKYEVSREAQDRFAATSQQRFAAAQAAGWFEGEIVPVTITTRKGETVFAKDEANRPDTTEAGLAKLRPAFRKDGTITAGNAPGLNAGAAAMIVSSHATATELGLQPQLVIRGIGVAAVEPGLFGFGPVPAIKLALAQAQWQVQDVDRFEVNEAFAAVGLVVRDELGIAPERFNVDGGAIAHGHPIGATGAILLTKVAHALRRTSERRAVVSLCIGGGQGIALALERVKLA 7fed-a1-m1-cA_7fed-a1-m1-cR Cryo-EM structure of the nonameric SsaV cytosolic domain with D9 symmetry P74856 P74856 3.55 ELECTRON MICROSCOPY 16 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 336 336 7fed-a1-m1-cB_7fed-a1-m1-cQ 7fed-a1-m1-cC_7fed-a1-m1-cP 7fed-a1-m1-cD_7fed-a1-m1-cO 7fed-a1-m1-cE_7fed-a1-m1-cJ 7fed-a1-m1-cF_7fed-a1-m1-cN 7fed-a1-m1-cG_7fed-a1-m1-cM 7fed-a1-m1-cH_7fed-a1-m1-cL 7fed-a1-m1-cI_7fed-a1-m1-cK MVPGACPLILRLSPTLHSADLIRDIDAMRWFLFEDTGVPLPEVNIEVLPEPTEKLTVLLYQEPVFSLSIPAQADYLLIGADASVVGDSQTLPNGMGQICWLTKDMAHKAQGFGLDVFAGSQRISALLKCVLLRHMGEFIGVQETRYLMNAMEKNYSELVKELQRQLPINKIAETLQRLVSERVSIRDLRLIFGTLIDWAPREKDVLMLTEYVRIALRRHILRRLNPEGKPLPILRIGEGIENLVRESIRQTAMGTYTALSSRHKTQILQLIEQALKQSAKLFIVTSVDTRRFLRKITEATLFDVPILSWQELGEESLIQVVESIDLSEEELADNEE MVPGACPLILRLSPTLHSADLIRDIDAMRWFLFEDTGVPLPEVNIEVLPEPTEKLTVLLYQEPVFSLSIPAQADYLLIGADASVVGDSQTLPNGMGQICWLTKDMAHKAQGFGLDVFAGSQRISALLKCVLLRHMGEFIGVQETRYLMNAMEKNYSELVKELQRQLPINKIAETLQRLVSERVSIRDLRLIFGTLIDWAPREKDVLMLTEYVRIALRRHILRRLNPEGKPLPILRIGEGIENLVRESIRQTAMGTYTALSSRHKTQILQLIEQALKQSAKLFIVTSVDTRRFLRKITEATLFDVPILSWQELGEESLIQVVESIDLSEEELADNEE 7fed-a1-m1-cQ_7fed-a1-m1-cR Cryo-EM structure of the nonameric SsaV cytosolic domain with D9 symmetry P74856 P74856 3.55 ELECTRON MICROSCOPY 59 1.0 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 99287 (Salmonella enterica subsp. enterica serovar Typhimurium str. LT2) 336 336 7feb-a1-m1-cA_7feb-a1-m1-cB 7feb-a1-m1-cA_7feb-a1-m1-cE 7feb-a1-m1-cB_7feb-a1-m1-cC 7feb-a1-m1-cC_7feb-a1-m1-cD 7feb-a1-m1-cD_7feb-a1-m1-cF 7feb-a1-m1-cE_7feb-a1-m1-cI 7feb-a1-m1-cF_7feb-a1-m1-cG 7feb-a1-m1-cG_7feb-a1-m1-cH 7feb-a1-m1-cH_7feb-a1-m1-cI 7fec-a1-m1-cA_7fec-a1-m1-cB 7fec-a1-m1-cA_7fec-a1-m1-cE 7fec-a1-m1-cB_7fec-a1-m1-cC 7fec-a1-m1-cC_7fec-a1-m1-cD 7fec-a1-m1-cD_7fec-a1-m1-cF 7fec-a1-m1-cE_7fec-a1-m1-cI 7fec-a1-m1-cF_7fec-a1-m1-cG 7fec-a1-m1-cG_7fec-a1-m1-cH 7fec-a1-m1-cH_7fec-a1-m1-cI 7fed-a1-m1-cA_7fed-a1-m1-cB 7fed-a1-m1-cA_7fed-a1-m1-cE 7fed-a1-m1-cB_7fed-a1-m1-cC 7fed-a1-m1-cC_7fed-a1-m1-cD 7fed-a1-m1-cD_7fed-a1-m1-cF 7fed-a1-m1-cE_7fed-a1-m1-cI 7fed-a1-m1-cF_7fed-a1-m1-cG 7fed-a1-m1-cG_7fed-a1-m1-cH 7fed-a1-m1-cH_7fed-a1-m1-cI 7fed-a1-m1-cJ_7fed-a1-m1-cK 7fed-a1-m1-cJ_7fed-a1-m1-cR 7fed-a1-m1-cK_7fed-a1-m1-cL 7fed-a1-m1-cL_7fed-a1-m1-cM 7fed-a1-m1-cM_7fed-a1-m1-cN 7fed-a1-m1-cN_7fed-a1-m1-cO 7fed-a1-m1-cO_7fed-a1-m1-cP 7fed-a1-m1-cP_7fed-a1-m1-cQ MVPGACPLILRLSPTLHSADLIRDIDAMRWFLFEDTGVPLPEVNIEVLPEPTEKLTVLLYQEPVFSLSIPAQADYLLIGADASVVGDSQTLPNGMGQICWLTKDMAHKAQGFGLDVFAGSQRISALLKCVLLRHMGEFIGVQETRYLMNAMEKNYSELVKELQRQLPINKIAETLQRLVSERVSIRDLRLIFGTLIDWAPREKDVLMLTEYVRIALRRHILRRLNPEGKPLPILRIGEGIENLVRESIRQTAMGTYTALSSRHKTQILQLIEQALKQSAKLFIVTSVDTRRFLRKITEATLFDVPILSWQELGEESLIQVVESIDLSEEELADNEE MVPGACPLILRLSPTLHSADLIRDIDAMRWFLFEDTGVPLPEVNIEVLPEPTEKLTVLLYQEPVFSLSIPAQADYLLIGADASVVGDSQTLPNGMGQICWLTKDMAHKAQGFGLDVFAGSQRISALLKCVLLRHMGEFIGVQETRYLMNAMEKNYSELVKELQRQLPINKIAETLQRLVSERVSIRDLRLIFGTLIDWAPREKDVLMLTEYVRIALRRHILRRLNPEGKPLPILRIGEGIENLVRESIRQTAMGTYTALSSRHKTQILQLIEQALKQSAKLFIVTSVDTRRFLRKITEATLFDVPILSWQELGEESLIQVVESIDLSEEELADNEE 7fei-a1-m8-c1_7fei-a1-m9-c1 Complex of FMDV A/WH/CHA/09 and bovine neutralizing scFv antibody R55 E7D639 E7D639 3.91 ELECTRON MICROSCOPY 40 1.0 12111 (Foot-and-mouth disease virus A) 12111 (Foot-and-mouth disease virus A) 189 189 7d3r-a1-m10-c1_7d3r-a1-m6-c1 7d3r-a1-m10-c1_7d3r-a1-m9-c1 7d3r-a1-m11-c1_7d3r-a1-m12-c1 7d3r-a1-m11-c1_7d3r-a1-m15-c1 7d3r-a1-m12-c1_7d3r-a1-m13-c1 7d3r-a1-m13-c1_7d3r-a1-m14-c1 7d3r-a1-m14-c1_7d3r-a1-m15-c1 7d3r-a1-m16-c1_7d3r-a1-m17-c1 7d3r-a1-m16-c1_7d3r-a1-m20-c1 7d3r-a1-m17-c1_7d3r-a1-m18-c1 7d3r-a1-m18-c1_7d3r-a1-m19-c1 7d3r-a1-m19-c1_7d3r-a1-m20-c1 7d3r-a1-m1-c1_7d3r-a1-m2-c1 7d3r-a1-m1-c1_7d3r-a1-m5-c1 7d3r-a1-m21-c1_7d3r-a1-m22-c1 7d3r-a1-m21-c1_7d3r-a1-m25-c1 7d3r-a1-m22-c1_7d3r-a1-m23-c1 7d3r-a1-m23-c1_7d3r-a1-m24-c1 7d3r-a1-m24-c1_7d3r-a1-m25-c1 7d3r-a1-m26-c1_7d3r-a1-m27-c1 7d3r-a1-m26-c1_7d3r-a1-m30-c1 7d3r-a1-m27-c1_7d3r-a1-m28-c1 7d3r-a1-m28-c1_7d3r-a1-m29-c1 7d3r-a1-m29-c1_7d3r-a1-m30-c1 7d3r-a1-m2-c1_7d3r-a1-m3-c1 7d3r-a1-m31-c1_7d3r-a1-m32-c1 7d3r-a1-m31-c1_7d3r-a1-m35-c1 7d3r-a1-m32-c1_7d3r-a1-m33-c1 7d3r-a1-m33-c1_7d3r-a1-m34-c1 7d3r-a1-m34-c1_7d3r-a1-m35-c1 7d3r-a1-m36-c1_7d3r-a1-m37-c1 7d3r-a1-m36-c1_7d3r-a1-m40-c1 7d3r-a1-m37-c1_7d3r-a1-m38-c1 7d3r-a1-m38-c1_7d3r-a1-m39-c1 7d3r-a1-m39-c1_7d3r-a1-m40-c1 7d3r-a1-m3-c1_7d3r-a1-m4-c1 7d3r-a1-m41-c1_7d3r-a1-m42-c1 7d3r-a1-m41-c1_7d3r-a1-m45-c1 7d3r-a1-m42-c1_7d3r-a1-m43-c1 7d3r-a1-m43-c1_7d3r-a1-m44-c1 7d3r-a1-m44-c1_7d3r-a1-m45-c1 7d3r-a1-m46-c1_7d3r-a1-m47-c1 7d3r-a1-m46-c1_7d3r-a1-m50-c1 7d3r-a1-m47-c1_7d3r-a1-m48-c1 7d3r-a1-m48-c1_7d3r-a1-m49-c1 7d3r-a1-m49-c1_7d3r-a1-m50-c1 7d3r-a1-m4-c1_7d3r-a1-m5-c1 7d3r-a1-m51-c1_7d3r-a1-m52-c1 7d3r-a1-m51-c1_7d3r-a1-m55-c1 7d3r-a1-m52-c1_7d3r-a1-m53-c1 7d3r-a1-m53-c1_7d3r-a1-m54-c1 7d3r-a1-m54-c1_7d3r-a1-m55-c1 7d3r-a1-m56-c1_7d3r-a1-m57-c1 7d3r-a1-m56-c1_7d3r-a1-m60-c1 7d3r-a1-m57-c1_7d3r-a1-m58-c1 7d3r-a1-m58-c1_7d3r-a1-m59-c1 7d3r-a1-m59-c1_7d3r-a1-m60-c1 7d3r-a1-m6-c1_7d3r-a1-m7-c1 7d3r-a1-m7-c1_7d3r-a1-m8-c1 7d3r-a1-m8-c1_7d3r-a1-m9-c1 7fei-a1-m10-c1_7fei-a1-m6-c1 7fei-a1-m10-c1_7fei-a1-m9-c1 7fei-a1-m11-c1_7fei-a1-m12-c1 7fei-a1-m11-c1_7fei-a1-m15-c1 7fei-a1-m12-c1_7fei-a1-m13-c1 7fei-a1-m13-c1_7fei-a1-m14-c1 7fei-a1-m14-c1_7fei-a1-m15-c1 7fei-a1-m16-c1_7fei-a1-m17-c1 7fei-a1-m16-c1_7fei-a1-m20-c1 7fei-a1-m17-c1_7fei-a1-m18-c1 7fei-a1-m18-c1_7fei-a1-m19-c1 7fei-a1-m19-c1_7fei-a1-m20-c1 7fei-a1-m1-c1_7fei-a1-m2-c1 7fei-a1-m1-c1_7fei-a1-m5-c1 7fei-a1-m21-c1_7fei-a1-m22-c1 7fei-a1-m21-c1_7fei-a1-m25-c1 7fei-a1-m22-c1_7fei-a1-m23-c1 7fei-a1-m23-c1_7fei-a1-m24-c1 7fei-a1-m24-c1_7fei-a1-m25-c1 7fei-a1-m26-c1_7fei-a1-m27-c1 7fei-a1-m26-c1_7fei-a1-m30-c1 7fei-a1-m27-c1_7fei-a1-m28-c1 7fei-a1-m28-c1_7fei-a1-m29-c1 7fei-a1-m29-c1_7fei-a1-m30-c1 7fei-a1-m2-c1_7fei-a1-m3-c1 7fei-a1-m31-c1_7fei-a1-m32-c1 7fei-a1-m31-c1_7fei-a1-m35-c1 7fei-a1-m32-c1_7fei-a1-m33-c1 7fei-a1-m33-c1_7fei-a1-m34-c1 7fei-a1-m34-c1_7fei-a1-m35-c1 7fei-a1-m36-c1_7fei-a1-m37-c1 7fei-a1-m36-c1_7fei-a1-m40-c1 7fei-a1-m37-c1_7fei-a1-m38-c1 7fei-a1-m38-c1_7fei-a1-m39-c1 7fei-a1-m39-c1_7fei-a1-m40-c1 7fei-a1-m3-c1_7fei-a1-m4-c1 7fei-a1-m41-c1_7fei-a1-m42-c1 7fei-a1-m41-c1_7fei-a1-m45-c1 7fei-a1-m42-c1_7fei-a1-m43-c1 7fei-a1-m43-c1_7fei-a1-m44-c1 7fei-a1-m44-c1_7fei-a1-m45-c1 7fei-a1-m46-c1_7fei-a1-m47-c1 7fei-a1-m46-c1_7fei-a1-m50-c1 7fei-a1-m47-c1_7fei-a1-m48-c1 7fei-a1-m48-c1_7fei-a1-m49-c1 7fei-a1-m49-c1_7fei-a1-m50-c1 7fei-a1-m4-c1_7fei-a1-m5-c1 7fei-a1-m51-c1_7fei-a1-m52-c1 7fei-a1-m51-c1_7fei-a1-m55-c1 7fei-a1-m52-c1_7fei-a1-m53-c1 7fei-a1-m53-c1_7fei-a1-m54-c1 7fei-a1-m54-c1_7fei-a1-m55-c1 7fei-a1-m56-c1_7fei-a1-m57-c1 7fei-a1-m56-c1_7fei-a1-m60-c1 7fei-a1-m57-c1_7fei-a1-m58-c1 7fei-a1-m58-c1_7fei-a1-m59-c1 7fei-a1-m59-c1_7fei-a1-m60-c1 7fei-a1-m6-c1_7fei-a1-m7-c1 7fei-a1-m7-c1_7fei-a1-m8-c1 TTATGESADPVTTTVENYGGETQVQRRHHTDVSFIMDRFVQIKPVSPTHVIDLMQTHQHGLVGAMLRAATYYFSDLEIVVNHTGRLTWVPNGAPEAALDNTSNPTAYHKAPFTRLALPYTAPHRVLATVYNGNSKYLAAQLPASFNYGAIRATEIQELLVRMKRAELYCPRPLLAVKVTSQDRHKQKII TTATGESADPVTTTVENYGGETQVQRRHHTDVSFIMDRFVQIKPVSPTHVIDLMQTHQHGLVGAMLRAATYYFSDLEIVVNHTGRLTWVPNGAPEAALDNTSNPTAYHKAPFTRLALPYTAPHRVLATVYNGNSKYLAAQLPASFNYGAIRATEIQELLVRMKRAELYCPRPLLAVKVTSQDRHKQKII 7feo-a1-m1-cB_7feo-a1-m1-cA Crystal structure of AtMBD5 MBD domain Q9SNC0 Q9SNC0 2.2 X-RAY DIFFRACTION 35 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 49 50 NWLPPDWRTEIRVRTSGTKAGTVDKFYYEPITGRKFRSKNEVLYYLEHG DNWLPPDWRTEIRVRTSGTKAGTVDKFYYEPITGRKFRSKNEVLYYLEHG 7fet-a1-m1-cB_7fet-a1-m1-cC SARS-CoV-2 B.1.1.7 Spike Glycoprotein trimer P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 274 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 999 1003 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ff0-a1-m1-cB_7ff0-a1-m1-cA Pseudomonas aeruginosa Virulence Factor Regulator with cAMP ligand and auranofin P55222 P55222 2.6 X-RAY DIFFRACTION 119 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 200 206 2oz6-a1-m1-cA_2oz6-a1-m2-cA 7few-a1-m1-cB_7few-a1-m1-cA 7ff8-a1-m1-cB_7ff8-a1-m1-cA 7ff9-a1-m1-cB_7ff9-a1-m1-cA 7ff9-a2-m1-cC_7ff9-a2-m1-cD 7ff9-a3-m1-cF_7ff9-a3-m1-cE 7ff9-a4-m1-cH_7ff9-a4-m1-cG HLDKLLAHCHRRRYTAKSTIIYAGDRCETLFFIIKGSVTILIEDDDGREMIIGYLNSGDFFGELGLFEKEQERSAWVRAKVECEVAEISYAKFRELSQQDSEILYTLGSQMADRLRKTTRKVGDLAFLDVTGRVARTLLDLCQQPDAMTHPDGMQIKITRQEIGRIVGCSREMVGRVLKSLEEQGLVHVKGKTMVVFGTR KLKHLDKLLAHCHRRRYTAKSTIIYAGDRCETLFFIIKGSVTILIEDDDGREMIIGYLNSGDFFGELGLFEKEGSEQERSAWVRAKVECEVAEISYAKFRELSQQDSEILYTLGSQMADRLRKTTRKVGDLAFLDVTGRVARTLLDLCQQPDAMTHPDGMQIKITRQEIGRIVGCSREMVGRVLKSLEEQGLVHVKGKTMVVFGTR 7ff4-a2-m1-cC_7ff4-a2-m2-cD The crystal structure of Clostridium cellulolyticum LacI family transcriptional regulator Ccel_1438 B8I1W6 B8I1W6 2.19 X-RAY DIFFRACTION 111 1.0 394503 (Ruminiclostridium cellulolyticum H10) 394503 (Ruminiclostridium cellulolyticum H10) 279 280 7ff4-a1-m1-cB_7ff4-a1-m1-cA SGVIGVVLNEFNASVYLKLANYLEKFAYNYNYNVVFCSSNDNYESKSRYVQYFTGGAADGLILFGSDTRDKELVKRILKTGFPLVLIENYFNDINVNDVIINNFSGAVNAVNYLVGLGHRKIAHITGNVNHRAALERLNGYIRALNENGLAYSKEYVINTDSGEQSGCKAADQLLKLKEPPTAVFTFNDMQGYEVIQRASELGLSVPRDLSVVGFDNIYDIFRFIPSNVRLTSMKQPMEKVAEAAIQLMVANIDNADEQPKVISFETELFHGTSCCERK KSGVIGVVLNEFNASVYLKLANYLEKFAYNYNYNVVFCSSNDNYESKSRYVQYFTGGAADGLILFGSDTRDKELVKRILKTGFPLVLIENYFNDINVNDVIINNFSGAVNAVNYLVGLGHRKIAHITGNVNHRAALERLNGYIRALNENGLAYSKEYVINTDSGEQSGCKAADQLLKLKEPPTAVFTFNDMQGYEVIQRASELGLSVPRDLSVVGFDNIYDIFRFIPSNVRLTSMKQPMEKVAEAAIQLMVANIDNADEQPKVISFETELFHGTSCCERK 7ffa-a2-m1-cB_7ffa-a2-m3-cB Diarylpentanoid-producing polyketide synthase from Aquilaria sinensis A0A385MEG6 A0A385MEG6 1.98 X-RAY DIFFRACTION 167 1.0 210372 (Aquilaria sinensis) 210372 (Aquilaria sinensis) 384 384 7ffa-a1-m1-cA_7ffa-a1-m2-cA 7ffc-a1-m1-cA_7ffc-a1-m3-cE 7ffc-a2-m1-cB_7ffc-a2-m1-cF 7ffc-a3-m1-cC_7ffc-a3-m1-cG 7ffc-a4-m1-cD_7ffc-a4-m2-cH 7ffg-a1-m1-cA_7ffg-a1-m2-cA 7ffg-a2-m1-cB_7ffg-a2-m3-cB 7ffh-a1-m1-cA_7ffh-a1-m2-cA 7ffh-a2-m1-cB_7ffh-a2-m3-cB 7ffi-a1-m1-cA_7ffi-a1-m2-cA 7ffi-a2-m1-cB_7ffi-a2-m3-cB EWVRKADRAAGPAAVLAMATANPSNFYLQSDFPDFYFRVTRSDHMSDLKEKFKRICKKTTVRKRHMILTEEILNKNPAIADYWSPSLAARHDLALANIPQLGKEAADKAIKEWGQPKSKITHLVFCTSAGVLMPGADYQLTMLLGLNPSISRLMLHNLGYAGGTALRVAKDLAENNGGARVLVVCSEANLLNFRGPSETHIDALITQSLFADGAAALIVGSDPDLQTESPLYELISASQRILPESEDAIVGRLTEAGLVPYLPKDIPKLVSTNIRSILEDALAPTGVQDWNSIFWIIHPGMPAILDQTEKLLQLDKEKLKATRHVLSEFGNMFSATVLFILDQLRKGAVAEGKSTTGEGCEWGVLFSFGPGFTVETVLLRSVAT EWVRKADRAAGPAAVLAMATANPSNFYLQSDFPDFYFRVTRSDHMSDLKEKFKRICKKTTVRKRHMILTEEILNKNPAIADYWSPSLAARHDLALANIPQLGKEAADKAIKEWGQPKSKITHLVFCTSAGVLMPGADYQLTMLLGLNPSISRLMLHNLGYAGGTALRVAKDLAENNGGARVLVVCSEANLLNFRGPSETHIDALITQSLFADGAAALIVGSDPDLQTESPLYELISASQRILPESEDAIVGRLTEAGLVPYLPKDIPKLVSTNIRSILEDALAPTGVQDWNSIFWIIHPGMPAILDQTEKLLQLDKEKLKATRHVLSEFGNMFSATVLFILDQLRKGAVAEGKSTTGEGCEWGVLFSFGPGFTVETVLLRSVAT 7fg6-a1-m1-cA_7fg6-a1-m2-cA Crystal structure of the Tyrosyl-tRNA synthetase (TyrRS) in Nanoarchaeum equitans Q74MD3 Q74MD3 2.8 X-RAY DIFFRACTION 80 1.0 228908 (Nanoarchaeum equitans Kin4-M) 228908 (Nanoarchaeum equitans Kin4-M) 363 363 DIEERINLIAQKPTEEILTIDRLKQYLEQGIDLNHYIGFEISGFVHLGTGIISMLKVRDFQKAKVKTTLFLADYHSWINKKLGGDLETIRKVAKGYFAEALKVSLKTVGGDPDEVKVVLGSELYEKLGIEYLENIIKISMNTTLNRIKKGITIMGRKQGESISFAQLLYVPMQVADIYSLNVNLAHGGIDQRKAHVIAIEVSDAFGYKPIAVHHHLLLGMHIDENIRQKLFEDSVIDIKMSKSKPETAIFIHDTPEDIRRKIRKAYCPIGEIELNPIIELVEYVIYPILKEPIVIENKKTHQTMEFDNVEQLKEAYAKKQIHPLDLKEYVAEKLIEILEPARKYFLEGKGNKYLEELKNLQIT DIEERINLIAQKPTEEILTIDRLKQYLEQGIDLNHYIGFEISGFVHLGTGIISMLKVRDFQKAKVKTTLFLADYHSWINKKLGGDLETIRKVAKGYFAEALKVSLKTVGGDPDEVKVVLGSELYEKLGIEYLENIIKISMNTTLNRIKKGITIMGRKQGESISFAQLLYVPMQVADIYSLNVNLAHGGIDQRKAHVIAIEVSDAFGYKPIAVHHHLLLGMHIDENIRQKLFEDSVIDIKMSKSKPETAIFIHDTPEDIRRKIRKAYCPIGEIELNPIIELVEYVIYPILKEPIVIENKKTHQTMEFDNVEQLKEAYAKKQIHPLDLKEYVAEKLIEILEPARKYFLEGKGNKYLEELKNLQIT 7fga-a2-m1-cC_7fga-a2-m3-cD Alpha-1,2-glucosyltransferase_UDP_sucrose_tll1591 Q8DIJ4 Q8DIJ4 3.2 X-RAY DIFFRACTION 78 0.994 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 344 344 7fg9-a1-m1-cA_7fg9-a1-m2-cB 7fga-a1-m1-cA_7fga-a1-m2-cB GSHMRIAQVAPLWERVPPAYGGVELVVSLLTEELVKRGHEVTLFASGDSMTQAKLVSTYPHAIRLDPNVQEYAVYEALQLGEVFSRANEFDVIHSHVGYTALPYTSLVKTPVVHTLHGRFTADNERIFSQYRNQNYVSISHSQRQLRELNYIATVYNAIAVETHHFYPQPSDPPYLAFLGRLSPEKGPHHAIEIAKRVGIPLRMAGKVDRVDRDYFKELIEPHIDGEFIQFIGEADHPTKNALLGGAIAMLFPITWQEPFGLVMIESMAAGTPVVAIAKGAAPEVIEHGKTGFLCHSVEDCVAAVAQVPQLDRMACRDYVWQRFSVERMVSEYEAVYDTVLANT HMRIAQVAPLWERVPPAYGGVELVVSLLTEELVKRGHEVTLFASGDSMTQAKLVSTYPHAIRLDPNVQEYAVYEALQLGEVFSRANEFDVIHSHVGYTALPYTSLVKTPVVHTLHGRFTADNERIFSQYRNQNYVSISHSQRQLRELNYIATVYNAIAVETHHFYPQPSDPPYLAFLGRLSPEKGPHHAIEIAKRVGIPLRMAGKVDRVDRDYFKELIEPHIDGEFIQFIGEADHPTKNALLGGAIAMLFPITWQEPFGLVMIESMAAGTPVVAIAKGAAPEVIEHGKTGFLCHSVEDCVAAVAQVPQLDRMACRDYVWQRFSVERMVSEYEAVYDTVLANTFV 7fgf-a1-m1-cB_7fgf-a1-m1-cC Cryo-EM structure of CCHFV envelope protein Gc in postfusion conformation Q8JSZ3 Q8JSZ3 2.8 ELECTRON MICROSCOPY 173 1.0 652961 (Crimean-Congo hemorrhagic fever virus strain IbAr10200) 652961 (Crimean-Congo hemorrhagic fever virus strain IbAr10200) 432 432 7fgf-a1-m1-cA_7fgf-a1-m1-cB 7fgf-a1-m1-cA_7fgf-a1-m1-cC KPTVSTANIALSWSSVLVSGRSESIMKLEERTGISWDLKLLTVSVMDLSQMYSPVFEYLSGDRQVGEWPKATCTGDCPERCGCTSSTCLHKEWPHSRNWRCNTGCTCCGLDVKDLFTDYMFVKWKVEYIKTEAIVCVELTSQERQCSLIEAGTRFNLGPVTITLSEPRNIQQKLPPEIITLHPRIFDLMHVQKVLSASTVCKLQSCTHGVPGDLQVYHIFNTSWMSWDGCDLDYYCNMGDWPSCTYTGVTQHNHASFVNLLNIETDYTKNFHFHSKRVTAHGDTPQLDLKARPTYGAGEITVLVEVADMELHTKKIEISGLKFASLACTGCYACSSGISCKVRIHVDEPDELTVHVKSDDPDVVAASSSLMARKLEDSTFKAFSAMPKTSLCFYIVEREHCKSCSEEDTKKCVNTKLEQPQSILIEHKGTII KPTVSTANIALSWSSVLVSGRSESIMKLEERTGISWDLKLLTVSVMDLSQMYSPVFEYLSGDRQVGEWPKATCTGDCPERCGCTSSTCLHKEWPHSRNWRCNTGCTCCGLDVKDLFTDYMFVKWKVEYIKTEAIVCVELTSQERQCSLIEAGTRFNLGPVTITLSEPRNIQQKLPPEIITLHPRIFDLMHVQKVLSASTVCKLQSCTHGVPGDLQVYHIFNTSWMSWDGCDLDYYCNMGDWPSCTYTGVTQHNHASFVNLLNIETDYTKNFHFHSKRVTAHGDTPQLDLKARPTYGAGEITVLVEVADMELHTKKIEISGLKFASLACTGCYACSSGISCKVRIHVDEPDELTVHVKSDDPDVVAASSSLMARKLEDSTFKAFSAMPKTSLCFYIVEREHCKSCSEEDTKKCVNTKLEQPQSILIEHKGTII 7fgp-a1-m1-cB_7fgp-a1-m1-cA Crystal structure of Aureimonas altamirenisis flavin-containing opine dehydrogenase (FAD-bound form) A0A1M6P181 A0A1M6P181 1.47 X-RAY DIFFRACTION 127 1.0 1121026 (Aureimonas altamirensis DSM 21988) 1121026 (Aureimonas altamirensis DSM 21988) 362 377 DLKAIVVGAGVIGSSVAYRLAQGGAQVTLVEADRVGGGTSCVSYAWVNACEKLTSHSYYKLNYAGRQAHEAILDEFESPAWYHRPGVLQWQHNDPLDKYRQLVEWGYPAELIDARDVRELEPQINADAIGNAPVIHYPQDGWLDPTLYAGSLTEAAVRHGLTLVRGKVAGLVVESGRCTGVRLDDGSVLGADAVINCSGRWSNETVGEGAPHVPLAPTVGLIAYTAPAGIGLRRALRTPLVNRPDGAGRLLLRSNELDQLVGNHDAPALDHPQALELLRRAEATVPALASVGIEAVRIAIRPIPQDSYSAVGPVPNLGNYWVAVTHSGVTLGAFIGEALADEVLNGRPRPELDDFRPARFFE QDLKAIVVGAGVIGSSVAYRLAQGGAQVTLVEADRVGGGTSCVSYAWVNACEKLTSHSYYKLNYAGRQAHEAILDEFESPAWYHRPGVLQWQHAEAEAGGRDDNDPLDKYRQLVEWGYPAELIDARDVRELEPQINADAIGNAPVIHYPQDGWLDPTLYAGSLTEAAVRHGLTLVRGKVAGLVVESGRCTGVRLDDGSVLGADAVINCSGRWSNETVGEGAPHVPLAPTVGLIAYTAPAGIGLRRALRTPLVNRPDGAGRLLLRSNELDQLVGNHDAPALDHPQALELLRRAEATVPALASVGIEAVRIAIRPIPQDSYSAVGPVPNLGNYWVAVTHSGVTLGAFIGEALADEVLNGRPRPELDDFRPARFFEQEPA 7fgq-a1-m1-cA_7fgq-a1-m2-cA Crystal structure of Thymidylate kinase with TMP and its low-resolution (SAXS) solution structure from Brugia malayi A0A1P6BP23 A0A1P6BP23 1.91 X-RAY DIFFRACTION 86 1.0 6279 (Brugia malayi) 6279 (Brugia malayi) 190 190 RIRGAFIVFEGCDRAGKSLQSRKLVERIKAAGGDVDLISFPDRSSDLGKFIDRYLKKEVEMDPKEAHLVFAANRQALMPLMMKKLLKGTHLVVDRYAYSGIAYTLAKGADNITMEWAKLADMGELRPDCVIYFNLNFQGKVSKVMEQLADEDRDLWKVVDASLTVEEISENVWNLVAPILDNVSKSLMFL RIRGAFIVFEGCDRAGKSLQSRKLVERIKAAGGDVDLISFPDRSSDLGKFIDRYLKKEVEMDPKEAHLVFAANRQALMPLMMKKLLKGTHLVVDRYAYSGIAYTLAKGADNITMEWAKLADMGELRPDCVIYFNLNFQGKVSKVMEQLADEDRDLWKVVDASLTVEEISENVWNLVAPILDNVSKSLMFL 7fh1-a1-m1-cA_7fh1-a1-m1-cB Structure of the human Meckelin Q5HYA8 Q5HYA8 3.34 ELECTRON MICROSCOPY 291 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 874 874 QTFSFPFQQPEKCDNNQYFDISALSCVPCGANQRQDARGTSCVCLPGFQMISNNGGPAIICKKCPENMKGVTEDGWNCISCPSDLTAEGKCHCPIGHILVERDINGTLLSQATCELCDGNENSFMVVNALGDRCVRCEPTFVNTSRSCACSEPNILTGGLCFSSTGNFPLRRISAARYGEVGMSLTSEWFAKYLQSSAAACWVYANLTSCQALGNMCVMNMNSYDFATFDACGLFQFIFENTAGLSTVHSISFWRQNLPWLFYGDQLGLAPQVLSSTSLPTNFSFKGENQNTKLKFVAASYDIRGNFLKWQTLEGGVLQLCPDTETRLNAAYSFGTTYQQNCEIPISKILIDFPTPIFYDVYLEYTDENQHQYILAVPVLNLNLQHNKIFVNQDSNSGKWLLTRRIFLVDAVSGRENDLGTQPRVIRVATQISLSVHLVPNTINGNIYPPLITIAYSDIDIKDANSQSVKVSFSVTYEMDHGEAHVQTDIALGVLGGLAVLASLLKTAGWKRRIGSPMIDLQTVVKFLVYYAGDLANVFFIITVGTGLYWLIFFKAQKSVSVLLPMPIQEERFVTYVGCAFALKALQFLHKLISQITIDVFFIDWERSIWRTYFVANEWNEIQTVRKINSLFQVLTVLFFLEVVGFKNLALMDSSSSLSRNPPSYIAPYSCILRYAVSAALWLAIGIIQVVFFAVFYERFIEDKIRQFVDLCSMSNISVFLLSHKCFGYYIHGRGQTFEIAISNQMRQHYDRIHEEQSIKAYHMMNKFLGSFIDHEMDYFIKDKLLLERILGMEFMEPMEKSIFYNDEGYSFSSVLYYGNEATLLIFDLLFFCVVDLACQNFILASFLTYLQQEIFRYIRNTVGQKNLASKTLV QTFSFPFQQPEKCDNNQYFDISALSCVPCGANQRQDARGTSCVCLPGFQMISNNGGPAIICKKCPENMKGVTEDGWNCISCPSDLTAEGKCHCPIGHILVERDINGTLLSQATCELCDGNENSFMVVNALGDRCVRCEPTFVNTSRSCACSEPNILTGGLCFSSTGNFPLRRISAARYGEVGMSLTSEWFAKYLQSSAAACWVYANLTSCQALGNMCVMNMNSYDFATFDACGLFQFIFENTAGLSTVHSISFWRQNLPWLFYGDQLGLAPQVLSSTSLPTNFSFKGENQNTKLKFVAASYDIRGNFLKWQTLEGGVLQLCPDTETRLNAAYSFGTTYQQNCEIPISKILIDFPTPIFYDVYLEYTDENQHQYILAVPVLNLNLQHNKIFVNQDSNSGKWLLTRRIFLVDAVSGRENDLGTQPRVIRVATQISLSVHLVPNTINGNIYPPLITIAYSDIDIKDANSQSVKVSFSVTYEMDHGEAHVQTDIALGVLGGLAVLASLLKTAGWKRRIGSPMIDLQTVVKFLVYYAGDLANVFFIITVGTGLYWLIFFKAQKSVSVLLPMPIQEERFVTYVGCAFALKALQFLHKLISQITIDVFFIDWERSIWRTYFVANEWNEIQTVRKINSLFQVLTVLFFLEVVGFKNLALMDSSSSLSRNPPSYIAPYSCILRYAVSAALWLAIGIIQVVFFAVFYERFIEDKIRQFVDLCSMSNISVFLLSHKCFGYYIHGRGQTFEIAISNQMRQHYDRIHEEQSIKAYHMMNKFLGSFIDHEMDYFIKDKLLLERILGMEFMEPMEKSIFYNDEGYSFSSVLYYGNEATLLIFDLLFFCVVDLACQNFILASFLTYLQQEIFRYIRNTVGQKNLASKTLV 7fh3-a1-m1-cA_7fh3-a1-m1-cB Crystal structure of the ATP sulfurylase domain of human PAPSS2 O95340 O95340 1.8 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 391 391 7fha-a1-m1-cA_7fha-a1-m1-cB SDIHELFVPENKLDHVRAEAETLPSLSITKLDLQWVQVLSEGWATPLKGFMREKEYLQVMHFDTLLDDGVINMSIPIVLPVSAEDKTRLEGCSKFVLAHGGRRVAILRDAEFYEHRKEERCSRVWGTTCTKHPHIKMVMESGDWLVGGDLQVLEKIRWNDGLDQYRLTPLELKQKCKEMNADAVFAFQLRNPVHNGHALLMQDTRRRLLERGYKHPVLLLHPLGGWTKDDDVPLDWRMKQHAAVLEEGVLDPKSTIVAIFPSPMLYAGPTEVQWHCRSRMIAGANFYIVGRDPAGMPHPETKKDLYEPTHGGKVLSMAPGLTSVEIIPFRVAAYNKAKKAMDFYDPARHNEFDFISGTRMRKLAREGENPPDGFMAPKAWKVLTDYYRSLE SDIHELFVPENKLDHVRAEAETLPSLSITKLDLQWVQVLSEGWATPLKGFMREKEYLQVMHFDTLLDDGVINMSIPIVLPVSAEDKTRLEGCSKFVLAHGGRRVAILRDAEFYEHRKEERCSRVWGTTCTKHPHIKMVMESGDWLVGGDLQVLEKIRWNDGLDQYRLTPLELKQKCKEMNADAVFAFQLRNPVHNGHALLMQDTRRRLLERGYKHPVLLLHPLGGWTKDDDVPLDWRMKQHAAVLEEGVLDPKSTIVAIFPSPMLYAGPTEVQWHCRSRMIAGANFYIVGRDPAGMPHPETKKDLYEPTHGGKVLSMAPGLTSVEIIPFRVAAYNKAKKAMDFYDPARHNEFDFISGTRMRKLAREGENPPDGFMAPKAWKVLTDYYRSLE 7fhr-a1-m2-cA_7fhr-a1-m3-cA Crystal Structure of a Rieske Oxygenase from Cupriavidus metallidurans Q1LBR9 Q1LBR9 1.84 X-RAY DIFFRACTION 91 1.0 266264 (Cupriavidus metallidurans CH34) 266264 (Cupriavidus metallidurans CH34) 437 437 7fhr-a1-m1-cA_7fhr-a1-m2-cA 7fhr-a1-m1-cA_7fhr-a1-m3-cA HMLSREDNELLVRVGPGTAMGTMMRLYWIPFLKSSEVTAGGQPYRVRLLGEDLVAFRDNSGNVGLVDHTCPHRGAPMVFGRNENDGLRCVYHGWKFKVSGQCEEMPCEPADSPMCKRMKIKAYPVKERNGILWAYMGPDAENAPELPDVEWNMVPEEQVAISMRVQECNWLQALEGELDSAHAAILHGRVGEINQWRQAQDLSPTFECVQHDAGISIGARRKTPDGENYVRVNQFLMPFWTLVPPQSQFPELSGHAWVPIDDEHTLCLMFSYHPAKPFYERTRKLFKEGHNGRETGHHSDNAFEKRPVTEPYHTYWSKFNRGNAYQFDYQSQVEKYNSGMPGLWIQDAACQSGTTPILDRSKEHLGTSDTGVARMRRVLLEAVKKLVATGEHPVSSNAPAAFRWRAVSLTIPLGGDWTKLGEEAMRAEPGKDFGYTP HMLSREDNELLVRVGPGTAMGTMMRLYWIPFLKSSEVTAGGQPYRVRLLGEDLVAFRDNSGNVGLVDHTCPHRGAPMVFGRNENDGLRCVYHGWKFKVSGQCEEMPCEPADSPMCKRMKIKAYPVKERNGILWAYMGPDAENAPELPDVEWNMVPEEQVAISMRVQECNWLQALEGELDSAHAAILHGRVGEINQWRQAQDLSPTFECVQHDAGISIGARRKTPDGENYVRVNQFLMPFWTLVPPQSQFPELSGHAWVPIDDEHTLCLMFSYHPAKPFYERTRKLFKEGHNGRETGHHSDNAFEKRPVTEPYHTYWSKFNRGNAYQFDYQSQVEKYNSGMPGLWIQDAACQSGTTPILDRSKEHLGTSDTGVARMRRVLLEAVKKLVATGEHPVSSNAPAAFRWRAVSLTIPLGGDWTKLGEEAMRAEPGKDFGYTP 7fib-a1-m1-cA_7fib-a1-m1-cB Crystal structure of the regulatory domain of AceR in Acinetobacter baumannii P0DUU5 P0DUU5 2.1 X-RAY DIFFRACTION 79 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 205 205 PNLTIVVVSELLHTNWTDYVCLLESRFPDLQINIVSAPQEDALQMLLDGSAQLALMFEREHLDNREQFVELKREALIPVISKTHPLASQEHVSYEQILGTRQIVVASRDETLKPELLFSKHYWRTDNHHSACLMILRNLGWGVLPQEMFKENPELNNKLKALDVFDFTPRFEYYVDLVWSRESELGAAARFLIDYIRNKRMQPAP PNLTIVVVSELLHTNWTDYVCLLESRFPDLQINIVSAPQEDALQMLLDGSAQLALMFEREHLDNREQFVELKREALIPVISKTHPLASQEHVSYEQILGTRQIVVASRDETLKPELLFSKHYWRTDNHHSACLMILRNLGWGVLPQEMFKENPELNNKLKALDVFDFTPRFEYYVDLVWSRESELGAAARFLIDYIRNKRMQPAP 7fid-a1-m1-cA_7fid-a1-m1-cD Processive cleavage of substrate at individual proteolytic active sites of the Lon proteasecomplex (conformation 1) A0A059VAZ3 A0A059VAZ3 2.44 ELECTRON MICROSCOPY 24 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 779 779 7fd4-a1-m1-cA_7fd4-a1-m1-cD 7fd5-a1-m1-cB_7fd5-a1-m1-cE 7fiz-a1-m1-cB_7fiz-a1-m1-cE RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 7fid-a1-m1-cC_7fid-a1-m1-cF Processive cleavage of substrate at individual proteolytic active sites of the Lon proteasecomplex (conformation 1) A0A059VAZ3 A0A059VAZ3 2.44 ELECTRON MICROSCOPY 19 1.0 172827 (Meiothermus taiwanensis) 172827 (Meiothermus taiwanensis) 779 779 7fd4-a1-m1-cC_7fd4-a1-m1-cF 7fd5-a1-m1-cA_7fd5-a1-m1-cD 7fie-a1-m1-cA_7fie-a1-m1-cD 7fiz-a1-m1-cA_7fiz-a1-m1-cD RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV RLELPVIPLRNTVILPHTTTPVDVGRAKSKRAVEEAMGADRLIFLVAQRDPEVDDPAPDDLYTWGVQAVVKQAMRLPDGTLQVMVEARARAQVTDYIPGPYLRARGEVFSEIFPIDEAVVRVLVEELKEAFEKYVANHKSLRLDRYQLEAVKGTSDPAMLADTIAYHATWTVAEKQEILELTDLEARLKKVLGLLSRDLERFELDKRVAQRVKEQMDTNQREYYLREQMKAIQKELGGEDGLSDLEALRKKIEEVGMPEAVKTKALKELDRLERMQQGSPEATVARTYLDWLTEVPWSKADPEVLDINHTRQVLDEDHYGLKDVKERILEYLAVRQLTQGLDVRNKAPILVLVGPPGVGKTSLGRSIARSMNRKFHRISLGGVRDEAEIRGHRRTYIGAMPGKLIHAMKQVGVINPVILLDEIDKMSSDWRGDPASAMLEVLDPEQNNTFTDHYLDVPYDLSKVFFITTANTLQTIPRPLLDRMEVIEIPGYTNMEKQAIARQYLWPKQVRESGMEGRIEVTDAAILRVISEYTREAGVRGLERELGKIARKGAKFWLEGAWEGLRTIDASDIPTYLGIPRYRPDKAETEPQVGTAQGLAWTPVGGTLLTIEVAAVPGSGKLSLTGQLGEVMKESAQAALTYLRAHTQDYGLPEDFYNKVDLHVHVPDGATPKDGPSAGITMATAIASALSRRPARMDIAMTGEVSLRGKVMPIGGVKEKLLAAHQAGIHKIVLPKDNEAQLEELPKEVLEGLEIKLVEDVGEVLEYLLLPEPTMPPVV 7fj1-a1-m9-cX_7fj1-a1-m9-cc Cryo-EM structure of pseudorabies virus C-capsid G3G971 G3G971 4.43 ELECTRON MICROSCOPY 26 0.986 10345 (Suid alphaherpesvirus 1) 10345 (Suid alphaherpesvirus 1) 73 75 7fj1-a1-m10-cX_7fj1-a1-m10-cc 7fj1-a1-m11-cX_7fj1-a1-m11-cc 7fj1-a1-m12-cX_7fj1-a1-m12-cc 7fj1-a1-m13-cX_7fj1-a1-m13-cc 7fj1-a1-m14-cX_7fj1-a1-m14-cc 7fj1-a1-m15-cX_7fj1-a1-m15-cc 7fj1-a1-m16-cX_7fj1-a1-m16-cc 7fj1-a1-m17-cX_7fj1-a1-m17-cc 7fj1-a1-m18-cX_7fj1-a1-m18-cc 7fj1-a1-m19-cX_7fj1-a1-m19-cc 7fj1-a1-m1-cX_7fj1-a1-m1-cc 7fj1-a1-m20-cX_7fj1-a1-m20-cc 7fj1-a1-m21-cX_7fj1-a1-m21-cc 7fj1-a1-m22-cX_7fj1-a1-m22-cc 7fj1-a1-m23-cX_7fj1-a1-m23-cc 7fj1-a1-m24-cX_7fj1-a1-m24-cc 7fj1-a1-m25-cX_7fj1-a1-m25-cc 7fj1-a1-m26-cX_7fj1-a1-m26-cc 7fj1-a1-m27-cX_7fj1-a1-m27-cc 7fj1-a1-m28-cX_7fj1-a1-m28-cc 7fj1-a1-m29-cX_7fj1-a1-m29-cc 7fj1-a1-m2-cX_7fj1-a1-m2-cc 7fj1-a1-m30-cX_7fj1-a1-m30-cc 7fj1-a1-m31-cX_7fj1-a1-m31-cc 7fj1-a1-m32-cX_7fj1-a1-m32-cc 7fj1-a1-m33-cX_7fj1-a1-m33-cc 7fj1-a1-m34-cX_7fj1-a1-m34-cc 7fj1-a1-m35-cX_7fj1-a1-m35-cc 7fj1-a1-m36-cX_7fj1-a1-m36-cc 7fj1-a1-m37-cX_7fj1-a1-m37-cc 7fj1-a1-m38-cX_7fj1-a1-m38-cc 7fj1-a1-m39-cX_7fj1-a1-m39-cc 7fj1-a1-m3-cX_7fj1-a1-m3-cc 7fj1-a1-m40-cX_7fj1-a1-m40-cc 7fj1-a1-m41-cX_7fj1-a1-m41-cc 7fj1-a1-m42-cX_7fj1-a1-m42-cc 7fj1-a1-m43-cX_7fj1-a1-m43-cc 7fj1-a1-m44-cX_7fj1-a1-m44-cc 7fj1-a1-m45-cX_7fj1-a1-m45-cc 7fj1-a1-m46-cX_7fj1-a1-m46-cc 7fj1-a1-m47-cX_7fj1-a1-m47-cc 7fj1-a1-m48-cX_7fj1-a1-m48-cc 7fj1-a1-m49-cX_7fj1-a1-m49-cc 7fj1-a1-m4-cX_7fj1-a1-m4-cc 7fj1-a1-m50-cX_7fj1-a1-m50-cc 7fj1-a1-m51-cX_7fj1-a1-m51-cc 7fj1-a1-m52-cX_7fj1-a1-m52-cc 7fj1-a1-m53-cX_7fj1-a1-m53-cc 7fj1-a1-m54-cX_7fj1-a1-m54-cc 7fj1-a1-m55-cX_7fj1-a1-m55-cc 7fj1-a1-m56-cX_7fj1-a1-m56-cc 7fj1-a1-m57-cX_7fj1-a1-m57-cc 7fj1-a1-m58-cX_7fj1-a1-m58-cc 7fj1-a1-m59-cX_7fj1-a1-m59-cc 7fj1-a1-m5-cX_7fj1-a1-m5-cc 7fj1-a1-m60-cX_7fj1-a1-m60-cc 7fj1-a1-m6-cX_7fj1-a1-m6-cc 7fj1-a1-m7-cX_7fj1-a1-m7-cc 7fj1-a1-m8-cX_7fj1-a1-m8-cc IPGSARHFIAPPFPVGFWARPGFGEGLDARLALAHANARRRAAAAALDNAMAAGARLEAEVDEQLRPLERQVE AAAIPGSARHFIAPPFPVGFWARPGFGEGLDARLALAHANARRRAAAAALDNAMAAGARLEAEVDEQLRPLERQV 7fj2-a2-m1-cE_7fj2-a2-m1-cF Structure of FOXM1 homodimer bound to a palindromic DNA site Q08050 Q08050 3.098 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 80 7fj2-a1-m1-cB_7fj2-a1-m1-cA VSERPPYSYMAMIQFAINSTERKRMTLKDIYTWIEDHFPYFKHIAKPGWKNSIRHNLSLHDMFVRETSANGKVSFWTIH SVSERPPYSYMAMIQFAINSTERKRMTLKDIYTWIEDHFPYFKHIAKPGWKNSIRHNLSLHDMFVRETSANGKVSFWTIH 7fj3-a1-m9-c3_7fj3-a1-m9-cz Cryo-EM structure of PRV A-capid G3G8T3 G3G8T3 4.53 ELECTRON MICROSCOPY 196 1.0 10345 (Suid alphaherpesvirus 1) 10345 (Suid alphaherpesvirus 1) 277 296 7fj1-a1-m10-c1_7fj1-a1-m10-cv 7fj1-a1-m10-c2_7fj1-a1-m10-cx 7fj1-a1-m10-c3_7fj1-a1-m10-cz 7fj1-a1-m10-cs_7fj1-a1-m10-co 7fj1-a1-m11-c1_7fj1-a1-m11-cv 7fj1-a1-m11-c2_7fj1-a1-m11-cx 7fj1-a1-m11-c3_7fj1-a1-m11-cz 7fj1-a1-m11-cs_7fj1-a1-m11-co 7fj1-a1-m12-c1_7fj1-a1-m12-cv 7fj1-a1-m12-c2_7fj1-a1-m12-cx 7fj1-a1-m12-c3_7fj1-a1-m12-cz 7fj1-a1-m12-cs_7fj1-a1-m12-co 7fj1-a1-m13-c1_7fj1-a1-m13-cv 7fj1-a1-m13-c2_7fj1-a1-m13-cx 7fj1-a1-m13-c3_7fj1-a1-m13-cz 7fj1-a1-m13-cs_7fj1-a1-m13-co 7fj1-a1-m14-c1_7fj1-a1-m14-cv 7fj1-a1-m14-c2_7fj1-a1-m14-cx 7fj1-a1-m14-c3_7fj1-a1-m14-cz 7fj1-a1-m14-cs_7fj1-a1-m14-co 7fj1-a1-m15-c1_7fj1-a1-m15-cv 7fj1-a1-m15-c2_7fj1-a1-m15-cx 7fj1-a1-m15-c3_7fj1-a1-m15-cz 7fj1-a1-m15-cs_7fj1-a1-m15-co 7fj1-a1-m16-c1_7fj1-a1-m16-cv 7fj1-a1-m16-c2_7fj1-a1-m16-cx 7fj1-a1-m16-c3_7fj1-a1-m16-cz 7fj1-a1-m16-cs_7fj1-a1-m16-co 7fj1-a1-m17-c1_7fj1-a1-m17-cv 7fj1-a1-m17-c2_7fj1-a1-m17-cx 7fj1-a1-m17-c3_7fj1-a1-m17-cz 7fj1-a1-m17-cs_7fj1-a1-m17-co 7fj1-a1-m18-c1_7fj1-a1-m18-cv 7fj1-a1-m18-c2_7fj1-a1-m18-cx 7fj1-a1-m18-c3_7fj1-a1-m18-cz 7fj1-a1-m18-cs_7fj1-a1-m18-co 7fj1-a1-m19-c1_7fj1-a1-m19-cv 7fj1-a1-m19-c2_7fj1-a1-m19-cx 7fj1-a1-m19-c3_7fj1-a1-m19-cz 7fj1-a1-m19-cs_7fj1-a1-m19-co 7fj1-a1-m1-c1_7fj1-a1-m1-cv 7fj1-a1-m1-c2_7fj1-a1-m1-cx 7fj1-a1-m1-c3_7fj1-a1-m1-cz 7fj1-a1-m1-cs_7fj1-a1-m1-co 7fj1-a1-m20-c1_7fj1-a1-m20-cv 7fj1-a1-m20-c2_7fj1-a1-m20-cx 7fj1-a1-m20-c3_7fj1-a1-m20-cz 7fj1-a1-m20-cs_7fj1-a1-m20-co 7fj1-a1-m21-c1_7fj1-a1-m21-cv 7fj1-a1-m21-c2_7fj1-a1-m21-cx 7fj1-a1-m21-c3_7fj1-a1-m21-cz 7fj1-a1-m21-cs_7fj1-a1-m21-co 7fj1-a1-m22-c1_7fj1-a1-m22-cv 7fj1-a1-m22-c2_7fj1-a1-m22-cx 7fj1-a1-m22-c3_7fj1-a1-m22-cz 7fj1-a1-m22-cs_7fj1-a1-m22-co 7fj1-a1-m23-c1_7fj1-a1-m23-cv 7fj1-a1-m23-c2_7fj1-a1-m23-cx 7fj1-a1-m23-c3_7fj1-a1-m23-cz 7fj1-a1-m23-cs_7fj1-a1-m23-co 7fj1-a1-m24-c1_7fj1-a1-m24-cv 7fj1-a1-m24-c2_7fj1-a1-m24-cx 7fj1-a1-m24-c3_7fj1-a1-m24-cz 7fj1-a1-m24-cs_7fj1-a1-m24-co 7fj1-a1-m25-c1_7fj1-a1-m25-cv 7fj1-a1-m25-c2_7fj1-a1-m25-cx 7fj1-a1-m25-c3_7fj1-a1-m25-cz 7fj1-a1-m25-cs_7fj1-a1-m25-co 7fj1-a1-m26-c1_7fj1-a1-m26-cv 7fj1-a1-m26-c2_7fj1-a1-m26-cx 7fj1-a1-m26-c3_7fj1-a1-m26-cz 7fj1-a1-m26-cs_7fj1-a1-m26-co 7fj1-a1-m27-c1_7fj1-a1-m27-cv 7fj1-a1-m27-c2_7fj1-a1-m27-cx 7fj1-a1-m27-c3_7fj1-a1-m27-cz 7fj1-a1-m27-cs_7fj1-a1-m27-co 7fj1-a1-m28-c1_7fj1-a1-m28-cv 7fj1-a1-m28-c2_7fj1-a1-m28-cx 7fj1-a1-m28-c3_7fj1-a1-m28-cz 7fj1-a1-m28-cs_7fj1-a1-m28-co 7fj1-a1-m29-c1_7fj1-a1-m29-cv 7fj1-a1-m29-c2_7fj1-a1-m29-cx 7fj1-a1-m29-c3_7fj1-a1-m29-cz 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7fj3-a1-m42-c2_7fj3-a1-m42-cx 7fj3-a1-m42-c3_7fj3-a1-m42-cz 7fj3-a1-m42-cs_7fj3-a1-m42-co 7fj3-a1-m43-c1_7fj3-a1-m43-cv 7fj3-a1-m43-c2_7fj3-a1-m43-cx 7fj3-a1-m43-c3_7fj3-a1-m43-cz 7fj3-a1-m43-cs_7fj3-a1-m43-co 7fj3-a1-m44-c1_7fj3-a1-m44-cv 7fj3-a1-m44-c2_7fj3-a1-m44-cx 7fj3-a1-m44-c3_7fj3-a1-m44-cz 7fj3-a1-m44-cs_7fj3-a1-m44-co 7fj3-a1-m45-c1_7fj3-a1-m45-cv 7fj3-a1-m45-c2_7fj3-a1-m45-cx 7fj3-a1-m45-c3_7fj3-a1-m45-cz 7fj3-a1-m45-cs_7fj3-a1-m45-co 7fj3-a1-m46-c1_7fj3-a1-m46-cv 7fj3-a1-m46-c2_7fj3-a1-m46-cx 7fj3-a1-m46-c3_7fj3-a1-m46-cz 7fj3-a1-m46-cs_7fj3-a1-m46-co 7fj3-a1-m47-c1_7fj3-a1-m47-cv 7fj3-a1-m47-c2_7fj3-a1-m47-cx 7fj3-a1-m47-c3_7fj3-a1-m47-cz 7fj3-a1-m47-cs_7fj3-a1-m47-co 7fj3-a1-m48-c1_7fj3-a1-m48-cv 7fj3-a1-m48-c2_7fj3-a1-m48-cx 7fj3-a1-m48-c3_7fj3-a1-m48-cz 7fj3-a1-m48-cs_7fj3-a1-m48-co 7fj3-a1-m49-c1_7fj3-a1-m49-cv 7fj3-a1-m49-c2_7fj3-a1-m49-cx 7fj3-a1-m49-c3_7fj3-a1-m49-cz 7fj3-a1-m49-cs_7fj3-a1-m49-co 7fj3-a1-m4-c1_7fj3-a1-m4-cv 7fj3-a1-m4-c2_7fj3-a1-m4-cx 7fj3-a1-m4-c3_7fj3-a1-m4-cz 7fj3-a1-m4-cs_7fj3-a1-m4-co 7fj3-a1-m50-c1_7fj3-a1-m50-cv 7fj3-a1-m50-c2_7fj3-a1-m50-cx 7fj3-a1-m50-c3_7fj3-a1-m50-cz 7fj3-a1-m50-cs_7fj3-a1-m50-co 7fj3-a1-m51-c1_7fj3-a1-m51-cv 7fj3-a1-m51-c2_7fj3-a1-m51-cx 7fj3-a1-m51-c3_7fj3-a1-m51-cz 7fj3-a1-m51-cs_7fj3-a1-m51-co 7fj3-a1-m52-c1_7fj3-a1-m52-cv 7fj3-a1-m52-c2_7fj3-a1-m52-cx 7fj3-a1-m52-c3_7fj3-a1-m52-cz 7fj3-a1-m52-cs_7fj3-a1-m52-co 7fj3-a1-m53-c1_7fj3-a1-m53-cv 7fj3-a1-m53-c2_7fj3-a1-m53-cx 7fj3-a1-m53-c3_7fj3-a1-m53-cz 7fj3-a1-m53-cs_7fj3-a1-m53-co 7fj3-a1-m54-c1_7fj3-a1-m54-cv 7fj3-a1-m54-c2_7fj3-a1-m54-cx 7fj3-a1-m54-c3_7fj3-a1-m54-cz 7fj3-a1-m54-cs_7fj3-a1-m54-co 7fj3-a1-m55-c1_7fj3-a1-m55-cv 7fj3-a1-m55-c2_7fj3-a1-m55-cx 7fj3-a1-m55-c3_7fj3-a1-m55-cz 7fj3-a1-m55-cs_7fj3-a1-m55-co 7fj3-a1-m56-c1_7fj3-a1-m56-cv 7fj3-a1-m56-c2_7fj3-a1-m56-cx 7fj3-a1-m56-c3_7fj3-a1-m56-cz 7fj3-a1-m56-cs_7fj3-a1-m56-co 7fj3-a1-m57-c1_7fj3-a1-m57-cv 7fj3-a1-m57-c2_7fj3-a1-m57-cx 7fj3-a1-m57-c3_7fj3-a1-m57-cz 7fj3-a1-m57-cs_7fj3-a1-m57-co 7fj3-a1-m58-c1_7fj3-a1-m58-cv 7fj3-a1-m58-c2_7fj3-a1-m58-cx 7fj3-a1-m58-c3_7fj3-a1-m58-cz 7fj3-a1-m58-cs_7fj3-a1-m58-co 7fj3-a1-m59-c1_7fj3-a1-m59-cv 7fj3-a1-m59-c2_7fj3-a1-m59-cx 7fj3-a1-m59-c3_7fj3-a1-m59-cz 7fj3-a1-m59-cs_7fj3-a1-m59-co 7fj3-a1-m5-c1_7fj3-a1-m5-cv 7fj3-a1-m5-c2_7fj3-a1-m5-cx 7fj3-a1-m5-c3_7fj3-a1-m5-cz 7fj3-a1-m5-cs_7fj3-a1-m5-co 7fj3-a1-m60-c1_7fj3-a1-m60-cv 7fj3-a1-m60-c2_7fj3-a1-m60-cx 7fj3-a1-m60-c3_7fj3-a1-m60-cz 7fj3-a1-m60-cs_7fj3-a1-m60-co 7fj3-a1-m6-c1_7fj3-a1-m6-cv 7fj3-a1-m6-c2_7fj3-a1-m6-cx 7fj3-a1-m6-c3_7fj3-a1-m6-cz 7fj3-a1-m6-cs_7fj3-a1-m6-co 7fj3-a1-m7-c1_7fj3-a1-m7-cv 7fj3-a1-m7-c2_7fj3-a1-m7-cx 7fj3-a1-m7-c3_7fj3-a1-m7-cz 7fj3-a1-m7-cs_7fj3-a1-m7-co 7fj3-a1-m8-c1_7fj3-a1-m8-cv 7fj3-a1-m8-c2_7fj3-a1-m8-cx 7fj3-a1-m8-c3_7fj3-a1-m8-cz 7fj3-a1-m8-cs_7fj3-a1-m8-co 7fj3-a1-m9-c1_7fj3-a1-m9-cv 7fj3-a1-m9-c2_7fj3-a1-m9-cx 7fj3-a1-m9-cs_7fj3-a1-m9-co MEVDIALPTLSPGDLSALQRCEGRVVFLETLRRHATLREVALPCGGDVLAAMAAYRRRFAAVITRVTPHRMLATPLGVGGRGQSLVLQNTGPFDLTNGDHVCLVPPLLGDECLRLTSANLELRFPMTLPLAQARELTARVVARAAETLQLPPPHRDNAEAATRSLVLNMIFLLNEGAVILLSLIPNLLTLGAQDGYANAVIQLGSATRELGQLVRQPPPPLPQDHARRFCVFEALEAWIASASRLGDTLGTRPVARVCIFDGPPTVPPGEKAAVVEV MEVDIALPTLSPGDLSALQRCEGRVVFLETLRRHATLREVALPCGGDVLAAMAAYRRRFAAVITRVTPHRMLATPLGVGGRGQSLVLQNTGPFDLTNGDHVCLVPPLLGDECLRLTSANLELRFPMTLPLAQARELTARVVARAAETLRGGAPARGADVVFSNGRRYQLPPPHRDNAEAATRSLVLNMIFLLNEGAVILLSLIPNLLTLGAQDGYANAVIQLGSATRELGQLVRQPPPPLPQDHARRFCVFEALEAWIASASRLGDTLGTRPVARVCIFDGPPTVPPGEKAAVVEV 7fj3-a1-m9-cC_7fj3-a1-m9-cW Cryo-EM structure of PRV A-capid Q85211 Q85211 4.53 ELECTRON MICROSCOPY 62 1.0 10345 (Suid alphaherpesvirus 1) 10345 (Suid alphaherpesvirus 1) 23 23 7fj3-a1-m10-cC_7fj3-a1-m10-cW 7fj3-a1-m11-cC_7fj3-a1-m11-cW 7fj3-a1-m12-cC_7fj3-a1-m12-cW 7fj3-a1-m13-cC_7fj3-a1-m13-cW 7fj3-a1-m14-cC_7fj3-a1-m14-cW 7fj3-a1-m15-cC_7fj3-a1-m15-cW 7fj3-a1-m16-cC_7fj3-a1-m16-cW 7fj3-a1-m17-cC_7fj3-a1-m17-cW 7fj3-a1-m18-cC_7fj3-a1-m18-cW 7fj3-a1-m19-cC_7fj3-a1-m19-cW 7fj3-a1-m1-cC_7fj3-a1-m1-cW 7fj3-a1-m20-cC_7fj3-a1-m20-cW 7fj3-a1-m21-cC_7fj3-a1-m21-cW 7fj3-a1-m22-cC_7fj3-a1-m22-cW 7fj3-a1-m23-cC_7fj3-a1-m23-cW 7fj3-a1-m24-cC_7fj3-a1-m24-cW 7fj3-a1-m25-cC_7fj3-a1-m25-cW 7fj3-a1-m26-cC_7fj3-a1-m26-cW 7fj3-a1-m27-cC_7fj3-a1-m27-cW 7fj3-a1-m28-cC_7fj3-a1-m28-cW 7fj3-a1-m29-cC_7fj3-a1-m29-cW 7fj3-a1-m2-cC_7fj3-a1-m2-cW 7fj3-a1-m30-cC_7fj3-a1-m30-cW 7fj3-a1-m31-cC_7fj3-a1-m31-cW 7fj3-a1-m32-cC_7fj3-a1-m32-cW 7fj3-a1-m33-cC_7fj3-a1-m33-cW 7fj3-a1-m34-cC_7fj3-a1-m34-cW 7fj3-a1-m35-cC_7fj3-a1-m35-cW 7fj3-a1-m36-cC_7fj3-a1-m36-cW 7fj3-a1-m37-cC_7fj3-a1-m37-cW 7fj3-a1-m38-cC_7fj3-a1-m38-cW 7fj3-a1-m39-cC_7fj3-a1-m39-cW 7fj3-a1-m3-cC_7fj3-a1-m3-cW 7fj3-a1-m40-cC_7fj3-a1-m40-cW 7fj3-a1-m41-cC_7fj3-a1-m41-cW 7fj3-a1-m42-cC_7fj3-a1-m42-cW 7fj3-a1-m43-cC_7fj3-a1-m43-cW 7fj3-a1-m44-cC_7fj3-a1-m44-cW 7fj3-a1-m45-cC_7fj3-a1-m45-cW 7fj3-a1-m46-cC_7fj3-a1-m46-cW 7fj3-a1-m47-cC_7fj3-a1-m47-cW 7fj3-a1-m48-cC_7fj3-a1-m48-cW 7fj3-a1-m49-cC_7fj3-a1-m49-cW 7fj3-a1-m4-cC_7fj3-a1-m4-cW 7fj3-a1-m50-cC_7fj3-a1-m50-cW 7fj3-a1-m51-cC_7fj3-a1-m51-cW 7fj3-a1-m52-cC_7fj3-a1-m52-cW 7fj3-a1-m53-cC_7fj3-a1-m53-cW 7fj3-a1-m54-cC_7fj3-a1-m54-cW 7fj3-a1-m55-cC_7fj3-a1-m55-cW 7fj3-a1-m56-cC_7fj3-a1-m56-cW 7fj3-a1-m57-cC_7fj3-a1-m57-cW 7fj3-a1-m58-cC_7fj3-a1-m58-cW 7fj3-a1-m59-cC_7fj3-a1-m59-cW 7fj3-a1-m5-cC_7fj3-a1-m5-cW 7fj3-a1-m60-cC_7fj3-a1-m60-cW 7fj3-a1-m6-cC_7fj3-a1-m6-cW 7fj3-a1-m7-cC_7fj3-a1-m7-cW 7fj3-a1-m8-cC_7fj3-a1-m8-cW MSVQIGNGLLMVVAPGTLTVGSA MSVQIGNGLLMVVAPGTLTVGSA 7fj9-a1-m1-cB_7fj9-a1-m1-cA KpAckA (PduW) with AMPPNP complex structure A6TDE9 A6TDE9 2.3 X-RAY DIFFRACTION 227 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 361 395 7fj7-a1-m1-cB_7fj7-a1-m1-cA 7fj8-a1-m1-cB_7fj8-a1-m1-cA 7fja-a1-m1-cB_7fja-a1-m1-cA 7fjb-a1-m1-cB_7fjb-a1-m1-cA TYKIMAINASSLKFQLLNMPQGALLCQGLILKTSTLEAVTLLLEALTGRIDGVGHRVAHGGERFKDAALVCDDTLREIERLAELAPLHNPVNALGIRLFRQLLPAVPAVAVFDTAFHQTLAPEAWLYPLPWRYYAELGIRRYGFHGTSHHYVSSALAEKLGVPLSALRVVSCHLGNGCSVCAIKGGQSVNTSMGFTPQSGVMMGTRSGDIDPSILPWLVEKEGKSAQQLSQLLNNESGLLGVSGVSSDYRDVEQAADAGNERAALALSLFAERIRATIGSYIMQMGGLDALIFTGGIGENSARARAAICRNLHFLGLALDDEKNQRSATFIQADNALVKVAVINTNEELMIARDVMRLALP TYKIMAINAGSSSLKFQLLNMPQGALLCQGLIERIGLPEARFTLKTSAQKWQETLPIADHHEAVTLLLEALTGRGILSSLQEIDGVGHRVAHGGERFKDAALVCDDTLREIERLAELAPLHNPVNALGIRLFRQLLPAVPAVAVFDTAFHQTLAPEAWLYPLPWRYYAELGIRRYGFHGTSHHYVSSALAEKLGVPLSALRVVSCHLGNGCSVCAIKGGQSVNTSMGFTPQSGVMMGTRSGDIDPSILPWLVEKEGKSAQQLSQLLNNESGLLGVSGVSSDYRDVEQAADAGNERAALALSLFAERIRATIGSYIMQMGGLDALIFTGGIGENSARARAAICRNLHFLGLALDDEKNQRSATFIQADNALVKVAVINTNEELMIARDVMRLALPQ 7fjr-a1-m1-cA_7fjr-a1-m2-cA Structure of a mutant of OspA P0CL66 P0CL66 2.6 X-RAY DIFFRACTION 60 1.0 139 (Borreliella burgdorferi) 139 (Borreliella burgdorferi) 240 240 7fdd-a1-m1-cA_7fdd-a1-m1-cB NSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSGGSSTEEKCTCEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK NSVSVDLPGSMKVLVSKSSNADGKYDLIATVDALELSGTSDKNNGSGVLEGVKADASKVKLTISDDLGQTTLEVFKSDGSTLVSKKVTSGGSSTEEKCTCEKIITRADGTRLEYTGIKSDGSGKAKEVLKGYVLEGTLTAEKTTLVVKEGTVTLSKNISKSGEVSVELNDTDSSAATKKTAAWNSGTSTLTITVNSKKTKDLVFTSSNTITVQQYDSNGTSLEGSAVEITKLDEIKNALK 7fjs-a1-m1-cA_7fjs-a1-m1-cL Crystal structure of T6 Fab bound to theSARS-CoV-2 RBD of B.1.351 2.9 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 QIVLTQSPSSLAVSVGEKVTLSCKSSQSLLYSNNQKNYLAWYQQKSGRSPKLLLHWTSTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYTYPWTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE QIVLTQSPSSLAVSVGEKVTLSCKSSQSLLYSNNQKNYLAWYQQKSGRSPKLLLHWTSTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYTYPWTFGGGTKLEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE 7ins-a9-m1-cD_7ins-a9-m2-cF STRUCTURE OF PORCINE INSULIN COCRYSTALLIZED WITH CLUPEINE Z P01315 P01315 2 X-RAY DIFFRACTION 52 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 30 30 1ev3-a1-m1-cB_1ev3-a1-m1-cD 1ev3-a1-m2-cB_1ev3-a1-m2-cD 1ev3-a1-m3-cB_1ev3-a1-m3-cD 1ev6-a1-m1-cB_1ev6-a1-m1-cD 1ev6-a1-m1-cH_1ev6-a1-m1-cF 1ev6-a1-m1-cJ_1ev6-a1-m1-cL 1evr-a1-m1-cB_1evr-a1-m1-cD 1evr-a1-m1-cF_1evr-a1-m1-cH 1evr-a1-m1-cJ_1evr-a1-m1-cL 1qiy-a1-m1-cB_1qiy-a1-m1-cD 1qiy-a1-m1-cF_1qiy-a1-m1-cH 1qiy-a1-m1-cJ_1qiy-a1-m1-cL 1qiz-a1-m1-cB_1qiz-a1-m1-cD 1qiz-a1-m1-cF_1qiz-a1-m1-cH 1qiz-a1-m1-cJ_1qiz-a1-m1-cL 1uz9-a1-m1-cB_1uz9-a1-m5-cB 1uz9-a1-m2-cB_1uz9-a1-m4-cB 1uz9-a1-m3-cB_1uz9-a1-m6-cB 1w8p-a1-m1-cD_1w8p-a1-m1-cB 1w8p-a1-m1-cH_1w8p-a1-m1-cF 1w8p-a1-m1-cL_1w8p-a1-m1-cJ 1wav-a10-m1-cB_1wav-a10-m1-cD 1wav-a11-m1-cF_1wav-a11-m1-cH 1wav-a12-m1-cJ_1wav-a12-m1-cL 1wav-a7-m1-cB_1wav-a7-m1-cD 1wav-a7-m1-cF_1wav-a7-m1-cH 1wav-a7-m1-cJ_1wav-a7-m1-cL 1xda-a11-m1-cF_1xda-a11-m1-cH 1xda-a12-m1-cB_1xda-a12-m1-cD 1xda-a5-m1-cF_1xda-a5-m1-cH 1xda-a5-m2-cF_1xda-a5-m2-cH 1xda-a5-m3-cF_1xda-a5-m3-cH 1xda-a6-m1-cB_1xda-a6-m1-cD 1xda-a6-m2-cB_1xda-a6-m2-cD 1xda-a6-m3-cB_1xda-a6-m3-cD 1xw7-a3-m1-cB_1xw7-a3-m1-cD 1xw7-a3-m2-cB_1xw7-a3-m2-cD 1xw7-a3-m3-cB_1xw7-a3-m3-cD 1xw7-a4-m1-cB_1xw7-a4-m1-cD 1xw7-a4-m4-cB_1xw7-a4-m4-cD 1xw7-a4-m5-cB_1xw7-a4-m5-cD 1zeg-a3-m1-cB_1zeg-a3-m1-cD 1zeg-a3-m2-cB_1zeg-a3-m2-cD 1zeg-a3-m3-cB_1zeg-a3-m3-cD 1zeg-a4-m1-cB_1zeg-a4-m1-cD 1zeh-a3-m1-cB_1zeh-a3-m1-cD 1zeh-a3-m2-cB_1zeh-a3-m2-cD 1zeh-a3-m3-cB_1zeh-a3-m3-cD 1zeh-a4-m1-cB_1zeh-a4-m1-cD 1zei-a1-m1-cA_1zei-a1-m1-cB 1zei-a1-m1-cC_1zei-a1-m1-cD 1znj-a1-m1-cD_1znj-a1-m1-cB 1znj-a1-m1-cH_1znj-a1-m1-cF 1znj-a1-m1-cJ_1znj-a1-m1-cL 2oly-a1-m1-cB_2oly-a1-m1-cJ 2oly-a1-m1-cD_2oly-a1-m1-cH 2oly-a1-m1-cL_2oly-a1-m1-cF 2olz-a1-m1-cB_2olz-a1-m1-cJ 2olz-a1-m1-cD_2olz-a1-m1-cH 2olz-a1-m1-cF_2olz-a1-m1-cL 2om0-a1-m1-cB_2om0-a1-m1-cD 2om0-a1-m1-cF_2om0-a1-m1-cH 2om0-a1-m1-cJ_2om0-a1-m1-cL 2om0-a2-m1-c2_2om0-a2-m1-cT 2om0-a2-m1-c4_2om0-a2-m1-cV 2om0-a2-m1-cR_2om0-a2-m1-cY 2om0-a3-m1-cb_2om0-a3-m1-cl 2om0-a3-m1-cd_2om0-a3-m1-ch 2om0-a3-m1-cf_2om0-a3-m1-cj 2om1-a1-m1-cB_2om1-a1-m1-cD 2om1-a1-m1-cF_2om1-a1-m1-cH 2om1-a1-m1-cL_2om1-a1-m1-cJ 2om1-a2-m1-c2_2om1-a2-m1-cT 2om1-a2-m1-c4_2om1-a2-m1-cV 2om1-a2-m1-cY_2om1-a2-m1-cR 2om1-a3-m1-cd_2om1-a3-m1-ch 2om1-a3-m1-cf_2om1-a3-m1-cj 2om1-a3-m1-cl_2om1-a3-m1-cb 2omg-a1-m1-cB_2omg-a1-m2-cD 2omg-a1-m1-cD_2omg-a1-m2-cB 2omg-a1-m1-cF_2omg-a1-m2-cF 2omh-a1-m1-cB_2omh-a1-m2-cD 2omh-a1-m1-cD_2omh-a1-m2-cB 2omh-a1-m1-cF_2omh-a1-m2-cF 2omi-a1-m1-cF_2omi-a1-m1-cL 2omi-a1-m1-cH_2omi-a1-m1-cD 2omi-a1-m1-cJ_2omi-a1-m1-cB 2ws6-a1-m1-cB_2ws6-a1-m1-cD 2ws6-a1-m1-cH_2ws6-a1-m1-cF 2ws6-a1-m1-cL_2ws6-a1-m1-cJ 2ws6-a4-m1-cB_2ws6-a4-m1-cD 2ws6-a5-m1-cL_2ws6-a5-m1-cJ 2ws6-a6-m1-cH_2ws6-a6-m1-cF 2ws7-a1-m1-cB_2ws7-a1-m1-cD 2ws7-a1-m1-cF_2ws7-a1-m1-cH 3rov-a1-m1-cB_3rov-a1-m1-cD 3rov-a1-m1-cF_3rov-a1-m1-cH 3rov-a1-m1-cJ_3rov-a1-m1-cL 3rov-a2-m1-cB_3rov-a2-m1-cD 3rov-a3-m1-cF_3rov-a3-m1-cH 3rov-a4-m1-cJ_3rov-a4-m1-cL 3zqr-a1-m1-cD_3zqr-a1-m1-cB 3zqr-a1-m1-cH_3zqr-a1-m1-cF 3zqr-a1-m1-cJ_3zqr-a1-m1-cL 3zu1-a1-m1-cB_3zu1-a1-m1-cD 3zu1-a1-m2-cB_3zu1-a1-m2-cD 3zu1-a1-m3-cB_3zu1-a1-m3-cD 4ajx-a1-m1-cB_4ajx-a1-m1-cH 4ajx-a1-m1-cD_4ajx-a1-m1-cL 4ajx-a1-m1-cF_4ajx-a1-m1-cJ 4e7v-a17-m1-c2_4e7v-a17-m1-cZ 4e7v-a17-m2-c2_4e7v-a17-m2-cZ 4e7v-a17-m3-c2_4e7v-a17-m3-cZ 4e7v-a18-m1-c4_4e7v-a18-m1-c6 4e7v-a18-m2-c4_4e7v-a18-m2-c6 4e7v-a18-m3-c4_4e7v-a18-m3-c6 4e7v-a19-m1-cN_4e7v-a19-m1-cP 4e7v-a19-m1-cR_4e7v-a19-m1-cT 4e7v-a19-m1-cV_4e7v-a19-m1-cX 4e7v-a20-m1-cB_4e7v-a20-m1-cD 4e7v-a20-m1-cF_4e7v-a20-m1-cH 4e7v-a20-m1-cJ_4e7v-a20-m1-cL 4p65-a1-m1-cB_4p65-a1-m1-cD 4p65-a1-m1-cF_4p65-a1-m1-cH 4p65-a1-m1-cJ_4p65-a1-m1-cL 5bqq-a1-m1-cB_5bqq-a1-m1-cD 5bqq-a1-m1-cF_5bqq-a1-m1-cH 5bqq-a1-m1-cJ_5bqq-a1-m1-cL 5ems-a1-m1-cD_5ems-a1-m1-cB 5ems-a1-m1-cF_5ems-a1-m1-cH 5ems-a1-m1-cJ_5ems-a1-m1-cL 5hpu-a1-m1-cB_5hpu-a1-m1-cD 5hpu-a1-m2-cB_5hpu-a1-m2-cD 5hpu-a1-m3-cB_5hpu-a1-m3-cD 5hrq-a1-m1-cB_5hrq-a1-m1-cD 5hrq-a1-m1-cF_5hrq-a1-m1-cH 5hrq-a1-m1-cJ_5hrq-a1-m1-cL 5uqa-a1-m1-cD_5uqa-a1-m1-cB 5uqa-a1-m1-cJ_5uqa-a1-m1-cL 5uru-a1-m1-cD_5uru-a1-m1-cB 5uru-a1-m2-cD_5uru-a1-m2-cB 5uru-a1-m3-cD_5uru-a1-m3-cB 5uru-a2-m1-cF_5uru-a2-m1-cH 5uru-a2-m2-cF_5uru-a2-m2-cH 5uru-a2-m3-cF_5uru-a2-m3-cH 5uss-a1-m1-cB_5uss-a1-m1-cD 5uss-a1-m2-cB_5uss-a1-m2-cD 5uss-a1-m3-cB_5uss-a1-m3-cD 5uu3-a1-m1-cB_5uu3-a1-m1-cD 5uu3-a1-m1-cF_5uu3-a1-m1-cH 5uu3-a2-m1-cN_5uu3-a2-m1-cP 5uu3-a2-m1-cR_5uu3-a2-m1-cT 5uu3-a2-m1-cX_5uu3-a2-m1-cV 5uu4-a1-m1-cD_5uu4-a1-m1-cB 5uu4-a1-m2-cD_5uu4-a1-m2-cB 5uu4-a1-m3-cD_5uu4-a1-m3-cB 6gnq-a1-m1-cF_6gnq-a1-m1-cL 6gnq-a1-m1-cH_6gnq-a1-m1-cB 6gnq-a1-m1-cJ_6gnq-a1-m1-cD 6gnq-a2-m1-cN_6gnq-a2-m1-cT 6gnq-a2-m1-cR_6gnq-a2-m1-cX 6jr3-a1-m1-cB_6jr3-a1-m1-cD 6jr3-a1-m1-cF_6jr3-a1-m1-cH 6jr3-a1-m1-cJ_6jr3-a1-m1-cL 6nwv-a1-m1-cB_6nwv-a1-m1-cH 6nwv-a1-m1-cJ_6nwv-a1-m1-cL 6tyh-a1-m1-cB_6tyh-a1-m1-cH 6tyh-a1-m1-cD_6tyh-a1-m1-cL 6tyh-a1-m1-cF_6tyh-a1-m1-cJ 7ins-a4-m1-cB_7ins-a4-m2-cB 7ins-a4-m1-cD_7ins-a4-m2-cF 7ins-a4-m1-cF_7ins-a4-m2-cD 7ins-a6-m1-cD_7ins-a6-m2-cF 7ins-a6-m5-cD_7ins-a6-m6-cF 7ins-a7-m1-cB_7ins-a7-m2-cB 7ins-a8-m1-cB_7ins-a8-m2-cB 7ins-a8-m1-cD_7ins-a8-m2-cF 7ins-a8-m1-cF_7ins-a8-m2-cD 7jp3-a1-m1-cA_7jp3-a1-m1-cB 7jp3-a1-m1-cC_7jp3-a1-m1-cD 7jp3-a1-m1-cE_7jp3-a1-m1-cF FVNQHLCGSHLVEALYLVCGERGFFYTPKA FVNQHLCGSHLVEALYLVCGERGFFYTPKA 7jfm-a1-m1-cB_7jfm-a1-m1-cA Crystal structure of mouse phosphorylated IRF-3 bound to CBP P70671 P70671 2.23 X-RAY DIFFRACTION 113 0.99 10090 (Mus musculus) 10090 (Mus musculus) 193 197 QWEFEVTAFYRGRQVFQQTLFCPGGLRLVGSTADMTLQPVTLPDPEGFLTDKLVKEYVGQVLKGLGNGLALWQAGQCLWAQRLGHSHAFWALGEELLPDSGRGPDGEVHKDKDGAVFDLRPFVADLIAFMEGSGHSPRYTLWFCMGEMWPQDQPWVKRLVMVKVVPTCLKELLEMAREGGASLKTVDLHISNS LAEEQWEFEVTAFYRGRQVFQQTLFCPGGLRLVGSTADMTLPWQPVTLPDPEGFLTDKLVKEYVGQVLKGLGNGLALWQAGQCLWAQRLGHSHAFWALGEELLPDSGRGPDGEVHKDKDGAVFDLRPFVADLIAFMEGSGHSPRYTLWFCMGEMWPQDQPWVKRLVMVKVVPTCLKELLEMAREGGASLKTVDLHIS 7jfy-a1-m1-cB_7jfy-a1-m1-cA GAS41 YEATS domain in complex with 5 O95619 O95619 2.10056 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 125 131 5xtz-a2-m2-cC_5xtz-a2-m1-cA TIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSDTNAMLGKKTVVSEFYDEMIF GVTIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSDTNAMLGKKTVVSEFYDEMIFQDPT 7jfy-a1-m1-cC_7jfy-a1-m1-cA GAS41 YEATS domain in complex with 5 O95619 O95619 2.10056 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 126 131 5xtz-a2-m1-cB_5xtz-a2-m2-cC 7jfy-a1-m1-cB_7jfy-a1-m1-cD TIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSDTNAMLGKKTVVSEFYDEMIFQ GVTIVKPIVYGNVARYFGKKREEDGHTHQWTVYVKPYRNEDMSAYVKKIQFKLHESYGNPLRVVTKPPYEITETGWGEFEIIIKIFFIDPNERPVTLYHLLKLFQSDTNAMLGKKTVVSEFYDEMIFQDPT 7jg1-a1-m1-cB_7jg1-a1-m1-cD Dimeric Immunoglobin A (dIgA) P01878 P01878 3.3 ELECTRON MICROSCOPY 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 224 228 CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMS CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDG 7jg2-a1-m1-cA_7jg2-a1-m1-cC Secretory Immunoglobin A (SIgA) P01878 P01878 3.3 ELECTRON MICROSCOPY 24 1.0 10090 (Mus musculus) 10090 (Mus musculus) 231 231 7jg1-a1-m1-cA_7jg1-a1-m1-cC CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY 7jg2-a1-m1-cA_7jg2-a1-m1-cD Secretory Immunoglobin A (SIgA) P01878 P01878 3.3 ELECTRON MICROSCOPY 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 231 231 7jg1-a1-m1-cD_7jg1-a1-m1-cA CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY 7jg2-a1-m1-cB_7jg2-a1-m1-cC Secretory Immunoglobin A (SIgA) P01878 P01878 3.3 ELECTRON MICROSCOPY 11 1.0 10090 (Mus musculus) 10090 (Mus musculus) 224 231 7jg1-a1-m1-cB_7jg1-a1-m1-cC CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMS CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY 7jg2-a1-m1-cC_7jg2-a1-m1-cD Secretory Immunoglobin A (SIgA) P01878 P01878 3.3 ELECTRON MICROSCOPY 121 1.0 10090 (Mus musculus) 10090 (Mus musculus) 231 231 7jg1-a1-m1-cB_7jg1-a1-m1-cA 7jg1-a1-m1-cD_7jg1-a1-m1-cC 7jg2-a1-m1-cB_7jg2-a1-m1-cA CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY CQPSLSLQRPALEDLLLGSDASITCTLNGLRNPEGAVFTWEPSTGKDAVQKKAVQNSCGCYSVSSVLPGCAERWNSGASFKCTVTHPESGTLTGTIAKVTVNTFPPQVHLLPPPSEELALNELLSLTCLVRAFNPKEVLVRWLHGNEELSPESYLVFEPLKEPGEGATTYLVTSVLRVSAETWKQGDQYSCMVGHEALPMNFTQKTIDRLSGKPTNVSVSVIMSEGDGICY 7jh0-a1-m1-cA_7jh0-a1-m1-cD Crystallographic structure of glyceraldehyde-3-phosphate dehydrogenase from Schistosoma mansoni P20287 P20287 2.51 X-RAY DIFFRACTION 134 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 337 337 7jh0-a1-m1-cB_7jh0-a1-m1-cC MSRAKVGINGFGRIGRLVLRAAFLKNTVDVVSVNDPFIDLEYMVYMIKRDSTHGTFPGEVSTENGKLKVNGKLISVHCERDPANIPWDKDGAEYVVESTGVFTTIDKAQAHIKNNRAKKVIISAPSADAPMFVVGVNENSYEKSMSVVSNASTTNCLAPLAKVIHDKFEIVEGLMTTVHSFTATQKVVDGPSSKLWRDGRGAMQNIIPASTGAAKAVGKVIPALNGKLTGMAFRVPTPDVSVVDLTCRLGKGASYEEIKAAVKAAASGPLKGILEYTEDEVVSSDFVGSTSSSIFDAKAGISLNNNFVKLVSWYDNEFGYSCRVVDLITHMHKVDHA MSRAKVGINGFGRIGRLVLRAAFLKNTVDVVSVNDPFIDLEYMVYMIKRDSTHGTFPGEVSTENGKLKVNGKLISVHCERDPANIPWDKDGAEYVVESTGVFTTIDKAQAHIKNNRAKKVIISAPSADAPMFVVGVNENSYEKSMSVVSNASTTNCLAPLAKVIHDKFEIVEGLMTTVHSFTATQKVVDGPSSKLWRDGRGAMQNIIPASTGAAKAVGKVIPALNGKLTGMAFRVPTPDVSVVDLTCRLGKGASYEEIKAAVKAAASGPLKGILEYTEDEVVSSDFVGSTSSSIFDAKAGISLNNNFVKLVSWYDNEFGYSCRVVDLITHMHKVDHA 7jh0-a1-m1-cB_7jh0-a1-m1-cD Crystallographic structure of glyceraldehyde-3-phosphate dehydrogenase from Schistosoma mansoni P20287 P20287 2.51 X-RAY DIFFRACTION 27 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 337 337 7jh0-a1-m1-cA_7jh0-a1-m1-cC MSRAKVGINGFGRIGRLVLRAAFLKNTVDVVSVNDPFIDLEYMVYMIKRDSTHGTFPGEVSTENGKLKVNGKLISVHCERDPANIPWDKDGAEYVVESTGVFTTIDKAQAHIKNNRAKKVIISAPSADAPMFVVGVNENSYEKSMSVVSNASTTNCLAPLAKVIHDKFEIVEGLMTTVHSFTATQKVVDGPSSKLWRDGRGAMQNIIPASTGAAKAVGKVIPALNGKLTGMAFRVPTPDVSVVDLTCRLGKGASYEEIKAAVKAAASGPLKGILEYTEDEVVSSDFVGSTSSSIFDAKAGISLNNNFVKLVSWYDNEFGYSCRVVDLITHMHKVDHA MSRAKVGINGFGRIGRLVLRAAFLKNTVDVVSVNDPFIDLEYMVYMIKRDSTHGTFPGEVSTENGKLKVNGKLISVHCERDPANIPWDKDGAEYVVESTGVFTTIDKAQAHIKNNRAKKVIISAPSADAPMFVVGVNENSYEKSMSVVSNASTTNCLAPLAKVIHDKFEIVEGLMTTVHSFTATQKVVDGPSSKLWRDGRGAMQNIIPASTGAAKAVGKVIPALNGKLTGMAFRVPTPDVSVVDLTCRLGKGASYEEIKAAVKAAASGPLKGILEYTEDEVVSSDFVGSTSSSIFDAKAGISLNNNFVKLVSWYDNEFGYSCRVVDLITHMHKVDHA 7jh0-a1-m1-cC_7jh0-a1-m1-cD Crystallographic structure of glyceraldehyde-3-phosphate dehydrogenase from Schistosoma mansoni P20287 P20287 2.51 X-RAY DIFFRACTION 95 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 337 337 7jh0-a1-m1-cA_7jh0-a1-m1-cB MSRAKVGINGFGRIGRLVLRAAFLKNTVDVVSVNDPFIDLEYMVYMIKRDSTHGTFPGEVSTENGKLKVNGKLISVHCERDPANIPWDKDGAEYVVESTGVFTTIDKAQAHIKNNRAKKVIISAPSADAPMFVVGVNENSYEKSMSVVSNASTTNCLAPLAKVIHDKFEIVEGLMTTVHSFTATQKVVDGPSSKLWRDGRGAMQNIIPASTGAAKAVGKVIPALNGKLTGMAFRVPTPDVSVVDLTCRLGKGASYEEIKAAVKAAASGPLKGILEYTEDEVVSSDFVGSTSSSIFDAKAGISLNNNFVKLVSWYDNEFGYSCRVVDLITHMHKVDHA MSRAKVGINGFGRIGRLVLRAAFLKNTVDVVSVNDPFIDLEYMVYMIKRDSTHGTFPGEVSTENGKLKVNGKLISVHCERDPANIPWDKDGAEYVVESTGVFTTIDKAQAHIKNNRAKKVIISAPSADAPMFVVGVNENSYEKSMSVVSNASTTNCLAPLAKVIHDKFEIVEGLMTTVHSFTATQKVVDGPSSKLWRDGRGAMQNIIPASTGAAKAVGKVIPALNGKLTGMAFRVPTPDVSVVDLTCRLGKGASYEEIKAAVKAAASGPLKGILEYTEDEVVSSDFVGSTSSSIFDAKAGISLNNNFVKLVSWYDNEFGYSCRVVDLITHMHKVDHA 7jh3-a2-m1-cC_7jh3-a2-m2-cC Crystal structure of 4-aminobutyrate aminotransferase PuuE from Escherichia coli in complex with PLP P50457 P50457 2.68 X-RAY DIFFRACTION 81 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 419 419 7jh3-a1-m1-cA_7jh3-a1-m1-cE 7jh3-a1-m1-cD_7jh3-a1-m1-cF 7jh3-a2-m1-cB_7jh3-a2-m2-cB SNNEFHQRRLSATPRGVGVMCNFFAQSAENATLKDVEGNEYIDFAAGIAVLNTGHRHPDLVAAVEQQLQQFTHTAYQIVPYESYVTLAEKINALAPVSGQAKTAFFTTGAEAVENAVKIARAHTGRPGVIAFSGGFHGRTYMTMALTGKVAPYKIGFGPFPGSVYHVPYPSDLHGISTQDSLDAIERLFKSDIEAKQVAAIIFEPVQGEGGFNVAPKELVAAIRRLCDEHGIVMIADEVQSGFARTGKLFAMDHYADKPDLMTMASLAGGMPLSGVVGNANIMDAPAPGGLGGTYAGNPLAVAAAHAVLNIIDKESLCERANQLGQRLKNTLIDAKESVPAIAAVRGLGSMIAVEFNDPQTGEPSAAIAQKIQQRALAQGLLLLTCGAYGNVIRFLYPLTIPDAQFDAAMKILQDALSD SNNEFHQRRLSATPRGVGVMCNFFAQSAENATLKDVEGNEYIDFAAGIAVLNTGHRHPDLVAAVEQQLQQFTHTAYQIVPYESYVTLAEKINALAPVSGQAKTAFFTTGAEAVENAVKIARAHTGRPGVIAFSGGFHGRTYMTMALTGKVAPYKIGFGPFPGSVYHVPYPSDLHGISTQDSLDAIERLFKSDIEAKQVAAIIFEPVQGEGGFNVAPKELVAAIRRLCDEHGIVMIADEVQSGFARTGKLFAMDHYADKPDLMTMASLAGGMPLSGVVGNANIMDAPAPGGLGGTYAGNPLAVAAAHAVLNIIDKESLCERANQLGQRLKNTLIDAKESVPAIAAVRGLGSMIAVEFNDPQTGEPSAAIAQKIQQRALAQGLLLLTCGAYGNVIRFLYPLTIPDAQFDAAMKILQDALSD 7jh3-a2-m2-cB_7jh3-a2-m2-cC Crystal structure of 4-aminobutyrate aminotransferase PuuE from Escherichia coli in complex with PLP P50457 P50457 2.68 X-RAY DIFFRACTION 366 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 419 419 7jh3-a1-m1-cA_7jh3-a1-m1-cF 7jh3-a1-m1-cD_7jh3-a1-m1-cE 7jh3-a2-m1-cB_7jh3-a2-m1-cC SNNEFHQRRLSATPRGVGVMCNFFAQSAENATLKDVEGNEYIDFAAGIAVLNTGHRHPDLVAAVEQQLQQFTHTAYQIVPYESYVTLAEKINALAPVSGQAKTAFFTTGAEAVENAVKIARAHTGRPGVIAFSGGFHGRTYMTMALTGKVAPYKIGFGPFPGSVYHVPYPSDLHGISTQDSLDAIERLFKSDIEAKQVAAIIFEPVQGEGGFNVAPKELVAAIRRLCDEHGIVMIADEVQSGFARTGKLFAMDHYADKPDLMTMASLAGGMPLSGVVGNANIMDAPAPGGLGGTYAGNPLAVAAAHAVLNIIDKESLCERANQLGQRLKNTLIDAKESVPAIAAVRGLGSMIAVEFNDPQTGEPSAAIAQKIQQRALAQGLLLLTCGAYGNVIRFLYPLTIPDAQFDAAMKILQDALSD SNNEFHQRRLSATPRGVGVMCNFFAQSAENATLKDVEGNEYIDFAAGIAVLNTGHRHPDLVAAVEQQLQQFTHTAYQIVPYESYVTLAEKINALAPVSGQAKTAFFTTGAEAVENAVKIARAHTGRPGVIAFSGGFHGRTYMTMALTGKVAPYKIGFGPFPGSVYHVPYPSDLHGISTQDSLDAIERLFKSDIEAKQVAAIIFEPVQGEGGFNVAPKELVAAIRRLCDEHGIVMIADEVQSGFARTGKLFAMDHYADKPDLMTMASLAGGMPLSGVVGNANIMDAPAPGGLGGTYAGNPLAVAAAHAVLNIIDKESLCERANQLGQRLKNTLIDAKESVPAIAAVRGLGSMIAVEFNDPQTGEPSAAIAQKIQQRALAQGLLLLTCGAYGNVIRFLYPLTIPDAQFDAAMKILQDALSD 7jh4-a1-m1-cA_7jh4-a1-m1-cB Crystal structure of NAD(P)H-flavin oxidoreductase (NfoR) from S. aureus complexed with reduced FMN and NAD+ Q2FVA4 Q2FVA4 2 X-RAY DIFFRACTION 226 1.0 223 223 7jh4-a2-m1-cC_7jh4-a2-m2-cC 7jh4-a3-m1-cD_7jh4-a3-m1-cE MSNMNQTIMDAFHFRHATKQFDPQKKVSKEDFETILESGRLSPSSLGLEPWKFVVIQDQALRDELKAHSWGAAKQLDTASHFVLIFARKNVTSRSPYVQHMLRDIKKYEAQTIPAVEQKFDAFQADFHISDNDQALYDWSSKQTYIALGNMMTTAALLGIDSCPMEGFSLDTVTDILANKGILDTEQFGLSVMVAFGYRQQDPPKNKTRQAYEDVIEWVGPKE MSNMNQTIMDAFHFRHATKQFDPQKKVSKEDFETILESGRLSPSSLGLEPWKFVVIQDQALRDELKAHSWGAAKQLDTASHFVLIFARKNVTSRSPYVQHMLRDIKKYEAQTIPAVEQKFDAFQADFHISDNDQALYDWSSKQTYIALGNMMTTAALLGIDSCPMEGFSLDTVTDILANKGILDTEQFGLSVMVAFGYRQQDPPKNKTRQAYEDVIEWVGPKE 7jhy-a1-m1-ce_7jhy-a1-m1-cf Type IV-B CRISPR Complex L0J6R6 L0J6R6 3.9 ELECTRON MICROSCOPY 58 1.0 212767 (Mycobacterium sp. JS623) 212767 (Mycobacterium sp. JS623) 228 228 7jhy-a1-m1-ca_7jhy-a1-m1-cb 7jhy-a1-m1-cb_7jhy-a1-m1-cc 7jhy-a1-m1-cc_7jhy-a1-m1-cd 7jhy-a1-m1-cd_7jhy-a1-m1-ce IRWDVDIIAQSSIVHRDDDTFTLFRREKIIGPDGQILQIPLISGSSFRGVLRRVGEALTAEVLGYEDVALAKSAHPLTDEEERNLKELLPQIAVFGGAASGRVMSGLLSVSKVLPEIAELAHLLPRPPHSTPLLPAVLSVADESPLGRFAIETLPAGTRLQTWARLDNATEHQAAFFDNVLSTFAAHGHLGGRSAAGHGQVTATVTATALRGSLPRPTVDWVNQLADD IRWDVDIIAQSSIVHRDDDTFTLFRREKIIGPDGQILQIPLISGSSFRGVLRRVGEALTAEVLGYEDVALAKSAHPLTDEEERNLKELLPQIAVFGGAASGRVMSGLLSVSKVLPEIAELAHLLPRPPHSTPLLPAVLSVADESPLGRFAIETLPAGTRLQTWARLDNATEHQAAFFDNVLSTFAAHGHLGGRSAAGHGQVTATVTATALRGSLPRPTVDWVNQLADD 7jhy-a1-m1-ci_7jhy-a1-m1-cj Type IV-B CRISPR Complex L0JA79 L0JA79 3.9 ELECTRON MICROSCOPY 41 1.0 212767 (Mycobacterium sp. JS623) 212767 (Mycobacterium sp. JS623) 143 143 7jhy-a1-m1-cg_7jhy-a1-m1-ch 7jhy-a1-m1-ch_7jhy-a1-m1-ci 7jhy-a1-m1-cj_7jhy-a1-m1-ck TTPTPTQVWRATVPELPPLVDEAGDTGSATARAADTAERLLLLLHYSIDWSWVADPKHRKTWDELLPGRVRRAAYRADTLDRWWSEVAGQLGAPAPRHRDRRLELATLLREPALPVITVLRDSLPALLLRVRIIAEAVAAQRG TTPTPTQVWRATVPELPPLVDEAGDTGSATARAADTAERLLLLLHYSIDWSWVADPKHRKTWDELLPGRVRRAAYRADTLDRWWSEVAGQLGAPAPRHRDRRLELATLLREPALPVITVLRDSLPALLLRVRIIAEAVAAQRG 7ji3-a1-m1-cB_7ji3-a1-m1-cC Cryo-EM structure of a proton-activated chloride channel A0A4Z2BWB0 A0A4Z2BWB0 3.46 ELECTRON MICROSCOPY 76 1.0 433685 (Takifugu bimaculatus) 433685 (Takifugu bimaculatus) 259 259 7ji3-a1-m1-cA_7ji3-a1-m1-cB 7ji3-a1-m1-cA_7ji3-a1-m1-cC NVFTVLLILIYLLLTALAAFLAYQTISEVLEKLKNPVMSVTYQEVDSFPRPGIALYPGNAQLLSCSHYYHNDIPPVVEPGRPQEIDCVVTEVTYVKRALVVRGPSEVRSKEMVFMQFSSNETGEDFSAISYMIFADFTDLIDSQNKSRFMGECETNCSRWTFSGGFRTWVKMSLVKTFGDSVEFRQESAVVKFNDRRPAAEQINQLYFAVFQWRDPYIQQNKMIVTANPWSSIAILSGVFMALFKAANFAKLTIQWIIR NVFTVLLILIYLLLTALAAFLAYQTISEVLEKLKNPVMSVTYQEVDSFPRPGIALYPGNAQLLSCSHYYHNDIPPVVEPGRPQEIDCVVTEVTYVKRALVVRGPSEVRSKEMVFMQFSSNETGEDFSAISYMIFADFTDLIDSQNKSRFMGECETNCSRWTFSGGFRTWVKMSLVKTFGDSVEFRQESAVVKFNDRRPAAEQINQLYFAVFQWRDPYIQQNKMIVTANPWSSIAILSGVFMALFKAANFAKLTIQWIIR 7jid-a1-m1-cA_7jid-a1-m1-cB Crystal structure of the L780 UDP-rhamnose synthase from Acanthamoeba polyphaga mimivirus Q5UPS5 Q5UPS5 1.45 X-RAY DIFFRACTION 44 0.993 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 287 287 MKWLIFGNKGWIGSMVSKILEQQGEQVVGAQSRADDESAVEREISEIKPDRVMSFIGRTHGPGYSTIDYLEQSGKLVENVKDNLYGPLCLAFICQKYNIHLTYLGTGCIFEGQNNFSADEKGFTENDKPNFFGSSYSVVKGFTDRLMHFFDNDVLNLRIRMPITIEQNPRSFITKILSYSRICSIPNSMTILDQMIPVMIDMARNKTTGTFNFTNPGLVSHNEILSLIRDIHKPNLTWENMSREQQLAILKADRSNNLLNTDKLQSLYPDVPDILTGIREVVSKMKF GHMKWLIFGNKGWIGSMVSKILEQQGEQVVGAQSRADDESAVEREISEIKPDRVMSFIGRTHGPGYSTIDYLEQSGKLVENVKDNLYGPLCLAFICQKYNIHLTYLGTGCIFEGQNNFSADEKGFTENDKPNFFGSSYSVVKGFTDRLMHFFDNDVLNLRIRMPITIEQNPRSFITKILSYSRICSIPNSMTILDQMIPVMIDMARNKTTGTFNFTNPGLVSHNEILSLIRDIHKPNLTWENMSREQQLAILKADRSNNLLNTDKLQSLYPDVPDILTGIREVVSKM 7jiz-a1-m1-cA_7jiz-a1-m1-cB ScDLH A0A346MYW6 A0A346MYW6 1.85 X-RAY DIFFRACTION 54 1.0 2303331 (Solimonas sp. K1W22B-7) 2303331 (Solimonas sp. K1W22B-7) 239 239 AMRKQKIEYGNGPTQFHGWLIRDDSLDGVRPGVLVFPEAYGLNEHAIERAERLAQLGYVALAADMHGGGVVYSSTATLGPAIRSLFGDRAEWRARAQAALDALLAQPQVDRDRVAAIGFCFGGATCLELARSGAPLSALVTFHAGLQPPLEADAGRITGKVLICHGAEDPLMKPEALNAVLAELSRDRVDWQLLSFGGVAHSFTNPDADARGAPGFAYNANADRRSWAAMQGLFAEVFA AMRKQKIEYGNGPTQFHGWLIRDDSLDGVRPGVLVFPEAYGLNEHAIERAERLAQLGYVALAADMHGGGVVYSSTATLGPAIRSLFGDRAEWRARAQAALDALLAQPQVDRDRVAAIGFCFGGATCLELARSGAPLSALVTFHAGLQPPLEADAGRITGKVLICHGAEDPLMKPEALNAVLAELSRDRVDWQLLSFGGVAHSFTNPDADARGAPGFAYNANADRRSWAAMQGLFAEVFA 7jji-a1-m1-cB_7jji-a1-m1-cC Structure of SARS-CoV-2 3Q-2P full-length prefusion spike trimer (C3 symmetry) P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 402 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1109 1109 6zp2-a1-m1-cA_6zp2-a1-m1-cB 6zp2-a1-m1-cA_6zp2-a1-m1-cC 6zp2-a1-m1-cB_6zp2-a1-m1-cC 7fem-a1-m1-cA_7fem-a1-m1-cB 7fem-a1-m1-cA_7fem-a1-m1-cC 7fem-a1-m1-cB_7fem-a1-m1-cC 7fet-a1-m1-cA_7fet-a1-m1-cC 7fet-a1-m1-cB_7fet-a1-m1-cA 7jji-a1-m1-cA_7jji-a1-m1-cB 7jji-a1-m1-cA_7jji-a1-m1-cC 7jjj-a1-m1-cC_7jjj-a1-m1-cB 7jjj-a1-m1-cF_7jjj-a1-m1-cE 7n1v-a1-m1-cA_7n1v-a1-m1-cB 7n1v-a1-m1-cA_7n1v-a1-m1-cC 7odl-a1-m1-cA_7odl-a1-m1-cB 7odl-a1-m1-cA_7odl-a1-m1-cC 7odl-a1-m1-cB_7odl-a1-m1-cC 7qur-a1-m1-cA_7qur-a1-m1-cB 7qur-a1-m1-cA_7qur-a1-m1-cC 7qur-a1-m1-cB_7qur-a1-m1-cC 7qus-a1-m1-cA_7qus-a1-m1-cB 7qus-a1-m1-cA_7qus-a1-m1-cC 7qus-a1-m1-cB_7qus-a1-m1-cC 7wg8-a1-m1-cA_7wg8-a1-m1-cB 7wg8-a1-m1-cA_7wg8-a1-m1-cC 7wg8-a1-m1-cB_7wg8-a1-m1-cC 7wg9-a1-m1-cA_7wg9-a1-m1-cB 7wg9-a1-m1-cA_7wg9-a1-m1-cC 7wg9-a1-m1-cB_7wg9-a1-m1-cC 7wgv-a1-m1-cA_7wgv-a1-m1-cB 7wgv-a1-m1-cA_7wgv-a1-m1-cC 7wgv-a1-m1-cB_7wgv-a1-m1-cC 7wk3-a1-m1-cA_7wk3-a1-m1-cB 7wk3-a1-m1-cA_7wk3-a1-m1-cC 7wk4-a1-m1-cB_7wk4-a1-m1-cC 7wk4-a1-m1-cB_7wk4-a1-m1-cD 7wk5-a1-m1-cB_7wk5-a1-m1-cC 7wk5-a1-m1-cB_7wk5-a1-m1-cD 7wk9-a1-m1-cA_7wk9-a1-m1-cB 7wk9-a1-m1-cA_7wk9-a1-m1-cC 7wvn-a1-m1-cA_7wvn-a1-m1-cB 7wvn-a1-m1-cA_7wvn-a1-m1-cC 7wvo-a1-m1-cA_7wvo-a1-m1-cB 7wvo-a1-m1-cC_7wvo-a1-m1-cA 7wvp-a1-m1-cB_7wvp-a1-m1-cC 7wvp-a1-m1-cB_7wvp-a1-m1-cD 7wvq-a1-m1-cB_7wvq-a1-m1-cC 7wvq-a1-m1-cB_7wvq-a1-m1-cD 7wvq-a1-m1-cC_7wvq-a1-m1-cD 7xtz-a1-m1-cA_7xtz-a1-m1-cB 7xtz-a1-m1-cA_7xtz-a1-m1-cC 7xtz-a1-m1-cB_7xtz-a1-m1-cC 7xu0-a1-m1-cC_7xu0-a1-m1-cB 7zrc-a1-m1-cA_7zrc-a1-m1-cB 7zrc-a1-m1-cA_7zrc-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7jjj-a1-m1-cC_7jjj-a1-m1-cD Structure of SARS-CoV-2 3Q-2P full-length dimers of spike trimers P0DTC2 P0DTC2 4.5 ELECTRON MICROSCOPY 42 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1108 1120 QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7jjj-a1-m1-cF_7jjj-a1-m1-cA Structure of SARS-CoV-2 3Q-2P full-length dimers of spike trimers P0DTC2 P0DTC2 4.5 ELECTRON MICROSCOPY 42 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1108 1120 QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7jjv-a1-m1-cA_7jjv-a1-m1-cB Crystal waters on the nine polyproline type II helical bundle springtail antifreeze protein from Granisotoma rainieri match the ice lattice 1.21 X-RAY DIFFRACTION 228 1.0 730332 (unclassified Entomobryomorpha) 730332 (unclassified Entomobryomorpha) 125 126 MQCDGLDGADGTSNGQAGASGLAGGPNCNGGKGGKGAPGVGTAGGAGGVGGAGGTGNTNGGAGGSGGNSDVAAGGAGAAGGAAGGAGTGGTGGNGGAGKPGGAPGAGGAGTPAGSAGSPGQTTVL MQCDGLDGADGTSNGQAGASGLAGGPNCNGGKGGKGAPGVGTAGGAGGVGGAGGTGNTNGGAGGSGGNSDVAAGGAGAAGGAAGGAGTGGTGGNGGAGKPGGAPGAGGAGTPAGSAGSPGQTTVLE 7jk9-a1-m1-cIA_7jk9-a1-m1-cZ Helical filaments of plant light-dependent protochlorophyllide oxidoreductase (LPOR) bound to NADPH, Pchlide, and membrane P21218 P21218 3.1 ELECTRON MICROSCOPY 64 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 316 316 7jk9-a1-m1-cA_7jk9-a1-m1-cF 7jk9-a1-m1-cAA_7jk9-a1-m1-cKA 7jk9-a1-m1-cB_7jk9-a1-m1-cD 7jk9-a1-m1-cBA_7jk9-a1-m1-cOA 7jk9-a1-m1-cC_7jk9-a1-m1-cE 7jk9-a1-m1-cCA_7jk9-a1-m1-cLA 7jk9-a1-m1-cDA_7jk9-a1-m1-cNA 7jk9-a1-m1-cEA_7jk9-a1-m1-cMA 7jk9-a1-m1-cFA_7jk9-a1-m1-cR 7jk9-a1-m1-cG_7jk9-a1-m1-cJ 7jk9-a1-m1-cGA_7jk9-a1-m1-cQ 7jk9-a1-m1-cH_7jk9-a1-m1-cK 7jk9-a1-m1-cHA_7jk9-a1-m1-cS 7jk9-a1-m1-cI_7jk9-a1-m1-cL 7jk9-a1-m1-cJA_7jk9-a1-m1-cY 7jk9-a1-m1-cM_7jk9-a1-m1-cV 7jk9-a1-m1-cN_7jk9-a1-m1-cX 7jk9-a1-m1-cO_7jk9-a1-m1-cT 7jk9-a1-m1-cP_7jk9-a1-m1-cW LRKGNVVVTGASSGLGLATAKALAETGKWNVIMACRDFLKAERAAKSVGMPKDSYTVMHLDLASLDSVRQFVDNFRRTETPLDVLVCNAAVYFPTAKEPTYSAEGFELSVATNHLGHFLLARLLLDDLKKSDYPSKRLIIVGSITGNTNTLAGNVPPKANLGDLRGLAGGLNGLNSSAMIDGGDFDGAKAYKDSKVCNMLTMQEFHRRFHEETGVTFASLYPGCIASTGLFREHIPLFRALFPPFQKYITKGYVSETESGKRLAQVVSDPSLTKSGVYWSWNNASASFENQLSEEASDVEKARKVWEISEKLVGLA LRKGNVVVTGASSGLGLATAKALAETGKWNVIMACRDFLKAERAAKSVGMPKDSYTVMHLDLASLDSVRQFVDNFRRTETPLDVLVCNAAVYFPTAKEPTYSAEGFELSVATNHLGHFLLARLLLDDLKKSDYPSKRLIIVGSITGNTNTLAGNVPPKANLGDLRGLAGGLNGLNSSAMIDGGDFDGAKAYKDSKVCNMLTMQEFHRRFHEETGVTFASLYPGCIASTGLFREHIPLFRALFPPFQKYITKGYVSETESGKRLAQVVSDPSLTKSGVYWSWNNASASFENQLSEEASDVEKARKVWEISEKLVGLA 7jk9-a1-m1-cO_7jk9-a1-m1-cZ Helical filaments of plant light-dependent protochlorophyllide oxidoreductase (LPOR) bound to NADPH, Pchlide, and membrane P21218 P21218 3.1 ELECTRON MICROSCOPY 23 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 316 316 7jk9-a1-m1-cA_7jk9-a1-m1-cQ 7jk9-a1-m1-cAA_7jk9-a1-m1-cI 7jk9-a1-m1-cB_7jk9-a1-m1-cO 7jk9-a1-m1-cB_7jk9-a1-m1-cR 7jk9-a1-m1-cBA_7jk9-a1-m1-cEA 7jk9-a1-m1-cC_7jk9-a1-m1-cP 7jk9-a1-m1-cC_7jk9-a1-m1-cS 7jk9-a1-m1-cCA_7jk9-a1-m1-cI 7jk9-a1-m1-cCA_7jk9-a1-m1-cQ 7jk9-a1-m1-cD_7jk9-a1-m1-cFA 7jk9-a1-m1-cD_7jk9-a1-m1-cT 7jk9-a1-m1-cDA_7jk9-a1-m1-cG 7jk9-a1-m1-cE_7jk9-a1-m1-cHA 7jk9-a1-m1-cE_7jk9-a1-m1-cW 7jk9-a1-m1-cEA_7jk9-a1-m1-cS 7jk9-a1-m1-cF_7jk9-a1-m1-cGA 7jk9-a1-m1-cG_7jk9-a1-m1-cY 7jk9-a1-m1-cGA_7jk9-a1-m1-cLA 7jk9-a1-m1-cH_7jk9-a1-m1-cZ 7jk9-a1-m1-cHA_7jk9-a1-m1-cMA 7jk9-a1-m1-cIA_7jk9-a1-m1-cK 7jk9-a1-m1-cIA_7jk9-a1-m1-cT 7jk9-a1-m1-cJ_7jk9-a1-m1-cJA 7jk9-a1-m1-cJ_7jk9-a1-m1-cNA 7jk9-a1-m1-cJA_7jk9-a1-m1-cV 7jk9-a1-m1-cKA_7jk9-a1-m1-cL 7jk9-a1-m1-cL_7jk9-a1-m1-cLA 7jk9-a1-m1-cM_7jk9-a1-m1-cN 7jk9-a1-m1-cM_7jk9-a1-m1-cY 7jk9-a1-m1-cMA_7jk9-a1-m1-cOA 7jk9-a1-m1-cV_7jk9-a1-m1-cX LRKGNVVVTGASSGLGLATAKALAETGKWNVIMACRDFLKAERAAKSVGMPKDSYTVMHLDLASLDSVRQFVDNFRRTETPLDVLVCNAAVYFPTAKEPTYSAEGFELSVATNHLGHFLLARLLLDDLKKSDYPSKRLIIVGSITGNTNTLAGNVPPKANLGDLRGLAGGLNGLNSSAMIDGGDFDGAKAYKDSKVCNMLTMQEFHRRFHEETGVTFASLYPGCIASTGLFREHIPLFRALFPPFQKYITKGYVSETESGKRLAQVVSDPSLTKSGVYWSWNNASASFENQLSEEASDVEKARKVWEISEKLVGLA LRKGNVVVTGASSGLGLATAKALAETGKWNVIMACRDFLKAERAAKSVGMPKDSYTVMHLDLASLDSVRQFVDNFRRTETPLDVLVCNAAVYFPTAKEPTYSAEGFELSVATNHLGHFLLARLLLDDLKKSDYPSKRLIIVGSITGNTNTLAGNVPPKANLGDLRGLAGGLNGLNSSAMIDGGDFDGAKAYKDSKVCNMLTMQEFHRRFHEETGVTFASLYPGCIASTGLFREHIPLFRALFPPFQKYITKGYVSETESGKRLAQVVSDPSLTKSGVYWSWNNASASFENQLSEEASDVEKARKVWEISEKLVGLA 7jk9-a1-m1-cT_7jk9-a1-m1-cZ Helical filaments of plant light-dependent protochlorophyllide oxidoreductase (LPOR) bound to NADPH, Pchlide, and membrane P21218 P21218 3.1 ELECTRON MICROSCOPY 16 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 316 316 7jk9-a1-m1-cA_7jk9-a1-m1-cGA 7jk9-a1-m1-cB_7jk9-a1-m1-cFA 7jk9-a1-m1-cC_7jk9-a1-m1-cHA 7jk9-a1-m1-cCA_7jk9-a1-m1-cL 7jk9-a1-m1-cD_7jk9-a1-m1-cO 7jk9-a1-m1-cDA_7jk9-a1-m1-cJ 7jk9-a1-m1-cE_7jk9-a1-m1-cP 7jk9-a1-m1-cEA_7jk9-a1-m1-cOA 7jk9-a1-m1-cG_7jk9-a1-m1-cJA 7jk9-a1-m1-cH_7jk9-a1-m1-cIA 7jk9-a1-m1-cI_7jk9-a1-m1-cKA 7jk9-a1-m1-cLA_7jk9-a1-m1-cQ 7jk9-a1-m1-cM_7jk9-a1-m1-cX 7jk9-a1-m1-cMA_7jk9-a1-m1-cS 7jk9-a1-m1-cV_7jk9-a1-m1-cY LRKGNVVVTGASSGLGLATAKALAETGKWNVIMACRDFLKAERAAKSVGMPKDSYTVMHLDLASLDSVRQFVDNFRRTETPLDVLVCNAAVYFPTAKEPTYSAEGFELSVATNHLGHFLLARLLLDDLKKSDYPSKRLIIVGSITGNTNTLAGNVPPKANLGDLRGLAGGLNGLNSSAMIDGGDFDGAKAYKDSKVCNMLTMQEFHRRFHEETGVTFASLYPGCIASTGLFREHIPLFRALFPPFQKYITKGYVSETESGKRLAQVVSDPSLTKSGVYWSWNNASASFENQLSEEASDVEKARKVWEISEKLVGLA LRKGNVVVTGASSGLGLATAKALAETGKWNVIMACRDFLKAERAAKSVGMPKDSYTVMHLDLASLDSVRQFVDNFRRTETPLDVLVCNAAVYFPTAKEPTYSAEGFELSVATNHLGHFLLARLLLDDLKKSDYPSKRLIIVGSITGNTNTLAGNVPPKANLGDLRGLAGGLNGLNSSAMIDGGDFDGAKAYKDSKVCNMLTMQEFHRRFHEETGVTFASLYPGCIASTGLFREHIPLFRALFPPFQKYITKGYVSETESGKRLAQVVSDPSLTKSGVYWSWNNASASFENQLSEEASDVEKARKVWEISEKLVGLA 7jkb-a1-m1-cA_7jkb-a1-m2-cA 2xVH Fab 2.55 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 223 223 EVQLLESGGGLVQPGGSLRLSCAASGFRISDEDMGWVRQAPGKGLEWVSSIYGPSGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCASALEPLSEPLGFWGQGTLVTVSSGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT EVQLLESGGGLVQPGGSLRLSCAASGFRISDEDMGWVRQAPGKGLEWVSSIYGPSGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYYCASALEPLSEPLGFWGQGTLVTVSSGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 7jkb-a1-m1-cB_7jkb-a1-m2-cB 2xVH Fab 2.55 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 226 226 QVQLVESGGGLIKPGGSLRLSCAASGFTVSYESMGWVRQAPGKGLEWVSAISSSGGSTYYADSVKGRFTISRDNSKNTVYLQMNSLRAEDTAVYYCVTPERQCKQSTCYARPRYWGQGTMVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK QVQLVESGGGLIKPGGSLRLSCAASGFTVSYESMGWVRQAPGKGLEWVSAISSSGGSTYYADSVKGRFTISRDNSKNTVYLQMNSLRAEDTAVYYCVTPERQCKQSTCYARPRYWGQGTMVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPK 7jl2-a1-m1-cA_7jl2-a1-m1-cE Cryo-EM structure of MDA5-dsRNA filament in complex with TRIM65 PSpry domain (Trimer) Q9BYX4 Q9BYX4 4.3 ELECTRON MICROSCOPY 29 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 662 662 7jl2-a1-m1-cA_7jl2-a1-m1-cC ELQLRPYQMEVAQPALEGKNIIICLPTGSGKTRVAVYIAKDHLDKKKKASEPGKVIVLVNKVLLVEQLFRKEFQPFLKKWYRVIGLSGDTQLKISFPEVVKSCDIIISTAQILENSLLNLAGVQLSDFSLIIIDECHHTNKEAVYNNIMRHYLMQKLKNNRLKKVIPLPQILGLTASPGVGGATKQAKAEEHILKLCANLDAFTIKTVKENLDQLKNQIQEPCKKFAIADREDPFKEKLLEIMTRIQTYCQMSPMSDFGTQPYEQWAIQMEKKAAKEGNRKERVCAEHLRKYNEALQINDTIRMIDAYTHLETFYNEEKDKKFAVIEETDRFLMTLFFENNKMLKRLAENPEYENEKLTKLRNTIMEQYTRTEESARGIIFTKTRQSAYALSQWITENEKFAEVGVKAHHLIGAGSSEFKPMTQNEQKEVISKFRTGKINLLIATTVAEEGLDIKECNIVIRYGLVTNEIAMVQARGRARADESTYVLVAHSGSGVIERETVNDFREKMMYKAIHCVQNMKPEEYAHKILELQMQSIMEKKMKTKRNIAKHYNNPSLITFLCKNCSVLACSGEDIHVIEKMHHVNMTPEFKELYIVREKQINGEIICKCGQAWGTMMVHKGLDLPCLKIRNFVVVFKNNSTKKQYKKWVELPITFPNLDYSE ELQLRPYQMEVAQPALEGKNIIICLPTGSGKTRVAVYIAKDHLDKKKKASEPGKVIVLVNKVLLVEQLFRKEFQPFLKKWYRVIGLSGDTQLKISFPEVVKSCDIIISTAQILENSLLNLAGVQLSDFSLIIIDECHHTNKEAVYNNIMRHYLMQKLKNNRLKKVIPLPQILGLTASPGVGGATKQAKAEEHILKLCANLDAFTIKTVKENLDQLKNQIQEPCKKFAIADREDPFKEKLLEIMTRIQTYCQMSPMSDFGTQPYEQWAIQMEKKAAKEGNRKERVCAEHLRKYNEALQINDTIRMIDAYTHLETFYNEEKDKKFAVIEETDRFLMTLFFENNKMLKRLAENPEYENEKLTKLRNTIMEQYTRTEESARGIIFTKTRQSAYALSQWITENEKFAEVGVKAHHLIGAGSSEFKPMTQNEQKEVISKFRTGKINLLIATTVAEEGLDIKECNIVIRYGLVTNEIAMVQARGRARADESTYVLVAHSGSGVIERETVNDFREKMMYKAIHCVQNMKPEEYAHKILELQMQSIMEKKMKTKRNIAKHYNNPSLITFLCKNCSVLACSGEDIHVIEKMHHVNMTPEFKELYIVREKQINGEIICKCGQAWGTMMVHKGLDLPCLKIRNFVVVFKNNSTKKQYKKWVELPITFPNLDYSE 7jl6-a1-m1-cB_7jl6-a1-m1-cA Heme binding to SrrB PAS domain plays a role in redox regulation of S. aureus SrrAB two-component system Q9L523 Q9L523 2.1 X-RAY DIFFRACTION 69 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 90 104 INSMVEGVLGINESRQIILSNKMANDIMDNIDEDAKAFLLRQIEDTFKSKQTEMRDLEMNTRFFVVTTSYIDKIEQGGKSGVVVTVRDMT AMGRDSLINSMVEGVLGINESRQIILSNKMANDIMDNIDEDAKAFLLRQIEDTFKSKQTEMRDLEMNTRFFVVTTSYIDKIEQGGKSGVVVTVRDMTNEHNLDQ 7jl7-a1-m1-cA_7jl7-a1-m1-cB Zebrafish Caspase N213T A0A2R8QUC0 A0A2R8QUC0 2.05 X-RAY DIFFRACTION 18 0.993 7955 (Danio rerio) 7955 (Danio rerio) 141 141 5jft-a1-m1-cB_5jft-a1-m1-cA FRYSLNYPNIGHCIIINNKNFDRRTGMNPRNGTDVDAGNVMNVFRKLGYIVKVYNDQTVAQIMQVLTTVAHDDHSRCASLVCVLLSHGDEGVFFGTDTSVDLKSLTSLFRGDRCPSLVGKPKLFFIQACRGTELDPGVETD AFRYSLNYPNIGHCIIINNKNFDRRTGMNPRNGTDVDAGNVMNVFRKLGYIVKVYNDQTVAQIMQVLTTVAHDDHSRCASLVCVLLSHGDEGVFFGTDTSVDLKSLTSLFRGDRCPSLVGKPKLFFIQACRGTELDPGVET 7jl7-a1-m1-cD_7jl7-a1-m1-cC Zebrafish Caspase N213T Q98UI8 Q98UI8 2.05 X-RAY DIFFRACTION 98 0.989 7955 (Danio rerio) 7955 (Danio rerio) 94 96 RERIPVEADFLYAYSTVPGYYSWRTTMTGSWFIQSLCEMMTKYGSELELLQIMTRVNHKVALDFESTSNMPGFDAKKQIPCIVSMLTKEMYFTP ERIPVEADFLYAYSTVPGYYSWRTTMTGSWFIQSLCEMMTKYGSELELLQIMTRVNHKVALDFESTSNMPGFDAKKQIPCIVSMLTKEMYFTPLEH 7jli-a1-m1-cA_7jli-a1-m2-cA Crystal structure of Bacillus subtilis UppS O31751 O31751 1.8 X-RAY DIFFRACTION 116 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 241 241 7jlj-a1-m1-cA_7jlj-a1-m2-cA 7jlm-a1-m1-cA_7jlm-a1-m2-cA 7jlm-a2-m1-cB_7jlm-a2-m3-cB 7jlr-a1-m1-cA_7jlr-a1-m2-cA RYTKEDILKGEIPEHIAIIMDGNGRWAKKRSLPRIAGHHEGMKVVKRTTKLANELGVKVLTLYAFSTENWKRPKMEVDFLMKLPEEFLNTYLPELVEENVQVRIIGDETALPAHTLRAIEKAVQDTAQNDGMILNFALNYGGRTEIVSAAKSLAEKVKEGSLNIEDIDESLFSTYLMTESLQDPELLIRTSGEIRLSNFMLWQVAYSEFVFTDVLWPDFKEDHFLQALGEFQQRGRRFGGI RYTKEDILKGEIPEHIAIIMDGNGRWAKKRSLPRIAGHHEGMKVVKRTTKLANELGVKVLTLYAFSTENWKRPKMEVDFLMKLPEEFLNTYLPELVEENVQVRIIGDETALPAHTLRAIEKAVQDTAQNDGMILNFALNYGGRTEIVSAAKSLAEKVKEGSLNIEDIDESLFSTYLMTESLQDPELLIRTSGEIRLSNFMLWQVAYSEFVFTDVLWPDFKEDHFLQALGEFQQRGRRFGGI 7jlv-a1-m1-cD_7jlv-a1-m1-cG Structure of the activated Roq1 resistosome directly recognizing the pathogen effector XopQ A0A290U7C4 A0A290U7C4 3.8 ELECTRON MICROSCOPY 45 1.0 4100 (Nicotiana benthamiana) 4100 (Nicotiana benthamiana) 437 437 7jlv-a1-m1-cA_7jlv-a1-m1-cB 7jlv-a1-m1-cA_7jlv-a1-m1-cG 7jlv-a1-m1-cB_7jlv-a1-m1-cD DLVGIESQIKKLSSLLRMDLKGVRLVGIWGMGGVGKTTAARALFNRYYQNFESACFLEDVKEYLQHHTLLYLQKTLLSKLLKVEFVDCTDTEEMCVILKRRLCSKKVLVVLDDVNHNDQLDKLVGAEDWFGSGSRIVITTRDMKLLKNHDVHETYEIKVLEKDEAIELFNLHAFKRSSPEKEFKELLNLVVDYTGGLPLALKVLGSLLYKEDLDVWISTIDRLKDNPEGEIMATLKISFDGLRDYEKSIFLDIACFFRGYNQRDMTALFHASGFHPVLGVKTLVEKSLIFILEDKIQMHDLMQEMGRQIAVQESPMRRIYRPEDVKDACIGDMRKEAIEGLLLTEPEQFEEGELEYMYSAEALKKTRRLRILVKEYYNRGFDEPVAYLPNSLLWLEWRNYSSNSFPSNFEPSKLVYLTMKGSSIIELWNGAKRLAFL DLVGIESQIKKLSSLLRMDLKGVRLVGIWGMGGVGKTTAARALFNRYYQNFESACFLEDVKEYLQHHTLLYLQKTLLSKLLKVEFVDCTDTEEMCVILKRRLCSKKVLVVLDDVNHNDQLDKLVGAEDWFGSGSRIVITTRDMKLLKNHDVHETYEIKVLEKDEAIELFNLHAFKRSSPEKEFKELLNLVVDYTGGLPLALKVLGSLLYKEDLDVWISTIDRLKDNPEGEIMATLKISFDGLRDYEKSIFLDIACFFRGYNQRDMTALFHASGFHPVLGVKTLVEKSLIFILEDKIQMHDLMQEMGRQIAVQESPMRRIYRPEDVKDACIGDMRKEAIEGLLLTEPEQFEEGELEYMYSAEALKKTRRLRILVKEYYNRGFDEPVAYLPNSLLWLEWRNYSSNSFPSNFEPSKLVYLTMKGSSIIELWNGAKRLAFL 7jlx-a1-m1-cA_7jlx-a1-m1-cD Structure of the activated Roq1 resistosome directly recognizing the pathogen effector XopQ (TIR domains) A0A290U7C4 A0A290U7C4 4.6 ELECTRON MICROSCOPY 22 1.0 4100 (Nicotiana benthamiana) 4100 (Nicotiana benthamiana) 166 166 7jlx-a1-m1-cB_7jlx-a1-m1-cC SYDVFLSFRGEDTRKTFVGHLFNALIEKGIHTFMDDKELKRGKSISSELMKAIGESRFAVVVFSKNYASSTWCLEELVKILEIHEKFELIVVPVFYDVDPSTVRKQNGEYAVCFTKFEANLVDDRDKVLRWREALTKVANISGHDLRNTYNGDESKCIQQILKDIF SYDVFLSFRGEDTRKTFVGHLFNALIEKGIHTFMDDKELKRGKSISSELMKAIGESRFAVVVFSKNYASSTWCLEELVKILEIHEKFELIVVPVFYDVDPSTVRKQNGEYAVCFTKFEANLVDDRDKVLRWREALTKVANISGHDLRNTYNGDESKCIQQILKDIF 7jlx-a1-m1-cB_7jlx-a1-m1-cD Structure of the activated Roq1 resistosome directly recognizing the pathogen effector XopQ (TIR domains) A0A290U7C4 A0A290U7C4 4.6 ELECTRON MICROSCOPY 27 1.0 4100 (Nicotiana benthamiana) 4100 (Nicotiana benthamiana) 166 166 7jlx-a1-m1-cA_7jlx-a1-m1-cC SYDVFLSFRGEDTRKTFVGHLFNALIEKGIHTFMDDKELKRGKSISSELMKAIGESRFAVVVFSKNYASSTWCLEELVKILEIHEKFELIVVPVFYDVDPSTVRKQNGEYAVCFTKFEANLVDDRDKVLRWREALTKVANISGHDLRNTYNGDESKCIQQILKDIF SYDVFLSFRGEDTRKTFVGHLFNALIEKGIHTFMDDKELKRGKSISSELMKAIGESRFAVVVFSKNYASSTWCLEELVKILEIHEKFELIVVPVFYDVDPSTVRKQNGEYAVCFTKFEANLVDDRDKVLRWREALTKVANISGHDLRNTYNGDESKCIQQILKDIF 7jm3-a1-m1-cC_7jm3-a1-m9-cC Full-length three-dimensional structure of the influenza A virus M1 protein and its organization into a matrix layer P03485 P03485 3.4 ELECTRON MICROSCOPY 25 1.0 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 211044 (Influenza A virus (A/Puerto Rico/8/1934(H1N1))) 251 251 7jm3-a1-m10-cC_7jm3-a1-m31-cC 7jm3-a1-m11-cC_7jm3-a1-m32-cC 7jm3-a1-m12-cC_7jm3-a1-m33-cC 7jm3-a1-m13-cC_7jm3-a1-m34-cC 7jm3-a1-m14-cC_7jm3-a1-m35-cC 7jm3-a1-m15-cC_7jm3-a1-m36-cC 7jm3-a1-m16-cC_7jm3-a1-m37-cC 7jm3-a1-m17-cC_7jm3-a1-m38-cC 7jm3-a1-m18-cC_7jm3-a1-m39-cC 7jm3-a1-m19-cC_7jm3-a1-m40-cC 7jm3-a1-m1-cC_7jm3-a1-m52-cC 7jm3-a1-m20-cC_7jm3-a1-m41-cC 7jm3-a1-m21-cC_7jm3-a1-m42-cC 7jm3-a1-m22-cC_7jm3-a1-m43-cC 7jm3-a1-m23-cC_7jm3-a1-m44-cC 7jm3-a1-m24-cC_7jm3-a1-m45-cC 7jm3-a1-m25-cC_7jm3-a1-m3-cC 7jm3-a1-m25-cC_7jm3-a1-m46-cC 7jm3-a1-m26-cC_7jm3-a1-m47-cC 7jm3-a1-m26-cC_7jm3-a1-m4-cC 7jm3-a1-m27-cC_7jm3-a1-m48-cC 7jm3-a1-m27-cC_7jm3-a1-m5-cC 7jm3-a1-m28-cC_7jm3-a1-m49-cC 7jm3-a1-m28-cC_7jm3-a1-m6-cC 7jm3-a1-m29-cC_7jm3-a1-m50-cC 7jm3-a1-m29-cC_7jm3-a1-m7-cC 7jm3-a1-m2-cC_7jm3-a1-m24-cC 7jm3-a1-m30-cC_7jm3-a1-m51-cC 7jm3-a1-m30-cC_7jm3-a1-m8-cC 7jm3-a1-m31-cC_7jm3-a1-m53-cC 7jm3-a1-m32-cC_7jm3-a1-m54-cC 7jm3-a1-m33-cC_7jm3-a1-m55-cC 7jm3-a1-m34-cC_7jm3-a1-m56-cC 7jm3-a1-m35-cC_7jm3-a1-m57-cC 7jm3-a1-m36-cC_7jm3-a1-m58-cC 7jm3-a1-m37-cC_7jm3-a1-m59-cC 7jm3-a1-m38-cC_7jm3-a1-m60-cC SLLTEVETYVLSIIPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPLTKGILGFVFTLTVPSERGLQRRRFVQNALNGNGDPNNMDKAKKLYRKLKREITFHGAKEISLSYSAGALASCMGLIYNRMGAVTTEVAFGLVCATCEQIADSQHRSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRFK SLLTEVETYVLSIIPSGPLKAEIAQRLEDVFAGKNTDLEVLMEWLKTRPILSPLTKGILGFVFTLTVPSERGLQRRRFVQNALNGNGDPNNMDKAKKLYRKLKREITFHGAKEISLSYSAGALASCMGLIYNRMGAVTTEVAFGLVCATCEQIADSQHRSHRQMVTTTNPLIRHENRMVLASTTAKAMEQMAGSSEQAAEAMEVASQARQMVQAMRTIGTHPSSSAGLKNDLLENLQAYQKRMGVQMQRFK 7jm6-a1-m1-cA_7jm6-a1-m1-cB Structure of chicken CLC-7 A0A1D5PS57 A0A1D5PS57 2.92 ELECTRON MICROSCOPY 186 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 667 667 LSLKYESLDYDNSENQLFLEEERRINHAAFRTVEIKRWVICAMIGILTGLVACFIDIVVENLAGLKYRVVKDNIDKFTEKGGLSFSLLLWATLNASVVMVGSVIVAFIEPVAAGSGIPQIKCYLNGVKIPHVVRLKTLVIKVCGVILSVVGGLAVGKEGPMIHSGAVIAAGISQGRSTSLKRDFKIFEYFRRDTEKRDFVSAGAAAGVSAAFGAPVGGVLFSLEEGASFWNQFLTWRIFFASMISTFTLNSVLSVYHGNAWDLSSPGLINFGRFDSEKMGYTIQEIPIFIFMGVVGGILGALFNALNYWLTMFRIRYIHRPCLQVIEAMLVAAVTAAVGFVMIYCSRAFFNTPEKSVVNLFHDPPGSYNPMTLGMFTLMYFFLACWTYGLTVSAGVFIPSLLIGAAWGRLFGISLSYLSKGSIWADPGKYALMGAAAQLGGIVRMTLSLTVIMMEATGNVTYGFPIMLVLMTAKIVGDYFVEGLYDMHIQLQSVPFLHWEAPVTSHSLTAREVMSTPVTCLRRIERVGTVVDILSDTSSNHNGFPVVESNPNTTQVAGLRGLILRSQLIVLLKHKVFVERRLKLKDFRDAYPRFPPIQSIHVSQDERECMIDLSEFMNPSPYTVPREASLPRVFKLFRALGLRHLVVVNNHNEVVGMVTRKDLARYR LSLKYESLDYDNSENQLFLEEERRINHAAFRTVEIKRWVICAMIGILTGLVACFIDIVVENLAGLKYRVVKDNIDKFTEKGGLSFSLLLWATLNASVVMVGSVIVAFIEPVAAGSGIPQIKCYLNGVKIPHVVRLKTLVIKVCGVILSVVGGLAVGKEGPMIHSGAVIAAGISQGRSTSLKRDFKIFEYFRRDTEKRDFVSAGAAAGVSAAFGAPVGGVLFSLEEGASFWNQFLTWRIFFASMISTFTLNSVLSVYHGNAWDLSSPGLINFGRFDSEKMGYTIQEIPIFIFMGVVGGILGALFNALNYWLTMFRIRYIHRPCLQVIEAMLVAAVTAAVGFVMIYCSRAFFNTPEKSVVNLFHDPPGSYNPMTLGMFTLMYFFLACWTYGLTVSAGVFIPSLLIGAAWGRLFGISLSYLSKGSIWADPGKYALMGAAAQLGGIVRMTLSLTVIMMEATGNVTYGFPIMLVLMTAKIVGDYFVEGLYDMHIQLQSVPFLHWEAPVTSHSLTAREVMSTPVTCLRRIERVGTVVDILSDTSSNHNGFPVVESNPNTTQVAGLRGLILRSQLIVLLKHKVFVERRLKLKDFRDAYPRFPPIQSIHVSQDERECMIDLSEFMNPSPYTVPREASLPRVFKLFRALGLRHLVVVNNHNEVVGMVTRKDLARYR 7jmc-a1-m1-cF_7jmc-a1-m1-cL Sheep Connexin-50 at 2.5 angstroms resolution, Lipid Class 3 P55917 P55917 2.5 ELECTRON MICROSCOPY 26 1.0 9940 (Ovis aries) 9940 (Ovis aries) 192 192 6mhy-a1-m1-cA_6mhy-a1-m1-cK 6mhy-a1-m1-cB_6mhy-a1-m1-cJ 6mhy-a1-m1-cC_6mhy-a1-m1-cI 6mhy-a1-m1-cD_6mhy-a1-m1-cH 6mhy-a1-m1-cE_6mhy-a1-m1-cG 6mhy-a1-m1-cF_6mhy-a1-m1-cL 7jjp-a1-m1-cA_7jjp-a1-m1-cH 7jjp-a1-m1-cB_7jjp-a1-m1-cG 7jjp-a1-m1-cC_7jjp-a1-m1-cL 7jjp-a1-m1-cD_7jjp-a1-m1-cK 7jjp-a1-m1-cE_7jjp-a1-m1-cJ 7jjp-a1-m1-cF_7jjp-a1-m1-cI 7jlw-a1-m1-cA_7jlw-a1-m1-cJ 7jlw-a1-m1-cB_7jlw-a1-m1-cI 7jlw-a1-m1-cC_7jlw-a1-m1-cH 7jlw-a1-m1-cD_7jlw-a1-m1-cG 7jlw-a1-m1-cE_7jlw-a1-m1-cL 7jlw-a1-m1-cF_7jlw-a1-m1-cK 7jm9-a1-m1-cA_7jm9-a1-m1-cK 7jm9-a1-m1-cB_7jm9-a1-m1-cJ 7jm9-a1-m1-cC_7jm9-a1-m1-cI 7jm9-a1-m1-cD_7jm9-a1-m1-cH 7jm9-a1-m1-cE_7jm9-a1-m1-cG 7jm9-a1-m1-cF_7jm9-a1-m1-cL 7jmc-a1-m1-cA_7jmc-a1-m1-cK 7jmc-a1-m1-cB_7jmc-a1-m1-cJ 7jmc-a1-m1-cC_7jmc-a1-m1-cI 7jmc-a1-m1-cD_7jmc-a1-m1-cH 7jmc-a1-m1-cE_7jmc-a1-m1-cG GDWSFLGNILEEVNEHSTVIGRVWLTVLFIFRILILGTAAEFVWGDEQSDFVCNTQQPGCENVCYDEAFPISHIRLWVLQIIFVSTPSLVYVGHAVHHVRMEEKRLEGTLLRTYVCHIIFKTLFEVGFIVGHYFLYGFRILPLYRCSRWPCPNVVDCFVSRPTEKTIFILFMLSVASVSLFLNILEMSHLGL GDWSFLGNILEEVNEHSTVIGRVWLTVLFIFRILILGTAAEFVWGDEQSDFVCNTQQPGCENVCYDEAFPISHIRLWVLQIIFVSTPSLVYVGHAVHHVRMEEKRLEGTLLRTYVCHIIFKTLFEVGFIVGHYFLYGFRILPLYRCSRWPCPNVVDCFVSRPTEKTIFILFMLSVASVSLFLNILEMSHLGL 7jmc-a1-m1-cK_7jmc-a1-m1-cL Sheep Connexin-50 at 2.5 angstroms resolution, Lipid Class 3 P55917 P55917 2.5 ELECTRON MICROSCOPY 82 1.0 9940 (Ovis aries) 9940 (Ovis aries) 192 192 6mhy-a1-m1-cA_6mhy-a1-m1-cB 6mhy-a1-m1-cA_6mhy-a1-m1-cF 6mhy-a1-m1-cB_6mhy-a1-m1-cC 6mhy-a1-m1-cC_6mhy-a1-m1-cD 6mhy-a1-m1-cD_6mhy-a1-m1-cE 6mhy-a1-m1-cE_6mhy-a1-m1-cF 6mhy-a1-m1-cG_6mhy-a1-m1-cH 6mhy-a1-m1-cG_6mhy-a1-m1-cL 6mhy-a1-m1-cH_6mhy-a1-m1-cI 6mhy-a1-m1-cI_6mhy-a1-m1-cJ 6mhy-a1-m1-cJ_6mhy-a1-m1-cK 6mhy-a1-m1-cK_6mhy-a1-m1-cL 7jjp-a1-m1-cA_7jjp-a1-m1-cB 7jjp-a1-m1-cA_7jjp-a1-m1-cF 7jjp-a1-m1-cB_7jjp-a1-m1-cC 7jjp-a1-m1-cC_7jjp-a1-m1-cD 7jjp-a1-m1-cD_7jjp-a1-m1-cE 7jjp-a1-m1-cE_7jjp-a1-m1-cF 7jjp-a1-m1-cG_7jjp-a1-m1-cH 7jjp-a1-m1-cG_7jjp-a1-m1-cL 7jjp-a1-m1-cH_7jjp-a1-m1-cI 7jjp-a1-m1-cI_7jjp-a1-m1-cJ 7jjp-a1-m1-cJ_7jjp-a1-m1-cK 7jjp-a1-m1-cK_7jjp-a1-m1-cL 7jlw-a1-m1-cA_7jlw-a1-m1-cB 7jlw-a1-m1-cA_7jlw-a1-m1-cF 7jlw-a1-m1-cB_7jlw-a1-m1-cC 7jlw-a1-m1-cC_7jlw-a1-m1-cD 7jlw-a1-m1-cD_7jlw-a1-m1-cE 7jlw-a1-m1-cE_7jlw-a1-m1-cF 7jlw-a1-m1-cG_7jlw-a1-m1-cH 7jlw-a1-m1-cG_7jlw-a1-m1-cL 7jlw-a1-m1-cH_7jlw-a1-m1-cI 7jlw-a1-m1-cI_7jlw-a1-m1-cJ 7jlw-a1-m1-cJ_7jlw-a1-m1-cK 7jlw-a1-m1-cK_7jlw-a1-m1-cL 7jm9-a1-m1-cA_7jm9-a1-m1-cB 7jm9-a1-m1-cA_7jm9-a1-m1-cF 7jm9-a1-m1-cB_7jm9-a1-m1-cC 7jm9-a1-m1-cC_7jm9-a1-m1-cD 7jm9-a1-m1-cD_7jm9-a1-m1-cE 7jm9-a1-m1-cE_7jm9-a1-m1-cF 7jm9-a1-m1-cG_7jm9-a1-m1-cH 7jm9-a1-m1-cG_7jm9-a1-m1-cL 7jm9-a1-m1-cH_7jm9-a1-m1-cI 7jm9-a1-m1-cI_7jm9-a1-m1-cJ 7jm9-a1-m1-cJ_7jm9-a1-m1-cK 7jm9-a1-m1-cK_7jm9-a1-m1-cL 7jmc-a1-m1-cA_7jmc-a1-m1-cB 7jmc-a1-m1-cA_7jmc-a1-m1-cF 7jmc-a1-m1-cB_7jmc-a1-m1-cC 7jmc-a1-m1-cC_7jmc-a1-m1-cD 7jmc-a1-m1-cD_7jmc-a1-m1-cE 7jmc-a1-m1-cE_7jmc-a1-m1-cF 7jmc-a1-m1-cG_7jmc-a1-m1-cH 7jmc-a1-m1-cG_7jmc-a1-m1-cL 7jmc-a1-m1-cH_7jmc-a1-m1-cI 7jmc-a1-m1-cI_7jmc-a1-m1-cJ 7jmc-a1-m1-cJ_7jmc-a1-m1-cK GDWSFLGNILEEVNEHSTVIGRVWLTVLFIFRILILGTAAEFVWGDEQSDFVCNTQQPGCENVCYDEAFPISHIRLWVLQIIFVSTPSLVYVGHAVHHVRMEEKRLEGTLLRTYVCHIIFKTLFEVGFIVGHYFLYGFRILPLYRCSRWPCPNVVDCFVSRPTEKTIFILFMLSVASVSLFLNILEMSHLGL GDWSFLGNILEEVNEHSTVIGRVWLTVLFIFRILILGTAAEFVWGDEQSDFVCNTQQPGCENVCYDEAFPISHIRLWVLQIIFVSTPSLVYVGHAVHHVRMEEKRLEGTLLRTYVCHIIFKTLFEVGFIVGHYFLYGFRILPLYRCSRWPCPNVVDCFVSRPTEKTIFILFMLSVASVSLFLNILEMSHLGL 7jmv-a1-m2-cA_7jmv-a1-m3-cA Crystal structure of the pea pathogenicity protein 2 from Madurella mycetomatis complexed with 4-nitrocatechol A0A175WC91 A0A175WC91 1.57 X-RAY DIFFRACTION 97 1.0 100816 (Madurella mycetomatis) 100816 (Madurella mycetomatis) 223 223 7jmr-a1-m1-cA_7jmr-a1-m2-cA 7jmr-a1-m1-cA_7jmr-a1-m3-cA 7jmr-a1-m2-cA_7jmr-a1-m3-cA 7jmv-a1-m1-cA_7jmv-a1-m2-cA 7jmv-a1-m1-cA_7jmv-a1-m3-cA LDPHSKCYSHINGSAEELLDRLAVSELCKGWPVYRDASEWKNYRSLFTEDATVWTTWSGPRPVDEFITISKAGKEQGVFIMHRECGTLVELSPQQGRAIGKMKATITQRFSFPAIEFDVDCDCRFIFFCEKDTASGAWKAKYVKLFYEKDKVVSVDGHQAPKFTKDELAKYPQGYRYLGAAQARLGYDIDLQLPTSSGQLWDRMYGEMENWLGGNKVDLFWEH LDPHSKCYSHINGSAEELLDRLAVSELCKGWPVYRDASEWKNYRSLFTEDATVWTTWSGPRPVDEFITISKAGKEQGVFIMHRECGTLVELSPQQGRAIGKMKATITQRFSFPAIEFDVDCDCRFIFFCEKDTASGAWKAKYVKLFYEKDKVVSVDGHQAPKFTKDELAKYPQGYRYLGAAQARLGYDIDLQLPTSSGQLWDRMYGEMENWLGGNKVDLFWEH 7jn1-a1-m1-cF_7jn1-a1-m1-cL Sheep Connexin-46 at 2.5 angstroms resolution, Lipid Class 3 Q9TU17 Q9TU17 2.5 ELECTRON MICROSCOPY 26 1.0 9940 (Ovis aries) 9940 (Ovis aries) 192 192 6mhq-a1-m1-cA_6mhq-a1-m1-cK 6mhq-a1-m1-cB_6mhq-a1-m1-cJ 6mhq-a1-m1-cC_6mhq-a1-m1-cI 6mhq-a1-m1-cD_6mhq-a1-m1-cH 6mhq-a1-m1-cE_6mhq-a1-m1-cG 6mhq-a1-m1-cF_6mhq-a1-m1-cL 7jkc-a1-m1-cA_7jkc-a1-m1-cH 7jkc-a1-m1-cB_7jkc-a1-m1-cG 7jkc-a1-m1-cC_7jkc-a1-m1-cL 7jkc-a1-m1-cD_7jkc-a1-m1-cK 7jkc-a1-m1-cE_7jkc-a1-m1-cJ 7jkc-a1-m1-cF_7jkc-a1-m1-cI 7jmd-a1-m1-cA_7jmd-a1-m1-cJ 7jmd-a1-m1-cB_7jmd-a1-m1-cI 7jmd-a1-m1-cC_7jmd-a1-m1-cH 7jmd-a1-m1-cD_7jmd-a1-m1-cG 7jmd-a1-m1-cE_7jmd-a1-m1-cL 7jmd-a1-m1-cF_7jmd-a1-m1-cK 7jn0-a1-m1-cA_7jn0-a1-m1-cK 7jn0-a1-m1-cB_7jn0-a1-m1-cJ 7jn0-a1-m1-cC_7jn0-a1-m1-cI 7jn0-a1-m1-cD_7jn0-a1-m1-cH 7jn0-a1-m1-cE_7jn0-a1-m1-cG 7jn0-a1-m1-cF_7jn0-a1-m1-cL 7jn1-a1-m1-cA_7jn1-a1-m1-cK 7jn1-a1-m1-cB_7jn1-a1-m1-cJ 7jn1-a1-m1-cC_7jn1-a1-m1-cI 7jn1-a1-m1-cD_7jn1-a1-m1-cH 7jn1-a1-m1-cE_7jn1-a1-m1-cG GDWSFLGRLLENAQEHSTVIGKVWLTVLFIFRILVLGAAAEEVWGDEQSDFTCNTQQPGCENVCYDRAFPISHVRFWVLQIIFVSTPTLIYLGHVLHLVRMEEKRIAGALLRTYVFNIIFKTLFEVGFIAGQYFLYGFQLKPLYRCDRWPCPNTVDCFISRPTEKTIFILFMLAVACVSLLLNVLEIYHLGW GDWSFLGRLLENAQEHSTVIGKVWLTVLFIFRILVLGAAAEEVWGDEQSDFTCNTQQPGCENVCYDRAFPISHVRFWVLQIIFVSTPTLIYLGHVLHLVRMEEKRIAGALLRTYVFNIIFKTLFEVGFIAGQYFLYGFQLKPLYRCDRWPCPNTVDCFISRPTEKTIFILFMLAVACVSLLLNVLEIYHLGW 7jn1-a1-m1-cK_7jn1-a1-m1-cL Sheep Connexin-46 at 2.5 angstroms resolution, Lipid Class 3 Q9TU17 Q9TU17 2.5 ELECTRON MICROSCOPY 85 1.0 9940 (Ovis aries) 9940 (Ovis aries) 192 192 6mhq-a1-m1-cA_6mhq-a1-m1-cB 6mhq-a1-m1-cA_6mhq-a1-m1-cF 6mhq-a1-m1-cB_6mhq-a1-m1-cC 6mhq-a1-m1-cC_6mhq-a1-m1-cD 6mhq-a1-m1-cD_6mhq-a1-m1-cE 6mhq-a1-m1-cE_6mhq-a1-m1-cF 6mhq-a1-m1-cG_6mhq-a1-m1-cH 6mhq-a1-m1-cG_6mhq-a1-m1-cL 6mhq-a1-m1-cH_6mhq-a1-m1-cI 6mhq-a1-m1-cI_6mhq-a1-m1-cJ 6mhq-a1-m1-cJ_6mhq-a1-m1-cK 6mhq-a1-m1-cK_6mhq-a1-m1-cL 7jkc-a1-m1-cA_7jkc-a1-m1-cB 7jkc-a1-m1-cA_7jkc-a1-m1-cF 7jkc-a1-m1-cB_7jkc-a1-m1-cC 7jkc-a1-m1-cC_7jkc-a1-m1-cD 7jkc-a1-m1-cD_7jkc-a1-m1-cE 7jkc-a1-m1-cE_7jkc-a1-m1-cF 7jkc-a1-m1-cG_7jkc-a1-m1-cH 7jkc-a1-m1-cG_7jkc-a1-m1-cL 7jkc-a1-m1-cH_7jkc-a1-m1-cI 7jkc-a1-m1-cI_7jkc-a1-m1-cJ 7jkc-a1-m1-cJ_7jkc-a1-m1-cK 7jkc-a1-m1-cK_7jkc-a1-m1-cL 7jmd-a1-m1-cA_7jmd-a1-m1-cB 7jmd-a1-m1-cA_7jmd-a1-m1-cF 7jmd-a1-m1-cB_7jmd-a1-m1-cC 7jmd-a1-m1-cC_7jmd-a1-m1-cD 7jmd-a1-m1-cD_7jmd-a1-m1-cE 7jmd-a1-m1-cE_7jmd-a1-m1-cF 7jmd-a1-m1-cG_7jmd-a1-m1-cH 7jmd-a1-m1-cG_7jmd-a1-m1-cL 7jmd-a1-m1-cH_7jmd-a1-m1-cI 7jmd-a1-m1-cI_7jmd-a1-m1-cJ 7jmd-a1-m1-cJ_7jmd-a1-m1-cK 7jmd-a1-m1-cK_7jmd-a1-m1-cL 7jn0-a1-m1-cA_7jn0-a1-m1-cB 7jn0-a1-m1-cA_7jn0-a1-m1-cF 7jn0-a1-m1-cB_7jn0-a1-m1-cC 7jn0-a1-m1-cC_7jn0-a1-m1-cD 7jn0-a1-m1-cD_7jn0-a1-m1-cE 7jn0-a1-m1-cE_7jn0-a1-m1-cF 7jn0-a1-m1-cG_7jn0-a1-m1-cH 7jn0-a1-m1-cG_7jn0-a1-m1-cL 7jn0-a1-m1-cH_7jn0-a1-m1-cI 7jn0-a1-m1-cI_7jn0-a1-m1-cJ 7jn0-a1-m1-cJ_7jn0-a1-m1-cK 7jn0-a1-m1-cK_7jn0-a1-m1-cL 7jn1-a1-m1-cA_7jn1-a1-m1-cB 7jn1-a1-m1-cA_7jn1-a1-m1-cF 7jn1-a1-m1-cB_7jn1-a1-m1-cC 7jn1-a1-m1-cC_7jn1-a1-m1-cD 7jn1-a1-m1-cD_7jn1-a1-m1-cE 7jn1-a1-m1-cE_7jn1-a1-m1-cF 7jn1-a1-m1-cG_7jn1-a1-m1-cH 7jn1-a1-m1-cG_7jn1-a1-m1-cL 7jn1-a1-m1-cH_7jn1-a1-m1-cI 7jn1-a1-m1-cI_7jn1-a1-m1-cJ 7jn1-a1-m1-cJ_7jn1-a1-m1-cK GDWSFLGRLLENAQEHSTVIGKVWLTVLFIFRILVLGAAAEEVWGDEQSDFTCNTQQPGCENVCYDRAFPISHVRFWVLQIIFVSTPTLIYLGHVLHLVRMEEKRIAGALLRTYVFNIIFKTLFEVGFIAGQYFLYGFQLKPLYRCDRWPCPNTVDCFISRPTEKTIFILFMLAVACVSLLLNVLEIYHLGW GDWSFLGRLLENAQEHSTVIGKVWLTVLFIFRILVLGAAAEEVWGDEQSDFTCNTQQPGCENVCYDRAFPISHVRFWVLQIIFVSTPTLIYLGHVLHLVRMEEKRIAGALLRTYVFNIIFKTLFEVGFIAGQYFLYGFQLKPLYRCDRWPCPNTVDCFISRPTEKTIFILFMLAVACVSLLLNVLEIYHLGW 7jn7-a1-m1-cC_7jn7-a1-m1-cB Human DPP9-CARD8 complex Q9Y2G2 Q9Y2G2 3.3 ELECTRON MICROSCOPY 43 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 127 272 7jkq-a1-m1-cC_7jkq-a1-m1-cB LIYYHPHPEDIKFHLYLVPSDALLTKAIDDEEDRFHGVRLQTSPPMEPLNFGSSYIVSNSANLKVMPKELKLSYRSPGEIQHFSKFYAGQMKEPIQLEITEKRHGTLVWDTEVKPVDLQLVAASAPP GNVDVELIDKSTNRYSVWFPTAGWYLWSATGLGFLVRDEVTVTIAFGSWSQHLALDLQHHEQWLVGGPLFDVTAEPEEAVAEIHLPHFISLQAGEVDVSWFLVAHFKNEGMVLEHPARVEPFYAVLESPSRIASGTRLSIPITSNTLIYYHPHPEDIKFHLYLVPSDALLTKAIDDEEDRFHGVRLQTSPPMEPLNFGSSYIVSNSANLKVMPKELKLSYRSPGEIQHFSKFYAGQMKEPIQLEITEKRHGTLVWDTEVKPVDLQLVAASAP 7joq-a3-m1-cX_7joq-a3-m1-cW Structure of NV1 small terminase A0A2L0HPR5 A0A2L0HPR5 3.95 X-RAY DIFFRACTION 101 1.0 2079543 (Pseudomonas phage NV1) 2079543 (Pseudomonas phage NV1) 105 106 7joq-a1-m1-cA_7joq-a1-m1-cI 7joq-a1-m1-cB_7joq-a1-m1-cA 7joq-a1-m1-cB_7joq-a1-m1-cC 7joq-a1-m1-cC_7joq-a1-m1-cD 7joq-a1-m1-cE_7joq-a1-m1-cD 7joq-a1-m1-cE_7joq-a1-m1-cF 7joq-a1-m1-cG_7joq-a1-m1-cF 7joq-a1-m1-cH_7joq-a1-m1-cG 7joq-a1-m1-cH_7joq-a1-m1-cI 7joq-a2-m1-cK_7joq-a2-m1-cJ 7joq-a2-m1-cL_7joq-a2-m1-cK 7joq-a2-m1-cL_7joq-a2-m1-cM 7joq-a2-m1-cM_7joq-a2-m1-cN 7joq-a2-m1-cO_7joq-a2-m1-cN 7joq-a2-m1-cO_7joq-a2-m1-cP 7joq-a2-m1-cP_7joq-a2-m1-cQ 7joq-a2-m1-cR_7joq-a2-m1-cJ 7joq-a2-m1-cR_7joq-a2-m1-cQ 7joq-a3-m1-ca_7joq-a3-m1-cS 7joq-a3-m1-ca_7joq-a3-m1-cZ 7joq-a3-m1-cT_7joq-a3-m1-cS 7joq-a3-m1-cU_7joq-a3-m1-cT 7joq-a3-m1-cU_7joq-a3-m1-cV 7joq-a3-m1-cV_7joq-a3-m1-cW 7joq-a3-m1-cX_7joq-a3-m1-cY 7joq-a3-m1-cY_7joq-a3-m1-cZ 7joq-a4-m1-cc_7joq-a4-m1-cb 7joq-a4-m1-cd_7joq-a4-m1-cc 7joq-a4-m1-cd_7joq-a4-m1-ce 7joq-a4-m1-ce_7joq-a4-m1-cf 7joq-a4-m1-cg_7joq-a4-m1-cf 7joq-a4-m1-cg_7joq-a4-m1-ch 7joq-a4-m1-ch_7joq-a4-m1-ci 7joq-a4-m1-cj_7joq-a4-m1-cb 7joq-a4-m1-cj_7joq-a4-m1-ci 7joq-a5-m1-cl_7joq-a5-m1-ck 7joq-a5-m1-cm_7joq-a5-m1-cl 7joq-a5-m1-cm_7joq-a5-m1-cn 7joq-a5-m1-cn_7joq-a5-m1-co 7joq-a5-m1-cp_7joq-a5-m1-co 7joq-a5-m1-cp_7joq-a5-m1-cq 7joq-a5-m1-cq_7joq-a5-m1-cr 7joq-a5-m1-cs_7joq-a5-m1-ck 7joq-a5-m1-cs_7joq-a5-m1-cr 7joq-a6-m1-c0_7joq-a6-m1-cz 7joq-a6-m1-c1_7joq-a6-m1-c0 7joq-a6-m1-c1_7joq-a6-m1-ct 7joq-a6-m1-cu_7joq-a6-m1-ct 7joq-a6-m1-cv_7joq-a6-m1-cu 7joq-a6-m1-cv_7joq-a6-m1-cw 7joq-a6-m1-cw_7joq-a6-m1-cx 7joq-a6-m1-cy_7joq-a6-m1-cx 7joq-a6-m1-cy_7joq-a6-m1-cz 7joq-a7-m1-c3_7joq-a7-m1-c2 7joq-a7-m1-c4_7joq-a7-m1-c3 7joq-a7-m1-c4_7joq-a7-m1-c5 7joq-a7-m1-c5_7joq-a7-m1-c6 7joq-a7-m1-c7_7joq-a7-m1-c6 7joq-a7-m1-c7_7joq-a7-m1-c8 7joq-a7-m1-c8_7joq-a7-m1-c9 7joq-a7-m1-cAA_7joq-a7-m1-c2 7joq-a7-m1-cAA_7joq-a7-m1-c9 7joq-a8-m1-cAC_7joq-a8-m1-cAB 7joq-a8-m1-cAD_7joq-a8-m1-cAC 7joq-a8-m1-cAD_7joq-a8-m1-cAE 7joq-a8-m1-cAE_7joq-a8-m1-cAF 7joq-a8-m1-cAG_7joq-a8-m1-cAF 7joq-a8-m1-cAG_7joq-a8-m1-cAH 7joq-a8-m1-cAH_7joq-a8-m1-cAI 7joq-a8-m1-cAJ_7joq-a8-m1-cAB 7joq-a8-m1-cAJ_7joq-a8-m1-cAI 7joq-a9-m1-cff_7joq-a9-m1-cee 7joq-a9-m1-cgg_7joq-a9-m1-cff 7joq-a9-m1-cgg_7joq-a9-m1-chh 7joq-a9-m1-chh_7joq-a9-m1-cii 7joq-a9-m1-cjj_7joq-a9-m1-cii 7joq-a9-m1-cjj_7joq-a9-m1-ckk 7joq-a9-m1-ckk_7joq-a9-m1-cll 7joq-a9-m1-cmm_7joq-a9-m1-cee 7joq-a9-m1-cmm_7joq-a9-m1-cll TPKEKLDLYCEALCDGFNKTQAYIKAGFSAPHAQRNVAPYHRKNAEYIQAYISERIGSDAPAARKVVLEIMNDPNEKGGIRLKAAQDILDRAGFGAKQKIELTTK LTPKEKLDLYCEALCDGFNKTQAYIKAGFSAPHAQRNVAPYHRKNAEYIQAYISERIGSDAPAARKVVLEIMNDPNEKGGIRLKAAQDILDRAGFGAKQKIELTTK 7jp2-a1-m1-cA_7jp2-a1-m1-cB Crystal structure of TP0037 from Treponema pallidum, a D-lactate dehydrogenase O83080 O83080 1.38 X-RAY DIFFRACTION 169 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 330 331 MRCVVFNLREEEAPYVEKWKQSHPGVVVDTYEEPLTAKNKELLKGYEGLVVMQFLAMEDEVYDYMGACKLKVLSTRTAGFDMYNATLLKKHGIRLTNVPSYSPNAIGEYALAAALQLTRHAREITFVRKRDFRWQKPILSKELRCSRVGILGTGRIGQAAARLFKGVGAQVVGFDPYPNDAAKEWLTYVSMDELLSTSDVISLHMPATKDSHHLINAKTIAQMKDGVYLVNTARGAVIDSQALLDSLDKGKIAGAALDAYEFEGPYIPKDNGNNPITDTVYARLVAHERIIYTPHIAFYTETAIENMVFNSLDACTTVLRGEPCAAEIKL MRCVVFNLREEEAPYVEKWKQSHPGVVVDTYEEPLTAKNKELLKGYEGLVVMQFLAMEDEVYDYMGACKLKVLSTRTAGFDMYNATLLKKHGIRLTNVPSYSPNAIGEYALAAALQLTRHAREIETFVRKRDFRWQKPILSKELRCSRVGILGTGRIGQAAARLFKGVGAQVVGFDPYPNDAAKEWLTYVSMDELLSTSDVISLHMPATKDSHHLINAKTIAQMKDGVYLVNTARGAVIDSQALLDSLDKGKIAGAALDAYEFEGPYIPKDNGNNPITDTVYARLVAHERIIYTPHIAFYTETAIENMVFNSLDACTTVLRGEPCAAEIKL 7jp3-a1-m1-cB_7jp3-a1-m1-cE Des-B29,B30-insulin P01308 P01308 1.95 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 49 49 1zei-a1-m1-cA_1zei-a1-m1-cD 1zei-a1-m1-cB_1zei-a1-m1-cE 3rov-a1-m1-cD_3rov-a1-m1-cJ 7jp3-a1-m1-cA_7jp3-a1-m1-cD 7jp3-a1-m1-cC_7jp3-a1-m1-cF FVNQHLCGSHLVEALYLVCGERGFFYTKGIVEQCCTSICSLYQLENYCN FVNQHLCGSHLVEALYLVCGERGFFYTKGIVEQCCTSICSLYQLENYCN 7jpj-a1-m1-cB_7jpj-a1-m1-cA Crystal Structure of the essential dimeric LYSA from Phaeodactylum tricornutum B7G3A2 B7G3A2 2.78 X-RAY DIFFRACTION 278 1.0 556484 (Phaeodactylum tricornutum CCAP 1055/1) 556484 (Phaeodactylum tricornutum CCAP 1055/1) 429 437 TNPLQSIFLTPETAKACIDAAGGTPLYAYSIDKLEEAADACLAFPNAYGLTVRYAMKACPNASILKYFHSKNIHVDASSGFEVRRAMDAGVPAENISLSTQELPEDFAALVDMGVKLNACSVSQLERFGEHYAGKGAKVGVRVNPGVGSGGSKTNVGGPSSSFGIWHELVTDGTVPDIVERYGLEVERIHTHIGSGSDPEIWQQVATKSLSFCKVFPTVKTMNLGGGYKVGRNKGEVTTDLQKIGKPVADAFKKFAEKEGRELQMEIEPGTYLVAMAGALVSKVQDKVHTTGENSHTFLKLDAGMTDVLRPSLYGAVHPITILPGSGNSADVGDETESVVVVGHCCESGDLMTPAPGEPEQLAEQELRAAAVGDILVMDGSGAYCSGMSTKNYNSFPEAPEVLVDKAGKAHLIRKRQTLSQIYENEISV TNPLQSIFLTPETAKACIDAAGGTPLYAYSIDKLEEAADACLAFPNAYGLTVRYAMKACPNASILKYFHSKNIHVDASSGFEVRRAMDAGVPAENISLSTQELPEDFAALVDMGVKLNACSVSQLERFGEHYAGKGAKVGVRVNPGVGSGGFSASTTGFSKTNVGGPSSSFGIWHELVTDGTVPDIVERYGLEVERIHTHIGSGSDPEIWQQVATKSLSFCKVFPTVKTMNLGGGYKVGRNKGEVTTDLQKIGKPVADAFKKFAEKEGRELQMEIEPGTYLVAMAGALVSKVQDKVHTTGENSHTFLKLDAGMTDVLRPSLYGAVHPITILPGSGNSADVGDETESVVVVGHCCESGDLMTPAPGEPEQLAEQELRAAAVGDILVMDGSGAYCSGMSTKNYNSFPEAPEVLVDKAGKAHLIRKRQTLSQIYENEISV 7jpu-a1-m1-cD_7jpu-a1-m1-cA Structure of an endocytic receptor O60449 O60449 5.0 ELECTRON MICROSCOPY 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1155 1156 7jpu-a1-m1-cB_7jpu-a1-m1-cC RAANDPFTIVHGNTGKCIKPVYGWIVADDCDETEDKLWKWVSQHRLFHLHSQKCLGLDITKSVNELRMFSCDSSAMLWWKCEHHSLYGAARYRLALKDGHGTAISNASDVWKKGGSEESLCDQPYHESYGRPCEFPFLIDGTWHHDCILDEDHSGPWCATTLNYEYDRKWGICLKQFNTQTALSWKEAYVSCQNQGADLLSINSAAELTYLKEKEGIAKIFWIGLNQLYSARGWEWSDHKPLNFLNWDPDRPSAPTIGGSSCARMDAESGLWQSFSCEAQLPYVCRDTRCDAGWLPNNGFCYLLVNESNSWDKAHAKCKFSSDLISIHSLADVEVVVTKLHNEDIKEEVWIGLKNINIPTLFQWSDGTEVTLTYWDENEPNVPYNKTPNCVSYLGELGQWKVQSCEEKLKYVCKRKKRHGETCYKIYEDEVPFGTNCNLTITSRFEQEYLNDLMKKYDKSLRKYFWTGLRDVDSCGEYNWATVGGRRRAVTFSNWNFLEPASPGGCVAMSTGKSVGKWEVKDCRSFKALSICKKCPEGWQSFPASLSCYKVFHAERIVRKRNWEEAERFCQALGAHLSSFSHVDEIKEFLHFLTDQFSGQHWLWIGLNKRSPDLQGSWQWSDRTPVSTIIMPNEFQQDYDIRDCAAVKVFHRPWRRGWHFYDDREFIYLRPFACDTKLELIIEGSEYWFVADLHLNYEEAVLYCASNHSFLATITSFVGLKAIKNKIANISGDGQKWWIRISEWPIDDHECLYMSAKTWLIDLGKPTDCSTKLPFICEPFQNKCFLKIKPVSLTFSQASDTCHSYGGTLPSVLSQIEQDFITSLLPDMEATLWIGLRWTAYEKINKWTDNRELTYSNFHPLLVSGRLRRYHCALILNLQKSPFTGTWNFTSCSERHFVSLCQKYVKYLNNLYKIIPKTLTWHSAKRECLKSNMQLVSITDPYQQAFLSVQALLHNSSLWIGLFSQDDELNFGWSDGKRLHFSRWAETNGQLEDCVVLDTDGFWKTVDCNDNQPGAICYYSIPFQNCCYNFIITKNRHMATTQDEVHTKCQKLNPKSHILSIRDEKENNFVLEQLLYFNYMASWVMLGITYRNKSLMWFDKTPLSYTHWRAGRPTIKNEKFLAGLSTDGFWDIQTFKVIEEAVYFHQHSILACKIE RAANDPFTIVHGNTGKCIKPVYGWIVADDCDETEDKLWKWVSQHRLFHLHSQKCLGLDITKSVNELRMFSCDSSAMLWWKCEHHSLYGAARYRLALKDGHGTAISNASDVWKKGGSEESLCDQPYHESYGRPCEFPFLIDGTWHHDCILDEDHSGPWCATTLNYEYDRKWGICLKQFNTQTALSWKEAYVSCQNQGADLLSINSAAELTYLKEKEGIAKIFWIGLNQLYSARGWEWSDHKPLNFLNWDPDRPSAPTIGGSSCARMDAESGLWQSFSCEAQLPYVCRDTRCDAGWLPNNGFCYLLVNESNSWDKAHAKCKFSSDLISIHSLADVEVVVTKLHNEDIKEEVWIGLKNINIPTLFQWSDGTEVTLTYWDENEPNVPYNKTPNCVSYLGELGQWKVQSCEEKLKYVCKRKKRHGETCYKIYEDEVPFGTNCNLTITSRFEQEYLNDLMKKYDKSLRKYFWTGLRDVDSCGEYNWATVGGRRRAVTFSNWNFLEPASPGGCVAMSTGKSVGKWEVKDCRSFKALSICKKCPEGWQSFPASLSCYKVFHAERIVRKRNWEEAERFCQALGAHLSSFSHVDEIKEFLHFLTDQFSGQHWLWIGLNKRSPDLQGSWQWSDRTPVSTIIMPNEFQQDYDIRDCAAVKVFHRPWRRGWHFYDDREFIYLRPFACDTKLELIIEGSEYWFVADLHLNYEEAVLYCASNHSFLATITSFVGLKAIKNKIANISGDGQKWWIRISEWPIDDHECLYMSAKTWLIDLGKPTDCSTKLPFICEPFQNKCFLKIKPVSLTFSQASDTCHSYGGTLPSVLSQIEQDFITSLLPDMEATLWIGLRWTAYEKINKWTDNRELTYSNFHPLLVSGRLRIRYHCALILNLQKSPFTGTWNFTSCSERHFVSLCQKYVKYLNNLYKIIPKTLTWHSAKRECLKSNMQLVSITDPYQQAFLSVQALLHNSSLWIGLFSQDDELNFGWSDGKRLHFSRWAETNGQLEDCVVLDTDGFWKTVDCNDNQPGAICYYSIPFQNCCYNFIITKNRHMATTQDEVHTKCQKLNPKSHILSIRDEKENNFVLEQLLYFNYMASWVMLGITYRNKSLMWFDKTPLSYTHWRAGRPTIKNEKFLAGLSTDGFWDIQTFKVIEEAVYFHQHSILACKIE 7jpu-a1-m1-cD_7jpu-a1-m1-cC Structure of an endocytic receptor O60449 O60449 5.0 ELECTRON MICROSCOPY 148 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1155 1156 7jpu-a1-m1-cA_7jpu-a1-m1-cB RAANDPFTIVHGNTGKCIKPVYGWIVADDCDETEDKLWKWVSQHRLFHLHSQKCLGLDITKSVNELRMFSCDSSAMLWWKCEHHSLYGAARYRLALKDGHGTAISNASDVWKKGGSEESLCDQPYHESYGRPCEFPFLIDGTWHHDCILDEDHSGPWCATTLNYEYDRKWGICLKQFNTQTALSWKEAYVSCQNQGADLLSINSAAELTYLKEKEGIAKIFWIGLNQLYSARGWEWSDHKPLNFLNWDPDRPSAPTIGGSSCARMDAESGLWQSFSCEAQLPYVCRDTRCDAGWLPNNGFCYLLVNESNSWDKAHAKCKFSSDLISIHSLADVEVVVTKLHNEDIKEEVWIGLKNINIPTLFQWSDGTEVTLTYWDENEPNVPYNKTPNCVSYLGELGQWKVQSCEEKLKYVCKRKKRHGETCYKIYEDEVPFGTNCNLTITSRFEQEYLNDLMKKYDKSLRKYFWTGLRDVDSCGEYNWATVGGRRRAVTFSNWNFLEPASPGGCVAMSTGKSVGKWEVKDCRSFKALSICKKCPEGWQSFPASLSCYKVFHAERIVRKRNWEEAERFCQALGAHLSSFSHVDEIKEFLHFLTDQFSGQHWLWIGLNKRSPDLQGSWQWSDRTPVSTIIMPNEFQQDYDIRDCAAVKVFHRPWRRGWHFYDDREFIYLRPFACDTKLELIIEGSEYWFVADLHLNYEEAVLYCASNHSFLATITSFVGLKAIKNKIANISGDGQKWWIRISEWPIDDHECLYMSAKTWLIDLGKPTDCSTKLPFICEPFQNKCFLKIKPVSLTFSQASDTCHSYGGTLPSVLSQIEQDFITSLLPDMEATLWIGLRWTAYEKINKWTDNRELTYSNFHPLLVSGRLRRYHCALILNLQKSPFTGTWNFTSCSERHFVSLCQKYVKYLNNLYKIIPKTLTWHSAKRECLKSNMQLVSITDPYQQAFLSVQALLHNSSLWIGLFSQDDELNFGWSDGKRLHFSRWAETNGQLEDCVVLDTDGFWKTVDCNDNQPGAICYYSIPFQNCCYNFIITKNRHMATTQDEVHTKCQKLNPKSHILSIRDEKENNFVLEQLLYFNYMASWVMLGITYRNKSLMWFDKTPLSYTHWRAGRPTIKNEKFLAGLSTDGFWDIQTFKVIEEAVYFHQHSILACKIE RAANDPFTIVHGNTGKCIKPVYGWIVADDCDETEDKLWKWVSQHRLFHLHSQKCLGLDITKSVNELRMFSCDSSAMLWWKCEHHSLYGAARYRLALKDGHGTAISNASDVWKKGGSEESLCDQPYHESYGRPCEFPFLIDGTWHHDCILDEDHSGPWCATTLNYEYDRKWGICLKQFNTQTALSWKEAYVSCQNQGADLLSINSAAELTYLKEKEGIAKIFWIGLNQLYSARGWEWSDHKPLNFLNWDPDRPSAPTIGGSSCARMDAESGLWQSFSCEAQLPYVCRDTRCDAGWLPNNGFCYLLVNESNSWDKAHAKCKFSSDLISIHSLADVEVVVTKLHNEDIKEEVWIGLKNINIPTLFQWSDGTEVTLTYWDENEPNVPYNKTPNCVSYLGELGQWKVQSCEEKLKYVCKRKKRHGETCYKIYEDEVPFGTNCNLTITSRFEQEYLNDLMKKYDKSLRKYFWTGLRDVDSCGEYNWATVGGRRRAVTFSNWNFLEPASPGGCVAMSTGKSVGKWEVKDCRSFKALSICKKCPEGWQSFPASLSCYKVFHAERIVRKRNWEEAERFCQALGAHLSSFSHVDEIKEFLHFLTDQFSGQHWLWIGLNKRSPDLQGSWQWSDRTPVSTIIMPNEFQQDYDIRDCAAVKVFHRPWRRGWHFYDDREFIYLRPFACDTKLELIIEGSEYWFVADLHLNYEEAVLYCASNHSFLATITSFVGLKAIKNKIANISGDGQKWWIRISEWPIDDHECLYMSAKTWLIDLGKPTDCSTKLPFICEPFQNKCFLKIKPVSLTFSQASDTCHSYGGTLPSVLSQIEQDFITSLLPDMEATLWIGLRWTAYEKINKWTDNRELTYSNFHPLLVSGRLRIRYHCALILNLQKSPFTGTWNFTSCSERHFVSLCQKYVKYLNNLYKIIPKTLTWHSAKRECLKSNMQLVSITDPYQQAFLSVQALLHNSSLWIGLFSQDDELNFGWSDGKRLHFSRWAETNGQLEDCVVLDTDGFWKTVDCNDNQPGAICYYSIPFQNCCYNFIITKNRHMATTQDEVHTKCQKLNPKSHILSIRDEKENNFVLEQLLYFNYMASWVMLGITYRNKSLMWFDKTPLSYTHWRAGRPTIKNEKFLAGLSTDGFWDIQTFKVIEEAVYFHQHSILACKIE 7jqe-a1-m1-cA_7jqe-a1-m2-cA Structure of an extracellular fragment of EsaA from Streptococcus gallolyticus F5WZF6 F5WZF6 2.4 X-RAY DIFFRACTION 296 1.0 981539 (Streptococcus gallolyticus subsp. gallolyticus ATCC 43143) 981539 (Streptococcus gallolyticus subsp. gallolyticus ATCC 43143) 351 351 TAYNEEVENYRSKVENARTELSDLLEEVKATRSKVSNQYFNSDLALDINSYFATTNQEERKLAIKIDLLNQVTDDSVKSALANQIQESLGGTLPSEYETEIASLGSVDVAASDYATLFSKLEEGATSDEVSDYQSKLALLGKYKSAKGVTTVSGATYSFLTAEDAKPEQSNVISVDVAPTSTKEDPTTVTISNVSGGTVVFADDNSVSKTISKAQSLKISYTFDSLSVGTHTITLDLNIGDNRIPTYTIYVTDTADDVSLVKDDLKTIFAQLSKIDTASAIQTLYGEPGQTDLSQIDITNPSANSVANYGNLTFDNIDGLDVTNFKESGVTLYTELTNEIIELQSTIDSLP TAYNEEVENYRSKVENARTELSDLLEEVKATRSKVSNQYFNSDLALDINSYFATTNQEERKLAIKIDLLNQVTDDSVKSALANQIQESLGGTLPSEYETEIASLGSVDVAASDYATLFSKLEEGATSDEVSDYQSKLALLGKYKSAKGVTTVSGATYSFLTAEDAKPEQSNVISVDVAPTSTKEDPTTVTISNVSGGTVVFADDNSVSKTISKAQSLKISYTFDSLSVGTHTITLDLNIGDNRIPTYTIYVTDTADDVSLVKDDLKTIFAQLSKIDTASAIQTLYGEPGQTDLSQIDITNPSANSVANYGNLTFDNIDGLDVTNFKESGVTLYTELTNEIIELQSTIDSLP 7jqp-a1-m1-cD_7jqp-a1-m1-cC The Phi-28 gp11 DNA packaging Motor B1ABI1 B1ABI1 2.89 X-RAY DIFFRACTION 108 1.0 503388 (Lactococcus phage asccphi28) 503388 (Lactococcus phage asccphi28) 353 354 7jq6-a1-m1-cB_7jq6-a1-m1-cA 7jq6-a1-m1-cC_7jq6-a1-m1-cB 7jq6-a1-m1-cC_7jq6-a1-m1-cD 7jq6-a1-m1-cE_7jq6-a1-m1-cA 7jq6-a1-m1-cE_7jq6-a1-m1-cD 7jq7-a1-m1-cB_7jq7-a1-m1-cA 7jq7-a1-m1-cB_7jq7-a1-m1-cC 7jq7-a1-m1-cD_7jq7-a1-m1-cC 7jq7-a1-m1-cD_7jq7-a1-m1-cE 7jq7-a1-m1-cE_7jq7-a1-m1-cA 7jqp-a1-m1-cB_7jqp-a1-m1-cA 7jqp-a1-m1-cB_7jqp-a1-m1-cC 7jqp-a1-m1-cD_7jqp-a1-m1-cE 7jqp-a1-m1-cE_7jqp-a1-m1-cA FWTPKRLLETDDRIFLVVGGRGVGKTFNVTGEALDDLFFNNVSVYLRRLGVEIDELEKNNFITEELRVYFGNRFSDFNADESKQIRFSIDGAIHEIKAIRNKIFFDDRCIVYFIALSRAGHVKSNNYPDVKYLVFDEVIIDRSIPNARYIRNEFTVLLNLIETIKRKREDFYLFLSNVGENFNPIFAGLGYYLTHEDIKKGFVKREDYCVQFVENKQEELNTDPFVRLGAKNRDFSNSKTNAFENIRTPYFKHYGKKPKLLVKYDRQYLGIAERKIPSGLEYYYQVYKTLDGLENITVFNNNFDTLEDEVFLEETQLKKKFKTYFELFQQNVYHESPETFLEWSKFVYALKLE EFWTPKRLLETDDRIFLVVGGRGVGKTFNVTGEALDDLFFNNVSVYLRRLGVEIDELEKNNFITEELRVYFGNRFSDFNADESKQIRFSIDGAIHEIKAIRNKIFFDDRCIVYFIALSRAGHVKSNNYPDVKYLVFDEVIIDRSIPNARYIRNEFTVLLNLIETIKRKREDFYLFLSNVGENFNPIFAGLGYYLTHEDIKKGFVKREDYCVQFVENKQEELNTDPFVRLGAKNRDFSNSKTNAFENIRTPYFKHYGKKPKLLVKYDRQYLGIAERKIPSGLEYYYQVYKTLDGLENITVFNNNFDTLEDEVFLEETQLKKKFKTYFELFQQNVYHESPETFLEWSKFVYALKLE 7jqq-a1-m1-cA_7jqq-a1-m1-cE The bacteriophage Phi-29 viral genome packaging motor assembly P11014 P11014 4.1 ELECTRON MICROSCOPY 70 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 327 327 SLFYNPQKMLSYDRILNFVIGARGIGKSYAMKVYPINRFIKYGEQFIYVRRYKPELAKVSNYFNDVAQEFPDHELVVKGRRFYIDGKLAGWAIPLSVWQSEKSNAYPNVSTIVFDEFIREKDNSNYIPNEVSALLNLMDTVFRNRERVRCICLSNAVSVVNPYFLFFNLVPDVNKRFNVYDDALIEIPDSLDFSSERRKTRFGRLIDGTEYGEMSLDNQFIGDSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMR SLFYNPQKMLSYDRILNFVIGARGIGKSYAMKVYPINRFIKYGEQFIYVRRYKPELAKVSNYFNDVAQEFPDHELVVKGRRFYIDGKLAGWAIPLSVWQSEKSNAYPNVSTIVFDEFIREKDNSNYIPNEVSALLNLMDTVFRNRERVRCICLSNAVSVVNPYFLFFNLVPDVNKRFNVYDDALIEIPDSLDFSSERRKTRFGRLIDGTEYGEMSLDNQFIGDSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMR 7jqq-a1-m1-cB_7jqq-a1-m1-cC The bacteriophage Phi-29 viral genome packaging motor assembly P11014 P11014 4.1 ELECTRON MICROSCOPY 82 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 327 327 7jqq-a1-m1-cA_7jqq-a1-m1-cB 7jqq-a1-m1-cC_7jqq-a1-m1-cD SLFYNPQKMLSYDRILNFVIGARGIGKSYAMKVYPINRFIKYGEQFIYVRRYKPELAKVSNYFNDVAQEFPDHELVVKGRRFYIDGKLAGWAIPLSVWQSEKSNAYPNVSTIVFDEFIREKDNSNYIPNEVSALLNLMDTVFRNRERVRCICLSNAVSVVNPYFLFFNLVPDVNKRFNVYDDALIEIPDSLDFSSERRKTRFGRLIDGTEYGEMSLDNQFIGDSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMR SLFYNPQKMLSYDRILNFVIGARGIGKSYAMKVYPINRFIKYGEQFIYVRRYKPELAKVSNYFNDVAQEFPDHELVVKGRRFYIDGKLAGWAIPLSVWQSEKSNAYPNVSTIVFDEFIREKDNSNYIPNEVSALLNLMDTVFRNRERVRCICLSNAVSVVNPYFLFFNLVPDVNKRFNVYDDALIEIPDSLDFSSERRKTRFGRLIDGTEYGEMSLDNQFIGDSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMR 7jqq-a1-m1-cD_7jqq-a1-m1-cE The bacteriophage Phi-29 viral genome packaging motor assembly P11014 P11014 4.1 ELECTRON MICROSCOPY 50 1.0 10756 (Salasvirus phi29) 10756 (Salasvirus phi29) 327 327 SLFYNPQKMLSYDRILNFVIGARGIGKSYAMKVYPINRFIKYGEQFIYVRRYKPELAKVSNYFNDVAQEFPDHELVVKGRRFYIDGKLAGWAIPLSVWQSEKSNAYPNVSTIVFDEFIREKDNSNYIPNEVSALLNLMDTVFRNRERVRCICLSNAVSVVNPYFLFFNLVPDVNKRFNVYDDALIEIPDSLDFSSERRKTRFGRLIDGTEYGEMSLDNQFIGDSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMR SLFYNPQKMLSYDRILNFVIGARGIGKSYAMKVYPINRFIKYGEQFIYVRRYKPELAKVSNYFNDVAQEFPDHELVVKGRRFYIDGKLAGWAIPLSVWQSEKSNAYPNVSTIVFDEFIREKDNSNYIPNEVSALLNLMDTVFRNRERVRCICLSNAVSVVNPYFLFFNLVPDVNKRFNVYDDALIEIPDSLDFSSERRKTRFGRLIDGTEYGEMSLDNQFIGDSQVFIEKRSKDSKFVFSIVYNGFTLGVWVDVNQGLMYIDTAHDPSTKNVYTLTTDDLNENMMLITNYKNNYHLRKLASAFMNGYLRFDNQVIRNIAYELFRKMR 7jqr-a1-m1-cA_7jqr-a1-m6-cA Abeta 16-36 beta-hairpin mimic with E22G Arctic mutation 2.07 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jqr-a1-m2-cA_7jqr-a1-m5-cA 7jqr-a1-m3-cA_7jqr-a1-m4-cA VKLVFAGAIIGLM VKLVFAGAIIGLM 7jqs-a1-m1-cA_7jqs-a1-m6-cA Abeta 16-36 beta-hairpin mimic with E22delta Osaka mutation 2.127 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jqs-a1-m2-cA_7jqs-a1-m5-cA 7jqs-a1-m3-cA_7jqs-a1-m4-cA VKLVFADAIIGLM VKLVFADAIIGLM 7jqt-a1-m3-cA_7jqt-a1-m6-cA Abeta 16-36 beta-hairpin mimic with E22K Italian mutation 2.08 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jqt-a1-m1-cA_7jqt-a1-m5-cA 7jqt-a1-m2-cA_7jqt-a1-m4-cA VKLVFAKAIIGLM VKLVFAKAIIGLM 7jqu-a1-m1-cA_7jqu-a1-m2-cC Abeta 16-36 beta-hairpin mimic with E22G Arctic mutation 2.611 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jqu-a1-m1-cB_7jqu-a1-m2-cB 7jqu-a1-m1-cC_7jqu-a1-m2-cA VKLVFAQAIIGLM VKLVFAQAIIGLM 7jqy-a2-m1-cH_7jqy-a2-m5-cH Crystal structure of Cfl1-D123S from Burkholderia cenocepacia B4EJL9 B4EJL9 2.15 X-RAY DIFFRACTION 45 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 294 294 7jqx-a1-m1-cA_7jqx-a1-m6-cC 7jqx-a1-m1-cC_7jqx-a1-m4-cA 7jqx-a1-m2-cA_7jqx-a1-m4-cC 7jqx-a1-m2-cC_7jqx-a1-m6-cA 7jqx-a2-m1-cB_7jqx-a2-m5-cD 7jqx-a2-m1-cD_7jqx-a2-m7-cB 7jqx-a2-m3-cB_7jqx-a2-m7-cD 7jqx-a2-m3-cD_7jqx-a2-m5-cB 7jqy-a1-m1-cA_7jqy-a1-m2-cG 7jqy-a1-m1-cB_7jqy-a1-m7-cE 7jqy-a1-m3-cA_7jqy-a1-m4-cG 7jqy-a1-m3-cB_7jqy-a1-m6-cE 7jqy-a2-m1-cC_7jqy-a2-m1-cF 7jqy-a2-m1-cD_7jqy-a2-m5-cD 7jqy-a2-m5-cC_7jqy-a2-m5-cF PGMPAPGLPAGFERRFSRRYAQLDDVRLHYVTGGPDDGEMVVLLHGWPQTWYTWRHVMPALAEDGYRVVAVDYRGAGESDKPLGGYDKASMAGDIRALVHQLGATRIHLVGRSIGVMVAYAYAAQWPTEIVKLAMLDVPVPGTRIWDEAKASADPQIWHFGLHQQRDIAEMLIAGKERAYILDFYKKRTHVALSNDDIAVYADAYAAPGALRAGFELYRAFPQDETRFKAFMKHKLPMPVLALAGDKSNGAKELDMARELALDVRGAVAPNTGHWLPDENPAFLTRQLLDFFRE PGMPAPGLPAGFERRFSRRYAQLDDVRLHYVTGGPDDGEMVVLLHGWPQTWYTWRHVMPALAEDGYRVVAVDYRGAGESDKPLGGYDKASMAGDIRALVHQLGATRIHLVGRSIGVMVAYAYAAQWPTEIVKLAMLDVPVPGTRIWDEAKASADPQIWHFGLHQQRDIAEMLIAGKERAYILDFYKKRTHVALSNDDIAVYADAYAAPGALRAGFELYRAFPQDETRFKAFMKHKLPMPVLALAGDKSNGAKELDMARELALDVRGAVAPNTGHWLPDENPAFLTRQLLDFFRE 7jqy-a2-m5-cF_7jqy-a2-m1-cD Crystal structure of Cfl1-D123S from Burkholderia cenocepacia B4EJL9 B4EJL9 2.15 X-RAY DIFFRACTION 33 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 293 294 7jqx-a1-m1-cA_7jqx-a1-m4-cA 7jqx-a1-m1-cA_7jqx-a1-m6-cA 7jqx-a1-m1-cC_7jqx-a1-m4-cC 7jqx-a1-m1-cC_7jqx-a1-m6-cC 7jqx-a1-m2-cA_7jqx-a1-m4-cA 7jqx-a1-m2-cA_7jqx-a1-m6-cA 7jqx-a1-m2-cC_7jqx-a1-m4-cC 7jqx-a1-m2-cC_7jqx-a1-m6-cC 7jqx-a2-m1-cB_7jqx-a2-m5-cB 7jqx-a2-m1-cB_7jqx-a2-m7-cB 7jqx-a2-m1-cD_7jqx-a2-m5-cD 7jqx-a2-m1-cD_7jqx-a2-m7-cD 7jqx-a2-m3-cB_7jqx-a2-m5-cB 7jqx-a2-m3-cB_7jqx-a2-m7-cB 7jqx-a2-m3-cD_7jqx-a2-m5-cD 7jqx-a2-m3-cD_7jqx-a2-m7-cD 7jqy-a1-m1-cA_7jqy-a1-m1-cB 7jqy-a1-m1-cA_7jqy-a1-m3-cB 7jqy-a1-m2-cG_7jqy-a1-m6-cE 7jqy-a1-m2-cG_7jqy-a1-m7-cE 7jqy-a1-m3-cA_7jqy-a1-m1-cB 7jqy-a1-m3-cA_7jqy-a1-m3-cB 7jqy-a1-m4-cG_7jqy-a1-m6-cE 7jqy-a1-m4-cG_7jqy-a1-m7-cE 7jqy-a2-m1-cC_7jqy-a2-m1-cD 7jqy-a2-m1-cC_7jqy-a2-m1-cH 7jqy-a2-m1-cF_7jqy-a2-m5-cD 7jqy-a2-m1-cF_7jqy-a2-m5-cH 7jqy-a2-m5-cC_7jqy-a2-m5-cD 7jqy-a2-m5-cC_7jqy-a2-m5-cH 7jqy-a2-m5-cF_7jqy-a2-m1-cH PGMPAPGLPAGFERRFSRRYAQLDDVRLHYVTGGPDDGEMVVLLHGWPQTWYTWRHVMPALAEDGYRVVAVDYRGAGESDKPLGGYDKASMAGDIRALVHQLGATRIHLVGRSIGVMVAYAYAAQWPTEIVKLAMLDVPVPGTRIWDEAKASADPQIWHFGLHQQRDIAEMLIAGKERAYILDFYKKRTHVALSNDDIAVYADAYAAPGALRAGFELYRAFPQDETRFKAFMKHKLPMPVLALAGDKSNGAKELDMARELALDVRGAVAPNTGHWLPDENPAFLTRQLLDFFR PGMPAPGLPAGFERRFSRRYAQLDDVRLHYVTGGPDDGEMVVLLHGWPQTWYTWRHVMPALAEDGYRVVAVDYRGAGESDKPLGGYDKASMAGDIRALVHQLGATRIHLVGRSIGVMVAYAYAAQWPTEIVKLAMLDVPVPGTRIWDEAKASADPQIWHFGLHQQRDIAEMLIAGKERAYILDFYKKRTHVALSNDDIAVYADAYAAPGALRAGFELYRAFPQDETRFKAFMKHKLPMPVLALAGDKSNGAKELDMARELALDVRGAVAPNTGHWLPDENPAFLTRQLLDFFRE 7jqy-a2-m5-cF_7jqy-a2-m5-cH Crystal structure of Cfl1-D123S from Burkholderia cenocepacia B4EJL9 B4EJL9 2.15 X-RAY DIFFRACTION 25 1.0 216591 (Burkholderia cenocepacia J2315) 216591 (Burkholderia cenocepacia J2315) 293 294 7jqx-a1-m1-cA_7jqx-a1-m1-cC 7jqx-a1-m2-cA_7jqx-a1-m2-cC 7jqx-a1-m4-cA_7jqx-a1-m4-cC 7jqx-a1-m6-cA_7jqx-a1-m6-cC 7jqx-a2-m1-cB_7jqx-a2-m1-cD 7jqx-a2-m3-cB_7jqx-a2-m3-cD 7jqx-a2-m5-cB_7jqx-a2-m5-cD 7jqx-a2-m7-cB_7jqx-a2-m7-cD 7jqy-a1-m1-cA_7jqy-a1-m7-cE 7jqy-a1-m2-cG_7jqy-a1-m3-cB 7jqy-a1-m3-cA_7jqy-a1-m6-cE 7jqy-a1-m4-cG_7jqy-a1-m1-cB 7jqy-a2-m1-cC_7jqy-a2-m5-cD 7jqy-a2-m1-cF_7jqy-a2-m1-cH 7jqy-a2-m5-cC_7jqy-a2-m1-cD PGMPAPGLPAGFERRFSRRYAQLDDVRLHYVTGGPDDGEMVVLLHGWPQTWYTWRHVMPALAEDGYRVVAVDYRGAGESDKPLGGYDKASMAGDIRALVHQLGATRIHLVGRSIGVMVAYAYAAQWPTEIVKLAMLDVPVPGTRIWDEAKASADPQIWHFGLHQQRDIAEMLIAGKERAYILDFYKKRTHVALSNDDIAVYADAYAAPGALRAGFELYRAFPQDETRFKAFMKHKLPMPVLALAGDKSNGAKELDMARELALDVRGAVAPNTGHWLPDENPAFLTRQLLDFFR PGMPAPGLPAGFERRFSRRYAQLDDVRLHYVTGGPDDGEMVVLLHGWPQTWYTWRHVMPALAEDGYRVVAVDYRGAGESDKPLGGYDKASMAGDIRALVHQLGATRIHLVGRSIGVMVAYAYAAQWPTEIVKLAMLDVPVPGTRIWDEAKASADPQIWHFGLHQQRDIAEMLIAGKERAYILDFYKKRTHVALSNDDIAVYADAYAAPGALRAGFELYRAFPQDETRFKAFMKHKLPMPVLALAGDKSNGAKELDMARELALDVRGAVAPNTGHWLPDENPAFLTRQLLDFFRE 7jqz-a1-m1-cB_7jqz-a1-m1-cJ Crystal structure of Cfl2 wild-type from Burkholderia cenocepacia B1K378 B1K378 2.2 X-RAY DIFFRACTION 25 1.0 406425 (Burkholderia orbicola MC0-3) 406425 (Burkholderia orbicola MC0-3) 294 294 7jqz-a1-m1-cA_7jqz-a1-m1-cC 7jqz-a1-m1-cD_7jqz-a1-m1-cE 7jqz-a1-m1-cF_7jqz-a1-m1-cH 7jqz-a1-m1-cG_7jqz-a1-m1-cI TPYFREDPRLTGFRHRFDTVDGVRLHFVEGGRADGETIVLLAGFPESWYAWRRVMPLLADEFRIVAPDLPGQGDSDRPLVGYDTQTVAATLARLLERQNIARFYLAAHDVGAWVAYPFAAMYPESVKRLALLDAGIPGVTLPAALPIEPGNAWRTWHFAFHTVADLPETLIAGKEREYLDWFLRRKAANPESFSDADVDEYLRVFTRDGGLRAGLAFYRAVSESSAQNRKLQALGKLKMPVLAVSADQGSIPDMAGPLEHVAEEVTAATIAYSGHFIPEEQPQALARELRDFFR TPYFREDPRLTGFRHRFDTVDGVRLHFVEGGRADGETIVLLAGFPESWYAWRRVMPLLADEFRIVAPDLPGQGDSDRPLVGYDTQTVAATLARLLERQNIARFYLAAHDVGAWVAYPFAAMYPESVKRLALLDAGIPGVTLPAALPIEPGNAWRTWHFAFHTVADLPETLIAGKEREYLDWFLRRKAANPESFSDADVDEYLRVFTRDGGLRAGLAFYRAVSESSAQNRKLQALGKLKMPVLAVSADQGSIPDMAGPLEHVAEEVTAATIAYSGHFIPEEQPQALARELRDFFR 7jqz-a1-m1-cG_7jqz-a1-m1-cJ Crystal structure of Cfl2 wild-type from Burkholderia cenocepacia B1K378 B1K378 2.2 X-RAY DIFFRACTION 28 1.0 406425 (Burkholderia orbicola MC0-3) 406425 (Burkholderia orbicola MC0-3) 294 294 7jqz-a1-m1-cA_7jqz-a1-m1-cD 7jqz-a1-m1-cA_7jqz-a1-m1-cJ 7jqz-a1-m1-cB_7jqz-a1-m1-cC 7jqz-a1-m1-cB_7jqz-a1-m1-cI 7jqz-a1-m1-cC_7jqz-a1-m1-cE 7jqz-a1-m1-cE_7jqz-a1-m1-cH 7jqz-a1-m1-cF_7jqz-a1-m1-cD 7jqz-a1-m1-cF_7jqz-a1-m1-cG 7jqz-a1-m1-cH_7jqz-a1-m1-cI TPYFREDPRLTGFRHRFDTVDGVRLHFVEGGRADGETIVLLAGFPESWYAWRRVMPLLADEFRIVAPDLPGQGDSDRPLVGYDTQTVAATLARLLERQNIARFYLAAHDVGAWVAYPFAAMYPESVKRLALLDAGIPGVTLPAALPIEPGNAWRTWHFAFHTVADLPETLIAGKEREYLDWFLRRKAANPESFSDADVDEYLRVFTRDGGLRAGLAFYRAVSESSAQNRKLQALGKLKMPVLAVSADQGSIPDMAGPLEHVAEEVTAATIAYSGHFIPEEQPQALARELRDFFR TPYFREDPRLTGFRHRFDTVDGVRLHFVEGGRADGETIVLLAGFPESWYAWRRVMPLLADEFRIVAPDLPGQGDSDRPLVGYDTQTVAATLARLLERQNIARFYLAAHDVGAWVAYPFAAMYPESVKRLALLDAGIPGVTLPAALPIEPGNAWRTWHFAFHTVADLPETLIAGKEREYLDWFLRRKAANPESFSDADVDEYLRVFTRDGGLRAGLAFYRAVSESSAQNRKLQALGKLKMPVLAVSADQGSIPDMAGPLEHVAEEVTAATIAYSGHFIPEEQPQALARELRDFFR 7jqz-a1-m1-cI_7jqz-a1-m1-cJ Crystal structure of Cfl2 wild-type from Burkholderia cenocepacia B1K378 B1K378 2.2 X-RAY DIFFRACTION 103 1.0 406425 (Burkholderia orbicola MC0-3) 406425 (Burkholderia orbicola MC0-3) 294 294 7jqz-a1-m1-cA_7jqz-a1-m1-cB 7jqz-a1-m1-cC_7jqz-a1-m1-cD 7jqz-a1-m1-cF_7jqz-a1-m1-cE 7jqz-a1-m1-cG_7jqz-a1-m1-cH TPYFREDPRLTGFRHRFDTVDGVRLHFVEGGRADGETIVLLAGFPESWYAWRRVMPLLADEFRIVAPDLPGQGDSDRPLVGYDTQTVAATLARLLERQNIARFYLAAHDVGAWVAYPFAAMYPESVKRLALLDAGIPGVTLPAALPIEPGNAWRTWHFAFHTVADLPETLIAGKEREYLDWFLRRKAANPESFSDADVDEYLRVFTRDGGLRAGLAFYRAVSESSAQNRKLQALGKLKMPVLAVSADQGSIPDMAGPLEHVAEEVTAATIAYSGHFIPEEQPQALARELRDFFR TPYFREDPRLTGFRHRFDTVDGVRLHFVEGGRADGETIVLLAGFPESWYAWRRVMPLLADEFRIVAPDLPGQGDSDRPLVGYDTQTVAATLARLLERQNIARFYLAAHDVGAWVAYPFAAMYPESVKRLALLDAGIPGVTLPAALPIEPGNAWRTWHFAFHTVADLPETLIAGKEREYLDWFLRRKAANPESFSDADVDEYLRVFTRDGGLRAGLAFYRAVSESSAQNRKLQALGKLKMPVLAVSADQGSIPDMAGPLEHVAEEVTAATIAYSGHFIPEEQPQALARELRDFFR 7jre-a2-m1-cC_7jre-a2-m1-cD Crystal structure of EV-D68 2A protease C107A mutant Q68T42 Q68T42 2.5 X-RAY DIFFRACTION 64 0.993 42789 (enterovirus D68) 42789 (enterovirus D68) 139 139 7jre-a1-m1-cB_7jre-a1-m1-cA 7jre-a3-m1-cF_7jre-a3-m1-cE GFGGVFVGSFKIINYHLATIEERQSAIYVDWQSDVLVTPIAAHGRHQIARCKCNTGVYYCRHRDKSYPVCFEGPGIQWIEQNEYYPARYQTNVLLAAGPAEAGDAGGLLVCPHGVIGLLTAGGGGIVAFTDIRNLLWLD FGGVFVGSFKIINYHLATIEERQSAIYVDWQSDVLVTPIAAHGRHQIARCKCNTGVYYCRHRDKSYPVCFEGPGIQWIEQNEYYPARYQTNVLLAAGPAEAGDAGGLLVCPHGVIGLLTAGGGGIVAFTDIRNLLWLDT 7jrk-a1-m1-cA_7jrk-a1-m1-cB The Structure of BamE from Pseudomonas aeruginosa O68562 O68562 1.71 X-RAY DIFFRACTION 238 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 88 88 IDIQQGNVVTQDMIDQLRPGMTRRQVRFIMGNPLIVDTFHANRWDYLYSIQPGGGRRQQERVSLFFNDSDQLAGLNGDFMPGVSRDEA IDIQQGNVVTQDMIDQLRPGMTRRQVRFIMGNPLIVDTFHANRWDYLYSIQPGGGRRQQERVSLFFNDSDQLAGLNGDFMPGVSRDEA 7jrp-a1-m1-cN_7jrp-a1-m1-cB Plant Mitochondrial complex SC III2+IV from Vigna radiata A0A1S3VF71 A0A1S3VF71 3.8 ELECTRON MICROSCOPY 17 1.0 3916 (Vigna radiata var. radiata) 3916 (Vigna radiata var. radiata) 455 457 7jrg-a1-m1-cN_7jrg-a1-m1-cB SSLPSLDIPLGGVVLPDPLPDSVEQSKTKITTLSNGLKIASETSPNPAASIGLYLDCGSIYETPFSSGASHLLERMAFKSTTNRSHFRIVREVEAIGGNIGASASREQMGYTFDALKTYVPQMVELLVDCVRNPAFLDWEVNEELRKVKAELGELSNNPQGLLLEAIHSAGYSGALAYPLLAPEAALNRLDGPSLEEFVAENYTAPRMVLAAAGVEHEELVSIAEPLLSDLPNVPRPDEPKSVYVGGDFRRHGESGGTHVALAFEVPGGWHKEKDAIVLTVLQMLMGGGGSFSAGGPGKGMHSRLYLRVLNEYQQIQSFSAFNSIFNNTGLFGIYASTSPDFAPKAVDIAAKELIAIASPGQVTQVQLDRAKKSTKSAVLMNLESRMIASEDIGRQILTYGERKPLEQFLKAVDEITLNDITKISQKIISSPLTMASYGDVLSVPSYESVNRKFH SSLPSLDIPLGGVVLPDPLPDSVEQSKTKITTLSNGLKIASETSPNPAASIGLYLDCGSIYETPFSSGASHLLERMAFKSTTNRSHFRIVREVEAIGGNIGASASREQMGYTFDALKTYVPQMVELLVDCVRNPAFLDWEVNEELRKVKAELGELSNNPQGLLLEAIHSAGYSGALAYPLLAPEAALNRLDGPSLEEFVAENYTAPRMVLAAAGVEHEELVSIAEPLLSDLPNVPRPDEPKSVYVGGDFRRHGESGGTHVALAFEVPGGWHKEKDAIVLTVLQMLMGGGGSFSAGGPGKGMHSRLYLRVLNEYQQIQSFSAFNSIFNNTGLFGIYASTSPDFAPKAVDIAAKELIAIASPGQVTQVQLDRAKKSTKSAVLMNLESRMIASEDIGRQILTYGERKPLEQFLKAVDEITLNDITKISQKIISSPLTMASYGDVLSVPSYESVNRKFHAK 7js3-a1-m1-cA_7js3-a1-m1-cD Structure of the Class II Fructose-1,6-Bisphophatase from Francisella tularensis Q5NEJ8 Q5NEJ8 2.4 X-RAY DIFFRACTION 86 1.0 263 (Francisella tularensis) 263 (Francisella tularensis) 325 325 7js3-a1-m1-cB_7js3-a1-m1-cC KVALEAVRVTELAALASWSQMGRGDKIAADQAAVDAMRKALNEVDIDGTVVIGEGELDEAPMLYIGEKVGAGGCEVDIALDPLEGTTITSKGGANALTVLAMADKGGFLNAPDVYMQKIAVGGINAPKGIVDLDDSVTNNLKRIAEFKGVHMSALVVCTMDRPRHEHIIKEARECGARVILINDGDVSGVIATATENSGIDVYIGTGGAPEGVLAAAALKCLGGQMQARLIFNDEEEIKRAHRLGITDLNKKYDIDDLASGDIVFAATGVTDGNMLQGVKRVNSTRRGSYAVTHSVVMRSTTKTVRHITAEHSFDFKEGIEKFMS KVALEAVRVTELAALASWSQMGRGDKIAADQAAVDAMRKALNEVDIDGTVVIGEGELDEAPMLYIGEKVGAGGCEVDIALDPLEGTTITSKGGANALTVLAMADKGGFLNAPDVYMQKIAVGGINAPKGIVDLDDSVTNNLKRIAEFKGVHMSALVVCTMDRPRHEHIIKEARECGARVILINDGDVSGVIATATENSGIDVYIGTGGAPEGVLAAAALKCLGGQMQARLIFNDEEEIKRAHRLGITDLNKKYDIDDLASGDIVFAATGVTDGNMLQGVKRVNSTRRGSYAVTHSVVMRSTTKTVRHITAEHSFDFKEGIEKFMS 7js3-a1-m1-cC_7js3-a1-m1-cD Structure of the Class II Fructose-1,6-Bisphophatase from Francisella tularensis Q5NEJ8 Q5NEJ8 2.4 X-RAY DIFFRACTION 98 1.0 263 (Francisella tularensis) 263 (Francisella tularensis) 325 325 7js3-a1-m1-cA_7js3-a1-m1-cB KVALEAVRVTELAALASWSQMGRGDKIAADQAAVDAMRKALNEVDIDGTVVIGEGELDEAPMLYIGEKVGAGGCEVDIALDPLEGTTITSKGGANALTVLAMADKGGFLNAPDVYMQKIAVGGINAPKGIVDLDDSVTNNLKRIAEFKGVHMSALVVCTMDRPRHEHIIKEARECGARVILINDGDVSGVIATATENSGIDVYIGTGGAPEGVLAAAALKCLGGQMQARLIFNDEEEIKRAHRLGITDLNKKYDIDDLASGDIVFAATGVTDGNMLQGVKRVNSTRRGSYAVTHSVVMRSTTKTVRHITAEHSFDFKEGIEKFMS KVALEAVRVTELAALASWSQMGRGDKIAADQAAVDAMRKALNEVDIDGTVVIGEGELDEAPMLYIGEKVGAGGCEVDIALDPLEGTTITSKGGANALTVLAMADKGGFLNAPDVYMQKIAVGGINAPKGIVDLDDSVTNNLKRIAEFKGVHMSALVVCTMDRPRHEHIIKEARECGARVILINDGDVSGVIATATENSGIDVYIGTGGAPEGVLAAAALKCLGGQMQARLIFNDEEEIKRAHRLGITDLNKKYDIDDLASGDIVFAATGVTDGNMLQGVKRVNSTRRGSYAVTHSVVMRSTTKTVRHITAEHSFDFKEGIEKFMS 7jsf-a1-m1-cF_7jsf-a1-m1-cG Adeno-Associated Virus Helicase domain Heptamer with ssDNA P03132 P03132 6.7 ELECTRON MICROSCOPY 27 1.0 10804 (adeno-associated virus 2) 10804 (adeno-associated virus 2) 276 276 7jsf-a1-m1-cA_7jsf-a1-m1-cB 7jsf-a1-m1-cA_7jsf-a1-m1-cG 7jsf-a1-m1-cB_7jsf-a1-m1-cC 7jsf-a1-m1-cC_7jsf-a1-m1-cD 7jsf-a1-m1-cD_7jsf-a1-m1-cE 7jsf-a1-m1-cE_7jsf-a1-m1-cF VIRSKTSARYMELVGWLVDKGITSEKQWIQEDQASYISFNAASNSRSQIKAALDNAGKIMSLTKTAPDYLVGQQPVEDISSNRIYKILELNGYDPQYAASVFLGWATKKFGKRNTIWLFGPATTGKTNIAEAIAHTVPFYGCVNWTNENFPFNDCVDKMVIWWEEGKMTAKVVESAKAILGGSKVRVDQKCKSSAQIDPTPVIVTSNTNMCAVIDGNSTTFEHQQPLQDRMFKFELTRRLDHDFGKVTKQEVKDFFRWAKDHVVEVEHEFYVKKGG VIRSKTSARYMELVGWLVDKGITSEKQWIQEDQASYISFNAASNSRSQIKAALDNAGKIMSLTKTAPDYLVGQQPVEDISSNRIYKILELNGYDPQYAASVFLGWATKKFGKRNTIWLFGPATTGKTNIAEAIAHTVPFYGCVNWTNENFPFNDCVDKMVIWWEEGKMTAKVVESAKAILGGSKVRVDQKCKSSAQIDPTPVIVTSNTNMCAVIDGNSTTFEHQQPLQDRMFKFELTRRLDHDFGKVTKQEVKDFFRWAKDHVVEVEHEFYVKKGG 7jsi-a1-m1-cC_7jsi-a1-m1-cD Adeno-Associated Virus 2 Rep68 HD Hexamer-ssDNA with ATPgS P03132 P03132 5.01 ELECTRON MICROSCOPY 58 1.0 10804 (adeno-associated virus 2) 10804 (adeno-associated virus 2) 276 276 7jsg-a1-m1-cA_7jsg-a1-m1-cB 7jsg-a1-m1-cA_7jsg-a1-m1-cG 7jsg-a1-m1-cB_7jsg-a1-m1-cC 7jsg-a1-m1-cC_7jsg-a1-m1-cD 7jsg-a1-m1-cD_7jsg-a1-m1-cE 7jsg-a1-m1-cE_7jsg-a1-m1-cF 7jsg-a1-m1-cF_7jsg-a1-m1-cG 7jsh-a1-m1-cA_7jsh-a1-m1-cB 7jsh-a1-m1-cA_7jsh-a1-m1-cG 7jsh-a1-m1-cB_7jsh-a1-m1-cC 7jsh-a1-m1-cC_7jsh-a1-m1-cD 7jsh-a1-m1-cD_7jsh-a1-m1-cE 7jsh-a1-m1-cE_7jsh-a1-m1-cF 7jsh-a1-m1-cF_7jsh-a1-m1-cG 7jsi-a1-m1-cA_7jsi-a1-m1-cB 7jsi-a1-m1-cA_7jsi-a1-m1-cF 7jsi-a1-m1-cB_7jsi-a1-m1-cC 7jsi-a1-m1-cD_7jsi-a1-m1-cE 7jsi-a1-m1-cE_7jsi-a1-m1-cF VIRSKTSARYMELVGWLVDKGITSEKQWIQEDQASYISFNAASNSRSQIKAALDNAGKIMSLTKTAPDYLVGQQPVEDISSNRIYKILELNGYDPQYAASVFLGWATKKFGKRNTIWLFGPATTGKTNIAEAIAHTVPFYGCVNWTNENFPFNDCVDKMVIWWEEGKMTAKVVESAKAILGGSKVRVDQKCKSSAQIDPTPVIVTSNTNMCAVIDGNSTTFEHQQPLQDRMFKFELTRRLDHDFGKVTKQEVKDFFRWAKDHVVEVEHEFYVKKGG VIRSKTSARYMELVGWLVDKGITSEKQWIQEDQASYISFNAASNSRSQIKAALDNAGKIMSLTKTAPDYLVGQQPVEDISSNRIYKILELNGYDPQYAASVFLGWATKKFGKRNTIWLFGPATTGKTNIAEAIAHTVPFYGCVNWTNENFPFNDCVDKMVIWWEEGKMTAKVVESAKAILGGSKVRVDQKCKSSAQIDPTPVIVTSNTNMCAVIDGNSTTFEHQQPLQDRMFKFELTRRLDHDFGKVTKQEVKDFFRWAKDHVVEVEHEFYVKKGG 7jsk-a1-m1-cA_7jsk-a1-m1-cB Structure of the NaCT-Citrate complex Q86YT5 Q86YT5 3.04 ELECTRON MICROSCOPY 145 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 468 468 7jsj-a1-m1-cA_7jsj-a1-m1-cB SFVILFVTPLLLLPLVILMPAKFVRCAYVIILMAIYWCTEVIPLAVTSLMPVLLFPLFQILDSRQVCVQYMKDTNMLFLGGLIVAVAVERWNLHKRIALRTLLWVGAKPARLMLGFMGVTALLSMWISNTATTAMMVPIVEAILQQRKRLCKAMTLCICYAASIGGTATLTGTGPNVVLLGQMNELFPDSKDLVNFASWFAFAFPNMLVMLLFAWLWLQFVYMRSKKNEKAALKVLQEEYRKLGPLSFAEINVLICFFLLVILWFSRDPETKYVSDATVAIFVATLLFIVPSQKPKFYPPPLLDWKVTQEKVPWGIVLLLGGGFALAKGSEASGLSVWMGKQMEPLHAVPPAAITLILSLLVAVFTECTSNVATTTLFLPIFASMSRSIGLNPLYIMLPCTLSASFAFMLPVATPPNAIVFTYGHLKVADMVKTGVIMNIIGVFCVFLAVNTWGRAIFDLDHFPDWAN SFVILFVTPLLLLPLVILMPAKFVRCAYVIILMAIYWCTEVIPLAVTSLMPVLLFPLFQILDSRQVCVQYMKDTNMLFLGGLIVAVAVERWNLHKRIALRTLLWVGAKPARLMLGFMGVTALLSMWISNTATTAMMVPIVEAILQQRKRLCKAMTLCICYAASIGGTATLTGTGPNVVLLGQMNELFPDSKDLVNFASWFAFAFPNMLVMLLFAWLWLQFVYMRSKKNEKAALKVLQEEYRKLGPLSFAEINVLICFFLLVILWFSRDPETKYVSDATVAIFVATLLFIVPSQKPKFYPPPLLDWKVTQEKVPWGIVLLLGGGFALAKGSEASGLSVWMGKQMEPLHAVPPAAITLILSLLVAVFTECTSNVATTTLFLPIFASMSRSIGLNPLYIMLPCTLSASFAFMLPVATPPNAIVFTYGHLKVADMVKTGVIMNIIGVFCVFLAVNTWGRAIFDLDHFPDWAN 7jsr-a1-m2-cB_7jsr-a1-m1-cA Crystal structure of the large glutamate dehydrogenase composed of 180 kDa subunits from Mycobacterium smegmatis A0R1C2 A0R1C2 6.27 X-RAY DIFFRACTION 46 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 1452 1471 7a1d-a1-m1-cA_7a1d-a1-m1-cD 7a1d-a1-m1-cB_7a1d-a1-m1-cC 7jsr-a1-m1-cB_7jsr-a1-m2-cA AHYRLASRAPGETKAAVYPGDAGSGAALQIVTDQAPLVDSVTVLLHRHGIAYTAINPVFRVGADECWILVPITAAADGEALTEATRLVPGILAEARQIGLDSGAIAALHGLANDLATDLEGHFPNAERKEVAALLRWLADGHFVLLGYQQCVVGDGNAEVDPASRLGVLRLRNDVLPPLTDSDDLLVLAQATPSYLRYGAYPYIVVVRESPGASRVIEHRFVGLFTVAANANALEIPLISRRVEEALAAHRDPSHPGQLLRDIIQTIPRPELFALSSKQLLEALAVVDLTLLFLRADHHFVSCLVYLPRDRYTTAVRLEQDILVRELGGAGIDYSARVSESPWAVVHFTVRLNESRIQDLLTEATRNWGDRISAAAAASISPAALEHYAHAFPEDYKQAFAPQDAIADISLIEALQDDSVKLVLADTAEDRVWKLTWYLGGHSASLSELLPLQSGVVVLEERPFTLRRTDGLPVWIYQFKISPHPSIPHAPDAEAQRDTAQRFADAVTAIWHGRVEIDRFNELVRAGLTWQQVVVLRAYAKYLRQAGFPYSQSHIESVLNENPHTTRSLIDLFEALFDPSQETDGRRDAQGAAAAVAADIDALVSLDTDRVLRAFANLIEATLRTNYFVRNVLAFKLNPLVIKELPLPRPKFEIFVYSPRVEGVHLRFGFVARGGLRWSDRREDFRTEILGLVKAQAVKNAVIVPVGAKGGFVVKRPPTLTGDAAADREATRAEGVECYRLFISGLLDVTDNVDKATGAVVTPPEVVRRDGEDAYLVVAADKGTATFSDIANEVAKSYGFWLGDAFAGITAKGAWESVKRHFREGVDTQTQDFTVVGIGDSGDVFGNGLLSKHIRLVAAFDHRDIFLDPNPDAGRSWDERKRLFDLPRSSWADYDKSLISEGGGVYSRQQKSIPISPQVRTALGLDADVEELTPPALIKAILKAPVDLLWNGGIGTYIKAETEADADNDQIRVCGNQVRAKVIGEGGNLGVTALGRIEFDLAGGRINTDALDNSAGVDCSDHEVNIKILIDSAVTAGKVTPEERTELLLSTDEVGELVLADNRDQNDLGTSRANAASLLSVHARIKDLVDNRGLNRELEALPSEKEIRRRADAGIGLTSPELATLAHVKLALKDDVLASDLPDQEVFASRLPYYFPTRLREELHGEIRSHQLRREIITTLVNDLVDTAGISYAYRITEDVGVGPVDAVRSYVAINAIFGIGDVWRRIRAAGDAGVPTSVTDRTLDLRRLVDRAGRWLLNYRPQPLAVGAEINRFGAKVAALTPRSEWLRGDDKAIVSKEAGDFASHGVPEDLAYHIATGLYQYSLLDVIDIADIVDREPDEVADTYFALDHLGADALLTAVSRLSRDDRWHSLARLAIRDDIYGSLRALCFDVLAVGEPDENGEEKIAEWETTNSSRVTRARRTLTEIYKDGEQDLATLSVAARQIRSTRTS TGPLAVAAHDDLVSDDLVAAHYRLASRAPGETKAAVYPGDAGSGAALQIVTDQAPLVDSVTVLLHRHGIAYTAINPVFRVGADECWILVPITAAADGEALTEATRLVPGILAEARQIGLDSGAIAALHGLANDLATDLEGHFPNAERKEVAALLRWLADGHFVLLGYQQCVVGDGNAEVDPASRLGVLRLRNDVLPPLTDSDDLLVLAQATPSYLRYGAYPYIVVVRESPGASRVIEHRFVGLFTVAANANALEIPLISRRVEEALAAHRDPSHPGQLLRDIIQTIPRPELFALSSKQLLEALAVVDLTLLFLRADHHFVSCLVYLPRDRYTTAVRLEQDILVRELGGAGIDYSARVSESPWAVVHFTVRLNESRIQDLLTEATRNWGDRISAAAAASISPAALEHYAHAFPEDYKQAFAPQDAIADISLIEALQDDSVKLVLADTAEDRVWKLTWYLGGHSASLSELLPLQSGVVVLEERPFTLRRTDGLPVWIYQFKISPHPSIPHAPDAEAQRDTAQRFADAVTAIWHGRVEIDRFNELVRAGLTWQQVVVLRAYAKYLRQAGFPYSQSHIESVLNENPHTTRSLIDLFEALFDPSQETDGRRDAQGAAAAVAADIDALVSLDTDRVLRAFANLIEATLRTNYFVRNVLAFKLNPLVIKELPLPRPKFEIFVYSPRVEGVHLRFGFVARGGLRWSDRREDFRTEILGLVKAQAVKNAVIVPVGAKGGFVVKRPPTLTGDAAADREATRAEGVECYRLFISGLLDVTDNVDKATGAVVTPPEVVRRDGEDAYLVVAADKGTATFSDIANEVAKSYGFWLGDAFAGITAKGAWESVKRHFREGVDTQTQDFTVVGIGDSGDVFGNGLLSKHIRLVAAFDHRDIFLDPNPDAGRSWDERKRLFDLPRSSWADYDKSLISEGGGVYSRQQKSIPISPQVRTALGLDADVEELTPPALIKAILKAPVDLLWNGGIGTYIKAETEADADNDQIRVCGNQVRAKVIGEGGNLGVTALGRIEFDLAGGRINTDALDNSAGVDCSDHEVNIKILIDSAVTAGKVTPEERTELLLSTDEVGELVLADNRDQNDLGTSRANAASLLSVHARIKDLVDNRGLNRELEALPSEKEIRRRADAGIGLTSPELATLAHVKLALKDDVLASDLPDQEVFASRLPYYFPTRLREELHGEIRSHQLRREIITTLVNDLVDTAGISYAYRITEDVGVGPVDAVRSYVAINAIFGIGDVWRRIRAAGDAGVPTSVTDRTLDLRRLVDRAGRWLLNYRPQPLAVGAEINRFGAKVAALTPRSEWLRGDDKAIVSKEAGDFASHGVPEDLAYHIATGLYQYSLLDVIDIADIVDREPDEVADTYFALDHLGADALLTAVSRLSRDDRWHSLARLAIRDDIYGSLRALCFDVLAVGEPDENGEEKIAEWETTNSSRVTRARRTLTEIYKDGEQDLATLSVAARQIRSTRTS 7jsr-a1-m2-cB_7jsr-a1-m2-cA Crystal structure of the large glutamate dehydrogenase composed of 180 kDa subunits from Mycobacterium smegmatis A0R1C2 A0R1C2 6.27 X-RAY DIFFRACTION 86 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 1452 1471 7a1d-a1-m1-cA_7a1d-a1-m1-cB 7a1d-a1-m1-cC_7a1d-a1-m1-cD 7jsr-a1-m1-cB_7jsr-a1-m1-cA AHYRLASRAPGETKAAVYPGDAGSGAALQIVTDQAPLVDSVTVLLHRHGIAYTAINPVFRVGADECWILVPITAAADGEALTEATRLVPGILAEARQIGLDSGAIAALHGLANDLATDLEGHFPNAERKEVAALLRWLADGHFVLLGYQQCVVGDGNAEVDPASRLGVLRLRNDVLPPLTDSDDLLVLAQATPSYLRYGAYPYIVVVRESPGASRVIEHRFVGLFTVAANANALEIPLISRRVEEALAAHRDPSHPGQLLRDIIQTIPRPELFALSSKQLLEALAVVDLTLLFLRADHHFVSCLVYLPRDRYTTAVRLEQDILVRELGGAGIDYSARVSESPWAVVHFTVRLNESRIQDLLTEATRNWGDRISAAAAASISPAALEHYAHAFPEDYKQAFAPQDAIADISLIEALQDDSVKLVLADTAEDRVWKLTWYLGGHSASLSELLPLQSGVVVLEERPFTLRRTDGLPVWIYQFKISPHPSIPHAPDAEAQRDTAQRFADAVTAIWHGRVEIDRFNELVRAGLTWQQVVVLRAYAKYLRQAGFPYSQSHIESVLNENPHTTRSLIDLFEALFDPSQETDGRRDAQGAAAAVAADIDALVSLDTDRVLRAFANLIEATLRTNYFVRNVLAFKLNPLVIKELPLPRPKFEIFVYSPRVEGVHLRFGFVARGGLRWSDRREDFRTEILGLVKAQAVKNAVIVPVGAKGGFVVKRPPTLTGDAAADREATRAEGVECYRLFISGLLDVTDNVDKATGAVVTPPEVVRRDGEDAYLVVAADKGTATFSDIANEVAKSYGFWLGDAFAGITAKGAWESVKRHFREGVDTQTQDFTVVGIGDSGDVFGNGLLSKHIRLVAAFDHRDIFLDPNPDAGRSWDERKRLFDLPRSSWADYDKSLISEGGGVYSRQQKSIPISPQVRTALGLDADVEELTPPALIKAILKAPVDLLWNGGIGTYIKAETEADADNDQIRVCGNQVRAKVIGEGGNLGVTALGRIEFDLAGGRINTDALDNSAGVDCSDHEVNIKILIDSAVTAGKVTPEERTELLLSTDEVGELVLADNRDQNDLGTSRANAASLLSVHARIKDLVDNRGLNRELEALPSEKEIRRRADAGIGLTSPELATLAHVKLALKDDVLASDLPDQEVFASRLPYYFPTRLREELHGEIRSHQLRREIITTLVNDLVDTAGISYAYRITEDVGVGPVDAVRSYVAINAIFGIGDVWRRIRAAGDAGVPTSVTDRTLDLRRLVDRAGRWLLNYRPQPLAVGAEINRFGAKVAALTPRSEWLRGDDKAIVSKEAGDFASHGVPEDLAYHIATGLYQYSLLDVIDIADIVDREPDEVADTYFALDHLGADALLTAVSRLSRDDRWHSLARLAIRDDIYGSLRALCFDVLAVGEPDENGEEKIAEWETTNSSRVTRARRTLTEIYKDGEQDLATLSVAARQIRSTRTS TGPLAVAAHDDLVSDDLVAAHYRLASRAPGETKAAVYPGDAGSGAALQIVTDQAPLVDSVTVLLHRHGIAYTAINPVFRVGADECWILVPITAAADGEALTEATRLVPGILAEARQIGLDSGAIAALHGLANDLATDLEGHFPNAERKEVAALLRWLADGHFVLLGYQQCVVGDGNAEVDPASRLGVLRLRNDVLPPLTDSDDLLVLAQATPSYLRYGAYPYIVVVRESPGASRVIEHRFVGLFTVAANANALEIPLISRRVEEALAAHRDPSHPGQLLRDIIQTIPRPELFALSSKQLLEALAVVDLTLLFLRADHHFVSCLVYLPRDRYTTAVRLEQDILVRELGGAGIDYSARVSESPWAVVHFTVRLNESRIQDLLTEATRNWGDRISAAAAASISPAALEHYAHAFPEDYKQAFAPQDAIADISLIEALQDDSVKLVLADTAEDRVWKLTWYLGGHSASLSELLPLQSGVVVLEERPFTLRRTDGLPVWIYQFKISPHPSIPHAPDAEAQRDTAQRFADAVTAIWHGRVEIDRFNELVRAGLTWQQVVVLRAYAKYLRQAGFPYSQSHIESVLNENPHTTRSLIDLFEALFDPSQETDGRRDAQGAAAAVAADIDALVSLDTDRVLRAFANLIEATLRTNYFVRNVLAFKLNPLVIKELPLPRPKFEIFVYSPRVEGVHLRFGFVARGGLRWSDRREDFRTEILGLVKAQAVKNAVIVPVGAKGGFVVKRPPTLTGDAAADREATRAEGVECYRLFISGLLDVTDNVDKATGAVVTPPEVVRRDGEDAYLVVAADKGTATFSDIANEVAKSYGFWLGDAFAGITAKGAWESVKRHFREGVDTQTQDFTVVGIGDSGDVFGNGLLSKHIRLVAAFDHRDIFLDPNPDAGRSWDERKRLFDLPRSSWADYDKSLISEGGGVYSRQQKSIPISPQVRTALGLDADVEELTPPALIKAILKAPVDLLWNGGIGTYIKAETEADADNDQIRVCGNQVRAKVIGEGGNLGVTALGRIEFDLAGGRINTDALDNSAGVDCSDHEVNIKILIDSAVTAGKVTPEERTELLLSTDEVGELVLADNRDQNDLGTSRANAASLLSVHARIKDLVDNRGLNRELEALPSEKEIRRRADAGIGLTSPELATLAHVKLALKDDVLASDLPDQEVFASRLPYYFPTRLREELHGEIRSHQLRREIITTLVNDLVDTAGISYAYRITEDVGVGPVDAVRSYVAINAIFGIGDVWRRIRAAGDAGVPTSVTDRTLDLRRLVDRAGRWLLNYRPQPLAVGAEINRFGAKVAALTPRSEWLRGDDKAIVSKEAGDFASHGVPEDLAYHIATGLYQYSLLDVIDIADIVDREPDEVADTYFALDHLGADALLTAVSRLSRDDRWHSLARLAIRDDIYGSLRALCFDVLAVGEPDENGEEKIAEWETTNSSRVTRARRTLTEIYKDGEQDLATLSVAARQIRSTRTS 7jsv-a1-m1-cW_7jsv-a1-m1-co Cryo-EM structure of conjugative pili from carbapenem-resistant Klebsiella pneumoniae A6TIG0 A6TIG0 3.9 ELECTRON MICROSCOPY 18 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 66 66 7jsv-a1-m1-cA_7jsv-a1-m1-cR 7jsv-a1-m1-cA_7jsv-a1-m1-cS 7jsv-a1-m1-cB_7jsv-a1-m1-cQ 7jsv-a1-m1-cB_7jsv-a1-m1-cT 7jsv-a1-m1-cC_7jsv-a1-m1-cP 7jsv-a1-m1-cC_7jsv-a1-m1-cU 7jsv-a1-m1-cD_7jsv-a1-m1-cO 7jsv-a1-m1-cD_7jsv-a1-m1-cV 7jsv-a1-m1-cE_7jsv-a1-m1-cN 7jsv-a1-m1-cE_7jsv-a1-m1-cW 7jsv-a1-m1-cF_7jsv-a1-m1-cM 7jsv-a1-m1-cF_7jsv-a1-m1-cX 7jsv-a1-m1-cG_7jsv-a1-m1-cL 7jsv-a1-m1-cG_7jsv-a1-m1-cY 7jsv-a1-m1-cH_7jsv-a1-m1-cK 7jsv-a1-m1-cH_7jsv-a1-m1-cZ 7jsv-a1-m1-cI_7jsv-a1-m1-ca 7jsv-a1-m1-cI_7jsv-a1-m1-cJ 7jsv-a1-m1-cJ_7jsv-a1-m1-cb 7jsv-a1-m1-cK_7jsv-a1-m1-cc 7jsv-a1-m1-cL_7jsv-a1-m1-cd 7jsv-a1-m1-cM_7jsv-a1-m1-ce 7jsv-a1-m1-cN_7jsv-a1-m1-cf 7jsv-a1-m1-cO_7jsv-a1-m1-cg 7jsv-a1-m1-cP_7jsv-a1-m1-ch 7jsv-a1-m1-cQ_7jsv-a1-m1-ci 7jsv-a1-m1-cR_7jsv-a1-m1-cj 7jsv-a1-m1-cS_7jsv-a1-m1-ck 7jsv-a1-m1-cT_7jsv-a1-m1-cl 7jsv-a1-m1-cU_7jsv-a1-m1-cm 7jsv-a1-m1-cV_7jsv-a1-m1-cn ATDLMKSGDATVKGTFGKQSSVVKWVVLAEVVAGGIMYMMTKNVKFLFGFAIISTFITIGMSVAGY ATDLMKSGDATVKGTFGKQSSVVKWVVLAEVVAGGIMYMMTKNVKFLFGFAIISTFITIGMSVAGY 7jsv-a1-m1-ce_7jsv-a1-m1-co Cryo-EM structure of conjugative pili from carbapenem-resistant Klebsiella pneumoniae A6TIG0 A6TIG0 3.9 ELECTRON MICROSCOPY 74 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 66 66 7jsv-a1-m1-cA_7jsv-a1-m1-cJ 7jsv-a1-m1-ca_7jsv-a1-m1-ck 7jsv-a1-m1-cA_7jsv-a1-m1-cK 7jsv-a1-m1-cB_7jsv-a1-m1-cI 7jsv-a1-m1-cb_7jsv-a1-m1-cl 7jsv-a1-m1-cB_7jsv-a1-m1-cL 7jsv-a1-m1-cC_7jsv-a1-m1-cH 7jsv-a1-m1-cc_7jsv-a1-m1-cm 7jsv-a1-m1-cC_7jsv-a1-m1-cM 7jsv-a1-m1-cD_7jsv-a1-m1-cG 7jsv-a1-m1-cd_7jsv-a1-m1-cn 7jsv-a1-m1-cD_7jsv-a1-m1-cN 7jsv-a1-m1-cE_7jsv-a1-m1-cF 7jsv-a1-m1-cE_7jsv-a1-m1-cO 7jsv-a1-m1-cF_7jsv-a1-m1-cP 7jsv-a1-m1-cG_7jsv-a1-m1-cQ 7jsv-a1-m1-cH_7jsv-a1-m1-cR 7jsv-a1-m1-cI_7jsv-a1-m1-cS 7jsv-a1-m1-cJ_7jsv-a1-m1-cT 7jsv-a1-m1-cK_7jsv-a1-m1-cU 7jsv-a1-m1-cL_7jsv-a1-m1-cV 7jsv-a1-m1-cM_7jsv-a1-m1-cW 7jsv-a1-m1-cN_7jsv-a1-m1-cX 7jsv-a1-m1-cO_7jsv-a1-m1-cY 7jsv-a1-m1-cP_7jsv-a1-m1-cZ 7jsv-a1-m1-cQ_7jsv-a1-m1-ca 7jsv-a1-m1-cR_7jsv-a1-m1-cb 7jsv-a1-m1-cS_7jsv-a1-m1-cc 7jsv-a1-m1-cT_7jsv-a1-m1-cd 7jsv-a1-m1-cU_7jsv-a1-m1-ce 7jsv-a1-m1-cV_7jsv-a1-m1-cf 7jsv-a1-m1-cW_7jsv-a1-m1-cg 7jsv-a1-m1-cX_7jsv-a1-m1-ch 7jsv-a1-m1-cY_7jsv-a1-m1-ci 7jsv-a1-m1-cZ_7jsv-a1-m1-cj ATDLMKSGDATVKGTFGKQSSVVKWVVLAEVVAGGIMYMMTKNVKFLFGFAIISTFITIGMSVAGY ATDLMKSGDATVKGTFGKQSSVVKWVVLAEVVAGGIMYMMTKNVKFLFGFAIISTFITIGMSVAGY 7jt3-a1-m1-c9_7jt3-a1-m1-c8 Rotated 70S ribosome stalled on long mRNA with ArfB-1 and ArfB-2 bound in the A site (+9-IV) P40711 P40711 3.7 ELECTRON MICROSCOPY 30 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 97 130 7jt1-a1-m1-c9_7jt1-a1-m1-c8 ISRHVAIPDGELEITAIRAQGAGGQHVNKTSTAIHLRFDIRASSLPEYYKERLLAASHHLISSDGVIVIKAQEYRSQELNREAALARLVAMIKELTT ISRHVAIPDGELEITAIRAQGAGGQHVNKTSTAIHLRFDIRASSLPEYYKERLLAASHHLISSDGVIVIKAQEYRSQELNREAALARLVAMIKELTTEKKARRPTRPTRASKERRLASKAQKSSVKAMRG 7jta-a1-m1-cA_7jta-a1-m4-cA Crystal structure of a putative nuclease with anti-Cas9 activity from an uncultured Clostridia bacterium A0A5B9TEE9 A0A5B9TEE9 2.801 X-RAY DIFFRACTION 41 1.0 2044939 (Clostridia bacterium) 2044939 (Clostridia bacterium) 56 56 MGMVVEETRDLAETADCVVIEAILVDDGLRYRQLSVGIKDENGDIIRIVPISTVLI MGMVVEETRDLAETADCVVIEAILVDDGLRYRQLSVGIKDENGDIIRIVPISTVLI 7jta-a1-m2-cB_7jta-a1-m4-cA Crystal structure of a putative nuclease with anti-Cas9 activity from an uncultured Clostridia bacterium A0A5B9TEE9 A0A5B9TEE9 2.801 X-RAY DIFFRACTION 26 1.0 2044939 (Clostridia bacterium) 2044939 (Clostridia bacterium) 56 56 7jta-a1-m1-cA_7jta-a1-m3-cB MGMVVEETRDLAETADCVVIEAILVDDGLRYRQLSVGIKDENGDIIRIVPISTVLI MGMVVEETRDLAETADCVVIEAILVDDGLRYRQLSVGIKDENGDIIRIVPISTVLI 7jv4-a1-m1-cB_7jv4-a1-m1-cC SARS-CoV-2 spike in complex with the S2H13 neutralizing antibody (one RBD open) P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 268 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 949 963 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDGNYNYLYRLFRKPFERCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRKPFERCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7jv4-a1-m1-cC_7jv4-a1-m1-cA SARS-CoV-2 spike in complex with the S2H13 neutralizing antibody (one RBD open) P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 301 0.988 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 963 975 7jv4-a1-m1-cB_7jv4-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRKPFERCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQPCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7jv6-a1-m1-cB_7jv6-a1-m1-cE SARS-CoV-2 spike in complex with the S2H13 neutralizing antibody (closed conformation) P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 308 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 977 7jv6-a1-m1-cA_7jv6-a1-m1-cB 7jv6-a1-m1-cA_7jv6-a1-m1-cE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7jvc-a1-m1-cB_7jvc-a1-m1-cE SARS-CoV-2 spike in complex with the S2A4 neutralizing antibody Fab fragment P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 282 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 990 990 7jvc-a1-m1-cA_7jvc-a1-m1-cB 7jvc-a1-m1-cA_7jvc-a1-m1-cE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7jve-a2-m1-cD_7jve-a2-m1-cE Crystal structure of Salmonella enterica Typhimurium BcfH Q8ZS03 Q8ZS03 2.31 X-RAY DIFFRACTION 139 0.996 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 244 245 7jve-a1-m1-cC_7jve-a1-m1-cA PTAEAYIVSHPDKVGEVVATYLAEHPEFLVAASETLHQRQQIAQQQAYVQLALQYRAELLSSSSPSVGPNEAKAAVVMFFDYQCSWCSKMAPVVENLIKANPDTRFIFKEFPIFSSRWPVSGLAARVGEQVWLTQGGAKYLDWHNALYATGKVEGALTEHDVYTLAQHYLTPTQLAAVKEAQSSGAVHDALLTNQALAQHMDFSGTPAFVVMPQTQDGDVKRVTVIPGSTTQDMLQMAIQKAKG IGPTAEAYIVSHPDKVGEVVATYLAEHPEFLVAASETLHQRQQIAQQQAYVQLALQYRAELLSSSSPSVGPNEAKAAVVMFFDYQCSWCSKMAPVVENLIKANPDTRFIFKEFPIFSSRWPVSGLAARVGEQVWLTQGGAKYLDWHNALYATGKVEGALTEHDVYTLAQHYLTPTQLAAVKEAQSSGAVHDALLTNQALAQHMDFSGTPAFVVMPQTQDGDVKRVTVIPGSTTQDMLQMAIQKAK 7jve-a2-m1-cD_7jve-a2-m1-cF Crystal structure of Salmonella enterica Typhimurium BcfH Q8ZS03 Q8ZS03 2.31 X-RAY DIFFRACTION 59 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 244 246 7jve-a1-m1-cB_7jve-a1-m1-cA PTAEAYIVSHPDKVGEVVATYLAEHPEFLVAASETLHQRQQIAQQQAYVQLALQYRAELLSSSSPSVGPNEAKAAVVMFFDYQCSWCSKMAPVVENLIKANPDTRFIFKEFPIFSSRWPVSGLAARVGEQVWLTQGGAKYLDWHNALYATGKVEGALTEHDVYTLAQHYLTPTQLAAVKEAQSSGAVHDALLTNQALAQHMDFSGTPAFVVMPQTQDGDVKRVTVIPGSTTQDMLQMAIQKAKG IGPTAEAYIVSHPDKVGEVVATYLAEHPEFLVAASETLHQRQQIAQQQAYVQLALQYRAELLSSSSPSVGPNEAKAAVVMFFDYQCSWCSKMAPVVENLIKANPDTRFIFKEFPIFSSRWPVSGLAARVGEQVWLTQGGAKYLDWHNALYATGKVEGALTEHDVYTLAQHYLTPTQLAAVKEAQSSGAVHDALLTNQALAQHMDFSGTPAFVVMPQTQDGDVKRVTVIPGSTTQDMLQMAIQKAKG 7jve-a2-m1-cE_7jve-a2-m1-cF Crystal structure of Salmonella enterica Typhimurium BcfH Q8ZS03 Q8ZS03 2.31 X-RAY DIFFRACTION 124 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 245 246 7jve-a1-m1-cC_7jve-a1-m1-cB IGPTAEAYIVSHPDKVGEVVATYLAEHPEFLVAASETLHQRQQIAQQQAYVQLALQYRAELLSSSSPSVGPNEAKAAVVMFFDYQCSWCSKMAPVVENLIKANPDTRFIFKEFPIFSSRWPVSGLAARVGEQVWLTQGGAKYLDWHNALYATGKVEGALTEHDVYTLAQHYLTPTQLAAVKEAQSSGAVHDALLTNQALAQHMDFSGTPAFVVMPQTQDGDVKRVTVIPGSTTQDMLQMAIQKAK IGPTAEAYIVSHPDKVGEVVATYLAEHPEFLVAASETLHQRQQIAQQQAYVQLALQYRAELLSSSSPSVGPNEAKAAVVMFFDYQCSWCSKMAPVVENLIKANPDTRFIFKEFPIFSSRWPVSGLAARVGEQVWLTQGGAKYLDWHNALYATGKVEGALTEHDVYTLAQHYLTPTQLAAVKEAQSSGAVHDALLTNQALAQHMDFSGTPAFVVMPQTQDGDVKRVTVIPGSTTQDMLQMAIQKAKG 7jvt-a1-m1-cD_7jvt-a1-m2-cD Crystal structure of a lambda-186 hybrid repressor P08707 P08707 3.16 X-RAY DIFFRACTION 16 1.0 29252 (Eganvirus ev186) 29252 (Eganvirus ev186) 199 199 KKKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIEGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN KKKPLTQEQLEDARRLKAIYEKKKNELGLSQESVADKMGMGQSGVGALFNGINALNAYNAALLAKILKVSVEEFSPSIAREIYEMYEAVSDAKRIEGFTLSEEILKSDKQLSVDAQFFTKPLTDGMAIRSEGKIYFVDKQASLSDGLWLVDIEGAISIRELTKLPGRKLHVAGGKVPFECGIDDIKTLGRVVGVYSEVN 7jw0-a1-m1-cB_7jw0-a1-m1-cE SARS-CoV-2 spike in complex with the S304 neutralizing antibody Fab fragment P0DTC2 P0DTC2 4.3 ELECTRON MICROSCOPY 275 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1007 1007 7jw0-a1-m1-cA_7jw0-a1-m1-cB 7jw0-a1-m1-cA_7jw0-a1-m1-cE CVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFMESEFRVYSSANNCTFEYVKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS CVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFMESEFRVYSSANNCTFEYVKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7jw1-a1-m5-ce_7jw1-a1-m9-ce Satellite phage P4 procapsid including size determination (Sid) protein P05461 P05461 4.19 ELECTRON MICROSCOPY 28 1.0 10680 (Enterobacteria phage P4) 10680 (Enterobacteria phage P4) 235 235 7jw1-a1-m10-ce_7jw1-a1-m13-ce 7jw1-a1-m10-ce_7jw1-a1-m14-cE 7jw1-a1-m10-cE_7jw1-a1-m5-ce 7jw1-a1-m10-cE_7jw1-a1-m9-ce 7jw1-a1-m11-cE_7jw1-a1-m12-cE 7jw1-a1-m11-cE_7jw1-a1-m13-cE 7jw1-a1-m11-ce_7jw1-a1-m8-ce 7jw1-a1-m12-cE_7jw1-a1-m13-cE 7jw1-a1-m12-ce_7jw1-a1-m15-ce 7jw1-a1-m12-ce_7jw1-a1-m29-cE 7jw1-a1-m13-ce_7jw1-a1-m14-cE 7jw1-a1-m14-ce_7jw1-a1-m17-ce 7jw1-a1-m14-ce_7jw1-a1-m18-cE 7jw1-a1-m15-cE_7jw1-a1-m16-cE 7jw1-a1-m15-cE_7jw1-a1-m17-cE 7jw1-a1-m15-ce_7jw1-a1-m29-cE 7jw1-a1-m16-cE_7jw1-a1-m17-cE 7jw1-a1-m16-ce_7jw1-a1-m19-ce 7jw1-a1-m16-ce_7jw1-a1-m27-cE 7jw1-a1-m17-ce_7jw1-a1-m18-cE 7jw1-a1-m18-ce_7jw1-a1-m21-ce 7jw1-a1-m18-ce_7jw1-a1-m6-ce 7jw1-a1-m19-cE_7jw1-a1-m20-cE 7jw1-a1-m19-cE_7jw1-a1-m21-cE 7jw1-a1-m19-ce_7jw1-a1-m27-cE 7jw1-a1-m1-ce_7jw1-a1-m11-ce 7jw1-a1-m1-cE_7jw1-a1-m24-ce 7jw1-a1-m1-cE_7jw1-a1-m30-ce 7jw1-a1-m1-ce_7jw1-a1-m8-ce 7jw1-a1-m20-cE_7jw1-a1-m21-cE 7jw1-a1-m20-ce_7jw1-a1-m25-cE 7jw1-a1-m21-ce_7jw1-a1-m6-ce 7jw1-a1-m22-ce_7jw1-a1-m23-cE 7jw1-a1-m22-ce_7jw1-a1-m24-cE 7jw1-a1-m22-cE_7jw1-a1-m3-ce 7jw1-a1-m22-cE_7jw1-a1-m7-ce 7jw1-a1-m23-cE_7jw1-a1-m24-cE 7jw1-a1-m23-ce_7jw1-a1-m25-ce 7jw1-a1-m23-ce_7jw1-a1-m26-cE 7jw1-a1-m24-ce_7jw1-a1-m30-ce 7jw1-a1-m25-ce_7jw1-a1-m26-cE 7jw1-a1-m26-ce_7jw1-a1-m27-ce 7jw1-a1-m26-ce_7jw1-a1-m28-cE 7jw1-a1-m27-ce_7jw1-a1-m28-cE 7jw1-a1-m28-ce_7jw1-a1-m29-ce 7jw1-a1-m28-ce_7jw1-a1-m30-cE 7jw1-a1-m29-ce_7jw1-a1-m30-cE 7jw1-a1-m2-ce_7jw1-a1-m20-ce 7jw1-a1-m2-ce_7jw1-a1-m25-cE 7jw1-a1-m2-cE_7jw1-a1-m3-cE 7jw1-a1-m2-cE_7jw1-a1-m4-cE 7jw1-a1-m3-cE_7jw1-a1-m4-cE 7jw1-a1-m3-ce_7jw1-a1-m7-ce 7jw1-a1-m4-ce_7jw1-a1-m5-cE 7jw1-a1-m4-ce_7jw1-a1-m6-cE 7jw1-a1-m5-cE_7jw1-a1-m6-cE 7jw1-a1-m7-cE_7jw1-a1-m8-cE 7jw1-a1-m7-cE_7jw1-a1-m9-cE 7jw1-a1-m8-cE_7jw1-a1-m9-cE PEYLQPALAQLEKARAAHLENARLMDETVTAIERAEQEKNALAQADGNDADDWRTAFRAAGGVLSDELKQRHIERVARRELVQEYDNLAVVLNFERERLKGACDSTATAYRKAHHHLLSLYAEHELEHALNETCEALVRAMHLSILVQENPLANTTGHQGYVAPEKAVMQQVKSSLEQKIKQMQISLTGEPVLRLTGLSAATLPHMDYEVAGTPAQRKVWQDKIDQQGAELKARG PEYLQPALAQLEKARAAHLENARLMDETVTAIERAEQEKNALAQADGNDADDWRTAFRAAGGVLSDELKQRHIERVARRELVQEYDNLAVVLNFERERLKGACDSTATAYRKAHHHLLSLYAEHELEHALNETCEALVRAMHLSILVQENPLANTTGHQGYVAPEKAVMQQVKSSLEQKIKQMQISLTGEPVLRLTGLSAATLPHMDYEVAGTPAQRKVWQDKIDQQGAELKARG 7jw1-a1-m9-cE_7jw1-a1-m9-ce Satellite phage P4 procapsid including size determination (Sid) protein P05461 P05461 4.19 ELECTRON MICROSCOPY 105 1.0 10680 (Enterobacteria phage P4) 10680 (Enterobacteria phage P4) 235 235 7jw1-a1-m10-cE_7jw1-a1-m10-ce 7jw1-a1-m11-cE_7jw1-a1-m11-ce 7jw1-a1-m12-cE_7jw1-a1-m12-ce 7jw1-a1-m13-cE_7jw1-a1-m13-ce 7jw1-a1-m14-cE_7jw1-a1-m14-ce 7jw1-a1-m15-cE_7jw1-a1-m15-ce 7jw1-a1-m16-cE_7jw1-a1-m16-ce 7jw1-a1-m17-cE_7jw1-a1-m17-ce 7jw1-a1-m18-cE_7jw1-a1-m18-ce 7jw1-a1-m19-cE_7jw1-a1-m19-ce 7jw1-a1-m1-cE_7jw1-a1-m1-ce 7jw1-a1-m20-cE_7jw1-a1-m20-ce 7jw1-a1-m21-cE_7jw1-a1-m21-ce 7jw1-a1-m22-cE_7jw1-a1-m22-ce 7jw1-a1-m23-cE_7jw1-a1-m23-ce 7jw1-a1-m24-cE_7jw1-a1-m24-ce 7jw1-a1-m25-cE_7jw1-a1-m25-ce 7jw1-a1-m26-cE_7jw1-a1-m26-ce 7jw1-a1-m27-cE_7jw1-a1-m27-ce 7jw1-a1-m28-cE_7jw1-a1-m28-ce 7jw1-a1-m29-cE_7jw1-a1-m29-ce 7jw1-a1-m2-cE_7jw1-a1-m2-ce 7jw1-a1-m30-cE_7jw1-a1-m30-ce 7jw1-a1-m3-cE_7jw1-a1-m3-ce 7jw1-a1-m4-cE_7jw1-a1-m4-ce 7jw1-a1-m5-cE_7jw1-a1-m5-ce 7jw1-a1-m6-cE_7jw1-a1-m6-ce 7jw1-a1-m7-cE_7jw1-a1-m7-ce 7jw1-a1-m8-cE_7jw1-a1-m8-ce PEYLQPALAQLEKARAAHLENARLMDETVTAIERAEQEKNALAQADGNDADDWRTAFRAAGGVLSDELKQRHIERVARRELVQEYDNLAVVLNFERERLKGACDSTATAYRKAHHHLLSLYAEHELEHALNETCEALVRAMHLSILVQENPLANTTGHQGYVAPEKAVMQQVKSSLEQKIKQMQISLTGEPVLRLTGLSAATLPHMDYEVAGTPAQRKVWQDKIDQQGAELKARG PEYLQPALAQLEKARAAHLENARLMDETVTAIERAEQEKNALAQADGNDADDWRTAFRAAGGVLSDELKQRHIERVARRELVQEYDNLAVVLNFERERLKGACDSTATAYRKAHHHLLSLYAEHELEHALNETCEALVRAMHLSILVQENPLANTTGHQGYVAPEKAVMQQVKSSLEQKIKQMQISLTGEPVLRLTGLSAATLPHMDYEVAGTPAQRKVWQDKIDQQGAELKARG 7jw1-a1-m9-ca_7jw1-a1-m7-cD Satellite phage P4 procapsid including size determination (Sid) protein P25477 P25477 4.19 ELECTRON MICROSCOPY 13 0.982 10679 (Peduovirus P2) 10679 (Peduovirus P2) 279 307 7jw1-a1-m10-cA_7jw1-a1-m13-cd 7jw1-a1-m10-ca_7jw1-a1-m5-cd 7jw1-a1-m10-cC_7jw1-a1-m13-cc 7jw1-a1-m10-cc_7jw1-a1-m14-cc 7jw1-a1-m10-cc_7jw1-a1-m5-cc 7jw1-a1-m10-cC_7jw1-a1-m9-cC 7jw1-a1-m10-cd_7jw1-a1-m13-cB 7jw1-a1-m11-ca_7jw1-a1-m12-cD 7jw1-a1-m11-cA_7jw1-a1-m8-cd 7jw1-a1-m11-cc_7jw1-a1-m12-cC 7jw1-a1-m11-cC_7jw1-a1-m13-cc 7jw1-a1-m11-cC_7jw1-a1-m8-cc 7jw1-a1-m11-cd_7jw1-a1-m8-cB 7jw1-a1-m12-ca_7jw1-a1-m13-cD 7jw1-a1-m12-cA_7jw1-a1-m29-cD 7jw1-a1-m12-cc_7jw1-a1-m13-cC 7jw1-a1-m12-cc_7jw1-a1-m15-cC 7jw1-a1-m12-cC_7jw1-a1-m29-cC 7jw1-a1-m12-cd_7jw1-a1-m29-cb 7jw1-a1-m13-ca_7jw1-a1-m11-cD 7jw1-a1-m13-cA_7jw1-a1-m14-cD 7jw1-a1-m13-cC_7jw1-a1-m14-cC 7jw1-a1-m13-cd_7jw1-a1-m14-cb 7jw1-a1-m14-ca_7jw1-a1-m10-cd 7jw1-a1-m14-cA_7jw1-a1-m17-cd 7jw1-a1-m14-cC_7jw1-a1-m17-cc 7jw1-a1-m14-cc_7jw1-a1-m18-cc 7jw1-a1-m14-cd_7jw1-a1-m17-cB 7jw1-a1-m15-cA_7jw1-a1-m12-cd 7jw1-a1-m15-ca_7jw1-a1-m16-cD 7jw1-a1-m15-cc_7jw1-a1-m16-cC 7jw1-a1-m15-cC_7jw1-a1-m17-cc 7jw1-a1-m15-cc_7jw1-a1-m29-cc 7jw1-a1-m15-cd_7jw1-a1-m12-cB 7jw1-a1-m16-ca_7jw1-a1-m17-cD 7jw1-a1-m16-cA_7jw1-a1-m27-cD 7jw1-a1-m16-cc_7jw1-a1-m17-cC 7jw1-a1-m16-cc_7jw1-a1-m19-cC 7jw1-a1-m16-cC_7jw1-a1-m27-cC 7jw1-a1-m16-cd_7jw1-a1-m27-cb 7jw1-a1-m17-ca_7jw1-a1-m15-cD 7jw1-a1-m17-cA_7jw1-a1-m18-cD 7jw1-a1-m17-cC_7jw1-a1-m18-cC 7jw1-a1-m17-cd_7jw1-a1-m18-cb 7jw1-a1-m18-ca_7jw1-a1-m14-cd 7jw1-a1-m18-cA_7jw1-a1-m21-cd 7jw1-a1-m18-cC_7jw1-a1-m21-cc 7jw1-a1-m18-cc_7jw1-a1-m6-cC 7jw1-a1-m18-cd_7jw1-a1-m21-cB 7jw1-a1-m19-cA_7jw1-a1-m16-cd 7jw1-a1-m19-ca_7jw1-a1-m20-cD 7jw1-a1-m19-cc_7jw1-a1-m20-cC 7jw1-a1-m19-cC_7jw1-a1-m21-cc 7jw1-a1-m19-cc_7jw1-a1-m27-cc 7jw1-a1-m19-cd_7jw1-a1-m16-cB 7jw1-a1-m1-cA_7jw1-a1-m11-cd 7jw1-a1-m1-ca_7jw1-a1-m24-cd 7jw1-a1-m1-cC_7jw1-a1-m11-cc 7jw1-a1-m1-cc_7jw1-a1-m24-cc 7jw1-a1-m1-cC_7jw1-a1-m30-cC 7jw1-a1-m1-cc_7jw1-a1-m8-cC 7jw1-a1-m1-cd_7jw1-a1-m11-cB 7jw1-a1-m20-ca_7jw1-a1-m21-cD 7jw1-a1-m20-cA_7jw1-a1-m25-cD 7jw1-a1-m20-cc_7jw1-a1-m21-cC 7jw1-a1-m20-cC_7jw1-a1-m25-cC 7jw1-a1-m20-cd_7jw1-a1-m25-cb 7jw1-a1-m21-ca_7jw1-a1-m19-cD 7jw1-a1-m21-cA_7jw1-a1-m6-cd 7jw1-a1-m21-cC_7jw1-a1-m6-cc 7jw1-a1-m21-cd_7jw1-a1-m6-cB 7jw1-a1-m22-cA_7jw1-a1-m23-cD 7jw1-a1-m22-ca_7jw1-a1-m7-cd 7jw1-a1-m22-cC_7jw1-a1-m23-cC 7jw1-a1-m22-cc_7jw1-a1-m24-cc 7jw1-a1-m22-cC_7jw1-a1-m3-cC 7jw1-a1-m22-cc_7jw1-a1-m7-cc 7jw1-a1-m22-cd_7jw1-a1-m23-cb 7jw1-a1-m23-ca_7jw1-a1-m24-cD 7jw1-a1-m23-cA_7jw1-a1-m25-cd 7jw1-a1-m23-cc_7jw1-a1-m24-cC 7jw1-a1-m23-cC_7jw1-a1-m25-cc 7jw1-a1-m23-cc_7jw1-a1-m26-cc 7jw1-a1-m23-cd_7jw1-a1-m25-cB 7jw1-a1-m24-ca_7jw1-a1-m22-cd 7jw1-a1-m24-cA_7jw1-a1-m30-cd 7jw1-a1-m24-cC_7jw1-a1-m30-cc 7jw1-a1-m24-cd_7jw1-a1-m30-cB 7jw1-a1-m25-cA_7jw1-a1-m26-cD 7jw1-a1-m25-ca_7jw1-a1-m2-cd 7jw1-a1-m25-cC_7jw1-a1-m26-cC 7jw1-a1-m25-cd_7jw1-a1-m26-cb 7jw1-a1-m26-ca_7jw1-a1-m23-cd 7jw1-a1-m26-cA_7jw1-a1-m27-cd 7jw1-a1-m26-cC_7jw1-a1-m27-cc 7jw1-a1-m26-cc_7jw1-a1-m28-cc 7jw1-a1-m26-cd_7jw1-a1-m27-cB 7jw1-a1-m27-ca_7jw1-a1-m19-cd 7jw1-a1-m27-cA_7jw1-a1-m28-cD 7jw1-a1-m27-cC_7jw1-a1-m28-cC 7jw1-a1-m27-cd_7jw1-a1-m28-cb 7jw1-a1-m28-ca_7jw1-a1-m26-cd 7jw1-a1-m28-cA_7jw1-a1-m29-cd 7jw1-a1-m28-cC_7jw1-a1-m29-cc 7jw1-a1-m28-cc_7jw1-a1-m30-cc 7jw1-a1-m28-cd_7jw1-a1-m29-cB 7jw1-a1-m29-ca_7jw1-a1-m15-cd 7jw1-a1-m29-cA_7jw1-a1-m30-cD 7jw1-a1-m29-cC_7jw1-a1-m30-cC 7jw1-a1-m29-cd_7jw1-a1-m30-cb 7jw1-a1-m2-cA_7jw1-a1-m20-cd 7jw1-a1-m2-ca_7jw1-a1-m3-cD 7jw1-a1-m2-cC_7jw1-a1-m20-cc 7jw1-a1-m2-cc_7jw1-a1-m25-cc 7jw1-a1-m2-cc_7jw1-a1-m3-cC 7jw1-a1-m2-cC_7jw1-a1-m4-cc 7jw1-a1-m2-cd_7jw1-a1-m20-cB 7jw1-a1-m30-cA_7jw1-a1-m1-cD 7jw1-a1-m30-ca_7jw1-a1-m28-cd 7jw1-a1-m30-cd_7jw1-a1-m1-cb 7jw1-a1-m3-cA_7jw1-a1-m22-cD 7jw1-a1-m3-ca_7jw1-a1-m4-cD 7jw1-a1-m3-cc_7jw1-a1-m4-cC 7jw1-a1-m3-cc_7jw1-a1-m7-cC 7jw1-a1-m3-cd_7jw1-a1-m22-cb 7jw1-a1-m4-ca_7jw1-a1-m2-cD 7jw1-a1-m4-cA_7jw1-a1-m5-cD 7jw1-a1-m4-cC_7jw1-a1-m5-cC 7jw1-a1-m4-cc_7jw1-a1-m6-cc 7jw1-a1-m4-cd_7jw1-a1-m5-cb 7jw1-a1-m5-ca_7jw1-a1-m6-cD 7jw1-a1-m5-cA_7jw1-a1-m9-cd 7jw1-a1-m5-cc_7jw1-a1-m6-cC 7jw1-a1-m5-cC_7jw1-a1-m9-cc 7jw1-a1-m5-cd_7jw1-a1-m9-cB 7jw1-a1-m6-cA_7jw1-a1-m18-cd 7jw1-a1-m6-ca_7jw1-a1-m4-cd 7jw1-a1-m6-cd_7jw1-a1-m18-cB 7jw1-a1-m7-cA_7jw1-a1-m3-cd 7jw1-a1-m7-ca_7jw1-a1-m8-cD 7jw1-a1-m7-cc_7jw1-a1-m8-cC 7jw1-a1-m7-cC_7jw1-a1-m9-cc 7jw1-a1-m7-cd_7jw1-a1-m3-cB 7jw1-a1-m8-cA_7jw1-a1-m1-cd 7jw1-a1-m8-ca_7jw1-a1-m9-cD 7jw1-a1-m8-cc_7jw1-a1-m9-cC 7jw1-a1-m8-cd_7jw1-a1-m1-cB 7jw1-a1-m9-cA_7jw1-a1-m10-cD 7jw1-a1-m9-cd_7jw1-a1-m10-cb VTQTLMNTMQESSDFLTRINIVPVSEMKGEKIGIGVTGSIASTTDTAGGTERQPKDFSKLASNKYECDQINFDFYIRYKTLDLWARYQDFQLRIRNAIIKRQSLDFIMAGFNGVKRAETSDRSSNPMLQDVAVGWLQKYRNEAPARVMSKVTTTSEVIRVGKGGDYASLDALVMDATNNLIEPWYQEDPDLVVIVGRQLLADKQKRIGNLPAVRVPYFPADAMLITKLENLSIYYMDDSHRRVIEENPKLDRVENYESMNIDYVVEDYAAGCLVEKIKV MRQETRFKFNAYLSVSKKFTVEPSVTQTLMNTMQESSDFLTRINIVPVSEMKGEKIGIGVTGSIASTTDTAGGTERQPKDFSKLASNKYECDQINFDFYIRYKTLDLWARYQDFQLRIRNAIIKRQSLDFIMAGFNGVKRAETSDRSSNPMLQDVAVGWLQKYRNEAPARVMSKVTSEVIRVGKGGDYASLDALVMDATNNLIEPWYQEDPDLVVIVGRQLLDVIISQKRIGNLPAVRVPYFPADAMLITKLENLSIYYMDDSHRRVIEENPKLDRVENYESMNIDYVVEDYAAGCLVEKIKVGDFS 7jw1-a1-m9-cd_7jw1-a1-m5-cB Satellite phage P4 procapsid including size determination (Sid) protein P25477 P25477 4.19 ELECTRON MICROSCOPY 18 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 307 327 7jw1-a1-m10-cd_7jw1-a1-m14-cb 7jw1-a1-m10-cD_7jw1-a1-m9-cB 7jw1-a1-m11-cD_7jw1-a1-m13-cb 7jw1-a1-m11-cd_7jw1-a1-m1-cB 7jw1-a1-m12-cD_7jw1-a1-m11-cb 7jw1-a1-m12-cd_7jw1-a1-m15-cB 7jw1-a1-m13-cd_7jw1-a1-m10-cB 7jw1-a1-m13-cD_7jw1-a1-m12-cb 7jw1-a1-m14-cD_7jw1-a1-m13-cB 7jw1-a1-m14-cd_7jw1-a1-m18-cb 7jw1-a1-m15-cD_7jw1-a1-m17-cb 7jw1-a1-m15-cd_7jw1-a1-m29-cb 7jw1-a1-m16-cD_7jw1-a1-m15-cb 7jw1-a1-m16-cd_7jw1-a1-m19-cB 7jw1-a1-m17-cd_7jw1-a1-m14-cB 7jw1-a1-m17-cD_7jw1-a1-m16-cb 7jw1-a1-m18-cD_7jw1-a1-m17-cB 7jw1-a1-m18-cd_7jw1-a1-m6-cB 7jw1-a1-m19-cD_7jw1-a1-m21-cb 7jw1-a1-m19-cd_7jw1-a1-m27-cb 7jw1-a1-m1-cD_7jw1-a1-m30-cB 7jw1-a1-m1-cd_7jw1-a1-m8-cB 7jw1-a1-m20-cD_7jw1-a1-m19-cb 7jw1-a1-m20-cd_7jw1-a1-m2-cB 7jw1-a1-m21-cd_7jw1-a1-m18-cB 7jw1-a1-m21-cD_7jw1-a1-m20-cb 7jw1-a1-m22-cd_7jw1-a1-m24-cb 7jw1-a1-m22-cD_7jw1-a1-m3-cB 7jw1-a1-m23-cD_7jw1-a1-m22-cB 7jw1-a1-m23-cd_7jw1-a1-m26-cb 7jw1-a1-m24-cd_7jw1-a1-m1-cb 7jw1-a1-m24-cD_7jw1-a1-m23-cb 7jw1-a1-m25-cD_7jw1-a1-m20-cB 7jw1-a1-m25-cd_7jw1-a1-m23-cB 7jw1-a1-m26-cD_7jw1-a1-m25-cB 7jw1-a1-m26-cd_7jw1-a1-m28-cb 7jw1-a1-m27-cD_7jw1-a1-m16-cB 7jw1-a1-m27-cd_7jw1-a1-m26-cB 7jw1-a1-m28-cD_7jw1-a1-m27-cB 7jw1-a1-m28-cd_7jw1-a1-m30-cb 7jw1-a1-m29-cD_7jw1-a1-m12-cB 7jw1-a1-m29-cd_7jw1-a1-m28-cB 7jw1-a1-m2-cd_7jw1-a1-m25-cb 7jw1-a1-m2-cD_7jw1-a1-m4-cb 7jw1-a1-m30-cd_7jw1-a1-m24-cB 7jw1-a1-m30-cD_7jw1-a1-m29-cB 7jw1-a1-m3-cD_7jw1-a1-m2-cb 7jw1-a1-m3-cd_7jw1-a1-m7-cB 7jw1-a1-m4-cD_7jw1-a1-m3-cb 7jw1-a1-m4-cd_7jw1-a1-m6-cb 7jw1-a1-m5-cd_7jw1-a1-m10-cb 7jw1-a1-m5-cD_7jw1-a1-m4-cB 7jw1-a1-m6-cd_7jw1-a1-m21-cB 7jw1-a1-m6-cD_7jw1-a1-m5-cb 7jw1-a1-m7-cd_7jw1-a1-m22-cb 7jw1-a1-m7-cD_7jw1-a1-m9-cb 7jw1-a1-m8-cd_7jw1-a1-m11-cB 7jw1-a1-m8-cD_7jw1-a1-m7-cb 7jw1-a1-m9-cD_7jw1-a1-m8-cb MRQETRFKFNAYLSVSKKFTVEPSVTQTLMNTMQESSDFLTRINIVPVSEMKGEKIGIGVTGSIASTTDTAGGTERQPKDFSKLASNKYECDQINFDFYIRYKTLDLWARYQDFQLRIRNAIIKRQSLDFIMAGFNGVKRAETSDRSSNPMLQDVAVGWLQKYRNEAPARVMSKVTSEVIRVGKGGDYASLDALVMDATNNLIEPWYQEDPDLVVIVGRQLLDVIISQKRIGNLPAVRVPYFPADAMLITKLENLSIYYMDDSHRRVIEENPKLDRVENYESMNIDYVVEDYAAGCLVEKIKVGDFS MRQETRFKFNAYLSVSKKFTVEPSVTQTLMNTMQESSDFLTRINIVPVSEMKGEKIGIGVTGSIASTTDTAGGTERQPKDFSKLASNKYECDQINFDFYIRYKTLDLWARYQDFQLRIRNAIIKRQSLDFIMAGFNGVKRAETSDRSSNPMLQDVAVGWLQKYRNEAPARVMSKVTDEEGRTTSEVIRVGKGGDYASLDALVMDATNNLIEPWYQEDPDLVVIVGRQLLADKYFPIVNKEQADVIISQKRIGNLPAVRVPYFPADAMLITKLENLSIYYMDDSHRRVIEENPKLDRVENYESMNIDYVVEDYAAGCLVEKIKVGDFS 7jw1-a1-m9-cd_7jw1-a1-m9-cB Satellite phage P4 procapsid including size determination (Sid) protein P25477 P25477 4.19 ELECTRON MICROSCOPY 125 1.0 10679 (Peduovirus P2) 10679 (Peduovirus P2) 307 327 7jw1-a1-m10-cA_7jw1-a1-m13-ca 7jw1-a1-m10-ca_7jw1-a1-m14-ca 7jw1-a1-m10-ca_7jw1-a1-m5-ca 7jw1-a1-m10-cA_7jw1-a1-m9-cA 7jw1-a1-m10-cc_7jw1-a1-m10-cb 7jw1-a1-m10-cC_7jw1-a1-m10-cB 7jw1-a1-m10-cc_7jw1-a1-m10-cd 7jw1-a1-m10-cC_7jw1-a1-m10-cD 7jw1-a1-m10-cd_7jw1-a1-m10-cB 7jw1-a1-m10-cD_7jw1-a1-m10-cb 7jw1-a1-m11-ca_7jw1-a1-m12-cA 7jw1-a1-m11-cA_7jw1-a1-m13-ca 7jw1-a1-m11-cA_7jw1-a1-m8-ca 7jw1-a1-m11-cc_7jw1-a1-m11-cb 7jw1-a1-m11-cC_7jw1-a1-m11-cB 7jw1-a1-m11-cc_7jw1-a1-m11-cd 7jw1-a1-m11-cC_7jw1-a1-m11-cD 7jw1-a1-m11-cd_7jw1-a1-m11-cB 7jw1-a1-m11-cD_7jw1-a1-m11-cb 7jw1-a1-m12-ca_7jw1-a1-m13-cA 7jw1-a1-m12-ca_7jw1-a1-m15-cA 7jw1-a1-m12-cA_7jw1-a1-m29-cA 7jw1-a1-m12-cc_7jw1-a1-m12-cb 7jw1-a1-m12-cC_7jw1-a1-m12-cB 7jw1-a1-m12-cc_7jw1-a1-m12-cd 7jw1-a1-m12-cC_7jw1-a1-m12-cD 7jw1-a1-m12-cd_7jw1-a1-m12-cB 7jw1-a1-m12-cD_7jw1-a1-m12-cb 7jw1-a1-m13-cA_7jw1-a1-m14-cA 7jw1-a1-m13-cc_7jw1-a1-m13-cb 7jw1-a1-m13-cC_7jw1-a1-m13-cB 7jw1-a1-m13-cc_7jw1-a1-m13-cd 7jw1-a1-m13-cC_7jw1-a1-m13-cD 7jw1-a1-m13-cd_7jw1-a1-m13-cB 7jw1-a1-m13-cD_7jw1-a1-m13-cb 7jw1-a1-m14-cA_7jw1-a1-m17-ca 7jw1-a1-m14-ca_7jw1-a1-m18-ca 7jw1-a1-m14-cc_7jw1-a1-m14-cb 7jw1-a1-m14-cC_7jw1-a1-m14-cB 7jw1-a1-m14-cc_7jw1-a1-m14-cd 7jw1-a1-m14-cC_7jw1-a1-m14-cD 7jw1-a1-m14-cd_7jw1-a1-m14-cB 7jw1-a1-m14-cD_7jw1-a1-m14-cb 7jw1-a1-m15-ca_7jw1-a1-m16-cA 7jw1-a1-m15-cA_7jw1-a1-m17-ca 7jw1-a1-m15-ca_7jw1-a1-m29-ca 7jw1-a1-m15-cc_7jw1-a1-m15-cb 7jw1-a1-m15-cC_7jw1-a1-m15-cB 7jw1-a1-m15-cc_7jw1-a1-m15-cd 7jw1-a1-m15-cC_7jw1-a1-m15-cD 7jw1-a1-m15-cd_7jw1-a1-m15-cB 7jw1-a1-m15-cD_7jw1-a1-m15-cb 7jw1-a1-m16-ca_7jw1-a1-m17-cA 7jw1-a1-m16-ca_7jw1-a1-m19-cA 7jw1-a1-m16-cA_7jw1-a1-m27-cA 7jw1-a1-m16-cc_7jw1-a1-m16-cb 7jw1-a1-m16-cC_7jw1-a1-m16-cB 7jw1-a1-m16-cc_7jw1-a1-m16-cd 7jw1-a1-m16-cC_7jw1-a1-m16-cD 7jw1-a1-m16-cd_7jw1-a1-m16-cB 7jw1-a1-m16-cD_7jw1-a1-m16-cb 7jw1-a1-m17-cA_7jw1-a1-m18-cA 7jw1-a1-m17-cc_7jw1-a1-m17-cb 7jw1-a1-m17-cC_7jw1-a1-m17-cB 7jw1-a1-m17-cc_7jw1-a1-m17-cd 7jw1-a1-m17-cC_7jw1-a1-m17-cD 7jw1-a1-m17-cd_7jw1-a1-m17-cB 7jw1-a1-m17-cD_7jw1-a1-m17-cb 7jw1-a1-m18-cA_7jw1-a1-m21-ca 7jw1-a1-m18-ca_7jw1-a1-m6-cA 7jw1-a1-m18-cc_7jw1-a1-m18-cb 7jw1-a1-m18-cC_7jw1-a1-m18-cB 7jw1-a1-m18-cc_7jw1-a1-m18-cd 7jw1-a1-m18-cC_7jw1-a1-m18-cD 7jw1-a1-m18-cd_7jw1-a1-m18-cB 7jw1-a1-m18-cD_7jw1-a1-m18-cb 7jw1-a1-m19-ca_7jw1-a1-m20-cA 7jw1-a1-m19-cA_7jw1-a1-m21-ca 7jw1-a1-m19-ca_7jw1-a1-m27-ca 7jw1-a1-m19-cc_7jw1-a1-m19-cb 7jw1-a1-m19-cC_7jw1-a1-m19-cB 7jw1-a1-m19-cc_7jw1-a1-m19-cd 7jw1-a1-m19-cC_7jw1-a1-m19-cD 7jw1-a1-m19-cd_7jw1-a1-m19-cB 7jw1-a1-m19-cD_7jw1-a1-m19-cb 7jw1-a1-m1-cA_7jw1-a1-m11-ca 7jw1-a1-m1-ca_7jw1-a1-m24-ca 7jw1-a1-m1-cA_7jw1-a1-m30-cA 7jw1-a1-m1-ca_7jw1-a1-m8-cA 7jw1-a1-m1-cc_7jw1-a1-m1-cb 7jw1-a1-m1-cC_7jw1-a1-m1-cB 7jw1-a1-m1-cc_7jw1-a1-m1-cd 7jw1-a1-m1-cC_7jw1-a1-m1-cD 7jw1-a1-m1-cd_7jw1-a1-m1-cB 7jw1-a1-m1-cD_7jw1-a1-m1-cb 7jw1-a1-m20-ca_7jw1-a1-m21-cA 7jw1-a1-m20-cA_7jw1-a1-m25-cA 7jw1-a1-m20-cc_7jw1-a1-m20-cb 7jw1-a1-m20-cC_7jw1-a1-m20-cB 7jw1-a1-m20-cc_7jw1-a1-m20-cd 7jw1-a1-m20-cC_7jw1-a1-m20-cD 7jw1-a1-m20-cd_7jw1-a1-m20-cB 7jw1-a1-m20-cD_7jw1-a1-m20-cb 7jw1-a1-m21-cA_7jw1-a1-m6-ca 7jw1-a1-m21-cc_7jw1-a1-m21-cb 7jw1-a1-m21-cC_7jw1-a1-m21-cB 7jw1-a1-m21-cc_7jw1-a1-m21-cd 7jw1-a1-m21-cC_7jw1-a1-m21-cD 7jw1-a1-m21-cd_7jw1-a1-m21-cB 7jw1-a1-m21-cD_7jw1-a1-m21-cb 7jw1-a1-m22-cA_7jw1-a1-m23-cA 7jw1-a1-m22-ca_7jw1-a1-m24-ca 7jw1-a1-m22-cA_7jw1-a1-m3-cA 7jw1-a1-m22-ca_7jw1-a1-m7-ca 7jw1-a1-m22-cc_7jw1-a1-m22-cb 7jw1-a1-m22-cC_7jw1-a1-m22-cB 7jw1-a1-m22-cc_7jw1-a1-m22-cd 7jw1-a1-m22-cC_7jw1-a1-m22-cD 7jw1-a1-m22-cd_7jw1-a1-m22-cB 7jw1-a1-m22-cD_7jw1-a1-m22-cb 7jw1-a1-m23-ca_7jw1-a1-m24-cA 7jw1-a1-m23-cA_7jw1-a1-m25-ca 7jw1-a1-m23-ca_7jw1-a1-m26-ca 7jw1-a1-m23-cc_7jw1-a1-m23-cb 7jw1-a1-m23-cC_7jw1-a1-m23-cB 7jw1-a1-m23-cc_7jw1-a1-m23-cd 7jw1-a1-m23-cC_7jw1-a1-m23-cD 7jw1-a1-m23-cd_7jw1-a1-m23-cB 7jw1-a1-m23-cD_7jw1-a1-m23-cb 7jw1-a1-m24-cA_7jw1-a1-m30-ca 7jw1-a1-m24-cc_7jw1-a1-m24-cb 7jw1-a1-m24-cC_7jw1-a1-m24-cB 7jw1-a1-m24-cc_7jw1-a1-m24-cd 7jw1-a1-m24-cC_7jw1-a1-m24-cD 7jw1-a1-m24-cd_7jw1-a1-m24-cB 7jw1-a1-m24-cD_7jw1-a1-m24-cb 7jw1-a1-m25-cA_7jw1-a1-m26-cA 7jw1-a1-m25-cc_7jw1-a1-m25-cb 7jw1-a1-m25-cC_7jw1-a1-m25-cB 7jw1-a1-m25-cc_7jw1-a1-m25-cd 7jw1-a1-m25-cC_7jw1-a1-m25-cD 7jw1-a1-m25-cd_7jw1-a1-m25-cB 7jw1-a1-m25-cD_7jw1-a1-m25-cb 7jw1-a1-m26-cA_7jw1-a1-m27-ca 7jw1-a1-m26-ca_7jw1-a1-m28-ca 7jw1-a1-m26-cc_7jw1-a1-m26-cb 7jw1-a1-m26-cC_7jw1-a1-m26-cB 7jw1-a1-m26-cc_7jw1-a1-m26-cd 7jw1-a1-m26-cC_7jw1-a1-m26-cD 7jw1-a1-m26-cd_7jw1-a1-m26-cB 7jw1-a1-m26-cD_7jw1-a1-m26-cb 7jw1-a1-m27-cA_7jw1-a1-m28-cA 7jw1-a1-m27-cc_7jw1-a1-m27-cb 7jw1-a1-m27-cC_7jw1-a1-m27-cB 7jw1-a1-m27-cc_7jw1-a1-m27-cd 7jw1-a1-m27-cC_7jw1-a1-m27-cD 7jw1-a1-m27-cd_7jw1-a1-m27-cB 7jw1-a1-m27-cD_7jw1-a1-m27-cb 7jw1-a1-m28-cA_7jw1-a1-m29-ca 7jw1-a1-m28-ca_7jw1-a1-m30-ca 7jw1-a1-m28-cc_7jw1-a1-m28-cb 7jw1-a1-m28-cC_7jw1-a1-m28-cB 7jw1-a1-m28-cc_7jw1-a1-m28-cd 7jw1-a1-m28-cC_7jw1-a1-m28-cD 7jw1-a1-m28-cd_7jw1-a1-m28-cB 7jw1-a1-m28-cD_7jw1-a1-m28-cb 7jw1-a1-m29-cA_7jw1-a1-m30-cA 7jw1-a1-m29-cc_7jw1-a1-m29-cb 7jw1-a1-m29-cC_7jw1-a1-m29-cB 7jw1-a1-m29-cc_7jw1-a1-m29-cd 7jw1-a1-m29-cC_7jw1-a1-m29-cD 7jw1-a1-m29-cd_7jw1-a1-m29-cB 7jw1-a1-m29-cD_7jw1-a1-m29-cb 7jw1-a1-m2-cA_7jw1-a1-m20-ca 7jw1-a1-m2-ca_7jw1-a1-m25-ca 7jw1-a1-m2-ca_7jw1-a1-m3-cA 7jw1-a1-m2-cA_7jw1-a1-m4-ca 7jw1-a1-m2-cc_7jw1-a1-m2-cb 7jw1-a1-m2-cC_7jw1-a1-m2-cB 7jw1-a1-m2-cc_7jw1-a1-m2-cd 7jw1-a1-m2-cC_7jw1-a1-m2-cD 7jw1-a1-m2-cd_7jw1-a1-m2-cB 7jw1-a1-m2-cD_7jw1-a1-m2-cb 7jw1-a1-m30-cc_7jw1-a1-m30-cb 7jw1-a1-m30-cC_7jw1-a1-m30-cB 7jw1-a1-m30-cc_7jw1-a1-m30-cd 7jw1-a1-m30-cC_7jw1-a1-m30-cD 7jw1-a1-m30-cd_7jw1-a1-m30-cB 7jw1-a1-m30-cD_7jw1-a1-m30-cb 7jw1-a1-m3-ca_7jw1-a1-m4-cA 7jw1-a1-m3-ca_7jw1-a1-m7-cA 7jw1-a1-m3-cc_7jw1-a1-m3-cb 7jw1-a1-m3-cC_7jw1-a1-m3-cB 7jw1-a1-m3-cc_7jw1-a1-m3-cd 7jw1-a1-m3-cC_7jw1-a1-m3-cD 7jw1-a1-m3-cd_7jw1-a1-m3-cB 7jw1-a1-m3-cD_7jw1-a1-m3-cb 7jw1-a1-m4-cA_7jw1-a1-m5-cA 7jw1-a1-m4-ca_7jw1-a1-m6-ca 7jw1-a1-m4-cc_7jw1-a1-m4-cb 7jw1-a1-m4-cC_7jw1-a1-m4-cB 7jw1-a1-m4-cc_7jw1-a1-m4-cd 7jw1-a1-m4-cC_7jw1-a1-m4-cD 7jw1-a1-m4-cd_7jw1-a1-m4-cB 7jw1-a1-m4-cD_7jw1-a1-m4-cb 7jw1-a1-m5-ca_7jw1-a1-m6-cA 7jw1-a1-m5-cA_7jw1-a1-m9-ca 7jw1-a1-m5-cc_7jw1-a1-m5-cb 7jw1-a1-m5-cC_7jw1-a1-m5-cB 7jw1-a1-m5-cc_7jw1-a1-m5-cd 7jw1-a1-m5-cC_7jw1-a1-m5-cD 7jw1-a1-m5-cd_7jw1-a1-m5-cB 7jw1-a1-m5-cD_7jw1-a1-m5-cb 7jw1-a1-m6-cc_7jw1-a1-m6-cb 7jw1-a1-m6-cC_7jw1-a1-m6-cB 7jw1-a1-m6-cc_7jw1-a1-m6-cd 7jw1-a1-m6-cC_7jw1-a1-m6-cD 7jw1-a1-m6-cd_7jw1-a1-m6-cB 7jw1-a1-m6-cD_7jw1-a1-m6-cb 7jw1-a1-m7-ca_7jw1-a1-m8-cA 7jw1-a1-m7-cA_7jw1-a1-m9-ca 7jw1-a1-m7-cc_7jw1-a1-m7-cb 7jw1-a1-m7-cC_7jw1-a1-m7-cB 7jw1-a1-m7-cc_7jw1-a1-m7-cd 7jw1-a1-m7-cC_7jw1-a1-m7-cD 7jw1-a1-m7-cd_7jw1-a1-m7-cB 7jw1-a1-m7-cD_7jw1-a1-m7-cb 7jw1-a1-m8-ca_7jw1-a1-m9-cA 7jw1-a1-m8-cc_7jw1-a1-m8-cb 7jw1-a1-m8-cC_7jw1-a1-m8-cB 7jw1-a1-m8-cc_7jw1-a1-m8-cd 7jw1-a1-m8-cC_7jw1-a1-m8-cD 7jw1-a1-m8-cd_7jw1-a1-m8-cB 7jw1-a1-m8-cD_7jw1-a1-m8-cb 7jw1-a1-m9-cc_7jw1-a1-m9-cb 7jw1-a1-m9-cC_7jw1-a1-m9-cB 7jw1-a1-m9-cc_7jw1-a1-m9-cd 7jw1-a1-m9-cC_7jw1-a1-m9-cD 7jw1-a1-m9-cD_7jw1-a1-m9-cb MRQETRFKFNAYLSVSKKFTVEPSVTQTLMNTMQESSDFLTRINIVPVSEMKGEKIGIGVTGSIASTTDTAGGTERQPKDFSKLASNKYECDQINFDFYIRYKTLDLWARYQDFQLRIRNAIIKRQSLDFIMAGFNGVKRAETSDRSSNPMLQDVAVGWLQKYRNEAPARVMSKVTSEVIRVGKGGDYASLDALVMDATNNLIEPWYQEDPDLVVIVGRQLLDVIISQKRIGNLPAVRVPYFPADAMLITKLENLSIYYMDDSHRRVIEENPKLDRVENYESMNIDYVVEDYAAGCLVEKIKVGDFS MRQETRFKFNAYLSVSKKFTVEPSVTQTLMNTMQESSDFLTRINIVPVSEMKGEKIGIGVTGSIASTTDTAGGTERQPKDFSKLASNKYECDQINFDFYIRYKTLDLWARYQDFQLRIRNAIIKRQSLDFIMAGFNGVKRAETSDRSSNPMLQDVAVGWLQKYRNEAPARVMSKVTDEEGRTTSEVIRVGKGGDYASLDALVMDATNNLIEPWYQEDPDLVVIVGRQLLADKYFPIVNKEQADVIISQKRIGNLPAVRVPYFPADAMLITKLENLSIYYMDDSHRRVIEENPKLDRVENYESMNIDYVVEDYAAGCLVEKIKVGDFS 7jw2-a1-m1-cB_7jw2-a1-m1-cA Crystal structure of Aedes aegypti Nibbler EXO domain Q179T2 Q179T2 1.5 X-RAY DIFFRACTION 46 1.0 7159 (Aedes aegypti) 7159 (Aedes aegypti) 218 219 AHTLRLDESHVHLVDSKDKFYAMLSDLCRQSMIAFASEWKPTFGGANEVSLIQLATWDDVYMIDVMVSQLEPLDWAALAKNVFNRDDVLKLSFAPSTDISMFQKALPSFNVMYSSQSTSAILDLQLLWRHVERFDSFRFPYHEESVNQNLANLVRLCLGKKLDKSNQFSNWAQRPLRKEQLRYAALDAFCLLEIYDAIEKQLTHIQLDPNEILNALLN AHTLRLDESHVHLVDSKDKFYAMLSDLCRQSMIAFASEWKPTFGGANEVSLIQLATWDDVYMIDVMVSQLEPLDWAALAKNVFNRDDVLKLSFAPSTDISMFQKALPSFNVMYSSQSTSAILDLQLLWRHVERFDSFRFPYHEESVNQNLANLVRLCLGKKLDKSNQFSNWAQRPLRKEQLRYAALDAFCLLEIYDAIEKQLTHIQLDPNEILNALLND 7jw6-a1-m1-cA_7jw6-a1-m2-cA Crystal structure of Drosophila Nibbler EXO domain Q9VIF1 Q9VIF1 1.5 X-RAY DIFFRACTION 112 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 226 226 MYLTMDLPDECLIIVNKADEFDRMLYHLQQECVIYLASEWMQSVCGDNQLCVLQIATGHNVYLIDCLARESLRSEHWRLLGANIFNNVNIRKVGFSMVSDLSVLQRSLPLQLRLQMPHHYLDLRNLWLELKKQRFGVELPFGNVNRAGDALTDLSLACLGKKLNKSNQCSNWANRPLRREQILYAAIDARCLMLIYNTLIERVSFIQAVIEKSIASNNFLRRGAHV MYLTMDLPDECLIIVNKADEFDRMLYHLQQECVIYLASEWMQSVCGDNQLCVLQIATGHNVYLIDCLARESLRSEHWRLLGANIFNNVNIRKVGFSMVSDLSVLQRSLPLQLRLQMPHHYLDLRNLWLELKKQRFGVELPFGNVNRAGDALTDLSLACLGKKLNKSNQCSNWANRPLRREQILYAAIDARCLMLIYNTLIERVSFIQAVIEKSIASNNFLRRGAHV 7jw9-a1-m1-cA_7jw9-a1-m1-cC Ternary cocrystal structure of alkanesulfonate monooxygenase MsuD from Pseudomonas fluorescens Q3K9A1 Q3K9A1 2.39 X-RAY DIFFRACTION 28 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 378 378 7jw9-a1-m1-cB_7jw9-a1-m1-cD 7jyb-a2-m1-cF_7jyb-a2-m1-cH 7k14-a2-m1-cF_7k14-a2-m1-cH 7k64-a1-m1-cB_7k64-a1-m1-cD 7k64-a2-m1-cF_7k64-a2-m1-cH SMDVFWFLPTHGDGHYLGTTQGARPVTLNYLKQVAQAADSLGYHGVLIPTGRSCEDSWVIASALVPLTERLRYLVAIRPGIISPTVSARMAATLDRLSNGRLLINVVTGGDPDENRGDGSFLSHSERYEVTDEFLKIWRRVLQGEAVDFEGKHLKVQNAKALYPPVQKPYPPLYFGGSSDAAHDLAAEQVDVYLTWGEPPAAVAEKLADVRERAARHGRKVKFGIRLHVIVRETAEEAWKAADKLIEHISDETIEAAQKSFSRFDSEGQRRMAALHDGRRDNLEIAPNLWAGVGLVRGGSGTALVGDPQQVAARIKEYADLGIESFIFSGYPHLEEAYRFAELVFPLLPEPYASLAGRGVTNLTGPFGEMIANDVLPA SMDVFWFLPTHGDGHYLGTTQGARPVTLNYLKQVAQAADSLGYHGVLIPTGRSCEDSWVIASALVPLTERLRYLVAIRPGIISPTVSARMAATLDRLSNGRLLINVVTGGDPDENRGDGSFLSHSERYEVTDEFLKIWRRVLQGEAVDFEGKHLKVQNAKALYPPVQKPYPPLYFGGSSDAAHDLAAEQVDVYLTWGEPPAAVAEKLADVRERAARHGRKVKFGIRLHVIVRETAEEAWKAADKLIEHISDETIEAAQKSFSRFDSEGQRRMAALHDGRRDNLEIAPNLWAGVGLVRGGSGTALVGDPQQVAARIKEYADLGIESFIFSGYPHLEEAYRFAELVFPLLPEPYASLAGRGVTNLTGPFGEMIANDVLPA 7jw9-a1-m1-cB_7jw9-a1-m1-cC Ternary cocrystal structure of alkanesulfonate monooxygenase MsuD from Pseudomonas fluorescens Q3K9A1 Q3K9A1 2.39 X-RAY DIFFRACTION 188 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 378 378 7jv3-a1-m1-cA_7jv3-a1-m1-cD 7jv3-a1-m1-cB_7jv3-a1-m1-cC 7jv3-a2-m1-cE_7jv3-a2-m1-cH 7jv3-a2-m1-cF_7jv3-a2-m1-cG 7jw9-a1-m1-cA_7jw9-a1-m1-cD 7jyb-a1-m1-cB_7jyb-a1-m1-cC 7jyb-a1-m1-cD_7jyb-a1-m1-cA 7jyb-a2-m1-cG_7jyb-a2-m1-cF 7k14-a1-m1-cA_7k14-a1-m1-cD 7k14-a1-m1-cB_7k14-a1-m1-cC 7k14-a2-m1-cF_7k14-a2-m1-cG 7k64-a2-m1-cF_7k64-a2-m1-cG SMDVFWFLPTHGDGHYLGTTQGARPVTLNYLKQVAQAADSLGYHGVLIPTGRSCEDSWVIASALVPLTERLRYLVAIRPGIISPTVSARMAATLDRLSNGRLLINVVTGGDPDENRGDGSFLSHSERYEVTDEFLKIWRRVLQGEAVDFEGKHLKVQNAKALYPPVQKPYPPLYFGGSSDAAHDLAAEQVDVYLTWGEPPAAVAEKLADVRERAARHGRKVKFGIRLHVIVRETAEEAWKAADKLIEHISDETIEAAQKSFSRFDSEGQRRMAALHDGRRDNLEIAPNLWAGVGLVRGGSGTALVGDPQQVAARIKEYADLGIESFIFSGYPHLEEAYRFAELVFPLLPEPYASLAGRGVTNLTGPFGEMIANDVLPA SMDVFWFLPTHGDGHYLGTTQGARPVTLNYLKQVAQAADSLGYHGVLIPTGRSCEDSWVIASALVPLTERLRYLVAIRPGIISPTVSARMAATLDRLSNGRLLINVVTGGDPDENRGDGSFLSHSERYEVTDEFLKIWRRVLQGEAVDFEGKHLKVQNAKALYPPVQKPYPPLYFGGSSDAAHDLAAEQVDVYLTWGEPPAAVAEKLADVRERAARHGRKVKFGIRLHVIVRETAEEAWKAADKLIEHISDETIEAAQKSFSRFDSEGQRRMAALHDGRRDNLEIAPNLWAGVGLVRGGSGTALVGDPQQVAARIKEYADLGIESFIFSGYPHLEEAYRFAELVFPLLPEPYASLAGRGVTNLTGPFGEMIANDVLPA 7jw9-a1-m1-cC_7jw9-a1-m1-cD Ternary cocrystal structure of alkanesulfonate monooxygenase MsuD from Pseudomonas fluorescens Q3K9A1 Q3K9A1 2.39 X-RAY DIFFRACTION 144 1.0 205922 (Pseudomonas fluorescens Pf0-1) 205922 (Pseudomonas fluorescens Pf0-1) 378 378 7jv3-a1-m1-cA_7jv3-a1-m1-cB 7jv3-a1-m1-cC_7jv3-a1-m1-cD 7jv3-a2-m1-cE_7jv3-a2-m1-cF 7jv3-a2-m1-cH_7jv3-a2-m1-cG 7jw9-a1-m1-cA_7jw9-a1-m1-cB 7jyb-a1-m1-cB_7jyb-a1-m1-cA 7jyb-a1-m1-cD_7jyb-a1-m1-cC 7jyb-a2-m1-cF_7jyb-a2-m1-cE 7jyb-a2-m1-cG_7jyb-a2-m1-cH 7k14-a1-m1-cB_7k14-a1-m1-cA 7k14-a1-m1-cC_7k14-a1-m1-cD 7k14-a2-m1-cF_7k14-a2-m1-cE 7k64-a2-m1-cF_7k64-a2-m1-cE 7k64-a2-m1-cG_7k64-a2-m1-cH SMDVFWFLPTHGDGHYLGTTQGARPVTLNYLKQVAQAADSLGYHGVLIPTGRSCEDSWVIASALVPLTERLRYLVAIRPGIISPTVSARMAATLDRLSNGRLLINVVTGGDPDENRGDGSFLSHSERYEVTDEFLKIWRRVLQGEAVDFEGKHLKVQNAKALYPPVQKPYPPLYFGGSSDAAHDLAAEQVDVYLTWGEPPAAVAEKLADVRERAARHGRKVKFGIRLHVIVRETAEEAWKAADKLIEHISDETIEAAQKSFSRFDSEGQRRMAALHDGRRDNLEIAPNLWAGVGLVRGGSGTALVGDPQQVAARIKEYADLGIESFIFSGYPHLEEAYRFAELVFPLLPEPYASLAGRGVTNLTGPFGEMIANDVLPA SMDVFWFLPTHGDGHYLGTTQGARPVTLNYLKQVAQAADSLGYHGVLIPTGRSCEDSWVIASALVPLTERLRYLVAIRPGIISPTVSARMAATLDRLSNGRLLINVVTGGDPDENRGDGSFLSHSERYEVTDEFLKIWRRVLQGEAVDFEGKHLKVQNAKALYPPVQKPYPPLYFGGSSDAAHDLAAEQVDVYLTWGEPPAAVAEKLADVRERAARHGRKVKFGIRLHVIVRETAEEAWKAADKLIEHISDETIEAAQKSFSRFDSEGQRRMAALHDGRRDNLEIAPNLWAGVGLVRGGSGTALVGDPQQVAARIKEYADLGIESFIFSGYPHLEEAYRFAELVFPLLPEPYASLAGRGVTNLTGPFGEMIANDVLPA 7jwf-a2-m1-cD_7jwf-a2-m2-cC Crystal structure of PdGH110B D344N in complex with alpha-(1,3)-galactobiose 2.187 X-RAY DIFFRACTION 114 1.0 77608 (Pseudoalteromonas distincta) 77608 (Pseudoalteromonas distincta) 582 582 7jw4-a1-m1-cA_7jw4-a1-m2-cA 7jw4-a2-m1-cB_7jw4-a2-m3-cB 7jwf-a1-m1-cB_7jwf-a1-m1-cA DKVIDVSDFGAIKDTGSDSTHSLYKALQEAKKIGATKITFPKGRYDFYEERAADRLMYISNNDPGIKRITFPLSSFNNLEIDGNNSTFIFHGGLVPFILDESSHIVLRNFSIDFSRAFHSEALIAGAGKGYLDLKFTDQFPYKINEAGILKFQSQLFDRLKRKQISQDEYKYEYKRVLEFNFALREPEYMAQDIFTGNALRAEKLNDVVRIFHPNLKAKVGNILVFQAKHRDYPGVVISDSNNVELHNITIHHAGGMGVIAQRSHNITIKDSKVSPSKGRIVSTTADATHFVNCTGKIKLIDNLFESQKNDATNIHGVYAAIDKIIDDKTVEIKLQHPQQFGFDFIAPEDELELVHGASLITYETNKVVTSTRVSNEVTRVQFIKPFDSRIKEGDSVSKVRSYAEVIIKGNIIRKNRARGMLLNSRGKTLIENNYFHTPGSAILFEGDANFWFEQGGVSDVTIKNNVFENSFYSQWGKGIIAVDAGIDDKFKETSRYNKNIVIKGNTFKVFDKAPILNLFSVSNLVFENNIIEKTTEYPERKKYNSLFVINNSDNITISINNILQGFSEGKSQLLSPTTTYK DKVIDVSDFGAIKDTGSDSTHSLYKALQEAKKIGATKITFPKGRYDFYEERAADRLMYISNNDPGIKRITFPLSSFNNLEIDGNNSTFIFHGGLVPFILDESSHIVLRNFSIDFSRAFHSEALIAGAGKGYLDLKFTDQFPYKINEAGILKFQSQLFDRLKRKQISQDEYKYEYKRVLEFNFALREPEYMAQDIFTGNALRAEKLNDVVRIFHPNLKAKVGNILVFQAKHRDYPGVVISDSNNVELHNITIHHAGGMGVIAQRSHNITIKDSKVSPSKGRIVSTTADATHFVNCTGKIKLIDNLFESQKNDATNIHGVYAAIDKIIDDKTVEIKLQHPQQFGFDFIAPEDELELVHGASLITYETNKVVTSTRVSNEVTRVQFIKPFDSRIKEGDSVSKVRSYAEVIIKGNIIRKNRARGMLLNSRGKTLIENNYFHTPGSAILFEGDANFWFEQGGVSDVTIKNNVFENSFYSQWGKGIIAVDAGIDDKFKETSRYNKNIVIKGNTFKVFDKAPILNLFSVSNLVFENNIIEKTTEYPERKKYNSLFVINNSDNITISINNILQGFSEGKSQLLSPTTTYK 7jwk-a2-m1-cD_7jwk-a2-m1-cC Crystal Structure of Glyceraldehyde-3-phosphate Dehydrogenase (GAPDH) from Mycoplasma genitalium with bound NAD P47543 P47543 2.2 X-RAY DIFFRACTION 125 1.0 243273 (Mycoplasmoides genitalium G37) 243273 (Mycoplasmoides genitalium G37) 328 333 7jwk-a1-m1-cA_7jwk-a1-m1-cB TIKVAINGFGRIGRLVFRSLLSKANVEVVAINDLTQPEVLAHLLKYDSAHGELKRKITVKQNILQIDRKKVYVFSEKDPQNLPWDEHDIDVVIESTGRFVSEEGASLHLKAGAKRVIISAPAKEKTIRTVVYNVNHKTISSDDKIISAASCTTNCLAPLVHVLEKNFGIVYGTMLTVHAYTADQRLQDAPHNDLRRARAAAVNIVPTTTGAAKAIGLVVPEANGKLNGMSLRVPVLTGSIVELSVVLEKSPSVEQVNQAMKRFASASFKYCEDPIVSSDVVSSEYGSIFDSKLTNIVEVDGMKLYKVYAWYDNESSYVHQLVRVVSYC HRTIKVAINGFGRIGRLVFRSLLSKANVEVVAINDLTQPEVLAHLLKYDSAHGELKRKITVKQNILQIDRKKVYVFSEKDPQNLPWDEHDIDVVIESTGRFVSEEGASLHLKAGAKRVIISAPAKEKTIRTVVYNVNHKTISSDDKIISAASCTTNCLAPLVHVLEKNFGIVYGTMLTVHAYTADQRLQDAPHNDLRRARAAAVNIVPTTTGAAKAIGLVVPEANGKLNGMSLRVPVLTGSIVELSVVLEKSPSVEQVNQAMKRFASASFKYCEDPIVSSDVVSSEYGSIFDSKLTNIVEVDGMKLYKVYAWYDNESSYVHQLVRVVSYCAKL 7jx4-a1-m1-cA_7jx4-a1-m1-cB Crystal Structure of N-Lysine Peptoid-modified Collagen Triple Helix 0.95 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 GPGPGPGGPGPGP GPGPGPGGPGPGP 7jx4-a1-m1-cA_7jx4-a1-m1-cC Crystal Structure of N-Lysine Peptoid-modified Collagen Triple Helix 0.95 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 GPGPGPGGPGPGP GPGPGPGGPGPGP 7jx4-a1-m1-cB_7jx4-a1-m1-cC Crystal Structure of N-Lysine Peptoid-modified Collagen Triple Helix 0.95 X-RAY DIFFRACTION 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 GPGPGPGGPGPGP GPGPGPGGPGPGP 7jx5-a2-m1-cD_7jx5-a2-m1-cE Crystal Structure of N-Phenylalanine Peptoid-modified Collagen Triple Helix 1.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jx5-a1-m1-cA_7jx5-a1-m1-cB GPGPGPGGPGPGP GPGPGPGGPGPGP 7jx5-a2-m1-cD_7jx5-a2-m1-cF Crystal Structure of N-Phenylalanine Peptoid-modified Collagen Triple Helix 1.1 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jx5-a1-m1-cA_7jx5-a1-m1-cC GPGPGPGGPGPGP GPGPGPGGPGPGP 7jx5-a2-m1-cE_7jx5-a2-m1-cF Crystal Structure of N-Phenylalanine Peptoid-modified Collagen Triple Helix 1.1 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 7jx5-a1-m1-cB_7jx5-a1-m1-cC GPGPGPGGPGPGP GPGPGPGGPGPGP 7jx6-a2-m1-cA_7jx6-a2-m2-cA STRUCTURE OF THE SARS-CoV-2 ORF8 ENCODED ACCESSORY PROTEIN P0DTC8 P0DTC8 1.61 X-RAY DIFFRACTION 29 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 104 104 QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVDEAGSKSPIQYIDIGNYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVDEAGSKSPIQYIDIGNYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI 7jx6-a2-m1-cB_7jx6-a2-m2-cA STRUCTURE OF THE SARS-CoV-2 ORF8 ENCODED ACCESSORY PROTEIN P0DTC8 P0DTC8 1.61 X-RAY DIFFRACTION 10 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 88 104 QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVDEAGSKSPIQYIDIGNYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI 7jx6-a2-m2-cB_7jx6-a2-m1-cA STRUCTURE OF THE SARS-CoV-2 ORF8 ENCODED ACCESSORY PROTEIN P0DTC8 P0DTC8 1.61 X-RAY DIFFRACTION 10 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 88 104 QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVDEAGSKSPIQYIDIGNYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI 7jx6-a2-m2-cB_7jx6-a2-m2-cA STRUCTURE OF THE SARS-CoV-2 ORF8 ENCODED ACCESSORY PROTEIN P0DTC8 P0DTC8 1.61 X-RAY DIFFRACTION 54 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 88 104 7f8l-a1-m1-cA_7f8l-a1-m1-cB 7jtl-a1-m1-cB_7jtl-a1-m1-cA 7jx6-a1-m1-cB_7jx6-a1-m1-cA 7jx6-a2-m1-cB_7jx6-a2-m1-cA QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI QECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVDEAGSKSPIQYIDIGNYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI 7jxa-a1-m1-cC_7jxa-a1-m1-cD CRYSTAL STRUCTURE OF NATIVE BOVINE ARRESTIN 1 IN COMPLEX WITH INOSITOL 1,4,5-TRIPHOSPHATE P08168 P08168 2.4 X-RAY DIFFRACTION 44 0.989 9913 (Bos taurus) 9913 (Bos taurus) 361 365 1ayr-a1-m1-cB_1ayr-a1-m1-cA 1ayr-a1-m1-cD_1ayr-a1-m1-cC 7jsm-a1-m1-cA_7jsm-a1-m1-cB 7jsm-a1-m1-cC_7jsm-a1-m1-cD 7jtb-a1-m1-cB_7jtb-a1-m1-cA 7jtb-a1-m1-cC_7jtb-a1-m1-cD 7jxa-a1-m1-cB_7jxa-a1-m1-cA 7mor-a1-m1-cB_7mor-a1-m1-cA 7mp0-a1-m1-cB_7mp0-a1-m1-cA 7mp0-a1-m1-cC_7mp0-a1-m1-cD 7mp1-a1-m1-cB_7mp1-a1-m1-cA 7mp1-a1-m1-cC_7mp1-a1-m1-cD 7mp2-a1-m1-cB_7mp2-a1-m1-cA 7mp2-a1-m1-cC_7mp2-a1-m1-cD NHVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDVEEDKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLGELTSSEVATEVPFRLMHPQPEDQDENFVFEEFARQNL NHVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQEDIDVMGLSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDVEEDKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLELTSSEVATEVPFRLMHPQPEDENFVFEEFARQNL 7jxi-a1-m1-cC_7jxi-a1-m2-cD EGFR kinase (T790M/V948R) in complex with PF-06747775 P00533 P00533 3 X-RAY DIFFRACTION 58 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 283 289 NQALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREPKANKEILDEAYVMASVDNPHVCRLLGICLTSTVQLIMQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITDFGVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQPPICTIDVYMIMRKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDLPSPTDSNFYRALMDEEDM ALLRILKETEFKKIKVLGSGAFGTVYKGLWIPEGEKVKIPVAIKELREATANKEILDEAYVMASVDNPHVCRLLGICLTSTVQLIMQLMPFGCLLDYVREHKDNIGSQYLLNWCVQIAKGMNYLEDRRLVHRDLAARNVLVKTPQHVKITDFGLAKLLVPIKWMALESILHRIYTHQSDVWSYGVTVWELMTFGSKPYDGIPASEISSILEKGERLPQPPICTIDVYMIMRKCWMIDADSRPKFRELIIEFSKMARDPQRYLVIQGDERMHLPSPTDSNFYRALMDEED 7jxn-a2-m1-cB_7jxn-a2-m1-cC Beta hairpin derived from Abeta17-36 with an F20Cha mutation P05067 P05067 2 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 7jxn-a1-m1-cA_7jxn-a1-m1-cD VLVFAEDVGSNKGAIIGL VLVFAEDVGSNKGAIIGL 7jxo-a1-m1-cB_7jxo-a1-m4-cC Triangular trimer of beta-hairpins derived from Abeta17-36 with an F20Cha mutation P05067 P05067 2.81 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 18 18 7jxo-a1-m1-cA_7jxo-a1-m2-cB 7jxo-a1-m1-cA_7jxo-a1-m3-cC 7jxo-a1-m1-cB_7jxo-a1-m2-cA 7jxo-a1-m1-cC_7jxo-a1-m3-cA 7jxo-a1-m1-cC_7jxo-a1-m4-cB 7jxo-a1-m2-cA_7jxo-a1-m4-cC 7jxo-a1-m2-cB_7jxo-a1-m3-cC 7jxo-a1-m2-cC_7jxo-a1-m3-cB 7jxo-a1-m2-cC_7jxo-a1-m4-cA 7jxo-a1-m3-cA_7jxo-a1-m4-cB 7jxo-a1-m3-cB_7jxo-a1-m4-cA VCVFCEDVGSNKGAIIGL VCVFCEDVGSNKGAIIGL 7jyp-a1-m1-cA_7jyp-a1-m2-cA Structure of thioredoxin reductase from the thermophilic eubacterium Thermosipho africanus TCF52B B7ICV3 B7ICV3 1.6 X-RAY DIFFRACTION 135 1.0 484019 (Thermosipho africanus TCF52B) 484019 (Thermosipho africanus TCF52B) 305 305 GPKDYYDILIIGGGPAGLTAAIYAGRAGLSAAVFEKALEGGAVTQTHVVENWPGFIRIEGSELGEKFAEHAKAFGAEIITAEVLKISYDNEYKYVELDNGKKVKGKVLIYATGAVPRKLGVPGEEEFRGRGVTYCAACDGYLFSGKDIVVVGGGDSACDEAHFLAKMVKSITMVQNLPYLTAAKVLQDRLLENKNVKVILNSLVKEIRGKDKVEEVVVVNNETGEETVIKAEGVFIYVGLVPKSDLLKGIVDINEYGYIKTDENMETNVPGIYAVGDVREKNLRQIVTAAADGAIAVEHAAKKYF GPKDYYDILIIGGGPAGLTAAIYAGRAGLSAAVFEKALEGGAVTQTHVVENWPGFIRIEGSELGEKFAEHAKAFGAEIITAEVLKISYDNEYKYVELDNGKKVKGKVLIYATGAVPRKLGVPGEEEFRGRGVTYCAACDGYLFSGKDIVVVGGGDSACDEAHFLAKMVKSITMVQNLPYLTAAKVLQDRLLENKNVKVILNSLVKEIRGKDKVEEVVVVNNETGEETVIKAEGVFIYVGLVPKSDLLKGIVDINEYGYIKTDENMETNVPGIYAVGDVREKNLRQIVTAAADGAIAVEHAAKKYF 7jz6-a1-m1-cB_7jz6-a1-m1-cD The Cryo-EM structure of the Catalase-peroxidase from Escherichia coli A0A037YMJ1 A0A037YMJ1 2.53 ELECTRON MICROSCOPY 48 1.0 562 (Escherichia coli) 562 (Escherichia coli) 662 662 7jz6-a1-m1-cA_7jz6-a1-m1-cC PNQLRVDLLNQHSNRSNPLGEDFDYRKEFSKLDYYGLKKDLKALLTESQPWWPADWGSYAGLFIRMAWHGAGTYRSIDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGQKISWADLFILAGNVALENSGFRTFGFGAGREDVWEPDLDVNGLIYVNPEGPDHSGEPLSAAAAIRATFGNMGMNDEETVALIAGGHTLGKTHGAGPTSNVGPDPEAAPIEEQGLGWASTYGSGVGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAVDAPEIIPDPFDPSKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYIGPEVPKEDLIWQDPLPQPIYNPTEQDIIDLKFAIADSGLSVSELVSVAWASASTFRGGDKRGGANGARLALMPQRDWDVNAAAVRALPVLEKIQKESGKASLADIIVLAGVVGVEKAASAAGLSIHVPFAPGRVDARQDQTDIEMFELLEPIADGFRNYRARLDVSTTESLLIDKAQQLTLTAPEMTALVGGMRVLGANFDGSKNGVFTDRVGVLSNDFFVNLLDMRYEWKATDESKELFEGRDRETGEVKFTASRADLVFGSNSVLRAVAEVYASSDAHEKFVKDFVAAWVKVMNLDRFDL PNQLRVDLLNQHSNRSNPLGEDFDYRKEFSKLDYYGLKKDLKALLTESQPWWPADWGSYAGLFIRMAWHGAGTYRSIDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGQKISWADLFILAGNVALENSGFRTFGFGAGREDVWEPDLDVNGLIYVNPEGPDHSGEPLSAAAAIRATFGNMGMNDEETVALIAGGHTLGKTHGAGPTSNVGPDPEAAPIEEQGLGWASTYGSGVGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAVDAPEIIPDPFDPSKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYIGPEVPKEDLIWQDPLPQPIYNPTEQDIIDLKFAIADSGLSVSELVSVAWASASTFRGGDKRGGANGARLALMPQRDWDVNAAAVRALPVLEKIQKESGKASLADIIVLAGVVGVEKAASAAGLSIHVPFAPGRVDARQDQTDIEMFELLEPIADGFRNYRARLDVSTTESLLIDKAQQLTLTAPEMTALVGGMRVLGANFDGSKNGVFTDRVGVLSNDFFVNLLDMRYEWKATDESKELFEGRDRETGEVKFTASRADLVFGSNSVLRAVAEVYASSDAHEKFVKDFVAAWVKVMNLDRFDL 7jz6-a1-m1-cC_7jz6-a1-m1-cD The Cryo-EM structure of the Catalase-peroxidase from Escherichia coli A0A037YMJ1 A0A037YMJ1 2.53 ELECTRON MICROSCOPY 178 1.0 562 (Escherichia coli) 562 (Escherichia coli) 662 662 7jz6-a1-m1-cA_7jz6-a1-m1-cB PNQLRVDLLNQHSNRSNPLGEDFDYRKEFSKLDYYGLKKDLKALLTESQPWWPADWGSYAGLFIRMAWHGAGTYRSIDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGQKISWADLFILAGNVALENSGFRTFGFGAGREDVWEPDLDVNGLIYVNPEGPDHSGEPLSAAAAIRATFGNMGMNDEETVALIAGGHTLGKTHGAGPTSNVGPDPEAAPIEEQGLGWASTYGSGVGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAVDAPEIIPDPFDPSKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYIGPEVPKEDLIWQDPLPQPIYNPTEQDIIDLKFAIADSGLSVSELVSVAWASASTFRGGDKRGGANGARLALMPQRDWDVNAAAVRALPVLEKIQKESGKASLADIIVLAGVVGVEKAASAAGLSIHVPFAPGRVDARQDQTDIEMFELLEPIADGFRNYRARLDVSTTESLLIDKAQQLTLTAPEMTALVGGMRVLGANFDGSKNGVFTDRVGVLSNDFFVNLLDMRYEWKATDESKELFEGRDRETGEVKFTASRADLVFGSNSVLRAVAEVYASSDAHEKFVKDFVAAWVKVMNLDRFDL PNQLRVDLLNQHSNRSNPLGEDFDYRKEFSKLDYYGLKKDLKALLTESQPWWPADWGSYAGLFIRMAWHGAGTYRSIDGRGGAGRGQQRFAPLNSWPDNVSLDKARRLLWPIKQKYGQKISWADLFILAGNVALENSGFRTFGFGAGREDVWEPDLDVNGLIYVNPEGPDHSGEPLSAAAAIRATFGNMGMNDEETVALIAGGHTLGKTHGAGPTSNVGPDPEAAPIEEQGLGWASTYGSGVGADAITSGLEVVWTQTPTQWSNYFFENLFKYEWVQTRSPAGAIQFEAVDAPEIIPDPFDPSKKRKPTMLVTDLTLRFDPEFEKISRRFLNDPQAFNEAFARAWFKLTHRDMGPKSRYIGPEVPKEDLIWQDPLPQPIYNPTEQDIIDLKFAIADSGLSVSELVSVAWASASTFRGGDKRGGANGARLALMPQRDWDVNAAAVRALPVLEKIQKESGKASLADIIVLAGVVGVEKAASAAGLSIHVPFAPGRVDARQDQTDIEMFELLEPIADGFRNYRARLDVSTTESLLIDKAQQLTLTAPEMTALVGGMRVLGANFDGSKNGVFTDRVGVLSNDFFVNLLDMRYEWKATDESKELFEGRDRETGEVKFTASRADLVFGSNSVLRAVAEVYASSDAHEKFVKDFVAAWVKVMNLDRFDL 7jzl-a1-m1-cA_7jzl-a1-m1-cC SARS-CoV-2 spike in complex with LCB1 (2RBDs open) P0DTC2 P0DTC2 2.7 ELECTRON MICROSCOPY 281 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 980 984 7jzl-a1-m1-cB_7jzl-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFDPFLCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7jzl-a1-m1-cB_7jzl-a1-m1-cC SARS-CoV-2 spike in complex with LCB1 (2RBDs open) P0DTC2 P0DTC2 2.7 ELECTRON MICROSCOPY 261 0.997 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 976 984 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7jzn-a1-m1-cA_7jzn-a1-m1-cC SARS-CoV-2 spike in complex with LCB3 (2RBDs open) P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 274 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 986 7jzn-a1-m1-cA_7jzn-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFPFLCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7jzn-a1-m1-cB_7jzn-a1-m1-cC SARS-CoV-2 spike in complex with LCB3 (2RBDs open) P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 264 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 986 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFCTFEYVSNLREFVFKNYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7jzx-a1-m1-cH_7jzx-a1-m1-cG Cryo-EM structure of CRISPR-Cas surveillance complex with AcrIF7 Q02MM1 Q02MM1 3.4 ELECTRON MICROSCOPY 117 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 330 335 5uz9-a1-m1-cD_5uz9-a1-m1-cE 5uz9-a1-m1-cE_5uz9-a1-m1-cF 5uz9-a1-m1-cG_5uz9-a1-m1-cF 5uz9-a1-m1-cG_5uz9-a1-m1-cH 5xlo-a1-m1-cB_5xlo-a1-m1-cC 5xlo-a1-m1-cC_5xlo-a1-m1-cD 5xlo-a1-m1-cD_5xlo-a1-m1-cE 5xlo-a1-m1-cE_5xlo-a1-m1-cF 5xlp-a1-m1-cD_5xlp-a1-m1-cE 5xlp-a1-m1-cE_5xlp-a1-m1-cF 6b44-a1-m1-cD_6b44-a1-m1-cE 6b44-a1-m1-cE_6b44-a1-m1-cF 6b44-a1-m1-cG_6b44-a1-m1-cF 6b44-a1-m1-cG_6b44-a1-m1-cH 6b45-a1-m1-cD_6b45-a1-m1-cE 6b45-a1-m1-cE_6b45-a1-m1-cF 6b45-a1-m1-cG_6b45-a1-m1-cF 6b45-a1-m1-cG_6b45-a1-m1-cH 6b46-a1-m1-cD_6b46-a1-m1-cE 6b46-a1-m1-cE_6b46-a1-m1-cF 6b46-a1-m1-cG_6b46-a1-m1-cF 6b46-a1-m1-cG_6b46-a1-m1-cH 6b47-a1-m1-cD_6b47-a1-m1-cE 6b47-a1-m1-cE_6b47-a1-m1-cF 6b47-a1-m1-cG_6b47-a1-m1-cF 6b47-a1-m1-cG_6b47-a1-m1-cH 6b48-a1-m1-cD_6b48-a1-m1-cE 6b48-a1-m1-cE_6b48-a1-m1-cF 6b48-a1-m1-cG_6b48-a1-m1-cF 6b48-a1-m1-cG_6b48-a1-m1-cH 6ne0-a1-m1-cD_6ne0-a1-m1-cE 6ne0-a1-m1-cE_6ne0-a1-m1-cF 6ne0-a1-m1-cG_6ne0-a1-m1-cF 6ne0-a1-m1-cG_6ne0-a1-m1-cH 6vqv-a1-m1-cG_6vqv-a1-m1-cF 6vqv-a1-m1-cG_6vqv-a1-m1-cH 6vqv-a1-m1-cI_6vqv-a1-m1-cH 6vqv-a1-m1-cI_6vqv-a1-m1-cJ 6vqw-a1-m1-cE_6vqw-a1-m1-cF 6vqw-a1-m1-cG_6vqw-a1-m1-cF 6vqw-a1-m1-cH_6vqw-a1-m1-cG 6vqw-a1-m1-cH_6vqw-a1-m1-cI 6vqx-a1-m1-cE_6vqx-a1-m1-cF 6vqx-a1-m1-cF_6vqx-a1-m1-cG 6vqx-a1-m1-cH_6vqx-a1-m1-cG 6vqx-a1-m1-cH_6vqx-a1-m1-cI 6w1x-a1-m1-cD_6w1x-a1-m1-cE 6w1x-a1-m1-cE_6w1x-a1-m1-cF 6w1x-a1-m1-cG_6w1x-a1-m1-cF 6w1x-a1-m1-cG_6w1x-a1-m1-cH 6whi-a1-m1-cD_6whi-a1-m1-cE 6whi-a1-m1-cE_6whi-a1-m1-cF 6whi-a1-m1-cG_6whi-a1-m1-cF 6whi-a1-m1-cG_6whi-a1-m1-cH 7ecv-a1-m1-cD_7ecv-a1-m1-cE 7ecv-a1-m1-cE_7ecv-a1-m1-cF 7ecv-a1-m1-cG_7ecv-a1-m1-cF 7ecv-a1-m1-cH_7ecv-a1-m1-cG 7ecw-a1-m1-cE_7ecw-a1-m1-cD 7ecw-a1-m1-cE_7ecw-a1-m1-cF 7ecw-a1-m1-cG_7ecw-a1-m1-cF 7ecw-a1-m1-cG_7ecw-a1-m1-cH 7elm-a1-m1-cD_7elm-a1-m1-cE 7elm-a1-m1-cF_7elm-a1-m1-cE 7elm-a1-m1-cG_7elm-a1-m1-cF 7elm-a1-m1-cG_7elm-a1-m1-cH 7elm-a1-m1-cO_7elm-a1-m1-cN 7elm-a1-m1-cO_7elm-a1-m1-cP 7elm-a1-m1-cQ_7elm-a1-m1-cP 7elm-a1-m1-cQ_7elm-a1-m1-cR 7eln-a1-m1-cD_7eln-a1-m1-cE 7eln-a1-m1-cF_7eln-a1-m1-cE 7eln-a1-m1-cG_7eln-a1-m1-cF 7eln-a1-m1-cG_7eln-a1-m1-cH 7eln-a1-m1-cO_7eln-a1-m1-cN 7eln-a1-m1-cO_7eln-a1-m1-cP 7eln-a1-m1-cQ_7eln-a1-m1-cP 7eln-a1-m1-cQ_7eln-a1-m1-cR 7eqg-a1-m1-cD_7eqg-a1-m1-cE 7eqg-a1-m1-cE_7eqg-a1-m1-cF 7eqg-a1-m1-cF_7eqg-a1-m1-cG 7eqg-a1-m1-cH_7eqg-a1-m1-cG 7eqg-a1-m1-cH_7eqg-a1-m1-cI 7jzw-a1-m1-cE_7jzw-a1-m1-cF 7jzw-a1-m1-cF_7jzw-a1-m1-cG 7jzw-a1-m1-cH_7jzw-a1-m1-cG 7jzw-a1-m1-cH_7jzw-a1-m1-cI 7jzx-a1-m1-cE_7jzx-a1-m1-cF 7jzx-a1-m1-cF_7jzx-a1-m1-cG 7jzx-a1-m1-cH_7jzx-a1-m1-cI 7jzy-a1-m1-cE_7jzy-a1-m1-cF 7jzy-a1-m1-cF_7jzy-a1-m1-cG 7jzy-a1-m1-cH_7jzy-a1-m1-cG 7jzy-a1-m1-cH_7jzy-a1-m1-cI 7jzz-a1-m1-cE_7jzz-a1-m1-cF 7jzz-a1-m1-cF_7jzz-a1-m1-cG 7jzz-a1-m1-cH_7jzz-a1-m1-cG 7jzz-a1-m1-cH_7jzz-a1-m1-cI 7t3j-a1-m1-cE_7t3j-a1-m1-cF 7t3j-a1-m1-cF_7t3j-a1-m1-cG 7t3j-a1-m1-cG_7t3j-a1-m1-cH 7t3j-a1-m1-cH_7t3j-a1-m1-cI 7t3k-a1-m1-ce_7t3k-a1-m1-cf 7t3k-a1-m1-cE_7t3k-a1-m1-cF 7t3k-a1-m1-cf_7t3k-a1-m1-cg 7t3k-a1-m1-cF_7t3k-a1-m1-cG 7t3k-a1-m1-cg_7t3k-a1-m1-ch 7t3k-a1-m1-cG_7t3k-a1-m1-cH 7t3k-a1-m1-ch_7t3k-a1-m1-ci 7t3k-a1-m1-cH_7t3k-a1-m1-cI 7t3l-a1-m1-ce_7t3l-a1-m1-cf 7t3l-a1-m1-cE_7t3l-a1-m1-cF 7t3l-a1-m1-cf_7t3l-a1-m1-cg 7t3l-a1-m1-cF_7t3l-a1-m1-cG 7t3l-a1-m1-cg_7t3l-a1-m1-ch 7t3l-a1-m1-cG_7t3l-a1-m1-cH 7t3l-a1-m1-ch_7t3l-a1-m1-ci 7t3l-a1-m1-cH_7t3l-a1-m1-cI 7taw-a1-m1-ce_7taw-a1-m1-cf 7taw-a1-m1-cE_7taw-a1-m1-cF 7taw-a1-m1-cf_7taw-a1-m1-cg 7taw-a1-m1-cF_7taw-a1-m1-cG 7taw-a1-m1-cg_7taw-a1-m1-ch 7taw-a1-m1-cG_7taw-a1-m1-cH 7taw-a1-m1-ch_7taw-a1-m1-ci 7taw-a1-m1-cH_7taw-a1-m1-cI 7tax-a1-m1-cE_7tax-a1-m1-cF 7tax-a1-m1-cF_7tax-a1-m1-cG 7tax-a1-m1-cG_7tax-a1-m1-cH 7tax-a1-m1-cH_7tax-a1-m1-cI 7we6-a1-m1-cD_7we6-a1-m1-cE 7we6-a1-m1-cF_7we6-a1-m1-cE 7we6-a1-m1-cG_7we6-a1-m1-cF 7we6-a1-m1-cG_7we6-a1-m1-cH 7we6-a1-m1-cO_7we6-a1-m1-cN 7we6-a1-m1-cO_7we6-a1-m1-cP 7we6-a1-m1-cQ_7we6-a1-m1-cP 7we6-a1-m1-cQ_7we6-a1-m1-cR 7yhs-a1-m1-cD_7yhs-a1-m1-cF 7yhs-a1-m1-cF_7yhs-a1-m1-cG 7yhs-a1-m1-cH_7yhs-a1-m1-cG 7yhs-a1-m1-cH_7yhs-a1-m1-cI ILSTASVLAFERKLDPSDALMSAGAWAQRDASQEWPAVTVREKSVRGTISNRLKTKDRDPAKLDASIQSPNLQTVDVANLPSDADTLKVRFTLRVLGGAGTPSACNDAAYRDKLLQTVATYVNDQGFAELARRYAHNLANARFLWRNRVGAEAVEVRINHIRQGEVARAWRFDALAIGLRDFKADAELDALAELIASGLSGSGHVLLEVVAFARIGDGQEVFPSQELILKGQKSKTLYSVRDAAAIHSQKIGNALRTIDTWYPDEDGLGPIAVEPYGSVTSQGKAYRQPKQKLDFYTLLDNWVLRDEAPAVEQQHYVIANLIRGGVFGEA ILSTASVLAFERKLDPSDALMSAGAWAQRDASQEWPAVTVREKSVRGTISNRLKTKDRDPAKLDASIQSPNLQTVDVANLPSDADTLKVRFTLRVLGGAGTPSACNDAAYRDKLLQTVATYVNDQGFAELARRYAHNLANARFLWRNRVGAEAVEVRINHIRQGEVARAWRFDALAIGLRDFKADAELDALAELIASGLSGSGHVLLEVVAFARIGDGQEVFPSQELILDKGDKKGQKSKTLYSVRDAAAIHSQKIGNALRTIDTWYPDEDGLGPIAVEPYGSVTSQGKAYRQPKQKLDFYTLLDNWVLRDEAPAVEQQHYVIANLIRGGVFGEA 7k0n-a1-m1-cA_7k0n-a1-m1-cE Human serine palmitoyltransferase complex SPTLC1/SPLTC2/ssSPTa/ORMDL3, class 2 O15269 O15269 3.1 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 464 464 LVEMVQALYEAPAYHLILEGILILWIIRLLFSKTYKLQERSDLTVKEKEELIEEWQPEPLVPPVPKDHPALNYNIVSGPPSHKTVVNGKECINFASFNFLGLLDNPRVKAAALASLKKYGVGTCGPRGFYGTFDVHLDLEDRLAKFMKTEEAIIYSYGFATIASAIPAYSKRGDIVFVDRAACFAIQKGLQASRSDIKLFKHNDMADLERLLKEQEIEDQKNPRKARVTRRFIVVEGLYMNTGTICPLPELVKLKYKYKARIFLEESLSFGVLGEHGRGVTEHYGINIDDIDLISANMENALASIGGFCCGRSFVIDHQRLSGQGYCFSASLPPLLAAAAIEALNIMEENPGIFAVLKEKCGQIHKALQGISGLKVVGESLSPAFHLQLEESTGSREQDVRLLQEIVDQCMNRSIALTQARYLEKEEKCLPPPSIRVVVTVEQTEEELERAASTIKEVAQAVLL LVEMVQALYEAPAYHLILEGILILWIIRLLFSKTYKLQERSDLTVKEKEELIEEWQPEPLVPPVPKDHPALNYNIVSGPPSHKTVVNGKECINFASFNFLGLLDNPRVKAAALASLKKYGVGTCGPRGFYGTFDVHLDLEDRLAKFMKTEEAIIYSYGFATIASAIPAYSKRGDIVFVDRAACFAIQKGLQASRSDIKLFKHNDMADLERLLKEQEIEDQKNPRKARVTRRFIVVEGLYMNTGTICPLPELVKLKYKYKARIFLEESLSFGVLGEHGRGVTEHYGINIDDIDLISANMENALASIGGFCCGRSFVIDHQRLSGQGYCFSASLPPLLAAAAIEALNIMEENPGIFAVLKEKCGQIHKALQGISGLKVVGESLSPAFHLQLEESTGSREQDVRLLQEIVDQCMNRSIALTQARYLEKEEKCLPPPSIRVVVTVEQTEEELERAASTIKEVAQAVLL 7k0t-a1-m1-cC_7k0t-a1-m1-cD Cryo-EM structure of rabbit RyR1 in the presence of AMP-PCP in nanodisc 4.3 ELECTRON MICROSCOPY 135 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 4105 4105 7k0t-a1-m1-cA_7k0t-a1-m1-cB 7k0t-a1-m1-cA_7k0t-a1-m1-cD 7k0t-a1-m1-cB_7k0t-a1-m1-cC QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSPYRLLDEATKRSNRDSLCQAVRTLLGYGDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAAAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEEEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS QFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLDTAPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSPYRLLDEATKRSNRDSLCQAVRTLLGYGDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRKGGNARRHGLPGVGVTTSLRPPHHFSPPCFVAAAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEEEELEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIQLEGKKPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGGGETKEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEQEEEEEEVEEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEGGVEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 7k0u-a1-m1-cB_7k0u-a1-m1-cA Crystal structure of the second bromodomain (BD2) of human TAF1 bound to PLK1 kinase inhibitor BI2536 P21675 P21675 2.52 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 120 128 DDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICT DDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTAKEAALEE 7k1a-a1-m1-cA_7k1a-a1-m1-cB TtgR quadruple mutant (C137I I141W M167L F168Y) Q9AIU0 Q9AIU0 1.75 X-RAY DIFFRACTION 155 1.0 1196325 (Pseudomonas putida DOT-T1E) 1196325 (Pseudomonas putida DOT-T1E) 206 207 2uxh-a1-m1-cB_2uxh-a1-m1-cA 2uxi-a1-m1-cB_2uxi-a1-m1-cA 2uxo-a1-m1-cB_2uxo-a1-m1-cA 2uxp-a1-m1-cB_2uxp-a1-m1-cA 2uxu-a1-m1-cB_2uxu-a1-m1-cA 2xdn-a1-m1-cB_2xdn-a1-m1-cA 2xdn-a2-m1-cD_2xdn-a2-m1-cC 7k1c-a1-m1-cA_7k1c-a1-m1-cB 7kd8-a1-m1-cA_7kd8-a1-m1-cB 7kd8-a2-m1-cC_7kd8-a2-m1-cD TKEEAQETRAQIIEAAERAFYKRGVARTTLADIAELAGVTRGAIYWHFNNKAELVQALLDSLHETHDHLARASESEDEVDPLGCMRKLLLQVFNELVLDARTRRINEILHHKCEFTDDMCEIRQQRQSAVLDIHKGWTLALANAVRRGQLPGELDAERAAVALYAYVDGLIRRWLLLPDSVDLLGDVEKWVDTGLDMLRLSPALRK RTKEEAQETRAQIIEAAERAFYKRGVARTTLADIAELAGVTRGAIYWHFNNKAELVQALLDSLHETHDHLARASESEDEVDPLGCMRKLLLQVFNELVLDARTRRINEILHHKCEFTDDMCEIRQQRQSAVLDIHKGWTLALANAVRRGQLPGELDAERAAVALYAYVDGLIRRWLLLPDSVDLLGDVEKWVDTGLDMLRLSPALRK 7k1r-a1-m3-cC_7k1r-a1-m1-cD X-ray Structure of an Enterobacter GH43 Beta-Xylosidase: EcXyl43 F507A mutant V5J3M5 V5J3M5 2.4 X-RAY DIFFRACTION 46 1.0 1267571 (Enterobacter sp. enrichment culture clone nf1B6) 1267571 (Enterobacter sp. enrichment culture clone nf1B6) 531 534 7k1r-a1-m2-cB_7k1r-a1-m1-cA MEITNPILTGFNPDPSLCRQGEDYYIATSTFEWFPGVRIYHSRDLKNWTLVSTPLDRVSMLDMKGNPDSGGIWAPCLSYADGKFWLLYTDVKIVDSPWKNGRNFLVTAPSIEGPWSEPIPMGNGGFDPSLFHDDDGRKYYLYRPWGPRHHSNPHNTIVMQEFDPQTGTLSPERKTLFTGTPLCYTEGAHLYRHAGWYYLMVAEGGTSYEHAVVVLRAKTIDGPYELHPDVTMMTSWHLPENPLQKSGHGSLLQTHTGEWYMAYLTSRPLRLPGVPLLASGGRGYCPLGRETGIARIEWRDGWPYVEGGKHAQLTVKGPQVAEQPSWRDDFDGSTLDPELQTLRIPFDDTLGSLTARPGYLRLYGNDSLNSTFTQSTVARRWQHFIFRAETRMQFSPVHFQQSAGLTCYYNSKNWSYCFVDYEEGQGRTIKVIQLDHNVPSWPLHEQPIPVPEQAESVWLRVDVDRLVYRYSYSFDGETWHAVPVTYEAWKLSDDYIGGRGFATGAFVGLHCEDISGDGCHADFDYFTYEPA MEITNPILTGFNPDPSLCRQGEDYYIATSTFEWFPGVRIYHSRDLKNWTLVSTPLDRVSMLDMKGNPDSGGIWAPCLSYADGKFWLLYTDVKIVDSPWKNGRNFLVTAPSIEGPWSEPIPMGNGGFDPSLFHDDDGRKYYLYRPWGPRHHSNPHNTIVMQEFDPQTGTLSPERKTLFTGTPLCYTEGAHLYRHAGWYYLMVAEGGTSYEHAVVVLRAKTIDGPYELHPDVTMMTSWHLPENPLQKSGHGSLLQTHTGEWYMAYLTSRPLRLPGVPLLASGGRGYCPLGRETGIARIEWRDGWPYVEGGKHAQLTVKGPQVAEQPAQGSWRDDFDGSTLDPELQTLRIPFDDTLGSLTARPGYLRLYGNDSLNSTFTQSTVARRWQHFIFRAETRMQFSPVHFQQSAGLTCYYNSKNWSYCFVDYEEGQGRTIKVIQLDHNVPSWPLHEQPIPVPEQAESVWLRVDVDRLVYRYSYSFDGETWHAVPVTYEAWKLSDDYIGGRGFATGAFVGLHCEDISGDGCHADFDYFTYEPA 7k1r-a1-m3-cC_7k1r-a1-m2-cB X-ray Structure of an Enterobacter GH43 Beta-Xylosidase: EcXyl43 F507A mutant V5J3M5 V5J3M5 2.4 X-RAY DIFFRACTION 118 1.0 1267571 (Enterobacter sp. enrichment culture clone nf1B6) 1267571 (Enterobacter sp. enrichment culture clone nf1B6) 531 532 7k1r-a1-m1-cD_7k1r-a1-m1-cA MEITNPILTGFNPDPSLCRQGEDYYIATSTFEWFPGVRIYHSRDLKNWTLVSTPLDRVSMLDMKGNPDSGGIWAPCLSYADGKFWLLYTDVKIVDSPWKNGRNFLVTAPSIEGPWSEPIPMGNGGFDPSLFHDDDGRKYYLYRPWGPRHHSNPHNTIVMQEFDPQTGTLSPERKTLFTGTPLCYTEGAHLYRHAGWYYLMVAEGGTSYEHAVVVLRAKTIDGPYELHPDVTMMTSWHLPENPLQKSGHGSLLQTHTGEWYMAYLTSRPLRLPGVPLLASGGRGYCPLGRETGIARIEWRDGWPYVEGGKHAQLTVKGPQVAEQPSWRDDFDGSTLDPELQTLRIPFDDTLGSLTARPGYLRLYGNDSLNSTFTQSTVARRWQHFIFRAETRMQFSPVHFQQSAGLTCYYNSKNWSYCFVDYEEGQGRTIKVIQLDHNVPSWPLHEQPIPVPEQAESVWLRVDVDRLVYRYSYSFDGETWHAVPVTYEAWKLSDDYIGGRGFATGAFVGLHCEDISGDGCHADFDYFTYEPA MEITNPILTGFNPDPSLCRQGEDYYIATSTFEWFPGVRIYHSRDLKNWTLVSTPLDRVSMLDMKGNPDSGGIWAPCLSYADGKFWLLYTDVKIVDSPWKNGRNFLVTAPSIEGPWSEPIPMGNGGFDPSLFHDDDGRKYYLYRPWGPRHHSNPHNTIVMQEFDPQTGTLSPERKTLFTGTPLCYTEGAHLYRHAGWYYLMVAEGGTSYEHAVVVLRAKTIDGPYELHPDVTMMTSWHLPENPLQKSGHGSLLQTHTGEWYMAYLTSRPLRLPGVPLLASGGRGYCPLGRETGIARIEWRDGWPYVEGGKHAQLTVKGPQVAEQPASWRDDFDGSTLDPELQTLRIPFDDTLGSLTARPGYLRLYGNDSLNSTFTQSTVARRWQHFIFRAETRMQFSPVHFQQSAGLTCYYNSKNWSYCFVDYEEGQGRTIKVIQLDHNVPSWPLHEQPIPVPEQAESVWLRVDVDRLVYRYSYSFDGETWHAVPVTYEAWKLSDDYIGGRGFATGAFVGLHCEDISGDGCHADFDYFTYEPA 7k34-a2-m1-cD_7k34-a2-m1-cC Crystal structure of L-threonine transaldolase from Pseudomonas fluorescens in internal aldimine state A0A1X9LWZ7 A0A1X9LWZ7 1.66 X-RAY DIFFRACTION 323 1.0 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 440 441 7k34-a1-m1-cA_7k34-a1-m1-cB SMSNVKQQTAQIVDWLSSTLGKDHQYREDSLSLTANENYPSALVRLTSGSTAGAFYHCSFPFEVPAGEWHFPEPGHMNAIADQVRDLGKTLIGAQAFDWRPNGGSTAEQALMLAACKPGEGFVHFAHRDGGHFALESLAQKMGIEIFHLPVNPTSLLIDVAKLDEMVRRNPHIRIVILDQSFKLRWQPLAEIRSVLPDSCTLTYDMSHDGGLIMGGVFDSPLSCGADIVHGNTHTIPGPQKGYIGFKSAQHPLLVDTSLWVCPHLQSNCHAEQLPPMWVAFKEMELFGRDYAAQIVSNAKTLARHLHELGLDVTGESFGFTQTHQVHFAVGDLQKALDLCVNSLHAGGIRSTNIEIPGKPGVHGIRLGVQAMTRRGMKEKDFEVVARFIADLYFKKTEPAKVAQQIKEFLQAFPLAPLAYSFDNYLDEELLAAVYQGAQR SSMSNVKQQTAQIVDWLSSTLGKDHQYREDSLSLTANENYPSALVRLTSGSTAGAFYHCSFPFEVPAGEWHFPEPGHMNAIADQVRDLGKTLIGAQAFDWRPNGGSTAEQALMLAACKPGEGFVHFAHRDGGHFALESLAQKMGIEIFHLPVNPTSLLIDVAKLDEMVRRNPHIRIVILDQSFKLRWQPLAEIRSVLPDSCTLTYDMSHDGGLIMGGVFDSPLSCGADIVHGNTHTIPGPQKGYIGFKSAQHPLLVDTSLWVCPHLQSNCHAEQLPPMWVAFKEMELFGRDYAAQIVSNAKTLARHLHELGLDVTGESFGFTQTHQVHFAVGDLQKALDLCVNSLHAGGIRSTNIEIPGKPGVHGIRLGVQAMTRRGMKEKDFEVVARFIADLYFKKTEPAKVAQQIKEFLQAFPLAPLAYSFDNYLDEELLAAVYQGAQR 7k36-a1-m1-cF_7k36-a1-m1-cD Cryo-EM structure of STRIPAK complex Q13033 Q13033 3.3 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 74 QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEY QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEYALKQERAKYHKL 7k36-a1-m1-cF_7k36-a1-m1-cE Cryo-EM structure of STRIPAK complex Q13033 Q13033 3.3 ELECTRON MICROSCOPY 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 62 66 QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEY QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEYALKQ 7k36-a1-m1-cG_7k36-a1-m1-cD Cryo-EM structure of STRIPAK complex Q13033 Q13033 3.3 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 74 QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKML QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEYALKQERAKYHKL 7k36-a1-m1-cG_7k36-a1-m1-cE Cryo-EM structure of STRIPAK complex Q13033 Q13033 3.3 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 66 QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKML QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEYALKQ 7k36-a1-m1-cG_7k36-a1-m1-cF Cryo-EM structure of STRIPAK complex Q13033 Q13033 3.3 ELECTRON MICROSCOPY 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 62 7k36-a1-m1-cE_7k36-a1-m1-cD QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKML QYTIPGILHYIQHEWARFEMERAHWEVERAELQARIAFLQGERKGQENLKKDLVRRIKMLEY 7k3c-a1-m3-cB_7k3c-a1-m6-cA SGMGGIT segment 58-64 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3c-a1-m1-cB_7k3c-a1-m4-cA 7k3c-a1-m2-cB_7k3c-a1-m5-cA SGMGGIT SGMGGIT 7k3c-a1-m6-cA_7k3c-a1-m6-cB SGMGGIT segment 58-64 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 19 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3c-a1-m1-cA_7k3c-a1-m1-cB 7k3c-a1-m1-cA_7k3c-a1-m2-cB 7k3c-a1-m1-cB_7k3c-a1-m3-cA 7k3c-a1-m2-cA_7k3c-a1-m2-cB 7k3c-a1-m3-cA_7k3c-a1-m3-cB 7k3c-a1-m4-cA_7k3c-a1-m4-cB 7k3c-a1-m4-cA_7k3c-a1-m5-cB 7k3c-a1-m4-cB_7k3c-a1-m6-cA 7k3c-a1-m5-cA_7k3c-a1-m5-cB SGMGGIT SGMGGIT 7k3g-a1-m1-cD_7k3g-a1-m1-cE SARS-CoV-2 Envelope Protein Transmembrane Domain: Pentameric Structure Determined by Solid-State NMR P0DTC4 P0DTC4 NOT SOLID-STATE NMR 34 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 31 31 7k3g-a1-m1-cA_7k3g-a1-m1-cB 7k3g-a1-m1-cA_7k3g-a1-m1-cE 7k3g-a1-m1-cB_7k3g-a1-m1-cC 7k3g-a1-m1-cC_7k3g-a1-m1-cD ETGTLIVNSVLLFLAFVVFLLVTLAILTALR ETGTLIVNSVLLFLAFVVFLLVTLAILTALR 7k3h-a1-m1-cB_7k3h-a1-m1-cA Crystal structure of deep network hallucinated protein 0217 3 X-RAY DIFFRACTION 55 1.0 32630 (synthetic construct) 32630 (synthetic construct) 91 104 MSPIARQALDIAKSVLEHSKGMFDYWEGMLEQANKLRQTLNRVKNSVGRLESALKRAERAYDTGNPDAAVGAVVELIGNVHEIMSTFHELF RGSHMSPIARQALDIAKSVLEHSKGMFDYWEGMLEQYEKTGDPDQANKLRQTLNRVKNSVGRLESALKRAERAYDTGNPDAAVGAVVELIGNVHEIMSTFHELF 7k3p-a1-m1-cA_7k3p-a1-m1-cB The structure of the UDP-Glc/GlcNAc 4-epimerase from the human pathogen Campylobacter jejuni Q0P9C3 Q0P9C3 2.04 X-RAY DIFFRACTION 66 1.0 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 329 329 GSKILISGGAGYIGSHTLRQFLKTDHEICVLDNLSKGSKIAIEDLAATRAFKFFEQDLSDFQGVKALFEREKFDAIVHFAASIEVFESMQNPLKYYMNNTVNTTNLIETCLQTGVNKFIFSSTAATYGEPQTPVVSETSPLAPINPYGRSKLMSEEVLRDASMANPEFKHCILRYFNVAGACMDYTLGQRYPKATLLIKVAAECAAGKRDKLFIFGDDYDTKDGTCIRDFIHVDDISSAHLAALDYLKENESNVFNVGYGHGFSVKEVIEAMKKVSGVDFKVELAPRRAGDPSVLISDASKIRNLTSWQPKYDDLELICKSAFDWEKQC GSKILISGGAGYIGSHTLRQFLKTDHEICVLDNLSKGSKIAIEDLAATRAFKFFEQDLSDFQGVKALFEREKFDAIVHFAASIEVFESMQNPLKYYMNNTVNTTNLIETCLQTGVNKFIFSSTAATYGEPQTPVVSETSPLAPINPYGRSKLMSEEVLRDASMANPEFKHCILRYFNVAGACMDYTLGQRYPKATLLIKVAAECAAGKRDKLFIFGDDYDTKDGTCIRDFIHVDDISSAHLAALDYLKENESNVFNVGYGHGFSVKEVIEAMKKVSGVDFKVELAPRRAGDPSVLISDASKIRNLTSWQPKYDDLELICKSAFDWEKQC 7k3r-a1-m1-cG_7k3r-a1-m1-cU Cryo-EM structure of AIM2-PYD filament O14862 O14862 3.2 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 7k3r-a1-m1-cA_7k3r-a1-m1-cK 7k3r-a1-m1-cA_7k3r-a1-m1-cO 7k3r-a1-m1-cB_7k3r-a1-m1-cL 7k3r-a1-m1-cB_7k3r-a1-m1-cM 7k3r-a1-m1-cC_7k3r-a1-m1-cJ 7k3r-a1-m1-cC_7k3r-a1-m1-cN 7k3r-a1-m1-cD_7k3r-a1-m1-cI 7k3r-a1-m1-cD_7k3r-a1-m1-cQ 7k3r-a1-m1-cE_7k3r-a1-m1-cG 7k3r-a1-m1-cE_7k3r-a1-m1-cR 7k3r-a1-m1-cF_7k3r-a1-m1-cH 7k3r-a1-m1-cF_7k3r-a1-m1-cP 7k3r-a1-m1-cH_7k3r-a1-m1-cS 7k3r-a1-m1-cI_7k3r-a1-m1-cT GMESKYKEILLLTGLDNITDEELDRFKFFLSDEFNIATGKLHTANRIQVATLMIQNAGAVSAVMKTIRIFQKLNYMLLAKRLQEEKEKVDKQYKS GMESKYKEILLLTGLDNITDEELDRFKFFLSDEFNIATGKLHTANRIQVATLMIQNAGAVSAVMKTIRIFQKLNYMLLAKRLQEEKEKVDKQYKS 7k3r-a1-m1-cM_7k3r-a1-m1-cU Cryo-EM structure of AIM2-PYD filament O14862 O14862 3.2 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 6mb2-a1-m1-cB_6mb2-a1-m1-cD 6mb2-a1-m1-cC_6mb2-a1-m1-cE 6mb2-a1-m1-cD_6mb2-a1-m1-cF 6mb2-a1-m1-cE_6mb2-a1-m1-cG 6mb2-a1-m1-cH_6mb2-a1-m1-cJ 6mb2-a1-m1-cI_6mb2-a1-m1-cK 6mb2-a1-m1-cJ_6mb2-a1-m1-cL 6mb2-a1-m1-cL_6mb2-a1-m1-cN 6mb2-a1-m1-cM_6mb2-a1-m1-cO 7k3r-a1-m1-cA_7k3r-a1-m1-cE 7k3r-a1-m1-cA_7k3r-a1-m1-cI 7k3r-a1-m1-cB_7k3r-a1-m1-cF 7k3r-a1-m1-cB_7k3r-a1-m1-cG 7k3r-a1-m1-cC_7k3r-a1-m1-cD 7k3r-a1-m1-cC_7k3r-a1-m1-cH 7k3r-a1-m1-cD_7k3r-a1-m1-cK 7k3r-a1-m1-cE_7k3r-a1-m1-cL 7k3r-a1-m1-cF_7k3r-a1-m1-cJ 7k3r-a1-m1-cG_7k3r-a1-m1-cO 7k3r-a1-m1-cH_7k3r-a1-m1-cM 7k3r-a1-m1-cI_7k3r-a1-m1-cN 7k3r-a1-m1-cJ_7k3r-a1-m1-cQ 7k3r-a1-m1-cK_7k3r-a1-m1-cR 7k3r-a1-m1-cL_7k3r-a1-m1-cP 7k3r-a1-m1-cN_7k3r-a1-m1-cS 7k3r-a1-m1-cO_7k3r-a1-m1-cT GMESKYKEILLLTGLDNITDEELDRFKFFLSDEFNIATGKLHTANRIQVATLMIQNAGAVSAVMKTIRIFQKLNYMLLAKRLQEEKEKVDKQYKS GMESKYKEILLLTGLDNITDEELDRFKFFLSDEFNIATGKLHTANRIQVATLMIQNAGAVSAVMKTIRIFQKLNYMLLAKRLQEEKEKVDKQYKS 7k3r-a1-m1-cO_7k3r-a1-m1-cU Cryo-EM structure of AIM2-PYD filament O14862 O14862 3.2 ELECTRON MICROSCOPY 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 95 95 6mb2-a1-m1-cC_6mb2-a1-m1-cF 6mb2-a1-m1-cK_6mb2-a1-m1-cN 6mb2-a1-m1-cL_6mb2-a1-m1-cO 7k3r-a1-m1-cA_7k3r-a1-m1-cD 7k3r-a1-m1-cA_7k3r-a1-m1-cG 7k3r-a1-m1-cB_7k3r-a1-m1-cE 7k3r-a1-m1-cB_7k3r-a1-m1-cH 7k3r-a1-m1-cC_7k3r-a1-m1-cF 7k3r-a1-m1-cC_7k3r-a1-m1-cI 7k3r-a1-m1-cD_7k3r-a1-m1-cJ 7k3r-a1-m1-cE_7k3r-a1-m1-cK 7k3r-a1-m1-cF_7k3r-a1-m1-cL 7k3r-a1-m1-cG_7k3r-a1-m1-cM 7k3r-a1-m1-cH_7k3r-a1-m1-cN 7k3r-a1-m1-cI_7k3r-a1-m1-cO 7k3r-a1-m1-cJ_7k3r-a1-m1-cP 7k3r-a1-m1-cK_7k3r-a1-m1-cQ 7k3r-a1-m1-cL_7k3r-a1-m1-cR 7k3r-a1-m1-cM_7k3r-a1-m1-cS 7k3r-a1-m1-cN_7k3r-a1-m1-cT GMESKYKEILLLTGLDNITDEELDRFKFFLSDEFNIATGKLHTANRIQVATLMIQNAGAVSAVMKTIRIFQKLNYMLLAKRLQEEKEKVDKQYKS GMESKYKEILLLTGLDNITDEELDRFKFFLSDEFNIATGKLHTANRIQVATLMIQNAGAVSAVMKTIRIFQKLNYMLLAKRLQEEKEKVDKQYKS 7k3u-a3-m1-cC_7k3u-a3-m1-cD X-ray crystallographic structure model of Lactococcus lactis prolidase mutant R293S A8WBX8 A8WBX8 2.7 X-RAY DIFFRACTION 62 1.0 1358 (Lactococcus lactis) 1358 (Lactococcus lactis) 362 362 4zng-a1-m1-cC_4zng-a1-m2-cC 4zng-a2-m1-cB_4zng-a2-m1-cA 6xmr-a1-m1-cA_6xmr-a1-m1-cB 7k3u-a1-m1-cA_7k3u-a1-m2-cE 7k3u-a2-m1-cB_7k3u-a2-m3-cF 7k3u-a4-m1-cG_7k3u-a4-m4-cJ 7k3u-a5-m1-cH_7k3u-a5-m1-cI 7n02-a1-m1-cA_7n02-a1-m1-cB MSKIERISAFLNDKEVDMTFITNPTTLNYLTGLAIDPHERIAGLMIFRDSTPMLFTPALEVEKAKEHTSGLDIFGYEDSQNPWEVVKNHVKSDVKSIAVEFSDIPLAKTEGLKAQFGDINFVNLTPLIERMRLIKSADEIEKMKVAGDFADKCFEIGFATAAERNGVTESDIVAKIEYEMKRMGVPQMSFDTLVLSGARAANPHGAPENVEIQENKLLLFDLGVMSGGYASDATRTIAIGQPNDFDAEIHKIVKEAQQAAMDFIKPGVTAHEVDAVARDLITKAGYGEYFNHSLGHGIGMDVHEYPSIVAGNDLVIQEGMCFSNEPGIYIPGKVGVRIEDCLYVTENGCESFTHTDHDLLIF MSKIERISAFLNDKEVDMTFITNPTTLNYLTGLAIDPHERIAGLMIFRDSTPMLFTPALEVEKAKEHTSGLDIFGYEDSQNPWEVVKNHVKSDVKSIAVEFSDIPLAKTEGLKAQFGDINFVNLTPLIERMRLIKSADEIEKMKVAGDFADKCFEIGFATAAERNGVTESDIVAKIEYEMKRMGVPQMSFDTLVLSGARAANPHGAPENVEIQENKLLLFDLGVMSGGYASDATRTIAIGQPNDFDAEIHKIVKEAQQAAMDFIKPGVTAHEVDAVARDLITKAGYGEYFNHSLGHGIGMDVHEYPSIVAGNDLVIQEGMCFSNEPGIYIPGKVGVRIEDCLYVTENGCESFTHTDHDLLIF 7k3x-a1-m7-cA_7k3x-a1-m9-cA SGMGCIT segment 58-64 from Keratin-8 with G62C mutation P05787 P05787 1.705 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3x-a1-m10-cA_7k3x-a1-m8-cA 7k3x-a1-m1-cA_7k3x-a1-m2-cA 7k3x-a1-m1-cA_7k3x-a1-m3-cA 7k3x-a1-m2-cA_7k3x-a1-m4-cA 7k3x-a1-m3-cA_7k3x-a1-m5-cA 7k3x-a1-m6-cA_7k3x-a1-m7-cA 7k3x-a1-m6-cA_7k3x-a1-m8-cA SGMGCIT SGMGCIT 7k3y-a1-m1-cB_7k3y-a1-m5-cA GGYAGAS segment 52-58 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3y-a1-m3-cB_7k3y-a1-m4-cA GGYAGAS GGYAGAS 7k3y-a1-m3-cA_7k3y-a1-m6-cA GGYAGAS segment 52-58 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3y-a1-m1-cA_7k3y-a1-m4-cA 7k3y-a1-m2-cA_7k3y-a1-m5-cA GGYAGAS GGYAGAS 7k3y-a1-m3-cA_7k3y-a1-m6-cB GGYAGAS segment 52-58 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3y-a1-m1-cA_7k3y-a1-m4-cB 7k3y-a1-m2-cA_7k3y-a1-m5-cB GGYAGAS GGYAGAS 7k3y-a1-m4-cA_7k3y-a1-m6-cB GGYAGAS segment 52-58 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3y-a1-m1-cA_7k3y-a1-m3-cB 7k3y-a1-m1-cB_7k3y-a1-m2-cA 7k3y-a1-m4-cB_7k3y-a1-m5-cA GGYAGAS GGYAGAS 7k3y-a1-m6-cA_7k3y-a1-m6-cB GGYAGAS segment 52-58 from Keratin-8 P05787 P05787 1.1 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 7k3y-a1-m1-cA_7k3y-a1-m1-cB 7k3y-a1-m2-cA_7k3y-a1-m2-cB 7k3y-a1-m3-cA_7k3y-a1-m3-cB 7k3y-a1-m4-cA_7k3y-a1-m4-cB 7k3y-a1-m5-cA_7k3y-a1-m5-cB GGYAGAS GGYAGAS 7k3z-a1-m1-cB_7k3z-a1-m1-cC P. falciparum Cpn60 D474A mutant bound to ATP Q8I0V3 Q8I0V3 3.69 X-RAY DIFFRACTION 110 0.996 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 560 562 7k3z-a1-m1-cB_7k3z-a1-m1-cA 7k3z-a1-m1-cC_7k3z-a1-m1-cD 7k3z-a1-m1-cD_7k3z-a1-m1-cE 7k3z-a1-m1-cF_7k3z-a1-m1-cE 7k3z-a1-m1-cF_7k3z-a1-m1-cG 7k3z-a1-m1-cG_7k3z-a1-m1-cA GKDIIYGNECRNELLKGILTVSDVVKLTLGPRGRNVLLEKEYGSPLIINDGVTIAKQISLKDRKKNNGVKLMQESTQISNDKAGDGTSSTALMTATITKKGIEQVNRNHNPIPIQRGIQLASKMIIEKIKSLSTPIKTYKDILNIATIASNNDVHMGQIIANAYDKLGKNAAIILDDNADINDKLEFTEGYNFDRGIINPYLLYNENKDYIEYSQVSTLITDQNIDNIQSILPILEIFAKNKQPLCIIADDFSNEVLQTLIINKLKGAIKVVPIRAPGDRRKDYLKDLCIVTNSKYISADVGLDLNNLHNQMSSFDNNYLSLLGSANTLIVKKDRTSLITKEEYKKEIDERINVLKKEYEETTSYDKEKLNERIAALSGGIAKILIGGNSETEQKERKFKYEAATNAVKSAIDIGYVPGGGVTYLEIIKSNFIQEIHKKIEEDLQISSNNDEKKYLELIGNLESEMELQKMGANIVVSSLDVITKQIADNAGVNGDNVVKIILNSKDKYGFGYDVNTNKFVNMVEKGIIDSTNVIISVIKNSCSIASMVLTTECMMVDHE GKDIIYGNECRNELLKGILTVSDVVKLTLGPRGRNVLLEKEYGSPLIINDGVTIAKQISLKDRKKNNGVKLMQESTQISNDKAGDGTSSTALMTATITKKGIEQVNRNHNPIPIQRGIQLASKMIIEKIKSLSTPIKTYKDILNIATIASNNDVHMGQIIANAYDKLGKNAAIILDDNADINDKLEFTEGYNFDRGIINPYLLYNENKDYIEYSQVSTLITDQNIDNIQSILPILEIFAKNKQPLCIIADDFSNEVLQTLIINKLKGAIKVVPIRPSFGDRRKDYLKDLCIVTNSKYISADVGLDLNNLHNQMSSFDNNYLSLLGSANTLIVKKDRTSLITKEEYKKEIDERINVLKKEYEETTSKYDKEKLNERIAALSGGIAKILIGGNSETEQKERKFKYEAATNAVKSAIDIGYVPGGGVTYLEIIKSNFIQEIHKKIEEDLQISSNNDEKKYLELIGNLESEMELQKMGANIVVSSLDVITKQIADNAGVNGDNVVKIILNSKDKYGFGYDVNTNKFVNMVEKGIIDSTNVIISVIKNSCSIASMVLTTECMMVDHE 7k42-a1-m1-cA_7k42-a1-m1-cB Crystal structure of the second bromodomain (BD2) of human TAF1 bound to dioxane P21675 P21675 1.7 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 123 123 7k3o-a1-m1-cA_7k3o-a1-m1-cB SMDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTA SMDDDQVAFSFILDNIVTQKMMAVPDSWPFHHPVNKKFVPDYYKVIVNPMDLETIRKNISKHKYQSRESFLDDVNLILANSVKYNGPESQYTKTAQEIVNVCYQTLTEYDEHLTQLEKDICTA 7k46-a1-m2-cA_7k46-a1-m3-cA Crystal Structure of a putative aspartate carbamoyltransferase Leishmania major Friedlin Q4QEW6 Q4QEW6 1.9 X-RAY DIFFRACTION 62 1.0 5664 (Leishmania major) 5664 (Leishmania major) 307 307 7k46-a1-m1-cA_7k46-a1-m2-cA 7k46-a1-m1-cA_7k46-a1-m3-cA TFNPVASLKGQSVASAAQFSRADIDALIQLALDMKTHIEAGKTIDTLRGRVMTPLFFEDSSRTLSSFCAAMMRLGGSVVNFKVEGETLQDTIRTLDSYSDVLVLRHAKEEALEQAMSVATHPIMNAGNGAGEHPTQALLDILTIHAELGAVDGIAIALIGDLKKGRTVHSLLKLLAHNFALRKVYLIAPAGLEMPAEVLEHVATDVVKRGIAIQQASGLTPEIVADCDVLYATRLQKLTAFEASKASLLIDKARLAHAKAKMVVMHPLPRVDELSTDIDDDPRAAYFRQMRYGLFMRMAILFSVLSG TFNPVASLKGQSVASAAQFSRADIDALIQLALDMKTHIEAGKTIDTLRGRVMTPLFFEDSSRTLSSFCAAMMRLGGSVVNFKVEGETLQDTIRTLDSYSDVLVLRHAKEEALEQAMSVATHPIMNAGNGAGEHPTQALLDILTIHAELGAVDGIAIALIGDLKKGRTVHSLLKLLAHNFALRKVYLIAPAGLEMPAEVLEHVATDVVKRGIAIQQASGLTPEIVADCDVLYATRLQKLTAFEASKASLLIDKARLAHAKAKMVVMHPLPRVDELSTDIDDDPRAAYFRQMRYGLFMRMAILFSVLSG 7k47-a1-m2-cA_7k47-a1-m3-cA Crystal Structure of Glucosamine-1-phosphate N-acetyltransferase from Stenotrophomonas maltophilia K279a B2FHY5 B2FHY5 2.9 X-RAY DIFFRACTION 171 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 455 455 7k47-a1-m1-cA_7k47-a1-m2-cA 7k47-a1-m1-cA_7k47-a1-m3-cA HHMTQPLHVIILAAGAGKRMKSVLPKVLQPIAGQPMLAHVIDAARELQPAAIHVVHGHGGEAVRQYFAGQPDLQWAEQAQQLGTGHAVAQAMPQVPDLAQVLVLYGDVPLIRAQTLRDLLAQPGRLAVLVADVDDPTGYGRVLRDAEGKVGAIIEQKDATDDQLRVRTINTGIIAAESTALRRWLSQLSNSNAQGEYYLTDVFAFAAHEYTPAEMALVADAQEAEGANDPWQLSQLERAWQRRAVRALCAQGARVRDPARLDIRGTVTVGSDVLIDVDVVLEGKVVLGDGVTVGPFNRLKDVNLGPGTDVRAHCDLEGVVTEGAAQIGPFARLRPGTVLADGVHVGNFVETKKVTLGVGSKANHLTYLGDAVIGSKVNIGAGTITCNYDGVNKSTTTIGDNAFIGSNSSLVAPVTIGDGATIAAGSVITRNAPDGKLTLARARQETIDGWKRPLK HHMTQPLHVIILAAGAGKRMKSVLPKVLQPIAGQPMLAHVIDAARELQPAAIHVVHGHGGEAVRQYFAGQPDLQWAEQAQQLGTGHAVAQAMPQVPDLAQVLVLYGDVPLIRAQTLRDLLAQPGRLAVLVADVDDPTGYGRVLRDAEGKVGAIIEQKDATDDQLRVRTINTGIIAAESTALRRWLSQLSNSNAQGEYYLTDVFAFAAHEYTPAEMALVADAQEAEGANDPWQLSQLERAWQRRAVRALCAQGARVRDPARLDIRGTVTVGSDVLIDVDVVLEGKVVLGDGVTVGPFNRLKDVNLGPGTDVRAHCDLEGVVTEGAAQIGPFARLRPGTVLADGVHVGNFVETKKVTLGVGSKANHLTYLGDAVIGSKVNIGAGTITCNYDGVNKSTTTIGDNAFIGSNSSLVAPVTIGDGATIAAGSVITRNAPDGKLTLARARQETIDGWKRPLK 7k5c-a1-m1-cI_7k5c-a1-m1-cK Structure of T7 DNA ejectosome periplasmic tunnel P03725 P03725 2.7 ELECTRON MICROSCOPY 265 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 650 650 6ysz-a1-m1-cA_6ysz-a1-m1-cB 6ysz-a1-m1-cA_6ysz-a1-m1-cF 6ysz-a1-m1-cB_6ysz-a1-m1-cC 6ysz-a1-m1-cC_6ysz-a1-m1-cD 6ysz-a1-m1-cD_6ysz-a1-m1-cE 6ysz-a1-m1-cE_6ysz-a1-m1-cF 6yt5-a1-m1-cA_6yt5-a1-m1-cB 6yt5-a1-m1-cA_6yt5-a1-m1-cF 6yt5-a1-m1-cB_6yt5-a1-m1-cC 6yt5-a1-m1-cC_6yt5-a1-m1-cD 6yt5-a1-m1-cD_6yt5-a1-m1-cE 6yt5-a1-m1-cE_6yt5-a1-m1-cF 7k5c-a1-m1-cA_7k5c-a1-m1-cC 7k5c-a1-m1-cA_7k5c-a1-m1-cH 7k5c-a1-m1-cC_7k5c-a1-m1-cE 7k5c-a1-m1-cE_7k5c-a1-m1-cI 7k5c-a1-m1-cH_7k5c-a1-m1-cK TAKEQRARDLADERSNEIIRKLTPEQRREALNNGTLLYQDDPYAMEALRVKTGRNAAYLVDDDVMQKIKEGVFRTREEMEEYRHSRLQEGAKVYAEQFGIDPEDVDYQRGFNGDITERNISLYGAHDNFLSQQAQKGAIMNSRVELNGVLQDPDMLRRPDSADFFEKYIDNGLVTGAIPSDAQATQLISQAFSDASSRAGGADFLMRVGDKKVTLNGATTTYRELIGEEQWNALMVTAQRSQFETDAKLNEQYRLKINSALNQEDPRTAWEMLQGIKAELDKVQPDEQMTPQREWLISAQEQVQNQMNAWTKAQAKALDDSMKSMNKLDVIDKQFQKRINGEWVSTDFKDMPVNENTGEFKHSDMVNYANKKLAEIDSMDIPDGAKDAMKLKYLQADSKDGAFRTAIGTMVTDAGQEWSAAVINGKLPERTPAMDALRRIRNADPQLIAALYPDQAELFLTMDMMDKQGIDPQVILDADRLTVKRSKEQRFEDDKAFESALNASKAPEIARMPASLRESARKIYDSVKYRSGNESMAMEQMTKFLKESTYTFTGDDVDGDTVGVIPKNMMQVNSDPKSWEQGRDILEEARKGIIASNPWITNKQLTMYSQGDSIYLMDTTGQVRVRYDKELLSKVWSENQKKLEEKAREK TAKEQRARDLADERSNEIIRKLTPEQRREALNNGTLLYQDDPYAMEALRVKTGRNAAYLVDDDVMQKIKEGVFRTREEMEEYRHSRLQEGAKVYAEQFGIDPEDVDYQRGFNGDITERNISLYGAHDNFLSQQAQKGAIMNSRVELNGVLQDPDMLRRPDSADFFEKYIDNGLVTGAIPSDAQATQLISQAFSDASSRAGGADFLMRVGDKKVTLNGATTTYRELIGEEQWNALMVTAQRSQFETDAKLNEQYRLKINSALNQEDPRTAWEMLQGIKAELDKVQPDEQMTPQREWLISAQEQVQNQMNAWTKAQAKALDDSMKSMNKLDVIDKQFQKRINGEWVSTDFKDMPVNENTGEFKHSDMVNYANKKLAEIDSMDIPDGAKDAMKLKYLQADSKDGAFRTAIGTMVTDAGQEWSAAVINGKLPERTPAMDALRRIRNADPQLIAALYPDQAELFLTMDMMDKQGIDPQVILDADRLTVKRSKEQRFEDDKAFESALNASKAPEIARMPASLRESARKIYDSVKYRSGNESMAMEQMTKFLKESTYTFTGDDVDGDTVGVIPKNMMQVNSDPKSWEQGRDILEEARKGIIASNPWITNKQLTMYSQGDSIYLMDTTGQVRVRYDKELLSKVWSENQKKLEEKAREK 7k5k-a1-m1-cB_7k5k-a1-m1-cF Plasmodium vivax M17 leucyl aminopeptidase Pv-M17 A5K3U9 A5K3U9 2.66 ELECTRON MICROSCOPY 85 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 545 545 7k5k-a1-m1-cA_7k5k-a1-m1-cD 7k5k-a1-m1-cC_7k5k-a1-m1-cE TTVPQVVSLDPTTIPIDYHTPIDDLSIEVKDISAEACPADEGLIVFLLNSAPKHSSSGGSGGNGGSAGSSGNGEGGAQIKINSSVKDNTINEFLKEGNMENFTGKLGTSKSFYIANDQKKYVSLAYVGCGPANEETELEIRKVAYALVTLLHDSKHKKVSIIFEIKIEEALFRFFLEHLFYEYVTDERFKSADKSTETDFIKNLSLHIANADAYKGQIDKARVYFYGTYYAAQLIAAPSNYCNPVSLSNAAVELAQKVNLECKILDVKELEELKMGAYLSVGKGSMYPNKFIHLTYKGAQTGASQNEKKKIALIGKGITFDSGGYNLKAAPGSMIDLMKFDMSGCAAVLGCAYCIGTIKPDNVEVHFLSAVCENMVSKNSYRPGDIITASNGKTIEVGNTDAEGRLTLADALVYAEKLGVDYIVDIATLTGAMLYSLGTSYAGVFGNNDQLINKILSSSKTSNEPVWWLPIINEYRSSLNSKYADLNNISSSVKASSVVASLFLKEFIENTPWAHIDIAGVSWNFKARKPKGFGVRLLTEFVLND TTVPQVVSLDPTTIPIDYHTPIDDLSIEVKDISAEACPADEGLIVFLLNSAPKHSSSGGSGGNGGSAGSSGNGEGGAQIKINSSVKDNTINEFLKEGNMENFTGKLGTSKSFYIANDQKKYVSLAYVGCGPANEETELEIRKVAYALVTLLHDSKHKKVSIIFEIKIEEALFRFFLEHLFYEYVTDERFKSADKSTETDFIKNLSLHIANADAYKGQIDKARVYFYGTYYAAQLIAAPSNYCNPVSLSNAAVELAQKVNLECKILDVKELEELKMGAYLSVGKGSMYPNKFIHLTYKGAQTGASQNEKKKIALIGKGITFDSGGYNLKAAPGSMIDLMKFDMSGCAAVLGCAYCIGTIKPDNVEVHFLSAVCENMVSKNSYRPGDIITASNGKTIEVGNTDAEGRLTLADALVYAEKLGVDYIVDIATLTGAMLYSLGTSYAGVFGNNDQLINKILSSSKTSNEPVWWLPIINEYRSSLNSKYADLNNISSSVKASSVVASLFLKEFIENTPWAHIDIAGVSWNFKARKPKGFGVRLLTEFVLND 7k5k-a1-m1-cE_7k5k-a1-m1-cF Plasmodium vivax M17 leucyl aminopeptidase Pv-M17 A5K3U9 A5K3U9 2.66 ELECTRON MICROSCOPY 91 1.0 5855 (Plasmodium vivax) 5855 (Plasmodium vivax) 545 545 7k5k-a1-m1-cA_7k5k-a1-m1-cB 7k5k-a1-m1-cA_7k5k-a1-m1-cC 7k5k-a1-m1-cB_7k5k-a1-m1-cC 7k5k-a1-m1-cD_7k5k-a1-m1-cE 7k5k-a1-m1-cD_7k5k-a1-m1-cF TTVPQVVSLDPTTIPIDYHTPIDDLSIEVKDISAEACPADEGLIVFLLNSAPKHSSSGGSGGNGGSAGSSGNGEGGAQIKINSSVKDNTINEFLKEGNMENFTGKLGTSKSFYIANDQKKYVSLAYVGCGPANEETELEIRKVAYALVTLLHDSKHKKVSIIFEIKIEEALFRFFLEHLFYEYVTDERFKSADKSTETDFIKNLSLHIANADAYKGQIDKARVYFYGTYYAAQLIAAPSNYCNPVSLSNAAVELAQKVNLECKILDVKELEELKMGAYLSVGKGSMYPNKFIHLTYKGAQTGASQNEKKKIALIGKGITFDSGGYNLKAAPGSMIDLMKFDMSGCAAVLGCAYCIGTIKPDNVEVHFLSAVCENMVSKNSYRPGDIITASNGKTIEVGNTDAEGRLTLADALVYAEKLGVDYIVDIATLTGAMLYSLGTSYAGVFGNNDQLINKILSSSKTSNEPVWWLPIINEYRSSLNSKYADLNNISSSVKASSVVASLFLKEFIENTPWAHIDIAGVSWNFKARKPKGFGVRLLTEFVLND TTVPQVVSLDPTTIPIDYHTPIDDLSIEVKDISAEACPADEGLIVFLLNSAPKHSSSGGSGGNGGSAGSSGNGEGGAQIKINSSVKDNTINEFLKEGNMENFTGKLGTSKSFYIANDQKKYVSLAYVGCGPANEETELEIRKVAYALVTLLHDSKHKKVSIIFEIKIEEALFRFFLEHLFYEYVTDERFKSADKSTETDFIKNLSLHIANADAYKGQIDKARVYFYGTYYAAQLIAAPSNYCNPVSLSNAAVELAQKVNLECKILDVKELEELKMGAYLSVGKGSMYPNKFIHLTYKGAQTGASQNEKKKIALIGKGITFDSGGYNLKAAPGSMIDLMKFDMSGCAAVLGCAYCIGTIKPDNVEVHFLSAVCENMVSKNSYRPGDIITASNGKTIEVGNTDAEGRLTLADALVYAEKLGVDYIVDIATLTGAMLYSLGTSYAGVFGNNDQLINKILSSSKTSNEPVWWLPIINEYRSSLNSKYADLNNISSSVKASSVVASLFLKEFIENTPWAHIDIAGVSWNFKARKPKGFGVRLLTEFVLND 7k5l-a1-m2-cA_7k5l-a1-m8-cA Ebola virus VP40 octameric ring generated by an RNA oligonucleotide Q05128 Q05128 1.38 X-RAY DIFFRACTION 91 1.0 128952 (Ebola virus - Mayinga, Zaire, 1976) 128952 (Ebola virus - Mayinga, Zaire, 1976) 124 124 1h2c-a1-m1-cA_1h2c-a1-m3-cA 1h2c-a1-m2-cA_1h2c-a1-m5-cA 1h2c-a1-m4-cA_1h2c-a1-m7-cA 1h2c-a1-m6-cA_1h2c-a1-m8-cA 1h2d-a1-m1-cA_1h2d-a1-m1-cB 1h2d-a1-m2-cA_1h2d-a1-m2-cB 1h2d-a1-m3-cA_1h2d-a1-m3-cB 1h2d-a1-m4-cA_1h2d-a1-m4-cB 4ldm-a1-m1-cA_4ldm-a1-m7-cA 4ldm-a1-m2-cA_4ldm-a1-m8-cA 4ldm-a1-m3-cA_4ldm-a1-m5-cA 4ldm-a1-m4-cA_4ldm-a1-m6-cA 7k5d-a1-m1-cA_7k5d-a1-m7-cA 7k5d-a1-m2-cA_7k5d-a1-m8-cA 7k5d-a1-m3-cA_7k5d-a1-m5-cA 7k5d-a1-m4-cA_7k5d-a1-m6-cA 7k5l-a1-m1-cA_7k5l-a1-m7-cA 7k5l-a1-m3-cA_7k5l-a1-m5-cA 7k5l-a1-m4-cA_7k5l-a1-m6-cA VSSAFILEAMVNVISGPKVLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFGKATNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPVQLPQYFTFDLTALKLITQPLPAATWT VSSAFILEAMVNVISGPKVLMKQIPIWLPLGVADQKTYSFDSTTAAIMLASYTITHFGKATNPLVRVNRLGPGIPDHPLRLLRIGNQAFLQEFVLPPVQLPQYFTFDLTALKLITQPLPAATWT 7k5n-a1-m1-cA_7k5n-a1-m2-cA Ligand binding domain (tandem PAS/dCache) of Aeromonas caviae diguanylate cyclase with proline bound A0A3S5WQC2 A0A3S5WQC2 1.8 X-RAY DIFFRACTION 65 1.0 648 (Aeromonas caviae) 648 (Aeromonas caviae) 237 237 ERSLQRELQQRLLATNHQLRHVFIEPYLNEMERQFSLIYDQIKVEDISGPRLRNTDSYLREWRLYKGVMADLIYIYVGTAERQMLIYPEWQADADFDPRVRPWYQLASQHVGKMVWTEPYYDYTNGTLVIALARAITDKEGKVRGVFAVDAILAPFSAQLNRQWNSGYQMIVNQSGKVLAHPDPSQLLKPMTHPTWLSRFSGEDGIFLDQASRQFVAYSRLPDHNWVLISVLPASSI ERSLQRELQQRLLATNHQLRHVFIEPYLNEMERQFSLIYDQIKVEDISGPRLRNTDSYLREWRLYKGVMADLIYIYVGTAERQMLIYPEWQADADFDPRVRPWYQLASQHVGKMVWTEPYYDYTNGTLVIALARAITDKEGKVRGVFAVDAILAPFSAQLNRQWNSGYQMIVNQSGKVLAHPDPSQLLKPMTHPTWLSRFSGEDGIFLDQASRQFVAYSRLPDHNWVLISVLPASSI 7k5z-a1-m1-cB_7k5z-a1-m1-cC Crystal Structure of Argininosuccinate synthase from Legionella pneumophila Philadelphia 1 in complex with ANPPNP and a substrate analogue Arginine Q5ZY78 Q5ZY78 1.85 X-RAY DIFFRACTION 80 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 390 390 6xnq-a1-m1-cA_6xnq-a1-m1-cD 6xnq-a1-m1-cB_6xnq-a1-m1-cC 7k5z-a1-m1-cD_7k5z-a1-m1-cA VIKKIALAYSGGLDTSIMIPWLKEHYEHAEVIAVICDLGQQEDLDAIKNKALKSGASKAYVVDVKNEFATQYLWPLVKSGALYEDQYILGTISRPLIAQKLVEIALTEQVNAVAHGATGKGNDQVRFEYSIKALAPQLEIIAPWRTWDIKSRQEAIVYAKAHGIEVPVTPKAPYSRDHNIWYISHEGGVLEDPSQEMPNDVLLMTAPVSQTPDEEEVVVLDFKKGVPVALNGQELSPVDLLNSLNQKAGQHGIGVADIVENRLVGMKIRGIYEAPAAAVLYKAHKLLESLCLTRSTLHLKQSLQQTYANLVYEGRWFSQTKQALDAFIDVTQQHVTGCVKLKLFKGNIIPAGMHSPYSLHHNQKDAEGFINLFSLSAKIYSQVHQGGNYD VIKKIALAYSGGLDTSIMIPWLKEHYEHAEVIAVICDLGQQEDLDAIKNKALKSGASKAYVVDVKNEFATQYLWPLVKSGALYEDQYILGTISRPLIAQKLVEIALTEQVNAVAHGATGKGNDQVRFEYSIKALAPQLEIIAPWRTWDIKSRQEAIVYAKAHGIEVPVTPKAPYSRDHNIWYISHEGGVLEDPSQEMPNDVLLMTAPVSQTPDEEEVVVLDFKKGVPVALNGQELSPVDLLNSLNQKAGQHGIGVADIVENRLVGMKIRGIYEAPAAAVLYKAHKLLESLCLTRSTLHLKQSLQQTYANLVYEGRWFSQTKQALDAFIDVTQQHVTGCVKLKLFKGNIIPAGMHSPYSLHHNQKDAEGFINLFSLSAKIYSQVHQGGNYD 7k5z-a1-m1-cD_7k5z-a1-m1-cB Crystal Structure of Argininosuccinate synthase from Legionella pneumophila Philadelphia 1 in complex with ANPPNP and a substrate analogue Arginine Q5ZY78 Q5ZY78 1.85 X-RAY DIFFRACTION 54 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 388 390 6xnq-a1-m1-cA_6xnq-a1-m1-cC 6xnq-a1-m1-cB_6xnq-a1-m1-cD 7k5z-a1-m1-cA_7k5z-a1-m1-cC VIKKIALAYSGGLDTSIMIPWLKEHYEHAEVIAVICDLGQQEDLDAIKNKALKSGASKAYVVDVKNEFATQYLWPLVKSGALYEDQYILGTISRPLIAQKLVEIALTEQVNAVAHGATGKGNDQVRFEYSIKALAPQLEIIAPWRTWDIKSRQEAIVYAKAHGIEVPVTPKAPYSRDHNIWYISHEGGVLEDPSQEMPNDVLLMTAPVSQTPDEEEVVVLDFKKGVPVALNGQELSPVDLLNSLNQKAGQHGIGVADIVENRLVGMKIRGIYEAPAAAVLYKAHKLLESLCLTRSTLHLKQSLQQTYANLVYEGRWFSQTKQALDAFIDVTQQHVTGCVKLKLFKGNIIPAGMHSPYSLHHKDAEGFINLFSLSAKIYSQVHQGGNYD VIKKIALAYSGGLDTSIMIPWLKEHYEHAEVIAVICDLGQQEDLDAIKNKALKSGASKAYVVDVKNEFATQYLWPLVKSGALYEDQYILGTISRPLIAQKLVEIALTEQVNAVAHGATGKGNDQVRFEYSIKALAPQLEIIAPWRTWDIKSRQEAIVYAKAHGIEVPVTPKAPYSRDHNIWYISHEGGVLEDPSQEMPNDVLLMTAPVSQTPDEEEVVVLDFKKGVPVALNGQELSPVDLLNSLNQKAGQHGIGVADIVENRLVGMKIRGIYEAPAAAVLYKAHKLLESLCLTRSTLHLKQSLQQTYANLVYEGRWFSQTKQALDAFIDVTQQHVTGCVKLKLFKGNIIPAGMHSPYSLHHNQKDAEGFINLFSLSAKIYSQVHQGGNYD 7k5z-a1-m1-cD_7k5z-a1-m1-cC Crystal Structure of Argininosuccinate synthase from Legionella pneumophila Philadelphia 1 in complex with ANPPNP and a substrate analogue Arginine Q5ZY78 Q5ZY78 1.85 X-RAY DIFFRACTION 221 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 388 390 6xnq-a1-m1-cA_6xnq-a1-m1-cB 6xnq-a1-m1-cC_6xnq-a1-m1-cD 7k5z-a1-m1-cA_7k5z-a1-m1-cB VIKKIALAYSGGLDTSIMIPWLKEHYEHAEVIAVICDLGQQEDLDAIKNKALKSGASKAYVVDVKNEFATQYLWPLVKSGALYEDQYILGTISRPLIAQKLVEIALTEQVNAVAHGATGKGNDQVRFEYSIKALAPQLEIIAPWRTWDIKSRQEAIVYAKAHGIEVPVTPKAPYSRDHNIWYISHEGGVLEDPSQEMPNDVLLMTAPVSQTPDEEEVVVLDFKKGVPVALNGQELSPVDLLNSLNQKAGQHGIGVADIVENRLVGMKIRGIYEAPAAAVLYKAHKLLESLCLTRSTLHLKQSLQQTYANLVYEGRWFSQTKQALDAFIDVTQQHVTGCVKLKLFKGNIIPAGMHSPYSLHHKDAEGFINLFSLSAKIYSQVHQGGNYD VIKKIALAYSGGLDTSIMIPWLKEHYEHAEVIAVICDLGQQEDLDAIKNKALKSGASKAYVVDVKNEFATQYLWPLVKSGALYEDQYILGTISRPLIAQKLVEIALTEQVNAVAHGATGKGNDQVRFEYSIKALAPQLEIIAPWRTWDIKSRQEAIVYAKAHGIEVPVTPKAPYSRDHNIWYISHEGGVLEDPSQEMPNDVLLMTAPVSQTPDEEEVVVLDFKKGVPVALNGQELSPVDLLNSLNQKAGQHGIGVADIVENRLVGMKIRGIYEAPAAAVLYKAHKLLESLCLTRSTLHLKQSLQQTYANLVYEGRWFSQTKQALDAFIDVTQQHVTGCVKLKLFKGNIIPAGMHSPYSLHHNQKDAEGFINLFSLSAKIYSQVHQGGNYD 7k67-a2-m1-cC_7k67-a2-m1-cB Structure of the PTP-like myo-inositol phosphatase from Desulfovibrio magneticus C4XPJ9 C4XPJ9 1.6 X-RAY DIFFRACTION 78 1.0 184917 (Solidesulfovibrio magneticus) 184917 (Solidesulfovibrio magneticus) 271 272 7k67-a1-m1-cD_7k67-a1-m1-cA 7k6w-a1-m1-cD_7k6w-a1-m1-cA 7k6w-a2-m1-cC_7k6w-a2-m1-cB 7k6y-a1-m1-cB_7k6y-a1-m1-cA DVGVLTLDAPAASALPHRFRTCFFPLTAAAVPSREGLNGLRVSGSSQFSLAGLALMREQFPPRAVIVDLRRESHGFLGGNAVSWRLPDNQGNPGRDAAFVAEAEAALLAAIDERPDIVVAREARRGGPTPLTLGPLPAVSEAQAAASLGLGYLRLAVSDHTRPDDAVVERFVRFSRSLPPDVWLHFHSRGGAGRTTTFMTLVDMLRNAPSVAFEDIIARQKALGGSDLAKTSGRDALARQRLEFLRRFYEYARANPGGAPLGWTAWLAGGA DVGVLTLDAPAASALPHRFRTCFFPLTAAAVPSREGLNGLRVSGSSQFSLAGLALMREQFPPRAVIVDLRRESHGFLGGNAVSWRLPDNQGNPGRDAAFVAEAEAALLAAIDERPDIVVAREARRGGPTPLTLGPLPAVSEAQAAASLGLGYLRLAVSDHTRPDDAVVERFVRFSRSLPPDVWLHFHSRGGAGRTTTFMTLVDMLRNAPSVAFEDIIARQKALGGSDLAKTSGRDALARQRLEFLRRFYEYARANPGGAPLGWTAWLAGGAK 7k6v-a1-m4-cBB_7k6v-a1-m4-cOB Crystal Structure of Virus-like Particles of GII.4 Norovirus Houston virus (HOV) A9YYE4 A9YYE4 3 X-RAY DIFFRACTION 25 1.0 489822 (Norovirus Hu/Houston/TCH186/2002/US) 489822 (Norovirus Hu/Houston/TCH186/2002/US) 523 523 7k6v-a1-m1-cAB_7k6v-a1-m1-cFB 7k6v-a1-m1-cAB_7k6v-a1-m1-cKB 7k6v-a1-m1-cBB_7k6v-a1-m1-cOB 7k6v-a1-m1-cBB_7k6v-a1-m3-cNB 7k6v-a1-m1-cCB_7k6v-a1-m2-cHB 7k6v-a1-m1-cCB_7k6v-a1-m3-cMB 7k6v-a1-m1-cDB_7k6v-a1-m2-cEB 7k6v-a1-m1-cDB_7k6v-a1-m2-cGB 7k6v-a1-m1-cEB_7k6v-a1-m1-cGB 7k6v-a1-m1-cEB_7k6v-a1-m2-cDB 7k6v-a1-m1-cFB_7k6v-a1-m1-cKB 7k6v-a1-m1-cGB_7k6v-a1-m2-cDB 7k6v-a1-m1-cHB_7k6v-a1-m2-cCB 7k6v-a1-m1-cHB_7k6v-a1-m4-cMB 7k6v-a1-m1-cIB_7k6v-a1-m4-cJB 7k6v-a1-m1-cIB_7k6v-a1-m4-cLB 7k6v-a1-m1-cJB_7k6v-a1-m1-cLB 7k6v-a1-m1-cJB_7k6v-a1-m4-cIB 7k6v-a1-m1-cLB_7k6v-a1-m4-cIB 7k6v-a1-m1-cMB_7k6v-a1-m3-cCB 7k6v-a1-m1-cMB_7k6v-a1-m4-cHB 7k6v-a1-m1-cNB_7k6v-a1-m3-cBB 7k6v-a1-m1-cNB_7k6v-a1-m3-cOB 7k6v-a1-m1-cOB_7k6v-a1-m3-cNB 7k6v-a1-m2-cAB_7k6v-a1-m2-cFB 7k6v-a1-m2-cAB_7k6v-a1-m2-cKB 7k6v-a1-m2-cBB_7k6v-a1-m2-cOB 7k6v-a1-m2-cBB_7k6v-a1-m4-cNB 7k6v-a1-m2-cCB_7k6v-a1-m4-cMB 7k6v-a1-m2-cEB_7k6v-a1-m2-cGB 7k6v-a1-m2-cFB_7k6v-a1-m2-cKB 7k6v-a1-m2-cHB_7k6v-a1-m3-cMB 7k6v-a1-m2-cIB_7k6v-a1-m3-cJB 7k6v-a1-m2-cIB_7k6v-a1-m3-cLB 7k6v-a1-m2-cJB_7k6v-a1-m2-cLB 7k6v-a1-m2-cJB_7k6v-a1-m3-cIB 7k6v-a1-m2-cLB_7k6v-a1-m3-cIB 7k6v-a1-m2-cMB_7k6v-a1-m3-cHB 7k6v-a1-m2-cMB_7k6v-a1-m4-cCB 7k6v-a1-m2-cNB_7k6v-a1-m4-cBB 7k6v-a1-m2-cNB_7k6v-a1-m4-cOB 7k6v-a1-m2-cOB_7k6v-a1-m4-cNB 7k6v-a1-m3-cAB_7k6v-a1-m3-cFB 7k6v-a1-m3-cAB_7k6v-a1-m3-cKB 7k6v-a1-m3-cBB_7k6v-a1-m3-cOB 7k6v-a1-m3-cCB_7k6v-a1-m4-cHB 7k6v-a1-m3-cDB_7k6v-a1-m4-cEB 7k6v-a1-m3-cDB_7k6v-a1-m4-cGB 7k6v-a1-m3-cEB_7k6v-a1-m3-cGB 7k6v-a1-m3-cEB_7k6v-a1-m4-cDB 7k6v-a1-m3-cFB_7k6v-a1-m3-cKB 7k6v-a1-m3-cGB_7k6v-a1-m4-cDB 7k6v-a1-m3-cHB_7k6v-a1-m4-cCB 7k6v-a1-m3-cJB_7k6v-a1-m3-cLB 7k6v-a1-m4-cAB_7k6v-a1-m4-cFB 7k6v-a1-m4-cAB_7k6v-a1-m4-cKB 7k6v-a1-m4-cEB_7k6v-a1-m4-cGB 7k6v-a1-m4-cFB_7k6v-a1-m4-cKB 7k6v-a1-m4-cJB_7k6v-a1-m4-cLB PSDGSTANLVPEVNNEVMALEPVVGAAIAAPVAGQQNVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDPTIKLIAMLYTPLRANNAGDDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGTHDYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRGDGSTRGHKATVSTGSVHFTPKLGSVQFTTDTNNDLETGQNTKFTPVGVVQDGNSAHQNEPQQWVLPNYSGRTGHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVLHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGPHDLVIPPNGYFRFDSWVNQFYTLAPMGN PSDGSTANLVPEVNNEVMALEPVVGAAIAAPVAGQQNVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDPTIKLIAMLYTPLRANNAGDDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGTHDYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRGDGSTRGHKATVSTGSVHFTPKLGSVQFTTDTNNDLETGQNTKFTPVGVVQDGNSAHQNEPQQWVLPNYSGRTGHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVLHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGPHDLVIPPNGYFRFDSWVNQFYTLAPMGN 7k6v-a1-m4-cKA_7k6v-a1-m4-cKC Crystal Structure of Virus-like Particles of GII.4 Norovirus Houston virus (HOV) A9YYE4 A9YYE4 3 X-RAY DIFFRACTION 80 0.998 489822 (Norovirus Hu/Houston/TCH186/2002/US) 489822 (Norovirus Hu/Houston/TCH186/2002/US) 499 507 7k6v-a1-m1-cAA_7k6v-a1-m1-cAC 7k6v-a1-m1-cBA_7k6v-a1-m1-cBC 7k6v-a1-m1-cCA_7k6v-a1-m1-cCC 7k6v-a1-m1-cDA_7k6v-a1-m1-cDC 7k6v-a1-m1-cEC_7k6v-a1-m1-cEA 7k6v-a1-m1-cFA_7k6v-a1-m1-cFC 7k6v-a1-m1-cGA_7k6v-a1-m1-cGC 7k6v-a1-m1-cHA_7k6v-a1-m1-cHC 7k6v-a1-m1-cIA_7k6v-a1-m1-cIC 7k6v-a1-m1-cJA_7k6v-a1-m1-cJC 7k6v-a1-m1-cKA_7k6v-a1-m1-cKC 7k6v-a1-m1-cLA_7k6v-a1-m1-cLC 7k6v-a1-m1-cMA_7k6v-a1-m1-cMC 7k6v-a1-m1-cNA_7k6v-a1-m1-cNC 7k6v-a1-m1-cOC_7k6v-a1-m1-cOA 7k6v-a1-m2-cAA_7k6v-a1-m2-cAC 7k6v-a1-m2-cBA_7k6v-a1-m2-cBC 7k6v-a1-m2-cCA_7k6v-a1-m2-cCC 7k6v-a1-m2-cDA_7k6v-a1-m2-cDC 7k6v-a1-m2-cEC_7k6v-a1-m2-cEA 7k6v-a1-m2-cFA_7k6v-a1-m2-cFC 7k6v-a1-m2-cGA_7k6v-a1-m2-cGC 7k6v-a1-m2-cHA_7k6v-a1-m2-cHC 7k6v-a1-m2-cIA_7k6v-a1-m2-cIC 7k6v-a1-m2-cJA_7k6v-a1-m2-cJC 7k6v-a1-m2-cKA_7k6v-a1-m2-cKC 7k6v-a1-m2-cLA_7k6v-a1-m2-cLC 7k6v-a1-m2-cMA_7k6v-a1-m2-cMC 7k6v-a1-m2-cNA_7k6v-a1-m2-cNC 7k6v-a1-m2-cOC_7k6v-a1-m2-cOA 7k6v-a1-m3-cAA_7k6v-a1-m3-cAC 7k6v-a1-m3-cBA_7k6v-a1-m3-cBC 7k6v-a1-m3-cCA_7k6v-a1-m3-cCC 7k6v-a1-m3-cDA_7k6v-a1-m3-cDC 7k6v-a1-m3-cEC_7k6v-a1-m3-cEA 7k6v-a1-m3-cFA_7k6v-a1-m3-cFC 7k6v-a1-m3-cGA_7k6v-a1-m3-cGC 7k6v-a1-m3-cHA_7k6v-a1-m3-cHC 7k6v-a1-m3-cIA_7k6v-a1-m3-cIC 7k6v-a1-m3-cJA_7k6v-a1-m3-cJC 7k6v-a1-m3-cKA_7k6v-a1-m3-cKC 7k6v-a1-m3-cLA_7k6v-a1-m3-cLC 7k6v-a1-m3-cMA_7k6v-a1-m3-cMC 7k6v-a1-m3-cNA_7k6v-a1-m3-cNC 7k6v-a1-m3-cOC_7k6v-a1-m3-cOA 7k6v-a1-m4-cAA_7k6v-a1-m4-cAC 7k6v-a1-m4-cBA_7k6v-a1-m4-cBC 7k6v-a1-m4-cCA_7k6v-a1-m4-cCC 7k6v-a1-m4-cDA_7k6v-a1-m4-cDC 7k6v-a1-m4-cEC_7k6v-a1-m4-cEA 7k6v-a1-m4-cFA_7k6v-a1-m4-cFC 7k6v-a1-m4-cGA_7k6v-a1-m4-cGC 7k6v-a1-m4-cHA_7k6v-a1-m4-cHC 7k6v-a1-m4-cIA_7k6v-a1-m4-cIC 7k6v-a1-m4-cJA_7k6v-a1-m4-cJC 7k6v-a1-m4-cLA_7k6v-a1-m4-cLC 7k6v-a1-m4-cMA_7k6v-a1-m4-cMC 7k6v-a1-m4-cNA_7k6v-a1-m4-cNC 7k6v-a1-m4-cOC_7k6v-a1-m4-cOA 7mry-a1-m10-cC_7mry-a1-m10-cA 7mry-a1-m11-cC_7mry-a1-m11-cA 7mry-a1-m12-cC_7mry-a1-m12-cA 7mry-a1-m13-cC_7mry-a1-m13-cA 7mry-a1-m14-cC_7mry-a1-m14-cA 7mry-a1-m15-cC_7mry-a1-m15-cA 7mry-a1-m16-cC_7mry-a1-m16-cA 7mry-a1-m17-cC_7mry-a1-m17-cA 7mry-a1-m18-cC_7mry-a1-m18-cA 7mry-a1-m19-cC_7mry-a1-m19-cA 7mry-a1-m1-cC_7mry-a1-m1-cA 7mry-a1-m20-cC_7mry-a1-m20-cA 7mry-a1-m21-cC_7mry-a1-m21-cA 7mry-a1-m22-cC_7mry-a1-m22-cA 7mry-a1-m23-cC_7mry-a1-m23-cA 7mry-a1-m24-cC_7mry-a1-m24-cA 7mry-a1-m25-cC_7mry-a1-m25-cA 7mry-a1-m26-cC_7mry-a1-m26-cA 7mry-a1-m27-cC_7mry-a1-m27-cA 7mry-a1-m28-cC_7mry-a1-m28-cA 7mry-a1-m29-cC_7mry-a1-m29-cA 7mry-a1-m2-cC_7mry-a1-m2-cA 7mry-a1-m30-cC_7mry-a1-m30-cA 7mry-a1-m31-cC_7mry-a1-m31-cA 7mry-a1-m32-cC_7mry-a1-m32-cA 7mry-a1-m33-cC_7mry-a1-m33-cA 7mry-a1-m34-cC_7mry-a1-m34-cA 7mry-a1-m35-cC_7mry-a1-m35-cA 7mry-a1-m36-cC_7mry-a1-m36-cA 7mry-a1-m37-cC_7mry-a1-m37-cA 7mry-a1-m38-cC_7mry-a1-m38-cA 7mry-a1-m39-cC_7mry-a1-m39-cA 7mry-a1-m3-cC_7mry-a1-m3-cA 7mry-a1-m40-cC_7mry-a1-m40-cA 7mry-a1-m41-cC_7mry-a1-m41-cA 7mry-a1-m42-cC_7mry-a1-m42-cA 7mry-a1-m43-cC_7mry-a1-m43-cA 7mry-a1-m44-cC_7mry-a1-m44-cA 7mry-a1-m45-cC_7mry-a1-m45-cA 7mry-a1-m46-cC_7mry-a1-m46-cA 7mry-a1-m47-cC_7mry-a1-m47-cA 7mry-a1-m48-cC_7mry-a1-m48-cA 7mry-a1-m49-cC_7mry-a1-m49-cA 7mry-a1-m4-cC_7mry-a1-m4-cA 7mry-a1-m50-cC_7mry-a1-m50-cA 7mry-a1-m51-cC_7mry-a1-m51-cA 7mry-a1-m52-cC_7mry-a1-m52-cA 7mry-a1-m53-cC_7mry-a1-m53-cA 7mry-a1-m54-cC_7mry-a1-m54-cA 7mry-a1-m55-cC_7mry-a1-m55-cA 7mry-a1-m56-cC_7mry-a1-m56-cA 7mry-a1-m57-cC_7mry-a1-m57-cA 7mry-a1-m58-cC_7mry-a1-m58-cA 7mry-a1-m59-cC_7mry-a1-m59-cA 7mry-a1-m5-cC_7mry-a1-m5-cA 7mry-a1-m60-cC_7mry-a1-m60-cA 7mry-a1-m6-cC_7mry-a1-m6-cA 7mry-a1-m7-cC_7mry-a1-m7-cA 7mry-a1-m8-cC_7mry-a1-m8-cA 7mry-a1-m9-cC_7mry-a1-m9-cA MALEPVVGAAIAAPVAGQQNVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDPTIKLIAMLYTPLRAVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGTHDYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRGDGSTRGHKATVSTGSVHFTPKLGSVQFTTDTNNDLETGQNTKFTPVGVVQDGNSAHQNEPQQWVLPNYSGRTGHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVLHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGPHDLVIPPNGYFRFDSWVNQFYTLAPMG NEVMALEPVVGAAIAAPVAGQQNVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDPTIKLIAMLYTPLRANNAGDDVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGTHDYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRGDGSTRGHKATVSTGSVHFTPKLGSVQFTTDTNNDLETGQNTKFTPVGVVQDGNSAHQNEPQQWVLPNYSGRTGHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVLHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGPHDLVIPPNGYFRFDSWVNQFYTLAPM 7k6v-a1-m4-cNA_7k6v-a1-m4-cNB Crystal Structure of Virus-like Particles of GII.4 Norovirus Houston virus (HOV) A9YYE4 A9YYE4 3 X-RAY DIFFRACTION 64 1.0 489822 (Norovirus Hu/Houston/TCH186/2002/US) 489822 (Norovirus Hu/Houston/TCH186/2002/US) 499 523 7k6v-a1-m1-cAA_7k6v-a1-m1-cAB 7k6v-a1-m1-cAC_7k6v-a1-m1-cAB 7k6v-a1-m1-cBA_7k6v-a1-m1-cBB 7k6v-a1-m1-cBC_7k6v-a1-m1-cBB 7k6v-a1-m1-cCA_7k6v-a1-m1-cCB 7k6v-a1-m1-cCC_7k6v-a1-m1-cCB 7k6v-a1-m1-cDA_7k6v-a1-m1-cDB 7k6v-a1-m1-cDC_7k6v-a1-m1-cDB 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7mry-a1-m16-cA_7mry-a1-m17-cA 7mry-a1-m16-cA_7mry-a1-m20-cA 7mry-a1-m16-cB_7mry-a1-m17-cC 7mry-a1-m16-cC_7mry-a1-m20-cB 7mry-a1-m17-cA_7mry-a1-m18-cA 7mry-a1-m17-cB_7mry-a1-m18-cC 7mry-a1-m17-cB_7mry-a1-m28-cC 7mry-a1-m17-cC_7mry-a1-m28-cB 7mry-a1-m18-cA_7mry-a1-m19-cA 7mry-a1-m18-cB_7mry-a1-m19-cC 7mry-a1-m18-cB_7mry-a1-m52-cC 7mry-a1-m18-cC_7mry-a1-m52-cB 7mry-a1-m19-cA_7mry-a1-m20-cA 7mry-a1-m19-cB_7mry-a1-m20-cC 7mry-a1-m19-cB_7mry-a1-m60-cC 7mry-a1-m19-cC_7mry-a1-m60-cB 7mry-a1-m1-cA_7mry-a1-m2-cA 7mry-a1-m1-cA_7mry-a1-m5-cA 7mry-a1-m1-cB_7mry-a1-m2-cC 7mry-a1-m1-cB_7mry-a1-m6-cC 7mry-a1-m1-cC_7mry-a1-m5-cB 7mry-a1-m1-cC_7mry-a1-m6-cB 7mry-a1-m20-cB_7mry-a1-m39-cC 7mry-a1-m20-cC_7mry-a1-m39-cB 7mry-a1-m21-cA_7mry-a1-m22-cA 7mry-a1-m21-cA_7mry-a1-m25-cA 7mry-a1-m21-cB_7mry-a1-m22-cC 7mry-a1-m21-cB_7mry-a1-m26-cC 7mry-a1-m21-cC_7mry-a1-m25-cB 7mry-a1-m21-cC_7mry-a1-m26-cB 7mry-a1-m22-cA_7mry-a1-m23-cA 7mry-a1-m22-cB_7mry-a1-m23-cC 7mry-a1-m22-cB_7mry-a1-m43-cC 7mry-a1-m22-cC_7mry-a1-m43-cB 7mry-a1-m23-cA_7mry-a1-m24-cA 7mry-a1-m23-cB_7mry-a1-m24-cC 7mry-a1-m24-cA_7mry-a1-m25-cA 7mry-a1-m24-cB_7mry-a1-m25-cC 7mry-a1-m25-cB_7mry-a1-m54-cC 7mry-a1-m25-cC_7mry-a1-m54-cB 7mry-a1-m26-cA_7mry-a1-m27-cA 7mry-a1-m26-cA_7mry-a1-m30-cA 7mry-a1-m26-cB_7mry-a1-m27-cC 7mry-a1-m26-cC_7mry-a1-m30-cB 7mry-a1-m27-cA_7mry-a1-m28-cA 7mry-a1-m27-cB_7mry-a1-m28-cC 7mry-a1-m27-cB_7mry-a1-m53-cC 7mry-a1-m27-cC_7mry-a1-m53-cB 7mry-a1-m28-cA_7mry-a1-m29-cA 7mry-a1-m28-cB_7mry-a1-m29-cC 7mry-a1-m29-cA_7mry-a1-m30-cA 7mry-a1-m29-cB_7mry-a1-m30-cC 7mry-a1-m2-cA_7mry-a1-m3-cA 7mry-a1-m2-cB_7mry-a1-m23-cC 7mry-a1-m2-cB_7mry-a1-m3-cC 7mry-a1-m2-cC_7mry-a1-m23-cB 7mry-a1-m30-cB_7mry-a1-m44-cC 7mry-a1-m30-cC_7mry-a1-m44-cB 7mry-a1-m31-cA_7mry-a1-m32-cA 7mry-a1-m31-cA_7mry-a1-m35-cA 7mry-a1-m31-cB_7mry-a1-m32-cC 7mry-a1-m31-cB_7mry-a1-m36-cC 7mry-a1-m31-cC_7mry-a1-m35-cB 7mry-a1-m31-cC_7mry-a1-m36-cB 7mry-a1-m32-cA_7mry-a1-m33-cA 7mry-a1-m32-cB_7mry-a1-m33-cC 7mry-a1-m32-cB_7mry-a1-m58-cC 7mry-a1-m32-cC_7mry-a1-m58-cB 7mry-a1-m33-cA_7mry-a1-m34-cA 7mry-a1-m33-cB_7mry-a1-m34-cC 7mry-a1-m33-cB_7mry-a1-m7-cC 7mry-a1-m33-cC_7mry-a1-m7-cB 7mry-a1-m34-cA_7mry-a1-m35-cA 7mry-a1-m34-cB_7mry-a1-m35-cC 7mry-a1-m34-cB_7mry-a1-m5-cC 7mry-a1-m34-cC_7mry-a1-m5-cB 7mry-a1-m35-cB_7mry-a1-m49-cC 7mry-a1-m35-cC_7mry-a1-m49-cB 7mry-a1-m36-cA_7mry-a1-m37-cA 7mry-a1-m36-cA_7mry-a1-m40-cA 7mry-a1-m36-cB_7mry-a1-m37-cC 7mry-a1-m36-cC_7mry-a1-m40-cB 7mry-a1-m37-cA_7mry-a1-m38-cA 7mry-a1-m37-cB_7mry-a1-m38-cC 7mry-a1-m37-cB_7mry-a1-m48-cC 7mry-a1-m37-cC_7mry-a1-m48-cB 7mry-a1-m38-cA_7mry-a1-m39-cA 7mry-a1-m38-cB_7mry-a1-m39-cC 7mry-a1-m39-cA_7mry-a1-m40-cA 7mry-a1-m39-cB_7mry-a1-m40-cC 7mry-a1-m3-cA_7mry-a1-m4-cA 7mry-a1-m3-cB_7mry-a1-m42-cC 7mry-a1-m3-cB_7mry-a1-m4-cC 7mry-a1-m3-cC_7mry-a1-m42-cB 7mry-a1-m40-cB_7mry-a1-m59-cC 7mry-a1-m40-cC_7mry-a1-m59-cB 7mry-a1-m41-cA_7mry-a1-m42-cA 7mry-a1-m41-cA_7mry-a1-m45-cA 7mry-a1-m41-cB_7mry-a1-m42-cC 7mry-a1-m41-cB_7mry-a1-m46-cC 7mry-a1-m41-cC_7mry-a1-m45-cB 7mry-a1-m41-cC_7mry-a1-m46-cB 7mry-a1-m42-cA_7mry-a1-m43-cA 7mry-a1-m42-cB_7mry-a1-m43-cC 7mry-a1-m43-cA_7mry-a1-m44-cA 7mry-a1-m43-cB_7mry-a1-m44-cC 7mry-a1-m44-cA_7mry-a1-m45-cA 7mry-a1-m44-cB_7mry-a1-m45-cC 7mry-a1-m46-cA_7mry-a1-m47-cA 7mry-a1-m46-cA_7mry-a1-m50-cA 7mry-a1-m46-cB_7mry-a1-m47-cC 7mry-a1-m46-cC_7mry-a1-m50-cB 7mry-a1-m47-cA_7mry-a1-m48-cA 7mry-a1-m47-cB_7mry-a1-m48-cC 7mry-a1-m48-cA_7mry-a1-m49-cA 7mry-a1-m48-cB_7mry-a1-m49-cC 7mry-a1-m49-cA_7mry-a1-m50-cA 7mry-a1-m49-cB_7mry-a1-m50-cC 7mry-a1-m4-cA_7mry-a1-m5-cA 7mry-a1-m4-cB_7mry-a1-m50-cC 7mry-a1-m4-cB_7mry-a1-m5-cC 7mry-a1-m4-cC_7mry-a1-m50-cB 7mry-a1-m51-cA_7mry-a1-m52-cA 7mry-a1-m51-cA_7mry-a1-m55-cA 7mry-a1-m51-cB_7mry-a1-m52-cC 7mry-a1-m51-cB_7mry-a1-m56-cC 7mry-a1-m51-cC_7mry-a1-m55-cB 7mry-a1-m51-cC_7mry-a1-m56-cB 7mry-a1-m52-cA_7mry-a1-m53-cA 7mry-a1-m52-cB_7mry-a1-m53-cC 7mry-a1-m53-cA_7mry-a1-m54-cA 7mry-a1-m53-cB_7mry-a1-m54-cC 7mry-a1-m54-cA_7mry-a1-m55-cA 7mry-a1-m54-cB_7mry-a1-m55-cC 7mry-a1-m55-cB_7mry-a1-m9-cC 7mry-a1-m55-cC_7mry-a1-m9-cB 7mry-a1-m56-cA_7mry-a1-m57-cA 7mry-a1-m56-cA_7mry-a1-m60-cA 7mry-a1-m56-cB_7mry-a1-m57-cC 7mry-a1-m56-cC_7mry-a1-m60-cB 7mry-a1-m57-cA_7mry-a1-m58-cA 7mry-a1-m57-cB_7mry-a1-m58-cC 7mry-a1-m57-cB_7mry-a1-m8-cC 7mry-a1-m57-cC_7mry-a1-m8-cB 7mry-a1-m58-cA_7mry-a1-m59-cA 7mry-a1-m58-cB_7mry-a1-m59-cC 7mry-a1-m59-cA_7mry-a1-m60-cA 7mry-a1-m59-cB_7mry-a1-m60-cC 7mry-a1-m6-cA_7mry-a1-m7-cA 7mry-a1-m6-cB_7mry-a1-m7-cC 7mry-a1-m7-cA_7mry-a1-m8-cA 7mry-a1-m7-cB_7mry-a1-m8-cC 7mry-a1-m8-cA_7mry-a1-m9-cA 7mry-a1-m8-cB_7mry-a1-m9-cC MALEPVVGAAIAAPVAGQQNVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDPTIKLIAMLYTPLRAVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGTHDYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRGDGSTRGHKATVSTGSVHFTPKLGSVQFTTDTNNDLETGQNTKFTPVGVVQDGNSAHQNEPQQWVLPNYSGRTGHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVLHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGPHDLVIPPNGYFRFDSWVNQFYTLAPMG MALEPVVGAAIAAPVAGQQNVIDPWIRNNFVQAPGGEFTVSPRNAPGEILWSAPLGPDLNPYLSHLARMYNGYAGGFEVQVILAGNAFTAGKIIFAAVPPNFPTEGLSPSQVTMFPHIIVDVRQLEPVLIPLPDVRNNFYHYNQSNDPTIKLIAMLYTPLRAVFTVSCRVLTRPSPDFDFIFLVPPTVESRTKPFTVPILTVEEMTNSRFPIPLEKLFTGPSGAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHIAGTHDYTMNLASQNWNNYDPTEEIPAPLGTPDFVGKIQGVLTQTTRGDGSTRGHKATVSTGSVHFTPKLGSVQFTTDTNNDLETGQNTKFTPVGVVQDGNSAHQNEPQQWVLPNYSGRTGHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMNLDCLLPQEWVLHFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGPHDLVIPPNGYFRFDSWVNQFYTLAPMG 7k74-a1-m1-cB_7k74-a1-m1-cD Crystal Structure of Fructose-1,6-bisphosphatase, type I, from Stenotrophomonas maltophilia K279a B2FU10 B2FU10 2.2 X-RAY DIFFRACTION 31 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 324 324 7k74-a1-m1-cC_7k74-a1-m1-cA HHMLTRFLIQEQHAGRINADLRQLIAVVARACTSISIAVSKGALGGVLQGEAQKKLDVISNEILLEANAWGGHLAACASEEMDHSQPVPDIYPRGDFLLLFDPLDGSSNIDVNVSVGTIFSVLRCPTELPGDDAFLQPGSKQIAAGYCIYGPSTQLVLTVGHGTHAFTLDREKGEFVLTTENMQIPAATQEFAINMSNQRHWEAPMQAYVGDLLAGKEGTRGKNFNMRWIASMVADVHRILTRGGIFIYPWDKKDPSKAGKLRLMYEANPMGLLVEQAGGAAWTGRERILDIQPDQLHQRVPVFLGSREEVAEAVRYHHAHDNA HHMLTRFLIQEQHAGRINADLRQLIAVVARACTSISIAVSKGALGGVLQGEAQKKLDVISNEILLEANAWGGHLAACASEEMDHSQPVPDIYPRGDFLLLFDPLDGSSNIDVNVSVGTIFSVLRCPTELPGDDAFLQPGSKQIAAGYCIYGPSTQLVLTVGHGTHAFTLDREKGEFVLTTENMQIPAATQEFAINMSNQRHWEAPMQAYVGDLLAGKEGTRGKNFNMRWIASMVADVHRILTRGGIFIYPWDKKDPSKAGKLRLMYEANPMGLLVEQAGGAAWTGRERILDIQPDQLHQRVPVFLGSREEVAEAVRYHHAHDNA 7k74-a1-m1-cC_7k74-a1-m1-cD Crystal Structure of Fructose-1,6-bisphosphatase, type I, from Stenotrophomonas maltophilia K279a B2FU10 B2FU10 2.2 X-RAY DIFFRACTION 147 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 322 324 7k74-a1-m1-cA_7k74-a1-m1-cB HHMLTRFLIQEQHAGRINADLRQLIAVVARACTSISIAVSKGALGGVLQGEAQKKLDVISNEILLEANAWGGHLAACASEEMDHSQPVPDIYPRGDFLLLFDPLDGSSNIDVNVSVGTIFSVLRCPTPGDDAFLQPGSKQIAAGYCIYGPSTQLVLTVGHGTHAFTLDREKGEFVLTTENMQIPAATQEFAINMSNQRHWEAPMQAYVGDLLAGKEGTRGKNFNMRWIASMVADVHRILTRGGIFIYPWDKKDPSKAGKLRLMYEANPMGLLVEQAGGAAWTGRERILDIQPDQLHQRVPVFLGSREEVAEAVRYHHAHDNA HHMLTRFLIQEQHAGRINADLRQLIAVVARACTSISIAVSKGALGGVLQGEAQKKLDVISNEILLEANAWGGHLAACASEEMDHSQPVPDIYPRGDFLLLFDPLDGSSNIDVNVSVGTIFSVLRCPTELPGDDAFLQPGSKQIAAGYCIYGPSTQLVLTVGHGTHAFTLDREKGEFVLTTENMQIPAATQEFAINMSNQRHWEAPMQAYVGDLLAGKEGTRGKNFNMRWIASMVADVHRILTRGGIFIYPWDKKDPSKAGKLRLMYEANPMGLLVEQAGGAAWTGRERILDIQPDQLHQRVPVFLGSREEVAEAVRYHHAHDNA 7k7a-a1-m1-cA_7k7a-a1-m1-cC Transmembrane structure of TNFR1 P19438 P19438 NOT SOLUTION NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 7k7a-a1-m1-cA_7k7a-a1-m1-cB 7k7a-a1-m1-cB_7k7a-a1-m1-cC GTTVLLPLVIFFGLALLSLLFIGLAYRYQR GTTVLLPLVIFFGLALLSLLFIGLAYRYQR 7k7o-a1-m1-cA_7k7o-a1-m1-cB CRYSTAL STRUCTURE OF TYROSINE KINASE 2 JH2 (PSEUDO KINASE DOMAIN) COMPLEXED WITH COMPOUND-12 AKA:6-[(cyclopropanecarbonyl)amino]-4-{[2-methoxy-3-(pyrimidin-2-yl)phenyl]amino}-N-methylpyridazine-3-carboxamide P29597 P29597 2.82 X-RAY DIFFRACTION 17 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 257 257 6nze-a1-m1-cA_6nze-a1-m1-cB 6nzh-a1-m1-cA_6nzh-a1-m1-cB 6nzp-a1-m1-cA_6nzp-a1-m1-cB 6nzq-a1-m1-cA_6nzq-a1-m1-cB 6nzr-a1-m1-cB_6nzr-a1-m1-cA 7k7q-a1-m1-cB_7k7q-a1-m1-cA SFHRVDQKEITQLSHLGQGTRTNVYEGRLRELRVVLKVLDPSHHDIALAFYETASLMSQVSHTHLAFVHGVCVRGPENIMVTEYVEHGPLDVWLRRERGHVPMAWKMVVAQQLASALSYLENKNLVHGNVCGRNILLARLGLAEGTSPFIKLSDPGVGLGALSREERVERIPWLAPECLPLSTAMDKWGFGATLLEICFDGEAPLQSRSPSEKEHFYQRQHRLPEPSCPQLATLTSQCLTYEPTQRPSFRTILRDLT SFHRVDQKEITQLSHLGQGTRTNVYEGRLRELRVVLKVLDPSHHDIALAFYETASLMSQVSHTHLAFVHGVCVRGPENIMVTEYVEHGPLDVWLRRERGHVPMAWKMVVAQQLASALSYLENKNLVHGNVCGRNILLARLGLAEGTSPFIKLSDPGVGLGALSREERVERIPWLAPECLPSTAMDKWGFGATLLEICFDGEAPLQSRSPSEKEHFYQRQHRLPEPSCPQLATLTSQCLTYEPTQRPSFRTILRDLTR 7k8g-a1-m1-cA_7k8g-a1-m1-cB Crystal structure of bovine RPE65 in complex with 4-fluoro-MB-004 and palmitate Q28175 Q28175 1.95 X-RAY DIFFRACTION 106 1.0 9913 (Bos taurus) 9913 (Bos taurus) 499 502 3fsn-a1-m1-cA_3fsn-a1-m1-cB 3kvc-a1-m1-cB_3kvc-a1-m1-cA 4f2z-a1-m1-cA_4f2z-a1-m1-cE 4f30-a1-m1-cA_4f30-a1-m2-cA 4f3a-a1-m1-cA_4f3a-a1-m2-cA 4f3d-a1-m1-cA_4f3d-a1-m1-cB 4rsc-a1-m1-cA_4rsc-a1-m1-cB 4rse-a1-m1-cA_4rse-a1-m1-cB 4ryx-a1-m1-cA_4ryx-a1-m2-cA 4ryy-a1-m1-cA_4ryy-a1-m1-cB 4ryz-a1-m1-cA_4ryz-a1-m1-cB 4zhk-a1-m1-cA_4zhk-a1-m1-cB 5ul5-a1-m1-cA_5ul5-a1-m1-cB 5ulg-a1-m1-cA_5ulg-a1-m1-cB 7k88-a1-m1-cA_7k88-a1-m1-cB 7k89-a1-m1-cA_7k89-a1-m1-cB 7l0e-a1-m1-cB_7l0e-a1-m1-cA 8doc-a1-m1-cA_8doc-a1-m2-cA SQVEHPAGGYKKLFETVEELSSPLTAHVTGRIPLWLTGSLLRCGPGLFEVGSEPFYHLFDGQALLHKFDFKEGHVTYHRRFIRTDAYVRAMTEKRIVITEFGTCAFEVTDNALVNIYPVGEDYYACTETNFITKVNPETLETIKQVDLCNYVSVNGATAHPHIENDGTVYNIGNCIAYNIVKIPPLQADKEDPISKSEIVVQFPCSDRFKPSYVHSFGLTPNYIVFVETPVKINLFKGANYMDCFESNETMGVWLHIADKKRKKYINNKYRTSPFNLFHHINTYEDHEFLIVDLCCWKGFEFVYNYLYLANLRENWEEVKKNARKAPQPEVRRYVLPLNIDKADTGKNLVTLPNTTATAILCSDETIWLEPEVLFSGPRQAFEFPQINYQKYGGKPYTYAYGLGLNHFVPDRLCKLNVKTKETWVWQEPDSYPSEPIFVSHPDALEEDDGVVLSVVVSPGAGQKPAYLLILNAKDLSEVARAEVEINIPVTFHGLFKKS SQVEHPAGGYKKLFETVEELSSPLTAHVTGRIPLWLTGSLLRCGPGLFEVGSEPFYHLFDGQALLHKFDFKEGHVTYHRRFIRTDAYVRAMTEKRIVITEFGTCAFPGVEVTDNALVNIYPVGEDYYACTETNFITKVNPETLETIKQVDLCNYVSVNGATAHPHIENDGTVYNIGNCIAYNIVKIPPLQADKEDPISKSEIVVQFPCSDRFKPSYVHSFGLTPNYIVFVETPVKINLFKGANYMDCFESNETMGVWLHIADKKRKKYINNKYRTSPFNLFHHINTYEDHEFLIVDLCCWKGFEFVYNYLYLANLRENWEEVKKNARKAPQPEVRRYVLPLNIDKADTGKNLVTLPNTTATAILCSDETIWLEPEVLFSGPRQAFEFPQINYQKYGGKPYTYAYGLGLNHFVPDRLCKLNVKTKETWVWQEPDSYPSEPIFVSHPDALEEDDGVVLSVVVSPGAGQKPAYLLILNAKDLSEVARAEVEINIPVTFHGLFKKS 7k8s-a1-m1-cB_7k8s-a1-m1-cC Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, C002 (state 1) P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 276 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1004 1004 7k8s-a1-m1-cA_7k8s-a1-m1-cB 7k8s-a1-m1-cA_7k8s-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7k8v-a1-m1-cB_7k8v-a1-m1-cC Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, C110 P0DTC2 P0DTC2 3.8 ELECTRON MICROSCOPY 286 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 973 977 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRLFRKSNLKPFERDISTEIYQAGEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRLFRKSNLKPFERDISTEIYQAGEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7k8v-a1-m1-cC_7k8v-a1-m1-cA Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, C110 P0DTC2 P0DTC2 3.8 ELECTRON MICROSCOPY 294 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 978 7k8v-a1-m1-cB_7k8v-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRLFRKSNLKPFERDISTEIYQAGEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRLFRKSNLKPFERDISTEIYQAGEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7k8w-a1-m1-cA_7k8w-a1-m1-cG Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, C119 P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 295 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 990 990 7k8w-a1-m1-cB_7k8w-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7k8z-a1-m1-cB_7k8z-a1-m1-cC Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, C135 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 252 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 949 972 6vyb-a1-m1-cB_6vyb-a1-m1-cC 7k8w-a1-m1-cB_7k8w-a1-m1-cG AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRLFRKSNLKPFERDISTFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7k93-a2-m1-cD_7k93-a2-m1-cC DENV2 NS1 in complex with neutralizing 2B7 single chain Fab variable region (scFv) P29990 P29990 2.89 X-RAY DIFFRACTION 199 0.994 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 325 335 4o6b-a1-m1-cA_4o6b-a1-m1-cB 6wer-a1-m1-cA_6wer-a1-m1-cB 7k93-a1-m1-cA_7k93-a1-m1-cB NADSGCVVSWKNKELKCGSGIFITDNVHTWTEQYKFQPESPSKLASAIQKAHEEGICGIRSVTRLENLMWKQITPELNHILSENEVKLTIMTGDIKGIMQAGKRSLRPQTFLIDGPETAECPNTNRAWNSLEVEDYGFGTTNIWLKLKEKQDVFCDSKLMSAAIKDNRAVHADMGYWIESALNDTWKIEKASFIEVKNCHWPKSHTLWSNGVLESEMIIPKNLAGPVSQHNYRPGYHTQITGPWHLGKLEMDFDFCDGTTVVVTEDCGNRGPSLRTTTASGKLITEWCCRSCTLPPLRYRGEDGCWYGMEIRPLKEKEENLVNSL TENLYFQSNADSGCVVSWKNKELKCGSGIFITDNVHTWTEQYKFQPESPSKLASAIQKAHEEGICGIRSVTRLENLMWKQITPELNHILSENEVKLTIMTGDIKGIMQAGKRSLRPQNQTFLIDGPETAECPNTNRAWNSLEVEDYGFTNIWLKLKEKQDVFCDSKLMSAAIKDNRAVHADMGYWIESALNDTWKIEKASFIEVKNCHWPKSHTLWSNGVLESEMIIPKNLAGPVSQHNYRPGYHTQITGPWHLGKLEMDFDFCDGTTVVVTEDCGNRGPSLRTTTASGKLITEWCCRSCTLPPLRYRGEDGCWYGMEIRPLKEKEENLVNSLVT 7k9h-a1-m1-cA_7k9h-a1-m1-cC SARS-CoV-2 Spike in complex with neutralizing Fab 2B04 (one up, two down conformation) P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 247 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 950 991 7k9h-a1-m1-cA_7k9h-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7k9j-a1-m1-cB_7k9j-a1-m1-cC SARS-CoV-2 Spike in complex with neutralizing Fab 2H04 (three down conformation) P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 288 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 982 982 7k9j-a1-m1-cA_7k9j-a1-m1-cB 7k9j-a1-m1-cA_7k9j-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDIYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDIYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ka0-a1-m1-cB_7ka0-a1-m1-cE Crystal structure of the complex of M. tuberculosis PheRS with cognate precursor tRNA and phenylalanine P9WFU1 P9WFU1 2.4 X-RAY DIFFRACTION 62 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 835 835 7daw-a1-m1-cB_7daw-a1-m2-cB 7db7-a1-m1-cB_7db7-a1-m2-cB 7db8-a1-m1-cB_7db8-a1-m2-cB 7k98-a1-m1-cB_7k98-a1-m1-cE 7k9m-a1-m1-cB_7k9m-a1-m2-cB 7kab-a1-m1-cB_7kab-a1-m2-cB QSNAMRLPYSWLREVVAVGASGWDVTPGELEQTLLRIGHEVEEVIPLGPVDGPVTVGRVADIEELTGYKKPIRACAVDIGDRQYREIICGATNFAVGDLVVVALPGATLPGGFTISARKAYGRNSDGMICSAAELNLGADHSGILVLPPGAAEPGADGAGVLGLDDVVFHLAITPDRGYCMSVRGLARELACAYDLDFVDPASNSRVPPLPIEGPAWPLTVQPETGVRRFALRPVIGIDPAAVSPWWLQRRLLLCGIRATCPAVDVTNYVMLELGHPMHAHDRNRISGTLGVRFARSGETAVTLDGIERKLDTADVLIVDDAATAAIGGVMGAASTEVRADSTDVLLEAAIWDPAAVSRTQRRLHLPSEAARRYERTVDPAISVAALDRCARLLADIAGGEVSPTLTDWRGDPPCDDWSPPPIRMGVDVPDRIAGVAYPQGTTARRLAQIGAVVTHDGDTLTVTPPSWRPDLRQPADLVEEVLRLEGLEVIPSVLPPAPAGRGLTAGQQRRRTIGRSLALSGYVEILPTPFLPAGVFDLWGLEADDSRRMTTRVLNPLEADRPQLATTLLPALLEALVRNVSRGLVDVALFAIAQVVQPTEQTRGVGLIPVDRRPTDDEIAMLDASLPRQPQHVAAVLAGLREPRGPWGPGRPVEAADAFEAVRIIARASRVDVTLRPAQYLPWHPGRCAQVFVGESSVGHAGQLHPAVIERSGLPKGTCAVELNLDAIPCSAPLPAPRVSPYPAVFQDVSLVVAADIPAQAVADAVRAGAGDLLEDIALFDVFTGPQIGEHRKSLTFALRFRAPDRTLTEDDASAARDAAVQSAAERVGAVLRG QSNAMRLPYSWLREVVAVGASGWDVTPGELEQTLLRIGHEVEEVIPLGPVDGPVTVGRVADIEELTGYKKPIRACAVDIGDRQYREIICGATNFAVGDLVVVALPGATLPGGFTISARKAYGRNSDGMICSAAELNLGADHSGILVLPPGAAEPGADGAGVLGLDDVVFHLAITPDRGYCMSVRGLARELACAYDLDFVDPASNSRVPPLPIEGPAWPLTVQPETGVRRFALRPVIGIDPAAVSPWWLQRRLLLCGIRATCPAVDVTNYVMLELGHPMHAHDRNRISGTLGVRFARSGETAVTLDGIERKLDTADVLIVDDAATAAIGGVMGAASTEVRADSTDVLLEAAIWDPAAVSRTQRRLHLPSEAARRYERTVDPAISVAALDRCARLLADIAGGEVSPTLTDWRGDPPCDDWSPPPIRMGVDVPDRIAGVAYPQGTTARRLAQIGAVVTHDGDTLTVTPPSWRPDLRQPADLVEEVLRLEGLEVIPSVLPPAPAGRGLTAGQQRRRTIGRSLALSGYVEILPTPFLPAGVFDLWGLEADDSRRMTTRVLNPLEADRPQLATTLLPALLEALVRNVSRGLVDVALFAIAQVVQPTEQTRGVGLIPVDRRPTDDEIAMLDASLPRQPQHVAAVLAGLREPRGPWGPGRPVEAADAFEAVRIIARASRVDVTLRPAQYLPWHPGRCAQVFVGESSVGHAGQLHPAVIERSGLPKGTCAVELNLDAIPCSAPLPAPRVSPYPAVFQDVSLVVAADIPAQAVADAVRAGAGDLLEDIALFDVFTGPQIGEHRKSLTFALRFRAPDRTLTEDDASAARDAAVQSAAERVGAVLRG 7kav-a2-m1-cA_7kav-a2-m1-cC Crystal structure of OhyA-PEG400 complex from Staphylococcus aureus A0A0D6GJV1 A0A0D6GJV1 1.843 X-RAY DIFFRACTION 117 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 583 583 7kav-a1-m1-cB_7kav-a1-m2-cB 7kaw-a1-m1-cC_7kaw-a1-m2-cC 7kaw-a2-m1-cA_7kaw-a2-m1-cB 7kax-a1-m1-cA_7kax-a1-m2-cA 7kax-a2-m1-cB_7kax-a2-m1-cC 7kay-a1-m1-cA_7kay-a1-m2-cA 7kay-a2-m1-cB_7kay-a2-m1-cC 7kaz-a1-m1-cC_7kaz-a1-m1-cA 7kaz-a2-m1-cB_7kaz-a2-m2-cB SHMYYSYGNYEAFARPKKPENVENKSAYLIGSGLASLAAACFLIRDGQMEGSKIHILEELPKPLKGYVVRGGREMENHFECLWDLFRSIPSLEIDNASVLDEFYWLNKEDPNYSRCRVIEKQGQRLVTDGDFTLTKTAIKEILDLCLTNEEDLDDVKITDVFSDDFFNSNFWIYWKTMFAFEPWHSAMEMRRYLMRFVHHISGLADFSALKFTKYNQYESLVLPMVEYLKSHGVQFEYDVKVEDIKIDVTTSQKIAREILIDRNGNAESIKLTINDLVFVTNGSITESSTYGDNDTPAPPTDELGGSWTLWKNLARQSPEFGNPDKFCQNIPKKSWFVSATSTTNNKEIIDTIESICKRDPLAGKTVTGGIITINDSAWQMSFTINRQQQFKDQPENEISTWIYALYSDVNGDYIKKPITECSGNEICQEWLYHLGVSTDKIEDLAKHASNTIPVYMPYITSYFMTRAIGDRPLVVPHQSQNLAFIGNFAETERDTVFTTEYSVRTAMEAVYQLLNIDRGIPEVINSPFDLRVLMDAIYELNDHQDLREITKDSKMQKLALAGFLKKIKGTYIESLLKEHKLL SHMYYSYGNYEAFARPKKPENVENKSAYLIGSGLASLAAACFLIRDGQMEGSKIHILEELPKPLKGYVVRGGREMENHFECLWDLFRSIPSLEIDNASVLDEFYWLNKEDPNYSRCRVIEKQGQRLVTDGDFTLTKTAIKEILDLCLTNEEDLDDVKITDVFSDDFFNSNFWIYWKTMFAFEPWHSAMEMRRYLMRFVHHISGLADFSALKFTKYNQYESLVLPMVEYLKSHGVQFEYDVKVEDIKIDVTTSQKIAREILIDRNGNAESIKLTINDLVFVTNGSITESSTYGDNDTPAPPTDELGGSWTLWKNLARQSPEFGNPDKFCQNIPKKSWFVSATSTTNNKEIIDTIESICKRDPLAGKTVTGGIITINDSAWQMSFTINRQQQFKDQPENEISTWIYALYSDVNGDYIKKPITECSGNEICQEWLYHLGVSTDKIEDLAKHASNTIPVYMPYITSYFMTRAIGDRPLVVPHQSQNLAFIGNFAETERDTVFTTEYSVRTAMEAVYQLLNIDRGIPEVINSPFDLRVLMDAIYELNDHQDLREITKDSKMQKLALAGFLKKIKGTYIESLLKEHKLL 7kb1-a1-m1-cA_7kb1-a1-m1-cD Complex of O-acety-L-homoserine aminocarboxypropyltransferase (MetY) from Thermotoga maritima and a key reaction intermediate Q9WZY4 Q9WZY4 1.85 X-RAY DIFFRACTION 74 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 428 428 7kb0-a1-m1-cA_7kb0-a1-m3-cA 7kb0-a1-m2-cA_7kb0-a1-m4-cA 7kb1-a1-m1-cB_7kb1-a1-m1-cC DWKKYGYNTRALHAGYEPPEQATGSRAVPIYQTTSYVFRDSDHAARLFALEEPGFIYTRIGNPTVSVLEERIAALEEGVGALAVASGQAAITYAILNIAGPGDEIVSGSALYGGTYNLFRHTLYKKSGIIVKFVDETDPKNIEEAITEKTKAVYLETIGNPGLTVPDFEAIAEIAHRHGVPLIVDNTVAPYIFRPFEHGADIVVYSATKFIGGHGTSIGGLIVDSGKFDWTNGKFPELVEPDPSYHGVSYVETFKEAAYIAKCRTQLLRDLGSCMSPFNAFLFILGLETLSLRMKKHCENALKIVEFLKSHPAVSWVNYPIAEGNKTRENALKYLKEGYGAIVTFGVKGGKEAGKKFIDSLTLISHLANIGDARTLAIHPASTTHQQLTEEEQLKTGVTPDMIRLSVGIEDVEDIIADLDQALRKSQE DWKKYGYNTRALHAGYEPPEQATGSRAVPIYQTTSYVFRDSDHAARLFALEEPGFIYTRIGNPTVSVLEERIAALEEGVGALAVASGQAAITYAILNIAGPGDEIVSGSALYGGTYNLFRHTLYKKSGIIVKFVDETDPKNIEEAITEKTKAVYLETIGNPGLTVPDFEAIAEIAHRHGVPLIVDNTVAPYIFRPFEHGADIVVYSATKFIGGHGTSIGGLIVDSGKFDWTNGKFPELVEPDPSYHGVSYVETFKEAAYIAKCRTQLLRDLGSCMSPFNAFLFILGLETLSLRMKKHCENALKIVEFLKSHPAVSWVNYPIAEGNKTRENALKYLKEGYGAIVTFGVKGGKEAGKKFIDSLTLISHLANIGDARTLAIHPASTTHQQLTEEEQLKTGVTPDMIRLSVGIEDVEDIIADLDQALRKSQE 7kb1-a1-m1-cB_7kb1-a1-m1-cD Complex of O-acety-L-homoserine aminocarboxypropyltransferase (MetY) from Thermotoga maritima and a key reaction intermediate Q9WZY4 Q9WZY4 1.85 X-RAY DIFFRACTION 97 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 428 428 7kb0-a1-m1-cA_7kb0-a1-m4-cA 7kb0-a1-m2-cA_7kb0-a1-m3-cA 7kb1-a1-m1-cA_7kb1-a1-m1-cC DWKKYGYNTRALHAGYEPPEQATGSRAVPIYQTTSYVFRDSDHAARLFALEEPGFIYTRIGNPTVSVLEERIAALEEGVGALAVASGQAAITYAILNIAGPGDEIVSGSALYGGTYNLFRHTLYKKSGIIVKFVDETDPKNIEEAITEKTKAVYLETIGNPGLTVPDFEAIAEIAHRHGVPLIVDNTVAPYIFRPFEHGADIVVYSATKFIGGHGTSIGGLIVDSGKFDWTNGKFPELVEPDPSYHGVSYVETFKEAAYIAKCRTQLLRDLGSCMSPFNAFLFILGLETLSLRMKKHCENALKIVEFLKSHPAVSWVNYPIAEGNKTRENALKYLKEGYGAIVTFGVKGGKEAGKKFIDSLTLISHLANIGDARTLAIHPASTTHQQLTEEEQLKTGVTPDMIRLSVGIEDVEDIIADLDQALRKSQE DWKKYGYNTRALHAGYEPPEQATGSRAVPIYQTTSYVFRDSDHAARLFALEEPGFIYTRIGNPTVSVLEERIAALEEGVGALAVASGQAAITYAILNIAGPGDEIVSGSALYGGTYNLFRHTLYKKSGIIVKFVDETDPKNIEEAITEKTKAVYLETIGNPGLTVPDFEAIAEIAHRHGVPLIVDNTVAPYIFRPFEHGADIVVYSATKFIGGHGTSIGGLIVDSGKFDWTNGKFPELVEPDPSYHGVSYVETFKEAAYIAKCRTQLLRDLGSCMSPFNAFLFILGLETLSLRMKKHCENALKIVEFLKSHPAVSWVNYPIAEGNKTRENALKYLKEGYGAIVTFGVKGGKEAGKKFIDSLTLISHLANIGDARTLAIHPASTTHQQLTEEEQLKTGVTPDMIRLSVGIEDVEDIIADLDQALRKSQE 7kb1-a1-m1-cC_7kb1-a1-m1-cD Complex of O-acety-L-homoserine aminocarboxypropyltransferase (MetY) from Thermotoga maritima and a key reaction intermediate Q9WZY4 Q9WZY4 1.85 X-RAY DIFFRACTION 247 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 428 428 7kb0-a1-m1-cA_7kb0-a1-m2-cA 7kb0-a1-m3-cA_7kb0-a1-m4-cA 7kb1-a1-m1-cA_7kb1-a1-m1-cB DWKKYGYNTRALHAGYEPPEQATGSRAVPIYQTTSYVFRDSDHAARLFALEEPGFIYTRIGNPTVSVLEERIAALEEGVGALAVASGQAAITYAILNIAGPGDEIVSGSALYGGTYNLFRHTLYKKSGIIVKFVDETDPKNIEEAITEKTKAVYLETIGNPGLTVPDFEAIAEIAHRHGVPLIVDNTVAPYIFRPFEHGADIVVYSATKFIGGHGTSIGGLIVDSGKFDWTNGKFPELVEPDPSYHGVSYVETFKEAAYIAKCRTQLLRDLGSCMSPFNAFLFILGLETLSLRMKKHCENALKIVEFLKSHPAVSWVNYPIAEGNKTRENALKYLKEGYGAIVTFGVKGGKEAGKKFIDSLTLISHLANIGDARTLAIHPASTTHQQLTEEEQLKTGVTPDMIRLSVGIEDVEDIIADLDQALRKSQE DWKKYGYNTRALHAGYEPPEQATGSRAVPIYQTTSYVFRDSDHAARLFALEEPGFIYTRIGNPTVSVLEERIAALEEGVGALAVASGQAAITYAILNIAGPGDEIVSGSALYGGTYNLFRHTLYKKSGIIVKFVDETDPKNIEEAITEKTKAVYLETIGNPGLTVPDFEAIAEIAHRHGVPLIVDNTVAPYIFRPFEHGADIVVYSATKFIGGHGTSIGGLIVDSGKFDWTNGKFPELVEPDPSYHGVSYVETFKEAAYIAKCRTQLLRDLGSCMSPFNAFLFILGLETLSLRMKKHCENALKIVEFLKSHPAVSWVNYPIAEGNKTRENALKYLKEGYGAIVTFGVKGGKEAGKKFIDSLTLISHLANIGDARTLAIHPASTTHQQLTEEEQLKTGVTPDMIRLSVGIEDVEDIIADLDQALRKSQE 7kb3-a2-m1-cC_7kb3-a2-m1-cD The structure of a sensor domain of a histidine kinase (VxrA) from Vibrio cholerae O1 biovar eltor str. N16961, 2nd form Q9KM24 Q9KM24 2.25 X-RAY DIFFRACTION 127 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 217 220 7kb3-a1-m1-cB_7kb3-a1-m1-cA DSLPERIDLFVSLFDYNSATTSYDIRSIQTDFPTRLLTPDSMLPQTSEYPLKDIQLLYKLAQSCTGKLPLSPLITEPLVFTRSLCKGSSLSPRWFARSGLIHPGGGTYAFRYAEKYPAQFANLLPYMHIQERPNAAEGTLLYHLQNMGEDAINALVSGASMFGSGSDLWLRKGDIYYLFNEETWLTNANKAGLSYSLLSADNTCFIQRGNICWDVED SNADSLPERIDLFVSLFDYNSATTSYDIRSIQTDFPTRLLTPDSMLPQTSEYPLKDIQLLYKLAQSCTGKLPLSPLITEPLVFTRSLCKGSSLSPRWFARSGLIHPGGGTYAFRYAEKYPAQFANLLPYMHIQERPNAAEGTLLYHLQNMGEDAINALVSGASMFGSGSDLWLRKGDIYYLFNEETWLTNANKAGLSYSLLSADNTCFIQRGNICWDVED 7kb9-a1-m1-cB_7kb9-a1-m1-cA THE STRUCTURE OF A SENSOR DOMAIN OF A HISTIDINE KINASE (VxrA) FROM VIBRIO CHOLERAE O1 BIOVAR ELTOR STR. N16961, D238-T240 deletion mutant Q9KM24 Q9KM24 1.98 X-RAY DIFFRACTION 127 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 215 216 ADSLPERIDLFVSLFDYNSATTSYDIRSIQTDFPTRLLTPDSMLPQTSEYPLKDIQLLYKLAQSCTGKLPLSPLITEPLVFTRSLCKGSSLSPRWFARSGLIHPGGGTYAFRYAEKYPAQFANLLPYMHIQERPNAAEGTLLYHLQNMGEDAINALVSGASMFGSGSDLWLRKGDIYYLFNEETWLTNANKAGLSYSLLSACFIQRGNICWDVED NADSLPERIDLFVSLFDYNSATTSYDIRSIQTDFPTRLLTPDSMLPQTSEYPLKDIQLLYKLAQSCTGKLPLSPLITEPLVFTRSLCKGSSLSPRWFARSGLIHPGGGTYAFRYAEKYPAQFANLLPYMHIQERPNAAEGTLLYHLQNMGEDAINALVSGASMFGSGSDLWLRKGDIYYLFNEETWLTNANKAGLSYSLLSACFIQRGNICWDVED 7kbo-a1-m1-cA_7kbo-a1-m2-cA Reverse Transcriptase Diabody with S82bC, R83T Mutations Crystallized in C2 2.2 X-RAY DIFFRACTION 151 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 227 6vun-a1-m1-cA_6vun-a1-m1-cB 6vuo-a1-m1-cA_6vuo-a1-m1-cB 6vup-a1-m1-cA_6vup-a1-m2-cA 7kbm-a1-m1-cA_7kbm-a1-m2-cA EVQLVESGGGLVQPGGSLRLSCAASGFSLSTSGIGVTWVRQAPGKGLEWLATIWWDDDNRYADSVKGRFTISADTSKNTAYLQMNCLTAEDTAVYYCAQSSAMDHWGQGTLVTVSSGGGSDIQMTQSPSSLSASVGDRVTITCRASQDISSYLNWYQQKPGKAPKLLIYYTSSLHSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSKFPWTFGQGTKVEIK EVQLVESGGGLVQPGGSLRLSCAASGFSLSTSGIGVTWVRQAPGKGLEWLATIWWDDDNRYADSVKGRFTISADTSKNTAYLQMNCLTAEDTAVYYCAQSSAMDHWGQGTLVTVSSGGGSDIQMTQSPSSLSASVGDRVTITCRASQDISSYLNWYQQKPGKAPKLLIYYTSSLHSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQYSKFPWTFGQGTKVEIK 7kbp-a2-m1-cC_7kbp-a2-m2-cD Herceptin Diabody with R83T, E85C Mutations 2.3 X-RAY DIFFRACTION 140 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 230 233 7kbp-a1-m1-cA_7kbp-a1-m3-cB EVQLVESGGGLVQPGGSLRLSCAASGFNIKDTYIHWVRQAPGKGLEWVARIYPTNGYTRYADSVKGRFTISADTSKNTAYLQMNSLTACDTAVYYCSRWGGDGFYAMDYWGQGTLVTVSSGGSDIQMTQSPSSLSASVGDRVTITCRASQDVNTAVAWYQQKPGKAPKLLIYSASFLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHYTTPPTFGQGTKVEIK MEVQLVESGGGLVQPGGSLRLSCAASGFNIKDTYIHWVRQAPGKGLEWVARIYPTNGYTRYADSVKGRFTISADTSKNTAYLQMNSLTACDTAVYYCSRWGGDGFYAMDYWGQGTLVTVSGSDIQMTQSPSSLSASVGDRVTITCRASQDVNTAVAWYQQKPGKAPKLLIYSASFLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQHYTTPPTFGQGTKVEIKGSHH 7kbu-a1-m1-cB_7kbu-a1-m1-cA Structure of Hevin FS-EC Q14515 Q14515 2.27 X-RAY DIFFRACTION 142 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 192 221 CKRGHICVCQDPVTCPPTKPLDQVCGTDNQTYASSCHLFATKCRLEGTKKGHQLQLDYFGACKSIPTCTDFEVIQFPLRMRDWLKNILMQLYEANGDHPIDLLLRDFKKNYHMYVYPVHWQFSELDQHPMDRVLTHSELAPLRASLVPMEHCITRFFEECDPNKDKHITLKEWGHCFGIKEEDIDENLLFAS DSCMSFQCKRGHICKADQQGKPHCVCQDPVTCPPTKPLDQVCGTDNQTYASSCHLFATKCRLEGTKKGHQLQLDYFGACKSIPTCTDFEVIQFPLRMRDWLKNILMQLYEANSEVKKIYLDEKRLLAGDHPIDLLLRDFKKNYHMYVYPVHWQFSELDQHPMDRVLTHSELAPLRASLVPMEHCITRFFEECDPNKDKHITLKEWGHCFGIKEEDIDENLL 7kc7-a1-m1-cA_7kc7-a1-m1-cB Biotin Carboxylase domain of Thermophilic 2-Oxoglutarate Carboxylase bound to ADP without Magnesium with disordered phosphate tail D3DJ42 D3DJ42 2.2 X-RAY DIFFRACTION 98 1.0 940 (Hydrogenobacter thermophilus) 940 (Hydrogenobacter thermophilus) 451 451 7kbl-a1-m1-cA_7kbl-a1-m1-cB 7kct-a1-m1-cA_7kct-a1-m1-cB MFKKVLVANRGEIACRVIRACKELGIQTVAIYNEIESTARHVKMADEAYMIGVNPLDTYLNAERIVDLALEVGAEAIHPGYGFLAENEHFARLCEEKGITFIGPHWKVIELMGDKARSKEVMKRAGVPTVPGSDGILKDVEEAKRIAKEIGYPVLLKASAGGGGRGIRISRNEEELVRNYENAYNEAVKAFGRGDLLLEKYIENPKHIEFQVLGDKYGNVIHLGERDCSIQRRNQKLVEIAPSLLLTPEQREYYGSLVVKAAKEIGYYSAGTMEFIADEKGNLYFIEMNTRIQVEHPVTEMITGVDIVKWQIRIAAGERLRYSQEDIRFNGYSIECRINAEDPKKGFAPSIGTIERYYVPGGFGIRVEHASSKGYEITPYYDSLIAKLIVWAPLWEVAVDRMRSALETYEISGVKTTIPLLINIMKDKDFRDGKFTTRYLEEHPHVFDYAE MFKKVLVANRGEIACRVIRACKELGIQTVAIYNEIESTARHVKMADEAYMIGVNPLDTYLNAERIVDLALEVGAEAIHPGYGFLAENEHFARLCEEKGITFIGPHWKVIELMGDKARSKEVMKRAGVPTVPGSDGILKDVEEAKRIAKEIGYPVLLKASAGGGGRGIRISRNEEELVRNYENAYNEAVKAFGRGDLLLEKYIENPKHIEFQVLGDKYGNVIHLGERDCSIQRRNQKLVEIAPSLLLTPEQREYYGSLVVKAAKEIGYYSAGTMEFIADEKGNLYFIEMNTRIQVEHPVTEMITGVDIVKWQIRIAAGERLRYSQEDIRFNGYSIECRINAEDPKKGFAPSIGTIERYYVPGGFGIRVEHASSKGYEITPYYDSLIAKLIVWAPLWEVAVDRMRSALETYEISGVKTTIPLLINIMKDKDFRDGKFTTRYLEEHPHVFDYAE 7kcj-a3-m1-cB_7kcj-a3-m1-cA The crystal structure of the translation initiation factor EIF4E5 from Leishmania major Q4Q217 Q4Q217 1.997 X-RAY DIFFRACTION 84 1.0 5664 (Leishmania major) 5664 (Leishmania major) 176 184 THALRDKWFVSFLPLLTADMVNTDYKGNWQLAAQERTQKLDWITSVEELWSTMNSLPKVHQLGMGSTLIFARNNKEPPSYEAYPNGSRIMINLLKPPTTDAGLELVLAVVMGETAPVCDVLRIAARPSREHSEQIRVEVWLSDSTRSHAVAEFLAEAMRAKGLAANSYNIAEASFD THALRDKWFVSFLPLLTADMVNTDYKGNWQLAAQERTQKLDWITSVEELWSTMNSLPKVHQLGMGSTLIFARNNKEPPSYEAYPNGSRIMINLLKPPTTDAGLELVLAVVMGETAAEKASDGKPVCDVLRIAARPSREHSEQIRVEVWLSDSTRSHAVAEFLAEAMRAKGLAANSYNIAEASFD 7kcn-a1-m1-cA_7kcn-a1-m2-cB Reconstructed ancestor of HIUases and Transthyretins A0A3B3I7P0 A0A3B3I7P0 1.46 X-RAY DIFFRACTION 33 1.0 32630 (synthetic construct) 32630 (synthetic construct) 114 117 7kcn-a1-m2-cA_7kcn-a1-m1-cB ESPLTTHVLNVAMGVPASNVTLRLYRQDPSSKTWQLLNTGITNEDGRYPGLITKELFTAGVYKLHFETAQYWASLGDTSFYPYVEIVFTINDPGQKYHVPLLLSRFSYSTYRGS ASSESPLTTHVLNVAMGVPASNVTLRLYRQDPSSKTWQLLNTGITNEDGRYPGLITKELFTAGVYKLHFETAQYWASLGDTSFYPYVEIVFTINDPGQKYHVPLLLSRFSYSTYRGS 7kcn-a1-m1-cB_7kcn-a1-m2-cB Reconstructed ancestor of HIUases and Transthyretins A0A3B3I7P0 A0A3B3I7P0 1.46 X-RAY DIFFRACTION 58 1.0 32630 (synthetic construct) 32630 (synthetic construct) 117 117 7kcn-a1-m1-cA_7kcn-a1-m2-cA ASSESPLTTHVLNVAMGVPASNVTLRLYRQDPSSKTWQLLNTGITNEDGRYPGLITKELFTAGVYKLHFETAQYWASLGDTSFYPYVEIVFTINDPGQKYHVPLLLSRFSYSTYRGS ASSESPLTTHVLNVAMGVPASNVTLRLYRQDPSSKTWQLLNTGITNEDGRYPGLITKELFTAGVYKLHFETAQYWASLGDTSFYPYVEIVFTINDPGQKYHVPLLLSRFSYSTYRGS 7kcn-a1-m2-cA_7kcn-a1-m2-cB Reconstructed ancestor of HIUases and Transthyretins A0A3B3I7P0 A0A3B3I7P0 1.46 X-RAY DIFFRACTION 29 1.0 32630 (synthetic construct) 32630 (synthetic construct) 114 117 7kcn-a1-m1-cA_7kcn-a1-m1-cB ESPLTTHVLNVAMGVPASNVTLRLYRQDPSSKTWQLLNTGITNEDGRYPGLITKELFTAGVYKLHFETAQYWASLGDTSFYPYVEIVFTINDPGQKYHVPLLLSRFSYSTYRGS ASSESPLTTHVLNVAMGVPASNVTLRLYRQDPSSKTWQLLNTGITNEDGRYPGLITKELFTAGVYKLHFETAQYWASLGDTSFYPYVEIVFTINDPGQKYHVPLLLSRFSYSTYRGS 7kcz-a1-m1-cA_7kcz-a1-m1-cB CRYSTAL STRUCTURE OF RHESUS MACAQUE (MACACA MULATTA) IGG1 FC FRAGMENT- FC-GAMMA RECEPTOR III COMPLEX V158 MUTANT F6RL33 F6RL33 3.15 X-RAY DIFFRACTION 73 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 209 212 6d4e-a1-m1-cA_6d4e-a1-m1-cB 6mj3-a1-m1-cA_6mj3-a1-m1-cB 6mj3-a2-m1-cD_6mj3-a2-m1-cE 7kcz-a2-m1-cD_7kcz-a2-m1-cE LGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPDVKFNWYVNGAEVHHAQTKPRETQYNSTYRVVSVLTVTHQDWLNGKEYTCKVSNKALPAPIQKTISKDKGQPREPQVYTLPPSREELTKNQVSLTCLVKGFYPSDIVVEWESSGQPENTYKTTPPVLDSDGSYFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSV PELLGGPSVFLFPPKPKDTLMISRTPEVTCVVVDVSQEDPDVKFNWYVNGAEVHHAQTKPRETQYNSTYRVVSVLTVTHQDWLNGKEYTCKVSNKALPAPIQKTISKDKGQPREPQVYTLPPSREELTKNQVSLTCLVKGFYPSDIVVEWESSGQPENTYKTTPPVLDSDGSYFLYSKLTVDKSRWQQGNVFSCSVMHEALHNHYTQKSLSV 7kd9-a1-m1-cD_7kd9-a1-m1-cA Crystal Structure of Gallic Acid Decarboxylase from Arxula adeninivorans A0A060TAG5 A0A060TAG5 1.94 X-RAY DIFFRACTION 101 1.0 409370 (Blastobotrys adeninivorans) 409370 (Blastobotrys adeninivorans) 226 231 6w54-a1-m1-cA_6w54-a1-m2-cA 6w54-a1-m1-cA_6w54-a1-m3-cA 6w54-a1-m2-cA_6w54-a1-m3-cA 7kd9-a1-m1-cB_7kd9-a1-m1-cA 7kd9-a1-m1-cB_7kd9-a1-m1-cD 7kd9-a2-m1-cE_7kd9-a2-m1-cC 7kd9-a2-m1-cE_7kd9-a2-m1-cF 7kd9-a2-m1-cF_7kd9-a2-m1-cC 7kd9-a3-m1-cG_7kd9-a3-m1-cI 7kd9-a3-m1-cH_7kd9-a3-m1-cG 7kd9-a3-m1-cH_7kd9-a3-m1-cI EPWPQLYSHLNGTNEEVLDRMKVAELCKGWSVYRDASEWANFKEMFTPDANIWTTWSGAQTIDSFIQISKDGKDKGAFIMHRECGTLVDLNPKTQRAIGKMKTTITQRFEYEGVPFDIDCDNYFIFFCLKDSNGDWKARWYKVFYVKDKFVPVGVPTAENMEKLAKLFSKENLEQYPWGYQYLAVAQANLGYPIDKKLPTWKNELYHTMYDAMKEWMEGKEIDLHW MTTSYEPWPQLYSHLNGTNEEVLDRMKVAELCKGWSVYRDASEWANFKEMFTPDANIWTTWSGAQTIDSFIQISKDGKDKGAFIMHRECGTLVDLNPKTQRAIGKMKTTITQRFEYEGVPFDIDCDNYFIFFCLKDSNGDWKARWYKVFYVKDKFVPVGVPTAENMEKLAKLFSKENLEQYPWGYQYLAVAQANLGYPIDKKLPTWKNELYHTMYDAMKEWMEGKEIDLHW 7kdh-a1-m1-cB_7kdh-a1-m1-cC SARS-CoV-2 RBD up Spike Protein Trimer without the P986-P987 stabilizing mutations (S-GSAS) P0DTC2 P0DTC2 3.33 ELECTRON MICROSCOPY 280 0.995 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 958 963 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7kdl-a1-m1-cB_7kdl-a1-m1-cC SARS-CoV-2 D614G 1-RBD up Spike Protein Trimer without the P986-P987 stabilizing mutations (S-GSAS-D614G) P0DTC2 P0DTC2 2.96 ELECTRON MICROSCOPY 274 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 949 960 7kdj-a1-m1-cB_7kdj-a1-m1-cC 7ke9-a1-m1-cB_7ke9-a1-m1-cC 7kea-a1-m1-cB_7kea-a1-m1-cC 7keb-a1-m1-cB_7keb-a1-m1-cC 7kec-a1-m1-cB_7kec-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7kdp-a1-m1-cB_7kdp-a1-m1-cC HCMV prefusion gB in complex with fusion inhibitor WAY-174865 P13201 P13201 3.6 ELECTRON MICROSCOPY 279 1.0 10363 (Human herpesvirus 5 strain Towne) 10363 (Human herpesvirus 5 strain Towne) 638 638 7kdp-a1-m1-cA_7kdp-a1-m1-cB 7kdp-a1-m1-cA_7kdp-a1-m1-cC TTKYPYRVCSMAQGTDLIRFERNIVCTSMKPINEDLDEGIMVVYKRNIVAHTFKVRVYQKVLTFRRSYAYIHTTYLLGSNTEYVAPPMWEIHHINSHSQCYSSYSRVIAGTVFVAYHRDSYENKTMQLMPDDYSNTHSTRYVTVKDQWHSRGSTWLYRETCNLNCMVTITTARSKYPYHFFATSTGDVVDISPFYNGTNRNASYFGENADKFFIFPNYTIVSDFGRPNSALETHRLVAFLERADSVISWDIQDEKNVTCQLTFWEASERTIRSEAEDSYHFSSAKMTATFLSKKQEVNMSDSALDCVRDEAINKLQQIFNTSYNQTYEKYGNVSVFETTGGLVVFWQGIKQQLQFTYDTLRGYINRALAQIAEAWCVDQRRTLEVFKELSKINPSAILSAIYNKPIAARFMGDVLGLASCVTINQTSVKVLRDMNVKESPGRCYSRPVVIFNFANSSYVQYGQLGEDNEILLGNHRTEECQLPSLKIFIAGNSAYEYVDYLFKRMIDLSSISTVDSMIALDIDPLENTDFRVLELYSQKELRSSNVFDLEEIMREFNSYKQRVKYVEDKVVDPLPPYLKGLDDLMSGLGAAGKAVGVAIGAVGGAVASVVEGVATFLKNPFGAFTIILVAIAVVIIIY TTKYPYRVCSMAQGTDLIRFERNIVCTSMKPINEDLDEGIMVVYKRNIVAHTFKVRVYQKVLTFRRSYAYIHTTYLLGSNTEYVAPPMWEIHHINSHSQCYSSYSRVIAGTVFVAYHRDSYENKTMQLMPDDYSNTHSTRYVTVKDQWHSRGSTWLYRETCNLNCMVTITTARSKYPYHFFATSTGDVVDISPFYNGTNRNASYFGENADKFFIFPNYTIVSDFGRPNSALETHRLVAFLERADSVISWDIQDEKNVTCQLTFWEASERTIRSEAEDSYHFSSAKMTATFLSKKQEVNMSDSALDCVRDEAINKLQQIFNTSYNQTYEKYGNVSVFETTGGLVVFWQGIKQQLQFTYDTLRGYINRALAQIAEAWCVDQRRTLEVFKELSKINPSAILSAIYNKPIAARFMGDVLGLASCVTINQTSVKVLRDMNVKESPGRCYSRPVVIFNFANSSYVQYGQLGEDNEILLGNHRTEECQLPSLKIFIAGNSAYEYVDYLFKRMIDLSSISTVDSMIALDIDPLENTDFRVLELYSQKELRSSNVFDLEEIMREFNSYKQRVKYVEDKVVDPLPPYLKGLDDLMSGLGAAGKAVGVAIGAVGGAVASVVEGVATFLKNPFGAFTIILVAIAVVIIIY 7kds-a1-m2-cA_7kds-a1-m3-cA Crystal structure of Acetyl-CoA synthetase 2 in complex with Adenosine-5'-propylphosphate from Candida albicans Q8NJN3 Q8NJN3 2.9 X-RAY DIFFRACTION 43 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 654 654 7kds-a1-m1-cA_7kds-a1-m2-cA 7kds-a1-m1-cA_7kds-a1-m3-cA QTHNVVHEANGVKLRETPKEFFERQPNKGHIHDVNQYKQMYEQSIKDPQGFFGPLAKELLSWDHDFHTVKSGTLKNGDAAWFLGGELNASYNCVDRHAFANPDKPALICEADDEKDSHILTYGDLLREVSKVAGVLQSWGIKKGDTVAVYLPMNAQAIIAMLAIARLGAAHSVIFAGFSAGSIKDRVNDASCKALITCDEGKRGGRTTNIKKLCDEALVDCPTVEKVLVYKRTNNPEIHLTEGRDYYWDVETAKFPGYLPPVSVNSEDPLFLLYTSGSTGTPKGVVHSTAGYLLGAALSTKYIFDIHPEDILFTAGDVGWITGHTYALYGPLLLGVPTIIFEGTPAYPDYGRFWQIVEKHKATHFYVAPTALRLLRKAGEQEIAKYDLSSLRTLGSVGEPISPDIWEWYNEFVGKNQCHISDTYWQTESGSHLIAPLAGVVPNKPGSASYPFFGIDAALIDPVTGVEIEGNDAEGVLAIKDHWPSMARTVYKNHTKYMDTYMNPYPGYYFTGDGAARDHDGYYWIRGRVDDVVNVSGHRLSTAEIEAALIEDKKVSEAAVVGIHDDITGQAVIAYVALKEEDSEGLRKELVLQVRKTIGPFAAPKSVIIVQDLPKTRSGKIMRRILRKVSSNEASTLSNPQSVEGIISAFGAQF QTHNVVHEANGVKLRETPKEFFERQPNKGHIHDVNQYKQMYEQSIKDPQGFFGPLAKELLSWDHDFHTVKSGTLKNGDAAWFLGGELNASYNCVDRHAFANPDKPALICEADDEKDSHILTYGDLLREVSKVAGVLQSWGIKKGDTVAVYLPMNAQAIIAMLAIARLGAAHSVIFAGFSAGSIKDRVNDASCKALITCDEGKRGGRTTNIKKLCDEALVDCPTVEKVLVYKRTNNPEIHLTEGRDYYWDVETAKFPGYLPPVSVNSEDPLFLLYTSGSTGTPKGVVHSTAGYLLGAALSTKYIFDIHPEDILFTAGDVGWITGHTYALYGPLLLGVPTIIFEGTPAYPDYGRFWQIVEKHKATHFYVAPTALRLLRKAGEQEIAKYDLSSLRTLGSVGEPISPDIWEWYNEFVGKNQCHISDTYWQTESGSHLIAPLAGVVPNKPGSASYPFFGIDAALIDPVTGVEIEGNDAEGVLAIKDHWPSMARTVYKNHTKYMDTYMNPYPGYYFTGDGAARDHDGYYWIRGRVDDVVNVSGHRLSTAEIEAALIEDKKVSEAAVVGIHDDITGQAVIAYVALKEEDSEGLRKELVLQVRKTIGPFAAPKSVIIVQDLPKTRSGKIMRRILRKVSSNEASTLSNPQSVEGIISAFGAQF 7kdv-a1-m1-cB_7kdv-a1-m1-cL Murine core lysosomal multienzyme complex (LMC) composed of acid beta-galactosidase (GLB1) and protective protein cathepsin A (PPCA, CTSA) P16675 P16675 4.59 ELECTRON MICROSCOPY 117 1.0 10090 (Mus musculus) 10090 (Mus musculus) 452 452 7kdv-a1-m1-cD_7kdv-a1-m1-cF 7kdv-a1-m1-cH_7kdv-a1-m1-cJ SAPDQDEIDALPGLAKQPSFRQYSGYLRASDSKHFHYWFVESQNDPKNSPVVLWLNGGPGCSSLDGLLTEHGPFLIQPDGVTLEYNPYAWNLIANVLYIESPAGVGFSYSDDKMYVTNDTEVAENNYEALKDFFRLFPEYKDNKLFLTGESYAGIYIPTLAVLVMQDPSMNLQGLAVGNGLASYEQNDNSLVYFAYYHGLLGNRLWTSLQTHCCAQNKCNFYDNKDPECVNNLLEVSRIVGKSGLNIYNLYAPCAGGVPGRHRYEDTLVVQDFGNIFTRLPLKRRFPEALMRSGDKVRLDPPCTNTTAPSNYLNNPYVRKALHIPESLPRWDMCNFLVNLQYRRLYQSMNSQYLKLLSSQKYQILLYNGDVDMACNFMGDEWFVDSLNQKMEVQRRPWLVDYGESGEQVAGFVKECSHITFLTIKGAGHMVPTDKPRAAFTMFSRFLNKEPY SAPDQDEIDALPGLAKQPSFRQYSGYLRASDSKHFHYWFVESQNDPKNSPVVLWLNGGPGCSSLDGLLTEHGPFLIQPDGVTLEYNPYAWNLIANVLYIESPAGVGFSYSDDKMYVTNDTEVAENNYEALKDFFRLFPEYKDNKLFLTGESYAGIYIPTLAVLVMQDPSMNLQGLAVGNGLASYEQNDNSLVYFAYYHGLLGNRLWTSLQTHCCAQNKCNFYDNKDPECVNNLLEVSRIVGKSGLNIYNLYAPCAGGVPGRHRYEDTLVVQDFGNIFTRLPLKRRFPEALMRSGDKVRLDPPCTNTTAPSNYLNNPYVRKALHIPESLPRWDMCNFLVNLQYRRLYQSMNSQYLKLLSSQKYQILLYNGDVDMACNFMGDEWFVDSLNQKMEVQRRPWLVDYGESGEQVAGFVKECSHITFLTIKGAGHMVPTDKPRAAFTMFSRFLNKEPY 7kdv-a1-m1-cI_7kdv-a1-m1-cK Murine core lysosomal multienzyme complex (LMC) composed of acid beta-galactosidase (GLB1) and protective protein cathepsin A (PPCA, CTSA) P23780 P23780 4.59 ELECTRON MICROSCOPY 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 600 600 7kdv-a1-m1-cA_7kdv-a1-m1-cC 7kdv-a1-m1-cE_7kdv-a1-m1-cG TQRTFKLDYSRDRFLKDGQPFRYISGSIHYFRIPRFYWEDRLLKMKMAGLNAIQMYVPWNFHEPQPGQYEFSGDRDVEHFIQLAHELGLLVILRPGPYICAEWDMGGLPAWLLEKQSIVLRSSDPDYLVAVDKWLAVLLPKMKPLLYQNGGPIITVQVENEYGSYFACDYDYLRFLVHRFRYHLGNDVILFTTDGASEKMLKCGTLQDLYATVDFGTGNNITQAFLVQRKFEPKGPLINSEFYTGWLDHWGKPHSTVKTKTLATSLYNLLARGANVNLYMFIGGTNFAYWNGANTPYEPQPTSYDYDAPLSEAGDLTKKYFALREVIQMFKEVPEGPIPPSTPKFAYGKVALRKFKTVAEALGILCPNGPVKSLYPLTFTQVKQYFGYVLYRTTLPQDCSNPKPIFSSPFNGVRDRAYVSVDGVPQGILDRNLMTALNIQGKAGATLDILVENMGRVNYGRFINDFKGLISNMTINSTVLTNWTVFPLDTEAMVRNHLWDLILPTFYVGNFSIPSGIPDLPQDTFIQFPGWSKGQVWINGFNLGRYWPTMGPQKTLFVPRNILTTSAPNNITVLELEFAPCSEGTPELCTVEFVDTPVIS TQRTFKLDYSRDRFLKDGQPFRYISGSIHYFRIPRFYWEDRLLKMKMAGLNAIQMYVPWNFHEPQPGQYEFSGDRDVEHFIQLAHELGLLVILRPGPYICAEWDMGGLPAWLLEKQSIVLRSSDPDYLVAVDKWLAVLLPKMKPLLYQNGGPIITVQVENEYGSYFACDYDYLRFLVHRFRYHLGNDVILFTTDGASEKMLKCGTLQDLYATVDFGTGNNITQAFLVQRKFEPKGPLINSEFYTGWLDHWGKPHSTVKTKTLATSLYNLLARGANVNLYMFIGGTNFAYWNGANTPYEPQPTSYDYDAPLSEAGDLTKKYFALREVIQMFKEVPEGPIPPSTPKFAYGKVALRKFKTVAEALGILCPNGPVKSLYPLTFTQVKQYFGYVLYRTTLPQDCSNPKPIFSSPFNGVRDRAYVSVDGVPQGILDRNLMTALNIQGKAGATLDILVENMGRVNYGRFINDFKGLISNMTINSTVLTNWTVFPLDTEAMVRNHLWDLILPTFYVGNFSIPSGIPDLPQDTFIQFPGWSKGQVWINGFNLGRYWPTMGPQKTLFVPRNILTTSAPNNITVLELEFAPCSEGTPELCTVEFVDTPVIS 7ke8-a1-m1-cA_7ke8-a1-m1-cC SARS-CoV-2 D614G 3 RBD down Spike Protein Trimer without the P986-P987 stabilizing mutations (S-GSAS-D614G sub-classification) P0DTC2 P0DTC2 3.26 ELECTRON MICROSCOPY 325 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 981 992 7ke8-a1-m1-cA_7ke8-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ke8-a1-m1-cB_7ke8-a1-m1-cC SARS-CoV-2 D614G 3 RBD down Spike Protein Trimer without the P986-P987 stabilizing mutations (S-GSAS-D614G sub-classification) P0DTC2 P0DTC2 3.26 ELECTRON MICROSCOPY 335 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 984 992 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRKPFERDIYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7keu-a1-m1-cE_7keu-a1-m1-cH Cryo-EM structure of the Caspase-1-CARD:ASC-CARD octamer P29466 P29466 3.9 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 85 ADKVLKEKRKLFIRSMGEWTINGLLDELLQTRVLNKEEMEKVKRENATVMDKTRALIDSVIPKGAQACQICITYICEEDSYLAGT ADKVLKEKRKLFIRSMGEWTINGLLDELLQTRVLNKEEMEKVKRENATVMDKTRALIDSVIPKGAQACQICITYICEEDSYLAGT 7kf3-a1-m1-cA_7kf3-a1-m1-cD Crystal structure of GDP-mannose 4,6-dehydratase from Brucella abortus (strain 2308) in complex with Guanosine-diphosphate-rhamnose Q2YMP3 Q2YMP3 2.35 X-RAY DIFFRACTION 89 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 362 362 7kf3-a1-m1-cB_7kf3-a1-m1-cC MKKVALITGITGQDGAYLAELLLQKGYAVHGIKRRTSQFNTARIDHLYHDPHEQGVDLTLHHGDLTDTSSLVRIMQLVRPDEVYNLGAQSHVAVSFEEPEYTANSDALGALRLLEAIRILGMEKQTRYYQASTSELYGLVQEIPQKETTPFYPRSPYAAAKLYAYWITVNYREAYGIYACNGILFNHESPLRGETFVTRKITRALARIKIGNQNRLYLGNLDSLRDWGHARDYVEMQWLMLQQDQPEDFVIATGKQYSVREFVTLAAKDIGIEMRWEGSGEAEKGYDAKTGACIVEVDPRYFRPAEVETLLGDATKAHQKLGWKPKISFETLVSEMIAEDLAAAARENLLREHGHQFFAPKE MKKVALITGITGQDGAYLAELLLQKGYAVHGIKRRTSQFNTARIDHLYHDPHEQGVDLTLHHGDLTDTSSLVRIMQLVRPDEVYNLGAQSHVAVSFEEPEYTANSDALGALRLLEAIRILGMEKQTRYYQASTSELYGLVQEIPQKETTPFYPRSPYAAAKLYAYWITVNYREAYGIYACNGILFNHESPLRGETFVTRKITRALARIKIGNQNRLYLGNLDSLRDWGHARDYVEMQWLMLQQDQPEDFVIATGKQYSVREFVTLAAKDIGIEMRWEGSGEAEKGYDAKTGACIVEVDPRYFRPAEVETLLGDATKAHQKLGWKPKISFETLVSEMIAEDLAAAARENLLREHGHQFFAPKE 7kf3-a1-m1-cB_7kf3-a1-m1-cD Crystal structure of GDP-mannose 4,6-dehydratase from Brucella abortus (strain 2308) in complex with Guanosine-diphosphate-rhamnose Q2YMP3 Q2YMP3 2.35 X-RAY DIFFRACTION 34 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 362 362 7kf3-a1-m1-cA_7kf3-a1-m1-cC MKKVALITGITGQDGAYLAELLLQKGYAVHGIKRRTSQFNTARIDHLYHDPHEQGVDLTLHHGDLTDTSSLVRIMQLVRPDEVYNLGAQSHVAVSFEEPEYTANSDALGALRLLEAIRILGMEKQTRYYQASTSELYGLVQEIPQKETTPFYPRSPYAAAKLYAYWITVNYREAYGIYACNGILFNHESPLRGETFVTRKITRALARIKIGNQNRLYLGNLDSLRDWGHARDYVEMQWLMLQQDQPEDFVIATGKQYSVREFVTLAAKDIGIEMRWEGSGEAEKGYDAKTGACIVEVDPRYFRPAEVETLLGDATKAHQKLGWKPKISFETLVSEMIAEDLAAAARENLLREHGHQFFAPKE MKKVALITGITGQDGAYLAELLLQKGYAVHGIKRRTSQFNTARIDHLYHDPHEQGVDLTLHHGDLTDTSSLVRIMQLVRPDEVYNLGAQSHVAVSFEEPEYTANSDALGALRLLEAIRILGMEKQTRYYQASTSELYGLVQEIPQKETTPFYPRSPYAAAKLYAYWITVNYREAYGIYACNGILFNHESPLRGETFVTRKITRALARIKIGNQNRLYLGNLDSLRDWGHARDYVEMQWLMLQQDQPEDFVIATGKQYSVREFVTLAAKDIGIEMRWEGSGEAEKGYDAKTGACIVEVDPRYFRPAEVETLLGDATKAHQKLGWKPKISFETLVSEMIAEDLAAAARENLLREHGHQFFAPKE 7kf3-a1-m1-cC_7kf3-a1-m1-cD Crystal structure of GDP-mannose 4,6-dehydratase from Brucella abortus (strain 2308) in complex with Guanosine-diphosphate-rhamnose Q2YMP3 Q2YMP3 2.35 X-RAY DIFFRACTION 134 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 362 362 7kf3-a1-m1-cA_7kf3-a1-m1-cB MKKVALITGITGQDGAYLAELLLQKGYAVHGIKRRTSQFNTARIDHLYHDPHEQGVDLTLHHGDLTDTSSLVRIMQLVRPDEVYNLGAQSHVAVSFEEPEYTANSDALGALRLLEAIRILGMEKQTRYYQASTSELYGLVQEIPQKETTPFYPRSPYAAAKLYAYWITVNYREAYGIYACNGILFNHESPLRGETFVTRKITRALARIKIGNQNRLYLGNLDSLRDWGHARDYVEMQWLMLQQDQPEDFVIATGKQYSVREFVTLAAKDIGIEMRWEGSGEAEKGYDAKTGACIVEVDPRYFRPAEVETLLGDATKAHQKLGWKPKISFETLVSEMIAEDLAAAARENLLREHGHQFFAPKE MKKVALITGITGQDGAYLAELLLQKGYAVHGIKRRTSQFNTARIDHLYHDPHEQGVDLTLHHGDLTDTSSLVRIMQLVRPDEVYNLGAQSHVAVSFEEPEYTANSDALGALRLLEAIRILGMEKQTRYYQASTSELYGLVQEIPQKETTPFYPRSPYAAAKLYAYWITVNYREAYGIYACNGILFNHESPLRGETFVTRKITRALARIKIGNQNRLYLGNLDSLRDWGHARDYVEMQWLMLQQDQPEDFVIATGKQYSVREFVTLAAKDIGIEMRWEGSGEAEKGYDAKTGACIVEVDPRYFRPAEVETLLGDATKAHQKLGWKPKISFETLVSEMIAEDLAAAARENLLREHGHQFFAPKE 7kff-a1-m1-cA_7kff-a1-m2-cA Crystal structure of TrmD tRNA (guanine-N1)-methyltransferase from Corynebacterium diphtheriae in complex with SAH Q6NGI5 Q6NGI5 1.35 X-RAY DIFFRACTION 269 1.0 1717 (Corynebacterium diphtheriae) 1717 (Corynebacterium diphtheriae) 244 244 NARLDVITIFPEYLDPLRHALLGKAIEKDLLSVGVHDLRLWAEDAHKSVDDSPFGGGPGVKPTVWGPALDDVATSVAEADKPLLLVPTPAGAPFTQEDARAWSNEEHIVFACGRYEGIDQRVIEDAKKTYRVREVSIGDYVLIGGEVAVLVIAEAVVRLIPGVLGNTQSHDSFSDGLLEGPSYTKPREWRGLEVPEVLTSGNHAKIERWRREQSLKRTWEVRPELLDGELDRHDQAYVEGLRRG NARLDVITIFPEYLDPLRHALLGKAIEKDLLSVGVHDLRLWAEDAHKSVDDSPFGGGPGVKPTVWGPALDDVATSVAEADKPLLLVPTPAGAPFTQEDARAWSNEEHIVFACGRYEGIDQRVIEDAKKTYRVREVSIGDYVLIGGEVAVLVIAEAVVRLIPGVLGNTQSHDSFSDGLLEGPSYTKPREWRGLEVPEVLTSGNHAKIERWRREQSLKRTWEVRPELLDGELDRHDQAYVEGLRRG 7kfr-a1-m54-cA_7kfr-a1-m9-cA Adeno-Associated Virus (AAV-DJ) - cryo-EM structure at 1.56 Angstrom Resolution Q6JC41 Q6JC41 1.56 ELECTRON MICROSCOPY 384 1.0 272636 (Adeno-associated virus) 272636 (Adeno-associated virus) 521 521 3j1q-a1-m10-cA_3j1q-a1-m23-cA 3j1q-a1-m11-cA_3j1q-a1-m20-cA 3j1q-a1-m11-cA_3j1q-a1-m38-cA 3j1q-a1-m12-cA_3j1q-a1-m37-cA 3j1q-a1-m12-cA_3j1q-a1-m47-cA 3j1q-a1-m13-cA_3j1q-a1-m45-cA 3j1q-a1-m13-cA_3j1q-a1-m46-cA 3j1q-a1-m14-cA_3j1q-a1-m29-cA 3j1q-a1-m14-cA_3j1q-a1-m44-cA 3j1q-a1-m15-cA_3j1q-a1-m16-cA 3j1q-a1-m15-cA_3j1q-a1-m28-cA 3j1q-a1-m16-cA_3j1q-a1-m28-cA 3j1q-a1-m17-cA_3j1q-a1-m27-cA 3j1q-a1-m17-cA_3j1q-a1-m52-cA 3j1q-a1-m18-cA_3j1q-a1-m51-cA 3j1q-a1-m18-cA_3j1q-a1-m60-cA 3j1q-a1-m19-cA_3j1q-a1-m39-cA 3j1q-a1-m19-cA_3j1q-a1-m59-cA 3j1q-a1-m1-cA_3j1q-a1-m10-cA 3j1q-a1-m1-cA_3j1q-a1-m23-cA 3j1q-a1-m20-cA_3j1q-a1-m38-cA 3j1q-a1-m21-cA_3j1q-a1-m30-cA 3j1q-a1-m21-cA_3j1q-a1-m43-cA 3j1q-a1-m22-cA_3j1q-a1-m42-cA 3j1q-a1-m24-cA_3j1q-a1-m54-cA 3j1q-a1-m24-cA_3j1q-a1-m9-cA 3j1q-a1-m25-cA_3j1q-a1-m26-cA 3j1q-a1-m25-cA_3j1q-a1-m53-cA 3j1q-a1-m26-cA_3j1q-a1-m53-cA 3j1q-a1-m27-cA_3j1q-a1-m52-cA 3j1q-a1-m29-cA_3j1q-a1-m44-cA 3j1q-a1-m2-cA_3j1q-a1-m22-cA 3j1q-a1-m2-cA_3j1q-a1-m42-cA 3j1q-a1-m30-cA_3j1q-a1-m43-cA 3j1q-a1-m31-cA_3j1q-a1-m40-cA 3j1q-a1-m31-cA_3j1q-a1-m58-cA 3j1q-a1-m32-cA_3j1q-a1-m57-cA 3j1q-a1-m32-cA_3j1q-a1-m7-cA 3j1q-a1-m33-cA_3j1q-a1-m5-cA 3j1q-a1-m33-cA_3j1q-a1-m6-cA 3j1q-a1-m34-cA_3j1q-a1-m49-cA 3j1q-a1-m34-cA_3j1q-a1-m4-cA 3j1q-a1-m35-cA_3j1q-a1-m36-cA 3j1q-a1-m35-cA_3j1q-a1-m48-cA 3j1q-a1-m36-cA_3j1q-a1-m48-cA 3j1q-a1-m37-cA_3j1q-a1-m47-cA 3j1q-a1-m39-cA_3j1q-a1-m59-cA 3j1q-a1-m3-cA_3j1q-a1-m41-cA 3j1q-a1-m3-cA_3j1q-a1-m50-cA 3j1q-a1-m40-cA_3j1q-a1-m58-cA 3j1q-a1-m41-cA_3j1q-a1-m50-cA 3j1q-a1-m45-cA_3j1q-a1-m46-cA 3j1q-a1-m4-cA_3j1q-a1-m49-cA 3j1q-a1-m51-cA_3j1q-a1-m60-cA 3j1q-a1-m54-cA_3j1q-a1-m9-cA 3j1q-a1-m55-cA_3j1q-a1-m56-cA 3j1q-a1-m55-cA_3j1q-a1-m8-cA 3j1q-a1-m56-cA_3j1q-a1-m8-cA 3j1q-a1-m57-cA_3j1q-a1-m7-cA 3j1q-a1-m5-cA_3j1q-a1-m6-cA 3j4p-a1-m10-cA_3j4p-a1-m23-cA 3j4p-a1-m11-cA_3j4p-a1-m20-cA 3j4p-a1-m11-cA_3j4p-a1-m38-cA 3j4p-a1-m12-cA_3j4p-a1-m37-cA 3j4p-a1-m12-cA_3j4p-a1-m47-cA 3j4p-a1-m13-cA_3j4p-a1-m45-cA 3j4p-a1-m13-cA_3j4p-a1-m46-cA 3j4p-a1-m14-cA_3j4p-a1-m29-cA 3j4p-a1-m14-cA_3j4p-a1-m44-cA 3j4p-a1-m15-cA_3j4p-a1-m16-cA 3j4p-a1-m15-cA_3j4p-a1-m28-cA 3j4p-a1-m16-cA_3j4p-a1-m28-cA 3j4p-a1-m17-cA_3j4p-a1-m27-cA 3j4p-a1-m17-cA_3j4p-a1-m52-cA 3j4p-a1-m18-cA_3j4p-a1-m51-cA 3j4p-a1-m18-cA_3j4p-a1-m60-cA 3j4p-a1-m19-cA_3j4p-a1-m39-cA 3j4p-a1-m19-cA_3j4p-a1-m59-cA 3j4p-a1-m1-cA_3j4p-a1-m10-cA 3j4p-a1-m1-cA_3j4p-a1-m23-cA 3j4p-a1-m20-cA_3j4p-a1-m38-cA 3j4p-a1-m21-cA_3j4p-a1-m30-cA 3j4p-a1-m21-cA_3j4p-a1-m43-cA 3j4p-a1-m22-cA_3j4p-a1-m42-cA 3j4p-a1-m24-cA_3j4p-a1-m54-cA 3j4p-a1-m24-cA_3j4p-a1-m9-cA 3j4p-a1-m25-cA_3j4p-a1-m26-cA 3j4p-a1-m25-cA_3j4p-a1-m53-cA 3j4p-a1-m26-cA_3j4p-a1-m53-cA 3j4p-a1-m27-cA_3j4p-a1-m52-cA 3j4p-a1-m29-cA_3j4p-a1-m44-cA 3j4p-a1-m2-cA_3j4p-a1-m22-cA 3j4p-a1-m2-cA_3j4p-a1-m42-cA 3j4p-a1-m30-cA_3j4p-a1-m43-cA 3j4p-a1-m31-cA_3j4p-a1-m40-cA 3j4p-a1-m31-cA_3j4p-a1-m58-cA 3j4p-a1-m32-cA_3j4p-a1-m57-cA 3j4p-a1-m32-cA_3j4p-a1-m7-cA 3j4p-a1-m33-cA_3j4p-a1-m5-cA 3j4p-a1-m33-cA_3j4p-a1-m6-cA 3j4p-a1-m34-cA_3j4p-a1-m49-cA 3j4p-a1-m34-cA_3j4p-a1-m4-cA 3j4p-a1-m35-cA_3j4p-a1-m36-cA 3j4p-a1-m35-cA_3j4p-a1-m48-cA 3j4p-a1-m36-cA_3j4p-a1-m48-cA 3j4p-a1-m37-cA_3j4p-a1-m47-cA 3j4p-a1-m39-cA_3j4p-a1-m59-cA 3j4p-a1-m3-cA_3j4p-a1-m41-cA 3j4p-a1-m3-cA_3j4p-a1-m50-cA 3j4p-a1-m40-cA_3j4p-a1-m58-cA 3j4p-a1-m41-cA_3j4p-a1-m50-cA 3j4p-a1-m45-cA_3j4p-a1-m46-cA 3j4p-a1-m4-cA_3j4p-a1-m49-cA 3j4p-a1-m51-cA_3j4p-a1-m60-cA 3j4p-a1-m54-cA_3j4p-a1-m9-cA 3j4p-a1-m55-cA_3j4p-a1-m56-cA 3j4p-a1-m55-cA_3j4p-a1-m8-cA 3j4p-a1-m56-cA_3j4p-a1-m8-cA 3j4p-a1-m57-cA_3j4p-a1-m7-cA 3j4p-a1-m5-cA_3j4p-a1-m6-cA 5uf6-a1-m10-cA_5uf6-a1-m23-cA 5uf6-a1-m11-cA_5uf6-a1-m20-cA 5uf6-a1-m11-cA_5uf6-a1-m38-cA 5uf6-a1-m12-cA_5uf6-a1-m37-cA 5uf6-a1-m12-cA_5uf6-a1-m47-cA 5uf6-a1-m13-cA_5uf6-a1-m45-cA 5uf6-a1-m13-cA_5uf6-a1-m46-cA 5uf6-a1-m14-cA_5uf6-a1-m29-cA 5uf6-a1-m14-cA_5uf6-a1-m44-cA 5uf6-a1-m15-cA_5uf6-a1-m16-cA 5uf6-a1-m15-cA_5uf6-a1-m28-cA 5uf6-a1-m16-cA_5uf6-a1-m28-cA 5uf6-a1-m17-cA_5uf6-a1-m27-cA 5uf6-a1-m17-cA_5uf6-a1-m52-cA 5uf6-a1-m18-cA_5uf6-a1-m51-cA 5uf6-a1-m18-cA_5uf6-a1-m60-cA 5uf6-a1-m19-cA_5uf6-a1-m39-cA 5uf6-a1-m19-cA_5uf6-a1-m59-cA 5uf6-a1-m1-cA_5uf6-a1-m10-cA 5uf6-a1-m1-cA_5uf6-a1-m23-cA 5uf6-a1-m20-cA_5uf6-a1-m38-cA 5uf6-a1-m21-cA_5uf6-a1-m30-cA 5uf6-a1-m21-cA_5uf6-a1-m43-cA 5uf6-a1-m22-cA_5uf6-a1-m42-cA 5uf6-a1-m24-cA_5uf6-a1-m54-cA 5uf6-a1-m24-cA_5uf6-a1-m9-cA 5uf6-a1-m25-cA_5uf6-a1-m26-cA 5uf6-a1-m25-cA_5uf6-a1-m53-cA 5uf6-a1-m26-cA_5uf6-a1-m53-cA 5uf6-a1-m27-cA_5uf6-a1-m52-cA 5uf6-a1-m29-cA_5uf6-a1-m44-cA 5uf6-a1-m2-cA_5uf6-a1-m22-cA 5uf6-a1-m2-cA_5uf6-a1-m42-cA 5uf6-a1-m30-cA_5uf6-a1-m43-cA 5uf6-a1-m31-cA_5uf6-a1-m40-cA 5uf6-a1-m31-cA_5uf6-a1-m58-cA 5uf6-a1-m32-cA_5uf6-a1-m57-cA 5uf6-a1-m32-cA_5uf6-a1-m7-cA 5uf6-a1-m33-cA_5uf6-a1-m5-cA 5uf6-a1-m33-cA_5uf6-a1-m6-cA 5uf6-a1-m34-cA_5uf6-a1-m49-cA 5uf6-a1-m34-cA_5uf6-a1-m4-cA 5uf6-a1-m35-cA_5uf6-a1-m36-cA 5uf6-a1-m35-cA_5uf6-a1-m48-cA 5uf6-a1-m36-cA_5uf6-a1-m48-cA 5uf6-a1-m37-cA_5uf6-a1-m47-cA 5uf6-a1-m39-cA_5uf6-a1-m59-cA 5uf6-a1-m3-cA_5uf6-a1-m41-cA 5uf6-a1-m3-cA_5uf6-a1-m50-cA 5uf6-a1-m40-cA_5uf6-a1-m58-cA 5uf6-a1-m41-cA_5uf6-a1-m50-cA 5uf6-a1-m45-cA_5uf6-a1-m46-cA 5uf6-a1-m4-cA_5uf6-a1-m49-cA 5uf6-a1-m51-cA_5uf6-a1-m60-cA 5uf6-a1-m54-cA_5uf6-a1-m9-cA 5uf6-a1-m55-cA_5uf6-a1-m56-cA 5uf6-a1-m55-cA_5uf6-a1-m8-cA 5uf6-a1-m56-cA_5uf6-a1-m8-cA 5uf6-a1-m57-cA_5uf6-a1-m7-cA 5uf6-a1-m5-cA_5uf6-a1-m6-cA 7kfr-a1-m10-cA_7kfr-a1-m23-cA 7kfr-a1-m11-cA_7kfr-a1-m20-cA 7kfr-a1-m11-cA_7kfr-a1-m38-cA 7kfr-a1-m12-cA_7kfr-a1-m37-cA 7kfr-a1-m12-cA_7kfr-a1-m47-cA 7kfr-a1-m13-cA_7kfr-a1-m45-cA 7kfr-a1-m13-cA_7kfr-a1-m46-cA 7kfr-a1-m14-cA_7kfr-a1-m29-cA 7kfr-a1-m14-cA_7kfr-a1-m44-cA 7kfr-a1-m15-cA_7kfr-a1-m16-cA 7kfr-a1-m15-cA_7kfr-a1-m28-cA 7kfr-a1-m16-cA_7kfr-a1-m28-cA 7kfr-a1-m17-cA_7kfr-a1-m27-cA 7kfr-a1-m17-cA_7kfr-a1-m52-cA 7kfr-a1-m18-cA_7kfr-a1-m51-cA 7kfr-a1-m18-cA_7kfr-a1-m60-cA 7kfr-a1-m19-cA_7kfr-a1-m39-cA 7kfr-a1-m19-cA_7kfr-a1-m59-cA 7kfr-a1-m1-cA_7kfr-a1-m10-cA 7kfr-a1-m1-cA_7kfr-a1-m23-cA 7kfr-a1-m20-cA_7kfr-a1-m38-cA 7kfr-a1-m21-cA_7kfr-a1-m30-cA 7kfr-a1-m21-cA_7kfr-a1-m43-cA 7kfr-a1-m22-cA_7kfr-a1-m42-cA 7kfr-a1-m24-cA_7kfr-a1-m54-cA 7kfr-a1-m24-cA_7kfr-a1-m9-cA 7kfr-a1-m25-cA_7kfr-a1-m26-cA 7kfr-a1-m25-cA_7kfr-a1-m53-cA 7kfr-a1-m26-cA_7kfr-a1-m53-cA 7kfr-a1-m27-cA_7kfr-a1-m52-cA 7kfr-a1-m29-cA_7kfr-a1-m44-cA 7kfr-a1-m2-cA_7kfr-a1-m22-cA 7kfr-a1-m2-cA_7kfr-a1-m42-cA 7kfr-a1-m30-cA_7kfr-a1-m43-cA 7kfr-a1-m31-cA_7kfr-a1-m40-cA 7kfr-a1-m31-cA_7kfr-a1-m58-cA 7kfr-a1-m32-cA_7kfr-a1-m57-cA 7kfr-a1-m32-cA_7kfr-a1-m7-cA 7kfr-a1-m33-cA_7kfr-a1-m5-cA 7kfr-a1-m33-cA_7kfr-a1-m6-cA 7kfr-a1-m34-cA_7kfr-a1-m49-cA 7kfr-a1-m34-cA_7kfr-a1-m4-cA 7kfr-a1-m35-cA_7kfr-a1-m36-cA 7kfr-a1-m35-cA_7kfr-a1-m48-cA 7kfr-a1-m36-cA_7kfr-a1-m48-cA 7kfr-a1-m37-cA_7kfr-a1-m47-cA 7kfr-a1-m39-cA_7kfr-a1-m59-cA 7kfr-a1-m3-cA_7kfr-a1-m41-cA 7kfr-a1-m3-cA_7kfr-a1-m50-cA 7kfr-a1-m40-cA_7kfr-a1-m58-cA 7kfr-a1-m41-cA_7kfr-a1-m50-cA 7kfr-a1-m45-cA_7kfr-a1-m46-cA 7kfr-a1-m4-cA_7kfr-a1-m49-cA 7kfr-a1-m51-cA_7kfr-a1-m60-cA 7kfr-a1-m55-cA_7kfr-a1-m56-cA 7kfr-a1-m55-cA_7kfr-a1-m8-cA 7kfr-a1-m56-cA_7kfr-a1-m8-cA 7kfr-a1-m57-cA_7kfr-a1-m7-cA 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3j4p-a1-m51-cA_3j4p-a1-m52-cA 3j4p-a1-m51-cA_3j4p-a1-m55-cA 3j4p-a1-m52-cA_3j4p-a1-m53-cA 3j4p-a1-m53-cA_3j4p-a1-m54-cA 3j4p-a1-m54-cA_3j4p-a1-m55-cA 3j4p-a1-m56-cA_3j4p-a1-m57-cA 3j4p-a1-m56-cA_3j4p-a1-m60-cA 3j4p-a1-m57-cA_3j4p-a1-m58-cA 3j4p-a1-m58-cA_3j4p-a1-m59-cA 3j4p-a1-m59-cA_3j4p-a1-m60-cA 3j4p-a1-m6-cA_3j4p-a1-m7-cA 3j4p-a1-m7-cA_3j4p-a1-m8-cA 3j4p-a1-m8-cA_3j4p-a1-m9-cA 5uf6-a1-m10-cA_5uf6-a1-m6-cA 5uf6-a1-m10-cA_5uf6-a1-m9-cA 5uf6-a1-m11-cA_5uf6-a1-m12-cA 5uf6-a1-m11-cA_5uf6-a1-m15-cA 5uf6-a1-m12-cA_5uf6-a1-m13-cA 5uf6-a1-m13-cA_5uf6-a1-m14-cA 5uf6-a1-m14-cA_5uf6-a1-m15-cA 5uf6-a1-m16-cA_5uf6-a1-m17-cA 5uf6-a1-m16-cA_5uf6-a1-m20-cA 5uf6-a1-m17-cA_5uf6-a1-m18-cA 5uf6-a1-m18-cA_5uf6-a1-m19-cA 5uf6-a1-m19-cA_5uf6-a1-m20-cA 5uf6-a1-m1-cA_5uf6-a1-m2-cA 5uf6-a1-m1-cA_5uf6-a1-m5-cA 5uf6-a1-m21-cA_5uf6-a1-m22-cA 5uf6-a1-m21-cA_5uf6-a1-m25-cA 5uf6-a1-m22-cA_5uf6-a1-m23-cA 5uf6-a1-m23-cA_5uf6-a1-m24-cA 5uf6-a1-m24-cA_5uf6-a1-m25-cA 5uf6-a1-m26-cA_5uf6-a1-m27-cA 5uf6-a1-m26-cA_5uf6-a1-m30-cA 5uf6-a1-m27-cA_5uf6-a1-m28-cA 5uf6-a1-m28-cA_5uf6-a1-m29-cA 5uf6-a1-m29-cA_5uf6-a1-m30-cA 5uf6-a1-m2-cA_5uf6-a1-m3-cA 5uf6-a1-m31-cA_5uf6-a1-m32-cA 5uf6-a1-m31-cA_5uf6-a1-m35-cA 5uf6-a1-m32-cA_5uf6-a1-m33-cA 5uf6-a1-m33-cA_5uf6-a1-m34-cA 5uf6-a1-m34-cA_5uf6-a1-m35-cA 5uf6-a1-m36-cA_5uf6-a1-m37-cA 5uf6-a1-m36-cA_5uf6-a1-m40-cA 5uf6-a1-m37-cA_5uf6-a1-m38-cA 5uf6-a1-m38-cA_5uf6-a1-m39-cA 5uf6-a1-m39-cA_5uf6-a1-m40-cA 5uf6-a1-m3-cA_5uf6-a1-m4-cA 5uf6-a1-m41-cA_5uf6-a1-m42-cA 5uf6-a1-m41-cA_5uf6-a1-m45-cA 5uf6-a1-m42-cA_5uf6-a1-m43-cA 5uf6-a1-m43-cA_5uf6-a1-m44-cA 5uf6-a1-m44-cA_5uf6-a1-m45-cA 5uf6-a1-m46-cA_5uf6-a1-m47-cA 5uf6-a1-m46-cA_5uf6-a1-m50-cA 5uf6-a1-m47-cA_5uf6-a1-m48-cA 5uf6-a1-m48-cA_5uf6-a1-m49-cA 5uf6-a1-m49-cA_5uf6-a1-m50-cA 5uf6-a1-m4-cA_5uf6-a1-m5-cA 5uf6-a1-m51-cA_5uf6-a1-m52-cA 5uf6-a1-m51-cA_5uf6-a1-m55-cA 5uf6-a1-m52-cA_5uf6-a1-m53-cA 5uf6-a1-m53-cA_5uf6-a1-m54-cA 5uf6-a1-m54-cA_5uf6-a1-m55-cA 5uf6-a1-m56-cA_5uf6-a1-m57-cA 5uf6-a1-m56-cA_5uf6-a1-m60-cA 5uf6-a1-m57-cA_5uf6-a1-m58-cA 5uf6-a1-m58-cA_5uf6-a1-m59-cA 5uf6-a1-m59-cA_5uf6-a1-m60-cA 5uf6-a1-m6-cA_5uf6-a1-m7-cA 5uf6-a1-m7-cA_5uf6-a1-m8-cA 5uf6-a1-m8-cA_5uf6-a1-m9-cA 7kfr-a1-m10-cA_7kfr-a1-m6-cA 7kfr-a1-m10-cA_7kfr-a1-m9-cA 7kfr-a1-m11-cA_7kfr-a1-m12-cA 7kfr-a1-m11-cA_7kfr-a1-m15-cA 7kfr-a1-m12-cA_7kfr-a1-m13-cA 7kfr-a1-m13-cA_7kfr-a1-m14-cA 7kfr-a1-m14-cA_7kfr-a1-m15-cA 7kfr-a1-m16-cA_7kfr-a1-m17-cA 7kfr-a1-m16-cA_7kfr-a1-m20-cA 7kfr-a1-m17-cA_7kfr-a1-m18-cA 7kfr-a1-m18-cA_7kfr-a1-m19-cA 7kfr-a1-m19-cA_7kfr-a1-m20-cA 7kfr-a1-m1-cA_7kfr-a1-m2-cA 7kfr-a1-m1-cA_7kfr-a1-m5-cA 7kfr-a1-m21-cA_7kfr-a1-m22-cA 7kfr-a1-m21-cA_7kfr-a1-m25-cA 7kfr-a1-m22-cA_7kfr-a1-m23-cA 7kfr-a1-m23-cA_7kfr-a1-m24-cA 7kfr-a1-m24-cA_7kfr-a1-m25-cA 7kfr-a1-m26-cA_7kfr-a1-m27-cA 7kfr-a1-m26-cA_7kfr-a1-m30-cA 7kfr-a1-m27-cA_7kfr-a1-m28-cA 7kfr-a1-m28-cA_7kfr-a1-m29-cA 7kfr-a1-m29-cA_7kfr-a1-m30-cA 7kfr-a1-m2-cA_7kfr-a1-m3-cA 7kfr-a1-m31-cA_7kfr-a1-m32-cA 7kfr-a1-m31-cA_7kfr-a1-m35-cA 7kfr-a1-m32-cA_7kfr-a1-m33-cA 7kfr-a1-m33-cA_7kfr-a1-m34-cA 7kfr-a1-m34-cA_7kfr-a1-m35-cA 7kfr-a1-m36-cA_7kfr-a1-m37-cA 7kfr-a1-m36-cA_7kfr-a1-m40-cA 7kfr-a1-m37-cA_7kfr-a1-m38-cA 7kfr-a1-m38-cA_7kfr-a1-m39-cA 7kfr-a1-m39-cA_7kfr-a1-m40-cA 7kfr-a1-m3-cA_7kfr-a1-m4-cA 7kfr-a1-m41-cA_7kfr-a1-m42-cA 7kfr-a1-m41-cA_7kfr-a1-m45-cA 7kfr-a1-m42-cA_7kfr-a1-m43-cA 7kfr-a1-m43-cA_7kfr-a1-m44-cA 7kfr-a1-m44-cA_7kfr-a1-m45-cA 7kfr-a1-m46-cA_7kfr-a1-m47-cA 7kfr-a1-m46-cA_7kfr-a1-m50-cA 7kfr-a1-m47-cA_7kfr-a1-m48-cA 7kfr-a1-m48-cA_7kfr-a1-m49-cA 7kfr-a1-m49-cA_7kfr-a1-m50-cA 7kfr-a1-m4-cA_7kfr-a1-m5-cA 7kfr-a1-m51-cA_7kfr-a1-m52-cA 7kfr-a1-m51-cA_7kfr-a1-m55-cA 7kfr-a1-m52-cA_7kfr-a1-m53-cA 7kfr-a1-m53-cA_7kfr-a1-m54-cA 7kfr-a1-m54-cA_7kfr-a1-m55-cA 7kfr-a1-m56-cA_7kfr-a1-m57-cA 7kfr-a1-m56-cA_7kfr-a1-m60-cA 7kfr-a1-m57-cA_7kfr-a1-m58-cA 7kfr-a1-m58-cA_7kfr-a1-m59-cA 7kfr-a1-m59-cA_7kfr-a1-m60-cA 7kfr-a1-m6-cA_7kfr-a1-m7-cA 7kfr-a1-m7-cA_7kfr-a1-m8-cA GADGVGNSSGNWHCDSTWMGDRVITTSTRTWALPTYNNHLYKQISNSTSGGSSNDNAYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKRLSFKLFNIQVKEVTQNEGTKTIANNLTSTIQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMIPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFTYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLSRTQTTGGTTNTQTLGFSQGGPNTMANQAKNWLPGPCYRQQRVSKTSADNNNSEYSWTGATKYHLNGRDSLVNPGPAMASHKDDEEKFFPQSGVLIFGKQGSEKTNVDIEKVMITDEEEIRTTNPVATEQYGSVSTNLQRGNRQAATADVNTQGVLPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQILIKNTPVPADPPTTFNQSKLNSFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYYKSTSVDFAVNTEGVYSEPRPIGTRYLTRNL GADGVGNSSGNWHCDSTWMGDRVITTSTRTWALPTYNNHLYKQISNSTSGGSSNDNAYFGYSTPWGYFDFNRFHCHFSPRDWQRLINNNWGFRPKRLSFKLFNIQVKEVTQNEGTKTIANNLTSTIQVFTDSEYQLPYVLGSAHQGCLPPFPADVFMIPQYGYLTLNNGSQAVGRSSFYCLEYFPSQMLRTGNNFQFTYTFEDVPFHSSYAHSQSLDRLMNPLIDQYLYYLSRTQTTGGTTNTQTLGFSQGGPNTMANQAKNWLPGPCYRQQRVSKTSADNNNSEYSWTGATKYHLNGRDSLVNPGPAMASHKDDEEKFFPQSGVLIFGKQGSEKTNVDIEKVMITDEEEIRTTNPVATEQYGSVSTNLQRGNRQAATADVNTQGVLPGMVWQDRDVYLQGPIWAKIPHTDGHFHPSPLMGGFGLKHPPPQILIKNTPVPADPPTTFNQSKLNSFITQYSTGQVSVEIEWELQKENSKRWNPEIQYTSNYYKSTSVDFAVNTEGVYSEPRPIGTRYLTRNL 7kfu-a1-m1-cA_7kfu-a1-m1-cB Cas6-RT-Cas1--Cas2 complex A0A1J5ID92 A0A1J5ID92 3.9 ELECTRON MICROSCOPY 84 1.0 935 (Thiomicrospira sp.) 935 (Thiomicrospira sp.) 96 96 7kft-a1-m1-cA_7kft-a1-m1-cB MKHYLICFDVQHDKTRAKLSRLLEKYGPRVQGSVFEVSFKTPDRKRQLEYKIHQIIKQSNTEENNIRFYNLNKDTIKHSHDINGNPIAQLPAAIVL MKHYLICFDVQHDKTRAKLSRLLEKYGPRVQGSVFEVSFKTPDRKRQLEYKIHQIIKQSNTEENNIRFYNLNKDTIKHSHDINGNPIAQLPAAIVL 7kfu-a1-m1-cF_7kfu-a1-m1-cC Cas6-RT-Cas1--Cas2 complex A0A1J5IBV5 A0A1J5IBV5 3.9 ELECTRON MICROSCOPY 74 1.0 935 (Thiomicrospira sp.) 935 (Thiomicrospira sp.) 332 909 7kft-a1-m1-cD_7kft-a1-m1-cE 7kfu-a1-m1-cD_7kfu-a1-m1-cE QGTHLVLAGDAQIITTDNQNLIVKKDDKITHKISLEQLHAVTLIGLHTMTLPAKHRLLEHKIPVHIADRTGRYLGAVTSFQPAQNNYKNWFIQLQMCDREPFAHAIAQQIVISRIHNQRQTLLKRKAHRKQLQQTLSNLKKLQYKVTAATKRSSLNGLEGSATREYFQQFNLFLPEWAHFSKRTRRPPKDPFNVLLSLGYTILYSHTDAILQSAGFITWKGIYHQQSAAHAALASDIMESYRHLVERYAIYIINHGQIKQDDFRQEKDHLGQDTIRLSAEARRRYVGGLINRFQKFSKDKTLHQHLYQQAQQLKNAMHNQQSSQFQVWKELK MILPSFPDLTGLVVNLKFTARAEFSLNHEMAVDAFLRHSLNLGESYSHHLSIITPENGRLFYREGDTYRFVVIAMGNQQQTNSIWHTLINHLRKNIKLESLNDLFDGIPVSSKESLDAYTLQRAMEQGLAWHKAANLTEQPLDIQWYWQSTVRILHADHKQHKGEQRYCRDAVQLTPLLLLKRIYETLNNVATYFNHQAWLKEQAQYIEIQHPDLYWIDTPLGGMAGNFTLSLKPGIEPGLLAMLILTQMVGVGQRRTSGLGKYWLKHSLKHAHLILGLKPNRVTRSQTLLDCIIQPHIISQAIAEIEKKTNIDTLNERTLSQVQSAIGQLRKHQYQAPKLQGFTIERLLAVSPLYDRILQKAAAIVLTPGLDAIMSQASYGYRKGLSRQQVRYEIQNAYRQGYHWVYESDIEDFFDAVYRPQLINRLKSLLGNDPLWEQIESWLGQDIHIKDTIIERTPNLGLPQGSPLSPLLANFILDDFDSDLETHGFKIIRFADDFIILCKSQHEAQQAAHAVEQSLKEVKLSINVEKTHIIQLNQGFRFLGYLFRTNLPPWLANLGTKSPQPLKKSYGQIETQGTHLVLAGDAQIITTDNQNLIVKKDDKITHKISLEQLHAVTLIGLHTMTLPAKHRLLEHKIPVHIADRTGRYLGAVTSFQPAQNNYKNWFIQLQMCDREPFAHAIAQQIVISRIHNQRQTLLKRKAHRKQLQQTLSNLKKLQYKVTAATKRSSLNGLEGSATREYFQQFNLFLPEWAHFSKRTRRPPKDPFNVLLSLGYTILYSHTDAILQSAGFITWKGIYHQQSAAHAALASDIMESYRHLVERYAIYIINHGQIKQDDFRQEKDHLGQDTIRLSAEARRRYVGGLINRFQKFSKDKTLHQHLYQQAQQLKNAMHNQQSSQFQVWKELK 7kfu-a1-m1-cF_7kfu-a1-m1-cE Cas6-RT-Cas1--Cas2 complex A0A1J5IBV5 A0A1J5IBV5 3.9 ELECTRON MICROSCOPY 49 1.0 935 (Thiomicrospira sp.) 935 (Thiomicrospira sp.) 332 909 7kfu-a1-m1-cD_7kfu-a1-m1-cC QGTHLVLAGDAQIITTDNQNLIVKKDDKITHKISLEQLHAVTLIGLHTMTLPAKHRLLEHKIPVHIADRTGRYLGAVTSFQPAQNNYKNWFIQLQMCDREPFAHAIAQQIVISRIHNQRQTLLKRKAHRKQLQQTLSNLKKLQYKVTAATKRSSLNGLEGSATREYFQQFNLFLPEWAHFSKRTRRPPKDPFNVLLSLGYTILYSHTDAILQSAGFITWKGIYHQQSAAHAALASDIMESYRHLVERYAIYIINHGQIKQDDFRQEKDHLGQDTIRLSAEARRRYVGGLINRFQKFSKDKTLHQHLYQQAQQLKNAMHNQQSSQFQVWKELK MILPSFPDLTGLVVNLKFTARAEFSLNHEMAVDAFLRHSLNLGESYSHHLSIITPENGRLFYREGDTYRFVVIAMGNQQQTNSIWHTLINHLRKNIKLESLNDLFDGIPVSSKESLDAYTLQRAMEQGLAWHKAANLTEQPLDIQWYWQSTVRILHADHKQHKGEQRYCRDAVQLTPLLLLKRIYETLNNVATYFNHQAWLKEQAQYIEIQHPDLYWIDTPLGGMAGNFTLSLKPGIEPGLLAMLILTQMVGVGQRRTSGLGKYWLKHSLKHAHLILGLKPNRVTRSQTLLDCIIQPHIISQAIAEIEKKTNIDTLNERTLSQVQSAIGQLRKHQYQAPKLQGFTIERLLAVSPLYDRILQKAAAIVLTPGLDAIMSQASYGYRKGLSRQQVRYEIQNAYRQGYHWVYESDIEDFFDAVYRPQLINRLKSLLGNDPLWEQIESWLGQDIHIKDTIIERTPNLGLPQGSPLSPLLANFILDDFDSDLETHGFKIIRFADDFIILCKSQHEAQQAAHAVEQSLKEVKLSINVEKTHIIQLNQGFRFLGYLFRTNLPPWLANLGTKSPQPLKKSYGQIETQGTHLVLAGDAQIITTDNQNLIVKKDDKITHKISLEQLHAVTLIGLHTMTLPAKHRLLEHKIPVHIADRTGRYLGAVTSFQPAQNNYKNWFIQLQMCDREPFAHAIAQQIVISRIHNQRQTLLKRKAHRKQLQQTLSNLKKLQYKVTAATKRSSLNGLEGSATREYFQQFNLFLPEWAHFSKRTRRPPKDPFNVLLSLGYTILYSHTDAILQSAGFITWKGIYHQQSAAHAALASDIMESYRHLVERYAIYIINHGQIKQDDFRQEKDHLGQDTIRLSAEARRRYVGGLINRFQKFSKDKTLHQHLYQQAQQLKNAMHNQQSSQFQVWKELK 7kgc-a1-m2-cD_7kgc-a1-m5-cD Crystal structure of a perchloric acid-soluble protein (PSP) from Trichomonas vaginalis at 1.95 A A2DAL5 A2DAL5 1.95 X-RAY DIFFRACTION 12 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 32 32 7kgc-a1-m1-cD_7kgc-a1-m2-cD 7kgc-a1-m1-cD_7kgc-a1-m5-cD QARLCDRTLYMLKAAGYEKTDVVKCNCAIAYK QARLCDRTLYMLKAAGYEKTDVVKCNCAIAYK 7kgc-a2-m2-cA_7kgc-a2-m5-cA Crystal structure of a perchloric acid-soluble protein (PSP) from Trichomonas vaginalis at 1.95 A A2DAL5 A2DAL5 1.95 X-RAY DIFFRACTION 76 1.0 5722 (Trichomonas vaginalis) 5722 (Trichomonas vaginalis) 124 124 7kgc-a2-m1-cA_7kgc-a2-m2-cA 7kgc-a2-m1-cA_7kgc-a2-m5-cA 7kgc-a3-m1-cB_7kgc-a3-m3-cB 7kgc-a3-m1-cB_7kgc-a3-m6-cB 7kgc-a3-m3-cB_7kgc-a3-m6-cB 7kgc-a4-m1-cC_7kgc-a4-m4-cC 7kgc-a4-m1-cC_7kgc-a4-m7-cC 7kgc-a4-m4-cC_7kgc-a4-m7-cC MSKVISTPDAPAAIGPYCQARLCDRTLYTSGIIGNDPHGGPNPETVEGQAELIMKSLDAMLKAAGYEKTDVVKCNCYLADIADFQKFNKIYADYFGDHKPCRCCIQAGKLPAGKLVELDAIAYK MSKVISTPDAPAAIGPYCQARLCDRTLYTSGIIGNDPHGGPNPETVEGQAELIMKSLDAMLKAAGYEKTDVVKCNCYLADIADFQKFNKIYADYFGDHKPCRCCIQAGKLPAGKLVELDAIAYK 7kgy-a1-m2-cB_7kgy-a1-m4-cC Beta-glucuronidase from Faecalibacterium prausnitzii bound to the inhibitor UNC10201652-glucuronide A0A174DZW7 A0A174DZW7 2.2 X-RAY DIFFRACTION 26 0.998 853 (Faecalibacterium prausnitzii) 853 (Faecalibacterium prausnitzii) 591 591 7kgy-a1-m3-cD_7kgy-a1-m1-cA NKSLLYPVVSTSRRVVSLDGMWRFSFDAKSEGVEANWANGLPESISMPVPASFCDFFTDKESREYCGDFWYETDFFVPGEWSGKDIAIRFGSATHHARIFVNGVEVAQHEGGFLPFDAVVTDIVRYNQFNKLSVLLNNELNEHMLPAGNTAVLSNGKKVAAPYFDFYNYAGIHRPVKLMALPTERILDYSVKHRLTAEGAEVDYTVTTNGDHEVTVELYDGTTKVAEATGKEGTLVVKDAKLWNVHAAYLYNIVIRIHDGSAVVDEYTEKVGIRTFEIKDGHFLLNGKPVYLRGFGKHEDADIRGRGLDLATVKRDYELMKWIGANCFRTSHYPYAEELYQMADEEGFLIIDEVPAVGFMEVGWFEKETTPQLLANHKDALTDMIGRDKNHASVIAWSILNEPQCTSEGTEAYFKTLFDLAHELDPQKRPRTYAVVMMSLPNNSKGQQFADFISLNRYYGWYVMGGMGIVDAEAAFRKEMNGWAQVLNGRPMIFTEYGADTMPTEHKLPSVMWSQEYQNEYLDMNHNVFDSYNFVQGELVWNFADFQTTEGILRVNGNKKGIFTRQRQPKDAAFLFRARWTSLPLDYKGNQ NNKSLLYPVVSTSRRVVSLDGMWRFSFDAKSEGVEANWANGLPESISMPVPASFCDFFTDKESREYCGDFWYETDFFVPGEWSGKDIAIRFGSATHHARIFVNGVEVAQHEGGFLPFDAVVTDIVRYNQFNKLSVLLNNELNEHMLPAGNTAVLSNGKKVAAPYFDFYNYAGIHRPVKLMALPTERILDYSVKHRLTAEGAEVDYTVTTNGDHEVTVELYDGTTKVAEATGKEGTLVVKDAKLWNVHAAYLYNIVIRIHDGSAVVDEYTEKVGIRTFEIKDGHFLLNGKPVYLRGFGKHEDADIRGRGLDLATVKRDYELMKWIGANCFRTSHYPYAEELYQMADEEGFLIIDEVPAVGFMVGWFEKETTPQLLANHKDALTDMIGRDKNHASVIAWSILNEPQCTSEGTEAYFKTLFDLAHELDPQKRPRTYAVVMMSLPNNSKGQQFADFISLNRYYGWYVMGGMGIVDAEAAFRKEMNGWAQVLNGRPMIFTEYGADTMPTEHKLPSVMWSQEYQNEYLDMNHNVFDSYNFVQGELVWNFADFQTTEGILRVNGNKKGIFTRQRQPKDAAFLFRARWTSLPLDYKGNQ 7kgy-a1-m4-cC_7kgy-a1-m1-cA Beta-glucuronidase from Faecalibacterium prausnitzii bound to the inhibitor UNC10201652-glucuronide A0A174DZW7 A0A174DZW7 2.2 X-RAY DIFFRACTION 93 1.0 853 (Faecalibacterium prausnitzii) 853 (Faecalibacterium prausnitzii) 591 593 7kgy-a1-m2-cB_7kgy-a1-m3-cD NNKSLLYPVVSTSRRVVSLDGMWRFSFDAKSEGVEANWANGLPESISMPVPASFCDFFTDKESREYCGDFWYETDFFVPGEWSGKDIAIRFGSATHHARIFVNGVEVAQHEGGFLPFDAVVTDIVRYNQFNKLSVLLNNELNEHMLPAGNTAVLSNGKKVAAPYFDFYNYAGIHRPVKLMALPTERILDYSVKHRLTAEGAEVDYTVTTNGDHEVTVELYDGTTKVAEATGKEGTLVVKDAKLWNVHAAYLYNIVIRIHDGSAVVDEYTEKVGIRTFEIKDGHFLLNGKPVYLRGFGKHEDADIRGRGLDLATVKRDYELMKWIGANCFRTSHYPYAEELYQMADEEGFLIIDEVPAVGFMVGWFEKETTPQLLANHKDALTDMIGRDKNHASVIAWSILNEPQCTSEGTEAYFKTLFDLAHELDPQKRPRTYAVVMMSLPNNSKGQQFADFISLNRYYGWYVMGGMGIVDAEAAFRKEMNGWAQVLNGRPMIFTEYGADTMPTEHKLPSVMWSQEYQNEYLDMNHNVFDSYNFVQGELVWNFADFQTTEGILRVNGNKKGIFTRQRQPKDAAFLFRARWTSLPLDYKGNQ NNKSLLYPVVSTSRRVVSLDGMWRFSFDAKSEGVEANWANGLPESISMPVPASFCDFFTDKESREYCGDFWYETDFFVPGEWSGKDIAIRFGSATHHARIFVNGVEVAQHEGGFLPFDAVVTDIVRYNQFNKLSVLLNNELNEHMLPAGNTAVLSNGKKVAAPYFDFYNYAGIHRPVKLMALPTERILDYSVKHRLTAEGAEVDYTVTTNGDHEVTVELYDGTTKVAEATGKEGTLVVKDAKLWNVHAAYLYNIVIRIHDGSAVVDEYTEKVGIRTFEIKDGHFLLNGKPVYLRGFGKHEDADIRGRGLDLATVKRDYELMKWIGANCFRTSHYPYAEELYQMADEEGFLIIDEVPAVGFMESVGWFEKETTPQLLANHKDALTDMIGRDKNHASVIAWSILNEPQCTSEGTEAYFKTLFDLAHELDPQKRPRTYAVVMMSLPNNSKGQQFADFISLNRYYGWYVMGGMGIVDAEAAFRKEMNGWAQVLNGRPMIFTEYGADTMPTEHKLPSVMWSQEYQNEYLDMNHNVFDSYNFVQGELVWNFADFQTTEGILRVNGNKKGIFTRQRQPKDAAFLFRARWTSLPLDYKGNQ 7kgy-a1-m4-cC_7kgy-a1-m3-cD Beta-glucuronidase from Faecalibacterium prausnitzii bound to the inhibitor UNC10201652-glucuronide A0A174DZW7 A0A174DZW7 2.2 X-RAY DIFFRACTION 99 1.0 853 (Faecalibacterium prausnitzii) 853 (Faecalibacterium prausnitzii) 591 592 7kgy-a1-m2-cB_7kgy-a1-m1-cA NNKSLLYPVVSTSRRVVSLDGMWRFSFDAKSEGVEANWANGLPESISMPVPASFCDFFTDKESREYCGDFWYETDFFVPGEWSGKDIAIRFGSATHHARIFVNGVEVAQHEGGFLPFDAVVTDIVRYNQFNKLSVLLNNELNEHMLPAGNTAVLSNGKKVAAPYFDFYNYAGIHRPVKLMALPTERILDYSVKHRLTAEGAEVDYTVTTNGDHEVTVELYDGTTKVAEATGKEGTLVVKDAKLWNVHAAYLYNIVIRIHDGSAVVDEYTEKVGIRTFEIKDGHFLLNGKPVYLRGFGKHEDADIRGRGLDLATVKRDYELMKWIGANCFRTSHYPYAEELYQMADEEGFLIIDEVPAVGFMVGWFEKETTPQLLANHKDALTDMIGRDKNHASVIAWSILNEPQCTSEGTEAYFKTLFDLAHELDPQKRPRTYAVVMMSLPNNSKGQQFADFISLNRYYGWYVMGGMGIVDAEAAFRKEMNGWAQVLNGRPMIFTEYGADTMPTEHKLPSVMWSQEYQNEYLDMNHNVFDSYNFVQGELVWNFADFQTTEGILRVNGNKKGIFTRQRQPKDAAFLFRARWTSLPLDYKGNQ NNKSLLYPVVSTSRRVVSLDGMWRFSFDAKSEGVEANWANGLPESISMPVPASFCDFFTDKESREYCGDFWYETDFFVPGEWSGKDIAIRFGSATHHARIFVNGVEVAQHEGGFLPFDAVVTDIVRYNQFNKLSVLLNNELNEHMLPAGNTAVLSNGKKVAAPYFDFYNYAGIHRPVKLMALPTERILDYSVKHRLTAEGAEVDYTVTTNGDHEVTVELYDGTTKVAEATGKEGTLVVKDAKLWNVHAAYLYNIVIRIHDGSAVVDEYTEKVGIRTFEIKDGHFLLNGKPVYLRGFGKHEDADIRGRGLDLATVKRDYELMKWIGANCFRTSHYPYAEELYQMADEEGFLIIDEVPAVGFMEVGWFEKETTPQLLANHKDALTDMIGRDKNHASVIAWSILNEPQCTSEGTEAYFKTLFDLAHELDPQKRPRTYAVVMMSLPNNSKGQQFADFISLNRYYGWYVMGGMGIVDAEAAFRKEMNGWAQVLNGRPMIFTEYGADTMPTEHKLPSVMWSQEYQNEYLDMNHNVFDSYNFVQGELVWNFADFQTTEGILRVNGNKKGIFTRQRQPKDAAFLFRARWTSLPLDYKGNQ 7kgz-a1-m1-cA_7kgz-a1-m1-cB FMN-binding beta-glucuronidase from Roseburia hominis A0A395V874 A0A395V874 2.4 X-RAY DIFFRACTION 23 1.0 301301 (Roseburia hominis) 301301 (Roseburia hominis) 633 634 MRNTIVLEKDWTFYKNPQSESGEAVTLPHTWNAVDGQDGGNDYYRGTCKYVRHFAKPELEKGGRAYLEFNGAAMTADVVVNGTKLFHHEGGFSTFRVDVTEQLTEDNLLEVYVDNSDNTKVYPQKADFTFYGGLYRMVKLVTVPKVHFVMDYAGGNGMKVTPEVTILDAAEKQADADVTVELWMTGEATDVTVAVAGETQTVPVENGYARAVFALKNVHLWDGVDDPYLYTAKAELPGGDVVERTFGCRSFKVDSREGFFLNGRSYPLRGVSRHQDRAGAGNALTYEMHREDMAIVRELGANTIRLAHYQHAQEFYDLCDENGIIVWAEIPYITMHMADGTENTLSQMKELIVQNYHHPSIVCWGLSNEITAASAVNEELLENHRRLNDLCHELDKTRPTVMADVFMLETDSPMLEIPDMNSYNLYFGWYIGELDQNDSFFDEYHSTYPDRVIGLSEYGADANPAYHSANPERGDYTEEYQCVYHEHMAKMIEERPYLWATHVWNLFDFAADGRDEGGRHGENQKGLVTMDRRIKKDAFYVYKAYWSKAPFVHLCGSRYTDRAEDVTEIKVYSNQKKVSLFVDGAEKETKEGARIFRFRVPITGTHTIRAVSGDCTDEITVRKVDEPNPDYIF MRNTIVLEKDWTFYKNPQSESGEAVTLPHTWNAVDGQDGGNDYYRGTCKYVRHFAKPELEKGGRAYLEFNGAAMTADVVVNGTKLFHHEGGFSTFRVDVTEQLTEDNLLEVYVDNSDNTKVYPQKADFTFYGGLYRMVKLVTVPKVHFVMDYAGGNGMKVTPEVTILDAAEKQADADVTVELWMTGEATDVTVAVAGETQTVPVENGYARAVFALKNVHLWDGVDDPYLYTAKAELPGGDVVERTFGCRSFKVDSREGFFLNGRSYPLRGVSRHQDRAGAGNALTYEMHREDMAIVRELGANTIRLAHYQHAQEFYDLCDENGIIVWAEIPYITMHMADGTENTLSQMKELIVQNYHHPSIVCWGLSNEITAASAVNEELLENHRRLNDLCHELDKTRPTVMADVFMLETDSPMLEIPDMNSYNLYFGWYIGELDQNDSFFDEYHSTYPDRVIGLSEYGADANPAYHSANPERGDYTEEYQCVYHEHMAKMIEERPYLWATHVWNLFDFAADGRDEGGRHGENQKGLVTMDRRIKKDAFYVYKAYWSKAPFVHLCGSRYTDRAEDVTEIKVYSNQKKVSLFVDGAEKETKEGARIFRFRVPITGTHTIRAVSGDCTDEITVRKVDEPNPDYIFN 7kh1-a1-m1-cA5_7kh1-a1-m1-cL5 Baseplate Complex for Myoviridae Phage XM1 3.2 ELECTRON MICROSCOPY 59 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 404 404 7kh1-a1-m1-cB5_7kh1-a1-m1-cC5 7kh1-a1-m1-cD5_7kh1-a1-m1-cE5 7kh1-a1-m1-cF5_7kh1-a1-m1-cG5 7kh1-a1-m1-cH5_7kh1-a1-m1-cI5 7kh1-a1-m1-cJ5_7kh1-a1-m1-cK5 MSLTFNENGVQTNTFSELRALLEAGYREIYGTDIVTDQESPDGQRINLETLLRFDIESAFSWLYSNLDPDLNTGDMQQIIGKLSGLVLLPASRSQWDVTINMSRAKTLPAGYTITDENNQNWFLDSDVDVLIGDNEVTFLSSLWGSISGISGSSFTQATPEIGVVSISASADAIQGREEETPEQFRLRRQRSTENPAQSTIGSIYAKLAQINGVTDLQVYDNSSDTPDQITGSSNPDILNGSEPVTIGAHTMWVVIEGGSLDDIGEVVAKHRLGNTKGSVQVSYIDTLTKPNGDDFQIVNLHNIDRPVLGDLYVRLTATQKVSGSPIDTDAIKNKLSLVDFEIGQYVDADALYQQSLITNSNYNVTDLEVSLNGIDWTDGRVFSGYDGKLSISTSNVTITTVPV MSLTFNENGVQTNTFSELRALLEAGYREIYGTDIVTDQESPDGQRINLETLLRFDIESAFSWLYSNLDPDLNTGDMQQIIGKLSGLVLLPASRSQWDVTINMSRAKTLPAGYTITDENNQNWFLDSDVDVLIGDNEVTFLSSLWGSISGISGSSFTQATPEIGVVSISASADAIQGREEETPEQFRLRRQRSTENPAQSTIGSIYAKLAQINGVTDLQVYDNSSDTPDQITGSSNPDILNGSEPVTIGAHTMWVVIEGGSLDDIGEVVAKHRLGNTKGSVQVSYIDTLTKPNGDDFQIVNLHNIDRPVLGDLYVRLTATQKVSGSPIDTDAIKNKLSLVDFEIGQYVDADALYQQSLITNSNYNVTDLEVSLNGIDWTDGRVFSGYDGKLSISTSNVTITTVPV 7kh1-a1-m1-cE3_7kh1-a1-m1-cF3 Baseplate Complex for Myoviridae Phage XM1 3.2 ELECTRON MICROSCOPY 122 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 250 250 7kh1-a1-m1-cA3_7kh1-a1-m1-cB3 7kh1-a1-m1-cA3_7kh1-a1-m1-cF3 7kh1-a1-m1-cB3_7kh1-a1-m1-cC3 7kh1-a1-m1-cC3_7kh1-a1-m1-cD3 7kh1-a1-m1-cD3_7kh1-a1-m1-cE3 MSLVNGMVESLNNTKSETEIGIGGYRLFARVRETVNYRNIVPTDTLEDGSSSTDDIINEPITVSIEGVVSNLFVEERQYPQLVSRDFSAVGEITALLPAKSQQQIQRISQIDSQIRDAVLAAERAERLAGKPYEFFGNSGNSAKTEQEKFIDFMEALYFSRRPTEVSVNFRDYKNMALVSFIPVRDNNTKDTRFTADFQQINYSTLVYTPVSSPSKSVSGKVSDASNKGGQNPESNETGERSLLSSLVGG MSLVNGMVESLNNTKSETEIGIGGYRLFARVRETVNYRNIVPTDTLEDGSSSTDDIINEPITVSIEGVVSNLFVEERQYPQLVSRDFSAVGEITALLPAKSQQQIQRISQIDSQIRDAVLAAERAERLAGKPYEFFGNSGNSAKTEQEKFIDFMEALYFSRRPTEVSVNFRDYKNMALVSFIPVRDNNTKDTRFTADFQQINYSTLVYTPVSSPSKSVSGKVSDASNKGGQNPESNETGERSLLSSLVGG 7kh1-a1-m1-cK5_7kh1-a1-m1-cL5 Baseplate Complex for Myoviridae Phage XM1 3.2 ELECTRON MICROSCOPY 141 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 404 404 7kh1-a1-m1-cA5_7kh1-a1-m1-cB5 7kh1-a1-m1-cC5_7kh1-a1-m1-cD5 7kh1-a1-m1-cE5_7kh1-a1-m1-cF5 7kh1-a1-m1-cG5_7kh1-a1-m1-cH5 7kh1-a1-m1-cI5_7kh1-a1-m1-cJ5 MSLTFNENGVQTNTFSELRALLEAGYREIYGTDIVTDQESPDGQRINLETLLRFDIESAFSWLYSNLDPDLNTGDMQQIIGKLSGLVLLPASRSQWDVTINMSRAKTLPAGYTITDENNQNWFLDSDVDVLIGDNEVTFLSSLWGSISGISGSSFTQATPEIGVVSISASADAIQGREEETPEQFRLRRQRSTENPAQSTIGSIYAKLAQINGVTDLQVYDNSSDTPDQITGSSNPDILNGSEPVTIGAHTMWVVIEGGSLDDIGEVVAKHRLGNTKGSVQVSYIDTLTKPNGDDFQIVNLHNIDRPVLGDLYVRLTATQKVSGSPIDTDAIKNKLSLVDFEIGQYVDADALYQQSLITNSNYNVTDLEVSLNGIDWTDGRVFSGYDGKLSISTSNVTITTVPV MSLTFNENGVQTNTFSELRALLEAGYREIYGTDIVTDQESPDGQRINLETLLRFDIESAFSWLYSNLDPDLNTGDMQQIIGKLSGLVLLPASRSQWDVTINMSRAKTLPAGYTITDENNQNWFLDSDVDVLIGDNEVTFLSSLWGSISGISGSSFTQATPEIGVVSISASADAIQGREEETPEQFRLRRQRSTENPAQSTIGSIYAKLAQINGVTDLQVYDNSSDTPDQITGSSNPDILNGSEPVTIGAHTMWVVIEGGSLDDIGEVVAKHRLGNTKGSVQVSYIDTLTKPNGDDFQIVNLHNIDRPVLGDLYVRLTATQKVSGSPIDTDAIKNKLSLVDFEIGQYVDADALYQQSLITNSNYNVTDLEVSLNGIDWTDGRVFSGYDGKLSISTSNVTITTVPV 7kh2-a2-m1-cB_7kh2-a2-m1-cD Structure of N-citrylornithine decarboxylase bound with PLP Q15EG8 Q15EG8 2.05 X-RAY DIFFRACTION 127 1.0 264 (Francisella tularensis subsp. novicida) 264 (Francisella tularensis subsp. novicida) 406 411 7kh2-a1-m1-cC_7kh2-a1-m1-cA SKLSDSKSVFSKLSNKQIETIIQRYASPCFIIDENALLERARLFQQAILNQYQNSIAAYSVKTQSLNTIIQKFYEVGFIPEVVSSDEFEQIQKLQLCDKSIIFNGPYKNDASLIKALQLNAINCDHFDEILRIAKIAKKLNITAKIGLRIADNKTPQNWSRFGFALTIFTTIDKIQQIANIQLAGLHCHIGTNIRDISRFTAAKNIAELAETILTKYKLTLEWIDLGGGLAGISPTLSDKRLQPYNPFDLELYAATIIAPLKEYLNKTNDKTKLIFELGRSLVDYSVALLTTIVGTREQNEDFQSLITDAGIHTIPTISTYRHPIYHLKTDSYHKKTLLLGPSCQHDFLHDDIFLPKLEYGDKLLIDGVGAYNISRNNEFIHLKPSVILIDKNQQYQVLRVRQTHQ PSKLSDSKSVFSKLSNKQIETIIQRYASPCFIIDENALLERARLFQQAILNQYQNSIAAYSVKTQSLNTIIQKFYEVGFIPEVVSSDEFEQIQKLQLCDKSIIFNGPYKNDASLIKALQLNAINCDHFDEILRIAKIAKKLNITAKIGLRIADNKTPQNWSRFGFALTDQSDIFTTIDKIQQIANIQLAGLHCHIGTNIRDISRFTAAKNIAELAETILTKYKLTLEWIDLGGGLAGISPTLSDKRLQPYNPFDLELYAATIIAPLKEYLNKTNDKTKLIFELGRSLVDYSVALLTTIVGTREQNEDFQSLITDAGIHTIPTISTYRHPIYHLKTDSYHKKTLLLGPSCQHDFLHDDIFLPKLEYGDKLLIDGVGAYNISRNNEFIHLKPSVILIDKNQQYQVLRVRQTHQ 7kha-a1-m1-cK_7kha-a1-m1-cL Cryo-EM Structure of the Desulfovibrio vulgaris Type I-C Apo Cascade Q72WF8 Q72WF8 3.13 ELECTRON MICROSCOPY 66 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 120 120 7kha-a1-m1-cK_7kha-a1-m1-cI VSLDPARTDRPYLLGRLFAVLEKAQEDAVPGATIKDRYLASASANPGQVFHMLLKNASNHTAKLRKDPERKAIHYEIMMQEIIDNISDFPVTMSSDEQGLFMIGYYHQRKALFTKKNKEN VSLDPARTDRPYLLGRLFAVLEKAQEDAVPGATIKDRYLASASANPGQVFHMLLKNASNHTAKLRKDPERKAIHYEIMMQEIIDNISDFPVTMSSDEQGLFMIGYYHQRKALFTKKNKEN 7khf-a1-m1-cA_7khf-a1-m1-cH CryoEM structure of LILRB1 D3D4 domain-inserted antibody MDB1 Fab in complex with Plasmodium RIFIN (PF3D7_1373400) V2 domain 3.54 ELECTRON MICROSCOPY 81 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 426 426 QITLKESGPTLVERTQTLTLTCTFSGFSLTTDGLGVGWIRQPPGKALEWLALIYYDDVRRYRPSLKSRLTITKDTSKNRVVLTVTDMDPVDAGTYFCVHASLFNLGSRNVYFRYWGQGTLVSVSSGVSKKPSLSVQPGPIVAPEETLTLQCGSDAGYNRFVLYKDGERDFLQLAGAQPQAGLSQANFTLGPVSRSYGGQYRCYGAHNLSSEWSAPSDPLDILIAGQFYDRVSLSVQPGPTVASGENVTLLCQSQGWMQTFLLTKEGAADDPWRLRSTYQSQKYQAEFPMGPVTSAHAGTYRCYGSQSSKPYLLTHPSDPLELVVSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESK QITLKESGPTLVERTQTLTLTCTFSGFSLTTDGLGVGWIRQPPGKALEWLALIYYDDVRRYRPSLKSRLTITKDTSKNRVVLTVTDMDPVDAGTYFCVHASLFNLGSRNVYFRYWGQGTLVSVSSGVSKKPSLSVQPGPIVAPEETLTLQCGSDAGYNRFVLYKDGERDFLQLAGAQPQAGLSQANFTLGPVSRSYGGQYRCYGAHNLSSEWSAPSDPLDILIAGQFYDRVSLSVQPGPTVASGENVTLLCQSQGWMQTFLLTKEGAADDPWRLRSTYQSQKYQAEFPMGPVTSAHAGTYRCYGSQSSKPYLLTHPSDPLELVVSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESK 7khf-a1-m1-cB_7khf-a1-m1-cL CryoEM structure of LILRB1 D3D4 domain-inserted antibody MDB1 Fab in complex with Plasmodium RIFIN (PF3D7_1373400) V2 domain 3.54 ELECTRON MICROSCOPY 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 SYDLTQPPSVSVSPGQTARITCSGDSLARQFASWYQQKPGQSPVLLIYKNIERLSAIPERFSGSTSGTSVTLTISGVQAEDEADYFCQSADDSGSYSLFGTGTRVSVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS SYDLTQPPSVSVSPGQTARITCSGDSLARQFASWYQQKPGQSPVLLIYKNIERLSAIPERFSGSTSGTSVTLTISGVQAEDEADYFCQSADDSGSYSLFGTGTRVSVLGQPKANPTVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADGSPVKAGVETTKPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS 7khm-a1-m1-cB_7khm-a1-m1-cA Crystal structure of hDHHS20 bound to palmitoyl CoA Q5W0Z9 Q5W0Z9 2.88 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 287 290 CQRVVGWVPVLFITFVVVWSYYAYVVELCVFTIFGNEENGKTVVYLVAFHLFFVMFVWSYWMTIFTSPASPSKEFYLSNSEKERYEKEFSQERQQEILRRAARALPIYTTSASKTIRYCEKCQLIKPDRAHHCSACDSCILKMDHHSPWVNNCVGFSNYKFFLLFLLYSLLYCLFVAATVLEYFIKFWTNELTDTRAKFHVLFLFFVSAMFFISVLSLFSYHCWLVGKNRTTIESFRAPTFSYGPDGNGFSLGCSKNWRQVFGDEKKYWLLPIFSSLGDGCSFPTRL WRCCQRVVGWVPVLFITFVVVWSYYAYVVELCVFTIFGNEENGKTVVYLVAFHLFFVMFVWSYWMTIFTSPASPSKEFYLSNSEKERYEKEFSQERQQEILRRAARALPIYTTSASKTIRYCEKCQLIKPDRAHHCSACDSCILKMDHHSPWVNNCVGFSNYKFFLLFLLYSLLYCLFVAATVLEYFIKFWTNELTDTRAKFHVLFLFFVSAMFFISVLSLFSYHCWLVGKNRTTIESFRAPTFSYGPDGNGFSLGCSKNWRQVFGDEKKYWLLPIFSSLGDGCSFPTRL 7khs-a2-m1-cC_7khs-a2-m1-cD OgOGA IN COMPLEX WITH LIGAND 55 Q2CEE3 Q2CEE3 1.78 X-RAY DIFFRACTION 167 1.0 314256 (Oceanicola granulosus HTCC2516) 314256 (Oceanicola granulosus HTCC2516) 427 448 2xsa-a2-m1-cA_2xsa-a2-m3-cA 7khs-a1-m1-cB_7khs-a1-m1-cA MLTGVIEGFYGRDWRRDERATVMDWIAAAGMNTYIYGPKDDVHVRARWRVPYDAAGLARLTELRDAAAARGMVFYVSLAPCLDVTDRAALLARVDQLARAGLRNLVLLFDDFAEAQADLSNMVLRHLRGAGHVVFCPTEYCGRMAGGDPRGSAYLQRLGSTLDPAIDIFWTGPEIVSEEIVAAHLAAVGEVLRRRPVIWDNFHANDYDIRRVFAGPLGGRSRDILPLVAGWITNPNNEAEANFPAIHTTGAYLADPDYAPERAIAAAVAAWQPRFRLAFGDGAVPSDLVALLCDLFWQPFALGPETTRILSALRAALTVPRPDPSDPAWRAALEDLRDLKRRINKLFTLMTEIENRDLFHTFHNYLWEAQEEVGHLVAYCDWLDEAPPPGAVFPATDRIHNFYRRGFGVAVQDILQRDRQGRYHHGV SMLTGVIEGFYGRDWRRDERATVMDWIAAAGMNTYIYGPKDDVHVRARWRVPYDAAGLARLTELRDAAAARGMVFYVSLAPCLDVTYSDPQDRAALLARVDQLARAGLRNLVLLFDDIPSVLPEADRHRFDSFAEAQADLSNMVLRHLRGAGHVVFCPTEYCGRMAGGDPRGSAYLQRLGSTLDPAIDIFWTGPEIVSEEIVAAHLAAVGEVLRRRPVIWDNFHANDYDIRRVFAGPLGGRSRDILPLVAGWITNPNNEAEANFPAIHTTGAYLADPDYAPERAIAAAVAAWQPRFRLAFGDGAVPSDLVALLCDLFWQPFALGPETTRILSALRAALTVPRPDPSDPAWRAALEDLRDLKRRINKLFTLMTEIENRDLFHTFHNYLWEAQEEVGHLVAYCDWLDEAPPPGAVFPATDRIHNFYRRGFGVAVQDILQRDRQGRYHHGV 7khv-a3-m1-cF_7khv-a3-m1-cE CpOGA IN COMPLEX WITH LIGAND 54 Q0TR53 Q0TR53 2.3 X-RAY DIFFRACTION 65 1.0 1502 (Clostridium perfringens) 1502 (Clostridium perfringens) 539 586 2j62-a1-m1-cA_2j62-a1-m1-cB 2x0y-a1-m1-cA_2x0y-a1-m1-cB 2xpk-a1-m1-cA_2xpk-a1-m1-cB 7khv-a1-m1-cB_7khv-a1-m1-cA 7khv-a2-m1-cC_7khv-a2-m1-cD VPNLNPTPENLEVVGGEEEADENAVNALREFLTANNIEINSENDPGEVDTAENLKEEGYALIEGKDGDGTFYGVQTFKQLVKESEVNITDYPTVSARGIVEGFYGTPWTHQDRLDQIKFYGENKLNTYIYAPKDDPYHREKWREPYPESEMQRMQELINASAENKVDFVFGISPGIDIRFDGDAGEEDFNHLITKAESLYDMGVRSFAIYWDNIQDKSAAKHAQVLNRFNEEFVKAKGDVKPLITCPTEYDTGAMVSNGQPRAYTRIFAETVDPSIEVMWTGPGVVTNEIPLSDAQLISGIYDRNMAVWWNYPVTDYFKGKLALGPMHGLDKGLNQYVDFFTVNPMEHAELSKISIHTAADYSWNMDNYDYDKAWNRAIDMLYGDLAEDMKVFANHSTRMDNKTWAKSGREDAPELRAKMDELWNKLSSKEDASALIEELYGEFARMEEACNNLKANLPEVALEECSRQLDELITLAQGDKASLDMIVAQLNEDTEAYESAKEIAQNKLNTALSSFAVISEKVAQSFIQEALSFDLTLI NQVLVPNLNPTPENLEVVGDGFKITSSINLVGEEEADENAVNALREFLTANNIEINSENDPNSTTLIIGEVDDDIPELDEALNGTTAENLKEEGYALVSNDGKIAIEGKDGDGTFYGVQTFKQLVKESNIPEVNITDYPTVSARGIVEGFYGTPWTHQDRLDQIKFYGENKLNTYIYAPKDDPYHREKWREPYPESEMQRMQELINASAENKVDFVFGISPGIDIRFDGDAGEEDFNHLITKAESLYDMGVRSFAIYWDNIQDKSAAKHAQVLNRFNEEFVKAKGDVKPLITCPTEYDTGAMVSNGQPRAYTRIFAETVDPSIEVMWTGPGVVTNEIPLSDAQLISGIYDRNMAVWWNYPVTDYFKGKLALGPMHGLDKGLNQYVDFFTVNPMEHAELSKISIHTAADYSWNMDNYDYDKAWNRAIDMLYGDLAEDMKVFANHSTRMDNKTWAKSGREDAPELRAKMDELWNKLSSKEDASALIEELYGEFARMEEACNNLKANLPEVALEECSRQLDELITLAQGDKASLDMIVAQLNEDTEAYESAKEIAQNKLNTALSSFAVISEKVAQSFIQEALSFDLTLI 7khw-a1-m1-cH_7khw-a1-m1-cx Cryo-EM structure of enteropathogenic Escherichia coli type III secretion system EspA filament B7UM94 B7UM94 3.4 ELECTRON MICROSCOPY 38 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 174 174 7k7k-a1-m1-cA_7k7k-a1-m1-cL 7k7k-a1-m1-cB_7k7k-a1-m1-cM 7k7k-a1-m1-cC_7k7k-a1-m1-cN 7k7k-a1-m1-cD_7k7k-a1-m1-cO 7k7k-a1-m1-cE_7k7k-a1-m1-cP 7k7k-a1-m1-cF_7k7k-a1-m1-cQ 7k7k-a1-m1-cG_7k7k-a1-m1-cR 7k7k-a1-m1-cH_7k7k-a1-m1-cS 7k7k-a1-m1-cI_7k7k-a1-m1-cT 7k7k-a1-m1-cJ_7k7k-a1-m1-cU 7k7k-a1-m1-cK_7k7k-a1-m1-cV 7k7k-a1-m1-cK_7k7k-a1-m1-cX 7k7k-a1-m1-cL_7k7k-a1-m1-cW 7k7k-a1-m1-cM_7k7k-a1-m1-cY 7k7k-a1-m1-cN_7k7k-a1-m1-cZ 7k7k-a1-m1-cO_7k7k-a1-m1-ca 7k7k-a1-m1-cP_7k7k-a1-m1-cb 7khw-a1-m1-ca_7khw-a1-m1-ch 7khw-a1-m1-cA_7khw-a1-m1-cq 7khw-a1-m1-cb_7khw-a1-m1-ci 7khw-a1-m1-cB_7khw-a1-m1-cr 7khw-a1-m1-cc_7khw-a1-m1-cj 7khw-a1-m1-cC_7khw-a1-m1-cK 7khw-a1-m1-cC_7khw-a1-m1-cs 7khw-a1-m1-cd_7khw-a1-m1-ck 7khw-a1-m1-cD_7khw-a1-m1-cL 7khw-a1-m1-cD_7khw-a1-m1-ct 7khw-a1-m1-cE_7khw-a1-m1-cM 7khw-a1-m1-cE_7khw-a1-m1-cu 7khw-a1-m1-cF_7khw-a1-m1-cN 7khw-a1-m1-cF_7khw-a1-m1-cv 7khw-a1-m1-cg_7khw-a1-m1-co 7khw-a1-m1-cG_7khw-a1-m1-cO 7khw-a1-m1-cG_7khw-a1-m1-cw 7khw-a1-m1-ch_7khw-a1-m1-cp 7khw-a1-m1-cH_7khw-a1-m1-cP 7khw-a1-m1-ci_7khw-a1-m1-cq 7khw-a1-m1-cI_7khw-a1-m1-cQ 7khw-a1-m1-cj_7khw-a1-m1-cr 7khw-a1-m1-cJ_7khw-a1-m1-cR 7khw-a1-m1-ck_7khw-a1-m1-cs 7khw-a1-m1-cl_7khw-a1-m1-ct 7khw-a1-m1-cm_7khw-a1-m1-cu 7khw-a1-m1-cM_7khw-a1-m1-cU 7khw-a1-m1-cn_7khw-a1-m1-cv 7khw-a1-m1-cN_7khw-a1-m1-cV 7khw-a1-m1-cO_7khw-a1-m1-cW 7khw-a1-m1-cP_7khw-a1-m1-cX 7khw-a1-m1-cQ_7khw-a1-m1-cY 7khw-a1-m1-cR_7khw-a1-m1-cZ 7khw-a1-m1-cS_7khw-a1-m1-ca 7khw-a1-m1-cT_7khw-a1-m1-cb 7khw-a1-m1-cX_7khw-a1-m1-ce 7khw-a1-m1-cY_7khw-a1-m1-cf 7khw-a1-m1-cZ_7khw-a1-m1-cg SMAYDLGSMSKDDVIDLFNKLGVFQAAILMFAYMYQAQSDLSIAKFADMNEASKESTTAQKMANLVDAKIADVQSSSDKNAKAQLPDEVISYINDPRNDITISGIDNINAQLGAGDLQTVKAAISAKANNLTTTVNNSQLEIQQMSNTLNLLTSARSDMQSLQYRTISGISLGK SMAYDLGSMSKDDVIDLFNKLGVFQAAILMFAYMYQAQSDLSIAKFADMNEASKESTTAQKMANLVDAKIADVQSSSDKNAKAQLPDEVISYINDPRNDITISGIDNINAQLGAGDLQTVKAAISAKANNLTTTVNNSQLEIQQMSNTLNLLTSARSDMQSLQYRTISGISLGK 7khw-a1-m1-cI_7khw-a1-m1-cx Cryo-EM structure of enteropathogenic Escherichia coli type III secretion system EspA filament B7UM94 B7UM94 3.4 ELECTRON MICROSCOPY 28 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 174 174 7k7k-a1-m1-cA_7k7k-a1-m1-cG 7k7k-a1-m1-cB_7k7k-a1-m1-cH 7k7k-a1-m1-cC_7k7k-a1-m1-cI 7k7k-a1-m1-cD_7k7k-a1-m1-cJ 7k7k-a1-m1-cE_7k7k-a1-m1-cK 7k7k-a1-m1-cF_7k7k-a1-m1-cL 7k7k-a1-m1-cF_7k7k-a1-m1-cX 7k7k-a1-m1-cG_7k7k-a1-m1-cM 7k7k-a1-m1-cH_7k7k-a1-m1-cN 7k7k-a1-m1-cI_7k7k-a1-m1-cO 7k7k-a1-m1-cJ_7k7k-a1-m1-cP 7k7k-a1-m1-cK_7k7k-a1-m1-cQ 7k7k-a1-m1-cL_7k7k-a1-m1-cR 7k7k-a1-m1-cM_7k7k-a1-m1-cS 7k7k-a1-m1-cN_7k7k-a1-m1-cT 7k7k-a1-m1-cO_7k7k-a1-m1-cU 7k7k-a1-m1-cP_7k7k-a1-m1-cV 7k7k-a1-m1-cQ_7k7k-a1-m1-cW 7k7k-a1-m1-cR_7k7k-a1-m1-cY 7k7k-a1-m1-cS_7k7k-a1-m1-cZ 7k7k-a1-m1-cT_7k7k-a1-m1-ca 7k7k-a1-m1-cU_7k7k-a1-m1-cb 7khw-a1-m1-ca_7khw-a1-m1-ci 7khw-a1-m1-cA_7khw-a1-m1-cp 7khw-a1-m1-cb_7khw-a1-m1-cj 7khw-a1-m1-cB_7khw-a1-m1-cK 7khw-a1-m1-cB_7khw-a1-m1-cq 7khw-a1-m1-cc_7khw-a1-m1-ck 7khw-a1-m1-cC_7khw-a1-m1-cL 7khw-a1-m1-cC_7khw-a1-m1-cr 7khw-a1-m1-cd_7khw-a1-m1-cl 7khw-a1-m1-cD_7khw-a1-m1-cM 7khw-a1-m1-cD_7khw-a1-m1-cs 7khw-a1-m1-cE_7khw-a1-m1-cN 7khw-a1-m1-cE_7khw-a1-m1-ct 7khw-a1-m1-cf_7khw-a1-m1-co 7khw-a1-m1-cF_7khw-a1-m1-cO 7khw-a1-m1-cF_7khw-a1-m1-cu 7khw-a1-m1-cg_7khw-a1-m1-cp 7khw-a1-m1-cG_7khw-a1-m1-cP 7khw-a1-m1-cG_7khw-a1-m1-cv 7khw-a1-m1-ch_7khw-a1-m1-cq 7khw-a1-m1-cH_7khw-a1-m1-cQ 7khw-a1-m1-cH_7khw-a1-m1-cw 7khw-a1-m1-ci_7khw-a1-m1-cr 7khw-a1-m1-cI_7khw-a1-m1-cR 7khw-a1-m1-cj_7khw-a1-m1-cs 7khw-a1-m1-cJ_7khw-a1-m1-cS 7khw-a1-m1-ck_7khw-a1-m1-ct 7khw-a1-m1-cl_7khw-a1-m1-cu 7khw-a1-m1-cL_7khw-a1-m1-cU 7khw-a1-m1-cm_7khw-a1-m1-cv 7khw-a1-m1-cM_7khw-a1-m1-cV 7khw-a1-m1-cn_7khw-a1-m1-cw 7khw-a1-m1-cN_7khw-a1-m1-cW 7khw-a1-m1-cO_7khw-a1-m1-cX 7khw-a1-m1-cP_7khw-a1-m1-cY 7khw-a1-m1-cQ_7khw-a1-m1-cZ 7khw-a1-m1-cR_7khw-a1-m1-ca 7khw-a1-m1-cS_7khw-a1-m1-cb 7khw-a1-m1-cT_7khw-a1-m1-cc 7khw-a1-m1-cW_7khw-a1-m1-ce 7khw-a1-m1-cX_7khw-a1-m1-cf 7khw-a1-m1-cY_7khw-a1-m1-cg 7khw-a1-m1-cZ_7khw-a1-m1-ch SMAYDLGSMSKDDVIDLFNKLGVFQAAILMFAYMYQAQSDLSIAKFADMNEASKESTTAQKMANLVDAKIADVQSSSDKNAKAQLPDEVISYINDPRNDITISGIDNINAQLGAGDLQTVKAAISAKANNLTTTVNNSQLEIQQMSNTLNLLTSARSDMQSLQYRTISGISLGK SMAYDLGSMSKDDVIDLFNKLGVFQAAILMFAYMYQAQSDLSIAKFADMNEASKESTTAQKMANLVDAKIADVQSSSDKNAKAQLPDEVISYINDPRNDITISGIDNINAQLGAGDLQTVKAAISAKANNLTTTVNNSQLEIQQMSNTLNLLTSARSDMQSLQYRTISGISLGK 7khw-a1-m1-cw_7khw-a1-m1-cx Cryo-EM structure of enteropathogenic Escherichia coli type III secretion system EspA filament B7UM94 B7UM94 3.4 ELECTRON MICROSCOPY 94 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 174 174 7k7k-a1-m1-cA_7k7k-a1-m1-cF 7k7k-a1-m1-cB_7k7k-a1-m1-cG 7k7k-a1-m1-cC_7k7k-a1-m1-cH 7k7k-a1-m1-cD_7k7k-a1-m1-cI 7k7k-a1-m1-cE_7k7k-a1-m1-cJ 7k7k-a1-m1-cE_7k7k-a1-m1-cX 7k7k-a1-m1-cF_7k7k-a1-m1-cK 7k7k-a1-m1-cG_7k7k-a1-m1-cL 7k7k-a1-m1-cH_7k7k-a1-m1-cM 7k7k-a1-m1-cI_7k7k-a1-m1-cN 7k7k-a1-m1-cJ_7k7k-a1-m1-cO 7k7k-a1-m1-cK_7k7k-a1-m1-cP 7k7k-a1-m1-cL_7k7k-a1-m1-cQ 7k7k-a1-m1-cM_7k7k-a1-m1-cR 7k7k-a1-m1-cN_7k7k-a1-m1-cS 7k7k-a1-m1-cO_7k7k-a1-m1-cT 7k7k-a1-m1-cP_7k7k-a1-m1-cU 7k7k-a1-m1-cQ_7k7k-a1-m1-cV 7k7k-a1-m1-cR_7k7k-a1-m1-cW 7k7k-a1-m1-cS_7k7k-a1-m1-cY 7k7k-a1-m1-cT_7k7k-a1-m1-cZ 7k7k-a1-m1-cU_7k7k-a1-m1-ca 7k7k-a1-m1-cV_7k7k-a1-m1-cb 7khw-a1-m1-ca_7khw-a1-m1-cb 7khw-a1-m1-cA_7khw-a1-m1-cB 7khw-a1-m1-cb_7khw-a1-m1-cc 7khw-a1-m1-cB_7khw-a1-m1-cC 7khw-a1-m1-cc_7khw-a1-m1-cd 7khw-a1-m1-cC_7khw-a1-m1-cD 7khw-a1-m1-cD_7khw-a1-m1-cE 7khw-a1-m1-ce_7khw-a1-m1-cf 7khw-a1-m1-cE_7khw-a1-m1-cF 7khw-a1-m1-cf_7khw-a1-m1-cg 7khw-a1-m1-cF_7khw-a1-m1-cG 7khw-a1-m1-cg_7khw-a1-m1-ch 7khw-a1-m1-cG_7khw-a1-m1-cH 7khw-a1-m1-ch_7khw-a1-m1-ci 7khw-a1-m1-cH_7khw-a1-m1-cI 7khw-a1-m1-ci_7khw-a1-m1-cj 7khw-a1-m1-cI_7khw-a1-m1-cJ 7khw-a1-m1-cj_7khw-a1-m1-ck 7khw-a1-m1-ck_7khw-a1-m1-cl 7khw-a1-m1-cK_7khw-a1-m1-cL 7khw-a1-m1-cl_7khw-a1-m1-cm 7khw-a1-m1-cL_7khw-a1-m1-cM 7khw-a1-m1-cm_7khw-a1-m1-cn 7khw-a1-m1-cM_7khw-a1-m1-cN 7khw-a1-m1-cN_7khw-a1-m1-cO 7khw-a1-m1-co_7khw-a1-m1-cp 7khw-a1-m1-cO_7khw-a1-m1-cP 7khw-a1-m1-cp_7khw-a1-m1-cq 7khw-a1-m1-cP_7khw-a1-m1-cQ 7khw-a1-m1-cq_7khw-a1-m1-cr 7khw-a1-m1-cQ_7khw-a1-m1-cR 7khw-a1-m1-cr_7khw-a1-m1-cs 7khw-a1-m1-cR_7khw-a1-m1-cS 7khw-a1-m1-cs_7khw-a1-m1-ct 7khw-a1-m1-cS_7khw-a1-m1-cT 7khw-a1-m1-ct_7khw-a1-m1-cu 7khw-a1-m1-cu_7khw-a1-m1-cv 7khw-a1-m1-cU_7khw-a1-m1-cV 7khw-a1-m1-cv_7khw-a1-m1-cw 7khw-a1-m1-cV_7khw-a1-m1-cW 7khw-a1-m1-cW_7khw-a1-m1-cX 7khw-a1-m1-cX_7khw-a1-m1-cY 7khw-a1-m1-cY_7khw-a1-m1-cZ 7khw-a1-m1-cZ_7khw-a1-m1-ca SMAYDLGSMSKDDVIDLFNKLGVFQAAILMFAYMYQAQSDLSIAKFADMNEASKESTTAQKMANLVDAKIADVQSSSDKNAKAQLPDEVISYINDPRNDITISGIDNINAQLGAGDLQTVKAAISAKANNLTTTVNNSQLEIQQMSNTLNLLTSARSDMQSLQYRTISGISLGK SMAYDLGSMSKDDVIDLFNKLGVFQAAILMFAYMYQAQSDLSIAKFADMNEASKESTTAQKMANLVDAKIADVQSSSDKNAKAQLPDEVISYINDPRNDITISGIDNINAQLGAGDLQTVKAAISAKANNLTTTVNNSQLEIQQMSNTLNLLTSARSDMQSLQYRTISGISLGK 7kih-a1-m1-cA_7kih-a1-m2-cA Crystal structure of the mouse lipin-1 M-Lip domain Q91ZP3 Q91ZP3 1.467 X-RAY DIFFRACTION 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 88 88 7kil-a1-m1-cB_7kil-a1-m1-cA DLPSIAISLCGGLSDHREITKDAFLEQAVSYQQFADNPAIIDDPNLVVKVGNKYYNWTTAAPLLLAMQAFQKPLPKATVESIMRDKMP DLPSIAISLCGGLSDHREITKDAFLEQAVSYQQFADNPAIIDDPNLVVKVGNKYYNWTTAAPLLLAMQAFQKPLPKATVESIMRDKMP 7kip-a1-m1-cB_7kip-a1-m1-cC A 3.4 Angstrom cryo-EM structure of the human coronavirus spike trimer computationally derived from vitrified NL63 virus particles Q6Q1S2 Q6Q1S2 3.39 ELECTRON MICROSCOPY 285 1.0 277944 (Human coronavirus NL63) 277944 (Human coronavirus NL63) 1192 1192 5szs-a1-m1-cA_5szs-a1-m1-cB 5szs-a1-m1-cA_5szs-a1-m1-cC 5szs-a1-m1-cB_5szs-a1-m1-cC 7kip-a1-m1-cA_7kip-a1-m1-cB 7kip-a1-m1-cA_7kip-a1-m1-cC ANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVVDVMRYNLNFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEF ANLSMLQLGVPDNSSTIVTGLLPTHWFCANQSTSVYSANGFFYIDVGNHRSAFALHTGYYDANQYYIYVTNEIGLNASVTLKICKFSRSSSFDCIVNLLFTEQLGAPLGITISGETVRLHLYNVTRTFYVPAAYKLTKLSVKCYFNYSCVFSVVNATVTVNVTTHNGRVVNYTVCDDCNGYTDNIFSVQQDGRIPNGFPFNNWFLLTNGSTLVDGVSRLYQPLRLTCLWPVPGLKSSTGFVYFNATGSDVNCNGYQHNSVVDVMRYNLNFSANSLDNLKSGVIVFKTLQYDVLFYCSNSSSGVLDTTIPFGPSSQPYYCFINSTINTTHVSTFVGILPPTVREIVVARTGQFYINGFKYFDLGFIEAVNFNVTTASATDFWTVAFATFVDVLVNVSATNIQNLLYCDSPFEKLQCEHLQFGLQDGFYSANFLDDNVLPETYVALPIYYQHTDINFTATASFGGSCYVCKPHQVNISLNGNTSVCVRTSHFSIRYIYNRVKSGSPGDSSWHIYLKSGTCPFSFSKLNNFQKFKTICFSTVEVPGSCNFPLEATWHYTSYTIVGALYVTWSEGNSITGVPYPVSGIREFSNLVLNNCTKYNIYDYVGTGIIRSSNQSLAGGITYVSNSGNLLGFKNVSTGNIFIVTPCNQPDQVAVYQQSIIGAMTAVNESRYGLQNLLQLPNFYYVSNGGNNCTTAVMTYSNFGICADGSLIPVRPRNSSDNGISAIITANLSIPSNWTTSVQVEYLQITSTPIVVDCATYVCNGNPRCKNLLKQYTSACKTIEDALRLSAHLETNDVSSMLTFDSNAFSLANVTSFGDYNLSSVLPQRNIRSSRIAGRSALEDLLFSKVVTSGLGTVDVDYKSCTKGLSIADLACAQYYNGIMVLPGVADAERMAMYTGSLIGGMVLGGLTSAAAIPFSLALQARLNYVALQTDVLQENQKILAASFNKAINNIVASFSSVNDAITQTAEAIHTVTIALNKIQDVVNQQGSALNHLTSQLRHNFQAISNSIQAIYDRLDSIQADQQVDRLITGRLAALNAFVSQVLNKYTEVRGSRRLAQQKINECVKSQSNRYGFCGNGTHIFSIVNSAPDGLLFLHTVLLPTDYKNVKAWSGICVDGIYGYVLRQPNLVLYSDNGVFRVTSRVMFQPRLPVLSDFVQIYNCNVTFVNISRVELHTVIPDYVDVNKTLQEF 7kiq-a4-m1-cG_7kiq-a4-m1-cH Crystal structure of the mouse lipin-2 M-Lip domain Q99PI5 Q99PI5 2.523 X-RAY DIFFRACTION 71 0.988 10090 (Mus musculus) 10090 (Mus musculus) 80 80 7kiq-a1-m1-cA_7kiq-a1-m1-cB 7kiq-a2-m1-cD_7kiq-a2-m1-cC 7kiq-a3-m1-cF_7kiq-a3-m1-cE 7kiq-a5-m2-cJ_7kiq-a5-m1-cI DLPDVTLSLCGGISKEKFMEHIITYHEFAENPGLIDNPNLVIRIYNRYYNWALAAPMILSLQVFQKSLPKATVESWVKDK DLPDVTLSLCGISKEKFMEHIITYHEFAENPGLIDNPNLVIRIYNRYYNWALAAPMILSLQVFQKSLPKATVESWVKDKM 7kiz-a1-m1-cC_7kiz-a1-m1-cH reduced human peroxiredoxin 2 P32119 P32119 1.7 X-RAY DIFFRACTION 61 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 1qmv-a1-m1-cA_1qmv-a1-m1-cD 1qmv-a1-m1-cB_1qmv-a1-m1-cE 1qmv-a1-m1-cC_1qmv-a1-m1-cH 1qmv-a1-m1-cF_1qmv-a1-m1-cI 1qmv-a1-m1-cG_1qmv-a1-m1-cJ 5ijt-a1-m1-cB_5ijt-a1-m1-cE 5ijt-a1-m1-cC_5ijt-a1-m1-cA 5ijt-a1-m1-cD_5ijt-a1-m1-cJ 5ijt-a1-m1-cG_5ijt-a1-m1-cI 5ijt-a1-m1-cH_5ijt-a1-m1-cF 7kiz-a1-m1-cA_7kiz-a1-m1-cD 7kiz-a1-m1-cB_7kiz-a1-m1-cE 7kiz-a1-m1-cF_7kiz-a1-m1-cI 7kiz-a1-m1-cG_7kiz-a1-m1-cJ 7kj0-a1-m1-cA_7kj0-a1-m1-cD 7kj0-a1-m1-cB_7kj0-a1-m1-cE 7kj0-a1-m1-cC_7kj0-a1-m1-cH 7kj0-a1-m1-cF_7kj0-a1-m1-cI 7kj0-a1-m1-cG_7kj0-a1-m1-cJ 7kj1-a1-m1-cA_7kj1-a1-m1-cD 7kj1-a1-m1-cB_7kj1-a1-m1-cE 7kj1-a1-m1-cC_7kj1-a1-m1-cH 7kj1-a1-m1-cF_7kj1-a1-m1-cI 7kj1-a1-m1-cG_7kj1-a1-m1-cJ ASGNARIGKPAPDFKATAVVDGAFKEVKLSDYKGKYVVLFFYPLDFTFVCPTEIIAFSNRAEDFRKLGCEVLGVSVDSQFTHLAWINTPRKEGGLGPLNIPLLADVTRRLSEDYGVLKTDEGIAYRGLFIIDGKGVLRQITVNDLPVGRSVDEALRLVQAFQYTDEHGEVCPAGWKPGSDTIKPNVDDSKEYFSKHN ASGNARIGKPAPDFKATAVVDGAFKEVKLSDYKGKYVVLFFYPLDFTFVCPTEIIAFSNRAEDFRKLGCEVLGVSVDSQFTHLAWINTPRKEGGLGPLNIPLLADVTRRLSEDYGVLKTDEGIAYRGLFIIDGKGVLRQITVNDLPVGRSVDEALRLVQAFQYTDEHGEVCPAGWKPGSDTIKPNVDDSKEYFSKHN 7kiz-a1-m1-cI_7kiz-a1-m1-cJ reduced human peroxiredoxin 2 P32119 P32119 1.7 X-RAY DIFFRACTION 188 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 197 197 1qmv-a1-m1-cA_1qmv-a1-m1-cB 1qmv-a1-m1-cC_1qmv-a1-m1-cD 1qmv-a1-m1-cE_1qmv-a1-m1-cF 1qmv-a1-m1-cG_1qmv-a1-m1-cH 1qmv-a1-m1-cI_1qmv-a1-m1-cJ 5ijt-a1-m1-cA_5ijt-a1-m1-cB 5ijt-a1-m1-cC_5ijt-a1-m1-cD 5ijt-a1-m1-cF_5ijt-a1-m1-cE 5ijt-a1-m1-cG_5ijt-a1-m1-cH 5ijt-a1-m1-cI_5ijt-a1-m1-cJ 7kiz-a1-m1-cA_7kiz-a1-m1-cB 7kiz-a1-m1-cC_7kiz-a1-m1-cD 7kiz-a1-m1-cE_7kiz-a1-m1-cF 7kiz-a1-m1-cG_7kiz-a1-m1-cH 7kj0-a1-m1-cA_7kj0-a1-m1-cB 7kj0-a1-m1-cC_7kj0-a1-m1-cD 7kj0-a1-m1-cE_7kj0-a1-m1-cF 7kj0-a1-m1-cG_7kj0-a1-m1-cH 7kj0-a1-m1-cI_7kj0-a1-m1-cJ 7kj1-a1-m1-cA_7kj1-a1-m1-cB 7kj1-a1-m1-cC_7kj1-a1-m1-cD 7kj1-a1-m1-cE_7kj1-a1-m1-cF 7kj1-a1-m1-cG_7kj1-a1-m1-cH 7kj1-a1-m1-cI_7kj1-a1-m1-cJ ASGNARIGKPAPDFKATAVVDGAFKEVKLSDYKGKYVVLFFYPLDFTFVCPTEIIAFSNRAEDFRKLGCEVLGVSVDSQFTHLAWINTPRKEGGLGPLNIPLLADVTRRLSEDYGVLKTDEGIAYRGLFIIDGKGVLRQITVNDLPVGRSVDEALRLVQAFQYTDEHGEVCPAGWKPGSDTIKPNVDDSKEYFSKHN ASGNARIGKPAPDFKATAVVDGAFKEVKLSDYKGKYVVLFFYPLDFTFVCPTEIIAFSNRAEDFRKLGCEVLGVSVDSQFTHLAWINTPRKEGGLGPLNIPLLADVTRRLSEDYGVLKTDEGIAYRGLFIIDGKGVLRQITVNDLPVGRSVDEALRLVQAFQYTDEHGEVCPAGWKPGSDTIKPNVDDSKEYFSKHN 7kj2-a1-m1-cC_7kj2-a1-m1-cB SARS-CoV-2 Spike Glycoprotein with one ACE2 Bound P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 283 0.984 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 961 981 7kj3-a1-m1-cA_7kj3-a1-m1-cB 7kj3-a1-m1-cC_7kj3-a1-m1-cA 7kj3-a1-m1-cC_7kj3-a1-m1-cB 7kj4-a1-m1-cA_7kj4-a1-m1-cB 7kj4-a1-m1-cA_7kj4-a1-m1-cC 7kj4-a1-m1-cB_7kj4-a1-m1-cC 7kj5-a1-m1-cC_7kj5-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7kjj-a1-m1-cB_7kjj-a1-m2-cB Reconstructed ancestor of HIUases and Transthyretins 1.55 X-RAY DIFFRACTION 29 1.0 32644 (unidentified) 32644 (unidentified) 114 114 7kjj-a1-m1-cA_7kjj-a1-m2-cA CPLMVKVLDAVRGVPASNVAVKVFKQDESGSWQQLSTGVTNETGEIHNLITEEAFTEGVYKVHFDTKTYWKSLGLTPFYEYADVVFTANDAGHRHYTIALLLSPYSYSTTAVVS CPLMVKVLDAVRGVPASNVAVKVFKQDESGSWQQLSTGVTNETGEIHNLITEEAFTEGVYKVHFDTKTYWKSLGLTPFYEYADVVFTANDAGHRHYTIALLLSPYSYSTTAVVS 7kjj-a1-m2-cB_7kjj-a1-m1-cA Reconstructed ancestor of HIUases and Transthyretins 1.55 X-RAY DIFFRACTION 39 1.0 32644 (unidentified) 32644 (unidentified) 114 115 7kjj-a1-m1-cB_7kjj-a1-m2-cA CPLMVKVLDAVRGVPASNVAVKVFKQDESGSWQQLSTGVTNETGEIHNLITEEAFTEGVYKVHFDTKTYWKSLGLTPFYEYADVVFTANDAGHRHYTIALLLSPYSYSTTAVVS CPLMVKVLDAVRGVPASNVAVKVFKQDESGSWQQLSTGVTNETGEIHNLITEEAFTEGVYKVHFDTKTYWKSLGLTPFYEYADVVFTANDAGHRHYTIALLLSPYSYSTTAVVSD 7kjj-a1-m2-cB_7kjj-a1-m2-cA Reconstructed ancestor of HIUases and Transthyretins 1.55 X-RAY DIFFRACTION 51 1.0 32644 (unidentified) 32644 (unidentified) 114 115 7kjj-a1-m1-cB_7kjj-a1-m1-cA CPLMVKVLDAVRGVPASNVAVKVFKQDESGSWQQLSTGVTNETGEIHNLITEEAFTEGVYKVHFDTKTYWKSLGLTPFYEYADVVFTANDAGHRHYTIALLLSPYSYSTTAVVS CPLMVKVLDAVRGVPASNVAVKVFKQDESGSWQQLSTGVTNETGEIHNLITEEAFTEGVYKVHFDTKTYWKSLGLTPFYEYADVVFTANDAGHRHYTIALLLSPYSYSTTAVVSD 7kjk-a1-m1-cA7_7kjk-a1-m1-cF7 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 103 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 142 142 7kh1-a1-m1-cA1_7kh1-a1-m1-cB1 7kh1-a1-m1-cA1_7kh1-a1-m1-cF1 7kh1-a1-m1-cB1_7kh1-a1-m1-cC1 7kh1-a1-m1-cC1_7kh1-a1-m1-cD1 7kh1-a1-m1-cD1_7kh1-a1-m1-cE1 7kh1-a1-m1-cE1_7kh1-a1-m1-cF1 7kjk-a1-m1-cA7_7kjk-a1-m1-cB7 7kjk-a1-m1-cB7_7kjk-a1-m1-cC7 7kjk-a1-m1-cC7_7kjk-a1-m1-cD7 7kjk-a1-m1-cD7_7kjk-a1-m1-cE7 7kjk-a1-m1-cE7_7kjk-a1-m1-cF7 SVIVYRNNQSTLTLNGYTFQHLYQGAALVLTPVNAKTARTNSINGGVSISGRVDGGVHTLAIMVQKHSPDDKFLNDAKNSQEPVVFDGSMKRAYTESGTLKKATTTLETGSITTQPTKTDNNQDPDDSRTYVIEFRNSVETF SVIVYRNNQSTLTLNGYTFQHLYQGAALVLTPVNAKTARTNSINGGVSISGRVDGGVHTLAIMVQKHSPDDKFLNDAKNSQEPVVFDGSMKRAYTESGTLKKATTTLETGSITTQPTKTDNNQDPDDSRTYVIEFRNSVETF 7kjk-a1-m1-cE4_7kjk-a1-m1-cF4 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 31 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 114 114 7kjk-a1-m1-cA4_7kjk-a1-m1-cB4 7kjk-a1-m1-cA4_7kjk-a1-m1-cF4 7kjk-a1-m1-cB4_7kjk-a1-m1-cC4 7kjk-a1-m1-cC4_7kjk-a1-m1-cD4 7kjk-a1-m1-cD4_7kjk-a1-m1-cE4 MLPNMRSALKMFEQSVLLKSVETIRVDFVDDIIITATPIRAVVQVADKKKLNLDSLDWSKQYIWVHSGSKMEIGQFIEWHGKDFKLVAAGDDYSDYGYNAWYGEETLKPVLVSS MLPNMRSALKMFEQSVLLKSVETIRVDFVDDIIITATPIRAVVQVADKKKLNLDSLDWSKQYIWVHSGSKMEIGQFIEWHGKDFKLVAAGDDYSDYGYNAWYGEETLKPVLVSS 7kjk-a1-m1-cE5_7kjk-a1-m1-cF5 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 55 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 159 159 7kjk-a1-m1-cA5_7kjk-a1-m1-cB5 7kjk-a1-m1-cA5_7kjk-a1-m1-cF5 7kjk-a1-m1-cB5_7kjk-a1-m1-cC5 7kjk-a1-m1-cC5_7kjk-a1-m1-cD5 7kjk-a1-m1-cD5_7kjk-a1-m1-cE5 SQSIINVARYIRDLLDYDENLIQFDRKNTQQSDTVTGYIVVNGSGVQNVLSHGSSYDGDAEIMEYSKSESRLITLEFYGSDAYENAELFSLLNQSQKAKEVSRGLGLTIYNVSQATDVKQLLGYQYGNRVHVDFNIQYCPSVYVETLRVDASEFEILVD SQSIINVARYIRDLLDYDENLIQFDRKNTQQSDTVTGYIVVNGSGVQNVLSHGSSYDGDAEIMEYSKSESRLITLEFYGSDAYENAELFSLLNQSQKAKEVSRGLGLTIYNVSQATDVKQLLGYQYGNRVHVDFNIQYCPSVYVETLRVDASEFEILVD 7kjk-a1-m1-cE6_7kjk-a1-m1-cF6 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 56 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 497 497 7kh1-a1-m1-cA6_7kh1-a1-m1-cB6 7kh1-a1-m1-cA6_7kh1-a1-m1-cF6 7kh1-a1-m1-cB6_7kh1-a1-m1-cC6 7kh1-a1-m1-cC6_7kh1-a1-m1-cD6 7kh1-a1-m1-cD6_7kh1-a1-m1-cE6 7kh1-a1-m1-cE6_7kh1-a1-m1-cF6 7kjk-a1-m1-cA6_7kjk-a1-m1-cB6 7kjk-a1-m1-cA6_7kjk-a1-m1-cF6 7kjk-a1-m1-cB6_7kjk-a1-m1-cC6 7kjk-a1-m1-cC6_7kjk-a1-m1-cD6 7kjk-a1-m1-cD6_7kjk-a1-m1-cE6 MASISEVIRVSLQQEGRAIAPDNMNAVGIITGNQGVLSTADRYRIYRTAAAVASDFGASSQESAFANTFFDTTPNPISAGGVLVIGYWRSASETVAATSATLVSEQTSESVLIPLLNAINDGSFTITVDGGTEQEVTALDFTGVSELSEVATILNSAITGATVSEDNGYFKVTSSTTGATSLLSYLGVATSGTDISAVLGMNSESGAVLTQGTDQVVLPAETKLEGITAIKSEVNIKGAMFIDQILDADIPGIASFAGANNMLVYEVFDTGYLSKNVSNPVWAVKLAGQSNFRCLLSKSGNRKFAATYMARMHTVLFSGQNTAITMQLKELSVTAEEYTDTEIANAKTVGLDLLTTIKNEQALLTSGANDFCDNVYNLEAFRDEIQTNNYNLLKTTSTKIPQTDPGMDTIEDDTEKTCEKYVRNGVFAPGTWTRSDFFGDRQQFVDAIAQKGYYVLIGDLADQTTAERQSRVSPVIQIAVKNAGAVHEEDIIISVNL MASISEVIRVSLQQEGRAIAPDNMNAVGIITGNQGVLSTADRYRIYRTAAAVASDFGASSQESAFANTFFDTTPNPISAGGVLVIGYWRSASETVAATSATLVSEQTSESVLIPLLNAINDGSFTITVDGGTEQEVTALDFTGVSELSEVATILNSAITGATVSEDNGYFKVTSSTTGATSLLSYLGVATSGTDISAVLGMNSESGAVLTQGTDQVVLPAETKLEGITAIKSEVNIKGAMFIDQILDADIPGIASFAGANNMLVYEVFDTGYLSKNVSNPVWAVKLAGQSNFRCLLSKSGNRKFAATYMARMHTVLFSGQNTAITMQLKELSVTAEEYTDTEIANAKTVGLDLLTTIKNEQALLTSGANDFCDNVYNLEAFRDEIQTNNYNLLKTTSTKIPQTDPGMDTIEDDTEKTCEKYVRNGVFAPGTWTRSDFFGDRQQFVDAIAQKGYYVLIGDLADQTTAERQSRVSPVIQIAVKNAGAVHEEDIIISVNL 7kjk-a1-m1-cM3_7kjk-a1-m1-cQ3 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 57 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 126 126 7kjk-a1-m1-cA3_7kjk-a1-m1-cE3 7kjk-a1-m1-cB3_7kjk-a1-m1-cP3 7kjk-a1-m1-cD3_7kjk-a1-m1-cH3 7kjk-a1-m1-cG3_7kjk-a1-m1-cK3 7kjk-a1-m1-cJ3_7kjk-a1-m1-cN3 MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT 7kjk-a1-m1-cM3_7kjk-a1-m1-cR3 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 25 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 126 126 7kjk-a1-m1-cA3_7kjk-a1-m1-cF3 7kjk-a1-m1-cC3_7kjk-a1-m1-cP3 7kjk-a1-m1-cD3_7kjk-a1-m1-cI3 7kjk-a1-m1-cG3_7kjk-a1-m1-cL3 7kjk-a1-m1-cJ3_7kjk-a1-m1-cO3 MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT 7kjk-a1-m1-cP3_7kjk-a1-m1-cQ3 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 120 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 126 126 7kjk-a1-m1-cA3_7kjk-a1-m1-cB3 7kjk-a1-m1-cD3_7kjk-a1-m1-cE3 7kjk-a1-m1-cG3_7kjk-a1-m1-cH3 7kjk-a1-m1-cJ3_7kjk-a1-m1-cK3 7kjk-a1-m1-cM3_7kjk-a1-m1-cN3 MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT 7kjk-a1-m1-cP3_7kjk-a1-m1-cR3 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 36 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 126 126 7kjk-a1-m1-cA3_7kjk-a1-m1-cC3 7kjk-a1-m1-cD3_7kjk-a1-m1-cF3 7kjk-a1-m1-cG3_7kjk-a1-m1-cI3 7kjk-a1-m1-cJ3_7kjk-a1-m1-cL3 7kjk-a1-m1-cM3_7kjk-a1-m1-cO3 MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT 7kjk-a1-m1-cQ3_7kjk-a1-m1-cR3 The Neck region of Phage XM1 (6-fold symmetry) 3.6 ELECTRON MICROSCOPY 75 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 126 126 7kjk-a1-m1-cB3_7kjk-a1-m1-cC3 7kjk-a1-m1-cE3_7kjk-a1-m1-cF3 7kjk-a1-m1-cH3_7kjk-a1-m1-cI3 7kjk-a1-m1-cK3_7kjk-a1-m1-cL3 7kjk-a1-m1-cN3_7kjk-a1-m1-cO3 MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT MSIQVTGIIEGPLGTPSPGITIRVVSKISYRNTYRLSTEDYVTTTGGAYDFQLNEGFHKILIRYRGASSFTKLGDVSVSDQTPSPITLINLLESSSPKALVVKLQELADEASESAQSASDDADQVT 7kjq-a1-m1-cA_7kjq-a1-m2-cA Crystal structure of the MarR family transcriptional regulator from Variovorax paradoxus bound to Picloram C5CSP2 C5CSP2 1.35 X-RAY DIFFRACTION 160 1.0 34073 (Variovorax paradoxus) 34073 (Variovorax paradoxus) 140 140 7kfo-a1-m1-cA_7kfo-a1-m2-cA 7kfq-a1-m1-cA_7kfq-a1-m2-cA 7kfs-a1-m1-cA_7kfs-a1-m2-cA 7kh3-a1-m1-cA_7kh3-a1-m2-cA 7kig-a1-m1-cA_7kig-a1-m2-cA 7kjl-a1-m1-cA_7kjl-a1-m2-cA 7kk0-a1-m1-cA_7kk0-a1-m2-cA 7kkc-a1-m1-cA_7kkc-a1-m2-cA 7kki-a1-m1-cA_7kki-a1-m2-cA 7krh-a1-m1-cA_7krh-a1-m2-cA RFVDDYLPALLAQASQLISSEFHEVARQHGFSVSEWRVMASLAGSEPISIGQLAQVTVTKQPTVTRLLDRMEARGQVERLPHESDRRITLVRITRKGLKAVEHLMELAREHERRVLEPFGLRRAEELKQTLRQMIDLHVH RFVDDYLPALLAQASQLISSEFHEVARQHGFSVSEWRVMASLAGSEPISIGQLAQVTVTKQPTVTRLLDRMEARGQVERLPHESDRRITLVRITRKGLKAVEHLMELAREHERRVLEPFGLRRAEELKQTLRQMIDLHVH 7kkk-a1-m1-cC_7kkk-a1-m1-cE SARS-CoV-2 Spike in complex with neutralizing nanobody Nb6 P0DTC2 P0DTC2 3.03 ELECTRON MICROSCOPY 291 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1002 1002 7k8x-a1-m1-cA_7k8x-a1-m1-cB 7k8x-a1-m1-cB_7k8x-a1-m1-cC 7k8y-a1-m1-cB_7k8y-a1-m1-cD 7kkk-a1-m1-cA_7kkk-a1-m1-cC 7kkk-a1-m1-cA_7kkk-a1-m1-cE 7kkl-a1-m1-cA_7kkl-a1-m1-cC 7kkl-a1-m1-cA_7kkl-a1-m1-cD 7kkl-a1-m1-cC_7kkl-a1-m1-cD 7ljr-a1-m1-cB_7ljr-a1-m1-cA 7m6h-a1-m1-cA_7m6h-a1-m1-cB 7m6h-a1-m1-cB_7m6h-a1-m1-cC 7nd7-a1-m1-cA_7nd7-a1-m1-cB 7nd7-a1-m1-cA_7nd7-a1-m1-cC 7nd7-a1-m1-cB_7nd7-a1-m1-cC 7nd8-a1-m1-cA_7nd8-a1-m1-cB 7nd8-a1-m1-cA_7nd8-a1-m1-cC 7nd8-a1-m1-cB_7nd8-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7kl7-a1-m1-cB_7kl7-a1-m1-cA Helicobacter pylori Xanthine-Guanine-Hypoxanthine Phosphoribosyltransferase A0A2L2I2A6 A0A2L2I2A6 1.47 X-RAY DIFFRACTION 84 0.986 210 (Helicobacter pylori) 210 (Helicobacter pylori) 147 154 7kl6-a1-m1-cA_7kl6-a1-m1-cB HHHHHHYSYETFLKDSLELVKQVEQICGVPEALVCVMRGGMTLTHFLSLHWDLREVYGINAALKIENIPTIKDHLKTILVVDEIVDSGNSLEAVLKVLQDKHPDKKFYSASLFQKTSAKYKADAFLKDAPEWIDFFWEVDLKNLKSH HHHHYSYETFLKDSLELVKQVEQICGVPEALVCVMRGGMTLTHFLSLHWDLREVYGINAISYDTTRQNALKIENIPTIKDHLKTILVVDEIVDSGNSLEAVLKVLQDKHPDKKFYSASLFQKTSAKYKADAFLKDAPEWIDFFWEVDLKNLKSH 7kl8-a1-m1-cA_7kl8-a1-m1-cB Structure of F420 binding protein Rv1558 from Mycobacterium tuberculosis with F420 bound P9WP11 P9WP11 2.469 X-RAY DIFFRACTION 58 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 140 140 EYAPSPLDWSREQADTYMKSGGTEGTQLQGKPVILLTTVGAKTGKLRKTPLMRVEHDGQYAIVASLGGAPKNPVWYHNVVKNPRVELQDGTVTGDYDAREVFGDEKAIWWQRAVAVWPDYASYQTKTDRQIPVFVLTPVR EYAPSPLDWSREQADTYMKSGGTEGTQLQGKPVILLTTVGAKTGKLRKTPLMRVEHDGQYAIVASLGGAPKNPVWYHNVVKNPRVELQDGTVTGDYDAREVFGDEKAIWWQRAVAVWPDYASYQTKTDRQIPVFVLTPVR 7kl9-a1-m1-cA_7kl9-a1-m1-cC Structure of the SARS-CoV-2 S 6P trimer in complex with the ACE2 protein decoy, CTC-445.2 (State 4) P0DTC2 P0DTC2 4.1 ELECTRON MICROSCOPY 252 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 995 995 7kl9-a1-m1-cA_7kl9-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7kld-a1-m1-cA_7kld-a1-m2-cB Crystal Structure of an Essential Ribosomal Processing Protease Prp from S. aureus in complex with a covalently linked product Peptide Q2FXS9 Q2FXS9 2.25 X-RAY DIFFRACTION 13 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 100 106 7kld-a1-m2-cA_7kld-a1-m1-cB MITVDITVNDEGKVTDVIMDGHAHDIVCAGASAVLFGSVNAIIGLTSERPDINYDDNGGHFHIRSVDTNNDEAQLILQTMLVSLQTIEEEYNENIRLNYK MITVDITVNDEGKVTDVIMDGHADHGEYGHDIVCAGASAVLFGSVNAIIGLTSERPDINYDDNGGHFHIRSVDTNNDEAQLILQTMLVSLQTIEEEYNENIRLNYK 7kld-a1-m2-cA_7kld-a1-m2-cB Crystal Structure of an Essential Ribosomal Processing Protease Prp from S. aureus in complex with a covalently linked product Peptide Q2FXS9 Q2FXS9 2.25 X-RAY DIFFRACTION 31 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 100 106 7kld-a1-m1-cA_7kld-a1-m1-cB 7kld-a1-m3-cD_7kld-a1-m4-cD MITVDITVNDEGKVTDVIMDGHAHDIVCAGASAVLFGSVNAIIGLTSERPDINYDDNGGHFHIRSVDTNNDEAQLILQTMLVSLQTIEEEYNENIRLNYK MITVDITVNDEGKVTDVIMDGHADHGEYGHDIVCAGASAVLFGSVNAIIGLTSERPDINYDDNGGHFHIRSVDTNNDEAQLILQTMLVSLQTIEEEYNENIRLNYK 7kln-a1-m1-cH1_7kln-a1-m1-cL1 Myoviridae Phage XM1 Neck Region (12-fold) 3.6 ELECTRON MICROSCOPY 14 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 361 361 7kln-a1-m1-cA1_7kln-a1-m1-cE1 7kln-a1-m1-cA1_7kln-a1-m1-cI1 7kln-a1-m1-cB1_7kln-a1-m1-cF1 7kln-a1-m1-cB1_7kln-a1-m1-cJ1 7kln-a1-m1-cC1_7kln-a1-m1-cG1 7kln-a1-m1-cC1_7kln-a1-m1-cK1 7kln-a1-m1-cD1_7kln-a1-m1-cH1 7kln-a1-m1-cD1_7kln-a1-m1-cL1 7kln-a1-m1-cE1_7kln-a1-m1-cI1 7kln-a1-m1-cF1_7kln-a1-m1-cJ1 7kln-a1-m1-cG1_7kln-a1-m1-cK1 DVLSGLINRRNSMARNRVSHRYLSDEEMRVMYKAGLMSKIIRLKAGYALNDTLKFESTQDQEIYKKRLSKHVKNATKFMLGFGRGVIVVFKNGDDLSKPLERGVDPKLLKIRVFSGDIAKGNNPDNDLRSERYYKPKNYTIKGHTIHWTRVVDFTYYMPSENELPDYYYGGMSESELIYEQFINDSVVQRASGSIIEKASTFVYKIKGYKQLIQAKKEEDIIKYVSTCEDGRSIYGGLITDADDEVSTLTQSLTDLDKVDNVTLRRIAMVTGLGMTVLIGEQASGLNASGEKERQGFQDTIENLQSDYLEDPLNRLAEIFQLGFIEFKDRVEYDKKAVDVAKVLWELGEDYGAYLKDKDVV DVLSGLINRRNSMARNRVSHRYLSDEEMRVMYKAGLMSKIIRLKAGYALNDTLKFESTQDQEIYKKRLSKHVKNATKFMLGFGRGVIVVFKNGDDLSKPLERGVDPKLLKIRVFSGDIAKGNNPDNDLRSERYYKPKNYTIKGHTIHWTRVVDFTYYMPSENELPDYYYGGMSESELIYEQFINDSVVQRASGSIIEKASTFVYKIKGYKQLIQAKKEEDIIKYVSTCEDGRSIYGGLITDADDEVSTLTQSLTDLDKVDNVTLRRIAMVTGLGMTVLIGEQASGLNASGEKERQGFQDTIENLQSDYLEDPLNRLAEIFQLGFIEFKDRVEYDKKAVDVAKVLWELGEDYGAYLKDKDVV 7kln-a1-m1-cJ1_7kln-a1-m1-cL1 Myoviridae Phage XM1 Neck Region (12-fold) 3.6 ELECTRON MICROSCOPY 22 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 361 361 7kln-a1-m1-cA1_7kln-a1-m1-cC1 7kln-a1-m1-cA1_7kln-a1-m1-cK1 7kln-a1-m1-cB1_7kln-a1-m1-cD1 7kln-a1-m1-cB1_7kln-a1-m1-cL1 7kln-a1-m1-cC1_7kln-a1-m1-cE1 7kln-a1-m1-cD1_7kln-a1-m1-cF1 7kln-a1-m1-cE1_7kln-a1-m1-cG1 7kln-a1-m1-cF1_7kln-a1-m1-cH1 7kln-a1-m1-cG1_7kln-a1-m1-cI1 7kln-a1-m1-cH1_7kln-a1-m1-cJ1 7kln-a1-m1-cI1_7kln-a1-m1-cK1 DVLSGLINRRNSMARNRVSHRYLSDEEMRVMYKAGLMSKIIRLKAGYALNDTLKFESTQDQEIYKKRLSKHVKNATKFMLGFGRGVIVVFKNGDDLSKPLERGVDPKLLKIRVFSGDIAKGNNPDNDLRSERYYKPKNYTIKGHTIHWTRVVDFTYYMPSENELPDYYYGGMSESELIYEQFINDSVVQRASGSIIEKASTFVYKIKGYKQLIQAKKEEDIIKYVSTCEDGRSIYGGLITDADDEVSTLTQSLTDLDKVDNVTLRRIAMVTGLGMTVLIGEQASGLNASGEKERQGFQDTIENLQSDYLEDPLNRLAEIFQLGFIEFKDRVEYDKKAVDVAKVLWELGEDYGAYLKDKDVV DVLSGLINRRNSMARNRVSHRYLSDEEMRVMYKAGLMSKIIRLKAGYALNDTLKFESTQDQEIYKKRLSKHVKNATKFMLGFGRGVIVVFKNGDDLSKPLERGVDPKLLKIRVFSGDIAKGNNPDNDLRSERYYKPKNYTIKGHTIHWTRVVDFTYYMPSENELPDYYYGGMSESELIYEQFINDSVVQRASGSIIEKASTFVYKIKGYKQLIQAKKEEDIIKYVSTCEDGRSIYGGLITDADDEVSTLTQSLTDLDKVDNVTLRRIAMVTGLGMTVLIGEQASGLNASGEKERQGFQDTIENLQSDYLEDPLNRLAEIFQLGFIEFKDRVEYDKKAVDVAKVLWELGEDYGAYLKDKDVV 7kln-a1-m1-cK1_7kln-a1-m1-cL1 Myoviridae Phage XM1 Neck Region (12-fold) 3.6 ELECTRON MICROSCOPY 304 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 361 361 7kln-a1-m1-cA1_7kln-a1-m1-cB1 7kln-a1-m1-cA1_7kln-a1-m1-cL1 7kln-a1-m1-cB1_7kln-a1-m1-cC1 7kln-a1-m1-cC1_7kln-a1-m1-cD1 7kln-a1-m1-cD1_7kln-a1-m1-cE1 7kln-a1-m1-cE1_7kln-a1-m1-cF1 7kln-a1-m1-cF1_7kln-a1-m1-cG1 7kln-a1-m1-cG1_7kln-a1-m1-cH1 7kln-a1-m1-cH1_7kln-a1-m1-cI1 7kln-a1-m1-cI1_7kln-a1-m1-cJ1 7kln-a1-m1-cJ1_7kln-a1-m1-cK1 DVLSGLINRRNSMARNRVSHRYLSDEEMRVMYKAGLMSKIIRLKAGYALNDTLKFESTQDQEIYKKRLSKHVKNATKFMLGFGRGVIVVFKNGDDLSKPLERGVDPKLLKIRVFSGDIAKGNNPDNDLRSERYYKPKNYTIKGHTIHWTRVVDFTYYMPSENELPDYYYGGMSESELIYEQFINDSVVQRASGSIIEKASTFVYKIKGYKQLIQAKKEEDIIKYVSTCEDGRSIYGGLITDADDEVSTLTQSLTDLDKVDNVTLRRIAMVTGLGMTVLIGEQASGLNASGEKERQGFQDTIENLQSDYLEDPLNRLAEIFQLGFIEFKDRVEYDKKAVDVAKVLWELGEDYGAYLKDKDVV DVLSGLINRRNSMARNRVSHRYLSDEEMRVMYKAGLMSKIIRLKAGYALNDTLKFESTQDQEIYKKRLSKHVKNATKFMLGFGRGVIVVFKNGDDLSKPLERGVDPKLLKIRVFSGDIAKGNNPDNDLRSERYYKPKNYTIKGHTIHWTRVVDFTYYMPSENELPDYYYGGMSESELIYEQFINDSVVQRASGSIIEKASTFVYKIKGYKQLIQAKKEEDIIKYVSTCEDGRSIYGGLITDADDEVSTLTQSLTDLDKVDNVTLRRIAMVTGLGMTVLIGEQASGLNASGEKERQGFQDTIENLQSDYLEDPLNRLAEIFQLGFIEFKDRVEYDKKAVDVAKVLWELGEDYGAYLKDKDVV 7kln-a1-m1-cK2_7kln-a1-m1-cL2 Myoviridae Phage XM1 Neck Region (12-fold) 3.6 ELECTRON MICROSCOPY 97 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 118 118 7kln-a1-m1-cA2_7kln-a1-m1-cB2 7kln-a1-m1-cA2_7kln-a1-m1-cL2 7kln-a1-m1-cB2_7kln-a1-m1-cC2 7kln-a1-m1-cC2_7kln-a1-m1-cD2 7kln-a1-m1-cD2_7kln-a1-m1-cE2 7kln-a1-m1-cE2_7kln-a1-m1-cF2 7kln-a1-m1-cF2_7kln-a1-m1-cG2 7kln-a1-m1-cG2_7kln-a1-m1-cH2 7kln-a1-m1-cH2_7kln-a1-m1-cI2 7kln-a1-m1-cI2_7kln-a1-m1-cJ2 7kln-a1-m1-cJ2_7kln-a1-m1-cK2 MALIDDFKARFPNLDGSLVDALVPVYENNYSCYYGGSYENDCDKEAILLLIAHLVVTDPSYSGDESSSRAVASQSVGSVSVSFVAGSTGSDWTNWLNSTRYGQLFLMVTSNNMGPSFA MALIDDFKARFPNLDGSLVDALVPVYENNYSCYYGGSYENDCDKEAILLLIAHLVVTDPSYSGDESSSRAVASQSVGSVSVSFVAGSTGSDWTNWLNSTRYGQLFLMVTSNNMGPSFA 7klu-a1-m1-cA_7klu-a1-m1-cC Tetrameric human mitochondrial Hsp90 (TRAP1) in the presence of AMP-PNP Q12931 P21912 3.5 ELECTRON MICROSCOPY 31 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 612 614 PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNTLQAIWMMDPKDVGEWQHEEFYRYVAQAHDKPRYTLHYKTDAPLNIRSIFYVPDMKPSMFDVGSSVALYSRKVLIQTKATDILPKWLRFIRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRLIKFFIDQSKKDAEKYAKFFEDYGLFMREGIVTATEQEVKEDIAKLLRYESSALPSGQLTSLSEYASRMRAGTRNIYYLCAPNRHLAEHSPYYEAMKKKDTEVLFCFEQFDELTLLHLREFDKKKLISVETDIVVDHCLSEKETEELMAWMRNVLGSRVTNVKVTLRLDTHPAMVTVLEMGAARHFLRMQQLAKTQLLQPTLEINPRHALIKKLNQLRASEPGLAQLLVDQIYENAMIAAGLVDDPRAMVGRLNELLVKALERH PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNTLQAIWMMDPKDVGEWQHEEFYRYVAQAHDKPRYTLHYKTDAPLNIRSIFYVPDMKPSMFDVSRSSVALYSRKVLIQTKATDILPKWLRFIRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRLIKFFIDQSKKDAEKYAKFFEDYGLFMREGIVTATEQEVKEDIAKLLRYESSALPSGQLTSLSEYASRMRAGTRNIYYLCAPNRHLAEHSPYYEAMKKKDTEVLFCFEQFDELTLLHLREFDKKKLISVETDIVVDHCLSEKETEELMAWMRNVLGSRVTNVKVTLRLDTHPAMVTVLEMGAARHFLRMQTQEERAQLLQPTLEINPRHALIKKLNQLRASEPGLAQLLVDQIYENAMIAAGLVDDPRAMVGRLNELLVKALERH 7klu-a1-m1-cD_7klu-a1-m1-cB Tetrameric human mitochondrial Hsp90 (TRAP1) in the presence of AMP-PNP Q12931 P21912 3.5 ELECTRON MICROSCOPY 10 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 612 614 PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNTLQAIWMMDPKDVGEWQHEEFYRYVAQAHDKPRYTLHYKTDAPLNIRSIFYVPDMKPSMFDVGSSVALYSRKVLIQTKATDILPKWLRFIRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRLIKFFIDQSKKDAEKYAKFFEDYGLFMREGIVTATEQEVKEDIAKLLRYESSALPSGQLTSLSEYASRMRAGTRNIYYLCAPNRHLAEHSPYYEAMKKKDTEVLFCFEQFDELTLLHLREFDKKKLISVETDIVVDHCLSEKETEELMAWMRNVLGSRVTNVKVTLRLDTHPAMVTVLEMGAARHFLRMQQLAKTQLLQPTLEINPRHALIKKLNQLRASEPGLAQLLVDQIYENAMIAAGLVDDPRAMVGRLNELLVKALERH PLHSIISSTESVQGSTSKHEFQAETKKLLDIVARSLYSEKEVFIRELISNASDALEKLRHKLVSDGQALPEMEIHLQTNAEKGTITIQDTGIGMTQEELVSNLGTIARSGSKAFLDALQNQAEASSKIIGQFGVGFYSAFMVADRVEVYSRSAAPGSLGYQWLSDGSGVFEIAEASGVRTGTKIIIHLKSDCKEFSSEARVRDVVTKYSNFVSFPLYLNGRRMNTLQAIWMMDPKDVGEWQHEEFYRYVAQAHDKPRYTLHYKTDAPLNIRSIFYVPDMKPSMFDVSRSSVALYSRKVLIQTKATDILPKWLRFIRGVVDSEDIPLNLSRELLQESALIRKLRDVLQQRLIKFFIDQSKKDAEKYAKFFEDYGLFMREGIVTATEQEVKEDIAKLLRYESSALPSGQLTSLSEYASRMRAGTRNIYYLCAPNRHLAEHSPYYEAMKKKDTEVLFCFEQFDELTLLHLREFDKKKLISVETDIVVDHCLSEKETEELMAWMRNVLGSRVTNVKVTLRLDTHPAMVTVLEMGAARHFLRMQTQEERAQLLQPTLEINPRHALIKKLNQLRASEPGLAQLLVDQIYENAMIAAGLVDDPRAMVGRLNELLVKALERH 7km3-a1-m1-cC_7km3-a1-m1-cJ Dodecameric Structure of the Chlamydia trachomatis Flavin Prenyltransferase UbiX Ortholog CT220 with FMN and DMAP O84222 O84222 2.26 X-RAY DIFFRACTION 49 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 187 187 7km2-a1-m1-cA_7km2-a1-m1-cK 7km2-a1-m1-cB_7km2-a1-m1-cA 7km2-a1-m1-cB_7km2-a1-m1-cK 7km2-a1-m1-cC_7km2-a1-m1-cJ 7km2-a1-m1-cE_7km2-a1-m1-cC 7km2-a1-m1-cE_7km2-a1-m1-cJ 7km2-a1-m1-cG_7km2-a1-m1-cF 7km2-a1-m1-cH_7km2-a1-m1-cF 7km2-a1-m1-cH_7km2-a1-m1-cG 7km2-a1-m1-cI_7km2-a1-m1-cD 7km2-a1-m1-cL_7km2-a1-m1-cD 7km2-a1-m1-cL_7km2-a1-m1-cI 7km3-a1-m1-cA_7km3-a1-m1-cK 7km3-a1-m1-cB_7km3-a1-m1-cA 7km3-a1-m1-cB_7km3-a1-m1-cK 7km3-a1-m1-cE_7km3-a1-m1-cC 7km3-a1-m1-cE_7km3-a1-m1-cJ 7km3-a1-m1-cG_7km3-a1-m1-cF 7km3-a1-m1-cH_7km3-a1-m1-cF 7km3-a1-m1-cH_7km3-a1-m1-cG 7km3-a1-m1-cI_7km3-a1-m1-cD 7km3-a1-m1-cL_7km3-a1-m1-cD 7km3-a1-m1-cL_7km3-a1-m1-cI MKRYVVGISGASGIVLAVTLVSELARLGHHIDVIISPSAQKTLYYELDTKSFLSTIPQNFHNQIVLHHISSIESSVSSGSNTIDATIIVPCSVATVAAISCGLADNLLRRVADVALKEKRPLILVPREAPLSAIHLENLLKLAQNGAVILPPMPIWYFKPQTAEDIANDIVGKILAILQLDSPLIKR MKRYVVGISGASGIVLAVTLVSELARLGHHIDVIISPSAQKTLYYELDTKSFLSTIPQNFHNQIVLHHISSIESSVSSGSNTIDATIIVPCSVATVAAISCGLADNLLRRVADVALKEKRPLILVPREAPLSAIHLENLLKLAQNGAVILPPMPIWYFKPQTAEDIANDIVGKILAILQLDSPLIKR 7km3-a1-m1-cI_7km3-a1-m1-cK Dodecameric Structure of the Chlamydia trachomatis Flavin Prenyltransferase UbiX Ortholog CT220 with FMN and DMAP O84222 O84222 2.26 X-RAY DIFFRACTION 17 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 178 188 7km2-a1-m1-cC_7km2-a1-m1-cF 7km2-a1-m1-cD_7km2-a1-m1-cF 7km2-a1-m1-cI_7km2-a1-m1-cK 7km3-a1-m1-cC_7km3-a1-m1-cF 7km3-a1-m1-cD_7km3-a1-m1-cF MKRYVVGISGASGIVLAVTLVSELARLGHHIDVIISPSAQKTLYYELDTKSFLSTIPQNFHNQIVLHHISSTIDATIIVPCSVATVAAISCGLADNLLRRVADVALKEKRPLILVPREAPLSAIHLENLLKLAQNGAVILPPMPIWYFKPQTAEDIANDIVGKILAILQLDSPLIKRW MKRYVVGISGASGIVLAVTLVSELARLGHHIDVIISPSAQKTLYYELDTKSFLSTIPQNFHNQIVLHHISSIESSVSSGSNTIDATIIVPCSVATVAAISCGLADNLLRRVADVALKEKRPLILVPREAPLSAIHLENLLKLAQNGAVILPPMPIWYFKPQTAEDIANDIVGKILAILQLDSPLIKRW 7km3-a1-m1-cJ_7km3-a1-m1-cF Dodecameric Structure of the Chlamydia trachomatis Flavin Prenyltransferase UbiX Ortholog CT220 with FMN and DMAP O84222 O84222 2.26 X-RAY DIFFRACTION 111 1.0 272561 (Chlamydia trachomatis D/UW-3/CX) 272561 (Chlamydia trachomatis D/UW-3/CX) 187 190 7km2-a1-m1-cE_7km2-a1-m1-cA 7km2-a1-m1-cG_7km2-a1-m1-cK 7km2-a1-m1-cH_7km2-a1-m1-cD 7km2-a1-m1-cI_7km2-a1-m1-cB 7km2-a1-m1-cJ_7km2-a1-m1-cF 7km2-a1-m1-cL_7km2-a1-m1-cC 7km3-a1-m1-cE_7km3-a1-m1-cA 7km3-a1-m1-cG_7km3-a1-m1-cK 7km3-a1-m1-cH_7km3-a1-m1-cD 7km3-a1-m1-cI_7km3-a1-m1-cB 7km3-a1-m1-cL_7km3-a1-m1-cC MKRYVVGISGASGIVLAVTLVSELARLGHHIDVIISPSAQKTLYYELDTKSFLSTIPQNFHNQIVLHHISSIESSVSSGSNTIDATIIVPCSVATVAAISCGLADNLLRRVADVALKEKRPLILVPREAPLSAIHLENLLKLAQNGAVILPPMPIWYFKPQTAEDIANDIVGKILAILQLDSPLIKR MKRYVVGISGASGIVLAVTLVSELARLGHHIDVIISPSAQKTLYYELDTKSFLSTIPQNFHNQIVLHHISSIESSVSSGSNTIDATIIVPCSVATVAAISCGLADNLLRRVADVALKEKRPLILVPREAPLSAIHLENLLKLAQNGAVILPPMPIWYFKPQTAEDIANDIVGKILAILQLDSPLIKRWEN 7km8-a3-m1-cA_7km8-a3-m1-cB Crystal Structure of Dihydrofolate reductase (DHFR) from Mycobacterium ulcerans Agy99 in complex with NADP and inhibitor SDDC-0001914, orthorhombic crystal from A0PQG8 A0PQG8 1.55 X-RAY DIFFRACTION 59 1.0 362242 (Mycobacterium ulcerans Agy99) 362242 (Mycobacterium ulcerans Agy99) 158 158 TSVGLIWAQSTSGVIGRDGGIPWRLPEDLAHFKRLTMGHTVVMGRRTWDSLPAAHRPLPGRRNVVVTRQTGLVAHGAQVVGSLEQALSATWVIGGAQIYALALPLANRCEVTEVDVDLPPEDEDALAPVLDQTWAGTSGEWLVSRSGLRYRMHSYRRL TSVGLIWAQSTSGVIGRDGGIPWRLPEDLAHFKRLTMGHTVVMGRRTWDSLPAAHRPLPGRRNVVVTRQTGLVAHGAQVVGSLEQALSATWVIGGAQIYALALPLANRCEVTEVDVDLPPEDEDALAPVLDQTWAGTSGEWLVSRSGLRYRMHSYRRL 7kmk-a1-m1-cC_7kmk-a1-m1-cA cryo-EM structure of SARS-CoV-2 spike in complex with Fab 15033-7, two RBDs bound P0DTC2 P0DTC2 4.2 ELECTRON MICROSCOPY 278 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1025 1028 7kmk-a1-m1-cB_7kmk-a1-m1-cA QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVWMESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVY QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVWMESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQTASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVY 7kmo-a1-m2-cA_7kmo-a1-m4-cA Crystal structure of the GH35 beta-galactosidase (Xac1772) from Xanthomonas citri in complex with galactose Q8PLM3 Q8PLM3 1.753 X-RAY DIFFRACTION 75 1.0 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 511 511 7kmn-a1-m1-cA_7kmn-a1-m3-cA 7kmn-a1-m1-cA_7kmn-a1-m4-cA 7kmn-a1-m2-cA_7kmn-a1-m3-cA 7kmn-a1-m2-cA_7kmn-a1-m4-cA 7kmo-a1-m1-cA_7kmo-a1-m3-cA 7kmo-a1-m1-cA_7kmo-a1-m4-cA 7kmo-a1-m2-cA_7kmo-a1-m3-cA TPMPQFVSKDGKHALMVDGAPFLILGAQVNNSSNYPGIMDKVWPAMQVLGPNTVQVPIAWEQVEPEEGRFDFSFVDTLLNQAREHKVRLVLLWFATWKNNGPQYAPHWVKTDNQRFPRVVTREGKSIGSLSPHAQATLDADRKAFVAFMQHLKKVDPQHTVIMIQPENEAGTYGSVRDFSPMAQKLFDGQVPDELIKRMNKQPGTWAQVFGADADEIFHAWSIGRYIDQIAQAGKAEYPLPMYVNAALRGPFNPGQPGQYASGGPTDNVLDVWKAAGPHIDLLAPDIYMPEYRMYTTVLERYARPDNALFVAETGNRPEYARYLYPTLGHNGIGWSAFGIDYTRYSNYPLGAKHVNEETLAPFALGFQAVSMGMRPFAKAASEGKLHGTAEEPGQAVQELKLNDRWSATITYGVPQFWFKGEPPGNPEPIGAALIAELSPDEFLVTGYHARVTLHPASDATANMIYDRVEEGVYEGNDWKFQRNWNGDQTDYGVNFSSVPQLLKIKLATYK TPMPQFVSKDGKHALMVDGAPFLILGAQVNNSSNYPGIMDKVWPAMQVLGPNTVQVPIAWEQVEPEEGRFDFSFVDTLLNQAREHKVRLVLLWFATWKNNGPQYAPHWVKTDNQRFPRVVTREGKSIGSLSPHAQATLDADRKAFVAFMQHLKKVDPQHTVIMIQPENEAGTYGSVRDFSPMAQKLFDGQVPDELIKRMNKQPGTWAQVFGADADEIFHAWSIGRYIDQIAQAGKAEYPLPMYVNAALRGPFNPGQPGQYASGGPTDNVLDVWKAAGPHIDLLAPDIYMPEYRMYTTVLERYARPDNALFVAETGNRPEYARYLYPTLGHNGIGWSAFGIDYTRYSNYPLGAKHVNEETLAPFALGFQAVSMGMRPFAKAASEGKLHGTAEEPGQAVQELKLNDRWSATITYGVPQFWFKGEPPGNPEPIGAALIAELSPDEFLVTGYHARVTLHPASDATANMIYDRVEEGVYEGNDWKFQRNWNGDQTDYGVNFSSVPQLLKIKLATYK 7kmq-a1-m1-cA_7kmq-a1-m1-cB Crystal structure of the GH95 alpha-L-1,2-fucosidase (Xac1774) from Xanthomonas citri Q8PLM1 Q8PLM1 2.045 X-RAY DIFFRACTION 58 0.999 190486 (Xanthomonas citri pv. citri str. 306) 190486 (Xanthomonas citri pv. citri str. 306) 753 754 LPPVAAAEALQLWYREPANEWVEALPVGNGRLGAMVWGGIAHERLQLNEDTLYAGGPYDSTSPDALAALPQVRALIFAGRYAEAEKLADAKLLSRPLKQMPYQPLGDLLLDFDRADGISDYRRQLDLDTAVATTTFRSGGAVHRREVFVCAQAQCIVVRLSCDRPGGISLRVGIDSPQTGEVTAEPGGLLFSGRNGSFAGIEGRLRFALRVLPQVSGGKLSQVRDRLRIDAADEVVLLLSAATSYQRFDAVDGDPLALTAARLRKAAKLDFPALLRAHLADHQRLFRRVAIDLGSSEAVQLPTDERVQRFAEGNDPALAALYHQYGRYLLICSSRPGTQPANLQGIWNDLMQPPWESKYTININTEMNYWPSEANALHECVEPLEAMLFDLAQTGTHTARAIYDAPGWVVHNNTDLWRQAGPIDGAQWSLWPMGGVWLLQQLWDRWDYGRDRAYLSKVYPLFKGAAEFFVATLMRDPQTGAMVTNPSMSPENQHPFGAAVCAGPSMDAQLLRDLFAQCIAMSKLLGIDLAQQLAALREQLPPNRIGKAGQLQEWQQDWDMQAPEINHRHVSHLYALHPSSQINLRDTPELAAAARRSLEIRGDNATGWGIGWRLNLWARLADGEHAYRILQLLISPERTYPNLFDAHPPFQIDGNFGGTAGITEMLLQSWGGSVFLLPALPKAWPRGSVRGLRVRGGASVDLEWEGGRLQQARLHSDRGGRYQLSYAGQTLDLELGAGRTQQVGLNNNRLVTQ LPPVAAAEALQLWYREPANEWVEALPVGNGRLGAMVWGGIAHERLQLNEDTLYAGGPYDSTSPDALAALPQVRALIFAGRYAEAEKLADAKLLSRPLKQMPYQPLGDLLLDFDRADGISDYRRQLDLDTAVATTTFRSGGAVHRREVFVCAQAQCIVVRLSCDRPGGISLRVGIDSPQTGEVTAEPGGLLFSGRNGSFAGIEGRLRFALRVLPQVSGGKLSQVRDRLRIDAADEVVLLLSAATSYQRFDAVDGDPLALTAARLRKAAKLDFPALLRAHLADHQRLFRRVAIDLGSSEAVQLPTDERVQRFAEGNDPALAALYHQYGRYLLICSSRPGTQPANLQGIWNDLMQPPWESKYTININTEMNYWPSEANALHECVEPLEAMLFDLAQTGTHTARAIYDAPGWVVHNNTDLWRQAGPIDGAQWSLWPMGGVWLLQQLWDRWDYGRDRAYLSKVYPLFKGAAEFFVATLMRDPQTGAMVTNPSMSPENQHPFGAAVCAGPSMDAQLLRDLFAQCIAMSKLLGIDAQLAQQLAALREQLPPNRIGKAGQLQEWQQDWDMQAPEINHRHVSHLYALHPSSQINLRDTPELAAAARRSLEIRGDNATGWGIGWRLNLWARLADGEHAYRILQLLISPERTYPNLFDAHPPFQIDGNFGGTAGITEMLLQSWGGSVFLLPALPKAWPRGSVRGLRVRGGASVDLEWEGGRLQQARLHSDRGGRYQLSYAGQTLDLELGAGRTQQVGLNNNRLVT 7kmv-a8-m1-cP_7kmv-a8-m1-cO Structure of Malaysian Banana Lectin F84T 1.8 X-RAY DIFFRACTION 71 1.0 4641 (Musa acuminata) 4641 (Musa acuminata) 139 141 7kmu-a1-m1-cA_7kmu-a1-m1-cB 7kmv-a1-m1-cA_7kmv-a1-m1-cB 7kmv-a2-m1-cC_7kmv-a2-m1-cD 7kmv-a3-m1-cF_7kmv-a3-m1-cE 7kmv-a4-m1-cG_7kmv-a4-m1-cH 7kmv-a5-m1-cJ_7kmv-a5-m1-cI 7kmv-a6-m1-cL_7kmv-a6-m1-cK 7kmv-a7-m1-cN_7kmv-a7-m1-cM AIKVGTWGGNGGSEWDMGPAYRIDSVKINAGDIIDAIEITFTRYGLTETQHYGGTGGEPHEIAFEDGEYIMSMEGHVVDYTGLTIIGKLTLTTNRRTFGPFGAYEGTPFSIPVAEGKIAGFFGRAGSFIDAIGVYLMPN AGAIKVGTWGGNGGSEWDMGPAYRIDSVKINAGDIIDAIEITFTRYGLTETQHYGGTGGEPHEIAFEDGEYIMSMEGHVVDYTGLTIIGKLTLTTNRRTFGPFGAYEGTPFSIPVAEGKIAGFFGRAGSFIDAIGVYLMPN 7kmx-a1-m10-cA_7kmx-a1-m9-cG The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 10 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cF_7kmx-a1-m6-cF 7kmx-a1-m10-cF_7kmx-a1-m9-cF 7kmx-a1-m10-cG_7kmx-a1-m6-cA 7kmx-a1-m11-cA_7kmx-a1-m15-cG 7kmx-a1-m11-cF_7kmx-a1-m12-cF 7kmx-a1-m11-cF_7kmx-a1-m15-cF 7kmx-a1-m11-cG_7kmx-a1-m12-cA 7kmx-a1-m12-cF_7kmx-a1-m13-cF 7kmx-a1-m12-cG_7kmx-a1-m13-cA 7kmx-a1-m13-cF_7kmx-a1-m14-cF 7kmx-a1-m13-cG_7kmx-a1-m14-cA 7kmx-a1-m14-cF_7kmx-a1-m15-cF 7kmx-a1-m14-cG_7kmx-a1-m15-cA 7kmx-a1-m16-cA_7kmx-a1-m20-cG 7kmx-a1-m16-cF_7kmx-a1-m17-cF 7kmx-a1-m16-cF_7kmx-a1-m20-cF 7kmx-a1-m16-cG_7kmx-a1-m17-cA 7kmx-a1-m17-cF_7kmx-a1-m18-cF 7kmx-a1-m17-cG_7kmx-a1-m18-cA 7kmx-a1-m18-cF_7kmx-a1-m19-cF 7kmx-a1-m18-cG_7kmx-a1-m19-cA 7kmx-a1-m19-cF_7kmx-a1-m20-cF 7kmx-a1-m19-cG_7kmx-a1-m20-cA 7kmx-a1-m1-cA_7kmx-a1-m5-cG 7kmx-a1-m1-cF_7kmx-a1-m2-cF 7kmx-a1-m1-cF_7kmx-a1-m5-cF 7kmx-a1-m1-cG_7kmx-a1-m2-cA 7kmx-a1-m21-cA_7kmx-a1-m25-cG 7kmx-a1-m21-cF_7kmx-a1-m22-cF 7kmx-a1-m21-cF_7kmx-a1-m25-cF 7kmx-a1-m21-cG_7kmx-a1-m22-cA 7kmx-a1-m22-cF_7kmx-a1-m23-cF 7kmx-a1-m22-cG_7kmx-a1-m23-cA 7kmx-a1-m23-cF_7kmx-a1-m24-cF 7kmx-a1-m23-cG_7kmx-a1-m24-cA 7kmx-a1-m24-cF_7kmx-a1-m25-cF 7kmx-a1-m24-cG_7kmx-a1-m25-cA 7kmx-a1-m26-cA_7kmx-a1-m30-cG 7kmx-a1-m26-cF_7kmx-a1-m27-cF 7kmx-a1-m26-cF_7kmx-a1-m30-cF 7kmx-a1-m26-cG_7kmx-a1-m27-cA 7kmx-a1-m27-cF_7kmx-a1-m28-cF 7kmx-a1-m27-cG_7kmx-a1-m28-cA 7kmx-a1-m28-cF_7kmx-a1-m29-cF 7kmx-a1-m28-cG_7kmx-a1-m29-cA 7kmx-a1-m29-cF_7kmx-a1-m30-cF 7kmx-a1-m29-cG_7kmx-a1-m30-cA 7kmx-a1-m2-cF_7kmx-a1-m3-cF 7kmx-a1-m2-cG_7kmx-a1-m3-cA 7kmx-a1-m31-cA_7kmx-a1-m35-cG 7kmx-a1-m31-cF_7kmx-a1-m32-cF 7kmx-a1-m31-cF_7kmx-a1-m35-cF 7kmx-a1-m31-cG_7kmx-a1-m32-cA 7kmx-a1-m32-cF_7kmx-a1-m33-cF 7kmx-a1-m32-cG_7kmx-a1-m33-cA 7kmx-a1-m33-cF_7kmx-a1-m34-cF 7kmx-a1-m33-cG_7kmx-a1-m34-cA 7kmx-a1-m34-cF_7kmx-a1-m35-cF 7kmx-a1-m34-cG_7kmx-a1-m35-cA 7kmx-a1-m36-cA_7kmx-a1-m40-cG 7kmx-a1-m36-cF_7kmx-a1-m37-cF 7kmx-a1-m36-cF_7kmx-a1-m40-cF 7kmx-a1-m36-cG_7kmx-a1-m37-cA 7kmx-a1-m37-cF_7kmx-a1-m38-cF 7kmx-a1-m37-cG_7kmx-a1-m38-cA 7kmx-a1-m38-cF_7kmx-a1-m39-cF 7kmx-a1-m38-cG_7kmx-a1-m39-cA 7kmx-a1-m39-cF_7kmx-a1-m40-cF 7kmx-a1-m39-cG_7kmx-a1-m40-cA 7kmx-a1-m3-cF_7kmx-a1-m4-cF 7kmx-a1-m3-cG_7kmx-a1-m4-cA 7kmx-a1-m41-cA_7kmx-a1-m45-cG 7kmx-a1-m41-cF_7kmx-a1-m42-cF 7kmx-a1-m41-cF_7kmx-a1-m45-cF 7kmx-a1-m41-cG_7kmx-a1-m42-cA 7kmx-a1-m42-cF_7kmx-a1-m43-cF 7kmx-a1-m42-cG_7kmx-a1-m43-cA 7kmx-a1-m43-cF_7kmx-a1-m44-cF 7kmx-a1-m43-cG_7kmx-a1-m44-cA 7kmx-a1-m44-cF_7kmx-a1-m45-cF 7kmx-a1-m44-cG_7kmx-a1-m45-cA 7kmx-a1-m46-cA_7kmx-a1-m50-cG 7kmx-a1-m46-cF_7kmx-a1-m47-cF 7kmx-a1-m46-cF_7kmx-a1-m50-cF 7kmx-a1-m46-cG_7kmx-a1-m47-cA 7kmx-a1-m47-cF_7kmx-a1-m48-cF 7kmx-a1-m47-cG_7kmx-a1-m48-cA 7kmx-a1-m48-cF_7kmx-a1-m49-cF 7kmx-a1-m48-cG_7kmx-a1-m49-cA 7kmx-a1-m49-cF_7kmx-a1-m50-cF 7kmx-a1-m49-cG_7kmx-a1-m50-cA 7kmx-a1-m4-cF_7kmx-a1-m5-cF 7kmx-a1-m4-cG_7kmx-a1-m5-cA 7kmx-a1-m51-cA_7kmx-a1-m55-cG 7kmx-a1-m51-cF_7kmx-a1-m52-cF 7kmx-a1-m51-cF_7kmx-a1-m55-cF 7kmx-a1-m51-cG_7kmx-a1-m52-cA 7kmx-a1-m52-cF_7kmx-a1-m53-cF 7kmx-a1-m52-cG_7kmx-a1-m53-cA 7kmx-a1-m53-cF_7kmx-a1-m54-cF 7kmx-a1-m53-cG_7kmx-a1-m54-cA 7kmx-a1-m54-cF_7kmx-a1-m55-cF 7kmx-a1-m54-cG_7kmx-a1-m55-cA 7kmx-a1-m56-cA_7kmx-a1-m60-cG 7kmx-a1-m56-cF_7kmx-a1-m57-cF 7kmx-a1-m56-cF_7kmx-a1-m60-cF 7kmx-a1-m56-cG_7kmx-a1-m57-cA 7kmx-a1-m57-cF_7kmx-a1-m58-cF 7kmx-a1-m57-cG_7kmx-a1-m58-cA 7kmx-a1-m58-cF_7kmx-a1-m59-cF 7kmx-a1-m58-cG_7kmx-a1-m59-cA 7kmx-a1-m59-cF_7kmx-a1-m60-cF 7kmx-a1-m59-cG_7kmx-a1-m60-cA 7kmx-a1-m6-cF_7kmx-a1-m7-cF 7kmx-a1-m6-cG_7kmx-a1-m7-cA 7kmx-a1-m7-cF_7kmx-a1-m8-cF 7kmx-a1-m7-cG_7kmx-a1-m8-cA 7kmx-a1-m8-cF_7kmx-a1-m9-cF 7kmx-a1-m8-cG_7kmx-a1-m9-cA EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m51-cC_7kmx-a1-m9-cD The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 34 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cB_7kmx-a1-m9-cF 7kmx-a1-m10-cC_7kmx-a1-m55-cD 7kmx-a1-m10-cD_7kmx-a1-m25-cC 7kmx-a1-m10-cE_7kmx-a1-m24-cE 7kmx-a1-m10-cF_7kmx-a1-m6-cB 7kmx-a1-m11-cB_7kmx-a1-m15-cF 7kmx-a1-m11-cC_7kmx-a1-m29-cD 7kmx-a1-m11-cD_7kmx-a1-m17-cC 7kmx-a1-m11-cE_7kmx-a1-m16-cE 7kmx-a1-m11-cF_7kmx-a1-m12-cB 7kmx-a1-m12-cC_7kmx-a1-m16-cD 7kmx-a1-m12-cD_7kmx-a1-m39-cC 7kmx-a1-m12-cE_7kmx-a1-m38-cE 7kmx-a1-m12-cF_7kmx-a1-m13-cB 7kmx-a1-m13-cC_7kmx-a1-m38-cD 7kmx-a1-m13-cD_7kmx-a1-m48-cC 7kmx-a1-m13-cE_7kmx-a1-m47-cE 7kmx-a1-m13-cF_7kmx-a1-m14-cB 7kmx-a1-m14-cC_7kmx-a1-m47-cD 7kmx-a1-m14-cD_7kmx-a1-m41-cC 7kmx-a1-m14-cE_7kmx-a1-m45-cE 7kmx-a1-m14-cF_7kmx-a1-m15-cB 7kmx-a1-m15-cC_7kmx-a1-m45-cD 7kmx-a1-m15-cD_7kmx-a1-m30-cC 7kmx-a1-m15-cE_7kmx-a1-m29-cE 7kmx-a1-m16-cB_7kmx-a1-m20-cF 7kmx-a1-m16-cC_7kmx-a1-m39-cD 7kmx-a1-m16-cF_7kmx-a1-m17-cB 7kmx-a1-m17-cD_7kmx-a1-m29-cC 7kmx-a1-m17-cE_7kmx-a1-m28-cE 7kmx-a1-m17-cF_7kmx-a1-m18-cB 7kmx-a1-m18-cC_7kmx-a1-m28-cD 7kmx-a1-m18-cD_7kmx-a1-m53-cC 7kmx-a1-m18-cE_7kmx-a1-m52-cE 7kmx-a1-m18-cF_7kmx-a1-m19-cB 7kmx-a1-m19-cC_7kmx-a1-m52-cD 7kmx-a1-m19-cD_7kmx-a1-m56-cC 7kmx-a1-m19-cE_7kmx-a1-m60-cE 7kmx-a1-m19-cF_7kmx-a1-m20-cB 7kmx-a1-m1-cB_7kmx-a1-m5-cF 7kmx-a1-m1-cC_7kmx-a1-m34-cD 7kmx-a1-m1-cD_7kmx-a1-m7-cC 7kmx-a1-m1-cE_7kmx-a1-m6-cE 7kmx-a1-m1-cF_7kmx-a1-m2-cB 7kmx-a1-m20-cC_7kmx-a1-m60-cD 7kmx-a1-m20-cD_7kmx-a1-m40-cC 7kmx-a1-m20-cE_7kmx-a1-m39-cE 7kmx-a1-m21-cB_7kmx-a1-m25-cF 7kmx-a1-m21-cC_7kmx-a1-m54-cD 7kmx-a1-m21-cD_7kmx-a1-m27-cC 7kmx-a1-m21-cE_7kmx-a1-m26-cE 7kmx-a1-m21-cF_7kmx-a1-m22-cB 7kmx-a1-m22-cC_7kmx-a1-m26-cD 7kmx-a1-m22-cD_7kmx-a1-m44-cC 7kmx-a1-m22-cE_7kmx-a1-m43-cE 7kmx-a1-m22-cF_7kmx-a1-m23-cB 7kmx-a1-m23-cC_7kmx-a1-m43-cD 7kmx-a1-m23-cD_7kmx-a1-m3-cC 7kmx-a1-m23-cF_7kmx-a1-m24-cB 7kmx-a1-m24-cD_7kmx-a1-m6-cC 7kmx-a1-m24-cF_7kmx-a1-m25-cB 7kmx-a1-m25-cD_7kmx-a1-m55-cC 7kmx-a1-m25-cE_7kmx-a1-m54-cE 7kmx-a1-m26-cB_7kmx-a1-m30-cF 7kmx-a1-m26-cC_7kmx-a1-m44-cD 7kmx-a1-m26-cF_7kmx-a1-m27-cB 7kmx-a1-m27-cD_7kmx-a1-m54-cC 7kmx-a1-m27-cE_7kmx-a1-m53-cE 7kmx-a1-m27-cF_7kmx-a1-m28-cB 7kmx-a1-m28-cC_7kmx-a1-m53-cD 7kmx-a1-m28-cF_7kmx-a1-m29-cB 7kmx-a1-m29-cF_7kmx-a1-m30-cB 7kmx-a1-m2-cC_7kmx-a1-m6-cD 7kmx-a1-m2-cD_7kmx-a1-m24-cC 7kmx-a1-m2-cE_7kmx-a1-m23-cE 7kmx-a1-m2-cF_7kmx-a1-m3-cB 7kmx-a1-m30-cD_7kmx-a1-m45-cC 7kmx-a1-m30-cE_7kmx-a1-m44-cE 7kmx-a1-m31-cB_7kmx-a1-m35-cF 7kmx-a1-m31-cC_7kmx-a1-m49-cD 7kmx-a1-m31-cD_7kmx-a1-m37-cC 7kmx-a1-m31-cE_7kmx-a1-m36-cE 7kmx-a1-m31-cF_7kmx-a1-m32-cB 7kmx-a1-m32-cC_7kmx-a1-m36-cD 7kmx-a1-m32-cD_7kmx-a1-m59-cC 7kmx-a1-m32-cE_7kmx-a1-m58-cE 7kmx-a1-m32-cF_7kmx-a1-m33-cB 7kmx-a1-m33-cC_7kmx-a1-m58-cD 7kmx-a1-m33-cD_7kmx-a1-m8-cC 7kmx-a1-m33-cE_7kmx-a1-m7-cE 7kmx-a1-m33-cF_7kmx-a1-m34-cB 7kmx-a1-m34-cC_7kmx-a1-m7-cD 7kmx-a1-m34-cE_7kmx-a1-m5-cE 7kmx-a1-m34-cF_7kmx-a1-m35-cB 7kmx-a1-m35-cC_7kmx-a1-m5-cD 7kmx-a1-m35-cD_7kmx-a1-m50-cC 7kmx-a1-m35-cE_7kmx-a1-m49-cE 7kmx-a1-m36-cB_7kmx-a1-m40-cF 7kmx-a1-m36-cC_7kmx-a1-m59-cD 7kmx-a1-m36-cF_7kmx-a1-m37-cB 7kmx-a1-m37-cD_7kmx-a1-m49-cC 7kmx-a1-m37-cE_7kmx-a1-m48-cE 7kmx-a1-m37-cF_7kmx-a1-m38-cB 7kmx-a1-m38-cC_7kmx-a1-m48-cD 7kmx-a1-m38-cF_7kmx-a1-m39-cB 7kmx-a1-m39-cF_7kmx-a1-m40-cB 7kmx-a1-m3-cD_7kmx-a1-m43-cC 7kmx-a1-m3-cE_7kmx-a1-m42-cE 7kmx-a1-m3-cF_7kmx-a1-m4-cB 7kmx-a1-m40-cD_7kmx-a1-m60-cC 7kmx-a1-m40-cE_7kmx-a1-m59-cE 7kmx-a1-m41-cB_7kmx-a1-m45-cF 7kmx-a1-m41-cD_7kmx-a1-m47-cC 7kmx-a1-m41-cE_7kmx-a1-m46-cE 7kmx-a1-m41-cF_7kmx-a1-m42-cB 7kmx-a1-m42-cC_7kmx-a1-m46-cD 7kmx-a1-m42-cF_7kmx-a1-m43-cB 7kmx-a1-m43-cF_7kmx-a1-m44-cB 7kmx-a1-m44-cF_7kmx-a1-m45-cB 7kmx-a1-m46-cB_7kmx-a1-m50-cF 7kmx-a1-m46-cF_7kmx-a1-m47-cB 7kmx-a1-m47-cF_7kmx-a1-m48-cB 7kmx-a1-m48-cF_7kmx-a1-m49-cB 7kmx-a1-m49-cF_7kmx-a1-m50-cB 7kmx-a1-m4-cC_7kmx-a1-m42-cD 7kmx-a1-m4-cD_7kmx-a1-m46-cC 7kmx-a1-m4-cE_7kmx-a1-m50-cE 7kmx-a1-m4-cF_7kmx-a1-m5-cB 7kmx-a1-m51-cB_7kmx-a1-m55-cF 7kmx-a1-m51-cD_7kmx-a1-m57-cC 7kmx-a1-m51-cE_7kmx-a1-m56-cE 7kmx-a1-m51-cF_7kmx-a1-m52-cB 7kmx-a1-m52-cC_7kmx-a1-m56-cD 7kmx-a1-m52-cF_7kmx-a1-m53-cB 7kmx-a1-m53-cF_7kmx-a1-m54-cB 7kmx-a1-m54-cF_7kmx-a1-m55-cB 7kmx-a1-m55-cE_7kmx-a1-m9-cE 7kmx-a1-m56-cB_7kmx-a1-m60-cF 7kmx-a1-m56-cF_7kmx-a1-m57-cB 7kmx-a1-m57-cD_7kmx-a1-m9-cC 7kmx-a1-m57-cE_7kmx-a1-m8-cE 7kmx-a1-m57-cF_7kmx-a1-m58-cB 7kmx-a1-m58-cC_7kmx-a1-m8-cD 7kmx-a1-m58-cF_7kmx-a1-m59-cB 7kmx-a1-m59-cF_7kmx-a1-m60-cB 7kmx-a1-m5-cC_7kmx-a1-m50-cD 7kmx-a1-m6-cF_7kmx-a1-m7-cB 7kmx-a1-m7-cF_7kmx-a1-m8-cB 7kmx-a1-m8-cF_7kmx-a1-m9-cB EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m57-cB_7kmx-a1-m9-cC The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 12 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cA_7kmx-a1-m55-cD 7kmx-a1-m10-cB_7kmx-a1-m25-cC 7kmx-a1-m10-cC_7kmx-a1-m24-cE 7kmx-a1-m10-cC_7kmx-a1-m55-cB 7kmx-a1-m10-cD_7kmx-a1-m25-cA 7kmx-a1-m10-cE_7kmx-a1-m24-cC 7kmx-a1-m10-cE_7kmx-a1-m6-cG 7kmx-a1-m10-cG_7kmx-a1-m9-cE 7kmx-a1-m11-cA_7kmx-a1-m29-cD 7kmx-a1-m11-cB_7kmx-a1-m17-cC 7kmx-a1-m11-cC_7kmx-a1-m16-cE 7kmx-a1-m11-cC_7kmx-a1-m29-cB 7kmx-a1-m11-cD_7kmx-a1-m17-cA 7kmx-a1-m11-cE_7kmx-a1-m12-cG 7kmx-a1-m11-cE_7kmx-a1-m16-cC 7kmx-a1-m11-cG_7kmx-a1-m15-cE 7kmx-a1-m12-cA_7kmx-a1-m16-cD 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EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m57-cC_7kmx-a1-m9-cC The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 46 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cA_7kmx-a1-m10-cG 7kmx-a1-m10-cA_7kmx-a1-m9-cF 7kmx-a1-m10-cB_7kmx-a1-m55-cD 7kmx-a1-m10-cB_7kmx-a1-m9-cE 7kmx-a1-m10-cC_7kmx-a1-m25-cC 7kmx-a1-m10-cC_7kmx-a1-m55-cC 7kmx-a1-m10-cD_7kmx-a1-m24-cE 7kmx-a1-m10-cD_7kmx-a1-m25-cB 7kmx-a1-m10-cE_7kmx-a1-m24-cD 7kmx-a1-m10-cE_7kmx-a1-m6-cB 7kmx-a1-m10-cF_7kmx-a1-m6-cA 7kmx-a1-m10-cF_7kmx-a1-m6-cG 7kmx-a1-m10-cG_7kmx-a1-m9-cF 7kmx-a1-m11-cA_7kmx-a1-m11-cG 7kmx-a1-m11-cA_7kmx-a1-m15-cF 7kmx-a1-m11-cB_7kmx-a1-m15-cE 7kmx-a1-m11-cB_7kmx-a1-m29-cD 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7kmx-a1-m51-cA_7kmx-a1-m51-cG 7kmx-a1-m51-cA_7kmx-a1-m55-cF 7kmx-a1-m51-cB_7kmx-a1-m55-cE 7kmx-a1-m51-cB_7kmx-a1-m9-cD 7kmx-a1-m51-cC_7kmx-a1-m57-cC 7kmx-a1-m51-cC_7kmx-a1-m9-cC 7kmx-a1-m51-cD_7kmx-a1-m56-cE 7kmx-a1-m51-cD_7kmx-a1-m57-cB 7kmx-a1-m51-cE_7kmx-a1-m52-cB 7kmx-a1-m51-cE_7kmx-a1-m56-cD 7kmx-a1-m51-cF_7kmx-a1-m52-cA 7kmx-a1-m51-cF_7kmx-a1-m52-cG 7kmx-a1-m51-cG_7kmx-a1-m55-cF 7kmx-a1-m52-cA_7kmx-a1-m52-cG 7kmx-a1-m52-cB_7kmx-a1-m56-cD 7kmx-a1-m52-cC_7kmx-a1-m56-cC 7kmx-a1-m52-cE_7kmx-a1-m53-cB 7kmx-a1-m52-cF_7kmx-a1-m53-cA 7kmx-a1-m52-cF_7kmx-a1-m53-cG 7kmx-a1-m53-cA_7kmx-a1-m53-cG 7kmx-a1-m53-cE_7kmx-a1-m54-cB 7kmx-a1-m53-cF_7kmx-a1-m54-cA 7kmx-a1-m53-cF_7kmx-a1-m54-cG 7kmx-a1-m54-cA_7kmx-a1-m54-cG 7kmx-a1-m54-cE_7kmx-a1-m55-cB 7kmx-a1-m54-cF_7kmx-a1-m55-cA 7kmx-a1-m54-cF_7kmx-a1-m55-cG 7kmx-a1-m55-cA_7kmx-a1-m55-cG 7kmx-a1-m55-cD_7kmx-a1-m9-cE 7kmx-a1-m55-cE_7kmx-a1-m9-cD 7kmx-a1-m56-cA_7kmx-a1-m56-cG 7kmx-a1-m56-cA_7kmx-a1-m60-cF 7kmx-a1-m56-cB_7kmx-a1-m60-cE 7kmx-a1-m56-cE_7kmx-a1-m57-cB 7kmx-a1-m56-cF_7kmx-a1-m57-cA 7kmx-a1-m56-cF_7kmx-a1-m57-cG 7kmx-a1-m56-cG_7kmx-a1-m60-cF 7kmx-a1-m57-cA_7kmx-a1-m57-cG 7kmx-a1-m57-cD_7kmx-a1-m8-cE 7kmx-a1-m57-cD_7kmx-a1-m9-cB 7kmx-a1-m57-cE_7kmx-a1-m58-cB 7kmx-a1-m57-cE_7kmx-a1-m8-cD 7kmx-a1-m57-cF_7kmx-a1-m58-cA 7kmx-a1-m57-cF_7kmx-a1-m58-cG 7kmx-a1-m58-cA_7kmx-a1-m58-cG 7kmx-a1-m58-cB_7kmx-a1-m8-cD 7kmx-a1-m58-cC_7kmx-a1-m8-cC 7kmx-a1-m58-cE_7kmx-a1-m59-cB 7kmx-a1-m58-cF_7kmx-a1-m59-cA 7kmx-a1-m58-cF_7kmx-a1-m59-cG 7kmx-a1-m59-cA_7kmx-a1-m59-cG 7kmx-a1-m59-cE_7kmx-a1-m60-cB 7kmx-a1-m59-cF_7kmx-a1-m60-cA 7kmx-a1-m59-cF_7kmx-a1-m60-cG 7kmx-a1-m5-cA_7kmx-a1-m5-cG 7kmx-a1-m5-cB_7kmx-a1-m50-cD 7kmx-a1-m5-cC_7kmx-a1-m50-cC 7kmx-a1-m60-cA_7kmx-a1-m60-cG 7kmx-a1-m6-cA_7kmx-a1-m6-cG 7kmx-a1-m6-cE_7kmx-a1-m7-cB 7kmx-a1-m6-cF_7kmx-a1-m7-cA 7kmx-a1-m6-cF_7kmx-a1-m7-cG 7kmx-a1-m7-cA_7kmx-a1-m7-cG 7kmx-a1-m7-cE_7kmx-a1-m8-cB 7kmx-a1-m7-cF_7kmx-a1-m8-cA 7kmx-a1-m7-cF_7kmx-a1-m8-cG 7kmx-a1-m8-cA_7kmx-a1-m8-cG 7kmx-a1-m8-cE_7kmx-a1-m9-cB 7kmx-a1-m8-cF_7kmx-a1-m9-cA 7kmx-a1-m8-cF_7kmx-a1-m9-cG 7kmx-a1-m9-cA_7kmx-a1-m9-cG EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m8-cA_7kmx-a1-m9-cG The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 37 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cA_7kmx-a1-m6-cG 7kmx-a1-m10-cG_7kmx-a1-m9-cA 7kmx-a1-m11-cA_7kmx-a1-m12-cG 7kmx-a1-m11-cG_7kmx-a1-m15-cA 7kmx-a1-m12-cA_7kmx-a1-m13-cG 7kmx-a1-m13-cA_7kmx-a1-m14-cG 7kmx-a1-m14-cA_7kmx-a1-m15-cG 7kmx-a1-m16-cA_7kmx-a1-m17-cG 7kmx-a1-m16-cG_7kmx-a1-m20-cA 7kmx-a1-m17-cA_7kmx-a1-m18-cG 7kmx-a1-m18-cA_7kmx-a1-m19-cG 7kmx-a1-m19-cA_7kmx-a1-m20-cG 7kmx-a1-m1-cA_7kmx-a1-m2-cG 7kmx-a1-m1-cG_7kmx-a1-m5-cA 7kmx-a1-m21-cA_7kmx-a1-m22-cG 7kmx-a1-m21-cG_7kmx-a1-m25-cA 7kmx-a1-m22-cA_7kmx-a1-m23-cG 7kmx-a1-m23-cA_7kmx-a1-m24-cG 7kmx-a1-m24-cA_7kmx-a1-m25-cG 7kmx-a1-m26-cA_7kmx-a1-m27-cG 7kmx-a1-m26-cG_7kmx-a1-m30-cA 7kmx-a1-m27-cA_7kmx-a1-m28-cG 7kmx-a1-m28-cA_7kmx-a1-m29-cG 7kmx-a1-m29-cA_7kmx-a1-m30-cG 7kmx-a1-m2-cA_7kmx-a1-m3-cG 7kmx-a1-m31-cA_7kmx-a1-m32-cG 7kmx-a1-m31-cG_7kmx-a1-m35-cA 7kmx-a1-m32-cA_7kmx-a1-m33-cG 7kmx-a1-m33-cA_7kmx-a1-m34-cG 7kmx-a1-m34-cA_7kmx-a1-m35-cG 7kmx-a1-m36-cA_7kmx-a1-m37-cG 7kmx-a1-m36-cG_7kmx-a1-m40-cA 7kmx-a1-m37-cA_7kmx-a1-m38-cG 7kmx-a1-m38-cA_7kmx-a1-m39-cG 7kmx-a1-m39-cA_7kmx-a1-m40-cG 7kmx-a1-m3-cA_7kmx-a1-m4-cG 7kmx-a1-m41-cA_7kmx-a1-m42-cG 7kmx-a1-m41-cG_7kmx-a1-m45-cA 7kmx-a1-m42-cA_7kmx-a1-m43-cG 7kmx-a1-m43-cA_7kmx-a1-m44-cG 7kmx-a1-m44-cA_7kmx-a1-m45-cG 7kmx-a1-m46-cA_7kmx-a1-m47-cG 7kmx-a1-m46-cG_7kmx-a1-m50-cA 7kmx-a1-m47-cA_7kmx-a1-m48-cG 7kmx-a1-m48-cA_7kmx-a1-m49-cG 7kmx-a1-m49-cA_7kmx-a1-m50-cG 7kmx-a1-m4-cA_7kmx-a1-m5-cG 7kmx-a1-m51-cA_7kmx-a1-m52-cG 7kmx-a1-m51-cG_7kmx-a1-m55-cA 7kmx-a1-m52-cA_7kmx-a1-m53-cG 7kmx-a1-m53-cA_7kmx-a1-m54-cG 7kmx-a1-m54-cA_7kmx-a1-m55-cG 7kmx-a1-m56-cA_7kmx-a1-m57-cG 7kmx-a1-m56-cG_7kmx-a1-m60-cA 7kmx-a1-m57-cA_7kmx-a1-m58-cG 7kmx-a1-m58-cA_7kmx-a1-m59-cG 7kmx-a1-m59-cA_7kmx-a1-m60-cG 7kmx-a1-m6-cA_7kmx-a1-m7-cG 7kmx-a1-m7-cA_7kmx-a1-m8-cG EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m8-cG_7kmx-a1-m9-cG The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 183 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cA_7kmx-a1-m10-cF 7kmx-a1-m10-cG_7kmx-a1-m6-cG 7kmx-a1-m10-cG_7kmx-a1-m9-cG 7kmx-a1-m11-cA_7kmx-a1-m11-cF 7kmx-a1-m11-cG_7kmx-a1-m12-cG 7kmx-a1-m11-cG_7kmx-a1-m15-cG 7kmx-a1-m12-cA_7kmx-a1-m12-cF 7kmx-a1-m12-cG_7kmx-a1-m13-cG 7kmx-a1-m13-cA_7kmx-a1-m13-cF 7kmx-a1-m13-cG_7kmx-a1-m14-cG 7kmx-a1-m14-cA_7kmx-a1-m14-cF 7kmx-a1-m14-cG_7kmx-a1-m15-cG 7kmx-a1-m15-cA_7kmx-a1-m15-cF 7kmx-a1-m16-cA_7kmx-a1-m16-cF 7kmx-a1-m16-cG_7kmx-a1-m17-cG 7kmx-a1-m16-cG_7kmx-a1-m20-cG 7kmx-a1-m17-cA_7kmx-a1-m17-cF 7kmx-a1-m17-cG_7kmx-a1-m18-cG 7kmx-a1-m18-cA_7kmx-a1-m18-cF 7kmx-a1-m18-cG_7kmx-a1-m19-cG 7kmx-a1-m19-cA_7kmx-a1-m19-cF 7kmx-a1-m19-cG_7kmx-a1-m20-cG 7kmx-a1-m1-cA_7kmx-a1-m1-cF 7kmx-a1-m1-cG_7kmx-a1-m2-cG 7kmx-a1-m1-cG_7kmx-a1-m5-cG 7kmx-a1-m20-cA_7kmx-a1-m20-cF 7kmx-a1-m21-cA_7kmx-a1-m21-cF 7kmx-a1-m21-cG_7kmx-a1-m22-cG 7kmx-a1-m21-cG_7kmx-a1-m25-cG 7kmx-a1-m22-cA_7kmx-a1-m22-cF 7kmx-a1-m22-cG_7kmx-a1-m23-cG 7kmx-a1-m23-cA_7kmx-a1-m23-cF 7kmx-a1-m23-cG_7kmx-a1-m24-cG 7kmx-a1-m24-cA_7kmx-a1-m24-cF 7kmx-a1-m24-cG_7kmx-a1-m25-cG 7kmx-a1-m25-cA_7kmx-a1-m25-cF 7kmx-a1-m26-cA_7kmx-a1-m26-cF 7kmx-a1-m26-cG_7kmx-a1-m27-cG 7kmx-a1-m26-cG_7kmx-a1-m30-cG 7kmx-a1-m27-cA_7kmx-a1-m27-cF 7kmx-a1-m27-cG_7kmx-a1-m28-cG 7kmx-a1-m28-cA_7kmx-a1-m28-cF 7kmx-a1-m28-cG_7kmx-a1-m29-cG 7kmx-a1-m29-cA_7kmx-a1-m29-cF 7kmx-a1-m29-cG_7kmx-a1-m30-cG 7kmx-a1-m2-cA_7kmx-a1-m2-cF 7kmx-a1-m2-cG_7kmx-a1-m3-cG 7kmx-a1-m30-cA_7kmx-a1-m30-cF 7kmx-a1-m31-cA_7kmx-a1-m31-cF 7kmx-a1-m31-cG_7kmx-a1-m32-cG 7kmx-a1-m31-cG_7kmx-a1-m35-cG 7kmx-a1-m32-cA_7kmx-a1-m32-cF 7kmx-a1-m32-cG_7kmx-a1-m33-cG 7kmx-a1-m33-cA_7kmx-a1-m33-cF 7kmx-a1-m33-cG_7kmx-a1-m34-cG 7kmx-a1-m34-cA_7kmx-a1-m34-cF 7kmx-a1-m34-cG_7kmx-a1-m35-cG 7kmx-a1-m35-cA_7kmx-a1-m35-cF 7kmx-a1-m36-cA_7kmx-a1-m36-cF 7kmx-a1-m36-cG_7kmx-a1-m37-cG 7kmx-a1-m36-cG_7kmx-a1-m40-cG 7kmx-a1-m37-cA_7kmx-a1-m37-cF 7kmx-a1-m37-cG_7kmx-a1-m38-cG 7kmx-a1-m38-cA_7kmx-a1-m38-cF 7kmx-a1-m38-cG_7kmx-a1-m39-cG 7kmx-a1-m39-cA_7kmx-a1-m39-cF 7kmx-a1-m39-cG_7kmx-a1-m40-cG 7kmx-a1-m3-cA_7kmx-a1-m3-cF 7kmx-a1-m3-cG_7kmx-a1-m4-cG 7kmx-a1-m40-cA_7kmx-a1-m40-cF 7kmx-a1-m41-cA_7kmx-a1-m41-cF 7kmx-a1-m41-cG_7kmx-a1-m42-cG 7kmx-a1-m41-cG_7kmx-a1-m45-cG 7kmx-a1-m42-cA_7kmx-a1-m42-cF 7kmx-a1-m42-cG_7kmx-a1-m43-cG 7kmx-a1-m43-cA_7kmx-a1-m43-cF 7kmx-a1-m43-cG_7kmx-a1-m44-cG 7kmx-a1-m44-cA_7kmx-a1-m44-cF 7kmx-a1-m44-cG_7kmx-a1-m45-cG 7kmx-a1-m45-cA_7kmx-a1-m45-cF 7kmx-a1-m46-cA_7kmx-a1-m46-cF 7kmx-a1-m46-cG_7kmx-a1-m47-cG 7kmx-a1-m46-cG_7kmx-a1-m50-cG 7kmx-a1-m47-cA_7kmx-a1-m47-cF 7kmx-a1-m47-cG_7kmx-a1-m48-cG 7kmx-a1-m48-cA_7kmx-a1-m48-cF 7kmx-a1-m48-cG_7kmx-a1-m49-cG 7kmx-a1-m49-cA_7kmx-a1-m49-cF 7kmx-a1-m49-cG_7kmx-a1-m50-cG 7kmx-a1-m4-cA_7kmx-a1-m4-cF 7kmx-a1-m4-cG_7kmx-a1-m5-cG 7kmx-a1-m50-cA_7kmx-a1-m50-cF 7kmx-a1-m51-cA_7kmx-a1-m51-cF 7kmx-a1-m51-cG_7kmx-a1-m52-cG 7kmx-a1-m51-cG_7kmx-a1-m55-cG 7kmx-a1-m52-cA_7kmx-a1-m52-cF 7kmx-a1-m52-cG_7kmx-a1-m53-cG 7kmx-a1-m53-cA_7kmx-a1-m53-cF 7kmx-a1-m53-cG_7kmx-a1-m54-cG 7kmx-a1-m54-cA_7kmx-a1-m54-cF 7kmx-a1-m54-cG_7kmx-a1-m55-cG 7kmx-a1-m55-cA_7kmx-a1-m55-cF 7kmx-a1-m56-cA_7kmx-a1-m56-cF 7kmx-a1-m56-cG_7kmx-a1-m57-cG 7kmx-a1-m56-cG_7kmx-a1-m60-cG 7kmx-a1-m57-cA_7kmx-a1-m57-cF 7kmx-a1-m57-cG_7kmx-a1-m58-cG 7kmx-a1-m58-cA_7kmx-a1-m58-cF 7kmx-a1-m58-cG_7kmx-a1-m59-cG 7kmx-a1-m59-cA_7kmx-a1-m59-cF 7kmx-a1-m59-cG_7kmx-a1-m60-cG 7kmx-a1-m5-cA_7kmx-a1-m5-cF 7kmx-a1-m60-cA_7kmx-a1-m60-cF 7kmx-a1-m6-cA_7kmx-a1-m6-cF 7kmx-a1-m6-cG_7kmx-a1-m7-cG 7kmx-a1-m7-cA_7kmx-a1-m7-cF 7kmx-a1-m7-cG_7kmx-a1-m8-cG 7kmx-a1-m8-cA_7kmx-a1-m8-cF 7kmx-a1-m9-cA_7kmx-a1-m9-cF EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m9-cB_7kmx-a1-m9-cC The capsid of Myoviridae Phage XM1 A0A7D7J3A3 A0A7D7J3A3 3.2 ELECTRON MICROSCOPY 168 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 294 294 7kmx-a1-m10-cA_7kmx-a1-m10-cB 7kmx-a1-m10-cB_7kmx-a1-m10-cC 7kmx-a1-m10-cC_7kmx-a1-m10-cD 7kmx-a1-m10-cD_7kmx-a1-m10-cE 7kmx-a1-m10-cE_7kmx-a1-m10-cF 7kmx-a1-m11-cA_7kmx-a1-m11-cB 7kmx-a1-m11-cB_7kmx-a1-m11-cC 7kmx-a1-m11-cC_7kmx-a1-m11-cD 7kmx-a1-m11-cD_7kmx-a1-m11-cE 7kmx-a1-m11-cE_7kmx-a1-m11-cF 7kmx-a1-m12-cA_7kmx-a1-m12-cB 7kmx-a1-m12-cB_7kmx-a1-m12-cC 7kmx-a1-m12-cC_7kmx-a1-m12-cD 7kmx-a1-m12-cD_7kmx-a1-m12-cE 7kmx-a1-m12-cE_7kmx-a1-m12-cF 7kmx-a1-m13-cA_7kmx-a1-m13-cB 7kmx-a1-m13-cB_7kmx-a1-m13-cC 7kmx-a1-m13-cC_7kmx-a1-m13-cD 7kmx-a1-m13-cD_7kmx-a1-m13-cE 7kmx-a1-m13-cE_7kmx-a1-m13-cF 7kmx-a1-m14-cA_7kmx-a1-m14-cB 7kmx-a1-m14-cB_7kmx-a1-m14-cC 7kmx-a1-m14-cC_7kmx-a1-m14-cD 7kmx-a1-m14-cD_7kmx-a1-m14-cE 7kmx-a1-m14-cE_7kmx-a1-m14-cF 7kmx-a1-m15-cA_7kmx-a1-m15-cB 7kmx-a1-m15-cB_7kmx-a1-m15-cC 7kmx-a1-m15-cC_7kmx-a1-m15-cD 7kmx-a1-m15-cD_7kmx-a1-m15-cE 7kmx-a1-m15-cE_7kmx-a1-m15-cF 7kmx-a1-m16-cA_7kmx-a1-m16-cB 7kmx-a1-m16-cB_7kmx-a1-m16-cC 7kmx-a1-m16-cC_7kmx-a1-m16-cD 7kmx-a1-m16-cD_7kmx-a1-m16-cE 7kmx-a1-m16-cE_7kmx-a1-m16-cF 7kmx-a1-m17-cA_7kmx-a1-m17-cB 7kmx-a1-m17-cB_7kmx-a1-m17-cC 7kmx-a1-m17-cC_7kmx-a1-m17-cD 7kmx-a1-m17-cD_7kmx-a1-m17-cE 7kmx-a1-m17-cE_7kmx-a1-m17-cF 7kmx-a1-m18-cA_7kmx-a1-m18-cB 7kmx-a1-m18-cB_7kmx-a1-m18-cC 7kmx-a1-m18-cC_7kmx-a1-m18-cD 7kmx-a1-m18-cD_7kmx-a1-m18-cE 7kmx-a1-m18-cE_7kmx-a1-m18-cF 7kmx-a1-m19-cA_7kmx-a1-m19-cB 7kmx-a1-m19-cB_7kmx-a1-m19-cC 7kmx-a1-m19-cC_7kmx-a1-m19-cD 7kmx-a1-m19-cD_7kmx-a1-m19-cE 7kmx-a1-m19-cE_7kmx-a1-m19-cF 7kmx-a1-m1-cA_7kmx-a1-m1-cB 7kmx-a1-m1-cB_7kmx-a1-m1-cC 7kmx-a1-m1-cC_7kmx-a1-m1-cD 7kmx-a1-m1-cD_7kmx-a1-m1-cE 7kmx-a1-m1-cE_7kmx-a1-m1-cF 7kmx-a1-m20-cA_7kmx-a1-m20-cB 7kmx-a1-m20-cB_7kmx-a1-m20-cC 7kmx-a1-m20-cC_7kmx-a1-m20-cD 7kmx-a1-m20-cD_7kmx-a1-m20-cE 7kmx-a1-m20-cE_7kmx-a1-m20-cF 7kmx-a1-m21-cA_7kmx-a1-m21-cB 7kmx-a1-m21-cB_7kmx-a1-m21-cC 7kmx-a1-m21-cC_7kmx-a1-m21-cD 7kmx-a1-m21-cD_7kmx-a1-m21-cE 7kmx-a1-m21-cE_7kmx-a1-m21-cF 7kmx-a1-m22-cA_7kmx-a1-m22-cB 7kmx-a1-m22-cB_7kmx-a1-m22-cC 7kmx-a1-m22-cC_7kmx-a1-m22-cD 7kmx-a1-m22-cD_7kmx-a1-m22-cE 7kmx-a1-m22-cE_7kmx-a1-m22-cF 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7kmx-a1-m53-cA_7kmx-a1-m53-cB 7kmx-a1-m53-cB_7kmx-a1-m53-cC 7kmx-a1-m53-cC_7kmx-a1-m53-cD 7kmx-a1-m53-cD_7kmx-a1-m53-cE 7kmx-a1-m53-cE_7kmx-a1-m53-cF 7kmx-a1-m54-cA_7kmx-a1-m54-cB 7kmx-a1-m54-cB_7kmx-a1-m54-cC 7kmx-a1-m54-cC_7kmx-a1-m54-cD 7kmx-a1-m54-cD_7kmx-a1-m54-cE 7kmx-a1-m54-cE_7kmx-a1-m54-cF 7kmx-a1-m55-cA_7kmx-a1-m55-cB 7kmx-a1-m55-cB_7kmx-a1-m55-cC 7kmx-a1-m55-cC_7kmx-a1-m55-cD 7kmx-a1-m55-cD_7kmx-a1-m55-cE 7kmx-a1-m55-cE_7kmx-a1-m55-cF 7kmx-a1-m56-cA_7kmx-a1-m56-cB 7kmx-a1-m56-cB_7kmx-a1-m56-cC 7kmx-a1-m56-cC_7kmx-a1-m56-cD 7kmx-a1-m56-cD_7kmx-a1-m56-cE 7kmx-a1-m56-cE_7kmx-a1-m56-cF 7kmx-a1-m57-cA_7kmx-a1-m57-cB 7kmx-a1-m57-cB_7kmx-a1-m57-cC 7kmx-a1-m57-cC_7kmx-a1-m57-cD 7kmx-a1-m57-cD_7kmx-a1-m57-cE 7kmx-a1-m57-cE_7kmx-a1-m57-cF 7kmx-a1-m58-cA_7kmx-a1-m58-cB 7kmx-a1-m58-cB_7kmx-a1-m58-cC 7kmx-a1-m58-cC_7kmx-a1-m58-cD 7kmx-a1-m58-cD_7kmx-a1-m58-cE 7kmx-a1-m58-cE_7kmx-a1-m58-cF 7kmx-a1-m59-cA_7kmx-a1-m59-cB 7kmx-a1-m59-cB_7kmx-a1-m59-cC 7kmx-a1-m59-cC_7kmx-a1-m59-cD 7kmx-a1-m59-cD_7kmx-a1-m59-cE 7kmx-a1-m59-cE_7kmx-a1-m59-cF 7kmx-a1-m5-cA_7kmx-a1-m5-cB 7kmx-a1-m5-cB_7kmx-a1-m5-cC 7kmx-a1-m5-cC_7kmx-a1-m5-cD 7kmx-a1-m5-cD_7kmx-a1-m5-cE 7kmx-a1-m5-cE_7kmx-a1-m5-cF 7kmx-a1-m60-cA_7kmx-a1-m60-cB 7kmx-a1-m60-cB_7kmx-a1-m60-cC 7kmx-a1-m60-cC_7kmx-a1-m60-cD 7kmx-a1-m60-cD_7kmx-a1-m60-cE 7kmx-a1-m60-cE_7kmx-a1-m60-cF 7kmx-a1-m6-cA_7kmx-a1-m6-cB 7kmx-a1-m6-cB_7kmx-a1-m6-cC 7kmx-a1-m6-cC_7kmx-a1-m6-cD 7kmx-a1-m6-cD_7kmx-a1-m6-cE 7kmx-a1-m6-cE_7kmx-a1-m6-cF 7kmx-a1-m7-cA_7kmx-a1-m7-cB 7kmx-a1-m7-cB_7kmx-a1-m7-cC 7kmx-a1-m7-cC_7kmx-a1-m7-cD 7kmx-a1-m7-cD_7kmx-a1-m7-cE 7kmx-a1-m7-cE_7kmx-a1-m7-cF 7kmx-a1-m8-cA_7kmx-a1-m8-cB 7kmx-a1-m8-cB_7kmx-a1-m8-cC 7kmx-a1-m8-cC_7kmx-a1-m8-cD 7kmx-a1-m8-cD_7kmx-a1-m8-cE 7kmx-a1-m8-cE_7kmx-a1-m8-cF 7kmx-a1-m9-cA_7kmx-a1-m9-cB 7kmx-a1-m9-cC_7kmx-a1-m9-cD 7kmx-a1-m9-cD_7kmx-a1-m9-cE 7kmx-a1-m9-cE_7kmx-a1-m9-cF EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL EGGIILARNLEHVSSEIFTQEFAGLTFLQGGIVVNNEGGYATSVTKLKLKAEGGFRESGNDTNTTGKITLSGESDSIPVFTLEGESDWSEIELKQAELQNVNLPSRYFEAHAELYNRKIDELGYLGQTRTDGTQKTLGLLNYGFVASGAGDTAANLSGDNLYQAIADLITDQWAGVFNVETYKADRVVMPDTVYNICAKKILNSNGSEMSVLRALMTNFPTVTFGLTTKARDVGGTSRTTAYSSNRRAMQMRIPTPLNVSSVDQRGFKYYVESYFGVAGLDVIEDTAGRHLTGL 7kmx-a1-m9-cb_7kmx-a1-m9-cc The capsid of Myoviridae Phage XM1 A0A7D7FKF5 A0A7D7FKF5 3.2 ELECTRON MICROSCOPY 23 1.0 2748688 (Vibrio phage XM1) 2748688 (Vibrio phage XM1) 160 160 7kmx-a1-m10-ca_7kmx-a1-m10-cb 7kmx-a1-m10-ca_7kmx-a1-m10-cc 7kmx-a1-m10-cb_7kmx-a1-m10-cc 7kmx-a1-m10-cd_7kmx-a1-m10-ce 7kmx-a1-m10-cd_7kmx-a1-m10-cf 7kmx-a1-m10-ce_7kmx-a1-m10-cf 7kmx-a1-m10-cg_7kmx-a1-m25-cg 7kmx-a1-m10-cg_7kmx-a1-m55-cg 7kmx-a1-m11-ca_7kmx-a1-m11-cb 7kmx-a1-m11-ca_7kmx-a1-m11-cc 7kmx-a1-m11-cb_7kmx-a1-m11-cc 7kmx-a1-m11-cd_7kmx-a1-m11-ce 7kmx-a1-m11-cd_7kmx-a1-m11-cf 7kmx-a1-m11-ce_7kmx-a1-m11-cf 7kmx-a1-m11-cg_7kmx-a1-m17-cg 7kmx-a1-m11-cg_7kmx-a1-m29-cg 7kmx-a1-m12-ca_7kmx-a1-m12-cb 7kmx-a1-m12-ca_7kmx-a1-m12-cc 7kmx-a1-m12-cb_7kmx-a1-m12-cc 7kmx-a1-m12-cd_7kmx-a1-m12-ce 7kmx-a1-m12-cd_7kmx-a1-m12-cf 7kmx-a1-m12-ce_7kmx-a1-m12-cf 7kmx-a1-m12-cg_7kmx-a1-m16-cg 7kmx-a1-m12-cg_7kmx-a1-m39-cg 7kmx-a1-m13-ca_7kmx-a1-m13-cb 7kmx-a1-m13-ca_7kmx-a1-m13-cc 7kmx-a1-m13-cb_7kmx-a1-m13-cc 7kmx-a1-m13-cd_7kmx-a1-m13-ce 7kmx-a1-m13-cd_7kmx-a1-m13-cf 7kmx-a1-m13-ce_7kmx-a1-m13-cf 7kmx-a1-m13-cg_7kmx-a1-m38-cg 7kmx-a1-m13-cg_7kmx-a1-m48-cg 7kmx-a1-m14-ca_7kmx-a1-m14-cb 7kmx-a1-m14-ca_7kmx-a1-m14-cc 7kmx-a1-m14-cb_7kmx-a1-m14-cc 7kmx-a1-m14-cd_7kmx-a1-m14-ce 7kmx-a1-m14-cd_7kmx-a1-m14-cf 7kmx-a1-m14-ce_7kmx-a1-m14-cf 7kmx-a1-m14-cg_7kmx-a1-m41-cg 7kmx-a1-m14-cg_7kmx-a1-m47-cg 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7kmx-a1-m49-ca_7kmx-a1-m49-cb 7kmx-a1-m49-ca_7kmx-a1-m49-cc 7kmx-a1-m49-cb_7kmx-a1-m49-cc 7kmx-a1-m49-cd_7kmx-a1-m49-ce 7kmx-a1-m49-cd_7kmx-a1-m49-cf 7kmx-a1-m49-ce_7kmx-a1-m49-cf 7kmx-a1-m4-ca_7kmx-a1-m4-cb 7kmx-a1-m4-ca_7kmx-a1-m4-cc 7kmx-a1-m4-cb_7kmx-a1-m4-cc 7kmx-a1-m4-cd_7kmx-a1-m4-ce 7kmx-a1-m4-cd_7kmx-a1-m4-cf 7kmx-a1-m4-ce_7kmx-a1-m4-cf 7kmx-a1-m4-cg_7kmx-a1-m42-cg 7kmx-a1-m4-cg_7kmx-a1-m46-cg 7kmx-a1-m50-ca_7kmx-a1-m50-cb 7kmx-a1-m50-ca_7kmx-a1-m50-cc 7kmx-a1-m50-cb_7kmx-a1-m50-cc 7kmx-a1-m50-cd_7kmx-a1-m50-ce 7kmx-a1-m50-cd_7kmx-a1-m50-cf 7kmx-a1-m50-ce_7kmx-a1-m50-cf 7kmx-a1-m51-ca_7kmx-a1-m51-cb 7kmx-a1-m51-ca_7kmx-a1-m51-cc 7kmx-a1-m51-cb_7kmx-a1-m51-cc 7kmx-a1-m51-cd_7kmx-a1-m51-ce 7kmx-a1-m51-cd_7kmx-a1-m51-cf 7kmx-a1-m51-ce_7kmx-a1-m51-cf 7kmx-a1-m51-cg_7kmx-a1-m57-cg 7kmx-a1-m51-cg_7kmx-a1-m9-cg 7kmx-a1-m52-ca_7kmx-a1-m52-cb 7kmx-a1-m52-ca_7kmx-a1-m52-cc 7kmx-a1-m52-cb_7kmx-a1-m52-cc 7kmx-a1-m52-cd_7kmx-a1-m52-ce 7kmx-a1-m52-cd_7kmx-a1-m52-cf 7kmx-a1-m52-ce_7kmx-a1-m52-cf 7kmx-a1-m52-cg_7kmx-a1-m56-cg 7kmx-a1-m53-ca_7kmx-a1-m53-cb 7kmx-a1-m53-ca_7kmx-a1-m53-cc 7kmx-a1-m53-cb_7kmx-a1-m53-cc 7kmx-a1-m53-cd_7kmx-a1-m53-ce 7kmx-a1-m53-cd_7kmx-a1-m53-cf 7kmx-a1-m53-ce_7kmx-a1-m53-cf 7kmx-a1-m54-ca_7kmx-a1-m54-cb 7kmx-a1-m54-ca_7kmx-a1-m54-cc 7kmx-a1-m54-cb_7kmx-a1-m54-cc 7kmx-a1-m54-cd_7kmx-a1-m54-ce 7kmx-a1-m54-cd_7kmx-a1-m54-cf 7kmx-a1-m54-ce_7kmx-a1-m54-cf 7kmx-a1-m55-ca_7kmx-a1-m55-cb 7kmx-a1-m55-ca_7kmx-a1-m55-cc 7kmx-a1-m55-cb_7kmx-a1-m55-cc 7kmx-a1-m55-cd_7kmx-a1-m55-ce 7kmx-a1-m55-cd_7kmx-a1-m55-cf 7kmx-a1-m55-ce_7kmx-a1-m55-cf 7kmx-a1-m56-ca_7kmx-a1-m56-cb 7kmx-a1-m56-ca_7kmx-a1-m56-cc 7kmx-a1-m56-cb_7kmx-a1-m56-cc 7kmx-a1-m56-cd_7kmx-a1-m56-ce 7kmx-a1-m56-cd_7kmx-a1-m56-cf 7kmx-a1-m56-ce_7kmx-a1-m56-cf 7kmx-a1-m57-ca_7kmx-a1-m57-cb 7kmx-a1-m57-ca_7kmx-a1-m57-cc 7kmx-a1-m57-cb_7kmx-a1-m57-cc 7kmx-a1-m57-cd_7kmx-a1-m57-ce 7kmx-a1-m57-cd_7kmx-a1-m57-cf 7kmx-a1-m57-ce_7kmx-a1-m57-cf 7kmx-a1-m57-cg_7kmx-a1-m9-cg 7kmx-a1-m58-ca_7kmx-a1-m58-cb 7kmx-a1-m58-ca_7kmx-a1-m58-cc 7kmx-a1-m58-cb_7kmx-a1-m58-cc 7kmx-a1-m58-cd_7kmx-a1-m58-ce 7kmx-a1-m58-cd_7kmx-a1-m58-cf 7kmx-a1-m58-ce_7kmx-a1-m58-cf 7kmx-a1-m58-cg_7kmx-a1-m8-cg 7kmx-a1-m59-ca_7kmx-a1-m59-cb 7kmx-a1-m59-ca_7kmx-a1-m59-cc 7kmx-a1-m59-cb_7kmx-a1-m59-cc 7kmx-a1-m59-cd_7kmx-a1-m59-ce 7kmx-a1-m59-cd_7kmx-a1-m59-cf 7kmx-a1-m59-ce_7kmx-a1-m59-cf 7kmx-a1-m5-ca_7kmx-a1-m5-cb 7kmx-a1-m5-ca_7kmx-a1-m5-cc 7kmx-a1-m5-cb_7kmx-a1-m5-cc 7kmx-a1-m5-cd_7kmx-a1-m5-ce 7kmx-a1-m5-cd_7kmx-a1-m5-cf 7kmx-a1-m5-ce_7kmx-a1-m5-cf 7kmx-a1-m5-cg_7kmx-a1-m50-cg 7kmx-a1-m60-ca_7kmx-a1-m60-cb 7kmx-a1-m60-ca_7kmx-a1-m60-cc 7kmx-a1-m60-cb_7kmx-a1-m60-cc 7kmx-a1-m60-cd_7kmx-a1-m60-ce 7kmx-a1-m60-cd_7kmx-a1-m60-cf 7kmx-a1-m60-ce_7kmx-a1-m60-cf 7kmx-a1-m6-ca_7kmx-a1-m6-cb 7kmx-a1-m6-ca_7kmx-a1-m6-cc 7kmx-a1-m6-cb_7kmx-a1-m6-cc 7kmx-a1-m6-cd_7kmx-a1-m6-ce 7kmx-a1-m6-cd_7kmx-a1-m6-cf 7kmx-a1-m6-ce_7kmx-a1-m6-cf 7kmx-a1-m7-ca_7kmx-a1-m7-cb 7kmx-a1-m7-ca_7kmx-a1-m7-cc 7kmx-a1-m7-cb_7kmx-a1-m7-cc 7kmx-a1-m7-cd_7kmx-a1-m7-ce 7kmx-a1-m7-cd_7kmx-a1-m7-cf 7kmx-a1-m7-ce_7kmx-a1-m7-cf 7kmx-a1-m8-ca_7kmx-a1-m8-cb 7kmx-a1-m8-ca_7kmx-a1-m8-cc 7kmx-a1-m8-cb_7kmx-a1-m8-cc 7kmx-a1-m8-cd_7kmx-a1-m8-ce 7kmx-a1-m8-cd_7kmx-a1-m8-cf 7kmx-a1-m8-ce_7kmx-a1-m8-cf 7kmx-a1-m9-ca_7kmx-a1-m9-cb 7kmx-a1-m9-ca_7kmx-a1-m9-cc 7kmx-a1-m9-cd_7kmx-a1-m9-ce 7kmx-a1-m9-cd_7kmx-a1-m9-cf 7kmx-a1-m9-ce_7kmx-a1-m9-cf MAFNNAVLQEVSDLPAGEVIKASPHNVSAFEVFQNGLIEGRFVKFDAGSIDILDASATPTIAGIAKRKVTGEIGPGVYSTSGIEIDQVAEVINFGFATVTVQDAAAPSKYDPVYAINLDSAEAGKATENSGATGALAVADCVFWEQKAANVWLVRMNKFL MAFNNAVLQEVSDLPAGEVIKASPHNVSAFEVFQNGLIEGRFVKFDAGSIDILDASATPTIAGIAKRKVTGEIGPGVYSTSGIEIDQVAEVINFGFATVTVQDAAAPSKYDPVYAINLDSAEAGKATENSGATGALAVADCVFWEQKAANVWLVRMNKFL 7kmy-a4-m1-cM_7kmy-a4-m1-cN Structure of Mtb Lpd bound to 010705 P9WHH9 P9WHH9 2.21 X-RAY DIFFRACTION 240 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 465 465 2a8x-a1-m1-cA_2a8x-a1-m1-cB 3ii4-a1-m1-cA_3ii4-a1-m1-cB 4m52-a1-m1-cA_4m52-a1-m1-cD 4m52-a2-m1-cB_4m52-a2-m1-cC 7kmy-a1-m1-cA_7kmy-a1-m1-cB 7kmy-a2-m1-cC_7kmy-a2-m1-cD 7kmy-a3-m1-cI_7kmy-a3-m1-cJ 8ct4-a1-m1-cA_8ct4-a1-m1-cB SMTHYDVVVLGAGPGGYVAAIRAAQLGLSTAIVEPKYWGGVCLNVGCIPSKALLRNAELVHIFTKDAKAFGISGEVTFDYGIAYDRSRKVAEGRVAGVHFLMKKNKITEIHGYGTFADANTLLVDLNDGGTESVTFDNAIIATGSSTRLVPGTSLSANVVTYEEQILSRELPKSIIIAGAGAIGMEFGYVLKNYGVDVTIVEFLPRALPNEDADVSKEIEKQFKKLGVTILTATKVESIADGGSQVTVTVTKDGVAQELKAEKVLQAIGFAPNVEGYGLDKAGVALTDRKAIGVDDYMRTNVGHIYAIGDVNGLLQLAHVAEAQGVVAAETIAGAETLTLGDHRMLPRATFCQPNVASFGLTEQQARNEGYDVVVAKFPFTANAKAHGVGDPSGFVKLVADAKHGELLGGHLVGHDVAELLPELTLAQRWDLTASELARNVHTHPTMSEALQECFHGLVGHMINF SMTHYDVVVLGAGPGGYVAAIRAAQLGLSTAIVEPKYWGGVCLNVGCIPSKALLRNAELVHIFTKDAKAFGISGEVTFDYGIAYDRSRKVAEGRVAGVHFLMKKNKITEIHGYGTFADANTLLVDLNDGGTESVTFDNAIIATGSSTRLVPGTSLSANVVTYEEQILSRELPKSIIIAGAGAIGMEFGYVLKNYGVDVTIVEFLPRALPNEDADVSKEIEKQFKKLGVTILTATKVESIADGGSQVTVTVTKDGVAQELKAEKVLQAIGFAPNVEGYGLDKAGVALTDRKAIGVDDYMRTNVGHIYAIGDVNGLLQLAHVAEAQGVVAAETIAGAETLTLGDHRMLPRATFCQPNVASFGLTEQQARNEGYDVVVAKFPFTANAKAHGVGDPSGFVKLVADAKHGELLGGHLVGHDVAELLPELTLAQRWDLTASELARNVHTHPTMSEALQECFHGLVGHMINF 7knh-a1-m1-cA_7knh-a1-m1-cB Cryo-EM Structure of Double ACE2-Bound SARS-CoV-2 Trimer Spike at pH 5.5 P0DTC2 P0DTC2 3.74 ELECTRON MICROSCOPY 289 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1030 1031 7kmz-a1-m1-cA_7kmz-a1-m1-cB 7kmz-a1-m1-cC_7kmz-a1-m1-cA 7knb-a1-m1-cC_7knb-a1-m1-cB 7kne-a1-m1-cC_7kne-a1-m1-cB 7knh-a1-m1-cC_7knh-a1-m1-cA 7kni-a1-m1-cA_7kni-a1-m1-cB 7kni-a1-m1-cA_7kni-a1-m1-cC 7kni-a1-m1-cB_7kni-a1-m1-cC PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLMESEFRVYSSANNCTFEYVSQPFLMFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHASNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFK PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLMESEFRVYSSANNCTFEYVSQPFLMFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFK 7koe-a1-m1-cC_7koe-a1-m1-cG Electron bifurcating flavoprotein Fix/EtfABCX R4P168 R4P168 2.9 ELECTRON MICROSCOPY 148 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 438 438 MKIEFDVVVVGAGPSGLSCAYVLAKNGLKVAVVEKGEYPGSKNVMGGVLYVHPLKEIMPDFLEKAANSKALERNVIEQNLWLLGNEGVIKIGHRNVEWKENPNAFTVLRANFDRWFAQEVEKAGALIIPKTKVEDFLRNEKGEIAGVVTSRPKGEIHSKAVVIAEGVNPILTMKAGLRKEDLKPHMVAVAVKEVISVPEDVVNRVFGVEGNDGATIELLGSWSEGMFGMGFLYANRSSVSLGCGVLLEDLRKKKIKPYQLLENLKNHPVISDMLGEYRNNTMEYLAHLIPEGGYYAMPKVYGDRVLVCGDAAMLVNSIHREGSNHAITSGRLAAETLLEAFEKGDFSEKILKNYYLRLKESFILKDLEKYKDLMPTMEKNHQFVEIYPDLANDALKRFLQVDGTPKWDVQKQIADMVLSRRSLIGISLDLLRFWRAVR MKIEFDVVVVGAGPSGLSCAYVLAKNGLKVAVVEKGEYPGSKNVMGGVLYVHPLKEIMPDFLEKAANSKALERNVIEQNLWLLGNEGVIKIGHRNVEWKENPNAFTVLRANFDRWFAQEVEKAGALIIPKTKVEDFLRNEKGEIAGVVTSRPKGEIHSKAVVIAEGVNPILTMKAGLRKEDLKPHMVAVAVKEVISVPEDVVNRVFGVEGNDGATIELLGSWSEGMFGMGFLYANRSSVSLGCGVLLEDLRKKKIKPYQLLENLKNHPVISDMLGEYRNNTMEYLAHLIPEGGYYAMPKVYGDRVLVCGDAAMLVNSIHREGSNHAITSGRLAAETLLEAFEKGDFSEKILKNYYLRLKESFILKDLEKYKDLMPTMEKNHQFVEIYPDLANDALKRFLQVDGTPKWDVQKQIADMVLSRRSLIGISLDLLRFWRAVR 7kog-a1-m1-cA_7kog-a1-m1-cB Lethocerus Myosin II complete coiled-coil domain resolved in its native environment A0A221IRH5 A0A221IRH5 4.25 ELECTRON MICROSCOPY 1441 1.0 212017 (Lethocerus indicus) 212017 (Lethocerus indicus) 1077 1077 EEEMRKLEELVATTQAALEKEEKARKEVEALNAKLIQEKTDLLRNLEGEKGSISSIQEKAAKLQAQKSDLESQLMDTQERLQQEEDNRNQMFQQKKKLEQEVGGLKKDIEDLELSLQKSDQDKASKDHQIRNLNDEIAHQDELINKLNKEKKMQGEHTQKTAEELQASEDKVNHLTKVKAKLEQTLDELEDSLEREKKLRGDVEKAKRKVEGDLKLTQEAVADLERNKKELEQTIQRKDKEIASLTAKLEDEQSIVSKTQKQIKELQSRIEELEEEVEAERQARGKAEKQRADLARELEELGERLEEAGGATSAQIELNKKREAEMSKLRRDLEESNIQHESTLANLRKKHNDAVSEMGEQIDQLNKLKTKAEHDRTHVQNDLNNTRHALDQMCREKAATEKIAKQLQHQVNEIQGKLDEANRTLNDFDSAKKKLSIENSDLLRQLEEAESQVSQLSKIKVSLTTQLEDTKRLADEEARERATLLGKFRNLEHDLDNIREQLEEEAEGKADIQRQLSKANAEAQLWRTKYESEGVARAEELEEAKRKLQARLAEAEETIESLNQKVIALEKTKQRLATEVEDLQLEVDRATAIANAAEKKAKAIDKIIGEWKLKVDDLAAELDASQKECRNYSTELFRLKGAYEEAQEQLEAVRRENKNLADEVKDLLDQIGEGGRNIHEIEKQKKRLEVEKDELQAALEEAEAALEQEENKVLRSQLELSQVRQEIDRRIQEKEEEFENTRKNHQRALDSMQASLEAEAKGKAEALRMKKKLEADINELEIALDHANKANSEAQKTIKKYQQQLKDVQTALEEEQRARDDAREQLGISERRANALQNELEESRTLLEQADRGRRQAEQELGDAHEQINELAAQATSASAAKRKLEGELQTLHADLDELLNEAKNSEEKAKKAMVDAARLADELRAEQDHAQTQEKLRKALETQIKELQIRLDEAETNALKGGKKAIAKLEQRVRELENELDGEQRRHADAQKNLRKSERRIKELSFQADEDRKNHERMQDLVDKLQQKIKTYKRQIEEAEEIAALNLAKFRKAQQELEEAEERADLAEQAIAKFRT EEEMRKLEELVATTQAALEKEEKARKEVEALNAKLIQEKTDLLRNLEGEKGSISSIQEKAAKLQAQKSDLESQLMDTQERLQQEEDNRNQMFQQKKKLEQEVGGLKKDIEDLELSLQKSDQDKASKDHQIRNLNDEIAHQDELINKLNKEKKMQGEHTQKTAEELQASEDKVNHLTKVKAKLEQTLDELEDSLEREKKLRGDVEKAKRKVEGDLKLTQEAVADLERNKKELEQTIQRKDKEIASLTAKLEDEQSIVSKTQKQIKELQSRIEELEEEVEAERQARGKAEKQRADLARELEELGERLEEAGGATSAQIELNKKREAEMSKLRRDLEESNIQHESTLANLRKKHNDAVSEMGEQIDQLNKLKTKAEHDRTHVQNDLNNTRHALDQMCREKAATEKIAKQLQHQVNEIQGKLDEANRTLNDFDSAKKKLSIENSDLLRQLEEAESQVSQLSKIKVSLTTQLEDTKRLADEEARERATLLGKFRNLEHDLDNIREQLEEEAEGKADIQRQLSKANAEAQLWRTKYESEGVARAEELEEAKRKLQARLAEAEETIESLNQKVIALEKTKQRLATEVEDLQLEVDRATAIANAAEKKAKAIDKIIGEWKLKVDDLAAELDASQKECRNYSTELFRLKGAYEEAQEQLEAVRRENKNLADEVKDLLDQIGEGGRNIHEIEKQKKRLEVEKDELQAALEEAEAALEQEENKVLRSQLELSQVRQEIDRRIQEKEEEFENTRKNHQRALDSMQASLEAEAKGKAEALRMKKKLEADINELEIALDHANKANSEAQKTIKKYQQQLKDVQTALEEEQRARDDAREQLGISERRANALQNELEESRTLLEQADRGRRQAEQELGDAHEQINELAAQATSASAAKRKLEGELQTLHADLDELLNEAKNSEEKAKKAMVDAARLADELRAEQDHAQTQEKLRKALETQIKELQIRLDEAETNALKGGKKAIAKLEQRVRELENELDGEQRRHADAQKNLRKSERRIKELSFQADEDRKNHERMQDLVDKLQQKIKTYKRQIEEAEEIAALNLAKFRKAQQELEEAEERADLAEQAIAKFRT 7kp7-a1-m1-cB_7kp7-a1-m1-cC asymmetric mTNF-alpha hTNFR1 complex P06804 P06804 2.65 X-RAY DIFFRACTION 76 1.0 10090 (Mus musculus) 10090 (Mus musculus) 148 148 2tnf-a1-m1-cA_2tnf-a1-m1-cB 2tnf-a1-m1-cA_2tnf-a1-m1-cC 2tnf-a1-m1-cB_2tnf-a1-m1-cC 7kp7-a1-m1-cA_7kp7-a1-m1-cB 7kp7-a1-m1-cA_7kp7-a1-m1-cC 7kp8-a1-m1-cA_7kp8-a1-m1-cB 7kp8-a1-m1-cC_7kp8-a1-m1-cA 7kp8-a1-m1-cC_7kp8-a1-m1-cB SDKPVAHVVANHQVEEQLEWLSQRANALLANGMDLKDNQLVVPADGLYLVYSQVLFKGQGCPDYVLLTHTVSRFAISYQEKVNLLSAVKSPCPKDTPEGAELKPWYEPIYLGGVFQLEKGDQLSAEVNLPKYLDFAESGQVYFGVIAL SDKPVAHVVANHQVEEQLEWLSQRANALLANGMDLKDNQLVVPADGLYLVYSQVLFKGQGCPDYVLLTHTVSRFAISYQEKVNLLSAVKSPCPKDTPEGAELKPWYEPIYLGGVFQLEKGDQLSAEVNLPKYLDFAESGQVYFGVIAL 7kpo-a1-m1-cA_7kpo-a1-m2-cA High Resolution Crystal Structure of the DNA-binding Domain from the Sensor Histidine Kinase ChiS from Vibrio cholerae Q9KUA1 Q9KUA1 1.28 X-RAY DIFFRACTION 25 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 104 104 GSSKQDLRAVLVEATSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQTRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEQRDKLQKLLTS GSSKQDLRAVLVEATSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQTRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEQRDKLQKLLTS 7kpo-a2-m1-cA_7kpo-a2-m3-cA High Resolution Crystal Structure of the DNA-binding Domain from the Sensor Histidine Kinase ChiS from Vibrio cholerae Q9KUA1 Q9KUA1 1.28 X-RAY DIFFRACTION 24 1.0 686 (Vibrio cholerae O1 biovar El Tor) 686 (Vibrio cholerae O1 biovar El Tor) 104 104 GSSKQDLRAVLVEATSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQTRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEQRDKLQKLLTS GSSKQDLRAVLVEATSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQTRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEQRDKLQKLLTS 7kqa-a1-m1-cB_7kqa-a1-m1-cA Crystal Structure of Glucosamine-6-phosphate deanimase from Strenotrophomonas maltophilia A0A109JTU2 A0A109JTU2 1.65 X-RAY DIFFRACTION 169 1.0 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 336 341 LSDPTSTLMFAEAAEAADVVARQFSRNHATMETLAASLRAAPPPFVVTCARGSSDHAATYGKYLLETQLGLVVASASPSVGSVYAAPLQLRGALFIVISQSGKSPDLLRNAEAAKAAGARVIALVNVEDSPLAQLADTVIPLHAGAEKSVAATKSYLASLAALLQLAAYWKQDSSLRAALDLLPDALREAWQCDWSAVTEGLVEATNLFVLGRGLGLGAAQEAALKFKETCSLHAEAYSSAEVKHGPMALVDRGFPVLAFAQPDETGAGTRAVVEEFTARGAQVWMAGAGGNLPVAAAPHPLCAPLLTVQSFYRAINALALRRGFNPDLPPHLNKV HHHMSLSDPTSTLMFAEAAEAADVVARQFSRNHATMETLAASLRAAPPPFVVTCARGSSDHAATYGKYLLETQLGLVVASASPSVGSVYAAPLQLRGALFIVISQSGKSPDLLRNAEAAKAAGARVIALVNVEDSPLAQLADTVIPLHAGAEKSVAATKSYLASLAALLQLAAYWKQDSSLRAALDLLPDALREAWQCDWSAVTEGLVEATNLFVLGRGLGLGAAQEAALKFKETCSLHAEAYSSAEVKHGPMALVDRGFPVLAFAQPDETGAGTRAVVEEFTARGAQVWMAGAGGNLPVAAAPHPLCAPLLTVQSFYRAINALALRRGFNPDLPPHLNKV 7kqu-a1-m1-cA_7kqu-a1-m1-cB A 1.58-A resolution crystal structure of ferric-hydroperoxo intermediate of L-tyrosine hydroxylase in complex with 3-fluoro-L-tyrosine 1.579 X-RAY DIFFRACTION 88 0.997 1957 (Streptomyces sclerotialus) 1957 (Streptomyces sclerotialus) 301 301 7kqr-a1-m1-cB_7kqr-a1-m1-cA 7kqs-a1-m1-cA_7kqs-a1-m1-cB 7kqt-a1-m1-cB_7kqt-a1-m1-cA GTVLTELPDHGRWDFGDFPYGLEPLTLPEPGSLEAADSGSVPAEFTLTCRHIAAIAAGGGPAERVQPADSSDRLYWFRWITGHQVTFILWQLLSRELARLPEEGPERDAALKAMTRYVRGYCAMLLYTGSMPRTVYGDVIRPSMFLQHPGFSGTWAPDHKPVQALFRGKKLPCVRDSADLAQAVHVYQVIHAGIAARMVPSGRSLLQEASVPSGVQHPDVLGVVYDNYFLTLRSRPSSRDVVAQLLRRLTAIALDVKDNALYPDGRAGSELPEELTRPEVTGHERDFLAILSEVAEEATGS GTVLTELPDHGRWDFGDFPYGLEPLTLPEPGSLEAADSGSVPAEFTLTCRHIAAIAAGGGPAERVQPADSSDRLYWFRWITGHQVTFILWQLLSRELARLPEEGPERDAALKAMTRYVRGYCAMLLYTGSMPRTVYGDVIRPSMFLQHPGFSGTWAPDHKPVQALFRGKKLPCVRDSADLAQAVHVYQVIHAGIAARMVPSGRSLLQEASVPSGVQHPDVLGVVYDNYFLTLRSRPSSRDVVAQLLRRLTAIALDVKDNALYPDGREAGSELPEELTRPEVTGHERDFLAILSEVAEEATG 7kqv-a1-m2-cC_7kqv-a1-m1-cA Crystal Structure of aldehyde dehydrogenase (ChALDH) from Cladosporium herbarum P40108 P40108 3.18 X-RAY DIFFRACTION 35 0.995 29918 (Cladosporium herbarum) 29918 (Cladosporium herbarum) 399 449 SGKYEQPTGLFINNEFVKGQEGKTFDVINPSDESVITQVHEATEKDVDIAVAAARKAFEGSWRQETPENRGKLLNNLANLFEKNIDLLAAVESLDNGKAISMAKGDISMCVGCLRYYGGWADKITGKVIDTTPDTFNYVKKEPIGVCGQIIPWNFPLLMWAWKIGPAIACGNTVVLKTAEQTPLGGLVAASLVKEAGFPPGVINVISGFGKVAGAALSSHMDVDKVAFTGSTVVGRTILKAAASSNLKKVTLELGGKSPNIVFEDADIDNAISWVNFGIFFNHGQCCCAGSRVYVQEYFIEPTIFPVCSIAKFKTKEDAIKLGNASTYGLAAAVHTKNLNTAIEVSNALKAGTVWVNTYNTLHHQMPFGGYKESGIGRELGEDALANYTQTKTVSIRLG SGKYEQPTGLFINNEFVKGQEGKTFDVINPSDESVITQVHEATEKDVDIAVAAARKAFEGSWRQETPENRGKLLNNLANLFEKNIDLLAAVESLDNGKAISMAKGDISMCVGCLRYYGGWADKITGKVIDTTPDTFNYVKKEPIGVCGQIIPWNFPLLMWAWKIGPAIACGNTVVLKTAEQTPLGGLVAASLVKEAGFPPGVINVISGFGKVAGAALSSHMDVDKVAFTGSTVVGRTILKAAASSNLKKVTLELGGKSPNIVFEDADIDNAISWVNFGIFFNHGQCCCAGSRVYVQESIYDKFVQKFKPQVSKVQFDRIMEYIQAGKDAGATVFIEPTIFSNVTEDMKIVKEEIFGPVCSIAKFKTKEDAIKLGNASTYGLAAAVHTKNLNTAIEVSNALKAGTVWVNTYNTLHHQMPFGGYKESGIGRELGEDALANYTQTKTVSIRL 7kqv-a1-m2-cC_7kqv-a1-m1-cD Crystal Structure of aldehyde dehydrogenase (ChALDH) from Cladosporium herbarum P40108 P40108 3.18 X-RAY DIFFRACTION 64 0.982 29918 (Cladosporium herbarum) 29918 (Cladosporium herbarum) 399 469 7kqv-a1-m1-cA_7kqv-a1-m2-cB SGKYEQPTGLFINNEFVKGQEGKTFDVINPSDESVITQVHEATEKDVDIAVAAARKAFEGSWRQETPENRGKLLNNLANLFEKNIDLLAAVESLDNGKAISMAKGDISMCVGCLRYYGGWADKITGKVIDTTPDTFNYVKKEPIGVCGQIIPWNFPLLMWAWKIGPAIACGNTVVLKTAEQTPLGGLVAASLVKEAGFPPGVINVISGFGKVAGAALSSHMDVDKVAFTGSTVVGRTILKAAASSNLKKVTLELGGKSPNIVFEDADIDNAISWVNFGIFFNHGQCCCAGSRVYVQEYFIEPTIFPVCSIAKFKTKEDAIKLGNASTYGLAAAVHTKNLNTAIEVSNALKAGTVWVNTYNTLHHQMPFGGYKESGIGRELGEDALANYTQTKTVSIRLG TGLFINNEFVKGQEGKTFDVINPSDESVITQVHEATEKDVDIAVAAARKAFEGSWRQETPENRGKLLNNLANLFEKNIDLLAAVESLDNGKAISMAKGDISMCVGCLRYYGGWADKITGKVIDTTPDTFNYVKKEPIGVCGQIIPWNFPLLMWAWKIGPAIACGNTVVLKTAEQTPLGGLVAASLVKEAGFPPGVINVISGFGKVAGAALSSHMDVDKVAFTGSTVVGRTILKAAASSNLKKVTLELGGKSPNIVFEDADIDNAISWVNFGIFFNHGQCCCAGSRVYVQESIYDKFVQKFKERAQDPFAADTFQGPQVSKVQFDRIMEYIQAGKDAGATVETGGKRKGDKGYFIEPTIFSNVTEDMKIVKEEIFGPVCSIAKFKTKEDAIKLGNASTYGLAAAVHTKNLNTAIEVSNALKAGTVWVNTYNTLHHQMPFGGYKESGIGRELGEDALANYTQTKTVSIRLG 7kqv-a1-m2-cC_7kqv-a1-m2-cB Crystal Structure of aldehyde dehydrogenase (ChALDH) from Cladosporium herbarum P40108 P40108 3.18 X-RAY DIFFRACTION 164 1.0 29918 (Cladosporium herbarum) 29918 (Cladosporium herbarum) 399 460 7kqv-a1-m1-cA_7kqv-a1-m1-cD SGKYEQPTGLFINNEFVKGQEGKTFDVINPSDESVITQVHEATEKDVDIAVAAARKAFEGSWRQETPENRGKLLNNLANLFEKNIDLLAAVESLDNGKAISMAKGDISMCVGCLRYYGGWADKITGKVIDTTPDTFNYVKKEPIGVCGQIIPWNFPLLMWAWKIGPAIACGNTVVLKTAEQTPLGGLVAASLVKEAGFPPGVINVISGFGKVAGAALSSHMDVDKVAFTGSTVVGRTILKAAASSNLKKVTLELGGKSPNIVFEDADIDNAISWVNFGIFFNHGQCCCAGSRVYVQEYFIEPTIFPVCSIAKFKTKEDAIKLGNASTYGLAAAVHTKNLNTAIEVSNALKAGTVWVNTYNTLHHQMPFGGYKESGIGRELGEDALANYTQTKTVSIRLG HSGKYEQPTGLFINNEFVKGQEGKTFDVINPSDESVITQVHEATEKDVDIAVAAARKAFEGSWRQETPENRGKLLNNLANLFEKNIDLLAAVESLDNGKAISMAKGDISMCVGCLRYYGGWADKITGKVIDTTPDTFNYVKKEPIGVCGQIIPWNFPLLMWAWKIGPAIACGNTVVLKTAEQTPLGGLVAASLVKEAGFPPGVINVISGFGKVAGAALSSHMDVDKVAFTGSTVVGRTILKAAASSNLKKVTLELGGKSPNIVFEDADIDNAISWVNFGIFFNHGQCCCAGSRVYVQESIYDVVGDPFAADTFQGPQVSKVQFDRIMEYIQAGKDAGATVEGYFIEPTIFSNVTEDMKIVKEEIFGPVCSIAKFKTKEDAIKLGNASTYGLAAAVHTKNLNTAIEVSNALKAGTVWVNTYNTLHHQMPFGGYKESGIGRELGEDALANYTQTKTVSIRLG 7kqy-a3-m1-cF_7kqy-a3-m1-cE Crystal Structure and Characterization of Human Heavy-Chain only Antibodies reveals a novel, stable dimeric structure similar to Monoclonal Antibodies 2.913 X-RAY DIFFRACTION 144 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 204 216 7kqy-a1-m1-cB_7kqy-a1-m1-cA 7kqy-a2-m1-cC_7kqy-a2-m1-cD EVQLVQSGAEVKKPGASVKVSCKTSGYGINWVRQAPGQGLEWIGYIYIGAGDTDYSEKFKGRATITSDTSASTVYMELSSLRSEDTAVYYCAGTGTRFVYWGQGTLVTVSSASTKGPSVFPLAPSTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP EVQLVQSGAEVKKPGASVKVSCKTSGYTFTNYGINWVRQAPGQGLEWIGYIYIGAGDTDYSEKFKGRATITSDTSASTVYMELSSLRSEDTAVYYCAGTGTRFVYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP 7kqz-a1-m2-cA_7kqz-a1-m3-cA Crystal Structure of Acetyl-CoA synthetase in complex with adenosine-5'-ethylphosphate from Coccidioides immitis RS J3KJC6 J3KJC6 2.15 X-RAY DIFFRACTION 48 1.0 246410 (Coccidioides immitis RS) 246410 (Coccidioides immitis RS) 618 618 7kqz-a1-m1-cA_7kqz-a1-m2-cA 7kqz-a1-m1-cA_7kqz-a1-m3-cA PVVVEAHQVDTFDVPGVFYENHPHEPHLSGMNEYNQLYQQSINDPDTFWARMARDLITFEKDFDKTHIGTLEGGDNAWFVGGRLNASFNCVDRHAMRDPNKVAIIYEADEPGHGRSITYAELLKEVSRLAWVMKSQGVRKGDTVAIYLPMIPEAIFALLACARIGAIHSVVFAGFSSDSLRDRTLDARSKFIITTDEGKRGGKVIGTKKIVDEALKQCPDVTNCLVFKRTGADVPWTKGRDLWWHEEVDKYPNYLPAESMDSEDPLFLLYTSGSTGKPKGVMHTTAGYLVGAAATGKYVFDIHPADRFFCGGDVGWITGHTYVVYAPLLLGCTTVVFESTPAYPNFSRYWDVIEKHKVTQFYVAPTALRLLKRAGDHHINHEMKDLRILGSVGEPIAAEVWKWYHEVVGKRQAHIVDTYWQTETGSHVITPLGGITPTKPGSASLPFFGIDPVILDPVTGAEIPGNDVEGILAFRKPWPSMARTVWGDHKRYMDTYLNVYKGFYFTGDGAGRDHEGYYWIRGRVDDVVNVSGHRLSTAEIEAALIEHHCVAEAAVVGVPDPLTGQAVHAFVALKSGNDNREQLQKELIMQVRKSIGPFAAPKVVFVIDIMRRILRKIL PVVVEAHQVDTFDVPGVFYENHPHEPHLSGMNEYNQLYQQSINDPDTFWARMARDLITFEKDFDKTHIGTLEGGDNAWFVGGRLNASFNCVDRHAMRDPNKVAIIYEADEPGHGRSITYAELLKEVSRLAWVMKSQGVRKGDTVAIYLPMIPEAIFALLACARIGAIHSVVFAGFSSDSLRDRTLDARSKFIITTDEGKRGGKVIGTKKIVDEALKQCPDVTNCLVFKRTGADVPWTKGRDLWWHEEVDKYPNYLPAESMDSEDPLFLLYTSGSTGKPKGVMHTTAGYLVGAAATGKYVFDIHPADRFFCGGDVGWITGHTYVVYAPLLLGCTTVVFESTPAYPNFSRYWDVIEKHKVTQFYVAPTALRLLKRAGDHHINHEMKDLRILGSVGEPIAAEVWKWYHEVVGKRQAHIVDTYWQTETGSHVITPLGGITPTKPGSASLPFFGIDPVILDPVTGAEIPGNDVEGILAFRKPWPSMARTVWGDHKRYMDTYLNVYKGFYFTGDGAGRDHEGYYWIRGRVDDVVNVSGHRLSTAEIEAALIEHHCVAEAAVVGVPDPLTGQAVHAFVALKSGNDNREQLQKELIMQVRKSIGPFAAPKVVFVIDIMRRILRKIL 7kr6-a1-m1-cAAA_7kr6-a1-m1-cBBB Glycoside hydrolase family 16 endo-glucanase from Bacteroides ovatus in complex with G4G3G-2F-DNP A0A1Y4PXW9 A0A1Y4PXW9 1.56 X-RAY DIFFRACTION 50 1.0 28116 (Bacteroides ovatus) 28116 (Bacteroides ovatus) 236 236 6vho-a1-m1-cAAA_6vho-a1-m1-cBBB ILFKDDFNFFDEKVWTKETHEPGWTNQELQAYDAAHVSVGKDGDKSVLILTAERKGNKIYSGRINSKGKKSFKYRKIEASIKLPKTNGGLWPAFWMMGDNDKQWPACGEIDIMAMGEQSGMAGDSEKQVNTAIHYGPSAAAHEQQYYKANVANSLQDGNYHTYSLDWDENNLTISIDNVKFHTFDISSNTYFHDNFYILFNLAVGGAFTGITDINKLTGLKDGQKVNMYIDWVKIL ILFKDDFNFFDEKVWTKETHEPGWTNQELQAYDAAHVSVGKDGDKSVLILTAERKGNKIYSGRINSKGKKSFKYRKIEASIKLPKTNGGLWPAFWMMGDNDKQWPACGEIDIMAMGEQSGMAGDSEKQVNTAIHYGPSAAAHEQQYYKANVANSLQDGNYHTYSLDWDENNLTISIDNVKFHTFDISSNTYFHDNFYILFNLAVGGAFTGITDINKLTGLKDGQKVNMYIDWVKIL 7krs-a1-m1-cB_7krs-a1-m1-cC Structural impact on SARS-CoV-2 spike protein by D614G substitution P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 385 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1098 1109 7n1q-a1-m1-cB_7n1q-a1-m1-cC 7n1w-a1-m1-cB_7n1w-a1-m1-cC 7n1x-a1-m1-cB_7n1x-a1-m1-cC 7n1y-a1-m1-cC_7n1y-a1-m1-cB 7vq0-a1-m1-cB_7vq0-a1-m1-cA 7vq0-a1-m1-cC_7vq0-a1-m1-cA QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAITWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEELDKYFKNHTSP QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKEELDKYFKNHTSP 7ks0-a1-m1-cA_7ks0-a1-m1-cC GluK2/K5 with 6-Cyano-7-nitroquinoxaline-2,3-dione (CNQX) P42212 P42212 5.3 ELECTRON MICROSCOPY 10 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 741 741 LSSLRMAAILDDQTVCGRGERLALALAREQINGIIEVPAKARVEVDIFELQRDSQYETTDTMCQILPKGVVSVLGPSSSPASASTVSHICGEKEIPHIKVGPEETPRLQYLRFASVSLYPSNEDVSLAVSRILKSFNYPSASLICAKAECLLRLEELVRGFLISKETLSVRMLDDSRDPTPLLKEIRDDKVSTIIIDANASISHLVLRKASELGMTSAFYKYILTTMDFPILHLDGIVEDSSNILGFSMFNTSHPFYPEFVRSLNMSWRENCEASTYPGPALSAALMFDAVHVVVSAVRELNRSQEIGVKPLACTSANIWPHGTSLMNYLRMVEYDGLTGRVEFNSKGQRTNYTLRILEKSRQGHREIGVWYSNRTLAMNATTLDINLTLVVTTILENPYVMRRPNFQALSGNERFEGFCVDMLRELAELLRFRYRLRLVEDGLYGAPEPNGSWTGMVGELINRKADLAVAAFTITAEREKVIDFSKPFMTLGISILYRVHMGRKPGYFSFLDPFSPAVWLFMLLAYLAVSVVLFLAARALSTRIVSGVWWAFTLIIISSYTANLAAFLTVQRMEVPVESADDLADQTNIEYGTIHAGSTMTFFQNSRYQTYQRMWNYMQSKQPSVFVKSTEEGIARVLNSRYAFLLESTMNEYHRRLNCNLTQIGGLLDTKGYGIGMPLGSPFRDEITLAILQLQENNRLEILKRKWWEGGMENIGGIFVVLIAGLIIAVFVAVMEFIYK LSSLRMAAILDDQTVCGRGERLALALAREQINGIIEVPAKARVEVDIFELQRDSQYETTDTMCQILPKGVVSVLGPSSSPASASTVSHICGEKEIPHIKVGPEETPRLQYLRFASVSLYPSNEDVSLAVSRILKSFNYPSASLICAKAECLLRLEELVRGFLISKETLSVRMLDDSRDPTPLLKEIRDDKVSTIIIDANASISHLVLRKASELGMTSAFYKYILTTMDFPILHLDGIVEDSSNILGFSMFNTSHPFYPEFVRSLNMSWRENCEASTYPGPALSAALMFDAVHVVVSAVRELNRSQEIGVKPLACTSANIWPHGTSLMNYLRMVEYDGLTGRVEFNSKGQRTNYTLRILEKSRQGHREIGVWYSNRTLAMNATTLDINLTLVVTTILENPYVMRRPNFQALSGNERFEGFCVDMLRELAELLRFRYRLRLVEDGLYGAPEPNGSWTGMVGELINRKADLAVAAFTITAEREKVIDFSKPFMTLGISILYRVHMGRKPGYFSFLDPFSPAVWLFMLLAYLAVSVVLFLAARALSTRIVSGVWWAFTLIIISSYTANLAAFLTVQRMEVPVESADDLADQTNIEYGTIHAGSTMTFFQNSRYQTYQRMWNYMQSKQPSVFVKSTEEGIARVLNSRYAFLLESTMNEYHRRLNCNLTQIGGLLDTKGYGIGMPLGSPFRDEITLAILQLQENNRLEILKRKWWEGGMENIGGIFVVLIAGLIIAVFVAVMEFIYK 7ks3-a1-m1-cB_7ks3-a1-m1-cD GluK2/K5 with L-Glu P42260 P42260 5.8 ELECTRON MICROSCOPY 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 728 728 5kuf-a1-m1-cB_5kuf-a1-m1-cD THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLLAYLGVSVVLFVIARALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRVQNIGGIFIVLAAGLVLSVFVAVGEFLYK THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKGVFSFLNPLSPDIWMYVLLAYLGVSVVLFVIARALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRVQNIGGIFIVLAAGLVLSVFVAVGEFLYK 7ksb-a3-m1-cA_7ksb-a3-m1-cB Crystal structure on Act c 10.0101 P85204 P85204 1.95 X-RAY DIFFRACTION 35 1.0 1590841 (Actinidia chinensis var. chinensis) 1590841 (Actinidia chinensis var. chinensis) 92 92 AVSCGQVDTSLTPCLTYLTKGGTPSTQCCSGVRSLKSMTGTKADRQAACNCLKQAAARYQGIKDAAAAALSQKCGVQLSVPISRKTDCSKIS AVSCGQVDTSLTPCLTYLTKGGTPSTQCCSGVRSLKSMTGTKADRQAACNCLKQAAARYQGIKDAAAAALSQKCGVQLSVPISRKTDCSKIS 7ksc-a6-m1-cB_7ksc-a6-m1-cD Crystal structure of Pun g 1.0101 A0A059STC4 A0A059STC4 2.4 X-RAY DIFFRACTION 57 1.0 22663 (Punica granatum) 22663 (Punica granatum) 93 93 7ksc-a5-m1-cA_7ksc-a5-m1-cC AVTCGQVASSLAPCIPYARSAGGAVPPACCSGIKTLDGMARTTPDRQATCKCLKSASTSISGINYGLVASLPAKCGVNIPYKISPSTDCARVK AVTCGQVASSLAPCIPYARSAGGAVPPACCSGIKTLDGMARTTPDRQATCKCLKSASTSISGINYGLVASLPAKCGVNIPYKISPSTDCARVK 7ktz-a1-m1-cA_7ktz-a1-m2-cA Data clustering and dynamics of chymotrypsinogen cluster 131 (purple) structure P00766 P00766 2 X-RAY DIFFRACTION 40 1.0 9913 (Bos taurus) 9913 (Bos taurus) 241 241 1dlk-a1-m1-cB_1dlk-a1-m2-cD 1dlk-a1-m1-cE_1dlk-a1-m1-cB 1dlk-a1-m2-cF_1dlk-a1-m2-cD 1dlk-a2-m1-cE_1dlk-a2-m1-cB 1dlk-a3-m1-cF_1dlk-a3-m1-cD 7kty-a1-m1-cA_7kty-a1-m2-cA 7ku0-a1-m1-cA_7ku0-a1-m2-cA 7ku1-a1-m1-cA_7ku1-a1-m2-cA 7ku2-a1-m1-cA_7ku2-a1-m2-cA 7ku3-a1-m1-cA_7ku3-a1-m2-cA CGVPAIQPVLSGLSRIVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRYTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN CGVPAIQPVLSGLSRIVNGEEAVPGSWPWQVSLQDKTGFHFCGGSLINENWVVTAAHCGVTTSDVVVAGEFDQGSSSEKIQKLKIAKVFKNSKYNSLTINNDITLLKLSTAASFSQTVSAVCLPSASDDFAAGTTCVTTGWGLTRYTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN 7kua-a1-m1-cA_7kua-a1-m2-cA Crystal structure of the MarR family transcriptional regulator from Pseudomonas putida bound to Indole 3 acetic acid B0FXI7 B0FXI7 1.89 X-RAY DIFFRACTION 166 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 149 149 HHDPASDEFRKEDFPFYWLARVHGRYTQNMERLLKKIDLDVPRWRVLWILNENGESSISEISTHAIAKLSTITKIVYRMKEDGLVDTAPSPEDGRVTQVRITEVGLQNIERMQEVTRELFQRSFKGLTEAQVQRLNRMLEVVFHNLETL HHDPASDEFRKEDFPFYWLARVHGRYTQNMERLLKKIDLDVPRWRVLWILNENGESSISEISTHAIAKLSTITKIVYRMKEDGLVDTAPSPEDGRVTQVRITEVGLQNIERMQEVTRELFQRSFKGLTEAQVQRLNRMLEVVFHNLETL 7kuu-a1-m1-cB_7kuu-a1-m1-cA LsfA from P. aeruginosa, a 1-Cys Prx in Sulfonic acid form A0A0H2ZEH5 A0A0H2ZEH5 2 X-RAY DIFFRACTION 145 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 200 204 6p0w-a1-m1-cA_6p0w-a1-m2-cA LRLGDIAPDFEQDSSEGRIRLHEWLGDSWGVLFSHPADFTPVTTELGFTAKLKDQFAQRGVKVLALSVDPVDSHLKWIDDINETQDTRVNFPIIADADRKVSELYDLITVRSLFIIDPNKKVRLIITYPASTGRNFNEILRVIDSLQLTDEHKVATPANWEDGDEVVIVPSLKDEEEIKRRFPKGYRAVKPYLRLTPQPN GSHMLRLGDIAPDFEQDSSEGRIRLHEWLGDSWGVLFSHPADFTPVTTELGFTAKLKDQFAQRGVKVLALSVDPVDSHLKWIDDINETQDTRVNFPIIADADRKVSELYDLITVRSLFIIDPNKKVRLIITYPASTGRNFNEILRVIDSLQLTDEHKVATPANWEDGDEVVIVPSLKDEEEIKRRFPKGYRAVKPYLRLTPQPN 7kva-a1-m54-cB_7kva-a1-m9-cB Structure of West Nile virus (Kunjin) P14335 P14335 3.1 ELECTRON MICROSCOPY 24 1.0 11077 (Kunjin virus) 11077 (Kunjin virus) 501 501 3j0b-a1-m10-cC_3j0b-a1-m23-cC 3j0b-a1-m11-cC_3j0b-a1-m20-cC 3j0b-a1-m11-cC_3j0b-a1-m38-cC 3j0b-a1-m12-cC_3j0b-a1-m37-cC 3j0b-a1-m12-cC_3j0b-a1-m47-cC 3j0b-a1-m13-cC_3j0b-a1-m45-cC 3j0b-a1-m13-cC_3j0b-a1-m46-cC 3j0b-a1-m14-cC_3j0b-a1-m29-cC 3j0b-a1-m14-cC_3j0b-a1-m44-cC 3j0b-a1-m15-cC_3j0b-a1-m16-cC 3j0b-a1-m15-cC_3j0b-a1-m28-cC 3j0b-a1-m16-cC_3j0b-a1-m28-cC 3j0b-a1-m17-cC_3j0b-a1-m27-cC 3j0b-a1-m17-cC_3j0b-a1-m52-cC 3j0b-a1-m18-cC_3j0b-a1-m51-cC 3j0b-a1-m18-cC_3j0b-a1-m60-cC 3j0b-a1-m19-cC_3j0b-a1-m39-cC 3j0b-a1-m19-cC_3j0b-a1-m59-cC 3j0b-a1-m1-cC_3j0b-a1-m10-cC 3j0b-a1-m1-cC_3j0b-a1-m23-cC 3j0b-a1-m20-cC_3j0b-a1-m38-cC 3j0b-a1-m21-cC_3j0b-a1-m30-cC 3j0b-a1-m21-cC_3j0b-a1-m43-cC 3j0b-a1-m22-cC_3j0b-a1-m42-cC 3j0b-a1-m24-cC_3j0b-a1-m54-cC 3j0b-a1-m24-cC_3j0b-a1-m9-cC 3j0b-a1-m25-cC_3j0b-a1-m26-cC 3j0b-a1-m25-cC_3j0b-a1-m53-cC 3j0b-a1-m26-cC_3j0b-a1-m53-cC 3j0b-a1-m27-cC_3j0b-a1-m52-cC 3j0b-a1-m29-cC_3j0b-a1-m44-cC 3j0b-a1-m2-cC_3j0b-a1-m22-cC 3j0b-a1-m2-cC_3j0b-a1-m42-cC 3j0b-a1-m30-cC_3j0b-a1-m43-cC 3j0b-a1-m31-cC_3j0b-a1-m40-cC 3j0b-a1-m31-cC_3j0b-a1-m58-cC 3j0b-a1-m32-cC_3j0b-a1-m57-cC 3j0b-a1-m32-cC_3j0b-a1-m7-cC 3j0b-a1-m33-cC_3j0b-a1-m5-cC 3j0b-a1-m33-cC_3j0b-a1-m6-cC 3j0b-a1-m34-cC_3j0b-a1-m49-cC 3j0b-a1-m34-cC_3j0b-a1-m4-cC 3j0b-a1-m35-cC_3j0b-a1-m36-cC 3j0b-a1-m35-cC_3j0b-a1-m48-cC 3j0b-a1-m36-cC_3j0b-a1-m48-cC 3j0b-a1-m37-cC_3j0b-a1-m47-cC 3j0b-a1-m39-cC_3j0b-a1-m59-cC 3j0b-a1-m3-cC_3j0b-a1-m41-cC 3j0b-a1-m3-cC_3j0b-a1-m50-cC 3j0b-a1-m40-cC_3j0b-a1-m58-cC 3j0b-a1-m41-cC_3j0b-a1-m50-cC 3j0b-a1-m45-cC_3j0b-a1-m46-cC 3j0b-a1-m4-cC_3j0b-a1-m49-cC 3j0b-a1-m51-cC_3j0b-a1-m60-cC 3j0b-a1-m54-cC_3j0b-a1-m9-cC 3j0b-a1-m55-cC_3j0b-a1-m56-cC 3j0b-a1-m55-cC_3j0b-a1-m8-cC 3j0b-a1-m56-cC_3j0b-a1-m8-cC 3j0b-a1-m57-cC_3j0b-a1-m7-cC 3j0b-a1-m5-cC_3j0b-a1-m6-cC 7kv9-a1-m10-cB_7kv9-a1-m23-cB 7kv9-a1-m11-cB_7kv9-a1-m20-cB 7kv9-a1-m11-cB_7kv9-a1-m38-cB 7kv9-a1-m12-cB_7kv9-a1-m37-cB 7kv9-a1-m12-cB_7kv9-a1-m47-cB 7kv9-a1-m13-cB_7kv9-a1-m45-cB 7kv9-a1-m13-cB_7kv9-a1-m46-cB 7kv9-a1-m14-cB_7kv9-a1-m29-cB 7kv9-a1-m14-cB_7kv9-a1-m44-cB 7kv9-a1-m15-cB_7kv9-a1-m16-cB 7kv9-a1-m15-cB_7kv9-a1-m28-cB 7kv9-a1-m16-cB_7kv9-a1-m28-cB 7kv9-a1-m17-cB_7kv9-a1-m27-cB 7kv9-a1-m17-cB_7kv9-a1-m52-cB 7kv9-a1-m18-cB_7kv9-a1-m51-cB 7kv9-a1-m18-cB_7kv9-a1-m60-cB 7kv9-a1-m19-cB_7kv9-a1-m39-cB 7kv9-a1-m19-cB_7kv9-a1-m59-cB 7kv9-a1-m1-cB_7kv9-a1-m10-cB 7kv9-a1-m1-cB_7kv9-a1-m23-cB 7kv9-a1-m20-cB_7kv9-a1-m38-cB 7kv9-a1-m21-cB_7kv9-a1-m30-cB 7kv9-a1-m21-cB_7kv9-a1-m43-cB 7kv9-a1-m22-cB_7kv9-a1-m42-cB 7kv9-a1-m24-cB_7kv9-a1-m54-cB 7kv9-a1-m24-cB_7kv9-a1-m9-cB 7kv9-a1-m25-cB_7kv9-a1-m26-cB 7kv9-a1-m25-cB_7kv9-a1-m53-cB 7kv9-a1-m26-cB_7kv9-a1-m53-cB 7kv9-a1-m27-cB_7kv9-a1-m52-cB 7kv9-a1-m29-cB_7kv9-a1-m44-cB 7kv9-a1-m2-cB_7kv9-a1-m22-cB 7kv9-a1-m2-cB_7kv9-a1-m42-cB 7kv9-a1-m30-cB_7kv9-a1-m43-cB 7kv9-a1-m31-cB_7kv9-a1-m40-cB 7kv9-a1-m31-cB_7kv9-a1-m58-cB 7kv9-a1-m32-cB_7kv9-a1-m57-cB 7kv9-a1-m32-cB_7kv9-a1-m7-cB 7kv9-a1-m33-cB_7kv9-a1-m5-cB 7kv9-a1-m33-cB_7kv9-a1-m6-cB 7kv9-a1-m34-cB_7kv9-a1-m49-cB 7kv9-a1-m34-cB_7kv9-a1-m4-cB 7kv9-a1-m35-cB_7kv9-a1-m36-cB 7kv9-a1-m35-cB_7kv9-a1-m48-cB 7kv9-a1-m36-cB_7kv9-a1-m48-cB 7kv9-a1-m37-cB_7kv9-a1-m47-cB 7kv9-a1-m39-cB_7kv9-a1-m59-cB 7kv9-a1-m3-cB_7kv9-a1-m41-cB 7kv9-a1-m3-cB_7kv9-a1-m50-cB 7kv9-a1-m40-cB_7kv9-a1-m58-cB 7kv9-a1-m41-cB_7kv9-a1-m50-cB 7kv9-a1-m45-cB_7kv9-a1-m46-cB 7kv9-a1-m4-cB_7kv9-a1-m49-cB 7kv9-a1-m51-cB_7kv9-a1-m60-cB 7kv9-a1-m54-cB_7kv9-a1-m9-cB 7kv9-a1-m55-cB_7kv9-a1-m56-cB 7kv9-a1-m55-cB_7kv9-a1-m8-cB 7kv9-a1-m56-cB_7kv9-a1-m8-cB 7kv9-a1-m57-cB_7kv9-a1-m7-cB 7kv9-a1-m5-cB_7kv9-a1-m6-cB 7kva-a1-m10-cB_7kva-a1-m23-cB 7kva-a1-m11-cB_7kva-a1-m20-cB 7kva-a1-m11-cB_7kva-a1-m38-cB 7kva-a1-m12-cB_7kva-a1-m37-cB 7kva-a1-m12-cB_7kva-a1-m47-cB 7kva-a1-m13-cB_7kva-a1-m45-cB 7kva-a1-m13-cB_7kva-a1-m46-cB 7kva-a1-m14-cB_7kva-a1-m29-cB 7kva-a1-m14-cB_7kva-a1-m44-cB 7kva-a1-m15-cB_7kva-a1-m16-cB 7kva-a1-m15-cB_7kva-a1-m28-cB 7kva-a1-m16-cB_7kva-a1-m28-cB 7kva-a1-m17-cB_7kva-a1-m27-cB 7kva-a1-m17-cB_7kva-a1-m52-cB 7kva-a1-m18-cB_7kva-a1-m51-cB 7kva-a1-m18-cB_7kva-a1-m60-cB 7kva-a1-m19-cB_7kva-a1-m39-cB 7kva-a1-m19-cB_7kva-a1-m59-cB 7kva-a1-m1-cB_7kva-a1-m10-cB 7kva-a1-m1-cB_7kva-a1-m23-cB 7kva-a1-m20-cB_7kva-a1-m38-cB 7kva-a1-m21-cB_7kva-a1-m30-cB 7kva-a1-m21-cB_7kva-a1-m43-cB 7kva-a1-m22-cB_7kva-a1-m42-cB 7kva-a1-m24-cB_7kva-a1-m54-cB 7kva-a1-m24-cB_7kva-a1-m9-cB 7kva-a1-m25-cB_7kva-a1-m26-cB 7kva-a1-m25-cB_7kva-a1-m53-cB 7kva-a1-m26-cB_7kva-a1-m53-cB 7kva-a1-m27-cB_7kva-a1-m52-cB 7kva-a1-m29-cB_7kva-a1-m44-cB 7kva-a1-m2-cB_7kva-a1-m22-cB 7kva-a1-m2-cB_7kva-a1-m42-cB 7kva-a1-m30-cB_7kva-a1-m43-cB 7kva-a1-m31-cB_7kva-a1-m40-cB 7kva-a1-m31-cB_7kva-a1-m58-cB 7kva-a1-m32-cB_7kva-a1-m57-cB 7kva-a1-m32-cB_7kva-a1-m7-cB 7kva-a1-m33-cB_7kva-a1-m5-cB 7kva-a1-m33-cB_7kva-a1-m6-cB 7kva-a1-m34-cB_7kva-a1-m49-cB 7kva-a1-m34-cB_7kva-a1-m4-cB 7kva-a1-m35-cB_7kva-a1-m36-cB 7kva-a1-m35-cB_7kva-a1-m48-cB 7kva-a1-m36-cB_7kva-a1-m48-cB 7kva-a1-m37-cB_7kva-a1-m47-cB 7kva-a1-m39-cB_7kva-a1-m59-cB 7kva-a1-m3-cB_7kva-a1-m41-cB 7kva-a1-m3-cB_7kva-a1-m50-cB 7kva-a1-m40-cB_7kva-a1-m58-cB 7kva-a1-m41-cB_7kva-a1-m50-cB 7kva-a1-m45-cB_7kva-a1-m46-cB 7kva-a1-m4-cB_7kva-a1-m49-cB 7kva-a1-m51-cB_7kva-a1-m60-cB 7kva-a1-m55-cB_7kva-a1-m56-cB 7kva-a1-m55-cB_7kva-a1-m8-cB 7kva-a1-m56-cB_7kva-a1-m8-cB 7kva-a1-m57-cB_7kva-a1-m7-cB 7kva-a1-m5-cB_7kva-a1-m6-cB FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA 7kva-a1-m54-cB_7kva-a1-m9-cC Structure of West Nile virus (Kunjin) P14335 P14335 3.1 ELECTRON MICROSCOPY 42 1.0 11077 (Kunjin virus) 11077 (Kunjin virus) 501 501 3j0b-a1-m10-cA_3j0b-a1-m23-cC 3j0b-a1-m11-cA_3j0b-a1-m20-cC 3j0b-a1-m11-cC_3j0b-a1-m38-cA 3j0b-a1-m12-cA_3j0b-a1-m37-cC 3j0b-a1-m12-cC_3j0b-a1-m47-cA 3j0b-a1-m13-cA_3j0b-a1-m46-cC 3j0b-a1-m13-cC_3j0b-a1-m45-cA 3j0b-a1-m14-cA_3j0b-a1-m44-cC 3j0b-a1-m14-cC_3j0b-a1-m29-cA 3j0b-a1-m15-cA_3j0b-a1-m28-cC 3j0b-a1-m15-cC_3j0b-a1-m16-cA 3j0b-a1-m16-cC_3j0b-a1-m28-cA 3j0b-a1-m17-cA_3j0b-a1-m27-cC 3j0b-a1-m17-cC_3j0b-a1-m52-cA 3j0b-a1-m18-cA_3j0b-a1-m51-cC 3j0b-a1-m18-cC_3j0b-a1-m60-cA 3j0b-a1-m19-cA_3j0b-a1-m59-cC 3j0b-a1-m19-cC_3j0b-a1-m39-cA 3j0b-a1-m1-cA_3j0b-a1-m10-cC 3j0b-a1-m1-cC_3j0b-a1-m23-cA 3j0b-a1-m20-cA_3j0b-a1-m38-cC 3j0b-a1-m21-cA_3j0b-a1-m30-cC 3j0b-a1-m21-cC_3j0b-a1-m43-cA 3j0b-a1-m22-cA_3j0b-a1-m42-cC 3j0b-a1-m24-cA_3j0b-a1-m9-cC 3j0b-a1-m24-cC_3j0b-a1-m54-cA 3j0b-a1-m25-cA_3j0b-a1-m53-cC 3j0b-a1-m25-cC_3j0b-a1-m26-cA 3j0b-a1-m26-cC_3j0b-a1-m53-cA 3j0b-a1-m27-cA_3j0b-a1-m52-cC 3j0b-a1-m29-cC_3j0b-a1-m44-cA 3j0b-a1-m2-cA_3j0b-a1-m22-cC 3j0b-a1-m2-cC_3j0b-a1-m42-cA 3j0b-a1-m30-cA_3j0b-a1-m43-cC 3j0b-a1-m31-cA_3j0b-a1-m40-cC 3j0b-a1-m31-cC_3j0b-a1-m58-cA 3j0b-a1-m32-cA_3j0b-a1-m57-cC 3j0b-a1-m32-cC_3j0b-a1-m7-cA 3j0b-a1-m33-cA_3j0b-a1-m6-cC 3j0b-a1-m33-cC_3j0b-a1-m5-cA 3j0b-a1-m34-cA_3j0b-a1-m4-cC 3j0b-a1-m34-cC_3j0b-a1-m49-cA 3j0b-a1-m35-cA_3j0b-a1-m48-cC 3j0b-a1-m35-cC_3j0b-a1-m36-cA 3j0b-a1-m36-cC_3j0b-a1-m48-cA 3j0b-a1-m37-cA_3j0b-a1-m47-cC 3j0b-a1-m39-cC_3j0b-a1-m59-cA 3j0b-a1-m3-cA_3j0b-a1-m41-cC 3j0b-a1-m3-cC_3j0b-a1-m50-cA 3j0b-a1-m40-cA_3j0b-a1-m58-cC 3j0b-a1-m41-cA_3j0b-a1-m50-cC 3j0b-a1-m45-cC_3j0b-a1-m46-cA 3j0b-a1-m4-cA_3j0b-a1-m49-cC 3j0b-a1-m51-cA_3j0b-a1-m60-cC 3j0b-a1-m54-cC_3j0b-a1-m9-cA 3j0b-a1-m55-cA_3j0b-a1-m8-cC 3j0b-a1-m55-cC_3j0b-a1-m56-cA 3j0b-a1-m56-cC_3j0b-a1-m8-cA 3j0b-a1-m57-cA_3j0b-a1-m7-cC 3j0b-a1-m5-cC_3j0b-a1-m6-cA 7kv9-a1-m10-cC_7kv9-a1-m23-cB 7kv9-a1-m11-cB_7kv9-a1-m38-cC 7kv9-a1-m11-cC_7kv9-a1-m20-cB 7kv9-a1-m12-cB_7kv9-a1-m47-cC 7kv9-a1-m12-cC_7kv9-a1-m37-cB 7kv9-a1-m13-cB_7kv9-a1-m45-cC 7kv9-a1-m13-cC_7kv9-a1-m46-cB 7kv9-a1-m14-cB_7kv9-a1-m29-cC 7kv9-a1-m14-cC_7kv9-a1-m44-cB 7kv9-a1-m15-cB_7kv9-a1-m16-cC 7kv9-a1-m15-cC_7kv9-a1-m28-cB 7kv9-a1-m16-cB_7kv9-a1-m28-cC 7kv9-a1-m17-cB_7kv9-a1-m52-cC 7kv9-a1-m17-cC_7kv9-a1-m27-cB 7kv9-a1-m18-cB_7kv9-a1-m60-cC 7kv9-a1-m18-cC_7kv9-a1-m51-cB 7kv9-a1-m19-cB_7kv9-a1-m39-cC 7kv9-a1-m19-cC_7kv9-a1-m59-cB 7kv9-a1-m1-cB_7kv9-a1-m23-cC 7kv9-a1-m1-cC_7kv9-a1-m10-cB 7kv9-a1-m20-cC_7kv9-a1-m38-cB 7kv9-a1-m21-cB_7kv9-a1-m43-cC 7kv9-a1-m21-cC_7kv9-a1-m30-cB 7kv9-a1-m22-cC_7kv9-a1-m42-cB 7kv9-a1-m24-cB_7kv9-a1-m54-cC 7kv9-a1-m24-cC_7kv9-a1-m9-cB 7kv9-a1-m25-cB_7kv9-a1-m26-cC 7kv9-a1-m25-cC_7kv9-a1-m53-cB 7kv9-a1-m26-cB_7kv9-a1-m53-cC 7kv9-a1-m27-cC_7kv9-a1-m52-cB 7kv9-a1-m29-cB_7kv9-a1-m44-cC 7kv9-a1-m2-cB_7kv9-a1-m42-cC 7kv9-a1-m2-cC_7kv9-a1-m22-cB 7kv9-a1-m30-cC_7kv9-a1-m43-cB 7kv9-a1-m31-cB_7kv9-a1-m58-cC 7kv9-a1-m31-cC_7kv9-a1-m40-cB 7kv9-a1-m32-cB_7kv9-a1-m7-cC 7kv9-a1-m32-cC_7kv9-a1-m57-cB 7kv9-a1-m33-cB_7kv9-a1-m5-cC 7kv9-a1-m33-cC_7kv9-a1-m6-cB 7kv9-a1-m34-cB_7kv9-a1-m49-cC 7kv9-a1-m34-cC_7kv9-a1-m4-cB 7kv9-a1-m35-cB_7kv9-a1-m36-cC 7kv9-a1-m35-cC_7kv9-a1-m48-cB 7kv9-a1-m36-cB_7kv9-a1-m48-cC 7kv9-a1-m37-cC_7kv9-a1-m47-cB 7kv9-a1-m39-cB_7kv9-a1-m59-cC 7kv9-a1-m3-cB_7kv9-a1-m50-cC 7kv9-a1-m3-cC_7kv9-a1-m41-cB 7kv9-a1-m40-cC_7kv9-a1-m58-cB 7kv9-a1-m41-cC_7kv9-a1-m50-cB 7kv9-a1-m45-cB_7kv9-a1-m46-cC 7kv9-a1-m4-cC_7kv9-a1-m49-cB 7kv9-a1-m51-cC_7kv9-a1-m60-cB 7kv9-a1-m54-cB_7kv9-a1-m9-cC 7kv9-a1-m55-cB_7kv9-a1-m56-cC 7kv9-a1-m55-cC_7kv9-a1-m8-cB 7kv9-a1-m56-cB_7kv9-a1-m8-cC 7kv9-a1-m57-cC_7kv9-a1-m7-cB 7kv9-a1-m5-cB_7kv9-a1-m6-cC 7kva-a1-m10-cC_7kva-a1-m23-cB 7kva-a1-m11-cB_7kva-a1-m38-cC 7kva-a1-m11-cC_7kva-a1-m20-cB 7kva-a1-m12-cB_7kva-a1-m47-cC 7kva-a1-m12-cC_7kva-a1-m37-cB 7kva-a1-m13-cB_7kva-a1-m45-cC 7kva-a1-m13-cC_7kva-a1-m46-cB 7kva-a1-m14-cB_7kva-a1-m29-cC 7kva-a1-m14-cC_7kva-a1-m44-cB 7kva-a1-m15-cB_7kva-a1-m16-cC 7kva-a1-m15-cC_7kva-a1-m28-cB 7kva-a1-m16-cB_7kva-a1-m28-cC 7kva-a1-m17-cB_7kva-a1-m52-cC 7kva-a1-m17-cC_7kva-a1-m27-cB 7kva-a1-m18-cB_7kva-a1-m60-cC 7kva-a1-m18-cC_7kva-a1-m51-cB 7kva-a1-m19-cB_7kva-a1-m39-cC 7kva-a1-m19-cC_7kva-a1-m59-cB 7kva-a1-m1-cB_7kva-a1-m23-cC 7kva-a1-m1-cC_7kva-a1-m10-cB 7kva-a1-m20-cC_7kva-a1-m38-cB 7kva-a1-m21-cB_7kva-a1-m43-cC 7kva-a1-m21-cC_7kva-a1-m30-cB 7kva-a1-m22-cC_7kva-a1-m42-cB 7kva-a1-m24-cB_7kva-a1-m54-cC 7kva-a1-m24-cC_7kva-a1-m9-cB 7kva-a1-m25-cB_7kva-a1-m26-cC 7kva-a1-m25-cC_7kva-a1-m53-cB 7kva-a1-m26-cB_7kva-a1-m53-cC 7kva-a1-m27-cC_7kva-a1-m52-cB 7kva-a1-m29-cB_7kva-a1-m44-cC 7kva-a1-m2-cB_7kva-a1-m42-cC 7kva-a1-m2-cC_7kva-a1-m22-cB 7kva-a1-m30-cC_7kva-a1-m43-cB 7kva-a1-m31-cB_7kva-a1-m58-cC 7kva-a1-m31-cC_7kva-a1-m40-cB 7kva-a1-m32-cB_7kva-a1-m7-cC 7kva-a1-m32-cC_7kva-a1-m57-cB 7kva-a1-m33-cB_7kva-a1-m5-cC 7kva-a1-m33-cC_7kva-a1-m6-cB 7kva-a1-m34-cB_7kva-a1-m49-cC 7kva-a1-m34-cC_7kva-a1-m4-cB 7kva-a1-m35-cB_7kva-a1-m36-cC 7kva-a1-m35-cC_7kva-a1-m48-cB 7kva-a1-m36-cB_7kva-a1-m48-cC 7kva-a1-m37-cC_7kva-a1-m47-cB 7kva-a1-m39-cB_7kva-a1-m59-cC 7kva-a1-m3-cB_7kva-a1-m50-cC 7kva-a1-m3-cC_7kva-a1-m41-cB 7kva-a1-m40-cC_7kva-a1-m58-cB 7kva-a1-m41-cC_7kva-a1-m50-cB 7kva-a1-m45-cB_7kva-a1-m46-cC 7kva-a1-m4-cC_7kva-a1-m49-cB 7kva-a1-m51-cC_7kva-a1-m60-cB 7kva-a1-m55-cB_7kva-a1-m56-cC 7kva-a1-m55-cC_7kva-a1-m8-cB 7kva-a1-m56-cB_7kva-a1-m8-cC 7kva-a1-m57-cC_7kva-a1-m7-cB 7kva-a1-m5-cB_7kva-a1-m6-cC FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA 7kva-a1-m55-cc_7kva-a1-m9-cc Structure of West Nile virus (Kunjin) P14335 P14335 3.1 ELECTRON MICROSCOPY 52 1.0 11077 (Kunjin virus) 11077 (Kunjin virus) 71 71 7kv9-a1-m10-ca_7kv9-a1-m10-cb 7kv9-a1-m10-cc_7kv9-a1-m24-cc 7kv9-a1-m11-ca_7kv9-a1-m11-cb 7kv9-a1-m11-cc_7kv9-a1-m16-cc 7kv9-a1-m12-ca_7kv9-a1-m12-cb 7kv9-a1-m12-cc_7kv9-a1-m38-cc 7kv9-a1-m13-ca_7kv9-a1-m13-cb 7kv9-a1-m13-cc_7kv9-a1-m47-cc 7kv9-a1-m14-ca_7kv9-a1-m14-cb 7kv9-a1-m14-cc_7kv9-a1-m45-cc 7kv9-a1-m15-ca_7kv9-a1-m15-cb 7kv9-a1-m15-cc_7kv9-a1-m29-cc 7kv9-a1-m16-ca_7kv9-a1-m16-cb 7kv9-a1-m17-ca_7kv9-a1-m17-cb 7kv9-a1-m17-cc_7kv9-a1-m28-cc 7kv9-a1-m18-ca_7kv9-a1-m18-cb 7kv9-a1-m18-cc_7kv9-a1-m52-cc 7kv9-a1-m19-ca_7kv9-a1-m19-cb 7kv9-a1-m19-cc_7kv9-a1-m60-cc 7kv9-a1-m1-ca_7kv9-a1-m1-cb 7kv9-a1-m1-cc_7kv9-a1-m6-cc 7kv9-a1-m20-ca_7kv9-a1-m20-cb 7kv9-a1-m20-cc_7kv9-a1-m39-cc 7kv9-a1-m21-ca_7kv9-a1-m21-cb 7kv9-a1-m21-cc_7kv9-a1-m26-cc 7kv9-a1-m22-ca_7kv9-a1-m22-cb 7kv9-a1-m22-cc_7kv9-a1-m43-cc 7kv9-a1-m23-ca_7kv9-a1-m23-cb 7kv9-a1-m24-ca_7kv9-a1-m24-cb 7kv9-a1-m25-ca_7kv9-a1-m25-cb 7kv9-a1-m25-cc_7kv9-a1-m54-cc 7kv9-a1-m26-ca_7kv9-a1-m26-cb 7kv9-a1-m27-ca_7kv9-a1-m27-cb 7kv9-a1-m27-cc_7kv9-a1-m53-cc 7kv9-a1-m28-ca_7kv9-a1-m28-cb 7kv9-a1-m29-ca_7kv9-a1-m29-cb 7kv9-a1-m2-ca_7kv9-a1-m2-cb 7kv9-a1-m2-cc_7kv9-a1-m23-cc 7kv9-a1-m30-ca_7kv9-a1-m30-cb 7kv9-a1-m30-cc_7kv9-a1-m44-cc 7kv9-a1-m31-ca_7kv9-a1-m31-cb 7kv9-a1-m31-cc_7kv9-a1-m36-cc 7kv9-a1-m32-ca_7kv9-a1-m32-cb 7kv9-a1-m32-cc_7kv9-a1-m58-cc 7kv9-a1-m33-ca_7kv9-a1-m33-cb 7kv9-a1-m33-cc_7kv9-a1-m7-cc 7kv9-a1-m34-ca_7kv9-a1-m34-cb 7kv9-a1-m34-cc_7kv9-a1-m5-cc 7kv9-a1-m35-ca_7kv9-a1-m35-cb 7kv9-a1-m35-cc_7kv9-a1-m49-cc 7kv9-a1-m36-ca_7kv9-a1-m36-cb 7kv9-a1-m37-ca_7kv9-a1-m37-cb 7kv9-a1-m37-cc_7kv9-a1-m48-cc 7kv9-a1-m38-ca_7kv9-a1-m38-cb 7kv9-a1-m39-ca_7kv9-a1-m39-cb 7kv9-a1-m3-ca_7kv9-a1-m3-cb 7kv9-a1-m3-cc_7kv9-a1-m42-cc 7kv9-a1-m40-ca_7kv9-a1-m40-cb 7kv9-a1-m40-cc_7kv9-a1-m59-cc 7kv9-a1-m41-ca_7kv9-a1-m41-cb 7kv9-a1-m41-cc_7kv9-a1-m46-cc 7kv9-a1-m42-ca_7kv9-a1-m42-cb 7kv9-a1-m43-ca_7kv9-a1-m43-cb 7kv9-a1-m44-ca_7kv9-a1-m44-cb 7kv9-a1-m45-ca_7kv9-a1-m45-cb 7kv9-a1-m46-ca_7kv9-a1-m46-cb 7kv9-a1-m47-ca_7kv9-a1-m47-cb 7kv9-a1-m48-ca_7kv9-a1-m48-cb 7kv9-a1-m49-ca_7kv9-a1-m49-cb 7kv9-a1-m4-ca_7kv9-a1-m4-cb 7kv9-a1-m4-cc_7kv9-a1-m50-cc 7kv9-a1-m50-ca_7kv9-a1-m50-cb 7kv9-a1-m51-ca_7kv9-a1-m51-cb 7kv9-a1-m51-cc_7kv9-a1-m56-cc 7kv9-a1-m52-ca_7kv9-a1-m52-cb 7kv9-a1-m53-ca_7kv9-a1-m53-cb 7kv9-a1-m54-ca_7kv9-a1-m54-cb 7kv9-a1-m55-ca_7kv9-a1-m55-cb 7kv9-a1-m55-cc_7kv9-a1-m9-cc 7kv9-a1-m56-ca_7kv9-a1-m56-cb 7kv9-a1-m57-ca_7kv9-a1-m57-cb 7kv9-a1-m57-cc_7kv9-a1-m8-cc 7kv9-a1-m58-ca_7kv9-a1-m58-cb 7kv9-a1-m59-ca_7kv9-a1-m59-cb 7kv9-a1-m5-ca_7kv9-a1-m5-cb 7kv9-a1-m60-ca_7kv9-a1-m60-cb 7kv9-a1-m6-ca_7kv9-a1-m6-cb 7kv9-a1-m7-ca_7kv9-a1-m7-cb 7kv9-a1-m8-ca_7kv9-a1-m8-cb 7kv9-a1-m9-ca_7kv9-a1-m9-cb 7kva-a1-m10-ca_7kva-a1-m10-cb 7kva-a1-m10-cc_7kva-a1-m24-cc 7kva-a1-m11-ca_7kva-a1-m11-cb 7kva-a1-m11-cc_7kva-a1-m16-cc 7kva-a1-m12-ca_7kva-a1-m12-cb 7kva-a1-m12-cc_7kva-a1-m38-cc 7kva-a1-m13-ca_7kva-a1-m13-cb 7kva-a1-m13-cc_7kva-a1-m47-cc 7kva-a1-m14-ca_7kva-a1-m14-cb 7kva-a1-m14-cc_7kva-a1-m45-cc 7kva-a1-m15-ca_7kva-a1-m15-cb 7kva-a1-m15-cc_7kva-a1-m29-cc 7kva-a1-m16-ca_7kva-a1-m16-cb 7kva-a1-m17-ca_7kva-a1-m17-cb 7kva-a1-m17-cc_7kva-a1-m28-cc 7kva-a1-m18-ca_7kva-a1-m18-cb 7kva-a1-m18-cc_7kva-a1-m52-cc 7kva-a1-m19-ca_7kva-a1-m19-cb 7kva-a1-m19-cc_7kva-a1-m60-cc 7kva-a1-m1-ca_7kva-a1-m1-cb 7kva-a1-m1-cc_7kva-a1-m6-cc 7kva-a1-m20-ca_7kva-a1-m20-cb 7kva-a1-m20-cc_7kva-a1-m39-cc 7kva-a1-m21-ca_7kva-a1-m21-cb 7kva-a1-m21-cc_7kva-a1-m26-cc 7kva-a1-m22-ca_7kva-a1-m22-cb 7kva-a1-m22-cc_7kva-a1-m43-cc 7kva-a1-m23-ca_7kva-a1-m23-cb 7kva-a1-m24-ca_7kva-a1-m24-cb 7kva-a1-m25-ca_7kva-a1-m25-cb 7kva-a1-m25-cc_7kva-a1-m54-cc 7kva-a1-m26-ca_7kva-a1-m26-cb 7kva-a1-m27-ca_7kva-a1-m27-cb 7kva-a1-m27-cc_7kva-a1-m53-cc 7kva-a1-m28-ca_7kva-a1-m28-cb 7kva-a1-m29-ca_7kva-a1-m29-cb 7kva-a1-m2-ca_7kva-a1-m2-cb 7kva-a1-m2-cc_7kva-a1-m23-cc 7kva-a1-m30-ca_7kva-a1-m30-cb 7kva-a1-m30-cc_7kva-a1-m44-cc 7kva-a1-m31-ca_7kva-a1-m31-cb 7kva-a1-m31-cc_7kva-a1-m36-cc 7kva-a1-m32-ca_7kva-a1-m32-cb 7kva-a1-m32-cc_7kva-a1-m58-cc 7kva-a1-m33-ca_7kva-a1-m33-cb 7kva-a1-m33-cc_7kva-a1-m7-cc 7kva-a1-m34-ca_7kva-a1-m34-cb 7kva-a1-m34-cc_7kva-a1-m5-cc 7kva-a1-m35-ca_7kva-a1-m35-cb 7kva-a1-m35-cc_7kva-a1-m49-cc 7kva-a1-m36-ca_7kva-a1-m36-cb 7kva-a1-m37-ca_7kva-a1-m37-cb 7kva-a1-m37-cc_7kva-a1-m48-cc 7kva-a1-m38-ca_7kva-a1-m38-cb 7kva-a1-m39-ca_7kva-a1-m39-cb 7kva-a1-m3-ca_7kva-a1-m3-cb 7kva-a1-m3-cc_7kva-a1-m42-cc 7kva-a1-m40-ca_7kva-a1-m40-cb 7kva-a1-m40-cc_7kva-a1-m59-cc 7kva-a1-m41-ca_7kva-a1-m41-cb 7kva-a1-m41-cc_7kva-a1-m46-cc 7kva-a1-m42-ca_7kva-a1-m42-cb 7kva-a1-m43-ca_7kva-a1-m43-cb 7kva-a1-m44-ca_7kva-a1-m44-cb 7kva-a1-m45-ca_7kva-a1-m45-cb 7kva-a1-m46-ca_7kva-a1-m46-cb 7kva-a1-m47-ca_7kva-a1-m47-cb 7kva-a1-m48-ca_7kva-a1-m48-cb 7kva-a1-m49-ca_7kva-a1-m49-cb 7kva-a1-m4-ca_7kva-a1-m4-cb 7kva-a1-m4-cc_7kva-a1-m50-cc 7kva-a1-m50-ca_7kva-a1-m50-cb 7kva-a1-m51-ca_7kva-a1-m51-cb 7kva-a1-m51-cc_7kva-a1-m56-cc 7kva-a1-m52-ca_7kva-a1-m52-cb 7kva-a1-m53-ca_7kva-a1-m53-cb 7kva-a1-m54-ca_7kva-a1-m54-cb 7kva-a1-m55-ca_7kva-a1-m55-cb 7kva-a1-m56-ca_7kva-a1-m56-cb 7kva-a1-m57-ca_7kva-a1-m57-cb 7kva-a1-m57-cc_7kva-a1-m8-cc 7kva-a1-m58-ca_7kva-a1-m58-cb 7kva-a1-m59-ca_7kva-a1-m59-cb 7kva-a1-m5-ca_7kva-a1-m5-cb 7kva-a1-m60-ca_7kva-a1-m60-cb 7kva-a1-m6-ca_7kva-a1-m6-cb 7kva-a1-m7-ca_7kva-a1-m7-cb 7kva-a1-m8-ca_7kva-a1-m8-cb 7kva-a1-m9-ca_7kva-a1-m9-cb QTHGESTLSNKKGAWMDSTKATRYLVKTESWILRNPGYALVAAVIGWMLGSNTMQRVVFTVLLLLVAPAYS QTHGESTLSNKKGAWMDSTKATRYLVKTESWILRNPGYALVAAVIGWMLGSNTMQRVVFTVLLLLVAPAYS 7kva-a1-m8-cA_7kva-a1-m9-cA Structure of West Nile virus (Kunjin) P14335 P14335 3.1 ELECTRON MICROSCOPY 39 1.0 11077 (Kunjin virus) 11077 (Kunjin virus) 501 501 3iyw-a1-m10-cC_3iyw-a1-m6-cC 3iyw-a1-m10-cC_3iyw-a1-m9-cC 3iyw-a1-m11-cC_3iyw-a1-m12-cC 3iyw-a1-m11-cC_3iyw-a1-m15-cC 3iyw-a1-m12-cC_3iyw-a1-m13-cC 3iyw-a1-m13-cC_3iyw-a1-m14-cC 3iyw-a1-m14-cC_3iyw-a1-m15-cC 3iyw-a1-m16-cC_3iyw-a1-m17-cC 3iyw-a1-m16-cC_3iyw-a1-m20-cC 3iyw-a1-m17-cC_3iyw-a1-m18-cC 3iyw-a1-m18-cC_3iyw-a1-m19-cC 3iyw-a1-m19-cC_3iyw-a1-m20-cC 3iyw-a1-m1-cC_3iyw-a1-m2-cC 3iyw-a1-m1-cC_3iyw-a1-m5-cC 3iyw-a1-m21-cC_3iyw-a1-m22-cC 3iyw-a1-m21-cC_3iyw-a1-m25-cC 3iyw-a1-m22-cC_3iyw-a1-m23-cC 3iyw-a1-m23-cC_3iyw-a1-m24-cC 3iyw-a1-m24-cC_3iyw-a1-m25-cC 3iyw-a1-m26-cC_3iyw-a1-m27-cC 3iyw-a1-m26-cC_3iyw-a1-m30-cC 3iyw-a1-m27-cC_3iyw-a1-m28-cC 3iyw-a1-m28-cC_3iyw-a1-m29-cC 3iyw-a1-m29-cC_3iyw-a1-m30-cC 3iyw-a1-m2-cC_3iyw-a1-m3-cC 3iyw-a1-m31-cC_3iyw-a1-m32-cC 3iyw-a1-m31-cC_3iyw-a1-m35-cC 3iyw-a1-m32-cC_3iyw-a1-m33-cC 3iyw-a1-m33-cC_3iyw-a1-m34-cC 3iyw-a1-m34-cC_3iyw-a1-m35-cC 3iyw-a1-m36-cC_3iyw-a1-m37-cC 3iyw-a1-m36-cC_3iyw-a1-m40-cC 3iyw-a1-m37-cC_3iyw-a1-m38-cC 3iyw-a1-m38-cC_3iyw-a1-m39-cC 3iyw-a1-m39-cC_3iyw-a1-m40-cC 3iyw-a1-m3-cC_3iyw-a1-m4-cC 3iyw-a1-m41-cC_3iyw-a1-m42-cC 3iyw-a1-m41-cC_3iyw-a1-m45-cC 3iyw-a1-m42-cC_3iyw-a1-m43-cC 3iyw-a1-m43-cC_3iyw-a1-m44-cC 3iyw-a1-m44-cC_3iyw-a1-m45-cC 3iyw-a1-m46-cC_3iyw-a1-m47-cC 3iyw-a1-m46-cC_3iyw-a1-m50-cC 3iyw-a1-m47-cC_3iyw-a1-m48-cC 3iyw-a1-m48-cC_3iyw-a1-m49-cC 3iyw-a1-m49-cC_3iyw-a1-m50-cC 3iyw-a1-m4-cC_3iyw-a1-m5-cC 3iyw-a1-m51-cC_3iyw-a1-m52-cC 3iyw-a1-m51-cC_3iyw-a1-m55-cC 3iyw-a1-m52-cC_3iyw-a1-m53-cC 3iyw-a1-m53-cC_3iyw-a1-m54-cC 3iyw-a1-m54-cC_3iyw-a1-m55-cC 3iyw-a1-m56-cC_3iyw-a1-m57-cC 3iyw-a1-m56-cC_3iyw-a1-m60-cC 3iyw-a1-m57-cC_3iyw-a1-m58-cC 3iyw-a1-m58-cC_3iyw-a1-m59-cC 3iyw-a1-m59-cC_3iyw-a1-m60-cC 3iyw-a1-m6-cC_3iyw-a1-m7-cC 3iyw-a1-m7-cC_3iyw-a1-m8-cC 3iyw-a1-m8-cC_3iyw-a1-m9-cC 3j0b-a1-m10-cB_3j0b-a1-m6-cB 3j0b-a1-m10-cB_3j0b-a1-m9-cB 3j0b-a1-m11-cB_3j0b-a1-m12-cB 3j0b-a1-m11-cB_3j0b-a1-m15-cB 3j0b-a1-m12-cB_3j0b-a1-m13-cB 3j0b-a1-m13-cB_3j0b-a1-m14-cB 3j0b-a1-m14-cB_3j0b-a1-m15-cB 3j0b-a1-m16-cB_3j0b-a1-m17-cB 3j0b-a1-m16-cB_3j0b-a1-m20-cB 3j0b-a1-m17-cB_3j0b-a1-m18-cB 3j0b-a1-m18-cB_3j0b-a1-m19-cB 3j0b-a1-m19-cB_3j0b-a1-m20-cB 3j0b-a1-m1-cB_3j0b-a1-m2-cB 3j0b-a1-m1-cB_3j0b-a1-m5-cB 3j0b-a1-m21-cB_3j0b-a1-m22-cB 3j0b-a1-m21-cB_3j0b-a1-m25-cB 3j0b-a1-m22-cB_3j0b-a1-m23-cB 3j0b-a1-m23-cB_3j0b-a1-m24-cB 3j0b-a1-m24-cB_3j0b-a1-m25-cB 3j0b-a1-m26-cB_3j0b-a1-m27-cB 3j0b-a1-m26-cB_3j0b-a1-m30-cB 3j0b-a1-m27-cB_3j0b-a1-m28-cB 3j0b-a1-m28-cB_3j0b-a1-m29-cB 3j0b-a1-m29-cB_3j0b-a1-m30-cB 3j0b-a1-m2-cB_3j0b-a1-m3-cB 3j0b-a1-m31-cB_3j0b-a1-m32-cB 3j0b-a1-m31-cB_3j0b-a1-m35-cB 3j0b-a1-m32-cB_3j0b-a1-m33-cB 3j0b-a1-m33-cB_3j0b-a1-m34-cB 3j0b-a1-m34-cB_3j0b-a1-m35-cB 3j0b-a1-m36-cB_3j0b-a1-m37-cB 3j0b-a1-m36-cB_3j0b-a1-m40-cB 3j0b-a1-m37-cB_3j0b-a1-m38-cB 3j0b-a1-m38-cB_3j0b-a1-m39-cB 3j0b-a1-m39-cB_3j0b-a1-m40-cB 3j0b-a1-m3-cB_3j0b-a1-m4-cB 3j0b-a1-m41-cB_3j0b-a1-m42-cB 3j0b-a1-m41-cB_3j0b-a1-m45-cB 3j0b-a1-m42-cB_3j0b-a1-m43-cB 3j0b-a1-m43-cB_3j0b-a1-m44-cB 3j0b-a1-m44-cB_3j0b-a1-m45-cB 3j0b-a1-m46-cB_3j0b-a1-m47-cB 3j0b-a1-m46-cB_3j0b-a1-m50-cB 3j0b-a1-m47-cB_3j0b-a1-m48-cB 3j0b-a1-m48-cB_3j0b-a1-m49-cB 3j0b-a1-m49-cB_3j0b-a1-m50-cB 3j0b-a1-m4-cB_3j0b-a1-m5-cB 3j0b-a1-m51-cB_3j0b-a1-m52-cB 3j0b-a1-m51-cB_3j0b-a1-m55-cB 3j0b-a1-m52-cB_3j0b-a1-m53-cB 3j0b-a1-m53-cB_3j0b-a1-m54-cB 3j0b-a1-m54-cB_3j0b-a1-m55-cB 3j0b-a1-m56-cB_3j0b-a1-m57-cB 3j0b-a1-m56-cB_3j0b-a1-m60-cB 3j0b-a1-m57-cB_3j0b-a1-m58-cB 3j0b-a1-m58-cB_3j0b-a1-m59-cB 3j0b-a1-m59-cB_3j0b-a1-m60-cB 3j0b-a1-m6-cB_3j0b-a1-m7-cB 3j0b-a1-m7-cB_3j0b-a1-m8-cB 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FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA 7kva-a1-m9-cA_7kva-a1-m9-cC Structure of West Nile virus (Kunjin) P14335 P14335 3.1 ELECTRON MICROSCOPY 52 1.0 11077 (Kunjin virus) 11077 (Kunjin virus) 501 501 3iyw-a1-m10-cA_3iyw-a1-m10-cC 3iyw-a1-m11-cA_3iyw-a1-m11-cC 3iyw-a1-m12-cA_3iyw-a1-m12-cC 3iyw-a1-m13-cA_3iyw-a1-m13-cC 3iyw-a1-m14-cA_3iyw-a1-m14-cC 3iyw-a1-m15-cA_3iyw-a1-m15-cC 3iyw-a1-m16-cA_3iyw-a1-m16-cC 3iyw-a1-m17-cA_3iyw-a1-m17-cC 3iyw-a1-m18-cA_3iyw-a1-m18-cC 3iyw-a1-m19-cA_3iyw-a1-m19-cC 3iyw-a1-m1-cA_3iyw-a1-m1-cC 3iyw-a1-m20-cA_3iyw-a1-m20-cC 3iyw-a1-m21-cA_3iyw-a1-m21-cC 3iyw-a1-m22-cA_3iyw-a1-m22-cC 3iyw-a1-m23-cA_3iyw-a1-m23-cC 3iyw-a1-m24-cA_3iyw-a1-m24-cC 3iyw-a1-m25-cA_3iyw-a1-m25-cC 3iyw-a1-m26-cA_3iyw-a1-m26-cC 3iyw-a1-m27-cA_3iyw-a1-m27-cC 3iyw-a1-m28-cA_3iyw-a1-m28-cC 3iyw-a1-m29-cA_3iyw-a1-m29-cC 3iyw-a1-m2-cA_3iyw-a1-m2-cC 3iyw-a1-m30-cA_3iyw-a1-m30-cC 3iyw-a1-m31-cA_3iyw-a1-m31-cC 3iyw-a1-m32-cA_3iyw-a1-m32-cC 3iyw-a1-m33-cA_3iyw-a1-m33-cC 3iyw-a1-m34-cA_3iyw-a1-m34-cC 3iyw-a1-m35-cA_3iyw-a1-m35-cC 3iyw-a1-m36-cA_3iyw-a1-m36-cC 3iyw-a1-m37-cA_3iyw-a1-m37-cC 3iyw-a1-m38-cA_3iyw-a1-m38-cC 3iyw-a1-m39-cA_3iyw-a1-m39-cC 3iyw-a1-m3-cA_3iyw-a1-m3-cC 3iyw-a1-m40-cA_3iyw-a1-m40-cC 3iyw-a1-m41-cA_3iyw-a1-m41-cC 3iyw-a1-m42-cA_3iyw-a1-m42-cC 3iyw-a1-m43-cA_3iyw-a1-m43-cC 3iyw-a1-m44-cA_3iyw-a1-m44-cC 3iyw-a1-m45-cA_3iyw-a1-m45-cC 3iyw-a1-m46-cA_3iyw-a1-m46-cC 3iyw-a1-m47-cA_3iyw-a1-m47-cC 3iyw-a1-m48-cA_3iyw-a1-m48-cC 3iyw-a1-m49-cA_3iyw-a1-m49-cC 3iyw-a1-m4-cA_3iyw-a1-m4-cC 3iyw-a1-m50-cA_3iyw-a1-m50-cC 3iyw-a1-m51-cA_3iyw-a1-m51-cC 3iyw-a1-m52-cA_3iyw-a1-m52-cC 3iyw-a1-m53-cA_3iyw-a1-m53-cC 3iyw-a1-m54-cA_3iyw-a1-m54-cC 3iyw-a1-m55-cA_3iyw-a1-m55-cC 3iyw-a1-m56-cA_3iyw-a1-m56-cC 3iyw-a1-m57-cA_3iyw-a1-m57-cC 3iyw-a1-m58-cA_3iyw-a1-m58-cC 3iyw-a1-m59-cA_3iyw-a1-m59-cC 3iyw-a1-m5-cA_3iyw-a1-m5-cC 3iyw-a1-m60-cA_3iyw-a1-m60-cC 3iyw-a1-m6-cA_3iyw-a1-m6-cC 3iyw-a1-m7-cA_3iyw-a1-m7-cC 3iyw-a1-m8-cA_3iyw-a1-m8-cC 3iyw-a1-m9-cA_3iyw-a1-m9-cC 7kv9-a1-m10-cA_7kv9-a1-m10-cC 7kv9-a1-m11-cA_7kv9-a1-m11-cC 7kv9-a1-m12-cA_7kv9-a1-m12-cC 7kv9-a1-m13-cA_7kv9-a1-m13-cC 7kv9-a1-m14-cA_7kv9-a1-m14-cC 7kv9-a1-m15-cA_7kv9-a1-m15-cC 7kv9-a1-m16-cA_7kv9-a1-m16-cC 7kv9-a1-m17-cA_7kv9-a1-m17-cC 7kv9-a1-m18-cA_7kv9-a1-m18-cC 7kv9-a1-m19-cA_7kv9-a1-m19-cC 7kv9-a1-m1-cA_7kv9-a1-m1-cC 7kv9-a1-m20-cA_7kv9-a1-m20-cC 7kv9-a1-m21-cA_7kv9-a1-m21-cC 7kv9-a1-m22-cA_7kv9-a1-m22-cC 7kv9-a1-m23-cA_7kv9-a1-m23-cC 7kv9-a1-m24-cA_7kv9-a1-m24-cC 7kv9-a1-m25-cA_7kv9-a1-m25-cC 7kv9-a1-m26-cA_7kv9-a1-m26-cC 7kv9-a1-m27-cA_7kv9-a1-m27-cC 7kv9-a1-m28-cA_7kv9-a1-m28-cC 7kv9-a1-m29-cA_7kv9-a1-m29-cC 7kv9-a1-m2-cA_7kv9-a1-m2-cC 7kv9-a1-m30-cA_7kv9-a1-m30-cC 7kv9-a1-m31-cA_7kv9-a1-m31-cC 7kv9-a1-m32-cA_7kv9-a1-m32-cC 7kv9-a1-m33-cA_7kv9-a1-m33-cC 7kv9-a1-m34-cA_7kv9-a1-m34-cC 7kv9-a1-m35-cA_7kv9-a1-m35-cC 7kv9-a1-m36-cA_7kv9-a1-m36-cC 7kv9-a1-m37-cA_7kv9-a1-m37-cC 7kv9-a1-m38-cA_7kv9-a1-m38-cC 7kv9-a1-m39-cA_7kv9-a1-m39-cC 7kv9-a1-m3-cA_7kv9-a1-m3-cC 7kv9-a1-m40-cA_7kv9-a1-m40-cC 7kv9-a1-m41-cA_7kv9-a1-m41-cC 7kv9-a1-m42-cA_7kv9-a1-m42-cC 7kv9-a1-m43-cA_7kv9-a1-m43-cC 7kv9-a1-m44-cA_7kv9-a1-m44-cC 7kv9-a1-m45-cA_7kv9-a1-m45-cC 7kv9-a1-m46-cA_7kv9-a1-m46-cC 7kv9-a1-m47-cA_7kv9-a1-m47-cC 7kv9-a1-m48-cA_7kv9-a1-m48-cC 7kv9-a1-m49-cA_7kv9-a1-m49-cC 7kv9-a1-m4-cA_7kv9-a1-m4-cC 7kv9-a1-m50-cA_7kv9-a1-m50-cC 7kv9-a1-m51-cA_7kv9-a1-m51-cC 7kv9-a1-m52-cA_7kv9-a1-m52-cC 7kv9-a1-m53-cA_7kv9-a1-m53-cC 7kv9-a1-m54-cA_7kv9-a1-m54-cC 7kv9-a1-m55-cA_7kv9-a1-m55-cC 7kv9-a1-m56-cA_7kv9-a1-m56-cC 7kv9-a1-m57-cA_7kv9-a1-m57-cC 7kv9-a1-m58-cA_7kv9-a1-m58-cC 7kv9-a1-m59-cA_7kv9-a1-m59-cC 7kv9-a1-m5-cA_7kv9-a1-m5-cC 7kv9-a1-m60-cA_7kv9-a1-m60-cC 7kv9-a1-m6-cA_7kv9-a1-m6-cC 7kv9-a1-m7-cA_7kv9-a1-m7-cC 7kv9-a1-m8-cA_7kv9-a1-m8-cC 7kv9-a1-m9-cA_7kv9-a1-m9-cC 7kva-a1-m10-cA_7kva-a1-m10-cC 7kva-a1-m11-cA_7kva-a1-m11-cC 7kva-a1-m12-cA_7kva-a1-m12-cC 7kva-a1-m13-cA_7kva-a1-m13-cC 7kva-a1-m14-cA_7kva-a1-m14-cC 7kva-a1-m15-cA_7kva-a1-m15-cC 7kva-a1-m16-cA_7kva-a1-m16-cC 7kva-a1-m17-cA_7kva-a1-m17-cC 7kva-a1-m18-cA_7kva-a1-m18-cC 7kva-a1-m19-cA_7kva-a1-m19-cC 7kva-a1-m1-cA_7kva-a1-m1-cC 7kva-a1-m20-cA_7kva-a1-m20-cC 7kva-a1-m21-cA_7kva-a1-m21-cC 7kva-a1-m22-cA_7kva-a1-m22-cC 7kva-a1-m23-cA_7kva-a1-m23-cC 7kva-a1-m24-cA_7kva-a1-m24-cC 7kva-a1-m25-cA_7kva-a1-m25-cC 7kva-a1-m26-cA_7kva-a1-m26-cC 7kva-a1-m27-cA_7kva-a1-m27-cC 7kva-a1-m28-cA_7kva-a1-m28-cC 7kva-a1-m29-cA_7kva-a1-m29-cC 7kva-a1-m2-cA_7kva-a1-m2-cC 7kva-a1-m30-cA_7kva-a1-m30-cC 7kva-a1-m31-cA_7kva-a1-m31-cC 7kva-a1-m32-cA_7kva-a1-m32-cC 7kva-a1-m33-cA_7kva-a1-m33-cC 7kva-a1-m34-cA_7kva-a1-m34-cC 7kva-a1-m35-cA_7kva-a1-m35-cC 7kva-a1-m36-cA_7kva-a1-m36-cC 7kva-a1-m37-cA_7kva-a1-m37-cC 7kva-a1-m38-cA_7kva-a1-m38-cC 7kva-a1-m39-cA_7kva-a1-m39-cC 7kva-a1-m3-cA_7kva-a1-m3-cC 7kva-a1-m40-cA_7kva-a1-m40-cC 7kva-a1-m41-cA_7kva-a1-m41-cC 7kva-a1-m42-cA_7kva-a1-m42-cC 7kva-a1-m43-cA_7kva-a1-m43-cC 7kva-a1-m44-cA_7kva-a1-m44-cC 7kva-a1-m45-cA_7kva-a1-m45-cC 7kva-a1-m46-cA_7kva-a1-m46-cC 7kva-a1-m47-cA_7kva-a1-m47-cC 7kva-a1-m48-cA_7kva-a1-m48-cC 7kva-a1-m49-cA_7kva-a1-m49-cC 7kva-a1-m4-cA_7kva-a1-m4-cC 7kva-a1-m50-cA_7kva-a1-m50-cC 7kva-a1-m51-cA_7kva-a1-m51-cC 7kva-a1-m52-cA_7kva-a1-m52-cC 7kva-a1-m53-cA_7kva-a1-m53-cC 7kva-a1-m54-cA_7kva-a1-m54-cC 7kva-a1-m55-cA_7kva-a1-m55-cC 7kva-a1-m56-cA_7kva-a1-m56-cC 7kva-a1-m57-cA_7kva-a1-m57-cC 7kva-a1-m58-cA_7kva-a1-m58-cC 7kva-a1-m59-cA_7kva-a1-m59-cC 7kva-a1-m5-cA_7kva-a1-m5-cC 7kva-a1-m60-cA_7kva-a1-m60-cC 7kva-a1-m6-cA_7kva-a1-m6-cC 7kva-a1-m7-cA_7kva-a1-m7-cC 7kva-a1-m8-cA_7kva-a1-m8-cC FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA FNCLGMSNRDFLEGVSGATWVDLVLEGDSCVTIMSKDKPTIDVRMMNMEAANLAEVRSYCYLATVSELSTKAACPTMGEAHNDKRADPSFVCKQGVVDRGWGNGCGLFGKGSIDTCAKFACSTKATGRTILKENIKYEVAIFVHGPTTVESHGNYSTQTGAAQAGRFSITPAAPSYTLKLGEYGEVTVDCEPRSGIDTSAYYVMTVGTKTFLVHREWFMDLNLPWSSAESNVWRNRETLMEFEEPHATKQSVIALGSQEGALHQALAGAIPVEFSSNTVKLTSGHLKCRVKMEKLQLKGTTYGVCSKAFRFLGTPADTGHGTVVLELQYTGTDGPCKIPISSVASLNDLTPVGRLVTVNPFVSVSTANAKVLIELEPPFGDSYIVVGRGEQQINHHWHKSGSSIGKAFTATLKGAQRLAALGDTAWDFGSVGGVFTSVGKAVHQVFGGAFRSLFGGMSWITQGLLGALLLWMGINARDRSIAFTFLAVGGVLLFLSVNVHA 7kva-a1-m9-cB_7kva-a1-m9-cC Structure of West Nile virus (Kunjin) P14335 P14335 3.1 ELECTRON MICROSCOPY 44 1.0 11077 (Kunjin virus) 11077 (Kunjin virus) 501 501 3iyw-a1-m10-cA_3iyw-a1-m10-cB 3iyw-a1-m10-cA_3iyw-a1-m24-cC 3iyw-a1-m10-cC_3iyw-a1-m24-cA 3iyw-a1-m11-cA_3iyw-a1-m11-cB 3iyw-a1-m11-cA_3iyw-a1-m16-cC 3iyw-a1-m11-cC_3iyw-a1-m16-cA 3iyw-a1-m12-cA_3iyw-a1-m12-cB 3iyw-a1-m12-cA_3iyw-a1-m38-cC 3iyw-a1-m12-cC_3iyw-a1-m38-cA 3iyw-a1-m13-cA_3iyw-a1-m13-cB 3iyw-a1-m13-cA_3iyw-a1-m47-cC 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FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA 7kvb-a1-m54-cB_7kvb-a1-m9-cB Chimeric flavivirus between Binjari virus and Murray Valley encephalitis virus P05769 P05769 3.7 ELECTRON MICROSCOPY 31 1.0 11079 (Murray Valley encephalitis virus) 11079 (Murray Valley encephalitis virus) 501 501 7kvb-a1-m10-cB_7kvb-a1-m23-cB 7kvb-a1-m11-cB_7kvb-a1-m20-cB 7kvb-a1-m11-cB_7kvb-a1-m38-cB 7kvb-a1-m12-cB_7kvb-a1-m37-cB 7kvb-a1-m12-cB_7kvb-a1-m47-cB 7kvb-a1-m13-cB_7kvb-a1-m45-cB 7kvb-a1-m13-cB_7kvb-a1-m46-cB 7kvb-a1-m14-cB_7kvb-a1-m29-cB 7kvb-a1-m14-cB_7kvb-a1-m44-cB 7kvb-a1-m15-cB_7kvb-a1-m16-cB 7kvb-a1-m15-cB_7kvb-a1-m28-cB 7kvb-a1-m16-cB_7kvb-a1-m28-cB 7kvb-a1-m17-cB_7kvb-a1-m27-cB 7kvb-a1-m17-cB_7kvb-a1-m52-cB 7kvb-a1-m18-cB_7kvb-a1-m51-cB 7kvb-a1-m18-cB_7kvb-a1-m60-cB 7kvb-a1-m19-cB_7kvb-a1-m39-cB 7kvb-a1-m19-cB_7kvb-a1-m59-cB 7kvb-a1-m1-cB_7kvb-a1-m10-cB 7kvb-a1-m1-cB_7kvb-a1-m23-cB 7kvb-a1-m20-cB_7kvb-a1-m38-cB 7kvb-a1-m21-cB_7kvb-a1-m30-cB 7kvb-a1-m21-cB_7kvb-a1-m43-cB 7kvb-a1-m22-cB_7kvb-a1-m42-cB 7kvb-a1-m24-cB_7kvb-a1-m54-cB 7kvb-a1-m24-cB_7kvb-a1-m9-cB 7kvb-a1-m25-cB_7kvb-a1-m26-cB 7kvb-a1-m25-cB_7kvb-a1-m53-cB 7kvb-a1-m26-cB_7kvb-a1-m53-cB 7kvb-a1-m27-cB_7kvb-a1-m52-cB 7kvb-a1-m29-cB_7kvb-a1-m44-cB 7kvb-a1-m2-cB_7kvb-a1-m22-cB 7kvb-a1-m2-cB_7kvb-a1-m42-cB 7kvb-a1-m30-cB_7kvb-a1-m43-cB 7kvb-a1-m31-cB_7kvb-a1-m40-cB 7kvb-a1-m31-cB_7kvb-a1-m58-cB 7kvb-a1-m32-cB_7kvb-a1-m57-cB 7kvb-a1-m32-cB_7kvb-a1-m7-cB 7kvb-a1-m33-cB_7kvb-a1-m5-cB 7kvb-a1-m33-cB_7kvb-a1-m6-cB 7kvb-a1-m34-cB_7kvb-a1-m49-cB 7kvb-a1-m34-cB_7kvb-a1-m4-cB 7kvb-a1-m35-cB_7kvb-a1-m36-cB 7kvb-a1-m35-cB_7kvb-a1-m48-cB 7kvb-a1-m36-cB_7kvb-a1-m48-cB 7kvb-a1-m37-cB_7kvb-a1-m47-cB 7kvb-a1-m39-cB_7kvb-a1-m59-cB 7kvb-a1-m3-cB_7kvb-a1-m41-cB 7kvb-a1-m3-cB_7kvb-a1-m50-cB 7kvb-a1-m40-cB_7kvb-a1-m58-cB 7kvb-a1-m41-cB_7kvb-a1-m50-cB 7kvb-a1-m45-cB_7kvb-a1-m46-cB 7kvb-a1-m4-cB_7kvb-a1-m49-cB 7kvb-a1-m51-cB_7kvb-a1-m60-cB 7kvb-a1-m55-cB_7kvb-a1-m56-cB 7kvb-a1-m55-cB_7kvb-a1-m8-cB 7kvb-a1-m56-cB_7kvb-a1-m8-cB 7kvb-a1-m57-cB_7kvb-a1-m7-cB 7kvb-a1-m5-cB_7kvb-a1-m6-cB FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA 7kvb-a1-m54-cB_7kvb-a1-m9-cC Chimeric flavivirus between Binjari virus and Murray Valley encephalitis virus P05769 P05769 3.7 ELECTRON MICROSCOPY 40 1.0 11079 (Murray Valley encephalitis virus) 11079 (Murray Valley encephalitis virus) 501 501 7kvb-a1-m10-cC_7kvb-a1-m23-cB 7kvb-a1-m11-cB_7kvb-a1-m38-cC 7kvb-a1-m11-cC_7kvb-a1-m20-cB 7kvb-a1-m12-cB_7kvb-a1-m47-cC 7kvb-a1-m12-cC_7kvb-a1-m37-cB 7kvb-a1-m13-cB_7kvb-a1-m45-cC 7kvb-a1-m13-cC_7kvb-a1-m46-cB 7kvb-a1-m14-cB_7kvb-a1-m29-cC 7kvb-a1-m14-cC_7kvb-a1-m44-cB 7kvb-a1-m15-cB_7kvb-a1-m16-cC 7kvb-a1-m15-cC_7kvb-a1-m28-cB 7kvb-a1-m16-cB_7kvb-a1-m28-cC 7kvb-a1-m17-cB_7kvb-a1-m52-cC 7kvb-a1-m17-cC_7kvb-a1-m27-cB 7kvb-a1-m18-cB_7kvb-a1-m60-cC 7kvb-a1-m18-cC_7kvb-a1-m51-cB 7kvb-a1-m19-cB_7kvb-a1-m39-cC 7kvb-a1-m19-cC_7kvb-a1-m59-cB 7kvb-a1-m1-cB_7kvb-a1-m23-cC 7kvb-a1-m1-cC_7kvb-a1-m10-cB 7kvb-a1-m20-cC_7kvb-a1-m38-cB 7kvb-a1-m21-cB_7kvb-a1-m43-cC 7kvb-a1-m21-cC_7kvb-a1-m30-cB 7kvb-a1-m22-cC_7kvb-a1-m42-cB 7kvb-a1-m24-cB_7kvb-a1-m54-cC 7kvb-a1-m24-cC_7kvb-a1-m9-cB 7kvb-a1-m25-cB_7kvb-a1-m26-cC 7kvb-a1-m25-cC_7kvb-a1-m53-cB 7kvb-a1-m26-cB_7kvb-a1-m53-cC 7kvb-a1-m27-cC_7kvb-a1-m52-cB 7kvb-a1-m29-cB_7kvb-a1-m44-cC 7kvb-a1-m2-cB_7kvb-a1-m42-cC 7kvb-a1-m2-cC_7kvb-a1-m22-cB 7kvb-a1-m30-cC_7kvb-a1-m43-cB 7kvb-a1-m31-cB_7kvb-a1-m58-cC 7kvb-a1-m31-cC_7kvb-a1-m40-cB 7kvb-a1-m32-cB_7kvb-a1-m7-cC 7kvb-a1-m32-cC_7kvb-a1-m57-cB 7kvb-a1-m33-cB_7kvb-a1-m5-cC 7kvb-a1-m33-cC_7kvb-a1-m6-cB 7kvb-a1-m34-cB_7kvb-a1-m49-cC 7kvb-a1-m34-cC_7kvb-a1-m4-cB 7kvb-a1-m35-cB_7kvb-a1-m36-cC 7kvb-a1-m35-cC_7kvb-a1-m48-cB 7kvb-a1-m36-cB_7kvb-a1-m48-cC 7kvb-a1-m37-cC_7kvb-a1-m47-cB 7kvb-a1-m39-cB_7kvb-a1-m59-cC 7kvb-a1-m3-cB_7kvb-a1-m50-cC 7kvb-a1-m3-cC_7kvb-a1-m41-cB 7kvb-a1-m40-cC_7kvb-a1-m58-cB 7kvb-a1-m41-cC_7kvb-a1-m50-cB 7kvb-a1-m45-cB_7kvb-a1-m46-cC 7kvb-a1-m4-cC_7kvb-a1-m49-cB 7kvb-a1-m51-cC_7kvb-a1-m60-cB 7kvb-a1-m55-cB_7kvb-a1-m56-cC 7kvb-a1-m55-cC_7kvb-a1-m8-cB 7kvb-a1-m56-cB_7kvb-a1-m8-cC 7kvb-a1-m57-cC_7kvb-a1-m7-cB 7kvb-a1-m5-cB_7kvb-a1-m6-cC FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA 7kvb-a1-m8-cA_7kvb-a1-m9-cA Chimeric flavivirus between Binjari virus and Murray Valley encephalitis virus P05769 P05769 3.7 ELECTRON MICROSCOPY 58 1.0 11079 (Murray Valley encephalitis virus) 11079 (Murray Valley encephalitis virus) 501 501 7kvb-a1-m10-cA_7kvb-a1-m6-cA 7kvb-a1-m10-cA_7kvb-a1-m9-cA 7kvb-a1-m11-cA_7kvb-a1-m12-cA 7kvb-a1-m11-cA_7kvb-a1-m15-cA 7kvb-a1-m12-cA_7kvb-a1-m13-cA 7kvb-a1-m13-cA_7kvb-a1-m14-cA 7kvb-a1-m14-cA_7kvb-a1-m15-cA 7kvb-a1-m16-cA_7kvb-a1-m17-cA 7kvb-a1-m16-cA_7kvb-a1-m20-cA 7kvb-a1-m17-cA_7kvb-a1-m18-cA 7kvb-a1-m18-cA_7kvb-a1-m19-cA 7kvb-a1-m19-cA_7kvb-a1-m20-cA 7kvb-a1-m1-cA_7kvb-a1-m2-cA 7kvb-a1-m1-cA_7kvb-a1-m5-cA 7kvb-a1-m21-cA_7kvb-a1-m22-cA 7kvb-a1-m21-cA_7kvb-a1-m25-cA 7kvb-a1-m22-cA_7kvb-a1-m23-cA 7kvb-a1-m23-cA_7kvb-a1-m24-cA 7kvb-a1-m24-cA_7kvb-a1-m25-cA 7kvb-a1-m26-cA_7kvb-a1-m27-cA 7kvb-a1-m26-cA_7kvb-a1-m30-cA 7kvb-a1-m27-cA_7kvb-a1-m28-cA 7kvb-a1-m28-cA_7kvb-a1-m29-cA 7kvb-a1-m29-cA_7kvb-a1-m30-cA 7kvb-a1-m2-cA_7kvb-a1-m3-cA 7kvb-a1-m31-cA_7kvb-a1-m32-cA 7kvb-a1-m31-cA_7kvb-a1-m35-cA 7kvb-a1-m32-cA_7kvb-a1-m33-cA 7kvb-a1-m33-cA_7kvb-a1-m34-cA 7kvb-a1-m34-cA_7kvb-a1-m35-cA 7kvb-a1-m36-cA_7kvb-a1-m37-cA 7kvb-a1-m36-cA_7kvb-a1-m40-cA 7kvb-a1-m37-cA_7kvb-a1-m38-cA 7kvb-a1-m38-cA_7kvb-a1-m39-cA 7kvb-a1-m39-cA_7kvb-a1-m40-cA 7kvb-a1-m3-cA_7kvb-a1-m4-cA 7kvb-a1-m41-cA_7kvb-a1-m42-cA 7kvb-a1-m41-cA_7kvb-a1-m45-cA 7kvb-a1-m42-cA_7kvb-a1-m43-cA 7kvb-a1-m43-cA_7kvb-a1-m44-cA 7kvb-a1-m44-cA_7kvb-a1-m45-cA 7kvb-a1-m46-cA_7kvb-a1-m47-cA 7kvb-a1-m46-cA_7kvb-a1-m50-cA 7kvb-a1-m47-cA_7kvb-a1-m48-cA 7kvb-a1-m48-cA_7kvb-a1-m49-cA 7kvb-a1-m49-cA_7kvb-a1-m50-cA 7kvb-a1-m4-cA_7kvb-a1-m5-cA 7kvb-a1-m51-cA_7kvb-a1-m52-cA 7kvb-a1-m51-cA_7kvb-a1-m55-cA 7kvb-a1-m52-cA_7kvb-a1-m53-cA 7kvb-a1-m53-cA_7kvb-a1-m54-cA 7kvb-a1-m54-cA_7kvb-a1-m55-cA 7kvb-a1-m56-cA_7kvb-a1-m57-cA 7kvb-a1-m56-cA_7kvb-a1-m60-cA 7kvb-a1-m57-cA_7kvb-a1-m58-cA 7kvb-a1-m58-cA_7kvb-a1-m59-cA 7kvb-a1-m59-cA_7kvb-a1-m60-cA 7kvb-a1-m6-cA_7kvb-a1-m7-cA 7kvb-a1-m7-cA_7kvb-a1-m8-cA FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA 7kvb-a1-m9-cA_7kvb-a1-m9-cB Chimeric flavivirus between Binjari virus and Murray Valley encephalitis virus P05769 P05769 3.7 ELECTRON MICROSCOPY 103 1.0 11079 (Murray Valley encephalitis virus) 11079 (Murray Valley encephalitis virus) 501 501 7kvb-a1-m10-cA_7kvb-a1-m10-cB 7kvb-a1-m10-cC_7kvb-a1-m24-cC 7kvb-a1-m11-cA_7kvb-a1-m11-cB 7kvb-a1-m11-cC_7kvb-a1-m16-cC 7kvb-a1-m12-cA_7kvb-a1-m12-cB 7kvb-a1-m12-cC_7kvb-a1-m38-cC 7kvb-a1-m13-cA_7kvb-a1-m13-cB 7kvb-a1-m13-cC_7kvb-a1-m47-cC 7kvb-a1-m14-cA_7kvb-a1-m14-cB 7kvb-a1-m14-cC_7kvb-a1-m45-cC 7kvb-a1-m15-cA_7kvb-a1-m15-cB 7kvb-a1-m15-cC_7kvb-a1-m29-cC 7kvb-a1-m16-cA_7kvb-a1-m16-cB 7kvb-a1-m17-cA_7kvb-a1-m17-cB 7kvb-a1-m17-cC_7kvb-a1-m28-cC 7kvb-a1-m18-cA_7kvb-a1-m18-cB 7kvb-a1-m18-cC_7kvb-a1-m52-cC 7kvb-a1-m19-cA_7kvb-a1-m19-cB 7kvb-a1-m19-cC_7kvb-a1-m60-cC 7kvb-a1-m1-cA_7kvb-a1-m1-cB 7kvb-a1-m1-cC_7kvb-a1-m6-cC 7kvb-a1-m20-cA_7kvb-a1-m20-cB 7kvb-a1-m20-cC_7kvb-a1-m39-cC 7kvb-a1-m21-cA_7kvb-a1-m21-cB 7kvb-a1-m21-cC_7kvb-a1-m26-cC 7kvb-a1-m22-cA_7kvb-a1-m22-cB 7kvb-a1-m22-cC_7kvb-a1-m43-cC 7kvb-a1-m23-cA_7kvb-a1-m23-cB 7kvb-a1-m24-cA_7kvb-a1-m24-cB 7kvb-a1-m25-cA_7kvb-a1-m25-cB 7kvb-a1-m25-cC_7kvb-a1-m54-cC 7kvb-a1-m26-cA_7kvb-a1-m26-cB 7kvb-a1-m27-cA_7kvb-a1-m27-cB 7kvb-a1-m27-cC_7kvb-a1-m53-cC 7kvb-a1-m28-cA_7kvb-a1-m28-cB 7kvb-a1-m29-cA_7kvb-a1-m29-cB 7kvb-a1-m2-cA_7kvb-a1-m2-cB 7kvb-a1-m2-cC_7kvb-a1-m23-cC 7kvb-a1-m30-cA_7kvb-a1-m30-cB 7kvb-a1-m30-cC_7kvb-a1-m44-cC 7kvb-a1-m31-cA_7kvb-a1-m31-cB 7kvb-a1-m31-cC_7kvb-a1-m36-cC 7kvb-a1-m32-cA_7kvb-a1-m32-cB 7kvb-a1-m32-cC_7kvb-a1-m58-cC 7kvb-a1-m33-cA_7kvb-a1-m33-cB 7kvb-a1-m33-cC_7kvb-a1-m7-cC 7kvb-a1-m34-cA_7kvb-a1-m34-cB 7kvb-a1-m34-cC_7kvb-a1-m5-cC 7kvb-a1-m35-cA_7kvb-a1-m35-cB 7kvb-a1-m35-cC_7kvb-a1-m49-cC 7kvb-a1-m36-cA_7kvb-a1-m36-cB 7kvb-a1-m37-cA_7kvb-a1-m37-cB 7kvb-a1-m37-cC_7kvb-a1-m48-cC 7kvb-a1-m38-cA_7kvb-a1-m38-cB 7kvb-a1-m39-cA_7kvb-a1-m39-cB 7kvb-a1-m3-cA_7kvb-a1-m3-cB 7kvb-a1-m3-cC_7kvb-a1-m42-cC 7kvb-a1-m40-cA_7kvb-a1-m40-cB 7kvb-a1-m40-cC_7kvb-a1-m59-cC 7kvb-a1-m41-cA_7kvb-a1-m41-cB 7kvb-a1-m41-cC_7kvb-a1-m46-cC 7kvb-a1-m42-cA_7kvb-a1-m42-cB 7kvb-a1-m43-cA_7kvb-a1-m43-cB 7kvb-a1-m44-cA_7kvb-a1-m44-cB 7kvb-a1-m45-cA_7kvb-a1-m45-cB 7kvb-a1-m46-cA_7kvb-a1-m46-cB 7kvb-a1-m47-cA_7kvb-a1-m47-cB 7kvb-a1-m48-cA_7kvb-a1-m48-cB 7kvb-a1-m49-cA_7kvb-a1-m49-cB 7kvb-a1-m4-cA_7kvb-a1-m4-cB 7kvb-a1-m4-cC_7kvb-a1-m50-cC 7kvb-a1-m50-cA_7kvb-a1-m50-cB 7kvb-a1-m51-cA_7kvb-a1-m51-cB 7kvb-a1-m51-cC_7kvb-a1-m56-cC 7kvb-a1-m52-cA_7kvb-a1-m52-cB 7kvb-a1-m53-cA_7kvb-a1-m53-cB 7kvb-a1-m54-cA_7kvb-a1-m54-cB 7kvb-a1-m55-cA_7kvb-a1-m55-cB 7kvb-a1-m55-cC_7kvb-a1-m9-cC 7kvb-a1-m56-cA_7kvb-a1-m56-cB 7kvb-a1-m57-cA_7kvb-a1-m57-cB 7kvb-a1-m57-cC_7kvb-a1-m8-cC 7kvb-a1-m58-cA_7kvb-a1-m58-cB 7kvb-a1-m59-cA_7kvb-a1-m59-cB 7kvb-a1-m5-cA_7kvb-a1-m5-cB 7kvb-a1-m60-cA_7kvb-a1-m60-cB 7kvb-a1-m6-cA_7kvb-a1-m6-cB 7kvb-a1-m7-cA_7kvb-a1-m7-cB 7kvb-a1-m8-cA_7kvb-a1-m8-cB FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA 7kvb-a1-m9-cA_7kvb-a1-m9-cC Chimeric flavivirus between Binjari virus and Murray Valley encephalitis virus P05769 P05769 3.7 ELECTRON MICROSCOPY 48 1.0 11079 (Murray Valley encephalitis virus) 11079 (Murray Valley encephalitis virus) 501 501 7kvb-a1-m10-cA_7kvb-a1-m10-cC 7kvb-a1-m11-cA_7kvb-a1-m11-cC 7kvb-a1-m12-cA_7kvb-a1-m12-cC 7kvb-a1-m13-cA_7kvb-a1-m13-cC 7kvb-a1-m14-cA_7kvb-a1-m14-cC 7kvb-a1-m15-cA_7kvb-a1-m15-cC 7kvb-a1-m16-cA_7kvb-a1-m16-cC 7kvb-a1-m17-cA_7kvb-a1-m17-cC 7kvb-a1-m18-cA_7kvb-a1-m18-cC 7kvb-a1-m19-cA_7kvb-a1-m19-cC 7kvb-a1-m1-cA_7kvb-a1-m1-cC 7kvb-a1-m20-cA_7kvb-a1-m20-cC 7kvb-a1-m21-cA_7kvb-a1-m21-cC 7kvb-a1-m22-cA_7kvb-a1-m22-cC 7kvb-a1-m23-cA_7kvb-a1-m23-cC 7kvb-a1-m24-cA_7kvb-a1-m24-cC 7kvb-a1-m25-cA_7kvb-a1-m25-cC 7kvb-a1-m26-cA_7kvb-a1-m26-cC 7kvb-a1-m27-cA_7kvb-a1-m27-cC 7kvb-a1-m28-cA_7kvb-a1-m28-cC 7kvb-a1-m29-cA_7kvb-a1-m29-cC 7kvb-a1-m2-cA_7kvb-a1-m2-cC 7kvb-a1-m30-cA_7kvb-a1-m30-cC 7kvb-a1-m31-cA_7kvb-a1-m31-cC 7kvb-a1-m32-cA_7kvb-a1-m32-cC 7kvb-a1-m33-cA_7kvb-a1-m33-cC 7kvb-a1-m34-cA_7kvb-a1-m34-cC 7kvb-a1-m35-cA_7kvb-a1-m35-cC 7kvb-a1-m36-cA_7kvb-a1-m36-cC 7kvb-a1-m37-cA_7kvb-a1-m37-cC 7kvb-a1-m38-cA_7kvb-a1-m38-cC 7kvb-a1-m39-cA_7kvb-a1-m39-cC 7kvb-a1-m3-cA_7kvb-a1-m3-cC 7kvb-a1-m40-cA_7kvb-a1-m40-cC 7kvb-a1-m41-cA_7kvb-a1-m41-cC 7kvb-a1-m42-cA_7kvb-a1-m42-cC 7kvb-a1-m43-cA_7kvb-a1-m43-cC 7kvb-a1-m44-cA_7kvb-a1-m44-cC 7kvb-a1-m45-cA_7kvb-a1-m45-cC 7kvb-a1-m46-cA_7kvb-a1-m46-cC 7kvb-a1-m47-cA_7kvb-a1-m47-cC 7kvb-a1-m48-cA_7kvb-a1-m48-cC 7kvb-a1-m49-cA_7kvb-a1-m49-cC 7kvb-a1-m4-cA_7kvb-a1-m4-cC 7kvb-a1-m50-cA_7kvb-a1-m50-cC 7kvb-a1-m51-cA_7kvb-a1-m51-cC 7kvb-a1-m52-cA_7kvb-a1-m52-cC 7kvb-a1-m53-cA_7kvb-a1-m53-cC 7kvb-a1-m54-cA_7kvb-a1-m54-cC 7kvb-a1-m55-cA_7kvb-a1-m55-cC 7kvb-a1-m56-cA_7kvb-a1-m56-cC 7kvb-a1-m57-cA_7kvb-a1-m57-cC 7kvb-a1-m58-cA_7kvb-a1-m58-cC 7kvb-a1-m59-cA_7kvb-a1-m59-cC 7kvb-a1-m5-cA_7kvb-a1-m5-cC 7kvb-a1-m60-cA_7kvb-a1-m60-cC 7kvb-a1-m6-cA_7kvb-a1-m6-cC 7kvb-a1-m7-cA_7kvb-a1-m7-cC 7kvb-a1-m8-cA_7kvb-a1-m8-cC 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7kvb-a1-m24-cB_7kvb-a1-m24-cC 7kvb-a1-m25-cA_7kvb-a1-m54-cC 7kvb-a1-m25-cB_7kvb-a1-m25-cC 7kvb-a1-m25-cC_7kvb-a1-m54-cA 7kvb-a1-m26-cB_7kvb-a1-m26-cC 7kvb-a1-m27-cA_7kvb-a1-m53-cC 7kvb-a1-m27-cB_7kvb-a1-m27-cC 7kvb-a1-m27-cC_7kvb-a1-m53-cA 7kvb-a1-m28-cB_7kvb-a1-m28-cC 7kvb-a1-m29-cB_7kvb-a1-m29-cC 7kvb-a1-m2-cA_7kvb-a1-m23-cC 7kvb-a1-m2-cB_7kvb-a1-m2-cC 7kvb-a1-m2-cC_7kvb-a1-m23-cA 7kvb-a1-m30-cA_7kvb-a1-m44-cC 7kvb-a1-m30-cB_7kvb-a1-m30-cC 7kvb-a1-m30-cC_7kvb-a1-m44-cA 7kvb-a1-m31-cA_7kvb-a1-m36-cC 7kvb-a1-m31-cB_7kvb-a1-m31-cC 7kvb-a1-m31-cC_7kvb-a1-m36-cA 7kvb-a1-m32-cA_7kvb-a1-m58-cC 7kvb-a1-m32-cB_7kvb-a1-m32-cC 7kvb-a1-m32-cC_7kvb-a1-m58-cA 7kvb-a1-m33-cA_7kvb-a1-m7-cC 7kvb-a1-m33-cB_7kvb-a1-m33-cC 7kvb-a1-m33-cC_7kvb-a1-m7-cA 7kvb-a1-m34-cA_7kvb-a1-m5-cC 7kvb-a1-m34-cB_7kvb-a1-m34-cC 7kvb-a1-m34-cC_7kvb-a1-m5-cA 7kvb-a1-m35-cA_7kvb-a1-m49-cC 7kvb-a1-m35-cB_7kvb-a1-m35-cC 7kvb-a1-m35-cC_7kvb-a1-m49-cA 7kvb-a1-m36-cB_7kvb-a1-m36-cC 7kvb-a1-m37-cA_7kvb-a1-m48-cC 7kvb-a1-m37-cB_7kvb-a1-m37-cC 7kvb-a1-m37-cC_7kvb-a1-m48-cA 7kvb-a1-m38-cB_7kvb-a1-m38-cC 7kvb-a1-m39-cB_7kvb-a1-m39-cC 7kvb-a1-m3-cA_7kvb-a1-m42-cC 7kvb-a1-m3-cB_7kvb-a1-m3-cC 7kvb-a1-m3-cC_7kvb-a1-m42-cA 7kvb-a1-m40-cA_7kvb-a1-m59-cC 7kvb-a1-m40-cB_7kvb-a1-m40-cC 7kvb-a1-m40-cC_7kvb-a1-m59-cA 7kvb-a1-m41-cA_7kvb-a1-m46-cC 7kvb-a1-m41-cB_7kvb-a1-m41-cC 7kvb-a1-m41-cC_7kvb-a1-m46-cA 7kvb-a1-m42-cB_7kvb-a1-m42-cC 7kvb-a1-m43-cB_7kvb-a1-m43-cC 7kvb-a1-m44-cB_7kvb-a1-m44-cC 7kvb-a1-m45-cB_7kvb-a1-m45-cC 7kvb-a1-m46-cB_7kvb-a1-m46-cC 7kvb-a1-m47-cB_7kvb-a1-m47-cC 7kvb-a1-m48-cB_7kvb-a1-m48-cC 7kvb-a1-m49-cB_7kvb-a1-m49-cC 7kvb-a1-m4-cA_7kvb-a1-m50-cC 7kvb-a1-m4-cB_7kvb-a1-m4-cC 7kvb-a1-m4-cC_7kvb-a1-m50-cA 7kvb-a1-m50-cB_7kvb-a1-m50-cC 7kvb-a1-m51-cA_7kvb-a1-m56-cC 7kvb-a1-m51-cB_7kvb-a1-m51-cC 7kvb-a1-m51-cC_7kvb-a1-m56-cA 7kvb-a1-m52-cB_7kvb-a1-m52-cC 7kvb-a1-m53-cB_7kvb-a1-m53-cC 7kvb-a1-m54-cB_7kvb-a1-m54-cC 7kvb-a1-m55-cA_7kvb-a1-m9-cC 7kvb-a1-m55-cB_7kvb-a1-m55-cC 7kvb-a1-m55-cC_7kvb-a1-m9-cA 7kvb-a1-m56-cB_7kvb-a1-m56-cC 7kvb-a1-m57-cA_7kvb-a1-m8-cC 7kvb-a1-m57-cB_7kvb-a1-m57-cC 7kvb-a1-m57-cC_7kvb-a1-m8-cA 7kvb-a1-m58-cB_7kvb-a1-m58-cC 7kvb-a1-m59-cB_7kvb-a1-m59-cC 7kvb-a1-m5-cB_7kvb-a1-m5-cC 7kvb-a1-m60-cB_7kvb-a1-m60-cC 7kvb-a1-m6-cB_7kvb-a1-m6-cC 7kvb-a1-m7-cB_7kvb-a1-m7-cC 7kvb-a1-m8-cB_7kvb-a1-m8-cC FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA FNCLGMSSRDFIEGASGATWVDLVLEGDSCITIMAADKPTLDIRMMNIEATNLALVRNYCYAATVSDVSTVSNCPTTGESHNTKRADHNYLCKRGVTDRGWGNGCGLFGKGSIDTCAKFTCSNSAAGRLILPEDIKYEVGVFVHGSTDSTSHGNYSTQIGANQAVRFTISPNAPAITAKMGDYGEVTVECEPRSGLNTEAYYVMTIGTKHFLVHREWFNDLLLPWTSPASTEWRNREILVEFEEPHATKQSVVALGSQEGALHQALAGAIPVEFSSSTLKLTSGHLKCRVKMEKLKLKGTTYGMCTEKFTFSKNPADTGHGTVVLELQYTGSDGPCKIPISSVASLNDMTPVGRMVTANPYVASSTANAKVLVEIEPPFGDSYIVVGRGDKQINHHWHKEGSSIGKAFSTTLKGAQRLAALGDTAWDFGSVGGVFNSIGKAVHQVFGGAFRTLFGGMSWISQGLLGALLLWMGVNARDKSIALAFLATGGVLLFLATNVHA 7kvb-a1-m9-ca_7kvb-a1-m9-cb Chimeric flavivirus between Binjari virus and Murray Valley encephalitis virus P05769 P05769 3.7 ELECTRON MICROSCOPY 40 1.0 11079 (Murray Valley encephalitis virus) 11079 (Murray Valley encephalitis virus) 71 71 7kvb-a1-m10-ca_7kvb-a1-m10-cb 7kvb-a1-m10-cc_7kvb-a1-m24-cc 7kvb-a1-m11-ca_7kvb-a1-m11-cb 7kvb-a1-m11-cc_7kvb-a1-m16-cc 7kvb-a1-m12-ca_7kvb-a1-m12-cb 7kvb-a1-m12-cc_7kvb-a1-m38-cc 7kvb-a1-m13-ca_7kvb-a1-m13-cb 7kvb-a1-m13-cc_7kvb-a1-m47-cc 7kvb-a1-m14-ca_7kvb-a1-m14-cb 7kvb-a1-m14-cc_7kvb-a1-m45-cc 7kvb-a1-m15-ca_7kvb-a1-m15-cb 7kvb-a1-m15-cc_7kvb-a1-m29-cc 7kvb-a1-m16-ca_7kvb-a1-m16-cb 7kvb-a1-m17-ca_7kvb-a1-m17-cb 7kvb-a1-m17-cc_7kvb-a1-m28-cc 7kvb-a1-m18-ca_7kvb-a1-m18-cb 7kvb-a1-m18-cc_7kvb-a1-m52-cc 7kvb-a1-m19-ca_7kvb-a1-m19-cb 7kvb-a1-m19-cc_7kvb-a1-m60-cc 7kvb-a1-m1-ca_7kvb-a1-m1-cb 7kvb-a1-m1-cc_7kvb-a1-m6-cc 7kvb-a1-m20-ca_7kvb-a1-m20-cb 7kvb-a1-m20-cc_7kvb-a1-m39-cc 7kvb-a1-m21-ca_7kvb-a1-m21-cb 7kvb-a1-m21-cc_7kvb-a1-m26-cc 7kvb-a1-m22-ca_7kvb-a1-m22-cb 7kvb-a1-m22-cc_7kvb-a1-m43-cc 7kvb-a1-m23-ca_7kvb-a1-m23-cb 7kvb-a1-m24-ca_7kvb-a1-m24-cb 7kvb-a1-m25-ca_7kvb-a1-m25-cb 7kvb-a1-m25-cc_7kvb-a1-m54-cc 7kvb-a1-m26-ca_7kvb-a1-m26-cb 7kvb-a1-m27-ca_7kvb-a1-m27-cb 7kvb-a1-m27-cc_7kvb-a1-m53-cc 7kvb-a1-m28-ca_7kvb-a1-m28-cb 7kvb-a1-m29-ca_7kvb-a1-m29-cb 7kvb-a1-m2-ca_7kvb-a1-m2-cb 7kvb-a1-m2-cc_7kvb-a1-m23-cc 7kvb-a1-m30-ca_7kvb-a1-m30-cb 7kvb-a1-m30-cc_7kvb-a1-m44-cc 7kvb-a1-m31-ca_7kvb-a1-m31-cb 7kvb-a1-m31-cc_7kvb-a1-m36-cc 7kvb-a1-m32-ca_7kvb-a1-m32-cb 7kvb-a1-m32-cc_7kvb-a1-m58-cc 7kvb-a1-m33-ca_7kvb-a1-m33-cb 7kvb-a1-m33-cc_7kvb-a1-m7-cc 7kvb-a1-m34-ca_7kvb-a1-m34-cb 7kvb-a1-m34-cc_7kvb-a1-m5-cc 7kvb-a1-m35-ca_7kvb-a1-m35-cb 7kvb-a1-m35-cc_7kvb-a1-m49-cc 7kvb-a1-m36-ca_7kvb-a1-m36-cb 7kvb-a1-m37-ca_7kvb-a1-m37-cb 7kvb-a1-m37-cc_7kvb-a1-m48-cc 7kvb-a1-m38-ca_7kvb-a1-m38-cb 7kvb-a1-m39-ca_7kvb-a1-m39-cb 7kvb-a1-m3-ca_7kvb-a1-m3-cb 7kvb-a1-m3-cc_7kvb-a1-m42-cc 7kvb-a1-m40-ca_7kvb-a1-m40-cb 7kvb-a1-m40-cc_7kvb-a1-m59-cc 7kvb-a1-m41-ca_7kvb-a1-m41-cb 7kvb-a1-m41-cc_7kvb-a1-m46-cc 7kvb-a1-m42-ca_7kvb-a1-m42-cb 7kvb-a1-m43-ca_7kvb-a1-m43-cb 7kvb-a1-m44-ca_7kvb-a1-m44-cb 7kvb-a1-m45-ca_7kvb-a1-m45-cb 7kvb-a1-m46-ca_7kvb-a1-m46-cb 7kvb-a1-m47-ca_7kvb-a1-m47-cb 7kvb-a1-m48-ca_7kvb-a1-m48-cb 7kvb-a1-m49-ca_7kvb-a1-m49-cb 7kvb-a1-m4-ca_7kvb-a1-m4-cb 7kvb-a1-m4-cc_7kvb-a1-m50-cc 7kvb-a1-m50-ca_7kvb-a1-m50-cb 7kvb-a1-m51-ca_7kvb-a1-m51-cb 7kvb-a1-m51-cc_7kvb-a1-m56-cc 7kvb-a1-m52-ca_7kvb-a1-m52-cb 7kvb-a1-m53-ca_7kvb-a1-m53-cb 7kvb-a1-m54-ca_7kvb-a1-m54-cb 7kvb-a1-m55-ca_7kvb-a1-m55-cb 7kvb-a1-m55-cc_7kvb-a1-m9-cc 7kvb-a1-m56-ca_7kvb-a1-m56-cb 7kvb-a1-m57-ca_7kvb-a1-m57-cb 7kvb-a1-m57-cc_7kvb-a1-m8-cc 7kvb-a1-m58-ca_7kvb-a1-m58-cb 7kvb-a1-m59-ca_7kvb-a1-m59-cb 7kvb-a1-m5-ca_7kvb-a1-m5-cb 7kvb-a1-m60-ca_7kvb-a1-m60-cb 7kvb-a1-m6-ca_7kvb-a1-m6-cb 7kvb-a1-m7-ca_7kvb-a1-m7-cb 7kvb-a1-m8-ca_7kvb-a1-m8-cb QTHGESTLVNKKDAWLDSTKATRYLTKTENWIIRNPGYALVAVVLGWMLGSNTGQKVIFTVLLLLVAPAYS QTHGESTLVNKKDAWLDSTKATRYLTKTENWIIRNPGYALVAVVLGWMLGSNTGQKVIFTVLLLLVAPAYS 7kvd-a1-m1-cA_7kvd-a1-m1-cL Cryo-EM structure of Mal de Rio Cuarto virus P9-1 viroplasm protein (dodecamer) D9U542 D9U542 6.8 ELECTRON MICROSCOPY 68 1.0 185954 (Mal de Rio Cuarto virus) 185954 (Mal de Rio Cuarto virus) 266 266 7kvc-a1-m1-cA_7kvc-a1-m1-cJ 7kvc-a1-m1-cB_7kvc-a1-m1-cC 7kvc-a1-m1-cD_7kvc-a1-m1-cE 7kvc-a1-m1-cF_7kvc-a1-m1-cG 7kvc-a1-m1-cH_7kvc-a1-m1-cI 7kvd-a1-m1-cB_7kvd-a1-m1-cC 7kvd-a1-m1-cD_7kvd-a1-m1-cE 7kvd-a1-m1-cF_7kvd-a1-m1-cG 7kvd-a1-m1-cH_7kvd-a1-m1-cI 7kvd-a1-m1-cJ_7kvd-a1-m1-cK ERRTFGSYKIEEITIKIPILDDGIFDLINYLLNGTHFDKTHYDYSHLPTLERDFNTASNYVSENYSIIVEEIDLNKSESISLKSPDFTVVLEYFKKVRELPLLPIMCRESEDSISEDILEGEGAVIQVLKMFMKGFLVHLGENPNSYDRQLTIEKYRPLLISIIGYEFTVNHIYYQLATFDNYPFDLLRFQLQSLIDIKERIEKDGLFKVITTTNARGQYQSVLLRGINGSESYLNLKRYRKFKVRVVGNVDNVIKNDFSSLKLDV ERRTFGSYKIEEITIKIPILDDGIFDLINYLLNGTHFDKTHYDYSHLPTLERDFNTASNYVSENYSIIVEEIDLNKSESISLKSPDFTVVLEYFKKVRELPLLPIMCRESEDSISEDILEGEGAVIQVLKMFMKGFLVHLGENPNSYDRQLTIEKYRPLLISIIGYEFTVNHIYYQLATFDNYPFDLLRFQLQSLIDIKERIEKDGLFKVITTTNARGQYQSVLLRGINGSESYLNLKRYRKFKVRVVGNVDNVIKNDFSSLKLDV 7kvd-a1-m1-cJ_7kvd-a1-m1-cL Cryo-EM structure of Mal de Rio Cuarto virus P9-1 viroplasm protein (dodecamer) D9U542 D9U542 6.8 ELECTRON MICROSCOPY 27 1.0 185954 (Mal de Rio Cuarto virus) 185954 (Mal de Rio Cuarto virus) 266 266 7kvc-a1-m1-cA_7kvc-a1-m1-cC 7kvc-a1-m1-cA_7kvc-a1-m1-cI 7kvc-a1-m1-cB_7kvc-a1-m1-cD 7kvc-a1-m1-cB_7kvc-a1-m1-cJ 7kvc-a1-m1-cC_7kvc-a1-m1-cE 7kvc-a1-m1-cD_7kvc-a1-m1-cF 7kvc-a1-m1-cE_7kvc-a1-m1-cG 7kvc-a1-m1-cF_7kvc-a1-m1-cH 7kvc-a1-m1-cG_7kvc-a1-m1-cI 7kvc-a1-m1-cH_7kvc-a1-m1-cJ 7kvd-a1-m1-cA_7kvd-a1-m1-cC 7kvd-a1-m1-cA_7kvd-a1-m1-cK 7kvd-a1-m1-cB_7kvd-a1-m1-cD 7kvd-a1-m1-cB_7kvd-a1-m1-cL 7kvd-a1-m1-cC_7kvd-a1-m1-cE 7kvd-a1-m1-cD_7kvd-a1-m1-cF 7kvd-a1-m1-cE_7kvd-a1-m1-cG 7kvd-a1-m1-cF_7kvd-a1-m1-cH 7kvd-a1-m1-cG_7kvd-a1-m1-cI 7kvd-a1-m1-cH_7kvd-a1-m1-cJ 7kvd-a1-m1-cI_7kvd-a1-m1-cK ERRTFGSYKIEEITIKIPILDDGIFDLINYLLNGTHFDKTHYDYSHLPTLERDFNTASNYVSENYSIIVEEIDLNKSESISLKSPDFTVVLEYFKKVRELPLLPIMCRESEDSISEDILEGEGAVIQVLKMFMKGFLVHLGENPNSYDRQLTIEKYRPLLISIIGYEFTVNHIYYQLATFDNYPFDLLRFQLQSLIDIKERIEKDGLFKVITTTNARGQYQSVLLRGINGSESYLNLKRYRKFKVRVVGNVDNVIKNDFSSLKLDV ERRTFGSYKIEEITIKIPILDDGIFDLINYLLNGTHFDKTHYDYSHLPTLERDFNTASNYVSENYSIIVEEIDLNKSESISLKSPDFTVVLEYFKKVRELPLLPIMCRESEDSISEDILEGEGAVIQVLKMFMKGFLVHLGENPNSYDRQLTIEKYRPLLISIIGYEFTVNHIYYQLATFDNYPFDLLRFQLQSLIDIKERIEKDGLFKVITTTNARGQYQSVLLRGINGSESYLNLKRYRKFKVRVVGNVDNVIKNDFSSLKLDV 7kwd-a1-m1-cA_7kwd-a1-m1-cB Crystal structure of Thermus thermophilus alkaline phosphatase Q53W95 Q53W95 2.1 X-RAY DIFFRACTION 297 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 473 473 ALLPRGHTQGALQNQPSLGRRYRNLIVFVYDGFSWEDYAIAQAYARRRQGRVLALERLLARYPNGLINTYSLTSYVTESSAAGNAFSCGVKTVNGGLAIHADGTPLKPFFAAAKEAGKAVGLVTTTTVTHATPASFVISNPDRNAEERIAEQYLEFGAEVYLGGGDRFFNPARRKDGKDLYAAFAAKGYGVVRTPEELVRSNATRLLGVFADGHVPYEIDRRFQGLGVPSLKEMVQAALPRLAAHRGGFVLQVEAGRIDHANHLNDAGATLWDVLAADEVLELLTAFVDRNPDTLLIVVSDHATGVGGLYGAGRSYLESSQGVDLLEPQRASFEHMLRVLGQAPEASQVKEAFRAMKGVDLEDAEAERVVRAIREKVYWPEGVRQGVQPANTMAWAMVQRDAQKPDRPNIGWSSGQHTASPVMLLLYGQGLRFVNLGLVDNTHVFRLMGEALGLRYQNPVMSEEEALEILKAR ALLPRGHTQGALQNQPSLGRRYRNLIVFVYDGFSWEDYAIAQAYARRRQGRVLALERLLARYPNGLINTYSLTSYVTESSAAGNAFSCGVKTVNGGLAIHADGTPLKPFFAAAKEAGKAVGLVTTTTVTHATPASFVISNPDRNAEERIAEQYLEFGAEVYLGGGDRFFNPARRKDGKDLYAAFAAKGYGVVRTPEELVRSNATRLLGVFADGHVPYEIDRRFQGLGVPSLKEMVQAALPRLAAHRGGFVLQVEAGRIDHANHLNDAGATLWDVLAADEVLELLTAFVDRNPDTLLIVVSDHATGVGGLYGAGRSYLESSQGVDLLEPQRASFEHMLRVLGQAPEASQVKEAFRAMKGVDLEDAEAERVVRAIREKVYWPEGVRQGVQPANTMAWAMVQRDAQKPDRPNIGWSSGQHTASPVMLLLYGQGLRFVNLGLVDNTHVFRLMGEALGLRYQNPVMSEEEALEILKAR 7kws-a1-m1-cB_7kws-a1-m1-cA Cj1441 with NAD+ and UDP-glucose Q0P8H3 Q0P8H3 2.09 X-RAY DIFFRACTION 162 0.997 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 192222 (Campylobacter jejuni subsp. jejuni NCTC 11168 = ATCC 700819) 387 390 MKIVIVGIGYVGLANAILFSKNNENEVVLLDIDENKIQSINNHKSPIKDKLIEKFFVQSKLHATSNIKEAYFNADFAVIATPTDYDENFFDTRSIENVLKDIKNINSKINVIIKSTVPIGYTKTIKQKFNMSNIVFSPEFLREGSALYDSLYPSRIIIGDKSVLGKTIGDLFLKNIEKKNVDIFYMDSDEAESVKLFSNTYLAMRVGFFNEVDSYARKHNLNSADIIKGISADDRIGKYYNNPSFGYGGYCLPKDTKQLLANFYNIPNSLIKAIVETNEIRKKFITQLILEKKPNILGIYRLIMKQNSDNFRNSVIIDIIKYLQEYNSNIELIIYEPLVKEKKFLNIKVENDFNVFGAKVDLIIANRFDDKLKEIKDKVFSADVFYT MKIVIVGIGYVGLANAILFSKNNENEVVLLDIDENKIQSINNHKSPIKDKLIEKFFVQNKLHATSNIKEAYFNADFAVIATPTDYDEQLNFFDTRSIENVLKDIKNINSKINVIIKSTVPIGYTKTIKQKFNMSNIVFSPEFLREGSALYDSLYPSRIIIGDKSVLGKTIGDLFLKNIEKKNVDIFYMDSDEAESVKLFSNTYLAMRVGFFNEVDSYARKHNLNSADIIKGISADDRIGKYYNNPSFGYGGYCLPKDTKQLLANFYNIPNSLIKAIVETNEIRKKFITQLILEKKPNILGIYRLIMKQNSDNFRNSVIIDIIKYLQEYNSNIELIIYEPLVKEKKFLNIKVENDFNVFGAKVDLIIANRFDDKLKEIKDKVFSADVFYTD 7kwy-a1-m4-cB_7kwy-a1-m2-cA X-ray Crystal Structure of PlyCB Mutant R66K Q7Y3F3 Q7Y3F3 1.7 X-RAY DIFFRACTION 71 1.0 230871 (Fischettivirus C1) 230871 (Fischettivirus C1) 63 65 4f87-a1-m1-cA_4f87-a1-m1-cC 4f87-a1-m1-cA_4f87-a1-m2-cD 4f87-a1-m1-cB_4f87-a1-m1-cC 4f87-a1-m1-cB_4f87-a1-m1-cD 4f87-a1-m2-cA_4f87-a1-m1-cD 4f87-a1-m2-cA_4f87-a1-m2-cC 4f87-a1-m2-cB_4f87-a1-m2-cC 4f87-a1-m2-cB_4f87-a1-m2-cD 4f88-a1-m1-cA_4f88-a1-m1-cB 4f88-a1-m1-cB_4f88-a1-m1-cC 4f88-a1-m1-cD_4f88-a1-m1-cC 4f88-a1-m1-cD_4f88-a1-m1-cE 4f88-a1-m1-cE_4f88-a1-m1-cF 4f88-a1-m1-cF_4f88-a1-m1-cG 4f88-a1-m1-cH_4f88-a1-m1-cA 4f88-a1-m1-cH_4f88-a1-m1-cG 4f88-a2-m1-cN_4f88-a2-m1-cM 4f88-a2-m1-cP_4f88-a2-m1-cO 4zrz-a1-m1-cA_4zrz-a1-m1-cB 4zrz-a1-m1-cA_4zrz-a1-m3-cB 4zrz-a1-m1-cB_4zrz-a1-m4-cA 4zrz-a1-m2-cA_4zrz-a1-m2-cB 4zrz-a1-m2-cA_4zrz-a1-m4-cB 4zrz-a1-m2-cB_4zrz-a1-m3-cA 4zrz-a1-m3-cA_4zrz-a1-m3-cB 4zrz-a1-m4-cA_4zrz-a1-m4-cB 7kwt-a1-m1-cB_7kwt-a1-m1-cA 7kwt-a1-m1-cB_7kwt-a1-m3-cA 7kwt-a1-m2-cB_7kwt-a1-m2-cA 7kwt-a1-m2-cB_7kwt-a1-m4-cA 7kwt-a1-m3-cB_7kwt-a1-m2-cA 7kwt-a1-m3-cB_7kwt-a1-m3-cA 7kwt-a1-m4-cB_7kwt-a1-m1-cA 7kwt-a1-m4-cB_7kwt-a1-m4-cA 7kww-a1-m1-cA_7kww-a1-m1-cB 7kww-a1-m1-cA_7kww-a1-m3-cB 7kww-a1-m1-cB_7kww-a1-m4-cA 7kww-a1-m2-cA_7kww-a1-m2-cB 7kww-a1-m2-cA_7kww-a1-m4-cB 7kww-a1-m2-cB_7kww-a1-m3-cA 7kww-a1-m3-cA_7kww-a1-m3-cB 7kww-a1-m4-cA_7kww-a1-m4-cB 7kwy-a1-m1-cB_7kwy-a1-m1-cA 7kwy-a1-m1-cB_7kwy-a1-m4-cA 7kwy-a1-m2-cB_7kwy-a1-m2-cA 7kwy-a1-m2-cB_7kwy-a1-m3-cA 7kwy-a1-m3-cB_7kwy-a1-m1-cA 7kwy-a1-m3-cB_7kwy-a1-m3-cA 7kwy-a1-m4-cB_7kwy-a1-m4-cA ENVSGVQGFLFHTDGKESYGYRAFINGVEIGIKDIETVQGFQQIIPSINISKSDVEAIKKAMK NVENVSGVQGFLFHTDGKESYGYRAFINGVEIGIKDIETVQGFQQIIPSINISKSDVEAIKKAMK 7kwz-a1-m1-cD_7kwz-a1-m1-cE TDP-43 LCD amyloid fibrils Q13148 Q13148 3.2 ELECTRON MICROSCOPY 613 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 139 139 7kwz-a1-m1-cA_7kwz-a1-m1-cB 7kwz-a1-m1-cA_7kwz-a1-m1-cC 7kwz-a1-m1-cB_7kwz-a1-m1-cC 7kwz-a1-m1-cB_7kwz-a1-m1-cD 7kwz-a1-m1-cC_7kwz-a1-m1-cD 7kwz-a1-m1-cC_7kwz-a1-m1-cE FGGNPGGFGNQGGFGNSRGGGAGLGNNQGSNMGGGMNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQREPNQAFGSGNNSYSGSNSGAAIGWGSASNAGSGSGFNGGFGSSMDSKSSGWGM FGGNPGGFGNQGGFGNSRGGGAGLGNNQGSNMGGGMNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQREPNQAFGSGNNSYSGSNSGAAIGWGSASNAGSGSGFNGGFGSSMDSKSSGWGM 7kx0-a1-m1-cB_7kx0-a1-m1-cC Crystal structure of the CD27:CD70 co-stimulatory complex P32970 P32970 2.69 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 140 140 7kx0-a1-m1-cA_7kx0-a1-m1-cB 7kx0-a1-m1-cA_7kx0-a1-m1-cC GWDVAELQLNHTGPQQDPRLYWQGGPALGRSFLHGPELDKGQLRIHRDGIYMVHIQVTLAICSSTTASRHHPTTLAVGICSPASRSISLLRLSFHQGCTIASQRLTPLARGDTLCTNLTGTLLPSRNTDETFFGVQWVRP GWDVAELQLNHTGPQQDPRLYWQGGPALGRSFLHGPELDKGQLRIHRDGIYMVHIQVTLAICSSTTASRHHPTTLAVGICSPASRSISLLRLSFHQGCTIASQRLTPLARGDTLCTNLTGTLLPSRNTDETFFGVQWVRP 7kxj-a1-m1-cL_7kxj-a1-m1-cM SARS-CoV-2 spike protein in complex with Fab 15033-7, 3-""up"", asymmetric 6.4 ELECTRON MICROSCOPY 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 7kmk-a1-m1-cL_7kmk-a1-m1-cM DIQMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASDLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSHTYPITFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC DIQMTQSPSSLSASVGDRVTITCRASQSVSSAVAWYQQKPGKAPKLLIYSASDLYSGVPSRFSGSRSGTDFTLTISSLQPEDFATYYCQQSHTYPITFGQGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 7kxk-a1-m1-cA_7kxk-a1-m1-cC SARS-CoV-2 spike protein in complex with Fab 15033-7, 2-""up""-1-""down"" conformation P0DTC2 P0DTC2 5.0 ELECTRON MICROSCOPY 263 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1024 1024 7kxk-a1-m1-cA_7kxk-a1-m1-cB 7kxk-a1-m1-cB_7kxk-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVWMESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTV QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVWMESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTV 7kyp-a1-m1-cD_7kyp-a1-m1-cB PsaBC from Streptococcus pneumoniae in complex with Fab A0A0H2ZPI2 A0A0H2ZPI2 2.9 X-RAY DIFFRACTION 150 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 272 278 7kyo-a1-m1-cC_7kyo-a1-m2-cC 7kyp-a2-m1-cH_7kyp-a2-m1-cF 7kyp-a3-m1-cJ_7kyp-a3-m1-cL 7kyp-a4-m1-cP_7kyp-a4-m1-cN MIAEFIDGLQKFHFLQNALITAIVVGIVAGAVGCFIILRGMSLMGDAISHAVLPGVALSFILGLDFFIGAIVFGLLAAIIITYIKGNSIIKSDTAIGITSSSFLALGIILIGVAKSSTDLFHILFGNILAVQDTDMFITMGVGAAILLLIWIFFKQLLITSFDELLAKAMGMPVNFYHYLLMVLLTLVSVTAMQSVGTILIVAMLITPAATAYLYANSLKSMIFLSSTFGATASVLGLFIGYSFNVAAGSSIVLTAASFFLISFFIAPKQRY MIAEFIDGLQKFHFLQNALITAIVVGIVAGAVGCFIILRGMSLMGDAISHAVLPGVALSFILGLDFFIGAIVFGLLAAIIITYIKGNSIIKSDTAIGITSSSFLALGIILIGVAKSSTDLFHILFGNILAVQDTDMFITMGVGAAILLLIWIFFKQLLITSFDELLAKAMGMPVNFYHYLLMVLLTLVSVTAMQSVGTILIVAMLITPAATAYLYANSLKSMIFLSSTFGATASVLGLFIGYSFNVAAGSSIVLTAASFFLISFFIAPKQRYLKLKNK 7kyp-a4-m1-cM_7kyp-a4-m1-cO PsaBC from Streptococcus pneumoniae in complex with Fab A0A0H2ZNF3 A0A0H2ZNF3 2.9 X-RAY DIFFRACTION 36 1.0 373153 (Streptococcus pneumoniae D39) 373153 (Streptococcus pneumoniae D39) 233 234 7kyo-a1-m1-cB_7kyo-a1-m2-cB 7kyp-a1-m1-cC_7kyp-a1-m1-cA 7kyp-a2-m1-cG_7kyp-a2-m1-cE 7kyp-a3-m1-cI_7kyp-a3-m1-cK MIRIENLSVSYKETLALKDISLVLHGPTITGIIGPNGAGKSTLLKGMLGIIPHQGQAFLDDKEVKKSLHRIAYVEQKINIDYNFPIKVKECVSLGLFPSIPLFRSLKAKHWKKVQEALEIVGLADYAERQISQLSGGQFQRVLIARCLVQEADYILLDEPFAGIDSVSEEIIMNTLRDLKKAGKTVLIVHHDLSKIPHYFDQVLLVNREVIAFGPTKETFTETNLKEAYGNQL MIRIENLSVSYKETLALKDISLVLHGPTITGIIGPNGAGKSTLLKGMLGIIPHQGQAFLDDKEVKKSLHRIAYVEQKINIDYNFPIKVKECVSLGLFPSIPLFRSLKAKHWKKVQEALEIVGLADYAERQISQLSGGQFQRVLIARCLVQEADYILLDEPFAGIDSVSEEIIMNTLRDLKKAGKTVLIVHHDLSKIPHYFDQVLLVNREVIAFGPTKETFTETNLKEAYGNQLF 7kyw-a1-m1-cA_7kyw-a1-m2-cA Crystal structure of timothy grass allergen Phl p 12.0101 reveals an unusual profilin dimer P35079 P35079 2.3 X-RAY DIFFRACTION 42 1.0 15957 (Phleum pratense) 15957 (Phleum pratense) 131 131 GSWQTYVDEHLMCEIEGHHLASAAILGHDGTVWAQSADFPQFKPEEITGIMKDFDEPGHLAPTGMFVAGAKYMVIQGEPGRVIRGKKGAGGITIKKTGQALVVGIYDEPMTPGQCNMVVERLGDYLVEQGM GSWQTYVDEHLMCEIEGHHLASAAILGHDGTVWAQSADFPQFKPEEITGIMKDFDEPGHLAPTGMFVAGAKYMVIQGEPGRVIRGKKGAGGITIKKTGQALVVGIYDEPMTPGQCNMVVERLGDYLVEQGM 7kz3-a1-m1-cB_7kz3-a1-m1-cD Crystal structure of KabA from Bacillus cereus UW85 in complex with the internal aldimine C0JRF5 C0JRF5 1.55 X-RAY DIFFRACTION 182 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 438 438 7kz3-a1-m1-cA_7kz3-a1-m1-cC 7kz5-a1-m1-cA_7kz5-a1-m1-cB 7kz5-a1-m1-cC_7kz5-a1-m1-cD 7kz6-a1-m1-cA_7kz6-a1-m1-cB 7kz6-a1-m1-cC_7kz6-a1-m1-cD 7kzd-a1-m1-cA_7kzd-a1-m1-cC 7kzd-a2-m1-cD_7kzd-a2-m1-cB 7kzd-a3-m1-cE_7kzd-a3-m1-cH 7kzd-a4-m1-cF_7kzd-a4-m1-cG TLTTISGHSKDNLALLKCLQGETKEKEFEISNVLPNHKMKEKLFRENKLKIDIDIEKDIFNYSRKNIQKIEFMPVNRLISQSEIDGIIGTLKEVLPTGQFTSGPFSKKLEEVIGDYLNKKYVIATSSGTDALMVSLLSIGIQPGDEVIMPANSFAATENAVLAIGAKPVFVDIDHKSYCIDPLKIEEAITQKTKCILPVHLYGKQCDMKRIREIADVYQLRIIEDACQAIGSSNLGEYGDIIILSFNPYNFGVCGKAGAIVTNNENLAIRCNQYSYHGFEVDKKNKKVLDFGFNSKIDNLQAAIGLERIKFLSYNNLKRVFLAQRYIRNLKELEDRELIKLPRMTEDNVWHLFPIRIINGRRDEVKNKLYQLYNIETDIYYPVLSHKHNTKLVKKNYMQDTLLNTEQVHKEILHLPLHPNMLLEEQNFVLEGLINVNK TLTTISGHSKDNLALLKCLQGETKEKEFEISNVLPNHKMKEKLFRENKLKIDIDIEKDIFNYSRKNIQKIEFMPVNRLISQSEIDGIIGTLKEVLPTGQFTSGPFSKKLEEVIGDYLNKKYVIATSSGTDALMVSLLSIGIQPGDEVIMPANSFAATENAVLAIGAKPVFVDIDHKSYCIDPLKIEEAITQKTKCILPVHLYGKQCDMKRIREIADVYQLRIIEDACQAIGSSNLGEYGDIIILSFNPYNFGVCGKAGAIVTNNENLAIRCNQYSYHGFEVDKKNKKVLDFGFNSKIDNLQAAIGLERIKFLSYNNLKRVFLAQRYIRNLKELEDRELIKLPRMTEDNVWHLFPIRIINGRRDEVKNKLYQLYNIETDIYYPVLSHKHNTKLVKKNYMQDTLLNTEQVHKEILHLPLHPNMLLEEQNFVLEGLINVNK 7kz3-a1-m1-cC_7kz3-a1-m1-cD Crystal structure of KabA from Bacillus cereus UW85 in complex with the internal aldimine C0JRF5 C0JRF5 1.55 X-RAY DIFFRACTION 15 1.0 1396 (Bacillus cereus) 1396 (Bacillus cereus) 438 438 7kz3-a1-m1-cA_7kz3-a1-m1-cB 7kz5-a1-m1-cA_7kz5-a1-m1-cD 7kz5-a1-m1-cB_7kz5-a1-m1-cC 7kz6-a1-m1-cA_7kz6-a1-m1-cD 7kz6-a1-m1-cB_7kz6-a1-m1-cC TLTTISGHSKDNLALLKCLQGETKEKEFEISNVLPNHKMKEKLFRENKLKIDIDIEKDIFNYSRKNIQKIEFMPVNRLISQSEIDGIIGTLKEVLPTGQFTSGPFSKKLEEVIGDYLNKKYVIATSSGTDALMVSLLSIGIQPGDEVIMPANSFAATENAVLAIGAKPVFVDIDHKSYCIDPLKIEEAITQKTKCILPVHLYGKQCDMKRIREIADVYQLRIIEDACQAIGSSNLGEYGDIIILSFNPYNFGVCGKAGAIVTNNENLAIRCNQYSYHGFEVDKKNKKVLDFGFNSKIDNLQAAIGLERIKFLSYNNLKRVFLAQRYIRNLKELEDRELIKLPRMTEDNVWHLFPIRIINGRRDEVKNKLYQLYNIETDIYYPVLSHKHNTKLVKKNYMQDTLLNTEQVHKEILHLPLHPNMLLEEQNFVLEGLINVNK TLTTISGHSKDNLALLKCLQGETKEKEFEISNVLPNHKMKEKLFRENKLKIDIDIEKDIFNYSRKNIQKIEFMPVNRLISQSEIDGIIGTLKEVLPTGQFTSGPFSKKLEEVIGDYLNKKYVIATSSGTDALMVSLLSIGIQPGDEVIMPANSFAATENAVLAIGAKPVFVDIDHKSYCIDPLKIEEAITQKTKCILPVHLYGKQCDMKRIREIADVYQLRIIEDACQAIGSSNLGEYGDIIILSFNPYNFGVCGKAGAIVTNNENLAIRCNQYSYHGFEVDKKNKKVLDFGFNSKIDNLQAAIGLERIKFLSYNNLKRVFLAQRYIRNLKELEDRELIKLPRMTEDNVWHLFPIRIINGRRDEVKNKLYQLYNIETDIYYPVLSHKHNTKLVKKNYMQDTLLNTEQVHKEILHLPLHPNMLLEEQNFVLEGLINVNK 7l00-a2-m1-cC_7l00-a2-m1-cD Crystal Structure of C. difficile Enoyl-Acyl Carrier Protein Reductase (FabK) in Complex with an Inhibitor A0A031WIF2 A0A031WIF2 1.72 X-RAY DIFFRACTION 115 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 315 315 7l00-a1-m1-cA_7l00-a1-m1-cB VPRGSHMNKICKILNIKYPVIQGGMAWVATASLASAVSNAGGLGIIAAGNAPKEAIKKEIVECKKLTDKPFGVNVMLMSPFVDDIIDLIIEEKVQVITTGAGNPAKYMDRLKEAGTKVIPVVPTIALAQRMEKLGATAVIAEGTEGGGHIGELTTMVLVPQVADAVNIPVIAAGGIVDGRGIAASFALGASAVQVGTRFICSEECSVHSNYKNLVLKAKDRDAIVTGRSTGHPVRTLKNKLSKEFLKMEQNGATPEELDKKGTGALRFATVDGDIEKGSFMAGQSAAMVKEITPCKEIIEAMVNQAREIMPAIEL VPRGSHMNKICKILNIKYPVIQGGMAWVATASLASAVSNAGGLGIIAAGNAPKEAIKKEIVECKKLTDKPFGVNVMLMSPFVDDIIDLIIEEKVQVITTGAGNPAKYMDRLKEAGTKVIPVVPTIALAQRMEKLGATAVIAEGTEGGGHIGELTTMVLVPQVADAVNIPVIAAGGIVDGRGIAASFALGASAVQVGTRFICSEECSVHSNYKNLVLKAKDRDAIVTGRSTGHPVRTLKNKLSKEFLKMEQNGATPEELDKKGTGALRFATVDGDIEKGSFMAGQSAAMVKEITPCKEIIEAMVNQAREIMPAIEL 7l07-a2-m1-cA_7l07-a2-m2-cA Last common ancestor of HMPPK and PLK/HMPPK vitamin kinases 2 X-RAY DIFFRACTION 98 1.0 32630 (synthetic construct) 32630 (synthetic construct) 214 214 MTMHKALTIAGSDSSGGAGIQADLKTFQELGVYGMSAITAIVAQNTLGHKGVYPLPLEAIEAQLDTVLEDIGVDALKTGMLATAEIIELVAEKIKEYNVKNVVVDPVMSLLHEEAAEALREELIPLATVVTPNLPEAEVLSGMRIIKTVEDMKEAAKKIHEMGAKYVLVKGVDVLFDGEEFEIFETFSAAITAELAKGYSLKEAVKTAKEFITE MTMHKALTIAGSDSSGGAGIQADLKTFQELGVYGMSAITAIVAQNTLGHKGVYPLPLEAIEAQLDTVLEDIGVDALKTGMLATAEIIELVAEKIKEYNVKNVVVDPVMSLLHEEAAEALREELIPLATVVTPNLPEAEVLSGMRIIKTVEDMKEAAKKIHEMGAKYVLVKGVDVLFDGEEFEIFETFSAAITAELAKGYSLKEAVKTAKEFITE 7l0j-a1-m1-cA_7l0j-a1-m2-cA Structure of AMH bound to AMHR2-ECD P03971 P03971 2.6 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 102 102 DGPCALRELSVDLRAERSVLIPETYQANNCQGVCGWPQSDRNPRYGNHVVLLLKMQARGAALARPPCCVPTAYAGKLLISLSEERISAHHVPNMVATECGCR DGPCALRELSVDLRAERSVLIPETYQANNCQGVCGWPQSDRNPRYGNHVVLLLKMQARGAALARPPCCVPTAYAGKLLISLSEERISAHHVPNMVATECGCR 7l19-a2-m1-cB_7l19-a2-m1-cC Crystal structure of the MarR family transcriptional regulator from Enterobacter soli strain LF7 bound to Indole 3 acetic acid A0A198GGN0 A0A198GGN0 2.77 X-RAY DIFFRACTION 134 1.0 1354262 (Enterobacter soli ATCC BAA-2102) 1354262 (Enterobacter soli ATCC BAA-2102) 122 129 7l19-a1-m1-cA_7l19-a1-m2-cA FHREEFPFYWIVNVYARYTQIMEITLKKAQLDVSGFRVLMVTHQYGKASISQISEYAMAKMPTVTKIVGRLREVMLTDAGRQKVEEAMAQAGKVFEKGFKGMTRNQVAKMNLSLAKVLDNLN FHREEFPFYWIVNVYARYTQIMEITLKKAQLDVSGFRVLMVTHQYGKASISQISEYAMAKMPTVTKIVGRLREDGLVTTEVMLTDAGRQKVEEAMAQAGKVFEKGFKGMTRNQVAKMNLSLAKVLDNLN 7l1i-a1-m1-cA_7l1i-a1-m2-cA Crystal structure of the MarR family transcriptional regulator from Acineotobacter baumannii bound to Indole 3 acetic acid A0A334T093 A0A334T093 2.35 X-RAY DIFFRACTION 205 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 169 169 GVDLGTENLYFQSNAMLDHLEQFLPNKEPSSIQNFPFFWISQVNGKYSQLIEKSIKKLGIDNTRRKIILSTNALGEASITDIANLSTLKLTTATKAVYRLVEDGIVEVYSSTTDERISMVKLTAKGVELVEQINQISVVTLAGILNAFSEDELHNLNHQLKKLFDLMPS GVDLGTENLYFQSNAMLDHLEQFLPNKEPSSIQNFPFFWISQVNGKYSQLIEKSIKKLGIDNTRRKIILSTNALGEASITDIANLSTLKLTTATKAVYRLVEDGIVEVYSSTTDERISMVKLTAKGVELVEQINQISVVTLAGILNAFSEDELHNLNHQLKKLFDLMPS 7l2z-a1-m1-cD_7l2z-a1-m1-cC Bacterial cellulose synthase BcsB hexamer P37652 P37652 3.4 ELECTRON MICROSCOPY 221 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 645 647 6yg8-a1-m1-cB_6yg8-a1-m1-cA 6yg8-a1-m1-cB_6yg8-a1-m1-cD 6yg8-a1-m1-cC_6yg8-a1-m1-cA 6yg8-a1-m1-cE_6yg8-a1-m1-cC 7l2z-a1-m1-cA_7l2z-a1-m1-cB 7l2z-a1-m1-cB_7l2z-a1-m1-cC 7l2z-a1-m1-cD_7l2z-a1-m1-cE 7l2z-a1-m1-cE_7l2z-a1-m1-cF NGPSRDVKLTFAQIAPPPGSMVLRGINPNGSIEFGMRSDEVVTKAMLNLEYTPSPSLLPVQSQLKVYLNDELMGVLPVTKEQLGKKTLAQMPINPLFISDFNRVRLEFVGHYQDVCEKPASTTLWLDVGRSSGLDLTYQTLNVKNDLSHFPVPFFDPSDNRTNTLPMVFAGAPDVGLQQASAIVASWFGSRSGWRGQNFPVLYNQLPDRNAIVFATNDKRPDFLRDHPAVKAPVIEMINHPQNPYVKLLVVFGRDDKDLLQAAKGIAQGNILFRGESVVVNEVKPLLPRKPYDAPNWVRTDRPVTFGELKTYEEQLQSSGLEPAAINVSLNLPPDLYLMRSTGIDMDINYRYTMPPVKDSSRMDISLNNQFLQSFNLSDGKTDVSIPALKLGATNQLRFDFEYMNPMPGGSVDNCITFQPVQNHVVIGDDSTIDFSKYYHFIPMPDLRAFANAGFPFSRMADLSQTITVMPKAPNEAQMETLLNTVGFIGAQTGFPAINLTVTDDGSTIQGKDADIMIIGGIPDKLKDDKQIDLLVQATESWVKTPMRQTPFPGIVPDESDRAAETRSTLTSSGAMAAVIGFQSPYNDQRSVIALLADSPRGYEMLNDAVNDSGKRATMFGSVAVIRESGINSLRVGDVYYVGHL NGPSRDVKLTFAQIAPPPGSMVLRGINPNGSIEFGMRSDEVVTKAMLNLEYTPSPSLLPVQSQLKVYLNDELMGVLPVTKEQLGKKTLAQMPINPLFISDFNRVRLEFVGHYQDVCEKPASTTLWLDVGRSSGLDLTYQTLNVKNDLSHFPVPFFDPSDNRTNTLPMVFAGAPDVGLQQASAIVASWFGSRSGWRGQNFPVLYNQLPDRNAIVFATNDKRPDFLRDHPAVKAPVIEMINHPQNPYVKLLVVFGRDDKDLLQAAKGIAQGNILFRGESVVVNEVKPLLPRKPYDAPNWVRTDRPVTFGELKTYEEQLQSSGLEPAAINVSLNLPPDLYLMRSTGIDMDINYRYTMPPVKDSSRMDISLNNQFLQSFNLSSKDGKTDVSIPALKLGATNQLRFDFEYMNPMPGGSVDNCITFQPVQNHVVIGDDSTIDFSKYYHFIPMPDLRAFANAGFPFSRMADLSQTITVMPKAPNEAQMETLLNTVGFIGAQTGFPAINLTVTDDGSTIQGKDADIMIIGGIPDKLKDDKQIDLLVQATESWVKTPMRQTPFPGIVPDESDRAAETRSTLTSSGAMAAVIGFQSPYNDQRSVIALLADSPRGYEMLNDAVNDSGKRATMFGSVAVIRESGINSLRVGDVYYVGHL 7l32-a2-m1-cC_7l32-a2-m1-cB Molybdopterin biosynthesis MoaE protein from Burkholderia ambifaria MC40-6 B1YRH1 B1YRH1 1.9 X-RAY DIFFRACTION 83 1.0 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 140 147 7l32-a1-m1-cA_7l32-a1-m2-cA ATIRIQTDDFDLNAEVAALRARNPKIGALACFVGTVRDLAMELEHYPGMTEKALEKIAAEAGRRWPGIDVAIVHRVGRLLPLDQIVMVATVASHRGDAFASCEFVMDYLKTEAPFWKKETERWVDARSTDDAALARWGVE MATIRIQTDDFDLNAEVAALRARNPKIGALACFVGTVRDLVAAMELEHYPGMTEKALEKIAAEAGRRWPGIDVAIVHRVGRLLPLDQIVMVATVASHRGDAFASCEFVMDYLKTEAPFWKKETTPDGERWVDARSTDDAALARWGVE 7l33-a3-m4-cC_7l33-a3-m7-cC X-ray Structure of a Cu-Bound De Novo Designed Peptide Trimer 1.45 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 7l33-a1-m1-cA_7l33-a1-m2-cA 7l33-a1-m1-cA_7l33-a1-m5-cA 7l33-a1-m2-cA_7l33-a1-m5-cA 7l33-a2-m1-cB_7l33-a2-m3-cB 7l33-a2-m1-cB_7l33-a2-m6-cB 7l33-a2-m3-cB_7l33-a2-m6-cB 7l33-a3-m1-cC_7l33-a3-m4-cC 7l33-a3-m1-cC_7l33-a3-m7-cC GIAAIKQEHAAIKQEIAAIKQEIAAIKWEG GIAAIKQEHAAIKQEIAAIKQEIAAIKWEG 7l3n-a1-m1-cA_7l3n-a1-m1-cC SARS-CoV 2 Spike Protein bound to LY-CoV555 P0DTC2 P0DTC2 3.27 ELECTRON MICROSCOPY 282 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 820 1005 7l3n-a1-m1-cA_7l3n-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7l3o-a2-m1-cB_7l3o-a2-m1-cC Crystal Structure of the RNA binding domain of Threonyl-tRNA synthetase from Cryptosporidium parvum Iowa II Q5CYN0 Q5CYN0 2.1 X-RAY DIFFRACTION 146 1.0 353152 (Cryptosporidium parvum Iowa II) 353152 (Cryptosporidium parvum Iowa II) 401 401 7l3o-a1-m1-cA_7l3o-a1-m1-cD KRDHRLLGSNLQLFFFDSNVSPGSCFWLPAGARLYNKLMDFIRNEYRIREFTEVITPNIFSCDLWKTSGHYFAYKENMFIFDVEEKEWGLKPMNCPGHCVMFKHMNPSYRQLPIRLADFGVLHRNEFSGALNGLTRVRRFQQDDAHIFCTPEQIQEEVFKALDFLFFIYGQLGFTFDLFLSTMPKEHLGTEEQWKEAENALKSALDKTGRDWKLNPGDGAFYGPKIDIMLWDALKRQHQCGTIQLDFQLPIRFNLQYRTDELKQGYRRPVIIHRAILGSVERMSAVILEHTGGKLPFWLSPRQAIVLSISEKTVEYAKSVERELCRRGFDVSGDYSAATINKKIRESQLLQWNYMLVIGENEARDKKVTLRCRDTTIPQELLTLDQLILKFSSMGFPSSID KRDHRLLGSNLQLFFFDSNVSPGSCFWLPAGARLYNKLMDFIRNEYRIREFTEVITPNIFSCDLWKTSGHYFAYKENMFIFDVEEKEWGLKPMNCPGHCVMFKHMNPSYRQLPIRLADFGVLHRNEFSGALNGLTRVRRFQQDDAHIFCTPEQIQEEVFKALDFLFFIYGQLGFTFDLFLSTMPKEHLGTEEQWKEAENALKSALDKTGRDWKLNPGDGAFYGPKIDIMLWDALKRQHQCGTIQLDFQLPIRFNLQYRTDELKQGYRRPVIIHRAILGSVERMSAVILEHTGGKLPFWLSPRQAIVLSISEKTVEYAKSVERELCRRGFDVSGDYSAATINKKIRESQLLQWNYMLVIGENEARDKKVTLRCRDTTIPQELLTLDQLILKFSSMGFPSSID 7l4s-a1-m1-cC_7l4s-a1-m1-cA Crystal structure of the OxyR regulatory domain of Shewanella oneidensis MR-1, reduced form Q8EHA1 Q8EHA1 2.4 X-RAY DIFFRACTION 95 0.99 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 203 207 7l4s-a2-m1-cD_7l4s-a2-m1-cB 7l4s-a3-m1-cE_7l4s-a3-m2-cF EPMTGDIRLGCIPTIAPFLLSRVVKQCQQAYPEMSLLLKEDTTERLLDALGKGELDLLILALPVDTSGYHSMKVGIDPFKMVIHKDLVGIDYQTLPDESIFLLQSEHSITGHAITACQLGDSAKVNPFAATSLHTLVQMVNSKLGTTFLPQMAIDAGILNDTDLVVMTPPGEAPYRDIGLVWRQTTSRILTFRTLGLLIQKLL EPMTGDIRLGCIPTIAPFLLSRVVKQCQQAYPEMSLLLKEDTTERLLDALGKGELDLLILALPVDTSGYHSMKVGIDPFKMVIHKVGGIHQPIDYQTLPDESIFLLQSEHSITGHAITACQLGDSAKVNPFAATSLHTLVQMVNSKLGTTFLPQMAIDAGILNDTDLVVMTPPGEAPYRDIGLVWRQTTSRILTFRTLGLLIQKLLT 7l57-a1-m1-cB_7l57-a1-m1-cC Cryo-EM structure of the SARS-CoV-2 spike glycoprotein bound to Fab 2-15 P0DTC2 P0DTC2 5.87 ELECTRON MICROSCOPY 256 0.994 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 979 994 YTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVLYNSASFSTFKCYGVCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSNPVLPFNDGVYFASTEKSNIIRGWIFGTTLQSLLIVNNATNVVIKVCEFQFCNDPFLGRVYSSANNCTFEYVSQPKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7l6g-a3-m1-cD_7l6g-a3-m1-cC MbnP from Methylosinus trichosporium A0A2D2CY67 A0A2D2CY67 2.04 X-RAY DIFFRACTION 52 1.0 595536 (Methylosinus trichosporium OB3b) 595536 (Methylosinus trichosporium OB3b) 286 287 7l6g-a1-m1-cA_7l6g-a1-m1-cE 7l6g-a2-m1-cB_7l6g-a2-m1-cF KTQPVAVRFALVADGKEVGCGAPLANLGSGRLAGKLHEARLYVYGFELVDAKGKHTPIALTQNDWQYADVALLDFKDARGGNAACTPGNPAKNTTVVGAAPQGAYVGLAFSVGAPVESLVDGKPVFVNHSNVEAAPPPLDISGMANWQAGRRFVTIEVIPPAAVIKPDGSKSRTWMVHVGSTGCKGNPATGEIVACAHENRFPVVFDRFDPKTQRVELDLTTLFESSDISVDKGGAVGCMSALDDPDCPAVFRALGLNLADSAPGANDAGKPSRPGVSPIFSVGAA KTQPVAVRFALVADGKEVGCGAPLANLGSGRLAGKLHEARLYVYGFELVDAKGKHTPIALTQNDWQYADVALLDFKDARGGNAACTPGNPAKNTTVVGAAPQGAYVGLAFSVGAPVESLVDGKPVFVNHSNVEAAPPPLDISGMANWQAGRRFVTIEVIPPAAVIKPDGSKSRTWMVHVGSTGCKGNPATGEIVACAHENRFPVVFDRFDPKTQRVELDLTTLFESSDISVDKGGAVGCMSALDDPDCPAVFRALGLNLADSAPGANDAGKPSRPGVSPIFSVGAAA 7l6l-a1-m1-cE_7l6l-a1-m1-cA Crystal Structure of the DNA-binding Transcriptional Repressor DeoR from Escherichia coli str. K-12 P0ACK5 P0ACK5 1.75 X-RAY DIFFRACTION 24 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 174 175 7l6l-a1-m1-cA_7l6l-a1-m1-cF 7l6l-a1-m1-cC_7l6l-a1-m1-cD 7l6l-a1-m1-cD_7l6l-a1-m1-cB LVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWASAQKHVLVVDHSKFGKVRPARGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLY RLVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWASAQKHVLVVDHSKFGKVRPARGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLY 7l6l-a1-m1-cE_7l6l-a1-m1-cC Crystal Structure of the DNA-binding Transcriptional Repressor DeoR from Escherichia coli str. K-12 P0ACK5 P0ACK5 1.75 X-RAY DIFFRACTION 61 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 174 175 7l6l-a1-m1-cA_7l6l-a1-m1-cD 7l6l-a1-m1-cF_7l6l-a1-m1-cB LVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWASAQKHVLVVDHSKFGKVRPARGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLY RLVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWASAQKHVLVVDHSKFGKVRPARGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLY 7l6l-a1-m1-cF_7l6l-a1-m1-cD Crystal Structure of the DNA-binding Transcriptional Repressor DeoR from Escherichia coli str. K-12 P0ACK5 P0ACK5 1.75 X-RAY DIFFRACTION 24 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 175 176 7l6l-a1-m1-cA_7l6l-a1-m1-cC RLVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWASAQKHVLVVDHSKFGKVRPARGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLY SRLVEEKRRAAKLAATLVEPDQTLFFDCGTTTPWIIEAIDNEIPFTAVCYSLNTFLALKEKPHCRAFLCGGEFHASNAIFKPIDFQQTLNNFCPDIAFYSAAGVHVSKGATCFNLEELPVKHWASAQKHVLVVDHSKFGKVRPARGDLKRFDIVVSDCCPEDEYVKYAQTQRIKLY 7l6n-a1-m1-cB_7l6n-a1-m1-cC The Mycobacterium tuberculosis ClpB disaggregase hexamer structure with three locally refined ClpB middle domains and three DnaK nucleotide binding domains P9WPD1 P9WPD1 7.0 ELECTRON MICROSCOPY 226 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 672 675 6w6e-a1-m1-cB_6w6e-a1-m1-cA 6w6e-a1-m1-cF_6w6e-a1-m1-cA 6w6h-a1-m1-cB_6w6h-a1-m1-cC 6w6h-a1-m1-cD_6w6h-a1-m1-cC 7l6n-a1-m1-cB_7l6n-a1-m1-cA 7l6n-a1-m1-cD_7l6n-a1-m1-cC 7l6n-a1-m1-cF_7l6n-a1-m1-cA QALQKYSTDLTARAREGKLDPVIGRDNEIRRVVQVLSRRTKNNPVLIGEPGVGKTAIVEGLAQRIVAGDVPESLRDKTIVALDLGSMVAGSKYRGEFEERLKAVLDDIKNSAGQIITFIDELHTIVGAGADAGNMIKPMLARGELRLVGATTLDEYRKHIEKDAALERRFQQVYVGEPSVEDTIGILRGLKDRYEVHHGVRITDSALVAAATLSDRYITARFLPDKAIDLVDEAASRLRMEIDSRPVEIDEVERLVRRLEIEEMALSKEEDEASAERLAKLRSELADQKEKLAELTTRWQNEKNAIEIVRDLKEQLEALRGESERAERDGDLAKAAELRYGRIPEVEKKLDAALPQKEEVGPDDIADVVSAWTGIPAGRLLEGETAKLLRMEDELGKRVIGQKAAVTAVSDAVRRSRAGVSDPNRPTGAFMFLGPTGVGKTELAKALADFLFDDERAMVRIDMSEYGEKHTVARLIGAPPGYVGYEAGGQLTEAVRRRPYTVVLFDEIEKAHPDVFDVLLQVLDEGRLTDGHGRTVDFRNTILILTSNLGSGGSAEQVLAAVRATFKPEFINRLDDVLIFEGLNPEELVRIVDIQLAQLGKRLAQRRLQLQVSLPAKRWLAQRGFDPVYGARPLRRLVQQAIGDQLAKMLLAGQVHDGDTVPVNVSPDADSL QALQKYSTDLTARAREGKLDPVIGRDNEIRRVVQVLSRRTKNNPVLIGEPGVGKTAIVEGLAQRIVAGDVPESLRDKTIVALDLGSMVAGSKYRGEFEERLKAVLDDIKNSAGQIITFIDELHTIVGAGATAMDAGNMIKPMLARGELRLVGATTLDEYRKHIEKDAALERRFQQVYVGEPSVEDTIGILRGLKDRYEVHHGVRITDSALVAAATLSDRYITARFLPDKAIDLVDEAASRLRMEIDSRPVEIDEVERLVRRLEIEEMALSKEEDEASAERLAKLRSELADQKEKLAELTTRWQNEKNAIEIVRDLKEQLEALRGESERAERDGDLAKAAELRYGRIPEVEKKLDAALPQKEEVGPDDIADVVSAWTGIPAGRLLEGETAKLLRMEDELGKRVIGQKAAVTAVSDAVRRSRAGVSDPNRPTGAFMFLGPTGVGKTELAKALADFLFDDERAMVRIDMSEYGEKHTVARLIGAPPGYVGYEAGGQLTEAVRRRPYTVVLFDEIEKAHPDVFDVLLQVLDEGRLTDGHGRTVDFRNTILILTSNLGSGGSAEQVLAAVRATFKPEFINRLDDVLIFEGLNPEELVRIVDIQLAQLGKRLAQRRLQLQVSLPAKRWLAQRGFDPVYGARPLRRLVQQAIGDQLAKMLLAGQVHDGDTVPVNVSPDADSL 7l6p-a1-m1-cA_7l6p-a1-m1-cB Crystal structure of dihydropteroate synthase from Stenotrophomonas maltophilia with active site-bound imidazole B2FL24 B2FL24 2.35 X-RAY DIFFRACTION 102 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 265 265 SPQLDCAGRILRLDRARVMGIVNVTPDTTEAAVAHGLKLVEEGADLLDIGGESAPVSVEEELRRVIPVIEQLAARTRVPISIDTFKPEVMRAAVAAGAGMINDIYGLRQEGALDAAAATGVPVVLMHMQGEPGHMQADPHYDDVVAEVHGFLVQRLFAAEMAGFAKKNLLIDLGFGFGKTTAHNMTLLARSERFLELGVPMLAGLSRKRSLGELTGRDTPSERVAASVAAHLIAVQRGARIVRVHDVAATVDALKIWQAVEAVPT SPQLDCAGRILRLDRARVMGIVNVTPDTTEAAVAHGLKLVEEGADLLDIGGESAPVSVEEELRRVIPVIEQLAARTRVPISIDTFKPEVMRAAVAAGAGMINDIYGLRQEGALDAAAATGVPVVLMHMQGEPGHMQADPHYDDVVAEVHGFLVQRLFAAEMAGFAKKNLLIDLGFGFGKTTAHNMTLLARSERFLELGVPMLAGLSRKRSLGELTGRDTPSERVAASVAAHLIAVQRGARIVRVHDVAATVDALKIWQAVEAVPT 7l6s-a1-m1-cA_7l6s-a1-m2-cA Crystal structure of the ATPase and transducer domains of DNA topoisomerase II from Balamuthia mandrillaris CDC:V039: baboon/San Diego/1986 1.95 X-RAY DIFFRACTION 141 1.0 66527 (Balamuthia mandrillaris) 66527 (Balamuthia mandrillaris) 396 396 KTPEELYQKKTPIEHVLLRPDTYLGSVLRTTEPGMWVYDPDSRRMVERECTYVPALYKIFDEILVNAADNKQRDPNTSTIEVNIDADTNTISVFNDGRGIPVHVHKTEGMYLPEMLFGHLLTSSNYDDSEAKVTGGRNGYGAKLTNIYSKEFTVETVDCERGLRFQQTWRDNMSVREEPLITPLSPEEKAHGDYTKITFRPDLSRLDSMHSLRDGDIIGVMSRRAFDVAACNEGLDVYLNGEKLPSGFKGYVQLYHNDAFVFEQVNDRWQIVVGPSLDGQFTQQSFVNSIHTRRGGTHVTYILDQLTKHIVASIRRDHPDLTKIVQPALVRNHLSLFINALIENPSFDSQTKETLTTQPSRFGSKCKLSDEFLERVVQRTRIVEEVTRWAELKQKD KTPEELYQKKTPIEHVLLRPDTYLGSVLRTTEPGMWVYDPDSRRMVERECTYVPALYKIFDEILVNAADNKQRDPNTSTIEVNIDADTNTISVFNDGRGIPVHVHKTEGMYLPEMLFGHLLTSSNYDDSEAKVTGGRNGYGAKLTNIYSKEFTVETVDCERGLRFQQTWRDNMSVREEPLITPLSPEEKAHGDYTKITFRPDLSRLDSMHSLRDGDIIGVMSRRAFDVAACNEGLDVYLNGEKLPSGFKGYVQLYHNDAFVFEQVNDRWQIVVGPSLDGQFTQQSFVNSIHTRRGGTHVTYILDQLTKHIVASIRRDHPDLTKIVQPALVRNHLSLFINALIENPSFDSQTKETLTTQPSRFGSKCKLSDEFLERVVQRTRIVEEVTRWAELKQKD 7l75-a1-m1-cB_7l75-a1-m1-cA Crystal Structure of Peptidylprolyl Isomerase PrsA from Streptococcus mutans. Q8CVC6 Q8CVC6 3.15 X-RAY DIFFRACTION 97 1.0 1309 (Streptococcus mutans) 1309 (Streptococcus mutans) 265 266 SKIATKGDTITVADFYNEVKNSTASKQAVLSLLVSKVFEKQYGDKVSDKEVTKAYNEAAKYYGDSFSSALASRGYTKEDYKKQIRSEKLIEYAVKEEAKKEITDASYKSAYKDYKPEVTAQVIQLDSEDKAKSVLEEAKADGADFAKIAKDNTKGDKTEYSFDSGSTNLPSQVLSAALNLDKDGVSDVIKASDSTTYKPVYYIVKITKKTDKNADWKAYKKRLKEIIVSQKLNDSNFRNAVIGKAFKKANVKIKDKAFSEILSQY NSKIATKGDTITVADFYNEVKNSTASKQAVLSLLVSKVFEKQYGDKVSDKEVTKAYNEAAKYYGDSFSSALASRGYTKEDYKKQIRSEKLIEYAVKEEAKKEITDASYKSAYKDYKPEVTAQVIQLDSEDKAKSVLEEAKADGADFAKIAKDNTKGDKTEYSFDSGSTNLPSQVLSAALNLDKDGVSDVIKASDSTTYKPVYYIVKITKKTDKNADWKAYKKRLKEIIVSQKLNDSNFRNAVIGKAFKKANVKIKDKAFSEILSQY 7l7b-a1-m1-cA_7l7b-a1-m1-cB Clostridioides difficile RNAP with fidaxomicin Q18CI5 Q18CI5 3.26 ELECTRON MICROSCOPY 114 1.0 2044939 (Clostridia bacterium) 2044939 (Clostridia bacterium) 224 237 EKPKVDIVELSEDYRYGKFVIEPLERGYGITIGNALRRILLSSLPGVAVNAIKIDGVLHEFSTIPGVKEDVTEIILTLKELSATIDGEGSRTLKIEAQGPCSITGADIICPPDVEILSKDLAIATLDDNAKLNMEIFVDKGRGYVSAEENKTENVPIGVLPVDSIYTPVEKVSYHVENTRVGQKTDYDKLVLEVWTNGSINPQEGISLAAKVLVEHLNLFIDLT IEIEKPKVDIVELSEDYRYGKFVIEPLERGYGITIGNALRRILLSSLPGVAVNAIKIDGVLHEFSTIPGVKEDVTEIILTLKELSATIDGEGSRTLKIEAQGPCSITGADIICPPDVEILSKDLAIATLDDNAKLNMEIFVDKGRGYVSAEENKTENVPIGVLPVDSIYTPVEKVSYHVENTRVGQKTDYDKLVLEVWTNGSINPQEGISLAAKVLVEHLNLFIDLTEHVSSVEIMV 7l7w-a1-m2-cA_7l7w-a1-m3-cA Crystal structure of Arabidopsis NRG1.1 CC-R domain K94E/K96E mutant Q9FKZ1 Q9FKZ1 2.55 X-RAY DIFFRACTION 10 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 118 118 7l7v-a1-m1-cF_7l7v-a1-m1-cA 7l7v-a2-m1-cB_7l7v-a2-m1-cC 7l7v-a2-m1-cD_7l7v-a2-m1-cB 7l7v-a2-m1-cD_7l7v-a2-m1-cC 7l7w-a1-m1-cA_7l7w-a1-m2-cA 7l7w-a1-m1-cA_7l7w-a1-m3-cA SIGEAVFSKLLKVVIDEAKKFKAFKPLSKDLVSTMEILFPLTQKIDSMQKELDFGVKELKELRDTIERADVAVRKFPRVKWYEESEYTRKIERINKDMLKFCQIDLQLLQHRNQWSHP SIGEAVFSKLLKVVIDEAKKFKAFKPLSKDLVSTMEILFPLTQKIDSMQKELDFGVKELKELRDTIERADVAVRKFPRVKWYEESEYTRKIERINKDMLKFCQIDLQLLQHRNQWSHP 7l7x-a1-m1-cAAA_7l7x-a1-m1-cBBB X-ray structure of the Pcryo_0638 aminotransferase from Psychrobacter cryohalolentis Q1QD32 Q1QD32 1.3 X-RAY DIFFRACTION 176 1.0 335284 (Psychrobacter cryohalolentis K5) 335284 (Psychrobacter cryohalolentis K5) 394 395 PFSPWPSFTQIEADAVSRVLLSNQVNYWTGQECRQFETEFAEWADSKYAIAMGNGTLALDVALQALDIGAGDEVIVTPRTFIASISSVVNIGATPVFSDVDEATGNITPESIAAVLTDKTKGIVCVHLAGWPCDMDGIMALADKHNLVIEDCAQAHGATYKGRSVGSIGHIGAWSFCQDKIMTTGGEGGMVTTNDEQLWRKMWAYKDHGKSYAAVYETDHAPGYRWLHESFGTNWRMTEMQAVLGRIQLKRMPDWTAKRTANAQTILDACAKWEAKGYLSVPRLEESVQFADSTHAYYKLYVYVQSDNLPKEWSRDRIIREINDLGVPCFSGSASEVYLEKAFDNTGLRPENRLPVAKQLGETSLMFLVHPTLTEDEIKQTVQAIDGVFANIHN PFSPWPSFTQIEADAVSRVLLSNQVNYWTGQECRQFETEFAEWADSKYAIAMGNGTLALDVALQALDIGAGDEVIVTPRTFIASISSVVNIGATPVFSDVDEATGNITPESIAAVLTDKTKGIVCVHLAGWPCDMDGIMALADKHNLYVIEDCAQAHGATYKGRSVGSIGHIGAWSFCQDKIMTTGGEGGMVTTNDEQLWRKMWAYKDHGKSYAAVYETDHAPGYRWLHESFGTNWRMTEMQAVLGRIQLKRMPDWTAKRTANAQTILDACAKWEAKGYLSVPRLEESVQFADSTHAYYKLYVYVQSDNLPKEWSRDRIIREINDLGVPCFSGSASEVYLEKAFDNTGLRPENRLPVAKQLGETSLMFLVHPTLTEDEIKQTVQAIDGVFANIHN 7l8n-a1-m1-cB_7l8n-a1-m1-cA Diadenylate cyclase with AMP from Streptococcus mutans Q8DTC4 Q8DTC4 1.94 X-RAY DIFFRACTION 60 1.0 210007 (Streptococcus mutans UA159) 210007 (Streptococcus mutans UA159) 150 151 QLSDDEKLVAAFVKAVAYMSPRKIGALVSIEETQTLREYIATGIPLDADISGELLINIFIPNTPLHDGAVIVEGNKIAVSCAYLPLSESSHISKEFGTRHRAAIGLSEASDAFTFVVSEETGAISVAYKGDFIHDLSLEAFEVLLREHFI QQLSDDEKLVAAFVKAVAYMSPRKIGALVSIEETQTLREYIATGIPLDADISGELLINIFIPNTPLHDGAVIVEGNKIAVSCAYLPLSESSHISKEFGTRHRAAIGLSEASDAFTFVVSEETGAISVAYKGDFIHDLSLEAFEVLLREHFI 7l9e-a1-m1-cA_7l9e-a1-m1-cC Crystal structure of apo-alpha glucosidase Q8BHN3 Q8BHN3 2.29 X-RAY DIFFRACTION 53 1.0 10090 (Mus musculus) 10090 (Mus musculus) 597 597 TPQTDIRWMSESGIIDVFLMLGPSVFDVFRQYASLTGTQALPPLFSLGYHQSRWNYRDEADVLEVDQGFDDHNMPCDVIWLDIEHADGKRYFTWDPTRFPQPLNMLEHLASKRRKLVAIVDPHIKVDSGYRVHEELRNHGLYVKTRDGSDYEGWCWPGSASYPDFTNPRMRAWWSNMFSFDNYEGSAPNLYVWNDMNEPSVFNGPEVTMLKDAVHYGGWEHRDIHNIYGLYVHMATADGLIQRSGGIERPFVLSRAFFSGSQRFGAVWTGDNTAEWDHLKISIPMCLSLALVGLSFCGADVGGFFKNPEPELLVRWYQMGAYQPFFRAHAHLDTGRREPWLLASQYQDAIRDALFQRYSLLPFWYTLFYQAHKEGFPVMRPLWVQYPEDMSTFSIEDQFMLGDALLIHPVSDAGAHGVQVYLPGQEEVWYDIQSYQKHHGPQTLYLPVTLSSIPVFQRGGTIVPRWMRVRRSSDCMKDDPITLFVALSPQGTAQGELFLDDGHTFNYQTRHEFLLRRFSFSGSTLVSSSADPKGHLETPIWIERVVIMGAGKPAAVVLQTKGSPESRLSFQHDPETSVLILRKPGVSVASDWSIHLR TPQTDIRWMSESGIIDVFLMLGPSVFDVFRQYASLTGTQALPPLFSLGYHQSRWNYRDEADVLEVDQGFDDHNMPCDVIWLDIEHADGKRYFTWDPTRFPQPLNMLEHLASKRRKLVAIVDPHIKVDSGYRVHEELRNHGLYVKTRDGSDYEGWCWPGSASYPDFTNPRMRAWWSNMFSFDNYEGSAPNLYVWNDMNEPSVFNGPEVTMLKDAVHYGGWEHRDIHNIYGLYVHMATADGLIQRSGGIERPFVLSRAFFSGSQRFGAVWTGDNTAEWDHLKISIPMCLSLALVGLSFCGADVGGFFKNPEPELLVRWYQMGAYQPFFRAHAHLDTGRREPWLLASQYQDAIRDALFQRYSLLPFWYTLFYQAHKEGFPVMRPLWVQYPEDMSTFSIEDQFMLGDALLIHPVSDAGAHGVQVYLPGQEEVWYDIQSYQKHHGPQTLYLPVTLSSIPVFQRGGTIVPRWMRVRRSSDCMKDDPITLFVALSPQGTAQGELFLDDGHTFNYQTRHEFLLRRFSFSGSTLVSSSADPKGHLETPIWIERVVIMGAGKPAAVVLQTKGSPESRLSFQHDPETSVLILRKPGVSVASDWSIHLR 7l9m-a1-m1-cA_7l9m-a1-m1-cB Crystal structure of the first bromodomain (BD1) of human BRD4 in complex with bivalent inhibitor GXH-II-083 O60885 O60885 1.45 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 127 7mr5-a1-m1-cA_7mr5-a1-m1-cB 7mr6-a1-m1-cA_7mr6-a1-m1-cB 7mr7-a1-m1-cB_7mr7-a1-m1-cA SMNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTEE SMNPPPPETSNPNKPKRQTNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINELPTEE 7l9p-a1-m1-cX_7l9p-a1-m1-cY Structure of human SHLD2-SHLD3-REV7-TRIP13(E253Q) complex Q6ZNX1 Q6ZNX1 3.6 ELECTRON MICROSCOPY 56 0.984 9606 (Homo sapiens) 9606 (Homo sapiens) 63 69 SQVHIFWTEVILHYRPCESDPTQLPKIAEKAIQDFPTRPLSRFIPWFPYDGSKLPLRPKRSPP QVHIFWGAPITTEVILHYRPCESDPTQLPKIAEKAIQDFPTRPLSRFIPWFPYDGSKLPLRPKRSPPAS 7l9r-a1-m1-cA_7l9r-a1-m2-cB Crystal Structure of a putative deoxyhypusine synthase from Entamoeba histolytica C4LXB8 C4LXB8 2.4 X-RAY DIFFRACTION 131 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 276 286 7l9r-a1-m2-cA_7l9r-a1-m1-cB IKGYDFDKGINYEELVNSYLTTGIQSSNVGRAINIINKMLTWQPSEEEKKEYVEGDERLKRCTIYLGFTSEMMTSGLRDTFRYLVEHKCVDYIVTTAGAIETDIMKCFGNMNIIPKELIEKTKQWLKEFILDIQECQDTSMPFTPSQLITMMGERLNDTTSVITWAAKNNITIFCPALTDGLFGTCITELNEINPVRLMVDLVQDLRLINSSTIHSVETGVIILGGGVMKHEADFAVYINTAIDSENVKVLAEASLVFPLIVSKTFAVTKRFDGKI IKGYDFDKGINYEELVNSYLTTGIQSSNVGRAINIINKMLTWQPSEEEKKEYVEGDERLKRCTIYLGFTSEMMTSGLRDTFRYLVEHKCVDYIVTTAGAIETDIMKCFGNMNIIPKELIEKTKQWLKEFILDIQECQDTSMPFTPSQLITMMGERLNDTTSVITWAAKNNITIFCPALTDGLFGTCITELNEINPVRLMVDLVQDLRLINSSTIHSVETGVIILGGGVMKHHIMNANLMRNEADFAVYINTAIDSENVKVLAEASLVFPLIVSKTFAVTKRFDGKI 7l9r-a1-m2-cA_7l9r-a1-m2-cB Crystal Structure of a putative deoxyhypusine synthase from Entamoeba histolytica C4LXB8 C4LXB8 2.4 X-RAY DIFFRACTION 70 1.0 294381 (Entamoeba histolytica HM-1:IMSS) 294381 (Entamoeba histolytica HM-1:IMSS) 276 286 7l9r-a1-m1-cA_7l9r-a1-m1-cB IKGYDFDKGINYEELVNSYLTTGIQSSNVGRAINIINKMLTWQPSEEEKKEYVEGDERLKRCTIYLGFTSEMMTSGLRDTFRYLVEHKCVDYIVTTAGAIETDIMKCFGNMNIIPKELIEKTKQWLKEFILDIQECQDTSMPFTPSQLITMMGERLNDTTSVITWAAKNNITIFCPALTDGLFGTCITELNEINPVRLMVDLVQDLRLINSSTIHSVETGVIILGGGVMKHEADFAVYINTAIDSENVKVLAEASLVFPLIVSKTFAVTKRFDGKI IKGYDFDKGINYEELVNSYLTTGIQSSNVGRAINIINKMLTWQPSEEEKKEYVEGDERLKRCTIYLGFTSEMMTSGLRDTFRYLVEHKCVDYIVTTAGAIETDIMKCFGNMNIIPKELIEKTKQWLKEFILDIQECQDTSMPFTPSQLITMMGERLNDTTSVITWAAKNNITIFCPALTDGLFGTCITELNEINPVRLMVDLVQDLRLINSSTIHSVETGVIILGGGVMKHHIMNANLMRNEADFAVYINTAIDSENVKVLAEASLVFPLIVSKTFAVTKRFDGKI 7la1-a2-m1-cD_7la1-a2-m1-cC Crystal structure of phosphoglycerate kinase from Mycobacterium avium A0QHY4 A0QHY4 1.6 X-RAY DIFFRACTION 101 1.0 243243 (Mycobacterium avium 104) 243243 (Mycobacterium avium 104) 409 412 7la1-a1-m1-cB_7la1-a1-m1-cA AVHNLKDLLAEGVSGRGVLVRSDLNVPLDSDGEQGRITDPGRITASVPTLSALVEAGAKVVVAAHLGRPKNGPDPALSLAPVAAALGEQLGRHVQLASDVVGTDALARAEGLTDGDVLLLENIRFDARETSKDDAERLALARQLAELVGPTGAFVSDGFGVVHRKQASVYDVATLLPHYAGTLVAEEIAVLEQLTGSTKRPYAVVLGGSKVSDKLGVIESLATKADSIVIGGGMCFTFLAAQGFSVGKSLLETEMVDTCRRLLDTYVDVLRLPVDIVAADRFAADAAPQTVPADAIPDDLMGLDIGPGSVKRFTALLSNAETIFWNGPMGVFEFPAFAAGTKGLAEAIAAATGKGAFSVVGGGDSAAAVRALGIPESGFSHISTGGGASLEYLEGKALPGIEVLGRPQP MVAVHNLKDLLAEGVSGRGVLVRSDLNVPLDSDGEQGRITDPGRITASVPTLSALVEAGAKVVVAAHLGRPKNGPDPALSLAPVAAALGEQLGRHVQLASDVVGTDALARAEGLTDGDVLLLENIRFDARETSKDDAERLALARQLAELVGPTGAFVSDGFGVVHRKQASVYDVATLLPHYAGTLVAEEIAVLEQLTGSTKRPYAVVLGGSKVSDKLGVIESLATKADSIVIGGGMCFTFLAAQGFSVGKSLLETEMVDTCRRLLDTYVDVLRLPVDIVAADRFAADAAPQTVPADAIPDDLMGLDIGPGSVKRFTALLSNAETIFWNGPMGVFEFPAFAAGTKGLAEAIAAATGKGAFSVVGGGDSAAAVRALGIPESGFSHISTGGGASLEYLEGKALPGIEVLGRPQPT 7la6-a1-m1-cA_7la6-a1-m2-cA THE STRUCTURE OF A SENSOR DOMAIN OF A HISTIDINE KINASE (VxrA) FROM VIBRIO CHOLERAE O1 BIOVAR ELTOR STR. N16961, N239 deletion mutant Q9KM24 Q9KM24 1.98 X-RAY DIFFRACTION 165 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 219 219 4r7q-a1-m1-cA_4r7q-a1-m2-cA 7kb7-a1-m1-cA_7kb7-a1-m2-cA NADSLPERIDLFVSLFDYNSATTSYDIRSIQTDFPTRLLTPDSMLPQTSEYPLKDIQLLYKLAQSCTGKLPLSPLITEPLVFTRSLCKGSSLSPRWFARSGLIHPGGGTYAFRYAEKYPAQFANLLPYMHIQERPNAAEGTLLYHLQNMGEDAINALVSGASMFGSGSDLWLRKGDIYYLFNEETWLTNANKAGLSYSLLSADTCFIQRGNICWDVEDH NADSLPERIDLFVSLFDYNSATTSYDIRSIQTDFPTRLLTPDSMLPQTSEYPLKDIQLLYKLAQSCTGKLPLSPLITEPLVFTRSLCKGSSLSPRWFARSGLIHPGGGTYAFRYAEKYPAQFANLLPYMHIQERPNAAEGTLLYHLQNMGEDAINALVSGASMFGSGSDLWLRKGDIYYLFNEETWLTNANKAGLSYSLLSADTCFIQRGNICWDVEDH 7la9-a3-m1-cC_7la9-a3-m1-cE Crystal structure of the first bromodomain (BD1) of human BRD4 (BRD4-1) in complex with bivalent inhibitor NC-III-49-1 O60885 O60885 2.2 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 105 105 7la9-a1-m1-cA_7la9-a1-m1-cD 7la9-a2-m1-cB_7la9-a2-m1-cF TNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINEL TNQLQYLLRVVLKTLWKHQFAWPFQQPVDAVKLNLPDYYKIIKTPMDMGTIKKRLENNYYWNAQECIQDFNTMFTNCYIYNKPGDDIVLMAEALEKLFLQKINEL 7laa-a1-m1-cB_7laa-a1-m1-cC Structure of SARS-CoV-2 S protein in complex with Receptor Binding Domain antibody DH1041 P0DTC2 P0DTC2 3.42 ELECTRON MICROSCOPY 271 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 788 789 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7laf-a1-m1-cB_7laf-a1-m1-cA 15-lipoxygenase-2 loop mutant bound to imidazole-based inhibitor O15296 O15296 2.44 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 655 663 HMAEFRVRVSTGEAFGAGTWDKVSVSIVGTRGESPPLPLTAGAEEDFQVTLPEDVGRVLLLRVHKAAWFCRWFQLTPPGHLLFPCYQWLEGAGTLVLQEGTAKVSWADHHPVLQQQRQEELQARQEMYQWKAYNPGWPHCLDEKTVEDLELNIKYSTAKNANFYLQAGSAFAEMKIKGLLDRKGLWRSLNEMKRIFNFRRTPAAEHAFEHWQEDAFFASQFLNGLNPVLIRRCHYLPKNFPVTDAMVASVLGPGTSLQAELEKGSLFLVDHGILSGIQTNVINGKPQFSAAPMTLLYQSPGCGPLLPLAIQLSQTPGPNSPIFLPTDDKWDWLLAKTWVRNAEFSFHEALTHLLHSHLLPEVFTLATLRQLPHCHPLFKLLIPHTRYTLHINTLARELLIVPGQVVDRSTGIGIEGFSELIQRNMKQLNYSLLCLPEDIRTRGVEDIPGYYYRDDGMQIWGAVERFVSEIIGIYYPSDESVQDDRELQAWVREIFSKGFLNQESSGIPSSLETREALVQYVTMVIFTCSAKHAAVSAGQFDSCAWMPNLPPSMQLPPPTSKGLATCEGFIATLPPVNATCDVILALWLLSKEPGDQRPLGTYPDEHFTEEAPRRSIATFQSRLAQISRGIQERNQGLVLPYTYLDPPLIENSVSI SHMAEFRVRVSTGEAFGAGTWDKVSVSIVGTRGESPPLPLDFTAGAEEDFQVTLPEDVGRVLLLRVHKAGPDAWFCRWFQLTPPRGGHLLFPCYQWLEGAGTLVLQEGTAKVSWADHHPVLQQQRQEELQARQEMYQWKAYNPGWPHCLDEKTVEDLELNIKYSTAKNANFYLQAGSAFAEMKIKGLLDRKGLWRSLNEMKRIFNFRRTPAAEHAFEHWQEDAFFASQFLNGLNPVLIRRCHYLPKNFPVTDAMVASVLGPGTSLQAELEKGSLFLVDHGILSGIQTNVINGKPQFSAAPMTLLYQSPGCGPLLPLAIQLSQTPGPNSPIFLPTDDKWDWLLAKTWVRNAEFSFHEALTHLLHSHLLPEVFTLATLRQLPHCHPLFKLLIPHTRYTLHINTLARELLIVPGQVVDRSTGIGIEGFSELIQRNMKQLNYSLLCLPEDIRTRGVEDIPGYYYRDDGMQIWGAVERFVSEIIGIYYPSDESVQDDRELQAWVREIFSKGFLNQESSGIPSSLETREALVQYVTMVIFTCSAKHAAVSAGQFDSCAWMPNLPPSMQLPPPTSKGLATCEGFIATLPPVNATCDVILALWLLSKEPGDQRPLGTYPDEHFTEEAPRRSIATFQSRLAQISRGIQERNQGLVLPYTYLDPPLIENSVSI 7lap-a1-m1-cA_7lap-a1-m1-cB Crystal structure of aminoglycoside acetyltransferase AAC(3)-Xa Q54216 Q54216 2.04 X-RAY DIFFRACTION 97 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 285 286 DKMDETELLRRSDGPVTRDRIRHDLAALGLVPGDTVMFHTRLSAIGYVSGGPQTVIDALLDVVGPTGTLLVTCGWNDAPPYDFTDWPPAWQEAVRAHHPAFDPRTSEAEHANGRLPEALRRRPGAVRSRHPDVSLAALGASAPALMDAHPWDDPHGPGSPLARLVALGGRVLLLGAPRDTMTLLHHAEALAQAPGKRFVTYEQPIEVAGERVWRTFRDIDSEHGAFDYSSAVPEGQDPFAVIVGSMLAAGIGREGFVGAARSRLFDAAPAVEFGVRWIEEHLNRD DDKMDETELLRRSDGPVTRDRIRHDLAALGLVPGDTVMFHTRLSAIGYVSGGPQTVIDALLDVVGPTGTLLVTCGWNDAPPYDFTDWPPAWQEAVRAHHPAFDPRTSEAEHANGRLPEALRRRPGAVRSRHPDVSLAALGASAPALMDAHPWDDPHGPGSPLARLVALGGRVLLLGAPRDTMTLLHHAEALAQAPGKRFVTYEQPIEVAGERVWRTFRDIDSEHGAFDYSSAVPEGQDPFAVIVGSMLAAGIGREGFVGAARSRLFDAAPAVEFGVRWIEEHLNRD 7law-a1-m2-cA_7law-a1-m4-cA crystal structure of GITR complex with GITR-L Q9UNG2 Q9UNG2 2.752 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 122 2q1m-a1-m1-cA_2q1m-a1-m2-cA 2q1m-a1-m1-cA_2q1m-a1-m3-cA 2q1m-a1-m2-cA_2q1m-a1-m3-cA 2r30-a1-m1-cA_2r30-a1-m2-cA 2r30-a1-m1-cA_2r30-a1-m3-cA 2r30-a1-m2-cA_2r30-a1-m3-cA 2r32-a1-m1-cA_2r32-a1-m2-cA 2r32-a1-m1-cA_2r32-a1-m3-cA 2r32-a1-m2-cA_2r32-a1-m3-cA 3b93-a1-m1-cB_3b93-a1-m1-cA 3b93-a1-m1-cC_3b93-a1-m1-cA 3b94-a1-m1-cC_3b94-a1-m1-cB 3b94-a2-m1-cD_3b94-a2-m2-cD 3b94-a2-m1-cD_3b94-a2-m3-cD 3b94-a2-m2-cD_3b94-a2-m3-cD 7khd-a1-m1-cA_7khd-a1-m3-cA 7khd-a1-m1-cA_7khd-a1-m5-cA 7khd-a1-m3-cA_7khd-a1-m5-cA 7khd-a2-m1-cB_7khd-a2-m2-cB 7khd-a2-m1-cB_7khd-a2-m4-cB 7khd-a2-m2-cB_7khd-a2-m4-cB 7law-a1-m1-cA_7law-a1-m2-cA 7law-a1-m1-cA_7law-a1-m4-cA 7law-a2-m1-cB_7law-a2-m3-cB 7law-a2-m1-cB_7law-a2-m5-cB 7law-a2-m3-cB_7law-a2-m5-cB EPCMAKFGPLPSKWQMASSEPPCVNKVSDWKLEILQNGLYLIYGQVAPNANYNDVAPFEVRLYKNKDMIQTLTNKSKIQNVGGTYELHVGDTIDLIFNSEHQVLKNNTYWGIILLANPQFIS EPCMAKFGPLPSKWQMASSEPPCVNKVSDWKLEILQNGLYLIYGQVAPNANYNDVAPFEVRLYKNKDMIQTLTNKSKIQNVGGTYELHVGDTIDLIFNSEHQVLKNNTYWGIILLANPQFIS 7lb8-a1-m1-cC_7lb8-a1-m1-cU Structure of a ferrichrome importer FhuCDB from E. coli P07821 P07821 3.4 ELECTRON MICROSCOPY 80 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 255 255 TFALRNISFRVPGRTLLHPLSLTFPAGKVTGLIGHNGSGKSTLLKMLGRHQPPSEGEILLDAQPLESWSSKAFARKVAYLPQQLPPAEGMTVRELVAIGRYPWHGALGRFGAADREKVEEAISLVGLKPLAHRLVDSLSGGERQRAWIAMLVAQDSRCLLLDEPTSALDIAHQVDVLSLVHRLSQERGLTVIAVLHDINMAARYCDYLVALRGGEMIAQGTPAEIMRGETLEMIYGIPMGILPHPAGAAPVSFVY TFALRNISFRVPGRTLLHPLSLTFPAGKVTGLIGHNGSGKSTLLKMLGRHQPPSEGEILLDAQPLESWSSKAFARKVAYLPQQLPPAEGMTVRELVAIGRYPWHGALGRFGAADREKVEEAISLVGLKPLAHRLVDSLSGGERQRAWIAMLVAQDSRCLLLDEPTSALDIAHQVDVLSLVHRLSQERGLTVIAVLHDINMAARYCDYLVALRGGEMIAQGTPAEIMRGETLEMIYGIPMGILPHPAGAAPVSFVY 7lbj-a1-m1-cB_7lbj-a1-m1-cA Crystal structure of octaprenyl diphosphate synthase from Stenotrophomonas maltophilia B2FP37 B2FP37 1.85 X-RAY DIFFRACTION 148 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 275 278 HMTAEVLFARWRDRIESQLDAALPSPAEAPQRLHQAMRYSVLGGGKRMRPLLVYASGHLFGTQPESLDAAAMSVELIHAYSLVHDDLPAMDDDALRRGKPTTHVAFDEATAILAGDALQTRAFGLLADAPLPATLRVACLQTLAHASGASGMCGGQALDIDATGQQQTLAALTRMHALKTGALIRAAVRMGALCGQAHEPQLAQLDSFADALGLAFQVRDDILDVESTFPALLGMDGAKAQLHELAARMQSILARYGEEADALRALATLAVERDH HMTAEVLFARWRDRIESQLDAALPSPAEAPQRLHQAMRYSVLGGGKRMRPLLVYASGHLFGTQPESLDAAAMSVELIHAYSLVHDDLPAMDDDALRRGKPTTHVAFDEATAILAGDALQTRAFGLLADAPLPATLRVACLQTLAHASGASGMCGGQALDIDATGQQQTLAALTRMHALKTGALIRAAVRMGALCGQAHEPQLAQLDSFADALGLAFQVRDDILDVEADKSTFPALLGMDGAKAQLHELAARMQSILARYGEEADALRALATLAVERDH 7lbw-a1-m1-cB_7lbw-a1-m1-cA Crystal structure of TFAM (mitochondrial transcription factor A) bridging two non-sequence specific DNA substrates Q00059 Q00059 2.84 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 190 193 4nnu-a1-m1-cB_4nnu-a1-m1-cA 7lbx-a1-m1-cB_7lbx-a1-m1-cA SVLASCPKKPVSSYLRFSKEQLPIFKAQNPDAKTTELIRRIAQRWRELPDSKKKIYQDAYRAEWQVYKEEISRFKEQLTPSQIMSLEKEIMDKHLKRKAMTKKKELTLLGKPKRPRSAYNVYVAERFQEAKGDSPQEKLKTVKENWKNLSDSEKELYIQHAKEDETRYHNEMKSWEEQMIEVGRKDLLRR SVLASCPKKPVSSYLRFSKEQLPIFKAQNPDAKTTELIRRIAQRWRELPDSKKKIYQDAYRAEWQVYKEEISRFKEQLTPSQIMSLEKEIMDKHLKRKAMTKKKELTLLGKPKRPRSAYNVYVAERFQEAKGDSPQEKLKTVKENWKNLSDSEKELYIQHAKEDETRYHNEMKSWEEQMIEVGRKDLLRRTIK 7lc8-a1-m1-cA_7lc8-a1-m1-cB SARS-CoV-2 spike Protein TM domain P0DTC2 P0DTC2 NOT SOLUTION NMR 21 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 21 21 WLGFIAGLIAIVLVTILLSST WLGFIAGLIAIVLVTILLSST 7lc8-a1-m1-cB_7lc8-a1-m1-cC SARS-CoV-2 spike Protein TM domain P0DTC2 P0DTC2 NOT SOLUTION NMR 20 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 21 21 7lc8-a1-m1-cA_7lc8-a1-m1-cC WLGFIAGLIAIVLVTILLSST WLGFIAGLIAIVLVTILLSST 7lc9-a1-m1-cD_7lc9-a1-m1-cE Cryo-EM structure of the N-terminal alpha-synuclein truncation 41-140 P37840 P37840 3.2 ELECTRON MICROSCOPY 192 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 7lc9-a1-m1-cA_7lc9-a1-m1-cB 7lc9-a1-m1-cB_7lc9-a1-m1-cC 7lc9-a1-m1-cC_7lc9-a1-m1-cD 7lc9-a1-m1-cE_7lc9-a1-m1-cG EGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK EGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK 7lc9-a1-m1-cJ_7lc9-a1-m1-cK Cryo-EM structure of the N-terminal alpha-synuclein truncation 41-140 P37840 P37840 3.2 ELECTRON MICROSCOPY 148 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 38 38 7lc9-a1-m1-cF_7lc9-a1-m1-cH 7lc9-a1-m1-cH_7lc9-a1-m1-cI 7lc9-a1-m1-cI_7lc9-a1-m1-cJ 7lc9-a1-m1-cL_7lc9-a1-m1-cK EQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKD EQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKD 7lc9-a1-m1-cL_7lc9-a1-m1-cG Cryo-EM structure of the N-terminal alpha-synuclein truncation 41-140 P37840 P37840 3.2 ELECTRON MICROSCOPY 27 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 29 51 7lc9-a1-m1-cL_7lc9-a1-m1-cE GGAVVTGVTAVAQKTVEGAGSIAAATGFV EGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK 7lcm-a1-m1-cA_7lcm-a1-m2-cA Receiver Domain of RssB bound to beryllofluoride P0AEV1 P0AEV1 1.91 X-RAY DIFFRACTION 67 1.0 562 (Escherichia coli) 562 (Escherichia coli) 128 128 6z4c-a1-m1-cB_6z4c-a1-m1-cA TQPLVGKQILIVEDEQVFRSLLDSWFSSLGATTVLAADGVDALELLGGFTPDLMICDIAMPRMNGLKLLEHIRNRGDQTPVLVISATENMADIAKALRLGVEDVLLKPVKDLNRLREMVFACLYPSMF TQPLVGKQILIVEDEQVFRSLLDSWFSSLGATTVLAADGVDALELLGGFTPDLMICDIAMPRMNGLKLLEHIRNRGDQTPVLVISATENMADIAKALRLGVEDVLLKPVKDLNRLREMVFACLYPSMF 7ld1-a1-m1-cA_7ld1-a1-m1-cB Structure of SARS-CoV-2 S protein in complex with Receptor Binding Domain antibody DH1047 P0DTC2 P0DTC2 3.4 ELECTRON MICROSCOPY 275 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 973 973 7ld1-a1-m1-cC_7ld1-a1-m1-cA 7ld1-a1-m1-cC_7ld1-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERDISEAIYQAGSTPCNGVEGYNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERDISEAIYQAGSTPCNGVEGYNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ld5-a1-m1-cB_7ld5-a1-m1-cC polynucleotide phosphorylase A0QVQ5 A0QVQ5 3.07 ELECTRON MICROSCOPY 103 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 587 587 7ld5-a1-m1-cA_7ld5-a1-m1-cB 7ld5-a1-m1-cA_7ld5-a1-m1-cC DGVYESTAVIDNGSFGTRTIRFETGRLAQQAAGSAVAYLDDETMLLSATTASKNPKDHFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTDAILTCRLIDRPLRPSFVDGLRNEIQVVVTVMSLDPKDLYDVLAINAASMSTQLAGLPFSGPVGGARIALIDGTWVAFPTVEQLERAVFDMVVAGRIVGDGDSADVAIMMVEAEATENVVELVAGGAQAPTEAVVAEGLEAAKPFIKALCAAQQELADRAAKPAGEYPVFPDYEADVYDAVASVATEALAEALTIAGKTERNDRTDEIKVEVLERLAEPYAGREKEIGAAFRSLTKKLVRQRILTDHFRIDGRGITDIRALSAEVAVIPRAHGSALFERGETQILGVTTLDMIKMAQQIDSLGPENTKRYMHHYNFPPYSTGETGRVGSPKRREIGHGALAERALVPVLPSIEEFPYAIRQVSEALGSNGSTSMGSVCASTLALLNAGVPLKAPVAGIAMGLVSDDVDVDGKVEKRYVALTDILGAEDAFGDMDFKVAGTKDFVTALQLDTKLDGIPSQVLAGALSQAKDARLTILDVMAEAIDRPDEMSPYAPRI DGVYESTAVIDNGSFGTRTIRFETGRLAQQAAGSAVAYLDDETMLLSATTASKNPKDHFDFFPLTVDVEERMYAAGRIPGSFFRREGRPSTDAILTCRLIDRPLRPSFVDGLRNEIQVVVTVMSLDPKDLYDVLAINAASMSTQLAGLPFSGPVGGARIALIDGTWVAFPTVEQLERAVFDMVVAGRIVGDGDSADVAIMMVEAEATENVVELVAGGAQAPTEAVVAEGLEAAKPFIKALCAAQQELADRAAKPAGEYPVFPDYEADVYDAVASVATEALAEALTIAGKTERNDRTDEIKVEVLERLAEPYAGREKEIGAAFRSLTKKLVRQRILTDHFRIDGRGITDIRALSAEVAVIPRAHGSALFERGETQILGVTTLDMIKMAQQIDSLGPENTKRYMHHYNFPPYSTGETGRVGSPKRREIGHGALAERALVPVLPSIEEFPYAIRQVSEALGSNGSTSMGSVCASTLALLNAGVPLKAPVAGIAMGLVSDDVDVDGKVEKRYVALTDILGAEDAFGDMDFKVAGTKDFVTALQLDTKLDGIPSQVLAGALSQAKDARLTILDVMAEAIDRPDEMSPYAPRI 7lda-a1-m1-cA_7lda-a1-m1-cB Crystal structure of a ribose-5-phosphate isomerase from Stenotrophomonas maltophilia K279a B2FT30 B2FT30 1.45 X-RAY DIFFRACTION 84 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 215 216 MSEAKRLAAEKAIEYVEDGMIVGVGTGSTVAYFIDALARIQHRIKGAVSSSEQSTARLKQHGIEVIELNHSGNLSLYVDGADECDANKCLIKGGGAALTREKIIAEASERFICIIDPSKQVPVLGRFPLPVEVIPMARSLVARQIRDMTGGQPTWREGVVTDNGNQILDIHNLQITDPEKLERELNQLPGVVCVGLFARRRADVVIVGGEPPVVL HMSEAKRLAAEKAIEYVEDGMIVGVGTGSTVAYFIDALARIQHRIKGAVSSSEQSTARLKQHGIEVIELNHSGNLSLYVDGADECDANKCLIKGGGAALTREKIIAEASERFICIIDPSKQVPVLGRFPLPVEVIPMARSLVARQIRDMTGGQPTWREGVVTDNGNQILDIHNLQITDPEKLERELNQLPGVVCVGLFARRRADVVIVGGEPPVVL 7ldg-a1-m1-cA_7ldg-a1-m2-cA Crystal structure of the MEILB2-BRCA2 complex O75031 O75031 2.56 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 7bdx-a1-m1-cA_7bdx-a1-m1-cB QLNEAKQQLLQQAEYCTEGAAACTLLWGVSSSEEVVKAILGGDKALKFFSITGQTESFVKSLLDSDESQFVFALAGIVTNVAAIACGREFLVNSSRVLLDTILQLLGDLKPGQCTKLKVLLSLYNVSINLKGLKYISESPGFIPLLWWLLSDPDAEVCLHVLRLVQSVVLEPEVFSKSASEFRSSLPLQRILASKSRNPRLQTAAQELLEDLRTL QLNEAKQQLLQQAEYCTEGAAACTLLWGVSSSEEVVKAILGGDKALKFFSITGQTESFVKSLLDSDESQFVFALAGIVTNVAAIACGREFLVNSSRVLLDTILQLLGDLKPGQCTKLKVLLSLYNVSINLKGLKYISESPGFIPLLWWLLSDPDAEVCLHVLRLVQSVVLEPEVFSKSASEFRSSLPLQRILASKSRNPRLQTAAQELLEDLRTL 7ldg-a1-m2-cC_7ldg-a1-m2-cA Crystal structure of the MEILB2-BRCA2 complex O75031 O75031 2.56 X-RAY DIFFRACTION 85 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 208 215 7bdx-a1-m1-cA_7bdx-a1-m1-cD 7bdx-a1-m1-cB_7bdx-a1-m1-cC 7ldg-a1-m1-cC_7ldg-a1-m1-cA RQQLNEAKQQLLQQAEYCTEGAAACTLLWGVSSSEEVVKAILGGDKALKFFSITGQTESFVKSLDSDESQFVFALAGIVTNVAAIACGREFLVNSSRVLLDTILQLLGDLKPGQCTKLKVLLSLYNVSINLKGLKYISESPGFIPLLWWLLSDPDAEVCLHVLRLVQSVVLEPEVFSSSLPLQRILASKSRNPRLQTAAQELLEDLRT QLNEAKQQLLQQAEYCTEGAAACTLLWGVSSSEEVVKAILGGDKALKFFSITGQTESFVKSLLDSDESQFVFALAGIVTNVAAIACGREFLVNSSRVLLDTILQLLGDLKPGQCTKLKVLLSLYNVSINLKGLKYISESPGFIPLLWWLLSDPDAEVCLHVLRLVQSVVLEPEVFSKSASEFRSSLPLQRILASKSRNPRLQTAAQELLEDLRTL 7les-a2-m1-cD_7les-a2-m1-cC Acanthamoeba castellanii CYP51 (AcCYP51)-Imidazole complex L8GJB3 L8GJB3 2.65 X-RAY DIFFRACTION 158 1.0 1257118 (Acanthamoeba castellanii str. Neff) 1257118 (Acanthamoeba castellanii str. Neff) 447 449 6q2c-a1-m1-cA_6q2c-a1-m1-cB 7les-a1-m1-cB_7les-a1-m1-cA GKLPPVVSSLIPFVGSGLSFAGGPLQYTTDAYKKYGDIFTMKVFGQRLTFLVGPDAHVPFFSQGDAELSQDEPYQFSVPIFGPNVVYGADLAHRNQQLKFIAASLSTKALQSYVPLIVKEAEDFFAKWDKSGTVDIRDALAELIILTASRCLMGKEIRENLFTEVAKLYQTLDEGLLPISVFFPYLPIPAHKRRDEARLAMVRMFKKIIDERRANPEVKHNDCLQVFMDARYRGEEQALNDEEITGLMIALLFAGQHTSSVTGSWTGLLLFEANNKKKFLPGVLEEQEEIRKEFGDELTMEALNKMDKLHRCVKEALRMYPPLLFVMRKVIKPFSYKDYYVPEGDTVFVSPALSMRVEEVFPNADQYNPERFVEEDKQAQKYRFVGFGAGRHGCMGENFAYLQIKTIWSVLLRNFDIELVGELPKPDYTAMVVGPAHPCLLRYTRKH KGKLPPVVSSLIPFVGSGLSFAGGPLQYTTDAYKKYGDIFTMKVFGQRLTFLVGPDAHVPFFSQGDAELSQDEPYQFSVPIFGPNVVYGADLAHRNQQLKFIAASLSTKALQSYVPLIVKEAEDFFAKWDKSGTVDIRDALAELIILTASRCLMGKEIRENLFTEVAKLYQTLDEGLLPISVFFPYLPIPAHKRRDEARLAMVRMFKKIIDERRANPEVKHNDCLQVFMDARYRGEEQALNDEEITGLMIALLFAGQHTSSVTGSWTGLLLFEANNKKKFLPGVLEEQEEIRKEFGDELTMEALNKMDKLHRCVKEALRMYPPLLFVMRKVIKPFSYKDYYVPEGDTVFVSPALSMRVEEVFPNADQYNPERFVEEDKQAQKYRFVGFGAGRHGCMGENFAYLQIKTIWSVLLRNFDIELVGELPKPDYTAMVVGPAHPCLLRYTRKHH 7lez-a1-m1-cE_7lez-a1-m1-cP Trimeric human Arginase 1 in complex with mAb1 - 2 hArg:2 mAb1 complex 4.15 ELECTRON MICROSCOPY 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 214 214 EIVMTQSPATLSLSPGERATLSCRASQSVSSYLAWYQQKPGQAPRLLIYDASNRATGIPARFSGSGSGTDFTLTISSLEPEDFAVYYCQQHSLLPRTFGGGTKVEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC EIVMTQSPATLSLSPGERATLSCRASQSVSSYLAWYQQKPGQAPRLLIYDASNRATGIPARFSGSGSGTDFTLTISSLEPEDFAVYYCQQHSLLPRTFGGGTKVEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNEC 7lf1-a1-m1-cD_7lf1-a1-m1-cP Trimeric human Arginase 1 in complex with mAb3 4.04 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 227 227 7lf1-a1-m1-cF_7lf1-a1-m1-cO 7lf1-a1-m1-cG_7lf1-a1-m1-cK EVQLVQSGAEVKKPGASVKVSCKASGYTFFKYGISWVRQAPGQGLEWMGSISPYTGETHYAQKLQGRVTMTTDTSTSTAYMELRSLRSDDTAVYYCAREGAYGYRSPYQNWFDPWGQGTLVTVSSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKY EVQLVQSGAEVKKPGASVKVSCKASGYTFFKYGISWVRQAPGQGLEWMGSISPYTGETHYAQKLQGRVTMTTDTSTSTAYMELRSLRSDDTAVYYCAREGAYGYRSPYQNWFDPWGQGTLVTVSSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKY 7lf2-a1-m1-cG_7lf2-a1-m1-cP Trimeric human Arginase 1 in complex with mAb4 3.72 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 7lf2-a1-m1-cD_7lf2-a1-m1-cK 7lf2-a1-m1-cF_7lf2-a1-m1-cO EVQLVQSGAEVKKVKVSCKASGYTFTDYYMNWVRQAPGQGLEWIGVISPYNGGTTYNQKFKGKATLTVDKSTSTAYMELSSTAVYYCVYDLYYFDYWGQGTLVTVSSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKYGP EVQLVQSGAEVKKVKVSCKASGYTFTDYYMNWVRQAPGQGLEWIGVISPYNGGTTYNQKFKGKATLTVDKSTSTAYMELSSTAVYYCVYDLYYFDYWGQGTLVTVSSASTKGPSVFPLAPCSRSTSESTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTKTYTCNVDHKPSNTKVDKRVESKYGP 7lfu-a1-m1-cA_7lfu-a1-m1-cD Crystal structure of the SARS CoV-1 Papain-like protease in complex with peptide inhibitor VIR250 P0C6X7 2.29 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 694009 (Severe acute respiratory syndrome-related coronavirus) 1 306 G TIKVFTTVDNTNLHTQLVDMSMTYGQQFGPTYLDGADVTKIKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNCYLSSVLLALQQLEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNVVCKHCGQKTTTLTGVEAVMYMGTLSYDNLKTGVSIPGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTT 7lg9-a1-m1-cB_7lg9-a1-m1-cA ChsB1 O53547 O53547 2.03 X-RAY DIFFRACTION 288 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 268 272 7lgb-a1-m1-cA_7lgb-a1-m2-cA TDLSGKVAVVTGAAAGLGRAEALGLARLGATVVVNDVASALDASDVVDEIGAAAAAGAKAVAVAGDISQRATADELLASAVGLGGLDIVVNNAGITRDRMLFNMSDEEWDAVIAVHLRGHFLLTRNAAAYWRDKAKDAEGGSVFGRLVNTSSEAGLVGPVGQANYAAAKAGITALTLSAARALGRYGVCANVICPRADPLSPQHVVSLVQFLASPAAAEVNGQVFIVYGPQVTLVSPPHMERRFSADGTSWDPTELTATLRDYFAGRD TTDLSGKVAVVTGAAAGLGRAEALGLARLGATVVVNDVASALDASDVVDEIGAAAADAGAKAVAVAGDISQRATADELLASAVGLGGLDIVVNNAGITRDRMLFNMSDEEWDAVIAVHLRGHFLLTRNAAAYWRDKAKDAEGGSVFGRLVNTSSEAGLVGPVGQANYAAAKAGITALTLSAARALGRYGVCANVICPRARIDPLSPQHVVSLVQFLASPAAAEVNGQVFIVYGPQVTLVSPPHMERRFSADGTSWDPTELTATLRDYFAGRD 7lga-a2-m1-cE_7lga-a2-m1-cD PEG10 CA-like C-terminal domain Q86TG7 Q86TG7 1.9 X-RAY DIFFRACTION 28 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 84 89 PQRREVAKRKIRRLRQGGSVIDYSNAFQIAQDLDWNEPALIDQYHEGLSDHIQEELSHLEVAKSLSALIGQCIHIERRLARAAA QRREVAKRKIRRLRQGGSVIDYSNAFQIAQDLDWNEPALIDQYHEGLSDHIQEELSHLEVAKSLSALIGQCIHIERRLARAAAARKPRS 7lgm-a1-m1-cA_7lgm-a1-m1-cB Cyanophycin synthetase from A. baylyi DSM587 with ATP Q6FCQ7 Q6FCQ7 4.4 ELECTRON MICROSCOPY 97 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 719 719 NIISTSVYVGPNVYASIPLIRLVIDLNPHYITQLASMGSEVLENLEKVIPTLKTEQDAKLQHKLEELRQAPQQQIGELVAILALHLQRLAGQKGGAAFSAYCHEDETEILYSYESEEIGIEAGEVVCDMLVALAKAHEAGDQIDLNRDVKGFLRYADRFALGPSALALVQAAEERNIPWYRLNDASLIQVGQGKYQKRIEAALTSGTSHIAVEIAGDKNVCNQLLQDLGLPVPKQRVVYDIDDAVRAARRVGFPVVLKPLDGNHGRGVSVNLTTDEAVEAAFDIAMSEGSAVIVESMLYGDDHRLLVVNGELVAAARRVPGHIVGDGKHNVEALIEIVNQDPRRGVGHENMLTKIELDEQALKLLAEKGYDKDSIPAKDEVVYLRRTANISTGGTAIDVTDTIHPENKLMAERAIRAVGLDIGAVDFLTTDITKSYRDIGGGICEVNAGPGLRMHISPSEGPSRDVGGKIMDMLFPQGSQSRVPIAAITGTNGKTTCSRMLAHILKMAGHVVGQTSTDAVYIDGNVTVKGDMTGPVSAKMVLRDPSVDIAVLETARGGIVRSGLGYQFCDVGAVLNVSSDHLGLGGVDTLDGLAEVKRVIAEVTKDTVVLNADNAYTLKMAGHSPAKHIMYVTRDAENKLVREHIRLGKRAVVLEKGLNGDQIVIYENGTQIPLIWTHLIPATLEGKAIHNVENAMFAAGMAYALGKNLDQIRIGLRTF NIISTSVYVGPNVYASIPLIRLVIDLNPHYITQLASMGSEVLENLEKVIPTLKTEQDAKLQHKLEELRQAPQQQIGELVAILALHLQRLAGQKGGAAFSAYCHEDETEILYSYESEEIGIEAGEVVCDMLVALAKAHEAGDQIDLNRDVKGFLRYADRFALGPSALALVQAAEERNIPWYRLNDASLIQVGQGKYQKRIEAALTSGTSHIAVEIAGDKNVCNQLLQDLGLPVPKQRVVYDIDDAVRAARRVGFPVVLKPLDGNHGRGVSVNLTTDEAVEAAFDIAMSEGSAVIVESMLYGDDHRLLVVNGELVAAARRVPGHIVGDGKHNVEALIEIVNQDPRRGVGHENMLTKIELDEQALKLLAEKGYDKDSIPAKDEVVYLRRTANISTGGTAIDVTDTIHPENKLMAERAIRAVGLDIGAVDFLTTDITKSYRDIGGGICEVNAGPGLRMHISPSEGPSRDVGGKIMDMLFPQGSQSRVPIAAITGTNGKTTCSRMLAHILKMAGHVVGQTSTDAVYIDGNVTVKGDMTGPVSAKMVLRDPSVDIAVLETARGGIVRSGLGYQFCDVGAVLNVSSDHLGLGGVDTLDGLAEVKRVIAEVTKDTVVLNADNAYTLKMAGHSPAKHIMYVTRDAENKLVREHIRLGKRAVVLEKGLNGDQIVIYENGTQIPLIWTHLIPATLEGKAIHNVENAMFAAGMAYALGKNLDQIRIGLRTF 7lgn-a1-m1-cA_7lgn-a1-m1-cB Cyanophycin synthetase 1 from T. morbirosei A0A095T5Z8 A0A095T5Z8 3.1 X-RAY DIFFRACTION 102 0.984 642227 (Tatumella morbirosei) 642227 (Tatumella morbirosei) 706 850 MNIISTSVFVGPNTFARTPLIRLTVPHYAEKLNTLGSEVYQALDQVVPGMSSDPVEQAPGMLIARLALKLQHLAGMEGGIAFTSTSQADDEAEVLYSYETEDIGLEAGEVACDMLVALARAEADVRAVDLSHHIARYLRYADKRTLGPSAMELVKAAQERDIPWYRMNDASLIQVGQGKYQKRIEAALTSKTSHIAVEIAADKNMCNQLLGDLGLPVPKQRVVYDEDEAVSAANRIGYPVVVKPLDGNGRGVSVSLTDEQAVKKAYGLAEPEGSAVIVESMIRGDDHRLLVVNGELVAAARRVPGHVAGDGIHTIRELIALVNQDPRRGVGHENVLTRLELDEQAIRLLQSYGYTADSIPPSGEEVYLRKTANISTGGTAVDVTDVIHPDNKLMAERAILAVGLDVGAVDFLTTDITKSYRETLGAICEINAGPGLRMHISPSEGKPRDVGGKIMDMLFPAGSQCRVPIAALTGTNGKTTCARMLSHILKMAGHVVGQTSTDAVLIDGNVTVKGDMTGPVSAKMVLRDPSVDIAVLETARGGIVRSGLGYMFCDVGAVLNVTSDHLGLGGVDTLDELAKVKRVIAEVTRDTVVLNADNEYTLKMAAHSPAKHIMYVTRNPEHTLVREHIRLGKRAVVLEQGLNGEQIVIYDNGMQIPLTWTHLIPATLEGKALHNVENAMFAAGMAYALGKTLDQIRSGLRTFDNT MNIISTSVFVGPNTFARTPLIRLTIDPHYAEKLNTLGSEVYQALDQVVPGMSSDPVEQAPGMLIARLALKLQHLAGMEGGIAFTSTSQADDEAEVLYSYETEDIGLEAGEVACDMLVALARAEADVRAVDLSHHIARYLRYADKRTLGPSAMELVKAAQERDIPWYRMNDASLIQVGQGKYQKRIEAALTSKTSHIAVEIAADKNMCNQLLGDLGLPVPKQRVVYDEDEAVSAANRIGYPVVVDGNHGSVSLTDEQAVKKAYGLAEPEGSAVIVESMIRGDDHRLLVVNGELVAAARRVPGHVAGIHTIRELIALVNQDPRRGVGHENVLTRLELDEQAIRLLQSYGYTADSIPPSGEEVYLRKTANISTGGTAVDVTDVIHPDNKLMAERAILAVGLDVGAVDFLTTDITKSYRETLGAICEINAGPGLRMHISPSEGKPRDVGGKIMDMLFPAGSQCRVPIAALTGTNGKTTCARMLSHILKMAGHVVGQTSTDAVLIDGNVTVKGDMTGPVSAKMVLRDPSVDIAVLETARGGIVRSGLGYMFCDVGAVLNVTSDHLGLGVDTLDELAKVKRVIAEVTRDTVVLNADNEYTLKMAAHSPAKHIMYVTRNPEHTLVREHIRLGKRAVVLEQGLNGEQIVIYDNGMQIPLTWTHLIPATLEGKALHNVENAMFAAGMAYALGKTLDQIRSGLRTFDNTFFQSPGRMNVFDGHGFRVILDYGHNEAAIGAMVELVGRLNPQGRRLVAVTCPGDRRDEDVAAIAAKVAGHFDSYICHRDDDLRDRGPDEMPRLMKQALMDRGVKEEAIQIVEQEVDALSTLLKMANRNDLVLFFCENITRCWKQIINFKPA 7lgp-a1-m1-cA_7lgp-a1-m1-cB DapE enzyme from Shigella flexneri P0AED8 P0AED8 1.91 X-RAY DIFFRACTION 123 1.0 198214 (Shigella flexneri 2a str. 301) 198214 (Shigella flexneri 2a str. 301) 374 377 SCPVIELTQQLIRRPSLSPDDAGCQALLIERLQAIGFTVERMDFADTQNFWAWRGQGETLAFAGHTDVVPPGDADRWINPPFEPTIRDGMLFGRGAADMKGSLAAMVVAAERFVAQHPNHTGRLAFLITSDEEASAHNGTVKVVEALMARNERLDYCLVGEPSSIEVVGDVVKNGRRGSLTCNLTIHGVQGHVAYPHLADNPVHRAAPFLNELVAIEWDQGNEFFPATSMQIANIQAGTGSNNVIPGELFVQFNFRFSTELTDEMIKAQVLALLEKHQLRYTVDWWLSGQPFLTARGKLVDAVVNAVEHYNEIKPQLLTTGGTSDGRFIARMGAQVVELGPVNATIHKINECVNAADLQLLARMYQRIMEQLVA NAMSCPVIELTQQLIRRPSLSPDDAGCQALLIERLQAIGFTVERMDFADTQNFWAWRGQGETLAFAGHTDVVPPGDADRWINPPFEPTIRDGMLFGRGAADMKGSLAAMVVAAERFVAQHPNHTGRLAFLITSDEEASAHNGTVKVVEALMARNERLDYCLVGEPSSIEVVGDVVKNGRRGSLTCNLTIHGVQGHVAYPHLADNPVHRAAPFLNELVAIEWDQGNEFFPATSMQIANIQAGTGSNNVIPGELFVQFNFRFSTELTDEMIKAQVLALLEKHQLRYTVDWWLSGQPFLTARGKLVDAVVNAVEHYNEIKPQLLTTGGTSDGRFIARMGAQVVELGPVNATIHKINECVNAADLQLLARMYQRIMEQLVA 7lh6-a1-m1-cB_7lh6-a1-m1-cA The structure of Bacteroides plebeius L-galactose dehydrogenase B5CY82 B5CY82 2.85 X-RAY DIFFRACTION 48 0.993 484018 (Phocaeicola plebeius DSM 17135) 484018 (Phocaeicola plebeius DSM 17135) 285 286 MEYRELGKTGLKVPVLSYGASSVFHSIKESEAIQSVFTAVEHGLNFIDVSPYYGHYKAETVLGKALKELPRESFILSTKVGKRAQESVYESMERLNIDHIDLINVHDNQVVNETLPALVELKEKGLVGHVGITDLQLENLKWVIDHAAPDTVEAVLNFCHYSLNDDKLVDFLDYFDEKGVGVINASPFGMGLLTQRGVPEWHPAPKSLIEACAKAAKFCKEQGYPIEKLAVQFSVSNPRIPTTLFSSAKSESVLQNIKYIEEPIDWSLVEKVKEIIGDQQRVSWA MEYRELGKTGLKVPVLSYGASSLGGVFHSIKESEAIQSVFTAVEHGLNFIDVSPYYGHYKAETVLGKALKELPRESFILSTKKRAQESVYESMERLNIDHIDLINVHDNQVVNETLPALVELKEKGLVGHVGITDLQLENLKWVIDHAAPDTVEAVLNFCHYSLNDDKLVDFLDYFDEKGVGVINASPFGMGLLTQRGVPEWHPAPKSLIEACAKAAKFCKEQGYPIEKLAVQFSVSNPRIPTTLFSSAKSESVLQNIKYIEEPIDWSLVEKVKEIIGDQQRVSWA 7lhl-a1-m1-cB_7lhl-a1-m1-cD cryo-EM structure of Mycobacterium smegmatis Lhr helicase C-terminal domain 3.6 ELECTRON MICROSCOPY 62 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 569 576 7lhl-a1-m1-cC_7lhl-a1-m1-cA DPAVVASTSAQLQHLTPERAARDAEGVADLLRLLGPLTEADIAQRCTADNIGAWLDGLHAAKRALPVTYAGQTWWAAVEDIGLLRDGIGVPVPVGVPAAFTESASDPLGDLIGRYARTRGPFTTEQTAARFGLGVRVASDVLSRMAVDGRLIRGEFDAQVLKILRRRSLAALRAQVEPVSTDAYARFLPSWQHVGSTNTTGVDGLATVIEQLAGVPIPASAVESLVFPQRVRDYQPAMLDELLASGEVMWSGAGQIGNGDGWVAFHLADTAPLTLTHGAEIEFTDTHRVILETLGHGGAYFFRQLTDGTVEGTAGQELKQALWELIWAGWVTGDTFAPVRAVLSGPRTDPTVSGRWSALPAAEPDSTVRAHFQAELLLGRHGVLTKGAVGAEGVPGGFATLYKVLSAFEDAGRCQRGYFVESLGGAQFAVASTVDRLRSYLDNVDPERPEYHAVVLAATDPANPYGAALGWPTDSEAHRPGRKAGALVALVDGRLVWFLERGGRSLLSFGADADAQRAAAGALTDLVSAGRIPSLLVERINGVAVLDPDVDAERAVVQDALLGAGLSRT LDPAVVASTSAQLQHLTPERAARDAEGVADLLRLLGPLTEADIAQRCTADNIGAWLDGLHAAKRALPVTYAGQTWWAAVEDIGLLRDGIGVPVPVGVPAAFTESASDPLGDLIGRYARTRGPFTTEQTAARFGLGVRVASDVLSRMAVDGRLIRGEFDAQVLKILRRRSLAALRAQVEPVSTDAYARFLPSWQHVGSTNTTGVDGLATVIEQLAGVPIPASAVESLVFPQRVRDYQPAMLDELLASGEVMWSGAGQIGNGDGWVAFHLADTAPLTLTHGAEIEFTDTHRVILETLGHGGAYFFRQLTDGTVEGTAGQELKQALWELIWAGWVTGDTFAPVRAVLSGPRGTDPTVSGRWSALPAAEPDSTVRAHFQAELLLGRHGVLTKGAVGAEGVPGGFATLYKVLSAFEDAGRCQRGYFVESLGGAQFAVASTVDRLRSYLDNVDPERPEYHAVVLAATDPANPYGAALGWPTDSEAHRPGRKAGALVALVDGRLVWFLERGGRSLLSFGADADAQRAAAGALTDLVSAGRIPSLLVERINGVAVLDPDVDAERAVVQDALLGAGLSRTPRGLR 7lhl-a1-m1-cC_7lhl-a1-m1-cB cryo-EM structure of Mycobacterium smegmatis Lhr helicase C-terminal domain 3.6 ELECTRON MICROSCOPY 11 0.989 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 568 569 DPAVVASTSAQLQHLTPERAARDAEGVADLLRLLGPLTEADIAQRCTADNIGAWLDGLHAAKRALPVTYAGQTWWAAVEDIGLLRDGIGVPAFTESASDPLGDLIGRYARTRGPFTTEQTAARFGLGVRVASDVLSRMAVDGRLIRGEFDAQVLKILRRRSLAALRAQVEPVSTDAYARFLPSWQHVGSTNTTGVDGLATVIEQLAGVPIPASAVESLVFPQRVRDYQPAMLDELLASGEVMWSGAGQIGNGDGWVAFHLADTAPLTLTHGAEIEFTDTHRVILETLGHGGAYFFRQLTDGTVEGTAGQELKQALWELIWAGWVTGDTFAPVRAVLSGPRTDPTVSGRWSALPAAEPDSTVRAHFQAELLLGRHGVLTKGAVGAEGVPGGFATLYKVLSAFEDAGRCQRGYFVESLGGAQFAVASTVDRLRSYLDNVDPERPEYHAVVLAATDPANPYGAALGWPTDSEAHRPGRKAGALVALVDGRLVWFLERGGRSLLSFGADADAQRAAAGALTDLVSAGRIPSLLVERINGVAVLDPDVDAERAVVQDALLGAGLSRTPRGLRL DPAVVASTSAQLQHLTPERAARDAEGVADLLRLLGPLTEADIAQRCTADNIGAWLDGLHAAKRALPVTYAGQTWWAAVEDIGLLRDGIGVPVPVGVPAAFTESASDPLGDLIGRYARTRGPFTTEQTAARFGLGVRVASDVLSRMAVDGRLIRGEFDAQVLKILRRRSLAALRAQVEPVSTDAYARFLPSWQHVGSTNTTGVDGLATVIEQLAGVPIPASAVESLVFPQRVRDYQPAMLDELLASGEVMWSGAGQIGNGDGWVAFHLADTAPLTLTHGAEIEFTDTHRVILETLGHGGAYFFRQLTDGTVEGTAGQELKQALWELIWAGWVTGDTFAPVRAVLSGPRTDPTVSGRWSALPAAEPDSTVRAHFQAELLLGRHGVLTKGAVGAEGVPGGFATLYKVLSAFEDAGRCQRGYFVESLGGAQFAVASTVDRLRSYLDNVDPERPEYHAVVLAATDPANPYGAALGWPTDSEAHRPGRKAGALVALVDGRLVWFLERGGRSLLSFGADADAQRAAAGALTDLVSAGRIPSLLVERINGVAVLDPDVDAERAVVQDALLGAGLSRT 7lhl-a1-m1-cC_7lhl-a1-m1-cD cryo-EM structure of Mycobacterium smegmatis Lhr helicase C-terminal domain 3.6 ELECTRON MICROSCOPY 39 0.998 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 568 576 7lhl-a1-m1-cB_7lhl-a1-m1-cA DPAVVASTSAQLQHLTPERAARDAEGVADLLRLLGPLTEADIAQRCTADNIGAWLDGLHAAKRALPVTYAGQTWWAAVEDIGLLRDGIGVPAFTESASDPLGDLIGRYARTRGPFTTEQTAARFGLGVRVASDVLSRMAVDGRLIRGEFDAQVLKILRRRSLAALRAQVEPVSTDAYARFLPSWQHVGSTNTTGVDGLATVIEQLAGVPIPASAVESLVFPQRVRDYQPAMLDELLASGEVMWSGAGQIGNGDGWVAFHLADTAPLTLTHGAEIEFTDTHRVILETLGHGGAYFFRQLTDGTVEGTAGQELKQALWELIWAGWVTGDTFAPVRAVLSGPRTDPTVSGRWSALPAAEPDSTVRAHFQAELLLGRHGVLTKGAVGAEGVPGGFATLYKVLSAFEDAGRCQRGYFVESLGGAQFAVASTVDRLRSYLDNVDPERPEYHAVVLAATDPANPYGAALGWPTDSEAHRPGRKAGALVALVDGRLVWFLERGGRSLLSFGADADAQRAAAGALTDLVSAGRIPSLLVERINGVAVLDPDVDAERAVVQDALLGAGLSRTPRGLRL LDPAVVASTSAQLQHLTPERAARDAEGVADLLRLLGPLTEADIAQRCTADNIGAWLDGLHAAKRALPVTYAGQTWWAAVEDIGLLRDGIGVPVPVGVPAAFTESASDPLGDLIGRYARTRGPFTTEQTAARFGLGVRVASDVLSRMAVDGRLIRGEFDAQVLKILRRRSLAALRAQVEPVSTDAYARFLPSWQHVGSTNTTGVDGLATVIEQLAGVPIPASAVESLVFPQRVRDYQPAMLDELLASGEVMWSGAGQIGNGDGWVAFHLADTAPLTLTHGAEIEFTDTHRVILETLGHGGAYFFRQLTDGTVEGTAGQELKQALWELIWAGWVTGDTFAPVRAVLSGPRGTDPTVSGRWSALPAAEPDSTVRAHFQAELLLGRHGVLTKGAVGAEGVPGGFATLYKVLSAFEDAGRCQRGYFVESLGGAQFAVASTVDRLRSYLDNVDPERPEYHAVVLAATDPANPYGAALGWPTDSEAHRPGRKAGALVALVDGRLVWFLERGGRSLLSFGADADAQRAAAGALTDLVSAGRIPSLLVERINGVAVLDPDVDAERAVVQDALLGAGLSRTPRGLR 7lht-a1-m1-cA_7lht-a1-m1-cB Structure of the LRRK2 dimer Q5S007 Q5S007 3.5 ELECTRON MICROSCOPY 109 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1795 1795 GIQKCGLKVISSIVHFPDALGAMDSVLHTLQMYPDDQEIQCLGLSLIGYGHLLAKILVSSLYRFKDVAEIQTKGFQTILAILKLSASFSKLLVHHSFDLVIFHQMSSNIMEQKDQQFLNLCCKCFAKVAMDDYLKNVMLERACDQNNSIMVECLLLLGADANQAKEGSSLICQVCEKESSPKLVELLLNSGSREQDVRKALTISIGKGDSQIISLLLRRLALDVANNSICLGGFCIGKVEPSWLGPLFPDKTSNLRKQTNIASTLARMVIRYQMKSAVEEREYITSLDLSANELRDIDALSQKCCISVHLEHLEKLELHQNALTSFPQQLCETLKSLTHLDLHSNKFTSFPSYLLKMSCIANLDVSRNDIGPSVVLDPTVKCPTLKQFNLSYNQLSFVPENLTDVVEKLEQLILEGNKISGICSPLRLKELKILNLSKNHISSLSENFLEACPKVESFSARMNFLAAMPFLPPSMTILKLSQNKFSCIPEAILNLPHLRSLDMSSNDIQYLPGPAHWKSLNLRELLFSHNQISILDLSEKAYLWSRVEKLHLSHNKLKEIPPEIGCLENLTSLDVSYNLELRSFPNEMGKLSKIWDLPLDELHLNFDFKHIGCKAKDIIRFLQQRLKKAVPYNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQLVVGQLIPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLSDLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDPKNYMTQYFKLLEKFQIALVPSSLSDHRPVIELPHCENSEIIIRLYEMPYFPMGFWSRLINRLLEISPYMLALRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGDLLVNPDQPRLTIPISQIAPDLILADLPRNIMLNNDELEFEQAPEFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGIAQYCCRMTSEGTPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSAELVCLTRRILLPKNVIVECMVATHHNSRNASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNSFSKQSKQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSESTNSTERNVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREVTVKENKESKHKMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNRKNTEGTQKQKEIQSCLTVWDINLPHEVQNLEKHIEVRKELAEKMRRTSVE GIQKCGLKVISSIVHFPDALGAMDSVLHTLQMYPDDQEIQCLGLSLIGYGHLLAKILVSSLYRFKDVAEIQTKGFQTILAILKLSASFSKLLVHHSFDLVIFHQMSSNIMEQKDQQFLNLCCKCFAKVAMDDYLKNVMLERACDQNNSIMVECLLLLGADANQAKEGSSLICQVCEKESSPKLVELLLNSGSREQDVRKALTISIGKGDSQIISLLLRRLALDVANNSICLGGFCIGKVEPSWLGPLFPDKTSNLRKQTNIASTLARMVIRYQMKSAVEEREYITSLDLSANELRDIDALSQKCCISVHLEHLEKLELHQNALTSFPQQLCETLKSLTHLDLHSNKFTSFPSYLLKMSCIANLDVSRNDIGPSVVLDPTVKCPTLKQFNLSYNQLSFVPENLTDVVEKLEQLILEGNKISGICSPLRLKELKILNLSKNHISSLSENFLEACPKVESFSARMNFLAAMPFLPPSMTILKLSQNKFSCIPEAILNLPHLRSLDMSSNDIQYLPGPAHWKSLNLRELLFSHNQISILDLSEKAYLWSRVEKLHLSHNKLKEIPPEIGCLENLTSLDVSYNLELRSFPNEMGKLSKIWDLPLDELHLNFDFKHIGCKAKDIIRFLQQRLKKAVPYNRMKLMIVGNTGSGKTTLLQQLMKTKKSDLGMQSATVGIDVKDWPIQIRDKRKRDLVLNVWDFAGREEFYSTHPHFMTQRALYLAVYDLSKGQAEVDAMKPWLFNIKARASSSPVILVGTHLDVSKACMSKITKELLNKRGFPAIRDYHFVNATEESDALAKLRKTIINESLNFKIRDQLVVGQLIPDCYVELEKIILSERKNVPIEFPVIDRKRLLQLVRENQLQLDENELPHAVHFLNESGVLLHFQDPALQLSDLYFVEPKWLCKIMAQILTVKVEGCPKHPKGIISRRDPKNYMTQYFKLLEKFQIALVPSSLSDHRPVIELPHCENSEIIIRLYEMPYFPMGFWSRLINRLLEISPYMLALRPNRMYWRQGIYLNWSPEAYCLVGSEVLDNHPESFLKITVPSCRKGCILLGQVVDHIDSLMEEWFPGLLEIDICGEGETLLKKWALYSFNDGEEHQKILLDDLMKKAEEGDLLVNPDQPRLTIPISQIAPDLILADLPRNIMLNNDELEFEQAPEFLLGDGSFGSVYRAAYEGEEVAVKIFNKHTSLRLLRQELVVLCHLHHPSLISLLAAGIRPRMLVMELASKGSLDRLLQQDKASLTRTLQHRIALHVADGLRYLHSAMIIYRDLKPHNVLLFTLYPNAAIIAKIADYGIAQYCCRMTSEGTPGFRAPEVARGNVIYNQQADVYSFGLLLYDILTTGGRIVEGLKFPNEFDELEIQGKLPDPVKEYGCAPWPMVEKLIKQCLKENPQERPTSAQVFDILNSAELVCLTRRILLPKNVIVECMVATHHNSRNASIWLGCGHTDRGQLSFLDLNTEGYTSEEVADSRILCLALVHLPVEKESWIVSGTQSGTLLVINTEDGKKRHTLEKMTDSVTCLYCNSFSKQSKQKNFLLVGTADGKLAIFEDKTVKLKGAAPLKILNIGNVSTPLMCLSESTNSTERNVMWGGCGTKIFSFSNDFTIQKLIETRTSQLFSYAAFSDSNIITVVVDTALYIAKQNSPVVEVWDKKTEKLCGLIDCVHFLREVTVKENKESKHKMSYSGRVKTLCLQKNTALWIGTGGGHILLLDLSTRRLIRVIYNFCNSVRVMMTAQLGSLKNVMLVLGYNRKNTEGTQKQKEIQSCLTVWDINLPHEVQNLEKHIEVRKELAEKMRRTSVE 7lhv-a1-m1-cA_7lhv-a1-m1-cB Structure of Arabidopsis thaliana sulfate transporter AtSULTR4;1 Q9FY46 Q9FY46 2.75 ELECTRON MICROSCOPY 133 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 575 575 MRLVDWIDTLFPCFRWIRTYRWSEYFKLDLMAGITVGIMLVPQAMSYAKLAGLPPIYGLYSSFVPVFVYAIFGSSRQLAIGPVALVSLLVSNALGGIADTNEELHIELAILLALLVGILECIMGLLRLGWLIRFISHSVISGFTSASAIVIGLSQIKYFLGYSIARSSKIVPIVESIIAGADKFQWPPFVMGSLILVILQVMKHVGKAKKELQFLRAAAPLTGIVLGTTIAKVFHPPSISLVGEIPQGLPTFSFPRSFDHAKTLLPTSALITGVAILESVGIAKALAAKNRYELDSNSELFGLGVANILGSLFSAYPATGSFSRSAVNNESEAKTGLSGLITGIIIGCSLLFLTPMFKYIPQCALAAIVISAVSGLVDYDEAIFLWRVDKRDFSLWTITSTITLFFGIEIGVLVGVGFSLAFVIHESANPHIAVLGRLPGTTVYRNIKQYPEAYTYNGIVIVRIDSPIYFANISYIKDRLREYEVAVDKYTNRGLEVDRINFVILEMSPVTHIDSSAVEALKELYQEYKTRDIQLAISNPNKDVHLTIARSGMVELVGKEWFFVRVHDAVQVCLQ MRLVDWIDTLFPCFRWIRTYRWSEYFKLDLMAGITVGIMLVPQAMSYAKLAGLPPIYGLYSSFVPVFVYAIFGSSRQLAIGPVALVSLLVSNALGGIADTNEELHIELAILLALLVGILECIMGLLRLGWLIRFISHSVISGFTSASAIVIGLSQIKYFLGYSIARSSKIVPIVESIIAGADKFQWPPFVMGSLILVILQVMKHVGKAKKELQFLRAAAPLTGIVLGTTIAKVFHPPSISLVGEIPQGLPTFSFPRSFDHAKTLLPTSALITGVAILESVGIAKALAAKNRYELDSNSELFGLGVANILGSLFSAYPATGSFSRSAVNNESEAKTGLSGLITGIIIGCSLLFLTPMFKYIPQCALAAIVISAVSGLVDYDEAIFLWRVDKRDFSLWTITSTITLFFGIEIGVLVGVGFSLAFVIHESANPHIAVLGRLPGTTVYRNIKQYPEAYTYNGIVIVRIDSPIYFANISYIKDRLREYEVAVDKYTNRGLEVDRINFVILEMSPVTHIDSSAVEALKELYQEYKTRDIQLAISNPNKDVHLTIARSGMVELVGKEWFFVRVHDAVQVCLQ 7lhz-a2-m1-cD_7lhz-a2-m1-cC K. pneumoniae Topoisomerase IV (ParE-ParC) in complex with DNA and (3S)-10-[(3R)-3-(1-aminocyclopropyl)pyrrolidin-1-yl]-9-fluoro-3-methyl-5-oxo-2,3-dihydro-5H-[1,4]oxazino[2,3,4-ij]quinoline-6-carboxylic acid (compound 25) B5XU60 B5XU60 3.3 X-RAY DIFFRACTION 163 0.999 507522 (Klebsiella pneumoniae 342) 507522 (Klebsiella pneumoniae 342) 677 714 5eix-a1-m1-cG_5eix-a1-m1-cA 5eix-a2-m1-cJ_5eix-a2-m1-cB 6waa-a1-m1-cD_6waa-a1-m1-cB 6waa-a2-m1-cH_6waa-a2-m1-cF 7lhz-a1-m1-cB_7lhz-a1-m1-cA PGKLADCTAQDLNRTELFLVEGDSAGGSAKQARDREYQAIMPLKGKILNTWEVSSDEVLASQEVHDISVAIGIDPDSDDLSQLRYGKICILADADSDGLHIATLLCALFVRHFRTLVKEGHVYVALPPLYRIYALTEEEKTGVQRFKGLGEMNPMQLRETTLDPNTRRLVQLVISDEDEQQTTAIMDMLLAKKRSEDRRNWLQEKGDERLALHEFTENAYLNYSMYVIMDRALPFIGDGLKPVQRRIVYAMSELGLNASAKFKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYAELLLSELGQGTVDWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAKAAITLIEQPKTTLDELLDIVQGPDFPTEAEIITSRAEIRKIYQNGRGSVRMRAVWSKEDGAVVITALPHQVSGAKVLEQIAAQMRNKKLPMVESDHENPTRLVIVPRSNRVDMEQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNHRLEKVLKRLHILEGLLVAFLNIDEVIEIIRTEDEPKPALMSRFGISETQAEAILELKLRHLAKLEEMKIRGEQSELEKERDQLQAILASERKMNNLLKKELQADADAFGDDRRSPL GKLADCTAQDLNRTELFLVEGDSAGGSAKQARDREYQAIMPLKGKILNTWEVSSDEVLASQEVHDISVAIGIDPDSDDLSQLRYGKICILADADSDGLHIATLLCALFVRHFRTLVKEGHVYVALPPLYRIDLGKEVYYALTEEEKTGVLEQLKRKKGKPNVQRFKGLGEMNPMQLRETTLDPNTRRLVQLVISDEDEQQTTAIMDMLLAKKRSEDRRNWLQEKGDMADLMSDMAERLALHEFTENAYLNYSMYVIMDRALPFIGDGLKPVQRRIVYAMSELGLNASAKFKKSARTVGDVLGKYHPHGDSACYEAMVLMAQPFSYRYPLVDGQGNWGAPDDPKSFAAMRYTESRLSKYAELLLSELGQGTVDWVPNFDGTLQEPKMLPARLPNILLNGTTGIAVGMATDIPPHNLREVAKAAITLIEQPKTTLDELLDIVQGPDFPTEAEIITSRAEIRKIYQNGRGSVRMRAVWSKEDGAVVITALPHQVSGAKVLEQIAAQMRNKKLPMVDDLRDESDHENPTRLVIVPRSNRVDMEQVMNHLFATTDLEKSYRINLNMIGLDGRPAVKNLLEILSEWLVFRRDTVRRRLNHRLEKVLKRLHILEGLLVAFLNIDEVIEIIRTEDEPKPALMSRFGISETQAEAILELKLRHLAKLEEMKIRGEQSELEKERDQLQAILASERKMNNLLKKELQADADAFGDDRRSPLHERE 7liu-a1-m1-cA_7liu-a1-m1-cB DDX3X bound to ATP analog and remodeled RNA:DNA hybrid O00571 O00571 3.001 X-RAY DIFFRACTION 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 442 442 DWSKPLPPSERLEQELFSGGNTGINFEKYDDIPVEATGNNCPPHIESFSDVEMGEIIMGNIELTRYTRPTPVQKHAIPIIKEKRDLMACAQTGSGKTAAFLLPILSQIYSDGPGEALRAMKENGRYGRRKQYPISLVLAPTRELAVQIYEEARKFSYRSRVRPCVVYGGADIGQQIRDLERGCHLLVATPGRLVDMMERGKIGLDFCKYLVLDEADRMLDMGFEPQIRRIVEQDTMPPKGVRHTMMFSATFPKEIQMLARDFLDEYIFLAVGRVGSTSENITQKVVWVEESDKRSFLLDLLNATGKDSLTLVFVETKKGADSLEDFLYHEGYACTSIHGDRSQRDREEALHQFRSGKSPILVATAVAARGLDISNVKHVINFDLPSDIEEYVHRIGRTGRVGNLGLATSFFNERNINITKDLLDLLVEAKQEVPSWLENMAY DWSKPLPPSERLEQELFSGGNTGINFEKYDDIPVEATGNNCPPHIESFSDVEMGEIIMGNIELTRYTRPTPVQKHAIPIIKEKRDLMACAQTGSGKTAAFLLPILSQIYSDGPGEALRAMKENGRYGRRKQYPISLVLAPTRELAVQIYEEARKFSYRSRVRPCVVYGGADIGQQIRDLERGCHLLVATPGRLVDMMERGKIGLDFCKYLVLDEADRMLDMGFEPQIRRIVEQDTMPPKGVRHTMMFSATFPKEIQMLARDFLDEYIFLAVGRVGSTSENITQKVVWVEESDKRSFLLDLLNATGKDSLTLVFVETKKGADSLEDFLYHEGYACTSIHGDRSQRDREEALHQFRSGKSPILVATAVAARGLDISNVKHVINFDLPSDIEEYVHRIGRTGRVGNLGLATSFFNERNINITKDLLDLLVEAKQEVPSWLENMAY 7lj1-a1-m1-cB_7lj1-a1-m1-cE Human Prx1-Srx Decameric Complex Q06830 Q06830 2.97 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 185 185 2z9s-a1-m1-cA_2z9s-a1-m1-cC 2z9s-a1-m1-cB_2z9s-a1-m1-cF 2z9s-a1-m1-cD_2z9s-a1-m1-cG 2z9s-a1-m1-cE_2z9s-a1-m1-cJ 2z9s-a1-m1-cH_2z9s-a1-m1-cI 7lj1-a1-m1-cD_7lj1-a1-m1-cA 7lj1-a1-m1-cF_7lj1-a1-m1-cI 7lj1-a1-m1-cG_7lj1-a1-m1-cJ 7lj1-a1-m1-cH_7lj1-a1-m1-cC 7lj1-a2-m1-cK_7lj1-a2-m1-cN 7lj1-a2-m1-cL_7lj1-a2-m1-cO 7lj1-a2-m1-cM_7lj1-a2-m1-cR 7lj1-a2-m1-cP_7lj1-a2-m1-cS 7lj1-a2-m1-cQ_7lj1-a2-m1-cT SSGNAKIGHPAPNFKATAVMPDGQFKDISLSDYKGKYVVFFFYPLDFTFVCPTEIIAFSDRAEEFKKLNSQVIGASVDSHFVHLAWVNTPKKQGGLGPMNIPLVSDPKRTIAQDYGVLKADEGISFRGLFIIDDKGILRQITVNDLPVGRSVDETLRLVQAFQFTDKHGEVSPAGWKPGSDTIKP SSGNAKIGHPAPNFKATAVMPDGQFKDISLSDYKGKYVVFFFYPLDFTFVCPTEIIAFSDRAEEFKKLNSQVIGASVDSHFVHLAWVNTPKKQGGLGPMNIPLVSDPKRTIAQDYGVLKADEGISFRGLFIIDDKGILRQITVNDLPVGRSVDETLRLVQAFQFTDKHGEVSPAGWKPGSDTIKP 7lj1-a2-m1-cL_7lj1-a2-m1-cK Human Prx1-Srx Decameric Complex Q06830 Q06830 2.97 X-RAY DIFFRACTION 73 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 181 183 1qq2-a1-m1-cA_1qq2-a1-m1-cB 2rii-a1-m1-cA_2rii-a1-m1-cB 2z9s-a1-m1-cA_2z9s-a1-m1-cB 2z9s-a1-m1-cC_2z9s-a1-m1-cD 2z9s-a1-m1-cE_2z9s-a1-m1-cF 2z9s-a1-m1-cG_2z9s-a1-m1-cH 2z9s-a1-m1-cI_2z9s-a1-m1-cJ 3hy2-a1-m1-cB_3hy2-a1-m1-cA 4xcs-a1-m1-cB_4xcs-a1-m1-cA 4xcs-a2-m1-cD_4xcs-a2-m1-cC 4xcs-a3-m1-cE_4xcs-a3-m1-cF 7lj1-a1-m1-cA_7lj1-a1-m1-cB 7lj1-a1-m1-cD_7lj1-a1-m1-cC 7lj1-a1-m1-cE_7lj1-a1-m1-cF 7lj1-a1-m1-cG_7lj1-a1-m1-cH 7lj1-a1-m1-cJ_7lj1-a1-m1-cI 7lj1-a2-m1-cM_7lj1-a2-m1-cN 7lj1-a2-m1-cP_7lj1-a2-m1-cO 7lj1-a2-m1-cQ_7lj1-a2-m1-cR 7lj1-a2-m1-cS_7lj1-a2-m1-cT 7wet-a1-m1-cA_7wet-a1-m1-cB 7weu-a1-m1-cB_7weu-a1-m1-cA SSGNAKIGHPAPNFKATAVMPDGQFKDISLSDYKGKYVVFFFYPLDFTFVCPTEIIAFSDRAEEFKKLNSQVIGASVDSHFVHLAWVNTPKKQGGLGPMNIPLVSDPKRTIAQDYGVLKADEGISFRGLFIIDDKGILRQITVNDLPVGRSVDETLRLVQAFQFTDKHGEVSPAGWKPDTI SSGNAKIGHPAPNFKATAVMPDGQFKDISLSDYKGKYVVFFFYPLDFTFVCPTEIIAFSDRAEEFKKLNSQVIGASVDSHFVHLAWVNTPKKQGGLGPMNIPLVSDPKRTIAQDYGVLKADEGISFRGLFIIDDKGILRQITVNDLPVGRSVDETLRLVQAFQFTDKHGEVSPAGWKPGSDTI 7lji-a1-m1-cA_7lji-a1-m2-cB Structure of poly(aspartic acid) hydrolase PahZ2 with Gd+3 bound Q769D3 Q769D3 1.85 X-RAY DIFFRACTION 139 1.0 88363 (Sphingomonas sp. KT-1) 88363 (Sphingomonas sp. KT-1) 400 400 7ljh-a1-m1-cA_7ljh-a1-m2-cB KPEAVLKTKGYEAAVKILDRDHDRMVDEIIKLTEIPAPPFKEAARAAAYAEMLKDAGLQDVEIDAEGNAMGVYRGTGPAGGPAVMIAAHLDTVFPEGTPIKVRRDGTKLHAPGIGDDTRSLAVLLAYARAMKESGIKVKQDIIFVGNVGEEGSGDLRGVRYLLTKGKYKDRVKSFFSMDGTDASRIVTGGVGSKRYRITYKGPGGHSYGAFGLVNPMVAMSQTVVDFYKIPAPAKPKTTYAASVTGGGTSVNSIPNEVYMEFDMRSESPAELAKVEQAFLAIVQKSVEGENAARSVKEGPITADVKMIGDRPAGETAATQQIVRNADAVIRAKGLDPRPSFSSTDSNMAMSLGIPAVTIGSGGIGARAHSLDEWIDVKKTKSLEGATVGLGILLATAGTQ KPEAVLKTKGYEAAVKILDRDHDRMVDEIIKLTEIPAPPFKEAARAAAYAEMLKDAGLQDVEIDAEGNAMGVYRGTGPAGGPAVMIAAHLDTVFPEGTPIKVRRDGTKLHAPGIGDDTRSLAVLLAYARAMKESGIKVKQDIIFVGNVGEEGSGDLRGVRYLLTKGKYKDRVKSFFSMDGTDASRIVTGGVGSKRYRITYKGPGGHSYGAFGLVNPMVAMSQTVVDFYKIPAPAKPKTTYAASVTGGGTSVNSIPNEVYMEFDMRSESPAELAKVEQAFLAIVQKSVEGENAARSVKEGPITADVKMIGDRPAGETAATQQIVRNADAVIRAKGLDPRPSFSSTDSNMAMSLGIPAVTIGSGGIGARAHSLDEWIDVKKTKSLEGATVGLGILLATAGTQ 7lk4-a2-m1-cQ_7lk4-a2-m1-cS Crystal structure of BAK L100A in complex with activating antibody fragments Q16611 Q16611 3.1 X-RAY DIFFRACTION 82 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 137 158 SEEQVAQDTEEVFRSYVFYRHQQEQEAEGVAAPADPEMSSTMGQVGRQLAIIQHAQPTAENAYEYFTKIATSLFESGINWGRVVALLGFGYRLALHVYQHGLTGFLGQVTRFVVDFMLHHSIARWIAQRGGWVAALN SEEQVAQDTEEVFRSYVFYRHQQEQEAEGVAAPADPEMVTLPLSSTMGQVGRQLAIIGDDINRRYDSEFQTMLQHAQPTAENAYEYFTKIATSLFESGINWGRVVALLGFGYRLALHVYQHGLTGFLGQVTRFVVDFMLHHSIARWIAQRGGWVAALN 7lkk-a2-m1-cC_7lkk-a2-m1-cD Crystal structure of Helicobacter pylori aminofutalosine deaminase (AFLDA) in complex with Methylthio-coformycin Q9ZMG8 Q9ZMG8 1.89 X-RAY DIFFRACTION 83 1.0 210 (Helicobacter pylori) 210 (Helicobacter pylori) 408 409 7lkj-a1-m1-cB_7lkj-a1-m1-cA 7lkj-a2-m1-cD_7lkj-a2-m1-cC 7lkk-a1-m1-cB_7lkk-a1-m1-cA QEIIGASLVFLCNEKCEVLEDYGVVFDEKIVEIGDYHNLTLKYPHLKAQFFENSVLLPAFINAHTHFEFSNNKASFDYGSFSGWLGSVLNNGGAILENCQGAIQNAIMAQLKSGVGSVGAISNHLIEVNLLKESPLNAVVFLEFLGSSYSLEKLKAFEAKFKELKDLEDQKLKAALAVHAPYSVQKDMALSVIQLAKDSQSLLSTHFLESLEELEWVENSKGWFENFYQRFLKESNFTSLYEGANDYIDMFKDTHTLFVHNQFASLEALKRIKSQVKNAFLITCPFSNRLLSGKALDLERVREAGLSVSVATDGLSSNISLSLLDELRAFLLSHNMPLLELAKIALLGATRHGAKALALNNGEIETNKRADLSVFGFNEKFTKEQAILQFLLHAKEVERLFLGGKRVI MQEIIGASLVFLCNEKCEVLEDYGVVFDEKIVEIGDYHNLTLKYPHLKAQFFENSVLLPAFINAHTHFEFSNNKASFDYGSFSGWLGSVLNNGGAILENCQGAIQNAIMAQLKSGVGSVGAISNHLIEVNLLKESPLNAVVFLEFLGSSYSLEKLKAFEAKFKELKDLEDQKLKAALAVHAPYSVQKDMALSVIQLAKDSQSLLSTHFLESLEELEWVENSKGWFENFYQRFLKESNFTSLYEGANDYIDMFKDTHTLFVHNQFASLEALKRIKSQVKNAFLITCPFSNRLLSGKALDLERVREAGLSVSVATDGLSSNISLSLLDELRAFLLSHNMPLLELAKIALLGATRHGAKALALNNGEIETNKRADLSVFGFNEKFTKEQAILQFLLHAKEVERLFLGGKRVI 7ll6-a1-m1-cA_7ll6-a1-m2-cA Crystal structure of fucose synthetase family protein from Brucella suis ATCC 23445 A9WYA5 A9WYA5 2.25 X-RAY DIFFRACTION 95 1.0 470137 (Brucella suis ATCC 23445) 470137 (Brucella suis ATCC 23445) 286 286 PVYSLTGKKIFVAGHTGMVGSAILRRLQHEDCDIITAAHSVLDLTRQGPTENFISGHRPDVIIIAAARVGGILANSRFPADFLYDNLAIGMNLIHAAHQIGVERLLWLGSSCIYPRDAAQPLTEDALLTGPLEPTNEAYAIAKIAGLKYAQSCARQFGDRFITAMPTNLYGPNDNFDPTSSHVLPALIRRVHEARMRGAEPLREFLHVDDLADACLHLLRFYNGIEPVNIGSGEEISIKELALTVARIVGYERKLLDTSRIEALGWQPRIRLEDGLRDVYRNWLEE PVYSLTGKKIFVAGHTGMVGSAILRRLQHEDCDIITAAHSVLDLTRQGPTENFISGHRPDVIIIAAARVGGILANSRFPADFLYDNLAIGMNLIHAAHQIGVERLLWLGSSCIYPRDAAQPLTEDALLTGPLEPTNEAYAIAKIAGLKYAQSCARQFGDRFITAMPTNLYGPNDNFDPTSSHVLPALIRRVHEARMRGAEPLREFLHVDDLADACLHLLRFYNGIEPVNIGSGEEISIKELALTVARIVGYERKLLDTSRIEALGWQPRIRLEDGLRDVYRNWLEE 7lld-a1-m1-cB_7lld-a1-m1-cA Crystal structure of GenB4 in complex with external aldimine of PLP-sisomicin Q6QVT7 Q6QVT7 1.4 X-RAY DIFFRACTION 286 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 445 446 7lle-a1-m1-cB_7lle-a1-m1-cA MNYRELIERARRTTAAEEYDISGRYPSVIAHAEGAWMTDLSGNRYVDLTGADAAVILGYRHPAVNEAITRQIRDYGTTFASTLSVPRVELAERMCERYECAEKVVFHKTGTEGTAMAVRLARAATGRELVLSSGYHGWHEWQMAGEEFGYQQSTGVVGFGYNEKALAKMLEAFGEQVAGVIVSPEVLYFDLDHYRRMSALCARYDVPFMLDEVYTGFRAGPKGVHGLGVPADVVVLGKGLANGHSLAAVMGRRDIIDAYDVSGIQGTYTREVPPMAAALAVFEVLDTPGVYEHAEAMGRRLADGMREILTGEGIPNWVGGPALMFDVVLPNDDLGWEIYKTAHDFGVYFEDSGTQLVTAAFDEAAVDHALTAFRKATRQVVADRPDIAPTSGGELTEERKLDFAEEAFGGLLRDDERTNALIDETIEKVVNRDRSIKPVLFPAQN HMNYRELIERARRTTAAEEYDISGRYPSVIAHAEGAWMTDLSGNRYVDLTGADAAVILGYRHPAVNEAITRQIRDYGTTFASTLSVPRVELAERMCERYECAEKVVFHKTGTEGTAMAVRLARAATGRELVLSSGYHGWHEWQMAGEEFGYQQSTGVVGFGYNEKALAKMLEAFGEQVAGVIVSPEVLYFDLDHYRRMSALCARYDVPFMLDEVYTGFRAGPKGVHGLGVPADVVVLGKGLANGHSLAAVMGRRDIIDAYDVSGIQGTYTREVPPMAAALAVFEVLDTPGVYEHAEAMGRRLADGMREILTGEGIPNWVGGPALMFDVVLPNDDLGWEIYKTAHDFGVYFEDSGTQLVTAAFDEAAVDHALTAFRKATRQVVADRPDIAPTSGGELTEERKLDFAEEAFGGLLRDDERTNALIDETIEKVVNRDRSIKPVLFPAQN 7llk-a1-m1-cI_7llk-a1-m1-cE Cryo-EM structure of Q23.17_DS-SOSIP in complex with Glycan276-Dependent Broadly Neutralizing Antibody 179NC75 Fab O55774 O55774 4.8 ELECTRON MICROSCOPY 41 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 440 440 7llk-a1-m1-cA_7llk-a1-m1-cE 7llk-a1-m1-cI_7llk-a1-m1-cA ENLWVTVYYGVPVWRDADTTLFCASDAKAYETEKHNVWATHACVPTDPNPQEIHLDNVTEKFNMWKNNMVEQMHTDIISLWDQSLKPCVKLTPLCVTLHCTNVTEGLKNCSFNMTTELRDKRQKVYSLFYRLDIVPINENQGSEYRLINCNTSACTQACPKVSFEPIPIHYCAPAGFAILKCKDEGFNGTGLCKNVSTVQCTHGIKPVVSTQLLLNGSLAEKNITIRSENITNNAKIIIVQLVQPVTIKCIRPNNNTRKSIRIGPGQAFYATGDIDIRQAHCNVSRSRWNKTLQEVAEKLRTYFGNKTIIFANSSGGDLEITTHSFNCGGEFFYCNTSGLFNSTWYVNSTTLPCRIKQIINMWQRAGQCMYAPPIPGVIKCESNITGLLLTRDGGKDNNVNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRR ENLWVTVYYGVPVWRDADTTLFCASDAKAYETEKHNVWATHACVPTDPNPQEIHLDNVTEKFNMWKNNMVEQMHTDIISLWDQSLKPCVKLTPLCVTLHCTNVTEGLKNCSFNMTTELRDKRQKVYSLFYRLDIVPINENQGSEYRLINCNTSACTQACPKVSFEPIPIHYCAPAGFAILKCKDEGFNGTGLCKNVSTVQCTHGIKPVVSTQLLLNGSLAEKNITIRSENITNNAKIIIVQLVQPVTIKCIRPNNNTRKSIRIGPGQAFYATGDIDIRQAHCNVSRSRWNKTLQEVAEKLRTYFGNKTIIFANSSGGDLEITTHSFNCGGEFFYCNTSGLFNSTWYVNSTTLPCRIKQIINMWQRAGQCMYAPPIPGVIKCESNITGLLLTRDGGKDNNVNETFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRR 7lm0-a1-m1-cB_7lm0-a1-m1-cA Crystal structure of GenB3 in complex with PLP Q2MG50 Q2MG50 2.09 X-RAY DIFFRACTION 288 1.0 1877 (Micromonospora echinospora) 1877 (Micromonospora echinospora) 446 449 NLTNRGLVERARRVTAAENYDIGTRFSAMIQSGEGAWLTDVEGNRYVDLTASSGTIILGHRNQAVTEAITRQIRDFGTAFASTLSVPRVELAERLCERYECAEKVVFHKTGSEGTAMAARLARAATGRELILSCGYHGWHEWQLAGETFGYQQTTGVVGFGYNEKALAKMLEAFGNEVAGVLISPELLYFDVEFYQRMYALCARYDVPFMMDEVYTGFRAGPKGVHGLGVPADVVVVSKGLANGHSLAAVMGRRDIIDAYDVSGIQGTYTREVPPMAAAMAVLDVLDTPGVYEHAEAMGRRLADGMREILTGEGIPNWVGGPALMFDTVLPNDDLGWEIYKTAHDFGVYFEDSGTQLVTTAFDEAAVDHALTAFRKATRQVIADRPDIAPTSGGELTEERKLDFAEEAFGGLLRDDERTNALIDETIEKVVNRDRSIKPVLIPAQN DSANLTNRGLVERARRVTAAENYDIGTRFSAMIQSGEGAWLTDVEGNRYVDLTASSGTIILGHRNQAVTEAITRQIRDFGTAFASTLSVPRVELAERLCERYECAEKVVFHKTGSEGTAMAARLARAATGRELILSCGYHGWHEWQLAGETFGYQQTTGVVGFGYNEKALAKMLEAFGNEVAGVLISPELLYFDVEFYQRMYALCARYDVPFMMDEVYTGFRAGPKGVHGLGVPADVVVVSKGLANGHSLAAVMGRRDIIDAYDVSGIQGTYTREVPPMAAAMAVLDVLDTPGVYEHAEAMGRRLADGMREILTGEGIPNWVGGPALMFDTVLPNDDLGWEIYKTAHDFGVYFEDSGTQLVTTAFDEAAVDHALTAFRKATRQVIADRPDIAPTSGGELTEERKLDFAEEAFGGLLRDDERTNALIDETIEKVVNRDRSIKPVLIPAQN 7lmr-a1-m1-cB_7lmr-a1-m1-cA Structure of full-length human lambda-6A light chain JTO in complex with stabilizer 63 [4-methyl-3-(morpholinomethyl)-7-(2-phenylpropoxy)-2H-chromen-2-one] 2.09 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 215 215 1cd0-a1-m1-cB_1cd0-a1-m1-cA 1pew-a2-m2-cB_1pew-a2-m1-cB 1pew-a3-m4-cA_1pew-a3-m2-cA 2w0k-a1-m1-cA_2w0k-a1-m2-cA 2w0k-a2-m1-cB_2w0k-a2-m3-cB 2w0l-a1-m1-cC_2w0l-a1-m1-cA 2w0l-a2-m1-cD_2w0l-a2-m1-cB 3b5g-a1-m1-cA_3b5g-a1-m1-cB 3bdx-a1-m1-cA_3bdx-a1-m1-cB 5c9k-a10-m1-cB_5c9k-a10-m2-cH 5c9k-a11-m1-cC_5c9k-a11-m1-cE 5c9k-a12-m1-cF_5c9k-a12-m1-cD 5c9k-a9-m1-cA_5c9k-a9-m1-cG 5jpj-a1-m1-cA_5jpj-a1-m2-cA 5jpj-a2-m1-cB_5jpj-a2-m3-cB 6mg4-a1-m1-cB_6mg4-a1-m1-cA 6mg5-a1-m1-cB_6mg5-a1-m1-cA 6w4y-a1-m1-cB_6w4y-a1-m1-cA 7lmn-a1-m1-cB_7lmn-a1-m1-cA 7lmo-a1-m1-cB_7lmo-a1-m1-cA 7lmp-a1-m1-cB_7lmp-a1-m1-cA 7lmq-a1-m1-cB_7lmq-a1-m1-cA 7rtp-a1-m1-cB_7rtp-a1-m1-cA NFMLNQPHSVSESPGKTVTISCTRSSGNIDSNYVQWYQQRPGSAPITVIYEDNQRPSGVPDRFAGSIDRSSNSASLTISGLKTEDEADYYCQSYDARNVVFGGGTRLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPTEC NFMLNQPHSVSESPGKTVTISCTRSSGNIDSNYVQWYQQRPGSAPITVIYEDNQRPSGVPDRFAGSIDRSSNSASLTISGLKTEDEADYYCQSYDARNVVFGGGTRLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHKSYSCQVTHEGSTVEKTVAPTEC 7lnt-a1-m1-cA_7lnt-a1-m1-cB Ternary complex of the Isopentenyl Phosphate Kinase from Candidatus methanomethylophilus alvus bound to benzyl monophosphate and ATP M9SEQ1 M9SEQ1 2.35 X-RAY DIFFRACTION 129 1.0 1291540 (Candidatus Methanomethylophilus alvus) 1291540 (Candidatus Methanomethylophilus alvus) 238 260 7lnu-a1-m1-cA_7lnu-a1-m1-cB 7lnv-a1-m1-cC_7lnv-a1-m1-cB 7lnv-a2-m1-cA_7lnv-a2-m2-cA 7lnw-a1-m1-cB_7lnw-a1-m1-cA 7lnx-a1-m1-cA_7lnx-a1-m1-cB SHMILIKLGGSVITDKSEYHKFNKETVSRLADEIRRSGQDVMVVHGAGSFGHVIAKKYAIQDGHVDDGQIPAAARIMCDTRELSSMVVEELLAQGIPAVSVAPGSCFVMEDGKLIVDNEEPIRRLADLGIMPVMFGDVVPDRKKGFAIVSGDQCMEVLCRMFDPEKVVFVSDIDGLYTADPKTDKKARLIGEVTRKMEAMLRMTDRNRRCYLVNGNAPNRLYSLLKGETVTCTVAKGG SHMILIKLGGSVITDKSEYHKFNKETVSRLADEIRRSGQDVMVVHGAGSFGHVIAKKYAIQDGHVDDGQIPAAARIMCDTRELSSMVVEELLAQGIPAVSVAPGSCFVMEDGKLIVDNEEPIRRLADLGIMPVMFGDVVPDRKKGFAIVSGDQCMEVLCRMFDPEKVVFVSDIDGLYTADPKTDKKARLIGEVTRKKLDEALTDITVADVTGGVHSKMEAMLRMTDRNRRCYLVNGNAPNRLYSLLKGETVTCTVAKGGM 7lo5-a1-m1-cD_7lo5-a1-m1-cA cryoEM structure DrdV-DNA complex A0A345IJ72 A0A345IJ72 2.86 ELECTRON MICROSCOPY 80 0.999 980427 (Deinococcus wulumuqiensis) 980427 (Deinococcus wulumuqiensis) 1012 1016 7lo5-a1-m1-cB_7lo5-a1-m1-cC 7lvv-a1-m1-cC_7lvv-a1-m1-cB 7lvv-a1-m1-cD_7lvv-a1-m1-cA MSLQLVKKFQKRLEDIVAYGGTRNESSVRAAFQQLLSDWAEGSGLRLITEVTQKAVAGNNVRPDGTLKDSLQQSRGYWESKDEADTLDDEIQKKLAKGYPRDNIIFEDSRLAVLMQNGEEVQRVDMGDAGALAGLLKLFFEFEPPQVLEFRKAVDHFKDEMPHLLKILREAADAAEQKADYRGERDHFVEIAKEAINPDFSPRDAREMLIQHILTGDLFTSVFDNAQYHEDNNIAQQLQQLAATFYKGPVKRDIAERTKRYYGAIQAAAAQIADHHEKQRFLKALYENFYRAYNPAGAERLGIFYTPGEIVRFMIEATDTLLEKHFQKELADKGVEILDPATGTGTFITELIDFLPKAKLEQKYREELHCNELALLPYYIANLNIEATYAQKMGRYEEFRNIVLVDTLDNTSGLFGSVTAENLERAKRQNARPVRVIIGNPPYRANQANENDNNKNREYKEIDRRIKATYVAASTAQKTKLYDMYSRFLRWATDRLKEDGIVAFVSNSSFIDSRTFDGFRKEVVKDFDHIYILDMKGNANTSGERRKREGGNVFNDQIKVGVAVYFLVRSAKDTKIWYHAVPDFWRAREKLEWLKTTKFEDIEFDHIRPDAKHNWLGQVDEENDWNEFLPVADKDTKQAKGLGQERAIFKLYSLGVVTNRDEWVYSRAEDELADKVRYFIGRYNEIIKLPLGDLMSRNWEGDIKMTRATIADAQSRKSYSLEKNSIVPSLYRPFDVLKMYFSKNLNEMQYQMPSIFPKGVGENVVIALSGSPAAKPFQVLATDILPSLDLLEKTQCLPFYRYTMNGERLNNITDYALKAFQTHYAISREDIFHYVYAVLHHPAYREKYALNLRQEFPRIPFYPEFGRWAAWGRELMALHIGFESVAPYPLKRTDEPPKNDTPEALALAKKARLKVQRDAAKQPTGAVELDGLTTLAGIPAAAWAYKLGNRSALEWVLERHKETTPKDATIREKFNTYRFADHKERVIDLLARVTTVSVETVRIVGEMPAETM SLQLVKKFQKRLEDIVAYGGTRNESSVRAAFQQLLSDWAEGSGLRLITEVTQKAVAGNNVRPDGTLKDSLQQSRGYWESKDEADTLDDEIQKKLAKGYPRDNIIFEDSRLAVLMQNGEEVQRVDMGDAGALAGLLKLFFEFEPPQVLEFRKAVDHFKDEMPHLLKILREAADAAEQKADYRGERDHFVEIAKEAINPDFSPRDAREMLIQHILTGDLFTSVFDNAQYHEDNNIAQQLQQLAATFYKGPVKRDIAERTKRYYGAIQAAAAQIADHHEKQRFLKALYENFYRAYNPAGAERLGIFYTPGEIVRFMIEATDTLLEKHFQKELADKGVEILDPATGTGTFITELIDFLPKAKLEQKYREELHCNELALLPYYIANLNIEATYAQKMGRYEEFRNIVLVDTLDNTGFSGLFGSVTAENLERAKRQNARPVRVIIGNPPYRANQANENDNNKNREYKEIDRRIKATYVAASTAQKTKLYDMYSRFLRWATDRLKEDGIVAFVSNSSFIDSRTFDGFRKEVVKDFDHIYILDMKGNANTSGERRKREGGNVFNDQIKVGVAVYFLVRSAKDTKIWYHAVPDFWRAREKLEWLKTTKFEDIEFDHIRPDAKHNWLGQVDEENDWNEFLPVADKDTKQAKGLGQERAIFKLYSLGVVTNRDEWVYSRAEDELADKVRYFIGRYNEIIKLPLGDLMSRNWEGDIKMTRATIADAQSRKSYSLEKNSIVPSLYRPFDVLKMYFSKNLNEMQYQMPSIFPKGVGENVVIALSGSPAAKPFQVLATDILPSLDLLEKTQCLPFYRYTMNGERLNNITDYALKAFQTHYADTSISREDIFHYVYAVLHHPAYREKYALNLRQEFPRIPFYPEFGRWAAWGRELMALHIGFESVAPYPLKRTDEPPKNDTPEALALAKKARLKVQRDAAKQPTGAVELDGLTTLAGIPAAAWAYKLGNRSALEWVLERHKETTPKDATIREKFNTYRFADHKERVIDLLARVTTVSVETVRIVGEMPAETM 7lo5-a1-m1-cD_7lo5-a1-m1-cB cryoEM structure DrdV-DNA complex A0A345IJ72 A0A345IJ72 2.86 ELECTRON MICROSCOPY 26 0.996 980427 (Deinococcus wulumuqiensis) 980427 (Deinococcus wulumuqiensis) 1012 1013 7lo5-a1-m1-cC_7lo5-a1-m1-cA 7lvv-a1-m1-cC_7lvv-a1-m1-cA 7lvv-a1-m1-cD_7lvv-a1-m1-cB MSLQLVKKFQKRLEDIVAYGGTRNESSVRAAFQQLLSDWAEGSGLRLITEVTQKAVAGNNVRPDGTLKDSLQQSRGYWESKDEADTLDDEIQKKLAKGYPRDNIIFEDSRLAVLMQNGEEVQRVDMGDAGALAGLLKLFFEFEPPQVLEFRKAVDHFKDEMPHLLKILREAADAAEQKADYRGERDHFVEIAKEAINPDFSPRDAREMLIQHILTGDLFTSVFDNAQYHEDNNIAQQLQQLAATFYKGPVKRDIAERTKRYYGAIQAAAAQIADHHEKQRFLKALYENFYRAYNPAGAERLGIFYTPGEIVRFMIEATDTLLEKHFQKELADKGVEILDPATGTGTFITELIDFLPKAKLEQKYREELHCNELALLPYYIANLNIEATYAQKMGRYEEFRNIVLVDTLDNTSGLFGSVTAENLERAKRQNARPVRVIIGNPPYRANQANENDNNKNREYKEIDRRIKATYVAASTAQKTKLYDMYSRFLRWATDRLKEDGIVAFVSNSSFIDSRTFDGFRKEVVKDFDHIYILDMKGNANTSGERRKREGGNVFNDQIKVGVAVYFLVRSAKDTKIWYHAVPDFWRAREKLEWLKTTKFEDIEFDHIRPDAKHNWLGQVDEENDWNEFLPVADKDTKQAKGLGQERAIFKLYSLGVVTNRDEWVYSRAEDELADKVRYFIGRYNEIIKLPLGDLMSRNWEGDIKMTRATIADAQSRKSYSLEKNSIVPSLYRPFDVLKMYFSKNLNEMQYQMPSIFPKGVGENVVIALSGSPAAKPFQVLATDILPSLDLLEKTQCLPFYRYTMNGERLNNITDYALKAFQTHYAISREDIFHYVYAVLHHPAYREKYALNLRQEFPRIPFYPEFGRWAAWGRELMALHIGFESVAPYPLKRTDEPPKNDTPEALALAKKARLKVQRDAAKQPTGAVELDGLTTLAGIPAAAWAYKLGNRSALEWVLERHKETTPKDATIREKFNTYRFADHKERVIDLLARVTTVSVETVRIVGEMPAETM SLQLVKKFQKRLEDIVAYGGTRNESSVRAAFQQLLSDWAEGSGLRLITEVTQKAVAGNNVRPDGTLKDSLQQSRGYWESKDEADTLDDEIQKKLAKGYPRDNIIFEDSRLAVLMQNGEEVQRVDMGDAGALAGLLKLFFEFEPPQVLEFRKAVDHFKDEMPHLLKILREAADAAEQKADYRGERDHFVEIAKEAINPDFSPRDAREMLIQHILTGDLFTSVFDNAQYHEDNNIAQQLQQLAATFYKGPVKRDIAERTKRYYGAIQAAAAQIADHHEKQRFLKALYENFYRAYNPAGAERLGIFYTPGEIVRFMIEATDTLLEKHFQKELADKGVEILDPATGTGTFITELIDFLPKAKLEQKYREELHCNELALLPYYIANLNIEATYAQKMGRYEEFRNIVLVDTLDNTGFGLFGSVTAENLERAKRQNARPVRVIIGNPPYRANQANENDNNKNREYKEIDRRIKATYVAASTAQKTKLYDMYSRFLRWATDRLKEDGIVAFVSNSSFIDSRTFDGFRKEVVKDFDHIYILDMKGNANTSGERRKREGGNVFNDQIKVGVAVYFLVRSDTKIWYHAVPDFWRAREKLEWLKTTKFEDIEFDHIRPDAKHNWLGQVDEENDWNEFLPVADKDTKQAKGLGQERAIFKLYSLGVVTNRDEWVYSRAEDELADKVRYFIGRYNEIIKLPLGDLMSRNWEGDIKMTRATIADAQSRKSYSLEKNSIVPSLYRPFDVLKMYFSKNLNEMQYQMPSIFPKGVGENVVIALSGSPAAKPFQVLATDILPSLDLLEKTQCLPFYRYTMNGERLNNITDYALKAFQTHYADTSISREDIFHYVYAVLHHPAYREKYALNLRQEFPRIPFYPEFGRWAAWGRELMALHIGFESVAPYPLKRTDEPPKNDTPEALALAKKARLKVQRDAAKQPTGAVELDGLTTLAGIPAAAWAYKLGNRSALEWVLERHKETTPKDATIREKFNTYRFADHKERVIDLLARVTTVSVETVRIVGEMPAETM 7lq2-a2-m1-cE_7lq2-a2-m1-cF Apo Rr RsiG- crystal form 1 A0A023X3Z4 A0A023X3Z4 1.85 X-RAY DIFFRACTION 59 1.0 42256 (Rubrobacter radiotolerans) 42256 (Rubrobacter radiotolerans) 68 68 7lq2-a1-m1-cB_7lq2-a1-m1-cC 7lq2-a3-m1-cA_7lq2-a3-m1-cD 7lq3-a1-m1-cA_7lq3-a1-m1-cB 7lq3-a2-m1-cD_7lq3-a2-m2-cD ESAEEVWGGTEDLTSLSVEELKGLARFDEEEKRISYRRRVQGRIDVIRAEIVRRGGAVLSPEELARVL ESAEEVWGGTEDLTSLSVEELKGLARFDEEEKRISYRRRVQGRIDVIRAEIVRRGGAVLSPEELARVL 7lq7-a1-m1-cH_7lq7-a1-m1-cF Crystal structure of SARS-CoV-2 receptor binding domain in complex with antibodies CV503 and COVA1-16 3.4 X-RAY DIFFRACTION 23 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 223 219 QVQLVQSGAEVKKPGSSVKVSCKASGGTFGISWVRQAPGQGLEWMGRIIPILGTANHAQKFQGRVTITADKSTGTVYMELSSLRSEDTAVYYCARDGDSGSYYETLGFDYWGQGTLVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS QVQLVQSGAEVKKPGSSVKVSCKASGGTFGISWVRQAPGQGLEWMGRIIPILGTANHAQKFQGRVTITADKSTGTVYMELSSLRSEDTAVYYCARDGDSGSYYETLGFDYWGQGTLVTVSSASTKGPSVFPLAPSSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKSC 7lqm-a2-m1-cC_7lqm-a2-m1-cD Glucosamie-6-phosphate Deaminase from Pasturella multocida Q9CMF4 Q9CMF4 2.3 X-RAY DIFFRACTION 28 1.0 272843 (Pasteurella multocida subsp. multocida str. Pm70) 272843 (Pasteurella multocida subsp. multocida str. Pm70) 257 267 7lqm-a1-m1-cA_7lqm-a1-m1-cB MRLIPLHNVDQVAKWSARYIVDRINQFQPTEARPFVLGLPTGGTPLKTYEALIELYKAGEVSFKHVVTFNMDEYVGLPKEHPESYHSFMYKNFFDHVDIQEKNINILNGNTEDHDAECQRYEEKIKSYGKIHLFMGGVGVDGHIAFNEPASSLSSRTRIKTLTTLIANSRFFDNPKYALTIGVGTLLDAEEVMILVTGYNKAQALQAAVEGSLWTVTALQMHRRAIIVCDEPATQELKVKTVKYFTELEASAIRSVK MRLIPLHNVDQVAKWSARYIVDRINQFQPTEARPFVLGLPTGGTPLKTYEALIELYKAGEVSFKHVVTFNMDEYVGLPKEHPESYHSFMYKNFFDHVDIQEKNINILNGNTEDHDAECQRYEEKIKSYGKIHLFMGGVGVDGHIAFNEPASSLSSRTRIKTLTEDTLIANSRFFDNDVNKVPKYALTIGVGTLLDAEEVMILVTGYNKAQALQAAVEGSINHLWTVTALQMHRRAIIVCDEPATQELKVKTVKYFTELEASAIRSVK 7lqw-a1-m1-cA_7lqw-a1-m1-cB Cryo-EM structure of NTD-directed neutralizing antibody 2-17 Fab in complex with SARS-CoV-2 S2P spike P0DTC2 P0DTC2 4.47 ELECTRON MICROSCOPY 357 0.988 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1037 1038 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7lqx-a1-m1-cA_7lqx-a1-m2-cA Crystal structure of a GH5_18 from Bifidobacterium longum subsp. infantis B7GNS6 B7GNS6 1.3 X-RAY DIFFRACTION 96 1.0 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 391904 (Bifidobacterium longum subsp. infantis ATCC 15697 = JCM 1222 = DSM 20088) 407 407 MRRFGVNYTPSHGWFHFWLDPDWPSVKEDRRIRNLGDHVRVFPVWPYLQPNRTWINRKAIADVRRVHIAGEQGDAYVDVFQGHLSSFDFLPSWLVTWHRGNFEDADAVKAEKTLVAELYGELAQEPAFRGLTLGNELNQFSDRPHPAKATSSRRIDAWLADLLAVVDRRKHVALHSENDGVWYLDHHPFTPVQAANLGDTTIHSWVFNGTAQGYGASGECTAHALYLAELSRAFARNPDRPVWLQEVGAPQNVLEAEQTPEFCRDTIAKAAQCPNLWGVTWWCSHDVDSRSDFPPFEHALGLFDEHGNIKPIGRAFAEAQEYRDKPAAGGNDAAVVIEVDENGNPLNRGACGPGGSIFERWRLHAEGARPTLVTSATARDGEALRRLGVTRLETDDEPHGAKYYTAV MRRFGVNYTPSHGWFHFWLDPDWPSVKEDRRIRNLGDHVRVFPVWPYLQPNRTWINRKAIADVRRVHIAGEQGDAYVDVFQGHLSSFDFLPSWLVTWHRGNFEDADAVKAEKTLVAELYGELAQEPAFRGLTLGNELNQFSDRPHPAKATSSRRIDAWLADLLAVVDRRKHVALHSENDGVWYLDHHPFTPVQAANLGDTTIHSWVFNGTAQGYGASGECTAHALYLAELSRAFARNPDRPVWLQEVGAPQNVLEAEQTPEFCRDTIAKAAQCPNLWGVTWWCSHDVDSRSDFPPFEHALGLFDEHGNIKPIGRAFAEAQEYRDKPAAGGNDAAVVIEVDENGNPLNRGACGPGGSIFERWRLHAEGARPTLVTSATARDGEALRRLGVTRLETDDEPHGAKYYTAV 7lr1-a2-m1-cB_7lr1-a2-m1-cD Crystal structure of GH5_18 from Bifidobacterium longum subsp. longum ATCC 55813 C2GY91 C2GY91 1.8 X-RAY DIFFRACTION 101 1.0 548480 (Bifidobacterium longum subsp. longum ATCC 55813) 548480 (Bifidobacterium longum subsp. longum ATCC 55813) 418 424 7lr1-a1-m1-cA_7lr1-a1-m1-cC 7lr2-a1-m1-cD_7lr2-a1-m2-cA 7lr2-a2-m1-cC_7lr2-a2-m3-cB 7lr6-a1-m3-cC_7lr6-a1-m1-cA 7lr6-a2-m1-cD_7lr6-a2-m2-cB SHMKFGVNYTPSHGWFHAWLDPDWDGIDNDLKQISELGMDHVRIFPIWPYLQPNRTWINKKGVADVRRMVHIAGEHGLDAYVDVFQGHLSSFDFLPSWLVTWHAGNMFTDADAVAAERELVKTMTDELSKEPAFKGLTLGNEVNQLSDRPHPTKMSATDRQIDAWLDALLPTAAGEGHNALYSVNDGTWFIDGHPFTPVQSATKGDMTVIHSWVFNGIAQGYGATSEECSSYALYLAELAKAFGKDSERPVWLQEVGAPENVLETDYTPEFCRKTVERAMDCRNLWGVTWWCSHDVPASMEDFPFFEHSLGLFDEQGQLKPIGRTFGELAAQYRSALPAQPKTVAVVIDVDEAGNPVNRSALGPGGSVCDLWMKLQVAGQRPTIITSQVAANQEALAQRGILELHADEHPYAARYYTA SHMKFGVNYTPSHGWFHAWLDPDWDGIDNDLKQISELGMDHVRIFPIWPYLQPNRTWINKKGVADVRRMVHIAGEHGLDAYVDVFQGHLSSFDFLPSWLVTWHAGNMFTDADAVAAERELVKTMTDELSKEPAFKGLTLGNEVNQLSDRPHPTKMSATDRQIDAWLDALLPTAAGEGHNALYSVNDGTWFIDGHPFTPVQSATKGDMTVIHSWVFNGIAQGYGATSEECSSYALYLAELAKAFGKDSERPVWLQEVGAPENVLETDYTPEFCRKTVERAMDCRNLWGVTWWCSHDVPASMEDFPFFEHSLGLFDEQGQLKPIGRTFGELAAQYRSALPAQPKTVAVVIDVDEAGNPVNRSALGPGGSVCDLWMKLQVAGQRPTIITSQVAANQEALAQRGILELHADEHPYAARYYTAVSDPSF 7lr8-a1-m1-cA_7lr8-a1-m1-cB Crystal structure of GH5_18-E153A from Streptomyces cattleya in complex with Manb1-4GlcNAc F8JJ04 F8JJ04 1.6 X-RAY DIFFRACTION 96 1.0 1003195 (Streptantibioticus cattleyicolor NRRL 8057 = DSM 46488) 1003195 (Streptantibioticus cattleyicolor NRRL 8057 = DSM 46488) 413 415 7lr7-a1-m1-cA_7lr7-a1-m2-cA SPRFGVNYTPSNGWFHHWLDFDLDAVRADLDSVAALGFDHVRVFPLWPVFQPNRTLIRPRAVEQLAALTDAAGERGLDVNVDGLQGHLSSFDFLPAWTTTWHRRNLFTDPDVVSGQAEYLRTLAAALADRPNFLGMTVGNAINQFSGHPHPDPDRVTPEQAGDWLRRMLDACERGAPGRLHLHAEYDAAWYLDDHPFTPAHSARIGAVTAVHSWVFNGTAQRYGTRSTATAQHAAYLVELAKAWAREPRRPVWLQEVGAPAPHVPAEYAAEFATATIDAVLDCPEVWGVTWWCSHDVDRRLADFPELEYSLGLLTQDRRVKPAGRAVAEAVRRWRTETPAPRPRTTALVVDVGPGDQAPARSVCAPGGAVFEAFMRLTAQGARPTTVLAEHATDADHLAARGITEVVTPHDVH RSPRFGVNYTPSNGWFHHWLDFDLDAVRADLDSVAALGFDHVRVFPLWPVFQPNRTLIRPRAVEQLAALTDAAGERGLDVNVDGLQGHLSSFDFLPAWTTTWHRRNLFTDPDVVSGQAEYLRTLAAALADRPNFLGMTVGNAINQFSGHPHPDPDRVTPEQAGDWLRRMLDACERGAPGRLHLHAEYDAAWYLDDHPFTPAHSARIGAVTAVHSWVFNGTAQRYGTRSTATAQHAAYLVELAKAWAREPRRPVWLQEVGAPAPHVPAEYAAEFATATIDAVLDCPEVWGVTWWCSHDVDRRLADFPELEYSLGLLTQDRRVKPAGRAVAEAVRRWRTETPAPRPRTTALVVDVGPGDQAPARSVCAPGGAVFEAFMRLTAQGARPTTVLAEHATDADHLAARGITEVVTPHDVHL 7lrf-a1-m1-cB_7lrf-a1-m1-cA Netrin-1 in complex with SOS Q90922 Q90922 3.21 X-RAY DIFFRACTION 79 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 411 418 4ove-a1-m1-cA_4ove-a1-m2-cA 4plm-a2-m1-cA_4plm-a2-m2-cA PDPCYDEHGLPRRCIPDFVNSAFGKEVKVSSTCGKPPSRYCVVTEKGEEQVRSCHLCNASDPKRAHPPSFLTDLNNPHNLTCWQSDSYVQYPHNVTLTLSLGKKFEVTYVSLQFCSPRPESMAIYKSMDYGKTWVPFQFYSTQCRKMYNKPSRAAITKQNEQEAICTDSHTDVRPLSGGLIAFSTLDGRPTAHDFDNSPVLQDWVTATDIKVTFSRLHTFGDEARDSYFYAVSDLQVGGRCKCNGHASRCVRDRDDNLVCDCKHNTAGPECDRCKPFHYDRPWQRATAREANECVACNCNLHARRCRFNMELYKLSGRKSGGVCLNCRHNTAGRHCHYCKEGFYRDLSKPISHRKACKECDCHPVGAAGQTCNQTTGQCPCKDGVTGITCNRCAKGYQQSRSPIAPCIKIP PDPCYDEHGLPRRCIPDFVNSAFGKEVKVSSTCGKPPSRYCVVTEKGEEQVRSCHLCNASDPKRAHPPSFLTDLNNPHNLTCWQSDSYVQYPHNVTLTLSLGKKFEVTYVSLQFCSPRPESMAIYKSMDYGKTWVPFQFYSTQCRKMYNKPSRAAITKQNEQEAICTDSHTDVRPLSGGLIAFSTLDGRPTAHDFDNSPVLQDWVTATDIKVTFSRLHTFGDENEDDSELARDSYFYAVSDLQVGGRCKCNGHASRCVRDRDDNLVCDCKHNTAGPECDRCKPFHYDRPWQRATAREANECVACNCNLHARRCRFNMELYKLSGRKSGGVCLNCRHNTAGRHCHYCKEGFYRDLSKPISHRKACKECDCHPVGAAGQTCNQTTGQCPCKDGVTGITCNRCAKGYQQSRSPIAPCIKIP 7lrh-a2-m1-cC_7lrh-a2-m1-cD C-terminal domain of RibD from Brucella abortus (5-amino-6-ribosylamino-2,4(1H,3H)-pyrimidinedione 5'-phosphate reductase) Q2YN93 Q2YN93 1.92 X-RAY DIFFRACTION 39 1.0 235 (Brucella abortus) 235 (Brucella abortus) 212 213 7lrh-a1-m1-cA_7lrh-a1-m1-cB RPEVILKLALSADGMIGRKGAGQVAITGPVSRAQSHILRAQADIILIGIETALADDPVLNCRLPGLEQRSPVRVVLDGGLRLPLSSRLVRSADTQPLWVACGEEAPDERRAALGAAGCRILATETHIALPELLDDLAAQGIASVLVEGGAGVAKSFLDEKLVDRLIIFRSPLVIGAADGVAVEGLETHIASEFKILRRMRYADDACAEYVRN RPEVILKLALSADGMIGRKGAGQVAITGPVSRAQSHILRAQADIILIGIETALADDPVLNCRLPGLEQRSPVRVVLDGGLRLPLSSRLVRSADTQPLWVACGEEAPDERRAALGAAGCRILATETHDIALPELLDDLAAQGIASVLVEGGAGVAKSFLDEKLVDRLIIFRSPLVIGAADGVAVEGLETHIASEFKILRRMRYADDACAEYVRN 7ls0-a2-m1-cD_7ls0-a2-m1-cB Structure of the Human ALK GRD bound to AUG Q6UX46 Q6UX46 3.05 X-RAY DIFFRACTION 56 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 361 362 7ls0-a1-m1-cA_7ls0-a1-m1-cC 7n00-a1-m1-cA_7n00-a1-m1-cC TVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLNKDKFLKHLTGPLYFSPKCSKHFHRLYHNTRDCTIPAYYKRCARLLTRLAVSPVC VHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLNRMKDKFLKHLTGPLYFSPKCSKHFHRLYHNTRDCTIPAYYKRCARLLTRLAVSPVC 7lsc-a1-m1-cD_7lsc-a1-m1-cB Crystal structure of near-infrared fluorescent protein miRFP670nano3 1.8 X-RAY DIFFRACTION 27 1.0 562 (Escherichia coli) 562 (Escherichia coli) 145 147 7lsc-a1-m1-cC_7lsc-a1-m1-cA NLDKMLNTTVTEVRKFLQADRVCVFKFEEDYSGTVSHEAVDDRWISILKTQVQDRYFMETRGEEYVHGRYQAIADIYTANLVECYRDLLIEFQVRAILAVPILQGKKLWGLLVAHQLAGPREWQTWEIDFLKQQAVVMGIAIQQS MANLDKMLNTTVTEVRKFLQADRVCVFKFEEDYSGTVSHEAVDDRWISILKTQVQDRYFMETRGEEYVHGRYQAIADIYTANLVECYRDLLIEFQVRAILAVPILQGKKLWGLLVAHQLAGPREWQTWEIDFLKQQAVVMGIAIQQS 7lsc-a1-m1-cD_7lsc-a1-m1-cC Crystal structure of near-infrared fluorescent protein miRFP670nano3 1.8 X-RAY DIFFRACTION 42 1.0 562 (Escherichia coli) 562 (Escherichia coli) 145 151 7lsc-a1-m1-cB_7lsc-a1-m1-cA NLDKMLNTTVTEVRKFLQADRVCVFKFEEDYSGTVSHEAVDDRWISILKTQVQDRYFMETRGEEYVHGRYQAIADIYTANLVECYRDLLIEFQVRAILAVPILQGKKLWGLLVAHQLAGPREWQTWEIDFLKQQAVVMGIAIQQS AAGTMANLDKMLNTTVTEVRKFLQADRVCVFKFEEDYSGTVSHEAVDDRWISILKTQVQDRYFMETRGEEYVHGRYQAIADIYTANLVECYRDLLIEFQVRAILAVPILQGKKLWGLLVAHQLAGPREWQTWEIDFLKQQAVVMGIAIQQS 7lsd-a1-m2-cD_7lsd-a1-m2-cC Crystal structure of near-infrared fluorescent protein miRFP718nano 1.7 X-RAY DIFFRACTION 50 1.0 562 (Escherichia coli) 562 (Escherichia coli) 150 152 7lsd-a1-m1-cA_7lsd-a1-m1-cB AGTMANLDKMLNTIVTEVRQFLQVDRLCVFKFEEDYSGNIIYEAVDDGWLSILKTHVRDCYFMETRGEEYLHGRYQAIADIHQANLAESYRDFLTQYQVRAIVAVPILKGKKLWGLFSAHQLAAPRSWQAWEIEFLKQQAVVMGIAIQQS SAAGTMANLDKMLNTIVTEVRQFLQVDRLCVFKFEEDYSGNIIYEAVDDGWLSILKTHVRDCYFMETRGEEYLHGRYQAIADIHQANLAESYRDFLTQYQVRAIVAVPILKGKKLWGLFSAHQLAAPRSWQAWEIEFLKQQAVVMGIAIQQS 7lss-a1-m1-cA_7lss-a1-m1-cC Cryo-EM structure of the SARS-CoV-2 spike glycoprotein bound to Fab 2-7 P0DTC2 P0DTC2 3.72 ELECTRON MICROSCOPY 261 0.994 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 779 785 7lss-a1-m1-cA_7lss-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLQSLLIVNNATNVVIKVCEFQFCNDPFLCTFEYVSQKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLQSLLIVNNATNVVIKVCEFQFCNDPFLGRVYSSANNCTFEYVSQPKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7lte-a1-m1-cA_7lte-a1-m1-cC Structure of the alpha-N-methyltransferase (SonM) and RiPP precursor (SonA) heteromeric complex (with SAH) Q8EGW3 Q8EGW3 2 X-RAY DIFFRACTION 230 1.0 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 262 262 7ltc-a1-m1-cA_7ltc-a1-m1-cC 7ltf-a1-m1-cA_7ltf-a1-m1-cC 7lth-a1-m1-cA_7lth-a1-m1-cC 7ltr-a1-m1-cA_7ltr-a1-m1-cC 7ltr-a2-m1-cH_7ltr-a2-m1-cJ 7lts-a1-m1-cA_7lts-a1-m1-cC GSLVCVGTGLQLAGQISVLSRSYIEHADIVFSLLPDGFSQRWLTKLNPNVINLQQFYAQNGEVKNRRDTYEQMVNAILDAVRAGKKTVCALYGHPGVFACVSHMAITRAKAEGFSAKMEPGISAEACLWADLGIDPGNSGHQSFEASQFMFFNHVPDPTTHLLLWQIAIAGEHTLTQFHTSSDRLQILVEQLNQWYPLDHEVVIYEAANLPIQAPRIERLPLANLPQAHLMPISTLLIPPAKKLEYNYAILAKLGIGPEDLG GSLVCVGTGLQLAGQISVLSRSYIEHADIVFSLLPDGFSQRWLTKLNPNVINLQQFYAQNGEVKNRRDTYEQMVNAILDAVRAGKKTVCALYGHPGVFACVSHMAITRAKAEGFSAKMEPGISAEACLWADLGIDPGNSGHQSFEASQFMFFNHVPDPTTHLLLWQIAIAGEHTLTQFHTSSDRLQILVEQLNQWYPLDHEVVIYEAANLPIQAPRIERLPLANLPQAHLMPISTLLIPPAKKLEYNYAILAKLGIGPEDLG 7ltq-a2-m1-cB_7ltq-a2-m1-cD Crystal Structure of a histidine kinase from Burkholderia ambifaria MC40-6 B1Z136 B1Z136 2.15 X-RAY DIFFRACTION 153 0.988 398577 (Burkholderia ambifaria MC40-6) 398577 (Burkholderia ambifaria MC40-6) 248 249 7ltq-a1-m1-cC_7ltq-a1-m1-cA VDPAADLLRERAAHYAAEAALFLRDQALSTASHDLRSPLNAMHSWAYVLERQLASADPSLQRALAGIRTGIDQQVALIDDVLDAPRAETRTLAITAQPFALRPLLDDTLALVRFALADARQVSIDATLPDGEPSLSADRERVAQALWTMLTTAVEASAAGNRVTFACTRDGAQCVAHVTCGVSAAALADPALPHAFDAFARREMLRKRVAWVLALCQRVALAHGGTFTHAAFADGAVVTLSLAVPCKA DPAADLLRERAAHYAAEAALFLRDQALSTASHDLRSPLNAMHSWAYVLERQLASADPSLQRALAGIRTGIDQQVALIDDVLDAPRAETRTLAITAQPFALRPLLDDTLALVRFALADARQVSIDATLPDGEPSLSADRERVAQALWTMLTTAVEASAAGNRVTFACTRDGAQCVAHVTCGVSAAALADPALPHAFDAFARREMLRSRDAKRVAWVLALCQRVALAHGGTFTHAAFADGAVVTLSLAVPC 7ltw-a1-m1-cA_7ltw-a1-m1-cB Crystal structure of the mouse Kirrel2 D1 homodimer Q7TSU7 Q7TSU7 1.8 X-RAY DIFFRACTION 46 1.0 10090 (Mus musculus) 10090 (Mus musculus) 103 104 ADPHFLQQPEDMVVLLGEEARLPCALGAYRGLVQWTKDGLALGGERDLPGWSRYWISGNSASGQHDLHIKPVELEDEASYECQASQAGLRSRPAQLHVMVPHH ADPHFLQQPEDMVVLLGEEARLPCALGAYRGLVQWTKDGLALGGERDLPGWSRYWISGNSASGQHDLHIKPVELEDEASYECQASQAGLRSRPAQLHVMVPHHH 7lu4-a1-m1-cB_7lu4-a1-m1-cA Crystal structure of bacterial glycyl tRNA synthetase in complex with glycine A0A0P6Y0P9 A0A0P6Y0P9 2.5 X-RAY DIFFRACTION 151 0.998 869279 (Thermanaerothrix daxensis) 869279 (Thermanaerothrix daxensis) 977 978 PLDFQSIIMKLQQFWAEQGSLIWQPYYTQVGAGTMNPATFLRVLGPEPWNVAYVEPSIRPDDGRYGENPNRLQQHYQFQVILKPDPGNPQEIYLRSLEALGIDPREHDIRFVEDNWESPALGAWGLGWEVWLDGLEITQFTYFQQAGGMVLEPVSVEITYGLERIAMALQRVSNFRDIRWNAERTYGDVNLQGEREHSTYYFEVADVERLRQMFALFEAEAEAALARGLVLPAHDYVLKSSHTFNVLDTRGAVGVTERQVLFARMRDMARRVAEAYVAQRQALGFPWLIPEQETLLIEIGTEELPPADLEAALAQLRQRVPALLDELHLPHGDVQVWGTPRRLVVWVEDLAGRQPDRELIIKGPPANRAFDAEGRPTAAAEGFARSKGVPVEALTVAEMDGGRYVVAHVRETGRPAVEVLAEVLPGVIADLRFERSMRWNSSGVAFSRPIRWLVALHGETVIPFTYAGLTSGRVTRGLRFAEPATFALSHPRDYRIFLERQGVVVEPEIRRARIAEQARTLIADVGGDPEHLDEAVLNEVTHLVEAPTALRGRFEDEYLRLPEEVLVSVMKKHQRYFPVYTREGQLLPYFIAVRNGGKEGLDVVTDGNEQVIRARFADAAYFIREDLKHPLEYYLPRLSTLTFQAKLGSMLDKTHRIEVLVERLIPMVGLEAEDAAAVRRAAHLSKADLVTHMVVEMTSLQGVMGRYYALQSGEPRAVAEAIFEAYLPRFAGDRYPETPAGLVLGLADRLDTLMGLFAVGLAPTGTKDPFALRRAALGLVQNLIHWNLDFDLRQGLEAAAQGLPVPVSPEAKMESLEFIVGRLQNELLEQGYRYDVVAAVLAAQGHNPAATARGVRELSAWVSRSDWNTILPAYARSVRITRDQTERFAIDPARLVEPAEKHLLSALLQAEVTPRRPGSVEDFFQVFLPMIPVINRFFDEVLVMAELRANRLGLLQRIVALADGVADFSKLEGFENL PLDFQSIIMKLQQFWAEQGSLIWQPYYTQVGAGTMNPATFLRVLGPEPWNVAYVEPSIRPDDGRYGENPNRLQQHYQFQVILKPDPGNPQEIYLRSLEALGIDPREHDIRFVEDNWESPALGAWGLGWEVWLDGLEITQFTYFQQAGGMVLEPVSVEITYGLERIAMALQRVSNFRDIRWNAERTYGDVNLQGEREHSTYYFEVADVERLRQMFALFEAEAEAALARGLVLPAHDYVLKSSHTFNVLDTRGAVGVTERQVLFARMRDMARRVAEAYVAQRQALGFPWLIPEQETLLIEIGTEELPPADLEAALAQLRQRVPALLDELHLPHGDVQVWGTPRRLVVWVEDLAGRQPDRELIIKGPPANRAFDAEGRPTAAAEGFARSKGVPVEALTVAEMDGGRYVVAHVRETGRPAVEVLAEVLPGVIADLRFERSMRWNSSGVAFSRPIRWLVALHGETVIPFTYAGLTSGRVTRGLRFAEPATFALSHPRDYRIFLERQGVVVEPEIRRARIAEQARTLIADVGGDPEHLDEAVLNEVTHLVEAPTALRGRFEDEYLRLPEEVLVSVMKKHQRYFPVYTREGQLLPYFIAVRNGGKEGLDVVTDGNEQVIRARFADAAYFIREDLKHPLEYYLPRLSTLTFQAKLGSMLDKTHRIEVLVERLIPMVGLEAEDAAAVRRAAHLSKADLVTHMVVEMTSLQGVMGRYYALQSGEPRAVAEAIFEAYLPRFAGDRYPETPAGLVLGLADRLDTLMGLFAVGLAPTGTKDPFALRRAALGLVQNLIHWNLDFDLRQGLEAAAQGLPVPVSPEAKMESLEFIVGRLQNELLEQGYRYDVVAAVLAAQGHNPAATARGVRELSAWVSRSDWNTILPAYARSVRITRDQTERFAIDPARLVEPAEKHLLSALLQAEVTPRRPGSVEDFFQVFLPMIPVINRFFDEVLVMAEDAGLRANRLGLLQRIVALADGVADFSKLEGFE 7lu6-a4-m1-cH_7lu6-a4-m1-cG Crystal structure of the mouse Kirrel3 D1 homodimer Q8BR86 Q8BR86 1.95 X-RAY DIFFRACTION 37 1.0 10090 (Mus musculus) 10090 (Mus musculus) 99 100 7lu6-a1-m1-cB_7lu6-a1-m1-cA 7lu6-a2-m1-cD_7lu6-a2-m1-cC 7lu6-a3-m1-cE_7lu6-a3-m1-cF YSFSQQPQDQVVVSGQPVTLLCAIPEYDGFVLWIKDGLALGVGRDLSSYPQYLVVGNHLSGEHHLKILRAELQDDAVYECQAIQAAIRSRPARLTVLVP VYSFSQQPQDQVVVSGQPVTLLCAIPEYDGFVLWIKDGLALGVGRDLSSYPQYLVVGNHLSGEHHLKILRAELQDDAVYECQAIQAAIRSRPARLTVLVP 7lu9-a1-m1-ci_7lu9-a1-m1-ch Cryo-EM structure of DH851.3 bound to HIV-1 CH505 Env 5.6 ELECTRON MICROSCOPY 76 1.0 9544 (Macaca mulatta) 9544 (Macaca mulatta) 228 222 7lu9-a1-m1-cm_7lu9-a1-m1-cl 7lu9-a1-m1-cq_7lu9-a1-m1-cp QVTLMESGPALVKVTQTLAVTCTFSGFSIRDSGKGVAWIRQPPGGALEWLTSIYWDDTKYHDTSLKPRLTIFRDTSQTQVILILTNMAPLDTATYYCGRINNGGGWKDHIDFWGPGLLVTVSSASTKGPSVFPLAPSSRSTSESTAALGCLVKDYFPEPVTVSWNSGSLTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYVCNVNHKPSNTKVDKRVEIKTCGG QVTLMESGPALVKVTQTLAVTCTFSGFSIRDSGKGVAWIRQPPGGALEWLTSIYWDDTKYHDTSLKPRLTIFRDTSQTQVILILTNMAPLDTATYYCGRINNGGGWKDHIDFWGPGLLVTVSSASTKGPSVFPLAPSSRSTSESTAALGCLVKDYFPEPVTVSWNSGSLTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYVCNVNHKPSNTKVDKRVE 7lua-a1-m1-ci_7lua-a1-m1-ch Cryo-EM structure of DH898.1 Fab-dimer bound near the CD4 binding site of HIV-1 Env CH848 SOSIP trimer 4.7 ELECTRON MICROSCOPY 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 219 7l6m-a1-m1-ci_7l6m-a1-m1-ch QDLLLQSGAEVREPGASVTVSCQASNYTFPDYYIHWVRLVPGQGLEWLGEMKPKVGVTNVSKKIRDRLFMTADTSTDTAYMVLSALTPGDTAIYYCTRLEPDFLSGWAHWGKGVLVTVSPASTKGPSVFPLAPSSRSTSESTAALGCLVKDYFPEPVTVSWNSGSLTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYVCNVNHKPSNTKVDKRVE QDLLLQSGAEVREPGASVTVSCQASNYTFPDYYIHWVRLVPGQGLEWLGEMKPKVGVTNVSKKIRDRLFMTADTSTDTAYMVLSALTPGDTAIYYCTRLEPDFLSGWAHWGKGVLVTVSPASTKGPSVFPLAPSSRSTSESTAALGCLVKDYFPEPVTVSWNSGSLTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYVCNVNHKPSNTKVDKRVE 7luo-a2-m2-cC_7luo-a2-m4-cC N-terminus of Skp2 bound to Cyclin A P20248 P20248 3.17 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 267 267 7luo-a1-m1-cA_7luo-a1-m3-cA 7luo-a1-m1-cA_7luo-a1-m4-cA 7luo-a1-m2-cA_7luo-a1-m3-cA 7luo-a1-m2-cA_7luo-a1-m4-cA 7luo-a2-m1-cC_7luo-a2-m3-cC 7luo-a2-m1-cC_7luo-a2-m4-cC 7luo-a2-m2-cC_7luo-a2-m3-cC DFVIVRRGSGNEVPDDIHTYLREMEVKCKPKVGYMKKQPDITNSMRAILVDWLVEVGEEYKLQNETLHLAVNYIDRFLSSMSVLRGKLQLVGTAAMLLASKFEEIYPPEVAEFVYITDDTYTKKQVLRMEHLVLKVLTFDLAAPTVNQFLTQYFLHQQPANCKVESLAMFLGELSLIDADPYLKYLPSVIAGAAFHLALYTVTGQSWPESLIRKTGYTLESLKPCLMDLHQTYLKAPQHAQQSIREKYKNSKYHGVSLLNPPETLNL DFVIVRRGSGNEVPDDIHTYLREMEVKCKPKVGYMKKQPDITNSMRAILVDWLVEVGEEYKLQNETLHLAVNYIDRFLSSMSVLRGKLQLVGTAAMLLASKFEEIYPPEVAEFVYITDDTYTKKQVLRMEHLVLKVLTFDLAAPTVNQFLTQYFLHQQPANCKVESLAMFLGELSLIDADPYLKYLPSVIAGAAFHLALYTVTGQSWPESLIRKTGYTLESLKPCLMDLHQTYLKAPQHAQQSIREKYKNSKYHGVSLLNPPETLNL 7luy-a3-m1-cC_7luy-a3-m1-cD Crystal Structure of guanylate kinase from Bartonella henselae str. Houston-1 Q6G439 Q6G439 2.3 X-RAY DIFFRACTION 96 0.99 283166 (Bartonella henselae str. Houston-1) 283166 (Bartonella henselae str. Houston-1) 204 205 7luy-a1-m1-cF_7luy-a1-m1-cA QRRGFLFILSSPSGAGKSTLSRLLLKDGKLELSISMTTRQKRPSEVDGLHYHFISKKEFKRKRDGNEFIEWAEVHGNYYGTLRESVENVLSTGRDMLFDIDYQGTKQLQKKMPGDTVSVFILPPSMKELISRLYRRDSQDIINLRLKNARTEMQHWRSYDYVIINENLNQSVSLIKSIYLAETVKRERCFFLEPFINGLIAEKI NQRRGFLFILSSPSGAGKSTLSRLLLKDGKLELSISMTTRQKRPSEVDGLHYHFISKKEFKRKRDGNEFIEWAEVHGNYYGTLRESVENVLSTGRDMLFDIDYQGTKQLQKKMPGDTVSVFILPPSMKELISRLYRRAEDSQDIINLRLKNARTEMQHWRSYDYVIINENLNQSVSLIKSIYLAETVKRERCFFLEPFINGLIAE 7lv3-a1-m1-cB_7lv3-a1-m1-cA Crystal structure of human protein kinase G (PKG) R-C complex in inhibited state Q13976 Q13976 2.41 X-RAY DIFFRACTION 190 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 593 600 TKRQAISAEPTDLSHVTLPFYPKSPQSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGTVNVTREDSPSEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIGAKAKYEAEAAFFANLKLSDFNIIDTLGVGGFGRVELVQLKSEESKTFAMKILKKRHIVDTRQQEHIRSEKQIMQGAHSDFIVRLYRTFKDSKYLYMLMEACLGGELWTILRDRGSFEDSTTRFYTACVVEAFAYLHSKGIIYRDLKPENLILDHRGYAKLVDFGFAKKIGFGKKTWFCGTPEYVAPEIILNKGHDISADYWSLGILMYELLTGSPPFSGPDPMKTYNIILRGIDMIEFPKKIAKNAANLIKKLCRDNPSERLGNLKNGVKDIQKHKWFEGFNWEGLRKGTLTPPIIPSVASPTDTSNFDSFPEDNDEPPPDDNSGWDIDF RTKRQAISAEPTAFDIQDLSHVTLPFYPKSPQSKDLIKEAILDNDFMKNLELSQIQEIVDCMYPVEYGKDSCIIKEGDVGSLVYVMEDGKVEVTKEGVKLCTMGPGKVFGELAILYNCTRTATVKTLVNVKLWAIDRQCFQTIMMRTGLIKHTEYMEFLKSVPTFQSLPEEILSKLADVLEETHYENGEYIIRQGARGDTFFIISKGTVNVTREDSPSEDPVFLRTLGKGDWFGEKALQGEDVRTANVIAAEAVTCLVIDRDSFKHLIAEAKAKYEAEAAFFANLKLSDFNIIDTLGVGGFGRVELVQLKSEESKTFAMKILKKRHIVDTRQQEHIRSEKQIMQGAHSDFIVRLYRTFKDSKYLYMLMEACLGGELWTILRDRGSFEDSTTRFYTACVVEAFAYLHSKGIIYRDLKPENLILDHRGYAKLVDFGFAKKIGFGKKTWFCGTPEYVAPEIILNKGHDISADYWSLGILMYELLTGSPPFSGPDPMKTYNIILRGIDMIEFPKKIAKNAANLIKKLCRDNPSERLGNLKNGVKDIQKHKWFEGFNWEGLRKGTLTPPIIPSVASPTDTSNFDSFPEDNDEPPPDDNSGWDIDF 7lv7-a2-m1-cC_7lv7-a2-m1-cD Crystal Structure of Branched-chain amino acid aminotransferase from Giardia lamblia ATCC 50803 E2RU99 E2RU99 2.1 X-RAY DIFFRACTION 216 1.0 184922 (Giardia lamblia ATCC 50803) 184922 (Giardia lamblia ATCC 50803) 355 356 7lv7-a1-m1-cB_7lv7-a1-m1-cA SMAVDPSTIDWSALKFSWLQTRSHVRSVWRNGEWSPLELVNEPTFNISIAASALHYGQAVFEGLKVFRTVDGRVAAFRPVENARRLISSCDGLCMESPSEQLFLNALAMVVRDNVDYIPPYGTGGSLYVRPLVIGTGAQLGVAPSSEYMFLMMVAPVGPYYRGGLKSVNAIVMDEFDRAAPYGVGSKCAGNYAASLKAQSVALKKSFPIQLYLDAATHTFVEEFSTSNFFGIKDIQRDGAGKIVSCTYVTPKSPSILPSITNKTLRELISQYFGWKVDVREVPFTEVKTFQECGATGTAVVVTPIASITRGSTVIDFLQSDDQVGEVTKLLYETVQGIQYGVIPDRFNWNHYIDV GSMAVDPSTIDWSALKFSWLQTRSHVRSVWRNGEWSPLELVNEPTFNISIAASALHYGQAVFEGLKVFRTVDGRVAAFRPVENARRLISSCDGLCMESPSEQLFLNALAMVVRDNVDYIPPYGTGGSLYVRPLVIGTGAQLGVAPSSEYMFLMMVAPVGPYYRGGLKSVNAIVMDEFDRAAPYGVGSKCAGNYAASLKAQSVALKKSFPIQLYLDAATHTFVEEFSTSNFFGIKDIQRDGAGKIVSCTYVTPKSPSILPSITNKTLRELISQYFGWKVDVREVPFTEVKTFQECGATGTAVVVTPIASITRGSTVIDFLQSDDQVGEVTKLLYETVQGIQYGVIPDRFNWNHYIDV 7lv9-a1-m1-cA_7lv9-a1-m1-cE Marseillevirus heterotrimeric (hexameric) nucleosome D2XB48 D2XB48 4.5 ELECTRON MICROSCOPY 32 1.0 694581 (Marseillevirus marseillevirus) 694581 (Marseillevirus marseillevirus) 102 102 7lv8-a1-m1-cA_7lv8-a1-m1-cE 7n8n-a1-m1-cA_7n8n-a1-m1-cC CRQKGAGSAGTGSETNSQEVRSQMRSTCLIIPKERFRTMAKEISKKEGHDVHIAEAALDMLQVIVESCTVRLLEKALVITYSGKRTRVTSKDIETAFMLEHG CRQKGAGSAGTGSETNSQEVRSQMRSTCLIIPKERFRTMAKEISKKEGHDVHIAEAALDMLQVIVESCTVRLLEKALVITYSGKRTRVTSKDIETAFMLEHG 7lvp-a1-m1-cA_7lvp-a1-m2-cA Cryptococcus neoformans AIR synthetase J9VYP5 J9VYP5 2.24 X-RAY DIFFRACTION 55 1.0 235443 (Cryptococcus neoformans var. grubii H99) 235443 (Cryptococcus neoformans var. grubii H99) 285 285 GGAFDLAKAGYKDPILVSGTDGVGTKLRVALDHGKHNTVGIDLVAMSVNDLIVQGAEPLYFLDVPVAADVITGIAEGCLQAGCALIDLAGFAVGVVERAQILPTPDIASGDVLLALSSSGPHSNGFSLIRKIVSLSNLSLHDTAPWDKNTSVGDALLTPTKVYIKPLLPGIKSGLYKGMSHITGGGFTENIPRIFSSASNLGVKLDLTSYSLPAIWKWLMRAGNVEAKEMVRTFNCGVGMIIIVAKDKADAALSSLKENGEEAWVIGEVQEKKGVEYVGLDKFGL GGAFDLAKAGYKDPILVSGTDGVGTKLRVALDHGKHNTVGIDLVAMSVNDLIVQGAEPLYFLDVPVAADVITGIAEGCLQAGCALIDLAGFAVGVVERAQILPTPDIASGDVLLALSSSGPHSNGFSLIRKIVSLSNLSLHDTAPWDKNTSVGDALLTPTKVYIKPLLPGIKSGLYKGMSHITGGGFTENIPRIFSSASNLGVKLDLTSYSLPAIWKWLMRAGNVEAKEMVRTFNCGVGMIIIVAKDKADAALSSLKENGEEAWVIGEVQEKKGVEYVGLDKFGL 7lvt-a1-m1-cA_7lvt-a1-m1-cD Structure of full-length GluK1 with L-Glu P22756 P22756 4.6 ELECTRON MICROSCOPY 83 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 719 719 7lvt-a1-m1-cB_7lvt-a1-m1-cC HVLRIGGIFETVENEPVNVEELAFKFAVTSINRNRTLMPNTTLTYDIQRINLFDSFEASRRACDQLALGVAALFGPSHSSSVSAVQSICNALEVPHIQTRWKHPSVDSRDLFYINLYPDYAAISRAVLDLVLYYNWKTVTVVYEDSTGLIRLQELIKAPSRYNIKIKIRQLPPANKDAKPLLKEMKKSKEFYVIFDCSHETAAEILKQILFMGMMTEYYHYFFTTLDLFALDLELYRYSGVNMTGFRLLNIDNPHVSSIIEKWSMERLQAPPRPETGLLDGMMTTEAALMYDAVYMVAIASHRASQLTVSSLQCHRHKPWRLGPRFMNLIKEARWDGLTGRITFNKTDGLRKDFDLDIISLKEEGTEKIGIWNSNSGLNMTDTLIVTTILEEPYVMYRKSDKPLYGNDRFEGYCLDLLKELSNILGFLYDVKLVPDGKYGAQNDKGEWNGMVKELIDHRADLAVAPLTITYVREKVIDFSKPFMTLGISILYRPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESADDLAKQTKIEYGAVRDGSTMTFFKKSKISTYEKMWAFMSSRQQSALVKNSDEGIQRVLTTDYALLMESTSIEYVTQRNCNLTQIGGLIDSKGYGVGTPIGSPYRDKITIAILQLQEEGKLHMMKEKWWRENIGGIFIVLAAGLVLSVFVAI HVLRIGGIFETVENEPVNVEELAFKFAVTSINRNRTLMPNTTLTYDIQRINLFDSFEASRRACDQLALGVAALFGPSHSSSVSAVQSICNALEVPHIQTRWKHPSVDSRDLFYINLYPDYAAISRAVLDLVLYYNWKTVTVVYEDSTGLIRLQELIKAPSRYNIKIKIRQLPPANKDAKPLLKEMKKSKEFYVIFDCSHETAAEILKQILFMGMMTEYYHYFFTTLDLFALDLELYRYSGVNMTGFRLLNIDNPHVSSIIEKWSMERLQAPPRPETGLLDGMMTTEAALMYDAVYMVAIASHRASQLTVSSLQCHRHKPWRLGPRFMNLIKEARWDGLTGRITFNKTDGLRKDFDLDIISLKEEGTEKIGIWNSNSGLNMTDTLIVTTILEEPYVMYRKSDKPLYGNDRFEGYCLDLLKELSNILGFLYDVKLVPDGKYGAQNDKGEWNGMVKELIDHRADLAVAPLTITYVREKVIDFSKPFMTLGISILYRPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESADDLAKQTKIEYGAVRDGSTMTFFKKSKISTYEKMWAFMSSRQQSALVKNSDEGIQRVLTTDYALLMESTSIEYVTQRNCNLTQIGGLIDSKGYGVGTPIGSPYRDKITIAILQLQEEGKLHMMKEKWWRENIGGIFIVLAAGLVLSVFVAI 7lvt-a1-m1-cB_7lvt-a1-m1-cD Structure of full-length GluK1 with L-Glu P22756 P22756 4.6 ELECTRON MICROSCOPY 30 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 719 719 HVLRIGGIFETVENEPVNVEELAFKFAVTSINRNRTLMPNTTLTYDIQRINLFDSFEASRRACDQLALGVAALFGPSHSSSVSAVQSICNALEVPHIQTRWKHPSVDSRDLFYINLYPDYAAISRAVLDLVLYYNWKTVTVVYEDSTGLIRLQELIKAPSRYNIKIKIRQLPPANKDAKPLLKEMKKSKEFYVIFDCSHETAAEILKQILFMGMMTEYYHYFFTTLDLFALDLELYRYSGVNMTGFRLLNIDNPHVSSIIEKWSMERLQAPPRPETGLLDGMMTTEAALMYDAVYMVAIASHRASQLTVSSLQCHRHKPWRLGPRFMNLIKEARWDGLTGRITFNKTDGLRKDFDLDIISLKEEGTEKIGIWNSNSGLNMTDTLIVTTILEEPYVMYRKSDKPLYGNDRFEGYCLDLLKELSNILGFLYDVKLVPDGKYGAQNDKGEWNGMVKELIDHRADLAVAPLTITYVREKVIDFSKPFMTLGISILYRPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESADDLAKQTKIEYGAVRDGSTMTFFKKSKISTYEKMWAFMSSRQQSALVKNSDEGIQRVLTTDYALLMESTSIEYVTQRNCNLTQIGGLIDSKGYGVGTPIGSPYRDKITIAILQLQEEGKLHMMKEKWWRENIGGIFIVLAAGLVLSVFVAI HVLRIGGIFETVENEPVNVEELAFKFAVTSINRNRTLMPNTTLTYDIQRINLFDSFEASRRACDQLALGVAALFGPSHSSSVSAVQSICNALEVPHIQTRWKHPSVDSRDLFYINLYPDYAAISRAVLDLVLYYNWKTVTVVYEDSTGLIRLQELIKAPSRYNIKIKIRQLPPANKDAKPLLKEMKKSKEFYVIFDCSHETAAEILKQILFMGMMTEYYHYFFTTLDLFALDLELYRYSGVNMTGFRLLNIDNPHVSSIIEKWSMERLQAPPRPETGLLDGMMTTEAALMYDAVYMVAIASHRASQLTVSSLQCHRHKPWRLGPRFMNLIKEARWDGLTGRITFNKTDGLRKDFDLDIISLKEEGTEKIGIWNSNSGLNMTDTLIVTTILEEPYVMYRKSDKPLYGNDRFEGYCLDLLKELSNILGFLYDVKLVPDGKYGAQNDKGEWNGMVKELIDHRADLAVAPLTITYVREKVIDFSKPFMTLGISILYRPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESADDLAKQTKIEYGAVRDGSTMTFFKKSKISTYEKMWAFMSSRQQSALVKNSDEGIQRVLTTDYALLMESTSIEYVTQRNCNLTQIGGLIDSKGYGVGTPIGSPYRDKITIAILQLQEEGKLHMMKEKWWRENIGGIFIVLAAGLVLSVFVAI 7lvt-a1-m1-cC_7lvt-a1-m1-cD Structure of full-length GluK1 with L-Glu P22756 P22756 4.6 ELECTRON MICROSCOPY 202 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 719 719 7lvt-a1-m1-cA_7lvt-a1-m1-cB HVLRIGGIFETVENEPVNVEELAFKFAVTSINRNRTLMPNTTLTYDIQRINLFDSFEASRRACDQLALGVAALFGPSHSSSVSAVQSICNALEVPHIQTRWKHPSVDSRDLFYINLYPDYAAISRAVLDLVLYYNWKTVTVVYEDSTGLIRLQELIKAPSRYNIKIKIRQLPPANKDAKPLLKEMKKSKEFYVIFDCSHETAAEILKQILFMGMMTEYYHYFFTTLDLFALDLELYRYSGVNMTGFRLLNIDNPHVSSIIEKWSMERLQAPPRPETGLLDGMMTTEAALMYDAVYMVAIASHRASQLTVSSLQCHRHKPWRLGPRFMNLIKEARWDGLTGRITFNKTDGLRKDFDLDIISLKEEGTEKIGIWNSNSGLNMTDTLIVTTILEEPYVMYRKSDKPLYGNDRFEGYCLDLLKELSNILGFLYDVKLVPDGKYGAQNDKGEWNGMVKELIDHRADLAVAPLTITYVREKVIDFSKPFMTLGISILYRPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESADDLAKQTKIEYGAVRDGSTMTFFKKSKISTYEKMWAFMSSRQQSALVKNSDEGIQRVLTTDYALLMESTSIEYVTQRNCNLTQIGGLIDSKGYGVGTPIGSPYRDKITIAILQLQEEGKLHMMKEKWWRENIGGIFIVLAAGLVLSVFVAI HVLRIGGIFETVENEPVNVEELAFKFAVTSINRNRTLMPNTTLTYDIQRINLFDSFEASRRACDQLALGVAALFGPSHSSSVSAVQSICNALEVPHIQTRWKHPSVDSRDLFYINLYPDYAAISRAVLDLVLYYNWKTVTVVYEDSTGLIRLQELIKAPSRYNIKIKIRQLPPANKDAKPLLKEMKKSKEFYVIFDCSHETAAEILKQILFMGMMTEYYHYFFTTLDLFALDLELYRYSGVNMTGFRLLNIDNPHVSSIIEKWSMERLQAPPRPETGLLDGMMTTEAALMYDAVYMVAIASHRASQLTVSSLQCHRHKPWRLGPRFMNLIKEARWDGLTGRITFNKTDGLRKDFDLDIISLKEEGTEKIGIWNSNSGLNMTDTLIVTTILEEPYVMYRKSDKPLYGNDRFEGYCLDLLKELSNILGFLYDVKLVPDGKYGAQNDKGEWNGMVKELIDHRADLAVAPLTITYVREKVIDFSKPFMTLGISILYRPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESADDLAKQTKIEYGAVRDGSTMTFFKKSKISTYEKMWAFMSSRQQSALVKNSDEGIQRVLTTDYALLMESTSIEYVTQRNCNLTQIGGLIDSKGYGVGTPIGSPYRDKITIAILQLQEEGKLHMMKEKWWRENIGGIFIVLAAGLVLSVFVAI 7lvv-a1-m1-cA_7lvv-a1-m1-cB cryoEM structure DrdV-DNA complex A0A345IJ72 A0A345IJ72 3.25 ELECTRON MICROSCOPY 65 0.999 980427 (Deinococcus wulumuqiensis) 980427 (Deinococcus wulumuqiensis) 1011 1012 7lo5-a1-m1-cB_7lo5-a1-m1-cA SLQLVKKFQKRLEDIVAYGGTRNESSVRAAFQQLLSDWAEGSGLRLITEVTQKAVAGNNVRPDGTLKDSLQQSRGYWESKDEADTLDDEIQKKLAKGYPRDNIIFEDSRLAVLMQNGEEVQRVDMGDAGALAGLLKLFFEFEPPQVLEFRKAVDHFKDEMPHLLKILREAADAAEQKADYRGERDHFVEIAKEAINPDFSPRDAREMLIQHILTGDLFTSVFDNAQYHEDNNIAQQLQQLAATFYKGPVKRDIAERTKRYYGAIQAAAAQIADHHEKQRFLKALYENFYRAYNPAGAERLGIFYTPGEIVRFMIEATDTLLEKHFQKELADKGVEILDPATGTGTFITELIDFLPKAKLEQKYREELHCNELALLPYYIANLNIEATYAQKMGRYEEFRNIVLVDTLDNTLFGSVTAENLERAKRQNARPVRVIIGNPPYRANQANENDNNKNREYKEIDRRIKATYVAASTAQKTKLYDMYSRFLRWATDRLKEDGIVAFVSNSSFIDSRTFDGFRKEVVKDFDHIYILDMKGNANTSGERRKREGGNVFNDQIKVGVAVYFLVRSADTKIWYHAVPDFWRAREKLEWLKTTKFEDIEFDHIRPDAKHNWLGQVDEENDWNEFLPVADKDTKQAKGLGQERAIFKLYSLGVVTNRDEWVYSRAEDELADKVRYFIGRYNEIIKLPLGDLMSRNWEGDIKMTRATIADAQSRKSYSLEKNSIVPSLYRPFDVLKMYFSKNLNEMQYQMPSIFPKGVGENVVIALSGSPAAKPFQVLATDILPSLDLLEKTQCLPFYRYTMNGERLNNITDYALKAFQTHYADTSISREDIFHYVYAVLHHPAYREKYALNLRQEFPRIPFYPEFGRWAAWGRELMALHIGFESVAPYPLKRTDEPPKNDTPEALALAKKARLKVQRDAAKQPTGAVELDGLTTLAGIPAAAWAYKLGNRSALEWVLERHKETTPKDATIREKFNTYRFADHKERVIDLLARVTTVSVETVRIVGEMPAETM SLQLVKKFQKRLEDIVAYGGTRNESSVRAAFQQLLSDWAEGSGLRLITEVTQKAVAGNNVRPDGTLKDSLQQSRGYWESKDEADTLDDEIQKKLAKGYPRDNIIFEDSRLAVLMQNGEEVQRVDMGDAGALAGLLKLFFEFEPPQVLEFRKAVDHFKDEMPHLLKILREAADAAEQKADYRGERDHFVEIAKEAINPDFSPRDAREMLIQHILTGDLFTSVFDNAQYHEDNNIAQQLQQLAATFYKGPVKRDIAERTKRYYGAIQAAAAQIADHHEKQRFLKALYENFYRAYNPAGAERLGIFYTPGEIVRFMIEATDTLLEKHFQKELADKGVEILDPATGTGTFITELIDFLPKAKLEQKYREELHCNELALLPYYIANLNIEATYAQKMGRYEEFRNIVLVDTLDNTGGLFGSVTAENLERAKRQNARPVRVIIGNPPYRANQANENDNNKNREYKEIDRRIKATYVAASTAQKTKLYDMYSRFLRWATDRLKEDGIVAFVSNSSFIDSRTFDGFRKEVVKDFDHIYILDMKGNANTSGERRKREGGNVFNDQIKVGVAVYFLVRSDTKIWYHAVPDFWRAREKLEWLKTTKFEDIEFDHIRPDAKHNWLGQVDEENDWNEFLPVADKDTKQAKGLGQERAIFKLYSLGVVTNRDEWVYSRAEDELADKVRYFIGRYNEIIKLPLGDLMSRNWEGDIKMTRATIADAQSRKSYSLEKNSIVPSLYRPFDVLKMYFSKNLNEMQYQMPSIFPKGVGENVVIALSGSPAAKPFQVLATDILPSLDLLEKTQCLPFYRYTMNGERLNNITDYALKAFQTHYADTSISREDIFHYVYAVLHHPAYREKYALNLRQEFPRIPFYPEFGRWAAWGRELMALHIGFESVAPYPLKRTDEPPKNDTPEALALAKKARLKVQRDAAKQPTGAVELDGLTTLAGIPAAAWAYKLGNRSALEWVLERHKETTPKDATIREKFNTYRFADHKERVIDLLARVTTVSVETVRIVGEMPAETM 7lw1-a1-m1-cD_7lw1-a1-m1-cF Human phosphofructokinase-1 liver type bound to activator NA-11 P17858 P17858 2.9 ELECTRON MICROSCOPY 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 744 744 7lw1-a1-m1-cA_7lw1-a1-m1-cE ASGAGKAIGVLTSGGDAQGMNAAVRAVTRMGIYVGAKVFLIYEGYEGLVEGGENIKQANWLSVSNIIQLGGTIIGSARCKAFTTREGRRAAAYNLVQHGITNLCVIGGDGSLTGANIFRSEWGSLLEELVAEGKISETTARTYSHLNIAGLVGSIDNDFCGTDMTIGTDSALHRIMEVIDAITTTAQSHQRTFVLEVMGRHCGYLALVSALASGADWLFIPEAPPEDGWENFMCERLGETRSRGSRLNIIIIAEGAIDRNGKPISSSYVKDLVVQRLGFDTRVTVLGHVQRGGTPSAFDRILSSKMGMEAVMALLEATPDTPACVVTLSGNQSVRLPLMECVQMTKEVQKAMDDKRFDEATQLRGGSFENNWNIYKLLAHQKPPKEKSNFSLAILNVGAPAAGMNAAVRSAVRTGISHGHTVYVVHDGFEGLAKGQVQEVGWHDVAGWLGRGGSMLGTKRTLPKGQLESIVENIRIYGIHALLVVGGFEAYEGVLQLVEARGRYEELCIVMCVIPATISNNVPGTDFSLGSDTAVNAAMESCDRIKQSASGTKRRVFIVETMGGYCGYLATVTGIAVGADAAYVFEDPFNIHDLKVNVEHMTEKMKTDIQRGLVLRNEKCHDYYTTEFLYNLYSSEGKGVFDCRTNVLGHLQQGGAPTPFDRNYGTKLGVKAMLWLSEKLREVYRKGRVFANAPDSACVIGLKKKAVAFSPVTELKKDTDFEHRMPREQWWLSLRLMLKMLAQY ASGAGKAIGVLTSGGDAQGMNAAVRAVTRMGIYVGAKVFLIYEGYEGLVEGGENIKQANWLSVSNIIQLGGTIIGSARCKAFTTREGRRAAAYNLVQHGITNLCVIGGDGSLTGANIFRSEWGSLLEELVAEGKISETTARTYSHLNIAGLVGSIDNDFCGTDMTIGTDSALHRIMEVIDAITTTAQSHQRTFVLEVMGRHCGYLALVSALASGADWLFIPEAPPEDGWENFMCERLGETRSRGSRLNIIIIAEGAIDRNGKPISSSYVKDLVVQRLGFDTRVTVLGHVQRGGTPSAFDRILSSKMGMEAVMALLEATPDTPACVVTLSGNQSVRLPLMECVQMTKEVQKAMDDKRFDEATQLRGGSFENNWNIYKLLAHQKPPKEKSNFSLAILNVGAPAAGMNAAVRSAVRTGISHGHTVYVVHDGFEGLAKGQVQEVGWHDVAGWLGRGGSMLGTKRTLPKGQLESIVENIRIYGIHALLVVGGFEAYEGVLQLVEARGRYEELCIVMCVIPATISNNVPGTDFSLGSDTAVNAAMESCDRIKQSASGTKRRVFIVETMGGYCGYLATVTGIAVGADAAYVFEDPFNIHDLKVNVEHMTEKMKTDIQRGLVLRNEKCHDYYTTEFLYNLYSSEGKGVFDCRTNVLGHLQQGGAPTPFDRNYGTKLGVKAMLWLSEKLREVYRKGRVFANAPDSACVIGLKKKAVAFSPVTELKKDTDFEHRMPREQWWLSLRLMLKMLAQY 7lw1-a1-m1-cE_7lw1-a1-m1-cF Human phosphofructokinase-1 liver type bound to activator NA-11 P17858 P17858 2.9 ELECTRON MICROSCOPY 184 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 744 744 7lw1-a1-m1-cA_7lw1-a1-m1-cD ASGAGKAIGVLTSGGDAQGMNAAVRAVTRMGIYVGAKVFLIYEGYEGLVEGGENIKQANWLSVSNIIQLGGTIIGSARCKAFTTREGRRAAAYNLVQHGITNLCVIGGDGSLTGANIFRSEWGSLLEELVAEGKISETTARTYSHLNIAGLVGSIDNDFCGTDMTIGTDSALHRIMEVIDAITTTAQSHQRTFVLEVMGRHCGYLALVSALASGADWLFIPEAPPEDGWENFMCERLGETRSRGSRLNIIIIAEGAIDRNGKPISSSYVKDLVVQRLGFDTRVTVLGHVQRGGTPSAFDRILSSKMGMEAVMALLEATPDTPACVVTLSGNQSVRLPLMECVQMTKEVQKAMDDKRFDEATQLRGGSFENNWNIYKLLAHQKPPKEKSNFSLAILNVGAPAAGMNAAVRSAVRTGISHGHTVYVVHDGFEGLAKGQVQEVGWHDVAGWLGRGGSMLGTKRTLPKGQLESIVENIRIYGIHALLVVGGFEAYEGVLQLVEARGRYEELCIVMCVIPATISNNVPGTDFSLGSDTAVNAAMESCDRIKQSASGTKRRVFIVETMGGYCGYLATVTGIAVGADAAYVFEDPFNIHDLKVNVEHMTEKMKTDIQRGLVLRNEKCHDYYTTEFLYNLYSSEGKGVFDCRTNVLGHLQQGGAPTPFDRNYGTKLGVKAMLWLSEKLREVYRKGRVFANAPDSACVIGLKKKAVAFSPVTELKKDTDFEHRMPREQWWLSLRLMLKMLAQY ASGAGKAIGVLTSGGDAQGMNAAVRAVTRMGIYVGAKVFLIYEGYEGLVEGGENIKQANWLSVSNIIQLGGTIIGSARCKAFTTREGRRAAAYNLVQHGITNLCVIGGDGSLTGANIFRSEWGSLLEELVAEGKISETTARTYSHLNIAGLVGSIDNDFCGTDMTIGTDSALHRIMEVIDAITTTAQSHQRTFVLEVMGRHCGYLALVSALASGADWLFIPEAPPEDGWENFMCERLGETRSRGSRLNIIIIAEGAIDRNGKPISSSYVKDLVVQRLGFDTRVTVLGHVQRGGTPSAFDRILSSKMGMEAVMALLEATPDTPACVVTLSGNQSVRLPLMECVQMTKEVQKAMDDKRFDEATQLRGGSFENNWNIYKLLAHQKPPKEKSNFSLAILNVGAPAAGMNAAVRSAVRTGISHGHTVYVVHDGFEGLAKGQVQEVGWHDVAGWLGRGGSMLGTKRTLPKGQLESIVENIRIYGIHALLVVGGFEAYEGVLQLVEARGRYEELCIVMCVIPATISNNVPGTDFSLGSDTAVNAAMESCDRIKQSASGTKRRVFIVETMGGYCGYLATVTGIAVGADAAYVFEDPFNIHDLKVNVEHMTEKMKTDIQRGLVLRNEKCHDYYTTEFLYNLYSSEGKGVFDCRTNVLGHLQQGGAPTPFDRNYGTKLGVKAMLWLSEKLREVYRKGRVFANAPDSACVIGLKKKAVAFSPVTELKKDTDFEHRMPREQWWLSLRLMLKMLAQY 7lwr-a4-m1-cD_7lwr-a4-m1-cG Structural and Biochemical Insight into Assembly of Molecular Motors Involved in Viral DNA Packaging P68654 P68654 2.35 X-RAY DIFFRACTION 37 1.0 10711 (Enterobacteria phage P21) 10711 (Enterobacteria phage P21) 54 54 7lwr-a1-m1-cA_7lwr-a1-m2-cH 7lwr-a2-m1-cB_7lwr-a2-m1-cF 7lwr-a3-m1-cC_7lwr-a3-m1-cE MKVNKKRLAEIFNVDPRTIERWQSQGLPCASKGSKGIESVFDTAMAIQWYAQRE MKVNKKRLAEIFNVDPRTIERWQSQGLPCASKGSKGIESVFDTAMAIQWYAQRE 7lww-a1-m1-cC_7lww-a1-m1-cA Triple mutant (K417N-E484K-N501Y) SARS-CoV-2 spike protein in the 1-RBD-up conformation (S-GSAS-D614G-K417N-E484K-N501Y) P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 329 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 992 995 7lww-a1-m1-cA_7lww-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7lwz-a1-m1-cF_7lwz-a1-m1-cB Apo Structure of Vibrio cholerae dGTPase protein VC1979 Q9KQL9 Q9KQL9 2.32 X-RAY DIFFRACTION 28 0.997 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 373 385 7lwz-a1-m1-cB_7lwz-a1-m1-cD 7lwz-a1-m1-cC_7lwz-a1-m1-cA 7lwz-a1-m1-cC_7lwz-a1-m1-cE 7lwz-a1-m1-cF_7lwz-a1-m1-cD NPEWLARNNIRRNDHRSPFQRDRARILHSAAFRRLQAHRTRLTHSLEAAQIGTGIVAQIKLKQPEFRELLPSDSLIDSLCLAHDIGHPPYGHGGEIALNYMMRDHGGFEGNAQTFRIVTSLEPYTEHHGMNLSRRTLLGLLKYPALPAKGIYDCDLASLDWVLEPLCESDRELRFKSLDCSIMELADDIAYGVHDLEDAIVLGMVTRAQWQEAAAAQLAECGDPWFEEHIAELSEMLFSGKHYVRKDAIGGIVNALLTSISVKPVEAPFHNELLAFNAYIEPHMGNALEVLKHFVSQYVIQIPQVQRFEYKGQQLIMDLFEALSADPERLLPQATGEKWRKAQEQDEGMRVICDYIAAMTDAYAQRLHQQLFS LNPEWLARNNDEHKIRRNDHRSPFQRDRARILHSAAFRRLQAKRTRLTHSLEAAQIGTGIVAQIKLKQPEFRELLPSDSLIDSLCLAHDIGHPPYGHGGEIALNYMMRDHGGFEGNAQTFRIVTSLEPYTEHHGMNLSRRTLLGLLKYPALLSASPAKGIYDCDLASLDWVLEPLCESDRELLGQRFKSLDCSIMELADDIAYGVHDLEDAIVLGMVTRAQWQEAAAAQLAECGDPWFEEHIAELSEMLFSGKHYVRKDAIGGIVNALLTSISVKPVEAPFHNELLAFNAYIEPHMGNALEVLKHFVSQYVIQIPQVQRFEYKGQQLIMDLFEALSADPERLLPQATGEKWRKAQEQDEGMRVICDYIAAMTDAYAQRLHQQLFS 7lwz-a1-m1-cF_7lwz-a1-m1-cE Apo Structure of Vibrio cholerae dGTPase protein VC1979 Q9KQL9 Q9KQL9 2.32 X-RAY DIFFRACTION 70 0.992 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 373 400 7lwz-a1-m1-cB_7lwz-a1-m1-cA 7lwz-a1-m1-cC_7lwz-a1-m1-cD NPEWLARNNIRRNDHRSPFQRDRARILHSAAFRRLQAHRTRLTHSLEAAQIGTGIVAQIKLKQPEFRELLPSDSLIDSLCLAHDIGHPPYGHGGEIALNYMMRDHGGFEGNAQTFRIVTSLEPYTEHHGMNLSRRTLLGLLKYPALPAKGIYDCDLASLDWVLEPLCESDRELRFKSLDCSIMELADDIAYGVHDLEDAIVLGMVTRAQWQEAAAAQLAECGDPWFEEHIAELSEMLFSGKHYVRKDAIGGIVNALLTSISVKPVEAPFHNELLAFNAYIEPHMGNALEVLKHFVSQYVIQIPQVQRFEYKGQQLIMDLFEALSADPERLLPQATGEKWRKAQEQDEGMRVICDYIAAMTDAYAQRLHQQLFS EWLARNNDEHKIRRNDHRSPFQRDRARILHSAAFRRLQAKHRTRLTHSLEAAQIGTGIVAQIKLKQPEFRELLPSDSLIDSLCLAHDIGHPPYGHGGEIALNYMMRDHGGFEGNAQTFRIVTSLEPYTEHHGMNLSRRTLLGLLKYPALLSATRAAIPPPQLKAKDWSPAKGIYDCDLASLDWVLEPLCESDRELLGQMRTRFKSLDCSIMELADDIAYGVHDLEDAIVLGMVTRAQWQEAAAAQLAECGDPWFEEHIAELSEMLFSGKHYVRKDAIGGIVNALLTSISVKPVEAPFHNELLAFNAYIEPHMGNALEVLKHFVSQYVIQIPQVQRFEYKGQQLIMDLFEALSADPERLLPQATGEKWRKAQEQDEGMRVICDYIAAMTDAYAQRLHQQLF 7lx0-a1-m1-cU_7lx0-a1-m1-cl Quantitative assessment of chlorophyll types in cryo-EM maps of photosystem I acclimated to far-red light G6FMF1 G6FMF1 2.96 ELECTRON MICROSCOPY 42 1.0 98439 (Fischerella thermalis PCC 7521) 98439 (Fischerella thermalis PCC 7521) 163 163 6pnj-a1-m1-cL_6pnj-a1-m1-cl 6pnj-a1-m1-cL_6pnj-a1-m1-cU 6pnj-a1-m1-cU_6pnj-a1-m1-cl 7lx0-a1-m1-cL_7lx0-a1-m1-cl 7lx0-a1-m1-cL_7lx0-a1-m1-cU NDIIKPFKGDPCLGNLSTPINDSPLAKAFINNLPAYRKGLTPFMRGLEIGMAHGYFLVGPEVVIGPLRESAHGANLSGLITAIYIAVSACLGISIFAITTFQGNPKGSYSSYSKDSLRPLRTREEWSQLNGGIFLGAMGGAIFAYLLLENFDALDAILRGAVN NDIIKPFKGDPCLGNLSTPINDSPLAKAFINNLPAYRKGLTPFMRGLEIGMAHGYFLVGPEVVIGPLRESAHGANLSGLITAIYIAVSACLGISIFAITTFQGNPKGSYSSYSKDSLRPLRTREEWSQLNGGIFLGAMGGAIFAYLLLENFDALDAILRGAVN 7lxp-a1-m1-cA_7lxp-a1-m1-cC Collagen Mimetic Peptide with an Xaa-position Aza-proline 1.4 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 19 PGPGPGPGPGPRPGPGPGP PGPGPGPGPGPRPGPGPGP 7lxp-a2-m1-cD_7lxp-a2-m1-cF Collagen Mimetic Peptide with an Xaa-position Aza-proline 1.4 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 19 7lxp-a2-m1-cD_7lxp-a2-m1-cE GPGPGPGPGPRPGPGPGPG GPGPGPGPGPRPGPGPGPG 7lxp-a2-m1-cF_7lxp-a2-m1-cE Collagen Mimetic Peptide with an Xaa-position Aza-proline 1.4 X-RAY DIFFRACTION 44 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 20 GPGPGPGPGPRPGPGPGPG PGPGPGPGPGPRPGPGPGPG 7lxq-a1-m1-cA_7lxq-a1-m1-cC Collagen Mimetic Peptide with a Yaa-position Aza-proline 1.3 X-RAY DIFFRACTION 40 1.0 32630 (synthetic construct) 32630 (synthetic construct) 20 20 PGPGPGPGPGPRPGPGPGPG PGPGPGPGPGPRPGPGPGPG 7lxq-a1-m1-cB_7lxq-a1-m1-cC Collagen Mimetic Peptide with a Yaa-position Aza-proline 1.3 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 20 20 7lxq-a1-m1-cA_7lxq-a1-m1-cB PGPGPGPGPGPRPGPGPGPG PGPGPGPGPGPRPGPGPGPG 7lxs-a4-m1-cF_7lxs-a4-m2-cG Structural and Biochemical Insight into Assembly of Molecular Motors Involved in Viral DNA Packaging Q8ZMZ2 Q8ZMZ2 2.21 X-RAY DIFFRACTION 46 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 55 55 7lxs-a1-m1-cA_7lxs-a1-m1-cC 7lxs-a2-m1-cB_7lxs-a2-m2-cD 7lxs-a3-m1-cE_7lxs-a3-m1-cH MNVNKKKLAEIFGCDVRTVTAWQSQGLPLVSGGGKGNEAVFDTAAAISWYAERDA MNVNKKKLAEIFGCDVRTVTAWQSQGLPLVSGGGKGNEAVFDTAAAISWYAERDA 7lxu-a1-m1-cH_7lxu-a1-m1-cV Structure of Plasmodium falciparum 20S proteasome with bound MPI-5 Q8I0U7 Q8I0U7 3.1 ELECTRON MICROSCOPY 54 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 229 229 7lxt-a1-m1-cH_7lxt-a1-m1-cV TTIIGIIYDNGVMLACDSRTSSGTFISNKCSRKINRINENLYVCRSGASAHSQKIIEIIKHYCVSMKNENRKKGRFHEGETIYDDNNLVTKNKYFYEDKFNDYNPLVENVAHITKKIIYTNNNFLSCALIFGGYDKIKKQQLYAVNLNGSIIEKHDFAVSGSGSIYIQSYLQDKYKKFMTKKECFNLILNCVKYAMHNDNSSGGLIRIVNITKSFVEEFTVVNTQMNFQ TTIIGIIYDNGVMLACDSRTSSGTFISNKCSRKINRINENLYVCRSGASAHSQKIIEIIKHYCVSMKNENRKKGRFHEGETIYDDNNLVTKNKYFYEDKFNDYNPLVENVAHITKKIIYTNNNFLSCALIFGGYDKIKKQQLYAVNLNGSIIEKHDFAVSGSGSIYIQSYLQDKYKKFMTKKECFNLILNCVKYAMHNDNSSGGLIRIVNITKSFVEEFTVVNTQMNFQ 7lxy-a1-m1-cB_7lxy-a1-m1-cJ SARS-CoV-2 S/S2M11/S2X333 Global Refinement P0DTC2 P0DTC2 2.2 ELECTRON MICROSCOPY 321 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1035 1035 7lxy-a1-m1-cA_7lxy-a1-m1-cB 7lxy-a1-m1-cA_7lxy-a1-m1-cJ QCVNLAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL QCVNLAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7lxz-a1-m1-cB_7lxz-a1-m1-cK SARS-CoV-2 S/S2M11/S2L28 Global Refinement P0DTC2 P0DTC2 2.6 ELECTRON MICROSCOPY 306 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1060 1060 7lxz-a1-m1-cA_7lxz-a1-m1-cB 7lxz-a1-m1-cA_7lxz-a1-m1-cK QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7ly2-a1-m1-cB_7ly2-a1-m1-cJ SARS-CoV-2 S/S2M11/S2M28 Global Refinement P0DTC2 P0DTC2 2.5 ELECTRON MICROSCOPY 310 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1041 1041 7ly2-a1-m1-cA_7ly2-a1-m1-cB 7ly2-a1-m1-cA_7ly2-a1-m1-cJ QCVNLTTAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHATKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL QCVNLTTAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHATKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7ly5-a1-m1-cB_7ly5-a1-m2-cB Proteolyzed crystal structure of the bacillamide NRPS, BmdB, in complex with the oxidase BmdC 2.5 X-RAY DIFFRACTION 153 1.0 2026 (Thermoactinomyces vulgaris) 2026 (Thermoactinomyces vulgaris) 186 186 7ly4-a1-m1-cA_7ly4-a1-m1-cD 7ly6-a1-m1-cA_7ly6-a1-m2-cA 7ly7-a1-m1-cB_7ly7-a1-m2-cB KIQLETSGALPDIIQKRRSCRRFDMKTPVSFATFSNLLSSLKQILYNYASAGGLYPIDVFVYVKPRRVEGVKAGFYYFNPADHSLVLVNNIDQVIKDDHELINQDIFAQSAFSVYLVYNARAKYGAAGYFYACIEAGIITATLNMVAEDLNVGLCSIGHMNFEEIQTFLKLEDHQVILHAIEGLKI KIQLETSGALPDIIQKRRSCRRFDMKTPVSFATFSNLLSSLKQILYNYASAGGLYPIDVFVYVKPRRVEGVKAGFYYFNPADHSLVLVNNIDQVIKDDHELINQDIFAQSAFSVYLVYNARAKYGAAGYFYACIEAGIITATLNMVAEDLNVGLCSIGHMNFEEIQTFLKLEDHQVILHAIEGLKI 7lye-a1-m1-cA_7lye-a1-m1-cD Myotoxin I from Bothrops moojeni co-crystallized with synthetic inhibitor Varespladib (LY315920) P82114 P82114 1.758 X-RAY DIFFRACTION 14 1.0 98334 (Bothrops moojeni) 98334 (Bothrops moojeni) 122 122 SLVELGKMILQETGKNPVTSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTDCNPKKDRYSYSWKNKTIVCGENNACLKELCECDKAVAICLRENLDTYNKKYKNNYLKPFCDKALPC SLVELGKMILQETGKNPVTSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTDCNPKKDRYSYSWKNKTIVCGENNACLKELCECDKAVAICLRENLDTYNKKYKNNYLKPFCDKALPC 7lye-a1-m1-cC_7lye-a1-m1-cD Myotoxin I from Bothrops moojeni co-crystallized with synthetic inhibitor Varespladib (LY315920) P82114 P82114 1.758 X-RAY DIFFRACTION 13 1.0 98334 (Bothrops moojeni) 98334 (Bothrops moojeni) 122 122 SLVELGKMILQETGKNPVTSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTDCNPKKDRYSYSWKNKTIVCGENNACLKELCECDKAVAICLRENLDTYNKKYKNNYLKPFCDKALPC SLVELGKMILQETGKNPVTSYGAYGCNCGVLGRGKPKDATDRCCYVHKCCYKKLTDCNPKKDRYSYSWKNKTIVCGENNACLKELCECDKAVAICLRENLDTYNKKYKNNYLKPFCDKALPC 7lyn-a1-m1-cC_7lyn-a1-m1-cA South African (B.1.351) SARS-CoV-2 spike protein variant (S-GSAS-B.1.351) in the 1-RBD-up conformation P0DTC2 P0DTC2 3.32 ELECTRON MICROSCOPY 343 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 993 996 7lyn-a1-m1-cA_7lyn-a1-m1-cB 7lyp-a1-m1-cA_7lyp-a1-m1-cB 7lyp-a1-m1-cC_7lyp-a1-m1-cA 7lyq-a1-m1-cA_7lyq-a1-m1-cB 7lyq-a1-m1-cC_7lyq-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7lyo-a1-m1-cC_7lyo-a1-m1-cA South African (B.1.351) SARS-CoV-2 spike protein variant (S-GSAS-B.1.351) in the 1-RBD-up conformation P0DTC2 P0DTC2 3.32 ELECTRON MICROSCOPY 342 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 992 995 7lyo-a1-m1-cA_7lyo-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7lz2-a1-m1-cA_7lz2-a1-m2-cA Structure of glutamate receptor-like channel GLR3.4 ligand-binding domain in complex with methionine Q8GXJ4 Q8GXJ4 1.5 X-RAY DIFFRACTION 58 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 252 252 7lz0-a1-m1-cA_7lz0-a1-m2-cA 7lz0-a2-m1-cB_7lz0-a2-m1-cC 7lz1-a1-m1-cA_7lz1-a1-m2-cA 7lz1-a2-m1-cB_7lz1-a2-m1-cC 7lz2-a2-m1-cB_7lz2-a2-m1-cC GSAMGSKPLRIGVPNRVSYTDYVSKDKNPPGVRGYCIDVFEAAIELLPYPVPRTYILYGDGKRNPSYDNLVNEVVADNFDVAVGDITIVTNRTRYVDFTQPFIESGLVVVAPVKEAGTIEGIDSLVTSNEPIGVQDGTFARNYLINELNILPSRIVPLKDEEQYLSALQRGPNAGGVAAIVDELPYIEVLLTNSNCKFRTVGQEFTRTGWGFAFQRDSPLAVDMSTAILQLSEEGELEKIHRKWLNYKHECS GSAMGSKPLRIGVPNRVSYTDYVSKDKNPPGVRGYCIDVFEAAIELLPYPVPRTYILYGDGKRNPSYDNLVNEVVADNFDVAVGDITIVTNRTRYVDFTQPFIESGLVVVAPVKEAGTIEGIDSLVTSNEPIGVQDGTFARNYLINELNILPSRIVPLKDEEQYLSALQRGPNAGGVAAIVDELPYIEVLLTNSNCKFRTVGQEFTRTGWGFAFQRDSPLAVDMSTAILQLSEEGELEKIHRKWLNYKHECS 7lze-a1-m1-cB_7lze-a1-m1-cC Cryo-EM Structure of disulfide stabilized HMPV F v4-B Q6W8S4 Q6W8S4 3.23 ELECTRON MICROSCOPY 185 1.0 162145 (Human metapneumovirus) 162145 (Human metapneumovirus) 337 337 7lze-a1-m1-cA_7lze-a1-m1-cB 7lze-a1-m1-cA_7lze-a1-m1-cC LKESYLEESCSTITEGYLSVLRTGWYTNVFTLEVGDVENLTCTDCPSLIKTELDLTKSALRELKTVSADQLAKCDIADLCMAVSFSQFNRRFLNVVRQFSDNAGITPAISLDLMTDAELARAVSYMPTSAGQIKLMLENRAMVRRKGFGILIGVYGSSVIYMVQLPIFGVIDTPCWIIKAAPSCSEKDGNYACLLREDQGWYCKNAGSTVYYPNDKDCETRGDHVFCDTAAGINVAEQSRECNINISTTNYPCKVSTGRHPISMVALSPLGALVACYKGVSCSIGSNRVGIIKQLPKGCSYITNQDADTVTIDNTVYQLSKVEGEQHVIKGRPVSSS LKESYLEESCSTITEGYLSVLRTGWYTNVFTLEVGDVENLTCTDCPSLIKTELDLTKSALRELKTVSADQLAKCDIADLCMAVSFSQFNRRFLNVVRQFSDNAGITPAISLDLMTDAELARAVSYMPTSAGQIKLMLENRAMVRRKGFGILIGVYGSSVIYMVQLPIFGVIDTPCWIIKAAPSCSEKDGNYACLLREDQGWYCKNAGSTVYYPNDKDCETRGDHVFCDTAAGINVAEQSRECNINISTTNYPCKVSTGRHPISMVALSPLGALVACYKGVSCSIGSNRVGIIKQLPKGCSYITNQDADTVTIDNTVYQLSKVEGEQHVIKGRPVSSS 7lzg-a1-m1-cA_7lzg-a1-m1-cB CRYSTAL STRUCTURE OF CBS DOMAIN PROTEIN FROM STREPTOCOCCUS PNEUMONIAE TIGR4 A0A0H2URI7 A0A0H2URI7 2.81 X-RAY DIFFRACTION 103 0.993 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 140 147 SNAIAKEFETFLLGQEETFLTPAKNLAVLIDTHNADHATLLLSQTYTRVPVVTDEKQFVGTIGLRDIAYQEHDLSQEIADTDIVHTKTDVAVVSPDFTITEVLHKLVDESFLPVVDAEGIFQGIITRKSILKAVNALLHD NAIAKEFETFLLGQEETFLTPAKNLAVLIDTHNADHATLLLSQTYTRVPVVTDEKQFVGTIGLRDIAYQEHDLSQEIADTDIVHTKTDVAVVSPDFTITEVLHKLVDESFLPVVDAEGIFQGIITRKSILKAVNALLHDFSKEYEIR 7lzj-a1-m1-cB_7lzj-a1-m1-cC DpK2 bacteriophage tail spike depolymerase A0A3S7W7I3 A0A3S7W7I3 2.7 ELECTRON MICROSCOPY 319 1.0 2419608 (Klebsiella phage GH-K3) 2419608 (Klebsiella phage GH-K3) 716 716 7lzj-a1-m1-cA_7lzj-a1-m1-cB 7lzj-a1-m1-cA_7lzj-a1-m1-cC LAQPDGFDSIGRVSSFAALRNLKPKKSGQHVLLTSYYDGWAAENKMPTGGGEFISSIGTATDDGGYIAAGPGYYWTRVVNNNSFTAEDFGCKTTATPPPNFNVLPAELFDNTAMMQAAFNLAISKSFKLNLSTGTYYFESSDTLRITGPIHIEGRPGTVFYHNPSNKANPKTDAFMNISGCSAGRISSINCFSNSYLGKGINFDRSVGDNRKLVLEHVYVDTFRWGFYVGEPECINQIEFHSCRAQSNYFQGIFIESFKEGQEYGHSAPVHFFNTICNGNGPTSFALGATYKTTKNEYIKVMDSVNDVGCQAYFQGLSNVQYIGGQLSGHGSPRNTSLATITQCNSFIIYGTDLEDINGFTTDGTAITADNIDAIESNYLKDISGAAIVVSSCPGFKIDSPHIFKIKTLSTIKLMNNTYNYEIGGFTPDEALKYNVWDANGLATNRISGVIHPRLVNSRLGINSVAFDNMSNKLDVSSLIHNETSQIVGLTPSTGSNVPHTRKMWSNGAMYSSTDLNNGFRLNYLSNHNEPLTPMHLYNEFSVSEFGGSVTESNALDEIKYIFIQTTYANSGDGRFIIQALDASGSVLSSNWYSPQSFNSTFPISGFVRFDVPTGAKKIRYGFVNSANYTGSLRSHFMSGFAYNKRFFLKIYAVYNDLGRYGQFEPPYSVAIDRFRVGDNTTQMPSIPASSATDVAGVNEVINSLLASLKANGFMS LAQPDGFDSIGRVSSFAALRNLKPKKSGQHVLLTSYYDGWAAENKMPTGGGEFISSIGTATDDGGYIAAGPGYYWTRVVNNNSFTAEDFGCKTTATPPPNFNVLPAELFDNTAMMQAAFNLAISKSFKLNLSTGTYYFESSDTLRITGPIHIEGRPGTVFYHNPSNKANPKTDAFMNISGCSAGRISSINCFSNSYLGKGINFDRSVGDNRKLVLEHVYVDTFRWGFYVGEPECINQIEFHSCRAQSNYFQGIFIESFKEGQEYGHSAPVHFFNTICNGNGPTSFALGATYKTTKNEYIKVMDSVNDVGCQAYFQGLSNVQYIGGQLSGHGSPRNTSLATITQCNSFIIYGTDLEDINGFTTDGTAITADNIDAIESNYLKDISGAAIVVSSCPGFKIDSPHIFKIKTLSTIKLMNNTYNYEIGGFTPDEALKYNVWDANGLATNRISGVIHPRLVNSRLGINSVAFDNMSNKLDVSSLIHNETSQIVGLTPSTGSNVPHTRKMWSNGAMYSSTDLNNGFRLNYLSNHNEPLTPMHLYNEFSVSEFGGSVTESNALDEIKYIFIQTTYANSGDGRFIIQALDASGSVLSSNWYSPQSFNSTFPISGFVRFDVPTGAKKIRYGFVNSANYTGSLRSHFMSGFAYNKRFFLKIYAVYNDLGRYGQFEPPYSVAIDRFRVGDNTTQMPSIPASSATDVAGVNEVINSLLASLKANGFMS 7m0s-a1-m1-cB_7m0s-a1-m1-cA N-terminal domain of PmrA from Acinetobacter baumannii A0A7S8WCK1 A0A7S8WCK1 1.64 X-RAY DIFFRACTION 56 1.0 1310912 (Acinetobacter sp. 25977_8) 1310912 (Acinetobacter sp. 25977_8) 123 127 MTKILMIEDDFMIAESTITLLQYHQFEVEWVNNGLDGLAQLAKTKFDLILLDLGLPMMDGMQVLKQIRQRAATPVLIISARDQLQNRVDGLNLGADDYLIKPYEFDELLARIHALLRRSGVEA GSHMTKILMIEDDFMIAESTITLLQYHQFEVEWVNNGLDGLAQLAKTKFDLILLDLGLPMMDGMQVLKQIRQRAATPVLIISARDQLQNRVDGLNLGADDYLIKPYEFDELLARIHALLRRSGVEAQ 7m1a-a1-m1-cAAA_7m1a-a1-m1-cBBB SusE-like protein BT2857 Q8A3U7 Q8A3U7 1.42 X-RAY DIFFRACTION 25 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 171 171 ELDKTKFREYLQNDSRVDSYDGKEYVWNGRISKDGDSGGVGLHTGTGTKDGPAVFTFDLGVLAKLSRFALWAIQDEKHFYNDSPRRYEVWGCATEPNPDGSWDQWVKLLDENVKPSGSPIGILTEDDIEAAKIGDQANVPLDPRVRYIRIKCLKNWSNNYNICFTELTFWG ELDKTKFREYLQNDSRVDSYDGKEYVWNGRISKDGDSGGVGLHTGTGTKDGPAVFTFDLGVLAKLSRFALWAIQDEKHFYNDSPRRYEVWGCATEPNPDGSWDQWVKLLDENVKPSGSPIGILTEDDIEAAKIGDQANVPLDPRVRYIRIKCLKNWSNNYNICFTELTFWG 7m1l-a1-m1-cB_7m1l-a1-m1-cF Crystal structure of Pseudomonas aeruginosa ClpP2 Q9HYR9 Q9HYR9 2 X-RAY DIFFRACTION 75 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 178 181 7m1l-a1-m1-cA_7m1l-a1-m1-cC 7m1l-a1-m1-cB_7m1l-a1-m1-cG 7m1l-a1-m1-cC_7m1l-a1-m1-cE 7m1l-a1-m1-cD_7m1l-a1-m1-cE 7m1l-a1-m1-cD_7m1l-a1-m1-cG 7m1l-a1-m1-cF_7m1l-a1-m1-cA HGAIGAKLMEYALKVRKVFVTGGVDEKMAKDVVQQLHILASISDDPIYMFVNSPGGHVESGDMIFDAIRFITPKVIMIGSGSVASAGALIYAAADKENRYSLPNTRFLLHQPSNIEIYRREIVRMKERLDRIFAEATGQTPEKISADTERDFWLNAEEAVQYGLVNKIIVSEREITLP HGAIGAKLMEYALKVRKVFVTGGVDEKMAKDVVQQLHILASISDDPIYMFVNSPGGHVESGDMIFDAIRFITPKVIMIGSGSVASAGALIYAAADKENRYSLPNTRFLLHQPSPASNIEIYRREIVRMKERLDRIFAEATGQTPEKISADTERDFWLNAEEAVQYGLVNKIIVSEREITLP 7m1r-a2-m2-cC_7m1r-a2-m1-cB Crystal structure of a 6-phospho-beta-galactosidase from Bacillus licheniformis Q65NL9 Q65NL9 1.98 X-RAY DIFFRACTION 97 1.0 1402 (Bacillus licheniformis) 1402 (Bacillus licheniformis) 472 477 7m1r-a1-m3-cD_7m1r-a1-m1-cA LRPFPDHFLWGSASAAYQIEGAWNEDGKGLSVWDVFTKIPGKTFKGSNGDIAVDHYHRFKEDVALMAEMGLKAYRFSVSWPRIFPQGRGEANESGLRFYDDLINELLAHDIEPVLTLYHWDLPQALMDEYGGFESRRIIEDFNAYCVTLYKRYGGRVKYWVSLNEQNYNFNHGFITAMHPPGVKDRKRFYEANHIAFLANAKAIDSFRRYVPDGKIGPSFAYSPAYPLSSRPDDILAFENAEEFTNYWWLDMYCRGTYPDIPLKYLKEKGWAPTIEDGDMELLAKGKPDFVGVNYYQTITYEMNPLDGVSEGKMNTTGQKGSNQETGMPGLYKTKRNPHLETSNWDWAIDPIGLRIGLRRISSRYGLPLFITENGLGEFDKVENDGTIHDDYRIAYLRAHLEQCRQALNDGVDLIGYCSWSFTDLLSWLNGYQKRYGFVYINRDEENVKDLKRIKKDSFYWYQNVIQTNGEE IHQRLRPFPDHFLWGSASAAYQIEGAWNEDGKGLSVWDVFTKIPGKTFKGSNGDIAVDHYHRFKEDVALMAEMGLKAYRFSVSWPRIFPQGRGEANESGLRFYDDLINELLAHDIEPVLTLYHWDLPQALMDEYGGFESRRIIEDFNAYCVTLYKRYGGRVKYWVSLNEQNYNFNHGFITAMHPPGVKDRKRFYEANHIAFLANAKAIDSFRRYVPDGKIGPSFAYSPAYPLSSRPDDILAFENAEEFTNYWWLDMYCRGTYPDIPLKYLKEKGWAPTIEDGDMELLAKGKPDFVGVNYYQTITYEMNPLDGVSEGKMNTTGQKGSNQETGMPGLYKTKRNPHLETSNWDWAIDPIGLRIGLRRISSRYGLPLFITENGLGEFDKVENDGTIHDDYRIAYLRAHLEQCRQALNDGVDLIGYCSWSFTDLLSWLNGYQKRYGFVYINRDEENVKDLKRIKKDSFYWYQNVIQTNGEEL 7m1t-a1-m1-cB_7m1t-a1-m1-cA Crystal structure of an archaeal CNNM, MtCorB, with C-terminal deletion in complex with Mg2+-ATP A0A1G8XA46 A0A1G8XA46 3.26 X-RAY DIFFRACTION 239 0.997 2200 (Methanoculleus thermophilus) 2200 (Methanoculleus thermophilus) 316 321 7msu-a1-m1-cA_7msu-a1-m2-cA IDLLIVEVVLFIAALLFSGFFSSSEVALISITRAKVHALQSQGRKGAKALDTLKRSTDAIQITTLIGSTIANVAVASLATAIGITLYGNLGIAVGLVVAAVLVLVFGEIGPKMYASRYTEELALRVSRPILFFSKLLYPVLWVTDRIEQQFVTEPVVTEEEIKEWIDVGEEEGTIEEEERDMLYSVLRFGDTTAREVMTPRVDVVMIEDTATLESALAIFNETGFSRIPVYHERIDNIVGLLNVKDVFSAQTSATIRDLMYEPYFIPESKKIDELLKELQVKKQHMAVVLDEYGSFAGIVTVEDMLEELVLEHHHH DLLIVEVVLFIAALLFSGFFSSSEVALISITRAKVHALQSQGRKGAKALDTLKRSTDAIQITTLIGSTIANVAVASLATAIGITLYGNLGIAVGLVVAAVLVLVFGEIGPKMYASRYTEELALRVSRPILFFSKLLYPVLWVTDRIEQQFAFRPGVTEPVVTEEEIKEWIDVGEEEGTIEEEERDMLYSVLRFGDTTAREVMTPRVDVVMIEDTATLESALAIFNETGFSRIPVYHERIDNIVGLLNVKDVFSAQTSATIRDLMYEPYFIPESKKIDELLKELQVKKQHMAVVLDEYGSFAGIVTVEDMLEELVLEHHHHH 7m1u-a1-m1-cB_7m1u-a1-m1-cA Crystal structure of an archaeal CNNM, MtCorB, R235L mutant with C-terminal deletion A0A1G8XA46 A0A1G8XA46 3.8 X-RAY DIFFRACTION 202 0.997 2200 (Methanoculleus thermophilus) 2200 (Methanoculleus thermophilus) 300 311 MVVIDLLIVEVVLFIAALLFSGFFSSSEVALISITRAKVHALQSQAKALDTLKRSTDAIQITTLIGSTIANVAVASLATAIGITLYGNLGIAVGLVVAAVLVLVFGEIGPKMYASRYTEELALRVSRPILFFSKLLYPVLWVTDEIKEWIDVGEEEGTIEEEERDMLYSVLRFGDTTAREVMTPRVDVVMIEDTATLESALAIFNETGFSLIPVYHERIDNIVGLLNVKDVFSAVFRQQTSATIRDLMYEPYFIPESKKIDELLKELQVKKQHMAVVLDEYGSFAGIVTVEDMLEELVHH VVIDLLIVEVVLFIAALLFSGFFSSSEVALISITRAKVHALQSQGRKGAKALDTLKRSTDAIQITTLIGSTIANVAVASLATAIGITLYGNLGIAVGLVVAAVLVLVFGEIGPKMYASRYTEELALRVSRPILFFSKLLYPVLWVTDRIEVVTEEEIKEWIDVGEEEGTIEEEERDMLYSVLRFGDTTAREVMTPRVDVVMIEDTATLESALAIFNETGFSLIPVYHERIDNIVGLLNVKDVFSAVFRQQTSATIRDLMYEPYFIPESKKIDELLKELQVKKQHMAVVLDEYGSFAGIVTVEDMLEELVHH 7m1v-a1-m1-cB_7m1v-a1-m1-cA Structure of Zika virus NS2b-NS3 protease mutant binding the compound NSC86314 in the super-open conformation A0A024B7W1 A0A024B7W1 1.6 X-RAY DIFFRACTION 53 1.0 64320 (Zika virus) 64320 (Zika virus) 163 166 SSVDMYIERAGDITWEKDAEVTTTDGVYRVMTRRTSGSTQVGVGVMQEGVFHTMWHVTKGSALRSGEGRLDPYWGDVKQDLVSYSGPWKLDACWDGHSEVQLLAVPPGERARNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKSGRVIGLYGNGVVICN LGSSVDMYIERAGDITWEKDAEVTTTDGVYRVMTRRTSGSTQVGVGVMQEGVFHTMWHVTKGSALRSGEGRLDPYWGDVKQDLVSYSGPWKLDACWDGHSEVQLLAVPPGERARNIQTLPGIFKTKDGDIGAVALDYPAGTSGSPILDKSGRVIGLYGNGVVICNG 7m2w-a1-m1-cU_7m2w-a1-m1-cK Engineered disulfide cross-linked closed conformation of the Yeast gamma-TuRC(SS) P32380 P32380 3.0 ELECTRON MICROSCOPY 57 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 42 95 EIKSLKHEIKELRKEKNDTLNNYDTLEEETDDLKNRLQALEK DVPMSQPLKEQEVREHQMKKERFDRALESKLLGKRHITYANSDISNKELYINEIKSLKHEIKELRKEKNDTLNNYDTLEEETDDLKNRLQALEKE 7m2w-a1-m1-cX_7m2w-a1-m1-cY Engineered disulfide cross-linked closed conformation of the Yeast gamma-TuRC(SS) P32380 P32380 3.0 ELECTRON MICROSCOPY 61 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 42 95 EIKSLKHEIKELRKEKNDTLNNYDTLEEETDDLKNRLQALEK DVPMSQPLKEQEVREHQMKKERFDRALESKLLGKRHITYANSDISNKELYINEIKSLKHEIKELRKEKNDTLNNYDTLEEETDDLKNRLQALEKE 7m3k-a1-m1-cA_7m3k-a1-m4-cA Crystal Structure of Galactonate dehydratase from Brucella melitensis biovar Abortus 2308 Q2YJ21 Q2YJ21 2.3 X-RAY DIFFRACTION 44 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 587 587 7m3k-a1-m2-cA_7m3k-a1-m3-cA KLRSRAWFDNPDDVDMTALYLERYMNYGLSQEELQSGRPIIGIAQTGSDLSPCNRHHLELAKRVRDGVREAGGIVIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVAYLMGRRIVEMVHEDLKPSDILTKEAFINAIRVNSAIGGSTNAPIHLNALARHIGVELTVDDWQKYGEEIPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMGQGLIHEDAITVNGKTIGENCKNATIEDGNVIKTYDQPLKKHAGFRVLRGNLFSSAIMKLSVISDEFRNRYLSDAKDPNAFEGKAVVFDGPEDYHHRIDDPALEIDEHTVLFMRGAGPIGYPGAAEVVNMRAPDYLLKKGITSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILKTGDRVRIDLGRGTADILISDEELAERRKALEAVGGYKYPESQTPWQEIQRAVIGQMETGAVLENAVKYQDIAHTRGLP KLRSRAWFDNPDDVDMTALYLERYMNYGLSQEELQSGRPIIGIAQTGSDLSPCNRHHLELAKRVRDGVREAGGIVIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVAYLMGRRIVEMVHEDLKPSDILTKEAFINAIRVNSAIGGSTNAPIHLNALARHIGVELTVDDWQKYGEEIPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMGQGLIHEDAITVNGKTIGENCKNATIEDGNVIKTYDQPLKKHAGFRVLRGNLFSSAIMKLSVISDEFRNRYLSDAKDPNAFEGKAVVFDGPEDYHHRIDDPALEIDEHTVLFMRGAGPIGYPGAAEVVNMRAPDYLLKKGITSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILKTGDRVRIDLGRGTADILISDEELAERRKALEAVGGYKYPESQTPWQEIQRAVIGQMETGAVLENAVKYQDIAHTRGLP 7m3k-a1-m2-cA_7m3k-a1-m4-cA Crystal Structure of Galactonate dehydratase from Brucella melitensis biovar Abortus 2308 Q2YJ21 Q2YJ21 2.3 X-RAY DIFFRACTION 35 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 587 587 7m3k-a1-m1-cA_7m3k-a1-m3-cA KLRSRAWFDNPDDVDMTALYLERYMNYGLSQEELQSGRPIIGIAQTGSDLSPCNRHHLELAKRVRDGVREAGGIVIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVAYLMGRRIVEMVHEDLKPSDILTKEAFINAIRVNSAIGGSTNAPIHLNALARHIGVELTVDDWQKYGEEIPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMGQGLIHEDAITVNGKTIGENCKNATIEDGNVIKTYDQPLKKHAGFRVLRGNLFSSAIMKLSVISDEFRNRYLSDAKDPNAFEGKAVVFDGPEDYHHRIDDPALEIDEHTVLFMRGAGPIGYPGAAEVVNMRAPDYLLKKGITSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILKTGDRVRIDLGRGTADILISDEELAERRKALEAVGGYKYPESQTPWQEIQRAVIGQMETGAVLENAVKYQDIAHTRGLP KLRSRAWFDNPDDVDMTALYLERYMNYGLSQEELQSGRPIIGIAQTGSDLSPCNRHHLELAKRVRDGVREAGGIVIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVAYLMGRRIVEMVHEDLKPSDILTKEAFINAIRVNSAIGGSTNAPIHLNALARHIGVELTVDDWQKYGEEIPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMGQGLIHEDAITVNGKTIGENCKNATIEDGNVIKTYDQPLKKHAGFRVLRGNLFSSAIMKLSVISDEFRNRYLSDAKDPNAFEGKAVVFDGPEDYHHRIDDPALEIDEHTVLFMRGAGPIGYPGAAEVVNMRAPDYLLKKGITSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILKTGDRVRIDLGRGTADILISDEELAERRKALEAVGGYKYPESQTPWQEIQRAVIGQMETGAVLENAVKYQDIAHTRGLP 7m3k-a1-m3-cA_7m3k-a1-m4-cA Crystal Structure of Galactonate dehydratase from Brucella melitensis biovar Abortus 2308 Q2YJ21 Q2YJ21 2.3 X-RAY DIFFRACTION 237 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 587 587 7m3k-a1-m1-cA_7m3k-a1-m2-cA KLRSRAWFDNPDDVDMTALYLERYMNYGLSQEELQSGRPIIGIAQTGSDLSPCNRHHLELAKRVRDGVREAGGIVIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVAYLMGRRIVEMVHEDLKPSDILTKEAFINAIRVNSAIGGSTNAPIHLNALARHIGVELTVDDWQKYGEEIPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMGQGLIHEDAITVNGKTIGENCKNATIEDGNVIKTYDQPLKKHAGFRVLRGNLFSSAIMKLSVISDEFRNRYLSDAKDPNAFEGKAVVFDGPEDYHHRIDDPALEIDEHTVLFMRGAGPIGYPGAAEVVNMRAPDYLLKKGITSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILKTGDRVRIDLGRGTADILISDEELAERRKALEAVGGYKYPESQTPWQEIQRAVIGQMETGAVLENAVKYQDIAHTRGLP KLRSRAWFDNPDDVDMTALYLERYMNYGLSQEELQSGRPIIGIAQTGSDLSPCNRHHLELAKRVRDGVREAGGIVIEFPVHPIQETGKRPTAGLDRNLAYLGLVEVLYGYPLDGVVLTIGCDKTTPACLMAAATVNIPAIALSVGPMLNGWFRGERTGSGTIVWKARELLAKGEIDYQGFVKLVASSAPSTGYCNTMGTATTMNSLAEALGMQLPGSAAIPAPYRDRQEVAYLMGRRIVEMVHEDLKPSDILTKEAFINAIRVNSAIGGSTNAPIHLNALARHIGVELTVDDWQKYGEEIPLLVNLQPAGEYLGEDYYHAGGVPAVVNQLMGQGLIHEDAITVNGKTIGENCKNATIEDGNVIKTYDQPLKKHAGFRVLRGNLFSSAIMKLSVISDEFRNRYLSDAKDPNAFEGKAVVFDGPEDYHHRIDDPALEIDEHTVLFMRGAGPIGYPGAAEVVNMRAPDYLLKKGITSLPCIGDGRQSGTSGSPSILNASPEAAAGGGLAILKTGDRVRIDLGRGTADILISDEELAERRKALEAVGGYKYPESQTPWQEIQRAVIGQMETGAVLENAVKYQDIAHTRGLP 7m3p-a1-m1-cB_7m3p-a1-m1-cA Xrcc4-Spc110p(164-207) fusion P32380 P32380 2.00002 X-RAY DIFFRACTION 105 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 164 168 RKISRIHLVSEPSITHFLQVSWTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDEIKSLKHEIKELRKEKNDTLNNYDTLEEETDDLKNRLQALEK GERKISRIHLVSEPSITHFLQVSWEKTLESGFVITLTDGHSAWTGTVSESEISQEADDMAMEKGKYVGELRKALLSVYTFNFSKESCYFFFEKNLKDVSFRLGSFNLEKVENPAEVIRELICYCLDEIKSLKHEIKELRKEKNDTLNNYDTLEEETDDLKNRLQALEK 7m4p-a1-m1-cC_7m4p-a1-m1-cA Multidrug Efflux pump AdeJ with Eravacycline bound Q2FD94 Q2FD94 2.86 ELECTRON MICROSCOPY 195 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 1046 1049 7m4p-a1-m1-cB_7m4p-a1-m1-cA 7m4p-a1-m1-cC_7m4p-a1-m1-cB 7m4q-a1-m1-cB_7m4q-a1-m1-cA 7m4q-a1-m1-cC_7m4q-a1-m1-cA 7m4q-a1-m1-cC_7m4q-a1-m1-cB 7ry3-a1-m1-cA_7ry3-a1-m1-cC 7ry3-a1-m1-cB_7ry3-a1-m1-cA 7ry3-a1-m1-cB_7ry3-a1-m1-cC MAQFFIHRPIFAWVIALVIMLAGILTLTKMPIAQYPTIAPPTVTIAATYPGASAETVENTVTQIIEQQMNGLDGLRYISSNSAGNGQASIQLNFEQGVDPDIAQVQVQNKLQSATALLPEDVQRQGVTVTKSGASFLQVIAFYSPDNNLSDSDIKDYVNSSIKEPLSRVAGVGEVQVFGGSYAMRIWLDPAKLTSYQLTPSDIATALQAQNSQVAVGQLGGAPAVQGQVLNATVNAQSLLQTPEQFKNIFLKNTASGAEVRLKDVARVELGSDNYQFDSKFNGKPAAGLAIKIATGANALDTAEAVEQRLSELRKNYPTGLADKLAYDTTPFIRLSIESVVHTLIEAVILVFIVMFLFLQNWRATIIPTLAVPVVVLGTFAVINIFGFSINTLTMFAMVLAIGLLVDDAIVVVENVERVMSEDHTDPVTATSRSMQQISGALVGITSVLTAVFVPMAFFGGTTGVIYRQFSITLVTAMVLSLIVALTFTPALCATILKQHDPNKEPSNNIFARFFRSFNNGFDRMSHSYQNGVSRMLKGKIFSGVLYAVVVALLVFLFQKLPSSFLPEEDQGVVMTLVQLPPNATLDRTGKVIDTMTNFFMNEKDTVESIFTVSGFSFTGVGQNAGIGFVKLKDWSKRTTPETQIGSLIQRGMALNMIIKDASYVMPLQLPAMPELGVTAGFNLQLKDSSGQGHEKLIAARNTILGLASQDKRLVGVRPNGQEDTPQYQINVDQAQAGAMGVSIAEINNTMRIAWGGSYINDFVDRGRVKKVYVQGDAGSRMMPEDLNKWYVRNNKGEMVPFSAFATGEWTYGSPRLERYNGVSSVNIQGTPAPGVSSGDAMKAMEEIIGKLPSMGLQGFDYEWTGLSLEERESGAQAPFLYALSLLIVFLCLAALYESWSIPFSVLLVVPLGVIGAIVLTYLGMIIKGDPNLSNNIYFQVAIIAVIGLSAKNAILIVEFAKELQEKGEDLLDATLHAAKMRLRPIIMTTLAFGFGVLPLALSTGAGAGSQHSVGFGVLGGVLSATFLGIFFIPVFYVWIRSIFKY MAQFFIHRPIFAWVIALVIMLAGILTLTKMPIAQYPTIAPPTVTIAATYPGASAETVENTVTQIIEQQMNGLDGLRYISSNSAGNGQASIQLNFEQGVDPDIAQVQVQNKLQSATALLPEDVQRQGVTVTKSGASFLQVIAFYSPDNNLSDSDIKDYVNSSIKEPLSRVAGVGEVQVFGGSYAMRIWLDPAKLTSYQLTPSDIATALQAQNSQVAVGQLGGAPAVQGQVLNATVNAQSLLQTPEQFKNIFLKNTASGAEVRLKDVARVELGSDNYQFDSKFNGKPAAGLAIKIATGANALDTAEAVEQRLSELRKNYPTGLADKLAYDTTPFIRLSIESVVHTLIEAVILVFIVMFLFLQNWRATIIPTLAVPVVVLGTFAVINIFGFSINTLTMFAMVLAIGLLVDDAIVVVENVERVMSEDHTDPVTATSRSMQQISGALVGITSVLTAVFVPMAFFGGTTGVIYRQFSITLVTAMVLSLIVALTFTPALCATILKQHDPNKEPSNNIFARFFRSFNNGFDRMSHSYQNGVSRMLKGKIFSGVLYAVVVALLVFLFQKLPSSFLPEEDQGVVMTLVQLPPNATLDRTGKVIDTMTNFFMNEKDTVESIFTVSGFSFTGVGQNAGIGFVKLKDWSKRTTPETQIGSLIQRGMALNMIIKDASYVMPLQLPAMPELGVTAGFNLQLKDSSGQGHEKLIAARNTILGLASQDKRLVGVRPNGQEDTPQYQINVDQAQAGAMGVSIAEINNTMRIAWGGSYINDFVDRGRVKKVYVQGDAGSRMMPEDLNKWYVRNNKGEMVPFSAFATGEWTYGSPRLERYNGVSSVNIQGTPAPGVSSGDAMKAMEEIIGKLPSMGLQGFDYEWTGLSLEERESGAQAPFLYALSLLIVFLCLAALYESWSIPFSVLLVVPLGVIGAIVLTYLGMIIKGDPNLSNNIYFQVAIIAVIGLSAKNAILIVEFAKELQEKGEDLLDATLHAAKMRLRPIIMTTLAFGFGVLPLALSTGAGAGSQHSVGFGVLGGVLSATFLGIFFIPVFYVWIRSIFKYKPK 7m4r-a1-m1-cB_7m4r-a1-m1-cA Structural basis for SARS-CoV-2 envelope protein in recognition of human cell junction protein PALS1 Q8N3R9 Q8N3R9 3.65 ELECTRON MICROSCOPY 65 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 270 360 TVIHVKAHFDYDPSDDPYVPCRELGLSFQKGDILHVISQEDPNWWQAYREGDEDNQPLAGLVPGKEEILTYEEMSLYHQPANRKRPIILIGPQNCGQNELRQRLMNKEKDRFASAVPHTTRSRRDQEVAGRDYHFVSRQAFEADIAAGKFIEHGEFEKNLYGTSIDSVRQVINSGKICLLSLRTQSLKTLRNSDLKPYIIFIAPPSQERLRALLELREIIEKTREMEQNNGHYFDTAIVNSDLDKAYQELLRLINKLDTEPQWVPSTWLR QYGGETVKIVRIEKARDIPLGATVRNEMDSVIISRIVKGGAAEKSGLLHEGDEVLEINGIEIRGKDVNEVFDLLSDMHGTLTFVLIPSQETVIHVKAHFDYDPSDDPYVPCRELGLSFQKGDILHVISQEDPNWWQAYREGDEDNQPLAGLVPGKEEILTYEEMSLYHQPANRKRPIILIGPQNCGQNELRQRLMNKEKDRFASAVPHTTRSRRDQEVAGRDYHFVSRQAFEADIAAGKFIEHGEFEKNLYGTSIDSVRQVINSGKICLLSLRTQSLKTLRNSDLKPYIIFIAPPSQERLRALLELREIIEKTREMEQNNGHYFDTAIVNSDLDKAYQELLRLINKLDTEPQWVPSTWLR 7m4s-a2-m1-cC_7m4s-a2-m1-cB Crystal structure of macrocyclase AMdnB from Anabaena sp. PCC 7120 Q8YLC3 Q8YLC3 2.493 X-RAY DIFFRACTION 189 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 297 314 7m4s-a1-m1-cD_7m4s-a1-m1-cA LQRDVVLLITHSGDYFTIDRVAAALSRRNVQSFRLDTDKFPMTVKIQAYFHQSNSHHQIEYGDITLNTEQVQAVWMRRLWQPHLSPELAPQYRDACTKESLAVWDGFWDSLRHAHWVDDLQKINAAENKLYQLRVAAEVGLVIPPTLVTNNPKEAREFFEQVNGKMITKLLKPLSYEDLLDAETLRYCPMVFQAQIPKQQELRAVYVNGNLFVGALDASANQESCTWQPYELPKEIIQHLDQFMARLGLTFGAFDFIVTPLEEYVFLEINPTGEWGMLERDLNYPISEAIADSLIQN LQRDVVLLITHSGDYFTIDRVAAALSRRNVQSFRLDTDKFPMTVKIQAYFHQSNSHHQIEYGDITLNTEQVQAVWMRRLWQPHLSPELAPQYRDACTKESLAVWDGFWDSLRHAHWVDDLQKINAAENKLYQLRVAAEVGLVIPPTLVTNNPKEAREFFEQVNGKMITKLLKPLSYSMEGSSFFMYTSTVKEEDLLDAETLRYCPMVFQAQIPKQQELRAVYVNGNLFVGALDASRANQESCTWQPYELPKEIIQHLDQFMARLGLTFGAFDFIVTPLEEYVFLEINPTGEWGMLERDLNYPISEAIADSLIQN 7m58-a1-m1-cB_7m58-a1-m1-cC Crystal structure of N1, a member of cis-3-chloroacrylic acid dehalogenase (cis-CaaD) family M1NLA4 M1NLA4 2.45 X-RAY DIFFRACTION 95 1.0 1121362 (Corynebacterium halotolerans YIM 70093 = DSM 44683) 1121362 (Corynebacterium halotolerans YIM 70093 = DSM 44683) 143 143 7m58-a1-m1-cA_7m58-a1-m1-cB 7m58-a1-m1-cA_7m58-a1-m1-cC PSYAVSSRAGLIDQERRAAVADLLTTLHRDIAVAPRYLVQVIFNDLDAGALFLAGREAPEGHVWIHADIRSGRTAQQKTDLLEQITSKVADVLELPPEHVWVYVNEIPGENMTEYGKLLPEPGKEEEWFATLPQSLQEELSDL PSYAVSSRAGLIDQERRAAVADLLTTLHRDIAVAPRYLVQVIFNDLDAGALFLAGREAPEGHVWIHADIRSGRTAQQKTDLLEQITSKVADVLELPPEHVWVYVNEIPGENMTEYGKLLPEPGKEEEWFATLPQSLQEELSDL 7m59-a1-m2-cB_7m59-a1-m3-cB Crystal structure of N2, a member of 4-oxalocrotonate tautomerase (4-OT) family A0A0S8FF56 A0A0S8FF56 1.65 X-RAY DIFFRACTION 45 1.0 1703405 (Gammaproteobacteria bacterium SG8_31) 1703405 (Gammaproteobacteria bacterium SG8_31) 64 64 7m59-a1-m1-cA_7m59-a1-m2-cA 7m59-a1-m1-cA_7m59-a1-m3-cA 7m59-a1-m1-cB_7m59-a1-m2-cB 7m59-a1-m1-cB_7m59-a1-m3-cB 7m59-a1-m2-cA_7m59-a1-m3-cA PVIQCDIRQGRTAEQKQAMAEAITRAVHETIGAPVEYIYVLIRETPGAHHVKAGRTLPEYTGDG PVIQCDIRQGRTAEQKQAMAEAITRAVHETIGAPVEYIYVLIRETPGAHHVKAGRTLPEYTGDG 7m59-a1-m3-cA_7m59-a1-m3-cB Crystal structure of N2, a member of 4-oxalocrotonate tautomerase (4-OT) family A0A0S8FF56 A0A0S8FF56 1.65 X-RAY DIFFRACTION 92 1.0 1703405 (Gammaproteobacteria bacterium SG8_31) 1703405 (Gammaproteobacteria bacterium SG8_31) 64 64 7m59-a1-m1-cA_7m59-a1-m1-cB 7m59-a1-m2-cA_7m59-a1-m2-cB PVIQCDIRQGRTAEQKQAMAEAITRAVHETIGAPVEYIYVLIRETPGAHHVKAGRTLPEYTGDG PVIQCDIRQGRTAEQKQAMAEAITRAVHETIGAPVEYIYVLIRETPGAHHVKAGRTLPEYTGDG 7m5c-a4-m1-cH_7m5c-a4-m1-cG Crystal Structure of human BAK in complex with WT BAK BH3 peptide Q16611 Q16611 3.06 X-RAY DIFFRACTION 70 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 22 139 SSTMGQVGRQLAIIGDDINRRY SEEQVAQDTEEVFRSYVFYRHQQEPSSTMGQVGRQLAIIGDDINRRYDSEFQTMLQHLQPTAENAYEYFTKIATSLFESGINWGRVVALLGFGYRLALHVYQHGLTGFLGQVTRFVVDFMLHHSIARWIAQRGGWVAAL 7m5h-a1-m1-cA_7m5h-a1-m2-cB Crystal structure of conserved protein from Enterococcus faecalis V583 Q831Y8 Q831Y8 2.15 X-RAY DIFFRACTION 71 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 156 157 7m5h-a1-m2-cA_7m5h-a1-m1-cB TKIYFAGPLFSQADLRYNAYLVEQIRQLDKTIDLYLPQENAAINDKSAYADSKIALADTENVLASDLLVALLDGPTIDAGVASEIGVAYAKGIPVVALYTDSRQQGADNHQKLDALNEIAENQFHYLNLYTVGLIKLNGRVVSSEEDLLEEIKQRL ATKIYFAGPLFSQADLRYNAYLVEQIRQLDKTIDLYLPQENAAINDKSAYADSKIALADTENVLASDLLVALLDGPTIDAGVASEIGVAYAKGIPVVALYTDSRQQGADNHQKLDALNEIAENQFHYLNLYTVGLIKLNGRVVSSEEDLLEEIKQRL 7m5h-a1-m1-cB_7m5h-a1-m2-cB Crystal structure of conserved protein from Enterococcus faecalis V583 Q831Y8 Q831Y8 2.15 X-RAY DIFFRACTION 111 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 157 157 7m5h-a1-m1-cA_7m5h-a1-m2-cA ATKIYFAGPLFSQADLRYNAYLVEQIRQLDKTIDLYLPQENAAINDKSAYADSKIALADTENVLASDLLVALLDGPTIDAGVASEIGVAYAKGIPVVALYTDSRQQGADNHQKLDALNEIAENQFHYLNLYTVGLIKLNGRVVSSEEDLLEEIKQRL ATKIYFAGPLFSQADLRYNAYLVEQIRQLDKTIDLYLPQENAAINDKSAYADSKIALADTENVLASDLLVALLDGPTIDAGVASEIGVAYAKGIPVVALYTDSRQQGADNHQKLDALNEIAENQFHYLNLYTVGLIKLNGRVVSSEEDLLEEIKQRL 7m5h-a1-m2-cA_7m5h-a1-m2-cB Crystal structure of conserved protein from Enterococcus faecalis V583 Q831Y8 Q831Y8 2.15 X-RAY DIFFRACTION 119 1.0 226185 (Enterococcus faecalis V583) 226185 (Enterococcus faecalis V583) 156 157 7m5h-a1-m1-cA_7m5h-a1-m1-cB TKIYFAGPLFSQADLRYNAYLVEQIRQLDKTIDLYLPQENAAINDKSAYADSKIALADTENVLASDLLVALLDGPTIDAGVASEIGVAYAKGIPVVALYTDSRQQGADNHQKLDALNEIAENQFHYLNLYTVGLIKLNGRVVSSEEDLLEEIKQRL ATKIYFAGPLFSQADLRYNAYLVEQIRQLDKTIDLYLPQENAAINDKSAYADSKIALADTENVLASDLLVALLDGPTIDAGVASEIGVAYAKGIPVVALYTDSRQQGADNHQKLDALNEIAENQFHYLNLYTVGLIKLNGRVVSSEEDLLEEIKQRL 7m66-a2-m1-cD_7m66-a2-m1-cC Targeting Enterococcus faecalis HMG-CoA reductase with a novel non-statin inhibitor A0A4U3MLJ4 A0A4U3MLJ4 2.25 X-RAY DIFFRACTION 368 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 357 360 7m1z-a1-m1-cA_7m1z-a1-m1-cB 7m1z-a2-m1-cD_7m1z-a2-m1-cC 7m3h-a1-m1-cA_7m3h-a1-m1-cB 7m66-a1-m1-cA_7m66-a1-m1-cB RFYQMSPEERLASLLNEGQISADTKKEFENTALSSQIANHMIENQISETEVPMGVGLHLTVDETDYLVPMATEEPSVIAALSNGAKIAQGFKTVNQQRLMRGQIVFYDVADPESLIDKLQVREAEIFQQAELSYPSIVKRGGGLRDLQYRAFDESFVSVDFLVDVKDAMGANIVNAMLEGVAELFREWFAEQKILFSILSNYATESVVTMKTAIPVSRLSKGSNGREIAEKIVLASRYASLDPYRAVTHNKGIMNGIEAVVLATGNDTRAVSASCHAFAVKEGRYQGLTSWTLDGEQLIGEISVPLALATVGGATKVLPKSQAAADLLAVTDAKELSRVVAAVGLAQNLAALRALVS NSRFYQMSPEERLASLLNEGQISADTKKEFENTALSSQIANHMIENQISETEVPMGVGLHLTVDETDYLVPMATEEPSVIAALSNGAKIAQGFKTVNQQRLMRGQIVFYDVADPESLIDKLQVREAEIFQQAELSYPSIVKRGGGLRDLQYRAFDESFVSVDFLVDVKDAMGANIVNAMLEGVAELFREWFAEQKILFSILSNYATESVVTMKTAIPVSRLSKGSNGREIAEKIVLASRYASLDPYRAVTHNKGIMNGIEAVVLATGNDTRAVSASCHAFAVKEGRYQGLTSWTLDGEQLIGEISVPLALATVGGATKVLPKSQAAADLLAVTDAKELSRVVAAVGLAQNLAALRALVSE 7m6a-a1-m1-cG_7m6a-a1-m1-cI High resolution structure of the membrane embedded skeletal muscle ryanodine receptor P11716 P11716 3.36 ELECTRON MICROSCOPY 223 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 4306 4306 7m6a-a1-m1-cA_7m6a-a1-m1-cB 7m6a-a1-m1-cA_7m6a-a1-m1-cG 7m6a-a1-m1-cB_7m6a-a1-m1-cI VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPPDQEPSQVENQSRWDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRCTNRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRRHGLPGVGVTTSLRPPHHFSPPCFVAALAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLGKDGALVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAGALPPDYVDASYSSKAEKNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRSSIEKRFAFGFLQQLLRWMDISQEFIAHLEAVVSSGRVEKSPHEQEIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVVNCLHILARSLDARTVMKSGPEIVKAGLRSFFESASEDIEKMVENLRLGKGVGQNLTYTTVALLPVLTTLFQHIAQHQFGDDVILDDVQVSCYRTLCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGGLAESGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSFLTYSVQTSLIVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYKSLSKQRRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVIEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPPDQEPSQVENQSRWDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRCTNRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRRHGLPGVGVTTSLRPPHHFSPPCFVAALAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLGKDGALVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAGALPPDYVDASYSSKAEKNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRSSIEKRFAFGFLQQLLRWMDISQEFIAHLEAVVSSGRVEKSPHEQEIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVVNCLHILARSLDARTVMKSGPEIVKAGLRSFFESASEDIEKMVENLRLGKGVGQNLTYTTVALLPVLTTLFQHIAQHQFGDDVILDDVQVSCYRTLCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGGLAESGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSFLTYSVQTSLIVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYKSLSKQRRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVIEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 7m6i-a1-m1-cB_7m6i-a1-m1-cC Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, BG1-24 P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 292 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1001 1001 7k8t-a1-m1-cA_7k8t-a1-m1-cB 7k8t-a1-m1-cA_7k8t-a1-m1-cC 7k8t-a1-m1-cB_7k8t-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7m6i-a1-m1-cC_7m6i-a1-m1-cA Structure of the SARS-CoV-2 S 2P trimer in complex with the human neutralizing antibody Fab fragment, BG1-24 P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 302 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1001 1002 7m6i-a1-m1-cB_7m6i-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7m6l-a1-m1-cG_7m6l-a1-m1-cI High resolution structure of the membrane embedded skeletal muscle ryanodine receptor P11716 P11716 3.98 ELECTRON MICROSCOPY 163 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 4299 4299 7m6l-a1-m1-cA_7m6l-a1-m1-cB 7m6l-a1-m1-cA_7m6l-a1-m1-cG 7m6l-a1-m1-cB_7m6l-a1-m1-cI VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPPDQEPSQVENQSRWDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRCTNRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRRHGLPGVGVTTSLRPPHHFSPPCFVAALAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLGKDGALVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAGALPPDYVDASYSSKAEKNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRSSIEKRFAFGFLQQLLRWMDISQEFIAHLEAVVSSGRVEKSPHEQEIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVVNCLHILARSLDARTVMKSGPEIVKAGLRSFFESASEDIEKMVENLRLGKGVGQNLTYTTVALLPVLTTLFQHIAQHQFGDDVILDDVQVSCYRTLCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGGLAESGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSFLTYSVQTSLIVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYKSVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVIEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGHMDECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEKLPKRDVEGMGPPEIKYGESLCFVQHVASGLWLTYAAPDPKALRLGVLKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRGSGPPAGPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPCPVDTVQIVLPPHLERIREKLAENIHELWALTRIEQGWTYGPVRDDNKRLHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPPDQEPSQVENQSRWDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRCTNRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVRISHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPGRRHGLPGVGVTTSLRPPHHFSPPCFVAALAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDEADEEDCPLPEDIRQDLQDFHQDLLAHCGIPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDGPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPTLGKDGALVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAGALPPDYVDASYSSKAEKNFDPRPVETLNVIIPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRSSIEKRFAFGFLQQLLRWMDISQEFIAHLEAVVSSGRVEKSPHEQEIKFFAKILLPLINQYFTNHCLYFLSTPAKVLGSGGHASNKEKEMITSLFCKLAALVRHRVSLFGTDAPAVVNCLHILARSLDARTVMKSGPEIVKAGLRSFFESASEDIEKMVENLRLGKGVGQNLTYTTVALLPVLTTLFQHIAQHQFGDDVILDDVQVSCYRTLCSIYSLGTTKNTYVEKLRPALGECLARLAAAMPVAFLEPQLNEYNACSVYTTKSPRERAILGLPNSVEEMCPDIPVLDRLMADIGGLAESGARYTEMPHVIEITLPMLCSYLPRWWERGPEAPPPALPAGAPPPCTAVTSDHLNSLLGNILRIIVNNLGIDEATWMKRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEINNMSFLTYSVQTSLIVATLKKMLPIGLNMCAPTDQDLIMLAKTRYALKDTDEEVREFLQNNLHLQGKVEGSPSLRWQMALYRGLPGREEDADDPEKIVRRVQEVSAVLYHLEQTEHPYKSVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGEKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVIEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISEFWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERKPDPPPGLLTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 7m7g-a1-m1-cA_7m7g-a1-m1-cB 6-Deoxyerythronolide B synthase (DEBS) module 1 in complex with antibody fragment 1B2: State 2 Q03133 Q03133 4.1 ELECTRON MICROSCOPY 363 0.999 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 1356 1379 MASTDSEKVAEYLRRATLDLRAARQRIRELEGEPVAVVAMACRLPGGVSTPEEFWELLSEGRDAVAGLPTDRGWDLDSLFHPDPTRSGTAHQRGGGFLTEATAFDPAFFGMSPREALAVDPQQRLMLELSWEVLERAGIPPTSLQASPTGVFVGLIPQEYGPRLAEGGEGVEGYLMTGTTTSVASGRIAYTLGLEGPAISVDTACSSSLVAVHLACQSLRRGESSLAMAGGVTVMPTPGMLVDFSRMNSLAPDGRCKAFSAGANGFGMAEGAGMLLLERLSDARRNGHPVLAVLRGTAVNSDGASNGLSAPNGRAQVRVIQQALAESGLGPADIDAVEAHGTGTRLGDPIEARALFEAYGRDREQPLHLGSVKSNLGHTQAAAGVAGVIKMVLAMRAGTLPRTLHASERSKEIDWSSGAISLLDEPEPWPAGARPRRAGVSSFGISGTNAHAIIEEAPQVVEGERVEAGDVVAPWVLSASSAEGLRAQAARLAAHLREHPGQDPRDIAYSLATGRAALPHRAAFAPVDESAALRVLDGLATGNADGAAVGTSRAQQRAVFVFPGQGWQWAGMAVDLLDTSPVFAAALRECADALEPHLDFEVIPFLRAEAARREQDAALSTERVDVVQPVMFAVMVSLASMWRAHGVEPAAVIGHSQGEIAAACVAARVVALRSRVIATMPGNKGMASIAAPAGEVRARIGDRVEIAAVNGPRSVVVAGDSDELDRLVASCTTECIRAKRLAVDYASHSSHVETIRDALFFSTVTGRWTQPDELDAGYWYRNLRRTVRFADAVRALAEQGYRTFLEVSAHPILTAAIEEIGDGSGADLSAIHSLRRGDGSLADFGEALSRAFAAGVAVDWESVHLGTGARRVPLPTYPFQRERVWLEPKPVARRSTEVDEVSALRYRIEWRPTGAGEPARLDGTWLVAKYAGTADETSTAAREALESAGARVRELVVDARCGRDELAERLRSVGEVAGVLSLLAVDEAEPEEAPLALASLADTLSLVQAMVSAELGCPLWTVTESAVATGPFERVRNAAHGALWGVGRVIALENPAVWGGLVDVPAGSVAELARHLAAVVSGGAGEDQLALRADGVYGRRWEWKPTGTVLVTGGTGGVGGQIARWLARRGAPHLLLVSRSGPDADGAGELVAELEALGARTTVAACDVTDRESVRELLGGIGDDVPLSAVFHAAATLDDGTVDTLTGERIERASRAKVLGARNLHELTRELDLTAFVLFSSFASAFGAPGLGGYAPGNAYLDGLAQQRRSDGLPATAVAWGTWAGSGMAEGPVADRFRRHGVIEMPPETACRALQNALDRAEVCPIVIDVRWDRFLLAYTAQRPTRLFDEIDDARR MASTDSEKVAEYLRRATLDLRAARQRIRELEGEPVAVVAMACRLPGGVSTPEEFWELLSEGRDAVAGLPTDRGWDLDSLFHPDPTRSGTAHQRGGGFLTEATAFDPAFFGMSPREALAVDPQQRLMLELSWEVLERAGIPPTSLQASPTGVFVGLIPQEYGPRLAEGGEGVEGYLMTGTTTSVASGRIAYTLGLEGPAISVDTACSSSLVAVHLACQSLRRGESSLAMAGGVTVMPTPGMLVDFSRMNSLAPDGRCKAFSAGANGFGMAEGAGMLLLERLSDARRNGHPVLAVLRGTAVNSDGASNGLSAPNGRAQVRVIQQALAESGLGPADIDAVEAHGTGTRLGDPIEARALFEAYGRDREQPLHLGSVKSNLGHTQAAAGVAGVIKMVLAMRAGTLPRTLHASERSKEIDWSSGAISLLDEPEPWPAGARPRRAGVSSFGISGTNAHAIIEEAPQVVEGERVEAGDVVAPWVLSASSAEGLRAQAARLAAHLREHPGQDPRDIAYSLATGRAALPHRAAFAPVDESAALRVLDGLATGNADGAAVGTSRAQQRAVFVFPGQGWQWAGMAVDLLDTSPVFAAALRECADALEPHLDFEVIPFLRAEAARREQDAALSTERVDVVQPVMFAVMVSLASMWRAHGVEPAAVIGHSQGEIAAACVAGALSLDDAARVVALRSRVIATMPGNKGMASIAAPAGEVRARIGDRVEIAAVNGPRSVVVAGDSDELDRLVASCTTECIRAKRLAVDYASHSSHVETIRDALHAELGEDFHPLPGFVPFFSTVTGRWTQPDELDAGYWYRNLRRTVRFADAVRALAEQGYRTFLEVSAHPILTAAIEEIGDGSGADLSAIHSLRRGDGSLADFGEALSRAFAAGVAVDWESVHLGTGARRVPLPTYPFQRERVWLEPKPVARRSTEVDEVSALRYRIEWRPTGAGEPARLDGTWLVAKYAGTADETSTAAREALESAGARVRELVVDARCGRDELAERLRSVGEVAGVLSLLAVDEAEPEEAPLALASLADTLSLVQAMVSAELGCPLWTVTESAVATGPFERVRNAAHGALWGVGRVIALENPAVWGGLVDVPAGSVAELARHLAAVVSGGAGEDQLALRADGVYGRRWWKPTGTVLVTGGTGGVGGQIARWLARRGAPHLLLVSRSGPDADGAGELVAELEALGARTTVAACDVTDRESVRELLGGIGDDVPLSAVFHAAATLDDGTVDTLTGERIERASRAKVLGARNLHELTRELDLTAFVLFSSFASAFGAPGLGGYAPGNAYLDGLAQQRRSDGLPATAVAWGTWAGSGMAEGPVADRFRRHGVIEMPPETACRALQNALDRAEVCPIVIDVRWDRFLLAYTAQRPTRLFDEIDDARR 7m7j-a1-m1-cB_7m7j-a1-m1-cA 6-Deoxyerythronolide B synthase (DEBS) module 1 in complex with antibody fragment 1B2: ""turnstile closed"" state (TE-free) Q03131 Q03131 4.3 ELECTRON MICROSCOPY 409 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 912 1390 MASTDSEKVAEYLRRATLDLRAARQRIRELEGEPVAVVAMACRLPGGVSTPEEFWELLSEGRDAVAGLPTDRGWDLDSLFHPDPTRSGTAHQRGGGFLTEATAFDPAFFGMSPREALAVDPQQRLMLELSWEVLERAGIPPTSLQASPTGVFVGLIPQEYGPRLAEGGEGVEGYLMTGTTTSVASGRIAYTLGLEGPAISVDTACSSSLVAVHLACQSLRRGESSLAMAGGVTVMPTPGMLVDFSRMNSLAPDGRCKAFSAGANGFGMAEGAGMLLLERLSDARRNGHPVLAVLRGTAVNSDGASNGLSAPNGRAQVRVIQQALAESGLGPADIDAVEAHGTGTRLGDPIEARALFEAYGRDREQPLHLGSVKSNLGHTQAAAGVAGVIKMVLAMRAGTLPRTLHASERSKEIDWSSGAISLLDEPEPWPAGARPRRAGVSSFGISGTNAHAIIEEAPQVVEGERVEAGDVVAPWVLSASSAEGLRAQAARLAAHLREHPGQDPRDIAYSLATGRAALPHRAAFAPVDESAALRVLDGLATGNADGAAVGTSRAQQRAVFVFPGQGWQWAGMAVDLLDTSPVFAAALRECADALEPHLDFEVIPFLRAEAARREQDAALSTERVDVVQPVMFAVMVSLASMWRAHGVEPAAVIGHSQGEIAAACVAGALSLDDAARVVALRSRVIATMPGNKGMASIAAPAGEVRARIGDRVEIAAVNGPRSVVVAGDSDELDRLVASCTTECIRAKRLAVDYASHSSHVETIRDALHAELGEDFHPLPGFVPFFSTVTGRWTQPDELDAGYWYRNLRRTVRFADAVRALAEQGYRTFLEVSAHPILTAAIEEIGDGSGADLSAIHSLRRGDGSLADFGEALSRAFAAGVAVDWESVHLGTGARRVPLPTYPFQRERVWLEP MASTDSEKVAEYLRRATLDLRAARQRIRELEGEPVAVVAMACRLPGGVSTPEEFWELLSEGRDAVAGLPTDRGWDLDSLFHPDPTRSGTAHQRGGGFLTEATAFDPAFFGMSPREALAVDPQQRLMLELSWEVLERAGIPPTSLQASPTGVFVGLIPQEYGPRLAEGGEGVEGYLMTGTTTSVASGRIAYTLGLEGPAISVDTACSSSLVAVHLACQSLRRGESSLAMAGGVTVMPTPGMLVDFSRMNSLAPDGRCKAFSAGANGFGMAEGAGMLLLERLSDARRNGHPVLAVLRGTAVNSDGASNGLSAPNGRAQVRVIQQALAESGLGPADIDAVEAHGTGTRLGDPIEARALFEAYGRDREQPLHLGSVKSNLGHTQAAAGVAGVIKMVLAMRAGTLPRTLHASERSKEIDWSSGAISLLDEPEPWPAGARPRRAGVSSFGISGTNAHAIIEEAPQVVEGERVEAGDVVAPWVLSASSAEGLRAQAARLAAHLREHPGQDPRDIAYSLATGRAALPHRAAFAPVDESAALRVLDGLATGNADGAAVGTSRAQQRAVFVFPGQGWQWAGMAVDLLDTSPVFAAALRECADALEPHLDFEVIPFLRAEAARREQDAALSTERVDVVQPVMFAVMVSLASMWRAHGVEPAAVIGHSQGEIAAACVAGALSLDDAARVVALRSRVIATMPGNKGMASIAAPAGEVRARIGDRVEIAAVNGPRSVVVAGDSDELDRLVASCTTECIRAKRLAVDYASHSSHVETIRDALHAELGEDFHPLPGFVPFFSTVTGRWTQPDELDAGYWYRNLRRTVRFADAVRALAEQGYRTFLEVSAHPILTAAIEEIGDGSGADLSAIHSLRRGDGSLADFGEALSRAFAAGVAVDWESVHLGTGARRVPLPTYPFQRERVWLEPKPVARRSTEVDEVSALRYRIEWRPTGAGEPARLDGTWLVAKYAGTADETSTAAREALESAGARVRELVVDARCGRDELAERLRSVGEVAGVLSLLAVDEAEPEEAPLALASLADTLSLVQAMVSAELGCPLWTVTESAVATGPFERVRNAAHGALWGVGRVIALENPAVWGGLVDVPAGSVAELARHLAAVVSGGAGEDQLALRADGVYGRRWVRAAAPATDDEWKPTGTVLVTGGTGGVGGQIARWLARRGAPHLLLVSRSGPDADGAGELVAELEALGARTTVAACDVTDRESVRELLGGIGDDVPLSAVFHAAATLDDGTVDTLTGERIERASRAKVLGARNLHELTRELDLTAFVLFSSFASAFGAPGLGGYAPGNAYLDGLAQQRRSDGLPATAVAWGTWAGSGMAEGPVADRFRRHGVIEMPPETACRALQNALDRAEVCPIVIDVRWDRFLLAYTAQRPTRLFDEIDDARR 7m7k-a1-m1-cB_7m7k-a1-m2-cB Crystal structure of uridine bound to Geobacillus thermoglucosidasius pyrimidine nucleoside phosphorylase PyNP 1.89 X-RAY DIFFRACTION 70 1.0 1426 (Parageobacillus thermoglucosidasius) 1426 (Parageobacillus thermoglucosidasius) 432 432 HHVDLIAKKRDGYELSKEEIDFIIRGYTNGDIPDYQMSAFAMAVFFRGMTEEETAALTMAMVRSGDVIDLSKIEGMKVDKHSTGGVGDTTTLVLGPLVASVGVPVAKMSGRGLGHTGGTIDKLESVPGFHVEIDNEQFIELVNKNKIAIIGQTGNLTPADKKLYALRDVTATVDSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKDFAGAKRLATAMVEIGKRVGRKTMAVISDMSQPLGYAVGNALEVKEAIDTLKGKGPEDLQELCLTLGSYMVYLAEKASSLEEARALLEASIREGKALETFKVFLSAQGGDASVVDDPTKLPQAKYRWELEAPEDGYVAEIVADEVGTAAMLLGAGRATKEATIDLSVGLVLHKKVGDAVKKGESLVTIYSNTENIEEVKQKLAKSIRLSSIPVAKPTLIYETIS HHVDLIAKKRDGYELSKEEIDFIIRGYTNGDIPDYQMSAFAMAVFFRGMTEEETAALTMAMVRSGDVIDLSKIEGMKVDKHSTGGVGDTTTLVLGPLVASVGVPVAKMSGRGLGHTGGTIDKLESVPGFHVEIDNEQFIELVNKNKIAIIGQTGNLTPADKKLYALRDVTATVDSIPLIASSIMSKKIAAGADAIVLDVKTGAGAFMKDFAGAKRLATAMVEIGKRVGRKTMAVISDMSQPLGYAVGNALEVKEAIDTLKGKGPEDLQELCLTLGSYMVYLAEKASSLEEARALLEASIREGKALETFKVFLSAQGGDASVVDDPTKLPQAKYRWELEAPEDGYVAEIVADEVGTAAMLLGAGRATKEATIDLSVGLVLHKKVGDAVKKGESLVTIYSNTENIEEVKQKLAKSIRLSSIPVAKPTLIYETIS 7m92-a1-m1-cA_7m92-a1-m1-cB Crystal structure of unknown function protein protein B9J08_000055 Candida auris A0A2H1A6V9 A0A2H1A6V9 2.35 X-RAY DIFFRACTION 109 1.0 498019 ([Candida] auris) 498019 ([Candida] auris) 358 358 SKSVNVAIIGAGVVSSAFINQLANLKAPVAFKVVYLARSSKEAVFSKDYSAVDLKNYKTAPAQAVLPLDELTSYLTAAKRPTILVDNTSNSSIADFYPKFVEAGISIATPNKKAFSSDLATWNDIFKKSAAANGGLVYHEATVGAGLPIIGPLRDLVLTGDKVEKIEGILSGSLSYVFNTLSTSEKSDKKFSDVVKVAKDLGYLERDPRDDLNGMDFARKVTILARIAGFEVESPNSFAVDSLVPQPLESLATGAEFLEKLPEYDNDFQKRKDDALAENKVLRYVGQVDFKANKVSVGIAKYDFDHPFASLKGSDNVVSIKTERYPNPLIIQGAGAGAEVTAHGVLADAIKIAERIAN SKSVNVAIIGAGVVSSAFINQLANLKAPVAFKVVYLARSSKEAVFSKDYSAVDLKNYKTAPAQAVLPLDELTSYLTAAKRPTILVDNTSNSSIADFYPKFVEAGISIATPNKKAFSSDLATWNDIFKKSAAANGGLVYHEATVGAGLPIIGPLRDLVLTGDKVEKIEGILSGSLSYVFNTLSTSEKSDKKFSDVVKVAKDLGYLERDPRDDLNGMDFARKVTILARIAGFEVESPNSFAVDSLVPQPLESLATGAEFLEKLPEYDNDFQKRKDDALAENKVLRYVGQVDFKANKVSVGIAKYDFDHPFASLKGSDNVVSIKTERYPNPLIIQGAGAGAEVTAHGVLADAIKIAERIAN 7m96-a1-m1-cA_7m96-a1-m1-cB Bovine sigma-2 receptor bound to Z4857158944 Q3MHW7 Q3MHW7 2.41 X-RAY DIFFRACTION 70 1.0 9913 (Bos taurus) 9913 (Bos taurus) 166 166 7m93-a1-m1-cA_7m93-a1-m1-cB 7m93-a2-m1-cC_7m93-a2-m1-cD 7m94-a1-m1-cA_7m94-a1-m1-cB 7m94-a2-m1-cC_7m94-a2-m1-cD 7m95-a1-m1-cA_7m95-a1-m1-cB 7m96-a2-m1-cC_7m96-a2-m1-cD 7mfi-a1-m1-cA_7mfi-a1-m1-cB 7mfi-a2-m1-cC_7mfi-a2-m1-cD TLGARRGLEWFLGFYFLSHIPITLLMDLQGVLPRDLYPVELRNLQQWYIEEFKDPLLQTPPAWFKSFLFCELVFQLPFFPIAAYAFFKGGCKWIRTPAIIYSVHTMTTLIPILSTLLLDDFSKASHFRGQGPKTFQERLFLISVYIPYFLIPLILLLFMVRNPYYK TLGARRGLEWFLGFYFLSHIPITLLMDLQGVLPRDLYPVELRNLQQWYIEEFKDPLLQTPPAWFKSFLFCELVFQLPFFPIAAYAFFKGGCKWIRTPAIIYSVHTMTTLIPILSTLLLDDFSKASHFRGQGPKTFQERLFLISVYIPYFLIPLILLLFMVRNPYYK 7mbk-a1-m1-cA_7mbk-a1-m1-cB N-terminal domain of mouse surfactant protein B, 6W mutant P50405 P50405 2.17 X-RAY DIFFRACTION 73 1.0 10090 (Mus musculus) 10090 (Mus musculus) 77 82 DLCQECEDIVHLLTKMTKEDAFQEAIRKFWEQECDILPWKLLWPRCRQVLDVYLPLWIDYFQSQINPKAWCNHWGLC ANDLCQECEDIVHLLTKMTKEDAFQEAIRKFWEQECDILPWKLLWPRCRQVLDVYLPLWIDYFQSQINPKAWCNHWGLCPRG 7mbw-a2-m1-cC_7mbw-a2-m1-cD Crystal structure of TnsC(1-503)A225V P05846 P05846 3.2 X-RAY DIFFRACTION 110 0.991 562 (Escherichia coli) 562 (Escherichia coli) 450 456 7mbw-a1-m1-cB_7mbw-a1-m1-cA RIQAVYRDTGVEAYRDNPFIEALPPLQESVNSAASLKSSLQLTSSDLQKSRVIRAHTICRIPDDYFQPLGTHLLLSERISVIRGGYVGRDLQKHLQNGYERVQTGELETFRFEEQSLLLIGCSGSGKTTSLHRILATYPQVIYHRELNVEQVVYLKIDCSHNGSLKEICLNFFRALDRALGSNYERRYGLKRHGIETLALSQIANAHVLGLLVIDEIQHLSRSRSGGSQELNFFVTVNIIGVPVLIGTPKAREIFEAGFGAIFWDPIQQTQRGKPNQEWIAFTDNLWQLQLLQRKDALLSDEVRDVWYELSQGVDIVVKLFVLAQLRALALGNERITAGLLRQVYQDELKPVHPLEALRSGIPERIARYSDLVVPEIDKRLIQLQLDIAAIQEQTPEEKALQELDTEDQRHLYLLKEDYDSSLLIPTIKKAFSQNPTTRQKLLPLVLQWL ATRIQAVYRDTGVEAYRDNPFIEALPPLQESVNSAASLKSSLQLTSSDLQKSRVIRAHTICRIPDDYFQPLGTHLLLSERISVIRGGYVGRNPLQKHLQNGYERVQTGELETFRFAQSLLLIGCSGSGKTTSLHRILATYPQVIYHRELNVEQVVYLKIDCSHNGSLKEICLNFFRALDRALGSNYERRYGLKRHGIETLALSQIANAHVLGLLVIDEIQHLSRSRSGGSQELNFFVTVNIIGVPVLIGTPKAREIFEADLRFGAIFWDPIQQTQRGKPNQEWIAFTDNLWQLQLLQRKDALLSDEVRDVWYELSQGVDIVVKLFVLAQLRALALGNERITAGLLRQVYQDELKPVHPLEALRSGIPERIARYSDLVVPEIDKRLIQLQLDIAAIQEQTPEEKALQELDTEDQRHLYLLKEDYDSSLLIPTIKKAFSQNPTTRQKLLPLVLQWLEG 7mc0-a1-m1-cA_7mc0-a1-m1-cB Inward facing conformation of the MetNI methionine ABC transporter Q9JXP3 Q9JXP3 3.3 ELECTRON MICROSCOPY 85 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 222 222 7mbz-a1-m1-cA_7mbz-a1-m1-cB TFQQAVSTIVGMKDEIFRALGETFVMVGLSTTFAVIFGTLLGVLLFVTSSRQLHYNKLVNFLLDNLVNLMRAFPFVILMIAMIPATRAIVGSTIGPVAASLVLSVSGLFYFARLVEQNLREVPKGVIEAAAAMGAPPIAIVCKVLLNEARAGMVSSITVLAIGLLSYSAAAGMIGGGGLGDLAIRYGYYRYQTEVIIFIVALLVLLVILIQSTGNALARKLD TFQQAVSTIVGMKDEIFRALGETFVMVGLSTTFAVIFGTLLGVLLFVTSSRQLHYNKLVNFLLDNLVNLMRAFPFVILMIAMIPATRAIVGSTIGPVAASLVLSVSGLFYFARLVEQNLREVPKGVIEAAAAMGAPPIAIVCKVLLNEARAGMVSSITVLAIGLLSYSAAAGMIGGGGLGDLAIRYGYYRYQTEVIIFIVALLVLLVILIQSTGNALARKLD 7mc0-a1-m1-cC_7mc0-a1-m1-cD Inward facing conformation of the MetNI methionine ABC transporter Q9JXP2 Q9JXP2 3.3 ELECTRON MICROSCOPY 15 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 242 245 7mbz-a1-m1-cC_7mbz-a1-m1-cD IILDKVSKHYQTRDKTRFAAVEPTSLEIRDGEIFGLMGYSGAGKSTLLRLINLLERPDSGKVNVCGQELTALDAAALRQARQNIGMVFQQFNLLSNRTVADNVAFPLEIAGWPSEKIKARVKECLEIVGLTERAGHYPAQLSGGQKQRVGIARALAPKPQVILADEPTSALDPATTRSVLECLEDINKRFNVTIVIVTHEMSVIRRLCDRAALLDKGKVVEIVEVRGNQIHAQSDIGRELIR MIILDKVSKHYQTRDKTRFAAVEPTSLEIRDGEIFGLMGYSGAGKSTLLRLINLLERPDSGKVNVCGQELTALDAAALRQARQNIGMVFQQFNLLSNRTVADNVAFPLEIAGWPSEKIKARVKECLEIVGLTERAGHYPAQLSGGQKQRVGIARALAPKPQVILADEPTSALDPATTRSVLECLEDINKRFNVTIVIVTHEMSVIRRLCDRAALLDKGKVVEIVEVRGNQIHAQSDIGRELIRED 7mcm-a1-m1-cA_7mcm-a1-m3-cB Crystal Structure of Enoyl-CoA hydratase from Mycolicibacterium smegmatis A0QXQ8 A0QXQ8 2.05 X-RAY DIFFRACTION 26 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 215 217 7mcm-a1-m2-cA_7mcm-a1-m1-cB 7mcm-a1-m3-cA_7mcm-a1-m2-cB TAPLRIDRAGRVQTWTIDVPDAANAITGSDFIDAFDAAVDAANADTDISVVILTGAGRFFSAGGNSGIQRVPRALQRCEVPVIAAVNGAAIGAGCDLAVMCDLRIAAESAFFAESFVQLGLIPGDGGTWFLPRAVGWARAAEMTLTGDRVDAATALSWGLVNEVLSDDELLPAAHRLAERIAKNPAPAVRMAKRLLLESRTASLDSTLALAAALQ VTAPLRIDRAGRVQTWTIDVPDAANAITGSDFIDAFDAAVDAANADTDISVVILTGAGRFFSAGGNSGIQRVPRALQRCEVPVIAAVNGAAIGAGCDLAVMCDLRIAAESAFFAESFVQLGLIPGDGGTWFLPRAVGWARAAEMTLTGDRVDAATALSWGLVNEVLSDDELLPAAHRLAERIAKNPAPAVRMAKRLLLESRTASLDSTLALAAALQP 7mcm-a1-m2-cB_7mcm-a1-m3-cB Crystal Structure of Enoyl-CoA hydratase from Mycolicibacterium smegmatis A0QXQ8 A0QXQ8 2.05 X-RAY DIFFRACTION 101 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 217 217 7mcm-a1-m1-cA_7mcm-a1-m2-cA 7mcm-a1-m1-cA_7mcm-a1-m3-cA 7mcm-a1-m1-cB_7mcm-a1-m2-cB 7mcm-a1-m1-cB_7mcm-a1-m3-cB 7mcm-a1-m2-cA_7mcm-a1-m3-cA VTAPLRIDRAGRVQTWTIDVPDAANAITGSDFIDAFDAAVDAANADTDISVVILTGAGRFFSAGGNSGIQRVPRALQRCEVPVIAAVNGAAIGAGCDLAVMCDLRIAAESAFFAESFVQLGLIPGDGGTWFLPRAVGWARAAEMTLTGDRVDAATALSWGLVNEVLSDDELLPAAHRLAERIAKNPAPAVRMAKRLLLESRTASLDSTLALAAALQP VTAPLRIDRAGRVQTWTIDVPDAANAITGSDFIDAFDAAVDAANADTDISVVILTGAGRFFSAGGNSGIQRVPRALQRCEVPVIAAVNGAAIGAGCDLAVMCDLRIAAESAFFAESFVQLGLIPGDGGTWFLPRAVGWARAAEMTLTGDRVDAATALSWGLVNEVLSDDELLPAAHRLAERIAKNPAPAVRMAKRLLLESRTASLDSTLALAAALQP 7mcs-a1-m1-cA_7mcs-a1-m1-cB Cryo-electron microscopy structure of TnsC(1-503)A225V bound to DNA P05846 P05846 3.56 ELECTRON MICROSCOPY 158 0.996 562 (Escherichia coli) 562 (Escherichia coli) 249 402 TRIQAVYRDTGVEAYRDNPFIEALPPLQTHLLLSERISVMIRGGYVGRNPKTGDLQKHLQNGYERVQTGELETFRFEEARSTAQSLLLIGCSGSGKTTSLHRILATYPQVIYHRELNVEQVVYLKIDCSHNGSLKEICLNFFRALDRALGSNYERRYGLKRHGIETMLALMSQIANAHVLGLLVIDEIQHLSRSRSGGSQEMLNFFVTMVNIIGVPVMLIGTPKAREIFEADLRSARRGAGFGAIFWDP RIQAVYRDTGVEAYRDNPFIEALPPLQESVNSAASLKSSLQLTSSDLQKSRVIRAHTICRIPDDYFQPLGTHLLLSERISVMIRGGYVGRNPKTGDLQKHLQNGYERVQTGELETFRFEEARSTAQSLLLIGCSGSGKTTSLHRILATYPQVIYHRELNVEQVVYLKIDCSHNGSLKEICLNFFRALDRALGSNYERRYGLKRHGIETMLALMSQIANAHVLGLLVIDEIQHLSRSRSGGSQEMLNFFVTMVNIIGVPVMLIGTPKAREIFEADLRSARRGAGFGAIFWDPIQQTQRGKPNQEWIAFTDNLWQLQLLQRKDALLSDEVRDVWYELSQGVMDIVVKLFVLAQLRALALGNERITAGLLRQVYQDELKPVHPMLEALRSGIPERIARYSDLVVP 7mcs-a1-m1-cB_7mcs-a1-m1-cC Cryo-electron microscopy structure of TnsC(1-503)A225V bound to DNA P05846 P05846 3.56 ELECTRON MICROSCOPY 166 1.0 562 (Escherichia coli) 562 (Escherichia coli) 402 404 7mcs-a1-m1-cD_7mcs-a1-m1-cC 7mcs-a1-m1-cE_7mcs-a1-m1-cD 7mcs-a1-m1-cF_7mcs-a1-m1-cE 7mcs-a1-m1-cG_7mcs-a1-m1-cF RIQAVYRDTGVEAYRDNPFIEALPPLQESVNSAASLKSSLQLTSSDLQKSRVIRAHTICRIPDDYFQPLGTHLLLSERISVMIRGGYVGRNPKTGDLQKHLQNGYERVQTGELETFRFEEARSTAQSLLLIGCSGSGKTTSLHRILATYPQVIYHRELNVEQVVYLKIDCSHNGSLKEICLNFFRALDRALGSNYERRYGLKRHGIETMLALMSQIANAHVLGLLVIDEIQHLSRSRSGGSQEMLNFFVTMVNIIGVPVMLIGTPKAREIFEADLRSARRGAGFGAIFWDPIQQTQRGKPNQEWIAFTDNLWQLQLLQRKDALLSDEVRDVWYELSQGVMDIVVKLFVLAQLRALALGNERITAGLLRQVYQDELKPVHPMLEALRSGIPERIARYSDLVVP ATRIQAVYRDTGVEAYRDNPFIEALPPLQESVNSAASLKSSLQLTSSDLQKSRVIRAHTICRIPDDYFQPLGTHLLLSERISVMIRGGYVGRNPKTGDLQKHLQNGYERVQTGELETFRFEEARSTAQSLLLIGCSGSGKTTSLHRILATYPQVIYHRELNVEQVVYLKIDCSHNGSLKEICLNFFRALDRALGSNYERRYGLKRHGIETMLALMSQIANAHVLGLLVIDEIQHLSRSRSGGSQEMLNFFVTMVNIIGVPVMLIGTPKAREIFEADLRSARRGAGFGAIFWDPIQQTQRGKPNQEWIAFTDNLWQLQLLQRKDALLSDEVRDVWYELSQGVMDIVVKLFVLAQLRALALGNERITAGLLRQVYQDELKPVHPMLEALRSGIPERIARYSDLVVP 7md4-a1-m1-cA_7md4-a1-m1-cB Insulin receptor ectodomain dimer complexed with two IRPA-3 partial agonists P06213 P06213 4.5 ELECTRON MICROSCOPY 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 724 778 VCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLCKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSREEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYL HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSREEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLD 7md5-a1-m1-cB_7md5-a1-m1-cA Insulin receptor ectodomain dimer complexed with two IRPA-9 partial agonists P06213 P06213 5.2 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 562 682 6ce9-a1-m1-cA_6ce9-a1-m1-cB 6ceb-a1-m1-cB_6ceb-a1-m1-cA HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTNCPATVINGQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTD HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTNCPATVINGQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSREEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPE 7mdf-a1-m1-cA_7mdf-a1-m2-cA Full-length S95A ClbP bound to N-acyl-D-asparagine analog A0A0H2V8D3 A0A0H2V8D3 2.3 X-RAY DIFFRACTION 89 1.0 199310 (Escherichia coli CFT073) 199310 (Escherichia coli CFT073) 453 453 4e6w-a1-m1-cA_4e6w-a1-m1-cB 4e6w-a2-m1-cC_4e6w-a2-m2-cC 7mde-a1-m1-cA_7mde-a1-m2-cA 7ul6-a1-m1-cA_7ul6-a1-m1-cB IGAQDERLSTLIHQRMQEAKVPALSVSVTIKGVRQRFVYGVADVASQKANTLDTVYELGAMSKAFTGLVVQILIQEGRLRQGDDIITYLPEMRLNYQGKPASLTVADFLYHTSGLPFSTLARLENPMPGSAVAQQLRNENLLFAPGAKFSYASANYDVLGAVIENVTGKTFTEVIAERLTQPLGMSATVAVKGDEIIVNKASGYKLGFGKPVLFHAPLARNHVPAAYIHSTLPDMEIWIDAWLHRKALPATLREAMSNSWRGNSDVPLAADNRILYASGWFIDQNQGPYISHGGQNPNFSSCIALRPDQQIGIVALANMNSNLILQLCADIDNYLRIGKYADGAGDAITATDTLFVYLTLLLCFWGAVVVVRGAFRVYRATAHRLRVRDYIIALAVPGLVAAMLYVAPGIMSPGLDWRFILVWGPSSVLAIPFGMILLAFVLTLNHQIKRILL IGAQDERLSTLIHQRMQEAKVPALSVSVTIKGVRQRFVYGVADVASQKANTLDTVYELGAMSKAFTGLVVQILIQEGRLRQGDDIITYLPEMRLNYQGKPASLTVADFLYHTSGLPFSTLARLENPMPGSAVAQQLRNENLLFAPGAKFSYASANYDVLGAVIENVTGKTFTEVIAERLTQPLGMSATVAVKGDEIIVNKASGYKLGFGKPVLFHAPLARNHVPAAYIHSTLPDMEIWIDAWLHRKALPATLREAMSNSWRGNSDVPLAADNRILYASGWFIDQNQGPYISHGGQNPNFSSCIALRPDQQIGIVALANMNSNLILQLCADIDNYLRIGKYADGAGDAITATDTLFVYLTLLLCFWGAVVVVRGAFRVYRATAHRLRVRDYIIALAVPGLVAAMLYVAPGIMSPGLDWRFILVWGPSSVLAIPFGMILLAFVLTLNHQIKRILL 7mdh-a4-m1-cC_7mdh-a4-m3-cC STRUCTURAL BASIS FOR LIGHT ACITVATION OF A CHLOROPLAST ENZYME. THE STRUCTURE OF SORGHUM NADP-MALATE DEHYDROGENASE IN ITS OXIDIZED FORM P17606 P17606 2.4 X-RAY DIFFRACTION 17 1.0 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 352 352 7mdh-a3-m1-cA_7mdh-a3-m2-cA DCFGVFCTTSWKKLVNIAVSGAAGMISNHLLFKLASGEVFGQDQPIALKLLGSERSFQALEGVAMELEDSLYPLLREVSIGIDPYEVFEDVDWALLIGAKPRGPGMERAALLDINGQIFADQGKALNAVASKNVKVLVVGNPCNTNALICLKNAPDIPAKNFHALTRLDENRAKCQLALKAGVFYDKVSNVTIWGNHSTTQVPDFLNAKIDGRPVKEVIKRTKWLEEEFTITVQKRGGALIQKWGRSSAASTAVSIADAIKSLVTPTPEGDWFSTGVYTTGNPYGIAEDIVFSMPCRSKGDGDYELATDVSNDDFLWERIKKSEAELLAEKKCVAHLTGEGNAYCDVPEDTM DCFGVFCTTSWKKLVNIAVSGAAGMISNHLLFKLASGEVFGQDQPIALKLLGSERSFQALEGVAMELEDSLYPLLREVSIGIDPYEVFEDVDWALLIGAKPRGPGMERAALLDINGQIFADQGKALNAVASKNVKVLVVGNPCNTNALICLKNAPDIPAKNFHALTRLDENRAKCQLALKAGVFYDKVSNVTIWGNHSTTQVPDFLNAKIDGRPVKEVIKRTKWLEEEFTITVQKRGGALIQKWGRSSAASTAVSIADAIKSLVTPTPEGDWFSTGVYTTGNPYGIAEDIVFSMPCRSKGDGDYELATDVSNDDFLWERIKKSEAELLAEKKCVAHLTGEGNAYCDVPEDTM 7mdh-a4-m3-cC_7mdh-a4-m3-cD STRUCTURAL BASIS FOR LIGHT ACITVATION OF A CHLOROPLAST ENZYME. THE STRUCTURE OF SORGHUM NADP-MALATE DEHYDROGENASE IN ITS OXIDIZED FORM P17606 P17606 2.4 X-RAY DIFFRACTION 141 0.989 4558 (Sorghum bicolor) 4558 (Sorghum bicolor) 352 352 7mdh-a1-m1-cA_7mdh-a1-m1-cB 7mdh-a2-m1-cC_7mdh-a2-m1-cD 7mdh-a3-m1-cA_7mdh-a3-m1-cB 7mdh-a3-m2-cA_7mdh-a3-m2-cB 7mdh-a4-m1-cC_7mdh-a4-m1-cD DCFGVFCTTSWKKLVNIAVSGAAGMISNHLLFKLASGEVFGQDQPIALKLLGSERSFQALEGVAMELEDSLYPLLREVSIGIDPYEVFEDVDWALLIGAKPRGPGMERAALLDINGQIFADQGKALNAVASKNVKVLVVGNPCNTNALICLKNAPDIPAKNFHALTRLDENRAKCQLALKAGVFYDKVSNVTIWGNHSTTQVPDFLNAKIDGRPVKEVIKRTKWLEEEFTITVQKRGGALIQKWGRSSAASTAVSIADAIKSLVTPTPEGDWFSTGVYTTGNPYGIAEDIVFSMPCRSKGDGDYELATDVSNDDFLWERIKKSEAELLAEKKCVAHLTGEGNAYCDVPEDTM RKDCFGVFCTTYDWKKLVNIAVSGAAGMISNHLLFKLASGEVFGQDQPIALKLLGSERSFQALEGVAMELEDSLYPLLREVSIGIDPYEVFEDVDWALLIGAKPRGPGMERAALLDINGQIFADQGKALNAVASKNVKVLVVGNPCNTNALICLKNAPDIPAKNFHALTRLDENRAKCQLALKAGVFYDKVSNVTIWGNHSTTQVPDFLNAKIDGRPVKEVIKRTKWLEEEFTITVQKRGGALIQKWGRSSAASTAVSIADAIKSLVTPTPEGDWFSTGVYTTGNPYGIAEDIVFSMPCRSKGDGDYELATDVSNDDFLWERIKKSEAELLAEKKCVAHLTGEGNAYCDVPE 7mdi-a1-m1-cC_7mdi-a1-m1-cD Structure of the Neisseria gonorrhoeae ribonucleotide reductase in the inactive state Q5F8Z6 Q5F8Z6 4.3 ELECTRON MICROSCOPY 103 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 734 734 7mdi-a1-m1-cA_7mdi-a1-m1-cB TDLKVTKRDGRLEAIDLDKIHRVVTWAAEGLENVSVSQVELKSHIQFYNGIRTDDIHETIIKAAADLISEDTPDYQYLAARLAIFHLRKIAYGEYEPPHLYNHVKKLTDAGKYDRHILEDYSREEFDELNAYIDHERDMSFSYAAVKQLEGKYLVQNRVTRQIYETPQFLYVLVAMCLFSKYPKEARLDYVKRFYDAVSTFKVSLPTPIMSGVRTPTRQFSSCVLIECDDSLDSINATTSAIVKYVSQRAGIGINAGRIRGLDSEIRGGEARHTGCIPFFKMFQAAVKSCSQGGVRGGAATLFYPLWHIEAESLLVLKNNRGVEDNRIRQLDYGVQINRLLYTRLIKGGNITLFSPNEVSGLYEAFFADQDEFERLYTKYEQDPNIRKRIIPAADLFSTLMQERAGTGRIYIQNVDHCNTHSPFDPRVAPVHQSNLCMEIALPTKPLDNINDPDGEIALCTLSAFNLGALNSLDELEGLADLTVRALDALLDYQGYPVEAARTSTMDRRSLGIGVINYAYYLAKNGVRYSDGSALGLTHRTFEAIQYYLLKASANLAKEYGACTLFNQTVYSQGKLPIDTYKKDLDAVCGEPLHYDWESLRADIVKYGLRNSTLTALMPSETSSQIANATNGIEPPRGLVTVKASKDGILKQVVPEFETLKNAYETLWQLPGNEGYLKLVGVMQKFVDQAISANTAYDPGKFEGNKVSMKQMLKDLLTAYKYGVKTLYYHNTRD TDLKVTKRDGRLEAIDLDKIHRVVTWAAEGLENVSVSQVELKSHIQFYNGIRTDDIHETIIKAAADLISEDTPDYQYLAARLAIFHLRKIAYGEYEPPHLYNHVKKLTDAGKYDRHILEDYSREEFDELNAYIDHERDMSFSYAAVKQLEGKYLVQNRVTRQIYETPQFLYVLVAMCLFSKYPKEARLDYVKRFYDAVSTFKVSLPTPIMSGVRTPTRQFSSCVLIECDDSLDSINATTSAIVKYVSQRAGIGINAGRIRGLDSEIRGGEARHTGCIPFFKMFQAAVKSCSQGGVRGGAATLFYPLWHIEAESLLVLKNNRGVEDNRIRQLDYGVQINRLLYTRLIKGGNITLFSPNEVSGLYEAFFADQDEFERLYTKYEQDPNIRKRIIPAADLFSTLMQERAGTGRIYIQNVDHCNTHSPFDPRVAPVHQSNLCMEIALPTKPLDNINDPDGEIALCTLSAFNLGALNSLDELEGLADLTVRALDALLDYQGYPVEAARTSTMDRRSLGIGVINYAYYLAKNGVRYSDGSALGLTHRTFEAIQYYLLKASANLAKEYGACTLFNQTVYSQGKLPIDTYKKDLDAVCGEPLHYDWESLRADIVKYGLRNSTLTALMPSETSSQIANATNGIEPPRGLVTVKASKDGILKQVVPEFETLKNAYETLWQLPGNEGYLKLVGVMQKFVDQAISANTAYDPGKFEGNKVSMKQMLKDLLTAYKYGVKTLYYHNTRD 7mdi-a1-m1-cE_7mdi-a1-m1-cH Structure of the Neisseria gonorrhoeae ribonucleotide reductase in the inactive state Q5F8Z5 Q5F8Z5 4.3 ELECTRON MICROSCOPY 162 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 353 353 7mdi-a1-m1-cF_7mdi-a1-m1-cG LYFQMSYSTFPKTKNDALKEPMFFGQPVNVARYDQQKYEVFEKLIEKQLSFFWRPEEIDVSRDRIDYANLPEHEKHIFISNLKYQTLLDSIQGRSPNVALLPLVSIPELETWVETWSFSETIHSRSYTHIIRNIVNDPSVVFDDIVENEYITARAEDIACYYDDLIEYTQYYNLLGEGVHNVGGKPVTVSLRGLKKKLYLCLMCVNVLEAIRFYVSFACSFAFAERELMEGNAKIIKDIARDEALHLTGTQHMLNLMRSGVDDPEMAEIAAELQDECFQLFKKAAEQEKEWAAYLFKDGSMIGLNKEILSQYVEYITNLRMQAVGLPAGFEGANQNPIPWINAWLSSDNVDFE LYFQMSYSTFPKTKNDALKEPMFFGQPVNVARYDQQKYEVFEKLIEKQLSFFWRPEEIDVSRDRIDYANLPEHEKHIFISNLKYQTLLDSIQGRSPNVALLPLVSIPELETWVETWSFSETIHSRSYTHIIRNIVNDPSVVFDDIVENEYITARAEDIACYYDDLIEYTQYYNLLGEGVHNVGGKPVTVSLRGLKKKLYLCLMCVNVLEAIRFYVSFACSFAFAERELMEGNAKIIKDIARDEALHLTGTQHMLNLMRSGVDDPEMAEIAAELQDECFQLFKKAAEQEKEWAAYLFKDGSMIGLNKEILSQYVEYITNLRMQAVGLPAGFEGANQNPIPWINAWLSSDNVDFE 7mdy-a1-m1-cC_7mdy-a1-m1-cD LolCDE nucleotide-bound P75957 P75957 3.5 ELECTRON MICROSCOPY 70 1.0 562 (Escherichia coli) 562 (Escherichia coli) 226 227 7ark-a1-m1-cD_7ark-a1-m1-cF 7v8i-a1-m1-cD_7v8i-a1-m1-cF ILLQCDNLCKRYQEGSVQTDVLHNVSFSVGEGEMMAIVGSSGSGKSTLLHLLGGLDTPTSGDVIFNGQPMSKLSSAAKAELRNQKLGFIYQFHHLLPDFTALENVAMPLLIGKKKPAEINSRALEMLKAVGLDHRANHRPSELSGGERQRVAIARALVNNPRLVLADEPTGNLDARNADSIFQLLGELNRLQGTAFLVVTHDLQLAKRMSRQLEMRDGRLTAELSM KILLQCDNLCKRYQEGSVQTDVLHNVSFSVGEGEMMAIVGSSGSGKSTLLHLLGGLDTPTSGDVIFNGQPMSKLSSAAKAELRNQKLGFIYQFHHLLPDFTALENVAMPLLIGKKKPAEINSRALEMLKAVGLDHRANHRPSELSGGERQRVAIARALVNNPRLVLADEPTGNLDARNADSIFQLLGELNRLQGTAFLVVTHDLQLAKRMSRQLEMRDGRLTAELSM 7mem-a1-m1-cB_7mem-a1-m1-cD CryoEM structure of monoclonal Fab 045-09 2B05 binding the lateral patch of influenza virus H1 HA C3W5S1 C3W5S1 3.2 ELECTRON MICROSCOPY 39 1.0 641501 (Influenza A virus (A/California/04/2009(H1N1))) 641501 (Influenza A virus (A/California/04/2009(H1N1))) 160 160 7mem-a1-m1-cA_7mem-a1-m1-cB 7mem-a1-m1-cA_7mem-a1-m1-cD GGWTGMVDGWYGYHHQNEQGSGYAADLKSTQNAIDGITNKVNSVIEKMNTQFTAVGKEFNHLEKRIENLNKKVDDGFLDIWTYNAELLVLLENERTLDYHDSNVKNLYEKVRSQLKNNAKEIGNGCFEFYHKCDNTCMESVKNGTYDYPKYSEEAKLNRE GGWTGMVDGWYGYHHQNEQGSGYAADLKSTQNAIDGITNKVNSVIEKMNTQFTAVGKEFNHLEKRIENLNKKVDDGFLDIWTYNAELLVLLENERTLDYHDSNVKNLYEKVRSQLKNNAKEIGNGCFEFYHKCDNTCMESVKNGTYDYPKYSEEAKLNRE 7met-a1-m1-cB_7met-a1-m1-cA A. baumannii MsbA in complex with TBT1 decoupler A0A0B9X4I2 A0A0B9X4I2 3.97 ELECTRON MICROSCOPY 207 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 455 564 VYLRLISYLKPYWGVALLVLIGFGMNSATEVSVAKLIKFIIDAIQNASRADLDWFPLLIILLVFFRGLGLFMGGYYTAVISRSLVFSIRQEVYAKLLRLPAQYYLDNSSGHITAKIMYNVEQLTAASSESLKTIVRDGMITLGLLGYLFYTNWRLTICIAGEFVAYITAAGLLSKPVKNLTDVNEKLQRGLAAAHSVFELLDLPEEQNSGELKPQLQGAIRFDHVVLNYADGTQAIKDFSLDIRPGETVALVGRSGAGKTSLVNMLVRFQEVSSGQIYLDDLPIRDIELSSLRTQIAMVNQQVVLFNRTVRENIAYGQLHNASDEDVIAAAKAAYAHDFIMNLPNGYDTVLGAQGLNLSGGQRQRIAIARAILKNAPILILDEATSALDNESEHFIQQAFDEAMQDRTTIVIAHRLSTIENADRIVVMDRGQIVEQGTHQELLAKHGAYYQLHQR VYLRLISYLKPYWGVALLVLIGFGMNSATEVSVAKLIKFIIDAIQNASRADLDWFPLLIILLVFFRGLGLFMGGYYTAVISRSLVFSIRQEVYAKLLRLPAQYYLDNSSGHITAKIMYNVEQLTAASSESLKTIVRDGMITLGLLGYLFYTNWRLTICIMVFLPIIGILVRKASKRMRKLSMQVQDTMGDVNHVVQESINGNAVVKSFAGEESEQERFYKSSEENLKRGLKMVIVQNLNSPVVQVVMACAMALIVWLALRPQILGNTTAGEFVAYITAAGLLSKPVKNLTDVNEKLQRGLAAAHSVFELLDLPEEQNSGELKPQLQGAIRFDHVVLNYADGTQAIKDFSLDIRPGETVALVGRSGAGKTSLVNMLVRFQEVSSGQIYLDDLPIRDIELSSLRTQIAMVNQQVVLFNRTVRENIAYGQLHNASDEDVIAAAKAAYAHDFIMNLPNGYDTVLGAQGLNLSGGQRQRIAIARAILKNAPILILDEATSALDNESEHFIQQAFDEAMQDRTTIVIAHRLSTIENADRIVVMDRGQIVEQGTHQELLAKHGAYYQLHQR 7mf4-a1-m1-cA_7mf4-a1-m2-cA Crystal structure of Trypanosoma cruzi cytosolic Malic Enzyme Q4DJ68 Q4DJ68 1.55 X-RAY DIFFRACTION 126 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 547 547 6w29-a1-m1-cA_6w29-a1-m2-cA 6w2n-a1-m1-cA_6w2n-a1-m2-cA 6w49-a1-m1-cA_6w49-a1-m2-cA 6w53-a1-m1-cA_6w53-a1-m2-cA 6w56-a1-m1-cA_6w56-a1-m2-cA 6w57-a1-m1-cA_6w57-a1-m2-cA 6w59-a1-m1-cA_6w59-a1-m2-cA QGRAILTDRYINRGTAFTMEERQKLHILGRLPPVVETLEEQVARVYGQVKKYEKPINRYQHLVSVHSTNTTLYYATILAHLEEMLPIIYTPTVGEACMEYSHLFFRERGVYFNRLYKGQFRNIMRDAGYQKVEVVVITDGSRILGLGDLGSNGIGISIGKCSLYVAGAGIDPRLIVPVILDVGTNNERYLQDKDYLGMREKRLGDEEFYELLDEFMEAASAEWPNAVIQFEDFSNNHCFDIMERYQKKYRCFNDDIQGTGAVIAAGFLNAIKLSGVSPLQQRIVVFGAGSAAVGVANNIAALAARMYKFPVQDLVKTFYLVDTKGLVTTTRGDQLAAHKKLLARTDVSAEDSAKLRTLEEIVRFVKPTTLLGLGGVGPAFTEEIVKMVMQNTERPIIFPLSNPTSKAEVTPENAYKWTNGAAIVASGSPFPPTTIGGKTFKPSQGNNLYVFPGVGLGCALAQPTHIPEELLLTASESLNLLTTEGDLREGRLYPPLEDIHNISANVATDVILEAQRMKIDNNKKLPRTRDELLAFVKKAMWKPVYSG QGRAILTDRYINRGTAFTMEERQKLHILGRLPPVVETLEEQVARVYGQVKKYEKPINRYQHLVSVHSTNTTLYYATILAHLEEMLPIIYTPTVGEACMEYSHLFFRERGVYFNRLYKGQFRNIMRDAGYQKVEVVVITDGSRILGLGDLGSNGIGISIGKCSLYVAGAGIDPRLIVPVILDVGTNNERYLQDKDYLGMREKRLGDEEFYELLDEFMEAASAEWPNAVIQFEDFSNNHCFDIMERYQKKYRCFNDDIQGTGAVIAAGFLNAIKLSGVSPLQQRIVVFGAGSAAVGVANNIAALAARMYKFPVQDLVKTFYLVDTKGLVTTTRGDQLAAHKKLLARTDVSAEDSAKLRTLEEIVRFVKPTTLLGLGGVGPAFTEEIVKMVMQNTERPIIFPLSNPTSKAEVTPENAYKWTNGAAIVASGSPFPPTTIGGKTFKPSQGNNLYVFPGVGLGCALAQPTHIPEELLLTASESLNLLTTEGDLREGRLYPPLEDIHNISANVATDVILEAQRMKIDNNKKLPRTRDELLAFVKKAMWKPVYSG 7mfo-a5-m1-cI_7mfo-a5-m1-cJ X-ray structure of the L136 Aminotransferase from Acanthamoeba polyphaga mimivirus in the presence of TDP and PMP Q5UPL1 Q5UPL1 1.7 X-RAY DIFFRACTION 145 1.0 212035 (Acanthamoeba polyphaga mimivirus) 212035 (Acanthamoeba polyphaga mimivirus) 350 351 7mfo-a1-m1-cA_7mfo-a1-m1-cB 7mfo-a2-m1-cD_7mfo-a2-m1-cC 7mfo-a3-m1-cF_7mfo-a3-m1-cE 7mfo-a4-m1-cH_7mfo-a4-m1-cG 7mfp-a1-m1-cA_7mfp-a1-m1-cB 7mfp-a2-m1-cD_7mfp-a2-m1-cC 7mfq-a1-m1-cA_7mfq-a1-m1-cB 7mfq-a2-m1-cD_7mfq-a2-m1-cC LEKLTWVSEKKPDWSNVQKLIAACEATNQYTNIGPIISQLESFIRDSFLIEESKAVIVTSNGTSALHALVGGINRQLGRELKFVTQSFTFPSSNQGPLKDSIIVDIDEDGGLDLNAVKNIEYDGIIVTNIHGNVVDINKYVDFCMNHNKLLIFDNAATGYTFYLGKNSCNYGHASIISFHHTKPFGFGEGGCIIVDRLYENNIRIGLNFGLDNSLGEKSQYSNQASNYRMCDLNAAFILSYLQNNYKKIINRHSEIYEIYKNNLPKRFKLFPNHSKKNPVCSSICLLFDKPFRLDKIPFLSRKYYKPLDLSSPVSLDFYQRILCIPCNIDLTDRQIYEIIGVLNEFADKN GLEKLTWVSEKKPDWSNVQKLIAACEATNQYTNIGPIISQLESFIRDSFLIEESKAVIVTSNGTSALHALVGGINRQLGRELKFVTQSFTFPSSNQGPLKDSIIVDIDEDGGLDLNAVKNIEYDGIIVTNIHGNVVDINKYVDFCMNHNKLLIFDNAATGYTFYLGKNSCNYGHASIISFHHTKPFGFGEGGCIIVDRLYENNIRIGLNFGLDNSLGEKSQYSNQASNYRMCDLNAAFILSYLQNNYKKIINRHSEIYEIYKNNLPKRFKLFPNHSKKNPVCSSICLLFDKPFRLDKIPFLSRKYYKPLDLSSPVSLDFYQRILCIPCNIDLTDRQIYEIIGVLNEFADKN 7mfs-a1-m1-cAAA_7mfs-a1-m1-cBBB N-Acetylmannosamine-6-phosphate 2-epimerase from Staphylococcus aureus (strain MRSA USA300) with substrate and product bound X5EM89 X5EM89 1.51 X-RAY DIFFRACTION 119 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 222 222 1y0e-a3-m1-cA_1y0e-a3-m1-cB 7mfn-a1-m1-cAAA_7mfn-a1-m1-cBBB 7mqt-a1-m1-cBBB_7mqt-a1-m1-cAAA MLPHGLIVSCQALPDEPLHSSFIMSKMALAAYEGGAVGIRANTKEDILAIKETVDLPVIGIVKRDYDHSDVFITATSKEVDELIESQCEVIALDATLQQRPKETLDELVSYIRTHAPNVEIMADIATVEEAKNAARLGFDYIGTTLHGYTSYTQGQLLYQNDFQFLKDVLQSVDAKVIAEGNVITPDMYKRVMDLGVHCSVVGGAITRPKEITKRFVQIMED MLPHGLIVSCQALPDEPLHSSFIMSKMALAAYEGGAVGIRANTKEDILAIKETVDLPVIGIVKRDYDHSDVFITATSKEVDELIESQCEVIALDATLQQRPKETLDELVSYIRTHAPNVEIMADIATVEEAKNAARLGFDYIGTTLHGYTSYTQGQLLYQNDFQFLKDVLQSVDAKVIAEGNVITPDMYKRVMDLGVHCSVVGGAITRPKEITKRFVQIMED 7mft-a1-m2-cG_7mft-a1-m6-cG Glutamate synthase, glutamate dehydrogenase counter-enzyme complex (GudB6-GltA6-GltB6) P39812 P39812 3.9 ELECTRON MICROSCOPY 11 1.0 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 535026 (Bacillus subtilis subsp. subtilis NCIB 3610 = ATCC 6051 = DSM 10) 1483 1483 7mft-a1-m1-cG_7mft-a1-m4-cG 7mft-a1-m3-cG_7mft-a1-m5-cG CGIGLYAHLKGKQTHDIVKQGLKMLCQLDHRGGQGSDPDTGDGAGLLVQIPDAFFRKECKNINLPEKERYGVGMVFFSQKEDERKKIEKQINALIEQEGQVVLGWRTVPVNVGKIGTVAQKSCPFVRQVFIGASSDLKDNLSFERKLYVIRKQAENWGVTEGLDFYFASLSSQTIVYKGLLTPEQVDAFYSDLQDEAFVSAFALVHSRFSTNTFPTWERAHPNRYLVHNGEINTLRGNINWMRAREQQFVSESFGEDLNKILPILNADGSDSSILDNAFEFFVMAGRKPAHTAMMLIPEPWTENTHMSKEKRAFYEYHSSLMEPWDGPTAISFTDGKQIGAILDRNGLRPARYYVTKDDYIIFSSEVGVIEVEQENVLYKNRLEPGKMLLIDLEEGRIISDEEVKTQIATEYPYQKWLEEELVQVNPDPESREEEQFSDLLTRQKAFGYTYEDIQKYLIPVIKEGKDPLGSMGNDAPLAVLSDRAQSLFNYFKQLFAQVTNPPIDAIREQLVTSTMTWLGAEGDLLHPSERNVRRIKLYTPVLSNEQFYALKTIVHPDLKSQKIDVLFSEDLERGLKDMFTQAEKAISQGVSLLILSDKKMNERLTPIPPLLAVSALHQHLIRKGLRTKVSIIVESGEAREVHHFAALIGYGADAINPYLAYATYKQEIDEGRLDISYEEAVSKYGKSITEGVVKVMSKMGISTVQSYRGAQIFEAVGISRDVIDRYFSGTASQLGGIDLQTIAEEAQRRHREAYQDDYSKTLEPGSDFQWRNGGEHHAFNPKTIHTLQWACRRNDYNLFKQYTKAADEERIGFLRNLFAFDGNRKPLKLEEVESAESIVKRFKTGAMSFGSLSKEAHEALAIAMNRLGGKSNSGEGGEDPKRFVPDENGDDRRSAIKQIASGRFGVKSHYLVNADELQIKMAQGAKPGEGGQLPGNKVYPWVADVRGSTPGVGLISPPPHHDIYSIEDLAQLIHDLKNANRDARISVKLVSKAGVGTIAAGVAKATADVIVISGYDGGTGASPKTSIKHTGLPWELGLAEAHQTLMLNGLRDRVVLETDGKLMTGRDVVMAALLGAEEFGFATAPLVVLGCVMMRACHLDTCPVGVATQNPELRKKFMGDPDHIVNYMLFIAEEVREYMAALGFKTFDEMIGRTDVLHVSERAKEHWKASQLDLSTLLYQPEGVRTFQSPQNHKIDQSLDITTILPAVQEAIESGKEADISIEINNTNRVAGTITGSEISKRYGEEGLPEDTIKLHFTGSAGQSFGAFVPKGMTLYLDGDSNDYVGKGLSGGKIIVKSSEGFNSASDDNVIIGNVAFYGATSGEAYINGRAGERFAVRNSGVNVVVEGIGDHGCEYMTGGSVVVLGDVGKNFAAGMSGGIAYVLTEDVKAFKRKCNLEMILFESLEDEKEIQQIKAMLERHTAYTNSQKAEDLLDQWEDSVKKFVKVIPKNYKQMLASIEEQKAAGLSDEEAIMFAFEANTK CGIGLYAHLKGKQTHDIVKQGLKMLCQLDHRGGQGSDPDTGDGAGLLVQIPDAFFRKECKNINLPEKERYGVGMVFFSQKEDERKKIEKQINALIEQEGQVVLGWRTVPVNVGKIGTVAQKSCPFVRQVFIGASSDLKDNLSFERKLYVIRKQAENWGVTEGLDFYFASLSSQTIVYKGLLTPEQVDAFYSDLQDEAFVSAFALVHSRFSTNTFPTWERAHPNRYLVHNGEINTLRGNINWMRAREQQFVSESFGEDLNKILPILNADGSDSSILDNAFEFFVMAGRKPAHTAMMLIPEPWTENTHMSKEKRAFYEYHSSLMEPWDGPTAISFTDGKQIGAILDRNGLRPARYYVTKDDYIIFSSEVGVIEVEQENVLYKNRLEPGKMLLIDLEEGRIISDEEVKTQIATEYPYQKWLEEELVQVNPDPESREEEQFSDLLTRQKAFGYTYEDIQKYLIPVIKEGKDPLGSMGNDAPLAVLSDRAQSLFNYFKQLFAQVTNPPIDAIREQLVTSTMTWLGAEGDLLHPSERNVRRIKLYTPVLSNEQFYALKTIVHPDLKSQKIDVLFSEDLERGLKDMFTQAEKAISQGVSLLILSDKKMNERLTPIPPLLAVSALHQHLIRKGLRTKVSIIVESGEAREVHHFAALIGYGADAINPYLAYATYKQEIDEGRLDISYEEAVSKYGKSITEGVVKVMSKMGISTVQSYRGAQIFEAVGISRDVIDRYFSGTASQLGGIDLQTIAEEAQRRHREAYQDDYSKTLEPGSDFQWRNGGEHHAFNPKTIHTLQWACRRNDYNLFKQYTKAADEERIGFLRNLFAFDGNRKPLKLEEVESAESIVKRFKTGAMSFGSLSKEAHEALAIAMNRLGGKSNSGEGGEDPKRFVPDENGDDRRSAIKQIASGRFGVKSHYLVNADELQIKMAQGAKPGEGGQLPGNKVYPWVADVRGSTPGVGLISPPPHHDIYSIEDLAQLIHDLKNANRDARISVKLVSKAGVGTIAAGVAKATADVIVISGYDGGTGASPKTSIKHTGLPWELGLAEAHQTLMLNGLRDRVVLETDGKLMTGRDVVMAALLGAEEFGFATAPLVVLGCVMMRACHLDTCPVGVATQNPELRKKFMGDPDHIVNYMLFIAEEVREYMAALGFKTFDEMIGRTDVLHVSERAKEHWKASQLDLSTLLYQPEGVRTFQSPQNHKIDQSLDITTILPAVQEAIESGKEADISIEINNTNRVAGTITGSEISKRYGEEGLPEDTIKLHFTGSAGQSFGAFVPKGMTLYLDGDSNDYVGKGLSGGKIIVKSSEGFNSASDDNVIIGNVAFYGATSGEAYINGRAGERFAVRNSGVNVVVEGIGDHGCEYMTGGSVVVLGDVGKNFAAGMSGGIAYVLTEDVKAFKRKCNLEMILFESLEDEKEIQQIKAMLERHTAYTNSQKAEDLLDQWEDSVKKFVKVIPKNYKQMLASIEEQKAAGLSDEEAIMFAFEANTK 7mfw-a1-m1-cA_7mfw-a1-m1-cB Drosophila melanogaster Canoe PDZ domain in complex with Echinoid C-terminal region Q9VN82 Q9VN82 2.104 X-RAY DIFFRACTION 39 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 93 98 QLIKLHKNSNGMGLSIVAAKGAGQEKLGIYIKSVVPGGAADADGRLQAGDQLLRVDGQSLIGITQERAADYLVRTGPVVSLEVAKQIIREIIV PELQLIKLHKNSNGMGLSIVAAKGAGQEKLGIYIKSVVPGGAADADGRLQAGDQLLRVDGQSLIGITQERAADYLVRTGPVVSLEVAKQGAIIREIIV 7mfw-a2-m1-cA_7mfw-a2-m2-cB Drosophila melanogaster Canoe PDZ domain in complex with Echinoid C-terminal region Q9VN82 Q9VN82 2.104 X-RAY DIFFRACTION 31 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 93 98 QLIKLHKNSNGMGLSIVAAKGAGQEKLGIYIKSVVPGGAADADGRLQAGDQLLRVDGQSLIGITQERAADYLVRTGPVVSLEVAKQIIREIIV PELQLIKLHKNSNGMGLSIVAAKGAGQEKLGIYIKSVVPGGAADADGRLQAGDQLLRVDGQSLIGITQERAADYLVRTGPVVSLEVAKQGAIIREIIV 7mgm-a1-m1-cB_7mgm-a1-m1-cC Structure of yeast cytoplasmic dynein with AAA3 Walker B mutation bound to Lis1 P39946 P39946 3.1 ELECTRON MICROSCOPY 28 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 342 348 5vlj-a1-m1-cB_5vlj-a1-m1-cC VLKWIPRNLPSCLINVESSVTSVKLHPNLPIVFVATDHGKLYAFDLFNYTIPLASLQSHTKAITSMDVLFTNYTNKKNYLVIVTASKDLQIHVFKWVSEECKFQQIRSLLGHEHIVSAVKIWQKNNDVHIASCSRDQTVKIWDFHNGWSLKTFQPHSQWVRSIDVLGDYIISGSHDTTLRLTHWPSGNGLSVGTGHEFPIEKVKFIHFIEIRFRTPSTDRYKNWGMQYCVSASRDRTIKIWEIPLPTLAPIPSNFRCVLTLKGHLSWVRDISIRGQYLFSCADDKSVRCWDLNTGQCLHVWEKLHTGFVNCLDLDVDFDSNVTPRQMMVTGGLDCKSNVFMR VLKWIPRNLPSCLINVESSVTSVKLHPNLPIVFVATDHGKLYAFDLFNYTIPLASLQSHTKAITSMDVLFTNYTNKKNYLVIVTASKDLQIHVFKWVSEECKFQQIRSLLGHEHIVSAVKIWQKNNDVHIASCSRDQTVKIWDFHNGWSLKTFQPHSQWVRSIDVLGDYIISGSHDTTLRLTHWPSGNGLSVGTGHEFPIEKVKFIHFIEDEIRFRTPSTDRYKNWGMQYCVSASRDRTIKIWEIPLPTLAPIPNPTDSNFRCVLTLKGHLSWVRDISIRGQYLFSCADDKSVRCWDLNTGQCLHVWEKLHTGFVNCLDLDVDFDSNVTPRQMMVTGGLDCKSNVFMR 7mgp-a1-m2-cA_7mgp-a1-m6-cA CmcA from Type II Cut MCP Q8G9V5 Q8G9V5 1.65 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 93 93 7mgp-a1-m1-cA_7mgp-a1-m5-cA 7mgp-a1-m1-cA_7mgp-a1-m6-cA 7mgp-a1-m2-cA_7mgp-a1-m4-cA 7mgp-a1-m3-cA_7mgp-a1-m4-cA 7mgp-a1-m3-cA_7mgp-a1-m5-cA 7mpw-a1-m1-cB_7mpw-a1-m1-cA 7mpw-a1-m1-cC_7mpw-a1-m1-cB 7mpw-a1-m1-cE_7mpw-a1-m1-cD 7mpw-a1-m1-cF_7mpw-a1-m1-cA HHHHDALGLIETKGLVACIAAADAMCASANVELIGYENIGSGLVTVMVKGDVGAVKASVDSGLESAQHIGEVVTSLVIARPHNDINKIVIKHK HHHHDALGLIETKGLVACIAAADAMCASANVELIGYENIGSGLVTVMVKGDVGAVKASVDSGLESAQHIGEVVTSLVIARPHNDINKIVIKHK 7mgq-a2-m1-cC_7mgq-a2-m1-cD AICAR transformylase/IMP cyclohydrolase (ATIC) is essential for de novo purine biosynthesis and infection by Cryptococcus neoformans A0A225ZZG7 A0A225ZZG7 2.67 X-RAY DIFFRACTION 425 1.0 5207 (Cryptococcus neoformans) 5207 (Cryptococcus neoformans) 598 602 7mgq-a1-m1-cB_7mgq-a1-m1-cA EAPIALLSVYDKTGLLPFAKSLKELGFRLLGSGGTAKMIREAGMEIEDVSNITKAPEMLGGRVKTLHPAVHGGILSRDIPSDLADLATNKISPITLVVCNLYPFVLQTAKPDCTLAGAIEEIDIGGVTLLRAAAKNHGRVSIISSPSDYETIVAELRAKGEVSAETRRGLAIKAFEDTKSYDEAISDYFRKVYATPGVEEEMKAGAGVGYQRLGLRYGANPHQKPAQAFVEQGEMPIKVLSGSPGYINLLDALNSWALVKELAAGLDLPAAASFKHVSPAGAAVGLPLDERAAKVFGVEDLKELSPLACAYARARGADRMSSFGDFIALSHTVDTPTAKIISREVSDGVIAPGYEPEALEILSKKKGGKYCVLQMDPTYVPPEIETRQVYGISLQQKRNDCKIDESLFKNVVTANKDLPKSAVTDLVVATLALKYTQSNSVCYALNGTVIGLGAGQQSRIHCTRLAGDKADNWWLRHHPRVLELPFKKGTKRADKANAIDLFVTGQAFEERAQWESLFETVPEPLTKEEREKHMKELTGVACASDAFFPFPDNVHRAKRSGATYLAAPSGSIMDKECIKAADESNLVFCHTDLRLFHH EAPIALLSVYDKTGLLPFAKSLKELGFRLLGSGGTAKMIREAGMEIEDVSNITKAPEMLGGRVKTLHPAVHGGILSRDIPSDLADLATNKISPITLVVCNLYPFVLQTAKPDCTLAGAIEEIDIGGVTLLRAAAKNHGRVSIISSPSDYETIVAELRAKGEVSAETRRGLAIKAFEDTKSYDEAISDYFRKVYATPGVEEEMKAGAGVGYQRLGLRYGANPHQKPAQAFVEQGEMPIKVLSGSPGYINLLDALNSWALVKELAAGLDLPAAASFKHVSPAGAAVGLPLDERAAKVFGVEDLKELSPLACAYARARGADRMSSFGDFIALSHTVDTPTAKIISREVSDGVIAPGYEPEALEILSKKKGGKYCVLQMDPTYVPPEIETRQVYGISLQQKRNDCKIDESLFKNVVTANKDLPKSAVTDLVVATLALKYTQSNSVCYALNGTVIGLGAGQQSRIHCTRLAGDKADNWWLRHHPRVLELPFKKGTKRADKANAIDLFVTGQAFEAEGGERAQWESLFETVPEPLTKEEREKHMKELTGVACASDAFFPFPDNVHRAKRSGATYLAAPSGSIMDKECIKAADESNLVFCHTDLRLFHH 7mgv-a1-m1-cA_7mgv-a1-m1-cB Chryseobacterium gregarium RiPP-associated ATP-grasp ligase in complex with ADP, and a leader and core peptide 2.44 X-RAY DIFFRACTION 243 1.0 1121287 (Chryseobacterium gregarium DSM 19109) 1121287 (Chryseobacterium gregarium DSM 19109) 333 333 MNKILIITHTADNFSIDKVTEYIDKNGCEVIRFNVDEYPLKNKLSTTFQDGKWTTTLETPEKKNSLEDISTVWYRRAYNIGHGIKEELDAKFYGAAMGEIRNTLFGFLESIDAYSLGKPSVYRRLDSKEEQLKIADKIGFKIPATCVTNNPEEAKRFIVKHRDVVAKMQTGFAIYEDGVENVVFTNVVNEDKLEELDTLLYCPMQFQKKIEKKKELRITVVGRDVYAFEIDSQQSEAAKTDWRKDGINLIDKWIPTELPQDIEFMILELLDVYHVDYGAIDMIVSPEDEYYFIEINAAGEFFWLDNLTEENRISKSIADLLCDKAPRRDNRVL MNKILIITHTADNFSIDKVTEYIDKNGCEVIRFNVDEYPLKNKLSTTFQDGKWTTTLETPEKKNSLEDISTVWYRRAYNIGHGIKEELDAKFYGAAMGEIRNTLFGFLESIDAYSLGKPSVYRRLDSKEEQLKIADKIGFKIPATCVTNNPEEAKRFIVKHRDVVAKMQTGFAIYEDGVENVVFTNVVNEDKLEELDTLLYCPMQFQKKIEKKKELRITVVGRDVYAFEIDSQQSEAAKTDWRKDGINLIDKWIPTELPQDIEFMILELLDVYHVDYGAIDMIVSPEDEYYFIEINAAGEFFWLDNLTEENRISKSIADLLCDKAPRRDNRVL 7mh7-a1-m1-cA_7mh7-a1-m4-cA crystal structure of NAD kinase from Pseudomonas aeruginosa PAO1 Q9HZC0 Q9HZC0 2.61 X-RAY DIFFRACTION 129 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 290 290 7mh7-a1-m2-cA_7mh7-a1-m3-cA 7qvs-a1-m1-cA_7qvs-a1-m2-cA 7qvs-a1-m1-cB_7qvs-a1-m2-cB EPFRNIGIIGRLGSTQVLDTIRRLKKFLIDRHLHVILEDTIAEVLPGHGLQTCSRKIMGEICDLVVVVGGDGSMLGAARALARHKVPVLGINRGSLGFLTDIRPDELEAKVGEVLDGQYIVESRFLLDAQVRRGIDSMGQGDALNDVVLHPGKSTRMIEFELYIDGQFVCSQKADGLIVATPTGSTAYALSAGGPIMHPKLDAIVIVPMYPHMLSSRPIVVDGNSELKIVVSPNMQIYPQVSCDGQNHFTCAPGDTVTISKKPQKLRLIHPIDHNYYEICRTKLGWGSRL EPFRNIGIIGRLGSTQVLDTIRRLKKFLIDRHLHVILEDTIAEVLPGHGLQTCSRKIMGEICDLVVVVGGDGSMLGAARALARHKVPVLGINRGSLGFLTDIRPDELEAKVGEVLDGQYIVESRFLLDAQVRRGIDSMGQGDALNDVVLHPGKSTRMIEFELYIDGQFVCSQKADGLIVATPTGSTAYALSAGGPIMHPKLDAIVIVPMYPHMLSSRPIVVDGNSELKIVVSPNMQIYPQVSCDGQNHFTCAPGDTVTISKKPQKLRLIHPIDHNYYEICRTKLGWGSRL 7mhv-a1-m1-cA_7mhv-a1-m2-cA Crystal Structure of Cysteine desulfurase NifS from Legionella pneumophila Philadelphia 1 in complex with pyridoxal 5'-phosphate Q5ZUP7 Q5ZUP7 1.75 X-RAY DIFFRACTION 220 1.0 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 272624 (Legionella pneumophila subsp. pneumophila str. Philadelphia 1) 370 370 KPIYFDYMATTPVDPRVVEQMIKYLGPEGDFGNPASATHEYGRVASMAVEQARSQIAETINASPQEIVFTSGATEADNLAILGAARFYKNKGMHLVTMSTEHKAVLDSFHQLEKEGFQVTYLNPESDGLLDLEKLESALRLDTILVSVMHVNNEIGVIQDIASIGELLRNRGIIFHVDAAQSAGKLPIDLSQLSVDLMSFSAHNYGPKGVGALYVRHKPRIRLQPLSYGGGHEGGLRSGTLPTHQIVGMGEAFAIAEADRIPEQTRILNLRKQLWDGIRHLPAIKLNGHEHRRIAGNLNVSFVGLNGDSLLFALSELAISTSYVLRAIGLTDTEAQSTIRLSIGRFTSEVQIKKAIDIICTQVSRLHELS KPIYFDYMATTPVDPRVVEQMIKYLGPEGDFGNPASATHEYGRVASMAVEQARSQIAETINASPQEIVFTSGATEADNLAILGAARFYKNKGMHLVTMSTEHKAVLDSFHQLEKEGFQVTYLNPESDGLLDLEKLESALRLDTILVSVMHVNNEIGVIQDIASIGELLRNRGIIFHVDAAQSAGKLPIDLSQLSVDLMSFSAHNYGPKGVGALYVRHKPRIRLQPLSYGGGHEGGLRSGTLPTHQIVGMGEAFAIAEADRIPEQTRILNLRKQLWDGIRHLPAIKLNGHEHRRIAGNLNVSFVGLNGDSLLFALSELAISTSYVLRAIGLTDTEAQSTIRLSIGRFTSEVQIKKAIDIICTQVSRLHELS 7mi5-a1-m1-cB_7mi5-a1-m1-cA Asymmetrical PAM-Non PAM prespacer bound Cas4/Cas1/Cas2 complex Q74H36 Q74H36 3.57 ELECTRON MICROSCOPY 141 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 340 553 7mi4-a1-m1-cB_7mi4-a1-m1-cA 7mi4-a1-m1-cD_7mi4-a1-m1-cC 7mi5-a1-m1-cD_7mi5-a1-m1-cC 7mi9-a1-m1-cB_7mi9-a1-m1-cA 7mi9-a1-m1-cC_7mi9-a1-m1-cD 7mib-a1-m1-cB_7mib-a1-m1-cA 7mib-a1-m1-cD_7mib-a1-m1-cC 7mid-a1-m1-cB_7mid-a1-m1-cA GRGLPLYVQSPKAYVRKDGDCLVIEEERVRVAEARLGETSQVALFGNATLTTAALHECLRREIPVTWLSYGGWFMGHTVSTGHRNVETRTYQYQRSFDPETCLNLARRWIVAKIANCRTLLRRNWRGEGDEAKAPPGLLMSLQDDMRHAMRAPSLEVLLGIEGASAGRYFQHFSRMLRGGDGEGMGFDFTTRNRRPPKDPVNALLSFAYAMLTREWTVALAAVGLDPYRGFYHQPRFGRPALALDMMEPFRPLIADSTVLMAINNGEIRTGDFVRSAGGCNLTDSARKRFIAGFERRMEQEVTHPIFKYTISYRRLLEVQARLLTRYLSGEIPAYPNFVT GSIPLIPVRMLNEHVYCPRLAYLMWVQGEFSHNEFTVDGVIRHRRVDAGGGVLPSETQEDSRIHARSVSLSSERLGITAKIDLVEGEGAYVSPVDYKRGKRPHVAGGAYEPERVQLCAQGLLLREHGFASDGGALYFVASRERVPVAFDDELIGRTLAAIDEMGRTALSGTMPPPLEDSPKCPRCSLVGICLPDEVRFLSHLSVEPRPIIPADGRGLPLYVQSPKAYVRKDGDCLVIEEERVRVAEARLGETSQVALFGNATLTTAALHECLRREIPVTWLSYGGWFMGHTVSTGHRNVETRTYQYQRSFDPETCLNLARRWIVAKIANCRTLLRRNWRGEGDEAKAPPGLLMSLQDDMRHAMRAPSLEVLLGIEGASAGRYFQHFSRMLRGGDGEGMGFDFTTRNRRPPKDPVNALLSFAYAMLTREWTVALAAVGLDPYRGFYHQPRFGRPALALDMMEPFRPLIADSTVLMAINNGEIRTGDFVRSAGGCNLTDSARKRFIAGFERRMEQEVTHPIFKYTISYRRLLEVQARLLTRYLSGEIPAYPNFVT 7mid-a1-m1-cD_7mid-a1-m1-cC Sub-complex of Cas4-Cas1-Cas2 bound PAM containing DNA Q74H35 Q74H35 3.56 ELECTRON MICROSCOPY 93 1.0 243231 (Geobacter sulfurreducens PCA) 243231 (Geobacter sulfurreducens PCA) 91 95 7mi4-a1-m1-cE_7mi4-a1-m1-cF 7mi5-a1-m1-cE_7mi5-a1-m1-cF 7mi9-a1-m1-cE_7mi9-a1-m1-cF 7mib-a1-m1-cE_7mib-a1-m1-cF MEHLYIVSYDIRNQRRWRRLFKTMHGFGCWLQLSVFQCRLDRIRIIKMEAAINEIVNHAEDHVLILDLGPAENVKPKVSSIGKTFDPILRQ MEHLYIVSYDIRNQRRWRRLFKTMHGFGCWLQLSVFQCRLDRIRIIKMEAAINEIVNHAEDHVLILDLGPAENVKPKVSSIGKTFDPILRQAVIV 7miq-a1-m1-cB_7miq-a1-m1-cA Crystal structure of a Glutathione S-transferase class Gtt2 of Vibrio parahaemolyticus (VpGSTT2) Q87HB4 Q87HB4 1.92 X-RAY DIFFRACTION 95 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 200 207 MKLYETAMTPSCKRVSIFLKEIGGEVERVALNVREGDNLSESFKQKSVNGKVPLLELDDGTTICESVAICRYLDEAFENDLALFGANQLERAQVEMWHRVVEFQGLYAAFQAFRNAAWGEESKSRVLEFLPTLDTRLSESEYIATDQFSVVDITGYIFIGFAVNGLSIEVFEKYPNIARWFEQVSARDAFQSSGLEVLFQ MKLYETAMTPSCKRVSIFLKEIGGEVERVALNVREGDNLSESFKQKSVNGKVPLLELDDGTTICESVAICRYLDEAFENDLALFGANQLERAQVEMWHRVVEFQGLYAAFQAFRNQDRENCVAAWGEESKSRVLEFLPTLDTRLSESEYIATDQFSVVDITGYIFIGFAVNGLSIEVFEKYPNIARWFEQVSARDAFQSSGLEVLFQ 7miw-a1-m1-cA_7miw-a1-m1-cD Crystal Structure of Fumarate hydratase class II from Elizabethkingia anophelis NUHP1 A0A077EJP9 A0A077EJP9 1.25 X-RAY DIFFRACTION 188 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 463 464 7miw-a1-m1-cB_7miw-a1-m1-cC HMIYRTEHDTMGEVKVPVDKFWGAQTERSRNNFKIGPEASMPHEIIEAFAYLKKAAAYANTDLRVLPSDKRDMISQVCDEILEGKLFDQFPLVIWQTGSGTQSNMNINEVISNKAHVNNGGQLGEKSEVHPNDDVNKSQSSNDTYPTAMHIAAYKKVVEHTIPAVETLKNTLKAKSEAFKNIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLKALKNTLPHLAELALGGTAVGTGLNTPQGYDVKVAEYIAKFTGLPFITAENKFEALAAHDAIVESHGALKQLAVSLFKIAQDIRMLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNEPRIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLVTAEQFDEWVKPEDMVGS HMIYRTEHDTMGEVKVPVDKFWGAQTERSRNNFKIGPEASMPHEIIEAFAYLKKAAAYANTDLRVLPSDKRDMISQVCDEILEGKLFDQFPLVIWQTGSGTQSNMNINEVISNKAHVNNGGQLGEKSEVHPNDDVNKSQSSNDTYPTAMHIAAYKKVVEHTIPAVETLKNTLKAKSEAFKNIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLKALKNTLPHLAELALGGTAVGTGLNTPQGYDVKVAEYIAKFTGLPFITAENKFEALAAHDAIVESHGALKQLAVSLFKIAQDIRMLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNEPRIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLVTAEQFDEWVKPEDMVGSL 7miw-a1-m1-cB_7miw-a1-m1-cD Crystal Structure of Fumarate hydratase class II from Elizabethkingia anophelis NUHP1 A0A077EJP9 A0A077EJP9 1.25 X-RAY DIFFRACTION 143 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 463 464 7miw-a1-m1-cA_7miw-a1-m1-cC HMIYRTEHDTMGEVKVPVDKFWGAQTERSRNNFKIGPEASMPHEIIEAFAYLKKAAAYANTDLRVLPSDKRDMISQVCDEILEGKLFDQFPLVIWQTGSGTQSNMNINEVISNKAHVNNGGQLGEKSEVHPNDDVNKSQSSNDTYPTAMHIAAYKKVVEHTIPAVETLKNTLKAKSEAFKNIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLKALKNTLPHLAELALGGTAVGTGLNTPQGYDVKVAEYIAKFTGLPFITAENKFEALAAHDAIVESHGALKQLAVSLFKIAQDIRMLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNEPRIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLVTAEQFDEWVKPEDMVGS HMIYRTEHDTMGEVKVPVDKFWGAQTERSRNNFKIGPEASMPHEIIEAFAYLKKAAAYANTDLRVLPSDKRDMISQVCDEILEGKLFDQFPLVIWQTGSGTQSNMNINEVISNKAHVNNGGQLGEKSEVHPNDDVNKSQSSNDTYPTAMHIAAYKKVVEHTIPAVETLKNTLKAKSEAFKNIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLKALKNTLPHLAELALGGTAVGTGLNTPQGYDVKVAEYIAKFTGLPFITAENKFEALAAHDAIVESHGALKQLAVSLFKIAQDIRMLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNEPRIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLVTAEQFDEWVKPEDMVGSL 7miw-a1-m1-cC_7miw-a1-m1-cD Crystal Structure of Fumarate hydratase class II from Elizabethkingia anophelis NUHP1 A0A077EJP9 A0A077EJP9 1.25 X-RAY DIFFRACTION 277 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 464 464 7miw-a1-m1-cA_7miw-a1-m1-cB HMIYRTEHDTMGEVKVPVDKFWGAQTERSRNNFKIGPEASMPHEIIEAFAYLKKAAAYANTDLRVLPSDKRDMISQVCDEILEGKLFDQFPLVIWQTGSGTQSNMNINEVISNKAHVNNGGQLGEKSEVHPNDDVNKSQSSNDTYPTAMHIAAYKKVVEHTIPAVETLKNTLKAKSEAFKNIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLKALKNTLPHLAELALGGTAVGTGLNTPQGYDVKVAEYIAKFTGLPFITAENKFEALAAHDAIVESHGALKQLAVSLFKIAQDIRMLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNEPRIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLVTAEQFDEWVKPEDMVGSL HMIYRTEHDTMGEVKVPVDKFWGAQTERSRNNFKIGPEASMPHEIIEAFAYLKKAAAYANTDLRVLPSDKRDMISQVCDEILEGKLFDQFPLVIWQTGSGTQSNMNINEVISNKAHVNNGGQLGEKSEVHPNDDVNKSQSSNDTYPTAMHIAAYKKVVEHTIPAVETLKNTLKAKSEAFKNIVKIGRTHLMDATPLTLGQEFSGYVAQLEFGLKALKNTLPHLAELALGGTAVGTGLNTPQGYDVKVAEYIAKFTGLPFITAENKFEALAAHDAIVESHGALKQLAVSLFKIAQDIRMLASGPRSGIGEIHIPENEPGSSIMPGKVNPTQNEAMTMVCAQVLGNDTTISFAGTQGNYELNVFKPVMAYNFLQSAQLIADACISFNDHCAVGIEPNEPRIKELVDKSLMLVTALNTHIGYENAAKIAKTAHKNGTTLKEEAINLGLVTAEQFDEWVKPEDMVGSL 7mjd-a1-m1-cA_7mjd-a1-m1-cB Crystal Structure Analysis of ALDH1B1 P30837 P30837 2.12 X-RAY DIFFRACTION 177 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 493 493 7mjc-a1-m1-cA_7mjc-a1-m1-cB 7rad-a1-m1-cA_7rad-a1-m1-cB 7rad-a1-m2-cA_7rad-a1-m2-cB LPSPILNPDIPYNQLFINNEWQDAVSKKTFPTVNPTTGEVIGHVAEGDRADVDRAVKAAREAFRLGSPWRRMDASERGRLLNRLADLVERDRVYLASLETLDNGKPFQESYALDLDEVIKVYRYFAGWADKWHGKTIPMDGQHFCFTRHEPVGVCGQIIPWNFPLVMQGWKLAPALATGNTVVMKVAEQTPLSALYLASLIKEAGFPPGVVNIITGYGPTAGAAIAQHMDVDKVAFTGSTEVGHLIQKAAGDSNLKRVTLELGGKSPSIVLADADMEHAVEQCHEALFFNMGQCCCAGSRTFVEESIYNEFLERTVEKAKQRKVGNPFELDTQQGPQVDKEQFERVLGYIQLGQKEGAKLLCGGERFGERGFFIKPTVFGGVQDDMRIAKEEIFGPVQPLFKFKKIEEVVERANNTRYGLAAAVFTRDLDKAMYFTQALQAGTVWVNTYNIVTCHTPFGGFKESGNGRELGEDGLKAYTEVKTVTIKVPQKNS LPSPILNPDIPYNQLFINNEWQDAVSKKTFPTVNPTTGEVIGHVAEGDRADVDRAVKAAREAFRLGSPWRRMDASERGRLLNRLADLVERDRVYLASLETLDNGKPFQESYALDLDEVIKVYRYFAGWADKWHGKTIPMDGQHFCFTRHEPVGVCGQIIPWNFPLVMQGWKLAPALATGNTVVMKVAEQTPLSALYLASLIKEAGFPPGVVNIITGYGPTAGAAIAQHMDVDKVAFTGSTEVGHLIQKAAGDSNLKRVTLELGGKSPSIVLADADMEHAVEQCHEALFFNMGQCCCAGSRTFVEESIYNEFLERTVEKAKQRKVGNPFELDTQQGPQVDKEQFERVLGYIQLGQKEGAKLLCGGERFGERGFFIKPTVFGGVQDDMRIAKEEIFGPVQPLFKFKKIEEVVERANNTRYGLAAAVFTRDLDKAMYFTQALQAGTVWVNTYNIVTCHTPFGGFKESGNGRELGEDGLKAYTEVKTVTIKVPQKNS 7mk3-a1-m1-cA_7mk3-a1-m1-cB Crystal structure of NPR1 P93002 P93002 3.06 X-RAY DIFFRACTION 87 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 361 365 7mk2-a1-m1-cA_7mk2-a1-m1-cB 7tac-a1-m1-cA_7tac-a1-m1-cB 7tad-a1-m1-cA_7tad-a1-m1-cB TGPDVSALQLLSNSFESVFDSPDDFYSDAKLVLSDGREVSFHRCVLSARSSFFKSALAAAKKEKDAVKLELKEIAKDYEVGFDSVVTVLAYVYSSRVRPPPKGVSECADENCCHVACRPAVDFMLEVLYLAFIFKIPELITLYQRHLLDVVDKVVIEDTLVILKLANICGKACMKLLDRCKEIIVKSNVDMVSLEKSLPEELVKEIIDRRKELGLEVPKVKKHVSNVHKALDSDDIELVKLLLKEDHTNLDDACALHFAVAYCNVKTATDLLKLDLADVNHRNPRGYTVLHVAAMRKEPQLILSLLEKGASASEATLEGRTALMIAKQATMAVECNNIPEQCKHSLKGRLCVEILEQEDKR TGPDVSALQLLSNSFESVFDSPDDFYSDAKLVLSDGREVSFHRCVLSARSSFFKSALAAAKKEKNNTAAVKLELKEIAKDYEVGFDSVVTVLAYVYSSRVRPPPKGVSECADENCCHVACRPAVDFMLEVLYLAFIFKIPELITLYQRHLLDVVDKVVIEDTLVILKLANICGKACMKLLDRCKEIIVKSNVDMVSLEKSLPEELVKEIIDRRKELGLEVPKVKKHVSNVHKALDSDDIELVKLLLKEDHTNLDDACALHFAVAYCNVKTATDLLKLDLADVNHRNPRGYTVLHVAAMRKEPQLILSLLEKGASASEATLEGRTALMIAKQATMAVECNNIPEQCKHSLKGRLCVEILEQEDKRE 7mk8-a1-m2-cA_7mk8-a1-m1-cB Crystal structure of a surface mutant of human fetal-specific CYP3A7 bound to dithiothreitol P24462 P24462 2.15 X-RAY DIFFRACTION 28 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 465 YGTRTHGLFKKLGIPGPTPLPFLGNALSFRKGYWTFDMECYKKYGKVWGIYDGQQPMLAITDPDMIKTVLVKECYSVFTNRRPFGPVGFMKNAISIAEDEEWKRIRSLLSPTFTSGKLKEMVPIIAQYGDVLVRNLRREAETGKPVTLKHVFGAYSMDVITSTSFGVSIDSLNNPQDPFVENTKKLLRFNPLDPFVLSIKVFPFLTPILEALNITVFPREVISFLTKSVKQIKEGRLKVDFLQLMIDSQNTHKALSDLELMAQSIIFIFAGYETTSSVLSFIIYELATHPDVQQKVQKEIDTVLPNKAPPTYDTVLQLEYLDMVVNETLRLFPVAMRLERVCKKDVEINGMFIPKGVVVMIPSYVLHHDPKYWTEPEKFLPERFSAANADNIDPYIYTPFGSGPRNCIGMRFALVNMKLALVRVLQNFSFKPCKETQIPLKLRFGGLLLTEKPIVLKAESRD YGTRTHGLFKKLGIPGPTPLPFLGNALSFRKGYWTFDMECYKKYGKVWGIYDGQQPMLAITDPDMIKTVLVKECYSVFTNRRPFGPVGFMKNAISIAEDEEWKRIRSLLSPTFTSGKLKEMVPIIAQYGDVLVRNLRREAETGKPVTLKHVFGAYSMDVITSTSFGVSIDSLNNPQDPFVENTKKLLRFNPLDPFVLSIKVFPFLTPILEALNITVFPREVISFLTKSVKQIKEGRLKRVDFLQLMIDSQNSETHKALSDLELMAQSIIFIFAGYETTSSVLSFIIYELATHPDVQQKVQKEIDTVLPNKAPPTYDTVLQLEYLDMVVNETLRLFPVAMRLERVCKKDVEINGMFIPKGVVVMIPSYVLHHDPKYWTEPEKFLPERFSAANADNIDPYIYTPFGSGPRNCIGMRFALVNMKLALVRVLQNFSFKPCKETQIPLKLRFGGLLLTEKPIVLKAESRD 7mku-a1-m1-cB_7mku-a1-m1-cA Crystal Structure of ENOYL COA-HYDRATASE2 from Arabidopsis thaliana Q8VYI3 Q8VYI3 2.648 X-RAY DIFFRACTION 78 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 299 300 EFNSDLLLAHKLPETRYTYNERDVAIYALGIGACGQDAVDSDELKFVYHRNGQDLIQVLPTFASLFTLGSLTEGLDLPGFKYDPSLLLHGQQYIEIYRPLPSKASLINKVSLAGLQDKGKAAILELETRSYEEGSGELLCNRTTVFLRGAGGFSNSSQPFSYKNYPSNQGLAVKIPQRQPLTVCEERTQPSQALLYRLSGDYNPLHSDPEFAKLAGFPRPILHGLCTLGFAIKAIIKCVCKGDPTAVKTISGRFLTTVFPGETLITEWLEGLRVIYQTKVKERNKTVLAGYVDIRGLSS EFNSDLLLAHKLPETRYTYNERDVAIYALGIGACGQDAVDSDELKFVYHRNGQDLIQVLPTFASLFTLGSLTEGLDLPGFKYDPSLLLHGQQYIEIYRPLPSKASLINKVSLAGLQDKGKAAILELETRSYEEGSGELLCNRTTVFLRGAGGFSNSSQPFSYKNYPSNQGLAVKIPQRQPLTVCEERTQPSQALLYRLSGDYNPLHSDPEFAKLAGFPRPILHGLCTLGFAIKAIIKCVCKGDPTAVKTISGRFLTTVFPGETLITEWLEGLRVIYQTKVKERNKTVLAGYVDIRGLSSS 7mkv-a2-m1-cC_7mkv-a2-m1-cB Engineered PLP-dependent decarboxylative aldolase from Aspergillus flavus, UstD2.0, bound as the internal aldimine B8NM72 B8NM72 2.25 X-RAY DIFFRACTION 162 1.0 5059 (Aspergillus flavus) 5059 (Aspergillus flavus) 404 405 7mkv-a1-m1-cA_7mkv-a1-m2-cA PLENVIDVESVRSHFPVLGGETAAFNNASGTVVLKEAIESTSNFMYSFPFPPGVDAKSMEAITAYTGNKGKVAAFINALPDEITFGQSTTALFRLLGLSLKPMLNNDCEIVCSTLHEAAASAWIHLSRELGITIKWWSPTTTPNSPDDPVLTTDSLKPLLSPKTRLVTCNHVSNVVGTIHPIREIADVVHTIPGAMLIVDGVASVPHRPVDVKELDVDFYCFSWYLFGPHLGTLYASRKAQDRYMTSINHYFVSSSSLDGKLALGMPSFELQLMCSPIVSYLQDTVGWDRIVRQETVLVTILLEYLLSKPSVYRVFGRRNSDPSQRVAIVTFEVVGRSSGDVAMRVNTRNRFRITSGTLMAPRPTWDVLKPKSSDGLVRVSFVHYNTVEEVRAFCSELDEIVTR TPLENVIDVESVRSHFPVLGGETAAFNNASGTVVLKEAIESTSNFMYSFPFPPGVDAKSMEAITAYTGNKGKVAAFINALPDEITFGQSTTALFRLLGLSLKPMLNNDCEIVCSTLHEAAASAWIHLSRELGITIKWWSPTTTPNSPDDPVLTTDSLKPLLSPKTRLVTCNHVSNVVGTIHPIREIADVVHTIPGAMLIVDGVASVPHRPVDVKELDVDFYCFSWYLFGPHLGTLYASRKAQDRYMTSINHYFVSSSSLDGKLALGMPSFELQLMCSPIVSYLQDTVGWDRIVRQETVLVTILLEYLLSKPSVYRVFGRRNSDPSQRVAIVTFEVVGRSSGDVAMRVNTRNRFRITSGTLMAPRPTWDVLKPKSSDGLVRVSFVHYNTVEEVRAFCSELDEIVTR 7mlv-a1-m1-cB_7mlv-a1-m1-cA Cryo-EM reveals partially and fully assembled native glycine receptors,homomeric tetramer F1RQB7 F1RQB7 4.1 ELECTRON MICROSCOPY 107 0.993 9823 (Sus scrofa) 9823 (Sus scrofa) 296 310 MSPSDFLDKLMGRTSGYDARIRPNFKGPPVNVSCNIFINSFGSIAETTMDYRVNIFLRQQWNDPRLAYNEYPDDSLDLDPSMLDSIWKPDLFFANENKLLRISRNGNVLYSIRITLTLACPMDLKNFPMDVQTCIMQLESFGYTMNDLIFEWQEQGAVQVADGLTLPQFILKEEKDLRYCTKHYNTGKFTCIEARFHLERQMGYYLIQMYIPSLLIVILSWISFWVGLGITTVLTMTTQSSGSRASLPKVSYVKADIWMAVCLLFVFSALLEYAARIGFPMAFLIFNMFYWIIYKI PSDFLDKLMGRTSGYDARIRPNFKGPPVNVSCNIFINSFGSIAETTMDYRVNIFLRQQWNDPRLAYNEYPDDSLDLDPSMLDSIWKPDLFFANETDNKLLRISRNGNVLYSIRITLTLACPMDLKNFPMDVQTCIMQLESFGYTMNDLIFEWQEQGAVQVADGLTLPQFILKEEKDLRYCTKHYNTGKFTCIEARFHLERQMGYYLIQMYIPSLLIVILSWISFWINMDAAPARVGLGITTVLTMTTQSSGSRASLPKVSYVKAIDIWMAVCLLFVFSALLEYAADKISRIGFPMAFLIFNMFYWIIYKI 7mlv-a1-m1-cD_7mlv-a1-m1-cC Cryo-EM reveals partially and fully assembled native glycine receptors,homomeric tetramer F1RQB7 F1RQB7 4.1 ELECTRON MICROSCOPY 43 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 170 274 7mlv-a1-m1-cC_7mlv-a1-m1-cB SPSDFLDKLMGRTSGYDARIRPNFKGPPVNVSCNIFINVNIFLRQQWNDPRLAYNEYPDDSLDLDPSMLDSIWKPDLFFNKLLRISRNGNVLYSIRITLTDVQTCIMQLESFGYTMNDLIFEWQEQGAVQVADGLTLPQFILKEEKDLRYCTKHYKFTCIEARFHLERQM SPSDFLDKLMGRTSGYDARIRPNFKGPPVNVSCNIFINSFGSYRVNIFLRQQWNDPRLAYNEYPDDSLDLDPSMLDSIWKPDLFFANEDNKLLRISRNGNVLYSIRITLTLACPMDLKNFPMDVQTCIMQLESFGYTMNDLIFEWQEQGAVQVADGLTLPQFILKEEKDLRYCTKHYNTGKFTCIEARFHLERQMGYYLIQMYIPSLLIVILSWLGITTVLTMTTQSSGSRASAIDIWMAVCLLFVFSALLISRIGFPMAFLIFNMFYWIIYKI 7mmx-a2-m3-cF_7mmx-a2-m1-cD CutN from Type I Cut MCP A0A0E2J8H5 A0A0E2J8H5 1.9 X-RAY DIFFRACTION 74 1.0 1095731 (Streptococcus intermedius SK54 = ATCC 27335) 1095731 (Streptococcus intermedius SK54 = ATCC 27335) 85 86 7mmx-a1-m1-cA_7mmx-a1-m1-cB 7mmx-a1-m1-cA_7mmx-a1-m2-cC 7mmx-a1-m2-cA_7mmx-a1-m1-cC 7mmx-a1-m2-cA_7mmx-a1-m2-cB 7mmx-a2-m1-cD_7mmx-a2-m1-cE 7mmx-a2-m1-cF_7mmx-a2-m1-cE 7mmx-a2-m1-cF_7mmx-a2-m3-cD 7mmx-a2-m3-cD_7mmx-a2-m3-cE 7mmx-a2-m3-cF_7mmx-a2-m3-cE EALGMIETKGLVGSIEAADAMVDAANVTLIGKEHVGGGLVTVLVRGDVGAVKAATDAGAAAAQRVGELVSVHVIPRPHIEVETIL SEALGMIETKGLVGSIEAADAMVDAANVTLIGKEHVGGGLVTVLVRGDVGAVKAATDAGAAAAQRVGELVSVHVIPRPHIEVETIL 7mmy-a1-m1-cA_7mmy-a1-m1-cB Racemic structure of the cyclic plant peptide PDP-23 1.464 X-RAY DIFFRACTION 44 1.0 34245 (Zinnia elegans) 34245 (Zinnia elegans) 28 28 7l51-a1-m1-cA_7l51-a1-m1-cB GFCWHHSCVPSGTCADFPWPLGHQCFPD GFCWHHSCVPSGTCADFPWPLGHQCFPD 7mnk-a1-m1-cA_7mnk-a1-m1-cD Crystal structure of the tetramerization element of NUP358/RanBP2 (residues 805-832) P49792 P49792 1.1 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 7mnk-a1-m1-cB_7mnk-a1-m1-cC SYEDQNSLLKMICQQVEAIKKEMQELKLNS SYEDQNSLLKMICQQVEAIKKEMQELKLNS 7mnk-a1-m1-cB_7mnk-a1-m1-cD Crystal structure of the tetramerization element of NUP358/RanBP2 (residues 805-832) P49792 P49792 1.1 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 SYEDQNSLLKMICQQVEAIKKEMQELKLNS SYEDQNSLLKMICQQVEAIKKEMQELKLNS 7mnk-a1-m1-cC_7mnk-a1-m1-cD Crystal structure of the tetramerization element of NUP358/RanBP2 (residues 805-832) P49792 P49792 1.1 X-RAY DIFFRACTION 33 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 7mnk-a1-m1-cA_7mnk-a1-m1-cB SYEDQNSLLKMICQQVEAIKKEMQELKLNS SYEDQNSLLKMICQQVEAIKKEMQELKLNS 7mo6-a1-m1-cA_7mo6-a1-m2-cB Guanosine Monophosphate Synthase from Aspergillus fumigatus Af293 Q4WFT3 Q4WFT3 2.3 X-RAY DIFFRACTION 139 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 518 535 EQNPSATFDTILTLDFGSQYTHLITRRLREIGVYSEMLPCTQKLADLPFKPKGIILSGGPYSVYEDGAPHADPAVFELGVPVLGICYGLQEIAYRLGKDNVVAGTAREYGHADLNAQRLDNQGHVDKLFAGLEEHVKVWMSHGDKLVKLPEGFHTIATTANSEYAGIAHETKPVYGIQFHPEVTHTPDGAKLLRNFAVDICGANPNWTMSKFVDQEILRIRKLVGETDHVLGAVSGGVDSTVAAKLMKEAIGDRFHAVLVNNGCMRLNECETVAETLNKHLGINLTVVDASKRFLDGLKGVTDPEKKRMFIGATFIDVFEEEAEKIEALAENSGAKVKWFLQGTLYPDVIESISFKGPSATGMKLIEPLRELFKDEVRQLGRELGIAHELVMRHPFPGPGIAIRVLGEVTPERVDIARKADHIFISMIREAGLYDKISQAYAALDPSKAVGVMGDKRVYAEIIILRAVETTDFMTARAFPFDNEFLSKCATRIINEVHGVSRVLYDISSKPPATIEME AEEQNPSATFDTILTLDFGSQYTHLITRRLREIGVYSEMLPCTQKLADLPFKPKGIILSGGPYSVYEDGAPHADPAVFELGVPVLGICYGLQEIAYRLGKDNVVAGTAREYGHADLNAQRLDNQGHVDKLFAGLEEHVKVWMSHGDKLVKLPEGFHTIATTANSEYAGIAHETKPVYGIQFHPEVTHTPDGAKLLRNFAVDICGANPNWTMSKFVDQEILRIRKLVGETDHVLGAVSGGVDSTVAAKLMKEAIGDRFHAVLVNNGCMRLNECETVAETLNKHLGINLTVVDASKRFLDGLKGVTDPEKKRMFIGATFIDVFEEEAEKIEALAENSGAKVKWFLQGTLYPDVIESISFKGPSATIKTVGALPKRMIEGQGMKLIEPLRELFKDEVRQLGRELGIAHELVMRHPFPGPGIAIRVLGEVTPERVDIARKADHIFISMIREAGLYDKISQAYAALDPSKAVGVMGDKRVYAEIIILRAVETTDFMTARAFPFDNEFLSKCATRIINEVHGVSRVLYDISSKPPATIEME 7moa-a1-m1-cA_7moa-a1-m1-cD Cryo-EM structure of the c-MET II/HGF I complex bound with HGF II in a rigid conformation P14210 P14210 4.9 ELECTRON MICROSCOPY 15 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 254 638 KRRNTIHEFKKSAKTTLIKIDPIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIRNCIIGKGRSYKGTVSITKSGIKCQPWSSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVECMTCNGESYRGLMDHTESGKICQRWDHQTPHRHKFLPERYPDKGFDDNYCRNPDGQPRPWCYTLDPHTRWEYCAIKTCAD KRRNTIHEFKKSAKTTLIKIDPIKTKKVNTADQCANRCTRNKGLPFTCKAFVFDKARKQCLWFPFNSMSSGVKKEFGHEFDLYENKDYIRNCIIGKGRSYKGTVSITKSGIKCQPWSSMIPHEHSFLPSSYRGKDLQENYCRNPRGEEGGPWCFTSNPEVRYEVCDIPQCSEVECMTCNGESYRGLMDHTESGKICQRWDHQTPHRHKFLPERYPDKGFDDNYCRNPDGQPRPWCYTLDPHTRWEYCAIKTCTECIQGQGEGYRGTVNTIWNGIPCQRWDSQYPHEHDMTPENFKCKDLRENYCRNPDGSESPWCFTTDPNIRVGYCSQIPNCQDCYRGNGKNYMGNLSQTRSGLTCSMWDKNMEDLHRHIFWEKLNENYCRNPDDDAHGPWCYTGNPLIPWDYCPISRCVVNGIPTRTNIGWMVSLRYRNKHICGGSLIKESWVLTARQCFPSRDLKDYEAWLGIHDVHGRGDEKCKQVLNVSQLVYGPEGSDLVLMKLARPAVLDDFVSTIDLPNYGCTIPEKTSCSVYGWGYTGLINYDGLLRVAHLYIMGNEKCSQHHRGKVTLNESEICAGAEKIGSGPCEGDYGGPLVCEQHKMRMVLGVIVPGRGCAIPNRPGIFVRVAYYAKWIHKIILT 7mor-a1-m1-cD_7mor-a1-m1-cA CRYSTAL STRUCTURE OF NATIVE BOVINE ARRESTIN 1 IN COMPLEX WITH 5-METHYLENEBIPHOSPHONATE INOSITOL PENTAKISPHAOPHATE (5-PCP IP5) P08168 P08168 2.8 X-RAY DIFFRACTION 61 0.986 9913 (Bos taurus) 9913 (Bos taurus) 361 362 1ayr-a1-m1-cB_1ayr-a1-m1-cC 1ayr-a1-m1-cD_1ayr-a1-m1-cA 7jsm-a1-m1-cA_7jsm-a1-m1-cD 7jsm-a1-m1-cC_7jsm-a1-m1-cB 7jtb-a1-m1-cD_7jtb-a1-m1-cA 7jxa-a1-m1-cD_7jxa-a1-m1-cA 7mp0-a1-m1-cB_7mp0-a1-m1-cC 7mp0-a1-m1-cD_7mp0-a1-m1-cA 7mp1-a1-m1-cB_7mp1-a1-m1-cC 7mp1-a1-m1-cD_7mp1-a1-m1-cA 7mp2-a1-m1-cB_7mp2-a1-m1-cC 7mp2-a1-m1-cD_7mp2-a1-m1-cA HVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQEDIDVMGLSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDVEEDKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLTSSEVATEVPFRLMHPQPENFVFEEFARQNL NHVIFKKISRDKSVTIYLGKRDYIDHVERVEPVDGVVLVDPELVKGKRVYVSLTCAFRYGQEGLSFRRDLYFSQVQVFPPVGASGATTRLQESLIKKLGANTYPFLLTFPDYLPCSVMLQPAPQDVGKSCGVDFEIKAFATHSTDVEEDKIPKKSSVRLLIRKVQHAPRDMGPQPRAEASWQFFMSDKPLRLAVSLSKEIYYHGEPIPVTVAVTNSTEKTVKKIKVLVEQVTNVVLYSSDYYIKTVAAEEAQEKVPPNSSLTKTLTLVPLLANNRERRGIALDGKIKHEDTNLASSTIIKEGIDKTVMGILVSYQIKVKLTVSGLLGELTSSEVATEVPFRLMHPQPEDENFVFEEFARQNL 7mp3-a1-m1-cB_7mp3-a1-m1-cA Grb7-SH2 domain in complex with bicyclic peptide B8 Q14451 Q14451 2.55 X-RAY DIFFRACTION 22 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 97 102 2qms-a3-m1-cA_2qms-a3-m1-cB 2qms-a4-m1-cC_2qms-a4-m1-cD 5tyi-a1-m1-cA_5tyi-a1-m1-cB 5tyi-a2-m1-cD_5tyi-a2-m1-cC 5u06-a1-m1-cB_5u06-a1-m1-cA 5u06-a2-m1-cD_5u06-a2-m1-cC 5u1q-a1-m1-cA_5u1q-a1-m1-cB 5u1q-a2-m1-cD_5u1q-a2-m1-cC QLWFHGRISREESQRLIGQQGLVDGLFLVRESPQGFVLSLCHLQKVKHYLILPSEEEGRLYFSMDDGQTRFTDLLQLVEFHQLNRGILPCLLRHCCT IHRTQLWFHGRISREESQRLIGQQGLVDGLFLVRESQRQGFVLSLCHLQKVKHYLILPSEEEGRLYFSMDDGQTRFTDLLQLVEFHQLNRGILPCLLRHCCT 7mp6-a1-m1-cA_7mp6-a1-m1-cB Neurofibromin homodimer P21359 P21359 6.25 ELECTRON MICROSCOPY 341 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1600 1609 RPVEWVQAVVSRFDEQLPIKTHTKVSTEHNKECLINISKYKFSLVISGLTTILKNVNNKNLYLSQLIILDTLEKCLAGQPETMLVKQLLPEICHFLQHAAELRNSASGVLFSLSCNNFNAVFSRISTRLQELTVVDVHDIELLQYINVDCAKLKRLLKETAFKFKALKKVAQLAVINSLEKAFWNWVENYPDEFTKLYQTDMAECAEKLFDLVDGFAESTKRKAAVWPLQIILLILCPEIIQDISKNNMNKKLFLDSLRKALAGHGGSRQLTESAAIACVKLCKASTYISVIFLLVQSMVVDLKNLLFNPSKPFSVDLMIDCLVSCFRISPNQHFKICLASPSTFHYVLVNSLHRIITNLDWWPKIDAVYCHSVELRNMFGETLHKAVQGDLETRSYKYLLLSMVKLIHADPKLLLCNPGSTAELITGLVQLVPQSHMPEIAQEAMEALLVLHQLDSIDLWPVETFWEISSQMLFYICKKLTSSSTEILKWLREILICRNKFLLKNPICRQAQTKLEVALYMFLWNPDTEAVLVAMSCFRHLCEEADIRCGVPNYNTFMEFASVRAALQKRVMALLRRIEHPTAGNTEAWEDTHAKWEQATKLILSLQEWINMTGFLCALGGVCLTPVSKFMDRLLSLMVCNHEKVGLQIRTNVKDLVGLELSPALYPMLFNKLKNTISKFFDSQGQVLLDTNTQFVEQTIAIMKNLLDNHTEGSSEHLGQASIETMMLNLVRYVRVLGNMVHAIQIKTKLCQLVEVMMARRDDLSFCQEMKFRNKMVEYLTDWVMVKCLTRDLDQASMEAVVSLLAGLPLQPEGVELMEAKSQLFLKYFTLFMNLLNDCSGMSRRLASLRHCTVLAMSNLLNANVDSGLMHSIGLGYHKDLQTRATFMEVLTKILQQGVPGTLLNIALLNLGSSDPSLRSAAYNLLCALTCTFNLKIEGQLLETSGLCIPANNTLFIVSISKTLAANEPHLTLEFLEECISGFSKSSIELKHLCLEYMTPWLSNLVRFCKHNDDAKRQRVTAILDKLITMTINEKQMYPSIQAKIWGSLGQLLDVVLDSFIKTSAIKAEVMADTAVALASGNVKLVSSKVIGRMCKIIDKTCLSPTPTLEQHLMWDDIAILARYMLMLSFNNSLDVAAHLPYLFHVVTFLVATGPLSLRASTHGLVINIIHSLCTCSQLHFSEETKQVLRLSLTEFSLPKFYLLFGISKVKSAAVIAFYERETFALTSLETVTEALLEIMEACMRDIPTCKWLDQWTELAQRFAFQYNPSLQPRALVVFGCISKRVSHGQIKQIIRILSKALESCLKYNSQVLIEATVIALTKLQPLLNKDSPLHKALFWVAVAVLQLDEVNLYSAGTALLEQNLHTLDSLRIFNDKSPEEVFMAIRNPLEWHCKQMDHFVGLNFNSNFNFALVGHLLKGYRHPSPAIVARTVRILHTLLTLVNKHRNCDKFEVNTQSVAYLAALLTVSEEVRSDPKIQALLLTVLATLVKYTTDEFDQRILYEYLAEASVVFPKVFPVVHNLLDSKINTLLSLCQDPNLLNPIHGIVQSVVYHEPQYQTSYLQSFGFNGLWRFAGPFIPDYAELIVKFLDALIDTYLP RPVEWVQAVVSRFDEQLPIKTHTKVSTEHNKECLINISKYKFSLVISGLTTILKNVNNKNLYLSQLIILDTLEKCLAGQPETMLVKQLLPEICHFLQHAAELRNSASGVLFSLSCNNFNAVFSRISTRLQELTVVDVHDIELLQYINVDCAKLKRLLKETAFKFKALKKVAQLAVINSLEKAFWNWVENYPDEFTKLYQTDMAECAEKLFDLVDGFAESTKRKAAVWPLQIILLILCPEIIQDISKNNMNKKLFLDSLRKALAGHGGSRQLTESAAIACVKLCKASTYISVIFLLVQSMVVDLKNLLFNPSKPFSVDLMIDCLVSCFRISPNQHFKICLASPSTFHYVLVNSLHRIITNLDWWPKIDAVYCHSVELRNMFGETLHKAVQGDLETRSYKYLLLSMVKLIHADPKLLLCNPGSTAELITGLVQLVPQSHMPEIAQEAMEALLVLHQLDSIDLWPVETFWEISSQMLFYICKKLTSSSTEILKWLREILICRNKFLLKNPICRQAQTKLEVALYMFLWNPDTEAVLVAMSCFRHLCEEADIRCGVPNYNTFMEFASVRAALQKRVMALLRRIEHPTAGNTEAWEDTHAKWEQATKLILSLQEWINMTGFLCALGGVCLTPVSKFMDRLLSLMVCNHEKVGLQIRTNVKDLVGLELSPALYPMLFNKLKNTISKFFDSQGQVLLDTNTQFVEQTIAIMKNLLDNHTEGSSEHLGQASIETMMLNLVRYVRVLGNMVHAIQIKTKLCQLVEVMMARRDDLSFCQEMKFRNKMVEYLTDWVMVKCLTRDLDQASMEAVVSLLAGLPLQPEGVELMEAKSQLFLKYFTLFMNLLNDCSGMSRRLASLRHCTVLAMSNLLNANVDSGLMHSIGLGYHKDLQTRATFMEVLTKILQQGVPGTLLNIALLNLGSSDPSLRSAAYNLLCALTCTFNLKIEGQLLETSGLCIPANNTLFIVSISKTLAANEPHLTLEFLEECISGFSKSSIELKHLCLEYMTPWLSNLVRFCKHNDDAKRQRVTAILDKLITMTINEKQMYPSIQAKIWGSLGQITDLLDVVLDSFIKTSATGGLGSIKAEVMADTAVALASGNVKLVSSKVIGRMCKIIDKTCLSPTPTLEQHLMWDDIAILARYMLMLSFNNSLDVAAHLPYLFHVVTFLVATGPLSLRASTHGLVINIIHSLCTCSQLHFSEETKQVLRLSLTEFSLPKFYLLFGISKVKSAAVIAFYERETFALTSLETVTEALLEIMEACMRDIPTCKWLDQWTELAQRFAFQYNPSLQPRALVVFGCISKRVSHGQIKQIIRILSKALESCLKYNSQVLIEATVIALTKLQPLLNKDSPLHKALFWVAVAVLQLDEVNLYSAGTALLEQNLHTLDSLRIFNDKSPEEVFMAIRNPLEWHCKQMDHFVGLNFNSNFNFALVGHLLKGYRHPSPAIVARTVRILHTLLTLVNKHRNCDKFEVNTQSVAYLAALLTVSEEVRSDPKIQALLLTVLATLVKYTTDEFDQRILYEYLAEASVVFPKVFPVVHNLLDSKINTLLSLCQDPNLLNPIHGIVQSVVYHEPQYQTSYLQSFGFNGLWRFAGPFIPDYAELIVKFLDALIDTYLP 7mp8-a1-m1-cA_7mp8-a1-m2-cA Crystal structure of the cytosolic domain of Tribolium castaneum PINK1 in the non-phosphorylated state D6WMX4 D6WMX4 3 X-RAY DIFFRACTION 167 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 399 399 TKEEELEGVCAEIREAISKIKAQYYDIDESRFESNPITLNDLSLGKPIAKGTNGVVYSAKVKDDDNKYPFALKMMFNYDIQSNSMEILKAMYRETVPARMYAHDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLRNMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSAEMDKGGNTALMAPEIICQKPGTASVLNYSKADLWAVGAIAYEIFNCHNPFYGPSRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKPGLKVPTSGEILQWLLSLTTKVLCETYPEYLLISSFLCRAKLANVRNALHWIQENLP TKEEELEGVCAEIREAISKIKAQYYDIDESRFESNPITLNDLSLGKPIAKGTNGVVYSAKVKDDDNKYPFALKMMFNYDIQSNSMEILKAMYRETVPARMYAHDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLRNMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSAEMDKGGNTALMAPEIICQKPGTASVLNYSKADLWAVGAIAYEIFNCHNPFYGPSRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKPGLKVPTSGEILQWLLSLTTKVLCETYPEYLLISSFLCRAKLANVRNALHWIQENLP 7mp9-a1-m1-cA_7mp9-a1-m2-cA Crystal structure of the cytosolic domain of Tribolium castaneum PINK1 phosphorylated at Ser205 in complex with ADP analog D6WMX4 D6WMX4 2.8 X-RAY DIFFRACTION 157 1.0 7070 (Tribolium castaneum) 7070 (Tribolium castaneum) 412 412 TKEEELEGVCAEIREAISKIKAQYYDIDESRFESNPITLNDLSLGKPIAKGTNGVVYSAKVKDDDNKYPFALKMMFNYDIQNSMEILKAMYRETVPARMYDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLEGRNMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSAEMDKGGNTALMAPEIICQKPGTASVLNYSKADLWAVGAIAYEIFNCHNPFYGPRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKKVPTSGEILQWLLSLTTKVLCEGKINNKSFGEKFRNWRRTYPEYLLISSFLCRAKLANVRNALHWIQENLPE TKEEELEGVCAEIREAISKIKAQYYDIDESRFESNPITLNDLSLGKPIAKGTNGVVYSAKVKDDDNKYPFALKMMFNYDIQNSMEILKAMYRETVPARMYDLNNWEIELANRRKHLPPHPNIVAIFSVFTDLEGRNMSLFLLMKRYDCNLQSFLSTAPSTRTSLLLLAQLLEGVAHMTAHGIAHRDLKSDNLLLDTSEPESPILVISDFGCCLADKTNGLSLPYTSAEMDKGGNTALMAPEIICQKPGTASVLNYSKADLWAVGAIAYEIFNCHNPFYGPRLKNFNYKEGDLPKLPDEVPTVIQALVANLLKRNPNKRLDPEVAANVCQLFLWAPSTWLKKVPTSGEILQWLLSLTTKVLCEGKINNKSFGEKFRNWRRTYPEYLLISSFLCRAKLANVRNALHWIQENLPE 7mq9-a1-m1-cLK_7mq9-a1-m1-cLL Cryo-EM structure of the human SSU processome, state pre-A1* Q15061 Q15061 3.87 ELECTRON MICROSCOPY 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 118 510 7mq8-a1-m1-cLK_7mq8-a1-m1-cLL 7mqa-a1-m1-cLK_7mqa-a1-m1-cLL PVLLTQGLESNDFEMLNKVLQTRNVNLIKKTVLRMPLHTIIPLLQELTKRLQGHPNSAVLMVQWLKCVLTVHASYLSTLPDLVPQLGTLYQLMESRVKTFQKLSHLHGKLILLITQVT CDPLAPAGVPCAFSPHSQAYFALASTDGHLRVWETANNRLHQEYVPSAHLSGTCTCLAWAPQTDLLALGTAVGSILLYSTVKGELHSKLISGGHDNRVNCIQWHQDSGCLYSCSDDKHIVEWNVQTCKVKCKWKGDNSSVSSLCISPDGKMLLSAGRTIKLWVLETKEVYRHFTGHATPVSSLMFTTIRPPNESQPFDGITGLYFLSGAVHDRLLNVWQVRSENKEKSAVMSFTVTDEPVYIDLTLSENKEEPVKLAVVCRDGQVHLFEHILNGYCKKPLTSNCTIQIATPKPIPILAAGFCSDKMSLLLVYGSWFQPTIERVALNSREPHMCLVRDISNCWAPKVETAITKVRTPVMNSEAKVLVPGIPGHHADLQTNSFPVLLTQGLESNDFEMLNKVLQTRNVNLIKKTVLRMPLHTIIPLLQELTKRLQGHPNSAVLMVQWLKCVLTVHASYLSTLPDLVPQLGTLYQLMESRVKTFQKLSHLHGKLILLITQVTKAKLVYEEESS 7mqs-a1-m1-cE_7mqs-a1-m1-cF The insulin receptor ectodomain in complex with three venom hybrid insulin molecules - asymmetric conformation P06213 P06213 4.4 ELECTRON MICROSCOPY 73 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 806 811 GEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTNCPATQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSRQILKELEESSFRKTFEDYLHNVVFVPREEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLD HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDICPGTNCPATVINGQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHSECLGNCSQPDDPTKCVACRNFYLDGRCVETCPPPYYHFQDWRCVNFSFCQDLHHKCKNSRCHQYVIHNNKCIPECPSGYTMNSSNLLCTPCLGPCPKVCHLLEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGYLKIRRSYALVSLSFFRKLRLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSYIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVTEFSWTVVDIDPPLRSNDPKSQNHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVFWERQAEDSELFELDYCLKGLKLPSRLEESSFRKTFEDYLHEEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDTPEERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRIRATSLAGNGSWTEPTYFYVTDYLD 7mqw-a1-m1-cA_7mqw-a1-m1-cB Histidine triad protein A0R4K9 A0R4K9 1.55 X-RAY DIFFRACTION 100 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 137 137 MSMATVFTKIINRELPGRFVYEDDDIVAFLTIEPMTQGHTLVVPRAELDNWQDIEPAVFARVMEVSQLIGKAVCKAFDTERSGLIIAGLEVPHLHVHVFPARNLSDFGFANVDRNPSPESLDEAQAKIKAALADLQS MSMATVFTKIINRELPGRFVYEDDDIVAFLTIEPMTQGHTLVVPRAELDNWQDIEPAVFARVMEVSQLIGKAVCKAFDTERSGLIIAGLEVPHLHVHVFPARNLSDFGFANVDRNPSPESLDEAQAKIKAALADLQS 7mrh-a1-m1-cA_7mrh-a1-m1-cB Crystal structure of the first bromodomain (BD1) of human BRDT bound to NC-II-259 Q58F21 Q58F21 1.98 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 4kcx-a1-m1-cA_4kcx-a1-m1-cB 5vbr-a3-m1-cB_5vbr-a3-m1-cA 7mrg-a1-m1-cA_7mrg-a1-m1-cB STNQLQYLQKVVLKDLWKHSFSWPFQRPVDAVKLQLPDYYTIIKNPMDLNTIKKRLENKYYAKASECIEDFNTMFSNCYLYNKPGDDIVLMAQALEKLFMQKLSQMPQE STNQLQYLQKVVLKDLWKHSFSWPFQRPVDAVKLQLPDYYTIIKNPMDLNTIKKRLENKYYAKASECIEDFNTMFSNCYLYNKPGDDIVLMAQALEKLFMQKLSQMPQE 7mrj-a1-m1-cB_7mrj-a1-m1-cA Crystal structure of a novel ubiquitin-like TINCR A0A2R8Y7D0 A0A2R8Y7D0 2.12 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 85 KRYHIKVHLADEALLLPLTVRPRDTLSDLRAQLVGQGVSSWKRAFYYNARRLDDHQTVRDARLQDGSVLLLVSDP EGLRRGLSRWKRYHIKVHLADEALLLPLTVRPRDTLSDLRAQLVGQGVSSWKRAFYYNARRLDDHQTVRDARLQDGSVLLLVSDP 7mrm-a1-m1-cB_7mrm-a1-m1-cA Chicken CNTN3 APP complex F1P0B2 F1P0B2 2.75 X-RAY DIFFRACTION 72 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 360 365 GSPGPPEHVRVDEITDTTAQISWQEGTDNHSPVTAYTIQARTPFSVGWQRVTTVPDVIDGNTFTTTVVDLNPWVEYEFRVVASNKIGGGEPSLPSEKVRTEEAVPEIPPAEVSGGGGSRSELVITWDPIPEELQNGEGFGYVVAFRPFGTTTWIQTVVTSPDTPRYVFRNESILPFSPYEVKVGVYNNKGEGPFSSITTVFSAEAEPQIAMFCGKLNMHMNVQNGKWESDPSGTKTCIDTKEGILQYCQEVYPELQITNVVEANQPVTIQNWCKRGWHPHIVVPYRCLVGEFVSDALLVPDKCKLLHQERMDVCETHLHWHTVAKESCSEKSMNLHDYGMLLPCGIDKFRGVEFVCCPLA GSPGPPEHVRVDEITDTTAQISWQEGTDNHSPVTAYTIQARTPFSVGWQRVTTVPDVIDGNTFTTTVVDLNPWVEYEFRVVASNKIGGGEPSLPSEKVRTEEAVPEIPPAEVSGGGGSRSELVITWDPIPEELQNGEGFGYVVAFRPFGTTTWIQTVVTSPDTPRYVFRNESILPFSPYEVKVGVYNNKGEGPFSSITTVFSAEAEPQIAMFCGKLNMHMNVQNGKWESDPSGTKTCIDTKEGILQYCQEVYPELQITNVVEANQPVTIQNWCKRGWKQCNGHPHIVVPYRCLVGEFVSDALLVPDKCKLLHQERMDVCETHLHWHTVAKESCSEKSMNLHDYGMLLPCGIDKFRGVEFVCCPLA 7ms2-a1-m1-cB_7ms2-a1-m1-cA Three-dimensional structure of a GH3 Beta-glucosidase from Clostridium thermocellum in complex with glycerol P14002 P14002 2.04 X-RAY DIFFRACTION 145 1.0 1138384 (Acetivibrio thermocellus AD2) 1138384 (Acetivibrio thermocellus AD2) 744 749 VDIKKIIKQMTLEEKAGLCSGLDFWHTKPVERLGIPSIMMTDGPHGLRKQREDAEIADINNSVPATCFPSAAGLACSWDRELVERVGAALGEECQAENVSILLGPGANIKRSPLCGRNFEYFSEDPYLSSELAASHIKGVQSQGVGACLKHFAANNQEHRRMTVDTIVDERTLREIYFASFENAVKKARPWVVMCAYNKLNGEYCSENRYLLTEVLKNEWMHDGFVVSDWGAVNDRVSGLDAGLDLEMPTSHGITDKKIVEAVKSGKLSENILNRAVERILKVIFMALENKKENAQYDKDAHHRLARQAAAESMVLLKNEDDVLPLKKSGTIALIGAFVKKPRYQGSGSSHITPTRLDDIYEEIKKAGGDKVNLVYSEGYRLENDEELINEAKKAASSSDVAVVFAGLPDEYESEGFDRTHMSIPENQNRLIEAVAEVQSNIVVVLLNGSPVEMPWIDKVKSVLEAYLGGQALGGALADVLFGEVNPSGKLAETFPVKLSHNPSYLNFPGEDDRVEYKEGLFVGYRYYDTKGIEPLFPFGHGLSYTKFEYSDISVDKKDVSDNSIINVSVKVKNVGKMAGKEIVQLYVKDVKSSVRRPEKELKGFEKVFLNPGEEKTVTFTLDKRAFAYYNTQIKDWHVESGEFLILIGRSSRDIVLKESVRVNSTVKIRKRFTVNSAVEDVMSDSSAAAVLGPVLKEITDALQIDMDNAHDMMAANIKNMPLRSLVGYQGRLSEEMLEELVDK MAVDIKKIIKQMTLEEKAGLCSGLDFWHTKPVERLGIPSIMMTDGPHGLRKQREDAEIADINNSVPATCFPSAAGLACSWDRELVERVGAALGEECQAENVSILLGPGANIKRSPLCGRNFEYFSEDPYLSSELAASHIKGVQSQGVGACLKHFAANNQEHRRMTVDTIVDERTLREIYFASFENAVKKARPWVVMCAYNKLNGEYCSENRYLLTEVLKNEWMHDGFVVSDWGAVNDRVSGLDAGLDLEMPTSHGITDKKIVEAVKSGKLSENILNRAVERILKVIFMALENKKENAQYDKDAHHRLARQAAAESMVLLKNEDDVLPLKKSGTIALIGAFVKKPRYQGSGSSHITPTRLDDIYEEIKKAGGDKVNLVYSEGYRLENDGIDEELINEAKKAASSSDVAVVFAGLPDEYESEGFDRTHMSIPENQNRLIEAVAEVQSNIVVVLLNGSPVEMPWIDKVKSVLEAYLGGQALGGALADVLFGEVNPSGKLAETFPVKLSHNPSYLNFPGEDDRVEYKEGLFVGYRYYDTKGIEPLFPFGHGLSYTKFEYSDISVDKKDVSDNSIINVSVKVKNVGKMAGKEIVQLYVKDVKSSVRRPEKELKGFEKVFLNPGEEKTVTFTLDKRAFAYYNTQIKDWHVESGEFLILIGRSSRDIVLKESVRVNSTVKIRKRFTVNSAVEDVMSDSSAAAVLGPVLKEITDALQIDMDNAHDMMAANIKNMPLRSLVGYQGRLSEEMLEELVDK 7msk-a1-m1-cA_7msk-a1-m1-cB ThuS glycosin S-glycosyltransferase C3GCL5 C3GCL5 2.06 X-RAY DIFFRACTION 160 0.998 527032 (Bacillus thuringiensis serovar andalousiensis BGSC 4AW1) 527032 (Bacillus thuringiensis serovar andalousiensis BGSC 4AW1) 421 421 SMETLNDLVTRLEHSHPNSSLLKDLSLIQGNEQYNYIKWGDLSNSQNLNELVFQYEKAPYPSITCGILTYNEERCIKRCLDSLGSQFDEILVLDSHSTDNTTKIINRDFPMVKVIYEPWIDDFSFHRNKLISLTSSEWIYYIDADNYCVDSTNKFKRVAKLIQFLSIDCIISPMIKEHIGHVYTDNRKMFSVKKGIQFKGKVHEEPINADGSIPQNITVDIMICHDGYDPEVINLSEKNDRNIKLTRQMMEEEPSNPKWLYFYARELHYASEDTHIIETLLIKAIDLYKQSTYKRYQPEAILLLCSILFQKRQIRKLNEYLDLLEELQPLCSDVNYYRSLILFYDIRLKTGKLLDTLKSSELENNKYSFIDSSKDHIKALLIELYCSIDDWEGAFTLFDELQSTEARNKFLRRVKTINTHI ASMETLNDLVTRLEHSHPNSSLLKDLSLIQGNEQYNYIKWGDLSNSQNLNELVFQYEKAPYPSITCGILTYNEERCIKRCLDSLGSQFDEILVLDSHSTDNTTKIINRDFPMVKVIYEPWIDDFSFHRNKLISLTSSEWIYYIDADNYCVDSTNKFKRVAKLIQFLSIDCIISPMIKEHIGHVYTDNRKMFSVKKGIQFKGKVHEEPINADGSIPQNITVDIMICHDGYDPEVINLSEKNDRNIKLTRQMMEEEPSNPKWLYFYARELHYASEDTHIIETLLIKAIDLYKQSTYKRYQPEAILLLCSILFQKRQIRKLNEYLDLLEELQPLCSDVNYYRSLILFYDIRLKTGKLLDTLKSSELENNKYSFIDSSKDHIKALLIELYCSIDDWEGAFTLFDELQSTEARNKFLRRVKTINTH 7msl-a1-m1-cA_7msl-a1-m2-cA Structure of anti-CRISPR AcrIIC4 from Haemophilus parainfluenzae A0A377JKY9 A0A377JKY9 1.73 X-RAY DIFFRACTION 159 1.0 729 (Haemophilus parainfluenzae) 729 (Haemophilus parainfluenzae) 88 88 MKITSSNFATIATSENFAKLSVLPKNHREPIKGLFKSAVEQFSSARDFFKNENYSKELAEKFNKEAVNEAVEKLQKAIDLAEKQGIQF MKITSSNFATIATSENFAKLSVLPKNHREPIKGLFKSAVEQFSSARDFFKNENYSKELAEKFNKEAVNEAVEKLQKAIDLAEKQGIQF 7msn-a1-m1-cB_7msn-a1-m1-cA SunS glycosin S-glycosyltransferase O31986 O31986 3 X-RAY DIFFRACTION 198 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 416 417 MKLSDIYLELKKGYADSLLYSDLSLLVNIMEYEKDIDVMSIQSLVAGYEKSDTPTITCGIIVYNESKRIKKCLNSVKDDFNEIIVLDSYSTDDTVDIIKCDFPDVEIKYEKWKNDFSYARNKIIEYATSEWIYFIDADNLYSKENKGKIAKVARVLEFFSIDCVVSPYIEEYTGHLYSDTRRMFRLNGKVKFHGKVHEEPMNYNHSLPFNFIVNLKVYHNENNIKSKTRRNINLTEEMLRLEPENPKWLFFFGRELHLLDKDEEAIDYLKKSINNYKKFNDQRHFIDALVLLCTLLLQRNNYVDLTLYLDILETEYPRCVDVDYFRSAILLVDMQNKLTSLSNMIDEALTDERYSAINTTKDHFKRILISLNIQLENWERVKEISGEIKNDNMKKEIKQYLANSLHNIEHVLKGIE MKLSDIYLELKKGYADSLLYSDLSLLVNIMEYEKDIDVMSIQSLVAGYEKSDTPTITCGIIVYNESKRIKKCLNSVKDDFNEIIVLDSYSTDDTVDIIKCDFPDVEIKYEKWKNDFSYARNKIIEYATSEWIYFIDADNLYSKENKGKIAKVARVLEFFSIDCVVSPYIEEYTGHLYSDTRRMFRLNGKVKFHGKVHEEPMNYNHSLPFNFIVNLKVYHNSENNIKSKTRRNINLTEEMLRLEPENPKWLFFFGRELHLLDKDEEAIDYLKKSINNYKKFNDQRHFIDALVLLCTLLLQRNNYVDLTLYLDILETEYPRCVDVDYFRSAILLVDMQNKLTSLSNMIDEALTDERYSAINTTKDHFKRILISLNIQLENWERVKEISGEIKNDNMKKEIKQYLANSLHNIEHVLKGIE 7mtc-a1-m1-cC_7mtc-a1-m1-cA Structure of freshly purified SARS-CoV-2 S2P spike at pH 7.4 P0DTC2 P0DTC2 2.6 ELECTRON MICROSCOPY 248 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 898 914 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFDNPVLPFNDGVYFASTIIRGWIFGTTQSLLIVNVVIKVNNCTFEYVSNLREFVFKNIDGYFKIYSKHTPLPQGFSALEPLVDLPIGINITRFQTLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWYLYRLFRKSNLKPFERPLQSVVVLSFELPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTSNIIRGWIFGTTQSLLIVNNVVIKVCTFEYVSLREFVFKNIDGYFKIYSKHTPLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWYLYRLFRKSNLKPFERDISTEPLQSVVVLSFELPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7mte-a1-m1-cC_7mte-a1-m1-cA Structure of SARS-CoV-2 S2P spike at pH 7.4 refolded by low-pH treatment P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 248 0.984 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 871 895 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTRGWIFGTTSLLIVNVVIKVCTFEYVNLREFVFKNIDGYFKIYSKHTPLPQGFSALEPLVDLPIGINITRFQTAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVVRQIAPGQTGKIADYNYKLPDDFTGCVIAWLKPFERVVVLSFELPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTRGWIFGTTQSLLIVNVVIKVTFEYVLREFVFKNYFKIYSKHTLPQGFSALEPLVDLITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWYLYRLFRKSNLKPFERDISTPLQSVVVLSFELPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7mtl-a1-m1-cB_7mtl-a1-m1-cA Crystal structure of colibactin self-resistance protein ClbS in complex with a dsDNA Q0P7K8 Q0P7K8 2.446 X-RAY DIFFRACTION 31 1.0 562 (Escherichia coli) 562 (Escherichia coli) 162 168 AVPSSKEELIKAINSNFSLLNKKLESITPQLAFEPLLTTISVANLVSYLIGWGELVLHWHDQEAKGKTIIFPEEGFKWNELGRLAQKFYRDYEDITEYEVLLARLKENKQQLVALIERFSNDELYGKPWYNKWTRGRMIQFNTASPYKNASGRLNKLQKCLA AVPSSKEELIKAINSNFSLLNKKLESITPQLAFEPLLEGHAKGTTISVANLVSYLIGWGELVLHWHDQEAKGKTIIFPEEGFKWNELGRLAQKFYRDYEDITEYEVLLARLKENKQQLVALIERFSNDELYGKPWYNKWTRGRMIQFNTASPYKNASGRLNKLQKCLA 7mto-a1-m1-cA_7mto-a1-m2-cA Crystal Structure of SET/I2PP2A/TAF-1Beta core Q01105 Q01105 1.791 X-RAY DIFFRACTION 106 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 188 188 GTSEKEQQEAIEHIDEVQNEIDRLNEQASEEILKVEQKYNKLRQPFFQKRSELIAKIPNFWVTTFVNHPQVSALLGEEDEEALHYLTRVEVTEFEDIKSGYRIDFYFDENPYFENKVLSKEFHLNESGDPSSKSTEIKWKSGKDLTKEPESFFTWFTDHSDAGADELGEVIKDDIWPNPLQYYLVPDM GTSEKEQQEAIEHIDEVQNEIDRLNEQASEEILKVEQKYNKLRQPFFQKRSELIAKIPNFWVTTFVNHPQVSALLGEEDEEALHYLTRVEVTEFEDIKSGYRIDFYFDENPYFENKVLSKEFHLNESGDPSSKSTEIKWKSGKDLTKEPESFFTWFTDHSDAGADELGEVIKDDIWPNPLQYYLVPDM 7mtq-a1-m1-cA_7mtq-a1-m1-cB CryoEM Structure of Full-Length mGlu2 in Inactive-State Bound to Antagonist LY341495 Q14416 Q14416 3.65 ELECTRON MICROSCOPY 32 0.98 9606 (Homo sapiens) 9606 (Homo sapiens) 742 744 7epa-a1-m1-cA_7epa-a1-m1-cB KVLTLEGDLVLGGLFPVHQKPAEDCGPVNEHRGIQRLEAMLFALDRINRDPHLLPGVRLGAHILDSCSKDTHALEQALDFVRASLPTAITGVIGGSYSDVSIQVANLLRLFQIPQISYASTSAKLSDKSRYDYFARTVPPDFFQAKAMAEILRFFNWTYVSTVASEGDYGETGIEAFELEARARNICVATSEKVGRAMSRAAFEGVVRALLQKPSARVAVLFTRSEDARELLAASQRLNASFTWVASDGWGALESVVAGSEGAAEGAITIELASYPISDFASYFQSLDPWNNSRNPWFREFWEQRFRCSFRQRDCAAHSLRAVPFEQESKIMFVVNAVYAMAHALHNMHRALCPNTTRLCDAMRPVNGRRLYKDFVLNVKFDAPFRPADTHNEVRFDRFGDGIGRYNIFTYLRAGSGRYRYQKVGYWAEGLTLDTSLIPWASAGPLPASRCSEPCLQNEVKSVQEVCCWLCIPCQYELDEFTCADCGLGWPNLTGCFELPQEYIRWDAWAVGPVTIACLGALATLFVLGVFVRHNATPVVKASGRELCYILLGGVFLCYCMTFIFIAKPSTAVCTLRRLGLGTAFSVCYSALLTKTNRIARSPASQVAICLALISGQLLIVVAWLVVEAPGTETAPERREVVTLRCNHRDASMLGSLAYNVLLILCTLYAFKTRKCPENFNEAKFIGFTMYTTCIIWLAFLPIFYVTSSDYRVQTTTMCVSVSLSGSVVLGCLFAPKLHIIL KVLTLEGDLVLGGLFPVHQKPAEDCGPVNEHRGIQRLEAMLFALDRINRDPHLLPGVRLGAHILDSCSKDTHALEQALDFVRASLPTAITGVIGGSYSDVSIQVANLLRLFQIPQISYASTSAKLSDKSRYDYFARTVPPDFFQAKAMAEILRFFNWTYVSTVASEGDYGETGIEAFELEARARNICVATSEKVGRAMSRAAFEGVVRALLQKPSARVAVLFTRSEDARELLAASQRLNASFTWVASDGWGALESVVAGSEGAAEGAITIELASYPISDFASYFQSLDPWNNSRNPWFREFWEQRFRCSFRQRDCAAHSLRAVPFEQESKIMFVVNAVYAMAHALHNMHRALCPNTTRLCDAMRPVNGRRLYKDFVLNVKFDAPFRPADTHNEVRFDRFGDGIGRYNIFTYLRAGGRYRYQKVGYWAEGLTLDTSLIPWASPSAGPLPASRCSEPLQNEVKSVQPEVCCWLCIPQPYERLDEFTCADGLGPNASLTGCFELPQEYIRWGDWAVGPVTIACLGALATLFVLGVFVRHNTVVKASGRELCYILLGGVFLCYCMTFIFIAKPSTAVCTLRRLGLGTAFSVCYSALLTKTNRIARIFFISPASQVAICLALISGQLLIVVAWLVVEAPGTTAPEVVTLRCNHRDASMLGSLAYNVLLIALCTLYAFKTRKCPENFNEAKFIGFTMYTTCIIWLAFLPIFYVTSSDYRVQTTTMCVSVSLSGSVVLGCLFAPKLHIILF 7mu0-a1-m1-cA_7mu0-a1-m1-cB MtbEttA in the ADP bound state P9WQK3 P9WQK3 2.9 X-RAY DIFFRACTION 198 0.998 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 549 549 EFIYTMKKVRKAHGDKVILDDVTLSFYPGAKIGVVGPNGAGKSSVLRIMAGLDKPNNGDAFLATGATVGILQQEPPLNEDKTVRGNVEEGMGDIKIKLDRFNEVAELMATDYTDELMEEMGRLQEELDHADAWDLDAQLEQAMDALRCPPADEPVTNLSGGERRRVALCKLLLSKPDLLLLDEPTNHLDAESVQWLEQHLASYPGAILAVTHDRYFLDNVAEWILELDRGRAYPYEGNYSTYLEKKAERLAVQGRKDAKLQKRLTEELAWVRSGAKARQAKSKARLQRYEEMAAEAEKTRKLDFEEIQIPVGPRLGNVVVEVDHLDKGYDGRALIKDLSFSLPRNGIVGVIGPNGVGKTTLFKTIVGLETPDSGSVKVGETVKLSYVDQARAGIDPRKTVWEVVSDGLDYIQVGQTEVPSRAYVSAFGFKGPDQQKPAGVLSGGERNRLNLALTLKQGGNLILLDEPTNDLDVETLGSLENALLNFPGCAVVISHDRWFLDRTCTHILAWEGDDDNEAKWFWFEGNFGAYEENKVERLGVDAARPHRVT FIYTMKKVRKAHGDKVILDDVTLSFYPGAKIGVVGPNGAGKSSVLRIMAGLDKPNNGDAFLATGATVGILQQEPPLNEDKTVRGNVEEGMGDIKIKLDRFNEVAELMATDYTDELMEEMGRLQEELDHADAWDLDAQLEQAMDALRCPPADEPVTNLSGGERRRVALCKLLLSKPDLLLLDEPTNHLDAESVQWLEQHLASYPGAILAVTHDRYFLDNVAEWILELDRGRAYPYEGNYSTYLEKKAERLAVQGRKDAKLQKRLTEELAWVRSGAKARQAKSKARLQRYEEMAAEAEKTRKLDFEEIQIPVGPRLGNVVVEVDHLDKGYDGRALIKDLSFSLPRNGIVGVIGPNGVGKTTLFKTIVGLETPDSGSVKVGETVKLSYVDQARAGIDPRKTVWEVVSDGLDYIQVGQTEVPSRAYVSAFGFKGPDQQKPAGVLSGGERNRLNLALTLKQGGNLILLDEPTNDLDVETLGSLENALLNFPGCAVVISHDRWFLDRTCTHILAWEGDDDNEAKWFWFEGNFGAYEENKVERLGVDAARPHRVTH 7mu5-a1-m1-cG_7mu5-a1-m1-cA Human DCTPP1 bound to Triptolide Q9H773 Q9H773 2.2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 110 FSFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKTDGPQGWSPRERAALQEELSDVLIYLVALAARCRVDLPLAVLSKMDINRRRY GRFSFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKTDGEPGPQGWSPRERAALQEELSDVLIYLVALAARCRVDLPLAVLSKMDINRRRYP 7mu5-a2-m1-cH_7mu5-a2-m1-cB Human DCTPP1 bound to Triptolide Q9H773 Q9H773 2.2 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 105 7mu5-a1-m1-cC_7mu5-a1-m1-cG 7mu5-a1-m1-cE_7mu5-a1-m1-cA 7mu5-a2-m1-cD_7mu5-a2-m1-cF FSFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKTGPQGWSPRERAALQEELSDVLIYLVALAARCRVDLPLAVLSKMDINRRRYP RFSFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKTGPQGWSPRERAALQEELSDVLIYLVALAARCRVDLPLAVLSKMDINRRRYP 7mu5-a2-m1-cH_7mu5-a2-m1-cF Human DCTPP1 bound to Triptolide Q9H773 Q9H773 2.2 X-RAY DIFFRACTION 183 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 104 106 7mu5-a1-m1-cC_7mu5-a1-m1-cA 7mu5-a1-m1-cG_7mu5-a1-m1-cE 7mu5-a2-m1-cB_7mu5-a2-m1-cD FSFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKTGPQGWSPRERAALQEELSDVLIYLVALAARCRVDLPLAVLSKMDINRRRYP RFSFSPEPTLEDIRRLHAEFAAERDWEQFHQPRNLLLALVGEVGELAELFQWKTDGPQGWSPRERAALQEELSDVLIYLVALAARCRVDLPLAVLSKMDINRRRYP 7mw2-a1-m1-cB_7mw2-a1-m1-cC Structure of the SARS-CoV-2 Spike trimer with all RBDs down in complex with the Fab fragment of human neutralizing antibody clone 6 P0DTC2 P0DTC2 2.97 ELECTRON MICROSCOPY 303 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1004 1004 7mw2-a1-m1-cA_7mw2-a1-m1-cB 7mw2-a1-m1-cA_7mw2-a1-m1-cC 7mw3-a1-m1-cA_7mw3-a1-m1-cB 7mw3-a1-m1-cA_7mw3-a1-m1-cC 7mw4-a1-m1-cA_7mw4-a1-m1-cB 7mw4-a1-m1-cC_7mw4-a1-m1-cA 7mw4-a1-m1-cC_7mw4-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7mw3-a1-m1-cC_7mw3-a1-m1-cB Structure of the SARS-CoV-2 Spike trimer with two RBDs down in complex with the Fab fragment of human neutralizing antibody clone 6 P0DTC2 P0DTC2 3.15 ELECTRON MICROSCOPY 276 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1004 1006 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7mw6-a1-m1-cB_7mw6-a1-m1-cC Structure of the SARS-CoV-2 Spike trimer with three RBDs up in complex with the Fab fragment of human neutralizing antibody clone 2 P0DTC2 P0DTC2 3.22 ELECTRON MICROSCOPY 281 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1058 1058 7mw6-a1-m1-cA_7mw6-a1-m1-cB 7mw6-a1-m1-cA_7mw6-a1-m1-cC CVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL CVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7mwa-a1-m2-cB_7mwa-a1-m1-cA Crystal structure of 2-octaprenyl-6-methoxyphenol hydroxylase UbiH from Acinetobacter baumannii, apoenzyme D0CDW7 D0CDW7 2.6 X-RAY DIFFRACTION 156 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 381 383 QQVIIVGGGMVGLSLSLMLAKANIAVKLLEAVKYPNYDDVAPYHSSFDARNTALSRRSVQIYQKLGLWDALQQHATPILQVHITEQGSFGKARLVAEQEKVESFGQVIENAWLGRVLLTQVRQQPLIELIDGVQVTALTQDAEQVYIEAQRGDEILKLESKLLIAADGRDSFCRQAIGVGVDVHDYDQVAIVTTVQTSKPHEHVGFERFSALGPLALLPLPGEYRRSVVWPVKKGTEGEWLGEENDQHFLDALQKTYGDRAGKFEKTGKRFSYPLSQVLAHKQAVGRVILMGNAAHTIHPVAGQGFNLCLRDADVLLRYLVNQLSASDDIGNPDNLLAYEQARLSDQQRVIKFCDTVVRGFSNQNPLLKLIRNTGLIAFDV QQVIIVGGGMVGLSLSLMLAKANIAVKLLEAVKYPNYDDQNVAPYHSSFDARNTALSRRSVQIYQKLGLWDALQQHATPILQVHITEQGSFGKARLVAEQEKVESFGQVIENAWLGRVLLTQVRQQPLIELIDGVQVTALTQDAEQVYIEAQRGDEILKLESKLLIAADGRDSFCRQAIGVGVDVHDYDQVAIVTTVQTSKPHEHVGFERFSALGPLALLPLPGEYRRSVVWPVKKGTEGEWLGEENDQHFLDALQKTYGDRAGKFEKTGKRFSYPLSQVLAHKQAVGRVILMGNAAHTIHPVAGQGFNLCLRDADVLLRYLVNQLSASDDIGNPDNLLAYEQARLSDQQRVIKFCDTVVRGFSNQNPLLKLIRNTGLIAFDV 7mwb-a1-m1-cD_7mwb-a1-m1-cA ERAP1 binds peptide C-terminus of a SPF sequence (FKARKF) Q9NZ08 Q9NZ08 3.2 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 406 407 7mwb-a2-m1-cC_7mwb-a2-m1-cB 7mwc-a1-m1-cA_7mwc-a1-m1-cD 7mwc-a2-m1-cC_7mwc-a2-m1-cB GFPLITITVRGRNVHMKQEHYMYLWHVPLTFITSKSDMVHRFLLKTKTDVLILPEEVEWIKFNVGMNGYYIVHYEDDGWDSLTGLLKGTHTAVSSNDRASLINNAFQLVSIGKLSIEKALDLSLYLKHETEIMPVFQGLNELIPMYKLMEKRDMNEVETQFKAFLIRLLRDLIDKQTWTDEGSVSERMLRSQLLLLACVHNYQPCVQRAEGYFRKWKESNGNLSLPVDVTLAVFAVGAQSTEGWDFLYSKYQFSLSSTEKSQIEFALCRTQNKEKLQWLLDESFKGDKIKTQEFPQILTLIGRNPVGYPLAWQFLRKNWNKLVQKFELGSSSIAHMVMGTTNQFSTRTRLEEVKGFFSSLKENSQLRCVQQTIETIEENIGWMDKNFDKIRVWLQSEKLEFKARKF GFPLITITVRGRNVHMKQEHYMYLWHVPLTFITSKSDMVHRFLLKTKTDVLILPEEVEWIKFNVGMNGYYIVHYEDDGWDSLTGLLKGTHTAVSSNDRASLINNAFQLVSIGKLSIEKALDLSLYLKHETEIMPVFQGLNELIPMYKLMEKRDMNEVETQFKAFLIRLLRDLIDKQTWTDEGSVSERMLRSQLLLLACVHNYQPCVQRAEGYFRKWKESNGNLSLPVDVTLAVFAVGAQSTEGWDFLYSKYQFSLSSTEKSQIEFALCRTQNKEKLQWLLDESFKGDKIKTQEFPQILTLIGRNPVGYPLAWQFLRKNWNKLVQKFELGSSSIAHMVMGTTNQFSTRTRLEEVKGFFSSLKENSQLRCVQQTIETIEENIGWMDKNFDKIRVWLQSEKLERFKARKF 7mwh-a1-m1-cA_7mwh-a1-m1-cB Crystal structure of BAZ2A with DNA Q9UIF9 Q9UIF9 2.28 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 7fhj-a1-m1-cA_7fhj-a1-m1-cB 7mwi-a1-m1-cA_7mwi-a1-m2-cA 7mwl-a1-m1-cB_7mwl-a1-m1-cA RRIATPEEVRLPLQHGWRREVRIKKGSHRWQGETWYYGPCGKRMKQFPEVIKYLSRNVVHSVRREHFSFSPRMPVGDFFEERDTPEGLQWVQLSAEEIPSRIQAITG RRIATPEEVRLPLQHGWRREVRIKKGSHRWQGETWYYGPCGKRMKQFPEVIKYLSRNVVHSVRREHFSFSPRMPVGDFFEERDTPEGLQWVQLSAEEIPSRIQAITG 7mwz-a2-m1-cD_7mwz-a2-m1-cC Structure of drosophila STING in complex with 3'2'-cGAMP D9IEF7 D9IEF7 2 X-RAY DIFFRACTION 144 1.0 29029 (Drosophila eugracilis) 29029 (Drosophila eugracilis) 301 349 7mwz-a1-m1-cA_7mwz-a1-m1-cB MNIFEMLRIDQGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKGRNTGVITKDEAEKLFNQDVDAAVRGILRNYDSAVRRAALINMVFQMGETGVRAKRVITTFRTGTWDASLDYAAGMASNYFHGYLKLSLPERKADGLLHRMNVYEDKYNVTFGIKRLIILIPDEMFINGVIQSRILEKATPLETQFINRAGVNRPFKHAVYRLAEKVNGKTYYFAMEGATPMLSFFEAMHSNFSATWQMKELKREIWLKFYTHLNELIKTWPETRNLVELIIYNSHDTKGDLVDVGEMLKSHM MNIFEMLRIDQGLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNTNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRAALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLASRWYNQTPNRAKRVITTFRTGTWDAYSLDYAAGMASNYFHGYLKLSLPERKADGLLHRMNVYEDKYNVTFGIKRLIILIPDEMFINGVIQSRILEKATPLETQFINRAGVNRPFKHAVYRLAEKVNGKTYYFAMEGATPMLSFFEAMHSNFSATWQMKELKREIWLKFYTHLNELIKTWPETRNLVELIIYNSHDTKGDLVDVGEMLKSHMELKT 7mx6-a1-m1-cAAA_7mx6-a1-m1-cBBB Leishmania major dihydroorotate dehydrogenase in complex with [4-(1H-pyrrol-1-yl)phenyl]methanol Q4QEW7 Q4QEW7 1.8 X-RAY DIFFRACTION 161 1.0 5664 (Leishmania major) 5664 (Leishmania major) 306 306 3c61-a1-m1-cA_3c61-a1-m1-cB 3c61-a2-m1-cC_3c61-a2-m1-cD 3gye-a1-m1-cA_3gye-a1-m1-cB 3gz3-a1-m1-cA_3gz3-a1-m1-cB 3mhu-a1-m1-cA_3mhu-a1-m1-cB 3mjy-a1-m1-cA_3mjy-a1-m1-cB 3tjx-a1-m1-cB_3tjx-a1-m1-cA 3tq0-a1-m1-cA_3tq0-a1-m1-cB 3tro-a1-m1-cA_3tro-a1-m1-cB 4ef8-a1-m1-cA_4ef8-a1-m1-cB 4ef9-a1-m1-cA_4ef9-a1-m1-cB 6dgs-a1-m1-cA_6dgs-a1-m1-cB 6dwg-a1-m1-cA_6dwg-a1-m1-cB 6ebs-a1-m1-cA_6ebs-a1-m1-cB 7myd-a1-m1-cAAA_7myd-a1-m1-cBBB SMSLQVNLLNNTFANPFMNAAGVMCTTTEELVAMTESASGSLVSKSCTPALREGNPTPRYQALPLGSINSMGLPNNGFDFYLAYAAEQHDYGKKPLFLSMSGLSMRENVEMCKRLAAVATEKGVILELNLSPQVAYDFDAMRQCLTAVSEVYPHSFGVKMPPYFDFAHFDAAAEILNEFPKVQFITCINSIGNGLVIDAETESVVIKPKQGFGGLGGRYVLPTALANINAFYRRCPGKLIFGCGGVYTGEDAFLHVLAGASMVQVGTALQEEGPSIFERLTSELLGVMAKKRYQTLDEFRGKVRTL SMSLQVNLLNNTFANPFMNAAGVMCTTTEELVAMTESASGSLVSKSCTPALREGNPTPRYQALPLGSINSMGLPNNGFDFYLAYAAEQHDYGKKPLFLSMSGLSMRENVEMCKRLAAVATEKGVILELNLSPQVAYDFDAMRQCLTAVSEVYPHSFGVKMPPYFDFAHFDAAAEILNEFPKVQFITCINSIGNGLVIDAETESVVIKPKQGFGGLGGRYVLPTALANINAFYRRCPGKLIFGCGGVYTGEDAFLHVLAGASMVQVGTALQEEGPSIFERLTSELLGVMAKKRYQTLDEFRGKVRTL 7mx9-a1-m1-cA_7mx9-a1-m2-cA Crystal structure of the SARS-CoV-2 ORF8 accessory protein P0DTC8 P0DTC8 2.6 X-RAY DIFFRACTION 42 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 88 88 ECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVQYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI ECSLQSCTQHQPYVVDDPCPIHFYSKWYIRVGARKSAPLIELCVQYTVSCLPFTINCQEPKLGSLVVRCSFYEDFLEYHDVRVVLDFI 7mxd-a1-m1-cB_7mxd-a1-m1-cI Cryo-EM structure of broadly neutralizing V2-apex-targeting antibody J038 in complex with HIV-1 Env I6NF57 I6NF57 3.4 ELECTRON MICROSCOPY 59 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 136 136 7mxd-a1-m1-cB_7mxd-a1-m1-cH 7mxd-a1-m1-cH_7mxd-a1-m1-cI 7n28-a1-m1-cB_7n28-a1-m1-cM 7n28-a1-m1-cB_7n28-a1-m1-cN 7n28-a1-m1-cM_7n28-a1-m1-cN IFGFLGAAGSTMGAASNTLTVQARQLLSGIVQQQSNLPHLLQLTVWGIKQLQARVLAVERYLEVQKFLGLWGCSGKIICCTAVPWNSTWSNKSFEQIWNNMTWIEWEREISNYTSQIYDILTESQFQQDINEVDLL IFGFLGAAGSTMGAASNTLTVQARQLLSGIVQQQSNLPHLLQLTVWGIKQLQARVLAVERYLEVQKFLGLWGCSGKIICCTAVPWNSTWSNKSFEQIWNNMTWIEWEREISNYTSQIYDILTESQFQQDINEVDLL 7my0-a1-m1-cA_7my0-a1-m1-cB Sy-CrtE IPP structure P72683 P72683 1.37 X-RAY DIFFRACTION 160 0.997 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 286 288 7mxz-a1-m1-cBBB_7mxz-a1-m1-cAAA 7my1-a1-m1-cAAA_7my1-a1-m2-cAAA RTDFDLAQYLQVKKGVVEAALDSSLAIARPEKIYEAMRYSLLAGGKRLRPILCITACELCGGDEALALPTACALEMIHTMSLIHDDLPSMDNDDFRRGKPTNHKVYGEDIAILAGDGLLAYAFEYVVTHTPQADPQALLQVIARLGRTVGAAGLVGGQVLDLESEGRTDITPETLTFIHTHKTGALLEASVLTGAILAGATGEQQQRLARYAQNIGLAFQVVDDILDITATAQKATYPSLLGLEASRAQAQSLIDQAIVALEPFGPSAEPLQAIAEYIVARKYLEH RTDFDLAQYLQVKKGVVEAALDSSLAIARPEKIYEAMRYSLLAGGKRLRPILCITACELCGGDEALALPTACALEMIHTMSLIHDDLPSMDNDDFRRGKPTNHKVYGEDIAILAGDGLLAYAFEYVVTHTPQADPQALLQVIARLGRTVGAAGLVGGQVLDLESEGRTDITPETLTFIHTHKTGALLEASVLTGAILAGATGEQQQRLARYAQNIGLAFQVVDDILDITATQEEAQKATYPSLLGLEASRAQAQSLIDQAIVALEPFGPSAEPLQAIAEYIVARKYLE 7my2-a1-m1-cC_7my2-a1-m1-cE CryoEM structure of neutralizing nanobody Nb30 in complex with SARS-CoV2 spike P0DTC2 P0DTC2 2.65 ELECTRON MICROSCOPY 235 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1038 1042 PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLMESEFRVYSSANNCTFEYVSQPFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFK PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLMESEFRVYSSANNCTFEYVSQPFLMFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFK 7my7-a2-m1-cCCC_7my7-a2-m1-cDDD Se-CrtE N-term His-tag structure Q31Q61 Q31Q61 2.36 X-RAY DIFFRACTION 150 0.991 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 213 259 7my6-a1-m1-cB_7my6-a1-m1-cA 7my7-a1-m1-cAAA_7my7-a1-m1-cBBB DLKSYLKERQRQVEAALNAILPPQDPPLIYESMRYSLLAEGKRLRPILCLASCELAGGTAAIALPTACALEMVHTMSLIHDDLPSMDNDDFRRGRPTNHKVYGEDIAILAGDALLTYAFEAIARHTPEVPADRVLKVIAALARAVGAEGLVGGQVVDLQSDVNLETLHYIHTHKTGALLEVSVVSGAILAGASEELQEQLRTYAQKIGLAFQV KSYLKERQRQVEAALNAILPPQDPPLIYESMRYSLLAEGKRLRPILCLASCELAGGTAAIALPTACALEMVHTMSLIHDDLPSMDNDDFRRGRPTNHKVYGEDIAILAGDALLTYAFEAIARHTPEVPADRVLKVIAALARAVGAEGLVGGQVVDLQSEGRDDVNLETLHYIHTHKTGALLEVSVVSGAILAGASEELQEQLRTYAQKIGLAFQVIDDILDITATYPSLLGLDASREYADQLITEAEADPLRAIADYIT 7mys-a1-m1-cA_7mys-a1-m1-cB Crystal structure of a tRNA (guanine-N1)-methyltransferase from Acinetobacter baumannii AB5075-UW bound to S-adenosyl homocysteine B0V8J1 B0V8J1 2.4 X-RAY DIFFRACTION 255 0.987 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 239 239 7myq-a1-m1-cA_7myq-a1-m1-cB HVFFAVITLFPEMFDAITAYGISGRAAKRDIVQVTCINPRDFAEGNYRRVDERPFGGGPGMVMMAEPLAKAINHAKQLASRAGCVHVPVVYMSPQGKTLNEQAVQQFVDYDGLIVLCGRYEGVDERLIQHYVDQEWSIGDYVLSGGELPAMVLLDSIIRRLPNVAIQDSFVDGLLDCPQYTKPDQFEGLDVPEILKSGHHANIEKWRFLQRYQRTLERRPELIEQVTLTKQQKKWLSDE HVFFAVITLFPEMFDAITAYGISGRAAKRDIVQVTCINPRDFAERRVDERPFGGGPGMVMMAEPLAKAINHAKQLASRAGCVHVPVVYMSPQGKTLNEQAVQQFVDYDGLIVLCGRYEGVDERLIQHYVDQEWSIGDYVLSGGELPAMVLLDSIIRRLPNVQSAIQDSFVDGLLDCPQYTKPDQFEGLDVPEILKSGHHANIEKWRFLQRYQRTLERRPELIEQVTLTKQQKKWLSDEQ 7mzy-a1-m1-cB_7mzy-a1-m1-cA Anaplastic lymphoma kinase (ALK) extracellular fragment of ligand binding region 673-986 Q9UM73 Q9UM73 1.5 X-RAY DIFFRACTION 40 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 302 307 TVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLN FDPTVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYL 7n09-a1-m1-cA_7n09-a1-m2-cB Structural basis for branched substrate selectivity in a ketoreductase from Ascaris suum F1L0H2 F1L0H2 2 X-RAY DIFFRACTION 168 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 259 259 7n09-a1-m1-cB_7n09-a1-m2-cA SALRSTKGLVALVTGGASGLGRGAAENLLKHGAKVAILDLPSSAGAEVAKELGGDCIFTPASVTAASEVKSALADVKKKFGRLDVAVNCAGIAYSFKLFNVKKKKLCDLESVRKTLDVNVMGYFTVAAHAAELFAENEKDEMGQRGVIINTASIAAFDGQAGQSAYSASKGAIVGMTLPLARDFADDGIRVVTIAPGIFDTPMMASFPDKVRNFLIGLVPNPKRFGVPEEYGALVRHIIENRYLNGEVIRLDGALRMPA SALRSTKGLVALVTGGASGLGRGAAENLLKHGAKVAILDLPSSAGAEVAKELGGDCIFTPASVTAASEVKSALADVKKKFGRLDVAVNCAGIAYSFKLFNVKKKKLCDLESVRKTLDVNVMGYFTVAAHAAELFAENEKDEMGQRGVIINTASIAAFDGQAGQSAYSASKGAIVGMTLPLARDFADDGIRVVTIAPGIFDTPMMASFPDKVRNFLIGLVPNPKRFGVPEEYGALVRHIIENRYLNGEVIRLDGALRMPA 7n09-a1-m1-cB_7n09-a1-m2-cB Structural basis for branched substrate selectivity in a ketoreductase from Ascaris suum F1L0H2 F1L0H2 2 X-RAY DIFFRACTION 16 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 259 259 7n09-a1-m1-cA_7n09-a1-m2-cA SALRSTKGLVALVTGGASGLGRGAAENLLKHGAKVAILDLPSSAGAEVAKELGGDCIFTPASVTAASEVKSALADVKKKFGRLDVAVNCAGIAYSFKLFNVKKKKLCDLESVRKTLDVNVMGYFTVAAHAAELFAENEKDEMGQRGVIINTASIAAFDGQAGQSAYSASKGAIVGMTLPLARDFADDGIRVVTIAPGIFDTPMMASFPDKVRNFLIGLVPNPKRFGVPEEYGALVRHIIENRYLNGEVIRLDGALRMPA SALRSTKGLVALVTGGASGLGRGAAENLLKHGAKVAILDLPSSAGAEVAKELGGDCIFTPASVTAASEVKSALADVKKKFGRLDVAVNCAGIAYSFKLFNVKKKKLCDLESVRKTLDVNVMGYFTVAAHAAELFAENEKDEMGQRGVIINTASIAAFDGQAGQSAYSASKGAIVGMTLPLARDFADDGIRVVTIAPGIFDTPMMASFPDKVRNFLIGLVPNPKRFGVPEEYGALVRHIIENRYLNGEVIRLDGALRMPA 7n09-a1-m2-cA_7n09-a1-m2-cB Structural basis for branched substrate selectivity in a ketoreductase from Ascaris suum F1L0H2 F1L0H2 2 X-RAY DIFFRACTION 135 1.0 6253 (Ascaris suum) 6253 (Ascaris suum) 259 259 7n09-a1-m1-cA_7n09-a1-m1-cB SALRSTKGLVALVTGGASGLGRGAAENLLKHGAKVAILDLPSSAGAEVAKELGGDCIFTPASVTAASEVKSALADVKKKFGRLDVAVNCAGIAYSFKLFNVKKKKLCDLESVRKTLDVNVMGYFTVAAHAAELFAENEKDEMGQRGVIINTASIAAFDGQAGQSAYSASKGAIVGMTLPLARDFADDGIRVVTIAPGIFDTPMMASFPDKVRNFLIGLVPNPKRFGVPEEYGALVRHIIENRYLNGEVIRLDGALRMPA SALRSTKGLVALVTGGASGLGRGAAENLLKHGAKVAILDLPSSAGAEVAKELGGDCIFTPASVTAASEVKSALADVKKKFGRLDVAVNCAGIAYSFKLFNVKKKKLCDLESVRKTLDVNVMGYFTVAAHAAELFAENEKDEMGQRGVIINTASIAAFDGQAGQSAYSASKGAIVGMTLPLARDFADDGIRVVTIAPGIFDTPMMASFPDKVRNFLIGLVPNPKRFGVPEEYGALVRHIIENRYLNGEVIRLDGALRMPA 7n0d-a1-m1-cB_7n0d-a1-m1-cH Cryo-EM structure of the tetrameric form of SARS-CoV-2 nsp10-nsp14 (E191A)-RNA complex P0DTD1 P0DTD1 2.5 ELECTRON MICROSCOPY 50 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 512 512 7n0d-a1-m1-cD_7n0d-a1-m1-cF ENVTGLFKDCSKVITGLHPTQAPTHLSVDTKFKTEGLCVDIPGIPKDMTYRRLISMMGFKMNYQVNGYPNMFITREEAIRHVRAWIGFDVEGCHATREAVGTNLPLQLGFSTGVNLVAVPTGYVDTPNNTDFSRVSAKPPPGDQFKHLIPLMYKGLPWNVVRIKIVQMLSDTLKNLSDRVVFVLWAHGFALTSMKYFVKIGPERTCCLCDRRATCFSTASDTYACWHHSIGFDYVYNPFMIDVQQWGFTGNLQSNHDLYCQVHGNAHVASCDAIMTRCLAVHECFVKRVDWTIEYPIIGDELKINAACRKVQHMVVKAALLADKFPVLHDIGNPKAIKCVPQADVEWKFYDAQPCSDKAYKIEELFYSYATHSDKFTDGVCLFWNCNVDRYPANSIVCRFDTRVLSNLNLPGCDGGSLYVNKHAFHTPAFDKSAFVNLKQLPFFYYSDSPCESYVPLKSATCITRCNLGGAVCRHHANEYRLYLDAYNMMISAGFSLWVYKQFDTYNLWNTF ENVTGLFKDCSKVITGLHPTQAPTHLSVDTKFKTEGLCVDIPGIPKDMTYRRLISMMGFKMNYQVNGYPNMFITREEAIRHVRAWIGFDVEGCHATREAVGTNLPLQLGFSTGVNLVAVPTGYVDTPNNTDFSRVSAKPPPGDQFKHLIPLMYKGLPWNVVRIKIVQMLSDTLKNLSDRVVFVLWAHGFALTSMKYFVKIGPERTCCLCDRRATCFSTASDTYACWHHSIGFDYVYNPFMIDVQQWGFTGNLQSNHDLYCQVHGNAHVASCDAIMTRCLAVHECFVKRVDWTIEYPIIGDELKINAACRKVQHMVVKAALLADKFPVLHDIGNPKAIKCVPQADVEWKFYDAQPCSDKAYKIEELFYSYATHSDKFTDGVCLFWNCNVDRYPANSIVCRFDTRVLSNLNLPGCDGGSLYVNKHAFHTPAFDKSAFVNLKQLPFFYYSDSPCESYVPLKSATCITRCNLGGAVCRHHANEYRLYLDAYNMMISAGFSLWVYKQFDTYNLWNTF 7n0d-a1-m1-cF_7n0d-a1-m1-cH Cryo-EM structure of the tetrameric form of SARS-CoV-2 nsp10-nsp14 (E191A)-RNA complex P0DTD1 P0DTD1 2.5 ELECTRON MICROSCOPY 32 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 512 512 7n0d-a1-m1-cB_7n0d-a1-m1-cD ENVTGLFKDCSKVITGLHPTQAPTHLSVDTKFKTEGLCVDIPGIPKDMTYRRLISMMGFKMNYQVNGYPNMFITREEAIRHVRAWIGFDVEGCHATREAVGTNLPLQLGFSTGVNLVAVPTGYVDTPNNTDFSRVSAKPPPGDQFKHLIPLMYKGLPWNVVRIKIVQMLSDTLKNLSDRVVFVLWAHGFALTSMKYFVKIGPERTCCLCDRRATCFSTASDTYACWHHSIGFDYVYNPFMIDVQQWGFTGNLQSNHDLYCQVHGNAHVASCDAIMTRCLAVHECFVKRVDWTIEYPIIGDELKINAACRKVQHMVVKAALLADKFPVLHDIGNPKAIKCVPQADVEWKFYDAQPCSDKAYKIEELFYSYATHSDKFTDGVCLFWNCNVDRYPANSIVCRFDTRVLSNLNLPGCDGGSLYVNKHAFHTPAFDKSAFVNLKQLPFFYYSDSPCESYVPLKSATCITRCNLGGAVCRHHANEYRLYLDAYNMMISAGFSLWVYKQFDTYNLWNTF ENVTGLFKDCSKVITGLHPTQAPTHLSVDTKFKTEGLCVDIPGIPKDMTYRRLISMMGFKMNYQVNGYPNMFITREEAIRHVRAWIGFDVEGCHATREAVGTNLPLQLGFSTGVNLVAVPTGYVDTPNNTDFSRVSAKPPPGDQFKHLIPLMYKGLPWNVVRIKIVQMLSDTLKNLSDRVVFVLWAHGFALTSMKYFVKIGPERTCCLCDRRATCFSTASDTYACWHHSIGFDYVYNPFMIDVQQWGFTGNLQSNHDLYCQVHGNAHVASCDAIMTRCLAVHECFVKRVDWTIEYPIIGDELKINAACRKVQHMVVKAALLADKFPVLHDIGNPKAIKCVPQADVEWKFYDAQPCSDKAYKIEELFYSYATHSDKFTDGVCLFWNCNVDRYPANSIVCRFDTRVLSNLNLPGCDGGSLYVNKHAFHTPAFDKSAFVNLKQLPFFYYSDSPCESYVPLKSATCITRCNLGGAVCRHHANEYRLYLDAYNMMISAGFSLWVYKQFDTYNLWNTF 7n0z-a1-m1-cB_7n0z-a1-m1-cA Structure of PPM1H phosphatase with manganese ions at the active site Q9ULR3 Q9ULR3 2.19 X-RAY DIFFRACTION 80 0.992 9606 (Homo sapiens) 9606 (Homo sapiens) 392 393 7kpr-a1-m1-cB_7kpr-a1-m1-cA 7l4i-a1-m1-cA_7l4i-a1-m1-cB 7l4j-a1-m1-cB_7l4j-a1-m1-cA DLPLRFPYGRPEFLGLSQDEVEASADHIARPILILKETRRLPWATGYAEVINAGKSTHNEDQASCEVLTVVSCHYWSLFDGHAGSGAAVVASRLLQHHITEQLQDIVDILKKKIPHECLVIGALESAFKEMDLQIERERSSYNISGGCTALIVICLLGKLYVANAGDSRAIIIRNGEIIPMSSEFTPETERQRLQYLAFMQPHLLGNEFTHLEFPRRVQRKELGKKMLYRDFNMTGWAYKTIEDEDLKFPLIYGEGKKARVMATIGVTRGLGDHDLKVHDSNIYIKPFLSSAPEVRIYDLSKYDHGSDDVLILATDGLWDVLSNEEVAEAITQFLPNCDPDDPHRYTLAAQDLVMRARGVLKDRGWRISNDRLGSGDDISVYVIPLIHGNKL HMSDLPLRFPYGRPEFLGLSQDEVEASADHIARPILILKETRRLPWATGYAEVINAGKSTHNEDQASCEVLTVKVSCHYWSLFDGHAGSGAAVVASRLLQHHITEQLQDIVDILKIPHECLVIGALESAFKEMDLQIERERSSYNISGGCTALIVICLLGKLYVANAGDSRAIIIRNGEIIPMSSEFTPETERQRLQYLAFMQPHLLGNEFTHLEFPRRVQRKELGKKMLYRDFNMTGWAYKTIEDEDLKFPLIYGEGKKARVMATIGVTRGLGDHDLKVHDSNIYIKPFLSSAPEVRIYDLSKYDHGSDDVLILATDGLWDVLSNEEVAEAITQFLPNCDPDDPHRYTLAAQDLVMRARGVLKDRGWRISNDRLGSGDDISVYVIPLIHGNK 7n1i-a1-m9-cB_7n1i-a1-m9-cD CryoEM structure of Venezuelan equine encephalitis virus VLP A0A0C4MX98 A0A0C4MX98 4.2 ELECTRON MICROSCOPY 19 1.0 11036 (Venezuelan equine encephalitis virus) 11036 (Venezuelan equine encephalitis virus) 442 442 3j0c-a1-m10-cA_3j0c-a1-m10-cG 3j0c-a1-m10-cD_3j0c-a1-m23-cA 3j0c-a1-m10-cJ_3j0c-a1-m6-cJ 3j0c-a1-m10-cJ_3j0c-a1-m9-cJ 3j0c-a1-m11-cA_3j0c-a1-m11-cG 3j0c-a1-m11-cA_3j0c-a1-m38-cD 3j0c-a1-m11-cD_3j0c-a1-m20-cA 3j0c-a1-m11-cJ_3j0c-a1-m12-cJ 3j0c-a1-m11-cJ_3j0c-a1-m15-cJ 3j0c-a1-m12-cA_3j0c-a1-m12-cG 3j0c-a1-m12-cA_3j0c-a1-m47-cD 3j0c-a1-m12-cD_3j0c-a1-m37-cA 3j0c-a1-m12-cJ_3j0c-a1-m13-cJ 3j0c-a1-m13-cA_3j0c-a1-m13-cG 3j0c-a1-m13-cA_3j0c-a1-m45-cD 3j0c-a1-m13-cD_3j0c-a1-m46-cA 3j0c-a1-m13-cJ_3j0c-a1-m14-cJ 3j0c-a1-m14-cA_3j0c-a1-m14-cG 3j0c-a1-m14-cA_3j0c-a1-m29-cD 3j0c-a1-m14-cD_3j0c-a1-m44-cA 3j0c-a1-m14-cJ_3j0c-a1-m15-cJ 3j0c-a1-m15-cA_3j0c-a1-m15-cG 3j0c-a1-m15-cA_3j0c-a1-m16-cD 3j0c-a1-m15-cD_3j0c-a1-m28-cA 3j0c-a1-m16-cA_3j0c-a1-m16-cG 3j0c-a1-m16-cA_3j0c-a1-m28-cD 3j0c-a1-m16-cJ_3j0c-a1-m17-cJ 3j0c-a1-m16-cJ_3j0c-a1-m20-cJ 3j0c-a1-m17-cA_3j0c-a1-m17-cG 3j0c-a1-m17-cA_3j0c-a1-m52-cD 3j0c-a1-m17-cD_3j0c-a1-m27-cA 3j0c-a1-m17-cJ_3j0c-a1-m18-cJ 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7sfv-a1-m57-cJ_7sfv-a1-m58-cJ 7sfv-a1-m58-cA_7sfv-a1-m58-cG 7sfv-a1-m58-cJ_7sfv-a1-m59-cJ 7sfv-a1-m59-cA_7sfv-a1-m59-cG 7sfv-a1-m59-cJ_7sfv-a1-m60-cJ 7sfv-a1-m5-cA_7sfv-a1-m5-cG 7sfv-a1-m5-cA_7sfv-a1-m6-cD 7sfv-a1-m60-cA_7sfv-a1-m60-cG 7sfv-a1-m6-cA_7sfv-a1-m6-cG 7sfv-a1-m6-cJ_7sfv-a1-m7-cJ 7sfv-a1-m7-cA_7sfv-a1-m7-cG 7sfv-a1-m7-cJ_7sfv-a1-m8-cJ 7sfv-a1-m8-cA_7sfv-a1-m8-cG 7sfv-a1-m8-cJ_7sfv-a1-m9-cJ 7sfv-a1-m9-cA_7sfv-a1-m9-cG 7sfw-a1-m1-cA_7sfw-a1-m1-cG YEHATTMPSQAGISYNTIVNRAGYAPLPISITPTKIKLIPTVNLEYVTCHYKTGMDSPAIKCCGSQECTPTYRPDEQCKVFTGVYPFMWGGAYCFCDTENTQVSKAYVMKSDDCLADHAEAYKAHTASVQAFLNITVGEHSIVTTVYVNGETPVNFNGVKITAGPLSTAWTPFDRKIVQYAGEIYNYDFPEYGAGQPGAFGDIQSRTVSSSDLYANTNLVLQRPKAGAIHVPYTQAPSGFEQWKKDKAPSLKFTAPFGCEIYTNPIRAENCAVGSIPLAFDIPDALFTRVSETPTLSAAECTLNECVYSSDFGGIATVKYSASKSGKCAVHVPSGTATLKEAAVELTEQGSATIHFSTANIHPEFRLQICTSYVTCKGDCHPPKDHIVTHPQYHAQTFTAAVSKTAWTWLTSLLGGSAVIIIIGLVLATIVAMYVLTNQKHN 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7sfv-a1-m2-cE_7sfv-a1-m2-cK 7sfv-a1-m2-cH_7sfv-a1-m2-cK 7sfv-a1-m30-cB_7sfv-a1-m43-cB 7sfv-a1-m30-cE_7sfv-a1-m30-cH 7sfv-a1-m30-cE_7sfv-a1-m30-cK 7sfv-a1-m30-cH_7sfv-a1-m30-cK 7sfv-a1-m31-cB_7sfv-a1-m40-cB 7sfv-a1-m31-cB_7sfv-a1-m58-cB 7sfv-a1-m31-cE_7sfv-a1-m31-cH 7sfv-a1-m31-cE_7sfv-a1-m31-cK 7sfv-a1-m31-cH_7sfv-a1-m31-cK 7sfv-a1-m32-cB_7sfv-a1-m57-cB 7sfv-a1-m32-cB_7sfv-a1-m7-cB 7sfv-a1-m32-cE_7sfv-a1-m32-cH 7sfv-a1-m32-cE_7sfv-a1-m32-cK 7sfv-a1-m32-cH_7sfv-a1-m32-cK 7sfv-a1-m33-cB_7sfv-a1-m5-cB 7sfv-a1-m33-cB_7sfv-a1-m6-cB 7sfv-a1-m33-cE_7sfv-a1-m33-cH 7sfv-a1-m33-cE_7sfv-a1-m33-cK 7sfv-a1-m33-cH_7sfv-a1-m33-cK 7sfv-a1-m34-cB_7sfv-a1-m49-cB 7sfv-a1-m34-cB_7sfv-a1-m4-cB 7sfv-a1-m34-cE_7sfv-a1-m34-cH 7sfv-a1-m34-cE_7sfv-a1-m34-cK 7sfv-a1-m34-cH_7sfv-a1-m34-cK 7sfv-a1-m35-cB_7sfv-a1-m36-cB 7sfv-a1-m35-cB_7sfv-a1-m48-cB 7sfv-a1-m35-cE_7sfv-a1-m35-cH 7sfv-a1-m35-cE_7sfv-a1-m35-cK 7sfv-a1-m35-cH_7sfv-a1-m35-cK 7sfv-a1-m36-cB_7sfv-a1-m48-cB 7sfv-a1-m36-cE_7sfv-a1-m36-cH 7sfv-a1-m36-cE_7sfv-a1-m36-cK 7sfv-a1-m36-cH_7sfv-a1-m36-cK 7sfv-a1-m37-cB_7sfv-a1-m47-cB 7sfv-a1-m37-cE_7sfv-a1-m37-cH 7sfv-a1-m37-cE_7sfv-a1-m37-cK 7sfv-a1-m37-cH_7sfv-a1-m37-cK 7sfv-a1-m38-cE_7sfv-a1-m38-cH 7sfv-a1-m38-cE_7sfv-a1-m38-cK 7sfv-a1-m38-cH_7sfv-a1-m38-cK 7sfv-a1-m39-cB_7sfv-a1-m59-cB 7sfv-a1-m39-cE_7sfv-a1-m39-cH 7sfv-a1-m39-cE_7sfv-a1-m39-cK 7sfv-a1-m39-cH_7sfv-a1-m39-cK 7sfv-a1-m3-cB_7sfv-a1-m41-cB 7sfv-a1-m3-cB_7sfv-a1-m50-cB 7sfv-a1-m3-cE_7sfv-a1-m3-cH 7sfv-a1-m3-cE_7sfv-a1-m3-cK 7sfv-a1-m3-cH_7sfv-a1-m3-cK 7sfv-a1-m40-cB_7sfv-a1-m58-cB 7sfv-a1-m40-cE_7sfv-a1-m40-cH 7sfv-a1-m40-cE_7sfv-a1-m40-cK 7sfv-a1-m40-cH_7sfv-a1-m40-cK 7sfv-a1-m41-cB_7sfv-a1-m50-cB 7sfv-a1-m41-cE_7sfv-a1-m41-cH 7sfv-a1-m41-cE_7sfv-a1-m41-cK 7sfv-a1-m41-cH_7sfv-a1-m41-cK 7sfv-a1-m42-cE_7sfv-a1-m42-cH 7sfv-a1-m42-cE_7sfv-a1-m42-cK 7sfv-a1-m42-cH_7sfv-a1-m42-cK 7sfv-a1-m43-cE_7sfv-a1-m43-cH 7sfv-a1-m43-cE_7sfv-a1-m43-cK 7sfv-a1-m43-cH_7sfv-a1-m43-cK 7sfv-a1-m44-cE_7sfv-a1-m44-cH 7sfv-a1-m44-cE_7sfv-a1-m44-cK 7sfv-a1-m44-cH_7sfv-a1-m44-cK 7sfv-a1-m45-cB_7sfv-a1-m46-cB 7sfv-a1-m45-cE_7sfv-a1-m45-cH 7sfv-a1-m45-cE_7sfv-a1-m45-cK 7sfv-a1-m45-cH_7sfv-a1-m45-cK 7sfv-a1-m46-cE_7sfv-a1-m46-cH 7sfv-a1-m46-cE_7sfv-a1-m46-cK 7sfv-a1-m46-cH_7sfv-a1-m46-cK 7sfv-a1-m47-cE_7sfv-a1-m47-cH 7sfv-a1-m47-cE_7sfv-a1-m47-cK 7sfv-a1-m47-cH_7sfv-a1-m47-cK 7sfv-a1-m48-cE_7sfv-a1-m48-cH 7sfv-a1-m48-cE_7sfv-a1-m48-cK 7sfv-a1-m48-cH_7sfv-a1-m48-cK 7sfv-a1-m49-cE_7sfv-a1-m49-cH 7sfv-a1-m49-cE_7sfv-a1-m49-cK 7sfv-a1-m49-cH_7sfv-a1-m49-cK 7sfv-a1-m4-cB_7sfv-a1-m49-cB 7sfv-a1-m4-cE_7sfv-a1-m4-cH 7sfv-a1-m4-cE_7sfv-a1-m4-cK 7sfv-a1-m4-cH_7sfv-a1-m4-cK 7sfv-a1-m50-cE_7sfv-a1-m50-cH 7sfv-a1-m50-cE_7sfv-a1-m50-cK 7sfv-a1-m50-cH_7sfv-a1-m50-cK 7sfv-a1-m51-cB_7sfv-a1-m60-cB 7sfv-a1-m51-cE_7sfv-a1-m51-cH 7sfv-a1-m51-cE_7sfv-a1-m51-cK 7sfv-a1-m51-cH_7sfv-a1-m51-cK 7sfv-a1-m52-cE_7sfv-a1-m52-cH 7sfv-a1-m52-cE_7sfv-a1-m52-cK 7sfv-a1-m52-cH_7sfv-a1-m52-cK 7sfv-a1-m53-cE_7sfv-a1-m53-cH 7sfv-a1-m53-cE_7sfv-a1-m53-cK 7sfv-a1-m53-cH_7sfv-a1-m53-cK 7sfv-a1-m54-cB_7sfv-a1-m9-cB 7sfv-a1-m54-cE_7sfv-a1-m54-cH 7sfv-a1-m54-cE_7sfv-a1-m54-cK 7sfv-a1-m54-cH_7sfv-a1-m54-cK 7sfv-a1-m55-cB_7sfv-a1-m56-cB 7sfv-a1-m55-cB_7sfv-a1-m8-cB 7sfv-a1-m55-cE_7sfv-a1-m55-cH 7sfv-a1-m55-cE_7sfv-a1-m55-cK 7sfv-a1-m55-cH_7sfv-a1-m55-cK 7sfv-a1-m56-cB_7sfv-a1-m8-cB 7sfv-a1-m56-cE_7sfv-a1-m56-cH 7sfv-a1-m56-cE_7sfv-a1-m56-cK 7sfv-a1-m56-cH_7sfv-a1-m56-cK 7sfv-a1-m57-cB_7sfv-a1-m7-cB 7sfv-a1-m57-cE_7sfv-a1-m57-cH 7sfv-a1-m57-cE_7sfv-a1-m57-cK 7sfv-a1-m57-cH_7sfv-a1-m57-cK 7sfv-a1-m58-cE_7sfv-a1-m58-cH 7sfv-a1-m58-cE_7sfv-a1-m58-cK 7sfv-a1-m58-cH_7sfv-a1-m58-cK 7sfv-a1-m59-cE_7sfv-a1-m59-cH 7sfv-a1-m59-cE_7sfv-a1-m59-cK 7sfv-a1-m59-cH_7sfv-a1-m59-cK 7sfv-a1-m5-cB_7sfv-a1-m6-cB 7sfv-a1-m5-cE_7sfv-a1-m5-cH 7sfv-a1-m5-cE_7sfv-a1-m5-cK 7sfv-a1-m5-cH_7sfv-a1-m5-cK 7sfv-a1-m60-cE_7sfv-a1-m60-cH 7sfv-a1-m60-cE_7sfv-a1-m60-cK 7sfv-a1-m60-cH_7sfv-a1-m60-cK 7sfv-a1-m6-cE_7sfv-a1-m6-cH 7sfv-a1-m6-cE_7sfv-a1-m6-cK 7sfv-a1-m6-cH_7sfv-a1-m6-cK 7sfv-a1-m7-cE_7sfv-a1-m7-cH 7sfv-a1-m7-cE_7sfv-a1-m7-cK 7sfv-a1-m7-cH_7sfv-a1-m7-cK 7sfv-a1-m8-cE_7sfv-a1-m8-cH 7sfv-a1-m8-cE_7sfv-a1-m8-cK 7sfv-a1-m8-cH_7sfv-a1-m8-cK 7sfv-a1-m9-cE_7sfv-a1-m9-cH 7sfv-a1-m9-cE_7sfv-a1-m9-cK 7sfv-a1-m9-cH_7sfv-a1-m9-cK 7sfw-a1-m1-cE_7sfw-a1-m1-cH 7sfw-a1-m1-cE_7sfw-a1-m1-cK 7sfw-a1-m1-cH_7sfw-a1-m1-cK STEELFNEYKLTRPYMARCIRCAVGSCHSPIAIEAVKSDGHDGYVRLQTSSQYGLDSSGNLKGRTMRYDMHGTIKEIPLHQVSLYTSRPCHIVDGHGYFLLARCPAGDSITMEFKKDSVRHSCSVPYEVKFNPVGRELYTHPPEHGVEQACQVYAHDAQNRGAYVEMHLPGSEVDSSLVSLSGSSVTVTPPDGTSALVECECGGTKISETINKTKQFSQCTKKEQCRAYRLQNDKWVYNSDKLPKAAGATLKGKLHVPFLLADGKCTVPLAPEPMITFGFRSVSLKLHPKNPTYLITRQLADEPHYTHELISEPAVRNFTVTEKGWEFVWGNHPPKRFWAQETAPGNPHGLPHEVITHYYHRYPMSTILGLSICAAIATVSVAASTWLFCRSRVACLTPYRLTPNARIPFCLAVLCCARTARA STEELFNEYKLTRPYMARCIRCAVGSCHSPIAIEAVKSDGHDGYVRLQTSSQYGLDSSGNLKGRTMRYDMHGTIKEIPLHQVSLYTSRPCHIVDGHGYFLLARCPAGDSITMEFKKDSVRHSCSVPYEVKFNPVGRELYTHPPEHGVEQACQVYAHDAQNRGAYVEMHLPGSEVDSSLVSLSGSSVTVTPPDGTSALVECECGGTKISETINKTKQFSQCTKKEQCRAYRLQNDKWVYNSDKLPKAAGATLKGKLHVPFLLADGKCTVPLAPEPMITFGFRSVSLKLHPKNPTYLITRQLADEPHYTHELISEPAVRNFTVTEKGWEFVWGNHPPKRFWAQETAPGNPHGLPHEVITHYYHRYPMSTILGLSICAAIATVSVAASTWLFCRSRVACLTPYRLTPNARIPFCLAVLCCARTARA 7n1l-a5-m1-cH_7n1l-a5-m1-cK Crystal Structure of Ribosomal-protein-alanine N-acetyltransferase from Brucella melitensis biovar Abortus 2308 Q2YLP8 Q2YLP8 2.3 X-RAY DIFFRACTION 179 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 144 148 7n1l-a1-m1-cD_7n1l-a1-m1-cA 7n1l-a2-m1-cE_7n1l-a2-m1-cB 7n1l-a3-m1-cC_7n1l-a3-m1-cG 7n1l-a4-m1-cJ_7n1l-a4-m1-cF 7n1l-a6-m1-cI_7n1l-a6-m1-cL 7n1l-a7-m1-cP_7n1l-a7-m1-cM 7n1l-a8-m1-cO_7n1l-a8-m1-cN HAVDIALLHLRDAHEFAPLLASYAQALKPRRPDDFYAEHLLQDRAAEALGARVDGNLVGFVIFYDLPEPVTGLRAGQVDHIYVHHDHRGKGIAKALIDVLADKAEERSWSKLVLNAPRVPEDGRKLYEQIAAAADWSSYVIRFG HAVDIALLHLRDAHEFAPLLASYAQALKRGAPRRPDDFYAEHLLQDRAAEALGARVDGNLVGFVIFYDLPEPVTGLRAGQVDHIYVHHDHRGKGIAKALIDVLADKAEERSWSKLVLNAPRVPEDGRKLYEQIAAAADWSSYVIRFGN 7n28-a1-m1-cG_7n28-a1-m1-cF Cryo-EM structure of broadly neutralizing V2-apex-targeting antibody J033 in complex with HIV-1 Env I6NF57 I6NF57 4.2 ELECTRON MICROSCOPY 14 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 472 472 7mxd-a1-m1-cA_7mxd-a1-m1-cF 7mxd-a1-m1-cG_7mxd-a1-m1-cA 7mxd-a1-m1-cG_7mxd-a1-m1-cF 7n28-a1-m1-cA_7n28-a1-m1-cF 7n28-a1-m1-cG_7n28-a1-m1-cA AENLWVTVYYGVPVWKDADTTLFCASDAKAHETEAHNIWATHACVPTDPNPQEIYMENVTENFNMWKNNMVEQMQEDIISLWDQSLKPCVKLTPLCVTLSCTNVTLTNVNYTNNFPNIGNITDEVRNCSFNVTTEIRDKKQKVYALFYKLDIVQMENKNSYRLINCNTSVCKQACPKISFDPIPIHYCTPAGYAILKCNEKNFNGTGPCKNVSSVQCTHGIKPVVSTQLLLNGSLAEGEIIIRSENLTNNAKTIIVHLNKSVEINCTRPSNNTRTSVTIGPGQVFYRTGDIIGDIRKAYCEINGTKWNETLKQVVGKLKEHFPNKTISFQPPSGGDLEITMHHFNCRGEFFYCNTTQLFNSTWINSTTIKEYNDTIIYLPCKIKQIINMWQGVGQCMYAPPIRGKINCVSNITGILLTRDGGDANATNDTETFRPGGGNIKDNWRSELYKYKVVQIEPLGIAPTKCKRRVVE AENLWVTVYYGVPVWKDADTTLFCASDAKAHETEAHNIWATHACVPTDPNPQEIYMENVTENFNMWKNNMVEQMQEDIISLWDQSLKPCVKLTPLCVTLSCTNVTLTNVNYTNNFPNIGNITDEVRNCSFNVTTEIRDKKQKVYALFYKLDIVQMENKNSYRLINCNTSVCKQACPKISFDPIPIHYCTPAGYAILKCNEKNFNGTGPCKNVSSVQCTHGIKPVVSTQLLLNGSLAEGEIIIRSENLTNNAKTIIVHLNKSVEINCTRPSNNTRTSVTIGPGQVFYRTGDIIGDIRKAYCEINGTKWNETLKQVVGKLKEHFPNKTISFQPPSGGDLEITMHHFNCRGEFFYCNTTQLFNSTWINSTTIKEYNDTIIYLPCKIKQIINMWQGVGQCMYAPPIRGKINCVSNITGILLTRDGGDANATNDTETFRPGGGNIKDNWRSELYKYKVVQIEPLGIAPTKCKRRVVE 7n29-a3-m1-cD_7n29-a3-m2-cD Structure of NAD kinase Q4G0N4 Q4G0N4 2.8 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 314 314 7n29-a1-m1-cA_7n29-a1-m3-cA CGSRADGGFRPSRVVVVAKTTRYEFEQQRSYSGLLERHHIHTKNVEHIIDSLRNEGIEVRLVKRREYDEETVRWADAVIAAGGDGTLLAASKVLDRLKPVIGVNTDPERSEGHLCLPVRYTHSFPEALQKFYRGEFRWLWRQRIRLYLEGTGINPVPVDLHEQGPQLLPVRALNEVFIGASYYEISVDDGPWEKQKSSGLNLCTGTGSKAWSFNINRVATQAVEDVLNIAKRQGNLVEKVTNEYNESLLYSPEEPKILFSIREPIQRCFSSKVCVRSRCWDACVVDGGTSFEFNDGAIASINKEDELRTVLLEQ CGSRADGGFRPSRVVVVAKTTRYEFEQQRSYSGLLERHHIHTKNVEHIIDSLRNEGIEVRLVKRREYDEETVRWADAVIAAGGDGTLLAASKVLDRLKPVIGVNTDPERSEGHLCLPVRYTHSFPEALQKFYRGEFRWLWRQRIRLYLEGTGINPVPVDLHEQGPQLLPVRALNEVFIGASYYEISVDDGPWEKQKSSGLNLCTGTGSKAWSFNINRVATQAVEDVLNIAKRQGNLVEKVTNEYNESLLYSPEEPKILFSIREPIQRCFSSKVCVRSRCWDACVVDGGTSFEFNDGAIASINKEDELRTVLLEQ 7n2t-a1-m1-cA_7n2t-a1-m2-cA O-acetylserine sulfhydrylase from Citrullus vulgaris in the internal aldimine state, with citrate bound Q43317 Q43317 1.55 X-RAY DIFFRACTION 160 1.0 260674 (Citrullus lanatus subsp. vulgaris) 260674 (Citrullus lanatus subsp. vulgaris) 308 308 STIAKDVTELIGNTPLVYLNRVVDGCVARVAAKLEMMEPCSSVDRIGYSMISDAENKGLITPGESVLIEPTSGNTGIGLAFIAAAKGYRLIICMPASMSLERRTILRAFGAELVLTDPARGMKGAVQKAEEIKAKTPNSYILQQFENPANPKIHYETTGPEIWRGSGGKIDALVSGIGTGGTVTGAGKYLKEQNPNIKLYGVEPVESAILSGGKPGPHKIQGIGAGFIPGVLDVNLLDEVIQVSSEESIETAKLLALKEGLLVGISSGAAAAAAIRIAKRPENAGKLIVAVFPSFGERYLSTVLFESV STIAKDVTELIGNTPLVYLNRVVDGCVARVAAKLEMMEPCSSVDRIGYSMISDAENKGLITPGESVLIEPTSGNTGIGLAFIAAAKGYRLIICMPASMSLERRTILRAFGAELVLTDPARGMKGAVQKAEEIKAKTPNSYILQQFENPANPKIHYETTGPEIWRGSGGKIDALVSGIGTGGTVTGAGKYLKEQNPNIKLYGVEPVESAILSGGKPGPHKIQGIGAGFIPGVLDVNLLDEVIQVSSEESIETAKLLALKEGLLVGISSGAAAAAAIRIAKRPENAGKLIVAVFPSFGERYLSTVLFESV 7n34-a1-m1-cA_7n34-a1-m2-cA Structure of Yersinia aleksiciae Cap15 cyclic dinucleotide receptor, crystal form 1 1.9 X-RAY DIFFRACTION 36 1.0 263819 (Yersinia aleksiciae) 263819 (Yersinia aleksiciae) 107 107 7n35-a1-m1-cA_7n35-a1-m2-cB GKFLCVPNLEGRWHVDGHTRSEGGNTWEGELKIVQTWDKVRIHLKTKASHSDSVTASIIYDKGIGYQLLYNYRNQVGFAEFRFDADLKSAEGHYFNGATYGTTITRI GKFLCVPNLEGRWHVDGHTRSEGGNTWEGELKIVQTWDKVRIHLKTKASHSDSVTASIIYDKGIGYQLLYNYRNQVGFAEFRFDADLKSAEGHYFNGATYGTTITRI 7n34-a2-m1-cA_7n34-a2-m3-cA Structure of Yersinia aleksiciae Cap15 cyclic dinucleotide receptor, crystal form 1 1.9 X-RAY DIFFRACTION 40 1.0 263819 (Yersinia aleksiciae) 263819 (Yersinia aleksiciae) 107 107 7n35-a2-m1-cA_7n35-a2-m1-cB GKFLCVPNLEGRWHVDGHTRSEGGNTWEGELKIVQTWDKVRIHLKTKASHSDSVTASIIYDKGIGYQLLYNYRNQVGFAEFRFDADLKSAEGHYFNGATYGTTITRI GKFLCVPNLEGRWHVDGHTRSEGGNTWEGELKIVQTWDKVRIHLKTKASHSDSVTASIIYDKGIGYQLLYNYRNQVGFAEFRFDADLKSAEGHYFNGATYGTTITRI 7n3j-a1-m1-cA_7n3j-a1-m1-cB E. coli peptidyl-prolyl cis-trans isomerase, mutant Phe27CF3-Tyr/Phe98CF3-Tyr P23869 P23869 2 X-RAY DIFFRACTION 31 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 166 167 MVTFHTNHGDIVIKTFDDKAPETVKNLDYCREGFYNNTIFHRVINGFMIQGGGFEPGMKQKATKEPIKNEANNGLKNTRGTLAMARTQAPHSATAQFINVVDNDFLNFSGESLQGWGYCVFAEVVDGMDVVDKIKGVATGRSGMHQDVPKEDVIIESVTVSEHHHH MVTFHTNHGDIVIKTFDDKAPETVKNLDYCREGFYNNTIFHRVINGFMIQGGGFEPGMKQKATKEPIKNEANNGLKNTRGTLAMARTQAPHSATAQFINVVDNDFLNFSGESLQGWGYCVFAEVVDGMDVVDKIKGVATGRSGMHQDVPKEDVIIESVTVSEHHHHH 7n3y-a2-m1-cD_7n3y-a2-m1-cC Crystal Structure of Saccharomyces cerevisiae Apn2 Catalytic Domain E59Q/D222N Mutant in Complex with DNA P38207 P38207 2.73 X-RAY DIFFRACTION 12 0.997 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 359 374 7n3y-a1-m1-cB_7n3y-a1-m1-cA GKSENTIRFLTFNVNGIRTFFHYQPFSQMNQSLRSVFDFFRADIITFQQLKTEKLSISKWGRVDGFYSFISIPQTRKGYSGVGCWIRIPEKNHPLYHALQVVKAEEGITGYLTISYRNDVNQGIGGYDSLDPDLDEKSALELDSEGRCVMVELACGIVIISVYCPANSNSSEEGEMFRLRFLKVLLRRVRNLDKIGKKIVLMGNVNVCRDLIDSADTLEQFSIPITDPMGGTKLEAQYRDKAIQFIINPDTPHRRIFNQILADSLLPDASKRGILIDTTRLIQTRNRLKMYTVWNMLKNLRPSNYGSRIDFILVSLKLERCIKAADILPDILGSDHCPVYSDLDQVPIPKFEARYKYNL GKSENTIRFLTFNVNGIRTFFHYQPFSQMNQSLRSVFDFFRADIITFQQLKTEKLSISKWGRVDGFYSFISIPQTRKGYSGVGCWIRIPEKNHPLYHALQVVKAEEGITGYLTIKHSAISYRNDVNQGIGGYDSLDPDLDEKSALELDSEGRCVMVELACGIVIISVYCPANSNSSEEGEMFRLRFLKVLLRRVRNLDKIGKKIVLMGNVNVCRDLIDSADTLEQFSIPITDPMGGTKLEAQYRDKAIQFIINPDTPHRRIFNQILADSLLPDASKRGILIDTTRLIQTRNRLKMYTVWNMLKNLRPSNYGSRIDFILVSLKLERCIKAADILPDILGSDHCPVYSDLDILVPIPKFEARYKYNLRNHNVLEMF 7n4v-a1-m1-cA_7n4v-a1-m1-cB Structure of cholesterol-bound human NPC1L1 Q9UHC9 Q9UHC9 3.58 ELECTRON MICROSCOPY 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 953 953 7n4u-a1-m1-cA_7n4u-a1-m1-cB THTLLGQFFQGWGTWVASWPLTILVLSVIPVVALAAGLVFTELTTDPVELWSAPNSQARSEKAFHDQHFGPFFRTNQVILTAPNRSSYRYDSLLLGPKNFSGILDLDLLLELLELQERLRHLQVWSPEAQRNISLQDICYAPLNPDNTSLYDCCINSLLQYFQNNRTLLLLTANQTLMGQTSQVDWKDHFLYCANAPLTFKDGTALALSCMADYGAPVFPFLAIGGYKGKDYSEAEALIMTFSLNNYPAGDPRLAQAKLWEEAFLEEMRAFQRRMAGMFQVTFMAERSLEDEINRTTAEDLPIFATSYIVIFLYISLALGSYSSWSRVMVDSKATLGLGGVAVVLGAVMAAMGFFSYLGIRSSLVILQVVPFLVLSVGADNIFIFVLEYQRLPRRPGEPREVHIGRALGRVAPSMLLCSLSEAICFFLGALTPMPAVRTFALTSGLAVILDFLLQMSAFVALLSLDSKRQEASRLDVCCCVKPQELPPPGQGEGLLLGFFQKAYAPFLLHWITRGVVLLLFLALFGVSLYSMCHISVGLDQELALPKDSYLLDYFLFLNRYFEVGAPVYFVTTLGYNFSSEAGMNAICSSAGCNNFSFTQKIQYATEFPEQSYLAIPASSWVDDFIDWLTPSSCCRLYISGPNKDKFCPSTVNSLNCLKNCMSITMGSVRPSVEQFHKYLPWFLNDRPNIKCPKGGLAAYSTSVNLTSDGQVLTSRFMAYHKPLKNSQDYTEALRAARELAANITADLRKVPGTDPAFEVFPYTITNVFYEQYLTILPEGLFMLSLCLVPTFAVSCLLLGLDLRSGLLNLLSIVMILVDTVGFMALWGISYNAVSLINLVSAVGMSVEFVSHITRSFAISTKPTWLERAKEATISMGSAVFAGVAMTNLPGILVLGLAKAQLIQIFFFRLNLLITLLGLLHGLVFLPVILSYVGPDVNPALALEQKRAEEAVA THTLLGQFFQGWGTWVASWPLTILVLSVIPVVALAAGLVFTELTTDPVELWSAPNSQARSEKAFHDQHFGPFFRTNQVILTAPNRSSYRYDSLLLGPKNFSGILDLDLLLELLELQERLRHLQVWSPEAQRNISLQDICYAPLNPDNTSLYDCCINSLLQYFQNNRTLLLLTANQTLMGQTSQVDWKDHFLYCANAPLTFKDGTALALSCMADYGAPVFPFLAIGGYKGKDYSEAEALIMTFSLNNYPAGDPRLAQAKLWEEAFLEEMRAFQRRMAGMFQVTFMAERSLEDEINRTTAEDLPIFATSYIVIFLYISLALGSYSSWSRVMVDSKATLGLGGVAVVLGAVMAAMGFFSYLGIRSSLVILQVVPFLVLSVGADNIFIFVLEYQRLPRRPGEPREVHIGRALGRVAPSMLLCSLSEAICFFLGALTPMPAVRTFALTSGLAVILDFLLQMSAFVALLSLDSKRQEASRLDVCCCVKPQELPPPGQGEGLLLGFFQKAYAPFLLHWITRGVVLLLFLALFGVSLYSMCHISVGLDQELALPKDSYLLDYFLFLNRYFEVGAPVYFVTTLGYNFSSEAGMNAICSSAGCNNFSFTQKIQYATEFPEQSYLAIPASSWVDDFIDWLTPSSCCRLYISGPNKDKFCPSTVNSLNCLKNCMSITMGSVRPSVEQFHKYLPWFLNDRPNIKCPKGGLAAYSTSVNLTSDGQVLTSRFMAYHKPLKNSQDYTEALRAARELAANITADLRKVPGTDPAFEVFPYTITNVFYEQYLTILPEGLFMLSLCLVPTFAVSCLLLGLDLRSGLLNLLSIVMILVDTVGFMALWGISYNAVSLINLVSAVGMSVEFVSHITRSFAISTKPTWLERAKEATISMGSAVFAGVAMTNLPGILVLGLAKAQLIQIFFFRLNLLITLLGLLHGLVFLPVILSYVGPDVNPALALEQKRAEEAVA 7n4y-a1-m1-cA_7n4y-a1-m1-cB The structure of bovine thyroglobulin with iodinated tyrosines A0A4W2CHS8 A0A4W2CHS8 2.61 ELECTRON MICROSCOPY 655 1.0 30522 (Bos indicus x Bos taurus) 30522 (Bos indicus x Bos taurus) 2452 2452 NIFEQVDAQPLRPCELQRERAFLKREDYVPQCAEDGSFQTVQCGKDGASCWCVDADGREVPGSRQPGRPAACLSFCQLQKQQILLSSYINSTATSYLPQCQDSGDYSPVQCDLRRRQCWCVDAEGMEVYGTRQQGRPARCPRSCEIRNRRLLHGVGDRSPPQCSPDGAFRPVQCKFVNTTDMMIFDLVHSYSRFPDAFVTFSSFRSRFPEVSGYCYCADSQGRELAETGLELLLDEIYDTIFAGLDLASTFAETTLYRILQRRFLAVQLVISGRFRCPTKCEVERFAATSFRHPYVPSCHPDGEYQAAQCQQGGPCWCVDSRGQEIPGTRQRGEPPSCAEDQSCPSERRRAFSRLRFGPSGYFSASCPPSIKELFLDSGIFQPMLQGRDTRFVAPESLLKEAIRGLFPSRELARLALQFTTNAKRLQQNLFGGRFLVNVGQFNLSGALGTRGTFNFSHFFQQLGLPGFQDKPVVGSFGFEVNLQENQNALQFLSSFLELPEFLLFLQHAISVPEDIARDLGDVMEMVFSSQGCGSLFVPACTAEGSYEEVQCFAGDCWCVDAQGRELAGSRVRGGRPRCPTECEKQRARMQSLLGSQPAGSSLFVPACTSKGNFLPVQCFNSECYCVDTEGQPIPGTRSALGEPKKCPSPCQLQAERAFLGTVRTLVYIPQCSASGQWSPVQCDGPPEAHFDLRSCWCVDEAGQKLCPGSCEEVKLRVLQFIREAEEIVTYSNSSRFPLGESFLAAKGIRLTDEELAFPPLSPSRETFLEKFLSGSDYAIRLAAQSTFDFYQRRLVTLAESPRAPSPVWSSAYLPQCDAFGGWEPVQCHAATGHCWCVDGKGEYVPTSLTARSRQIPQCPTSCERLRASGLLSSWKQAGVQAEPSPKDLFIPTCLETGEFARLQASEAGTWCVDPASGEGVPPGQCPSLCEVLQSPGYSPACRAEDGGFSPVQCDPAQGSCWCVLGSGEEVPGTRVAGSQPACESPQCPLPFSVADVAGGAILCERASGAAGQRCQLRCSQGYRSAFPPEPLLCSVQRRRWESRPPQPRACQRPQFWQTLQTQAQFQLLDYSGLLLAFQVFLLDELTARGFCQIQVKTAGTPVSIPVCDDSSVKVECLSRERLGVNITWKLQLVDAPPASLPDLQDVEEALAGKYLAGRFADLIQSGTFQLHLDSKTFSADTSIRFLQGDRFGISPRTQFGCLEGFGRVVAASDASQDALGCVKCPEGSYFQDEQCIPCPAGFYQEQAGSLACVPCPEGRTTVYAGAFSQTHCVTDCQKNEVGLQCDQDGQYRASQRDRTSGKAFCVDGEGRRLPWTEAEAPLVDAQCLVMRKFEKLPESKVIFSADVAVMVRSEVPGSLMQCLADCALDEACGFLTVSTEVSCDFYAWASDSIACTTSGRATSFGSLQCQVKVRSREGDPLAVYLKKGQEFTITGQKRFEQTGFQSALSGMYSPVTFSASGASLAEVHLFCLLACDHDSCCDGFILVQVQGGPLLCGLLSSPDVLLCHVRDWRDPAEAQANASCPGVTYDQDSRQVTLRLGGQEIRGLTPTSFQQVYLWKDSDMGSRSESMGCRDLTTGLFSPVDLIQVIVDGNVSLPSQQHWLFKHLFSLQQANLWCLSRCAGEPSFCQLAEVTDSEPLYFTCTLYPEAQVCDDILESSPKGCRLILPRRPSALYRKKVVLQDRVKNFYNRLPFQKLTGISIRNKVPMSDKSISSGFFECERLCDMDPCCTGFGFLNVSQLKGGEVTCLTLNSLGLQTCSEEGGVWRILDCGSPDTEVRTYPFGWYQKPVSPSDAPSFCPSVALPALTENVALDSWQSLALSSVIVDPSIRNFDVAHISTAAVGNFSAARDRCLWECSRHQDCLVTTLQTQPGAVRCMFYADTQSCTHSLQAQNCRLLLHEEATYIYRKPNIPLPGFGTSSPSVPIATHGQLLGRSQAIQVGTSWKPVDQFLGVPYAAPPLGEKRFRAPEHLNWTGSWEATKPRARCWQPGIRTPTPPGVSEDCLYLNVFVPQNMPPNASVLVFFHNAAEGKGSGDRPAVDGSFLAAVGNLIVVTASYRTGIFGFLSSGSSELSGNWGLLDQVVALTWVQTHIQAFGGDPRRVTLAADRGGADIASIHLVTTRAANSRLFRRAVLMGGSALSPAAVIRPERARQQAAALAKEVGCPSSSVQEMVSCLRQEPARILNDAQTKLLAVSGPFHYWGPVVDGQYLRETPARVLQRAPRVKVDLLIGSSQDDGLINRAKAVKQFEESQGRTSSKTAFYQALQNSLGGEAADAGVQAAATWYYSLEHDSDDASFSRALEQATRDYFIICPVIDMASHWARTVRGNVFMYHAPESYSHSSLELLTDVLYAFGLPFYPAYEGQFTLEEKSLSLKIMQYFSNFIRSGNPNYPHEFSRRAPEFAAPWPDFVPRDGAESYKELSVLLPNRQGLKKADCSFWSKYIQSLKAS NIFEQVDAQPLRPCELQRERAFLKREDYVPQCAEDGSFQTVQCGKDGASCWCVDADGREVPGSRQPGRPAACLSFCQLQKQQILLSSYINSTATSYLPQCQDSGDYSPVQCDLRRRQCWCVDAEGMEVYGTRQQGRPARCPRSCEIRNRRLLHGVGDRSPPQCSPDGAFRPVQCKFVNTTDMMIFDLVHSYSRFPDAFVTFSSFRSRFPEVSGYCYCADSQGRELAETGLELLLDEIYDTIFAGLDLASTFAETTLYRILQRRFLAVQLVISGRFRCPTKCEVERFAATSFRHPYVPSCHPDGEYQAAQCQQGGPCWCVDSRGQEIPGTRQRGEPPSCAEDQSCPSERRRAFSRLRFGPSGYFSASCPPSIKELFLDSGIFQPMLQGRDTRFVAPESLLKEAIRGLFPSRELARLALQFTTNAKRLQQNLFGGRFLVNVGQFNLSGALGTRGTFNFSHFFQQLGLPGFQDKPVVGSFGFEVNLQENQNALQFLSSFLELPEFLLFLQHAISVPEDIARDLGDVMEMVFSSQGCGSLFVPACTAEGSYEEVQCFAGDCWCVDAQGRELAGSRVRGGRPRCPTECEKQRARMQSLLGSQPAGSSLFVPACTSKGNFLPVQCFNSECYCVDTEGQPIPGTRSALGEPKKCPSPCQLQAERAFLGTVRTLVYIPQCSASGQWSPVQCDGPPEAHFDLRSCWCVDEAGQKLCPGSCEEVKLRVLQFIREAEEIVTYSNSSRFPLGESFLAAKGIRLTDEELAFPPLSPSRETFLEKFLSGSDYAIRLAAQSTFDFYQRRLVTLAESPRAPSPVWSSAYLPQCDAFGGWEPVQCHAATGHCWCVDGKGEYVPTSLTARSRQIPQCPTSCERLRASGLLSSWKQAGVQAEPSPKDLFIPTCLETGEFARLQASEAGTWCVDPASGEGVPPGQCPSLCEVLQSPGYSPACRAEDGGFSPVQCDPAQGSCWCVLGSGEEVPGTRVAGSQPACESPQCPLPFSVADVAGGAILCERASGAAGQRCQLRCSQGYRSAFPPEPLLCSVQRRRWESRPPQPRACQRPQFWQTLQTQAQFQLLDYSGLLLAFQVFLLDELTARGFCQIQVKTAGTPVSIPVCDDSSVKVECLSRERLGVNITWKLQLVDAPPASLPDLQDVEEALAGKYLAGRFADLIQSGTFQLHLDSKTFSADTSIRFLQGDRFGISPRTQFGCLEGFGRVVAASDASQDALGCVKCPEGSYFQDEQCIPCPAGFYQEQAGSLACVPCPEGRTTVYAGAFSQTHCVTDCQKNEVGLQCDQDGQYRASQRDRTSGKAFCVDGEGRRLPWTEAEAPLVDAQCLVMRKFEKLPESKVIFSADVAVMVRSEVPGSLMQCLADCALDEACGFLTVSTEVSCDFYAWASDSIACTTSGRATSFGSLQCQVKVRSREGDPLAVYLKKGQEFTITGQKRFEQTGFQSALSGMYSPVTFSASGASLAEVHLFCLLACDHDSCCDGFILVQVQGGPLLCGLLSSPDVLLCHVRDWRDPAEAQANASCPGVTYDQDSRQVTLRLGGQEIRGLTPTSFQQVYLWKDSDMGSRSESMGCRDLTTGLFSPVDLIQVIVDGNVSLPSQQHWLFKHLFSLQQANLWCLSRCAGEPSFCQLAEVTDSEPLYFTCTLYPEAQVCDDILESSPKGCRLILPRRPSALYRKKVVLQDRVKNFYNRLPFQKLTGISIRNKVPMSDKSISSGFFECERLCDMDPCCTGFGFLNVSQLKGGEVTCLTLNSLGLQTCSEEGGVWRILDCGSPDTEVRTYPFGWYQKPVSPSDAPSFCPSVALPALTENVALDSWQSLALSSVIVDPSIRNFDVAHISTAAVGNFSAARDRCLWECSRHQDCLVTTLQTQPGAVRCMFYADTQSCTHSLQAQNCRLLLHEEATYIYRKPNIPLPGFGTSSPSVPIATHGQLLGRSQAIQVGTSWKPVDQFLGVPYAAPPLGEKRFRAPEHLNWTGSWEATKPRARCWQPGIRTPTPPGVSEDCLYLNVFVPQNMPPNASVLVFFHNAAEGKGSGDRPAVDGSFLAAVGNLIVVTASYRTGIFGFLSSGSSELSGNWGLLDQVVALTWVQTHIQAFGGDPRRVTLAADRGGADIASIHLVTTRAANSRLFRRAVLMGGSALSPAAVIRPERARQQAAALAKEVGCPSSSVQEMVSCLRQEPARILNDAQTKLLAVSGPFHYWGPVVDGQYLRETPARVLQRAPRVKVDLLIGSSQDDGLINRAKAVKQFEESQGRTSSKTAFYQALQNSLGGEAADAGVQAAATWYYSLEHDSDDASFSRALEQATRDYFIICPVIDMASHWARTVRGNVFMYHAPESYSHSSLELLTDVLYAFGLPFYPAYEGQFTLEEKSLSLKIMQYFSNFIRSGNPNYPHEFSRRAPEFAAPWPDFVPRDGAESYKELSVLLPNRQGLKKADCSFWSKYIQSLKAS 7n59-a1-m1-cA_7n59-a1-m1-cB Structure of AtAtm3 in the inward-facing conformation with GSSG bound Q9LVM1 Q9LVM1 3.6 ELECTRON MICROSCOPY 280 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 590 590 7n58-a1-m1-cA_7n58-a1-m1-cB AMADMKILRTLAGYLWMRDNPEFRFRVIAALGFLVGAKVLNVQVPFLFKLAVDWLASATATNPTLLTVFATPAAVLIGYGIARTGSSAFNELRTAVFSKVALRTIRSVSRKVFSHLHDLDLRYHLSRETGGLNRIIDRGSRAINFILSAMVFNVVPTILEISMVSGILAYKFGAAFAWITSLSVGSYIVFTLAVTQWRTKFRKAMNKADNDASTRAIDSLINYETVKYFNNEGYEAEKYDQFLKKYEDAALQTQRSLAFLNFGQSIIFSTALSTAMVLCSQGIMNGQMTVGDLVMVNGLLFQLSLPLNFLGSVYRETIQSLVDMKSMFQLLEEKSDITNTSDAKPLVLKGGNIEFENVHFSYLPERKILDGISFVVPAGKSVAIVGTSGSGKSTILRMLFRFFDTDSGNIRIDGQDIKEVRLDSLRSSIGVVPQDTVLFNDTIFHNIHYGRLSATEEEVYEAARRAAIHETISNFPDKYSTIVGERGLKLSGGEKQRVALARTFLKSPAILLCDEATSALDSTTEAEILNALKALASNRTSIFIAHRLTTAMQCDEIVVLENGKVVEQGPHDELLGKSGRYAQLWTQQNS AMADMKILRTLAGYLWMRDNPEFRFRVIAALGFLVGAKVLNVQVPFLFKLAVDWLASATATNPTLLTVFATPAAVLIGYGIARTGSSAFNELRTAVFSKVALRTIRSVSRKVFSHLHDLDLRYHLSRETGGLNRIIDRGSRAINFILSAMVFNVVPTILEISMVSGILAYKFGAAFAWITSLSVGSYIVFTLAVTQWRTKFRKAMNKADNDASTRAIDSLINYETVKYFNNEGYEAEKYDQFLKKYEDAALQTQRSLAFLNFGQSIIFSTALSTAMVLCSQGIMNGQMTVGDLVMVNGLLFQLSLPLNFLGSVYRETIQSLVDMKSMFQLLEEKSDITNTSDAKPLVLKGGNIEFENVHFSYLPERKILDGISFVVPAGKSVAIVGTSGSGKSTILRMLFRFFDTDSGNIRIDGQDIKEVRLDSLRSSIGVVPQDTVLFNDTIFHNIHYGRLSATEEEVYEAARRAAIHETISNFPDKYSTIVGERGLKLSGGEKQRVALARTFLKSPAILLCDEATSALDSTTEAEILNALKALASNRTSIFIAHRLTTAMQCDEIVVLENGKVVEQGPHDELLGKSGRYAQLWTQQNS 7n5b-a1-m1-cA_7n5b-a1-m1-cB Structure of AtAtm3 in the outward-facing conformation Q9LVM1 Q9LVM1 3.8 ELECTRON MICROSCOPY 366 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 580 580 7n5a-a1-m1-cA_7n5a-a1-m1-cB AMADMKILRTLAGYLWMRDNPEFRFRVIAALGFLVGAKVLNVQVPFLFKLAVDWLASAFATPAAVLIGYGIARTGSSAFNELRTAVFSKVALRTIRSVSRKVFSHLHDLDLRYHLSRETGGLNRIIDRGSRAINFILSAMVFNVVPTILEISMVSGILAYKFGAAFAWITSLSVGSYIVFTLAVTQWRTKFRKAMNKADNDASTRAIDSLINYETVKYFNNEGYEAEKYDQFLKKYEDAALQTQRSLAFLNFGQSIIFSTALSTAMVLCSQGIMNGQMTVGDLVMVNGLLFQLSLPLNFLGSVYRETIQSLVDMKSMFQLLEEKSDITNTSDAKPLVLKGGNIEFENVHFSYLPERKILDGISFVVPAGKSVAIVGTSGSGKSTILRMLFRFFDTDSGNIRIDGQDIKEVRLDSLRSSIGVVPQDTVLFNDTIFHNIHYGRLSATEEEVYEAARRAAIHETISNFPDKYSTIVGERGLKLSGGEKQRVALARTFLKSPAILLCDEATSALDSTTEAEILNALKALASNRTSIFIAHRLTTAMQCDEIVVLENGKVVEQGPHDELLGKSGRYAQLWTQQNS AMADMKILRTLAGYLWMRDNPEFRFRVIAALGFLVGAKVLNVQVPFLFKLAVDWLASAFATPAAVLIGYGIARTGSSAFNELRTAVFSKVALRTIRSVSRKVFSHLHDLDLRYHLSRETGGLNRIIDRGSRAINFILSAMVFNVVPTILEISMVSGILAYKFGAAFAWITSLSVGSYIVFTLAVTQWRTKFRKAMNKADNDASTRAIDSLINYETVKYFNNEGYEAEKYDQFLKKYEDAALQTQRSLAFLNFGQSIIFSTALSTAMVLCSQGIMNGQMTVGDLVMVNGLLFQLSLPLNFLGSVYRETIQSLVDMKSMFQLLEEKSDITNTSDAKPLVLKGGNIEFENVHFSYLPERKILDGISFVVPAGKSVAIVGTSGSGKSTILRMLFRFFDTDSGNIRIDGQDIKEVRLDSLRSSIGVVPQDTVLFNDTIFHNIHYGRLSATEEEVYEAARRAAIHETISNFPDKYSTIVGERGLKLSGGEKQRVALARTFLKSPAILLCDEATSALDSTTEAEILNALKALASNRTSIFIAHRLTTAMQCDEIVVLENGKVVEQGPHDELLGKSGRYAQLWTQQNS 7n5h-a1-m1-cC_7n5h-a1-m1-cB Cryo-EM structure of broadly neutralizing antibody 2-36 in complex with prefusion SARS-CoV-2 spike glycoprotein P0DTC2 P0DTC2 3.24 ELECTRON MICROSCOPY 280 0.998 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1010 1013 LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVFRVYSSANNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7n5h-a1-m1-cH_7n5h-a1-m1-cE Cryo-EM structure of broadly neutralizing antibody 2-36 in complex with prefusion SARS-CoV-2 spike glycoprotein 3.24 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 128 128 QVQLQESGPGLVKPSETLSLTCTVSGGSVSSSNYYWSWIRQPPGKGLEWIGYMYYSGSTKYNPSLKSRVTISVDTSKNQFSLKLSSVTAADTAVYYCAREVYYYDRSGYYASDGFDIWGQGTMVTVSS QVQLQESGPGLVKPSETLSLTCTVSGGSVSSSNYYWSWIRQPPGKGLEWIGYMYYSGSTKYNPSLKSRVTISVDTSKNQFSLKLSSVTAADTAVYYCAREVYYYDRSGYYASDGFDIWGQGTMVTVSS 7n61-a1-m1-c0A_7n61-a1-m1-c0D structure of C2 projections and MIPs P93107 P93107 3.5 ELECTRON MICROSCOPY 216 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 467 476 7n61-a1-m1-c0B_7n61-a1-m1-c0C PEVIDDFLRNFFIKMGLSRTCECFEAEWYELKATGRLDNSTTVPDVYLRNAELEDDVAGLRRELAEAKSIAGRASATWDKFRKERDFHRMHHKRVAQEKNKLLTDLRRLKEHYAKYEPTILELKKKYETLMKEKMMMSLERDKLAARVDALEASLNAPPRRNPYADLEFPAAPVKMLSLNKTFKGHLLSVANLALHPTKPILVTASDDKTWKMWHMPGGDLIMCGEGHKDWVAGVDFHPAGTCLASGGGDSAVKIWDFEKQRCVTTFTDHKQAIWSVRFHHLGEVVASGSLDHTVRLWDLPAGKCRMALRGHVDSVNDLAWQPFSSSLATASSDKTVSVWDARAGLCTQTYYGHQNSCNGVSFNILGTQLASTDADGVVKLWDTRMTAEVATINTGKHPANKSCFDRSGQVLAVACDDGKVKAYSTTDGVLQAELAGHEDAVQAVLFDPAGQYLVSCGSDNTFRLWS KPGQVVKKPEVIDDFLRNFFIKMGLSRTCECFEAEWYELKATGRLDNSTTVPDVYLRNAELEDDVAGLRRELAEAKSIAGRASATWDKFRKERDFHRMHHKRVAQEKNKLLTDLRRLKEHYAKYEPTILELKKKYETLMKEKMMMSLERDKLAARVDALEQASLNAPPRRNPYADLEFPAAPVKMLSLNKTFKGHLLSVANLALHPTKPILVTASDDKTWKMWHMPGGDLIMCGEGHKDWVAGVDFHPAGTCLASGGGDSAVKIWDFEKQRCVTTFTDHKQAIWSVRFHHLGEVVASGSLDHTVRLWDLPAGKCRMALRGHVDSVNDLAWQPFSSSLATASSDKTVSVWDARAGLCTQTYYGHQNSCNGVSFNILGTQLASTDADGVVKLWDTRMTAEVATINTGKHPANKSCFDRSGQVLAVACDDGKVKAYSTTDGVLQAELAGHEDAVQAVLFDPAGQYLVSCGSDNTFRLWS 7n61-a1-m1-c1A_7n61-a1-m1-c0Z structure of C2 projections and MIPs A8I9T2 A8I9T2 3.5 ELECTRON MICROSCOPY 70 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 404 420 7n61-a1-m1-c0Y_7n61-a1-m1-c0X VKVFVRTRPTATSGSGLKLGPDGQSVSVNVPKDLSAGPVNNQQEQFSFKFDGVLENVSQEAAYTTLAHEVVDSLMAGYNGTIFAYGQTGAGKTFTMSGGGTAYAHRGLIPRAIHHVFREVDMRADKMYRVHVSYLEIYNEQLYDLLGDTPGTSDALAVLEDSNSNTYVRGLTLVPVRSEEEALAQFFLGEQGRTTAGHVLNAESSRSHTVFTIHVEMRTSDAASERAVLSKLNLVDLAGSERTKKTGVTGQTLKEAQFINRSLSFLEQTVNALSRKDTYVPFRQTKLTAVLRDALGGNCKTVMVANIWAEPSHNEETLSTLRFASRVRALLLRRYERQIKELKAELAMRDTLSGKGRVSYDDLTDDELRELHATCRRFLHGEAEPEDLPADSMKRVRETFKALR QAVKVFVRTRPTATSGSGLKLGPDGQSVSVNVPKDLSAGPVNNQQEQFSFKFDGVLENVSQEAAYTTLAHEVVDSLMAGYNGTIFAYGQTGAGKTFTMSGGGTAYAHRGLIPRAIHHVFREVDMRADKMYRVHVSYLEIYNEQLYDLLGDTPGTSDALAVLEDSNSNTYVRGLTLVPVRSEEEALAQFFLGEQGRTTAGHVLNAESSRSHTVFTIHVEMRTSDAASERAVLSKLNLVDLAGSERTKKTGVTGQTLKEAQFINRSLSFLEQTVNALSRKDTYVPFRQTKLTAVLRDALGGNCKTVMVANIWAEPSHNEETLSTLRFASRVRTLTTDLALNESNDPALLLRRYERQIKELKAELAMRDTLSGKGRVSYDDLTDDELRELHATCRRFLHGEAEPEDLPADSMKRVRETFKALR 7n63-a1-m1-cA_7n63-a1-m2-cA X-ray structure of HCAN_0200, an aminotransferase from Helicobacter canadensis in complex with its external aldimine C5ZW06 C5ZW06 1.4 X-RAY DIFFRACTION 140 1.0 537970 (Helicobacter canadensis MIT 98-5491) 537970 (Helicobacter canadensis MIT 98-5491) 362 362 MIKFLDLHKINQRFKSEIDLAIREVLESGWYLLGEKNKAFEENFAKYCETKFSVGCANGLDALHLAIRAYDFPKDSEIIVPANTYIASILAISNCGLKPILVEPNLETYNIDADLIEAKITEKTKAIVVVHLYGQAVEMEKIWELAKKYNLKIIEDCAQAHGAIYQGKKVGNLGDIGCFSFYPGKNLGALGDGGCITTNDEEMATKIRAIANYGSLIKYENIYKGLNSRLDEIQAAILDLKLQFLDADNQQRREIAKIYRENIKNEKIILPKPYEEESHVWHLFVIRTKDRDKLQEYLKIKGIQTLIHYPIPPHKQNAYKEWNNLSFPITEKIHKEVLSLPISPVMNKEEAFYIAQILNEFL MIKFLDLHKINQRFKSEIDLAIREVLESGWYLLGEKNKAFEENFAKYCETKFSVGCANGLDALHLAIRAYDFPKDSEIIVPANTYIASILAISNCGLKPILVEPNLETYNIDADLIEAKITEKTKAIVVVHLYGQAVEMEKIWELAKKYNLKIIEDCAQAHGAIYQGKKVGNLGDIGCFSFYPGKNLGALGDGGCITTNDEEMATKIRAIANYGSLIKYENIYKGLNSRLDEIQAAILDLKLQFLDADNQQRREIAKIYRENIKNEKIILPKPYEEESHVWHLFVIRTKDRDKLQEYLKIKGIQTLIHYPIPPHKQNAYKEWNNLSFPITEKIHKEVLSLPISPVMNKEEAFYIAQILNEFL 7n67-a1-m1-cB_7n67-a1-m2-cB Crystal structure of HCAN_0198, a 3,4-ketoisomerase from Helicobacter canadensis C5ZW00 C5ZW00 2.5 X-RAY DIFFRACTION 108 1.0 537970 (Helicobacter canadensis MIT 98-5491) 537970 (Helicobacter canadensis MIT 98-5491) 133 133 7n67-a1-m1-cA_7n67-a1-m2-cA HMDYKILNFDAKNDNRGSLIALENLKEIPFEIKRIYYIYDTKPDFPRGAHAHKELEQVLIMMDGSCEIVLNDGRNDKSIILNRPNIGLFIGKNMWREMRNFSYGAKLLVLASDFYNENEYIRDYDEFLRMVND HMDYKILNFDAKNDNRGSLIALENLKEIPFEIKRIYYIYDTKPDFPRGAHAHKELEQVLIMMDGSCEIVLNDGRNDKSIILNRPNIGLFIGKNMWREMRNFSYGAKLLVLASDFYNENEYIRDYDEFLRMVND 7n67-a1-m2-cA_7n67-a1-m2-cB Crystal structure of HCAN_0198, a 3,4-ketoisomerase from Helicobacter canadensis C5ZW00 C5ZW00 2.5 X-RAY DIFFRACTION 49 1.0 537970 (Helicobacter canadensis MIT 98-5491) 537970 (Helicobacter canadensis MIT 98-5491) 132 133 7n67-a1-m1-cA_7n67-a1-m1-cB HMDYKILNFDAKNDNRGSLIALENLKEIPFEIKRIYYIYDTKPDFPRGAHAHKELEQVLIMMDGSCEIVLNDGRNDKSIILNRPNIGLFIGKNMWREMRNFSYGAKLLVLASDFYNENEYIRDYDEFLRMVN HMDYKILNFDAKNDNRGSLIALENLKEIPFEIKRIYYIYDTKPDFPRGAHAHKELEQVLIMMDGSCEIVLNDGRNDKSIILNRPNIGLFIGKNMWREMRNFSYGAKLLVLASDFYNENEYIRDYDEFLRMVND 7n69-a1-m1-cB_7n69-a1-m1-cF Pre-fusion state 2 of EEEV with localized reconstruction Q4QXJ7 Q4QXJ7 14.1 ELECTRON MICROSCOPY 34 1.0 374598 (Eastern equine encephalitis virus (strain Florida 91-469)) 374598 (Eastern equine encephalitis virus (strain Florida 91-469)) 238 238 7n69-a1-m1-cB_7n69-a1-m1-cD 7n69-a1-m1-cD_7n69-a1-m1-cF YKLARPYIADCPNCGHSRCDSPIAIEEVRGDAHAGVIRIQTSAMFGLKTDGVDLAYMSFMNGKTQKSIKIDNLHVRTSAPCSLVSHHGYYILAQCPPGDTVTVGFHDGPNRHTCTVAHKVEFRPVGREKYRHPPEHGVELPCNRYTHKRADVPFVPVKAKCIATLAPEPLVEHKHRTLILHLHPDHPTLLTTRSLGSDANPTRQWIERPTTVNFTVTGEGLEYTWGNHPPKRVWAQES YKLARPYIADCPNCGHSRCDSPIAIEEVRGDAHAGVIRIQTSAMFGLKTDGVDLAYMSFMNGKTQKSIKIDNLHVRTSAPCSLVSHHGYYILAQCPPGDTVTVGFHDGPNRHTCTVAHKVEFRPVGREKYRHPPEHGVELPCNRYTHKRADVPFVPVKAKCIATLAPEPLVEHKHRTLILHLHPDHPTLLTTRSLGSDANPTRQWIERPTTVNFTVTGEGLEYTWGNHPPKRVWAQES 7n69-a1-m1-cJ_7n69-a1-m1-cL Pre-fusion state 2 of EEEV with localized reconstruction Q4QXJ7 Q4QXJ7 14.1 ELECTRON MICROSCOPY 57 1.0 374598 (Eastern equine encephalitis virus (strain Florida 91-469)) 374598 (Eastern equine encephalitis virus (strain Florida 91-469)) 238 238 7n69-a1-m1-cH_7n69-a1-m1-cJ 7n69-a1-m1-cH_7n69-a1-m1-cL YKLARPYIADCPNCGHSRCDSPIAIEEVRGDAHAGVIRIQTSAMFGLKTDGVDLAYMSFMNGKTQKSIKIDNLHVRTSAPCSLVSHHGYYILAQCPPGDTVTVGFHDGPNRHTCTVAHKVEFRPVGREKYRHPPEHGVELPCNRYTHKRADVPFVPVKAKCIATLAPEPLVEHKHRTLILHLHPDHPTLLTTRSLGSDANPTRQWIERPTTVNFTVTGEGLEYTWGNHPPKRVWAQES YKLARPYIADCPNCGHSRCDSPIAIEEVRGDAHAGVIRIQTSAMFGLKTDGVDLAYMSFMNGKTQKSIKIDNLHVRTSAPCSLVSHHGYYILAQCPPGDTVTVGFHDGPNRHTCTVAHKVEFRPVGREKYRHPPEHGVELPCNRYTHKRADVPFVPVKAKCIATLAPEPLVEHKHRTLILHLHPDHPTLLTTRSLGSDANPTRQWIERPTTVNFTVTGEGLEYTWGNHPPKRVWAQES 7n6g-a1-m1-c1E_7n6g-a1-m1-c1G C1 of central pair A0A2K3D452 A0A2K3D452 3.6 ELECTRON MICROSCOPY 90 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 504 516 7n6g-a1-m1-c1D_7n6g-a1-m1-c1F AGTLKQVDQAFTAFQVARNTFVNVLAGFLERLDDQNVMLEALMKKDVLATLCCPLAQDIQASALSSLSKLAGCDPLLSQAVVSCGVLDSVVLSMSHESSPVQAGANMVLAAVAGSSVDFARRVLEAGAMPGILTQLRVGTPAVKEAAVKNLNSLIGSHGDHARLIADEALLSTLVAMLSAADSPHSLCKAVVHTLATTARYSSEMAAAVIKANALPPVSLLVRGGSTPPDLRAAAINCLAHIASHSEELASQVSATGLVGPTVGHLADKMVPKVRRAAAALLLQLGRKTPPLAAEVCSGGCPAALAKYLAMEKDGGEGCSTGVTLGGTLASYSPVTAKAVVDAGVGAEVVAALRRGGAGGADAGGGALGATGKSGGGTKLLTMKSTAAGGASAGVTNVPVPAAAAWALEQMSQHGDETTMPLIAQGALTAVLDGYVASADGAAGSPDSPDAAIFGRCKAALKSLIRNCATTAPLEPLVMDSTPPAILKHVLRRCEPLLAKDPKA TAKLTAVAEVAGTLKQVDQAFTAFQVARNTFVNVLAGFLERLDDQNVMLEALMKKDVLATLCCPLAQDPVIQASALSSLSKLAGCDPLLSQAVVSCGVLDSVVLSMSHESSPVQAGANMVLAAVAGSSVDFARRVLEAGAMPGILTQLRVGTPAVKEAAVKNLNSLIGSHGDHARLIADEALLSTLVAMLSAADSPHSLCKAVVHTLATTARYSSEMAAAVIKANALPPVSLLVRGGSTPPDLRAAAINCLAHIASHSEELASQVSATGLVGPTVGHLADKMVPKVRRAAAALLLQLGRKTPPLAAEVCSGGCPAALAKYLAMEKDGGEGCSTGVTLGGTLASYSPVTAKAVVDAGVGAEVVAALRRGGAGGADAGGGALGATGKSGGGTKLLTMKSTAAGGASAGVTNVPVPAAAAWALEQMSQHGDETTMPLIAQGALTAVLDGYVASADGAAGSPDSPDAAIFGRCKAALKSLIRNCATTAPLEPLVMDSTPPAILKHVLRRCEPLLAKDPKA 7n6g-a1-m1-c3W_7n6g-a1-m1-c4B C1 of central pair A8IVW2 A8IVW2 3.6 ELECTRON MICROSCOPY 15 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 411 411 7n6g-a1-m1-c3S_7n6g-a1-m1-c3N 7n6g-a1-m1-c3V_7n6g-a1-m1-c4A 7n6g-a1-m1-c4A_7n6g-a1-m1-c3W TSQFQINHENTLRKNRNHFQGQIEQYSIDYHSSHNKALAELPVLQEQHALEIEEYQNAIEETVTRHLGRIAQLRQDYSLLIKEASRRHMELQQRRFAVNPNAYLRTLNNDAAAAMSQYNTRPLPATPGGIAALSISTARLATPSEATARNSDFARLEAMHEKYMGRTKSQHEQGIAARINEVSNWQQTFAACMAALAQHQSSALAHLSSCVEEAEAWHAQQRGALSAAHDEVMTEAERLSRQLEAAQTAAAAKLNGLLASFLERVLPSGEVGLAEAQASYTRSAANLRNEHVAALEAAEAALRALVPRHAAMRQHMSASYSSGLASHEAALAAAGGHYDSRGIPELRRQYQDAESRHRDTLAAIRAEHLKGLAGSRDGWMGEAAALLEEYRARMQELKQQYMLAYDVNLTE TSQFQINHENTLRKNRNHFQGQIEQYSIDYHSSHNKALAELPVLQEQHALEIEEYQNAIEETVTRHLGRIAQLRQDYSLLIKEASRRHMELQQRRFAVNPNAYLRTLNNDAAAAMSQYNTRPLPATPGGIAALSISTARLATPSEATARNSDFARLEAMHEKYMGRTKSQHEQGIAARINEVSNWQQTFAACMAALAQHQSSALAHLSSCVEEAEAWHAQQRGALSAAHDEVMTEAERLSRQLEAAQTAAAAKLNGLLASFLERVLPSGEVGLAEAQASYTRSAANLRNEHVAALEAAEAALRALVPRHAAMRQHMSASYSSGLASHEAALAAAGGHYDSRGIPELRRQYQDAESRHRDTLAAIRAEHLKGLAGSRDGWMGEAAALLEEYRARMQELKQQYMLAYDVNLTE 7n6g-a1-m1-c3X_7n6g-a1-m1-c3V C1 of central pair A8IVW2 A8IVW2 3.6 ELECTRON MICROSCOPY 99 0.994 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 358 410 SQFQINHENTLRKNRNHFQGQIEQYSIDYHSSHNKALAELPVLQEQHALEIEEYQNAIEETVTRHLGRIAQLRQDYSLLIKEASRRHMELQQRRFAGDFARLEAMHEKYMGRTKSQHEQGIAARINEVSNWQQTFAACMAALAQHQSSALAHLSSCVEEAEAWHAQQRGALSAAHDEVMTEAERLSRQLEAAQTAAAAKLNGLLASFLERVLPSGEVGLAEAQASYTRSAANLRNEHVAALEAAEAALRALVPRHAAMRQHMSASYSSGLASHEAALAAAGGHYDSRGIPELRRQYQDAESRHRDTLAAIRAEHLKGLAGSRDGWMGEAAALLEEYRARMQELKQQYMLAYDVNLTEV QFQINHENTLRKNRNHFQGQIEQYSIDYHSSHNKALAELPVLQEQHALEIEEYQNAIEETVTRHLGRIAQLRQDYSLLIKEASRRHMELQQRRFAVNPNAYLRTLNNDAAAAMSQYNTRPLPATPGGIAALSISTARLATPSEATARNSDFARLEAMHEKYMGRTKSQHEQGIAARINEVSNWQQTFAACMAALAQHQSSALAHLSSCVEEAEAWHAQQRGALSAAHDEVMTEAERLSRQLEAAQTAAAAKLNGLLASFLERVLPSGEVGLAEAQASYTRSAANLRNEHVAALEAAEAALRALVPRHAAMRQHMSASYSSGLASHEAALAAAGGHYDSRGIPELRRQYQDAESRHRDTLAAIRAEHLKGLAGSRDGWMGEAAALLEEYRARMQELKQQYMLAYDVNLTEV 7n6g-a1-m1-c3Z_7n6g-a1-m1-c3V C1 of central pair A8IVW2 A8IVW2 3.6 ELECTRON MICROSCOPY 200 0.994 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 358 410 7n6g-a1-m1-c3Q_7n6g-a1-m1-c3N 7n6g-a1-m1-c3Y_7n6g-a1-m1-c3W SQFQINHENTLRKNRNHFQGQIEQYSIDYHSSHNKALAELPVLQEQHALEIEEYQNAIEETVTRHLGRIAQLRQDYSLLIKEASRRHMELQQRRFAGDFARLEAMHEKYMGRTKSQHEQGIAARINEVSNWQQTFAACMAALAQHQSSALAHLSSCVEEAEAWHAQQRGALSAAHDEVMTEAERLSRQLEAAQTAAAAKLNGLLASFLERVLPSGEVGLAEAQASYTRSAANLRNEHVAALEAAEAALRALVPRHAAMRQHMSASYSSGLASHEAALAAAGGHYDSRGIPELRRQYQDAESRHRDTLAAIRAEHLKGLAGSRDGWMGEAAALLEEYRARMQELKQQYMLAYDVNLTEV QFQINHENTLRKNRNHFQGQIEQYSIDYHSSHNKALAELPVLQEQHALEIEEYQNAIEETVTRHLGRIAQLRQDYSLLIKEASRRHMELQQRRFAVNPNAYLRTLNNDAAAAMSQYNTRPLPATPGGIAALSISTARLATPSEATARNSDFARLEAMHEKYMGRTKSQHEQGIAARINEVSNWQQTFAACMAALAQHQSSALAHLSSCVEEAEAWHAQQRGALSAAHDEVMTEAERLSRQLEAAQTAAAAKLNGLLASFLERVLPSGEVGLAEAQASYTRSAANLRNEHVAALEAAEAALRALVPRHAAMRQHMSASYSSGLASHEAALAAAGGHYDSRGIPELRRQYQDAESRHRDTLAAIRAEHLKGLAGSRDGWMGEAAALLEEYRARMQELKQQYMLAYDVNLTEV 7n6g-a1-m1-c4K_7n6g-a1-m1-c4N C1 of central pair A8J1X7 A8J1X7 3.6 ELECTRON MICROSCOPY 54 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 64 64 7n6g-a1-m1-c4I_7n6g-a1-m1-c4L 7n6g-a1-m1-c4J_7n6g-a1-m1-c4M TPEAVKAAEKAAVGVHKKINLAAAPIRQYLEATVVPVLMQGMQALCKERPDNPVEFLAYYLLSH TPEAVKAAEKAAVGVHKKINLAAAPIRQYLEATVVPVLMQGMQALCKERPDNPVEFLAYYLLSH 7n6g-a1-m1-c4P_7n6g-a1-m1-c4O C1 of central pair A8J1X7 A8J1X7 3.6 ELECTRON MICROSCOPY 72 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 55 84 VGVHKKINLAAAPIRQYLEATVVPVLMQGMQALCKERPDNPVEFLAYYLLSHNPQ ATDNTTQVPPLPAVAETTPEAVKAAEKAAVGVHKKINLAAAPIRQYLEATVVPVLMQGMQALCKERPDNPVEFLAYYLLSHNPQ 7n6g-a1-m1-c5D_7n6g-a1-m1-c4Z C1 of central pair Q45QX6 Q45QX6 3.6 ELECTRON MICROSCOPY 30 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 123 124 7n6g-a1-m1-c5A_7n6g-a1-m1-c4W 7n6g-a1-m1-c5B_7n6g-a1-m1-c4X 7n6g-a1-m1-c5C_7n6g-a1-m1-c4Y EGTGKFYYPSGAIYEGQWKLPPKRVRHGKGVYREGDYVYDGEWFEDAMQGVGTFTYASGASYSGEWLANKYQGKGTYAWPDGRRYEGQWEENRMHGLGVYRDARGHKWEGQFFNGSGPGLTCQ EGTGKFYYPSGAIYEGQWKLPPKRVRHGKGVYREGDYVYDGEWFEDAMQGVGTFTYASGASYSGEWLANKYQGKGTYAWPDGRRYEGQWEENRMHGLGVYRDARGHKWEGQFFNGSGPGLTCQL 7n6r-a1-m1-cA_7n6r-a1-m1-cC Structure of nevanimibe bound human ACAT2 O75908 O75908 3.93 ELECTRON MICROSCOPY 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 375 375 7n6q-a1-m1-cA_7n6q-a1-m1-cC KQKVFIIRKSLLDELMEVQHFRTIYHMFIAGLCVFIISTLAIDFILLEFDLLIFSFGQLPLALVTWVPMFLSTLLAPYQALRLWARGGLGCALLAAHAVVLCALPVHVAVEHQLPPASRCVLVFEQVRFLMKSYSFLREAVPGILRAAPSFSSYLYFLFCPTLIYRETYPRTPYVRWNYVAKNFAQALGCVLYACFILGRLCVPVFANMSREPFSTRALVLSILHATLPGIFMLLLIFFAFLHCWLNAFAEMLRFGDRMFYRDWWNSTSFSNYYRTWNVVVHDWLYSYVYQDGLRLLGARARGVAMLGVFLVSAVAHEYIFCFVLGFFYPVMLILFLVIGGMLNFMAWNVLMWTMLFLGQGIQVSLYCQEWYARR KQKVFIIRKSLLDELMEVQHFRTIYHMFIAGLCVFIISTLAIDFILLEFDLLIFSFGQLPLALVTWVPMFLSTLLAPYQALRLWARGGLGCALLAAHAVVLCALPVHVAVEHQLPPASRCVLVFEQVRFLMKSYSFLREAVPGILRAAPSFSSYLYFLFCPTLIYRETYPRTPYVRWNYVAKNFAQALGCVLYACFILGRLCVPVFANMSREPFSTRALVLSILHATLPGIFMLLLIFFAFLHCWLNAFAEMLRFGDRMFYRDWWNSTSFSNYYRTWNVVVHDWLYSYVYQDGLRLLGARARGVAMLGVFLVSAVAHEYIFCFVLGFFYPVMLILFLVIGGMLNFMAWNVLMWTMLFLGQGIQVSLYCQEWYARR 7n6r-a1-m1-cC_7n6r-a1-m1-cD Structure of nevanimibe bound human ACAT2 O75908 O75908 3.93 ELECTRON MICROSCOPY 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 375 375 7n6q-a1-m1-cA_7n6q-a1-m1-cB 7n6q-a1-m1-cC_7n6q-a1-m1-cD 7n6r-a1-m1-cA_7n6r-a1-m1-cB KQKVFIIRKSLLDELMEVQHFRTIYHMFIAGLCVFIISTLAIDFILLEFDLLIFSFGQLPLALVTWVPMFLSTLLAPYQALRLWARGGLGCALLAAHAVVLCALPVHVAVEHQLPPASRCVLVFEQVRFLMKSYSFLREAVPGILRAAPSFSSYLYFLFCPTLIYRETYPRTPYVRWNYVAKNFAQALGCVLYACFILGRLCVPVFANMSREPFSTRALVLSILHATLPGIFMLLLIFFAFLHCWLNAFAEMLRFGDRMFYRDWWNSTSFSNYYRTWNVVVHDWLYSYVYQDGLRLLGARARGVAMLGVFLVSAVAHEYIFCFVLGFFYPVMLILFLVIGGMLNFMAWNVLMWTMLFLGQGIQVSLYCQEWYARR KQKVFIIRKSLLDELMEVQHFRTIYHMFIAGLCVFIISTLAIDFILLEFDLLIFSFGQLPLALVTWVPMFLSTLLAPYQALRLWARGGLGCALLAAHAVVLCALPVHVAVEHQLPPASRCVLVFEQVRFLMKSYSFLREAVPGILRAAPSFSSYLYFLFCPTLIYRETYPRTPYVRWNYVAKNFAQALGCVLYACFILGRLCVPVFANMSREPFSTRALVLSILHATLPGIFMLLLIFFAFLHCWLNAFAEMLRFGDRMFYRDWWNSTSFSNYYRTWNVVVHDWLYSYVYQDGLRLLGARARGVAMLGVFLVSAVAHEYIFCFVLGFFYPVMLILFLVIGGMLNFMAWNVLMWTMLFLGQGIQVSLYCQEWYARR 7n6w-a1-m1-cC_7n6w-a1-m1-cA Structure of uncleaved HIV-1 JR-FL Env glycoprotein trimer in state U2 bound to small Molecule HIV-1 Entry Inhibitor BMS-378806 Q75760 Q75760 4.7 ELECTRON MICROSCOPY 62 0.998 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 585 591 6nij-a1-m1-cD_6nij-a1-m1-cB 7n6u-a1-m1-cA_7n6u-a1-m1-cB 7n6u-a1-m1-cC_7n6u-a1-m1-cA 7n6w-a1-m1-cA_7n6w-a1-m1-cB TEKLWVTVYYGVPVWKEATTTLFCASDAKAYDTEVHNVWATHACVPTDPNPQEVVLENVTEHFNMWKNNMVEQMQEDIISLWDQSLKPCVKLTPLCVTLNCKDVNAERGEIKNCSFNITTSIRDEVQKEYALFYKLDVVPIDNNNTSYRLISCDTSVITQACPKISFEPIPIHYCAPAGFAILKCNDKTFNGKGPCKNVSTVQCTHGIRPVVSTQLLLNGSLAEEEVVIRSDNFTNNAKTIIVQLKESVEINCTRPNNNTRKSIHIGPGRAFYTTGEIIGDIRQAHCNISRAKWNDTLKQIVIKLREQFENKTIVFNHSSGGDPEIVMHSFNCGGEFFYCNSTQLFNSTWNNNTITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGINENGTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRGFLGAAGSTMGAASMTLTVQARLLLSGIVQQQNNLLRAIEAQQRMLQLTVWGIKQLQARVLAVERYLGDQQLLGIWGCSGKLICTTAVPWNASWSNKSLDRIWNNMTWMEWEREIDNYTSEIYTLIEESQNQQEKNEQELL EKLWVTVYYGVPVWKEATTTLFCASDAKAYDTEVHNVWATHACVPTDPNPQEVVLENVTEHFNMWKNNMVEQMQEDIISLWDQSLKPCVKLTPLCVTLNCKDVNAERGEIKNCSFNITTSIRDEVQKEYALFYKLDVVPIDNNNTSYRLISCDTSVITQACPKISFEPIPIHYCAPAGFAILKCNDKTFNGKGPCKNVSTVQCTHGIRPVVSTQLLLNGSLAEEEVVIRSDNFTNNAKTIIVQLKESVEINCTRPNNNTRKSIHIGPGRAFYTTGEIIGDIRQAHCNISRAKWNDTLKQIVIKLREQFENKTIVFNHSSGGDPEIVMHSFNCGGEFFYCNSTQLFNSTWNNNNTITLPCRIKQIINMWQEVGKAMYAPPIRGQIRCSSNITGLLLTRDGGINENGTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKAKRAVFLGFLGAAGSTMGAASMTLTVQARLLLSGIVQQQNNLLRAIEAQQRMLQLTVWGIKQLQARVLAVERYLGDQQLLGIWGCSGKLICTTAVPWNASWSNKSLDRIWNNMTWMEWEREIDNYTSEIYTLIEESQNQQEKNEQELLEL 7n7a-a1-m1-cA_7n7a-a1-m1-cB crystal structure of the dTDP-Qui3N N-formyltransferase from Helicobacter canadensis, apo form C5ZW02 C5ZW02 1.8 X-RAY DIFFRACTION 106 1.0 537970 (Helicobacter canadensis MIT 98-5491) 537970 (Helicobacter canadensis MIT 98-5491) 269 270 7n7b-a1-m1-cA_7n7b-a1-m1-cB 7n7c-a1-m1-cA_7n7c-a1-m1-cB MIKLCIAGKNNIAVNSLEYILKNHFKPDQVAVIPNKNDFGVDSWQKSLLHYAFNNHIKVITLEEAYELKQIIFFSLEFDRIVKVEKFKSDKLFNMHFSALPKYKGVFTSITPILNNEVESGVTLHCIDNGIDTGNIIDQYIFPININDTARDLYFNYLSYGEYLFKKNIQRIINNTYENFKQNNISSSYFSRQDININHKINFKKTSFEIHNQIRAFIFKEYQLPSINKTKIIKSTLTNEFIGYNMFEEFEEYFMISGIDGFKIIAQKY MIKLCIAGKNNIAVNSLEYILKNHFKPDQVAVIPNKNDFGVDSWQKSLLHYAFNNHIKVITLEEAYELKQIIFFSLEFDRIVKVEKFKSDKLFNMHFSALPKYKGVFTSITPILNNEVESGVTLHCIDNGIDTGNIIDQYIFPININDTARDLYFNYLSYGEYLFKKNIQRIINNTYENFKQNNISSSYFSRQDININHKINFKKTSFEIHNQIRAFIFKEYQLPSINKTKIIKSTLTNEFIGYNMFEEFEEYFMISGIDGFKIIAQKYN 7n7g-a1-m1-cB_7n7g-a1-m1-cA Crystal Structure of FosB from Enterococcus faecium with Fosfomycin F1C939 F1C939 2 X-RAY DIFFRACTION 177 0.992 1352 (Enterococcus faecium) 1352 (Enterococcus faecium) 133 138 MIKGINHITYSVSNIAKSIEFYRDILGADILVESETLAYFNLGGIWLALNEEKNIPRSEIKYSYTHIAFTISDNDFEDWYNWLKENEVNILERDKKSIYFTDLDGHKLELHTGSLEDRLSYYKEAKPHMNFYI MIKGINHITYSVSNIAKSIEFYRDILGADILVESETLAYFNLGGIWLALNEEKNIPRSEIKYSYTHIAFTISDNDFEDWYNWLKENEVNILEGRDRDIRDKKSIYFTDLDGHKLELHTGSLEDRLSYYKEAKPHMNFY 7n7l-a1-m1-cA_7n7l-a1-m2-cA Crystal Structure of PI5P4KIIAlpha complex with BI-D1870 P48426 P48426 2.7 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 2ybx-a1-m1-cB_2ybx-a1-m1-cA 6osp-a3-m1-cB_6osp-a3-m1-cA 6ux9-a1-m1-cB_6ux9-a1-m1-cA 6ym3-a1-m1-cB_6ym3-a1-m1-cA 6ym4-a1-m1-cB_6ym4-a1-m1-cA 6ym5-a1-m1-cB_6ym5-a1-m1-cA 7n6z-a1-m1-cA_7n6z-a1-m2-cA 7n71-a1-m1-cA_7n71-a1-m2-cA 7n7j-a1-m1-cA_7n7j-a1-m2-cA 7n7k-a1-m1-cA_7n7k-a1-m2-cA 7n7m-a1-m1-cA_7n7m-a1-m2-cA 7n7n-a1-m1-cA_7n7n-a1-m2-cA 7n7o-a1-m1-cA_7n7o-a1-m2-cA 8c8c-a1-m1-cA_8c8c-a1-m2-cA SDPLLSVLMWGVNHSINELSHVQIPVMLMPDDFKAYSKIKVDNHLFNKENMPSHFKFKEYCPMVFRNLRERFGIDDQDFQNSLTRSAPLPNRFHTSYDKRYIIKTITSEDVAEMHNILKKYHQYIVECHGITLLPQFLGMYRLNVDGVEIYVIVTRNVFSHRLSVYRKYDLKGSTVAREASDKEKAKELPTLKDNDFINEGQKIYIDDNNKKVFLEKLKKDVEFLAQLKLMDYSLLVGIHDVERAGEFDPNIDVYGIKCHENSPRKEVYFMAIIDILTHVNPEQYSKRFLDFIGHIL SDPLLSVLMWGVNHSINELSHVQIPVMLMPDDFKAYSKIKVDNHLFNKENMPSHFKFKEYCPMVFRNLRERFGIDDQDFQNSLTRSAPLPNRFHTSYDKRYIIKTITSEDVAEMHNILKKYHQYIVECHGITLLPQFLGMYRLNVDGVEIYVIVTRNVFSHRLSVYRKYDLKGSTVAREASDKEKAKELPTLKDNDFINEGQKIYIDDNNKKVFLEKLKKDVEFLAQLKLMDYSLLVGIHDVERAGEFDPNIDVYGIKCHENSPRKEVYFMAIIDILTHVNPEQYSKRFLDFIGHIL 7n7s-a3-m1-cD_7n7s-a3-m1-cF Crystal Structure of Hydroxymethylglutaryl-CoA reductase from Elizabethkingia anophelis NUHP1 A0A077EA44 A0A077EA44 2.4 X-RAY DIFFRACTION 376 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 389 389 7n7s-a1-m1-cA_7n7s-a1-m1-cB 7n7s-a2-m1-cC_7n7s-a2-m1-cE KHQPIEGFSKLSKQKKIDWLVSTYLEGNQQYTDILQQYWNDNADLQKLHEEFSENTISNFYMPYGIAPNFLIDGELKAIPMAVEESSVVAAASKSAKFWLDKGGFRTTVINEKKLGHTHFTFNGESVKLQSFFNHILKQRLFDDTEDITKNMRSRGGGILDIELVDKTAQMQDYYQIKASFNTKDSMGANFINSCLEQFGKTLKKEVELSDKFTQEEKDSLRVIMNILSNFTPDCIVRAEVSCKIEDLIDDSGIAPEEFAWKFKQAVNIAEIEPYRATTHNKGIMNGVDAVVIATGNDFRATEACAHTYASKDGRYTSLTHCSTDNGIFRFWLDLPISVGVVGGLTNLHPLVKFSLALLGKPSATELMSIIAVSGLAQNFAALRSLVTT KHQPIEGFSKLSKQKKIDWLVSTYLEGNQQYTDILQQYWNDNADLQKLHEEFSENTISNFYMPYGIAPNFLIDGELKAIPMAVEESSVVAAASKSAKFWLDKGGFRTTVINEKKLGHTHFTFNGESVKLQSFFNHILKQRLFDDTEDITKNMRSRGGGILDIELVDKTAQMQDYYQIKASFNTKDSMGANFINSCLEQFGKTLKKEVELSDKFTQEEKDSLRVIMNILSNFTPDCIVRAEVSCKIEDLIDDSGIAPEEFAWKFKQAVNIAEIEPYRATTHNKGIMNGVDAVVIATGNDFRATEACAHTYASKDGRYTSLTHCSTDNGIFRFWLDLPISVGVVGGLTNLHPLVKFSLALLGKPSATELMSIIAVSGLAQNFAALRSLVTT 7n7v-a1-m1-cB_7n7v-a1-m1-cA Crystal structure of TtnM, a Fe(II)-alpha-ketoglutarate-dependent hydroxylase from the tautomycetin biosynthesis pathway in Streptomyces griseochromogenes at 2 A. C6ZCS6 C6ZCS6 1.99 X-RAY DIFFRACTION 26 1.0 68214 (Streptomyces griseochromogenes) 68214 (Streptomyces griseochromogenes) 313 321 QPWLHRLDPAEAAEIDDALDVLLKSGKPNFAASPADFPLPTLGPRLRGIVDSIENEPGFALVRGVPVGDKSEDEVRRLYWGLGMYIGVPMIQNNNDSSMVDIRDIGFHIDSTDVVTLLCRRAASQGGTSLVVSAEAVRREMSWECPELLSALYEPLPFADVASPDDERPDVFLSPVFGRHEGLTTTRFYIRRVLRSQDNPDAPRLTERQLEAINKVEEIAARPGLVTPMQFEPGDLQMINNHLVLHGRTAGRHLLRMWFSVPSSRSLPPGYEAAWGTREGGTLRGAGPRWQLQGEFGEFQRRQAEELGVAIPA GSEFMSDQPWLHRLDPAEAAEIDDALDVLLKSGKPNFAASPADFPLPTLGPRLRGIVDSIENEPGFALVRGVPVGDKSEDEVRRLYWGLGMYIGVPMIQNNNDSSMVDIRDIGFHIDSTDVVTLLCRRAASQGGTSLVVSAEAVRREMSWECPELLSALYEPLPFADVASPDDERPDVFLSPVFGRHEGLTTTRFYIRRVLRSQDNPDAPRLTERQLEAINKVEEIAARPGLVTPMQFEPGDLQMINNHLVLHGRTAFGRHLLRMWFSVPSSRSLPPGYEAAWGTREGGTLRGAGPRWQLQGEFGEFQRRQAEELGVAIPA 7n7z-a1-m1-cA_7n7z-a1-m2-cB Structure of Acetyl-CoA acetyltransferase from Syntrophomonas wolfei Q0AZ52 Q0AZ52 2.02 X-RAY DIFFRACTION 45 0.997 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 396 399 7n7z-a1-m2-cA_7n7z-a1-m1-cB EINEVVVVGMARTPIGRYLGGLASVRANDLAIIAANAAIERAGVDPGIIDEIVGATCLHAGNGSLPPRIIGMKVGLPVRSGSCMVSQNCASGMRATEIACQNIMLGKTDISLVTAVESMSNIPYLLQQARSGYRMGDGKVQDAMLSDGLVCQLAGGHMGMTAENIAEKYGITREECDALALTSHQNAVKAVDEGIFDREIVPVVIKDKVISKDEHPIRGASLETMAKLPPAFKKGGVVTAANASGINDCAAAAVFMSKKKCEELGLKPLMKLVGICSEGVDAKVMGLGPAVAMPKVLKQAGWKYEDVDYWEVNEAFAAQVLGVVRMLKEEAGIELDFSKTNHNGSGIGLGHPVGATGLRIIVSMYYELERLGLTKGGASLCVGGGSAMASLWTRDI EINEVVVVGMARTPIGRYLGGLASVRANDLAIIAANAAIERAGVDPGIIDEIVGATCLHAGNGSLPPRIIGMKVGLPVRSGSCMVSQNCASGMRATEIACQNIMLGKTDISLVTAVESMSNIPYLLQQARSGYRMGDGKVQDAMLSDGLVCQLAGGHMGMTAENIAEKYGITREECDALALTSHQNAVKAVDEGIFDREIVPVVIKSKKGDKVISKDEHPIRGASLETMAKLPPAFKKGGVVTAANASGINDCAAAAVFMSKKKCEELGLKPLMKLVGICSEGVDAKVMGLGPAVAMPKVLKQAGWKYEDVDYWEVNEAFAAQVLGVVRMLKEEAGIELDFSKTNHNGSGIGLGHPVGATGLRIIVSMYYELERLGLTKGGASLCVGGGSAMASLWTRD 7n7z-a1-m1-cB_7n7z-a1-m2-cB Structure of Acetyl-CoA acetyltransferase from Syntrophomonas wolfei Q0AZ52 Q0AZ52 2.02 X-RAY DIFFRACTION 25 1.0 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 399 399 7n7z-a1-m1-cA_7n7z-a1-m2-cA EINEVVVVGMARTPIGRYLGGLASVRANDLAIIAANAAIERAGVDPGIIDEIVGATCLHAGNGSLPPRIIGMKVGLPVRSGSCMVSQNCASGMRATEIACQNIMLGKTDISLVTAVESMSNIPYLLQQARSGYRMGDGKVQDAMLSDGLVCQLAGGHMGMTAENIAEKYGITREECDALALTSHQNAVKAVDEGIFDREIVPVVIKSKKGDKVISKDEHPIRGASLETMAKLPPAFKKGGVVTAANASGINDCAAAAVFMSKKKCEELGLKPLMKLVGICSEGVDAKVMGLGPAVAMPKVLKQAGWKYEDVDYWEVNEAFAAQVLGVVRMLKEEAGIELDFSKTNHNGSGIGLGHPVGATGLRIIVSMYYELERLGLTKGGASLCVGGGSAMASLWTRD EINEVVVVGMARTPIGRYLGGLASVRANDLAIIAANAAIERAGVDPGIIDEIVGATCLHAGNGSLPPRIIGMKVGLPVRSGSCMVSQNCASGMRATEIACQNIMLGKTDISLVTAVESMSNIPYLLQQARSGYRMGDGKVQDAMLSDGLVCQLAGGHMGMTAENIAEKYGITREECDALALTSHQNAVKAVDEGIFDREIVPVVIKSKKGDKVISKDEHPIRGASLETMAKLPPAFKKGGVVTAANASGINDCAAAAVFMSKKKCEELGLKPLMKLVGICSEGVDAKVMGLGPAVAMPKVLKQAGWKYEDVDYWEVNEAFAAQVLGVVRMLKEEAGIELDFSKTNHNGSGIGLGHPVGATGLRIIVSMYYELERLGLTKGGASLCVGGGSAMASLWTRD 7n7z-a1-m2-cA_7n7z-a1-m2-cB Structure of Acetyl-CoA acetyltransferase from Syntrophomonas wolfei Q0AZ52 Q0AZ52 2.02 X-RAY DIFFRACTION 226 0.997 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 335541 (Syntrophomonas wolfei subsp. wolfei str. Goettingen G311) 396 399 7n7z-a1-m1-cA_7n7z-a1-m1-cB EINEVVVVGMARTPIGRYLGGLASVRANDLAIIAANAAIERAGVDPGIIDEIVGATCLHAGNGSLPPRIIGMKVGLPVRSGSCMVSQNCASGMRATEIACQNIMLGKTDISLVTAVESMSNIPYLLQQARSGYRMGDGKVQDAMLSDGLVCQLAGGHMGMTAENIAEKYGITREECDALALTSHQNAVKAVDEGIFDREIVPVVIKDKVISKDEHPIRGASLETMAKLPPAFKKGGVVTAANASGINDCAAAAVFMSKKKCEELGLKPLMKLVGICSEGVDAKVMGLGPAVAMPKVLKQAGWKYEDVDYWEVNEAFAAQVLGVVRMLKEEAGIELDFSKTNHNGSGIGLGHPVGATGLRIIVSMYYELERLGLTKGGASLCVGGGSAMASLWTRDI EINEVVVVGMARTPIGRYLGGLASVRANDLAIIAANAAIERAGVDPGIIDEIVGATCLHAGNGSLPPRIIGMKVGLPVRSGSCMVSQNCASGMRATEIACQNIMLGKTDISLVTAVESMSNIPYLLQQARSGYRMGDGKVQDAMLSDGLVCQLAGGHMGMTAENIAEKYGITREECDALALTSHQNAVKAVDEGIFDREIVPVVIKSKKGDKVISKDEHPIRGASLETMAKLPPAFKKGGVVTAANASGINDCAAAAVFMSKKKCEELGLKPLMKLVGICSEGVDAKVMGLGPAVAMPKVLKQAGWKYEDVDYWEVNEAFAAQVLGVVRMLKEEAGIELDFSKTNHNGSGIGLGHPVGATGLRIIVSMYYELERLGLTKGGASLCVGGGSAMASLWTRD 7n86-a2-m1-cC_7n86-a2-m1-cD Crystal Structure of Human Protocadherin-24 EC1-2 Form II Q9BYE9 Q9BYE9 3.175 X-RAY DIFFRACTION 43 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 7n86-a1-m1-cB_7n86-a1-m1-cA NVAPKFLANMTSVILPEDLPVGAQAFWLVAEDQDNDPLTYGMSGPNAYFFAVTPKTGEVKLASALDYETLYTFKVTISVSDPYIQVQREMLVIVEDRNDNAPVFQNTAFSTSINETLPVGSVVFSVLAVDKDMGSAGMVVYSIEKVIPSTGDSEHLFRILANGSIVLNGSLSKSAFYQLELKACDLGGMYHNTFTIQCSLPVFLSISVVD NVAPKFLANMTSVILPEDLPVGAQAFWLVAEDQDNDPLTYGMSGPNAYFFAVTPKTGEVKLASALDYETLYTFKVTISVSDPYIQVQREMLVIVEDRNDNAPVFFSTSINETLPVGSVVFSVLAVDKDMGSAGMVVYSIEKVIPSTGDSEHLFRILANGSIVLNGSLSYNNKSAFYQLELKACDLGGMYHNTFTIQCSLPVFLSISVVDQ 7n8h-a1-m1-cF_7n8h-a1-m1-cK SARS-CoV-2 S (B.1.429 / epsilon variant) + S2M11 + S2L20 Global Refinement P0DTC2 P0DTC2 2.3 ELECTRON MICROSCOPY 297 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 999 999 7n8h-a1-m1-cA_7n8h-a1-m1-cF 7n8h-a1-m1-cA_7n8h-a1-m1-cK AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNRVYSSANNCTFEYVSQPFLFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNRVYSSANNCTFEYVSQPFLFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7n8u-a1-m1-cA_7n8u-a1-m1-cB Crystal structure of Triosephosphate isomerase from Candidatus Prometheoarchaeum syntrophicum A0A5B9DC34 A0A5B9DC34 1.98 X-RAY DIFFRACTION 144 0.996 2594042 (Candidatus Prometheoarchaeum syntrophicum) 2594042 (Candidatus Prometheoarchaeum syntrophicum) 265 265 MRKKFIIGGNWKMQILNVEEAVSIATELATTISGILTETVDVFIAPSFNALYSVGQAIKGTKLKLAGQNMYFRDKGAFTGEISPDSLLDAGCEYVILGHSERRRIFGESDAVINQKVKKALEKGLKPVLCIGETAKEKEEGHTETVLRTQIDESMADIPREQLNLITIAYEPVWAINNKFLNPNSEIKTATPEEAEKNHIFIRKLLINKFGDEGKNILIQYGGSMKASNCEGLLNIGEINGGLIGGASLSAEKLKPIIEAAVKLG RKKFIIGGNWKMQILNVEEAVSIATELATTISGILTETVDVFIAPSFNALYSVGQAIKGTKLKLAGQNMYFRDKGAFTGEISPDSLLDAGCEYVILGHSERRRIFGESDAVINQKVKKALEKGLKPVLCIGETAKEKEEGHTETVLRTQIDESMADIPREQLNLITIAYEPVWAINNKFLNPNSEIKTATPEEAEKNHIFIRKLLINKFGDEGKNILIQYGGSMKASNCEGLLNIGEINGGLIGGASLSAEKLKPIIEAAVKLGK 7n8v-a1-m1-cB_7n8v-a1-m1-cA Crystal structure of free ERI2 nuclease A8K979 A8K979 2.1 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 214 7n8w-a1-m1-cB_7n8w-a1-m1-cA SKQLFDYLIVIDFESTCWNDGKHHHSQEIIEFPAVLLNTSTGQIDSEFQAYVQPQEHPILSEFCMELTGIKQAQVDEGVPLKICLSQFCKWIHKIQQQKNIIFATGISEPSASEVKLCAFVTWSDWDLGVCLEYECKRKQLLKPVFLNSWIDLRATYKLFYRRKPKGLSGALQEVGIEFSGREASGLDASRNTALLAWKMIRDGCVMKITRSL SKQLFDYLIVIDFESTCWNDGKHHHSQEIIEFPAVLLNTSTGQIDSEFQAYVQPQEHPILSEFCMELTGIKQAQVDEGVPLKICLSQFCKWIHKIQQQKNIIFATGISEPSASEVKLCAFVTWSDWDLGVCLEYECKRKQLLKPVFLNSWIDLRATYKLFYRRKPKGLSGALQEVGIEFSGREASGLDASRNTALLAWKMIRDGCVMKITRSLN 7n9b-a1-m1-cC_7n9b-a1-m1-cA Potent neutralizing nanobodies resist convergent circulating variants of SARS-CoV-2 by targeting novel and conserved epitopes-CovS with NB21 P0DTC2 P0DTC2 3.8 ELECTRON MICROSCOPY 307 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 988 989 7n9b-a1-m1-cB_7n9b-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCNDPFLGVTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7n9c-a1-m1-cB_7n9c-a1-m1-cC Potent neutralizing nanobodies resist convergent circulating variants of SARS-CoV-2 by targeting novel and conserved epitopes-CovS with NB95 P0DTC2 P0DTC2 3.71 ELECTRON MICROSCOPY 244 0.986 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 812 975 QLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNIKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSF AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7n9e-a1-m1-cC_7n9e-a1-m1-cA Potent neutralizing nanobodies resist convergent circulating variants of SARS-CoV-2 by targeting novel and conserved epitopes-CovS with NB34 P0DTC2 P0DTC2 3.52 ELECTRON MICROSCOPY 267 0.984 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 943 993 7my3-a1-m1-cA_7my3-a1-m1-cB 7my3-a1-m1-cA_7my3-a1-m1-cC 8fu8-a1-m1-cC_8fu8-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLSLLIVNNATNVVIKVCEFQFDPFLCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7n9f-a1-m8-cw_7n9f-a1-m8-cx Structure of the in situ yeast NPC P40477 P40477 37.0 ELECTRON MICROSCOPY 27 0.985 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 195 198 7n9f-a1-m1-cw_7n9f-a1-m1-cx 7n9f-a1-m2-cw_7n9f-a1-m2-cx 7n9f-a1-m3-cw_7n9f-a1-m3-cx 7n9f-a1-m4-cw_7n9f-a1-m4-cx 7n9f-a1-m5-cw_7n9f-a1-m5-cx 7n9f-a1-m6-cw_7n9f-a1-m6-cx 7n9f-a1-m7-cw_7n9f-a1-m7-cx ASADFDVQTSLNYAESGIQTDLPVKHNSTQTVKLIESTFQTVEAEFTVLMENIRNMDTILLNIQNNIKCEQMQITNANIQDLKEKVTDYVRKDIAQITEDVANAKEELSTHQFRMQKTLRQKLFDVSAKINHTEELLNILKLFTKLAKESLARDGLLKEIKLLREQVSRLQMKGFKVVEVGLAMNTKKQIGDFFK ASADFDVQTSYAESGIQTDLPVKHNSTQTVLIESTFQTVEAEFTVLMENIRNMDTILLNIQNNIKCEQMQITNANIQDLKEKVTDYVRKDIAQITEDVANAKEEYLFLSTHQFRMQKTLRQKLFDVSAKINHTEELLNILKLFTVKLAKESLARDGLLKEIKLLREQVSRLQMKGFKVVEVGLAMNTKKQIGDFFKNL 7n9u-a1-m2-cA_7n9u-a1-m2-cB CA-targeting nanobody is a tool for studying HIV-1 capsid lattice interactions P12493 P12493 3.19 X-RAY DIFFRACTION 81 0.995 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 214 214 4u0d-a2-m1-cI_4u0d-a2-m1-cJ 6ecn-a2-m1-cE_6ecn-a2-m1-cD 7n9u-a1-m1-cA_7n9u-a1-m1-cB 7n9u-a1-m1-cA_7n9u-a1-m2-cC PIVQNQMVHQCISPRTLNAWVKVVEEKAFSPEVIPMFSALSCGATPQDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHPVHGQMREPRGSDIAGTTSTLQEQIGWMTHNPPIPVGEIYKRWIILGLNKIVRMYSPTSILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKNAATETLLVQNANPDCKTILKALGPGATLEEMMTACQGVGP PIVQNQMVHQCISPRTLNAWVKVVEEKAFSPEVIPMFSALSCGATPQDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHPVHAQMREPRGSDIAGTTSTLQEQIGWMTHNPPIPVGEIYKRWIILGLNKIVRMYSPTSILDIRQGPKEPFRDYVDRFYKTLRAEQASQEVKNAATETLLVQNANPDCKTILKALGPGATLEEMMTACQGVGP 7naa-a2-m1-cC_7naa-a2-m1-cD Crystal structure of Mycobacterium tuberculosis H37Rv PknF kinase domain P9WI75 P9WI75 2.75 X-RAY DIFFRACTION 44 0.986 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 217 234 7naa-a1-m1-cB_7naa-a1-m1-cA GEVYLARHPRLPRQDALKREADAAASLWHPHIVAVHDRGEDGQLWIDMDFVDGTDTVSLLRDRYPNGMPGPEVTEIITAVAEALDYAHERRLLHRDVKPANILIANPDSPDRRIMLADFTVSYAAPEQLMGNELDGRADQYALAATAFHLLTGSPPFQHANPAVVISQHLSASPPAIGDRVPELTPLDPVFAKALAKQPKDRYQRCVDFARALGHRL AEGSTFAGFTIVRQLEVYLARHPRLPRQDALKVLRAEADAAASLWHPHIVAVHDRGEFDGQLWIDMDFVDGTDTVSLLRDRYPNGMPGPEVTEIITAVAEALDYAHERRLLHRDVKPANILIANPDSPDRRIMLADFTVSYAAPEQLMGNELDGRADQYALAATAFHLLTGSPPFQHANPAVVISQHLSASPPAIGDRVPELTPLDPVFAKALAKQPKDRYQRCVDFARALGHR 7nay-a1-m1-cA_7nay-a1-m4-cA Crystal structure of lactate dehydrogenase from Selenomonas ruminantium with NADH. Q9EVR0 Q9EVR0 1.84 X-RAY DIFFRACTION 70 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 320 320 7nay-a1-m2-cA_7nay-a1-m3-cA MNNRRKIVVIGASNVGSAVANKIADFQLATEVVLIDLNEDKAWGEAKDSSHATSIYSTNIKFHLGDYEDCKDANIIVITAGPSIRPGETPDRLKLAGTNAKIMSSVMGEIVKRTKEAMIIMITNPLDVATYVVSTQFDYPRNLILGTGTMLETYRFRRILADKYQVDPKNINGYVLGEHGNAAFVAWSTTGCAGFPIDDLDEYFHRTEKLSHEAVEQELVQVAYDVINKKGFTNTGIAMAACRFIKSVLYDEHTILPCSAVLEGEYGIKDVALSIPRMVADGIMRSFEVHLTDDELEKMHKAAQSVRSALDGAGIKHHHH MNNRRKIVVIGASNVGSAVANKIADFQLATEVVLIDLNEDKAWGEAKDSSHATSIYSTNIKFHLGDYEDCKDANIIVITAGPSIRPGETPDRLKLAGTNAKIMSSVMGEIVKRTKEAMIIMITNPLDVATYVVSTQFDYPRNLILGTGTMLETYRFRRILADKYQVDPKNINGYVLGEHGNAAFVAWSTTGCAGFPIDDLDEYFHRTEKLSHEAVEQELVQVAYDVINKKGFTNTGIAMAACRFIKSVLYDEHTILPCSAVLEGEYGIKDVALSIPRMVADGIMRSFEVHLTDDELEKMHKAAQSVRSALDGAGIKHHHH 7nay-a1-m2-cA_7nay-a1-m4-cA Crystal structure of lactate dehydrogenase from Selenomonas ruminantium with NADH. Q9EVR0 Q9EVR0 1.84 X-RAY DIFFRACTION 71 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 320 320 7nay-a1-m1-cA_7nay-a1-m3-cA MNNRRKIVVIGASNVGSAVANKIADFQLATEVVLIDLNEDKAWGEAKDSSHATSIYSTNIKFHLGDYEDCKDANIIVITAGPSIRPGETPDRLKLAGTNAKIMSSVMGEIVKRTKEAMIIMITNPLDVATYVVSTQFDYPRNLILGTGTMLETYRFRRILADKYQVDPKNINGYVLGEHGNAAFVAWSTTGCAGFPIDDLDEYFHRTEKLSHEAVEQELVQVAYDVINKKGFTNTGIAMAACRFIKSVLYDEHTILPCSAVLEGEYGIKDVALSIPRMVADGIMRSFEVHLTDDELEKMHKAAQSVRSALDGAGIKHHHH MNNRRKIVVIGASNVGSAVANKIADFQLATEVVLIDLNEDKAWGEAKDSSHATSIYSTNIKFHLGDYEDCKDANIIVITAGPSIRPGETPDRLKLAGTNAKIMSSVMGEIVKRTKEAMIIMITNPLDVATYVVSTQFDYPRNLILGTGTMLETYRFRRILADKYQVDPKNINGYVLGEHGNAAFVAWSTTGCAGFPIDDLDEYFHRTEKLSHEAVEQELVQVAYDVINKKGFTNTGIAMAACRFIKSVLYDEHTILPCSAVLEGEYGIKDVALSIPRMVADGIMRSFEVHLTDDELEKMHKAAQSVRSALDGAGIKHHHH 7nay-a1-m3-cA_7nay-a1-m4-cA Crystal structure of lactate dehydrogenase from Selenomonas ruminantium with NADH. Q9EVR0 Q9EVR0 1.84 X-RAY DIFFRACTION 127 1.0 971 (Selenomonas ruminantium) 971 (Selenomonas ruminantium) 320 320 7nay-a1-m1-cA_7nay-a1-m2-cA MNNRRKIVVIGASNVGSAVANKIADFQLATEVVLIDLNEDKAWGEAKDSSHATSIYSTNIKFHLGDYEDCKDANIIVITAGPSIRPGETPDRLKLAGTNAKIMSSVMGEIVKRTKEAMIIMITNPLDVATYVVSTQFDYPRNLILGTGTMLETYRFRRILADKYQVDPKNINGYVLGEHGNAAFVAWSTTGCAGFPIDDLDEYFHRTEKLSHEAVEQELVQVAYDVINKKGFTNTGIAMAACRFIKSVLYDEHTILPCSAVLEGEYGIKDVALSIPRMVADGIMRSFEVHLTDDELEKMHKAAQSVRSALDGAGIKHHHH MNNRRKIVVIGASNVGSAVANKIADFQLATEVVLIDLNEDKAWGEAKDSSHATSIYSTNIKFHLGDYEDCKDANIIVITAGPSIRPGETPDRLKLAGTNAKIMSSVMGEIVKRTKEAMIIMITNPLDVATYVVSTQFDYPRNLILGTGTMLETYRFRRILADKYQVDPKNINGYVLGEHGNAAFVAWSTTGCAGFPIDDLDEYFHRTEKLSHEAVEQELVQVAYDVINKKGFTNTGIAMAACRFIKSVLYDEHTILPCSAVLEGEYGIKDVALSIPRMVADGIMRSFEVHLTDDELEKMHKAAQSVRSALDGAGIKHHHH 7nb0-a2-m1-cD_7nb0-a2-m1-cB Structure of the DNA-binding domain of SEPALLATA 3 O22456 O22456 2.1 X-RAY DIFFRACTION 98 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 55 57 7nb0-a1-m1-cC_7nb0-a1-m1-cA VTFAKRRNGLLKKAYELSVLCDAEVALIIFSNRGKLYEFCSSSSMLRTLERYQKC QVTFAKRRNGLLKKAYELSVLCDAEVALIIFSNRGKLYEFCSSSSMLRTLERYQKCN 7nb6-a1-m1-cD_7nb6-a1-m1-cE Structure of the autoinducer-2 exporter TqsA from E. coli P0AFS5 P0AFS5 3.3 ELECTRON MICROSCOPY 100 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 340 340 7nb6-a1-m1-cA_7nb6-a1-m1-cB 7nb6-a1-m1-cA_7nb6-a1-m1-cE 7nb6-a1-m1-cB_7nb6-a1-m1-cC 7nb6-a1-m1-cC_7nb6-a1-m1-cD AKPIITLNGLKIVIMLGMLVIILCGIRFAAEIIVPFILALFIAVILNPLVQHMVRWRVPRVLAVSILMTIIVMAMVLLLAYLGSALNELTRTLPQYRNSIMTPLQALEPLLQRVGIDVSVDQLAHYIDPNAAMTLLTNLLTQLSNAMSSIFLLLLTVLFMLLEVPQLPGKFQQMMARPVEGMAAIQRAIDSVSHYLVLKTAISIITGLVAWAMLAALDVRFAFVWGLLAFALNYIPNIGSVLAAIPPIAQVLVFNGFYEALLVLAGYLLINLVFGNILEPRIMGRGLGLSTLVVFLSLIFWGWLLGPVGMLLSVPLTIIVKIALEQTAGGQSIAVLLSDL AKPIITLNGLKIVIMLGMLVIILCGIRFAAEIIVPFILALFIAVILNPLVQHMVRWRVPRVLAVSILMTIIVMAMVLLLAYLGSALNELTRTLPQYRNSIMTPLQALEPLLQRVGIDVSVDQLAHYIDPNAAMTLLTNLLTQLSNAMSSIFLLLLTVLFMLLEVPQLPGKFQQMMARPVEGMAAIQRAIDSVSHYLVLKTAISIITGLVAWAMLAALDVRFAFVWGLLAFALNYIPNIGSVLAAIPPIAQVLVFNGFYEALLVLAGYLLINLVFGNILEPRIMGRGLGLSTLVVFLSLIFWGWLLGPVGMLLSVPLTIIVKIALEQTAGGQSIAVLLSDL 7nc1-a1-m1-cA_7nc1-a1-m1-cB Glutathione-S-transferase GliG with partially disordered active site B0Y813 B0Y813 2.6 X-RAY DIFFRACTION 88 0.995 451804 (Aspergillus fumigatus A1163) 451804 (Aspergillus fumigatus A1163) 205 214 ERPSDLVVNRLVLFVVKGTATSTHNTVKPLILLEELGVPHDIYVVEKVSAPWFSEINPHKMVPAILDRSPDTLRAWESTSTLMYIADAYDKDGTFGGRNVQERSEINNWLTLHLRSNITVQYDILERRLNEPGQQYLALKDRPTIADIATLPFAMKSTAELFGLEFEKWPKLQEWSVRMGEREAVKRAWQRVAGFGHGEKEYGML SERPSDLVVNRLVLFVVKGTATSTHNTVKPLILLEELGVPHDIYVVEKVSAPWFSEINPHKMVPAILDRSPDGRDTLRAWESTSTLMYIADAYDKDGTFGGRNVQERSEINNWLTLTIEKLRSNITVQYDILERRLNEPGQQYLALKDRPTIADIATLPFAMKSTAELFGLEFEKWPKLQEWSVRMGEREAVKRAWQRVAGFGHGEKEYGMLEA 7nc7-a1-m1-cB_7nc7-a1-m1-cA Crystal structure of fructose-bisphosphate aldolases FBAC from Bacillus methanolicus I3EBM6 I3EBM6 2.2 X-RAY DIFFRACTION 106 1.0 796606 (Bacillus methanolicus MGA3) 796606 (Bacillus methanolicus MGA3) 272 273 MPLVSMTEMLNKAKAEGYAVGQFNLNNLEFTQAILLAAEEEKSPVILGVSEGAGRYMGGFKTVVNMVKGLMEDYKITVPVAIHLDHGSSFEKCKEVIDAGFTSVMIDASHHPFEENVEVTKKVVEYAHARGVSVEAELGTVGGGVIYADPKECEELVKRTGIDCLAPALGSVHGPNLGFKEMEEIGRITGVPLVLHGGTGIPTKDIQRAISLGTAKINVNTENQIASAKKVREVLAENPNMYDPRKYLGPARDAIKETVIGKMREFGSSGKA MPLVSMTEMLNKAKAEGYAVGQFNLNNLEFTQAILLAAEEEKSPVILGVSEGAGRYMGGFKTVVNMVKGLMEDYKITVPVAIHLDHGSSFEKCKEVIDAGFTSVMIDASHHPFEENVEVTKKVVEYAHARGVSVEAELGTVGGGVIYADPKECEELVKRTGIDCLAPALGSVHGPPNLGFKEMEEIGRITGVPLVLHGGTGIPTKDIQRAISLGTAKINVNTENQIASAKKVREVLAENPNMYDPRKYLGPARDAIKETVIGKMREFGSSGKA 7ncc-a1-m1-cA_7ncc-a1-m1-cB Crystal structure of fructose-bisphosphate aldolase FBAP from Bacillus methanolicus Q6TV43 Q6TV43 2 X-RAY DIFFRACTION 102 1.0 796606 (Bacillus methanolicus MGA3) 796606 (Bacillus methanolicus MGA3) 284 284 MPLVSMKDMLNHGKENGYAVGQFNINNLEFGQAILQAAEEEKSPVIIGVSVGAANYMGGFKLIVDMVKSSMDSYNVTVPVAIHLDHGPSLEKCVQAIHAGFTSVMIDGSHLPLEENIELTKRVVEIAHSVGVSVEAELGRIGGQEDDVVAESFYAIPSECEQLVRETGVDCFAPALGSVHGPYKGEPKLGFDRMEEIMKLTGVPLVLHGGTGIPTKDIQKAISLGTAKINVNTESQIAATKAVREVLNNDAKLFDPRKFLAPAREAIKETIKGKMREFGSSGKA MPLVSMKDMLNHGKENGYAVGQFNINNLEFGQAILQAAEEEKSPVIIGVSVGAANYMGGFKLIVDMVKSSMDSYNVTVPVAIHLDHGPSLEKCVQAIHAGFTSVMIDGSHLPLEENIELTKRVVEIAHSVGVSVEAELGRIGGQEDDVVAESFYAIPSECEQLVRETGVDCFAPALGSVHGPYKGEPKLGFDRMEEIMKLTGVPLVLHGGTGIPTKDIQKAISLGTAKINVNTESQIAATKAVREVLNNDAKLFDPRKFLAPAREAIKETIKGKMREFGSSGKA 7ncy-a1-m1-cA_7ncy-a1-m2-cB Dual specificity phosphatase from Sulfolobales Beppu filamentous virus 3 A0A3Q8Q3X3 A0A3Q8Q3X3 2 X-RAY DIFFRACTION 13 0.984 2493124 (Sulfolobales Beppu filamentous virus 3) 2493124 (Sulfolobales Beppu filamentous virus 3) 126 128 TITHHHSIVRRVDDIVWQSDYEYAIKHGNEYDYVISVAKECKHPRASLWIPQDDNVYIPADRYVTVYNFIKQHDNGKSKFLIHCCAGSRSVAYSIAYLVLRYGITVSEAKRRGINYLHPDIEKSLV THHHHHHGSIVRRVDDIVWQSDYEYAIKHGNEYDYVISVAKECKHPRASLWIPQDDNVYIPADRYVTVYNFIKQHDNGKSKFLIHCCAGSRSVAYSIAYLVLRYGITVSEAKRRGINYLHPDIEKSLV 7nd2-a1-m1-cA_7nd2-a1-m1-cB Cryo-EM structure of the human FERRY complex Q6ZMI0 Q6ZMI0 4.0 ELECTRON MICROSCOPY 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 330 330 SLSIINEKVPFNDTKYSQYNALNVPLHNRRHQLKMRDIAGQALAFVQDLVTALLNFHTYTEQRIQIFPVTISPLNQKFSQYLHENASYVRPLEEGMLHLFESITEDTVTVLETTVKLKTFSEHLTSYICFLRKILPYQLKSLEEECESSLCTSALRARNLELSQDMKKMTAVFEKLQTYIALLALPSTEPDGLLRTNYSSVLTNVGAALHGFHDVMKDISKHYSQKAAIEHELPTATQKLITTNDCILSSVVALTNGAGKIASFFSNNLDYFIASLSYGPKAASGFISPLSAECMLQYKKKAAAYMKSLRKPLLESVPYEEALANRRILL SLSIINEKVPFNDTKYSQYNALNVPLHNRRHQLKMRDIAGQALAFVQDLVTALLNFHTYTEQRIQIFPVTISPLNQKFSQYLHENASYVRPLEEGMLHLFESITEDTVTVLETTVKLKTFSEHLTSYICFLRKILPYQLKSLEEECESSLCTSALRARNLELSQDMKKMTAVFEKLQTYIALLALPSTEPDGLLRTNYSSVLTNVGAALHGFHDVMKDISKHYSQKAAIEHELPTATQKLITTNDCILSSVVALTNGAGKIASFFSNNLDYFIASLSYGPKAASGFISPLSAECMLQYKKKAAAYMKSLRKPLLESVPYEEALANRRILL 7nd2-a1-m1-cG_7nd2-a1-m1-cH Cryo-EM structure of the human FERRY complex Q8NB37 Q8NB37 4.0 ELECTRON MICROSCOPY 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 210 7nd2-a1-m1-cE_7nd2-a1-m1-cF NRPACLLVASGAAEGVSAQSFLHCFTMASTAFNLQVATPGGKAMEFVDVTESNARWVQDFRLKAYASPAKLESIDGARYHALLIPSCPGALTDLASSGSLARILQHFHSESKPICAVGHGVAALCCATNEDRSWVFDSYSLTGPSVCELVRAPGFARLPLVVEDFVKDSGACFSASEPDAVHVVLDRHLVTGQNASSTVPAVQNLLFLCG NRPACLLVASGAAEGVSAQSFLHCFTMASTAFNLQVATPGGKAMEFVDVTESNARWVQDFRLKAYASPAKLESIDGARYHALLIPSCPGALTDLASSGSLARILQHFHSESKPICAVGHGVAALCCATNEDRSWVFDSYSLTGPSVCELVRAPGFARLPLVVEDFVKDSGACFSASEPDAVHVVLDRHLVTGQNASSTVPAVQNLLFLCG 7nd4-a1-m1-cB_7nd4-a1-m1-cC EM structure of SARS-CoV-2 Spike glycoprotein in complex with COVOX-88 Fab P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 277 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1002 1002 6zdh-a1-m1-cA_6zdh-a1-m1-cB 6zdh-a1-m1-cA_6zdh-a1-m1-cC 6zdh-a1-m1-cB_6zdh-a1-m1-cC 7k8x-a1-m1-cA_7k8x-a1-m1-cC 7k8y-a1-m1-cB_7k8y-a1-m1-cE 7k8y-a1-m1-cD_7k8y-a1-m1-cE 7ljr-a1-m1-cC_7ljr-a1-m1-cA 7m6h-a1-m1-cA_7m6h-a1-m1-cC 7nd4-a1-m1-cA_7nd4-a1-m1-cB 7nd4-a1-m1-cA_7nd4-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7nda-a1-m1-cB_7nda-a1-m1-cC EM structure of SARS-CoV-2 Spike glycoprotein (all RBD down) in complex with COVOX-253H55L Fab P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 333 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1003 1012 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTCAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ndb-a1-m1-cA_7ndb-a1-m1-cC EM structure of SARS-CoV-2 Spike glycoprotein in complex with COVOX-253H165L Fab P0DTC2 P0DTC2 4.6 ELECTRON MICROSCOPY 345 0.988 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 993 1003 7nd9-a1-m1-cA_7nd9-a1-m1-cB 7nd9-a1-m1-cA_7nd9-a1-m1-cC 7ndb-a1-m1-cA_7ndb-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQFCCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ndc-a1-m1-cB_7ndc-a1-m1-cC EM structure of SARS-CoV-2 Spike glycoprotein (all RBD down) in complex with COVOX-159 P0DTC2 P0DTC2 4.1 ELECTRON MICROSCOPY 278 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1063 1063 7ndc-a1-m1-cA_7ndc-a1-m1-cB 7ndc-a1-m1-cA_7ndc-a1-m1-cC 7ndd-a1-m1-cA_7ndd-a1-m1-cB 7ndd-a1-m1-cA_7ndd-a1-m1-cC 7ndd-a1-m1-cB_7ndd-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ndr-a1-m1-cC_7ndr-a1-m1-cF Crystal structure of TphC in an open conformation A0A5N7XFM8 A0A5N7XFM8 1.97 X-RAY DIFFRACTION 27 1.0 34028 (Comamonas sp.) 34028 (Comamonas sp.) 292 293 7ndr-a1-m1-cB_7ndr-a1-m1-cA 7ndr-a1-m1-cE_7ndr-a1-m1-cD NQPLKIVVPFSAGGTADVLPRLVAEKIRADYAGGVIIENKPGAGGNIGADLVFRAPPDGMTVLASPPGPIAINHNLYQKLSFDPTRWVPVTILATVPNVLVINPKLPVKSLGEFIAYAKANPKKVTVATQGDGSTSHLTAAMFMQLTGTELTVIPYKGTAPALIDLIGGNVDVFFDNISSSATYHQAGKVRILAVADEQRSQILPQVPTFAEQQWPAMQAVTFFSVVAPPGTSAEIAQKLQKQMALALSSNDIRKHFQEQGAVPCGWDPSKTAQFIRQETEKWKKVLKAANV SNQPLKIVVPFSAGGTADVLPRLVAEKIRADYAGGVIIENKPGAGGNIGADLVFRAPPDGMTVLASPPGPIAINHNLYQKLSFDPTRWVPVTILATVPNVLVINPKLPVKSLGEFIAYAKANPKKVTVATQGDGSTSHLTAAMFMQLTGTELTVIPYKGTAPALIDLIGGNVDVFFDNISSSATYHQAGKVRILAVADEQRSQILPQVPTFAEQQWPAMQAVTFFSVVAPPGTSAEIAQKLQKQMALALSSNDIRKHFQEQGAVPCGWDPSKTAQFIRQETEKWKKVLKAANV 7ndr-a1-m1-cE_7ndr-a1-m1-cF Crystal structure of TphC in an open conformation A0A5N7XFM8 A0A5N7XFM8 1.97 X-RAY DIFFRACTION 50 1.0 34028 (Comamonas sp.) 34028 (Comamonas sp.) 292 293 7ndr-a1-m1-cB_7ndr-a1-m1-cF 7ndr-a1-m1-cE_7ndr-a1-m1-cB NQPLKIVVPFSAGGTADVLPRLVAEKIRADYAGGVIIENKPGAGGNIGADLVFRAPPDGMTVLASPPGPIAINHNLYQKLSFDPTRWVPVTILATVPNVLVINPKLPVKSLGEFIAYAKANPKKVTVATQGDGSTSHLTAAMFMQLTGTELTVIPYKGTAPALIDLIGGNVDVFFDNISSSATYHQAGKVRILAVADEQRSQILPQVPTFAEQQWPAMQAVTFFSVVAPPGTSAEIAQKLQKQMALALSSNDIRKHFQEQGAVPCGWDPSKTAQFIRQETEKWKKVLKAANV SNQPLKIVVPFSAGGTADVLPRLVAEKIRADYAGGVIIENKPGAGGNIGADLVFRAPPDGMTVLASPPGPIAINHNLYQKLSFDPTRWVPVTILATVPNVLVINPKLPVKSLGEFIAYAKANPKKVTVATQGDGSTSHLTAAMFMQLTGTELTVIPYKGTAPALIDLIGGNVDVFFDNISSSATYHQAGKVRILAVADEQRSQILPQVPTFAEQQWPAMQAVTFFSVVAPPGTSAEIAQKLQKQMALALSSNDIRKHFQEQGAVPCGWDPSKTAQFIRQETEKWKKVLKAANV 7ndt-a1-m1-cIII_7ndt-a1-m1-cDDD UL40:01 TCR in complex with HLA-E with a non-natural amino acid P01848 P01848 2.999 X-RAY DIFFRACTION 19 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 189 190 AKTTQPPSMDVAEGRAANLPCNHSTISGNEYVYWYRQIHSQGPQYIIHGLKNNETNEMASLIITEDRKSSTLILPHATLRDTAVYYCIVVRSSNTGKLIFGQGTTLQVKPDIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNN KTTQPPSMDVAEGRAANLPCNHSTISGNEYVYWYRQIHSQGPQYIIHGLKNNETNEMASLIITEDRKSSTLILPHATLRDTAVYYCIVVRSSNTGKLIFGQGTTLQVKPDIQNPDPAVYQLRDSKSSDKSVCLFTDFDSQTNVSQSKDSDVYITDKCVLDMRSMDFKSNSAVAWSNKSDFACANAFNNSI 7ndx-a1-m1-cA_7ndx-a1-m2-cA Crystal structure of the human HSP40 DNAJB1-CTDs in complex with a peptide of NudC P25685 P25685 2.541 X-RAY DIFFRACTION 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 154 PVTHDLRVSLEEIYSGCTKKMKISHNEDKILTIEVKKGWKEGTKITFPIVFVLKDKPHNIFKRDGSDVIYPARISLREALCGCTVNVPTLDGRTIPVVFKDVIRPGMRRKVPGEGLPLPKTPEKRGDLIIEFEVIFPERIPQTSRTVLEQVLPI PVTHDLRVSLEEIYSGCTKKMKISHNEDKILTIEVKKGWKEGTKITFPIVFVLKDKPHNIFKRDGSDVIYPARISLREALCGCTVNVPTLDGRTIPVVFKDVIRPGMRRKVPGEGLPLPKTPEKRGDLIIEFEVIFPERIPQTSRTVLEQVLPI 7ne9-a1-m1-cCCC_7ne9-a1-m1-cAAA A single sensor controls large variations in zinc quotas in a marine cyanobacterium Q7U3N0 Q7U3N0 2.1 X-RAY DIFFRACTION 27 1.0 84588 (Parasynechococcus marenigrum WH 8102) 84588 (Parasynechococcus marenigrum WH 8102) 118 120 PALNARQQALLTALNACGDEMSGQQLHRSLDDEASMGLATVYRNLRQLQQRGLVRCRHLPTGEALYAPVDRDRHHLTCVDCGTTQVLDHCPIHGIDVGDFELLFHTLEFFGFCSSCRP PALNARQQALLTALNACGDEMSGQQLHRSLDDEASMGLATVYRNLRQLQQRGLVRCRHLPTGEALYAPVDRDRHHLTCVDCGTTQVLDHCPIHGIDVPAGDFELLFHTLEFFGFCSSCRP 7ne9-a1-m1-cCCC_7ne9-a1-m1-cDDD A single sensor controls large variations in zinc quotas in a marine cyanobacterium Q7U3N0 Q7U3N0 2.1 X-RAY DIFFRACTION 109 1.0 84588 (Parasynechococcus marenigrum WH 8102) 84588 (Parasynechococcus marenigrum WH 8102) 118 120 7ne9-a1-m1-cAAA_7ne9-a1-m1-cBBB PALNARQQALLTALNACGDEMSGQQLHRSLDDEASMGLATVYRNLRQLQQRGLVRCRHLPTGEALYAPVDRDRHHLTCVDCGTTQVLDHCPIHGIDVGDFELLFHTLEFFGFCSSCRP PALNARQQALLTALNACGDEMSGQQLHRSLDDEASMGLATVYRNLRQLQQRGLVRCRHLPTGEALYAPVDRDRHHLTCVDCGTTQVLDHCPIHGIDVPAGDFELLFHTLEFFGFCSSCRP 7ned-a1-m1-cA_7ned-a1-m2-cA Thiourocanate hydratase from Paenibacillus sp. Soil724D2 in complex with cofactor NAD+ and urocanate A0A0Q9KFZ4 A0A0Q9KFZ4 1.9 X-RAY DIFFRACTION 267 1.0 1736392 (Paenibacillus sp. Soil724D2) 1736392 (Paenibacillus sp. Soil724D2) 545 545 ERITAARGLELRCKGWRQEALLRMLENVLENGENQKELIVYAALAKAARNWPSYHAIVRTLKELEEDETLVIQSGKPIGIFKTHRFAPLIVMANCNLVGRWATSENFYRLQEKGLLIWGGLTAAAWQYIGSQGVIQGTYEIFQSIARLHFNGSLAGKFILTAGLGGMGGAQPLAGTLAGAAILCVEVSEDRVDRRLQTNYLQRKTRSLDEALLWIEEAVDNLHPVSVGLTGNASDIYPELVRRGITPDIVTDQTSAHDLVYGYVPSGYRVEELEEARANDPEQLQRDAGASIAVEVEAMLELKKRGAIVFDNGNNIRSQAKEYGVQNAFDIDIFTEAFLRPLFARAIGPFRWVALSGELSDIHAIDEFILEAFSDNEVIANWIRLAREHVPVEGLPARIGWFGHGDRTKLALAVNQMVREGKLQGPIAFSRDHLDAASMTHPNIMTERMKDGSDAIADWPLLNAMLNCSSMADLVTIHSGGGGYAGYMTSAGVTLVADGSTESDIRLETTLNNDTGLGVLRYADAGYEESADEVRLKDIRWIKTN ERITAARGLELRCKGWRQEALLRMLENVLENGENQKELIVYAALAKAARNWPSYHAIVRTLKELEEDETLVIQSGKPIGIFKTHRFAPLIVMANCNLVGRWATSENFYRLQEKGLLIWGGLTAAAWQYIGSQGVIQGTYEIFQSIARLHFNGSLAGKFILTAGLGGMGGAQPLAGTLAGAAILCVEVSEDRVDRRLQTNYLQRKTRSLDEALLWIEEAVDNLHPVSVGLTGNASDIYPELVRRGITPDIVTDQTSAHDLVYGYVPSGYRVEELEEARANDPEQLQRDAGASIAVEVEAMLELKKRGAIVFDNGNNIRSQAKEYGVQNAFDIDIFTEAFLRPLFARAIGPFRWVALSGELSDIHAIDEFILEAFSDNEVIANWIRLAREHVPVEGLPARIGWFGHGDRTKLALAVNQMVREGKLQGPIAFSRDHLDAASMTHPNIMTERMKDGSDAIADWPLLNAMLNCSSMADLVTIHSGGGGYAGYMTSAGVTLVADGSTESDIRLETTLNNDTGLGVLRYADAGYEESADEVRLKDIRWIKTN 7nef-a1-m1-cJ_7nef-a1-m1-cP Fucosylated linear peptide Fln65 bound to the fucose binding lectin LecB PA-IIL from Pseudomonas aeruginosa at 1.5 Angstrom resolution 1.51 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 11 11 KKLLKLLKLLL KKLLKLLKLLL 7nef-a1-m1-cL_7nef-a1-m1-cN Fucosylated linear peptide Fln65 bound to the fucose binding lectin LecB PA-IIL from Pseudomonas aeruginosa at 1.5 Angstrom resolution 1.51 X-RAY DIFFRACTION 14 1.0 32630 (synthetic construct) 32630 (synthetic construct) 11 11 KKLLKLLKLLL KKLLKLLKLLL 7nen-a1-m1-cA_7nen-a1-m2-cA Crystal structure of outer surface protein C (OspC) from Borrelia garinii H6VGK2 H6VGK2 1.98 X-RAY DIFFRACTION 187 1.0 29519 (Borreliella garinii) 29519 (Borreliella garinii) 160 160 LTVISKKITDSNAVVLAVKEVEALLSSIDELAKAIGQKIDRNNGLAVEANFNTSLLAGAYTISTLITKKLDELIKNSGELKGEVEKAKNCSEAFTNKLKEKTQELAVAAGAATDIDAKKAILKTNRDKDLGADELGKLFKSVESLSKAAQEASANSVKEL LTVISKKITDSNAVVLAVKEVEALLSSIDELAKAIGQKIDRNNGLAVEANFNTSLLAGAYTISTLITKKLDELIKNSGELKGEVEKAKNCSEAFTNKLKEKTQELAVAAGAATDIDAKKAILKTNRDKDLGADELGKLFKSVESLSKAAQEASANSVKEL 7nep-a1-m1-cR_7nep-a1-m1-cS Homology model of the in situ actomyosin complex from the A-band of mouse psoas muscle sarcomere in the rigor state P97457 P97457 10.2 ELECTRON MICROSCOPY 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 144 144 MFDQTQIQEFKEAFTVIDQNRDGIIDKEDLRDTFAAMGRLNVKNEELDAMMKEASGPINFTVFLTMFGEKLKGADPEDVITGAFKVLDPEGKGTIKKQFLEELLTTQCDRFSQEEIKNMWAAFPPDVGGNVDYKNICYVITHGD MFDQTQIQEFKEAFTVIDQNRDGIIDKEDLRDTFAAMGRLNVKNEELDAMMKEASGPINFTVFLTMFGEKLKGADPEDVITGAFKVLDPEGKGTIKKQFLEELLTTQCDRFSQEEIKNMWAAFPPDVGGNVDYKNICYVITHGD 7nf2-a1-m1-cB_7nf2-a1-m1-cA Structure of T. atroviride Fdc variant TaFdcV in complex with prFMN crotonic acid adduct G9NLP8 G9NLP8 1.33 X-RAY DIFFRACTION 289 0.998 452589 (Trichoderma atroviride IMI 206040) 452589 (Trichoderma atroviride IMI 206040) 496 497 7ney-a1-m1-cB_7ney-a1-m1-cA 7nf0-a1-m1-cA_7nf0-a1-m1-cB 7nf1-a1-m1-cA_7nf1-a1-m1-cB EPPHLSFRSFVNALRQDGDLVDINEPVDPDLEAAAITRLVCETDDKAPLFNNVIGAKDGLWRILGAPASLRSSPKERFGRLARHLALPPTASAKDILDKMLSANSIPPIEPVIVPTGPVKENSIEGENIDLEALPAPMVHQSDGGKYIQTYGMHVIQSPDGCWTNWSIARAMVSGKRTLAGLVISPQHIRKIQDQWRAIGQEEIPWALAFGVPPTAIMASSMPIPDGVSEAGYVGAIAGEPIKLVKCDTNNLYVPANSEIVLEGTLSTTKMAPEGPFGEMHGYVYPGESHPAPVYTVNKITYRNNAILPMSACGRLTDETQTMIGTLAAAEIRQLCQRAGLPITDAFAPFVGQATWVALKVDTHRLRAMKTNGKAFAKRVGDVVFTQKVGYMIHRLILVGDDIDVYDDKDVMWAFATRCRPGTDEVFFDDVPGFWLIPYMSHGNAEAIKGGKVVSDALLTAEYTTGKDWESADFKNSYPKSIQDKVLNSWERLGFK PPHLSFRSFVNALRQDGDLVDINEPVDPDLEAAAITRLVCETDDKAPLFNNVIGAKDGLWRILGAPASLRSSPKERFGRLARHLALPPTASAKDILDKMLSANSIPPIEPVIVPTGPVKENSIEGENIDLEALPAPMVHQSDGGKYIQTYGMHVIQSPDGCWTNWSIARAMVSGKRTLAGLVISPQHIRKIQDQWRAIGQEEIPWALAFGVPPTAIMASSMPIPDGVSEAGYVGAIAGEPIKLVKCDTNNLYVPANSEIVLEGTLSTTKMAPEGPFGEMHGYVYPGESHPAPVYTVNKITYRNNAILPMSACGRLTDETQTMIGTLAAAEIRQLCQRAGLPITDAFAPFVGQATWVALKVDTHRLRAMKTNGKAFAKRVGDVVFTQKVGYMIHRLILVGDDIDVYDDKDVMWAFATRCRPGTDEVFFDDVPGFWLIPYMSHGNAEAIKGGKVVSDALLTAEYTTGKDWESADFKNSYPKSIQDKVLNSWERLGFKKL 7nf8-a1-m1-cA_7nf8-a1-m2-cA Ovine (b0,+AT-rBAT)2 hetero-tetramer, asymmetric unit, rigid-body fitted W5P8K2 W5P8K2 2.83 ELECTRON MICROSCOPY 30 1.0 9940 (Ovis aries) 9940 (Ovis aries) 623 623 7nf7-a1-m1-cA_7nf7-a1-m2-cA RPYAGMPKEVLFQFSGQARYRIPREVLFWLTVASVLLLIAATIAIIAISPKCLDWWQAGPMYQIYPRSFRDSNKDGDGDLKGIQDKLDYITTLNIKTVWITSFYKSSLKDFRHAVEDFQEIDPIFGTMKDFENLVAAIHDKGLKLIIDFIPNHTSDKHAWFQWSRNRTGKYTDYYIWHDCNYENGTTIPPNNWLSVYGNSSWHFDEVRKQCYFHQFMKEQPDLNFRNPDVQEEIKEIIQFWLSKGVDGFSFNALQYLLEAKHLRDEAQVNKTQIPDTVTHYSQLHHDFTTTQVGMHDIVRSFRQTMNQYSREPGRYRFMGTEAHGESITETMVYYGLPFIQEADFPFNSYLSKLDKPSGNSVSEVITSWLENMPEGKWPNWMTGGPDNVRLTSRLGEKYVNIMNMLVFTLPGTPITYYGEEIGMRNILAANLNENYDTGTLFSKSPMQWDNSSNAGFSEGNHTWLPTSSDYHTVNVDVQKTQPRSALKLYQELSLLHANELLLSRGWFCYLRNDNHSIMYTRELDGINKVFLMVLNFGESSLLNLKEMISNIPTRVRIRLSTSSAYSGREVDTHAVTLASGEGLILEYNTGNLLHRQTAFKDRCFVSNRACYSRVLNILYSLC RPYAGMPKEVLFQFSGQARYRIPREVLFWLTVASVLLLIAATIAIIAISPKCLDWWQAGPMYQIYPRSFRDSNKDGDGDLKGIQDKLDYITTLNIKTVWITSFYKSSLKDFRHAVEDFQEIDPIFGTMKDFENLVAAIHDKGLKLIIDFIPNHTSDKHAWFQWSRNRTGKYTDYYIWHDCNYENGTTIPPNNWLSVYGNSSWHFDEVRKQCYFHQFMKEQPDLNFRNPDVQEEIKEIIQFWLSKGVDGFSFNALQYLLEAKHLRDEAQVNKTQIPDTVTHYSQLHHDFTTTQVGMHDIVRSFRQTMNQYSREPGRYRFMGTEAHGESITETMVYYGLPFIQEADFPFNSYLSKLDKPSGNSVSEVITSWLENMPEGKWPNWMTGGPDNVRLTSRLGEKYVNIMNMLVFTLPGTPITYYGEEIGMRNILAANLNENYDTGTLFSKSPMQWDNSSNAGFSEGNHTWLPTSSDYHTVNVDVQKTQPRSALKLYQELSLLHANELLLSRGWFCYLRNDNHSIMYTRELDGINKVFLMVLNFGESSLLNLKEMISNIPTRVRIRLSTSSAYSGREVDTHAVTLASGEGLILEYNTGNLLHRQTAFKDRCFVSNRACYSRVLNILYSLC 7nfb-a1-m1-cA_7nfb-a1-m1-cB ER-PRS*(+) (Y537S) in complex with genistein and SRC-2 coactivator peptide P03372 P03372 1.33 X-RAY DIFFRACTION 95 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 241 244 7ndo-a1-m1-cA_7ndo-a1-m1-cB 7nel-a1-m1-cA_7nel-a1-m1-cB LALSLTADQIISALLEAEPPILYSEYDPSRPFSEAYMMGLLTNLADRELVHMINWAKKVPGFVDLSLHDQVHLLESAWLEILMIGLVWRSMDHPGKLLFAPDLLLDREQGKSVEGMVEIFDMLLATSERFREMKLQREEFVCLKAIILLNSGVYTFSTLKSLENKEKIHRMLDKITDALIWYMAKSGLSLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKSKNVVPLSDLLLEMLDAHR SLALSLTADQIISALLEAEPPILYSEYDPSRPFSEAYMMGLLTNLADRELVHMINWAKKVPGFVDLSLHDQVHLLESAWLEILMIGLVWRSMDHPGKLLFAPDLLLDREQGKSVEGMVEIFDMLLATSERFREMKLQREEFVCLKAIILLNSGVYTFLSSTLKSLENKEKIHRMLDKITDALIWYMAKSGLSLQQQHQRLAQLLLILSHIRHMSNKGMEHLYSMKSKNVVPLSDLLLEMLDAHR 7nfc-a1-m1-cF_7nfc-a1-m1-cA Cryo-EM structure of NHEJ super-complex (dimer) P78527 P78527 4.14 ELECTRON MICROSCOPY 45 0.999 9606 (Homo sapiens) 9606 (Homo sapiens) 3557 3562 7lt3-a1-m1-cC_7lt3-a1-m1-cL CSLLRLQETLSAADRCGAALAGHQLIRGLGQECVLSSSPAVLALQTSLVFSRDFGLLVFVRKSLNSIEFRECREEILKFLCIFLEKMGQKIAPYSVEIKNTCTSVYTKDRAAKCKIPALDLLIKLLQTFRSSRLMDEFKIGELFSKFYGELALKKKIPDTVLEKVYELLGLLGEVHPSEMINNAENLFRAFLGELKTQMTSAVREPKLPVLAGCLKGLSSLLCNFTKSMEEDPQTSREIFNFVLQIDLKRYAVPSAGLRLFALHASQFSTCLLDNYVSLFEVLLKWCAHTNVELKKAALSALESFLKQVSNMVAKNAEMHKNKLQYFMEQFYGIINKELSIAIRGYGLFAGPCKVINAKDVDFMYVELIQRCKQMFLTQDRVYQMPSFLQSVASVLLYLDTVPEVYTPVLEHLVVMQIDSFPQYSPKMQLVCCRAIVKVFLALAAKGPVLRNCISTVVHQGLIRICSKPVVLPWKVPTYKDYVDLFRHLLSSDQMMDSILADSLNHLLYDEFVKSVLKIVEKLDLTLEIQANLHPAKPKDFSAFINLVEFCREILPEKQAEFFEPWVYSFSYELILQSTRLPLISGFYKLLSITVRNAKKIKYFEGDPEKYSCFALFVKFGKEVAVKMKQYKDELLASCLTFLLSLPHNIIELDVRAYVPALQMAFKLGLSYTPLAEVGLNALEEWSIYIDRHVMQPYYKDILPCLDGYLKTSFNKVVLKHLKKTKNLSLEEIRIRVVQMLGSLGGQINKNLLMMKSYVAWDREKRLSFAVPFREMKPVIFLDVFLPRVTELALTASDRQTKVAACELLHSMVMFMLGKATQMPEGGQGAPPMYQLYKRTFPVLLRLACDVDQVTRQLYEPLVMQLIHWFTNNKKFESQDTVALLEAILDGIVDPVDSTLRDFCGRCIREFLKWSIKQITPQQQEKSPVNTKSLFKRLYSLALHPNAFKRLGASLAFNNIYREFREEESLVEQFVFEALVIYMESLALAHADEKSLGTIQQCCDAIDHLCRIIEKKHVSLNKAKKRRLPRGFPPSASLCLLDLVKWLLAHCGRPQTECRHKSIELFYKFVPLLPGNRSPNLWLKDVLKEEGVSFLINTFEGGGCGQPSGILAQPTSLQATLCWLDLLLAALECYNTFIGERTVGALQVLGTEAQSSLLKAVAFFLESIAMHDIIAAEKCFTSPQEGERYNYSKCTVVVRIMEFTTTLLNTSPEGWKLLKKDLCNTHLMRVLVQTLCEPASIGFNIGDVQVMAHLPDVCVNLMKALKMSPYKDILETHLREKITAQSIEELCAVNLYGPDAQVDRSRLAAVVSACKQLHRAGLLHNILPSQSTDLHHSVGTELLSLVYKGIASLDLSCKQLASGLLELAFAFGGLCERLVSLLLNPAVLSTSVIHFSHGEYFYSLFSETINTELLKNLDLAVLELMQSSVDNTKMVSAVLNGMLDQSFRERANQKHQGLKLATTILQHWKKCDSWWAKDSPLETKMAVLALLAKILQIDSSVSFNTSHGSFPEVFTTYISLLADTKLDLHLKGQAVTLLPFFLEELRRVLEQLIVAHFPMQSREFPPGTPRFNNYVDCMKKFLDALELSQSPMLLELMTEVLCREQQHVMEELFQSSFRRIARRGSCVTQVGLLESVYEMFRTRQSFVDRSLLTLLWHCSLDALREFFSTIVVDAIDVLKTFDTQITKKMGYYKILDVMYSRLPNELTKTLIKLCYDAFTENLERRRLYHCAAYNCAISVICCVFNELKFYQRHECMAPLTALVKHMHRSLRDLPSWMKFLHGKLGNPIVPLNIRLFLAKLVINTEEVFRPYAKHWLSPLLQLAASENGEGIHYMVVEIVATILSWTGLATPTGVPKDEVLANRLLNFLMKHVFHPKRAVFRHNLEIIKTLVECWKDCLSIPYRLIFEKFSGKDPNSKDNSVGIQLLGIVMANDLPPYDPQCGIQSSEYFQALVNNMSFVRYKEVYAAAAEVLGLILRYVMERKNILEESLCELVAKQLKQHQNTMEDKFIVCLNKVTKSFPPLADRFMNAVFFLLPKFHGVLKTLCLEVVLCRVEGMTELYFQLKSKDFVQVMRHRDDERQKVCLDIIYKMMPKLKPVELRELLNPVVEFVSHPSTTCREQMYNILMWIHDNYRDTDNDSQEIFKLAKDVLIQGLIDENPGLQLIIRNFWSHETRLPSNTLDRLLALNSLYSPKIEVHFLSLATNFLLEMTSMSPDYPNPMFEHPLSECEFQEYTIDSDWRFRSTVLTGRTDLLRLRRRFMRDQEKLSLMYARKGVAEQKREKEIKSELKMKQDAQVVLYRSYRHGDLPDIQIKHSSLITPLQAVAQRDPIIAKQLFSSLFSGILKEMDKFKTLSEKNNITQKLLQDFNRFLNTTFSFFPPFVSCIQDISCQHAALLSLDPAAVSAGCLASLQQPVGIRLLEEALLRLLLPPDVLRWVELAKLYRSIGEYDVLRGIFTSEIGTKQITQSALLAEARSDYSEAAKQYDEALNKQDWVDGEPTEAEKDFWELASLDCYNHLAEWKSLEYCSTASIDSEKIWSEPFYQETYLPYMIRSKLKLLLQGEADQSLLTFIDKAMHGELQKAILELHYSQELSLLYLLQDDVDRAKYYIQNGIQSFMQNYSSIDVLLHQSRLTKLQSVQALTEIQEFISFISKQGNLSSQVPLKRLLNTWTNRYPDAKMDPMNIWDDIITNRCFFLSKIEEKLDISSLIRSCKFSMKMKMIDSARKQNNFSLAMKLLKELHKESKTRDDWLVSWVQSYCRLSHCRSRSQGCSEQVLTVLKTVSLLDENNVSSYLSKNILAFRDQNILLGTTYRIIANALSSEPACLAEIEEDKARRILELSGEDSEKVIAGLYQRAFQHLSEAVQAAEEEAGVIDAYMTLADFCDQQLRKEEEAYPALVVEKMLKALKLNSNEARLKFPRLLQIIERYPEETLSLMTKEISSVPCWQFISWISHMVALLDKDQAVAVQHSVEEITDNYPQAIVYPFIISSESTSTGHKNKEFVARIKSKLDQGGVIQDFINALDQLSNPELLFKDWSNDVRAELAVNKKNIEKMYERMYAALGDPKAPGLGAFRRKFIQTFGKEFDKHFGKGSDFNDITNMLLLKMNKDSKPPGNLKECSPWMSDFKVEFLRNELEIPGQYDGRGKPLPEYHVRIAGFDERVTVMASLRRPKRIIIRGHDEREHPFLVKGGEDLRQDQRVEQLFQVMNGILAQDSACSQRALQLRTYSVVPMTSRLGLIEWLENTVTLKDLLLNTMSQEEKAAYLSDPRAPPCEYKDWLDVGAYMLMYKGANRTETVTSFRKRESKVPADLLKRAFVRMSTSPEAFLALRSHFASSHALICISHWILGIGDRHLNNFMVAMETGGVIGIDFGHAFGSATQFLPVPELMPFRLTRQFINLMLPMKETGLMYSIMVHALRAFRSDPGLLTNTMDVFVKEPSFDWKNWYPRQKICYAKRKLAGANPAVITCDELLLGHEKAPAFRDYVAVARGSKDHNIRAQEPESGLSEETQVKCLMDQATDPNILGRTWEGWEPWMXXXXXXXXXXXXXXXXXXXX CSLLRLQETLSAADRCGAALAGHQLIRGLGQECVLSSSPAVLALQTSLVFSRDFGLLVFVRKSLNSIEFRECREEILKFLCIFLEKMGQKIAPYSVEIKNTCTSVYTKDRAAKCKIPALDLLIKLLQTFRSSRLMDEFKIGELFSKFYGELALKKKIPDTVLEKVYELLGLLGEVHPSEMINNAENLFRAFLGELKTQMTSAVREPKLPVLAGCLKGLSSLLCNFTKSMEEDPQTSREIFNFVLKAIRRYAVPSAGLRLFALHASQFSTCLLDNYVSLFEVLLKWCAHTNVELKKAALSALESFLKQVSNMVAKNAEMHKNKLQYFMEQFYGIINKELSIAIRGYGLFAGPCKVINAKDVDFMYVELIQRCKQMFLTQDRVYQMPSFLQSVASVLLYLDTVPEVYTPVLEHLVVMQIDSFPQYSPKMQLVCCRAIVKVFLALAAKGPVLRNCISTVVHQGLIRICSKPVVLPWKVPTYKDYVDLFRHLLSSDQMMDSILADSLNHLLYDEFVKSVLKIVEKLDLTLEIQANLHPAKPKDFSAFINLVEFCREILPEKQAEFFEPWVYSFSYELILQSTRLPLISGFYKLLSITVRNAKKIKYFEGDPEKYSCFALFVKFGKEVAVKMKQYKDELLASCLTFLLSLPHNIIELDVRAYVPALQMAFKLGLSYTPLAEVGLNALEEWSIYIDRHVMQPYYKDILPCLDGYLKTSFNKVVLKHLKKTKNLSSNEAISLEEIRIRVVQMLGSLGGQINKNLLMMKSYVAWDREKRLSFAVPFREMKPVIFLDVFLPRVTELALTASDRQTKVAACELLHSMVMFMLGKATQMPEGGQGAPPMYQLYKRTFPVLLRLACDVDQVTRQLYEPLVMQLIHWFTNNKKFESQDTVALLEAILDGIVDPVDSTLRDFCGRCIREFLKWSIKQITPQQQEKSPVNTKSLFKRLYSLALHPNAFKRLGASLAFNNIYREFREEESLVEQFVFEALVIYMESLALAHADEKSLGTIQQCCDAIDHLCRIIEKKHVSLNKAKKRRLPRGFPPSASLCLLDLVKWLLAHCGRPQTECRHKSIELFYKFVPLLPGNRSPNLWLKDVLKEEGVSFLINTFEGGGCGQPSGILAQPTSLQATLCWLDLLLAALECYNTFIGERTVGALQVLGTEAQSSLLKAVAFFLESIAMHDIIAAEKCFTSPQEGERYNYSKCTVVVRIMEFTTTLLNTSPEGWKLLKKDLCNTHLMRVLVQTLCEPASIGFNIGDVQVMAHLPDVCVNLMKALKMSPYKDILETHLREKITAQSIEELCAVNLYGPDAQVDRSRLAAVVSACKQLHRAGLLHNILPSQSTDLHHSVGTELLSLVYKGIASLDLSCKQLASGLLELAFAFGGLCERLVSLLLNPAVLSTSVIHFSHGEYFYSLFSETINTELLKNLDLAVLELMQSSVDNTKMVSAVLNGMLDQSFRERANQKHQGLKLATTILQHWKKCDSWWAKDSPLETKMAVLALLAKILQIDSSVSFNTSHGSFPEVFTTYISLLADTKLDLHLKGQAVTLLPFFLEELRRVLEQLIVAHFPMQSREFPPGTPRFNNYVDCMKKFLDALELSQSPMLLELMTEVLCREQQHVMEELFQSSFRRIARRGSCVTQVGLLESVYEMFRTRQSFVDRSLLTLLWHCSLDALREFFSTIVVDAIDVLKTFDTQITKKMGYYKILDVMYSRLPNELTKTLIKLCYDAFTENLERRRLYHCAAYNCAISVICCVFNELKFYQRHECMAPLTALVKHMHRSLRDLPSWMKFLHGKLGNPIVPLNIRLFLAKLVINTEEVFRPYAKHWLSPLLQLAASENGEGIHYMVVEIVATILSWTGLATPTGVPKDEVLANRLLNFLMKHVFHPKRAVFRHNLEIIKTLVECWKDCLSIPYRLIFEKFSGKDPNSKDNSVGIQLLGIVMANDLPPYDPQCGIQSSEYFQALVNNMSFVRYKEVYAAAAEVLGLILRYVMERKNILEESLCELVAKQLKQHQNTMEDKFIVCLNKVTKSFPPLADRFMNAVFFLLPKFHGVLKTLCLEVVLCRVEGMTELYFQLKSKDFVQVMRHRDDERQKVCLDIIYKMMPKLKPVELRELLNPVVEFVSHPSTTCREQMYNILMWIHDNYRDTDNDSQEIFKLAKDVLIQGLIDENPGLQLIIRNFWSHETRLPSNTLDRLLALNSLYSPKIEVHFLSLATNFLLEMTSMSPDYPNPMFEHPLSECEFQEYTIDSDWRFRSTVLTGRTDLLRLRRRFMRDQEKLSLMYARKGVAEQKREKEIKSELKMKQDAQVVLYRSYRHGDLPDIQIKHSSLITPLQAVAQRDPIIAKQLFSSLFSGILKEMDKFKTLSEKNNITQKLLQDFNRFLNTTFSFFPPFVSCIQDISCQHAALLSLDPAAVSAGCLASLQQPVGIRLLEEALLRLLLPPDVLRWVELAKLYRSIGEYDVLRGIFTSEIGTKQITQSALLAEARSDYSEAAKQYDEALNKQDWVDGEPTEAEKDFWELASLDCYNHLAEWKSLEYCSTASIDSEKIWSEPFYQETYLPYMIRSKLKLLLQGEADQSLLTFIDKAMHGELQKAILELHYSQELSLLYLLQDDVDRAKYYIQNGIQSFMQNYSSIDVLLHQSRLTKLQSVQALTEIQEFISFISKQGNLSSQVPLKRLLNTWTNRYPDAKMDPMNIWDDIITNRCFFLSKIEEKLDISSLIRSCKFSMKMKMIDSARKQNNFSLAMKLLKELHKESKTRDDWLVSWVQSYCRLSHCRSRSQGCSEQVLTVLKTVSLLDENNVSSYLSKNILAFRDQNILLGTTYRIIANALSSEPACLAEIEEDKARRILELSGEDSEKVIAGLYQRAFQHLSEAVQAAEEEAGVIDAYMTLADFCDQQLRKEEEAYPALVVEKMLKALKLNSNEARLKFPRLLQIIERYPEETLSLMTKEISSVPCWQFISWISHMVALLDKDQAVAVQHSVEEITDNYPQAIVYPFIISSESTSTGHKNKEFVARIKSKLDQGGVIQDFINALDQLSNPELLFKDWSNDVRAELAVNKKNIEKMYERMYAALGDPKAPGLGAFRRKFIQTFGKEFDKHFGKGSDFNDITNMLLLKMNKDSKPPGNLKECSPWMSDFKVEFLRNELEIPGQYDGRGKPLPEYHVRIAGFDERVTVMASLRRPKRIIIRGHDEREHPFLVKGGEDLRQDQRVEQLFQVMNGILAQDSACSQRALQLRTYSVVPMTSRLGLIEWLENTVTLKDLLLNTMSQEEKAAYLSDPRAPPCEYKDWLDVGAYMLMYKGANRTETVTSFRKRESKVPADLLKRAFVRMSTSPEAFLALRSHFASSHALICISHWILGIGDRHLNNFMVAMETGGVIGIDFGHAFGSATQFLPVPELMPFRLTRQFINLMLPMKETGLMYSIMVHALRAFRSDPGLLTNTMDVFVKEPSFDWKNWYPRQKICYAKRKLAGANPAVITCDELLLGHEKAPAFRDYVAVARGSKDHNIRAQEPESGLSEETQVKCLMDQATDPNILGRTWEGWEPWMXXXXXXXXXXXXXXXXXXXX 7nfc-a1-m1-cQ_7nfc-a1-m1-cR Cryo-EM structure of NHEJ super-complex (dimer) Q9H9Q4 Q9H9Q4 4.14 ELECTRON MICROSCOPY 144 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 211 218 MEELEQGLLMQPWAWLQLAENSLLAKVFITKQGYALLVSDLQQVWHEQVDTSVVSQRAKELNKRLTAPPAAFLCHLDNLLRPLLKEATFSCDCVADALILRVRSELSGLPFYWNFHCMLASPSLVSQHLIRPLMGMSLALQCQVRELATLLHMKDLEIQDYQESGATLIRDRLKTEPFEENSFLEQFMIEKLDGKPFVMNLQDLYMAVTTQ MEELEQGLLMQPWAWLQLAENSLLAKVFITKQGYALLVSDLQQVWHEQVDTSVVSQRAKELNKRLTAPPAAFLCHLDNLLRPLLKDATFSCDCVADALILRVRSELSGLPFYWNFHCMLASPSLVSQHLIRPLMGMSLALQCQVRELATLLHMKDLEIQDYQESGATLIRDRLKTEPFEENSFLEQFMIEKLPEACSIGDGKPFVMNLQDLYMAVTTQ 7nfh-a1-m1-cA_7nfh-a1-m1-cE A heptameric barrel state of a de novo coiled-coil assembly: CC-Type2-(MaId)4. 1.62 X-RAY DIFFRACTION 58 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 7nfh-a1-m1-cA_7nfh-a1-m1-cB GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG 7nfh-a1-m1-cB_7nfh-a1-m1-cD A heptameric barrel state of a de novo coiled-coil assembly: CC-Type2-(MaId)4. 1.62 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG 7nfh-a1-m1-cC_7nfh-a1-m1-cG A heptameric barrel state of a de novo coiled-coil assembly: CC-Type2-(MaId)4. 1.62 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 7nfh-a1-m1-cC_7nfh-a1-m1-cF GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG 7nfh-a1-m1-cD_7nfh-a1-m1-cF A heptameric barrel state of a de novo coiled-coil assembly: CC-Type2-(MaId)4. 1.62 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG 7nfh-a1-m1-cE_7nfh-a1-m1-cG A heptameric barrel state of a de novo coiled-coil assembly: CC-Type2-(MaId)4. 1.62 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG GEIAQAMKEIAKAMKEIAWAMKEIAQAMKG 7nfp-a1-m1-cF_7nfp-a1-m1-cG A heptameric barrel state of a de novo coiled-coil assembly: CC-Type2-(LaId)4-I17K 1.43 X-RAY DIFFRACTION 52 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 7nfp-a1-m1-cA_7nfp-a1-m1-cC 7nfp-a1-m1-cA_7nfp-a1-m1-cF 7nfp-a1-m1-cB_7nfp-a1-m1-cE 7nfp-a1-m1-cB_7nfp-a1-m1-cG 7nfp-a1-m1-cC_7nfp-a1-m1-cD 7nfp-a1-m1-cD_7nfp-a1-m1-cE GEIAKALREIAKALREKAALREIAKALRG GEIAKALREIAKALREKAALREIAKALRG 7ng0-a1-m1-cA_7ng0-a1-m2-cA Crystal structure of N- and C-terminally truncated Geobacillus thermoleovorans nucleoid occlusion protein Noc G8N1K9 G8N1K9 2.95 X-RAY DIFFRACTION 151 1.0 1111068 (Geobacillus thermoleovorans CCB_US3_UF5) 1111068 (Geobacillus thermoleovorans CCB_US3_UF5) 199 199 EEVRHIPVKSIIPNRFQPRTMFDEEKIDELALTIRTHGIIQPIVVRECGNGRFEIIAGERRWRAVQKLGWTEIPAIIKNLNDKETASVALIENLQREELTPIEEAMAYAKLIELHDLTQEALAQRLGKGQSTIANKLRLLKLPQEVQEALLQRAITERHARALIALKDKEKQLKLLQEIIDKQLNVKQTEDRVLKLLEA EEVRHIPVKSIIPNRFQPRTMFDEEKIDELALTIRTHGIIQPIVVRECGNGRFEIIAGERRWRAVQKLGWTEIPAIIKNLNDKETASVALIENLQREELTPIEEAMAYAKLIELHDLTQEALAQRLGKGQSTIANKLRLLKLPQEVQEALLQRAITERHARALIALKDKEKQLKLLQEIIDKQLNVKQTEDRVLKLLEA 7ng1-a1-m1-cB_7ng1-a1-m2-cA Crystal structure of alpha Carbonic anhydrase from Schistoso ma mansoni bound to 1-(4-iodophenyl)-3-[2-(4-sulfamoylphenyl)ethyl]selenourea A0A3Q0KSG2 A0A3Q0KSG2 1.67 X-RAY DIFFRACTION 73 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 277 277 7nwy-a1-m1-cBBB_7nwy-a1-m2-cAAA EWSYTNILTGPETWHEHYKNMCSGYYQSPIDLKTDISTLDLKLKTVIIYRNTSSTETTTIQNNGHSAEVKFPRNTWFISFDGILDYKYEIIQMHFHWGNTDDRGSEHTIDGFRFPLEGHIVSFRRQMYSSPSEAIGRPGGLAVLGIMHQIVESIKYEQTAFKAYNNFSGVLNSQFVPPNNSTIDDINLALLLSLLNPSRYFRYLGSLTTPPCTENVLWTVFIDPVLITREQINLFRNLPYGSNEKQTRMGDNFRPIQLLNPIDTLASRTLYRATARG EWSYTNILTGPETWHEHYKNMCSGYYQSPIDLKTDISTLDLKLKTVIIYRNTSSTETTTIQNNGHSAEVKFPRNTWFISFDGILDYKYEIIQMHFHWGNTDDRGSEHTIDGFRFPLEGHIVSFRRQMYSSPSEAIGRPGGLAVLGIMHQIVESIKYEQTAFKAYNNFSGVLNSQFVPPNNSTIDDINLALLLSLLNPSRYFRYLGSLTTPPCTENVLWTVFIDPVLITREQINLFRNLPYGSNEKQTRMGDNFRPIQLLNPIDTLASRTLYRATARG 7ng9-a1-m1-cB_7ng9-a1-m1-cC Trimeric efflux pump Klebsiella TolC A0A1C3Q001 A0A1C3Q001 3.3 ELECTRON MICROSCOPY 200 1.0 1463165 (Klebsiella quasipneumoniae) 1463165 (Klebsiella quasipneumoniae) 421 421 7ng8-a1-m1-cA_7ng8-a1-m1-cB 7ng8-a1-m1-cA_7ng8-a1-m1-cC 7ng8-a1-m1-cB_7ng8-a1-m1-cC 7ng9-a1-m1-cA_7ng9-a1-m1-cB 7ng9-a1-m1-cA_7ng9-a1-m1-cC ENLLQVYQQARISNPDLRKSAADRDAAFEKINEARSPLLPQLGLGADYTYTSGFRDYKDQNSNVTSGSLQLTQVLFDMSKWRALTLQEKAAGIQDVTYQTDQQTLILNTATAYFKVLAAIDTLSYTEAQKQAIYRQLDQTTQRFNVGLVAITDVQNARSQYDAVLANEVTARNDLDNAVEELRQVTGNYYPELASLNVDGFKTSKPQAVNALLKEAENRNLSLLQARLNQDLAREQIRQAQDGHLPTLDLNASSGVSNNRYSGSKSISQDADIGQNKIGLSFSLPLYQGGMVNSQVKQAQYNFVGASEQLESAHRSVVQTVRSSFNNVNASISSINAYKQAVVSAQSSLDAMEAGYSVGTRTIVDVLDATTTLYNAKQQLSNARYNYLINELNIKSALGTLNEQDLIALNNTLGKPISTSA ENLLQVYQQARISNPDLRKSAADRDAAFEKINEARSPLLPQLGLGADYTYTSGFRDYKDQNSNVTSGSLQLTQVLFDMSKWRALTLQEKAAGIQDVTYQTDQQTLILNTATAYFKVLAAIDTLSYTEAQKQAIYRQLDQTTQRFNVGLVAITDVQNARSQYDAVLANEVTARNDLDNAVEELRQVTGNYYPELASLNVDGFKTSKPQAVNALLKEAENRNLSLLQARLNQDLAREQIRQAQDGHLPTLDLNASSGVSNNRYSGSKSISQDADIGQNKIGLSFSLPLYQGGMVNSQVKQAQYNFVGASEQLESAHRSVVQTVRSSFNNVNASISSINAYKQAVVSAQSSLDAMEAGYSVGTRTIVDVLDATTTLYNAKQQLSNARYNYLINELNIKSALGTLNEQDLIALNNTLGKPISTSA 7nh9-a1-m1-cD_7nh9-a1-m1-cE structure of the full-length CmaX protein G3XD00 G3XD00 3.03 ELECTRON MICROSCOPY 84 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 327 327 7nh9-a1-m1-cA_7nh9-a1-m1-cB 7nh9-a1-m1-cA_7nh9-a1-m1-cE 7nh9-a1-m1-cB_7nh9-a1-m1-cC 7nh9-a1-m1-cC_7nh9-a1-m1-cD ESGDERGLIYGYVLNGRGGGRRVGRNQIAVLDLLPEESLWLHWDRGVPEAQAWLRDSAGLSEFACDLLLEEATRPRLLDLGAESLLVFLRGVNLNPGAEPEDMVSLRVFADARRVISLRLRPLKAVADLLEDLEAGKGPKTASEVVYYLAHYLTDRVDTLISGIADQLDAVEELVEADERASPDQHQLRTLRRRSAGLRRYLAPQRDIYSQLARYKLSWFVEDDADYWNELNNRLTRNLEELELIRERISVLQEAESRRITERMNRTMYLLGIITGFFLPMSFVTGLLGINVGGIPGADAPHGFWLACLLIGGVATFQWWVFRRLRW ESGDERGLIYGYVLNGRGGGRRVGRNQIAVLDLLPEESLWLHWDRGVPEAQAWLRDSAGLSEFACDLLLEEATRPRLLDLGAESLLVFLRGVNLNPGAEPEDMVSLRVFADARRVISLRLRPLKAVADLLEDLEAGKGPKTASEVVYYLAHYLTDRVDTLISGIADQLDAVEELVEADERASPDQHQLRTLRRRSAGLRRYLAPQRDIYSQLARYKLSWFVEDDADYWNELNNRLTRNLEELELIRERISVLQEAESRRITERMNRTMYLLGIITGFFLPMSFVTGLLGINVGGIPGADAPHGFWLACLLIGGVATFQWWVFRRLRW 7nht-a1-m1-cd_7nht-a1-m1-cc Akirin2 bound human proteasome Q53H80 Q53H80 3.2 ELECTRON MICROSCOPY 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 44 48 EEKVREEYEEILNTKLAEQYDAFVKFTHDQIMRRYGEQPASYVS LKEREEKVREEYEEILNTKLAEQYDAFVKFTHDQIMRRYGEQPASYVS 7ni6-a1-m1-cB_7ni6-a1-m1-cA Human ATM kinase with bound ATPyS Q13315 Q13315 2.8 ELECTRON MICROSCOPY 173 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1423 1424 7ni4-a1-m1-cA_7ni4-a1-m1-cB 7ni5-a1-m1-cB_7ni5-a1-m1-cA 7sic-a1-m1-cA_7sic-a1-m1-cB 7sid-a1-m1-cA_7sid-a1-m1-cC HLHVIVGTLIPLVYEQVEVQKQVLDLLKYLVIDNKDNENLYITIKLLDPFPDHVVFKDLRITQQKIKYSRGPFSLLEEINHFLSVSVYDALPLTRLEGLKDLRRQLELHKDQMVDIMRASQDNPQDGIMVKLVVNLLQLSKMAINHTGEKEVLEAVGSCLGEVGPIDFSTIAIQHSKDASYTKALKLFEDKELQWTFIMLTYLNNTLVEDCVKVRSAAVTCLKNILATKTGHSFWEIYKMTTDPMLAYLQPFRTSRKKFLEVPRFDKENPFEGLDDINLWIPLSENHDIWIKTLTCAFLDSGGTKCEILQLLKPMCEVKTDFCQTVLPYLIHDILLQDTNESWRNLLSTHVQGFFTSCLRHHFFRCCLDKKSQRTMLAVVDYMRRQKRPSSGTIFNDAFWLDLNYLEVAKVAQSCAAHFTALLYAEIYADKKSMDDQEKISSLSEKSKEETGISLQDLLLEIYRSIGEPDSLYGCGGGKMLQPITRLRTYEHEAMWGKALVTYDLETAIPSSTRQAGIIQALQNLGLCHILSVYLKGLDYCPELEELHYQAAWRNMQWDHCGTSYHESLYNALQSLRDREFSTFYESLKYARVKEVEEMCKRSLESVYSLYPTLSRLQAIGELESIGELFSRSVTHRQLSEVYIKWQKHSQLLKDSDFSFQEPIMALRTVILEILMEKEMDNSQRECIKDILTKHLVELSILARTFKNTQLPERAIFQIKQYNSVSCGVSEWQLEEAQVFWAKKEQSLALSILKQMIKKLDASCAANNPSLKLTYTECLRVCGNWLAETCLENPAVIMQTYLEKAVEVASDELRNGKMKAFLSLARFSDTQYQRIENYMKSSEFENKQALLKRQRELELDELALRALKEDRKRFLCKAVENYINCLLSGEEHDMWVFRLCSLWLENSGVSEVNGMMKRDGMKIPTYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLISRISMDHPHHTLFIILALANANRDEFLTSQLDEDRTEAANRIICTIRSRRPQMVRSVEALCDAYIILANLDATQWKTQRKGINIPADQPITKLKNLEDVVVPTMEIKVDHTGEYGNLVTIQSFKAEFRLAGGVNLPKIIDCVGSDGKERRQLVKGRDDLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEFLVNNEDGAHKRYRPNDFSAFQCQKKMMEVQKKSFEEKYEVFMDVCQNFQPVFRYFCMEKFLDPAIWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMEVMRNSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQQSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAIDPKNLSRLFPGWKAWV HLHVIVGTLIPLVYEQVEVQKQVLDLLKYLVIDNKDNENLYITIKLLDPFPDHVVFKDLRITQQKIKYSRGPFSLLEEINHFLSVSVYDALPLTRLEGLKDLRRQLELHKDQMVDIMRASQDNPQDGIMVKLVVNLLQLSKMAINHTGEKEVLEAVGSCLGEVGPIDFSTIAIQHSKDASYTKALKLFEDKELQWTFIMLTYLNNTLVEDCVKVRSAAVTCLKNILATKTGHSFWEIYKMTTDPMLAYLQPFRTSRKKFLEVPRFDKENPFEGLDDINLWIPLSENHDIWIKTLTCAFLDSGGTKCEILQLLKPMCEVKTDFCQTVLPYLIHDILLQDTNESWRNLLSTHVQGFFTSCLRHHFFRCCLDKKSQRTMLAVVDYMRRQKRPSSGTIFNDAFWLDLNYLEVAKVAQSCAAHFTALLYAEIYADKKSMDDQEKISSLSEKSKEETGISLQDLLLEIYRSIGEPDSLYGCGGGKMLQPITRLRTYEHEAMWGKALVTYDLETAIPSSTRQAGIIQALQNLGLCHILSVYLKGLDYCPELEELHYQAAWRNMQWDHCGTSYHESLYNALQSLRDREFSTFYESLKYARVKEVEEMCKRSLESVYSLYPTLSRLQAIGELESIGELFSRSVTHRQLSEVYIKWQKHSQLLKDSDFSFQEPIMALRTVILEILMEKEMDNSQRECIKDILTKHLVELSILARTFKNTQLPERAIFQIKQYNSVSCGVSEWQLEEAQVFWAKKEQSLALSILKQMIKKLDASCAANNPSLKLTYTECLRVCGNWLAETCLENPAVIMQTYLEKAVEVASDELRNGKMKAFLSLARFSDTQYQRIENYMKSSEFENKQALLKRQRELELDELALRALKEDRKRFLCKAVENYINCLLSGEEHDMWVFRLCSLWLENSGVSEVNGMMKRDGMKIPTYKFLPLMYQLAARMGTKMMGGLGFHEVLNNLISRISMDHPHHTLFIILALANANRDEFLTKSQLDEDRTEAANRIICTIRSRRPQMVRSVEALCDAYIILANLDATQWKTQRKGINIPADQPITKLKNLEDVVVPTMEIKVDHTGEYGNLVTIQSFKAEFRLAGGVNLPKIIDCVGSDGKERRQLVKGRDDLRQDAVMQQVFQMCNTLLQRNTETRKRKLTICTYKVVPLSQRSGVLEWCTGTVPIGEFLVNNEDGAHKRYRPNDFSAFQCQKKMMEVQKKSFEEKYEVFMDVCQNFQPVFRYFCMEKFLDPAIWFEKRLAYTRSVATSSIVGYILGLGDRHVQNILINEQSAELVHIDLGVAFEQGKILPTPETVPFRLTRDIVDGMGITGVEGVFRRCCEKTMEVMRNSQETLLTIVEVLLYDPLFDWTMNPLKALYLQQQSFNKVAERVLMRLQEKLKGVEEGTVLSVGGQVNLLIQQAIDPKNLSRLFPGWKAWV 7nie-a1-m1-cO_7nie-a1-m1-cP putative glycerol kinase-like proteins anchored on an array of voltage dependent anion channels in the outer mitochondrial membrane of pig sperm mitochondria A0A287BD08 A0A287BD08 35.0 ELECTRON MICROSCOPY 113 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 487 487 7nie-a1-m1-cA_7nie-a1-m1-cB MAASKKAVLGPLVGAVDQGTSSTRFLVFNSKTAELLSHHQVEIEQKFPKEGWVEQDPKEILQSVYECIEKTCEKLGQLNIDISNIKAIGVSNQRETTVVWDKLTGEPLYNAVVWLDLRTQSTVANLSKIIPVNNNFVKTKTGLPLSTYFSAVKLRWLLDNVRKIQKAVEEDRALFGTIDSWLIWSLTGGARGGVHCTDVTNASRTMLFNIHSLEWDKELCEFFEVPMKILPNVRSSSEIYGLMKAGALEGVPISGCLGDQSAALVGQMCFQDGQAKNTYGTGCFLLCNTGHKCSVAIAGAVVRWLRDNLGIIKTSEEIEKLAKEVGTSYGCYFVPAFSGLYAPYWEPSARGIICGLTQFTNKCHIAFAALEAVCFQTREILDAMNRDCGIPLSHLQVDGGMTNNKILMQLQADILYIPVVKPSMPETTALGAAMAAGAAEGVGVWSLKPEDLSAVTMERFEPQINAKESEIRYSTWKKAVKKSMGWV MAASKKAVLGPLVGAVDQGTSSTRFLVFNSKTAELLSHHQVEIEQKFPKEGWVEQDPKEILQSVYECIEKTCEKLGQLNIDISNIKAIGVSNQRETTVVWDKLTGEPLYNAVVWLDLRTQSTVANLSKIIPVNNNFVKTKTGLPLSTYFSAVKLRWLLDNVRKIQKAVEEDRALFGTIDSWLIWSLTGGARGGVHCTDVTNASRTMLFNIHSLEWDKELCEFFEVPMKILPNVRSSSEIYGLMKAGALEGVPISGCLGDQSAALVGQMCFQDGQAKNTYGTGCFLLCNTGHKCSVAIAGAVVRWLRDNLGIIKTSEEIEKLAKEVGTSYGCYFVPAFSGLYAPYWEPSARGIICGLTQFTNKCHIAFAALEAVCFQTREILDAMNRDCGIPLSHLQVDGGMTNNKILMQLQADILYIPVVKPSMPETTALGAAMAAGAAEGVGVWSLKPEDLSAVTMERFEPQINAKESEIRYSTWKKAVKKSMGWV 7nio-a1-m1-cE_7nio-a1-m1-cA Crystal structure of the SARS-CoV-2 helicase APO form P0DTD1 P0DTD1 2.2 X-RAY DIFFRACTION 52 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 585 590 VGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPAVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSLEIP MAVGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPARARVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSLEIP 7nkg-a2-m1-cG_7nkg-a2-m1-cJ Methyl-coenzyme M reductase from Methermicoccus shengliensis at 1.6-A resolution 1.6 X-RAY DIFFRACTION 356 1.0 1122233 (Methermicoccus shengliensis DSM 18856) 1122233 (Methermicoccus shengliensis DSM 18856) 559 560 7nkg-a1-m1-cA_7nkg-a1-m1-cD EQLFKKALEIKFTQEWGENKATEVSTDITSKKAKYLRLGTAQSPRKREFEQYGKEIAAKRGLPGYDPKLHLGGIPLGQRQITPYVVSSTDTLCDGDDLHFVNNAAMQQMWDDIRRTVIVGMDLAHETLEKRLGKEVTPETINHYLEVLNHAMPGAAVVQEMMVETHPGLVDDCYVKVFTGDDELADEIDKRFLIDIDKQFGEEKAAQIKAAIGKTTWQAVHVPTIVVRTCDGATTSRWTAMQIGMSFIAAYRMCAGEAAVADLAYAAKAALVGMGDMLPARARGPNEPGGLQFGYLADIVQADRVTDDKVKASLEVVAAGAMLYDQIWLGSYMSGGVGFTQYATAAYTNNILDDFSYYGYEYAVDKYGGPAQAPATLETVKDIATETAIYAIEQYEYFPTLLEDQFGGSQRAAVVAAAAGIATGLATGNSQAGLSGWYLAQYLLKEAEGRLGFFYDLQDQCGAANVFSYQSDEGLPLELRGPNYPNYAMNVGHQGEYAGIASSGHIGRGDAFVVNPLVKVAFADPLLNFDFTQVRKEFAKGAVREFDRCAGERALILPA REQLFKKALEIKFTQEWGENKATEVSTDITSKKAKYLRLGTAQSPRKREFEQYGKEIAAKRGLPGYDPKLHLGGIPLGQRQITPYVVSSTDTLCDGDDLHFVNNAAMQQMWDDIRRTVIVGMDLAHETLEKRLGKEVTPETINHYLEVLNHAMPGAAVVQEMMVETHPGLVDDCYVKVFTGDDELADEIDKRFLIDIDKQFGEEKAAQIKAAIGKTTWQAVHVPTIVVRTCDGATTSRWTAMQIGMSFIAAYRMCAGEAAVADLAYAAKAALVGMGDMLPARARGPNEPGGLQFGYLADIVQADRVTDDKVKASLEVVAAGAMLYDQIWLGSYMSGGVGFTQYATAAYTNNILDDFSYYGYEYAVDKYGGPAQAPATLETVKDIATETAIYAIEQYEYFPTLLEDQFGGSQRAAVVAAAAGIATGLATGNSQAGLSGWYLAQYLLKEAEGRLGFFYDLQDQCGAANVFSYQSDEGLPLELRGPNYPNYAMNVGHQGEYAGIASSGHIGRGDAFVVNPLVKVAFADPLLNFDFTQVRKEFAKGAVREFDRCAGERALILPA 7nkg-a2-m1-cH_7nkg-a2-m1-cK Methyl-coenzyme M reductase from Methermicoccus shengliensis at 1.6-A resolution 1.6 X-RAY DIFFRACTION 180 1.0 1122233 (Methermicoccus shengliensis DSM 18856) 1122233 (Methermicoccus shengliensis DSM 18856) 432 432 7nkg-a1-m1-cB_7nkg-a1-m1-cE SDKVDIYSDRGKLLASDVDIMDLAPTRNRAIRTIIHDTKRTAAVNLGGIEKALANGRIGKVKKIPGKEMKLDIVANAERLAERVKELVQVNEGDDTTVEVLAGGKFLKVQVPSARLESGAEYVSSITASAAAITQAIIELFDVGIFDACMVKAAVWGDYPQTIGLNGGNVSSILEIPQKDEGLGFTLRNIMANHIAAITQRNAMNAAALSSILEQCGEFEMGNAIGMFERHQLLGLAYQGLNANNIVYETVKEQGKSGTIGTVVHSIVERALEDGVISVDKVAPSGYKFYKANDVMLWNAYAAAGSLAATMVNCGAARAAQCVSSTLLYFNDLLEKETGLPGCDYGKVQGTAVGFSFFSHSIYGGGGPGVFNGNHIVTRHSRGFAIPCVAAAVALDAGTQMFSPEMTSAVVGTVYGSIPEFREPIKTVAASL SDKVDIYSDRGKLLASDVDIMDLAPTRNRAIRTIIHDTKRTAAVNLGGIEKALANGRIGKVKKIPGKEMKLDIVANAERLAERVKELVQVNEGDDTTVEVLAGGKFLKVQVPSARLESGAEYVSSITASAAAITQAIIELFDVGIFDACMVKAAVWGDYPQTIGLNGGNVSSILEIPQKDEGLGFTLRNIMANHIAAITQRNAMNAAALSSILEQCGEFEMGNAIGMFERHQLLGLAYQGLNANNIVYETVKEQGKSGTIGTVVHSIVERALEDGVISVDKVAPSGYKFYKANDVMLWNAYAAAGSLAATMVNCGAARAAQCVSSTLLYFNDLLEKETGLPGCDYGKVQGTAVGFSFFSHSIYGGGGPGVFNGNHIVTRHSRGFAIPCVAAAVALDAGTQMFSPEMTSAVVGTVYGSIPEFREPIKTVAASL 7nl4-a2-m1-cF_7nl4-a2-m1-cH OsNIP2;1 silicon transporter from rice Q6Z2T3 Q6Z2T3 3 X-RAY DIFFRACTION 114 1.0 39947 (Oryza sativa Japonica Group) 39947 (Oryza sativa Japonica Group) 216 216 7cjs-a1-m1-cA_7cjs-a1-m1-cB 7cjs-a1-m1-cA_7cjs-a1-m1-cD 7cjs-a1-m1-cC_7cjs-a1-m1-cB 7cjs-a1-m1-cC_7cjs-a1-m1-cD 7cjs-a2-m1-cE_7cjs-a2-m1-cF 7cjs-a2-m1-cE_7cjs-a2-m1-cH 7cjs-a2-m1-cG_7cjs-a2-m1-cF 7cjs-a2-m1-cG_7cjs-a2-m1-cH 7nl4-a1-m1-cA_7nl4-a1-m1-cD 7nl4-a1-m1-cB_7nl4-a1-m1-cD 7nl4-a1-m1-cC_7nl4-a1-m1-cA 7nl4-a1-m1-cC_7nl4-a1-m1-cB 7nl4-a2-m1-cE_7nl4-a2-m1-cG 7nl4-a2-m1-cE_7nl4-a2-m1-cH 7nl4-a2-m1-cF_7nl4-a2-m1-cG PHLLKKVVSEVVATFLLVFMTCGAAGISGSDLSRISQLGQSIAGGLIVTVMIYAVGHISGAHMNPAVTLAFAVFRHFPWIQVPFYWAAQFTGAICASFVLKAVIHPVDVIGTTTPVGPHWHSLVVEVIVTFNMMFVTLAVATDTRAVGELAGLAVGSAVCITSIFAGAISGGSMNPARTLGPALASNKFDGLWIYFLGPVMGTLSGAWTYTFIRFE PHLLKKVVSEVVATFLLVFMTCGAAGISGSDLSRISQLGQSIAGGLIVTVMIYAVGHISGAHMNPAVTLAFAVFRHFPWIQVPFYWAAQFTGAICASFVLKAVIHPVDVIGTTTPVGPHWHSLVVEVIVTFNMMFVTLAVATDTRAVGELAGLAVGSAVCITSIFAGAISGGSMNPARTLGPALASNKFDGLWIYFLGPVMGTLSGAWTYTFIRFE 7nl8-a1-m2-cA_7nl8-a1-m1-cB Crystal structure of a shortened IpgC variant in complex with 3-methylbenzohydrazide P0A2U4 P0A2U4 1.59 X-RAY DIFFRACTION 34 0.992 623 (Shigella flexneri) 623 (Shigella flexneri) 129 142 ATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAIQ GSISTAVIDAINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAI 7nlh-a1-m1-cA_7nlh-a1-m1-cB S. cerevisiae Ty1 p22 restriction factor, Gag CA-CTD, AUG1 variant P08405 P08405 2.8 X-RAY DIFFRACTION 49 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 90 91 7nlg-a1-m1-cA_7nlg-a1-m1-cB 7nlg-a2-m1-cC_7nlg-a2-m2-cC 7nlh-a2-m1-cC_7nlh-a2-m2-cC 7nli-a1-m1-cA_7nli-a1-m1-cB 7nli-a2-m1-cC_7nli-a2-m2-cC SDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQ SDTQEANDIVTLANLQYNGSTPADAFETKVTNIIDRLNNNGIHINNKVACQLIMRGLSGEYKFLRYTRHRHLNMTVAELFLDIHAIYEEQQ 7nmu-a1-m1-cAAA_7nmu-a1-m1-cBBB Crystal structure of human platelet glycoprotein VI in complex with an inhibitory nanobody. Q9HCN6 Q9HCN6 2.5 X-RAY DIFFRACTION 368 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 174 178 LPKPSLQALPSSLVPLEKPVTLRCQGPPGVDLYRLEKLSSSRYQDQAVLFIPAMKRSLAGRYRCSYQQGSLWSLPSDQLELVATGVFAKPSLSAQPGPAVSSGGDVTLQCQTRYGFDQFALYKEGDPAPYASFPIITVTAAHSGTYRCYSFSSRDPYLWSAPSDPLELVVTGDP SGPLPKPSLQALPSSLVPLEKPVTLRCQGPPGVDLYRLEKLSSSRYQDQAVLFIPAMKRSLAGRYRCSYQQGSLWSLPSDQLELVATGVFAKPSLSAQPGPAVSSGGDVTLQCQTRYGFDQFALYKEGDPAPYASFPIITVTAAHSGTYRCYSFSSRDPYLWSAPSDPLELVVTGDPI 7nn4-a2-m1-cC_7nn4-a2-m1-cD Crystal structure of Mycobacterium tuberculosis ArgD with prosthetic group pyridoxal 5'-phosphate and 3-hydroxy-2-naphthoic acid. P9WPZ7 P9WPZ7 1.47 X-RAY DIFFRACTION 334 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 390 390 7nn1-a1-m1-cA_7nn1-a1-m1-cB 7nn1-a2-m1-cC_7nn1-a2-m1-cD 7nn4-a1-m1-cA_7nn4-a1-m1-cB 7nnc-a1-m1-cA_7nnc-a1-m1-cB 7nnc-a2-m1-cC_7nnc-a2-m1-cD TTATMRQRWQAVMMNNYGTPPIALASGDGAVVTDVDGRTYIDLLGGIAVNVLGHRHPAVIEAVTRQMSTLGHTSNLYATEPGIALAEELVALLGADQRTRVFFCNSGAEANEAAFKLSRLTGRTKLVAAHDAFHGRTMGSLALTGQPAKQTPFAPLPGDVTHVGYGDVDALAAAVDDHTAAVFLEPIMGESGVVVPPAGYLAAARDITARRGALLVLDEVQTGMGRTGAFFAHQHDGITPDVVTLAGLGGGLPIGACLAVGPAAELLTPGLHGSTFGGNPVCAAAALAVLRVLASDGLVRRAEVLGKSLRHGIEALGHPLIDHVRGRGLLLGIALTAPHAKDAEATARDAGYLVNAAAPDVIRLAPPLIIAEAQLDGFVAALPAILDRAV TTATMRQRWQAVMMNNYGTPPIALASGDGAVVTDVDGRTYIDLLGGIAVNVLGHRHPAVIEAVTRQMSTLGHTSNLYATEPGIALAEELVALLGADQRTRVFFCNSGAEANEAAFKLSRLTGRTKLVAAHDAFHGRTMGSLALTGQPAKQTPFAPLPGDVTHVGYGDVDALAAAVDDHTAAVFLEPIMGESGVVVPPAGYLAAARDITARRGALLVLDEVQTGMGRTGAFFAHQHDGITPDVVTLAGLGGGLPIGACLAVGPAAELLTPGLHGSTFGGNPVCAAAALAVLRVLASDGLVRRAEVLGKSLRHGIEALGHPLIDHVRGRGLLLGIALTAPHAKDAEATARDAGYLVNAAAPDVIRLAPPLIIAEAQLDGFVAALPAILDRAV 7nnq-a1-m1-cB_7nnq-a1-m1-cC Crystal structure of Mycobacterium tuberculosis ArgC in complex with nicotinamide adenine dinucleotide phosphate (NADP+) P9WPZ9 P9WPZ9 1.73 X-RAY DIFFRACTION 93 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 344 344 2i3a-a3-m1-cA_2i3a-a3-m1-cB 2i3a-a3-m1-cC_2i3a-a3-m1-cD 2i3g-a3-m1-cB_2i3g-a3-m2-cA 2i3g-a3-m2-cB_2i3g-a3-m1-cA 2nqt-a2-m1-cB_2nqt-a2-m2-cA 2nqt-a2-m2-cB_2nqt-a2-m1-cA 7nni-a1-m1-cA_7nni-a1-m1-cB 7nni-a1-m2-cA_7nni-a1-m2-cB 7nnq-a1-m1-cA_7nnq-a1-m1-cD 7nnr-a1-m1-cA_7nnr-a1-m1-cB 7nnr-a1-m2-cA_7nnr-a1-m2-cB 7not-a1-m1-cA_7not-a1-m1-cB 7not-a1-m1-cC_7not-a1-m1-cD 7not-a2-m1-cE_7not-a2-m1-cF 7not-a2-m1-cG_7not-a2-m1-cH 7nph-a1-m1-cA_7nph-a1-m1-cB 7nph-a1-m1-cC_7nph-a1-m1-cD 7nph-a2-m1-cE_7nph-a2-m1-cF 7nph-a2-m1-cG_7nph-a2-m1-cH 7npj-a1-m1-cA_7npj-a1-m1-cB 7npj-a1-m1-cC_7npj-a1-m1-cD 7npj-a2-m1-cE_7npj-a2-m1-cF 7npj-a2-m1-cG_7npj-a2-m1-cH ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP 7not-a1-m1-cA_7not-a1-m1-cC Crystal structure of Mycobacterium tuberculosis ArgC in complex with nicotinamide adenine dinucleotide phosphate (NADP+) and 5-Methoxy-3-indoleacetic acid P9WPZ9 P9WPZ9 2.54 X-RAY DIFFRACTION 68 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 344 344 2i3a-a3-m1-cA_2i3a-a3-m1-cC 2i3a-a3-m1-cB_2i3a-a3-m1-cD 2i3a-a4-m1-cA_2i3a-a4-m1-cC 2i3a-a4-m2-cB_2i3a-a4-m2-cD 2i3g-a3-m1-cA_2i3g-a3-m2-cA 2i3g-a3-m1-cB_2i3g-a3-m2-cB 2nqt-a2-m1-cA_2nqt-a2-m2-cA 2nqt-a2-m1-cB_2nqt-a2-m2-cB 7nni-a1-m1-cA_7nni-a1-m2-cA 7nni-a1-m1-cB_7nni-a1-m2-cB 7nnq-a1-m1-cA_7nnq-a1-m1-cC 7nnq-a1-m1-cB_7nnq-a1-m1-cD 7nnr-a1-m1-cA_7nnr-a1-m2-cA 7nnr-a1-m1-cB_7nnr-a1-m2-cB 7not-a1-m1-cB_7not-a1-m1-cD 7not-a2-m1-cE_7not-a2-m1-cG 7not-a2-m1-cF_7not-a2-m1-cH 7nph-a1-m1-cA_7nph-a1-m1-cC 7nph-a1-m1-cB_7nph-a1-m1-cD 7nph-a2-m1-cE_7nph-a2-m1-cG 7nph-a2-m1-cF_7nph-a2-m1-cH 7npj-a1-m1-cA_7npj-a1-m1-cC 7npj-a1-m1-cB_7npj-a1-m1-cD 7npj-a2-m1-cE_7npj-a2-m1-cG 7npj-a2-m1-cF_7npj-a2-m1-cH ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP ATKVAVAGASGYAGGEILRLLLGHPAYADGRLRIGALTAATSAGSTLGEHHPHLTPLAHRVVEPTEAAVLGGHDAVFLALPHGHSAVLAQQLSPETLIIDCGADFRLTDAAVWERFYGSSHAGSWPYGLPELPGARDQLRGTRRIAVPGCYPTAALLALFPALAADLIEPAVTVVAVSGTSGAGRAATTDLLGAEVIGSARAYNIAGVHRHTPEIAQGLRAVTDRDVSVSFTPVLIPASRGILATCTARTRSPLSQLRAAYEKAYHAEPFIYLMPEGQLPRTGAVIGSNAAHIAVAVDEDAQTFVAIAAIDNLVKGTAGAAVQSMNLALGWPETDGLSVVGVAP 7nox-a1-m1-cA_7nox-a1-m1-cB Structure of SGBP BO2743 from Bacteroides ovatus in complex with mixed-linked gluco-nonasaccharide A7LY27 A7LY27 1.43 X-RAY DIFFRACTION 30 0.998 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 520 520 IDPNAQLTTAQLQTYGDLSMMEIYRNYHYAFTQQLMGCWNTTNYGGRHTLDNNEMSRIWTSFYTQSLKNIIDAQYRTAEDAEKVNINSVLRIYRVYLMSIITDTYGDAPFSEAGLGFLEGKFNPKYDKQEDIYNAFFLELEDAVNKIDPTKDKVTGDLIYAGDVTKWQQLANSLRLRFAMRISSVNPTKAQTEFENALAANGGVITDASSDALIKYMTIAFSFGQEAYSDYRGNSLSQLLFGNDPANNPSYLCSTFFNQLYNSGDPRTFKISRCYYDGLMSATSPDNRVDITQEMIEKGIAFSPRDPGAYSWEPWPTGYDSDICAELAVNNPSVTATMAREVEPKLANNFLKSDNPGVVMTSAEVKFLMAEATVKKWNVGSVSAEDLYKQGVRAAIDFLTDNYGCTATTDAEFDAFIQDKGAFGHTDNQKLEAINTQAWILHFTNPAECWANVRRSGYPKLKSPAEYGFGQYLTGGTEIPVRLCYPVLESSYNKKSYNEAIERMGGTDNWHSLLWWDTEN DPNAQLTTAQLQTYGDLSMMEIYRNYHYAFTQQLMGCWNTTNYGGRHTLDNNEMSRIWTSFYTQSLKNIIDAQYRTAEDAEKVNINSVLRIYRVYLMSIITDTYGDAPFSEAGLGFLEGKFNPKYDKQEDIYNAFFLELEDAVNKIDPTKDKVTGDLIYAGDVTKWQQLANSLRLRFAMRISSVNPTKAQTEFENALAANGGVITDASSDALIKYMTIAFSFGQEAYSDYRGNSLSQLLFGNDPANNPSYLCSTFFNQLYNSGDPRTFKISRCYYDGLMSATSPDNRVDITQEMIEKGIAFSPRDPGAYSWEPWPTGYDSDICAELAVNNPSVTATMAREVEPKLANNFLKSDNPGVVMTSAEVKFLMAEATVKKWNVGSVSAEDLYKQGVRAAIDFLTDNYGCTATTDAEFDAFIQDKGAFGHTDNQKLEAINTQAWILHFTNPAECWANVRRSGYPKLKSPAEYGFGQYLTGGTEIPVRLCYPVLESSYNKKSYNEAIERMGGTDNWHSLLWWDTENQ 7npe-a2-m1-cC_7npe-a2-m1-cD Vibrio cholerae ParA2-ADP Q9KKJ2 Q9KKJ2 3.18 X-RAY DIFFRACTION 195 0.995 666 (Vibrio cholerae) 666 (Vibrio cholerae) 400 402 7npd-a1-m1-cA_7npd-a1-m2-cA 7npe-a1-m1-cA_7npe-a1-m1-cB 7npf-a1-m1-cB_7npf-a1-m1-cA 7npf-a1-m1-cD_7npf-a1-m1-cC 7npf-a1-m1-cF_7npf-a1-m1-cE 7npf-a1-m1-cH_7npf-a1-m1-cG MKREQTIENLYQLAQLTQQVQADRIEIVLEERRDEHFPPMSKALMETRSGLTRRKLDEAIAKMEEAGHQFTKNNANHYSISLSEAHMLMDAAGVPKFHERKKNNENKPWIINVQNQKGGTGKSMTAVHLAACLALNLDKRYRICLIDLDPQGSLRLFLNPQISEHTNIYSAVDIMLDNVPDGVQVDTEFLRKNVMLPTQYPNLKTISAFPEDAMFNAEAWQYLSQNQSLDIVRLLKEKLIDKIASDFDIIMIDTGPHVDPLVWNAMYASNALLIPCAAKRLDWASTVNFFQHLPTVYEMFPEDWKGLEFVRLMPTMFEDDNKKQVSVLTEMNYLLGDQVMMATIPRSRAFETCADTYSTVFDLTVNDFGKKTLATAQDAVQKSALELERVLHSHWSSLNQ MKREQTIENLYQLAQLTQQVQADRIEIVLEERRDEHFPPMSKALMETRSGLTRRKLDEAIAKMEEAHQFTKNNANHYSISLSEAHMLMDAAGVPKFHERKKNNENKPWIINVQNQKGGTGKSMTAVHLAACLALNLDKRYRICLIDLDPQGSLRLFLNPQISLAEHTNIYSAVDIMLDNVPDGVQVDTEFLRKNVMLPTQYPNLKTISAFPEDAMFNAEAWQYLSQNQSLDIVRLLKEKLIDKIASDFDIIMIDTGPHVDPLVWNAMYASNALLIPCAAKRLDWASTVNFFQHLPTVYEMFPEDWGLEFVRLMPTMFEDDNKKQVSVLTEMNYLLGDQVMMATIPRSRAFETCADTYSTVFDLTVNDFGGKKTLATAQDAVQKSALELERVLHSHWSSLNQG 7npf-a1-m1-cF_7npf-a1-m1-cG Vibrio cholerae ParA2-ATPyS-DNA filament Q9KKJ2 Q9KKJ2 4.5 ELECTRON MICROSCOPY 60 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 402 404 7npf-a1-m1-cB_7npf-a1-m1-cC 7npf-a1-m1-cD_7npf-a1-m1-cE KREQTIENLYQLAQLTQQVQADRIEIVLEERRDEHFPPMSKALMETRSGLTRRKLDEAIAKMEEAGHQFTKNNANHYSISLSEAHMLMDAAGVPKFHERKKNNENKPWIINVQNQKGGTGKSMTAVHLAACLALNLDKRYRICLIDLDPQGSLRLFLNPQISLAEHTNIYSAVDIMLDNVPDGVQVDTEFLRKNVMLPTQYPNLKTISAFPEDAMFNAEAWQYLSQNQSLDIVRLLKEKLIDKIASDFDIIMIDTGPHVDPLVWNAMYASNALLIPCAAKRLDWASTVNFFQHLPTVYEMFPEDWKGLEFVRLMPTMFEDDNKKQVSVLTEMNYLLGDQVMMATIPRSRAFETCADTYSTVFDLTVNDFGKKTLATAQDAVQKSALELERVLHSHWSSLNQG KREQTIENLYQLAQLTQQVQADRIEIVLEERRDEHFPPMSKALMETRSGLTRRKLDEAIAKMEEAGHQFTKNNANHYSISLSEAHMLMDAAGVPKFHERKKNNENKPWIINVQNQKGGTGKSMTAVHLAACLALNLDKRYRICLIDLDPQGSLRLFLNPQISLAEHTNIYSAVDIMLDNVPDGVQVDTEFLRKNVMLPTQYPNLKTISAFPEDAMFNAEAWQYLSQNQSLDIVRLLKEKLIDKIASDFDIIMIDTGPHVDPLVWNAMYASNALLIPCAAKRLDWASTVNFFQHLPTVYEMFPEDWKGLEFVRLMPTMFEDDNKKQVSVLTEMNYLLGDQVMMATIPRSRAFETCADTYSTVFDLTVNDFEGGKKTLATAQDAVQKSALELERVLHSHWSSLNQG 7npq-a1-m1-cA_7npq-a1-m1-cB Crystal structure of the human LL37(17-29) I24C mutant antimicrobial peptide P49913 P49913 1.5 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 13 13 FKRIVQRCKDFLR FKRIVQRCKDFLR 7nps-a1-m1-cP2_7nps-a1-m1-cP3 Structure of the periplasmic assembly from the ESX-5 inner membrane complex, C1 model O53945 O53945 3.81 ELECTRON MICROSCOPY 13 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 414 414 7np7-a1-m1-cP1_7np7-a1-m1-cP2 7np7-a1-m1-cP1_7np7-a1-m1-cP3 7np7-a1-m1-cP2_7np7-a1-m1-cP3 7npr-a1-m1-cP1_7npr-a1-m1-cP2 7npr-a1-m1-cP1_7npr-a1-m1-cP3 7npr-a1-m1-cP2_7npr-a1-m1-cP3 7nps-a1-m1-cP1_7nps-a1-m1-cP2 7nps-a1-m1-cP1_7nps-a1-m1-cP3 ISPPTIDPGALPPDGPPGPLAPMKQNAYCTEVGVLPGTDFQLQPKYMEMLNLNEAWQFGRGDGVKVAVIDTGVTPHPRLPRLIPGGDYVMAGGDGLSDCDAHGTLVASMIAAVPANGAVPLPSVPRRPVTIPPDAFSGIAPGVEIISIRQSSQAFGLKDPYTGDEDPQTAQKIDNVETMARAIVHAANMGASVINISDVMCMSARNVIDQRALGAAVHYAAVDKDAVIVAAAGDGSKKDCKQNPIFDPLQPDDPRAWNAVTTVVTPSWFHDYVLTVGAVDANGQPLSKMSIAGPWVSISAPGTDVVGLSPRDDGLINAIDGPDNSLLVPAGTSFSAAIVSGVAALVRAKFPELSAYQIINRLIHTARPPARGVDNQVGYGVVDPVAALTWDVPKGPAEPPKQLSAPLVVPQPPA ISPPTIDPGALPPDGPPGPLAPMKQNAYCTEVGVLPGTDFQLQPKYMEMLNLNEAWQFGRGDGVKVAVIDTGVTPHPRLPRLIPGGDYVMAGGDGLSDCDAHGTLVASMIAAVPANGAVPLPSVPRRPVTIPPDAFSGIAPGVEIISIRQSSQAFGLKDPYTGDEDPQTAQKIDNVETMARAIVHAANMGASVINISDVMCMSARNVIDQRALGAAVHYAAVDKDAVIVAAAGDGSKKDCKQNPIFDPLQPDDPRAWNAVTTVVTPSWFHDYVLTVGAVDANGQPLSKMSIAGPWVSISAPGTDVVGLSPRDDGLINAIDGPDNSLLVPAGTSFSAAIVSGVAALVRAKFPELSAYQIINRLIHTARPPARGVDNQVGYGVVDPVAALTWDVPKGPAEPPKQLSAPLVVPQPPA 7npw-a1-m1-cB_7npw-a1-m1-cC Cryo-EM structure of Human excitatory amino acid transporters-1 (EAAT1) in potassium buffer P43003 P43003 3.99 ELECTRON MICROSCOPY 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 426 426 7npw-a1-m1-cA_7npw-a1-m1-cB 7npw-a1-m1-cA_7npw-a1-m1-cC AKKKVQNITKEDVKSYLFRNAFVLLTVTAVIVGTILGFTLRPYRMSYREVKYFSFPGELLMRMLQMLVLPLIISSLVTGMAALDSKASGKMGMRAVVYYMTTTIIAVVIGIIIVIIIHPGKRVTAADAFLDLIRNMFPPNLVEACFKQFKTNYEKRSFITEELVPVPGSVNGVNALGLVVFSMCFGFVIGNMKEQGQALREFFDSLNEAIMRLVAVIMWYAPVGILFLIAGKIVEMEDMGVIGGQLAMYTVTVIVGLLIHAVIVLPLLYFLVTRKNPWVFIGGLLQALITALGTSSSSATLPITFKCLEENNGVDKRVTRFVLPVGATIGTALYEALAAIFIAQVNNFELNFGQIITISITATAASIGAAGIPQAGLVTMVIVLTSVGLPTDDITLIIAVDWFLDRLRTTTNVLGDSLGAGIVEHL AKKKVQNITKEDVKSYLFRNAFVLLTVTAVIVGTILGFTLRPYRMSYREVKYFSFPGELLMRMLQMLVLPLIISSLVTGMAALDSKASGKMGMRAVVYYMTTTIIAVVIGIIIVIIIHPGKRVTAADAFLDLIRNMFPPNLVEACFKQFKTNYEKRSFITEELVPVPGSVNGVNALGLVVFSMCFGFVIGNMKEQGQALREFFDSLNEAIMRLVAVIMWYAPVGILFLIAGKIVEMEDMGVIGGQLAMYTVTVIVGLLIHAVIVLPLLYFLVTRKNPWVFIGGLLQALITALGTSSSSATLPITFKCLEENNGVDKRVTRFVLPVGATIGTALYEALAAIFIAQVNNFELNFGQIITISITATAASIGAAGIPQAGLVTMVIVLTSVGLPTDDITLIIAVDWFLDRLRTTTNVLGDSLGAGIVEHL 7nrz-a4-m1-cG_7nrz-a4-m1-cH Crystal structure of malate dehydrogenase from Trypanosoma cruzi Q4DRD8 Q4DRD8 2.6 X-RAY DIFFRACTION 127 1.0 353153 (Trypanosoma cruzi strain CL Brener) 353153 (Trypanosoma cruzi strain CL Brener) 323 323 7nrz-a1-m1-cA_7nrz-a1-m1-cB 7nrz-a2-m1-cC_7nrz-a2-m1-cD 7nrz-a3-m1-cE_7nrz-a3-m1-cF MVNVAVIGAAGGIGQSLSLLLLRELPFGSTLSLYDVVGAPGVAADLSHIDRAGITVKHAAGKLPPVPRDPALTELAEGVDVFVIVAGVPRKPGMTRDDLFNVNAGIVMDLVLTCASVSPNACFCIVTNPVNSTTPIAAQTLRKIGVYNKNKLLGVSLLDGLRATRFINNARHPLVVPYVPVVGGHSDVTIVPLYSQIPGPLPDESTLKEIRKRVQVAGTEVVKAKAGRGSATLSMAEAGARFTMHVVKALMGLDTPMVYAYVDTDGEHECPFLAMPVVLGKNGIERRLPIGPITTVEKEMLEEAVGVVKKNIAKGETFARSKL MVNVAVIGAAGGIGQSLSLLLLRELPFGSTLSLYDVVGAPGVAADLSHIDRAGITVKHAAGKLPPVPRDPALTELAEGVDVFVIVAGVPRKPGMTRDDLFNVNAGIVMDLVLTCASVSPNACFCIVTNPVNSTTPIAAQTLRKIGVYNKNKLLGVSLLDGLRATRFINNARHPLVVPYVPVVGGHSDVTIVPLYSQIPGPLPDESTLKEIRKRVQVAGTEVVKAKAGRGSATLSMAEAGARFTMHVVKALMGLDTPMVYAYVDTDGEHECPFLAMPVVLGKNGIERRLPIGPITTVEKEMLEEAVGVVKKNIAKGETFARSKL 7ns5-a1-m1-cD_7ns5-a1-m1-cA Structure of yeast Fbp1 (Fructose-1,6-bisphosphatase 1) P09201 P09201 1.95 X-RAY DIFFRACTION 174 0.997 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 290 319 7ns5-a1-m1-cC_7ns5-a1-m1-cB DIITLPRFIIEHFTLVLNALQFAFKFVSHTIRRAELVNLVGLAGKLDVLGDEIFINAMRASGIIKVLVSEEQEDLIVFPTGSYAVCCDPIDGSSNLDAGVSVGTIASIFRLLRCGKEMVAACYAMYGSSTHLVLTLGDGVDGFTLDTNLGEFILTHPNLRIPPQKAIYSINEGNTLYWNETIRTFIEKVKQPQAKPFSARYVGSMVADVHRTFLYGGLFAYPCDKKSPNGKLRLLYEAFPMAFLMEQAGGKAVNDRGERILDLVPSHIHDKSSIWLGSSGEIDKFLDHIG DIITLPRFIIEHQKQFKNATGDFTLVLNALQFAFKFVSHTIRRAELVNLVGLAKLDVLGDEIFINAMRASGIIKVLVSEEQEDLIVFPTNTGSYAVCCDPIDGSSNLDAGVSVGTIASIFRLLPDSSGTINDVLRCGKEMVAACYAMYGSSTHLVLTLGDGVDGFTLDTNLGEFILTHPNLRIPPQKAIYSINEGNTLYWNETIRTFIEKVKQPQADNNNKPFSARYVGSMVADVHRTFLYGGLFAYPCDKKSPNGKLRLLYEAFPMAFLMEQAGGKAVNDRGERILDLVPSHIHDKSSIWLGSSGEIDKFLDHIGKSQ 7ns5-a1-m1-cD_7ns5-a1-m1-cB Structure of yeast Fbp1 (Fructose-1,6-bisphosphatase 1) P09201 P09201 1.95 X-RAY DIFFRACTION 22 0.99 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 290 312 7ns5-a1-m1-cC_7ns5-a1-m1-cA DIITLPRFIIEHFTLVLNALQFAFKFVSHTIRRAELVNLVGLAGKLDVLGDEIFINAMRASGIIKVLVSEEQEDLIVFPTGSYAVCCDPIDGSSNLDAGVSVGTIASIFRLLRCGKEMVAACYAMYGSSTHLVLTLGDGVDGFTLDTNLGEFILTHPNLRIPPQKAIYSINEGNTLYWNETIRTFIEKVKQPQAKPFSARYVGSMVADVHRTFLYGGLFAYPCDKKSPNGKLRLLYEAFPMAFLMEQAGGKAVNDRGERILDLVPSHIHDKSSIWLGSSGEIDKFLDHIG IITLPRFIIEHQKQFKNATGDFTLVLNALQFAFKFVSHTIRRAELVNLVGLAKLDVLGDEIFINAMRASGIIKVLVSEEQEDLIVFPTSYAVCCDPIDGSSNLDAGVSVGTIASIFRLLPDSSGTINDVLRCGKEMVAACYAMYGSSTHLVLTLGDGVDGFTLDTNLGEFILTHPNLRIPPQKAIYSINEGNTLYWNETIRTFIEKVKQPQADNNNKPFSARYVGSMVADVHRTFLYGGLFAYPCDKKSPNGKLRLLYEAFPMAFLMEQAGGKAVNDRGERILDLVPSHIHDKSSIWLGSSGEIDKFLDHIG 7ns5-a1-m1-cD_7ns5-a1-m1-cC Structure of yeast Fbp1 (Fructose-1,6-bisphosphatase 1) P09201 P09201 1.95 X-RAY DIFFRACTION 53 0.983 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 290 293 7ns5-a1-m1-cB_7ns5-a1-m1-cA DIITLPRFIIEHFTLVLNALQFAFKFVSHTIRRAELVNLVGLAGKLDVLGDEIFINAMRASGIIKVLVSEEQEDLIVFPTGSYAVCCDPIDGSSNLDAGVSVGTIASIFRLLRCGKEMVAACYAMYGSSTHLVLTLGDGVDGFTLDTNLGEFILTHPNLRIPPQKAIYSINEGNTLYWNETIRTFIEKVKQPQAKPFSARYVGSMVADVHRTFLYGGLFAYPCDKKSPNGKLRLLYEAFPMAFLMEQAGGKAVNDRGERILDLVPSHIHDKSSIWLGSSGEIDKFLDHIG IITLPRFIIEHQFTLVLNALQFAFKFVSHTIRRAELVNLVGLAQKKLDVLGDEIFINAMRASGIIKVLVSEEQEDLIVFGSYAVCCDPIDGSSNLDAGVSVGTIASIFRLVLRCGKEMVAACYAMYGSSTHLVLTLGDGVDGFTLDTNLGEFILTHPNLRIPPQKAIYSINEGNTLYWNETIRTFIEKVKQPQADNNNKPFSARYVGSMVADVHRTFLYGGLFAYPCDKKSPNGKLRLLYEAFPMAFLMEQAGGKAVNDRGERILDLVPSHIHDKSSIWLGSSGEIDKFLDHI 7ns7-a1-m1-cA_7ns7-a1-m1-cB Human L-alanine:glyoxylate aminotransferase minor allele variant: AGXT-Mi (P11L-I340M) P21549 P21549 2.2 X-RAY DIFFRACTION 242 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 339 340 LKALLKPLSIPNQLLLGPGPSNLPPRIMAAGGLQMIGSMSKDMYQIMDEIKEGIQYVFQTRNPLTLVISGSGHCALEAALVNVLEPGANGIWGQRAVDIGERIGKPVLLFLTHGESSTGVLQPLDGFCLLLVDSVASLGGTPLYMDRQGIDILYSGSQALNAPPGTSLISFSDKAKKKMYSRKTKPFSFYLDIKWLANFWGCDDQPRMYHHTIPVISLYSLRESLALIAEQGLENSWRQHREAAAYLHGRLQALGLQLFVKDPALRLPTVTTVAVPAGYDWRDIVSYVMDHFDIEIMGGLGPSTGKVLRIGLLGCNATRENVDRVTEALRAALQHCPKK LKALLKPLSIPNQLLLGPGPSNLPPRIMAAGGLQMIGSMSKDMYQIMDEIKEGIQYVFQTRNPLTLVISGSGHCALEAALVNVLEPGANGIWGQRAVDIGERIGKPVLLFLTHGESSTGVLQPLDGFGCLLLVDSVASLGGTPLYMDRQGIDILYSGSQALNAPPGTSLISFSDKAKKKMYSRKTKPFSFYLDIKWLANFWGCDDQPRMYHHTIPVISLYSLRESLALIAEQGLENSWRQHREAAAYLHGRLQALGLQLFVKDPALRLPTVTTVAVPAGYDWRDIVSYVMDHFDIEIMGGLGPSTGKVLRIGLLGCNATRENVDRVTEALRAALQHCPKK 7ns9-a1-m1-cA_7ns9-a1-m2-cA Triphosphate tunnel metalloenzyme from Sulfolobus acidocaldarius in complex with triphosphate and calcium Q4JAT2 Q4JAT2 1.75 X-RAY DIFFRACTION 62 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 178 178 7ns8-a1-m1-cA_7ns8-a1-m2-cA 7nsa-a1-m1-cA_7nsa-a1-m2-cA 7nsd-a1-m1-cA_7nsd-a1-m2-cA 7nsf-a1-m1-cA_7nsf-a1-m2-cA 7oa2-a1-m1-cA_7oa2-a1-m2-cA GSYIEREIKLRVISPSLEEIEERIRNNYTFINEEHQIDIYYNNPIRDFRKSDEALRLRNTNGKVILTYKGPKQSKETKTREEIEVEVSDLHKMDLILRKLGFIRSFQVEKIRKNYKYADFIISLDSIKELGEFIEIEGINKTEKELISFVDEFVKKHQIQYEKTIKSYLELLVEHAKK GSYIEREIKLRVISPSLEEIEERIRNNYTFINEEHQIDIYYNNPIRDFRKSDEALRLRNTNGKVILTYKGPKQSKETKTREEIEVEVSDLHKMDLILRKLGFIRSFQVEKIRKNYKYADFIISLDSIKELGEFIEIEGINKTEKELISFVDEFVKKHQIQYEKTIKSYLELLVEHAKK 7nsi-a1-m1-cHL_7nsi-a1-m1-cGL 55S mammalian mitochondrial ribosome with mtRRF (pre) and tRNA(P/E) A0A287ARV8 A0A287ARV8 4.6 ELECTRON MICROSCOPY 25 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 26 27 6gaw-a1-m1-cFL_6gaw-a1-m1-cEL 6gaw-a1-m1-cHL_6gaw-a1-m1-cGL 6gb2-a1-m1-cFL_6gb2-a1-m1-cEL 6gb2-a1-m1-cHL_6gb2-a1-m1-cGL 6ydp-a1-m1-cFL_6ydp-a1-m1-cEL 6ydp-a1-m1-cHL_6ydp-a1-m1-cGL 6ydw-a1-m1-cFL_6ydw-a1-m1-cEL 6ydw-a1-m1-cHL_6ydw-a1-m1-cGL 7nqh-a1-m1-cFL_7nqh-a1-m1-cEL 7nqh-a1-m1-cHL_7nqh-a1-m1-cGL 7nql-a1-m1-cFL_7nql-a1-m1-cEL 7nql-a1-m1-cHL_7nql-a1-m1-cGL 7nsh-a1-m1-cFL_7nsh-a1-m1-cEL 7nsh-a1-m1-cHL_7nsh-a1-m1-cGL 7nsi-a1-m1-cFL_7nsi-a1-m1-cEL 7nsj-a1-m1-cFL_7nsj-a1-m1-cEL 7nsj-a1-m1-cHL_7nsj-a1-m1-cGL IQQLVQDIASLTLLEISDLNELLKKT IQQLVQDIASLTLLEISDLNELLKKTL 7nta-a1-m1-cB_7nta-a1-m1-cC Trimeric SARS-CoV-2 spike ectodomain in complex with biliverdin (one RBD erect) P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 257 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1087 1087 7nt9-a1-m1-cA_7nt9-a1-m1-cB 7nt9-a1-m1-cA_7nt9-a1-m1-cC 7nt9-a1-m1-cB_7nt9-a1-m1-cC 7nta-a1-m1-cA_7nta-a1-m1-cB 7nta-a1-m1-cA_7nta-a1-m1-cC 7ntc-a1-m1-cA_7ntc-a1-m1-cB 7ntc-a1-m1-cA_7ntc-a1-m1-cC 7ntc-a1-m1-cB_7ntc-a1-m1-cC 7vxi-a1-m1-cB_7vxi-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSGTNGTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7ntg-a1-m1-cA_7ntg-a1-m2-cA Bdellovibrio bacteriovorus PGI in complex with fructose-6-phosphate Q6MPU9 Q6MPU9 1.67 X-RAY DIFFRACTION 345 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 402 402 7nss-a1-m1-cA_7nss-a1-m2-cA 7o0a-a1-m1-cA_7o0a-a1-m1-cE 7o0a-a2-m1-cG_7o0a-a2-m1-cB 7o0a-a3-m1-cC_7o0a-a3-m1-cH 7o0a-a4-m1-cD_7o0a-a4-m1-cF VMLEISHSFHKIDESVLVKCQESLKLFLQRKEIGFPQVMERVSLWQQSYKVGTELAEKFKKIVIVGLGGSSLGTRVIAEVFCARNMFFVDNVDALEFETLIEELGDLKEVAWVFISKSGTTIESLCALELVDQIYTEEKLNLPKHSVVISETKDSSLMAWARKHSIPTCEIPLDVGGRFSVLSPVGMMPAAFLGLDLEKFRVGAMRALNDTAVVTQTMAQVAQSYQREEWITLLWIYNSRMKSFGAWYQQLWAESLGKPETRAGKPAPRVSTPMSAVGASDQHSILQQVMEGTKDKFVVFQRVEESEAGSLRIKKAQFKETQDLEGRTMGELLRAEGLATQEALNQSGVSTMTLKTKVLDEHSLGYMFMFWQLVVAGLGDYLEIDAFNQPGVELGKRLAKEK VMLEISHSFHKIDESVLVKCQESLKLFLQRKEIGFPQVMERVSLWQQSYKVGTELAEKFKKIVIVGLGGSSLGTRVIAEVFCARNMFFVDNVDALEFETLIEELGDLKEVAWVFISKSGTTIESLCALELVDQIYTEEKLNLPKHSVVISETKDSSLMAWARKHSIPTCEIPLDVGGRFSVLSPVGMMPAAFLGLDLEKFRVGAMRALNDTAVVTQTMAQVAQSYQREEWITLLWIYNSRMKSFGAWYQQLWAESLGKPETRAGKPAPRVSTPMSAVGASDQHSILQQVMEGTKDKFVVFQRVEESEAGSLRIKKAQFKETQDLEGRTMGELLRAEGLATQEALNQSGVSTMTLKTKVLDEHSLGYMFMFWQLVVAGLGDYLEIDAFNQPGVELGKRLAKEK 7nuu-a1-m1-cA_7nuu-a1-m1-cB Crystal structure of human AMDHD2 in complex with Zn Q9Y303 Q9Y303 1.836 X-RAY DIFFRACTION 75 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 398 399 7nut-a1-m1-cB_7nut-a1-m1-cA AGARVLQFTNCRILRGGKLLREDLWVRGGRILDPEKLFFEERRVADERRDCGGRILAPGFIDVQINGGFGVDFSQATEDVGSGVALVARRILSHGVTSFCPTLVTSPPEVYHKVVPQIPVKSGGPHGAGVLGLHLEGPFISREKRGAHPEAHLRSFEADAFQDLLATYGPLDNVRIVTLAPELGRSHEVIRALTARGICVSLGHSVADLRAAEDAVWSGATFITHLFNAMLPFHHRDPGIVGLLTSDRLPAGRCIFYGMIADGTHTNPAALRIAHRAHPQGLVLVTDAIPALGLGNGRHTLGQQEVEVDGLTAYVAGTKTLSGSIAPMDVCVRHFLQATGCSMESALEAASLHPAQLLGLEKSKGTLDFGADADFVVLDDSLHVQATYISGELVWQAD ARVLQFTNCRILRGGKLLREDLWVRGGRILDPEKLFFEERRVADERRDCGGRILAPGFIDVQINGGFGVDFSQATEDVGSGVALVARRILSHGVTSFCPTLVTSPPEVYHKVVPQIPVKSGGPHGAGVLGLHLEGPFISREKRGAHPEAHLRSFEADAFQDLLATYGPLDNVRIVTLAPELGRSHEVIRALTARGICVSLGHSVADLRAAEDAVWSGATFITHLFNAMLPFHHRDPGIVGLLTSDRLPAGRCIFYGMIADGTHTNPAALRIAHRAHPQGLVLVTDAIPALGLGNGRHTLGQQEVEVDGLTAYVAGTKTLSGSIAPMDVCVRHFLQATGCSMESALEAASLHPAQLLGLEKSKGTLDFGADADFVVLDDSLHVQATYISGELVWQADAAR 7nvg-a1-m1-cC2_7nvg-a1-m1-cD2 Salmonella flagellar basal body refined in C1 map A0A0D6FLD2 A0A0D6FLD2 3.7 ELECTRON MICROSCOPY 94 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 209 209 6f2d-a1-m1-cA_6f2d-a1-m1-cB 6f2d-a1-m1-cB_6f2d-a1-m1-cC 6f2d-a1-m1-cC_6f2d-a1-m1-cD 6f2d-a1-m1-cD_6f2d-a1-m1-cE 6r69-a1-m1-cA_6r69-a1-m1-cB 6r69-a1-m1-cB_6r69-a1-m1-cC 6r69-a1-m1-cC_6r69-a1-m1-cD 6r69-a1-m1-cD_6r69-a1-m1-cE 7bin-a1-m1-cA_7bin-a1-m1-cB 7bin-a1-m1-cB_7bin-a1-m1-cC 7bin-a1-m1-cC_7bin-a1-m1-cD 7bin-a1-m1-cD_7bin-a1-m1-cE 7cg4-a1-m1-cr_7cg4-a1-m1-cs 7cg4-a1-m1-ct_7cg4-a1-m1-cr 7cg4-a1-m1-cu_7cg4-a1-m1-ct 7cg4-a1-m1-cv_7cg4-a1-m1-cu 7cgo-a1-m1-cCF_7cgo-a1-m1-cz 7cgo-a1-m1-cw_7cgo-a1-m1-cx 7cgo-a1-m1-cw_7cgo-a1-m1-cy 7cgo-a1-m1-cy_7cgo-a1-m1-cz 7e80-a1-m1-cCF_7e80-a1-m1-cz 7e80-a1-m1-cw_7e80-a1-m1-cx 7e80-a1-m1-cw_7e80-a1-m1-cy 7e80-a1-m1-cy_7e80-a1-m1-cz 7nvg-a1-m1-cA2_7nvg-a1-m1-cB2 7nvg-a1-m1-cB2_7nvg-a1-m1-cC2 7nvg-a1-m1-cD2_7nvg-a1-m1-cE2 SWSLSVQTLVFITSLTFLPAILLMMTSFTRIIIVFGLLRNALGTPSAPPNQVLLGLALFLTFFIMSPVIDKIYVDAYQPFSEQKISMQEALDKGAQPLRAFMLRQTREADLALFARLANSGPLQGPEAVPMRILLPAYVTSELKTAFQIGFTIFIPFLIIDLVIASVLMALGMMMVPPATIALPFKLMLFVLVDGWQLLMGSLAQSFYS SWSLSVQTLVFITSLTFLPAILLMMTSFTRIIIVFGLLRNALGTPSAPPNQVLLGLALFLTFFIMSPVIDKIYVDAYQPFSEQKISMQEALDKGAQPLRAFMLRQTREADLALFARLANSGPLQGPEAVPMRILLPAYVTSELKTAFQIGFTIFIPFLIIDLVIASVLMALGMMMVPPATIALPFKLMLFVLVDGWQLLMGSLAQSFYS 7nvo-a1-m1-cB_7nvo-a1-m1-cb Human TRiC complex in open state with nanobody bound P78371 P78371 3.5 ELECTRON MICROSCOPY 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 282 282 TARLTSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAAREALLSSAVDHGSDEVKFRQDLMNIAGTTLEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLANRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGNTTAGLDMREGTIGDMAILGITESFQVKRQVLLSAAEAAEVILRVDNII TARLTSFIGAIAIGDLVKSTLGPKGMDKILLSSGRDASLMVTNDGATILKNIGVDNPAAKVLVDMSRVQDDEVGDGTTSVTVLAAELLREAESLIAKKIHPQTIIAGWREATKAAREALLSSAVDHGSDEVKFRQDLMNIAGTTLEAERSLHDALCVLAQTVKDSRTVYGGGCSEMLMAHAVTQLANRTPGKEAVAMESYAKALRMLPTIIADNAGYDSADLVAQLRAAHSEGNTTAGLDMREGTIGDMAILGITESFQVKRQVLLSAAEAAEVILRVDNII 7nvo-a1-m1-cZ_7nvo-a1-m1-cz Human TRiC complex in open state with nanobody bound P40227 P40227 3.5 ELECTRON MICROSCOPY 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 323 323 VKTLNPKAEVARAQAALAVNISAARGLQDVLRTNLGPKGTMKMLVSGAGDIKLTKDGNVLLHEMQIQHPTASLIAKVATAQDDITGDGTTSNVLIIGELLKQADLYISEGLHPRIITEGFEAAKEKALQFLEEVKVSREMDRETLIDVARTSLRTKVHAELADVLTEAVVDSILAIKKKHTLTQIKDAVRDGLRAVKNAIDDGCVVPGAGAVEVAMAEALIKHKPSVKGRAQLGVQAFADALLIIPKVLAQNSGFDLQETLVKIQAEHSESGQLVGVDLNTGEPMVAAEVGVWDNYCVKKQLLHSCTVIATNILLVDEIMRAG VKTLNPKAEVARAQAALAVNISAARGLQDVLRTNLGPKGTMKMLVSGAGDIKLTKDGNVLLHEMQIQHPTASLIAKVATAQDDITGDGTTSNVLIIGELLKQADLYISEGLHPRIITEGFEAAKEKALQFLEEVKVSREMDRETLIDVARTSLRTKVHAELADVLTEAVVDSILAIKKKHTLTQIKDAVRDGLRAVKNAIDDGCVVPGAGAVEVAMAEALIKHKPSVKGRAQLGVQAFADALLIIPKVLAQNSGFDLQETLVKIQAEHSESGQLVGVDLNTGEPMVAAEVGVWDNYCVKKQLLHSCTVIATNILLVDEIMRAG 7nwr-a1-m2-cB_7nwr-a1-m1-cB Structure of BT1526, a myo-inositol-1-phosphate synthase Q8A7J8 Q8A7J8 2 X-RAY DIFFRACTION 43 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 426 426 7nwr-a1-m1-cA_7nwr-a1-m2-cA EIKPATGRLGVLVVGVGGAVATTMIVGTLASRKGLAKPIGSITQLATMRMENNEEKLIKDVVPLTDLNDIVFGGWDIFPDNAYEAAMYAEVLKEKDLNGVKDELEAIKPMPAAFDHNWAKRLNGTHIKKAATRWEMVEQLRQDIRDFKAANNCERVVVLWAASTEIYIPLSDEHMSLAALEKAMKDNNTEVISPSMCYAYAAIAEDAPFVMGAPNLCVDTPAMWEFSKQKNVPISGKDFKSGQTLMKTVLAPMFKTRMLGVNGWFSTNILGNRDGEVLDDPDNFKTKEVSKLSVIDTIFEPEKYPDLYGDVYHKVRINYYPPRKDNKEAWDNIDIFGWMGYPMEIKVNFLCRDSILAAPIALDLVLFSDLAMRAGMCGIQTWLSFFCKSPMHDFEHQPEHDLFTQWRMVKQTLRNMIGEKEPDYLA EIKPATGRLGVLVVGVGGAVATTMIVGTLASRKGLAKPIGSITQLATMRMENNEEKLIKDVVPLTDLNDIVFGGWDIFPDNAYEAAMYAEVLKEKDLNGVKDELEAIKPMPAAFDHNWAKRLNGTHIKKAATRWEMVEQLRQDIRDFKAANNCERVVVLWAASTEIYIPLSDEHMSLAALEKAMKDNNTEVISPSMCYAYAAIAEDAPFVMGAPNLCVDTPAMWEFSKQKNVPISGKDFKSGQTLMKTVLAPMFKTRMLGVNGWFSTNILGNRDGEVLDDPDNFKTKEVSKLSVIDTIFEPEKYPDLYGDVYHKVRINYYPPRKDNKEAWDNIDIFGWMGYPMEIKVNFLCRDSILAAPIALDLVLFSDLAMRAGMCGIQTWLSFFCKSPMHDFEHQPEHDLFTQWRMVKQTLRNMIGEKEPDYLA 7nwr-a1-m2-cB_7nwr-a1-m2-cA Structure of BT1526, a myo-inositol-1-phosphate synthase Q8A7J8 Q8A7J8 2 X-RAY DIFFRACTION 187 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 426 426 7nwr-a1-m1-cA_7nwr-a1-m1-cB EIKPATGRLGVLVVGVGGAVATTMIVGTLASRKGLAKPIGSITQLATMRMENNEEKLIKDVVPLTDLNDIVFGGWDIFPDNAYEAAMYAEVLKEKDLNGVKDELEAIKPMPAAFDHNWAKRLNGTHIKKAATRWEMVEQLRQDIRDFKAANNCERVVVLWAASTEIYIPLSDEHMSLAALEKAMKDNNTEVISPSMCYAYAAIAEDAPFVMGAPNLCVDTPAMWEFSKQKNVPISGKDFKSGQTLMKTVLAPMFKTRMLGVNGWFSTNILGNRDGEVLDDPDNFKTKEVSKLSVIDTIFEPEKYPDLYGDVYHKVRINYYPPRKDNKEAWDNIDIFGWMGYPMEIKVNFLCRDSILAAPIALDLVLFSDLAMRAGMCGIQTWLSFFCKSPMHDFEHQPEHDLFTQWRMVKQTLRNMIGEKEPDYLA EIKPATGRLGVLVVGVGGAVATTMIVGTLASRKGLAKPIGSITQLATMRMENNEEKLIKDVVPLTDLNDIVFGGWDIFPDNAYEAAMYAEVLKEKDLNGVKDELEAIKPMPAAFDHNWAKRLNGTHIKKAATRWEMVEQLRQDIRDFKAANNCERVVVLWAASTEIYIPLSDEHMSLAALEKAMKDNNTEVISPSMCYAYAAIAEDAPFVMGAPNLCVDTPAMWEFSKQKNVPISGKDFKSGQTLMKTVLAPMFKTRMLGVNGWFSTNILGNRDGEVLDDPDNFKTKEVSKLSVIDTIFEPEKYPDLYGDVYHKVRINYYPPRKDNKEAWDNIDIFGWMGYPMEIKVNFLCRDSILAAPIALDLVLFSDLAMRAGMCGIQTWLSFFCKSPMHDFEHQPEHDLFTQWRMVKQTLRNMIGEKEPDYLA 7nwt-a1-m1-cAA_7nwt-a1-m1-cBB Initiated 70S ribosome in complex with 2A protein from encephalomyocarditis virus (EMCV) P12296 P12296 2.66 ELECTRON MICROSCOPY 15 1.0 12107 (Mengo virus) 12107 (Mengo virus) 127 130 TYPTLHILLQFNHRGLEARIFRHGQLWAETHAEVVLRSKTKQISFLSNGSYPSMDATTPLNPWKSTYQAVLRAEPHRVTMDVYHKRIRPFRLPLVQKEWRTCEENVFGLYHVFETHYAGYFSDLLIH VSKTYPTLHILLQFNHRGLEARIFRHGQLWAETHAEVVLRSKTKQISFLSNGSYPSMDATTPLNPWKSTYQAVLRAEPHRVTMDVYHKRIRPFRLPLVQKEWRTCEENVFGLYHVFETHYAGYFSDLLIH 7nwt-a1-m1-cCC_7nwt-a1-m1-cBB Initiated 70S ribosome in complex with 2A protein from encephalomyocarditis virus (EMCV) P12296 P12296 2.66 ELECTRON MICROSCOPY 32 1.0 12107 (Mengo virus) 12107 (Mengo virus) 125 130 PTLHILLQFNHRGLEARIFRHGQLWAETHAEVVLRSKTKQISFLSNGSYPSMDATTPLNPWKSTYQAVLRAEPHRVTMDVYHKRIRPFRLPLVQKEWRTCEENVFGLYHVFETHYAGYFSDLLIH VSKTYPTLHILLQFNHRGLEARIFRHGQLWAETHAEVVLRSKTKQISFLSNGSYPSMDATTPLNPWKSTYQAVLRAEPHRVTMDVYHKRIRPFRLPLVQKEWRTCEENVFGLYHVFETHYAGYFSDLLIH 7nwu-a2-m1-cF_7nwu-a2-m1-cH Co-crystal structure of UPF3B-RRM-NOPS-L with UPF2-MIF4GIII Q9HAU5 Q9HAU5 2.6 X-RAY DIFFRACTION 44 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 7nwu-a1-m1-cB_7nwu-a1-m1-cD KRPPLQEYVRKLLYKDLSKVTTEKVLRQMRKLPWQDQEVKDYVICCMINIWNVKYNSIHCVANLLAGLVLYQEDVGIHVVDGVLEDIRLGMEVNQPKFNQRRISSAKFLGELYNYRMVESAVIFRTLYSFTSFGVNPDGSPSSLDPPEHLFRIRLVCTILDTCGQYFDRGSSKRKLDCFLVYFQRYVWWKKSLEVWTKDHPFPIDIDYMISDTLELLRPKIKLCNSLEESIRQVQDLEREFLIKLGLVND RPPLQEYVRKLLYKDLSKVTTEKVLRQMRKLPWQDQEVKDYVICCMINIWNVKYNSIHCVANLLAGLVLYQEDVGIHVVDGVLEDIRLGMEVNQPKFNQRRISSAKFLGELYNYRMVESAVIFRTLYSFTSFGVNPDGSPSSLDPPEHLFRIRLVCTILDTCGQYFDRGSSKRKLDCFLVYFQRYVWWKKSLEVWTKDHPFPIDIDYMISDTLELLRPKIKLCNSLEESIRQVQDLEREFLIKLGLVNDK 7nwz-a2-m1-cA_7nwz-a2-m1-cB ALK:ALKAL2 complex Q9UM73 Q9UM73 4.17 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 309 309 7nwz-a1-m1-cE_7nwz-a1-m1-cF DPTVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLG DPTVHWLFTTCGASGPHGPTQAQCNNAYQNSNLSVEVGSEGPLKGIQIWKVPATDTYSISGYGAAGGKGGKNTMMRSHGVSVLGIFNLEKDDMLYILVGQQGEDACPSTNQLIQKVCIGENNVIEEEIRVNRSVHEWAGGGGGGGGATYVFKMKDGVPVPLIIAAGGGGRAYGAKTDTFHPERLENNSSVLGLNGNSGAAGGGGGWNDNTSLLWAGKSLQEGATGGHSCPQAMKKWGWETRGGFGGGGGGCSSGGGGGGYIGGNAASNNDPEMDGEDGVSFISPLGILYTPALKVMEGHGEVNIKHYLG 7nx0-a1-m1-cC_7nx0-a1-m1-cB LTK:ALKAL1 complex stabilized by a Nanobody P29376 P29376 1.95 X-RAY DIFFRACTION 51 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 297 301 GSWLFSTCGASGRHGPTQTQCDGAYAGTSVVVTVGAAGQLRGVQLWRVPGPGQYLISAYGAAGGKGAKNHLSRAHGVFVSAIFSLGLGESLYILVGQQGEDACPGGSPESQLVCLGESRAVEEHARRWAGGGGGGGGATYVFRVRAGELEPLLVAAGGGGRAYLRPRDSPEKLENRSEAPGSGGRGGAAGGGGGWTSRAPSPQAGRSLQEGAEGGQGCSEAWATLGWAAAGGFGGGGGACTAGGGGGGYRGGDASETDNLWADGEDGVSFIHPSSELFLQPLAVTENHGEVEIRRHG GSWLFSTCGASGRHGPTQTQCDGAYAGTSVVVTVGAAGQLRGVQLWRVPGPGQYLISAYGAAGGKGAKNHLSRAHGVFVSAIFSLGLGESLYILVGQQGEDACPGGSPESQLVCLGESRAVEEHAAMRRWAGGGGGGGGATYVFRVRAGELEPLLVAAGGGGRAYLRPRDRGASPEKLENRSEAPGSGGRGGAAGGGGGWTSRAPSPQAGRSLQEGAEGGQGCSEAWATLGWAAAGGFGGGGGACTAGGGGGGYRGGDASETDNLWADGEDGVSFIHPSSELFLQPLAVTENHGEVEIRRH 7nx5-a1-m1-cB_7nx5-a1-m1-cA Crystal structure of the Epstein-Barr Virus protein ZEBRA (BZLF1, Zta) bound to a methylated DNA duplex P03206 P03206 2.5 X-RAY DIFFRACTION 76 0.984 10377 (Human herpesvirus 4 strain B95-8) 10377 (Human herpesvirus 4 strain B95-8) 61 62 2c9l-a1-m1-cZ_2c9l-a1-m1-cY 2c9n-a1-m1-cY_2c9n-a1-m1-cZ 5szx-a1-m1-cA_5szx-a1-m1-cB 7nx5-a2-m1-cE_7nx5-a2-m1-cF EIKRYKNRVASRKSRAKFKQLLQHYREVAAAKSSENDRLRLLLKQMCPSLDVDSIIPRTPD MLEIKRYKNRVASRKSRAKFKQLLQHYREVAAAKSSENDRLRLLLKQMCPSLDVDSIIPRTP 7nxg-a1-m1-cA_7nxg-a1-m2-cA Wax synthase 1 from Acinetobacter baylyi (AbWSD1) co-crystallized with myristic acid Q8GGG1 Q8GGG1 1.95 X-RAY DIFFRACTION 69 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 390 390 AYFAGMRPLHPIDFIFLSLEKRQQPMHVGGLFLFQIPDNAPDTFIQDLVNDIRISKSIPVPPFNNKLNGLFWDEDEEFDLDHHFRHIALPHPGRIRELLIYISQEHSTLLDRAKPLWTCNIIEGIEGNRFAMYFKIHHAMVDGVAGMRLIEKSLSHDVTEKSIVPPWCVESFQAPCSILNQRVSSSRRFAAQSFDLDRFRNIAKSLNVTINDVVLAVCSGALRAYLMSHNSLPSKPLIAMVPASIRNVSNRITMILANLATHKDDPLQRLEIIRRSVQNSKQRFKRMTSDQILNYSAVVYGPAGLQAFNLVISNVPGPREPLYWNGAKLDALYPASIVLDGQALNITMTSYLDKLEVGLIACRNALPRMQNLLTHLEEEIQLFEGVIAKQ AYFAGMRPLHPIDFIFLSLEKRQQPMHVGGLFLFQIPDNAPDTFIQDLVNDIRISKSIPVPPFNNKLNGLFWDEDEEFDLDHHFRHIALPHPGRIRELLIYISQEHSTLLDRAKPLWTCNIIEGIEGNRFAMYFKIHHAMVDGVAGMRLIEKSLSHDVTEKSIVPPWCVESFQAPCSILNQRVSSSRRFAAQSFDLDRFRNIAKSLNVTINDVVLAVCSGALRAYLMSHNSLPSKPLIAMVPASIRNVSNRITMILANLATHKDDPLQRLEIIRRSVQNSKQRFKRMTSDQILNYSAVVYGPAGLQAFNLVISNVPGPREPLYWNGAKLDALYPASIVLDGQALNITMTSYLDKLEVGLIACRNALPRMQNLLTHLEEEIQLFEGVIAKQ 7nxq-a1-m1-cJ_7nxq-a1-m1-cH Structure of the pentameric C-terminal domain of the capsid protein from Kaposi's sarcoma-associated herpesvirus (KSHV) Q2HRB3 Q2HRB3 2.422 X-RAY DIFFRACTION 70 0.995 37296 (Human gammaherpesvirus 8) 37296 (Human gammaherpesvirus 8) 402 403 7nxq-a1-m1-cD_7nxq-a1-m1-cA 7nxq-a1-m1-cE_7nxq-a1-m1-cA 7nxq-a1-m1-cH_7nxq-a1-m1-cD 7nxq-a1-m1-cJ_7nxq-a1-m1-cE 7nxq-a2-m1-cB_7nxq-a2-m1-cG 7nxq-a2-m1-cB_7nxq-a2-m1-cI 7nxq-a2-m1-cF_7nxq-a2-m1-cC 7nxq-a2-m1-cG_7nxq-a2-m1-cC 7nxq-a2-m1-cI_7nxq-a2-m1-cF RNFTVAIVPGDPHFSVDRDLRGELMPTLYMNQNQWLPSFGPWFISLTDNAMQRRVFPKELKGTVNFQNSTSLKLISHTLTTVASTTADFFADARHLTDTQAALCLVNAYFCQKTSRQLPATPDDLLADLPQKLDLLITQLKQESGPGDFSFTYSNPQERASLAPLNKESRYPTAFFQRHKLHAMMAKAGLFPHNPAMDLVFAITSAMFGSDIPPFSAYQWNLRAGIVALEVFILAYGLLEFGQVARGHPNRRLNLVSLLGPKFQPMLKRGQLFSFISEHYIIPTLQANPNAPVSFIFPGIILAALEARSTPGPFVNLTGSRFNEIFEILNQQLTFRDPLALLQARTALRLATEEGLDVLLSHPSPPTLLQEIIKSQFGGGDDYDRAYFMVLGCLPVVLAVVP RNFTVAIVPGDPHFSVDRDLRGELMPTLYMNQNQWLPSFGPWFISLTDNAMQRRVFPKELKGTVNFQNSTSLKLISHTLTTVASTTADFFADARHLTDTQAALCLVNAYFCQKTSRQLPATPDDLLADLPQKLDLLITQLKQESGPGDFSFTYSNPQERASLAPLNKESRYPTAFFQRHKLHAMMAKAGLFPHNAMDLVFAITSAMFGSDIPPFSAYQWNLRAGIVALEVFILAYGLLEFGQVARGHPNRRLNLVSLLGPKFAPMLKRGQLFSFISEHYIIPTLQANPNAPVSFIFPGIILAALEARSTKQPGPFVNLTGSRFNEIFEILNQQLTFRDPLALLQARTALRLATEEGLDVLLSHPSPPTLLQEIIKSQFGGGDDYDRAYFMVLGCLPVVLAVVP 7ny1-a1-m1-cE_7ny1-a1-m1-cF Structure of the fungal plasma membrane proton pump Pma1 in its auto-inhibited state - hexameric assembly P07038 P07038 3.26 ELECTRON MICROSCOPY 87 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 829 829 1mhs-a1-m1-cA_1mhs-a1-m1-cB 7ny1-a1-m1-cA_7ny1-a1-m1-cB 7ny1-a1-m1-cA_7ny1-a1-m1-cF 7ny1-a1-m1-cB_7ny1-a1-m1-cC 7ny1-a1-m1-cC_7ny1-a1-m1-cD 7ny1-a1-m1-cD_7ny1-a1-m1-cE EATPGGGRVVPEDMLQTDTRVGLTSEEVVQRRRKYGLNQMKEEKENHFLKFLGFFVGPIQFVMEGAAVLAAGLEDWVDFGVICGLLLLNAVVGFVQEFQAGSIVDELKKTLALKAVVLRDGTLKEIEAPEVVPGDILQVEEGTIIPADGRIVTDDAFLQVDQSALTGESLAVDKHKGDQVFASSAVKRGEAFVVITATGDNTFGHFTEVLNGIGTILLILVIFTLLIVWVSSFYRSNPIVQILEFTLAITIIGVPVGLPAVVTTTMAVGAAYLAKKKAIVQKLSAIESLAGVEILCSDKTGTLTKNKLSLHDPYTVAGVDPEDLMLTACLAASRKKKGIDAIDKAFLKSLKYYPRAKSVLSKYKVLQFHPFDPVSKKVVAVVESPQGERITCVKGAPLFVLKTVEEDHPIPEEVDQAYKNKVAEFATRGFRSLGVARKRGEGSWEILGIMPCMDPPRHDTYKTVCEAKTLGLSIKMLTGDAVGIARETSRQLGLGTNIYNAERLGLGGGGDMPGSEVYDFVEAADGFAEVFPQHKYNVVEILQQRGYLVAMTGDGVNDAPSLKKADTGIAVEGSSDAARSAADIVFLAPGLGAIIDALKTSRQIFHRMYAYVVYRIALSIHLEIFLGLWIAILNRSLNIELVVFIAIFADVATLAIAYDNAPYSQTPVKWNLPKLWGMSVLLGVVLAVGTWITVTTMYAQGENGGIVQNFGNMDEVLFLQISLTENWLIFITRANGPFWSSIPSWQLSGAIFLVDILATCFTIWGWFEHSDTSIVAVVRIWIFSFGIFCIMGGVYYILQDSPKGNQKQRSLEDFVVSLQRVSTQHEKSQ EATPGGGRVVPEDMLQTDTRVGLTSEEVVQRRRKYGLNQMKEEKENHFLKFLGFFVGPIQFVMEGAAVLAAGLEDWVDFGVICGLLLLNAVVGFVQEFQAGSIVDELKKTLALKAVVLRDGTLKEIEAPEVVPGDILQVEEGTIIPADGRIVTDDAFLQVDQSALTGESLAVDKHKGDQVFASSAVKRGEAFVVITATGDNTFGHFTEVLNGIGTILLILVIFTLLIVWVSSFYRSNPIVQILEFTLAITIIGVPVGLPAVVTTTMAVGAAYLAKKKAIVQKLSAIESLAGVEILCSDKTGTLTKNKLSLHDPYTVAGVDPEDLMLTACLAASRKKKGIDAIDKAFLKSLKYYPRAKSVLSKYKVLQFHPFDPVSKKVVAVVESPQGERITCVKGAPLFVLKTVEEDHPIPEEVDQAYKNKVAEFATRGFRSLGVARKRGEGSWEILGIMPCMDPPRHDTYKTVCEAKTLGLSIKMLTGDAVGIARETSRQLGLGTNIYNAERLGLGGGGDMPGSEVYDFVEAADGFAEVFPQHKYNVVEILQQRGYLVAMTGDGVNDAPSLKKADTGIAVEGSSDAARSAADIVFLAPGLGAIIDALKTSRQIFHRMYAYVVYRIALSIHLEIFLGLWIAILNRSLNIELVVFIAIFADVATLAIAYDNAPYSQTPVKWNLPKLWGMSVLLGVVLAVGTWITVTTMYAQGENGGIVQNFGNMDEVLFLQISLTENWLIFITRANGPFWSSIPSWQLSGAIFLVDILATCFTIWGWFEHSDTSIVAVVRIWIFSFGIFCIMGGVYYILQDSPKGNQKQRSLEDFVVSLQRVSTQHEKSQ 7ny9-a1-m1-cA_7ny9-a1-m1-cB CRYSTAL STRUCTURE OF HUMAN CYTOSOLIC BRANCHED-CHAIN AMINOTRANSFERASE (BCAT1) IN COMPLEX WITH PLP AND SMALL MOLECULE INHIBITOR COMPOUND 38 P54687 P54687 1.6 X-RAY DIFFRACTION 195 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 364 366 2abj-a1-m1-cD_2abj-a1-m1-cA 2abj-a2-m1-cG_2abj-a2-m1-cJ 2cog-a1-m1-cA_2cog-a1-m1-cB 2coi-a1-m1-cB_2coi-a1-m1-cA 2coj-a1-m1-cB_2coj-a1-m1-cA 7ntr-a1-m1-cB_7ntr-a1-m1-cA 7nwa-a1-m1-cA_7nwa-a1-m1-cB 7nwb-a1-m1-cB_7nwb-a1-m1-cA 7nwb-a2-m1-cC_7nwb-a2-m1-cD 7nwc-a1-m1-cA_7nwc-a1-m1-cB 7nwc-a2-m1-cC_7nwc-a2-m1-cD 7nwe-a1-m1-cB_7nwe-a1-m1-cA 7nwm-a1-m1-cB_7nwm-a1-m1-cA 7nxn-a1-m1-cA_7nxn-a1-m1-cB 7nxo-a1-m1-cA_7nxo-a1-m1-cB 7ny2-a1-m1-cA_7ny2-a1-m1-cB 7nya-a1-m1-cB_7nya-a1-m1-cA GTFKAKDLIVTPATILKEKPDPNNLVFGTVFTDHMLTVEWSSEFGWEKPHIKPLQNLSLHPGSSALHYAVELFEGLKAFRGVDNKIRLFQPNLNMDRMYRSAVRATLPVFDKEELLECIQQLVKLDQEWVPYSTSASLYIRPTFIGTEPSLGVKKPTKALLFVLLSPVGPYFSSGTFNPVSLWANPKYVRAWKGGTGDCKMGGNYGSSLFAQCEAVDNGCQQVLWLYGEDHQITEVGTMNLFLYWINEDGEEELATPPLDGIILPGVTRRCILDLAHQWGEFKVSERYLTMDDLTTALEGNRVREMFGSGTACVVCPVSDILYKGETIHIPTMENGPKLASRILSKLTDIQYGREERDWTIVLS VVGTFKAKDLIVTPATILKEKPDPNNLVFGTVFTDHMLTVEWSSEFGWEKPHIKPLQNLSLHPGSSALHYAVELFEGLKAFRGVDNKIRLFQPNLNMDRMYRSAVRATLPVFDKEELLECIQQLVKLDQEWVPYSTSASLYIRPTFIGTEPSLGVKKPTKALLFVLLSPVGPYFSSGTFNPVSLWANPKYVRAWKGGTGDCKMGGNYGSSLFAQCEAVDNGCQQVLWLYGEDHQITEVGTMNLFLYWINEDGEEELATPPLDGIILPGVTRRCILDLAHQWGEFKVSERYLTMDDLTTALEGNRVREMFGSGTACVVCPVSDILYKGETIHIPTMENGPKLASRILSKLTDIQYGREERDWTIVLS 7nyw-a1-m1-cA_7nyw-a1-m1-cB Cryo-EM structure of the MukBEF-MatP-DNA head module A0A0F7LRY2 A0A0F7LRY2 3.1 ELECTRON MICROSCOPY 216 1.0 230089 (Photorhabdus thracensis) 230089 (Photorhabdus thracensis) 685 858 IERGKFRSLTLVNWNGFFARTFDLDELVTTLSGGNGAGKSTTMAAFVTALIPDLTLLHFRNTTEAGATSGSRDKGLHGKLRAGVCYSTLDVINSRHQRVVVGVRLQQVAGRDRKVDIKPFMIQGLPTAIQPTQLLTENVGERQARVLPLNELKDRLDEMEGVQFKQFNSITDYHAQMFDLGVIPKRLRSASDRSKFYRLIEASLYGGISSAITRSLRDYLLPENSGVRKAFQDMEAALRENRITLEAIRVTQSDRDLFKHLITEATSYVSADYMRHANERRTHLDEALALRGELFGSHKQLATEQMENVQKKLRKLERDYYQIREQVVSAKAGWCAVMRMVKDNGVERRLHRRELAYMEGGALRSMSDKALGALRLAVADNEHLRDALRLSEDPKRPERKVQFFIAVYQHLRERIRQDIIRTDDPVDAIEQMEIELARLTEELTAREQKLAISSKSVANIIRKTIQREQNRIRMLNQGLQAVSFGQVRGVRLNVNVRESHAILLDVLSEQQEQHQDLFNSQRLTFSEAMAKLYQRLNPQVDMGQRLPQTIGEELLDYRNYLELDVEVNRGSDGWLKAESGALSTGEAIGTGMSILVMVVQSWEEESRRLRGKDISPCRLLFLDQAARLDAKSIATLFELCERLQMQLIIAAPENISPEKGTTYKLVRKVFKNHEHVHVVGLRGFG IERGKFRSLTLVNWNGFFARTFDLDELVTTLSGGNGAGKSTTMAAFVTALIPDLTLLHFRNTTEAGATSGSRDKGLHGKLRAGVCYSTLDVINSRHQRVVVGVRLQQVAGRDRKVDIKPFMIQGLPTAIQPTQLLTENVGERQARVLPLNELKDRLDEMEGVQFKQFNSITDYHAQMFDLGVIPKRLRSASDRSKFYRLIEASLYGGISSAITRSLRDYLLPENSGVRKAFQDMEAALRENRITLEAIRVTQSDRDLFKHLITEATSYVSADYMRHANERRTHLDEALALRGELFGSHKQLATEQALSLSVNEGGERRMEMRQELEQLKQKIQSLTARAPVWLAAQDTLNQLCEQSGETLASSNDVTEYMQQLLEREREATVERDEVAAQKRELEKQIERLLEALNLERDALAERYATLSFDVQKIQRAHQAFSQFVGKHLSVAFDTDPEAEIRELRQRHTELEREVSRFEDQTQQQRMENVQKKLRKLERDYYQIREQVVSAKAGWCAVMRMVKDNGVERRLHRRELAYMEGGALRSMSDKALGALRLAVADNEHLRDALRLSEDPKRPERKVQFFIAVYQHLRERIRQDIIRTDDPVDAIEQMEIELARLTEELTAREQKLAISSKSVANIIRKTIQREQNRIRMLNQGLQAVSFGQVRGVRLNVNVRESHAILLDVLSEQQEQHQDLFNSQRLTFSEAMAKLYQRLNPQVDMGQRLPQTIGEELLDYRNYLELDVEVNRGSDGWLKAESGALSTGEAIGTGMSILVMVVQSWEEESRRLRGKDISPCRLLFLDQAARLDAKSIATLFELCERLQMQLIIAAPENISPEKGTTYKLVRKVFKNHEHVHVVGLRGFG 7nz2-a1-m1-cC1_7nz2-a1-m1-cD1 Cryo-EM structure of the MukBEF-MatP-DNA tetrad A0A0F7LMQ4 A0A0F7LMQ4 11.0 ELECTRON MICROSCOPY 243 1.0 230089 (Photorhabdus thracensis) 230089 (Photorhabdus thracensis) 431 431 7nz2-a1-m1-cC2_7nz2-a1-m1-cD2 7nz4-a1-m1-cC1_7nz4-a1-m1-cD1 ELVSWARKNDFSISLPVERLAFLMAIAVLNSERLDGEMSEGELIDAFREVCKGFEQTAESVAVRANNAINDMVRQKLLNRFTSELADGNAIYRLTPLGISISDYYIRQREFSTLRLSMQLSIVANELHRAAEAAEEGGDEFHWHRNVFAPLKYSVAEIFDSIDMSQRLMDEQQNFVKEDIAALLNQDWQAAIANCEQLLSETSGTLRELQDTLEAAGDKLQANLLRIQDANMGSGGSELVDKLVFDLQSKLDRIISWGQQAIDLWIGYDRHVHKFIRTAIDMDKNRIFSQRLRQSVQHYFDNPWTLTVANAERLLDMRDEELALRNEEVTGELPLELEYEEFSEINDQLAAMIEKALLVYQQEQRPLDLGAVLRDYLAQHPLPRHFDVARILVDQAVRLGVAEADFSGLPAEWLAINDYGAKVQAHVIDTY ELVSWARKNDFSISLPVERLAFLMAIAVLNSERLDGEMSEGELIDAFREVCKGFEQTAESVAVRANNAINDMVRQKLLNRFTSELADGNAIYRLTPLGISISDYYIRQREFSTLRLSMQLSIVANELHRAAEAAEEGGDEFHWHRNVFAPLKYSVAEIFDSIDMSQRLMDEQQNFVKEDIAALLNQDWQAAIANCEQLLSETSGTLRELQDTLEAAGDKLQANLLRIQDANMGSGGSELVDKLVFDLQSKLDRIISWGQQAIDLWIGYDRHVHKFIRTAIDMDKNRIFSQRLRQSVQHYFDNPWTLTVANAERLLDMRDEELALRNEEVTGELPLELEYEEFSEINDQLAAMIEKALLVYQQEQRPLDLGAVLRDYLAQHPLPRHFDVARILVDQAVRLGVAEADFSGLPAEWLAINDYGAKVQAHVIDTY 7nz3-a1-m1-cI2_7nz3-a1-m1-cJ2 Cryo-EM structure of apposed MukBEF-MatP monomers on DNA A0A0F7LUV5 A0A0F7LUV5 11.0 ELECTRON MICROSCOPY 85 1.0 230089 (Photorhabdus thracensis) 230089 (Photorhabdus thracensis) 134 135 7nyw-a1-m1-cI_7nyw-a1-m1-cJ 7nyx-a1-m1-cI_7nyx-a1-m1-cJ 7nyz-a1-m1-cI_7nyz-a1-m1-cJ 7nz0-a1-m1-cI_7nz0-a1-m1-cJ 7nz2-a1-m1-cI1_7nz2-a1-m1-cJ1 7nz2-a1-m1-cI2_7nz2-a1-m1-cJ2 7nz2-a1-m1-cI3_7nz2-a1-m1-cJ3 7nz2-a1-m1-cI4_7nz2-a1-m1-cJ4 7nz3-a1-m1-cI1_7nz3-a1-m1-cJ1 MKYQQLENLECGWKWAYLIRKHQEGEPITKYIENSAAHAAVDKLIKLESEPVRVLEWIEQHMNPDLFNRMKQTIRARRKRHFNAEHQHTRKKSIDLDFPVWHRLSALSQRRGNTLSETIVQLIEDAERKEKYAN MKYQQLENLECGWKWAYLIRKHQEGEPITKYIENSAAHAAVDKLIKLESEPVRVLEWIEQHMNPDLFNRMKQTIRARRKRHFNAEHQHTRKKSIDLDFPVWHRLSALSQRRGNTLSETIVQLIEDAERKEKYANQ 7nza-a1-m1-cA_7nza-a1-m1-cB Structure of OBP1 from Varroa destructor, form P2<1> A0A7M7KVA6 A0A7M7KVA6 1.199 X-RAY DIFFRACTION 115 1.0 109461 (Varroa destructor) 109461 (Varroa destructor) 141 141 SATPAKVPVIEWGKCEQLKPSESERTSKAAVVDKCLQSLPLPDPEKATQQEIDKHRESVTTCALKAEGWFDDEGVYKFDRARNEIKNKKLDSEVEEAVLLKHDACQKEATEKHDDYINQVQLYQACMDYNISQICGIKVMV SATPAKVPVIEWGKCEQLKPSESERTSKAAVVDKCLQSLPLPDPEKATQQEIDKHRESVTTCALKAEGWFDDEGVYKFDRARNEIKNKKLDSEVEEAVLLKHDACQKEATEKHDDYINQVQLYQACMDYNISQICGIKVMV 7nzj-a2-m1-cD_7nzj-a2-m1-cC Structure of bsTrmB apo O34522 O34522 1.98 X-RAY DIFFRACTION 41 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 203 205 2fca-a1-m1-cB_2fca-a1-m1-cA 7nyb-a1-m1-cB_7nyb-a1-m1-cA 7nzi-a1-m1-cB_7nzi-a1-m1-cA 7nzj-a1-m1-cB_7nzj-a1-m1-cA 7nzj-a3-m1-cF_7nzj-a3-m1-cE DFLAENADIAISNPADYKGKWNTVFGNDNPIHIEVGTGKGQFISGMAKQNPDINYIGIELFKSVIVTAVQKVKDSEAQNVKLLNIDADTLTDVFEPGEVKRVYLNFSDPWPKKRHEKRRLTYSHFLKKYEEVMGKGGSIHFKTDNRGLFEYSLKSFSEYGLLLTYVSLDLHNSNLEGNIMTEYEEKFSALGQPIYRAEVEWRT ADDFLAENADIAISNPADYKGKWNTVFGNDNPIHIEVGTGKGQFISGMAKQNPDINYIGIELFKSVIVTAVQKVKDSEAQNVKLLNIDADTLTDVFEPGEVKRVYLNFSDPWPKKRHEKRRLTYSHFLKKYEEVMGKGGSIHFKTDNRGLFEYSLKSFSEYGLLLTYVSLDLHNSNLEGNIMTEYEEKFSALGQPIYRAEVEWRT 7nzp-a1-m1-cBBB_7nzp-a1-m1-cAAA D-lyxose isomerase from the hyperthermophilic archaeon Thermofilum sp complexed with D-fructose A0A256XLS3 A0A256XLS3 1.345 X-RAY DIFFRACTION 78 1.0 2012527 (Thermofilum sp. ex4484_79) 2012527 (Thermofilum sp. ex4484_79) 182 183 7nzo-a1-m1-cAAA_7nzo-a1-m1-cBBB 7nzq-a1-m1-cAAA_7nzq-a1-m2-cAAA HMMLTKELVKEAREKAIRMLEKACIAITDEEKEKIEVTDFGLGVLYTFGLEILVYVNNERYCAKELVMFPRQICPEHRHPPIGSYLGKQETFRCRWGEVYLYVPGTPTPNPRARIPEEKKRYFTVWHEIVLRPGEQYTIPPNTLHWFQAGDEGAIVSEFSSQSIDEKDIFTDPNVKRIPEIV KHMMLTKELVKEAREKAIRMLEKACIAITDEEKEKIEVTDFGLGVLYTFGLEILVYVNNERYCAKELVMFPRQICPEHRHPPIGSYLGKQETFRCRWGEVYLYVPGTPTPNPRARIPEEKKRYFTVWHEIVLRPGEQYTIPPNTLHWFQAGDEGAIVSEFSSQSIDEKDIFTDPNVKRIPEIV 7o0h-a1-m1-cB_7o0h-a1-m1-cA Structure of the foamy viral protease-reverse transcriptase dRH in complex with ds DNA. D5JWV1 D5JWV1 3.09 X-RAY DIFFRACTION 129 0.983 2170205 (White-tufted-ear marmoset simian foamy virus) 2170205 (White-tufted-ear marmoset simian foamy virus) 523 566 7o24-a1-m1-cB_7o24-a1-m1-cA TPPLLQLPVEVKKTELNGFWDTGAQITCIPEAFLKLKFKVLGRKVEEVTTSPFDYVIISPSDIPWYKPQPLELTVKLPVQDFKKELINKANINNEEKKQLAKLLDKYDVLWQQWENQVGHRKIPPHNIATGTVAPRPQRQYHINTKAKPSIQQVIDDLLKQGVLIKQTSVMNTPIYPVPKPDGKWRMVLDYRAVNKTVPLIRQKYKSTIDLSNGFWAHPITKDSQWITAFTWEGKQHVWTRLPQGFLNSPALFTADVVDLLKNIPGISVYVDDIYFSTETVSEHLKILEKVFKILLEAGYIVSLKKSALLRYEVTFLGFSITQTQNITSPRTLKELQSILGLFNFARNFVPNFSEIIKPLYSLISTAEGNNIKWTSEHTRYLEEIVSALNHAGNLEQRDNESPLVVKLNASPKTGYIRYYNKQKPIAYASHVFTNTELKFTPLEKLLVTMHKALIKAIDLALGQPIEVYSPIISMQKLQKTPLPERKALSTRWITWLSYLEDPRITFYYDKTLPDLKNVPETV PLLQLPVEVKKTELNGFWDTGAQITCIPEAFLKEEIPIGEAQIKTLHTKLQSVYYLKFKVLGRKVEAEVTTSPFDYVIISPSDIPWYKPQPLELTVKLPVQDFKKELINKANINNEEKKQLAKLLDKYDVLWQQWENQVGHRKIPPHNIATGTVAPRPQRQYHINTKAKPSIQQVIDDLLKQGVLIKQTSVMNTPIYPVPKPDGKWRMVLDYRAVNKTVPLIGAQNQHSLGILTNLVRQKYKSTIDLSNGFWAHPITKDSQWITAFTWEGKQHVWTRLPQGFLNSPALFTADVVDLLKNIPGISVYVDDIYFSTETVSEHLKILEKVFKILLEAGYIVSLKKSALLRYEVTFLGFSITQTGRGLTSEFKDKIQNITSPRTLKELQSILGLFNFARNFVPNFSEIIKPLYSLISTAEGNNIKWTSEHTRYLEEIVSALNHAGNLEQRDNESPLVVKLNASPKTGYIRYYNKGGQKPIAYASHVFTNTELKFTPLEKLLVTMHKALIKAIDLALGQPIEVYSPIISMQKLQKTPLPERKALSTRWITWLSYLEDPRITFYYDKTLPDL 7o0i-a1-m1-cA_7o0i-a1-m1-cv Vibrio vulnificus stressosome A0A2S3QZH9 A0A2S3QZH9 8.3 ELECTRON MICROSCOPY 23 1.0 672 (Vibrio vulnificus) 672 (Vibrio vulnificus) 113 113 7o0i-a1-m1-ca_7o0i-a1-m1-cb 7o0i-a1-m1-cD_7o0i-a1-m1-cO 7o0i-a1-m1-ce_7o0i-a1-m1-cf 7o0i-a1-m1-cP_7o0i-a1-m1-cg 7o0i-a1-m1-ct_7o0i-a1-m1-cu SAISISKLQDVLIASVQVDLTESTLRDFSLDLLDAVKSTRAKGVMIELSGVKTLDGESMHSLLDVVKTVEVMGRRCLLVGLRPGVVIGLMDIGIDLASTLCVADLEQGFLYLE SAISISKLQDVLIASVQVDLTESTLRDFSLDLLDAVKSTRAKGVMIELSGVKTLDGESMHSLLDVVKTVEVMGRRCLLVGLRPGVVIGLMDIGIDLASTLCVADLEQGFLYLE 7o0t-a2-m1-cB_7o0t-a2-m2-cD Crystal structure of Chloroflexus aggregans ene-reductase CaOYE holoenzyme B8G5D6 B8G5D6 2.4 X-RAY DIFFRACTION 83 1.0 326427 (Chloroflexus aggregans DSM 9485) 326427 (Chloroflexus aggregans DSM 9485) 354 354 7o0t-a1-m1-cA_7o0t-a1-m1-cC MQPHLFTPLTIGSVTLRNRIGMSPMCQYSAVDGFPTDWHLMHLGARAAGGVGLIILEATAVSPEGRISPFDLGIWSDDHIAALSRIVKLIESLGAVAGIQLAHAGRKASVGRPWEGGKPIAPANGGWPVVGPTAEPFAPGYPTPIPLDAAGIARVVADFATATKRARAAGFRWIEIHAAHGYLLHNFLSPLGNDRNDEYGGDLRGRVRLLSEVTAAVRAEWPSDLPLAVRLSCSDWTPEGLTIADTVEVARMLREQGVDLIDCSSGGIAPGITIPVGEGYQVPFAAQVRREANIATAAVGLITRPEHADAIVRNGDADLVLLGRELLRDPHWPLRAARALGHDLAPPPQYLRAW MQPHLFTPLTIGSVTLRNRIGMSPMCQYSAVDGFPTDWHLMHLGARAAGGVGLIILEATAVSPEGRISPFDLGIWSDDHIAALSRIVKLIESLGAVAGIQLAHAGRKASVGRPWEGGKPIAPANGGWPVVGPTAEPFAPGYPTPIPLDAAGIARVVADFATATKRARAAGFRWIEIHAAHGYLLHNFLSPLGNDRNDEYGGDLRGRVRLLSEVTAAVRAEWPSDLPLAVRLSCSDWTPEGLTIADTVEVARMLREQGVDLIDCSSGGIAPGITIPVGEGYQVPFAAQVRREANIATAAVGLITRPEHADAIVRNGDADLVLLGRELLRDPHWPLRAARALGHDLAPPPQYLRAW 7o21-a1-m1-cB_7o21-a1-m1-cA Structure of Bdellovibrio bacteriovorus Bd1075 Q6MNZ7 Q6MNZ7 1.34 X-RAY DIFFRACTION 45 1.0 264462 (Bdellovibrio bacteriovorus HD100) 264462 (Bdellovibrio bacteriovorus HD100) 268 276 DLLPASLLQISETEAFSRYVILVDKEQRKLSVFERNGEQIQKITEYPADIGKMKTPEGIYFLQERLSQPKIPFSLYGALAFTTNYPNLFDKRENKTGSGIWLHAIPDSVPLTRGSRGCVVVRNDVIKKLADYIKLGETPILIFDHVNYVSKSEHDKRRQDLSRFVESWRQAWENQDIEKYQTFYDEGFKAPGFNYKSWMSHKKNLKSKYEYIKVHLSQPYIVQHNDQLLVKTLQRYESDKHVDYGVKTIYALKSGDTYKIIREEWAPF DLLPASLLQISETEAFSRYVILVDKEQRKLSVFERNGEQIQKITEYPADIGKMGGDDHKTPEGIYFLQERLSQPKIPFSLYGALAFTTNYPNLFDKRENKTGSGIWLHAIPDSVPLTRGSRGCVVVRNDVIKKLADYIKLGETPILIFDHVNYVSKSEHDKRRQDLSRFVESWRQAWENQDIEKYQTFYDEGFKAPGFNYKSWMSHKKNLKSKYEYIKVHLSQPYIVQHNDQLLVKTLQRYESDKHVDYGVKTIYALKSGDTYKIIREEWAPFSQQ 7o23-a1-m2-cA_7o23-a1-m3-cA C-terminal head domain of the trimeric autotransporter adhesin BpaC from Burkholderia pseudomallei fused to a GCN4 anchor A0A0H3HIJ5 A0A0H3HIJ5 1.4 X-RAY DIFFRACTION 417 1.0 884204 (Burkholderia pseudomallei 1026b) 884204 (Burkholderia pseudomallei 1026b) 329 329 7o23-a1-m1-cA_7o23-a1-m2-cA 7o23-a1-m1-cA_7o23-a1-m3-cA SGSNSTANGANSTASGDNSTASGTNASATGENSTATGTDSTASGSNSTANGTNSTASGNNSTASGTNASATGENSTATGTDSAASGTNSTANGTNSTASGDNSTASGTNASATGENSTATGTASTASGSNSTANGANSTASGAGATATGENAAATGAGATATGNNASASGTSSTAGGANAIASGENSTTNGANSTASGNGSSAFGESAAAAGDGSTALGANAVASGVGSVATGAGSVASGANSSAYGTGSNATGAGSVAIGQGATASGSNSVALGTGSVASEDNTVSVGSAGSERRITNVAAGVNATDAVNVGQMKQIEDKIEEILSKI SGSNSTANGANSTASGDNSTASGTNASATGENSTATGTDSTASGSNSTANGTNSTASGNNSTASGTNASATGENSTATGTDSAASGTNSTANGTNSTASGDNSTASGTNASATGENSTATGTASTASGSNSTANGANSTASGAGATATGENAAATGAGATATGNNASASGTSSTAGGANAIASGENSTTNGANSTASGNGSSAFGESAAAAGDGSTALGANAVASGVGSVATGAGSVASGANSSAYGTGSNATGAGSVAIGQGATASGSNSVALGTGSVASEDNTVSVGSAGSERRITNVAAGVNATDAVNVGQMKQIEDKIEEILSKI 7o2n-a1-m2-cB_7o2n-a1-m1-cA Crystal structure of B. subtilis UGPase YngB O31822 O31822 2.8 X-RAY DIFFRACTION 137 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 289 291 7b1r-a1-m2-cB_7b1r-a1-m1-cA KVRKAVIPAAGLGTRFLPATKAQPKEMLPIVDKPAIQYIVEEAAESGIEDILIITGRNKRSIEDHFDRSAELEFNLREKGKTETLKEMQQIADLANIHYIRQKEPLGLGHAVLCAEHFIGDEPFAVLLGDDIMVSETPALRQLMDVYDVYGTEVVGVQSVLPEDVSKYGIINTSGSQGHVYEVNDLVEKPSPEEAPSEIAVMGRYVLNSSIFSVLKTIGEIQLTDALREVCRKEPIHARLLEGNRYDIGDKLGCFKASTEIGLMRPEMRSQLLAYLEDVIKRETKEMLR RKKVRKAVIPAAGLGTRFLPATKAQPKEMLPIVDKPAIQYIVEEAAESGIEDILIITGRNKRSIEDHFDRSAELEFNLREKGKTETLKEMQQIADLANIHYIRQKEPLGLGHAVLCAEHFIGDEPFAVLLGDDIMVSETPALRQLMDVYDVYGTEVVGVQSVLPEDVSKYGIINTSGSQGHVYEVNDLVEKPSPEEAPSEIAVMGRYVLNSSIFSVLKTIGEIQLTDALREVCRKEPIHARLLEGNRYDIGDKLGCFKASTEIGLMRPEMRSQLLAYLEDVIKRETKEMLR 7o39-a1-m1-cA_7o39-a1-m1-cB Crystal structure of S. aureus DivIVA N terminal domain Q2FZ83 Q2FZ83 1.3 X-RAY DIFFRACTION 99 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 51 51 FTPNEIKNKEFSRVKNGLEPTEVANFLEQLSTEIERLKEDKKQLEKVIEER FTPNEIKNKEFSRVKNGLEPTEVANFLEQLSTEIERLKEDKKQLEKVIEER 7o3h-a1-m1-cB_7o3h-a1-m1-cM Murine CIII2 focus-refined from supercomplex CICIII2 Q9DB77 Q9DB77 2.6 ELECTRON MICROSCOPY 36 1.0 10090 (Mus musculus) 10090 (Mus musculus) 420 420 7o37-a1-m1-cB_7o37-a1-m1-cM 7o3c-a1-m1-cB_7o3c-a1-m1-cM 7o3e-a1-m1-cB_7o3e-a1-m1-cM QPQDLEFTKLPNGLVIASLENYAPLSRIGLFVKAGSRYEDSNNLGTSHLLRLASSLTTKGASSFKITRGIEAVGGKLSVTATRENMAYTVEGIRSDIEILMEFLLNVTTAPEFRRWEVAALRSQLKIDKAVAFQNSQTRIIENLHDVAYKNALANPLYCPDYRMGKITSEELHYFVQNHFTSARMALVGLGVSHSVLKQVAEQFLNMRGGLGLAGAKAKYRGGEIREQNGDNLVHAAIVAESAAIGNAEANAFSVLQHLLGAGPHIKRGNNTTSLLSQSVAKGSHQPFDVSAFNASYSDSGLFGIYTISQAAAAGEVINAAYNQVKAVAQGNLSSADVQAAKNKLKAGYLMSVETSEGFLSEIGSQALAAGSYMPPSTVLQQIDSVADADVVKAAKKFVSGKKSMAASGNLGHTPFLDEL QPQDLEFTKLPNGLVIASLENYAPLSRIGLFVKAGSRYEDSNNLGTSHLLRLASSLTTKGASSFKITRGIEAVGGKLSVTATRENMAYTVEGIRSDIEILMEFLLNVTTAPEFRRWEVAALRSQLKIDKAVAFQNSQTRIIENLHDVAYKNALANPLYCPDYRMGKITSEELHYFVQNHFTSARMALVGLGVSHSVLKQVAEQFLNMRGGLGLAGAKAKYRGGEIREQNGDNLVHAAIVAESAAIGNAEANAFSVLQHLLGAGPHIKRGNNTTSLLSQSVAKGSHQPFDVSAFNASYSDSGLFGIYTISQAAAAGEVINAAYNQVKAVAQGNLSSADVQAAKNKLKAGYLMSVETSEGFLSEIGSQALAAGSYMPPSTVLQQIDSVADADVVKAAKKFVSGKKSMAASGNLGHTPFLDEL 7o3h-a1-m1-cC_7o3h-a1-m1-cN Murine CIII2 focus-refined from supercomplex CICIII2 P00158 P00158 2.6 ELECTRON MICROSCOPY 57 1.0 10090 (Mus musculus) 10090 (Mus musculus) 380 380 7o37-a1-m1-cC_7o37-a1-m1-cN 7o3c-a1-m1-cC_7o3c-a1-m1-cN 7o3e-a1-m1-cC_7o3e-a1-m1-cN MTNMRKTHPLFKIINHSFIDLPAPSNISSWWNFGSLLGVCLMVQIITGLFLAMHYTSDTMTAFSSVTHICRDVNYGWLIRYMHANGASMFFICLFLHVGRGLYYGSYTFMETWNIGVLLLFAVMATAFMGYVLPWGQMSFWGATVITNLLSAIPYIGTTLVEWIWGGFSVDKATLTRFFAFHFILPFIIAALAIVHLLFLHETGSNNPTGLNSDADKIPFHPYYTIKDILGILIMFLILMTLVLFFPDMLGDPDNYMPANPLNTPPHIKPEWYFLFAYAILRSIPNKLGGVLALILSILILALMPFLHTSKQRSLMFRPITQILYWILVANLLILTWIGGQPVEHPFIIIGQLASISYFSIILILMPISGIIEDKMLKLY MTNMRKTHPLFKIINHSFIDLPAPSNISSWWNFGSLLGVCLMVQIITGLFLAMHYTSDTMTAFSSVTHICRDVNYGWLIRYMHANGASMFFICLFLHVGRGLYYGSYTFMETWNIGVLLLFAVMATAFMGYVLPWGQMSFWGATVITNLLSAIPYIGTTLVEWIWGGFSVDKATLTRFFAFHFILPFIIAALAIVHLLFLHETGSNNPTGLNSDADKIPFHPYYTIKDILGILIMFLILMTLVLFFPDMLGDPDNYMPANPLNTPPHIKPEWYFLFAYAILRSIPNKLGGVLALILSILILALMPFLHTSKQRSLMFRPITQILYWILVANLLILTWIGGQPVEHPFIIIGQLASISYFSIILILMPISGIIEDKMLKLY 7o3v-a1-m1-cC_7o3v-a1-m1-cE Stalk complex structure (TrwJ/VirB5-TrwI/VirB6) from the fully-assembled R388 type IV secretion system determined by cryo-EM. O50331 O50331 3.7 ELECTRON MICROSCOPY 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 198 198 7o3v-a1-m1-cA_7o3v-a1-m1-cC 7o3v-a1-m1-cA_7o3v-a1-m1-cD 7o3v-a1-m1-cB_7o3v-a1-m1-cD 7o3v-a1-m1-cB_7o3v-a1-m1-cE RALDFVQQFARMKEQLDTAKDQLAEAQRMYEAVTGGRGLGDLMRNAQLREYLPDDLRTVYDSANGGGYSGISGSINDILRDERLNGSVADMRRSIEERSRTAAATDKAVGLRAYEGAQQRLAQIEGLMDEISRTQDQKAIEELQARIAGEQAAIQNETTKLQMIAQLRQAEQALISEQRRERNMRILSSGNQGMPTIQ RALDFVQQFARMKEQLDTAKDQLAEAQRMYEAVTGGRGLGDLMRNAQLREYLPDDLRTVYDSANGGGYSGISGSINDILRDERLNGSVADMRRSIEERSRTAAATDKAVGLRAYEGAQQRLAQIEGLMDEISRTQDQKAIEELQARIAGEQAAIQNETTKLQMIAQLRQAEQALISEQRRERNMRILSSGNQGMPTIQ 7o3v-a1-m1-cD_7o3v-a1-m1-cE Stalk complex structure (TrwJ/VirB5-TrwI/VirB6) from the fully-assembled R388 type IV secretion system determined by cryo-EM. O50331 O50331 3.7 ELECTRON MICROSCOPY 235 1.0 562 (Escherichia coli) 562 (Escherichia coli) 198 198 7o3v-a1-m1-cA_7o3v-a1-m1-cB 7o3v-a1-m1-cA_7o3v-a1-m1-cE 7o3v-a1-m1-cB_7o3v-a1-m1-cC 7o3v-a1-m1-cC_7o3v-a1-m1-cD RALDFVQQFARMKEQLDTAKDQLAEAQRMYEAVTGGRGLGDLMRNAQLREYLPDDLRTVYDSANGGGYSGISGSINDILRDERLNGSVADMRRSIEERSRTAAATDKAVGLRAYEGAQQRLAQIEGLMDEISRTQDQKAIEELQARIAGEQAAIQNETTKLQMIAQLRQAEQALISEQRRERNMRILSSGNQGMPTIQ RALDFVQQFARMKEQLDTAKDQLAEAQRMYEAVTGGRGLGDLMRNAQLREYLPDDLRTVYDSANGGGYSGISGSINDILRDERLNGSVADMRRSIEERSRTAAATDKAVGLRAYEGAQQRLAQIEGLMDEISRTQDQKAIEELQARIAGEQAAIQNETTKLQMIAQLRQAEQALISEQRRERNMRILSSGNQGMPTIQ 7o3v-a1-m1-cI_7o3v-a1-m1-cJ Stalk complex structure (TrwJ/VirB5-TrwI/VirB6) from the fully-assembled R388 type IV secretion system determined by cryo-EM. O50333 O50333 3.7 ELECTRON MICROSCOPY 81 1.0 562 (Escherichia coli) 562 (Escherichia coli) 193 260 7o3v-a1-m1-cH_7o3v-a1-m1-cI AFELFTPLFNKIDQTTATYVTDISSRAIAAASAAALVDQSAQQGFDRASEAFEEAGFFSSDGLLYGLFGIIILLATGLLAAIGGAFLLLAKIALALLAGLGPLFILALIWQPTHRFFDQWAQQVLNYGLLIVLFAAVFGLLMQIFGSYMADLRFDGAQNVAYAIGGSVILSIVSIVLLMQLPSIASGLAGGIG AFELFTPLFNKIDQTTATYVTDISSRAIAAITPVVSVGLTLGFITYGWLIIRGAVEMPVAEFLNRCLRIGIIVSIALAGGLYQGEIANAITTVPDELASAAALVDQSAQQGFDRASEAFEEAGFFSSDGLLYGLFGIIILLATGLLAAIGGAFLLLAKIALALLAGLGPLFILALIWQPTHRFFDQWAQQVLNYGLLIVLFAAVFGLLMQIFGSYMADLRFDGAQNVAYAIGGSVILSIVSIVLLMQLPSIASGLAGGIG 7o3v-a1-m1-cJ_7o3v-a1-m1-cF Stalk complex structure (TrwJ/VirB5-TrwI/VirB6) from the fully-assembled R388 type IV secretion system determined by cryo-EM. O50333 O50333 3.7 ELECTRON MICROSCOPY 74 1.0 562 (Escherichia coli) 562 (Escherichia coli) 260 261 7o3v-a1-m1-cF_7o3v-a1-m1-cG 7o3v-a1-m1-cH_7o3v-a1-m1-cG AFELFTPLFNKIDQTTATYVTDISSRAIAAITPVVSVGLTLGFITYGWLIIRGAVEMPVAEFLNRCLRIGIIVSIALAGGLYQGEIANAITTVPDELASAAALVDQSAQQGFDRASEAFEEAGFFSSDGLLYGLFGIIILLATGLLAAIGGAFLLLAKIALALLAGLGPLFILALIWQPTHRFFDQWAQQVLNYGLLIVLFAAVFGLLMQIFGSYMADLRFDGAQNVAYAIGGSVILSIVSIVLLMQLPSIASGLAGGIG AFELFTPLFNKIDQTTATYVTDISSRAIAAITPVVSVGLTLGFITYGWLIIRGAVEMPVAEFLNRCLRIGIIVSIALAGGLYQGEIANAITTVPDELASSAAALVDQSAQQGFDRASEAFEEAGFFSSDGLLYGLFGIIILLATGLLAAIGGAFLLLAKIALALLAGLGPLFILALIWQPTHRFFDQWAQQVLNYGLLIVLFAAVFGLLMQIFGSYMADLRFDGAQNVAYAIGGSVILSIVSIVLLMQLPSIASGLAGGIG 7o45-a1-m1-cB_7o45-a1-m1-cC Crystal structure of ADD domain of the human DNMT3B methyltransferase Q9UBC3 Q9UBC3 2.1 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 141 141 7o45-a1-m1-cA_7o45-a1-m1-cB 7o45-a1-m1-cA_7o45-a1-m1-cC DQSREQMASDVANNKSSLEDGCLSCGRKNPVSFHPLFEGGLCQTCRDRFLELFYMYDDDGYQSYCTVCCEGRELLLCSNTSCCRCFCVECLEVLVGTGTAAEAKLQEPWSCYMCLPQRCHGVLRRRKDWNVRLQAFFTSDT DQSREQMASDVANNKSSLEDGCLSCGRKNPVSFHPLFEGGLCQTCRDRFLELFYMYDDDGYQSYCTVCCEGRELLLCSNTSCCRCFCVECLEVLVGTGTAAEAKLQEPWSCYMCLPQRCHGVLRRRKDWNVRLQAFFTSDT 7o4e-a2-m1-cB_7o4e-a2-m2-cB The DYW domain of A. thaliana OTP86 in its inactive state Q9M1V3 Q9M1V3 2.5 X-RAY DIFFRACTION 14 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 125 125 7o4e-a1-m1-cA_7o4e-a1-m2-cA MGCSWIEMDGKVHKFTARDHPESKEIYEKLSEVTRKLEREVGYVADTKFVLHEKVQHSERIAIAYGLLRTPDRACLRITKNLRVCRDCHTFCKLVSKLFRRDIVMRDANRFHHFESGLCSCGDSW MGCSWIEMDGKVHKFTARDHPESKEIYEKLSEVTRKLEREVGYVADTKFVLHEKVQHSERIAIAYGLLRTPDRACLRITKNLRVCRDCHTFCKLVSKLFRRDIVMRDANRFHHFESGLCSCGDSW 7o4f-a2-m1-cD_7o4f-a2-m1-cB The DYW domain of A. thaliana OTP86 in its active state Q9M1V3 Q9M1V3 1.65 X-RAY DIFFRACTION 44 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 135 136 7o4f-a1-m1-cA_7o4f-a1-m1-cG GCSWIEMDGKVHKFTARDKSHPESKEIYEKLSEVTRKLEREVGYVADTKFVLHNVDEGEKVQMLHGHSERIAIAYGLLRTPDRACLRITKNLRVCRDCHTFCKLVSKLFRRDIVMRDANRFHHFESGLCSCGDSW MGCSWIEMDGKVHKFTARDKSHPESKEIYEKLSEVTRKLEREVGYVADTKFVLHNVDEGEKVQMLHGHSERIAIAYGLLRTPDRACLRITKNLRVCRDCHTFCKLVSKLFRRDIVMRDANRFHHFESGLCSCGDSW 7o4x-a1-m2-cA_7o4x-a1-m3-cA Crystal structure of the PII-like protein PotN from Lentilactobacillus hilgardii A0A6P1EFQ2 A0A6P1EFQ2 1.65 X-RAY DIFFRACTION 87 1.0 525310 (Lentilactobacillus hilgardii ATCC 27305) 525310 (Lentilactobacillus hilgardii ATCC 27305) 103 103 7o4x-a1-m1-cA_7o4x-a1-m2-cA 7o4x-a1-m1-cA_7o4x-a1-m3-cA MKKLEITIRPENLEEVKQILSDRGVSGMTILSAMGAGNQKINLLPKIHVITYVKDHLVGNILIDIHERLSTGEVGDGKVIVSPLEEVMRIRTGERGENALSAW MKKLEITIRPENLEEVKQILSDRGVSGMTILSAMGAGNQKINLLPKIHVITYVKDHLVGNILIDIHERLSTGEVGDGKVIVSPLEEVMRIRTGERGENALSAW 7o54-a1-m2-cA_7o54-a1-m3-cA Crystal structure of the carbonic anhydrase-like domain of CcmM in complex with the C-terminal 17 residues of CcaA from Synechococcus elongatus (strain PCC 7942) Q03513 Q03513 1.63 X-RAY DIFFRACTION 40 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 165 165 7o4z-a1-m1-cA_7o4z-a1-m2-cA 7o4z-a1-m1-cA_7o4z-a1-m3-cA 7o4z-a1-m2-cA_7o4z-a1-m3-cA 7o54-a1-m1-cA_7o54-a1-m2-cA 7o54-a1-m1-cA_7o54-a1-m3-cA AEPYIDPAAQVHAIASIIGDVRIAAGVRVAAGVSIRADEGAPFQVGKESILQEGAVIHGLEYGRVLGDDQADYSVWIGQRVAITHKALIHGPAYLGDDCFVGFRSTVFNARVGAGSVIMMHALVQDVEIPPGRYVPSGAIITTQQQADRLPEVRPEDREFARHII AEPYIDPAAQVHAIASIIGDVRIAAGVRVAAGVSIRADEGAPFQVGKESILQEGAVIHGLEYGRVLGDDQADYSVWIGQRVAITHKALIHGPAYLGDDCFVGFRSTVFNARVGAGSVIMMHALVQDVEIPPGRYVPSGAIITTQQQADRLPEVRPEDREFARHII 7o58-a1-m1-cA_7o58-a1-m1-cB Human phosphomannomutase 2 (PMM2) with mutation T237M in complex with the activator glucose 1,6-bisphosphate O15305 O15305 1.97 X-RAY DIFFRACTION 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 242 242 7o0c-a1-m1-cA_7o0c-a1-m1-cB 7o1b-a1-m1-cA_7o1b-a1-m1-cB 7o4g-a1-m1-cA_7o4g-a1-m1-cB 7o5z-a1-m1-cA_7o5z-a1-m1-cB GPALCLFDVDGTLTAPRQKITKEMDDFLQKLRQKIKIGVVGGSDFEKVQEQLGNDVVEKYDYVFPENGLVAYKDGKLLCRQNIQSHLGEALIQDLINYCLSYIAKIKLPKKRGTFIEFRNGMLNVSPIGRSCSQEERIEFYELDKKENIRQKFVADLRKEFAGKGLTFSIGGQISFDVFPDGWDKRYCLRHVENDGYKTIYFFGDKTMPGGNDHEIFTDPRTMGYSVTAPEDMRRICELLFS GPALCLFDVDGTLTAPRQKITKEMDDFLQKLRQKIKIGVVGGSDFEKVQEQLGNDVVEKYDYVFPENGLVAYKDGKLLCRQNIQSHLGEALIQDLINYCLSYIAKIKLPKKRGTFIEFRNGMLNVSPIGRSCSQEERIEFYELDKKENIRQKFVADLRKEFAGKGLTFSIGGQISFDVFPDGWDKRYCLRHVENDGYKTIYFFGDKTMPGGNDHEIFTDPRTMGYSVTAPEDMRRICELLFS 7o5y-a2-m2-cA_7o5y-a2-m1-cD PilA minor pilin of Streptococcus sanguinis type IV pili A0A0B7GNW3 A0A0B7GNW3 1.77 X-RAY DIFFRACTION 56 0.992 1305 (Streptococcus sanguinis) 1305 (Streptococcus sanguinis) 124 129 7o5y-a1-m1-cB_7o5y-a1-m1-cC SQTQRYNYLKAKYTATSGTQLAWGAYLDPVDGNPSSVYAEFDERAHNVDPSTEPIKSTHTFKDGSVAEIENGQLVDGLTGPENYNITIKSKSKLAGSNDYYEHIVTFNFDTKGIRSEEGHLRSA DHHHHQSQTQRYNYLKAKYTATSGTQLAWGAYLDPVDGNPSSVYAEFDERAHNVDPSTEPIKSTHTFKDGSVAEIENGQLVDGLTGPENYNITIKSKSKLAGSNDYYEHIVTFNFDTKGIRSEEGHLRS 7o61-a1-m1-cA_7o61-a1-m1-cB Crystal structure of the C-terminal PASTA domains of Staphylococcus aureus PBP1 Q2FZ94 Q2FZ94 1.78 X-RAY DIFFRACTION 38 1.0 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 116 117 EYSKVPDVEGQDKQKAIDNVSAKSLEPVTIGSGTQIKAQSIKAGNKVLPHSKVLLLTDGDLTMPDMSGWTKEDVIAFENLTNIKVNLKGSGFVSHQSISKGQKLTEKDKIDVEFSS AEYSKVPDVEGQDKQKAIDNVSAKSLEPVTIGSGTQIKAQSIKAGNKVLPHSKVLLLTDGDLTMPDMSGWTKEDVIAFENLTNIKVNLKGSGFVSHQSISKGQKLTEKDKIDVEFSS 7o62-a1-m1-cD_7o62-a1-m1-cA Crystal structure of a 2`-deoxyribosyltransferase from the psychrophilic bacterium Desulfotalea psychrophila. Q6AQB0 Q6AQB0 2.4 X-RAY DIFFRACTION 45 1.0 177439 (Desulfotalea psychrophila LSv54) 177439 (Desulfotalea psychrophila LSv54) 126 135 7o62-a1-m1-cC_7o62-a1-m1-cB RPKLYLAAPLFNEAEKESNRNIRDSLIDCCDVFLPQEDKVAEKSIYEADISAMKNADILLAVLDGACIDDGVAFELGYAKAINKVCLGFQTDVRRQAPTGNNPMIECSCEEIFSDLGSLKKWLQQK SFRPKLYLAAPLFNEAEKESNRNIRDSLIDCCDVFLPQEDLGTPLKVAEKSIYEADISAMKNADILLAVLDGACIDDGVAFELGYAKAINKVCLGFQTDVRRQAPTGNNPMIECSCEEIFSDLGSLKKWLQQKYN 7o62-a1-m1-cD_7o62-a1-m1-cB Crystal structure of a 2`-deoxyribosyltransferase from the psychrophilic bacterium Desulfotalea psychrophila. Q6AQB0 Q6AQB0 2.4 X-RAY DIFFRACTION 21 1.0 177439 (Desulfotalea psychrophila LSv54) 177439 (Desulfotalea psychrophila LSv54) 126 137 7o62-a1-m1-cC_7o62-a1-m1-cA RPKLYLAAPLFNEAEKESNRNIRDSLIDCCDVFLPQEDKVAEKSIYEADISAMKNADILLAVLDGACIDDGVAFELGYAKAINKVCLGFQTDVRRQAPTGNNPMIECSCEEIFSDLGSLKKWLQQK SFRPKLYLAAPLFNEAEKESNRNIRDSLIDCCDVFLPQEDGLLLDEPLKVAEKSIYEADISAMKNADILLAVLDGACIDDGVAFELGYAKAINKVCLGFQTDVRRQAPTGNNPMIECSCEEIFSDLGSLKKWLQQKY 7o62-a1-m1-cD_7o62-a1-m1-cC Crystal structure of a 2`-deoxyribosyltransferase from the psychrophilic bacterium Desulfotalea psychrophila. Q6AQB0 Q6AQB0 2.4 X-RAY DIFFRACTION 103 1.0 177439 (Desulfotalea psychrophila LSv54) 177439 (Desulfotalea psychrophila LSv54) 126 133 RPKLYLAAPLFNEAEKESNRNIRDSLIDCCDVFLPQEDKVAEKSIYEADISAMKNADILLAVLDGACIDDGVAFELGYAKAINKVCLGFQTDVRRQAPTGNNPMIECSCEEIFSDLGSLKKWLQQK SFRPKLYLAAPLFNEAEKESNRNIRDSLIDCCDVFLPQEDTPLKVAEKSIYEADISAMKNADILLAVLDGACIDDGVAFELGYAKAINKVCLGFQTDVRRQAPTGNNPMIECSCEEIFSDLGSLKKWLQQKYN 7o6l-a1-m1-cB_7o6l-a1-m1-cA Crystal structure of C. elegans ERH-2 Q20057 Q20057 1.5 X-RAY DIFFRACTION 41 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 86 91 7ejo-a1-m1-cB_7ejo-a1-m1-cA 7ejs-a1-m1-cA_7ejs-a1-m1-cB 7o6n-a1-m1-cA_7o6n-a1-m1-cB SSHTVLLIQTSPRLDSRTWGDYESVTDALDALCKMFEDFLTYDVSQVYEFLDKLSDVSMMIFNRETGQYIGRTRAWIKQQVYEMMR TSSHTVLLIQTSPRLDSRTWGDYESVTDALDALCKMFEDFLSVTYDVSQVYEFLDKLSDVSMMIFNRETGQYIGRTRAWIKQQVYEMMRGR 7o6p-a1-m1-cA_7o6p-a1-m1-cD Structure of the borneol dehydrogenase 2 of Salvia officinalis A0A8F5XX49 A0A8F5XX49 2.04 ELECTRON MICROSCOPY 64 1.0 38868 (Salvia officinalis) 38868 (Salvia officinalis) 256 257 7o6p-a1-m1-cC_7o6p-a1-m1-cB LPLRLLGRVALVTGGSSGIGESIVLLFRKHGAKVCIADVQDNQGQRLCETLGGSSDIAFCHCDVTIEDDVKRAVDFTVDKFGTLDIMVNNAGVSGPPCPDIRDFELSAFDRVFDINVRGVFIGMKHAARIMIPAKKGSIISISSVASTMGGLGPHAYTGSKHAVLGLTKNVAAELGKHGIRVNCVSPYAVATDTWDDFRRFVADNANLQGVELTMEDVANAVVFLASDEARYVSGMNLMVDGGFTSTNHALQVFRP SLPLRLLGRVALVTGGSSGIGESIVLLFRKHGAKVCIADVQDNQGQRLCETLGGSSDIAFCHCDVTIEDDVKRAVDFTVDKFGTLDIMVNNAGVSGPPCPDIRDFELSAFDRVFDINVRGVFIGMKHAARIMIPAKKGSIISISSVASTMGGLGPHAYTGSKHAVLGLTKNVAAELGKHGIRVNCVSPYAVATDTWDDFRRFVADNANLQGVELTMEDVANAVVFLASDEARYVSGMNLMVDGGFTSTNHALQVFRP 7o6p-a1-m1-cB_7o6p-a1-m1-cD Structure of the borneol dehydrogenase 2 of Salvia officinalis A0A8F5XX49 A0A8F5XX49 2.04 ELECTRON MICROSCOPY 119 1.0 38868 (Salvia officinalis) 38868 (Salvia officinalis) 255 257 7o6p-a1-m1-cC_7o6p-a1-m1-cA LPLRLLGRVALVTGGSSGIGESIVLLFRKHGAKVCIADVQDNQGQRLCETLGGSSDIAFCHCDVTIEDDVKRAVDFTVDKFGTLDIMVNNAGVSGPPCPDIRDFELSAFDRVFDINVRGVFIGMKHAARIMIPAKKGSIISISSVASTMGGLGPHAYTGSKHAVLGLTKNVAAELGKHGIRVNCVSPYAVATTWDDFRRFVADNANLQGVELTMEDVANAVVFLASDEARYVSGMNLMVDGGFTSTNHALQVFRP SLPLRLLGRVALVTGGSSGIGESIVLLFRKHGAKVCIADVQDNQGQRLCETLGGSSDIAFCHCDVTIEDDVKRAVDFTVDKFGTLDIMVNNAGVSGPPCPDIRDFELSAFDRVFDINVRGVFIGMKHAARIMIPAKKGSIISISSVASTMGGLGPHAYTGSKHAVLGLTKNVAAELGKHGIRVNCVSPYAVATDTWDDFRRFVADNANLQGVELTMEDVANAVVFLASDEARYVSGMNLMVDGGFTSTNHALQVFRP 7o6p-a1-m1-cC_7o6p-a1-m1-cD Structure of the borneol dehydrogenase 2 of Salvia officinalis A0A8F5XX49 A0A8F5XX49 2.04 ELECTRON MICROSCOPY 142 1.0 38868 (Salvia officinalis) 38868 (Salvia officinalis) 254 257 7o6p-a1-m1-cB_7o6p-a1-m1-cA LPLRLLGRVALVTGGSSGIGESIVLLFRKHGAKVCIADVQDNQGQRLCETLGGSSDIAFCHCDVTIEDDVKRAVDFTVDKFGTLDIMVNNAGVSGPPCPDIRDFELSAFDRVFDINVRGVFIGMKHAARIMIPAKKGSIISISSVASTMGGLGPHAYTGSKHAVLGLTKNVAAELGKHGIRVNCVSPYAVDTWDDFRRFVADNANLQGVELTMEDVANAVVFLASDEARYVSGMNLMVDGGFTSTNHALQVFRP SLPLRLLGRVALVTGGSSGIGESIVLLFRKHGAKVCIADVQDNQGQRLCETLGGSSDIAFCHCDVTIEDDVKRAVDFTVDKFGTLDIMVNNAGVSGPPCPDIRDFELSAFDRVFDINVRGVFIGMKHAARIMIPAKKGSIISISSVASTMGGLGPHAYTGSKHAVLGLTKNVAAELGKHGIRVNCVSPYAVATDTWDDFRRFVADNANLQGVELTMEDVANAVVFLASDEARYVSGMNLMVDGGFTSTNHALQVFRP 7o6w-a1-m1-cA_7o6w-a1-m1-cB Crystal structure of (the) VEL1 VEL polymerising domain (I664D mutant) Q9SUM4 Q9SUM4 2.64 X-RAY DIFFRACTION 27 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 69 69 GLEHCVKIIRQLECSGHIDKNFRQKFLTWYSLRATSQEIRVVKDFIDTFIDDPMALAEQLIDTFDDRVS GLEHCVKIIRQLECSGHIDKNFRQKFLTWYSLRATSQEIRVVKDFIDTFIDDPMALAEQLIDTFDDRVS 7o6z-a1-m1-cA_7o6z-a1-m1-cB Structure of a neodymium-containing, XoxF1-type methanol dehydrogenase A0A7R8L7W4 A0A7R8L7W4 2.3 X-RAY DIFFRACTION 90 1.0 2730359 (Methylacidimicrobium sp. AP8) 2730359 (Methylacidimicrobium sp. AP8) 588 588 NDDVLKLTENPKNWAAPGKDYANTRHSPLKQINTQNVKGLHMAWSFSTGVLRGHEGQPLVIGDRMYVVTPYPNIVWALDISKGNSYEVLWKYAPRQDDKAVSTACCDTVNRGASYADGKIVFNTLDGYVVCLDANTGKELWKTKFADVNKGETSTPAPIIVKDKVVTGYGGDEFGARGRFAAFDLNSGKMVWQAYSNGPDSDVLLGPDFNSKHPEYGQAGQDLGVKTYPDEEWKRGGGCAWGWYSYDPKLDLIYYNTGNPGLWSPSYRTEAKTHEEANEPWKWDNKWSMTIFARKPDTGEAVWGYQMTPFDQWDYDGINEDVLVDITVDGSKKPCLVHFDRNGFCYVLNRTDGTIIRANKFVTVNWAEKIDMKTGRPVKVKEHSPFEVGKAVQAYPSAMGGKDQQPVAVDPKEPNVFYAPTNNWGMTLEPMERAHTNQGSVYVFANVLMKPEKPGVMGRFKAFDVITGKARWDIPERFPTWSGALVTDGGLAFYGTLDGWFKAVDRKTGKVLWQQKLGSGIIGNPISYEVGGKQYISVLSGIGGWIGLPVTAGLDPADPYGALGVSGMAAENGFYNIPMGGTLYTFCV NDDVLKLTENPKNWAAPGKDYANTRHSPLKQINTQNVKGLHMAWSFSTGVLRGHEGQPLVIGDRMYVVTPYPNIVWALDISKGNSYEVLWKYAPRQDDKAVSTACCDTVNRGASYADGKIVFNTLDGYVVCLDANTGKELWKTKFADVNKGETSTPAPIIVKDKVVTGYGGDEFGARGRFAAFDLNSGKMVWQAYSNGPDSDVLLGPDFNSKHPEYGQAGQDLGVKTYPDEEWKRGGGCAWGWYSYDPKLDLIYYNTGNPGLWSPSYRTEAKTHEEANEPWKWDNKWSMTIFARKPDTGEAVWGYQMTPFDQWDYDGINEDVLVDITVDGSKKPCLVHFDRNGFCYVLNRTDGTIIRANKFVTVNWAEKIDMKTGRPVKVKEHSPFEVGKAVQAYPSAMGGKDQQPVAVDPKEPNVFYAPTNNWGMTLEPMERAHTNQGSVYVFANVLMKPEKPGVMGRFKAFDVITGKARWDIPERFPTWSGALVTDGGLAFYGTLDGWFKAVDRKTGKVLWQQKLGSGIIGNPISYEVGGKQYISVLSGIGGWIGLPVTAGLDPADPYGALGVSGMAAENGFYNIPMGGTLYTFCV 7o78-a1-m1-cA_7o78-a1-m1-cB Structure of the PL6 family chondroitinase B from Pseudopedobacter saltans, Pedsa3807 F0S763 F0S763 1.58 X-RAY DIFFRACTION 31 1.0 762903 (Pseudopedobacter saltans DSM 12145) 762903 (Pseudopedobacter saltans DSM 12145) 491 492 KHILVASVKEVYSKVDQLKAGDTLLLKDGIYKDIQLVVKRSGSKEKPIVIAAQNGGKVFFTGDAKVELRGEYLVLKDIYFKDGNRNVNQWKSHGPGLVAIYGSYNRVTGCVFNAFDEANSAYITTSLTEEGKVPKHCRIDHCVFTDKITFDQVINLNNRPRADKESKVLGEAMYHRIDHCFFSNPPKPGNAGGGIRVGYYRNDIGRCLIDSNLFVRQDSEAEIVTSKSQENVYYGNTILNCQGTLNFRHGDKQVALNNFFISTDNKYGYGGMFVWGSQHIIANNYFNLKKTIKARGNAALYLNPGPEGSEHALAFNSLIVNNFFDDNNGYDINFEPLLERRKEFAKEVNAEFKLPYNITIEGNLFASKQGDKHIPFLGNLDKNNLQNNYSFGQMANDKLFTNVKPTTDGSYNPQSYKGYQLANVKDIKNIEGIDLDIQNLINKGIEGNPLTWNDVRPSWLVEIPGSYAKEGTLDQETKIRFQRVLARDRNN GKHILVASVKEVYSKVDQLKAGDTLLLKDGIYKDIQLVVKRSGSKEKPIVIAAQNGGKVFFTGDAKVELRGEYLVLKDIYFKDGNRNVNQWKSHGPGLVAIYGSYNRVTGCVFNAFDEANSAYITTSLTEEGKVPKHCRIDHCVFTDKITFDQVINLNNRPRADKESKVLGEAMYHRIDHCFFSNPPKPGNAGGGIRVGYYRNDIGRCLIDSNLFVRQDSEAEIVTSKSQENVYYGNTILNCQGTLNFRHGDKQVALNNFFISTDNKYGYGGMFVWGSQHIIANNYFNLKKTIKARGNAALYLNPGPEGSEHALAFNSLIVNNFFDDNNGYDINFEPLLERRKEFAKEVNAEFKLPYNITIEGNLFASKQGDKHIPFLGNLDKNNLQNNYSFGQMANDKLFTNVKPTTDGSYNPQSYKGYQLANVKDIKNIEGIDLDIQNLINKGIEGNPLTWNDVRPSWLVEIPGSYAKEGTLDQETKIRFQRVLARDRNN 7o7a-a1-m1-cB_7o7a-a1-m1-cA Structure of the PL6 family alginate lyase Pedsa0632 from Pseudopedobacter saltans F0S7Y7 F0S7Y7 1.99 X-RAY DIFFRACTION 14 1.0 762903 (Pseudopedobacter saltans DSM 12145) 762903 (Pseudopedobacter saltans DSM 12145) 406 408 7o84-a1-m1-cB_7o84-a1-m1-cA GNIYNISSANELNALKLQPGDKVIFKKGNWKNQQINFKANGTKEKPVVLAAEKGGETIFSGNSNLKIDGNWLVVDGFVFKDGFSEKADVILFTKSTSNSRITNSSIINYNHPDKTFDYKWLSLNGENNRVDHCDFTGKTHQGTTLVVWLDEKPNHHQIDHNYFGPRPALGVNGGETIRIGTSTWSMHDSYTLVENNIFDKCDGEMEIISLKSGHNTVNNNLFYECDGTVTFRHGNYNTVSNNYILGNGKKNTGGIRIIGENHKVFGNYLQGLDGSGLRAAISIMSALEKPQLHEYFQVINPQIVGNIIADSKEGIDIGAGKNEKRMLPPKDGFLKNNYVINTRTVIKTENEPEGLLIENNQTDASSLPKGFTKVGSDLVKSDGIWQKKNDVKTPFWKKEKIGPEWN TGNIYNISSANELNALKLQPGDKVIFKKGNWKNQQINFKANGTKEKPVVLAAEKGGETIFSGNSNLKIDGNWLVVDGFVFKDGFSEKADVILFTKSTSNSRITNSSIINYNHPDKTFDYKWLSLNGENNRVDHCDFTGKTHQGTTLVVWLDEKPNHHQIDHNYFGPRPALGVNGGETIRIGTSTWSMHDSYTLVENNIFDKCDGEMEIISLKSGHNTVNNNLFYECDGTVTFRHGNYNTVSNNYILGNGKKNTGGIRIIGENHKVFGNYLQGLDGSGLRAAISIMSALEKPQLHEYFQVINPQIVGNIIADSKEGIDIGAGKNEKRMLPPKDGFLKNNYVINTRTVIKTENEPEGLLIENNQTDASSLPKGFTKVGSDLVKSDGIWQKKNDVKTPFWKKEKIGPEWNN 7o82-a1-m1-cB_7o82-a1-m1-cA The L-arginine/agmatine antiporter from E. coli at 1.7 A resolution P60061 P60061 1.69 X-RAY DIFFRACTION 168 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 436 437 3l1l-a1-m1-cA_3l1l-a1-m2-cA 3lrb-a1-m1-cA_3lrb-a1-m1-cB 3lrc-a1-m1-cA_3lrc-a1-m1-cB 3lrc-a2-m1-cC_3lrc-a2-m1-cD 3ncy-a1-m1-cB_3ncy-a1-m1-cA 3ncy-a2-m1-cD_3ncy-a2-m1-cC 3ob6-a1-m1-cA_3ob6-a1-m1-cB 5j4i-a1-m1-cA_5j4i-a1-m1-cB 5j4n-a1-m1-cB_5j4n-a1-m1-cA DAHKVGLIPVTLMVSGNIMGSGVFLLPANLASTGGIAIYGWLVTIIGALGLSMVYAKMSFLDPSPGGSYAYARRCFGPFLGYQTNVLYWLACWIGNIAMVVIGVGYLSYFFPILKDPLVLTITCVVVLWIFVLLNIVGPKMITRVQAVATVLALIPIVGIAVFGWFWFRGETYMAAWNVSGLGTFGAIQSTLNVTLWSFIGVESASVAAGVVKNPKRNVPIATIGGVLIAAVCYVLSTTAIMGMIPNAALRVSASPFGDAARMALGDTAGAIVSFCAAAGCLGSLGGWTLLAGQTAKAAADDGLFPPIFARVNKAGTPVAGLIIVGILMTIFQLSSISPNATKEFGLVSSVSVIFTLVPYLYTCAALLLLGHGHFGKARPAYLAVTTIAFLYCIWAVVGSGAKEVMWSFVTLMVITAMYALNYNRLHKNPYPLDAP ADAHKVGLIPVTLMVSGNIMGSGVFLLPANLASTGGIAIYGWLVTIIGALGLSMVYAKMSFLDPSPGGSYAYARRCFGPFLGYQTNVLYWLACWIGNIAMVVIGVGYLSYFFPILKDPLVLTITCVVVLWIFVLLNIVGPKMITRVQAVATVLALIPIVGIAVFGWFWFRGETYMAAWNVSGLGTFGAIQSTLNVTLWSFIGVESASVAAGVVKNPKRNVPIATIGGVLIAAVCYVLSTTAIMGMIPNAALRVSASPFGDAARMALGDTAGAIVSFCAAAGCLGSLGGWTLLAGQTAKAAADDGLFPPIFARVNKAGTPVAGLIIVGILMTIFQLSSISPNATKEFGLVSSVSVIFTLVPYLYTCAALLLLGHGHFGKARPAYLAVTTIAFLYCIWAVVGSGAKEVMWSFVTLMVITAMYALNYNRLHKNPYPLDAP 7o85-a1-m1-cP_7o85-a1-m1-cS Anthrax toxin prepore in complex with the neutralizing Fab cAb29 P13423 P13423 3.3 ELECTRON MICROSCOPY 97 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 332 332 7o85-a1-m1-cA_7o85-a1-m1-cD 7o85-a1-m1-cA_7o85-a1-m1-cS 7o85-a1-m1-cD_7o85-a1-m1-cG 7o85-a1-m1-cG_7o85-a1-m1-cJ 7o85-a1-m1-cJ_7o85-a1-m1-cM 7o85-a1-m1-cM_7o85-a1-m1-cP TVPDRDNDGIPDSLEVEGYTVDVKNKRTFLSPWISNIHEKKGLTKYKSSPEKWSTASDPYSDFEKVTGRIDKNVSPEARHPLVAAYPIVHVSTSRTHTSEVHGNAEVHASFFDIGGSVSAGFSNSNSSTVARYVNTGTAPIYNVLPTTLSQILAPNNYYPSKNLALRLDTDQVYGNIATYNFENGRVRVDTGSNWSEVLPQIQETTARIIFNGKDLNLVERRIAAVNPSDPLETTKPDMTLKEALKIAFGFNEPNGNLQYQGKDITEFDFNFDQQTSQNIKNQLAELNATNIYTVLDKIKLNAKMNILIRDKRFHYDRNNIAVGADESVVKE TVPDRDNDGIPDSLEVEGYTVDVKNKRTFLSPWISNIHEKKGLTKYKSSPEKWSTASDPYSDFEKVTGRIDKNVSPEARHPLVAAYPIVHVSTSRTHTSEVHGNAEVHASFFDIGGSVSAGFSNSNSSTVARYVNTGTAPIYNVLPTTLSQILAPNNYYPSKNLALRLDTDQVYGNIATYNFENGRVRVDTGSNWSEVLPQIQETTARIIFNGKDLNLVERRIAAVNPSDPLETTKPDMTLKEALKIAFGFNEPNGNLQYQGKDITEFDFNFDQQTSQNIKNQLAELNATNIYTVLDKIKLNAKMNILIRDKRFHYDRNNIAVGADESVVKE 7o8c-a1-m1-cB_7o8c-a1-m1-cA Structure of SGBP BO2743 from Bacteroides ovatus A7LY27 A7LY27 2 X-RAY DIFFRACTION 137 1.0 411476 (Bacteroides ovatus ATCC 8483) 411476 (Bacteroides ovatus ATCC 8483) 579 582 ERRRARREIRHLPNLNREQRRAFIRSLRDDPSQSANLLAEAKKLNDAQPKGTENLYFQSMIDPNAQLTTAQLQTYGDLSMMEIYRNYHYAFTQQLMGCWNTTNYGGRHTLDNNEMSRIWTSFYTQSLKNIIDAQYRTAEDAEKVNINSVLRIYRVYLMSIITDTYGDAPFSEAGLGFLEGKFNPKYDKQEDIYNAFFLELEDAVNKIDPTKDKVTGDLIYAGDVTKWQQLANSLRLRFAMRISSVNPTKAQTEFENALAANGGVITDASSDALIKYMTIAFSFGQEAYSDYRGNSLSQLLFGNDPANNPSYLCSTFFNQLYNSGDPRTFKISRCYYDGLMSATSPDNRVDITQEMIEKGIAFSPRDPGAYSWEPWPTGYDSDICAELAVNNPSVTATMAREVEPKLANNFLKSDNPGVVMTSAEVKFLMAEATVKKWNVGSVSAEDLYKQGVRAAIDFLTDNYGCTATTDAEFDAFIQDKGAFGHTDNQKLEAINTQAWILHFTNPAECWANVRRSGYPKLKSPAEYGFGQYLTGGTEIPVRLCYPVLESSYNKKSYNEAIERMGGTDNWHSLLWWDTE FNKERRRARREIRHLPNLNREQRRAFIRSLRDDPSQSANLLAEAKKLNDAQPKGTENLYFQSMIDPNAQLTTAQLQTYGDLSMMEIYRNYHYAFTQQLMGCWNTTNYGGRHTLDNNEMSRIWTSFYTQSLKNIIDAQYRTAEDAEKVNINSVLRIYRVYLMSIITDTYGDAPFSEAGLGFLEGKFNPKYDKQEDIYNAFFLELEDAVNKIDPTKDKVTGDLIYAGDVTKWQQLANSLRLRFAMRISSVNPTKAQTEFENALAANGGVITDASSDALIKYMTIAFSFGQEAYSDYRGNSLSQLLFGNDPANNPSYLCSTFFNQLYNSGDPRTFKISRCYYDGLMSATSPDNRVDITQEMIEKGIAFSPRDPGAYSWEPWPTGYDSDICAELAVNNPSVTATMAREVEPKLANNFLKSDNPGVVMTSAEVKFLMAEATVKKWNVGSVSAEDLYKQGVRAAIDFLTDNYGCTATTDAEFDAFIQDKGAFGHTDNQKLEAINTQAWILHFTNPAECWANVRRSGYPKLKSPAEYGFGQYLTGGTEIPVRLCYPVLESSYNKKSYNEAIERMGGTDNWHSLLWWDTE 7o97-a2-m3-cB_7o97-a2-m5-cB hypothetical protein UY81_C0065G0003 from Candidatus Giovannonibacteria bacterium converted into a canonical coiled coil A0A0G1XU35 A0A0G1XU35 2 X-RAY DIFFRACTION 64 1.0 2053557 (Candidatus Giovannonibacteria bacterium) 2053557 (Candidatus Giovannonibacteria bacterium) 73 73 7o97-a1-m1-cA_7o97-a1-m2-cA 7o97-a1-m1-cA_7o97-a1-m4-cA 7o97-a1-m2-cA_7o97-a1-m4-cA 7o97-a2-m1-cB_7o97-a2-m3-cB 7o97-a2-m1-cB_7o97-a2-m5-cB KPITLEKLVSMVAVGFAETKAETATIKAETATIKKDIAGMKHDIAQLDKRIDGLDKKIADLVDRIGRVESKLD KPITLEKLVSMVAVGFAETKAETATIKAETATIKKDIAGMKHDIAQLDKRIDGLDKKIADLVDRIGRVESKLD 7o9h-a1-m1-cA_7o9h-a1-m1-cB Escherichia coli FtsY in complex with pppGpp P10121 P10121 2.4 X-RAY DIFFRACTION 39 1.0 668369 (Escherichia coli DH5[alpha]) 668369 (Escherichia coli DH5[alpha]) 302 303 GFFARLKRSLLKTKENLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITNLTEGASRKQLRDAEALYGLLKEEMGEILAKVDEPLNVEGKTPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARNIDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVEAPHEVMLTIDASTGQNAVSQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFKADDFIEALFAR GFFARLKRSLLKTKENLGSGFISLFRGKKIDDDLFEELEEQLLIADVGVETTRKIITNLTEGASRKQLRDAEALYGLLKEEMGEILAKVDEPLNVEGKTPFVILMVGVNGVGKTTTIGKLARQFEQQGKSVMLAAGDTFRAAAVEQLQVWGQRNNIPVIAQHTGADSASVIFDAIQAAKARNIDVLIADTAGRLQNKSHLMEELKKIVRVMKKLDVEAPHEVMLTIDASTGQNAVSQAKLFHEAVGLTGITLTKLDGTAKGGVIFSVADQFGIPIRYIGVGERIEDLRPFKADDFIEALFARE 7o9v-a1-m1-cC_7o9v-a1-m1-cB hypothetical protein OMM_04225 residues 244-274 from Candidatus Magnetoglobus multicellularis fused to GCN4 adaptors A0A1V1P2N3 A0A1V1P2N3 1.99 X-RAY DIFFRACTION 97 1.0 890399 (Candidatus Magnetoglobus multicellularis str. Araruama) 890399 (Candidatus Magnetoglobus multicellularis str. Araruama) 81 84 7o9v-a1-m1-cA_7o9v-a1-m1-cB 7o9v-a1-m1-cA_7o9v-a1-m1-cC MKQIEMKIEEILSKIYHIENEIARIKKLISQKANSQDVYNKTDLYPKTDLYTKTEMDTAMKQIEWKIEEILSKIYHIENEI GMKQIEMKIEEILSKIYHIENEIARIKKLISQKANSQDVYNKTDLYPKTDLYTKTEMDTAMKQIEWKIEEILSKIYHIENEIAR 7oa5-a1-m1-cG_7oa5-a1-m1-cF RUVA COMPLEXED TO A HOLLIDAY JUNCTION. P40832 P40832 2.378 X-RAY DIFFRACTION 86 1.0 272631 (Mycobacterium leprae TN) 272631 (Mycobacterium leprae TN) 177 184 7oa5-a1-m1-cA_7oa5-a1-m1-cB 7oa5-a1-m1-cA_7oa5-a1-m1-cD 7oa5-a1-m1-cC_7oa5-a1-m1-cB 7oa5-a1-m1-cE_7oa5-a1-m1-cF 7oa5-a1-m1-cE_7oa5-a1-m1-cH 7oa5-a1-m1-cG_7oa5-a1-m1-cH MIFSVRGEVLEVALDHAVIEAAGIGYRVNATPSALATLRQGSQARLVTAMVVREDSMTLYGFSDAENRDLFLALLSVSGVGPRLAMATLAVHDAAALRQALADSDVASLTRVPGIGKRGAERIVLELRDKVAVRGSVVEALVGLGFAAKQAEEATDQVLDGEATSSALRAALSLLGK MIFSVRGEVLEVALDHAVIEAAGIGYRVNATPSALATLRQGSQARLVTAMVVREDSMTLYGFSDAENRDLFLALLSVSGVGPRLAMATLAVHDAAALRQALADSDVASLTRVPGIGKRGAERIVLELRDKVNAVRGSVVEALVGLGFAAKQAEEATDQVLDGELGKVATSSALRAALSLLGKTR 7oa6-a1-m1-cA_7oa6-a1-m1-cB Pseudo-atomic model for Hsp26 residues 63 to 214. Please be advised that the target map is not of sufficient resolution to unambiguously position backbone or side chain atoms. This model represents a likely fit. P15992 P15992 7.8 ELECTRON MICROSCOPY 150 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 152 152 YDPRDETLDDWFDNDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKLKPQKDGKNHVKKIEVSSQESWGN YDPRDETLDDWFDNDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKLKPQKDGKNHVKKIEVSSQESWGN 7oa6-a1-m1-cB_7oa6-a1-m1-cI Pseudo-atomic model for Hsp26 residues 63 to 214. Please be advised that the target map is not of sufficient resolution to unambiguously position backbone or side chain atoms. This model represents a likely fit. P15992 P15992 7.8 ELECTRON MICROSCOPY 22 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 152 152 7oa6-a1-m1-cX_7oa6-a1-m1-cB YDPRDETLDDWFDNDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKLKPQKDGKNHVKKIEVSSQESWGN YDPRDETLDDWFDNDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKLKPQKDGKNHVKKIEVSSQESWGN 7oa6-a1-m1-cJ_7oa6-a1-m1-cB Pseudo-atomic model for Hsp26 residues 63 to 214. Please be advised that the target map is not of sufficient resolution to unambiguously position backbone or side chain atoms. This model represents a likely fit. P15992 P15992 7.8 ELECTRON MICROSCOPY 53 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 116 152 NDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKL YDPRDETLDDWFDNDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKLKPQKDGKNHVKKIEVSSQESWGN 7oa6-a1-m1-cJ_7oa6-a1-m1-cI Pseudo-atomic model for Hsp26 residues 63 to 214. Please be advised that the target map is not of sufficient resolution to unambiguously position backbone or side chain atoms. This model represents a likely fit. P15992 P15992 7.8 ELECTRON MICROSCOPY 171 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 116 152 7oa6-a1-m1-cX_7oa6-a1-m1-cI NDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKL YDPRDETLDDWFDNDLSLFPSGFGFPRSVAVPVDILDHDNNYELKVVVPGVKSKKDIDIEYHQNKNQILVSGEIPSTLNEESKDKVKVKESSSGKFKRVITLPDYPGVDADNIKADYANGVLTLTVPKLKPQKDGKNHVKKIEVSSQESWGN 7oan-a1-m1-cB_7oan-a1-m1-cC Nanobody C5 bound to Spike P0DTC2 P0DTC2 3.0 ELECTRON MICROSCOPY 292 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1049 1049 7oan-a1-m1-cA_7oan-a1-m1-cB 7oan-a1-m1-cA_7oan-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ob7-a1-m1-cA_7ob7-a1-m2-cA CPR-C4 - novel protease from the Candidate Phyla Radiation (CPR) 2.682 X-RAY DIFFRACTION 103 1.0 1618338 (candidate division CPR1) 1618338 (candidate division CPR1) 211 211 7ob6-a1-m1-cB_7ob6-a1-m1-cA 7pjo-a1-m1-cAAA_7pjo-a1-m1-cBBB MHYKAQLQKLLTTEEKKILARLSTPQKIQDFLDTIKNKHTMWSPRAVLKHKHAHCMEGAMLAALALAYHGHSPLLMDLQTTDEDEDHVVALFKIDGHWGAISKTNHPVLRYRDPIYKSVRELAMSYFHEYFIWWTKKNGGKKTLRAYSNPFDLTRYKPERWVIATGDLDWLAEALDDSKHFPILNKKMQKQLRPASRIETKAASLSEWPKR MHYKAQLQKLLTTEEKKILARLSTPQKIQDFLDTIKNKHTMWSPRAVLKHKHAHCMEGAMLAALALAYHGHSPLLMDLQTTDEDEDHVVALFKIDGHWGAISKTNHPVLRYRDPIYKSVRELAMSYFHEYFIWWTKKNGGKKTLRAYSNPFDLTRYKPERWVIATGDLDWLAEALDDSKHFPILNKKMQKQLRPASRIETKAASLSEWPKR 7obo-a1-m1-cAAA_7obo-a1-m2-cAAA GSTF1 from Alopecurus myosuroides Q9ZS17 Q9ZS17 2.3 X-RAY DIFFRACTION 72 1.0 81473 (Alopecurus myosuroides) 81473 (Alopecurus myosuroides) 214 214 6riv-a1-m1-cA_6riv-a1-m1-cB 6tk8-a1-m1-cAAA_6tk8-a1-m2-cAAA 7odm-a1-m1-cAAA_7odm-a1-m2-cAAA 7za4-a1-m1-cB_7za4-a1-m1-cA 7za5-a1-m1-cA_7za5-a1-m1-cB APVKVFGPAMSTNVARVTLCLEEVGAEYEVVNIDFNTMEHKSPEHLARNPFGQIPAFQDGDLLLWESRAISKYVLRKYKTDEVDLLRESNLEEAAMVDVWTEVDAHTYNPALSPIVYQLFNPMMRGLPTDEKVVAESLEKLKKVLEVYEARLSKHSYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVP APVKVFGPAMSTNVARVTLCLEEVGAEYEVVNIDFNTMEHKSPEHLARNPFGQIPAFQDGDLLLWESRAISKYVLRKYKTDEVDLLRESNLEEAAMVDVWTEVDAHTYNPALSPIVYQLFNPMMRGLPTDEKVVAESLEKLKKVLEVYEARLSKHSYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVP 7obz-a2-m1-cB_7obz-a2-m1-cC Structure of RsLOV D109G M1E1F8 M1E1F8 2 X-RAY DIFFRACTION 99 1.0 349102 (Cereibacter sphaeroides ATCC 17025) 349102 (Cereibacter sphaeroides ATCC 17025) 175 175 4hia-a1-m1-cA_4hia-a1-m1-cB 4hj3-a1-m1-cA_4hj3-a1-m1-cB 4hj4-a1-m1-cB_4hj4-a1-m1-cA 4hj6-a1-m1-cA_4hj6-a1-m1-cB 4hnb-a1-m1-cA_4hnb-a1-m1-cB 7ob0-a1-m1-cA_7ob0-a1-m1-cD 7ob0-a2-m1-cB_7ob0-a2-m2-cC 7obz-a1-m1-cD_7obz-a1-m1-cA 7obz-a3-m1-cE_7obz-a3-m2-cF MDQKQFEKIRAVFDRSGVALTLVDMSLPEQPLVLANPPFLRMTGYTEGQILGFNCRFLQRGDENAQARADIRDALKLGRELQVVLRNYRANDEPFDNLLFLHPVGGRPGAPDYFLGSQFELGRSGNSEEAAAAGHAGALTGELARIGTVAARLEMDSRRHLAQAAAALVRAWERR MDQKQFEKIRAVFDRSGVALTLVDMSLPEQPLVLANPPFLRMTGYTEGQILGFNCRFLQRGDENAQARADIRDALKLGRELQVVLRNYRANDEPFDNLLFLHPVGGRPGAPDYFLGSQFELGRSGNSEEAAAAGHAGALTGELARIGTVAARLEMDSRRHLAQAAAALVRAWERR 7oc3-a1-m1-cB_7oc3-a1-m1-cA Crystal structure of the third tudor domain of Qin Q9VE55 Q9VE55 2.25 X-RAY DIFFRACTION 51 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 202 205 KRTTVNILYVRKPDEFYVTLPHFQKAINNLQKSVQKAAAAYQNLPRTDWQVGDCYARVQANCDSQALWYRGVVTGVIPPGITCPIVRYQVHLRDLGELIDDVHSSSLANIDEADRISSSAKRCHLHGIRPIGDEWSKDAIDFFDQLKAYNEIHVTGRGRTENSLSVILWGSLSILTGPFSPATIKYVNINKALLAGAEKDHN NKRTTVNILYVRKPDEFYVTLPHFQKAINNLQKSVQKAAAAYQNLPRTDWQVGDCYARVQANCDSQALWYRGVVTGVIPPGITCPIVRYQVHLRDLGELIDDVHSSSLANIDEADRISSSAKRCHLHGIRPIGDEWSKDAIDFFDQLKAYNEIHVTGRGRTENSLSVILWGSLSILTGPFSPATIKYVNINKALLAGAEKDHNSD 7oc5-a1-m1-cB_7oc5-a1-m1-cA Alpha-humulene synthase AsR6 from Sarocladium schorii A0A2U8U2L5 A0A2U8U2L5 2.01 X-RAY DIFFRACTION 174 0.997 2203296 (Sarocladium sp. 'schorii') 2203296 (Sarocladium sp. 'schorii') 378 386 7oc4-a1-m1-cB_7oc4-a1-m1-cA 7oc6-a1-m1-cA_7oc6-a1-m2-cA TPTKMATLTTKQMWQTIKDYFGDGFVTGSAPISYNVHTCDMQLQPDSGIHAASDGIHYGVQISEDSMPLFSIMGDTAAPPCTCHRVDEIVKHIDEFLERAPALPDDGAITSGKPCDTNPDQVSLYAMRDSLSWWVHWGGNLRPEHYWKQIYIGFAAIPDDVQISPREFLDGTYRYLGHTWDDCLSGLEEEGVSPDEIEFANMCMWRQMLTQWLEKADPELLPLLKGKISLMLQYRVLTANTLGCLALFMNATADPKDGPIHYADSSYEMEIASVAQCVTLDMAKEAMGIAGDRAQRKRELRWIYVRCMQILESQPHAHMLRRYGSAGLHYVPMMDRYLERVSGHTRFPIRDGAARILERFINRAELPKESEDINPNGR TPTKMATLTTKQMWQTIKDYFGDGFVTGSAPISYNVHTCDMQLQPDSGIHAASDGIHYGVQISEDSMPLFSIMGDTAAPPCTCHRVDEIVKHIDEFLERAPEALPDDGAITSGKPCDTNPDQVSLYAMRDSLSWWVHWGGNLRPEHYWKQIYIGFAAIPDDVQISPREFLDGTYRYLGHTWDDCLSGLEEEGVSPDEIEFANMCMWRQMLTQWLEKADPELLPLLKGKISLMLQYRVLTANTLGCLALFMNATADPKGPIHYADSSYEMEIASVAQCVTLDMAKEAMGILQRTEVVAGDRAQRKRELRWIYVRCMQILESQPHAHMLRRYGSAGLHYVPMMDRYLERVSGHTRFPIRDGAARILERFINRAELPKESEDINPNGRS 7ock-a1-m1-cJ_7ock-a1-m1-cL MAT in complex with SAMH P07693 P07693 3.6 ELECTRON MICROSCOPY 56 1.0 2732706 (Teetrevirus T3) 2732706 (Teetrevirus T3) 149 152 7ock-a1-m1-cK_7ock-a1-m1-cA IFTKEPANVFYVLVSAFRSNLCDEVNMSRHRHMVSTLRAAPGLYGSVESTDLTGCYREAAPTEEKTVRVRCKDKAQALNVARLACNEWEQDCVLVYKSQTHTAGLVYAKGIDGYKAERLPGSFQEVPKGAPLQGCFTIDEFGRRWQVQH IFTKEPANVFYVLVSAFRSNLCDEVNMSRHRHMVSTLRAAPGLYGSVESTDLTGCYREAISSAPTEEKTVRVRCKDKAQALNVARLACNEWEQDCVLVYKSQTHTAGLVYAKGIDGYKAERLPGSFQEVPKGAPLQGCFTIDEFGRRWQVQH 7ocn-a1-m1-cB_7ocn-a1-m1-cA Crystal structure of the bifunctional mannitol-1-phosphate dehydrogenase/phosphatase MtlD from Acinetobacter baumannii D0C7J2 D0C7J2 2.6 X-RAY DIFFRACTION 207 1.0 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 575584 (Acinetobacter baumannii ATCC 19606 = CIP 70.34 = JCM 6841) 679 690 7ocp-a1-m1-cB_7ocp-a1-m1-cA 7ocq-a1-m1-cB_7ocq-a1-m1-cA 7ocr-a1-m1-cB_7ocr-a1-m1-cA 7ocs-a1-m1-cA_7ocs-a1-m1-cD 7ocs-a2-m1-cC_7ocs-a2-m1-cB 7oct-a1-m1-cB_7oct-a1-m1-cA 7ocu-a1-m1-cB_7ocu-a1-m1-cA VLIFHGKPVHGAIFDMDGTMFDTERLRFQTLQQASQELIGQEFSHEYLMQCLGLSATTAEKLAQRLYYKEIRKRADEMELEHIRKHGVPIKKGLVQVLERLRKSGLRMAVATSSRRAIAEEYLINANVYKFFDVITCGDEVEQGKPHPEIFLKAASQLHLDANQCLMFEDSENGLTSAHTSKGLTILLKDIKEPNDEMLEKAHFYYDQMYDFLTDLDQFIPVMDMPEMQEPFPQSLNQLTVGIHGFGAIGGGYIAQILSHWDGYTKPKRIIASTRNSLFREAVNAFGTYSIRYGQFSYDERIENMSIVDSDNEQQMLEMYTHSSLIALCLPEQAIESESKIIAKGLYARFNSQEPLTFLIILNKVGAKYLVMKHLKEALLELTNDEDVTEHILKEHYFCDTVVNRMVSKLSNQNLYRQLRIKHNFLEQHLEDVEQEIEDCNKLTPDQLNQASIYVDNMRRNFQPGHILQSMDLILFHSETDMPIYVEKGSPLLEKLRQVVLVDQITDIQLIKNRLWNGVHAMLAWYASLMGYESIGVAMGDHLVKAFAENLIAEVKQGLAIVLPNYAKDLDRMSQSFLDSCEYAFKDPCQRVARDPLRKLNHNERVMASIAVNIRHDLPYKNLLKGAALGYAYAIQFLEIEETKAVEHLQQQIQNLDLSTAQRRQLEAELVQLIQYLFS VLIFHGKPVHGAIFDMDGTMFDTERLRFQTLQQASQELIGQEFSHEYLMQCLGLSATTAEKLAQRLYGVDVPYKEIRKRADEMELEHIRKHGVPIKKGLVQVLERLRKSGLRMAVATSSRRAIAEEYLINANVYKFFDVITCGDEVEQGKPHPEIFLKAASQLHLDANQCLMFEDSENGLTSAHTSKGLTILLKDIKEPNDEMLEKAHFYYDQMYDFLTDLDQFIPVMDMPEMQEPFPQSLNQLTVGIHGFGAIGGGYIAQILSHWDGYTKPKRIIASTRNSLFREAVNAFGTYSIRYGQFSYDERIENMSIVDSDNEQQMLEMYTHSSLIALCLPEQAIESESKIIAKGLYARFNSQCIEPLTFLIILNKVGAKYLVMKHLKEALLELTNDEDVTEHILKEHYFCDTVVNRMVSKLSNQNLYRQLRIKHNFLEQHLEDVEQEDQIEIEDCNKLTPDQLNQASIYVDNMRRNFQPGHILQSMDLILFHSETDMPIYVEKGSPLLEKLRQVVLVDQITDIQLIKNRLWNGVHAMLAWYASLMGYESIGVAMGDHLVKAFAENLIAEVKQGLAIVLPNYAKDLDRMSQSFLDSCEYAFKDPCQRVARDPLRKLNHNERVMASIAVNIRHDLPYKNLLKGAALGYAYAIQFLEIEETKAVEHLQQQIQNLDLSTAQRRQLEAELVQLIQYLFS 7od3-a1-m1-cB_7od3-a1-m1-cC SARS CoV-2 Spike protein, Bristol UK Deletion variant, Closed conformation, C3 symmetry P0DTC2 P0DTC2 2.8 ELECTRON MICROSCOPY 343 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1012 1012 7od3-a1-m1-cA_7od3-a1-m1-cB 7od3-a1-m1-cA_7od3-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSLGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSLGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD 7od9-a1-m1-cA_7od9-a1-m1-cB Crystal structure of activated CheY fused to the C-terminal domain of CheF G0H061 G0H061 2.3 X-RAY DIFFRACTION 23 1.0 1053692 (Methanococcus maripaludis X1) 1053692 (Methanococcus maripaludis X1) 122 129 SIVKTMIVDDSAFMRNILKRILSTTNKYVVIGEAANGADAIKMAEELQPDLISMDIVMPETDGITATKAIKEKTPEIKIVMCTSVDQEQKMIDAVNAGADGYIVKPFQAPKILEQFNKLFPV HHSIVKTMIVDDSAFMRNILKRILSTTNKYVVIGEAANGADAIKMAEELQPDLISMDIVMPETDGITATKAIKEKTPEIKIVMCTSVDQEQKMIDAVNAGADGYIVKPFQAPKILEQFNKLFPVLFQGP 7od9-a1-m1-cF_7od9-a1-m1-cC Crystal structure of activated CheY fused to the C-terminal domain of CheF G0H062 G0H062 2.3 X-RAY DIFFRACTION 172 1.0 1053692 (Methanococcus maripaludis X1) 1053692 (Methanococcus maripaludis X1) 81 90 GDKLKNEVEQLAPEEQEILTAIYTGITSLELPGMMGMDIDEVEKVLEKLIDQGFLDLVRIRKETDLTEKGRAVTNFIITNF SEMAVESWSGDKLKNEVEQLAPEEQEILTAIYTGITSLELPGMMGMDIDEVEKVLEKLIDQGFLDLVRIRKETDLTEKGRAVTNFIITNF 7odc-a1-m1-cA_7odc-a1-m2-cA CRYSTAL STRUCTURE ORNITHINE DECARBOXYLASE FROM MOUSE, TRUNCATED 37 RESIDUES FROM THE C-TERMINUS, TO 1.6 ANGSTROM RESOLUTION P00860 P00860 1.6 X-RAY DIFFRACTION 150 1.0 10090 (Mus musculus) 10090 (Mus musculus) 387 387 SSFTKDEFDCHILDEGFTAKDILDQKINDKDAFYVADLGDILKKHLRWLKALPRVTPFYAVKCNDSRAIVSTLAAIGTGFDCASKTEIQLVQGLGVPAERVIYANPCKQVSQIKYAASNGVQMMTFDSEIELMKVARAHPKAKLVLRIATKFGATLKTSRLLLERAKELNIDVIGVSFHVGSGCTDPDTFVQAVSDARCVFDMATEVGFSMHLLDIGGGFPGSEDTKLKFEEITSVINPALDKYFPSDSGVRIIAEPGRYYVASAFTLAVNIIAKKTVWEQTFMYYVNDGVYGSFNCILYDHAHVKALLQKRPKPDEKYYSSSIWGPTCDGLDRIVERCNLPEMHVGDWMLFENMGAYTVAAASTFNGFQRPNIYYVMSRPMWQLMK SSFTKDEFDCHILDEGFTAKDILDQKINDKDAFYVADLGDILKKHLRWLKALPRVTPFYAVKCNDSRAIVSTLAAIGTGFDCASKTEIQLVQGLGVPAERVIYANPCKQVSQIKYAASNGVQMMTFDSEIELMKVARAHPKAKLVLRIATKFGATLKTSRLLLERAKELNIDVIGVSFHVGSGCTDPDTFVQAVSDARCVFDMATEVGFSMHLLDIGGGFPGSEDTKLKFEEITSVINPALDKYFPSDSGVRIIAEPGRYYVASAFTLAVNIIAKKTVWEQTFMYYVNDGVYGSFNCILYDHAHVKALLQKRPKPDEKYYSSSIWGPTCDGLDRIVERCNLPEMHVGDWMLFENMGAYTVAAASTFNGFQRPNIYYVMSRPMWQLMK 7odu-a3-m1-cB_7odu-a3-m1-cA Natural killer cell receptor NKR-P1B from Rattus norvegicus in complex with its cognate ligand Clr-11 Q0H8B9 Q0H8B9 3 X-RAY DIFFRACTION 74 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 122 129 ITGYAACPRNWIGVGNKCFYFSEYASNWTFSQTFCKAQEAELARFDTEEELNFLSRYKGSFDYWIGLHRESSEHPWKWTDNTQYNYSLSIRGVERYAYLNDIGISSARVYADKRWSCSRLNS ITGYAACPRNWIGVGNKCFYFSEYASNWTFSQTFCKAQEAELARFDTEEELNFLSRYKGSFDYWIGLHRESSEHPWKWTDNTQYNYSLSIRGVERYAYLNDIGISSARVYADKRWSCSRLNSGTHHHHH 7odx-a1-m1-cA_7odx-a1-m2-cA Cyanophage S-2L Succinoaminodeoxyadenylate synthetase (PurZ) bound to dGMP and dATP as an energy donor A0A7U3TBV6 A0A7U3TBV6 1.69617 X-RAY DIFFRACTION 163 1.0 260586 (Cyanophage S-2L) 260586 (Cyanophage S-2L) 350 350 RVKNCNLIVDCQYGSTGKGLLAGYLGALEAPQVLCMAPSPNAGHTLVEEDGTARVHKMLPLGITSPSLERIYLGPGSVIDMDRLLEEYLALPRQVELWVHQNAAVVLQEHRDEEAAGGLAPGSTRSGAGSAFIAKIRRRPGTLLFGEAVRDHPLHGVVRVVDTRTAQDMLFRTRSIQAEGCQGYSLSVHHGAYPYCTARDVTTAQLIADCGLPYDVARIARVVGSMRTYPIRVANRPEAGEWSGPCYPDSVECQFADLGLEQEYTTVTKLPRRIFTFSAIQAHEAIAQNGVDEVFLNFAQYPPSLGALEDILDAIEARAEVTYVGFGPKVTDVYHTPTRAELEGLYARYR RVKNCNLIVDCQYGSTGKGLLAGYLGALEAPQVLCMAPSPNAGHTLVEEDGTARVHKMLPLGITSPSLERIYLGPGSVIDMDRLLEEYLALPRQVELWVHQNAAVVLQEHRDEEAAGGLAPGSTRSGAGSAFIAKIRRRPGTLLFGEAVRDHPLHGVVRVVDTRTAQDMLFRTRSIQAEGCQGYSLSVHHGAYPYCTARDVTTAQLIADCGLPYDVARIARVVGSMRTYPIRVANRPEAGEWSGPCYPDSVECQFADLGLEQEYTTVTKLPRRIFTFSAIQAHEAIAQNGVDEVFLNFAQYPPSLGALEDILDAIEARAEVTYVGFGPKVTDVYHTPTRAELEGLYARYR 7ody-a1-m1-cD_7ody-a1-m1-cA Cyanophage S-2L MazG-like pyrophosphohydrolase bound to dGDP and three catalytic Mn2+ ions per active site A0A7U3TBV3 A0A7U3TBV3 1.43 X-RAY DIFFRACTION 20 1.0 260586 (Cyanophage S-2L) 260586 (Cyanophage S-2L) 92 99 7ody-a1-m1-cB_7ody-a1-m1-cC PATVAELQAEIAAWIHPLNPDRRPGGTIAKLLEEIGELIASDPLEVADVLILALDLATLLGVDVTEAIRAKLAINRARSWARADNGAMRHIP PATVAELQAEIAAWIHPLNPDRRPGGTIAKLLEEIGELIASDRDPLEVADVLILALDLATLLGVDVTEAIRAKLAINRARSWARADNGAMRHIPGSDTP 7ody-a1-m1-cD_7ody-a1-m1-cB Cyanophage S-2L MazG-like pyrophosphohydrolase bound to dGDP and three catalytic Mn2+ ions per active site A0A7U3TBV3 A0A7U3TBV3 1.43 X-RAY DIFFRACTION 39 1.0 260586 (Cyanophage S-2L) 260586 (Cyanophage S-2L) 92 94 PATVAELQAEIAAWIHPLNPDRRPGGTIAKLLEEIGELIASDPLEVADVLILALDLATLLGVDVTEAIRAKLAINRARSWARADNGAMRHIP PATVAELQAEIAAWIHPLNPDRRPGGTIAKLLEEIGELIASDRDPLEVADVLILALDLATLLGVDVTEAIRAKLAINRARSWARADNGAMRHIP 7ody-a1-m1-cD_7ody-a1-m1-cC Cyanophage S-2L MazG-like pyrophosphohydrolase bound to dGDP and three catalytic Mn2+ ions per active site A0A7U3TBV3 A0A7U3TBV3 1.43 X-RAY DIFFRACTION 186 1.0 260586 (Cyanophage S-2L) 260586 (Cyanophage S-2L) 92 100 7ody-a1-m1-cB_7ody-a1-m1-cA PATVAELQAEIAAWIHPLNPDRRPGGTIAKLLEEIGELIASDPLEVADVLILALDLATLLGVDVTEAIRAKLAINRARSWARADNGAMRHIP SMPATVAELQAEIAAWIHPLNPDRRPGGTIAKLLEEIGELIASDRAHDPLEVADVLILALDLATLLGVDVTEAIRAKLAINRARSWARADNGAMRHIPGS 7odz-a1-m1-cA_7odz-a1-m1-cB Dictyostelium discoideum dye decolorizing peroxidase DyPA in complex with an activated form of oxygen and veratryl alcohol Q556V8 Q556V8 1.6 X-RAY DIFFRACTION 59 1.0 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 307 307 7o9j-a1-m1-cA_7o9j-a1-m1-cB 7o9l-a1-m1-cA_7o9l-a1-m1-cB 8ohy-a1-m1-cA_8ohy-a1-m2-cA SMAQSTVLPMHCLYGIFLEGNLKIQKNDQEGLKKFKDNIKKFTLELDEIDKISPQSRIGGAICFSSDIWDTVTKKISKPKELKSVNTLSSYMPGTSQRDILIHIISDRMDTCFKLAQDTMRNFGEDQLDIKQEIHGFRRVEERDLTDFIDGTENPDGDELRTQYGLVAAGQPNEFGSYVFTQRYVHNLKKWYPEPLSVQQDTVGRTKKDSIEIPRDKRPITSHVSRTDLSENGKDLKIVRQSLPYGQITGEKGLMFIAYACSLHNIEKQLQSMFGQLDGKHDLLLKYTTPVTGSFYFAPSKKELLEL SMAQSTVLPMHCLYGIFLEGNLKIQKNDQEGLKKFKDNIKKFTLELDEIDKISPQSRIGGAICFSSDIWDTVTKKISKPKELKSVNTLSSYMPGTSQRDILIHIISDRMDTCFKLAQDTMRNFGEDQLDIKQEIHGFRRVEERDLTDFIDGTENPDGDELRTQYGLVAAGQPNEFGSYVFTQRYVHNLKKWYPEPLSVQQDTVGRTKKDSIEIPRDKRPITSHVSRTDLSENGKDLKIVRQSLPYGQITGEKGLMFIAYACSLHNIEKQLQSMFGQLDGKHDLLLKYTTPVTGSFYFAPSKKELLEL 7oeq-a1-m2-cA_7oeq-a1-m3-cA Mevalonyl-coenzyme A hydratase (Sid H) Q4WF54 Q4WF54 1.36 X-RAY DIFFRACTION 140 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 259 259 7oeq-a1-m1-cA_7oeq-a1-m2-cA 7oeq-a1-m1-cA_7oeq-a1-m3-cA AHPTVQGCLVSFPTPHILLLTLNRPEKRNCISLATSAEIQRLWTWFDTQPALYVAIITGTGESFCAGADLKEWNDNEMTAPGLAGLPRRRGSKPIIAAVNGYCLGGGFEMVANCDIVVASENATFGLPEVQRGIAAVAGSLPRLVRVLGKQRAAEIALSGLSFSASQLERWGLVNRVVEHDQLLATAVEIATAISRNSPDSVRVTMEGLHYGWEMASVEEASSALVDQWYAKLMAGENFHEGVRAFVEKRKPQWRPSKL AHPTVQGCLVSFPTPHILLLTLNRPEKRNCISLATSAEIQRLWTWFDTQPALYVAIITGTGESFCAGADLKEWNDNEMTAPGLAGLPRRRGSKPIIAAVNGYCLGGGFEMVANCDIVVASENATFGLPEVQRGIAAVAGSLPRLVRVLGKQRAAEIALSGLSFSASQLERWGLVNRVVEHDQLLATAVEIATAISRNSPDSVRVTMEGLHYGWEMASVEEASSALVDQWYAKLMAGENFHEGVRAFVEKRKPQWRPSKL 7oey-a1-m1-cA_7oey-a1-m1-cB Neisseria gonnorhoeae variant E93Q at 1.35 angstrom resolution Q5F6E9 Q5F6E9 1.35 X-RAY DIFFRACTION 46 1.0 242231 (Neisseria gonorrhoeae FA 1090) 242231 (Neisseria gonorrhoeae FA 1090) 349 349 TILSDVKALGQQIWLDNLSRSLVQSGELAQMLKQGVGVTSNPAIFQKAFAGDALYADEVAALKRQNLSPKQRYETMAVADVRAACDVCLAQHESTGGKTGFVSLEVSPELAKDAQGTVEEARRLHAAIARKNAMIKVPATDAGIDALETLVSDGISVNLTLLFSRAQTLKAYAAYARGIAKRLAAGQSVAHIQVVASFFISRVDSALDATLPDRLKGKTAIALAKAAYQDWEQYFTAPEFAALEAQGANRVQLLWASTGVKNPAYPDTLYVDSLIGVHTVNTVPDATLKAFIDHGTAKATLTESADEARARLAEIAALGIDVETLAARLQEDGLKQFEEAFEKLLAPLV TILSDVKALGQQIWLDNLSRSLVQSGELAQMLKQGVGVTSNPAIFQKAFAGDALYADEVAALKRQNLSPKQRYETMAVADVRAACDVCLAQHESTGGKTGFVSLEVSPELAKDAQGTVEEARRLHAAIARKNAMIKVPATDAGIDALETLVSDGISVNLTLLFSRAQTLKAYAAYARGIAKRLAAGQSVAHIQVVASFFISRVDSALDATLPDRLKGKTAIALAKAAYQDWEQYFTAPEFAALEAQGANRVQLLWASTGVKNPAYPDTLYVDSLIGVHTVNTVPDATLKAFIDHGTAKATLTESADEARARLAEIAALGIDVETLAARLQEDGLKQFEEAFEKLLAPLV 7ofl-a1-m1-cB_7ofl-a1-m1-cA Crystal structure of the sesquiterpene synthase Copu9 from coniophora puteana in complex with alendronate A0A5M3MXY8 A0A5M3MXY8 1.83 X-RAY DIFFRACTION 23 1.0 741705 (Coniophora puteana RWD-64-598 SS2) 741705 (Coniophora puteana RWD-64-598 SS2) 334 335 APTKFILPDLVSDCTYPLLLNDNCEPVARASEQWLIAGARLQEPRRTKFMGLLAGELTAACYPHADASHLRVCVDFMNWLFNMDDWLDDFDVDDTWGMRHCCLGAFRDPVGFETDKLGGLMSKSFFSRFRQDGGPGCTERFIHTMDLFFIAVAQQAGDRANGITPDLESYITVRRDTSGCKPCFALIEYAAGIDLPDHVIYHPTLAAMEEATNDLVTWSNDIFSYNKEQVTDDTHNMIPVLMRERGLDLQGAVDFVGRLCKGTIERFETERARLPSWGPELDAQVQTYIEGLQNWIVGSLHWSFDSHRYFGKDGHAVKKHRIVKLLPKRVPQQA NAPTKFILPDLVSDCTYPLLLNDNCEPVARASEQWLIAGARLQEPRRTKFMGLLAGELTAACYPHADASHLRVCVDFMNWLFNMDDWLDDFDVDDTWGMRHCCLGAFRDPVGFETDKLGGLMSKSFFSRFRQDGGPGCTERFIHTMDLFFIAVAQQAGDRANGITPDLESYITVRRDTSGCKPCFALIEYAAGIDLPDHVIYHPTLAAMEEATNDLVTWSNDIFSYNKEQVTDDTHNMIPVLMRERGLDLQGAVDFVGRLCKGTIERFETERARLPSWGPELDAQVQTYIEGLQNWIVGSLHWSFDSHRYFGKDGHAVKKHRIVKLLPKRVPQQA 7ofx-a2-m1-cC_7ofx-a2-m1-cD Crystal structure of a GH31 family sulfoquinovosidase mutant D455N from Agrobacterium tumefaciens in complex with sulfoquinovosyl glycerol (SQGro) A0A083ZKV2 A0A083ZKV2 2.15 X-RAY DIFFRACTION 39 1.0 358 (Agrobacterium tumefaciens) 358 (Agrobacterium tumefaciens) 661 663 7ofx-a1-m1-cA_7ofx-a1-m1-cB HFETTKDGFTIAIGNRIILSHSPDKPAFFAGFGEERMDMYRGNFDIEDYVIERTALRHAEVSGDSVTLSSAPGQAPRLRLTLDGNAIRLTALDETINRLWLRVVAETDEHVWGGGEQMSYFDMRGRRFPLWTSEPGVGRDKTTEITFKSDVSGKAGGDYYNTNYPQPTWLSSRKYALHVETSAYSVFDFRNGDFHEIEIWAVPEKIEFFAGDSFADIVSALSLHFGRQPELPDWVYNGAIIGLKDGVNSFARLEKIRAAGTKVSGLWCEDWVGLRQTSFGARLFWDWQANDTRYPHLRQKIAELADQGIRFLGYVNPYLCVDGPLFPVAESAGYFATDVDGKTALVDFGEFDCGVVDFTNPAAADWFAAAIIGKNMLDFGLSGWMADFGEYLPIDIKLSNGVDAKLMHNAWPTLWAEVNAKGVESRGKTGEALFFMRAGFTGVQAHCPLIWGGNQSVDFSRHDGLVTVICGALSSGLMGNAYHHSDIGGYTSLFGNVRTAELIMRWTEMAAFTPVMRTHEGNRPRDNLQIDQDETVLAHFARMTAIYVALAPYLKSLSAEAAKTGLPVQRPLFLHYENEPQTYAVQDCYLYGADMLVAPVWKAGETQRSLYLPGHGEWVHLWSGKRHAGGRDITVETPLGEPAVFYRADSSHHRLFEQLRT MHFETTKDGFTIAIGNRIILSHSPDKPAFFAGFGEERMDMYRGNFDIEDYVIERTALRHAEVSGDSVTLSSAPGQAPRLRLTLDGNAIRLTALDETINRLWLRVVAETDEHVWGGGEQMSYFDMRGRRFPLWTSEPGVGRDKTTEITFKSDVSGKAGGDYYNTNYPQPTWLSSRKYALHVETSAYSVFDFRNGDFHEIEIWAVPEKIEFFAGDSFADIVSALSLHFGRQPELPDWVYNGAIIGLKDGVNSFARLEKIRAAGTKVSGLWCEDWVGLRQTSFGARLFWDWQANDTRYPHLRQKIAELADQGIRFLGYVNPYLCVDGPLFPVAESAGYFATDVDGKTALVDFGEFDCGVVDFTNPAAADWFAAAIIGKNMLDFGLSGWMADFGEYLPIDIKLSNGVDAKLMHNAWPTLWAEVNAKGVESRGKTGEALFFMRAGFTGVQAHCPLIWGGNQSVDFSRHDGLVTVICGALSSGLMGNAYHHSDIGGYTSLFGNVRTAELIMRWTEMAAFTPVMRTHEGNRPRDNLQIDQDETVLAHFARMTAIYVALAPYLKSLSAEAAKTGLPVQRPLFLHYENEPQTYAVQDCYLYGADMLVAPVWKAGETQRSLYLPGHGEWVHLWSGKRHAGGRDITVETPLGEPAVFYRADSSHHRLFEQLRTI 7og2-a1-m1-cB_7og2-a1-m1-cA Crystal structure of Pseudoalteromonas luteoviolacea L-amino acid oxidase A0A166WMK8 A0A166WMK8 2.8 X-RAY DIFFRACTION 118 1.0 1365250 (Pseudoalteromonas luteoviolacea DSM 6061) 1365250 (Pseudoalteromonas luteoviolacea DSM 6061) 610 622 LPSQVKVAIVGAGMSGLYSAWRLQQEANCQDLAIFERSDRTGGRLDSDLIEFKNLRSDEPKTITVKEEQGGMRFLFDGMDDLMALFLKLNLQDDIVPFPMNSGGNNRLFFRGESFSVSDAQQDDYAIWSHLYNLDQSEQGVNPKDIVNVVFNRILEANPQFQQRPKVRGPQFWQDFRLECQWKGQGLNQWTLWDLYTDMGYSQECITMLYRVLGFNGTFLSQMNAGVAYQLLEDFPAGVKFKTFKDGFSTLPNKLVEEVGTNNIHLQTTIEEIDFNEESGLYELSYAHIDAHGKIHKGLVKAEKVILGLPRLALEKLFVRSNVINRLDQDRSELLWNTLQSASNQPLLKINLYYDSAWWGRGTTGRPAVEFGPNFADLPTGSVYPFYAVNEELAAALMYEERTTHPSDAVEAKLERIGNDKYERPAALTIYCDYLNINFWSNLQNIGETYHNPKQDHYVENVPDDIYPASTAVVEQATRFFKDIFNTHYVPAPVLTSARIWEGSVKFDIPANRQFGYGVHQWAVGANDKEVMATLSEPLPNLFTCGEAFSDYQGWVEGALRSTDLALEKGFGLKPLSQAYFESTHISSSDAIKAVYEENSSKLINQYIET ITDKQLPSQVKVAIVGAGMSGLYSAWRLQQEANCQDLAIFERSDRTGGRLDSDLIEFKNLRSDEPKTITVKEEQGGMRFLFDGMDDLMALFLKLNLQDDIVPFPMNSGGNNRLFFRGESFSVSDAQQDDYAIWSHLYNLDQSEQGVNPKDIVNVVFNRILEANPQFQQRPKVRGPQFWQDFRLECQWKGQGLNQWTLWDLYTDMGYSQECITMLYRVLGFNGTFLSQMNAGVAYQLLEDFPAGVKFKTFKDGFSTLPNKLVEEVGTNNIHLQTTIEEIDFNEESGLYELSYAHIDAHGKIHKGLVKAEKVILGLPRLALEKLFVRSNVINRLDQDRSELLWNTLQSASNQPLLKINLYYDSAWWGRGTTGRPAVEFGPNFADLPTGSVYPFYAVNEELAAALMYEERTTHPSDAVEAKLERIGNDKYERPAALTIYCDYLNINFWSNLQNIGETYHNPKQDHYVENVPDDIYPASTAVVEQATRFFKDIFNTHYVPAPVLTSARIWEGSVKFDIPANRQFGYGVHQWAVGANDKEVMATLSEPLPNLFTCGEAFSDYQGWVEGALRSTDLALEKGFGLKPLSQAYFESTHISSSDAIKAVYEENSSKLINQYIETNFAASAA 7og3-a1-m1-cA_7og3-a1-m1-cB IRED-88 A0A5P2XKZ4 A0A5P2XKZ4 1.904 X-RAY DIFFRACTION 348 1.0 68270 (Streptomyces spectabilis) 68270 (Streptomyces spectabilis) 290 290 PAPVTVVGLGPMGLVLAEVLLAKGHPTTVWNRTPERASGLVAQGASLAASITDAVSASPVTIMCLNNYATMYEVFGPAREALRDRVLVNLNSGTPQEVRAAVSWASDLGTRYLDGAIMVPPPLVGRPDAVFLYSGDRAVLDEHRATLASLGDPRFLGADPTLAVLYNTALLHMMYATLNGYLQATALVGSAGVSATEFADIALGWFAPSVLAPSSLAAHAVDLDKGNYPGTLGTLRMNVNALEHIARAAEEQGVHSELPHLMREVAERAVAQGHGDHNYMSVYEAFKQPS PAPVTVVGLGPMGLVLAEVLLAKGHPTTVWNRTPERASGLVAQGASLAASITDAVSASPVTIMCLNNYATMYEVFGPAREALRDRVLVNLNSGTPQEVRAAVSWASDLGTRYLDGAIMVPPPLVGRPDAVFLYSGDRAVLDEHRATLASLGDPRFLGADPTLAVLYNTALLHMMYATLNGYLQATALVGSAGVSATEFADIALGWFAPSVLAPSSLAAHAVDLDKGNYPGTLGTLRMNVNALEHIARAAEEQGVHSELPHLMREVAERAVAQGHGDHNYMSVYEAFKQPS 7og8-a1-m2-cA_7og8-a1-m6-cA Wild-type Hfq protein from Neisseria meningitidis A1KT11 A1KT11 1.4 X-RAY DIFFRACTION 64 1.0 272831 (Neisseria meningitidis FAM18) 272831 (Neisseria meningitidis FAM18) 68 68 3sb2-a1-m1-cB_3sb2-a1-m1-cA 3sb2-a1-m1-cC_3sb2-a1-m1-cB 3sb2-a1-m1-cC_3sb2-a1-m1-cD 3sb2-a1-m1-cD_3sb2-a1-m1-cE 3sb2-a1-m1-cE_3sb2-a1-m1-cF 3sb2-a1-m1-cF_3sb2-a1-m1-cA 7og8-a1-m1-cA_7og8-a1-m5-cA 7og8-a1-m1-cA_7og8-a1-m6-cA 7og8-a1-m2-cA_7og8-a1-m4-cA 7og8-a1-m3-cA_7og8-a1-m4-cA 7og8-a1-m3-cA_7og8-a1-m5-cA 7ogw-a1-m1-cA_7ogw-a1-m5-cA 7ogw-a1-m1-cA_7ogw-a1-m6-cA 7ogw-a1-m2-cA_7ogw-a1-m4-cA 7ogw-a1-m2-cA_7ogw-a1-m6-cA 7ogw-a1-m3-cA_7ogw-a1-m4-cA 7ogw-a1-m3-cA_7ogw-a1-m5-cA 7oh8-a1-m1-cA_7oh8-a1-m1-cB 7oh8-a1-m1-cA_7oh8-a1-m2-cC 7oh8-a1-m1-cB_7oh8-a1-m1-cC 7oh8-a1-m2-cA_7oh8-a1-m1-cC 7oh8-a1-m2-cA_7oh8-a1-m2-cB 7oh8-a1-m2-cB_7oh8-a1-m2-cC GQMLQDPFLNALRKEHVPVSIYLVNGIKLQGQVESFDQYVVLLRNTSVTQMVYKHAISTIVPARSVNL GQMLQDPFLNALRKEHVPVSIYLVNGIKLQGQVESFDQYVVLLRNTSVTQMVYKHAISTIVPARSVNL 7oh2-a1-m1-cB_7oh2-a1-m1-cA Crystal structure of FMNH2-dependent monooxygenase for oxidative desulfurization of sulfoquinovose A0A1X7D696 A0A1X7D696 1.9 X-RAY DIFFRACTION 163 1.0 464029 (Xaviernesmea oryzae) 464029 (Xaviernesmea oryzae) 359 367 MTVVPITSPDLDAAEVSWFAALCSDDYAYLGVPDDALKSSFEHCSEIVTRAETLGFRNILCPSSYQVGQDTLSFVAACSQITERINLLAAIRCGEMQPIMLARTVATLDHMLKGRLTLNVISSDFPGEVADSAFRYRRSHEVVQILRQAWTRDTIDHEGEVYNFKGVTTEPARPYQQNGGPLLYFGGYSPDALELCGAQCDVYLMWPEPKEQIAERMKAVHARAEAHGRTLDYGLRVHMIVRDTEKEARDYAEHLVSKLDDEADKFGYVERHLWTGIGRARSGCGAALVGSTDQVLSEIEAYKKMGVRAFIFSGYPHLDEAEHFGKKVLPQLKTCSLPHIYGRVPADTPATPLGAGRRH MTVVPITSPDLDAAEVSWFAALCSDDYAYLGVPDDALKSSFEHCSEIVTRAETLGFRNILCPSSYQVGQDTLSFVAACSQITERINLLAAIRCGEMQPIMLARTVATLDHMLKGRLTLNVISSDFPGEVADSAFRYRRSHEVVQILRQAWTRDTIDHEGEVYNFKGVTTEPARPYQQNGGPLLYFGGYSPDALELCGAQCDVYLMWPEPKEQIAERMKAVHARAEAHGRTLDYGLRVHMIVRDTEKEARDYAEHLVSKLDDEYGRLIRSADKFGYVERHLWTGIGRARSGCGAALVGSTDQVLSEIEAYKKMGVRAFIFSGYPHLDEAEHFGKKVLPQLKTCSLPHIYGRVPADTPATPLGAGRRHL 7oi6-a1-m1-cz_7oi6-a1-m1-c1 Cryo-EM structure of late human 39S mitoribosome assembly intermediates, state 1 Q9HC36 Q9HC36 5.7 ELECTRON MICROSCOPY 125 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 253 257 DKAYPGDRRLSSVMTIVKSRPFREKQGKILLEGRRLISDALKAGAVPKMFFFSRLEYLKELPVDKLKGVSLIKVKFEDIKDWSDQGIMGIFAKQHSLPLLLICDNLRDPGNLGTILRSAAGAGCSKVLLTKGCVDAWEPKVLRAGMGAHFRMPIINNLEWETVPNYLPPDTRVYVADNCGLVQSYDSDWTEAPAAVVIGGETYGVSLESLQLAESTGGKRLLIPVVPGVDSLNSAMAASILLFEGKRQLRGRA DKAYPGDRRLSSVMTIVKSRPFREKQGKILLEGRRLISDALKAGAVPKMFFFSRLEYLKELPVDKLKGVSLIKVKFEDIKDWSDLVTPQGIMGIFAKQHSLPLLLICDNLRDPGNLGTILRSAAGAGCSKVLLTKGCVDAWEPKVLRAGMGAHFRMPIINNLEWETVPNYLPPDTRVYVADNCGLVQSYDSDWTEAPAAVVIGGETYGVSLESLQLAESTGGKRLLIPVVPGVDSLNSAMAASILLFEGKRQLRGRA 7oj2-a1-m2-cA_7oj2-a1-m4-cA Bacillus subtilis IMPDH in complex with Ap4A P21879 P21879 1.76 X-RAY DIFFRACTION 206 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 353 353 7oj2-a1-m1-cA_7oj2-a1-m3-cA 7oj2-a1-m1-cA_7oj2-a1-m4-cA 7oj2-a1-m2-cA_7oj2-a1-m3-cA WESKFSKEGLTFDDVLLVPAKSEVLPRDVDLSVELTKTLKLNIPVISAGMDTVTESAMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSEFPNSSKDIHGRLIVGAAVGVTGDTMTRVKKLVEANVDVIVIDTAHGHSQGVLNTVTKIRETYPELNIIAGNVATAEATRALIEAGADVVKVGIGPGSICTTRVVAGVGVPQITAIYDCATEARKHGKTIIADGGIKFSGDITKALAAGGHAVMLGSLLAGTSESPGETEIYQGRRFKVYRGMGSVAAMEFVPEGIEGRTPYKGPVEETVYQLVGGLRSGMGYCGSKDLRALREEAQFIRMTGAGLRESHPHDVQITKESPNY WESKFSKEGLTFDDVLLVPAKSEVLPRDVDLSVELTKTLKLNIPVISAGMDTVTESAMAIAMARQGGLGIIHKNMSIEQQAEQVDKVKRSEFPNSSKDIHGRLIVGAAVGVTGDTMTRVKKLVEANVDVIVIDTAHGHSQGVLNTVTKIRETYPELNIIAGNVATAEATRALIEAGADVVKVGIGPGSICTTRVVAGVGVPQITAIYDCATEARKHGKTIIADGGIKFSGDITKALAAGGHAVMLGSLLAGTSESPGETEIYQGRRFKVYRGMGSVAAMEFVPEGIEGRTPYKGPVEETVYQLVGGLRSGMGYCGSKDLRALREEAQFIRMTGAGLRESHPHDVQITKESPNY 7ojr-a1-m1-cA_7ojr-a1-m2-cA Bacillus subtilis phosphoglucomutase GlmM (phosphate bound) O34824 O34824 3.05 X-RAY DIFFRACTION 112 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 445 445 7ojs-a1-m1-cC_7ojs-a1-m1-cF 7ojs-a2-m1-cA_7ojs-a2-m1-cB 7ojs-a3-m1-cG_7ojs-a3-m1-cJ 7olh-a1-m1-cB_7olh-a1-m1-cA 7olh-a2-m1-cD_7olh-a2-m1-cC 7olh-a3-m1-cE_7olh-a3-m1-cF 7oml-a1-m1-cA_7oml-a1-m2-cA GKYFGTDGVRGVANSELTPELAFKVGRFGGYVLTKDKQRPKVLIGRDTRISGHMLEGALVAGLLSIGAEVMRLGVISTPGVSYLTKAMDAEAGVMISASHNPVQDNGIKFFGGDGFKLSDEQEAEIERLMDEPEDKLPRPVGADLGLVNDYFEGGQKYLQFLKQTADEDFTGIHVALDCANGATSSLATHLFADLDADVSTMGTSPNGLNINDGVGSTHPEALSAFVKEKNADLGLAFDGDGDRLIAVDEKGNIVDGDQIMYICSKHLKSEGRLKDDTVVSTVMSNLGFYKALEKEGIKSVQTAVGDRYVVEAMKKDGYNVGGEQSGHLIFLDYNTTGDGLLSAIMLMNTLKATGKPLSELAAEMQKFPQLLVNVRVTDKYKVEENEKVKAVISEVEKEMNGDGRILVRPSGTEPLVRVMAEAKTKELCDEYVNRIVEVVRSEMG GKYFGTDGVRGVANSELTPELAFKVGRFGGYVLTKDKQRPKVLIGRDTRISGHMLEGALVAGLLSIGAEVMRLGVISTPGVSYLTKAMDAEAGVMISASHNPVQDNGIKFFGGDGFKLSDEQEAEIERLMDEPEDKLPRPVGADLGLVNDYFEGGQKYLQFLKQTADEDFTGIHVALDCANGATSSLATHLFADLDADVSTMGTSPNGLNINDGVGSTHPEALSAFVKEKNADLGLAFDGDGDRLIAVDEKGNIVDGDQIMYICSKHLKSEGRLKDDTVVSTVMSNLGFYKALEKEGIKSVQTAVGDRYVVEAMKKDGYNVGGEQSGHLIFLDYNTTGDGLLSAIMLMNTLKATGKPLSELAAEMQKFPQLLVNVRVTDKYKVEENEKVKAVISEVEKEMNGDGRILVRPSGTEPLVRVMAEAKTKELCDEYVNRIVEVVRSEMG 7okw-a1-m1-cA_7okw-a1-m1-cB 1.62A X-ray crystal structure of the conserved C-terminal (CCT) of human OSR1 O95747 O95747 1.62 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 97 KIPISLVLRLRNSKKELNDIRFEFTPGRDTAEGVSQELISAGLVDGRDLVIVAANLQKIVEEPQSNRSVTFKLASGVEGSDIPDDGKLIGFAQLSIS KIPISLVLRLRNSKKELNDIRFEFTPGRDTAEGVSQELISAGLVDGRDLVIVAANLQKIVEEPQSNRSVTFKLASGVEGSDIPDDGKLIGFAQLSIS 7ol1-a1-m1-cA_7ol1-a1-m1-cB The X-ray structure of L-threonine dehydrogenase from the common hospital pathogen Clostridium difficile. Q187A2 Q187A2 2.6 X-RAY DIFFRACTION 57 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 319 319 RHMKKILITGALGQIGSELTIKLRNEYGEQNVIASSRRVKEGNPVCESGIFEILDVTDKNRFFEIAKKYDVDTIIHLASLLSAVAESKPLEAWNLNMNGLINGLEIAKELDCKFFTPSSIAAFGENSPKNMTPQDTLQRPNTMYGVTKVSGELLCDYYHSKFGVDTRGVRFPGLISYVTPPGGGTTDYAVDIYYEALKNKRYKSYIAEGTKMDMMYMPDALQSIVDLIEAPADKLIHRNAFNITAMSFSPEEIADSIKKYIPDFVIEYDVDPVRQSIADSWPNSLDSSSAVKEWNFKFSYDLDKMTKDMLEKLSEKGIG RHMKKILITGALGQIGSELTIKLRNEYGEQNVIASSRRVKEGNPVCESGIFEILDVTDKNRFFEIAKKYDVDTIIHLASLLSAVAESKPLEAWNLNMNGLINGLEIAKELDCKFFTPSSIAAFGENSPKNMTPQDTLQRPNTMYGVTKVSGELLCDYYHSKFGVDTRGVRFPGLISYVTPPGGGTTDYAVDIYYEALKNKRYKSYIAEGTKMDMMYMPDALQSIVDLIEAPADKLIHRNAFNITAMSFSPEEIADSIKKYIPDFVIEYDVDPVRQSIADSWPNSLDSSSAVKEWNFKFSYDLDKMTKDMLEKLSEKGIG 7ol2-a1-m1-cA_7ol2-a1-m1-cB Crystal structure of mouse contactin 1 immunoglobulin domains P12960 P12960 3.89 X-RAY DIFFRACTION 66 1.0 10090 (Mus musculus) 10090 (Mus musculus) 568 568 KGFGPIFEEQPINTIYPEESLEGKVSLNCRARASPFPVYKWRMNNGDVDLTNDRYSMVGGNLVINNPDKQKDAGVYYCLASNNYGMVRSTEATLSFGYLDPFPPEERPEVKVKEGKGMVLLCDPPYHFPDDLSYRWLLNEFPVFITMDKRRFVSQTNGNLYIANVESSDRGNYSCFVSSPSITKSVFSKFIPLIPIPERTTKPYPADIVVQFKDIYTMMGQNVTLECFALGNPVPDIRWRKVLEPMPSTAEISTSGAVLKIFNIQLEDEGLYECEAENIRGKDKHQARIYVQAFPEWVEHINDTEVDIGSDLYWPCIATGKPIPTIRWLKNGYSYHKGELRLYDVTFENAGMYQCIAENAYGSIYANAELKILALAPTFEMNPMKKKILAAKGGRVVIECKPKAAPKPKFSWSKGTEWLVNSSRILIWEDGSLEINNITRNDGGIYTCFAENNRGKANSTGTLVITNPTRIILAPINADITVGENATMQCAASFDPALDLTFVWSFNGYVIDFNKEITHIHYQRNFMLDANGELLIRNAQLKHAGRYTCTAQTIVDNSSASADLVVRG KGFGPIFEEQPINTIYPEESLEGKVSLNCRARASPFPVYKWRMNNGDVDLTNDRYSMVGGNLVINNPDKQKDAGVYYCLASNNYGMVRSTEATLSFGYLDPFPPEERPEVKVKEGKGMVLLCDPPYHFPDDLSYRWLLNEFPVFITMDKRRFVSQTNGNLYIANVESSDRGNYSCFVSSPSITKSVFSKFIPLIPIPERTTKPYPADIVVQFKDIYTMMGQNVTLECFALGNPVPDIRWRKVLEPMPSTAEISTSGAVLKIFNIQLEDEGLYECEAENIRGKDKHQARIYVQAFPEWVEHINDTEVDIGSDLYWPCIATGKPIPTIRWLKNGYSYHKGELRLYDVTFENAGMYQCIAENAYGSIYANAELKILALAPTFEMNPMKKKILAAKGGRVVIECKPKAAPKPKFSWSKGTEWLVNSSRILIWEDGSLEINNITRNDGGIYTCFAENNRGKANSTGTLVITNPTRIILAPINADITVGENATMQCAASFDPALDLTFVWSFNGYVIDFNKEITHIHYQRNFMLDANGELLIRNAQLKHAGRYTCTAQTIVDNSSASADLVVRG 7ol9-a1-m1-cA_7ol9-a1-m1-cB Crystal structure of C-terminally truncated Bacillus subtilis nucleoid occlusion protein (Noc) complexed to the Noc-binding site (NBS) P37524 P37524 2.9 X-RAY DIFFRACTION 63 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 201 203 ILEIPVNAIVPNRFQPRTIFSDEKIKELAMTIHTHGIIQPIVVRHTEEEGQYELIAGERRWRAVQSLEWEKIPAIIKDFSDTETASVALIENLQREELSSIEEAHAYARLLELHDLTQEALAQRLGKGQSTIANKLRLLKLPQPVQEAIMEKKITERHARALIPLKQPELQVTLLTEIIEKSLNVKQTEDRVVKMLEQGQR EEILEIPVNAIVPNRFQPRTIFSDEKIKELAMTIHTHGIIQPIVVRHTEEEGQYELIAGERRWRAVQSLEWEKIPAIIKDFSDTETASVALIENLQREELSSIEEAHAYARLLELHDLTQEALAQRLGKGQSTIANKLRLLKLPQPVQEAIMEKKITERHARALIPLKQPELQVTLLTEIIEKSLNVKQTEDRVVKMLEQGQR 7olf-a1-m1-cB_7olf-a1-m1-cA Crystal structure of FMNH2-dependent monooxygenase from Agrobacterium tumefaciens for oxidative desulfurization of sulfoquinovose A9CEY7 A9CEY7 3.4 X-RAY DIFFRACTION 156 1.0 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 366 372 MTVVPVTSADLDAAEVSWFSALCSDDYAYLGVPDGSLRSSFEHCSDIVKKAEELGFRNILCPSSYQVGQDTLSFVAGCAPISDRINFLAAIRCGEMQPIMLARTVATLDHMLKGRLTLNVISSDFPGEVADSAFRYKRSHEVVEILRQAWTRDTIDHDGEIYQFKGVSTEPARPYQLNGGPLLYFGGYSPDALELCGAQCDVYLMWPETKDQLADRMRAAHERAAAHGRTLDYGLRVHMVVRDTEQEAREYADHLVSKLDDEYGQARELADKFGYVEPNLWTGIGRARSGCGAALVGSTDQVLSALEEYQKMGIRAFILSGYPHLDEAEHFGTKVLPQMKTCSLPHAYGRVPSETPATPLGNGERH MTVVPVTSADLDAAEVSWFSALCSDDYAYLGVPDGSLRSSFEHCSDIVKKAEELGFRNILCPSSYQVGQDTLSFVAGCAPISDRINFLAAIRCGEMQPIMLARTVATLDHMLKGRLTLNVISSDFPGEVADSAFRYKRSHEVVEILRQAWTRDTIDHDGEIYQFKGVSTEPARPYQLNGGPLLYFGGYSPDALELCGAQCDVYLMWPETKDQLADRMRAAHERAAAHGRTLDYGLRVHMVVRDTEQEAREYADHLVSKLDDEYGQHQARARELADKFGYVEPNLWTGIGRARSGCGAALVGSTDQVLSALEEYQKMGIRAFILSGYPHLDEAEHFGTKVLPQMKTCSLPHAYGRVPSETPATPLGNGERHLE 7om5-a1-m1-cB_7om5-a1-m1-cA Anti-EGFR nanobody EgB4 1.48 X-RAY DIFFRACTION 70 1.0 9844 (Lama glama) 9844 (Lama glama) 125 130 QVQLQESGGGSVQAGGSLKLSCAASGRSFSTYAMGWFRQAPGQDREFVATISWTDSTDYADSVKGRFTISRDNAKNTGYLQMNSLKPEDTAVYYCAADRWASSRRNVDYDYWGQGTQVTVSSHGS QVQLQESGGGSVQAGGSLKLSCAASGRSFSTYAMGWFRQAPGQDREFVATISWTDSTDYADSVKGRFTISRDNAKNTGYLQMNSLKPEDTAVYYCAADRWASSRRNVDYDYWGQGTQVTVSSHGSGLVPR 7omt-a1-m1-cA_7omt-a1-m2-cA Crystal structure of ProMacrobody 21 with bound maltose P0AEX9 P0AEX9 2 X-RAY DIFFRACTION 92 1.0 32630 (synthetic construct) 32630 (synthetic construct) 483 483 GPSQVQLVESGGGLVQPGGSLRLSCAASGFPVKYEHMYWYRQAPGKEREWVAAINSAGNETHYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNVKDIGWWAAYDYWGQGTQVTVPPLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQT GPSQVQLVESGGGLVQPGGSLRLSCAASGFPVKYEHMYWYRQAPGKEREWVAAINSAGNETHYADSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNVKDIGWWAAYDYWGQGTQVTVPPLVIWINGDKGYNGLAEVGKKFEKDTGIKVTVEHPDKLEEKFPQVAATGDGPDIIFWAHDRFGGYAQSGLLAEITPDKAFQDKLYPFTWDAVRYNGKLIAYPIAVEALSLIYNKDLLPNPPKTWEEIPALDKELKAKGKSALMFNLQEPYFTWPLIAADGGYAFKYENGKYDIKDVGVDNAGAKAGLTFLVDLIKNKHMNADTDYSIAEAAFNKGETAMTINGPWAWSNIDTSKVNYGVTVLPTFKGQPSKPFVGVLSAGINAASPNKELAKEFLENYLLTDEGLEAVNKDKPLGAVALKSYEEELAKDPRIAATMENAQKGEIMPNIPQMSAFWYAVRTAVINAASGRQTVDEALKDAQT 7on9-a2-m1-cC_7on9-a2-m1-cB Crystal structure of para-hydroxybenzoate-3-hydroxylase PraI C4TP09 C4TP09 1.63 X-RAY DIFFRACTION 79 1.0 649508 (Paenibacillus sp. JJ-1b) 649508 (Paenibacillus sp. JJ-1b) 391 392 7on9-a1-m1-cD_7on9-a1-m1-cA MRTQVGIIGAGPAGLLLSHLLYLQGIESIIIENRTREEIEGTIRAGVLEQGTVDLMNQMGVGARMMKEGHFHEGFELRFNGRGHRINVHELTGGKYVTVYAQHEVIKDLVAARLQTGGQIHFNVGDVSLHDVDTSSPKIRFRPNKDGELQEIECDFIAGCDGFRGPSRPAIPQSVRKEYQKVYPFSWLGILVEAPPSAHELIYANHERGFALVSTRSPQIQRLYLQVDAQDHIDNWSDDRIWSELHARLETRDGFKLLEGPIFQKGIVSMRSFVCDPMQHGRLFLAGDAAHIVPPTGAKGLNLAAADVQVLARGLEAYYKAGKMEILNRCTEICLRRIWKAERFSWFMTTMLHRDQGHTPFERGIQLAELDYVTSSRAASTSLAENYIGLP MRTQVGIIGAGPAGLLLSHLLYLQGIESIIIENRTREEIEGTIRAGVLEQGTVDLMNQMGVGARMMKEGHFHEGFELRFNGRGHRINVHELTGGKYVTVYAQHEVIKDLVAARLQTGGQIHFNVGDVSLHDVDTSSPKIRFRPNKDGELQEIECDFIAGCDGFRGPSRPAIPQSVRKEYQKVYPFSWLGILVEAPPSAHELIYANHERGFALVSTRSPQIQRLYLQVDAQDHIDNWSDDRIWSELHARLETRDGFKLLEGPIFQKGIVSMRSFVCDPMQHGRLFLAGDAAHIVPPTGAKGLNLAAADVQVLARGLEAYYKAGKMEILNRCTEICLRRIWKAERFSWFMTTMLHRDQGHTPFERGIQLAELDYVTSSRAASTSLAENYIGLPM 7oo9-a1-m1-cA_7oo9-a1-m1-cB Structure of Chloroflexus islandicus LOV domain C85A variant (CisFbFP) A0A178LR65 A0A178LR65 1.2 X-RAY DIFFRACTION 52 1.0 1707952 (Chloroflexus islandicus) 1707952 (Chloroflexus islandicus) 106 106 ASGMVVTDAGPDYPIIFANRAFSAITGYGPDEILGRNARFLQGPQTDWAVVARIREAIAAARPIHTRLLNYRKDGQPFWSQLAISPVRDETEQVVAFVGLQTDVTA ASGMVVTDAGPDYPIIFANRAFSAITGYGPDEILGRNARFLQGPQTDWAVVARIREAIAAARPIHTRLLNYRKDGQPFWSQLAISPVRDETEQVVAFVGLQTDVTA 7oom-a1-m1-cA_7oom-a1-m1-cB N-terminal domain of FlSp spidroin from Nephila clavipes A0A2S2B4P9 A0A2S2B4P9 1.8 X-RAY DIFFRACTION 131 0.992 2585209 (Trichonephila clavipes) 2585209 (Trichonephila clavipes) 120 125 7a0o-a1-m1-cA_7a0o-a1-m1-cB PFSNPNTAEAFARSFVSNIVSSGEFGAQGAEDFDDIIQSLIQAQSHDTKAKAKAMQVALASSIAELVIAESSGGDVQRKTNVISNALRNALMSTTGSPNEEFVHEVQDLIQMLSQEQINE FSNPNTAEAFARSFVSNIVSSGEFGAQGAEDFDDIIQSLIQAQSMGKGRHDTKAKAKAMQVALASSIAELVIAESSGGDVQRKTNVISNALRNALMSTTGSPNEEFVHEVQDLIQMLSQEQINEV 7opq-a1-m1-cB_7opq-a1-m1-cA Rab27a fusion with Slp2a-RBDa1 effector covalent adduct with CA1 in C188 P51159 P51159 2.23 X-RAY DIFFRACTION 75 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 204 212 7opp-a1-m1-cC_7opp-a1-m1-cA 7opr-a1-m1-cB_7opr-a1-m1-cA SFLTEEEQEAIMKVLQRDAALKRAEEEDYDYLIKFLALGDSGVGKTSVLYQYTDGKFNSKFITTVGIDFREKRVVYRASRGQRIHLQLWDTAGLERFRSLTTAFFRDAMGFLLLFDLTNEQSFLNVRNWISQLQMHAYSENPDIVLCGNKSDLEDQRVVKEEEAIALAEKYGIPYFETSAANGTNISQAIEMLLDLIMKRMERC HMSFLTEEEQEAIMKVLQRDAALKRAEEDYDYLIKFLALGDSGVGKTSVLYQYTDGKFNSKFITTVGIDFREKRVVYRASGPDGATGRGQRIHLQLWDTAGLERFRSLTTAFFRDAMGFLLLFDLTNEQSFLNVRNWISQLQMHAYSENPDIVLCGNKSDLEDQRVVKEEEAIALAEKYGIPYFETSAANGTNISQAIEMLLDLIMKRMERC 7opy-a1-m1-cF_7opy-a1-m1-cB Camel GSTM1-1 in complex with S-(p-nitrobenzyl)glutathione G9B5E4 G9B5E4 2.05 X-RAY DIFFRACTION 66 1.0 9838 (Camelus dromedarius) 9838 (Camelus dromedarius) 215 216 7opy-a2-m1-cA_7opy-a2-m1-cC 7opz-a1-m1-cA_7opz-a1-m1-cC 7opz-a2-m1-cB_7opz-a2-m1-cD PMILGYWDIRGLAHAIRLLLEYTGSDYEEKIYSMGDAPDYDRSQWLSEKFKLGLDFPNLPYLIDGAHRLTQSNAILRYIARKHNLGETEEEKIRVDVLENQAMDTRLDFARVCYNPDFEKLKPGFLKEPEKMKLFSEFLGKRTWFAGDKLNYVDFLAYDVLDVYRIFEPKCLDEFPNLKDFMSRFEGLKKISAYMKSSRFLRSPLFLKMAMWGNK PMILGYWDIRGLAHAIRLLLEYTGSDYEEKIYSMGDAPDYDRSQWLSEKFKLGLDFPNLPYLIDGAHRLTQSNAILRYIARKHNLGETEEEKIRVDVLENQAMDTRLDFARVCYNPDFEKLKPGFLKEIPEKMKLFSEFLGKRTWFAGDKLNYVDFLAYDVLDVYRIFEPKCLDEFPNLKDFMSRFEGLKKISAYMKSSRFLRSPLFLKMAMWGNK 7oq6-a1-m1-cA_7oq6-a1-m1-cB Crystal structure of cytochrome P450 Sas16 from Streptomyces asterosporus A0A0N9M5Z3 A0A0N9M5Z3 2 X-RAY DIFFRACTION 90 1.0 399 399 AKCPVAPHGWPNPLLPEYDQLPEGRPLTQVTMPSGSKAWLVAQHDHIQRLLADNRFSVEPHPTFPIRFPAPQELLDMIARDAKNLLVTMDPPRHTRVRQMALPDFTIKAAEKLRPRMQDLIDYYLDKMEAEGAPADLVQALALPFPAQVICELAGIPENDREIFTRNAAIMVGTRHSYTMEQKLAANEELMKYFAALVTEKQSNPTDDMLGNFIARAGKTDEFDHHGLTLMTKMLLLAGYEFIVNRIALGIQALVENPEQLAALRADLPGLMPKTVDEVLRYYSLVDEIIARVALEDVEIDGVTIKAGEGILVLKGLGDRDPSKYPNPDVFDIHRDSRDHLAFGYGVHQCLGQHVARLMLEMCLTSLVERFPGLHLVEGDEPIELIDGLPPVHKLTIGW AKCPVAPHGWPNPLLPEYDQLPEGRPLTQVTMPSGSKAWLVAQHDHIQRLLADNRFSVEPHPTFPIRFPAPQELLDMIARDAKNLLVTMDPPRHTRVRQMALPDFTIKAAEKLRPRMQDLIDYYLDKMEAEGAPADLVQALALPFPAQVICELAGIPENDREIFTRNAAIMVGTRHSYTMEQKLAANEELMKYFAALVTEKQSNPTDDMLGNFIARAGKTDEFDHHGLTLMTKMLLLAGYEFIVNRIALGIQALVENPEQLAALRADLPGLMPKTVDEVLRYYSLVDEIIARVALEDVEIDGVTIKAGEGILVLKGLGDRDPSKYPNPDVFDIHRDSRDHLAFGYGVHQCLGQHVARLMLEMCLTSLVERFPGLHLVEGDEPIELIDGLPPVHKLTIGW 7oqh-a1-m1-cF_7oqh-a1-m1-cE CryoEM structure of the transcription termination factor Rho from Mycobacterium tuberculosis P9WHF3 P9WHF3 3.32 ELECTRON MICROSCOPY 51 0.992 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 356 362 7oqh-a1-m1-cA_7oqh-a1-m1-cB 7oqh-a1-m1-cC_7oqh-a1-m1-cB 7oqh-a1-m1-cC_7oqh-a1-m1-cD 7oqh-a1-m1-cE_7oqh-a1-m1-cD VQPVAGILDVLDNYAFVRTSGYLPGPHDVYVSMNMVRKNGMRRGDAVTGAVRVPKEGKFNPLVRLDSINGGSVEDAKKRPEFGKLTPLYPNQRLRLETSTERLTTRVIDLIMPIGKGQRALIVSPPKAGKTTILQDIANAITRNNPECHLMVVLVDERPEEVTDMQRSVKGEVIASTFDRPPSDHTSVAELAIERAKRLVEQGKDVVVLLDSITRLGRAYNNASPALSGGVDSTALYPPKRFLGAARNIEEGGSLTIIATAMVETGSTGDTVIFEEFKGTGNAELKLDRKIAERRVFPAVDVNPSGTRKDELLLSPDEFAIVHKLRRVLSGLDSHQAIDLLMSQLRKTKNNYEFLV VVQPVAGILDVLDNYAFVRTSGYLPGPHDVYVSMNMVRKNGMRRGDAVTGAVRVPQKFNPLVRLDSINGGSVEDAKKRPEFGKLTPLYPNQRLRLETSTERLTTRVIDLIMPIGKGQRALIVSPPKAGKTTILQDIANAITRNNPECHLMVVLVDERPEEVTDMQRSVKGEVIASTFDRPPSDHTSVAELAIERAKRLVEQGKDVVVLLDSITRLGRAYNNASPASGRILSGGVDSTALYPPKRFLGAARNIEEGGSLTIIATAMVETGSTGDTVIFEEFKGTGNAELKLDRKIAERRVFPAVDVNPSGTRKDELLLSPDEFAIVHKLRRVLSGLDSHQAIDLLMSQLRKTKNNYEFLVQVS 7oqv-a1-m1-cCCC_7oqv-a1-m1-cAAA Crystal structure of the polymerising VEL domain of VIN3 (I575D mutant) Q9FIE3 Q9FIE3 2.4 X-RAY DIFFRACTION 103 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 70 72 7o6t-a1-m1-cB_7o6t-a1-m1-cA 7o6u-a1-m1-cA_7o6u-a1-m2-cA 7oqv-a2-m1-cDDD_7oqv-a2-m1-cBBB DLGHIVKTIRCLEEEGHIDKSFRERFLTWYSLRATHREVRVVKDFVETFMEDLSSLGQQLVDTFSESILS DLGHIVKTIRCLEEEGHIDKSFRERFLTWYSLRATHREVRVVKDFVETFMEDLSSLGQQLVDTFSESILSKR 7oqz-a1-m1-cC_7oqz-a1-m1-cD Cryo-EM structure of human TMEM45A Q9NWC5 Q9NWC5 3.27 ELECTRON MICROSCOPY 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 237 237 7oqz-a1-m1-cA_7oqz-a1-m1-cB 7oqz-a1-m1-cA_7oqz-a1-m1-cD 7oqz-a1-m1-cB_7oqz-a1-m1-cC NFRGHALPGTFFFIIGLWWCTKSILKYICKKQKRTCYLGSKTLFYRLEILEGITIVGMALTGMAGEQFIPGHWNQLLGWHHFTMYFFFGLLGVADILCFTISSLPVSLTKLMLSNALFVEAFIFYNHTHGREMLDIFVHQLLVLVVFLTGLVAFLEFLVRNNVLLELLRSSLILLQGSWFFQIGFVLYPPSGGPAWDLMDHENILFLTICFCWHYAVTIVIVGMNYAFITWLVKSRL NFRGHALPGTFFFIIGLWWCTKSILKYICKKQKRTCYLGSKTLFYRLEILEGITIVGMALTGMAGEQFIPGHWNQLLGWHHFTMYFFFGLLGVADILCFTISSLPVSLTKLMLSNALFVEAFIFYNHTHGREMLDIFVHQLLVLVVFLTGLVAFLEFLVRNNVLLELLRSSLILLQGSWFFQIGFVLYPPSGGPAWDLMDHENILFLTICFCWHYAVTIVIVGMNYAFITWLVKSRL 7or6-a1-m1-cAAA_7or6-a1-m1-cBBB The crystal structure of the domain-swapped dimer of onconase P22069 P22069 2.12 X-RAY DIFFRACTION 99 1.0 8404 (Lithobates pipiens) 8404 (Lithobates pipiens) 103 103 7ord-a1-m1-cAAA_7ord-a1-m1-cBBB DWLTFQKKHITNTRDVDCDNIMSTNLFHCKDKNTFIYSRPEPVKAICKGIIASKNVLTTSEFYLSDCNVTSRPCKYKLKKSTNKFCVTCENQAPVHFVGVGSC DWLTFQKKHITNTRDVDCDNIMSTNLFHCKDKNTFIYSRPEPVKAICKGIIASKNVLTTSEFYLSDCNVTSRPCKYKLKKSTNKFCVTCENQAPVHFVGVGSC 7orx-a1-m1-cAAA_7orx-a1-m1-cDDD Rhodococcus jostii RHA1 thiamine diphosphate-dependent 4-hydroxybenzoylformate decarboxylase Q0SCE8 Q0SCE8 2.6 X-RAY DIFFRACTION 140 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 526 526 7orx-a1-m1-cBBB_7orx-a1-m1-cCCC ATVSEVTYELLRARGLTTVFGNPGNELPFLSGMPDDFRYVLGLHEGAVLSMADGYSLVTGEATLVNLHAASGSGNAMGALTNSVYSHSPLVVTAGQQVRSTIGQEVMLSNVDAGTLMKPLVKWSSEPTCAEDVPRTINQAIHTALLPAKGPVYVSVPYDDWAAEAPPESAGLLAREVHSAASLSGDQINDLIETLESATNPVLVLGPAVDADRANADAVLLAEKLRAPVWIAPSPSRCPFPTRHPSFRGVLPAGVADLSKTLEGHDLILVVGAPVFRYHQYVPGNYLPGGARLIHVTDDGGEAARAPIGEAYVAPVGSTLEILANMVKPSDRSPLPPLGDFEEAVSVGAGLDPAQLFALVRAGAPDDAIYVNESTSTSDAFWSQMDLSHQGSYYFPASGGLGFGLPAAVGAQLASPDRQVIGLIGDGSANYGITALWSAAQYKIPVVIIILNNGTYGALRGFSKILNTGETPGLDVPGIDFVHLAEGYGVRGTAVATAEDFTTAFKSALAADAPTLIEVRTNFDES ATVSEVTYELLRARGLTTVFGNPGNELPFLSGMPDDFRYVLGLHEGAVLSMADGYSLVTGEATLVNLHAASGSGNAMGALTNSVYSHSPLVVTAGQQVRSTIGQEVMLSNVDAGTLMKPLVKWSSEPTCAEDVPRTINQAIHTALLPAKGPVYVSVPYDDWAAEAPPESAGLLAREVHSAASLSGDQINDLIETLESATNPVLVLGPAVDADRANADAVLLAEKLRAPVWIAPSPSRCPFPTRHPSFRGVLPAGVADLSKTLEGHDLILVVGAPVFRYHQYVPGNYLPGGARLIHVTDDGGEAARAPIGEAYVAPVGSTLEILANMVKPSDRSPLPPLGDFEEAVSVGAGLDPAQLFALVRAGAPDDAIYVNESTSTSDAFWSQMDLSHQGSYYFPASGGLGFGLPAAVGAQLASPDRQVIGLIGDGSANYGITALWSAAQYKIPVVIIILNNGTYGALRGFSKILNTGETPGLDVPGIDFVHLAEGYGVRGTAVATAEDFTTAFKSALAADAPTLIEVRTNFDES 7orx-a1-m1-cBBB_7orx-a1-m1-cDDD Rhodococcus jostii RHA1 thiamine diphosphate-dependent 4-hydroxybenzoylformate decarboxylase Q0SCE8 Q0SCE8 2.6 X-RAY DIFFRACTION 41 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 526 526 7orx-a1-m1-cAAA_7orx-a1-m1-cCCC ATVSEVTYELLRARGLTTVFGNPGNELPFLSGMPDDFRYVLGLHEGAVLSMADGYSLVTGEATLVNLHAASGSGNAMGALTNSVYSHSPLVVTAGQQVRSTIGQEVMLSNVDAGTLMKPLVKWSSEPTCAEDVPRTINQAIHTALLPAKGPVYVSVPYDDWAAEAPPESAGLLAREVHSAASLSGDQINDLIETLESATNPVLVLGPAVDADRANADAVLLAEKLRAPVWIAPSPSRCPFPTRHPSFRGVLPAGVADLSKTLEGHDLILVVGAPVFRYHQYVPGNYLPGGARLIHVTDDGGEAARAPIGEAYVAPVGSTLEILANMVKPSDRSPLPPLGDFEEAVSVGAGLDPAQLFALVRAGAPDDAIYVNESTSTSDAFWSQMDLSHQGSYYFPASGGLGFGLPAAVGAQLASPDRQVIGLIGDGSANYGITALWSAAQYKIPVVIIILNNGTYGALRGFSKILNTGETPGLDVPGIDFVHLAEGYGVRGTAVATAEDFTTAFKSALAADAPTLIEVRTNFDES ATVSEVTYELLRARGLTTVFGNPGNELPFLSGMPDDFRYVLGLHEGAVLSMADGYSLVTGEATLVNLHAASGSGNAMGALTNSVYSHSPLVVTAGQQVRSTIGQEVMLSNVDAGTLMKPLVKWSSEPTCAEDVPRTINQAIHTALLPAKGPVYVSVPYDDWAAEAPPESAGLLAREVHSAASLSGDQINDLIETLESATNPVLVLGPAVDADRANADAVLLAEKLRAPVWIAPSPSRCPFPTRHPSFRGVLPAGVADLSKTLEGHDLILVVGAPVFRYHQYVPGNYLPGGARLIHVTDDGGEAARAPIGEAYVAPVGSTLEILANMVKPSDRSPLPPLGDFEEAVSVGAGLDPAQLFALVRAGAPDDAIYVNESTSTSDAFWSQMDLSHQGSYYFPASGGLGFGLPAAVGAQLASPDRQVIGLIGDGSANYGITALWSAAQYKIPVVIIILNNGTYGALRGFSKILNTGETPGLDVPGIDFVHLAEGYGVRGTAVATAEDFTTAFKSALAADAPTLIEVRTNFDES 7orx-a1-m1-cDDD_7orx-a1-m1-cCCC Rhodococcus jostii RHA1 thiamine diphosphate-dependent 4-hydroxybenzoylformate decarboxylase Q0SCE8 Q0SCE8 2.6 X-RAY DIFFRACTION 245 1.0 101510 (Rhodococcus jostii RHA1) 101510 (Rhodococcus jostii RHA1) 526 530 7orx-a1-m1-cAAA_7orx-a1-m1-cBBB ATVSEVTYELLRARGLTTVFGNPGNELPFLSGMPDDFRYVLGLHEGAVLSMADGYSLVTGEATLVNLHAASGSGNAMGALTNSVYSHSPLVVTAGQQVRSTIGQEVMLSNVDAGTLMKPLVKWSSEPTCAEDVPRTINQAIHTALLPAKGPVYVSVPYDDWAAEAPPESAGLLAREVHSAASLSGDQINDLIETLESATNPVLVLGPAVDADRANADAVLLAEKLRAPVWIAPSPSRCPFPTRHPSFRGVLPAGVADLSKTLEGHDLILVVGAPVFRYHQYVPGNYLPGGARLIHVTDDGGEAARAPIGEAYVAPVGSTLEILANMVKPSDRSPLPPLGDFEEAVSVGAGLDPAQLFALVRAGAPDDAIYVNESTSTSDAFWSQMDLSHQGSYYFPASGGLGFGLPAAVGAQLASPDRQVIGLIGDGSANYGITALWSAAQYKIPVVIIILNNGTYGALRGFSKILNTGETPGLDVPGIDFVHLAEGYGVRGTAVATAEDFTTAFKSALAADAPTLIEVRTNFDES FQGMATVSEVTYELLRARGLTTVFGNPGNELPFLSGMPDDFRYVLGLHEGAVLSMADGYSLVTGEATLVNLHAASGSGNAMGALTNSVYSHSPLVVTAGQQVRSTIGQEVMLSNVDAGTLMKPLVKWSSEPTCAEDVPRTINQAIHTALLPAKGPVYVSVPYDDWAAEAPPESAGLLAREVHSAASLSGDQINDLIETLESATNPVLVLGPAVDADRANADAVLLAEKLRAPVWIAPSPSRCPFPTRHPSFRGVLPAGVADLSKTLEGHDLILVVGAPVFRYHQYVPGNYLPGGARLIHVTDDGGEAARAPIGEAYVAPVGSTLEILANMVKPSDRSPLPPLGDFEEAVSVGAGLDPAQLFALVRAGAPDDAIYVNESTSTSDAFWSQMDLSHQGSYYFPASGGLGFGLPAAVGAQLASPDRQVIGLIGDGSANYGITALWSAAQYKIPVVIIILNNGTYGALRGFSKILNTGETPGLDVPGIDFVHLAEGYGVRGTAVATAEDFTTAFKSALAADAPTLIEVRTNFDES 7os6-a2-m1-cAAA_7os6-a2-m1-cBBB Crystal structure of Rhizobium etli inducible L-asparaginase ReAV (monoclinic form MP1) Q2K0Z2 Q2K0Z2 1.43 X-RAY DIFFRACTION 117 1.0 347834 (Rhizobium etli CFN 42) 347834 (Rhizobium etli CFN 42) 346 349 7os3-a1-m1-cBBB_7os3-a1-m1-cAAA 7os5-a1-m1-cBBB_7os5-a1-m1-cAAA 7os6-a1-m1-cCCC_7os6-a1-m1-cDDD 7ou1-a1-m1-cAAA_7ou1-a1-m1-cBBB 7ou1-a2-m1-cCCC_7ou1-a2-m1-cDDD 7oz6-a1-m1-cAAA_7oz6-a1-m1-cBBB SEDFVVTDRGGIVENSHRVHAAVVDAKGRLLYALGNPTRMTLARSAAKPAQALAILETEGVAGYGFDDADIALMCASHSSEDRHIARTRAMLSKIKAEEADLRCGGHPSLSEMVNRSWIKQDFIPTAVCSNCSGKHVGMLAGARAIGAGTDGYHLPDHPMQGRVKRTVAELCDLDAGDVEWGTDGCNLPTPAFPLDRLGRIYAKLASAADGSDAGQSTRCAALAHIFRAMARHPEMVAGEGRYTMLMRAFDGALVGKLGADASYAIGVRASDATRQLGTDGALGISVKIEDGNLEMLYAVVTELLERLGIGSPDVRSQLASFHHPQRVNTMGVTTGGVSFPFKLRG PSEDFVVTDRGGIVENSHRVHAAVVDAKGRLLYALGNPTRMTLARSAAKPAQALAILETEGVAGYGFDDADIALMCASHSSEDRHIARTRAMLSKIKAEEADLRCGGHPSLSEMVNRSWIKQDFIPTAVCSNCSGKHVGMLAGARAIGAGTDGYHLPDHPMQGRVKRTVAELCDLDAGDVEWGTDGCNLPTPAFPLDRLGRIYAKLASAADGSDAGEGQSTRCAALAHIFRAMARHPEMVAGEGRYTMLMRAFDGALVGKLGADASYAIGVRASDATRQLGTDGALGISVKIEDGNLEMLYAVVTELLERLGIGSPDVRSQLASFHHPQRVNTMGVTTGGVSFPFKLRG 7ose-a1-m1-cC_7ose-a1-m1-cF cytochrome bd-II type oxidase with bound aurachin D P24244 P24244 3.0 ELECTRON MICROSCOPY 36 1.0 679895 (Escherichia coli BW25113) 679895 (Escherichia coli BW25113) 28 28 MWYLLWFVGILLMCSLSTLVLVWLDPRL MWYLLWFVGILLMCSLSTLVLVWLDPRL 7osl-a1-m1-cH_7osl-a1-m1-cI Cryo-EM structure of nonameric EPEC SctV-C B7UMA7 B7UMA7 3.1 ELECTRON MICROSCOPY 48 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 326 326 7k08-a1-m1-cA_7k08-a1-m1-cB 7k08-a1-m1-cA_7k08-a1-m1-cI 7k08-a1-m1-cB_7k08-a1-m1-cC 7k08-a1-m1-cC_7k08-a1-m1-cD 7k08-a1-m1-cD_7k08-a1-m1-cE 7k08-a1-m1-cE_7k08-a1-m1-cF 7k08-a1-m1-cF_7k08-a1-m1-cG 7k08-a1-m1-cG_7k08-a1-m1-cH 7k08-a1-m1-cH_7k08-a1-m1-cI 7osl-a1-m1-cA_7osl-a1-m1-cB 7osl-a1-m1-cA_7osl-a1-m1-cI 7osl-a1-m1-cC_7osl-a1-m1-cB 7osl-a1-m1-cC_7osl-a1-m1-cD 7osl-a1-m1-cD_7osl-a1-m1-cE 7osl-a1-m1-cE_7osl-a1-m1-cF 7osl-a1-m1-cF_7osl-a1-m1-cG 7osl-a1-m1-cG_7osl-a1-m1-cH NISPGAEPLILNLSSNIYSSDITQQIEVMRWNFFEESGIPLPKIIVNPVKNNDSAIEFLLYQESIYKDTLIDDTVYFEAGHAEISFEFVQEKLSTNSIVYKTNKTNQQLAHLTGMDVYATTNDKITFLLKKLVLSNAKEFIGVQETRYLMDIMERKYNELVKELQRQLGLSKIVDILQRLVEENVSIRDLRTIFETLIFWSTKEKDVVILCEYVRIALRRHILGRYSVSGTLLNVWLIGSDIENELRESIRQTSSGSYLNISPERTEQIIGFLKNIMNPTGNGVILTALDIRRYVKKMIEGSFPSVPVLSFQEVGNNIELKVLGTV NISPGAEPLILNLSSNIYSSDITQQIEVMRWNFFEESGIPLPKIIVNPVKNNDSAIEFLLYQESIYKDTLIDDTVYFEAGHAEISFEFVQEKLSTNSIVYKTNKTNQQLAHLTGMDVYATTNDKITFLLKKLVLSNAKEFIGVQETRYLMDIMERKYNELVKELQRQLGLSKIVDILQRLVEENVSIRDLRTIFETLIFWSTKEKDVVILCEYVRIALRRHILGRYSVSGTLLNVWLIGSDIENELRESIRQTSSGSYLNISPERTEQIIGFLKNIMNPTGNGVILTALDIRRYVKKMIEGSFPSVPVLSFQEVGNNIELKVLGTV 7osn-a3-m1-cE_7osn-a3-m1-cF IRED361 from Micromonospora sp. in complex with NADP+ A0A1S8Y2S4 A0A1S8Y2S4 2.55 X-RAY DIFFRACTION 356 1.0 1920666 (Micromonospora sp. Rc5) 1920666 (Micromonospora sp. Rc5) 289 289 7osn-a1-m1-cA_7osn-a1-m1-cB 7osn-a2-m1-cC_7osn-a2-m1-cD RPPVTVVGLGLMGQALAAAFLKGGHPTTVWNRSPEKAERLVADGAVLADTLESAVTASPLVIVCVSDYDAVHELIRPVESALAGRVLVNLTTATSTQARETAEWAAQRNIPYLDGAIMAIPPVIGTDGAVLLYSGHKSAFEAHESTLKAIAPAATTYLEEDHGLSSLYDMALLGIMWGILNGFLHGAALLGTAKVKAETFAPLANTMISAITEYVTAYAPQVDEGRYEATDATMTVHQAAMEHLAEESEHLGIHSELPRFFKTLADRAVADGHAENSYAAMIELFRKPT RPPVTVVGLGLMGQALAAAFLKGGHPTTVWNRSPEKAERLVADGAVLADTLESAVTASPLVIVCVSDYDAVHELIRPVESALAGRVLVNLTTATSTQARETAEWAAQRNIPYLDGAIMAIPPVIGTDGAVLLYSGHKSAFEAHESTLKAIAPAATTYLEEDHGLSSLYDMALLGIMWGILNGFLHGAALLGTAKVKAETFAPLANTMISAITEYVTAYAPQVDEGRYEATDATMTVHQAAMEHLAEESEHLGIHSELPRFFKTLADRAVADGHAENSYAAMIELFRKPT 7ost-a2-m2-cAAA_7ost-a2-m3-cAAA Rat HIP1R ANTH domain F1LML7 F1LML7 1.4 X-RAY DIFFRACTION 34 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 293 293 7ost-a2-m1-cAAA_7ost-a2-m2-cAAA 7ost-a2-m1-cAAA_7ost-a2-m3-cAAA PGHSLEAEREQFDKTQAISISKAINSQEAPVKEKHARRIILGTHHEKGAFTFWSYAIGLPLPSSSILSWKFCHVLHKVLRDGHPNVLHDCQRYRSNIREIGDLWGHLRDQYGHLVNIYTKLLLTKISFHLKHPQFPAGLEVTDEVLEKAAGTDVNNIFQLTVEMFDYMDCELKLSESVFRQLNTAIAVSQMSSGQCRLAPLIQVIQDCSHLYHYTVKLMFKLHSCLPADTLQGHRDRFHEQFHSLRNFFRRASDMLYFKRLIQIPRLPEGPPNFLRASALAEHIKPVVVIPEE PGHSLEAEREQFDKTQAISISKAINSQEAPVKEKHARRIILGTHHEKGAFTFWSYAIGLPLPSSSILSWKFCHVLHKVLRDGHPNVLHDCQRYRSNIREIGDLWGHLRDQYGHLVNIYTKLLLTKISFHLKHPQFPAGLEVTDEVLEKAAGTDVNNIFQLTVEMFDYMDCELKLSESVFRQLNTAIAVSQMSSGQCRLAPLIQVIQDCSHLYHYTVKLMFKLHSCLPADTLQGHRDRFHEQFHSLRNFFRRASDMLYFKRLIQIPRLPEGPPNFLRASALAEHIKPVVVIPEE 7ot9-a1-m1-cD_7ot9-a1-m1-cE Structure of the AI-2 exporter family protein YdiK from E. coli P0AFS7 P0AFS7 2.8 ELECTRON MICROSCOPY 71 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 221 221 7ot9-a1-m1-cA_7ot9-a1-m1-cB 7ot9-a1-m1-cA_7ot9-a1-m1-cE 7ot9-a1-m1-cB_7ot9-a1-m1-cC 7ot9-a1-m1-cC_7ot9-a1-m1-cD PRDVAQILLSVLFLAIMIVACLWIVQPFILGFAWAGTVVIATWPVLLRLQKIMFGRRSLAVLVMTLLLVMVFIIFMVHCALMLLFSALLYWRGEQVAQGIRHFATRLAGVRGDAAVLLAAQAIRAVALGVVVTALVQAVLGGTWGTVLLVWSGVVGTLDNVIRPMLIRMGADLPLILILSGVIGGLIAFGMIGLFIGPVLLAVSWRLFAAWVEEVPPPTDQ PRDVAQILLSVLFLAIMIVACLWIVQPFILGFAWAGTVVIATWPVLLRLQKIMFGRRSLAVLVMTLLLVMVFIIFMVHCALMLLFSALLYWRGEQVAQGIRHFATRLAGVRGDAAVLLAAQAIRAVALGVVVTALVQAVLGGTWGTVLLVWSGVVGTLDNVIRPMLIRMGADLPLILILSGVIGGLIAFGMIGLFIGPVLLAVSWRLFAAWVEEVPPPTDQ 7oto-a1-m1-cB_7oto-a1-m1-cA The structure of MutS bound to two molecules of AMPPNP P23909 P23909 3.4 ELECTRON MICROSCOPY 274 0.998 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 602 711 7ou0-a1-m1-cB_7ou0-a1-m1-cA 7ou4-a1-m1-cB_7ou4-a1-m1-cA DNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAEMSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLCAAGCLLQYAKDTQRTTLPHIRSITMEREQDSIIMDAATRRNLEITQNLAGGAENTLASVLDCTVTPMGSRMLKRWLHMPVRDTRVLLERQQTIGALQDFTAGLQPVLRQVGDLERILARLALRTARPRDLARMRHAFQQLPELRAQLETVDSAPVQALREKMGEFAELRDLLERAIIDTPPVLVRDGGVIASGYNEELDEWRALADGDKVLTSKGKALALEKQLYEELFDLLLPHLEALQQSASALAELDVLVNLAERAYTLNYTCPTFIDKPGIRITEGRHPVVEQVLNEPFIANPLNLSPQRRMLIITGPNMGGKSTYMRQTALIALMAYIGSYVPAQKVEIGPIDRIFTRVGAADDLASGRSTFMVEMTETANILHNATEYSLVLMDEIGRGTSTYDGLSLAWACAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESI HTPMMQQYLRLKAQHPEILLFYRMGDFYELFYDDAKRASQLLDISLTKRGAEPIPMAGIPYHAVENYLAKLVNQGESVAICEQIGVERKVVRIVTPGTISDEALLQERQDNLLAAIWQDSKGFGYATLDISSGRFRLSEPADRETMAAELQRTNPAELLYAEDFAEMSLIEGRRGLRRRPLWEFEIDTARQQLNLQFGTRDLVGFGVENAPRGLCAAGCLLQYAKDTQRTTLPHIRSITMEREQDSIIMDAATRRNLEITQNLAGGAENTLASVLDCTVTPMGSRMLKRWLHMPVRDTRVLLERQQTIGALQDFTAGLQPVLRQVGDLERILARLALRTARPRDLARMRHAFQQLPELRAQLETVDSAPVQALREKMGEFAELRDLLERAIIDTPPVLVRDGGVIASGYNEELDEWRALADGKVLTSKGKALALEKQLYEELFDLLLPHLEALQQSASALAELDVLVNLAERAYTLNYTCPTFIDKPGIRITEGRHPVVEQVLNEPFIANPLNLSPQRRMLIITGPNMGGKSTYMRQTALIALMAYIGSYVPAQKVEIGPIDRIFTRVGAADDLASGRSTFMVEMTETANILHNATEYSLVLMDEIGRGTSTYDGLSLAWACAENLANKIKALTLFATHYFELTQLPEKMEGVANVHLDALEHGDTIAFMHSVQDGAASKSYGLAVAALAGVPKEVIKRARQKLRELESIS 7ou6-a1-m1-cAAA_7ou6-a1-m1-cBBB Human O-GlcNAc hydrolase in complex with DNJNAc-thiazolidines O60502 O60502 2.41 X-RAY DIFFRACTION 204 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 430 436 5uhk-a1-m1-cB_5uhk-a1-m1-cD 5uhl-a1-m1-cB_5uhl-a1-m1-cD 5uho-a1-m1-cB_5uho-a1-m1-cD RFLCGVVEGFYGRPWVMEQRKELFRRLQKWELNTYLYAPKDDYKHRMFWREMYSVEEAEQLMTLISAAREYEIEFIYAISPGLDITFSNPKEVSTLKRKLDQVSQFGCRSFALLFDDIDHNMCAADKEVFSSFAHAQVSITNEIYQYLGEPETFLFCPTEYCGTFCYPNVSQSPYLRTVGEKLLPGIEVLWTGPKVVSKEIPVESIEEVSKIIKRAPVIWDNIHANDYDQKRLFLGPYKGRSTELIPRLKGVLTNPNCEFEANYVAIHTLATWYKSNMLYSPQMALKLALTEWLQEFGVPHFVPGPNEKPLYTAEPVTLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANSSVKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWLGCFRGGLAGEFQRLLP RFLCGVVEGFYGRPWVMEQRKELFRRLQKWELNTYLYAPKDDYKHRMFWREMYSVEEAEQLMTLISAAREYEIEFIYAISPGLDITFSNPKEVSTLKRKLDQVSQFGCRSFALLFDDIDHNMCAADKEVFSSFAHAQVSITNEIYQYLGEPETFLFCPTEYCGTFCYPNVSQSPYLRTVGEKLLPGIEVLWTGPKVVSKEIPVESIEEVSKIIKRAPVIWDNIHANDYDQKRLFLGPYKGRSTELIPRLKGVLTNPNCEFEANYVAIHTLATWYKSNMVLYSPQMALKLALTEWLQEFGVPHQFVPGPNEKPLYTAEPVTLEDLQLLADLFYLPYEHGPKGAQMLREFQWLRANSSVVEKIEEWRSRAAKFEEMCGLVMGMFTRLSNCANRTILYDMYSYVWDIKSIMSMVKSFVQWLGCEPWFRGGLAGEFQRLL 7ou8-a1-m1-cBBB_7ou8-a1-m1-cAAA Human O-GlcNAc hydrolase in complex with DNJNAc-thiazolidines Q89ZI2 Q89ZI2 1.5 X-RAY DIFFRACTION 42 1.0 226186 (Bacteroides thetaiotaomicron VPI-5482) 226186 (Bacteroides thetaiotaomicron VPI-5482) 708 714 VSLQPPPQQLIVQNKTIDLPAVYQLNGGEEANPHAVKVLKELLSGKQSSKKGMLISIGEKGDKSVRKYSRQIPDHKEGYYLSVNEKEIVLAGNDERGTYYALQTFAQLLKDGKLPEVEIKDYPSVRYRGVVEGFYGTPWSHQARLSQLKFYGKNKMNTYIYGPKDDPYHSAPNWRLPYPDKEAAQLQELVAVANENEVDFVWAIHPGQDIKWNKEDRDLLLAKFEKMYQLGVRSFAVFFDDISGEGTNPQKQAELLNYIDEKFAQVKPDINQLVMCPTEYNKSWSNPNGNYLTTLGDKLNPSIQIMWTGDRVISDITRDGISWINERIKRPAYIWWNFPVSDYVRDHLLLGPVYGNDTTIAKEMSGFVTNPMEHAESSKIAIYSVASYAWNPAKYDTWQTWKDAIRTILPSAAEELECFAMHNSDLGPNGHGYRREESMDIQPAAERFLKAFKEGKNYDKADFETLQYTFERMKESADILLMNTENKPLIVEITPWVHQFKLTAEMGEEVLKMVEGRNESYFLRKYNHVKALQQQMFYIDQTSNQNPYQPGVKTATRVIKPLIDRTFATVVKFFNQKFNAHLDATTDYMPHKMISNVEQIKNLPLQVKANRVLISPANEVVKWAAGNSVEIELDAIYPGENIQINFGKDATWGRLEISTDGKEWKTVDLKQKESRLSAGLQKAPVKFVRFTNVSDEEQLRQFVLTIEK VSLQPPPQQLIVQNKTIDLPAVYQLNGGEEANPHAVKVLKELLSGKQSSKKGMLISIGEKGDKSVRKYSRQIPDHKEGYYLSVNEKEIVLAGNDERGTYYALQTFAQLLKDGKLPEVEIKDYPSVRYRGVVEGFYGTPWSHQARLSQLKFYGKNKMNTYIYGPKDDPYHSAPNWRLPYPDKEAAQLQELVAVANENEVDFVWAIHPGQDIKWNKEDRDLLLAKFEKMYQLGVRSFAVFFDDISGEGTNPQKQAELLNYIDEKFAQVKPDINQLVMCPTEYNKSWSNPNGNYLTTLGDKLNPSIQIMWTGDRVISDITRDGISWINERIKRPAYIWWNFPVSDYVRDHLLLGPVYGNDTTIAKEMSGFVTNPMEHAESSKIAIYSVASYAWNPAKYDTWQTWKDAIRTILPSAAEELECFAMHNSDLGPNGHGYRREESMDIQPAAERFLKAFKEGKNYDKADFETLQYTFERMKESADILLMNTENKPLIVEITPWVHQFKLTAEMGEEVLKMVEGRNESYFLRKYNHVKALQQQMFYIDQTSNQNPYQPGVKTATRVIKPLIDRTFATVVKFFNQKFNAHLDATTDYMPHKMISNVEQIKNLPLQVKANRVLISPANEVVKWAAGNSVEIELDAIYPGENIQINFGKDAPCTWGRLEISTDGKEWKTVDLKQKESRLSAGLQKAPVKFVRFTNVSDEEQQVYLRQFVLTIEKK 7ouu-a1-m1-cA_7ouu-a1-m1-cB Crystal structure of human filamin C domains 14-15 Q14315 Q14315 1.47 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 204 7p0e-a1-m1-cA_7p0e-a1-m1-cB PAHDASKVRASGPGLNASGIPASLPVEFTIDARDAGEGLLTVQILDPEGKPKKANIRDNGDGTYTVSYLPDMSGRYTITIKYGGDEIPYSPFRIHALPTGDASKCLVTVSIGGHGLGACLGPRIQIGQETVITVDAKAAGEGKVTCTVSTPDGAELDVDVVENHDGTFDIYYTAPEPGKYVITIRFGGEHIPNSPFHVLATE PLPAHDASKVRASGPGLNASGIPASLPVEFTIDARDAGEGLLTVQILDPEGKPKKANIRDNGDGTYTVSYLPDMSGRYTITIKYGGDEIPYSPFRIHALPTGDASKCLVTVSIGGHGLGACLGPRIQIGQETVITVDAKAAGEGKVTCTVSTPDGAELDVDVVENHDGTFDIYYTAPEPGKYVITIRFGGEHIPNSPFHVLATE 7ouv-a1-m1-cB_7ouv-a1-m1-cA Crystal structure of human filamin C domains 14-15 cardiovascular disease causing mutation S1624L Q14315 Q14315 1.8 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 202 204 PAHDASKVRASGPGLNASGIPASLPVEFTIDARDAGEGLLTVQILDPEGKPKKANIRDNGDGTYTVSYLPDMSGRYTITIKYGGDEIPYLPFRIHALPTGDASKCLVTVSIGGHGLGACLGPRIQIGQETVITVDAKAAGEGKVTCTVSTPDGAELDVDVVENHDGTFDIYYTAPEPGKYVITIRFGGEHIPNSPFHVLATE PLPAHDASKVRASGPGLNASGIPASLPVEFTIDARDAGEGLLTVQILDPEGKPKKANIRDNGDGTYTVSYLPDMSGRYTITIKYGGDEIPYLPFRIHALPTGDASKCLVTVSIGGHGLGACLGPRIQIGQETVITVDAKAAGEGKVTCTVSTPDGAELDVDVVENHDGTFDIYYTAPEPGKYVITIRFGGEHIPNSPFHVLATE 7ovp-a1-m1-cA_7ovp-a1-m1-cB Crystal structure of the chemotactic adaptor protein CheF O58230 O58230 2.9 X-RAY DIFFRACTION 139 1.0 70601 (Pyrococcus horikoshii OT3) 70601 (Pyrococcus horikoshii OT3) 329 329 PIFEARVKVGISSSWVTSRKVSWRDAIAQIESDRIVVKYLKGEVVGEDSFPFSALIDLGVRIPDELKLNPEKDHFGIKFYIPGRGELLVIFTIEENLLIYDEKKFSEFVHKVFEVLINGKTVLQLARIIGGAVNESKWEEGWLRVIKVKSARTQKTERSIVVIIKDKRPVSIFSDLEDIEIEEVDNGKRVRAWKIRHFHIDQSVTSYLYIPDKQTQLYVLRYLLKYNPAIEFIKVSDDFPTLKSEFQEIEKEIKELEALDEEKQILVALYSGINPLELHQFLGVSEKEIEEIYDRIDKGLLKIVIRKIVDLTNEGRKIVNKLLKYGLVS PIFEARVKVGISSSWVTSRKVSWRDAIAQIESDRIVVKYLKGEVVGEDSFPFSALIDLGVRIPDELKLNPEKDHFGIKFYIPGRGELLVIFTIEENLLIYDEKKFSEFVHKVFEVLINGKTVLQLARIIGGAVNESKWEEGWLRVIKVKSARTQKTERSIVVIIKDKRPVSIFSDLEDIEIEEVDNGKRVRAWKIRHFHIDQSVTSYLYIPDKQTQLYVLRYLLKYNPAIEFIKVSDDFPTLKSEFQEIEKEIKELEALDEEKQILVALYSGINPLELHQFLGVSEKEIEEIYDRIDKGLLKIVIRKIVDLTNEGRKIVNKLLKYGLVS 7ovq-a1-m1-cb_7ovq-a1-m1-cl Immature HIV-1 matrix structure P12493 P12493 7.2 ELECTRON MICROSCOPY 24 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 115 115 7ovq-a1-m1-cA_7ovq-a1-m1-cD 7ovq-a1-m1-cB_7ovq-a1-m1-cQ 7ovq-a1-m1-cC_7ovq-a1-m1-cd 7ovq-a1-m1-cc_7ovq-a1-m1-cf 7ovq-a1-m1-cE_7ovq-a1-m1-cO 7ovq-a1-m1-cF_7ovq-a1-m1-cI 7ovq-a1-m1-cP_7ovq-a1-m1-cS 7ovq-a1-m1-cR_7ovq-a1-m1-cY GARASVLSGGELDKWEKIRLRPGGKKQYKLKHIVWASRELERFAVNPGLLETSEGCRQILGQLQPSLQTGSEELRSLYNTIAVLYCVHQRIDVKDTKEALDKIEEEQNKSKKKAQ GARASVLSGGELDKWEKIRLRPGGKKQYKLKHIVWASRELERFAVNPGLLETSEGCRQILGQLQPSLQTGSEELRSLYNTIAVLYCVHQRIDVKDTKEALDKIEEEQNKSKKKAQ 7ovv-a1-m1-cA_7ovv-a1-m1-cB Crystal structure of the Arabidopsis thaliana thialysine acetyltransferase AtNATA2 Q9ZV06 Q9ZV06 1.45 X-RAY DIFFRACTION 192 0.99 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 194 196 MAPMFSRIRLATPSDVPFIHKLIHQMAVFERLTHLFSATESGLASTLFTSRPFQSFTVFLLEVSRSPFPATPSPDFTPFFKTHNLDLPIDDPESYNFSPDMLNDVVVAGFVLFFPNYSSFLSKPGFYIEDIFVREPYRRKGFGSMLLTAVAKQAVKMGYGRVEWVVLDWNVNAIKFYEQMGAQILQEWRVCRLT PMFSRIRLATPSDVPFIHKLIHQMAVFERLTHLFSATESGLASTLFTSRPFQSFTVFLLEVSRSPFPATITSSPSPDFTPFFKTHNLDLPIDDPESYNFSPDMLNDVVVAGFVLFFPNYSSFLSKPGFYIEDIFVREPYRRKGFGSMLLTAVAKQAVKMGYGRVEWVVLDWNVNAIKFYEQMGAQILQEWRVCRLT 7ovw-a1-m1-cAAA_7ovw-a1-m1-cBBB Binding domain of botulinum neurotoxin E in complex with GD1a A5H0J8 A5H0J8 2.2 X-RAY DIFFRACTION 54 1.0 1491 (Clostridium botulinum) 1491 (Clostridium botulinum) 404 404 SSSVLNMRYKNDKYVDTSGYDSNININGDVYKYPTNKNQFGIYNDKLSEVNISQNDYIIYDNKYKNFSISFWVRIPNYDNKIVNVNNEYTIINCMRDNNSGWKVSLNHNEIIWTLQDNAGINQKLAFNYGNANGISDYINKWIFVTITNDRLGDSKLYINGNLIDQKSILNLGNIHVSDNILFKIVNCSYTRYIGIRYFNIFDKELDETEIQTLYSNEPNTNILKDFWGNYLLYDKEYYLLNVLKPNNFIDRRKDSTLSINNIRSTILLANRLYSGIKVKIQRVNNSSTNDNLVRKNDQVYINFVASKTHLFPLYADTATTNKEKTIKISSSGNRFNQVVVMNSVGNNCTMNFKNNNGNNIGLLGFKADTVVASTWYYTHMRDHTNSNGCFWNFISEEHGWQEK SSSVLNMRYKNDKYVDTSGYDSNININGDVYKYPTNKNQFGIYNDKLSEVNISQNDYIIYDNKYKNFSISFWVRIPNYDNKIVNVNNEYTIINCMRDNNSGWKVSLNHNEIIWTLQDNAGINQKLAFNYGNANGISDYINKWIFVTITNDRLGDSKLYINGNLIDQKSILNLGNIHVSDNILFKIVNCSYTRYIGIRYFNIFDKELDETEIQTLYSNEPNTNILKDFWGNYLLYDKEYYLLNVLKPNNFIDRRKDSTLSINNIRSTILLANRLYSGIKVKIQRVNNSSTNDNLVRKNDQVYINFVASKTHLFPLYADTATTNKEKTIKISSSGNRFNQVVVMNSVGNNCTMNFKNNNGNNIGLLGFKADTVVASTWYYTHMRDHTNSNGCFWNFISEEHGWQEK 7ow2-a1-m1-cE_7ow2-a1-m1-cG E3 RING ligase binding domain with peptide Q5TA31 Q5TA31 2.17 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 7 7 GLSMLLQ GLSMLLQ 7oy0-a1-m1-cA_7oy0-a1-m2-cA Structure of human Spermine Oxidase in complex with a highly selective allosteric inhibitor Q9NWM0 Q9NWM0 2.09 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 462 7oxl-a1-m1-cA_7oxl-a1-m2-cA PGPRVVVIGAGLAGLAAAKALLEQGFTDVTVLEASSHIGGRVQSVKLGHATFELGATWIHGSHGNPIYHLAEANGLLENGVACYLTNHGRRIPKDVVEEFSDLYNEVYNLTQEFFVNAESQNSVGVFTREEVRNRIRNDPDDPEATKRLKLAMIQQYLKVESCESSSHSMDEVSLSAFGEWTEIPGAHHIIPSGFMRVVELLAEGIPAHVIQLGKPVRCIHWDQASGSVVVECEDCELIPADHVIVTVSLGVLKRQYTSFFRPGLPTEKVAAIHRLGIGTTDKIFLEFEEPFWGPECNSLQFVWEDEAESHTLTYPPELWYRKICGFDVLYPPERYGHVLSGWICGEEALVMETLSDEAVAEICTEMLRQFTGNPNIPKPRRILRSAWGSNPYFRGSYSYTQVGSSGADVEKLAKPLPGLQVLFSGEATHRKYYSTTHGALLSGQREAARLIEMYRDLFQQS PGPRVVVIGAGLAGLAAAKALLEQGFTDVTVLEASSHIGGRVQSVKLGHATFELGATWIHGSHGNPIYHLAEANGLLENGVACYLTNHGRRIPKDVVEEFSDLYNEVYNLTQEFFVNAESQNSVGVFTREEVRNRIRNDPDDPEATKRLKLAMIQQYLKVESCESSSHSMDEVSLSAFGEWTEIPGAHHIIPSGFMRVVELLAEGIPAHVIQLGKPVRCIHWDQASGSVVVECEDCELIPADHVIVTVSLGVLKRQYTSFFRPGLPTEKVAAIHRLGIGTTDKIFLEFEEPFWGPECNSLQFVWEDEAESHTLTYPPELWYRKICGFDVLYPPERYGHVLSGWICGEEALVMETLSDEAVAEICTEMLRQFTGNPNIPKPRRILRSAWGSNPYFRGSYSYTQVGSSGADVEKLAKPLPGLQVLFSGEATHRKYYSTTHGALLSGQREAARLIEMYRDLFQQS 7oyg-a1-m1-cC_7oyg-a1-m1-cF Dimeric form of SARS-CoV-2 RNA-dependent RNA polymerase P0DTD1 P0DTD1 5.5 ELECTRON MICROSCOPY 35 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 62 62 SKMSDVKCTSVVLLSVLQQLRVESSSKLWAQCVQLHNDILLAKDTTEAFEKMVSLLSVLLSM SKMSDVKCTSVVLLSVLQQLRVESSSKLWAQCVQLHNDILLAKDTTEAFEKMVSLLSVLLSM 7oyk-a2-m1-cDDD_7oyk-a2-m1-cCCC DNA-binding domain of CggR in complex with the DNA operator O32253 O32253 2.101 X-RAY DIFFRACTION 69 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 91 92 7oyk-a1-m1-cAAA_7oyk-a1-m1-cBBB SNAASNQLIQAQKKLLPDLLLVQKRFEILQYIRLTEPIGRRSLSASLGISERVLRGEVQFLKEQNLVDIKTNGTLTEEGYELLSVLEDTKD SNAASNQLIQAQKKLLPDLLLVQKRFEILQYIRLTEPIGRRSLSASLGISERVLRGEVQFLKEQNLVDIKTNGTLTEEGYELLSVLEDTKDV 7oz4-a1-m1-cC_7oz4-a1-m1-cD Mature capsid of bacteriophage phiRSA1 A4PE30 A4PE30 3.9 ELECTRON MICROSCOPY 190 1.0 406340 (Aresaunavirus RSA1) 406340 (Aresaunavirus RSA1) 304 306 7oz4-a1-m1-cA_7oz4-a1-m1-cB 7oz4-a1-m1-cC_7oz4-a1-m1-cB 7oz4-a1-m1-cD_7oz4-a1-m1-cE 7oz4-a1-m1-cF_7oz4-a1-m1-cA 7oz4-a1-m1-cF_7oz4-a1-m1-cE APSVQQKLETKVQESSDFLKSINFYGVPEQEGEKIGLGVSGPVASTTDTTQQDRETSDISTMDGRRYRCEQTNSDTHITYQKLDAWAKFADFQTRIRDAIIKRQALDRIMIGFNGVSRAATSDRVANPMLQDVNKGWLQNLREQAPQRVMKEGKAAAGKITVGGAGADYGNLDALVYDITNHLVEPWYAEDPDLVVVCGRNLLSDKYFPLVNRDRDPVQQIAADLIISQKRIGNLPAIRVPYFPANGLLVTRLDNLSIYYQEGGRRRTILDNAKRDRIENYESSNDAYVIEDLACAAMAENIAL VAPSVQQKLETKVQESSDFLKSINFYGVPEQEGEKIGLGVSGPVASTTDTTQQDRETSDISTMDGRRYRCEQTNSDTHITYQKLDAWAKFADFQTRIRDAIIKRQALDRIMIGFNGVSRAATSDRVANPMLQDVNKGWLQNLREQAPQRVMKEGKAAAGKITVGGAGADYGNLDALVYDITNHLVEPWYAEDPDLVVVCGRNLLSDKYFPLVNRDRDPVQQIAADLIISQKRIGNLPAIRVPYFPANGLLVTRLDNLSIYYQEGGRRRTILDNAKRDRIENYESSNDAYVIEDLACAAMAENIALA 7oz4-a1-m1-cF_7oz4-a1-m1-cG Mature capsid of bacteriophage phiRSA1 A4PE30 A4PE30 3.9 ELECTRON MICROSCOPY 43 1.0 406340 (Aresaunavirus RSA1) 406340 (Aresaunavirus RSA1) 305 305 VAPSVQQKLETKVQESSDFLKSINFYGVPEQEGEKIGLGVSGPVASTTDTTQQDRETSDISTMDGRRYRCEQTNSDTHITYQKLDAWAKFADFQTRIRDAIIKRQALDRIMIGFNGVSRAATSDRVANPMLQDVNKGWLQNLREQAPQRVMKEGKAAAGKITVGGAGADYGNLDALVYDITNHLVEPWYAEDPDLVVVCGRNLLSDKYFPLVNRDRDPVQQIAADLIISQKRIGNLPAIRVPYFPANGLLVTRLDNLSIYYQEGGRRRTILDNAKRDRIENYESSNDAYVIEDLACAAMAENIAL VAPSVQQKLETKVQESSDFLKSINFYGVPEQEGEKIGLGVSGPVASTTDTTQQDRETSDISTMDGRRYRCEQTNSDTHITYQKLDAWAKFADFQTRIRDAIIKRQALDRIMIGFNGVSRAATSDRVANPMLQDVNKGWLQNLREQAPQRVMKEGKAAAGKITVGGAGADYGNLDALVYDITNHLVEPWYAEDPDLVVVCGRNLLSDKYFPLVNRDRDPVQQIAADLIISQKRIGNLPAIRVPYFPANGLLVTRLDNLSIYYQEGGRRRTILDNAKRDRIENYESSNDAYVIEDLACAAMAENIAL 7p0h-a2-m1-cB_7p0h-a2-m1-cD Crystal structure of Helicobacter pylori ComF fused to an artificial alphaREP crystallization helper(named B2) O26008 O26008 2.499 X-RAY DIFFRACTION 153 1.0 32630 (synthetic construct) 32630 (synthetic construct) 409 409 7p0h-a1-m1-cA_7p0h-a1-m1-cC EKVEYIKNLQDDSLTVRINAANALGKIGDERAVEPLIKALKDEDALVRLSAAWALGKIGDERAVEPLIKALKDEDSDVRYRAATALGQIGDERAVEPLIKALKDEDERVRQSAAGALGQIGDERAVEPLIKALKDEDWRVRQEAAFALGQIGDERAVEPLIKALKDEDSAVRWAAALALGKIGGERVRAAEKLAETGTGFARKVAVNYLETHGGSAGSPMRCLTCLKLSFKPLCPNCLNDLPLSLKVRVLEGVSVYSFYAYSEIEELIKSKYALIGSRILPLLSQKAGAEFVKILQEQGLNIPLYGIAIDDKIKSFYSHSAALLKGFCQGNLKPTYGRLRANNAVSYAGKSLEFRANNPRNFTFKGDESLDYFLLDDIITTGTTLKEALKYLKTLNIKVHFAIALCSAD EKVEYIKNLQDDSLTVRINAANALGKIGDERAVEPLIKALKDEDALVRLSAAWALGKIGDERAVEPLIKALKDEDSDVRYRAATALGQIGDERAVEPLIKALKDEDERVRQSAAGALGQIGDERAVEPLIKALKDEDWRVRQEAAFALGQIGDERAVEPLIKALKDEDSAVRWAAALALGKIGGERVRAAEKLAETGTGFARKVAVNYLETHGGSAGSPMRCLTCLKLSFKPLCPNCLNDLPLSLKVRVLEGVSVYSFYAYSEIEELIKSKYALIGSRILPLLSQKAGAEFVKILQEQGLNIPLYGIAIDDKIKSFYSHSAALLKGFCQGNLKPTYGRLRANNAVSYAGKSLEFRANNPRNFTFKGDESLDYFLLDDIITTGTTLKEALKYLKTLNIKVHFAIALCSAD 7p0u-a1-m2-cD_7p0u-a1-m1-cA ORF virus encoded Bcl-2 homolog ORFV125 in complex with Puma BH3 peptide A0A0R8HV90 A0A0R8HV90 1.99374 X-RAY DIFFRACTION 174 1.0 10258 (Orf virus) 10258 (Orf virus) 128 134 7ads-a1-m1-cA_7ads-a1-m2-cA 7adt-a1-m1-cA_7adt-a1-m1-cB 7p0s-a1-m1-cB_7p0s-a1-m1-cA 7p0u-a2-m1-cF_7p0u-a2-m1-cB DIDASAVMAAYLAREYAEAVEEQLTPRERDALEALRVSGEEVRSPLLQELSNAPENSHIPAALVSALLEPTSPGRMVTAVELCAQMGRLWTRGRQLVDFMRLVYVLLDRLPPTADEDLGAWLQAVARV DDIDASAVMAAYLAREYAEAVEEQLTPRERDALEALRVSGEEVRSPLLQELSNAGEHNPENSHIPAALVSALLEPTSPGRMVTAVELCAQMGRLWTRGRQLVDFMRLVYVLLDRLPPTADEDLGAWLQAVARVH 7p0x-a1-m1-cA_7p0x-a1-m1-cB Crystal structure of Thioredoxin reductase from Brugia Malayi A0A1I9G0T9 A0A1I9G0T9 2.55 X-RAY DIFFRACTION 266 0.998 6279 (Brugia malayi) 6279 (Brugia malayi) 575 580 7p0x-a2-m1-cC_7p0x-a2-m2-cC 7put-a1-m1-cB_7put-a1-m1-cA 7put-a2-m1-cC_7put-a2-m2-cC 7pvj-a1-m1-cA_7pvj-a1-m1-cB 7pvj-a2-m1-cC_7pvj-a2-m2-cC SLADAVFKSACEERILLAYADYNPDMTKVVNLFSKYNETVNTVRVSNDAVKDILEIVGWPSMPLIFVKGNCCGGFKELYQLEESGFLNEWLKEHEYDLAIVGGGSGGLAAAKEAVRLGKKVVCLDFVKPSAMGTTWGLGGTCVNVGCIPKKLMHQAALLGEYIEDAKKFGWEIPEGAIKLNWHQLKNAVQNHIASLNWGYRVQLKEKSVTYMNSYATFTGSHELSVKNKKGKVEKVTADRFLIAVGLRPRFPDVPGALECCISSDDLFSLPYNPGKTLCVGASYVSLECAGFLKGIGNDVTVMVRSVLLRGFDQDMAERIKKHMTERGVKFVQVPIKYERLKKPTDSEPGMIRVHTMQEDEDGTKEVTEDFNTVLMAIGRDAMTDDLGLDVVGVNRAKSGKIIGRREQSVSCPYVYAIGDVLYGSPELTPVAIQAGKVLMRRLFTGSSELTEYDKIPTTVFTPLEYGSCGLSEYSAIQKYGKENINVYHNVFIPLEYAVTERKEKTHCYCKLICLKNEQDLILGFHILTPNAGEITQGFAIALKFDAKKADFDRLIGIHPTVAENFTTLTLVKED SGSLADAVFKSACEERILLAYADYNPDMTKVVNLFSKYNETVNTVRVSNDAVKDILEIVGWPSMPLIFVKGNCCGGFKELYQLEESGFLNEWLKEHEYDLAIVGGGSGGLAAAKEAVRLGKKVVCLDFVKPSAMGTTWGLGGTCVNVGCIPKKLMHQAALLGEYIEDAKKFGWEIPEGAIKLNWHQLKNAVQNHIASLNWGYRVQLKEKSVTYMNSYATFTGSHELSVKNKKGKVEKVTADRFLIAVGLRPRFPDVPGALECCISSDDLFSLPYNPGKTLCVGASYVSLECAGFLKGIGNDVTVMVRSVLLRGFDQDMAERIKKHMTERGVKFVQVPIKYERLKKPTDSEPGMIRVHTMQEDEDGTKEVTEDFNTVLMAIGRDAMTDDLGLDVVGVNRAKSGKIIGRREQSVSCPYVYAIGDVLYGSPELTPVAIQAGKVLMRRLFTGSSELTEYDKIPTTVFTPLEYGSCGLSEYSAIQKYGKENINVYHNVFIPLEYAVTERKEKTHCYCKLICLKNEQDLILGFHILTPNAGEITQGFAIALKFDAKKADFDRLIGIHPTVAENFTTLTLVKEGCUG 7p0z-a1-m1-cF_7p0z-a1-m1-cG 2.43 A Mycobacterium marinum EspB. B2HNQ9 B2HNQ9 2.43 ELECTRON MICROSCOPY 37 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 236 236 7p0z-a1-m1-cA_7p0z-a1-m1-cB 7p0z-a1-m1-cA_7p0z-a1-m1-cG 7p0z-a1-m1-cB_7p0z-a1-m1-cC 7p0z-a1-m1-cC_7p0z-a1-m1-cD 7p0z-a1-m1-cD_7p0z-a1-m1-cE 7p0z-a1-m1-cE_7p0z-a1-m1-cF TVDQQEILNRADEVEAPMATPPTDVPQAPSGLTAANNAAEQLAVSADNVRLYLQAGERERQRLATSLRNAAAAYGEVSDFTDLKTAATKLESGDQGTSMVNFADGWNNFNLSLQRDIKRFRIFENWEGDAATACEASMDQQKEWILHMAKLSASLAKQANFMAQLQLWARRGHPTLADIVELERLAKDPDYQEQAIKLYAEYQETSEKVLSEYNTKADLEPVNPPKPPAAIKIDPP TVDQQEILNRADEVEAPMATPPTDVPQAPSGLTAANNAAEQLAVSADNVRLYLQAGERERQRLATSLRNAAAAYGEVSDFTDLKTAATKLESGDQGTSMVNFADGWNNFNLSLQRDIKRFRIFENWEGDAATACEASMDQQKEWILHMAKLSASLAKQANFMAQLQLWARRGHPTLADIVELERLAKDPDYQEQAIKLYAEYQETSEKVLSEYNTKADLEPVNPPKPPAAIKIDPP 7p1i-a1-m1-cA_7p1i-a1-m1-cB Cryo EM structure of bison NHA2 in detergent and N-terminal extension helix A0A6P3HVI0 A0A6P3HVI0 3.15 ELECTRON MICROSCOPY 70 1.0 9901 (Bison bison) 9901 (Bison bison) 442 442 7p1j-a1-m1-cA_7p1j-a1-m1-cB 7p1k-a1-m1-cA_7p1k-a1-m1-cB RRRQIHACPPRGLLARVITNVTMVILLWAVVWSVTGSECLPGGNLFGIIMLFYCAIIGGKLFGLIKLPTLPPLPPLLGMLLAGFLIRNVPVISDNIQIKHKWSSALRSIALSVILVRAGLGLDSNALKKLKGVCVRLSLGPCLIEACTSAVLAYFLMGLPWQWGFMLGFVLGAVSPAVVVPSMLLLQEGGYGVEKGIPTLLMAAGSFDDILAITGFNTCLGMAFFNVLKGVLEVIIGVVTGLVLGFFIQYFPSSDQDNLVWKRAFLVLGLSVLAVFSSTYFGFPGSGGLCTLVTAFLAGRGWASTKTDVEKVIAVAWDIFQPLLFGLIGAEVLITALRPETIGLCVATLGIAVLIRILVTYLMVCFAGFNIKEKIFISFAWLPKATVQAAIGSVALDTARSHGEKQLEGYGMDVLTVAFLSIIITAPVGSLLIGLLGPRLLQ RRRQIHACPPRGLLARVITNVTMVILLWAVVWSVTGSECLPGGNLFGIIMLFYCAIIGGKLFGLIKLPTLPPLPPLLGMLLAGFLIRNVPVISDNIQIKHKWSSALRSIALSVILVRAGLGLDSNALKKLKGVCVRLSLGPCLIEACTSAVLAYFLMGLPWQWGFMLGFVLGAVSPAVVVPSMLLLQEGGYGVEKGIPTLLMAAGSFDDILAITGFNTCLGMAFFNVLKGVLEVIIGVVTGLVLGFFIQYFPSSDQDNLVWKRAFLVLGLSVLAVFSSTYFGFPGSGGLCTLVTAFLAGRGWASTKTDVEKVIAVAWDIFQPLLFGLIGAEVLITALRPETIGLCVATLGIAVLIRILVTYLMVCFAGFNIKEKIFISFAWLPKATVQAAIGSVALDTARSHGEKQLEGYGMDVLTVAFLSIIITAPVGSLLIGLLGPRLLQ 7p1y-a2-m2-cCCC_7p1y-a2-m1-cDDD A small alarmone hydrolase TdActApo2 mutant - T78N Q73M21 Q73M21 2.38 X-RAY DIFFRACTION 80 1.0 243275 (Treponema denticola ATCC 35405) 243275 (Treponema denticola ATCC 35405) 170 172 7p1y-a1-m1-cBBB_7p1y-a1-m1-cAAA GVLKGIYLAPYMQVATALIGKANMFRHQVDTMAILIDYGYIDSVLLKASLIHDVIENIEDFNVNEILSIDSESGQVYELVLEVTKKKGQEKTEYLKNIIKNGSEKAKILKCADRISNMISLGFVTDSEFIERYCNETELYIFPIALEVNFEMYKELMALVVSRQYLVECG GVLKGIYLAPYMQVATALIGKAGNMFRHQVDTMAILIDYGYIDSVLLKASLIHDVIENIEDFNVNEILSIDSESGQVYELVLEVTKKKGQEKTEYLKNIIKNGSEKAKILKCADRISNMISLGFVTDSEFIERYCNETELYIFPIALEVNFEMYKELMALVVSRRQYLVECG 7p2f-a1-m1-cB_7p2f-a1-m1-cC Green-type copper-nitrite reductase from Sinorhizobium meliloti 2011 Q92Z29 Q92Z29 2.5 X-RAY DIFFRACTION 149 0.997 1286640 (Sinorhizobium meliloti 2011) 1286640 (Sinorhizobium meliloti 2011) 328 328 7p2f-a1-m1-cB_7p2f-a1-m1-cA 7p2f-a1-m1-cC_7p2f-a1-m1-cA SLPRVKVDLVKPPFVHAHTQKAEGGPKVVEFTLTIEEKKIVIDEQGTELHAMTFNGSVPGPLMVVHQDDYVELTLINPDTNTLQHNIDFHSATGALGGGALTVVNPGDTTVLRFKASKAGVFVYHCAPPGMVPWHVTSGMNGAIMVLPREGLTDGKGNSITYDKVYYVGEQDFYVPRDANGKFKKYESVGEAYADTLEVMRTLTPSHIVFNGAVGALTGDSALKAAVGEKVLIVHSQANRDTRPHLIGGHGDYVWATGKFRNAPDVDQETWFIPGGTAGAAFYTFEQPGIYAYVNHNLIEAFELGAAAHFAVTGDWNDDLMTSVRAPS LPRVKVDLVKPPFVHAHTQKAEGGPKVVEFTLTIEEKKIVIDEQGTELHAMTFNGSVPGPLMVVHQDDYVELTLINPDTNTLQHNIDFHSATGALGGGALTVVNPGDTTVLRFKASKAGVFVYHCAPPGMVPWHVTSGMNGAIMVLPREGLTDGKGNSITYDKVYYVGEQDFYVPRDANGKFKKYESVGEAYADTLEVMRTLTPSHIVFNGAVGALTGDSALKAAVGEKVLIVHSQANRDTRPHLIGGHGDYVWATGKFRNAPDVDQETWFIPGGTAGAAFYTFEQPGIYAYVNHNLIEAFELGAAAHFAVTGDWNDDLMTSVRAPSG 7p34-a1-m1-cA_7p34-a1-m1-cB Cryo-EM structure of the proton-dependent antibacterial peptide transporter SbmA-FabS11-1 in nanodiscs P0AFY6 P0AFY6 3.59 ELECTRON MICROSCOPY 157 1.0 562 (Escherichia coli) 562 (Escherichia coli) 391 391 MFKSFFPKPGTFFLSAFVWALIAVIFWQAGGGDWVARITGASGQIPISAARFWSLDFLIFYAYYIVCVGLFALFWFIYSPHRWQYWSILGTALIIFVTWFLVEVGVAVNAWYAPFYDLIQTALSSPHKVTIEQFYREVGVFLGIALIAVVISVLNNFFVSHYVFRWRTAMNEYYMANWQQLRHIEGAAQRVQEDTMRFASTLENMGVSFINAIMTLIAFLPVLVTLSAHVPELPIIGHIPYGLVIAAIVWSLMGTGLLAVVGIKLPGLEFKNQRVEAAYRKELVYGEDDATRATPPTVRELFSAVRKNYFRLYFHYMYFNIARILYLQVDNVFGLFLLFPSIVAGTITLGLMTQITNVFGQVRGAFQYLINSWTTLVELMSIYKRLRSFEH MFKSFFPKPGTFFLSAFVWALIAVIFWQAGGGDWVARITGASGQIPISAARFWSLDFLIFYAYYIVCVGLFALFWFIYSPHRWQYWSILGTALIIFVTWFLVEVGVAVNAWYAPFYDLIQTALSSPHKVTIEQFYREVGVFLGIALIAVVISVLNNFFVSHYVFRWRTAMNEYYMANWQQLRHIEGAAQRVQEDTMRFASTLENMGVSFINAIMTLIAFLPVLVTLSAHVPELPIIGHIPYGLVIAAIVWSLMGTGLLAVVGIKLPGLEFKNQRVEAAYRKELVYGEDDATRATPPTVRELFSAVRKNYFRLYFHYMYFNIARILYLQVDNVFGLFLLFPSIVAGTITLGLMTQITNVFGQVRGAFQYLINSWTTLVELMSIYKRLRSFEH 7p3h-a1-m1-cB_7p3h-a1-m1-cC Peptide HC02 - Lanthanide Selectivity Engineered into Structurally Characterized Designed Coiled Coils 2.1 X-RAY DIFFRACTION 30 1.0 32630 (synthetic construct) 32630 (synthetic construct) 36 36 7p3h-a1-m1-cA_7p3h-a1-m1-cB 7p3h-a1-m1-cA_7p3h-a1-m1-cC EWEAIEKKIAANESKDQAIEKKIQAIEKKIEAIEHG EWEAIEKKIAANESKDQAIEKKIQAIEKKIEAIEHG 7p3r-a1-m1-cA_7p3r-a1-m1-cC Helical structure of the toxin MakA from Vibrio cholera Q9KL64 Q9KL64 3.65 ELECTRON MICROSCOPY 32 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 328 328 FLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELA FLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELA 7p3r-a1-m1-cA_7p3r-a1-m1-cD Helical structure of the toxin MakA from Vibrio cholera Q9KL64 Q9KL64 3.65 ELECTRON MICROSCOPY 15 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 328 341 FLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELA PTQQTTQSAFLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELAKQLA 7p3r-a1-m1-cB_7p3r-a1-m1-cD Helical structure of the toxin MakA from Vibrio cholera Q9KL64 Q9KL64 3.65 ELECTRON MICROSCOPY 30 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 341 341 PTQQTTQSAFLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELAKQLA PTQQTTQSAFLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELAKQLA 7p3r-a1-m1-cC_7p3r-a1-m1-cD Helical structure of the toxin MakA from Vibrio cholera Q9KL64 Q9KL64 3.65 ELECTRON MICROSCOPY 172 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 328 341 7p3r-a1-m1-cA_7p3r-a1-m1-cB FLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELA PTQQTTQSAFLATTVITAQCHAILNTQFTPPTVKPDWFDDLSKKLDSAKLVAKQWIDDLGPQVSASIPSSVINFDATFQASIDAIHELYKADPTASGKDNTTVQQASQIMTALSSQVSGIEATVKGMNKELSDWGVKMQAAHDDLVNGATNIQKTIIDLQTDIESMNNAIDNNRAAIEKLNKDLVYAQVAVGVGIFMLVAGVALTVATAGTAAAVSGGIAAVGAASIIAGGVTWGVLQNQIDDDYDSIAQEQKQKAEDQQQIIALQGLSNASSAVVSAIETSTSVLSDFETTWTVFGNELDDVVTKLNNGASMQSIIMEKVMSDAAKNEWDDAVELAKQLA 7p3w-a1-m1-cb_7p3w-a1-m1-cp F1Fo-ATP synthase from Acinetobacter baumannii (state 3) A3M140 A3M140 4.3 ELECTRON MICROSCOPY 165 1.0 400667 (Acinetobacter baumannii ATCC 17978) 400667 (Acinetobacter baumannii ATCC 17978) 150 155 7p2y-a1-m1-cb_7p2y-a1-m1-cp 7p3n-a1-m1-cb_7p3n-a1-m1-cp LIGQAIAFAFFVAFCMKFVWPPLINAISERQRKIADGLNAAEKAKADLADAQAQVKQELDAAKAQAAQLIEQANRRAAQLIEEARTQAAAEGERIRQQAKEAVDQEINSAREELRQQVAALAVTGAEKILNQQVDAEAHNAMLSQLAAKL NINLTLIGQAIAFAFFVAFCMKFVWPPLINAISERQRKIADGLNAAEKAKADLADAQAQVKQELDAAKAQAAQLIEQANRRAAQLIEEARTQAAAEGERIRQQAKEAVDQEINSAREELRQQVAALAVTGAEKILNQQVDAEAHNAMLSQLAAKL 7p40-a1-m1-cE_7p40-a1-m1-cG P5C3 is a potent fab neutralizer P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 243 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 998 998 7k4n-a1-m1-cA_7k4n-a1-m1-cB 7k4n-a1-m1-cA_7k4n-a1-m1-cE 7k4n-a1-m1-cB_7k4n-a1-m1-cE 7kl9-a1-m1-cC_7kl9-a1-m1-cB 7m6f-a1-m1-cA_7m6f-a1-m1-cB 7m6f-a1-m1-cA_7m6f-a1-m1-cE 7m6f-a1-m1-cB_7m6f-a1-m1-cE 7p40-a1-m1-cA_7p40-a1-m1-cE 7p40-a1-m1-cA_7p40-a1-m1-cG 7rkv-a1-m1-cA_7rkv-a1-m1-cB 7rkv-a1-m1-cA_7rkv-a1-m1-cC 7rkv-a1-m1-cB_7rkv-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVEFRVYSSANNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7p42-a1-m1-cA_7p42-a1-m1-cB Crystal structure of IpgC in complex with a follow-up compound based on J2 P0A2U4 P0A2U4 1.5 X-RAY DIFFRACTION 65 0.993 623 (Shigella flexneri) 623 (Shigella flexneri) 136 142 6scb-a1-m1-cA_6scb-a1-m1-cB 7ayw-a1-m1-cA_7ayw-a1-m1-cB 7azv-a1-m1-cB_7azv-a1-m1-cA 7b1u-a1-m1-cA_7b1u-a1-m1-cB 7nhw-a1-m1-cA_7nhw-a1-m1-cB 7o04-a1-m1-cB_7o04-a1-m1-cA 7o6s-a1-m1-cA_7o6s-a1-m1-cB 7pe0-a1-m1-cA_7pe0-a1-m1-cB 7pef-a1-m1-cA_7pef-a1-m1-cB IDAINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAIQ GSISTAVIDAINSGATLKDINAIPDDMMDDIYSYAYDFYNKGRIEEAEVFFRFLCIYDFYNVDYIMGLAAIYQIKEQFQQAADLYAVAFALGKNDYTPVFHTGQCQLRLKAPLKAKECFELVIQHSNDEKLKIKAQSYLDAI 7p4a-a1-m1-cB_7p4a-a1-m2-cA Non-canonical Staphylococcus aureus pathogenicity island repression. O54475 O54475 2.901 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 205 241 ILKKERVSWKLSVKELSTLSGVSQTYITIFNLLIGFKTHIEYKESPFYEINNSYLDEILISNPNELITQFNEYYDVTIKKKQNENSKIESDIFSNKIKLVKGTTKKEVIEKPYFDLNWLLTQNEYEVFFDRSFLLDNNFLNKKHFTEKDYYYNVLNDNDLKTIKDLIVVFLLNKYNYIKNKDDFFNIFTNSEDDKTKRDALYKIL IYTFGEILKKERVSWKLSVKELSTLSGVSQTYISKLENGKRNFPSLETIFNLLIGFKTHIEYKGSESPFYEINNSYLDEILIFINSSNSTISDRDPNELITQFNEYYDVTIKKKQNENSKIESDIFSNKIKLVKGTTKKEVIEKPYFDLNWLLTQNEYEVFFDRSFLLDNNFLNKKHFTEKDYYYNVLNDNDLKTIKDLIVVFLLNKYNYIKNKDDFFNIFTNSEDDKTKRDALYKILYET 7p4a-a1-m2-cB_7p4a-a1-m1-cA Non-canonical Staphylococcus aureus pathogenicity island repression. O54475 O54475 2.901 X-RAY DIFFRACTION 20 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 205 241 ILKKERVSWKLSVKELSTLSGVSQTYITIFNLLIGFKTHIEYKESPFYEINNSYLDEILISNPNELITQFNEYYDVTIKKKQNENSKIESDIFSNKIKLVKGTTKKEVIEKPYFDLNWLLTQNEYEVFFDRSFLLDNNFLNKKHFTEKDYYYNVLNDNDLKTIKDLIVVFLLNKYNYIKNKDDFFNIFTNSEDDKTKRDALYKIL IYTFGEILKKERVSWKLSVKELSTLSGVSQTYISKLENGKRNFPSLETIFNLLIGFKTHIEYKGSESPFYEINNSYLDEILIFINSSNSTISDRDPNELITQFNEYYDVTIKKKQNENSKIESDIFSNKIKLVKGTTKKEVIEKPYFDLNWLLTQNEYEVFFDRSFLLDNNFLNKKHFTEKDYYYNVLNDNDLKTIKDLIVVFLLNKYNYIKNKDDFFNIFTNSEDDKTKRDALYKILYET 7p4a-a1-m2-cB_7p4a-a1-m2-cA Non-canonical Staphylococcus aureus pathogenicity island repression. O54475 O54475 2.901 X-RAY DIFFRACTION 233 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 205 241 7p4a-a1-m1-cB_7p4a-a1-m1-cA 7zvi-a1-m1-cA_7zvi-a1-m2-cA ILKKERVSWKLSVKELSTLSGVSQTYITIFNLLIGFKTHIEYKESPFYEINNSYLDEILISNPNELITQFNEYYDVTIKKKQNENSKIESDIFSNKIKLVKGTTKKEVIEKPYFDLNWLLTQNEYEVFFDRSFLLDNNFLNKKHFTEKDYYYNVLNDNDLKTIKDLIVVFLLNKYNYIKNKDDFFNIFTNSEDDKTKRDALYKIL IYTFGEILKKERVSWKLSVKELSTLSGVSQTYISKLENGKRNFPSLETIFNLLIGFKTHIEYKGSESPFYEINNSYLDEILIFINSSNSTISDRDPNELITQFNEYYDVTIKKKQNENSKIESDIFSNKIKLVKGTTKKEVIEKPYFDLNWLLTQNEYEVFFDRSFLLDNNFLNKKHFTEKDYYYNVLNDNDLKTIKDLIVVFLLNKYNYIKNKDDFFNIFTNSEDDKTKRDALYKILYET 7p4i-a1-m1-cB_7p4i-a1-m1-cC Structure of human ASCT1 transporter P43007 P43007 4.2 ELECTRON MICROSCOPY 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 428 428 7p4i-a1-m1-cA_7p4i-a1-m1-cB 7p4i-a1-m1-cA_7p4i-a1-m1-cC AGFLRRQALVLLTVSGVLAGAGLGAALRGLSLSRTQVTYLAFPGEMLLRMLRMIILPLVVCSLVSGAASLDASCLGRLGGIAVAYFGLTTLSASALAVALAFIIKPGSGAPKETVDSFLDLARNLFPSNLVVAAFRTYATDYKVVTQNSSSGNVTHEKIPIGTEIEGMNILGLVLFALVLGVALKKLGSEGEDLIRFFNSLNEATMVLVSWIMWYVPVGIMFLVGSKIVEMKDIIVLVTSLGKYIFASILGHVIHGGIVLPLIYFVFTRKNPFRFLLGLLAPFATAFATCSSSATLPSMMKCIEENNGVDKRISRFILPIGATVNMDGAAIFQCVAAVFIAQLNNVELNAGQIFTILVTATASSVGAAGVPAGGVLTIAIILEAIGLPTHDLPLILAVDWIVDRTTTVVNVEGDALGAGILHHLNQKA AGFLRRQALVLLTVSGVLAGAGLGAALRGLSLSRTQVTYLAFPGEMLLRMLRMIILPLVVCSLVSGAASLDASCLGRLGGIAVAYFGLTTLSASALAVALAFIIKPGSGAPKETVDSFLDLARNLFPSNLVVAAFRTYATDYKVVTQNSSSGNVTHEKIPIGTEIEGMNILGLVLFALVLGVALKKLGSEGEDLIRFFNSLNEATMVLVSWIMWYVPVGIMFLVGSKIVEMKDIIVLVTSLGKYIFASILGHVIHGGIVLPLIYFVFTRKNPFRFLLGLLAPFATAFATCSSSATLPSMMKCIEENNGVDKRISRFILPIGATVNMDGAAIFQCVAAVFIAQLNNVELNAGQIFTILVTATASSVGAAGVPAGGVLTIAIILEAIGLPTHDLPLILAVDWIVDRTTTVVNVEGDALGAGILHHLNQKA 7p4l-a1-m1-cC_7p4l-a1-m1-cB Crystal structure of the trimeric ectodomain of archaeal Fusexin1 (Fsx1) C0HM55 C0HM55 2.3 X-RAY DIFFRACTION 240 0.994 256318 (metagenome) 256318 (metagenome) 477 478 7p4l-a1-m1-cA_7p4l-a1-m1-cB 7p4l-a1-m1-cA_7p4l-a1-m1-cC SITYNSGTSEFFDGDVFAIEVTADQSTDEIDIYLGQDLSIEFTHQDSKLKYSTSTSDELRDIVTLTTYYEDGFDTEQDAIDAIKSDCYDLNQNGNGSGRYSRYYSVTSPVYDYEIYCFQKNEKLATPAYIDNPDEIFTAKAELQAGDKTIQSATLSNGDAGDGTVTDLGDSKISWNGNLDLGASEPENSRVIALYSNDFENGWRIGNKQSYEDYKTFIGGGDAYDLLIDWQDGTYTASEVEDELVNTDANQAVEEASSSTTDLVNAKVKDSSLDTGSFVYDTPELLSYPSFTVYVDAGENGYIEVTKPTGDPDIISTSSTEIKEGDEGTVCATVENVGDGEGEFSGRLSSCGEGFSIVDDQNTKNVGAGESVTYSFDVAFSSVSSESKEISGSCTFEVNGVESSDSTSVSVTGIQQSECNPGDQRREKNENDRWEIYTCQDNGLTYEYDVTCAEDEKAVAQGDNQFSCEKQDEHHHH SITYNSGTSEFFDGDVFAIEVTADQSTDEIDIYLGANQDLSIEFTHQDSKLKYSTSTSDELRDIVTLTTYYEDGFDTEQDAIDAIKSDCYDLNQNGNGSGRYSRYYSVTSPVYDYEIYCFQKNEKLATPAYIDNPDEIFTAKAELQAGDKTIQSATLSNGDAGDGTVTDLGDSKISWNGNLDLGASEPENSRVIALYSNDFENGWRIGNKQSYEDYKTFIGGGDAYDLLIDWQDGTYTASEVEDELVNTDANQAVEEASSSTTDLVNAKVKDSSLDTGSFVYDTPELLSYPSFTVYVDAGENGYIEVTKPTGDPDIISTSSTEIKEGDEGTVCATVENVGDGEGEFSGRLSSCGEGFSIVDDQNTKNVGAGESVTYSFDVAFSSVSSESKEISGSCTFEVNGVESSDSTSVSVTGIQQSECNPGDQRREKNENDRWEIYTCQDNGLTYEYDVTCAEDEKAVAQGDNQFSCEKQEHHHH 7p4t-a1-m1-cA_7p4t-a1-m1-cD Tetrameric structure of murine SapA Q61207 Q61207 3.17 X-RAY DIFFRACTION 26 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 80 SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ 7p4t-a1-m1-cB_7p4t-a1-m1-cC Tetrameric structure of murine SapA Q61207 Q61207 3.17 X-RAY DIFFRACTION 25 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 80 SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ 7p4t-a1-m1-cC_7p4t-a1-m1-cD Tetrameric structure of murine SapA Q61207 Q61207 3.17 X-RAY DIFFRACTION 33 1.0 10090 (Mus musculus) 10090 (Mus musculus) 80 80 7p4t-a1-m1-cA_7p4t-a1-m1-cB SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ SLPCDICKTVVTEAGNLLKDNATQEEILHYLEKTCEWIHDSSLSASCKEVVDSYLPVILDMIKGEMSNPGEVCSALNLCQ 7p4v-a1-m2-cA_7p4v-a1-m3-cA GlnK1 from Methanothermococcus thermolithotrophicus with dADP at a resolution of 1.94 A 1.94 X-RAY DIFFRACTION 81 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 113 113 7p4v-a1-m1-cA_7p4v-a1-m2-cA 7p4v-a1-m1-cA_7p4v-a1-m3-cA HMKKVEAIIRPERLDIVKNALSDAGYVGMTVSEVKGRGIQGGIVERYRGREYIVDLLPKIKIEMAVNDEDVEKVIDIICENAKTGEFGDGKIFVIPIEEVVRVRTGERGNDAI HMKKVEAIIRPERLDIVKNALSDAGYVGMTVSEVKGRGIQGGIVERYRGREYIVDLLPKIKIEMAVNDEDVEKVIDIICENAKTGEFGDGKIFVIPIEEVVRVRTGERGNDAI 7p50-a1-m1-cB_7p50-a1-m1-cC GlnK2 from Methanothermococcus thermolithotrophicus in complex with Mg-ATP and 2-oxoglutarate at a resolution of 1.16 A 1.16 X-RAY DIFFRACTION 83 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 115 115 7p50-a1-m1-cB_7p50-a1-m1-cA 7p50-a1-m1-cC_7p50-a1-m1-cA GSHMKKVEAIIRPERLDIVKNSLTDAGYVGMTVSEVKGRGIQGGIVERYRGREYTVDLLPKIKIELVVKEEDVEKIIDIICENAKTGNQGDGKVFIIPVEEVVRVRTKERGRGAI GSHMKKVEAIIRPERLDIVKNSLTDAGYVGMTVSEVKGRGIQGGIVERYRGREYTVDLLPKIKIELVVKEEDVEKIIDIICENAKTGNQGDGKVFIIPVEEVVRVRTKERGRGAI 7p52-a1-m2-cA_7p52-a1-m3-cA GlnK1 from Methanocaldococcus jannaschii with Mg-ATP and 2-oxoglutarate at a resolution of 1.2 A Q60381 Q60381 1.20002 X-RAY DIFFRACTION 81 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 111 111 2j9c-a1-m1-cA_2j9c-a1-m1-cB 2j9c-a1-m1-cA_2j9c-a1-m1-cC 2j9c-a1-m1-cB_2j9c-a1-m1-cC 2j9d-a1-m1-cA_2j9d-a1-m1-cB 2j9d-a1-m1-cA_2j9d-a1-m1-cC 2j9d-a1-m1-cB_2j9d-a1-m1-cC 2j9d-a2-m1-cD_2j9d-a2-m1-cE 2j9d-a2-m1-cF_2j9d-a2-m1-cE 2j9d-a3-m1-cG_2j9d-a3-m1-cI 2j9d-a3-m1-cH_2j9d-a3-m1-cG 2j9d-a3-m1-cH_2j9d-a3-m1-cI 2j9d-a4-m1-cJ_2j9d-a4-m1-cL 2j9d-a4-m1-cK_2j9d-a4-m1-cJ 2j9d-a4-m1-cK_2j9d-a4-m1-cL 2j9e-a1-m1-cA_2j9e-a1-m1-cB 2j9e-a1-m1-cA_2j9e-a1-m1-cC 2j9e-a1-m1-cC_2j9e-a1-m1-cB 7p52-a1-m1-cA_7p52-a1-m2-cA 7p52-a1-m1-cA_7p52-a1-m3-cA KKVEAIIRPEKLEIVKKALSDAGYVGMTVSEVKGRGVQGGIVERYRGREYIVDLIPKVKIELVVKEEDVDNVIDIICENARTGNPGDGKIFVIPVERVVRVRTKEEGKEAL KKVEAIIRPEKLEIVKKALSDAGYVGMTVSEVKGRGVQGGIVERYRGREYIVDLIPKVKIELVVKEEDVDNVIDIICENARTGNPGDGKIFVIPVERVVRVRTKEEGKEAL 7p5h-a1-m1-cA_7p5h-a1-m1-cd TmHydABC- D2 map O52683 O52683 2.3 ELECTRON MICROSCOPY 51 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 554 554 7p5h-a1-m1-cD_7p5h-a1-m1-ca MKIYVDGREVIINDNERNLLEALKNVGIEIPNLCYLSEASIYGACRMCLVEINGQITTSCTLKPYEGMKVKTNTPEIYEMRRNILELILATHNRDCTTCDRNGSCKLQKYAEDFGIRKIRFEALKKEHVRDESAPVVRDTSKCILCGDCVRVCEEIQGVGVIEFAKRGFESVVTTAFDTPLIETECVLCGQCVAYCPTGALSIRNDIDKLIEALESDKIVIGMIAPAVRAAIQEEFGIDEDVAMAEKLVSFLKTIGFDKVFDVSFGADLVAYEEAHEFYERLKKGERLPQFTSCCPAWVKHAEHTYPQYLQNLSSVKSPQQALGTVIKKIYARKLGVPEEKIFLVSFMPCTAKKFEAEREEHEGIVDIVLTTRELAQLIKMSRIDINRVEPQPFDRPYGVSSQAGLGFGKAGGVFSCVLSVLNEEIGIEKVDVKSPEDGIRVAEVTLKDGTSFKGAVIYGLGKVKKFLEERKDVEIIEVMACNYGCVGGGGQPYPNDSRIREHRAKVLRDTMGIKSLLTPVENLFLMKLYEEDLKDEHTRHEILHTTYRPRRRY MKIYVDGREVIINDNERNLLEALKNVGIEIPNLCYLSEASIYGACRMCLVEINGQITTSCTLKPYEGMKVKTNTPEIYEMRRNILELILATHNRDCTTCDRNGSCKLQKYAEDFGIRKIRFEALKKEHVRDESAPVVRDTSKCILCGDCVRVCEEIQGVGVIEFAKRGFESVVTTAFDTPLIETECVLCGQCVAYCPTGALSIRNDIDKLIEALESDKIVIGMIAPAVRAAIQEEFGIDEDVAMAEKLVSFLKTIGFDKVFDVSFGADLVAYEEAHEFYERLKKGERLPQFTSCCPAWVKHAEHTYPQYLQNLSSVKSPQQALGTVIKKIYARKLGVPEEKIFLVSFMPCTAKKFEAEREEHEGIVDIVLTTRELAQLIKMSRIDINRVEPQPFDRPYGVSSQAGLGFGKAGGVFSCVLSVLNEEIGIEKVDVKSPEDGIRVAEVTLKDGTSFKGAVIYGLGKVKKFLEERKDVEIIEVMACNYGCVGGGGQPYPNDSRIREHRAKVLRDTMGIKSLLTPVENLFLMKLYEEDLKDEHTRHEILHTTYRPRRRY 7p5j-a1-m1-cA_7p5j-a1-m1-cB Cryo-EM structure of human TTYH1 in GDN Q9H313 Q9H313 4.0 ELECTRON MICROSCOPY 85 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 399 399 PGYRPSAWVHLLHQLPRADFQLRPVPSVFAPQEQEYQQALLLVAALAGLGLGLSLIFIAVYLIRFCVTWSCIVALLAGCTGIGIGFYGNSETSDGVSQLSSALLHANHTLSTIDHLVLETVERLGEAVRTELTTLEEVLEPRTELVAAARGARRQAEAAAQQLQGLAFWQGVPLSPLQVAENVSFVEEYRWLAYVLLLLLELLVCLFTLLGLAKQSKWLVIVMTVMSLLVLVLSWGSMGLEAATAVGLSDFCSNPDPYVLNLTQEETGLSSDILSYYLLCNRAVSNPFQQRLTLSQRALANIHSQLLGLEREAVPQFPSAQKPLLSLEETLNVTEGNFHQLVALLHCRSLHKDYGAALRGLCEDALEGLLFLLLFSLLSAGALATALCSLPRAWALFPP PGYRPSAWVHLLHQLPRADFQLRPVPSVFAPQEQEYQQALLLVAALAGLGLGLSLIFIAVYLIRFCVTWSCIVALLAGCTGIGIGFYGNSETSDGVSQLSSALLHANHTLSTIDHLVLETVERLGEAVRTELTTLEEVLEPRTELVAAARGARRQAEAAAQQLQGLAFWQGVPLSPLQVAENVSFVEEYRWLAYVLLLLLELLVCLFTLLGLAKQSKWLVIVMTVMSLLVLVLSWGSMGLEAATAVGLSDFCSNPDPYVLNLTQEETGLSSDILSYYLLCNRAVSNPFQQRLTLSQRALANIHSQLLGLEREAVPQFPSAQKPLLSLEETLNVTEGNFHQLVALLHCRSLHKDYGAALRGLCEDALEGLLFLLLFSLLSAGALATALCSLPRAWALFPP 7p5m-a1-m1-cA_7p5m-a1-m1-cB Cryo-EM structure of human TTYH2 in lipid nanodiscs Q9BSA4 Q9BSA4 3.92 ELECTRON MICROSCOPY 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 394 394 7p54-a1-m1-cA_7p54-a1-m1-cB VDYIAPWWVVWLHSVPHVGLRLQPVNSTFSPGDESYQESLLFLGLVAAVCLGLNLIFLVAYLVCACITWTAVVAGLICCAAVGVGFYGNSETNDGAYQLMYSLDDANHTFSGIDALVSGTTQKMKVDLEQHLARLSEIFAARGDYLQTLKFIQQMAGSVVVQLSGLPVWREVTMELTKLSDQTGYVEYYRWLSYLLLFILDLVICLIACLGLAKRSKCLLASMLCCGALSLLLSWASLAADGSAAVATSDFCVAPDTFILNVTEGQISTEVTRYYLYCSQSGSSPFQQTLTTFQRALTTMQIQVAGLLQFAVPLFSTAEEDLLAIQLLLNSSESSLHQLTAMVDCRGLHKDYLDALAGICYDGLQGLLYLGLFSFLAALAFSTMICAGPRAWKH VDYIAPWWVVWLHSVPHVGLRLQPVNSTFSPGDESYQESLLFLGLVAAVCLGLNLIFLVAYLVCACITWTAVVAGLICCAAVGVGFYGNSETNDGAYQLMYSLDDANHTFSGIDALVSGTTQKMKVDLEQHLARLSEIFAARGDYLQTLKFIQQMAGSVVVQLSGLPVWREVTMELTKLSDQTGYVEYYRWLSYLLLFILDLVICLIACLGLAKRSKCLLASMLCCGALSLLLSWASLAADGSAAVATSDFCVAPDTFILNVTEGQISTEVTRYYLYCSQSGSSPFQQTLTTFQRALTTMQIQVAGLLQFAVPLFSTAEEDLLAIQLLLNSSESSLHQLTAMVDCRGLHKDYLDALAGICYDGLQGLLYLGLFSFLAALAFSTMICAGPRAWKH 7p6f-a3-m1-cDDD_7p6f-a3-m3-cDDD 1.93 A resolution X-ray crystal structure of the transcriptional regulator SrnR from Streptomyces griseus Q8L1Y3 Q8L1Y3 1.93 X-RAY DIFFRACTION 93 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 97 97 7p6f-a1-m1-cBBB_7p6f-a1-m1-cAAA 7p6f-a2-m1-cCCC_7p6f-a2-m2-cCCC PADEEASAFRAVADPTRRQILEDLRGGELAAGEIAGRFPISAPSISRHLGVLKGAGLVTERRDANRILYSLAEERLALCVGRFLSAVCPEQIVLRTT PADEEASAFRAVADPTRRQILEDLRGGELAAGEIAGRFPISAPSISRHLGVLKGAGLVTERRDANRILYSLAEERLALCVGRFLSAVCPEQIVLRTT 7p7a-a1-m1-cC_7p7a-a1-m1-cE SARS-CoV-2 spike protein in complex with sybody#68 in a 2up/1flexible conformation P0DTC2 P0DTC2 4.76 ELECTRON MICROSCOPY 207 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 839 1036 PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLMESEFRVYSSANNCTFEYVSQPFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFK PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLMESEFRVYSSANNCTFEYVSQPFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFK 7p7w-a1-m1-cAAA_7p7w-a1-m1-cBBB N-acetylglucosamine kinase from Plesiomonas shigelloides compexed with alpha-N-acetylglucosamine and ADP R8APY9 R8APY9 1.57 X-RAY DIFFRACTION 187 1.0 1315976 (Plesiomonas shigelloides 302-73) 1315976 (Plesiomonas shigelloides 302-73) 304 306 7p7i-a1-m1-cAAA_7p7i-a1-m1-cBBB 7p9l-a1-m1-cAAA_7p9l-a1-m1-cBBB 7p9y-a1-m1-cAAA_7p9y-a1-m1-cBBB 7pa1-a1-m1-cAAA_7pa1-a1-m1-cBBB GTMYYGFDIGGTKIEFGAFDADLVRVARERVATPTESYAAFLDAIVTLVNNADAEFGVKGTVGIGIPGIADVETGKLLTSNIPAAMGHTLQRDLEERLQRPVKIENDANCFALSEAWDEDLRGEPSVLGLILGTGVGGGLIFNGKVHSGRANIAGEIGHTRLPYDALKLLGMENAPIFPCGCKNSGCIDNYLSGRGFEQLYDHYFSEKLSAPEIIAHYEQGERRAVQHVERFMELLAICLANIFTCLDPHVVVLGGGLSNFELIYQELPKRLPAHLLHVAKLPKIIKARHGDAGGVRGAAFLNL FQGTMYYGFDIGGTKIEFGAFDADLVRVARERVATPTESYAAFLDAIVTLVNNADAEFGVKGTVGIGIPGIADVETGKLLTSNIPAAMGHTLQRDLEERLQRPVKIENDANCFALSEAWDEDLRGEPSVLGLILGTGVGGGLIFNGKVHSGRANIAGEIGHTRLPYDALKLLGMENAPIFPCGCKNSGCIDNYLSGRGFEQLYDHYFSEKLSAPEIIAHYEQGERRAVQHVERFMELLAICLANIFTCLDPHVVVLGGGLSNFELIYQELPKRLPAHLLHVAKLPKIIKARHGDAGGVRGAAFLNL 7p81-a2-m1-cQ_7p81-a2-m1-cb Crystal structure of ClpP from Bacillus subtilis in complex with ADEP2 (compact state) P80244 P80244 2.79 X-RAY DIFFRACTION 16 0.994 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 172 175 3tt6-a1-m1-cE_3tt6-a1-m2-cF 3tt6-a1-m1-cG_3tt6-a1-m2-cD 7fer-a1-m1-cA_7fer-a1-m1-cN 7fer-a1-m1-cB_7fer-a1-m1-cM 7fer-a1-m1-cC_7fer-a1-m1-cL 7fer-a1-m1-cD_7fer-a1-m1-cK 7fer-a1-m1-cE_7fer-a1-m1-cJ 7fer-a1-m1-cF_7fer-a1-m1-cI 7fer-a1-m1-cG_7fer-a1-m1-cH 7p81-a1-m1-cA_7p81-a1-m1-cI 7p81-a1-m1-cF_7p81-a1-m1-cK 7p81-a1-m1-cJ_7p81-a1-m1-cG 7p81-a1-m1-cL_7p81-a1-m1-cE 7p81-a1-m1-cN_7p81-a1-m1-cC 7p81-a2-m1-cZ_7p81-a2-m1-cS LIPTVIEERAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLAAEDPEKEISLYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPIAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSAEEALEYGLIDKILT LIPTVIEQERAYDIYSRLLKDRIIMLGSAIDDNVANSIVSQLLFLAAEDPEKEISLYINSPGGSITAGMAIYDTMQFIKPKVSTICIGMAASMGAFLLAAGEKGKRYALPNSEVMIHQPLGAAKRILLLRDKLNKVLAERTGQPLEVIERDTDRDNFKSAEEALEYGLIDKILTH 7p8d-a1-m1-cB_7p8d-a1-m1-cA Crystal structure of the Receiver domain of A. thaliana cytokinin receptor AtCRE1 in complex with Mg2+ Q9C5U0 Q9C5U0 1.7 X-RAY DIFFRACTION 133 0.992 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 127 139 7p8c-a1-m1-cB_7p8c-a1-m1-cA NALLTGKKILVVDDNIVNRRVAAGALKKFGAEVVCAESGQVALGLLQIPHTFDACFMDIQMPQMDGFEATRQIRMMEKETKEKTNLEWHLPILAMTADVIHATYEECLKSGMDGYVSKPFEEENLYK ALLTGKKILVVDDNIVNRRVAAGALKKFGAEVVCAESGQVALGLLQIPHTFDACFMDIQMPQMDGFEATRQIRMMEKETKEKTNLEWHLPILAMTADVIHATYEECLKSGMDGYVSKPFEEENLYKSVAKSFKPNPISP 7p8e-a1-m1-cA_7p8e-a1-m2-cA Crystal structure of the Receiver domain of M. truncatula cytokinin receptor MtCRE1 G7LCC3 G7LCC3 2.5 X-RAY DIFFRACTION 152 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 126 126 SLLFGKKILVVDDNVVNRRVAAGALKNFGADVKCADSGKAALEMLQFPHKFDACFMDIQMPEMDGFEATRRIREMERTANFHLPILAMTADVIHATYEECLKCGMDGYVSKPFEEENLYQAVAKFF SLLFGKKILVVDDNVVNRRVAAGALKNFGADVKCADSGKAALEMLQFPHKFDACFMDIQMPEMDGFEATRRIREMERTANFHLPILAMTADVIHATYEECLKCGMDGYVSKPFEEENLYQAVAKFF 7p8m-a1-m1-cA_7p8m-a1-m1-cC Crystal structure of L147A/I351A variant of S-adenosylmethionine synthetase from Methanocaldococcus jannaschii in complex with DMNB-SAM (4,5-dimethoxy-2-nitro benzyme S-adenosyl-methionine) Q58605 Q58605 1.71 X-RAY DIFFRACTION 154 1.0 243232 (Methanocaldococcus jannaschii DSM 2661) 243232 (Methanocaldococcus jannaschii DSM 2661) 404 408 7p82-a1-m1-cA_7p82-a1-m1-cC 7p83-a1-m1-cA_7p83-a1-m1-cC 7p84-a1-m1-cA_7p84-a1-m1-cC RNIIVKKLDVEPIEERPTEIVERKGLGHPDSICDGIAESVSRALCKMYMEKFGTILHHNTDQVELVGGHAYPKFGGGVMVSPIYILLSGRATMEILDKEKNEVIKLPVGTTAVKAAKEYLKKVLRNVDVDKDVIIDCRIGQGSMDAVDVFERQKEVPLANDTSFGVGYAPLSTTERLVLETERFLNSDELKNEIPAVGEDIKVMGLREGKKITLTIAMAVVDRYVKNIEEYKEVIEKVRKKVEDLAKKIADGYEVEIHINTADDYERESVYLTVTGTSAEMGDDGSVGRGNRVNGLITPFRPMSMEAASGKNPVNHVGKIYNILANLIANDIAKLEGVKECYVRILSQAGKPINEPKALDIEIITEDSYDIKDIEPKAKEIANKWLDNIMEVQKMIVEGKVTTF SHMRNIIVKKLDVEPIEERPTEIVERKGLGHPDSICDGIAESVSRALCKMYMEKFGTILHHNTDQVELVGGHAYPKFGGGVMVSPIYILLSGRATMEILDKEKNEVIKLPVGTTAVKAAKEYLKKVLRNVDVDKDVIIDCRIGQGSMDAVDVFERQKNEVPLANDTSFGVGYAPLSTTERLVLETERFLNSDELKNEIPAVGEDIKVMGLREGKKITLTIAMAVVDRYVKNIEEYKEVIEKVRKKVEDLAKKIADGYEVEIHINTADDYERESVYLTVTGTSAEMGDDGSVGRGNRVNGLITPFRPMSMEAASGKNPVNHVGKIYNILANLIANDIAKLEGVKECYVRILSQAGKPINEPKALDIEIITEDSYDIKDIEPKAKEIANKWLDNIMEVQKMIVEGKVTTF 7p8p-a2-m1-cC_7p8p-a2-m1-cB Crystal structure of Fhit covalently bound to a nucleotide P49789 P49789 2.34 X-RAY DIFFRACTION 107 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 127 147 SFRFGQCLIKPSVVFLKTELSFALVNRKPVVPGHVLVCPLRPVERFHDLRPDEVADLFQTTQRVGTVVEKHFHGTSLTFSMQDGPEAGQTVKHVNVHVLPRKAGDFHSWRSEEEMAAEAAALRVYFQ SFRFGQCLIKPSVVFLKTELSFALVNRKPVVPGHVLVCPLRPVERFHDLRPDEVADLFQTTQRVGTVVEKHFHGTSLTFSMQDGPEAGQTVKHVNVHVLPRKAGDFHRNDSIYEELQKHDKEDFPASWRSEEEMAAEAAALRVYFQH 7p91-a1-m1-cA_7p91-a1-m1-ca TmHydABC- T. maritima bifurcating hydrogenase with bridge domain closed O52683 O52683 2.8 ELECTRON MICROSCOPY 156 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 554 642 7p5h-a1-m1-cA_7p5h-a1-m1-ca 7p5h-a1-m1-cD_7p5h-a1-m1-cd 7p8n-a1-m1-cA_7p8n-a1-m1-ca MKIYVDGREVIINDNERNLLEALKNVGIEIPNLCYLSEASIYGACRMCLVEINGQITTSCTLKPYEGMKVKTNTPEIYEMRRNILELILATHNRDCTTCDRNGSCKLQKYAEDFGIRKIRFEALKKEHVRDESAPVVRDTSKCILCGDCVRVCEEIQGVGVIEFAKRGFESVVTTAFDTPLIETECVLCGQCVAYCPTGALSIRNDIDKLIEALESDKIVIGMIAPAVRAAIQEEFGIDEDVAMAEKLVSFLKTIGFDKVFDVSFGADLVAYEEAHEFYERLKKGERLPQFTSCCPAWVKHAEHTYPQYLQNLSSVKSPQQALGTVIKKIYARKLGVPEEKIFLVSFMPCTAKKFEAEREEHEGIVDIVLTTRELAQLIKMSRIDINRVEPQPFDRPYGVSSQAGLGFGKAGGVFSCVLSVLNEEIGIEKVDVKSPEDGIRVAEVTLKDGTSFKGAVIYGLGKVKKFLEERKDVEIIEVMACNYGCVGGGGQPYPNDSRIREHRAKVLRDTMGIKSLLTPVENLFLMKLYEEDLKDEHTRHEILHTTYRPRRRY MKIYVDGREVIINDNERNLLEALKNVGIEIPNLCYLSEASIYGACRMCLVEINGQITTSCTLKPYEGMKVKTNTPEIYEMRRNILELILATHNRDCTTCDRNGSCKLQKYAEDFGIRKIRFEALKKEHVRDESAPVVRDTSKCILCGDCVRVCEEIQGVGVIEFAKRGFESVVTTAFDTPLIETECVLCGQCVAYCPTGALSIRNDIDKLIEALESDKIVIGMIAPAVRAAIQEEFGIDEDVAMAEKLVSFLKTIGFDKVFDVSFGADLVAYEEAHEFYERLKKGERLPQFTSCCPAWVKHAEHTYPQYLQNLSSVKSPQQALGTVIKKIYARKLGVPEEKIFLVSFMPCTAKKFEAEREEHEGIVDIVLTTRELAQLIKMSRIDINRVEPQPFDRPYGVSSQAGLGFGKAGGVFSCVLSVLNEEIGIEKVDVKSPEDGIRVAEVTLKDGTSFKGAVIYGLGKVKKFLEERKDVEIIEVMACNYGCVGGGGQPYPNDSRIREHRAKVLRDTMGIKSLLTPVENLFLMKLYEEDLKDEHTRHEILHTTYRPRRRYPEKDVEILPVPNGEKRTVKVCLGTSCYTKGSYEILKKLVDYVKENDMEGKIEVLGTFCVENCGASPNVIVDDKIIGGATFEKVLEELS 7p9d-a1-m1-cA_7p9d-a1-m2-cA Crystal structure of Chlamydomonas reinhardtii NADPH Dependent Thioredoxin Reductase 1 domain A0A2K3E888 A0A2K3E888 1.99 X-RAY DIFFRACTION 93 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 314 314 7p9e-a1-m1-cA_7p9e-a1-m1-cB MENVVIIGSGPAGYTAAIYAARANLKPVVFEGFRNGRGGQLMTTTEVENFPGFPEGITGPDLMDRMRKQAERWGSELYTEDVEQVDLSVRPFVIRSSDRELRAHSVIIATGATAKRLGLPSENTFWSRGISACAICDGASPLFKNAEVAVVGGGDSATEEAVYVTKYAKHVHLLVRGERMRASKAMQDRVLANPRITVHFNTGIEDAFGGEVLQGLRLFDTRTGEKRSLDVQGMFYGIGHTPNSKLVAGQVELDEAGYVKVAHGAATSVPGVFSAGDLHDTEWRQAITAAGSGCMAALSAERYLTANNLVREFK MENVVIIGSGPAGYTAAIYAARANLKPVVFEGFRNGRGGQLMTTTEVENFPGFPEGITGPDLMDRMRKQAERWGSELYTEDVEQVDLSVRPFVIRSSDRELRAHSVIIATGATAKRLGLPSENTFWSRGISACAICDGASPLFKNAEVAVVGGGDSATEEAVYVTKYAKHVHLLVRGERMRASKAMQDRVLANPRITVHFNTGIEDAFGGEVLQGLRLFDTRTGEKRSLDVQGMFYGIGHTPNSKLVAGQVELDEAGYVKVAHGAATSVPGVFSAGDLHDTEWRQAITAAGSGCMAALSAERYLTANNLVREFK 7p9k-a1-m1-cA_7p9k-a1-m1-cB Phage resistance protein B7L3S9 B7L3S9 2.12 X-RAY DIFFRACTION 175 1.0 585054 (Escherichia fergusonii ATCC 35469) 585054 (Escherichia fergusonii ATCC 35469) 580 580 MYQAGGTIRSLLDKVAEQEYLLPAIFVWRPEQICRLFDSLLQGYPFGTFLFWKIKPENRDSYQFYQFMQHYHERDNYHCENVTQLPEREFIAVLDGQQRITALNIGLRGSFAWKLTGKWWSNDDAFPVRRLHLNLLSKPDLETGSMYDFEFLTDDKASLDASEQYWFRVGRIMEEEEDALIDEVADDARLSSEQRKEARSTLRHLYRTIHDKDKISFYEESDQSLERVLNIFIRMNSGGTTLSYSDLLLSIAVAQWSSLDAREEIHALVDEMNRVGDGFNVSKDLVLKAGLMLSDIGSVGFKVENFNKENMAILEKNWTPIRDALLLSMQLLASFGFNAQNLRATSAILPLAYYLHHRKLTASYLSRVEYAVDRECIRNWLIRSLLKASGIWGSGLDTLLTMLRSDIKQSGDTGFPLAKIEATMQQRGKSLRFDPEEISELAQLDYGNPRTFALLTLLFPGFDFSRHFHVDHIYPKGLFTRNKLAKVGVPAEQLDELIEASNKLPNLQLLEGTINNQKRQKMPHEWYAQQWPDVNARQAHLQSQAITSLPEQLNQFMDFYRERQETLLARIRTALQPASS MYQAGGTIRSLLDKVAEQEYLLPAIFVWRPEQICRLFDSLLQGYPFGTFLFWKIKPENRDSYQFYQFMQHYHERDNYHCENVTQLPEREFIAVLDGQQRITALNIGLRGSFAWKLTGKWWSNDDAFPVRRLHLNLLSKPDLETGSMYDFEFLTDDKASLDASEQYWFRVGRIMEEEEDALIDEVADDARLSSEQRKEARSTLRHLYRTIHDKDKISFYEESDQSLERVLNIFIRMNSGGTTLSYSDLLLSIAVAQWSSLDAREEIHALVDEMNRVGDGFNVSKDLVLKAGLMLSDIGSVGFKVENFNKENMAILEKNWTPIRDALLLSMQLLASFGFNAQNLRATSAILPLAYYLHHRKLTASYLSRVEYAVDRECIRNWLIRSLLKASGIWGSGLDTLLTMLRSDIKQSGDTGFPLAKIEATMQQRGKSLRFDPEEISELAQLDYGNPRTFALLTLLFPGFDFSRHFHVDHIYPKGLFTRNKLAKVGVPAEQLDELIEASNKLPNLQLLEGTINNQKRQKMPHEWYAQQWPDVNARQAHLQSQAITSLPEQLNQFMDFYRERQETLLARIRTALQPASS 7p9p-a1-m2-cAAA_7p9p-a1-m1-cBBB N-acetylglucosamine kinase from Plesiomonas shigelloides compexed with alpha-N-acetylglucosamine and AMP-PNP inhibitor R8APY9 R8APY9 2.11 X-RAY DIFFRACTION 80 1.0 1315976 (Plesiomonas shigelloides 302-73) 1315976 (Plesiomonas shigelloides 302-73) 304 306 GTMYYGFDIGGTKIEFGAFDADLVRVARERVATPTESYAAFLDAIVTLVNNADAEFGVKGTVGIGIPGIADVETGKLLTSNIPAAMGHTLQRDLEERLQRPVKIENDANCFALSEAWDEDLRGEPSVLGLILGTGVGGGLIFNGKVHSGRANIAGEIGHTRLPYDALKLLGMENAPIFPCGCKNSGCIDNYLSGRGFEQLYDHYFSEKLSAPEIIAHYEQGERRAVQHVERFMELLAICLANIFTCLDPHVVVLGGGLSNFELIYQELPKRLPAHLLHVAKLPKIIKARHGDAGGVRGAAFLNL FQGTMYYGFDIGGTKIEFGAFDADLVRVARERVATPTESYAAFLDAIVTLVNNADAEFGVKGTVGIGIPGIADVETGKLLTSNIPAAMGHTLQRDLEERLQRPVKIENDANCFALSEAWDEDLRGEPSVLGLILGTGVGGGLIFNGKVHSGRANIAGEIGHTRLPYDALKLLGMENAPIFPCGCKNSGCIDNYLSGRGFEQLYDHYFSEKLSAPEIIAHYEQGERRAVQHVERFMELLAICLANIFTCLDPHVVVLGGGLSNFELIYQELPKRLPAHLLHVAKLPKIIKARHGDAGGVRGAAFLNL 7p9q-a1-m1-cB_7p9q-a1-m1-cF Crystal structure of Indole 3-Carboxylic acid decarboxylase from Arthrobacter nicotianae FI1612 in complex with co-factor prFMN. 2.53 X-RAY DIFFRACTION 73 1.0 37929 (Glutamicibacter nicotianae) 37929 (Glutamicibacter nicotianae) 452 452 7p9q-a1-m1-cC_7p9q-a1-m1-cD 7p9q-a1-m1-cE_7p9q-a1-m1-cA HMHKDLHSIIDALDTAGRLIRVRSQVKAEHELAGIAAKYEGCDKAVLFENVDGNDIPVLMGLYWSRDLLGSLYGVDAVDMPRFITSKISHWKSEPTAHQLIAREHAPVMAHSPRVDLLSLPIPVHAQKDGGAYVDAGVVIAADPDTGVLNTSIQRFMVENENTLHVNIDAGRHLGAYLAKAKAKPLSFSLNIGVHPGVHFAAATPSEVAPLDVDELGIAAEFQDGPVRIVQGDDPRVTVLADAMISLECQMYADDLADEGPFAEVTGYYAERAPRPRVTVTAVHLQRNPVFHSILSGQEVFNSVGLLGESALFDQVSKQVPGILEVALTDGGCGFYHAVVQLKQVRAGWSKQAILATFAAFPPLKMVTIVDEDVDLRNPRDVEWAMATRLDPERGILRIDDTFGHGLNPSFPDYFGSKVGFDATRSFPFEEKHERITYQDVDLSRFEIVEGH HMHKDLHSIIDALDTAGRLIRVRSQVKAEHELAGIAAKYEGCDKAVLFENVDGNDIPVLMGLYWSRDLLGSLYGVDAVDMPRFITSKISHWKSEPTAHQLIAREHAPVMAHSPRVDLLSLPIPVHAQKDGGAYVDAGVVIAADPDTGVLNTSIQRFMVENENTLHVNIDAGRHLGAYLAKAKAKPLSFSLNIGVHPGVHFAAATPSEVAPLDVDELGIAAEFQDGPVRIVQGDDPRVTVLADAMISLECQMYADDLADEGPFAEVTGYYAERAPRPRVTVTAVHLQRNPVFHSILSGQEVFNSVGLLGESALFDQVSKQVPGILEVALTDGGCGFYHAVVQLKQVRAGWSKQAILATFAAFPPLKMVTIVDEDVDLRNPRDVEWAMATRLDPERGILRIDDTFGHGLNPSFPDYFGSKVGFDATRSFPFEEKHERITYQDVDLSRFEIVEGH 7p9q-a1-m1-cD_7p9q-a1-m1-cF Crystal structure of Indole 3-Carboxylic acid decarboxylase from Arthrobacter nicotianae FI1612 in complex with co-factor prFMN. 2.53 X-RAY DIFFRACTION 239 1.0 37929 (Glutamicibacter nicotianae) 37929 (Glutamicibacter nicotianae) 452 452 7p9q-a1-m1-cB_7p9q-a1-m1-cA 7p9q-a1-m1-cC_7p9q-a1-m1-cE HMHKDLHSIIDALDTAGRLIRVRSQVKAEHELAGIAAKYEGCDKAVLFENVDGNDIPVLMGLYWSRDLLGSLYGVDAVDMPRFITSKISHWKSEPTAHQLIAREHAPVMAHSPRVDLLSLPIPVHAQKDGGAYVDAGVVIAADPDTGVLNTSIQRFMVENENTLHVNIDAGRHLGAYLAKAKAKPLSFSLNIGVHPGVHFAAATPSEVAPLDVDELGIAAEFQDGPVRIVQGDDPRVTVLADAMISLECQMYADDLADEGPFAEVTGYYAERAPRPRVTVTAVHLQRNPVFHSILSGQEVFNSVGLLGESALFDQVSKQVPGILEVALTDGGCGFYHAVVQLKQVRAGWSKQAILATFAAFPPLKMVTIVDEDVDLRNPRDVEWAMATRLDPERGILRIDDTFGHGLNPSFPDYFGSKVGFDATRSFPFEEKHERITYQDVDLSRFEIVEGH HMHKDLHSIIDALDTAGRLIRVRSQVKAEHELAGIAAKYEGCDKAVLFENVDGNDIPVLMGLYWSRDLLGSLYGVDAVDMPRFITSKISHWKSEPTAHQLIAREHAPVMAHSPRVDLLSLPIPVHAQKDGGAYVDAGVVIAADPDTGVLNTSIQRFMVENENTLHVNIDAGRHLGAYLAKAKAKPLSFSLNIGVHPGVHFAAATPSEVAPLDVDELGIAAEFQDGPVRIVQGDDPRVTVLADAMISLECQMYADDLADEGPFAEVTGYYAERAPRPRVTVTAVHLQRNPVFHSILSGQEVFNSVGLLGESALFDQVSKQVPGILEVALTDGGCGFYHAVVQLKQVRAGWSKQAILATFAAFPPLKMVTIVDEDVDLRNPRDVEWAMATRLDPERGILRIDDTFGHGLNPSFPDYFGSKVGFDATRSFPFEEKHERITYQDVDLSRFEIVEGH 7pa8-a1-m1-cMMM_7pa8-a1-m1-cFFF JC polyomavirus VP1 in complex with Fab 27C2 3.15 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 108 191 SVLTQPPSASGTPGQRVTISCSGGSSNIGSNPVNWFQQFPGTAPKLLIYANTQRPSGVPDRFSGSKSGTSVSLAISGLQSEDEGDYHCAAWDDSLKGWVFGGGTKLTV SVLTQPPSASGTPGQRVTISCSGGSSNIGSNPVNWFQQFPGTAPKLLIYANTQRPSGVPDRFSGSKSGTSVSLAISGLQSEDEGDYHCAAWDDSLKGWVFGGGTKLTVLGAPKANPTVTLFPPSSNKATLVCLISDFYPGAVTVAWAGVETTKPSKQSNNKTAASSYLSLTPSYSCQVTHEGTTVEKTVAP 7pa8-a1-m1-cMMM_7pa8-a1-m1-cGGG JC polyomavirus VP1 in complex with Fab 27C2 3.15 X-RAY DIFFRACTION 16 0.981 9606 (Homo sapiens) 9606 (Homo sapiens) 108 176 7pa8-a1-m1-cKKK_7pa8-a1-m1-cFFF SVLTQPPSASGTPGQRVTISCSGGSSNIGSNPVNWFQQFPGTAPKLLIYANTQRPSGVPDRFSGSKSGTSVSLAISGLQSEDEGDYHCAAWDDSLKGWVFGGGTKLTV LTQPPSASGTPGQRVTISCSGGSSNIGSNPVNWFQQFPGTAPKLLIYANTQRPSGVPDRFSGSKSGTSVSLAISGLQSEDEGDYHCAAWDDSLKGWVFGGGTKLTVLGAPKANPTVTLFPPATLVCLISDFYPGAVTGVETTKPSKQSNNKTAASSYLYSCQVTHEGTTVEKTVAP 7pa9-a2-m1-cUUU_7pa9-a2-m1-caaa JC polyomavirus VP1 in complex with Fab 98D3 2.75 X-RAY DIFFRACTION 15 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 175 211 7pa9-a1-m1-cNNN_7pa9-a1-m1-cPPP DIQMTQSPSSLSASVGERVTITCRASQRISNYLNWYQQKPGKAPKLLIYAASTLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQSYSSPPTFGPGTKVDIKRTVAAPSVFIFPPTASVVCLLNNFYPREAKVVDNALQNSESVTEQDSKDSTYSLSSTEVTHQGLSSPV DIQMTQSPSSLSASVGERVTITCRASQRISNYLNWYQQKPGKAPKLLIYAASTLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQSYSSPPTFGPGTKVDIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNR 7paf-a1-m1-cA_7paf-a1-m1-cD Streptococcus pneumoniae choline importer LicB in lipid nanodiscs A0A0H2UQH5 A0A0H2UQH5 3.75 ELECTRON MICROSCOPY 21 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 278 278 GVPFGLLSGIFWGLGLTVSAYIFSIFTDLSPFVVAATHDFLSIFILLAFLLVKEGKVRLSIFLNIRNVSVIIGALLAGPIGMQANLYAVKYIGSSLASSVSAIYPAISVLLAFFFLKHKISKNTVFGIVLIIGGIIAQTSFYIGILCALVCAIAWGSESVLSSFAMESELSEIEALLIRQVTSFLSYLVIVLFSHQSFTAVANGQLLGLMIVFAAFDMISYLAYYIAINRLQPAKATGLNVSYVVWTVLFAVVFLGAPLDMLTIMTSLVVIAGVYIII GVPFGLLSGIFWGLGLTVSAYIFSIFTDLSPFVVAATHDFLSIFILLAFLLVKEGKVRLSIFLNIRNVSVIIGALLAGPIGMQANLYAVKYIGSSLASSVSAIYPAISVLLAFFFLKHKISKNTVFGIVLIIGGIIAQTSFYIGILCALVCAIAWGSESVLSSFAMESELSEIEALLIRQVTSFLSYLVIVLFSHQSFTAVANGQLLGLMIVFAAFDMISYLAYYIAINRLQPAKATGLNVSYVVWTVLFAVVFLGAPLDMLTIMTSLVVIAGVYIII 7paw-a1-m1-cA_7paw-a1-m1-cB MALT1 in complex with compound 1 Q9UDY8 Q9UDY8 2.19 X-RAY DIFFRACTION 112 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 346 367 MLAKDKVALLIGNMNYREHPKLKAPLVDVYELTNLLRQLDFKVVSLLDLTEYEMRNAVDEFLLLLDKGVYGLLYYAGHGYENFGNSFMVPVDAPNPYRSENCLCVQNILKLMQEKETGLNVFLLDMCRKRNDYDDTIPILDALKVTANIVFGYATCQGAEAANGIFMKFLKDRLLEDKKITVLLDEVAEDMGKCHLGKQALEIRSSLSEKRALTDPIQGTEYESLVRNLQWAKAHELPESMCLKFKCGVQIQLGFAAEFSNVMIIYTKIAYVTDFPLDLDIDPKDANKGTPEETGSYLVSKDCLYTRLSSLQKLKEELVFTVCLSEDKQEVNVGKPLIAKLDMHRH MLAKDKVALLIGNMNYREHPKLKAPLVDVYELTNLLRQLDFKVVSLLDLTEYEMRNAVDEFLLLLDKGVYGLLYYAGHGYENFGNSFMVPVDAPNPYRSENCLCVQNILKLMQEKETGLNVFLLDMCRKRNDYDDTIPILDALKVTANIVFGYATCQGAEAFELANGIFMKFLKDRLLEDKKITVLLDEVAEDMGKCHLTKGKQALEIRSSLSEKRALTDPIQGYSAESLVRNLQWAKAHELPESMCLKFKCGVQIQLGFAAEFSNVMIIYTKIVYKPPEIIMCDAYVTDFPLDLDIDPKDANKGTPEETGSYLVSKDLPKACLYTRLSSLQKLKEELVFTVCLSYQTVEDKQEVNVGKPLIAKLDM 7pax-a1-m1-cA_7pax-a1-m2-cA Structure of the human heterotetrameric cis-prenyltransferase complex in complex with magnesium, FsPP and IPP Q86SQ9 Q86SQ9 2 X-RAY DIFFRACTION 38 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 327 327 6z1n-a1-m1-cA_6z1n-a1-m2-cA 7pay-a1-m1-cA_7pay-a1-m2-cA 7pb0-a1-m1-cA_7pb0-a1-m2-cA 7pb1-a1-m1-cA_7pb1-a1-m2-cA MSWIKEGELSLWERFCANIIKAGPMPKHIAFIMDGNRRYAKKCQVERQEGHSQGFNKLAETLRWCLNLGILEVTVYAFSIENFKRSKSEVDGLMDLARQKFSRLMEEKEKLQKHGVCIRVLGDLHLLPLDLQELIAQAVQATKNYNKCFLNVCFAYTSRHEISNAVREMAWGVEQGLLDPSDISESLLDKCLYTNRSPHPDILIRTSGEVRLSDFLLWQTSHSCLVFQPVLWPEYTFWNLFEAILQFQMNHSVLQKARDMYAEERKRQQLERDQATVTEQLLREGLQASGDAQLRRTRLHKLSARREERVQGFLQALELKRADWLAR MSWIKEGELSLWERFCANIIKAGPMPKHIAFIMDGNRRYAKKCQVERQEGHSQGFNKLAETLRWCLNLGILEVTVYAFSIENFKRSKSEVDGLMDLARQKFSRLMEEKEKLQKHGVCIRVLGDLHLLPLDLQELIAQAVQATKNYNKCFLNVCFAYTSRHEISNAVREMAWGVEQGLLDPSDISESLLDKCLYTNRSPHPDILIRTSGEVRLSDFLLWQTSHSCLVFQPVLWPEYTFWNLFEAILQFQMNHSVLQKARDMYAEERKRQQLERDQATVTEQLLREGLQASGDAQLRRTRLHKLSARREERVQGFLQALELKRADWLAR 7pb3-a1-m1-cAAA_7pb3-a1-m4-cAAA Structural and Functional analysis of the Proline Racemase (ProR) from the Gram-positive bacterium Acetoanaerobium sticklandii E3PTZ4 E3PTZ4 2.841 X-RAY DIFFRACTION 113 1.0 499177 (Acetoanaerobium sticklandii DSM 519) 499177 (Acetoanaerobium sticklandii DSM 519) 335 335 7pb3-a1-m2-cBBB_7pb3-a1-m3-cBBB MKFSKGIHAIDSHTMGEPTRIVVGGIPQINGETMADKKKYLEDNLDYVRTALMHEPRGHNDMFGSIITSSNNKEADFGIIFMDGGGYLNMCGHGSIGAATVAVETGMVEMVEPVTNINMEAPAGLIKAKVMVENEKVKEVSITNVPSFLYMEDAKLEVPSLNKTITFDISFGGSFFAIIHAKELGVKVETSQVDVLKKLGIEIRDLINEKIKVQHPELEHIKTVDLVEIYDEPSNPEATYKNVVIFGQGQVDRSPCGTGTSAKLATLYKKGHLKIDEKFVYESITGTMFKGRVLEETKVGEFDAIIPEITGGAYITGFNHFVIDPEDPLKYGFTV MKFSKGIHAIDSHTMGEPTRIVVGGIPQINGETMADKKKYLEDNLDYVRTALMHEPRGHNDMFGSIITSSNNKEADFGIIFMDGGGYLNMCGHGSIGAATVAVETGMVEMVEPVTNINMEAPAGLIKAKVMVENEKVKEVSITNVPSFLYMEDAKLEVPSLNKTITFDISFGGSFFAIIHAKELGVKVETSQVDVLKKLGIEIRDLINEKIKVQHPELEHIKTVDLVEIYDEPSNPEATYKNVVIFGQGQVDRSPCGTGTSAKLATLYKKGHLKIDEKFVYESITGTMFKGRVLEETKVGEFDAIIPEITGGAYITGFNHFVIDPEDPLKYGFTV 7pb3-a1-m2-cBBB_7pb3-a1-m4-cAAA Structural and Functional analysis of the Proline Racemase (ProR) from the Gram-positive bacterium Acetoanaerobium sticklandii E3PTZ4 E3PTZ4 2.841 X-RAY DIFFRACTION 74 1.0 499177 (Acetoanaerobium sticklandii DSM 519) 499177 (Acetoanaerobium sticklandii DSM 519) 335 335 7pb3-a1-m1-cAAA_7pb3-a1-m3-cBBB MKFSKGIHAIDSHTMGEPTRIVVGGIPQINGETMADKKKYLEDNLDYVRTALMHEPRGHNDMFGSIITSSNNKEADFGIIFMDGGGYLNMCGHGSIGAATVAVETGMVEMVEPVTNINMEAPAGLIKAKVMVENEKVKEVSITNVPSFLYMEDAKLEVPSLNKTITFDISFGGSFFAIIHAKELGVKVETSQVDVLKKLGIEIRDLINEKIKVQHPELEHIKTVDLVEIYDEPSNPEATYKNVVIFGQGQVDRSPCGTGTSAKLATLYKKGHLKIDEKFVYESITGTMFKGRVLEETKVGEFDAIIPEITGGAYITGFNHFVIDPEDPLKYGFTV MKFSKGIHAIDSHTMGEPTRIVVGGIPQINGETMADKKKYLEDNLDYVRTALMHEPRGHNDMFGSIITSSNNKEADFGIIFMDGGGYLNMCGHGSIGAATVAVETGMVEMVEPVTNINMEAPAGLIKAKVMVENEKVKEVSITNVPSFLYMEDAKLEVPSLNKTITFDISFGGSFFAIIHAKELGVKVETSQVDVLKKLGIEIRDLINEKIKVQHPELEHIKTVDLVEIYDEPSNPEATYKNVVIFGQGQVDRSPCGTGTSAKLATLYKKGHLKIDEKFVYESITGTMFKGRVLEETKVGEFDAIIPEITGGAYITGFNHFVIDPEDPLKYGFTV 7pb3-a1-m3-cBBB_7pb3-a1-m4-cAAA Structural and Functional analysis of the Proline Racemase (ProR) from the Gram-positive bacterium Acetoanaerobium sticklandii E3PTZ4 E3PTZ4 2.841 X-RAY DIFFRACTION 13 1.0 499177 (Acetoanaerobium sticklandii DSM 519) 499177 (Acetoanaerobium sticklandii DSM 519) 335 335 7pb3-a1-m1-cAAA_7pb3-a1-m2-cBBB MKFSKGIHAIDSHTMGEPTRIVVGGIPQINGETMADKKKYLEDNLDYVRTALMHEPRGHNDMFGSIITSSNNKEADFGIIFMDGGGYLNMCGHGSIGAATVAVETGMVEMVEPVTNINMEAPAGLIKAKVMVENEKVKEVSITNVPSFLYMEDAKLEVPSLNKTITFDISFGGSFFAIIHAKELGVKVETSQVDVLKKLGIEIRDLINEKIKVQHPELEHIKTVDLVEIYDEPSNPEATYKNVVIFGQGQVDRSPCGTGTSAKLATLYKKGHLKIDEKFVYESITGTMFKGRVLEETKVGEFDAIIPEITGGAYITGFNHFVIDPEDPLKYGFTV MKFSKGIHAIDSHTMGEPTRIVVGGIPQINGETMADKKKYLEDNLDYVRTALMHEPRGHNDMFGSIITSSNNKEADFGIIFMDGGGYLNMCGHGSIGAATVAVETGMVEMVEPVTNINMEAPAGLIKAKVMVENEKVKEVSITNVPSFLYMEDAKLEVPSLNKTITFDISFGGSFFAIIHAKELGVKVETSQVDVLKKLGIEIRDLINEKIKVQHPELEHIKTVDLVEIYDEPSNPEATYKNVVIFGQGQVDRSPCGTGTSAKLATLYKKGHLKIDEKFVYESITGTMFKGRVLEETKVGEFDAIIPEITGGAYITGFNHFVIDPEDPLKYGFTV 7pbg-a1-m1-cA_7pbg-a1-m1-cB 4-ethylphenol oxidase from Gulosibacter chungangensis: native structure A0A7J5BGR1 A0A7J5BGR1 1.6 X-RAY DIFFRACTION 269 1.0 979746 (Gulosibacter chungangensis) 979746 (Gulosibacter chungangensis) 525 525 7pbi-a1-m1-cA_7pbi-a1-m1-cB 7pbi-a2-m1-cC_7pbi-a2-m1-cD 7pbi-a3-m1-cE_7pbi-a3-m1-cF 7pbi-a4-m1-cG_7pbi-a4-m1-cH FRTLPDGVSAEQFANAISEFSETIGSEYVRVDEATVSEYDDKFPVTDGDEFKGSAVIWPGSTEDVQVIVRIANKYGIPLHAFSGGRNLGYGGSSPMLTGTVLLHLGKRMNRVLEINEKLAYAVVEPGVDYKTLYEAVRDSGAKLMIDPAELDWGSVMGNTMEHGVGYTPYADHSMWRCGMEVVLADGEVLRTGMGGLPGSEAWHLYPGQLGPSIEGLFEQSNFGICTRMGMQLMPTPPEMLSFAIYFENEDDLPAIMETTLPLRIGMAPLQAAPIVRNVTFDAACVSKREEWQTEPGPLTDEAKQRMVDELGIGHWIVYGTCYGPRWQIDKYIEMIRDAYLQIPGARFETNETLPLREGDRASELLNARHELNTGVPNRHSAAVFDWFPNAGHFFYAPVSAPSGEDAAKQYEDTKRISDDHGIDYLAQFIIGLREMHHICLPLYDTADPASRKETLDMTRELIRAGAEEGYGIYRAHNVLADQVAETYSFNNHIQRRSHERIKDALDPNGILNPGKSGIWPERLR FRTLPDGVSAEQFANAISEFSETIGSEYVRVDEATVSEYDDKFPVTDGDEFKGSAVIWPGSTEDVQVIVRIANKYGIPLHAFSGGRNLGYGGSSPMLTGTVLLHLGKRMNRVLEINEKLAYAVVEPGVDYKTLYEAVRDSGAKLMIDPAELDWGSVMGNTMEHGVGYTPYADHSMWRCGMEVVLADGEVLRTGMGGLPGSEAWHLYPGQLGPSIEGLFEQSNFGICTRMGMQLMPTPPEMLSFAIYFENEDDLPAIMETTLPLRIGMAPLQAAPIVRNVTFDAACVSKREEWQTEPGPLTDEAKQRMVDELGIGHWIVYGTCYGPRWQIDKYIEMIRDAYLQIPGARFETNETLPLREGDRASELLNARHELNTGVPNRHSAAVFDWFPNAGHFFYAPVSAPSGEDAAKQYEDTKRISDDHGIDYLAQFIIGLREMHHICLPLYDTADPASRKETLDMTRELIRAGAEEGYGIYRAHNVLADQVAETYSFNNHIQRRSHERIKDALDPNGILNPGKSGIWPERLR 7pbw-a1-m1-cAH_7pbw-a1-m1-cAI Cryo-EM structure of light harvesting complex 2 from Rba. sphaeroides. Q3J144 Q3J144 2.1 ELECTRON MICROSCOPY 37 1.0 272943 (Cereibacter sphaeroides 2.4.1) 272943 (Cereibacter sphaeroides 2.4.1) 49 49 7pbw-a1-m1-cAA_7pbw-a1-m1-cAB 7pbw-a1-m1-cAA_7pbw-a1-m1-cAI 7pbw-a1-m1-cAB_7pbw-a1-m1-cAC 7pbw-a1-m1-cAC_7pbw-a1-m1-cAD 7pbw-a1-m1-cAD_7pbw-a1-m1-cAE 7pbw-a1-m1-cAE_7pbw-a1-m1-cAF 7pbw-a1-m1-cAF_7pbw-a1-m1-cAG 7pbw-a1-m1-cAG_7pbw-a1-m1-cAH TNGKIWLVVKPTVGVPLFLSAAVIASVVIHAAVLTTTTWLPAYYQGSAA TNGKIWLVVKPTVGVPLFLSAAVIASVVIHAAVLTTTTWLPAYYQGSAA 7pck-a2-m3-cD_7pck-a2-m1-cB CRYSTAL STRUCTURE OF WILD TYPE HUMAN PROCATHEPSIN K P43235 P43235 3.2 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 298 311 7pck-a1-m2-cC_7pck-a1-m1-cA LYPEEILDTHWELWKKTHRKQYNNKVDEISRRLIWEKNLKYISIHNLEASLGVHTYELAMNHLGDMTSEEVVQKMTGLKVLYIAPDSVDYRKKGYVTPVKNQGQCGSCWAFSSVGALEGQLKKKTGKLLNLSPQNLVDCVSENDGCGGGYMTNAFQYVQKNRGIDSEDAYPYVGQEESCMYNPTGKAAKCRGYREIPEGNEKALKRAVARVGPVSVAIDASLTSFQFYSKGVYYDESCNSDNLNHAVLAVGYGIQKGNKHWIIKNSWGENWGNKGYILMARNKNNACGIANLASFPKM LYPEEILDTHWELWKKTHRKQYNNKVDEISRRLIWEKNLKYISIHNLEASLGVHTYELAMNHLGDMTSEEVVQKMTGLKVPLRSNDTLYIPEWEGRAPDSVDYRKKGYVTPVKNQGQCGSCWAFSSVGALEGQLKKKTGKLLNLSPQNLVDCVSENDGCGGGYMTNAFQYVQKNRGIDSEDAYPYVGQEESCMYNPTGKAAKCRGYREIPEGNEKALKRAVARVGPVSVAIDASLTSFQFYSKGVYYDESCNSDNLNHAVLAVGYGIQKGNKHWIIKNSWGENWGNKGYILMARNKNNACGIANLASFPKM 7pcm-a1-m1-cA_7pcm-a1-m1-cB BurG (holo) in complex with (Z)-2,3-dihydroxy-6-methyl-hept-2-enoate (13): Biosynthesis of cyclopropanol rings in bacterial toxins Q2T3G7 Q2T3G7 2.05 X-RAY DIFFRACTION 428 1.0 271848 (Burkholderia thailandensis E264) 271848 (Burkholderia thailandensis E264) 340 341 7pcc-a1-m1-cA_7pcc-a1-m1-cB 7pce-a1-m1-cA_7pce-a1-m2-cA 7pcg-a1-m1-cA_7pcg-a1-m1-cB 7pci-a1-m1-cA_7pci-a1-m2-cA 7pcl-a1-m1-cA_7pcl-a1-m1-cB 7pcn-a1-m1-cB_7pcn-a1-m1-cA 7pco-a1-m1-cA_7pco-a1-m1-cB 7pct-a1-m1-cA_7pct-a1-m1-cB NDLIYQDEHASLQPLEGRTVAVIGYGIQGRAFAANLRDSGVAVRVGNIDDRYFELARAEGHRVTNIAEAVAHADIVLLLIPDEAHGAVFDVDIAPNLRDGALLCVAHGHSLVQGDVRPLPGRDLAMLAPRMYGDPIRRYYLAGQGAPAYFDIVADHTGRARDRVLAIARAVGFTRAGVMALGYRQETFLDLFQEQFLAPALVDLVETGFQVLVERGFNPKAALLEVYGSGEMGKMMLDGADIGLDEVVALQGSPTCQVGYHRWRGRTLPTAVRELAARVLDQIEGGDFSAYLKEQASNDYASLDDARRAALKRPLNVAHAQVRAAFRFPTEAAGGLYQAA NDLIYQDEHASLQPLEGRTVAVIGYGIQGRAFAANLRDSGVAVRVGNIDDRYFELARAEGHRVTNIAEAVAHADIVLLLIPDEAHGAVFDVDIAPNLRDGALLCVAHGHSLVQGDVRPLPGRDLAMLAPRMYGDPIRRYYLAGQGAPAYFDIVADHTGRARDRVLAIARAVGFTRAGVMALGYRQETFLDLFQEQFLAPALVDLVETGFQVLVERGFNPKAALLEVYGSGEMGKMMLDGADIGLDEVVALQGSPTCQVGYHRWRGRTLPTAVRELAARVLDQIEGGDFSAYLKEQASNDYASLDDARRAALKRPLNVAHAQVRAAFRFPTEAAGGLYQAAQ 7pcr-a1-m1-cA_7pcr-a1-m2-cA Helicobacter pylori RNase J P56185 P56185 2.75 X-RAY DIFFRACTION 135 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 553 553 SKASVKITPLGGLGEIGGNMMVIETPKSAIVIDAGMSFPKEGLFGVDILIPDFSYLHQIKDKIAGIIITHAHEDHIGATPYLFKELQFPLYGTPLSLGLIGSKFDEHGLKKYRSYFKIVEKRCPISVGEFIIEWIHITHSIIDSSALAIQTKAGTIIHTGDFKIDHTPVDNLPTDLYRLAHYGEKGVMLLLSDSTNSHKSGTTPSESTIAPAFDTLFKEAQGRVIMSTFSSNIHRVYQAIQYGIKYNRKIAVIGRSMEKNLDIARELGYIHLPYQSFIEANEVAKYPDNEILIVTTGSQGETMSALYRMATDEHRHISIKPNDLVIISAKAIPGNEASVSAVLNFLIKKEAKVAYQEFDNIHVSGHAAQEEQKLMLRLIKPKFFLPVHGEYNHVARHKQTAISCGVPEKNIYLMEDGDQVEVGPAFIKKVGTIKSGKSYVDNQSNLSIDTSIVQQREEVASAGVFVATIFVNKNKQALLESSQFSSLGLVGFKDEKPLIKEIQGGLEVLLKSSNAEILNNPKKLEDHTRNFIRKALFKKFRKYPAIICHAHSF SKASVKITPLGGLGEIGGNMMVIETPKSAIVIDAGMSFPKEGLFGVDILIPDFSYLHQIKDKIAGIIITHAHEDHIGATPYLFKELQFPLYGTPLSLGLIGSKFDEHGLKKYRSYFKIVEKRCPISVGEFIIEWIHITHSIIDSSALAIQTKAGTIIHTGDFKIDHTPVDNLPTDLYRLAHYGEKGVMLLLSDSTNSHKSGTTPSESTIAPAFDTLFKEAQGRVIMSTFSSNIHRVYQAIQYGIKYNRKIAVIGRSMEKNLDIARELGYIHLPYQSFIEANEVAKYPDNEILIVTTGSQGETMSALYRMATDEHRHISIKPNDLVIISAKAIPGNEASVSAVLNFLIKKEAKVAYQEFDNIHVSGHAAQEEQKLMLRLIKPKFFLPVHGEYNHVARHKQTAISCGVPEKNIYLMEDGDQVEVGPAFIKKVGTIKSGKSYVDNQSNLSIDTSIVQQREEVASAGVFVATIFVNKNKQALLESSQFSSLGLVGFKDEKPLIKEIQGGLEVLLKSSNAEILNNPKKLEDHTRNFIRKALFKKFRKYPAIICHAHSF 7pcs-a1-m1-cA_7pcs-a1-m1-cC Structure of the heterotetrameric SDR family member BbsCD Q9KJF2 Q9KJF2 2.25 X-RAY DIFFRACTION 144 1.0 59405 (Thauera aromatica) 59405 (Thauera aromatica) 244 244 GKVALIVNADDAVGEAVALRLAGSGVQLALAGADAGRLDKLASQLAGKGATVMAVATAAVEAGAIRDSVAQVKARYGRIDVLVHNESALAAKPLPEISDADVGAALDTGLAAPFHYLRAVVPGMREAGFGRVVNISDLRYLGLANTSSVAAARSGLFGLTRALALESARDGVTVNTVVMGDVDSETTPAAEREKLAGGIPVKRLGTPADIANAVGFLAADSSKYVTGQTLFVCGGKSAYFSMSI GKVALIVNADDAVGEAVALRLAGSGVQLALAGADAGRLDKLASQLAGKGATVMAVATAAVEAGAIRDSVAQVKARYGRIDVLVHNESALAAKPLPEISDADVGAALDTGLAAPFHYLRAVVPGMREAGFGRVVNISDLRYLGLANTSSVAAARSGLFGLTRALALESARDGVTVNTVVMGDVDSETTPAAEREKLAGGIPVKRLGTPADIANAVGFLAADSSKYVTGQTLFVCGGKSAYFSMSI 7pcs-a1-m1-cB_7pcs-a1-m1-cD Structure of the heterotetrameric SDR family member BbsCD Q9KJF1 Q9KJF1 2.25 X-RAY DIFFRACTION 131 1.0 59405 (Thauera aromatica) 59405 (Thauera aromatica) 247 247 GIQNRVALITGSASGMGKQTALRFAEQGAAVVINDIDAEKVRATVDEFSARGHRVLGAVADIGNKAAVDGMVKQTIDAFGRIDILVNNAGMERAGALRKLSEADWDVTINVNLKGTFLCTQAVHGHMVENKHGRIVNIASRAWLGGAGQTPYSSAKAGVVGMTRALAIELGRAGITVNCVAPGLIHTPMWDELPEKDQQFLLSRQPTGKLGEPDDIANTLLFLADDDSGFVTGQVLYVCGGRSLFAG GIQNRVALITGSASGMGKQTALRFAEQGAAVVINDIDAEKVRATVDEFSARGHRVLGAVADIGNKAAVDGMVKQTIDAFGRIDILVNNAGMERAGALRKLSEADWDVTINVNLKGTFLCTQAVHGHMVENKHGRIVNIASRAWLGGAGQTPYSSAKAGVVGMTRALAIELGRAGITVNCVAPGLIHTPMWDELPEKDQQFLLSRQPTGKLGEPDDIANTLLFLADDDSGFVTGQVLYVCGGRSLFAG 7pcy-a1-m3-cA_7pcy-a1-m4-cA THE CRYSTAL STRUCTURE OF PLASTOCYANIN FROM A GREEN ALGA, ENTEROMORPHA PROLIFERA P07465 P07465 1.8 X-RAY DIFFRACTION 34 1.0 3117 (Ulva prolifera) 3117 (Ulva prolifera) 98 98 7pcy-a1-m1-cA_7pcy-a1-m2-cA 7pcy-a1-m1-cA_7pcy-a1-m3-cA 7pcy-a1-m2-cA_7pcy-a1-m4-cA AAIVKLGGDDGSLAFVPNNITVGAGESIEFINNAGFPHNIVFDEDAVPAGVDADAISAEDYLNSKGQTVVRKLTTPGTYGVYCDPHSGAGMKMTITVQ AAIVKLGGDDGSLAFVPNNITVGAGESIEFINNAGFPHNIVFDEDAVPAGVDADAISAEDYLNSKGQTVVRKLTTPGTYGVYCDPHSGAGMKMTITVQ 7pda-a1-m1-cA_7pda-a1-m6-cA Crystal structure of Phenazine 1-carboxylic acid decarboxylase from Mycobacterium fortuitum A0A0N9Y7U2 A0A0N9Y7U2 2.65 X-RAY DIFFRACTION 251 1.0 1766 (Mycolicibacterium fortuitum) 1766 (Mycolicibacterium fortuitum) 477 477 7pda-a1-m2-cA_7pda-a1-m5-cA 7pda-a1-m3-cA_7pda-a1-m4-cA VFRDLRHYIDTLTEKLGADEVQTIKGANWDLEIGCITELSAEKEGPALLFDDIPGYPSGHRVFTNFMGTVSRCAVALGLPADTSAMDIIRAWKDLGKRIEPIPPVEVSEGAILENVLEGDDVDLEMFPTPRWHDGDGGRYIGTACMVITRDPDTGWVNVGTYRGCVQGKDRLSLWMLGNRHALAIAKKYWDRGTACPIAVVVGCDPILTTAAAIAAPSGVCEYDVAGGLRGVGVEVISAPGTGLPIPANAEIVFEGEMPPVEEESVHEGPFGEWTGYFTHAGDETVVRVQRILHRDSPIILGAPPMIPTVPAGDQAVPLYSASVTWDHLEASGVQNIKGVWAYARQLMMVISIEQTGAGDAMHALLAAAGRKRTGGVDRYFVVVDEDIDITDINHVLWALFTRVDPAESIHVLRTPTTAIDPRLSPAKREAGDMSMGIVLIDACKPFAWKDSYPRANRFDEPYRAEIRDRWKATLPL VFRDLRHYIDTLTEKLGADEVQTIKGANWDLEIGCITELSAEKEGPALLFDDIPGYPSGHRVFTNFMGTVSRCAVALGLPADTSAMDIIRAWKDLGKRIEPIPPVEVSEGAILENVLEGDDVDLEMFPTPRWHDGDGGRYIGTACMVITRDPDTGWVNVGTYRGCVQGKDRLSLWMLGNRHALAIAKKYWDRGTACPIAVVVGCDPILTTAAAIAAPSGVCEYDVAGGLRGVGVEVISAPGTGLPIPANAEIVFEGEMPPVEEESVHEGPFGEWTGYFTHAGDETVVRVQRILHRDSPIILGAPPMIPTVPAGDQAVPLYSASVTWDHLEASGVQNIKGVWAYARQLMMVISIEQTGAGDAMHALLAAAGRKRTGGVDRYFVVVDEDIDITDINHVLWALFTRVDPAESIHVLRTPTTAIDPRLSPAKREAGDMSMGIVLIDACKPFAWKDSYPRANRFDEPYRAEIRDRWKATLPL 7pda-a1-m2-cA_7pda-a1-m6-cA Crystal structure of Phenazine 1-carboxylic acid decarboxylase from Mycobacterium fortuitum A0A0N9Y7U2 A0A0N9Y7U2 2.65 X-RAY DIFFRACTION 80 1.0 1766 (Mycolicibacterium fortuitum) 1766 (Mycolicibacterium fortuitum) 477 477 7pda-a1-m1-cA_7pda-a1-m4-cA 7pda-a1-m3-cA_7pda-a1-m5-cA VFRDLRHYIDTLTEKLGADEVQTIKGANWDLEIGCITELSAEKEGPALLFDDIPGYPSGHRVFTNFMGTVSRCAVALGLPADTSAMDIIRAWKDLGKRIEPIPPVEVSEGAILENVLEGDDVDLEMFPTPRWHDGDGGRYIGTACMVITRDPDTGWVNVGTYRGCVQGKDRLSLWMLGNRHALAIAKKYWDRGTACPIAVVVGCDPILTTAAAIAAPSGVCEYDVAGGLRGVGVEVISAPGTGLPIPANAEIVFEGEMPPVEEESVHEGPFGEWTGYFTHAGDETVVRVQRILHRDSPIILGAPPMIPTVPAGDQAVPLYSASVTWDHLEASGVQNIKGVWAYARQLMMVISIEQTGAGDAMHALLAAAGRKRTGGVDRYFVVVDEDIDITDINHVLWALFTRVDPAESIHVLRTPTTAIDPRLSPAKREAGDMSMGIVLIDACKPFAWKDSYPRANRFDEPYRAEIRDRWKATLPL VFRDLRHYIDTLTEKLGADEVQTIKGANWDLEIGCITELSAEKEGPALLFDDIPGYPSGHRVFTNFMGTVSRCAVALGLPADTSAMDIIRAWKDLGKRIEPIPPVEVSEGAILENVLEGDDVDLEMFPTPRWHDGDGGRYIGTACMVITRDPDTGWVNVGTYRGCVQGKDRLSLWMLGNRHALAIAKKYWDRGTACPIAVVVGCDPILTTAAAIAAPSGVCEYDVAGGLRGVGVEVISAPGTGLPIPANAEIVFEGEMPPVEEESVHEGPFGEWTGYFTHAGDETVVRVQRILHRDSPIILGAPPMIPTVPAGDQAVPLYSASVTWDHLEASGVQNIKGVWAYARQLMMVISIEQTGAGDAMHALLAAAGRKRTGGVDRYFVVVDEDIDITDINHVLWALFTRVDPAESIHVLRTPTTAIDPRLSPAKREAGDMSMGIVLIDACKPFAWKDSYPRANRFDEPYRAEIRDRWKATLPL 7pdc-a1-m2-cB_7pdc-a1-m2-cA The structure of the human tetrameric LL-37 peptide in a channel conformation P49913 P49913 1.83 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 27 30 7pdc-a1-m1-cB_7pdc-a1-m1-cA FFRKSKEKIGKEFKRIVQRIKDFLRNL LGDFFRKSKEKIGKEFKRIVQRIKDFLRNL 7pds-a1-m1-cB_7pds-a1-m1-cC The structure of PriRep1 with dsDNA Q8VLX1 Q8VLX1 3.14 ELECTRON MICROSCOPY 146 0.998 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 448 451 7pds-a1-m1-cB_7pds-a1-m1-cA 7pds-a1-m1-cC_7pds-a1-m1-cD 7pds-a1-m1-cE_7pds-a1-m1-cD 7pds-a1-m1-cF_7pds-a1-m1-cA 7pds-a1-m1-cF_7pds-a1-m1-cE NDWKSQLRRSATTQALKKTTTNAEIILCNDESLKGLVQYDAFEKVTKLKRLPYWRSKGDANYYWADIDTTHVISHIDKLYNVQFSRDLIDTVIEKEAYQNRFHPIKSMIESKSWDGIKRIETLFIDYLGAEDNHYNREVTKKWMMGAVARIYQPGIKYDSMIILYGGQGVGKSTAVSKLGGHWYNQSIKTFKGDEVYKKLQGSWICEIEELSAFQKSTIEDIKGFISAIVDIYRASYGKRTERHPRQCVFVGTTNNYEFLKDQTGNRRFFPITTDKNKATKSPFDDLTPVVVQQMFAEARVYFDENPTDKALLLDKEASEMALKVQEAHSEKDALVGEIEEFLERPIPSDYWYRTLEEKRVSAHDVIILIELPNAKPGAYVWRDKVCSMEIWKVMMKRDDQPQQHHLRKIDKALRNTNYCGTVKKQTRYGEGIGKQYGFSVDLASYYK NDWKSQLRRSATTQALKKTTTNAEIILCNDESLKGLVQYDAFEKVTKLKRLPYWRSKGDANYYWADIDTTHVISHIDKLYNVQFSRDLIDTVIEKEAYQNRFHPIKSMIESKSWDGIKRIETLFIDYLGAEDNHYNREVTKKWMMGAVARIYQPGIKYDSMIILYGGQGVGKSTAVSKLGGHWYNQSIKTFKGDEVYKKLQGSWICEIEELSAFQKSTIEDIKGFISAIVDIYRASYGKRTERHPRQCVFVGTTNNYEFLKDQTGNRRFFPITTDKNKATKSPFDDLTPVVVQQMFAEARVYFDENPTDKALLLDKEASEMALKVQEAHSEKDALVGEIEEFLERPIPSDYWYRTLEEKRVSAHDVIDQDYILIELPNAKPGAYVWRDKVCSMEIWKVMMKRDDQPQQHHLRKIDKALRNTNYCGTVKKQTRYGEGIGKQYGFSVDLASYY 7pe4-a1-m1-cA_7pe4-a1-m2-cA Crystal structure of Mycobacterium hassiacum glucosyl-3-phosphoglycerate synthase at pH 5.5 in complex with UDP-glucose K5B7Z4 K5B7Z4 2.05 X-RAY DIFFRACTION 200 1.0 1122247 (Mycolicibacterium hassiacum DSM 44199) 1122247 (Mycolicibacterium hassiacum DSM 44199) 310 310 7p8g-a1-m1-cA_7p8g-a1-m2-cA 7pd5-a1-m1-cA_7pd5-a1-m2-cA 7pdo-a1-m1-cA_7pdo-a1-m2-cA 7pho-a1-m1-cA_7pho-a1-m1-cB 7pvl-a1-m1-cA_7pvl-a1-m1-cB 7qi9-a1-m1-cA_7qi9-a1-m1-cB 7qoq-a1-m1-cB_7qoq-a1-m1-cA TLVPDLTATDLARHRWLTDNSWTRPTWTVAELEAAKAGRTISVVLPALNEEETVGGVVETIRPLLGGLVDELIVLDSGSTDDTEIRAMAAGARVISREVALPEVAPQPGKGEVLWRSLAATTGDIIVFIDSDLIDPDPMFVPKLVGPLLLSEGVHLVKGFYRRPGGGRVTELVARPLLAALRPELTCVLQPLGGEYAGTRELLMSVPFAPGYGVEIGLLVDTYDRLGLDAIAQVNLGVRAHRNRPLTDLAAMSRQVIATLFSRCGVPDSGVGLTQFFADGDGFSPRTSEVSLVDRPPMNTLRGKLAAALE TLVPDLTATDLARHRWLTDNSWTRPTWTVAELEAAKAGRTISVVLPALNEEETVGGVVETIRPLLGGLVDELIVLDSGSTDDTEIRAMAAGARVISREVALPEVAPQPGKGEVLWRSLAATTGDIIVFIDSDLIDPDPMFVPKLVGPLLLSEGVHLVKGFYRRPGGGRVTELVARPLLAALRPELTCVLQPLGGEYAGTRELLMSVPFAPGYGVEIGLLVDTYDRLGLDAIAQVNLGVRAHRNRPLTDLAAMSRQVIATLFSRCGVPDSGVGLTQFFADGDGFSPRTSEVSLVDRPPMNTLRGKLAAALE 7ped-a1-m1-cA_7ped-a1-m1-cB DEPTOR DEP domain tandem (DEPt) Q8TB45 Q8TB45 1.93 X-RAY DIFFRACTION 155 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 GGAQQRELERMAEVLVTGEQLRLRLHEEKVIKDRRHHLKTYPNCFVAKELIDWLIEHKEASDRETAIKLMQKLADRGIIHHVCDEHKEFKDVKLFYRFRKDDGTFPLDNEVKAFMRGQRLYEKLMSPENTLLQPREEEGVKYERTFMASEFLDWLVQEGEATTRKEAEQLCHRLMEHGIIQHVSSKHPFVDSNLLYQFRMNFRRRRRLMEL GGAQQRELERMAEVLVTGEQLRLRLHEEKVIKDRRHHLKTYPNCFVAKELIDWLIEHKEASDRETAIKLMQKLADRGIIHHVCDEHKEFKDVKLFYRFRKDDGTFPLDNEVKAFMRGQRLYEKLMSPENTLLQPREEEGVKYERTFMASEFLDWLVQEGEATTRKEAEQLCHRLMEHGIIQHVSSKHPFVDSNLLYQFRMNFRRRRRLMEL 7pek-a1-m1-cA_7pek-a1-m1-cB Crystal structure of Triosephosphate Isomerase C216A mutant from Schizosaccharomyces pombe (SpTIM C216A) P07669 P07669 1.74 X-RAY DIFFRACTION 147 0.996 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 246 246 7pej-a1-m1-cB_7pej-a1-m1-cA 7pej-a2-m1-cD_7pej-a2-m1-cC 7pek-a2-m1-cD_7pek-a2-m1-cC RKFFVGGNFKMNGSLESMKTIIEGLNTTKLNVGDVETVIFPQNMYLITTRQQVKKDIGVGAQNVFDKKNGAYTGENSAQSLIDAGITYTLTGHSERRTIFKESDEFVADKTKFALEQGLTVVACIGETLAEREANTINVVVRQLNAIADKVQNWSKIVIAYEPVWAIGTGKTATPEQAQEVHAEIRKWATNKLGASVAEGLRVIYGGSVNGGNAKEFLKFHDIDGFLVGGASLKPEFHNIVNVHSL ARKFFVGGNFKMNGSLESMKTIIEGLNTTKLNVGDVETVIFPQNMYLITTRQQVKKDIGVGAQNVFDKKNGAYTGENSAQSLIDAGITYTLTGHSERRTIFKESDEFVADKTKFALEQGLTVVACIGETLAEREANTINVVVRQLNAIADKVQNWSKIVIAYEPVWAIGTGKTATPEQAQEVHAEIRKWATNKLGASVAEGLRVIYGGSVNGGNAKEFLKFHDIDGFLVGGASLKPEFHNIVNVHS 7pfp-a1-m1-cC_7pfp-a1-m1-cA Full-length cryo-EM structure of the native human uromodulin (UMOD)/Tamm-Horsfall protein (THP) filament P07911 P07911 6.1 ELECTRON MICROSCOPY 135 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 420 563 7pfp-a1-m1-cB_7pfp-a1-m1-cA DTSEARWCSECHSNATCTEDEAVTTCTCQEGFTGDGLTCVDLDECAIPGAHNCSANSSCVNTPGSFSCVCPEGFRLSPGLGCTDVDECAEPGLSHCHALATCVNVVGSYLCVCPAGYRGDGWHCECSPGSCGPGLDCVPEGDALVCADPCQAHRTLDEYWRSTEYGEGYACDTDLRGWYRFVGQGGARMAETCVPVLRCNTAAPMWLNGTHPSSDEGIVSRKACAHWSGHCCLWDASVQVKACAGGYYVYNLTAPPECHLAYCTDPSSVEGTCEECSIDEDCKSNNGRWHCQCKQDFNITDISLLEHRLECGANDMKVSLGKCQLKSLGFDKVFMYLSDSRCSGFNDRDNRDWVSVVTPARDGPCGTVLTRNETHATYSNTLYLADEIIIRDLNIKINFACSYPLDMKVSLKTALQPMVS DTSEARWCSECHSNATCTEDEAVTTCTCQEGFTGDGLTCVDLDECAIPGAHNCSANSSCVNTPGSFSCVCPEGFRLSPGLGCTDVDECAEPGLSHCHALATCVNVVGSYLCVCPAGYRGDGWHCECSPGSCGPGLDCVPEGDALVCADPCQAHRTLDEYWRSTEYGEGYACDTDLRGWYRFVGQGGARMAETCVPVLRCNTAAPMWLNGTHPSSDEGIVSRKACAHWSGHCCLWDASVQVKACAGGYYVYNLTAPPECHLAYCTDPSSVEGTCEECSIDEDCKSNNGRWHCQCKQDFNITDISLLEHRLECGANDMKVSLGKCQLKSLGFDKVFMYLSDSRCSGFNDRDNRDWVSVVTPARDGPCGTVLTRNETHATYSNTLYLADEIIIRDLNIKINFACSYPLDMKVSLKTALQPMVSALNIRVGGTGMFTVRMALFQTPSYTQPYQGSSVTLSTEAFLYVGTMLDGGDLSRFALLMTNCYATPSSNATDPLKYFIIQDRCPHTRDSTIQVVENGESSQGRFSVQMFRFAGNYDLVYLHCEVYLCDTMNEKCKPTCSGTRF 7pfs-a1-m1-cB_7pfs-a1-m1-cA Crystal structure of ERAP2 aminopeptidase in complex with phosphinic pseudotripeptide ((1R)-1-Amino-3-phenylpropyl){2-([1,1:3,1-terphenyl]-5-ylmethyl)-3-[((2S)-1-amino-1-oxo-3-phenylpropan-2-yl)-amino]-3-oxopropyl}phosphinic acid Q6P179 Q6P179 2.7 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 872 916 PGAFPVATNGERFPWQELRLPSVVIPLHYDLFVHPNLTSLDFVASEKIEVLVSNATQFIILHSKDLEITNATLQSEEDSRYMKPGKELKVLSYPAHEQIALLVPEKLTPHLKYYVAMDFQAKLGDGFEGFYKSTYRTLGGETRILAVTDFEPTQARMAFPCFDEPLFKANFSIKIRRESRHIALSNMPKVKTIELEGGLLEDHFETTVKMSTYLVAYIVCDFHSLSGFTSSGVKVSIYASPDKRNQTHYALQASLKLLDFYEKYFDIYYPLSKLDLIAIPDFAPGAMENWGLITYRETSLLFDPKTSSASDKLWVTRVIAHELAHQWFGNLVTMEWWNDIWLNEGFAKYMELIAVNATYPELQFDDYFLNVCFEVITKDSLNSSRPISKPAETPTQIQEMFDEVSYNKGACILNMLKDFLGEEKFQKGIIQYLKKFSYRNAKNDDLWSSLSNSNAEVKEMMTTWTLQKGIPLLVVKDGCSLRLQQERFLQGVFQEDPEWRALQERYLWHIPLTYSSSNVIHRHILKSKTDTLDLPEKTSWVKFNVDSNGYYIVHYEGHGWDQLLNQNHTLLRPKDRVGLIHDVFQLVGAGRLTLDKALDMLQHETSSPALLEGLSYLESFYHMMDRRNISDISENLKRYLLQYFKPVIDRQSWSDKGSVWDRMLRSALLKLACDLNHAPCIQKAAELFSQWMESSGKLNIPTDVLKIVYSVGAQTTAGWNYLLEQYELSMSSAEQNKILYALSTSKHQEKLLKLIELGMEGKVIKTQNLAALLHAIARRPKGQQLAWDFVRENWTHLLKKFDLGSYDIRMIISGTTAHFSSKDKLQEVKLFFESLEAQGSHLDIFQTVLETITKNIKWLEKNLPTLRTWLMV EDPGAFPVATNGERFPWQELRLPSVVIPLHYDLFVHPNLTSLDFVASEKIEVLVSNATQFIILHSKDLEITNATLQSEEDSRYMKPGKELKVLSYPAHEQIALLVPEKLTPHLKYYVAMDFQAKLGDGFEGFYKSTYRTLGGETRILAVTDFEPTQARMAFPCFDEPLFKANFSIKIRRESRHIALSNMPKVKTIELEGGLLEDHFETTVKMSTYLVAYIVCDFHSLSGFTSSGVKVSIYASPDKRNQTHYALQASLKLLDFYEKYFDIYYPLSKLDLIAIPDFAPGAMENWGLITYRETSLLFDPKTSSASDKLWVTRVIAHELAHQWFGNLVTMEWWNDIWLNEGFAKYMELIAVNATYPELQFDDYFLNVCFEVITKDSLNSSRPISKPAETPTQIQEMFDEVSYNKGACILNMLKDFLGEEKFQKGIIQYLKKFSYRNAKNDDLWSSLSNSCLESDFTSGGVCHSDPKMTSNMLAFLGENAEVKEMMTTWTLQKGIPLLVVKQDGCSLRLQQERFLQGVFQEDPEWRALQERYLWHIPLTYSTSSSNVIHRHILKSKTDTLDLPEKTSWVKFNVDSNGYYIVHYEGHGWDQLITQLNQNHTLLRPKDRVGLIHDVFQLVGAGRLTLDKALDMTYYLQHETSSPALLEGLSYLESFYHMMDRRNISDISENLKRYLLQYFKPVIDRQSWSDKGSVWDRMLRSALLKLACDLNHAPCIQKAAELFSQWMESSGKLNIPTDVLKIVYSVGAQTTAGWNYLLEQYELSMSSAEQNKILYALSTSKHQEKLLKLIELGMEGKVIKTQNLAALLHAIARRPKGQQLAWDFVRENWTHLLKKFDLGSYDIRMIISGTTAHFSSKDKLQEVKLFFESLEAQGSHLDIFQTVLETITKNIKWLEKNLPTLRTWLMVNTRHH 7pg7-a1-m1-cD_7pg7-a1-m2-cD 10-decarboxylase TamK from Streptomyces tsukubaensis I2N5E8 I2N5E8 1.51 X-RAY DIFFRACTION 189 1.0 83656 (Streptomyces tsukubensis) 83656 (Streptomyces tsukubensis) 329 329 DRQHVDALVRMSNLVTPMALRVAATLRLVDHLRAGATSADALADATGADADALARLMRHLAAAGVLEEPEPGHYAPTGLGDLLADDHPSRQRSWLDLDQAVGRADLTFLGLREAVRTGRPQYEARYGKPFWTDLSEDDGLGASFDALMTTAFAAPVAAYDWTRARHVLDVGGAPGGLLTAILRAAPEAHGTLLDLPGAAARTRERIAANGMDERIDVVGGDFFDELPVTADVVVLSFTLLNWSDPDALRILGRCRDALRPGGRIVLLERAESDLYFSVLDMRMLVFLGGRVRTDREWADLAAAAGLDIVGKTGPLVVPLDSCLWELAPR DRQHVDALVRMSNLVTPMALRVAATLRLVDHLRAGATSADALADATGADADALARLMRHLAAAGVLEEPEPGHYAPTGLGDLLADDHPSRQRSWLDLDQAVGRADLTFLGLREAVRTGRPQYEARYGKPFWTDLSEDDGLGASFDALMTTAFAAPVAAYDWTRARHVLDVGGAPGGLLTAILRAAPEAHGTLLDLPGAAARTRERIAANGMDERIDVVGGDFFDELPVTADVVVLSFTLLNWSDPDALRILGRCRDALRPGGRIVLLERAESDLYFSVLDMRMLVFLGGRVRTDREWADLAAAAGLDIVGKTGPLVVPLDSCLWELAPR 7pgf-a1-m1-cC_7pgf-a1-m1-cD Calcium-selective Sp1 channel pore domain only F7IVA8 F7IVA8 3.5 X-RAY DIFFRACTION 76 1.0 89184 (Ruegeria pomeroyi) 89184 (Ruegeria pomeroyi) 130 134 GFITALPGMASVFLLMTIIFYIGAVIATKLFAASFPDWFGDLGLSAYTLFQIMTLDDIVRPVMQVYPYAWLFFVPFIMITTFAVVNLLVGLIVNSMQDAHHAEDGERTDAYRDEVLARLEQIDQRLNALG GFITALPGMASVFLLMTIIFYIGAVIATKLFAASFPDWFGDLGLSAYTLFQIMTLDDWSDGIVRPVMQVYPYAWLFFVPFIMITTFAVVNLLVGLIVNSMQDAHHAEDGERTDAYRDEVLARLEQIDQRLNALG 7pgm-a1-m1-cB_7pgm-a1-m1-cA HHIP-C in complex with heparin Q96QV1 Q96QV1 2.7 X-RAY DIFFRACTION 39 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 427 447 HNCFCIQEVVSGLRQPVGALHSGDGSQRLFILEKEGYVKILTPEGEIFKEPYLDIHKLVQSGIKGGDERGLLSLAFHPNYKKNGKLYVSYTTNQHDHILRVVEYTVSRKNPHQVDLRTARVFLEVAELHRKHLGGQLLFGPDGFLYIILGDGMITLDDMESDFTGSVLRLDVDTDMCNVPYSIPRSNPHFNSTNQPPEVFAHGLHDPGRCAVDRHININLTILCSDSNGKARILQIIKEFKPFSNGPLVGGFVYRGCQSERLYGSYVFGDRNGNFLTLQQSPVTKQWQEKPLCLGTSGSCRGYFSGHILGFGEDELGEVYILSSSKSMTQTHNGKLYKIVDPKRPLMPEECRATVQPAQTLTSECSRLCRNGYCTPTGKCCCSPGWEGDFCRTAKCEPACRHGGVCVRPNKCLCKKGYLGPQCEQVD HNCFCIQEVVSGLRQPVGALHSGDGSQRLFILEKEGYVKILTPEGEIFKEPYLDIHKLVQSGIKGGDERGLLSLAFHPNYKKNGKLYVSYTTNQEPHDHILRVVEYTVSRKNPHQVDLRTARVFLEVAELHRKHLGGQLLFGPDGFLYIILGDGMITLDDMEEMDGLSDFTGSVLRLDVDTDMCNVPYSIPRSNPHFNSTNQPPEVFAHGLHDPGRCAVDRHPININLTILCSDSNGSSARILQIIKGKDYESEPSLLEFKPFSNGPLVGGFVYRGCQSERLYGSYVFGDRNGNFLTLQQSPVTKQWQEKPLCLGTSGSCRGYFSGHILGFGEDELGEVYILSSSKSMTQTHNGKLYKIVDPKRPLMPEECRATVQPAQTLTSECSRLCRNGYCTPTGKCCCSPGWEGDFCRTAKCEPACRHGGVCVRPNKCLCKKGYLGPQCEQVD 7pgm-a1-m1-cC_7pgm-a1-m1-cA HHIP-C in complex with heparin Q96QV1 Q96QV1 2.7 X-RAY DIFFRACTION 64 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 429 447 KHNCFCIQEVVSGLRQPVGALHSGDGSQRLFILEKEGYVKILTPEGEIFKEPYLDIHKLVQSGIKGGDERGLLSLAFHPNYKKNGKLYVSYTTNQDHILRVVEYTVSRKNPHQVDLRTARVFLEVAELHRKHLGGQLLFGPDGFLYIILGDGMITLDDMEELSDFTGSVLRLDVDTDMCNVPYSIPRSNPHQPPEVFAHGLHDPGRCAVDRHPINLTILCSDSSARILQIIKGKDYESEPSLLEFKNGPLVGGFVYRGCQSERLYGSYVFGDRNGNFLTLQQSPVTKQWQEKPLCLGTSGSCRGYFSGHILGFGEDELGEVYILSSSKSMTQTHNGKLYKIVDPKRPLMPEECRATVQPAQTLTSECSRLCRNGYCTPTGKCCCSPGWEGDFCRTAKCEPACRHGGVCVRPNKCLCKKGYLGPQCEQVD HNCFCIQEVVSGLRQPVGALHSGDGSQRLFILEKEGYVKILTPEGEIFKEPYLDIHKLVQSGIKGGDERGLLSLAFHPNYKKNGKLYVSYTTNQEPHDHILRVVEYTVSRKNPHQVDLRTARVFLEVAELHRKHLGGQLLFGPDGFLYIILGDGMITLDDMEEMDGLSDFTGSVLRLDVDTDMCNVPYSIPRSNPHFNSTNQPPEVFAHGLHDPGRCAVDRHPININLTILCSDSNGSSARILQIIKGKDYESEPSLLEFKPFSNGPLVGGFVYRGCQSERLYGSYVFGDRNGNFLTLQQSPVTKQWQEKPLCLGTSGSCRGYFSGHILGFGEDELGEVYILSSSKSMTQTHNGKLYKIVDPKRPLMPEECRATVQPAQTLTSECSRLCRNGYCTPTGKCCCSPGWEGDFCRTAKCEPACRHGGVCVRPNKCLCKKGYLGPQCEQVD 7phq-a1-m1-cB_7phq-a1-m1-cD Structure of homo-dimeric Staphylococcus capitis divalent metal ion transporter (DMT) by NabFab-fiducial assisted cryo-EM A0A4U9TNH6 A0A4U9TNH6 8.45 ELECTRON MICROSCOPY 21 1.0 29388 (Staphylococcus capitis) 29388 (Staphylococcus capitis) 398 398 MSVAVGYMDPGNWITSMQGGAQYGYTLLFVILISSLAAMLLQSMTVRLGIATGKDLAQMTRHFLSKPVAIIFWIIAELAIIATDIAEVIGSAIALDLIFGIPLIVGALITVFDVFLLLFIMRFGFRKIEAIVGTLIFTVLAIFVFEVFISSPQLTDILNGFVPHKEIVTNQGILYIALGIIGATIMPHNLYLHSSIVQSRKYDRHDNQEKAQAIKYATIDSNLQLSIAFVVNCLLLTLGAALFFGTKTNDLGGFYDLYHALKTEPVLGATLGGIMSTLFAVALLASGQNSTITGTLAGQIVMEGFLRLSIPNWLRRLITRALAVIPVIICLIIFKGNSEKIEQLLVFSQVFLSIALPFSLIPLQLATSNKKLMGPFINKTWVNIISWTLIVILSGLNV MSVAVGYMDPGNWITSMQGGAQYGYTLLFVILISSLAAMLLQSMTVRLGIATGKDLAQMTRHFLSKPVAIIFWIIAELAIIATDIAEVIGSAIALDLIFGIPLIVGALITVFDVFLLLFIMRFGFRKIEAIVGTLIFTVLAIFVFEVFISSPQLTDILNGFVPHKEIVTNQGILYIALGIIGATIMPHNLYLHSSIVQSRKYDRHDNQEKAQAIKYATIDSNLQLSIAFVVNCLLLTLGAALFFGTKTNDLGGFYDLYHALKTEPVLGATLGGIMSTLFAVALLASGQNSTITGTLAGQIVMEGFLRLSIPNWLRRLITRALAVIPVIICLIIFKGNSEKIEQLLVFSQVFLSIALPFSLIPLQLATSNKKLMGPFINKTWVNIISWTLIVILSGLNV 7pik-a1-m1-cA_7pik-a1-m1-cB Cryo-EM structure of E. coli TnsB in complex with right end fragment of Tn7 transposon P13989 P13989 2.68 ELECTRON MICROSCOPY 54 1.0 562 (Escherichia coli) 562 (Escherichia coli) 151 541 MWQINEVVLFDNDPYRILAIEDGQVVWMQISADKGVPQARAELLLMQYLDEGRLVRTDDPYVHLDLEEPSVDSVSFQKREEDYRKILPIINSKDRFDPKVRSELVEHVVQEHKVTKATVYKLLRRYWQRGQTPNALIPDYKNSGAPGERRS MWQINEVVLFDNDPYRILAIEDGQVVWMQISADKGVPQARAELLLMQYLDEGRLVRTDDPYVHLDLEEPSVDSVSFQKREEDYRKILPIINSKDRFDPKVRSELVEHVVQEHKVTKATVYKLLRRYWQRGQTPNALIPDYKNSGAPGERRSATGTAKIGRAREGEGTKVTPEIERLFRLTIEKHLLNQKGTKTTVAYRRFVDLFAQYFPRIPQEDYPTLRQFRYFYDREYPKAALGPGSRYEIDATIADIYLVDHHDRQKIIGRPTLYIVIDVFSRMITGFYIGFENPSYVVAMQAFVNACSDKTAICAQHDIEISSSDWPCVGLPDVLLADRGELMSHQVEALVSSFNVRVESAPPRRGDAKGIVESTFRTLQAEFKSFAPGASLSVFEFTQIILRTILFRNNHLVMDKYDRDADFPTDLPSIPVQLWQWGMQHRTGSLRAVEQEQLRVALLPRRKVSISSFGVNLWGLYYSGSEILREGWPQHLEAAYDPVLVDTIYLFPQVGSRVFWRCNLTERSRQFKGLSFWEVWDIQAQEKHNKA 7pik-a1-m1-cD_7pik-a1-m1-cC Cryo-EM structure of E. coli TnsB in complex with right end fragment of Tn7 transposon P13989 P13989 2.68 ELECTRON MICROSCOPY 95 0.991 562 (Escherichia coli) 562 (Escherichia coli) 335 557 7pik-a1-m1-cA_7pik-a1-m1-cC ALGPGSRYEIDATIADIYLVDHHDRQKIIGRPTLYIVIDVFSRMITGFYIGFENPSYVVAMQAFVNACSDKTAICAQHDIEISSSDWPCVGLPDVLLADRGELMSHQVEALVSSFNVRVESAPPRRGDAKGIVESTFRTLQAEFKSFAPGIVASLSVFEFTQIILRTILFRNNHLVMDKYDRDADFPTDLPSIPVQLWQWGMQHRTGSLRAVEQEQLRVALLPRRKVSISSFGVNLWGLYYSGSEILRPQHLEAAYDPVLVDTIYLFPQVGSRVFWRCNLTERSRQFKGLSFWEVWDIQAQEKHNKANAKQDELTKRRELEAFIQQTIQKANKLT MWQINEVVLFDNDPYRILAIEDGQVVWMQISADKGVPQARAELLLMQYLDEGRLVRTDDPYVHLDLEEPSVDSVSFQKREEDYRKILPIINSKDRFDPKVRSELVEHVVQEHKVTKATVYKLLRRYWQRGQTPNALIPDYKNSGAPGERRGTKVTPEIERLFRLTIEKHLLNQKGTKTTVAYRRFVDLFAQYFPRIPQEDYPTLRQFRYFYDREYPKALGPGSRYEIDATIADIYLVDHHDRQKIIGRPTLYIVIDVFSRMITGFYIGFENPSYVVAMQAFVNACSDKTAICAQHDIEISSSDWPCVGLPDVLLADRGELMSHQVEALVSSFNVRVESAPPRRGDAKGIVESTFRTLQAEFKSFAPGIASLSVFEFTQIILRTILFRNNHLVMDKYDRDADFPTDLPSIPVQLWQWGMQHRTGSLRAVEQEQLRVALLPRRKVSISSFGVNLWGLYYSGSEILREGWLQRSTQHLEAAYDPVLVDTIYLFPQVGSRVFWRCNLTERSRQFKGLSFWEVWDIQAQEKHNKANAKQDELTKRRELEAFIQQTIQKANKL 7pin-a1-m1-cM_7pin-a1-m1-cm Stacked compact Dunaliella PSII 3.6 ELECTRON MICROSCOPY 40 1.0 3046 (Dunaliella salina) 3046 (Dunaliella salina) 31 31 7pi0-a1-m1-cM_7pi0-a1-m1-cm 7pin-a1-m1-cM1_7pin-a1-m1-cm1 7piw-a1-m1-cM1_7piw-a1-m1-cm1 7pnk-a1-m1-cM_7pnk-a1-m1-cm VNILGLTATALFIIIPTSFLLILYVKTAASE VNILGLTATALFIIIPTSFLLILYVKTAASE 7pkw-a1-m2-cA_7pkw-a1-m3-cA Crystal structure of VIRB8-like OrfG central and C-terminal domains of Streptococcus thermophilus ICESt3 (Gram positive conjugative type IV secretion system). Q70CA4 Q70CA4 1.835 X-RAY DIFFRACTION 144 1.0 1308 (Streptococcus thermophilus) 1308 (Streptococcus thermophilus) 240 240 7pkw-a1-m1-cA_7pkw-a1-m2-cA 7pkw-a1-m1-cA_7pkw-a1-m3-cA DANRKYDYKLQYYLNDYVYAYFTLPQEGDKQQAQVEHLNSFYNFVPDVKAQGQVRNPSTLLDSQLVTVEGKVATYKVKYKEMIQTEEKELVTGFNIPFDEKEGKYYVSGLPWFSAIESSQAGYFSEDDQLQLTANDHVSDSQHKKVEKFLKVFFTNYTTNQDNLNLIAKNVAIVANTTFKTIDYTYLKKDRADLIAYVQATFEVGGTTHSENFTFTLSEKDKSYYVTKLEHTIPLNYAND DANRKYDYKLQYYLNDYVYAYFTLPQEGDKQQAQVEHLNSFYNFVPDVKAQGQVRNPSTLLDSQLVTVEGKVATYKVKYKEMIQTEEKELVTGFNIPFDEKEGKYYVSGLPWFSAIESSQAGYFSEDDQLQLTANDHVSDSQHKKVEKFLKVFFTNYTTNQDNLNLIAKNVAIVANTTFKTIDYTYLKKDRADLIAYVQATFEVGGTTHSENFTFTLSEKDKSYYVTKLEHTIPLNYAND 7pl9-a1-m1-cD_7pl9-a1-m1-cE Cryo-EM structure of Bestrhodopsin (rhodopsin-rhodopsin-bestrophin) complex 3.21 ELECTRON MICROSCOPY 170 1.0 33656 (Phaeocystis) 33656 (Phaeocystis) 994 994 7pl9-a1-m1-cA_7pl9-a1-m1-cB 7pl9-a1-m1-cA_7pl9-a1-m1-cE 7pl9-a1-m1-cB_7pl9-a1-m1-cC 7pl9-a1-m1-cC_7pl9-a1-m1-cD SDLNFAQVARDEGRRCLLMCVAFAIAIAHLYIYPALFGVRIVDQAEVPAEERTYFHHGWTAMLVIFFIEGVTVFLKVCSTRKTRWLEKAVLQKLDGNIGVLIGEYIVVAATYIIMGANLIPVFERSGRRVYAVRYMEWTIDACGLVYLDCRILFGMPFSKFRMLLVYSVLYMLFGLWAALASTWMWYAIFLSASWFFFGLVCYYYWTFHRQNPSPLQQFGRAPIKQAILVFVIVWWVLYGVLFMLCFQAPDVVPQWLEQLLWTGMDVVMKLSHTVVLMAWRETQWEIDAVVDRQKVEAGRAIAQLDHQRAIHERDLVRLRSRVYYFARVNKIFMREAGLCLVLCLAFVVALLHLPVYSEWFGVEVLDAEAVPHDELGFFHHGWTTMLVVFLIESITVLLKVWSTWHDPRLAENVAQQLSGNLGVLIAEYLVVGATYVILGYNLMPVFVVHRPGVASRRVYAVRYMEWAVDATGLIWLDCHCLFSRNFNEFRMAIVWTVAYMLFGLWSALASTWAWYWAFLLASWAAFLIVCLILVRFLRQDPYPHQPFGKTSVKPCILAFIIGWWVLYGILFMVCFQAPDAVPQWLEQFLWTGMDVVMKLSHTVVLMAWRTTEWNVCELHGRNSTNWTATPGLRVDLSSMVRLEGQLAQGLVTDVHRKGMMRSEDLAELKRLEESGFLQAQQHRNWESQTREMTFLAHGINHIAYDPRSWMKTLTAVRGRAPTSFLLWVVLIESSIVLALSKFFGESFDLGVSSGIHSLFGVLVSFLVVFRTQAAFKKWWSGRSAVSSLVQMSRTFAQQVCAYVKDEAYVNRMVRYSIATVVATRCHLRNTRIDPAMLLGVLKEEEIEELNRQKNLPFYTAWVIRSTLAEAVAEGACLPLHMAIENAIKAIEQSIADAERLLTPMPFTYVVHVRTFLFIYLMGLPFILVEDLGWLMLVAVSFLGYLMIGLENTAVQLENPFGTDCNHHPLDLYCLEVSQDLLHLLDLRASAKAQ SDLNFAQVARDEGRRCLLMCVAFAIAIAHLYIYPALFGVRIVDQAEVPAEERTYFHHGWTAMLVIFFIEGVTVFLKVCSTRKTRWLEKAVLQKLDGNIGVLIGEYIVVAATYIIMGANLIPVFERSGRRVYAVRYMEWTIDACGLVYLDCRILFGMPFSKFRMLLVYSVLYMLFGLWAALASTWMWYAIFLSASWFFFGLVCYYYWTFHRQNPSPLQQFGRAPIKQAILVFVIVWWVLYGVLFMLCFQAPDVVPQWLEQLLWTGMDVVMKLSHTVVLMAWRETQWEIDAVVDRQKVEAGRAIAQLDHQRAIHERDLVRLRSRVYYFARVNKIFMREAGLCLVLCLAFVVALLHLPVYSEWFGVEVLDAEAVPHDELGFFHHGWTTMLVVFLIESITVLLKVWSTWHDPRLAENVAQQLSGNLGVLIAEYLVVGATYVILGYNLMPVFVVHRPGVASRRVYAVRYMEWAVDATGLIWLDCHCLFSRNFNEFRMAIVWTVAYMLFGLWSALASTWAWYWAFLLASWAAFLIVCLILVRFLRQDPYPHQPFGKTSVKPCILAFIIGWWVLYGILFMVCFQAPDAVPQWLEQFLWTGMDVVMKLSHTVVLMAWRTTEWNVCELHGRNSTNWTATPGLRVDLSSMVRLEGQLAQGLVTDVHRKGMMRSEDLAELKRLEESGFLQAQQHRNWESQTREMTFLAHGINHIAYDPRSWMKTLTAVRGRAPTSFLLWVVLIESSIVLALSKFFGESFDLGVSSGIHSLFGVLVSFLVVFRTQAAFKKWWSGRSAVSSLVQMSRTFAQQVCAYVKDEAYVNRMVRYSIATVVATRCHLRNTRIDPAMLLGVLKEEEIEELNRQKNLPFYTAWVIRSTLAEAVAEGACLPLHMAIENAIKAIEQSIADAERLLTPMPFTYVVHVRTFLFIYLMGLPFILVEDLGWLMLVAVSFLGYLMIGLENTAVQLENPFGTDCNHHPLDLYCLEVSQDLLHLLDLRASAKAQ 7ple-a1-m1-cD_7ple-a1-m1-cA ArsH of Paracoccus denitrificans A1B6S0 A1B6S0 2.6 X-RAY DIFFRACTION 22 0.986 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 220 222 7ple-a1-m1-cC_7ple-a1-m1-cB DLYDDDDKDHPFTMIPDSPGAVHQPPRILLLYGSLRERSYSRFATLEAERLLRHFGCETRVFHANGLPLPEDADPSHPKVQELRDLCLWSEGQVWTSPERHGAMTGVMKSQIDWIPLSMGAIRPTQGRTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSVARAYQEFDEAGRMRPSSYYDRIVDVMEELVKFTLATRDLSAFLTDRYSERKEAA RDLYDDDDKDHPFTMIPDLPGAVTHPPRILLLYGSLRERSYSRFATLEAERLLRHFGCETRVFHANGLPLPEDADPSHPKVQELRDLCLWSEGQVWTSPERHGAMTGVMKSQIDWIPLSMGAIRPTQGRTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSVARAYQEFDEAGRMRPSSYYDRIVDVMEELVKFTLATRDLSAFLTDRYSERKEAAA 7ple-a1-m1-cD_7ple-a1-m1-cB ArsH of Paracoccus denitrificans A1B6S0 A1B6S0 2.6 X-RAY DIFFRACTION 112 0.986 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 220 227 7ple-a1-m1-cA_7ple-a1-m1-cC DLYDDDDKDHPFTMIPDSPGAVHQPPRILLLYGSLRERSYSRFATLEAERLLRHFGCETRVFHANGLPLPEDADPSHPKVQELRDLCLWSEGQVWTSPERHGAMTGVMKSQIDWIPLSMGAIRPTQGRTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSVARAYQEFDEAGRMRPSSYYDRIVDVMEELVKFTLATRDLSAFLTDRYSERKEAA QQMGRDLYDDDDKDHPFTMIPDPGAVATHPPRILLLYGSLRERSYSRFATLEAERLLRHFGCETRVFHANGLPLPEDADPSHPKVQELRDLCLWSEGQVWTSPERHGAMTGVMKSQIDWIPLSMGAIRPTQGRTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSVARAYQEFDEAGRMRPSSYYDRIVDVMEELVKFTLATRDLSAFLTDRYSERKEAAAK 7ple-a1-m1-cD_7ple-a1-m1-cC ArsH of Paracoccus denitrificans A1B6S0 A1B6S0 2.6 X-RAY DIFFRACTION 125 0.991 318586 (Paracoccus denitrificans PD1222) 318586 (Paracoccus denitrificans PD1222) 220 223 7ple-a1-m1-cA_7ple-a1-m1-cB DLYDDDDKDHPFTMIPDSPGAVHQPPRILLLYGSLRERSYSRFATLEAERLLRHFGCETRVFHANGLPLPEDADPSHPKVQELRDLCLWSEGQVWTSPERHGAMTGVMKSQIDWIPLSMGAIRPTQGRTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSVARAYQEFDEAGRMRPSSYYDRIVDVMEELVKFTLATRDLSAFLTDRYSERKEAA MGRDLYDDDDKDHPFTMIPDLSPGAVPPRILLLYGSLRERSYSRFATLEAERLLRHFGCETRVFHANGLPLPEDADPSHPKVQELRDLCLWSEGQVWTSPERHGAMTGVMKSQIDWIPLSMGAIRPTQGRTLAVMQVSGGSQSFNAVNQMRVLGRWMRMLTIPNQSSVARAYQEFDEAGRMRPSSYYDRIVDVMEELVKFTLATRDLSAFLTDRYSERKEAAA 7pli-a3-m1-cI_7pli-a3-m1-cJ DEAD-box helicase DbpA bound to single stranded RNA and ADP/BeF3 P21693 P21693 2.5 X-RAY DIFFRACTION 19 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 451 453 7pli-a1-m1-cB_7pli-a1-m1-cA 7pli-a2-m1-cF_7pli-a2-m1-cE AFSTLNVLPPAQLTNLNELGYLTMTPVQAAALPAILAGKDVRVQAKTGSGKTAAFGLGLLQQIDASLFQTQALVLCPTRELADQVAGELRRLARFLPNTKILTLCGGQPFGMQRDSLQHAPHIIVATPGRLLDHLQKGTVSLDALNTLVMDEADRMLDMGFSDAIDDVIRFAPASRQTLLFSATWPEAIAAISGRVQRDPLAIEIDSTDALPPIEQQFYETSSKGKIPLLQRLLSLHQPSSCVVFCNTKKDCQAVCDALNEVGQSALSLHGDLEQRDRDQTLVRFANGSARVLVATDVAARGLDIKSLELVVNFELAWDPEVHVHRIGRTARAGNSGLAISFCAPEEAQRANIISDMLQIKLNWQTPSSIATLEAEMATLCIDGGKKAKMRPGDVLGALTGDIGLDGADIGKIAVHPAHVYVAVRQAVAHKAWKQLQGGKIKGKTCRVRLL TAFSTLNVLPPAQLTNLNELGYLTMTPVQAAALPAILAGKDVRVQAKTGSGKTAAFGLGLLQQIDASLFQTQALVLCPTRELADQVAGELRRLARFLPNTKILTLCGGQPFGMQRDSLQHAPHIIVATPGRLLDHLQKGTVSLDALNTLVMDEADRMLDMGFSDAIDDVIRFAPASRQTLLFSATWPEAIAAISGRVQRDPLAIEIDSTDALPPIEQQFYETSSKGKIPLLQRLLSLHQPSSCVVFCNTKKDCQAVCDALNEVGQSALSLHGDLEQRDRDQTLVRFANGSARVLVATDVAARGLDIKSLELVVNFELAWDPEVHVHRIGRTARAGNSGLAISFCAPEEAQRANIISDMLQIKLNWQTPPSSIATLEAEMATLCIDGGKKAKMRPGDVLGALTGDIGLDGADIGKIAVHPAHVYVAVRQAVAHKAWKQLQGGKIKGKTCRVRLL 7pm4-a1-m1-cA_7pm4-a1-m1-cD Cryo-EM structures of human fucosidase FucA1 reveal insight into substate recognition and catalysis. P04066 P04066 2.49 ELECTRON MICROSCOPY 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 431 431 7pls-a1-m1-cA_7pls-a1-m1-cD 7pls-a1-m1-cB_7pls-a1-m1-cC 7pm4-a1-m1-cB_7pm4-a1-m1-cC RYTPDWPSLDSRPLPAWFDEAKFGVFIHWGVFSVPAWGSEWFWWHWQGEGRPQYQRFMRDNYPPGFSYADFGPQFTARFFHPEEWADLFQAAGAKYVVLTTKHHEGFTNWPSPVSWNWNSKDVGPHRDLVGELGTALRKRNIRYGLYHSLLEWFHPLYLLDKKNGFKTQHFVSAKTMPELYDLVNSYKPDLIWSDGEWECPDTYWNSTNFLSWLYNDSPVKDEVVVNDRWGQNCSCHHGGYYNCEDKFKPQSLPDHKWEMCTSIDKFSWGYRRDMALSDVTEESEIISELVQTVSLGGNYLLNIGPTKDGLIVPIFQERLLAVGKWLSINGEAIYASKPWRVQWEKNTTSVWYTSKGSAVYAIFLHWPENGVLNLESPITTSTTKITMLGIQGDLKWSTDPDKGLFISLPQLPPSAVPAEFAWTIKLTGVK RYTPDWPSLDSRPLPAWFDEAKFGVFIHWGVFSVPAWGSEWFWWHWQGEGRPQYQRFMRDNYPPGFSYADFGPQFTARFFHPEEWADLFQAAGAKYVVLTTKHHEGFTNWPSPVSWNWNSKDVGPHRDLVGELGTALRKRNIRYGLYHSLLEWFHPLYLLDKKNGFKTQHFVSAKTMPELYDLVNSYKPDLIWSDGEWECPDTYWNSTNFLSWLYNDSPVKDEVVVNDRWGQNCSCHHGGYYNCEDKFKPQSLPDHKWEMCTSIDKFSWGYRRDMALSDVTEESEIISELVQTVSLGGNYLLNIGPTKDGLIVPIFQERLLAVGKWLSINGEAIYASKPWRVQWEKNTTSVWYTSKGSAVYAIFLHWPENGVLNLESPITTSTTKITMLGIQGDLKWSTDPDKGLFISLPQLPPSAVPAEFAWTIKLTGVK 7pm4-a1-m1-cB_7pm4-a1-m1-cD Cryo-EM structures of human fucosidase FucA1 reveal insight into substate recognition and catalysis. P04066 P04066 2.49 ELECTRON MICROSCOPY 71 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 431 431 7pls-a1-m1-cA_7pls-a1-m1-cC 7pls-a1-m1-cB_7pls-a1-m1-cD 7pm4-a1-m1-cA_7pm4-a1-m1-cC RYTPDWPSLDSRPLPAWFDEAKFGVFIHWGVFSVPAWGSEWFWWHWQGEGRPQYQRFMRDNYPPGFSYADFGPQFTARFFHPEEWADLFQAAGAKYVVLTTKHHEGFTNWPSPVSWNWNSKDVGPHRDLVGELGTALRKRNIRYGLYHSLLEWFHPLYLLDKKNGFKTQHFVSAKTMPELYDLVNSYKPDLIWSDGEWECPDTYWNSTNFLSWLYNDSPVKDEVVVNDRWGQNCSCHHGGYYNCEDKFKPQSLPDHKWEMCTSIDKFSWGYRRDMALSDVTEESEIISELVQTVSLGGNYLLNIGPTKDGLIVPIFQERLLAVGKWLSINGEAIYASKPWRVQWEKNTTSVWYTSKGSAVYAIFLHWPENGVLNLESPITTSTTKITMLGIQGDLKWSTDPDKGLFISLPQLPPSAVPAEFAWTIKLTGVK RYTPDWPSLDSRPLPAWFDEAKFGVFIHWGVFSVPAWGSEWFWWHWQGEGRPQYQRFMRDNYPPGFSYADFGPQFTARFFHPEEWADLFQAAGAKYVVLTTKHHEGFTNWPSPVSWNWNSKDVGPHRDLVGELGTALRKRNIRYGLYHSLLEWFHPLYLLDKKNGFKTQHFVSAKTMPELYDLVNSYKPDLIWSDGEWECPDTYWNSTNFLSWLYNDSPVKDEVVVNDRWGQNCSCHHGGYYNCEDKFKPQSLPDHKWEMCTSIDKFSWGYRRDMALSDVTEESEIISELVQTVSLGGNYLLNIGPTKDGLIVPIFQERLLAVGKWLSINGEAIYASKPWRVQWEKNTTSVWYTSKGSAVYAIFLHWPENGVLNLESPITTSTTKITMLGIQGDLKWSTDPDKGLFISLPQLPPSAVPAEFAWTIKLTGVK 7pmx-a1-m1-cB_7pmx-a1-m1-cA HsPepT1 bound to Ala-Phe in the outward facing open conformation P46059 3.5 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2 657 7pmw-a1-m1-cB_7pmw-a1-m1-cA AF YPLSIFFIVVNEFCERFSYYGMRAILILYFTNFISWDNLSTAIYHTFVALCYLTPILGALIADSWLGKFKTIVSLSIVYTIGQAVTSVSSINDLTDSLPVHVVLSLIGLALIALGTGGIKPCVSAFGGDQFEEGQEKQRNRFFSIFYLAINAGSLLSTIITPMLRVQQQACYPLAFGVPAALMAVALIVFVLGSGMYKKFKPQGNIMGKVAKCIGFAIKNRFRHRSKAFPKREHWLDWAKEKYDERLISQIKMVTRVMFLYIPLPMFWALFDQQGSRWTLQATTMSGKIGALEIQPDQMQTVNAILIVIMVPIFDAVLYPLIAKCGFNFTSLKKMAVGMVLASMAFVVAAIVQVEIDKTLPVFPKGNEVQIKVLNIGNNTMNISLPGEMVTLGPMSQTNAFMTFDVNKLTRINISSPGSPVTAVTDDFKQGQRHTLLVWAPNHYQVVKDGLNQKPEKGENGIRFVNTFNELITITMSGKVYANISSYNASTYQFFPSGIKGFTISSTEIPPQCQPNFNTFYLEFGSAYTYIVQRKNDSCPEVKVFEDISANTVNMALQIPQYFLLTCGEVVFSVTGLEFSYSQAPSNMKSVLQAGWLLTVAVGNIIVLIVAGAGQFSKQWAEYILFAALLLVVCVIFAIMARFYTYINPAEIEAQFD 7pmy-a1-m1-cB_7pmy-a1-m1-cA HsPepT2 bound to Ala-Phe in the inward facing partially occluded conformation Q16348 3.8 ELECTRON MICROSCOPY 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2 657 AF NYPLSIAFIVVNEFCERFSYYGMKAVLILYFLYFLHWNEDTSTSIYHAFSSLCYFTPILGAAIADSWLGKFKTIIYLSLVYVLGHVIKSLGALPILGGQVVHTVLSLIGLSLIALGTGGIKPCVAAFGGDQFEEKHAEERTRYFSVFYLSINAGSLISTFITPMLRGDVQCFGEDCYALAFGVPGLLMVIALVVFAMGSKIYNKPPPEGNIVAQVFKCIWFAISNRFKNRSGDIPKRQHWLDWAAEKYPKQLIMDVKALTRVLFLYIPLPMFWALLDQQGSRWTLQAIRMNRNLGFFVLQPDQMQVLNPLLVLIFIPLFDFVIYRLVSKCGINFSSLRKMAVGMILACLAFAVAAAVEIKINEMAPAQPGPQEVFLQVLNLADDEVKVTVVGNENNSLLIESIKSFQKTPHYSKLHLKTKSQDFHFHLKYHNLSLYTEHSVQEKNWYSLVIREDGNSISSMMVKDTESRTTNGMTTVRFVNTLHKDVNISLSTDTSLNVGEDYGVSAYRTVQRGEYPAVHCRTEDKNFSLNLGLLDFGAAYLFVITNNTNQGLQAWKIEDIPANKMSIAWQLPQYALVTAGEVMFSVTGLEFSYSQAPSSMKSVLQAAWLLTIAVGNIIVLVVAQFSGLVQWAEFILFSCLLLVICLIFSIMGYYYV 7po7-a3-m1-cE_7po7-a3-m1-cF Phosphoglycolate phosphatase from Mus musculus Q8CHP8 Q8CHP8 2.31 X-RAY DIFFRACTION 96 1.0 10090 (Mus musculus) 10090 (Mus musculus) 310 311 7po7-a1-m1-cA_7po7-a1-m1-cB 7po7-a2-m1-cC_7po7-a2-m1-cD 7poe-a1-m1-cA_7poe-a1-m1-cB ARCVRLSAERAKLLLAEVDTLLFNCDGVLWRGETAVPGAPETLRALRARGKRLGFITNNSSKTRTAYAEKLRRLGFGGPVGPEAGLEVFGTAYCSALYLRQRLAGVPDPKAYVLGSPALAAELEAVGVTSVGVGPDVLHGDGPSDWLAVPLEPDVRAVVVGFDPHFSYMKLTKAVRYLQQPDCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSRFIFDCVSQEYGINPERTVMVGDRLDTDILLGSTCSLKTILTLTGVSSLEDVKSNQESDSMFKKKMVPDFYVDSIADLLPALQ EARCVRLSAERAKLLLAEVDTLLFNCDGVLWRGETAVPGAPETLRALRARGKRLGFITNNSSKTRTAYAEKLRRLGFGGPVGPEAGLEVFGTAYCSALYLRQRLAGVPDPKAYVLGSPALAAELEAVGVTSVGVGPDVLHGDGPSDWLAVPLEPDVRAVVVGFDPHFSYMKLTKAVRYLQQPDCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSRFIFDCVSQEYGINPERTVMVGDRLDTDILLGSTCSLKTILTLTGVSSLEDVKSNQESDSMFKKKMVPDFYVDSIADLLPALQ 7po7-a4-m1-cG_7po7-a4-m1-cH Phosphoglycolate phosphatase from Mus musculus Q8CHP8 Q8CHP8 2.31 X-RAY DIFFRACTION 98 1.0 10090 (Mus musculus) 10090 (Mus musculus) 207 311 FITNNSSKTRTAYAEKLRRLLEVFGTAYCSALYLRQRLAGVPDPKAYVLGSPALAAELEAVGVTSVGVGPDVLHGDGPSDWLAVPLEPDVRAVVVGFDPHFSYMKLTKAVRYLQQPDCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSRFIFDCVSQEYGINPERDRLDTDILLGSTCSLKTILTKMVPDFYV ARCVRLSAERAKLLLAEVDTLLFNCDGVLWRGETAVPGAPETLRALRARGKRLGFITNNSSKTRTAYAEKLRRLGFGGPVGPEAGLEVFGTAYCSALYLRQRLAGVPDPKAYVLGSPALAAELEAVGVTSVGVGPDVLHGDGPSDWLAVPLEPDVRAVVVGFDPHFSYMKLTKAVRYLQQPDCLLVGTNMDNRLPLENGRFIAGTGCLVRAVEMAAQRQADIIGKPSRFIFDCVSQEYGINPERTVMVGDRLDTDILLGSTCSLKTILTLTGVSSLEDVKSNQESDSMFKKKMVPDFYVDSIADLLPALQG 7po9-a1-m1-cB_7po9-a1-m1-cA Crystal structure of ZAD-domain of M1BP protein from D.melanogaster Q9VHM3 Q9VHM3 1.9 X-RAY DIFFRACTION 89 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 84 88 STCRVCAKYASNKRSPKLFERSNTKMIDNIEALTGLRLENYGCLPDQICECCSMELASAVKLRERCIAAQRELLLGLTEEQRQG HLKSTCRVCAKYASNKRSPKLFERSNTKMIDNIEALTGLRLENYGCLPDQICECCSMELASAVKLRERCIAAQRELLLGLTEEQRQGI 7poc-a2-m1-cC_7poc-a2-m1-cB An Irreversible, Promiscuous and Highly Thermostable Claisen-Condensation Biocatalyst Drives the Synthesis of Substituted Pyrroles Q5SHZ8 Q5SHZ8 2.6 X-RAY DIFFRACTION 343 0.997 274 (Thermus thermophilus) 274 (Thermus thermophilus) 392 393 7poa-a1-m1-cB_7poa-a1-m1-cA 7pob-a1-m1-cA_7pob-a1-m1-cD 7pob-a2-m1-cB_7pob-a2-m1-cC 7poc-a1-m1-cA_7poc-a1-m1-cD DLRARVREELERLKREGLYISPKVLEAPQEPVTRVEGREVVNLASNNYLGFANHPYLKEKARQYLEKWGAGSGAVRTIAGTFTYHVELEEALARFKGTESALVLQSGFTANQGVLGALLKEGDVVFSDELNHASIIDGLRLTKATRLVFRHADVAHLEELLKAHDTDGLKLIVTDGVFSMDGDIAPLDKIVPLAKKYKAVVYVDDAHGSGVLGEKGKGTVHHFGFHQDPDVVQVATLSKAWAGIGGYAAGARELKDLLINKARPFLFSTSHPPAVVGALLGALELIEKEPERVERLWENTRYFKRELARLGYDTLGSQTPITPVLFGEAPLAFEASRLLLEEGVFAVGIGFPTVPRGKARIRNIVTAAHTKEMLDKALEAYEKVGKRLGIIR SLDLRARVREELERLKREGLYISPKVLEAPQEPVTRVEGREVVNLASNNYLGFANHPYLKEKARQYLEKWGAGSGAVRTIAGTFTYHVELEEALARFKGTESALVLQSGFTANQGVLGALLKEGDVVFSDELNHASIIDGLRLTKATRLVFRHADVAHLEELLKAHDTDGLKLIVTDGVFSMDGDIAPLDKIVPLAKKYKAVVYVDDAHGSGVLGEKGKGTVHHFGFHQDPDVVQVATLSKAWAGIGGYAAGARELKDLLINKARPFLFSTSHPPAVVGALLGALELIEKEPERVERLWENTRYFKRELARLGYDTLGSQTPITPVLFGEAPLAFEASRLLLEEGVFAVGIGFPTVPRGKARIRNIVTAAHTKEMLDKALEAYEKVGKRLGII 7poh-a1-m1-cA_7poh-a1-m1-cB Crystal structure of ZAD-domain of Serendipity-d protein from D.melanogaster P07664 P07664 2.85 X-RAY DIFFRACTION 60 0.989 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 88 92 PEFMDTCFFCGAVDLMRYETLSAKVPSSQKTVSLVLTHLANCIQTQLDLKPGARLCPRCFQELSDYDTIMVNLMTTQKRLTTQLKLDK PEFMDTCFFCGAVDLSDSSSMRYETLSAKVPSSQKTVSLVLTHLANCIQTQLDLKPGARLCPRCFQELSDYDTIMVNLMTTQKRLTTQLKLD 7pok-a1-m1-cD_7pok-a1-m1-cA Crystal structure of ZAD-domain of Pita protein from D.melanogaster Q95RQ8 Q95RQ8 1.8 X-RAY DIFFRACTION 93 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 90 98 KRVCRFCLTEQKLASIFEETTANLPLQIMAITAIEVYAGDGMPGHICLECRLLFEHCYRFKQMCKRAETLLRQYPLTGNWPSPLEKPRAP KRVCRFCLTEQKLASIFEENPRVKTTANLPLQIMAITAIEVYAGDGMPGHICLECRLLFEHCYRFKQMCKRAETLLRQYPLTGNWPSPLEKPRAPISS 7pok-a1-m1-cD_7pok-a1-m1-cB Crystal structure of ZAD-domain of Pita protein from D.melanogaster Q95RQ8 Q95RQ8 1.8 X-RAY DIFFRACTION 25 0.989 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 90 93 7pok-a1-m1-cC_7pok-a1-m1-cA KRVCRFCLTEQKLASIFEETTANLPLQIMAITAIEVYAGDGMPGHICLECRLLFEHCYRFKQMCKRAETLLRQYPLTGNWPSPLEKPRAP MLTEKRVCRFCLTEQKLASIFEETANLPLQIMAITAIEVYAGDGMPGHICLECRLLFEHCYRFKQMCKRAETLLRQYPLTGNWPSPLEKPRAP 7pol-a1-m1-cB_7pol-a1-m1-cA Crystal structure of profragilysin-3 (proBFT-3) from Bacteroides fragilis in complex with flumequine O86049 O86049 1.95 X-RAY DIFFRACTION 50 0.994 817 (Bacteroides fragilis) 817 (Bacteroides fragilis) 336 339 7pnd-a1-m1-cB_7pnd-a1-m1-cA 7poo-a1-m1-cB_7poo-a1-m1-cA 7poq-a1-m1-cA_7poq-a1-m1-cB 7pou-a1-m1-cA_7pou-a1-m1-cB TASIDLQSVSYTDLATQLNDVSDFGKMIILKDNGFNRQVHVSMDKRTKIQLDNENVRLFNGRDKDSTNFILGDEFAVLRFYRNGESISYIAYKEAQMMNEIAEFYAAPFKKTRAINEKEAFECIYDGKYPVSVKINVDKAKKILNLPECDYVPSEPKTVYVICLRENGSTVYPNEVSAQMQDAANSVYAVHGLKRYVNLHFVLYTTEYACPSGNADEGLDGFTASLKANPKAEGYDDQIYFLIRWGTWDNNILGISWLNSYNVNTASDFKASGMSTTQLMYPGVMAHELGHILGANHADDPKDLMYSKYTGYLFHLSEKNMDIIAKNLGWEIADGD VTASIDLQSVSYTDLATQLNDVSDFGKMIILKDNGFNRQVHVSMDKRTKIQLDNENVRLFNGRDKDSTNFILGDEFAVLRFYRNGESISYIAYKEAQMMNEIAEFYAAPFKKTRAINEKEAFECIYDSRKYPVSVKINVDKAKKILNLPECDYINPSEPKTVYVICLRENGSTVYPNEVSAQMQDAANSVYAVHGLKRYVNLHFVLYTTEYACPSGNADEGLDGFTASLKANPKAEGYDDQIYFLIRWGTWDNNILGISWLNSYNVNTASDFKASGMSTTQLMYPGVMAHELGHILGANHADDPKDLMYSKYTGYLFHLSEKNMDIIAKNLGWEIADGD 7pp7-a1-m1-cA_7pp7-a1-m2-cA Thunberia alata 16:0-ACP desaturase Q41510 Q41510 2.05 X-RAY DIFFRACTION 143 1.0 32198 (Thunbergia alata) 32198 (Thunbergia alata) 311 311 EKAEIFNSMHGWVEDTILPFLKPVEESWQPTDFLPDSTSDGFHEQVEELRKRTADLPDDYLVALVGAMVTEEALPTYQTMLNTTDVIYDESGASPVPWAVWTRAWTAEENRHGDIVNKYLYLSGRVDMKQIEKTIQYLIGSGDNNPYLAYIYTSYQERATAISHGSLGRLARQKGEMKLAQICGTISADEKRHEAAYSKIVEKLFELDPEGTMLALAYMMKMKIVMPDMFQHFSAVSQRLGIYTAKEYTDILEHMIARWGVDKLTGLSGEGRRAQDYVCGLPMRFRKVEERAQAWAENISHVPFSWIFGRR EKAEIFNSMHGWVEDTILPFLKPVEESWQPTDFLPDSTSDGFHEQVEELRKRTADLPDDYLVALVGAMVTEEALPTYQTMLNTTDVIYDESGASPVPWAVWTRAWTAEENRHGDIVNKYLYLSGRVDMKQIEKTIQYLIGSGDNNPYLAYIYTSYQERATAISHGSLGRLARQKGEMKLAQICGTISADEKRHEAAYSKIVEKLFELDPEGTMLALAYMMKMKIVMPDMFQHFSAVSQRLGIYTAKEYTDILEHMIARWGVDKLTGLSGEGRRAQDYVCGLPMRFRKVEERAQAWAENISHVPFSWIFGRR 7ppp-a1-m1-cB_7ppp-a1-m1-cA Crystal structure of ZAD-domain of ZNF_276 protein from rabbit. A0A5F9DAT3 A0A5F9DAT3 2.9 X-RAY DIFFRACTION 73 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 61 73 HCRLCHGKFSVFVRDFQRLLGVAVHQDPALSQFVCRNCHAQFYQCHSLLESFLQRVNVSPM HCRLCHGKFSSRSLRSISDGERVFVRDFQRLLGVAVHQDPALSQFVCRNCHAQFYQCHSLLESFLQRVNVSPM 7pps-a1-m1-cA_7pps-a1-m1-cB apo FabB from Pseudomonas aeruginosa with single point mutation C161A Q02K94 Q02K94 1.3 X-RAY DIFFRACTION 284 1.0 208963 (Pseudomonas aeruginosa UCBPP-PA14) 208963 (Pseudomonas aeruginosa UCBPP-PA14) 404 404 MRRVVITGLGIVSCLGNDKDTVSANLRAGRPGIRFNPSYAEMGLRSHVSGSVDLNLEELIDRKVFRFMGDAAAYAYLAMEQAIKDSGLTPEQISNPRTGLIAGSGGASTLNQMEAIDTLREKGVKRIGPYRVTRTMGSTVSACLATPFQIKGVNYSISSAAATSAHCIGQAMEQIQLGKQDVVFAGGGEEEHWSQSCLFDAMGALSTQYNETPEKASRAYDAKRDGFVIAGGGGMVVVEELEHALKRGAKIYAEIVGYGATSDGYDMVAPSGEGAIRCMQQALATVDAPIDYLNTHGTSTPVGDVAEIRGVREVFGDKAPAISSTKSLSGHSLGAAGVHEAIYCLLMMEGGFIAGSANIDELDPEVADLPILRETRENAKLDTVMSNSFGFGGTNATLVLKRWQ MRRVVITGLGIVSCLGNDKDTVSANLRAGRPGIRFNPSYAEMGLRSHVSGSVDLNLEELIDRKVFRFMGDAAAYAYLAMEQAIKDSGLTPEQISNPRTGLIAGSGGASTLNQMEAIDTLREKGVKRIGPYRVTRTMGSTVSACLATPFQIKGVNYSISSAAATSAHCIGQAMEQIQLGKQDVVFAGGGEEEHWSQSCLFDAMGALSTQYNETPEKASRAYDAKRDGFVIAGGGGMVVVEELEHALKRGAKIYAEIVGYGATSDGYDMVAPSGEGAIRCMQQALATVDAPIDYLNTHGTSTPVGDVAEIRGVREVFGDKAPAISSTKSLSGHSLGAAGVHEAIYCLLMMEGGFIAGSANIDELDPEVADLPILRETRENAKLDTVMSNSFGFGGTNATLVLKRWQ 7pq9-a6-m1-cJJJ_7pq9-a6-m3-cJJJ Crystal structure of Bacillus clausii pdxR at 2.8 Angstroms resolution 2.8 X-RAY DIFFRACTION 127 1.0 79880 (Alkalihalobacillus clausii) 79880 (Alkalihalobacillus clausii) 364 364 7pq9-a1-m1-cAAA_7pq9-a1-m1-cBBB 7pq9-a2-m1-cDDD_7pq9-a2-m1-cCCC 7pq9-a3-m1-cEEE_7pq9-a3-m1-cFFF 7pq9-a4-m1-cHHH_7pq9-a4-m1-cGGG 7pq9-a5-m1-cIII_7pq9-a5-m2-cIII TIRYNFHPTHIDTTSFPFEQWRKYFKQTMCKENHRLLLNGDHQGEASFRREIAYYLHHSRGVNCTPEQVVVGAGVETLLQQLFLLLGESKVYGIEDPGYQLMRKLLSHYPNDYVPFQVDEEGIDVDSIVRTAVDVVYTTPSRHFPYGSVLSINRRKQLLHWAEAHENRYIIEDDYDSEFRYTGKTIPSLQSMDVHNKVIYLGAFSKSLIPSVRISYMVLPAPLAHLYKNKFSYYHSTVSRIDQQVLTAFMKQGDFEKHLNRMRKIYRRKLEKVLSLLKRYEDKLLIIGERSGLHIVLVVKNGMDEQTLVEKALAAKAKVYPLSAYSLERAIHPPQIVLGFGSIPEDELEEAIATVLNAWGFLVP TIRYNFHPTHIDTTSFPFEQWRKYFKQTMCKENHRLLLNGDHQGEASFRREIAYYLHHSRGVNCTPEQVVVGAGVETLLQQLFLLLGESKVYGIEDPGYQLMRKLLSHYPNDYVPFQVDEEGIDVDSIVRTAVDVVYTTPSRHFPYGSVLSINRRKQLLHWAEAHENRYIIEDDYDSEFRYTGKTIPSLQSMDVHNKVIYLGAFSKSLIPSVRISYMVLPAPLAHLYKNKFSYYHSTVSRIDQQVLTAFMKQGDFEKHLNRMRKIYRRKLEKVLSLLKRYEDKLLIIGERSGLHIVLVVKNGMDEQTLVEKALAAKAKVYPLSAYSLERAIHPPQIVLGFGSIPEDELEEAIATVLNAWGFLVP 7pqa-a1-m1-cBBB_7pqa-a1-m1-cAAA Crystal Structure of the Ring Nuclease 0811 mutant-S12G/K169G from Sulfolobus islandicus (Sis0811) F0NH89 F0NH89 2.04 X-RAY DIFFRACTION 131 1.0 930945 (Sulfolobus islandicus REY15A) 930945 (Sulfolobus islandicus REY15A) 268 275 7pq2-a1-m1-cBBB_7pq2-a1-m1-cAAA 7pq3-a1-m1-cAAA_7pq3-a1-m1-cBBB 7pq6-a1-m1-cBBB_7pq6-a1-m1-cAAA MNKVHVSAVGTGLLKNSLSADNVKKEVEDLGLKDWDRLKFDDDRQNKIRDNFTTLKDLLLNFLKSKGKEASAELDSLLSAIEKLQHKKEELYVFLYTTNTWNSKLAGEVIKNYLEEEGIKSELATVKSISSEETFHEGIEDLFDKVIYKILKFKEEGKEVYINATAGLGPETTFLTLAGLLAGADLVYYKYQEFNDVVFLPSPPITISPRYLEWLIEFANYGYTLSEKKAEELGIPVRLLEVRNLVERKGEDAYRLKDWVRKMLGIYL MNKVHVSAVGTGLLKNSLSADNVKKEVEDLGLKDWDRLKFDDDRQNKIRDNFTTLKDLLLNFLKSKGKEASAELDSLLSAIEKLQHKKEELYVFLYTTNTWNSKLAGEVIKNYLEEEGIKSELATVKSISSEETFHEGIEDLFDKVIYKILKFKEEGKEVYINATAGLGPETTFLTLAGLLAGADLVYYKYQEFNDVVFLPSPPITISPRYLEWLIEFANYGYTLSEKKAEELGIPVRLLEVRNLVERKGEDAYRLKDWVRKMLGIYLGSEFELE 7pqh-a1-m1-cB_7pqh-a1-m1-cJ Cryo-EM structure of Saccharomyces cerevisiae TOROID (TORC1 Organized in Inhibited Domains). P38873 P38873 3.87 ELECTRON MICROSCOPY 18 0.999 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 1208 1213 7pqh-a1-m1-cA_7pqh-a1-m1-cG IFYFDDKRHKTNGNPIPEEDKQRDVNRYYQPITDWKIMKDRQKTVSAALLLCLNLGVDPPDVMKTHPCARVEAWVDPLNFQDSKKAIEQIGKNLQAQYETLSLRTRYKQSLDPCVEDVKRFCNSLRRTSKEDRILFHYNGHGVPKPTKSGEIWVFNRGYTQYIPVSLYDLQTWLGAPCIFVYDCNSAENILINFQKFVQKRIKDDEEGNHDVAAPSPTSAYQDCFQLASCTSDELLLMSPELPADLFSCCLTCPIEISIRIFLMQSPLKDSKYKSKIPNVNIPGMLSDRRTPLGELNWIFTAITDTIAWTSLPRPLFKKLFRHDLMIAALFRNFLLAKRIMPWYNCHPVSDPELPDSITTHPMWKSWDLAMDEVLTKIVIDLKNFTGFFEQNLTAFELWLKYASNVRHPPEQLPIVLQVLLSQVHRIRALVLLSRFLDLGPWAVYLSLSIGIFPYVLKLLQSPAPELKPILVFIWARIMSIDYKNTQSELIKEKGYMYFVTVLVPTTDEQKAMAVFVLASFVRNFPLGQKNCFSLELVNKLCFYIDNSEIPLLRQWCVILLGLLFADNPLNRFVCMNTGAVEILLKSLKDPVPEVRTASIFALKHFISGFQDAEVILRLQQEFEEQYQQLHSQLQHLQNQSHLQQQQSQQQQQHLEQQQMKIEKQIRHCQVMQNQLEVIDLRKLKRQEIGNLISILPLINDGSSLVRKELVVYFSHIVSRYSNFFIVVVFNDLLEEIKSQGSIFYTVWKSLLILAEDPFLENKELSKQVIDYILLELSAHKELGGPFAVMEKFLLKPMRTSLAKLFQSLGFSESSNTSMKSHTSKKGPSGHTEPLQLPLNSSFLDYSREYFQEPQMKKQEADEPGSVEYNARLWRRNRNETIIQETQGEKKLSIYGNWSKKLISLNNKSQPKLMKFAQFEDQLITADDRSTITVFDWEKGKTLSKFSNGTPFGTKVTDLKLINEDDSALLLTGSSDGVIKIYRDYQDVDTFKIVSAWRGLTDMLLTPRSTGLLTEWLQIRGSLLTTGDVKVIRVWDAHTETVEVDIPAKTSSLITSLTADQLAGNIFVAGFADGSLRVYDRRLDPRDSMIRRWRAGNDKQGVWINNVHLQRGGYRELVSGATNGVVELWDIRSEDPVESFVTMTCMQVHEHAPIIATGTKQIKIWTTSGDLLNSFKAFLSSMAFHPHRMMIAATNSHDSIVNIYKCED IFYFDDKRHKTNGNPIPEEDKQRDVNRYYQPITDWKIMKDRQKTVSAALLLCLNLGVDPPDVMKTHPCARVEAWVDPLNFQDSKKAIEQIGKNLQAQYETLSLRTRYKQSLDPCVEDVKRFCNSLRRTSKEDRILFHYNGHGVPKPTKSGEIWVFNRGYTQYIPVSLYDLQTWLGAPCIFVYDCNSAENILINFQKFVQKRIKDDEEGNHDVAAPSPTSAYQDCFQLASCTSDELLLMSPELPADLFSCCLTCPIEISIRIFLMQSPLKDSKYKSKIPNVNIPGMLSDRRTPLGELNWIFTAITDTIAWTSLPRPLFKKLFRHDLMIAALFRNFLLAKRIMPWYNCHPVSDPELPDSITTHPMWKSWDLAMDEVLTKIVIDLKNFTGFFEQNLTAFELWLKYASNVRHPPEQLPIVLQVLLSQVHRIRALVLLSRFLDLGPWAVYLSLSIGIFPYVLKLLQSPAPELKPILVFIWARIMSIDYKNTQSELIKEKGYMYFVTVLVPTTDEQKAMAVFVLASFVRNFPLGQKNCFSLELVNKLCFYIDNSEIPLLRQWCVILLGLLFADNPLNRFVCMNTGAVEILLKSLKDPVPEVRTASIFALKHFISGFQDAEVILRLQQEFEEQYQQLHSQLQHLQNQSHLQQQQSQQQQQHLEQQQMKIEKQIRHCQVMQNQLEVIDLRKLKRQEIGNLISILPLINDGSSLVRKELVVYFSHIVSRYSNFFIVVVFNDLLEEIKLLEQGSIFYTVWKSLLILAEDPFLENKELSKQVIDYILLELSAHKELGGPFAVMEKFLLKHPMRTSLAKLFQSLGFSESSNTSMKSHTSKKGPSGHTEPLQLPLNSSFLDYSREYFQEPQMKKQEADEPGSVEYNARLWRRNRNETIIQETQGEKKLSIYGNWSKKLISLNNKSQPKLMKFAQFEDQLITADDRSTITVFDWEKGKTLSKFSNGTPFGTKVTDLKLINEDDSALLLTGSSDGVIKIYRDYQDVDTFKIVSAWRGLTDMLLTPRSTGLLTEWLQIRGSLLTTGDVKVIRVWDAHTETVEVDIPAKTSSLITSLTADQLAGNIFVAGFADGSLRVYDRRLDPRDSMIRRWRAGNDKQGVWINNVHLQRGGYRELVSGATNGVVELWDIRSEDPVESFVTMTCMQVHEHAPIIATGTKQIKIWTTSGDLLNSFKNSAFLSSMAFHPHRMMIAATNSHDSIVNIYKCED 7pqh-a1-m1-cE_7pqh-a1-m1-cF Cryo-EM structure of Saccharomyces cerevisiae TOROID (TORC1 Organized in Inhibited Domains). P32600 P32600 3.87 ELECTRON MICROSCOPY 85 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 2238 2238 TLNLIFDKLKSDVPQERASGANELSTTLTSLAREVSAEQFQRFSNSLNNKIFELIHGFTSSEKIGGILAVDTLISFYLSTEELPNQTSRLANYLRVLIPSSDIEVMRLAANTLGRLTVPGGTLTSDFVEFEVRTCIDWLTLTADNNSSSSKLEYRRHAALLIIKALADNSPYLLYPYVNSILDNIWVPLRDAKLIIRLDAAVALGKCLTIIQDRDPALGKQWFQRLFQGCTHGLSLNTNDSVHATLLVFRELLSLKAPYLRDKYDDIYKSTMKYKEYKFDVIRREVYAILPLLAAFDPAIFTKKYLDRIMVHYLRYLKNIDMNAANNSDKPFILVSIGDIAFEVGSSISPYMTLILDNIREGLRTKFKVRKQFEKDLFYCIGKLACALGPAFAKHLNKDLLNLMLNCPMSDHMQETLMILNEKIPSLESTVNSRILNLLSISLSGEKFIQSNQQFSIEKARKSRNQSFMKKTITDAQILIQCFKMLQLIHHQYSLTEFVRLITISYIEHEDSSVRKLAALTSCDLFIKDDICKQTSVHALHSVSEVLSKLLMIAITDPVAEIRLEILQHLGSNFDPQLAQPDNLRLLFMALNDEIFGIQLEAIKIIGRLSSVNPAYVVPSLRKTLLELLTQLKFSNMPKKKEESATLLCTLINSSDEVAKPYIDPILDVILPKCQDASSAVASTALKVLGELSVVGGKEMTRYLKELMPLIINTFQDQSNSFKRDAALTTLGQLAASSGYVVGPLLDYPELLGILINILKTENNPHIRRGTVRLIGILGALDPYKHREDIALLMQGVSPSNDEYYPTVVIHNLMKILNDPSLSIHHTAAIQAIMHIFQNLGLRCVSFLDQIIPGIILVMRSCPPSQLDFYFQQLGSLISIVKQHIRPHVEKIYGVIREFFPIIKLQITIISVIESISKALEGEFKRFVPETLTFFLDILENDQSNKRIVPIRILKSLVTFGPNLEDYSHLIMPIVVRMTEYSAGSLKKISIITLGRLAKNINLSEMSSRIVQALVRILNNGDRELTKATMNTLSLLLLQLGTDFVVFVPVINKALLRNRIQHSVYDQLVNKLLNNECLPKLPVNQNILKNAWYCSQQKTKEDWQEWIRRLSIQLLKESPSACLRSCSSLVSVYYPLARELFNASFSSCWVELQTSYQEDLIQALCKALSSSENPPEIYQMLLNLVEFMEHDDKPLPIPIHTLGKYAQKCHAFAKALHYKEVEFLEEPKNSTIEALISINNQLHQTDSAIGILKHAQQHNELQLKETWYEKLQRWEDALAAYNEKEAAGEDSVEVMMGKLRSLYALGEWEELSKLASEKWGTAKPEVKKAMAPLAAGAAWGLEQWDEIAQYTSVMKSQSPDKEFYDAILCLHRNNFKKAEVHIFNARDLLVTELSALVNESYNRAYNVVVRAQIIAELEEIIKYKKLPQNSDKRLTMRETWNTRLLGCQKNIDVWQRILRVRSLVIKPKEDAQVRIKFANLCRKSGRMALAKKVLNTLLEAKASPPVVYAQLKYLWATGLQDEALKQLINFTSRMAHDLGLDVPRHVEDYTKLLARCFLKQGEWRVCLQPKWRLSNPDSILGSYLLATHFDNTWYKAWHNWALANFEVISMLTSVSSNLIHRHVIPAIKGFFHSISLSESSSLQDALRLLTLWFTFGGIPEATQAMHEGFNLIQIGTWLEVLPQLISRIHQPNQIVSRSLLSLLSDLGKAHPQALVYPLMVAIKSESLSRQKAALSIIEKMRIHSPVLVDQAELVSHELIRMAVLWHEQWYEGLDDASRQFFGEHNTEKMFAALEPLYEMLKRGPETLREISFQNSFGRDLNDAYEWLMNYKKSKDVSNLNQAWDIYYNVFRKIGKQLPQLQTLELQHVSPKLLSAHDLELAVPGTRASGGKPIVKISKFEPVFSVISSKQRPRKFCIKGSDGKDYKYVLKGHEDIRQDSLVMQLFGLVNTLLQNDAECFRRHLDIQQYPAIPLSPKSGLLGWVPNSDTFHVLIREHREAKKIPLNIEHWVMLQMAPDYDNLTLLQKVEVFTYALNNTEGQDLYKVLWLKSRSSETWLERRTTYTRSLAVMSMTGYILGLGDRHPSNLMLDRITGKVIHIDFGDCFEAAILREKFPEKVPFRLTRMLTYAMEVSGIEGSFRITCENVMKVLRDNKGSLMAILEAFAFDPLINWGFDLHKNAIRNARAMLVLKRITDKLTGNDIRRFNDLDVPEQVDKLIQQATSVENLCQHYIGWCPFW TLNLIFDKLKSDVPQERASGANELSTTLTSLAREVSAEQFQRFSNSLNNKIFELIHGFTSSEKIGGILAVDTLISFYLSTEELPNQTSRLANYLRVLIPSSDIEVMRLAANTLGRLTVPGGTLTSDFVEFEVRTCIDWLTLTADNNSSSSKLEYRRHAALLIIKALADNSPYLLYPYVNSILDNIWVPLRDAKLIIRLDAAVALGKCLTIIQDRDPALGKQWFQRLFQGCTHGLSLNTNDSVHATLLVFRELLSLKAPYLRDKYDDIYKSTMKYKEYKFDVIRREVYAILPLLAAFDPAIFTKKYLDRIMVHYLRYLKNIDMNAANNSDKPFILVSIGDIAFEVGSSISPYMTLILDNIREGLRTKFKVRKQFEKDLFYCIGKLACALGPAFAKHLNKDLLNLMLNCPMSDHMQETLMILNEKIPSLESTVNSRILNLLSISLSGEKFIQSNQQFSIEKARKSRNQSFMKKTITDAQILIQCFKMLQLIHHQYSLTEFVRLITISYIEHEDSSVRKLAALTSCDLFIKDDICKQTSVHALHSVSEVLSKLLMIAITDPVAEIRLEILQHLGSNFDPQLAQPDNLRLLFMALNDEIFGIQLEAIKIIGRLSSVNPAYVVPSLRKTLLELLTQLKFSNMPKKKEESATLLCTLINSSDEVAKPYIDPILDVILPKCQDASSAVASTALKVLGELSVVGGKEMTRYLKELMPLIINTFQDQSNSFKRDAALTTLGQLAASSGYVVGPLLDYPELLGILINILKTENNPHIRRGTVRLIGILGALDPYKHREDIALLMQGVSPSNDEYYPTVVIHNLMKILNDPSLSIHHTAAIQAIMHIFQNLGLRCVSFLDQIIPGIILVMRSCPPSQLDFYFQQLGSLISIVKQHIRPHVEKIYGVIREFFPIIKLQITIISVIESISKALEGEFKRFVPETLTFFLDILENDQSNKRIVPIRILKSLVTFGPNLEDYSHLIMPIVVRMTEYSAGSLKKISIITLGRLAKNINLSEMSSRIVQALVRILNNGDRELTKATMNTLSLLLLQLGTDFVVFVPVINKALLRNRIQHSVYDQLVNKLLNNECLPKLPVNQNILKNAWYCSQQKTKEDWQEWIRRLSIQLLKESPSACLRSCSSLVSVYYPLARELFNASFSSCWVELQTSYQEDLIQALCKALSSSENPPEIYQMLLNLVEFMEHDDKPLPIPIHTLGKYAQKCHAFAKALHYKEVEFLEEPKNSTIEALISINNQLHQTDSAIGILKHAQQHNELQLKETWYEKLQRWEDALAAYNEKEAAGEDSVEVMMGKLRSLYALGEWEELSKLASEKWGTAKPEVKKAMAPLAAGAAWGLEQWDEIAQYTSVMKSQSPDKEFYDAILCLHRNNFKKAEVHIFNARDLLVTELSALVNESYNRAYNVVVRAQIIAELEEIIKYKKLPQNSDKRLTMRETWNTRLLGCQKNIDVWQRILRVRSLVIKPKEDAQVRIKFANLCRKSGRMALAKKVLNTLLEAKASPPVVYAQLKYLWATGLQDEALKQLINFTSRMAHDLGLDVPRHVEDYTKLLARCFLKQGEWRVCLQPKWRLSNPDSILGSYLLATHFDNTWYKAWHNWALANFEVISMLTSVSSNLIHRHVIPAIKGFFHSISLSESSSLQDALRLLTLWFTFGGIPEATQAMHEGFNLIQIGTWLEVLPQLISRIHQPNQIVSRSLLSLLSDLGKAHPQALVYPLMVAIKSESLSRQKAALSIIEKMRIHSPVLVDQAELVSHELIRMAVLWHEQWYEGLDDASRQFFGEHNTEKMFAALEPLYEMLKRGPETLREISFQNSFGRDLNDAYEWLMNYKKSKDVSNLNQAWDIYYNVFRKIGKQLPQLQTLELQHVSPKLLSAHDLELAVPGTRASGGKPIVKISKFEPVFSVISSKQRPRKFCIKGSDGKDYKYVLKGHEDIRQDSLVMQLFGLVNTLLQNDAECFRRHLDIQQYPAIPLSPKSGLLGWVPNSDTFHVLIREHREAKKIPLNIEHWVMLQMAPDYDNLTLLQKVEVFTYALNNTEGQDLYKVLWLKSRSSETWLERRTTYTRSLAVMSMTGYILGLGDRHPSNLMLDRITGKVIHIDFGDCFEAAILREKFPEKVPFRLTRMLTYAMEVSGIEGSFRITCENVMKVLRDNKGSLMAILEAFAFDPLINWGFDLHKNAIRNARAMLVLKRITDKLTGNDIRRFNDLDVPEQVDKLIQQATSVENLCQHYIGWCPFW 7pqu-a1-m1-cC_7pqu-a1-m1-cD Ligand-bound human Kv3.1 cryo-EM structure (Lu AG00563) P48547 P48547 3.03 ELECTRON MICROSCOPY 142 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 328 328 7pqt-a1-m1-cA_7pqt-a1-m1-cB 7pqt-a1-m1-cA_7pqt-a1-m1-cD 7pqt-a1-m1-cB_7pqt-a1-m1-cC 7pqt-a1-m1-cC_7pqt-a1-m1-cD 7pqu-a1-m1-cA_7pqu-a1-m1-cB 7pqu-a1-m1-cA_7pqu-a1-m1-cD 7pqu-a1-m1-cB_7pqu-a1-m1-cC SERIVINVGGTRHQTYRSTLRTLPGTRLAWLAEPDAHSHFDYDPRADEFFFDRHPGVFAHILNYYRTGKLHCPADVCGPLYEEELAFWGIDETDVEPCCWMTYRQHRDAEEALYARYVAFASLFFILVSITTFCLETHERFNPETEAFLTYIEGVCVVWFTFEFLMRVIFCPNKIIDFVAILPFYLEVGLRVVRFVRILRIFKLTRHFVGLRVLGHTLRASTNEFLLLIIFLALGVLIFATMIYYAERIGASASEHTHFKNIPIGFWWAVVTMTTLGYGDMYPQTWSGMLVGALCALAGVLTIAMPVPVIVNNFGMYYSLAMAKQKLP SERIVINVGGTRHQTYRSTLRTLPGTRLAWLAEPDAHSHFDYDPRADEFFFDRHPGVFAHILNYYRTGKLHCPADVCGPLYEEELAFWGIDETDVEPCCWMTYRQHRDAEEALYARYVAFASLFFILVSITTFCLETHERFNPETEAFLTYIEGVCVVWFTFEFLMRVIFCPNKIIDFVAILPFYLEVGLRVVRFVRILRIFKLTRHFVGLRVLGHTLRASTNEFLLLIIFLALGVLIFATMIYYAERIGASASEHTHFKNIPIGFWWAVVTMTTLGYGDMYPQTWSGMLVGALCALAGVLTIAMPVPVIVNNFGMYYSLAMAKQKLP 7pr1-a1-m1-cA_7pr1-a1-m1-cB Structure of CtAtm1 in the occluded conformation with ATP bound G0SBE6 G0SBE6 2.81 ELECTRON MICROSCOPY 485 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 587 587 ADWAIIKQMSRYLWPKDSWSDKARVLLALSLLVGGKVLNVHVPFYFREIIDRLNIDVAAVGGTVSAVAGAVIFAYGASRIGAVVSQELRNAVFSSVAQKAIRRVATQTFGHLLNLDLSFHLSKQTGGLTRAIDRGTKGISYLLTSMVFHIVPTALEIGMVCGILTYQFGWEFAAITAATMAAYTAFTITTTAWRTKFRRQANAADNAASTVAVDSLINYEAVKYFNNEAYEIARYDKALQAYERSSIKVATSLAFLNSGQNIIFSSALTLMMWLGARGVLAGDLSVGDLVLINQLVFQLSVPLNFLGSVYRELRQSLLDMETLFDLQKVNVTIREAPNAKPLALPKGGEIRFENVTFGYYPDRPILRNLSLTIPAGKKVAVVGPSGCGKSTLLRLLFRSYDPQQGKIFIDDQDIKSVTLESLRKSIGVVPQDTPLFNDTVELNIRYGNVNATQEQVIAAAQKAHIHEKIISWPHGYQTRVGERGLMISGGEKQRLAVSRLILKDPPLLFFDQATSALDTHTEQALMANINEVVKEKKRTALFVAHRLRTIYDADLIIVLKEGVVVEQGSHRELMERDGVYAELWMAQ ADWAIIKQMSRYLWPKDSWSDKARVLLALSLLVGGKVLNVHVPFYFREIIDRLNIDVAAVGGTVSAVAGAVIFAYGASRIGAVVSQELRNAVFSSVAQKAIRRVATQTFGHLLNLDLSFHLSKQTGGLTRAIDRGTKGISYLLTSMVFHIVPTALEIGMVCGILTYQFGWEFAAITAATMAAYTAFTITTTAWRTKFRRQANAADNAASTVAVDSLINYEAVKYFNNEAYEIARYDKALQAYERSSIKVATSLAFLNSGQNIIFSSALTLMMWLGARGVLAGDLSVGDLVLINQLVFQLSVPLNFLGSVYRELRQSLLDMETLFDLQKVNVTIREAPNAKPLALPKGGEIRFENVTFGYYPDRPILRNLSLTIPAGKKVAVVGPSGCGKSTLLRLLFRSYDPQQGKIFIDDQDIKSVTLESLRKSIGVVPQDTPLFNDTVELNIRYGNVNATQEQVIAAAQKAHIHEKIISWPHGYQTRVGERGLMISGGEKQRLAVSRLILKDPPLLFFDQATSALDTHTEQALMANINEVVKEKKRTALFVAHRLRTIYDADLIIVLKEGVVVEQGSHRELMERDGVYAELWMAQ 7prb-a1-m1-cA_7prb-a1-m1-cB Crystal structure of Burkholderia pseudomallei heparanase in complex with covalent inhibitor GR109 Q63T97 Q63T97 1.31 X-RAY DIFFRACTION 85 1.0 272560 (Burkholderia pseudomallei K96243) 272560 (Burkholderia pseudomallei K96243) 437 438 5bwi-a1-m1-cB_5bwi-a1-m1-cA SSSANVAMTLPADAPRIARDFAGLSIEKAALSYPLLSGENGNMVGLFNRLGAGVLRIGGNSSDASGWQRTGPDETSGVITPAAVDRLASFVQACRWRVIYGLNFVGNDPATIADEAAYAAQALGVQLAGFEIGNEPDLYAQHGLAPNANTYPGFVSRWTTFANAIRAAVPDAVFTGPATAWNYQRYTVPFASDAAGLVSLLTQHHYRNPDSATIEAMLSPDPSLAPMLQALQGAASARGIGFRLAETNSYWGGGKPGVSDAHASALWVINFLFAVAQGGASGVNLHTGGGASYSAIKTNKTAGTVAAIGPEYYGIYLFNQAAGGRLMQTRVDSAGTTLFAHAVAADGGGVRLILVNTDANSGYDVAVDCSSVPNARAGIVTTLGGPSLGSLTGTQIDGATFALDGSGAPQGGRPVACVNGVLGVHVASASALLVDFA PSSSANVAMTLPADAPRIARDFAGLSIEKAALSYPLLSGENGNMVGLFNRLGAGVLRIGGNSSDASGWQRTGPDETSGVITPAAVDRLASFVQACRWRVIYGLNFVGNDPATIADEAAYAAQALGVQLAGFEIGNEPDLYAQHGLAPNANTYPGFVSRWTTFANAIRAAVPDAVFTGPATAWNYQRYTVPFASDAAGLVSLLTQHHYRNPDSATIEAMLSPDPSLAPMLQALQGAASARGIGFRLAETNSYWGGGKPGVSDAHASALWVINFLFAVAQGGASGVNLHTGGGASYSAIKTNKTAGTVAAIGPEYYGIYLFNQAAGGRLMQTRVDSAGTTLFAHAVAADGGGVRLILVNTDANSGYDVAVDCSSVPNARAGIVTTLGGPSLGSLTGTQIDGATFALDGSGAPQGGRPVACVNGVLGVHVASASALLVDFA 7prk-a1-m1-cA_7prk-a1-m2-cA Factor XII Fibronectin type II (FXII FnII) domain P00748 P00748 1.64 X-RAY DIFFRACTION 24 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 54 54 TVVLTVTGEPCHFPFQYHRQLYHKCTHKGRPGPQPWCATTPNFDQDQRWGYCLE TVVLTVTGEPCHFPFQYHRQLYHKCTHKGRPGPQPWCATTPNFDQDQRWGYCLE 7prr-a1-m1-cA_7prr-a1-m1-cB Structure of the ligand binding domain of the PctD (PA4633) chemoreceptor of Pseudomonas aeruginosa PAO1 in complex with acetylcholine Q9HVF8 Q9HVF8 1.8 X-RAY DIFFRACTION 129 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 304 316 7prq-a1-m1-cA_7prq-a1-m1-cB GLLEKVINERLVALARAQVSQIQRELEYPLTVVHGLANSTRLLGEPGADGMPQLNASRDEISALLRSTVQNNPKLLDTFMAWEPNAFDTDAAFAGQPGKGYGPDGRYLPWWYRGADGKPIVEAMADSIDSEKLLPTGVRENEFYACPKENKRPCIIDPAPYEMGGKTVMMSSFNVPIMVGDQFRGAVGADLSLAFIQDLLKRADQQLYDGAGEMALIASNGRLVAYTRDDSKLGEPAGSVLDGNEVDNLKNLTVDQPLYDIDAEHGHIELFLPFTIADSGVRWTLMLQIPQAAVFGELQQLQGE ELVQQRTQGLLEKVINERLVALARAQVSQIQRELEYPLTVVHGLANSTRLLGEPGADGMPQLNASRDEISALLRSTVQNNPKLLDTFMAWEPNAFDTDAAFAGQPGKGYGPDGRYLPWWYRGADGKPIVEAMADSIDSEKLLPTGVRENEFYACPKENKRPCIIDPAPYEMGGKTVMMSSFNVPIMVGDQFRGAVGADLSLAFIQDLLKRADQQLYDGAGEMALIASNGRLVAYTRDDSKLGEPAGSVLDGNEVDNLKNLTVDQPLYDIDAEHGHIELFLPFTIADSGVRWTLMLQIPQAAVFGELQQLQGELSDQ 7psd-a1-m1-cA_7psd-a1-m1-cB Structure of CtAtm1(E603Q) in the inward-facing open conformation G0SBE6 G0SBE6 3.0 ELECTRON MICROSCOPY 344 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 580 580 7pqx-a1-m1-cA_7pqx-a1-m1-cB 7pro-a1-m1-cA_7pro-a1-m1-cB 7pru-a1-m1-cA_7pru-a1-m1-cB AIIKQMSRYLWPKDSWSDKARVLLALSLLVGGKVLNVHVPFYFREIIDRLNIDVAAVGGTVSAVAGAVIFAYGASRIGAVVSQELRNAVFSSVAQKAIRRVATQTFGHLLNLDLSFHLSKQTGGLTRAIDRGTKGISYLLTSMVFHIVPTALEIGMVCGILTYQFGWEFAAITAATMAAYTAFTITTTAWRTKFRRQANAADNAASTVAVDSLINYEAVKYFNNEAYEIARYDKALQAYERSSIKVATSLAFLNSGQNIIFSSALTLMMWLGARGVLAGDLSVGDLVLINQLVFQLSVPLNFLGSVYRELRQSLLDMETLFDLQKVNVTIREAPNAKPLALPKGGEIRFENVTFGYYPDRPILRNLSLTIPAGKKVAVVGPSGCGKSTLLRLLFRSYDPQQGKIFIDDQDIKSVTLESLRKSIGVVPQDTPLFNDTVELNIRYGNVNATQEQVIAAAQKAHIHEKIISWPHGYQTRVGERGLMISGGEKQRLAVSRLILKDPPLLFFDQATSALDTHTEQALMANINEVVKEKKRTALFVAHRLRTIYDADLIIVLKEGVVVEQGSHRELMERDGVYAEL AIIKQMSRYLWPKDSWSDKARVLLALSLLVGGKVLNVHVPFYFREIIDRLNIDVAAVGGTVSAVAGAVIFAYGASRIGAVVSQELRNAVFSSVAQKAIRRVATQTFGHLLNLDLSFHLSKQTGGLTRAIDRGTKGISYLLTSMVFHIVPTALEIGMVCGILTYQFGWEFAAITAATMAAYTAFTITTTAWRTKFRRQANAADNAASTVAVDSLINYEAVKYFNNEAYEIARYDKALQAYERSSIKVATSLAFLNSGQNIIFSSALTLMMWLGARGVLAGDLSVGDLVLINQLVFQLSVPLNFLGSVYRELRQSLLDMETLFDLQKVNVTIREAPNAKPLALPKGGEIRFENVTFGYYPDRPILRNLSLTIPAGKKVAVVGPSGCGKSTLLRLLFRSYDPQQGKIFIDDQDIKSVTLESLRKSIGVVPQDTPLFNDTVELNIRYGNVNATQEQVIAAAQKAHIHEKIISWPHGYQTRVGERGLMISGGEKQRLAVSRLILKDPPLLFFDQATSALDTHTEQALMANINEVVKEKKRTALFVAHRLRTIYDADLIIVLKEGVVVEQGSHRELMERDGVYAEL 7psg-a2-m1-cD_7psg-a2-m1-cC Structure of the ligand binding domain of the PacA (ECA2226) chemoreceptor of Pectobacterium atrosepticum SCRI1043 in complex with betaine. Q6D515 Q6D515 1.91 X-RAY DIFFRACTION 113 1.0 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 267 270 7psg-a1-m1-cB_7psg-a1-m1-cA SLAERYLQQIAQSEALRIQQELNYARDVAHNLGQGLAALPSAGIKDRAVVDKMMEYALRDNPEYLSISVIFEENVFDGRDAEFADQPGQAPKGRYAWFVDRDQAGNYAMHPLLSYLTPGQGDYYLLPQKSQKDTLIEPYTYAYNGVPTLLTSVAAPIVSQGKLWGVVTSDISLASLQQKINQIKPWEGGGYAMLLSSAGKVISYPDKSQTSKAWQGPTDNFTSSVVQHDDAILGEQALVTWQPVTIGNSTEKWYLGIVVPVSQVMAA SLAERYLQQIAQSEALRIQQELNYARDVAHNLGQGLAALPSAGIKDRAVVDKMMEYALRDNPEYLSISVIFEENVFDGRDAEFADQPGQAPKGRYAWFVDRDQAGNYAMHPLLSYLTPGQGDYYLLPQKSQKDTLIEPYTYAYNGVPTLLTSVAAPIVSQGKLWGVVTSDISLASLQQKINQIKPWEGGGYAMLLSSAGKVISYPDKSQTSKAWQGPTDNFTSSVVQHDDAILGEQALVTWQPVTIGNSTEKWYLGIVVPVSQVMAASER 7psn-a1-m1-cA_7psn-a1-m1-cB S. cerevisiae Atm1 in MSP1E3D1 nanodiscs with bound AMP-PNP and Mg2+ P40416 P40416 2.9 ELECTRON MICROSCOPY 480 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 585 585 7psm-a1-m1-cA_7psm-a1-m1-cB LKDLFRYIWPKGNNKVRIRVLIALGLLISAKILNVQVPFFFKQTIDSMNIAWDDPTVALPAAIGLTILCYGVARFGSVLFGELRNAVFAKVAQNAIRTVSLQTFQHLMKLDLGWHLSRQTGGLTRAMDRGTKGISQVLTAMVFHIIPISFEISVVCGILTYQFGASFAAITFSTMLLYSIFTIKTTAWRTHFRRDANKADNKAASVALDSLINFEAVKYFNNEKYLADKYNGSLMNYRDSQIKVSQSLAFLNSGQNLIFTTALTAMMYMGCTGVIGGNLTVGDLVLINQLVFQLSVPLNFLGSVYRDLKQSLIDMETLFKLRKNEVKIKNAERPLMLPENVPYDITFENVTFGYHPDRKILKNASFTIPAGWKTAIVGSSGSGKSTILKLVFRFYDPESGRILINGRDIKEYDIDALRKVIGVVPQDTPLFNDTIWENVKFGRIDATDEEVITVVEKAQLAPLIKKLPQGFDTIVGERGLMISGGEKQRLAIARVLLKNARIMFFDEATSALDTHTEQALLRTIRDNFTSGSRTSVYIAHRLRTIADADKIIVLDNGRVREEGKHLELLAMPGSLYRELWTIQED LKDLFRYIWPKGNNKVRIRVLIALGLLISAKILNVQVPFFFKQTIDSMNIAWDDPTVALPAAIGLTILCYGVARFGSVLFGELRNAVFAKVAQNAIRTVSLQTFQHLMKLDLGWHLSRQTGGLTRAMDRGTKGISQVLTAMVFHIIPISFEISVVCGILTYQFGASFAAITFSTMLLYSIFTIKTTAWRTHFRRDANKADNKAASVALDSLINFEAVKYFNNEKYLADKYNGSLMNYRDSQIKVSQSLAFLNSGQNLIFTTALTAMMYMGCTGVIGGNLTVGDLVLINQLVFQLSVPLNFLGSVYRDLKQSLIDMETLFKLRKNEVKIKNAERPLMLPENVPYDITFENVTFGYHPDRKILKNASFTIPAGWKTAIVGSSGSGKSTILKLVFRFYDPESGRILINGRDIKEYDIDALRKVIGVVPQDTPLFNDTIWENVKFGRIDATDEEVITVVEKAQLAPLIKKLPQGFDTIVGERGLMISGGEKQRLAIARVLLKNARIMFFDEATSALDTHTEQALLRTIRDNFTSGSRTSVYIAHRLRTIADADKIIVLDNGRVREEGKHLELLAMPGSLYRELWTIQED 7pt0-a1-m1-cB_7pt0-a1-m1-cA SCO3201 with putative ligand Q9KYU4 Q9KYU4 1.89 X-RAY DIFFRACTION 59 0.995 1902 (Streptomyces coelicolor) 1902 (Streptomyces coelicolor) 198 201 4cgr-a1-m1-cB_4cgr-a1-m1-cA 5efy-a1-m1-cA_5efy-a1-m1-cB 5efy-a2-m1-cD_5efy-a2-m1-cC TERRKAETRMEIARAAARLFVGQGLRATRAEDIARAAGVAPRTFYRYFATKEEAVAPLYALGAERWVRAVREAPAELSPPEALERAVRHTLTPAPSWEWARTLIRLAESSPALRKVWAEVCHSTERGLVQALAARMSGGDDNVAVRLAASPRLHFAAAVAGASVRVAAEHWASSSPARSPLEQALLNLEVLRGFAWEA MVSLTERRKAETRMEIARAAARLFVGQGLRATRAEDIARAAGVAPRTFYRYFATKEEAVAPLYALGAERWVRAVREAPAELSPPEALERAVRHTLTPAPSWEWARTLIRLAESSPALRKVWAEVCHSTERGLVQALAARMSGGDDNVAVRLAASPRLHFAAAVAGASVRVAAEHWASSSARSPLEQALLNLEVLRGFAWEA 7pt6-a1-m1-c3_7pt6-a1-m1-cC Structure of MCM2-7 DH complexed with Cdc7-Dbf4 in the presence of ATPgS, state III P24279 P24279 3.2 ELECTRON MICROSCOPY 10 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 637 637 APDAVFGDRVRRFQEFLDTFTSYRDSVRSIQVYNSNNAANYNLNILPHRIIISLDDLREFDRSFWSGILVEPAYFIPPAEKALTDLADSMDDVPHPNSRHPWKLSFKGSFGAHALSPRTLTAQHLNKLVSVEGIVTKTSLVRPKLIRSVHYAAKTGRFHYRDYTDATTTLTTRIPTPAIYPTEDTEGNKLTTEYGYSTFIDHQRITVQEMPEMAPAGQLPRSIDVILDDDLVDKTKPGDRVNVVGVFKSLGAGGMNQSLIGFKTLILGNTVYPLHARSTGVAARQMLTDFDIRNINKLSKKKDIFDILSQSLAPSIYGHDHIKKAILLMLMGGVEKNLENGSHLRGDINILMVGDPSTAKSQLLRFVLNTASLAIATTGRGSSGVGLTAAVTRRLEAGAMVLADRGVVCIDEFDKMTDVDRVAIHEVMEQQTVTIAKAGIHTTLNARCSVIAAANPVFGQYDVNRDPHQNIALPDSLLSRFDLLFVVTDDINEIRDRSISEHVLRTHRYLPPGYLEGEPVRERLNLSLAVDHVFEKFNPLLIPKLVTIPFLRKYVQYAKERVIPQLTQEAINVIVKNYTDLRNDDNTKKSPITARTLETLIRLATAHAKVRLSKTVNKVDAKVAANLLRFALLGEDI APDAVFGDRVRRFQEFLDTFTSYRDSVRSIQVYNSNNAANYNLNILPHRIIISLDDLREFDRSFWSGILVEPAYFIPPAEKALTDLADSMDDVPHPNSRHPWKLSFKGSFGAHALSPRTLTAQHLNKLVSVEGIVTKTSLVRPKLIRSVHYAAKTGRFHYRDYTDATTTLTTRIPTPAIYPTEDTEGNKLTTEYGYSTFIDHQRITVQEMPEMAPAGQLPRSIDVILDDDLVDKTKPGDRVNVVGVFKSLGAGGMNQSLIGFKTLILGNTVYPLHARSTGVAARQMLTDFDIRNINKLSKKKDIFDILSQSLAPSIYGHDHIKKAILLMLMGGVEKNLENGSHLRGDINILMVGDPSTAKSQLLRFVLNTASLAIATTGRGSSGVGLTAAVTRRLEAGAMVLADRGVVCIDEFDKMTDVDRVAIHEVMEQQTVTIAKAGIHTTLNARCSVIAAANPVFGQYDVNRDPHQNIALPDSLLSRFDLLFVVTDDINEIRDRSISEHVLRTHRYLPPGYLEGEPVRERLNLSLAVDHVFEKFNPLLIPKLVTIPFLRKYVQYAKERVIPQLTQEAINVIVKNYTDLRNDDNTKKSPITARTLETLIRLATAHAKVRLSKTVNKVDAKVAANLLRFALLGEDI 7pt7-a1-m1-c6_7pt7-a1-m1-cF Structure of MCM2-7 DH complexed with Cdc7-Dbf4 in the presence of ADP:BeF3, state I P53091 P53091 3.8 ELECTRON MICROSCOPY 20 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 617 617 DDVTGEKVREAFEQFLEDFSVQSTDTGEVEKVYRAQIEFMKIYDLNTIYIDYQHLSMRENGALAMAISEQYYRFLPFLQKGLRRVVRKYAPELLNTSTERVFQISFFNLPTVHRIRDIRSEKIGSLLSISGTVTRTSEVRPELYKASFTCDMCRAIVDNVEQSFKYTEPTFCPNPSCENRAFWTLNVTRSRFLDWQKVRIQENANEIPTGSMPRTLDVILRGDSVERAKPGDRCKFTGVEIVVPDVTQLGLPGVKPSSTLSLGVRDLTYKISFLACHVISIDQEVFLNSLSSDEINELKEMVKDEHIYDKLVRSIAPAVFGHEAVKKGILLQMLGGVHKSTVEGIKLRGDINICVVGDPSTSKSQFLKYVVGFAPRSVYTSGKASSAAGLTAAVVRDEEGGDYTIEAGALMLADNGICCIDEFDKMDISDQVAIHEAMEQQTISIAKAGIHATLNARTSILAAANPVGGRYNRKLSLRGNLNMTAPIMSRFDLFFVILDDCNEKIDTELASHIVDLHMKRDEAIEPPFSAEQLRRYIKYARTFKPILTKEARSYLVEKYKELRKDDAQRSSYRITVRQLESMIRLSEAIARANCVDEITPSFIAEAYDLLRQSIIRV DDVTGEKVREAFEQFLEDFSVQSTDTGEVEKVYRAQIEFMKIYDLNTIYIDYQHLSMRENGALAMAISEQYYRFLPFLQKGLRRVVRKYAPELLNTSTERVFQISFFNLPTVHRIRDIRSEKIGSLLSISGTVTRTSEVRPELYKASFTCDMCRAIVDNVEQSFKYTEPTFCPNPSCENRAFWTLNVTRSRFLDWQKVRIQENANEIPTGSMPRTLDVILRGDSVERAKPGDRCKFTGVEIVVPDVTQLGLPGVKPSSTLSLGVRDLTYKISFLACHVISIDQEVFLNSLSSDEINELKEMVKDEHIYDKLVRSIAPAVFGHEAVKKGILLQMLGGVHKSTVEGIKLRGDINICVVGDPSTSKSQFLKYVVGFAPRSVYTSGKASSAAGLTAAVVRDEEGGDYTIEAGALMLADNGICCIDEFDKMDISDQVAIHEAMEQQTISIAKAGIHATLNARTSILAAANPVGGRYNRKLSLRGNLNMTAPIMSRFDLFFVILDDCNEKIDTELASHIVDLHMKRDEAIEPPFSAEQLRRYIKYARTFKPILTKEARSYLVEKYKELRKDDAQRSSYRITVRQLESMIRLSEAIARANCVDEITPSFIAEAYDLLRQSIIRV 7pty-a1-m1-cA_7pty-a1-m1-cB Delta-latroinsectotoxin dimer Q25338 Q25338 4.63 ELECTRON MICROSCOPY 50 1.0 6925 (Latrodectus tredecimguttatus) 6925 (Latrodectus tredecimguttatus) 850 865 SNSVFGMIADVANDIGSIPVIGEVVGIVTAPIAIVSHITSADIASTAFDEIKEILEERFNEIDRKLDKNTAALEEVSKLVSKTFVTVEKTRNEMNENFKLVLETIESKEIKSIVFKINDFKKFFEKERQRIKGLPKDRYVAKLLEQKGILGSLKEVREPSGNSLSSALNELLDKNNNYKAFQALYALFYGTQTYAAVMFFLLEQHSYLADYYYQKGDDVNFNAEFNNVAIIFDDFKSSLTGGDDGLIDNVIEVLNTVKALPFIKNADSKLYRELVTRTKALETLKNQIPETLSQVNFPNDENQLPTPIGNWVDGVEVRYAVQYESKGMYSKFSEWSEPFTVQGNACPTIKVRVDPKKRNRLIFRKFNSGKPQFAGTMTHSQTNFKDIHRDLYDAALNINKLKAVDEATTLIEKGADIEAKFDNDRSAMHAVAYRGNNKIALRFLLKNQSIDIELKDKNGFTPLHIAAEAGQAGFVKLLINHGADVNAKTSKTNLTPLHLATRSGFSKTVRNLLESPNIKVNEKEDDGFTPLHTAVMSTYMVVDALLNHPDIDKNAQSTSGLTPFHLAIINESQEVAESLVESNADLNIQDVNHMAPIHFAASMGSIKMLRYLISIKDKVSINSVTENNNWTPLHFAIYFKKEDAAKELLKQDDINLTIVADGNLTVLHLAVSTGQINIIKELLKRGSNIEEKTGEGYTSLHIAAMRKEPEIAVVLIENGADIEARSADNLTPLHSAAKIGRKSTVLYLLEKGADIGAKTADGSTALHLAVSGRKMKTVETLLNKGANLKEYDNNKYLPIHKAIINDDLDMVRLFLEKDPSLKDDETEEGRTSIMLIVQKLLLELYNYFIN SNSVFGMIADVANDIGSIPVIGEVVGIVTAPIAIVSHITSAGLDIASTALDCDDIPFDEIKEILEERFNEIDRKLDKNTAALEEVSKLVSKTFVTVEKTRNEMNENFKLVLETIESKEIKSIVFKINDFKKFFEKERQRIKGLPKDRYVAKLLEQKGILGSLKEVREPSGNSLSSALNELLDKNNNYNKAFQALYALFYGTQTYAAVMFFLLEQHSYLADYYYQKGDDVNFNAEFNNVAIIFDDFKSSLTGGDDGLIDNVIEVLNTVKALPFIKNADSKLYRELVTRTKALETLKNQILIDDIPETLSQVNFPNDENQLPTPIGNWVDGVEVRYAVQYESKGMYSKFSEWSEPFTVQGNACPTIKVRVDPKKRNRLIFRKFNSGKPQFAGTMTHSQTNFKDIHRDLYDAALNINKLKAVDEATTLIEKGADIEAKFDNDRSAMHAVAYRGNNKIALRFLLKNQSIDIELKDKNGFTPLHIAAEAGQAGFVKLLINHGADVNAKTSKTNLTPLHLATRSGFSKTVRNLLESPNIKVNEKEDDGFTPLHTAVMSTYMVVDALLNHPDIDKNAQSTSGLTPFHLAIINESQEVAESLVESNADLNIQDVNHMAPIHFAASMGSIKMLRYLISIKDKVSINSVTENNNWTPLHFAIYFKKEDAAKELLKQDDINLTIVADGNLTVLHLAVSTGQINIIKELLKRGSNIEEKTGEGYTSLHIAAMRKEPEIAVVLIENGADIEARSADNLTPLHSAAKIGRKSTVLYLLEKGADIGAKTADGSTALHLAVSGRKMKTVETLLNKGANLKEYDNNKYLPIHKAIINDDLDMVRLFLEKDPSLKDDETEEGRTSIMLIVQKLLLELYNYFIN 7puo-a2-m1-cD_7puo-a2-m1-cE Structure of a fused 4-OT variant engineered for asymmetric Michael addition reactions Q01468 Q01468 2.35 X-RAY DIFFRACTION 98 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 129 129 7puo-a1-m1-cA_7puo-a1-m1-cB PIAQIHILEGHSDEQKETLIRDVSEAISRSDDATLSSVRVIITELAKGHFGIGGELASKVPRGGGAGPIAQIHILEGRSGEQKETLIREASEAISRSLDAPLKSVRIFITEIAKGHAGVGGELLSKVLR PIAQIHILEGHSDEQKETLIRDVSEAISRSDDATLSSVRVIITELAKGHFGIGGELASKVPRGGGAGPIAQIHILEGRSGEQKETLIREASEAISRSLDAPLKSVRIFITEIAKGHAGVGGELLSKVLR 7puo-a2-m1-cF_7puo-a2-m1-cD Structure of a fused 4-OT variant engineered for asymmetric Michael addition reactions Q01468 Q01468 2.35 X-RAY DIFFRACTION 94 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 126 129 7puo-a1-m1-cC_7puo-a1-m1-cA PIAQIHILEGHSDEQKETLIRDVSEAISRSDDATLSSVRVIITELAKGHFGIGGELASKVPRGGGAGPIAQIHILEGRSGEQKETLIREASEAISRSLDAPLKSVRIFITEIAKGHAGVGGELLSK PIAQIHILEGHSDEQKETLIRDVSEAISRSDDATLSSVRVIITELAKGHFGIGGELASKVPRGGGAGPIAQIHILEGRSGEQKETLIREASEAISRSLDAPLKSVRIFITEIAKGHAGVGGELLSKVLR 7puo-a2-m1-cF_7puo-a2-m1-cE Structure of a fused 4-OT variant engineered for asymmetric Michael addition reactions Q01468 Q01468 2.35 X-RAY DIFFRACTION 91 1.0 303 (Pseudomonas putida) 303 (Pseudomonas putida) 126 129 7puo-a1-m1-cC_7puo-a1-m1-cB PIAQIHILEGHSDEQKETLIRDVSEAISRSDDATLSSVRVIITELAKGHFGIGGELASKVPRGGGAGPIAQIHILEGRSGEQKETLIREASEAISRSLDAPLKSVRIFITEIAKGHAGVGGELLSK PIAQIHILEGHSDEQKETLIRDVSEAISRSDDATLSSVRVIITELAKGHFGIGGELASKVPRGGGAGPIAQIHILEGRSGEQKETLIREASEAISRSLDAPLKSVRIFITEIAKGHAGVGGELLSKVLR 7puz-a1-m1-cA_7puz-a1-m4-cA Crystal structure of the Mic60 coiled coil domain C5E325 C5E325 2.842 X-RAY DIFFRACTION 212 1.0 559295 (Lachancea thermotolerans CBS 6340) 559295 (Lachancea thermotolerans CBS 6340) 148 148 7puz-a1-m2-cA_7puz-a1-m3-cA IRAKSREVELTQQFLNEFNAFKAQLEKHSSEELASALKANEQALLAKQSNEVALLSMKQVEEFTKILSEKLDQERQGRLSKLEALNGSVQELAEAVDQVDTLVMKSEVLSQLSLLTTLLKNKLHAESSVKIDSELARLKTLCDILPLE IRAKSREVELTQQFLNEFNAFKAQLEKHSSEELASALKANEQALLAKQSNEVALLSMKQVEEFTKILSEKLDQERQGRLSKLEALNGSVQELAEAVDQVDTLVMKSEVLSQLSLLTTLLKNKLHAESSVKIDSELARLKTLCDILPLE 7puz-a1-m2-cA_7puz-a1-m4-cA Crystal structure of the Mic60 coiled coil domain C5E325 C5E325 2.842 X-RAY DIFFRACTION 52 1.0 559295 (Lachancea thermotolerans CBS 6340) 559295 (Lachancea thermotolerans CBS 6340) 148 148 7puz-a1-m1-cA_7puz-a1-m3-cA IRAKSREVELTQQFLNEFNAFKAQLEKHSSEELASALKANEQALLAKQSNEVALLSMKQVEEFTKILSEKLDQERQGRLSKLEALNGSVQELAEAVDQVDTLVMKSEVLSQLSLLTTLLKNKLHAESSVKIDSELARLKTLCDILPLE IRAKSREVELTQQFLNEFNAFKAQLEKHSSEELASALKANEQALLAKQSNEVALLSMKQVEEFTKILSEKLDQERQGRLSKLEALNGSVQELAEAVDQVDTLVMKSEVLSQLSLLTTLLKNKLHAESSVKIDSELARLKTLCDILPLE 7puz-a1-m3-cA_7puz-a1-m4-cA Crystal structure of the Mic60 coiled coil domain C5E325 C5E325 2.842 X-RAY DIFFRACTION 22 1.0 559295 (Lachancea thermotolerans CBS 6340) 559295 (Lachancea thermotolerans CBS 6340) 148 148 7puz-a1-m1-cA_7puz-a1-m2-cA IRAKSREVELTQQFLNEFNAFKAQLEKHSSEELASALKANEQALLAKQSNEVALLSMKQVEEFTKILSEKLDQERQGRLSKLEALNGSVQELAEAVDQVDTLVMKSEVLSQLSLLTTLLKNKLHAESSVKIDSELARLKTLCDILPLE IRAKSREVELTQQFLNEFNAFKAQLEKHSSEELASALKANEQALLAKQSNEVALLSMKQVEEFTKILSEKLDQERQGRLSKLEALNGSVQELAEAVDQVDTLVMKSEVLSQLSLLTTLLKNKLHAESSVKIDSELARLKTLCDILPLE 7pv1-a2-m1-cC_7pv1-a2-m1-cD Crystal structure of the dimeric mitofilin domain of Mic60 in complex with the CHCH domain of Mic19 G0S140 G0S140 2.497 X-RAY DIFFRACTION 123 0.993 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 140 141 7pv1-a1-m1-cA_7pv1-a1-m1-cB GPTRAELIDRFRRVANEVRKASLLGSGDDVESILARTQAFLEEGDLDNAAREMNALTGWSKTLSRDWLAEVRKVLEVRQALEVIQAEARLQSLRLRPLPESVEKARSEVVRCLREHDRRPLNCWQEVEAFKEEVRKLEKG PTRAELIDRFRRVANEVRKASLLGSGDDVESILARTQAFLEEGDLDNAAREMNALTGWSKTLSRDWLAEVRKVLEVRQALEVIQAEARLQSLRLSRPLPESVEKARSEVVRCLREHDRRPLNCWQEVEAFKEEVRKLEKGW 7pva-a2-m1-cD_7pva-a2-m1-cC 1.9 Angstrom crystal structure of dimeric PorX, co-crystallized in the presence of zinc Q7MVV4 Q7MVV4 1.91 X-RAY DIFFRACTION 140 1.0 242619 (Porphyromonas gingivalis W83) 242619 (Porphyromonas gingivalis W83) 484 495 7pv7-a1-m1-cC_7pv7-a1-m1-cD 7pv7-a2-m1-cA_7pv7-a2-m1-cB 7pva-a1-m1-cB_7pva-a1-m1-cA 7pvk-a1-m1-cA_7pvk-a1-m1-cB 7pvk-a2-m1-cC_7pvk-a2-m1-cD RPYTVLWADDEIDLLKPHILFLEQKGYQVTPVLSGNDAIEAVQNNDFDIVFLDENPGIGGLDALQKIKELKPYTPVVITKSEEEHITQAIGGKIADYLIKPVNPNQLLLSLKKNLQQHSIISETTNTNYRQEFVQLGTQSGKLSFEEWKELYRRIVFWEIELEQADRQGELLEQKQEANRLFARFVTQNYREWIAKPDTRPTSPDLFKQKVFPLLDNGEKVFFILIDNFRQDQWESVKSLSEFYTFEEDYLSILPTATQYARNAIFSGLPLQIEKFPDLWNEEPIRTLIERYRKHYSFSYNKVYETKFGERLLGQIRSLSQNQLNVIVLNFVDSHARTDSKIRELASNEAAYRSLTKSWFKHSTTYNLFRSIAEGYKVVLTTDHGTIQVKNPVKVIGDRSTNTNLRYKIGKNLDYNPKEVFEIKDPASVGLPHNNLSDKFIFTKEDDFFAYPNNYNYYVQYYRNTFQHGGISLEELVPVITQPK RPYTVLWADDEIDLLKPHILFLEQKGYQVTPVLSGNDAIEAVQNNDFDIVFLDENPGIGGLDALQKIKELKPYTPVVITKSEEEHITQAIGGKIADYLIKPVNPNQLLLSLKKNLQQHSIISETTNTNYRQEFVQLGTQSGKLSFEEWKELYRRIVFWEIELEQADRQGELLEQKQEANRLFARFVTQNYREWIAKPDTRPTSPDLFKQKVFPLLDNGEKVFFILIDNFRQDQWESVKSLSEFYTFEEDYLSILPTATQYARNAIFSGLPLQIEKFPDLWVDEESEEGKNLNEEPIRTLIERYRKHYSFSYNKVYETKFGERLLGQIRSLSQNQLNVIVLNFVDSHARTDSKIRELASNEAAYRSLTKSWFKHSTTYNLFRSIAEGYKVVLTTDHGTIQVKNPVKVIGDRSTNTNLRYKIGKNLDYNPKEVFEIKDPASVGLPHNNLSDKFIFTKEDDFFAYPNNYNYYVQYYRNTFQHGGISLEELVPVITQPK 7pvh-a1-m1-cB_7pvh-a1-m1-cA Crystal structure of the folded domain of PorN B2RLE7 B2RLE7 2 X-RAY DIFFRACTION 59 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 186 192 WRRVVYRRVDLEESNAVLYYPPRPIGDRKNLFSTIFGLINSNSLDVYEYLDGFEAFTDQYKIKFQEFLDRFGIYYQPSTNKNAELFKVADSDIPSAEVKAYYVKEEWYFTPTNSDVDIKIQAICPITGQDEFGEVRNQPLFWIPYENIRPYIARERVLSSLNNTRNSTIDDFFRLNLYKGDIVKTE APWRRVVYRRVDLEESNAVLYYPPRPIGDRKNLFSTIFGLINSNSLDVYEYLDGFEAFTDQYKIKFQEFLDRFGIYYQPSTNKNAELFKVADSDIPSAEVKAYYVKEEWYFTPTNSDVDIKIQAICPITGQDEFGEVRNQPLFWIPYENIRPYIARERVLSSLNNTRNSTIDDFFRLNLYKGDIVKTENLHN 7pvi-a1-m1-cBBB_7pvi-a1-m1-cAAA dTDP-sugar epimerase Q83AP3 Q83AP3 1.434 X-RAY DIFFRACTION 99 1.0 227377 (Coxiella burnetii RSA 493) 227377 (Coxiella burnetii RSA 493) 191 199 7pwb-a1-m1-cBBB_7pwb-a1-m1-cAAA FQSMPFEFQKMLIPEVILIKPKVFTDDRGFFIETFKQSDFRRHGINGEFLQDNHSLSMKKGVLRGLHYQLDPHAQGKLVRVVLGKVFDVAVDLRRESPTFGKWVSTELSSTNNHMLWIPPGFAHGMLVLEENTHLLYKCTAEYVPESERYIRWDDPDINIKWPIKNNLLLSEKDAAGVFLQRAEINAQYHG DLGTENLYFQSMPFEFQKMLIPEVILIKPKVFTDDRGFFIETFKQSDFRRHGINGEFLQDNHSLSMKKGVLRGLHYQLDPHAQGKLVRVVLGKVFDVAVDLRRESPTFGKWVSTELSSTNNHMLWIPPGFAHGMLVLEENTHLLYKCTAEYVPESERYIRWDDPDINIKWPIKNNLLLSEKDAAGVFLQRAEINAQYHG 7pvz-a1-m1-cA_7pvz-a1-m1-cB Crystal structure of the intertwined dimer of the c-Src SH3 domain E93V-S94A-R95S-T96G mutant P00523 P00523 2 X-RAY DIFFRACTION 154 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 60 60 GGVTTFVALYDYVASGETDLSFKKGERLQIVNNTEGDWWLAHSLTTGQTGYIPSNYVAPS GGVTTFVALYDYVASGETDLSFKKGERLQIVNNTEGDWWLAHSLTTGQTGYIPSNYVAPS 7pwe-a1-m1-cB_7pwe-a1-m1-cA Crystal structure of the glutaredoxin/ferredoxin disulfide reductase fusion protein from Desulfotalea psychrophila Lsv54 Q6AL91 Q6AL91 2.077 X-RAY DIFFRACTION 104 1.0 177439 (Desulfotalea psychrophila LSv54) 177439 (Desulfotalea psychrophila LSv54) 191 192 KKIVLYSLTTCGFCQAIKKFDDLAVGHLCIQADELTGEEKKQALRDLRKVNPKCSFPTVVIDETVVVGPKIQEIKEKIGIRTEVDELYEVLKKKNEPKGYYLNGDREKTFELIRGLLTNKKRYGYACPCRLASGDRNNDRDIICPCLYREPDVKEFGSCYCTLYVSADWYTGKIERQEVAERRPPEHYELD DKKIVLYSLTTCGFCQAIKKFDDLAVGHLCIQADELTGEEKKQALRDLRKVNPKCSFPTVVIDETVVVGPKIQEIKEKIGIRTEVDELYEVLKKKNEPKGYYLNGDREKTFELIRGLLTNKKRYGYACPCRLASGDRNNDRDIICPCLYREPDVKEFGSCYCTLYVSADWYTGKIERQEVAERRPPEHYELD 7pwi-a1-m1-cAAA_7pwi-a1-m2-cAAA Structure of the dTDP-sugar epimerase StrM P29783 P29783 1.326 X-RAY DIFFRACTION 106 1.0 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 200 200 7pwh-a1-m1-cAAA_7pwh-a1-m2-cAAA GTMRPLSVQGAWLSETRAFADDRGEFQELYSARSLRGALGYDPGVAQVNRSVSRRGVLRGVHFAQLPPSQAKYVTCLSGAVLDVVVDIRTGSPTYRAWEAVRLDDPHRSLYVEAGLGHSFMALTDDAVVVYLTSQGYAAGREHGVHPLDPDLGIAWPDGIEPVLSEKDRQAPGIAEMERRGLLPDYEECLAFRRSLCERG GTMRPLSVQGAWLSETRAFADDRGEFQELYSARSLRGALGYDPGVAQVNRSVSRRGVLRGVHFAQLPPSQAKYVTCLSGAVLDVVVDIRTGSPTYRAWEAVRLDDPHRSLYVEAGLGHSFMALTDDAVVVYLTSQGYAAGREHGVHPLDPDLGIAWPDGIEPVLSEKDRQAPGIAEMERRGLLPDYEECLAFRRSLCERG 7px0-a2-m1-cD_7px0-a2-m1-cC Drosophila melanogaster Aldehyde Oxidase 1 Q9VF53 Q9VF53 2.2 X-RAY DIFFRACTION 194 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1236 1252 7px0-a1-m1-cA_7px0-a1-m1-cB AGRITINGTSHEVNLSALPADISLNTFIREYAGLTGTKFMCQEGGCGVCVCTLTGIHPEGELRTWAVNSCLTLLNTCLGLEVTTSEGLGNKRVGYHAIQQRLAKMNGTQCGYCSPGIVMNMYGLLKSKGGKVTMEEVENSFGGNICRCTGYRPILDAMKSFAVDSNIQVQPKGSQLYPDGSRWSWPVSLGDLFAALQGAVKEKLPYMLVAGNTAHGVYRRSPDIKAFIDVSGLAELKGHKLSADNSSLTLGGNLSLSETMELCRQLENTKGFEYLSQVWQHLDWIANVPVRNAGTLAGNLSIKHAHPEFPSDVFIVLEALDAQVIVQEAVDKQQTVSLASYLGSSMEGKIIRGLVLRAYPKERFAFDSYKIMPRAQNAHAYVNAAFLVEFTADAKVKSARICFGGIHPEFVHATAIENLIRDKNPFENGLVEKAFGQLSTLLQPDAVLPDASPVYRRKLACGLFYKFLLKIAAQRKQGLGSRFVTGGSLLKRPVSSGQQSFETFQEHYPVTKATEKHEGLIQCSGEATYSNDLPTQHNQLWAAFVIAKKVGAKVTKVDTQPALDLPGVVAYLDAKDIPGPNYVGPKIRDQFFFPKDEELFATGEIKFYGQPVGIILANSNSLANRAAELVKLTYEGGAEEILPSLKAVLDKVNKRLEQPIKSTIDVLQLEEPFDVSSSGQLDMGLQYHYYMEPQTTVVLPFEGGLQVYAATQWMDLTQDTIANVLNLKSNDVQVKTRRIGGGYGGKATRCNLAAAAAALAAHKLNRPIRFVQSLESIMTSLGKRWAFHCDYDFFVQKSGKISGIVSRFYEDAGYLANESPIGHTVLLSKNCYEFSDNYKLDGYLVCTDSPSNTPCRAPGSVEGIAMMENIIEHIAFETGVDPADVRFANLLPAHKMGDMMPRFLESTKYRERKAEAIAHNKENRWHKRGLGLCIMEYQIGYFGQYPATVAIYHSDGTVVVSHGGIEMGQGMNTKISQVAAHTLGIPMEQVRIEASDTINGANSMVTGGAVGSETLCFAVRKACETLNERLKPVREEVKPENWQDLIQEAYNRKINLIASDQCKQGDMDPYSVCGLCLTEVELDVLTGNYIVGRVDILEDTGESLNPNVDIGQIEGAFMMGLGYWTSEQVIADPKTGECLTNRTWTYKPPGAKDIPTDLRIELLPKSPNKAGFMRSKATGEPAICLSIAVAFALQQALQSARDDAGVPKSWVTLTAPMTPEHLVLHSGTEPSQFKLN AGRITINGTSHEVNLSALPADISLNTFIREYAGLTGTKFMCQEGGCGVCVCTLTGIHPETGELRTWAVNSCLTLLNTCLGLEVTTSEGLGNKRVGYHAIQQRLAKMNGTQCGYCSPGIVMNMYGLLKSKGGKVTMEEVENSFGGNICRCTGYRPILDAMKSFAVDSNIQVPAECIDIEDLSTKKQQPKGSQLYPDGSRWSWPVSLGDLFAALQGAVKEKLPYMLVAGNTAHGVYRRSPDIKAFIDVSGLAELKGHKLSADNSSLTLGGNLSLSETMELCRQLENTKGFEYLSQVWQHLDWIANVPVRNAGTLAGNLSIKHAHPEFPSDVFIVLEALDAQVIVQEAVDKQQTVSLASYLGSSMEGKIIRGLVLRAYPKERFAFDSYKIMPRAQNAHAYVNAAFLVEFTADAKVKSARICFGGIHPEFVHATAIENLIRDKNPFENGLVEKAFGQLSTLLQPDAVLPDASPVYRRKLACGLFYKFLLKIAAQRKQGLGSRFVTGGSLLKRPVSSGQQSFETFQEHYPVTKATEKHEGLIQCSGEATYSNDLPTQHNQLWAAFVIAKKVGAKVTKVDTQPALDLPGVVAYLDAKDIPGPNYVGPKIRDQFFFPKDEELFATGEIKFYGQPVGIILANSNSLANRAAELVKLTYEGGAEEILPSLKAVLDKVNKRLEQPIKSTIDVLQLEEPFDVSSSGQLDMGLQYHYYMEPQTTVVLPFEGGLQVYAATQWMDLTQDTIANVLNLKSNDVQVKTRRIGGGYGGKATRCNLAAAAAALAAHKLNRPIRFVQSLESIMTSLGKRWAFHCDYDFFVQKSGKISGIVSRFYEDAGYLANESPIGHTVLLSKNCYEFSDNYKLDGYLVCTDSPSNTPCRAPGSVEGIAMMENIIEHIAFETGVDPADVRFANLLPAHKMGDMMPRFLESTKYRERKAEAIAHNKENRWHKRGLGLCIMEYQIGYFGQYPATVAIYHSDGTVVVSHGGIEMGQGMNTKISQVAAHTLGIPMEQVRIEASDTINGANSMVTGGAVGSETLCFAVRKACETLNERLKPVREEVKPENWQDLIQEAYNRKINLIASDQCKQGDMDPYSVCGLCLTEVELDVLTGNYIVGRVDILEDTGESLNPNVDIGQIEGAFMMGLGYWTSEQVIADPKTGECLTNRTWTYKPPGAKDIPTDLRIELLPKSPNKAGFMRSKATGEPAICLSIAVAFALQQALQSARDDAGVPKSWVTLTAPMTPEHLVLHSGTEPSQFKLN 7px2-a1-m1-cA_7px2-a1-m1-cB Conotoxin Mu8.1 from Conus mucronatus 2.12 X-RAY DIFFRACTION 70 1.0 1127826 (Conus mucronatus) 1127826 (Conus mucronatus) 84 84 7px1-a1-m1-cA_7px1-a1-m1-cB 7px2-a2-m1-cC_7px2-a2-m1-cD 7px2-a3-m1-cE_7px2-a3-m1-cF NLTHCRLFEFRLCLLECMSLTLDHCYARCTTVITQIHGSDTNRFDCTIFKTCYYRCYVLGKTEDHCWKGTATSVTGDVGDLEFC NLTHCRLFEFRLCLLECMSLTLDHCYARCTTVITQIHGSDTNRFDCTIFKTCYYRCYVLGKTEDHCWKGTATSVTGDVGDLEFC 7pxq-a1-m1-cA_7pxq-a1-m2-cA GH115 alpha-1,2-glucuronidase D303A 2.3 X-RAY DIFFRACTION 235 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 821 821 7pug-a1-m1-cA_7pug-a1-m2-cA GDNKGITYEELNPERFTLLEKGTPTNILIDENEDQGVMIAATNLSEDFGRVSGTNAPLIFLPDNERLIIVGTLESRYIKELTENRKIKGDELKGKNEKYLMTVVDNPLPGVKEALIIAGSDKRGAIYGIYELSEQIGVSPWYDWADVPVKPQQNLSIERGSYTADEPAVTYRGIFLNDEAPALTSWVENTYGTKYGDHRFYSRVFELILRLRGNFLWPAMWDWSFYGDDPLNSKTADTMGIIMGTSHHEPMARNHQEWARNRDKYGVWDYTSNQEVIDQFFREGIERVKDTDDLITIGMRGSDEDNMRLLERIIKNQREIIGDVTGESPEKTPQVWAIYKEVQRYFDLGLRPPEDVIILLSDDNWGNVRRLPTEEERDHPGGWGMYYHFDYVGAPRSSKWLNISPIQNIWEQMQLTYDYGVDELWVANVGDLKPMEYPITLFLDMAWDPTRFNAENLLDHTRSFAAQQFGEDQADEAARIINLYSKYNGRVTPEMLDRNTYNLESGEWKKVSDEYIKLEAEALRQYLTLEPEQRDAYKQLILYPVQAMANLYEMYYSQAMNHKLYRENNPMANYWADRVEETFNRDAELSHDYNKVMANGKWDGMMTQKKIGYRSWNDNFPADTLPQIFRIENPEEATGGYVFTARDGVVVIEAEHYFEAKDAEEAKWTVIPYMGRTLSSIALMPYTKEVEGASLSYRMQIPDEVSEVKVHVVVKSTLPFHDPKGHEYRVGFEGGSKEIVNFNWNLNEEPENIYSVFYPTVASRVVKKDVTLDLHDTDDGFYTLTLEPLDPGIVFQKIVVDFGGYEESRLFMEESPNKRIE GDNKGITYEELNPERFTLLEKGTPTNILIDENEDQGVMIAATNLSEDFGRVSGTNAPLIFLPDNERLIIVGTLESRYIKELTENRKIKGDELKGKNEKYLMTVVDNPLPGVKEALIIAGSDKRGAIYGIYELSEQIGVSPWYDWADVPVKPQQNLSIERGSYTADEPAVTYRGIFLNDEAPALTSWVENTYGTKYGDHRFYSRVFELILRLRGNFLWPAMWDWSFYGDDPLNSKTADTMGIIMGTSHHEPMARNHQEWARNRDKYGVWDYTSNQEVIDQFFREGIERVKDTDDLITIGMRGSDEDNMRLLERIIKNQREIIGDVTGESPEKTPQVWAIYKEVQRYFDLGLRPPEDVIILLSDDNWGNVRRLPTEEERDHPGGWGMYYHFDYVGAPRSSKWLNISPIQNIWEQMQLTYDYGVDELWVANVGDLKPMEYPITLFLDMAWDPTRFNAENLLDHTRSFAAQQFGEDQADEAARIINLYSKYNGRVTPEMLDRNTYNLESGEWKKVSDEYIKLEAEALRQYLTLEPEQRDAYKQLILYPVQAMANLYEMYYSQAMNHKLYRENNPMANYWADRVEETFNRDAELSHDYNKVMANGKWDGMMTQKKIGYRSWNDNFPADTLPQIFRIENPEEATGGYVFTARDGVVVIEAEHYFEAKDAEEAKWTVIPYMGRTLSSIALMPYTKEVEGASLSYRMQIPDEVSEVKVHVVVKSTLPFHDPKGHEYRVGFEGGSKEIVNFNWNLNEEPENIYSVFYPTVASRVVKKDVTLDLHDTDDGFYTLTLEPLDPGIVFQKIVVDFGGYEESRLFMEESPNKRIE 7pxx-a1-m1-cD_7pxx-a1-m1-cC The crystal structure of Leishmania major Pteridine Reductase 1 in complex with substrate folic acid Q01782 Q01782 1.81 X-RAY DIFFRACTION 118 0.992 5664 (Leishmania major) 5664 (Leishmania major) 251 252 1e7w-a1-m1-cB_1e7w-a1-m1-cA 1e7w-a1-m2-cB_1e7w-a1-m2-cA 1e92-a1-m1-cB_1e92-a1-m1-cA 1e92-a1-m1-cD_1e92-a1-m1-cC 1w0c-a1-m1-cB_1w0c-a1-m1-cA 1w0c-a1-m1-cD_1w0c-a1-m1-cC 1w0c-a2-m1-cE_1w0c-a2-m1-cF 1w0c-a2-m1-cH_1w0c-a2-m1-cG 2bf7-a1-m1-cA_2bf7-a1-m1-cB 2bf7-a1-m1-cC_2bf7-a1-m1-cD 2bfa-a1-m1-cA_2bfa-a1-m1-cB 2bfa-a1-m1-cC_2bfa-a1-m1-cD 2bfm-a1-m1-cA_2bfm-a1-m1-cB 2bfm-a1-m1-cC_2bfm-a1-m1-cD 2bfo-a1-m1-cB_2bfo-a1-m1-cA 2bfo-a1-m1-cC_2bfo-a1-m1-cD 2bfp-a1-m1-cB_2bfp-a1-m1-cA 2bfp-a1-m1-cC_2bfp-a1-m1-cD 2qhx-a1-m1-cA_2qhx-a1-m1-cB 2qhx-a1-m1-cC_2qhx-a1-m1-cD 3h4v-a1-m1-cA_3h4v-a1-m1-cB 3h4v-a1-m1-cC_3h4v-a1-m1-cD 3h4v-a2-m1-cE_3h4v-a2-m1-cF 3h4v-a2-m1-cG_3h4v-a2-m1-cH 5l42-a1-m1-cA_5l42-a1-m1-cB 5l42-a1-m1-cD_5l42-a1-m1-cC 5l4n-a1-m1-cA_5l4n-a1-m1-cB 5l4n-a1-m1-cD_5l4n-a1-m1-cC 6rxc-a1-m1-cB_6rxc-a1-m1-cA 6rxc-a1-m1-cD_6rxc-a1-m1-cC 7pxx-a1-m1-cA_7pxx-a1-m1-cB TVPVALVTGAAKRLGRSIAEGLHAEGYAVCLHYHRSAAEANALSATLNARRPNSAITVQADLSNVATAPVTLFTRCAELVAACYTHWGRCDVLVNNASSFYPTPLLEAMETATADLFGSNAIAPYFLIKAFAHRVAGTPAKHRGTNYSIINMVDAMTNQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSVLVGHRSKVPLYQRDSSAAEVSDVVIFLCSSKAKYITGTVKVDGGYSLTRA VPVALVTGAAKRLGRSIAEGLHAEGYAVCLHYHRSAAEANALSATLNARRPNSAITVQADLSNVATAPAPVTLFTRCAELVAACYTHWGRCDVLVNNASSFYPTPLLRAMETATADLFGSNAIAPYFLIKAFAHRVAGTPAKHRGTNYSIINMVDAMTNQPLLGYTIYTMAKGALEGLTRSAALELAPLQIRVNGVGPGLSVLVGHRSKVPLYQRDSSAAEVSDVVIFLCSSKAKYITGTVKVDGGYSLTRA 7py2-a1-m1-cC_7py2-a1-m1-cD Structure of pathological TDP-43 filaments from ALS with FTLD Q13148 Q13148 2.59 ELECTRON MICROSCOPY 325 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 79 79 7py2-a1-m1-cA_7py2-a1-m1-cB 7py2-a1-m1-cA_7py2-a1-m1-cC 7py2-a1-m1-cA_7py2-a1-m1-cD 7py2-a1-m1-cB_7py2-a1-m1-cD GFGNQGGFGNSRGGGAGLGNNQGSNMGGGMNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQ GFGNQGGFGNSRGGGAGLGNNQGSNMGGGMNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSGNNQNQGNMQ 7pza-a1-m1-cA_7pza-a1-m1-cB Structure of the Clr-cAMP-DNA complex Q92SD2 Q92SD2 2.72 X-RAY DIFFRACTION 119 0.996 266834 (Sinorhizobium meliloti 1021) 266834 (Sinorhizobium meliloti 1021) 225 226 7pzb-a1-m1-cB_7pzb-a1-m1-cA SAFWRSFPIFEEFDSETLCELSGIASYRKWSAGTVIFQRGDQGDYMIVVVSGRIKLSLFTPQGRELMLRQHEAGALFGEMALLDGQPRSADATAVTAAEGYVIGKKDFLALITQRPKTAEAVIRFLCAQLRDTTDRLETIALYDLNARVARFFLATLRQIHGSEMPQSANLRLTLSQTDIASILGASRPKVNRAILSLEESGAIKRADGIICCNVGRLLSIADPE RSSAFWRSFPIFEEFDSETLCELSGIASYRKWSAGTVIFQRGDQGDYMIVVVSGRIKLSLFTPQGRELMLRQHEAGALFGEMALLDGQPRSADATAVTAAEGYVIGKKDFLALITQRPKTAEAVIRFLCAQLRDTTDRLETIALYDLNARVARFFLATLRQIHGSEMPQSANLRLTLSQTDIASILGASRPKVNRAILSLEESGAIKRADGIICCNVGRLLSIADP 7pzh-a1-m1-cBBB_7pzh-a1-m1-cAAA Phocaeicola vulgatus sialic acid esterase at 2.06 Angstrom resolution A0A174J845 A0A174J845 2.06 X-RAY DIFFRACTION 87 1.0 821 (Phocaeicola vulgatus) 821 (Phocaeicola vulgatus) 200 201 6njc-a1-m1-cA_6njc-a1-m1-cB 6xpg-a1-m1-cA_6xpg-a1-m2-cA 6xpm-a1-m1-cA_6xpm-a1-m2-cA 7pzg-a1-m1-cDDD_7pzg-a1-m1-cAAA 7pzg-a2-m1-cBBB_7pzg-a2-m1-cCCC 7pzh-a2-m1-cDDD_7pzh-a2-m1-cCCC 7pzh-a3-m1-cFFF_7pzh-a3-m1-cEEE 7pzh-a4-m1-cHHH_7pzh-a4-m1-cGGG ERKYSTFYEQRATLFEELPVTSKDIIFLGNSITNGCEWAELFQNKNVKNRGISGDICMGVYDRLDPIVKGKPAKIFLLIGINDVSRGTSADKIISEISMIVRKIKQESPKTKLYLQSVLPVNDCYGMFNGHTSRWQVVKQINDLLEPLAVKEGVAYIDLYSHFVEKETGKMNPVYTNDGLHLLGKGYLLWRDIVKPYVDQ GERKYSTFYEQRATLFEELPVTSKDIIFLGNSITNGCEWAELFQNKNVKNRGISGDICMGVYDRLDPIVKGKPAKIFLLIGINDVSRGTSADKIISEISMIVRKIKQESPKTKLYLQSVLPVNDCYGMFNGHTSRWQVVKQINDLLEPLAVKEGVAYIDLYSHFVEKETGKMNPVYTNDGLHLLGKGYLLWRDIVKPYVDQ 7pzo-a1-m1-cA_7pzo-a1-m1-cB mite allergen Der p 3 from Dermatophagoides pteronyssinus P39675 P39675 2.25 X-RAY DIFFRACTION 33 1.0 6956 (Dermatophagoides pteronyssinus) 6956 (Dermatophagoides pteronyssinus) 230 230 IVGGEKALAGECPYQISLQSSSHFCGGTILDEYWILTAAHCVAGQTASKLSIRYNSLKHSLGGEKISVAKIFAHEKYDSFKIDNDIALIKLKTPMKLDQKNAKAVGLPAKGSDVKVGDQVRVSGWGYLEEGSYSLPSELRRVDIAVVSRKECNELYSKANAEVTDNMICGGDVANGGKDSCQGDSGGPVVDVKNNQVVGIVSWGYGCARKGYPGVYTRVGNFIDWIEIKT IVGGEKALAGECPYQISLQSSSHFCGGTILDEYWILTAAHCVAGQTASKLSIRYNSLKHSLGGEKISVAKIFAHEKYDSFKIDNDIALIKLKTPMKLDQKNAKAVGLPAKGSDVKVGDQVRVSGWGYLEEGSYSLPSELRRVDIAVVSRKECNELYSKANAEVTDNMICGGDVANGGKDSCQGDSGGPVVDVKNNQVVGIVSWGYGCARKGYPGVYTRVGNFIDWIEIKT 7pzp-a1-m1-cB_7pzp-a1-m1-cA Mitochondrial DNA dependent RNA polymerase homodimer. O00411 O00411 3.5 ELECTRON MICROSCOPY 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 988 990 SGQQQRLLAFFKCCLLTDQLPLAHHLLVVHHGQRQKRKLLTLDMYNAVMLGWARQGAFKELVYVLFMVKDAGLTPDLLSYAAALQCMGRQDQDAGTIERCLEQMSQEGLKLQALFTAVLLSEEDRATVLKAVHKVKPTFSLPPQLPPPVNTSKLLRDVYAKDGRVSYPKLHLPLKTLQCLFEKQLHMELASRVCVVSVEKPTLPSKEVKHARKTLKTLRDQWEKALCRALRETKNRLEREVYEGRFSLYPFLCLLDEREVVRMLLQVLQALPAQGESFTTLARELSARTFSRHVVQRQRVSGQVQALQNHYRKYLCLLASDAEVPEPCLPRQYWEELGAPEALREQPWPLPVQMELGKLLAEMLVQATQMPCSLDKPHRSSRLVPVLYHVYSFRNVQQIGILKPHPAYVQLLEKAAEPTLTFEAVDVPMLCPPLPWTSPHSGAFLLSPTKLMRTVEGATQHQELLETCPPTALHGALDALTQLGNCAWRVNGRVLDLVLQLFQAKGCPQLGVPAPPSEAPQPPEAHLPHSAAPARKAELRRELAHCQKVAREMHSLRAEALYRLSLAQHLRDRVFWLPHNMDFRGRTYPCPPHFNHLGSDVARALLEFAQGRPLGPHGLDWLKIHLVNLTGLKKREPLRKRLAFAEEVMDDILDSADQPLTGRKWWMGAEEPWQTLACCMEVANAVRASDPAAYVSHLPVHQDGSCNGLQHYAALGRDSVGAASVNLEPSDVPQDVYSGVAAQVEVFRRQDAQRGMRVAQVLEGFITRKVVKQTVMTVVYGVTRYGGRLQIEKRLRELSDFPQEFVWEASHYLVRQVFKSLQEMFSGTRAIQHWLTESARLISHMGSVVEWVTPLGVPVIQPYRLDKPNTRKQKNGFPPNFIHSLDSSHMMLTALHCYRKGLTFVSVHDCYWTHAADVSVMNQVCREQFVRLHSEPILQDLSRFLVKRFCSEPQKILEASQLKETLQAVPKPGAFDLEQVKRSTYFFS QLSGQQQRLLAFFKCCLLTDQLPLAHHLLVVHHGQRQKRKLLTLDMYNAVMLGWARQGAFKELVYVLFMVKDAGLTPDLLSYAAALQCMGRQDQDAGTIERCLEQMSQEGLKLQALFTAVLLSEEDRATVLKAVHKVKPTFSLPPQLPPPVNTSKLLRDVYAKDGRVSYPKLHLPLKTLQCLFEKQLHMELASRVCVVSVEKPTLPSKEVKHARKTLKTLRDQWEKALCRALRETKNRLEREVYEGRFSLYPFLCLLDEREVVRMLLQVLQALPAQGESFTTLARELSARTFSRHVVQRQRVSGQVQALQNHYRKYLCLLASDAEVPEPCLPRQYWEELGAPEALREQPWPLPVQMELGKLLAEMLVQATQMPCSLDKPHRSSRLVPVLYHVYSFRNVQQIGILKPHPAYVQLLEKAAEPTLTFEAVDVPMLCPPLPWTSPHSGAFLLSPTKLMRTVEGATQHQELLETCPPTALHGALDALTQLGNCAWRVNGRVLDLVLQLFQAKGCPQLGVPAPPSEAPQPPEAHLPHSAAPARKAELRRELAHCQKVAREMHSLRAEALYRLSLAQHLRDRVFWLPHNMDFRGRTYPCPPHFNHLGSDVARALLEFAQGRPLGPHGLDWLKIHLVNLTGLKKREPLRKRLAFAEEVMDDILDSADQPLTGRKWWMGAEEPWQTLACCMEVANAVRASDPAAYVSHLPVHQDGSCNGLQHYAALGRDSVGAASVNLEPSDVPQDVYSGVAAQVEVFRRQDAQRGMRVAQVLEGFITRKVVKQTVMTVVYGVTRYGGRLQIEKRLRELSDFPQEFVWEASHYLVRQVFKSLQEMFSGTRAIQHWLTESARLISHMGSVVEWVTPLGVPVIQPYRLDKPNTRKQKNGFPPNFIHSLDSSHMMLTALHCYRKGLTFVSVHDCYWTHAADVSVMNQVCREQFVRLHSEPILQDLSRFLVKRFCSEPQKILEASQLKETLQAVPKPGAFDLEQVKRSTYFFS 7q00-a1-m1-cA_7q00-a1-m1-cB Crystal structure of serine hydroxymethyltransferase, isoform 4 from Arabidopsis thaliana (SHM4) O23254 O23254 1.74 X-RAY DIFFRACTION 327 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 470 471 6smr-a1-m1-cB_6smr-a1-m1-cA 6smr-a1-m1-cC_6smr-a1-m1-cD 7q00-a1-m1-cC_7q00-a1-m1-cD AMEPVSSWGNTSLVSVDPEIHDLIEKEKRRQCRGIELIASENFTSFAVIEALGSALTNKYSEGIPGNRYYGGNEFIDEIENLCRSRALEAFHCDPAAWGVNVQPYSGSPANFAAYTALLQPHDRIMGLDLPSGGHLTHGYYTSGGKKISATSIYFESLPYKVNFTTGYIDYDKLEEKALDFRPKLLICGGSAYPRDWDYARFRAIADKVGALLLCDMAHISGLVAAQEAANPFEYCDVVTTTTHSLRGPRAGMIFYRKGPKPPKKGQPEGAVYDFEDKINFAVFPALQGGPHNHQIGALAVALKQANTPGFKVYAKQVKANAVALGNYLMSKGYQIVTNGTENHLVLWDLRPLGLTGNKVEKLCDLCSITLNKNAVFGDSSALAPGGVRIGAPAMTSRGLVEKDFEQIGEFLSRAVTLTLDIQKTYGKLLKDFNKGLVNNKDLDQLKADVEKFSASYEMPGFLMSEMKYK AMEPVSSWGNTSLVSVDPEIHDLIEKEKRRQCRGIELIASENFTSFAVIEALGSALTNKYSEGIPGNRYYGGNEFIDEIENLCRSRALEAFHCDPAAWGVNVQPYSGSPANFAAYTALLQPHDRIMGLDLPSGGHLTHGYYTSGGKKISATSIYFESLPYKVNFTTGYIDYDKLEEKALDFRPKLLICGGSAYPRDWDYARFRAIADKVGALLLCDMAHISGLVAAQEAANPFEYCDVVTTTTHSLRGPRAGMIFYRKGPKPPKKGQPEGAVYDFEDKINFAVFPALQGGPHNHQIGALAVALKQANTPGFKVYAKQVKANAVALGNYLMSKGYQIVTNGTENHLVLWDLRPLGLTGNKVEKLCDLCSITLNKNAVFGDSSALAPGGVRIGAPAMTSRGLVEKDFEQIGEFLSRAVTLTLDIQKTYGKLLKDFNKGLVNNKDLDQLKADVEKFSASYEMPGFLMSEMKYKD 7q00-a1-m1-cA_7q00-a1-m1-cD Crystal structure of serine hydroxymethyltransferase, isoform 4 from Arabidopsis thaliana (SHM4) O23254 O23254 1.74 X-RAY DIFFRACTION 23 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 470 471 6smr-a1-m1-cC_6smr-a1-m1-cB 6smr-a1-m1-cD_6smr-a1-m1-cA 7q00-a1-m1-cB_7q00-a1-m1-cC AMEPVSSWGNTSLVSVDPEIHDLIEKEKRRQCRGIELIASENFTSFAVIEALGSALTNKYSEGIPGNRYYGGNEFIDEIENLCRSRALEAFHCDPAAWGVNVQPYSGSPANFAAYTALLQPHDRIMGLDLPSGGHLTHGYYTSGGKKISATSIYFESLPYKVNFTTGYIDYDKLEEKALDFRPKLLICGGSAYPRDWDYARFRAIADKVGALLLCDMAHISGLVAAQEAANPFEYCDVVTTTTHSLRGPRAGMIFYRKGPKPPKKGQPEGAVYDFEDKINFAVFPALQGGPHNHQIGALAVALKQANTPGFKVYAKQVKANAVALGNYLMSKGYQIVTNGTENHLVLWDLRPLGLTGNKVEKLCDLCSITLNKNAVFGDSSALAPGGVRIGAPAMTSRGLVEKDFEQIGEFLSRAVTLTLDIQKTYGKLLKDFNKGLVNNKDLDQLKADVEKFSASYEMPGFLMSEMKYK AMEPVSSWGNTSLVSVDPEIHDLIEKEKRRQCRGIELIASENFTSFAVIEALGSALTNKYSEGIPGNRYYGGNEFIDEIENLCRSRALEAFHCDPAAWGVNVQPYSGSPANFAAYTALLQPHDRIMGLDLPSGGHLTHGYYTSGGKKISATSIYFESLPYKVNFTTGYIDYDKLEEKALDFRPKLLICGGSAYPRDWDYARFRAIADKVGALLLCDMAHISGLVAAQEAANPFEYCDVVTTTTHSLRGPRAGMIFYRKGPKPPKKGQPEGAVYDFEDKINFAVFPALQGGPHNHQIGALAVALKQANTPGFKVYAKQVKANAVALGNYLMSKGYQIVTNGTENHLVLWDLRPLGLTGNKVEKLCDLCSITLNKNAVFGDSSALAPGGVRIGAPAMTSRGLVEKDFEQIGEFLSRAVTLTLDIQKTYGKLLKDFNKGLVNNKDLDQLKADVEKFSASYEMPGFLMSEMKYKD 7q0a-a1-m1-cB_7q0a-a1-m1-cC SARS-CoV-2 Spike ectodomain with Fab FI3A P0DTC2 P0DTC2 4.8 ELECTRON MICROSCOPY 279 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 984 991 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSNLREFVFKNYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFEATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7q1g-a1-m1-cA_7q1g-a1-m2-cB Crystal structure and metal binding properties of the periplasmic iron component EfeM from Pseudomonas syringae EfeUOB/M iron-transport system Q4ZR20 Q4ZR20 1.6 X-RAY DIFFRACTION 44 1.0 205918 (Pseudomonas syringae pv. syringae B728a) 205918 (Pseudomonas syringae pv. syringae B728a) 251 251 ATAPLDLVGPVSDYKIYVTENIEELVSHTQKFTDAVKKGDIATAKKLYAPTRVYYESVEPIAELFSDLDASIDSRVDDHEQGVAAEDFTGFHRLEYALFSQNTTKDQGPIADKLLSDVKDLEKRVADLTFPPEKVVGGAAALLEEVAATKISGEEDRYSHTDLYDFQGNIDGAKKIVDLFRPQIEQQDKAFSSKVDKNFATVDKILAKYKTKDGGFETYDKVKENDRKALVGPVNTLAEDLSTLRGKLGLN ATAPLDLVGPVSDYKIYVTENIEELVSHTQKFTDAVKKGDIATAKKLYAPTRVYYESVEPIAELFSDLDASIDSRVDDHEQGVAAEDFTGFHRLEYALFSQNTTKDQGPIADKLLSDVKDLEKRVADLTFPPEKVVGGAAALLEEVAATKISGEEDRYSHTDLYDFQGNIDGAKKIVDLFRPQIEQQDKAFSSKVDKNFATVDKILAKYKTKDGGFETYDKVKENDRKALVGPVNTLAEDLSTLRGKLGLN 7q1q-a1-m1-cA_7q1q-a1-m1-cB De novo designed homo-dimeric antiparallel helices Homomer-S 1 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GQLEQEIAALNQQIAALKQRSAALKWQIQG GQLEQEIAALNQQIAALKQRSAALKWQIQG 7q1r-a1-m1-cA_7q1r-a1-m1-cB A de novo designed homo-dimeric antiparallel coiled coil apCC-Di 1.08 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 GQLEQELAALDQQIAALKQRRAALKWQIQG GQLEQELAALDQQIAALKQRRAALKWQIQG 7q3g-a1-m1-cD_7q3g-a1-m1-cE Pentameric ligand-gated ion channel, DeCLIC at pH 7 with 10 mM Ca2+ V4JF97 V4JF97 3.5 ELECTRON MICROSCOPY 189 1.0 1385624 (Desulfofustis sp. PB-SRB1) 1385624 (Desulfofustis sp. PB-SRB1) 517 517 7q3g-a1-m1-cA_7q3g-a1-m1-cB 7q3g-a1-m1-cA_7q3g-a1-m1-cE 7q3g-a1-m1-cB_7q3g-a1-m1-cC 7q3g-a1-m1-cC_7q3g-a1-m1-cD QNTGGNLDPAEEIDPAVSLGQVLEKALDLISELTAVADRIWDDDGGKGYSASLEFTIPRDSTITNQRLDKFQPTYTTGSFQSLEIKPEAHVQELEIRLDKDTRYLTQHTRNLQPGDTFHALVRLRLTDSGGKPLAFGLIDQPGESVELNYTCDQDICELVVHVDGTDGQKDSGEAVYRLLVGINAPNLRESGQTPVGSSVFLESDLVTVGLAVDQIVGVDQRSENFSVVGTLKLSWHDPKLGFSPDQCGCTVKSFEDASIRAVAGEINLPLPSFSFYNQQGNRWSQNQVIFVTPDGRASYFERFTVTLQAPDFDFLAYPFDRQKFSIKVDLAVPTNMFIFNEIERFQQVVGDQLGEEEWVVTSYSQEITEVPFERGSTNSRFTTTLLVKRNLEYYILRIFVPLFLIISVSWVIFFLKDYGRQLEVASGNLLVFVAFNFTISGDLPRLGYLTVLDRFMIVSFCLTAIVVLISVCQKRLGAVGKQAVAAQIDTWVLVIYPLVYSLYIIWVYLRFFTDHI QNTGGNLDPAEEIDPAVSLGQVLEKALDLISELTAVADRIWDDDGGKGYSASLEFTIPRDSTITNQRLDKFQPTYTTGSFQSLEIKPEAHVQELEIRLDKDTRYLTQHTRNLQPGDTFHALVRLRLTDSGGKPLAFGLIDQPGESVELNYTCDQDICELVVHVDGTDGQKDSGEAVYRLLVGINAPNLRESGQTPVGSSVFLESDLVTVGLAVDQIVGVDQRSENFSVVGTLKLSWHDPKLGFSPDQCGCTVKSFEDASIRAVAGEINLPLPSFSFYNQQGNRWSQNQVIFVTPDGRASYFERFTVTLQAPDFDFLAYPFDRQKFSIKVDLAVPTNMFIFNEIERFQQVVGDQLGEEEWVVTSYSQEITEVPFERGSTNSRFTTTLLVKRNLEYYILRIFVPLFLIISVSWVIFFLKDYGRQLEVASGNLLVFVAFNFTISGDLPRLGYLTVLDRFMIVSFCLTAIVVLISVCQKRLGAVGKQAVAAQIDTWVLVIYPLVYSLYIIWVYLRFFTDHI 7q3u-a1-m1-cA_7q3u-a1-m1-cC Cryo-EM structure of TDP43 core peptide amyloid fiber Q13148 Q13148 3.7 ELECTRON MICROSCOPY 312 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 7q3u-a1-m1-cA_7q3u-a1-m1-cB 7q3u-a1-m1-cA_7q3u-a1-m1-cD 7q3u-a1-m1-cB_7q3u-a1-m1-cC 7q3u-a1-m1-cB_7q3u-a1-m1-cD 7q3u-a1-m1-cB_7q3u-a1-m1-cE 7q3u-a1-m1-cD_7q3u-a1-m1-cE GGFGNQGGFGNSRGGGAGLGNNQGSNMGGGMNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSG GGFGNQGGFGNSRGGGAGLGNNQGSNMGGGMNFGAFSINPAMMAAAQAALQSSWGMMGMLASQQNQSGPSG 7q4a-a1-m1-cA_7q4a-a1-m1-cB Toxoplasma gondii PRP4K kinase domain (L715F) bound to altiratinib S7UT92 S7UT92 2.31 X-RAY DIFFRACTION 27 0.991 5811 (Toxoplasma gondii) 5811 (Toxoplasma gondii) 334 345 WNDSEGYYQATVGELLDDGRYRVESEAIGKGVFSNVLKCYDLQEKRFVAIKCIRHNDMMKKAAEKETSILRLLNSTDKDDKRHIVRLLRHFEYRGHFCLVFEWLWGNLRTALKKYGGGKGLNAPAIHAYSKQLFVALKHLSRCRIIHADLKPDNILLNEKFSSLKVCDFGSASDVSDNEITALVSRFYRAPEIILGCRYDLQIDVWSAAATIYELATGQVLFPGRTNNDMLKCIMEVKGKIPTKMIKAGQLSSHHFDENLDFIYRDRKKEVTRVLHDLRPTRNLTENLIEKKINFLRRKMRQLGDLLEKCLALDPQKRLTPDEALQHPFLKESI NWNDSEGYYQATVGELLDDGRYRVESEAIGKGVFSNVLKCYDLQEKRFVAIKCIRHNDMMKKAAEKETSILRLLNSTDKDDKRHIVRLLRHFEYRGHFCLVFEWLWGNLRTALKKYGGGKGLNAPAIHAYSKQLFVALKHLSRCRIIHADLKPDNILLNEKFSSLKVCDFGSASDVSDNEITALVSRFYRAPEIILGCRYDLQIDVWSAAATIYELATGQVLFPGRTNNDMLKCIMEVKGKIPTKMIKAGQLSSHHFDENLDFIYRDRDAFFKKEVTRVLHDLRPTRNLTENLIEKQHWLKGNSPKINFLRRKMRQLGDLLEKCLALDPQKRLTPDEALQHPFLK 7q4i-a1-m1-cA_7q4i-a1-m1-cB Crystal structure of DmC1GalT1 in complex with UDP-Mn2+ and the APD-TGalNAc-RP Q7K237 Q7K237 2.4 X-RAY DIFFRACTION 150 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 279 281 ENSTIAERLYSEVRVLCWIMTNPSNHQKKARHVKRTWGKRCNKLIFMSSAKDDELDAVALPVGEGRNNLWGKTKEAYKYIYEHHINDADWFLKADDDTYTIVENMRYMLYPYSPETPVYFGCKFKPYVKQGYMSGGAGYVLSREAVRRFVVEALPNPKLCKSDNSGAEDVEIGKCLQNVNVLAGDSRDSNGRGRFFPFVPEHHLIPSHTDKKFWYWQYIFYKTDEGLDCCSDNAISFHYVSPNQMYVLDYLIYHLRPYGIINTPDALPNKLAVGELMPE HENSTIAERLYSEVRVLCWIMTNPSNHQKKARHVKRTWGKRCNKLIFMSSAKDDELDAVALPVGEGRNNLWGKTKEAYKYIYEHHINDADWFLKADDDTYTIVENMRYMLYPYSPETPVYFGCKFKPYVKQGYMSGGAGYVLSREAVRRFVVEALPNPKLCKSDNSGAEDVEIGKCLQNVNVLAGDSRDSNGRGRFFPFVPEHHLIPSHTDKKFWYWQYIFYKTDEGLDCCSDNAISFHYVSPNQMYVLDYLIYHLRPYGIINTPDALPNKLAVGELMPEI 7q4j-a1-m1-cB_7q4j-a1-m1-cA A thermostable lipase from Thermoanaerobacter thermohydrosulfuricus in complex a monoacylglycerol intermediate 1.91 X-RAY DIFFRACTION 58 0.983 1516 (Thermoanaerobacter thermohydrosulfuricus) 1516 (Thermoanaerobacter thermohydrosulfuricus) 233 237 7q4h-a1-m1-cB_7q4h-a1-m1-cA QAVEITYNGKTLRGHLPDDVGKVPVIFHGFTGNKVESHFIFVKSRALEVGIGSVRFDFYGSGESDGDFSETFSSELEDARQILFVKEQPTTDPERIGLLGLSGGAIAGIVAREYDEIALVLWAPAFNPELINESVQYGAIEQLGFVDIGGHLSKDFVEDISKLNIFELSKGYDVLIVHGTNDEAVEYVSDRILKEVYGDNATRVTIENADHTFSLEWEKAIEESVEFFELLKG QKAVEITYNGTLRGHLPDDVKGKVPVIFHGFTGNKVESHFIFVKSRALEKVGIGSVRFDFYGSGESDGDFSETFSSELEDARQILFVEQPTTDPERIGLLGLSGGAIAGIVAREYDEIKALVLWAPAFNPELINESVKQYGAIEQLGFVDIGGHLSKDFVEDISKLNIFELSKGYDKVLIVHGTNDEAVEYVSDRILKEVYGDNATRVTIENADHTFSLEWEAIEESVEFFKELLKG 7q4w-a1-m1-cA_7q4w-a1-m1-cE CryoEM structure of electron bifurcating Fe-Fe hydrogenase HydABC complex A. woodii in the oxidised state H6LFG3 H6LFG3 3.78 ELECTRON MICROSCOPY 96 1.0 931626 (Acetobacterium woodii DSM 1030) 931626 (Acetobacterium woodii DSM 1030) 583 583 7q4v-a1-m1-cA_7q4v-a1-m1-cE 8a5e-a1-m1-cA_8a5e-a1-m1-cD MKEITFKINGQEMIVPEGTTILEAARMNNIDIPTLCYLKDINEIGACRMCLVEIAGARALQAACVYPVANGIEVLTNSPKVREARRVNLELILSNHNRECTTCIRSENCELQTLATDLGVSDIPFEGEKSGKLIDDLSTSVVRDESKCILCKRCVSVCRDVQSVAVLGTVGRGFTSQVQPVFNKSLADVGCINCGQCIINCPVGALKEKSDIQRVWDAIADPSKTVIVQTAPAVRAALGEEFGYPMGTSVTGKMAAALRRLGFDKVFDTDFGADVCIMEEGTELIGRVTNGGVLPMITSCSPGWIKFIETYYPEAIPHLSSCKSPQNITGALLKNHYAQTNNIDPKDMVVVSIMPCTAKKYEVQREELCTDGNADVDISITTRELARMIKEARILFNKLPDEDFDDYYGESTGAAVIFGATGGVMEAAVRTVADVLNKKDIQEIDYQIVRGVDGIKKASVEVTPDLTVNLVVAHGGANIREVMEQLKAGELADTHFIELMACPGGCVNGGGQPIVSAKDKMDIDIRTERAKALYDEDANVLTYRKSHQNPSVIRLYEEYLEEPNSPKAHHILHTKYSAKPKLV MKEITFKINGQEMIVPEGTTILEAARMNNIDIPTLCYLKDINEIGACRMCLVEIAGARALQAACVYPVANGIEVLTNSPKVREARRVNLELILSNHNRECTTCIRSENCELQTLATDLGVSDIPFEGEKSGKLIDDLSTSVVRDESKCILCKRCVSVCRDVQSVAVLGTVGRGFTSQVQPVFNKSLADVGCINCGQCIINCPVGALKEKSDIQRVWDAIADPSKTVIVQTAPAVRAALGEEFGYPMGTSVTGKMAAALRRLGFDKVFDTDFGADVCIMEEGTELIGRVTNGGVLPMITSCSPGWIKFIETYYPEAIPHLSSCKSPQNITGALLKNHYAQTNNIDPKDMVVVSIMPCTAKKYEVQREELCTDGNADVDISITTRELARMIKEARILFNKLPDEDFDDYYGESTGAAVIFGATGGVMEAAVRTVADVLNKKDIQEIDYQIVRGVDGIKKASVEVTPDLTVNLVVAHGGANIREVMEQLKAGELADTHFIELMACPGGCVNGGGQPIVSAKDKMDIDIRTERAKALYDEDANVLTYRKSHQNPSVIRLYEEYLEEPNSPKAHHILHTKYSAKPKLV 7q5b-a1-m1-cA_7q5b-a1-m1-cB Cryo-EM structure of Ty3 retrotransposon targeting a TFIIIB-bound tRNA gene Q99315 Q99315 3.98 ELECTRON MICROSCOPY 144 0.99 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 418 482 SYYKSDPLCSAVLIHMKELTQHNVTPEDMSAFRSYQKKLELSETFRKNYSLEDEMIYYQDRLVVPIKQQNAVMRLYHDHTLFGGHFGVTVTLAKISPIYYWPKLQHSIIQYIRTCVQCQLIKSHRPRLHGLLQPLPIAEGRWLDISMDFVTGLPPTSNNLNMILVVVDRFSKRAHFIATRKATQLIDLLFRYIFSYHGFPRTITSDRDVRMTADKYQELTKRLGIKSTMSSANHPQTDGQSERTIQTLNRLLRAYASTNIQNWHVYLPQIEFVYNSTPTRTLGKSPFEIDLGYLPNTPAIKSDDEVNARSFTAVELAKHLKALTIQTKEQLEHAQIEMETNNNQRRKPLLLNIGDHVLVHRDAYFKKGAYMKVQQIYVGPFRVVKKINDNAYELDLNSHKKKHRVINVQFLKKFVYRP SYYKSDPLCSAVLIHMKELTQHNVTPEDMSAFRSYQKKLELSETFRKNYSLEDEMIYYQDRLVVPIKQQNAVMRLYHDHTLFGGHFGVTVTLAKISPIYYWPKLQHSIIQYIRTCVQCQLIKSHRPRLHGLLQPLPIAEGRWLDISMDFVTGLPPTSNNLNMILVVVDRFSKRAHFIATRKTLDATQLIDLLFRYIFSYHGFPRTITSDRDVRMTADKYQELTKRLGIKSTMSSANHPQTDGQSERTIQTLNRLLRAYASTNIQNWHVYLPQIEFVYNSTPTRTLGKSPFEIDLGYLPNTPAIKSDDEVNARSFTAVELAKHLKALTIQTKEQLEHAQIEMETNNNQRRKPLLLNIGDHVLVHRDAYFYMKVQQIYVGPFRVVKKINDNAYELDLNSHKKKHRVINVQFLKKFVYRPYPKNKPISSTERIKRAHEVTALIGIDTTHKTYLCHMQDVDPTLSVEYSEAEFCQIPERTRRSILA 7q5b-a1-m1-cD_7q5b-a1-m1-cA Cryo-EM structure of Ty3 retrotransposon targeting a TFIIIB-bound tRNA gene Q99315 Q99315 3.98 ELECTRON MICROSCOPY 10 0.991 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 334 418 SYYKSDPLCSAVLIHMKELTQHNVTPEDMSAFRSYQKKLELSETFRKNYSLEDEMIYYQDRLVVPIKQQNAVMRLYHDHTLFGGHFGVTVTLAKISPIYYWPKLQHSIIQYIRTCVQCQLIKSLQPLPIAEGRWLDISMDFVTGLPPTSNNLNMILVVVDRFSKRAHFIATRKTLDQLIDLLFRYIFSYHGFPRTITSDRDVRMTADKYQELTKRLGIKSTMSSANHPQTDGQSERTIQTLNRLLRAYASTNIQNWHVYLPQIEFVYNSTPTRTLGKSPFEIDLGYLPNTPAIKSDDEVNATAVELAKHLKALTIQTKEQLEHAQIEMETNNNQ SYYKSDPLCSAVLIHMKELTQHNVTPEDMSAFRSYQKKLELSETFRKNYSLEDEMIYYQDRLVVPIKQQNAVMRLYHDHTLFGGHFGVTVTLAKISPIYYWPKLQHSIIQYIRTCVQCQLIKSHRPRLHGLLQPLPIAEGRWLDISMDFVTGLPPTSNNLNMILVVVDRFSKRAHFIATRKATQLIDLLFRYIFSYHGFPRTITSDRDVRMTADKYQELTKRLGIKSTMSSANHPQTDGQSERTIQTLNRLLRAYASTNIQNWHVYLPQIEFVYNSTPTRTLGKSPFEIDLGYLPNTPAIKSDDEVNARSFTAVELAKHLKALTIQTKEQLEHAQIEMETNNNQRRKPLLLNIGDHVLVHRDAYFKKGAYMKVQQIYVGPFRVVKKINDNAYELDLNSHKKKHRVINVQFLKKFVYRP 7q5b-a1-m1-cD_7q5b-a1-m1-cB Cryo-EM structure of Ty3 retrotransposon targeting a TFIIIB-bound tRNA gene Q99315 Q99315 3.98 ELECTRON MICROSCOPY 164 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 334 482 SYYKSDPLCSAVLIHMKELTQHNVTPEDMSAFRSYQKKLELSETFRKNYSLEDEMIYYQDRLVVPIKQQNAVMRLYHDHTLFGGHFGVTVTLAKISPIYYWPKLQHSIIQYIRTCVQCQLIKSLQPLPIAEGRWLDISMDFVTGLPPTSNNLNMILVVVDRFSKRAHFIATRKTLDQLIDLLFRYIFSYHGFPRTITSDRDVRMTADKYQELTKRLGIKSTMSSANHPQTDGQSERTIQTLNRLLRAYASTNIQNWHVYLPQIEFVYNSTPTRTLGKSPFEIDLGYLPNTPAIKSDDEVNATAVELAKHLKALTIQTKEQLEHAQIEMETNNNQ SYYKSDPLCSAVLIHMKELTQHNVTPEDMSAFRSYQKKLELSETFRKNYSLEDEMIYYQDRLVVPIKQQNAVMRLYHDHTLFGGHFGVTVTLAKISPIYYWPKLQHSIIQYIRTCVQCQLIKSHRPRLHGLLQPLPIAEGRWLDISMDFVTGLPPTSNNLNMILVVVDRFSKRAHFIATRKTLDATQLIDLLFRYIFSYHGFPRTITSDRDVRMTADKYQELTKRLGIKSTMSSANHPQTDGQSERTIQTLNRLLRAYASTNIQNWHVYLPQIEFVYNSTPTRTLGKSPFEIDLGYLPNTPAIKSDDEVNARSFTAVELAKHLKALTIQTKEQLEHAQIEMETNNNQRRKPLLLNIGDHVLVHRDAYFYMKVQQIYVGPFRVVKKINDNAYELDLNSHKKKHRVINVQFLKKFVYRPYPKNKPISSTERIKRAHEVTALIGIDTTHKTYLCHMQDVDPTLSVEYSEAEFCQIPERTRRSILA 7q5n-a2-m1-cC_7q5n-a2-m1-cD Crystal structure of Chaetomium thermophilum Ahp1-Urm1 complex G0S1P8 G0S1P8 2.5 X-RAY DIFFRACTION 59 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 168 169 7q5n-a1-m1-cA_7q5n-a1-m1-cB 7q5n-a3-m1-cF_7q5n-a3-m1-cE 7q68-a1-m1-cA_7q68-a1-m2-cA 7q69-a1-m1-cB_7q69-a1-m1-cA 7q69-a2-m1-cD_7q69-a2-m1-cC 7q6a-a1-m1-cB_7q6a-a1-m1-cA MAPLQPGDSFPANVVFSYIPPTGSLDLTVSGRPIEYNASEALAKGTSVLVAVPGAFTPTQEKHVTGFIAKLDQLRQAGVDRVLFIASNDAFVMSAWGKANGIKDESILFLSDSDTAFSSSIGWANAGRTGRYAIVVKDGKVVYAAVDTVRGSTEKSGVDAVLTVLGNQ MAPLQPGDSFPANVVFSYIPPTGSLDLTVSGRPIEYNASEALAKGTSVLVAVPGAFTPTQEKHVTGFIAKLDQLRQAGVDRVLFIASNDAFVMSAWGKANGIKDESILFLSDSDTAFSSSIGWANAGRTGRYAIVVKDGKVVYAAVDTVRGSTEKSGVDAVLTVLGNQG 7q5p-a1-m1-cB_7q5p-a1-m1-cC Structure of VgrG1 from Pseudomonas protegens. Q4K3N1 Q4K3N1 3.3 ELECTRON MICROSCOPY 727 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 627 627 7q5p-a1-m1-cA_7q5p-a1-m1-cB 7q5p-a1-m1-cA_7q5p-a1-m1-cC RLAQVNCPLGPDVLLLKSLGGGEELGRLFDYQLQLASSDANIDLNQLLGKPMGLSVQLDGGGQRYFHGIVARCSQNIDTGQFASYEVTLRPWLWLLSRTSDCRIFQNLSIPQIIKQVFRDLGFSDFEDALSRPYREWEYCVQYRETSFDFVSRLMEQEGIYYFFRHEKDRHVVVLADAYGAHSSVPGYASVPYYPRDEQQRERDHMFDWHLAQEVQPGSLELNDYDFQRPSARIDVRSAMPRPHSAGDYPLYDYPGTYVQSSDGEHYAQTRIEALQSLHERIELSGNARGLGVGNLFSLTGFSRQDQNREYLIVSIRYYLVQESAQFESHLTCIDAQQSFRPLATTHKPMVQGPQTARVVGPAGEEIWTDQYGRVKVHFHWDRHDQSNENSSCWIRVSQAWAGKNWGSMQIPRIGQEVIVSFLEGDPDRPIITGRVYNAEQTVPYDLPANATQSGMKSRSSKGGSPANFNEIRMEDKKGAEQLYIHAERNQDIVVEVNESHSVGNNRNKSIGHDEYVTIGNKRTRIVQHVDELRVGEKKLDSVGQSYVIEVGERLRLVCGASILELNASGQINLCGVNISVHASADAQINTGGVLHLNNGGGPGTTTEGQGVQGAISAKAKAPFSAP RLAQVNCPLGPDVLLLKSLGGGEELGRLFDYQLQLASSDANIDLNQLLGKPMGLSVQLDGGGQRYFHGIVARCSQNIDTGQFASYEVTLRPWLWLLSRTSDCRIFQNLSIPQIIKQVFRDLGFSDFEDALSRPYREWEYCVQYRETSFDFVSRLMEQEGIYYFFRHEKDRHVVVLADAYGAHSSVPGYASVPYYPRDEQQRERDHMFDWHLAQEVQPGSLELNDYDFQRPSARIDVRSAMPRPHSAGDYPLYDYPGTYVQSSDGEHYAQTRIEALQSLHERIELSGNARGLGVGNLFSLTGFSRQDQNREYLIVSIRYYLVQESAQFESHLTCIDAQQSFRPLATTHKPMVQGPQTARVVGPAGEEIWTDQYGRVKVHFHWDRHDQSNENSSCWIRVSQAWAGKNWGSMQIPRIGQEVIVSFLEGDPDRPIITGRVYNAEQTVPYDLPANATQSGMKSRSSKGGSPANFNEIRMEDKKGAEQLYIHAERNQDIVVEVNESHSVGNNRNKSIGHDEYVTIGNKRTRIVQHVDELRVGEKKLDSVGQSYVIEVGERLRLVCGASILELNASGQINLCGVNISVHASADAQINTGGVLHLNNGGGPGTTTEGQGVQGAISAKAKAPFSAP 7q5s-a1-m1-cA_7q5s-a1-m1-cL Protein community member fatty acid synthase complex from C. thermophilum G0S866 G0S866 4.47 ELECTRON MICROSCOPY 16 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 1550 1550 7q5s-a1-m1-cD_7q5s-a1-m1-cJ 7q5s-a1-m1-cF_7q5s-a1-m1-cH MRPEVEQELAHTLLVELLAYQFASPVRWIETQDVFLAEQMAERIVEIGPADTLSVMAKRTLASKYEAYDAAKSAQRQILCYSKDAKEIYYPAALEALTSDQKALFKQQLELIARYLKLDIRAGDKAYQASQESAKVLQSQLDLWLAEHGDFYASGIEPVFSPLKARVYDSSWNWARQDALSMYYDIIFGRLKTVDREIVSQCIRIMNRANPTLLEFMQYHIDNCPTDRGETYQLAKELGAQLIENCKEVLNANPVYKDVAIPTGPKTTIDARGNLKYEEVPRPSCRKLEHYVQQMAAGGKISEYTIPFLHLRKKSVMGWEYNKKLTSLYLDCLEKAARDGLTFAGKYALMTGAGAGSIGAEVLQGLISGGAHVIVTTSRYSREVTEYYQSMYSRYGARGSQLVVVPFNQGSVQDVNALVEYIYDTKNGLGWDLDYIVPFAAISEQGRQIDGIDSKSELAHRIMLTNLIRLLGAVKTQKASRGYETRPAQVILPLSPNHGTFGSDGLYSESKLGLETLFNRWESENWSNYLTICGAIIGWTRGTGLMSGNNIVAEAVEKFGVRTFSQQEMAFNLLGLMAPTIVDLCQNEPVCADLNGGLQFIPNLNELMTRERKNLTETSEIRQAVTKETAAENKVVNGEASEALYKKKIIERRANIKFDFPPLPDWKKDIQPLNDKLKGMVDLEKVIVVTGFAEVGPWGNSRTRWEMEAYGEFSLEGCIEMAWIMGLIKNYNGLIKGKPYSGWVDAKTGEPVDDKDVKPKYEKYILEHSGIRLIEPELFGGYDPNKKQLLHEVVIQEDLDPFQCSAETAEQFKREHGDKVEIFEIPESGEYTVRFKKGATLWIPKALRFDRLVAGQIPTGWDAKRYGIPDDIIQQVDPVCLFVLVSTVEALLSSGITDPYEFYKYVHVSELGNCIGSGMGGATALRGMHRDRFLDKPLQNDILQESFINTMSAWVNMLLLSSSGPIKTPVAACATAVESVDVGVETILEGKARICLVGGFDDFGEEGSYEFANMKATSNAVDEFAHGRTPQEMSRPTTTTRNGFMESQGSGVQVIMTAKLALEMGVPIYGILALTTTASDKIGRSVPAPGQGVLTTAREHRGKFPSPLLDINYRRRQIERRTKQVMEEKEAEFEYLAAEIEALKAEGRPQSEIEEYAAHRAAHIEKTAEKQAKEILRSFGNFFWKNDPTIAPLRGALAVWGLTIDDLDVASFHGTSTKANDKNESSVICQQLAHLGRKKGNAVLGIFQKYLTGHPKGAAGAWMLNGCLQVLNTGLVPGNRNADNVDKVMEQFDYIVYPNRSIQTDGIKAFSVTSFGFGQKGAQCIGVHPKYLYATLDEQTYNEYCTKVQARQKKAYRYFHNGLINNTLFQAKEKAPYTDEQLSAVLLNPDARVVEDKKTGQLIFPPNFMVSLESVLSREARRLESVNTRVGVDVEDISAINTDNDTFLDRNFTEAEQKYCLASKSGRSPQKAFAGRWTAKEAVFKALGVSSKGAGAALKDIEILVDENGAPTVSLHGAAAEAAKKAGIKSVSVSISYTDSQAAAIATAQL MRPEVEQELAHTLLVELLAYQFASPVRWIETQDVFLAEQMAERIVEIGPADTLSVMAKRTLASKYEAYDAAKSAQRQILCYSKDAKEIYYPAALEALTSDQKALFKQQLELIARYLKLDIRAGDKAYQASQESAKVLQSQLDLWLAEHGDFYASGIEPVFSPLKARVYDSSWNWARQDALSMYYDIIFGRLKTVDREIVSQCIRIMNRANPTLLEFMQYHIDNCPTDRGETYQLAKELGAQLIENCKEVLNANPVYKDVAIPTGPKTTIDARGNLKYEEVPRPSCRKLEHYVQQMAAGGKISEYTIPFLHLRKKSVMGWEYNKKLTSLYLDCLEKAARDGLTFAGKYALMTGAGAGSIGAEVLQGLISGGAHVIVTTSRYSREVTEYYQSMYSRYGARGSQLVVVPFNQGSVQDVNALVEYIYDTKNGLGWDLDYIVPFAAISEQGRQIDGIDSKSELAHRIMLTNLIRLLGAVKTQKASRGYETRPAQVILPLSPNHGTFGSDGLYSESKLGLETLFNRWESENWSNYLTICGAIIGWTRGTGLMSGNNIVAEAVEKFGVRTFSQQEMAFNLLGLMAPTIVDLCQNEPVCADLNGGLQFIPNLNELMTRERKNLTETSEIRQAVTKETAAENKVVNGEASEALYKKKIIERRANIKFDFPPLPDWKKDIQPLNDKLKGMVDLEKVIVVTGFAEVGPWGNSRTRWEMEAYGEFSLEGCIEMAWIMGLIKNYNGLIKGKPYSGWVDAKTGEPVDDKDVKPKYEKYILEHSGIRLIEPELFGGYDPNKKQLLHEVVIQEDLDPFQCSAETAEQFKREHGDKVEIFEIPESGEYTVRFKKGATLWIPKALRFDRLVAGQIPTGWDAKRYGIPDDIIQQVDPVCLFVLVSTVEALLSSGITDPYEFYKYVHVSELGNCIGSGMGGATALRGMHRDRFLDKPLQNDILQESFINTMSAWVNMLLLSSSGPIKTPVAACATAVESVDVGVETILEGKARICLVGGFDDFGEEGSYEFANMKATSNAVDEFAHGRTPQEMSRPTTTTRNGFMESQGSGVQVIMTAKLALEMGVPIYGILALTTTASDKIGRSVPAPGQGVLTTAREHRGKFPSPLLDINYRRRQIERRTKQVMEEKEAEFEYLAAEIEALKAEGRPQSEIEEYAAHRAAHIEKTAEKQAKEILRSFGNFFWKNDPTIAPLRGALAVWGLTIDDLDVASFHGTSTKANDKNESSVICQQLAHLGRKKGNAVLGIFQKYLTGHPKGAAGAWMLNGCLQVLNTGLVPGNRNADNVDKVMEQFDYIVYPNRSIQTDGIKAFSVTSFGFGQKGAQCIGVHPKYLYATLDEQTYNEYCTKVQARQKKAYRYFHNGLINNTLFQAKEKAPYTDEQLSAVLLNPDARVVEDKKTGQLIFPPNFMVSLESVLSREARRLESVNTRVGVDVEDISAINTDNDTFLDRNFTEAEQKYCLASKSGRSPQKAFAGRWTAKEAVFKALGVSSKGAGAALKDIEILVDENGAPTVSLHGAAAEAAKKAGIKSVSVSISYTDSQAAAIATAQL 7q5s-a1-m1-cD_7q5s-a1-m1-cL Protein community member fatty acid synthase complex from C. thermophilum G0S866 G0S866 4.47 ELECTRON MICROSCOPY 358 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 1550 1550 7q5s-a1-m1-cA_7q5s-a1-m1-cH 7q5s-a1-m1-cF_7q5s-a1-m1-cJ MRPEVEQELAHTLLVELLAYQFASPVRWIETQDVFLAEQMAERIVEIGPADTLSVMAKRTLASKYEAYDAAKSAQRQILCYSKDAKEIYYPAALEALTSDQKALFKQQLELIARYLKLDIRAGDKAYQASQESAKVLQSQLDLWLAEHGDFYASGIEPVFSPLKARVYDSSWNWARQDALSMYYDIIFGRLKTVDREIVSQCIRIMNRANPTLLEFMQYHIDNCPTDRGETYQLAKELGAQLIENCKEVLNANPVYKDVAIPTGPKTTIDARGNLKYEEVPRPSCRKLEHYVQQMAAGGKISEYTIPFLHLRKKSVMGWEYNKKLTSLYLDCLEKAARDGLTFAGKYALMTGAGAGSIGAEVLQGLISGGAHVIVTTSRYSREVTEYYQSMYSRYGARGSQLVVVPFNQGSVQDVNALVEYIYDTKNGLGWDLDYIVPFAAISEQGRQIDGIDSKSELAHRIMLTNLIRLLGAVKTQKASRGYETRPAQVILPLSPNHGTFGSDGLYSESKLGLETLFNRWESENWSNYLTICGAIIGWTRGTGLMSGNNIVAEAVEKFGVRTFSQQEMAFNLLGLMAPTIVDLCQNEPVCADLNGGLQFIPNLNELMTRERKNLTETSEIRQAVTKETAAENKVVNGEASEALYKKKIIERRANIKFDFPPLPDWKKDIQPLNDKLKGMVDLEKVIVVTGFAEVGPWGNSRTRWEMEAYGEFSLEGCIEMAWIMGLIKNYNGLIKGKPYSGWVDAKTGEPVDDKDVKPKYEKYILEHSGIRLIEPELFGGYDPNKKQLLHEVVIQEDLDPFQCSAETAEQFKREHGDKVEIFEIPESGEYTVRFKKGATLWIPKALRFDRLVAGQIPTGWDAKRYGIPDDIIQQVDPVCLFVLVSTVEALLSSGITDPYEFYKYVHVSELGNCIGSGMGGATALRGMHRDRFLDKPLQNDILQESFINTMSAWVNMLLLSSSGPIKTPVAACATAVESVDVGVETILEGKARICLVGGFDDFGEEGSYEFANMKATSNAVDEFAHGRTPQEMSRPTTTTRNGFMESQGSGVQVIMTAKLALEMGVPIYGILALTTTASDKIGRSVPAPGQGVLTTAREHRGKFPSPLLDINYRRRQIERRTKQVMEEKEAEFEYLAAEIEALKAEGRPQSEIEEYAAHRAAHIEKTAEKQAKEILRSFGNFFWKNDPTIAPLRGALAVWGLTIDDLDVASFHGTSTKANDKNESSVICQQLAHLGRKKGNAVLGIFQKYLTGHPKGAAGAWMLNGCLQVLNTGLVPGNRNADNVDKVMEQFDYIVYPNRSIQTDGIKAFSVTSFGFGQKGAQCIGVHPKYLYATLDEQTYNEYCTKVQARQKKAYRYFHNGLINNTLFQAKEKAPYTDEQLSAVLLNPDARVVEDKKTGQLIFPPNFMVSLESVLSREARRLESVNTRVGVDVEDISAINTDNDTFLDRNFTEAEQKYCLASKSGRSPQKAFAGRWTAKEAVFKALGVSSKGAGAALKDIEILVDENGAPTVSLHGAAAEAAKKAGIKSVSVSISYTDSQAAAIATAQL MRPEVEQELAHTLLVELLAYQFASPVRWIETQDVFLAEQMAERIVEIGPADTLSVMAKRTLASKYEAYDAAKSAQRQILCYSKDAKEIYYPAALEALTSDQKALFKQQLELIARYLKLDIRAGDKAYQASQESAKVLQSQLDLWLAEHGDFYASGIEPVFSPLKARVYDSSWNWARQDALSMYYDIIFGRLKTVDREIVSQCIRIMNRANPTLLEFMQYHIDNCPTDRGETYQLAKELGAQLIENCKEVLNANPVYKDVAIPTGPKTTIDARGNLKYEEVPRPSCRKLEHYVQQMAAGGKISEYTIPFLHLRKKSVMGWEYNKKLTSLYLDCLEKAARDGLTFAGKYALMTGAGAGSIGAEVLQGLISGGAHVIVTTSRYSREVTEYYQSMYSRYGARGSQLVVVPFNQGSVQDVNALVEYIYDTKNGLGWDLDYIVPFAAISEQGRQIDGIDSKSELAHRIMLTNLIRLLGAVKTQKASRGYETRPAQVILPLSPNHGTFGSDGLYSESKLGLETLFNRWESENWSNYLTICGAIIGWTRGTGLMSGNNIVAEAVEKFGVRTFSQQEMAFNLLGLMAPTIVDLCQNEPVCADLNGGLQFIPNLNELMTRERKNLTETSEIRQAVTKETAAENKVVNGEASEALYKKKIIERRANIKFDFPPLPDWKKDIQPLNDKLKGMVDLEKVIVVTGFAEVGPWGNSRTRWEMEAYGEFSLEGCIEMAWIMGLIKNYNGLIKGKPYSGWVDAKTGEPVDDKDVKPKYEKYILEHSGIRLIEPELFGGYDPNKKQLLHEVVIQEDLDPFQCSAETAEQFKREHGDKVEIFEIPESGEYTVRFKKGATLWIPKALRFDRLVAGQIPTGWDAKRYGIPDDIIQQVDPVCLFVLVSTVEALLSSGITDPYEFYKYVHVSELGNCIGSGMGGATALRGMHRDRFLDKPLQNDILQESFINTMSAWVNMLLLSSSGPIKTPVAACATAVESVDVGVETILEGKARICLVGGFDDFGEEGSYEFANMKATSNAVDEFAHGRTPQEMSRPTTTTRNGFMESQGSGVQVIMTAKLALEMGVPIYGILALTTTASDKIGRSVPAPGQGVLTTAREHRGKFPSPLLDINYRRRQIERRTKQVMEEKEAEFEYLAAEIEALKAEGRPQSEIEEYAAHRAAHIEKTAEKQAKEILRSFGNFFWKNDPTIAPLRGALAVWGLTIDDLDVASFHGTSTKANDKNESSVICQQLAHLGRKKGNAVLGIFQKYLTGHPKGAAGAWMLNGCLQVLNTGLVPGNRNADNVDKVMEQFDYIVYPNRSIQTDGIKAFSVTSFGFGQKGAQCIGVHPKYLYATLDEQTYNEYCTKVQARQKKAYRYFHNGLINNTLFQAKEKAPYTDEQLSAVLLNPDARVVEDKKTGQLIFPPNFMVSLESVLSREARRLESVNTRVGVDVEDISAINTDNDTFLDRNFTEAEQKYCLASKSGRSPQKAFAGRWTAKEAVFKALGVSSKGAGAALKDIEILVDENGAPTVSLHGAAAEAAKKAGIKSVSVSISYTDSQAAAIATAQL 7q5s-a1-m1-cF_7q5s-a1-m1-cL Protein community member fatty acid synthase complex from C. thermophilum G0S866 G0S866 4.47 ELECTRON MICROSCOPY 157 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 1550 1550 7q5s-a1-m1-cA_7q5s-a1-m1-cJ 7q5s-a1-m1-cD_7q5s-a1-m1-cH MRPEVEQELAHTLLVELLAYQFASPVRWIETQDVFLAEQMAERIVEIGPADTLSVMAKRTLASKYEAYDAAKSAQRQILCYSKDAKEIYYPAALEALTSDQKALFKQQLELIARYLKLDIRAGDKAYQASQESAKVLQSQLDLWLAEHGDFYASGIEPVFSPLKARVYDSSWNWARQDALSMYYDIIFGRLKTVDREIVSQCIRIMNRANPTLLEFMQYHIDNCPTDRGETYQLAKELGAQLIENCKEVLNANPVYKDVAIPTGPKTTIDARGNLKYEEVPRPSCRKLEHYVQQMAAGGKISEYTIPFLHLRKKSVMGWEYNKKLTSLYLDCLEKAARDGLTFAGKYALMTGAGAGSIGAEVLQGLISGGAHVIVTTSRYSREVTEYYQSMYSRYGARGSQLVVVPFNQGSVQDVNALVEYIYDTKNGLGWDLDYIVPFAAISEQGRQIDGIDSKSELAHRIMLTNLIRLLGAVKTQKASRGYETRPAQVILPLSPNHGTFGSDGLYSESKLGLETLFNRWESENWSNYLTICGAIIGWTRGTGLMSGNNIVAEAVEKFGVRTFSQQEMAFNLLGLMAPTIVDLCQNEPVCADLNGGLQFIPNLNELMTRERKNLTETSEIRQAVTKETAAENKVVNGEASEALYKKKIIERRANIKFDFPPLPDWKKDIQPLNDKLKGMVDLEKVIVVTGFAEVGPWGNSRTRWEMEAYGEFSLEGCIEMAWIMGLIKNYNGLIKGKPYSGWVDAKTGEPVDDKDVKPKYEKYILEHSGIRLIEPELFGGYDPNKKQLLHEVVIQEDLDPFQCSAETAEQFKREHGDKVEIFEIPESGEYTVRFKKGATLWIPKALRFDRLVAGQIPTGWDAKRYGIPDDIIQQVDPVCLFVLVSTVEALLSSGITDPYEFYKYVHVSELGNCIGSGMGGATALRGMHRDRFLDKPLQNDILQESFINTMSAWVNMLLLSSSGPIKTPVAACATAVESVDVGVETILEGKARICLVGGFDDFGEEGSYEFANMKATSNAVDEFAHGRTPQEMSRPTTTTRNGFMESQGSGVQVIMTAKLALEMGVPIYGILALTTTASDKIGRSVPAPGQGVLTTAREHRGKFPSPLLDINYRRRQIERRTKQVMEEKEAEFEYLAAEIEALKAEGRPQSEIEEYAAHRAAHIEKTAEKQAKEILRSFGNFFWKNDPTIAPLRGALAVWGLTIDDLDVASFHGTSTKANDKNESSVICQQLAHLGRKKGNAVLGIFQKYLTGHPKGAAGAWMLNGCLQVLNTGLVPGNRNADNVDKVMEQFDYIVYPNRSIQTDGIKAFSVTSFGFGQKGAQCIGVHPKYLYATLDEQTYNEYCTKVQARQKKAYRYFHNGLINNTLFQAKEKAPYTDEQLSAVLLNPDARVVEDKKTGQLIFPPNFMVSLESVLSREARRLESVNTRVGVDVEDISAINTDNDTFLDRNFTEAEQKYCLASKSGRSPQKAFAGRWTAKEAVFKALGVSSKGAGAALKDIEILVDENGAPTVSLHGAAAEAAKKAGIKSVSVSISYTDSQAAAIATAQL MRPEVEQELAHTLLVELLAYQFASPVRWIETQDVFLAEQMAERIVEIGPADTLSVMAKRTLASKYEAYDAAKSAQRQILCYSKDAKEIYYPAALEALTSDQKALFKQQLELIARYLKLDIRAGDKAYQASQESAKVLQSQLDLWLAEHGDFYASGIEPVFSPLKARVYDSSWNWARQDALSMYYDIIFGRLKTVDREIVSQCIRIMNRANPTLLEFMQYHIDNCPTDRGETYQLAKELGAQLIENCKEVLNANPVYKDVAIPTGPKTTIDARGNLKYEEVPRPSCRKLEHYVQQMAAGGKISEYTIPFLHLRKKSVMGWEYNKKLTSLYLDCLEKAARDGLTFAGKYALMTGAGAGSIGAEVLQGLISGGAHVIVTTSRYSREVTEYYQSMYSRYGARGSQLVVVPFNQGSVQDVNALVEYIYDTKNGLGWDLDYIVPFAAISEQGRQIDGIDSKSELAHRIMLTNLIRLLGAVKTQKASRGYETRPAQVILPLSPNHGTFGSDGLYSESKLGLETLFNRWESENWSNYLTICGAIIGWTRGTGLMSGNNIVAEAVEKFGVRTFSQQEMAFNLLGLMAPTIVDLCQNEPVCADLNGGLQFIPNLNELMTRERKNLTETSEIRQAVTKETAAENKVVNGEASEALYKKKIIERRANIKFDFPPLPDWKKDIQPLNDKLKGMVDLEKVIVVTGFAEVGPWGNSRTRWEMEAYGEFSLEGCIEMAWIMGLIKNYNGLIKGKPYSGWVDAKTGEPVDDKDVKPKYEKYILEHSGIRLIEPELFGGYDPNKKQLLHEVVIQEDLDPFQCSAETAEQFKREHGDKVEIFEIPESGEYTVRFKKGATLWIPKALRFDRLVAGQIPTGWDAKRYGIPDDIIQQVDPVCLFVLVSTVEALLSSGITDPYEFYKYVHVSELGNCIGSGMGGATALRGMHRDRFLDKPLQNDILQESFINTMSAWVNMLLLSSSGPIKTPVAACATAVESVDVGVETILEGKARICLVGGFDDFGEEGSYEFANMKATSNAVDEFAHGRTPQEMSRPTTTTRNGFMESQGSGVQVIMTAKLALEMGVPIYGILALTTTASDKIGRSVPAPGQGVLTTAREHRGKFPSPLLDINYRRRQIERRTKQVMEEKEAEFEYLAAEIEALKAEGRPQSEIEEYAAHRAAHIEKTAEKQAKEILRSFGNFFWKNDPTIAPLRGALAVWGLTIDDLDVASFHGTSTKANDKNESSVICQQLAHLGRKKGNAVLGIFQKYLTGHPKGAAGAWMLNGCLQVLNTGLVPGNRNADNVDKVMEQFDYIVYPNRSIQTDGIKAFSVTSFGFGQKGAQCIGVHPKYLYATLDEQTYNEYCTKVQARQKKAYRYFHNGLINNTLFQAKEKAPYTDEQLSAVLLNPDARVVEDKKTGQLIFPPNFMVSLESVLSREARRLESVNTRVGVDVEDISAINTDNDTFLDRNFTEAEQKYCLASKSGRSPQKAFAGRWTAKEAVFKALGVSSKGAGAALKDIEILVDENGAPTVSLHGAAAEAAKKAGIKSVSVSISYTDSQAAAIATAQL 7q5s-a1-m1-cI_7q5s-a1-m1-cK Protein community member fatty acid synthase complex from C. thermophilum G0S867 G0S867 4.47 ELECTRON MICROSCOPY 28 1.0 759272 (Thermochaetoides thermophila DSM 1495) 759272 (Thermochaetoides thermophila DSM 1495) 2039 2039 7q5s-a1-m1-cB_7q5s-a1-m1-cC 7q5s-a1-m1-cB_7q5s-a1-m1-cE 7q5s-a1-m1-cC_7q5s-a1-m1-cE 7q5s-a1-m1-cG_7q5s-a1-m1-cI 7q5s-a1-m1-cG_7q5s-a1-m1-cK SLRPLTLSHGSLETSFLIPTGLHFHASRLKDEFIASLPPPTDELAQDDEPSSVPELVARYMGYIANQVAEGEDDAQGSYEEVLKLILNEFERAFLQGNDVHALVATLPGIDAKKLEVIRSYFAARAATNRAMRAHQSALLRAAEEGEARIYSIFGGQGNIEEYFEELRELYKTYPSFVGHLIVSSAELLQILASHPSAEKLYSKGLDIMHWLHNPDATPDTDYLISAPVSFPLIGLVQLAHYQVTCKVQGLHPGILRDRISGTTGHSQGIVLAAVTAAADSWESFEDLAKSALTILFWIGARSQQTFPRTSMSPSLLQEAIDNGEGTPTPMLSIRDLPQAEVQKHIDQTNQYLPEDQHISISLINSPRNLVVSGPPRSLCGLNAQLRKVKFVNRFLPITAPFHSKYLAGAAELIAEDLKDISIEVERLGIPVYDTNTGEDIRQTVTGNVVPALIRMITNDPVHWEKATVFPEATHILDFGPGGISGLGVLTSRNKDGTGVRVILAGTVNGTVAEVGYKSELFDRDEEHAVKYAVGPRLIKTSSGRIYVDTKMSRLLGLPPLMVAGMTPTTVPWDFVAATMNAGYQIELAGGGYFNAKMMTEAISKIERAIPPGRGITVNLIYVNPHAMAWQIPLLGRLRAEGVPIEGLTIGAGVPSIEVANEYIQTLGLKHISFKPGSVDAIQAVINIAKANPTFPVILQWTGGRGGGHHSYEDFHAPILAMYSRIRRQENIILVAGSGFGGAEDTYPYLTGAWSTKYGYPPMPFDGCLFGSRMMVAKEAHTSPEAKQAIVDAPGLDDSEWEKTYKGPAGGVITVRSEMGEPIHKLATRGVLFWAEMDQKIFSLPKEKRVAELKKNRDYIIRKLNADFQKVWFGKNKKGEVVDLEDMTYGEVVRRMVELLYVKDEKRWIDHSFAKLTADFIHRVEERFTTAASQPSLIQSYSDLDEPYSAVERVLAHYPEAETQLISAQDVQHFLLLCKRRGQKPVTFVPALDEDFEFYFKKDSLWQSEDLAAVIDRDVGRTCILQGPMAAKHSTKVDEPIKEILDGIHNGHIAALKRDLYDNDESKIPTIEYFGGKLKDPEVQLDFEGVTISYDVHKNTYRVSNNPSVPLPPLDAWLSALAGPNRTWRYALLQSEVIVQGHKYQTNPMKKIFAPARGLFVEIQYPNDPAKTVITVKEQPRPNRYIDVIEAKLVGDKEIVVNLIKDTNALGEPVALPLRFTYRPEAGYAPIHEIMEGRNDRIKEFYWRCWFGQDPLDLDAPVTSKFDGGEAVITSEAINEFVHAVGNTGEAFVDRPGKTMYAPMDFAIVVGWKAITKPIFPRTIDGDLLKLVHLSNQFRMFPGAEPLKKGDKVYTTAQVNAVINQESGKMVEVCGTITRDGKPVMEVISQFLYRGVYTDYENTFQRKVETPMQVHLATTKDIAILRSKQWFVLDDVATPEEFLLGKTLTFRLHTLVHFKNRNVYSHVETRGQVLVELPTKEIIQVATVEYVAGESHGNPVIDYLQRNGQSIEQPVNFENPIPLGGKAPLQLRAPASNETYARVSGDYNPIHVSRVFAAYANLPGTITHGMYSSAAVRSLVETWAAENKIGRVRSFHASLTGMVLPNDDINVKLQHVGMVGGRKIIKVEATNKETEEKVLLGEAEIEQPVTAYVFTGQGSQEQGMGMDLYANSPVAREVWDRADKYLRDTYGFAITDIVRNNPKELTIHFGGPLGKKIRANYMAMTFETVAADGSIKSERIFKDIDENTTSYTFRSPNGLLSATQFTQPALTLMEKASFEDMKAKGLVPRDSTFAGHSLGEYSALAALADVMPIESLVSVVFYRGLTMQVAVERDATGRSNYGMCAVNPSRISKTFNEEALRFVVGAVAETTGWLLEIVNYNIANMQYVCAGDLRALDTLTSVTNFIKAMKIDIEQMRREYSPDKVKEELVEIIKKCAAETEAKPKPLELQRGFATIPLRGIDVPFHSTFLRSGVKPFRNFLLKKINKTSIDPAKLIGKYIPNVTAKPFALTKEYFEDVYRLTNSPRIAHVLANWEKYQD SLRPLTLSHGSLETSFLIPTGLHFHASRLKDEFIASLPPPTDELAQDDEPSSVPELVARYMGYIANQVAEGEDDAQGSYEEVLKLILNEFERAFLQGNDVHALVATLPGIDAKKLEVIRSYFAARAATNRAMRAHQSALLRAAEEGEARIYSIFGGQGNIEEYFEELRELYKTYPSFVGHLIVSSAELLQILASHPSAEKLYSKGLDIMHWLHNPDATPDTDYLISAPVSFPLIGLVQLAHYQVTCKVQGLHPGILRDRISGTTGHSQGIVLAAVTAAADSWESFEDLAKSALTILFWIGARSQQTFPRTSMSPSLLQEAIDNGEGTPTPMLSIRDLPQAEVQKHIDQTNQYLPEDQHISISLINSPRNLVVSGPPRSLCGLNAQLRKVKFVNRFLPITAPFHSKYLAGAAELIAEDLKDISIEVERLGIPVYDTNTGEDIRQTVTGNVVPALIRMITNDPVHWEKATVFPEATHILDFGPGGISGLGVLTSRNKDGTGVRVILAGTVNGTVAEVGYKSELFDRDEEHAVKYAVGPRLIKTSSGRIYVDTKMSRLLGLPPLMVAGMTPTTVPWDFVAATMNAGYQIELAGGGYFNAKMMTEAISKIERAIPPGRGITVNLIYVNPHAMAWQIPLLGRLRAEGVPIEGLTIGAGVPSIEVANEYIQTLGLKHISFKPGSVDAIQAVINIAKANPTFPVILQWTGGRGGGHHSYEDFHAPILAMYSRIRRQENIILVAGSGFGGAEDTYPYLTGAWSTKYGYPPMPFDGCLFGSRMMVAKEAHTSPEAKQAIVDAPGLDDSEWEKTYKGPAGGVITVRSEMGEPIHKLATRGVLFWAEMDQKIFSLPKEKRVAELKKNRDYIIRKLNADFQKVWFGKNKKGEVVDLEDMTYGEVVRRMVELLYVKDEKRWIDHSFAKLTADFIHRVEERFTTAASQPSLIQSYSDLDEPYSAVERVLAHYPEAETQLISAQDVQHFLLLCKRRGQKPVTFVPALDEDFEFYFKKDSLWQSEDLAAVIDRDVGRTCILQGPMAAKHSTKVDEPIKEILDGIHNGHIAALKRDLYDNDESKIPTIEYFGGKLKDPEVQLDFEGVTISYDVHKNTYRVSNNPSVPLPPLDAWLSALAGPNRTWRYALLQSEVIVQGHKYQTNPMKKIFAPARGLFVEIQYPNDPAKTVITVKEQPRPNRYIDVIEAKLVGDKEIVVNLIKDTNALGEPVALPLRFTYRPEAGYAPIHEIMEGRNDRIKEFYWRCWFGQDPLDLDAPVTSKFDGGEAVITSEAINEFVHAVGNTGEAFVDRPGKTMYAPMDFAIVVGWKAITKPIFPRTIDGDLLKLVHLSNQFRMFPGAEPLKKGDKVYTTAQVNAVINQESGKMVEVCGTITRDGKPVMEVISQFLYRGVYTDYENTFQRKVETPMQVHLATTKDIAILRSKQWFVLDDVATPEEFLLGKTLTFRLHTLVHFKNRNVYSHVETRGQVLVELPTKEIIQVATVEYVAGESHGNPVIDYLQRNGQSIEQPVNFENPIPLGGKAPLQLRAPASNETYARVSGDYNPIHVSRVFAAYANLPGTITHGMYSSAAVRSLVETWAAENKIGRVRSFHASLTGMVLPNDDINVKLQHVGMVGGRKIIKVEATNKETEEKVLLGEAEIEQPVTAYVFTGQGSQEQGMGMDLYANSPVAREVWDRADKYLRDTYGFAITDIVRNNPKELTIHFGGPLGKKIRANYMAMTFETVAADGSIKSERIFKDIDENTTSYTFRSPNGLLSATQFTQPALTLMEKASFEDMKAKGLVPRDSTFAGHSLGEYSALAALADVMPIESLVSVVFYRGLTMQVAVERDATGRSNYGMCAVNPSRISKTFNEEALRFVVGAVAETTGWLLEIVNYNIANMQYVCAGDLRALDTLTSVTNFIKAMKIDIEQMRREYSPDKVKEELVEIIKKCAAETEAKPKPLELQRGFATIPLRGIDVPFHSTFLRSGVKPFRNFLLKKINKTSIDPAKLIGKYIPNVTAKPFALTKEYFEDVYRLTNSPRIAHVLANWEKYQD 7q62-a1-m1-cB_7q62-a1-m1-cA Structure of TEV cleaved A2ML1 dimer (A2ML1-TT dimer) A8K2U0 A8K2U0 3.18 ELECTRON MICROSCOPY 77 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 822 1223 ELPNYLVTLPARLNFPSVQKVCLDLSPGYSDVKFTVTLETKDKTQKLLEYSGLKKRHLHCISFLVPPPAGGTEEVATIRVSGVGNNISFEEKKKVLIQRQGNGTFVQTDKPLYTPGQQVYFRIVTMDSNFVPVNDKYSMVELQDPNSNRIAQWLEVVPEQGIVDLSFQLAPEAMLGTYTVAVAEGKTFGTFSVEEYVLPKFKVEVVEPKELSTVQESFLVKICCRYTYGKPMLGAVQVSVCQKANTYWYREVEREQLPDKCRNLSGQTDKTGCFSAPVDMATFDLIGYAYSHQINIVATVVEEGTGVEANATQNIYISPQMGSMTFEDTSNFYHPNFPFSGKIRVRGHDDSFLKNHLVFLVIYGTNGTFNQTLVTDNNGLAPFTLETSGWNGTDVSLEGKFQMEDLVYNPEQVPRYYQNAYLHLRPFYSTTRSFLGIHRLNGPLKCGQPQEVLVDYYIDPADASPDQEISFSYYLIGKGSLVMEGQKHLNSKKKGLKASFSLSLTFTSRLAPDPSLVIYAIFPSGGVVADKIQFSVEMCFDNQVSLGFSPSQQLPGAEVELQLQAAPGSLCALRAVDESVLLLRPDRELSNRSVYGMFPFWYGHYPYQVAEYDQCTDLFSFFRDVGLKILSNAKIKKPVDCSDSQVRQYFPETWLWDLFPIGNSGKEAVHVTVPDAITEWKAMSFCTSQSRGFGLSPTVGLTAFKPFFVDLTLPYSVVRGESFRLTATIFNYLKDCIRVQTDLAKSHEYQLESWADSQTSSCLCADDAKTHHWNITAVKLGHINFTISTKILDSNEPCGGQKGFVPQKGRSDTLIKPVLVKP ELPNYLVTLPARLNFPSVQKVCLDLSPGYSDVKFTVTLETKDKTQKLLEYSGLKKRHLHCISFLVPPPAGGTEEVATIRVSGVGNNISFEEKKKVLIQRQGNGTFVQTDKPLYTPGQQVYFRIVTMDSNFVPVNDKYSMVELQDPNSNRIAQWLEVVPEQGIVDLSFQLAPEAMLGTYTVAVAEGKTFGTFSVEEYVLPKFKVEVVEPKELSTVQESFLVKICCRYTYGKPMLGAVQVSVCQKANTYWYREVEREQLPDKCRNLSGQTDKTGCFSAPVDMATFDLIGYAYSHQINIVATVVEEGTGVEANATQNIYISPQMGSMTFEDTSNFYHPNFPFSGKIRVRGHDDSFLKNHLVFLVIYGTNGTFNQTLVTDNNGLAPFTLETSGWNGTDVSLEGKFQMEDLVYNPEQVPRYYQNAYLHLRPFYSTTRSFLGIHRLNGPLKCGQPQEVLVDYYIDPADASPDQEISFSYYLIGKGSLVMEGQKHLNSKKKGLKASFSLSLTFTSRLAPDPSLVIYAIFPSGGVVADKIQFSVEMCFDNQVSLGFSPSQQLPGAEVELQLQAAPGSLCALRAVDESVLLLRPDRELSNRSVYGMFPFWYGHYPYQVAEYDQCTDLFSFFRDVGLKILSNAKIKKPVDCSDSQVRQYFPETWLWDLFPIGNSGKEAVHVTVPDAITEWKAMSFCTSQSRGFGLSPTVGLTAFKPFFVDLTLPYSVVRGESFRLTATIFNYLKDCIRVQTDLAKSHEYQLESWADSQTSSCLCADDAKTHHWNITAVKLGHINFTISTKILDSNEPCGGQKGFVPQKGRSDTLIKPVLVKPEGVLVEKTHSSLLCPKGKVASESVSLELPVDIVPDSTKAYVTVLGDIMGTALQNLDGLVQMPSGCGEQNMVLFAPIIYVLQYLEKAGLLTEEIRSRAVGFLEIGYQKELMYKHSNGSYSAFGERDGNGNTWLTAFVTKCFGQAQKFIFIDPKNIQDALKWMAGNQLPSGCYANVGNLLHTAMKGGVDDEVSLTAYVTAALLEMGKDVDDPMVSQGLRCLKNSATSTTNLYTQALLAYIFSLAGEMDIRNILLKQLDQQAIISGESIYWSQAVDVELTAYALLAQLTKPSLTQKEIAKATSIVAWLAKQHNAYGGFSSTQDTVVALQALAKYATTAYMPSEEINLVVKSTENFQRTFNIQSVNRLVFQQDTLPNVPGMYTLEASGQGCVYVQTVLRYNILPP 7q6j-a1-m1-cB_7q6j-a1-m1-cA Crystal structure of the human GDAP1 CMT2 mutant-H123R Q8TB36 Q8TB36 2.2 X-RAY DIFFRACTION 50 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 248 257 7aia-a1-m1-cBBB_7aia-a1-m1-cAAA 7alm-a1-m1-cB_7alm-a1-m1-cA 7b2g-a1-m1-cA_7b2g-a1-m2-cA 7q6k-a1-m1-cA_7q6k-a1-m2-cA 7ywd-a1-m1-cA_7ywd-a1-m3-cA 7ywd-a2-m1-cB_7ywd-a2-m1-cC 7ywd-a3-m1-cD_7ywd-a3-m2-cD 8a4j-a1-m1-cB_8a4j-a1-m1-cA 8a4k-a1-m1-cB_8a4k-a1-m1-cA EVKLILYHWTHSFSSQKVRLVIAEKALKCEEHDVSLPLSEHNEPWFMRLNSTGEVPVLIHGENIICEATQIIDYLEQTFLDERTPRLMPDKESMYYPRVQRYRELLDSLPMDAYTHGCILHPELTVDSMIPAYATTRIRSQILDHDNVKYLKKILDELEKVLDQVETELQRRNEETPEEGQQPWLCGESFTLADVSLAVTLHRLKFLGFARRNWGNGKRPNLETYYERVLKRKTFNKVLGHVNNILIS EVKLILYHWTHSFSSQKVRLVIAEKALKCEEHDVSLPLSEHNEPWFMRLNSTGEVPVLIHGENIICEATQIIDYLEQTFLDERTPRLMPDKESMYYPRVQRYRELLDSLPMDAYTHGCILHPELTVDSMIPAYATTRIAYIAKQKRLKSKLLDHDNVKYLKKILDELEKVLDQVETELQRRNEETPEEGQQPWLCGESFTLADVSLAVTLHRLKFLGFARRNWGNGKRPNLETYYERVLKRKTFNKVLGHVNNILIS 7q84-a1-m1-cB_7q84-a1-m1-cA Crystal structure of human peroxisomal acyl-Co-A oxidase 1a, apo-form A0A024R8L7 A0A024R8L7 2 X-RAY DIFFRACTION 320 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 623 626 7q86-a1-m1-cB_7q86-a1-m1-cA MNPDLRRERDSASFNPELLTHILDGSPEKTRRRREIENMILNDPDFQHEDLNFLTRSQRYEVAVRKSAIMVKKMREFGIADPDEIMWFKNFVHRGRPEPLDLHLGMFLPTLLHQATAEQQERFFMPAWNLEIIGTYAQTEMGHGTHLRGLETTATYDPETQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITKGKYGLHAFIVPIREIGTHKPLPGITVGDIGPKFGYDEIDNGYLKMDNHRIPRENMLMKYAQVKPDGTYVKMVFVRSFLVGEAARALSKACTIAIRYSAVRHQSEIKPGEPEPQILDFQTQQYKLFPLLATAYAFQFVGAYMKETYHRINESELPELHALTAGLKAFTSWTANTGIEACRMACGGHGYSHCSGLPNIYVNFTPSCTFEGENTVMMLQTARFLMKSYDQVHSGKLVGMVSYLNDLPTMVDINSPESLTEAYKLRAARLVEIAAKNLQKEVIHRKSKEVAWNLTSVDLVRASEAHCHYVVVKLFSEKLLKIQDKAIQAVLRSLCLLYSLYGISQNAGDFLQGSIMTEPQITQVNQRVKELLTLIRSDAVALVDAFDFQDVTLGSVLGRYDGNVYENLFEWAKNSPLNKAEVHESYKHLKS MNPDLRRERDSASFNPELLTHILDGSPEKTRRRREIENMILNDPDFQHEDLNFLTRSQRYEVAVRKSAIMVKKMREFGIADPDEIMWFKNFVHRGRPEPLDLHLGMFLPTLLHQATAEQQERFFMPAWNLEIIGTYAQTEMGHGTHLRGLETTATYDPETQEFILNSPTVTSIKWWPGGLGKTSNHAIVLAQLITKGKYGLHAFIVPIREIGTHKPLPGITVGDIGPKFGYDEIDNGYLKMDNHRIPRENMLMKYAQVKPDGTYVKMVFVRSFLVGEAARALSKACTIAIRYSAVRHQSEIKPGEPEPQILDFQTQQYKLFPLLATAYAFQFVGAYMKETYHRINLSELPELHALTAGLKAFTSWTANTGIEACRMACGGHGYSHCSGLPNIYVNFTPSCTFEGENTVMMLQTARFLMKSYDQVHSGKLVGMVSYLNDLPSQPTMVDINSPESLTEAYKLRAARLVEIAAKNLQKEVIHRKSKEVAWNLTSVDLVRASEAHCHYVVVKLFSEKLLKIQDKAIQAVLRSLCLLYSLYGISQNAGDFLQGSIMTEPQITQVNQRVKELLTLIRSDAVALVDAFDFQDVTLGSVLGRYDGNVYENLFEWAKNSPLNKAEVHESYKHLKS 7q93-a1-m1-cB_7q93-a1-m1-cA Crystal Structure of Agrobacterium tumefaciens NADQ, NAD complex. A9CG24 A9CG24 2.19 X-RAY DIFFRACTION 90 0.981 176299 (Agrobacterium fabrum str. C58) 176299 (Agrobacterium fabrum str. C58) 259 267 7q94-a1-m1-cB_7q94-a1-m1-cA VTIGLAHAELIAVVTAITTDEPRVTVREGAALPSGPFEFGHRTLQSGLREWIHEQTHHPVGYLEQLYTFADRGRTISIGYLGLVREAFWHGWYEYFPWEDHRQGRPDILDSIIDKLRAWADSEPDSRAQRHLRADFTFGLDGGGWNEELTLQRYELLYEAGLVGEAINFGRPFADHRRILATGIARLRAKIKYRPVVFELADSFTLLQLQRAIEALAGLTLHKQNFRRLIEQQQLVEETGDKLFRFRQTVLDERALSGT IGLAHAELIAVVTAITTDEPRVTVREGAALPSGPFEFGHRTLQSGLREWIHEQTHHPVGYLEQLYTFADRNEILGGRTISIGYLGLVREQEFWHGWYEYFPWEDHRQGRPDILDSIIDKLRAWADSEPDSRAQRHLRADFTFGLDGGGWNEELTLQRYELLYEAGLVGEAQINFGRPFADHRRILATGIARLRAKIKYRPVVFELADSFTLLQLQRAIEALAGLTLHKQNFRRLIEQQQLVEETGDATRPAKLFRFRQTVLDERALS 7q97-a1-m1-cA_7q97-a1-m1-cB Structure of the bacterial type VI secretion system effector RhsA. Q4K3M9 Q4K3M9 3.3 ELECTRON MICROSCOPY 59 1.0 220664 (Pseudomonas protegens Pf-5) 220664 (Pseudomonas protegens Pf-5) 1047 1047 KGKFLSNLSQATNALTQAVVASPVHAATGAKVLGADDDLDFTLPGLMPIEWQRFYNSRDERRDGLLGAGWSLPYEISVQIEPHPRLLYIDEQGRRIDMGSSPGEGLSVRRNENGQLLIESSDGIYRLFEPLPGDSSRLRLSLLGDRNDNRLHLEYDSSGRLWLLRDTFEQAQLELSYSTLWPGRIAQVERLYPDQQREVLVSYDYDAAGDLAQVRDSEGQVQRRFAYDAGHRMIEHQLATGLRCFYQWTQFADQQWRVTRHWTDEGDSYQYDYDLEAGITQVTDSLQRLSRRRWNSQLQIVEYTDNLNQTWAFEWNDERQLLSATDPLGGRYAYSYDETGNLIAETDPLGHSHSTLWLEHWSLPQTLTDPAGESWHLRYDPRGNCIAEVDPLGQVTQYRHDAHGQVVEIIDAAGRSRKMRWNSSGQLLEHLDCSGYPTRFEYDRRGNVKAIIDALGEHTRFHYDCQGRLLSSQLADGRAEHFQRSSNGQLQGYTDPSGYTTLYQYNRRGQIRQRIDAHGRQVRFDYDAYGRLLALTNENGESYRFAWDAGNRLSEQQDLDGSAKRYGYDLLNNVVELQSHPAPAPIIHRFERDAVGRLLAKITDDGRSQYTYDPLNQLTAASFTDNLGNQQALSFSYDALGQLLEEHTVAGSLIHRYDELGNLTQTQLPDKRWLNRLYYGSGHLHQINLDGQVVSDFQRDRLHREVLRTQGQISTRSEYDRCGRLRARLQHSERHLEYDDSDNLVGLAERHATGQHRQLFHYDATGRIIASQDGLQGQKETFAYDAAANLLDGPKAGAGLVVHNKLLTYQDKRYRYDAFGRMIEKRSGRRGVQRFAYDAEHRLIEVRNQTSSGETLVRMRYDVLGRRISKSEYDSQGNLLGETRFVWDGLRLLQEQRNQQTSLYVYEDLGHAPLARVDGLGAQQKIRYYHNDLNGLPQQLCEPDGHSVWQARYQVWGNTVEEIREPYYIEEQNLRFQGQYLDRETGLHFNTFRFYDPDIGRFTTPDPIGLAGGLNLYQYAPNPIGWIDPLGWNYHVFEKLTKQFEVA KGKFLSNLSQATNALTQAVVASPVHAATGAKVLGADDDLDFTLPGLMPIEWQRFYNSRDERRDGLLGAGWSLPYEISVQIEPHPRLLYIDEQGRRIDMGSSPGEGLSVRRNENGQLLIESSDGIYRLFEPLPGDSSRLRLSLLGDRNDNRLHLEYDSSGRLWLLRDTFEQAQLELSYSTLWPGRIAQVERLYPDQQREVLVSYDYDAAGDLAQVRDSEGQVQRRFAYDAGHRMIEHQLATGLRCFYQWTQFADQQWRVTRHWTDEGDSYQYDYDLEAGITQVTDSLQRLSRRRWNSQLQIVEYTDNLNQTWAFEWNDERQLLSATDPLGGRYAYSYDETGNLIAETDPLGHSHSTLWLEHWSLPQTLTDPAGESWHLRYDPRGNCIAEVDPLGQVTQYRHDAHGQVVEIIDAAGRSRKMRWNSSGQLLEHLDCSGYPTRFEYDRRGNVKAIIDALGEHTRFHYDCQGRLLSSQLADGRAEHFQRSSNGQLQGYTDPSGYTTLYQYNRRGQIRQRIDAHGRQVRFDYDAYGRLLALTNENGESYRFAWDAGNRLSEQQDLDGSAKRYGYDLLNNVVELQSHPAPAPIIHRFERDAVGRLLAKITDDGRSQYTYDPLNQLTAASFTDNLGNQQALSFSYDALGQLLEEHTVAGSLIHRYDELGNLTQTQLPDKRWLNRLYYGSGHLHQINLDGQVVSDFQRDRLHREVLRTQGQISTRSEYDRCGRLRARLQHSERHLEYDDSDNLVGLAERHATGQHRQLFHYDATGRIIASQDGLQGQKETFAYDAAANLLDGPKAGAGLVVHNKLLTYQDKRYRYDAFGRMIEKRSGRRGVQRFAYDAEHRLIEVRNQTSSGETLVRMRYDVLGRRISKSEYDSQGNLLGETRFVWDGLRLLQEQRNQQTSLYVYEDLGHAPLARVDGLGAQQKIRYYHNDLNGLPQQLCEPDGHSVWQARYQVWGNTVEEIREPYYIEEQNLRFQGQYLDRETGLHFNTFRFYDPDIGRFTTPDPIGLAGGLNLYQYAPNPIGWIDPLGWNYHVFEKLTKQFEVA 7q9g-a1-m1-cE_7q9g-a1-m1-cH COVOX-222 fab in complex with SARS-CoV-2 beta-Spike glycoprotein 3.3 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 119 119 EVQLVESGGGLIQPGGSLRLSCAASGLTVSSNYMSWVRQAPGKGLEWVSVIYSGGSTFYADSVKGRFTISRDNSKNTLYLQMNSLGAEDTAVYYCARGEGSPGNWFDPWGQGTLVTVSS EVQLVESGGGLIQPGGSLRLSCAASGLTVSSNYMSWVRQAPGKGLEWVSVIYSGGSTFYADSVKGRFTISRDNSKNTLYLQMNSLGAEDTAVYYCARGEGSPGNWFDPWGQGTLVTVSS 7q9k-a1-m1-cA_7q9k-a1-m1-cC Beta-32 fab in complex with SARS-CoV-2 beta-Spike glycoprotein P0DTC2 P0DTC2 4.5 ELECTRON MICROSCOPY 277 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 943 979 7q9k-a1-m1-cA_7q9k-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLHISYAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLHISYAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDILQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7q9m-a1-m1-cC_7q9m-a1-m1-cB Beta-53 fab in complex with SARS-CoV-2 beta-Spike glycoprotein P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 281 0.99 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 975 978 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNVYFASTEIIRGWIFGTTLDSKTQSLLIVNVVIKVCEFQFCNDPFLGVNCTFEYVKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSLGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNVVIKVCEFQFCNDPFLGVNCTFEYVFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFEVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7q9y-a1-m1-cG_7q9y-a1-m1-cH Cryo-EM structure of the octameric pore of Clostridium perfringens beta-toxin. Q9L403 Q9L403 3.84 ELECTRON MICROSCOPY 161 1.0 451753 (Clostridium perfringens CPE) 451753 (Clostridium perfringens CPE) 279 279 7q9y-a1-m1-cA_7q9y-a1-m1-cB 7q9y-a1-m1-cA_7q9y-a1-m1-cH 7q9y-a1-m1-cB_7q9y-a1-m1-cC 7q9y-a1-m1-cC_7q9y-a1-m1-cD 7q9y-a1-m1-cD_7q9y-a1-m1-cE 7q9y-a1-m1-cE_7q9y-a1-m1-cF 7q9y-a1-m1-cF_7q9y-a1-m1-cG TITRNKTSDGYTIITQNDKQIISYQSVDSSSKNEDGFTASIDARFIDDKYSSEMTTLINLTGFMSSKKTAINFPVRYSISILNESINENVKIVDSIPKNTISQKTVSNTMGYKIGGSIEIEENKPKASIESEYAESSTIEYVQPDFSTIQTDHSTSKASWDTKFTETTRGNYNLKSNNPVYGNEMFMYGRYTNVPATENIIPDYQMSKLITGGLNPNMSVVLTAPNGTEESIIKVKMERERNCYYLNWNGANWVGQVYNVDSHIFTFKINWLTHKVTAI TITRNKTSDGYTIITQNDKQIISYQSVDSSSKNEDGFTASIDARFIDDKYSSEMTTLINLTGFMSSKKTAINFPVRYSISILNESINENVKIVDSIPKNTISQKTVSNTMGYKIGGSIEIEENKPKASIESEYAESSTIEYVQPDFSTIQTDHSTSKASWDTKFTETTRGNYNLKSNNPVYGNEMFMYGRYTNVPATENIIPDYQMSKLITGGLNPNMSVVLTAPNGTEESIIKVKMERERNCYYLNWNGANWVGQVYNVDSHIFTFKINWLTHKVTAI 7qa1-a1-m1-cA_7qa1-a1-m1-cB The structure of natural crystals of the Lysinibacillus sphaericus Tpp49Aa1 pesticidal protein elucidated using serial femtosecond crystallography at an X-ray free electron laser 2.2 X-RAY DIFFRACTION 88 1.0 1421 (Lysinibacillus sphaericus) 1421 (Lysinibacillus sphaericus) 416 416 NLNLPEQSTRFQTIASIHSNNCSFEILNNDPGYIYGDSVDGECRIAVAHRELGNGLERTGDDRFLFIFYALDNNNFIIANRHDGFVLQFLIANGQGVIVSREYQPNIHQEFTIQSINSDTFRLHSRDTNTFATVCWAQFNSWTKIVSRVDNPGAPNANLKHRSLLTDINMPQLPSLTPLQPLPRLTELEDGGLSPAQAPRAIIGRTLIPCLFVNDPVLRLENRIKQSPYYVLEHRQYWHRIWTDIFTAGERREYREVTGINNNAQNDMNKMINITIGADGPNRLRFGNLSTPFRQQIIDNSNTLGSFANTNYGTRTDIVNVFNSEFHQVRYARFVKAYEYRLTRADGSQVGTPWVVLDRKEMDLRTYPHNMAITLENVKIDNADNSYDLSIWKTPLKLKDGKIIIENHENSKPYYN NLNLPEQSTRFQTIASIHSNNCSFEILNNDPGYIYGDSVDGECRIAVAHRELGNGLERTGDDRFLFIFYALDNNNFIIANRHDGFVLQFLIANGQGVIVSREYQPNIHQEFTIQSINSDTFRLHSRDTNTFATVCWAQFNSWTKIVSRVDNPGAPNANLKHRSLLTDINMPQLPSLTPLQPLPRLTELEDGGLSPAQAPRAIIGRTLIPCLFVNDPVLRLENRIKQSPYYVLEHRQYWHRIWTDIFTAGERREYREVTGINNNAQNDMNKMINITIGADGPNRLRFGNLSTPFRQQIIDNSNTLGSFANTNYGTRTDIVNVFNSEFHQVRYARFVKAYEYRLTRADGSQVGTPWVVLDRKEMDLRTYPHNMAITLENVKIDNADNSYDLSIWKTPLKLKDGKIIIENHENSKPYYN 7qa8-a1-m1-cA_7qa8-a1-m1-cB Structure of the GPCR dimer Ste2 bound to an antagonist D6VTK4 D6VTK4 2.7 ELECTRON MICROSCOPY 152 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 299 299 7ad3-a1-m1-cA_7ad3-a1-m1-cB 7qb9-a1-m1-cA_7qb9-a1-m1-cB 7qbc-a1-m1-cA_7qbc-a1-m1-cB 7qbi-a1-m1-cA_7qbi-a1-m1-cB APSLSNLFYDPTYNPGQSTINYTSIYGNGSTITFDELQGLVNSTVTQAIMFGVRCGAAALTLIVMWMTSRSRKTPIFIINQVSLFLIILHSALYFKYLLSNYSSVTYALTGFPQFISRGDVHVYGATNIIQVLLVASIETSLVFQIKVIFTGDNFKRIGLMLTSISFTLGIATVTMYFVSAVKGMIVTYNDVSATQDKYFNASTILLASSINFMSFVLVVKLILAIRSRRFLGLKQFDSFHILLIMSCQSLLVPSIIFILAYSLKPNQGTDVLTTVATLLAVLSLPLSSMWATAANNAS APSLSNLFYDPTYNPGQSTINYTSIYGNGSTITFDELQGLVNSTVTQAIMFGVRCGAAALTLIVMWMTSRSRKTPIFIINQVSLFLIILHSALYFKYLLSNYSSVTYALTGFPQFISRGDVHVYGATNIIQVLLVASIETSLVFQIKVIFTGDNFKRIGLMLTSISFTLGIATVTMYFVSAVKGMIVTYNDVSATQDKYFNASTILLASSINFMSFVLVVKLILAIRSRRFLGLKQFDSFHILLIMSCQSLLVPSIIFILAYSLKPNQGTDVLTTVATLLAVLSLPLSSMWATAANNAS 7qba-a1-m1-cE_7qba-a1-m1-cD CryoEM structure of the ABC transporter NosDFY complexed with nitrous oxide reductase NosZ P19845 P19845 3.78 ELECTRON MICROSCOPY 123 1.0 316 (Stutzerimonas stutzeri) 316 (Stutzerimonas stutzeri) 258 275 7o17-a1-m1-cE_7o17-a1-m1-cD NQVWNIARKELSDGLRNRWLLAISLLFAVLAVGIAWLGAAASGQLGFTSIPATIASLASLATFLMPLIALLLAYDAIVGEDEGGTLMLLLTYPLGRGQILLGKFVGHGLILALAVLIGFGCAALAIALLVEGVELGLFWAFGRFMISSTLLGWVFLAFAYVLSGKVNEKSSAAGLALGVWFLFVLVFDLVLLALLVLSEGKFNPELLPWLLLLNPTDIYRLINLSGFLPVPAAVLWLCLLAWIGVSLLLAYAIFRRRL NQVWNIARKELSDGLRNRWLLAISLLFAVLAVGIAWLGAAASGQLGFTSIPATIASLASLATFLMPLIALLLAYDAIVGEDEGGTLMLLLTYPLGRGQILLGKFVGHGLILALAVLIGFGCAALAIALLVEGVELGMLFWAFGRFMISSTLLGWVFLAFAYVLSGKVNEKSSAAGLALGVWFLFVLVFDLVLLALLVLSEGKFNPELLPWLLLLNPTDIYRLINLSGFEGSGSAMGVLSLGADLPVPAAVLWLCLLAWIGVSLLLAYAIFRRRLT 7qbj-a2-m3-cC_7qbj-a2-m7-cC bacterial IMPDH chimera P0ADG7 P0ADG7 2.27 X-RAY DIFFRACTION 125 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 341 341 7qbj-a2-m1-cC_7qbj-a2-m5-cC 7qbj-a2-m1-cC_7qbj-a2-m7-cC 7qbj-a2-m3-cC_7qbj-a2-m5-cC HMLRIAKEALTFDDVLLVPAHSTVLPNTADLSTQLTKTIRLNIPMLSAAMDTVTEARLAIALAQEGGIGFIHKNMSIERQAEEVRRVKKHELLQMAREYGFSLEEMKAKLYENRIEKMLRKPNACKDEQGRLRVGAAVGAGAGNEERVDALVAAGVDVLLIDSSHGHSEGVLQRIRETRAKYPDLQIIGGNVATAAGARALAEAGCSAVKVGIGTTRIVTGVGVPQITAVADAVEALEGTGIPVIADGGIRFSGDIAKAIAAGASAVMVGSMLAGTEESPGEIELYQGRSYKSYGRVAYKGRLKEIIHQQMGGLRSCMGLTGCGTIDELRTKAEFVRISGA HMLRIAKEALTFDDVLLVPAHSTVLPNTADLSTQLTKTIRLNIPMLSAAMDTVTEARLAIALAQEGGIGFIHKNMSIERQAEEVRRVKKHELLQMAREYGFSLEEMKAKLYENRIEKMLRKPNACKDEQGRLRVGAAVGAGAGNEERVDALVAAGVDVLLIDSSHGHSEGVLQRIRETRAKYPDLQIIGGNVATAAGARALAEAGCSAVKVGIGTTRIVTGVGVPQITAVADAVEALEGTGIPVIADGGIRFSGDIAKAIAAGASAVMVGSMLAGTEESPGEIELYQGRSYKSYGRVAYKGRLKEIIHQQMGGLRSCMGLTGCGTIDELRTKAEFVRISGA 7qbk-a1-m1-cA_7qbk-a1-m2-cA Crystal structure of a second homolog of R2-like ligand-binding oxidase in Sulfolobus acidocaldarius (SaR2loxII) Q4J9R6 Q4J9R6 2.26 X-RAY DIFFRACTION 57 1.0 330779 (Sulfolobus acidocaldarius DSM 639) 330779 (Sulfolobus acidocaldarius DSM 639) 284 284 GIDWSLFPMKLYQLGKKLFWDPSTIDLTQDRADWDKLRDIDKFLMVNVTSKFGAGEEAVALDLHPLIVTLVKEGRVEEVMYLEQFIFEEAKHVEAFRRFLDAVGVKLTKDVSPNYAKIFYEELPKAMWNLNRDPSPENQVRAAVTYNLVVEGVAAEGGYNIFKYITRTFNIFPGLAKMVNYIATDESRHIAFGTYLIARLIKEGGESVYKAAMEHINYLGPYAVGIFSEPNVPQGVEIPLKLNPEVTVEYAKKLLNVRIQAIQRAKELKLEMLTPKDLDVIESL GIDWSLFPMKLYQLGKKLFWDPSTIDLTQDRADWDKLRDIDKFLMVNVTSKFGAGEEAVALDLHPLIVTLVKEGRVEEVMYLEQFIFEEAKHVEAFRRFLDAVGVKLTKDVSPNYAKIFYEELPKAMWNLNRDPSPENQVRAAVTYNLVVEGVAAEGGYNIFKYITRTFNIFPGLAKMVNYIATDESRHIAFGTYLIARLIKEGGESVYKAAMEHINYLGPYAVGIFSEPNVPQGVEIPLKLNPEVTVEYAKKLLNVRIQAIQRAKELKLEMLTPKDLDVIESL 7qbp-a1-m1-cA_7qbp-a1-m2-cA Crystal structure of R2-like ligand-binding oxidase from Saccharopolyspora Erythraea A4F7B2 A4F7B2 1.38 X-RAY DIFFRACTION 175 1.0 405948 (Saccharopolyspora erythraea NRRL 2338) 405948 (Saccharopolyspora erythraea NRRL 2338) 291 291 TFREDFHSLRAGGLNWDSLPLRLFGKGNAKFWDPADIDFTRDAEDWQGLTEEERRSVAMLCSQFIAGEEAVTQDLQPFMAAMAAEGRFGDEMYLTQFCFEEAKHTQVFRLWMDAVGLTGDLHSHVAENPGYRAIFYEELPRSLNALHDDPSPANQVRASVTYNHVVEGTLALTGYFAWQKICRSRGILPGMQEVVRRIGDDERRHMAWGTFTCRRHVAADESNWDVVQEQMQHLLPLAVTQIQWRPEDAPEETPFRLDIDELAAYASDRAGRRLGAISAARGVPVEQIDVD TFREDFHSLRAGGLNWDSLPLRLFGKGNAKFWDPADIDFTRDAEDWQGLTEEERRSVAMLCSQFIAGEEAVTQDLQPFMAAMAAEGRFGDEMYLTQFCFEEAKHTQVFRLWMDAVGLTGDLHSHVAENPGYRAIFYEELPRSLNALHDDPSPANQVRASVTYNHVVEGTLALTGYFAWQKICRSRGILPGMQEVVRRIGDDERRHMAWGTFTCRRHVAADESNWDVVQEQMQHLLPLAVTQIQWRPEDAPEETPFRLDIDELAAYASDRAGRRLGAISAARGVPVEQIDVD 7qcf-a3-m1-cD_7qcf-a3-m2-cD X-ray crystallographic structure of E. coli K-12 glycyl-tRNA synthetase alpha subunit (glyQ) P00960 P00960 3 X-RAY DIFFRACTION 110 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 287 287 7eiv-a1-m1-cA_7eiv-a1-m1-cB 7qcf-a1-m1-cA_7qcf-a1-m1-cB 7qcf-a2-m1-cC_7qcf-a2-m2-cC 7yse-a1-m1-cA_7yse-a1-m1-cB QKFDTRTFQGLILTLQDYWARQGCTIVQPLDMEVGAGTSHPMTCLRELGPEPMAAAYVQPSRRLQHYYQFQVVIKPSPDNIQELYLGSLKELGMDPTIHDIRFVEDNWENPTLGAWGLGWEVWLNGMEVTQFTYFQQVGGLECKPVTGEITYGLERLAMYIQGVDSVYDLVWSDGPLGKTTYGDVFHQNEVEQSTYNFEYADVDFLFTCFEQYEKEAQQLLALENPLPLPAYERILKAAHSFNLLDARKAISVTERQRYILRIRTLTKAVAEAYYASREALGFPMCN QKFDTRTFQGLILTLQDYWARQGCTIVQPLDMEVGAGTSHPMTCLRELGPEPMAAAYVQPSRRLQHYYQFQVVIKPSPDNIQELYLGSLKELGMDPTIHDIRFVEDNWENPTLGAWGLGWEVWLNGMEVTQFTYFQQVGGLECKPVTGEITYGLERLAMYIQGVDSVYDLVWSDGPLGKTTYGDVFHQNEVEQSTYNFEYADVDFLFTCFEQYEKEAQQLLALENPLPLPAYERILKAAHSFNLLDARKAISVTERQRYILRIRTLTKAVAEAYYASREALGFPMCN 7qcn-a1-m1-cA_7qcn-a1-m1-cB Structure of the MUCIN-2 Cterminal domains: vWCN to TIL domains with a C2 symmetry Q02817 Q02817 3.4 ELECTRON MICROSCOPY 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 407 407 7qcl-a1-m1-cA_7qcl-a1-m1-cB 7qcu-a1-m1-cA_7qcu-a1-m1-cB PPECPDTWWLCDCFMATCKYNNTVEIVKVECEPPPMPTCSNGLQPVRVEDPDGCCWHWECDCYCTGWGDPHYVTFDGLYYSYQGNCTYVLVEEISPSVDNFGVYIDNYHCDPNDKVSCPRTLIVRHETQEVLIKTVHMMPMQVQVQAVALPYKKYGLEVYQSGINYVVDIPELGVLVSYNGLSFSVRLPYHRFGNNTKGQCGTCTNTTSDDCILPSGEIVSNCEAAADQWLVNDPSKPHCPDCTPSPLCQLIKDSLFAQCHALVPPQHYYDACVFDSCFMPGSSLECASLQAYAALCAQQNICLDWRNHTHGACLVECPSHREYQACGPAEEPTCKSSSSQQNNTVLVEGCFCPEGTMNYAPGFDVCVKTCGCVGPDNVPREFGEHFEFDCKNCVCLEGGSGIICQP PPECPDTWWLCDCFMATCKYNNTVEIVKVECEPPPMPTCSNGLQPVRVEDPDGCCWHWECDCYCTGWGDPHYVTFDGLYYSYQGNCTYVLVEEISPSVDNFGVYIDNYHCDPNDKVSCPRTLIVRHETQEVLIKTVHMMPMQVQVQAVALPYKKYGLEVYQSGINYVVDIPELGVLVSYNGLSFSVRLPYHRFGNNTKGQCGTCTNTTSDDCILPSGEIVSNCEAAADQWLVNDPSKPHCPDCTPSPLCQLIKDSLFAQCHALVPPQHYYDACVFDSCFMPGSSLECASLQAYAALCAQQNICLDWRNHTHGACLVECPSHREYQACGPAEEPTCKSSSSQQNNTVLVEGCFCPEGTMNYAPGFDVCVKTCGCVGPDNVPREFGEHFEFDCKNCVCLEGGSGIICQP 7qco-a1-m1-cl_7qco-a1-m1-cs The structure of Photosystem I tetramer from Chroococcidiopsis TS-821, a thermophilic, unicellular, non-heterocyst-forming cyanobacterium V5JYE0 V5JYE0 3.7 ELECTRON MICROSCOPY 15 1.0 1378066 (Chroococcidiopsis sp. TS-821) 1378066 (Chroococcidiopsis sp. TS-821) 150 150 7qco-a1-m1-cL_7qco-a1-m1-cS PSRRDPQIGNLETPINNSSLVKWFINNLPAYRPGITPLRRGLEVGMAHGYWLLGPFAKLGPLRDTDVANIAGLLATLGMVVISTLAVSLYAATDPPKPVATVTVPNPPDTFDTTEGWNTFASGFLIGGVGGAVVAYFILANIELIQNIFK PSRRDPQIGNLETPINNSSLVKWFINNLPAYRPGITPLRRGLEVGMAHGYWLLGPFAKLGPLRDTDVANIAGLLATLGMVVISTLAVSLYAATDPPKPVATVTVPNPPDTFDTTEGWNTFASGFLIGGVGGAVVAYFILANIELIQNIFK 7qcr-a1-m1-cB_7qcr-a1-m1-cA MLLT4/Afadin PDZ domain in complex with the C-terminal peptide from protein E of SARS-CoV-2 P55196 P55196 2.28 X-RAY DIFFRACTION 108 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 87 EIITVTLKKQNGMGLSIVAAKDKLGIYVKSVVKGGAADVDGRLAAGDQLLSVDGRSLVGLSQERAAELMTRTSSVVTLEVAKQGAI PEIITVTLKKQNGMGLSIVAAKDKLGIYVKSVVKGGAADVDGRLAAGDQLLSVDGRSLVGLSQERAAELMTRTSSVVTLEVAKQGAI 7qcs-a1-m1-cA_7qcs-a1-m1-cB PALS1/MPP5 PDZ domain in complex with SARS-CoV-2_E PBM peptide Q8N3R9 Q8N3R9 2.804 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 97 98 DERVYESIGQYGGETVKIVRIEKARDIPLGATVRNEMDSVIISRIVKGGAAEKSGLLHEGDEVLEINGIEIRGKDVNEVFDLLSDMHGTLTFVLIPS TDERVYESIGQYGGETVKIVRIEKARDIPLGATVRNEMDSVIISRIVKGGAAEKSGLLHEGDEVLEINGIEIRGKDVNEVFDLLSDMHGTLTFVLIPS 7qcw-a1-m1-cA_7qcw-a1-m1-cB Apo-structure of serine hydroxymethyltransferase (PbzB) involved in benzobactin biosynthesis in P. chlororaphis subsp. piscium DSM 21509 A0A3G7DQ80 A0A3G7DQ80 2.81 X-RAY DIFFRACTION 203 0.995 1513890 (Pseudomonas chlororaphis subsp. piscium) 1513890 (Pseudomonas chlororaphis subsp. piscium) 396 408 QADLLKRGLADLQEHDAELARILDAEVARQQRTLSLVASCCAVKPRTLAASSSALVNVCENVDLVESLAIQRARELFGAQYAGVQSHSASSANYQVLAALLEPGDTLLGYKAIGYGTTKEGLIDYDEVRRLALEHRPRLIICGATAYSRVVDFERFRQIADEAGAILMADISHIAGLVATGRHPSPIDAAHVTTTCTHKQLVGPRGGLILSGRDANEKVPGRDATFSRVLELAVVNMMAAKAAALGYAMTPEFDAEMQRIRDAADVMASEFQARDYEVVGGRSENHTILIRLRAAMTGAIAETALEHCGIVVNKNRVPGETRSSFVTSGLRIGTGALAQRHVDAQGCRQIVDLLCRILDEVTPLGESEFTLDPALRKQFCAEAEALCVKYPIADYL LTQADLLKRGLADLQEHDAELARILDAEVARQQRTLSLVASCCAVKPRTLAASSSALVNVTAGCENVDLVESLAIQRARELFGAQYAGVQSHSASSANYQVLAALLEPGDTLLGMALDGTYYKAIGYGTTKEGLIDYDEVRRLALEHRPRLIICGATAYSRVVDFERFRQIADEAGAILMADISHIAGLVATGRHPSPIDAAHVTTTCTHKQLVGPRGGLILSGRDANEKVPGRDATFSRVLELAPAVNMMAAKAAALGYAMTPEFDAEMQRIRDAADVMASEFQARDYVVGGRSENHTILIRLRAAMTGAIAETALEHCGIVVNKNRVPGETRSSFVTSGLRIGTGALAQRHVDAQGCRQIVDLLCRILDEVTPLGESEFTLDPALRKQFCAEAEALCVKYPIADYL 7qd0-a1-m1-cA_7qd0-a1-m2-cA Structure of the orange carotenoid protein from Planktothrix agardhii binding echinenone in the C2 space group A0A1J1JHR9 A0A1J1JHR9 1.7 X-RAY DIFFRACTION 103 1.0 1160 (Planktothrix agardhii) 1160 (Planktothrix agardhii) 307 307 7qcz-a1-m1-cA_7qcz-a1-m2-cA SFTVDSARGIFPNTLTADVVPATIARFNQLNAEDQLALIWFAYLEMGKTITVAALGAANMQFAEITMNQIRQMSFQEQTQVMCDLANRTDTPISRAYGSWTANIKLGFWYQLGEWMAQGIVAPIPSGYKLSANAASVLQAIQGLESGQQITVLRNCVVDMGFDTEPVVVPRDMAQRTQVTIEGIDNPTVLNYMNNMNANDFEVLIELFTPDGALQPPFQKPIVGKDAVLRFFREECQNLKLIPERGVTEPADGGYTQIKVTGKVQTPWFGAGVGMNMAWRFLLSPENKIFFVAIDLLASPKELLNLV SFTVDSARGIFPNTLTADVVPATIARFNQLNAEDQLALIWFAYLEMGKTITVAALGAANMQFAEITMNQIRQMSFQEQTQVMCDLANRTDTPISRAYGSWTANIKLGFWYQLGEWMAQGIVAPIPSGYKLSANAASVLQAIQGLESGQQITVLRNCVVDMGFDTEPVVVPRDMAQRTQVTIEGIDNPTVLNYMNNMNANDFEVLIELFTPDGALQPPFQKPIVGKDAVLRFFREECQNLKLIPERGVTEPADGGYTQIKVTGKVQTPWFGAGVGMNMAWRFLLSPENKIFFVAIDLLASPKELLNLV 7qd2-a1-m1-cC_7qd2-a1-m1-cA Structure of the orange carotenoid protein from Planktothrix agardhii binding canthaxanthin in the P21 space group A0A1J1JHR9 A0A1J1JHR9 1.4 X-RAY DIFFRACTION 72 1.0 1160 (Planktothrix agardhii) 1160 (Planktothrix agardhii) 306 308 7qd1-a1-m1-cC_7qd1-a1-m1-cA FTVDSARGIFPNTLTADVVPATIARFNQLNAEDQLALIWFAYLEMGKTITVAALGAANMQFAEITMNQIRQMSFQEQTQVMCDLANRTDTPISRAYGSWTANIKLGFWYQLGEWMAQGIVAPIPSGYKLSANAASVLQAIQGLESGQQITVLRNCVVDMGFDEPVVVPRDMAQRTQVTIEGIDNPTVLNYMNNMNANDFEVLIELFTPDGALQPPFQKPIVGKDAVLRFFREECQNLKLIPERGVTEPADGGYTQIKVTGKVQTPWFGAGVGMNMAWRFLLSPENKIFFVAIDLLASPKELLNLVR MSFTVDSARGIFPNTLTADVVPATIARFNQLNAEDQLALIWFAYLEMGKTITVAALGAANMQFAEITMNQIRQMSFQEQTQVMCDLANRTDTPISRAYGSWTANIKLGFWYQLGEWMAQGIVAPIPSGYKLSANAASVLQAIQGLESGQQITVLRNCVVDMGFDEPVVVPRDMAQRTQVTIEGIDNPTVLNYMNNMNANDFEVLIELFTPDGALQPPFQKPIVGKDAVLRFFREECQNLKLIPERGVTEPADGGYTQIKVTGKVQTPWFGAGVGMNMAWRFLLSPENKIFFVAIDLLASPKELLNLVR 7qd6-a1-m1-cA_7qd6-a1-m1-cD Cryo-EM structure of Tn4430 TnpA transposase from Tn3 family in complex with strand-transfer like DNA product P10021 P10021 3.0 ELECTRON MICROSCOPY 257 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 908 908 7qd4-a1-m1-cA_7qd4-a1-m1-cD 7qd5-a1-m1-cA_7qd5-a1-m1-cD GVKQLLSEAQRNELMDLSRLTEWDLVTFHTFSKHDLHLILKHRRGYNRLGFALQLVLIRYPGWSLTEYKDIPQYVVAYVASQLQIPPEEFLVYAKRGNTLWEHLGEIRTEYGYQNFSSEYKETLLQFLVQQAMDNNNTLYLIEITISTLRKMKVILPAMYVIEDIVWEAKQQADQKVYSILHDGLVQEQKDQLDALLLPTINGKSPLAWLKDVPAQPSPESFLKVIDRLQFVQKIGLTIDTTKINTNRLRQLARLGSKYEPYAFRRFNEVKRYSMLVSFLLEITQDLIDYAIEIHDRLMMNLQTKGKKEQDEIQQANGKKLNEKILQFITVCGTLIEAKETGKDAFAALDEVMSWNEMVESVEEAKQLSRPLNYDYLDLLNTRYSYVRRYAPTLLRSLHFRATKSGEPVLQALDTIHELNETGKRKVPHGAPLHFVSNRWQKHVYDDDGNINRHYYELAALTELRNHIRSGDIFVSGSRHHKAFDDYLIPYDEWNEVSNIPNGLTAPLKAEDYITDRINRLNEHLEWLSRLDRGTPEEAKAFSKLLHSMLPRIKLTDLLIEVASWTGFHDQFIHASTNQSPDQEEQNIVLATLMAMGTNIGLTKMAEATPGISYRQMANASQWRMYDDAMVRAQSILVNFQKEQKLSSYWGSDGMRLSGGTIYRFHVKVITARDALHVLDGLLHEEHYTGYTDQVFALTHLLGFRFAPRIRDLADTKLFSQALLKGKINVKLIKENYEDIRRLAYSVQTGKVSSALIMGKLGSYARQNKLATALGEMGRIEKTLFTLDYISNKAVRRRVQKGLNKGEAINALARIIFFGQRGEFRERALQDQLQRARALNIIINAISVWNTVYMEKAVEELKARGEFREDLMPYAWPLGWEHINFLGEYKFEGLHDTGQMNLRPLRIK GVKQLLSEAQRNELMDLSRLTEWDLVTFHTFSKHDLHLILKHRRGYNRLGFALQLVLIRYPGWSLTEYKDIPQYVVAYVASQLQIPPEEFLVYAKRGNTLWEHLGEIRTEYGYQNFSSEYKETLLQFLVQQAMDNNNTLYLIEITISTLRKMKVILPAMYVIEDIVWEAKQQADQKVYSILHDGLVQEQKDQLDALLLPTINGKSPLAWLKDVPAQPSPESFLKVIDRLQFVQKIGLTIDTTKINTNRLRQLARLGSKYEPYAFRRFNEVKRYSMLVSFLLEITQDLIDYAIEIHDRLMMNLQTKGKKEQDEIQQANGKKLNEKILQFITVCGTLIEAKETGKDAFAALDEVMSWNEMVESVEEAKQLSRPLNYDYLDLLNTRYSYVRRYAPTLLRSLHFRATKSGEPVLQALDTIHELNETGKRKVPHGAPLHFVSNRWQKHVYDDDGNINRHYYELAALTELRNHIRSGDIFVSGSRHHKAFDDYLIPYDEWNEVSNIPNGLTAPLKAEDYITDRINRLNEHLEWLSRLDRGTPEEAKAFSKLLHSMLPRIKLTDLLIEVASWTGFHDQFIHASTNQSPDQEEQNIVLATLMAMGTNIGLTKMAEATPGISYRQMANASQWRMYDDAMVRAQSILVNFQKEQKLSSYWGSDGMRLSGGTIYRFHVKVITARDALHVLDGLLHEEHYTGYTDQVFALTHLLGFRFAPRIRDLADTKLFSQALLKGKINVKLIKENYEDIRRLAYSVQTGKVSSALIMGKLGSYARQNKLATALGEMGRIEKTLFTLDYISNKAVRRRVQKGLNKGEAINALARIIFFGQRGEFRERALQDQLQRARALNIIINAISVWNTVYMEKAVEELKARGEFREDLMPYAWPLGWEHINFLGEYKFEGLHDTGQMNLRPLRIK 7qd8-a1-m1-cA_7qd8-a1-m1-cB Cryo-EM structure of Tn4430 TnpA transposase from Tn3 family in apo state P10021 P10021 3.6 ELECTRON MICROSCOPY 160 1.0 1428 (Bacillus thuringiensis) 1428 (Bacillus thuringiensis) 865 865 GVKQLLSEAQRNELMDLSRLTEWDLVTFHTFSKHDLHLILKHRRGYNRLGFALQLVLIRYPGWSLTEYKDIPQYVVAYVASQLQIPPEEFLVYAKRGNTLWEHLGEIRTEYGYQNFSSEYKETLLQFLVQQAMDNNNTLYLIEITISTLRKMKVILPAMYVIEDIVWEAKQQADQKVYSILHDGLVQEQKDQLDALLLPTINGKSPLAWLKDVPAQPSPESFLKVIDRLQFVQKIGLTIDTTKINTNRLRQLARLGSKYEPYAFRRFNEVKRYSMLVSFLLEITQDLIDYAIEIHDRLMMNLQTKGKKEQDEIQQANGKKLNEKILQFITVCGTLIEAKETGKDAFAALDEVMSWNEMVESVEEAKQLSDYLDLLNTRYSYVRRYAPTLLRSLHFRATKSGEPVLQALDTIHELNETGKRKVPHGAPLHFVSNRINRHYYELAALTELRNHIRSGDIFVSGSRHHKAFDDYLIPYDEWNEVSNIPNGLTAPLKAEDYITDRINRLNEHLEWLSHVERLDRGTPEEAKAFSKLLHSMLPRIKLTDLLIEVASWTGFHDQFIHASTNQSPDQEEQNIVLATLMAMGTNIGLTKMAEATPGISYRQMANASQWRMYDDAMVRAQSILVNFQKEQKLSSYWSAYHVKVITTNARDALHVLDGLLHHETDLKIEEHYTDTAGYTDQVFALTHLLGFRFAPLLKGKINVKLIKENYEDIRRLAYSVQTGKVSSALIMGKLGSYARQNKLATALGEMGRIEKTLFTLDYISNKAVRRRVQKGLNKGEAINALARIIFFGQRGEFRERALQDQLQRASALNIIINAISVWNTVYMEKAVEELKARGEFREDLMPYAWPLGWEHINFLGEYKFE GVKQLLSEAQRNELMDLSRLTEWDLVTFHTFSKHDLHLILKHRRGYNRLGFALQLVLIRYPGWSLTEYKDIPQYVVAYVASQLQIPPEEFLVYAKRGNTLWEHLGEIRTEYGYQNFSSEYKETLLQFLVQQAMDNNNTLYLIEITISTLRKMKVILPAMYVIEDIVWEAKQQADQKVYSILHDGLVQEQKDQLDALLLPTINGKSPLAWLKDVPAQPSPESFLKVIDRLQFVQKIGLTIDTTKINTNRLRQLARLGSKYEPYAFRRFNEVKRYSMLVSFLLEITQDLIDYAIEIHDRLMMNLQTKGKKEQDEIQQANGKKLNEKILQFITVCGTLIEAKETGKDAFAALDEVMSWNEMVESVEEAKQLSDYLDLLNTRYSYVRRYAPTLLRSLHFRATKSGEPVLQALDTIHELNETGKRKVPHGAPLHFVSNRINRHYYELAALTELRNHIRSGDIFVSGSRHHKAFDDYLIPYDEWNEVSNIPNGLTAPLKAEDYITDRINRLNEHLEWLSHVERLDRGTPEEAKAFSKLLHSMLPRIKLTDLLIEVASWTGFHDQFIHASTNQSPDQEEQNIVLATLMAMGTNIGLTKMAEATPGISYRQMANASQWRMYDDAMVRAQSILVNFQKEQKLSSYWSAYHVKVITTNARDALHVLDGLLHHETDLKIEEHYTDTAGYTDQVFALTHLLGFRFAPLLKGKINVKLIKENYEDIRRLAYSVQTGKVSSALIMGKLGSYARQNKLATALGEMGRIEKTLFTLDYISNKAVRRRVQKGLNKGEAINALARIIFFGQRGEFRERALQDQLQRASALNIIINAISVWNTVYMEKAVEELKARGEFREDLMPYAWPLGWEHINFLGEYKFE 7qdk-a1-m1-cB_7qdk-a1-m1-cC A trimeric de novo coiled-coil assembly: CC-TypeN-LaLd 1.41 X-RAY DIFFRACTION 26 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 7qdk-a1-m1-cA_7qdk-a1-m1-cB 7qdk-a1-m1-cA_7qdk-a1-m1-cC GELAALKQELAALKWELAALKEELAALKG GELAALKQELAALKWELAALKEELAALKG 7qec-a1-m1-cA_7qec-a1-m2-cA Crystal structure of SlpA - domain II, domain that is involved in the self-assembly of the S-layer from Lactobacillus amylovorus E4SK47 E4SK47 1.95 X-RAY DIFFRACTION 81 1.0 695560 (Lactobacillus amylovorus GRL 1112) 695560 (Lactobacillus amylovorus GRL 1112) 106 106 SVSFYEIANGNEVHTGSLNMTANPTSHELNVSAVLAAAKAKYAAHQLENGASVAVTTDVKDLTDQLTKAGIKVDPLGNFQAQASFSFNLAAKSATATLPITVSVAN SVSFYEIANGNEVHTGSLNMTANPTSHELNVSAVLAAAKAKYAAHQLENGASVAVTTDVKDLTDQLTKAGIKVDPLGNFQAQASFSFNLAAKSATATLPITVSVAN 7qej-a1-m1-cB_7qej-a1-m1-cA Structure of the ligand binding domain of the antibiotic biosynthesis regulator AdmX from the rhizobacterium Serratia plymuthica A153 bound to the auxin indole-3-acetic acid (IAA). 1.81 X-RAY DIFFRACTION 113 0.995 82996 (Serratia plymuthica) 82996 (Serratia plymuthica) 203 204 7qek-a1-m1-cB_7qek-a1-m1-cA RAKFTLGCLPCLGLSLVPEIATDFYQQNSNLVMTLTAEHTETLVKKLDLREIDLALTMQPVQQGDIMATLIAEVPLVYVDKDYRQGAVEIDSIDQQRWISPGLDSLSTAIAAHRVFPATGLNVETCYMAMEFVKRGVGCCITDIFSARHSLTPEMIHQISPPMKIDLYLLRRADASLSPVTQKFVDFLCKRLRNELREINLEL AKFTLGCLPCLGLSLVPEIATDFYQQNSNLVMTLTAEHTETLVKKLDLREIDLALTMQPVQQGDIMATLIAEVPLVYVDKDYRQGAVEIDSIDQQRWISPGLDSLSTAIAAHRVFPATGLNVETCYMAMEFVKRGVGCCITDIFSARHSLTPEMIHQISPPMKIDLYLLRRADASLSPVTQKFVDFLCKRLRNELREINLELYP 7qfk-a2-m1-cB_7qfk-a2-m1-cD Crystal structure of S-layer protein SlpX from Lactobacillus acidophilus, domain II, Co-Crystallization with HgCl2, Mutation Ser316Cys (aa 194-362) Q5FLN0 Q5FLN0 2.48 X-RAY DIFFRACTION 17 1.0 1579 (Lactobacillus acidophilus) 1579 (Lactobacillus acidophilus) 172 178 7qfk-a1-m1-cA_7qfk-a1-m1-cC TTQNPQINWTKGGQAQSSSLNGQVFQVAVGSNFNPLNFTNSNGENIIVSAQQSKNNTTFASIEATSNPVNTSEAGRYYNVTLTATGNTGKKTTATYTVLITSSQKQTLYGESTISTYSIYGNNVLCNSTTFKDGDQVYVSDQTKTVGGVSYSQVSPKSKNDANSSNIWVKTS TTQNPQINWTKGGQAQSSSLNGQVFQVAVGSNFNPLNFTNSNGENIIVSAQQSKNNTTFASIEATSNPVNTSEAGRYYNVTLTATGNTGKKTTATYTVLITSSQKQTLYGNGESTISTYSIYGNNVLCNSTTFKDGDQVYVSDQTKTVGGVSYSQVSPKSKNDANSSNIWVKTSLEHH 7qfx-a2-m1-cG_7qfx-a2-m1-cE Crystal structure of Old Yellow Enzyme AnOYE8 from Aspergillus niger A2QBV3 A2QBV3 2.8 X-RAY DIFFRACTION 163 0.995 5061 (Aspergillus niger) 5061 (Aspergillus niger) 407 409 7qfx-a1-m1-cB_7qfx-a1-m1-cC DIKVEPAKGISYFTPAQETPAGTAANPQTSGKAIPKLFQPITIRGLTFQNRLGVSPMCQYSAEDGHMTDYHLAHLGGIAQRGPGLIMIEATAVQPEGRISPQDVGLWKDSQIAPIARVIEFAHSQGQKIGIQLAHAGRKASTTVPWMLNHGSIATENVGGWPDNVKGPSDIPFSETFPRPRAMTQDDIREFKEAWVAAAKRALVAGADFIEIHNAHGYLLASFLTPYANKTDEYGGSFENRMRLPLKIAQLTRDTVGEHVPVFLRLSASDWLSTETWDLQHAVRFAEALADQGAIDLVDVSSGGLHSSQEVKSGPGFQAPFGIAVKKAVGERMLVATVGHIRDGKLANRLLEEEGLDVVLVGRGFQKDPGLVWTFAQHLDVEVAMPGQIRWGFSKQGTPFVDPSVYK DIKVEPAKGISYFTPAQETPAGTAANPQTSGKAIPKLFQPITIRGLTFQNRLGVSPMCQYSAEDGHMTDYHLAHLGGIAQRGPGLIMIEATAVQPEGRISPQDVGLWKDSQIAPIARVIEFAHSQGQKIGIQLAHAGRKASTTVPWMLNHGSIATENVGGWPDNVKGPSDIPFSETFPRPRAMTQDDIREFKEAWVAAAKRALVAGADFIEIHNAHGYLLASFLTPYANKRTDEYGGSFENRMRLPLKIAQLTRDTVGEHVPVFLRLSASDWLGTETWDLQHAVRFAEALADQGAIDLVDVSSGGLHSSQEVKSGPGFQAPFGIAVKKAVGERMLVATVGHIRDGKLANRLLEEEGLDVVLVGRGFQKDPGLVWTFAQHLDVEVAMPGQIRWGFSKRRGTPFVDPSVYK 7qfz-a2-m1-cC_7qfz-a2-m1-cD BrxR, a WYL-domain containing transcriptional regulator B7L3Y3 B7L3Y3 2.15 X-RAY DIFFRACTION 324 1.0 585054 (Escherichia fergusonii ATCC 35469) 585054 (Escherichia fergusonii ATCC 35469) 289 290 7qfz-a1-m1-cA_7qfz-a1-m1-cB 7qfz-a3-m1-cE_7qfz-a3-m1-cF 7qfz-a4-m1-cH_7qfz-a4-m1-cG LEELSQAQRERLAHIDFTLLFKGEAGRSYLTERFSVAPSVATQDFARYKALAPNNVMYDEKRRVHLKTSTFQPLFDYDIVRTLATISQGFGDGFLGKVRPPMACEAPFHLNKPKLEVVAAISEAIHKRAVINIEYTSLSSGHGSRQIVPHTLIDNGLRWHVRAFDRKHREFRDFVLTRISEVELLEDKVNDEVETLQWDKQWNRIVELELIPHPKLAHPEAVLIDYAMENNRLRVEIRAAFAGYLLRLWNIDCSKNSKSNGREFHLALKNPEALYGVDNAALAPGYSES GLEELSQAQRERLAHIDFTLLFKGEAGRSYLTERFSVAPSVATQDFARYKALAPNNVMYDEKRRVHLKTSTFQPLFDYDIVRTLATISQGFGDGFLGKVRPPMACEAPFHLNKPKLEVVAAISEAIHKRAVINIEYTSLSSGHGSRQIVPHTLIDNGLRWHVRAFDRKHREFRDFVLTRISEVELLEDKVNDEVETLQWDKQWNRIVELELIPHPKLAHPEAVLIDYAMENNRLRVEIRAAFAGYLLRLWNIDCSKNSKSNGREFHLALKNPEALYGVDNAALAPGYSES 7qg6-a4-m1-cD_7qg6-a4-m1-cB Co-crystal structure of UPF3A-RRM-NOPS-L with UPF2-MIF4GIII Q9HAU5 Q9HAU5 2.95 X-RAY DIFFRACTION 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 248 7qg6-a1-m1-cD_7qg6-a1-m1-cB 7qg6-a2-m1-cD_7qg6-a2-m1-cB 7qg6-a3-m1-cD_7qg6-a3-m1-cB KRPPLQEYVRKLLYKDLSKVTTEKVLRQMRKLPWQDQEVKDYVICCMINIWNVKYNSIHCVANLLAGLVLYQEDVGIHVVDGVLEDIRLGMEVNQPKFNQRRISSAKFLGELYNYRMVESAVIFRTLYSFTSFGVNPDGSPSSLDPPEHLFRIRLVCTILDTCGQYFDRGSSKRKLDCFLVYFQRYVWWKKSLEVWTKDHPFPIDIDYMISDTLELLRPKIKLCNSLEESIRQVQDLEREFLIKL KRPPLQEYVRKLLYKDLSKVTTEKVLRQMRKLPWQDQEVKDYVICCMINIWNVKYNSIHCVANLLAGLVLYQEDVGIHVVDGVLEDIRLGMEVNQPKFNQRRISSAKFLGELYNYRMVESAVIFRTLYSFTSFGVNPDGSPSSLDPPEHLFRIRLVCTILDTCGQYFDRGSSKRKLDCFLVYFQRYVWWKKSLEVWTKDHPFPIDIDYMISDTLELLRPKIKLCNSLEESIRQVQDLEREFLIKLGLV 7qg6-a4-m1-cD_7qg6-a4-m1-cF Co-crystal structure of UPF3A-RRM-NOPS-L with UPF2-MIF4GIII Q9HAU5 Q9HAU5 2.95 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 245 246 7qg6-a1-m1-cD_7qg6-a1-m1-cF 7qg6-a2-m1-cD_7qg6-a2-m1-cF 7qg6-a3-m1-cD_7qg6-a3-m1-cF KRPPLQEYVRKLLYKDLSKVTTEKVLRQMRKLPWQDQEVKDYVICCMINIWNVKYNSIHCVANLLAGLVLYQEDVGIHVVDGVLEDIRLGMEVNQPKFNQRRISSAKFLGELYNYRMVESAVIFRTLYSFTSFGVNPDGSPSSLDPPEHLFRIRLVCTILDTCGQYFDRGSSKRKLDCFLVYFQRYVWWKKSLEVWTKDHPFPIDIDYMISDTLELLRPKIKLCNSLEESIRQVQDLEREFLIKL KRPPLQEYVRKLLYKDLSKVTTEKVLRQMRKLPWQDQEVKDYVICCMINIWNVKYNSIHCVANLLAGLVLYQEDVGIHVVDGVLEDIRLGMEVNQPKFNQRRISSAKFLGELYNYRMVESAVIFRTLYSFTSFGVNPDGSPSSLDPPEHLFRIRLVCTILDTCGQYFDRGSSKRKLDCFLVYFQRYVWWKKSLEVWTKDHPFPIDIDYMISDTLELLRPKIKLCNSLEESIRQVQDLEREFLIKLG 7qgq-a1-m1-cA_7qgq-a1-m1-cP Extended H/L (SLPH/SLPL) complex from C. difficile (CD630 strain) fit into R20291 S-layer negative stain map Q183M8 Q183M8 0 ELECTRON CRYSTALLOGRAPHY 36 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 318 318 7qgq-a1-m1-cE_7qgq-a1-m1-cQ 7qgq-a1-m1-cF_7qgq-a1-m1-cR 7qgq-a1-m1-cG_7qgq-a1-m1-cS ATTGTQGYTVVKNDWKKAVKQLQDGLKDNSIGKITVSFNDGVVGEVAPKSANKKADRDAAAEKLYNLVNTQLDKLGDGDYVDFSVDYNLENKIITNQADAEAIVTKLNSLNEKTLIDIATKDTFGMVSKTQDSEGKNVAATKALKVKDVATFGLKSGGSEDTGYVVEMKAGAVEDKYGKVGDSTAGIAINLPSTGLEYAGKGTTIDFNKTLKVDVTGGSTPSAVAVSGFVTKDDTDLAKSGTINVRVINAKEESIDIDASSYTSAENLAKRYVFDPDEISEAYKAIVALQNDGIESNLVQLVNGKYQVIFYPEGKRLE ATTGTQGYTVVKNDWKKAVKQLQDGLKDNSIGKITVSFNDGVVGEVAPKSANKKADRDAAAEKLYNLVNTQLDKLGDGDYVDFSVDYNLENKIITNQADAEAIVTKLNSLNEKTLIDIATKDTFGMVSKTQDSEGKNVAATKALKVKDVATFGLKSGGSEDTGYVVEMKAGAVEDKYGKVGDSTAGIAINLPSTGLEYAGKGTTIDFNKTLKVDVTGGSTPSAVAVSGFVTKDDTDLAKSGTINVRVINAKEESIDIDASSYTSAENLAKRYVFDPDEISEAYKAIVALQNDGIESNLVQLVNGKYQVIFYPEGKRLE 7qgq-a1-m1-cD_7qgq-a1-m1-cJ Extended H/L (SLPH/SLPL) complex from C. difficile (CD630 strain) fit into R20291 S-layer negative stain map Q183M8 Q183M8 0 ELECTRON CRYSTALLOGRAPHY 23 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 373 373 7qgq-a1-m1-cL_7qgq-a1-m1-cV 7qgq-a1-m1-cN_7qgq-a1-m1-cW NDTIASQDTPAKVVIKANKLKDLKDYVDDLKTYNNTYSNVVTVAGEDRIETAIELSSKYYNSDDKNAITDKAVNDIVLVGSTSIVDGLVASPLASEKTAPLLLTSKDKLDSSVKSEIKRVMNLKSDTGINTSKKVYLAGGVNSISKDVENELKNMGLKVTRLSGEDRYETSLAIADEIGLDNDKAFVVGGTGLADAMSIAPVASQLKDGDATPIVVVDGKAKEISDDAKSFLGTSDVDIIGGKNSVSKEIEESIDSATGKTPDRISGDDRQATNAEVLKEDDYFTDGEVVNYFVAKDGSTKEDQLVDALAAAPIAGRFKESPAPIILATDTLSSDQNVAVSKAVPKDGGTNLVQVGKGIASSVINKMKDLLDM NDTIASQDTPAKVVIKANKLKDLKDYVDDLKTYNNTYSNVVTVAGEDRIETAIELSSKYYNSDDKNAITDKAVNDIVLVGSTSIVDGLVASPLASEKTAPLLLTSKDKLDSSVKSEIKRVMNLKSDTGINTSKKVYLAGGVNSISKDVENELKNMGLKVTRLSGEDRYETSLAIADEIGLDNDKAFVVGGTGLADAMSIAPVASQLKDGDATPIVVVDGKAKEISDDAKSFLGTSDVDIIGGKNSVSKEIEESIDSATGKTPDRISGDDRQATNAEVLKEDDYFTDGEVVNYFVAKDGSTKEDQLVDALAAAPIAGRFKESPAPIILATDTLSSDQNVAVSKAVPKDGGTNLVQVGKGIASSVINKMKDLLDM 7qgq-a1-m1-cG_7qgq-a1-m1-cR Extended H/L (SLPH/SLPL) complex from C. difficile (CD630 strain) fit into R20291 S-layer negative stain map Q183M8 Q183M8 0 ELECTRON CRYSTALLOGRAPHY 135 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 318 318 7qgq-a1-m1-cE_7qgq-a1-m1-cP ATTGTQGYTVVKNDWKKAVKQLQDGLKDNSIGKITVSFNDGVVGEVAPKSANKKADRDAAAEKLYNLVNTQLDKLGDGDYVDFSVDYNLENKIITNQADAEAIVTKLNSLNEKTLIDIATKDTFGMVSKTQDSEGKNVAATKALKVKDVATFGLKSGGSEDTGYVVEMKAGAVEDKYGKVGDSTAGIAINLPSTGLEYAGKGTTIDFNKTLKVDVTGGSTPSAVAVSGFVTKDDTDLAKSGTINVRVINAKEESIDIDASSYTSAENLAKRYVFDPDEISEAYKAIVALQNDGIESNLVQLVNGKYQVIFYPEGKRLE ATTGTQGYTVVKNDWKKAVKQLQDGLKDNSIGKITVSFNDGVVGEVAPKSANKKADRDAAAEKLYNLVNTQLDKLGDGDYVDFSVDYNLENKIITNQADAEAIVTKLNSLNEKTLIDIATKDTFGMVSKTQDSEGKNVAATKALKVKDVATFGLKSGGSEDTGYVVEMKAGAVEDKYGKVGDSTAGIAINLPSTGLEYAGKGTTIDFNKTLKVDVTGGSTPSAVAVSGFVTKDDTDLAKSGTINVRVINAKEESIDIDASSYTSAENLAKRYVFDPDEISEAYKAIVALQNDGIESNLVQLVNGKYQVIFYPEGKRLE 7qgv-a1-m1-cA_7qgv-a1-m1-cB Solid-state NMR structure of Teixobactin-Lipid II. NOT SOLID-STATE NMR 10 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 6 6 ISISAI ISISAI 7qgv-a1-m1-cC_7qgv-a1-m1-cD Solid-state NMR structure of Teixobactin-Lipid II. NOT SOLID-STATE NMR 10 1.0 1597781 (Eleftheria terrae) 1597781 (Eleftheria terrae) 6 6 ISISAI ISISAI 7qgw-a1-m1-cA_7qgw-a1-m1-cB Sulfonated Calpeptin is a promising drug candidate against SARS-CoV-2 infections O60911 O60911 1.3 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 7q8h-a1-m1-cAA_7q8h-a1-m1-cBA 7qff-a1-m1-cAA_7qff-a1-m1-cBA 7qfh-a1-m1-cAA_7qfh-a1-m1-cBA 7qo2-a1-m1-cAA_7qo2-a1-m1-cBA LPKSVDWRKKGYVTPVKNQKQCGSCWAFSATGALEGQMFRKTGKLVSLSEQNLVDCSRPQGNQGCNGGFMARAFQYVKENGGLDSEESYPYVAVDEICKYRPENSVAQDTGFTVVAPGKEKALMKAVATVGPISVAMDAGHSSFQFYKSGIYFEPDCSSKNLDHGVLVVGYGFEGANSQNSKYWLVKNSWGPEWGSNGYVKIAKDKNNHCGIATAASYPNV LPKSVDWRKKGYVTPVKNQKQCGSCWAFSATGALEGQMFRKTGKLVSLSEQNLVDCSRPQGNQGCNGGFMARAFQYVKENGGLDSEESYPYVAVDEICKYRPENSVAQDTGFTVVAPGKEKALMKAVATVGPISVAMDAGHSSFQFYKSGIYFEPDCSSKNLDHGVLVVGYGFEGANSQNSKYWLVKNSWGPEWGSNGYVKIAKDKNNHCGIATAASYPNV 7qh2-a1-m1-cC_7qh2-a1-m1-cF Cryo-EM structure of Ldh-EtfAB complex from Acetobacterium woodii H6LBS1 H6LBS1 2.43 ELECTRON MICROSCOPY 242 1.0 33952 (Acetobacterium woodii) 33952 (Acetobacterium woodii) 467 467 MNYKKVEASDIAAIKELIPAERVFVGTEIGEDFSHDELGSIHSYPEVLIKVTSTEEVSKIMKYAYEHNIPVVVRGSGTGLVGACVPLFGGIMLETTLMNNILELDTENLTVTVEPGVLLMELSKFVEENDLFYPPDPGEKSATIAGNISTNAGGMRAVKYGVTRDYVRGLTVVLANGEIIELGGKIVKNSSGYSLKDLVIGSEGTLCVITKAILKLLPLPKMTLSLLIPFENISDAAGIVPKIIKSKAIPTAIEFMERQTILFAEDFLGKKFPDSSSNAYILLTFDGNTKEQVEAEYETVANLCLAEGAKDVYIVDTVERKDSVWSARGAFLEAIKASTTEMDECDVVVPRNRIAEFIEFTHDLAKEMDVRIPSFGHAGDGNLHIYVCRDELCQADWEAKLAEAMDRMYAKALTFEGLVSGEHGIGYAKRKYLLNDFGTEHLALMAGIKQTFDPKNLLNPKKVCQMA MNYKKVEASDIAAIKELIPAERVFVGTEIGEDFSHDELGSIHSYPEVLIKVTSTEEVSKIMKYAYEHNIPVVVRGSGTGLVGACVPLFGGIMLETTLMNNILELDTENLTVTVEPGVLLMELSKFVEENDLFYPPDPGEKSATIAGNISTNAGGMRAVKYGVTRDYVRGLTVVLANGEIIELGGKIVKNSSGYSLKDLVIGSEGTLCVITKAILKLLPLPKMTLSLLIPFENISDAAGIVPKIIKSKAIPTAIEFMERQTILFAEDFLGKKFPDSSSNAYILLTFDGNTKEQVEAEYETVANLCLAEGAKDVYIVDTVERKDSVWSARGAFLEAIKASTTEMDECDVVVPRNRIAEFIEFTHDLAKEMDVRIPSFGHAGDGNLHIYVCRDELCQADWEAKLAEAMDRMYAKALTFEGLVSGEHGIGYAKRKYLLNDFGTEHLALMAGIKQTFDPKNLLNPKKVCQMA 7qho-a1-m1-cA_7qho-a1-m1-cN Cytochrome bcc-aa3 supercomplex (respiratory supercomplex III2/IV2) from Corynebacterium glutamicum (as isolated) Q79VE8 Q79VE8 3.1 ELECTRON MICROSCOPY 229 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 402 402 7q21-a1-m1-cA_7q21-a1-m1-ca 7qhm-a1-m1-cN_7qhm-a1-m1-cA KQYTTQELNAMSNEDLARLGTELDDVTIAYRKERFPIANDPAEKRAARAVTFWLVLGIIGGLGFLATYIFWPWEYKAHGDEGLLAYTLYTPMLGITSGLCILSLGFAVVLYVKKFIPEEIAVQRRHDGPSEEVDRRTIVALLNDSWQTSTLGRRKLIMGLAGGGAVLAGLTIIAPMGGMIKNPWNPKEGPMDVQGDGTLWTSGWTLVENDVKVYLGRDTAAIAESHTDATGEHWSTTGVSRLVRMRPEDLAAASMETVFPLPAEMVNDGAEYDPAKDVYEHQMHSVHGPRNAVMLIRLRTADAEKVIEREGQESFHYGDYYAYSKICTHIGCPTSLYEAQTNRILCPCHQSQFDALHYGKPVFGPAARALPQLPITVDEEGYLIAAGNFIEPLGPAFWERKS KQYTTQELNAMSNEDLARLGTELDDVTIAYRKERFPIANDPAEKRAARAVTFWLVLGIIGGLGFLATYIFWPWEYKAHGDEGLLAYTLYTPMLGITSGLCILSLGFAVVLYVKKFIPEEIAVQRRHDGPSEEVDRRTIVALLNDSWQTSTLGRRKLIMGLAGGGAVLAGLTIIAPMGGMIKNPWNPKEGPMDVQGDGTLWTSGWTLVENDVKVYLGRDTAAIAESHTDATGEHWSTTGVSRLVRMRPEDLAAASMETVFPLPAEMVNDGAEYDPAKDVYEHQMHSVHGPRNAVMLIRLRTADAEKVIEREGQESFHYGDYYAYSKICTHIGCPTSLYEAQTNRILCPCHQSQFDALHYGKPVFGPAARALPQLPITVDEEGYLIAAGNFIEPLGPAFWERKS 7qho-a1-m1-cB_7qho-a1-m1-cO Cytochrome bcc-aa3 supercomplex (respiratory supercomplex III2/IV2) from Corynebacterium glutamicum (as isolated) Q79VE9 Q79VE9 3.1 ELECTRON MICROSCOPY 75 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 534 534 7q21-a1-m1-cB_7q21-a1-m1-cb 7qhm-a1-m1-cB_7qhm-a1-m1-cO MSLATVGNNLDSRYTMASGIRRQINKVFPTHWSFMLGEIALYSFIVLLLTGVYLTLFFDPSITKVIYDGGYLPLNGVEMSRAYATALDISFEVRGGLFIRQMHHWAALLFVVSMLVHMLRIFFTGAFRRPREANWIIGVVLIILGMAEGFMGYSLPDDLLSGVGLRIMSAIIVGLPIIGTWMHWLIFGGDFPSDLMLDRFYIAHVLIIPAILLGLIAAHLALVWYQKHTQFPGAGRTENNVIGIRIMPLFAVKAVAFGLIVFGFLALLAGVTTINAIWNLGPYNPSQVSAGSQPDVYMLWTDGAARVMPAWELYLGNYTIPAVFWVAVMLGILVVLLVTYPFIERKFTGDDAHHNLLQRPRDVPVRTSLGVMALVFYILLTVSGGNDVYAMQFHVSLNAMTWIGRIGLIVGPAIAYFITYRLCIGLQRSDREVLEHGIETGIIKQMPNGAFIEVHQPLGPVDDHGHPIPLPYAGAAVPKQMNQLGYAEVETRGGFFGPDPEDIRAKAKEIEHANHIEEANTLRALNEANIERDK MSLATVGNNLDSRYTMASGIRRQINKVFPTHWSFMLGEIALYSFIVLLLTGVYLTLFFDPSITKVIYDGGYLPLNGVEMSRAYATALDISFEVRGGLFIRQMHHWAALLFVVSMLVHMLRIFFTGAFRRPREANWIIGVVLIILGMAEGFMGYSLPDDLLSGVGLRIMSAIIVGLPIIGTWMHWLIFGGDFPSDLMLDRFYIAHVLIIPAILLGLIAAHLALVWYQKHTQFPGAGRTENNVIGIRIMPLFAVKAVAFGLIVFGFLALLAGVTTINAIWNLGPYNPSQVSAGSQPDVYMLWTDGAARVMPAWELYLGNYTIPAVFWVAVMLGILVVLLVTYPFIERKFTGDDAHHNLLQRPRDVPVRTSLGVMALVFYILLTVSGGNDVYAMQFHVSLNAMTWIGRIGLIVGPAIAYFITYRLCIGLQRSDREVLEHGIETGIIKQMPNGAFIEVHQPLGPVDDHGHPIPLPYAGAAVPKQMNQLGYAEVETRGGFFGPDPEDIRAKAKEIEHANHIEEANTLRALNEANIERDK 7qi3-a2-m1-cB_7qi3-a2-m1-cD Structure of Fusarium verticillioides NAT1 (FDB2) N-malonyltransferase B7SP66 B7SP66 1.8 X-RAY DIFFRACTION 153 1.0 117187 (Fusarium verticillioides) 117187 (Fusarium verticillioides) 340 340 7qi3-a1-m1-cA_7qi3-a1-m1-cC EDPTALTQLPDESARVRYTSSELQDYFETLKFPQRFLDLGNSVLKDPSLARTKENGLPLLQAITRYHTCNVPFENLVLHYDPHKIVTLDPAELYTKIVTRRRGGRCMENNIFLGTALRSLGYEVRNCGGRVSRAMSPYPEVRKNQSATYDGWNHMLLLVFLGDEWYGVDVGMGSMGPNLPFPLQDGFESLSIAPREIRIQKRSISETHATGPSHATKMWCYDVCYNPAESKKTWTPVYCFTETEFLPQDYEVMSWFTSTNPRSFFTRYITCTKMIMDEDKEVIIGNLTLFKDTVRETIGSDRKVVKKFETEEERIKGLVEIFDVNLTEEEKNSLPQEKRL EDPTALTQLPDESARVRYTSSELQDYFETLKFPQRFLDLGNSVLKDPSLARTKENGLPLLQAITRYHTCNVPFENLVLHYDPHKIVTLDPAELYTKIVTRRRGGRCMENNIFLGTALRSLGYEVRNCGGRVSRAMSPYPEVRKNQSATYDGWNHMLLLVFLGDEWYGVDVGMGSMGPNLPFPLQDGFESLSIAPREIRIQKRSISETHATGPSHATKMWCYDVCYNPAESKKTWTPVYCFTETEFLPQDYEVMSWFTSTNPRSFFTRYITCTKMIMDEDKEVIIGNLTLFKDTVRETIGSDRKVVKKFETEEERIKGLVEIFDVNLTEEEKNSLPQEKRL 7qi8-a1-m1-cA_7qi8-a1-m2-cA CRYSTAL STRUCTURE OF LYSYL-TRNA SYNTHETASE FROM Mycobacterium tuberculosis COMPLEXED WITH L-LYSINE AND INHIBITOR P9WFU9 P9WFU9 2.2 X-RAY DIFFRACTION 275 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 462 462 7qh8-a1-m1-cA_7qh8-a1-m2-cA 7qhn-a1-m1-cA_7qhn-a1-m2-cA EQFRIRRDKRARLLAQGRDPYPVAVPRTHTLAEVRAAHPDLPIDTATEDIVGVAGRVIFARNSGKLCFATLQDGDGTQLQVMISLDKVGQAALDAWKADVDLGDIVYVHGAVISSRELSVLADCWRIAAKSLRPLPVMSEESRVRQRYVDLIVRPEARAVARLRIAVVRAIRTALQRRGFLEVETPVLQTLAGGAAARPFATHSNALDIDLYLRIAPELFLKRCIVGGFDKVFELNRVFRNEGADSTHSPEFSMLETYQTYGTYDDSAVVTRELIQEVADEAIGTRQLPLPDGSVYDIDGEWATIQMYPSLSVALGEEITPQTTVDRLRGIADSLGFGHGKLIEELWERTVGKSLSAPTFVKDFPVQTTPLTRQHRSIPGVTEKWDLYLRGIELATGYSELSDPVVQRERFADQARAAVLDEDFLAALEYGMPPCTGTGMGIDRLLMSLTGLSIRETVLFPI EQFRIRRDKRARLLAQGRDPYPVAVPRTHTLAEVRAAHPDLPIDTATEDIVGVAGRVIFARNSGKLCFATLQDGDGTQLQVMISLDKVGQAALDAWKADVDLGDIVYVHGAVISSRELSVLADCWRIAAKSLRPLPVMSEESRVRQRYVDLIVRPEARAVARLRIAVVRAIRTALQRRGFLEVETPVLQTLAGGAAARPFATHSNALDIDLYLRIAPELFLKRCIVGGFDKVFELNRVFRNEGADSTHSPEFSMLETYQTYGTYDDSAVVTRELIQEVADEAIGTRQLPLPDGSVYDIDGEWATIQMYPSLSVALGEEITPQTTVDRLRGIADSLGFGHGKLIEELWERTVGKSLSAPTFVKDFPVQTTPLTRQHRSIPGVTEKWDLYLRGIELATGYSELSDPVVQRERFADQARAAVLDEDFLAALEYGMPPCTGTGMGIDRLLMSLTGLSIRETVLFPI 7qiu-a1-m1-cB_7qiu-a1-m1-cA YsgA 23s RNA methyltransferase from Bacillus subtilis P94538 P94538 1.877 X-RAY DIFFRACTION 86 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 249 251 HMKQIESAKNQKVKDWKKLHTKKERTKTNTFLIEGEHLVEEALKSPGIVKEILVKDETRIPSDLETGIQCYMLSEDAFSAVTETETPQQIAAVCHMPEEKLATARKVLLIDAVQDPGNLGTMIRTADAAGLDAVVLGDGTADAFNGKTLRSAQGSHFHIPVVRRNLPSYVDELKAEGVKVYGTALQNGAPYQEIPQSESFALIVGNEGAGVDAALLEKTDLNLYVPLYGQAESLNVAVAAAILVYHLRG GSHMKQIESAKNQKVKDWKKLHTKKERTKTNTFLIEGEHLVEEALKSPGIVKEILVKDETRIPSDLETGIQCYMLSEDAFSAVTETETPQQIAAVCHMPEEKLATARKVLLIDAVQDPGNLGTMIRTADAAGLDAVVLGDGTADAFNGKTLRSAQGSHFHIPVVRRNLPSYVDELKAEGVKVYGTALQNGAPYQEIPQSESFALIVGNEGAGVDAALLEKTDLNLYVPLYGQAESLNVAVAAAILVYHLRG 7qjh-a1-m1-cRFF_7qjh-a1-m1-cSFF Spraguea lophii ribosome dimer S7W9X5 S7W9X5 11.3 ELECTRON MICROSCOPY 76 1.0 1358809 (Spraguea lophii 42_110) 1358809 (Spraguea lophii 42_110) 58 58 KPKQDIKQIILTQFSVNKDGECKPLRNSCSTCGPSVFLGRSGNKEYCGRCYTVAILNK KPKQDIKQIILTQFSVNKDGECKPLRNSCSTCGPSVFLGRSGNKEYCGRCYTVAILNK 7qkz-a1-m1-cD_7qkz-a1-m1-cF In vitro assembled 305-379 tau filaments (27a) P10636 P10636 2.65 ELECTRON MICROSCOPY 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 7qkz-a1-m1-cA_7qkz-a1-m1-cB 7qkz-a1-m1-cB_7qkz-a1-m1-cC 7qkz-a1-m1-cD_7qkz-a1-m1-cE 7qkz-a1-m1-cG_7qkz-a1-m1-cH 7qkz-a1-m1-cG_7qkz-a1-m1-cI QIVYKPVDLSK QIVYKPVDLSK 7qlr-a2-m3-cC_7qlr-a2-m1-cB Receptor-binding protein of Clostridium difficile phage CDHS-1 A0A1J1J928 A0A1J1J928 2.462 X-RAY DIFFRACTION 151 1.0 38018 (Bacteriophage sp.) 38018 (Bacteriophage sp.) 584 585 7qlr-a1-m1-cA_7qlr-a1-m2-cD GEPLNFLSYLQDIKLNGLDSYVLFIGNARIWEELYLNSLYLFSDRGIRETVYTAFSETDIDNLFNKSTKLGEQLNAFYRTDIFSLGNADNVVKETIEHYNSLEEKFKAGYDRYVTREQEKSTIGAWFNSTFSLDNTDLENLTTIEEILANVEATNAILNNSNAIVALTCKSSDAVVASSNADLLGQYILRVTTESPVIRAILKNNVIRDAIINSDEATQISSNENSVEIFNDLEATKVLVQNQNSINKILTNNVTVEKIIPNLLEKYNLQTSLNYINTIKSNIASGKGQIAITYNEEIFPILKNAVKNYDGETTRNISQRDIEEKIKISDAILESSIAATFANNSIIVNKVGDRVGIIESIFSKTVSLNAFKSTTAINILVNKTTAFTKIANNSTAFNALTISENNVTIANNTTAGIIANNAQASTVANNDTSISVFVNNTTAGIIANSSTATKITLTGLALNRVKSNTAKSILISKNSTLQTYKNNIQNTIQGSTAYFRTITGFADADDNPPQTINSTYVGITYCYGYKGNSYYGIVYHGYNTSIEAGRGNGYKDETKKFITLGGARYDQSGDGYFTYAYQAI QGEPLNFLSYLQDIKLNGLDSYVLFIGNARIWEELYLNSLYLFSDRGIRETVYTAFSETDIDNLFNKSTKLGEQLNAFYRTDIFSLGNADNVVKETIEHYNSLEEKFKAGYDRYVTREQEKSTIGAWFNSTFSLDNTDLENLTTIEEILANVEATNAILNNSNAIVALTCKSSDAVVASSNADLLGQYILRVTTESPVIRAILKNNVIRDAIINSDEATQISSNENSVEIFNDLEATKVLVQNQNSINKILTNNVTVEKIIPNLLEKYNLQTSLNYINTIKSNIASGKGQIAITYNEEIFPILKNAVKNYDGETTRNISQRDIEEKIKISDAILESSIAATFANNSIIVNKVGDRVGIIESIFSKTVSLNAFKSTTAINILVNKTTAFTKIANNSTAFNALTISENNVTIANNTTAGIIANNAQASTVANNDTSISVFVNNTTAGIIANSSTATKITLTGLALNRVKSNTAKSILISKNSTLQTYKNNIQNTIQGSTAYFRTITGFADADDNPPQTINSTYVGITYCYGYKGNSYYGIVYHGYNTSIEAGRGNGYKDETKKFITLGGARYDQSGDGYFTYAYQAI 7qod-a1-m1-cB_7qod-a1-m1-cA Native structure of a small alarmone hydrolase (RelH) from Corynebacterium glutamicum Q8NQV9 Q8NQV9 1.85 X-RAY DIFFRACTION 78 1.0 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 181 192 7qoc-a1-m1-cB_7qoc-a1-m1-cA MNTLSPRLRKAMNTAAWAHRHHVRKGGGIPYVSHLYSVMYLLASVTNDEDVLIAGLLHDTLEDVPEEYNSAQLEADFGPRVRELVEELTKQPLKSWKARADAYLLHLSAGASLEAVLISTADKLHNLMSILDDLEIHGEDLWQRKEQQIWWYSEVYQISLQRLGFNELNKQLGLCVEKLLK MNTLSPRLRKAMNTAAWAHRHHVRKGGGIPYVSHLYSVMYLLASVTNDEDVLIAGLLHDTLEDVPEEYNSAQLEADFGPRVRELVEELTKQPLKSWKARADAYLLHLSAGASLEAVLISTADKLHNLMSILDDLEIHGEDLWQRFNAGKEQQIWWYSEVYQISLQRLGFNELNKQLGLCVEKLLKQSALEHH 7qoe-a1-m1-cA_7qoe-a1-m2-cA Structure of a small alarmone hydrolase from Leptospira levettii A0A2N0AXP5 A0A2N0AXP5 1.2 X-RAY DIFFRACTION 111 1.0 2023178 (Leptospira levettii) 2023178 (Leptospira levettii) 187 187 QVDSYRPKLGKKFNEALVFASELHAEQRRKGTEIPYITHLLAVASIIGECGGSEVEVIAGLLHDSVEDQGGQETLEIIKQKFGNEVAEIVLECSDPPWKERKTAYLNHLKESKNQSVILVSSADKLHNLRSIKSDLSEIGDLVWNRFSASKEETIWYYRELLKIYKVKNAPKRLTIEMEEIIGFIAK QVDSYRPKLGKKFNEALVFASELHAEQRRKGTEIPYITHLLAVASIIGECGGSEVEVIAGLLHDSVEDQGGQETLEIIKQKFGNEVAEIVLECSDPPWKERKTAYLNHLKESKNQSVILVSSADKLHNLRSIKSDLSEIGDLVWNRFSASKEETIWYYRELLKIYKVKNAPKRLTIEMEEIIGFIAK 7qoh-a1-m5-ch_7qoh-a1-m5-cg Unique vertex of the phicrAss001 virion with C5 symmetry imposed A0A385DTA3 A0A385DTA3 3.32 ELECTRON MICROSCOPY 152 1.0 2301731 (Bacteroides phage crAss001) 2301731 (Bacteroides phage crAss001) 73 82 7qoh-a1-m1-ch_7qoh-a1-m1-cg 7qoh-a1-m2-ch_7qoh-a1-m2-cg 7qoh-a1-m3-ch_7qoh-a1-m3-cg 7qoh-a1-m4-ch_7qoh-a1-m4-cg 7qoi-a1-m1-cAh_7qoi-a1-m1-cAg 7qoi-a1-m1-cBh_7qoi-a1-m1-cBg 7qoi-a1-m1-cCh_7qoi-a1-m1-cCg 7qoi-a1-m1-cDh_7qoi-a1-m1-cDg 7qoi-a1-m1-cEh_7qoi-a1-m1-cEg AMQLWVMEYEVTGIGKGCAMCKAINPQQAEMLLKSNGIYNGSSYLYKVTRIEQVIVPPCNGLMAEQVVTYKDV VDVGCAPDGAMQLWVMEYEVTGIGKGCAMCKAINPQQAEMLLKSNGIYNGSSYLYKVTRIEQVIVPPCNGLMAEQVVTYKDV 7qow-a1-m1-cA_7qow-a1-m1-cB Crystal structure of Vibrio alkaline phosphatase in 1.0 M NaCl Q93P54 Q93P54 1.2 X-RAY DIFFRACTION 348 1.0 169049 (Vibrio sp. G15-21) 169049 (Vibrio sp. G15-21) 502 505 3e2d-a1-m1-cA_3e2d-a1-m1-cB 6qsq-a1-m1-cA_6qsq-a1-m2-cA 6t26-a1-m1-cA_6t26-a1-m1-cB 7qp8-a1-m1-cB_7qp8-a1-m1-cA 7yzz-a1-m1-cA_7yzz-a1-m1-cB 7z00-a1-m1-cB_7z00-a1-m2-cB AEIKNVILMIGDGMGPQQVGLLETYANQAPNSIYKGNKTAIYQLAQEGVIGSSLTHPEDAIVVDSACSATMLATGIYSSSEVIGIDSQGNHVETVLEKAKKAGKATGLVSDTRLTHATPASFAAHQPHRSLENQIASDMLATGADVMLSGGLRHWIPKSTNDKGETYKQLEKLTQGDVYLKSKRKDDRNLLTEAEKDGYQLAFNRNMLDDAKGDKLLGLFAYSGMDDGIAYSNKKKSGERTQPSLKEMTQKALNILSKDEDGFFLMVEGGQIDWAGHSNDAGTMLHELLKFDEAIQTVYEWAKDREDTIVIVTADHETGSFGFSYSSNDLPKPQKRSGEAFADRDYAPNFNFGAFDILDGLYNQKQSYYGMISEFQKLDKSLQTPEKLAEIVNKNSEFPITAEQAKNVLASKPNPYRLAQHKYLSAEEVPAINDFDAFFPYNDRGNLLAREQATGQNIVWGTGTHTHTPVNVFAWGPAEKILPVSKIMHHSELGEYIKQQVN AEIKNVILMIGDGMGPQQVGLLETYANQAPNSIYKGNKTAIYQLAQEGVIGSSLTHPEDAIVVDSACSATMLATGIYSSSEVIGIDSQGNHVETVLEKAKKAGKATGLVSDTRLTHATPASFAAHQPHRSLENQIASDMLATGADVMLSGGLRHWIPKSTNDKGETYKQLEKLTQGDVYLKSKRKDDRNLLTEAEKDGYQLAFNRNMLDDAKGDKLLGLFAYSGMDDGIAYSNKKKSGERTQPSLKEMTQKALNILSKDEDGFFLMVEGGQIDWAGHSNDAGTMLHELLKFDEAIQTVYEWAKDREDTIVIVTADHETGSFGFSYSSNDLPKPQKRSGEAFADRDYAPNFNFGAFDILDGLYNQKQSYYGMISEFQKLDKSLQTPEKLAEIVNKNSEFPITAEQAKNVLASKPNPYRLAQHKYLSAEEVPAINDFDAFFPYNDRGNLLAREQATGQNIVWGTGTHTHTPVNVFAWGPAEKILPVSKIMHHSELGEYIKQQVNFEK 7qpa-a1-m1-cA_7qpa-a1-m1-cB Outward-facing auxin bound form of auxin transporter PIN8 Q9LFP6 Q9LFP6 3.18 ELECTRON MICROSCOPY 104 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 327 327 7qp9-a1-m1-cA_7qp9-a1-m1-cB 7qpc-a1-m1-cA_7qpc-a1-m1-cB MGISWLDIYHVVSATVPLYVSMTLGFLSARHLKLFSPEQCAGINKFVAKFSIPLLSFQIISENNPFKMSPKLILSDILQKFLVVVVLAMVLRFWHPTGGRGGKLGWVITGLSISVLPNTLILGMPILSAIYGDEAASILEQIVVLQSLIWYTILLFLFELNAARAGTMKILLKAWRKLIINPNTYATLIGIIWATLHFRLGWNLPEMIDKSIHLLSDGGLGMAMFSLGLFMASQSSIIACGTKMAIITMLLKFVLGPALMIASAYCIRLKSTLFKVAILQAALPQGVVPFVFAKEYNLHPEIISTGVIFGMLIALPTTLAYYFLLDL MGISWLDIYHVVSATVPLYVSMTLGFLSARHLKLFSPEQCAGINKFVAKFSIPLLSFQIISENNPFKMSPKLILSDILQKFLVVVVLAMVLRFWHPTGGRGGKLGWVITGLSISVLPNTLILGMPILSAIYGDEAASILEQIVVLQSLIWYTILLFLFELNAARAGTMKILLKAWRKLIINPNTYATLIGIIWATLHFRLGWNLPEMIDKSIHLLSDGGLGMAMFSLGLFMASQSSIIACGTKMAIITMLLKFVLGPALMIASAYCIRLKSTLFKVAILQAALPQGVVPFVFAKEYNLHPEIISTGVIFGMLIALPTTLAYYFLLDL 7qpe-a1-m1-cB_7qpe-a1-m2-cB Crystal structure of serine hydroxymethyltransferase, isoform 6 from Arabidopsis thaliana (SHM6) Q9LM59 Q9LM59 2.18 X-RAY DIFFRACTION 300 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 429 429 7qpe-a1-m1-cA_7qpe-a1-m2-cA SNAIESRRAVVRAWGNQSIEEADPEIHEFMEKEKQRQFRGIELIASENFVCRAVMEALGSHLTNKYSEGMPGARYYTGNQYIDQIEILCQERALAAFGLNHEKWGVNVQPYSCTSANFAVFTGLLMPGERIMGLDSPKVSGASIFFESFPYKVDPRTGYIDYDKLEEKALDYRPKILICGGSSYPRDWEFPRFRHIADKCGAVLMFDMAQISGLVAAKESPNPFDYCDIVTSTTHKSLRGPRGGIIFYKRGLKPIQYDFEEKINFSVFPSLQGGPHNNHIAALAIALKQAASPEYKLYMRQVKKNAKALASALISRKCKLITGGTDNHLLLWDLTPLGLTGKVYEKVCEMCHITVNKVAIFSENGVISPGGVRIGSPAMTSRGCLEPEFETMADFLYRAAQIASAAKEIADLRNQVEAFATQFAMPAFD SNAIESRRAVVRAWGNQSIEEADPEIHEFMEKEKQRQFRGIELIASENFVCRAVMEALGSHLTNKYSEGMPGARYYTGNQYIDQIEILCQERALAAFGLNHEKWGVNVQPYSCTSANFAVFTGLLMPGERIMGLDSPKVSGASIFFESFPYKVDPRTGYIDYDKLEEKALDYRPKILICGGSSYPRDWEFPRFRHIADKCGAVLMFDMAQISGLVAAKESPNPFDYCDIVTSTTHKSLRGPRGGIIFYKRGLKPIQYDFEEKINFSVFPSLQGGPHNNHIAALAIALKQAASPEYKLYMRQVKKNAKALASALISRKCKLITGGTDNHLLLWDLTPLGLTGKVYEKVCEMCHITVNKVAIFSENGVISPGGVRIGSPAMTSRGCLEPEFETMADFLYRAAQIASAAKEIADLRNQVEAFATQFAMPAFD 7qpg-a1-m1-cR_7qpg-a1-m1-cS Human RZZ kinetochore corona complex. P50748 P50748 3.9 ELECTRON MICROSCOPY 251 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2208 2208 WNDIELLTNDDTGSGYLSVGSRKEHGTALYQVDLLVKISSEKASLNPKIQACSLSDGFIIVADQSVILLDSICRSLQLHLVFDTEVDVVGLCQEGKFLLVGERSGNLHLIHVTSKQTLLTNAFVQKANDENRRTYQNLVIEKDGSNEGTYYMLLLTYSGFFCITNLQLLKIQQAIENVDFSTAKKLQGQIKSSFISTENYHTLGCLSLVAGDLASEVPVIIGGTGNCAFSKWEPDSSKKGMTVKNLIDAEIIKGAKKFQLIDNLLFVLDTDNVLSLWDIYTLTPVWNWPSLHVEEFLLTTEADSPSSVTWQGITNLKLIALTASANKKMKNLMVYSLPTMEILYSLEVSSVSSLVQTGISTDTIYLLEGVCKNDPKLSEDSVSVLVLRCLTEALPENRLSRLLHKHRFAEAESFAIQFGLDVELVYKVKSNHILEKLALSSVDASEQTEWQQLVDDAKENLHKIQDDEFVVNYCLKAQWITYETTQEMLNYAKTRLLKKEDKTALIYSDGLKEVLRAHAKLTTFYGAFGPEKFSGSSWIEFLNNEDDLKDIFLQLKEGNLVCAQYLWLRHRANFESRFDVKMLESLLNSMSASVSLQKLCPWFKNDVIPFVRRTVPEGQIILAKWLEQAARNLELTDKANWPENGLQLAEIFFTAEKTDELGLASSWHWISLKDYQNTEEVCQLRTLVNNLRELITLHRKYNCKLALSDFEKENTTTIVFRMFDKVLAPELIPSILEKFIRVYMREHDLQEEELLLLYIEDLLNRCSSKSTSLFETAWEAKAMAVIACLSDTDLIFDAVLKIMYAAVVPWSAAVEQLVKQHLEMDHPKVKLLQESYKLMEMKKLLRGYGIREVNLLNKEIMRVVRYILKQDVPSSLEDALKVAQAFMLSDDEIYSLRIIDLIDREQGEDCLLLLKSLPPAEAEKTAERVIIWARLALQEEPDHSKEGKAWRMSVAKTSVDILKILCDIQKDNLQKKDECEEMLKLFKEVASLQENFEVFLSFEDYSNSSLVADLREQHIKAHEVAQAKHKPGSTPEPIAAEVRSPSMESKLHRQALALQMSKQELEAELTLRALKDGNIKTALKKCSDLFKYHCNADTGKLLFLTCQKLCQMLADNVPVTVPVGLNLPSMIHDLASQAATICSPDFLLDALELCKHTLMAVELSRQCQMDDCGILMKASFGTHKDPYEEWSYSDFFSEDGIVLESQMVLPVIYELISSLVPLAESKRYPLESTSLPYCSLNEGDGLVLPVINSISALLQNLQESSQWELALRFVVGSFGTCLQHSVSNFMNATLSEKLFGETTLVKSRHVVMELKEKAVIFIRENATTLLHKVFNCRLVDLDLALGYCTLLPQKDVFENLWKLIDKAWQNYDKILAISLVGSELASLYQEIEMGLKFRELSTDAQWGIRLGKLGISFQPVFRQHFLTKKDLIKALVENIDMDTSLILEYCSTFQLDCDAVLQLFIETLLHNTNAGQGQGDASMDSAKRRHPKLLAKALEMVPLLTSTKDLVISLSGILHKLDPYDYEMIEVVLKVIERADEKITNININQALSILKHLKSYRRISPPVDLEYQYMLEHVITLPSAAQTRLPFHLIFFGTAQNFWKILSTELSEESFPTLLLISKLMKFSLDTLYVSTAKHVFEKKLKPKLLKLTQAKSSTLINKEITKITQTIESCLLSIVNPEWAVAIAISLAQDIPEGSFKISALKFCLYLAERWLQNIPSQDEKREKAEALLKKLHIQYRRSGTEAVLIAHKLNTEEYLRVIGKPAHLIVSLYEHPSINQRIQNSSGTDYPDIHAAAKEIAEVNEINLEKVWDMLLEKWLCPSTKPGEKPSELFELQEDEALRRVQYLLLSRPIDYSSRMLFVFATSTTTTLGMHQLTFAHRTRALQCLFYLADKETIESLFKKPIEEVKSYLRCITFLASFETLNIPITYELFCSSPKEGMIKGLWKNHSHESMAVRLVTELCLEYKIYDLQLWNGLLQKLLGFNMIPYLRKVLKAISSIHSLWQVPYFSKAWQRVIQIPLLSASCPLSPDQLSDCSESLIAVLECPVSGDLDLIGVARQYIQLELPAFALACLMLMPHSEKRHQQIKNFLGSCDPQVILKQLEEHMNTGQLAGFSHQIRSLILNNIINKKEFGILAKTKYFQMLKMHAMNTNNITELVNYLANDLSLDEASVLITEYSKHCGKPVPPDTAPCEILKMFLSGLS WNDIELLTNDDTGSGYLSVGSRKEHGTALYQVDLLVKISSEKASLNPKIQACSLSDGFIIVADQSVILLDSICRSLQLHLVFDTEVDVVGLCQEGKFLLVGERSGNLHLIHVTSKQTLLTNAFVQKANDENRRTYQNLVIEKDGSNEGTYYMLLLTYSGFFCITNLQLLKIQQAIENVDFSTAKKLQGQIKSSFISTENYHTLGCLSLVAGDLASEVPVIIGGTGNCAFSKWEPDSSKKGMTVKNLIDAEIIKGAKKFQLIDNLLFVLDTDNVLSLWDIYTLTPVWNWPSLHVEEFLLTTEADSPSSVTWQGITNLKLIALTASANKKMKNLMVYSLPTMEILYSLEVSSVSSLVQTGISTDTIYLLEGVCKNDPKLSEDSVSVLVLRCLTEALPENRLSRLLHKHRFAEAESFAIQFGLDVELVYKVKSNHILEKLALSSVDASEQTEWQQLVDDAKENLHKIQDDEFVVNYCLKAQWITYETTQEMLNYAKTRLLKKEDKTALIYSDGLKEVLRAHAKLTTFYGAFGPEKFSGSSWIEFLNNEDDLKDIFLQLKEGNLVCAQYLWLRHRANFESRFDVKMLESLLNSMSASVSLQKLCPWFKNDVIPFVRRTVPEGQIILAKWLEQAARNLELTDKANWPENGLQLAEIFFTAEKTDELGLASSWHWISLKDYQNTEEVCQLRTLVNNLRELITLHRKYNCKLALSDFEKENTTTIVFRMFDKVLAPELIPSILEKFIRVYMREHDLQEEELLLLYIEDLLNRCSSKSTSLFETAWEAKAMAVIACLSDTDLIFDAVLKIMYAAVVPWSAAVEQLVKQHLEMDHPKVKLLQESYKLMEMKKLLRGYGIREVNLLNKEIMRVVRYILKQDVPSSLEDALKVAQAFMLSDDEIYSLRIIDLIDREQGEDCLLLLKSLPPAEAEKTAERVIIWARLALQEEPDHSKEGKAWRMSVAKTSVDILKILCDIQKDNLQKKDECEEMLKLFKEVASLQENFEVFLSFEDYSNSSLVADLREQHIKAHEVAQAKHKPGSTPEPIAAEVRSPSMESKLHRQALALQMSKQELEAELTLRALKDGNIKTALKKCSDLFKYHCNADTGKLLFLTCQKLCQMLADNVPVTVPVGLNLPSMIHDLASQAATICSPDFLLDALELCKHTLMAVELSRQCQMDDCGILMKASFGTHKDPYEEWSYSDFFSEDGIVLESQMVLPVIYELISSLVPLAESKRYPLESTSLPYCSLNEGDGLVLPVINSISALLQNLQESSQWELALRFVVGSFGTCLQHSVSNFMNATLSEKLFGETTLVKSRHVVMELKEKAVIFIRENATTLLHKVFNCRLVDLDLALGYCTLLPQKDVFENLWKLIDKAWQNYDKILAISLVGSELASLYQEIEMGLKFRELSTDAQWGIRLGKLGISFQPVFRQHFLTKKDLIKALVENIDMDTSLILEYCSTFQLDCDAVLQLFIETLLHNTNAGQGQGDASMDSAKRRHPKLLAKALEMVPLLTSTKDLVISLSGILHKLDPYDYEMIEVVLKVIERADEKITNININQALSILKHLKSYRRISPPVDLEYQYMLEHVITLPSAAQTRLPFHLIFFGTAQNFWKILSTELSEESFPTLLLISKLMKFSLDTLYVSTAKHVFEKKLKPKLLKLTQAKSSTLINKEITKITQTIESCLLSIVNPEWAVAIAISLAQDIPEGSFKISALKFCLYLAERWLQNIPSQDEKREKAEALLKKLHIQYRRSGTEAVLIAHKLNTEEYLRVIGKPAHLIVSLYEHPSINQRIQNSSGTDYPDIHAAAKEIAEVNEINLEKVWDMLLEKWLCPSTKPGEKPSELFELQEDEALRRVQYLLLSRPIDYSSRMLFVFATSTTTTLGMHQLTFAHRTRALQCLFYLADKETIESLFKKPIEEVKSYLRCITFLASFETLNIPITYELFCSSPKEGMIKGLWKNHSHESMAVRLVTELCLEYKIYDLQLWNGLLQKLLGFNMIPYLRKVLKAISSIHSLWQVPYFSKAWQRVIQIPLLSASCPLSPDQLSDCSESLIAVLECPVSGDLDLIGVARQYIQLELPAFALACLMLMPHSEKRHQQIKNFLGSCDPQVILKQLEEHMNTGQLAGFSHQIRSLILNNIINKKEFGILAKTKYFQMLKMHAMNTNNITELVNYLANDLSLDEASVLITEYSKHCGKPVPPDTAPCEILKMFLSGLS 7qpg-a1-m1-cW_7qpg-a1-m1-cX Human RZZ kinetochore corona complex. O43264 O43264 3.9 ELECTRON MICROSCOPY 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 779 779 MASFVTEVLAHSGRLEKEDLGTRISRLTRRVEEIKGEVCNMISKKYSEFLPSMQSAQGLITQVDKLSEDIDLLKSRIESEVRRDLHVSTGEFTDLKQQLERDSVVLSLLKQLQEFSTAIEEYNCALTEKKYVTGAQRLEEAQKCLKLLKSRKCFDLKILKSLSMELTIQKQNILYHLGEEWQKLIVWKFPPSKDTSSLESYLQTELHLYTEQSHKEEKTPMPPISSVLLAFSVLGELHSKLKSFGQMLLKYILRPLASCPSLHAVIESQPNIVIIRFESIMTNLEYPSPSEVFTKIRLVLEVLQKQLLDLPLDTDLENEKTSTVPLAEMLGDMIWEDLSECLIKNCLVYSIPTNSSKLQQYEEIIQSTEEFENALKEMRFLKGDTTDLLKYARNINSHFANKKCQDVIVAARNLMTSEIHNTVKIIPDSKINVPELPTPDEDNKLEVQKVSNTQYHEVMNLEPENTLDQHSFSLPTCRISESVKKLMELAYQTLLEATTSSDQCAVQLFYSVRNIFHLFHDVVPTYHKENLQKLPQLAAIHHNNCMYIAHHLLTLGHQFRLRLAPILCDGTATFVDLVPGFRRLGTECFLAQMRAQKGELLERLSSARNFSNMDDEENYSAASKAVRQVLHQLKRLGIVWQDVLPVNIYCKAMGTLLNTAISEVIGKITALEDISTEDGDRLYSLCKTVMDEGPQVFAPLSEESKNKKYQEEVPVYVPKWMPFKELMMMLQASLQEIGDRWADGKGPLAAAFSSSEVKALIRALFQNTERRAAALAKIK MASFVTEVLAHSGRLEKEDLGTRISRLTRRVEEIKGEVCNMISKKYSEFLPSMQSAQGLITQVDKLSEDIDLLKSRIESEVRRDLHVSTGEFTDLKQQLERDSVVLSLLKQLQEFSTAIEEYNCALTEKKYVTGAQRLEEAQKCLKLLKSRKCFDLKILKSLSMELTIQKQNILYHLGEEWQKLIVWKFPPSKDTSSLESYLQTELHLYTEQSHKEEKTPMPPISSVLLAFSVLGELHSKLKSFGQMLLKYILRPLASCPSLHAVIESQPNIVIIRFESIMTNLEYPSPSEVFTKIRLVLEVLQKQLLDLPLDTDLENEKTSTVPLAEMLGDMIWEDLSECLIKNCLVYSIPTNSSKLQQYEEIIQSTEEFENALKEMRFLKGDTTDLLKYARNINSHFANKKCQDVIVAARNLMTSEIHNTVKIIPDSKINVPELPTPDEDNKLEVQKVSNTQYHEVMNLEPENTLDQHSFSLPTCRISESVKKLMELAYQTLLEATTSSDQCAVQLFYSVRNIFHLFHDVVPTYHKENLQKLPQLAAIHHNNCMYIAHHLLTLGHQFRLRLAPILCDGTATFVDLVPGFRRLGTECFLAQMRAQKGELLERLSSARNFSNMDDEENYSAASKAVRQVLHQLKRLGIVWQDVLPVNIYCKAMGTLLNTAISEVIGKITALEDISTEDGDRLYSLCKTVMDEGPQVFAPLSEESKNKKYQEEVPVYVPKWMPFKELMMMLQASLQEIGDRWADGKGPLAAAFSSSEVKALIRALFQNTERRAAALAKIK 7qpo-a1-m1-cA_7qpo-a1-m1-cB Crystal structure of human trans-3-Hydroxy-L-proline dehydratase Q96EM0 Q96EM0 3 X-RAY DIFFRACTION 144 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 329 337 LPPHDPGTPVLSVVDMHTGGEPLRIVLAGCPEVSGPTLLAKRRYMRQHLDHVRRRLMFEPRGHRDMYGAVLVPSELPDAHLGVLFLHNEGYSSMCGHAVLALGRFALDFGLVPAPPAGTREARVNIHCPCGLVTAFVACESHGPVRFHSVPAFVLATDLMVDVPGHGKVMVDIAYGGAFYAFVTAEKLGLDICSAKTRDLVDAASAVTEAVKAQLYGTILTDGKDAYTKEPTTNICVFADEQVDRSPTGSGVTARIALQYHKGLLELNQMRAFKSSATGSVFTGKAVREAKCGDFKAVIVEVSGQAHYTGTASFIIEDDDPLRDGFLLK ALAVPRLPPHDPGTPVLSVVDMHTGGEPLRIVLAGCPEVSGPTLLAKRRYMRQHLDHVRRRLMFEPRGHRDMYGAVLVPSELPDAHLGVLFLHNEGYSSMCGHAVLALGRFALDFGLVPAPPAGTREARVNIHCPCGLVTAFVACEDSHGPVRFHSVPAFVLATDLMVDVPGHGKVMVDIAYGGAFYAFVTAEKLGLDICSAKTRDLVDAASAVTEAVKAQFLYGTILTDGKDAYTKEPTTNICVFADEQVDRSPTGSGVTARIALQYHKGLLELNQMRAFKSSATGSVFTGKAVREAKCGDFKAVIVEVSGQAHYTGTASFIIEDDDPLRDGFLLK 7qq6-a1-m1-cA_7qq6-a1-m1-cB GCN2 (EIF2ALPHA KINASE 4, E2AK4) IN COMPLEX WITH COMPOUND 1 (dovitinib) Q9P2K8 Q9P2K8 2.8 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 269 275 SRYFIEFEELQLLGKGAFGAVIKVQNKLDGCCYAVKRIPINPASRQFRRIKGEVTLLSRLHHENIVRYYNAWIERHERPVHYLYIQMEYCEKSTLRDTIDQGLYRDTVRLWRLFREILDGLAYIHEKGMIHRNLKPVNIFLDSDDHVKIGDFGLIKSDPSGHLTGMVGTALYVSPEVQGSTKSAYNQKVDLFSLGIIFFEMSYHPMVTASERIFVLNQLRDPTSPKFPEDFDDGEHAKQKSVISWLLNHDPAKRPTATELLKSELLPPP SRYFIEFEELQLLGKGAFGAVIKVQNKLDGCCYAVKRIPINPASRQFRRIKGEVTLLSRLHHENIVRYYNAWIERHERPEAVHYLYIQMEYCEKSTLRDTIDQGLYRDTVRLWRLFREILDGLAYIHEKGMIHRNLKPVNIFLDSDDHVKIGDFGLDLIKSDPSGHLTGMVGTALYVSPEVQGSTKSAYNQKVDLFSLGIIFFEMSYHPMVTASERIFVLNQLRDPTSPKFPEDFDDGEHAKQKSVISWLLNHDPAKRPTATELLKSELLPPPQM 7qqa-a2-m1-cC_7qqa-a2-m1-cD MgADP-bound Fe protein of the iron-only nitrogenase from Azotobacter vinelandii C1DK95 C1DK95 1.79 X-RAY DIFFRACTION 96 1.0 354 (Azotobacter vinelandii) 354 (Azotobacter vinelandii) 271 273 7qqa-a1-m1-cB_7qqa-a1-m1-cA TRKVAIYGKGGIGKSTTTQNTAAALAYFHDKKVFIHGCDPKADSTRLILGGKPQETLMDMLRDKGAEKITNDDVIKKGFLDIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFAPEENQAKEYGELARKIIENDEFVIPKPLTMDQLEDMVVKYG TRKVAIYGKGGIGKSTTTQNTAAALAYFHDKKVFIHGCDPKADSTRLILGGKPQETLMDMLRDKGAEKITNDDVIKKGFLDIQCVESGGPEPGVGCAGRGVITAIDLMEENGAYTDDLDFVFFDVLGDVVCGGFAMPIRDGKAQEVYIVASGEMMAIYAANNICKGLVKYAKQSGVRLGGIICNSRKVDGEREFLEEFTAAIGTKMIHFVPRDNIVQKAEFNKKTVTEFAPEENQAKEYGELARKIIENDEFVIPKPLTMDQLEDMVVKYGIA 7qqh-a1-m1-cA_7qqh-a1-m1-cD Crystal structure of MYORG (D520N) in complex with Gal-a1,4-Glc Q6NSJ0 Q6NSJ0 2.25 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 615 618 7qqf-a1-m1-cD_7qqf-a1-m1-cA 7qqf-a2-m1-cB_7qqf-a2-m1-cC 7qqg-a1-m1-cD_7qqg-a1-m1-cA 7qqg-a2-m1-cC_7qqg-a2-m1-cB 7qqh-a2-m1-cC_7qqh-a2-m1-cB ELLDLKAGGFSIRNQKGEQVFRLAFRSGALDLDSCSRDGALLGCSLTADGLPLHFFIQTVRPKDTVMCYRVRWEEGRAVEHAMFLGDAAAHWYGGAEMRTQHWPIRLDGQQEPQPFVTSDVYSSDAAFGGILERYWLSSRAAAIKVNDSVPFHLGWNSTERSLRLQARYHDTPYKPPAPELSYRVCVGSDVTSIHKYMVRRYFNKPSRVPAPEAFRDPIWSTWALYGRAVDQDKVLRFAQQIRLHHFNSSHLEIDDMYTPAYGDFDFDEVKFPNASDMFRRLRDAGFRVTLWVHPFVNYNSSRFGEGVERELFVREPTGRLPALVRWWNGIGAVLDFTHPKARDWFQGHLRRLRSRYSVASFKFDAGEVSYLPRDFSTYRPLPDPSVWSRRYTEMALPFFSLAEVRVGYQSQNISCFFRLVNRDSVWGYDLGLRSLIPAVLTVSMLGYPFILPDMVGGNAVPQRTAGGDVPERELYIRWLEVAAFMPAMQFSIPPWRYDAEVVAIAQKFAALRASLVAPLLLELAGEVTDTGDPIVRPLWWIAPGDETAHRIDSQFLIGDTLLVAPVLEPGKQERDVYLPAGKWRSYKGELFDKTPVLLTDYPVDLDEIAYFTWA LRAELLDLKAGGFSIRNQKGEQVFRLAFRSGALDLDSCSRDGALLGCSLTADGLPLHFFIQTVRPKDTVMCYRVRWEEGRAVEHAMFLGDAAAHWYGGAEMRTQHWPIRLDGQQEPQPFVTSDVYSSDAAFGGILERYWLSSRAAAIKVNDSVPFHLGWNSTERSLRLQARYHDTPYKPPAPELSYRVCVGSDVTSIHKYMVRRYFNKPSRVPAPEAFRDPIWSTWALYGRAVDQDKVLRFAQQIRLHHFNSSHLEIDDMYTPAYGDFDFDEVKFPNASDMFRRLRDAGFRVTLWVHPFVNYNSSRFGEGVERELFVREPTGRLPALVRWWNGIGAVLDFTHPKARDWFQGHLRRLRSRYSVASFKFDAGEVSYLPRDFSTYRPLPDPSVWSRRYTEMALPFFSLAEVRVGYQSQNISCFFRLVNRDSVWGYDLGLRSLIPAVLTVSMLGYPFILPDMVGGNAVPQRTAGGDVPERELYIRWLEVAAFMPAMQFSIPPWRYDAEVVAIAQKFAALRASLVAPLLLELAGEVTDTGDPIVRPLWWIAPGDETAHRIDSQFLIGDTLLVAPVLEPGKQERDVYLPAGKWRSYKGELFDKTPVLLTDYPVDLDEIAYFTWA 7qqk-a1-m1-cC_7qqk-a1-m1-cD TIR-SAVED effector bound to cA3 A0A0M2HE71 A0A0M2HE71 3.8 ELECTRON MICROSCOPY 136 1.0 92835 (Microbacterium ketosireducens) 92835 (Microbacterium ketosireducens) 433 433 7qqk-a1-m1-cA_7qqk-a1-m1-cB 7qqk-a1-m1-cB_7qqk-a1-m1-cC MPDTAINPRDPVFVSYRHSDGIALAAELTWLLRAAGIPVWRDVDDLPPGDTDARLQQAIDEGISGAVIIITPQIADSRVVREVEAPRLLRLHRSSPQFALGIVNAIQTSTGVVDYDAPDRVLGMERPELRSVDQKSASRLGLVTMARQMLWHRIAAIRPLLSASGGELRLSLQTRNTPQVYDRTDADLDIRIRPSAHEKLPSAHGLEDFAETAQFLPDAVTRAGANGVRIEGGAHLSVSIAIGAAIPSTRVGPMTVVDGRGVHWVSSTEPQLPDEPRLRIVRESTIPSTAPAPGRPDVAAYIDLQHPRSDAAFDNYLTEHAAELVAWQHLAPTRTGLLDAADGGTIAAEAVAHIRELSMTNGNAVVHLMVRGPFGLAVLIGRLTNTLRVVAYEWTDSDAPDGTFMPPRYEPIVQLRASTPAGVIERVIVADAE MPDTAINPRDPVFVSYRHSDGIALAAELTWLLRAAGIPVWRDVDDLPPGDTDARLQQAIDEGISGAVIIITPQIADSRVVREVEAPRLLRLHRSSPQFALGIVNAIQTSTGVVDYDAPDRVLGMERPELRSVDQKSASRLGLVTMARQMLWHRIAAIRPLLSASGGELRLSLQTRNTPQVYDRTDADLDIRIRPSAHEKLPSAHGLEDFAETAQFLPDAVTRAGANGVRIEGGAHLSVSIAIGAAIPSTRVGPMTVVDGRGVHWVSSTEPQLPDEPRLRIVRESTIPSTAPAPGRPDVAAYIDLQHPRSDAAFDNYLTEHAAELVAWQHLAPTRTGLLDAADGGTIAAEAVAHIRELSMTNGNAVVHLMVRGPFGLAVLIGRLTNTLRVVAYEWTDSDAPDGTFMPPRYEPIVQLRASTPAGVIERVIVADAE 7qrh-a1-m1-cAAA_7qrh-a1-m1-cBBB Crystal structure of the 5-(aminomethyl)furan-3-yl methyl phosphate kinase MfnE from Methanococcus vannielii. A6UQ44 A6UQ44 2.36 X-RAY DIFFRACTION 51 1.0 2187 (Methanococcus vannielii) 2187 (Methanococcus vannielii) 209 211 PMHVIKIGGSLTFNSKNLLSKLIELNKKIVLVPGGGNFADSVRELYDRTDLGELGAHKIATICTDITGIYFSEISGIKTANNLFDAKKILENENIVIILPSKIILSTDELPCSWSVTSDSFAAYIAKLLKSKVLIIATDVDGIYDKYPEGKLLNTINTKTIKGFTSVDKHLPKLISEYGIECFVVNGNHPERIKNILNDVSDTYTKITL GPMHVIKIGGSLTFNSKNLLSKLIELNKKIVLVPGGGNFADSVRELYDRTDLGELGAHKIATICTDITGIYFSEISGIKTANNLFDAKKILENENIVIILPSKIILSTDELPCSWSVTSDSFAAYIAKLLKSKVLIIATDVDGIYDKYPEGKLLNTINTKTIKGFTSVDKHLPKLISEYGIECFVVNGNHPERIKNILNDVSDTYTKITLE 7qri-a1-m1-cA_7qri-a1-m1-cB Regulatory domain dimer of tryptophan hydroxylase 2 in complex with L-Phe Q8IWU9 Q8IWU9 NOT SOLUTION NMR 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 100 100 GPGNKGSSKREAATESGKTAVVFSLKNEVGGLVKALRLFQEKRVNMVHIESRKSRRRSSEVEIFVDCECGKTEFNELIQLLKFQTTIVTLNPPENIWTEE GPGNKGSSKREAATESGKTAVVFSLKNEVGGLVKALRLFQEKRVNMVHIESRKSRRRSSEVEIFVDCECGKTEFNELIQLLKFQTTIVTLNPPENIWTEE 7qrj-a2-m1-cD_7qrj-a2-m1-cF Crystal structure of Zamilon vitis protein Zav_19 A0A2P1EHJ0 A0A2P1EHJ0 1.38 X-RAY DIFFRACTION 175 1.0 1411887 (Zamilon virus) 1411887 (Zamilon virus) 181 181 7qrj-a1-m1-cA_7qrj-a1-m1-cB 7qrj-a1-m1-cA_7qrj-a1-m1-cE 7qrj-a1-m1-cB_7qrj-a1-m1-cE 7qrj-a2-m1-cD_7qrj-a2-m1-cC 7qrj-a2-m1-cF_7qrj-a2-m1-cC SSLLEKNIYNVHNKSNTLTNVPANPTGNTNTVWSNSNFTPPHLMYGASDITQAIGNISLTTGSFSLSLSGPWASPLVQNVAYTKINNLVNLTFPPFQANATSSAVINSAIGALPADLRPTTNIQVDFEIFVIDDGNRPVNPGLITLLSNGQIVVYKDNNLGQFTTGIGGSGFNPFSITYMV SSLLEKNIYNVHNKSNTLTNVPANPTGNTNTVWSNSNFTPPHLMYGASDITQAIGNISLTTGSFSLSLSGPWASPLVQNVAYTKINNLVNLTFPPFQANATSSAVINSAIGALPADLRPTTNIQVDFEIFVIDDGNRPVNPGLITLLSNGQIVVYKDNNLGQFTTGIGGSGFNPFSITYMV 7qrt-a1-m1-cB_7qrt-a1-m1-cA Structural insight into the Scribble PDZ domains interaction with the oncogenic Human T-cell lymphotrophic virus-1 (HTLV-1) Tax1 Q14160 Q14160 1.9 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 91 92 SRHVACLARSERGLGFSIAGGKGSTPYRAGDAGIFVSRIAEGGAAHRAGTLQVGDRVLSINGVDVTEARHDHAVSLLTAASPTIALLLERE SRHVACLARSERGLGFSIAGGKGSTPYRAGDAGIFVSRIAEGGAAHRAGTLQVGDRVLSINGVDVTEARHDHAVSLLTAASPTIALLLEREA 7qru-a1-m1-ce_7qru-a1-m1-cE Structure of Bacillus pseudofirmus Mrp antiporter complex, monomer A0A1Q9PMT4 A0A1Q9PMT4 2.24 ELECTRON MICROSCOPY 11 1.0 79885 (Alkalihalophilus pseudofirmus) 79885 (Alkalihalophilus pseudofirmus) 47 158 MAFQILLNLVIAVIWVNFQNSYTAVDFLIGYVVGIFILFVLRRFLRF MAFQILLNLVIAVIWVNFQNSYTAVDFLIGYVVGIFILFVLRRFLRFDFYMRRVWAIIKLIVLFFKELILANIDVIKIVLSPKMNIQPGIVAVPTKLKTDWELSLLASLISLTPGTLSMDFSDDNKYIYIHAIDVPNKEKMIRDIHDTFERAILEVTN 7qsa-a1-m1-cB_7qsa-a1-m1-cA Structural basis on the interaction of Scribble PDZ domains with the Tick Born encephalitis virus (TBEV) NS5 protein Q14160 Q14160 2.02 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 78 85 SVEEIRLPRAPLGLSIVGGSDHHPFGEPGVFISKVLPSGLRVGDRILAVNGQDVRDATHQEAVSALLRPELSLLVRRD SVEEIRLPRAPLGLSIVGGSDHHPFGVEPGVFISKVLPRGLAARSGLRVGDRILAVNGQDVRDATHQEAVSALLRPELSLLVRRD 7qsb-a1-m1-cB_7qsb-a1-m1-cA Structural basis on the interaction of Scribble PDZ domains with the Tick Born encephalitis virus (TBEV) NS5 protein Q14160 Q14160 1.84 X-RAY DIFFRACTION 36 0.988 9606 (Homo sapiens) 9606 (Homo sapiens) 80 84 SVEEIRLPRGPLGLSIVGGSEPGVFISKVLPRGLAARSGLRVGDRILAVNGQDVRDATHQEAVSALLRPCLELSLLVRRD SVEEIRLPRAGGPLGLSIVGGGVQEPGVFISKVLPRGLAARSGLRVGDRILAVNGQDVRDATHQEAVSALLRPCLELSLLVRRD 7qsc-a1-m1-cB_7qsc-a1-m1-cD GTPase IN COMPLEX WITH GDP.MGF3- P61586 P61586 1.91 X-RAY DIFFRACTION 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 176 177 7qtm-a1-m1-cB_7qtm-a1-m1-cI IRKKLVIVGDGACGKTCLLIVNSKDQFPEVVPTVFENYVADIEVDGKQVELALWDTAGQEDYDRLRPLSYPDTDVILMCFSIDSPDSLENIPEKWTPEVKHFCPNVPIILVGNKKDLRNDEHTRRELAKMKQEPVKPEEGRDMANRIGAFGYMECSAKTKDGVREVFEMATRAALQ AIRKKLVIVGDGACGKTCLLIVNSKDQFPEVVPTVFENYVADIEVDGKQVELALWDTAGQEDYDRLRPLSYPDTDVILMCFSIDSPDSLENIPEKWTPEVKHFCPNVPIILVGNKKDLRNDEHTRRELAKMKQEPVKPEEGRDMANRIGAFGYMECSAKTKDGVREVFEMATRAALQ 7qsp-a1-m1-cA_7qsp-a1-m1-cB Permutated C-terminal lobe of the ribose binding protein from Thermotoga maritima Q9X053 Q9X053 1.36 X-RAY DIFFRACTION 13 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 123 125 KEIPYAELLGILSAQPTWDRSNGFHSVVDQYPEFKMVAQQSAEFDRDTAYKVTEQILQAHPEIKAIWCGNDAMALGAMKACEAAGRTDIYIFGFDMVGHNHNYYGGVLAGEYFVKFLKEKYPD KEIPYAELLGILSAQPTWDRSNGFHSVVDQYPEFKMVAQQSAEFDRDTAYKVTEQILQAHPEIKAIWCGNDAMALGAMKACEAAGRTDIYIFGFDGAMVGHNHNYYGGVLAGEYFVKFLKEKYPD 7qsq-a2-m1-cB_7qsq-a2-m1-cD Permutated N-terminal lobe of the ribose binding protein from Thermotoga maritima Q9X053 Q9X053 1.79 X-RAY DIFFRACTION 196 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 127 128 7qsq-a1-m1-cA_7qsq-a1-m1-cC KGKMAIVISTLNNPWFVVLAETAKQRAEQLGYEATIFDSQNDTAKESAHFDAIIAAGYDAIIFNPTDADGSIANVKRAKEAGIPVFCVDRGINARGLAVAQIYSDTSTQFPKLMARLAVEWADQYLR KGKMAIVISTLNNPWFVVLAETAKQRAEQLGYEATIFDSQNDTAKESAHFDAIIAAGYDAIIFNPTDADGSIANVKRAKEAGIPVFCVDRGINARGLAVAQIYSDTSTQFPKLMARLAVEWADQYLRG 7qt0-a1-m1-cA_7qt0-a1-m1-cC Antibody FenAb136 - fentanyl complex 2.07 X-RAY DIFFRACTION 38 0.995 10090 (Mus musculus) 10090 (Mus musculus) 215 216 QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPGNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVPR QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPGSANSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVP 7qt0-a1-m1-cG_7qt0-a1-m1-cA Antibody FenAb136 - fentanyl complex 2.07 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 214 215 QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVPR QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPGNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVPR 7qt0-a1-m1-cI_7qt0-a1-m1-cA Antibody FenAb136 - fentanyl complex 2.07 X-RAY DIFFRACTION 17 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 215 QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVP QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPGNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVPR 7qt0-a1-m1-cI_7qt0-a1-m1-cC Antibody FenAb136 - fentanyl complex 2.07 X-RAY DIFFRACTION 10 1.0 10090 (Mus musculus) 10090 (Mus musculus) 213 216 QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPNSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVP QVQLQQPGAELVKPGASVKVSCKASGYTFTNYWMYWVKQRPGQGLEWIGRIHPSDSDTNYNQKFKGKATLTVDKSSSTAYMQLSSLTSEDSAVYYCAIEIYDGYNTMDYWGQGTSVTVSSAKTTPPSVYPLAPGSANSMVTLGCLVKGYFPEPVTVTWNSGSLSSGVHTFPAVLQSDLYTLSSSVTVPSSTWPSQTVTCNVAHPASSTKVDKKIVP 7qtq-a1-m1-cB_7qtq-a1-m1-cA Structure of Native, iodinated bovine thyroglobulin solved on strepavidin affinity grids. P01267 P01267 3.3 ELECTRON MICROSCOPY 533 0.998 9913 (Bos taurus) 9913 (Bos taurus) 1787 1788 LRPCELQRERAFLKREDYVPQCAEDGSFQTVQCGKDGASCWCVDADGREVPGSRQPGRPAACLSFCQLQKQQILLYLPQCQDSGDYSPVQCQCWCVDAEGMEVYGTRQQGRPARCPRSCEIRNRRLLHGVGDRSPPQCSPDGAFRPVQCKFVNTTDMMIFDLVHSYSRFPDAFVTFSSFRSRFPEVSGYCYCADSQGRELAETGLELLLDEILASTFAETTLYRILQRRFLAVQLVISGRFRCPTKCEVERFAATSFRHPYVPSCHPDGEYQAAQCQQGGPCWCVDSRGQEIPGTRQQSCPSERRRAFSRLRFGPSCPPSIKELFLDSGIFQPMLQGVAPESLKEAIRGLFPSRELARLALQFTTNAKRLQQNLFGGRFLVKVGQFNLSGALGTRGTFNFSHFFQQLGLVVGSFGFEVNLQENQNALQFLSSFLELPEFLLFLQHAISVPEDIARDLGDVMEMVFSSQGCSLFVPACTAEGSYEEVQCFAGDCWCELAGSRVRGGRPRCPTECEKQRARMQSLLGSQPAGSSLFVPACTSKGNFLPVQCFNSECYCVDTEGQPIPGTRSALGEPKKCPSPCQLQAERAFLGTVRTLYIPQCSASGQWSPVQCCWCVDEAGQKLEVPACPGSCEEVKLRVLQFIREAEEIVTYSNSSRFPLGESFLAAKGIRLTDEELAFPLEKFLSGSDYAIRLAAQSTFDFYQRRLVSAYLPQCDAFGGWEPVQCHAATGHCWCVDGKGEYVPARSRQIPQCPTSCERLRASGLLSSWKQAGVQAEPSPKDLFIPTCLETGEFARLQASEAGTWCVDPASGEGVPPQCPSLCEVLQSAAGQRCGYRSAFPPEPLSRPPQPRACQRPQFWQTLQTQAQFQVFLLDELTARGFVNITWKLQLRTQFGCLEGFGRVVAASDALGCVKCPEGVLLCHVRDWRDLTTGLFSPVDLIQVIVDGNVSLPSQQHWLSLQQANLWCLSRCAGEPSFCQLAEVTDSFTCTLYPEAQVCDDILESSPKGCRLILPRRPSALYRKKVVLQDRVKNFYNRLPFQKLTGISIRNKVPMSDKSISSGFFECERLCDMDPCCTGFGFLNVSQLKGGEVTCLTLNSLGLQTCSEEYGGVWRILSPDTEVRTYPFGWYQKPVSPSDAPSFCPSVALPALTENVALDSWQSLALSSVIVDPSIRNFDVAHISVGNFSAARDRCLWECSRHQDCLVTTLQTQPGAVRCMFYADTQSCTHSLQAQNCRLLLHEEATYIYRKPNIPLPGFGTSSPSVPIATHGQLLGRSQAIQVGTSWKPVDQFLGVPYAAPPLGEKRFRAPEHLNWTGSWEATKPRARCWQPGIRTPTPPGVSEDCLYLNVFVPQNMAPNASVLVFFHNAAEGKGSGDRPAVDGSFLAAVGNLIVVTASYRTGIFGFLSSGSSELSGNWGLLDQVVALTWVQTHIQAFGGDPRRVTLAADRGGADIASIHLVTTRAANSRLFRRAVLMGGSALSPAAVIRPERARQQAAALAKEVGCPSSSVQEMVSCLRQEPARILNDAQTKLLAVSGPFHYWGPVVDGQYLRETPARVLQRAPRVKVDLLIGSSQDDGLINRAKAVKQFEESQGRTSSKTAFQALQNSLGGDAGVQAAATWYYSLEHDSDDASFSRALEQATRDYFIICPVIDMASHWARTVRGNVFMYHAPESYSHSSLELLTDVLYAFGLPFYPAYEGQFTLEEKSLSLKIMQYFSNFIRSGNPNYPHEFSRRAPEFAAPWPDFVPRDGAESYKELSVLLPNRQGLKKADCSFWSKYIQSLKA LRPCELQRERAFLKREDYVPQCAEDGSFQTVQCGKDGASCWCVDADGREVPGSRQPGRPAACLSFCQLQKQQILLYLPQCQDSGDYSPVQCQCWCVDAEGMEVYGTRQQGRPARCPRSCEIRNRRLLHGVGDRSPPQCSPDGAFRPVQCKFVNTTDMMIFDLVHSYSRFPDAFVTFSSFRSRFPEVSGYCYCADSQGRELAETGLELLLDEILASTFAETTLYRILQRRFLAVQLVISGRFRCPTKCEVERFAATSFRHPYVPSCHPDGEYQAAQCQQGGPCWCVDSRGQEIPGTRQQSCPSERRRAFSRLRFGPSCPPSIKELFLDSGIFQPMLQGVAPESLKEAIRGLFPSRELARLALQFTTNAKRLQQNLFGGRFLVKVGQFNLSGALGTRGTFNFSHFFQQLGLGSFGFEVNLQENQNALQFLSSFLELPEFLLFLQHAISVPEDIARDLGDVMEMVFSSQGCSLFVPACTAEGSYEEVQCFAGDCWCAGSRVRGGRPRCPTECEKQRARMQSLLGSQPAGSSLFVPACTSKGNFLPVQCFNSECYCVDTEGQPIPGTRSALGEPKKCPSPCQLQAERAFLGTVRTLYIPQCSASGQWSPVQCCWCVDEAGQKLEVPACPGSCEEVKLRVLQFIREAEEIVTYSNSSRFPLGESFLAAKGIRLTDEELAFPSRETFLEKFLSGSDYAIRLAAQSTFDFYQRRLVSAYLPQCDAFGGWEPVQCHAATGHCWCVDGKGEYVPARSRQIPQCPTSCERLRASGLLSSWKQAGVQAEPSPKDLFIPTCLETGEFARLQASEAGTWCVDPASGEGVPPQCPSLCEVLQSAAGQRCGYRSAFPPEPLSRPPQPRACQRPQFWQTLQTQAQFQVFLLDELTARGFVNITWKLQLRTQFGCLEGFGRVVAASDALGCVKCPEGVLLCHVRDWRDLTTGLFSPVDLIQVIVDGNVSLPSQQHWLSLQQANLWCLSRCAGEPSFCQLAEVTDSFTCTLYPEAQVCDDILESSPKGCRLILPRRPSALYRKKVVLQDRVKNFYNRLPFQKLTGISIRNKVPMSDKSISSGFFECERLCDMDPCCTGFGFLNVSQLKGGEVTCLTLNSLGLQTCSEEYGGVWRILSPDTEVRTYPFGWYQKPVSPSDAPSFCPSVALPALTENVALDSWQSLALSSVIVDPSIRNFDVAHISVGNFSAARDRCLWECSRHQDCLVTTLQTQPGAVRCMFYADTQSCTHSLQAQNCRLLLHEEATYIYRKPNIPLPGFGTSSPSVPIATHGQLLGRSQAIQVGTSWKPVDQFLGVPYAAPPLGEKRFRAPEHLNWTGSWEATKPRARCWQPGIRTPTPPGVSEDCLYLNVFVPQNMAPNASVLVFFHNAAEGKGSGDRPAVDGSFLAAVGNLIVVTASYRTGIFGFLSSGSSELSGNWGLLDQVVALTWVQTHIQAFGGDPRRVTLAADRGGADIASIHLVTTRAANSRLFRRAVLMGGSALSPAAVIRPERARQQAAALAKEVGCPSSSVQEMVSCLRQEPARILNDAQTKLLAVSGPFHYWGPVVDGQYLRETPARVLQRAPRVKVDLLIGSSQDDGLINRAKAVKQFEESQGRTSSKTAFQALQNSLGGDAGVQAAATWYYSLEHDSDDASFSRALEQATRDYFIICPVIDMASHWARTVRGNVFMYHAPESYSHSSLELLTDVLYAFGLPFYPAYEGQFTLEEKSLSLKIMQYFSNFIRSGNPNYPHEFSRRAPEFAAPWPDFVPRDGAESYKELSVLLPNRQGLKKADCSFWSKYIQSLKA 7qug-a1-m1-cB_7qug-a1-m1-cA Crystal structure of carbon-sulfur lyase FnaPatB1 from Fusobacterium nucleatum subspecies animalis in complex with allyl-cysteine 2.6 X-RAY DIFFRACTION 143 1.0 851 (Fusobacterium nucleatum) 851 (Fusobacterium nucleatum) 370 397 MYNFDEIIDRDEEFIRMWVADMEFATPQVIIDGIKERLDKRIFGYTKIFSNDYYNAFSDWCQRRYGWNFEKKHLVMSNGIIPALYELVQYICKKDEKVLFLTPSYAYFKYAADFSNRTPICSDLIDNDGYYTIDFEDFEKKAADEKTTLFILCNPHNPTGRVWKEEELKKLGKICEKYDVWVISDEIHCDLLRCDKQHIPLAKLFPNYKRIITCMAPSKTFNLAGLMISNVIIPDDNLREVWLSKHYNFDNPLSVAGAQAAYEKGEDWLKELQKYLDKNFEFTKEYLNKNLPKAKFKISEATYLAWVNLEEYFDKTENLPIFFANKAGVLLEGGNMFVQNSDCFIRLNLACPKSILEKGLKRICKAVNEK MYNFDEIIDRRNTNAMNTDGFRSYIFHADENMKFPYKDEEFIRMWVADMEFATPQVIIDGIKERLDKRIFGYTKIFSNDYYNAFSDWCQRRYGWNFEKKHLVMSNGIIPALYELVQYICKKDEKVLFLTPSYAYFKYAADFSNRTPICSDLIDNDGYYTIDFEDFEKKAADEKTTLFILCNPHNPTGRVWKEEELKKLGKICEKYDVWVISDEIHCDLLRCDKQHIPLAKLFPNYKRIITCMAPSKTFNLAGLMISNVIIPDDNLREVWLSKHYNFDNPLSVAGAQAAYEKGEDWLKELQKYLDKNFEFTKEYLNKNLPKAKFKISEATYLAWVNLEEYFDKTENLPIFFANKAGVLLEGGNMFVQNSDCFIRLNLACPKSILEKGLKRICKAVNEK 7qui-a1-m1-cA_7qui-a1-m1-cB Crystal structure of the N-terminal domain of Siglec-8 in complex with sulfonamide sialoside analogue Q9NYZ4 Q9NYZ4 3.352 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 131 135 QYGDGYLLQVQELVTVQEGLSVHVPCSFSYPQDGWTDSDPVHGYWFRAGDRPYQDAPVATNNPDREVQAETQGRFQLLGDIWSNDCSLSIRDARKRDKGSYFFRLERGSMKWSYKSQLNYKTKQLSVFVTA QYGDGYLLQVQELVTVQEGLSVHVPCSFSYPQDGWTDSDPVHGYWFRAGDRPYQDAPVATNNPDREVQAETQGRFQLLGDIWSNDCSLSIRDARKRDKGSYFFRLERGSMKWSYKSQLNYKTKQLSVFVTALTHG 7quj-a1-m1-cD_7quj-a1-m1-cA Structure of NsNEPS2, a 7S-cis-trans nepetalactone synthase 1.85 X-RAY DIFFRACTION 130 1.0 180189 (Nepeta sibirica) 180189 (Nepeta sibirica) 257 259 7quj-a1-m1-cB_7quj-a1-m1-cC KLEGKVAIVTGGASGIGETAARIFADHGARAVVIADIQSELGRMVAESIGAKRCSYVQCDIADEEQVKSAVEWTATTYGGLDVMFCNAGIMSHSDSGQTVMELDMSKFDEVMRVNTRGTAACVKQAARKMVELGTRGGAIICTSSPLATRGGHVDTDYVMSKHAVLGLVRSASMQLGAHGIRVNSVSPMAVLTPLTRRMGLATPADVENALGRFTSLKGVALTAEHVAEAAAFLASDEAAFITGHDLVVDGGLLCLP KKKLEGKVAIVTGGASGIGETAARIFADHGARAVVIADIQSELGRMVAESIGAKRCSYVQCDIADEEQVKSAVEWTATTYGGLDVMFCNAGIMSHSDSGQTVMELDMSKFDEVMRVNTRGTAACVKQAARKMVELGTRGGAIICTSSPLATRGGHVDTDYVMSKHAVLGLVRSASMQLGAHGIRVNSVSPMAVLTPLTRRMGLATPADVENALGRFTSLKGVALTAEHVAEAAAFLASDEAAFITGHDLVVDGGLLCLP 7quj-a1-m1-cD_7quj-a1-m1-cC Structure of NsNEPS2, a 7S-cis-trans nepetalactone synthase 1.85 X-RAY DIFFRACTION 102 1.0 180189 (Nepeta sibirica) 180189 (Nepeta sibirica) 257 258 7quj-a1-m1-cB_7quj-a1-m1-cA KLEGKVAIVTGGASGIGETAARIFADHGARAVVIADIQSELGRMVAESIGAKRCSYVQCDIADEEQVKSAVEWTATTYGGLDVMFCNAGIMSHSDSGQTVMELDMSKFDEVMRVNTRGTAACVKQAARKMVELGTRGGAIICTSSPLATRGGHVDTDYVMSKHAVLGLVRSASMQLGAHGIRVNSVSPMAVLTPLTRRMGLATPADVENALGRFTSLKGVALTAEHVAEAAAFLASDEAAFITGHDLVVDGGLLCLP KKLEGKVAIVTGGASGIGETAARIFADHGARAVVIADIQSELGRMVAESIGAKRCSYVQCDIADEEQVKSAVEWTATTYGGLDVMFCNAGIMSHSDSGQTVMELDMSKFDEVMRVNTRGTAACVKQAARKMVELGTRGGAIICTSSPLATRGGHVDTDYVMSKHAVLGLVRSASMQLGAHGIRVNSVSPMAVLTPLTRRMGLATPADVENALGRFTSLKGVALTAEHVAEAAAFLASDEAAFITGHDLVVDGGLLCLP 7quy-a2-m1-cC_7quy-a2-m2-cC Alcohol Dehydrogenase from Thauera aromatica complexed with NADH O87871 O87871 2.6 X-RAY DIFFRACTION 120 1.0 59405 (Thauera aromatica) 59405 (Thauera aromatica) 352 352 7qul-a1-m1-cA_7qul-a1-m2-cA 7quy-a1-m1-cA_7quy-a1-m1-cB SNPHRWMMTSPGAPMVRAEFEIGELSADQVVVAVAGCGVCHTDLGYYYDSVRTNHALPLALGHEISGRVVQAGANAAQWLGRAVIVPAVMPCGTCELCTSGHGTICRDQVMPGNDIQGGFASHVVVPARGLCPVDEARLAAAGLQLADVSVVADAVTTPYQAVLQAGVEPGDVAVVIGVGGVGGYAVQIANAFGASVVAIDVDPAKLEMMSKHGAALTLNAREISGRDLKKAIEAHAKANGLRLTRWKIFECSGTGAGQTSAYGLLTHGATLAVVGFTMDKVEVRLSNLMAFHARALGNWGCLPEYYPAALDLVLDKKIDLASFIERHPLDQIGEVFAAAHAHKLTRRAILT SNPHRWMMTSPGAPMVRAEFEIGELSADQVVVAVAGCGVCHTDLGYYYDSVRTNHALPLALGHEISGRVVQAGANAAQWLGRAVIVPAVMPCGTCELCTSGHGTICRDQVMPGNDIQGGFASHVVVPARGLCPVDEARLAAAGLQLADVSVVADAVTTPYQAVLQAGVEPGDVAVVIGVGGVGGYAVQIANAFGASVVAIDVDPAKLEMMSKHGAALTLNAREISGRDLKKAIEAHAKANGLRLTRWKIFECSGTGAGQTSAYGLLTHGATLAVVGFTMDKVEVRLSNLMAFHARALGNWGCLPEYYPAALDLVLDKKIDLASFIERHPLDQIGEVFAAAHAHKLTRRAILT 7qv3-a1-m1-cv_7qv3-a1-m1-cw Bacillus subtilis MutS2-collided disome complex (MutS2 conf.2; Leading 70S) P94545 P94545 5.14 ELECTRON MICROSCOPY 330 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 548 593 MQQKVLSALEFHKVKEQVIGHAASSLGKEMLLELKPSASIDEIKKQLDEVDEASDIIRLRGQAPFGGLVDIRGALRRAEIGSVLSPSEFTEISGLLYAVKQMKHFITQMAEDGVDIPLIHQHAEQLITLSDLERDINSCIDDHGEVLDHASETLRGIRTQLRTLESRVRDRLESMLRIVDMNNSLQQAKVKEKQEIERILRVLTEKTAEYTEELFLDLQVLQTLDFIFAKARYAKAVKATKPIMNDTGFIRLKKARHPLLPPDQVVANDIELGRDFSTIVITGPNTGGKTVTLKTLGLLTLMAQSGLHIPADEGSEAAVFEHVFADIGDEQSIEQSLSTFSSHMVNIVGILEQVNENSLVLFDELGAGTDPQEGAALAMSILDDVHRTNARVLATTHYPELKAYGYNREGVMNASVEFDIETLSPTYKLLIGVPGRSNAFEISKRLGLPDHIIGQAKSEMTAEHNEVDTMIASLEQSKKRAEEELSETESIRKEAEKLHKELQQQIIELNSKKDKMLEEAEQQAAEKVKAAMKEAEDIIHELRTIKEE MQQKVLSALEFHKVKEQVIGHAASSLGKEMLLELKPSASIDEIKKQLDEVDEASDIIRLRGQAPFGGLVDIRGALRRAEIGSVLSPSEFTEISGLLYAVKQMKHFITQMAEDGVDIPLIHQHAEQLITLSDLERDINSCIDDHGEVLDHASETLRGIRTQLRTLESRVRDRLESMLRSSSASKMLSDTIVTIRNDRFVIPVKQEYRSSYGGIVHDLFIEPQAIVDMNNSLQQAKVKEKQEIERILRVLTEKTAEYTEELFLDLQVLQTLDFIFAKARYAKAVKATKPIMNDTGFIRLKKARHPLLPPDQVVANDIELGRDFSTIVITGPNTGGKTVTLKTLGLLTLMAQSGLHIPADEGSEAAVFEHVFADIGDEQSIEQSLSTFSSHMVNIVGILEQVNENSLVLFDELGAGTDPQEGAALAMSILDDVHRTNARVLATTHYPELKAYGYNREGVMNASVEFDIETLSPTYKLLIGVPGRSNAFEISKRLGLPDHIIGQAKSEMTAEHNEVDTMIASLEQSKKRAEEELSETESIRKEAEKLHKELQQQIIELNSKKDKMLEEAEQQAAEKVKAAMKEAEDIIHELRTIKEE 7qv5-a1-m1-cQ_7qv5-a1-m1-cZ Amyloid fibril from the antimicrobial peptide uperin 3.5 P82042 P82042 3.0 ELECTRON MICROSCOPY 36 1.0 104954 (Uperoleia mjobergii) 104954 (Uperoleia mjobergii) 14 14 7qv5-a1-m1-cB_7qv5-a1-m1-cK 7qv5-a1-m1-cE_7qv5-a1-m1-cN 7qv5-a1-m1-cH_7qv5-a1-m1-cQ 7qv5-a1-m1-cK_7qv5-a1-m1-cT 7qv5-a1-m1-cN_7qv5-a1-m1-cW DLIRKAVSVIKNIV DLIRKAVSVIKNIV 7qv5-a1-m1-cR_7qv5-a1-m1-ca Amyloid fibril from the antimicrobial peptide uperin 3.5 P82042 P82042 3.0 ELECTRON MICROSCOPY 18 1.0 104954 (Uperoleia mjobergii) 104954 (Uperoleia mjobergii) 7 7 7qv5-a1-m1-cC_7qv5-a1-m1-cL 7qv5-a1-m1-cF_7qv5-a1-m1-cO 7qv5-a1-m1-cI_7qv5-a1-m1-cR 7qv5-a1-m1-cL_7qv5-a1-m1-cU 7qv5-a1-m1-cO_7qv5-a1-m1-cX GVGDLIR GVGDLIR 7qv7-a1-m1-cJ_7qv7-a1-m1-cP Cryo-EM structure of Hydrogen-dependent CO2 reductase. A0A097ATK6 A0A097ATK6 3.4 ELECTRON MICROSCOPY 93 1.0 2325 (Thermoanaerobacter kivui) 2325 (Thermoanaerobacter kivui) 183 183 7qv7-a1-m1-cB_7qv7-a1-m1-cN 7qv7-a1-m1-cC_7qv7-a1-m1-cX TQLNPFVVANPAKCIGCKACEVACFAVHNRNNHVGATVGTVSIPVIPRLHLIKTEHGTMPIQCRHCEDAPCANVCTVGAIKREGNAIVVDEKLCIGCKSCLLACPFGAIELLPQYEDGREVFQINLKLVQEPRIIAYKCDLCNDLGEPACVKACPENALTLVMPTEMKKARNKEAALSFLRVV TQLNPFVVANPAKCIGCKACEVACFAVHNRNNHVGATVGTVSIPVIPRLHLIKTEHGTMPIQCRHCEDAPCANVCTVGAIKREGNAIVVDEKLCIGCKSCLLACPFGAIELLPQYEDGREVFQINLKLVQEPRIIAYKCDLCNDLGEPACVKACPENALTLVMPTEMKKARNKEAALSFLRVV 7qv7-a1-m1-cJ_7qv7-a1-m1-cX Cryo-EM structure of Hydrogen-dependent CO2 reductase. A0A097ATK6 A0A097ATK6 3.4 ELECTRON MICROSCOPY 12 1.0 2325 (Thermoanaerobacter kivui) 2325 (Thermoanaerobacter kivui) 183 183 7qv7-a1-m1-cB_7qv7-a1-m1-cP TQLNPFVVANPAKCIGCKACEVACFAVHNRNNHVGATVGTVSIPVIPRLHLIKTEHGTMPIQCRHCEDAPCANVCTVGAIKREGNAIVVDEKLCIGCKSCLLACPFGAIELLPQYEDGREVFQINLKLVQEPRIIAYKCDLCNDLGEPACVKACPENALTLVMPTEMKKARNKEAALSFLRVV TQLNPFVVANPAKCIGCKACEVACFAVHNRNNHVGATVGTVSIPVIPRLHLIKTEHGTMPIQCRHCEDAPCANVCTVGAIKREGNAIVVDEKLCIGCKSCLLACPFGAIELLPQYEDGREVFQINLKLVQEPRIIAYKCDLCNDLGEPACVKACPENALTLVMPTEMKKARNKEAALSFLRVV 7qve-a1-m1-ca_7qve-a1-m1-co Spinach 20S proteasome A0A0K9S2G1 A0A0K9S2G1 3.3 ELECTRON MICROSCOPY 55 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 212 212 TTIIGVTYKDGVILGADSRTSTGVYVANRASDKITQLTDNVYVCRSGSAADSQIVSDYVRYFLHQHTIQLGQPATVKVAANLVRLLAYGNKDTLQTGMIVGGWDKYEGGKIYGIPLGGTIIEQPFSIGGSGSSYLYGFLDQAWKDGMSKDEAEELVKKAVSLAIARDGASGGVVRTVIINEEGVTRNFYPGDQLPLWHEELEPQNSLLDIWG TTIIGVTYKDGVILGADSRTSTGVYVANRASDKITQLTDNVYVCRSGSAADSQIVSDYVRYFLHQHTIQLGQPATVKVAANLVRLLAYGNKDTLQTGMIVGGWDKYEGGKIYGIPLGGTIIEQPFSIGGSGSSYLYGFLDQAWKDGMSKDEAEELVKKAVSLAIARDGASGGVVRTVIINEEGVTRNFYPGDQLPLWHEELEPQNSLLDIWG 7qve-a1-m1-cd_7qve-a1-m1-cr Spinach 20S proteasome A0A0K9QSM9 A0A0K9QSM9 3.3 ELECTRON MICROSCOPY 44 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 196 196 MECVFGLVGNGFAIIAADTSAVNSILVHKTNEDKIMKLDSHKLMGASGEAGDRVQFTEFVQKNVSLYQFRNGIPLTTAAAANFTRGELATALRKNPYSVNIILAGFDQDTGPSLYFIDYIATLHKVDKAAFGYGSYFALAMMDRHYRSDMSVDEAIKLVDECIAEIRTRLVVAPPNFVIKIVDKDGAREFAWRQSI MECVFGLVGNGFAIIAADTSAVNSILVHKTNEDKIMKLDSHKLMGASGEAGDRVQFTEFVQKNVSLYQFRNGIPLTTAAAANFTRGELATALRKNPYSVNIILAGFDQDTGPSLYFIDYIATLHKVDKAAFGYGSYFALAMMDRHYRSDMSVDEAIKLVDECIAEIRTRLVVAPPNFVIKIVDKDGAREFAWRQSI 7qvs-a1-m2-cB_7qvs-a1-m2-cA Pseudomonas aeruginosa nicotinamide adenine dinucleotide kinase (NADK) structure in complex with NADP Q9HZC0 Q9HZC0 2.3 X-RAY DIFFRACTION 44 0.993 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 283 289 7mh7-a1-m1-cA_7mh7-a1-m3-cA 7mh7-a1-m2-cA_7mh7-a1-m4-cA 7qvs-a1-m1-cB_7qvs-a1-m1-cA PFRNIGIIGRLGSTQVLDTIRRLKKFLIDRHLHVILEDTIAEVLPGKIMGEICDLVVVVGGDGSMLGAARALARHKVPVLGINRGSLGFLTDIRPDELEAKVGEVLDGQYIVESRFLLDAQVRRGIDSMGQGDALNDVVLHPGKSTRMIEFELYIDGQFVCSQKADGLIVATPTGSTAYALSAGGPIMHPKLDAIVIVPMYPHMLSSRPIVVDGNSELKIVVSPNMQIYPQVSCDGQNHFTCAPGDTVTISKKPQKLRLIHPIDHNYYEICRTKLGWGSRLGG PFRNIGIIGRLGSTQVLDTIRRLKKFLIDRHLHVILEDTIAEVLPGHGLQTCSRKIMGEICDLVVVVGGDGSMLGAARALARHKVPVLGINRGSLGFLTDIRPDELEAKVGEVLDGQYIVESRFLLDAQVRRGIDSMGQGDALNDVVLHPGKSTRMIEFELYIDGQFVCSQKADGLIVATPTGSTAYALSAGGPIMHPKLDAIVIVPMYPHMLSSRPIVVDGNSELKIVVSPNMQIYPQVSCDGQNHFTCAPGDTVTISKKPQKLRLIHPIDHNYYEICRTKLGWGSRL 7qwa-a1-m1-cB_7qwa-a1-m1-cD CC-Type2-(UgUe)4 1.54 X-RAY DIFFRACTION 25 1.0 32630 (synthetic construct) 32630 (synthetic construct) 21 21 7qwa-a1-m1-cA_7qwa-a1-m1-cC 7qwa-a1-m1-cA_7qwa-a1-m1-cE GEIQLKEIKLKEILKEIQLKG GEIQLKEIKLKEILKEIQLKG 7qwa-a1-m1-cC_7qwa-a1-m1-cD CC-Type2-(UgUe)4 1.54 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 32630 (synthetic construct) 21 21 GEIQLKEIKLKEILKEIQLKG GEIQLKEIKLKEILKEIQLKG 7qwa-a1-m1-cF_7qwa-a1-m1-cC CC-Type2-(UgUe)4 1.54 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 20 21 7qwa-a1-m1-cB_7qwa-a1-m1-cE GEIQLKEIKLKEILKEIQLK GEIQLKEIKLKEILKEIQLKG 7qwa-a1-m1-cF_7qwa-a1-m1-cD CC-Type2-(UgUe)4 1.54 X-RAY DIFFRACTION 18 1.0 32630 (synthetic construct) 32630 (synthetic construct) 20 21 GEIQLKEIKLKEILKEIQLK GEIQLKEIKLKEILKEIQLKG 7qwb-a1-m1-cA_7qwb-a1-m1-cC CC-Type2-(Ue)4 1.64 X-RAY DIFFRACTION 54 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 24 GEIQALKEIKALKEIALKEIQALK GEIQALKEIKALKEIALKEIQALK 7qwb-a1-m1-cA_7qwb-a1-m1-cE CC-Type2-(Ue)4 1.64 X-RAY DIFFRACTION 12 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 25 GEIQALKEIKALKEIALKEIQALK GEIQALKEIKALKEIALKEIQALKG 7qwb-a1-m1-cB_7qwb-a1-m1-cE CC-Type2-(Ue)4 1.64 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 25 EIQALKEIKALKEIALKEIQALKG GEIQALKEIKALKEIALKEIQALKG 7qwb-a1-m1-cD_7qwb-a1-m1-cE CC-Type2-(Ue)4 1.64 X-RAY DIFFRACTION 20 1.0 32630 (synthetic construct) 32630 (synthetic construct) 24 25 EIQALKEIKALKEIALKEIQALKG GEIQALKEIKALKEIALKEIQALKG 7qwb-a1-m1-cF_7qwb-a1-m1-cA CC-Type2-(Ue)4 1.64 X-RAY DIFFRACTION 29 1.0 32630 (synthetic construct) 32630 (synthetic construct) 23 24 7qwb-a1-m1-cB_7qwb-a1-m1-cD EIQALKEIKALKEIALKEIQALK GEIQALKEIKALKEIALKEIQALK 7qwb-a1-m1-cF_7qwb-a1-m1-cE CC-Type2-(Ue)4 1.64 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 23 25 EIQALKEIKALKEIALKEIQALK GEIQALKEIKALKEIALKEIQALKG 7qwc-a1-m1-cB_7qwc-a1-m1-cE CC-Type1-(UbUc)4 1.69 X-RAY DIFFRACTION 22 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 19 7qwc-a1-m1-cB_7qwc-a1-m1-cC GELIKQELIKKELIKELIK GELIKQELIKKELIKELIK 7qwc-a1-m1-cE_7qwc-a1-m1-cC CC-Type1-(UbUc)4 1.69 X-RAY DIFFRACTION 19 1.0 32630 (synthetic construct) 32630 (synthetic construct) 19 20 GELIKQELIKKELIKELIK GELIKQELIKKELIKELIKQ 7qwn-a3-m1-cB_7qwn-a3-m1-cA Crystal structure of CYP125 from Mycobacterium tuberculosis in complex with an inhibitor P9WPP1 P9WPP1 1.93 X-RAY DIFFRACTION 26 0.998 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 407 410 7qwn-a1-m1-cB_7qwn-a1-m1-cA 7qwn-a2-m1-cB_7qwn-a2-m1-cA SPNLPPGFDFTDPAIYAERLPVAEFAELRSAAPIWWNGQDPGKGGGFHDGGFWAITKLNDVKEISRHSDVFSSYENGVIPRFKNDIAREDIEVQRFVMLNMDAPHHTRLRKIISRGFTPRAVGRLHDELQERAQKIAAEAAAAGSGDFVEQVSCELPLQAIAGLLGVPQEDRGKLFHWSNEMTGNEDPEYAHIDPKASSAELIGYAMKMAEEKAKNPADDIVTQLIQADGEKLSDDEFGFFVVMLAVAGNETTRNSITQGMMAFAEHPDQWELYKKVRPETAADEIVRWATPVTAFQRTALRDYELSGVQIKKGQRVVMFYRSANFDEEVFQDPFTFNILRNPNPHVGFGGTGAHYCIGANLARMTINLIFNAVADHMPDLKPISAPERLRSGWLNGIKHWQVDYTG GPSPNLPPGFDFTDPAIYAERLPVAEFAELRSAAPIWWNGQDPGKGGGFHDGGFWAITKLNDVKEISRHSDVFSSYENGVIPRFNDIAREDIEVQRFVMLNMDAPHHTRLRKIISRGFTPRAVGRLHDELQERAQKIAAEAAAAGSGDFVEQVSCELPLQAIAGLLGVPQEDRGKLFHWSNEMTGNEDPEYAHIDPKASSAELIGYAMKMAEEKAKNPADDIVTQLIQADIDGEKLSDDEFGFFVVMLAVAGNETTRNSITQGMMAFAEHPDQWELYKKVRPETAADEIVRWATPVTAFQRTALRDYELSGVQIKKGQRVVMFYRSANFDEEVFQDPFTFNILRNPNPHVGFGGTGAHYCIGANLARMTINLIFNAVADHMPDLKPISAPERLRSGWLNGIKHWQVDYTG 7qwn-a3-m1-cB_7qwn-a3-m1-cC Crystal structure of CYP125 from Mycobacterium tuberculosis in complex with an inhibitor P9WPP1 P9WPP1 1.93 X-RAY DIFFRACTION 45 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 407 409 7qwn-a1-m1-cB_7qwn-a1-m1-cC 7qwn-a2-m1-cB_7qwn-a2-m1-cC SPNLPPGFDFTDPAIYAERLPVAEFAELRSAAPIWWNGQDPGKGGGFHDGGFWAITKLNDVKEISRHSDVFSSYENGVIPRFKNDIAREDIEVQRFVMLNMDAPHHTRLRKIISRGFTPRAVGRLHDELQERAQKIAAEAAAAGSGDFVEQVSCELPLQAIAGLLGVPQEDRGKLFHWSNEMTGNEDPEYAHIDPKASSAELIGYAMKMAEEKAKNPADDIVTQLIQADGEKLSDDEFGFFVVMLAVAGNETTRNSITQGMMAFAEHPDQWELYKKVRPETAADEIVRWATPVTAFQRTALRDYELSGVQIKKGQRVVMFYRSANFDEEVFQDPFTFNILRNPNPHVGFGGTGAHYCIGANLARMTINLIFNAVADHMPDLKPISAPERLRSGWLNGIKHWQVDYTG SPNLPPGFDFTDPAIYAERLPVAEFAELRSAAPIWWNGQDPGKGGGFHDGGFWAITKLNDVKEISRHSDVFSSYENGVIPRFKNDIAREDIEVQRFVMLNMDAPHHTRLRKIISRGFTPRAVGRLHDELQERAQKIAAEAAAAGSGDFVEQVSCELPLQAIAGLLGVPQEDRGKLFHWSNEMTGNEDPEYAHIDPKASSAELIGYAMKMAEEKAKNPADDIVTQLIQADIDGEKLSDDEFGFFVVMLAVAGNETTRNSITQGMMAFAEHPDQWELYKKVRPETAADEIVRWATPVTAFQRTALRDYELSGVQIKKGQRVVMFYRSANFDEEVFQDPFTFNILRNPNPHVGFGGTGAHYCIGANLARMTINLIFNAVADHMPDLKPISAPERLRSGWLNGIKHWQVDYTG 7qx8-a3-m1-cI_7qx8-a3-m1-cJ Crystal structure of serine hydroxymethyltransferase, isoform 7 from Arabidopsis thaliana (SHM7) Q84WV0 Q84WV0 2.74 X-RAY DIFFRACTION 293 0.998 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 442 444 7qx8-a1-m1-cA_7qx8-a1-m1-cB 7qx8-a1-m1-cD_7qx8-a1-m1-cC 7qx8-a2-m1-cE_7qx8-a2-m1-cF 7qx8-a2-m1-cH_7qx8-a2-m1-cG 7qx8-a3-m1-cK_7qx8-a3-m1-cL NALESRRAAVRAWGDQPIHLADPDIHELMEKEKQRQVRGIELIASENFVCRAVMEALGSHLTNKYSEGMPGARYYTGNQYIDQIENLCIERALTAFGLESDKWGVNVQPYSCTSANFAVYTGLLLPGERIMGLDSPKISAASIFFESFPYKVNPQTGYIDYDKLEDKALDYRPKILICGGSSYPRDWDFARVRQIADKCGAVLMCDMAHISGLVATKECSNPFDHCDIVTSTTHKGLRGPRGGIIFYRRGPKTHYDLEEKINFAVFPSLQGGPHNNHIAALAIALKQVATPEYKAYIQQMKKNAQALAAALLRRKCRLVTGGTDNHLLLWDLTPMGLTGKVYEKVCEMCHITLNKTAIFNGTISPGGVRIGTPAMTTRGCIESDFETMADFLIKAAQITSALQREHGKSHKEFVKSLCTNKDIAELRNRVEAFALQYEMPAS SNALESRRAAVRAWGDQPIHLADPDIHELMEKEKQRQVRGIELIASENFVCRAVMEALGSHLTNKYSEGMPGARYYTGNQYIDQIENLCIERALTAFGLESDKWGVNVQPYSCTSANFAVYTGLLLPGERIMGLDSPKISAASIFFESFPYKVNPQTGYIDYDKLEDKALDYRPKILICGGSSYPRDWDFARVRQIADKCGAVLMCDMAHISGLVATKECSNPFDHCDIVTSTTHKGLRGPRGGIIFYRRGPKSTHYDLEEKINFAVFPSLQGGPHNNHIAALAIALKQVATPEYKAYIQQMKKNAQALAAALLRRKCRLVTGGTDNHLLLWDLTPMGLTGKVYEKVCEMCHITLNKTAIFGTISPGGVRIGTPAMTTRGCIESDFETMADFLIKAAQITSALQREHGKSHKEFVKSLCTNKDIAELRNRVEAFALQYEMPASL 7qxh-a1-m1-cA_7qxh-a1-m4-cA Coiled-Coil Domain of Human STIL, Q729L Mutant Q15468 Q15468 1.65 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 7qxh-a1-m2-cA_7qxh-a1-m3-cA LSPDAYRFLTELDRQLRLLQAQIQRLLEAQSL LSPDAYRFLTELDRQLRLLQAQIQRLLEAQSL 7qxh-a1-m2-cA_7qxh-a1-m4-cA Coiled-Coil Domain of Human STIL, Q729L Mutant Q15468 Q15468 1.65 X-RAY DIFFRACTION 34 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 7qxg-a1-m1-cA_7qxg-a1-m1-cB 7qxg-a2-m1-cE_7qxg-a2-m1-cC 7qxg-a3-m1-cD_7qxg-a3-m1-cF 7qxh-a1-m1-cA_7qxh-a1-m3-cA LSPDAYRFLTELDRQLRLLQAQIQRLLEAQSL LSPDAYRFLTELDRQLRLLQAQIQRLLEAQSL 7qxh-a1-m3-cA_7qxh-a1-m4-cA Coiled-Coil Domain of Human STIL, Q729L Mutant Q15468 Q15468 1.65 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 32 32 7qxh-a1-m1-cA_7qxh-a1-m2-cA LSPDAYRFLTELDRQLRLLQAQIQRLLEAQSL LSPDAYRFLTELDRQLRLLQAQIQRLLEAQSL 7qy5-a1-m1-cB_7qy5-a1-m1-cD Crystal structure of the S.pombe Ars2-Red1 complex. O94326 O94326 2.77 X-RAY DIFFRACTION 105 0.994 4896 (Schizosaccharomyces pombe) 4896 (Schizosaccharomyces pombe) 320 320 QLSKWNQDSRNDAMENTLLVSHVLPNISVAQIHNALDGISFVQHFSLSTINLIKNDERSLWVHFKAGTNMDGAKEAVDGIQLDSNFTIESENPKIPTHTHPIPIFEIASSEQTCKNLLEKLIRFIDRASTKYSLPNDAAQRIEDRLKTHASMKKPTNFHDIRLSDLYAEYLRQVATFDFWTSKEYESLIALLQDSPAGYSRKKFNPSKEVGQEENIWLSDLENNFACLLEPENVDIKAKGALPVEDFINNELDSVIMKEDEQKYRCHVGTCAKLFLGPEFVRKHINKKHKDWLDHIKKVAICLYGYVLDPCRAMDPKVVS QLSKWNQDSRNDAMENTLLVSHVLPNISVAQIHNALDGISFVQHFSLSTINLIKNDERSLWVHFKAGTNMDGAKEAVDGIQLDSNFTIESENPKIPTHTHPIPIFEIASSEQTCKNLLEKLIRFIDRASTKYSLPNDAAQRIEDRLKTHASMDDKPTNFHDIRLSDLYAEYLRQVATFDFWTSKEYESLIALLQDSPAGYSRKKFNPSKEVQEENIWLSDLENNFACLLEPENVDIKAKGALPVEDFINNELDSVIMKEDEQKYRCHVGTCAKLFLGPEFVRKHINKKHKDWLDHIKKVAICLYGYVLDPCRAMDPKVVS 7qyd-a1-m1-cB_7qyd-a1-m1-cA mosquitocidal Cry11Ba determined at pH 6.5 from naturally-occurring nanocrystals by Serial femtosecond crystallography Q45730 Q45730 2.4 X-RAY DIFFRACTION 53 1.0 56955 (Bacillus thuringiensis serovar jegathesan) 56955 (Bacillus thuringiensis serovar jegathesan) 630 637 7r1e-a1-m1-cB_7r1e-a1-m1-cA NFPMYNGRLEPSLAPALIAVAPIAKYLATALAKWAVKQGFAKLKSEIFPGNTPATMDKVRIEVQTLLDQRLQDDRVKILEGEYKGIIDVSKVFTDYVNQSKFETGTANRLFFDTSNQLISRLPQFEIAGYEGVSISLFTQMCTFHLGLLKDGILAGSDWGFAPADKDALICQFNRFVNEYNTRLMVLYSKEFGRLLAKNLNEALNFRNMCSLYVFPFSEAWSLLRYEGTKLENTLSLWNFVGESINNISPNDWKGALYKLLMGAPNQRLNNVKFNYSYFSDTQATIHRENIHGVLPTYNGGPTITGWIGNGRFSGLSNELEITKIKQEITYNDKVPAATRNEILTATVPTSADPFFKTADINWKYFSPGLYSGWNIKFDDTVTLKSRVPSIIPSNILKYDDYYIRAVSACPKGVSLAYNHDFLTLTYNKLEYDAPTTQNIIVGFSPDNTKSFYRSNSHYLSTTDDAYVIPALQFSTVSDRSFLEDTPDQATDGSIKFTDTVLGNEAKYSIRLNTGFNTATRYRLIIRFKAPARLAAGIRVRSQNSGNNKLLGGIPVEGNSGWIDYITDSFTFDDLGITTSSTNAFFSIDSDGVNASQQWYLSKLILVKESSFTTQIPLKPYVIVRCPDTF NNMINFPMYNGRLEPSLAPALIAVAPIAKYLATALAKWAVKQGFAKLKSEIFPGNTPATMDKVRIEVQTLLDQRLQDDRVKILEGEYKGIIDVSKVFTDYVNQSKFETGTANRLFFDTSNQLISRLPQFEIAGYEGVSISLFTQMCTFHLGLLKDGILAGSDWGFAPADKDALICQFNRFVNEYNTRLMVLYSKEFGRLLAKNLNEALNFRNMCSLYVFPFSEAWSLLRYEGTKLENTLSLWNFVGESINNISPNDWKGALYKLLMGAPNQRLNNVKFNYSYFSDTQATIHRENIHGVLPTYNGGPTITGWIGNGRFSGLSNELEITKIKQEITYNDKIVPAATRNEILTATVPTSADPFFKTADINWKYFSPGLYSGWNIKFDDTVTLKSRVPSIIPSNILKYDDYYIRAVSACPKGVSLAYNHDFLTLTYNKLEYDAPTTQNIIVGFSPDNTKSFYRSNSHYLSTTDDAYVIPALQFSTVSDRSFLEDTPDQATDGSIKFTDTVLGNEAKYSIRLNTGFNTATRYRLIIRFKAPARLAAGIRVRSQNSGNNKLLGGIPVEGNSGWIDYITDSFTFDDLGITTSSTNAFFSIDSDGVNASQQWYLSKLILVKESSFTTQIPLKPYVIVRCPDTFFV 7qyp-a1-m1-cA_7qyp-a1-m1-cB The structure of T. forsythia NanH G8UIQ1 G8UIQ1 1.659 X-RAY DIFFRACTION 123 1.0 28112 (Tannerella forsythia) 28112 (Tannerella forsythia) 519 519 7qxo-a1-m1-cA_7qxo-a1-m1-cB 7qy8-a1-m1-cA_7qy8-a1-m1-cB 7qy9-a1-m1-cA_7qy9-a1-m1-cB 7qyj-a1-m1-cA_7qyj-a1-m1-cB 7qz3-a1-m1-cA_7qz3-a1-m1-cB DSVYVQNPQIPILVDRTDNVLFRIRIPDATKGDVLNRLTIRFGNEDKLSEVKAVRLFYAGTEAATKGRSRFAPVTYVSSHNIRNTRSANPSYSIRQDEVTTVANTLTLKTRQPMVKGINYFWVSVEMDRNTSLLSKLTSTVTEVVINDKPAVIAGEQAAVRRMGIGVRHAGDDGSASFRIPGLVTTNKGTLLGVYDVRYNNSVDLQEHIDVGLSRSTDKGQTWEPMRIAMSFGETDGLPSGQNGVGDPSILVDERTNTVWVVAAWTHGMGNARAWTNSMPGMTPDETAQLMMVKSTDDGRTWSESTNITSQVKDPSWCFLLQGPGRGITMRDGTLVFPIQFIDSLRVPHAGIMYSKDRGETWHIHQPARTNTTEAQVAEVEPGVLMLNMRDNRGGSRAVSITRDLGKSWTEHSSNRSALPESICMASLISVKAKDNIIGKDLLLFSNPNTTEGRHHITIKASLDGGVTWLPAHQVLLDEEDGWGYSCLSMIDRETVGIFYESSVAHMTFQAVKIKDLIR DSVYVQNPQIPILVDRTDNVLFRIRIPDATKGDVLNRLTIRFGNEDKLSEVKAVRLFYAGTEAATKGRSRFAPVTYVSSHNIRNTRSANPSYSIRQDEVTTVANTLTLKTRQPMVKGINYFWVSVEMDRNTSLLSKLTSTVTEVVINDKPAVIAGEQAAVRRMGIGVRHAGDDGSASFRIPGLVTTNKGTLLGVYDVRYNNSVDLQEHIDVGLSRSTDKGQTWEPMRIAMSFGETDGLPSGQNGVGDPSILVDERTNTVWVVAAWTHGMGNARAWTNSMPGMTPDETAQLMMVKSTDDGRTWSESTNITSQVKDPSWCFLLQGPGRGITMRDGTLVFPIQFIDSLRVPHAGIMYSKDRGETWHIHQPARTNTTEAQVAEVEPGVLMLNMRDNRGGSRAVSITRDLGKSWTEHSSNRSALPESICMASLISVKAKDNIIGKDLLLFSNPNTTEGRHHITIKASLDGGVTWLPAHQVLLDEEDGWGYSCLSMIDRETVGIFYESSVAHMTFQAVKIKDLIR 7qzj-a1-m1-cA_7qzj-a1-m1-cB 1.55 A X-ray crystallographic structure of SapH from Streptomyces sp. (HPH0547) involved in Pseudouridimycin biosynthesis S3AT34 S3AT34 1.55 X-RAY DIFFRACTION 379 0.998 1203592 (Streptomyces sp. HPH0547) 1203592 (Streptomyces sp. HPH0547) 422 422 DTDRARERDRRHLWHPWSSVRDDRPILVAGEGCRVRDVTGAGYLDAMASAMNSSCGYAHPALLEAARRQLELLPHFDLSAASHLPAGLAAERIAGLLPAGLERTFFVNSGSEATEAAVRIAHDHWTNRGEPRDRLVTFAAGYHGTTLVAQHLSGLPTNAIHGTAPFPVTRVELPLEPAALRTPEALTLLADAFERAVLDGPPPAAVMVEPLLNVGGGVVLPDGFLRALRALCDRTGALLIVDEVFCGFGRTGRMFGFQHDGVTPDLVTMSKGISGGYVPFAALTTTDEVYRSFAADPLLGGLRYGHTTGGHAVACAVALAVLDVIEERGLVGSAARLGAELLAGLAPLAEHPEVTDVRGLGLVATVECRQPESAAALVAEAKRQGVLLRQQGRAVMAIPPLVIDAAEVAELVRAVEQAVARL TDTDRARERDRRHLWHPWSSVRDRPILVAGEGCRVRDVTGAGYLDAMASAMNSSCGYAHPALLEAARRQLELLPHFDLSAASHLPAGLAAERIAGLLPAGLERTFFVNSGSEATEAAVRIAHDHWTNRGEPRDRLVTFAAGYHGTTLVAQHLSGLPTNAIHGTAPFPVTRVELPLEPAALRTPEALTLLADAFERAVLDGPPPAAVMVEPLLNVGGGVVLPDGFLRALRALCDRTGALLIVDEVFCGFGRTGRMFGFQHDGVTPDLVTMSKGISGGYVPFAALTTTDEVYRSFAADPLLGGLRYGHTTGGHAVACAVALAVLDVIEERGLVGSAARLGAELLAGLAPLAEHPEVTDVRGLGLVATVECRQPESAAALVAEAKRQGVLLRQQGRAVMAIPPLVIDAAEVAELVRAVEQAVARL 7qzl-a1-m1-cA_7qzl-a1-m1-cD Amine Dehydrogenase from Cystobacter fuscus (CfusAmDH) W145A mutant with NADP+ and pentylamine S9Q235 S9Q235 1.5 X-RAY DIFFRACTION 142 1.0 43 (Cystobacter fuscus) 43 (Cystobacter fuscus) 341 341 6iau-a1-m1-cA_6iau-a1-m1-cB 7qzn-a1-m1-cA_7qzn-a1-m1-cB SKRPIRIIQWGCGLMGQTLIRTLREKGAELVGAIDHNAARRDRDAGEVAGLGQSLGVRIHPPDQADAVFREARADVCILCTRSIMSELAGALRVAARHGVNAITIGEEAFYPWTTSQALTEELDQLARANDCTLTGSGFQDVFAGNLITVLAGATHRIDRIVGLTQYNADDYGSALAQKHGVGLDPETFAARIGASNSPSYVWNSNEWLCAQLGWRVRDIRQQLLPTTHTGTLRSASLGREVPAGHATGMKAVVVTETHEGPVIETHCVGKLYAPGEVDLNEWTLRGEPDTTVTIRQPATPALTCATVLNRLPQLLAAPPGFVTTDRFTPATYVSRLETEA SKRPIRIIQWGCGLMGQTLIRTLREKGAELVGAIDHNAARRDRDAGEVAGLGQSLGVRIHPPDQADAVFREARADVCILCTRSIMSELAGALRVAARHGVNAITIGEEAFYPWTTSQALTEELDQLARANDCTLTGSGFQDVFAGNLITVLAGATHRIDRIVGLTQYNADDYGSALAQKHGVGLDPETFAARIGASNSPSYVWNSNEWLCAQLGWRVRDIRQQLLPTTHTGTLRSASLGREVPAGHATGMKAVVVTETHEGPVIETHCVGKLYAPGEVDLNEWTLRGEPDTTVTIRQPATPALTCATVLNRLPQLLAAPPGFVTTDRFTPATYVSRLETEA 7qzo-a1-m1-cA_7qzo-a1-m1-cB Crystal structure of GacS D1 domain G3XD98 G3XD98 1.45 X-RAY DIFFRACTION 24 0.992 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 129 131 7qz2-a1-m1-cA_7qz2-a1-m1-cB GRPPRLLCVDDNPANLLLVQTLLSDLGAQVTAVDSGYAALEVVQRERFDLVFMDVQMPGMDGRQATEAIRRWEAEREVSPVPVIALTAHALSNEKRALLQAGMDDYLTKPIDEQQLAQVVLKWTGLSLG RPPRLLCVDDNPANLLLVQTLLSDLGAQVTAVDSGYAALEVVQRERFDLVFMDVQMPGMDGRQATEAIRRWEAEREVSPVPVIALTAHALSNEKRALLQAGMDDYLTKPIDEQQLAQVVLKWTGLSLGQSL 7r08-a2-m1-cB_7r08-a2-m1-cE Abortive infection DNA polymerase Abi-P2 Q2P9X6 Q2P9X6 3.1 X-RAY DIFFRACTION 57 0.992 2681594 (Escherichia phage P2) 2681594 (Escherichia phage P2) 482 488 7r08-a1-m1-cC_7r08-a1-m1-cA 7r08-a1-m1-cD_7r08-a1-m1-cA 7r08-a1-m1-cD_7r08-a1-m1-cC 7r08-a2-m1-cF_7r08-a2-m1-cB 7r08-a2-m1-cF_7r08-a2-m1-cE MKKVYELTSEEALSYFLRHDSYTTLELPAYINFTTLLNDINSSIHNKKIKIEPTAKELMGKDINYEVLVSKDYSWRRITLINPLYYVYFCRKITAPATWEIITEKFKSFESNDLFTCSSIPVRKDNWWEDFEQKSLALALEYEFMFSTDISNFYPSIYTHSFEWVFISKENPGGLIDSHIQMMMNNGIPLGSTLMDTFAELILGQIDIELRKKTNELKIINYKVVRYRDDYRIFSNSKDDLDIISKCLVNVLGDFGLDLNSKKTELYEDIILHSLKQAKKDYIKEKRHKSLQKMLYSIYLFSLKHPNSKTTVRYLNDFLRNLFKRKTIKDNGQQVDAMLGIISSIMAKNPTTYPVGTAIFSKLLSFLYGDDTQKKLTKLEQLHKKLDKQPNTEMLDIWFQRTQAKINLEWSYKSALCVRINDELTKEKTFSVNNLWNIDWIKETSPNKAKILSLLRKTKIVDTDKFDKMDDNITPEEVNLFF MKKVYELTSEEALSYFLRHDSYTTLELPAYINFTTLLNDINSSIHNKKIKIEPTAKELMGKDINYEVLVSGLYSWRRITLINPLYYVYFCRKITAPATWEIITEKFKSFESNDLFTCSSIPVRKDMNWWEDFEQKSLALALEYEFMFSTDISNFYPSIYTHSFEWVFISKSKNNPGGLIDSHIQMMMNNNGIPLGSTLMDTFAELILGQIDIELRKKTNELKIINYKVVRYRDDYRIFSNSKDDLDIISKCLVNVLGDFGLDLNSKKTELYEDIILHSLKQAKKDYIKEKRHKSLQKMLYSIYLFSLKHPNSKTTVRYLNDFLRNLFKRKTIKDNGQQVDAMLGIISSIMAKNPTTYPVGTAIFSKLLSFLYGDDTQKKLTKLEQLHKKLDKQPNTEMLDIWFQRTQAKINLEWNYKSALCVRINDELTKEKTFSVNNLWNIDWIQGKETSPNKAKILSLLRKTKIVDTDKFDKMDDNITPEEVNLFF 7r13-a1-m1-cB_7r13-a1-m1-cC Alpha Variant SARS-CoV-2 Spike in Closed conformation P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 246 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1001 1001 7r13-a1-m1-cA_7r13-a1-m1-cB 7r13-a1-m1-cA_7r13-a1-m1-cC LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD 7r15-a1-m1-cA_7r15-a1-m1-cC Alpha Variant SARS-CoV-2 Spike with 2 Erect RBDs P0DTC2 P0DTC2 4.1 ELECTRON MICROSCOPY 240 0.984 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 983 997 7r15-a1-m1-cA_7r15-a1-m1-cB VNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTEKSNIIRGWIFQSLLIVNNATNVVIKVCEFQFEYVSQPFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQPFNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTENVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD 7r17-a1-m1-cC_7r17-a1-m1-cB Beta Variant SARS-CoV-2 Spike with 2 Erect RBDs P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 229 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 987 1000 PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASGWIFGTTLDSKTQSLLIVNTNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNLREFVFKNIDGYFKIYSKHTPGLPQGFSALEPLVDLPIGINITRFQTLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFNPVLPFNDGVYFASTKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVWMESEFRVYSSANNCTFEYVSQPFLKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7r1a-a1-m1-cB_7r1a-a1-m1-cC Furin Cleaved Alpha Variant SARS-CoV-2 Spike in complex with 3 ACE2 P0DTC2 P0DTC2 3.9 ELECTRON MICROSCOPY 228 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 998 998 7r1a-a1-m1-cA_7r1a-a1-m1-cB 7r1a-a1-m1-cA_7r1a-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQPFLNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSLGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLFRVYSSANNCTFEYVSQPFLNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSLGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELD 7r1l-a1-m1-cA_7r1l-a1-m1-cC Clostridium thermocellum CtCBM50 structure in complex with beta-1,4-GlcNAc trisaccharide A3DC59 A3DC59 1.45 X-RAY DIFFRACTION 18 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 46 47 MYTVKPGDTMWKIAVKYQIGISEIIAANPQIKNPNLIYPGQKINIP MYTVKPGDTMWKIAVKYQIGISEIIAANPQIKNPNLIYPGQKINIPN 7r1l-a1-m1-cB_7r1l-a1-m1-cC Clostridium thermocellum CtCBM50 structure in complex with beta-1,4-GlcNAc trisaccharide A3DC59 A3DC59 1.45 X-RAY DIFFRACTION 23 1.0 1515 (Acetivibrio thermocellus) 1515 (Acetivibrio thermocellus) 46 47 MYTVKPGDTMWKIAVKYQIGISEIIAANPQIKNPNLIYPGQKINIP MYTVKPGDTMWKIAVKYQIGISEIIAANPQIKNPNLIYPGQKINIPN 7r1o-a2-m1-cCCC_7r1o-a2-m1-cDDD p62-ZZ domain of the human sequestosome in complex with dusquetide Q13501 Q13501 2.202 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 53 7r1o-a1-m1-cBBB_7r1o-a1-m1-cAAA MVHPNVICDGCNGPVVGTRYKCSVCPDYDLCSVCEGKGLHRGHTKLAFPSP NMVHPNVICDGCNGPVVGTRYKCSVCPDYDLCSVCEGKGLHRGHTKLAFPSPF 7r31-a1-m1-cA_7r31-a1-m1-cB Carbon regulatory PII-like protein SbtB from Synechocystis sp. 6803, C105A+C110A variant, in complex with ATP (co-crystal), tetragonal crystal form P73954 P73954 1.52 X-RAY DIFFRACTION 75 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 99 100 7cyf-a1-m1-cD_7cyf-a1-m1-cE 7cyf-a1-m1-cD_7cyf-a1-m1-cF 7cyf-a1-m1-cE_7cyf-a1-m1-cF 7egk-a1-m1-cB_7egk-a1-m1-cD 7egk-a1-m1-cB_7egk-a1-m1-cF 7egk-a1-m1-cD_7egk-a1-m1-cF 7r32-a1-m1-cC_7r32-a1-m1-cB KPANKLVIVTEKILLKKIAKIIDESGAKGYTVMNTGGKGSRNVRSSGQPNTSDIEANIKFEILTETREMAEEIADRVAVKYFNDYAGIIYICSAEVLYG KPANKLVIVTEKILLKKIAKIIDESGAKGYTVMNTGGKGSRNVRSSGQPNTSDIEANIKFEILTETREMAEEIADRVAVKYFNDYAGIIYICSAEVLYGH 7r3a-a3-m1-cC_7r3a-a3-m1-cH Crystal structure of S-adenosyl-L-homocysteine hydrolase from Methanococcus maripaludis in complex with inosine Q6LYR8 Q6LYR8 2.53 X-RAY DIFFRACTION 133 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 411 411 7r3a-a1-m1-cA_7r3a-a1-m1-cE SNVKDMSLAPSGHLKMEWAKRHMPVLCRIAEEFKNDKPFEGLTIGMALHLEAKTAILAETLLEGGAKIVITGCNPLSTQDDVAAACVEKGMEVYAWRGETNEEYYENLNKVLDSNPDIIIDDGADLIFLIHTERTELIGKIMGGCEETTTGIIRLKSMAEEGALKFPVVNVNDAYTKHLFDNRYGTGQSAMDGIIRTTNLLIAGKNVVVGGYGWCGRGVASRAAGHGANVIITEVNPIRALEAKMDGFTVLKMEEAAKIGDIFVTTTGCKDILRMEHFLLMKDGAVLSNAGHFDNEINKNDLKELSKSVKEARFNIEEYDLGNKKIYLLGEGRLVNLACADGHPCEVMDMSFANQALSAKFIKENKGKLENEVYEIPYEQDFKIALLKLHSMGADIDELSPEQRKYLSDWK SNVKDMSLAPSGHLKMEWAKRHMPVLCRIAEEFKNDKPFEGLTIGMALHLEAKTAILAETLLEGGAKIVITGCNPLSTQDDVAAACVEKGMEVYAWRGETNEEYYENLNKVLDSNPDIIIDDGADLIFLIHTERTELIGKIMGGCEETTTGIIRLKSMAEEGALKFPVVNVNDAYTKHLFDNRYGTGQSAMDGIIRTTNLLIAGKNVVVGGYGWCGRGVASRAAGHGANVIITEVNPIRALEAKMDGFTVLKMEEAAKIGDIFVTTTGCKDILRMEHFLLMKDGAVLSNAGHFDNEINKNDLKELSKSVKEARFNIEEYDLGNKKIYLLGEGRLVNLACADGHPCEVMDMSFANQALSAKFIKENKGKLENEVYEIPYEQDFKIALLKLHSMGADIDELSPEQRKYLSDWK 7r3a-a4-m1-cF_7r3a-a4-m1-cG Crystal structure of S-adenosyl-L-homocysteine hydrolase from Methanococcus maripaludis in complex with inosine Q6LYR8 Q6LYR8 2.53 X-RAY DIFFRACTION 96 1.0 39152 (Methanococcus maripaludis) 39152 (Methanococcus maripaludis) 411 411 7r3a-a2-m1-cB_7r3a-a2-m1-cD SNVKDMSLAPSGHLKMEWAKRHMPVLCRIAEEFKNDKPFEGLTIGMALHLEAKTAILAETLLEGGAKIVITGCNPLSTQDDVAAACVEKGMEVYAWRGETNEEYYENLNKVLDSNPDIIIDDGADLIFLIHTERTELIGKIMGGCEETTTGIIRLKSMAEEGALKFPVVNVNDAYTKHLFDNRYGTGQSAMDGIIRTTNLLIAGKNVVVGGYGWCGRGVASRAAGHGANVIITEVNPIRALEAKMDGFTVLKMEEAAKIGDIFVTTTGCKDILRMEHFLLMKDGAVLSNAGHFDNEINKNDLKELSKSVKEARFNIEEYDLGNKKIYLLGEGRLVNLACADGHPCEVMDMSFANQALSAKFIKENKGKLENEVYEIPYEQDFKIALLKLHSMGADIDELSPEQRKYLSDWK SNVKDMSLAPSGHLKMEWAKRHMPVLCRIAEEFKNDKPFEGLTIGMALHLEAKTAILAETLLEGGAKIVITGCNPLSTQDDVAAACVEKGMEVYAWRGETNEEYYENLNKVLDSNPDIIIDDGADLIFLIHTERTELIGKIMGGCEETTTGIIRLKSMAEEGALKFPVVNVNDAYTKHLFDNRYGTGQSAMDGIIRTTNLLIAGKNVVVGGYGWCGRGVASRAAGHGANVIITEVNPIRALEAKMDGFTVLKMEEAAKIGDIFVTTTGCKDILRMEHFLLMKDGAVLSNAGHFDNEINKNDLKELSKSVKEARFNIEEYDLGNKKIYLLGEGRLVNLACADGHPCEVMDMSFANQALSAKFIKENKGKLENEVYEIPYEQDFKIALLKLHSMGADIDELSPEQRKYLSDWK 7r3g-a1-m1-cA_7r3g-a1-m1-cB PROSS optimitzed variant of RhlR (75 mutations) in complex with the synthetic antagonist mBTL P54292 P54292 2.15 X-RAY DIFFRACTION 129 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 236 236 7r3h-a1-m1-cA_7r3h-a1-m1-cB 7r3h-a2-m1-cC_7r3h-a2-m1-cD 7r3i-a1-m1-cA_7r3i-a1-m1-cB GFLDWWEDLRSEMQSITDSQEVFAVLEKEVRRLGFDYYAYCVRHPIPFTRPRIFMFGNYPPAWQEHYQAQNYFAIDPTIRHCLRSGNHIVWSDDLFADAQELWDDARDYGLRHGATHSCMAPNGVMGFLSVARSSPAISPHEREELRLRMRCLIELLHQTLTELNHPSLQPQPICLSKREREILRWTADGKTSAEIAKILGISESTVNFHLKNIQKKFNAPNKTQAAAYAAALGLI GFLDWWEDLRSEMQSITDSQEVFAVLEKEVRRLGFDYYAYCVRHPIPFTRPRIFMFGNYPPAWQEHYQAQNYFAIDPTIRHCLRSGNHIVWSDDLFADAQELWDDARDYGLRHGATHSCMAPNGVMGFLSVARSSPAISPHEREELRLRMRCLIELLHQTLTELNHPSLQPQPICLSKREREILRWTADGKTSAEIAKILGISESTVNFHLKNIQKKFNAPNKTQAAAYAAALGLI 7r3n-a2-m1-cC_7r3n-a2-m1-cD mouse Interleukin-12 subunit beta - p80 homodimer in space group P21 crystal form 3 P43432 P43432 3.16 X-RAY DIFFRACTION 18 1.0 10090 (Mus musculus) 10090 (Mus musculus) 302 305 6smc-a1-m1-cA_6smc-a1-m1-cC 6smc-a2-m1-cD_6smc-a2-m1-cB 6sp3-a1-m1-cA_6sp3-a1-m1-cB 7pur-a1-m1-cA_7pur-a1-m1-cB 7r3n-a1-m1-cA_7r3n-a1-m1-cB MWELEKDVYVVEVDWTPDAPGETVNLTCDTPEEDDITWTSDQRHGVIGSGKTLTITVKEFLDAGQYTCHKGGETLSHSHLLLHKKENGIWSTEILKNFKNKTFLKCEAPNYSGRFTCSWLVQRNMDLKFNIKSSSSSPDSRAVTCGMASLSAEKVTLDQRDYEKYSVSCQEDVTCPTAEETLPIELALEARQQNKYENYSTSFFIRDIIKPDPPKNLQMKPLKNSQVEVSWEYPDSWSTPHSYFSLKFFVRIQRKGCNQKGAFLVEKTSTEVQCKGGNVCVQAQDRYYNSSCSKWACVPCRV MWELEKDVYVVEVDWTPDAPGETVNLTCDTPEEDDITWTSDQRHGVIGSGKTLTITVKEFLDAGQYTCHKGGETLSHSHLLLHKKENGIWSTEILKNFKNKTFLKCEAPNYSGRFTCSWLVQRNMDLKFNIKSSSSSPDSRAVTCGMASLSAEKVTLDQRDYEKYSVSCQEDVTCPTAEETLPIELALEARQQNKYENYSTSFFIRDIIKPDPPKNLQMKPLKNSQVEVSWEYPDSWSTPHSYFSLKFFVRIQRKKEEGCNQKGAFLVEKTSTEVQCKGGNVCVQAQDRYYNSSCSKWACVPCRV 7r3p-a1-m1-cA_7r3p-a1-m1-cB Apoform of the periplasmic FtrA/P19 protein from Rubrivivax gelatinosus (His-tag) A0A4R2M5S2 A0A4R2M5S2 1.4 X-RAY DIFFRACTION 149 1.0 28068 (Rubrivivax gelatinosus) 28068 (Rubrivivax gelatinosus) 157 157 7r3s-a1-m1-cB_7r3s-a1-m1-cA 7r4u-a1-m1-cA_7r4u-a1-m1-cB 7r4v-a1-m1-cA_7r4v-a1-m1-cB 7r4z-a1-m1-cA_7r4z-a1-m1-cB 7r5e-a1-m1-cA_7r5e-a1-m1-cB 7r5g-a1-m1-cB_7r5g-a1-m1-cA 7r5p-a1-m1-cB_7r5p-a1-m1-cA 7r5p-a2-m1-cC_7r5p-a2-m1-cD 7r5p-a3-m1-cF_7r5p-a3-m1-cE MLEYPIGTPQNLAGMEIAAVYLQPIDMEPEGHMRKASESDIHIEADIHALSNNPNGYPEGFWVPFLFIKYEITKVGGSGAPITGDMMAMVASDGPHYGDNVKLQGPGKYKVKYTIYPPNAKENPMSPYYGRHTDRETGVRPWFKTFSVEWDFTYAGI MLEYPIGTPQNLAGMEIAAVYLQPIDMEPEGHMRKASESDIHIEADIHALSNNPNGYPEGFWVPFLFIKYEITKVGGSGAPITGDMMAMVASDGPHYGDNVKLQGPGKYKVKYTIYPPNAKENPMSPYYGRHTDRETGVRPWFKTFSVEWDFTYAGI 7r40-a1-m1-cB_7r40-a1-m1-cC Structure of the SARS-CoV-2 spike glycoprotein in complex with the 87G7 antibody Fab fragment P0DTC2 P0DTC2 2.9 ELECTRON MICROSCOPY 258 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1053 1053 7r40-a1-m1-cA_7r40-a1-m1-cB 7r40-a1-m1-cA_7r40-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQNLREFVFKNIDGYFKIYSKHTPGFSALEPLVDLPIGINITRFQTLLALHRSPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQNLREFVFKNIDGYFKIYSKHTPGFSALEPLVDLPIGINITRFQTLLALHRSPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7r4b-a2-m1-cF_7r4b-a2-m1-cD The Bacillus pumilus chorismate mutase A8FEK3 A8FEK3 1.1 X-RAY DIFFRACTION 64 1.0 1408 (Bacillus pumilus) 1408 (Bacillus pumilus) 117 118 7r4b-a1-m1-cB_7r4b-a1-m1-cC 7r4b-a1-m1-cB_7r4b-a1-m2-cA 7r4b-a1-m1-cC_7r4b-a1-m2-cA 7r4b-a2-m1-cD_7r4b-a2-m1-cE 7r4b-a2-m1-cF_7r4b-a2-m1-cE MMFRGIRGATTVTEDTETEVLNKTKQLLEAIISRNEVDPERVVQILISATQDIHSVFPAKALRQFEGWTYVPVTCMQELDIHGGLKHCIRVLMTVQTDTKQEDVQHVYLEEAVTLRP MMFRGIRGATTVTEDTETEVLNKTKQLLEAIISRNEVDPERVVQILISATQDIHSVFPAKALRQFEGWTYVPVTCMQELDIHGGLKHCIRVLMTVQTDTKQEDVQHVYLEEAVTLRPD 7r4k-a1-m1-cA_7r4k-a1-m2-cA Crystal structure of human mitochondrial NAD kinase Q4G0N4 Q4G0N4 3.33 X-RAY DIFFRACTION 128 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 326 326 7r4j-a1-m1-cA_7r4j-a1-m2-cA 7r4l-a1-m1-cA_7r4l-a1-m2-cA 7r4m-a1-m1-cA_7r4m-a1-m2-cA GFRPSRVVVVAKTTRYEFEQQGLLERHHIHTKNVEHIIDSLRNEGIEVRLVKRREYDEETVRWADAVIAAGGDGTMLLAASKVLDRLKPVIGVNTDPERSEGHLCLPVRYTHSFPEALQKFYRGEFRWLWRQRIRLYLEGTGINPVPVDLHEASGPQLLPVRALNEVFIGESLSSRASYYEISVDDGPWEKQKSSGLNLCTGTGSKAWSFNINRVATQAVEDVLNIAKRQLPLNRELVEKVTNEYNESLLYSPEEPKILFSIREPIANRVFSSSRQRCFSSKVCVRSRCWDACMVVDGGTSFEFNDGAIASMMINKEDELRTVLLE GFRPSRVVVVAKTTRYEFEQQGLLERHHIHTKNVEHIIDSLRNEGIEVRLVKRREYDEETVRWADAVIAAGGDGTMLLAASKVLDRLKPVIGVNTDPERSEGHLCLPVRYTHSFPEALQKFYRGEFRWLWRQRIRLYLEGTGINPVPVDLHEASGPQLLPVRALNEVFIGESLSSRASYYEISVDDGPWEKQKSSGLNLCTGTGSKAWSFNINRVATQAVEDVLNIAKRQLPLNRELVEKVTNEYNESLLYSPEEPKILFSIREPIANRVFSSSRQRCFSSKVCVRSRCWDACMVVDGGTSFEFNDGAIASMMINKEDELRTVLLE 7r5a-a1-m1-cA_7r5a-a1-m2-cA Vibrio cholera ParD2:ParE2 antitoxin:toxin complex Q9KMJ0 Q9KMJ0 2.95 X-RAY DIFFRACTION 35 1.0 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 243277 (Vibrio cholerae O1 biovar El Tor str. N16961) 94 94 KPFNLTVAAKADLRDIALFTQRRWGKEQRNVYLKQFDDSFWLLAENPDIGKSCDEIREGYRKFPQGSHVIFYQQTGSQQIRVIRILHKSMDVNP KPFNLTVAAKADLRDIALFTQRRWGKEQRNVYLKQFDDSFWLLAENPDIGKSCDEIREGYRKFPQGSHVIFYQQTGSQQIRVIRILHKSMDVNP 7r5y-a3-m1-cC_7r5y-a3-m1-cD Crystal Structure of Prevotella sp. CAG:617 Multiple Inositol Polyphosphate Phosphatase, complex with myo-inositol hexakissulfate R7PD89 R7PD89 1.97 X-RAY DIFFRACTION 78 1.0 1262933 (Prevotella sp. CAG:617) 1262933 (Prevotella sp. CAG:617) 408 413 7r5y-a1-m1-cA_7r5y-a1-m2-cE 7r5y-a2-m1-cB_7r5y-a2-m1-cF QTARDEIIQDPALAAGKYYAYEAPVSDKVSKAPAGYEPFYISAFARHGSRYLTDEEKYAEPVSVLRKADREGYLTTDGKKALQVMERLWKEAENRYGELTAKGAAQHQGLVERMYKHYPQVFVKGAHVDARSTYKTRAFLSMAAACVRLAQLNSGLLITQDASAHDAYYIKYKNKTFEQQHLAQSDSVYRIADSVYVHPARLMKQLFTRNVSAEELGVSPVVLMGELFELDGISQSSYGQEGLSFLFTDDERYDMWQRNNFEWYYEKGASPLSDCCMYHLERNLLENFIMTADTAIASPYRCVTLRYGHDTNLAPLAALMGMNRLQTETTDWQQIADTYRTYRIIPMCGNIQLIFYRRKGSSDILVKPLLNEREVTLPVETDCAPFYHWADVRAYWQKVADSIVLPDS QTARDEIIQDPALAAGKYYAYEAPVSDKVSKAPAGYEPFYISAFARHGSRYLTDEEKYAEPVSVLRKADREGYLTTDGKKALQVMERLWKEAENRYGELTAKGAAQHQGLVERMYKHYPQVFVKGAHVDARSTYKTRAFLSMAAACVRLAQLNSGLLITQDASAHDAYYIKYKNKTFEQQHLAQSDSVYRIADSVYVHPARLMKQLFTRNVSAEELGVSPVVLMGELFELDGISQSSYGQEGLSFLFTDDERYDMWQRNNFEWYYEKGASPLSDCCMYHLERNLLENFIMTADTAIASPYRCVTLRYGHDTNLAPLAALMGMNRLQTETTDWQQIADTYRTYRIIPMCGNIQLIFYRRKGSSDILVKPLLNEREVTLPVETDCAPFYHWADVRAYWQKVADSIVLPDSGMQHD 7r65-a2-m1-cC_7r65-a2-m1-cD Crystal structure of a bacterial cyclic UMP synthase from Burkholderia cepacia LK29 A0A0J5ZXG5 A0A0J5ZXG5 1.45 X-RAY DIFFRACTION 194 1.0 292 (Burkholderia cepacia) 292 (Burkholderia cepacia) 225 225 7r65-a1-m1-cA_7r65-a1-m1-cB SALADDLKKWVGETFTGKWEVQETTSVPNPEDLRLNSNHAKDLKAATVLYADLDGSTDVNTKKWQFSAQIYKTFLKCASDIIRDEGGNITAYDGDRVAVFTGNSKNTSAARCALKINSAVLDIIQPAIAKKWQTDFVLRHVVGIDTSQLRTARIGIRGDNDLVWIGRAANYAAKLTNLAGKPTRITADVYNKLADKLKYANGVDWAPEHWDDGIWTYTSTWKWTV SALADDLKKWVGETFTGKWEVQETTSVPNPEDLRLNSNHAKDLKAATVLYADLDGSTDVNTKKWQFSAQIYKTFLKCASDIIRDEGGNITAYDGDRVAVFTGNSKNTSAARCALKINSAVLDIIQPAIAKKWQTDFVLRHVVGIDTSQLRTARIGIRGDNDLVWIGRAANYAAKLTNLAGKPTRITADVYNKLADKLKYANGVDWAPEHWDDGIWTYTSTWKWTV 7r66-a2-m1-cC_7r66-a2-m1-cD Structure of Pfp1 protease from Thermococcus thioreducens: large unit cell at 1.44 A resolution A0A0Q2XKL6 A0A0Q2XKL6 1.44 X-RAY DIFFRACTION 58 1.0 277988 (Thermococcus thioreducens) 277988 (Thermococcus thioreducens) 165 165 5tw0-a1-m1-cA_5tw0-a1-m1-cB 5txw-a1-m1-cA_5txw-a1-m1-cB 5txw-a2-m1-cC_5txw-a2-m1-cD 7r66-a1-m1-cA_7r66-a1-m1-cB MKVLFLSADGFEDLELICPLHRIKEEGHEVYVASFERGKITGKHGYSVNVDLAFEEVGPDEFDALVLPGGRAPEIVRLNEKAIEITRKMFEAGKPVASIHGPQILISAGVLKGRKGTSTITIRDDVVNAGAEWVNEEVVVDGNWVSSRHPGDLYAWMREFVKLLK MKVLFLSADGFEDLELICPLHRIKEEGHEVYVASFERGKITGKHGYSVNVDLAFEEVGPDEFDALVLPGGRAPEIVRLNEKAIEITRKMFEAGKPVASIHGPQILISAGVLKGRKGTSTITIRDDVVNAGAEWVNEEVVVDGNWVSSRHPGDLYAWMREFVKLLK 7r69-a1-m1-cD_7r69-a1-m1-cB Crystal structure of mutant R43D/C273S of L-Asparaginase I from Yersinia pestis A0A3N4B0Q2 A0A3N4B0Q2 1.8 X-RAY DIFFRACTION 26 1.0 632 (Yersinia pestis) 632 (Yersinia pestis) 303 312 7r69-a1-m1-cC_7r69-a1-m1-cA KSIYVAYTGGTIGMQIPVSGHLQRQLALMPEFHDPEMPDFTIHEYAPLIDSSDMTPEDWQHIANDIQQNYDLYDGFVILHGTDTMAFTASALSFMLENLAKPVIITGSQIPLAELRSDGQTNLLNALYLAANHPVNEVSLFFNNQLFRGNRTTKAHADGFDAFASPNLSVLGPLIVHRITPQPIGVVTIYPGISGAVVRNFLLQPVKALILRSYGVGNAPQKAELLDELKNASDRGIVVVNLTQSISGSVNMNALAQAGVISGFDMTVEAALTKLHYLLSQSLSPNEIRQLMQQNLRGELTDT KKSIYVAYTGGTIGMQRYIPVSGHLQRQLALMPEFHDPEMPDFTIHEYAPLIDSSDMTPEDWQHIANDIQQNYDLYDGFVILHGTDTMAFTASALSFMLENLAKPVIITGSQIPLAELRSDGQTNLLNALYLAANHPVNEVSLFFNNQLFRGNRTTKAHADGFDAFASPNLSVLLEAGGPLIVHRITPQPIGVVTIYPGISGAVVRNFLLQPVKALILRSYGVGNAPQKAELLDELKNASDRGIVVVNLTQSISGSVNMGGNALAQAGVISGFDMTVEAALTKLHYLLSQSLSPNEIRQLMQQNLRGELTDT 7r6u-a1-m1-cA_7r6u-a1-m1-cB Paracoccidioides americana Pb03 Calcium Binding Protein 1 (Cbp1) A0A0A5IIP6 A0A0A5IIP6 1.55 X-RAY DIFFRACTION 116 1.0 482561 (Paracoccidioides brasiliensis Pb03) 482561 (Paracoccidioides brasiliensis Pb03) 72 74 PAVKHALGQFNQVVTMFEKATAAASCNWITCLESLAASSAACAAALGELGLDIPLDLACIASASAQGCEGCF AQPAVKHALGQFNQVVTMFEKATAAASCNWITCLESLAASSAACAAALGELGLDIPLDLACIASASAQGCEGCF 7r6y-a1-m1-cD_7r6y-a1-m1-cC E117K mutant pyruvate kinase from rabbit muscle P11974 P11974 2.25 X-RAY DIFFRACTION 209 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 422 437 1aqf-a2-m1-cE_1aqf-a2-m1-cG FIQTQQLHAAMADTFLEHMCRLDIDSAPITARNTGIICTIGPASRSVETLKEMIKSGMNVARMNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPKDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKAADVHEVRKILGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMIIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAMFHRKLFEELARSSSHSTDLMEAMAMGSVEASYKCLAAALIVLTESGRSAHQVARYRPRAPIIAVTRNHQTARQAHLYRGIFPVVCKDPVQEAWAEDVDLRVNLAMNVGKARGFFKKGDVVIVLTGWRPGSGFTNTMRVVPVP FIQTQQLHAAMADTFLEHMCRLDIDSAPITARNTGIICTIGPASRSVETLKEMIKSGMNVARMNFSHGTHEYHAETIKNVRTATESFASDPILYRPVAVALDTKGPKIRTSKKGVNLPGAAVDLPAVSEKDIQDLKFGVEQDVDMVFASFIRKAADVHEVRKILGEKGKNIKIISKIENHEGVRRFDEILEASDGIMVARGDLGIEIPAEKVFLAQKMIIGRCNRAGKPVICATQMLESMIKKPRPTRAEGSDVANAVLDGADCIMLSGETAKGDYPLEAVRMQHLIAREAEAAMFHRKLFEELARSSSHSTDLMEAMAMGSVEASYKCLAAALIVLTESGRSAHQVARYRPRAPIIAVTRNHQTARQAHLYRGIFPVVCKDPVQEAWAEDVDLRVNLAMNVGKARGFFKKGDVVIVLTGWRPGSGFTNTMRVVPVP 7r79-a2-m1-cD_7r79-a2-m1-cC Histoplasma capsulatum H88 Calcium Binding Protein 1 (Cbp1) F0UVX7 F0UVX7 1.6 X-RAY DIFFRACTION 114 1.0 544711 (Histoplasma capsulatum H88) 544711 (Histoplasma capsulatum H88) 76 77 7r79-a1-m1-cA_7r79-a1-m1-cB PSVGDAFDKYNEAVKVFTQLSSAANCDWPACLSSLSASSAACIAAIGELGLDIPLDLACAATATTSATQACKGCLW QPSVGDAFDKYNEAVKVFTQLSSAANCDWPACLSSLSASSAACIAAIGELGLDIPLDLACAATATTSATQACKGCLW 7r7m-a1-m1-cA_7r7m-a1-m1-cB Crystal structure of Triosephosphate isomerase from Candidate division Katanobacteria (WWE3) bacterium A0A656PMZ5 A0A656PMZ5 2 X-RAY DIFFRACTION 137 1.0 1394710 (candidate division WWE3 bacterium RAAC2_WWE3_1) 1394710 (candidate division WWE3 bacterium RAAC2_WWE3_1) 216 216 MKYIVANWKMNMSLQDVIGWTAGFDTSVLNADIEAIVAPSSLHIFPVAEILKKTGVSVAAQDVSVEEKGAHTGETGAFQIKELCKYAVIGHSERKETPEIVAKKIDICLTNGIIPIVCFVEPKKISLYKRPGIMYAWEDPANISKNGRYKEKSEEEIKEGVNKIREILDDKEPLLYGGSVNGQNISGLVNIEKLDGVLVGHASLDPRHFSGIIASY MKYIVANWKMNMSLQDVIGWTAGFDTSVLNADIEAIVAPSSLHIFPVAEILKKTGVSVAAQDVSVEEKGAHTGETGAFQIKELCKYAVIGHSERKETPEIVAKKIDICLTNGIIPIVCFVEPKKISLYKRPGIMYAWEDPANISKNGRYKEKSEEEIKEGVNKIREILDDKEPLLYGGSVNGQNISGLVNIEKLDGVLVGHASLDPRHFSGIIASY 7r8d-a1-m1-cA_7r8d-a1-m1-cB The structure of human ABCG1 E242Q with cholesterol P45844 P45844 3.2 ELECTRON MICROSCOPY 123 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 545 545 7fdv-a1-m1-cA_7fdv-a1-m1-cD 7oz1-a1-m1-cA_7oz1-a1-m1-cB 7r8c-a1-m1-cA_7r8c-a1-m1-cB 7r8e-a1-m1-cA_7r8e-a1-m1-cB RAAVNIEFRDLSYSVLLKGISGKFNSGELVAIMGPSGAGKSTLMNILAGYRETGMKGAVLINGLPRDLRCFRKVSCYIMQDDMLLPHLTVQEAMMVSAHLKLQEKDEGRREMVKEILTALGLLSCANTRTGSLSGGQRKRLAIALELVNNPPVMFFDQPTSGLDSASCFQVVSLMKGLAQGGRSIICTIHQPSAKLFELFDQLYVLSQGQCVYRGKVCNLVPYLRDLGLNCPTYHNPADFVMEVASGEYGDQNSRLVRAVREGFSASCLTQFCILFKRTFLSIMRDSVLTHLRITSHIGIGLLIGLLYLGIGNEAKKVLSNSGFLFFSMLFLMFAALMPTVLTFPLEMGVFLREHLNYWYSLKAYYLAKTMADVPFQIMFPVAYCSIVYWMTSQPSDAVRFVLFAALGTMTSLVAQSLGLLIGAASTSLQVATFVGPVTAIPVLLFSGFFVSFDTIPTYLQWMSYISYVRYGFEGVILSIYGLDREDLHCDIDETCHFQKSEAILRELDVENAKLYLDFIVLGIFFISLRLIAYFVLRYKIRAER RAAVNIEFRDLSYSVLLKGISGKFNSGELVAIMGPSGAGKSTLMNILAGYRETGMKGAVLINGLPRDLRCFRKVSCYIMQDDMLLPHLTVQEAMMVSAHLKLQEKDEGRREMVKEILTALGLLSCANTRTGSLSGGQRKRLAIALELVNNPPVMFFDQPTSGLDSASCFQVVSLMKGLAQGGRSIICTIHQPSAKLFELFDQLYVLSQGQCVYRGKVCNLVPYLRDLGLNCPTYHNPADFVMEVASGEYGDQNSRLVRAVREGFSASCLTQFCILFKRTFLSIMRDSVLTHLRITSHIGIGLLIGLLYLGIGNEAKKVLSNSGFLFFSMLFLMFAALMPTVLTFPLEMGVFLREHLNYWYSLKAYYLAKTMADVPFQIMFPVAYCSIVYWMTSQPSDAVRFVLFAALGTMTSLVAQSLGLLIGAASTSLQVATFVGPVTAIPVLLFSGFFVSFDTIPTYLQWMSYISYVRYGFEGVILSIYGLDREDLHCDIDETCHFQKSEAILRELDVENAKLYLDFIVLGIFFISLRLIAYFVLRYKIRAER 7r8y-a1-m1-cB_7r8y-a1-m1-cA Ancestral protein AncThEn of Phosphomethylpyrimidine kinases family 3.2 X-RAY DIFFRACTION 92 0.986 32630 (synthetic construct) 32630 (synthetic construct) 210 228 MPVALTIAGSDSGGGAGIQADLKTFSALGVYGMSVITAVTAQVQGVHDIPPELVAAQIDAVFELRVDAVKTGMLSNAEIVEAVAEALRRYGVRPLVVDPVMVLAPDAVEALKERLFPLATIITPNLPEAEVLLGRPIRTEEEMEEAARRLLALGPKAVLLKGGHEEAVDLLADGEGIHGCTLSAAIAAHLARGHDLPEAVREAKAYLTGA HMMPVALTIAGSDSGGGAGIQADLKTFSALGVYGMSVITAVTAQNTLGVQGVHDIPPELVAAQIDAVFEDLRVDAVKTGMLSNAEIVEAVAEALRRYGVRPLVVDPVMVAKSGDPLLAPDAVEALKERLFPLATIITPNLPEAEVLLGRPIRTEEEMEEAARRLLALGPKAVLLKGGAVDLLADGEGIHRFSTGCTLSAAIAAHLARGHDLPEAVREAKAYLTGAIKA 7r8z-a1-m1-cA_7r8z-a1-m2-cA Ancestral protein AncEn of Phosphomethylpyrimidine kinases family 2.3 X-RAY DIFFRACTION 96 1.0 32630 (synthetic construct) 32630 (synthetic construct) 223 223 MKRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSVITALVAQNRGVQSVYQIDPDFVAAQLDSVFSDVRIDSTKIGMLANAAIVEAVAERLRRYRVANVVLDTVMLAKLLAPDAVEALRQRLLPQVSLITPNLPEAAALLDAPPARTEREMREQGRALLAMGCGAVLMKGGHLDDAESPDWLFTREGEQRFTTLSAALAALRPRHADWAATVAEAKDYLSG MKRINALTIAGTDPSGGAGIQADLKTFSALGAYGCSVITALVAQNRGVQSVYQIDPDFVAAQLDSVFSDVRIDSTKIGMLANAAIVEAVAERLRRYRVANVVLDTVMLAKLLAPDAVEALRQRLLPQVSLITPNLPEAAALLDAPPARTEREMREQGRALLAMGCGAVLMKGGHLDDAESPDWLFTREGEQRFTTLSAALAALRPRHADWAATVAEAKDYLSG 7r97-a1-m1-cA_7r97-a1-m1-cB Crystal structure of postcleavge complex of Escherichia coli RNase III P0A7Y0 P0A7Y0 1.804 X-RAY DIFFRACTION 61 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 226 226 MNPIVINRLQRKLGYTFNHQELLQQALTHRSASSKHNARLEFLGDSILSYVIANALYHRFPRVDAGDMSRMRATLVRGNTLAELAREFELGECLRLGPGELKSGGFRRESILADTVEALIGGVFLDSDIQTVEKLILNWYQTRLDEISPGDKQKDPKTRLQEYLAGRHLPLPTYLVVQVRGEAHDQEFTIHCQVSGLSEPVVGTGSSRRKAEQAAAEQALKKLELE MNPIVINRLQRKLGYTFNHQELLQQALTHRSASSKHNARLEFLGDSILSYVIANALYHRFPRVDAGDMSRMRATLVRGNTLAELAREFELGECLRLGPGELKSGGFRRESILADTVEALIGGVFLDSDIQTVEKLILNWYQTRLDEISPGDKQKDPKTRLQEYLAGRHLPLPTYLVVQVRGEAHDQEFTIHCQVSGLSEPVVGTGSSRRKAEQAAAEQALKKLELE 7r9b-a1-m1-cA_7r9b-a1-m2-cA Crystal structure of Triosephosphate isomerase from Candidatus Roizmanbacteria A0A1F7J4N7 A0A1F7J4N7 2.2 X-RAY DIFFRACTION 146 1.0 1752723 (Candidatus Roizmanbacteria) 1752723 (Candidatus Roizmanbacteria) 223 223 MKYIIANWKAHKTLEEASAWVDSVNKQISQTPDVQRKLEDDELIILIAAPFPFLVPLSQKISQKNLAVAAQDVSVYGEGAYTGEVTAKMLKGVTTHVLIGHSERKDYFHETDEVVLKKSEQVLSQGLSPIFCIQNESNKIPEGANIIAYDPKEAIGTGKNVPGEETATFRKKLNLFPDAVFLYGGSVNPESIDEYLSHPEINGFLVGGSSLDPEEFFELVKKL MKYIIANWKAHKTLEEASAWVDSVNKQISQTPDVQRKLEDDELIILIAAPFPFLVPLSQKISQKNLAVAAQDVSVYGEGAYTGEVTAKMLKGVTTHVLIGHSERKDYFHETDEVVLKKSEQVLSQGLSPIFCIQNESNKIPEGANIIAYDPKEAIGTGKNVPGEETATFRKKLNLFPDAVFLYGGSVNPESIDEYLSHPEINGFLVGGSSLDPEEFFELVKKL 7r9g-a1-m1-cA_7r9g-a1-m2-cA Catalytically inactive yeast Pseudouridine Synthase, PUS1, bound to RNA Q12211 Q12211 2.4 X-RAY DIFFRACTION 19 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 386 386 7r9f-a1-m1-cA_7r9f-a1-m2-cA RLPKRKVAVMVGYCGTGYHGMQYNPPNPTIESALFKAFVEAGAISKKKNGFMRAARTAKGVHAGGNLISLKMIIEDPDIKQKINEKLPEGIRVWDIERVNKAFDCRKMCSSRWYEYLLPTYSLIGPKPGSILYRDIEESKTELVLDEDLESKEFWEEFKKDANEKFSTEEIEAILNEELYQKVKKYKQLENAHRRRYRISAAKLAKFRASTSQYLGAHNFHNFTLGKDFKEPSAIRFMKDIKVSDPFVIGDAQTEWISIKIHGQSFMLHQIRKMVSMATLITRCGCPVERISQAYGQQKINIPKAPALGLLLEAPVFEGYNKRLEQFGYKAIDFSKYQDEVDKFKMKHIYDKIYKEEVDENVFNAFFSYIDSFNKSIFEFLTAKGI RLPKRKVAVMVGYCGTGYHGMQYNPPNPTIESALFKAFVEAGAISKKKNGFMRAARTAKGVHAGGNLISLKMIIEDPDIKQKINEKLPEGIRVWDIERVNKAFDCRKMCSSRWYEYLLPTYSLIGPKPGSILYRDIEESKTELVLDEDLESKEFWEEFKKDANEKFSTEEIEAILNEELYQKVKKYKQLENAHRRRYRISAAKLAKFRASTSQYLGAHNFHNFTLGKDFKEPSAIRFMKDIKVSDPFVIGDAQTEWISIKIHGQSFMLHQIRKMVSMATLITRCGCPVERISQAYGQQKINIPKAPALGLLLEAPVFEGYNKRLEQFGYKAIDFSKYQDEVDKFKMKHIYDKIYKEEVDENVFNAFFSYIDSFNKSIFEFLTAKGI 7ra8-a1-m1-cB_7ra8-a1-m1-cE SARS-CoV-2 S glycoprotein in complex with S2X259 Fab P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 263 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 917 917 7ra8-a1-m1-cA_7ra8-a1-m1-cB 7ra8-a1-m1-cA_7ra8-a1-m1-cE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTGWIFSLLIVNVVIKVFEYVSNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVNYNYLYRLFRKSNLKPFERPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHPVLPFNDGVYFASTGWIFSLLIVNVVIKVFEYVSNLREFVFKNIDGYFKIYSKHTPILPQGFSALEPLVDLPIGINITRFQTLYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVNYNYLYRLFRKSNLKPFERPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 7rad-a1-m1-cA_7rad-a1-m2-cB Crystal Structure Analysis of ALDH1B1 P30837 P30837 2.3 X-RAY DIFFRACTION 94 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 493 493 7rad-a1-m1-cB_7rad-a1-m2-cA LPSPILNPDIPYNQLFINNEWQDAVSKKTFPTVNPTTGEVIGHVAEGDRADVDRAVKAAREAFRLGSPWRRMDASERGRLLNRLADLVERDRVYLASLETLDNGKPFQESYALDLDEVIKVYRYFAGWADKWHGKTIPMDGQHFCFTRHEPVGVCGQIIPWNFPLVMQGWKLAPALATGNTVVMKVAEQTPLSALYLASLIKEAGFPPGVVNIITGYGPTAGAAIAQHMDVDKVAFTGSTEVGHLIQKAAGDSNLKRVTLELGGKSPSIVLADADMEHAVEQCHEALFFNMGQCCCAGSRTFVEESIYNEFLERTVEKAKQRKVGNPFELDTQQGPQVDKEQFERVLGYIQLGQKEGAKLLCGGERFGERGFFIKPTVFGGVQDDMRIAKEEIFGPVQPLFKFKKIEEVVERANNTRYGLAAAVFTRDLDKAMYFTQALQAGTVWVNTYNIVTCHTPFGGFKESGNGRELGEDGLKAYTEVKTVTIKVPQKNS LPSPILNPDIPYNQLFINNEWQDAVSKKTFPTVNPTTGEVIGHVAEGDRADVDRAVKAAREAFRLGSPWRRMDASERGRLLNRLADLVERDRVYLASLETLDNGKPFQESYALDLDEVIKVYRYFAGWADKWHGKTIPMDGQHFCFTRHEPVGVCGQIIPWNFPLVMQGWKLAPALATGNTVVMKVAEQTPLSALYLASLIKEAGFPPGVVNIITGYGPTAGAAIAQHMDVDKVAFTGSTEVGHLIQKAAGDSNLKRVTLELGGKSPSIVLADADMEHAVEQCHEALFFNMGQCCCAGSRTFVEESIYNEFLERTVEKAKQRKVGNPFELDTQQGPQVDKEQFERVLGYIQLGQKEGAKLLCGGERFGERGFFIKPTVFGGVQDDMRIAKEEIFGPVQPLFKFKKIEEVVERANNTRYGLAAAVFTRDLDKAMYFTQALQAGTVWVNTYNIVTCHTPFGGFKESGNGRELGEDGLKAYTEVKTVTIKVPQKNS 7rad-a1-m1-cB_7rad-a1-m2-cB Crystal Structure Analysis of ALDH1B1 P30837 P30837 2.3 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 493 493 7rad-a1-m1-cA_7rad-a1-m2-cA LPSPILNPDIPYNQLFINNEWQDAVSKKTFPTVNPTTGEVIGHVAEGDRADVDRAVKAAREAFRLGSPWRRMDASERGRLLNRLADLVERDRVYLASLETLDNGKPFQESYALDLDEVIKVYRYFAGWADKWHGKTIPMDGQHFCFTRHEPVGVCGQIIPWNFPLVMQGWKLAPALATGNTVVMKVAEQTPLSALYLASLIKEAGFPPGVVNIITGYGPTAGAAIAQHMDVDKVAFTGSTEVGHLIQKAAGDSNLKRVTLELGGKSPSIVLADADMEHAVEQCHEALFFNMGQCCCAGSRTFVEESIYNEFLERTVEKAKQRKVGNPFELDTQQGPQVDKEQFERVLGYIQLGQKEGAKLLCGGERFGERGFFIKPTVFGGVQDDMRIAKEEIFGPVQPLFKFKKIEEVVERANNTRYGLAAAVFTRDLDKAMYFTQALQAGTVWVNTYNIVTCHTPFGGFKESGNGRELGEDGLKAYTEVKTVTIKVPQKNS LPSPILNPDIPYNQLFINNEWQDAVSKKTFPTVNPTTGEVIGHVAEGDRADVDRAVKAAREAFRLGSPWRRMDASERGRLLNRLADLVERDRVYLASLETLDNGKPFQESYALDLDEVIKVYRYFAGWADKWHGKTIPMDGQHFCFTRHEPVGVCGQIIPWNFPLVMQGWKLAPALATGNTVVMKVAEQTPLSALYLASLIKEAGFPPGVVNIITGYGPTAGAAIAQHMDVDKVAFTGSTEVGHLIQKAAGDSNLKRVTLELGGKSPSIVLADADMEHAVEQCHEALFFNMGQCCCAGSRTFVEESIYNEFLERTVEKAKQRKVGNPFELDTQQGPQVDKEQFERVLGYIQLGQKEGAKLLCGGERFGERGFFIKPTVFGGVQDDMRIAKEEIFGPVQPLFKFKKIEEVVERANNTRYGLAAAVFTRDLDKAMYFTQALQAGTVWVNTYNIVTCHTPFGGFKESGNGRELGEDGLKAYTEVKTVTIKVPQKNS 7rag-a1-m1-cA_7rag-a1-m2-cA Structure of the CwlD amidase from Clostridioides difficile in complex with the GerS lipoprotein Q180W3 Q180W3 2.4 X-RAY DIFFRACTION 237 1.0 1496 (Clostridioides difficile) 1496 (Clostridioides difficile) 166 166 QKRQSTKEEVYKDFQKQISDNYYSCKAEVEVVGNKSPHNYVLIHTYKKTDNYKLEVISPKHLKGKSIEYQGDKILVKNPKISDVVELPNTGYLFVGDFIKNYLQNEEKVKLSKGHLVLETFIPGDNKYFNKQVLYVNADTKNPEKEVLDKEGVPRFTVKYKDFEYR QKRQSTKEEVYKDFQKQISDNYYSCKAEVEVVGNKSPHNYVLIHTYKKTDNYKLEVISPKHLKGKSIEYQGDKILVKNPKISDVVELPNTGYLFVGDFIKNYLQNEEKVKLSKGHLVLETFIPGDNKYFNKQVLYVNADTKNPEKEVLDKEGVPRFTVKYKDFEYR 7rb0-a1-m1-cE_7rb0-a1-m1-cF Cryo-EM structure of SARS-CoV-2 NSP15 NendoU at pH 7.5 P0DTD1 P0DTD1 2.98 ELECTRON MICROSCOPY 19 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 347 347 7rb0-a1-m1-cA_7rb0-a1-m1-cB 7rb0-a1-m1-cC_7rb0-a1-m1-cD AMSLENVAFNVVNKGHFDGQQGEVPVSIINNTVYTKVDGVDVELFENKTTLPVNVAFELWAKRNIKPVPEVKILNNLGVDIAANTVIWDYKRDAPAHISTIGVCSMTDIAKKPTETICAPLTVFFDGRVDGQVDLFRNARNGVLITEGSVKGLQPSVGPKQASLNGVTLIGEAVKTQFNYYKKVDGVVQQLPETYFTQSRNLQEFKPRSQMEIDFLELAMDEFIERYKLEGYAFEHIVYGDFSHSQLGGLHLLIGLAKRFKESPFELEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVVSKVVKVTIDYTEISFMLWCKDGHVETFYPKL AMSLENVAFNVVNKGHFDGQQGEVPVSIINNTVYTKVDGVDVELFENKTTLPVNVAFELWAKRNIKPVPEVKILNNLGVDIAANTVIWDYKRDAPAHISTIGVCSMTDIAKKPTETICAPLTVFFDGRVDGQVDLFRNARNGVLITEGSVKGLQPSVGPKQASLNGVTLIGEAVKTQFNYYKKVDGVVQQLPETYFTQSRNLQEFKPRSQMEIDFLELAMDEFIERYKLEGYAFEHIVYGDFSHSQLGGLHLLIGLAKRFKESPFELEDFIPMDSTVKNYFITDAQTGSSKCVCSVIDLLLDDFVEIIKSQDLSVVSKVVKVTIDYTEISFMLWCKDGHVETFYPKL 7rbp-a1-m2-cB_7rbp-a1-m1-cA Medicago truncatula D-1-piperideine-2-carboxylic acid reductase B7FJU0 B7FJU0 2.1 X-RAY DIFFRACTION 118 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 265 329 SSPIFISTENLRTILTHQTLINHIQSNLPKASTFLQTPIRQHYNLSPSSSLLLMPSWSSTPSFPYIGVKLVTHFPENSSQNLPGVQGSYVLFNSTTGQTLASMDSTELTLYRTSCVSGLASKYLARDDSEILVMVGAGALAPHLIKAHFSARPIVSCATNALVKGERLKVHLDLVGSMKECDDEALKRGKVFVDNEAALVEAGELVGAFERGVIKEDEIGGNLLELIRGDKVGRSSSEEITVFKSVGSAVVDMLAAQFVYETYTR QITLSSSPIFISTENLRTILTHQTLINHIQSNLPKASTFLQTPIRQHYNLSPSSSLLLMPSWSSTPSFPYIGVKLVTHFPENSSQNLPGVQGSYVLFNSTTGQTLASMDSTELTLYRTSCVSGLASKYLARDDSEILVMVGAGALAPHLIKAHFSARPSLKKVFIWNRTVEKAINLAKKLSESDEFPLSGLSFEGCGNLDEVVGFGDIVSCATNSEAALVKGERLKVGAHLDLVGSFKHSMKECDDEALKRGKVFVDNEAALVEAGELVGAFERGVIKEDEIGGNLLELIRGDKVGRSSSEEITVFKSVGSAVVDMLAAQFVYETYTRT 7rca-a1-m1-cA_7rca-a1-m4-cA Crystal structure of Aro2p chorismate synthase from Candida lusitaniae C4XZV9 C4XZV9 2.26 X-RAY DIFFRACTION 359 1.0 36911 (Clavispora lusitaniae) 36911 (Clavispora lusitaniae) 363 363 7rca-a1-m2-cA_7rca-a1-m3-cA QGMSTFGSVFRVTTYGESHCKSVGCIVDGCPPGLELTEADIQPQLSRRRPNEKDQVQIQSGTEHGKTLGSPIGMMVMNQDSETDLYPRPSHADWTYMQKYGVKSASGGGRSSARETIGRVAAGAIAEKILKKANNVEIVAFVSSIGEVSMDRNPQDAKFQQLLNTITREEVDSVGPIRCPDPEVREQMVKVIEKYRDAKDSIGGVVTCVIRNCPVGLGEPCFDKLEATLAHAMMSLPATKGFEFGSGFAGTRIPGSKHNDPFYFSEEDQRLRTKTNNSGGVQGGISNGENIYFSVAFKSAATISQEQETSTYDGKDGVLAARGRHDPSVTPRAVPIVESMAALVLVDQLLIQKSREYGKSIVA QGMSTFGSVFRVTTYGESHCKSVGCIVDGCPPGLELTEADIQPQLSRRRPNEKDQVQIQSGTEHGKTLGSPIGMMVMNQDSETDLYPRPSHADWTYMQKYGVKSASGGGRSSARETIGRVAAGAIAEKILKKANNVEIVAFVSSIGEVSMDRNPQDAKFQQLLNTITREEVDSVGPIRCPDPEVREQMVKVIEKYRDAKDSIGGVVTCVIRNCPVGLGEPCFDKLEATLAHAMMSLPATKGFEFGSGFAGTRIPGSKHNDPFYFSEEDQRLRTKTNNSGGVQGGISNGENIYFSVAFKSAATISQEQETSTYDGKDGVLAARGRHDPSVTPRAVPIVESMAALVLVDQLLIQKSREYGKSIVA 7rca-a1-m2-cA_7rca-a1-m4-cA Crystal structure of Aro2p chorismate synthase from Candida lusitaniae C4XZV9 C4XZV9 2.26 X-RAY DIFFRACTION 153 1.0 36911 (Clavispora lusitaniae) 36911 (Clavispora lusitaniae) 363 363 7rca-a1-m1-cA_7rca-a1-m3-cA QGMSTFGSVFRVTTYGESHCKSVGCIVDGCPPGLELTEADIQPQLSRRRPNEKDQVQIQSGTEHGKTLGSPIGMMVMNQDSETDLYPRPSHADWTYMQKYGVKSASGGGRSSARETIGRVAAGAIAEKILKKANNVEIVAFVSSIGEVSMDRNPQDAKFQQLLNTITREEVDSVGPIRCPDPEVREQMVKVIEKYRDAKDSIGGVVTCVIRNCPVGLGEPCFDKLEATLAHAMMSLPATKGFEFGSGFAGTRIPGSKHNDPFYFSEEDQRLRTKTNNSGGVQGGISNGENIYFSVAFKSAATISQEQETSTYDGKDGVLAARGRHDPSVTPRAVPIVESMAALVLVDQLLIQKSREYGKSIVA QGMSTFGSVFRVTTYGESHCKSVGCIVDGCPPGLELTEADIQPQLSRRRPNEKDQVQIQSGTEHGKTLGSPIGMMVMNQDSETDLYPRPSHADWTYMQKYGVKSASGGGRSSARETIGRVAAGAIAEKILKKANNVEIVAFVSSIGEVSMDRNPQDAKFQQLLNTITREEVDSVGPIRCPDPEVREQMVKVIEKYRDAKDSIGGVVTCVIRNCPVGLGEPCFDKLEATLAHAMMSLPATKGFEFGSGFAGTRIPGSKHNDPFYFSEEDQRLRTKTNNSGGVQGGISNGENIYFSVAFKSAATISQEQETSTYDGKDGVLAARGRHDPSVTPRAVPIVESMAALVLVDQLLIQKSREYGKSIVA 7rca-a1-m3-cA_7rca-a1-m4-cA Crystal structure of Aro2p chorismate synthase from Candida lusitaniae C4XZV9 C4XZV9 2.26 X-RAY DIFFRACTION 81 1.0 36911 (Clavispora lusitaniae) 36911 (Clavispora lusitaniae) 363 363 7rca-a1-m1-cA_7rca-a1-m2-cA QGMSTFGSVFRVTTYGESHCKSVGCIVDGCPPGLELTEADIQPQLSRRRPNEKDQVQIQSGTEHGKTLGSPIGMMVMNQDSETDLYPRPSHADWTYMQKYGVKSASGGGRSSARETIGRVAAGAIAEKILKKANNVEIVAFVSSIGEVSMDRNPQDAKFQQLLNTITREEVDSVGPIRCPDPEVREQMVKVIEKYRDAKDSIGGVVTCVIRNCPVGLGEPCFDKLEATLAHAMMSLPATKGFEFGSGFAGTRIPGSKHNDPFYFSEEDQRLRTKTNNSGGVQGGISNGENIYFSVAFKSAATISQEQETSTYDGKDGVLAARGRHDPSVTPRAVPIVESMAALVLVDQLLIQKSREYGKSIVA QGMSTFGSVFRVTTYGESHCKSVGCIVDGCPPGLELTEADIQPQLSRRRPNEKDQVQIQSGTEHGKTLGSPIGMMVMNQDSETDLYPRPSHADWTYMQKYGVKSASGGGRSSARETIGRVAAGAIAEKILKKANNVEIVAFVSSIGEVSMDRNPQDAKFQQLLNTITREEVDSVGPIRCPDPEVREQMVKVIEKYRDAKDSIGGVVTCVIRNCPVGLGEPCFDKLEATLAHAMMSLPATKGFEFGSGFAGTRIPGSKHNDPFYFSEEDQRLRTKTNNSGGVQGGISNGENIYFSVAFKSAATISQEQETSTYDGKDGVLAARGRHDPSVTPRAVPIVESMAALVLVDQLLIQKSREYGKSIVA 7rck-a1-m1-cB_7rck-a1-m1-cA Crystal Structure of PMS2 with Substrate P54278 P54278 2.04 X-RAY DIFFRACTION 79 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 287 303 7rcb-a1-m1-cB_7rcb-a1-m1-cA 7rci-a1-m1-cB_7rci-a1-m1-cA VLSLSTAVKELVENSLDAGATNIDLKLKDYGVDLIEVSDNGCGVEEENFEGLTEALSSLCALSDVTISTCHASAKVGTRLMFDHNGKIIQKTPYPRPRGTTVSVQQLFSTLPVRHKEFQRNIKKEYAKMVQVLHAYCIISAGIRVSCTNQLGQGKRQPVVCTGGSPSIKENIGSVFGQKQLQSLIPFVQLPPSDSVCEEYALHNLFYISGFISQCTHGVGRSSTDRQFFFINRRPCDPAKVCRLVNEVYHMYNRHQYPFVVLNISVDSQEEKLLLAVLKTSLIGMFD LSLSTAVKELVENSLDAGATNIDLKLKDYGVDLIEVSDNGCGVEEENFEGLTETFEALSSLCALSDVTISTCHASAKVGTRLMFDHNGKIIQKTPYPRPRGTTVSVQQLFSTLPVRHKEFQRNIKKEYAKMVQVLHAYCIISAGIRVSCTNQLGQGKRQPVVCTGGSPSIKENIGSVFGQKQLQSLIPFVQLPPSDSVCEEYGLSCSDALHNLFYISGFISQCTHGVGRSSTDRQFFFINRRPCDPAKVCRLVNEVYHMYNRHQYPFVVLNISVDSECVDQILLQEEKLLLAVLKTSLIGMFD 7rcq-a1-m1-cA_7rcq-a1-m2-cA Crystal structure of triosephosphate isomerase from Ktedonobacter racemifer D6TR79 D6TR79 1.7 X-RAY DIFFRACTION 143 1.0 363277 (Ktedonobacter racemifer) 363277 (Ktedonobacter racemifer) 251 251 GRTAIIAGNWKMNYGPREAAKFVQEIQPALSEALQAPGSPLCILCPPAISLAAVRAVLDIQIELGAQNMYFEEKGAFTGEISPNMVHELCTTVILGHSERRTYFGETDELVNKKTLAALRHELRPIVCIGENEQQHESGETAHIITTQVRASLANLTSEQAREIVIAYEPIWAIGTGKAATGEIANNVIRQIRQEYQAIYGAEAASVVRILYGGSVTSDNIAEFMAYPDIDGALVGGASLKPDFINIVRNS GRTAIIAGNWKMNYGPREAAKFVQEIQPALSEALQAPGSPLCILCPPAISLAAVRAVLDIQIELGAQNMYFEEKGAFTGEISPNMVHELCTTVILGHSERRTYFGETDELVNKKTLAALRHELRPIVCIGENEQQHESGETAHIITTQVRASLANLTSEQAREIVIAYEPIWAIGTGKAATGEIANNVIRQIRQEYQAIYGAEAASVVRILYGGSVTSDNIAEFMAYPDIDGALVGGASLKPDFINIVRNS 7rcu-a1-m1-cQ_7rcu-a1-m1-cS Synthetic Max homodimer mimic in complex with DNA P61244 P61244 2.69 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 17 19 7rcu-a2-m1-cR_7rcu-a2-m1-cV 7rcu-a3-m1-cT_7rcu-a3-m1-cW 7rcu-a4-m1-cU_7rcu-a4-m1-cX SRAQILCKATEYIQYMR SRAQILCKATEYIQYMRRK 7rcv-a1-m1-cM_7rcv-a1-m1-cm High-resolution structure of photosystem II from the mesophilic cyanobacterium, Synechocystis sp. PCC 6803 P72701 P72701 2.01 ELECTRON MICROSCOPY 32 1.0 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 1111708 (Synechocystis sp. PCC 6803 substr. Kazusa) 30 30 7n8o-a1-m1-cM_7n8o-a1-m1-cm QVNNLGFIASILFVLVPTVFLLILFIQTGK QVNNLGFIASILFVLVPTVFLLILFIQTGK 7rcz-a1-m1-cB_7rcz-a1-m1-cA Crystal structure of C. difficile SpoVD in complex with ampicillin Q182Z0 Q182Z0 2.2 X-RAY DIFFRACTION 58 0.998 645463 (Clostridioides difficile R20291) 645463 (Clostridioides difficile R20291) 503 511 IEPKRGTIYDRNMKELAVSVTKYTVWCKPVEVEDKKEAAEKVAEILDEDYKDIYALISKKNMALVKVKRWIDDDKASQIRDAKLSGIWVAEDNQRYYPYGNFAPYVLGHTSSDATGISGVEMQYDKKLKGKPPVQGNGLVLSIDEVIQHYTEKAVQKAYELNNAKKVTAIAMNPKTGDILALASKPDYDPNDSRTPIYPYYQEELEKYNDKDKIKGYYQMWRNPAVSDTYEPGSTFKLITSSSALEEGVIKDGEKFTCTGSVTVGGRKIKCWRHYRPHGTQEFKQAVQNSCNPVFVELGSRLGVGKMYDYIESFGLMDKTGIDLPGEAKGINVGPVELATISFGQSISVTPIQLITAISSIANGGDLMQPRVVKSYTDNKGNITETVKPKKVRSVISKETSKKMLEIAESVVTEGGGKIAYIPGYRLGGKTGTAQKVIDGKYAPGKYICSFVGIAPCDDPQIVVLAIVDEPTGVSAFGSTTAGPIVKEIMNDSLKYLGVKPVY EPKRGTIYDRNMKELAVSVTKYTVWCKPVEVEDKKEAAEKVAEILDEDYKDIYALISKKNMALVKVKRWIDDDKASQIRDAKLSGIWVAEDNQRYYPYGNFAPYVLGHTSSDATGISGVEMQYDKKLKGKPGKLEPVQGNGLVLSIDEVIQHYTEKAVQKAYELNNAKKVTAIAMNPKTGDILALASKPDYDPNDSRTPIYPYYQEELEKYNDKDKIKGYYQMWRNPAVSDTYEPGSTFKLITSSSALEEGVIKDGEKFTCTGSVTVGGRKIKCWRHYRPHGTQEFKQAVQNSCNPVFVELGSRLGVGKMYDYIESFGLMDKTGIDLPGEAKGILYNEKNVGPVELATISFGQSISVTPIQLITAISSIANGGDLMQPRVVKSYTDNKGNITETVKPKKVRSVISKETSKKMLEIAESVVTEGGGKIAYIPGYRLGGKTGTAQKVIDGKYAPGKYICSFVGIAPCDDPQIVVLAIVDEPTGVSAFGSTTAGPIVKEIMNDSLKYLGVKPVY 7rdr-a1-m1-cB_7rdr-a1-m1-cC Circular tandem repeat protein with novel repeat topology and enhanced subunit contact surfaces 6.5 ELECTRON MICROSCOPY 67 1.0 32644 (unidentified) 32644 (unidentified) 456 456 7rdr-a1-m1-cA_7rdr-a1-m1-cB 7rdr-a1-m1-cA_7rdr-a1-m1-cC SELAARCLIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELACRILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGN SELAARCLIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELAARILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGNSELACRILIILFQQLVELARLAIESGDEELLRRVSEWLEEVIKDMRRVVEQALREGN 7re0-a1-m1-cE_7re0-a1-m1-cF SARS-CoV-2 replication-transcription complex bound to nsp13 helicase - nsp13(2)-RTC - swiveled class P0DTD1 P0DTD1 3.5 ELECTRON MICROSCOPY 15 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 590 590 AVGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPARARVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSL AVGACVLCNSQTSLRCGACIRRPFLCCKCCYDHVISTSHKLVLSVNPYVCNAPGCDVTDVTQLYLGGMSYYCKSHKPPISFPLCANGQVFGLYKNTCVGSDNVTDFNAIATCDWTNAGDYILANTCTERLKLFAAETLKATEETFKLSYGIATVREVLSDRELHLSWEVGKPRPPLNRNYVFTGYRVTKNSKVQIGEYTFEKGDYGDAVVYRGTTTYKLNVGDYFVLTSHTVMPLSAPTLVPQEHYVRITGLYPTLNISDEFSSNVANYQKVGMQKYSTLQGPPGTGKSHFAIGLALYYPSARIVYTACSHAAVDALCEKALKYLPIDKCSRIIPARARVECFDKFKVNSTLEQYVFCTVNALPETTADIVVFDEISMATNYDLSVVNARLRAKHYVYIGDPAQLPAPRTLLTKGTLEPEYFNSVCRLMKTIGPDMFLGTCRRCPAEIVDTVSALVYDNKLKAHKDKSAQCFKMFYKGVITHDVSSAINRPQIGVVREFLTRNPAWRKAVFISPYNSQNAVASKILGLPTQTVDSSQGSEYDYVIFTQTTETAHSCNVNRFNVAITRAKVGILCIMSDRDLYDKLQFTSL 7re3-a1-m1-cA_7re3-a1-m1-cG SARS-CoV-2 replication-transcription complex bound to nsp13 helicase - nsp13(2)-RTC dimer P0DTD1 P0DTD1 3.33 ELECTRON MICROSCOPY 28 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 927 927 DAQSFLNRVCGVSAARLTPCGTGTSTDVVYRAFDIYNDKVAGFAKFLKTNCCRFQEKDEDDNLIDSYFVVKRHTFSNYQHEETIYNLLKDCPAVAKHDFFKFRIDGDMVPHISRQRLTKYTMADLVYALRHFDEGNCDTLKEILVTYNCCDDDYFNKKDWYDFVENPDILRVYANLGERVRQALLKTVQFCDAMRNAGIVGVLTLDNQDLNGNWYDFGDFIQTTPGSGVPVVDSYYSLLMPILTLTRALTAESHVDTDLTKPYIKWDLLKYDFTEERLKLFDRYFKYWDQTYHPNCVNCLDDRCILHCANFNVLFSTVFPPTSFGPLVRKIFVDGVPFVVSTGYHFRELGVVHNQDVNLHSSRLSFKELLVYAADPAMHAASGNLLLDKRTTCFSVAALTNNVAFQTVKPGNFNKDFYDFAVSKGFFKEGSSVELKHFFFAQDGNAAISDYDYYRYNLPTMCDIRQLLFVVEVVDKYFDCYDGGCINANQVIVNNLDKSAGFPFNKWGKARLYYDSMSYEDQDALFAYTKRNVIPTITQMNLKYAISAKNRARTVAGVSICSTMTNRQFHQKLLKSIAATRGATVVIGTSKFYGGWHNMLKTVYSDVENPHLMGWDYPKCDRAMPNMLRIMASLVLARKHTTCCSLSHRFYRLANECAQVLSEMVMCGGSLYVKPGGTSSGDATTAYANSVFNICQAVTANVNALLSTDGNKIADKYVRNLQHRLYECLYRNRDVDTDFVNEFYAYLRKHFSMMILSDDAVVCFNSTYASQGLVASIKNFKSVLYYQNNVFMSEAKCWTETDLTKGPHEFCSQHTMLVKQGDDYVYLPYPDPSRILGAGCFVDDIVKTDGTLMIERFVSLAIDAYPLTKHPNQEYADVFHLYLQYIRKLHDELTGHMLDMYSVMLTNDNTSRYWEPEFYEAMYTPHT DAQSFLNRVCGVSAARLTPCGTGTSTDVVYRAFDIYNDKVAGFAKFLKTNCCRFQEKDEDDNLIDSYFVVKRHTFSNYQHEETIYNLLKDCPAVAKHDFFKFRIDGDMVPHISRQRLTKYTMADLVYALRHFDEGNCDTLKEILVTYNCCDDDYFNKKDWYDFVENPDILRVYANLGERVRQALLKTVQFCDAMRNAGIVGVLTLDNQDLNGNWYDFGDFIQTTPGSGVPVVDSYYSLLMPILTLTRALTAESHVDTDLTKPYIKWDLLKYDFTEERLKLFDRYFKYWDQTYHPNCVNCLDDRCILHCANFNVLFSTVFPPTSFGPLVRKIFVDGVPFVVSTGYHFRELGVVHNQDVNLHSSRLSFKELLVYAADPAMHAASGNLLLDKRTTCFSVAALTNNVAFQTVKPGNFNKDFYDFAVSKGFFKEGSSVELKHFFFAQDGNAAISDYDYYRYNLPTMCDIRQLLFVVEVVDKYFDCYDGGCINANQVIVNNLDKSAGFPFNKWGKARLYYDSMSYEDQDALFAYTKRNVIPTITQMNLKYAISAKNRARTVAGVSICSTMTNRQFHQKLLKSIAATRGATVVIGTSKFYGGWHNMLKTVYSDVENPHLMGWDYPKCDRAMPNMLRIMASLVLARKHTTCCSLSHRFYRLANECAQVLSEMVMCGGSLYVKPGGTSSGDATTAYANSVFNICQAVTANVNALLSTDGNKIADKYVRNLQHRLYECLYRNRDVDTDFVNEFYAYLRKHFSMMILSDDAVVCFNSTYASQGLVASIKNFKSVLYYQNNVFMSEAKCWTETDLTKGPHEFCSQHTMLVKQGDDYVYLPYPDPSRILGAGCFVDDIVKTDGTLMIERFVSLAIDAYPLTKHPNQEYADVFHLYLQYIRKLHDELTGHMLDMYSVMLTNDNTSRYWEPEFYEAMYTPHT 7re5-a1-m1-cE_7re5-a1-m1-cA Crystal Structure of The Tetramerization Domain (29-147) From Human Voltage-gated Potassium Channel Kv2.1 in P 41 21 2 Space Group Q14721 Q14721 2.5 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 108 7re5-a1-m1-cA_7re5-a1-m1-cB 7re5-a1-m1-cC_7re5-a1-m1-cB 7re5-a1-m1-cC_7re5-a1-m1-cD 7re5-a1-m1-cE_7re5-a1-m1-cD 7spd-a1-m1-cB_7spd-a1-m1-cA 7spd-a1-m1-cB_7spd-a1-m1-cC 7spd-a1-m1-cC_7spd-a1-m1-cD 7spd-a1-m1-cE_7spd-a1-m1-cA 7spd-a1-m1-cE_7spd-a1-m1-cD HMCSRRVRLNVGGLAHEVLWRTLDRLPRTRLGKLRDCNTHDSLLEVCDDYSLDDNEYFFDRHPGAFTSILNFYRTGRLHMMEEMCALSFSQELDYWGIDEIYLESCC SHMCSRRVRLNVGGLAHEVLWRTLDRLPRTRLGKLRDCNTHDSLLEVCDDYSLDDNEYFFDRHPGAFTSILNFYRTGRLHMMEEMCALSFSQELDYWGIDEIYLESCC 7reg-a1-m1-cA_7reg-a1-m1-cB DfrA1 complexed with NADPH and 4'-chloro-3'-(4-(2,4-diamino-6-ethylpyrimidin-5-yl)but-3-yn-2-yl)-[1,1'-biphenyl]-4-carboxamide (UCP1228) P00382 P00382 1.77 X-RAY DIFFRACTION 59 1.0 562 (Escherichia coli) 562 (Escherichia coli) 156 157 5ecc-a1-m1-cA_5ecc-a1-m1-cB 5ecc-a2-m1-cA_5ecc-a2-m1-cB 5ecc-a2-m2-cA_5ecc-a2-m2-cB 5ecx-a1-m1-cA_5ecx-a1-m1-cB 7myl-a1-m2-cD_7myl-a1-m1-cA 7myl-a2-m1-cC_7myl-a2-m1-cB 7myl-a3-m1-cE_7myl-a3-m1-cF 7rgj-a1-m1-cA_7rgj-a1-m1-cB MKLSLMVAISKNGVIGNGPDIPWSAKGEQLLFKAITYNQWLLVGRKTFESMGALPNRKYAVVTRSFTSDNENVLIFPSIKDALTNLKKITDHVIVSGGGEIYKSLIDQVDTLHISTIDIEPEGDVYFPEIPSNFRPVFTQDFASNINYSYQIWQKG MKLSLMVAISKNGVIGNGPDIPWSAKGEQLLFKAITYNQWLLVGRKTFESMGALPNRKYAVVTRSSFTSDNENVLIFPSIKDALTNLKKITDHVIVSGGGEIYKSLIDQVDTLHISTIDIEPEGDVYFPEIPSNFRPVFTQDFASNINYSYQIWQKG 7reu-a1-m1-cA_7reu-a1-m1-cB Crystal structure of Aro4p, 3-deoxy-D-arabino-heptulosonate-7-phosphate (DAHP) synthase from Candida auris, L-Tyr complex A0A2H0ZNV2 A0A2H0ZNV2 2.79 X-RAY DIFFRACTION 191 0.991 498019 ([Candida] auris) 498019 ([Candida] auris) 348 358 PIPEEYDDTRIMGYDPLIPPALLQNEIKASKKSLETVIKGRVDASRIIGGKDDRCLVIVGPCSIHDPEAALEYANRLKKISEELENDLVIIMRAYLEKGWKGLINDPNVDNSFDINKGLRVSRKLYADLTGAVGIPIGSEMLDTISPQYFSDLLSFGAVGARTTESQLHRELASGLSFPIGFKNGTDGNVGVALDAVQASSKGHHFMGVTKNGLAAITTTKGNDHCFIILRGGKNLTNYDLQSVQSAKSAIAKSSNPNIKIMIDCSHDNSKKDYRNQPAVLEDVSRQIEAGENALMGVMIESNINEGKQSMALKYGVSITDSCVSWDTTVKMLNNLARAVQKRRQKNG EEYDDTRIMGYDPLIPPALLQNEIKASKKSLETVIKGRVDASRIIGGKDDRCLVIVGPCSIHDPEAALEYANRLKKISEELENDLVIIMRAYLEKPRTTVGWKGLINDPNVDNSFDINKGLRVSRKLYADLTGAVGIPIGSEMLDTISPQYFSDLLSFGAVGARTTESQLHRELASGLSFPIGFKNGTDGNVGVALDAVQASSKGHHFMGVTKNGLAAITTTKGNDHCFIILRGGKNLTNYDLQSVQSAKSAIAKSSNPNIKIMIDCSHDNSKKDYRNQPAVLEDVSRQIEAGENALMGVMIESNINEGKQSMPSGNEGKSALKYGVSITDSCVSWDTTVKMLNNLARAVQKRRQKNG 7rf2-a1-m1-cm_7rf2-a1-m1-cM RT XFEL structure of dark-stable state of Photosystem II (0F, S1 rich) at 2.08 Angstrom Q8DHA7 Q8DHA7 2.08 X-RAY DIFFRACTION 35 1.0 197221 (Thermosynechococcus vestitus BP-1) 197221 (Thermosynechococcus vestitus BP-1) 31 32 2axt-a1-m1-cM_2axt-a1-m1-cm 3a0b-a1-m1-cM_3a0b-a1-m1-cm 3a0h-a1-m1-cM_3a0h-a1-m1-cm 3wu2-a1-m1-cM_3wu2-a1-m1-cm 4fby-a1-m1-cM_4fby-a1-m1-ce 4il6-a1-m1-cM_4il6-a1-m1-cm 4ixq-a1-m1-cM_4ixq-a1-m1-cm 4ixr-a1-m1-cM_4ixr-a1-m1-cm 4pbu-a1-m1-cM_4pbu-a1-m1-cm 4pj0-a1-m1-cM_4pj0-a1-m1-cm 4rvy-a1-m1-cM_4rvy-a1-m1-cm 4tnh-a1-m1-cM_4tnh-a1-m1-cm 4tni-a1-m1-cM_4tni-a1-m1-cm 4tnj-a1-m1-cM_4tnj-a1-m1-cm 4tnk-a1-m1-cM_4tnk-a1-m1-cm 4v82-a1-m1-cAM_4v82-a1-m1-cBM 5b5e-a1-m1-cM_5b5e-a1-m1-cm 5b66-a1-m1-cM_5b66-a1-m1-cm 5e79-a1-m1-cM_5e79-a1-m1-cm 5e7c-a1-m1-cM_5e7c-a1-m1-cm 5kaf-a1-m1-cM_5kaf-a1-m1-cm 5kai-a1-m1-cM_5kai-a1-m1-cm 5tis-a1-m1-cM_5tis-a1-m1-cm 5v2c-a1-m1-cM_5v2c-a1-m1-cm 6dhe-a1-m1-cm_6dhe-a1-m1-cM 6dhf-a1-m1-cm_6dhf-a1-m1-cM 6dhg-a1-m1-cm_6dhg-a1-m1-cM 6dhh-a1-m1-cm_6dhh-a1-m1-cM 6dho-a1-m1-cm_6dho-a1-m1-cM 6dhp-a1-m1-cm_6dhp-a1-m1-cM 6jlj-a1-m1-cM_6jlj-a1-m1-cm 6jlk-a1-m1-cM_6jlk-a1-m1-cm 6jll-a1-m1-cM_6jll-a1-m1-cm 6jlm-a1-m1-cM_6jlm-a1-m1-cm 6jln-a1-m1-cM_6jln-a1-m1-cm 6jlo-a1-m1-cM_6jlo-a1-m1-cm 6jlp-a1-m1-cM_6jlp-a1-m1-cm 6w1o-a1-m1-cm_6w1o-a1-m1-cM 6w1p-a1-m1-cm_6w1p-a1-m1-cM 6w1q-a1-m1-cm_6w1q-a1-m1-cM 6w1r-a1-m1-cm_6w1r-a1-m1-cM 6w1t-a1-m1-cm_6w1t-a1-m1-cM 6w1u-a1-m1-cm_6w1u-a1-m1-cM 6w1v-a1-m1-cm_6w1v-a1-m1-cM 7cji-a1-m1-cM_7cji-a1-m1-cm 7cjj-a1-m1-cM_7cjj-a1-m1-cm 7cou-a1-m1-cM_7cou-a1-m1-cm 7czl-a1-m1-cM_7czl-a1-m1-cm 7d1t-a1-m1-cM_7d1t-a1-m1-cm 7d1u-a1-m1-cM_7d1u-a1-m1-cm 7rf1-a1-m1-cm_7rf1-a1-m1-cM 7rf3-a1-m1-cm_7rf3-a1-m1-cM 7rf4-a1-m1-cm_7rf4-a1-m1-cM 7rf5-a1-m1-cm_7rf5-a1-m1-cM 7rf6-a1-m1-cm_7rf6-a1-m1-cM 7rf7-a1-m1-cm_7rf7-a1-m1-cM 7rf8-a1-m1-cm_7rf8-a1-m1-cM 7yq2-a1-m1-cM_7yq2-a1-m1-cm 7yq7-a1-m1-cM_7yq7-a1-m1-cm 8ez5-a1-m1-cm_8ez5-a1-m1-cM 8f4c-a1-m1-cm_8f4c-a1-m1-cM 8f4d-a1-m1-cm_8f4d-a1-m1-cM 8f4e-a1-m1-cm_8f4e-a1-m1-cM 8f4f-a1-m1-cm_8f4f-a1-m1-cM 8f4g-a1-m1-cm_8f4g-a1-m1-cM 8f4h-a1-m1-cm_8f4h-a1-m1-cM 8f4i-a1-m1-cm_8f4i-a1-m1-cM 8f4j-a1-m1-cm_8f4j-a1-m1-cM 8f4k-a1-m1-cm_8f4k-a1-m1-cM EVNQLGLIATALFVLVPSVFLIILYVQTESQ EVNQLGLIATALFVLVPSVFLIILYVQTESQQ 7rf9-a2-m1-cD_7rf9-a2-m1-cC O2-, PLP-dependent desaturase Plu4 intermediate-bound enzyme A0A0C1MLE8 A0A0C1MLE8 1.926 X-RAY DIFFRACTION 127 1.0 43657 (Pseudoalteromonas luteoviolacea) 43657 (Pseudoalteromonas luteoviolacea) 375 376 7n79-a1-m1-cA_7n79-a1-m1-cB 7rf9-a1-m1-cA_7rf9-a1-m1-cB 7rgb-a1-m1-cB_7rgb-a1-m1-cA 7rgb-a2-m1-cD_7rgb-a2-m1-cC YDSLTEVEVEGLSYLYNFADGHAYHDINEHYVDIINNLQRYWQEGKDHSIPDMEKAFKNQFAELIDSSTLHSTNHFSVCPTASNSIDIVAAWLHKENKRTALIEPAFDNLYLLLKRRGVDISAFDELALKNEHQLAQIVSSGDIDALFLVNPNNPTGLEMTESEFVYLVEQCKAHNITILLDRTFRIYGKTNFDDYQILEQSGIDYVVIEDTGKTWPTQDLKISLMVYSEAISSTMRLLYEEIFLCSSNFALALLKQFVAVTAKFGVDATIKNEVRRRSETINDALAGTGLKVFDNDEKCQLPLCWIDISATGYDDVSFAARLKEHDIAVLPGRFFYWNSKSQHTQFIRVSLMKPDAEFYEGIGKLKEAVTRILE RYDSLTEVEVEGLSYLYNFADGHAYHDINEHYVDIINNLQRYWQEGKDHSIPDMEKAFKNQFAELIDSSTLHSTNHFSVCPTASNSIDIVAAWLHKENKRTALIEPAFDNLYLLLKRRGVDISAFDELALKNEHQLAQIVSSGDIDALFLVNPNNPTGLEMTESEFVYLVEQCKAHNITILLDRTFRIYGKTNFDDYQILEQSGIDYVVIEDTGKTWPTQDLKISLMVYSEAISSTMRLLYEEIFLCSSNFALALLKQFVAVTAKFGVDATIKNEVRRRSETINDALAGTGLKVFDNDEKCQLPLCWIDISATGYDDVSFAARLKEHDIAVLPGRFFYWNSKSQHTQFIRVSLMKPDAEFYEGIGKLKEAVTRILE 7rfp-a1-m1-cA_7rfp-a1-m1-cB Mouse GITR (mGITR) with DTA-1 Fab fragment A0A7G8ZY66 A0A7G8ZY66 4.4 ELECTRON MICROSCOPY 66 1.0 524650 (Muromegalovirus G4) 524650 (Muromegalovirus G4) 118 118 CGPGKVQNGSGNNTRCCSLYAPGKEDCPKERCICVTPEYHCGDPQCKICKHYPCQPGQRVESQGDIVFGFRCVACAMGTFSAGRDGHCRLWTNCSQFGFLTMFPGNKTHNAVCIPEPL CGPGKVQNGSGNNTRCCSLYAPGKEDCPKERCICVTPEYHCGDPQCKICKHYPCQPGQRVESQGDIVFGFRCVACAMGTFSAGRDGHCRLWTNCSQFGFLTMFPGNKTHNAVCIPEPL 7rga-a1-m1-cA_7rga-a1-m1-cC Crystal structure of nanoCLAMP3:VHH in complex with MTX P26831 P26831 2.9 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 265 265 NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS 7rga-a1-m1-cB_7rga-a1-m1-cF Crystal structure of nanoCLAMP3:VHH in complex with MTX P26831 P26831 2.9 X-RAY DIFFRACTION 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 265 265 NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS 7rga-a1-m1-cB_7rga-a1-m1-cG Crystal structure of nanoCLAMP3:VHH in complex with MTX P26831 P26831 2.9 X-RAY DIFFRACTION 21 1.0 32630 (synthetic construct) 32630 (synthetic construct) 265 265 7rga-a1-m1-cA_7rga-a1-m1-cD 7rga-a1-m1-cA_7rga-a1-m1-cE NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS 7rga-a1-m1-cG_7rga-a1-m1-cE Crystal structure of nanoCLAMP3:VHH in complex with MTX P26831 P26831 2.9 X-RAY DIFFRACTION 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 265 270 7rga-a1-m1-cA_7rga-a1-m1-cB NPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS HHHHSNPSLIRSESWHVYDGNEANLLDGDDNTGVWYKRSNGEASLAGEFIGLDLGKEIKLDGIRFVIGKNGGGSSDKWNKFKLEYSLDNESWTTIKEYDKTGAPAGKDVIEESFETPISAKYIRLTNLEPRHVQLTFSEFAIVSDSQVQLVESGGGLVQAGGSLRLSCAASRRSSRSWAMAWFRQAPGKEREFVAKISGDGRLTTYGDSVKGRFTISRDNAEYLVYLQMDSLKPEDTAVYYCAADDNYVTASWRSGPDYWGQGTQVTVSS 7rgc-a1-m1-cA_7rgc-a1-m4-cA Crystal structure of triosephosphate isomerase from Candidatus Absconditabacteria (Sr1) bacterium A0A288DKP7 A0A288DKP7 2.09 X-RAY DIFFRACTION 129 1.0 1394709 (candidate division SR1 bacterium RAAC1_SR1_1) 1394709 (candidate division SR1 bacterium RAAC1_SR1_1) 238 238 7rgc-a1-m2-cB_7rgc-a1-m3-cB SHMKYLIGANFKMYKSHKDLQEYFDQFVNNYACFVNIDLMIAPMTVCLGTASEMTKDSCVHLGAQNMHYEDQGAYTGETSPLILKELGAEYVIIGHSERRQYFGETNQMINKKLKSALQHGIRPILCIGENLEQKELGISKETLKIQLREALQGIDTLDQIDVAYEPVRAITPEEVQDIHEYIRSVLGNEKSRIIYGGSVNDTNADILIAQPAVNGFLIGSASLDPQKFLKILDVVSK SHMKYLIGANFKMYKSHKDLQEYFDQFVNNYACFVNIDLMIAPMTVCLGTASEMTKDSCVHLGAQNMHYEDQGAYTGETSPLILKELGAEYVIIGHSERRQYFGETNQMINKKLKSALQHGIRPILCIGENLEQKELGISKETLKIQLREALQGIDTLDQIDVAYEPVRAITPEEVQDIHEYIRSVLGNEKSRIIYGGSVNDTNADILIAQPAVNGFLIGSASLDPQKFLKILDVVSK 7rgc-a1-m4-cA_7rgc-a1-m2-cB Crystal structure of triosephosphate isomerase from Candidatus Absconditabacteria (Sr1) bacterium A0A288DKP7 A0A288DKP7 2.09 X-RAY DIFFRACTION 28 0.992 1394709 (candidate division SR1 bacterium RAAC1_SR1_1) 1394709 (candidate division SR1 bacterium RAAC1_SR1_1) 238 242 7rgc-a1-m1-cA_7rgc-a1-m3-cB SHMKYLIGANFKMYKSHKDLQEYFDQFVNNYACFVNIDLMIAPMTVCLGTASEMTKDSCVHLGAQNMHYEDQGAYTGETSPLILKELGAEYVIIGHSERRQYFGETNQMINKKLKSALQHGIRPILCIGENLEQKELGISKETLKIQLREALQGIDTLDQIDVAYEPVRAITPEEVQDIHEYIRSVLGNEKSRIIYGGSVNDTNADILIAQPAVNGFLIGSASLDPQKFLKILDVVSK MKYLIGANFKMYKSHKDLQEYFDQFVNNYACFVNIDLMIAPMTVCLGTASEMTKDSCVHLGAQNMHYEDQGAYTGETSPLILKELGAEYVIIGHSERRQYFGETNQMINKKLKSALQHGIRPILCIGENLEQKELGISKETLKIQLREALQGIDTLDQIDVAYEPVRAIGTGKSATPEEVQDIHEYIRSVLGNEKSRIIYGGSVNDTNADILIAQPAVNGFLIGSASLDPQKFLKILDVVSK 7rgf-a1-m1-cA_7rgf-a1-m1-cB Protocadherin gammaC4 EC1-4 crystal structure disrupted trans interface Q91XX0 Q91XX0 2.4 X-RAY DIFFRACTION 84 1.0 10090 (Mus musculus) 10090 (Mus musculus) 418 418 7jgz-a1-m1-cA_7jgz-a1-m2-cA QIRYPVPEESQEGTFVGNVAQDFLLDTESLSARRLQVAGEVNQRHFRVDLDSGALLIKNPIDREALCGLSASCIVPLEFVTEGPLEMYRAEVEIVDVNDHAPRFPRQQLDLEIGEAAPPGQRFPLEKAQDADVGSNSISSYRLSSNEHFALDVKKRSDGSLVPELLLEKPLDREKQSDYRLVLTAVDGGNPPRSGTAELRVSVLDVNDNAPAFQQSSYRISVLESAPAGMVLIQLNASDPDLGPSGNVTFSFSGHTPDRVRNLFSLHPTTGKLTLQGPLDFESENYYEFDVRARDGGSPAMEQHCSLRVDLLDVNDNAPHITVTSELGTLPESAEPGTVVALISVQDPDSGSNGDVSLRIPDHLPFALKSAFRNQFSLVTAGPLDREARSSYDIMVTASDAGNPPLSTHRTIFLNISD QIRYPVPEESQEGTFVGNVAQDFLLDTESLSARRLQVAGEVNQRHFRVDLDSGALLIKNPIDREALCGLSASCIVPLEFVTEGPLEMYRAEVEIVDVNDHAPRFPRQQLDLEIGEAAPPGQRFPLEKAQDADVGSNSISSYRLSSNEHFALDVKKRSDGSLVPELLLEKPLDREKQSDYRLVLTAVDGGNPPRSGTAELRVSVLDVNDNAPAFQQSSYRISVLESAPAGMVLIQLNASDPDLGPSGNVTFSFSGHTPDRVRNLFSLHPTTGKLTLQGPLDFESENYYEFDVRARDGGSPAMEQHCSLRVDLLDVNDNAPHITVTSELGTLPESAEPGTVVALISVQDPDSGSNGDVSLRIPDHLPFALKSAFRNQFSLVTAGPLDREARSSYDIMVTASDAGNPPLSTHRTIFLNISD 7rgn-a1-m1-cA_7rgn-a1-m2-cA Crystal structure of putative fructose-1,6-bisphosphate aldolase from Candida auris A0A2H0ZD48 A0A2H0ZD48 2.2 X-RAY DIFFRACTION 143 1.0 498019 ([Candida] auris) 498019 ([Candida] auris) 340 340 MAEVLKKSGVIYGDDVRKLFDYAQEKGFAIPAINVTSSSTVVAALESARDNKSPIILQTSQGGAAYFAGKGVSNSDQTASIQGSIAAAHYIRAISPVYGIPVILHTDHCAKKLLPWFDGMLKADEEFFAKTGQPLFSSHMLDLSEETDDENIATCVKYFERMSKMNQWLEMEIGITGGESLYTQPETVFAVYKALAPISPNFSIAAAFGNVHGNVQLRPSILGEHQKYAKEQIGTDNKKPLYLVFHGGSGSSQEEFDTAIASGVVKVNLDTDCQYAYLTGIRDYILNKKEYLMTPVGNPDGEDKPNKKYFDPRVWVREGEKSMSARIAEALEIFHTKNQL MAEVLKKSGVIYGDDVRKLFDYAQEKGFAIPAINVTSSSTVVAALESARDNKSPIILQTSQGGAAYFAGKGVSNSDQTASIQGSIAAAHYIRAISPVYGIPVILHTDHCAKKLLPWFDGMLKADEEFFAKTGQPLFSSHMLDLSEETDDENIATCVKYFERMSKMNQWLEMEIGITGGESLYTQPETVFAVYKALAPISPNFSIAAAFGNVHGNVQLRPSILGEHQKYAKEQIGTDNKKPLYLVFHGGSGSSQEEFDTAIASGVVKVNLDTDCQYAYLTGIRDYILNKKEYLMTPVGNPDGEDKPNKKYFDPRVWVREGEKSMSARIAEALEIFHTKNQL 7rgo-a1-m1-cB_7rgo-a1-m1-cA DfrA5 complexed with NADPH and 4'-chloro-3'-(4-(2,4-diamino-6-ethylpyrimidin-5-yl)but-3-yn-2-yl)-[1,1'-biphenyl]-4-carboxamide (UCP1228) P11731 P11731 1.92 X-RAY DIFFRACTION 58 1.0 562 (Escherichia coli) 562 (Escherichia coli) 156 157 7r6g-a1-m1-cA_7r6g-a1-m1-cB 7rgk-a1-m1-cA_7rgk-a1-m1-cB MKVSLMAAKAKNGVIGCGPHIPWSAKGEQLLFKALTYNQWLLVGRKTFESMGALPNRKYAVVTRSAWTADNDNVIVFPSIEEAMYGLAELTDHVIVSGGGEIYRETLPMASTLHISTIDIEPEGDVFFPNIPNTFEVVFEQHFSSNINYCYQIWQK MKVSLMAAKAKNGVIGCGPHIPWSAKGEQLLFKALTYNQWLLVGRKTFESMGALPNRKYAVVTRSAWTADNDNVIVFPSIEEAMYGLAELTDHVIVSGGGEIYRETLPMASTLHISTIDIEPEGDVFFPNIPNTFEVVFEQHFSSNINYCYQIWQKG 7rgv-a1-m2-cA_7rgv-a1-m3-cA Structure of Caulobacter crescentus Suppressor of copper sensitivity protein C Q9A747 Q9A747 2.63 X-RAY DIFFRACTION 33 1.0 190650 (Caulobacter vibrioides CB15) 190650 (Caulobacter vibrioides CB15) 222 222 7rgv-a1-m1-cA_7rgv-a1-m2-cA 7rgv-a1-m1-cA_7rgv-a1-m3-cA SDQSKPDKAFGEKVRAYLLEHPEVLMEASQKLQEKQAAQQAVSSQKAIGEYRQAIERDPRDIVINPAGTITVTEFFDYRCGYCRQATPAVLELVQKNPDIRLVLKDFVIFGNDSEAAARIALGAKDQGKSLELHKALMAENALDARGALRIAERLGIDMDKAKAVGESQAITQHLADTDALARALNLSGTPAFIVGDTLVPGADIDALKLAIEQTRAARAKA SDQSKPDKAFGEKVRAYLLEHPEVLMEASQKLQEKQAAQQAVSSQKAIGEYRQAIERDPRDIVINPAGTITVTEFFDYRCGYCRQATPAVLELVQKNPDIRLVLKDFVIFGNDSEAAARIALGAKDQGKSLELHKALMAENALDARGALRIAERLGIDMDKAKAVGESQAITQHLADTDALARALNLSGTPAFIVGDTLVPGADIDALKLAIEQTRAARAKA 7rh6-a1-m1-cD_7rh6-a1-m1-cG Mycobacterial CIII2CIV2 supercomplex, inhibitor free, -Lpqe cyt cc open A0QQQ1 A0QQQ1 3.5 ELECTRON MICROSCOPY 350 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 216 216 7rh5-a1-m1-cD_7rh5-a1-m1-cG 7rh7-a1-m1-cD_7rh7-a1-m1-cG CSPPGETASSEPGTTPAIWTGSPSPAAPSGEDHGGGHGAGAAGAGETLTAELKTADGTSVATADFQFADGFATVTIETTTPGRLTPGFHGVHIHSVGKCEANSVAPTGGAPGDFNSAGGHFQVSGHSGHPASGDLSSLQVRADGSGKLVTTTDAFTAEDLLDGAKTAIIIHEKADNFANIPPERYQQVNGAPGPDQTTMATGDAGSRVACGVISAG CSPPGETASSEPGTTPAIWTGSPSPAAPSGEDHGGGHGAGAAGAGETLTAELKTADGTSVATADFQFADGFATVTIETTTPGRLTPGFHGVHIHSVGKCEANSVAPTGGAPGDFNSAGGHFQVSGHSGHPASGDLSSLQVRADGSGKLVTTTDAFTAEDLLDGAKTAIIIHEKADNFANIPPERYQQVNGAPGPDQTTMATGDAGSRVACGVISAG 7rh7-a1-m1-cE_7rh7-a1-m1-cF Mycobacterial CIII2CIV2 supercomplex, Telacebec (Q203) bound A0R052 A0R052 3.0 ELECTRON MICROSCOPY 85 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 535 535 6adq-a1-m1-cB_6adq-a1-m1-cN 6hwh-a1-m1-cY_6hwh-a1-m1-cb 6hwh-a2-m1-cY_6hwh-a2-m1-cb 7rh5-a1-m1-cE_7rh5-a1-m1-cF 7rh6-a1-m1-cE_7rh6-a1-m1-cF DFAKLAAAQGDAIDSRYHPSAAVRRQLNKVFPTHWSFLLGEIALYSFIILLLTGVWLTLFFDPSMAHVTYDGVYQPLRGVQMSRAYETALDISFEVRGGLFVRQVHHWAALMFAASIMVHLARIFFTGAFRRPREANWVIGSLLLILAMFEGFFGYSLPDDLLSGTGIRAALSGITMGIPVIGTWMHWALFGGDFPGEILIPRLYALHILLIPGIILALIGAHLALVWFQKHTQFPGPGRTETNVVGVRVMPVFAVKSGAFFAMITGVLGLMGGLLTINPIWNLGPYKPSQVSAGSQPDFYMMWTDGLIRLWPAWEFYPFGHTIPQGVWVAVGMGLVFALLIAYPFIEKKVTGDDAHHNLLQRPRDVPVRTAIGSMAIALYLLLTFACMNDIIALKFHISLNATTWIGRIGMVVLPAIVYFVAYRWAISLQRSDREVLEHGVETGIIKRLPHGAYVELHQPLGPVDEHGHPIPLEYAGAPLPKRMNKLGSGGAPGTGSFLFPDPAVEHEALTEAAHASEHKSLTALKEHQDRIHG DFAKLAAAQGDAIDSRYHPSAAVRRQLNKVFPTHWSFLLGEIALYSFIILLLTGVWLTLFFDPSMAHVTYDGVYQPLRGVQMSRAYETALDISFEVRGGLFVRQVHHWAALMFAASIMVHLARIFFTGAFRRPREANWVIGSLLLILAMFEGFFGYSLPDDLLSGTGIRAALSGITMGIPVIGTWMHWALFGGDFPGEILIPRLYALHILLIPGIILALIGAHLALVWFQKHTQFPGPGRTETNVVGVRVMPVFAVKSGAFFAMITGVLGLMGGLLTINPIWNLGPYKPSQVSAGSQPDFYMMWTDGLIRLWPAWEFYPFGHTIPQGVWVAVGMGLVFALLIAYPFIEKKVTGDDAHHNLLQRPRDVPVRTAIGSMAIALYLLLTFACMNDIIALKFHISLNATTWIGRIGMVVLPAIVYFVAYRWAISLQRSDREVLEHGVETGIIKRLPHGAYVELHQPLGPVDEHGHPIPLEYAGAPLPKRMNKLGSGGAPGTGSFLFPDPAVEHEALTEAAHASEHKSLTALKEHQDRIHG 7rh7-a1-m1-cM_7rh7-a1-m1-cY Mycobacterial CIII2CIV2 supercomplex, Telacebec (Q203) bound I7GD61 I7GD61 3.0 ELECTRON MICROSCOPY 257 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 382 382 6adq-a1-m1-cA_6adq-a1-m1-cM 6hwh-a1-m1-cA_6hwh-a1-m1-cB 6hwh-a2-m1-cA_6hwh-a2-m1-cB 7rh5-a1-m1-cM_7rh5-a1-m1-cY 7rh6-a1-m1-cM_7rh6-a1-m1-cY GQPTDAELAEMSREELVKLGGKIDGVETIFKEPRWPVPGTKAEKRTERLVAYWLMLGGLSGLALLLVFLFWPWEYQPFGSEGEFLYSLATPLYGLTFGLSILSIGIGAVLFQKKFIPEEISVQDRHDGRSPEVHRKTVAANLTDALEGSTLKRRKVIGLSLGIGLGAFGAGTLVAFIGGLIKNPWKPVVPTAEGKKAVLWTSGWTPRFKGETIYLARATGRPGESPFVKMRPEDIDAGGMETVFPWRESDGDGTTVESEHKLTEIAMGVRNPVMLIRIKPADMHRVIKRKGQESFNFGELFAYTKVCSHLGCPSSLYEQQTYRILCPCHQSQFDALEFAKPIFGPAARALAQLPITIDEDGYLVANGDFVEPVGPAFWERKS GQPTDAELAEMSREELVKLGGKIDGVETIFKEPRWPVPGTKAEKRTERLVAYWLMLGGLSGLALLLVFLFWPWEYQPFGSEGEFLYSLATPLYGLTFGLSILSIGIGAVLFQKKFIPEEISVQDRHDGRSPEVHRKTVAANLTDALEGSTLKRRKVIGLSLGIGLGAFGAGTLVAFIGGLIKNPWKPVVPTAEGKKAVLWTSGWTPRFKGETIYLARATGRPGESPFVKMRPEDIDAGGMETVFPWRESDGDGTTVESEHKLTEIAMGVRNPVMLIRIKPADMHRVIKRKGQESFNFGELFAYTKVCSHLGCPSSLYEQQTYRILCPCHQSQFDALEFAKPIFGPAARALAQLPITIDEDGYLVANGDFVEPVGPAFWERKS 7rh8-a1-m1-cA_7rh8-a1-m4-cA Crystal structure of Fur1p from Candida albicans, in complex with UTP Q59QT3 Q59QT3 1.69 X-RAY DIFFRACTION 62 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 212 212 7rh8-a1-m2-cA_7rh8-a1-m3-cA VSKNVILLPQTNQLIGLYSIIRDQRTKRGDFVFYSDRIIRLLVEEGLNQLPVEEAIIKCHGGYEYKGAKFLGKICGVSIVRAGESMEMGLRDCCRSVRIGKILIQRDEETALPKLFYEKLPEDISERYVFLLDPMLATGGSAMMAVEVLLARGVKMDRILFLNLLAAPEGIKAFQDKYPDVKIITGGIDEKLDENKYIVPGLGDFGDRYYCI VSKNVILLPQTNQLIGLYSIIRDQRTKRGDFVFYSDRIIRLLVEEGLNQLPVEEAIIKCHGGYEYKGAKFLGKICGVSIVRAGESMEMGLRDCCRSVRIGKILIQRDEETALPKLFYEKLPEDISERYVFLLDPMLATGGSAMMAVEVLLARGVKMDRILFLNLLAAPEGIKAFQDKYPDVKIITGGIDEKLDENKYIVPGLGDFGDRYYCI 7rh8-a1-m2-cA_7rh8-a1-m4-cA Crystal structure of Fur1p from Candida albicans, in complex with UTP Q59QT3 Q59QT3 1.69 X-RAY DIFFRACTION 130 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 212 212 7rh8-a1-m1-cA_7rh8-a1-m3-cA VSKNVILLPQTNQLIGLYSIIRDQRTKRGDFVFYSDRIIRLLVEEGLNQLPVEEAIIKCHGGYEYKGAKFLGKICGVSIVRAGESMEMGLRDCCRSVRIGKILIQRDEETALPKLFYEKLPEDISERYVFLLDPMLATGGSAMMAVEVLLARGVKMDRILFLNLLAAPEGIKAFQDKYPDVKIITGGIDEKLDENKYIVPGLGDFGDRYYCI VSKNVILLPQTNQLIGLYSIIRDQRTKRGDFVFYSDRIIRLLVEEGLNQLPVEEAIIKCHGGYEYKGAKFLGKICGVSIVRAGESMEMGLRDCCRSVRIGKILIQRDEETALPKLFYEKLPEDISERYVFLLDPMLATGGSAMMAVEVLLARGVKMDRILFLNLLAAPEGIKAFQDKYPDVKIITGGIDEKLDENKYIVPGLGDFGDRYYCI 7rha-a1-m1-cB_7rha-a1-m1-cA A new fluorescent protein darkmRuby at pH 5.0 1.8 X-RAY DIFFRACTION 18 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 219 220 GEELIKEEMPMKVVLEGTVNGHQFKCTGEGEGRPYEGVQTMRIKVIEGGPLPFAFDILATSFSRTFVKHPKGIPDYFKQSFPEGFTWERVMRFEDGGVVTVTQDTSLQDGVLIYNAKVRGVNFPSNGPVMQKKTKGWEPNTEMIYPADGGLRGYTDMALKVDGGGHLHCSFVTEYRSKKTVGNIKMPGVYAIDHRLERIEESDNETYVVQREVAVAKYS GEELIKEEMPMKVVLEGTVNGHQFKCTGEGEGRPYEGVQTMRIKVIEGGPLPFAFDILATSFSRTFVKHPKGIPDYFKQSFPEGFTWERVMRFEDGGVVTVTQDTSLQDGVLIYNAKVRGVNFPSNGPVMQKKTKGWEPNTEMIYPADGGLRGYTDMALKVDGGGHLHCSFVTEYRSKKTVGNIKMPGVYAIDHRLERIEESDNETYVVQREVAVAKYSN 7rhb-a1-m1-cA_7rhb-a1-m1-cB A new fluorescent protein darkmRuby at pH 8.0 2.51 X-RAY DIFFRACTION 48 1.0 6118 (Entacmaea quadricolor) 6118 (Entacmaea quadricolor) 219 219 7rhc-a1-m1-cB_7rhc-a1-m1-cA GEELIKEEMPMKVVLEGTVNGHQFKCTGEGEGRPYEGVQTMRIKVIEGGPLPFAFDILATSFSRTFVKHPKGIPDYFKQSFPEGFTWERVMRFEDGGVVTVTQDTSLQDGVLIYNAKVRGVNFPSNGPVMQKKTKGWEPNTEMIYPADGGLRGYTDMALKVDGGGHLHCSFVTEYRSKKTVGNIKMPGVYAIDHRLERIEESDNETYVVQREVAVAKYS GEELIKEEMPMKVVLEGTVNGHQFKCTGEGEGRPYEGVQTMRIKVIEGGPLPFAFDILATSFSRTFVKHPKGIPDYFKQSFPEGFTWERVMRFEDGGVVTVTQDTSLQDGVLIYNAKVRGVNFPSNGPVMQKKTKGWEPNTEMIYPADGGLRGYTDMALKVDGGGHLHCSFVTEYRSKKTVGNIKMPGVYAIDHRLERIEESDNETYVVQREVAVAKYS 7rhe-a1-m1-cA_7rhe-a1-m2-cA Crystal Structure of ROK family protein from Burkholderia vietnamiensis G4 A4JE13 A4JE13 2.3 X-RAY DIFFRACTION 113 1.0 269482 (Burkholderia vietnamiensis G4) 269482 (Burkholderia vietnamiensis G4) 368 368 NVRRYNERLLLKTLRRAGSASKADLARLANMTGTAVGSIIASLADAKLIEFAASLIRLDPRGAFGIGVHLDRMRIETALVNFAGDVLGRRSHDTLLPPPAEVIEIVRHDIDAMQALLPAHERARLAGVGVAQPYNLGAWMRELGLAPDTFRAWEDVDFASDLGRTVSLPVFGENDGNAAAIAELFYGYGRQCDDFVYLFIGPAIGGGIAIDGDCLRGVTGNAGDIAMIPVLPSRLASAPPPRGPWDILLARASLHALVRHLRHHGETVESRADLEACIARGLPAVTEWIDDCVDALAPALRAVLCVVDAPVVVLDADTDAGLLDALTSRLRAALVATAPEARGTPTLVRGTFGADAGAIGAATLPMYF NVRRYNERLLLKTLRRAGSASKADLARLANMTGTAVGSIIASLADAKLIEFAASLIRLDPRGAFGIGVHLDRMRIETALVNFAGDVLGRRSHDTLLPPPAEVIEIVRHDIDAMQALLPAHERARLAGVGVAQPYNLGAWMRELGLAPDTFRAWEDVDFASDLGRTVSLPVFGENDGNAAAIAELFYGYGRQCDDFVYLFIGPAIGGGIAIDGDCLRGVTGNAGDIAMIPVLPSRLASAPPPRGPWDILLARASLHALVRHLRHHGETVESRADLEACIARGLPAVTEWIDDCVDALAPALRAVLCVVDAPVVVLDADTDAGLLDALTSRLRAALVATAPEARGTPTLVRGTFGADAGAIGAATLPMYF 7rhp-a1-m1-cA_7rhp-a1-m2-cA Crystal Structure of Honeybee (Apis mellifera) glutathione S-transferase AmGSTD1 A0A7M7GUY7 A0A7M7GUY7 1.54 X-RAY DIFFRACTION 73 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 215 215 GAEIKMPIDFYQLPGSPPCRAVALTAAALDIEMNFKQVNLMNGEHLKPEFLKINPQHTIPTIDDNGFRLWESRAIMTYLADQYGKNDTLYPKDLKKRAIVNQRLYFDMCSLYKSFMDYYYPIIFMKAVKDQAKYENIGTALSFLDKFLEGENYVAGKNMTLADLSIVSTVSTLEALDYDLSKYKNVTRWFAKIKPEIPKYEEYNNAGLKMFKELV GAEIKMPIDFYQLPGSPPCRAVALTAAALDIEMNFKQVNLMNGEHLKPEFLKINPQHTIPTIDDNGFRLWESRAIMTYLADQYGKNDTLYPKDLKKRAIVNQRLYFDMCSLYKSFMDYYYPIIFMKAVKDQAKYENIGTALSFLDKFLEGENYVAGKNMTLADLSIVSTVSTLEALDYDLSKYKNVTRWFAKIKPEIPKYEEYNNAGLKMFKELV 7rhs-a1-m1-cB_7rhs-a1-m1-cC Cryo-EM structure of apo-state of human CNGA3/CNGB3 channel Q16281 Q16281 2.93 ELECTRON MICROSCOPY 148 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 453 454 7rhs-a1-m1-cB_7rhs-a1-m1-cA IVVDPSSNLYYRWLTAIALPVFYNWYLLICRACFDELQSEYLMLWLVLDYSADVLYVLDVLVRARTGFLEQGLMVSDTNRLWQHYKTTTQFKLDVLSLVPTDLAYLKVGTNYPEVRFNRLLKFSRLFEFFDRTETRTNYPNMFRIGNLVLYILIIIHWNACIYFAISKFIGFGTDSWVYPNISIPEHGRLSRKYIYSLYWSTLTLTTIGETPPPVKDEEYLFVVVDFLVGVLIFATIVGNVGSMISNMNASRAEFQAKIDSIKQYMQFRKVTKDLETRVIRWFDYLWANKKTVDEKEVLKSLPDKLKAEIAINVHLDTLKKVRIFQDCEAGLLVELVLKLRPTVFSPGDYICKKGDIGKEMYIINEGKLAVVADDGVTQFVVLSDGSYFGEISILNIKGSKSGNRRTANIRSIGYSDLFCLSKDDLMEALTEYPEAKKALEEKGRQILMKDNL AIVVDPSSNLYYRWLTAIALPVFYNWYLLICRACFDELQSEYLMLWLVLDYSADVLYVLDVLVRARTGFLEQGLMVSDTNRLWQHYKTTTQFKLDVLSLVPTDLAYLKVGTNYPEVRFNRLLKFSRLFEFFDRTETRTNYPNMFRIGNLVLYILIIIHWNACIYFAISKFIGFGTDSWVYPNISIPEHGRLSRKYIYSLYWSTLTLTTIGETPPPVKDEEYLFVVVDFLVGVLIFATIVGNVGSMISNMNASRAEFQAKIDSIKQYMQFRKVTKDLETRVIRWFDYLWANKKTVDEKEVLKSLPDKLKAEIAINVHLDTLKKVRIFQDCEAGLLVELVLKLRPTVFSPGDYICKKGDIGKEMYIINEGKLAVVADDGVTQFVVLSDGSYFGEISILNIKGSKSGNRRTANIRSIGYSDLFCLSKDDLMEALTEYPEAKKALEEKGRQILMKDNL 7rhw-a1-m1-cB_7rhw-a1-m1-cA Aspergillus fumigatus Enolase Bound to 2-Phosphoglycerate Q96X30 Q96X30 1.9 X-RAY DIFFRACTION 144 1.0 330879 (Aspergillus fumigatus Af293) 330879 (Aspergillus fumigatus Af293) 426 437 7rhv-a1-m1-cA_7rhv-a1-m1-cB 7ri0-a1-m1-cA_7ri0-a1-m1-cB PISKIHARSVYDSRGNPTVEVDVVTETGLHRAIVPSQHEAHELRDGDKTQWGGKGVLKAVKNVNETIGPALIKENIDVKDQSKVDEFLNKLDGTANKSNLGANAILGVSLAVAKAGAAEKGVPLYAHISDLAGTKKPYVLPVPFQNVLNGGSHAGGRLAFQEFMIVPDSAPSFSEALRQGAEVYQKLKALAKKKYGQSAGNVGDEGGVAPDIQTAEEALDLITEAIEQAGYTGKIKIAMDVASSEFYKADVKKYDLDFKNKWLTYEQLADLYKSLAAKYPIVSIEDPFAEDDWEAWSYFYKTSDFQIVGDDLTVTNPGRIKKAIELKSCNALLLKVNQIGTLTESIQAAKDSYADNWGVMVSHRSGETEDVTIADIAVGLRSGQIKTGAPCRSERLAKLNQILRIEEELGENAVYAGSKFRTAVNL PISKIHARSVYDSRGNPTVEVDVVTETGLHRAIVPSGASTGQHEAHELRDGDKTQWGGKGVLKAVKNVNETIGPALIKENIDVKDQSKVDEFLNKLDGTANKSNLGANAILGVSLAVAKAGAAEKGVPLYAHISDLAGTKKPYVLPVPFQNVLNGGSHAGGRLAFQEFMIVPDSAPSFSEALRQGAEVYQKLKALAKKKYGQSAGNVGDEGGVAPDIQTAEEALDLITEAIEQAGYTGKIKIAMDVASSEFYKADVKKYDLDFKNPESDPSKWLTYEQLADLYKSLAAKYPIVSIEDPFAEDDWEAWSYFYKTSDFQIVGDDLTVTNPGRIKKAIELKSCNALLLKVNQIGTLTESIQAAKDSYADNWGVMVSHRSGETEDVTIADIAVGLRSGQIKTGAPCRSERLAKLNQILRIEEELGENAVYAGSKFRTAVNL 7rit-a1-m1-cA_7rit-a1-m1-cB Drug-free A. baumannii MsbA A0A0B9X4I2 A0A0B9X4I2 5.2 ELECTRON MICROSCOPY 237 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 569 569 DFKVYLRLISYLKPYWGVALLVLIGFGMNSATEVSVAKLIKFIIDAIQNASRADLDWFPLLIILLVFFRGLGLFMGGYYTAVISRSLVFSIRQEVYAKLLRLPAQYYLDNSSGHITAKIMYNVEQLTAASSESLKTIVRDGMITLGLLGYLFYTNWRLTICIMVFLPIIGILVRKASKRMRKLSMQVQDTMGDVNHVVQESINGNAVVKSFAGEESEQERFYKSSEENLKRGLKMVIVQNLNSPVVQVVMACAMALIVWLALRPQILGNTTAGEFVAYITAAGLLSKPVKNLTDVNEKLQRGLAAAHSVFELLDLPEEQNSGELKPQLQGAIRFDHVVLNYADGTQAIKDFSLDIRPGETVALVGRSGAGKTSLVNMLVRFQEVSSGQIYLDDLPIRDIELSSLRTQIAMVNQQVVLFNRTVRENIAYGQLHNASDEDVIAAAKAAYAHDFIMNLPNGYDTVLGAQGLNLSGGQRQRIAIARAILKNAPILILDEATSALDNESEHFIQQAFDEAMQDRTTIVIAHRLSTIENADRIVVMDRGQIVEQGTHQELLAKHGAYYQLHQRNF DFKVYLRLISYLKPYWGVALLVLIGFGMNSATEVSVAKLIKFIIDAIQNASRADLDWFPLLIILLVFFRGLGLFMGGYYTAVISRSLVFSIRQEVYAKLLRLPAQYYLDNSSGHITAKIMYNVEQLTAASSESLKTIVRDGMITLGLLGYLFYTNWRLTICIMVFLPIIGILVRKASKRMRKLSMQVQDTMGDVNHVVQESINGNAVVKSFAGEESEQERFYKSSEENLKRGLKMVIVQNLNSPVVQVVMACAMALIVWLALRPQILGNTTAGEFVAYITAAGLLSKPVKNLTDVNEKLQRGLAAAHSVFELLDLPEEQNSGELKPQLQGAIRFDHVVLNYADGTQAIKDFSLDIRPGETVALVGRSGAGKTSLVNMLVRFQEVSSGQIYLDDLPIRDIELSSLRTQIAMVNQQVVLFNRTVRENIAYGQLHNASDEDVIAAAKAAYAHDFIMNLPNGYDTVLGAQGLNLSGGQRQRIAIARAILKNAPILILDEATSALDNESEHFIQQAFDEAMQDRTTIVIAHRLSTIENADRIVVMDRGQIVEQGTHQELLAKHGAYYQLHQRNF 7rj1-a2-m2-cD_7rj1-a2-m1-cC Crystal structure of Aro7p chorismate mutase from Candida albicans, complex with L-Trp Q59TS4 Q59TS4 2.16 X-RAY DIFFRACTION 86 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 261 263 7rj1-a1-m1-cA_7rj1-a1-m1-cB SMDFMKPETVLDLANIRQALVRMEDTIVFDLIERSQFFSSPSVYEKNKYNIPNFDGTFLEWALLQLEVAHSQIRRYEAPDETPFFPDQLKTPILPPINYPKILAKYSDEINVNSEIMKFYVDEIVPQVSCGQGDQKENLGSASTCDIECLQAISRRIHFGKFVAEAKYQSDKPLYIKLILDKDVKGIENSITNSAVEQKILERLIVKAESYGVDPSLQSKVKPEVIAKLYKDWIIPLTKKVEIDYLLRRLEDEDVELVEKY SMDFMKPETVLDLANIRQALVRMEDTIVFDLIERSQFFSSPSVYEKNKYNIPNFDGTFLEWALLQLEVAHSQIRRYEAPDETPFFPDQLKTPILPPINYPKILAKYSDEINVNSEIMKFYVDEIVPQVSCGQGDQKENLGSASTCDIECLQAISRRIHFGKFVAEAKYQSDKPLYIKLILDKDVKGIENSITNSAVEQKILERLIVKAESYGVDPSLNVQSKVKPEVIAKLYKDWIIPLTKKVEIDYLLRRLEDEDVELVEKY 7rje-a1-m1-cB_7rje-a1-m1-cL Complex III2 from Candida albicans, Inz-5 bound P83782 P83782 3.3 ELECTRON MICROSCOPY 52 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 364 364 7rja-a1-m1-cB_7rja-a1-m1-cL SSIPNSVKIAAKESATDLTKLSVIINNAGSKTGKSGVSHLLSKFTFLNNGAKSALRFTRESELLGGTFESKVTRDALILNTTFLKQDLPYYVEALGNVVSNTQFAPHEFNEIVLPTANAETKLANANPAFKGVEKLHEITFRRGLGNPLFYNESTPIKLEEVAQFSKEQFSGENISIVAEGANEEDLTKFVSESAFCYLPSSSSNGAKALPTNTFTGQEARVPSSGASSALIGIPVKPADFGKYEVLSAAIGTSTLPSTSTPLAQIPGATSHLYKYQDAGLFVISVSGEASQVAQGIKQAKSVAESVSSSALSEAVKAAELSVALQSTVDSPLNVKVVAEEAPISKFNYVAVGDLDVLPYADEL SSIPNSVKIAAKESATDLTKLSVIINNAGSKTGKSGVSHLLSKFTFLNNGAKSALRFTRESELLGGTFESKVTRDALILNTTFLKQDLPYYVEALGNVVSNTQFAPHEFNEIVLPTANAETKLANANPAFKGVEKLHEITFRRGLGNPLFYNESTPIKLEEVAQFSKEQFSGENISIVAEGANEEDLTKFVSESAFCYLPSSSSNGAKALPTNTFTGQEARVPSSGASSALIGIPVKPADFGKYEVLSAAIGTSTLPSTSTPLAQIPGATSHLYKYQDAGLFVISVSGEASQVAQGIKQAKSVAESVSSSALSEAVKAAELSVALQSTVDSPLNVKVVAEEAPISKFNYVAVGDLDVLPYADEL 7rje-a1-m1-cD_7rje-a1-m1-cN Complex III2 from Candida albicans, Inz-5 bound A0A1D8PHA3 A0A1D8PHA3 3.3 ELECTRON MICROSCOPY 25 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 243 243 7rja-a1-m1-cD_7rja-a1-m1-cN TAAEHGLHPPAYNWPHNGMFETFDHASIRRGFQVYREVCAACHSLDRIAWRNLVGVSHTTSEAKAMAEELEYDDEPDDEGKPRKRPGKLADYIPGPYENEQAARAANQGAYPPDLSLIVKARHGGSDYIFSLLTGYPDEPPAGVVLPEGSNYNPYFPGGAIAMGRVLFDDLVEYEDGTPATTSQMAKDVSTFLNWASEPEHDDRKKWGLKALVVLSSLYLLSIWVKRFKWTPIKNRKFRFDPP TAAEHGLHPPAYNWPHNGMFETFDHASIRRGFQVYREVCAACHSLDRIAWRNLVGVSHTTSEAKAMAEELEYDDEPDDEGKPRKRPGKLADYIPGPYENEQAARAANQGAYPPDLSLIVKARHGGSDYIFSLLTGYPDEPPAGVVLPEGSNYNPYFPGGAIAMGRVLFDDLVEYEDGTPATTSQMAKDVSTFLNWASEPEHDDRKKWGLKALVVLSSLYLLSIWVKRFKWTPIKNRKFRFDPP 7rje-a1-m1-cK_7rje-a1-m1-cT Complex III2 from Candida albicans, Inz-5 bound P0C8L0 P0C8L0 3.3 ELECTRON MICROSCOPY 65 1.0 237561 (Candida albicans SC5314) 237561 (Candida albicans SC5314) 384 384 7rja-a1-m1-cK_7rja-a1-m1-cT MPTRKSNTYLSLVNSYLIDSPQPSSINYWWNLGSLLGLCLVIQIASGVFLAMHYSSNIELAFDSVEHIMRDVNAGWLIRYIHANGASFFFICMYLHIGKALYYGSYKQPRVMLWVIGVVIFILTMAIAFMGYCLVYGQMSHWGATVITNLLSAIPFIGNDIVPFIWGGFSVSNPTIQRFFALHFLLPFILAALVCMHLMALHVHGSSNPVGITGNIDRLPMHPYFIFKDLITVFVFLLIFSLFVFYSPNTLGHPDNYIPGNPMVTPPSIVPEWYLLPFYAILRSIPDKLGGVIAMFGAILILLSLPYTDRSIIRGNSFKVLSKLAFYLFVFNFILLGNLGQLHVEVPYIQLGQFATAYYFAHYIIVVPVISTLENILYYIGTQT MPTRKSNTYLSLVNSYLIDSPQPSSINYWWNLGSLLGLCLVIQIASGVFLAMHYSSNIELAFDSVEHIMRDVNAGWLIRYIHANGASFFFICMYLHIGKALYYGSYKQPRVMLWVIGVVIFILTMAIAFMGYCLVYGQMSHWGATVITNLLSAIPFIGNDIVPFIWGGFSVSNPTIQRFFALHFLLPFILAALVCMHLMALHVHGSSNPVGITGNIDRLPMHPYFIFKDLITVFVFLLIFSLFVFYSPNTLGHPDNYIPGNPMVTPPSIVPEWYLLPFYAILRSIPDKLGGVIAMFGAILILLSLPYTDRSIIRGNSFKVLSKLAFYLFVFNFILLGNLGQLHVEVPYIQLGQFATAYYFAHYIIVVPVISTLENILYYIGTQT 7rka-a2-m1-cB_7rka-a2-m3-cB Crystal structure analysis of Colorado potato beetle glutathione-S transferase LdGSTu1 A0A1P8PEY0 A0A1P8PEY0 1.8 X-RAY DIFFRACTION 93 1.0 7539 (Leptinotarsa decemlineata) 7539 (Leptinotarsa decemlineata) 211 211 7rka-a1-m1-cA_7rka-a1-m2-cA PITLYSVSDGPPSLAVRQALEYLGLEHKLVNVDFGIGEHMTEEFAQKNPQKEIPVLDDNGFLLGESNAILQYLAERYGKDDTIYPKDPMARAVVNHRLCFNLSTYYRYISEYTLAPMFFDYQRTPLGLKKTHIALDNFNTYLKLLGKKYAAGETVTIADFQLVTATMCLEAINFDISPWPLVENWYDTYKLEHPTLWKIVEGGMKELEAFE PITLYSVSDGPPSLAVRQALEYLGLEHKLVNVDFGIGEHMTEEFAQKNPQKEIPVLDDNGFLLGESNAILQYLAERYGKDDTIYPKDPMARAVVNHRLCFNLSTYYRYISEYTLAPMFFDYQRTPLGLKKTHIALDNFNTYLKLLGKKYAAGETVTIADFQLVTATMCLEAINFDISPWPLVENWYDTYKLEHPTLWKIVEGGMKELEAFE 7rkc-a1-m1-cB_7rkc-a1-m1-cA Computationally designed tunable C2 symmetric tandem repeat homodimer, D_3_633 2.35 X-RAY DIFFRACTION 84 0.991 32630 (synthetic construct) 32630 (synthetic construct) 216 220 ELDELWKRVKKLVTELLEQAERAPEEIFKLLEVAQQLLWLAEMFLRLAAIDPEIQELAERVLRLIKRLLEEAERAGRRIKELVEVALALAKLLEMFYRLKEIQERATDPEIQELAERVLRLIKKLLKAAEEAGDPRKIYKLVFVALVLLHLLQTFYRLKEIQEKATDPEIQRKAQEVLEKIKRLLEAAERAGDPAKILLYVIRAQLLAMELKFAYR DELWKRVKKLVTELLEQAERAGDPEEIFKLLEVAQQLLWLAEMFLRLAAIDPEIQELAERVLRLIKRLLEEAERAGDPRRIKELVEVALALAKLLEMFYRLKEIQERATDPEIQELAERVLRLIKKLLKAAEEAGDPRKIYKLVFVALVLLHLLQTFYRLKEIQEKATDPEIQRKAQEVLEKIKRLLEAAERAGDPAKILLYVIRAQLLAMELKFAYRKR 7rm1-a1-m1-cC_7rm1-a1-m1-cA Antibody 2F2 in complex with P. vivax CSP peptide EDGAGNQPGANGAGNQPGANGAGNQPG 3.19 X-RAY DIFFRACTION 12 1.0 10090 (Mus musculus) 10090 (Mus musculus) 221 221 QIQLVQSGPELKKPGETVKISCKASGYTFTNYGMNWVKQAPGKGLKWMGWINSNTGEPTYAEEFKGRFAFSLETSASTAYLQINNLKNEDTATYFCARWANCGCAMDYWGQGTTVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS QIQLVQSGPELKKPGETVKISCKASGYTFTNYGMNWVKQAPGKGLKWMGWINSNTGEPTYAEEFKGRFAFSLETSASTAYLQINNLKNEDTATYFCARWANCGCAMDYWGQGTTVTVSSASTKGPSVFPLAPSSKSTSGGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEPKS 7rma-a1-m1-cA_7rma-a1-m2-cA Structure of the fourth UIM (Ubiquitin Interacting Motif) of ANKRD13D in complex with a high affinity UbV (Ubiquitin Variant) P0CG47 P0CG47 2 X-RAY DIFFRACTION 180 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 AMQIFVRTHAMRTDVLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIRQESILHLLLWPR AMQIFVRTHAMRTDVLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFAGKQLEDGRTLSDYNIRQESILHLLLWPR 7rml-a1-m1-cC_7rml-a1-m2-cC Neisseria meningitidis Methylenetetrahydrofolate reductase in complex with FAD Q9JZQ3 Q9JZQ3 2.7 X-RAY DIFFRACTION 112 1.0 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 257 257 YAKEINALNNSLSDLDINVSFEFFPPKNEQMETMLWDSIHRLQTLHPKFVSVTYRTHGIVKRIKQETGLEAAPHLTGIDASPIVALRGDEEKKPFYAEDLVKLLRSVFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDVERYLRFRDRCVMLGIDVEIVPGILPVTNFKQLGKMAQVTNVKIPSWLSQMYEGLDDDQGTRNLVAASIAIDMVKVLSREGVKDFHFYTLNRSELTYAICHILGVRP YAKEINALNNSLSDLDINVSFEFFPPKNEQMETMLWDSIHRLQTLHPKFVSVTYRTHGIVKRIKQETGLEAAPHLTGIDASPIVALRGDEEKKPFYAEDLVKLLRSVFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDVERYLRFRDRCVMLGIDVEIVPGILPVTNFKQLGKMAQVTNVKIPSWLSQMYEGLDDDQGTRNLVAASIAIDMVKVLSREGVKDFHFYTLNRSELTYAICHILGVRP 7rml-a1-m1-cC_7rml-a1-m4-cA Neisseria meningitidis Methylenetetrahydrofolate reductase in complex with FAD Q9JZQ3 Q9JZQ3 2.7 X-RAY DIFFRACTION 37 0.988 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 257 281 7rml-a1-m2-cC_7rml-a1-m3-cA YAKEINALNNSLSDLDINVSFEFFPPKNEQMETMLWDSIHRLQTLHPKFVSVTYRTHGIVKRIKQETGLEAAPHLTGIDASPIVALRGDEEKKPFYAEDLVKLLRSVFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDVERYLRFRDRCVMLGIDVEIVPGILPVTNFKQLGKMAQVTNVKIPSWLSQMYEGLDDDQGTRNLVAASIAIDMVKVLSREGVKDFHFYTLNRSELTYAICHILGVRP NYAKEINALNNSLSDLKGDINVSFEFFPPKNEQMETMLWDSIHRLQTLHPKFVSVTYGADRTHGIVKRIKQETGLEAAPHLTGIDASPDELRQIAKDYWDSGIRRIVALRGDEPFYAEDLVKLLRSVADFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDVERYLRFRDRCVMLGIDVEIVPGILPVTNFKQLGKMAQVTNVKIPSWLSQMYEGLDDDQGTRNLVAASIAIDMVKVLSREGVKDFHFYTLNRSELTYAICHILGVRPHH 7rml-a1-m2-cB_7rml-a1-m4-cA Neisseria meningitidis Methylenetetrahydrofolate reductase in complex with FAD Q9JZQ3 Q9JZQ3 2.7 X-RAY DIFFRACTION 121 0.996 122586 (Neisseria meningitidis MC58) 122586 (Neisseria meningitidis MC58) 271 281 7rml-a1-m1-cB_7rml-a1-m3-cA YAKEINALNNSLSDLKGDINVSFEFFPPKNEETMLWDSIHRLQTLHPKFVSVTYGDRTHGIVKRIKQETGLEAAPHLSPDELRQIAKDYWDSGIRRIVALRGDEKPFYAEDLVKLLRSVADFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDVERYLRFRDRCVMLGIDVEIVPGILPVTNFKQLGKMAQVTNVKIPSWLSQMYEGLDDDQGTRNLVAASIAIDMVKVLSREGVKDFHFYTLNRSELTYAICHILGVRP NYAKEINALNNSLSDLKGDINVSFEFFPPKNEQMETMLWDSIHRLQTLHPKFVSVTYGADRTHGIVKRIKQETGLEAAPHLTGIDASPDELRQIAKDYWDSGIRRIVALRGDEPFYAEDLVKLLRSVADFDISVAAYPEVHPEAKSAQADLINLKRKIDAGANHVITQFFFDVERYLRFRDRCVMLGIDVEIVPGILPVTNFKQLGKMAQVTNVKIPSWLSQMYEGLDDDQGTRNLVAASIAIDMVKVLSREGVKDFHFYTLNRSELTYAICHILGVRPHH 7rmn-a1-m1-cB_7rmn-a1-m1-cA Crystal structure of triosephosphate isomerase from Verrucomicrobium spinosum 1.21 X-RAY DIFFRACTION 132 1.0 2736 (Verrucomicrobium spinosum) 2736 (Verrucomicrobium spinosum) 265 268 FRKPIVAANWKMNNPPSETEKFLRAFLRLMPEKSPVQVVVVPSFVSLSLAQTLIQGGRTEVVELGAQNMSQYPSGAYTGETSALMLKECGVRHVILGHSERRALFGETNQIVNAKVIAALEARLHPILCVGETLEERDGGRIEQVLESQTRESLANVGSRRLQDVVIAYEPVWAIGTGRTASPEQAQEAHAFIRKVLGEMFDADTAQKIRIQYGGSVKPSNMDEIIAMPDVDGALVGGASLESGSFYEIVKAVITYLNDNKPVYQ PPVFRKPIVAANWKMNNPPSETEKFLRAFLRLMPEKSPVQVVVVPSFVSLSLAQTLIQGGRTEVVELGAQNMSQYPSGAYTGETSALMLKECGVRHVILGHSERRALFGETNQIVNAKVIAALEARLHPILCVGETLEERDGGRIEQVLESQTRESLANVGSRRLQDVVIAYEPVWAIGTGRTASPEQAQEAHAFIRKVLGEMFDADTAQKIRIQYGGSVKPSNMDEIIAMPDVDGALVGGASLESGSFYEIVKAVITYLNDNKPVYQ 7rmx-a1-m1-cA_7rmx-a1-m2-cA Structure of De Novo designed tunable symmetric protein pockets 1.65 X-RAY DIFFRACTION 72 1.0 32630 (synthetic construct) 32630 (synthetic construct) 229 229 SGSGSTEEEEALLRWFQTLLAKFDELVKQLGDPRLLEEARRLQERLEEAKKRGDKRTIKQLAALLQMFVLIAQIFQLVEELGDPKLLEQAKRLLERLKEAVERGDEETIKELLDLAHMTYLIAQIFQLVEQLGDPRLLELAKELLKRLKEAQERGDRRTIERLLRLVQMTYLIAQIFQLVRQLGDPRLLETAKTLLTLLKLAFEEGDELLIKSLLTLVAETYRQAAAEQ SGSGSTEEEEALLRWFQTLLAKFDELVKQLGDPRLLEEARRLQERLEEAKKRGDKRTIKQLAALLQMFVLIAQIFQLVEELGDPKLLEQAKRLLERLKEAVERGDEETIKELLDLAHMTYLIAQIFQLVEQLGDPRLLELAKELLKRLKEAQERGDRRTIERLLRLVQMTYLIAQIFQLVRQLGDPRLLETAKTLLTLLKLAFEEGDELLIKSLLTLVAETYRQAAAEQ 7roj-a1-m1-cA_7roj-a1-m1-cB Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cA_7roj-a1-m1-cI Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 13 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cB_7roj-a1-m1-cD Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cC_7roj-a1-m1-cD Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cE_7roj-a1-m1-cF Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cE_7roj-a1-m1-cK Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cG_7roj-a1-m1-cH Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cG_7roj-a1-m1-cJ Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cI_7roj-a1-m1-cJ Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 35 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7roj-a1-m1-cK_7roj-a1-m1-cL Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation P02511 P02511 1.6 X-RAY DIFFRACTION 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 11 11 KVKVLWDVIEV KVKVLWDVIEV 7rol-a1-m6-cA_7rol-a1-m6-cB Amyloid-related segment of alphaB-crystallin residues 90-100 with G95W mutation, bromo derivative 1.996 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 10 10 7rol-a1-m1-cA_7rol-a1-m1-cB 7rol-a1-m2-cA_7rol-a1-m2-cB 7rol-a1-m3-cA_7rol-a1-m3-cB 7rol-a1-m4-cA_7rol-a1-m4-cB 7rol-a1-m5-cA_7rol-a1-m5-cB KVKVWDVIEV KVKVWDVIEV 7ror-a1-m1-cA_7ror-a1-m1-cB Plasmodium falciparum tyrosyl-tRNA synthetase in complex with tyrosine-AMP Q8IAR7 Q8IAR7 1.8 X-RAY DIFFRACTION 86 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 356 362 3vgj-a1-m1-cA_3vgj-a1-m1-cB 7ros-a1-m1-cA_7ros-a1-m1-cB 7rot-a1-m1-cA_7rot-a1-m1-cB AQEESKIEDVDKILNDILSISSECIQPDELRVKLLLKRKLICYDGFEPSGRMHIAQGLLKSIIVNKLTSNGCTFIFWIADWFAHLNNKMSGDLKKIKKVGSYFIEVWKSCGMNMENVQFLWASEEINKKPNEYWSLVLDISRSFNINRMKRCLKIMGRSEGEENYCSQILYPCMQCADIFFLNVDICQLGIDQRKVNMLAREYCDIKKIKKKPVILSHGMLPGLLEGQEKMSKSDENSAIFMDDSESDVNRKIKKAYCPPNVIENNPIYAYAKSIIFPSYNEFNLVRKEKNGGDKTYYTLQELEHDYVNGFIHPLDLKDNVAMYINKLLQPVRDHFQNNIEAKNLLNEIKKYKVTK EIEEKKAQEESKIEDVDKILNDILSISSECIQPDELRVKLLLKRKLICYDGFEPSGRMHIAQGLLKSIIVNKLTSNGCTFIFWIADWFAHLNNKMSGDLKKIKKVGSYFIEVWKSCGMNMENVQFLWASEEINKKPNEYWSLVLDISRSFNINRMKRCLKIMGRSEGEENYCSQILYPCMQCADIFFLNVDICQLGIDQRKVNMLAREYCDIKKIKKKPVILSHGMLPGLLEGQEKMSKSDENSAIFMDDSESDVNRKIKKAYCPPNVIENNPIYAYAKSIIFPSYNEFNLVRKEKNGGDKTYYTLQELEHDYVNGFIHPLDLKDNVAMYINKLLQPVRDHFQNNIEAKNLLNEIKKYKVTK 7roy-a2-m1-cB_7roy-a2-m1-cC The structure of the Fem1B:FNIP1 complex Q9Z2G0 Q9Z2G0 2.9 X-RAY DIFFRACTION 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 375 379 7roy-a1-m1-cD_7roy-a1-m1-cA MEGLAGYVYKAASEGKVLTLAALLLNRSESDIRYLLGYVSQQGGQRSTPLIIAARNGHAKVVRLLLEHYRVQTQQTGTVRFDGYVIDGATALWCAAGAGHFEVVKLLVSHGANVNHTTVTNSTPLRAACFDGRLDIVKYLVENNANISIANKYDNTCLMIAAYKGHTDVVRYLLEQRADPNAKAHCGATALHFAAEAGHIDIVKELIKWRAAIVVNGHGMTPLKVAAESCKADVVELLLSHADCDRRSRIEALELLGASFANDRENYDIMKTYHYLYLAMLERFQDGDNILEKEVLPPIHAYGNRTECRNPQELEAIRQDRDALHMEGLIVRERILGADNIDVSHPIIYRGAVYADNMEFEQCIKLWLHALHLRQ SSMEGLAGYVYKAASEGKVLTLAALLLNRSESDIRYLLGYVSQQGGQRSTPLIIAARNGHAKVVRLLLEHYRVQTQQTGTVRFDGYVIDGATALWCAAGAGHFEVVKLLVSHGANVNHTTVTNSTPLRAACFDGRLDIVKYLVENNANISIANKYDNTCLMIAAYKGHTDVVRYLLEQRADPNAKAHCGATALHFAAEAGHIDIVKELIKWRAAIVVNGHGMTPLKVAAESCKADVVELLLSHADCDRRSRIEALELLGASFANDRENYDIMKTYHYLYLAMLERFQDGDNILEKEVLPPIHAYGNRTECRNPQELEAIRQDRDALHMEGLIVRERILGADNIDVSHPIIYRGAVYADNMEFEQCIKLWLHALHLRQKG 7rpn-a1-m1-cA_7rpn-a1-m2-cA Crystal structure of triosephosphate isomerase from Bacteroides thetaiotaomicron Q8A0U2 Q8A0U2 1.37 X-RAY DIFFRACTION 131 1.0 818 (Bacteroides thetaiotaomicron) 818 (Bacteroides thetaiotaomicron) 252 252 MRKNIVAGNWKMNKTLQEGIALAKELNEALANEKPNCDVIICTPFIHLASVTPLVDAAKIGVGAENCADKASGAYTGEVSAEMVASTGAKYVILGHSERRAYYGETVAILEEKVKLALANGLTPIFCIGEVLEEREANKQNEVVAAQMESVFSLSAEDFSKIILAYEPVWAIGTGKTASPEQAQEIHAFIRSIVADKYGKEIADNTSILYGGSCKPSNAKELFSNPDVDGGLIGGAALKVSDFKGIIDAFNA MRKNIVAGNWKMNKTLQEGIALAKELNEALANEKPNCDVIICTPFIHLASVTPLVDAAKIGVGAENCADKASGAYTGEVSAEMVASTGAKYVILGHSERRAYYGETVAILEEKVKLALANGLTPIFCIGEVLEEREANKQNEVVAAQMESVFSLSAEDFSKIILAYEPVWAIGTGKTASPEQAQEIHAFIRSIVADKYGKEIADNTSILYGGSCKPSNAKELFSNPDVDGGLIGGAALKVSDFKGIIDAFNA 7rrm-a2-m1-cB_7rrm-a2-m2-cB Structure of the human TMED1 (p24gamma1) Golgi dynamics Domain Q13445 Q13445 1.72 X-RAY DIFFRACTION 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 7rrm-a1-m1-cA_7rrm-a1-m1-cC PIQDGEFTFLLPAGRKQCFYQSAPANASLETEYQVIGGAGLDVDFTLESPQGVLLVSESRKADGVHTVEPTEAGDYKLCFDNSFSTISEKLVFFELIFD PIQDGEFTFLLPAGRKQCFYQSAPANASLETEYQVIGGAGLDVDFTLESPQGVLLVSESRKADGVHTVEPTEAGDYKLCFDNSFSTISEKLVFFELIFD 7rro-a1-m1-cA0_7rro-a1-m1-cA1 Structure of the 48-nm repeat doublet microtubule from bovine tracheal cilia Q32KZ9 Q32KZ9 3.4 ELECTRON MICROSCOPY 189 1.0 9913 (Bos taurus) 9913 (Bos taurus) 221 396 TRLQKALESFKEPLHITEKCLEYREKRVGIDLVHDEVEQELIKEHEIIRGVMTLLTRTLVDRILFQTASDLRRQCDVVDTAFKNGLKETKDARDKLALHLDKVMEEIASQEKNIVVLEKAILDQEGPAKVAHTRLETRTHRPNVELCRDVAQYRLIKEVDEITHNVARLKETLAQAHVELKGLNRRQLALQEEIQIKENTIYIDEVLCVPMRKSIPPRDGD PPKFLRAEWQIANKNQYHRAEAQRSRSERLVAESQRLVDEIEKTTRKSQSDVNKKLEQRLEEVRFWKKELDDKLEQLVYATEDLLLYQTRLQKALESFKEPLHITEKCLEYREKRVGIDLVHDEVEQELIKEHEIIRGVMTLLTRTLEETCEQIRLNRSAKYNLEKDLRDKFTAITIDDICFSLNNNSPNIKYSENVVRVEPNSVSLEDWLDFSNTNVEKADKQRNNSLTLKALVDRILFQTASDLRRQCDVVDTAFKNGLKETKDARDKLALHLDKVMEEIASQEKNIVVLEKAILDQEGPAKVAHTRLETRTHRPNVELCRDVAQYRLIKEVDEITHNVARLKETLAQAHVELKGLNRRQLALQEEIQIKENTIYIDEVLCVPMRKSIPPRDGD 7rro-a1-m1-cA3_7rro-a1-m1-cA2 Structure of the 48-nm repeat doublet microtubule from bovine tracheal cilia Q32KZ9 Q32KZ9 3.4 ELECTRON MICROSCOPY 176 0.994 9913 (Bos taurus) 9913 (Bos taurus) 334 393 7rro-a1-m1-cA2_7rro-a1-m1-cA1 PPKFLRAEWQIANKNQYHRAEAQRSRSERLVAESQRLVDEIEKTTRKSQSDVNKKLEQRLEEVRFWKKELDDKLEQLVYATEDLLLYQTRLQKALESFKEPLHITEKCLEYREKRVGIDLVHDEVEQELIKEHEIIRGVMTLLTRTLEETCEQIRLNRSAKYNLEKDLRDKFTAITIDDICFSLNNNSPNIKYSENVVRVEPNSVSLEDWLDFSNTNVEKADKQRNNSLTLKALVDRILFQTASDLRRQCDVVDTAFKNGLKETKDARDKLALHLDKVMEEIASQEKNQAHVELKGLNRRQLALQEEIQIKENTIYIDEVLCVPMRKSIPPRDG PPKFLRAEWQIANKNQYHRAEAQRSRSERLVAESQRLVDEIEKTTRKSQSDVNKKLEQRLEEVRFWKKELDDKLEQLVYATEDLLLYQTRLQKALESFKEPLHITEKCLEYREKRVGIDLVHDEVEQELIKEHEIIRGVMTLLTRTLEETCEQIRLNRSAKYNLEKDLRDKFTAITIDDICFSLNNNSPNIKYSENVVRVEPNSVSLEDWLDFSNTNVEKADKQRNNSLTLKALVDRILFQTASDLRRQCDVVDTAFKNGLKETKDARDKLALHLDKVMEEIASQEKNIVVLEKAILDQEGPAKVAHTRLETRTHRPNVELCRDVAQYRLIKEVDEITHNVARLKETLAQAHVELKGLNRRQLALQEEIQIKENTIYIDEVLCVPMRKSIPPR 7rro-a1-m1-cB0_7rro-a1-m1-cB1 Structure of the 48-nm repeat doublet microtubule from bovine tracheal cilia Q2T9Q6 Q2T9Q6 3.4 ELECTRON MICROSCOPY 201 1.0 9913 (Bos taurus) 9913 (Bos taurus) 189 416 ATLSVKPSPRFRLPDWQTNSYLLSTNAERQRDASHQIRQEARVLRNETNNQTIWDEHDNRTRLAERIDTVSRWKEMLDKCLTDLDAEIDALAQMKESQKISQAFEKLFLLQEARQRLNSDHRGKMETLDIDRGCLSLNLTSPNISLKINPTRVPNGSTSLQQWDDLSRFNKDHGEAEMKKAIELREAIA ATLSVKPSPRFRLPDWQTNSYLLSTNAERQRDASHQIRQEARVLRNETNNQTIWDEHDNRTRLAERIDTVSRWKEMLDKCLTDLDAEIDALAQMKESAEQNLQAKNLPLDVAIECLTLRESRRDIDVVKDPVEEELHKEVEVIEATKKALQQKISQAFEKLFLLQEARQRLNSDHRGKMETLDIDRGCLSLNLTSPNISLKINPTRVPNGSTSLQQWDDLSRFNKDHGEAEMKKAIELREAIALTIAETNNELEAQRVATEFAFRKRLREMEKLYSELKWQEKNTLEEIAELHEDIRHLEEDLRRKLQNLKLCHTRLEARTYRPNVELCRDQAQYGLTDEVHQLEATIAALKQKLAQAQDALDALYKHLARLQADIACKANSMLLDTKCMDTRRKLTVPAEKFVPEVDTFTRTTNR 7rro-a1-m1-cD3_7rro-a1-m1-cD2 Structure of the 48-nm repeat doublet microtubule from bovine tracheal cilia Q2TA38 Q2TA38 3.4 ELECTRON MICROSCOPY 191 1.0 9913 (Bos taurus) 9913 (Bos taurus) 316 425 7rro-a1-m1-cD1_7rro-a1-m1-cD2 7rro-a1-m1-cD6_7rro-a1-m1-cD7 7rro-a1-m1-cD8_7rro-a1-m1-cD7 LQDMHGWKSELQRQVEELVSETELLLAQKQRLERALDATAGPFSIVTDNLQCRERRQHPDLVRDCVEIELLKEAELIRNIQELLKRTIKQAVSQIRLNWEHKETCEMDWSDKVEAYNIDASTPETWAKFTQEHLYRAERERLASVNLRNLIDCILQDTSEDLRLQCDAVNLAFGRRCEELEDARHKLEHHLRKTLREISDQEHNIAALKQAIKDKEAPLKVAQTRLYQRSHRPNVELCRDAAQFRLASEVEELNLSLAALKEKLLEAEQSLRNLEDTRMSLEKDIAIKTNSLFIDRHKCMAHRAHYPTVLQLAGYQ PRKLYDVARNTGAHTSSGLATSGFRTAKYLLDEWFQNCYARYHQAFADRDQSERQRHESQQLAAETEALAQRTQQDSTRKVGERLQDMHGWKSELQRQVEELVSETELLLAQKQRLERALDATAGPFSIVTDNLQCRERRQHPDLVRDCVEIELLKEAELIRNIQELLKRTIKQAVSQIRLNWEHKETCEMDWSDKVEAYNIDEACCRYNNQSTDVQFYPHSAKFEESASTPETWAKFTQEHLYRAERERLASVNLRNLIDCILQDTSEDLRLQCDAVNLAFGRRCEELEDARHKLEHHLRKTLREISDQEHNIAALKQAIKDKEAPLKVAQTRLYQRSHRPNVELCRDAAQFRLASEVEELNLSLAALKEKLLEAEQSLRNLEDTRMSLEKDIAIKTNSLFIDRHKCMAHRAHYPTVLQLAGYQ 7rro-a1-m1-cD5_7rro-a1-m1-cD6 Structure of the 48-nm repeat doublet microtubule from bovine tracheal cilia Q2TA38 Q2TA38 3.4 ELECTRON MICROSCOPY 32 1.0 9913 (Bos taurus) 9913 (Bos taurus) 9 319 HRPNVELCR RLQDMHGWKSELQRQVEELVSETELLLAQKQRLERALDATAGPFSIVTDNLQCRERRQHPDLVRDCVEIELLKEAELIRNIQELLKRTIKQAVSQIRLNWEHKETCEMDWSDKVEAYNIDESASTPETWAKFTQEHLYRAERERLASVNLRNLIDCILQDTSEDLRLQCDAVNLAFGRRCEELEDARHKLEHHLRKTLREISDQEHNIAALKQAIKDKEAPLKVAQTRLYQRSHRPNVELCRDAAQFRLASEVEELNLSLAALKEKLLEAEQSLRNLEDTRMSLEKDIAIKTNSLFIDRHKCMAHRAHYPTVLQLAGYQ 7rro-a1-m1-cF0_7rro-a1-m1-cF1 Structure of the 48-nm repeat doublet microtubule from bovine tracheal cilia A6H782 A6H782 3.4 ELECTRON MICROSCOPY 190 1.0 9913 (Bos taurus) 9913 (Bos taurus) 139 421 THSLSLPWRPSTYYKAASNWPTLDPYCTRSFTRYTPDDWYRSNLTNFQESNTSRHNSERLRVDTSRLIQDKYQQTRKTQADSTQNLGERVNDIGFWKDKQSAYRIDDKCHHLRNTSDGVSYFHGVERVDATVSVPESWA THSLSLPWRPSTYYKAASNWPTLDPYCTRSFTRYTPDDWYRSNLTNFQESNTSRHNSERLRVDTSRLIQDKYQQTRKTQADSTQNLGERVNDIGFWKSEIIHELDAMIGETNELTDIKKRLERALMETEAPLQVARECLFHREKRMGIDLVHDEVEKELLTEVDTILCCQERMKLYLDKAIAQLAANRAAQHELEKDLSDKQSAYRIDDKCHHLRNTSDGVSYFHGVERVDATVSVPESWAKFTDDNILRSQSERAASAKLRDDIQNVLVVTANEMWNQFNKVNLAFTNRIAETADAKNKIQTHLAKTLQEIFQTEMTIESIKKAIVEKSAFLKVAQTRLDERTRRPNIELCRDMAQLRLVNEVYEVDDTIQTLQQRLRDAEDTLQSLAHTKATLEHDLAVKANSLYIDQDKCMSMRRSFP 7rsf-a1-m1-cB_7rsf-a1-m1-cA Acetylornithine deacetylase from Escherichia coli P23908 P23908 2.13 X-RAY DIFFRACTION 141 1.0 511145 (Escherichia coli str. K-12 substr. MG1655) 511145 (Escherichia coli str. K-12 substr. MG1655) 379 380 KLPPFIEIYRALIATPSISATEEALDQSNADLITLLADWFKDLGFNVEVQPVPGTRNKFNMLASTGQGAGGLLLAGHTDTVPFDDGRWTRDPFTLTEHDGKLYGLGTADMKGFFAFILDALRDVDVTKLKKPLYILATADEETSMAGARYFAETTALRPDCAIIGEPTSLQPVRAHKGHISNAIRIQGQSGHSSDPARGVNAIELMHDAIGHILQLRDNLKERYHYEAFTVPYPTLNLGHIHGGDASNRICAWCELHMDIRPLPGMTLNELNGLLNDALAPVSERWPGRLTVDELHPPIPGYECPPNHQLVEVVEKLLGAKTEVVNYCTEAPFIQTLCPTLVLGPGSINQAHQPDEYLETRFIKPTRELITQVIHHFCW KLPPFIEIYRALIATPSISATEEALDQSNADLITLLADWFKDLGFNVEVQPVPGTRNKFNMLASTGQGAGGLLLAGHTDTVPFDDGRWTRDPFTLTEHDGKLYGLGTADMKGFFAFILDALRDVDVTKLKKPLYILATADEETSMAGARYFAETTALRPDCAIIGEPTSLQPVRAHKGHISNAIRIQGQSGHSSDPARGVNAIELMHDAIGHILQLRDNLKERYHYEAFTVPYPTLNLGHIHGGDASNRICAWCELHMDIRPLPGMTLNELNGLLNDALAPVSERWPGRLTVDELHPPIPGYECPPNHQLVEVVEKLLGAKTEVVNYCTEAPFIQTLCPTLVLGPGSINQAHQPDEYLETRFIKPTRELITQVIHHFCWH 7rsn-a1-m1-cG_7rsn-a1-m1-cC AMC018 SOSIP.v4.2 in complex with PGV04 Fab 3.49 ELECTRON MICROSCOPY 33 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 421 421 7rsn-a1-m1-cA_7rsn-a1-m1-cC 7rsn-a1-m1-cG_7rsn-a1-m1-cA WVTVYYGVPVWKEATTTLFCASRNVWATHACVPTDPNPQEVVLENVTENFNMWRNNMVEQMHEDIISLWDQSLKPCVKLTPLCVTLNCSDIKNCSFNITTNIRDKVQKVYATFYKLDIVPIDTNYRLISCNTSVLTQACPKISFEPIPIHYCAPAGFAILKCNNKTFNGKGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEVVIRSENFTDNAKTIIVQLNESVEINCTRPNNNTRRSISIGPGRWFYTTGEIIGNIRQAHCNISRAKWNNTLQQIVNKLREKFENKTIVFNQPSGGDPEIVMHSFNCGGEFFYCNTTQLFNSTWNNTITLPCRIKQIINMWQEVGKAMYAPPIKGQIRCSSNITGLLLTRDGGKTTNNTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGIAPTKCKRR WVTVYYGVPVWKEATTTLFCASRNVWATHACVPTDPNPQEVVLENVTENFNMWRNNMVEQMHEDIISLWDQSLKPCVKLTPLCVTLNCSDIKNCSFNITTNIRDKVQKVYATFYKLDIVPIDTNYRLISCNTSVLTQACPKISFEPIPIHYCAPAGFAILKCNNKTFNGKGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEVVIRSENFTDNAKTIIVQLNESVEINCTRPNNNTRRSISIGPGRWFYTTGEIIGNIRQAHCNISRAKWNNTLQQIVNKLREKFENKTIVFNQPSGGDPEIVMHSFNCGGEFFYCNTTQLFNSTWNNTITLPCRIKQIINMWQEVGKAMYAPPIKGQIRCSSNITGLLLTRDGGKTTNNTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGIAPTKCKRR 7rso-a1-m1-cD_7rso-a1-m1-cC AMC016 SOSIP.v4.2 in complex with PGV04 Fab 4.1 ELECTRON MICROSCOPY 24 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 437 437 7rso-a1-m1-cA_7rso-a1-m1-cC 7rso-a1-m1-cD_7rso-a1-m1-cA EELWVTVYYGVPVWKEATTTLFCASDRNVWATHACVPTDPSPQEVVLANVTENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTPLCVTLNCTDLEKGEIKNCSFNITTSVRDKMQKEYATFYKLDIVPIDNDNNSYRLINCNTSVITQACPKVSFEPIPIHYCAPAGFAILKCNNKTFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTDNAKTIIVQLNESVEINCTRPNNNTRKSIHIGPGRWFYTTGQIIGNIRQAHCNISRAKWNNTLHKIVKKLREQFRNKTIVFKQSSGGDPEIVMHSFNCGGEFFYCNSTQLFNSTWYGNESSEGNITLPCRIKQIINLWQEVGKAMYAPPIGGQIRCSSNITGLLLTRDGGNNNITTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKCK EELWVTVYYGVPVWKEATTTLFCASDRNVWATHACVPTDPSPQEVVLANVTENFNMWKNNMVEQMHEDIISLWDQSLKPCVKLTPLCVTLNCTDLEKGEIKNCSFNITTSVRDKMQKEYATFYKLDIVPIDNDNNSYRLINCNTSVITQACPKVSFEPIPIHYCAPAGFAILKCNNKTFNGTGPCTNVSTVQCTHGIRPVVSTQLLLNGSLAEEEIVIRSENFTDNAKTIIVQLNESVEINCTRPNNNTRKSIHIGPGRWFYTTGQIIGNIRQAHCNISRAKWNNTLHKIVKKLREQFRNKTIVFKQSSGGDPEIVMHSFNCGGEFFYCNSTQLFNSTWYGNESSEGNITLPCRIKQIINLWQEVGKAMYAPPIGGQIRCSSNITGLLLTRDGGNNNITTEIFRPGGGDMRDNWRSELYKYKVVKIEPLGVAPTKCK 7rso-a1-m1-cE_7rso-a1-m1-cF AMC016 SOSIP.v4.2 in complex with PGV04 Fab 4.1 ELECTRON MICROSCOPY 40 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 124 124 7rsn-a1-m1-cB_7rsn-a1-m1-cD 7rsn-a1-m1-cB_7rsn-a1-m1-cI 7rsn-a1-m1-cD_7rsn-a1-m1-cI 7rso-a1-m1-cB_7rso-a1-m1-cE 7rso-a1-m1-cB_7rso-a1-m1-cF LGFLGAAGSTMGAASMTLTVQARQLLSKLTVWGIKQLQARVLAVERYLKDQQLLGIWGCSGKLICCTAVPWNASWSNKSLDNIWNNMTWMEWEKEISNYTNLIYNLIEESQNQQEKNEQELLEL LGFLGAAGSTMGAASMTLTVQARQLLSKLTVWGIKQLQARVLAVERYLKDQQLLGIWGCSGKLICCTAVPWNASWSNKSLDNIWNNMTWMEWEKEISNYTNLIYNLIEESQNQQEKNEQELLEL 7rsx-a1-m1-cA_7rsx-a1-m1-cD HIV-1 gp120 complex with CJF-III-049-S 2.75 X-RAY DIFFRACTION 10 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 335 335 7rsx-a1-m1-cB_7rsx-a1-m1-cC KTTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEMVLANVTENFNMWKNDMVEQMHEDIISLWDESLKPCVKLTGGSAITQACPKVSFDPIPLHYCAPAGFAILKCNNKTFNGTGPCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENLTNNAKTIIVHLNESVNIVCTRPNNIRQAHCNINESKWNNTLQKVGEELAKHFPSKTIKFEPSSGGDLEITTHSFNCRGEFFYCNTSDLFNGTYRNGTYNHTGRSSNGTITLQCKIKQIINMWQEVGRAIYAPPIEGEITCNSNITGLLLLRDDTETFRPGGGDMRDNWRSELYKYKVVE KTTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEMVLANVTENFNMWKNDMVEQMHEDIISLWDESLKPCVKLTGGSAITQACPKVSFDPIPLHYCAPAGFAILKCNNKTFNGTGPCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENLTNNAKTIIVHLNESVNIVCTRPNNIRQAHCNINESKWNNTLQKVGEELAKHFPSKTIKFEPSSGGDLEITTHSFNCRGEFFYCNTSDLFNGTYRNGTYNHTGRSSNGTITLQCKIKQIINMWQEVGRAIYAPPIEGEITCNSNITGLLLLRDDTETFRPGGGDMRDNWRSELYKYKVVE 7rsx-a1-m1-cB_7rsx-a1-m1-cD HIV-1 gp120 complex with CJF-III-049-S 2.75 X-RAY DIFFRACTION 19 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 335 335 7rsx-a1-m1-cA_7rsx-a1-m1-cC KTTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEMVLANVTENFNMWKNDMVEQMHEDIISLWDESLKPCVKLTGGSAITQACPKVSFDPIPLHYCAPAGFAILKCNNKTFNGTGPCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENLTNNAKTIIVHLNESVNIVCTRPNNIRQAHCNINESKWNNTLQKVGEELAKHFPSKTIKFEPSSGGDLEITTHSFNCRGEFFYCNTSDLFNGTYRNGTYNHTGRSSNGTITLQCKIKQIINMWQEVGRAIYAPPIEGEITCNSNITGLLLLRDDTETFRPGGGDMRDNWRSELYKYKVVE KTTLFCASDAKAYEKEVHNVWATHACVPTDPNPQEMVLANVTENFNMWKNDMVEQMHEDIISLWDESLKPCVKLTGGSAITQACPKVSFDPIPLHYCAPAGFAILKCNNKTFNGTGPCRNVSTVQCTHGIKPVVSTQLLLNGSLAEEEIIIRSENLTNNAKTIIVHLNESVNIVCTRPNNIRQAHCNINESKWNNTLQKVGEELAKHFPSKTIKFEPSSGGDLEITTHSFNCRGEFFYCNTSDLFNGTYRNGTYNHTGRSSNGTITLQCKIKQIINMWQEVGRAIYAPPIEGEITCNSNITGLLLLRDDTETFRPGGGDMRDNWRSELYKYKVVE 7rtm-a1-m1-cA_7rtm-a1-m1-cB Cryo-EM Structure of the Sodium-driven Chloride/Bicarbonate Exchanger NDCBE (SLC4A8) Q6RVG2 Q6RVG2 3.4 ELECTRON MICROSCOPY 130 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 571 571 LFGGLVLDVKRKAPWYWSDYRDALSLQCLASFLFLYCACMSPVITFGGLLGEATEGRISAIESLFGASMTGIAYSLFAGQPLTILGSTGPVLVFEKILFKFCKDYALSYLSLRACIGLWTAFLCIVLVATDASSLVCYITRFTEEAFASLICIIFIYEAIEKLIHLAETYPIHMHSQLDHLSLYYCRCALPENPNNHTLQYWKEHSIPTADVNWANLTVSECQEMHGEFIGSACGHHGPYTPDVLFWSCILFFATFIVSSTLKTFKTSRYFPTRVRSTVSDFAVFLTIFTMVILDFLIGVPSPKLQVPSVFKPTRDDRGWFISPIGPNPWWTVIAAIIPALLCTILIFMDQQITAVIINRKEHKLKKGCGYHLDLLVVAIMLGVCSLMGLPWFVAATVLSITHVNSLKLESECSAPGEQPKFLGIREQRVTGLMIFVLMGCSVFMTAVLKFIPMPVLYGVFLYMGVSSLQGIQFFDRLKLFGMPAKHQPDFIYLRHVPLRKVHLFTLVQLTCLVLLWVIKASPAAIVFPMMVLALVFVRKVMDLCFSKRELSWLDDLMPESKKKKLDDAKK LFGGLVLDVKRKAPWYWSDYRDALSLQCLASFLFLYCACMSPVITFGGLLGEATEGRISAIESLFGASMTGIAYSLFAGQPLTILGSTGPVLVFEKILFKFCKDYALSYLSLRACIGLWTAFLCIVLVATDASSLVCYITRFTEEAFASLICIIFIYEAIEKLIHLAETYPIHMHSQLDHLSLYYCRCALPENPNNHTLQYWKEHSIPTADVNWANLTVSECQEMHGEFIGSACGHHGPYTPDVLFWSCILFFATFIVSSTLKTFKTSRYFPTRVRSTVSDFAVFLTIFTMVILDFLIGVPSPKLQVPSVFKPTRDDRGWFISPIGPNPWWTVIAAIIPALLCTILIFMDQQITAVIINRKEHKLKKGCGYHLDLLVVAIMLGVCSLMGLPWFVAATVLSITHVNSLKLESECSAPGEQPKFLGIREQRVTGLMIFVLMGCSVFMTAVLKFIPMPVLYGVFLYMGVSSLQGIQFFDRLKLFGMPAKHQPDFIYLRHVPLRKVHLFTLVQLTCLVLLWVIKASPAAIVFPMMVLALVFVRKVMDLCFSKRELSWLDDLMPESKKKKLDDAKK 7rtn-a1-m1-cA_7rtn-a1-m1-cC Cryo-EM structure of bluetongue virus capsid protein VP5 at low endosomal pH K7QP12 K7QP12 3.4 ELECTRON MICROSCOPY 97 1.0 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 10905 (Bluetongue virus (serotype 1 / isolate South Africa)) 270 270 7rtn-a1-m1-cA_7rtn-a1-m1-cB 7rtn-a1-m1-cB_7rtn-a1-m1-cC 7rto-a1-m1-cA_7rto-a1-m1-cC TGESYGESVKQAVLLNVLGSGEEIPDPLSPGERGIQAKLKELEDEQRNELVRLKYNDKIKEKFGKELEEVYNFMNIKNEILPRFKKAMDEEKEICGIEDKVIHPKVMMKFKIPRAQQPQIHVYSAPWDSDDVFFFHCISHHHANESFFLGFDLSIDLVHYEDLTAHWHALGAAQTAAGRTLTEAYREFLNLAISNAFGTQMHTRRLVRSKTVHPIYLGSLHYDISFSDLRGNAQRIVYDDELQMHILRGPIHFQRRAILGALKFGCKVLG TGESYGESVKQAVLLNVLGSGEEIPDPLSPGERGIQAKLKELEDEQRNELVRLKYNDKIKEKFGKELEEVYNFMNIKNEILPRFKKAMDEEKEICGIEDKVIHPKVMMKFKIPRAQQPQIHVYSAPWDSDDVFFFHCISHHHANESFFLGFDLSIDLVHYEDLTAHWHALGAAQTAAGRTLTEAYREFLNLAISNAFGTQMHTRRLVRSKTVHPIYLGSLHYDISFSDLRGNAQRIVYDDELQMHILRGPIHFQRRAILGALKFGCKVLG 7rtt-a1-m1-cB_7rtt-a1-m1-cA Cryo-EM structure of a TTYH2 cis-dimer Q3TH73 Q3TH73 3.5 ELECTRON MICROSCOPY 62 1.0 10090 (Mus musculus) 10090 (Mus musculus) 395 396 RVEYIAPWWVVWLHSVPHLGLRLQRVDSTFSPGDETYQESLLFLGVLAAIGLGLNLIFLTVYLVCTCCCVTWTAVVAGLLCCAAVGVGFYGNSETNDGMHQLIYSLDNANHTFSGMDELVSANTQRMKVDLEQHLARLSEIIAARGDYIQTLKFMQQMAGNVVSQLSGLPVWREVTTQLTKLSHQTAYVEYYRWLSYLLLFILDLVICLVTCLGLARRSKCLLASMLCCGILTLILSWASLAADAAAAVGTSDFCMAPDIYILNNTGSQINSEVTRYYLHCSQSLISPFQQSLTTFQRSLTTMQIQVGGLLQFAVPLFPTAEKDLLGIQLLLNNSEISLHQLTAMLDCRGLHKDYLDALTGICYDGIEGLLFLGLFSLLAALAFSTLTCAGPRAW ARVEYIAPWWVVWLHSVPHLGLRLQRVDSTFSPGDETYQESLLFLGVLAAIGLGLNLIFLTVYLVCTCCCVTWTAVVAGLLCCAAVGVGFYGNSETNDGMHQLIYSLDNANHTFSGMDELVSANTQRMKVDLEQHLARLSEIIAARGDYIQTLKFMQQMAGNVVSQLSGLPVWREVTTQLTKLSHQTAYVEYYRWLSYLLLFILDLVICLVTCLGLARRSKCLLASMLCCGILTLILSWASLAADAAAAVGTSDFCMAPDIYILNNTGSQINSEVTRYYLHCSQSLISPFQQSLTTFQRSLTTMQIQVGGLLQFAVPLFPTAEKDLLGIQLLLNNSEISLHQLTAMLDCRGLHKDYLDALTGICYDGIEGLLFLGLFSLLAALAFSTLTCAGPRAW 7rtu-a1-m1-cB_7rtu-a1-m1-cA Cryo-EM structure of a TTYH2 trans-dimer Q3TH73 Q3TH73 3.89 ELECTRON MICROSCOPY 60 1.0 10090 (Mus musculus) 10090 (Mus musculus) 359 395 ETYQESLLFLGVLAAIGLGLNLIFLTVYLVCTCVTWTAVVAGLLCCAAVGVGFYGNSETNDGMHQLIYSLDNANHTFSGMDELVSANTQRMKVDLEQHLARLSEIIAARGDYIQTLKFMQQMAGNVVSQLSGLPVWREVTTQLTKLSHQTAYVEYYRWLSYLLLFILDLVICLVTCLGLARRSKCLLASMLCCGILTLILSWASLAADAAAAVGTSDFCMAPDIYILNNTGSQINSEVTRYYLHCSQSLISPFQQSLTTFQRSLTTMQIQVGGLLQFAVPLFPTAEKDLLGIQLLLNNSEISLHQLTAMLDCRGLHKDYLDALTGICYDGIEGLLFLGLFSLLAALAFSTLTCAGPRAW RVEYIAPWWVVWLHSVPHLGLRLQRVDSTFSPGDETYQESLLFLGVLAAIGLGLNLIFLTVYLVCTCCCVTWTAVVAGLLCCAAVGVGFYGNSETNDGMHQLIYSLDNANHTFSGMDELVSANTQRMKVDLEQHLARLSEIIAARGDYIQTLKFMQQMAGNVVSQLSGLPVWREVTTQLTKLSHQTAYVEYYRWLSYLLLFILDLVICLVTCLGLARRSKCLLASMLCCGILTLILSWASLAADAAAAVGTSDFCMAPDIYILNNTGSQINSEVTRYYLHCSQSLISPFQQSLTTFQRSLTTMQIQVGGLLQFAVPLFPTAEKDLLGIQLLLNNSEISLHQLTAMLDCRGLHKDYLDALTGICYDGIEGLLFLGLFSLLAALAFSTLTCAGPRAW 7rtw-a1-m1-cB_7rtw-a1-m1-cA Cryo-EM structure of a TTYH3 cis-dimer Q6P5F7 Q6P5F7 3.23 ELECTRON MICROSCOPY 76 1.0 10090 (Mus musculus) 10090 (Mus musculus) 313 388 7p5c-a1-m1-cA_7p5c-a1-m1-cB TAWCVIITTLVCSAGIAVGFYGNGETSDGIHRATYSLRHANRTVAGVQDRVWDTAAALNRTAEPNLQSLERQLAGRQEPLRAVQRLQTLLGTLLGYTAAIPFWRNPGVSLEVLAEQVDLYDWYRWLGYLGLLLLDVIICLLVLVGLIRSVCLLGVLALVISWGALGLELAVSVGSSDFCVDPDTFVTKMVEEHSVLSGDILQYYLACSPRATNPFQQKLSGSHKALVEMQDVVAELLRNVPREHPATKDPLLRVQEVLNGTEVNLQHLTALVDCRSLHLDYVQALTGFCYDGVEGLIYLALFSFVTALMFSSI YAAPWWVSLLHRLPHFDLRWEATSSQFRPEDADYQQALLLLGATALACLALDLLFLLFYSFWTAWCVIITTLVCSAGIAVGFYGNGETSDGIHRATYSLRHANRTVAGVQDRVWDTAAALNRTAEPNLQSLERQLAGRQEPLRAVQRLQTLLGTLLGYTAAIPFWRNPGVSLEVLAEQVDLYDWYRWLGYLGLLLLDVIICLLVLVGLIRSSKGILVGVCLLGVLALVISWGALGLELAVSVGSSDFCVDPDTFVTKMVEEHSVLSGDILQYYLACSPRATNPFQQKLSGSHKALVEMQDVVAELLRNVPREHPATKDPLLRVQEVLNGTEVNLQHLTALVDCRSLHLDYVQALTGFCYDGVEGLIYLALFSFVTALMFSSIVCSIPH 7rtz-a1-m1-cA_7rtz-a1-m1-cB X-ray crystallographic structure of a beta-hairpin peptide derived from amyloid beta 14-40 P05067 P05067 2.1 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 21 21 VHHCKLVFFAEAIILMVCGVV VHHCKLVFFAEAIILMVCGVV 7ru3-a1-m1-cC_7ru3-a1-m1-cA CC6.33 IgG in complex with SARS-CoV-2-6P-Mut7 S protein (non-uniform refinement) P0DTC2 P0DTC2 3.3 ELECTRON MICROSCOPY 282 0.998 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 989 1062 7ru3-a1-m1-cB_7ru3-a1-m1-cA QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSSGWTAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYFVIRGDEVRQIAPGQTIADYNYKLPFTGCVIAWNSNNLNYNYLYRKPFERLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ru5-a1-m1-cA_7ru5-a1-m1-cB CC6.30 fragment antigen binding in complex with SARS-CoV-2-6P-Mut7 S protein (non-uniform refinement) P0DTC2 P0DTC2 3.6 ELECTRON MICROSCOPY 255 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1028 1028 7ru5-a1-m1-cA_7ru5-a1-m1-cC 7ru5-a1-m1-cB_7ru5-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSSGWTAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSSGWTAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7ru7-a1-m1-cA_7ru7-a1-m2-cA Crystal structure of BtrK, a decarboxylase involved in butirosin biosynthesis Q2L4H3 Q2L4H3 1.4 X-RAY DIFFRACTION 231 1.0 1397 (Niallia circulans) 1397 (Niallia circulans) 411 411 2j66-a1-m1-cA_2j66-a1-m2-cA MNLDQAEITALTKRFETPFYLYDGDFIEAHYRQLRSRTNPAIQFYLSLKANNNIHLAKLFRQWGLGVEVASAGELALARHAGFSAENIIFSGPGKKRSELEIAVQSGIYCIIAESVEELFYIEELAEKENKTAVAIRINPDKSFGSTAIKMGGVPRQFGMDESMLDAVMDAVRSLQFTKFIGIHVYTGTQNLNTDSIIESMKYTVDLGRNIYERYGIVCECINLGGGFGVPYFSHEKALDIGKITRTVSDYVQEARDTRFPQTTFIIESGRYLLAQAAVYVTEVLYRKASKGEVFVIVDGGMHHHAASTFSNYPMEYIPVREDSGRRELEKVTIAGPLCTPEDCLGKDVHVPALYPGDLVCVLNSGAYGLSFSPVHFLGHPTPIEILKRNGSYELIRRKGTADDIVATQLQ MNLDQAEITALTKRFETPFYLYDGDFIEAHYRQLRSRTNPAIQFYLSLKANNNIHLAKLFRQWGLGVEVASAGELALARHAGFSAENIIFSGPGKKRSELEIAVQSGIYCIIAESVEELFYIEELAEKENKTAVAIRINPDKSFGSTAIKMGGVPRQFGMDESMLDAVMDAVRSLQFTKFIGIHVYTGTQNLNTDSIIESMKYTVDLGRNIYERYGIVCECINLGGGFGVPYFSHEKALDIGKITRTVSDYVQEARDTRFPQTTFIIESGRYLLAQAAVYVTEVLYRKASKGEVFVIVDGGMHHHAASTFSNYPMEYIPVREDSGRRELEKVTIAGPLCTPEDCLGKDVHVPALYPGDLVCVLNSGAYGLSFSPVHFLGHPTPIEILKRNGSYELIRRKGTADDIVATQLQ 7rua-a1-m1-cA_7rua-a1-m1-cB Metazoan pre-targeting GET complex (cBUGG-out) Q6IQE5 Q6IQE5 3.4 ELECTRON MICROSCOPY 161 1.0 7955 (Danio rerio) 7955 (Danio rerio) 305 305 7ru9-a1-m1-cA_7ru9-a1-m1-cB 7ruc-a1-m1-cB_7ruc-a1-m1-cA EPLEPTLKNIIEQKSLKWIFVGGKGGVGKTTCSCSLAVQLAAVRESVLIISTNPAHNISDAFDQKFSKVPTKVKGYDNLFAMEIDPSLGVAELPDEFFEEDNMLSMGKKMMQEAMSAFPGIDEAMSYAEVMRLVKGMNFSVVVFDTAPTGHTLRLLNFPTIVERGLGRLMQIKNQDQLASKLEETLPVIRSVSEQFKDPEQTTFICVCIAEFLSLYETERLIQELAKCRIDTHNIIVNQLVFPDNERPCKMCEARHKIQSKYLDQMEDLYEDFHIVKLPLLPHEVRGADKVNTFSKQLLEPYSPP EPLEPTLKNIIEQKSLKWIFVGGKGGVGKTTCSCSLAVQLAAVRESVLIISTNPAHNISDAFDQKFSKVPTKVKGYDNLFAMEIDPSLGVAELPDEFFEEDNMLSMGKKMMQEAMSAFPGIDEAMSYAEVMRLVKGMNFSVVVFDTAPTGHTLRLLNFPTIVERGLGRLMQIKNQDQLASKLEETLPVIRSVSEQFKDPEQTTFICVCIAEFLSLYETERLIQELAKCRIDTHNIIVNQLVFPDNERPCKMCEARHKIQSKYLDQMEDLYEDFHIVKLPLLPHEVRGADKVNTFSKQLLEPYSPP 7rw6-a1-m1-cA_7rw6-a1-m1-cC BORF2-APOBEC3Bctd Complex P03190 P03190 2.55 ELECTRON MICROSCOPY 32 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 642 642 HVEHELLSKLIDELKVKANSDPEADVLAGRLLHRLKAESVTHTVAEYLEVFSDKFYDEEFFQMHRDELETRVSAFAQSPAYERIVSSGYLSALRYYDTYLYVGRSGKQESVQHFYMRLAGFCASTTCLYAGLRAALQRARPEIESDMEVFDYYFEHLTSQTVCCSTPFMRFAGVENSTLASCILTTPDLHLGRYLFQRAGVGVGVTGAGQVSVAAYMEPWHSQIFKFLETGIFTGLFVPELFFKLFRDTPWSDWYLFDPKDAGDLERLYGEEFEREYYRLVTAGKFCGRVSIKSLMFSIVNCAVKAGSPFILLKEACNAHFWRDLQGEAMNAANLCAEVLQPSRKSVATCNLANICLPRCLVNAPLAVRAQRADTQGDELLLALPRLSVTLPGEGAVGDGFSLARLRDATQCATFVVACSILQGSPTYDSRDMASMGLGVQGLADVFADLGWQYTDPPSRSLNKEIFEHMYFTALCTSSLIGLHTRKIFPGFKQSKYAGGWFHWHDWAGTDLSIPREIWSRLSERIVRDGLFNSQFIALMPTSGCAQVTGCSDAFYPFYAGRVSCLPEALRQRYLRFQTAFDYNQEDLIQMSRDRAPFVDQSQSHSLFLREEDAARASTLANLLVRSYELGLKTIMYYCRIE HVEHELLSKLIDELKVKANSDPEADVLAGRLLHRLKAESVTHTVAEYLEVFSDKFYDEEFFQMHRDELETRVSAFAQSPAYERIVSSGYLSALRYYDTYLYVGRSGKQESVQHFYMRLAGFCASTTCLYAGLRAALQRARPEIESDMEVFDYYFEHLTSQTVCCSTPFMRFAGVENSTLASCILTTPDLHLGRYLFQRAGVGVGVTGAGQVSVAAYMEPWHSQIFKFLETGIFTGLFVPELFFKLFRDTPWSDWYLFDPKDAGDLERLYGEEFEREYYRLVTAGKFCGRVSIKSLMFSIVNCAVKAGSPFILLKEACNAHFWRDLQGEAMNAANLCAEVLQPSRKSVATCNLANICLPRCLVNAPLAVRAQRADTQGDELLLALPRLSVTLPGEGAVGDGFSLARLRDATQCATFVVACSILQGSPTYDSRDMASMGLGVQGLADVFADLGWQYTDPPSRSLNKEIFEHMYFTALCTSSLIGLHTRKIFPGFKQSKYAGGWFHWHDWAGTDLSIPREIWSRLSERIVRDGLFNSQFIALMPTSGCAQVTGCSDAFYPFYAGRVSCLPEALRQRYLRFQTAFDYNQEDLIQMSRDRAPFVDQSQSHSLFLREEDAARASTLANLLVRSYELGLKTIMYYCRIE 7rwb-a1-m1-cM_7rwb-a1-m1-cm AP2 bound to the APA domain of SGIP in the presence of heparin P84091 P84091 3.9 ELECTRON MICROSCOPY 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 393 393 MIGGLFIYNHKGEVLISRVYRDDIGRNAVDAFRVNVIHARQQVRSPVTNIARTSFFHVKRSNIWLAAVTKQNVNAAMVFEFLYKMCDVMAAYFGKISEENIKNNFVLIYELLDEILDFGYPQNSETGALKTFITQQGIKSQGWRREGIKYRRNELFLDVLESVNLLMSPQGQVLSAHVSGRVVMKSYLSGMPECKFGMNDKIVITFHQCVRLSKFDSERSISFIPPDGEFELMRYRTTKDIILPFRVIPLVREVGRTKLEVKVVIKSNFKPSLLAQKIEVRIPTPLNTSGVQVICMKGKAKYKASENAIVWKIKRMAGMKESQISAEIELLPTNDKKKWARPPISMNFEVPFAPSGLKVRYLKVFEPKLNYSDHDVIKWVRYIGRSGIYETRC MIGGLFIYNHKGEVLISRVYRDDIGRNAVDAFRVNVIHARQQVRSPVTNIARTSFFHVKRSNIWLAAVTKQNVNAAMVFEFLYKMCDVMAAYFGKISEENIKNNFVLIYELLDEILDFGYPQNSETGALKTFITQQGIKSQGWRREGIKYRRNELFLDVLESVNLLMSPQGQVLSAHVSGRVVMKSYLSGMPECKFGMNDKIVITFHQCVRLSKFDSERSISFIPPDGEFELMRYRTTKDIILPFRVIPLVREVGRTKLEVKVVIKSNFKPSLLAQKIEVRIPTPLNTSGVQVICMKGKAKYKASENAIVWKIKRMAGMKESQISAEIELLPTNDKKKWARPPISMNFEVPFAPSGLKVRYLKVFEPKLNYSDHDVIKWVRYIGRSGIYETRC 7rwk-a1-m1-cA_7rwk-a1-m1-cB Structure of Cap5 from Asticcacaulis sp. V4NUN3 V4NUN3 2.39 X-RAY DIFFRACTION 115 1.0 1282363 (Asticcacaulis sp. YBE204) 1282363 (Asticcacaulis sp. YBE204) 368 368 AVSQRNKLILWTRGGGRCYLCNCALLGDLISGKDKLNKGYIAHIVAAEIDGPRGDPIRSPLLCDDVENLILLCDAHHRLIDVEAVAEYSEPRLQQIKRAHEARVEAVTEITADRGTHMLFYSARIGEHDCPIQAQDARSAVLPAYYPKDRHPIALDVARSEYADNEAQYWQFQIENLNRQFERKVRPLLADGHIDHLSVFGLAPQPLLIHLGRLLSDLRKVRVHQLHREPKGWDWRNERPPVVYKTDRTGHGRTIALKIGISATIVDERITRCLGEDTTIWSLSAEGAHNDILHSEGDLQTFRSTCRRLFDAIKAAHPDATDLHIFPAMPVSTAIELGRIWMPKADLPLHIYDENRTAGGFFHRHSLG AVSQRNKLILWTRGGGRCYLCNCALLGDLISGKDKLNKGYIAHIVAAEIDGPRGDPIRSPLLCDDVENLILLCDAHHRLIDVEAVAEYSEPRLQQIKRAHEARVEAVTEITADRGTHMLFYSARIGEHDCPIQAQDARSAVLPAYYPKDRHPIALDVARSEYADNEAQYWQFQIENLNRQFERKVRPLLADGHIDHLSVFGLAPQPLLIHLGRLLSDLRKVRVHQLHREPKGWDWRNERPPVVYKTDRTGHGRTIALKIGISATIVDERITRCLGEDTTIWSLSAEGAHNDILHSEGDLQTFRSTCRRLFDAIKAAHPDATDLHIFPAMPVSTAIELGRIWMPKADLPLHIYDENRTAGGFFHRHSLG 7rwm-a2-m1-cD_7rwm-a2-m1-cC Structure of Cap5 from Lactococcus lactis A0A1E7G0A2 A0A1E7G0A2 3.4 X-RAY DIFFRACTION 143 1.0 1449093 (Lactococcus cremoris subsp. cremoris IBB477) 1449093 (Lactococcus cremoris subsp. cremoris IBB477) 354 355 7rwm-a1-m1-cA_7rwm-a1-m1-cB IPERVKSALWSITAGRCEICCKKLYISDVTGSLVNISQMAHIKAFDEENNPHQLDNLLLLCAEHHKMIDTDPDDFPVDWLIKQKKEFEEKVDAVIDTQRIKSSILSFNSIITKNDEIKNEEAEFPKVLLFNDNYFDGNIYRINNALSGIEHDPMYYDLMCQSMKQQIEKIKIPLNSSETISVFAIAPQPLLLYLGYLLNDETNIKIYQRFRTGNLKWNWESSEITNNFYVEQLYTDGNEIDTEVNLILSLSAEISLDRIPTKVPTLILRSDRQGFDAIKSNEDVNEYISVFRNLVVEKIRNDFPNLKCINIFPATPVSVPVRMGMNYQKNIDVEWKIFNQQTNVGFIYSLSLKG IPERVKSALWSITAGRCEICCKKLYISDVTGSLVNISQMAHIKAFDEENNPHQLDNLLLLCAEHHKMIDTDPDDFPVDWLIKQKKEFEEKVDAVIDTQRIKSSILSFNSIITKNDEIKNEEAEFPKVLLFNDNYFDGNIYRINNALSGIEHDPMYYDLMCQSMKQQIEKIKIPLNSSETISVFAIAPQPLLLYLGYLLNDETNIKIYQRFRTGNLKWNWESSEITNNFYVEQLYTDGNEIDTEVNLILSLSAEISLDRIPTFKVPTLILRSDRQGFDAIKSNEDVNEYISVFRNLVVEKIRNDFPNLKCINIFPATPVSVPVRMGMNYQKNIDVEWKIFNQQTNVGFIYSLSLKG 7rxa-a1-m1-cA_7rxa-a1-m1-cB afTMEM16 DE/AA mutant in C14 lipid nanodiscs in the presence of Ca2+ Q4WA18 Q4WA18 3.08 ELECTRON MICROSCOPY 153 1.0 451804 (Aspergillus fumigatus A1163) 451804 (Aspergillus fumigatus A1163) 578 578 6dz7-a1-m1-cA_6dz7-a1-m1-cB 7rx2-a1-m1-cA_7rx2-a1-m1-cB QENHHVDYVIRFNYGDIDTPEAIKKFEVLLLELSEVGLQTEVRQGDENSLFVFVRAASKKKLKRAVYQSRVRDWLYGVRNTEPEQSEAERLLVIYHLITVPKAEGGAGITPRHGEWKNVDAIFPLHDEETNRQCMREWSKKTFLSTEDLDRIRNTFGEHVGFYFAFLQSYFRFLMFPAAFGFSCWLLLGSFSIIYTVVNCLWCIVFIEYWKRQEEDLSCRWQTKGVSAVHEKRAEFKPEKERGVFPATKRMYRQLLQVPFALLAAVALGAIIATCFAIEIFISEVYKGYLVFIPTILVSALIPTMSAVLLTVATKLNDYENYETQDAYKVALTQKIFVVNFITSYLPIILTAFVYVPFASRIVPYLDVINPDRLRKQVIYFTVTAQIVGFALETDEARFLTRVRNEAELEDYDVTDALRAMCIQFGYLALFSPVWPLVPVSFLINNWVELRSDFFKICVECKRPWPQRADTIGPWLDSLGFLSWVGSITSSALVYMFSNTIRCWALLLTIFFSEHLYLIVRYAVRSALAKLEPPNTRRERIERFMMRKRYLDTVLTERFWMRQRGWKESAEVGLSLIT QENHHVDYVIRFNYGDIDTPEAIKKFEVLLLELSEVGLQTEVRQGDENSLFVFVRAASKKKLKRAVYQSRVRDWLYGVRNTEPEQSEAERLLVIYHLITVPKAEGGAGITPRHGEWKNVDAIFPLHDEETNRQCMREWSKKTFLSTEDLDRIRNTFGEHVGFYFAFLQSYFRFLMFPAAFGFSCWLLLGSFSIIYTVVNCLWCIVFIEYWKRQEEDLSCRWQTKGVSAVHEKRAEFKPEKERGVFPATKRMYRQLLQVPFALLAAVALGAIIATCFAIEIFISEVYKGYLVFIPTILVSALIPTMSAVLLTVATKLNDYENYETQDAYKVALTQKIFVVNFITSYLPIILTAFVYVPFASRIVPYLDVINPDRLRKQVIYFTVTAQIVGFALETDEARFLTRVRNEAELEDYDVTDALRAMCIQFGYLALFSPVWPLVPVSFLINNWVELRSDFFKICVECKRPWPQRADTIGPWLDSLGFLSWVGSITSSALVYMFSNTIRCWALLLTIFFSEHLYLIVRYAVRSALAKLEPPNTRRERIERFMMRKRYLDTVLTERFWMRQRGWKESAEVGLSLIT 7rxb-a1-m1-cA_7rxb-a1-m1-cB afTMEM16 lipid scramblase in C18 lipid nanodiscs in the absence of Ca2+ Q4WA18 Q4WA18 3.07 ELECTRON MICROSCOPY 85 1.0 451804 (Aspergillus fumigatus A1163) 451804 (Aspergillus fumigatus A1163) 548 548 7rx3-a1-m1-cA_7rx3-a1-m1-cB QENHHVDYVIRFNYAIKKFEVLLLELSEVGLQTEVRQGDENSLFVFVRAASKKKLKRAVYQSRVRDWLYGVRSEAERLLVIYHLITVPKAEGGAGITPRHGEWKNVDAIFPLHDEETNRQCMREWSKKTFLSTEDLDRIRNTFGEHVGFYFAFLQSYFRFLMFPAAFGFSCWLLLGSFSIIYTVVNCLWCIVFIEYWKRQEEDLSCRWQTKGVSAVHEKRAEFKPGVFPATKRMYRQLLQVPFALLAAVALGAIIATCFAIEIFISEVGYLVFIPTILVSALIPTMSAVLLTVATKLNDYENYETQDAYKVALTQKIFVVNFITSYLPIILTAFVYVPFASRIVPYLDVFHLINPDRLRKQVIYFTVTAQIVGFARFLTRVRNEAELEDYDVTDDLREMCIQFGYLALFSPVWPLVPVSFLINNWVELRSDFFKICVECKRPWPQRADTIGPWLDSLGFLSWVGSITSSALVYMFSNTIRCWALLLTIFFSEHLYLIVRYAVRSALAKLEPPNTRRERIERFMMRKRYLDTVLERFWMRQRGWKESAE QENHHVDYVIRFNYAIKKFEVLLLELSEVGLQTEVRQGDENSLFVFVRAASKKKLKRAVYQSRVRDWLYGVRSEAERLLVIYHLITVPKAEGGAGITPRHGEWKNVDAIFPLHDEETNRQCMREWSKKTFLSTEDLDRIRNTFGEHVGFYFAFLQSYFRFLMFPAAFGFSCWLLLGSFSIIYTVVNCLWCIVFIEYWKRQEEDLSCRWQTKGVSAVHEKRAEFKPGVFPATKRMYRQLLQVPFALLAAVALGAIIATCFAIEIFISEVGYLVFIPTILVSALIPTMSAVLLTVATKLNDYENYETQDAYKVALTQKIFVVNFITSYLPIILTAFVYVPFASRIVPYLDVFHLINPDRLRKQVIYFTVTAQIVGFARFLTRVRNEAELEDYDVTDDLREMCIQFGYLALFSPVWPLVPVSFLINNWVELRSDFFKICVECKRPWPQRADTIGPWLDSLGFLSWVGSITSSALVYMFSNTIRCWALLLTIFFSEHLYLIVRYAVRSALAKLEPPNTRRERIERFMMRKRYLDTVLERFWMRQRGWKESAE 7rxg-a1-m1-cA_7rxg-a1-m1-cB afTMEM16 in C18 lipid nanodiscs with MSP1E3 scaffold protein in the presence of Ca2+, full dimer Q4WA18 Q4WA18 2.28 ELECTRON MICROSCOPY 190 1.0 451804 (Aspergillus fumigatus A1163) 451804 (Aspergillus fumigatus A1163) 650 650 6e0h-a1-m1-cA_6e0h-a1-m1-cB 6e1o-a1-m1-cA_6e1o-a1-m1-cB 6e1o-a2-m1-cA_6e1o-a2-m1-cB 7rwj-a1-m1-cA_7rwj-a1-m1-cB ENHHVDYVIRFNYGDIDTPEAIKKFEVLLLELSEVGLQTEVRQGDENSLFVFVRAASKKKLKRAVYQSRVRDWLYGVRNTEPEPASSAKPQSEAERLLVIYHLITVPKAEGGAGITPRHGEWKNVDAIFPLHDEETNRQCMREWSKKTFLSTEDLDRIRNTFGEHVGFYFAFLQSYFRFLMFPAAFGFSCWLLLGSFSIIYTVVNCLWCIVFIEYWKRQEEDLSCRWQTKGVSAVHEKRAEFKPEKEIRDESTGEVRGVFPATKRMYRQLLQVPFALLAAVALGAIIATCFAIEIFISEVYNGPLKGYLVFIPTILVSALIPTMSAVLLTVATKLNDYENYETQDAYKVALTQKIFVVNFITSYLPIILTAFVYVPFASRIVPYLDVFHLTVRPFVSKEHAIKARTEFSINPDRLRKQVIYFTVTAQIVGFALETIVPFVKQRVFREYKEYTDEDEARFLTRVRNEAELEDYDVTDDLREMCIQFGYLALFSPVWPLVPVSFLINNWVELRSDFFKICVECKRPWPQRADTIGPWLDSLGFLSWVGSITSSALVYMFSNGHEGPNGEPTTIRCWALLLTIFFSEHLYLIVRYAVRSALAKLEPPNTRRERIERFMMRKRYLDTVLSPTERFWMRQRGWKESAEVGLSLIT ENHHVDYVIRFNYGDIDTPEAIKKFEVLLLELSEVGLQTEVRQGDENSLFVFVRAASKKKLKRAVYQSRVRDWLYGVRNTEPEPASSAKPQSEAERLLVIYHLITVPKAEGGAGITPRHGEWKNVDAIFPLHDEETNRQCMREWSKKTFLSTEDLDRIRNTFGEHVGFYFAFLQSYFRFLMFPAAFGFSCWLLLGSFSIIYTVVNCLWCIVFIEYWKRQEEDLSCRWQTKGVSAVHEKRAEFKPEKEIRDESTGEVRGVFPATKRMYRQLLQVPFALLAAVALGAIIATCFAIEIFISEVYNGPLKGYLVFIPTILVSALIPTMSAVLLTVATKLNDYENYETQDAYKVALTQKIFVVNFITSYLPIILTAFVYVPFASRIVPYLDVFHLTVRPFVSKEHAIKARTEFSINPDRLRKQVIYFTVTAQIVGFALETIVPFVKQRVFREYKEYTDEDEARFLTRVRNEAELEDYDVTDDLREMCIQFGYLALFSPVWPLVPVSFLINNWVELRSDFFKICVECKRPWPQRADTIGPWLDSLGFLSWVGSITSSALVYMFSNGHEGPNGEPTTIRCWALLLTIFFSEHLYLIVRYAVRSALAKLEPPNTRRERIERFMMRKRYLDTVLSPTERFWMRQRGWKESAEVGLSLIT 7ry7-a1-m1-cA_7ry7-a1-m2-cA Structure of Plasmepsin X (PM10, PMX) from Plasmodium falciparum 3D7 Q8IAS0 Q8IAS0 2.1 X-RAY DIFFRACTION 96 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 433 433 RIYKIGTKALPCSECHDVFDCTGCLFEEKESSHVIPLKLNKPNDHKKLQKHHESLKLGDVKYYVNRGEGISGSLGTSSGNTLDDMDLINEEINKKRTNAQLDNATVEQTKENIFLVPLKHLRDSQFVGELLVGTPPQTVYPIFDTGSTNVWVVTTACEEESCKKVRRYDPNKSKTFRRSFIEKNLISGSVGTDTFMLGKHLVRNQTFGLVESNIFDYISFEGIVGLGFPGMLSAGNIPFFDNLLKQNPNVDPQFSFYISPYDGKSTLIIGGISKSFYEGDIYMLPVLKESYWEVKLDELYIGKERICCDEESYVIFDTGTSYNTMPSSQMKTFLNLIHSTACTEQNYKDILKSYPIIKYVFGELIIELHPEEYMILNDDVCMPAYMQIDVPSERNHAYLLGSLSFMRNFFTVFVRGTESRPSMVGVARAKSKN RIYKIGTKALPCSECHDVFDCTGCLFEEKESSHVIPLKLNKPNDHKKLQKHHESLKLGDVKYYVNRGEGISGSLGTSSGNTLDDMDLINEEINKKRTNAQLDNATVEQTKENIFLVPLKHLRDSQFVGELLVGTPPQTVYPIFDTGSTNVWVVTTACEEESCKKVRRYDPNKSKTFRRSFIEKNLISGSVGTDTFMLGKHLVRNQTFGLVESNIFDYISFEGIVGLGFPGMLSAGNIPFFDNLLKQNPNVDPQFSFYISPYDGKSTLIIGGISKSFYEGDIYMLPVLKESYWEVKLDELYIGKERICCDEESYVIFDTGTSYNTMPSSQMKTFLNLIHSTACTEQNYKDILKSYPIIKYVFGELIIELHPEEYMILNDDVCMPAYMQIDVPSERNHAYLLGSLSFMRNFFTVFVRGTESRPSMVGVARAKSKN 7rye-a1-m1-cF_7rye-a1-m1-cR Cryo-EM structure of the needle filament-tip complex of the Salmonella type III secretion injectisome Q56026 Q56026 3.9 ELECTRON MICROSCOPY 11 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 212 212 ISDAEIWDMVSQNISAIGDSYLGVYENVVAVYTDFYQAFSDILSKMGGWLLPGKDGNTVKLDVTSLKNDLNSLVNKYNQINSNTVLFPAQSGSGVKVATEAEARQWLSELNLPNSCLKSYGSGYVVTVDLTPLQKMVQDIDGLGAPGKDSKLEMDNAKYQAWQSGFKAQEENMKTTLQTLTQKYSNANSLYDNLVKVLSSTISSSLETAKSF ISDAEIWDMVSQNISAIGDSYLGVYENVVAVYTDFYQAFSDILSKMGGWLLPGKDGNTVKLDVTSLKNDLNSLVNKYNQINSNTVLFPAQSGSGVKVATEAEARQWLSELNLPNSCLKSYGSGYVVTVDLTPLQKMVQDIDGLGAPGKDSKLEMDNAKYQAWQSGFKAQEENMKTTLQTLTQKYSNANSLYDNLVKVLSSTISSSLETAKSF 7rye-a1-m1-cV_7rye-a1-m1-cX Cryo-EM structure of the needle filament-tip complex of the Salmonella type III secretion injectisome Q56026 Q56026 3.9 ELECTRON MICROSCOPY 62 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 212 212 7rye-a1-m1-cF_7rye-a1-m1-cV 7rye-a1-m1-cO_7rye-a1-m1-cR 7rye-a1-m1-cO_7rye-a1-m1-cX ISDAEIWDMVSQNISAIGDSYLGVYENVVAVYTDFYQAFSDILSKMGGWLLPGKDGNTVKLDVTSLKNDLNSLVNKYNQINSNTVLFPAQSGSGVKVATEAEARQWLSELNLPNSCLKSYGSGYVVTVDLTPLQKMVQDIDGLGAPGKDSKLEMDNAKYQAWQSGFKAQEENMKTTLQTLTQKYSNANSLYDNLVKVLSSTISSSLETAKSF ISDAEIWDMVSQNISAIGDSYLGVYENVVAVYTDFYQAFSDILSKMGGWLLPGKDGNTVKLDVTSLKNDLNSLVNKYNQINSNTVLFPAQSGSGVKVATEAEARQWLSELNLPNSCLKSYGSGYVVTVDLTPLQKMVQDIDGLGAPGKDSKLEMDNAKYQAWQSGFKAQEENMKTTLQTLTQKYSNANSLYDNLVKVLSSTISSSLETAKSF 7rzb-a1-m1-cA_7rzb-a1-m2-cA BrxA from Staphylococcus aureus with bacillithiol mixed disulfide A0A229LVN5 A0A229LVN5 1.6 X-RAY DIFFRACTION 54 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 138 138 MKEIAQQMRGELTQNGFTSLETSEAVSEYMNQVNADDTTFVVINSTCGCAAGLARPAAVAVATQNEHRPTNTVTVFAGQDKEATATMREFIQQVPSSPSYALFKGRDLVYFMPREFIEGRDINDIAMDLKDAFDENCK MKEIAQQMRGELTQNGFTSLETSEAVSEYMNQVNADDTTFVVINSTCGCAAGLARPAAVAVATQNEHRPTNTVTVFAGQDKEATATMREFIQQVPSSPSYALFKGRDLVYFMPREFIEGRDINDIAMDLKDAFDENCK 7rzp-a1-m1-cA_7rzp-a1-m1-cB Crystal structure of putative NAD(P)H-flavin oxidoreductase from Haemophilus influenzae R2866 A0A806EDI4 A0A806EDI4 1.95 X-RAY DIFFRACTION 240 1.0 262728 (Haemophilus influenzae R2866) 262728 (Haemophilus influenzae R2866) 213 213 7ldq-a1-m1-cA_7ldq-a1-m2-cA 7rzl-a1-m1-cB_7rzl-a1-m1-cA 7s14-a1-m1-cA_7s14-a1-m1-cB 7s14-a2-m1-cC_7s14-a2-m1-cD 7s1a-a1-m1-cB_7s1a-a1-m1-cA 7t2z-a1-m1-cA_7t2z-a1-m1-cB 7t33-a1-m1-cA_7t33-a1-m1-cB TQLTREQVLELFHQRSSTRYYDPTKKISDEDFECILECGRLSPSSVGSEPWKFLVIQNKTLREKKPFSWGINQLDNCSHLVVILAKKNARYDSPFFVDVARKGLNAEQQQAALAKYKALQEEDKLLENDRTLFDWCSKQTYIALANLTGASALGIDSCPIEGFHYDKNECLAEEGLFDPQEYAVSVAATFGYRSRDIAKKSRKTLDEVVKWVG TQLTREQVLELFHQRSSTRYYDPTKKISDEDFECILECGRLSPSSVGSEPWKFLVIQNKTLREKKPFSWGINQLDNCSHLVVILAKKNARYDSPFFVDVARKGLNAEQQQAALAKYKALQEEDKLLENDRTLFDWCSKQTYIALANLTGASALGIDSCPIEGFHYDKNECLAEEGLFDPQEYAVSVAATFGYRSRDIAKKSRKTLDEVVKWVG 7rzw-a1-m1-cA_7rzw-a1-m1-cB CryoEM structure of Arabidopsis thaliana phytochrome B P14713 P14713 3.3 ELECTRON MICROSCOPY 323 0.997 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 859 864 TAYLSRIQRGGYIQPFGCMIAVDESSFRIIGYSENAREMLGIMILAMGTDVRSLFTSSSSILLERAFVAREITLLNPVWIHSKNTGKPFYAILHRIDVGVVIDLEPARTSIAGAVQSQKLAVRAISQLQALPGGDIKLLCDTVVESVRDLTGYDRVMVYKFHEDEHGEVVAESKRDDLEPYIGLHYPATDIPQASRFLFKQNRVRMIVDCNATPVLVVQDDRLTQSMCLVGSTLRAPHGCHSQYMANMGSIASLAMAVIINSMRLWGLVVCHHTSSRCIPFPLRYACEFLMQAFGLQLNMELQLALQMSEKRVLRTQTLLCDMLLRDSPAGIVTQSPSIMDLVKCDGAAFLYHGKYYPLGVAPSEVQIKDVVEWLLANHADSTGLSTDSLGDAGYPGAAALGDAVCGMAVAYITKRDFLFWFRSHTAKEIKWGGAKHHPEDKDDGQRMHPRSSFQAFLEVVKSRSQPWETAEMDAIHSLQLILRDSFKESMDKFINIQGDYKAIVHSPNPLIPPIFAADENTCCLEWNMAMEKLTGWSRSEVIGKMIVGEVFGSCCMLKGPDALTKFMIVLHNAIGGQDTDKFPFPFFDRNGKFVQALLTANKRVSLEGKVIGAFCFLQIPSPELQQALAVQRRQDTECFTKAKELAYICQVIKNPLSGMRFANSLLEATDLNEDQKQLLETSVSCEKQISRIVGDMDLEFVLKREEFFLGSVINAIVSQAMFLLRDRGLQLIRDIPEEIKSIEVFGDQIRIQQLLAEFLLSIIRYAPSQEWVEIHLSQLSKQMADGFAAIRTEFRMACPGEGLPPELVRDMFHSSRWTSPEGLGLSVCRKILKLMNGEVQYIRESERSYFLIILELPV TAYLSRIQRGGYIQPFGCMIAVDESSFRIIGYSENAREMLGIMILAMGTDVRSLFTSSSSILLERAFVAREITLLNPVWIHSKNTGKPFYAILHRIDVGVVIDLEPARSIAGAVQSQKLAVRAISQLQALPGGDIKLLCDTVVESVRDLTGYDRVMVYKFHEDEHGEVVAESKRDDLEPYIGLHYPATDIPQASRFLFKQNRVRMIVDCNATPVLVVQDDRLTQSMCLVGSTLRAPHGCHSQYMANMGSIASLAMAVIINGNSMRLWGLVVCHHTSSRCIPFPLRYACEFLMQAFGLQLNMELQLALQMSEKRVLRTQTLLCDMLLRDSPAGIVTQSPSIMDLVKCDGAAFLYHGKYYPLGVAPSEVQIKDVVEWLLANHADSTGLSTDSLGDAGYPGAAALGDAVCGMAVAYITKRDFLFWFRSHTAKEIKWGGAKHHPEDKDDGQRMHPRSSFQAFLEVVKSRSQPWETAEMDAIHSLQLILRDSFKEDKFINIQGDYKAIVHSPNPLIPPIFAADENTCCLEWNMAMEKLTGWSRSEVIGKMIVGEVFGSCCMLKGPDALTKFMIVLHNAIGGQDTDKFPFPFFDRNGKFVQALLTANKRVSLEGKVIGAFCFLQIPSPELQQALAVQRRQDTECFTKAKELAYICQVIKNPLSGMRFANSLLEATDLNEDQKQLLETSVSCEKQISRIVGDMDLESIEDGSFVLKREEFFLGSVINAIVSQAMFLLRDRGLQLIRDIPEEIKSIEVFGDQIRIQQLLAEFLLSIIRYAPSQEWVEIHLSQLSKQMADGFAAIRTEFRMACPGEGLPPELVRDMFHSSRWTSPEGLGLSVCRKILKLMNGEVQYIRESERSYFLIILELPV 7s00-a1-m1-cd_7s00-a1-m1-cf X-ray structure of the phage AR9 non-virion RNA polymerase core A0A172JIH0 A0A172JIH0 3.3 X-RAY DIFFRACTION 44 1.0 1815509 (Bacillus phage AR9) 1815509 (Bacillus phage AR9) 410 410 MGKKLSLIDFNEIYNEENLITRANPIENHEFSDDGIYSERIFGSYNEDDDDKDIDTIGWINIEPYYIINPILFTIIKKCIPSINKIINYQGEDDYIGLVKFKDNFDDLLEKYTDKKKYQKEYDFLIENHDKIFINKLPVFSHKLRPATLLTGSKGKVLAFDEINNYYNFVIEYINQINEGVVSDDSIDLLLLPLLYNMQFYANNILTRIISEYLRGKKGFLRKNIMGSRINFSARNVITPLIGHPIDEVAMPYKTFAELYKFQLINLISKVKGINYNEALKFWEKGILGFNQELYNYMEELITKTKGGCTFLLNRNPTISIGSILYLKIGLIKKDYKDLTLGISNNLLSALSGDYDGDVLNIIPVFDNKMKEHFSLLSPQNFLVDRNNGRFNGDFDLQKDQILGIFILNN MGKKLSLIDFNEIYNEENLITRANPIENHEFSDDGIYSERIFGSYNEDDDDKDIDTIGWINIEPYYIINPILFTIIKKCIPSINKIINYQGEDDYIGLVKFKDNFDDLLEKYTDKKKYQKEYDFLIENHDKIFINKLPVFSHKLRPATLLTGSKGKVLAFDEINNYYNFVIEYINQINEGVVSDDSIDLLLLPLLYNMQFYANNILTRIISEYLRGKKGFLRKNIMGSRINFSARNVITPLIGHPIDEVAMPYKTFAELYKFQLINLISKVKGINYNEALKFWEKGILGFNQELYNYMEELITKTKGGCTFLLNRNPTISIGSILYLKIGLIKKDYKDLTLGISNNLLSALSGDYDGDVLNIIPVFDNKMKEHFSLLSPQNFLVDRNNGRFNGDFDLQKDQILGIFILNN 7s03-a1-m1-cA_7s03-a1-m2-cA DNA-binding domain of human SETMAR in complex with Hsmar1 terminal inverted repeat (TIR) DNA Q53H47 Q53H47 2.37 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 103 KLDKKQIRAIFLFEFKGRKAAETTRNNNAFGPGTANERTVQWWFKKFRKGDESLEDEERSGRPSEVDNDQLRAIIEADPLTTTREVAEENVNHSTVVRHLKQI KLDKKQIRAIFLFEFKGRKAAETTRNNNAFGPGTANERTVQWWFKKFRKGDESLEDEERSGRPSEVDNDQLRAIIEADPLTTTREVAEENVNHSTVVRHLKQI 7s06-a1-m1-cA_7s06-a1-m1-cB Cryo-EM structure of human GlcNAc-1-phosphotransferase A2B2 subcomplex Q3T906 Q3T906 3.3 ELECTRON MICROSCOPY 155 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 459 459 7s05-a1-m1-cA_7s05-a1-m1-cB YHVLFDSYRDNIAGKSFQNRLCLPMPIDVVYTWVNGTDLELLKELQQVREQMEEEQKAMREILFEDNEELRYSLRSIERHAPWVRNIFIVTNGQIPSWLNLDNPRVTIVTHQDVFRNLSHLPTFSSPAIESHIHRIEGLSQKFIYLNDDVMFGKDVWPDDFYSHSKGQKVYLTWPVLLDEEESLKTQLAYFTDSKNRATFADSLRYVNKILNSKFGFTSRKVPAHMPHMIDRIVMQELQDMFPEEFDKTSFHKVRHSEDMQFAFSYFYYLMSAVQPLNISQVFDEVDTDQSGVLSDREIRTLATRIHELPLSLQDLTGLEHMLINCSKMLESYYDPNLPPVTKSLVTNCKPVTDKIHKAYKDKNKYRFEIMGEEEIAFKMIRTNVSHVVGQLDDIRKNPRKFVCLNDNIDHNHKDAQTVKAVLRDFYESMFPIPSQFELPREYRNRFLHMHELQEWRAY YHVLFDSYRDNIAGKSFQNRLCLPMPIDVVYTWVNGTDLELLKELQQVREQMEEEQKAMREILFEDNEELRYSLRSIERHAPWVRNIFIVTNGQIPSWLNLDNPRVTIVTHQDVFRNLSHLPTFSSPAIESHIHRIEGLSQKFIYLNDDVMFGKDVWPDDFYSHSKGQKVYLTWPVLLDEEESLKTQLAYFTDSKNRATFADSLRYVNKILNSKFGFTSRKVPAHMPHMIDRIVMQELQDMFPEEFDKTSFHKVRHSEDMQFAFSYFYYLMSAVQPLNISQVFDEVDTDQSGVLSDREIRTLATRIHELPLSLQDLTGLEHMLINCSKMLESYYDPNLPPVTKSLVTNCKPVTDKIHKAYKDKNKYRFEIMGEEEIAFKMIRTNVSHVVGQLDDIRKNPRKFVCLNDNIDHNHKDAQTVKAVLRDFYESMFPIPSQFELPREYRNRFLHMHELQEWRAY 7s0d-a1-m1-cA_7s0d-a1-m1-cC Structure of the SARS-CoV-2 S 6P trimer in complex with neutralizing antibody N-612-014 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 304 0.997 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1013 1026 7s0d-a1-m1-cA_7s0d-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSYNYLYRPLQSYGFQPTVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSYNYLYRNLKPFERDISTENCYFPLQSYGFQVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICAVASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 7s0r-a1-m1-cB_7s0r-a1-m1-cA Crystal Structure of a Complement Factor H-binding Fragment within the B75KN Region of the Group B Streptococcus Beta Antigen C Protein P27951 P27951 2.5 X-RAY DIFFRACTION 72 0.987 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 79 82 ENSEDQAKEKAKIAVSKYSKVLDGVHSKIVDLFKELEAIKQQTIFDIDNAKTEVEIDNLVHDAFSKNATVAKFQKGLET NSEDQAKEKAKIAVSKYSKVLDGVHQNHSKIVDLFKELEAIKQQTIFDIDNAKTEVEIDNLVHDAFSKNATVAKFQKGLETN 7s2i-a1-m2-cB_7s2i-a1-m1-cA Crystal structure of sulfonamide resistance enzyme Sul1 in complex with 6-hydroxymethylpterin 2.32 X-RAY DIFFRACTION 102 0.992 77133 (uncultured bacterium) 77133 (uncultured bacterium) 263 264 MVTVFGILNLTEDSFFDESRRLDPAGAVTAAIEMLRVGSDVVDVGPAASHPDARPVSPADEIRRIAPLLDALSDQMHRVSIDSFQPETQRYALKRGVGYLNDIQGFPDPALYPDIAEADCRLVVMHSAQRGHLRPEDALDEIVRFFEARVSALRRSGVAADRLILDPGMGFFLSPAPETSLHVLSNLQKLKSALGLPLLVSVSRKSFLGATVGLPVKDLGPASLAAELHAIGNGADYVRTHAPGDLRSAITFSETLAKFRSRD MVTVFGILNLTEDSFFDESRRLDPAGAVTAAIEMLRVGSDVVDVGPAASHPDARPVSPADEIRRIAPLLDALSDQMHRVSIDSFQPETQRYALKRGVGYLNDIQGFPDPALYPDIAEADCRLVVMHSAQRTRTGHLRPEDALDEIVRFFEARVSALRRSGVAADRLILDPGMGFFLSPAPETSLHVLSNLQKLKSALGLPLLVSVSRKSFLGATVGLPVKDLGPASLAAELHAIGNGADYVRTHAPGDLRSAITFSETLAKFRS 7s2k-a1-m2-cB_7s2k-a1-m1-cA Crystal structure of sulfonamide resistance enzyme Sul2 in complex with 7,8-dihydropteroate, magnesium, and pyrophosphate 1.74 X-RAY DIFFRACTION 90 0.989 77133 (uncultured bacterium) 77133 (uncultured bacterium) 261 268 7s2j-a1-m1-cA_7s2j-a1-m2-cC 7s2j-a2-m1-cB_7s2j-a2-m1-cD MNKSLIIFGIVNITYLAPDAAIAQARKLMAEGADVIDLGPASSNPDAAPVSSDTEIARIAPVLDALKADGIPVSLDSYQPATQAYALSRGVAYLNDIRGFPDAAFYPQLAKSSAKLVVMHSVQDGQADRREAPAGDIMDHIAAFFDARIAALTGAGIKRNRLVLDPGMGFFLGAAPETSLSVLARFDELRLRFDLPVLLSVSRKSFLRALTGRGPGDVGAATLAAELAAAAGGADFIRTHEPRPLRDGLAVLAALKETARI SLIIFGIVNITSDSFSDGGRYLAPDAAIAQARKLMAEGADVIDLGPASSNPDAAPVSSDTEIARIAPVLDALKADGIPVSLDSYQPATQAYALSRGVAYLNDIRGFPDAAFYPQLAKSSAKLVVMHSVQDGQADRREAPAGDIMDHIAAFFDARIAALTGAGIKRNRLVLDPGMGFFLGAAPETSLSVLARFDELRLRFDLPVLLSVSRKSFLRALTGRGPGDVGAATLAAELAAAAGGADFIRTHEPRPLRDGLAVLAALKETARIR 7s2l-a2-m2-cD_7s2l-a2-m1-cB Crystal structure of sulfonamide resistance enzyme Sul3 apoenzyme 2.79 X-RAY DIFFRACTION 92 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 249 260 7s2l-a1-m3-cC_7s2l-a1-m1-cA 7s2m-a1-m1-cC_7s2m-a1-m1-cA 7s2m-a2-m1-cB_7s2m-a2-m2-cB 8scd-a1-m1-cA_8scd-a1-m2-cA GMSKIFGIVNITTLDTDKAIEHALHLVEDGADVIDLGAASSNPDTTGVVEEIKRLKPVIKALKEKGISISVDTFKPEVQSFCIAAAVDFINDIQGFPYPEIYSGLAKSDCKLVLMHSVQRIGAETNPEEVFTSMMEFFKERIAALVEAGVKRERIILDPGMGFFLGSNPETSILVLKRFPEIQEAFNLQVMIAVSRKSFLGKITGTDVKSRLAPTLAAEMYAYKKGADYLRTHDVKSLSDALKISKALG GMSKIFGIVNITTDGGLYLDTDKAIEHALHLVEDGADVIDLGAASSNPDTTEVGVVEEIKRLKPVIKALKEKGISISVDTFKPEVQSFCIAAAVDFINDIQGFPYPEIYSGLAKSDCKLVLMHSVQRIGAATKVETNPEEVFTSMMEFFKERIAALVEAGVKRERIILDPGMGFFLGSNPETSILVLKRFPEIQEAFNLQVMIAVSRKSFLGKITGTDVKSRLAPTLAAEMYAYKKGADYLRTHDVKSLSDALKISKALG 7s2x-a1-m1-cB_7s2x-a1-m1-cD Structure of SalC, a gamma-lactam-beta-lactone bicyclase for salinosporamide biosynthesis B0L7F9 B0L7F9 2.85 X-RAY DIFFRACTION 55 1.0 168695 (Salinispora tropica) 168695 (Salinispora tropica) 587 587 7s2x-a1-m1-cC_7s2x-a1-m1-cA PGDVAIIGASCRFPGARNKEQYWDNLLHGREGVTFYAKDEIEVDETLINSPAYVRATGALDGYDEFDPAVFGVSDRMAAAMTPEHRVFLEASWEVMEDASYDPERVRGEVGVYASTNPQSAALYSSPPDWVSAGPEVMDRSNAWLPDTITSNVLYYLGLTGEAVTVTAVCSGFHYAVHLACQSLLLGQTDMAIAGGVMVRLPQRRGYLWEEGRILSRDGHCRPFDANGTGSVLASGVAVVLLKPLPQAVADRDHIYATVKGTAINNNGISAMAYGLAQPERLSACIAGAMQAGDVAPETVSMYEANGFGMPITDSLEVHAAHLAFGKQSGTCSIGAVKGNIGHAGVVAGGSGAVKAAFALYHRSLPPTINLTELNEEIDFPRTPFVPQLEPAAWQPECGIRRAGITALGGGGYNAHLVLEEPPRPVEREPENRRPRIVTLSALDDAAVSRQRAALSSWLAEHSDARLDDIAYSLNLGRKALPSRWAAVISTRDELLEVLSGDGKSGRVSRFGQERRADLARFRRTEDGLALGSGDEMRDVQALTELAAAWVQGERVNFEVLHADERSHRISLPNYPFARRRFWRTDW PGDVAIIGASCRFPGARNKEQYWDNLLHGREGVTFYAKDEIEVDETLINSPAYVRATGALDGYDEFDPAVFGVSDRMAAAMTPEHRVFLEASWEVMEDASYDPERVRGEVGVYASTNPQSAALYSSPPDWVSAGPEVMDRSNAWLPDTITSNVLYYLGLTGEAVTVTAVCSGFHYAVHLACQSLLLGQTDMAIAGGVMVRLPQRRGYLWEEGRILSRDGHCRPFDANGTGSVLASGVAVVLLKPLPQAVADRDHIYATVKGTAINNNGISAMAYGLAQPERLSACIAGAMQAGDVAPETVSMYEANGFGMPITDSLEVHAAHLAFGKQSGTCSIGAVKGNIGHAGVVAGGSGAVKAAFALYHRSLPPTINLTELNEEIDFPRTPFVPQLEPAAWQPECGIRRAGITALGGGGYNAHLVLEEPPRPVEREPENRRPRIVTLSALDDAAVSRQRAALSSWLAEHSDARLDDIAYSLNLGRKALPSRWAAVISTRDELLEVLSGDGKSGRVSRFGQERRADLARFRRTEDGLALGSGDEMRDVQALTELAAAWVQGERVNFEVLHADERSHRISLPNYPFARRRFWRTDW 7s2x-a1-m1-cC_7s2x-a1-m1-cD Structure of SalC, a gamma-lactam-beta-lactone bicyclase for salinosporamide biosynthesis B0L7F9 B0L7F9 2.85 X-RAY DIFFRACTION 206 1.0 168695 (Salinispora tropica) 168695 (Salinispora tropica) 587 587 7s2x-a1-m1-cB_7s2x-a1-m1-cA PGDVAIIGASCRFPGARNKEQYWDNLLHGREGVTFYAKDEIEVDETLINSPAYVRATGALDGYDEFDPAVFGVSDRMAAAMTPEHRVFLEASWEVMEDASYDPERVRGEVGVYASTNPQSAALYSSPPDWVSAGPEVMDRSNAWLPDTITSNVLYYLGLTGEAVTVTAVCSGFHYAVHLACQSLLLGQTDMAIAGGVMVRLPQRRGYLWEEGRILSRDGHCRPFDANGTGSVLASGVAVVLLKPLPQAVADRDHIYATVKGTAINNNGISAMAYGLAQPERLSACIAGAMQAGDVAPETVSMYEANGFGMPITDSLEVHAAHLAFGKQSGTCSIGAVKGNIGHAGVVAGGSGAVKAAFALYHRSLPPTINLTELNEEIDFPRTPFVPQLEPAAWQPECGIRRAGITALGGGGYNAHLVLEEPPRPVEREPENRRPRIVTLSALDDAAVSRQRAALSSWLAEHSDARLDDIAYSLNLGRKALPSRWAAVISTRDELLEVLSGDGKSGRVSRFGQERRADLARFRRTEDGLALGSGDEMRDVQALTELAAAWVQGERVNFEVLHADERSHRISLPNYPFARRRFWRTDW PGDVAIIGASCRFPGARNKEQYWDNLLHGREGVTFYAKDEIEVDETLINSPAYVRATGALDGYDEFDPAVFGVSDRMAAAMTPEHRVFLEASWEVMEDASYDPERVRGEVGVYASTNPQSAALYSSPPDWVSAGPEVMDRSNAWLPDTITSNVLYYLGLTGEAVTVTAVCSGFHYAVHLACQSLLLGQTDMAIAGGVMVRLPQRRGYLWEEGRILSRDGHCRPFDANGTGSVLASGVAVVLLKPLPQAVADRDHIYATVKGTAINNNGISAMAYGLAQPERLSACIAGAMQAGDVAPETVSMYEANGFGMPITDSLEVHAAHLAFGKQSGTCSIGAVKGNIGHAGVVAGGSGAVKAAFALYHRSLPPTINLTELNEEIDFPRTPFVPQLEPAAWQPECGIRRAGITALGGGGYNAHLVLEEPPRPVEREPENRRPRIVTLSALDDAAVSRQRAALSSWLAEHSDARLDDIAYSLNLGRKALPSRWAAVISTRDELLEVLSGDGKSGRVSRFGQERRADLARFRRTEDGLALGSGDEMRDVQALTELAAAWVQGERVNFEVLHADERSHRISLPNYPFARRRFWRTDW 7s2x-a1-m1-cD_7s2x-a1-m1-cA Structure of SalC, a gamma-lactam-beta-lactone bicyclase for salinosporamide biosynthesis B0L7F9 B0L7F9 2.85 X-RAY DIFFRACTION 16 1.0 168695 (Salinispora tropica) 168695 (Salinispora tropica) 587 589 7s2x-a1-m1-cB_7s2x-a1-m1-cC PGDVAIIGASCRFPGARNKEQYWDNLLHGREGVTFYAKDEIEVDETLINSPAYVRATGALDGYDEFDPAVFGVSDRMAAAMTPEHRVFLEASWEVMEDASYDPERVRGEVGVYASTNPQSAALYSSPPDWVSAGPEVMDRSNAWLPDTITSNVLYYLGLTGEAVTVTAVCSGFHYAVHLACQSLLLGQTDMAIAGGVMVRLPQRRGYLWEEGRILSRDGHCRPFDANGTGSVLASGVAVVLLKPLPQAVADRDHIYATVKGTAINNNGISAMAYGLAQPERLSACIAGAMQAGDVAPETVSMYEANGFGMPITDSLEVHAAHLAFGKQSGTCSIGAVKGNIGHAGVVAGGSGAVKAAFALYHRSLPPTINLTELNEEIDFPRTPFVPQLEPAAWQPECGIRRAGITALGGGGYNAHLVLEEPPRPVEREPENRRPRIVTLSALDDAAVSRQRAALSSWLAEHSDARLDDIAYSLNLGRKALPSRWAAVISTRDELLEVLSGDGKSGRVSRFGQERRADLARFRRTEDGLALGSGDEMRDVQALTELAAAWVQGERVNFEVLHADERSHRISLPNYPFARRRFWRTDW YDPGDVAIIGASCRFPGARNKEQYWDNLLHGREGVTFYAKDEIEVDETLINSPAYVRATGALDGYDEFDPAVFGVSDRMAAAMTPEHRVFLEASWEVMEDASYDPERVRGEVGVYASTNPQSAALYSSPPDWVSAGPEVMDRSNAWLPDTITSNVLYYLGLTGEAVTVTAVCSGFHYAVHLACQSLLLGQTDMAIAGGVMVRLPQRRGYLWEEGRILSRDGHCRPFDANGTGSVLASGVAVVLLKPLPQAVADRDHIYATVKGTAINNNGISAMAYGLAQPERLSACIAGAMQAGDVAPETVSMYEANGFGMPITDSLEVHAAHLAFGKQSGTCSIGAVKGNIGHAGVVAGGSGAVKAAFALYHRSLPPTINLTELNEEIDFPRTPFVPQLEPAAWQPECGIRRAGITALGGGGYNAHLVLEEPPRPVEREPENRRPRIVTLSALDDAAVSRQRAALSSWLAEHSDARLDDIAYSLNLGRKALPSRWAAVISTRDELLEVLSGDGKSGRVSRFGQERRADLARFRRTEDGLALGSGDEMRDVQALTELAAAWVQGERVNFEVLHADERSHRISLPNYPFARRRFWRTDW 7s3d-a1-m1-cU_7s3d-a1-m1-cl Structure of photosystem I with bound ferredoxin from Synechococcus sp. PCC 7335 acclimated to far-red light B4WP22 B4WP22 2.91 ELECTRON MICROSCOPY 40 1.0 91464 (Synechococcus sp. PCC 7335) 91464 (Synechococcus sp. PCC 7335) 170 170 7s3d-a1-m1-cL_7s3d-a1-m1-cl 7s3d-a1-m1-cL_7s3d-a1-m1-cU SDAYISDDPIQPYQGNPQLGNLATPINSSNLAKAFINNLPAYRPGLTPFLRGLEIGMAHGYFLVGPEVVFGPLKEGSHGANLSGLITAIYITVSACLGISIFALATFQGDPRGTYNSHSRDRLRPLRKKEDWYQLSGGILMGSLGGAIFAYALLENFELLDSILRGAVNV SDAYISDDPIQPYQGNPQLGNLATPINSSNLAKAFINNLPAYRPGLTPFLRGLEIGMAHGYFLVGPEVVFGPLKEGSHGANLSGLITAIYITVSACLGISIFALATFQGDPRGTYNSHSRDRLRPLRKKEDWYQLSGGILMGSLGGAIFAYALLENFELLDSILRGAVNV 7s5a-a1-m1-cA_7s5a-a1-m1-cB Crystal structure of human chemokine CCL8 P80075 P80075 1.37 X-RAY DIFFRACTION 62 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 73 76 QPDSVSIPITCCFNVINRKIPIQRLESYTRITNIQCPKEAVIFKTQRGKEVCADPKERWVRDSMKHLDQIFQN QPDSVSIPITCCFNVINRKIPIQRLESYTRITNIQCPKEAVIFKTQRGKEVCADPKERWVRDSMKHLDQIFQNLKP 7s5e-a4-m1-cF_7s5e-a4-m1-cH Crystal structure of a guanylate kinase from Stenotrophomonas maltophilia K279a with heterogeneous ligand states of GMP/ADP, GMP/-, GDP/-, and GMP/ATPgS B2FT06 B2FT06 2.4 X-RAY DIFFRACTION 110 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 198 207 6wct-a1-m1-cC_6wct-a1-m1-cA 6wct-a2-m1-cB_6wct-a2-m1-cD 7s5e-a1-m1-cC_7s5e-a1-m1-cA 7s5e-a2-m1-cB_7s5e-a2-m1-cD 7s5e-a3-m1-cG_7s5e-a3-m1-cE VARGTLYIVAAPSGAGKSSIVNATLARDPQIALSISFTSRAMRPGEVNGQHYHFVSAEKFEQMIAAGDFFEHAWVHGDWKGTARQSVEPQLAAGQDVLLEIDWQGAQQVRQLVPGTVTVFILPPSKQALQDRDSEAVIAQRLGAARDEMLHFNEFDYVIVNEVFDTAVDELCAIFTASRLRREAQKVRHAGLIQALLT AVARGTLYIVAAPSGAGKSSIVNATLARDPQIALSISFTSRAMRPGEVNGQHYHFVSAEKFEQMIAAGDFFEHAWVHGDWKGTARQSVEPQLAAGQDVLLEIDWQGAQQVRQLVPGTVTVFILPPSKQALQDRMRKRGQDSEAVIAQRLGAARDEMLHFNEFDYVIVNEVFDTAVDELCAIFTASRLRREAQKVRHAGLIQALLTPD 7s5f-a2-m1-cA_7s5f-a2-m1-cC Crystal structure of mannose-6-phosphate reductase from celery (Apium graveolens) leaves with NADP+ and mannonic acid bound A0A1U9WT24 A0A1U9WT24 1.72 X-RAY DIFFRACTION 102 1.0 4045 (Apium graveolens) 4045 (Apium graveolens) 309 309 7s5f-a1-m1-cB_7s5f-a1-m2-cD MAITLNSGFKMPVLGLGVWRMDRNEIKNLLLSAINLGYRHFDCAADYKNELEVGEAFKEAFDTDLVKREDLFITTKLWNSDHGHVIEACKNSLKKLQLEYLDLYLIHFPMASKHSGIGTTRSILDDEGVLEVDTTISLEATWHEMEKLVEMGLVRSIGISNYDVYLTRDILSYSKIKPAVNQIETHPYFQRDSLIKFCHKYGIAITAHTPLGGALANTERFGSVSCLDDPVLKKLSDKHNKSPAQIVLRWGVQRNTIVIPKSSKTKRLEENLNIFDFELSKEDMELIKTMERNQRSNTPAKAWGIDVYA MAITLNSGFKMPVLGLGVWRMDRNEIKNLLLSAINLGYRHFDCAADYKNELEVGEAFKEAFDTDLVKREDLFITTKLWNSDHGHVIEACKNSLKKLQLEYLDLYLIHFPMASKHSGIGTTRSILDDEGVLEVDTTISLEATWHEMEKLVEMGLVRSIGISNYDVYLTRDILSYSKIKPAVNQIETHPYFQRDSLIKFCHKYGIAITAHTPLGGALANTERFGSVSCLDDPVLKKLSDKHNKSPAQIVLRWGVQRNTIVIPKSSKTKRLEENLNIFDFELSKEDMELIKTMERNQRSNTPAKAWGIDVYA 7s5i-a1-m1-cB_7s5i-a1-m1-cA Crystal structure of Aldose-6-phosphate reductase (Ald6PRase) from peach (Prunus persica) leaves A5JUQ9 A5JUQ9 1.61 X-RAY DIFFRACTION 97 1.0 3760 (Prunus persica) 3760 (Prunus persica) 303 310 MSTITLNNGFEMPVIGLGLWRLEKEELRSAILNAIKLGYRHFDAAAHYKTEIDVGNAIAEAIQSGLVKREELFITSKVWNSDHGHVVEACKNSLKKLQLDYLDLYLVHYPLATKHSGVGTTASLLDENKVLDIDVTVSLETTWHDMEKTVSLGLVRSIGLSNYELFLTRDCLSYAKIKPQVSQFETHPYFQRESLVRFCKKHGVVPMAHTPLGGFGSISPLEDPVLIGLAKKYQKSVAQIALRWNIERGTPVIPKSSKVERLKENLEVLNFKLEKEDIELINTIDKKFRTTLPSLSWGVDVYA MSTITLNNGFEMPVIGLGLWRLEKEELRSAILNAIKLGYRHFDAAAHYKTEIDVGNAIAEAIQSGLVKREELFITSKVWNSDHGHVVEACKNSLKKLQLDYLDLYLVHYPLATKHSGVGTTASLLDENKVLDIDVTVSLETTWHDMEKTVSLGLVRSIGLSNYELFLTRDCLSYAKIKPQVSQFETHPYFQRESLVRFCKKHGVVPMAHTPLGGATANVKAFGSISPLEDPVLIGLAKKYQKSVAQIALRWNIERGTPVIPKSSKVERLKENLEVLNFKLEKEDIELINTIDKKFRTTLPSLSWGVDVYA 7s5m-a1-m1-cA_7s5m-a1-m1-cB Crystal Structure of a 8-amino-7-oxononanoate synthase/2-amino-3-ketobutyrate coenzyme A ligase from Mycobacterium smegmatis A0QX65 A0QX65 2.25 X-RAY DIFFRACTION 331 0.997 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 377 378 3wy7-a1-m1-cA_3wy7-a1-m1-cB 3wy7-a2-m1-cC_3wy7-a2-m1-cD 7s5m-a2-m1-cD_7s5m-a2-m1-cC LSPLAWLADIEQRRRAEGLRRELRVRPPVAAELDLASNDYLGLSQHPDVLDGGVEALRTWGGGAGGSRLVTGNTELHEAFEHQLASFLGAESALVFSSGYTANLGALVALSGPGSLIVSDALSHASLVDACRLSRARVVVSPHRDVDAVDAALAARTEERAVVVTESVFSADGDLAPLRDLHAVCRRHGALLLVDEAHGLGVRGTRGQGLLHEVGLAGAPDIVMTTTLSKALGSQGGAVLGPEAVRAHLIDTARSFIFDTGLAPAAVGAASAALRVLDAEPQRARAVLDRAAELATIAGVTEAPVSAVVSVILGDPEIAVGAAAACLDRGVRVGCFRPPTVPAGTSRLRLAARASLTDDEMALARQVLTDVLATARA AGLSPLAWLADIEQRRRAEGLRRELRVRPPVAAELDLASNDYLGLSQHPDVLDGGVEALRTWGGGAGGSRLVTGNTELHEAFEHQLASFLGAESALVFSSGYTANLGALVALSGPGSLIVSDALSHASLVDACRLSRARVVVSPHRDVDAVDAALAARTEERAVVVTESVFSADGDLAPLRDLHAVCRRHGALLLVDEAHGLGVRGTRGQGLLHEVGLAGAPDIVMTTTLSKALGSQGGAVLGPEAVRAHLIDTARSFIFDTGLAPAAVGAASAALRVLDAEPQRARAVLDRAAELATIAGVTEAPVSAVVSVILGDPEIAVGAAAACLDRGVRVGCFRPPTVPAGTSRLRLAARASLTDDEMALARQVLTDVLATAR 7s5n-a2-m1-cD_7s5n-a2-m1-cB Crystal Structure of a Putative uncharacterized protein from Mycobacterium marinum B2HFJ9 B2HFJ9 1.85 X-RAY DIFFRACTION 77 1.0 216594 (Mycobacterium marinum M) 216594 (Mycobacterium marinum M) 123 128 7s5n-a1-m1-cA_7s5n-a1-m1-cE 7s5n-a3-m1-cF_7s5n-a3-m1-cC MVSIALLREMFEKMVVAKNAELIGHYYDPDFVMYSDGLRQEFAEFSEGHRKIYASAISYAIEYDEDAWVQAPDRVAGRVWITTSRPGEKPTRIEVILIAAYRDGRIHRIWETTWPSWRNVAAL GSMVSIALLREMFEKMVVAKNAELIGHYYDPDFVMYSDGLRQEFAEFSEGHRKIYASAISYAIEYDEDAWVQAPDRVAGRVWITTSRPGEKPTRIEVILIAAYRDGRIHRIWETTWPSWRNVAALEDY 7s63-a1-m1-cB_7s63-a1-m1-cD Native-form oocyte/egg Alpha-2-Macroglobulin (A2Moo) tetramer A0A1L8FIE8 A0A1L8FIE8 4.12 ELECTRON MICROSCOPY 68 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 1420 1420 7s63-a1-m1-cA_7s63-a1-m1-cC 7s64-a1-m1-cA_7s64-a1-m1-cC 7s64-a1-m1-cB_7s64-a1-m1-cD KVQYALTIPALLKSGETQRACVNLIGYHQPLALSVVLEHQRVNISIFSEKVQPPHYFKCNKFMVPTVITNAPDFVTLSVSGGGEDIKDRKAVVIAPLNTICLIQMDKPVYKPGCKVRFRLISLNTMLLPISEKYTAVYLEDPSGSRIAQWQNQESVGGVVQLEFPLISDAAPGSYTITAEGESCESARQGFTVDEYILPRFSVIVDPPNTISILDDILTLNVSAIYTYGQPVPGSVTIKCCREASSYYGRKGNCFKGNRGICTNITGELGPDGAFYGVVSLLPFQMGQSGFQMSLGVALTVTEEGTGIQVTHQFFIMITSQLATLIFDYDALKEFYKRGIPYLVKVILTDANDNPMANEQVEVELAGKTIGAVLTDKEGRAEYAIDTSSFVQENFTVVVSYENPHQCYYTEWEGPDFPTAQHFVMRFYSETGSFLDIQGSSVELNCGQVHNISVRYILSLDGMGEGATTATFYYLAMSRAKIVQHGQRDVHLNQSKSGLFNIGLNVTSDLAPGAELIVYCILDLELIADTISLDIEKCFQNQVSLSFSDDLGPTASNVSLNLSAAPGSLCGVKVIDSSLLLINPYESLSASGVYYSIPYLSLFGYNYGGFNLEEPEPPCEDPNTVIFCKGRYYLPVSSSTEGDTYQNLRRVGLVLGTSSKIRKPVVCGMEAKFSVPRKSSGESDFGSSLSNGHVETLRKNFSETFLWRLVSVDSEGQNTITETVPDTITKWQGSMFCVSEKEGFGITKYSANFTSFLPFFVELSLPYSLTREEILVMKAFVSNYLEECIKIIVTLQPSADFEVIPQDVKQDQCICSGGRSSYSWNIIASSLGRISFIVSAETTHIGASCDGPSDQSQSTRKDTVIQTILVQPEGIRKEETSSNLVCVEDSNVEMPINLTLPENIVQGSASAFVTFVGDVLGLPLSNLQNLLQMPYGCGEQNLARMAPIPYVLEYLNNTNQLTDELLQTAVQFLNEGYYRQLRYKLPSGAYDAFWSSPSDGSSWLSAYTFKTFEKAKKYIYVDGKIQQQTLLYLQTSQKLDNGCFKAEGNLFMRQCGQERDLCFTAYLAIALLESNYSSGMTLLDDALGCLEAAMSSASTLYFKSYTVYVFTLVQNWEIRNTLLNELKSKVVSERGTLHWEREDKLGQEGIPLYYPNYSPAEVEITAYMLLSIAKGSDPTHDDLTYMAQISVWLIQQQNSYGGFRSTQDTVVALQALAFYAQLLFKSNAHHNVFLRSEYGDVGQLNLSEHNRLVVQRLQLPEVSGNYSISINGTGCCLVQSTIRYNIPVPKENSAFYVAADSVSKNCLNGVAYTITITVSVSYRGLRNETNMVIIDIQMLSGYQADYPSLRQLENSQQVSKTEEQDNHVFLYLNAVPLKTIQLSFKVLIGSRVLNVKSASVYVYDYYETGENGFASYSQPC KVQYALTIPALLKSGETQRACVNLIGYHQPLALSVVLEHQRVNISIFSEKVQPPHYFKCNKFMVPTVITNAPDFVTLSVSGGGEDIKDRKAVVIAPLNTICLIQMDKPVYKPGCKVRFRLISLNTMLLPISEKYTAVYLEDPSGSRIAQWQNQESVGGVVQLEFPLISDAAPGSYTITAEGESCESARQGFTVDEYILPRFSVIVDPPNTISILDDILTLNVSAIYTYGQPVPGSVTIKCCREASSYYGRKGNCFKGNRGICTNITGELGPDGAFYGVVSLLPFQMGQSGFQMSLGVALTVTEEGTGIQVTHQFFIMITSQLATLIFDYDALKEFYKRGIPYLVKVILTDANDNPMANEQVEVELAGKTIGAVLTDKEGRAEYAIDTSSFVQENFTVVVSYENPHQCYYTEWEGPDFPTAQHFVMRFYSETGSFLDIQGSSVELNCGQVHNISVRYILSLDGMGEGATTATFYYLAMSRAKIVQHGQRDVHLNQSKSGLFNIGLNVTSDLAPGAELIVYCILDLELIADTISLDIEKCFQNQVSLSFSDDLGPTASNVSLNLSAAPGSLCGVKVIDSSLLLINPYESLSASGVYYSIPYLSLFGYNYGGFNLEEPEPPCEDPNTVIFCKGRYYLPVSSSTEGDTYQNLRRVGLVLGTSSKIRKPVVCGMEAKFSVPRKSSGESDFGSSLSNGHVETLRKNFSETFLWRLVSVDSEGQNTITETVPDTITKWQGSMFCVSEKEGFGITKYSANFTSFLPFFVELSLPYSLTREEILVMKAFVSNYLEECIKIIVTLQPSADFEVIPQDVKQDQCICSGGRSSYSWNIIASSLGRISFIVSAETTHIGASCDGPSDQSQSTRKDTVIQTILVQPEGIRKEETSSNLVCVEDSNVEMPINLTLPENIVQGSASAFVTFVGDVLGLPLSNLQNLLQMPYGCGEQNLARMAPIPYVLEYLNNTNQLTDELLQTAVQFLNEGYYRQLRYKLPSGAYDAFWSSPSDGSSWLSAYTFKTFEKAKKYIYVDGKIQQQTLLYLQTSQKLDNGCFKAEGNLFMRQCGQERDLCFTAYLAIALLESNYSSGMTLLDDALGCLEAAMSSASTLYFKSYTVYVFTLVQNWEIRNTLLNELKSKVVSERGTLHWEREDKLGQEGIPLYYPNYSPAEVEITAYMLLSIAKGSDPTHDDLTYMAQISVWLIQQQNSYGGFRSTQDTVVALQALAFYAQLLFKSNAHHNVFLRSEYGDVGQLNLSEHNRLVVQRLQLPEVSGNYSISINGTGCCLVQSTIRYNIPVPKENSAFYVAADSVSKNCLNGVAYTITITVSVSYRGLRNETNMVIIDIQMLSGYQADYPSLRQLENSQQVSKTEEQDNHVFLYLNAVPLKTIQLSFKVLIGSRVLNVKSASVYVYDYYETGENGFASYSQPC 7s63-a1-m1-cC_7s63-a1-m1-cD Native-form oocyte/egg Alpha-2-Macroglobulin (A2Moo) tetramer A0A1L8FIE8 A0A1L8FIE8 4.12 ELECTRON MICROSCOPY 59 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 1420 1420 7s63-a1-m1-cA_7s63-a1-m1-cB 7s64-a1-m1-cA_7s64-a1-m1-cB 7s64-a1-m1-cC_7s64-a1-m1-cD KVQYALTIPALLKSGETQRACVNLIGYHQPLALSVVLEHQRVNISIFSEKVQPPHYFKCNKFMVPTVITNAPDFVTLSVSGGGEDIKDRKAVVIAPLNTICLIQMDKPVYKPGCKVRFRLISLNTMLLPISEKYTAVYLEDPSGSRIAQWQNQESVGGVVQLEFPLISDAAPGSYTITAEGESCESARQGFTVDEYILPRFSVIVDPPNTISILDDILTLNVSAIYTYGQPVPGSVTIKCCREASSYYGRKGNCFKGNRGICTNITGELGPDGAFYGVVSLLPFQMGQSGFQMSLGVALTVTEEGTGIQVTHQFFIMITSQLATLIFDYDALKEFYKRGIPYLVKVILTDANDNPMANEQVEVELAGKTIGAVLTDKEGRAEYAIDTSSFVQENFTVVVSYENPHQCYYTEWEGPDFPTAQHFVMRFYSETGSFLDIQGSSVELNCGQVHNISVRYILSLDGMGEGATTATFYYLAMSRAKIVQHGQRDVHLNQSKSGLFNIGLNVTSDLAPGAELIVYCILDLELIADTISLDIEKCFQNQVSLSFSDDLGPTASNVSLNLSAAPGSLCGVKVIDSSLLLINPYESLSASGVYYSIPYLSLFGYNYGGFNLEEPEPPCEDPNTVIFCKGRYYLPVSSSTEGDTYQNLRRVGLVLGTSSKIRKPVVCGMEAKFSVPRKSSGESDFGSSLSNGHVETLRKNFSETFLWRLVSVDSEGQNTITETVPDTITKWQGSMFCVSEKEGFGITKYSANFTSFLPFFVELSLPYSLTREEILVMKAFVSNYLEECIKIIVTLQPSADFEVIPQDVKQDQCICSGGRSSYSWNIIASSLGRISFIVSAETTHIGASCDGPSDQSQSTRKDTVIQTILVQPEGIRKEETSSNLVCVEDSNVEMPINLTLPENIVQGSASAFVTFVGDVLGLPLSNLQNLLQMPYGCGEQNLARMAPIPYVLEYLNNTNQLTDELLQTAVQFLNEGYYRQLRYKLPSGAYDAFWSSPSDGSSWLSAYTFKTFEKAKKYIYVDGKIQQQTLLYLQTSQKLDNGCFKAEGNLFMRQCGQERDLCFTAYLAIALLESNYSSGMTLLDDALGCLEAAMSSASTLYFKSYTVYVFTLVQNWEIRNTLLNELKSKVVSERGTLHWEREDKLGQEGIPLYYPNYSPAEVEITAYMLLSIAKGSDPTHDDLTYMAQISVWLIQQQNSYGGFRSTQDTVVALQALAFYAQLLFKSNAHHNVFLRSEYGDVGQLNLSEHNRLVVQRLQLPEVSGNYSISINGTGCCLVQSTIRYNIPVPKENSAFYVAADSVSKNCLNGVAYTITITVSVSYRGLRNETNMVIIDIQMLSGYQADYPSLRQLENSQQVSKTEEQDNHVFLYLNAVPLKTIQLSFKVLIGSRVLNVKSASVYVYDYYETGENGFASYSQPC KVQYALTIPALLKSGETQRACVNLIGYHQPLALSVVLEHQRVNISIFSEKVQPPHYFKCNKFMVPTVITNAPDFVTLSVSGGGEDIKDRKAVVIAPLNTICLIQMDKPVYKPGCKVRFRLISLNTMLLPISEKYTAVYLEDPSGSRIAQWQNQESVGGVVQLEFPLISDAAPGSYTITAEGESCESARQGFTVDEYILPRFSVIVDPPNTISILDDILTLNVSAIYTYGQPVPGSVTIKCCREASSYYGRKGNCFKGNRGICTNITGELGPDGAFYGVVSLLPFQMGQSGFQMSLGVALTVTEEGTGIQVTHQFFIMITSQLATLIFDYDALKEFYKRGIPYLVKVILTDANDNPMANEQVEVELAGKTIGAVLTDKEGRAEYAIDTSSFVQENFTVVVSYENPHQCYYTEWEGPDFPTAQHFVMRFYSETGSFLDIQGSSVELNCGQVHNISVRYILSLDGMGEGATTATFYYLAMSRAKIVQHGQRDVHLNQSKSGLFNIGLNVTSDLAPGAELIVYCILDLELIADTISLDIEKCFQNQVSLSFSDDLGPTASNVSLNLSAAPGSLCGVKVIDSSLLLINPYESLSASGVYYSIPYLSLFGYNYGGFNLEEPEPPCEDPNTVIFCKGRYYLPVSSSTEGDTYQNLRRVGLVLGTSSKIRKPVVCGMEAKFSVPRKSSGESDFGSSLSNGHVETLRKNFSETFLWRLVSVDSEGQNTITETVPDTITKWQGSMFCVSEKEGFGITKYSANFTSFLPFFVELSLPYSLTREEILVMKAFVSNYLEECIKIIVTLQPSADFEVIPQDVKQDQCICSGGRSSYSWNIIASSLGRISFIVSAETTHIGASCDGPSDQSQSTRKDTVIQTILVQPEGIRKEETSSNLVCVEDSNVEMPINLTLPENIVQGSASAFVTFVGDVLGLPLSNLQNLLQMPYGCGEQNLARMAPIPYVLEYLNNTNQLTDELLQTAVQFLNEGYYRQLRYKLPSGAYDAFWSSPSDGSSWLSAYTFKTFEKAKKYIYVDGKIQQQTLLYLQTSQKLDNGCFKAEGNLFMRQCGQERDLCFTAYLAIALLESNYSSGMTLLDDALGCLEAAMSSASTLYFKSYTVYVFTLVQNWEIRNTLLNELKSKVVSERGTLHWEREDKLGQEGIPLYYPNYSPAEVEITAYMLLSIAKGSDPTHDDLTYMAQISVWLIQQQNSYGGFRSTQDTVVALQALAFYAQLLFKSNAHHNVFLRSEYGDVGQLNLSEHNRLVVQRLQLPEVSGNYSISINGTGCCLVQSTIRYNIPVPKENSAFYVAADSVSKNCLNGVAYTITITVSVSYRGLRNETNMVIIDIQMLSGYQADYPSLRQLENSQQVSKTEEQDNHVFLYLNAVPLKTIQLSFKVLIGSRVLNVKSASVYVYDYYETGENGFASYSQPC 7s64-a1-m1-cA_7s64-a1-m1-cD Intermediate-form oocyte/egg Alpha-2-Macroglobulin (A2Moo) tetramer A0A1L8FIE8 A0A1L8FIE8 6.43 ELECTRON MICROSCOPY 40 0.998 8355 (Xenopus laevis) 8355 (Xenopus laevis) 1396 1420 GAAKVQYALTIPALLKSGETQRACVNLIGYHQPLALSVVLEHQRVNISIFSEKVQPPHYFKCNKFMVPTVITNAPDFVTLSVSGGGEDIKDRKAVVIAPLNTICLIQMDKPVYKPGCKVRFRLISLNTMLLPISEKYTAVYLEDPSGSRIAQWQNQESVGGVVQLEFPLISDAAPGSYTITAEGESCESARQGFTVDEYILPRFSVIVDPPNTISILDDILTLNVSAIYTYGQPVPGSVTIKCCREASSYYGRKGNCFKGNRGICTNITGELGPDGAFYGVVSLLPFQMGQSGFQMSLGVALTVTEEGTGIQVTHQFFIMITSQLATLIFDYDALKEFYKRGIPYLVKVILTDANDNPMANEQVEVELAGKTIGAVLTDKEGRAEYAIDTSSFVQENFTVVVSYENPHQCYYTEWEGPDFPTAQHFVMRFYSETGSFLDIQGSSVELNCGQVHNISVRYILSLDGMGEGATTATFYYLAMSRAKIVQHGQRDVHLNQSKSGLFNIGLNVTSDLAPGAELIVYCILDLELIADTISLDIEKCFQNQVSLSFSDDLGPTASNVSLNLSAAPGSLCGVKVIDSSLLLINPYESLSASGVYYSIPYLSLFGYNYGGFNLEEPEPPCEDPNTVIFCKGRYYLPVSSSTEGDTYQNLRRVGLVLGTSSKIRKPVVCGMEAKNFSETFLWRLVSVDSEGQNTITETVPDTITKWQGSMFCVSEKEGFGITKYSANFTSFLPFFVELSLPYSLTREEILVMKAFVSNYLEECIKIIVTLQPSADFEVIPQDVKQDQCICSGGRSSYSWNIIASSLGRISFIVSAETTHIGASCDGPSDQSQSTRKDTVIQTILVQPEGIRKEETSSNLVCVEDSNVEMPINLTLPENIVQGSASAFVTFVGDVLGLPLSNLQNLLQMPYGCGEQNLARMAPIPYVLEYLNNTNQLTDELLQTAVQFLNEGYYRQLRYKLPSGAYDAFWSSPSDGSSWLSAYTFKTFEKAKKYIYVDGKIQQQTLLYLQTSQKLDNGCFKAEGNLFMRQCGQERDLCFTAYLAIALLESNYSSGMTLLDDALGCLEAAMSSASTLYFKSYTVYVFTLVQNWEIRNTLLNELKSKVVSERGTLHWEREDKLGQEGIPLYYPNYSPAEVEITAYMLLSIAKGSDPTHDDLTYMAQISVWLIQQQNSYGGFRSTQDTVVALQALAFYAQLLFKSNAHHNVFLRSEYGDVGQLNLSEHNRLVVQRLQLPEVSGNYSISINGTGCCLVQSTIRYNIPVPKENSAFYVAADSVSKNCLNGVAYTITITVSVSYRGLRNETNMVIIDIQMLSGYQADYPSLRQLENSQQVSKTEEQDNHVFLYLNAVPLKTIQLSFKVLIGSRVLNVKSASVYVYDYYETGENGFASYSQPC KVQYALTIPALLKSGETQRACVNLIGYHQPLALSVVLEHQRVNISIFSEKVQPPHYFKCNKFMVPTVITNAPDFVTLSVSGGGEDIKDRKAVVIAPLNTICLIQMDKPVYKPGCKVRFRLISLNTMLLPISEKYTAVYLEDPSGSRIAQWQNQESVGGVVQLEFPLISDAAPGSYTITAEGESCESARQGFTVDEYILPRFSVIVDPPNTISILDDILTLNVSAIYTYGQPVPGSVTIKCCREASSYYGRKGNCFKGNRGICTNITGELGPDGAFYGVVSLLPFQMGQSGFQMSLGVALTVTEEGTGIQVTHQFFIMITSQLATLIFDYDALKEFYKRGIPYLVKVILTDANDNPMANEQVEVELAGKTIGAVLTDKEGRAEYAIDTSSFVQENFTVVVSYENPHQCYYTEWEGPDFPTAQHFVMRFYSETGSFLDIQGSSVELNCGQVHNISVRYILSLDGMGEGATTATFYYLAMSRAKIVQHGQRDVHLNQSKSGLFNIGLNVTSDLAPGAELIVYCILDLELIADTISLDIEKCFQNQVSLSFSDDLGPTASNVSLNLSAAPGSLCGVKVIDSSLLLINPYESLSASGVYYSIPYLSLFGYNYGGFNLEEPEPPCEDPNTVIFCKGRYYLPVSSSTEGDTYQNLRRVGLVLGTSSKIRKPVVCGMEAKFSVPRKSSGESDFGSSLSNGHVETLRKNFSETFLWRLVSVDSEGQNTITETVPDTITKWQGSMFCVSEKEGFGITKYSANFTSFLPFFVELSLPYSLTREEILVMKAFVSNYLEECIKIIVTLQPSADFEVIPQDVKQDQCICSGGRSSYSWNIIASSLGRISFIVSAETTHIGASCDGPSDQSQSTRKDTVIQTILVQPEGIRKEETSSNLVCVEDSNVEMPINLTLPENIVQGSASAFVTFVGDVLGLPLSNLQNLLQMPYGCGEQNLARMAPIPYVLEYLNNTNQLTDELLQTAVQFLNEGYYRQLRYKLPSGAYDAFWSSPSDGSSWLSAYTFKTFEKAKKYIYVDGKIQQQTLLYLQTSQKLDNGCFKAEGNLFMRQCGQERDLCFTAYLAIALLESNYSSGMTLLDDALGCLEAAMSSASTLYFKSYTVYVFTLVQNWEIRNTLLNELKSKVVSERGTLHWEREDKLGQEGIPLYYPNYSPAEVEITAYMLLSIAKGSDPTHDDLTYMAQISVWLIQQQNSYGGFRSTQDTVVALQALAFYAQLLFKSNAHHNVFLRSEYGDVGQLNLSEHNRLVVQRLQLPEVSGNYSISINGTGCCLVQSTIRYNIPVPKENSAFYVAADSVSKNCLNGVAYTITITVSVSYRGLRNETNMVIIDIQMLSGYQADYPSLRQLENSQQVSKTEEQDNHVFLYLNAVPLKTIQLSFKVLIGSRVLNVKSASVYVYDYYETGENGFASYSQPC 7s69-a1-m1-cA_7s69-a1-m1-cB N-acetylglucosamine-1-phosphotransferase (GNPT) gamma subunit (GNPTG), from clawed frog Q561K8 Q561K8 3.04 X-RAY DIFFRACTION 56 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 174 174 KLQPRVQPSPVSGPSHLFRLAGKCFNLVESTYKYELCPFHNVTQHEQTFRWNAYSGILGIWQEWDIENNTFSGMWMREGDSCGNKNRQTKVLLVCGKANKLSSVSEPSTCLYSLTFETPLVCHPHSLLVYPTLSEGLQEKWNEAEQALYDELITEQGHGKILKEIFREAGYLKT KLQPRVQPSPVSGPSHLFRLAGKCFNLVESTYKYELCPFHNVTQHEQTFRWNAYSGILGIWQEWDIENNTFSGMWMREGDSCGNKNRQTKVLLVCGKANKLSSVSEPSTCLYSLTFETPLVCHPHSLLVYPTLSEGLQEKWNEAEQALYDELITEQGHGKILKEIFREAGYLKT 7s6b-a1-m1-cB_7s6b-a1-m1-cA Crystal structure of modular polyketide synthase apo-Lsd14 from the Lasalocid biosynthesis pathway, trapped in the transacylation step B6ZK67 B6ZK67 2.35 X-RAY DIFFRACTION 236 0.989 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 879 893 7s6c-a1-m1-cB_7s6c-a1-m1-cA 7s6d-a1-m1-cB_7s6d-a1-m1-cA EDRLRDYLKRATADLSRVRRQLQETEAASREPIAIIGMACRLPGGVDSPEGLWELVDSGTDAIAGFPLDRGWKEAGFLYDAGEFDAGFFGISPREAVSMDPQQRLMLEASWEAFERAGLDPARQRGTATGVFVGATATGYVSEVPEGAEGFAITGNMTAVTSGRISYTLGLQGPAVTIDTACSSSLVALHLACQSLRQGECTTALAGGVTVMPTPTAFTEGLAPDGRCKSFAAAADGTNWAEGVAVLVVERLSDARRNGHRVLAVVRGTAINQDGASNGLSAPNDLAQERVIRSALDNAGLTASDVDAVEAHGTGTTLGDPIEAQALLAAYGHERPAHRPLRVGSLKSNIGHAGPAAGVAGVIKMVMAMRHGVLPRSLHIDEPTPQVDWSSGAVTLLTEPVDWPDSDRPRRAGVSAFGISGTNAHVILEQAPTQDPQPAPPVPAAPWLLSAKTPAALRAQARRLHTHLARHPHPDPTDIAHALATTRTPHEHRAALVTDDHGTRGPALAALAEGAPDACLISGTALKGRTVFVFPGQGSQWTGMGRELLHTSPEFAAYIAECETALNDFVDWSLTDVLRGTEGAPGYDRVDVVQPALFAVMVSLARLWQHHGIHPDAVIGHSQGEIAAAHIAGALSLQDAARIVALRSQALLPLAGLGGMTSLALPHDQALQLIQPWGQDLSIASVNGPHSTVVSGTTHALDELHTTCDTQGVRARRIPVDYASHSAQVESIRDTVLQAATGINPQPTTIPLYSTVTGQPIDGTQLDADYWYTNLRHTVRFEETTRALLGSGHRHFIETTAHPVLALALEETIEATGSDARVTGTLRRDHGDLTQLHTALATAWTHGIDVDWTAVLGDRRTPFELPTYAFQRQRYWLEP YLKRATADLSRVRRQLQETEAASREPIAIIGMACRLPGGVDSPEGLWELVDSGTDAIAGFPLDRGWDVEGMYDPDAEAPGKTYVKEAGFLYDAGEFDAGFFGISPREAVSMDPQQRLMLEASWEAFERAGLDPARQRGTATGVFVGATATGYVSVPEGAEGFAITGNMTAVTSGRISYTLGLQGPAVTIDTACSSSLVALHLACQSLRQGECTTALAGGVTVMPTPTAFTEFSRQRGLAPDGRCKSFAAAADGTNWAEGVAVLVVERLSDARRNGHRVLAVVRGTAINQDGASNGLSAPNDLAQERVIRSALDNAGLTASDVDAVEAHGTGTTLGDPIEAQALLAAYGHERPAHRPLRVGSLKSNIGHAGPAAGVAGVIKMVMAMRHGVLPRSLHIDEPTPQVDWSSGAVTLLTEPVDWPDSDRPRRAGVSAFGISGTNAHVILEQAPTQDPAPPVPAAPWLLSAKTPAALRAQARRLHTHLARHPHPDPTDIAHALATTRTPHEHRAALVTDDHGTRGPALAALAEGAPDACLISGTALSKGRTVFVFPGQGSQWTGMGRELLHTSPEFAAYIAECETALNDFVDWSLTDVLRGTEGAPGYDRVDVVQPALFAVMVSLARLWQHHGIHPDAVIGHSQGEIAAAHIAGALSLQDAARIVALRSQALLPLAGLGGMTSLALPHDQALQLIQPWGQDLSIASVNGPHSTVVSGTTHALDELHTTCDTQGVRARRIPVDYASHSAQVESIRDTVLQAATGINPQPTTIPLYSTVTGQPIDGTQLDADYWYTNLRHTVRFEETTRALLGSGHRHFIETTAHPVLALALEETIEATGSDARVTGTLRRDHGDLTQLHTALATAWTHGIDVDWTAVLGDRRTPFELPTYAFQRQRYWLE 7s6b-a1-m1-cC_7s6b-a1-m1-cD Crystal structure of modular polyketide synthase apo-Lsd14 from the Lasalocid biosynthesis pathway, trapped in the transacylation step B6ZK67 B6ZK67 2.35 X-RAY DIFFRACTION 33 0.996 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 510 514 TSAEARFWDAVEDEDLEALVAAIGASWAGVLPALAGWRRRQREQSALDDLRYKVTWKPTAVDGASATGTWLVVVPESLAGGGWPVVVARAVDQAGGRPVVLSVDAADGADRSRLGLRIHEALGEGPVPDAVVSLLALDPSALPGLPDVPQALASTAALVQALLDLGLEARLWCVTSGAVSVSGADGPSAPEQAAVWGFGRVAGLEHPHLWAGLVDLPPEADERTAARLVGVLAGAGGEDQVALRSSGVFVRRLVRAPASEVPAVRSWKPGGTVLVTGGTGGLGRQVARWLARGGADHLLLVSRRGVDAPGADELVDELTDLGARVTVAACDVADRDAVQRLLSEQVPSDAPLTAVIHTAAVLDDGVIDSLSPERMEQVLRVKVGGAVHLYELTRESDLSAFVLFSSFGSTFGLPGLGNYAPGNAALEALAEQWRAEGRPATAVGWGTWATHGIHELEPALATAALEQALERDESSPVIIDIDWERFAVAFHAKRPTRGFELVPEAQAALE TSAEARFWDAVEDEDLEALVAAASWAGVLPALAGWRRRQREQSALDDLRYKVTWKPTAVADGASATGTWLVVVPESLAGGGWPVVVARAVDQAGGRPVVLSVDAADGADRSRLGLRIHEALGEGPVPDAVVSLLALDPSALPGLPDVPQALASTAALVQALLDLGLEARLWCVTSGAVSVSGADGPSAPEQAAVWGFGRVAGLEHPHLWAGLVDLPPEADERTAARLVGVLAGAGGEDQVALRSSGVFVRRLVRAPASEVPAVRSWKPGGTVLVTGGTGGLGRQVARWLARGGADHLLLVSRRGVDAPGADELVDELTDLGARVTVAACDVADRDAVQRLLSEQVPSDAPLTAVIHTAAVLDDGVIDSLSPERMEQVLRVKVGGAVHLYELTRESDLSAFVLFSSFGSTFGLPGLGNYAPGNAALEALAEQWRAEGRPATAVGWGTWAGGRTHGIHELEPALATAALEQALERDESSPVIIDIDWERFAVAFHAKRPTRGFELVPEAQAALEAA 7s6e-a1-m1-cA_7s6e-a1-m1-cB Crystal structure of UrtA from Synechococcus CC9311 in complex with urea and calcium Q0I663 Q0I663 1.973 X-RAY DIFFRACTION 54 1.0 64471 (Synechococcus sp. CC9311) 64471 (Synechococcus sp. CC9311) 397 400 VEYDDSVTVGILHSLTGTMAISESTLVDTEKMAIDEINAAGGVEVDGKKYKIEYIVEDGASDWPTFAEKSKKLIDQDKVPVVFGGWTSASRKAMLPVYESKEAFLYYPIQYEGQECSKNIFYTGATPNQQSEPATSYMFEKSPAAGKPFYLVGSDYVFPRTSNTITKEQVKSLGGEVVGEDYLPLGNTEVAPIIAKIKAALPDGGVIINTLNGDQNVAFFKQIQDAGITPENGYYVMSYSIAEEEISTIGPEFLEGHYGAWNYMMSIDTPASKKFAADFKAKYGDDRVVADPQESAYNMVYLWKKAVEKAGTFDDDKVREALIGIKFDAPQGPIEVRPNHHISQIVRIGEITSDGQFKIVEESDYPIDPQTWNQFEPTSKGFACDWSDPSKGEKYKL ASSVEYDDSVTVGILHSLTGTMAISESTLVDTEKMAIDEINAAGGVEVDGKKYKIEYIVEDGASDWPTFAEKSKKLIDQDKVPVVFGGWTSASRKAMLPVYESKEAFLYYPIQYEGQECSKNIFYTGATPNQQSEPATSYMFEKSPAAGKPFYLVGSDYVFPRTSNTITKEQVKSLGGEVVGEDYLPLGNTEVAPIIAKIKAALPDGGVIINTLNGDQNVAFFKQIQDAGITPENGYYVMSYSIAEEEISTIGPEFLEGHYGAWNYMMSIDTPASKKFAADFKAKYGDDRVVADPQESAYNMVYLWKKAVEKAGTFDDDKVREALIGIKFDAPQGPIEVRPNHHISQIVRIGEITSDGQFKIVEESDYPIDPQTWNQFEPTSKGFACDWSDPSKGEKYKL 7s6l-a1-m1-cB_7s6l-a1-m1-cC J08 fragment antigen binding in complex with SARS-CoV-2-6P-Mut7 S protein (conformation 3) P0DTC2 P0DTC2 4.0 ELECTRON MICROSCOPY 279 0.987 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 949 961 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKSLLIVNNATNVVIKVCEFQCTFEYVSFKNLREFVFKNYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDNYNYLYRLFRKSNLKPFERDISTFPLQSYGFQPTVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7s7b-a1-m1-cB_7s7b-a1-m1-cF Human Nuclear exosome targeting (NEXT) complex homodimer bound to RNA (substrate 1) Q6NZY4 Q6NZY4 4.06 ELECTRON MICROSCOPY 274 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 351 352 7z4y-a1-m1-cA_7z4y-a1-m1-cC 7z4z-a1-m1-cA_7z4z-a1-m1-cC DAELRERLRQCEETIEQLRAENQELKRKLNILTRPSGILVNDTKLDGPILQILFMNNAISKQYHQEIEEFVSNLVKRFEEQQKNDVEKTSFNLLPQPSSIVLEEDHKVEESCAIKNNKEAFSVVGSVLYFTNFCLDKLGQPLLNENPQLSEGWEIPKYHQVFSHIVSLEGQHCFNCGSEEHQMKDCPMPNFQQRYHAEEVEERFGRFKPGVISEELQDALGVTDKSLPPFIYRMRQLGYPPGWLKEAELENSGLALYDGKSVTYDLSKLVNYPGFNISTPRGIPDEWRIFGSIPMQACQQKDVFANYLPIPDMSKFATGITPFEFENMAESTGMYLRIRSLLKNSPRNQQK DAELRERLRQCEETIEQLRAENQELKRKLNILTRPSGILVNDTKLDGPILQILFMNNAISKQYHQEIEEFVSNLVKRFEEQQKNDVEKTSFNLLPQPSSIVLEEDHKVEESCAIKNNKEAFSVVGSVLYFTNFCLDKLGQPLLNENPQLSEGWEIPKYHQVFSHIVSLEGQEHCFNCGSEEHQMKDCPMPNFQQRYHAEEVEERFGRFKPGVISEELQDALGVTDKSLPPFIYRMRQLGYPPGWLKEAELENSGLALYDGKSVTYDLSKLVNYPGFNISTPRGIPDEWRIFGSIPMQACQQKDVFANYLPIPDMSKFATGITPFEFENMAESTGMYLRIRSLLKNSPRNQQK 7s7g-a1-m1-cA_7s7g-a1-m2-cA Crystal Structure Analysis of Human VLCAD P49748 P49748 1.34 X-RAY DIFFRACTION 312 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 571 571 2uxw-a1-m1-cA_2uxw-a1-m2-cA 3b96-a1-m1-cA_3b96-a1-m2-cA ESKSFAVGMFKGQLTTDQVFPYPSVLNEEQTQFLKELVEPVSRFFEEVNDPAKNDALEMVEETTWQGLKELGAFGLQVPSELGGVGLCNTQYARLVEIVGMHDLGVGITLGAHQSIGFKGILLFGTKAQKEKYLPKLASGETVAAFCLTEPSSGSDAASIRTSAVPSPCGKYYTLNGSKLWISNGGLADIFTVFAKTPVTDPATGAVKEKITAFVVERGFGGITHGPPEKKMGIKASNTAEVFFDGVRVPSENVLGEVGSGFKVAMHILNNGRFGMAAALAGTMRGIIAKAVDHATNRTQFGEKIHNFGLIQEKLARMVMLQYVTESMAYMVSANMDQGATDFQIEAAISKIFGSEAAWKVTDECIQIMGGMGFMKEPGVERVLRDLRIFRIFEGTNDILRLFVALQGCMDKGKELSGLGSALKNPFGNAGGSGLSLSGLVHPELSRSGELAVRALEQFATVVEAKLIKHKKGIVNEQFLLQRLADGAIDLYAMVVVLSRASRSLSEGHPTAQHEKMLCDTWCIEAAARIREGMAALQSDPWQQELYRNFKSISKALVERGGVVTSNPLGF ESKSFAVGMFKGQLTTDQVFPYPSVLNEEQTQFLKELVEPVSRFFEEVNDPAKNDALEMVEETTWQGLKELGAFGLQVPSELGGVGLCNTQYARLVEIVGMHDLGVGITLGAHQSIGFKGILLFGTKAQKEKYLPKLASGETVAAFCLTEPSSGSDAASIRTSAVPSPCGKYYTLNGSKLWISNGGLADIFTVFAKTPVTDPATGAVKEKITAFVVERGFGGITHGPPEKKMGIKASNTAEVFFDGVRVPSENVLGEVGSGFKVAMHILNNGRFGMAAALAGTMRGIIAKAVDHATNRTQFGEKIHNFGLIQEKLARMVMLQYVTESMAYMVSANMDQGATDFQIEAAISKIFGSEAAWKVTDECIQIMGGMGFMKEPGVERVLRDLRIFRIFEGTNDILRLFVALQGCMDKGKELSGLGSALKNPFGNAGGSGLSLSGLVHPELSRSGELAVRALEQFATVVEAKLIKHKKGIVNEQFLLQRLADGAIDLYAMVVVLSRASRSLSEGHPTAQHEKMLCDTWCIEAAARIREGMAALQSDPWQQELYRNFKSISKALVERGGVVTSNPLGF 7s81-a2-m1-cB_7s81-a2-m1-cG Structure of human PARP1 domains (Zn1, Zn3, WGR, HD) bound to a DNA double strand break. P09874 P09874 3.6 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 130 135 7s81-a1-m1-cO_7s81-a1-m1-cJ DKDSKLEKALKAQNDLIWNIKDELKKVCSTNDLKELLIFNKQQVPSGESAILDRVADGMVFGALLPCEECSGQLVFKSDAYYCTGDVTAWTKCMVKTQTPNRKEWVTPKEFREISYLKKLKVKKQDRIFP SKKEKDKDSKLEKALKAQNDLIWNIKDELKKVCSTNDLKELLIFNKQQVPSGESAILDRVADGMVFGALLPCEECSGQLVFKSDAYYCTGDVTAWTKCMVKTQTPNRKEWVTPKEFREISYLKKLKVKKQDRIFP 7s87-a1-m1-cB_7s87-a1-m1-cA Crystal Structure of Dihydroorotate dehydrogenase from Plasmodium falciparum in complex with Orotate, FMN, and inhibitor NCGC00600348-01 Q08210 Q08210 2.75 X-RAY DIFFRACTION 30 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 373 379 ADPFESYNPEFFLYDIFLKFCLKYIDGEICHDLFLLLGKYNILPYDTSNDSIYACTNIKHLDFINPFGVAAGFDKNGVCIDSILKLGFSFIEIGTITPRGQTGNAKPRIFRDVESRSIINSCGFNNMGCDKVTENLILFRKRQEEDKLLSKHIVGVSIGKNKDTVNIVDDLKYCINKIGRYADYIAINVSSPNTPGLRDNQEAGKLKNIILSVKEEIDNLFLWFNTTKKKPLVFVKLAPDLNQEQKKEIADVLLETNIDGMIISNTTTQINDIKSFENKKGGVSGAKLKDISTKFICEMYNYTNKQIPIIASGGIFSGLDALEKIEAGASVCQLYSCLVFNGMKSAVQIKRELNHLLYQRGYYNLKEAIGRKH ADPFESYNPEFFLYDIFLKFCLKYIDGEICHDLFLLLGKYNILPYDTSNDSIYACTNIKHLDFINPFGVAAGFDKNGVCIDSILKLGFSFIEIGTITPRGQTGNAKPRIFRDVESRSIINSCGFNNMGCDKVTENLILFRKRQEEDKLLSKHIVGVSIGKNKDTVNIVDDLKYCINKIGRYADYIAINVSSPNTPGLRDNQEAGKLKNIILSVKEEIDNLEKNNDEFLWFNTTKKKPLVFVKLAPDLNQEQKKEIADVLLETNIDGMIISNTTTQINDIKSFENKKGGVSGAKLKDISTKFICEMYNYTNKQIPIIASGGIFSGLDALEKIEAGASVCQLYSCLVFNGMKSAVQIKRELNHLLYQRGYYNLKEAIGRKH 7s8d-a1-m1-cB_7s8d-a1-m1-cA Structure of DNA-free SgrAI Q9F6L0 Q9F6L0 2.02 X-RAY DIFFRACTION 88 0.997 1911 (Streptomyces griseus) 1911 (Streptomyces griseus) 318 325 PFTYSIEATRNLATTERCIQDFQLAQQNMLAYTFGEVIPGFASAGINGMDYRDVIGRPVENAVTEGTHFFRDDFRVDSNAKAKVAGDIFEIVSSAVMWNCAARWNSLMVGEGWRSQPRYSRPTLSPSPRRQVAVLNLPRSFDWVSLLVPESQEVIEEFRAGLRKDGLGLPTSTPDLAVVVLPEEFQNDEMWREEIAGLTRPNQILLSGAYQRLQGRVQPGEISLAVAFKDRLYQPLYEANVMQLLLEGKLGAPKVEFEVHTLAPEGTNAFVTYEAASLYGLAEGRAVHRAIRELYVPPTAADLARRFFAFLNERMELV PFTYSIEATRNLATTERCIQDIQFQLAQQNMLAYTFGEVIPGFASAGINGMDYRDVIGRPVENAVTEGTHFFRDDFRVDSNAKAKVAGDIFEIVSSAVMWNCAARWNSLMVGEGWRSQPRYSRPTLSPSPRRQVAVLNLPRSFDWVSLLVPESQEVIEEFRAGLRKDGLGLPTSTPDLAVVVLPEEFQNDEMWREEIAGLTRPNQILLSGAYQRLQGRVQPGEISLAVAFKRSLRRLYQPLYEANVMQLLLEGKLGAPKVEFEVHTLAPEGTNAFVTYEAASLYGLAEGRSAVHRAIRELYVPPTAADLARRFFAFLNERMELVN 7s8g-a1-m1-ch_7s8g-a1-m1-cH Structure of anti-LASV Fab 25.10C with FNQI mutation 2.57 X-RAY DIFFRACTION 51 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 208 212 QLQESGGGLVKPGGSLRLSCTASGFNFNKYNMNWVRQAPGKGLEWVSSISALSTYIYYADSLKGRFTVSRDNAKNSLFLQMNSLRDDDTAVYYCAREIRRASTWSADLWGRGTLVTVFNQIKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKR QLQESGGGLVKPGGSLRLSCTASGFNFNKYNMNWVRQAPGKGLEWVSSISALSTYIYYADSLKGRFTVSRDNAKNSLFLQMNSLRDDDTAVYYCAREIRRASTWSADLWGRGTLVTVFNQIKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKRVEPK 7s8k-a1-m1-cA_7s8k-a1-m1-cB Crystal structure of a GH12-2 family cellulase from Thermococcus sp. 2319x1 A0A0U3SGP7 A0A0U3SGP7 2.55 X-RAY DIFFRACTION 77 1.0 1674923 (Thermococcus sp. 2319x1) 1674923 (Thermococcus sp. 2319x1) 273 278 QGVIKIRYPDDGQWPEAPIDGDGDGNPEFYIEINPWNIQSAEGYAEMTYNLSTGVLHYVQALDDITLKNGGSWVHGYPEIFYGNKPWNNNYATDGEVPLPGKVSNLSNFYLSVSYKLLPKNGLPINFAIESWLTREPWRNSGINSDEQELMIWLYYDGLQPAGSKVKEIIVPIVVNGTPVNATFEVWKANIGWEYIAFRIKTPIKEGTVTIPYGAFISAAANVTSLANYTELYLEDVEVGTEYGTPSTTSAHLEWWFYNVSLEYRPGEPLLSQ FQGVIKIRYPDDGQWPEAPIDGDGDGNPEFYIEINPWNIQSAEGYAEMTYNLSTGVLHYVQALDDITLKNGGSWVHGYPEIFYGNKPWNNNYATDGEVPLPGKVSNLSNFYLSVSYKLLPKNGLPINFAIESWLTREPWRNSGINSDEQELMIWLYYDGLQPAGSKVKEIIVPIVVNGTPVNATFEVWKANIGWEYIAFRIKTPIKEGTVTIPYGAFISAAANVTSLANYTELYLEDVEVGTEYGTPSTTSAHLEWWFYNVSLEYRPGEPLLSQPPAE 7s94-a2-m1-cE_7s94-a2-m1-cF Structure of the core postfusion porcine endogenous retrovirus fusion protein B3VQ66 B3VQ66 2 X-RAY DIFFRACTION 92 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 76 83 7s94-a1-m1-cA_7s94-a1-m1-cC 7s94-a1-m1-cB_7s94-a1-m1-cA 7s94-a1-m1-cB_7s94-a1-m1-cC 7s94-a2-m1-cE_7s94-a2-m1-cD 7s94-a2-m1-cF_7s94-a2-m1-cD LHRIVTEDLQALEKSVSNLEESLTSLSEVVLQNRRGLDLLFLKEGGLCVALKEECSFYVDHSGAIRDSMSKLRERL KGLSNLHRIVTEDLQALEKSVSNLEESLTSLSEVVLQNRRGLDLLFLKEGGLCVALKEECSFYVDHSGAIRDSMSKLRERLEK 7sat-a1-m1-cB_7sat-a1-m1-cA Structure of PorLM, the proton-powered motor that drives Type IX protein secretion B2RLE8 B2RLE8 3.9 ELECTRON MICROSCOPY 114 0.995 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 218 219 GSNGNANRQKMINLMYLVFIAMMALNVSSEVLDGFDKVDKSLTSSIDGSDKRNNLVLSELNTAYRTNPEKVKVWYERSLVLQKEADSLCTFIDDLKLAIARESDGKDAKVNDIRRKDNLDASSVVMLNPINGKGSTLRKEVDKFRELVATLMTDKAKLKLIEQALNTESGTKGKSWESSLFENMPTVAAITLLTKLQSDVRYAQGEVLADLVKSVDVG SNGNANRQKMINLMYLVFIAMMALNVSSEVLDGFDKVDKSLTSSIDGSDKRNNLVLSELNTAYRTNPEKVKVWYERSLVLQKEADSLCTFIDDLKLAIARESDGKDAKVNDIRRKDNLDASSVVMLNPINGKGSTLRKEVDKFRELVATLMTDKAKLKLIEQALNTESGTKGKSWESSLFENMPTVAAITLLTKLQSDVRYAQGEVLADLVKSVDVGDY 7sat-a1-m1-cF_7sat-a1-m1-cE Structure of PorLM, the proton-powered motor that drives Type IX protein secretion B2RLE9 B2RLE9 3.9 ELECTRON MICROSCOPY 38 1.0 431947 (Porphyromonas gingivalis ATCC 33277) 431947 (Porphyromonas gingivalis ATCC 33277) 77 80 7sat-a1-m1-cC_7sat-a1-m1-cG 7sat-a1-m1-cD_7sat-a1-m1-cC 7sat-a1-m1-cD_7sat-a1-m1-cE 7sat-a1-m1-cF_7sat-a1-m1-cG GHYRRYKNILEMYLASHKGRRLLNIVYSWGAAVVILGALFKLLHLPMGNEMLFVGMITEFLVFFISGFEKPAMEYHW GHYRRYKNILEMYLASHKGRRLLNIVYSWGAAVVILGALFKLLHLPMGNEMLFVGMITEFLVFFISGFEKPAMEYHWEEV 7sau-a1-m1-cB_7sau-a1-m1-cA Structure of GldLM, the proton-powered motor that drives Type IX protein secretion and gliding motility in Schleiferia thermophila A0A085L0Z7 A0A085L0Z7 3.0 ELECTRON MICROSCOPY 132 1.0 1453500 (Schleiferia thermophila str. Yellowstone) 1453500 (Schleiferia thermophila str. Yellowstone) 216 219 KLSPRQRMINMMYLVLTALLALNISKDILEALTKLNEDLSSTVMTVEKKLAFIYQAFDLAASENPEKAGVWRDKAYEVKKQADELHNYLEGIKNDLIEITGGIDEKTNRPKGLDNREKVANYLLVNEGGKAREIRARLEQFRDNMKQYVDEEAALINMLEALFNTEKKKVGDVMIEWENATFEHFPLAAVIPFITGIQANVRNAEADIISHLQRNI AQGKLSPRQRMINMMYLVLTALLALNISKDILEALTKLNEDLSSTVMTVEKKLAFIYQAFDLAASENPEKAGVWRDKAYEVKKQADELHNYLEGIKNDLIEITGGIDEKTNRPKGLDNREKVANYLLVNEGGKAREIRARLEQFRDNMKQYVDEEAALINMLEALFNTEKKKVGDVMIEWENATFEHFPLAAVIPFITGIQANVRNAEADIISHLQRNI 7sau-a1-m1-cF_7sau-a1-m1-cE Structure of GldLM, the proton-powered motor that drives Type IX protein secretion and gliding motility in Schleiferia thermophila A0A085L0W4 A0A085L0W4 3.0 ELECTRON MICROSCOPY 54 1.0 1453500 (Schleiferia thermophila str. Yellowstone) 1453500 (Schleiferia thermophila str. Yellowstone) 71 72 7sau-a1-m1-cC_7sau-a1-m1-cD 7sau-a1-m1-cC_7sau-a1-m1-cG 7sau-a1-m1-cD_7sau-a1-m1-cE 7sau-a1-m1-cF_7sau-a1-m1-cG VNGKKFKNFLAKLYGFGASIVILGAMFKILHWTGADLMLIIGLSTEAVIFFFSAFEKPAPEYDWTLVYPEL DVNGKKFKNFLAKLYGFGASIVILGAMFKILHWTGADLMLIIGLSTEAVIFFFSAFEKPAPEYDWTLVYPEL 7sax-a1-m1-cB_7sax-a1-m1-cA Structure of GldLM, the proton-powered motor that drives Type IX protein secretion and gliding motility in Sphingobacterium wenxiniae A0A1I6R6I5 A0A1I6R6I5 3.0 ELECTRON MICROSCOPY 159 1.0 683125 (Sphingobacterium wenxiniae) 683125 (Sphingobacterium wenxiniae) 211 213 KETPRQRMIGILYLVLLGLVALNVSDSILDAFKNLGNSLNTSTQNTQAGIDNMFLAFRETKLKENPERAQPILQKAEQAQALVQQLTSKVGELTTLLEGEGGGLDEETGDVKYRSSTDISARLMINEGRAKELREVITKTKAELLTLTNNEINLTLEAEDPAPRGGIKKTWEQANFGDGIPLTAAITALEKINADAKNAESAVVKHIFGKM GKKETPRQRMIGILYLVLLGLVALNVSDSILDAFKNLGNSLNTSTQNTQAGIDNMFLAFRETKLKENPERAQPILQKAEQAQALVQQLTSKVGELTTLLEGEGGGLDEETGDVKYRSSTDISARLMINEGRAKELREVITKTKAELLTLTNNEINLTLEAEDPAPRGGIKKTWEQANFGDGIPLTAAITALEKINADAKNAESAVVKHIFGKM 7sax-a1-m1-cG_7sax-a1-m1-cC Structure of GldLM, the proton-powered motor that drives Type IX protein secretion and gliding motility in Sphingobacterium wenxiniae A0A1I6R6J4 A0A1I6R6J4 3.0 ELECTRON MICROSCOPY 38 1.0 683125 (Sphingobacterium wenxiniae) 683125 (Sphingobacterium wenxiniae) 50 60 7sax-a1-m1-cE_7sax-a1-m1-cD 7sax-a1-m1-cE_7sax-a1-m1-cF 7sax-a1-m1-cF_7sax-a1-m1-cG FGINTLINWGATVVIIGLMFKILHLKGGEWMIGVGLAVEALLFFIMGFMQ FGINTLINWGATVVIIGLMFKILHLKGGEWMIGVGLAVEALLFFIMGFMQAEQEPDWTRV 7say-a2-m1-cC_7say-a2-m1-cD Fragment of streptococcal M87 protein fused to GCN4 adaptor in complex with human cathelicidin Q6TLP8 Q6TLP8 2.1 X-RAY DIFFRACTION 60 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 53 67 7saf-a1-m1-cA_7saf-a1-m1-cB 7say-a1-m1-cA_7say-a1-m1-cB QLEDKVEELLSKNYHLENEVARLKKLVSKLEKQLEEAQKDYSEIEGKLEQFWH SMKQLEDKVEELLSKNYHLENEVARLKKLVSKLEKQLEEAQKDYSEIEGKLEQFWHDYDKLEKENKE 7saz-a1-m1-cB_7saz-a1-m1-cA Structure of GldLM, the proton-powered motor that drives Type IX protein secretion and gliding motility in Capnocytophaga canimorsus F9YQB7 F9YQB7 3.0 ELECTRON MICROSCOPY 88 1.0 860228 (Capnocytophaga canimorsus Cc5) 860228 (Capnocytophaga canimorsus Cc5) 215 217 SPRQKMINLMYLVFISMLALNMGKEVLSAFGLMNEKLEASNEKANNANINAIQALEQNNAENPDQFAEAFQKSKKVKELSDSFYNYIEGIKGEVMNQVGEDKKDYQVMDKSDYLDQKFFVGDNYKPEGEEFVRQINDYKTQLVELLGGKEGTYGELVGKIDGNFNTNDVVDREGVTRKWLNYNFEGFPYIASVAKLSMMQSDIRATEQEVYAEML NSPRQKMINLMYLVFISMLALNMGKEVLSAFGLMNEKLEASNEKANNANINAIQALEQNNAENPDQFAEAFQKSKKVKELSDSFYNYIEGIKGEVMNQVGEDKKDYQVMDKSDYLDQKFFVGDNYKPEGEEFVRQINDYKTQLVELLGGKEGTYGELVGKIDGNFNTNDVVDREGVTRKWLNYNFEGFPYIASVAKLSMMQSDIRATEQEVYAEMLK 7saz-a1-m1-cE_7saz-a1-m1-cF Structure of GldLM, the proton-powered motor that drives Type IX protein secretion and gliding motility in Capnocytophaga canimorsus F9YQB6 F9YQB6 3.0 ELECTRON MICROSCOPY 39 1.0 860228 (Capnocytophaga canimorsus Cc5) 860228 (Capnocytophaga canimorsus Cc5) 56 57 7saz-a1-m1-cD_7saz-a1-m1-cC 7saz-a1-m1-cE_7saz-a1-m1-cD 7saz-a1-m1-cF_7saz-a1-m1-cG 7saz-a1-m1-cG_7saz-a1-m1-cC KIFQMAYGIGASIVILGALFKILHWEIDFGGFKLGGGFLLAFGLITEAIIFFISAF KIFQMAYGIGASIVILGALFKILHWEIDFGGFKLGGGFLLAFGLITEAIIFFISAFE 7sb2-a1-m1-cA_7sb2-a1-m1-cB Structure of the periplasmic domain of GldM from Capnocytophaga canimorsus F9YQB7 F9YQB7 3.4 ELECTRON MICROSCOPY 265 0.99 860228 (Capnocytophaga canimorsus Cc5) 860228 (Capnocytophaga canimorsus Cc5) 299 299 MGKEVLSAFGLMNEKLEASNEKANNANINAIQALEQNNAENPDQFAEAFQKSKKVKELSDSFYNYIEGIKGEVMNQVGEDKKDYQVMDKSDYLDQKFFVGDNYKPEGEEFVRQINDYKTQLVELLGGKEGTYGELVGKIDGNFNTNDVVDREGVTRKWLNYNFEGFPYIASVAKLSMMQSDIRATEQEVYAEMLKGQLKSQISMTNYTTLLEQSKGAYYQGESFDGAIVLGRKDASTRPNEVELMLDGRKLSASEFQIEDGKVKLKVGAGNAGEHKITGNLYFDQDGKRIAVPVSQVFS EVLSAFGLMNEKLEASNEKANNANINAIQALEQNNAENPDQFAEAFQKSKKVKELSDSFYNYIEGIKGEVMNQVGEDKKDYQVMDKSDYLDQKFFVGDNYKPEGEEFVRQINDYKTQLVELLGGKEGTYGELVGKIDGNFNTNDVVDREGVTRKWLNYNFEGFPYIASVAKLSMMQSDIRATEQEVYAEMLKGQLKSQISMTNYTTLLEQSKGAYYQGESFDGAIVLGRKDASTRPNEVELMLDGRKLSASEFQIEDGKVKLKVGAGNAGEHKITGNLYFDQDGKRIAVPVSQVFSTIP 7sba-a1-m1-cJ_7sba-a1-m1-cI Structure of type I-D Cascade bound to a dsDNA target Q6ZEI7 Q6ZEI7 2.9 ELECTRON MICROSCOPY 67 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 146 899 7sba-a1-m1-cJ_7sba-a1-m1-cK 7sbb-a1-m1-cJ_7sbb-a1-m1-cK MTEKLKLTKRLVEEYRRFYQVELSKKPSTHAILLPLSKALEQILSVPDDWDEEELILQGSGQLQAALDRQEVYTRPIIKDKSVAYETRQLQELEAIQIFMTTCVRDLFGEMCKGDRAILQEQRNRIKSGAEFAYRLLALEAQQNQN TTLLQTLLIRTLSEQKDYILLEYFQTILPALEEHFGNDQTLAAHILNALLTTWNVMQELEFPLNDIERRLLCLGITLHDYIQEIINICLELGKRLNFDEFWADWRDYIAEISYLAQWSNAGYPFTIKERKLDHPLRHLLTFGDVAVHLSSPHDLVSSTMGDRLRDLLNRLGIEKRFVYHHLRDTTGILSNAIHNVILRTVQKLDWKPLLFFAQGVIYFAPQDTEIPERNEIKQIVWQGISQELGKKMSAGDVGFKRDGKGLKVSPQTSELLAAADIVRILPQVISVKVNNAKSPATPKRLEKLELGDAEREKLYEVADLRCDRLAELLGLVQKEIFLLPEPFIEWVLKDLELTSVIMPEETQVQSGGVNYGWYRVAAHYVANHATWDLEEFQEFLQGFGDRLATWAEEEGYFAEHQSPTRQIFEDYLDRYLEIQGWESDHQAFIQELENYVNAKTKKSKQPICSLSSGEFPSEDQMDSVVLFKPQQYSNKNPLGGGQIKRGISKIWSLEMLLRQAFWSVPSGKFEDQQPIFIYLYPAYVYAPQVVEAIRELVYGIASVNLWDVRKHWVNNKMDLTSLKSLPWLNQLKYTKEDLPFLATVYTTTREKTDTDAWVKPAFLALLLPYLLGVKAIATRSMVPLYRSDQDFRESIHLDGVAGFWSLLGIPTDLRVEDITPALNKLLAIYTLHLAARSSPPKARWQDLPKTVQEVMTDVLNVFALAEQGLRREKRDRPYESEVTEYWQFAELFSQGNIVMTEKLKLTKRLVEEYRRFYQVELSKKPSTHAILLPLSKALEQILSVPDDWDEEELILQGSGQLQAALDRQEVYTRPIIKDKSVAYETRQLQELEAIQIFMTTCVRDLFGEMCKGDRAILQEQRNRIKSGAEFAYRLLALEAQQNQN 7sbb-a1-m1-cJ_7sbb-a1-m1-cI Structure of type I-D Cascade bound to a ssRNA target Q6ZEI7 Q6ZEI7 3.1 ELECTRON MICROSCOPY 66 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 146 680 MTEKLKLTKRLVEEYRRFYQVELSKKPSTHAILLPLSKALEQILSVPDDWDEEELILQGSGQLQAALDRQEVYTRPIIKDKSVAYETRQLQELEAIQIFMTTCVRDLFGEMCKGDRAILQEQRNRIKSGAEFAYRLLALEAQQNQN TTLLQTLLIRTLSEQKDYILLEYFQTILPALEEHFGNDQTLAAHILNALLTTWNVMQELEFPLNDIERRLLCLGITLHDYIQEIINICLELGKRLNFDEFWADWRDYIAEISYLAQWSNAGYPFTIKERKLDHPLRHLLTFGDVAVHLSSPHDLVSSTMGDRLRDLLNRLGIEKRFVYHHLRDTTGILSNAIHNVILRTVQKLDWKPLLFFAQGVIYFAPQDTEIPERNEIKQIVWQGISQELGKKMSAPTRQIFEDYLDRYLEIQGWESDHQAFIQELENYVSKIWSLEMLLRQAFWSVPSGKFEDQQPIFIYLYPAYVYAPQVVEAIRELVYGIASVNLWDVRKHWVNNKMDLTSLKSLPWLNQLKYTKEDLPFLATVYTTTREKTDTDAWVKPAFLALLLPYLLGVKAIATRSMVPLYRSDQDFRESIHLDGVAGFWSLLGIPTDLRVEDITPALNKLLAIYTLHLAARSSPPKARWQDLPKTVQEVMTDVLNVFALAEQGLRREKRDRPYESEVTEYWQFAELFSQGNIVMTEKLKLTKRLVEEYRRFYQVELSKKPSTHAILLPLSKALEQILSVPDDWDEEELILQGSGQLQAALDRQEVYTRPIIKDKSVAYETRQLQELEAIQIFMTTCVRDLFGEMCKGDRAILQEQRNRIKSGAEFAYRLLALEAQQNQN 7sbc-a1-m1-cA_7sbc-a1-m1-cD Crystal structure of a GMP synthase from Acinetobacter baumannii AB5075-UW A0A0R1BBX7 A0A0R1BBX7 1.95 X-RAY DIFFRACTION 104 0.996 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 499 503 7sbc-a1-m1-cB_7sbc-a1-m1-cC NTQITEDRILILDFGSQYSQLIARRVREAGVYSEMYAFDMSEEDIRAFKPNGIILSGGPESVHEEGSPRAPQVVFELGVPVLGICYGLQTMSEQLGGKVEPGEFGYAEVDIVKRDQLIGNLQDRENQLHVWMSHGDKVSQIPEGFTITASTPSCPVAAVSDETRRFYGVQFHPEVTHTAKGEELLSNFVHKICGCGGLWTPEHIIDLRVEQLREQIGNEKVLLGLSGGVDSSVVAALLHKAIGDQLTCVFVDNGLLRLNEGDQVMQMFAENMGIRVIRADAEARFLNALAGVTDPEAKRKIIGREFIEVFAEEARKLDGVKFLAQGTIYPDVIESAHNVGGLPDDLAFELVEPLRDLFKDEVRKLGTTLGLPHSMIYRHPFPGPGLGVRILGEVKKEYADILRLADDIFMQELRDSGWYDKTAQAFAVFQPVKSVGVRRYAWVIALRAVETVDFMTARFAHLPYELVDKISTRIMNEIKDVSRVVYDVSSKPPATIEWE HMTTNTQITEDRILILDFGSQYSQLIARRVREAGVYSEMYAFDMSEEDIRAFKPNGIILSGGPESVHEEGSPRAPQVVFELGVPVLGICYGLQTMSEQLGGKVEPGFGYAEVDIVKRDQLIGNLQDRENQLHVWMSHGDKVSQIPEGFTITASTPSCPVAAVSDETRRFYGVQFHPEVTHTAKGEELLSNFVHKICGCGGLWTPEHIIDLRVEQLREQIGNEKVLLGLSGGVDSSVVAALLHKAIGDQLTCVFVDNGLLRLNEGDQVMQMFAENMGIRVIRADAEARFLNALAGVTDPEAKRKIIGREFIEVFAEEARKLDGVKFLAQGTIYPDVIESAANVGGLPDDLAFELVEPLRDLFKDEVRKLGTTLGLPHSMIYRHPFPGPGLGVRILGEVKKEYADILRLADDIFMQELRDSGWYDKTAQAFAVFQPVKSVGVGRRYAWVIALRAVETVDFMTARFAHLPYELVDKISTRIMNEIKDVSRVVYDVSSKPPATIEWE 7sbc-a1-m1-cD_7sbc-a1-m1-cB Crystal structure of a GMP synthase from Acinetobacter baumannii AB5075-UW A0A0R1BBX7 A0A0R1BBX7 1.95 X-RAY DIFFRACTION 117 0.992 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 503 504 7sbc-a1-m1-cA_7sbc-a1-m1-cC HMTTNTQITEDRILILDFGSQYSQLIARRVREAGVYSEMYAFDMSEEDIRAFKPNGIILSGGPESVHEEGSPRAPQVVFELGVPVLGICYGLQTMSEQLGGKVEPGFGYAEVDIVKRDQLIGNLQDRENQLHVWMSHGDKVSQIPEGFTITASTPSCPVAAVSDETRRFYGVQFHPEVTHTAKGEELLSNFVHKICGCGGLWTPEHIIDLRVEQLREQIGNEKVLLGLSGGVDSSVVAALLHKAIGDQLTCVFVDNGLLRLNEGDQVMQMFAENMGIRVIRADAEARFLNALAGVTDPEAKRKIIGREFIEVFAEEARKLDGVKFLAQGTIYPDVIESAANVGGLPDDLAFELVEPLRDLFKDEVRKLGTTLGLPHSMIYRHPFPGPGLGVRILGEVKKEYADILRLADDIFMQELRDSGWYDKTAQAFAVFQPVKSVGVGRRYAWVIALRAVETVDFMTARFAHLPYELVDKISTRIMNEIKDVSRVVYDVSSKPPATIEWE NTQITEDRILILDFGSQYSQLIARRVREAGVYSEMYAFDMSEEDIRAFKPNGIILSGGPESVHEEGSPRAPQVVFELGVPVLGICYGLQTMSEQLGGKVEPGEFGYAEVDIVKRDQLIGNLQDRENQLHVWMSHGDKVSQIPEGFTITASTPSCPVAAVSDETRRFYGVQFHPEVTHTAKGEELLSNFVHKICGCGGLWTPEHIIDLRVEQLREQIGNEKVLLGLSGGVDSSVVAALLHKAIGDQLTCVFVDNGLLRLNEGDQVMQMFAENMGIRVIRADAEARFLNALAGVTDPEAKRKIIGREFIEVFAEEARKLDGVKFLAQGTIYPDVIESAASKQGNVGGLPDDLAFELVEPLRDLFKDEVRKLGTTLGLPHSMIYRHPFPGPGLGVRILGEVKKEYADILRLADDIFMQELRDSGWYDKTAQAFAVFQPVKSVGVGRRYAWVIALRAVETVDFMTARFAHLPYELVDKISTRIMNEIKDVSRVVYDVSSKPPATIEWE 7sbh-a1-m1-cA_7sbh-a1-m2-cA Crystal structure of the iron superoxide dismutase from Acinetobacter sp. Ver3 A0A031LR83 A0A031LR83 1.34 X-RAY DIFFRACTION 44 1.0 466088 (Acinetobacter sp. Ver3) 466088 (Acinetobacter sp. Ver3) 208 208 MTTITLPALPYGYEDLAPHISKETLEYHHDKHHNTYVVNLNNLIAGTDLEGKTLEEIIKASVGDASKAGIFNNAAQVWNHTFYWNCMAKNGGGKATGALAAKIDEAFGSYEKFAEEFAAAATTQFGSGWAWLVADEVNGKLSIMKTSNADTPLAHGKVAVLTIDVWEHAYYIDFRNARPKYISTFLESLVNWDYANAKYAGQEAGVEK MTTITLPALPYGYEDLAPHISKETLEYHHDKHHNTYVVNLNNLIAGTDLEGKTLEEIIKASVGDASKAGIFNNAAQVWNHTFYWNCMAKNGGGKATGALAAKIDEAFGSYEKFAEEFAAAATTQFGSGWAWLVADEVNGKLSIMKTSNADTPLAHGKVAVLTIDVWEHAYYIDFRNARPKYISTFLESLVNWDYANAKYAGQEAGVEK 7sbj-a1-m1-cA_7sbj-a1-m1-cC Crystal Structure of Ribulose-phosphate 3-epimerase from Stenotrophomonas maltophilia K279a B2FKL8 B2FKL8 1.85 X-RAY DIFFRACTION 37 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 221 221 CLIAPSILSANFARLGEEVDNVLAAGADWVHFDVMDNHYVPNLTIGPMVCQALRKHGVTAPIDVHLMVEPVDRIIPDFAEAGATYISFHPEASRHVHRTIQLIRSLGCKPGIVLNPATPVDILDWVLDDLDLVLLMSVNPGFGGQAFIPSALDKLKVVRKMIDASGKDIRLEIDGGVKADNIGEIAAAGADTFVAGSAIFNAKTSYQDVIAQMRANVAAAR CLIAPSILSANFARLGEEVDNVLAAGADWVHFDVMDNHYVPNLTIGPMVCQALRKHGVTAPIDVHLMVEPVDRIIPDFAEAGATYISFHPEASRHVHRTIQLIRSLGCKPGIVLNPATPVDILDWVLDDLDLVLLMSVNPGFGGQAFIPSALDKLKVVRKMIDASGKDIRLEIDGGVKADNIGEIAAAGADTFVAGSAIFNAKTSYQDVIAQMRANVAAAR 7sbj-a1-m1-cB_7sbj-a1-m1-cC Crystal Structure of Ribulose-phosphate 3-epimerase from Stenotrophomonas maltophilia K279a B2FKL8 B2FKL8 1.85 X-RAY DIFFRACTION 86 1.0 522373 (Stenotrophomonas maltophilia K279a) 522373 (Stenotrophomonas maltophilia K279a) 221 221 CLIAPSILSANFARLGEEVDNVLAAGADWVHFDVMDNHYVPNLTIGPMVCQALRKHGVTAPIDVHLMVEPVDRIIPDFAEAGATYISFHPEASRHVHRTIQLIRSLGCKPGIVLNPATPVDILDWVLDDLDLVLLMSVNPGFGGQAFIPSALDKLKVVRKMIDASGKDIRLEIDGGVKADNIGEIAAAGADTFVAGSAIFNAKTSYQDVIAQMRANVAAAR CLIAPSILSANFARLGEEVDNVLAAGADWVHFDVMDNHYVPNLTIGPMVCQALRKHGVTAPIDVHLMVEPVDRIIPDFAEAGATYISFHPEASRHVHRTIQLIRSLGCKPGIVLNPATPVDILDWVLDDLDLVLLMSVNPGFGGQAFIPSALDKLKVVRKMIDASGKDIRLEIDGGVKADNIGEIAAAGADTFVAGSAIFNAKTSYQDVIAQMRANVAAAR 7sc1-a1-m1-cB_7sc1-a1-m1-cC Structure of the SARS-CoV-2 S 6P trimer in complex with the human neutralizing antibody Fab fragment, R40-1G8 P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 271 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1011 1011 7sc1-a1-m1-cA_7sc1-a1-m1-cB 7sc1-a1-m1-cA_7sc1-a1-m1-cC AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7scq-a1-m1-cA_7scq-a1-m1-cB tRNA-like Structure from Brome Mosaic Virus Bound to Tyrosyl-tRNA Synthetase from Phaseolus vulgaris. Conformation: Bound State 2. V7CJ18 V7CJ18 6.0 ELECTRON MICROSCOPY 64 1.0 3885 (Phaseolus vulgaris) 3885 (Phaseolus vulgaris) 349 349 7sc6-a1-m1-cA_7sc6-a1-m1-cB PEEKFKIVRSVGEECIQEDELLNLLTKKPEPVCYDGFEPSGRMHIAQGVMKTISVNKLTSAGCRVKIWIADWFAKLNNKMGGDLKKIETVGRYLIEIWKAVGMDVEGGKVEFLWSSKEINARADEYWPLVLDIAQKNNLKRIIRCSQIMGRSEQDELTAAQIFYPCMQCADIFFLKADICQLGMDQRKVNVLAREYCDDIKRKNKPIILSHHMLPGLQQGQEKMSKSDPSSSVFMEDEEAEVNVKIKKAYCPPKVVEGNPCLEYIKYLILPWFNEFTVERSADNGGNKTFKSYEELIADYESGELHPADLKPALSKSLNKILEPVREHFRKDSNAKELLKRVKAYRVTK PEEKFKIVRSVGEECIQEDELLNLLTKKPEPVCYDGFEPSGRMHIAQGVMKTISVNKLTSAGCRVKIWIADWFAKLNNKMGGDLKKIETVGRYLIEIWKAVGMDVEGGKVEFLWSSKEINARADEYWPLVLDIAQKNNLKRIIRCSQIMGRSEQDELTAAQIFYPCMQCADIFFLKADICQLGMDQRKVNVLAREYCDDIKRKNKPIILSHHMLPGLQQGQEKMSKSDPSSSVFMEDEEAEVNVKIKKAYCPPKVVEGNPCLEYIKYLILPWFNEFTVERSADNGGNKTFKSYEELIADYESGELHPADLKPALSKSLNKILEPVREHFRKDSNAKELLKRVKAYRVTK 7scx-a1-m1-cB_7scx-a1-m2-cB KRAS full-length G12V in complex with RGL1 Ras association domain Q9NZL6 Q9NZL6 1.96 X-RAY DIFFRACTION 117 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 86 86 DTCIIRISVEDNNGNMYKSIMLTSQDKTPAVIQRAMLKHNLDSDPAEEYELVQVISEDKELVIPDSANVFYAMNSQVNFDFILRKK DTCIIRISVEDNNGNMYKSIMLTSQDKTPAVIQRAMLKHNLDSDPAEEYELVQVISEDKELVIPDSANVFYAMNSQVNFDFILRKK 7sd3-a1-m1-cK_7sd3-a1-m1-cG Cytoplasmic tail deleted HIV-1 Env bound with three 4E10 Fabs 3.67 ELECTRON MICROSCOPY 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 220 220 QVQLVQSGAEVKRPGSSVTVSCKASGGSFSTYALSWVRQAPGRGLEWMGGVIPLLTITNYAPRFQGRITITADRSTSTAYLELNSLRPEDTAVYYCAREGTTGWGWLGKPIGAFAHWGQGTLVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP QVQLVQSGAEVKRPGSSVTVSCKASGGSFSTYALSWVRQAPGRGLEWMGGVIPLLTITNYAPRFQGRITITADRSTSTAYLELNSLRPEDTAVYYCAREGTTGWGWLGKPIGAFAHWGQGTLVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP 7sdd-a1-m1-cA_7sdd-a1-m2-cA Structure of the PTP-like myo-inositol phosphatase from Legionella pneumophila str. Paris in complex with myo-inositol-(1,3,4,5)-tetrakisphosphate Q5ZRR1 Q5ZRR1 1.85 X-RAY DIFFRACTION 18 1.0 297246 (Legionella pneumophila str. Paris) 297246 (Legionella pneumophila str. Paris) 288 288 7sdb-a1-m1-cA_7sdb-a1-m2-cA VCDSTIENPCIVQDSKTQFSPVIRYREVASIADVYGGNITGINKFHLSGSEQPSEKGWEAIAESISRKMKKVIVLDLRQESHGYLNGRAITLVSVYNWINLGKSNSQSTLDQENWLTGLRSRKIVNGVLTVPQYVAKQYSQGKSMVVSTVKNEEYYVYKKGFDYYRIFISDHRAPLDSEVDALVALIKNNPEDTWYHVHSRGGKGRTTTVFAMFDMLKNADKVSFEEIIARQASIPPFYNLMVTNREIPELTPYYEQRLQFLIHFYEFARQSLMGYSGTWSEWKKLNI VCDSTIENPCIVQDSKTQFSPVIRYREVASIADVYGGNITGINKFHLSGSEQPSEKGWEAIAESISRKMKKVIVLDLRQESHGYLNGRAITLVSVYNWINLGKSNSQSTLDQENWLTGLRSRKIVNGVLTVPQYVAKQYSQGKSMVVSTVKNEEYYVYKKGFDYYRIFISDHRAPLDSEVDALVALIKNNPEDTWYHVHSRGGKGRTTTVFAMFDMLKNADKVSFEEIIARQASIPPFYNLMVTNREIPELTPYYEQRLQFLIHFYEFARQSLMGYSGTWSEWKKLNI 7see-a1-m1-cE_7see-a1-m1-cF Structure of E. coli LetB delta (Ring6) mutant, Ring1 in the closed state (Model 1) P76272 P76272 3.2 ELECTRON MICROSCOPY 288 1.0 562 (Escherichia coli) 562 (Escherichia coli) 719 719 7see-a1-m1-cA_7see-a1-m1-cB 7see-a1-m1-cA_7see-a1-m1-cF 7see-a1-m1-cB_7see-a1-m1-cC 7see-a1-m1-cC_7see-a1-m1-cD 7see-a1-m1-cD_7see-a1-m1-cE GNTVTIDFMSADGIVPGRTPVRYQGVEVGTVQDISLSDDLRKIEVKVSIKSDMKDALREETQFWLVTPKASLAGVSGLDALVGGNYIGMMPGKGKEQDHFVALDTQPKYRLDNGDLMIHLQAPDLGSLNSGSLVYFRKIPVGKVYDYAINPNKQGVVIDVLIERRFTDLVKKGSRFWNVSGVDANVSISGAKVKLESLAALVNGAIAFDSPEESKPAEAEDTFGLYEDLAHSQRGVIIKLELPSGAGLTADSTPLMYQGLEVGQLTKLDLNPGGKVTGEMTVDPSVVTLLRENTRIELRNPKLSLSDANLSALLTGKTFELVPGDGEPRKEFVVVPGEKALLHEPDVLTLTLTAPESYGIDAGQPLILHGVQVGQVIDRKLTSKGVTFTVAIEPQHRELVKGDSKFVVNSRVDVKVGLDGVEFLGASASEWINGGIRILPGDKGEMKASYPLYANLEKALENSLSDLPTTTVSLSAETLPDVQAGSVVLYRKFEVGEVITVRPRANAFDIDLHIKPEYRNLLTSNSVFWAEGGAKVQLNGSGLTVQASPLSRALKGAISFDNLSGASASQRKGDKRILYASETAARAVGLSIIVEAPEAGSLGIGTPVLFRGLEVGTVTGMTLGTLSDRVMIAMRISKRYQHLVRNNSVFWLASGYSLDFGLTGGVVKTGTFNQFIRGGIAFATPPGTPLAPKAQEGKHFLLQESEPKEWREWGTALPK GNTVTIDFMSADGIVPGRTPVRYQGVEVGTVQDISLSDDLRKIEVKVSIKSDMKDALREETQFWLVTPKASLAGVSGLDALVGGNYIGMMPGKGKEQDHFVALDTQPKYRLDNGDLMIHLQAPDLGSLNSGSLVYFRKIPVGKVYDYAINPNKQGVVIDVLIERRFTDLVKKGSRFWNVSGVDANVSISGAKVKLESLAALVNGAIAFDSPEESKPAEAEDTFGLYEDLAHSQRGVIIKLELPSGAGLTADSTPLMYQGLEVGQLTKLDLNPGGKVTGEMTVDPSVVTLLRENTRIELRNPKLSLSDANLSALLTGKTFELVPGDGEPRKEFVVVPGEKALLHEPDVLTLTLTAPESYGIDAGQPLILHGVQVGQVIDRKLTSKGVTFTVAIEPQHRELVKGDSKFVVNSRVDVKVGLDGVEFLGASASEWINGGIRILPGDKGEMKASYPLYANLEKALENSLSDLPTTTVSLSAETLPDVQAGSVVLYRKFEVGEVITVRPRANAFDIDLHIKPEYRNLLTSNSVFWAEGGAKVQLNGSGLTVQASPLSRALKGAISFDNLSGASASQRKGDKRILYASETAARAVGLSIIVEAPEAGSLGIGTPVLFRGLEVGTVTGMTLGTLSDRVMIAMRISKRYQHLVRNNSVFWLASGYSLDFGLTGGVVKTGTFNQFIRGGIAFATPPGTPLAPKAQEGKHFLLQESEPKEWREWGTALPK 7sei-a1-m1-cA_7sei-a1-m2-cA Glucose-6-phosphate 1-dehydrogenase (K403Q) P11413 P11413 3.65 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 426 426 6va0-a1-m1-cA_6va0-a1-m2-cA 6va7-a1-m1-cA_6va7-a1-m2-cA 6va8-a1-m1-cA_6va8-a1-m2-cA 6va9-a1-m1-cA_6va9-a1-m2-cA 6vaq-a1-m1-cA_6vaq-a1-m2-cA 7seh-a1-m1-cA_7seh-a1-m2-cB SDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPASTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGEGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAKRNELVIRVLPDAYERLILDVFCGSQMHFVRSDELREAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVG SDTHIFIIMGASGDLAKKKIYPTIWWLFRDGLLPENTFIVGYARSRLTVADIRKQSEPFFKATPEEKLKLEDFFARNSYVAGQYDDAASYQRLNSHMNALHLGSQANRLFYLALPPTVYEAVTKNIHESCMSQIGWNRIIVEKPFGRDLQSSDRLSNHISSLFREDQIYRIDHYLGKEMVQNLMVLRFANRIFGPIWNRDNIACVILTFKEPFGTEGRGGYFDEFGIIRDVMQNHLLQMLCLVAMEKPASTNSDDVRDEKVKVLKCISEVQANNVVLGQYVGNPDGEGEATKGYLDDPTVPRGSTTATFAAVVLYVENERWDGVPFILRCGKALNERKAEVRLQFHDVAKRNELVIRVLPDAYERLILDVFCGSQMHFVRSDELREAWRIFTPLLHQIELEKPKPIPYIYGSRGPTEADELMKRVG 7sev-a1-m1-cA_7sev-a1-m4-cA Crystal structure of E coli contaminant protein YadF co-purified with a plant protein P61517 P61517 2.3 X-RAY DIFFRACTION 12 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 211 1i6p-a1-m1-cA_1i6p-a1-m3-cA 1i6p-a1-m2-cA_1i6p-a1-m4-cA 1t75-a1-m1-cA_1t75-a1-m1-cE 1t75-a1-m1-cB_1t75-a1-m1-cD 2esf-a1-m1-cA_2esf-a1-m2-cB 2esf-a1-m2-cA_2esf-a1-m1-cB 3qy1-a1-m1-cA_3qy1-a1-m2-cA 3qy1-a1-m1-cB_3qy1-a1-m2-cB 4znz-a1-m1-cA_4znz-a1-m4-cA 4znz-a1-m2-cA_4znz-a1-m3-cA 7sev-a1-m2-cA_7sev-a1-m3-cA KDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNL KDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNL 7sev-a1-m2-cA_7sev-a1-m4-cA Crystal structure of E coli contaminant protein YadF co-purified with a plant protein P61517 P61517 2.3 X-RAY DIFFRACTION 195 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 211 1i6p-a1-m1-cA_1i6p-a1-m4-cA 1i6p-a1-m2-cA_1i6p-a1-m3-cA 1t75-a1-m1-cA_1t75-a1-m1-cB 1t75-a1-m1-cD_1t75-a1-m1-cE 2esf-a1-m1-cA_2esf-a1-m1-cB 2esf-a1-m2-cA_2esf-a1-m2-cB 3qy1-a1-m1-cA_3qy1-a1-m1-cB 3qy1-a1-m2-cA_3qy1-a1-m2-cB 4znz-a1-m1-cA_4znz-a1-m3-cA 4znz-a1-m2-cA_4znz-a1-m4-cA 7sev-a1-m1-cA_7sev-a1-m3-cA KDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNL KDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNL 7sev-a1-m3-cA_7sev-a1-m4-cA Crystal structure of E coli contaminant protein YadF co-purified with a plant protein P61517 P61517 2.3 X-RAY DIFFRACTION 49 1.0 562 (Escherichia coli) 562 (Escherichia coli) 211 211 1i6p-a1-m1-cA_1i6p-a1-m2-cA 1i6p-a1-m3-cA_1i6p-a1-m4-cA 1t75-a1-m1-cA_1t75-a1-m1-cD 1t75-a1-m1-cB_1t75-a1-m1-cE 2esf-a1-m1-cA_2esf-a1-m2-cA 2esf-a1-m1-cB_2esf-a1-m2-cB 3qy1-a1-m1-cA_3qy1-a1-m2-cB 3qy1-a1-m2-cA_3qy1-a1-m1-cB 4znz-a1-m1-cA_4znz-a1-m2-cA 4znz-a1-m3-cA_4znz-a1-m4-cA 7sev-a1-m1-cA_7sev-a1-m2-cA KDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNL KDIDTLISNNALWSKMLVEEDPGFFEKLAQAQKPRFLWIGCSDSRVPAERLTGLEPGELFVHRNVANLVIHTDLNCLSVVQYAVDVLEVEHIIICGHYGCGGVQAAVENPELGLINNWLLHIRDIWFKHSSLLGEMPQERRLDTLCELNVMEQVYNLGHSTIMQSAWKRGQKVTIHGWAYGIHDGLLRDLDVTATNRETLEQRYRHGISNL 7sf2-a2-m1-cC_7sf2-a2-m1-cF Crystal Structure of Beta-Galactosidase from Bacteroides cellulosilyticus E2NBY7 E2NBY7 2.75 X-RAY DIFFRACTION 42 1.0 537012 (Bacteroides cellulosilyticus DSM 14838) 537012 (Bacteroides cellulosilyticus DSM 14838) 573 574 7sf2-a1-m1-cA_7sf2-a1-m1-cB 7sf2-a1-m1-cA_7sf2-a1-m1-cD 7sf2-a1-m1-cB_7sf2-a1-m1-cD 7sf2-a2-m1-cC_7sf2-a2-m1-cE 7sf2-a2-m1-cE_7sf2-a2-m1-cF AQWKPAGDRIKTKWAEQINPSDVLPEYPRPIQRNDWKNLNGLWDYAIIDKGGRIPTDFEGQILVPFAVESSLSGVGKRVNENQEVIYQRSFEIPSAWRGKQVLLHFGAVDWKTDVWVNDIKVGSHTGGFTPFSFDITPALSAKGNNRLVVKVWDPTDRGPQPRGKQVSRPEGIWYTPVTGIWQTVWLEPVAGKHIENLRITPDIDRHLLTVKAELNTNSTSDFVEVNVYDGNQLIAAGKSINGEPVEVAPENAKLWSPDSPFLYTLKVTLKEGNKIVDKVDSYAARKYSTRRDANGIVRLELNNEALFQFGPLDQGWWPDGLYTAPTDEALLYDIQKTKDFGYNIRKHIKVEPARWYTYCDQLGIIVWQDPSGDRNPQWQNRKYFDGTEKRSAESEAYYRKEWKEIDCLHSYPCIGTWVPFNEAWGQFKTVEIAEWTKQYDPTRLVNPASGGNHYTCGDLDLHNYPAPEYLYDAQRATVLGEYGGIGLVLKDHIWEPNRNWGYVQFNSSKEATDEYVKYADLYKVDRGFSAAVYTQTTDVEVEVNGLTYDRKVIKLDEKRAKEINTRICNSLK AQWKPAGDRIKTKWAEQINPSDVLPEYPRPIQRNDWKNLNGLWDYAIIDKGGRIPTDFEGQILVPFAVESSLSGVGKRVNENQEVIYQRSFEIPSAWRGKQVLLHFGAVDWKTDVWVNDIKVGSHTGGFTPFSFDITPALSAKGNNRLVVKVWDPTDRGPQPRGKQVSRPEGIWYTPVTGIWQTVWLEPVAGKHIENLRITPDIDRHLLTVKAELNTNSTSDFVEVNVYDGNQLIAAGKSINGEPVEVAPENAKLWSPDSPFLYTLKVTLKEGNKIVDKVDSYAARKYSTRRDANGIVRLELNNEALFQFGPLDQGWWPDGLYTAPTDEALLYDIQKTKDFGYNIRKHIKVEPARWYTYCDQLGIIVWQDPSGDRNPQWQNRKYFDGTEKRSAESEAYYRKEWKEIDCLHSYPCIGTWVPFNEAWGQFKTVEIAEWTKQYDPTRLVNPASGGNHYTCGDLDLHNYPAPEYLYDAQRATVLGEYGGIGLVLKDHIWEPNRNWGYVQFNSSKEATDEYVKYADLYKVDRGFSAAVYTQTTDVEVEVNGLTYDRKVIKLDEKRAKEINTRICNSLKK 7sfn-a1-m1-cA_7sfn-a1-m1-cB Crystal structure of OlmO, a spirocyclase involved in the biosynthesis of oligomycin Q93HI7 Q93HI7 2.1 X-RAY DIFFRACTION 62 1.0 33903 (Streptomyces avermitilis) 33903 (Streptomyces avermitilis) 148 153 FTRPPAPEKMRDLDFLLGDFRAEWTNFTADPATTGTAAWNTASTFHGHAYEMTQRVEAHDLTGRFVVQWVESESSFSGYYYDDWGNRTLLTSEGWQDGYLAFTGECFGFLLKEQYEIVDEKHYVKRGFIKFDEGDWIPADEVHCHREA AEQEFTRPPAPEKMRDLDFLLGDFRAEWTNFTADPATTGTAAWNTASTFHGHAYEMTQRVEAHDLTGRFVVQWVESESSFSGYYYDDWGNRTLLTSEGWQDGYLAFTGECFGSFLLKEQYEIVDEKHYVKRGFIKFDEGDWIPADEVHCHREA 7sfq-a1-m1-cA_7sfq-a1-m1-cB EmrE S64V Mutant Bound to tetra(4-fluorophenyl)phosphonium at pH 8.0 P23895 P23895 NOT SOLID-STATE NMR 84 1.0 562 (Escherichia coli) 562 (Escherichia coli) 102 102 7jk8-a1-m1-cA_7jk8-a1-m1-cB YIYLGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWVGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLIINLLS YIYLGGAILAEVIGTTLMKFSEGFTRLWPSVGTIICYCASFWLLAQTLAYIPTGIAYAIWVGVGIVLISLLSWGFFGQRLDLPAIIGMMLICAGVLIINLLS 7sfu-a1-m54-cB_7sfu-a1-m9-cB CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP P05674 P05674 4.2 ELECTRON MICROSCOPY 49 1.0 11037 (Venezuelan equine encephalitis virus (strain TC-83)) 11037 (Venezuelan equine encephalitis virus (strain TC-83)) 423 423 7sfu-a1-m10-cB_7sfu-a1-m23-cB 7sfu-a1-m11-cB_7sfu-a1-m20-cB 7sfu-a1-m11-cB_7sfu-a1-m38-cB 7sfu-a1-m12-cB_7sfu-a1-m37-cB 7sfu-a1-m12-cB_7sfu-a1-m47-cB 7sfu-a1-m13-cB_7sfu-a1-m45-cB 7sfu-a1-m13-cB_7sfu-a1-m46-cB 7sfu-a1-m14-cB_7sfu-a1-m29-cB 7sfu-a1-m14-cB_7sfu-a1-m44-cB 7sfu-a1-m15-cB_7sfu-a1-m16-cB 7sfu-a1-m15-cB_7sfu-a1-m28-cB 7sfu-a1-m16-cB_7sfu-a1-m28-cB 7sfu-a1-m17-cB_7sfu-a1-m27-cB 7sfu-a1-m17-cB_7sfu-a1-m52-cB 7sfu-a1-m18-cB_7sfu-a1-m51-cB 7sfu-a1-m18-cB_7sfu-a1-m60-cB 7sfu-a1-m19-cB_7sfu-a1-m39-cB 7sfu-a1-m19-cB_7sfu-a1-m59-cB 7sfu-a1-m1-cB_7sfu-a1-m10-cB 7sfu-a1-m1-cB_7sfu-a1-m23-cB 7sfu-a1-m20-cB_7sfu-a1-m38-cB 7sfu-a1-m21-cB_7sfu-a1-m30-cB 7sfu-a1-m21-cB_7sfu-a1-m43-cB 7sfu-a1-m22-cB_7sfu-a1-m42-cB 7sfu-a1-m24-cB_7sfu-a1-m54-cB 7sfu-a1-m24-cB_7sfu-a1-m9-cB 7sfu-a1-m25-cB_7sfu-a1-m26-cB 7sfu-a1-m25-cB_7sfu-a1-m53-cB 7sfu-a1-m26-cB_7sfu-a1-m53-cB 7sfu-a1-m27-cB_7sfu-a1-m52-cB 7sfu-a1-m29-cB_7sfu-a1-m44-cB 7sfu-a1-m2-cB_7sfu-a1-m22-cB 7sfu-a1-m2-cB_7sfu-a1-m42-cB 7sfu-a1-m30-cB_7sfu-a1-m43-cB 7sfu-a1-m31-cB_7sfu-a1-m40-cB 7sfu-a1-m31-cB_7sfu-a1-m58-cB 7sfu-a1-m32-cB_7sfu-a1-m57-cB 7sfu-a1-m32-cB_7sfu-a1-m7-cB 7sfu-a1-m33-cB_7sfu-a1-m5-cB 7sfu-a1-m33-cB_7sfu-a1-m6-cB 7sfu-a1-m34-cB_7sfu-a1-m49-cB 7sfu-a1-m34-cB_7sfu-a1-m4-cB 7sfu-a1-m35-cB_7sfu-a1-m36-cB 7sfu-a1-m35-cB_7sfu-a1-m48-cB 7sfu-a1-m36-cB_7sfu-a1-m48-cB 7sfu-a1-m37-cB_7sfu-a1-m47-cB 7sfu-a1-m39-cB_7sfu-a1-m59-cB 7sfu-a1-m3-cB_7sfu-a1-m41-cB 7sfu-a1-m3-cB_7sfu-a1-m50-cB 7sfu-a1-m40-cB_7sfu-a1-m58-cB 7sfu-a1-m41-cB_7sfu-a1-m50-cB 7sfu-a1-m45-cB_7sfu-a1-m46-cB 7sfu-a1-m4-cB_7sfu-a1-m49-cB 7sfu-a1-m51-cB_7sfu-a1-m60-cB 7sfu-a1-m55-cB_7sfu-a1-m56-cB 7sfu-a1-m55-cB_7sfu-a1-m8-cB 7sfu-a1-m56-cB_7sfu-a1-m8-cB 7sfu-a1-m57-cB_7sfu-a1-m7-cB 7sfu-a1-m5-cB_7sfu-a1-m6-cB STEELFNEYKLTRPYMARCIRCAVGSCHSPIAIEAVKSDGHDGYVRLQTSSQYGLDSSGNLKGRTMRYDMHGTIKEIPLHQVSLYTSRPCHIVDGHGYFLLARCPAGDSITMEFKKDSVRHSCSVPYEVKFNPVGRELYTHPPEHGVEQACQVYAHDAQNRGAYVEMHLPGSEVDSSLVSLSGSSVTVTPPDGTSALVECECGGTKISETINKTKQFSQCTKKEQCRAYRLQNDKWVYNSDKLPKAAGATLKGKLHVPFLLADGKCTVPLAPEPMITFGFRSVSLKLHPKNPTYLITRQLADEPHYTHELISEPAVRNFTVTEKGWEFVWGNHPPKRFWAQETAPGNPHGLPHEVITHYYHRYPMSTILGLSICAAIATVSVAASTWLFCRSRVACLTPYRLTPNARIPFCLAVLCCARTARA STEELFNEYKLTRPYMARCIRCAVGSCHSPIAIEAVKSDGHDGYVRLQTSSQYGLDSSGNLKGRTMRYDMHGTIKEIPLHQVSLYTSRPCHIVDGHGYFLLARCPAGDSITMEFKKDSVRHSCSVPYEVKFNPVGRELYTHPPEHGVEQACQVYAHDAQNRGAYVEMHLPGSEVDSSLVSLSGSSVTVTPPDGTSALVECECGGTKISETINKTKQFSQCTKKEQCRAYRLQNDKWVYNSDKLPKAAGATLKGKLHVPFLLADGKCTVPLAPEPMITFGFRSVSLKLHPKNPTYLITRQLADEPHYTHELISEPAVRNFTVTEKGWEFVWGNHPPKRFWAQETAPGNPHGLPHEVITHYYHRYPMSTILGLSICAAIATVSVAASTWLFCRSRVACLTPYRLTPNARIPFCLAVLCCARTARA 7sfu-a1-m55-cD_7sfu-a1-m9-cD CryoEM structure of Venezuelan Equine Encephalitis virus (VEEV) TC-83 strain VLP P05674 P05674 4.2 ELECTRON MICROSCOPY 222 1.0 11037 (Venezuelan equine encephalitis virus (strain TC-83)) 11037 (Venezuelan equine encephalitis virus (strain TC-83)) 442 442 7sfu-a1-m10-cD_7sfu-a1-m24-cD 7sfu-a1-m11-cD_7sfu-a1-m16-cD 7sfu-a1-m12-cD_7sfu-a1-m38-cD 7sfu-a1-m13-cD_7sfu-a1-m47-cD 7sfu-a1-m14-cD_7sfu-a1-m45-cD 7sfu-a1-m15-cD_7sfu-a1-m29-cD 7sfu-a1-m17-cD_7sfu-a1-m28-cD 7sfu-a1-m18-cD_7sfu-a1-m52-cD 7sfu-a1-m19-cD_7sfu-a1-m60-cD 7sfu-a1-m1-cD_7sfu-a1-m6-cD 7sfu-a1-m20-cD_7sfu-a1-m39-cD 7sfu-a1-m21-cD_7sfu-a1-m26-cD 7sfu-a1-m22-cD_7sfu-a1-m43-cD 7sfu-a1-m25-cD_7sfu-a1-m54-cD 7sfu-a1-m27-cD_7sfu-a1-m53-cD 7sfu-a1-m2-cD_7sfu-a1-m23-cD 7sfu-a1-m30-cD_7sfu-a1-m44-cD 7sfu-a1-m31-cD_7sfu-a1-m36-cD 7sfu-a1-m32-cD_7sfu-a1-m58-cD 7sfu-a1-m33-cD_7sfu-a1-m7-cD 7sfu-a1-m34-cD_7sfu-a1-m5-cD 7sfu-a1-m35-cD_7sfu-a1-m49-cD 7sfu-a1-m37-cD_7sfu-a1-m48-cD 7sfu-a1-m3-cD_7sfu-a1-m42-cD 7sfu-a1-m40-cD_7sfu-a1-m59-cD 7sfu-a1-m41-cD_7sfu-a1-m46-cD 7sfu-a1-m4-cD_7sfu-a1-m50-cD 7sfu-a1-m51-cD_7sfu-a1-m56-cD 7sfu-a1-m57-cD_7sfu-a1-m8-cD YEHATTMPSQAGISYNTIVNRAGYAPLPISITPTKIKLIPTVNLEYVTCHYKTGMDSPAIKCCGSQECTPTYRPDEQCKVFTGVYPFMWGGAYCFCDTENTQVSKAYVMKSDDCLADHAEAYKAHTASVQAFLNITVGEHSIVTTVYVNGETPVNFNGVKITAGPLSTAWTPFDRKIVQYAGEIYNYDFPEYGAGQPGAFGDIQSRTVSSSDLYANTNLVLQRPKAGAIHVPYTQAPSGFEQWKKDKAPSLKFTAPFGCEIYTNPIRAENCAVGSIPLAFDIPDALFTRVSETPTLSAAECTLNECVYSSDFGGIATVKYSASKSGKCAVHVPSGTATLKEAAVELTEQGSATIHFSTANIHPEFRLQICTSYVTCKGDCHPPKDHIVTHPQYHAQTFTAAVSKTAWTWLTSLLGGSAVIIIIGLVLATIVAMYVLTNQKHN YEHATTMPSQAGISYNTIVNRAGYAPLPISITPTKIKLIPTVNLEYVTCHYKTGMDSPAIKCCGSQECTPTYRPDEQCKVFTGVYPFMWGGAYCFCDTENTQVSKAYVMKSDDCLADHAEAYKAHTASVQAFLNITVGEHSIVTTVYVNGETPVNFNGVKITAGPLSTAWTPFDRKIVQYAGEIYNYDFPEYGAGQPGAFGDIQSRTVSSSDLYANTNLVLQRPKAGAIHVPYTQAPSGFEQWKKDKAPSLKFTAPFGCEIYTNPIRAENCAVGSIPLAFDIPDALFTRVSETPTLSAAECTLNECVYSSDFGGIATVKYSASKSGKCAVHVPSGTATLKEAAVELTEQGSATIHFSTANIHPEFRLQICTSYVTCKGDCHPPKDHIVTHPQYHAQTFTAAVSKTAWTWLTSLLGGSAVIIIIGLVLATIVAMYVLTNQKHN 7sfy-a2-m1-cD_7sfy-a2-m1-cE Crystal structure of human Mis18ab_cc Q9NYP9 Q9NYP9 2.5 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 29 31 7sfy-a1-m1-cA_7sfy-a1-m1-cB VEIEKSLTQMEDVLKALQMKLWEAESKLS SRVEIEKSLTQMEDVLKALQMKLWEAESKLS 7sfz-a4-m1-cH_7sfz-a4-m1-cG Crystal structure of Mis18a-yippee domain Q9NYP9 Q9NYP9 3.002 X-RAY DIFFRACTION 45 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 84 92 7sfz-a1-m1-cB_7sfz-a1-m1-cA 7sfz-a2-m1-cD_7sfz-a2-m1-cC RPLVFLCSGCRRPLGDSLSWVANCILLRCVSCNVSVDGCVLETLCCAGCSLNLGYVYRCTPKNLDYKRDLFCLSVEAIESYVLG EERPLVFLCSGCRRPLGDSLSWVASQEDTNCILLRCVSCNVSVDGCVLETLCCAGCSLNLGYVYRCTPKNLDYKRDLFCLSVEAIESYVLGS 7sg7-a1-m1-cW_7sg7-a1-m1-cX In situ cryo-EM structure of bacteriophage Sf6 gp8:gp14N complex at 2.8 A resolution Q716G7 Q716G7 2.83 ELECTRON MICROSCOPY 90 1.0 10761 (Lederbergvirus Sf6) 10761 (Lederbergvirus Sf6) 471 471 7sg7-a1-m1-cS_7sg7-a1-m1-cT 7sg7-a1-m1-cS_7sg7-a1-m1-cU 7sg7-a1-m1-cT_7sg7-a1-m1-cW 7sg7-a1-m1-cU_7sg7-a1-m1-cV 7sg7-a1-m1-cV_7sg7-a1-m1-cX PIQQLPLMKGVGKDFRNADYIDYLPVNMLATPKEILNSSGYLRSFPGIAKRSDVNGVSRGVEYNMAQNAVYRVCGGKLYKGESEVGDVAGSGRVSMAHGRTSQAVGVNGQLVEYRYDGTVKTVSNWPTDSGFTQYELGSVRDITRLRGRYAWSKDGTDSWFITDLEDESHPDRYSAQYRAESQPDGIIGIGTWRDFIVCFGSSTIEYFSLTGATTAGAALYVAQPSLMVQKGIAGTYCKTPFADSYAFISNPATGAPSVYIIGSGQVSPIASASIEKILRSYTADELADGVMESLRFDAHELLIIHLPRHVLVYDASSSANGPQWCVLKTGLYDDVYRAIDFIYEGNQITCGDKLESVTGKLQFDISSQYGLQQEHLLFTPLFKADNARCFDLEVESSTGVAQYADRLFLSATTDGINYGREQMIEQNEPFVYDKRVLWKRVGRIRKNVGFKLRVITKSPVTLSGAQIRIE PIQQLPLMKGVGKDFRNADYIDYLPVNMLATPKEILNSSGYLRSFPGIAKRSDVNGVSRGVEYNMAQNAVYRVCGGKLYKGESEVGDVAGSGRVSMAHGRTSQAVGVNGQLVEYRYDGTVKTVSNWPTDSGFTQYELGSVRDITRLRGRYAWSKDGTDSWFITDLEDESHPDRYSAQYRAESQPDGIIGIGTWRDFIVCFGSSTIEYFSLTGATTAGAALYVAQPSLMVQKGIAGTYCKTPFADSYAFISNPATGAPSVYIIGSGQVSPIASASIEKILRSYTADELADGVMESLRFDAHELLIIHLPRHVLVYDASSSANGPQWCVLKTGLYDDVYRAIDFIYEGNQITCGDKLESVTGKLQFDISSQYGLQQEHLLFTPLFKADNARCFDLEVESSTGVAQYADRLFLSATTDGINYGREQMIEQNEPFVYDKRVLWKRVGRIRKNVGFKLRVITKSPVTLSGAQIRIE 7sgy-a1-m1-cA_7sgy-a1-m1-cB Cannabis sativa bibenzyl synthase A0A7J6FZJ7 A0A7J6FZJ7 2.5 X-RAY DIFFRACTION 186 0.995 3483 (Cannabis sativa) 3483 (Cannabis sativa) 382 386 SVDQIRKAQRANGPATVLAIGTANPPTSFYQADYPDFYFRVTKNQHMTELKDKFKRICEKTTIKKRHLYLTEDRLNQHPNLLEYMAPSLNTRQDMLVVEIPKLGKEAAMKAIKEWGQPKSRITHLIFCSTNGVDMPGADYECAKLLGLSSSVKRVMLYQQGHAGGSVLRIAKDLAENNKGARILTVNSEITIGIFHSPDETYFDGMVGQALFGDGASATIVGADPDKEIGERPIFEMVSAAQEFIPNSDGAVDGHLTEAGLVYHIHKDVPGLISKNIEKSLVEASDWNSLFWIVHPGGPAILNAVEAKLHLKKEKMADTRYVLSEYGNMSSVSIFFIMDKLRKRSLEEGKSTTGDGFEWGVLFGFGPGLTVETIVLHALQTS VDQIRKAQRANGPATVLAIGTANPPTSFYQADYPDFYFRVTKNQHMTELKDKFKRICEKTTIKKRHLYLTEDRLNQHPNLLEYMAPSLNTRQDMLVVEIPKLGKEAAMKAIKEWGQPKSRITHLIFCSTNGVDMPGADYECAKLLGLSSSVKRVMLYQQGHAGGSVLRIAKDLAENNKGARILTVNSEITIGIFHSPDETYFDGMVGQALFGDGASATIVGADPDKEIGERPIFEMVSAAQEFIPNSDGAVDGHLTEAGLVYHIHKDVPGLISKNIEKSLVEALNPIGISDWNSLFWIVHPGGPAILNAVEAKLHLKKEKMADTRYVLSEYGNMSSVSIFFIMDKLRKRSLEEGKSTTGDGFEWGVLFGFGPGLTVETIVLHALQT 7sh1-a1-m1-cA_7sh1-a1-m2-cB Class II UvrA protein - Ecm16 Q0X0A9 Q0X0A9 2.04 X-RAY DIFFRACTION 117 0.99 324833 (Streptomyces lasalocidi) 324833 (Streptomyces lasalocidi) 626 626 CAADSHDMIRVHGARENNLKNVQVEIPKRRLTVFTGVSGSGKSSLVFDTIAAESQRLINETYSAFIQLARPEVDVLDGLTTAILVDQQPMGLRSTVGTATDAGTLLRILFSRLAKPYIGTQKAFAFNVGGMCLACEGICSECHGTRLSETARSAKIDGLSIADASAMQISDLAAWIRGLTDPSVTTLLTVLGQTLESFVQIGLGYLSLDRSSSTLSGGEAQRVKMVRHLGSALTDVTYVFDEPTVGLHPHDIQRMNELLLRLRDKGNTVLVVEHKPETIVIADHVVDLGPLAGTKGGEVVFEGTVEGLRASGTVTGRHLDDRASLKPSVRQRTGVVEVRGADAHNLRDVDVDIPLGVLTVVTGVAGSGKSSLIHGSVAGRDGVVTVDQSPIKGSRRSNPATYTGMLEPIRKTFAKANGVKPALFSPNSEGACPTCKGAGVIVATTCEDCGGKRFQPSVLQYRVGGRDISEVFAMPVAEAAEFFRTGEARTPAACTVLDRLAEVGLGYLSLGQPLTTLSGGERQRLKLAGHMGGAGSVYILDEPTSGLHLADVEQLLRLLDRLVDSGKTVIVVEHHQAVMAHADWIIDLGPGAGHDGGRVVFEGTPADLVAARSTLTGEHLAQYVGA CAADSHDMIRVHGARENNLKNVQVEIPKRRLTVFTGVSGSGKSSLVFDTIAAESQRLINETYSARPEVDVLDGLTTAILVDQQPMGTSLRSTVGTATDAGTLLRILFSRLAKPYIGTQKAFAFNVASGGMCLACEGIGSCSECHGTRLSETARSAKIDGLSIADASAMQISDLAAWIRGLTDPSVTTLLTVLGQTLESFVQIGLGYLSLDRSSSTLSGGEAQRVKMVRHLGSALTDVTYVFDEPTVGLHPHDIQRMNELLLRLRDKGNTVLVVEHKPETIVIADHVVDLGPLAGTKGGEVVFEGTVEGLRASGTVTGRHLDDRASLKPSVRQRTGVVEVRGADAHNLRDVDVDIPLGVLTVVTGVAGSGKSSLIHGSVAGRDGVVTVDQSPIKGSRRSNPATYTGMLEPIRKTFAKANGVKPALFSPNSEGACPTCKGAGVVATTCEDCGGKRFQPSVLQYRVGGRDISEVFAMPVAEAAEFFRTGEARTPAACTVLDRLAEVGLGYLSLGQPLTTLSGGERQRLKLAGHMGGAGSVYILDEPTSGLHLADVEQLLRLLDRLVDSGKTVIVVEHHQAVMAHADWIIDLGPGAGHDGGRVVFEGTPADLVAARSTLTGEHLAQYVGA 7shu-a2-m1-cA_7shu-a2-m3-cA IgE-Fc in complex with omalizumab variant C02 P01854 P01854 2.75 X-RAY DIFFRACTION 30 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 YLSRPSPFDLFIRKSPTITCKGTVNLTWSRASGKPVNHSTLTVTSTLPVGTRDWIEGETYQCRVTALMRSTTKTSGPRAAPEVYAFLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAV YLSRPSPFDLFIRKSPTITCKGTVNLTWSRASGKPVNHSTLTVTSTLPVGTRDWIEGETYQCRVTALMRSTTKTSGPRAAPEVYAFLACLIQNFMPEDISVQWLHNEVQLPDARHSTTQPRKTKGSGFFVFSRLEVTRAEWEQKDEFICRAVHEAASPSQTVQRAV 7sj1-a1-m1-cC_7sj1-a1-m1-cD Structure of shaker-W434F P08510 P08510 2.9 ELECTRON MICROSCOPY 82 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 196 196 7sip-a1-m1-cA_7sip-a1-m1-cB 7sip-a1-m1-cA_7sip-a1-m1-cC 7sip-a1-m1-cB_7sip-a1-m1-cD 7sip-a1-m1-cC_7sip-a1-m1-cD 7sj1-a1-m1-cA_7sj1-a1-m1-cB 7sj1-a1-m1-cA_7sj1-a1-m1-cC 7sj1-a1-m1-cB_7sj1-a1-m1-cD ARVVAIISVFVILLSIVIFCLETLPPFFLIETLCIIWFTFELTVRFDVMNVIDIIAIIPYFITSLAILRVIRLVRVFRIFKLSRHSKGLQILGRTLKASMRELGLLIFFLFIGVVLFSSAVYFAEAGSENSFFKSIPDAFFWAVVTMTTVGYGDMTPVGVWGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET ARVVAIISVFVILLSIVIFCLETLPPFFLIETLCIIWFTFELTVRFDVMNVIDIIAIIPYFITSLAILRVIRLVRVFRIFKLSRHSKGLQILGRTLKASMRELGLLIFFLFIGVVLFSSAVYFAEAGSENSFFKSIPDAFFWAVVTMTTVGYGDMTPVGVWGKIVGSLCAIAGVLTIALPVPVIVSNFNYFYHRET 7sj2-a1-m1-cA_7sj2-a1-m1-cB N-acetylglucosamine-1-phosphotransferase (GNPT) alpha and beta subunits (GNPTAB) catalytic domain, from zebrafish, in complex with uridine diphosphate N-acetylglucosamine (UDP-GlcNAc) and magnesium Q5RGJ8 Q5RGJ8 2.3 X-RAY DIFFRACTION 158 0.993 44689 (Dictyostelium discoideum) 44689 (Dictyostelium discoideum) 428 439 7s6n-a1-m1-cA_7s6n-a1-m1-cB VLFDSYRDNVAGKSFQTRLCLPMPIDVVYTWVNGTDPKLIKEVTELKRSKDDNTASRFEDNEELRYSLRSIEKHAPWVRHIFIVTNGQIPSWLNLDNPRVSVVTHQDIFQNQTHLPTFSSPAIETHIHRIPGLSQKFIYLNDDVMFGKDVWPDDFYSHSKGQKVYLTWPADSLRYVNRLLNAQFGFTSRKVPAHMPHMIDRLIMQELQDTFPQEFDKTSSHRVRHSEDMQFAFSYFYFLMSAVQQLNISEVFDEIDTDHSGVLSDREIRTLATRIHELPLSLQDLTSLEQMLINCSKSLPSNLTHTQEAYYDPSMPPVTKGLVIHCKPITERIHKAFKDQNKYKFEIMGEEEIAFKMIRTNVSHVVGQLDDIRKNPRKFICLNDNIDHIHKDAGTVKAVLRDFYESMFPLPSQFELPRTELQEWRIYR VLFDSYRDNVAGKSFQTRLCLPMPIDVVYTWVNGTDPKLIKEVTELKRSNTASRFEDNEELRYSLRSIEKHAPWVRHIFIVTNGQIPSWLNLDNPRVSVVTHQDIFQNQTHLPTFSSPAIETHIHRIPGLSQKFIYLNDDVMFGKDVWPDDFYSHSKGQKVYLTWPADSLRYVNRLLNAQFGFTSRKVPAHMPHMIDRLIMQELQDTFPQEFDKTSSHRVRHSEDMQFAFSYFYFLMSAVQQLNISEVFDEIDTDHSGVLSDREIRTLATRIHELPLSLQDLTSLEQMLINCSKSLPSNLTHSPTQEAYYDPSMPPVTKGLVIHCKPITERIHKAFKDQNKYKFEIMGEEEIAFKMIRTNVSHVVGQLDDIRKNPRKFICLNDNIDHIHKDAGTVKAVLRDFYESMFPLPSQFELPREYRNRFLHMTELQEWRIYRDKL 7ska-a1-m1-cO_7ska-a1-m1-cZ Sub-tomogram averaged structure of HIV-1 Envelope protein in native membrane Q6TAN8 Q6TAN8 9.1 ELECTRON MICROSCOPY 29 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 142 142 7ska-a1-m1-cB_7ska-a1-m1-cO 7ska-a1-m1-cB_7ska-a1-m1-cZ GFLGAAGSTMGAASMTLTVQARQLLSGIVQQQNNLLRAIEAQQHLLQLTVWGIRQLQARVLAVERYLRDQQLLGIWGCSGKLICTTAVPWNASWSNKSLEQIWNNMTWMEWDREINNYTSLIHSLIEEAQNQQEKNEQELLE GFLGAAGSTMGAASMTLTVQARQLLSGIVQQQNNLLRAIEAQQHLLQLTVWGIRQLQARVLAVERYLRDQQLLGIWGCSGKLICTTAVPWNASWSNKSLEQIWNNMTWMEWDREINNYTSLIHSLIEEAQNQQEKNEQELLE 7skb-a2-m1-cC_7skb-a2-m1-cD Crystal Structure of aspartate-semialdehyde dehydrogenase from Acinetobacter baumannii V5VGT0 V5VGT0 1.8 X-RAY DIFFRACTION 275 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 372 373 7skb-a1-m1-cA_7skb-a1-m1-cB 7tcm-a1-m1-cB_7tcm-a1-m1-cA HMKVGLVGWRGMVGSVLMQRMVEENDFAHIEPFYFSTSNAGGEAPSFGGKTAPALMEATDITSLKQMDVIITCQGGDYTSEVFPKLKATGWDGYWIDAASTLRMTDDAIIVLDPVNLNVIKDGLAKGTKTFVGGNCTVSLMLMGVGALFQNNLVEWMTAMTYQAASGAGAQNMRELLTGMGYLYNNTKTLLDDPKSAILDIDRQVAELQRGEGFPSANFGVPLAGSLIPYIDKQLESGQSKEEWKGQVETNKILGNSQIVPIDGHCVRIGAMRCHSQALTIKLKKDVPLDEIEDMIRNSNQWAKVVPNTREASMTDLTPVAVTGTLTVPVGRLRKLNMGKEYLGAFTVGDQLLWGAAEPLRRMLRILVEYKS HHMKVGLVGWRGMVGSVLMQRMVEENDFAHIEPFYFSTSNAGGEAPSFGGKTAPALMEATDITSLKQMDVIITCQGGDYTSEVFPKLKATGWDGYWIDAASTLRMTDDAIIVLDPVNLNVIKDGLAKGTKTFVGGNCTVSLMLMGVGALFQNNLVEWMTAMTYQAASGAGAQNMRELLTGMGYLYNNTKTLLDDPKSAILDIDRQVAELQRGEGFPSANFGVPLAGSLIPYIDKQLESGQSKEEWKGQVETNKILGNSQIVPIDGHCVRIGAMRCHSQALTIKLKKDVPLDEIEDMIRNSNQWAKVVPNTREASMTDLTPVAVTGTLTVPVGRLRKLNMGKEYLGAFTVGDQLLWGAAEPLRRMLRILVEYKS 7skj-a2-m1-cD_7skj-a2-m1-cC Crystal structure of chloroplast triosephosphate isomerase from Cuscuta australis A0A328DYS8 A0A328DYS8 1.9 X-RAY DIFFRACTION 119 1.0 267555 (Cuscuta australis) 267555 (Cuscuta australis) 237 242 7skj-a1-m1-cB_7skj-a1-m1-cA KCFVGGNWKCNGTKESIVRLISDLNSSKLEPDVDVVVAPPFLYIEQVKSTLTDRIEIAAQNCWIGKGGAFTGEISAEQLKDIGCKWVILGHSERRHVMGENNEFIGKKAAYASSQGVGIIACIGELLEEREARTFDVCFQQLKAFADALPSWENVVIAYEPVWVATPEQAQEVHAAIRDWLNKNSSEVASETRIIYGGSVNGSNCSELAKKEDIDGFLVGGASLKGPDFASIVNSVA KCFVGGNWKCNGTKESIVRLISDLNSSKLEPDVDVVVAPPFLYIEQVKSTLTDRIEIAAQNCWIGKGGAFTGEISAEQLKDIGCKWVILGHSERRHVMGENNEFIGKKAAYASSQGVGIIACIGELLEEREARKTFDVCFQQLKAFADALPSWENVVIAYEPVWAIKVATPEQAQEVHAAIRDWLNKNVSSEVASETRIIYGGSVNGSNCSELAKKEDIDGFLVGGASLKGPDFASIVNSVA 7sko-a1-m1-cD_7sko-a1-m1-cA De novo synthetic protein DIG8-CC (orthogonal space group) 2.05 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 71 72 7skn-a1-m1-cA_7skn-a1-m1-cB 7skn-a2-m1-cC_7skn-a2-m1-cD 7sko-a2-m1-cB_7sko-a2-m1-cC HMRIEVRVDNGRVRVRNGTDRPCRVRVTAGGETREYTVNPGTELEVELSPEQQNNAEVEVECGNEKYRFQL HMRIEVRVDNGRVRVRNGTDRPCRVRVTAGGETREYTVNPGTELEVELSPEQQNNAEVEVECGNEKYRFQLG 7skp-a1-m1-cA_7skp-a1-m1-cB De novo synthetic protein DIG14 (tetragonal space group) 2.5 X-RAY DIFFRACTION 66 1.0 32630 (synthetic construct) 32630 (synthetic construct) 70 76 MGRVEVRVEFEGDKMRVRLRNDSSTPVEVHIKVGDEKRTVTVNPGEEVEVTFSANDPHKFNRPQFTIEWG MGRVEVRVEFEGDKMRVRLRNDSSTPVEVHIKVGDEKRTVTVNPGEEVEVTFSANDPHKFNRPQFTIEWGGQRQHF 7skq-a1-m1-cB_7skq-a1-m1-cA BtSCoV-Rf1.2004 Papain-Like protease bound to the non-covalent inhibitor GRL-0617 Q0QDZ2 Q0QDZ2 3.16 X-RAY DIFFRACTION 75 1.0 347537 (Bat SARS CoV Rf1/2004) 347537 (Bat SARS CoV Rf1/2004) 303 312 IKVFTTVDNTNLHTQLVDMSMTYGQHFGPTYLDGADVTKVKPHVNHEGKTFFVLPSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNYLSSVLLALQQIEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNLVCKHCGQKTTTLMGVEAVMYMGTLSYDELKAGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI VKTIKVFTTVDNTNLHTQLVDMSMTYGQHFGPTYLDGADVTKVKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNYLSSVLLALQQIEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNLVCKHCGQKTTTLMGVEAVMYMGTLSYDELKAGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI 7skr-a1-m1-cA_7skr-a1-m2-cA BtSCoV-Rf1.2004 Papain-Like protease bound to the non-covalent inhibitor 37 Q0QDZ2 Q0QDZ2 2.89 X-RAY DIFFRACTION 77 1.0 347537 (Bat SARS CoV Rf1/2004) 347537 (Bat SARS CoV Rf1/2004) 313 313 EVKTIKVFTTVDNTNLHTQLVDMSMTYGQHFGPTYLDGADVTKVKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNYLSSVLLALQQIEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNLVCKHCGQKTTTLMGVEAVMYMGTLSYDELKAGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI EVKTIKVFTTVDNTNLHTQLVDMSMTYGQHFGPTYLDGADVTKVKPHVNHEGKTFFVLPSDDTLRSEAFEYYHTLDESFLGRYMSALNHTKKWKFPQVGGLTSIKWADNNYLSSVLLALQQIEVKFNAPALQEAYYRARAGDAANFCALILAYSNKTVGELGDVRETMTHLLQHANLESAKRVLNLVCKHCGQKTTTLMGVEAVMYMGTLSYDELKAGVSIPCVCGRDATQYLVQQESSFVMMSAPPAEYKLQQGTFLCANEYTGNYQCGHYTHITAKETLYRIDGAHLTKMSEYKGPVTDVFYKETSYTTTI 7sks-a1-m1-cA_7sks-a1-m1-cB Crystal structure of measles virus matrix protein Q9W850 Q9W850 2.541 X-RAY DIFFRACTION 133 0.989 645098 (Measles virus strain Ichinose-B95a) 645098 (Measles virus strain Ichinose-B95a) 271 282 VPQVRVIDPGLCFMYMFLLGVVEDSDPLGPPIGRAFGSLPLGVGRSTAKPEELLKEATELDIVVRRTAGLNEKLVFYNNTPLTLLTPWRKVLTTGSVFNANQVCNAVNLIPLDTPQRFRVVYMSITRLSDNGYYTVPRRMLEFRSVNAVAFNLLVTLRIDPEATFMVHIGNFRRADYCKMKIEKMGLVFALGGIGGTSLHIRSTGKMSKTLHAKTLCYPLMDINEDLNRLLWRSRCKIVRIQAVLQPSVPQEFRIYDDVIINDDQGLFKVL VPQVRVIDPGLKDECFMYMFLLGVVEDSDPLGPPIGRAFGSLPLGVGRSTAKPEELLKEATELDIVVRRTAGLNEKLVFYNNTPLTLLTPWRKVLTTGSVFNANQVCNAVNLIPLDTPQRFRVVYMSITRLSYYTVPRRMLEFRSVNAVAFNLLVTLRIDLPEATFMVHIGNFRRKEVYSADYCKMKIEKMGLVFALGGIGGTSLHIRSTGKMSKTLHAQLGFKKTLCYPLMDINEDLNRLLWRSRCKIVRIQAVLQPSVPQEFRIYDDVIINDDQGLFKVL 7skt-a1-m1-cA_7skt-a1-m1-cB Crystal structure of Nipah virus matrix protein Q9IK90 Q9IK90 2.048 X-RAY DIFFRACTION 141 0.989 121791 () 121791 () 276 283 6bk6-a1-m1-cA_6bk6-a1-m2-cA MIPKYKIYTPGYNNYMYLICYGFVEDVEKKIRTIAAYPLGVGKSASHPQDLLEELCSLKVTVRRTAGSTEKIVFGSSGPLNHLVPWKKVLTSGSIFNAVKVCRNVDQIQLDKHQALRIFFLSITKLNDGIYMIPRTMLEFRRNNAIAFNLLVYLKIDKVASFMLHLGNFVRRKYYSVDYCRRKIDRMKLQFSLGSIGGLSLHIKINGVISKRLFAQMGFQKNLCFSLMDINPWLNRLTWNNSCEISRVAAVLQPSIPREFMIYDDVFIDNTGRILK IPKYKIYTPGNNYMYLICYGFVEDVEKIRTIAAYPLGVGKSASHPQDLLEELCSLKVTVRRTAGSTEKIVFGSSGPLNHLVPWKKVLTSGSIFNAVKVCRNVDQIQLDKHQALRIFFLSITKLNDSGIYMIPRTMLEFRRNNAIAFNLLVYLKIDADLSKMGIQKVASFMLHLGNFVRRKYYSVDYCRRKIDRMKLQFSLGSIGGLSLHIKINGVISKRLFAQMGFQKNLCFSLMDINPWLNRLTWNNSCEISRVAAVLQPSIPREFMIYDDVFIDNTGRILK 7sl1-a1-m1-cA_7sl1-a1-m1-cB Full-length insulin receptor bound with site 1 binding deficient mutant insulin (A-V3E) P15208 P15208 3.4 ELECTRON MICROSCOPY 149 1.0 10090 (Mus musculus) 10090 (Mus musculus) 813 813 HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDVCPGTAKGKTNCPATVQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHKECLGNCSEPDDPTKCVACRNFYLDGQCVETCPPPYYHFQDWRCVNFSFCQDLHFKCRNSRKPGCHQYVIHNNKCIPECPSGYTMNSSNLMCTPCLGPCPKVCQILEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGFLKIRRSYALVSLSFFRKLHLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSFIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVTEFSWTVVDIDPPQRSHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVYWERQAEDSELFELDYCLKGLKLPSRTDSQILKELEESSFRKTFEDYLHNHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDSPDERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRVRATSLAGNGSWTEPTYFYVTD HLYPGEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDDNEECGDVCPGTAKGKTNCPATVQFVERCWTHSHCQKVCPTICKSHGCTAEGLCCHKECLGNCSEPDDPTKCVACRNFYLDGQCVETCPPPYYHFQDWRCVNFSFCQDLHFKCRNSRKPGCHQYVIHNNKCIPECPSGYTMNSSNLMCTPCLGPCPKVCQILEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGFLKIRRSYALVSLSFFRKLHLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIALKTNGDQASCENELLKFSFIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVTEFSWTVVDIDPPQRSHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVYWERQAEDSELFELDYCLKGLKLPSRTDSQILKELEESSFRKTFEDYLHNHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDSPDERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRVRATSLAGNGSWTEPTYFYVTD 7slt-a1-m1-cA_7slt-a1-m1-cC Protease inhibitors variant, CTI-homolog pacifastin P80060 P80060 2 X-RAY DIFFRACTION 93 1.0 7004 (Locusta migratoria) 7004 (Locusta migratoria) 33 33 GSSCEPGRTFDRCNTCRCGADGRSAACTLRACP GSSCEPGRTFDRCNTCRCGADGRSAACTLRACP 7slw-a2-m1-cE_7slw-a2-m1-cF Complex structure of CDYL2 with an antagonist Q8N8U2 Q8N8U2 2.3 X-RAY DIFFRACTION 21 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 56 57 7slw-a1-m1-cB_7slw-a1-m1-cA 7slw-a1-m1-cC_7slw-a1-m1-cA 7slw-a2-m1-cD_7slw-a2-m1-cE 7slw-a2-m1-cD_7slw-a2-m1-cF ASGDLYEVERIVDKRKNKKGKWEYLIRWKGYGSTEDTWEPEHHLLHCEEFIDEFNG GASGDLYEVERIVDKRKNKKGKWEYLIRWKGYGSTEDTWEPEHHLLHCEEFIDEFNG 7smg-a1-m1-cA_7smg-a1-m1-cD Crystal structure of a (p)ppApp hydrolase from Bacteroides caccae A5ZE35 A5ZE35 2.3 X-RAY DIFFRACTION 35 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 139 140 7smg-a1-m1-cC_7smg-a1-m1-cB NTSTLLEKALQIAVKAHSGQIDKAGSAYIFHPIRVSNRCSTDDERIVALLHDTIEDTEVTAEYLLEGFPRNIVDAILSVTRNEDESYDDFIKRSRLNPIGRQVKLHDLEDNDITRLNELTEKDIYRLNKYIKAYKYLKE NTSTLLEKALQIAVKAHSGQIDKAGSAYIFHPIRVSNRCSTDDERIVALLHDTIEDTEVTAEYLLEGFPRNIVDAILSVTRNEDESYDDFIKRSRLNPIGRQVKLHDLEDNDITRLNELTEKDIYRLNKYIKAYKYLKEH 7smg-a1-m1-cD_7smg-a1-m1-cB Crystal structure of a (p)ppApp hydrolase from Bacteroides caccae A5ZE35 A5ZE35 2.3 X-RAY DIFFRACTION 56 1.0 411901 (Bacteroides caccae ATCC 43185) 411901 (Bacteroides caccae ATCC 43185) 140 142 7smg-a1-m1-cA_7smg-a1-m1-cC NTSTLLEKALQIAVKAHSGQIDKAGSAYIFHPIRVSNRCSTDDERIVALLHDTIEDTEVTAEYLLEGFPRNIVDAILSVTRNEDESYDDFIKRSRLNPIGRQVKLHDLEDNDITRLNELTEKDIYRLNKYIKAYKYLKEH TNTSTLLEKALQIAVKAHSGQIDKAGSAYIFHPIRVSNRCSTDDERIVALLHDTIEDTEVTAEYLLEGFPRNIVDAILSVTRNEDESYDDFIKRSRLNPIGRQVKLHDLEDNDITRLNELTEKDIYRLNKYIKAYKYLKEHH 7smu-a1-m1-cB_7smu-a1-m1-cC Crystal Structure of Consomatin-Ro1 p cleavage intermediate Q7LYJ6 Q7LYJ6 2.5 X-RAY DIFFRACTION 79 1.0 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 178 184 7ygh-a1-m1-cA_7ygh-a1-m1-cB 7yhl-a1-m1-cB_7yhl-a1-m1-cA MVKLVATLGTAPGGVIESFLYLVKKGENIDEVRVVTTSNAEVKKAWRIVRLMFVCCIQEKFPKVEISEHPLDIEDIYSEDDLRKVREFVEKQLGEGDYLDITGGRKSMSVAAALAAKNKGVKIITSIIPQDDYNKISKKVRELKEIPEIKNRGECRQEMKETYCSLIVQDARSIEFEI LGSGRPMVKLVATLGTAPGGVIESFLYLVKKGENIDEVRVVTTSNAEVKKAWRIVRLMFVCCIQEKFPKVEISEHPLDIEDIYSEDDLRKVREFVEKQLGEGDYLDITGGRKSMSVAAALAAKNKGVKIITSIIPQDDYNKISKKVRELKEIPEIKNRGECRQEMKETYCSLIVQDARSIEFEI 7yhj-a2-m1-cB_7yhj-a2-m2-cF Effector binding domain of LysR-Type transcription factor LrhA from E. coli P36771 P36771 3.237 X-RAY DIFFRACTION 93 1.0 562 (Escherichia coli) 562 (Escherichia coli) 191 192 7yhj-a1-m1-cA_7yhj-a1-m1-cE 7yhj-a1-m1-cC_7yhj-a1-m1-cG 7yhj-a2-m2-cD_7yhj-a2-m1-cH GVLTIGASDESADTILPFLLNRVSSVYPKLALDVRVKRNAYMAEMLESQEVDLMVTTHRPSAFKALNLRTSPTHWYCAAEYILQKGEPIPLVLLDDPSPFRDMVLATLNKADIPWRLAYVASTLPAVRAAVKAGLGVTARPVEMMSPDLRVLSGVDGLPPLPDTEYLLCYDPSSNNELAQVIYQAMESYHN GVLTIGASDESADTILPFLLNRVSSVYPKLALDVRVKRNAYMAEMLESQEVDLMVTTHRPSAFKALNLRTSPTHWYCAAEYILQKGEPIPLVLLDDPSPFRDMVLATLNKADIPWRLAYVASTLPAVRAAVKAGLGVTARPVEMMSPDLRVLSGVDGLPPLPDTEYLLCYDPSSNNELAQVIYQAMESYHNP 7yhj-a2-m2-cD_7yhj-a2-m2-cF Effector binding domain of LysR-Type transcription factor LrhA from E. coli P36771 P36771 3.237 X-RAY DIFFRACTION 44 1.0 562 (Escherichia coli) 562 (Escherichia coli) 190 192 7yhj-a1-m1-cC_7yhj-a1-m1-cE 7yhj-a1-m1-cG_7yhj-a1-m1-cA 7yhj-a2-m1-cB_7yhj-a2-m1-cH GVLTIGASDESADTILPFLLNRVSSVYPKLALDVRVKRNAYMAEMLESQEVDLMVTTHRPSAFKALNLRTSPTHWYCAAEYILQKGEPIPLVLLDDPSPFRDMVLATLNKADIPWRLAYVASTLPAVRAAVKAGLGVTARPVEMMSPDLRVLSGVDGLPPLPDTEYLLCYDPSNELAQVIYQAMESYHNP GVLTIGASDESADTILPFLLNRVSSVYPKLALDVRVKRNAYMAEMLESQEVDLMVTTHRPSAFKALNLRTSPTHWYCAAEYILQKGEPIPLVLLDDPSPFRDMVLATLNKADIPWRLAYVASTLPAVRAAVKAGLGVTARPVEMMSPDLRVLSGVDGLPPLPDTEYLLCYDPSSNNELAQVIYQAMESYHNP 7yj0-a2-m1-cC_7yj0-a2-m1-cD Structural basis of oxepinone formation by a flavin-monooxygenase VibO 2.43 X-RAY DIFFRACTION 213 0.998 1826779 (Boreostereum vibrans) 1826779 (Boreostereum vibrans) 618 622 7yj0-a1-m1-cA_7yj0-a1-m1-cB NFEGYVEPELFERPGTSLPNKLGVMPQLTWPNVLNGTNCEKPAVPNYKPPSKVDVIIIGAGPVGLTTAACLLRQGITVRILDRSPHPLPVGRADGLQPRSMEVFDLLGLGEEVYHVGIRVEHTTVYKDGKQHIFAESHQAPGNEAHYTGLHACTQTEVEHLLIRDLIRHDILVERPCTATSYTFDEEASVTHPITVNITNEATGAEEVVTARFLVGSDGAHSMIRKSLPIEFPGVKTDLHWGIVDAVINSDFPHRWTFGTVLNSEYGGCLIIPRERNMVRLYVQLRAEPGKAFDHSKWGPEEILVILNKVFAPYTLSYAEPVDWYTILTINERVATSFTYKDRIFLAGDSCHVHSAKGAFGMNTGVMDAHNLAWKLAMLCRGIAKPSLLASYDVERRENALRAVATSARYLRFGEDKDVFYFKKFVGQVGRFLIGLDVDYAENALNKLSPAVSRARAGYRASNPRVALSRSHSGRLYHSFGHLGQFTLLVFASNMGGALNAKLHALDSYLAGPSSFYHAYGGADTFKIVVVVRATPSQADQRVKTFPFLSKAGHTVYDDQLPLSHFGGDAHALYGVSHEEGAIVVVRPDSWIGTSSTISDARSLESYFDGFLFKSTEG NFEGYVEPELFERPGTSLPNKLGVMPQLTWPNVLNGTNCEKPAVPNYKPPSKVDVIIIGAGPVGLTTAACLLRQGITVRILDRSPHPLPVGRADGLQPRSMEVFDLLGLGEEVYHVGIRVEHTTVYKDGKQHIFAESHQAPGNEAHYTGLHACTQTEVEHLLIRDLIRHDILVERPCTATSYTFDEEASVTHPITVNITNEATGAEEVVTARFLVGSDGAHSMIRKSLPIEFPGVKTDLHWGIVDAVINSDFPHRWTFGTVLNSEYGGCLIIPRERNMVRLYVQLRAEPGKAFDHSKWGPEEILVILNKVFAPYTLSYAEPVDWYTILTINERVATSFTYKDRIFLAGDSCHVHSAKGAFGMNTGVMDAHNLAWKLAMLCRGIAKPSLLASYDVERRENALRAVATSARYLRLVVPPGEDKDVFYFKKFVGQVGRFLIGLDVDYAENALNKLSPAVSRARAGYRASNPRVALSRSHSGRLYHSFGHLGQFTLLVFASNMGGALNAKLHALDSYLAGPSSFYHAYGGADTFKIVVVVRATPSQADQRVKTFPFLSKAGHTVYDDQLPLSHFGGDAHALYGVSHEEGAIVVVRPDSWIGTSSTISDARSLESYFDGFLFKSTEG 7yj5-a1-m1-cA_7yj5-a1-m2-cA Crystal structure of Stenoloma chusanum chalcone synthase 1 (ScCHS1) 1.701 X-RAY DIFFRACTION 165 1.0 2066561 (Odontosoria chusana) 2066561 (Odontosoria chusana) 389 389 7yj6-a1-m1-cA_7yj6-a1-m1-cB 7yj7-a1-m1-cA_7yj7-a1-m2-cA 7yj8-a1-m1-cA_7yj8-a1-m2-cA 7yj9-a1-m1-cA_7yj9-a1-m2-cA 7yja-a1-m1-cA_7yja-a1-m1-cB 7yjb-a1-m1-cA_7yjb-a1-m2-cA RKMERAEGPASVLAIGTAVPPNVVYQKDYPDFYFGVTNSNHKTELKDKFQRMCDKSCVSKRHLYLTEEILKANPSLCAYWEPSLDLRQDIVVVEVPKLGKQAASAAIKEWGQPKSKITHLIFCTTSGVDMPGADWALAKLLGLRSSVKRLVLYMQGCYGGGTVLRIAKDLAENNKGARVLVVCSEITAITFRGPSDTHLDSLVGQALFGDGASALIVGSDPVPAVERAWFELHWTGSDILPNSDGAIDGHLKEVGLTFHLMKDVPAIISKNIGGILKDALAKVFPAAAPPPPTYNDLFWITHPGGPAILDQVEDRLGLRKDKLASTRAVLDQFGNMSSATVLFIMDEMRKRSVEQQLGTTGEGHEWGLLLGFGPGLTCETVVLRSVPLV RKMERAEGPASVLAIGTAVPPNVVYQKDYPDFYFGVTNSNHKTELKDKFQRMCDKSCVSKRHLYLTEEILKANPSLCAYWEPSLDLRQDIVVVEVPKLGKQAASAAIKEWGQPKSKITHLIFCTTSGVDMPGADWALAKLLGLRSSVKRLVLYMQGCYGGGTVLRIAKDLAENNKGARVLVVCSEITAITFRGPSDTHLDSLVGQALFGDGASALIVGSDPVPAVERAWFELHWTGSDILPNSDGAIDGHLKEVGLTFHLMKDVPAIISKNIGGILKDALAKVFPAAAPPPPTYNDLFWITHPGGPAILDQVEDRLGLRKDKLASTRAVLDQFGNMSSATVLFIMDEMRKRSVEQQLGTTGEGHEWGLLLGFGPGLTCETVVLRSVPLV 7yk8-a1-m1-cH_7yk8-a1-m1-cI Cryo-EM structure of dLAG3-alpha-syn fibril P37840 P37840 2.8 ELECTRON MICROSCOPY 39 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 12 12 7yk8-a1-m1-cA_7yk8-a1-m1-cC 7yk8-a1-m1-cA_7yk8-a1-m1-cD 7yk8-a1-m1-cG_7yk8-a1-m1-cI GVVAAAEKTKQG GVVAAAEKTKQG 7ylg-a1-m1-cA_7ylg-a1-m2-cA Crystal structure of the chicken Toll-like receptor 15 TIR domain (glutathione adduct) H2D5F4 H2D5F4 1.8 X-RAY DIFFRACTION 59 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 142 142 7ylf-a1-m1-cA_7ylf-a1-m2-cA KPFDAFISYSEHDADWTKEHLLKKLETDGFKICYHERDFKPGHPVLGNIFYCIENSHKVLFVLSPSFVNSCWCQYELYFAEHRVQDSLIMVVLEDLPPDSVPQKFSKLRKLLKRKTYLKWSPEEHKQKIFWHQLAAVLKTTN KPFDAFISYSEHDADWTKEHLLKKLETDGFKICYHERDFKPGHPVLGNIFYCIENSHKVLFVLSPSFVNSCWCQYELYFAEHRVQDSLIMVVLEDLPPDSVPQKFSKLRKLLKRKTYLKWSPEEHKQKIFWHQLAAVLKTTN 7yly-a1-m1-cq_7yly-a1-m1-cQ yeast TRiC-plp2 complex at S5 closed TRiC state P47079 P47079 3.05 ELECTRON MICROSCOPY 10 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 541 548 7ylw-a1-m1-cq_7ylw-a1-m1-cQ 7ylx-a1-m1-cq_7ylx-a1-m1-cQ SLRLPQNPNAGLFKQGYNSYSNADGQIIKSIAAIRELHQMCLTSMGPCGRNKIIVNHLGKIIITNDAATMLRELDIVHPAVKVLVMATEQQKIDMGDGTNLVMILAGELLNVSEKLISMGLSAVEIIQGYNMARKFTLKELDEMVVGEITDKNDKNELLKMIKPVISSKKYGSEDILSELVSEAVSHVLPVAQQAGEIPYFNVDSIRVVKIMGGSLSNSTVIKGMVFNREPEGHVKSLSEDKKHKVAVFTCPLDIANTETKGTVLLHNAQEMLDFSKGEEKQIDAMMKEIADMGVECIVAGAGVGELALHYLNRYGILVLKVPSKFELRRLCRVCGATPLPRLGAPTPEELGLVETVKTMEIGGDRVTVFKQEQGEISRTSTIILRGATQNNLDDIERAIDDGVAAVKGLMKPSGGKLLPGAGATEIELISRITKYGERTPGLLQLAIKQFAVAFEVVPRTLAETAGLDVNEVLPNLYAAHNVTDHLYKGVDIDGESDEGVKDIREENIYDMLATKKFAINVATEAATTVLSIDQIIMAKK SLRLPQNPNAGLFKQGYNSYSNADGQIIKSIAAIRELHQMCLTSMGPCGRNKIIVNHLGKIIITNDAATMLRELDIVHPAVKVLVMATEQQKIDMGDGTNLVMILAGELLNVSEKLISMGLSAVEIIQGYNMARKFTLKELDEMVVGEITDKNDKNELLKMIKPVISSKKYGSEDILSELVSEAVSHVLPVAQQAGEIPYFNVDSIRVVKIMGGSLSNSTVIKGMVFNREPEGHVKSLSEDKKHKVAVFTCPLDIANTETKGTVLLHNAQEMLDFSKGEEKQIDAMMKEIADMGVECIVAGAGVGELALHYLNRYGILVLKVPSKFELRRLCRVCGATPLPRLGAPTPEELGLVETVKTMEIGGDRVTVFKQEQGEISRTSTIILRGATQNNLDDIERAIDDGVAAVKGLMKPSGGKLLPGAGATEIELISRITKYGERTPGLLQLAIKQFAVAFEVVPRTLAETAGLDVNEVLPNLYAAHNVTEPGAVKTDHLYKGVDIDGESDEGVKDIREENIYDMLATKKFAINVATEAATTVLSIDQIIMAKK 7yml-a1-m1-cN_7yml-a1-m1-cJ Structure of photosynthetic LH1-RC super-complex of Rhodobacter capsulatus P02950 P02950 2.6 ELECTRON MICROSCOPY 10 1.0 1061 (Rhodobacter capsulatus) 1061 (Rhodobacter capsulatus) 43 44 LSFTGLTDEQAQELHAVYMSGLSAFIAVAVLAHLAVMIWRPWF DLSFTGLTDEQAQELHAVYMSGLSAFIAVAVLAHLAVMIWRPWF 7yo8-a1-m1-cA_7yo8-a1-m2-cA Crystal structure of fission yeast Hfl1 LIR fused to human GABARAPL2 P60520 P60520 1.805 X-RAY DIFFRACTION 77 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 140 140 MLQFEIDDEMEPLYNQAKQMRMKSTFKEDHSLEHRCVESAKIRAKYPDRVPVIVEKVSGSQIVDIDKRKYLVPSDITVAQFMWIIRKRIQLPSEKAIFLFVDKTVPQSSLTMGQLYEKEKDEDGFLYVAYSGENTFGLEV MLQFEIDDEMEPLYNQAKQMRMKSTFKEDHSLEHRCVESAKIRAKYPDRVPVIVEKVSGSQIVDIDKRKYLVPSDITVAQFMWIIRKRIQLPSEKAIFLFVDKTVPQSSLTMGQLYEKEKDEDGFLYVAYSGENTFGLEV 7yoa-a1-m1-cA_7yoa-a1-m1-cB High-resolution crystal structure of the mouse alpha-defensin cryptdin 14 P50712 P50712 1.67 X-RAY DIFFRACTION 22 1.0 10090 (Mus musculus) 10090 (Mus musculus) 33 33 DLVCYCRTRGCKRRERMNGTCRKGHLMHTLCCR DLVCYCRTRGCKRRERMNGTCRKGHLMHTLCCR 7yot-a1-m1-cC_7yot-a1-m1-cD Cryo-EM structure of RNA polymerase in complex with P protein tetramer of Newcastle disease virus A0A0S2UXI9 A0A0S2UXI9 3.0 ELECTRON MICROSCOPY 62 1.0 2560319 (Avian orthoavulavirus 1) 2560319 (Avian orthoavulavirus 1) 42 51 7you-a1-m1-cC_7you-a1-m1-cD 7yov-a1-m1-cC_7yov-a1-m1-cD SEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRAVAKS MRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRAVAKSHPVLIAG 7you-a1-m1-cB_7you-a1-m1-cC Cryo-EM structure of RNA polymerase in complex with P protein tetramer of Newcastle disease virus A0A0S2UXI9 A0A0S2UXI9 3.41 ELECTRON MICROSCOPY 19 1.0 2560319 (Avian orthoavulavirus 1) 2560319 (Avian orthoavulavirus 1) 41 47 7yot-a1-m1-cB_7yot-a1-m1-cC TMRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRA IPTMRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRAVAKS 7you-a1-m1-cB_7you-a1-m1-cD Cryo-EM structure of RNA polymerase in complex with P protein tetramer of Newcastle disease virus A0A0S2UXI9 A0A0S2UXI9 3.41 ELECTRON MICROSCOPY 16 1.0 2560319 (Avian orthoavulavirus 1) 2560319 (Avian orthoavulavirus 1) 41 54 7yot-a1-m1-cB_7yot-a1-m1-cD TMRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRA IPTMRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRAVAKSHPVLIAG 7yov-a1-m1-cD_7yov-a1-m1-cE Cryo-EM structure of RNA polymerase in complex with P protein tetramer of Newcastle disease virus A0A0S2UXI9 A0A0S2UXI9 3.25 ELECTRON MICROSCOPY 90 1.0 2560319 (Avian orthoavulavirus 1) 2560319 (Avian orthoavulavirus 1) 76 158 EAISQRVSKIDYQLDLVLKQTSSIPTMRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRAVAKSHPVLIA EAISQRVSKIDYQLDLVLKQTSSIPTMRSEIQQLKTSVAVMEANLGMMKILDPGCANVSSLSDLRAVAKSHPVLIAGPGDPSPYVTQGGEIALNKLSQPVPHPSDLIKPDIGIERDTVRALILSRPMHPSSSSKLLSKLDSAGSVEEIRKIKRLALNG 7yp3-a3-m1-cE_7yp3-a3-m2-cE Crystal structure of elaiophylin glycosyltransferase in complex with elaiophylin E5L4T5 E5L4T5 2.1 X-RAY DIFFRACTION 114 1.0 911111 (Streptomyces sp. SCSIO 01934) 911111 (Streptomyces sp. SCSIO 01934) 408 408 7yp3-a2-m1-cC_7yp3-a2-m1-cD 7yp6-a2-m1-cC_7yp6-a2-m2-cC SHMRILFATVSEKSHLFTMVPLAWSLAAAGHEVHVASNPALTASIKSTGLTAVPVGKDHNLHEMLTENRDSLENPLSDWSTPELDRHSWEQVLMKFKVSVMFAYQTYNDCMVHELVDYARHWQPDLVIWDPVTYAGPVAARVVGAAHARLLWCIDIYAKMREVFLARLAEQPEERREDPMADWLGGILGRYGHTFDEEVVVGQWTIDQIPTSLQLPLSLRRVPVRYLPHNGPSEIPDWLREAPGRPRVVLTSFMPVADMINTLGSMDIDVVAALPPEEVEALEKVPANTRIVDFVPLHALLPGASVLIHHGGFGSWGTALVNGVPQFIPTIRYADWWNKGTSLHEAGAGLVVHASELTAEVLRESVERLVEDASYREAAERLREENQRTPTPHDVVPVIEELTAEHGR SHMRILFATVSEKSHLFTMVPLAWSLAAAGHEVHVASNPALTASIKSTGLTAVPVGKDHNLHEMLTENRDSLENPLSDWSTPELDRHSWEQVLMKFKVSVMFAYQTYNDCMVHELVDYARHWQPDLVIWDPVTYAGPVAARVVGAAHARLLWCIDIYAKMREVFLARLAEQPEERREDPMADWLGGILGRYGHTFDEEVVVGQWTIDQIPTSLQLPLSLRRVPVRYLPHNGPSEIPDWLREAPGRPRVVLTSFMPVADMINTLGSMDIDVVAALPPEEVEALEKVPANTRIVDFVPLHALLPGASVLIHHGGFGSWGTALVNGVPQFIPTIRYADWWNKGTSLHEAGAGLVVHASELTAEVLRESVERLVEDASYREAAERLREENQRTPTPHDVVPVIEELTAEHGR 7yp4-a2-m1-cC_7yp4-a2-m2-cC Crystal structure of elaiophylin glycosyltransferase in apo-form E5L4T5 E5L4T5 3.1 X-RAY DIFFRACTION 112 1.0 911111 (Streptomyces sp. SCSIO 01934) 911111 (Streptomyces sp. SCSIO 01934) 394 394 7yp3-a1-m1-cB_7yp3-a1-m1-cA 7yp3-a4-m1-cG_7yp3-a4-m1-cF 7yp4-a1-m1-cA_7yp4-a1-m1-cB 7yp5-a1-m1-cA_7yp5-a1-m1-cB 7yp6-a1-m1-cA_7yp6-a1-m1-cB HMRILFATVSEKSHLFTMVPLAWSLAAAGHEVHVASNPALTASIKSTGLTAVPVGKDHNLHESLENPLSDWSTPELDRHSWEQVLMKFKVSVMFAYQTYNDCMVHELVDYARHWQPDLVIWDPVTYAGPVAARVVGAAHARLLWCIDIYAKMREVFLARLAEQPEERREDPMADWLGGILGRYGHTFDEEVVVGQWTIDQIPTSLQLPLSLRRVPVRYLPHNGPSEIPDWLREAPGRPRVVLTSGVSAMPVADMINTLGSMDIDVVAALPPVPANTRIVDFVPLHALLPGASLIHHGGFGSWGTALVNGVPQFIPTIRYADWWNKGTSLHEAGAGLVVHASELTAEVLRESVERLVEDASYREAAERLREENQRTPTPHDVVPVIEELTAEHGR HMRILFATVSEKSHLFTMVPLAWSLAAAGHEVHVASNPALTASIKSTGLTAVPVGKDHNLHESLENPLSDWSTPELDRHSWEQVLMKFKVSVMFAYQTYNDCMVHELVDYARHWQPDLVIWDPVTYAGPVAARVVGAAHARLLWCIDIYAKMREVFLARLAEQPEERREDPMADWLGGILGRYGHTFDEEVVVGQWTIDQIPTSLQLPLSLRRVPVRYLPHNGPSEIPDWLREAPGRPRVVLTSGVSAMPVADMINTLGSMDIDVVAALPPVPANTRIVDFVPLHALLPGASLIHHGGFGSWGTALVNGVPQFIPTIRYADWWNKGTSLHEAGAGLVVHASELTAEVLRESVERLVEDASYREAAERLREENQRTPTPHDVVPVIEELTAEHGR 7ypm-a2-m1-cB_7ypm-a2-m1-cD Crystal structure of transaminase CC1012 complexed with PLP and L-alanine A0A318BC23 A0A318BC23 1.984 X-RAY DIFFRACTION 455 1.0 357400 (Caulobacter sp. D5) 357400 (Caulobacter sp. D5) 454 454 7ypm-a1-m1-cA_7ypm-a1-m2-cC 7ypn-a1-m1-cB_7ypn-a1-m1-cD HDIAELKRLDLAHHLPAQADHKVIAEQGGSRIITRAEGVYIHDGEGHQILDGMAGLWCVNVGYGREELAKAAYDQMLELPYYNTFFKTATPPPIELAAKIAQKMGGHLSHVFYNSSGSEANDTVFRLVRHFWKLKGEPSRTVFISRWNAYHGSTVAGVSLGGMKHMHKQGDLPIAGVEHVMQPYQFGDGFGEDPAAFRDRAVQAIEDKILEVGPENVAAFIGEPVQGAGGVIIPPDGYWPAVEALCRKYGILLVCDEVICGFGRLGQWFGHQHYGIKPDLIAMAKGLSSGYLPISAVGVADHIVAELREKGGDFIHGFTYSGHPTAAAVALKNIEIMEREGLVERTRDETGPYLAQALASLNDHPLVGEVRSLGLIGAVEIVREKGTNHRFLDKEGEAGPIVRDLCIKNGLMVRAIRDSIVCCPPLIITKAQIDELVGIIRKSLDEAEPVLRAL HDIAELKRLDLAHHLPAQADHKVIAEQGGSRIITRAEGVYIHDGEGHQILDGMAGLWCVNVGYGREELAKAAYDQMLELPYYNTFFKTATPPPIELAAKIAQKMGGHLSHVFYNSSGSEANDTVFRLVRHFWKLKGEPSRTVFISRWNAYHGSTVAGVSLGGMKHMHKQGDLPIAGVEHVMQPYQFGDGFGEDPAAFRDRAVQAIEDKILEVGPENVAAFIGEPVQGAGGVIIPPDGYWPAVEALCRKYGILLVCDEVICGFGRLGQWFGHQHYGIKPDLIAMAKGLSSGYLPISAVGVADHIVAELREKGGDFIHGFTYSGHPTAAAVALKNIEIMEREGLVERTRDETGPYLAQALASLNDHPLVGEVRSLGLIGAVEIVREKGTNHRFLDKEGEAGPIVRDLCIKNGLMVRAIRDSIVCCPPLIITKAQIDELVGIIRKSLDEAEPVLRAL 7ypv-a1-m1-cB_7ypv-a1-m1-cA Crystal structure of OrE-ST-F G9MBU1 G9MBU1 2.415 X-RAY DIFFRACTION 92 1.0 58340 (Streptomyces lavendulae subsp. lavendulae) 58340 (Streptomyces lavendulae subsp. lavendulae) 171 172 7ypu-a1-m1-cA_7ypu-a1-m1-cB 7ypu-a2-m1-cD_7ypu-a2-m1-cC 7ypu-a3-m1-cF_7ypu-a3-m1-cE 7ypu-a4-m1-cH_7ypu-a4-m1-cG 7ypv-a2-m1-cC_7ypv-a2-m1-cD 7ypv-a3-m1-cE_7ypv-a3-m1-cF 7ypv-a4-m1-cG_7ypv-a4-m1-cH TYAFRVARPEDVEAIAAIDGSFTTGTVFQVAVAPDGFTLREVAVDPPLVKVFPEDDGSGDRRTYVAVGAGGAVAGFTAVSYTPWNGRLTIEDIEVAPGHRGRGIGRGLMERAADFARERGAGHLWLEVTNVNAPAIHAYLRLGFTFCGLDTALYLGTESEGEQALYMSMPC TTYAFRVARPEDVEAIAAIDGSFTTGTVFQVAVAPDGFTLREVAVDPPLVKVFPEDDGSGDRRTYVAVGAGGAVAGFTAVSYTPWNGRLTIEDIEVAPGHRGRGIGRGLMERAADFARERGAGHLWLEVTNVNAPAIHAYLRLGFTFCGLDTALYLGTESEGEQALYMSMPC 7ypx-a1-m1-cB_7ypx-a1-m1-cC Cyanophage Pam3 fiber 3.12 ELECTRON MICROSCOPY 90 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 250 250 7yfw-a1-m1-ca_7yfw-a1-m1-cb 7yfw-a1-m1-ca_7yfw-a1-m1-cc 7yfw-a1-m1-cb_7yfw-a1-m1-cc 7ypx-a1-m1-cA_7ypx-a1-m1-cB 7ypx-a1-m1-cA_7ypx-a1-m1-cC LDVELDNWLMWWLTGQVDGVIEGAGLTTDDTDLARLYKAIQSMTSGNLRTVVLTAASGNLPIPSDVSVLNWVRAVGGGGAGGNSNTGNSKASGGGGGAGFDRFNVAVTPGSNVPYTVGAAGAVNGLGAGYNGGAGGSTAILGTTAGGGAGGLGVNNNATAVQVNGGTTSGTTPEISYPGGLGTEGIVGTGGGSVLSQPTQRAFTNAGNNNPANSWGGGGPGGSDFGGAWQPGGVGKQGIIIVQYFSRFAP LDVELDNWLMWWLTGQVDGVIEGAGLTTDDTDLARLYKAIQSMTSGNLRTVVLTAASGNLPIPSDVSVLNWVRAVGGGGAGGNSNTGNSKASGGGGGAGFDRFNVAVTPGSNVPYTVGAAGAVNGLGAGYNGGAGGSTAILGTTAGGGAGGLGVNNNATAVQVNGGTTSGTTPEISYPGGLGTEGIVGTGGGSVLSQPTQRAFTNAGNNNPANSWGGGGPGGSDFGGAWQPGGVGKQGIIIVQYFSRFAP 7ypx-a1-m1-cb_7ypx-a1-m1-cc Cyanophage Pam3 fiber 3.12 ELECTRON MICROSCOPY 31 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 162 162 7ypx-a1-m1-ca_7ypx-a1-m1-cb 7ypx-a1-m1-ca_7ypx-a1-m1-cc MTDKHYARVVDGLVVETKTLPADFNLDDLFGPDHGWVEAPLEVEQGWRKVGAKFAPAPPPERDPASILAGLKAEASRHIFATISATAQSNLLLAVGLASAKAPSARTPEERDLLNVADEGRAWIDAVRARVHALAEHDGVTPKGEDRWPAPSEAVLEMAAKF MTDKHYARVVDGLVVETKTLPADFNLDDLFGPDHGWVEAPLEVEQGWRKVGAKFAPAPPPERDPASILAGLKAEASRHIFATISATAQSNLLLAVGLASAKAPSARTPEERDLLNVADEGRAWIDAVRARVHALAEHDGVTPKGEDRWPAPSEAVLEMAAKF 7yq1-a3-m1-cD_7yq1-a3-m3-cF Crystal structure of adenosine 5'-phosphosulfate kinase from Archaeoglobus fulgidus in complex with AMP-PNP and APS A0A101DF63 A0A101DF63 1.91 X-RAY DIFFRACTION 39 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 173 173 7yq0-a1-m1-cA_7yq0-a1-m1-cB 7yq1-a1-m1-cA_7yq1-a1-m2-cB 7yq1-a2-m1-cC_7yq1-a2-m2-cE SMSFVIWITGPSGAGKTTLANALYKKLESMGYRVELLDGDGVRRKLYPNLGFSEEERWMHNRVVVEMARRLSRNGIITIVSVVSPYRAWREYARKEIEKFVEVYPRCPLEVRMKRDPKGLYSKALRGEIKGLTGLDGEYEEPENPEVVVDTDKMTVEEEVEAVLKKLMELGYL SMSFVIWITGPSGAGKTTLANALYKKLESMGYRVELLDGDGVRRKLYPNLGFSEEERWMHNRVVVEMARRLSRNGIITIVSVVSPYRAWREYARKEIEKFVEVYPRCPLEVRMKRDPKGLYSKALRGEIKGLTGLDGEYEEPENPEVVVDTDKMTVEEEVEAVLKKLMELGYL 7yqa-a2-m1-cD_7yqa-a2-m1-cC Crystal structure of D-threonine aldolase from Chlamydomonas reinhardtii A0A1C9ZZ39 A0A1C9ZZ39 1.85 X-RAY DIFFRACTION 235 0.995 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 393 394 7yqa-a1-m1-cA_7yqa-a1-m1-cB RCAATISASRAPAHLGDALHDVDTPALILDLDAFDRNCEKLKGVMAGFPGVAVRPHAAHKCAEVARRQLQLLGAKGVCCQKVIEAEAMAEGGVSDLLLSNEVIAPRKIDRLVGLAAAGARVGVCYEREDNLRQLNAAAAARGTHLDVLVELNVGQDRCGVNSADEVVQLARAAAGLDNVRFAGIQAYHGGLQHVRDPRDRAQRVGQVVGRARAAVDALKAAGLPCDTVTGGGTGTYRVEAASGVFTEVQPGSFAFSDADYARNLQEDGGVGEWEQSLWVLTQVMSVTPARGLAVVDAGTKAVSLDSGPPRLPPAFEAAYGMMEYGSGGDEHGKLMWPPMSLPEVGSLLLLQPGHCDPTVNLYDWLVAARRQQGGVDGWRVEAVWPIRGRGPGQ TRCAATISASRAPAHLGDALHDVDTPALILDLDAFDRNCEKLKGVMAGFPGVAVRPHAAHKCAEVARRQLQLLGAKGVCCQKVIEAEAMAEGGVSDLLLSNEVIAPRKIDRLVGLAAAGARVGVCYEREDNLRQLNAAAAARGTHLDVLVELNVGQDRCGVNSADEVVQLARAAAGLDNVRFAGIQAYHGGLQHVRDPRDRAQRVGQVVGRARAAVDALKAAGLPCDTVTGGGTGTYRVEAASGVFTEVQPGSFAFSDADYARNLQEDGGVGEWEQSLWVLTQVMSVTPARGLAVVDAGTKAVSLDSGPPRLPPAFEAAYGTMMEYGSGGDEHGKLMWPSLPEVGSLLLLQPGHCDPTVNLYDWLVAARRQQQGGVDGWRVEAVWPIRGRGPGQ 7yqb-a1-m1-cA_7yqb-a1-m1-cB Functional and Structural Characterization of Norovirus GII.6 in Recognizing Histo-blood Group Antigens A0A2U9GLY1 A0A2U9GLY1 1.704 X-RAY DIFFRACTION 138 1.0 122929 (Norovirus GII) 122929 (Norovirus GII) 298 301 KPFTLPILTLGELSNSRFPAPIDMLYTDPNEAIVVQPQNGRCTLDGTLQGTTQLVPTQICSFRGTLISNHPLHVQLKNLDGTPYDPTDEVPAVLGAIDFKGTVFGVASQRNTTGNSIGATRAHEVHIDTTNPRYTPKLGSVLMYSESNDFDDGQPTRFTPIGMGADDWHQWELPEYSGHLTLNMNLAPAVAPAFPGERILFFRSVVPSAGGYGSGHIDCLIPQEWVQHFYQEAAPSQSAVALIRYVNPDTGRNIFEAKLHREGFITVANSGNNPIVVPPNGYFRFEAWVNQFYTLTPM KPFTLPILTLGELSNSRFPAPIDMLYTDPNEAIVVQPQNGRCTLDGTLQGTTQLVPTQICSFRGTLISQTRNHPLHVQLKNLDGTPYDPTDEVPAVLGAIDFKGTVFGVASQRNTTGNSIGATRAHEVHIDTTNPRYTPKLGSVLMYSESNDFDDGQPTRFTPIGMGADDWHQWELPEYSGHLTLNMNLAPAVAPAFPGERILFFRSVVPSAGGYGSGHIDCLIPQEWVQHFYQEAAPSQSAVALIRYVNPDTGRNIFEAKLHREGFITVANSGNNPIVVPPNGYFRFEAWVNQFYTLTPM 7yqw-a1-m1-cB_7yqw-a1-m1-cC SARS-CoV-2 BA.2.75 S Trimer (3 RBD Down) P0DTC2 P0DTC2 3.51 ELECTRON MICROSCOPY 249 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1042 1042 7yqw-a1-m1-cA_7yqw-a1-m1-cB 7yqw-a1-m1-cA_7yqw-a1-m1-cC TQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVLRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPVNLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVATWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE TQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVLRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPVNLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVATWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 7yr1-a1-m1-cB_7yr1-a1-m1-cC SARS-CoV-2 BA.2.75 S Trimer in complex with XG2v024 P0DTC2 P0DTC2 3.62 ELECTRON MICROSCOPY 240 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1025 1025 7yr1-a1-m1-cA_7yr1-a1-m1-cB 7yr1-a1-m1-cA_7yr1-a1-m1-cC TQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPVNLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHRAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVATWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP TQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPVNLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHRAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVATWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 7yr6-a1-m1-cD_7yr6-a1-m1-cE Cryo-EM structure of Pseudomonas aeruginosa RsmZ RNA in complex with two RsmA protein dimers V6AK05 V6AK05 4.8 ELECTRON MICROSCOPY 102 1.0 287 (Pseudomonas aeruginosa) 287 (Pseudomonas aeruginosa) 55 55 MLILTRRVGETLMVGDDVTVTVLGVKGNQVRIGVNAPKEVAVHREEIYQRIQKEK MLILTRRVGETLMVGDDVTVTVLGVKGNQVRIGVNAPKEVAVHREEIYQRIQKEK 7yrf-a1-m54-cE_7yrf-a1-m9-cE Cryo-EM structure of compact CA16 empty particle in complex with a neutralizing antibody 8C4 2.91 ELECTRON MICROSCOPY 11 1.0 31704 (Coxsackievirus A16) 31704 (Coxsackievirus A16) 213 213 7y7m-a1-m10-cG_7y7m-a1-m23-cG 7y7m-a1-m11-cG_7y7m-a1-m20-cG 7y7m-a1-m11-cG_7y7m-a1-m38-cG 7y7m-a1-m12-cG_7y7m-a1-m37-cG 7y7m-a1-m12-cG_7y7m-a1-m47-cG 7y7m-a1-m13-cG_7y7m-a1-m45-cG 7y7m-a1-m13-cG_7y7m-a1-m46-cG 7y7m-a1-m14-cG_7y7m-a1-m29-cG 7y7m-a1-m14-cG_7y7m-a1-m44-cG 7y7m-a1-m15-cG_7y7m-a1-m16-cG 7y7m-a1-m15-cG_7y7m-a1-m28-cG 7y7m-a1-m16-cG_7y7m-a1-m28-cG 7y7m-a1-m17-cG_7y7m-a1-m27-cG 7y7m-a1-m17-cG_7y7m-a1-m52-cG 7y7m-a1-m18-cG_7y7m-a1-m51-cG 7y7m-a1-m18-cG_7y7m-a1-m60-cG 7y7m-a1-m19-cG_7y7m-a1-m39-cG 7y7m-a1-m19-cG_7y7m-a1-m59-cG 7y7m-a1-m1-cG_7y7m-a1-m10-cG 7y7m-a1-m1-cG_7y7m-a1-m23-cG 7y7m-a1-m20-cG_7y7m-a1-m38-cG 7y7m-a1-m21-cG_7y7m-a1-m30-cG 7y7m-a1-m21-cG_7y7m-a1-m43-cG 7y7m-a1-m22-cG_7y7m-a1-m42-cG 7y7m-a1-m24-cG_7y7m-a1-m54-cG 7y7m-a1-m24-cG_7y7m-a1-m9-cG 7y7m-a1-m25-cG_7y7m-a1-m26-cG 7y7m-a1-m25-cG_7y7m-a1-m53-cG 7y7m-a1-m26-cG_7y7m-a1-m53-cG 7y7m-a1-m27-cG_7y7m-a1-m52-cG 7y7m-a1-m29-cG_7y7m-a1-m44-cG 7y7m-a1-m2-cG_7y7m-a1-m22-cG 7y7m-a1-m2-cG_7y7m-a1-m42-cG 7y7m-a1-m30-cG_7y7m-a1-m43-cG 7y7m-a1-m31-cG_7y7m-a1-m40-cG 7y7m-a1-m31-cG_7y7m-a1-m58-cG 7y7m-a1-m32-cG_7y7m-a1-m57-cG 7y7m-a1-m32-cG_7y7m-a1-m7-cG 7y7m-a1-m33-cG_7y7m-a1-m5-cG 7y7m-a1-m33-cG_7y7m-a1-m6-cG 7y7m-a1-m34-cG_7y7m-a1-m49-cG 7y7m-a1-m34-cG_7y7m-a1-m4-cG 7y7m-a1-m35-cG_7y7m-a1-m36-cG 7y7m-a1-m35-cG_7y7m-a1-m48-cG 7y7m-a1-m36-cG_7y7m-a1-m48-cG 7y7m-a1-m37-cG_7y7m-a1-m47-cG 7y7m-a1-m39-cG_7y7m-a1-m59-cG 7y7m-a1-m3-cG_7y7m-a1-m41-cG 7y7m-a1-m3-cG_7y7m-a1-m50-cG 7y7m-a1-m40-cG_7y7m-a1-m58-cG 7y7m-a1-m41-cG_7y7m-a1-m50-cG 7y7m-a1-m45-cG_7y7m-a1-m46-cG 7y7m-a1-m4-cG_7y7m-a1-m49-cG 7y7m-a1-m51-cG_7y7m-a1-m60-cG 7y7m-a1-m54-cG_7y7m-a1-m9-cG 7y7m-a1-m55-cG_7y7m-a1-m56-cG 7y7m-a1-m55-cG_7y7m-a1-m8-cG 7y7m-a1-m56-cG_7y7m-a1-m8-cG 7y7m-a1-m57-cG_7y7m-a1-m7-cG 7y7m-a1-m5-cG_7y7m-a1-m6-cG 7yrf-a1-m10-cE_7yrf-a1-m23-cE 7yrf-a1-m11-cE_7yrf-a1-m20-cE 7yrf-a1-m11-cE_7yrf-a1-m38-cE 7yrf-a1-m12-cE_7yrf-a1-m37-cE 7yrf-a1-m12-cE_7yrf-a1-m47-cE 7yrf-a1-m13-cE_7yrf-a1-m45-cE 7yrf-a1-m13-cE_7yrf-a1-m46-cE 7yrf-a1-m14-cE_7yrf-a1-m29-cE 7yrf-a1-m14-cE_7yrf-a1-m44-cE 7yrf-a1-m15-cE_7yrf-a1-m16-cE 7yrf-a1-m15-cE_7yrf-a1-m28-cE 7yrf-a1-m16-cE_7yrf-a1-m28-cE 7yrf-a1-m17-cE_7yrf-a1-m27-cE 7yrf-a1-m17-cE_7yrf-a1-m52-cE 7yrf-a1-m18-cE_7yrf-a1-m51-cE 7yrf-a1-m18-cE_7yrf-a1-m60-cE 7yrf-a1-m19-cE_7yrf-a1-m39-cE 7yrf-a1-m19-cE_7yrf-a1-m59-cE 7yrf-a1-m1-cE_7yrf-a1-m10-cE 7yrf-a1-m1-cE_7yrf-a1-m23-cE 7yrf-a1-m20-cE_7yrf-a1-m38-cE 7yrf-a1-m21-cE_7yrf-a1-m30-cE 7yrf-a1-m21-cE_7yrf-a1-m43-cE 7yrf-a1-m22-cE_7yrf-a1-m42-cE 7yrf-a1-m24-cE_7yrf-a1-m54-cE 7yrf-a1-m24-cE_7yrf-a1-m9-cE 7yrf-a1-m25-cE_7yrf-a1-m26-cE 7yrf-a1-m25-cE_7yrf-a1-m53-cE 7yrf-a1-m26-cE_7yrf-a1-m53-cE 7yrf-a1-m27-cE_7yrf-a1-m52-cE 7yrf-a1-m29-cE_7yrf-a1-m44-cE 7yrf-a1-m2-cE_7yrf-a1-m22-cE 7yrf-a1-m2-cE_7yrf-a1-m42-cE 7yrf-a1-m30-cE_7yrf-a1-m43-cE 7yrf-a1-m31-cE_7yrf-a1-m40-cE 7yrf-a1-m31-cE_7yrf-a1-m58-cE 7yrf-a1-m32-cE_7yrf-a1-m57-cE 7yrf-a1-m32-cE_7yrf-a1-m7-cE 7yrf-a1-m33-cE_7yrf-a1-m5-cE 7yrf-a1-m33-cE_7yrf-a1-m6-cE 7yrf-a1-m34-cE_7yrf-a1-m49-cE 7yrf-a1-m34-cE_7yrf-a1-m4-cE 7yrf-a1-m35-cE_7yrf-a1-m36-cE 7yrf-a1-m35-cE_7yrf-a1-m48-cE 7yrf-a1-m36-cE_7yrf-a1-m48-cE 7yrf-a1-m37-cE_7yrf-a1-m47-cE 7yrf-a1-m39-cE_7yrf-a1-m59-cE 7yrf-a1-m3-cE_7yrf-a1-m41-cE 7yrf-a1-m3-cE_7yrf-a1-m50-cE 7yrf-a1-m40-cE_7yrf-a1-m58-cE 7yrf-a1-m41-cE_7yrf-a1-m50-cE 7yrf-a1-m45-cE_7yrf-a1-m46-cE 7yrf-a1-m4-cE_7yrf-a1-m49-cE 7yrf-a1-m51-cE_7yrf-a1-m60-cE 7yrf-a1-m55-cE_7yrf-a1-m56-cE 7yrf-a1-m55-cE_7yrf-a1-m8-cE 7yrf-a1-m56-cE_7yrf-a1-m8-cE 7yrf-a1-m57-cE_7yrf-a1-m7-cE 7yrf-a1-m5-cE_7yrf-a1-m6-cE DIQMTQSSSYLSVSLGGRVTITCKASDHINNWLAWYQQKPGNAPRLLISGATSLETGVPSRFSGSGSGKDYTLSITSLQTEDVATYYCQQYWNSPYTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNE DIQMTQSSSYLSVSLGGRVTITCKASDHINNWLAWYQQKPGNAPRLLISGATSLETGVPSRFSGSGSGKDYTLSITSLQTEDVATYYCQQYWNSPYTFGGGTKLEIKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRNE 7yrt-a5-m1-cI_7yrt-a5-m1-cG Crystal structure of PAS like domain of FlrB, the histidine kinase involved in flagellar synthesis of Vibrio cholerae H9L4P6 H9L4P6 2.27 X-RAY DIFFRACTION 140 1.0 127906 (Vibrio cholerae O1) 127906 (Vibrio cholerae O1) 114 115 7yrt-a1-m1-cA_7yrt-a1-m1-cE 7yrt-a2-m1-cB_7yrt-a2-m1-cF 7yrt-a3-m1-cK_7yrt-a3-m1-cC 7yrt-a4-m1-cL_7yrt-a4-m1-cD 7yrt-a6-m1-cJ_7yrt-a6-m1-cH QHSHLDSLEDQVERYKQVLDVMPAGVILLDTQGIVREANPEAQRLLDVPLVGEKWYSVIQIAFAPRDDDGHEISLRNGRKVRLAISASTTGQLILITDLTETRLLQSRISDLQR QHSHLDSLEDQVERYKQVLDVMPAGVILLDTQGIVREANPEAQRLLDVPLVGEKWYSVIQIAFAPRDDDGHEISLRNGRKVRLAISASTTGQLILITDLTETRLLQSRISDLQRL 7ysh-a1-m1-cE_7ysh-a1-m1-cD Cryo-EM Structure of FGF23-FGFR1c-aKlotho-HS Quaternary Complex P11362-20 P11362-20 2.74 ELECTRON MICROSCOPY 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 212 213 RMPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPNPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHIEVNGSKIGPDNLPYVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVL RMPVAPYWTSPEKMEKKLHAVPAAKTVKFKCPSSGTPNPTLRWLKNGKEFKPDHRIGGYKVRYATWSIIMDSVVPSDKGNYTCIVENEYGSINHTYQLDVVERSPHRPILQAGLPANKTVALGSNVEFMCKVYSDPQPHIQWLKHIEVNGSKIGPDNLPYVQILKTAGVNTTDKEMEVLHLRNVSFEDAGEYTCLAGNSIGLSHHSAWLTVLE 7ysk-a1-m1-cB_7ysk-a1-m1-cA Crystal structure of D-Cysteine desulfhydrase from Pectobacterium atrosepticum Q6D6Z8 Q6D6Z8 1.8 X-RAY DIFFRACTION 112 0.997 218491 (Pectobacterium atrosepticum SCRI1043) 218491 (Pectobacterium atrosepticum SCRI1043) 332 341 7ysl-a1-m1-cB_7ysl-a1-m1-cA HLARFPRLSLGHFPTPLEVLPNLSAYLGGPTIYIKRDDATGLATGGNTRKLEFLLADAQQQGADVIITQGATQSNHVRQTIAAAAKLGLKTKVLLEKRVEDYGEDYQRSGNVLLDNLLGGDIIDHLPAGTDMQQAMETLAESLRKEGFKPYVIPGGGSSPVGALGYVACAEELLFQSSQQRLRIDHIVHATGSTGTQAGLVTGLAATHSQIPLLGISVRAPKAKQEENVYALAQRTWQLLGIPGELPRSAVRVNSDYVGKGYGIPTEGTLEALRLLAQLEGILLDPVYSGKGMAGLIDLIRQGHFRADENIVFIHTGGSAGLFGYRQLFEQT GGQQMGRGSMHLARFPRLSLGHFPTPLEVLPNLSAYLGGPTIYIKRDDATGLATGGNTRKLEFLLADAQQQGADVIITQGATQSNHVRQTIAAAAKLGLKTKVLLEKRVEDYGEDYQRSGNVLLDNLLGGDIIDHLPAGTDMQQAMETLAESLRKEGFKPYVIPGGGSSPVGALGYVACAEELLFQSSQQRLRIDHIVHATGSTGTQAGLVTGLAATHSQIPLLGISVRAPKAKQEENVYALAQRTWQLLGIPGELPRSAVRVNSDYVGKGYGIPTEGTLEALRLLAQLEGILLDPVYSGKGMAGLIDLIRQGHFRADENIVFIHTGGSAGLFGYRQLFEQ 7ysu-a1-m1-cE_7ysu-a1-m1-cC Cryo-EM Structure of FGF23-FGFR3c-aKlotho-HS Quaternary Complex P22607 P22607 3.2 ELECTRON MICROSCOPY 59 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 210 211 TGAPYWTRPERMDKKLLAVPAANTVRFRCPAAGNPTPSISWLKNGREFRGEHRIGGIKLRHQQWSLVMESVVPSDRGNYTCVVENKFGSIRQTYTLDVLERSPHRPILQAGLPANQTAVLGSDVEFHCKVYSDAQPHIQWLKHVEVNGSKVGPDGTPYVTVLKTAGANTTDKELEVLSLHNVTFEDAGEYTCLAGNSIGFSHHSAWLVVL TGAPYWTRPERMDKKLLAVPAANTVRFRCPAAGNPTPSISWLKNGREFRGEHRIGGIKLRHQQWSLVMESVVPSDRGNYTCVVENKFGSIRQTYTLDVLERSPHRPILQAGLPANQTAVLGSDVEFHCKVYSDAQPHIQWLKHVEVNGSKVGPDGTPYVTVLKTAGANTTDKELEVLSLHNVTFEDAGEYTCLAGNSIGFSHHSAWLVVLP 7ytj-a1-m1-cB_7ytj-a1-m1-cC Cryo-EM structure of VTC complex P40046 P40046 3.0 ELECTRON MICROSCOPY 86 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 102 102 7ytj-a1-m1-cC_7ytj-a1-m1-cA 8i6v-a1-m1-cB_8i6v-a1-m1-cA 8i6v-a1-m1-cB_8i6v-a1-m1-cC VEPKVFFANERTFLSWLNFTVMLGGLGVGLLNFGDKIGRVSAGLFTFVAMGTMIYALVTYHWRAAAIRRRGSGPYDDRLGPTLLCFFLLVAVIINFILRLKY VEPKVFFANERTFLSWLNFTVMLGGLGVGLLNFGDKIGRVSAGLFTFVAMGTMIYALVTYHWRAAAIRRRGSGPYDDRLGPTLLCFFLLVAVIINFILRLKY 7yty-a1-m1-cA_7yty-a1-m1-cB Mouse SVCT1 in an apo state Q9Z2J0 Q9Z2J0 3.5 ELECTRON MICROSCOPY 154 1.0 10090 (Mus musculus) 10090 (Mus musculus) 501 501 7ytw-a1-m1-cA_7ytw-a1-m1-cB EDVPPWYLCILLGFQHYLTCFSGTIAVPFLLAEALCVGRDQHMVSQLIGTIFTCVGITTLIQTTVGIRLPLFQASAFAFLVPAKSILALERWKCPSEEEIYGNWSMPLNTSHIWHPRIREVQGAIMVSSMVEVVIGLMGLPGALLSYIGPLTVTPTVSLIGLSVFQAAGDRAGSHWGISACSILLIVLFSQYLRNLTIFKMFPIVLAIMTVWLLCYVLTLTDVLPADPTVYGFQARTDARGDIMAISPWIRIPYPCQWGLPTVTVAAVLGMFSATLAGIIESIGDYYACARLAGAPPPPVHAINRGIFTEGICCIIAGLLGTGNGSTSSSPNIGVLGITKVGSRRVVQYGAGIMLILGAIGKFTALFASLPDPILGGMFCTLFGMITAVGLSNLQFVDMNSSRNLFVLGFSMFFGLTLPNYLDSNPGAINTGIPEVDQILTVLLTTEMFVGGCLAFILDNTVPGSPEERGLIQWSYDFPFGMGMVKRTTFFRYIPICPVFR EDVPPWYLCILLGFQHYLTCFSGTIAVPFLLAEALCVGRDQHMVSQLIGTIFTCVGITTLIQTTVGIRLPLFQASAFAFLVPAKSILALERWKCPSEEEIYGNWSMPLNTSHIWHPRIREVQGAIMVSSMVEVVIGLMGLPGALLSYIGPLTVTPTVSLIGLSVFQAAGDRAGSHWGISACSILLIVLFSQYLRNLTIFKMFPIVLAIMTVWLLCYVLTLTDVLPADPTVYGFQARTDARGDIMAISPWIRIPYPCQWGLPTVTVAAVLGMFSATLAGIIESIGDYYACARLAGAPPPPVHAINRGIFTEGICCIIAGLLGTGNGSTSSSPNIGVLGITKVGSRRVVQYGAGIMLILGAIGKFTALFASLPDPILGGMFCTLFGMITAVGLSNLQFVDMNSSRNLFVLGFSMFFGLTLPNYLDSNPGAINTGIPEVDQILTVLLTTEMFVGGCLAFILDNTVPGSPEERGLIQWSYDFPFGMGMVKRTTFFRYIPICPVFR 7yv9-a1-m1-cH_7yv9-a1-m1-cA Cryo-EM structure of full-length Myosin Va in the autoinhibited state D3YZ62 D3YZ62 4.78 ELECTRON MICROSCOPY 272 0.998 10090 (Mus musculus) 10090 (Mus musculus) 1061 1067 SELYTKFARVWIPDPEEVWKSAELLKDYKPGDKVLLLHLEEGKDLEYRLDPKTGELPHLRNPDILVGENDLTALSYLHEPAVLHNLRVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAKLPEFKMLRLGNADSFHYTKQGGSPMIEGVDDAKEMAHTRQACTLLGISESYQMGIFRILAGILHLGNVGFASRDSDSCTIPPKHEPLTIFCDLMGVDYEEMCHWLCHRKLATATETYIKPISKLQATNARDALAKHIYAKLFNWIVDHVNQALHSAVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIESKLGILDLLDEECKMPKGTDDTWAQKLYNTHLLFEKPRMSNKAFIIKHFADKVEYQCEGFLEKNKDTVFEEQIKVLKSSKFKMLPELFQDDEHKKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLGDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKLRADKLRAACIRIQKTIRGWLLRKRYLCMQRAAITVQRYVRGYQARCYAKFLRRTKAATTIQKYWRMYVVRRRYKIRRAATIVIQSYLRGYLTRNRYRKILREYKAVIIQKRVRGWLARTHYKRTMKAIVYLQCCFRRMMAKRELKKLKIEARSVERYKKLHIGMENKIMQLQRKVDEQNKDYKCLMEKLTNLEGVYNSETEKLRNDVERLQLSEEEAKVATGRVLSLQEEIAKLRKDLEQTRSEKKSIEERADKYKQETDQLVSNLKEENTLLKQEKETLNHRIVEQAKEMTETMERKLVEETKQLELDLNDERLRYQNLLNEFSRLEERYDDLKEEMTLM ASELYTKFARVWIPDPEEVWKSAELLKDYKPGDKVLLLHLEEGKDLEYRLDPKTGELPHLRNPDILVGENDLTALSYLHEPAVLHNLRVRFIDSKLIYTYCGIVLVAINPYEQLPIYGEDIINAYSGQNMGDMDPHIFAVAEEAYKQMARDERNQSIIVSGESGAGKTVSAKYAMRYFATVSGSASEANVEEKVLASNPIMESIGNAKTTRNDNSSRFGKYIEIGFDKRYRIIGANMRTYLLEKSRVVFQAEEERNYHIFYQLCASAKLPEFKMLRLGNADSFHYTKQGGSPMIEGVDDAKEMAHTRQACTLLGISESYQMGIFRILAGILHLGNVGFASRDSDSCTIPPKHEPLTIFCDLMGVDYEEMCHWLCHRKLATATETYIKPISKLQATNARDALAKHIYAKLFNWIVDHVNQALHSAVKQHSFIGVLDIYGFETFEINSFEQFCINYANEKLQQQFNMHVFKLEQEEYMKEQIPWTLIDFYDNQPCINLIESKLGILDLLDEECKMPKGTDDTWAQKLYNTHLNKCALFEKPRMSNKAFIIKHFADKVEYQCEGFLEKNKDTVFEEQIKVLKSSKFKMLPELFQDDEAKEHKKTVGHQFRNSLHLLMETLNATTPHYVRCIKPNDFKFPFTFDEKRAVQQLRACGVLETIRISAAGFPSRWTYQEFFSRYRVLMKQKDVLGDRKQTCKNVLEKLILDKDKYQFGKTKIFFRAGQVAYLEKLRADKLRAACIRIQKTIRGWLLRKRYLCMQRAAITVQRYVRGYQARCYAKFLRRTKAATTIQKYWRMYVVRRRYKIRRAATIVIQSYLRGYLTRNRYRKILREYKAVIIQKRVRGWLARTHYKRTMKAIVYLQCCFRRMMAKRELKKLKIEARSVERYKKLHIGMENKIMQLQRKVDEQNKDYKCLMEKLTNLEGVYNSETEKLRNDVERLQLSEEEAKVATGRVLSLQEEIAKLRKDLEQTRSEKKSIEERADKYKQETDQLVSNLKEENTLLKQEKETLNHRIVEQAKEMTETMERKLVEETKQLELDLNDERLRYQNLLNEFSRLEERYDDLKEEMT 7yv9-a1-m1-cY_7yv9-a1-m1-cX Cryo-EM structure of full-length Myosin Va in the autoinhibited state D3YZ62 D3YZ62 4.78 ELECTRON MICROSCOPY 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 373 376 PIRPVNIPRKEKDFQGMLEYKREDEQKLVKNLILELKPRGVAVNLIPGLPAYILFMCVRHADYLNDDQKVRSLLTSTINSIKKVLKKRGDDFETVSFWLSNTCRFLHCLKQYSGEEGFMKHNTSRQNEHCLTNFDLAEYRQVLSDLAIQIYQQLVRVLENILQPMIVSGMLEHETTYTLDSILRQLNSFHSVMCQHGMDPELIKQVVKQMFYIVGAITLNNLLLRKDMCSWSKGMQIRYNVSQLEEWLRDKNLMNSGAKETLEPLIQAAQLLQVKKKTDDDAEAICSMCNALTTAQIVKVLNLYTPVNEFEERVSVSFIRTIQMRLRDRKDSPQLLMDAKHIFPVTFPFNPSSLALETIQIPASLGLGFIARV PIRPVNIPRKEKDFQGMLEYKREDEQKLVKNLILELKPRGVAVNLIPGLPAYILFMCVRHADYLNDDQKVRSLLTSTINSIKKVLKKRGDDFETVSFWLSNTCRFLHCLKQYSGEEGFMKHNTSRQNEHCLTNFDLAEYRQVLSDLAIQIYQQLVRVLENILQPMIVSGMLEHETIQGTYTLDSILRQLNSFHSVMCQHGMDPELIKQVVKQMFYIVGAITLNNLLLRKDMCSWSKGMQIRYNVSQLEEWLRDKNLMNSGAKETLEPLIQAAQLLQVKKKTDDDAEAICSMCNALTTAQIVKVLNLYTPVNEFEERVSVSFIRTIQMRLRDRKDSPQLLMDAKHIFPVTFPFNPSSLALETIQIPASLGLGFIARV 7yvr-a1-m1-cA_7yvr-a1-m1-cD Crystal Structure of L-Threonine Aldolase from Neptunomonas marina A0A437Q8X1 A0A437Q8X1 2.8 X-RAY DIFFRACTION 35 1.0 1815562 (Neptunomonas marina) 1815562 (Neptunomonas marina) 341 341 7yvr-a1-m1-cB_7yvr-a1-m1-cC TVSFTSDNIAAAAPEIVQAMAQACQGNAQPYGGDALTQNVEAQLKAIFECDLQLFLVPTGSAANAISLAALTPPWGAILCHQESHINNDECGAPEFFTAGAKLIAVAGTHGKLDPQALTQAARNKRGDVHSVEPTTVSITQATEVGSIYALDELNEIGQICRNEGLKLHMDGARFANALSALGCTPAEMTWKAGVDVLSFGATNGSLCAEAIILFDKSYAQEIAFRRKRGGHLLSKMRFLSAQMHAYLADDLWLTNARHANLMAARLAAGLSALSRVSLIAPTESNIIFCRMPTKMIAALQQQGFQFYHDRWGDGIVRLVTSFATTQAQVDTFIAAAAQLN TVSFTSDNIAAAAPEIVQAMAQACQGNAQPYGGDALTQNVEAQLKAIFECDLQLFLVPTGSAANAISLAALTPPWGAILCHQESHINNDECGAPEFFTAGAKLIAVAGTHGKLDPQALTQAARNKRGDVHSVEPTTVSITQATEVGSIYALDELNEIGQICRNEGLKLHMDGARFANALSALGCTPAEMTWKAGVDVLSFGATNGSLCAEAIILFDKSYAQEIAFRRKRGGHLLSKMRFLSAQMHAYLADDLWLTNARHANLMAARLAAGLSALSRVSLIAPTESNIIFCRMPTKMIAALQQQGFQFYHDRWGDGIVRLVTSFATTQAQVDTFIAAAAQLN 7yvr-a1-m1-cD_7yvr-a1-m1-cB Crystal Structure of L-Threonine Aldolase from Neptunomonas marina A0A437Q8X1 A0A437Q8X1 2.8 X-RAY DIFFRACTION 152 1.0 1815562 (Neptunomonas marina) 1815562 (Neptunomonas marina) 341 342 7yvr-a1-m1-cA_7yvr-a1-m1-cC TVSFTSDNIAAAAPEIVQAMAQACQGNAQPYGGDALTQNVEAQLKAIFECDLQLFLVPTGSAANAISLAALTPPWGAILCHQESHINNDECGAPEFFTAGAKLIAVAGTHGKLDPQALTQAARNKRGDVHSVEPTTVSITQATEVGSIYALDELNEIGQICRNEGLKLHMDGARFANALSALGCTPAEMTWKAGVDVLSFGATNGSLCAEAIILFDKSYAQEIAFRRKRGGHLLSKMRFLSAQMHAYLADDLWLTNARHANLMAARLAAGLSALSRVSLIAPTESNIIFCRMPTKMIAALQQQGFQFYHDRWGDGIVRLVTSFATTQAQVDTFIAAAAQLN DTVSFTSDNIAAAAPEIVQAMAQACQGNAQPYGGDALTQNVEAQLKAIFECDLQLFLVPTGSAANAISLAALTPPWGAILCHQESHINNDECGAPEFFTAGAKLIAVAGTHGKLDPQALTQAARNKRGDVHSVEPTTVSITQATEVGSIYALDELNEIGQICRNEGLKLHMDGARFANALSALGCTPAEMTWKAGVDVLSFGATNGSLCAEAIILFDKSYAQEIAFRRKRGGHLLSKMRFLSAQMHAYLADDLWLTNARHANLMAARLAAGLSALSRVSLIAPTESNIIFCRMPTKMIAALQQQGFQFYHDRWGDGIVRLVTSFATTQAQVDTFIAAAAQLN 7yvr-a1-m1-cD_7yvr-a1-m1-cC Crystal Structure of L-Threonine Aldolase from Neptunomonas marina A0A437Q8X1 A0A437Q8X1 2.8 X-RAY DIFFRACTION 46 1.0 1815562 (Neptunomonas marina) 1815562 (Neptunomonas marina) 341 342 7yvr-a1-m1-cA_7yvr-a1-m1-cB TVSFTSDNIAAAAPEIVQAMAQACQGNAQPYGGDALTQNVEAQLKAIFECDLQLFLVPTGSAANAISLAALTPPWGAILCHQESHINNDECGAPEFFTAGAKLIAVAGTHGKLDPQALTQAARNKRGDVHSVEPTTVSITQATEVGSIYALDELNEIGQICRNEGLKLHMDGARFANALSALGCTPAEMTWKAGVDVLSFGATNGSLCAEAIILFDKSYAQEIAFRRKRGGHLLSKMRFLSAQMHAYLADDLWLTNARHANLMAARLAAGLSALSRVSLIAPTESNIIFCRMPTKMIAALQQQGFQFYHDRWGDGIVRLVTSFATTQAQVDTFIAAAAQLN DTVSFTSDNIAAAAPEIVQAMAQACQGNAQPYGGDALTQNVEAQLKAIFECDLQLFLVPTGSAANAISLAALTPPWGAILCHQESHINNDECGAPEFFTAGAKLIAVAGTHGKLDPQALTQAARNKRGDVHSVEPTTVSITQATEVGSIYALDELNEIGQICRNEGLKLHMDGARFANALSALGCTPAEMTWKAGVDVLSFGATNGSLCAEAIILFDKSYAQEIAFRRKRGGHLLSKMRFLSAQMHAYLADDLWLTNARHANLMAARLAAGLSALSRVSLIAPTESNIIFCRMPTKMIAALQQQGFQFYHDRWGDGIVRLVTSFATTQAQVDTFIAAAAQLN 7yvz-a1-m1-cA_7yvz-a1-m2-cA Structure of Caenorhabditis elegans CISD-1/mitoNEET A7LPG5 A7LPG5 1.7 X-RAY DIFFRACTION 107 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 63 63 ARCNYKIQLDSNKIVDTVDIEDIGEKKAFCRCWKSEKWPYCDGSHGKHNKETGDNVGPLIVKS ARCNYKIQLDSNKIVDTVDIEDIGEKKAFCRCWKSEKWPYCDGSHGKHNKETGDNVGPLIVKS 7ywf-a1-m1-cA_7ywf-a1-m1-cC Monocot chimeric jacalin JAC1 from Oryza sativa: dirigent domain with bound galactobiose Q306J3 Q306J3 2.6 X-RAY DIFFRACTION 104 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 138 142 7r5z-a1-m1-cA_7r5z-a1-m1-cB 7r5z-a1-m1-cC_7r5z-a1-m1-cA 7r5z-a1-m1-cC_7r5z-a1-m1-cB 7ywe-a1-m1-cA_7ywe-a1-m1-cB 7ywe-a1-m1-cA_7ywe-a1-m1-cC 7ywe-a1-m1-cC_7ywe-a1-m1-cB 7ywf-a1-m1-cA_7ywf-a1-m1-cB 7ywf-a1-m1-cC_7ywf-a1-m1-cB NQINFTKLYLHHTPAGPEQNQSAVTSNDKKIGLGCIVVNNWSVYDGIGSDAKLVAYAKGLHVFAGAWHNSFSLVFEDERLKGSTLQVMGLIVEEGDWAIVGGTGQFAMATGVILKKMQEQKQYGNIIELTIHGFCPLL LVQGNQINFTKLYLHHTPAGPEQNQSAVTSNDKKIGLGCIVVNNWSVYDGIGSDAKLVAYAKGLHVFAGAWHNSFSLVFEDERLKGSTLQVMGLIVEEGDWAIVGGTGQFAMATGVILKKMQEQKQYGNIIELTIHGFCPLL 7ywg-a1-m1-cA_7ywg-a1-m1-cB Monocot chimeric jacalin JAC1 from Oryza sativa: lectin domain (crystal form 1) Q306J3 Q306J3 1.1 X-RAY DIFFRACTION 65 1.0 4530 (Oryza sativa) 4530 (Oryza sativa) 146 148 7yww-a1-m1-cA_7yww-a1-m1-cB QCPVTKIGPWGSSHEGTVQDITESPKRLESITLYHGWSVDSISFTYLDHAGEKHKAGPWGGPGGDPIIEFGSSEFLKEVSGTFGPYEGSTVITSINFITNKQTYGPFGRQEGTPFSVPAQNNSSIVGFFGRSGKYINAVGVYVQPI EQCPVTKIGPWGSSHEGTVQDITESPKRLESITLYHGWSVDSISFTYLDHAGEKHKAGPWGGPGGDPIMIEFGSSEFLKEVSGTFGPYEGSTVITSINFITNKQTYGPFGRQEGTPFSVPAQNNSSIVGFFGRSGKYINAVGVYVQPI 7ywq-a1-m1-cA_7ywq-a1-m1-cB Solution structure of homodimeric Capsid protein (residues 17-95) of Tick-borne encephalitis virus (d16-TBEVC) P14336 P14336 NOT SOLUTION NMR 66 1.0 11084 (Tick-borne encephalitis virus) 11084 (Tick-borne encephalitis virus) 79 79 VSKETATKTRQPRVQMPNGLVLMRMMGILWHAVAGTARNPVLKAFWNSVPLKQATAALRKIKRTVSALMVGLQKRGKRR VSKETATKTRQPRVQMPNGLVLMRMMGILWHAVAGTARNPVLKAFWNSVPLKQATAALRKIKRTVSALMVGLQKRGKRR 7yx0-a1-m1-cC_7yx0-a1-m1-cA Crystal structure of the full-length short LOV protein SBW25-LOV from Pseudomonas fluorescens (light state) C3K1W0 C3K1W0 1.6 X-RAY DIFFRACTION 160 0.987 294 (Pseudomonas fluorescens) 294 (Pseudomonas fluorescens) 150 166 MINAKLMQLVINASNDGIVVAEREGKDKPLIYVNPAFERLTGYTLDEILYQDCRFLQSGDRDQPALMAIRETLESGGACREILRNYRKDGSHFWNELSLSTVYNEADKQTYFVGVQKDVTLQVKAQQRVGQLEAELNQVKAELAALKATS SSHHHHHHSSGLVPRGSHMINAKLMQLVINASNDGIVVAEREGKDKPLIYVNPAFERLTGYTLDEILYQDCRFLQSGDRDQPALMAIRETLESGGACREILRNYRKDGSHFWNELSLSTVYNEADKQTYFVGVQKDVTLQVKAQQRVGQLEAELNQVKAELAALKA 7yxk-a1-m1-cA_7yxk-a1-m1-cB Drosophila melanogaster JMJD7 (dmJMJD7) in complex with Mn and N-oxalyl-D-alanine (NODA) Q9VU77 Q9VU77 2.43 X-RAY DIFFRACTION 123 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 307 307 7yxg-a1-m1-cB_7yxg-a1-m1-cA 7yxh-a1-m1-cB_7yxh-a1-m1-cA 7yxi-a1-m1-cA_7yxi-a1-m1-cB 7yxj-a1-m1-cB_7yxj-a1-m1-cA 7yxj-a2-m1-cD_7yxj-a2-m1-cC 7yxl-a1-m1-cB_7yxl-a1-m1-cA MSEVERALDVLLQEAEELIGSSVVELDRIPTALEFCREFYSKNQPVVIRKALNWPAIGKWTPKYLIEALGDRSVDVAITPNGYADGLATQNGQEYFVLPLETKMKLSEVVRRLDDPTGAVHYIQKQNSDLPELAADLRVSDLDFAQQSFNKPPDAVNFWLGDERAVTSMHKDPYENVYCVISGHKDFVLIPPHQLSCVPRGIYPTGVYKTSDSGQFYIEPLRDEEGSDQFTEWVSVDPLSPDLAKYPEYARAKPLKVRVHAGDILYLPNYWFHHVSQSHKCIAVNFWYDLDYDSRYCYYRMLEQMTS MSEVERALDVLLQEAEELIGSSVVELDRIPTALEFCREFYSKNQPVVIRKALNWPAIGKWTPKYLIEALGDRSVDVAITPNGYADGLATQNGQEYFVLPLETKMKLSEVVRRLDDPTGAVHYIQKQNSDLPELAADLRVSDLDFAQQSFNKPPDAVNFWLGDERAVTSMHKDPYENVYCVISGHKDFVLIPPHQLSCVPRGIYPTGVYKTSDSGQFYIEPLRDEEGSDQFTEWVSVDPLSPDLAKYPEYARAKPLKVRVHAGDILYLPNYWFHHVSQSHKCIAVNFWYDLDYDSRYCYYRMLEQMTS 7yxm-a1-m1-cB_7yxm-a1-m1-cD Benzoylsuccinyl-CoA thiolase with coenzyme A Q39VG1 Q39VG1 1.7 X-RAY DIFFRACTION 189 1.0 269799 (Geobacter metallireducens GS-15) 269799 (Geobacter metallireducens GS-15) 392 392 7pxp-a1-m1-cC_7pxp-a1-m1-cD 7pxp-a2-m1-cH_7pxp-a2-m1-cG 7pyt-a1-m1-cB_7pyt-a1-m1-cD MKLQREVYIAGVGETKFGKHTVDFDVLGREAALQAMNGSNIDRPDMIQSAYVGNGMNDMTTGQAVFRGLGMCGPNLPIINVQSACSAGAMAVFCAIKDVATGVTDLSIGVGTENHTMHRQSGAAFSAARSDIETMHGAVMTGKYAMRATRYMHETGATIEDLAMITVKNRKHATHNPYAWFKGAITVEEVVNSRMVAYPMTLQQCCGIADGAAAVVVGSKEMMKKLGIAKPVKVAGVVVESGPYHNRPRDITGDDITETTSEKLYEESGIGPKEVNILELHDAFTIAELLYYECMGLCKKGDGLKFLRDGQSTYGGQCVVSPRGGLLSYGHPIGASGAAQIAQNVKQLRGECGGYQVGPTPKVAMSHVTGGGLSGTEHAACTMHMLVKGWGS MKLQREVYIAGVGETKFGKHTVDFDVLGREAALQAMNGSNIDRPDMIQSAYVGNGMNDMTTGQAVFRGLGMCGPNLPIINVQSACSAGAMAVFCAIKDVATGVTDLSIGVGTENHTMHRQSGAAFSAARSDIETMHGAVMTGKYAMRATRYMHETGATIEDLAMITVKNRKHATHNPYAWFKGAITVEEVVNSRMVAYPMTLQQCCGIADGAAAVVVGSKEMMKKLGIAKPVKVAGVVVESGPYHNRPRDITGDDITETTSEKLYEESGIGPKEVNILELHDAFTIAELLYYECMGLCKKGDGLKFLRDGQSTYGGQCVVSPRGGLLSYGHPIGASGAAQIAQNVKQLRGECGGYQVGPTPKVAMSHVTGGGLSGTEHAACTMHMLVKGWGS 7yxv-a1-m2-cA_7yxv-a1-m3-cA Crystal structure of a tautomerase superfamily member form Acinetobacter baumanii A0A077GKT8 A0A077GKT8 1.7 X-RAY DIFFRACTION 71 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 121 121 7yxv-a1-m1-cA_7yxv-a1-m2-cA 7yxv-a1-m1-cA_7yxv-a1-m3-cA MSQVKIYANERTIIQYRELLSHAIHQALIEELKYPVEKRFQRFISLKPENFIYPSDRSQHYIIIELSMFAGRSPATKKQLIQTLFRNIEEQCKIAPQDIEITIFETPKENWGIRGKNADEL MSQVKIYANERTIIQYRELLSHAIHQALIEELKYPVEKRFQRFISLKPENFIYPSDRSQHYIIIELSMFAGRSPATKKQLIQTLFRNIEEQCKIAPQDIEITIFETPKENWGIRGKNADEL 7yxx-a1-m1-cC_7yxx-a1-m1-cA Cryo-EM structure of USP9X Q93008 Q93008 3.3 ELECTRON MICROSCOPY 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1741 1754 VPGQEETVKNLEIFRLKMILRLLQISSFNGKMNALNEVNKVISSVWLTAERMAEWIQQNNILSIVLRDSLHQPQYVEKLEKILRFVIKEKALTLQDLDNIWAAQAGKHEAIVKNVHDLLAKLAWDFSPEQLDHLFDCFKASWTNASKKQREKLLELIRRLAEDDKDGVMAHKVLNLLWNLAHSDDVPVDIMDLALSAHIKILDYSCSQDRDTQKIQWIDRFIEELRTNDKWVIPALKQIREICSLFYRHDLINQLQHNHALVTLVAENLATYMESMRLYARDHEDYDPHVQEVQERLNFLRFLLKDGQLWLCAPQAKQIWKCLAENAVYLCDREACFKWYSKLMGDEPDLDPDINKDFFESNVLQLDPSLLTENGMKCFERFFKAVNCREGKLVAKRRAYMMDDLELIGLDYLWRVVIQSNDDIASRAIDLLKEIYTNLGPRLQVNQVVIHEDFIQSCFDRLKASYDTLCCARQEAVRMVRVLTVLREYINECDSSLHPRYISFLWQVADLGSSLNMPPLRDGARVLMKLMPPDSTTIEKLRAICLDHAKLDSLFFGPSASQVLYLTEVVYALLMPSSDFQFHFLKSGGLPLVLSMLTRNNFLPNADMETRRGAYLNALKIAKLLLTAIGYGYMPDICVIRAIQKIIWASGCGSLQLVFSPNEEITKIYEKTNAGNEPDLEDEQVCCEALEVMTLCFALIPTALDALSKEKAWQTFIIDLLLHCHSKTVRQVAQEQFFLMCTRCCMGHRPLLFFITLLFTVLGSTARERAKHSGDYFTLLRHLLNYAYNSNINVPNAEVLLNNEIDWLKRIRDDVKRTGETGIEETILEGHLGVTKELLAFQTSEKKFHIGCEKGGANLIKELIDDFIFPASNVYLQYMRIPVCGSPPTINAGFELLVALAVGCVRNLKQIVDSLTEMYYIGTAITTCEALTEWEYLPPVGPRPPKGFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEGTGKTEDRKEYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGDGSTKYRLVGVLVHSGQASGGHYYSYIIQRNGGRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMQDDELIRYISIERSVRKQNVQFMHNRMQYSMEYFQFMKKLLTCNGVYLNPPPGQDHLLPEAEEITMISIQLAARFLFTTGFHTKKVVRGSASDWYDALCILLRHSKNVRFWFAHNVLFNVSNRFSEYLLECPSAEVRGAFAKLIVFIAHFSLQDGPCPSPFNLSLSDHLLRAVLNLLRREVSEHGRHLQQYFNLFVMYANLGVAEKTQLLKLSVPATFMLVSLDEGPGPPIKYQYAELGKLYSVVSQLIRCCNVSSRMQSSINGNPPLPNPFGDPNLSQPIMPIQQNVADILFVRTSYVKKIIEDCSNSEETVKLLRFCCWENPQFSSTVLSELLWQVAYSYTYELRPYLDLLLQILLIEDSWQTHRIHNALKGIPDDRDGLFDTIQRSKNHYQKRAYQCIKCMVALFSNCPVAYQILQGNGDLKRKWTWAVEWLGDELERSHSARMTLAKACELCP VPGQEETVKNLEIFRLKMILRLLQISSFNGKMNALNEVNKVISSVWLTAERMAEWIQQNNILSIVLRDSLHQPQYVEKLEKILRFVIKEKALTLQDLDNIWAAQAGKHEAIVKNVHDLLAKLAWDFSPEQLDHLFDCFKASWTNASKKQREKLLELIRRLAEDDKDGVMAHKVLNLLWNLAHSDDVPVDIMDLALSAHIKILDYSCSQDRDTQKIQWIDRFIEELRTNDKWVIPALKQIREICSLFYRHDLINQLQHNHALVTLVAENLATYMESMRLYARDHEDYDPHVQEVQERLNFLRFLLKDGQLWLCAPQAKQIWKCLAENAVYLCDREACFKWYSKLMGDEPDLDPDINKDFFESNVLQLDPSLLTENGMKCFERFFKAVNCREGKLVAKRRAYMMDDLELIGLDYLWRVVIQSNDDIASRAIDLLKEIYTNLGPRLQVNQVVIHEDFIQSCFDRLKASYDTLCCARQEAVRMVRVLTVLREYINECDSSLHPRYISFLWQVADLGSSLNMPPLRDGARVLMKLMPPDSTTIEKLRAICLDHAKLDSLFFGPSASQVLYLTEVVYALLMPSSDFQFHFLKSGGLPLVLSMLTRNNFLPNADMETRRGAYLNALKIAKLLLTAIGYGYMPDICVIRAIQKIIWASGCGSLQLVFSPNEEITKIYEKTNAGNEPDLEDEQVCCEALEVMTLCFALIPTALDALSKEKAWQTFIIDLLLHCHSKTVRQVAQEQFFLMCTRCCMGHRPLLFFITLLFTVLGSTARERAKHSGDYFTLLRHLLNYAYNSNINVPNAEVLLNNEIDWLKRIRDDVKRTGETGIEETILEGHLGVTKELLAFQTSEKKFHIGCEKGGANLIKELIDDFIFPASNVYLQYMRIPVCGSPPTINAGFELLVALAVGCVRNLKQIVDSLTEMYYIGTAITTCEALTEWEYLPPVGPRPPKGFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEGTGKTEDRKEYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGDGSTKYRLVGVLVHSGQASGGHYYSYIIQRNGGRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMQDDELIRYISIERSVRKQNVQFMHNRMQYSMEYFQFMKKLLTCNGVYLNPPPGQDHLLPEAEEITMISIQLAARFLFTTGFHTKKVVRGSASDWYDALCILLRHSKNVRFWFAHNVLFNVSNRFSEYLLECPSAEVRGAFAKLIVFIAHFSLQDGPCPSPFNLSLSDHLLRAVLNLLRREVSEHGRHLQQYFNLFVMYANLGVAEKTQLLKLSVPATFMLVSLDEGPGPPIKYQYAELGKLYSVVSQLIRCCNVSSRMQSSINGNPPLPNPFGDPNLSQPIMPIQQNVADILFVRTSYVKKIIEDCSNSEETVKLLRFCCWENPQFSSTVLSELLWQVAYSYTYELRPYLDLLLQILLIEDSWQTHRIHNALKGIPDDRDGLFDTIQRSKNHYQKRAYQCIKCMVALFSNCPVAYQILQGNGDLKRKWTWAVEWLGDELERQSNETSNGYFLERSHSARMTLAKACELCP 7yxx-a1-m1-cC_7yxx-a1-m1-cB Cryo-EM structure of USP9X Q93008 Q93008 3.3 ELECTRON MICROSCOPY 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1741 1754 7yxx-a1-m1-cA_7yxx-a1-m1-cB VPGQEETVKNLEIFRLKMILRLLQISSFNGKMNALNEVNKVISSVWLTAERMAEWIQQNNILSIVLRDSLHQPQYVEKLEKILRFVIKEKALTLQDLDNIWAAQAGKHEAIVKNVHDLLAKLAWDFSPEQLDHLFDCFKASWTNASKKQREKLLELIRRLAEDDKDGVMAHKVLNLLWNLAHSDDVPVDIMDLALSAHIKILDYSCSQDRDTQKIQWIDRFIEELRTNDKWVIPALKQIREICSLFYRHDLINQLQHNHALVTLVAENLATYMESMRLYARDHEDYDPHVQEVQERLNFLRFLLKDGQLWLCAPQAKQIWKCLAENAVYLCDREACFKWYSKLMGDEPDLDPDINKDFFESNVLQLDPSLLTENGMKCFERFFKAVNCREGKLVAKRRAYMMDDLELIGLDYLWRVVIQSNDDIASRAIDLLKEIYTNLGPRLQVNQVVIHEDFIQSCFDRLKASYDTLCCARQEAVRMVRVLTVLREYINECDSSLHPRYISFLWQVADLGSSLNMPPLRDGARVLMKLMPPDSTTIEKLRAICLDHAKLDSLFFGPSASQVLYLTEVVYALLMPSSDFQFHFLKSGGLPLVLSMLTRNNFLPNADMETRRGAYLNALKIAKLLLTAIGYGYMPDICVIRAIQKIIWASGCGSLQLVFSPNEEITKIYEKTNAGNEPDLEDEQVCCEALEVMTLCFALIPTALDALSKEKAWQTFIIDLLLHCHSKTVRQVAQEQFFLMCTRCCMGHRPLLFFITLLFTVLGSTARERAKHSGDYFTLLRHLLNYAYNSNINVPNAEVLLNNEIDWLKRIRDDVKRTGETGIEETILEGHLGVTKELLAFQTSEKKFHIGCEKGGANLIKELIDDFIFPASNVYLQYMRIPVCGSPPTINAGFELLVALAVGCVRNLKQIVDSLTEMYYIGTAITTCEALTEWEYLPPVGPRPPKGFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEGTGKTEDRKEYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGDGSTKYRLVGVLVHSGQASGGHYYSYIIQRNGGRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMQDDELIRYISIERSVRKQNVQFMHNRMQYSMEYFQFMKKLLTCNGVYLNPPPGQDHLLPEAEEITMISIQLAARFLFTTGFHTKKVVRGSASDWYDALCILLRHSKNVRFWFAHNVLFNVSNRFSEYLLECPSAEVRGAFAKLIVFIAHFSLQDGPCPSPFNLSLSDHLLRAVLNLLRREVSEHGRHLQQYFNLFVMYANLGVAEKTQLLKLSVPATFMLVSLDEGPGPPIKYQYAELGKLYSVVSQLIRCCNVSSRMQSSINGNPPLPNPFGDPNLSQPIMPIQQNVADILFVRTSYVKKIIEDCSNSEETVKLLRFCCWENPQFSSTVLSELLWQVAYSYTYELRPYLDLLLQILLIEDSWQTHRIHNALKGIPDDRDGLFDTIQRSKNHYQKRAYQCIKCMVALFSNCPVAYQILQGNGDLKRKWTWAVEWLGDELERSHSARMTLAKACELCP VPGQEETVKNLEIFRLKMILRLLQISSFNGKMNALNEVNKVISSVWLTAERMAEWIQQNNILSIVLRDSLHQPQYVEKLEKILRFVIKEKALTLQDLDNIWAAQAGKHEAIVKNVHDLLAKLAWDFSPEQLDHLFDCFKASWTNASKKQREKLLELIRRLAEDDKDGVMAHKVLNLLWNLAHSDDVPVDIMDLALSAHIKILDYSCSQDRDTQKIQWIDRFIEELRTNDKWVIPALKQIREICSLFYRHDLINQLQHNHALVTLVAENLATYMESMRLYARDHEDYDPHVQEVQERLNFLRFLLKDGQLWLCAPQAKQIWKCLAENAVYLCDREACFKWYSKLMGDEPDLDPDINKDFFESNVLQLDPSLLTENGMKCFERFFKAVNCREGKLVAKRRAYMMDDLELIGLDYLWRVVIQSNDDIASRAIDLLKEIYTNLGPRLQVNQVVIHEDFIQSCFDRLKASYDTLCCARQEAVRMVRVLTVLREYINECDSSLHPRYISFLWQVADLGSSLNMPPLRDGARVLMKLMPPDSTTIEKLRAICLDHAKLDSLFFGPSASQVLYLTEVVYALLMPSSDFQFHFLKSGGLPLVLSMLTRNNFLPNADMETRRGAYLNALKIAKLLLTAIGYGYMPDICVIRAIQKIIWASGCGSLQLVFSPNEEITKIYEKTNAGNEPDLEDEQVCCEALEVMTLCFALIPTALDALSKEKAWQTFIIDLLLHCHSKTVRQVAQEQFFLMCTRCCMGHRPLLFFITLLFTVLGSTARERAKHSGDYFTLLRHLLNYAYNSNINVPNAEVLLNNEIDWLKRIRDDVKRTGETGIEETILEGHLGVTKELLAFQTSEKKFHIGCEKGGANLIKELIDDFIFPASNVYLQYMRIPVCGSPPTINAGFELLVALAVGCVRNLKQIVDSLTEMYYIGTAITTCEALTEWEYLPPVGPRPPKGFVGLKNAGATCYMNSVIQQLYMIPSIRNGILAIEGTGKTEDRKEYNIGVLRHLQVIFGHLAASRLQYYVPRGFWKQFRLWGEPVNLREQHDALEFFNSLVDSLDEALKALGHPAMLSKVLGGSFADQKICQGCPHRYECEESFTTLNVDIRNHQNLLDSLEQYVKGDLLEGANAYHCEKCNKKVDTVKRLLIKKLPPVLAIQLKRFDYDWERECAIKFNDYFEFPRELDMEPYTVAGVAKLEGDGSTKYRLVGVLVHSGQASGGHYYSYIIQRNGGRWYKFDDGDVTECKMDDDEEMKNQCFGGEYMGEVFDHMMKRMSYRRQKRWWNAYILFYERMQDDELIRYISIERSVRKQNVQFMHNRMQYSMEYFQFMKKLLTCNGVYLNPPPGQDHLLPEAEEITMISIQLAARFLFTTGFHTKKVVRGSASDWYDALCILLRHSKNVRFWFAHNVLFNVSNRFSEYLLECPSAEVRGAFAKLIVFIAHFSLQDGPCPSPFNLSLSDHLLRAVLNLLRREVSEHGRHLQQYFNLFVMYANLGVAEKTQLLKLSVPATFMLVSLDEGPGPPIKYQYAELGKLYSVVSQLIRCCNVSSRMQSSINGNPPLPNPFGDPNLSQPIMPIQQNVADILFVRTSYVKKIIEDCSNSEETVKLLRFCCWENPQFSSTVLSELLWQVAYSYTYELRPYLDLLLQILLIEDSWQTHRIHNALKGIPDDRDGLFDTIQRSKNHYQKRAYQCIKCMVALFSNCPVAYQILQGNGDLKRKWTWAVEWLGDELERQSNETSNGYFLERSHSARMTLAKACELCP 7yzh-a1-m1-cBBB_7yzh-a1-m1-cAAA Schistosoma Mansoni Carbonic Anhydrase in complex with 4-oxo-N-(4-sulfamoylphenethyl)-1,3,4,6,7,11b-hexahydro-2H-pyrazino[2,1-a]isoquinoline-2-carbothioamide A0A3Q0KSG2 A0A3Q0KSG2 1.79 X-RAY DIFFRACTION 86 1.0 6183 (Schistosoma mansoni) 6183 (Schistosoma mansoni) 276 277 7o48-a1-m1-cA_7o48-a1-m1-cB 7oa1-a1-m1-cAAA_7oa1-a1-m1-cBBB EWSYTNILTGPETWHEHYKNMCSGYYQSPIDLKTDISTLDLKLKTVIIYRNTSSTETTTIQNNGHSAEVKFPRNTWFISFDGILDYKYEIIQMHFHWGNTDDRGSEHTIDGFRFPLEGHIVSFRRQMYSSPSEAIGRPGGLAVLGIMHQIVESIKYEQTAFKAYNNFSGVLNSQFVPPNNSTIDDINLALLLSLLNPSRYFRYLGSLTTPPCTENVLWTVFIDPVLITREQINLFRNLPYGSNEKQTRMGDNFRPIQLLNPIDTLASRTLYRATAR EWSYTNILTGPETWHEHYKNMCSGYYQSPIDLKTDISTLDLKLKTVIIYRNTSSTETTTIQNNGHSAEVKFPRNTWFISFDGILDYKYEIIQMHFHWGNTDDRGSEHTIDGFRFPLEGHIVSFRRQMYSSPSEAIGRPGGLAVLGIMHQIVESIKYEQTAFKAYNNFSGVLNSQFVPPNNSTIDDINLALLLSLLNPSRYFRYLGSLTTPPCTENVLWTVFIDPVLITREQINLFRNLPYGSNEKQTRMGDNFRPIQLLNPIDTLASRTLYRATARS 7yzk-a1-m1-cA_7yzk-a1-m1-cB Structure of Mycobacterium tuberculosis adenylyl cyclase Rv1625c / Cya P9WQ35 P9WQ35 3.57 ELECTRON MICROSCOPY 231 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 378 378 7yzi-a1-m1-cA_7yzi-a1-m1-cB VARRQRVLTITAWLAVVVTGSFALMQLATGAGGWYIALINVFTAVTFAIVPLLHRFGGLVAPLTFIGTAYVAIFAIGWDVGTDAGAQFFFLVAAALVVLLVGIEHTALAVGLAAVAAGLVIALEFLVPPDTGLQPPWAMSVSFVLTTVSACGVAVATVWFALRDTARAEAVMEAEHDRSEALLANMLPASIAERLKEPERNIIADKYDEASVLFADIVGFTERASSTAPADLVRFLDRLYSAFDELVDQHGLEKIKVSGDSYMVVSGVPRPRPDHTQALADFALDMTNVAAQLKDPRGNPVPLRVGLATGPVVAGVVGSRRFFYDVWGDAVNVASRMESTDSVGQIQVPDEVYERLKDDFVLRERMRTWYLIGRKVAA VARRQRVLTITAWLAVVVTGSFALMQLATGAGGWYIALINVFTAVTFAIVPLLHRFGGLVAPLTFIGTAYVAIFAIGWDVGTDAGAQFFFLVAAALVVLLVGIEHTALAVGLAAVAAGLVIALEFLVPPDTGLQPPWAMSVSFVLTTVSACGVAVATVWFALRDTARAEAVMEAEHDRSEALLANMLPASIAERLKEPERNIIADKYDEASVLFADIVGFTERASSTAPADLVRFLDRLYSAFDELVDQHGLEKIKVSGDSYMVVSGVPRPRPDHTQALADFALDMTNVAAQLKDPRGNPVPLRVGLATGPVVAGVVGSRRFFYDVWGDAVNVASRMESTDSVGQIQVPDEVYERLKDDFVLRERMRTWYLIGRKVAA 7yzm-a2-m1-cC_7yzm-a2-m1-cD MgADPNP-bound DCCP:DCCP-R complex Q3AET9 Q3AET9 1.82 X-RAY DIFFRACTION 105 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 421 421 6eno-a1-m1-cA_6eno-a1-m2-cA 7yyl-a1-m1-cD_7yyl-a1-m1-cC 7yyl-a3-m1-cB_7yyl-a3-m1-cA 7yzm-a1-m1-cB_7yzm-a1-m1-cA 7yzq-a1-m1-cC_7yzq-a1-m1-cD 7yzq-a2-m1-cA_7yzq-a2-m1-cB MDNRELWKVLNVDLEKHDEFLAPVPAVYRELFLNRPNRPRAMAYFDAVVGDIHGIRVHELYNLKQEGKKVFATFCVYVPEEIINATGSACIGLCGGAQYTVPAGETVLPRNLCPLIKSAMGFKIERICPYFQVADYVVGETTCDGKKKAWEILNEYIPVYVMELPQKKEERDRKFWEEEIKDFAQFVEEKTGVKLNAENLRAGIEKINKKRKALKRLSDLRKHNPAPIHGLDVLLINQLAFFDDPERFATKVNELCDELEERVAKGEGVVSKDAPRILITGTPQPIPHWKIHALIEGAGGVVVGEETCIGERYFKDLVEPAADVEGMLKNIAARSLKVNCACFTPNTGRLEDILSMVQKLQVDGVIHYSLQFCQPYGVESYLVGRELERRNIPFLKLESDFSEEDQGQLKTRIEAFLEMIK MDNRELWKVLNVDLEKHDEFLAPVPAVYRELFLNRPNRPRAMAYFDAVVGDIHGIRVHELYNLKQEGKKVFATFCVYVPEEIINATGSACIGLCGGAQYTVPAGETVLPRNLCPLIKSAMGFKIERICPYFQVADYVVGETTCDGKKKAWEILNEYIPVYVMELPQKKEERDRKFWEEEIKDFAQFVEEKTGVKLNAENLRAGIEKINKKRKALKRLSDLRKHNPAPIHGLDVLLINQLAFFDDPERFATKVNELCDELEERVAKGEGVVSKDAPRILITGTPQPIPHWKIHALIEGAGGVVVGEETCIGERYFKDLVEPAADVEGMLKNIAARSLKVNCACFTPNTGRLEDILSMVQKLQVDGVIHYSLQFCQPYGVESYLVGRELERRNIPFLKLESDFSEEDQGQLKTRIEAFLEMIK 7yzm-a2-m1-cE_7yzm-a2-m1-cF MgADPNP-bound DCCP:DCCP-R complex Q3AET8 Q3AET8 1.82 X-RAY DIFFRACTION 85 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 243 243 7yyl-a2-m1-cF_7yyl-a2-m1-cE 7yyl-a4-m1-cH_7yyl-a4-m1-cG 7yzm-a1-m1-cG_7yzm-a1-m1-cH 7yzq-a1-m1-cE_7yzq-a1-m1-cF 7yzq-a2-m1-cG_7yzq-a2-m1-cH MFAGLDLGSTNSKLVIIKEDGSYTFKVVPTRYEPVKAGELLLKNTGEIRNLVVTGYGRVAFNRGKVVTEITCQARGCHELFPEVDYILDLGGQDAKIIKKDGQGRVVNFLMNDKCAAGTGRFLEIILTAIGDDYRDEDLINEENAVPINSMCTVFAESEVISLLARGTSKRAVIAGLFKTTAKRLAKFAESLGKPRKLIFTGGGAKYPALRLFLQKEMGVEVVVPPEPSVTAALGAALIARET MFAGLDLGSTNSKLVIIKEDGSYTFKVVPTRYEPVKAGELLLKNTGEIRNLVVTGYGRVAFNRGKVVTEITCQARGCHELFPEVDYILDLGGQDAKIIKKDGQGRVVNFLMNDKCAAGTGRFLEIILTAIGDDYRDEDLINEENAVPINSMCTVFAESEVISLLARGTSKRAVIAGLFKTTAKRLAKFAESLGKPRKLIFTGGGAKYPALRLFLQKEMGVEVVVPPEPSVTAALGAALIARET 7yzp-a1-m1-cB_7yzp-a1-m1-cA Hairpin-bound state of the E. coli Mre11-Rad50 (SbcCD) head complex bound to ADP and a DNA hairpin P0AG76 P0AG76 4.0 ELECTRON MICROSCOPY 43 0.989 562 (Escherichia coli) 562 (Escherichia coli) 356 381 6s6v-a1-m1-cB_6s6v-a1-m1-cA 6s85-a1-m1-cB_6s85-a1-m1-cA MRILHTSDWHLGQNFYSKSREAEHQAFLDWLLETAQTHQVDAIIVAGDVFDTGSPPSYARTLYNRFVVNLQQTGCHLVVLAGNQDSVATLNESRDIMAFLNTTVVGHAPQILPRRDGTPGAVLCPIPFLRPRDIQHLLAAITDYYQQHYADACKLRGDQPLPIIATGHLTTVGASKDAFPAQNFPPADYIALGHIHRAQIIGGMEHVRYCGSPIPLSFDECGKSKYVHLVTFSNGKLESVENLNVPVTQPMAVLKGDLASITAQLEQWRDVSQEPPVWLDIEITTDEYLHDIQRKIQALTESLPVEVLLVRRSRRETLSELSVEEVFNRRLALEELDESQQQRLQHLFTTTLHTLA MRILHTSDWHLGQNFYSKSREAEHQAFLDWLLETAQTHQVDAIIVAGDVFDTGSPPSYARTLYNRFVVNLQQTGCHLVVLAGNQDSVATLNESRDIMAFLNTTVVASAGHAPQILPRRDGTPGAVLCPIPFLRPRDIITSQAGLNGIEKQQHLLAAITDYYQQHYADACKLRGDQPLPIIATGHLTTVTLDAFPAQNFPPADYIALGHIHRAQIIGGMEHVRYCGSPIPLSFDECGKSKYVHLVTFSNGKLESVENLNVPVTQPMAVLKGDLASITAQLEQWRDVSQEPPVWLDIEITTDEYLHDIQRKIQALTESLPVEVLLVRRSREQRERVLASQQRETLSELSVEEVFNRRLALEELDESQQQRLQHLFTTTLHTLA 7yzp-a1-m1-cC_7yzp-a1-m1-cD Hairpin-bound state of the E. coli Mre11-Rad50 (SbcCD) head complex bound to ADP and a DNA hairpin P13458 P13458 4.0 ELECTRON MICROSCOPY 132 1.0 562 (Escherichia coli) 562 (Escherichia coli) 448 448 MKILSLRLKNLNSLKGEWKIDFTREPFASNGLFAITGPTGAGKTTLLDAICLALYHETPRLSNVSQSQNDLMTRDTAECLAEVEFEVKGEAYRAFWSQNRARNQPDGNLQVPRVELARCADGKILADKVKDKLELTATLTGLDYGRFTRSMLLSQGQFAAFLNAKPKERAELLEELTGTEIYGQISAMVFEQHKSARTELEKLQAQASGVTLLTPEQVQSLTASLQVLTDEEKQLTHQKLRENTTSQGEIRQQLKQDADNRQQQQTLMQQIAQMTQQVEDWGYLNSLIGSKEGDKFRKFAQGLTLDNLVHLANQQLTRLHGRYLLQRKASEALEVEVVDTWQADAVRDTRTLSGGESFLVSLALALALSDLVSHKTRIDSLFLDEGFGTLDSETLDTALDALDALNASGKTIGVISHVEAMKERIPVQIKVKKINGLGYSKLESTFAV MKILSLRLKNLNSLKGEWKIDFTREPFASNGLFAITGPTGAGKTTLLDAICLALYHETPRLSNVSQSQNDLMTRDTAECLAEVEFEVKGEAYRAFWSQNRARNQPDGNLQVPRVELARCADGKILADKVKDKLELTATLTGLDYGRFTRSMLLSQGQFAAFLNAKPKERAELLEELTGTEIYGQISAMVFEQHKSARTELEKLQAQASGVTLLTPEQVQSLTASLQVLTDEEKQLTHQKLRENTTSQGEIRQQLKQDADNRQQQQTLMQQIAQMTQQVEDWGYLNSLIGSKEGDKFRKFAQGLTLDNLVHLANQQLTRLHGRYLLQRKASEALEVEVVDTWQADAVRDTRTLSGGESFLVSLALALALSDLVSHKTRIDSLFLDEGFGTLDSETLDTALDALDALNASGKTIGVISHVEAMKERIPVQIKVKKINGLGYSKLESTFAV 7z03-a1-m1-cC_7z03-a1-m1-cD Endonuclease state of the E. coli Mre11-Rad50 (SbcCD) head complex bound to ADP and extended dsDNA P13458 P13458 3.7 ELECTRON MICROSCOPY 104 0.997 562 (Escherichia coli) 562 (Escherichia coli) 374 374 6s6v-a1-m1-cD_6s6v-a1-m1-cC 6s85-a1-m1-cC_6s85-a1-m1-cD 7yzo-a1-m1-cC_7yzo-a1-m1-cD MKILSLRLKNLNSLKGEWKIDFTREPFASNGLFAITGPTGAGKTTLLDAICLALYHETPRLSNVSQSQNDLMTRDTAECLAEVEFEVKGEAYRAFWSQNRARNQPDGNLQVPRVELARCADGKILADKVKDKLELTATLTGLDYGRFTRSMLLSQGQFAAFLNAKPKERAELLEELTGTEIYGQISAMVFEQHKSARTELEQQVEDWGYLNSLIGSKEGDKFRKFAQGLTLDNLVHLANQQLTRLHGRYLLQRKASEALEVEVVDTWQADAVRDTRTLSGGESFLVSLALALALSDLVSHKTRIDSLFLDEGFGTLDSETLDTALDALDALNASGKTIGVISHVEAMKERIPVQIKVKKINGLGYSKLESTFAV MKILSLRLKNLNSLKGEWKIDFTREPFASNGLFAITGPTGAGKTTLLDAICLALYHETPRLSNVSQSQNDLMTRDTAECLAEVEFEVKGEAYRAFWSQNRARNQPDGNLQVPRVELARCADGKILADKVKDKLELTATLTGLDYGRFTRSMLLSQGQFAAFLNAKPKERAELLEELTGTEIYGQISAMVFEQHKSARTELTQQVEDWGYLNSLIGSKEGDKFRKFAQGLTLDNLVHLANQQLTRLHGRYLLQRKASEALEVEVVDTWQADAVRDTRTLSGGESFLVSLALALALSDLVSHKTRIDSLFLDEGFGTLDSETLDTALDALDALNASGKTIGVISHVEAMKERIPVQIKVKKINGLGYSKLESTFAV 7z0o-a1-m1-cA_7z0o-a1-m1-cC Structure of transcription factor UAF in complex with TBP and 35S rRNA promoter DNA P61830 P61830 2.8 ELECTRON MICROSCOPY 34 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 94 97 HRYKPGTVALREIRRFQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAIGALQESVEAYLVSLFEDTNLAAIHAKRVTIQKKDIKLARRLRG KPHRYKPGTVALREIRRFQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAIGALQESVEAYLVSLFEDTNLAAIHAKRVTIQKKDIKLARRLRGE 7z13-a1-m1-c6_7z13-a1-m1-ce S. cerevisiae CMGE dimer nucleating origin DNA melting P53091 P53091 3.4 ELECTRON MICROSCOPY 13 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 629 629 KVDDVTGEKVREAFEQFLEDFSVQVEKVYRAQIEFMKIYDLNTIYIDYQHLSMRENGALAMAISEQYYRFLPFLQKGLRRVVRKYAPELLNTSERVFQISFFNLPTVHRIRDIRSEKIGSLLSISGTVTRTSEVRPELYKASFTCDMCRAIVDNVEQSFKYTEPTFCPNPSCENRAFWTLNVTRSRFLDWQKVRIQENANEIPTGSMPRTLDVILRGDSVERAKPGDRCKFTGVEIVVPDVTQLGLPGVKPSSTLDTRGISKTTEGLNSGVTGLRSLGVRDLTYKISFLACHVISIGERDQEVFLNSLSSDEINELKEMVKDEHIYDKLVRSIAPAVFGHEAVKKGILLQMLGGVHKSTVEGIKLRGDINICVVGDPSTSKSQFLKYVVGFAPRSVYTSGKASSAAGLTAAVVRDEEGGDYTIEAGALMLADNGICCIDEFDKMDISDQVAIHEAMEQQTISIAKAGIHATLNARTSILAAANPVGGRYNRKLSLRGNLNMTAPIMSRFDLFFVILDDCNEKIDTELASHIVDLHMKRDEAIEPPFSAEQLRRYIKYARTFKPILTKEARSYLVEKYKELRKDDASYRITVRQLESMIRLSEAIARANCVDEITPSFIAEAYDLLRQSI KVDDVTGEKVREAFEQFLEDFSVQVEKVYRAQIEFMKIYDLNTIYIDYQHLSMRENGALAMAISEQYYRFLPFLQKGLRRVVRKYAPELLNTSERVFQISFFNLPTVHRIRDIRSEKIGSLLSISGTVTRTSEVRPELYKASFTCDMCRAIVDNVEQSFKYTEPTFCPNPSCENRAFWTLNVTRSRFLDWQKVRIQENANEIPTGSMPRTLDVILRGDSVERAKPGDRCKFTGVEIVVPDVTQLGLPGVKPSSTLDTRGISKTTEGLNSGVTGLRSLGVRDLTYKISFLACHVISIGERDQEVFLNSLSSDEINELKEMVKDEHIYDKLVRSIAPAVFGHEAVKKGILLQMLGGVHKSTVEGIKLRGDINICVVGDPSTSKSQFLKYVVGFAPRSVYTSGKASSAAGLTAAVVRDEEGGDYTIEAGALMLADNGICCIDEFDKMDISDQVAIHEAMEQQTISIAKAGIHATLNARTSILAAANPVGGRYNRKLSLRGNLNMTAPIMSRFDLFFVILDDCNEKIDTELASHIVDLHMKRDEAIEPPFSAEQLRRYIKYARTFKPILTKEARSYLVEKYKELRKDDASYRITVRQLESMIRLSEAIARANCVDEITPSFIAEAYDLLRQSI 7z16-a1-m1-cK_7z16-a1-m1-cL E. coli C-P lyase bound to PhnK/PhnL dual ABC dimer with AMPPNP and PhnK E171Q mutation P16679 P16679 2.09 ELECTRON MICROSCOPY 20 1.0 562 (Escherichia coli) 562 (Escherichia coli) 224 224 7z15-a1-m1-cK_7z15-a1-m1-cL MINVQNVSKTFILHQQNGVRLPVLNRASLTVNAGECVVLHGHSGSGKSTLLRSLYANYLPDEGQIQIKHGDEWVDLVTAPARKVVEIRKTTVGWVSQFLRVIPRISALEVVMQPLLDTGVPREACAAKAARLLTRLNVPERLWHLAPSTFSGGEQQRVNIARGFIVDYPILLLDEPTASLDAKNSAAVVELIREAKTRGAAIVGIFHDEAVRNDVADRLHPMGA MINVQNVSKTFILHQQNGVRLPVLNRASLTVNAGECVVLHGHSGSGKSTLLRSLYANYLPDEGQIQIKHGDEWVDLVTAPARKVVEIRKTTVGWVSQFLRVIPRISALEVVMQPLLDTGVPREACAAKAARLLTRLNVPERLWHLAPSTFSGGEQQRVNIARGFIVDYPILLLDEPTASLDAKNSAAVVELIREAKTRGAAIVGIFHDEAVRNDVADRLHPMGA 7z18-a1-m1-cJ_7z18-a1-m1-cI E. coli C-P lyase bound to a PhnK ABC dimer and ATP P16678 P16678 1.98 ELECTRON MICROSCOPY 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 248 250 7z15-a1-m1-cI_7z15-a1-m1-cJ 7z16-a1-m1-cI_7z16-a1-m1-cJ QPLLSVNNLTHLYAPGKGFSDVSFDLWPGEVLGIVGESGSGKTTLLKSISARLTPQQGEIHYENRSLYAMSEADRRRLLRTEWGVVHQHPLDGLRRQVSAGGNIGERLMATGARHYGDIRATAQKWLEEVEIPANRIDDLPTTFSGGMQQRLQIARNLVTHPKLVFMDEPTGGLDVSVQARLLDLLRGLVVELNLAVVIVTHDLGVARLLADRLLVMKQGQVVESGLTDRVLDDPHHPYTQLLVSSVL QPLLSVNNLTHLYAPGKGFSDVSFDLWPGEVLGIVGESGSGKTTLLKSISARLTPQQGEIHYENRSLYAMSEADRRRLLRTEWGVVHQHPLDGLRRQVSAGGNIGERLMATGARHYGDIRATAQKWLEEVEIPANRIDDLPTTFSGGMQQRLQIARNLVTHPKLVFMDEPTGGLDVSVQARLLDLLRGLVVELNLAVVIVTHDLGVARLLADRLLVMKQGQVVESGLTDRVLDDPHHPYTQLLVSSVLQN 7z1i-a3-m1-cD_7z1i-a3-m3-cC Plant myrosinase TGG1 from Arabidopsis thaliana P37702 P37702 3.09 X-RAY DIFFRACTION 67 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 492 493 7z1i-a1-m1-cA_7z1i-a1-m1-cB 7z1i-a2-m2-cD_7z1i-a2-m1-cC EFVCEENEPFTCNQTKLFNSGNFEKGFIFGVASSAYQVEGGRGRGLNVWDSFTHRFPEKGGADLGNGDTTCDSYTLWQKDIDVMDELNSTGYRFSIAWSRLLPKGKRSRGVNPGAIKYYNGLIDGLVAKNMTPFVTLFHWDLPQTLQDEYNGFLNKTIVDDFKDYADLCFELFGDRVKNWITINQLYTVPTRGYALGTDAPGRCSPKIDVRCPGGNSSTEPYIVAHNQLLAHAAAVDVYRTKYKDDQKGMIGPVMITRWFLPFDHSQESKDATERAKIFFHGWFMGPLTEGKYPDIMREYVGDRLPEFSETEAALVKGSYDFLGLNYYVTQYAQNNQTIVPSDVHTALMDSRTTLTSKNATGHAPGPPFNAASYYYPKGIYYVMDYFKTTYGDPLIYVTENGFSTPGDEDFEKATADYKRIDYLCSHLCFLSKVIKEKNVNVKGYFAWSLGDNYEFCNGFTVRFGLSYVDFANITGDRDLKASGKWFQKFIN EFVCEENEPFTCNQTKLFNSGNFEKGFIFGVASSAYQVEGGRGRGLNVWDSFTHRFPEKGGADLGNGDTTCDSYTLWQKDIDVMDELNSTGYRFSIAWSRLLPKGKRSRGVNPGAIKYYNGLIDGLVAKNMTPFVTLFHWDLPQTLQDEYNGFLNKTIVDDFKDYADLCFELFGDRVKNWITINQLYTVPTRGYALGTDAPGRCSPKIDVRCPGGNSSTEPYIVAHNQLLAHAAAVDVYRTKYKDDQKGMIGPVMITRWFLPFDHSQESKDATERAKIFFHGWFMGPLTEGKYPDIMREYVGDRLPEFSETEAALVKGSYDFLGLNYYVTQYAQNNQTIVPSDVHTALMDSRTTLTSKNATGHAPGPPFNAASYYYPKGIYYVMDYFKTTYGDPLIYVTENGFSTPGDEDFEKATADYKRIDYLCSHLCFLSKVIKEKNVNVKGYFAWSLGDNYEFCNGFTVRFGLSYVDFANITGDRDLKASGKWFQKFINV 7z1q-a1-m1-cA_7z1q-a1-m2-cA X-ray crystal structure of SLPYL1-E151D mutant with NIO molecules A0A3Q7HTY9 A0A3Q7HTY9 1.683 X-RAY DIFFRACTION 50 1.0 4081 (Solanum lycopersicum) 4081 (Solanum lycopersicum) 191 191 7z1p-a1-m1-cA_7z1p-a1-m2-cA 7z1r-a1-m1-cD000_7z1r-a1-m2-cD000 7z1s-a1-m1-cA_7z1s-a1-m2-cA STITTHHLTVPPGLTPEEFQELSSSIAEFHSYRINPGQCSSLLAQRIHAPVETVWTVVRRFDKPQTYKHFIKSCSVGEDFRMTVGSTRDVTVISGLPAATSTERLDILDDDRHVTGFSIIGGDHRLRNYRSVTTVHGFERDGEIWTVVLESYVVDVPEGNTEEDTRLFADTVVKLNLQKLASVTETLAREA STITTHHLTVPPGLTPEEFQELSSSIAEFHSYRINPGQCSSLLAQRIHAPVETVWTVVRRFDKPQTYKHFIKSCSVGEDFRMTVGSTRDVTVISGLPAATSTERLDILDDDRHVTGFSIIGGDHRLRNYRSVTTVHGFERDGEIWTVVLESYVVDVPEGNTEEDTRLFADTVVKLNLQKLASVTETLAREA 7z1u-a1-m1-cB_7z1u-a1-m1-cA Biochemical implications of the substitution of a unique cysteine residue in sugar beet phytoglobin BvPgb 1.2 V5QR23 V5QR23 2.24 X-RAY DIFFRACTION 35 0.993 161934 (Beta vulgaris) 161934 (Beta vulgaris) 142 147 IFTEEQEALVVQSWNVMKKNSAELGLKLFLKIFEIAPTAKKMFSLEQNQKLKGHAMSVFVMTAKSAAQLRKAGKVTSLKHMGSVHLKYGVVDEHFEVTRFALLETIKEAVPEMWSPEMKNAWAEAFNHLVAAIKAEMQRLST VIFTEEQEALVVQSWNVMKKNSAELGLKLFLKIFEIAPTAKKMFSFLEQNQKLKGHAMSVFVMTAKSAAQLRKAGKVTFGESSLKHMGSVHLKYGVVDEHFEVTRFALLETIKEAVPEMWSPEMKNAWAEAFNHLVAAIKAEMQRLS 7z27-a1-m1-cB_7z27-a1-m1-cA Crystal structure of the SPOC domain of human RBM15 Q96T37 Q96T37 1.45 X-RAY DIFFRACTION 49 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 162 172 PKLCLAWQGMLLLKNSNFPSNMHLLQGDLQVASSLLVEGSTGGKVAQLKITQRLRLDQPKLDEVTRRIKVAGPNGYAILLAVPGSTQRPLRNLVSYLKQKQAAGVISLPVGGNKDKENTGVLHAFPPCEFSQQFLDSPAKALAKSEEDYLVMIIVRGFGFQI SPKLCLAWQGMLLLKNSNFPSNMHLLQGDLQVASSLLVEGSTGGKVAQLKITQRLRLDQPKLDEVTRRIKVAGPNGYAILLAVPGSSAASDTATSTQRPLRNLVSYLKQKQAAGVISLPVGGNKDKENTGVLHAFPPCEFSQQFLDSPAKALAKSEEDYLVMIIVRGFGFQI 7z2v-a1-m1-cB_7z2v-a1-m1-cA Ferulic acid esterase variant S114A from Lactobacillus buchneri D7RU28 D7RU28 1.45 X-RAY DIFFRACTION 69 1.0 1581 (Lentilactobacillus buchneri) 1581 (Lentilactobacillus buchneri) 262 263 7z2u-a1-m1-cA_7z2u-a1-m1-cB 7z2x-a1-m1-cB_7z2x-a1-m1-cA 7z2x-a2-m1-cD_7z2x-a2-m1-cC YFQSMIKFVTTEINGLTLRGTAHVPDGEPGQQFPTVLMFHGFGAVRDEGFRLFIQMSNRLMENGIAAVRFDFGCHGESDGEFEDFTFSQELNEGSALIDAVKSMSFVDSTKFSLLGEALGSVAASIVAGKRSTELTSLCMWSPAASFLDEILNDHTLQGKTVDNVEKDGYFDFYGLKLGKAFFDDLKNINIFDNAKKYQGPVKIVYGTNDFIPEKYSHKYMDGYENGELVIVQDGDHGWQSVPSRKRILDETMKFFRKTLLE YFQSMIKFVTTEINGLTLRGTAHVPDGEPGQQFPTVLMFHGFGAVRDEGFRLFIQMSNRLMENGIAAVRFDFGCHGESDGEFEDFTFSQELNEGSALIDAVKSMSFVDSTKFSLLGEALGSVAASIVAGKRSTELTSLCMWSPAASFLDEILNDHTLQGKTVDNVEKDGYFDFYGLKLGKAFFDDLKNINIFDNAKKYQGPVKIVYGTNDFIPEKYSHKYMDGYENGELVIVQDGDHGWQSVPSRKRILDETMKFFRKTLLEA 7z36-a1-m1-cA_7z36-a1-m1-cB Crystal structure of the KAP1 tripartite motif in complex with the ZNF93 KRAB domain Q13263 Q13263 2.8 X-RAY DIFFRACTION 455 0.993 10665 (Tequatrovirus T4) 10665 (Tequatrovirus T4) 433 446 ENLYFQGNIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNCNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRCALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYAAEALELLEHCGVCRERLRPEREPRLLPCLHSACSACLTVVDCPVCKQQCFSKDIVENYFMYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLEDAVRNQRKLLASLVKRLGDKHATLQKSTKEVRSSIRQVSDVQKRVQVDVKMAILQIMKELNKRGRVLVNDAQKVTEGQQERLERQHWTMTKIQKHQEHILRFASWALESDNNTALLLSKKLIYFQLHRALKMIVDPVEPHGEMKFQWDLNAWTKSAEAFGKIVAER SSSENLYFQGNIFEMLRIDERLRLKIYKDTEGYYTIGIGHLLTKSPSLNAAKSELDKAIGRNCNGVITKDEAEKLFNQDVDAAVRGILRNAKLKPVYDSLDAVRRCALINMVFQMGETGVAGFTNSLRMLQQKRWDEAAVNLAKSIWYNQTPNRAKRVITTFRTGTWDAYAAEALELLEHCGVCRERLRPEREPRLLPCLHSACSACLGPGTVVDCPVCKQQCFSKDIVENYFMRDSGSGERTVYCNVHKHEPLVLFCESCDTLTCRDCQLNAHKDHQYQFLEDAVRNQRKLLASLVKRLGDKHATLQKSTKEVRSSIRQVSDVQKRVQVDVKMAILQIMKELNKRGRVLVNDAQKVTEGQQERLERQHWTMTKIQKHQEHILRFASWALESDNNTALLLSKKLIYFQLHRALKMIVDPVEPHGEMKFQWDLNAWTKSAEAFGKIV 7z3z-a1-m1-cB_7z3z-a1-m1-cC Locked Wuhan SARS-CoV2 Prefusion Spike ectodomain with lipid bound P0DTC2 P0DTC2 3.1 ELECTRON MICROSCOPY 434 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1089 1089 7z3z-a1-m1-cA_7z3z-a1-m1-cB 7z3z-a1-m1-cA_7z3z-a1-m1-cC QCVNLTTRTLLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSWLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTETWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTLLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYMESEFRVYSSANNCTFEYVSQPFLMDNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSWLTPGDSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTETWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7z4a-a1-m8-cG_7z4a-a1-m9-cF Bacteriophage SU10 tail and bottom part of the capsid (C1) A0A0B4N1Q7 A0A0B4N1Q7 4.6 ELECTRON MICROSCOPY 206 1.0 1519788 (Escherichia phage vB_EcoP_SU10) 1519788 (Escherichia phage vB_EcoP_SU10) 306 347 7z4a-a1-m1-cG_7z4a-a1-m7-cF 7z4a-a1-m7-cG_7z4a-a1-m8-cF TLFVSYDQNGKKLSFANWISVLSSINQTIFSWQTDALASVDGNNAHVEGSRAEDGEMKPTVIKSNVTQIRKVVRVSDTANTTANYGRGRELMYQLEKKGKEIKRDLEKILLSGQARTDARKTGAFQFLCAGGLAGGVVDKTKNGPADPDTGAVTVKVAQNASNPTTNIGFDEADIFDMTLQLYTAGSEADIIMINPAHAKIFAGLQENTQGSRKRIFENTKQFIYEVNSITDPLGQSYKIIVNRWMPTDAVYFFRSADWTQMVLRAPKRTELAKDGSYEKWMIEMEVGLRHRNPYASGVLFTAAGK NPTLFVSYDQNGKKLSFANWISVLSPQDTPFVSMTGKESINQTIFSWQTDALASVDGNNAHVEGSRAEDGEMKPTVIKSNVTQILRKVVRVSDTANTTANYGRGRELMYQLEKKGKEIKRDLEKILLSGQARTDVLADQYLTNSAADPAVAGLNDTHAARKTGAFQFLCAHGGLAGGVVDKTKNGPADPDTGAVTVKVAQNASNPTTNIGFDEADIFDMTLQLYTAGSEADIIMINPAHAKIFAGLQENTQGSRKRIFENTKQFIYEVNSITDPLGQSYKIIVNRWMPTDAVYFFRSADWTQMVLRAPKRTELAKDGSYEKWMIEMEVGLRHRNPYASGVLFTAAGK 7z4a-a1-m8-cG_7z4a-a1-m9-cG Bacteriophage SU10 tail and bottom part of the capsid (C1) A0A0B4N1Q7 A0A0B4N1Q7 4.6 ELECTRON MICROSCOPY 23 1.0 1519788 (Escherichia phage vB_EcoP_SU10) 1519788 (Escherichia phage vB_EcoP_SU10) 306 306 7z4a-a1-m10-cG_7z4a-a1-m9-cG 7z4a-a1-m1-cG_7z4a-a1-m10-cG 7z4a-a1-m1-cG_7z4a-a1-m7-cG 7z4a-a1-m7-cG_7z4a-a1-m8-cG TLFVSYDQNGKKLSFANWISVLSSINQTIFSWQTDALASVDGNNAHVEGSRAEDGEMKPTVIKSNVTQIRKVVRVSDTANTTANYGRGRELMYQLEKKGKEIKRDLEKILLSGQARTDARKTGAFQFLCAGGLAGGVVDKTKNGPADPDTGAVTVKVAQNASNPTTNIGFDEADIFDMTLQLYTAGSEADIIMINPAHAKIFAGLQENTQGSRKRIFENTKQFIYEVNSITDPLGQSYKIIVNRWMPTDAVYFFRSADWTQMVLRAPKRTELAKDGSYEKWMIEMEVGLRHRNPYASGVLFTAAGK TLFVSYDQNGKKLSFANWISVLSSINQTIFSWQTDALASVDGNNAHVEGSRAEDGEMKPTVIKSNVTQIRKVVRVSDTANTTANYGRGRELMYQLEKKGKEIKRDLEKILLSGQARTDARKTGAFQFLCAGGLAGGVVDKTKNGPADPDTGAVTVKVAQNASNPTTNIGFDEADIFDMTLQLYTAGSEADIIMINPAHAKIFAGLQENTQGSRKRIFENTKQFIYEVNSITDPLGQSYKIIVNRWMPTDAVYFFRSADWTQMVLRAPKRTELAKDGSYEKWMIEMEVGLRHRNPYASGVLFTAAGK 7z4m-a1-m2-cA_7z4m-a1-m4-cA Plasmodium falciparum pyruvate kinase complexed with Mg2+ and K+ C6KTA4 C6KTA4 1.9 X-RAY DIFFRACTION 70 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 497 497 3khd-a1-m1-cA_3khd-a1-m1-cB 6ksh-a1-m1-cA_6ksh-a1-m1-cC 6ksh-a1-m1-cB_6ksh-a1-m1-cD 7z4m-a1-m1-cA_7z4m-a1-m3-cA 7z4n-a1-m1-cA_7z4n-a1-m3-cA 7z4n-a1-m2-cA_7z4n-a1-m4-cA 7z4q-a1-m1-cA_7z4q-a1-m3-cA 7z4q-a1-m2-cA_7z4q-a1-m4-cA 7z4r-a1-m1-cA_7z4r-a1-m3-cA 7z4r-a1-m2-cA_7z4r-a1-m4-cA AAGASMQSAANITLRQILEPNNVNLRSKKTHIVCTLGPACKSVETLVKLIDAGMDICRFNFSHGSHEDHKEMFNNVLKAQELRPNCLLGMLLDTKGPEIRTGFLKNKEVHLKEGSKLKLVTDYEFLGDETCIACSYKKLPQSVKPGNIILIADGSVSCKVLETHEDHVITEVLNSAVIGERKNMNLPNVKVDLPIISEKDKNDILNFAIPMGCNFIAASFIQSADDVRLIRNLLGPRGRHIKIIPKIENIEGIIHFDKILAESDGIMIARGDLGMEISPEKVFLAQKLMISKCNLQGKPIITATQMLESMTKNPRPTRAEVTDVANAVLDGTDCVMLSGETAGGKFPVEAVTIMSKICLEAEACIDYKLLYQSLVNAIETPISVQEAVARSAVETAESIQASLIIALTETGYTARLIAKYKPSCTILALSASDSTVKCLNVHRGVTCIKVGSFQGTDIVIRNAIEIAKQRNMAKVGDSVIAIHGIGTNLMKVVQIEL AAGASMQSAANITLRQILEPNNVNLRSKKTHIVCTLGPACKSVETLVKLIDAGMDICRFNFSHGSHEDHKEMFNNVLKAQELRPNCLLGMLLDTKGPEIRTGFLKNKEVHLKEGSKLKLVTDYEFLGDETCIACSYKKLPQSVKPGNIILIADGSVSCKVLETHEDHVITEVLNSAVIGERKNMNLPNVKVDLPIISEKDKNDILNFAIPMGCNFIAASFIQSADDVRLIRNLLGPRGRHIKIIPKIENIEGIIHFDKILAESDGIMIARGDLGMEISPEKVFLAQKLMISKCNLQGKPIITATQMLESMTKNPRPTRAEVTDVANAVLDGTDCVMLSGETAGGKFPVEAVTIMSKICLEAEACIDYKLLYQSLVNAIETPISVQEAVARSAVETAESIQASLIIALTETGYTARLIAKYKPSCTILALSASDSTVKCLNVHRGVTCIKVGSFQGTDIVIRNAIEIAKQRNMAKVGDSVIAIHGIGTNLMKVVQIEL 7z4p-a1-m1-cA_7z4p-a1-m2-cA Structure of HosA transcriptional regulator from enteropathogenic Escherichia coli O127:H6 (strain E2348/69) P69782 P69782 2.5 X-RAY DIFFRACTION 97 1.0 574521 (Escherichia coli O127:H6 str. E2348/69) 574521 (Escherichia coli O127:H6 str. E2348/69) 130 130 NKAFHQLRQLFQQHTARWQHELPDLTKPQYAVMRAIADKPGIEQVALIEAAVSTKATLAEMLARMENRGLVRREHDAADKRRRFVWLTAEGEKVLAAAIPIGDSVDEEFLGRLSAEEQELFMQLVRKMMN NKAFHQLRQLFQQHTARWQHELPDLTKPQYAVMRAIADKPGIEQVALIEAAVSTKATLAEMLARMENRGLVRREHDAADKRRRFVWLTAEGEKVLAAAIPIGDSVDEEFLGRLSAEEQELFMQLVRKMMN 7z4r-a1-m3-cA_7z4r-a1-m4-cA Plasmodium falciparum pyruvate kinase mutant - C343A C6KTA4 C6KTA4 2 X-RAY DIFFRACTION 169 1.0 36329 (Plasmodium falciparum 3D7) 36329 (Plasmodium falciparum 3D7) 494 494 3khd-a1-m1-cC_3khd-a1-m1-cA 3khd-a1-m1-cD_3khd-a1-m1-cB 3khd-a2-m1-cC_3khd-a2-m1-cA 3khd-a3-m1-cD_3khd-a3-m1-cB 6ksh-a1-m1-cA_6ksh-a1-m1-cB 6ksh-a1-m1-cC_6ksh-a1-m1-cD 7z4m-a1-m1-cA_7z4m-a1-m2-cA 7z4m-a1-m3-cA_7z4m-a1-m4-cA 7z4n-a1-m1-cA_7z4n-a1-m2-cA 7z4n-a1-m3-cA_7z4n-a1-m4-cA 7z4q-a1-m1-cA_7z4q-a1-m2-cA 7z4q-a1-m3-cA_7z4q-a1-m4-cA 7z4r-a1-m1-cA_7z4r-a1-m2-cA AGASMQSAANITLRQILEPNNVNLRSKKTHIVCTLGPACKSVETLVKLIDAGMDICRFNFSHGSHEDHKEMFNNVLKAQELRPNCLLGMLLDTKGPEIRTGFLKNKEVHLKEGSKLKLVTDYEFLGDETCIACSYKKLPQSVKPGNIILIADGSVSCKVLETHEDHVITEVLNSAVIGERKNMNLPNVKVDLPIISEKDKNDILNFAIPMGCNFIAASFIQSADDVRLIRNLLGPRGRHIKIIPKIENIEGIIHFDKILAESDGIMIARGDLGMEISPEKVFLAQKLMISKCNLQGKPIITATQMLESMTKNPRPTRAEVTDVANAVLDGTDAVMLSGETAGGKFPVEAVTIMSKICLEAEACIDYKLLYQSLVNAIETPISVQEAVARSAVETAESIQASLIIALTETGYTARLIAKYKPSCTILALSASDSTVKCLNVHRGVTCIKVGSFQGTDIVIRNAIEIAKQRNMAKVGDSVIAIHGTNLMKVVQIEL AGASMQSAANITLRQILEPNNVNLRSKKTHIVCTLGPACKSVETLVKLIDAGMDICRFNFSHGSHEDHKEMFNNVLKAQELRPNCLLGMLLDTKGPEIRTGFLKNKEVHLKEGSKLKLVTDYEFLGDETCIACSYKKLPQSVKPGNIILIADGSVSCKVLETHEDHVITEVLNSAVIGERKNMNLPNVKVDLPIISEKDKNDILNFAIPMGCNFIAASFIQSADDVRLIRNLLGPRGRHIKIIPKIENIEGIIHFDKILAESDGIMIARGDLGMEISPEKVFLAQKLMISKCNLQGKPIITATQMLESMTKNPRPTRAEVTDVANAVLDGTDAVMLSGETAGGKFPVEAVTIMSKICLEAEACIDYKLLYQSLVNAIETPISVQEAVARSAVETAESIQASLIIALTETGYTARLIAKYKPSCTILALSASDSTVKCLNVHRGVTCIKVGSFQGTDIVIRNAIEIAKQRNMAKVGDSVIAIHGTNLMKVVQIEL 7z4w-a1-m1-c5_7z4w-a1-m1-c6 gp6/gp15/gp16 connector complex of bacteriophage SPP1 O48446 O48446 2.7 ELECTRON MICROSCOPY 14 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 109 109 7z4w-a1-m1-c1_7z4w-a1-m1-c2 7z4w-a1-m1-c1_7z4w-a1-m1-c6 7z4w-a1-m1-c2_7z4w-a1-m1-c3 7z4w-a1-m1-c3_7z4w-a1-m1-c4 7z4w-a1-m1-c4_7z4w-a1-m1-c5 MYEEFPDVITFQSYVEQSNGEGGKTYKWVDEFTAAAHVQPISQEEYYKAQQLQTPIGYNIYTPYDDRIDKKMRVIYRGKIVTFIGDPVDLSGLQEITRIKGKEDGAYVG MYEEFPDVITFQSYVEQSNGEGGKTYKWVDEFTAAAHVQPISQEEYYKAQQLQTPIGYNIYTPYDDRIDKKMRVIYRGKIVTFIGDPVDLSGLQEITRIKGKEDGAYVG 7z55-a1-m1-cAAA_7z55-a1-m1-cBBB Crystal Structure of the Ring Nuclease 0455 from Sulfolobus islandicus (Sis0455) in complex with its substrate F0NGX6 F0NGX6 1.664 X-RAY DIFFRACTION 110 1.0 930945 (Sulfolobus islandicus REY15A) 930945 (Sulfolobus islandicus REY15A) 185 186 AKLVATLGTSPGGVLETFLYLIRQGVEIDEIRVITTTNPEVEKAWKIVKIFICCVKEKYPNVIISKHPVEDDINNEEDLIKFKNFIEKQIGEGDYVDITGGRKGSVAAALAAKKKGAKIITSIIPQDSYREINNRIRELKNIPELQDRVQCVEEIKNTYCNLISDKANTILFDIGSEFELENLYF AKLVATLGTSPGGVLETFLYLIRQGVEIDEIRVITTTNPEVEKAWKIVKIFICCVKEKYPNVIISKHPVEDDINNEEDLIKFKNFIEKQIGEGDYVDITGGRKGSVAAALAAKKKGAKIITSIIPQDSYREINNRIRELKNIPELQDRVQCVEEIKNTYCNLISDKANTILFDIGSEFELENLYFQ 7z56-a1-m1-cAAA_7z56-a1-m1-cBBB Crystal Structure of the Ring Nuclease 0455 from Sulfolobus islandicus (Sis0455) in its apo form F0NGX6 F0NGX6 2.27 X-RAY DIFFRACTION 63 1.0 930945 (Sulfolobus islandicus REY15A) 930945 (Sulfolobus islandicus REY15A) 178 183 AKLVATLGTSPGGVLETFLYLIRQGVEIDEIRVITTTNPEVEKAWKIVKIMFICCVKEKYPNVIISKHPVEMDDINNEEDLIKFKNFIEKQIGEGDYVDITGGRKGMSVAAALAAKKKGAKIITSIIPQDSYREINNRIRELKNIPELQDRVQCVEEIKNTYCNLISDKANTILFDIG AKLVATLGTSPGGVLETFLYLIRQGVEIDEIRVITTTNPEVEKAWKIVKIMFICCVKEKYPNVIISKHPVEMDDINNEEDLIKFKNFIEKQIGEGDYVDITGGRKGMSVAAALAAKKKGAKIITSIIPQDSYREINNRIRELKNIPELQDRVQCVEEIKNTYCNLISDKANTILFDIGSEFEL 7z5k-a1-m1-cA_7z5k-a1-m1-cB Transcription factor MYF5 bound to non-symmetrical site P13349 P13349 2.28 X-RAY DIFFRACTION 50 0.982 9606 (Homo sapiens) 9606 (Homo sapiens) 56 56 7z5i-a1-m1-cA_7z5i-a1-m1-cB SMDRRKAATMRERRRLKKVNQAFETLKRCTTTNPNQRLPKVEILRNAIRYIESLQE MDRRKAATMRERRRLKKVNQAFETLKRCTTTNPNQRLPKVEILRNAIRYIESLQEL 7z5p-a1-m1-cA_7z5p-a1-m1-cB Bilirubin oxidase from Bacillus pumilus A8FAG9 A8FAG9 2.991 X-RAY DIFFRACTION 31 0.994 315750 (Bacillus pumilus SAFR-032) 315750 (Bacillus pumilus SAFR-032) 505 505 NLEKFVDELPIPEVAEPVKKNPRQTYYEIAMEEVFLKVHRDLPPTKLWTYNGSLPGPTIHANRNEKVKVKWMNKLPLKHFLPVDHTIHEGHHDEPEVKTVVHLHGGVTPASSDGYPEAWFSRDFEATGPFFEREVYEYPNHQQACTLWYHDHAMALTRLNVYAGLAGFYLISDAFEKSLELPKDEYDIPLMIMDRTFQEDGALFYPSRPNNTPEDSDLPDPSIVPFFCGETILVNGKVWPYLEVEPRKYRFRILNASNTRTYELHLDNDATILQIGSDGGFLPRPVHHQSFTIAPAERFDVIIDFSAYENKTITLKNKAGCGQEVNPETDANIMQFKVTRPLKGPKTLRIFKPLPPLRPSRADQERTLTLTGTQDKYGRPILLLDNHFWNDPVTENPRLGSVEVWSIVNPTRGTHPIHLHLVQFRVIDRRPFDTEVYQSTGDIVYTGPNEAPPLHEQGYKDTIQAHAGEVIRIIARFVPYSGRYVWHCHILEHEDYDMMRPMDII NLEKFVDELPIPEVAEPVKKNPRQTYYEIAMEEVFLKVHRDLPPTKLWTYNGSLPGPTIHANRNEKVKVKWMNKLPLKHFLPVDHTIHGHHDEPEVKTVVHLHGGVTPASSDGYPEAWFSRDFEATGPFFEREVYEYPNHQQACTLWYHDHAMALTRLNVYAGLAGFYLISDAFEKSLELPKDEYDIPLMIMDRTFQEDGALFYPSRPNNTPEDSDLPDPSIVPFFCGETILVNGKVWPYLEVEPRKYRFRILNASNTRTYELHLDNDATILQIGSDGGFLPRPVHHQSFTIAPAERFDVIIDFSAYENKTITLKNKAGCGQEVNPETDANIMQFKVTRPLKGRAPKTPIFKPLPPLRPSRADQERTLTLTGTQDKYGRPILLLDNHFWNDPVTENPRLGSVEVWSIVNPTRGTHPIHLHLVQFRVIDRRPFDTEVYQSTGDIVYTGPNEAPPLHEQGYKDTIQAHAGEVIRIIARFVPYSGRYVWHCHILEHEDYDMMRPMDII 7z6m-a1-m1-cA_7z6m-a1-m2-cA Crystal structure of Zn2+-transporter BbZIP in a cadmium bound state A0A0H3LM39 A0A0H3LM39 2.51 X-RAY DIFFRACTION 60 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 238 238 VHVGYAVLGGAAGFAATALGALMALGLRAISARTQDAMLGFAAGMMLAASAFSLILPGLDAAGTIVGPGPAAAAVVALGLGLGVLLMLGLDYFTPHARVNRVWLFVLTIILHNLPEGMAIGVSFATGDLRIGLPLTSAIAIQDVPEGLAVALALRAVGLPIGRAVLVAVASGLMEPLGALVGVGISSGFALAYPISMGLAAGAMIFVVSHEVIPGHETTATVGLMAGFALMMFLDTAL VHVGYAVLGGAAGFAATALGALMALGLRAISARTQDAMLGFAAGMMLAASAFSLILPGLDAAGTIVGPGPAAAAVVALGLGLGVLLMLGLDYFTPHARVNRVWLFVLTIILHNLPEGMAIGVSFATGDLRIGLPLTSAIAIQDVPEGLAVALALRAVGLPIGRAVLVAVASGLMEPLGALVGVGISSGFALAYPISMGLAAGAMIFVVSHEVIPGHETTATVGLMAGFALMMFLDTAL 7z6n-a1-m1-cB_7z6n-a1-m1-cA Crystal structure of Zn2+-transporter BbZIP in a metal-stripped state A0A0H3LM39 A0A0H3LM39 2.57 X-RAY DIFFRACTION 31 1.0 518 (Bordetella bronchiseptica) 518 (Bordetella bronchiseptica) 261 275 8czj-a1-m1-cA_8czj-a1-m1-cB SHPLITLGLAASAAGVVLLLVAGIVNALTGENRVHVGYAVLGGAAGFAATALGALMASARTQDAMLGFAAGMMLAASAFSLILPGLDAAGTIVGPGPAAAAVVALGLGLGVLLMLGLDYFTVNRVWLFVLTIILHNLPEGMAIGVSFATGDLRIGLPLTSAIAIQDVPEGLAVALALRPIGRAVLVAVASGLMEPLGALVGVGISSGFALAYPISMGLAAGAMIFVVSHEVIPETHRNGHETTATVGLMAGFALMMFLDTA SHPLITLGLAASAAGVVLLLVAGIVNALTGENRVHVGYAVLGGAAGFAATALGALMALGLRAISARTQDAMLGFAAGMMLAASAFSLILPGLDAAGTIVGPGPAAAAVVALGLGLGVLLMLGLDYFTPHVNRVWLFVLTIILHNLPEGMAIGVSFATGDLRIGLPLTSAIAIQDVPEGLAVALALRAVGLPIGRAVLVAVASGLMEPLGALVGVGISSGFALAYPISMGLAAGAMIFVVSHEVIPETHRNGHETTATVGLMAGFALMMFLDTALG 7z6v-a1-m1-cC_7z6v-a1-m1-cB CRYO-EM STRUCTURE OF SARS-COV-2 SPIKE : H11 nanobody complex P10104 P10104 3.1 ELECTRON MICROSCOPY 302 0.998 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 992 994 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 7z73-a1-m1-cD_7z73-a1-m1-cC Crystal structure of p63 tetramerization domain in complex with darpin 8F1 Q9H3D4 Q9H3D4 2.27 X-RAY DIFFRACTION 75 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 43 44 4a9z-a1-m1-cD_4a9z-a1-m1-cC ELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQQQQQ DELLYLPVRGRETYEMLLKIKESLELMQYLPQHTIETYRQQQQQ 7z7o-a2-m2-cD_7z7o-a2-m1-cB Structure of the fluorescent protein NeonCyan0.95 at pH 7.5 A0A1S4NYF2 A0A1S4NYF2 1.51 X-RAY DIFFRACTION 44 1.0 7740 (Branchiostoma lanceolatum) 7740 (Branchiostoma lanceolatum) 214 226 7z7o-a1-m1-cC_7z7o-a1-m1-cA LPATHELHIFGSINGVDFDMVGQGTGNPNEGYEELNLKSTKGDLQFSPWILVPHVFHQYLPYPDGMSPFQAAMVDGSGYQVHRTMQFEDGASLTVNYRYTYEGSHIKGEAQVKGTGFPADGPVMTNSLTAVDSCWSKKTYPNDKTIISTFKWSYTTGNGERYRSTARTTYTFAKPMAANYLKNQPVYVFRKTELKHSETELNFKEWQKAFTDVM DNMASLPATHELHIFGSINGVDFDMVGQGTGNPNEGYEELNLKSTKGDLQFSPWILVPHVFHQYLPYPDGMSPFQAAMVDGSGYQVHRTMQFEDGASLTVNYRYTYEGSHIKGEAQVKGTGFPADGPVMTNSLTAVDSCWSKKTYPNDKTIISTFKWSYTTGNGERYRSTARTTYTFAKPMAANYLKNQPVYVFRKTELKHSETELNFKEWQKAFTDVMGMDELYK 7z8a-a1-m1-cAAA_7z8a-a1-m2-cAAA Sam68 A0A7K8A7M1 A0A7K8A7M1 2.06 X-RAY DIFFRACTION 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 115 115 7z89-a1-m1-cAAA_7z89-a1-m3-cAAA 7z89-a2-m1-cBBB_7z89-a2-m2-cBBB 7z9a-a1-m1-cAAA_7z9a-a1-m2-cAAA 7z9b-a1-m1-cAAA_7z9b-a1-m1-cBBB 7z9b-a2-m1-cCCC_7z9b-a2-m2-cCCC 7zab-a1-m1-cAAA_7zab-a1-m2-cAAA 7zac-a1-m1-cAAA_7zac-a1-m2-cAAA 7zaf-a1-m1-cAAA_7zaf-a1-m2-cAAA 7zam-a1-m1-cAAA_7zam-a1-m1-cBBB YLDLFSHKNMKLKERVLIPVKQYPKFNFVGKILGPQGNTIKRLQEETGAKISVLGKGSMRDKAKEEELRKGGDPKYAHLNMDLHVFIEVFGPPCEAYALMAHAMCEVKKFLVPDM YLDLFSHKNMKLKERVLIPVKQYPKFNFVGKILGPQGNTIKRLQEETGAKISVLGKGSMRDKAKEEELRKGGDPKYAHLNMDLHVFIEVFGPPCEAYALMAHAMCEVKKFLVPDM 7z8e-a1-m1-cD_7z8e-a1-m1-cA Crystal structure of the substrate-binding protein YejA from S. meliloti in complex with peptide fragment A0A222JNH8 1.58 X-RAY DIFFRACTION 17 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 2 590 SS MEEQPVWHHATSSIGEPKYKDGFARFDYVNPDAPKGGELRLSESGTFDSFNPILAKGEVATGVSSLVFETLLKSAEDEITTSYGLLAEGISYPDDISSATFRLRAEAKWADGKPVTPEDVVFSFDMVKEHNPLFSNYYRHVISAEKTGERDVTFRFDEKNNHELPNILGQFPILPKHWWEGQDAKGSKRDISRTTLEPVMGSGPYKIASFQAGGSIRFELRDDYWGKDLNVNVGRYNFRTINYAFFSDRSVQFEAFRAGNVDFYQDNSASHWATAYDFPAMKDGRVIREEIENPLRATGIMQAFVPNMRREKFKDQRVRQALNYAFDFEDLNRSLAHNAFQRVDSYFWGTELASSGLPEGREKEILEELKDKVPAAVFTTPYKNPVNGDPQKVRDNLRKALALFKEAGYELKGSRLVNAKTGEPFSFEILLSNPTFERTVTPFVNSVRKIGIDARIRTVDDSQYTNRVRSYDYDMIYGIWAQTLVPGNEQSDYWGSASVNQPGSRNYAGIADPAIDELIRRIVFAPNREELVATTRALDRVLLAHHYVVPLFYSKALRVAYWNHLARPKELPYYGMDFPDAWWSKNTAAK 7z8f-a1-m1-cN_7z8f-a1-m1-cM Composite structure of dynein-dynactin-BICDR on microtubules A0A5G2QD80 A0A5G2QD80 20.0 ELECTRON MICROSCOPY 160 0.986 9823 (Sus scrofa) 9823 (Sus scrofa) 280 340 6znl-a1-m1-cN_6znl-a1-m1-cM DPKYADLPGIARNEPDVYETSDLPKETPQQKYQRLLHEVQELTTEVEKIKMTPVVLAKQLAALKQQLVASHLEKLLGPDAAINLTDPDGALAKRLLLQLEATVTYELHSRPEQDKFSQAAKVAELEKRLTELEATVCLMETVELLQAKVSALDLAVLDQVEARLQSVLGKVNEIAKHKASVEDADTQSKVHQLYETIQRWSPIASTLPELVQRLVTIKQLHEQAMQFGQLLTHLDTTQQMIACSLKDNATLLTQVQTTMRENLSTVEGNFANIDERMKKL DPKYADLPGIARNEPDVYETSDLPLEELTSTSVEHIIVNPNAAYDKFKDKRVGTKGLDFSDRIGKTKRTGYESGEQQKYQRLLHEVQELTTEVEKIKMTVKESATEEKLTPVVLAKQLAALKQQLVASHLEKLLGPDAAINLTDPDGALAKRLLLQLEATKNVTYELHSRPEQDKFSQAAKVAELEKRLTELEATVRLMETVELLQAKVSALDLAVLDQVEARLQSVLGKVNEIAKHKASVEDADTQSKVHQLYETIQRWSPIASTLPELVQRLVTIKQLHEQAMQFGQLLTHLDTTQQMIACSLKDNATLLTQVQTTMRENLSTVEGNFANIDERMKKL 7z8f-a1-m1-cN_7z8f-a1-m1-cQ Composite structure of dynein-dynactin-BICDR on microtubules A0A5G2QD80 A0A5G2QD80 20.0 ELECTRON MICROSCOPY 28 0.986 9823 (Sus scrofa) 9823 (Sus scrofa) 280 325 6znl-a1-m1-cN_6znl-a1-m1-cm DPKYADLPGIARNEPDVYETSDLPKETPQQKYQRLLHEVQELTTEVEKIKMTPVVLAKQLAALKQQLVASHLEKLLGPDAAINLTDPDGALAKRLLLQLEATVTYELHSRPEQDKFSQAAKVAELEKRLTELEATVCLMETVELLQAKVSALDLAVLDQVEARLQSVLGKVNEIAKHKASVEDADTQSKVHQLYETIQRWSPIASTLPELVQRLVTIKQLHEQAMQFGQLLTHLDTTQQMIACSLKDNATLLTQVQTTMRENLSTVEGNFANIDERMKKL MADPKYADLPGIARNEPDVYETSDLPGYESGEYEMLGEGLGVKETPQQKYQRLLHEVQELTTEVEKIKMTVKESATEEKLTPVVLAKQLAALKQQLVASHLEKLLGPDAAINLTDPDGALAKRLLLQLEATKSLVTYELHSRPEQDKFSQAAKVAELEKRLTELEATVRCDQDAQNPLSAGLQGACLMETVELLQAKVSALDLAVLDQVEARLQSVLGKVNEIAKHKASVEDADTQSKVHQLYETIQRWSPIASTLPELVQRLVTIKQLHEQAMQFGQLLTHLDTTQQMIACSLKDNATLLTQVQTTMRENLSTVEGNFANIDER 7z8f-a1-m1-cS_7z8f-a1-m1-cT Composite structure of dynein-dynactin-BICDR on microtubules A0A8D1D718 A0A8D1D718 20.0 ELECTRON MICROSCOPY 36 0.987 9823 (Sus scrofa) 9823 (Sus scrofa) 155 192 VKDSPLLLQQISAMRLHISQLQHENSVLKGAQMKASLAALPPLHVAKLSLPPHEGPGSELAAGALYRKTNQLLETLNQLSTHTHVVDKDEVLKETVSQRPGATVPTDFATFPSSAFLRAKEEQQDDTVYMGKVTFQRHRLVLTQEQLHQLHDRLI DSPLLLQQISAMRLHISQLQHENSVLKGAQMKASLAALPPLHVAKLSLPPHEGPGSELAAGALYRKTNQLLETLNQLSTHTHVVDITRSSPAAKSPSAQLLEQVTQLKSLSDTIEKLKDEVLKETVSQRPGATVPTDFATFPSSAFLRAKEEQQDDTVYMGKVTFSCAAGLGQRHRLVLTQEQLHQLHDRLI 7z8f-a1-m1-ce_7z8f-a1-m1-cf Composite structure of dynein-dynactin-BICDR on microtubules Q14204 Q14204 20.0 ELECTRON MICROSCOPY 137 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 4579 4579 AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDVGDEGEEEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESGKADRDGDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVLRPQVFDAADANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLGQAEDKAEVDMDTDAPQVSHKPGGEPKIKNVVHELRITNQVIYLNPPIEECRYKLYQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKVWLQYQCLWDMQAENIYNRLGEDLNKWQALLVQIRKARGTFDNAETKKEFGPVVIDYGKVQSKVNLKYDSWHKEVLSKFGQMLGSNMTEFHSQISKSRQELEQHSVDTASTSDAVTFITYVQSLKRKIKQFEKQVELYRNGQRLLEKQRFQFPPSWLYIDNIEGEWGAFNDIMRRKDSAIQQQVANLQMKIVQEDRAVESRTTDLLTDWEKTKPVTGNLRPEEALQALTIYEGKFGRLKDDREKCAKAKEALELTDTGLLSGSEERVQVALEELQDLKGVWSELSKVWEQIDQMKEQPWVSVQPRKLRQNLDALLNQLKSFPARLRQYASYEFVQRLLKGYMKINMLVIELKSEALKDRHWKQLMKRLHVNWVVSELTLGQIWDVDLQKNEAIVKDVLLVAQGEMALEEFLKQIREVWNTYELDLVNYQNKCRLIRGWDDLFNKVKEHINSVSAMKLSPYYKVFEEDALSWEDKLNRIMALFDVWIDVQRRWVYLEGIFTGSADIKHLLPVETQEFQSISTEFLALMKKVSKSPLVMDVLNIQGVQRSLERLADLLGEIQKALGEYLERERSSFPRFYFVGDEDLLEIIGNSKNVAKLQKHFKKMFAGVSSIILNEDNSVVLGISSREGEEVMFKTPVSITEHPKINEWLTLVEKEMRVTLAKLLAESVTEVEIFGKATSIDPNTYITWIDKYQAQLVVLSAQIAWSENVETALSSMGGGGDAAPLHSVLSNVEVTLNVLADSVLMEQPPLRRRKLEHLITELVHQRDVTRSLIKSKIDNAKSFEWLSQMRFYFDPKQTDVLQQLSIQMANAKFNYGFEYLGVQDKLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGHQLGRFVLVFNCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQVQCIQEALREHSNPNYDKTSAPITCELLNKQVKVSPDMAIFITMNPGSNLPDNLKKLFRSLAMTKPDRQLIAQVMLYSQGFRTAEVLANKIVPFFKLCDEQLSSQSHYDFGLRALKSVLVSAGNVKRERIQKIKREKEERGEAVDEGEIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLSDVFPGVQYHRGEMTALREELKKVCQEMYLTYGDGEEVGGMWVEKVLQLYQITQINHGLMMVGPSGSGKSMAWRVLLKALERLEGVEGVAHIIDPKAISKDHLYGTLDPNTREWTDGLFTHVLRKIIDSVRGELQKRQWIVFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLATVSRCGMVWFSEDVLSTDMIFNNFLARLRSIPLDEGEDEAQRRRKGKEDEGEEAASPMLQIQRDAATIMQPYFTSNGLVTKALEHAFQLEHIMDLTRLRCLGSLFSMLHQACRNVAQYNANHPDFPMQIEQLERYIQRYLVYAILWSLSGDSRLKMRAELGEYIRRITTVPLPTAPNIPIIDYEVSISGEWSPWQAKVPQIEVETHKVAAPDVVVPTLDTVRHEALLYTWLAEHKPLVLCGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRRTPNGVVLAPVQLGKWLVLFCDEINLPDMDKYGTQRVISFIRQMVEHGGFYRTSDQTWVKLERIQFVGACNPPTDPGRKPLSHRFLRHVPVVYVDYPGPASLTQIYGTFNRAMLRLIPSLRTYAEPLTAAMVEFYTMSQERFTQDTQPHYIYSPREMTRWVRGIFEALRPLETLPVEGLIRIWAHEALRLFQDRLVEDEERRWTDENIDTVALKHFPNIDREKAMSRPILYSNWLSKDYIPVDQEELRDYVKARLKVFYEEELDVPLVLFNEVLDHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSRFVAWMNGLSVYQIKVHRKYTGEDFDEDLRTVLRRSGCKNEKIAFIMDESNVLDSGFLERMNTLLANGEVPGLFEGDEYATLMTQCKEGAQKEGLMLDSHEELYKWFTSQVIRNLHVVFTMNPSSEGLKDRAATSPALFNRCVLNWFGDWSTEALYQVGKEFTSKMDLEKPNYIVPDYMPVVYDKLPQPPSHREAIVNSCVFVHQTLHQANARLAKRGGRTMAITPRHYLDFINHYANLFHEKRSELEEQQMHLNVGLRKIKETVDQVEELRRDLRIKSQELEVKNAAANDKLKKMVKDQQEAEKKKVMSQEIQEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESICLLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLACGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKANEVEQMIRDLEASIARYKEEYAVLISEAQAIKADLAAVEAKVNRSTALLKSLSAERERWEKTSETFKNQMSTIAGDCLLSAAFIAYAGYFDQQMRQNLFTTWSHHLQQANIQFRTDIARTEYLSNADERLRWQASSLPADDLCTENAIMLKRFNRYPLIIDPSGQATEFIMNEYKDRKITRTSFLDDAFRKNLESALRFGNPLLVQDVESYDPVLNPVLNREVRRTGGRVLITLGDQDIDLSPSFVIFLSTRDPTVEFPPDLCSRVTFVNFTVTRSSLQSQCLNEVLKAERPDVDEKRSDLLKLQGEFQLRLRQLEKSLLQALNEVKGRILDDDTIITTLENLKREAAEVTRKVEETDIVMQEVETVSQQYLPLSTACSSIYFTMESLKQIHFLYQYSLQFFLDIYHNVLYENPNLKGVTDHTQRLSIITKDLFQVAFNRVARGMLHQDHITFAMLLARIKLKGTVGEPTYDAEFQHFLRGNEIVLSAGSTPRIQGLTVEQAEAVVRLSCLPAFKDLIAKVQADEQFGIWLDSSSPEQTVPYLWSEETPATPIGQAIHRLLLIQAFRPDRLLAMAHMFVSTNLGESFMSIMEQPLDLTHIVGTEVKPNTPVLMCSVPGYDASGHVEDLAAEQNTQITSIAIGSAEGFNQADKAINTAVKSGRWVMLKNVHLAPGWLMQLEKKLHSLQPHACFRLFLTMEINPKVPVNLLRAGRIFVFEPPPGVKANMLRTFSSIPVSRICKSPNERARLYFLLAWFHAIIQERLRYAPLGWSKKYEFGESDLRSACDTVDTWLDDTAKGRQNISPDKIPWSALKTLMAQSIYGGRVDNEFDQRLLNTFLERLFTTRSFDSEFKLACKVDGHKDIQMPDGIRREEFVQWVELLPDTQTPSWLGLPNNAERVLLTTQGVDMISKMLKMQMLEDEDAWMRTLHTTASNWLHLIPQTLSHLKRTVENIKDPLFRFFEREVKMGAKLLQDVRQDLADVVQVCEGKKKQTNYLRTLINELVKGILPRSWSHYTVPAGMTVIQWVSDFSERIKQLQNISLAAASGGAKELKNIHVCLGGLFVPEAYITATRQYVAQANSWSLEELCLEVNVTTSQGATLDACSFGVTGLKLQGATCNNNKLSLSNAISTALPLTQLRWVKQTNTEKKASVVTLPVYLNFTRADLIFTVDFEIATKEDPRSFYERGVAVLCTE AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDVGDEGEEEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESGKADRDGDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVLRPQVFDAADANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLGQAEDKAEVDMDTDAPQVSHKPGGEPKIKNVVHELRITNQVIYLNPPIEECRYKLYQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKVWLQYQCLWDMQAENIYNRLGEDLNKWQALLVQIRKARGTFDNAETKKEFGPVVIDYGKVQSKVNLKYDSWHKEVLSKFGQMLGSNMTEFHSQISKSRQELEQHSVDTASTSDAVTFITYVQSLKRKIKQFEKQVELYRNGQRLLEKQRFQFPPSWLYIDNIEGEWGAFNDIMRRKDSAIQQQVANLQMKIVQEDRAVESRTTDLLTDWEKTKPVTGNLRPEEALQALTIYEGKFGRLKDDREKCAKAKEALELTDTGLLSGSEERVQVALEELQDLKGVWSELSKVWEQIDQMKEQPWVSVQPRKLRQNLDALLNQLKSFPARLRQYASYEFVQRLLKGYMKINMLVIELKSEALKDRHWKQLMKRLHVNWVVSELTLGQIWDVDLQKNEAIVKDVLLVAQGEMALEEFLKQIREVWNTYELDLVNYQNKCRLIRGWDDLFNKVKEHINSVSAMKLSPYYKVFEEDALSWEDKLNRIMALFDVWIDVQRRWVYLEGIFTGSADIKHLLPVETQEFQSISTEFLALMKKVSKSPLVMDVLNIQGVQRSLERLADLLGEIQKALGEYLERERSSFPRFYFVGDEDLLEIIGNSKNVAKLQKHFKKMFAGVSSIILNEDNSVVLGISSREGEEVMFKTPVSITEHPKINEWLTLVEKEMRVTLAKLLAESVTEVEIFGKATSIDPNTYITWIDKYQAQLVVLSAQIAWSENVETALSSMGGGGDAAPLHSVLSNVEVTLNVLADSVLMEQPPLRRRKLEHLITELVHQRDVTRSLIKSKIDNAKSFEWLSQMRFYFDPKQTDVLQQLSIQMANAKFNYGFEYLGVQDKLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGHQLGRFVLVFNCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQVQCIQEALREHSNPNYDKTSAPITCELLNKQVKVSPDMAIFITMNPGSNLPDNLKKLFRSLAMTKPDRQLIAQVMLYSQGFRTAEVLANKIVPFFKLCDEQLSSQSHYDFGLRALKSVLVSAGNVKRERIQKIKREKEERGEAVDEGEIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLSDVFPGVQYHRGEMTALREELKKVCQEMYLTYGDGEEVGGMWVEKVLQLYQITQINHGLMMVGPSGSGKSMAWRVLLKALERLEGVEGVAHIIDPKAISKDHLYGTLDPNTREWTDGLFTHVLRKIIDSVRGELQKRQWIVFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLATVSRCGMVWFSEDVLSTDMIFNNFLARLRSIPLDEGEDEAQRRRKGKEDEGEEAASPMLQIQRDAATIMQPYFTSNGLVTKALEHAFQLEHIMDLTRLRCLGSLFSMLHQACRNVAQYNANHPDFPMQIEQLERYIQRYLVYAILWSLSGDSRLKMRAELGEYIRRITTVPLPTAPNIPIIDYEVSISGEWSPWQAKVPQIEVETHKVAAPDVVVPTLDTVRHEALLYTWLAEHKPLVLCGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRRTPNGVVLAPVQLGKWLVLFCDEINLPDMDKYGTQRVISFIRQMVEHGGFYRTSDQTWVKLERIQFVGACNPPTDPGRKPLSHRFLRHVPVVYVDYPGPASLTQIYGTFNRAMLRLIPSLRTYAEPLTAAMVEFYTMSQERFTQDTQPHYIYSPREMTRWVRGIFEALRPLETLPVEGLIRIWAHEALRLFQDRLVEDEERRWTDENIDTVALKHFPNIDREKAMSRPILYSNWLSKDYIPVDQEELRDYVKARLKVFYEEELDVPLVLFNEVLDHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSRFVAWMNGLSVYQIKVHRKYTGEDFDEDLRTVLRRSGCKNEKIAFIMDESNVLDSGFLERMNTLLANGEVPGLFEGDEYATLMTQCKEGAQKEGLMLDSHEELYKWFTSQVIRNLHVVFTMNPSSEGLKDRAATSPALFNRCVLNWFGDWSTEALYQVGKEFTSKMDLEKPNYIVPDYMPVVYDKLPQPPSHREAIVNSCVFVHQTLHQANARLAKRGGRTMAITPRHYLDFINHYANLFHEKRSELEEQQMHLNVGLRKIKETVDQVEELRRDLRIKSQELEVKNAAANDKLKKMVKDQQEAEKKKVMSQEIQEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESICLLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLACGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKANEVEQMIRDLEASIARYKEEYAVLISEAQAIKADLAAVEAKVNRSTALLKSLSAERERWEKTSETFKNQMSTIAGDCLLSAAFIAYAGYFDQQMRQNLFTTWSHHLQQANIQFRTDIARTEYLSNADERLRWQASSLPADDLCTENAIMLKRFNRYPLIIDPSGQATEFIMNEYKDRKITRTSFLDDAFRKNLESALRFGNPLLVQDVESYDPVLNPVLNREVRRTGGRVLITLGDQDIDLSPSFVIFLSTRDPTVEFPPDLCSRVTFVNFTVTRSSLQSQCLNEVLKAERPDVDEKRSDLLKLQGEFQLRLRQLEKSLLQALNEVKGRILDDDTIITTLENLKREAAEVTRKVEETDIVMQEVETVSQQYLPLSTACSSIYFTMESLKQIHFLYQYSLQFFLDIYHNVLYENPNLKGVTDHTQRLSIITKDLFQVAFNRVARGMLHQDHITFAMLLARIKLKGTVGEPTYDAEFQHFLRGNEIVLSAGSTPRIQGLTVEQAEAVVRLSCLPAFKDLIAKVQADEQFGIWLDSSSPEQTVPYLWSEETPATPIGQAIHRLLLIQAFRPDRLLAMAHMFVSTNLGESFMSIMEQPLDLTHIVGTEVKPNTPVLMCSVPGYDASGHVEDLAAEQNTQITSIAIGSAEGFNQADKAINTAVKSGRWVMLKNVHLAPGWLMQLEKKLHSLQPHACFRLFLTMEINPKVPVNLLRAGRIFVFEPPPGVKANMLRTFSSIPVSRICKSPNERARLYFLLAWFHAIIQERLRYAPLGWSKKYEFGESDLRSACDTVDTWLDDTAKGRQNISPDKIPWSALKTLMAQSIYGGRVDNEFDQRLLNTFLERLFTTRSFDSEFKLACKVDGHKDIQMPDGIRREEFVQWVELLPDTQTPSWLGLPNNAERVLLTTQGVDMISKMLKMQMLEDEDAWMRTLHTTASNWLHLIPQTLSHLKRTVENIKDPLFRFFEREVKMGAKLLQDVRQDLADVVQVCEGKKKQTNYLRTLINELVKGILPRSWSHYTVPAGMTVIQWVSDFSERIKQLQNISLAAASGGAKELKNIHVCLGGLFVPEAYITATRQYVAQANSWSLEELCLEVNVTTSQGATLDACSFGVTGLKLQGATCNNNKLSLSNAISTALPLTQLRWVKQTNTEKKASVVTLPVYLNFTRADLIFTVDFEIATKEDPRSFYERGVAVLCTE 7z8f-a1-m1-cm_7z8f-a1-m1-cf Composite structure of dynein-dynactin-BICDR on microtubules Q14204 Q14204 20.0 ELECTRON MICROSCOPY 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 4562 4579 7z8i-a1-m1-cm_7z8i-a1-m1-cf AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDVGDEGEEEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESGKADRDGDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVLRDAADANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLGQAEDKAEVDMDTDAPQVSHKPGGEPKIKNVVHELRITNQVIYLNPPIEECRYKLYQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKVWLQYQCLWDMQAENIYNRLGEDLNKWQALLVQIRKARGTFDNAETKKEFGPVVIDYGKVQSKVNLKYDSWHKEVLSKFGQMLGSNMTEFHSQISKSRQELEQHSVDTASTSDAVTFITYVQSLKRKIKQFEKQVELYRNGQRLLEKQRFQFPPSWLYIDNIEGEWGAFNDIMRRKDSAIQQQVANLQMKIVQEDRAVESRTTDLLTDWEKTKPVTGNLRPEEALQALTIYEGKFGRLKDDREKCAKAKEALELTDTGLLSGSEERVQVALEELQDLKGVWSELSKVWEQIDQMKEQPWVSVQPRKLRQNLDALLNQLKSFPARLRQYASYEFVQRLLKGYMKINMLVIELKSEALKDRHWKQLMKRLHVNWVVSELTLGQIWDVDLQKNEAIVKDVLLVAQGEMALEEFLKQIREVWNTYELDLVNYQNKCRLIRGWDDLFNKVKEHINSVSAMKLSPYYKVFEEDALSWEDKLNRIMALFDVWIDVQRRWVYLEGIFTGSADIKHLLPVETQEFQSISTEFLALMKKVSKSPLVMDVLNIQGVQRSLERLADLLGEIQKALGEYLERERSSFPRFYFVGDEDLLEIIGNSKNVAKLQKHFKKMFAGVSSIILNEDNSVVLGISSREGEEVMFKTPVSITEHPKINEWLTLVEKEMRVTLAKLLAESVTEVEIFGKATSIDPNTYITWIDKYQAQLVVLSAQIAWSENVETALSSMGGGGDAAPLHSVLSNVEVTLNVLADSVLMEQPPLRRRKLEHLITELVHQRDVTRSLIKSKIDNAKSFEWLSQMRFYFDPKQTDVLQQLSIQMANAKFNYGFEYLGVQDKLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGHQLGRFVLVFNCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQVQCIQEALREHSNPNYDKTSAPITCELLNKQVKVSPDMAIFITMNPGSNLPDNLKKLFRSLAMTKPDRQLIAQVMLYSQGFRTAEVLANKIVPFFKLCDEQLSSQSHYDFGLRALKSVLVSAGNVKRERIQKIKREKEERGEAVDEGEIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLSDVFPGVQYHRGEMTALREELKKVCQEMYLTYGDGEEVGGMWVEKVLQLYQITQINHGLMMVGPSGSGKSMAWRVLLKALERLEGVEGVAHIIDPKAISKDHLYGTLDPNTREWTDGLFTHVLRKIIDSVRGELQKRQWIVFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLATVSRCGMVWFSEDVLSTDMIFNNFLARLRSIPLDEGEDEAQRRRKGKEDEGEEAASPMLQIQRDAATIMQPYFTSNGLVTKALEHAFQLEHIMDLTRLRCLGSLFSMLHQACRNVAQYNANHPDFPMQIEQLERYIQRYLVYAILWSLSGDSRLKMRAELGEYIRRITTVPLPTAPNIPIIDYEVSISGEWSPWQAKVPQIEVETHKVAAPDVVVPTLDTVRHEALLYTWLAEHKPLVLCGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRRTPNGVVLAPVQLGKWLVLFCDEINLPDMDKYGTQRVISFIRQMVEHGGFYRTSDQTWVKLERIQFVGACNPPTDPGRKPLSHRFLRHVPVVYVDYPGPASLTQIYGTFNRAMLRLIPSLRTYAEPLTAAMVEFYTMSQERFTQDTQPHYIYSPREMTRWVRGIFEALRPLETLPVEGLIRIWAHEALRLFQDRLVEDEERRWTDENIDTVALKHFPNIDREKAMSRPILYSNWLSKDYIPVDQEELRDYVKARLKVFYEEELDVPLVLFNEVLDHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSRFVAWMNGLSVYQIKVHRKYTGEDFDEDLRTVLRRSGCKNEKIAFIMDESNVLDSGFLERMNTLLANGEVPGLFEGDEYATLMTQCKEGAQKEGLMLDSHEELYKWFTSQVIRNLHVVFTMNPSSEGLKDRAATSPALFNRCVLNWFGDWSTEALYQVGKEFTSKMDLEKPNYIVPDYMPVVYDKLPQPPSHREAIVNSCVFVHQTLHQANARLAKRGGRTMAITPRHYLDFINHYANLFHEKRSELEEQQMHLNVGLRKIKETVDQVEELRRDLRIKSQELEVKNAAANDKLKKMVKDQQEAEKKKVMSQEIQEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESICLLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLACGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKANEVEQMIRDLEASIARYKEEYAVLISEAQAIKADLAAVEAKVNRSTALLKSLSAERERWEKTSETFKNQMSTIAGDCLLSAAFIAYAGYFDQQMRQNLFTTWSHHLQQANIQFRTDIARTEYLSNADERLRWQASSLPADDLCTENAIMLKRFNRYPLIIDPSGQATEFIMNEYKDRKITRTSFLDDAFRKNLESALRFGNPLLVQDVESYDPVLNPVLNREVRRTGGRVLITLGDQDIDLSPSFVIFLSTRDPTVEFPPDLCSRVTFVNFTVTRSSLQSQCLNEVLKAERPDVDEKRSDLLKLQGEFQLRLRQLEKSLLQALNEVKGRILDDDTIITTLENLKREAAEVTRKVEETDIVMQEVETVSQQYLPLSTACSSIYFTMESLKQIHFLYQYSLQFFLDIYHNVLYENPNLKGVTDHTQRLSIITKDLFQVAFNRVARGMLHQDHITFAMLLARIKLKGTVGEPTYDAEFQHFLRGNEIVLSAGSTPRIQGLTVEQAEAVVRLSCLPAFKDLIAKVQADEQFGIWLDSSSPEQTVPYLWSEETPATPIGQAIHRLLLIQAFRPDRLLAMAHMFVSTNLGESFMSIMEQPLDLTHIVGTEVKPNTPVLMCSVPGYDASGHVEDLAAEQNTQITSIAIGSAEGFNQADKAINTAVKSGRWVMLKNVHLAPGWLMQLEKKLHSLQPHACFRLFLTMEINPKVPVNLLRAGRIFVFEPPPGVKANMLRTFSSIPVSRICKSPNERARLYFLLAWFHAIIQERLRYAPLGWSKKYEFGESDLRSACDTVDTWLDDTAKGRQNISPDKIPWSALKTLMAQSIYGGRVDNEFDQRLLNTFLERLFTTRSFDSEFKLACKVDGHKDIQMPDGIRREEFVQWVELLPDTQTPSWLGLPNNAERVLLTTQGVDMISKMLKMQMLEDEDAWMRTLHTTASNWLHLIPQTLSHLKRTVENIKDPLFRFFEREVKMGAKLLQDVRQDLADVVQVCEGKKKQTNYLRTLINELVKGILPRSWSHYTVPAGMTVIQWVSDFSERIKQLQNISLAAASGGAKELKNIHVCLGGLFVPEAYITATRQYVAQANSWSLEELCLEVNVTTSQGATLDACSFGVTGLKLQGATCNNNKLSLSNAISTALPLTQLRWVKQTNTEKKASVVTLPVYLNFTRADLIFTVDFEIATKEDPRSFYERGVAVLCTE AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDVGDEGEEEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESGKADRDGDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVLRPQVFDAADANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIESTRVRGRTGNVLKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLGQAEDKAEVDMDTDAPQVSHKPGGEPKIKNVVHELRITNQVIYLNPPIEECRYKLYQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKVWLQYQCLWDMQAENIYNRLGEDLNKWQALLVQIRKARGTFDNAETKKEFGPVVIDYGKVQSKVNLKYDSWHKEVLSKFGQMLGSNMTEFHSQISKSRQELEQHSVDTASTSDAVTFITYVQSLKRKIKQFEKQVELYRNGQRLLEKQRFQFPPSWLYIDNIEGEWGAFNDIMRRKDSAIQQQVANLQMKIVQEDRAVESRTTDLLTDWEKTKPVTGNLRPEEALQALTIYEGKFGRLKDDREKCAKAKEALELTDTGLLSGSEERVQVALEELQDLKGVWSELSKVWEQIDQMKEQPWVSVQPRKLRQNLDALLNQLKSFPARLRQYASYEFVQRLLKGYMKINMLVIELKSEALKDRHWKQLMKRLHVNWVVSELTLGQIWDVDLQKNEAIVKDVLLVAQGEMALEEFLKQIREVWNTYELDLVNYQNKCRLIRGWDDLFNKVKEHINSVSAMKLSPYYKVFEEDALSWEDKLNRIMALFDVWIDVQRRWVYLEGIFTGSADIKHLLPVETQEFQSISTEFLALMKKVSKSPLVMDVLNIQGVQRSLERLADLLGEIQKALGEYLERERSSFPRFYFVGDEDLLEIIGNSKNVAKLQKHFKKMFAGVSSIILNEDNSVVLGISSREGEEVMFKTPVSITEHPKINEWLTLVEKEMRVTLAKLLAESVTEVEIFGKATSIDPNTYITWIDKYQAQLVVLSAQIAWSENVETALSSMGGGGDAAPLHSVLSNVEVTLNVLADSVLMEQPPLRRRKLEHLITELVHQRDVTRSLIKSKIDNAKSFEWLSQMRFYFDPKQTDVLQQLSIQMANAKFNYGFEYLGVQDKLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGHQLGRFVLVFNCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQVQCIQEALREHSNPNYDKTSAPITCELLNKQVKVSPDMAIFITMNPGSNLPDNLKKLFRSLAMTKPDRQLIAQVMLYSQGFRTAEVLANKIVPFFKLCDEQLSSQSHYDFGLRALKSVLVSAGNVKRERIQKIKREKEERGEAVDEGEIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLSDVFPGVQYHRGEMTALREELKKVCQEMYLTYGDGEEVGGMWVEKVLQLYQITQINHGLMMVGPSGSGKSMAWRVLLKALERLEGVEGVAHIIDPKAISKDHLYGTLDPNTREWTDGLFTHVLRKIIDSVRGELQKRQWIVFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLATVSRCGMVWFSEDVLSTDMIFNNFLARLRSIPLDEGEDEAQRRRKGKEDEGEEAASPMLQIQRDAATIMQPYFTSNGLVTKALEHAFQLEHIMDLTRLRCLGSLFSMLHQACRNVAQYNANHPDFPMQIEQLERYIQRYLVYAILWSLSGDSRLKMRAELGEYIRRITTVPLPTAPNIPIIDYEVSISGEWSPWQAKVPQIEVETHKVAAPDVVVPTLDTVRHEALLYTWLAEHKPLVLCGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRRTPNGVVLAPVQLGKWLVLFCDEINLPDMDKYGTQRVISFIRQMVEHGGFYRTSDQTWVKLERIQFVGACNPPTDPGRKPLSHRFLRHVPVVYVDYPGPASLTQIYGTFNRAMLRLIPSLRTYAEPLTAAMVEFYTMSQERFTQDTQPHYIYSPREMTRWVRGIFEALRPLETLPVEGLIRIWAHEALRLFQDRLVEDEERRWTDENIDTVALKHFPNIDREKAMSRPILYSNWLSKDYIPVDQEELRDYVKARLKVFYEEELDVPLVLFNEVLDHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSRFVAWMNGLSVYQIKVHRKYTGEDFDEDLRTVLRRSGCKNEKIAFIMDESNVLDSGFLERMNTLLANGEVPGLFEGDEYATLMTQCKEGAQKEGLMLDSHEELYKWFTSQVIRNLHVVFTMNPSSEGLKDRAATSPALFNRCVLNWFGDWSTEALYQVGKEFTSKMDLEKPNYIVPDYMPVVYDKLPQPPSHREAIVNSCVFVHQTLHQANARLAKRGGRTMAITPRHYLDFINHYANLFHEKRSELEEQQMHLNVGLRKIKETVDQVEELRRDLRIKSQELEVKNAAANDKLKKMVKDQQEAEKKKVMSQEIQEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESICLLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLACGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKANEVEQMIRDLEASIARYKEEYAVLISEAQAIKADLAAVEAKVNRSTALLKSLSAERERWEKTSETFKNQMSTIAGDCLLSAAFIAYAGYFDQQMRQNLFTTWSHHLQQANIQFRTDIARTEYLSNADERLRWQASSLPADDLCTENAIMLKRFNRYPLIIDPSGQATEFIMNEYKDRKITRTSFLDDAFRKNLESALRFGNPLLVQDVESYDPVLNPVLNREVRRTGGRVLITLGDQDIDLSPSFVIFLSTRDPTVEFPPDLCSRVTFVNFTVTRSSLQSQCLNEVLKAERPDVDEKRSDLLKLQGEFQLRLRQLEKSLLQALNEVKGRILDDDTIITTLENLKREAAEVTRKVEETDIVMQEVETVSQQYLPLSTACSSIYFTMESLKQIHFLYQYSLQFFLDIYHNVLYENPNLKGVTDHTQRLSIITKDLFQVAFNRVARGMLHQDHITFAMLLARIKLKGTVGEPTYDAEFQHFLRGNEIVLSAGSTPRIQGLTVEQAEAVVRLSCLPAFKDLIAKVQADEQFGIWLDSSSPEQTVPYLWSEETPATPIGQAIHRLLLIQAFRPDRLLAMAHMFVSTNLGESFMSIMEQPLDLTHIVGTEVKPNTPVLMCSVPGYDASGHVEDLAAEQNTQITSIAIGSAEGFNQADKAINTAVKSGRWVMLKNVHLAPGWLMQLEKKLHSLQPHACFRLFLTMEINPKVPVNLLRAGRIFVFEPPPGVKANMLRTFSSIPVSRICKSPNERARLYFLLAWFHAIIQERLRYAPLGWSKKYEFGESDLRSACDTVDTWLDDTAKGRQNISPDKIPWSALKTLMAQSIYGGRVDNEFDQRLLNTFLERLFTTRSFDSEFKLACKVDGHKDIQMPDGIRREEFVQWVELLPDTQTPSWLGLPNNAERVLLTTQGVDMISKMLKMQMLEDEDAWMRTLHTTASNWLHLIPQTLSHLKRTVENIKDPLFRFFEREVKMGAKLLQDVRQDLADVVQVCEGKKKQTNYLRTLINELVKGILPRSWSHYTVPAGMTVIQWVSDFSERIKQLQNISLAAASGGAKELKNIHVCLGGLFVPEAYITATRQYVAQANSWSLEELCLEVNVTTSQGATLDACSFGVTGLKLQGATCNNNKLSLSNAISTALPLTQLRWVKQTNTEKKASVVTLPVYLNFTRADLIFTVDFEIATKEDPRSFYERGVAVLCTE 7z8f-a1-m1-cm_7z8f-a1-m1-cn Composite structure of dynein-dynactin-BICDR on microtubules Q14204 Q14204 20.0 ELECTRON MICROSCOPY 129 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 4562 4566 6f1t-a1-m1-cm_6f1t-a1-m1-cn 6f38-a1-m1-cm_6f38-a1-m1-cn AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDVGDEGEEEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESGKADRDGDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVLRDAADANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLGQAEDKAEVDMDTDAPQVSHKPGGEPKIKNVVHELRITNQVIYLNPPIEECRYKLYQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKVWLQYQCLWDMQAENIYNRLGEDLNKWQALLVQIRKARGTFDNAETKKEFGPVVIDYGKVQSKVNLKYDSWHKEVLSKFGQMLGSNMTEFHSQISKSRQELEQHSVDTASTSDAVTFITYVQSLKRKIKQFEKQVELYRNGQRLLEKQRFQFPPSWLYIDNIEGEWGAFNDIMRRKDSAIQQQVANLQMKIVQEDRAVESRTTDLLTDWEKTKPVTGNLRPEEALQALTIYEGKFGRLKDDREKCAKAKEALELTDTGLLSGSEERVQVALEELQDLKGVWSELSKVWEQIDQMKEQPWVSVQPRKLRQNLDALLNQLKSFPARLRQYASYEFVQRLLKGYMKINMLVIELKSEALKDRHWKQLMKRLHVNWVVSELTLGQIWDVDLQKNEAIVKDVLLVAQGEMALEEFLKQIREVWNTYELDLVNYQNKCRLIRGWDDLFNKVKEHINSVSAMKLSPYYKVFEEDALSWEDKLNRIMALFDVWIDVQRRWVYLEGIFTGSADIKHLLPVETQEFQSISTEFLALMKKVSKSPLVMDVLNIQGVQRSLERLADLLGEIQKALGEYLERERSSFPRFYFVGDEDLLEIIGNSKNVAKLQKHFKKMFAGVSSIILNEDNSVVLGISSREGEEVMFKTPVSITEHPKINEWLTLVEKEMRVTLAKLLAESVTEVEIFGKATSIDPNTYITWIDKYQAQLVVLSAQIAWSENVETALSSMGGGGDAAPLHSVLSNVEVTLNVLADSVLMEQPPLRRRKLEHLITELVHQRDVTRSLIKSKIDNAKSFEWLSQMRFYFDPKQTDVLQQLSIQMANAKFNYGFEYLGVQDKLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGHQLGRFVLVFNCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQVQCIQEALREHSNPNYDKTSAPITCELLNKQVKVSPDMAIFITMNPGSNLPDNLKKLFRSLAMTKPDRQLIAQVMLYSQGFRTAEVLANKIVPFFKLCDEQLSSQSHYDFGLRALKSVLVSAGNVKRERIQKIKREKEERGEAVDEGEIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLSDVFPGVQYHRGEMTALREELKKVCQEMYLTYGDGEEVGGMWVEKVLQLYQITQINHGLMMVGPSGSGKSMAWRVLLKALERLEGVEGVAHIIDPKAISKDHLYGTLDPNTREWTDGLFTHVLRKIIDSVRGELQKRQWIVFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLATVSRCGMVWFSEDVLSTDMIFNNFLARLRSIPLDEGEDEAQRRRKGKEDEGEEAASPMLQIQRDAATIMQPYFTSNGLVTKALEHAFQLEHIMDLTRLRCLGSLFSMLHQACRNVAQYNANHPDFPMQIEQLERYIQRYLVYAILWSLSGDSRLKMRAELGEYIRRITTVPLPTAPNIPIIDYEVSISGEWSPWQAKVPQIEVETHKVAAPDVVVPTLDTVRHEALLYTWLAEHKPLVLCGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRRTPNGVVLAPVQLGKWLVLFCDEINLPDMDKYGTQRVISFIRQMVEHGGFYRTSDQTWVKLERIQFVGACNPPTDPGRKPLSHRFLRHVPVVYVDYPGPASLTQIYGTFNRAMLRLIPSLRTYAEPLTAAMVEFYTMSQERFTQDTQPHYIYSPREMTRWVRGIFEALRPLETLPVEGLIRIWAHEALRLFQDRLVEDEERRWTDENIDTVALKHFPNIDREKAMSRPILYSNWLSKDYIPVDQEELRDYVKARLKVFYEEELDVPLVLFNEVLDHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSRFVAWMNGLSVYQIKVHRKYTGEDFDEDLRTVLRRSGCKNEKIAFIMDESNVLDSGFLERMNTLLANGEVPGLFEGDEYATLMTQCKEGAQKEGLMLDSHEELYKWFTSQVIRNLHVVFTMNPSSEGLKDRAATSPALFNRCVLNWFGDWSTEALYQVGKEFTSKMDLEKPNYIVPDYMPVVYDKLPQPPSHREAIVNSCVFVHQTLHQANARLAKRGGRTMAITPRHYLDFINHYANLFHEKRSELEEQQMHLNVGLRKIKETVDQVEELRRDLRIKSQELEVKNAAANDKLKKMVKDQQEAEKKKVMSQEIQEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESICLLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLACGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKANEVEQMIRDLEASIARYKEEYAVLISEAQAIKADLAAVEAKVNRSTALLKSLSAERERWEKTSETFKNQMSTIAGDCLLSAAFIAYAGYFDQQMRQNLFTTWSHHLQQANIQFRTDIARTEYLSNADERLRWQASSLPADDLCTENAIMLKRFNRYPLIIDPSGQATEFIMNEYKDRKITRTSFLDDAFRKNLESALRFGNPLLVQDVESYDPVLNPVLNREVRRTGGRVLITLGDQDIDLSPSFVIFLSTRDPTVEFPPDLCSRVTFVNFTVTRSSLQSQCLNEVLKAERPDVDEKRSDLLKLQGEFQLRLRQLEKSLLQALNEVKGRILDDDTIITTLENLKREAAEVTRKVEETDIVMQEVETVSQQYLPLSTACSSIYFTMESLKQIHFLYQYSLQFFLDIYHNVLYENPNLKGVTDHTQRLSIITKDLFQVAFNRVARGMLHQDHITFAMLLARIKLKGTVGEPTYDAEFQHFLRGNEIVLSAGSTPRIQGLTVEQAEAVVRLSCLPAFKDLIAKVQADEQFGIWLDSSSPEQTVPYLWSEETPATPIGQAIHRLLLIQAFRPDRLLAMAHMFVSTNLGESFMSIMEQPLDLTHIVGTEVKPNTPVLMCSVPGYDASGHVEDLAAEQNTQITSIAIGSAEGFNQADKAINTAVKSGRWVMLKNVHLAPGWLMQLEKKLHSLQPHACFRLFLTMEINPKVPVNLLRAGRIFVFEPPPGVKANMLRTFSSIPVSRICKSPNERARLYFLLAWFHAIIQERLRYAPLGWSKKYEFGESDLRSACDTVDTWLDDTAKGRQNISPDKIPWSALKTLMAQSIYGGRVDNEFDQRLLNTFLERLFTTRSFDSEFKLACKVDGHKDIQMPDGIRREEFVQWVELLPDTQTPSWLGLPNNAERVLLTTQGVDMISKMLKMQMLEDEDAWMRTLHTTASNWLHLIPQTLSHLKRTVENIKDPLFRFFEREVKMGAKLLQDVRQDLADVVQVCEGKKKQTNYLRTLINELVKGILPRSWSHYTVPAGMTVIQWVSDFSERIKQLQNISLAAASGGAKELKNIHVCLGGLFVPEAYITATRQYVAQANSWSLEELCLEVNVTTSQGATLDACSFGVTGLKLQGATCNNNKLSLSNAISTALPLTQLRWVKQTNTEKKASVVTLPVYLNFTRADLIFTVDFEIATKEDPRSFYERGVAVLCTE AVQNVADVSVLQKHLRKLVPLLLEDGGEAPAALEAALEEKSALEQMRKFLSDPQVHTVLVERSTLKEDVGDEGEEEKEFISYNINIDIHYGVKSNSLAFIKRTPVIDADKPVSSQLRVLTLSEDSPYETLHSFISNAVAPFFKSYIRESGKADRDGDKMAPSVEKKIAELEMGLLHLQQNIEIPEISLPIHPMITNVAKQCYERGEKPKVTDFGDKVEDPTFLNQLQSGVNRWIREIQKVTKLDRDPASGTALQEISFWLNLERALYRIQEKRESPEVLLTLDILKHGKRFHATVSFDTDTGLKQALETVNDYNPLMKDFPLNDLLSATELDKIRQALVAIFTHLRKIRNTKYPIQRALRLVEAISRDLSSQLLKVLGTRKLMHVAYEEFEKVMVACFEVFQTWDDEYEKLQVLLRDIVKRKREENLKMVWRINPAHRKLQARLDQMRKFRRQHEQLRAVIVRVLRPQVFDAADANAIEEVNLAYENVKEVDGLDVSKEGTEAWEAAMKRYDERIDRVETRITARLRDQLGTAKNANEMFRIFSRFNALFVRPHIRGAIREYQTQLIQRVKDDIESLHDKFKVQYPQSQACKMSHVRDLPPVSGSIIWAKQIDRQLTAYMKRVEDVLGKGWENHVEGQKLKQDGDSFRMKLNTQEIFDDWARKVQQRNLGVSGRIFTIKLKVNFLPEIITLSKEVRNLKWLGFRVPLAIVNKAHQANQLYPFAISLIESVRTYERTCEKVEERNTISLLVAGLKKEVQALIAEGIALVWESYKLDPYVQRLAETVFNFQEKVDDLLIIEEKIDLEVRSLETCMYDHKTFSEILNRVQKAVDDLNLHSYSNLPIWVNKLDMEIERILGVRLQAGLRAWTQVLLGQAEDKAEVDMDTDAPQVSHKPGGEPKIKNVVHELRITNQVIYLNPPIEECRYKLYQEMFAWKMVVLSLPRIQSQRYQVGVHYELTEEEKFYRNALTRMPDGPVALEESYSAVMGIVSEVEQYVKVWLQYQCLWDMQAENIYNRLGEDLNKWQALLVQIRKARGTFDNAETKKEFGPVVIDYGKVQSKVNLKYDSWHKEVLSKFGQMLGSNMTEFHSQISKSRQELEQHSVDTASTSDAVTFITYVQSLKRKIKQFEKQVELYRNGQRLLEKQRFQFPPSWLYIDNIEGEWGAFNDIMRRKDSAIQQQVANLQMKIVQEDRAVESRTTDLLTDWEKTKPVTGNLRPEEALQALTIYEGKFGRLKDDREKCAKAKEALELTDTGLLSGSEERVQVALEELQDLKGVWSELSKVWEQIDQMKEQPWVSVQPRKLRQNLDALLNQLKSFPARLRQYASYEFVQRLLKGYMKINMLVIELKSEALKDRHWKQLMKRLHVNWVVSELTLGQIWDVDLQKNEAIVKDVLLVAQGEMALEEFLKQIREVWNTYELDLVNYQNKCRLIRGWDDLFNKVKEHINSVSAMKLSPYYKVFEEDALSWEDKLNRIMALFDVWIDVQRRWVYLEGIFTGSADIKHLLPVETQEFQSISTEFLALMKKVSKSPLVMDVLNIQGVQRSLERLADLLGEIQKALGEYLERERSSFPRFYFVGDEDLLEIIGNSKNVAKLQKHFKKMFAGVSSIILNEDNSVVLGISSREGEEVMFKTPVSITEHPKINEWLTLVEKEMRVTLAKLLAESVTEVEIFGKATSIDPNTYITWIDKYQAQLVVLSAQIAWSENVETALSSMGGGGDAAPLHSVLSNVEVTLNVLADSVLMEQPPLRRRKLEHLITELVHQRDVTRSLIKSKIDNAKSFEWLSQMRFYFDPKQTDVLQQLSIQMANAKFNYGFEYLGVQDKLVQTPLTDRCYLTMTQALEARLGGSPFGPAGTGKTESVKALGHQLGRFVLVFNCDETFDFQAMGRIFVGLCQVGAWGCFDEFNRLEERMLSAVSQQVQCIQEALREHSNPNYDKTSAPITCELLNKQVKVSPDMAIFITMNPGSNLPDNLKKLFRSLAMTKPDRQLIAQVMLYSQGFRTAEVLANKIVPFFKLCDEQLSSQSHYDFGLRALKSVLVSAGNVKRERIQKIKREKEERGEAVDEGEIAENLPEQEILIQSVCETMVPKLVAEDIPLLFSLLSDVFPGVQYHRGEMTALREELKKVCQEMYLTYGDGEEVGGMWVEKVLQLYQITQINHGLMMVGPSGSGKSMAWRVLLKALERLEGVEGVAHIIDPKAISKDHLYGTLDPNTREWTDGLFTHVLRKIIDSVRGELQKRQWIVFDGDVDPEWVENLNSVLDDNKLLTLPNGERLSLPPNVRIMFEVQDLKYATLATVSRCGMVWFSEDVLSTDMIFNNFLARLRSIPLDEGEDEAQRRRKGKEDEGEEAASPMLQIQRDAATIMQPYFTSNGLVTKALEHAFQLEHIMDLTRLRCLGSLFSMLHQACRNVAQYNANHPDFPMQIEQLERYIQRYLVYAILWSLSGDSRLKMRAELGEYIRRITTVPLPTAPNIPIIDYEVSISGEWSPWQAKVPQIEVETHKVAAPDVVVPTLDTVRHEALLYTWLAEHKPLVLCGPPGSGKTMTLFSALRALPDMEVVGLNFSSATTPELLLKTFDHYCEYRRTPNGVVLAPVQLGKWLVLFCDEINLPDMDKYGTQRVISFIRQMVEHGGFYRTSDQTWVKLERIQFVGACNPPTDPGRKPLSHRFLRHVPVVYVDYPGPASLTQIYGTFNRAMLRLIPSLRTYAEPLTAAMVEFYTMSQERFTQDTQPHYIYSPREMTRWVRGIFEALRPLETLPVEGLIRIWAHEALRLFQDRLVEDEERRWTDENIDTVALKHFPNIDREKAMSRPILYSNWLSKDYIPVDQEELRDYVKARLKVFYEEELDVPLVLFNEVLDHVLRIDRIFRQPQGHLLLIGVSGAGKTTLSRFVAWMNGLSVYQIKVHRKYTGEDFDEDLRTVLRRSGCKNEKIAFIMDESNVLDSGFLERMNTLLANGEVPGLFEGDEYATLMTQCKEGAQKEGLMLDSHEELYKWFTSQVIRNLHVVFTMNPSSEGLKDRAATSPALFNRCVLNWFGDWSTEALYQVGKEFTSKMDLEKPNYIVPDYMPVVYDKLPQPPSHREAIVNSCVFVHQTLHQANARLAKRGGRTMAITPRHYLDFINHYANLFHEKRSELEEQQMHLNVGLRKIKETVDQVEELRRDLRIKSQELEVKNAAANDKLKKMVKDQQEAEKKKVMSQEIQEQLHKQQEVIADKQMSVKEDLDKVEPAVIEAQNAVKSIKKQHLVEVRSMANPPAAVKLALESICLLLGESTTDWKQIRSIIMRENFIPTIVNFSAEEISDAIREKMKKNYMSNPSYNYEIVNRASLACGPMVKWAIAQLNYADMLKRVEPLRNELQKLEDDAKDNQQKANEVEQMIRDLEASIARYKEEYAVLISEAQAIKADLAAVEAKVNRSTALLKSLSAERERWEKTSETFKNQMSTIAGDCLLSAAFIAYAGYFDQQMRQNLFTTWSHHLQQANIQFRTDIARTEYLSNADERLRWQASSLPADDLCTENAIMLKRFNRYPLIIDPSGQATEFIMNEYKDRKITRTSFLDDAFRKNLESALRFGNPLLVQDVESYDPVLNPVLNREVRRTGGRVLITLGDQDIDLSPSFVIFLSTRDPTVEFPPDLCSRVTFVNFTVTRSSLQSQCLNEVLKAERPDVDEKRSDLLKLQGEFQLRLRQLEKSLLQALNEVKGRILDDDTIITTLENLKREAAEVTRKVEETDIVMQEVETVSQQYLPLSTACSSIYFTMESLKQIHFLYQYSLQFFLDIYHNVLYENPNLKGVTDHTQRLSIITKDLFQVAFNRVARGMLHQDHITFAMLLARIKLKGTVGEPTYDAEFQHFLRGNEIVLSAGSTPRIQGLTVEQAEAVVRLSCLPAFKDLIAKVQADEQFGIWLDSSSPEQTVPYLWSEETPATPIGQAIHRLLLIQAFRPDRLLAMAHMFVSTNLGESFMSIMEQPLDLTHIVGTEVKPNTPVLMCSVPGYDASGHVEDLAAEQNTQITSIAIGSAEGFNQADKAINTAVKSGRWVMLKNVHLAPGWLMQLEKKLHSLQPHACFRLFLTMEINPKVPVNLLRAGRIFVFEPPPGVKANMLRTFSSIPVSRICKSPNERARLYFLLAWFHAIIQERLRYAPLGWSKKYEFGESDLRSACDTVDTWLDDTAKGRQNISPDKIPWSALKTLMAQSIYGGRVDNEFDQRLLNTFLERLFTTRSFDSEFKLACKVDGHKDIQMPDGIRREEFVQWVELLPDTQTPSWLGLPNNAERVLLTTQGVDMISKMLKMQMLEDEDAWMRTLHTTASNWLHLIPQTLSHLKRTVENIKDPLFRFFEREVKMGAKLLQDVRQDLADVVQVCEGKKKQTNYLRTLINELVKGILPRSWSHYTVPAGMTVIQWVSDFSERIKQLQNISLAAASGGAKELKNIHVCLGGLFVPEAYITATRQYVAQANSWSLEELCLEVNVTTSQGATLDACSFGVTGLKLQGATCNNNKLSLSNAISTALPLTQLRWVKQTNTEKKASVVTLPVYLNFTRADLIFTVDFEIATKEDPRSFYERGVAVLCTE 7z8f-a1-m1-cs_7z8f-a1-m1-ct Composite structure of dynein-dynactin-BICDR on microtubules Q9NP97 Q9NP97 20.0 ELECTRON MICROSCOPY 52 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 93 93 1z09-a1-m1-cA_1z09-a1-m1-cB 2b95-a1-m1-cA_2b95-a1-m1-cB 6f1t-a1-m1-ck_6f1t-a1-m1-cl 6f1t-a1-m1-cs_6f1t-a1-m1-ct 6f1z-a1-m1-cs_6f1z-a1-m1-ct 6f38-a1-m1-cs_6f38-a1-m1-ct 6f3a-a1-m1-ck_6f3a-a1-m1-cl 6rlb-a1-m1-cG_6rlb-a1-m1-cH 6sc2-a1-m1-cG_6sc2-a1-m1-cH 7z8f-a1-m1-ck_7z8f-a1-m1-cl EVEETLKRLQSQKGVQGIIVVNTEGIPIKSTMDNPTTTQYASLMHSFILKARSTVRDIDPQNDLTFLRIRSKKNEIMVAPDKDYFLIVIQNPT EVEETLKRLQSQKGVQGIIVVNTEGIPIKSTMDNPTTTQYASLMHSFILKARSTVRDIDPQNDLTFLRIRSKKNEIMVAPDKDYFLIVIQNPT 7z8n-a1-m1-cA_7z8n-a1-m1-cD GacS histidine kinase from Pseudomonas aeruginosa G3XD98 G3XD98 2.64 X-RAY DIFFRACTION 145 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 286 286 7z8n-a1-m1-cB_7z8n-a1-m1-cC SNELDELASGINRAETLQSAQEEQHNIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANSHEIRTPLNGILGFTNLLQKSELSPRQQDYLTTIQKSAESLLGIINEILDFSKIEAGKLVLENLPFNLRDLIQDALTLAPAAHEKQLELVSLVYRDTPIQLQGDPQRLKQILTNLVGNAIKFTQGGTVAVRALEDESDDRAQLRISVQDTGIGLSEEDQQALFKAFSQADNSLSRQAGGTGLGLVISKRLIEQGGEIGVDSTPGEGAEFWISLSLPKS SNELDELASGINRAETLQSAQEEQHNIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANSHEIRTPLNGILGFTNLLQKSELSPRQQDYLTTIQKSAESLLGIINEILDFSKIEAGKLVLENLPFNLRDLIQDALTLAPAAHEKQLELVSLVYRDTPIQLQGDPQRLKQILTNLVGNAIKFTQGGTVAVRALEDESDDRAQLRISVQDTGIGLSEEDQQALFKAFSQADNSLSRQAGGTGLGLVISKRLIEQGGEIGVDSTPGEGAEFWISLSLPKS 7z8n-a1-m1-cB_7z8n-a1-m1-cD GacS histidine kinase from Pseudomonas aeruginosa G3XD98 G3XD98 2.64 X-RAY DIFFRACTION 24 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 286 286 7z8n-a1-m1-cA_7z8n-a1-m1-cC SNELDELASGINRAETLQSAQEEQHNIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANSHEIRTPLNGILGFTNLLQKSELSPRQQDYLTTIQKSAESLLGIINEILDFSKIEAGKLVLENLPFNLRDLIQDALTLAPAAHEKQLELVSLVYRDTPIQLQGDPQRLKQILTNLVGNAIKFTQGGTVAVRALEDESDDRAQLRISVQDTGIGLSEEDQQALFKAFSQADNSLSRQAGGTGLGLVISKRLIEQGGEIGVDSTPGEGAEFWISLSLPKS SNELDELASGINRAETLQSAQEEQHNIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANSHEIRTPLNGILGFTNLLQKSELSPRQQDYLTTIQKSAESLLGIINEILDFSKIEAGKLVLENLPFNLRDLIQDALTLAPAAHEKQLELVSLVYRDTPIQLQGDPQRLKQILTNLVGNAIKFTQGGTVAVRALEDESDDRAQLRISVQDTGIGLSEEDQQALFKAFSQADNSLSRQAGGTGLGLVISKRLIEQGGEIGVDSTPGEGAEFWISLSLPKS 7z8n-a1-m1-cC_7z8n-a1-m1-cD GacS histidine kinase from Pseudomonas aeruginosa G3XD98 G3XD98 2.64 X-RAY DIFFRACTION 27 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 286 286 7z8n-a1-m1-cA_7z8n-a1-m1-cB SNELDELASGINRAETLQSAQEEQHNIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANSHEIRTPLNGILGFTNLLQKSELSPRQQDYLTTIQKSAESLLGIINEILDFSKIEAGKLVLENLPFNLRDLIQDALTLAPAAHEKQLELVSLVYRDTPIQLQGDPQRLKQILTNLVGNAIKFTQGGTVAVRALEDESDDRAQLRISVQDTGIGLSEEDQQALFKAFSQADNSLSRQAGGTGLGLVISKRLIEQGGEIGVDSTPGEGAEFWISLSLPKS SNELDELASGINRAETLQSAQEEQHNIDQATEDVRQNLETIEIQNIELDLARKEALEASRIKSEFLANSHEIRTPLNGILGFTNLLQKSELSPRQQDYLTTIQKSAESLLGIINEILDFSKIEAGKLVLENLPFNLRDLIQDALTLAPAAHEKQLELVSLVYRDTPIQLQGDPQRLKQILTNLVGNAIKFTQGGTVAVRALEDESDDRAQLRISVQDTGIGLSEEDQQALFKAFSQADNSLSRQAGGTGLGLVISKRLIEQGGEIGVDSTPGEGAEFWISLSLPKS 7z97-a1-m1-cA_7z97-a1-m2-cA Crystal structure of the F191M variant of Variovorax paradoxus indole monooxygenase (VpIndA1) in complex with 6-bromoindole E6V140 E6V140 1.46 X-RAY DIFFRACTION 89 1.0 595537 (Variovorax paradoxus EPS) 595537 (Variovorax paradoxus EPS) 411 411 7z4x-a1-m1-cA_7z4x-a1-m2-cA 7z94-a1-m1-cA_7z94-a1-m2-cA 7z98-a1-m1-cA_7z98-a1-m2-cA 7z99-a1-m1-cA_7z99-a1-m2-cA 7zca-a1-m1-cA_7zca-a1-m2-cA KRIAIVGAGQSGLQLGLGLLAAGYEVTMFSNRTGEDIRRGKVMSSQCMFDTSLQIERDLGLDHWASDCPTVDGIGLAVPHPEQKGAKVIDWAARLNASAQSVDQRLKIPAWMDEFQKKGGELVFKDAGIDELEACTQSHDLTLVASGKGEISKLFERDAHKSPYDKPQRALALTYVKGMAPREPFSAVCMNLIPGVGEYFVFPALTTTGPCEIMVFEGVPGGPMDCWADVKTPEEHLARSKWILDTFTPWEAERCKDIELTDDNGILAGRFAPTVRKPVATLPSGRKVLGLADVVVLNDPITGQGSNNAAKCADTYLKSILARGDGAADAAWMQQTFDRYWFGYAQWVTQWTNMLLAPPPPHVLNLLGSAGAVPPLASAFANGFDDPRTFFPWFADAAESERYIATCAAVA KRIAIVGAGQSGLQLGLGLLAAGYEVTMFSNRTGEDIRRGKVMSSQCMFDTSLQIERDLGLDHWASDCPTVDGIGLAVPHPEQKGAKVIDWAARLNASAQSVDQRLKIPAWMDEFQKKGGELVFKDAGIDELEACTQSHDLTLVASGKGEISKLFERDAHKSPYDKPQRALALTYVKGMAPREPFSAVCMNLIPGVGEYFVFPALTTTGPCEIMVFEGVPGGPMDCWADVKTPEEHLARSKWILDTFTPWEAERCKDIELTDDNGILAGRFAPTVRKPVATLPSGRKVLGLADVVVLNDPITGQGSNNAAKCADTYLKSILARGDGAADAAWMQQTFDRYWFGYAQWVTQWTNMLLAPPPPHVLNLLGSAGAVPPLASAFANGFDDPRTFFPWFADAAESERYIATCAAVA 7z9f-a2-m1-cA_7z9f-a2-m1-cX Human anionic trypsin after autoproteolysis at Arg122 P07478 P07478 1.7 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 IVGGYICEENSVPYQVSLNSGYHFCGGSLISEQWVVSAGHCYKSRIQVRLGEHNIEVLEGNEQFINAAKIIRHPKYNSRTLDNDILLIKLSSPAVINSR IVGGYICEENSVPYQVSLNSGYHFCGGSLISEQWVVSAGHCYKSRIQVRLGEHNIEVLEGNEQFINAAKIIRHPKYNSRTLDNDILLIKLSSPAVINSR 7za1-a1-m1-cF_7za1-a1-m1-cH GPC3-Unc5D octamer structure and role in cell migration F1LW30 F1LW30 4.1 X-RAY DIFFRACTION 18 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 251 251 7za1-a1-m1-cE_7za1-a1-m1-cG 7za2-a1-m1-cE_7za2-a1-m1-cG 7za2-a1-m1-cF_7za2-a1-m1-cH 7za3-a1-m1-cE_7za3-a1-m1-cG 7za3-a1-m1-cF_7za3-a1-m1-cH LPHFIEEPEDAYIIKSNPIALRCKARPAMQIFFKCNGEWVHQNEHVSEESLDESSGLKVREVFINVTRQQVEDFHGPEDYWCQCVAWSHLGTSKSRKASVRIAYLRKNFEQDPQGREVPIEGMIVLHCRPPEGVPAAEVEWLKNEEPIDSEQDENIDTRADHNLIIRQARLSDSGNYTCMAANIVAKRRSLSATVVVYVNGGWSSWTEWSACNVRCGRGWQKRSRTCTNPAPLNGGAFCEGMSVQKITCTA LPHFIEEPEDAYIIKSNPIALRCKARPAMQIFFKCNGEWVHQNEHVSEESLDESSGLKVREVFINVTRQQVEDFHGPEDYWCQCVAWSHLGTSKSRKASVRIAYLRKNFEQDPQGREVPIEGMIVLHCRPPEGVPAAEVEWLKNEEPIDSEQDENIDTRADHNLIIRQARLSDSGNYTCMAANIVAKRRSLSATVVVYVNGGWSSWTEWSACNVRCGRGWQKRSRTCTNPAPLNGGAFCEGMSVQKITCTA 7za2-a1-m1-cE_7za2-a1-m1-cH GPC3-Unc5D octamer structure and role in cell migration F1LW30 F1LW30 4.6 X-RAY DIFFRACTION 11 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 251 251 7za2-a1-m1-cF_7za2-a1-m1-cG LPHFIEEPEDAYIIKSNPIALRCKARPAMQIFFKCNGEWVHQNEHVSEESLDESSGLKVREVFINVTRQQVEDFHGPEDYWCQCVAWSHLGTSKSRKASVRIAYLRKNFEQDPQGREVPIEGMIVLHCRPPEGVPAAEVEWLKNEEPIDSEQDENIDTRADHNLIIRQARLSDSGNYTCMAANIVAKRRSLSATVVVYVNGGWSSWTEWSACNVRCGRGWQKRSRTCTNPAPLNGGAFCEGMSVQKITCTA LPHFIEEPEDAYIIKSNPIALRCKARPAMQIFFKCNGEWVHQNEHVSEESLDESSGLKVREVFINVTRQQVEDFHGPEDYWCQCVAWSHLGTSKSRKASVRIAYLRKNFEQDPQGREVPIEGMIVLHCRPPEGVPAAEVEWLKNEEPIDSEQDENIDTRADHNLIIRQARLSDSGNYTCMAANIVAKRRSLSATVVVYVNGGWSSWTEWSACNVRCGRGWQKRSRTCTNPAPLNGGAFCEGMSVQKITCTA 7za4-a1-m1-cC_7za4-a1-m1-cA GSTF sh155 mutant Q9ZS17 Q9ZS17 2.05 X-RAY DIFFRACTION 12 1.0 81473 (Alopecurus myosuroides) 81473 (Alopecurus myosuroides) 200 219 MAPVKVFGPAMSTNVARVTLCLEEVGAEYEVVDIDFKQIPAFQDGDLLLFESRAIAKYVLRKYKTDEVDLLREGNLKEAAMVDVWTEVDAHTYNPALSPIVYECLINPLMRGLPTNQTVVDESLEKLKKVLEVYEARLSQHKYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVP MAPVKVFGPAMSTNVARVTLCLEEVGAEYEVVDIDFKAMEHKSPEHLVRNPFGQIPAFQDGDLLLFESRAIAKYVLRKYKTDEVDLLREGNLKEAAMVDVWTEVDAHTYNPALSPIVYECLINPLMRGLPTNQTVVDESLEKLKKVLEVYEARLSQHKYLAGDFVSFADLNHFPYTFYFMATPHAALFDSYPHVKAWWDRLMARPAVKKIAATMVPPKA 7zal-a2-m1-cBBB_7zal-a2-m1-cCCC FNIP family proteins from Cafeteria roenbergensis virus (CroV): leucine-rich repeats with novel structural features E3T5W0 E3T5W0 2.732 X-RAY DIFFRACTION 112 1.0 1513235 (Cafeteria roenbergensis virus) 1513235 (Cafeteria roenbergensis virus) 292 292 7zal-a1-m1-cAAA_7zal-a1-m2-cEEE 7zal-a3-m1-cDDD_7zal-a3-m1-cFFF GSMTLVIKTNEDLNKLNDNIHTLTIGANFNQPIEHIKWPKLLTTLTFEWYFDQPIENVKLPDSLTTLTFGYSFNQPIEKVKWPKTLAFLTFGYKFNKPIEKVKWPDSLTTLIFEENSLFDQSIEKIKWSNSLTTLIFGWNFNQPIENVEWPESLTTLVFNEDSIFNQPIENVKWPKLLKTIIFGCHFNHPIENVKWPGSLTTLIFGDDFNQPFENVILPKSLTNLTFGPNFNQPLNFLPESLKNITITTNYQQNLYNLPSSLNCIKIISYKRTYEHIVNVLPEHLKKKVIKI GSMTLVIKTNEDLNKLNDNIHTLTIGANFNQPIEHIKWPKLLTTLTFEWYFDQPIENVKLPDSLTTLTFGYSFNQPIEKVKWPKTLAFLTFGYKFNKPIEKVKWPDSLTTLIFEENSLFDQSIEKIKWSNSLTTLIFGWNFNQPIENVEWPESLTTLVFNEDSIFNQPIENVKWPKLLKTIIFGCHFNHPIENVKWPGSLTTLIFGDDFNQPFENVILPKSLTNLTFGPNFNQPLNFLPESLKNITITTNYQQNLYNLPSSLNCIKIISYKRTYEHIVNVLPEHLKKKVIKI 7zan-a1-m1-cC_7zan-a1-m2-cC Crystal Structure of human IL-17A in complex with IL-17RA and IL-17RC Q96F46 Q96F46 5.061 X-RAY DIFFRACTION 50 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 274 274 7uwm-a1-m1-cF_7uwm-a1-m1-cC 7uwn-a1-m1-cF_7uwn-a1-m1-cC LRLLDHRALVCSQPGLDCTVKNSTCLDDSWIHPRNLTPSSPKDLQIQLHFAHTQQGDLFPVAHIEWTLQTDASILYLEGAELSVLQLNTNERLCVRFEFLSKLRHHHRRWRFTFSHFVVDPDQEYEVTVHHLPKPIPDGDPNHQSKNFLVPDCEHARMKVTTPCMSSGSLWDPDITVETLEAHQLRVSFTLWNESTHYQILLTSFPHMENHSCFEHMHHIPAPRPEEFHQRSDVTLTLRNLKGCCRHQVQIQPFFSSCLNDCLRHSATVSCPEM LRLLDHRALVCSQPGLDCTVKNSTCLDDSWIHPRNLTPSSPKDLQIQLHFAHTQQGDLFPVAHIEWTLQTDASILYLEGAELSVLQLNTNERLCVRFEFLSKLRHHHRRWRFTFSHFVVDPDQEYEVTVHHLPKPIPDGDPNHQSKNFLVPDCEHARMKVTTPCMSSGSLWDPDITVETLEAHQLRVSFTLWNESTHYQILLTSFPHMENHSCFEHMHHIPAPRPEEFHQRSDVTLTLRNLKGCCRHQVQIQPFFSSCLNDCLRHSATVSCPEM 7zas-a2-m1-cB_7zas-a2-m2-cC Crystal structure of cleaved Iripin-4 serpin from tick Ixodes ricinus A0A0K8RJV9 A0A0K8RJV9 2 X-RAY DIFFRACTION 73 1.0 34613 (Ixodes ricinus) 34613 (Ixodes ricinus) 341 341 7zas-a1-m1-cA_7zas-a1-m1-cD LHEDRLTLANNRFAISLLHNLPTSTETNIFFSPYSISVALGMAFAGARGETREDLFQGFGYPRSDIDDDAVLEAYASQTRRLKSLRSNSTLDAAIGAAIHERISLLSSFEDVLNNSFGADILKVDFINGGQAAVDVINGWVHRKTRGKINLLFGEPLETIIRLVLLNAIYFKGTWDTVFDQRLTTKKPFMNACSTPTEVDTMRGEVYVRHKSFPLLGVDIAEIPYRGMDYSMTILLPTRIDGAEVLKRNITEHLLQDLVKQLVEQQVTVYLPKFKLETEYLLKDHLKKLGINRIFGSGADFSGITHDANLAVSDVVHKTVLEVHEAGTEAAGATGVIIVAE LHEDRLTLANNRFAISLLHNLPTSTETNIFFSPYSISVALGMAFAGARGETREDLFQGFGYPRSDIDDDAVLEAYASQTRRLKSLRSNSTLDAAIGAAIHERISLLSSFEDVLNNSFGADILKVDFINGGQAAVDVINGWVHRKTRGKINLLFGEPLETIIRLVLLNAIYFKGTWDTVFDQRLTTKKPFMNACSTPTEVDTMRGEVYVRHKSFPLLGVDIAEIPYRGMDYSMTILLPTRIDGAEVLKRNITEHLLQDLVKQLVEQQVTVYLPKFKLETEYLLKDHLKKLGINRIFGSGADFSGITHDANLAVSDVVHKTVLEVHEAGTEAAGATGVIIVAE 7zb1-a3-m1-cG_7zb1-a3-m1-cC S580A with 18mer 2 X-RAY DIFFRACTION 14 1.0 72120 (Omphalotus olearius) 72120 (Omphalotus olearius) 2 721 7zb1-a1-m1-cE_7zb1-a1-m1-cA 7zb1-a2-m1-cF_7zb1-a2-m1-cB 7zb1-a4-m1-cH_7zb1-a4-m1-cD VS PGWGPYPPVERDETSAITYSSKLHGSVTVRDPYSQLEVPFEDSEETKAFVHSQRKFARTYLDENPDREAWLETLKKSWNYRRFSALKPESDGHYYFEYNDGLQSQLSLYRVRMGEEDTVLTESGPGGELFFNPNLLSLDGNAALTGFVMSPCGNYWAYGVSEHGSDWMSIYVRKTSSPHLPSQERGKDPGRMNDKIRHVRFFIVSWTSDSKGFFYSRYPPEKGNAPAMNCMVYYHRIGEDQESDVLVHEDPEHPFWISSVQLTPSGRYILFAASRDASHTQLVKIADLHENDIGTNMKWKNLHDPWEARFTIVGDEGSKIYFMTNLKAKNYKVATFDANHPDEGLTTLIAEDPNAFLVSASIHAQDKLLLVYLRNASHEIHIRDLTTGKPLGRIFEDLLGQFMVSGRRQDNDIFVLFSSFLSPGTVYRYTFGEEKGYRSLFRAISIPGLNLDDFMTESVFYPSKDGTSVHMFITRPKDVLLDGTSPVLQYGYGGFSLAMLPTFSLSTLLFCKIYRAIYAIPNIRGGSEYGESWHREGMLDKKQNVFDDFNAATEWLIANKYASKDRIAIRGGANGGVLTTACANQAPGLYRCVITIEGIIDMLRFPKFTFGASWRSEYGDPEDPEDFDFIFKYSPYHNIPPPGDTVMPAMLFFTAAYDDRVSPLHTFKHVAALQHNFPKGPNPCLMRIDLNSGHGKSTQEMLEETADEYSFIGKSMGLTMQ 7zb5-a1-m1-cE_7zb5-a1-m1-cH Mot1(1-1836):TBP:DNA - post-hydrolysis complex dimer G0S6C0 G0S6C0 2.8 ELECTRON MICROSCOPY 26 0.999 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 1447 1449 ATRLDRLVTILETGSTRLIRDTAVNQLADWQKQHPEELFNLLSRVVPYLRHKDWETRTTAAKAIGKIIENAPLYDPNAGRPLLREWPFERLCEFLKVDLFDPQWETRHGAAMGLREVIRVHGAGAGRRRGKTRKENNDLNRQWLDDLAYRLLCVLMLDKFTDYSSDTSVAPIRETVGQTLGAVLRHISVESVHAIYRLLYCMVGMVGLRYVVAVRKDLLLQDGDMIDGVVRCVMQGLGDIDDDVRSVSAATLIPMAKEFVMMRRSALDSLINIVWESLSNLGDDLSASTGKIMDLLATLCSFPEVLEAMKVSASQDEERSFTLLVPRLYPFLRHTITSVRLAVLKALMTFANLGGETSQGWLNGRILRLIFQNIIVERDQDTLNMSLELWTTLVRRLAARDPAILADEFEAHAEPMMQLALHPIGVPRHPIPMNPALFQKPSGGTYVDGHMIQGEVDLVGVDVLIRSRISAAKAMGLIMSFIPTPRLASYDTAVLQALSSPYASTQLAAAMVIDEYAKNCSTPEVASRFIEPLQKIIDLERPSHYRDLVTYVQRVRSASQQLINLFRDHGKVSQGKLPTLAVVVQGEPEAGPGAFSIANAEKVVNEDFERLKRLMAPGQRLIALPQLNEAREQTVEVIEEAKAAKEARDARIKAAAACALVAMKVLPKKPSPLIKAIMDSIKTEENQELQSRSAATIARLVQLFTESGRRGPAEKVVANLVKFSCVEVAETPEFPIHAHKTNVILSMQYAREAKAARITRRGAKEALEILSKNFGAELLERVPTLRTFMEEPLVRAFSGDLPPEARDPENAFGQEIVDAMSVIRTMTPTLHPALHPFVMQQVPLVIKALRSDLSVFRYMAAKCMATICSVITVDGMTALVEKVLPSINNPLDLSFRQGAIEVIYHLIAVMGDAILPYVIFLIVPVLGRMSDSDNQIRLIATTSFATLVKLVPLEAGIPDPPGLSEELLKGRDRERTFIAQLLDPKKIEPFKIPVAIKAELRSYQQEGVNWLAFLNKYHLHGILCDDMGLGKTLQTICIVASDHHQRAEEFARTGAPEVRKLPSLIICPPTLSGHWQQEIKTYAPFLTVTAYVGSPAERRAMKDSLDKTDIVITSYDVCRNDIDVIEKYNWNYCVLDEGHLIKNPKAKITLAVKRLTSNHRLILTGTPIQNNVLELWSLFDFLMPGFLGAEKVFLDRFAKPIANSRYSKASSKEQEAGALAIEALHKQVLPFLLRRLKEEVLNDLPPKILQNYYCDLSDLQRKLFEDFTKRQHIFQALQYMRKLCNKLGALRDLLVDCGIGPHRALIFCQMKEMLDMVQNTSVSYLRLDGSVEANKRQDIVNKFNSDPSYDVLLLTTSVGGLGLNLTGADTVIFVEHDWNPQKDLQAMDRAHRIGQKKVVNVYRIITRGTLEEKILSLQRFKIDVASTVVNQQNAGLATMDTDQILDL ATRLDRLVTILETGSTRLIRDTAVNQLADWQKQHPEELFNLLSRVVPYLRHKDWETRTTAAKAIGKIIENAPLYDPNAGRPLLREWPFERLCEFLKVDLFDPQWETRHGAAMGLREVIRVHGAGAGRRRGKTRKENNDLNRQWLDDLAYRLLCVLMLDKFTDYSSDTSVAPIRETVGQTLGAVLRHISVESVHAIYRLLYCMGMVGLRYVVAVRKDLLLQDGDMIDGVVRCVMQGLGDIDDDVRSVSAATLIPMAKEFVMMRRSALDSLINIVWESLSNLGDDLSASTGKIMDLLATLCSFPEVLEAMKVSASQDEERSFTLLVPRLYPFLRHTITSVRLAVLKALMTFANLGGETSQGWLNGRILRLIFQNIIVERDQDTLNMSLELWTTLVRRLAARDPAILADEFEAHAEPMMQLALHPIGVPRHPIPMNPALFQKPSGGTYVDGHMIQGEVDLVGVDVLIRSRISAAKAMGLIMSFIPTPRLASYDTAVLQALSSPYASTQLAAAMVIDEYAKNCSTPEVASRFIEPLQKIIDLERPSHYRDLVTYVQRVRSASQQLINLFRDHGKVSQGKLPTLAVVVQGEPEAGPGAFSIANAEKVVNEDFERLKRLMAPGQRLIALPQLNEAREQTVEVIEEAKAAKEARDARIKAAAACALVAMKVLPKKPSPLIKAIMDSIKTEENQELQSRSAATIARLVQLFTESGRRGPAEKVVANLVKFSCVEVAETPEFPIHAHKTNVILSMQKYAREAKAARITRRGAKEALEILSKNFGAELLERVPTLRTFMEEPLVRAFSGDLPPEARDPENAFGQEIVDAMSVIRTMTPTLHPALHPFVMQQVPLVIKALRSDLSVFRYMAAKCMATICSVITVDGMTALVEKVLPSINNPLDLSFRQGAIEVIYHLIAVMGDAILPYVIFLIVPVLGRMSDSDNQIRLIATTSFATLVKLVPLEAGIPDPPGLSEELLKGRDRERTFIAQLLDPKKIEPFKIPVAIKAELRSYQQEGVNWLAFLNKYHLHGILCDDMGLGKTLQTICIVASDHHQRAEEFARTGAPEVRKLPSLIICPPTLSGHWQQEIKTYAPFLTVTAYVGSPAERRAMKDSLDKTDIVITSYDVCRNDIDVIEKYNWNYCVLDEGHLIKNPKAKITLAVKRLTSNHRLILTGTPIQNNVLELWSLFDFLMPGFLGAEKVFLDRFAKPIANSRYSKASSKEQEAGALAIEALHKQVLPFLLRRLKEEVLNDLPPKILQNYYCDLSDLQRKLFEDFTKRQHIFQALQYMRKLCNKLGALRDLLVDCGIGVEPHRALIFCQMKEMLDMVQNTSVSYLRLDGSVEANKRQDIVNKFNSDPSYDVLLLTTSVGGLGLNLTGADTVIFVEHDWNPQKDLQAMDRAHRIGQKKVVNVYRIITRGTLEEKILSLQRFKIDVASTVVNQQNAGLATMDTDQILDL 7zbg-a1-m1-cA_7zbg-a1-m2-cA Human Topoisomerase II Beta ATPase ADP Q02880 Q02880 2.3 X-RAY DIFFRACTION 110 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 363 363 7qfn-a1-m1-cA_7qfn-a1-m2-cA 7qfo-a1-m1-cA_7qfo-a1-m2-cA SVERVYQKKTQLEHILLRPDTYIGSVEPLTQFMWVYDEDVGMNCREVTFVPGLYKIFDEILVNAADNKQRDKNMTCIKVSIDPESNIISIWNNGKGIPVVEHKVEKVYVPALIFGQLLTSSNYDDDEKKVTGGRNGYGAKLCNIFSTKFTVETACKEYKHSFKQTWMNNMMKTSEAKIKHFDGEDYTCITFQPDLSKFKMEKLDKDIVALMTRRAYDLAGSCRGVKVMFNGKKLPVNGFRSYVDLYVKDKLDETGVALKVIHELANERWDVCLTLSEKGFQQISFVNSIATTKGGRHVDYVVDQVVGKLPFQVKNHIWVFINCLIENPTFDSQTKENMTLQPKSFGSKCQLSEKFFKAASNCG SVERVYQKKTQLEHILLRPDTYIGSVEPLTQFMWVYDEDVGMNCREVTFVPGLYKIFDEILVNAADNKQRDKNMTCIKVSIDPESNIISIWNNGKGIPVVEHKVEKVYVPALIFGQLLTSSNYDDDEKKVTGGRNGYGAKLCNIFSTKFTVETACKEYKHSFKQTWMNNMMKTSEAKIKHFDGEDYTCITFQPDLSKFKMEKLDKDIVALMTRRAYDLAGSCRGVKVMFNGKKLPVNGFRSYVDLYVKDKLDETGVALKVIHELANERWDVCLTLSEKGFQQISFVNSIATTKGGRHVDYVVDQVVGKLPFQVKNHIWVFINCLIENPTFDSQTKENMTLQPKSFGSKCQLSEKFFKAASNCG 7zbh-a1-m1-cI_7zbh-a1-m1-cK ATP-dependent zinc metalloprotease FtsH (BB0789) from Borrelia burgdorferi O51729 O51729 3.3 X-RAY DIFFRACTION 113 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 367 368 7zbh-a1-m1-cA_7zbh-a1-m1-cB 7zbh-a1-m1-cD_7zbh-a1-m1-cB 7zbh-a1-m1-cD_7zbh-a1-m1-cK 7zbh-a1-m1-cF_7zbh-a1-m1-cA 7zbh-a1-m1-cF_7zbh-a1-m1-cI ITFKDVAGQEEVKQELREVVEFLKNPKKFEKIGAKIPKGVLLVGSPGTGKTLLAKAVAGEAGVSFFHMSGSDFVMFVGVGASRVRDLFDNARKNSPCIIFIDELDAVGRHDEREQTLNQLLVEMDGVIVMAATNRPDVLDSALLRPGRFDRQVTVSLPDIKEREAILNIHSLKTKLSKDINLQVIARATPGASGADLANLINEGALIAARNKDMEEARDKITDRQKLETAYHEAGHALLHYYLEHADPLHKVTIISINKHQILDKIKICYGGYASEQINLGVTTAGVQNDLMQATSLAKKMVTEWGMGEEVGPIFLVAYSENTADKVDREVKRILEECLKEASDILLKHKDQLVKLAKELVLKETLT ITFKDVAGQEEVKQELREVVEFLKNPKKFEKIGAKIPKGVLLVGSPGTGKTLLAKAVAGEAGVSFFHMSGSDFVMFVGVGASRVRDLFDNARKNSPCIIFIDELDAVGRHDEREQTLNQLLVEMDGVIVMAATNRPDVLDSALLRPGRFDRQVTVSLPDIKEREAILNIHSLKTKLSKDINLQVIARATPGASGADLANLINEGALIAARNKDMEEARDKILTDRQKLETAYHEAGHALLHYYLEHADPLHKVTIISINKHQILDKIKICYGGYASEQINLGVTTAGVQNDLMQATSLAKKMVTEWGMGEEVGPIFLVAYSENTADKVDREVKRILEECLKEASDILLKHKDQLVKLAKELVLKETLT 7zbo-a2-m1-cC_7zbo-a2-m1-cB Amine Dehydrogenase MATOUAmDH2 in complex with NADP+ 2.32 X-RAY DIFFRACTION 148 0.997 256318 (metagenome) 256318 (metagenome) 340 343 7r09-a1-m1-cA_7r09-a1-m2-cA 7zbo-a1-m1-cD_7zbo-a1-m1-cA SPLRVALYGFGNQNKEMAKMLVERKDVEIVAVISNKSNVGKDFGEVIGLAPQGILVTAGLDAAETLRTTNPQIAMLSTLSTVGDIESQLRACAENKVNVYTIAEELTFSWTSAPEKTKEMDELFKEHNVSLIGGGFLDGACCDMARTMAAMMHKIDKLDGGLQYNVDHYGQVLAIAHGVGLFYAENGPGWTSPTSYPKSYVYNMNDWFASAFGLTVIKTEEVKTPTKAPIELYSEAIGRAIPVGQCTGMIVTATTTTEEGVIIVEKQVGKCYEDGDEDMVFMNLEGNPTGGVGFTMKNPPTPAMTNTIAISRMFQTVDAPAGYITTDKLPTMEAYVHGRL PLRVALYGFGNQNKEMAKMLVERKDVEIVAVISNKSNVGKDFGEVIGLAPQGILVTAGLDAAETLRTTNPQIAMLSTLSTVGDIESQLRACAENKVNVYTIAEELTFSWTSAPEKTKEMDELFKEHNVSLIGGGFLDGACCDMARTMAAMMHKIDKLDGGLQYNVDHYGQVLAIAHGVGLSEEEFYAENGPGWTSPTSYPKSYVYNMNDWFASAFGLTVIKTEEVKTPTKAPIELYSEAIGRAIPVGQCTGMIVTATTTTEEGVIIVEKQVGKCYEDGDEDMVFMNLEGNPTGGVGFTMKNPPTPAMTNTIAISRMFQTVDAPAGYITTDKLPTMEAYVHGRL 7zbp-a2-m1-cC_7zbp-a2-m1-cD Unspecific peroxygenase from Marasmius rotula 1.45 X-RAY DIFFRACTION 59 1.0 182057 (Marasmius rotula) 182057 (Marasmius rotula) 238 238 5fuj-a1-m1-cA_5fuj-a1-m1-cB 5fuk-a1-m1-cA_5fuk-a1-m1-cB 7zbp-a1-m1-cB_7zbp-a1-m1-cA VDFSAHPWKAPGPNDSRGPCPGLNTLANHGFLPRNGRNISVPMIVKAGFEGYNVQSDILILAGKIGMLTSREADTISLEDLKLHGTIEHDASLSREDVAIGDNLHFNEAIFTTLANSNPGADVYNISSAAQVQHDRLADSLARNPNVTNTDLTATIRSSESAFFLTVMSAGDPLRGEAPKKFVNVFFREERMPIKEGWKRSTTPITIPLLGPIIERITELSDWKPTGDNCGAIVLSPE VDFSAHPWKAPGPNDSRGPCPGLNTLANHGFLPRNGRNISVPMIVKAGFEGYNVQSDILILAGKIGMLTSREADTISLEDLKLHGTIEHDASLSREDVAIGDNLHFNEAIFTTLANSNPGADVYNISSAAQVQHDRLADSLARNPNVTNTDLTATIRSSESAFFLTVMSAGDPLRGEAPKKFVNVFFREERMPIKEGWKRSTTPITIPLLGPIIERITELSDWKPTGDNCGAIVLSPE 7zc3-a1-m1-cA_7zc3-a1-m1-cB Crystal structure of human copper chaperone Atox1 bound to zinc ion by CxxC motif O00244 O00244 1.9 X-RAY DIFFRACTION 46 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 67 1fe0-a1-m1-cA_1fe0-a1-m1-cB 1fe4-a1-m1-cA_1fe4-a1-m1-cB 1fee-a1-m1-cA_1fee-a1-m1-cB 3iwx-a1-m1-cA_3iwx-a1-m1-cB 4qot-a1-m1-cA_4qot-a1-m1-cB 4yea-a1-m1-cA_4yea-a1-m1-cB PKHEFSVDMTCGGCAEAVSRVLNKLGGVKYDIDLPNKKVCIESEHSMDTLLATLKKTGKTVSYLGLE PKHEFSVDMTCGGCAEAVSRVLNKLGGVKYDIDLPNKKVCIESEHSMDTLLATLKKTGKTVSYLGLE 7zc8-a1-m1-cB_7zc8-a1-m1-cA Crystal structure of the C-terminal domain of FusB, a TonB homologue A0A837DIX8 A0A837DIX8 2.08 X-RAY DIFFRACTION 88 1.0 554 (Pectobacterium carotovorum) 554 (Pectobacterium carotovorum) 86 87 ALHRRVNYPSRAKALGVEGKVRVKFDITGSGTVTNVQVLSETPDGVFGDDVVKDMARWRYRTEAPVENQVVSIVFKLNGHIRVDDQ RALHRRVNYPSRAKALGVEGKVRVKFDITGSGTVTNVQVLSETPDGVFGDDVVKDMARWRYRTEAPVENQVVSIVFKLNGHIRVDDQ 7zcc-a2-m1-cC_7zcc-a2-m1-cD yxBC from Bacillus subtilis in complex with Mn and N-oxalylglycine (NOG) P46327 P46327 1.848 X-RAY DIFFRACTION 217 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 325 325 1vrb-a1-m1-cA_1vrb-a1-m1-cB 1vrb-a2-m1-cC_1vrb-a2-m1-cD 7zcc-a1-m1-cA_7zcc-a1-m1-cB TESVLESIISPVTMSEFLEEYWPVKPLVARGEVERFTSIPGFEKVRTLENVLAIYNNPVMVVGDAVIEESEGITDRFLVSPAEALEWYEKGAALEFDFTDLFIPQVRRWIEKLKAELRLPAGTSSKAIVYAAKNGGGFKAHFDAYTNLIFQIQGEKTWKLAKNENVSNPMQHYDLSEAYYPDDLQSYWKGDPPKEDLPDAEIVNLTPGTMLYLPRGLWHSTKSDQATLALNITFGQPAWLDLMLAALRKKLISDNRFRELAVNHQSLHESSKSELNGYLESLIQTLSENAETLTPEQIFQSQDSDFDPYQSTQLVFRQLLTSYKF TESVLESIISPVTMSEFLEEYWPVKPLVARGEVERFTSIPGFEKVRTLENVLAIYNNPVMVVGDAVIEESEGITDRFLVSPAEALEWYEKGAALEFDFTDLFIPQVRRWIEKLKAELRLPAGTSSKAIVYAAKNGGGFKAHFDAYTNLIFQIQGEKTWKLAKNENVSNPMQHYDLSEAYYPDDLQSYWKGDPPKEDLPDAEIVNLTPGTMLYLPRGLWHSTKSDQATLALNITFGQPAWLDLMLAALRKKLISDNRFRELAVNHQSLHESSKSELNGYLESLIQTLSENAETLTPEQIFQSQDSDFDPYQSTQLVFRQLLTSYKF 7zcl-a1-m1-cA_7zcl-a1-m1-cB Unspecific peroxygenase from Collariella virescens 1.95 X-RAY DIFFRACTION 99 1.0 1934374 (Achaetomiella virescens) 1934374 (Achaetomiella virescens) 226 227 LDFSKWKTRQPGEFRAPCPAMNSLANHGFIPRDGRNITVAMLVPVLQEVFHLSPELAQTISTLGLFTAQDPSKGVFTLDDLNRHNLFEHDASLSREDYYFHKDASTFRPEVFKKFMSHFKGKEYVTLEDAASARYAMVQESRKKNPTFTYTVQQRITSYGETIKYFRTIVEPATGKCPVAWIKILFEQERLPYNEGWRPPKAELSGFSMASDVLELALVTPEKLID ALDFSKWKTRQPGEFRAPCPAMNSLANHGFIPRDGRNITVAMLVPVLQEVFHLSPELAQTISTLGLFTAQDPSKGVFTLDDLNRHNLFEHDASLSREDYYFHKDASTFRPEVFKKFMSHFKGKEYVTLEDAASARYAMVQESRKKNPTFTYTVQQRITSYGETIKYFRTIVEPATGKCPVAWIKILFEQERLPYNEGWRPPKAELSGFSMASDVLELALVTPEKLID 7zcv-a1-m1-cA_7zcv-a1-m1-cB Rgg144 of Streptococcus pneumoniae A0A0E7KI02 A0A0E7KI02 1.9 X-RAY DIFFRACTION 211 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 283 285 MELGEFYKELRLARKLKQTDVACEGLTASQLSKFELGQSMLSADKLILAIQGINVTFDEFGHKLNNYQESPHMRIGRKVVNRFAHQDIAALEQLLEEVDQEQMAQTYRRLNAIVIKDAIHSLNKSYPLAEEDSEFLTTYLYAIESWTWFELYLFCNTMPFLSNQDLIFLSTSLLEKSKEFKELVHNRLYMKQGLLNILSELMERKLFSYIPIFEAELERMLRPYDVFEKVSWQFLKKMSVFLQTKGSNQKEIERFIQSLQVLENPQLTSLFELRFQQYKELID EKMELGEFYKELRLARKLKQTDVACEGLTASQLSKFELGQSMLSADKLILAIQGINVTFDEFGHKLNNYQESPHMRIGRKVVNRFAHQDIAALEQLLEEVDQEQMAQTYRRLNAIVIKDAIHSLNKSYPLAEEDSEFLTTYLYAIESWTWFELYLFCNTMPFLSNQDLIFLSTSLLEKSKEFKELVHNRLYMKQGLLNILSELMERKLFSYIPIFEAELERMLRPYDVFEKVSWQFLKKMSVFLQTKGSNQKEIERFIQSLQVLENPQLTSLFELRFQQYKELID 7zdi-a1-m1-cO_7zdi-a1-m1-cQ PucB-LH2 complex from Rps. palustris P35102 P35102 2.9 ELECTRON MICROSCOPY 33 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 48 48 7zdi-a1-m1-cA_7zdi-a1-m1-cC 7zdi-a1-m1-cA_7zdi-a1-m1-cQ 7zdi-a1-m1-cC_7zdi-a1-m1-cE 7zdi-a1-m1-cE_7zdi-a1-m1-cG 7zdi-a1-m1-cG_7zdi-a1-m1-cI 7zdi-a1-m1-cI_7zdi-a1-m1-cK 7zdi-a1-m1-cK_7zdi-a1-m1-cM 7zdi-a1-m1-cM_7zdi-a1-m1-cO NQGRIWTVVNPGVGLPLLLGSVTVIAILVHYAVLSNTTWFPKYWNGAT NQGRIWTVVNPGVGLPLLLGSVTVIAILVHYAVLSNTTWFPKYWNGAT 7zdy-a1-m1-cY_7zdy-a1-m1-cW Crystal structure of beta-xylosidase from Thermotoga maritima in complex with methyl-beta-D-xylopyranoside R4NX63 R4NX63 1.46 X-RAY DIFFRACTION 234 0.997 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 761 763 7zb3-a1-m1-cB_7zb3-a1-m1-cA 7zeq-a1-m1-cX_7zeq-a1-m1-cY 7zgz-a1-m1-cX_7zgz-a1-m1-cY MELYRDPSQPIEVRVRDLLSRMTLEEKVAQLGSVWGYELIDERGKFSREKAKELLKNGIGQITRPGGSTNLEPQEAAELVNEIQRFLVEETRLGIPAMIHEECLTGYMGLGGTNFPQAIAMASTWDPDLIEKMTTAVREDMRKIGAHQGLAPVLDVARDPRWGRTEETFGESPYLVARMGVSYVKGLQGEDIKKGVVATVKHFAGYSASEGGKNWAPTNIPEREFKEVFLFPFEAAVKEANVLSVMNSYSEIDGVPCAANRKLLTDILRKDWGFEGIVVSDYFAVKVLEDYHRIARDKSEAARLALEAGIDVELPKTECYQYLKDLVEKGIISEALIDEAVTRVLRLKFMLGLFENPYVEVEKAKIESHRDIALEIARKSIILLKNDGILPLQKNKKVALIGPNAGEVRNLLGDYMYLAHIRALKKSIEEHMKSIPSVLDAFKEEGIEFEYAKGCEVTGEDRSGFEEAIEIAKKSDVAIVVVGDKSGLTLDCTTGESRDMANLKLPGVQEELVLEVAKTGKPVVLVLITGRPYSLKNVVDKVNAILQVWLPGEAGGRAIVDIIYGKVNPSGKLPISFPRSAGQIPVFHYVKPSGGRSHWHGDYVDESTKPLFPFGHGLSYTKFEYSNLRIEPKEVPPAGEVVIKVDVENIGDRDGDEVVQLYIGREFASVTRPVKELKGFKRVSLKAKEKKTVVFRLHMDVLAYYNRDMKLVVEPGEFKVMVGSSSEDIRLTGSFSVVGEKREVVGMRKFFTEACEEAAAL MELYRDPSQPIEVRVRDLLSRMTLEEKVAQLGSVWGYELIDERGKFSREKAKELLKNGIGQITRPGGSTNLEPQEAAELVNEIQRFLVEETRLGIPAMIHEECLTGYMGLGGTNFPQAIAMASTWDPDLIEKMTTAVREDMRKIGAHQGLAPVLDVARDPRWGRTEETFGESPYLVARMGVSYVKGLQGEDIKKGVVATVKHFAGYSASEGGKNWAPTNIPEREFKEVFLFPFEAAVKEANVLSVMNSYSEIDGVPCAANRKLLTDILRKDWGFEGIVVSDYFAVKVLEDYHRIARDKSEAARLALEAGIDVELPKTECYQYLKDLVEKGIISEALIDEAVTRVLRLKFMLGLFENPYVEVEKAKIESHRDIALEIARKSIILLKNDGILPLQKNKKVALIGPNAGEVRNLLGDYMYLAHIRALLERLKKSIEEHMKSIPSVLDAFKEEGIEFEYAKGCEVTGEDRSGFEEAIEIAKKSDVAIVVVGDKSGLTLDCTTGESRDMANLKLPGVQEELVLEVAKTGKPVVLVLITGRPYSLKNVVDKVNAILQVWLPGEAGGRAIVDIIYGKVNPSGKLPISFPRSAGQIPVFHYVKPSGGRSHWHGDYVDESTKPLFPFGHGLSYTKFEYSNLRIEPKEVPPAGEVVIKVDVENIGDRDGDEVVQLYIGREFASVTRPVKELKGFKRVSLKAKEKKTVVFRLHMDVLAYYNRDMKLVVEPGEFKVMVGSSSEDIRLTGSFSVVGEKREVVGMRKFFTEACEEAA 7ze3-a1-m1-cO_7ze3-a1-m1-cQ PucD-LH2 complex from Rps. palustris P35104 P35104 2.7 ELECTRON MICROSCOPY 35 1.0 1076 (Rhodopseudomonas palustris) 1076 (Rhodopseudomonas palustris) 47 47 7ze3-a1-m1-cA_7ze3-a1-m1-cC 7ze3-a1-m1-cA_7ze3-a1-m1-cQ 7ze3-a1-m1-cC_7ze3-a1-m1-cE 7ze3-a1-m1-cE_7ze3-a1-m1-cG 7ze3-a1-m1-cG_7ze3-a1-m1-cI 7ze3-a1-m1-cI_7ze3-a1-m1-cK 7ze3-a1-m1-cK_7ze3-a1-m1-cM 7ze3-a1-m1-cM_7ze3-a1-m1-cO NQGRIWTVVKPTVGLPLLLGSVAIMVFLVHFAVLTHTTWVAKFMNGK NQGRIWTVVKPTVGLPLLLGSVAIMVFLVHFAVLTHTTWVAKFMNGK 7zej-a1-m2-cB_7zej-a1-m1-cA Crystal structure of the human MGC45594 gene product in complex with celecoxib. Q8N4Q0 Q8N4Q0 1.79 X-RAY DIFFRACTION 97 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 340 341 SMMQKLVVTRLSPNFREAVTLSRDCPVPLPGDGDLLVRNRFVGVNASDINYSAGRYDPSVKPPFDIGFEGIGEVVALGLSASARYTVGQAVAYMAPGSFAEYTVVPASIATPVPSVKPEYLTLLVSGTTAYISLKELGGLSEGKKVLVTAAAGGTGQFAMQLSKKAKCHVIGTCSSDEKSAFLKSLGCDRPINYKTEPVGTVLKQEYPEGVDVVYESVGGAMFDLAVDALATKGRLIVIGFISGYQTPTGLSPVKAGTLPAKLLKKSASVQGFFLNHYLSKYQAAMSHLLEMCVSGDLVCEVDLGDLSPEGRFTGLESIFRAVNYMYMGKNTGKIVVELP SMMQKLVVTRLSPNFREAVTLSRDCPVPLPGDGDLLVRNRFVGVNASDINYSAGRYDPSVKPPFDIGFEGIGEVVALGLSASARYTVGQAVAYMAPGSFAEYTVVPASIATPVPSVKPEYLTLLVSGTTAYISLKELGGLSEGKKVLVTAAAGGTGQFAMQLSKKAKCHVIGTCSSDEKSAFLKSLGCDRPINYKTEPVGTVLKQEYPEGVDVVYESVGGAMFDLAVDALATKGRLIVIGFISGYQTPTGLSPVKAGTLPAKLLKKSASVQGFFLNHYLSKYQAAMSHLLEMCVSGDLVCEVDLGDLSPEGRFTGLESIFRAVNYMYMGKNTGKIVVELPH 7zes-a1-m1-cA_7zes-a1-m1-cB Human SLFN11 dimer bound to ssDNA Q7Z7L1 Q7Z7L1 3.1 ELECTRON MICROSCOPY 119 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 827 827 7zel-a1-m1-cA_7zel-a1-m1-cB 7zep-a1-m1-cA_7zep-a1-m1-cB PLVVEPSYPDLVINVGEVTLGEENRKKLQKIQRDQEKERVMRAACALLNSGGGVIRMAKKVEHPVEMGLDLEQSLRELIQSSDLQAFFETKQQGRCFYIFVKSWSSGPFPEDRSVKPRLCSLSSSLYRRSETSVRSMDSREAFCFLKTKRKPDPADLIFQKDYLEYGEILPFPESQLVEFKQFSTKHFQEYVKRTIPEYVPAFANTGGGYLFIGVDDKSREVLGCAKENVDPDSLRRKIEQAIYKLPCVHFCQPQRPITFTLKIVNVLKRGELYGYACMIRVNPFCCAVFSEAPNSWIVEDKYVCSLTTEKWVGMMTDVYSKKGLEHKKELQQLLFSVPPGYLRYTPESLWRDLISEHRGLEELINKQMQPFFRGILIFSRSWAVDLNLQEKPGVICDALLIAQNSTPILYTILREQDAEGQDYCTRTAFTLKQKLVNMGGYTGKVCVRAKVLCLSPVSPMDYPASYSLAGTQHMEALLQSLVIVLLGFRSLLSDQLGCEVLNLLTAQQYEIFSRSLRKNRELFVHGLPGSGKTIMAMKIMEKIRNVFHCEAHRILYVCENQPLRNFISDRNICRAETRKTFLRENFEHIQHIVIDEAQNFRTEDGDWYGKAKSITRRAKGGPGILWIFLDYFQTSHLDCSGLPPLSDQYPREELTRIVRNADPIAKYLQKEMQVIRSNPSFNIPTGCLEVFPEAEWSQGVQGTLRIKKYLTVEQIMTCVADTCRRFFDRGYSPKDVAVLVSTAKEVEHYKYELLKAMRKKRVVQLSDACDMLGDHIVLDSVRRFSGLERSIVFGIHPRTADPAILPNVLICLASRAKQHLYIFPWG PLVVEPSYPDLVINVGEVTLGEENRKKLQKIQRDQEKERVMRAACALLNSGGGVIRMAKKVEHPVEMGLDLEQSLRELIQSSDLQAFFETKQQGRCFYIFVKSWSSGPFPEDRSVKPRLCSLSSSLYRRSETSVRSMDSREAFCFLKTKRKPDPADLIFQKDYLEYGEILPFPESQLVEFKQFSTKHFQEYVKRTIPEYVPAFANTGGGYLFIGVDDKSREVLGCAKENVDPDSLRRKIEQAIYKLPCVHFCQPQRPITFTLKIVNVLKRGELYGYACMIRVNPFCCAVFSEAPNSWIVEDKYVCSLTTEKWVGMMTDVYSKKGLEHKKELQQLLFSVPPGYLRYTPESLWRDLISEHRGLEELINKQMQPFFRGILIFSRSWAVDLNLQEKPGVICDALLIAQNSTPILYTILREQDAEGQDYCTRTAFTLKQKLVNMGGYTGKVCVRAKVLCLSPVSPMDYPASYSLAGTQHMEALLQSLVIVLLGFRSLLSDQLGCEVLNLLTAQQYEIFSRSLRKNRELFVHGLPGSGKTIMAMKIMEKIRNVFHCEAHRILYVCENQPLRNFISDRNICRAETRKTFLRENFEHIQHIVIDEAQNFRTEDGDWYGKAKSITRRAKGGPGILWIFLDYFQTSHLDCSGLPPLSDQYPREELTRIVRNADPIAKYLQKEMQVIRSNPSFNIPTGCLEVFPEAEWSQGVQGTLRIKKYLTVEQIMTCVADTCRRFFDRGYSPKDVAVLVSTAKEVEHYKYELLKAMRKKRVVQLSDACDMLGDHIVLDSVRRFSGLERSIVFGIHPRTADPAILPNVLICLASRAKQHLYIFPWG 7zg0-a1-m1-cB_7zg0-a1-m1-cA Murine IL-27 in complex with IL-27Ra and a non-competing Nb Q8K3I6 Q8K3I6 3.18 X-RAY DIFFRACTION 14 1.0 10090 (Mus musculus) 10090 (Mus musculus) 161 163 TDPLSLQELRREFTVSLYLARKLLSEVQGYVHSFAESRLPGVNLDLLPLGYHLPNVSLTFQAWHHLSDSERLCFLATTLRPFPAMLGGLGTQGTWTSSEREQLWAMRLDLRDLHRHLRFQVLAAGFKCVSWPQLLYTYQLLHSLELVLSRAVRDLLLLSLP TDPLSLQELRREFTVSLYLARKLLSEVQGYVHSFAESRLPGVNLDLLPLGYHLPNVSLTFQAWHHLSDSERLCFLATTLRPFPAMLGGLGTQGTWTSSEREQLWAMRLDLRDLHRHLRFQVLAAGFKCSVSWPQLLYTYQLLHSLELVLSRAVRDLLLLSLPR 7zgn-a1-m1-cB_7zgn-a1-m1-cA Plant/insect N-glycan active PNGase U6RE59 U6RE59 1.95 X-RAY DIFFRACTION 177 0.998 1121098 (Phocaeicola massiliensis B84634 = Timone 84634 = DSM 17679 = JCM 13223) 1121098 (Phocaeicola massiliensis B84634 = Timone 84634 = DSM 17679 = JCM 13223) 529 531 LQKKVKNAKGIEVIYQSSYKGKIRPGQIKMTVSGNQVALESVSKQPVIKNYIDYAGREAYKWAELPDGKIISAATPFEFGKGFTPAGEGKHLGLNCKIARTSINSNTIEVWYTHDIPFRGTPQANVGVPDGLVLKVVRNGDMIQEASAITPLKKAQALLPDSWGEKMDAADYQYTINQSGVITIPVFDQQTICFNNAKLPDTLEDGITYSAGGGTLILKKVKLPESAKNRSIFVEVAQYSDGDAYDRTGSVFVIPTDKKQSFLDAIRNLKSVPSFQAKDGNYPALISTDDYEAPVELMRFFTGFGVRKFNHNKVKGQHWVDSVIYKSEVTPLASQLQGEVWIGAYIGNWDAKGHRLSLKLKYYPDDERRVNKAMPLFNTVNYLEQAGQAYPVFFLNDSLRVRFTLKEPAKNARLFYLTTGHGGWGNGDEFNQKPNTVYLDGKKVISFIPWRDDCGTYRNSNPCSGNFSNGLSSSDLSRSNWCPGTVTTPEYIYLGDLEAGEHTLSVRIPQGAPEGGSNSYWCISGTLLY QNLQKKVKNAKGIEVIYQSSYKGKIRPGQIKMTVSGNQVALESVDKQPVIKNYIDYAGREAYKWAELPDGKIISAATPFEFGKGFTPAGEGKHLGLNCKIARTSINSNTIEVWYTHDIPFRGTPQANVGVPDGLVLKVVRNGDMIQEASAITPLKKAQALLPDSWGEKMDAADYQYTINQSGVITIPVFDQQTICFNNAKLPDTLEDGITYSAGGGTLILKKVKLPESAKNRSIFVEVAQYSDGDAYDRTGSVFVIPTDKKQSFLDAIRNLKSVPSFQAKDGNYPALISTDDYEAPVELMRFFTGFGVRKFNHNKVKGQHWVDSVIYKSEVTPLASQLQGEVWIGAYIGNWDAKGHRLSLKLKYYPDDERRVNKAMPLFNTVNYLEQAGQAYPVFFLNDSLRVRFTLKEPAKNARLFYLTTGHGGWGNGDEFNQKPNTVYLDGKKVISFIPWRDDCGTYRNSNPCSGNFSNGLSSSDLSRSNWCPGTVTTPEYIYLGDLEAGEHTLSVRIPQGAPEGGSNSYWCISGTLLY 7zhu-a1-m1-cA_7zhu-a1-m1-cB Leishmania donovani Glucose 6-Phosphate Dehydrogenase complexed with NADP(H) A2CIL3 A2CIL3 1.7 X-RAY DIFFRACTION 184 0.998 5661 (Leishmania donovani) 5661 (Leishmania donovani) 534 543 7zht-a1-m1-cB_7zht-a1-m1-cA 7zht-a2-m1-cC_7zht-a2-m1-cD 7zhv-a1-m1-cB_7zhv-a1-m1-cA 7zhw-a1-m1-cA_7zhw-a1-m1-cB 7zhx-a1-m1-cA_7zhx-a1-m2-cA 7zhy-a1-m1-cA_7zhy-a1-m1-cB 7zhz-a1-m1-cB_7zhz-a1-m1-cA DQDAYVADVDGILDVLRAQVLERKPDDIFQFISKSALSLQKCDRINCKVKDEQKSRALTIIVFGASGDLAKKKTFPALFDLYCGGLLPPEVNIIGYARTKVDDVEKWKHETLMKYFSNLSERGCHAEDFLKHISYFCGAYDSVDDFKRLDAVIREKENAFKGPEKGGNRLFYLALPPSVFASVCESIHKGAMPQEVGGWVRVIIEKPFGRDTKSSAELSQALEPFFDESQLYRIDHYLGKEMVQNIITTRFANRIFSAVWNASNIACVQITFKETIGTEGRGGYFDNIGIIRDVMQNHLTQILALLAMEKPRSLDAECIRDEKVSVLKCIEPITKENCVLGQYTASADGSIPGYLEDVTVPEGSTCPTFAVMRLNINNDRWAGVPFILKAGKAVEQKYVAIRIQFRDEVHPYGEATQRNELVIRAQPSEAMYVKITTKVPGLSGDLRQTHQTELDLTYHTRLPDAYESLINDALLGNSTNFVRKDELDVAWRIFTPLLHQIDSGEIKPIPYQAGTRGPKEADEFIANNGFKHQK QSHADQDAYVADVDGILDVLRAQVLERKPDDIFQFISKSALSLQKDSCDRINCKVKDEQKSRALTIIVFGASGDLAKKKTFPALFDLYCGGLLPPEVNIIGYARTKVDDVEKWKHETLMKYFSNLSERGCHAEDFLKHISYFCGAYDSVDDFKRLDAVIREKENAFKGPEKGGNRLFYLALPPSVFASVCESIHKGAMPQEVGGWVRVIIEKPFGRDTKSSAELSQALEPFFDESQLYRIDHYLGKEMVQNIITTRFANRIFSAVWNASNIACVQITFKETIGTEGRGGYFDNIGIIRDVMQNHLTQILALLAMEKPRSLDAECIRDEKVSVLKCIEPITKENCVLGQYTASADGSIPGYLEDVTVPEGSTCPTFAVMRLNINNDRWAGVPFILKAGKAVEQKYVAIRIQFRDEVHPYGEATQRNELVIRAQPSEAMYVKITTKVPGLSGDLRQTHQTELDLTYHTRYDVRLPDAYESLINDALLGNSTNFVRKDELDVAWRIFTPLLHQIDSGEIKPIPYQAGTRGPKEADEFIANNGFKHQ 7zir-a1-m1-cD_7zir-a1-m1-cE Cryo-EM structure of hnRNPDL amyloid fibrils O14979 O14979 2.5 ELECTRON MICROSCOPY 192 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 51 51 7zir-a1-m1-cA_7zir-a1-m1-cB 7zir-a1-m1-cB_7zir-a1-m1-cC 7zir-a1-m1-cC_7zir-a1-m1-cD NWNQGFNNYYDQGYGNYNSAYGGDQNYSGYGGYDYTGYNYGNYGYGQGYAD NWNQGFNNYYDQGYGNYNSAYGGDQNYSGYGGYDYTGYNYGNYGYGQGYAD 7zj3-a2-m1-cG_7zj3-a2-m1-cA Structure of TRIM2 RING domain in complex with UBE2D1~Ub conjugate Q9C040 Q9C040 2.53 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 85 86 7zj3-a1-m1-cD_7zj3-a1-m1-cJ PSPVVRQIDKQFLICSICLERYKNPKVLPCLHTFCERCLQNYIPAHSLTLSCPVCRQTSILPEKGVAALQNNFFITNLMDVLQRT PSPVVRQIDKQFLICSICLERYKNPKVLPCLHTFCERCLQNYIPAHSLTLSCPVCRQTSILPEKGVAALQNNFFITNLMDVLQRTP 7zjc-a1-m1-cA_7zjc-a1-m2-cA Crystal structure (native) of outer surface protein BBA14 (OrfD) from Borrelia burgdorferi P0DV83 P0DV83 1.6 X-RAY DIFFRACTION 73 1.0 224326 (Borreliella burgdorferi B31) 224326 (Borreliella burgdorferi B31) 95 95 MGLPEEPSSPQESTLKALSLYEAHLSSYIMYLQTFLVKTKQKVNNKNYPEFTLFDTSKLKKDQTLKSIKTNIAALKNHIDKIKPIAMQIYKKYSK MGLPEEPSSPQESTLKALSLYEAHLSSYIMYLQTFLVKTKQKVNNKNYPEFTLFDTSKLKKDQTLKSIKTNIAALKNHIDKIKPIAMQIYKKYSK 7zjl-a1-m1-ci_7zjl-a1-m1-ck Delta SARS-CoV-2 spike protein in complex with REGN10987 Fab homologue. 2.6 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 218 218 QSALTQPASVSGSPGQSITISCTGTSSDVGGYNYVSWYQQHPGKAPKLMIYDVSKRPSGVSNRFSGSKSGNTASLTISGLQSEDEADYYCNSLTSISTWVFGGGTKLTVLGRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC QSALTQPASVSGSPGQSITISCTGTSSDVGGYNYVSWYQQHPGKAPKLMIYDVSKRPSGVSNRFSGSKSGNTASLTISGLQSEDEADYYCNSLTSISTWVFGGGTKLTVLGRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 7zk3-a1-m1-cA_7zk3-a1-m1-cB Structure of 1PBC- and calcium-bound mTMEM16A(ac) chloride channel at 2.85 A resolution Q8BHY3 Q8BHY3 2.85 ELECTRON MICROSCOPY 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 721 721 MDYHEDDKRFRREELCREAEFLKLKMPTKKVYHISETRGLLKTINSVLQKITDPIQPKVAEHRPQTTKRLSYPFSREKQHLFDLTDRDSFFDSKTRSTIVYEILKRTTCGITSLLANGVYSAAYPLHDGDYEGDNVEFNDRKLLYEEWASYGVFYKYQPIDLVRKYFGEKVGLYFAWLGAYTQMLIPASIVGVIVFLYGCATVDENIPSMEMCDQRYNITMCPLCDKTCSYWKMSSACATARASHLFDNPATVFFSVFMALWAATFMEHWKRKQMRLNYRWDLTGFEEEEEAVKDHPRAEYEARVLEKSWRDRFPAYFTNLVSIIFMIAVTFAIVLGVIIYRISTAAALAMNPSVRSNIRVTVTATAVIINLVVIILLDEVYGCIARWLTKIEVPKTEKSFEERLTFKAFLLKFVNSYTPIFYVAFFKGRFVGRPGDYVYIFRSFRMEECAPGGCLMELCIQLSIIMLGKQLIQNNLFEIGIPKMKKFIRYLKRKQRYEVDFNLEPFAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAIRAKDIGIWYNILRGVGKLAVIINAFVISFTSDFIPRLVYLYMYSQNGTMHGFVNHTLSSFNVSDFQNGTAPNDPLDLGYEVQICRYKDYREPPWSEHKYDISKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVIPDIPKDISQQIHKEKVLMVELFMR MDYHEDDKRFRREELCREAEFLKLKMPTKKVYHISETRGLLKTINSVLQKITDPIQPKVAEHRPQTTKRLSYPFSREKQHLFDLTDRDSFFDSKTRSTIVYEILKRTTCGITSLLANGVYSAAYPLHDGDYEGDNVEFNDRKLLYEEWASYGVFYKYQPIDLVRKYFGEKVGLYFAWLGAYTQMLIPASIVGVIVFLYGCATVDENIPSMEMCDQRYNITMCPLCDKTCSYWKMSSACATARASHLFDNPATVFFSVFMALWAATFMEHWKRKQMRLNYRWDLTGFEEEEEAVKDHPRAEYEARVLEKSWRDRFPAYFTNLVSIIFMIAVTFAIVLGVIIYRISTAAALAMNPSVRSNIRVTVTATAVIINLVVIILLDEVYGCIARWLTKIEVPKTEKSFEERLTFKAFLLKFVNSYTPIFYVAFFKGRFVGRPGDYVYIFRSFRMEECAPGGCLMELCIQLSIIMLGKQLIQNNLFEIGIPKMKKFIRYLKRKQRYEVDFNLEPFAGLTPEYMEMIIQFGFVTLFVASFPLAPLFALLNNIIEIRLDAKKFVTELRRPVAIRAKDIGIWYNILRGVGKLAVIINAFVISFTSDFIPRLVYLYMYSQNGTMHGFVNHTLSSFNVSDFQNGTAPNDPLDLGYEVQICRYKDYREPPWSEHKYDISKDFWAVLAARLAFVIVFQNLVMFMSDFVDWVIPDIPKDISQQIHKEKVLMVELFMR 7zkh-a1-m1-cA_7zkh-a1-m2-cA C-Methyltransferase PsmD from Streptomyces griseofuscus with bound cofactor (crystal form 1) W8R3D8 W8R3D8 1.4 X-RAY DIFFRACTION 58 1.0 146922 (Streptomyces griseofuscus) 146922 (Streptomyces griseofuscus) 266 266 7zgt-a1-m1-cB_7zgt-a1-m1-cA 7zkg-a1-m1-cB_7zkg-a1-m1-cA MQGQPHQDAGMPEPYAATADVYDRLVDYAIAEWGECPRPQMADFVEQAWAARGHRVRRVLELCCGTGLMTEQLVRRGYEVTAVDRSETMLALAKQRVGGAADFHQIELPAPLPDGADAVVCTAAAFNYQASARSLGETLRAVATVLPAGATFVFDIETAALLKGHWGNRVWAADEGDLAFIWDFTSEPDTTYCDVHYTQFTRHEAGADAYTGVREVHRLYAFDHDTVRAQARAAGFAQAEVFDNYTERPATDTTRYETWVLTRDER MQGQPHQDAGMPEPYAATADVYDRLVDYAIAEWGECPRPQMADFVEQAWAARGHRVRRVLELCCGTGLMTEQLVRRGYEVTAVDRSETMLALAKQRVGGAADFHQIELPAPLPDGADAVVCTAAAFNYQASARSLGETLRAVATVLPAGATFVFDIETAALLKGHWGNRVWAADEGDLAFIWDFTSEPDTTYCDVHYTQFTRHEAGADAYTGVREVHRLYAFDHDTVRAQARAAGFAQAEVFDNYTERPATDTTRYETWVLTRDER 7zkk-a1-m1-cA_7zkk-a1-m4-cA A216H variant of the CODH/ACS complex of C. hydrogenoformans A0A1L8D0M5 A0A1L8D0M5 1.97 X-RAY DIFFRACTION 311 1.0 246194 (Carboxydothermus hydrogenoformans Z-2901) 246194 (Carboxydothermus hydrogenoformans Z-2901) 669 669 7zkj-a1-m2-cA_7zkj-a1-m3-cA 7zkv-a1-m1-cA_7zkv-a1-m4-cA PRFRDLEHTSKPSKADRVWEPKNRKRTIDPAALEMLEKAEKDGVKTAFDRFVEMQPQCQFGYKGLCCRFCLQGPCRLPNDDPSKKGICGASAWTIAARSVGTLILTGAAAHNEHARHIAHALKELAEGKAPDYKITDPDKLRRIAQRLGLDTQGKDDMTLAKEVAELALEDFARLPGFGENLWIKTTLNKERLEKYDECNIMPSGIFGDISDLLHQAHIGNDDDPVNITFSALRVALTDYAGMHIATDFSDVLFGTPKPIVTEANLGVLDANKVNIAVHGHNPLLSEKVVDAAKELEEEAKAAGAEGINIVGMCCTGNEVLMRRGVHLATSFASSELAIVTGAMDAVVVDVQCIMPGLKQVTECYHTRLITTSNIAKMPGTYHVPFHIENALESAKEIVRLGIEAFKQRVGKPVHIPEVKHKVVAGFSFEALMEIFAHVNQENPIRVLNDAILSGQLKGVVLFAGCNNLKRPQDESHITILKEMLKNDVFVVTTGCSAQAFAKHGFLRPEALELAGEGLKSFIKMLEEKAGLQGQLPPAFFMGSCVDNTRASDILVAMAKDLGVDTPKVPFVASAPEAMSGKAVSIGTWFVTLGVPVHVGTMPPLEGSELFYSITTQIASDVYGGYFMFEVDPVVAARKILNALEYRTWKLGVHKQTAEKFETALCQNY PRFRDLEHTSKPSKADRVWEPKNRKRTIDPAALEMLEKAEKDGVKTAFDRFVEMQPQCQFGYKGLCCRFCLQGPCRLPNDDPSKKGICGASAWTIAARSVGTLILTGAAAHNEHARHIAHALKELAEGKAPDYKITDPDKLRRIAQRLGLDTQGKDDMTLAKEVAELALEDFARLPGFGENLWIKTTLNKERLEKYDECNIMPSGIFGDISDLLHQAHIGNDDDPVNITFSALRVALTDYAGMHIATDFSDVLFGTPKPIVTEANLGVLDANKVNIAVHGHNPLLSEKVVDAAKELEEEAKAAGAEGINIVGMCCTGNEVLMRRGVHLATSFASSELAIVTGAMDAVVVDVQCIMPGLKQVTECYHTRLITTSNIAKMPGTYHVPFHIENALESAKEIVRLGIEAFKQRVGKPVHIPEVKHKVVAGFSFEALMEIFAHVNQENPIRVLNDAILSGQLKGVVLFAGCNNLKRPQDESHITILKEMLKNDVFVVTTGCSAQAFAKHGFLRPEALELAGEGLKSFIKMLEEKAGLQGQLPPAFFMGSCVDNTRASDILVAMAKDLGVDTPKVPFVASAPEAMSGKAVSIGTWFVTLGVPVHVGTMPPLEGSELFYSITTQIASDVYGGYFMFEVDPVVAARKILNALEYRTWKLGVHKQTAEKFETALCQNY 7zkt-a2-m1-cC_7zkt-a2-m1-cD Moss spermine/spermidine acetyl transferase (PpSSAT) in complex with CoA and lysine A0A2K1KKM6 A0A2K1KKM6 2.06 X-RAY DIFFRACTION 238 1.0 3218 (Physcomitrium patens) 3218 (Physcomitrium patens) 198 199 7zhc-a1-m1-cA_7zhc-a1-m1-cB 7zkt-a1-m1-cA_7zkt-a1-m1-cB 7zkt-a3-m1-cE_7zkt-a3-m1-cF 7zkt-a4-m1-cH_7zkt-a4-m1-cG AMEGTLTATVRLATPADAPSIAKLIRELADFEELSHACVVTEEKLHSSLWKLPPFQGPTVLMLEVCQQEVFEPIVRSVVLKNPIDDSAREGFRSPSTGTHTTVGFVLFFPNYSTFLAKGGYYIEDLYVRKPYRGTGLGTILLKSVVQQAKKLRAGRVEWCVLDWNVNAIKFYEGLGAKVMPEWRICRLTGEALEACAL AMEGTLTATVRLATPADAPSIAKLIRELADFEELSHACVVTEEKLHSSLWKLPPFQGPTVLMLEVCQQEEVFEPIVRSVVLKNPIDDSAREGFRSPSTGTHTTVGFVLFFPNYSTFLAKGGYYIEDLYVRKPYRGTGLGTILLKSVVQQAKKLRAGRVEWCVLDWNVNAIKFYEGLGAKVMPEWRICRLTGEALEACAL 7zl4-a1-m1-cA_7zl4-a1-m1-cC Cryo-EM structure of archaic chaperone-usher Csu pilus of Acinetobacter baumannii A0A6F8TDQ5 A0A6F8TDQ5 3.45 ELECTRON MICROSCOPY 16 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 141 155 7zl4-a1-m1-cD_7zl4-a1-m1-cB GCTVGGSQTEGNMNKFGTLNFGKTSGTWNNVLTAEVASAATGGNISVTCDGTDPVDFTVAIDGGERTDRTLKNTASADVVAYNVYRDAARTNLYVVNQPQQFTTVSGQATAVPIFGAIAPNTGTPKAQGDYKDTLLVTVNF AVTGQVDVKLNISTGCTVGGSQTEGNMNKFGTLNFGKTSGTWNNVLTAEVASAATGGNISVTCDGTDPVDFTVAIDGGERTDRTLKNTASADVVAYNVYRDAARTNLYVVNQPQQFTTVSGQATAVPIFGAIAPNTGTPKAQGDYKDTLLVTVNF 7zl4-a1-m1-cB_7zl4-a1-m1-cC Cryo-EM structure of archaic chaperone-usher Csu pilus of Acinetobacter baumannii A0A6F8TDQ5 A0A6F8TDQ5 3.45 ELECTRON MICROSCOPY 152 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 155 155 7zl4-a1-m1-cA_7zl4-a1-m1-cB 7zl4-a1-m1-cD_7zl4-a1-m1-cC AVTGQVDVKLNISTGCTVGGSQTEGNMNKFGTLNFGKTSGTWNNVLTAEVASAATGGNISVTCDGTDPVDFTVAIDGGERTDRTLKNTASADVVAYNVYRDAARTNLYVVNQPQQFTTVSGQATAVPIFGAIAPNTGTPKAQGDYKDTLLVTVNF AVTGQVDVKLNISTGCTVGGSQTEGNMNKFGTLNFGKTSGTWNNVLTAEVASAATGGNISVTCDGTDPVDFTVAIDGGERTDRTLKNTASADVVAYNVYRDAARTNLYVVNQPQQFTTVSGQATAVPIFGAIAPNTGTPKAQGDYKDTLLVTVNF 7zmc-a1-m1-cA_7zmc-a1-m1-cB Ketosynthase domain of module 4 from Brevibacillus Brevis orphan BGC11 C0ZGQ6 C0ZGQ6 3.1 X-RAY DIFFRACTION 148 0.996 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 532 539 ALDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGNVGVYVGVMYEEYQLSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL GALDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGNVGVYVGVMYEEYQLSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWLP 7zn1-a1-m1-cB_7zn1-a1-m1-cD Avidin + Biotin-Tempo P02701 P02701 2.33 X-RAY DIFFRACTION 28 1.0 9031 (Gallus gallus) 9031 (Gallus gallus) 111 121 5hlm-a1-m1-cB_5hlm-a1-m1-cD CSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVTKESPLHGTQNTITQPTFGFTVNWKFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGINIFTRL KCSLTGKWTNDLGSNMTIGAVNSRGEFTGTYITAVTATSNEIKESPLHGTQNTINKRTQPTFGFTVNWKFSESTTVFTGQCFIDRNGKEVLKTMWLLRSSVNDIGDDWKATRVGINIFTRL 7zn4-a1-m1-cg_7zn4-a1-m1-ce Tail tip of siphophage T5 : bent fibre after interaction with its bacterial receptor FhuA Q6QGF0 Q6QGF0 4.32 ELECTRON MICROSCOPY 480 1.0 2695836 (Escherichia phage T5) 2695836 (Escherichia phage T5) 589 671 7zn2-a1-m1-cg_7zn2-a1-m1-ce MISNNAPAKMVLNSVLTGYTLAYIQHSIYSDYDVIGRSFWLKEGSNVTRRDFTGIDTFSVTINNLKPTTTYEVQGAFYDSIIDSELLNAQIGINLSDKQTFKMKSAPRITGARCESEPVDVGVGAPIVYIDTTGEADYCTIELKDNSNANNPWVKYYVGALMPTIMFGGVPIGSYKVRISGQISLPDGVTIDSSGYYEYPNVFEVRYNFVPPAAPINIVFKAARYDLRVQWDWNRGAGANVREFVLSYIDSAEFVRTGWTKAQKINVGAAQSATIISFPWKVEHKFKVSSIAWGPDAQDVTDSAVQTFILNESTPLDNSFVNETGIEVNYAYIKGKIKDGSTWKQTFLIDAATGAINIGLLDAEGKAPISFDPVKKIVNVDGSVITKTINAANFVMTNLTGQDNPAIYTQGKTWGDTKSGIWMGMDNVTAKPKLDIGNATQYIRYDGNILRISSEVVIGTPNQRGPGMYSLAIANLTAWNDSQANSFFTSNFGSGPVKYDVLTEYKSGAPGTAFTRQWNGSAWTSPAMVLHGDMIVNGTVTASKIVANNAFLSQIGVNIIYDRAAALSSNPEGSYKMKIDLQNGYIHIR MISNNAPAKMVLNSVLTGYTLAYIQHSIYSDYDVIGRSFWLKEGSNVTRRDFTGIDTFSVTINNLKPTTTYEVQGAFYDSIIDSELLNAQIGINLSDKQTFKMKSAPRITGARCESEPVDVGVGAPIVYIDTTGEADYCTIELKDNSNANNPWVKYYVGALMPTIMFGGVPIGSYKVRISGQISLPDGVTIDSSGYYEYPNVFEVRYNFVPPAAPINIVFKAARYDLRVQWDWNRGAGANVREFVLSYIDSAEFVRTGWTKAQKINVGAAQSATIISFPWKVEHKFKVSSIAWGPDAQDVTDSAVQTFILNESTPLDNSFVNETGIEVNYAYIKGKIKDGSTWKQTFLIDAATGAINIGLLDAEGKAPISFDPVKKIVNVDGSVITKTINAANFVMTNLTGQDNPAIYTQGKTWGDTKSGIWMGMDNVTAKPKLDIGNATQYIRYDGNILRISSEVVIGTPNGDIDIQTGIQGKQTVFIYIIGTSLPAKPTSPAYPPSGWSKTPPNRTSNTQNIYCSTGTLDPVTNQLVSGTSWSDVVQWSGTEQRGPGMYSLAIANLTAWNDSQANSFFTSNFGSGPVKYDVLTEYKSGAPGTAFTRQWNGSAWTSPAMVLHGDMIVNGTVTASKIVANNAFLSQIGVNIIYDRAAALSSNPEGSYKMKIDLQNGYIHIR 7zn4-a1-m1-cg_7zn4-a1-m1-cf Tail tip of siphophage T5 : bent fibre after interaction with its bacterial receptor FhuA Q6QGF0 Q6QGF0 4.32 ELECTRON MICROSCOPY 619 0.998 2695836 (Escherichia phage T5) 2695836 (Escherichia phage T5) 589 669 7zn2-a1-m1-cf_7zn2-a1-m1-ce 7zn2-a1-m1-cg_7zn2-a1-m1-cf 7zn4-a1-m1-cf_7zn4-a1-m1-ce MISNNAPAKMVLNSVLTGYTLAYIQHSIYSDYDVIGRSFWLKEGSNVTRRDFTGIDTFSVTINNLKPTTTYEVQGAFYDSIIDSELLNAQIGINLSDKQTFKMKSAPRITGARCESEPVDVGVGAPIVYIDTTGEADYCTIELKDNSNANNPWVKYYVGALMPTIMFGGVPIGSYKVRISGQISLPDGVTIDSSGYYEYPNVFEVRYNFVPPAAPINIVFKAARYDLRVQWDWNRGAGANVREFVLSYIDSAEFVRTGWTKAQKINVGAAQSATIISFPWKVEHKFKVSSIAWGPDAQDVTDSAVQTFILNESTPLDNSFVNETGIEVNYAYIKGKIKDGSTWKQTFLIDAATGAINIGLLDAEGKAPISFDPVKKIVNVDGSVITKTINAANFVMTNLTGQDNPAIYTQGKTWGDTKSGIWMGMDNVTAKPKLDIGNATQYIRYDGNILRISSEVVIGTPNQRGPGMYSLAIANLTAWNDSQANSFFTSNFGSGPVKYDVLTEYKSGAPGTAFTRQWNGSAWTSPAMVLHGDMIVNGTVTASKIVANNAFLSQIGVNIIYDRAAALSSNPEGSYKMKIDLQNGYIHIR MISNNAPAKMVLNSVLTGYTLAYIQHSIYSDYDVIGRSFWLKEGSNVTRRDFTGIDTFSVTINNLKPTTTYEVQGAFYDSIIDSELLNAQIGINLSDKQTFKMKSAPRITGARCESEPVDVGVGAPIVYIDTTGEADYCTIELKDNSNANNPWVKYYVGALMPTIMFGGVPIGSYKVRISGQISLPDGVTIDSSGYYEYPNVFEVRYNFVPPAAPINIVFKAAYDLRVQWDWNRGAGANVREFVLSYIDSAEFVRTGWTKAQKINVGAAQSATIISFPWKVEHKFKVSSIAWGPDAQDVTDSAVQTFILNESTPLDNSFVNETGIEVNYAYIKGKIKDGSTWKQTFLIDAATGAINIGLLDAEGKAPISFDPVKKIVNVDGSVITKTINAANFVMTNLTGQDNPAIYTQGKTWGDTKSGIWMGMDNVTAKPKLDIGNATQYIRYDGNILRISSEVVIGTPNGDIDIQTGIQGKQTVFIYIIGTSLPAKPTSPAYPPSGWSKTPPNRTSNTQNIYCSTGTLDPVTNQLVSGTSWSDVVQWSGTQRGPGMYSLAIANLTAWNDSQANSFFTSNFGSGPVKYDVLTEYKSGAPGTAFTRQWNGSAWTSPAMVLHGDMIVNGTVTASKIVANNAFLSQIGVNIIYDRAAALSSNPEGSYKMKIDLQNGYIHIR 7znl-a1-m1-cG_7znl-a1-m1-cO Structure of the human TREX core THO-UAP56 complex Q6I9Y2 Q6I9Y2 3.45 ELECTRON MICROSCOPY 22 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 161 164 7apk-a1-m1-cg_7apk-a1-m1-co 7apk-a1-m1-cG_7apk-a1-m1-cO 7znk-a1-m1-cg_7znk-a1-m1-co 7znk-a1-m1-cG_7znk-a1-m1-cO 7znl-a1-m1-cg_7znl-a1-m1-co DDEVIRKRLDDRRINLLVKSFIKWCNSGEGYSQYQRMLSTLSQCEFSMGKTLLVYDMNLREMENYEKIYKEIECSIAGAHEKIAECKKQILQAKRIRKNRQEYDALAKVIQHHETLKELEALGKELEHLSHIKESVEDKLELRRKQFHVLLSTIHELQQTL DDEVIRKRLDDRRINLLVKSFIKWCNSGGYSQYQRMLSTLSQCEFSMGKTLLVYDMNLREMENYEKIYKEIECSIAGAHEKIAECKKQILQAKRIRKNRQEYDALAKVIQHHPDRHETLKELEALGKELEHLSHIKESVEDKLELRRKQFHVLLSTIHELQQTL 7znm-a1-m1-cB_7znm-a1-m1-cA Artificial Unspecific Peroxygenase expressed in Pichia pastoris at 2.01 Angstrom resolution 2.01 X-RAY DIFFRACTION 47 1.0 182057 (Marasmius rotula) 182057 (Marasmius rotula) 231 232 7znv-a1-m1-cA_7znv-a1-m2-cA 7znw-a1-m1-cA_7znw-a1-m1-cC QHPWKAPGPNDLRSPCPGLNTLANHGFLPRNGRNITIPMIVQAGFDGYNVQPDILILAAKVGLLTSPEPDTFTLDDLKLHGTIEHDASLSREDFALGDNLHFNEAIFNTLANSNPGSDVYNITSAGQVLKDRLADSLARNPNVTNTGKEFTIRTLESAFYLSVMGNATTGEAPKNFVQIFFREERLPIEEGWKRSTTPITSDTLNPIAGQISEASNWKPNPDQCPWIVLSP SQHPWKAPGPNDLRSPCPGLNTLANHGFLPRNGRNITIPMIVQAGFDGYNVQPDILILAAKVGLLTSPEPDTFTLDDLKLHGTIEHDASLSREDFALGDNLHFNEAIFNTLANSNPGSDVYNITSAGQVLKDRLADSLARNPNVTNTGKEFTIRTLESAFYLSVMGNATTGEAPKNFVQIFFREERLPIEEGWKRSTTPITSDTLNPIAGQISEASNWKPNPDQCPWIVLSP 7zny-a1-m1-cB_7zny-a1-m1-cD Cryo-EM structure of the canine distemper virus tetrameric attachment glycoprotein Q9QPQ8 Q9QPQ8 3.26 ELECTRON MICROSCOPY 31 1.0 11232 () 11232 () 469 470 RDLHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC FRDLHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC 7zny-a1-m1-cC_7zny-a1-m1-cA Cryo-EM structure of the canine distemper virus tetrameric attachment glycoprotein Q9QPQ8 Q9QPQ8 3.26 ELECTRON MICROSCOPY 26 1.0 11232 () 11232 () 467 473 LHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC EFDFRDLHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC 7zny-a1-m1-cC_7zny-a1-m1-cB Cryo-EM structure of the canine distemper virus tetrameric attachment glycoprotein Q9QPQ8 Q9QPQ8 3.26 ELECTRON MICROSCOPY 11 1.0 11232 () 11232 () 467 469 LHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC RDLHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC 7zny-a1-m1-cC_7zny-a1-m1-cD Cryo-EM structure of the canine distemper virus tetrameric attachment glycoprotein Q9QPQ8 Q9QPQ8 3.26 ELECTRON MICROSCOPY 121 1.0 11232 () 11232 () 467 470 7zny-a1-m1-cB_7zny-a1-m1-cA LHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC FRDLHWCINPPSKIKVNFTNYCDTIGIRKSIASAANPILLSALSGGRGDIFPPYRCSGATTSVGRVFPLSVSLSMSLISRTSEIINMLTAISDGVYGKTYLLVPDYIEGGFDTQKIRVFEIGFIKRWLNDMPLLQTTNYMVLPENSKAKVCTIAVGELTLASLCVDESTVLLYHDSDGSQDGILVVTLGIFGATPMDQVEEVIPVAHPSVEKIHITNHRGFIKDSIATWMVPALVSEKQEEQKNCLESACQRKSYPMCNQTSWEPFGGGQLPSYGRLTLPLDPSIDLQLNISFTYGPVILNGDGMDYYESPLLDSGWLTIPPKNGTVLGLINKASRGDQFTVIPHVLTFAPRESSGNCYLPIQTSQIMDKDVLTESNLVVLPTQNFRYVIATYDISRGDHAIVYYVYDPIRAISYTYPFRLTTKGRPDFLRIECFVWDDDLWCHQFYRFEADSTNSTTSVENLVRIRFSC 7zo9-a1-m1-cA_7zo9-a1-m1-cB cryo-EM structure of CGT ABC transporter in vanadate trapped state Q2YQ73 Q2YQ73 3.5 ELECTRON MICROSCOPY 347 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 556 556 7znu-a1-m1-cA_7znu-a1-m1-cB MSLLKIYWRAMQYLAVERTATITMCVASVLVALVTLAEPVLFGRVIQSISDKGDIFSPLLMWAALGGFNIMAAVFVARGADRLAHRRRLGVMIDSYERLITMPLAWHQKRGTSNALHTLIRATDSLFTLWLEFMRQHLTTVVALATLIPVAMTMDMRMSLVLIVLGVIYVMIGQLVMRKTKDGQAAVEKHHHKLFEHVSDTISNVSVVQSYNRIASETQALRDYAKNLENAQFPVLNWWALASGLNRMASTFSMVVVLVLGAYFVTKGQMRVGDVIAFIGFAQLMIGRLDQISAFINQTVTARAKLEEFFQMEDATADRQEPENVADLNDVKGDIVFDNVTYEFPNSGQGVYDVSFEVKPGQTVAIVGPTGAGKTTLINLLQRVFDPAAGRIMIDGTDTRTVSRRSLRHAIATVFQDAGLFNRSVEDNIRVGRANATHEEVHAAAKAAAAHDFILAKSEGYDTFVGERGSQLSGGERQRLAIARAILKDSPILVLDEATSALDVETEEKVTQAVDELSHNRTTFIIAHRLSTVRSADLVLFMDKGHLVESGSFNEL MSLLKIYWRAMQYLAVERTATITMCVASVLVALVTLAEPVLFGRVIQSISDKGDIFSPLLMWAALGGFNIMAAVFVARGADRLAHRRRLGVMIDSYERLITMPLAWHQKRGTSNALHTLIRATDSLFTLWLEFMRQHLTTVVALATLIPVAMTMDMRMSLVLIVLGVIYVMIGQLVMRKTKDGQAAVEKHHHKLFEHVSDTISNVSVVQSYNRIASETQALRDYAKNLENAQFPVLNWWALASGLNRMASTFSMVVVLVLGAYFVTKGQMRVGDVIAFIGFAQLMIGRLDQISAFINQTVTARAKLEEFFQMEDATADRQEPENVADLNDVKGDIVFDNVTYEFPNSGQGVYDVSFEVKPGQTVAIVGPTGAGKTTLINLLQRVFDPAAGRIMIDGTDTRTVSRRSLRHAIATVFQDAGLFNRSVEDNIRVGRANATHEEVHAAAKAAAAHDFILAKSEGYDTFVGERGSQLSGGERQRLAIARAILKDSPILVLDEATSALDVETEEKVTQAVDELSHNRTTFIIAHRLSTVRSADLVLFMDKGHLVESGSFNEL 7zoa-a1-m1-cA_7zoa-a1-m1-cB cryo-EM structure of CGT ABC transporter in presence of CBG substrate Q2YQ73 Q2YQ73 4.0 ELECTRON MICROSCOPY 214 1.0 359391 (Brucella abortus 2308) 359391 (Brucella abortus 2308) 570 570 7zo8-a1-m1-cA_7zo8-a1-m1-cB MSLLKIYWRAMQYLAVERTATITMCVASVLVALVTLAEPVLFGRVIQSISDKGDIFSPLLMWAALGGFNIMAAVFVARGADRLAHRRRLGVMIDSYERLITMPLAWHQKRGTSNALHTLIRATDSLFTLWLEFMRQHLTTVVALATLIPVAMTMDMRMSLVLIVLGVIYVMIGQLVMRKTKDGQAAVEKHHHKLFEHVSDTISNVSVVQSYNRIASETQALRDYAKNLENAQFPVLNWWALASGLNRMASTFSMVVVLVLGAYFVTKGQMRVGDVIAFIGFAQLMIGRLDQISAFINQTVTARAKLEEFFQMEDATADRQEPENVADLNDVKGDIVFDNVTYEFPNSGQGVYDVSFEVKPGQTVAIVGPTGAGKTTLINLLQRVFDPAAGRIMIDGTDTRTVSRRSLRHAIATVFQDAGLFNRSVEDNIRVGRANATHEEVHAAAKAAAAHDFILAKSEGYDTFVGERGSQLSGGERQRLAIARAILKDSPILVLDEATSALDVETEEKVTQAVDELSHNRTTFIIAHRLSTVRSADLVLFMDKGHLVESGSFNELAERGGRFSDLLRAG MSLLKIYWRAMQYLAVERTATITMCVASVLVALVTLAEPVLFGRVIQSISDKGDIFSPLLMWAALGGFNIMAAVFVARGADRLAHRRRLGVMIDSYERLITMPLAWHQKRGTSNALHTLIRATDSLFTLWLEFMRQHLTTVVALATLIPVAMTMDMRMSLVLIVLGVIYVMIGQLVMRKTKDGQAAVEKHHHKLFEHVSDTISNVSVVQSYNRIASETQALRDYAKNLENAQFPVLNWWALASGLNRMASTFSMVVVLVLGAYFVTKGQMRVGDVIAFIGFAQLMIGRLDQISAFINQTVTARAKLEEFFQMEDATADRQEPENVADLNDVKGDIVFDNVTYEFPNSGQGVYDVSFEVKPGQTVAIVGPTGAGKTTLINLLQRVFDPAAGRIMIDGTDTRTVSRRSLRHAIATVFQDAGLFNRSVEDNIRVGRANATHEEVHAAAKAAAAHDFILAKSEGYDTFVGERGSQLSGGERQRLAIARAILKDSPILVLDEATSALDVETEEKVTQAVDELSHNRTTFIIAHRLSTVRSADLVLFMDKGHLVESGSFNELAERGGRFSDLLRAG 7zop-a1-m1-cA_7zop-a1-m1-cB Carbohydrate binding domain CBMXX from a multi-catalytic glucanase-chitinase from Chitinophaga pinensis DSM 2588 in complex with sophorose. 1.68 X-RAY DIFFRACTION 33 1.0 485918 (Chitinophaga pinensis DSM 2588) 485918 (Chitinophaga pinensis DSM 2588) 125 129 7zoo-a1-m1-cA_7zoo-a1-m1-cB KTIWLQGFNSKYVNSRNGQGAMWCDSDTPQAWELFTVIDAGNGKIALRGNNGLYVSSENGEQAMTCNRPAIGWEVFDWISNSDGSVSLRGSNGMYVSSENGEQAITCNRPAIDGWERFNWAAATL GSKTIWLQGFNSKYVNSRNGQGAMWCDSDTPQAWELFTVIDAGNGKIALRGNNGLYVSSENGEQAMTCNRPAIGWEVFDWISNSDGSVSLRGSNGMYVSSENGEQAITCNRPAIDGWERFNWAAATLEH 7zp0-a2-m1-cC_7zp0-a2-m1-cD Crystal structure of CusS histidine kinase catalytic core from Escherichia coli A0A140NBW3 A0A140NBW3 1.398 X-RAY DIFFRACTION 111 1.0 866768 (Escherichia coli 'BL21-Gold(DE3)pLysS AG') 866768 (Escherichia coli 'BL21-Gold(DE3)pLysS AG') 217 217 7zp0-a1-m1-cA_7zp0-a1-m1-cB 7zp0-a3-m1-cE_7zp0-a3-m1-cF GAMADIAHEIRTPITNLITQTEIALSQSRSQKELEDVLYSNLEELTRMAKMVSDMLFLAQADNNQLIPEKKMLNLADEVGKVFDFFEALAEDRGVELRFVGDKCQVAGDPLMLRRALSNLLSNALRYTPPSEAIVVRCQTVNHQVQVSVENPGTPIAPEHLPRLFDRFYRVAPSRQRKGEGSGIGLAIVKSIVVAHKGTVAVTSDARGTRFVITLPA GAMADIAHEIRTPITNLITQTEIALSQSRSQKELEDVLYSNLEELTRMAKMVSDMLFLAQADNNQLIPEKKMLNLADEVGKVFDFFEALAEDRGVELRFVGDKCQVAGDPLMLRRALSNLLSNALRYTPPSEAIVVRCQTVNHQVQVSVENPGTPIAPEHLPRLFDRFYRVAPSRQRKGEGSGIGLAIVKSIVVAHKGTVAVTSDARGTRFVITLPA 7zpf-a2-m2-cD_7zpf-a2-m1-cB Three-dimensional structure of AIP56, a short-trip single chain AB toxin from Photobacterium damselae subsp. piscicida. Q2VL32 Q2VL32 2.54 X-RAY DIFFRACTION 44 0.998 38294 (Photobacterium damselae subsp. piscicida) 38294 (Photobacterium damselae subsp. piscicida) 449 452 7zpf-a1-m1-cC_7zpf-a1-m1-cA DKPDASDDKYADYVVRLGSEHPLNHTQIIELSSAVSRAVLLSYPNIIDRYTAAATEYTVIDALFHSPTFRHIVSFGLHNQQENLGHIRYTNEYEINNNREDEFSLVSEVSYDDIKSSNAQQVPLVAFYEAREDRATGTPIVNMGVAPSLFSGRYSWWQEALIHEIVHHVTGSSDTHEENKQGPTEILAQMVAAELHWAIPTFKGYSDPARVEAIQERDFHSLLNMFQRHGSELGFLFTRLATIAKGKKASPDFGTLTSFCSEGISSFPKYPDHDDDFNGGGAFFLECTFDVLNRIEPVDDSIKFEGGNLLIKNDFKNLNLRVAQLSFLNAKKGSGFYRKNWDSWKSWYQASPYGITFNDGSFSIGFSSRKHINDNTKDDNFVKLAGQMFFDKNKRPVALVITEPSYIYKDGKWHYEAQDDWDQRLFKDSTLSLDPHAPQFINLEHHHHH KPDASDDKYADYVVRLGSEHPLNHTQIIELSSAVSRAVLLSYPNIIDRYTAAATEYTVIDALFHSPTFRHIVSFGLHNQQENLGHIRYTNEYEINNNREDEFSLVSEVSYDDIKSSNAQQVPLVAFYEAREDRATGTPIVNMGVAPSLFSGRYSWWQEALIHEIVHHVTGSSDTHEENKQGPTEILAQMVAAELHWAIPTFKGYSDPARVEAIQERDFHSLLNMFQRHGSELGFLFTRLATIAKGKKASPDFGTLTSFCSEGISSFPKYPDHDDDFNGGGAFFLVECTFDVLNRIEPVDDSIKFEGGNLLIKNDFKNLNLRVAQLSFLNAKKGSGFYRKNWDSWKSWYQASPYGITFNDGSFSIGFSSRKHINDNTKDDNFVKLNYAGQMFFDKNKRPVALVITEPWSYIYKDGKWHYEAQDDWDQRLFKDSTLSLDPHAPQFINLEHHHHH 7zpn-a1-m1-cA_7zpn-a1-m1-cB Crystal Structure of IscR from Dinoroseobacter shibae A8LL11 A8LL11 1.94 X-RAY DIFFRACTION 171 1.0 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 398580 (Dinoroseobacter shibae DFL 12 = DSM 16493) 128 128 EVLFQGPGVKLSTKGRYAMVAMADLAEAPADKLVTLSEIAERQSISLTYLEQLFVKLRRAKLVESVRGPGGGYRLARAPDAIRVSDVLQAVDGSRAQSMTNRLWEGLSAHVYVFLHQTRLSDVVTNQL EVLFQGPGVKLSTKGRYAMVAMADLAEAPADKLVTLSEIAERQSISLTYLEQLFVKLRRAKLVESVRGPGGGYRLARAPDAIRVSDVLQAVDGSRAQSMTNRLWEGLSAHVYVFLHQTRLSDVVTNQL 7zpr-a1-m1-cI_7zpr-a1-m1-cM KtrAB complex with N-terminal deletion of KtrB 1-19 O87953 O87953 3.56 ELECTRON MICROSCOPY 242 1.0 663 (Vibrio alginolyticus) 663 (Vibrio alginolyticus) 426 428 7zp9-a1-m1-cC_7zp9-a1-m1-cG 7zp9-a1-m1-cI_7zp9-a1-m1-cM 7zpo-a1-m1-cI_7zpo-a1-m1-cM 7zpr-a1-m1-cC_7zpr-a1-m1-cG KGGEPRIILLSFLGVLLPSAVLLTLPVFSVSGLSITDALFTATSAISVTGLGVVDTGQHFTLAGKILLMCLMQIGGLGQMTLSAVLLYMFGVRLSLRQQALAVNLRRLVKKIVTFALVAEAIGFVFLSYRWVPEMGWQTGMFYALFHSISAFNNAGFALFSDSMMSFVNDPLVSFTLAGLFIFGGLGFTVIGDVWRHWRKGFHFLHIHTKIMLIATPLLLLVGTVLFWLLERHNPNTMGSLTTGGQWLAAFFQSASARTAGFNSVDLTQFTQPALLIMIVLMLIGAGSTSTGGGIKVSTFAVAFMATWTFLRQKKHVVMFKRTVNWPTVTKSLAIIVVSGAILTTAMFLLMLTEKASFDKVMFETISAFATVGLTAGLTAELSEPGKYIMIVVMIIGRIGPLTLAYMLARPEPTLIKYPEDTVLTG AKGGEPRIILLSFLGVLLPSAVLLTLPVFSVSGLSITDALFTATSAISVTGLGVVDTGQHFTLAGKILLMCLMQIGGLGQMTLSAVLLYMFGVRLSLRQQALAQVNLRRLVKKIVTFALVAEAIGFVFLSYRWVPEMGWQTGMFYALFHSISAFNNAGFALFSDSMMSFVNDPLVSFTLAGLFIFGGLGFTVIGDVWRHWRKGFHFLHIHTKIMLIATPLLLLVGTVLFWLLERHNPNTMGSLTTGGQWLAAFFQSASARTAGFNSVDLTQFTQPALLIMIVLMLIGAGSTSTGGGIKVSTFAVAFMATWTFLRQKKHVVMFKRTVNWPTVTKSLAIIVVSGAILTTAMFLLMLTEKASFDKVMFETISAFATVGLTAGLTAELSEPGKYIMIVVMIIGRIGPLTLAYMLARPEPTLIKYPEDTVLTG 7zq7-a1-m1-cB_7zq7-a1-m1-cC Structure of RpF-1 Q19VG8 Q19VG8 3 X-RAY DIFFRACTION 56 1.0 40324 (Stenotrophomonas maltophilia) 40324 (Stenotrophomonas maltophilia) 267 267 7zq7-a1-m1-cA_7zq7-a1-m1-cB 7zq7-a1-m1-cA_7zq7-a1-m1-cC 7zq7-a2-m1-cD_7zq7-a2-m1-cF 7zq7-a2-m1-cE_7zq7-a2-m1-cD 7zq7-a2-m1-cE_7zq7-a2-m1-cF PTLRITEEPERDVYWIHMHANLVNQPGRPCFASRLVDDIVDYQRELGDRLSASHALSPHVVLASDSDVFNLGGDLELFCRLIREGDRARLLDYAQRCVRGVHAFHAGLGTRAHSIALVQGNALGGGFEAALSCHTIVAEEGVLMGLPEVLFDLFPGMGAYSFLCQRISPRLAEKIMLEGNLYTASQLKEMGLVDIVVPVGEGVAAVEQVIKESRRIPHAWAAMREVNEIATMVPLHEMMRITEIWVDTAMQLGEKSLRTMDRLVRAQ PTLRITEEPERDVYWIHMHANLVNQPGRPCFASRLVDDIVDYQRELGDRLSASHALSPHVVLASDSDVFNLGGDLELFCRLIREGDRARLLDYAQRCVRGVHAFHAGLGTRAHSIALVQGNALGGGFEAALSCHTIVAEEGVLMGLPEVLFDLFPGMGAYSFLCQRISPRLAEKIMLEGNLYTASQLKEMGLVDIVVPVGEGVAAVEQVIKESRRIPHAWAAMREVNEIATMVPLHEMMRITEIWVDTAMQLGEKSLRTMDRLVRAQ 7zqb-a1-m1-cf_7zqb-a1-m1-cg Tail tip of siphophage T5 : full structure Q7Y5E2 Q7Y5E2 3.88 ELECTRON MICROSCOPY 43 1.0 2695836 (Escherichia phage T5) 2695836 (Escherichia phage T5) 35 35 7zhj-a1-m1-ce_7zhj-a1-m1-cf 7zhj-a1-m1-ce_7zhj-a1-m1-cg 7zhj-a1-m1-cf_7zhj-a1-m1-cg 7zqb-a1-m1-ce_7zqb-a1-m1-cf 7zqb-a1-m1-ce_7zqb-a1-m1-cg ASFRDFASNNSTAFRDAVELALNENGTTLKSLGNS ASFRDFASNNSTAFRDAVELALNENGTTLKSLGNS 7zqb-a1-m1-ci_7zqb-a1-m1-cj Tail tip of siphophage T5 : full structure Q6QGF0 Q6QGF0 3.88 ELECTRON MICROSCOPY 427 1.0 2695836 (Escherichia phage T5) 2695836 (Escherichia phage T5) 527 527 7zlv-a1-m1-ch_7zlv-a1-m1-ci 7zlv-a1-m1-ch_7zlv-a1-m1-cj 7zlv-a1-m1-ci_7zlv-a1-m1-cj 7zqb-a1-m1-ch_7zqb-a1-m1-ci 7zqb-a1-m1-ch_7zqb-a1-m1-cj MISNNAPAKMVLNSVLTGYTLAYIQHSIYSDYDVIGRSFWLKEGSNVTRRDFTGIDTFSVTINNLKPTTTYEVQGAFYDSIIDSELLNAQIGINLSDKQTFKMKSAPRITGARCESEPVDVGVGAPIVYIDTTGEADYCTIELKDNSNANNPWVKYYVGALMPTIMFGGVPIGSYKVRISGQISLPDGVTIDSSGYYEYPNVFEVRYNFVPPAAPINIVFKAARIADGKERYDLRVQWDWNRGAGANVREFVLSYIDSAEFVRTGWTKAQKINVGAAQSATIISFPWKVEHKFKVSSIAWGPDAQDVTDSAVQTFILNESTPLDNSFVNETGIEVNYAYIKGKIKDGSTWKQTFLIDAATGAINIGLLDAEGKAPISFDPVKKIVNVDGSVITKTINAANFVMTNLTGQDNPAIYTQGKTWGDTKSGIWMGMDNVTAKPKLDIGNATQYIRYDGNILRISSEVVAMVLHGDMIVNGTVTASKIVANNAFLSQIGVNIIYDRAAALSSNPEGSYKMKIDLQNGYIHIR MISNNAPAKMVLNSVLTGYTLAYIQHSIYSDYDVIGRSFWLKEGSNVTRRDFTGIDTFSVTINNLKPTTTYEVQGAFYDSIIDSELLNAQIGINLSDKQTFKMKSAPRITGARCESEPVDVGVGAPIVYIDTTGEADYCTIELKDNSNANNPWVKYYVGALMPTIMFGGVPIGSYKVRISGQISLPDGVTIDSSGYYEYPNVFEVRYNFVPPAAPINIVFKAARIADGKERYDLRVQWDWNRGAGANVREFVLSYIDSAEFVRTGWTKAQKINVGAAQSATIISFPWKVEHKFKVSSIAWGPDAQDVTDSAVQTFILNESTPLDNSFVNETGIEVNYAYIKGKIKDGSTWKQTFLIDAATGAINIGLLDAEGKAPISFDPVKKIVNVDGSVITKTINAANFVMTNLTGQDNPAIYTQGKTWGDTKSGIWMGMDNVTAKPKLDIGNATQYIRYDGNILRISSEVVAMVLHGDMIVNGTVTASKIVANNAFLSQIGVNIIYDRAAALSSNPEGSYKMKIDLQNGYIHIR 7zqy-a1-m1-cA_7zqy-a1-m1-cC Chaetomium thermophilum Rad50 Zn hook G0SHW7 G0SHW7 2.51 X-RAY DIFFRACTION 24 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 175 175 QQELKQAEYQLSNARNLHNKLTNEMEACMRAVQTAMKEARDLDSAPPVDEYITMLETDEKELAEVETALKLYDELKKHYSTIKDRALRFNKCYICDRDFTNQEAAKTRLLEKVAKRLGDEEKKELLEDQAAFMKSLDILRAVRVKYDTYQRLSSELPQLSREIDSETNRREDLVR QQELKQAEYQLSNARNLHNKLTNEMEACMRAVQTAMKEARDLDSAPPVDEYITMLETDEKELAEVETALKLYDELKKHYSTIKDRALRFNKCYICDRDFTNQEAAKTRLLEKVAKRLGDEEKKELLEDQAAFMKSLDILRAVRVKYDTYQRLSSELPQLSREIDSETNRREDLVR 7zqy-a1-m1-cA_7zqy-a1-m1-cD Chaetomium thermophilum Rad50 Zn hook G0SHW7 G0SHW7 2.51 X-RAY DIFFRACTION 13 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 175 177 7zqy-a1-m1-cC_7zqy-a1-m1-cB QQELKQAEYQLSNARNLHNKLTNEMEACMRAVQTAMKEARDLDSAPPVDEYITMLETDEKELAEVETALKLYDELKKHYSTIKDRALRFNKCYICDRDFTNQEAAKTRLLEKVAKRLGDEEKKELLEDQAAFMKSLDILRAVRVKYDTYQRLSSELPQLSREIDSETNRREDLVR QQELKQAEYQLSNARNLHNKLTNEMEACMRAVQTAMKEARDLDSAPPVDEYITMLETDEKELAEVETALKLYDELKKHYSTIKDRALRFNKCYICDRDFTNQEAAKTRLLEKVAKRLGDEEKKELLEDQAAFMKSLDILRAVRVKYDTYQRLSSELPQLSREIDSETNRREDLVRRL 7zqy-a1-m1-cC_7zqy-a1-m1-cD Chaetomium thermophilum Rad50 Zn hook G0SHW7 G0SHW7 2.51 X-RAY DIFFRACTION 68 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 175 177 7zqy-a1-m1-cA_7zqy-a1-m1-cB QQELKQAEYQLSNARNLHNKLTNEMEACMRAVQTAMKEARDLDSAPPVDEYITMLETDEKELAEVETALKLYDELKKHYSTIKDRALRFNKCYICDRDFTNQEAAKTRLLEKVAKRLGDEEKKELLEDQAAFMKSLDILRAVRVKYDTYQRLSSELPQLSREIDSETNRREDLVR QQELKQAEYQLSNARNLHNKLTNEMEACMRAVQTAMKEARDLDSAPPVDEYITMLETDEKELAEVETALKLYDELKKHYSTIKDRALRFNKCYICDRDFTNQEAAKTRLLEKVAKRLGDEEKKELLEDQAAFMKSLDILRAVRVKYDTYQRLSSELPQLSREIDSETNRREDLVRRL 7zr1-a1-m1-cC_7zr1-a1-m1-cD Chaetomium thermophilum Mre11-Rad50-Nbs1 complex bound to ATPyS (composite structure) G0SHW7 G0SHW7 4.0 ELECTRON MICROSCOPY 155 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 779 780 SKIEKLSILGVRSFGPHHPETIAFNTPLTLIVGYNGSGKTTVIECLKYATTGELPPNSTRNGAFIHDPDLVGEKEVRAQVKLSFRSTIGESYVVTRNIQLLVQRNNKRTQKTLEGSLLLRNNGERTVISTRVAELDKLVSEKLGVPPAILDAVIFCHQDDSLWPMSEPAALKKRFDEIFEAQKYTKVIENIRLLKKKKGDELKILKEREVQDKANKERAEKVDRLMAQLTREILEAREKCNELSKQMEEESAKIKDKYEQANSFLKIMNDLQTKTEKLEYKKDAIVELRSRIEELPDPDEVLRNTLDEYEQTINRIVADRDHKAAQFHDLQAELKSARDQHTAKAAEQGKHQSDKEKYERQLVARERMIREAAERHEIRGYNGDLDDRRIAIFNERIQKILNDKRRELERLQEQKVAAERDAIAQTVSELNMINSEIQEYLDRGGPSSLAANQRAIANLETQMANLEGEMRELTVQINKLNKEIDNSDAKKRNIADNLTYRKNLREKDALEREIAELEARNAQEDYDRLIKEAHYLEAHRSKLNADRERLMGMMSTKDEEFRRLNEEYELDLKDAKAKYKETHIKVETTKAAIEDLGRGMAAVDHAIMQYHSKMMEQINRTIAELWQSTYQGTDIDTIQIRSDVESTTSSDSGTRRNYNYRVSMVKGDTEMDMRGRCSAGQKVLASIIIRLALAESFCANCGLIALDEPTTNLDSDNIRSLAESLHGIIKARQAQGNLQLIVITHDEEFLKYMQCSDFCDDFYRVKRDEKQNSVIVRES SKIEKLSILGVRSFGPHHPETIAFNTPLTLIVGYNGSGKTTVIECLKYATTGELPPNSTRNGAFIHDPDLVGEKEVRAQVKLSFRSTIGESYVVTRNIQLLVQRNNKRTQKTLEGSLLLRNNGERTVISTRVAELDKLVSEKLGVPPAILDAVIFCHQDDSLWPMSEPAALKKRFDEIFEAQKYTKVIENIRLLKKKKGDELKILKEREVQDKANKERAEKVDRLMAQLTREILEAREKCNELSKQMEEESAKIKDKYEQANSFLKIMNDLQTKTEKLEYKKDAIVELRSRIEELPDPDEVLRNTLDEYEQTINRIVADRDHKAAQFHDLQAELKSARDQHTAKAAEQGKHQSDKEKYERQLVARERMIREAAERHEIRGYNGDLDDRRIAIFNERIQKILNDKRRELERLQKEQKVAAERDAIAQTVSELNMINSEIQEYLDRGGPSSLAANQRAIANLETQMANLEGEMRELTVQINKLNKEIDNSDAKKRNIADNLTYRKNLREKDALEREIAELEARNAQEDYDRLIKEAHYLEAHRSKLNADRERLMGMMSTKDEEFRRLNEEYELDLKDAKAKYKETHIKVETTKAAIEDLGRGMAAVDHAIMQYHSKMMEQINRTIAELWQSTYQGTDIDTIQIRSDVESTTSSDSGTRRNYNYRVSMVKGDTEMDMRGRCSAGQKVLASIIIRLALAESFCANCGLIALDEPTTNLDSDNIRSLAESLHGIIKARQAQGNLQLIVITHDEEFLKYMQCSDFCDDFYRVKRDEKQNSVIVRES 7zr3-a1-m1-cB_7zr3-a1-m1-cA STRUCTURE OF ESTER-HYDROLASE EH0 FROM THE METAGENOME OF SORGHUM BICOLOR RHIZOSPHERE FROM THE HENFAES RESEARCH CENTRE (GWYNEDD, WALES) 2.01 X-RAY DIFFRACTION 68 1.0 256318 (metagenome) 256318 (metagenome) 315 319 ELFVRPDVRGFLDFLNNLPGPKMHELDAPTARQMYVAMKDVGDPPVGELGTLLDLSIPGPGGDIPARLYDPRASREPGPAIVFFHGGGFVIGDLESHGSFTAEMARVLDLPVIAVDYRLAPEFPWPAAPDDCEAAARWVANSPAELGRSVTSLVLCGDSAGGNLVIVTAAALRDQPAKVPVIAQLPFYPATDASKEYPSYAEFAEGYLLTRDSMEWFMAAYKSEADHIRSSPLLGDLAGMPPAVVVTGGLDPIRDQGRAYAAALALAGVPVVFREAKGNIHGFITLRKAIPSSVGDVMGAFAALKDIIVEAEGDR ELFVRPDVRGFLDFLNNLPGPKMHELDAPTARQMYVAMKDVGDPPVGELGTLLDLSIPGPGGDIPARLYDPRASREPGPAIVFFHGGGFVIGDLESHGSFTAEMARVLDLPVIAVDYRLAPEFPWPAAPDDCEAAARWVANSPAELGRSVTSLVLCGDSAGGNLVIVTAAALRDQPAKVPVIAQLPFYPATDASKEYPSYAEFAEGYLLTRDSMEWFMAAYKSEADHIRSSPLLGDLAGMPPAVVVTGGLDPIRDQGRAYAAALALAGVPVVFREAKGNIHGFITLRKAIPSSVGDVMGAFAALKDIIVEAEGDRAMAQ 7zr5-a1-m1-cB_7zr5-a1-m1-cA CryoEM structure of HSP90-CDC37-BRAF(V600E)-PP5(closed) complex P08238 P08238 3.9 ELECTRON MICROSCOPY 232 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 631 633 7zr0-a1-m1-cB_7zr0-a1-m1-cA 7zr6-a1-m1-cB_7zr6-a1-m1-cA EEVETFAFQAEIAQLMSLIINTFYSNKEIFLRELISNASDALDKIRYESLTDPSKLDSGKELKIDIIPNPQERTLTLVDTGIGMTKADLINNLGTIAKSGTKAFMEALQAGADISMIGQFGVGFYSAYLVAEKVVVITKHNDDEQYAWESSAGGSFTVRADHGEPIGRGTKVILHLKEDQTEYLEERRVKEVVKKHSQFIGYPITLYLEKEKEKYIDQEELNKTKPIWTRNPDDITQEEYGEFYKSLTNDWEDHLAVKHFSVEGQLEFRALLFIPRRAPFDLFENKKKKNNIKLYVRRVFIMDSCDELIPEYLNFIRGVVDSEDLPLNISREMLQQSKILKVIRKNIVKKCLELFSELAEDKENYKKFYEAFSKNLKLGIHEDSTNRRRLSELLRYHTSQSGDEMTSLSEYVSRMKETQKSIYYITGESKEQVANSAFVERVRKRGFEVVYMTEPIDEYCVQQLKEFDGKSLVSVTKEGLELPEDEEEKKKMEESKAKFENLCKLMKEILDKKVEKVTISNRLVSSPCCIVTSTYGWTANMERIMKAQALRDNSTMGYMMAKKHLEINPDHPIVETLRQKAEADKNDKAVKDLVVLLFETALLSSGFSLEDPQTHSNRIYRMIKLGLGIDE EEVETFAFQAEIAQLMSLIINTFYSNKEIFLRELISNASDALDKIRYESLTDPSKLDSGKELKIDIIPNPQERTLTLVDTGIGMTKADLINNLGTIAKSGTKAFMEALQAGADISMIGQFGVGFYSAYLVAEKVVVITKHNDDEQYAWESSAGGSFTVRADHGEPIGRGTKVILHLKEDQTEYLEERRVKEVVKKHSQFIGYPITLYLEKEREKEKYIDQEELNKTKPIWTRNPDDITQEEYGEFYKSLTNDWEDHLAVKHFSVEGQLEFRALLFIPRRAPFDLFENKKKKNNIKLYVRRVFIMDSCDELIPEYLNFIRGVVDSEDLPLNISREMLQQSKILKVIRKNIVKKCLELFSELAEDKENYKKFYEAFSKNLKLGIHEDSTNRRRLSELLRYHTSQSGDEMTSLSEYVSRMKETQKSIYYITGESKEQVANSAFVERVRKRGFEVVYMTEPIDEYCVQQLKEFDGKSLVSVTKEGLELPEDEEEKKKMEESKAKFENLCKLMKEILDKKVEKVTISNRLVSSPCCIVTSTYGWTANMERIMKAQALRDNSTMGYMMAKKHLEINPDHPIVETLRQKAEADKNDKAVKDLVVLLFETALLSSGFSLEDPQTHSNRIYRMIKLGLGIDE 7zr7-a1-m1-cD_7zr7-a1-m1-cF OMI-42 FAB IN COMPLEX WITH SARS-COV-2 BETA SPIKE GLYCOPROTEIN 3.7 ELECTRON MICROSCOPY 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 122 125 7zr7-a1-m1-cD_7zr7-a1-m1-cH 7zr7-a1-m1-cF_7zr7-a1-m1-cH EVQLLETGGGLVQSLRLSCAASGFPFDDYAIHWVRLAPGKGLEWVSSISWDSGSIGYADSVKGRFTISRDNAKNSLYLQMNSLRAEDTALYYCAKGAFPGYSSGWYYGLDVWGQGATVTVSS EVQLLETGGGLVQPGRSLRLSCAASGFPFDDYAIHWVRLAPGKGLEWVSSISWDSGSIGYADSVKGRFTISRDNAKNSLYLQMNSLRAEDTALYYCAKGAFPGYSSGWYYGLDVWGQGATVTVSS 7zra-a2-m1-cB_7zra-a2-m1-cD Crystal structure of E.coli LexA in complex with nanobody NbSOS1(Nb14497) C3SHL2 C3SHL2 2.8 X-RAY DIFFRACTION 71 1.0 562 (Escherichia coli) 562 (Escherichia coli) 128 129 1jhc-a1-m1-cA_1jhc-a1-m2-cA 1jhf-a1-m1-cB_1jhf-a1-m1-cA 1jhh-a1-m1-cB_1jhh-a1-m1-cA 7ocj-a1-m1-cA_7ocj-a1-m1-cC 7ocj-a2-m1-cD_7ocj-a2-m1-cF 7zra-a1-m1-cA_7zra-a1-m1-cC GLPLVGRVAAGEPLLAQQHIEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVKRLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNGDWL EGLPLVGRVAAGEPLLAQQHIEGHYQVDPSLFKPNADFLLRVSGMSMKDIGIMDGDLLAVHKTQDVRNGQVVVARIDDEVTVKRLKKQGNKVELLPENSEFKPIVVDLRQQSFTIEGLAVGVIRNGDWL 7zrn-a1-m1-cA_7zrn-a1-m1-cB Crystal structure of 10-epi-cubebol synthase from Sorangium cellulosum (ScCubS) in complex with Pyrophosphate A9GK58 A9GK58 1.82 X-RAY DIFFRACTION 84 0.993 56 (Sorangium cellulosum) 56 (Sorangium cellulosum) 301 301 ALLCPFPATTPHPQAAQLANDCLEWTRKCGLLPDESPRTLDKVRSYSALAAHCYPDAHFERLRAICDYYSWLFFFDDVCENTSLNGAEPKVVSSLLFDVYGVLRGPTAPFAQALADIWRRIGDGCPGFWRRRLIRHVENYIDGCVWEAQNRQLDRVPSRAVFEGMRMHTSTMYEFWDFIEYAGDLFLPDEVVEHPLVAEVRRAGNAIASFANDIYSLRKETSNRDVHNLVVVLMHEERIELEAAYARAAGIHDAQVEHFLDLVKHLPTFSATIDRNLARYVEGIRIWIRANHDWSIVTPRY ALLCPFPATTPHPQAAQLANDCLEWTRKCGLLPDESPRTLDKVRSYSALAAHCYPDAHFERLRAICDYYSWLFFFDDVCENTSLNGAEPKVVSSLLFDVYGVLRGHAPFAQALADIWRRIGDGCPGFWRRRLIRHVENYIDGCVWEAQNRQLDRVPSRAVFEGMRMHTSTMYEFWDFIEYAGDLFLPDEVVEHPLVAEVRRAGNAIASFANDIYSLRKETSNRDVHNLVVVLMHEERIELEAAYARAAGIHDAQVEHFLDLVKHLPTFSATIDRNLARYVEGIRIWIRANHDWSIVTPRYN 7zs6-a1-m1-cBBB_7zs6-a1-m1-cCCC Crystal structure of Apis mellifera RidA A0A7M7GBQ0 A0A7M7GBQ0 1.31 X-RAY DIFFRACTION 84 1.0 7460 (Apis mellifera) 7460 (Apis mellifera) 133 133 7zs6-a1-m1-cAAA_7zs6-a1-m1-cBBB 7zs6-a1-m1-cAAA_7zs6-a1-m1-cCCC KTIRKIISSPLCPKPVGPYNQAILVNHTLYLSGILGIDVKTEKLVNGGAVAETRQALLNMGHILKEAGSNYNKVIKTTIFLQDINDFTDVNEVYKEFFKENYPARSTFQVGKLPMAAQLEIEAIAITGEVETI KTIRKIISSPLCPKPVGPYNQAILVNHTLYLSGILGIDVKTEKLVNGGAVAETRQALLNMGHILKEAGSNYNKVIKTTIFLQDINDFTDVNEVYKEFFKENYPARSTFQVGKLPMAAQLEIEAIAITGEVETI 7zs8-a1-m1-cB_7zs8-a1-m1-cA Mixed-valence, active form, of cytochrome c peroxidase from obligate human pathogenic bacterium Neisseria gonorrhoeae at 1.4 Angstrom resolution A0A1D3HIT0 A0A1D3HIT0 1.4 X-RAY DIFFRACTION 101 1.0 485 (Neisseria gonorrhoeae) 485 (Neisseria gonorrhoeae) 322 329 6fu3-a1-m1-cB_6fu3-a1-m1-cA 6qkn-a1-m1-cB_6qkn-a1-m1-cA EDQDLLKRAQGVFQPLPTVEEMQKIRPFTEEQVKLGHQLWYEPRLSKGNTVSCNSCHNLASAGVDNMPTSQGHKGQFGGRNSPTALNAALLGSQFWDGRAADVEEQAGGPLVNPVEMANDSQEAAAAKIAKVPEYQEMFKKAFPEDGAVSFKNITTALGAFERTLLTPTKWDEYLKGNVNALSEQERKGVRAFMDNGCIACHNGVNLGGTTFQKFGLVQGPYWKFIEDPKRDKGRADVTKKTEDEFFFRVPGLRNVAKTYPYFHNGSVWELDKAVTIMGKAQLGKDIPKEDVDNIVVFLNALSGNVSESARTMPELPLTAPM MGEDQDLLKRAQGVFQPLPTVEEMQKIRPFTEEQVKLGHQLWYEPRLSKGNTVSCNSCHNLASAGVDNMPTSQGHKGQFGGRNSPTALNAALLGSQFWDGRAADVEEQAGGPLVNPVEMANDSQEAAAAKIAKVPEYQEMFKKAFPEDGAVSFKNITTALGAFERTLLTPTKWDEYLKGNVNALSEQERKGVRAFMDNGCIACHNGVNLGGTTFQKFGLVQGPYWKFIEDPKRDKGRADVTKKTEDEFFFRVPGLRNVAKTYPYFHNGSVWELDKAVTIMGKAQLGKDIPKEDVDNIVVFLNALSGNVSESARTMPELPLTAPMESKPD 7zsk-a1-m1-cB_7zsk-a1-m1-cA K3DAK4 bimodule core of BGC11 from Brevibacillus brevis. C0ZGQ6 C0ZGQ6 6.8 ELECTRON MICROSCOPY 400 0.995 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 1476 1482 7zm9-a1-m1-cA_7zm9-a1-m2-cA 7zmd-a1-m1-cB_7zmd-a1-m1-cA SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLEGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQDRDQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMSLILPFALEEMVIVGDCSSSMWALIRYRVEKFDIDLCDENGNVQVRMKGFSTRKIANVSDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMMATSDFSLILPFALEEMVIVGDCSSSMWALIRYREGSKAGDRVEKFDIDLCDENGNVQVRMKGFSTRKIANVDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL 7zsk-a1-m1-cB_7zsk-a1-m1-cC K3DAK4 bimodule core of BGC11 from Brevibacillus brevis. C0ZGQ6 C0ZGQ6 6.8 ELECTRON MICROSCOPY 11 1.0 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 1476 1476 SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLEGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQDRDQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMSLILPFALEEMVIVGDCSSSMWALIRYRVEKFDIDLCDENGNVQVRMKGFSTRKIANVSDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLEGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQDRDQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMSLILPFALEEMVIVGDCSSSMWALIRYRVEKFDIDLCDENGNVQVRMKGFSTRKIANVSDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL 7zsk-a1-m1-cC_7zsk-a1-m1-cA K3DAK4 bimodule core of BGC11 from Brevibacillus brevis. C0ZGQ6 C0ZGQ6 6.8 ELECTRON MICROSCOPY 20 0.995 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 1476 1482 SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLEGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQDRDQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMSLILPFALEEMVIVGDCSSSMWALIRYRVEKFDIDLCDENGNVQVRMKGFSTRKIANVSDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMMATSDFSLILPFALEEMVIVGDCSSSMWALIRYREGSKAGDRVEKFDIDLCDENGNVQVRMKGFSTRKIANVDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL 7zsk-a1-m1-cC_7zsk-a1-m1-cD K3DAK4 bimodule core of BGC11 from Brevibacillus brevis. C0ZGQ6 C0ZGQ6 6.8 ELECTRON MICROSCOPY 397 0.995 358681 (Brevibacillus brevis NBRC 100599) 358681 (Brevibacillus brevis NBRC 100599) 1476 1482 7zma-a1-m1-cA_7zma-a1-m1-cB SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLEGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQDRDQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMSLILPFALEEMVIVGDCSSSMWALIRYRVEKFDIDLCDENGNVQVRMKGFSTRKIANVSDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL SVVRDVAIIGLSGRYPQAKNVDEFWNRLKEGKNCISEIPKDRWDWQSFFDEEKGKKESMYTKWGGFIDDMDKFDPLFFQISPKEAEEMDPQERLFLQEAYASIEDAGYTPTTLCESRKVGVFVGVMNGNYPTGATYWSIANRLSYLLNFQGPSVAVDTACSASLTAIHFALESLYSGTSECAIAGGVNLIVDPVHYMKLSALTMLSPSNQCKSFGDQADGFVDGEGVGAIVLKPLDKAIADGDHIYGVIKGSMMNAGGKTNGYTVPNPQAQAQLVADALQRANVHARTVSYLEAHGTGTELGDPIEVAGLTRAFEKDTQDKQFCALGSAKSNIGHCESAAGIAGVTKILLQLKHAQLVPSLHSRTLNPNIDFTKTPFVVQQELAEWRRPIVEINGTTNEYPRIAGISSFGAGGSNAHVIIEEYIPEEQKQSSLKITPQNPAIFVLSAKNAERLYEIVQQLLAFIQEHSLSDEHLADMAYTLQVGRVAMEERIAVIAGTMKELQQKLTAYVKGQEHIADLYRGQVNRNQEMLDILTSDDELEETIARWMERGKYSKLLDLWVKGLSIDWNKLYQEEQPGRISLPTYPFAKESYWTHAGVIHPFLHQNTSDFMEQRFSSMFTGQEFFLSDHVIKGQRVLPSAAYLEMARAAIQQATGGLRFKNVVWTQPLAVGPEPVQAHIELYPEANGEIVFEIYSDSKQTTEIVHSQGSAVLCSIPDIPSFDLSVLQEQCSLRTLSAEQCYDAFKKMGVDYGPAHRGIEQILIGQEQVLAKLSLPSSVVKTQGQFGLHPSLLDAALQSSLGLMMATSDFSLILPFALEEMVIVGDCSSSMWALIRYREGSKAGDRVEKFDIDLCDENGNVQVRMKGFSTRKIANVDIAIIGISGRYPQARNIHDFWKNLRDGKDCITEIPKDRWDHSLYFDEAKDKLGKSYSKWGGFIDGVDQFDPLFFHISPREAELMDPQERLFLQCVYETIEDAGYTRETLGKHEGLGGNVGVYVGVMYEEYQLYASAEQALGRALAIAGSPASIANRVSYFCNFHGPSMAVDTMCSSSLTGIHLACHSLQRGECEVAIAGGVNVSIHPNKYLYLSQGKFASSKGRCESFGEGGDGYVPGEGVGAVLLKPLARAIADGDHIYGVIKGSAINHGGKTNGYTVPNPHSQSRVIRRAFEEAGIHPRTVSYIEAHGTGTSLGDPIEIAGLTKTFQEYTKENQFCAIGSAKSNIGHGESAAGIAGLTKILLQMKYKRLVPSLHSRTLNPNIDFSKTPFVVQQELAEWKRPVIEIDGVTREYARIAGISSFGAGGANAHLVIEEYIEAEHRPPSSISSKNPAVIVLSAKNKDRLREQVQRLLSAIREQVLTDNDLAEIAYTLQVGREAMEERFAVIVKSISELEAKLTYYLKDEADSPDLFTGQVKRNKETMDVFAADEDLQQAIDTWITKGKYAKILQMWVQGLIFDWNKLYGDTKPRRISLPAYPFARERYWL 7zsl-a2-m1-cF_7zsl-a2-m1-cD human purine nucleoside phosphorylase in complex with JS-196 P00491 P00491 1.8 X-RAY DIFFRACTION 103 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 270 271 1m73-a1-m1-cE_1m73-a1-m2-cE 1m73-a1-m1-cE_1m73-a1-m3-cE 1m73-a1-m2-cE_1m73-a1-m3-cE 1pf7-a1-m1-cE_1pf7-a1-m2-cE 1pf7-a1-m1-cE_1pf7-a1-m3-cE 1pf7-a1-m2-cE_1pf7-a1-m3-cE 1pwy-a1-m1-cE_1pwy-a1-m2-cE 1pwy-a1-m1-cE_1pwy-a1-m3-cE 1pwy-a1-m2-cE_1pwy-a1-m3-cE 1rct-a2-m1-cE_1rct-a2-m2-cE 1rct-a2-m1-cE_1rct-a2-m3-cE 1rct-a2-m2-cE_1rct-a2-m3-cE 1rfg-a1-m1-cE_1rfg-a1-m2-cE 1rfg-a1-m1-cE_1rfg-a1-m3-cE 1rfg-a1-m2-cE_1rfg-a1-m3-cE 1rr6-a1-m1-cA_1rr6-a1-m2-cA 1rr6-a1-m1-cA_1rr6-a1-m3-cA 1rr6-a1-m2-cA_1rr6-a1-m3-cA 1rsz-a1-m1-cA_1rsz-a1-m2-cA 1rsz-a1-m1-cA_1rsz-a1-m3-cA 1rsz-a1-m2-cA_1rsz-a1-m3-cA 1rt9-a1-m1-cA_1rt9-a1-m2-cA 1rt9-a1-m1-cA_1rt9-a1-m3-cA 1rt9-a1-m2-cA_1rt9-a1-m3-cA 1ula-a1-m1-cA_1ula-a1-m2-cA 1ula-a1-m1-cA_1ula-a1-m3-cA 1ula-a1-m2-cA_1ula-a1-m3-cA 1ulb-a1-m1-cA_1ulb-a1-m2-cA 1ulb-a1-m1-cA_1ulb-a1-m3-cA 1ulb-a1-m2-cA_1ulb-a1-m3-cA 1v2h-a1-m1-cE_1v2h-a1-m2-cE 1v2h-a1-m1-cE_1v2h-a1-m3-cE 1v2h-a1-m2-cE_1v2h-a1-m3-cE 1v3q-a1-m1-cE_1v3q-a1-m2-cE 1v3q-a1-m1-cE_1v3q-a1-m3-cE 1v3q-a1-m2-cE_1v3q-a1-m3-cE 1v41-a1-m1-cE_1v41-a1-m2-cE 1v41-a1-m1-cE_1v41-a1-m3-cE 1v41-a1-m2-cE_1v41-a1-m3-cE 1v45-a1-m1-cE_1v45-a1-m2-cE 1v45-a1-m1-cE_1v45-a1-m3-cE 1v45-a1-m2-cE_1v45-a1-m3-cE 1yry-a2-m1-cE_1yry-a2-m2-cE 1yry-a2-m1-cE_1yry-a2-m3-cE 1yry-a2-m2-cE_1yry-a2-m3-cE 2a0w-a1-m1-cA_2a0w-a1-m2-cA 2a0w-a1-m1-cA_2a0w-a1-m3-cA 2a0w-a1-m2-cA_2a0w-a1-m3-cA 2a0x-a1-m1-cA_2a0x-a1-m2-cA 2a0x-a1-m1-cA_2a0x-a1-m3-cA 2a0x-a1-m2-cA_2a0x-a1-m3-cA 2a0y-a1-m1-cA_2a0y-a1-m2-cA 2a0y-a1-m1-cA_2a0y-a1-m3-cA 2a0y-a1-m2-cA_2a0y-a1-m3-cA 2oc4-a1-m1-cA_2oc4-a1-m2-cA 2oc4-a1-m1-cA_2oc4-a1-m3-cA 2oc4-a1-m2-cA_2oc4-a1-m3-cA 2oc9-a1-m1-cA_2oc9-a1-m2-cA 2oc9-a1-m1-cA_2oc9-a1-m3-cA 2oc9-a1-m2-cA_2oc9-a1-m3-cA 2on6-a1-m1-cA_2on6-a1-m2-cA 2on6-a1-m1-cA_2on6-a1-m3-cA 2on6-a1-m2-cA_2on6-a1-m3-cA 2q7o-a1-m1-cE_2q7o-a1-m2-cE 2q7o-a1-m1-cE_2q7o-a1-m3-cE 2q7o-a1-m2-cE_2q7o-a1-m3-cE 3bgs-a1-m1-cA_3bgs-a1-m2-cA 3bgs-a1-m1-cA_3bgs-a1-m3-cA 3bgs-a1-m2-cA_3bgs-a1-m3-cA 3d1v-a1-m1-cA_3d1v-a1-m2-cA 3d1v-a1-m1-cA_3d1v-a1-m3-cA 3d1v-a1-m2-cA_3d1v-a1-m3-cA 3gb9-a1-m1-cB_3gb9-a1-m1-cA 3gb9-a1-m1-cB_3gb9-a1-m1-cC 3gb9-a1-m1-cC_3gb9-a1-m1-cA 3ggs-a1-m1-cA_3ggs-a1-m1-cB 3ggs-a1-m1-cC_3ggs-a1-m1-cA 3ggs-a1-m1-cC_3ggs-a1-m1-cB 3iny-a2-m1-cA_3iny-a2-m2-cA 3iny-a2-m1-cA_3iny-a2-m3-cA 3iny-a2-m2-cA_3iny-a2-m3-cA 3k8o-a1-m1-cE_3k8o-a1-m1-cQ 3k8o-a1-m1-cE_3k8o-a1-m1-cY 3k8o-a1-m1-cY_3k8o-a1-m1-cQ 3k8o-a2-m1-cS_3k8o-a2-m1-cT 3k8o-a2-m1-cS_3k8o-a2-m1-cU 3k8o-a2-m1-cT_3k8o-a2-m1-cU 3k8q-a1-m1-cA_3k8q-a1-m2-cA 3k8q-a1-m1-cA_3k8q-a1-m3-cA 3k8q-a1-m2-cA_3k8q-a1-m3-cA 3phb-a1-m1-cQ_3phb-a1-m1-cE 3phb-a1-m1-cY_3phb-a1-m1-cE 3phb-a1-m1-cY_3phb-a1-m1-cQ 3phb-a2-m1-cS_3phb-a2-m1-cT 3phb-a2-m1-cU_3phb-a2-m1-cS 3phb-a2-m1-cU_3phb-a2-m1-cT 4ear-a1-m1-cA_4ear-a1-m1-cB 4ear-a1-m1-cA_4ear-a1-m1-cC 4ear-a1-m1-cC_4ear-a1-m1-cB 4eb8-a1-m1-cA_4eb8-a1-m1-cB 4eb8-a1-m1-cC_4eb8-a1-m1-cA 4eb8-a1-m1-cC_4eb8-a1-m1-cB 4ece-a1-m1-cA_4ece-a1-m1-cB 4ece-a1-m1-cA_4ece-a1-m1-cC 4ece-a1-m1-cB_4ece-a1-m1-cC 4ece-a2-m1-cD_4ece-a2-m1-cE 4ece-a2-m1-cD_4ece-a2-m1-cF 4ece-a2-m1-cE_4ece-a2-m1-cF 4gka-a1-m1-cB_4gka-a1-m1-cA 4gka-a1-m1-cC_4gka-a1-m1-cA 4gka-a1-m1-cC_4gka-a1-m1-cB 4gka-a2-m1-cE_4gka-a2-m1-cD 4gka-a2-m1-cE_4gka-a2-m1-cF 4gka-a2-m1-cF_4gka-a2-m1-cD 5etj-a1-m1-cA_5etj-a1-m1-cC 5etj-a1-m1-cB_5etj-a1-m1-cA 5etj-a1-m1-cB_5etj-a1-m1-cC 5etj-a2-m1-cD_5etj-a2-m1-cE 5etj-a2-m1-cD_5etj-a2-m1-cF 5etj-a2-m1-cE_5etj-a2-m1-cF 5ugf-a1-m1-cA_5ugf-a1-m1-cB 5ugf-a1-m1-cA_5ugf-a1-m1-cC 5ugf-a1-m1-cB_5ugf-a1-m1-cC 5ugf-a2-m1-cD_5ugf-a2-m1-cE 5ugf-a2-m1-cD_5ugf-a2-m1-cF 5ugf-a2-m1-cE_5ugf-a2-m1-cF 7zsl-a1-m1-cB_7zsl-a1-m1-cA 7zsl-a1-m1-cC_7zsl-a1-m1-cA 7zsl-a1-m1-cC_7zsl-a1-m1-cB 7zsl-a2-m1-cD_7zsl-a2-m1-cE 7zsl-a2-m1-cF_7zsl-a2-m1-cE 7zsm-a1-m1-cA_7zsm-a1-m2-cA 7zsm-a1-m1-cA_7zsm-a1-m3-cA 7zsm-a1-m2-cA_7zsm-a1-m3-cA 7zso-a1-m1-cB_7zso-a1-m1-cA 7zso-a1-m1-cC_7zso-a1-m1-cA 7zso-a1-m1-cC_7zso-a1-m1-cB 7zsp-a1-m1-cA_7zsp-a1-m2-cA 7zsp-a1-m1-cA_7zsp-a1-m3-cA 7zsp-a1-m2-cA_7zsp-a1-m3-cA GYTYEDYKNTAEWLLSHTKHRPQVAIICGSGLGGLTDKLTQAQIFDYGEIPNFPRGRLVFGFLNGRACVMMQGRFHMYEGYPLWKVTFPVRVFHLLGVDTLVVTNAAGGLNPKFEVGDIMLIRDHINLPGFSGQNPLRGPNDERFGDRFPAMSDAYDRTMRQRALSTWEQRELQEGTYVMVAGPSFETVAECRVLQKLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDYESLEKANHEEVLAAGKQAAQKLEQFVSILMASIPL GYTYEDYKNTAEWLLSHTKHRPQVAIICLGGLTDKLTQAQIFDYGEIPNFPRGRLVFGFLNGRACVMMQGRFHMYEGYPLWKVTFPVRVFHLLGVDTLVVTNAAGGLNPKFEVGDIMLIRDHINLPGFSGQNPLRGPNDERFGDRFPAMSDAYDRTMRQRALSTWKQMGEQRELQEGTYVMVAGPSFETVAECRVLQKLGADAVGMSTVPEVIVARHCGLRVFGFSLITNKVIMDYESLEKANHEEVLAAGKQAAQKLEQFVSILMASIPL 7ztw-a2-m1-cC_7ztw-a2-m1-cD Crystal Structure of Human Parechovirus 1 2A protein Q66578 Q66578 1.93 X-RAY DIFFRACTION 129 1.0 12063 (Human parechovirus 1) 12063 (Human parechovirus 1) 141 141 7ztw-a1-m1-cA_7ztw-a1-m1-cB QPQNRMMKLAYLDRGFYKHYGIIVGDHVYQLDSDDIFKTALTGKAKFTKTKLTSDWVIEEECELDYFRIKYLESAVDSEHIFSVDKNCETIAKDIFGTHTLSQHQAIGLVGTILLTAGLMSTIKTPVNAVTIKEFFNHAMD QPQNRMMKLAYLDRGFYKHYGIIVGDHVYQLDSDDIFKTALTGKAKFTKTKLTSDWVIEEECELDYFRIKYLESAVDSEHIFSVDKNCETIAKDIFGTHTLSQHQAIGLVGTILLTAGLMSTIKTPVNAVTIKEFFNHAMD 7zuo-a2-m1-cC_7zuo-a2-m1-cD Crystal Structure of Ljungan virus 4 2A2 protein, P212121 form C0J6D4 C0J6D4 2.07 X-RAY DIFFRACTION 55 1.0 1001321 (Ljungan virus 64-7855) 1001321 (Ljungan virus 64-7855) 124 124 7zua-a1-m1-cA_7zua-a1-m2-cA 7zuo-a1-m1-cA_7zuo-a1-m1-cB 7zuo-a3-m1-cE_7zuo-a3-m1-cF PGPDIELVYKNRGFYKHYGIRIGDQIYHLNSQDILTTAITGKSEFIKEQDDGNWTHAMTAPLDYFTEKYVNSMVGSKHIFSCTTNCETIARDIFPGQSGISQSKALGIVGLILLSASLLSLLAV PGPDIELVYKNRGFYKHYGIRIGDQIYHLNSQDILTTAITGKSEFIKEQDDGNWTHAMTAPLDYFTEKYVNSMVGSKHIFSCTTNCETIARDIFPGQSGISQSKALGIVGLILLSASLLSLLAV 7zuv-a4-m1-cG_7zuv-a4-m3-cE Crystal structure of Chlamydomonas reinhardtii chloroplastic sedoheptulose-1,7-bisphosphatase in reducing conditions A0A2K3DY10 A0A2K3DY10 3.11 X-RAY DIFFRACTION 126 0.987 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 301 301 7b2o-a1-m1-cF_7b2o-a1-m1-cA 7b2o-a2-m1-cB_7b2o-a2-m1-cE 7b2o-a3-m1-cC_7b2o-a3-m1-cD 7zuv-a1-m1-cA_7zuv-a1-m2-cD 7zuv-a2-m1-cF_7zuv-a2-m1-cB 7zuv-a3-m1-cC_7zuv-a3-m1-cH GDSLAEFLVEATPDPKLRQLMMSMAEATRTIAHKVRTASCACVNSLAVDMVADKLLFEALKYSHVCKLACSEEVPEPVDMGGEGFCVAFDPLDGSSIVDTNFAVGTIFGVWPGDKLTNITGREQVAAGMGIYGPRTVFCIALKDAPGCHEFLLMDDGKWMHVKETTHIGEGKMFAPGNLRATFDNPAYERLINFYLGEKYTLRYTGGMVPDVFQIIVKEKGVFTNVTSPTTKAKLRILFEVAPLALLIEKAGGASSCDGKAVSALDIPILVCDQRTQICYGSIGEVRRFEEYMYGTSPRFS GDSLAEFLVEATPDPKLRQLMMSMAEATRTIAHKVRTASCAGTQLAVDMVADKLLFEALKYSHVCKLACSEEVPEPVDMGGEGFCVAFDPLDGSSIVDTNFAVGTIFGVWPGDKLTNITGREQVAAGMGIYGPRTVFCIALKDAPGCHEFLLMDDGKWMHVKETTHIGEGKMFAPGNLRATFDNPAYERLINFYLGEKYTLRYTGGMVPDVFQIIVKEKGVFTNVTSPTTKAKLRILFEVAPLALLIEKAGGASSCDGKAVSALDIPILVCDQRTQICYGSIGEVRRFEEYMYGTSPRFSE 7zvj-a1-m1-cA_7zvj-a1-m1-cB Homodimeric structure of LARGE1 O95461 O95461 2.61 X-RAY DIFFRACTION 74 0.986 9606 (Homo sapiens) 9606 (Homo sapiens) 583 587 7ui6-a1-m1-cA_7ui6-a1-m1-cB 7ui7-a1-m1-cA_7ui7-a1-m1-cB KCETIHVAIVCAGYNASRDVVTLVKSVLFHRRNPLHFHLIADSIAEQILATLFQTWMVPAVRVDFYNADELKSEVSWIPNKHYSGIYGLMKLVLTKTLPANLERVIVLDTDITFATDIAELWAVFHKFKGQQVLGLVENQSDWYLGNLPWPALGRGYNTGVILLLLDKLRKMKWEQMWRLTAERELMGMLSTSLADQDIFNAVIKQNPFLVYQLPCFWNVQLSQCVSDLKVIHWNKHVEFFRNLYLTFLEYDGNLLRRELFGCPSEADVNSENLQKQLSELDEDDLCYEFRRERFTVHRTHLYFLHYEYEPAADSTDVTLVAQLSMDRLQMLEAICKHWEGPISLALYLSDAEAQQFLRYAQGSEVLMSRHNVGYHIVYKEGQFYPVNLLRNVAMKHISTPYMFLSDIDFLPMYGLYEYLRKSVIQLDLANTKKAMIVPAFETLRYRLSFPKSKAELLSMLDMGTLFTFTNFAKWRTATTPYRVEWEADFEPYVVVRRDCPEYDRRFVGFGWNKVAHIMELDVQEYEFIVLPNAYMIHMPHAPSFDITKFNKQYRICLKTLKEEFQQDMSRRYGFAALKYLTA KCETIHVAIVCAGYNASRDVVTLVKSVLFHRRNPLHFHLIADSIAEQILATLFQTWMVPAVRVDFYNADELKSEVSWIPNKHYSGIYGLMKLVLTKTLPANLERVIVLDTDITFATDIAELWAVFHKFKGQQVLGLVENQSDWYLGPWPALGRGYNTGVILLLLDKLRKMKWEQMWRLTAERELMGMLSTSLADQDIFNAVIKQNPFLVYQLPCFWNVQLQCVSDLKVIHWNKHVEFFRNLYLTFLEYDGNLLRRELFGCPSEADVNSENLQKQLSELDEDDLCYEFRRERFTVHRTHLYFLHYEYEPAADSTDVTLVAQLSMDRLQMLEAICKHWEGPISLALYLSDAEAQQFLRYAQGSEVLMSRHNVGYHIVYKEGQFYPVNLLRNVAMKHISTPYMFLSDIDFLPMYGLYEYLRKSVIQLDLANTKKAMIVPAFETLRYRLSFPKSKAELLSMLDMGTLFTFRYHVWTKGHAPTNFAKWRTATTPYRVEWEADFEPYVVVRRDCPEYDRRFVGFGWNKVAHIMELDVQEYEFIVLPNAYMIHMPHAPSFSNKQYRICLKTLKEEFQQDMSRRYGFAALKYLTA 7zvm-a1-m1-cA_7zvm-a1-m2-cA Thermococcus barophilus phosphomannose isomerase protein structure at 1.6 A F0LL70 F0LL70 1.58 X-RAY DIFFRACTION 45 1.0 55802 (Thermococcus barophilus) 55802 (Thermococcus barophilus) 104 104 IDRGTYRKAPLFEGELPEGSYAQIVEIKPKQTVPKHYHEKQYELFYIISGQAKLGIEEREYDAKPGDIFLVKPKTVHWVVNKKEEPFRLFVIKLNYFGDDSVWL IDRGTYRKAPLFEGELPEGSYAQIVEIKPKQTVPKHYHEKQYELFYIISGQAKLGIEEREYDAKPGDIFLVKPKTVHWVVNKKEEPFRLFVIKLNYFGDDSVWL 7zvy-a3-m1-cC_7zvy-a3-m1-cD Thermococcus kadokarensis phosphomannose isomerase Q5JD98 Q5JD98 2.16 X-RAY DIFFRACTION 76 1.0 311400 (Thermococcus kodakarensis) 311400 (Thermococcus kodakarensis) 112 112 7zvy-a1-m1-cG_7zvy-a1-m1-cA 7zvy-a2-m1-cE_7zvy-a2-m1-cB MKAEIKNLIDRGTYRKLPLFEGELPEGSYAQIVEVKPKQTVKKHYHERQYELFYIISGEARLGIGDTEYQAKPGDIFLVKPKTVHWVVNEKDEPFRLFVVKLNYHGDDSVWL MKAEIKNLIDRGTYRKLPLFEGELPEGSYAQIVEVKPKQTVKKHYHERQYELFYIISGEARLGIGDTEYQAKPGDIFLVKPKTVHWVVNEKDEPFRLFVVKLNYHGDDSVWL 7zw9-a1-m2-cA_7zw9-a1-m3-cA Crystal structure of a gamma-carbonic anhydrase from the pathogenic bacterium Burkholderia pseudomallei Q63SQ4 Q63SQ4 2.1 X-RAY DIFFRACTION 75 1.0 28450 (Burkholderia pseudomallei) 28450 (Burkholderia pseudomallei) 173 173 7zw9-a1-m1-cA_7zw9-a1-m2-cA 7zw9-a1-m1-cA_7zw9-a1-m3-cA MTIYKLGENAPSIHESVFVADSATIVGKVVLEENASVWFGATIRGDNEPITVGAGSNVQEGAVLHTDPGCPLTIAPNVTVGHQAMLHGCTIGEGSLIGIQAVILNRAVIGRNCLVGAGAVITEGKAFPDNSLILGAPAKVVRTLSDEDIARMHMNTKSYAMRRAYFKEQLVRI MTIYKLGENAPSIHESVFVADSATIVGKVVLEENASVWFGATIRGDNEPITVGAGSNVQEGAVLHTDPGCPLTIAPNVTVGHQAMLHGCTIGEGSLIGIQAVILNRAVIGRNCLVGAGAVITEGKAFPDNSLILGAPAKVVRTLSDEDIARMHMNTKSYAMRRAYFKEQLVRI 7zwf-a1-m1-cA_7zwf-a1-m2-cA Pfs48/45 bound to scFv fragment of monoclonal antibody 32F3 Q8I6T1 Q8I6T1 2.132 X-RAY DIFFRACTION 26 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 258 258 CTIHSYFIYDKIEYETITISPVHVRVLKYPHNILFTNLFVSNVLEVELNDGELFVLACELINKKCFQEGKEKALYKSNKIIYHKNLTIFKAPFYVTSKDVNTECTCKFKNNNYKIVLKPKYEKKVIHGCNFSSNVSSKHTFTDSLDISLVDDSAHISCNVHLSEPKYNHLVGLNCPGDIIPDCFFQVYQPESEELEPSNIVYLDSQINIGDIEYYEDAEGDDKIKLFGIVGSIPKTTSFTCICKKDKKSAYMTVTIDS CTIHSYFIYDKIEYETITISPVHVRVLKYPHNILFTNLFVSNVLEVELNDGELFVLACELINKKCFQEGKEKALYKSNKIIYHKNLTIFKAPFYVTSKDVNTECTCKFKNNNYKIVLKPKYEKKVIHGCNFSSNVSSKHTFTDSLDISLVDDSAHISCNVHLSEPKYNHLVGLNCPGDIIPDCFFQVYQPESEELEPSNIVYLDSQINIGDIEYYEDAEGDDKIKLFGIVGSIPKTTSFTCICKKDKKSAYMTVTIDS 7zwm-a1-m1-cC_7zwm-a1-m1-cH Pfs48/45 central and C-terminal domains bound to Fab fragments of monoclonal antibody 10D8 and 32F3 3.69 X-RAY DIFFRACTION 19 1.0 10090 (Mus musculus) 10090 (Mus musculus) 211 211 QIVLSQSPAILSASPGEKVTMTCRASSSVTYIHWYQQKPGSSPKPWIQATSSLASGVPARFSGSGSGTSYSLSISRVEAEDAATYYCQQWSSNPLTFGAGTKLELKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN QIVLSQSPAILSASPGEKVTMTCRASSSVTYIHWYQQKPGSSPKPWIQATSSLASGVPARFSGSGSGTSYSLSISRVEAEDAATYYCQQWSSNPLTFGAGTKLELKRADAAPTVSIFPPSSEQLTSGGASVVCFLNNFYPKDINVKWKIDGSERQNGVLNSWTDQDSKDSTYSMSSTLTLTKDEYERHNSYTCEATHKTSTSPIVKSFNRN 7zwm-a1-m1-cF_7zwm-a1-m1-cA Pfs48/45 central and C-terminal domains bound to Fab fragments of monoclonal antibody 10D8 and 32F3 Q8I6T1 Q8I6T1 3.69 X-RAY DIFFRACTION 50 1.0 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 230 237 PHNILFTNLTNPKTYNESNFVSNVLEVELNDGELFVLACELINKKCFQNKIIYHKNLTIFKAPFYVTSKDVNTECTCKFKNNNYKIVLKPKYEKKVIHGCNFSSNVSSKHTFTDSLDISLVDDSAHISCNVHLSEPKYNHLVGLNCPGDIIPDCFFQVYQPESEELEPSNIVYLDSQINIGDIEYYEDAEGDDKIKLFGIVGSIPKTTSFTCICKKDKKSAYMTVTIDSA YPHNILFTNLTNDPKTYNESNFVSNVLEVELNDGELFVLACELINKKCFQEGKKSNKIIYHKNLTIFKAPFYVTSKDVNTECTCKFKNNNYKIVLKPKYEKKVIHGCNFSSNVSSKHTFTDSLDISLVDDSAHISCNVHLSEPKYNHLVGLNCPGDIIPDCFFQVYQPESEELEPSNIVYLDSQINIGDIEYYEDAEGDDKIKLFGIVGSIPKTTSFTCICKKDKKSAYMTVTIDSA 7zxy-a1-m1-cA_7zxy-a1-m1-cI 3.15 Angstrom cryo-EM structure of the dimeric cytochrome b6f complex from Synechocystis sp. PCC 6803 with natively bound plastoquinone and lipid molecules. Q57038 Q57038 3.15 ELECTRON MICROSCOPY 73 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 220 220 7r0w-a1-m1-cA_7r0w-a1-m1-cI SKEVTESKVFQWFNDRLEVQAISDDIASKYVPPHVNIFYCLGGLTLTCFLIQFATGFAMTFYYKPTVTEAFASVQYIMNEVNFGWLIRSIHRWSASMMVLMMILHVFRVYLTGGFKKPRELTWVVGVMLAVTTVTFGVTGYSLPWDQVGYWAVKIVSGVPAAIPVVGDQLVTLMRGSESVGQATLTRFYSLHTFVLPWAIAVLLLLHFLMIRKQGISGPL SKEVTESKVFQWFNDRLEVQAISDDIASKYVPPHVNIFYCLGGLTLTCFLIQFATGFAMTFYYKPTVTEAFASVQYIMNEVNFGWLIRSIHRWSASMMVLMMILHVFRVYLTGGFKKPRELTWVVGVMLAVTTVTFGVTGYSLPWDQVGYWAVKIVSGVPAAIPVVGDQLVTLMRGSESVGQATLTRFYSLHTFVLPWAIAVLLLLHFLMIRKQGISGPL 7zyj-a1-m1-cH_7zyj-a1-m1-ch Leishmania tarentolae proteasome 20S subunit in complex with compound 2 A0A640KBR2 A0A640KBR2 2.7 ELECTRON MICROSCOPY 84 1.0 5689 (Leishmania tarentolae) 5689 (Leishmania tarentolae) 229 229 6qm7-a1-m1-cH_6qm7-a1-m1-cV 6qm8-a1-m1-cH_6qm8-a1-m1-cV 6tcz-a1-m1-cH_6tcz-a1-m1-ch 6td5-a1-m1-cH_6td5-a1-m1-ch TTILAVSYNGGVVLAADSRTSSGTYVVNRASNKLTKLTKKIYCCRSGSAADTQALAERVSNYLGSYQTDIGAGVNVATAANLFQKMCYMNRWNISAGIIVAGYDPINGGSVYSIPSGGSCVKLDYALGGSGSIFLYSFFDANYKPGMSKSECVAFCQRAVAHAYSRDGSSGGLIRTITLDADEPEDQTIPWNRSPYCMEKDPKYVTQATQNQPFSSSAKITGNRMSSTG TTILAVSYNGGVVLAADSRTSSGTYVVNRASNKLTKLTKKIYCCRSGSAADTQALAERVSNYLGSYQTDIGAGVNVATAANLFQKMCYMNRWNISAGIIVAGYDPINGGSVYSIPSGGSCVKLDYALGGSGSIFLYSFFDANYKPGMSKSECVAFCQRAVAHAYSRDGSSGGLIRTITLDADEPEDQTIPWNRSPYCMEKDPKYVTQATQNQPFSSSAKITGNRMSSTG 7zyv-a1-m1-cA_7zyv-a1-m1-cI Cryo-EM structure of catalytically active Spinacia oleracea cytochrome b6f in complex with endogenous plastoquinones at 2.13 A resolution P00165 P00165 2.13 ELECTRON MICROSCOPY 55 1.0 3562 (Spinacia oleracea) 3562 (Spinacia oleracea) 214 214 6rqf-a1-m1-cA_6rqf-a1-m1-cI 7qrm-a1-m1-cA_7qrm-a1-m1-cI SKVYDWFEERLEIQAIADDITSKYVPPHVNIFYCLGGITLTCFLVQVATGFAMTFYYRPTVTDAFASVQYIMTEVNFGWLIRSVHRWSASMMVLMMILHVFRVYLTGGFKKPRELTWVTGVVLGVLTASFGVTGYSLPWDQIGYWAVKIVTGVPDAIPVIGSPLVELLRGSASVGQSTLTRFYSLHTFVLPLLTAVFMLMHFLMIRKQGISGPL SKVYDWFEERLEIQAIADDITSKYVPPHVNIFYCLGGITLTCFLVQVATGFAMTFYYRPTVTDAFASVQYIMTEVNFGWLIRSVHRWSASMMVLMMILHVFRVYLTGGFKKPRELTWVTGVVLGVLTASFGVTGYSLPWDQIGYWAVKIVTGVPDAIPVIGSPLVELLRGSASVGQSTLTRFYSLHTFVLPLLTAVFMLMHFLMIRKQGISGPL 7zzd-a1-m1-cA_7zzd-a1-m4-cA Crystal structure of NAD kinase 1 from Listeria monocytogenes in complex with a linear di-adenosine derivative Q8Y8D7 Q8Y8D7 1.79 X-RAY DIFFRACTION 46 1.0 169963 (Listeria monocytogenes EGD-e) 169963 (Listeria monocytogenes EGD-e) 262 262 2i1w-a1-m1-cA_2i1w-a1-m1-cC 2i1w-a1-m1-cD_2i1w-a1-m1-cB 2i29-a1-m1-cA_2i29-a1-m4-cA 2i29-a1-m2-cA_2i29-a1-m3-cA 2i2a-a1-m1-cA_2i2a-a1-m4-cA 2i2a-a1-m2-cA_2i2a-a1-m3-cA 2i2b-a1-m1-cA_2i2b-a1-m4-cA 2i2b-a1-m2-cA_2i2b-a1-m3-cA 2i2c-a1-m1-cA_2i2c-a1-m4-cA 2i2c-a1-m2-cA_2i2c-a1-m3-cA 2i2d-a1-m1-cA_2i2d-a1-m4-cA 2i2d-a1-m2-cA_2i2d-a1-m3-cA 2i2f-a1-m1-cA_2i2f-a1-m4-cA 2i2f-a1-m2-cA_2i2f-a1-m3-cA 2q5f-a1-m1-cA_2q5f-a1-m4-cA 2q5f-a1-m2-cA_2q5f-a1-m3-cA 3v7u-a1-m1-cA_3v7u-a1-m4-cA 3v7u-a1-m2-cA_3v7u-a1-m3-cA 3v7w-a1-m1-cA_3v7w-a1-m4-cA 3v7w-a1-m2-cA_3v7w-a1-m3-cA 3v7y-a1-m1-cA_3v7y-a1-m4-cA 3v7y-a1-m2-cA_3v7y-a1-m3-cA 3v80-a1-m1-cA_3v80-a1-m4-cA 3v80-a1-m2-cA_3v80-a1-m3-cA 3v8m-a1-m1-cA_3v8m-a1-m4-cA 3v8m-a1-m2-cA_3v8m-a1-m3-cA 3v8n-a1-m1-cA_3v8n-a1-m4-cA 3v8n-a1-m2-cA_3v8n-a1-m3-cA 3v8p-a1-m1-cA_3v8p-a1-m4-cA 3v8p-a1-m2-cA_3v8p-a1-m3-cA 3v8q-a1-m1-cA_3v8q-a1-m4-cA 3v8q-a1-m2-cA_3v8q-a1-m3-cA 3v8r-a1-m1-cA_3v8r-a1-m4-cA 3v8r-a1-m2-cA_3v8r-a1-m3-cA 4dy6-a1-m1-cA_4dy6-a1-m4-cA 4dy6-a1-m2-cA_4dy6-a1-m3-cA 5dhp-a1-m1-cC_5dhp-a1-m1-cA 5dhp-a1-m1-cD_5dhp-a1-m1-cB 5dhq-a1-m1-cC_5dhq-a1-m1-cA 5dhq-a1-m1-cD_5dhq-a1-m1-cB 5dhr-a1-m1-cC_5dhr-a1-m1-cA 5dhr-a1-m1-cD_5dhr-a1-m1-cB 5dhs-a1-m1-cC_5dhs-a1-m1-cA 5dhs-a1-m1-cD_5dhs-a1-m1-cB 5dht-a1-m1-cC_5dht-a1-m1-cA 5dht-a1-m1-cD_5dht-a1-m1-cB 5dhu-a1-m1-cC_5dhu-a1-m1-cA 5dhu-a1-m1-cD_5dhu-a1-m1-cB 5ejf-a1-m1-cC_5ejf-a1-m1-cA 5ejg-a1-m1-cC_5ejg-a1-m1-cA 5ejh-a1-m1-cA_5ejh-a1-m4-cA 5ejh-a1-m2-cA_5ejh-a1-m3-cA 5eji-a1-m1-cA_5eji-a1-m4-cA 5eji-a1-m2-cA_5eji-a1-m3-cA 6rbo-a1-m1-cA_6rbo-a1-m4-cA 6rbo-a1-m2-cA_6rbo-a1-m3-cA 6rbp-a1-m1-cA_6rbp-a1-m4-cA 6rbp-a1-m2-cA_6rbp-a1-m3-cA 6rbq-a1-m1-cA_6rbq-a1-m4-cA 6rbq-a1-m2-cA_6rbq-a1-m3-cA 6rbr-a1-m1-cA_6rbr-a1-m4-cA 6rbr-a1-m2-cA_6rbr-a1-m3-cA 6rbs-a1-m1-cA_6rbs-a1-m4-cA 6rbs-a1-m2-cA_6rbs-a1-m3-cA 6rbt-a1-m1-cA_6rbt-a1-m4-cA 6rbt-a1-m2-cA_6rbt-a1-m3-cA 6rbu-a1-m1-cA_6rbu-a1-m4-cA 6rbu-a1-m2-cA_6rbu-a1-m3-cA 6rbv-a1-m1-cA_6rbv-a1-m4-cA 6rbv-a1-m2-cA_6rbv-a1-m3-cA 6rbw-a1-m1-cA_6rbw-a1-m4-cA 6rbw-a1-m2-cA_6rbw-a1-m3-cA 6rbx-a1-m1-cA_6rbx-a1-m4-cA 6rbx-a1-m2-cA_6rbx-a1-m3-cA 6rby-a1-m1-cA_6rby-a1-m4-cA 6rby-a1-m2-cA_6rby-a1-m3-cA 6rbz-a1-m1-cA_6rbz-a1-m4-cA 6rbz-a1-m2-cA_6rbz-a1-m3-cA 6rc0-a1-m1-cA_6rc0-a1-m4-cA 6rc0-a1-m2-cA_6rc0-a1-m3-cA 6rc1-a1-m1-cA_6rc1-a1-m4-cA 6rc1-a1-m2-cA_6rc1-a1-m3-cA 6rc2-a1-m1-cA_6rc2-a1-m4-cA 6rc2-a1-m2-cA_6rc2-a1-m3-cA 6rc3-a1-m1-cA_6rc3-a1-m4-cA 6rc3-a1-m2-cA_6rc3-a1-m3-cA 6rc4-a1-m1-cA_6rc4-a1-m4-cA 6rc4-a1-m2-cA_6rc4-a1-m3-cA 6rc5-a1-m1-cA_6rc5-a1-m4-cA 6rc5-a1-m2-cA_6rc5-a1-m3-cA 6rc6-a1-m1-cA_6rc6-a1-m4-cA 6rc6-a1-m2-cA_6rc6-a1-m3-cA 6rg6-a1-m1-cA_6rg6-a1-m4-cA 6rg6-a1-m2-cA_6rg6-a1-m3-cA 6rg7-a1-m1-cA_6rg7-a1-m4-cA 6rg7-a1-m2-cA_6rg7-a1-m3-cA 6rg8-a1-m1-cA_6rg8-a1-m4-cA 6rg8-a1-m2-cA_6rg8-a1-m3-cA 6rg9-a1-m1-cA_6rg9-a1-m4-cA 6rg9-a1-m2-cA_6rg9-a1-m3-cA 6rga-a1-m1-cA_6rga-a1-m4-cA 6rga-a1-m2-cA_6rga-a1-m3-cA 6rgb-a1-m1-cA_6rgb-a1-m4-cA 6rgb-a1-m2-cA_6rgb-a1-m3-cA 6rgc-a1-m1-cA_6rgc-a1-m4-cA 6rgc-a1-m2-cA_6rgc-a1-m3-cA 6rgd-a1-m1-cA_6rgd-a1-m4-cA 6rgd-a1-m2-cA_6rgd-a1-m3-cA 6rge-a1-m1-cA_6rge-a1-m4-cA 6rge-a1-m2-cA_6rge-a1-m3-cA 6rgf-a1-m1-cA_6rgf-a1-m4-cA 6rgf-a1-m2-cA_6rgf-a1-m3-cA 6rr2-a1-m1-cA_6rr2-a1-m4-cA 6rr2-a1-m2-cA_6rr2-a1-m3-cA 6z61-a1-m1-cA_6z61-a1-m4-cA 6z61-a1-m2-cA_6z61-a1-m3-cA 6z64-a1-m1-cA_6z64-a1-m4-cA 6z64-a1-m2-cA_6z64-a1-m3-cA 6z65-a1-m1-cA_6z65-a1-m4-cA 6z65-a1-m2-cA_6z65-a1-m3-cA 7zz7-a1-m1-cA_7zz7-a1-m4-cA 7zz7-a1-m2-cA_7zz7-a1-m3-cA 7zz9-a1-m1-cA_7zz9-a1-m4-cA 7zz9-a1-m2-cA_7zz9-a1-m3-cA 7zza-a1-m1-cA_7zza-a1-m4-cA 7zza-a1-m2-cA_7zza-a1-m3-cA 7zzb-a1-m1-cA_7zzb-a1-m4-cA 7zzb-a1-m2-cA_7zzb-a1-m3-cA 7zzc-a1-m1-cA_7zzc-a1-m4-cA 7zzc-a1-m2-cA_7zzc-a1-m3-cA 7zzd-a1-m2-cA_7zzd-a1-m3-cA 7zze-a1-m1-cA_7zze-a1-m4-cA 7zze-a1-m2-cA_7zze-a1-m3-cA 7zzf-a1-m1-cA_7zzf-a1-m4-cA 7zzf-a1-m2-cA_7zzf-a1-m3-cA 7zzg-a1-m1-cA_7zzg-a1-m4-cA 7zzg-a1-m2-cA_7zzg-a1-m3-cA 7zzh-a1-m1-cA_7zzh-a1-m4-cA 7zzh-a1-m2-cA_7zzh-a1-m3-cA 7zzj-a1-m1-cA_7zzj-a1-m4-cA 7zzj-a1-m2-cA_7zzj-a1-m3-cA 8a9v-a1-m1-cA_8a9v-a1-m4-cA 8a9v-a1-m2-cA_8a9v-a1-m3-cA 8b47-a1-m1-cA_8b47-a1-m2-cB 8b47-a1-m2-cA_8b47-a1-m1-cB MKYMITSKGDEKSDLLRLNMIAGFGEYDMEYDDVEPEIVISIGGDGTFLSAFHQYEERLDEIAFIGIHTGHLGFYADWRPAEADKLVKLLAKGEYQKVSYPLLKTTVKYGIKEATYLALNESTVKSSGGPFVVDVVINDIHFERFRGDGLCMSTPSGTTAYNKSLGGALMHPSIEAMQLTEMASINNRVYRTIGSPLVFPKHHVVSLQPVNDKDFQISVDHLSILHRDVQEIRYEVSAKKIHFARFRSFPFWRRVHDSFIED MKYMITSKGDEKSDLLRLNMIAGFGEYDMEYDDVEPEIVISIGGDGTFLSAFHQYEERLDEIAFIGIHTGHLGFYADWRPAEADKLVKLLAKGEYQKVSYPLLKTTVKYGIKEATYLALNESTVKSSGGPFVVDVVINDIHFERFRGDGLCMSTPSGTTAYNKSLGGALMHPSIEAMQLTEMASINNRVYRTIGSPLVFPKHHVVSLQPVNDKDFQISVDHLSILHRDVQEIRYEVSAKKIHFARFRSFPFWRRVHDSFIED 7zzn-a1-m1-cA_7zzn-a1-m2-cA Crystal structure of poplar glutathione transferase U20 D2X9R3 D2X9R3 2.01 X-RAY DIFFRACTION 48 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 197 197 DVKLHGSWVSPFNYRVIWALKLKGVEFEHIVKIPVLVHGGKPIAESLVILEYIEETWPENPLLPTDPYERAMARFWIQYGATKTAAFGALFRASGEELEKAAKEVVEVLRVLEEQGLGDKKFFGGDSINLVDISFGLFTCWLEAIEEAAGVKVLEPSTLPRLHAWAQNFIEVPLIKENIPDYDKLLLHMKGVREKMM DVKLHGSWVSPFNYRVIWALKLKGVEFEHIVKIPVLVHGGKPIAESLVILEYIEETWPENPLLPTDPYERAMARFWIQYGATKTAAFGALFRASGEELEKAAKEVVEVLRVLEEQGLGDKKFFGGDSINLVDISFGLFTCWLEAIEEAAGVKVLEPSTLPRLHAWAQNFIEVPLIKENIPDYDKLLLHMKGVREKMM 7zzq-a1-m1-cF_7zzq-a1-m1-cL BcsH-BcsD 'beads-on-a-string' filament, local refine Q76KJ6 Q76KJ6 2.6 ELECTRON MICROSCOPY 16 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 144 144 KPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVAVPRQTIIMYMRVRSSAT KPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVAVPRQTIIMYMRVRSSAT 7zzq-a1-m1-cH_7zzq-a1-m1-cL BcsH-BcsD 'beads-on-a-string' filament, local refine Q76KJ6 Q76KJ6 2.6 ELECTRON MICROSCOPY 34 1.0 714995 (Novacetimonas hansenii ATCC 23769) 714995 (Novacetimonas hansenii ATCC 23769) 141 144 7zzq-a1-m1-cJ_7zzq-a1-m1-cF KPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVAVPRQTIIMYMRVRS KPDFTLFLQTLSWEIDDQVGIEVRNELLREVGRGMGTRIMPPPCQTVDKLQIELNALLALIGWGTVTLELLSEDQSLRIVHENLPQVGSAGEPSGTWLAPVLEGLYGRWVTSQAGAFGDYVVTRDVAVPRQTIIMYMRVRSSAT 8a09-a1-m3-cA_8a09-a1-m3-cB A hexameric barrel state of a de novo coiled-coil assembly: CC-Type2-(QgLaId)4 1.35 X-RAY DIFFRACTION 45 1.0 32630 (synthetic construct) 32630 (synthetic construct) 29 29 8a09-a1-m1-cA_8a09-a1-m1-cB 8a09-a1-m1-cA_8a09-a1-m2-cB 8a09-a1-m1-cB_8a09-a1-m3-cA 8a09-a1-m2-cA_8a09-a1-m2-cB 8a09-a1-m2-cA_8a09-a1-m3-cB GEIAQQLKEIAKQLKEIAWQLKEIAQQLK GEIAQQLKEIAKQLKEIAWQLKEIAQQLK 8a0c-a1-m1-cB_8a0c-a1-m1-cA Capsular polysaccharide synthesis multienzyme in complex with CMP Q2ERG0 Q2ERG0 2.9 X-RAY DIFFRACTION 165 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 1113 1116 8a0m-a1-m1-cB_8a0m-a1-m1-cA 8a0m-a2-m1-cD_8a0m-a2-m1-cC VDKTWLFGSYAWQGNPKALFLYMLVNCKETHECWWVADNEESMKSIKKSTGLKNITFTDSEKAKELFPHADVYVTENFRESYPVYMNENIKVFNTWHGVGLKHIELALGMNSVLAESIVRKYVRNYDIYKNNVLFLTTSQAMEDHFLEDMAISKELIIRGKYPRNAVYGPNGIHTYDINTLLPKNKSQYSQTILFCPTYRIGAIQGVLNSLLPDFAKLEEVCRHKNQLFIVKVHPFMKKDNYFAEMSEKYKDSEYILFWNDDYDIYEAFNSIDLAIIDYSSIFYDLLDAGVEKFIRYVPDLDEYQNDLELIGDYADLTEGRIVKSFQQLLNCLDNANIKIISTKRKQYLMDYFFGFKKENKSMESLIADVDNCQLQPKSLKELHTFDIFDTLIRRSTLRPFSIFDYVRDKAKASGIKFPLALTENWINVRNRAEHDVRDIMRKTTFERQSDKIEITLDDIYTRLQKNLLLTDEQTDFLKQAEIEAEIAHVEPIQKRINYLFSLKAKGHDVAMASDMYLPEDVIYKMLDRADTRLREIPLYLSSTIGYQKSTGKLYQHIFFDLDYQYSRWTHYGDNKHADGSVPRRLGIQTAVHDIDDFIPFENAMVNAMDNYNRYPAYQLATKMHRYRTQLVQENGFGNTLFETKYYNYAYVGASFVPYINWAIKDAIKRGYETIYFISRDGHFLKQIADKIIEIRGYNVKTKYIYGSRKAWRLPSFITKVDDETFWQFGNFVGMDSFEDLVKASYLSESELLSLFPEFESLRHAKHLRGEIAENIRKIFKNSPAYHEKVLAIAAEKRKMVRQYIQQEINPKEKFAFVEFWGRGYTQDTFGRLLNDAFGKEVKNPFYYVRSFTDDMGTSVRHNFILAPQNFSFFEPIFAQTPYDSIPDYYEEKGRIEPIINHRDRSVSDLISEGLLKFTEDYLALNTQDEDYFDAALSQFNYQYQLNTPNDQFICNVFSELKDNIGVEKPYAPALTLKQLESITSKQELDKLTQSIPISLSKSDVKVIDYYNKIQKNYNLPAYNSTPMRKAYAVNPLEQYVWSTQVPFRVLSLKQNSFYLDVSFAETTKRKDIFLKELNEIDVIAVDWLKGGVPRLLTEHGYITAHKDWVKKS VDKTWLFGSYAWQGNPKALFLYMLVNCKETHECWWVADNEESMKSIKKSTGLKNITFTDSEKAKELFPHADVYVTENFRESYPVYMNENIKVFNTWHGVGLKHIELALGMNSVLAESIVRKYVRNYDIYKNNVLFLTTSQAMEDHFLEDMAISKELIIRGKYPRNAVYGPNGIHTYDINTLLPKNKSQYSQTILFCPTYRIGAIQGVLNSLLPDFAKLEEVCRHKNQLFIVKVHPFMKKDNYFAEMSEKYKDSEYILFWNDDYDIYEAFNSIDLAIIDYSSIFYDLLDAGVEKFIRYVPDLDEYQNDLELIGDYADLTEGRIVKSFQQLLNCLDNANIKIISTKRKQYLMDYFFGFKKENKSMESLIADVDNCQLQPKSLKELHTFDIFDTLIRRSTLRPFSIFDYVRDKAKASGIKFPLALTENWINVRNRAEHDVRDIMRKTTFERQSDKIEITLDDIYTRLQKNLLLTDEQTDFLKQAEIEAEIAHVEPIQKRINYLFSLKAKGHDVAMASDMYLPEDVIYKMLDRADTRLREIPLYLSSTIGYQKSTGKLYQHIFFDLDYQYSRWTHYGDNKHADGSVPRRLGIQTAVHDIDDFIPFENAMVNAMDNYNRYPAYQLATKMHRYRTQLVQENGFGNTLFETKYYNYAYVGASFVPYINWAIKDAIKRGYETIYFISRDGHFLKQIADKIIEIRGYNVKTKYIYGSRKAWRLPSFITKVDDETFWQFGNFVGMDSFEDLVKASYLSESELLSLFPEFESLRHAKHLRGEIAENIRKIFKNSPAYHEKVLAIAAEKRKMVRQYIQQEINPKEKFAFVEFWGRGYTQDTFGRLLNDAFGKEVKNPFYYVRSFTDDMGTSVRHNFILAPQNFSFFEPIFAQTPYDSIPDYYEEKGRIEPIINHRDRSVSDLISEGLLKFTEDYLALNTQDEDYFDAALSQFNYQYQLNTPNDQFICNVFSELKDNISSFGVEKPYAPALTLKQLESITSKQELDKLTQSIPISLSKSDVKVIDYYNKIQKNYNLPAYNSTPMRKAYAVNPLEQYVWSTQVPFRVLSLKQNSFYLDVSFAETTKRKDIFLKELNEIDVIAVDWLKGGVPRLLTEHGYITAHKDWVKKS 8a0r-a1-m1-cA_8a0r-a1-m2-cA Crystal structure of poplar glutathione transferase U20 in complex with pinocembrin D2X9R3 D2X9R3 1.6 X-RAY DIFFRACTION 58 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 215 215 7zs3-a1-m1-cA_7zs3-a1-m2-cA 7zvp-a1-m1-cA_7zvp-a1-m2-cA 8a08-a1-m1-cA_8a08-a1-m2-cA 8a0i-a1-m1-cA_8a0i-a1-m2-cA 8a0o-a1-m1-cA_8a0o-a1-m2-cA 8a0p-a1-m1-cA_8a0p-a1-m2-cA 8a0q-a1-m1-cA_8a0q-a1-m2-cA DVKLHGSWVSPFNYRVIWALKLKGVEFEHIVEDLTNKSELLLKYNPVYKKIPVLVHGGKPIAESLVILEYIEETWPENPLLPTDPYERAMARFWIQYGATKTAAFGALFRASGEELEKAAKEVVEVLRVLEEQGLGDKKFFGGDSINLVDISFGLFTCWLEAIEEAAGVKVLEPSTLPRLHAWAQNFIEVPLIKENIPDYDKLLLHMKGVREKMM DVKLHGSWVSPFNYRVIWALKLKGVEFEHIVEDLTNKSELLLKYNPVYKKIPVLVHGGKPIAESLVILEYIEETWPENPLLPTDPYERAMARFWIQYGATKTAAFGALFRASGEELEKAAKEVVEVLRVLEEQGLGDKKFFGGDSINLVDISFGLFTCWLEAIEEAAGVKVLEPSTLPRLHAWAQNFIEVPLIKENIPDYDKLLLHMKGVREKMM 8a0w-a1-m1-cA_8a0w-a1-m1-cB Crystal structure of the HigA2 antitoxin in complex with operator DNA Q9KMA5 Q9KMA5 2.334 X-RAY DIFFRACTION 63 1.0 666 (Vibrio cholerae) 666 (Vibrio cholerae) 68 68 8a0x-a1-m1-cA_8a0x-a1-m1-cB ELNISPDEIVSIREQFNMSRGVFARLLHTSSRTLENWEQGRSVPNGQAVTLLKLVQRHPETLSHIAEL ELNISPDEIVSIREQFNMSRGVFARLLHTSSRTLENWEQGRSVPNGQAVTLLKLVQRHPETLSHIAEL 8a14-a3-m1-cE_8a14-a3-m1-cF Crystal structure of the cerato-platanin-like protein Cpl1 from Ustilago maydis A0A0D1E4Q7 A0A0D1E4Q7 1.9 X-RAY DIFFRACTION 145 1.0 237631 (Ustilago maydis 521) 237631 (Ustilago maydis 521) 198 198 8a14-a1-m1-cA_8a14-a1-m2-cC 8a14-a2-m1-cB_8a14-a2-m1-cD QKNPEFGMNLANQYIIRKGAGLPPAKDVKETYPECKWRHYAGSFGWLDDYNVQCYLSPSYKFHAHSIAKAFKAEPSTKAGACFDTANTDQFPEGVPKYSIGVPYLYMNNLYDRRCKVRAMVKIPKTDEHEEKWVQAWVIDHNLGNWDKDGKENDAYPKDGVLIDTNMYEQFFDKNKKVPDYSKTVPVEWFFLDINTVG QKNPEFGMNLANQYIIRKGAGLPPAKDVKETYPECKWRHYAGSFGWLDDYNVQCYLSPSYKFHAHSIAKAFKAEPSTKAGACFDTANTDQFPEGVPKYSIGVPYLYMNNLYDRRCKVRAMVKIPKTDEHEEKWVQAWVIDHNLGNWDKDGKENDAYPKDGVLIDTNMYEQFFDKNKKVPDYSKTVPVEWFFLDINTVG 8a1e-a1-m2-cA_8a1e-a1-m3-cA Rabies virus glycoprotein in complex with Fab fragments of 17C7 and 1112-1 neutralizing antibodies P08667 P08667 2.83 ELECTRON MICROSCOPY 42 1.0 103929 (Rabies virus strain Pasteur vaccin) 103929 (Rabies virus strain Pasteur vaccin) 344 344 8a1e-a1-m1-cA_8a1e-a1-m2-cA 8a1e-a1-m1-cA_8a1e-a1-m3-cA KFPIYTIPDKLGPWSPIDIHHLSCPNNLVVEDEGCTNLSGFSYMELKVGYISAIKMNGFTCTGHFRPTPDACRAAYNWKMAPSVADLDPYDRSLHSPVFPGGNCSGVAVSSTYCSTNHDYTIWMPENPRLGMSCDIFTNSRGKRASKGSETCGFVDERGLYKSLKGACKLKLCGVLGLRLMDGTWVAMQTSNETKWCPPGQLVNLHDFRSDEIEPLVVEELVKKREECLDALESIMTTKSVSFRRLSHLRKLVPGFGKAYTIFNKTLMEADAHYKSVRTWNEIIPSKGCLRVGGRCHPHVNGVFFNGIILGPDGNVLIPEMQSSLLQQHMELLVSSVIPLMHPL KFPIYTIPDKLGPWSPIDIHHLSCPNNLVVEDEGCTNLSGFSYMELKVGYISAIKMNGFTCTGHFRPTPDACRAAYNWKMAPSVADLDPYDRSLHSPVFPGGNCSGVAVSSTYCSTNHDYTIWMPENPRLGMSCDIFTNSRGKRASKGSETCGFVDERGLYKSLKGACKLKLCGVLGLRLMDGTWVAMQTSNETKWCPPGQLVNLHDFRSDEIEPLVVEELVKKREECLDALESIMTTKSVSFRRLSHLRKLVPGFGKAYTIFNKTLMEADAHYKSVRTWNEIIPSKGCLRVGGRCHPHVNGVFFNGIILGPDGNVLIPEMQSSLLQQHMELLVSSVIPLMHPL 8a1f-a1-m1-cB_8a1f-a1-m1-cA Human PTPRK N-terminal domains MAM-Ig-FN1 Q15262 Q15262 3 X-RAY DIFFRACTION 93 0.997 9606 (Homo sapiens) 9606 (Homo sapiens) 352 353 SAGGCTFDDGPGACDYHQDLYDDFEWVHVSAQEPHYLPPEMPQGSYMIVDSSDHDPGEKARLQLPTMKENDTHCIDFSYLLYSQKGLNPGTLNILVRVNKGPLANPIWNVTGFTGRDWLRAELAVSTFWPNEYQVIFEAEVSGGRSGYIAIDDIQVLSYPCDKSPHFLRLGDVEVNAGQNATFQCIATGRNKLWLQRRNGEDIPVAQTKNINHRRFAASFRLQEVTKTDQDLYRCVTQSERGSGVSNFAQLIVREPPRPIAPPQLLGVGPTYLLIQLNANSIIGDGPIILKEVEYRMTSGSWTETHAVNAPTYKLWHLDPDTEYEIRVLLTRPGEGGTGLPGPPLITRTKGT FSAGGCTFDDGPGACDYHQDLYDDFEWVHVSAQEPHYLPPEMPQGSYMIVDSSDHDPGEKARLQLPTMKENDTHCIDFSYLLYSQKGLNPGTLNILVRVNKGPLANPIWNVTGFTGRDWLRAELAVSTFWPNEYQVIFEAEVSGGRSGYIAIDDIQVLSYPCDKSPHFLRLGDVEVNAGQNATFQCIATGNKLWLQRRNGEDIPVAQTKNINHRRFAASFRLQEVTKTDQDLYRCVTQSERGSGVSNFAQLIVREPPRPIAPPQLLGVGPTYLLIQLNANSIIGDGPIILKEVEYRMTSGSWTETHAVNAPTYKLWHLDPDTEYEIRVLLTRPGEGGTGLPGPPLITRTKGTK 8a30-a1-m1-cA_8a30-a1-m2-cA Malonyl-CoA reductase from Chloroflexus aurantiacus - C-terminal Apo A9WIU3 A9WIU3 1.45 X-RAY DIFFRACTION 230 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 652 652 8a7s-a1-m1-cA_8a7s-a1-m2-cA 8a8t-a1-m1-cA_8a8t-a1-m2-cA 8aeo-a1-m1-cA_8aeo-a1-m2-cA 8aeq-a1-m1-cA_8aeq-a1-m2-cA 8aet-a1-m1-cA_8aet-a1-m2-cA GWAESLIGLHLGKVALITGGSAGIGGQIGRLLALSGARVMLAARDRHKLEQMQAMIQSELAEVGYTDVEDRVHIAPGCDVSSEAQLADLVERTLSAFGTVDYLINNAGIAGVEEMVIDMPVEGWRHTLFANLISNYSLMRKLAPLMKKQGSGYILNVSSYFGGEKDAAIPYPNRADYAVSKAGQRAMAEVFARFLGPEIQINAIAPGPVEGDRLGLFARRARLILENKRLNELHAALIAAARTDERSMHELVELLLPNDVAALEQNPAAPTALRELARRFRSEGDPAASSSSALLNRSIAAKLLARLHNGGYVLPADIFANLPNPPDPFFTRAQIDREARKVRDGIMGMLYLQRMPTEFDVAMATVYYLADRNVSGETFHPSGGLRYERTPTGGELFGLPSPERLAELVGSTVYLIGEHLTEHLNLLARAYLERYGARQVVMIVETETGAETMRRLLHDHVEAGRLMTIVAGDQIEAAIDQAITRYGRPGPVVCTPFRPLPTVPLVGRKDSDWSTVLSEAEFAELCEHQLTHHFRVARKIALSDGASLALVTPETTATSTTEQFALANFIKTTLHAFTATIGVESERTAQRILINQVDLTRRARAEEPRDPHERQQELERFIEAVLLVTAPLPPEADTRYAGRIHRGRAITV GWAESLIGLHLGKVALITGGSAGIGGQIGRLLALSGARVMLAARDRHKLEQMQAMIQSELAEVGYTDVEDRVHIAPGCDVSSEAQLADLVERTLSAFGTVDYLINNAGIAGVEEMVIDMPVEGWRHTLFANLISNYSLMRKLAPLMKKQGSGYILNVSSYFGGEKDAAIPYPNRADYAVSKAGQRAMAEVFARFLGPEIQINAIAPGPVEGDRLGLFARRARLILENKRLNELHAALIAAARTDERSMHELVELLLPNDVAALEQNPAAPTALRELARRFRSEGDPAASSSSALLNRSIAAKLLARLHNGGYVLPADIFANLPNPPDPFFTRAQIDREARKVRDGIMGMLYLQRMPTEFDVAMATVYYLADRNVSGETFHPSGGLRYERTPTGGELFGLPSPERLAELVGSTVYLIGEHLTEHLNLLARAYLERYGARQVVMIVETETGAETMRRLLHDHVEAGRLMTIVAGDQIEAAIDQAITRYGRPGPVVCTPFRPLPTVPLVGRKDSDWSTVLSEAEFAELCEHQLTHHFRVARKIALSDGASLALVTPETTATSTTEQFALANFIKTTLHAFTATIGVESERTAQRILINQVDLTRRARAEEPRDPHERQQELERFIEAVLLVTAPLPPEADTRYAGRIHRGRAITV 8a3b-a1-m1-cF_8a3b-a1-m1-cG Cryo-EM structure of mouse Pannexin 1 purified in Salipro nanoparticles Q9JIP4 Q9JIP4 3.1 ELECTRON MICROSCOPY 95 1.0 10090 (Mus musculus) 10090 (Mus musculus) 256 256 8a3b-a1-m1-cA_8a3b-a1-m1-cB 8a3b-a1-m1-cA_8a3b-a1-m1-cG 8a3b-a1-m1-cB_8a3b-a1-m1-cC 8a3b-a1-m1-cC_8a3b-a1-m1-cD 8a3b-a1-m1-cD_8a3b-a1-m1-cE 8a3b-a1-m1-cE_8a3b-a1-m1-cF LRLELAVDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVQQKSSLQSESGNLPLWLHKFFPYILLLFAILLYLPALFWRFSAAPHLCSDLKFIMEELDKVVEQYLKTKKNSSHLIMKYISCRLVTFVVILLACIYLSYYFSLSSLSDEFLCSIKSGVLKNDSTIPDRFQCKLIAVGIFQLLSLINLIVYALLIPVVVYTFFIPFRQKGYNDLSLYNLFLEENISELKSYKCLKV LRLELAVDKMVTCIAVGLPLLLISLAFAQEISIGTQISCFSPSSFSWRQAAFVDSYCWAAVQQKSSLQSESGNLPLWLHKFFPYILLLFAILLYLPALFWRFSAAPHLCSDLKFIMEELDKVVEQYLKTKKNSSHLIMKYISCRLVTFVVILLACIYLSYYFSLSSLSDEFLCSIKSGVLKNDSTIPDRFQCKLIAVGIFQLLSLINLIVYALLIPVVVYTFFIPFRQKGYNDLSLYNLFLEENISELKSYKCLKV 8a3g-a1-m1-cA_8a3g-a1-m2-cB X-ray crystal structure of a de novo designed antiparallel coiled-coil homotetramer with 4 heptad repeats, apCC-Tet* 0.96 X-RAY DIFFRACTION 23 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 8a3g-a1-m1-cB_8a3g-a1-m2-cA 8a3i-a1-m1-cA_8a3i-a1-m1-cB 8a3i-a1-m2-cA_8a3i-a1-m2-cB GQLEEIAQQLEEIAKQLKKIAWQLKKIAQG GQLEEIAQQLEEIAKQLKKIAWQLKKIAQG 8a3g-a1-m2-cA_8a3g-a1-m2-cB X-ray crystal structure of a de novo designed antiparallel coiled-coil homotetramer with 4 heptad repeats, apCC-Tet* 0.96 X-RAY DIFFRACTION 62 1.0 32630 (synthetic construct) 32630 (synthetic construct) 30 30 8a3g-a1-m1-cA_8a3g-a1-m1-cB 8a3i-a1-m1-cA_8a3i-a1-m2-cA 8a3i-a1-m1-cB_8a3i-a1-m2-cB GQLEEIAQQLEEIAKQLKKIAWQLKKIAQG GQLEEIAQQLEEIAKQLKKIAWQLKKIAQG 8a3n-a1-m1-cA_8a3n-a1-m1-cB Geissoschizine synthase from Catharanthus roseus - binary complex with NADP+ W8JWW7 W8JWW7 2 X-RAY DIFFRACTION 103 0.994 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 351 352 DLSVKAVGWGAADASGVLQPIKFYRRVPGERDVKIRVLYSGVCNFDMEMVRNKWGFTRYPYVFGHETAGEVVEVGSKVEKFKVGDKVAVGCMVGSCGQCYNCQSGMENYCPEPNMADGSVYQGERSYGGCSNVMVVDEKFVLRWPENLPQDKGVALLCAGVVVYSPMKHLGLDKPGKHIGVFGLGGLGSVAVKFIKAFGGKATVISTSRRKEKEAIEEHGADAFVVNTDSEQLKALAGTMDGVVDTTPGGRTPMSLMLNLLKFDGAVMLVGAPESLFELPAAPLIMGRKKIIGSSTGGLKEYQEMLDFAAKHNIVCDTEVIGIDYLSTAMERIKNLDVKYRFAIDIGNTLK LDLSVKAVGWGAADASGVLQPIKFYRRVPGERDVKIRVLYSGVCNFDMEMVRNKWGFTRYPYVFGHETAGEVVEVGSKVEKFKVGDKVAVGCMVGSCGQCYNCQSGMENYCPEPNMADGSVYERSYGGCSNVMVVDEKFVLRWPENLPQDKGVALLCAGVVVYSPMKHLGLDKPGKHIGVFGLGGLGSVAVKFIKAFGGKATVISTSRRKEKEAIEEHGADAFVVNTDSEQLKALAGTMDGVVDTTPGGRTPMSLMLNLLKFDGAVMLVGAPESLFELPAAPLIMGRKKIIGSSTGGLKEYQEMLDFAAKHNIVCDTEVIGIDYLSTAMERIKNLDVKYRFAIDIGNTLKFE 8a3o-a1-m1-cB_8a3o-a1-m1-cA Structure of human Fy-4 O95825 O95825 2.9 X-RAY DIFFRACTION 98 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 301 335 7nd2-a1-m1-cC_7nd2-a1-m1-cD VTEDNFVKLQVKACALSQINTKLLAEMKDLFPVGREIAGIVLDVGSKVSFFQPDDEVVGILPLDSEDPGLCEVVRVHEHYLVHKPEKVTWTEAAGSIRDGVRAYTALHYLSHLSPGKSVLIMDGASAFGTIAIQLAHHRGAKVISTACSLEDKQCLERFRPPIARVIDVSNGKVHVAESCLEETGGLGVDIVLDAPHKHDIITLLGVGGHWVTTEENLQLDPPDSHCLFLKGATLAFLNDEVWNLSNVQQGKYLCILKDVMEKLSTGVFRPQLDEPIPLYEAKVSMEAVQKNQGRKKQVVQ HHHKGLYFQQSSTDEEITFVFQEKEDLPVTEDNFVKLQVKACALSQINTKLLAEMKMKKDLFPVGREIAGIVLDVGSKVSFFQPDDEVVGILPLDSEDPGLCEVVRVHEHYLVHKPEKVTWTEAAGSIRDGVRAYTALHYLSHLSPGKSVLIMDGASAFGTIAIQLAHHRGAKVISTACSLEDKQCLERFRPPIARVIDVSNGKVHVAESCLEETGGLGVDIVLDAGLPHKHDIITLLGVGGHWVTTEENLQLDPPDSHCLFLKGATLAFLNDEVWNLSNVQQGKYLCILKDVMEKLSTGVFRPQLDEPIPLYEAKVSMEAVQKNQGRKKQVVQF 8a3x-a2-m1-cC_8a3x-a2-m1-cD Imine Reductase from Ensifer adhaerens in complex with NADP+ A0A0L8BGL4 A0A0L8BGL4 2.58 X-RAY DIFFRACTION 343 1.0 106592 (Ensifer adhaerens) 106592 (Ensifer adhaerens) 293 293 8a3x-a1-m1-cB_8a3x-a1-m1-cA 8a5z-a1-m1-cA_8a5z-a1-m1-cB MKPSISVLGTGRMGSALARALLQAGYRTVVWNRTSEKAEPLAALGATVAPTVRQAIDASGIVIVNVSDYAATSTLLRASDVTPGLRGKLIVELTSGTPEGARETSQWTAAHGARYLDGAILATPDFIGTDAGTILLSGALEPFAANEDVFRALGGNVQHIGTEPGLANALDSAVLALMWGALFGGLHAIAVCRAEEIDLGELGRQWAATAPVVEGLVADLIKRTSAGRFVSDAETLSSISPHYGAFQHLKELMEARRIDRTVVDGYDAIFRRAIASGHLHDDFAALSQFMGKA MKPSISVLGTGRMGSALARALLQAGYRTVVWNRTSEKAEPLAALGATVAPTVRQAIDASGIVIVNVSDYAATSTLLRASDVTPGLRGKLIVELTSGTPEGARETSQWTAAHGARYLDGAILATPDFIGTDAGTILLSGALEPFAANEDVFRALGGNVQHIGTEPGLANALDSAVLALMWGALFGGLHAIAVCRAEEIDLGELGRQWAATAPVVEGLVADLIKRTSAGRFVSDAETLSSISPHYGAFQHLKELMEARRIDRTVVDGYDAIFRRAIASGHLHDDFAALSQFMGKA 8a4o-a1-m1-cD_8a4o-a1-m2-cD Crystal structure of the Ustilago hordei effector protein Uvi2 I2G262 I2G262 1.35 X-RAY DIFFRACTION 129 1.0 120017 (Ustilago hordei) 120017 (Ustilago hordei) 194 194 PRNPEFGIFLNNRYLLHNGEGLPKPKDVKETYPECKWRKYGQWAWLDENNVQCYLGPSYKYHAYSPAKNFDPVPSIQRGACADTANPQDFPQGIPRYTISVPYLYFNNFYDRRCKVRALVKVPQTDKEKEHWIQAWVVEHNGGNWSTKSGDLGPNGPQEGILDTKLYPKFLNSGDIGVLPNKVEWFFLDINTIG PRNPEFGIFLNNRYLLHNGEGLPKPKDVKETYPECKWRKYGQWAWLDENNVQCYLGPSYKYHAYSPAKNFDPVPSIQRGACADTANPQDFPQGIPRYTISVPYLYFNNFYDRRCKVRALVKVPQTDKEKEHWIQAWVVEHNGGNWSTKSGDLGPNGPQEGILDTKLYPKFLNSGDIGVLPNKVEWFFLDINTIG 8a56-a1-m1-cA_8a56-a1-m1-cB Coenzyme A-persulfide reductase (CoAPR) from Enterococcus faecalis Q82ZQ9 Q82ZQ9 2.05 X-RAY DIFFRACTION 236 0.998 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 538 539 GKIVIIGGVAGGMSAATRLRRLMEDAEIVVMEKGPFVSFANCGLPYYVSGEIAEREQLLVQTPEALKARFNLDVRPHHEVVAIDPIEKVITVKHETEILTEHYDKLILSPGAKPFVPPITGLAEAKNVFSLRNVPDLDQIMTALTPETKRAVVIGAGFIGLEMAENLQKRGLEVTLVEKAPHVLPPLDEEMAAFVKAELSKNNVQVITGQSAVAFEEEGQVIRLEDGQTLASDLTILSVGVQPENTLAVEAGVATGLRGGIVVDEHYQTNQPDIYAVGDAIVVKQQITQEDALISLASPANRQGRQVADVIAGLERKNQGSIGTAIVRVFDLTAASTGLSERAAKAAGLTTAVVHISGKDHAGYYPGATDLQLKLVFHPTTGEIYGAQGIGAKGVDKRIDILATAIKGQLTIFDLPELEFTYAPPFGSAKDPVNMLGYAAMNLVEGLSENVQWYELSNELAKGAVLLDVRNPAQFKNAVSIPLNELRERLEELDKSTEYIVSCHSGLRSYIAERMLKQAGISAKNLDGAFALYRMVKP GKIVIIGGVAGGMSAATRLRRLMEDAEIVVMEKGPFVSFANCGLPYYVSGEIAEREQLLVQTPEALKARFNLDVRPHHEVVAIDPIEKVITVKHETEILTEHYDKLILSPGAKPFVPPITGLAEAKNVFSLRNVPDLDQIMTALTPETKRAVVIGAGFIGLEMAENLQKRGLEVTLVEKAPHVLPPLDEEMAAFVKAELSKNNVQVITGQSAVAFEEEGQVIRLEDGQTLASDLTILSVGVQPENTLAVEAGVATGLRGGIVVDEHYQTNQPDIYAVGDAIVVKQQITQEDALISLASPANRQGRQVADVIAGLERKNQGSIGTAIVRVFDLTAASTGLSERAAKAAGLTTAVVHISGKDHAGYYPGATDLQLKLVFHPTTGEIYGAQGIGAKGVDKRIDILATAIKGQLTIFDLPELEFTYAPPFGSAKDPVNMLGYAAMNLVEGLSENVQWYELSNELAKGAVLLDVRNPAFKNAVSIPLNELRERLEELDKSTEYIVSCHSGLRSYIAERMLKQAGISAKNLDGAFALYRMVKPEE 8a59-a1-m1-cA_8a59-a1-m2-cA C-type lectin-like domain (CTLD) and Sushi-like domain of human CD93 Q9NPY3 Q9NPY3 1.92 X-RAY DIFFRACTION 69 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 221 221 TEAVVCVGTACYTAHSGKLSAAEAQNHCNQNGGNLATVKSKEEAQHVQRVLAQLLRREAALTARMSKFWIGLQREKGKCLDPSLPLKGFSWVGGGEDTPYSNWHKELRNSCISKRCVSLLLDLSQPLLPSRLPKWSEGPCGSPGSPGSNIEGFVCKFSFKGMCRPLALPGQVTYTTPFQTTSSSLEAVPFASAANVACSHYFLCKEKAPDVFDWGSSGPLC TEAVVCVGTACYTAHSGKLSAAEAQNHCNQNGGNLATVKSKEEAQHVQRVLAQLLRREAALTARMSKFWIGLQREKGKCLDPSLPLKGFSWVGGGEDTPYSNWHKELRNSCISKRCVSLLLDLSQPLLPSRLPKWSEGPCGSPGSPGSNIEGFVCKFSFKGMCRPLALPGQVTYTTPFQTTSSSLEAVPFASAANVACSHYFLCKEKAPDVFDWGSSGPLC 8a5y-a1-m1-cF_8a5y-a1-m1-cH S. cerevisiae apo unphosphorylated APC/C. P38042 P38042 4.9 ELECTRON MICROSCOPY 124 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 502 505 8a3t-a1-m1-cF_8a3t-a1-m1-cH 8a61-a1-m1-cF_8a61-a1-m1-cH ALSTIIQLQDCIQQAIQQLNYSTAEFLAELLYAECSILDKSSVYWSDAVYLYALSLFLNKSYHTAFQISKEFKEYHLGIAYIFGRCALQLSQGVNEAILTLLSIINVFSSNLNSNLVHIPDLATLNCLLGNLYMKLDHSKEGAFYHSEALAINPYLWESYEAICKMRATVDLKRVFFDTLPEIMYNFALILRSSSQYNSFKAIRLFESQIPSHIKDTMPWCLVQLGKLHFEIINYDMSLKYFNRLKDLQPARVKDMEIFSTLLWHLHDKVKSSNLANGLMDTMPNKPETWCCIGNLLSLQKDHDAAIKAFEKATQLDPNFAYAYTLQGHEHSSNDSSDSAKTCYRKALACDPQHYNAYYGLGTSAMKLGQYEEALLYFEKARSINPVNVVLICCCGGSLEKLGYKEKALQYYELACHLQPTSSLSKYKMGQLLYSMTRYNVALQTFEELVKLVPDDATAHYLLGQTYRIVGRKKDAIKELTVAMNLDPKGNQVIIDELQKCH DDQALSTIIQLQDCIQQAIQQLNYSTAEFLAELLYAECSILDKSSVYWSDAVYLYALSLFLNKSYHTAFQISKEFKEYHLGIAYIFGRCALQLSQGVNEAILTLLSIINVFSMVLNSNLVHIPDLATLNCLLGNLYMKLDHSKEGAFYHSEALAINPYLWESYEAICKMRATVDLKRVFFDTLPEIMYNFALILRSSSQYNSFKAIRLFESQIPSHIKDTMPWCLVQLGKLHFEIINYDMSLKYFNRLKDLQPARVKDMEIFSTLLWHLHDKVKSSNLANGLMDTMPNKPETWCCIGNLLSLQKDHDAAIKAFEKATQLDPNFAYAYTLQGHEHSSNDSSDSAKTCYRKALACDPQHYNAYYGLGTSAMKLGQYEEALLYFEKARSINPVNVVLICCCGGSLEKLGYKEKALQYYELACHLQPTSSLSKYKMGQLLYSMTRYNVALQTFEELVKLVPDDATAHYLLGQTYRIVGRKKDAIKELTVAMNLDPKGNQVIIDELQKCH 8a5y-a1-m1-cK_8a5y-a1-m1-cJ S. cerevisiae apo unphosphorylated APC/C. P09798 P09798 4.9 ELECTRON MICROSCOPY 134 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 505 509 8a3t-a1-m1-cK_8a3t-a1-m1-cJ 8a61-a1-m1-cK_8a61-a1-m1-cJ AIERLRLWRFDALMQHMYRTAEYIADKVYNISNDPDDAFWLGQVYYNNNQYVRAVELITRNNLDGVNILCRYLLGLSFVKLQRFDDALDVIGEYNPFSDGGIKMESSLCFLRGKIYFAQNNFNKARDAFREAILVDIKNFEAFEMLLSKNLLTPQEEWDLFDSLDFKEFGEDKEIMKNLYKINLSKYINTEDITKSNEILAKDYKLADNVDVVRSKVDICYTQCKFNECLELCETVLENDEFNTNILPAYIGCLYELSNKNKLFLLSHRLAETFPKSAITWFSVATYYMSLDRISEAQKYYSKSSILDPSFAAAWLGFAHTYALEGEQDQALTAYSTASRFFPGMHLPKLFLGMQFMAMNSLNLAESYFVLAYDICPNDPLVLNEMGVMYFKKNEFVKAKKYLKKALEVVKDLDPSSRTTISIQLNLGHTYRKLNENEIAIKCFRCVLEKNDKNSEIHCSLGYLYLKTKKLQKAIDHLHKSLYLKPNNSSATALLKNALELNVTL AIERLRLWRFDALMQHMYRTAEYIADKVYNISNDPDDAFWLGQVYYNNNQYVRAVELITRNNLDGVNILCRYLLGLSFVKLQRFDDALDVIGEYNPFSEDGGIKMESSLCFLRGKIYFAQNNFNKARDAFREAILVDIKNFEAFEMLLSKNLLTPQEEWDLFDSLDFKEFGEDKEIMKNLYKINLSKYINTEDITKSNEILAKDYKLADNVDVVRSKVDICYTQCKFNECLELCETVLENDEFNTNILPAYIGCLYELSNKNKLFLLSHRLAETFPKSAITWFSVATYYMSLDRISEAQKYYSKSSILDPSFAAAWLGFAHTYALEGEQDQALTAYSTASRFFPGMHLPKLFLGMQFMAMNSLNLAESYFVLAYDICPNDPLVLNEMGVMYFKKNEFVKAKKYLKKALEVVKDLDPSSRTTISIQLNLGHTYRKLNENEIAIKCFRCVLEKNDKNSEIHCSLGYLYLKTKKLQKAIDHLHKSLYLKPNNSSATALLKNALELNVTLSLD 8a61-a1-m1-cP_8a61-a1-m1-cD S. cerevisiae apo phosphorylated APC/C P16522 P16522 5.4 ELECTRON MICROSCOPY 119 0.996 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 556 560 8a3t-a1-m1-cP_8a3t-a1-m1-cD 8a5y-a1-m1-cP_8a5y-a1-m1-cD QDKIIHDIRIQLRKAATELSRWKLYGSSKWAAEALAGLAPQNGFGLSETEYDLYLLGSTLFDAKEFDRCVFFLKDVTNPYLKFLKLYSKFLSWDKKSQESMENILTTGKFTESQSNISSILKEINTFLESYEIKIDDDEADLGLALLYYLRGVILKQEKNISKAMSSFLKSLSCYSFNWSCWLELMDCLQKVDDALLLNNYLYQNFQFKFSENLGSQRTIEFNIMIKFFKLKVFEELNGQLEDYFEDLEFLLQVFPNFTFLKAYNATISYNNLDYVTAESRFDDIVKQDPYRLNDLETYSNILYVMQKNSKLAYLAQFVSQIDRFRPETCCIIANYYSARQEHEKSIMYFRRALTLDKKTTNAWTLMGHEFVELSNSHAAIECYRRAVDICPRDFKAWFGLGQAYALLDMHLYSLYYFQKACTLKPWDRRIWQVLGECYSKTGNKVEAIKCYKRSIKASQTVDQNTSIYYRLAQLYEELEDLQECKKFMMKCVDVEELLEGIVTDETVKARLWLAIFEIKAGNYQLAYDYAMGVSSGTSQEIEEARMLARECRRHM DSQDKIIHDIRIQLRKAATELSRWKLYGSSKWAAEALAGLAEAIPQNGFGLSETEYDLYLLGSTLFDAKEFDRCVFFLKDVTNPYLKFLKLYSKFLSWDKKSQESMENILTTGKFTDQSNISSILKEINTFLESYEIKIDDDEADLGLALLYYLRGVILKQEKNISKAMSSFLKSLSCYSFNWSCWLELMDCLQKVDDALLLNNYLYQNFQFKFSENLGSQRTIEFNIMIKFFKLKVFEELNGQLEDYFEDLEFLLQVFPNFTFLKAYNATISYNNLDYVTAESRFDDIVKQDPYRLNDLETYSNILYVMQKNSKLAYLAQFVSQIDRFRPETCCIIANYYSARQEHEKSIMYFRRALTLDKKTTNAWTLMGHEFVELSNSHAAIECYRRAVDICPRDFKAWFGLGQAYALLDMHLYSLYYFQKACTLKPWDRRIWQVLGECYSKTGNKVEAIKCYKRSIKASQTVDQNTSIYYRLAQLYEELEDLQECKKFMMKCVDVEELLEGIVTDETVKARLWLAIFEIKAGNYQLAYDYAMGVSSGTSQEIEEARMLARECRRHM 8a8g-a1-m1-cA_8a8g-a1-m2-cA ATP sulfurylase from Methanothermococcus thermolithotrophicus - orthorhombic form 1.97 X-RAY DIFFRACTION 43 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 382 382 8a8d-a1-m1-cB_8a8d-a1-m1-cA MVSKPHGGKLVNRVATEKTKEKILEEQNEFSKVQIREGTAIDLENIAHGVYSPLTGFLRKDEFQSVLDNMRLPNELPWSIPIVLDVTEKEKNFGEGDVILLYYNDTPIAKMQVDEIYTYDKKEFAKKVFKTDEEAHPGVAKTYALGEYLVGGEIELLNEVPNPFKSHTLRPVETRALFKEKGWETIVAFQTRNVPHLGHEYLQKLALTFVDGVFVNPVIGKKKKGDYKDEVILKAYETLFEHYYPKDTDILATVRYEMRYAGPREAIHHAIMRKNFGCTHFIVGRDHAGVGDYYGPYEAQEIFQNFPDLEISPIFFREFYYCKKCNAIVHDRICPHTSEYREHFSGTKIRNMIVNGELPPEYFMRKEVYETIRSFENPFVDE MVSKPHGGKLVNRVATEKTKEKILEEQNEFSKVQIREGTAIDLENIAHGVYSPLTGFLRKDEFQSVLDNMRLPNELPWSIPIVLDVTEKEKNFGEGDVILLYYNDTPIAKMQVDEIYTYDKKEFAKKVFKTDEEAHPGVAKTYALGEYLVGGEIELLNEVPNPFKSHTLRPVETRALFKEKGWETIVAFQTRNVPHLGHEYLQKLALTFVDGVFVNPVIGKKKKGDYKDEVILKAYETLFEHYYPKDTDILATVRYEMRYAGPREAIHHAIMRKNFGCTHFIVGRDHAGVGDYYGPYEAQEIFQNFPDLEISPIFFREFYYCKKCNAIVHDRICPHTSEYREHFSGTKIRNMIVNGELPPEYFMRKEVYETIRSFENPFVDE 8a8h-a2-m1-cD_8a8h-a2-m1-cC APS kinase from Methanothermococcus thermolithotrophicus refined to 1.77 A 1.77 X-RAY DIFFRACTION 47 1.0 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 146 148 8a8h-a1-m1-cA_8a8h-a1-m1-cB LEDGFTIWLTGPSGAGKSTLAYALEKKLLEKGFRVEILDGDVIRNTLYPNIGFSKEAREMHNRVVIHLAKLLSKNGVITIVSLISPYRAVREYARKEIQNFMEVYIHSPGVYEEPENPELKIESHKMSIEEEVDTVIRTAQKLGYL KNLEDGFTIWLTGPSGAGKSTLAYALEKKLLEKGFRVEILDGDVIRNTLYPNIGFSKEAREMHNRVVIHLAKLLSKNGVITIVSLISPYRAVREYARKEIQNFMEVYIHSPGVYEEPENPELKIESHKMSIEEEVDTVIRTAQKLGYL 8a8o-a1-m1-cB_8a8o-a1-m1-cA PAPS reductase from Methanothermococcus thermolithotrophicus refined to 1.45 A 1.45 X-RAY DIFFRACTION 54 0.998 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 523845 (Methanothermococcus thermolithotrophicus DSM 2095) 544 556 MDVKKIFTDILIIGGGAAGCQAAIRAKEIDKNLDVLIVEKANIIRSGCLAAGVNAINAYLNEGETPESYVEYVKKESSGLIREDLTYTIGKRLNKMAKKLEEYGLPIQKDGKRSIKINGESIKPILAEATLKAGVKVLNNTIATNYILKDETVCGAYAFSIKENKFYVIMAKAVICTTGGASGIYKPNNPGAARHKMWYSPFNTGAGFAMGLRAGAEMTTFEMRFIALRVKDVISPTGTIVSQINALGEKYMEKYENNTTPMRLYATLIENLEGRGPCYLDTRGISDEDVQKLKEAYLSMSPGIILKWKDEKINPKNTPIEICGSEPYIVGGHGQAGYWVDINRKTTLEGLYAAGDVVGGSPKKYVTGCMAEGEIAVEAAIEYIKSMENDIEIDEQEIAKEIDRVFYPLNNKKGEFSPDEIEERMQKVMDEYAGGISSYYRVNESKLLIARELLKAIEEDLSKIKVRNRYELMKYHEVVDRILVARAVVEHLLYRKETRWKCYQERVDYPEIDDNWFKFINSKYNSQTNDIEIIEREYEKFNPV MDVKKIFTDILIIGGGAAGCQAAIRAKEIDKNLDVLIVEKANIIRSGCLAAGVNAINAYLNEGETPESYVEYVKKESSGLIREDLTYTIGKRLNKMAKKLEEYGLPIQKDENGRYVARGKRSIKINGESIKPILAEATLKAGVKVLNNTIATNYILKDETVCGAYAFSIKENKFYVIMAKAVICTTGGASGIYKPNNPGAARHKMWYSPFNTGAGFAMGLRAGAEMTTFEMRFIALRVKDVISPTGTIAQGVKVSQINALGEKYMEKYENNTTPMRLYATLIENLEGRGPCYLDTRGISDEDVQKLKEAYLSMSPGIILKWKDEKINPKNTPIEICGSEPYIVGGHGQAGYWVDINRKTTLEGLYAAGDVVGGSPKKYVTGCMAEGEIAVEAAIEYIKSMENDIEIDEQEIAKEIDRVFYPLNNKKGEFSPDEIEERMQKVMDEYAGGISSYYRVNESKLLIARELLKAIEEDLSKIKVRNRYELMKYHEVVDRILVARAVVEHLLYRKETRWKCYQERVDYPEIDDNWFKFINSKYNSQTNDIEIIEREYEKFNP 8a8q-a1-m1-cC_8a8q-a1-m1-cD Crystal structure of Protein Scalloped in complex with YAP peptide P46937 P46937 1.465 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 41 42 GHQIVHVRGDSETDLEALFNAVNPQTVPRLRKLPDSFFKPP GHQIVHVRGDSETDLEALFNAVNPKQTVPRLRKLPDSFFKPP 8a8r-a1-m1-cA_8a8r-a1-m1-cB Crystal structure of TEAD4 in complex with YAP peptide Q15561 Q15561 1.696 X-RAY DIFFRACTION 54 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 202 206 6q36-a1-m1-cB_6q36-a1-m1-cA 8c17-a1-m1-cA_8c17-a1-m2-cA 8caa-a1-m1-cA_8caa-a1-m1-cB RSVASSKLWMLEFSAFLEQQQDPDTYNKHLFVHIGQLEAVDIRQIYDKFPEKKGGLKDLFERGPSNAFFLVKFWADLNTNGSSFYGVSSQYESPENMIITCSTKVCSFGKQVVEKVETEYARYENGHYSYRIHRSPLCEYMINFIHKLKHLPEKYMMNSVLENFTILQVVTNRDTQETLLCIAYVFEVSAGAQHHIYRLVKE GRSVASSKLWMLEFSAFLEQQQDPDTYNKHLFVHIGQYSDPYLEAVDIRQIYDKFPEKKGGLKDLFERGPSNAFFLVKFWADLNTNSSFYGVSSQYESPENMIITCSTKVCSFGKQVVEKVETEYARYENGHYSYRIHRSPLCEYMINFIHKLKHLPEKYMMNSVLENFTILQVVTNRDTQETLLCIAYVFEVSAGAQHHIYRLVK 8a9a-a1-m1-cA_8a9a-a1-m1-cB Single Particle cryo-EM of the lipid binding protein P116 (MPN213) from Mycoplasma pneumoniae at 3.3 Angstrom resolution. P75556 P75556 3.3 ELECTRON MICROSCOPY 74 1.0 272634 (Mycoplasmoides pneumoniae M129) 272634 (Mycoplasmoides pneumoniae M129) 809 809 QPAAATRITVENGTDKLVNYKSSPQQLFLAKNALKDKLQGEFDKFLSDAKAFPALTADLQEWVDQQLFNPNQSFFDLSAPRSNFTLSSDKKASLDFIFRFTNFTESVQLLKLPEGVSVVVDSKQSFDYYVNASAQKLLVLPLSLPDYTLGLNYMFDHITLNGKVVNKFSFNPFKTNLNLAFSNVYNGVDVFEAQKNLVGKGKYLNTHVKAEDVKKDVNANIKNQFDIAKIIAELMGKALKEFGNQQEGQPLSFLKVMDKVKEDFEKLFNLVRPGLGKFVKDLIQSSSQAENKITVYKLIFDNKKTILNLLKELSIPELNSSLGLVDVLFDGITDSDGLYERLQSFKDLIVPAVKTNEKTAALSPLIEELLTQKDTYVFDLIQKHKGILTNLLKNFLADFQKSTPFMADQVAIFTELFDNEGAFDLFGEADFVDKIAELFLTKRTVKNGEKIETKDSLLVTSLKSLLGEKVAALGDLLDSYIFKNELLNRSVEVAKAEAKDTKGATDYKKEQAKALKKLFKHIGENTLSKTNLDKITLKEVKNTENVELEETETTLKVKKLDVEYKVELGNFEIKNGLIKAMLEFLPDTKDLETTLDKLLFKGESYKAMKDKYIKEGFPGYGWAKGVVPGAFESIENTFKSAIDKTKSIRDLFGDMLFGNDLSSVKETDSFITLGGSFDIKYGGENLNVLPAYYSLINSEIGYQIIGVDTTIDATKVKVELKNKEYKGKSPAINGQVKLSQSFFNVWTNMFDSITKQIFQKKYEFKDNIQVFARNEDNTSRLELDISDPEQRVIPFAFVDGFGIQLKAVD QPAAATRITVENGTDKLVNYKSSPQQLFLAKNALKDKLQGEFDKFLSDAKAFPALTADLQEWVDQQLFNPNQSFFDLSAPRSNFTLSSDKKASLDFIFRFTNFTESVQLLKLPEGVSVVVDSKQSFDYYVNASAQKLLVLPLSLPDYTLGLNYMFDHITLNGKVVNKFSFNPFKTNLNLAFSNVYNGVDVFEAQKNLVGKGKYLNTHVKAEDVKKDVNANIKNQFDIAKIIAELMGKALKEFGNQQEGQPLSFLKVMDKVKEDFEKLFNLVRPGLGKFVKDLIQSSSQAENKITVYKLIFDNKKTILNLLKELSIPELNSSLGLVDVLFDGITDSDGLYERLQSFKDLIVPAVKTNEKTAALSPLIEELLTQKDTYVFDLIQKHKGILTNLLKNFLADFQKSTPFMADQVAIFTELFDNEGAFDLFGEADFVDKIAELFLTKRTVKNGEKIETKDSLLVTSLKSLLGEKVAALGDLLDSYIFKNELLNRSVEVAKAEAKDTKGATDYKKEQAKALKKLFKHIGENTLSKTNLDKITLKEVKNTENVELEETETTLKVKKLDVEYKVELGNFEIKNGLIKAMLEFLPDTKDLETTLDKLLFKGESYKAMKDKYIKEGFPGYGWAKGVVPGAFESIENTFKSAIDKTKSIRDLFGDMLFGNDLSSVKETDSFITLGGSFDIKYGGENLNVLPAYYSLINSEIGYQIIGVDTTIDATKVKVELKNKEYKGKSPAINGQVKLSQSFFNVWTNMFDSITKQIFQKKYEFKDNIQVFARNEDNTSRLELDISDPEQRVIPFAFVDGFGIQLKAVD 8a9l-a1-m1-cA_8a9l-a1-m3-cA Cryo-EM structure of alpha-synuclein filaments from Parkinson's disease and dementia with Lewy bodies P37840 P37840 2.2 ELECTRON MICROSCOPY 289 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 70 70 8a9l-a1-m1-cA_8a9l-a1-m2-cA 8a9l-a1-m2-cA_8a9l-a1-m3-cA GKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQL GKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQL 8a9m-a1-m4-cB_8a9m-a1-m1-cA Hippeastrum hybrid agglutinin, HHA, complex with beta-mannose Q7Y041 Q7Y041 2.2 X-RAY DIFFRACTION 35 1.0 679627 (Hippeastrum hybrid cultivar) 679627 (Hippeastrum hybrid cultivar) 108 108 8a9m-a1-m2-cA_8a9m-a1-m3-cB DNILYSGETLSPGESLNYGPYTFIMQQDCNLVLYDVDKPIWASNTGGLAQGCHLSMQSDGNLVVYSPSGNRIWASNTQGENGNYVCIVQKDRNVVIYGTARWATGTNI DNILYSGETLSPGESLNYGPYTFIMQQDCNLVLYDVDKPIWASNTGGLAQGCHLSMQSDGNLVVYSPSGNRIWASNTQGENGNYVCIVQKDRNVVIYGTARWATGTNI 8a9m-a1-m4-cB_8a9m-a1-m3-cB Hippeastrum hybrid agglutinin, HHA, complex with beta-mannose Q7Y041 Q7Y041 2.2 X-RAY DIFFRACTION 103 1.0 679627 (Hippeastrum hybrid cultivar) 679627 (Hippeastrum hybrid cultivar) 108 108 8a9m-a1-m1-cA_8a9m-a1-m2-cA DNILYSGETLSPGESLNYGPYTFIMQQDCNLVLYDVDKPIWASNTGGLAQGCHLSMQSDGNLVVYSPSGNRIWASNTQGENGNYVCIVQKDRNVVIYGTARWATGTNI DNILYSGETLSPGESLNYGPYTFIMQQDCNLVLYDVDKPIWASNTGGLAQGCHLSMQSDGNLVVYSPSGNRIWASNTQGENGNYVCIVQKDRNVVIYGTARWATGTNI 8a9w-a1-m1-cA_8a9w-a1-m2-cA Crystal structure of PulL C-ter domain 1.895 X-RAY DIFFRACTION 39 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 75 75 ALISRLGALQQIIDDTPGIRLRTLSFDAARNALQLEISAVSSQALEQFSQRARARFRVQTGEMKDGIEGRLTLEG ALISRLGALQQIIDDTPGIRLRTLSFDAARNALQLEISAVSSQALEQFSQRARARFRVQTGEMKDGIEGRLTLEG 8a9x-a2-m1-cB_8a9x-a2-m4-cF Crystal structure of PulM C-ter domain 1.523 X-RAY DIFFRACTION 56 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 77 78 7ze0-a1-m1-cA_7ze0-a1-m1-cB 8a9x-a1-m1-cC_8a9x-a1-m1-cA 8a9x-a3-m1-cD_8a9x-a3-m3-cE 8a9x-a4-m1-cG_8a9x-a4-m2-cG EPSTVIMREAARHGLTIVRLQPQGSRLSLTVQPADFQALMAWLDALGQAGMTTATLAVTAVAQQPGWVTVNTLVLER EEPSTVIMREAARHGLTIVRLQPQGSRLSLTVQPADFQALMAWLDALGQAGMTTATLAVTAVAQQPGWVTVNTLVLER 8aa9-a1-m1-cA_8aa9-a1-m1-cB Crystal structure of the Rpa1 AROD-OB-1 domains G8ZHS0 G8ZHS0 1.8 X-RAY DIFFRACTION 57 0.994 272844 (Pyrococcus abyssi GE5) 272844 (Pyrococcus abyssi GE5) 178 178 VLTKDRIIEIIERKTGMSREEIEEEIRKIMEEDPYLSEQGAAALLAERLGIDLIEKEEVSLMRISELYPGMDPREVNVVGRVLKKYPPREYTRKDGSVGRVASLIIYDDSGRARVVLWDAKVSEYYNKIEVGDVIKVLDAQVKESLSGLPELHINFRARIILNPDDPRVEMIPPLEEV TVLTKDRIIEIIERKTGMSREEIEEEIRKIMEEDPYLSEQGAAALLAERLGIDLIEKEVSLMRISELYPGMDPREVNVVGRVLKKYPPREYTRKDGSVGRVASLIIYDDSGRARVVLWDAKVSEYYNKIEVGDVIKVLDAQVKESLSGLPELHINFRARIILNPDDPRVEMIPPLEEV 8ab1-a1-m1-cB_8ab1-a1-m1-cD Crystal structure of the PulL-PulM C-terminal domain heterocomplex 2.77 X-RAY DIFFRACTION 34 1.0 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 77 77 EPSTVIMREAARHGLTIVRLQPQGSRLSLTVQPADFQALMAWLDALGQAGMTTATLAVTAVAQQPGWVTVNTLVLER EPSTVIMREAARHGLTIVRLQPQGSRLSLTVQPADFQALMAWLDALGQAGMTTATLAVTAVAQQPGWVTVNTLVLER 8abt-a2-m3-cB_8abt-a2-m5-cB Crystal structure of NaLdpA in complex with the product analog Resveratrol Q2G4I2 Q2G4I2 1.39 X-RAY DIFFRACTION 138 1.0 279238 (Novosphingobium aromaticivorans DSM 12444) 279238 (Novosphingobium aromaticivorans DSM 12444) 236 236 8abt-a1-m1-cA_8abt-a1-m2-cA 8abt-a1-m1-cA_8abt-a1-m4-cA 8abt-a1-m2-cA_8abt-a1-m4-cA 8abt-a2-m1-cB_8abt-a2-m3-cB 8abt-a2-m1-cB_8abt-a2-m5-cB 8abu-a1-m1-cA_8abu-a1-m1-cB 8abu-a1-m1-cA_8abu-a1-m1-cC 8abu-a1-m1-cC_8abu-a1-m1-cB ASSESRLAALEARVTELEDLNAIRRLQWAYGYYIDYNRPEEVAGLFAKDGAVVFLSGEYVGYEGVMRLYGTWFQNLFTGGRRGPVHGLLLDHFQLQDVITIAPDGQTAKGRFRGILAGGWHDDIVKDKPEGMPQQFWESGIYENDYVKEDGVWKIKRLDYMMQWQADYETGWSKTIAHLQPAAVCFPENPIGPDRLLPETEVRQTWPHRAEVPMSFAHPVLAKAFAVGEFTKLQKK ASSESRLAALEARVTELEDLNAIRRLQWAYGYYIDYNRPEEVAGLFAKDGAVVFLSGEYVGYEGVMRLYGTWFQNLFTGGRRGPVHGLLLDHFQLQDVITIAPDGQTAKGRFRGILAGGWHDDIVKDKPEGMPQQFWESGIYENDYVKEDGVWKIKRLDYMMQWQADYETGWSKTIAHLQPAAVCFPENPIGPDRLLPETEVRQTWPHRAEVPMSFAHPVLAKAFAVGEFTKLQKK 8abv-a1-m2-cA_8abv-a1-m3-cA Crystal structure of SpLdpA in complex with erythro-DGPD G2IQR8 G2IQR8 1.683 X-RAY DIFFRACTION 163 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 244 244 8abv-a1-m1-cA_8abv-a1-m2-cA 8abv-a1-m1-cA_8abv-a1-m3-cA 8abw-a1-m1-cA_8abw-a1-m2-cA 8abw-a1-m1-cA_8abw-a1-m3-cA 8abw-a1-m2-cA_8abw-a1-m3-cA HMMADVETRLAELEKKVQQLEDVNAIRRLQWAYGYYIDYNRPEEVAGLFAKDGVVVFLSGEYVGYEGVMRLYGTWFQNRFTGGRRGPVHGLLLDHFQLQDIITVAEDGQTAKGRFRGILAGGWHDEVLHEKPDEVPQQFWESGLYENDYVKEDGVWKIKRLDYMMQWQGDYETGWAHTVAHLQPALVCYPENPDGPDRILPQKDVRQTWPHRYEVPMSFAHPVLGKAFMVENFTPMMMKKEKPA HMMADVETRLAELEKKVQQLEDVNAIRRLQWAYGYYIDYNRPEEVAGLFAKDGVVVFLSGEYVGYEGVMRLYGTWFQNRFTGGRRGPVHGLLLDHFQLQDIITVAEDGQTAKGRFRGILAGGWHDEVLHEKPDEVPQQFWESGLYENDYVKEDGVWKIKRLDYMMQWQGDYETGWAHTVAHLQPALVCYPENPDGPDRILPQKDVRQTWPHRYEVPMSFAHPVLGKAFMVENFTPMMMKKEKPA 8acs-a2-m1-cB_8acs-a2-m1-cD Crystal structure of FMO from Janthinobacterium svalbardensis A0A290WZ30 A0A290WZ30 2.5 X-RAY DIFFRACTION 135 1.0 368607 (Janthinobacterium svalbardensis) 368607 (Janthinobacterium svalbardensis) 589 597 8acs-a1-m1-cC_8acs-a1-m1-cA NPHDLAVAGILEQLEGCLRASDSTGAAQLFEPDGYWRDLVLFTWNLKTLEGREQIAAMLAAQLGAVQPVSIRIADGEHAVEAGGVLQSWITVETNVARGVGFIRIRDGKIWTLLTTMSELKGFEEAKGGRRPMGASSWLEQREQEAKELGYARQPYCVIIGGGQGGIALGARLRQLNVPTIIIEKNARPGDSWRKRYKSLCLHDPVWYDHMPYIPFPDNWPVFTPKDKVGDWLEMYTKVMELNYWGSTSCESASFDAASGEWTVQVLRDGQPVTLKPKQLVLATGMSGKANMPKFKGMDVFQGEQQHSSQHPGPDAYAGKKVVVVGANNSAHDICAALWEAGVDVTMVQRSSTHIVKSDSLMDLALGDLYSERALAAGMTTNKADLTFASIPYKILANFQKPVFKAIRERDADFYARLEERGFMLDFGDDDSGLFMKYLRRGSGYYIDVGASELVAEGKIKLKSGVGVQELKSHSIVLSDGTELPADLVVYATGYGSMNGWAADLISPEVANKVGKVWGLGSATTKDPGPWEGEQRNMWKPTQQQALWFHGGNLHQSRHYSQYLSLQLKARMEGLNTPVYGQQEVHHLS NPHDLAVAGILEQLEGCLRASDSTGAAQLFEPDGYWRDLVLFTWNLKTLEGREQIAAMLAAQLGAVQPVSIRIADGEHAVEAGGVLQSWITVETNVARGVGFIRIRDGKIWTLLTTMSELKGFEEAKGGRRPMGAEHGARTDRSSWLEQREQEAKELGYARQPYCVIIGGGQGGIALGARLRQLNVPTIIIEKNARPGDSWRKRYKSLCLHDPVWYDHMPYIPFPDNWPVFTPKDKVGDWLEMYTKVMELNYWGSTSCESASFDAASGEWTVQVLRDGQPVTLKPKQLVLATGMSGKANMPKFKGMDVFQGEQQHSSQHPGPDAYAGKKVVVVGANNSAHDICAALWEAGVDVTMVQRSSTHIVKSDSLMDLALGDLYSERALAAGMTTNKADLTFASIPYKILANFQKPVFKAIRERDADFYARLEERGFMLDFGDDDSGLFMKYLRRGSGYYIDVGASELVAEGKIKLKSGVGVQELKSHSIVLSDGTELPADLVVYATGYGSMNGWAADLISPEVANKVGKVWGLGSATTKDPGPWEGEQRNMWKPTQQQALWFHGGNLHQSRHYSQYLSLQLKARMEGLNTPVYGQQEVHHLS 8ad2-a4-m1-cG_8ad2-a4-m1-cH Tobacco lectin Nictaba in complex with triacetylchitotriose Q94EW1 Q94EW1 2 X-RAY DIFFRACTION 75 1.0 4097 (Nicotiana tabacum) 4097 (Nicotiana tabacum) 164 165 8ad2-a1-m1-cA_8ad2-a1-m1-cB 8ad2-a2-m1-cC_8ad2-a2-m1-cD 8ad2-a3-m1-cE_8ad2-a3-m1-cF QGQWIAARDLSITWVDNPQYWTWKTVDPNIEVAELRRVAWLDIYGKIETKNLIRKTSYAVYLVFKLTDNPRELERATASLRFVNEVAEGAGIEGTTVFISKKKKLPGELGRFPHLRSDGWLEIKLGEFFNNLGEDGEVEMRLMEINDKTWKSGIIVKGFDIRPN GQGQWIAARDLSITWVDNPQYWTWKTVDPNIEVAELRRVAWLDIYGKIETKNLIRKTSYAVYLVFKLTDNPRELERATASLRFVNEVAEGAGIEGTTVFISKKKKLPGELGRFPHLRSDGWLEIKLGEFFNNLGEDGEVEMRLMEINDKTWKSGIIVKGFDIRPN 8ad9-a2-m1-cC_8ad9-a2-m1-cB Crystal structure of ClpC2 C-terminal domain P9WPC7 1.43 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 83332 (Mycobacterium tuberculosis H37Rv) 2 151 AV SENLYFQGFRRFTPRARNAVVAAQNAAHGAASSEITPDHLLLGVLTDPAALATALLQQQEIDIATLRTAVTLPPAVTEPPQPIPFSGPARKVLELTFREALRLGHNYIGTEHLLLALLELEDGDGPLHRSGVDKSRAEADLITTLASLTGA 8ada-a1-m1-cB_8ada-a1-m1-cA Crystal structure of ClpC2 N-terminal domain P9WPC7 P9WPC7 1.996 X-RAY DIFFRACTION 47 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 63 69 PVRLDELINAIKRVHSDVLDQLSDAVLAAEHLGEIADHLIGHFVDQARRSGASWSDIGKSMGV PTPTAYPVRLDELINAIKRVHSDVLDQLSDAVLAAEHLGEIADHLIGHFVDQARRSGASWSDIGKSMGV 8adl-a1-m1-cB_8adl-a1-m1-cJ Cryo-EM structure of the SEA complex P38164 P38164 2.95 ELECTRON MICROSCOPY 21 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 801 801 GLIKKVTHWSYDNLIDYLSVNPTRDEVTHYKVDPENESDESIIKLHTVKDFGSITCLDYSESEIGMIGVGEKNGYLRIFNISYDIRVRAKKQRCINSLGINTNGLIAMGLDRNKHDSSLQIWDMNYHDDSHETINPMFSYCTNESIVSLKFLNDTSVLAASTKFLKEIDVRSPNPIYQHPTRLTYDIKLNPFNDWQFSTYGDDGTLAIWDRRKLSDASPLLTFEKLVGSGAASRKYMNSCFRWSCVRNNEFATLHRGDTIKRWRLGYYCDSNIENLFVSSVHDTNTMYDRVATFDYIPRSNNGTSLICMRQSGTIYRMPISEVCSKAILNNRNSLLLSNFENTEIDEIRVNFWKPEKLLEKDISVIMRTRASLGYGLDPMNTVEMIDSSNAYIRNTWRWIAIAKASVDDGTMVSGDLDLGYEGVIGIWNGILSDKQLNKEMEKIIKLRAGSPKYVQRRLCLIISGWDLSRSDYEDKYNIIMKNGHYEKAAAWAVFFGDIPKAVEILGSAKKERLRLIATAIAGYLAYKDLPGNNAWRQQCRKMSSELDDPYLRVIFAFIADNDWWDILYEPAISLRERLGVALRFLNDTDLTTFLDRTSSTVIENGELEGLILTGITPNGIDLLQSYVNKTSDVQSAALISIFGSPRYFRDQRVDEWIQTYRDMLKSWELFSMRARFDVLRSKLSRTKTGVLTADIKPRQIYIQCQNCKQNINTPRHKYCCPHCGSSFPRCAICLMPLGTSNLPFVINGTNRELVSRKLKLNEWFSFCLSCNHGMHAGHAEEWFDRHNVCPTPGCTCQCNK GLIKKVTHWSYDNLIDYLSVNPTRDEVTHYKVDPENESDESIIKLHTVKDFGSITCLDYSESEIGMIGVGEKNGYLRIFNISYDIRVRAKKQRCINSLGINTNGLIAMGLDRNKHDSSLQIWDMNYHDDSHETINPMFSYCTNESIVSLKFLNDTSVLAASTKFLKEIDVRSPNPIYQHPTRLTYDIKLNPFNDWQFSTYGDDGTLAIWDRRKLSDASPLLTFEKLVGSGAASRKYMNSCFRWSCVRNNEFATLHRGDTIKRWRLGYYCDSNIENLFVSSVHDTNTMYDRVATFDYIPRSNNGTSLICMRQSGTIYRMPISEVCSKAILNNRNSLLLSNFENTEIDEIRVNFWKPEKLLEKDISVIMRTRASLGYGLDPMNTVEMIDSSNAYIRNTWRWIAIAKASVDDGTMVSGDLDLGYEGVIGIWNGILSDKQLNKEMEKIIKLRAGSPKYVQRRLCLIISGWDLSRSDYEDKYNIIMKNGHYEKAAAWAVFFGDIPKAVEILGSAKKERLRLIATAIAGYLAYKDLPGNNAWRQQCRKMSSELDDPYLRVIFAFIADNDWWDILYEPAISLRERLGVALRFLNDTDLTTFLDRTSSTVIENGELEGLILTGITPNGIDLLQSYVNKTSDVQSAALISIFGSPRYFRDQRVDEWIQTYRDMLKSWELFSMRARFDVLRSKLSRTKTGVLTADIKPRQIYIQCQNCKQNINTPRHKYCCPHCGSSFPRCAICLMPLGTSNLPFVINGTNRELVSRKLKLNEWFSFCLSCNHGMHAGHAEEWFDRHNVCPTPGCTCQCNK 8adl-a1-m1-cG_8adl-a1-m1-cO Cryo-EM structure of the SEA complex P38164 P38164 2.95 ELECTRON MICROSCOPY 32 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 786 786 GLIKKVTHWSYDNLIDYLSVNPTRDEVTHYKVDPENESDESIIKLHTVKDFGSITCLDYSESEIGMIGVGEKNGYLRIFNISYDIRVRAKKQRCINSLGINTNGLIAMGLDRNKHDSSLQIWDMNYHDDSHETINPMFSYCTNESIVSLKFLNDTSVLAASTKFLKEIDVRSPNPIYQHPTRLTYDIKLNPFNDWQFSTYGDDGTLAIWDRRKLSDASPLLTFEKLVGSGAASRKYMNSCFRWSCVRNNEFATLHRGDTIKRWRLGYYCDSNIENLFVSSVHDTNTMYDRVATFDYIPRSNNGTSLICMRQSGTIYRMPISEVCSKAILNNRNSLLLSNFENTEIDEIRVNFWKPEKLLEKDISVIMRTRASLGYGLDPMNTVEMIDSSKQNNAYIRNTWRWIAIAKASVDDGTMVSGDLDLGYEGVIGIWNGILSDKQLNKEMEKIIKLRRKGSPKYVQRRLCLIISGWDLSRSDYEDKYNIIMKNGHYEKAAAWAVFFGDIPKAVEILGSAKKERLRLIATAIAGYLAYKDLPGNNAWRQQCRKMSSELDDPYLRVIFAFIADNDWWDILYEPAISLRERLGVALRFLNDTDLTTFLDRTSSTVIENGELEGLILTGITPNGIDLLQSYVNKTSDVQSAALISIFGSPRYFRDQRVDEWIQTYRDMLKSWELFSMRARFDVLRSKLSRTKTGVLTADIKPRQIYIQCQNCKQNINTPKYCCPHCGSSFPRCAICLMPLGTSKLKLNEWFSFCLSCNHGMHAGHAEEWFDRHNVCPTPGCTCQCN GLIKKVTHWSYDNLIDYLSVNPTRDEVTHYKVDPENESDESIIKLHTVKDFGSITCLDYSESEIGMIGVGEKNGYLRIFNISYDIRVRAKKQRCINSLGINTNGLIAMGLDRNKHDSSLQIWDMNYHDDSHETINPMFSYCTNESIVSLKFLNDTSVLAASTKFLKEIDVRSPNPIYQHPTRLTYDIKLNPFNDWQFSTYGDDGTLAIWDRRKLSDASPLLTFEKLVGSGAASRKYMNSCFRWSCVRNNEFATLHRGDTIKRWRLGYYCDSNIENLFVSSVHDTNTMYDRVATFDYIPRSNNGTSLICMRQSGTIYRMPISEVCSKAILNNRNSLLLSNFENTEIDEIRVNFWKPEKLLEKDISVIMRTRASLGYGLDPMNTVEMIDSSKQNNAYIRNTWRWIAIAKASVDDGTMVSGDLDLGYEGVIGIWNGILSDKQLNKEMEKIIKLRRKGSPKYVQRRLCLIISGWDLSRSDYEDKYNIIMKNGHYEKAAAWAVFFGDIPKAVEILGSAKKERLRLIATAIAGYLAYKDLPGNNAWRQQCRKMSSELDDPYLRVIFAFIADNDWWDILYEPAISLRERLGVALRFLNDTDLTTFLDRTSSTVIENGELEGLILTGITPNGIDLLQSYVNKTSDVQSAALISIFGSPRYFRDQRVDEWIQTYRDMLKSWELFSMRARFDVLRSKLSRTKTGVLTADIKPRQIYIQCQNCKQNINTPKYCCPHCGSSFPRCAICLMPLGTSKLKLNEWFSFCLSCNHGMHAGHAEEWFDRHNVCPTPGCTCQCN 8adl-a1-m1-cO_8adl-a1-m1-cB Cryo-EM structure of the SEA complex P38164 P38164 2.95 ELECTRON MICROSCOPY 79 0.994 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 786 801 8adl-a1-m1-cG_8adl-a1-m1-cJ GLIKKVTHWSYDNLIDYLSVNPTRDEVTHYKVDPENESDESIIKLHTVKDFGSITCLDYSESEIGMIGVGEKNGYLRIFNISYDIRVRAKKQRCINSLGINTNGLIAMGLDRNKHDSSLQIWDMNYHDDSHETINPMFSYCTNESIVSLKFLNDTSVLAASTKFLKEIDVRSPNPIYQHPTRLTYDIKLNPFNDWQFSTYGDDGTLAIWDRRKLSDASPLLTFEKLVGSGAASRKYMNSCFRWSCVRNNEFATLHRGDTIKRWRLGYYCDSNIENLFVSSVHDTNTMYDRVATFDYIPRSNNGTSLICMRQSGTIYRMPISEVCSKAILNNRNSLLLSNFENTEIDEIRVNFWKPEKLLEKDISVIMRTRASLGYGLDPMNTVEMIDSSKQNNAYIRNTWRWIAIAKASVDDGTMVSGDLDLGYEGVIGIWNGILSDKQLNKEMEKIIKLRRKGSPKYVQRRLCLIISGWDLSRSDYEDKYNIIMKNGHYEKAAAWAVFFGDIPKAVEILGSAKKERLRLIATAIAGYLAYKDLPGNNAWRQQCRKMSSELDDPYLRVIFAFIADNDWWDILYEPAISLRERLGVALRFLNDTDLTTFLDRTSSTVIENGELEGLILTGITPNGIDLLQSYVNKTSDVQSAALISIFGSPRYFRDQRVDEWIQTYRDMLKSWELFSMRARFDVLRSKLSRTKTGVLTADIKPRQIYIQCQNCKQNINTPKYCCPHCGSSFPRCAICLMPLGTSKLKLNEWFSFCLSCNHGMHAGHAEEWFDRHNVCPTPGCTCQCN GLIKKVTHWSYDNLIDYLSVNPTRDEVTHYKVDPENESDESIIKLHTVKDFGSITCLDYSESEIGMIGVGEKNGYLRIFNISYDIRVRAKKQRCINSLGINTNGLIAMGLDRNKHDSSLQIWDMNYHDDSHETINPMFSYCTNESIVSLKFLNDTSVLAASTKFLKEIDVRSPNPIYQHPTRLTYDIKLNPFNDWQFSTYGDDGTLAIWDRRKLSDASPLLTFEKLVGSGAASRKYMNSCFRWSCVRNNEFATLHRGDTIKRWRLGYYCDSNIENLFVSSVHDTNTMYDRVATFDYIPRSNNGTSLICMRQSGTIYRMPISEVCSKAILNNRNSLLLSNFENTEIDEIRVNFWKPEKLLEKDISVIMRTRASLGYGLDPMNTVEMIDSSNAYIRNTWRWIAIAKASVDDGTMVSGDLDLGYEGVIGIWNGILSDKQLNKEMEKIIKLRAGSPKYVQRRLCLIISGWDLSRSDYEDKYNIIMKNGHYEKAAAWAVFFGDIPKAVEILGSAKKERLRLIATAIAGYLAYKDLPGNNAWRQQCRKMSSELDDPYLRVIFAFIADNDWWDILYEPAISLRERLGVALRFLNDTDLTTFLDRTSSTVIENGELEGLILTGITPNGIDLLQSYVNKTSDVQSAALISIFGSPRYFRDQRVDEWIQTYRDMLKSWELFSMRARFDVLRSKLSRTKTGVLTADIKPRQIYIQCQNCKQNINTPRHKYCCPHCGSSFPRCAICLMPLGTSNLPFVINGTNRELVSRKLKLNEWFSFCLSCNHGMHAGHAEEWFDRHNVCPTPGCTCQCNK 8adn-a1-m1-c3_8adn-a1-m1-c4 Vairimorpha necatrix 20S proteasome from spores 2.77 ELECTRON MICROSCOPY 23 1.0 6039 (Vairimorpha necatrix) 6039 (Vairimorpha necatrix) 60 60 GFGNVGEDDLHPQIKKGAIFSPEEFDGIDKTDIFPLKKKRDPDSDHFKKTGGDDDNPFLY GFGNVGEDDLHPQIKKGAIFSPEEFDGIDKTDIFPLKKKRDPDSDHFKKTGGDDDNPFLY 8adn-a1-m1-cJ_8adn-a1-m1-cX Vairimorpha necatrix 20S proteasome from spores 2.77 ELECTRON MICROSCOPY 41 1.0 6039 (Vairimorpha necatrix) 6039 (Vairimorpha necatrix) 193 193 MESSVALKGNDFVIIGTDSSVKNSYLVLKREEDKFYNINNKVVFTYLGDQGDAFRTSSFINEKLVYEEIQNNVEITPKVTANVIQKTLYDNLRSHPKNCYFLVGGLSQDGPELYSVDLYGSLHENDFMAVGISTYFCYGVLDKEYHKNITKEDGIKIIQKCFDVLKQRCSVDISNIEIKIVSKEGVETINKVL MESSVALKGNDFVIIGTDSSVKNSYLVLKREEDKFYNINNKVVFTYLGDQGDAFRTSSFINEKLVYEEIQNNVEITPKVTANVIQKTLYDNLRSHPKNCYFLVGGLSQDGPELYSVDLYGSLHENDFMAVGISTYFCYGVLDKEYHKNITKEDGIKIIQKCFDVLKQRCSVDISNIEIKIVSKEGVETINKVL 8adn-a1-m1-cN_8adn-a1-m1-cb Vairimorpha necatrix 20S proteasome from spores 2.77 ELECTRON MICROSCOPY 42 1.0 6039 (Vairimorpha necatrix) 6039 (Vairimorpha necatrix) 194 194 TTIMAVKYADGILIGADCRTSMGTYVSSRFTDKLTKISDNIYCCRSGSAADTQAITQYITELVQRSSFIDKEIPSVKKAAMAAKDIIYRYPNMLAGLIIAGYDTKPRIFNISLGGTMTEAEWQIGGSGSAYIYGLCDTTFKPNMNLEEALEFVKLAVTCAIKRDNASGGCIRMASITREGVQRFFYSGDKILNS TTIMAVKYADGILIGADCRTSMGTYVSSRFTDKLTKISDNIYCCRSGSAADTQAITQYITELVQRSSFIDKEIPSVKKAAMAAKDIIYRYPNMLAGLIIAGYDTKPRIFNISLGGTMTEAEWQIGGSGSAYIYGLCDTTFKPNMNLEEALEFVKLAVTCAIKRDNASGGCIRMASITREGVQRFFYSGDKILNS 8ads-a1-m1-cI_8ads-a1-m1-cJ Lipidic alpha-synuclein fibril - polymorph L2B P37840 P37840 3.05 ELECTRON MICROSCOPY 336 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 75 75 7l7h-a1-m1-cA_7l7h-a1-m1-cB 7l7h-a1-m1-cB_7l7h-a1-m1-cC 7l7h-a1-m1-cC_7l7h-a1-m1-cD 7l7h-a1-m1-cE_7l7h-a1-m1-cF 7l7h-a1-m1-cF_7l7h-a1-m1-cG 7l7h-a1-m1-cG_7l7h-a1-m1-cH 8a4l-a1-m1-cA_8a4l-a1-m1-cB 8a4l-a1-m1-cB_8a4l-a1-m1-cC 8a4l-a1-m1-cC_8a4l-a1-m1-cD 8a4l-a1-m1-cD_8a4l-a1-m1-cE 8a4l-a1-m1-cF_8a4l-a1-m1-cG 8a4l-a1-m1-cG_8a4l-a1-m1-cH 8a4l-a1-m1-cH_8a4l-a1-m1-cI 8a4l-a1-m1-cI_8a4l-a1-m1-cJ 8a4l-a1-m1-cK_8a4l-a1-m1-cL 8a4l-a1-m1-cL_8a4l-a1-m1-cM 8a4l-a1-m1-cM_8a4l-a1-m1-cO 8a4l-a1-m1-cO_8a4l-a1-m1-cP 8ads-a1-m1-cA_8ads-a1-m1-cB 8ads-a1-m1-cB_8ads-a1-m1-cC 8ads-a1-m1-cC_8ads-a1-m1-cD 8ads-a1-m1-cD_8ads-a1-m1-cE 8ads-a1-m1-cF_8ads-a1-m1-cG 8ads-a1-m1-cG_8ads-a1-m1-cH 8ads-a1-m1-cH_8ads-a1-m1-cI 8aex-a1-m1-cA_8aex-a1-m1-cC 8aex-a1-m1-cB_8aex-a1-m1-cD 8aex-a1-m1-cC_8aex-a1-m1-cE 8aex-a1-m1-cD_8aex-a1-m1-cF 8aex-a1-m1-cE_8aex-a1-m1-cG 8aex-a1-m1-cF_8aex-a1-m1-cH 8aex-a1-m1-cG_8aex-a1-m1-cI 8aex-a1-m1-cH_8aex-a1-m1-cJ GVVAAAEKTKQTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK GVVAAAEKTKQTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK 8adw-a1-m1-cI_8adw-a1-m1-cJ Lipidic alpha-synuclein fibril - polymorph L1C P37840 P37840 2.95 ELECTRON MICROSCOPY 425 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 99 99 8adu-a1-m1-cA_8adu-a1-m1-cB 8adu-a1-m1-cA_8adu-a1-m1-cC 8adu-a1-m1-cB_8adu-a1-m1-cC 8adu-a1-m1-cB_8adu-a1-m1-cD 8adu-a1-m1-cC_8adu-a1-m1-cD 8adu-a1-m1-cC_8adu-a1-m1-cE 8adu-a1-m1-cD_8adu-a1-m1-cE 8adv-a1-m1-cA_8adv-a1-m1-cC 8adv-a1-m1-cA_8adv-a1-m1-cE 8adv-a1-m1-cB_8adv-a1-m1-cD 8adv-a1-m1-cB_8adv-a1-m1-cF 8adv-a1-m1-cC_8adv-a1-m1-cE 8adv-a1-m1-cC_8adv-a1-m1-cG 8adv-a1-m1-cD_8adv-a1-m1-cF 8adv-a1-m1-cD_8adv-a1-m1-cH 8adv-a1-m1-cE_8adv-a1-m1-cG 8adv-a1-m1-cE_8adv-a1-m1-cI 8adv-a1-m1-cF_8adv-a1-m1-cH 8adv-a1-m1-cF_8adv-a1-m1-cJ 8adv-a1-m1-cG_8adv-a1-m1-cI 8adv-a1-m1-cH_8adv-a1-m1-cJ 8adw-a1-m1-cA_8adw-a1-m1-cB 8adw-a1-m1-cB_8adw-a1-m1-cC 8adw-a1-m1-cC_8adw-a1-m1-cD 8adw-a1-m1-cD_8adw-a1-m1-cE 8adw-a1-m1-cF_8adw-a1-m1-cG 8adw-a1-m1-cG_8adw-a1-m1-cH 8adw-a1-m1-cH_8adw-a1-m1-cI MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ MDVFMKGLSKAKEGVVAAAEKTKQGVAEAAGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQ 8ae2-a1-m1-cB_8ae2-a1-m1-cI Cryo-EM structure of full-length human immunoglobulin M - F(ab')2 conformation 5 8.5 ELECTRON MICROSCOPY 51 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 97 106 8adz-a1-m1-cB_8adz-a1-m1-cI 8ae0-a1-m1-cB_8ae0-a1-m1-cI EMNPNVNVFVPPRDGFKSKLICEATNFTPKPITVSWLKDGKLVESGFTTDPVTIEQTYKVISTLTISEIDWLNLNVYTCRVDHRGLTFLKNVSSTCA VAEMNPNVNVFVPPRDGFSGPAPRKSKLICEATNFTPKPITVSWLKDGKLVESGFTTDPVTIETPQTYKVISTLTISEIDWLNLNVYTCRVDHRGLTFLKNVSSTC 8aep-a1-m1-cA_8aep-a1-m1-cB Reductase domain of the carboxylate reductase of Neurospora crassa A0A0B0DIR3 A0A0B0DIR3 2.3 X-RAY DIFFRACTION 97 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 396 396 GTLDNEHHVMEALVEKYTRDLPTPKQNKPAPADEGQVVVITGTTGGIGSYLIDICSSSSRVSKIICLNRSEDGKARQTASSSGRGLSTDFSKCEFYHADMSRADLGLGPEVYSRLLSEVDRVIHNQWPVNFNIAVESFEPHIRGCRNLVDFSYKADKNVPIVFVSSIGTVDRWHDEDRIVPEASLDDLSLAAGGYGQSKLVSSLIFDKAAEVSGVPTEVVRVGQVAGPSSEKGYWNKQEWLPSIVASSAYLGVLPDSLGQMTTIDWTPIEAIAKLLLEVSGVIDNVPLDKINGYFHGVNPERTSWSALAPAVQEYYGDRIQKIVPLDEWLEALEKSQENPGIKLIDTYRTWSEGYKKGTKFVPLDMTRTKEYSKTMREMHAVTPELMKNWCRQWNF GTLDNEHHVMEALVEKYTRDLPTPKQNKPAPADEGQVVVITGTTGGIGSYLIDICSSSSRVSKIICLNRSEDGKARQTASSSGRGLSTDFSKCEFYHADMSRADLGLGPEVYSRLLSEVDRVIHNQWPVNFNIAVESFEPHIRGCRNLVDFSYKADKNVPIVFVSSIGTVDRWHDEDRIVPEASLDDLSLAAGGYGQSKLVSSLIFDKAAEVSGVPTEVVRVGQVAGPSSEKGYWNKQEWLPSIVASSAYLGVLPDSLGQMTTIDWTPIEAIAKLLLEVSGVIDNVPLDKINGYFHGVNPERTSWSALAPAVQEYYGDRIQKIVPLDEWLEALEKSQENPGIKLIDTYRTWSEGYKKGTKFVPLDMTRTKEYSKTMREMHAVTPELMKNWCRQWNF 8aew-a1-m1-cB_8aew-a1-m1-cA Malonyl-CoA reductase from Chloroflexus aurantiacus - N-terminal Apo A9WIU3 A9WIU3 2.72 X-RAY DIFFRACTION 144 0.998 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 537 542 TGRLAGKIALITGGAGNIGSELTRRFLAEGATVIISGRNRAKLTALAERMQAEAGVPAKRIDLEVMDGSDPVAVRAGIEAIVARHGQIDILVNNAGSAGAQRRLAEIPLTEAELGPGAEETLHASIANLLGMGWHLMRIAAPHMPVGSAVINVSTIFSRAEYYGRIPYVTPKAALNALSQLAARELGARGIRVNTIFPGPIESDRIRTVFQRMDQLKGRPEGDTAHHFLNTMRLCRANDQGALERRFPSVGDVADAAVFLASAESAALSGETIEVTHGMELPACSETSLLARTDLRTIDASGRTTLICAGDQIEEVMALTGMLRTCGSEVIIGFRSAAALAQFEQAVNESRRDFTPPIALPLDPRDPATIDAVFDWAGENTGGIHAAVILPATSHEPAPCVIEVDDERVLNFLADEITGTIVIASRLARYWQSQGARARGPRVIFLSNGADQNGNVYGRIQSAAIGQLIRVWRHEAELDYQRASAAGDHVLPPVWANQIVRFANRSLEGLEFACAWTAQLLHSQRHINEITLNIPAN TGRLAGKIALITGGAGNIGSELTRRFLAEGATVIISGRNRAKLTALAERMQAEAGVPAKRIDLEVMDGSDPVAVRAGIEAIVARHGQIDILVNNAGSAGAQRRLAEIPLTEAELGPGAEETLHASIANLLGMGWHLMRIAAPHMPVGSAVINVSTIFSRAEYYGRIPYVTPKAALNALSQLAARELGARGIRVNTIFPGPIESDRIRTVFQRMDQLKGRPEGDTAHHFLNTMRLCRANDQGALERRFPSVGDVADAAVFLASAESAALSGETIEVTHGMELPACSETSLLARTDLRTIDASGRTTLICAGDQIEEVMALTGMLRTCGSEVIIGFRSAAALAQFEQAVNESRRLAFTPPIALPLDPRDPATIDAVFDWAGENTGGIHAAVILPATSHEPAPCVIEVDDERVLNFLADEITGTIVIASRLARYWQSQRLTPGARARGPRVIFLSNGADQNGNVYGRIQSAAIGQLIRVWRHEAELDYQRASAAGDHVLPPVWANQIVRFANRSLEGLEFACAWTAQLLHSQRHINEITLNIPAN 8aex-a1-m1-cE_8aex-a1-m1-cI Lipidic alpha-synuclein fibril - polymorph L3A P37840 P37840 2.76 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 71 71 8aex-a1-m1-cA_8aex-a1-m1-cE 8aex-a1-m1-cC_8aex-a1-m1-cG GVVAAATKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK GVVAAATKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK 8af9-a5-m3-cE_8af9-a5-m1-cG Structure of a T4SS effector from Brucella sp. Q2YPZ9 Q2YPZ9 2.5 X-RAY DIFFRACTION 20 1.0 235 (Brucella abortus) 235 (Brucella abortus) 116 117 DPNAWHHSQMTTLEAIELSRSGGHPYSSPNVPKGFNTVVGFFFDTYDWYPAAYDDEEGNAMKDRELIQYEDWCAKYARTLGLEVKEVEAPAALKVHGIMALKAYPEALLEIRLIEM FDPNAWHHSQMTTLEAIELSRSGGHPYSSPNVPKGFNTVVGFFFDTYDWYPAAYDDEEGNAMKDRELIQYEDWCAKYARTLGLEVKEVEAPAALKVHGIMALKAYPEALLEIRLIEM 8af9-a6-m1-cI_8af9-a6-m2-cL Structure of a T4SS effector from Brucella sp. Q2YPZ9 Q2YPZ9 2.5 X-RAY DIFFRACTION 19 0.992 235 (Brucella abortus) 235 (Brucella abortus) 118 118 8af9-a1-m1-cA_8af9-a1-m1-cH 8af9-a2-m1-cB_8af9-a2-m1-cD 8af9-a3-m1-cJ_8af9-a3-m1-cC NFDPNAWHHSQMTTLEAIELSRSGGHPYSSPNVPKGFNTVVGFFFDTYDWYPAAYDDEEGNAMKDRELIQYEDWCAKYARTLGLEVKEVEAPAALKVHGIMALKAYPEALLEIRLIEM FDPNAWHHSQMTTLEAIELSRSGGHPYSSPNVPKGFNTVVGFFFDTYDWYPAAYDDEEGNAMKDRELIQYEDWCAKYARTLGLEVKEVEAPAALKVHGIMALKAYPEALLEIRLIEMP 8af9-a7-m1-cK_8af9-a7-m1-cL Structure of a T4SS effector from Brucella sp. Q2YPZ9 Q2YPZ9 2.5 X-RAY DIFFRACTION 14 1.0 235 (Brucella abortus) 235 (Brucella abortus) 116 118 8af9-a4-m1-cE_8af9-a4-m1-cF FDPNAWHHSQMTTLEAIELSRSGGHPYSSPNVPKGFNTVVGFFFDTYDWYPAAYDDEEGNAMKDRELIQYEDWCAKYARTLGLEVKEVEAPAALKVHGIMALKAYPEALLEIRLIE FDPNAWHHSQMTTLEAIELSRSGGHPYSSPNVPKGFNTVVGFFFDTYDWYPAAYDDEEGNAMKDRELIQYEDWCAKYARTLGLEVKEVEAPAALKVHGIMALKAYPEALLEIRLIEMP 8afg-a1-m1-cB_8afg-a1-m1-cA K352D oxalyl-CoA synthetase Pcs60p P38137 P38137 2.45 X-RAY DIFFRACTION 42 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 427 486 8atd-a1-m1-cA_8atd-a1-m1-cB 8atd-a1-m1-cC_8atd-a1-m1-cD 8atd-a1-m1-cE_8atd-a1-m1-cF ASFNDTFSVSDNVAVIVPETDTQVTYRDLSHMVGHFQTMFTNPNSPLYGAVFRQDTVAISMRNGLEFIVAFLGATMDAKIGAPLNPNYKEKEFNFYLNDLKSKAICVPKGTTKLQSSEILKSASTFGCFIVELAFDATRFRVEYDIYSPEDNYKRVIYRSLNNAKFVNTNPVKFPGFARSSDVALILHTSGTPKTVPLLHLNIVRSTLNIANTYKLTPLDRSYVVMPLFHVHGLIGVLLSTFRTQGSVVVPDGFHPKLFWDQFVKYNCNWFSCVPTISMIMLNMPKPNPFPHIRFIRSCSSALAPATFHKLEKEFNAPVLEAYAMTEASHQMTSNNLPPGKRKPGTVGQPQGVTVVILDDNDNVLPPGKVGEVSIRGENVTLGYANNPKANKENFTKRENYFRTGDQGYFDPEGFLVLTGRIKELIN TASFNDTFSVSDNVAVIVPETDTQVTYRDLSHMVGHFQTMFTNPNSPLYGAVFRQDTVAISMRNGLEFIVAFLGATMDAKIGAPLNPNYKEKEFNFYLNDLKSKAICVPKGTTKLQSSEILKSASTFGCFIVELAFDATRFRVEYDIYSPEDNYKRVIYRSLNNAKFVNTNPVKFPGFARSSDVALILHTSGSTPKTVPLLHLNIVRSTLNIANTYKLTPLDRSYVVMPLFHVHGLIGVLLSTFRTQGSVVVPDGFHPKLFWDQFVKYNCNWFSCVPTISMIMLNMPKPNPFPHIRFIRSCSSALAPATFHKLEKEFNAPVLEAYAMTEASHQMTSNNLPPGKRKPGTVGQPQGVTVVILDDNDNVLPPGKVGEVSIRGENVTLGYANNPKANKENFTKRENYFRTGDQGYFDPEGFLVLTGRIKELINRGKISPIELDGIMLSHPKIDEAVAFGVPDDMYGQVVQATYEELVNFLKKHLASFKIP 8afu-a2-m1-cB_8afu-a2-m2-cA DaArgC - N-acetyl-gamma-glutamyl-phosphate Reductase of Denitrovibrio acetiphilus D4H3H4 D4H3H4 1.99 X-RAY DIFFRACTION 108 0.997 522772 (Denitrovibrio acetiphilus DSM 12809) 522772 (Denitrovibrio acetiphilus DSM 12809) 334 339 8afu-a1-m2-cB_8afu-a1-m1-cA 8afv-a1-m1-cB_8afv-a1-m1-cA 8afv-a2-m1-cD_8afv-a2-m1-cC PRGSHMMKVSVIGATGYTGYELVKILANHPEFEIAALVSETYADKMFSDVYPRLRSICDVVITGRDYDAVAEISDAVFLCLPHAAAQDAAAFFYEKGLKVVDFSADFRLKDKKLYEHTYPDLLRKAVYGLPEIFEVDIKKAELVANPGCYPTSVITPLYPLLKAGLISPEGIIADSKSGVTGAGRKADIAYSFCECNEDFRPYAIFSHRHNPEINEVLKETGKETNVLFTPHLIPASKGIESTIYTKTTAGLAEISACLKDFYRERRCVRIYDNGHIPSTADVTDTNFIDIGLFVKGERLIIVSCIDNLIKGSSGMAVQNMNLMCGFDDTLGIL RGSHMMKVSVIGATGYTGYELVKILANHPEFEIAALVSETYADKMFSDVYPRLRSICDVVITGRDYDAVAEISDAVFLCLPHAAAQDAAAFFYEKGLKVVDFSADFRLKDKKLYEATYKVDHTYPDLLRKAVYGLPEIFEVDIKKAELVANPGCYPTSVITPLYPLLKAGLISPEGIIADSKSGVTGAGRKADIAYSFCECNEDFRPYAIFSHRHNPEINEVLKETGKETNVLFTPHLIPASKGIESTIYTKTTAGLAEISACLKDFYRERRCVRIYDNGHIPSTADVTDTNFIDIGLFVKGERLIIVSCIDNLIKGSSGMAVQNMNLMCGFDDTLGIL 8ag3-a1-m1-cC_8ag3-a1-m1-cD Vaccinia C16 N-terminal domains P03296 P03296 3.47 ELECTRON MICROSCOPY 54 1.0 696871 (Vaccinia virus Western Reserve) 696871 (Vaccinia virus Western Reserve) 161 161 MDIYDDKGLQTIKLFNNEFDCIRNDIRELFKHVTDSDSIQLPMEDNSDIIENIRKILYRRLKNVECVDIDSTITFMKYDPNDDNKRTCSNWVPLTNNYMEYCLVIYLETPICGGKIKLYHPTGNIKSDKDIMFAKTLDFKSKKVLTGRKTIAVLDISVSYN MDIYDDKGLQTIKLFNNEFDCIRNDIRELFKHVTDSDSIQLPMEDNSDIIENIRKILYRRLKNVECVDIDSTITFMKYDPNDDNKRTCSNWVPLTNNYMEYCLVIYLETPICGGKIKLYHPTGNIKSDKDIMFAKTLDFKSKKVLTGRKTIAVLDISVSYN 8ag5-a1-m1-cC_8ag5-a1-m1-cD Vaccinia C16 protein bound to Ku70/Ku80 P03296 P03296 3.47 ELECTRON MICROSCOPY 78 1.0 696871 (Vaccinia virus Western Reserve) 696871 (Vaccinia virus Western Reserve) 331 331 8ag4-a1-m1-cD_8ag4-a1-m1-cC MDIYDDKGLQTIKLFNNEFDCIRNDIRELFKHVTDSDSIQLPMEDNSDIIENIRKILYRRLKNVECVDIDSTITFMKYDPNDDNKRTCSNWVPLTNNYMEYCLVIYLETPICGGKIKLYHPTGNIKSDKDIMFAKTLDFKSKKVLTGRKTIAVLDISVSYNRSMTTIHYNDDVDIDIHTDKNGKELCYCYITIDDHYLVDVETIGVIVNRSGKCLLVNNHLGIGIVKDKRISDSFGDVCMDTIFDFSEARELFSLTNDDNRNIAWDTDKLDDDTDIWTPVTEDDYKFLSRLVLYAKSQSDTVFDYYVLTGDTEPPTVFIFKVTRFYFNMPK MDIYDDKGLQTIKLFNNEFDCIRNDIRELFKHVTDSDSIQLPMEDNSDIIENIRKILYRRLKNVECVDIDSTITFMKYDPNDDNKRTCSNWVPLTNNYMEYCLVIYLETPICGGKIKLYHPTGNIKSDKDIMFAKTLDFKSKKVLTGRKTIAVLDISVSYNRSMTTIHYNDDVDIDIHTDKNGKELCYCYITIDDHYLVDVETIGVIVNRSGKCLLVNNHLGIGIVKDKRISDSFGDVCMDTIFDFSEARELFSLTNDDNRNIAWDTDKLDDDTDIWTPVTEDDYKFLSRLVLYAKSQSDTVFDYYVLTGDTEPPTVFIFKVTRFYFNMPK 8ag8-a1-m1-cA_8ag8-a1-m2-cA Structure of the Fluorescence Recovery-like protein FRPL from Pseudomonas borbori A0A1I5SVP7 A0A1I5SVP7 1.8 X-RAY DIFFRACTION 35 1.0 289003 (Pseudomonas borbori) 289003 (Pseudomonas borbori) 106 106 MHDLKWSAAEKKLAHHVFEAALTTELAEIMADFKARAAAITQPQEIWPLQEYLARKQREIDRKYDYRYSQLLFVFGQLIREERVQEAQLAGLSEEKLGYIRRSASL MHDLKWSAAEKKLAHHVFEAALTTELAEIMADFKARAAAITQPQEIWPLQEYLARKQREIDRKYDYRYSQLLFVFGQLIREERVQEAQLAGLSEEKLGYIRRSASL 8agd-a1-m1-cI_8agd-a1-m1-cL Full SDBC and SOD assembly Q9RWM2 Q9RWM2 3.5 ELECTRON MICROSCOPY 71 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 120 120 8aca-a1-m1-cA_8aca-a1-m1-cB 8aca-a1-m1-cA_8aca-a1-m1-cC 8aca-a1-m1-cB_8aca-a1-m1-cC 8acq-a1-m1-cH_8acq-a1-m1-cI 8acq-a1-m1-cH_8acq-a1-m1-cL 8acq-a1-m1-cI_8acq-a1-m1-cL 8agd-a1-m1-cH_8agd-a1-m1-cI 8agd-a1-m1-cH_8agd-a1-m1-cL GPTEGTYTLAPQAVVKPAGPVYAPAGTAKISETLGVTRTTITLTGMAPYAIYVAHYHKMGSDGPAIMESRMIAQASADGKVTLTGIVPTALIRDAAYINVHHGRDFSGALADSGVICTPI GPTEGTYTLAPQAVVKPAGPVYAPAGTAKISETLGVTRTTITLTGMAPYAIYVAHYHKMGSDGPAIMESRMIAQASADGKVTLTGIVPTALIRDAAYINVHHGRDFSGALADSGVICTPI 8ah6-a1-m1-cA_8ah6-a1-m1-cB Crystal Structure of the third PDZ domain of PSD-95 protein in the space group P21 at pH 4.0 B7Z4H2 B7Z4H2 1.63 X-RAY DIFFRACTION 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 101 102 GLGEEDIPREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFE GLGEEDIPREPRRIVIHRGSTGLGFNIVGGEDGEGIFISFILAGGPADLSGELRKGDQILSVNGVDLRNASHEQAAIALKNAGQTVTIIAQYKPEEYSRFEA 8ahe-a1-m1-cA_8ahe-a1-m2-cB PAC-FragmentDEL: Photoactivated covalent capture of DNA encoded fragments for hit discovery A0A348ACF3 A0A348ACF3 2.108 X-RAY DIFFRACTION 59 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 369 369 3beo-a1-m1-cA_3beo-a1-m1-cB 8ahf-a1-m1-cA_8ahf-a1-m2-cB ERLKVMTIFGTRPEAIKMAPLVLELQKHPEKIESIVTVTAQHRQMLDQVLSIFGITPDFDLNIMKDRQTLIDITTRGLEGLDKVMKEAKPDIVLVHGDTTTTFIASLAAFYNQIPVGHVEAGLRTWDKYSPYPEEMNRQLTGVMADLHFSPTAKSATNLQKENKDESRIFITGNTAIDALKTTVKETYSHPVLEKLGNNRLVLMTAHRRENLGEPMRNMFRAIKRLVDKHEDVQVVYPVHMNPVVRETANDILGDYGRIHLIEPLDVIDFHNVAARSYLMLTDSGGVQEEAPSLGVPVLVLRDTTERPEGIEAGTLKLAGTDEETIFSLADELLSDKEAHDKMSKASNPYGDGRASERIVEAILKHFNK ERLKVMTIFGTRPEAIKMAPLVLELQKHPEKIESIVTVTAQHRQMLDQVLSIFGITPDFDLNIMKDRQTLIDITTRGLEGLDKVMKEAKPDIVLVHGDTTTTFIASLAAFYNQIPVGHVEAGLRTWDKYSPYPEEMNRQLTGVMADLHFSPTAKSATNLQKENKDESRIFITGNTAIDALKTTVKETYSHPVLEKLGNNRLVLMTAHRRENLGEPMRNMFRAIKRLVDKHEDVQVVYPVHMNPVVRETANDILGDYGRIHLIEPLDVIDFHNVAARSYLMLTDSGGVQEEAPSLGVPVLVLRDTTERPEGIEAGTLKLAGTDEETIFSLADELLSDKEAHDKMSKASNPYGDGRASERIVEAILKHFNK 8ahq-a1-m2-cB_8ahq-a1-m3-cB VirD/holo-ACP5b of Streptomyces virginiae complex A4PHM7 A4PHM7 2.1 X-RAY DIFFRACTION 61 1.0 1961 (Streptomyces virginiae) 1961 (Streptomyces virginiae) 235 235 8ahq-a1-m1-cA_8ahq-a1-m2-cA 8ahq-a1-m1-cA_8ahq-a1-m3-cA 8ahq-a1-m1-cB_8ahq-a1-m2-cB 8ahq-a1-m1-cB_8ahq-a1-m3-cB 8ahq-a1-m2-cA_8ahq-a1-m3-cA 8ahz-a1-m1-cB_8ahz-a1-m1-cA 8ahz-a1-m1-cB_8ahz-a1-m1-cC 8ahz-a1-m1-cC_8ahz-a1-m1-cA GSVRVVRGRGLLRAVLDRPERRNPIDAGLLTSLARALDQAESDQDCRVFVLSSTGEDFCAGTDLSLPDGAELPYWTLLERLTRSPLATVAVVDGRATAGGVGLAAACDLVLAGERARFRLTEVLAGLVPAALPFVARRTGEQRAFAATLRAEEFDAGAAHRVGLADLAGPRAEDLLPPVLAGLGRTDRSTTAALKEYRARLFPRDARLGHDASRLLIERFAAGTGQLLARLREAG GSVRVVRGRGLLRAVLDRPERRNPIDAGLLTSLARALDQAESDQDCRVFVLSSTGEDFCAGTDLSLPDGAELPYWTLLERLTRSPLATVAVVDGRATAGGVGLAAACDLVLAGERARFRLTEVLAGLVPAALPFVARRTGEQRAFAATLRAEEFDAGAAHRVGLADLAGPRAEDLLPPVLAGLGRTDRSTTAALKEYRARLFPRDARLGHDASRLLIERFAAGTGQLLARLREAG 8aht-a2-m1-cC_8aht-a2-m1-cA Crystal structure of Plasmodium falciparum Ca2+/Calmodulin in complex with melittin P62203 P62203 2.2 X-RAY DIFFRACTION 29 0.993 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 136 140 8aht-a1-m1-cC_8aht-a1-m1-cA DKLTEEQISEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEIDTDGNGTIDFPEFLTLMARKELIEAFRVFDRDGDGYISADELRHVMTNLGEKLTNEEVDEMIREADIDGDGQINYEEFVKMM KLTEEQISEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEIDTDGNGTIDFPEFLTLMARKLKDELIEAFRVFDRDGDGYISADELRHVMTNLGEKLTNEEVDEMIREADIDGDGQINYEEFVKMMIA 8aht-a3-m1-cD_8aht-a3-m1-cA Crystal structure of Plasmodium falciparum Ca2+/Calmodulin in complex with melittin P62203 P62203 2.2 X-RAY DIFFRACTION 45 0.992 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 131 140 8aht-a2-m1-cD_8aht-a2-m1-cA DKLTEEQISEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEIDTDGNGTIDFPEFLTLMAIEAFRVFDRDGDGYISADELRHVMTNLGEKLTNEEVDEMIREADIDGDGQINYEEFVKM KLTEEQISEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEIDTDGNGTIDFPEFLTLMARKLKDELIEAFRVFDRDGDGYISADELRHVMTNLGEKLTNEEVDEMIREADIDGDGQINYEEFVKMMIA 8aht-a4-m1-cA_8aht-a4-m1-cB Crystal structure of Plasmodium falciparum Ca2+/Calmodulin in complex with melittin P62203 P62203 2.2 X-RAY DIFFRACTION 16 0.993 5833 (Plasmodium falciparum) 5833 (Plasmodium falciparum) 140 140 8aht-a1-m1-cA_8aht-a1-m1-cB 8aht-a2-m1-cA_8aht-a2-m1-cB 8aht-a3-m1-cA_8aht-a3-m1-cB KLTEEQISEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEIDTDGNGTIDFPEFLTLMARKLKDELIEAFRVFDRDGDGYISADELRHVMTNLGEKLTNEEVDEMIREADIDGDGQINYEEFVKMMIA KLTEEQISEFKEAFSLFDKDGDGTITTKELGTVMRSLGQNPTEAELQDMINEIDTDGNGTIDFPEFLTLMARKLKDTELIEAFRVFDRDGDGYISADELRHVMTNLGEKLTNEEVDEMIREADIDGDGQINYEEFVKMMI 8ahu-a1-m1-cA_8ahu-a1-m2-cA Crystal structure of D-amino acid aminotrensferase from Haliscomenobacter hydrossis complexed with D-cycloserine F4KWH0 F4KWH0 1.41 X-RAY DIFFRACTION 125 1.0 2350 (Haliscomenobacter hydrossis) 2350 (Haliscomenobacter hydrossis) 283 283 7p7x-a1-m1-cA_7p7x-a1-m2-cA 7p8o-a1-m1-cA_7p8o-a1-m2-cA GHMIKYYNINGQQVPVENATLHVSDLSILRGYGIFDYFLAREGHPLFLDDYLNRFYRSAAELYLEIPFDKAELRRQIYALLQANEVREAGIRLVLTGGYSPDGYTPVNPNLLIMMYDLPASAWEFSAQGIKIITHPFQRELPEVKTINYSTGIRMLKTIKERGATDLIYVDQGEWIRESARSNFFLVMPDNTIVTADEKILWGITRRQVIDAAREAGYAVEERRIHITELDQAREAFFTSTIKGVMAIGQIDDRVFGDGTIGKVTQELQDLFVGKVKAYLETC GHMIKYYNINGQQVPVENATLHVSDLSILRGYGIFDYFLAREGHPLFLDDYLNRFYRSAAELYLEIPFDKAELRRQIYALLQANEVREAGIRLVLTGGYSPDGYTPVNPNLLIMMYDLPASAWEFSAQGIKIITHPFQRELPEVKTINYSTGIRMLKTIKERGATDLIYVDQGEWIRESARSNFFLVMPDNTIVTADEKILWGITRRQVIDAAREAGYAVEERRIHITELDQAREAFFTSTIKGVMAIGQIDDRVFGDGTIGKVTQELQDLFVGKVKAYLETC 8ai9-a1-m1-cA_8ai9-a1-m1-cB S10T variant of glutathione transferase Chi 1 from Synechocystis sp. PCC 6803 in complex with glutathione 1.7 X-RAY DIFFRACTION 103 1.0 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 183 183 7pka-a1-m1-cA_7pka-a1-m1-cB 8ai8-a1-m1-cA_8ai8-a1-m1-cB 8aib-a1-m1-cA_8aib-a1-m1-cB MIKLYGAPQTRASIIQWYLEELSLPYEFVNVNLKEGEHRQAPYLAINPFGKVPAIADGNFHLWESGAILLYLAEKASTIPADAQARALVNQWILFANSTLANGLFIEAVREKEMPRLLQSLEKILGRSPFILGEKFSVVDVAVGSILAYVPIMLKLNFDDYPAVAAYVQGLVQRPAFQASIGA MIKLYGAPQTRASIIQWYLEELSLPYEFVNVNLKEGEHRQAPYLAINPFGKVPAIADGNFHLWESGAILLYLAEKASTIPADAQARALVNQWILFANSTLANGLFIEAVREKEMPRLLQSLEKILGRSPFILGEKFSVVDVAVGSILAYVPIMLKLNFDDYPAVAAYVQGLVQRPAFQASIGA 8aid-a2-m1-cD_8aid-a2-m1-cC Crystal structure of N-terminally truncated PA4183 from P. aeruginosa PAO1 Q9HWJ8 Q9HWJ8 1.52 X-RAY DIFFRACTION 72 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 136 137 8aid-a1-m1-cB_8aid-a1-m1-cA PFLWRRVNDSSGFAEPRVFIRVYLEPGSIDAAIAFYEDLQGVAHDMRFDFPEKRLTLAAVGAFLLLEGSDEALAPFRSTTGTLLVDDIEPYHRRLLAAGAQIIFGPARAPTGACFNALLPDGTVVEFVHHRPQPGE QPFLWRRVNDSSGFAEPRVFIRVYLEPGSIDAAIAFYEDLQGVAHDMRFDFPEKRLTLAAVGAFLLLEGSDEALAPFRSTTGTLLVDDIEPYHRRLLAAGAQIIFGPARAPTGACFNALLPDGTVVEFVHHRPQPGE 8ajk-a1-m1-cA_8ajk-a1-m1-cB Crystal structure of a C43S variant from the disulfide reductase MerA from Staphylococcus aureus A0A6B5CJS8 A0A6B5CJS8 1.6 X-RAY DIFFRACTION 154 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 446 447 8ajj-a1-m1-cD_8ajj-a1-m1-cC 8ajj-a2-m1-cA_8ajj-a2-m3-cA 8ajj-a3-m1-cB_8ajj-a3-m2-cB GMKTYDLIVIGFGKAGKTLAKYAASTGQHVAVIEQSPKMYGGTSINIGCIPSKTLVHDGLEGKSFEASYNRKNDVVNALNNKNYHLLADDNNIDVLDFKAQFKSNTEVNLLDQHDDIVDSITAPHIIINTGATSVIPNIKGLDQAKHVFDSTGLLNISYQPKHLVIVGGGYIALEFASMFANLGSKVTVLERGESFMPREDQDVVAYGITDLENKGIALHTNVETTELSSDNHHTTVHTNVDNFEADAVLLAIGRKPNTDLALENTDIELGDRGEIKVNAHLQTTVPHIYAAGDVKGGLQFTYISLDDYRIIKSALYGNQSRTTDNRGSVPYTVFIDPPLSRVGLTSKEAAAQHYDYTEHQLLVSAIPRHKINNDPRGLFKVVINNENNMILGATLYGKQSEELINIIKLAIDQNIPYTVLRDNIYTHPTMAESFNDLFNFHHHHH GMKTYDLIVIGFGKAGKTLAKYAASTGQHVAVIEQSPKMYGGTSINIGCIPSKTLVHDGLEGKSFEASYNRKNDVVNALNNKNYHLLADDNNIDVLDFKAQFKSNTEVNLLDQHDDIVDSITAPHIIINTGATSVIPNIKGLDQAKHVFDSTGLLNISYQPKHLVIVGGGYIALEFASMFANLGSKVTVLERGESFMPREDQDVVAYGITDLENKGIALHTNVETTELSSDNHHTTVHTNVDNFEADAVLLAIGRKPNTDLALENTDIELGDRGEIKVNAHLQTTVPHIYAAGDVKGGLQFTYISLDDYRIIKSALYGNQSRTTDNRGSVPYTVFIDPPLSRVGLTSKEAAAQHYDYTEHQLLVSAIPRHKINNDPRGLFKVVINNENNMILGATLYGKQSEELINIIKLAIDQNIPYTVLRDNIYTHPTMAESFNDLFNFHHHHHH 8ajq-a4-m1-cG_8ajq-a4-m1-cH Crystal structure of PA2722 from Pseudomonas aeruginosa PAO1 Q9I0C0 Q9I0C0 1.25 X-RAY DIFFRACTION 154 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 132 132 8ajq-a1-m1-cA_8ajq-a1-m1-cB 8ajq-a2-m1-cC_8ajq-a2-m1-cD 8ajq-a3-m1-cE_8ajq-a3-m1-cF GHMDRFTGGCLCGKVRLVASGRPYRVGLCHCLDCRKHHGALFHASAIFPEEAVSIEGETRDYAGRFFCPQCGSSVFSRSADEIEVSLGALDAPDRFQPTYELWTVRREGWLPAFPLARHYERDREGDGRSEE GHMDRFTGGCLCGKVRLVASGRPYRVGLCHCLDCRKHHGALFHASAIFPEEAVSIEGETRDYAGRFFCPQCGSSVFSRSADEIEVSLGALDAPDRFQPTYELWTVRREGWLPAFPLARHYERDREGDGRSEE 8akj-a1-m1-cA_8akj-a1-m2-cA Acyl-enzyme complex of cephalothin bound to deacylation mutant KPC-2 (E166Q) Q9F663 Q9F663 1.35 X-RAY DIFFRACTION 24 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 268 268 LTNLVAEPFAKLEQDFGGSIGVYAMDTGSGATVSYRAEERFPLCSSFKGFLAAAVLARSQQQAGLLDTPIRYGKNALVPWSPISEKYLTTGMTVAELSAAAVQYSDNAAANLLLKELGGPAGLTAFMRSIGDTTFRLDRWQLELNSAIPGDARDTSSPRAVTESLQKLTLGSALAAPQRQQFVDWLKGNTTGNHRIRAAVPADWAVGDKTGTCGVYGTANDYAVVWPTGRAPIVLAVYTRAPNKDDKHSEAVIAAAARLALEGLGVNG LTNLVAEPFAKLEQDFGGSIGVYAMDTGSGATVSYRAEERFPLCSSFKGFLAAAVLARSQQQAGLLDTPIRYGKNALVPWSPISEKYLTTGMTVAELSAAAVQYSDNAAANLLLKELGGPAGLTAFMRSIGDTTFRLDRWQLELNSAIPGDARDTSSPRAVTESLQKLTLGSALAAPQRQQFVDWLKGNTTGNHRIRAAVPADWAVGDKTGTCGVYGTANDYAVVWPTGRAPIVLAVYTRAPNKDDKHSEAVIAAAARLALEGLGVNG 8amd-a1-m1-cF_8amd-a1-m1-cG Cryo-EM structure of the RecA presynaptic filament from S.pneumoniae A0A0B7KZM2 A0A0B7KZM2 3.9 ELECTRON MICROSCOPY 147 1.0 1313 (Streptococcus pneumoniae) 1313 (Streptococcus pneumoniae) 333 333 8amd-a1-m1-cA_8amd-a1-m1-cB 8amd-a1-m1-cB_8amd-a1-m1-cF EEISKKFGAEREKALNDALKLIEKDFGKGSIMRLGERAEQKVQVMSSGSLALDIALGSGGYPKGRIIEIYGPESSGKTTVALHAVAQAQKEGGIAAFIDAEHALDPAYAAALGVNIDELLLSQPDSGEQGLEIAGKLIDSGAVDLVVVDSVAALVPRAEIDGDIGDSHVGLQARMMSQAMRKLGASINKTKTIAIFINQLREKVGVMFGNPETTPGGRALKFYASVRLDVRGNTQIKGTGDQKETNVGKETKIKVVKNKVAPPFKEAVVEIMYGEGISKTGELLKIASDLDIIKKAGAWYSYKDEKIGQGSENAKKYLAEHPEIFDEIDKQVR EEISKKFGAEREKALNDALKLIEKDFGKGSIMRLGERAEQKVQVMSSGSLALDIALGSGGYPKGRIIEIYGPESSGKTTVALHAVAQAQKEGGIAAFIDAEHALDPAYAAALGVNIDELLLSQPDSGEQGLEIAGKLIDSGAVDLVVVDSVAALVPRAEIDGDIGDSHVGLQARMMSQAMRKLGASINKTKTIAIFINQLREKVGVMFGNPETTPGGRALKFYASVRLDVRGNTQIKGTGDQKETNVGKETKIKVVKNKVAPPFKEAVVEIMYGEGISKTGELLKIASDLDIIKKAGAWYSYKDEKIGQGSENAKKYLAEHPEIFDEIDKQVR 8amv-a1-m1-cA_8amv-a1-m1-cB RepB pMV158 hexamer P13921 P13921 2.77 X-RAY DIFFRACTION 42 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 200 200 EKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR EKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR 8amv-a1-m1-cB_8amv-a1-m1-cC RepB pMV158 hexamer P13921 P13921 2.77 X-RAY DIFFRACTION 82 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 200 201 EKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR 8amv-a1-m1-cD_8amv-a1-m1-cC RepB pMV158 hexamer P13921 P13921 2.77 X-RAY DIFFRACTION 38 0.994 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 167 201 KARYFTFLLYELKLETLGVPMAISPHVLYIAKNPVTADSVRKKIKLLLMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKRG KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR 8amv-a1-m1-cD_8amv-a1-m1-cE RepB pMV158 hexamer P13921 P13921 2.77 X-RAY DIFFRACTION 47 0.994 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 167 201 KARYFTFLLYELKLETLGVPMAISPHVLYIAKNPVTADSVRKKIKLLLMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKRG KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR 8amv-a1-m1-cF_8amv-a1-m1-cE RepB pMV158 hexamer P13921 P13921 2.77 X-RAY DIFFRACTION 41 1.0 1311 (Streptococcus agalactiae) 1311 (Streptococcus agalactiae) 200 201 EKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR KEKARYFTFLLYPESIPSDWELKLETLGVPMAISPLHDKDKSSIKGQKYKKAHYHVLYIAKNPVTADSVRKKIKLLLGEKSLAMVQVVLNVENMYLYLTHESKDAIAKKKHVYDKADIKLINNFDIDRYVTLDVEEKTELFNVVVSLIRAYTLQNIFDLYDFIDENGETYGLTINLVNEVIAGKTGFMKLLFDGAYQRSKR 8ane-a1-m1-cB_8ane-a1-m1-cC Structure of the type I-G CRISPR effector B8GLG3 B8GLG3 3.2 ELECTRON MICROSCOPY 76 1.0 396588 (Thioalkalivibrio sulfidiphilus HL-EbGr7) 396588 (Thioalkalivibrio sulfidiphilus HL-EbGr7) 316 316 8ane-a1-m1-cA_8ane-a1-m1-cB 8ane-a1-m1-cC_8ane-a1-m1-cD 8ane-a1-m1-cD_8ane-a1-m1-cE 8ane-a1-m1-cE_8ane-a1-m1-cF 8ane-a1-m1-cF_8ane-a1-m1-cG MKLEPLLSDVPRLLMEADLVPVQGTRFQPTGFPDLGAAHYEGPDGRPMLLVESAQSMANRLETVCWDKDADDWVVPLRGLPVVKVLDKAGKPLTNSVLEAHRLNSPYILEGKDKTLFDLLKQELAHMEEGPVDIRKLAETLLKVDANAVLHGVFLAKKELAGGRLRLPRALSAFIEAEDVRVASSGGVKNDHVNPSGDTSRGFGNVPFARDEYVSPRIKAYFNLDLAQIRAFGLGEQVDRLLIALALYKVRRFLVHGLRLRTACDLDCQALRVTRPEGWEVPELSELEAALPGLIEAVAGEGRFAQPAVTIVTYEK MKLEPLLSDVPRLLMEADLVPVQGTRFQPTGFPDLGAAHYEGPDGRPMLLVESAQSMANRLETVCWDKDADDWVVPLRGLPVVKVLDKAGKPLTNSVLEAHRLNSPYILEGKDKTLFDLLKQELAHMEEGPVDIRKLAETLLKVDANAVLHGVFLAKKELAGGRLRLPRALSAFIEAEDVRVASSGGVKNDHVNPSGDTSRGFGNVPFARDEYVSPRIKAYFNLDLAQIRAFGLGEQVDRLLIALALYKVRRFLVHGLRLRTACDLDCQALRVTRPEGWEVPELSELEAALPGLIEAVAGEGRFAQPAVTIVTYEK 8ane-a1-m1-cC_8ane-a1-m1-cE Structure of the type I-G CRISPR effector B8GLG3 B8GLG3 3.2 ELECTRON MICROSCOPY 10 1.0 396588 (Thioalkalivibrio sulfidiphilus HL-EbGr7) 396588 (Thioalkalivibrio sulfidiphilus HL-EbGr7) 316 316 8ane-a1-m1-cB_8ane-a1-m1-cD MKLEPLLSDVPRLLMEADLVPVQGTRFQPTGFPDLGAAHYEGPDGRPMLLVESAQSMANRLETVCWDKDADDWVVPLRGLPVVKVLDKAGKPLTNSVLEAHRLNSPYILEGKDKTLFDLLKQELAHMEEGPVDIRKLAETLLKVDANAVLHGVFLAKKELAGGRLRLPRALSAFIEAEDVRVASSGGVKNDHVNPSGDTSRGFGNVPFARDEYVSPRIKAYFNLDLAQIRAFGLGEQVDRLLIALALYKVRRFLVHGLRLRTACDLDCQALRVTRPEGWEVPELSELEAALPGLIEAVAGEGRFAQPAVTIVTYEK MKLEPLLSDVPRLLMEADLVPVQGTRFQPTGFPDLGAAHYEGPDGRPMLLVESAQSMANRLETVCWDKDADDWVVPLRGLPVVKVLDKAGKPLTNSVLEAHRLNSPYILEGKDKTLFDLLKQELAHMEEGPVDIRKLAETLLKVDANAVLHGVFLAKKELAGGRLRLPRALSAFIEAEDVRVASSGGVKNDHVNPSGDTSRGFGNVPFARDEYVSPRIKAYFNLDLAQIRAFGLGEQVDRLLIALALYKVRRFLVHGLRLRTACDLDCQALRVTRPEGWEVPELSELEAALPGLIEAVAGEGRFAQPAVTIVTYEK 8anq-a2-m1-cY_8anq-a2-m1-cT Crystal structure of the microbial rhodopsin from Sphingomonas paucimobilis (SpaR) A0A411LJN5 A0A411LJN5 2.8 X-RAY DIFFRACTION 53 1.0 13689 (Sphingomonas paucimobilis) 13689 (Sphingomonas paucimobilis) 224 226 8anq-a1-m1-cA_8anq-a1-m1-cB 8anq-a1-m1-cA_8anq-a1-m1-cC 8anq-a1-m1-cC_8anq-a1-m1-cB 8anq-a2-m1-cT_8anq-a2-m1-cP 8anq-a2-m1-cY_8anq-a2-m1-cP DWMAFLIGFTIMSLASLAIYAKGSKTSPALHHTLLHAAVPFIAATAYLAMTFGIGTLVNGSVTYLARYADWSVTTPILLASLVLLAFHERGRTGEVGGYLTAIIVLDVLMIVTGLISSLAVVPALKWVWYLWSCAAFLGVLYLLWVPLRAMAVERGEALGTAYQKNVAFLTVIWFLYPIVFLIGPEGLKIISDPTSVWAILIMDVLAVVYAFYAAANLETALRH DWMAFLIGFTIMSLASLAIYAKGSKTSPALHHTLLHAAVPFIAATAYLAMTFGIGTLVNFNGSVTYLARYADWSVTTPILLASLVLLAFHERGRTGEVGGYLTAIIVLDVLMIVTGLISSLAVVPALKWVWYLWSCAAFLGVLYLLWVPLRAMAVERGEALGTAYQKNVAFLTVIWFLYPIVFLIGPEGLKIISDPTSVWAILIMDVLAVVYAFYAAANLETALRH 8aoz-a1-m1-cAAA_8aoz-a1-m2-cAAA ForT Mutant L24A A0A5S9CYM0 A0A5S9CYM0 1.9 X-RAY DIFFRACTION 106 1.0 212423 (Streptomyces kaniharaensis) 212423 (Streptomyces kaniharaensis) 325 325 6yqq-a1-m1-cA_6yqq-a1-m2-cA 8ap0-a1-m1-cAAA_8ap0-a1-m2-cAAA GAVRVSAPARLSFTAISLDGSSLRRNGIAAMAVDRPGLTAEVREAADGIVAVTGTAEETARELAAALEALRKLWDGPAARVDVLEALPQHSGFGSKTSTLLAVGHAYGRLCGVEPDLRELARTLGRGRTSGASTGLSAYGGFLVDGGHVNPPDFAEAPQKYLRVAPPKPVVRLDFPDWPVLVLLTHGRHLGGQEELEWFHSVAPIPAEESWRTSHLVFMGLAPAVLEQDFDAFCAAVNEITFTGHFKQAQIAFQGDAVADVLEAGRAAPSVDAIALSVTGPACFAFTKRPEDAERWAWELKNRGLIRDFWFTRANNQGLATTVVS GAVRVSAPARLSFTAISLDGSSLRRNGIAAMAVDRPGLTAEVREAADGIVAVTGTAEETARELAAALEALRKLWDGPAARVDVLEALPQHSGFGSKTSTLLAVGHAYGRLCGVEPDLRELARTLGRGRTSGASTGLSAYGGFLVDGGHVNPPDFAEAPQKYLRVAPPKPVVRLDFPDWPVLVLLTHGRHLGGQEELEWFHSVAPIPAEESWRTSHLVFMGLAPAVLEQDFDAFCAAVNEITFTGHFKQAQIAFQGDAVADVLEAGRAAPSVDAIALSVTGPACFAFTKRPEDAERWAWELKNRGLIRDFWFTRANNQGLATTVVS 8apn-a1-m1-cAM_8apn-a1-m1-cAN Structure of the mitochondrial ribosome from Polytomella magna with tRNA bound to the P site 3.1 ELECTRON MICROSCOPY 30 1.0 353565 (Polytomella magna) 353565 (Polytomella magna) 419 420 8a22-a1-m1-cAM_8a22-a1-m1-cAN TIFNTGVPGPRPEVAQKLSTEYQGHILRMISLAESASELDEVLWSSKKHLRPVHIARSCLKLEYLRTKEKGREVSEPIKNLASELENYVELYSTKFTIGQVSQLVRGLSSIRRNIQPDLLLKLAAVVVADDGRQVQLANEMDCRDLFFGFFSQGFDNELFWKRLSESVLPRLPYFNADVVSTVLRVVSGLRFLHNTEFAHATMTALVPKVGDLSPARLADAFFSASLLDPTDVSGLNAKLEERFLREFTSFPIKDTVTMFQTVTVRRHSTPELAAQVAPLVAAQAHQLPVRHLRRALEGMVTAGWKDTAEIPLYAILAKQAARLVLGKQSAATSAILGKHVDNQGYQRTPVQLLRQLARIFANTGLKAGPGANQPLAPYFAALQRELEGRLAELDEQVTDDFAESFKKVGIAEGARVQI GTIFNTGVPGPRPEVAQKLSTEYQGHILRMISLAESASELDEVLWSSKKHLRPVHIARSCLKLEYLRTKEKGREVSEPIKNLASELENYVELYSTKFTIGQVSQLVRGLSSIRRNIQPDLLLKLAAVVVADDGRQVQLANEMDCRDLFFGFFSQGFDNELFWKRLSESVLPRLPYFNADVVSTVLRVVSGLRFLHNTEFAHATMTALVPKVGDLSPARLADAFFSASLLDPTDVSGLNAKLEERFLREFTSFPIKDTVTMFQTVTVRRHSTPELAAQVAPLVAAQAHQLPVRHLRRALEGMVTAGWKDTAEIPLYAILAKQAARLVLGKQSAATSAILGKHVDNQGYQRTPVQLLRQLARIFANTGLKAGPGANQPLAPYFAALQRELEGRLAELDEQVTDDFAESFKKVGIAEGARVQI 8app-a1-m2-cD_8app-a1-m1-cC AbLys1 endolysin from Acinetobacter baumannii phage AbTZA1 A0A3T0IGR7 A0A3T0IGR7 1.82 X-RAY DIFFRACTION 55 1.0 2500827 (Acinetobacter phage AbTZA1) 2500827 (Acinetobacter phage AbTZA1) 188 190 MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQH MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQHHH 8app-a1-m2-cD_8app-a1-m4-cB AbLys1 endolysin from Acinetobacter baumannii phage AbTZA1 A0A3T0IGR7 A0A3T0IGR7 1.82 X-RAY DIFFRACTION 53 1.0 2500827 (Acinetobacter phage AbTZA1) 2500827 (Acinetobacter phage AbTZA1) 188 189 MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQH MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQHH 8app-a1-m3-cA_8app-a1-m1-cC AbLys1 endolysin from Acinetobacter baumannii phage AbTZA1 A0A3T0IGR7 A0A3T0IGR7 1.82 X-RAY DIFFRACTION 62 1.0 2500827 (Acinetobacter phage AbTZA1) 2500827 (Acinetobacter phage AbTZA1) 187 190 DVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQH MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQHHH 8app-a1-m3-cA_8app-a1-m2-cD AbLys1 endolysin from Acinetobacter baumannii phage AbTZA1 A0A3T0IGR7 A0A3T0IGR7 1.82 X-RAY DIFFRACTION 16 1.0 2500827 (Acinetobacter phage AbTZA1) 2500827 (Acinetobacter phage AbTZA1) 187 188 DVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQH MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQH 8app-a1-m3-cA_8app-a1-m4-cB AbLys1 endolysin from Acinetobacter baumannii phage AbTZA1 A0A3T0IGR7 A0A3T0IGR7 1.82 X-RAY DIFFRACTION 12 1.0 2500827 (Acinetobacter phage AbTZA1) 2500827 (Acinetobacter phage AbTZA1) 187 189 DVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQH MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQHH 8app-a1-m4-cB_8app-a1-m1-cC AbLys1 endolysin from Acinetobacter baumannii phage AbTZA1 A0A3T0IGR7 A0A3T0IGR7 1.82 X-RAY DIFFRACTION 21 1.0 2500827 (Acinetobacter phage AbTZA1) 2500827 (Acinetobacter phage AbTZA1) 189 190 MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQHH MDVKPFFDAARELAGGRLTQAQVDELNKVVNRLVPDDVDISDLGVDLIRQFEGLRTRAYQDSVGIWTIGYGTIRYPNGVAVKAGDVCTEEQAKSYMKHDLQKFVKAVNKLVTVPLKQTQFDALVSLVYNIGEGAFAGSTLLKKLNSKDYAGAAAQFLVWNKGRVKGKLEVIPGLTNRRKKEKAYFEQHHH 8apr-a2-m1-cC_8apr-a2-m2-cC CaMct - Mesaconyl-CoA C1:C4 CoA Transferase of Chloroflexus aurantiacus A9WC36 A9WC36 2.1 X-RAY DIFFRACTION 463 1.0 324602 (Chloroflexus aurantiacus J-10-fl) 324602 (Chloroflexus aurantiacus J-10-fl) 404 404 7xkg-a1-m1-cA_7xkg-a1-m1-cB 7xkg-a2-m1-cD_7xkg-a2-m1-cC 7xkg-a3-m1-cE_7xkg-a3-m1-cF 8apq-a1-m1-cA_8apq-a1-m1-cB 8apq-a2-m1-cC_8apq-a2-m1-cD 8apq-a3-m1-cE_8apq-a3-m1-cF 8apr-a1-m1-cA_8apr-a1-m1-cB KGILHGLRVVEGSAFVAAPLGGMTLAQLGADVIRFDPIGGGLDYKRWPVTLDGKHSLFWAGLNKGKRSIAIDIRHPRGQELLTQLICAPGEHAGLFITNFPARGWLSYDELKRHRADLIMVNLVGRRDGGSEVDYTVNPQLGLPFMTGPVTTPDVVNHVLPAWDIVTGQMIALGLLAAERHRRLTGEGQLVKIALKDVGLAMIGHLGMIAEVMINDTDRPRQGNYLYGAFGRDFETLDGKRVMVVGLTDLQWKALGKATGLTDAFNALGARLGLNMDEEGDRFRARHEIAALLEPWFHARTLAEVRRIFEQHRVTWAPYRTVREAIAQDPDCSTDNPMFAMVEQPGIGSYLMPGSPLDFTAVPRLPVQPAPRLGEHTDEILLEVLGLSEAEVGRLHDEGIVAGP KGILHGLRVVEGSAFVAAPLGGMTLAQLGADVIRFDPIGGGLDYKRWPVTLDGKHSLFWAGLNKGKRSIAIDIRHPRGQELLTQLICAPGEHAGLFITNFPARGWLSYDELKRHRADLIMVNLVGRRDGGSEVDYTVNPQLGLPFMTGPVTTPDVVNHVLPAWDIVTGQMIALGLLAAERHRRLTGEGQLVKIALKDVGLAMIGHLGMIAEVMINDTDRPRQGNYLYGAFGRDFETLDGKRVMVVGLTDLQWKALGKATGLTDAFNALGARLGLNMDEEGDRFRARHEIAALLEPWFHARTLAEVRRIFEQHRVTWAPYRTVREAIAQDPDCSTDNPMFAMVEQPGIGSYLMPGSPLDFTAVPRLPVQPAPRLGEHTDEILLEVLGLSEAEVGRLHDEGIVAGP 8apz-a1-m1-cB_8apz-a1-m1-cA Crystal structure of wild-type L-N-Carbamoylase from Sinorhizobium meliloti Q6DTN4 Q6DTN4 1.75 X-RAY DIFFRACTION 253 1.0 382 (Sinorhizobium meliloti) 382 (Sinorhizobium meliloti) 410 412 8aq0-a1-m1-cA_8aq0-a1-m1-cB NRRVNADRLWDSLMEMAKIGPGVAGGNNRQTLTDADGEGRRLFQSWCEEAGLSMGVDKMGTMFLTRPGTDPDALPVHIGSHLDTQPTGGKFDGVLGVLSGLEAVRTMNDLGIKTKHPIVVTNWTNEEGARFAPAMLASGVFAGVHTLEYAYARKDPEGKSFGDELKRIGWLGDEEVGARKMHAYFEYHIEQGPILEAENKQIGVVTHCQGLWWLEFTLTGREAHTGSTPMDMRVNAGLAMARILEMVQTVAMENQPGAVGGVGQMFFSPNSRNVLPGKVVFTVDIRSPDQAKLDGMRARIEAEAPKICERLGVGCSIEAVGHFDPVTFDPKLVETVRGAAEKLGYSHMNLVSGAGHDACWAAKVAPTTMIMCPCVGGLSHNEAEDISREWAAAGADVLFHAVLETAEIVE GENRRVNADRLWDSLMEMAKIGPGVAGGNNRQTLTDADGEGRRLFQSWCEEAGLSMGVDKMGTMFLTRPGTDPDALPVHIGSHLDTQPTGGKFDGVLGVLSGLEAVRTMNDLGIKTKHPIVVTNWTNEEGARFAPAMLASGVFAGVHTLEYAYARKDPEGKSFGDELKRIGWLGDEEVGARKMHAYFEYHIEQGPILEAENKQIGVVTHCQGLWWLEFTLTGREAHTGSTPMDMRVNAGLAMARILEMVQTVAMENQPGAVGGVGQMFFSPNSRNVLPGKVVFTVDIRSPDQAKLDGMRARIEAEAPKICERLGVGCSIEAVGHFDPVTFDPKLVETVRGAAEKLGYSHMNLVSGAGHDACWAAKVAPTTMIMCPCVGGLSHNEAEDISREWAAAGADVLFHAVLETAEIVE 8arf-a1-m1-cA_8arf-a1-m1-cB Crystal structure of the N-terminal parallel dimeric coiled-coil region of the human kinetochore associated protein Spindly Q96EA4 Q96EA4 2.8 X-RAY DIFFRACTION 124 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 96 97 EADIITNLRCRLKEAEEERLKAAQYGLQLVESQNELQNQLDKCRNEMMTMTESYEQEKYTLQREVELKSRMLESLSCECEAIKQQQKMHLEKLEEQ EADIITNLRCRLKEAEEERLKAAQYGLQLVESQNELQNQLDKCRNEMMTMTESYEQEKYTLQREVELKSRMLESLSCECEAIKQQQKMHLEKLEEQL 8arh-a1-m6-cA_8arh-a1-m6-cF In situ subtomogram average of Vaccinia virus (WR) D13 lattice, on immature virions P68440 P68440 19.2 ELECTRON MICROSCOPY 17 1.0 10254 (Vaccinia virus WR) 10254 (Vaccinia virus WR) 529 529 7vfg-a1-m1-cB_7vfg-a1-m1-cD 7vfh-a1-m1-cA_7vfh-a1-m1-cR 7vfh-a1-m1-cF_7vfh-a1-m1-cG 7vfh-a1-m1-cI_7vfh-a1-m1-cJ 7vfh-a1-m1-cO_7vfh-a1-m1-cP 8arh-a1-m1-cA_8arh-a1-m1-cF 8arh-a1-m1-cB_8arh-a1-m6-cC 8arh-a1-m1-cC_8arh-a1-m2-cB 8arh-a1-m2-cA_8arh-a1-m2-cF 8arh-a1-m2-cC_8arh-a1-m3-cB 8arh-a1-m3-cA_8arh-a1-m3-cF 8arh-a1-m3-cC_8arh-a1-m4-cB 8arh-a1-m4-cA_8arh-a1-m4-cF 8arh-a1-m4-cC_8arh-a1-m5-cB 8arh-a1-m5-cA_8arh-a1-m5-cF 8arh-a1-m5-cC_8arh-a1-m6-cB IKRSNVFAVDSQIPTLYMPQYISLSGVMTNDNQAIASFEIRDQYITALNHLVLSLELPEVKGMGRFGYVPYVGYKCINHVSISSCNGVIWEIEGEELYNNCINNTIALKHSGYSSELNDISIGLTPNDTIKEPSTVYVYIKTPFDVEDTFSSLKLSDSKITVTVTFNPVSDIVIRDSSFDFETFNKEFVYVPELSFIGYMVKNVQIKPSFIEKPRRVIGQINQPTATVTEVHAATSLSVYTKPYYGNTDNKFISYPGYSQDEKDYIDAYVSRLLDDLVIVSDGPPTGYPESAEIVEVPEDGIVSIQDADVYVKIDNVPDNMSVYLHTNLLMFGTRKNSFIYNISKKFSAITGTYSDATKRTIFAHISHSINIIDTSIPVSLWTSQRNVYNGDNRSAESKAKDLFINDPFIKGIDFKNKTDIISRLEVRFGNDVLYSENGPISRIYNELLTKSNNGTRTLTFNFTPKIFFRPTTITANVSRGKDKLSVRVVYSTMDVNHPIYYVQKQLVVVCNDLYKVSYDQGVSITKIM IKRSNVFAVDSQIPTLYMPQYISLSGVMTNDNQAIASFEIRDQYITALNHLVLSLELPEVKGMGRFGYVPYVGYKCINHVSISSCNGVIWEIEGEELYNNCINNTIALKHSGYSSELNDISIGLTPNDTIKEPSTVYVYIKTPFDVEDTFSSLKLSDSKITVTVTFNPVSDIVIRDSSFDFETFNKEFVYVPELSFIGYMVKNVQIKPSFIEKPRRVIGQINQPTATVTEVHAATSLSVYTKPYYGNTDNKFISYPGYSQDEKDYIDAYVSRLLDDLVIVSDGPPTGYPESAEIVEVPEDGIVSIQDADVYVKIDNVPDNMSVYLHTNLLMFGTRKNSFIYNISKKFSAITGTYSDATKRTIFAHISHSINIIDTSIPVSLWTSQRNVYNGDNRSAESKAKDLFINDPFIKGIDFKNKTDIISRLEVRFGNDVLYSENGPISRIYNELLTKSNNGTRTLTFNFTPKIFFRPTTITANVSRGKDKLSVRVVYSTMDVNHPIYYVQKQLVVVCNDLYKVSYDQGVSITKIM 8arv-a1-m1-cB_8arv-a1-m1-cA Structure of the EAL domain of BifA from Pseudomonas aeruginosa Q9HW35 Q9HW35 1.9 X-RAY DIFFRACTION 72 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 254 255 ELEKDLRDALQRHELHLVYQPQVDYRDHRVVGVEALLRWQHPLHGFVPPDLFIPLAEQNGSIFSIGEWVLDQACRQLREWHDQGFDDLRMAVNLSTVQLHHNALPRVVSNLLQVYRLPARSLELEVTETGLMEDISTAAQHLLSLRRAGALIAIDDFGTGYSSLSYLKSLPLDKIKIDKSFVQDLLQDEDDATIVRAIIQLGKSLGMQVIAEGVETAEQEAYIIAEGCNEGQGYLYSKPLPARELTQYLKQARR ELEKDLRDALQRHELHLVYQPQVDYRDHRVVGVEALLRWQHPLHGFVPPDLFIPLAEQNGSIFSIGEWVLDQACRQLREWHDQGFDDLRMAVNLSTVQLHHNALPRVVSNLLQVYRLPARSLELEVTETGLMEDISTAAQHLLSLRRAGALIAIDDFGTGYSSLSYLKSLPLDKIKIDKSFVQDLLQDEDDATIVRAIIQLGKSLGMQVIAEGVETAEQEAYIIAEGCNEGQGYLYSKPLPARELTQYLKQARRL 8as5-a1-m1-cA_8as5-a1-m1-cE CryoEM structure of the human Nucleophosmin 1 core P06748 P06748 3.53 ELECTRON MICROSCOPY 80 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 87 97 8as5-a1-m1-cA_8as5-a1-m1-cB QNYLFGCELKDYHFKVDHQLSLRTVSLGLHIVEAEAMNYEGSPIKVTLATLKMSVQPTVSLGGFEITPPVVLRLKCGPVHISGQHLV PQNYLFGCELKADKDYHFKVNEHQLSLRTVSLGALHIVEAEAMNYEGSPIKVTLATLKMSVQPTVSLGGFEITPPVVLRLKCGSGPVHISGQHLVAV 8asn-a1-m1-cH_8asn-a1-m1-cI Crystal structure of the apo human TTL in complex with tubulin-stathmin Q8NG68 Q8NG68 2.571 X-RAY DIFFRACTION 39 0.991 9606 (Homo sapiens) 9606 (Homo sapiens) 345 345 8asn-a1-m1-cF_8asn-a1-m1-cG YTFVVRDENSSVYAEVSRLLLATGHWKRLRRDNPRFNLMLGERNRLPFGRLGHEPGLVQLVNYYRGADKLCRKASLVKLIKTSPELAESCTWFPESYVIYPTDEREFFLASYNRKKEDGEGNVWIAKSSILISSEASELLDFIDNQGQVHVIQKYLEHPLLLEPGHRKFDIRSWVLVDHQYNIYLYREGVLRTASEPYHVDNFQDKTCHLTNHCIQKEYSKNYGKYEEGNEMFFKEFNQYLTSALNITLESSILLQIKHIIRNCLLSVEPAISTKHLPYQSFQLFGFDFMVDEELKVWLIEVNGAPACAQKLYAELCQGIVDIAISSVFPPPQPAAFIKLENLYF GYTFVVRDENSSVYAEVSRLLLATGHWKRLRRDNPRFNLMLGERNRLPFGRLGHEPGLVQLVNYYRGADKLCRKASLVKLIKTSPELAESCTWFPESYVIYPTDEREFFLASYNRKKEDGEGNVWIAKSGILISSEASELLDFIDNQGQVHVIQKYLEHPLLLEPGHRKFDIRSWVLVDHQYNIYLYREGVLRTASEPYHVDNFQDKTCHLTNHCIQKEYSKNYGKYEEGNEMFFKEFNQYLTSALNITLESSILLQIKHIIRNCLLSVEPAISTKHLPYQSFQLFGFDFMVDEELKVWLIEVNGAPACAQKLYAELCQGIVDIAISSVFPPPDAAFIKLENLYF 8atd-a1-m1-cD_8atd-a1-m1-cF Wild type hexamer oxalyl-CoA synthetase (OCS) P38137 P38137 3.1 ELECTRON MICROSCOPY 23 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 431 431 8atd-a1-m1-cA_8atd-a1-m1-cC 8atd-a1-m1-cB_8atd-a1-m1-cD 8atd-a1-m1-cC_8atd-a1-m1-cE TVTASFNDTFSVSDNVAVIVPETDTQVTYRDLSHMVGHFQTMFTNPNSPLYGAVFRQDTVAISMRNGLEFIVAFLGATMDAKIGAPLNPNYKEKEFNFYLNDLKSKAICVPKGTTKLQSSEILKSASTFGCFIVELAFDATRFRVEYDIYSPEDNYKRVIYRSLNNAKFVNTNPVKFPGFARSSDVALILHTSGTTSTPKTVPLLHLNIVRSTLNIANTYKLTPLDRSYVVMPLFHVHGLIGVLLSTFRTQGSVVVPDGFHPKLFWDQFVKYNCNWFSCVPTISMIMLNMPKPNPFPHIRFIRSCSSALAPATFHKLEKEFNAPVLEAYAMTEASHQMTSNNLPPGKRKPGTVGQPQGVTVVILDDNDNVLPPGKVGEVSIRGENVTLGYANNPKANKENFTKRENYFRTGDQGYFDPEGFLVLTGRIKEL TVTASFNDTFSVSDNVAVIVPETDTQVTYRDLSHMVGHFQTMFTNPNSPLYGAVFRQDTVAISMRNGLEFIVAFLGATMDAKIGAPLNPNYKEKEFNFYLNDLKSKAICVPKGTTKLQSSEILKSASTFGCFIVELAFDATRFRVEYDIYSPEDNYKRVIYRSLNNAKFVNTNPVKFPGFARSSDVALILHTSGTTSTPKTVPLLHLNIVRSTLNIANTYKLTPLDRSYVVMPLFHVHGLIGVLLSTFRTQGSVVVPDGFHPKLFWDQFVKYNCNWFSCVPTISMIMLNMPKPNPFPHIRFIRSCSSALAPATFHKLEKEFNAPVLEAYAMTEASHQMTSNNLPPGKRKPGTVGQPQGVTVVILDDNDNVLPPGKVGEVSIRGENVTLGYANNPKANKENFTKRENYFRTGDQGYFDPEGFLVLTGRIKEL 8ato-a1-m1-cC_8ato-a1-m1-cD Structure of the giant inhibitor of apoptosis, BIRC6 bound to the regulator SMAC Q9NR28 Q9NR28 3.0 ELECTRON MICROSCOPY 36 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 150 150 LSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELR LSSEALMRRAVSLVTDSTSTFLSQTTYALIEAITEYTKAVYTLTSLYRQYTSLLGKMNSEEEDEVWQVIIGARAEMTSKHQEYLKLETTWMTAVGLSEMAAEAAYQTGADQASITARNHIQLVKLQVEEVHQLSRKAETKLAEAQIEELR 8atu-a1-m1-cA_8atu-a1-m1-cB Cryo-EM structure of human BIRC6 Q9NR09 Q9NR09 3.3 ELECTRON MICROSCOPY 584 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 2837 2837 8atx-a1-m1-cA_8atx-a1-m1-cB 8auk-a1-m1-cA_8auk-a1-m1-cB 8auw-a1-m1-cB_8auw-a1-m1-cA EWLVLRDGCMHCDADGLHSLSYHPALNAILAVTSRGTIKVIDGTSGATLQASALSAKPGGQVKCQYISAVDKVIFVDDYAVGCRKDLNGILLLDTALQTPVSKQDDVVQLELPVTEAQQLLSACLEKVDISSTEGYDLFITQLKDGLKNTSHETAANHKVAKWATVTFHLPHHVLKSIASAIVNELKKINQNVAALPVASSVMDRLSYLLPSARPELGVGPGRSVDRSLMYSEANRRETFTSWPHVGYRWAQPDPMAQAGFYHQPASSGDDRAMCFTCSVCLVCWEPTDEPWSEHERHSPNCPFVKGEHTQNVPLSVTLATSPAQFPCTDGTDRISCFGSGSCPHFLAAATKRGKICIWDVSKLMKVHLKFEINAYDPAIVQQLILSGAMEVSLDITALSILQQPFPCLLAGGLLTYKSPATPLVRRTLPVLLLYSIKESDVFPKPGTLVQCLRLPKFAEEENLCIDSITPCADGIHLLVGLRTCPVERNVSGGYLVLYKMNYATRIVTLEEEPIKIQHIKDPQDTITSLILLPPDILDNISTLGHLVITTQGGYVKILDLSNFEILAKVEPPKKEGTEEQDTFVSVIYCSGTDRLCACTKGGELHFLQIGGISGVDLLVDQPFTLEILTSLVELTRFETLTPRFSATVPPCWVETRTWKLQTDSNSWDEHVFELVLPKACMVGHVDFKFVLNSNITNIPQIQVTLLKNKAPGLLRLCPFLEDHKEDILCGPVWLASGLDLSGHAGMLTLTSPKLVKGMAGGKYRSFLIHVKAVNESENLRGCDLLQEVSVTIRRFKKTSISKERVQRCAMLQFSEFHEKLVNTLCRKTDDGQITEHAQSLVLDTLCWLAGVHSNGPGSSKEGNENLLSKTRKFLSDIVRVCFFEAGRSIAHKCARFLALCISNGKCDPCQPAFGPVLLKALLDNMSFLPAATTGGSVYWYFVLLNYVKDEDLAGCSTACASLLTAVSRQLQDTPMEALLQTRYGLYSSPFDPVLFDLEMSGSEIDLSDVLEGSFTSLTGLLEVEPLHFTCVSTSDGTRIERDDGLALAISHASHFLQPPPHQSIIIERMHSGARRFVTLDFGRPILLTDVLIPTCGDLASLSIDIWTLGEEVDGRRLVVATDISTHSLILHDLIPPPVCRFMKITVIGRYGSTNARAKIPLGFYYGHTYILPWESELKNQPEIDQHLAMMVALQEDIQCRYNLACHRLETLLQSIDLPPLNSANNAQVEEDSRVFSAYQDCIQLQLQLNLAHNAVQRLKVALGASRKMLSETSNPEDLIQTSSTEQLRTIIRYLLDTLLSLLHASNGHSVPAVLQSTFHAQACEELFKHLCISGTPKIRLHTGLLLVQLCGGERWWGQFLSNVLQELYNSEQLLIFPQDRVFMLLSCIGQRSLSNSGVLESLLNLLDNLLSPLQVLDIPMISWVVMLVSRLLDYVATVEDEANQWSFINNFTLAHERCISVVQKLVLFLLSMDFTCHADLLLFVCKVLARIANATRPTIHLCEIVNEPQLERLLLLLVGTDFNRGDISWGGAWAQYSLTCMLQDILAGELLSVSQALDARLEVGLEQQAELMLKMMSTLEADSILQALTNTSPLSSVPMLNVCFNKLFSMLQVHHVQLESLLQLWLTLSLNSLYNANRIPVISLNQASITSFLTVLAWYPNTLLRTWCLVLHSLTLMTNMQLNQESTAHLLVSDPNLIHVLVKFLSGTSPHGTNQHSPQVGPTATQAMQEFLTRLQVHLSSTCPQIFSEFLLKLIHILSTERGAFQTGQGPLDAQVKLLEFTLEQNFEVVSVSTISAVIESVTFLVHHYITCSDKVMSRSEMTRDQLMFDLLKLVNILVQLPLSGNREYSARVPAYVADLVLANQQIMSQILSALGLCNSSISVGDGLFTILTTLSKKASTVHMMLQPILTYMACGTCQLSEPLLWFILRVLDTSDALKAFHDMGGVQLICNNMVTSTRAIVNTARSMVSTIMKFLDGIHNFAPLGTITSSSPTAQPAEVLLQATPPHRRARSAAWSYIFLPEEAWCDLTIHLPAAVLLKEIHIQPHLASLATCPSSVSVEVSADGVNMLPLSTPVVTSGLTYIKIQLVKAEVASAVCLRLHRPRDASTLGLSQIKLLGLTAFGEDQVSKTSIGWLRLLHHCLTHISDLEGMMASAAAPTANLLQTCAALLMSPYCGMHSPNIEVVLVKIGLQSTRIGLKLIDILLRNSDSTIDILYQLGTTQDPGTKDRIQALLKWVSDSARVAAMKTVEYGLLMPSPSHLHCVAAILWHSYELLVEYDLPALLDQELFELLFNWSMSLPCNMVLKKAVDSLLCSMCHVHPNYFSLLMGWMGITPLALTESHLATLASSSQSPEAIKQLLDSGLPSLLVRSLASFCFSHISSSESINKMPITADLVAPILRFLTEVGNSHIMKDWLGGSEVNPLWTALLFLLCHSGSTGLTTQQRTAIENATVAFFLQCISCHPNNQKLMAQVLCELFQTSPQGNISGFIRRLFLQLMLEDEKVTMFLQSPCPLYVIQHPMYGAGHKFRTLHLPVSTTLSDVLDRVITVPVFHLFHKLLAGQPLPAEMTLAQLLTLLYDRKLPQGYRSIDLTVKLGSRVISLLETCPIQSPLQVFAGMGGLALIAERLIPAHSLAAFGLFLRLPGYAEVLLKERKHAQCLLRLVLGVLPTLPFHVLRSLFSTTPLTTDDGVLLRRMALEIGALHLILVCLSALSHHSPRVPRLEEEHVTCLLQVLASYINPVSSQNSNALPSVLLELLSQSCLIPAMSSYLRNPLYRALLELLRAIASCAAMVPLLLPLQTSVGTLLAKMKTCVDLVPDIQKTAEIVYAATTSLR EWLVLRDGCMHCDADGLHSLSYHPALNAILAVTSRGTIKVIDGTSGATLQASALSAKPGGQVKCQYISAVDKVIFVDDYAVGCRKDLNGILLLDTALQTPVSKQDDVVQLELPVTEAQQLLSACLEKVDISSTEGYDLFITQLKDGLKNTSHETAANHKVAKWATVTFHLPHHVLKSIASAIVNELKKINQNVAALPVASSVMDRLSYLLPSARPELGVGPGRSVDRSLMYSEANRRETFTSWPHVGYRWAQPDPMAQAGFYHQPASSGDDRAMCFTCSVCLVCWEPTDEPWSEHERHSPNCPFVKGEHTQNVPLSVTLATSPAQFPCTDGTDRISCFGSGSCPHFLAAATKRGKICIWDVSKLMKVHLKFEINAYDPAIVQQLILSGAMEVSLDITALSILQQPFPCLLAGGLLTYKSPATPLVRRTLPVLLLYSIKESDVFPKPGTLVQCLRLPKFAEEENLCIDSITPCADGIHLLVGLRTCPVERNVSGGYLVLYKMNYATRIVTLEEEPIKIQHIKDPQDTITSLILLPPDILDNISTLGHLVITTQGGYVKILDLSNFEILAKVEPPKKEGTEEQDTFVSVIYCSGTDRLCACTKGGELHFLQIGGISGVDLLVDQPFTLEILTSLVELTRFETLTPRFSATVPPCWVETRTWKLQTDSNSWDEHVFELVLPKACMVGHVDFKFVLNSNITNIPQIQVTLLKNKAPGLLRLCPFLEDHKEDILCGPVWLASGLDLSGHAGMLTLTSPKLVKGMAGGKYRSFLIHVKAVNESENLRGCDLLQEVSVTIRRFKKTSISKERVQRCAMLQFSEFHEKLVNTLCRKTDDGQITEHAQSLVLDTLCWLAGVHSNGPGSSKEGNENLLSKTRKFLSDIVRVCFFEAGRSIAHKCARFLALCISNGKCDPCQPAFGPVLLKALLDNMSFLPAATTGGSVYWYFVLLNYVKDEDLAGCSTACASLLTAVSRQLQDTPMEALLQTRYGLYSSPFDPVLFDLEMSGSEIDLSDVLEGSFTSLTGLLEVEPLHFTCVSTSDGTRIERDDGLALAISHASHFLQPPPHQSIIIERMHSGARRFVTLDFGRPILLTDVLIPTCGDLASLSIDIWTLGEEVDGRRLVVATDISTHSLILHDLIPPPVCRFMKITVIGRYGSTNARAKIPLGFYYGHTYILPWESELKNQPEIDQHLAMMVALQEDIQCRYNLACHRLETLLQSIDLPPLNSANNAQVEEDSRVFSAYQDCIQLQLQLNLAHNAVQRLKVALGASRKMLSETSNPEDLIQTSSTEQLRTIIRYLLDTLLSLLHASNGHSVPAVLQSTFHAQACEELFKHLCISGTPKIRLHTGLLLVQLCGGERWWGQFLSNVLQELYNSEQLLIFPQDRVFMLLSCIGQRSLSNSGVLESLLNLLDNLLSPLQVLDIPMISWVVMLVSRLLDYVATVEDEANQWSFINNFTLAHERCISVVQKLVLFLLSMDFTCHADLLLFVCKVLARIANATRPTIHLCEIVNEPQLERLLLLLVGTDFNRGDISWGGAWAQYSLTCMLQDILAGELLSVSQALDARLEVGLEQQAELMLKMMSTLEADSILQALTNTSPLSSVPMLNVCFNKLFSMLQVHHVQLESLLQLWLTLSLNSLYNANRIPVISLNQASITSFLTVLAWYPNTLLRTWCLVLHSLTLMTNMQLNQESTAHLLVSDPNLIHVLVKFLSGTSPHGTNQHSPQVGPTATQAMQEFLTRLQVHLSSTCPQIFSEFLLKLIHILSTERGAFQTGQGPLDAQVKLLEFTLEQNFEVVSVSTISAVIESVTFLVHHYITCSDKVMSRSEMTRDQLMFDLLKLVNILVQLPLSGNREYSARVPAYVADLVLANQQIMSQILSALGLCNSSISVGDGLFTILTTLSKKASTVHMMLQPILTYMACGTCQLSEPLLWFILRVLDTSDALKAFHDMGGVQLICNNMVTSTRAIVNTARSMVSTIMKFLDGIHNFAPLGTITSSSPTAQPAEVLLQATPPHRRARSAAWSYIFLPEEAWCDLTIHLPAAVLLKEIHIQPHLASLATCPSSVSVEVSADGVNMLPLSTPVVTSGLTYIKIQLVKAEVASAVCLRLHRPRDASTLGLSQIKLLGLTAFGEDQVSKTSIGWLRLLHHCLTHISDLEGMMASAAAPTANLLQTCAALLMSPYCGMHSPNIEVVLVKIGLQSTRIGLKLIDILLRNSDSTIDILYQLGTTQDPGTKDRIQALLKWVSDSARVAAMKTVEYGLLMPSPSHLHCVAAILWHSYELLVEYDLPALLDQELFELLFNWSMSLPCNMVLKKAVDSLLCSMCHVHPNYFSLLMGWMGITPLALTESHLATLASSSQSPEAIKQLLDSGLPSLLVRSLASFCFSHISSSESINKMPITADLVAPILRFLTEVGNSHIMKDWLGGSEVNPLWTALLFLLCHSGSTGLTTQQRTAIENATVAFFLQCISCHPNNQKLMAQVLCELFQTSPQGNISGFIRRLFLQLMLEDEKVTMFLQSPCPLYVIQHPMYGAGHKFRTLHLPVSTTLSDVLDRVITVPVFHLFHKLLAGQPLPAEMTLAQLLTLLYDRKLPQGYRSIDLTVKLGSRVISLLETCPIQSPLQVFAGMGGLALIAERLIPAHSLAAFGLFLRLPGYAEVLLKERKHAQCLLRLVLGVLPTLPFHVLRSLFSTTPLTTDDGVLLRRMALEIGALHLILVCLSALSHHSPRVPRLEEEHVTCLLQVLASYINPVSSQNSNALPSVLLELLSQSCLIPAMSSYLRNPLYRALLELLRAIASCAAMVPLLLPLQTSVGTLLAKMKTCVDLVPDIQKTAEIVYAATTSLR 8auc-a3-m1-cA_8auc-a3-m1-cB Structure of peptidoglycan hydrolase Cg1735 from Corynebacterium glutamicum, trigonal crystal form Q8NQA0 Q8NQA0 3.5 X-RAY DIFFRACTION 212 0.987 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 474 493 GEVARLAGSLSSTDAEINRVELEMGALREEVNKSLVDLHDAQAIAEQARQDALAAKKDLDDSQAQIEAAQERLDEISRAAYRQNGQTYLRTSAEKQQAAVEELDRLRTENANKESVLRQARIVAEQREAEAVEKQVQTEAAIAANSEQLNVLTNNRSTLVAQRDGAERNLAIARAQADNLQGQRAEYEEFQQAEQARIQAEAEAQAAAEEKRRADEAAAQAAAEAQEAAQQAQAAEEAQAAQAAETAQAAETQAAQAAQAQAEANDRAAAQQRAAEAQAAAEQAQREADAQAANDAQAQALREQALTAASIAAAALIAASQSSHATTQNPYPTDEDADPTDIADIQGDRSAQIETVIARAMSQLGVQYAWGGGNANGPTLGIVGFDCSGLTLYAFAGVGISLPHYTGYQYQHGTKVSPSEMQRGDLIFYGPGASQHVAIYLGDGQMIEAPNSGSVVKISPVRWSGMTESVVRLI PDDAAIAQAEENVSAGDGEVARLAGSLSSTDAEINRVELEMGALREEVNKSLVDLHDAQAIAEQARQDALAAKKDLDDSQAQIEAAQERLDEISRAAYRQNGNSEDALDRQTYLRTSAEKQQAAVEELDRLRTENANKESVLRQARIVAEQREAEAVEKQVQTEAAIAANSEQLNVLTNNRSTLVAQRDGAERNLAIARAQADQRAEYEEFQQAEQARIQAEAEAQAAAEEKRRADEAAAQAAAEAQEAAQQAQAAEEAQAAQAAETAQAAETQAAQAAQAQAEANDRAAAQQRAAEAQAAAEQAQREADAQAANDAQAQALREQALTAASIAAAALIAASQSSHATTQNPYPTDEDADPTDIADIDRSAQIETVIARAMSQLGVQYAWGGGNANGPTLGIVGFDCSGLTLYAFAGVGISLPHYTGYQYQHGTKVSPSEMQRGDLIFYGPGASQHVAIYLGDGQMIEAPNSGSVVKISPVRWSGMTESVVRLI 8aur-a1-m1-cA_8aur-a1-m1-cC Cryo-EM structure of a TasA fibre P54507 P54507 3.47 ELECTRON MICROSCOPY 139 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 233 233 8aur-a1-m1-cA_8aur-a1-m1-cB AFNDIKSKDATFASGTLDLSAKENSASVNLSNLKPGDKLTKDFQFENNGSLAIKEVLMALNYGDFKANGGSNTSPEDFLSQFEVTLLTVGKEGGNGYPKNIILDDANLKDLYLMSAKNDAAAAEKIKKQIDPKFLNASGKVNVATIDGKTAPEYDGVPKTPTDFDQVQMEIQFKDDKTKDEKGLMVQNKYQGNSIKLQFSFEATQWNGLTIKKDHTDKDGYVKENEKAHSEDK AFNDIKSKDATFASGTLDLSAKENSASVNLSNLKPGDKLTKDFQFENNGSLAIKEVLMALNYGDFKANGGSNTSPEDFLSQFEVTLLTVGKEGGNGYPKNIILDDANLKDLYLMSAKNDAAAAEKIKKQIDPKFLNASGKVNVATIDGKTAPEYDGVPKTPTDFDQVQMEIQFKDDKTKDEKGLMVQNKYQGNSIKLQFSFEATQWNGLTIKKDHTDKDGYVKENEKAHSEDK 8aur-a1-m1-cB_8aur-a1-m1-cC Cryo-EM structure of a TasA fibre P54507 P54507 3.47 ELECTRON MICROSCOPY 22 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 233 233 AFNDIKSKDATFASGTLDLSAKENSASVNLSNLKPGDKLTKDFQFENNGSLAIKEVLMALNYGDFKANGGSNTSPEDFLSQFEVTLLTVGKEGGNGYPKNIILDDANLKDLYLMSAKNDAAAAEKIKKQIDPKFLNASGKVNVATIDGKTAPEYDGVPKTPTDFDQVQMEIQFKDDKTKDEKGLMVQNKYQGNSIKLQFSFEATQWNGLTIKKDHTDKDGYVKENEKAHSEDK AFNDIKSKDATFASGTLDLSAKENSASVNLSNLKPGDKLTKDFQFENNGSLAIKEVLMALNYGDFKANGGSNTSPEDFLSQFEVTLLTVGKEGGNGYPKNIILDDANLKDLYLMSAKNDAAAAEKIKKQIDPKFLNASGKVNVATIDGKTAPEYDGVPKTPTDFDQVQMEIQFKDDKTKDEKGLMVQNKYQGNSIKLQFSFEATQWNGLTIKKDHTDKDGYVKENEKAHSEDK 8av6-a1-m1-cB_8av6-a1-m1-cA CryoEM structure of INO80 core nucleosome complex in closed grappler conformation G0RYI5 G0RYI5 4.68 ELECTRON MICROSCOPY 20 1.0 209285 (Thermochaetoides thermophila) 209285 (Thermochaetoides thermophila) 438 449 6fhs-a1-m1-cB_6fhs-a1-m1-cA 6fml-a1-m1-cB_6fml-a1-m1-cA HRTAAHTHIKGLGLNSSGIAEKQAAGFVGQCAAREACGVVVDLIKAHKMAGRGVLLAGGPGTGKTALALAISQELGTKIPFCPITGSEIYSTEVKKTEVLMENFRRAIGLRVRETKDVYEGEVTEMTPEEASTLLIGLKSARGQKKLRLDPSIYEAIQKERVQVGDVIYIETNTGACKRVGRSDAYATEFDLEAEEYVPIPKGEVHKKKEIVQDVTLHDLDVANARPQGGQDIISMMGQLMKPKMTEITDKLRMEINKVVQKYINQGVAELIPGVLFIDEAHMLDIECFTYLNKALESPIAPIVVLASNRGIATIRGADDLKAAHGIPPDFLQRLLIIPTHPYEPDEIRRIVRIRAQTEGVQLTDAAVDRVAEHGVRISLRYCLQLLAPASILARVNGRTQVDVQDIAEAEELFLDARRSANILTSTGESGGLHGFIS HRTAAHTHIKGLGLNSSGIAEKQAAGFVGQCAAREACGVVVDLIKAHKMAGRGVLLAGGPGTGKTALALAISQELGTKIPFCPITGSEIYSTEVKKTEVLMENFRRAIGLRVRETKDVYEGEVTEMTPEEAENPLGGYGKTISTLLIGLKSARGQKKLRLDPSIYEAIQKERVQVGDVIYIETNTGACKRVGRSDAYATEFDLEAEEYVPIPKGEVHKKKEIVQDVTLHDLDVANARPQGGQDIISMMGQLMKPKMTEITDKLRMEINKVVQKYINQGVAELIPGVLFIDEAHMLDIECFTYLNKALESPIAPIVVLASNRGIATIRGADDLKAAHGIPPDFLQRLLIIPTHPYEPDEIRRIVRIRAQTEGVQLTDAAVDRVAEHGVRISLRYCLQLLAPASILARVNGRTQVDVQDIAEAEELFLDARRSANILTSTGESGGLHGFIS 8avb-a1-m1-cB_8avb-a1-m1-cF Cryo-EM structure for mouse leptin in complex with the mouse LEP-R ectodomain (1:2 mLEP:mLEPR model). P48356 P48356 4.43 ELECTRON MICROSCOPY 20 1.0 10090 (Mus musculus) 10090 (Mus musculus) 593 593 KPDPPLGLHMEVTDDGNLKISWDSQTMAPFPLQYQVKYLENSTIVREAAEIVSATSLLVDSVLPGSSYEVQVRSKRLDGSGVWSDWSSPQVFTTQDVVYFPPKILTSVGSNASFHCIYKNENQIISSKQIVWWRNLAEKIPEIQYSIVSDRVSKVTFSNLKATRPRGKFTYDAVYCCNEQACHHRYAELYVIDVNINISCETDGYLTKMTCRWSPSTIQSLVGSTVQLRYHRRSLYCPDSPSIHPTSEPKNCVLQRDGFYECVFQPIFLLSGYTMWIRINHSLGSLDSPPTCVLPDSVVKPLPPSNVKAEITVNTGLLKVSWEKPVFPENNLQFQIRYGLSGKEIQWKTHEVFDAKSKSASLLVSDLCAVYVVQVRCRRLDGLGYWSNWSSPAYTLVMDVKVPMRGPEFWRKMDGDVTKKERNVTLLWKPLTKNDSLCSVRRYVVKHRTAHNGTWSEDVGNRTNLTFLWTEPAHTVTVLAVNSLGASLVNFNLTFSWPMSKVSAVESLSAYPLSSSCVILSWTLSPDDYSLLYLVIEWKILNEDDGMKWLRIPSNVKKFYIHDNFIPIEKYQFSLYPVFMEGVGKPKIINGFT KPDPPLGLHMEVTDDGNLKISWDSQTMAPFPLQYQVKYLENSTIVREAAEIVSATSLLVDSVLPGSSYEVQVRSKRLDGSGVWSDWSSPQVFTTQDVVYFPPKILTSVGSNASFHCIYKNENQIISSKQIVWWRNLAEKIPEIQYSIVSDRVSKVTFSNLKATRPRGKFTYDAVYCCNEQACHHRYAELYVIDVNINISCETDGYLTKMTCRWSPSTIQSLVGSTVQLRYHRRSLYCPDSPSIHPTSEPKNCVLQRDGFYECVFQPIFLLSGYTMWIRINHSLGSLDSPPTCVLPDSVVKPLPPSNVKAEITVNTGLLKVSWEKPVFPENNLQFQIRYGLSGKEIQWKTHEVFDAKSKSASLLVSDLCAVYVVQVRCRRLDGLGYWSNWSSPAYTLVMDVKVPMRGPEFWRKMDGDVTKKERNVTLLWKPLTKNDSLCSVRRYVVKHRTAHNGTWSEDVGNRTNLTFLWTEPAHTVTVLAVNSLGASLVNFNLTFSWPMSKVSAVESLSAYPLSSSCVILSWTLSPDDYSLLYLVIEWKILNEDDGMKWLRIPSNVKKFYIHDNFIPIEKYQFSLYPVFMEGVGKPKIINGFT 8avf-a1-m1-cB_8avf-a1-m1-cD Human leptin in complex with the human LEP-R ectodomain fused to a C-terminal trimeric isoleucine GCN4 zipper (closed 3:3 model) P48357 P48357 6.45 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 596 596 8ave-a1-m1-cB_8ave-a1-m1-cD 8avf-a1-m1-cB_8avf-a1-m1-cF KPDPPLGLHMEITDDGNLKISWSSPPLVPFPLQYQVKYSENSTTVIREADKIVSATSLLVDSILPGSSYEVQVRGKRLDGPGIWSDWSTPRVFTTQDVIYFPPKILTSVGSNVSFHCIYKKENKIVPSKEIVWWMNLAEKIPQSQYDVVSDHVSKVTFFNLNETKPRGKFTYDAVYCCNEHECHHRYAELYVIDVNINISCETDGYLTKMTCRWSTSTIQSLAESTLQLRYHRSSLYCSDIPSIHPISEPKDCYLQSDGFYECIFQPIFLLSGYTMWIRINHSLGSLDSPPTCVLPDSVVKPLPPSSVKAEITINIGLLKISWEKPVFPENNLQFQIRYGLSGKEVQWKMYEVYDAKSKSVSLPVPDLCAVYAVQVRCKRLDGLGYWSNWSNPAYTVVMDIKVPMRGPEFWRIINGDTMKKEKNVTLLWKPLMKNDSLCSVQRYVINHHTSCNGTWSEDVGNHTKFTFLWTEQAHTVTVLAINSIGASVANFNLTFSWPMSKVNIVQSLSAYPLNSSCVIVSWILSPSDYKLMYFIIEWKNLNEDGEIKWLRISSSVKKYYIHDHFIPIEKYQFSLYPIFMEGVGKPKIINSFTQD KPDPPLGLHMEITDDGNLKISWSSPPLVPFPLQYQVKYSENSTTVIREADKIVSATSLLVDSILPGSSYEVQVRGKRLDGPGIWSDWSTPRVFTTQDVIYFPPKILTSVGSNVSFHCIYKKENKIVPSKEIVWWMNLAEKIPQSQYDVVSDHVSKVTFFNLNETKPRGKFTYDAVYCCNEHECHHRYAELYVIDVNINISCETDGYLTKMTCRWSTSTIQSLAESTLQLRYHRSSLYCSDIPSIHPISEPKDCYLQSDGFYECIFQPIFLLSGYTMWIRINHSLGSLDSPPTCVLPDSVVKPLPPSSVKAEITINIGLLKISWEKPVFPENNLQFQIRYGLSGKEVQWKMYEVYDAKSKSVSLPVPDLCAVYAVQVRCKRLDGLGYWSNWSNPAYTVVMDIKVPMRGPEFWRIINGDTMKKEKNVTLLWKPLMKNDSLCSVQRYVINHHTSCNGTWSEDVGNHTKFTFLWTEQAHTVTVLAINSIGASVANFNLTFSWPMSKVNIVQSLSAYPLNSSCVIVSWILSPSDYKLMYFIIEWKNLNEDGEIKWLRISSSVKKYYIHDHFIPIEKYQFSLYPIFMEGVGKPKIINSFTQD 8avk-a1-m1-cA_8avk-a1-m1-cB Superoxide dismutase SodFM1 from CPR Parkubacteria Wolfebacteria A0A0G1X6V3 A0A0G1X6V3 2.1 X-RAY DIFFRACTION 45 1.0 1619007 (Candidatus Wolfebacteria bacterium GW2011_GWB1_47_1) 1619007 (Candidatus Wolfebacteria bacterium GW2011_GWB1_47_1) 202 202 KHELPPLPYAYNALEPFIDAKTLEIHHTKHHQSYVDKLNAALEKYPDLQDKTVEELIKSLNELPEEIRTTVRNNAGGHFSHTLYWNIMNPATQEYIPEELGNALVETFGSIIAFKEQFSKAAANIFGSGWVWLAADANKKLKIVSTTGHDNPLMTGDAPLMVIDIWEHAYYLHYQNRRPEYIENWWNVLDWKAVEERYNALG KHELPPLPYAYNALEPFIDAKTLEIHHTKHHQSYVDKLNAALEKYPDLQDKTVEELIKSLNELPEEIRTTVRNNAGGHFSHTLYWNIMNPATQEYIPEELGNALVETFGSIIAFKEQFSKAAANIFGSGWVWLAADANKKLKIVSTTGHDNPLMTGDAPLMVIDIWEHAYYLHYQNRRPEYIENWWNVLDWKAVEERYNALG 8avl-a3-m1-cE_8avl-a3-m1-cF Superoxide dismutase SodFM2 from Bacteroides fragilis P53638 P53638 1.6 X-RAY DIFFRACTION 51 1.0 295405 (Bacteroides fragilis YCH46) 295405 (Bacteroides fragilis YCH46) 192 192 8avl-a1-m1-cA_8avl-a1-m1-cB 8avl-a2-m1-cC_8avl-a2-m1-cD 8avl-a4-m1-cG_8avl-a4-m2-cH 8avm-a1-m1-cA_8avm-a1-m1-cB 8avm-a2-m1-cC_8avm-a2-m1-cD 8avm-a3-m1-cE_8avm-a3-m1-cF MYEMPKLPYANNALEPVISQQTIDYHYGKHLQTYVNNLNSLVPGTEYEGKTVEAIVASAPDGAIFNNAGQVLNHTLYFLQFAPKPAKNEPAGKLGEAIKRDFGSFENFKKEFNAASVGLFGSGWAWLSVDKDGKLHITKEPNGSNPVRAGLKPLLGFDVWEHAYYLDYQNRRADHVNKLWEIIDWDVVEKRL MYEMPKLPYANNALEPVISQQTIDYHYGKHLQTYVNNLNSLVPGTEYEGKTVEAIVASAPDGAIFNNAGQVLNHTLYFLQFAPKPAKNEPAGKLGEAIKRDFGSFENFKKEFNAASVGLFGSGWAWLSVDKDGKLHITKEPNGSNPVRAGLKPLLGFDVWEHAYYLDYQNRRADHVNKLWEIIDWDVVEKRL 8avn-a1-m1-cA_8avn-a1-m1-cB Mutant of Superoxide dismutase SodFM1 from CPR Parcubacteria Wolfebacteria A0A0G1X6V3 A0A0G1X6V3 1.65 X-RAY DIFFRACTION 62 1.0 1619007 (Candidatus Wolfebacteria bacterium GW2011_GWB1_47_1) 1619007 (Candidatus Wolfebacteria bacterium GW2011_GWB1_47_1) 202 202 KHELPPLPYAYNALEPFIDAKTLEIHHTKHHQSYVDKLNAALEKYPDLQDKTVEELIKSLNELPEEIRTTVRNNAGGHFSHTLYWNIMNPATQEYIPEELGNALVETFGSIIAFKEQFSKAAANIFGSGWVWLAADANKKLKIVSTTGQDNPLMTGDAPLMGIDIWEHAYYLHYQNRRPEYIENWWNVLDWKAVEERYNALG KHELPPLPYAYNALEPFIDAKTLEIHHTKHHQSYVDKLNAALEKYPDLQDKTVEELIKSLNELPEEIRTTVRNNAGGHFSHTLYWNIMNPATQEYIPEELGNALVETFGSIIAFKEQFSKAAANIFGSGWVWLAADANKKLKIVSTTGQDNPLMTGDAPLMGIDIWEHAYYLHYQNRRPEYIENWWNVLDWKAVEERYNALG 8awp-a1-m1-cA_8awp-a1-m1-cB Crystal structure of a manganese-containing cupin (tm1459) from Thermotoga maritima, variant 208 (V19I/R23H/M38I/I60F/C106Q) Q9X1H0 Q9X1H0 1.595 X-RAY DIFFRACTION 93 1.0 2336 (Thermotoga maritima) 2336 (Thermotoga maritima) 104 111 MILKRAYDVTPQKISTDKIRGVHKRVLNFVIRLFTVEPGGLIDRHSHPWEHEFFVLKGKLTVLKEQGEETVEEGFYIFVEPNEIHGFRNDTDSEVEFLQLIPKE MILKRAYDVTPQKISTDKIRGVHKRVLIGLKDAPNFVIRLFTVEPGGLIDRHSHPWEHEFFVLKGKLTVLKEQGEETVEEGFYIFVEPNEIHGFRNDTDSEVEFLQLIPKE 8ax4-a1-m1-cB_8ax4-a1-m1-cD Crystal structure of FMV N in its RNA-free form I2FFM8 I2FFM8 2.28 X-RAY DIFFRACTION 135 1.0 1980427 (Emaravirus fici) 1980427 (Emaravirus fici) 259 259 8ax4-a1-m1-cA_8ax4-a1-m1-cC DLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIA DLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIA 8ax4-a1-m1-cD_8ax4-a1-m1-cC Crystal structure of FMV N in its RNA-free form I2FFM8 I2FFM8 2.28 X-RAY DIFFRACTION 111 1.0 1980427 (Emaravirus fici) 1980427 (Emaravirus fici) 259 261 8ax4-a1-m1-cB_8ax4-a1-m1-cA DLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIA SDLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIAS 8axf-a1-m1-cB_8axf-a1-m1-cD Crystal structure of FMV N bound to 42-mer ssRNA I2FFM8 I2FFM8 2.54 X-RAY DIFFRACTION 105 1.0 1980427 (Emaravirus fici) 1980427 (Emaravirus fici) 256 263 8axf-a1-m1-cA_8axf-a1-m1-cC LKPIDVEVQAFTSASSNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIAS DLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIASAHV 8axf-a1-m1-cC_8axf-a1-m1-cD Crystal structure of FMV N bound to 42-mer ssRNA I2FFM8 I2FFM8 2.54 X-RAY DIFFRACTION 110 0.996 1980427 (Emaravirus fici) 1980427 (Emaravirus fici) 262 263 8axf-a1-m1-cB_8axf-a1-m1-cA SDLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIASA DLKPIDVEVQAFTSASQNISNFTLHKYRNICHVDTCAAHLSKSKENKEKLQARNLRLIVSSNEFLVVVKELNDSTVDNVVSFNKACAIMSAGVLKHTFDEEFDWKLSKYVKTNNTTKVIPDVKIINRLAGQMGLSAGNPYYWMIVPGYEFLYELYPAEVLAYTLVRLQYRKNLNIPDSMTDADIVSSLVMKMNRIHKLEQTSFDEALNLIGKDNVSEAYVELARDIGSTSKTKRNDEAILKFRELIASFLPALEADRIASAHV 8axk-a1-m1-cD_8axk-a1-m1-cC Type 3 secretion system export apparatus core, inner rod and needle of Shigella flexneri P0A1L3 P0A1L3 4.05 ELECTRON MICROSCOPY 97 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 183 188 6r6b-a1-m1-cC_6r6b-a1-m1-cB 6r6b-a1-m1-cD_6r6b-a1-m1-cC 6r6b-a1-m1-cD_6r6b-a1-m1-cE 8axk-a1-m1-cB_8axk-a1-m1-cA 8axk-a1-m1-cB_8axk-a1-m1-cC 8axk-a1-m1-cD_8axk-a1-m1-cE MLSDMSLIATLSFFTLLPFLVAAGTCYIKFSIVFVMVRNALGLQQVPSNMTLNGIALIMALFVMKPIIEAGSGLMEYKQYLKKHTDLELARFFQRSEEENDYSLFSLLPAYALSEIKDAFKIGFYLYLPFVVVDLVISSILLALGMMMMSPITISVPIKLVLFVALDGWGILSKALIEQYINI MLSDMSLIATLSFFTLLPFLVAAGTCYIKFSIVFVMVRNALGLQQVPSNMTLNGIALIMALFVMKPIIEAGYDSGLMEYKQYLKKHTDLELARFFQRSEEEAENNDYSLFSLLPAYALSEIKDAFKIGFYLYLPFVVVDLVISSILLALGMMMMSPITISVPIKLVLFVALDGWGILSKALIEQYINI 8axk-a1-m1-cI_8axk-a1-m1-cH Type 3 secretion system export apparatus core, inner rod and needle of Shigella flexneri P0A1M4 P0A1M4 4.05 ELECTRON MICROSCOPY 27 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 63 75 6rwy-a1-m1-cj_6rwy-a1-m1-ci MSDIVYMGNKALYLILIFSLWPVGIPFGIKLIGVSISLLLLSGWYGEVLLSFCHEIMFLIKSG MSDIVYMGNKALYLILIFSLWPVGIATVIGLSIGLLLPFGIKLIGVSISLLLLSGWYGEVLLSFCHEIMFLIKSG 8axk-a1-m1-cI_8axk-a1-m1-cJ Type 3 secretion system export apparatus core, inner rod and needle of Shigella flexneri P0A1M4 P0A1M4 4.05 ELECTRON MICROSCOPY 25 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 63 67 6rwy-a1-m1-ck_6rwy-a1-m1-cj MSDIVYMGNKALYLILIFSLWPVGIPFGIKLIGVSISLLLLSGWYGEVLLSFCHEIMFLIKSG MSDIVYMGNKALYLILIFSLWPVGIATVLPFGIKLIGVSISLLLLSGWYGEVLLSFCHEIMFLIKSG 8axk-a1-m1-cM_8axk-a1-m1-cR Type 3 secretion system export apparatus core, inner rod and needle of Shigella flexneri P0A225 P0A225 4.05 ELECTRON MICROSCOPY 15 1.0 623 (Shigella flexneri) 623 (Shigella flexneri) 42 85 ESLNPESLAKLQTTLSNYSIGVSLAGTLARKTVSAVETLLKS NQVDIIKASDFQSLEDVVSAKYSDIKMDTDIQVSQIMEMVSNPESLNPESLAKLQTTLSNYSIGVSLAGTLARKTVSAVETLLKS 8ay1-a1-m1-cB_8ay1-a1-m1-cA Crystal structure of the C. elegans POFUT2 (CePoFUT2) triple mutant (R298K-R299K-A418C) in complex with the Rattus norvegicus TSR4 single mutant (E10C) from F-spondin P35446 P35446 2.13 X-RAY DIFFRACTION 82 0.998 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 409 421 EKKFLLYDVNFGEGFNLRRDVYMRVANTVRSLRDSGENYILVLPPWGRLHHWKVALSWRLFFDLESLNRFIPVIEFEDFLDENRPIDQVIYLQHYAEYVRKFEKRSCLPPAESHYKQVEEFKWKGWFYSYEDVYSRNFQCVSIQGDSGTLKDLLKHSNFSESTSIMVDRAETILHEHYGEVDYWKARRSMRYSNDLVDVADAFRKKYLDSDDKRDKTKLVDDWTKEKPRRTAIGGPYLGIHWRRRDFLYAQLPTIPGTAKILQDLCKKLDLQKIYLATDAPDQEVDELKALLNGELEVYRFTDTQKLNDGQIAIIDQYLCAHAAYFIGSYESTFTFRIQEDREIIGFPISTTFNRLCPDTEPTCEQPCKWKIVYSPWSCWSDCSVTCGKGMRTRQRDLEQAEKCMLPEC AEKKFLLYDVNFGEGFNLRRDVYMRVANTVRSLRDSGENYILVLPPWGRLHHWKRMEVALSWRLFFDLESLNRFIPVIEFEDFLDENRPIDQVIYLQHYAEGWEYVRKFEKRSCLPPAESHYKQVEEFKWKGWFYSYEDVYSRNFQCVSIQGDSGTLKDLLKHSNFSESTSIMVDRAETILHEHYGEVDYWKARRSMRYSNDLVDVADAFRKKYLDSDDKRDKTKLVDDWTKEKPRRTAIGGPYLGIHWRRRDFLYAKKAQLPTIPGTAKILQDLCKKLDLQKIYLATDAPDQEVDELKALLNGELEVYRFTDTQKLNDGQIAIIDQYLCAHAAYFIGSYESTFTFRIQEDREIIGFPISTTFNRLCPDTEPTCEQPCKWKIVYPWSCWSDCSVTCGKGMRTRQRMLKDLEQAEKCMLPEC 8ayd-a1-m1-cAA_8ayd-a1-m2-cAA Anammox-specific FabZ from the annamox bacterium Kuenenia stuttgartiensis Q1Q2X5 Q1Q2X5 2.8 X-RAY DIFFRACTION 107 1.0 174633 (Candidatus Kuenenia stuttgartiensis) 174633 (Candidatus Kuenenia stuttgartiensis) 138 138 VLFEEIRSLLPQKYPFIFIDRAIEFEESKRIVCVKNISGNEPVFVGHFPDFAIMPGVLIIEAMAQASIILFRKSLVFLLASVNNARFTKPVVPGDQLTIEVIVEKIVSRGAIVQSVVKVQEKVVAKAALTFGIVEKSS VLFEEIRSLLPQKYPFIFIDRAIEFEESKRIVCVKNISGNEPVFVGHFPDFAIMPGVLIIEAMAQASIILFRKSLVFLLASVNNARFTKPVVPGDQLTIEVIVEKIVSRGAIVQSVVKVQEKVVAKAALTFGIVEKSS 8ayd-a1-m2-cAA_8ayd-a1-m2-cBA Anammox-specific FabZ from the annamox bacterium Kuenenia stuttgartiensis Q1Q2X5 Q1Q2X5 2.8 X-RAY DIFFRACTION 86 0.993 174633 (Candidatus Kuenenia stuttgartiensis) 174633 (Candidatus Kuenenia stuttgartiensis) 138 138 8ayd-a1-m1-cAA_8ayd-a1-m1-cBA 8ayd-a1-m1-cCA_8ayd-a1-m2-cCA VLFEEIRSLLPQKYPFIFIDRAIEFEESKRIVCVKNISGNEPVFVGHFPDFAIMPGVLIIEAMAQASIILFRKSLVFLLASVNNARFTKPVVPGDQLTIEVIVEKIVSRGAIVQSVVKVQEKVVAKAALTFGIVEKSS VLFEEIRSLLPQKYPFIFIDRAIEFEESKRIVCVKNISGNEPVFVGHFPDFAIMPGVLIIEAMAQASIILFRKSLAVFLLASVNNARFTKPVVPGDQLTIEVIVEKIVSRGAIVQSVVKVQEKVVAKAALTFGIVEKS 8ayk-a1-m1-cB_8ayk-a1-m1-cA Crystal structure of D-amino acid aminotrensferase from Aminobacterium colombiense complexed with D-glutamate D5EHC5 D5EHC5 1.9 X-RAY DIFFRACTION 125 1.0 81468 (Aminobacterium colombiense) 81468 (Aminobacterium colombiense) 275 276 8ahr-a1-m1-cA_8ahr-a1-m1-cB 8aie-a1-m1-cB_8aie-a1-m1-cA 8ayj-a1-m1-cA_8ayj-a1-m1-cB MNLCYIDGKFLPLEEAKLPVTDLIIQRGVGVFETISTHSRRPLMLTPHLKRLEGSATASSIVMPATLDEMARIIREGIKKMGCETMVRPYITGGDSFGKDHLFSSSRYFVIFEEIRKPDPILYEKGVALHPINAERYLPSTKSINYMLSFTGQRDSKGAYEILYCPEGEIVEGSHSTFFLIKNGHLITAPTSRALSGTTRQIVLELARRGNIQVEERCPLLTELPEAEEAFITGTVKELLPVVRIGDQIIGNGVPGKLTKHLHQVYLSSIVEWLE HMNLCYIDGKFLPLEEAKLPVTDLIIQRGVGVFETISTHSRRPLMLTPHLKRLEGSATASSIVMPATLDEMARIIREGIKKMGCETMVRPYITGGDSFGKDHLFSSSRYFVIFEEIRKPDPILYEKGVALHPINAERYLPSTKSINYMLSFTGQRDSKGAYEILYCPEGEIVEGSHSTFFLIKNGHLITAPTSRALSGTTRQIVLELARRGNIQVEERCPLLTELPEAEEAFITGTVKELLPVVRIGDQIIGNGVPGKLTKHLHQVYLSSIVEWLE 8ayv-a1-m1-cB_8ayv-a1-m1-cA Crystal structure of the Malonyl-ACP Decarboxylase MadB from Pseudomonas putida Q88R72 Q88R72 1.044 X-RAY DIFFRACTION 75 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 149 150 TDSQYLQSVLHSDIPLTREMGLEVIDWQQHTLRLQLPLAANVNHKSTMFGGSLYCAAVLVGWGWLHLRLRELGIDDGHIVIQEGQISYPLPVTGTAVARCAAPDEKTWERFLTLYQRRGRARLTLETTVSNDGSDEPAVRFSGQYVLHR STDSQYLQSVLHSDIPLTREMGLEVIDWQQHTLRLQLPLAANVNHKSTMFGGSLYCAAVLVGWGWLHLRLRELGIDDGHIVIQEGQISYPLPVTGTAVARCAAPDEKTWERFLTLYQRRGRARLTLETTVSNDGSDEPAVRFSGQYVLHR 8ayy-a1-m58-cB_8ayy-a1-m9-cB Poliovirus type 3 (strain Saukett) stabilised virus-like particle (PV3 SC8) in complex with GSH and Pleconaril Q84895 Q84895 2.6 ELECTRON MICROSCOPY 10 1.0 12086 (Poliovirus 3) 12086 (Poliovirus 3) 264 264 8ayy-a1-m10-cB_8ayy-a1-m11-cB 8ayy-a1-m10-cB_8ayy-a1-m57-cB 8ayy-a1-m11-cB_8ayy-a1-m19-cB 8ayy-a1-m12-cB_8ayy-a1-m18-cB 8ayy-a1-m12-cB_8ayy-a1-m6-cB 8ayy-a1-m13-cB_8ayy-a1-m5-cB 8ayy-a1-m13-cB_8ayy-a1-m8-cB 8ayy-a1-m14-cB_8ayy-a1-m19-cB 8ayy-a1-m14-cB_8ayy-a1-m57-cB 8ayy-a1-m15-cB_8ayy-a1-m52-cB 8ayy-a1-m15-cB_8ayy-a1-m56-cB 8ayy-a1-m16-cB_8ayy-a1-m17-cB 8ayy-a1-m16-cB_8ayy-a1-m51-cB 8ayy-a1-m17-cB_8ayy-a1-m25-cB 8ayy-a1-m18-cB_8ayy-a1-m24-cB 8ayy-a1-m1-cB_8ayy-a1-m53-cB 8ayy-a1-m1-cB_8ayy-a1-m56-cB 8ayy-a1-m20-cB_8ayy-a1-m25-cB 8ayy-a1-m20-cB_8ayy-a1-m51-cB 8ayy-a1-m21-cB_8ayy-a1-m46-cB 8ayy-a1-m21-cB_8ayy-a1-m50-cB 8ayy-a1-m22-cB_8ayy-a1-m23-cB 8ayy-a1-m22-cB_8ayy-a1-m45-cB 8ayy-a1-m23-cB_8ayy-a1-m31-cB 8ayy-a1-m24-cB_8ayy-a1-m30-cB 8ayy-a1-m26-cB_8ayy-a1-m31-cB 8ayy-a1-m26-cB_8ayy-a1-m45-cB 8ayy-a1-m27-cB_8ayy-a1-m40-cB 8ayy-a1-m27-cB_8ayy-a1-m44-cB 8ayy-a1-m28-cB_8ayy-a1-m29-cB 8ayy-a1-m28-cB_8ayy-a1-m39-cB 8ayy-a1-m29-cB_8ayy-a1-m7-cB 8ayy-a1-m2-cB_8ayy-a1-m39-cB 8ayy-a1-m2-cB_8ayy-a1-m7-cB 8ayy-a1-m30-cB_8ayy-a1-m6-cB 8ayy-a1-m32-cB_8ayy-a1-m37-cB 8ayy-a1-m32-cB_8ayy-a1-m9-cB 8ayy-a1-m33-cB_8ayy-a1-m4-cB 8ayy-a1-m33-cB_8ayy-a1-m8-cB 8ayy-a1-m34-cB_8ayy-a1-m35-cB 8ayy-a1-m35-cB_8ayy-a1-m43-cB 8ayy-a1-m36-cB_8ayy-a1-m42-cB 8ayy-a1-m36-cB_8ayy-a1-m60-cB 8ayy-a1-m37-cB_8ayy-a1-m59-cB 8ayy-a1-m38-cB_8ayy-a1-m43-cB 8ayy-a1-m3-cB_8ayy-a1-m34-cB 8ayy-a1-m3-cB_8ayy-a1-m38-cB 8ayy-a1-m40-cB_8ayy-a1-m41-cB 8ayy-a1-m41-cB_8ayy-a1-m49-cB 8ayy-a1-m42-cB_8ayy-a1-m48-cB 8ayy-a1-m44-cB_8ayy-a1-m49-cB 8ayy-a1-m46-cB_8ayy-a1-m47-cB 8ayy-a1-m47-cB_8ayy-a1-m55-cB 8ayy-a1-m48-cB_8ayy-a1-m54-cB 8ayy-a1-m4-cB_8ayy-a1-m5-cB 8ayy-a1-m50-cB_8ayy-a1-m55-cB 8ayy-a1-m52-cB_8ayy-a1-m53-cB 8ayy-a1-m54-cB_8ayy-a1-m60-cB 8ayy-a1-m58-cB_8ayy-a1-m59-cB NYTTINYYKDSASNAALQLTIGNSTITNSVVAYGRWPEFIRDDDQPTEPDVATCRFYTLDTVMWGKESKGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAIPEYCLAGDSDKQRYTSYANANPGEKGGKFYSQFNRDTAVTSPKREFCPVDYLLGCGVLLGNAFVYPHQIINLRTNNSATIVLPYVNAMAIDSMVKHNNWGIAILPLSPLDFAQESSVEIPITVTIAPMCSEFNGLRNVTAPKFQ NYTTINYYKDSASNAALQLTIGNSTITNSVVAYGRWPEFIRDDDQPTEPDVATCRFYTLDTVMWGKESKGWWWKLPDALRDMGLFGQNMYYHYLGRSGYTVHVQCNASKFHQGALGVFAIPEYCLAGDSDKQRYTSYANANPGEKGGKFYSQFNRDTAVTSPKREFCPVDYLLGCGVLLGNAFVYPHQIINLRTNNSATIVLPYVNAMAIDSMVKHNNWGIAILPLSPLDFAQESSVEIPITVTIAPMCSEFNGLRNVTAPKFQ 8b0i-a1-m1-cC_8b0i-a1-m1-cD CryoEM structure of bacterial RapZ.GlmZ complex central to the control of cell envelope biogenesis P0A894 P0A894 4.28 ELECTRON MICROSCOPY 52 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 242 282 VLMIVGKSVALRALEDMGFYCVDNLPVVLLPDLARTLADREISAAVSIDVRNMPESPEIFEQAMSNLPDAFSPQLLFDADRNTLEPLRSRADLIVDTSEMSVHELAMLRTRLLGKRERELTMVFESFGFKHGIPIDADYVFDVRFLPNPHWDPKLRPMTGLDKPVAAFLDRHTEVHNFIYQTRSYLELWLPMLETNNRSYLTVAIGCTGGKHRSVYIAEQLADYFRSRGKNVQSRHRTLEKR MVLMIVSGRSGSGKSVALRALEDMGFYCVDNLPVVLLPDLARTLADREISAAVSIDVRNMPESPEIFEQAMSNLPDAFSPQLLFLDADRNTLIRRYSDTRRLHPLSSKNLSLESAIDKESDLLEPLRSRADLIVDTSEMSVHELAEMLRTRLLGKRERELTMVFESFGFKHGIPIDADYVFDVRFLPNPHWDPKLRPMTGLDKPVAAFLDRHTEVHNFIYQTRSYLELWLPMLETNNRSYLTVAIGCTGGKHRSVYIAEQLADYFRSRGKNVQSRHRTLEKR 8b10-a1-m1-cA_8b10-a1-m1-cC Crystal Structure of Shank2-SAM mutant domain - L1800W Q9UPX8 Q9UPX8 1.95 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 69 69 8b10-a1-m1-cA_8b10-a1-m1-cB TKPVHLWTKPDVADWLESLNWGEHKEAFMDNEIDGSHLPNLQKEDLIDLGVTRVGHRMNIERALKQLLD TKPVHLWTKPDVADWLESLNWGEHKEAFMDNEIDGSHLPNLQKEDLIDLGVTRVGHRMNIERALKQLLD 8b10-a1-m1-cF_8b10-a1-m1-cA Crystal Structure of Shank2-SAM mutant domain - L1800W Q9UPX8 Q9UPX8 1.95 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 67 69 KPVHLWTKPDVADWLESLNWGEHKEAFMDNEIDGSHLPNLQKEDLIDLGVTRVGHRMNIERALKQLL TKPVHLWTKPDVADWLESLNWGEHKEAFMDNEIDGSHLPNLQKEDLIDLGVTRVGHRMNIERALKQLLD 8b1n-a1-m1-cB_8b1n-a1-m1-cA Crystal structure of TrmD-Tm1570 from Calditerrivibrio nitroreducens in complex with S-adenosyl-L-methionine E4THH1 E4THH1 2 X-RAY DIFFRACTION 367 1.0 768670 (Calditerrivibrio nitroreducens DSM 19672) 768670 (Calditerrivibrio nitroreducens DSM 19672) 410 433 8byh-a1-m1-cA_8byh-a1-m1-cB HMKRYNVITIFPEMINEIFKYGVLSKGIDIGLFRVNPINLRDYTEDKHKTVDDYQYGGGHGLVMKPEPIYKAIADLKSKKDTHVVFLDPRGEQFTQKTAERLYNYDDITFVCGRYEGIDDRVRELMADEMISIGDFVITGGELAAVTIIDAVARLIPGVLGDENSPNEESFTTGLLEYPHFTRPAEFMGKKVPEVLISGNHEEIRRWRLTESIKTTLQNRPDMILRKSLSREEEQILWSLTRYNIYVALMHYPMRDKEGKVVTTSITNMDLHDISRSCRTFGVKNYFVVNPMPAQREIASRVVRHWIKYTIITDSLASVIKSIEEKESGSPIIIATTARYQQKAISIEKLKEIADRPILLLFGTGWGFVDDILEFADYVLKPIHGVGDFNHLSVRSAVAIYLDRINRSFQ GPHMKRYNVITIFPEMINEIFKYGVLSKGIDIGLFRVNPINLRDYTEDKHKTVDDYQYGGGHGLVMKPEPIYKAIADLKSKKDTHVVFLDPRGEQFTQKTAERLYNYDDITFVCGRYEGIDDRVRELMADEMISIGDFVITGGELAAVTIIDAVARLIPGVLGDENSPNEESFTTGLLEYPHFTRPAEFMGKKVPEVLISGNHEEIRRWRLTESIKTTLQNRPDMILRKSLSREEEQILWSLTRGVQRKYNIYVALMHYPMRDKEGKVVTTSITNMDLHDISRSCRTFGVKNYFVVNPMPAQREIASRVVRHWIKGYGATYNENRKEAFEYTIITDSLASVIKSIEEKESGSPIIIATTARYQQKAISIEKLKEIADRPILLLFGTGWGFVDDILEFADYVLKPIHGVGDFNHLSVRSAVAIYLDRINRSFQE 8b1r-a1-m1-cP_8b1r-a1-m1-cQ RecBCD in complex with the phage protein gp5.9 P20406 P20406 3.2 ELECTRON MICROSCOPY 76 1.0 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 49 49 MSRDLVTIPRDVWNDIQGYIDSLERENDSLKNQLMEADEYVAELEEKLN MSRDLVTIPRDVWNDIQGYIDSLERENDSLKNQLMEADEYVAELEEKLN 8b1v-a1-m1-cA_8b1v-a1-m1-cB Dihydroprecondylocarpine acetate synthase 2 from Tabernanthe iboga A0A5B8X8Z0 A0A5B8X8Z0 1.882 X-RAY DIFFRACTION 110 1.0 141617 (Tabernanthe iboga) 141617 (Tabernanthe iboga) 358 358 8b25-a1-m1-cA_8b25-a1-m1-cB 8b26-a1-m1-cB_8b26-a1-m1-cA SPEEEHPVKAYGWAVKDRTTGILSPFKFSRRATGDNDIRIKILYCGICHTDLTSVKNEYEFLSYPLVPGMEIVGIATEVGSKVTKIKVGEKVAVAAYLGTCGKCYNCVNDLENYCPEVIIGYGTPYHDGTINYGGLSNETVVNERFVLRFPEKLSPAGGAPLLSAGITAYSAMRNHGLDKPGIHLGVVGLGGLGHLAVKFAKAFGVRVTVISTTPSKKDEAINNLGADAFLFSRDDKQMRAAIGTFDAIIDTLAVVHPIAPLLDLLRSHGKLVLVGAPSKPLELPTIPLLSGGKSLIGSAAGNVKQTQEMLDFAAEHDITANIEVIPIDYINTAMERLDKGDIRFRFVVDIENTLTPP SPEEEHPVKAYGWAVKDRTTGILSPFKFSRRATGDNDIRIKILYCGICHTDLTSVKNEYEFLSYPLVPGMEIVGIATEVGSKVTKIKVGEKVAVAAYLGTCGKCYNCVNDLENYCPEVIIGYGTPYHDGTINYGGLSNETVVNERFVLRFPEKLSPAGGAPLLSAGITAYSAMRNHGLDKPGIHLGVVGLGGLGHLAVKFAKAFGVRVTVISTTPSKKDEAINNLGADAFLFSRDDKQMRAAIGTFDAIIDTLAVVHPIAPLLDLLRSHGKLVLVGAPSKPLELPTIPLLSGGKSLIGSAAGNVKQTQEMLDFAAEHDITANIEVIPIDYINTAMERLDKGDIRFRFVVDIENTLTPP 8b27-a1-m1-cA_8b27-a1-m1-cB Dihydroprecondylocarpine acetate synthase from Catharanthus roseus A0A1B1FHP3 A0A1B1FHP3 2.45 X-RAY DIFFRACTION 54 1.0 4058 (Catharanthus roseus) 4058 (Catharanthus roseus) 318 322 IKAYGWAVKDRTTGILSPFKFSRRATGDDDVRIKILYCGICHTDLASIKNEYEFLSYPLVPGMEIVGIATEVGKDVTKVKVGEKVALSAYCYGGLSNETVANQSFVLRFPERLSPAGGAPLLSAGITSFSAMRNSGIDKPGLHVGVVGLGGLGHLAVKFAKAFGLKVTVISTTPSKKDDAINGLGADGFLLSRDDEQMKAAIGTLDAIIDTLAVVHPIAPLLDLLRSQGKFLLLGAPSQSLELPPIPLLSGGKSIIGSAAGNVKQTQEMLDFAAEHDITANVEIIPIEYINTAMERLDKGDVRYRFVVDIENTLTPPS HPIKAYGWAVKDRTTGILSPFKFSRRATGDDDVRIKILYCGICHTDLASIKNEYEFLSYPLVPGMEIVGIATEVGKDVTKVKVGEKVALSAYLCYGGLSNETVANQSFVLRFPERLSPAGGAPLLSAGITSFSAMRNSGIDKPGLHVGVVGLGGLGHLAVKFAKAFGLKVTVISTTPSKKDDAINGLGADGFLLSRDDEQMKAAIGTLDAIIDTLAVVHPIAPLLDLLRSQGKFLLLGAPSQSLELPPIPLLSGGKSIIGSAAGNVKQTQEMLDFAAEHDITANVEIIPIEYINTAMERLDKGDVRYRFVVDIENTLTPPSE 8b28-a1-m1-cA_8b28-a1-m2-cA Structure of an intron-retention variant of the plant immune signalling protein EDS1 from Vitis vinifera G3F1Q6 G3F1Q6 1.75 X-RAY DIFFRACTION 99 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 331 331 MGETLGNRIRLSEEIVNRAASQAMRAHNSAGRPFLLDKTRGFAIFAFAGSWLSDDWFTHPPFGETKMDASTFPSLRSVGNDEVAVVNASFLRRFKAILDQLPLEREVQKVIADRRQVVFTGHSWGGAMAILATLYFLEKAGPNQNPPRCITFGSPLVGDRIFGHAVRREKWSDHFIHFVMRFDVIPRIMLGPASTEHQQILNFFNPRSQFYREPLDPPLGFYLNVMRSASSVAIHDACILMGCTNPLLETLRNFTELSPYRPFGTYIFCTGNGKLVVLKNPDAVLQILFYCAQLSQEEAAEIAQRSLHEHLAYENELQESLGMQNVVYLDS MGETLGNRIRLSEEIVNRAASQAMRAHNSAGRPFLLDKTRGFAIFAFAGSWLSDDWFTHPPFGETKMDASTFPSLRSVGNDEVAVVNASFLRRFKAILDQLPLEREVQKVIADRRQVVFTGHSWGGAMAILATLYFLEKAGPNQNPPRCITFGSPLVGDRIFGHAVRREKWSDHFIHFVMRFDVIPRIMLGPASTEHQQILNFFNPRSQFYREPLDPPLGFYLNVMRSASSVAIHDACILMGCTNPLLETLRNFTELSPYRPFGTYIFCTGNGKLVVLKNPDAVLQILFYCAQLSQEEAAEIAQRSLHEHLAYENELQESLGMQNVVYLDS 8b2a-a1-m1-cAAA_8b2a-a1-m2-cAAA Crystal structure of type I dehydroquinase from Salmonella typhi inhibited by an epoxide derivative Q2YWJ9 Q2YWJ9 1.65 X-RAY DIFFRACTION 54 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 236 236 1sfj-a1-m1-cA_1sfj-a1-m1-cB 1sfl-a1-m1-cA_1sfl-a1-m1-cB 6sfh-a1-m1-cA_6sfh-a1-m1-cB 8b2a-a2-m1-cBBB_8b2a-a2-m3-cBBB HVEVVATIAPQLYIEETLIQKINHRIDAIDVLELRIDQIENVTVNQVAEMITKLKVMQDSFKLLVTYRTKLQGGYGQFTNDLYLNLISDLANINGIDMIDIEWQADIDIEKHQRIITHLQQYNKEVVISHHNFESTPPLDELQFIFFKMQKFNPEYVKLAVMPHNKNDVLNLLQAMSTFSDTMDCKVVGISMSKLGLISRTAQGVFGGALTYGCIGEPQAPGQIDVTDLKAQVTLY HVEVVATIAPQLYIEETLIQKINHRIDAIDVLELRIDQIENVTVNQVAEMITKLKVMQDSFKLLVTYRTKLQGGYGQFTNDLYLNLISDLANINGIDMIDIEWQADIDIEKHQRIITHLQQYNKEVVISHHNFESTPPLDELQFIFFKMQKFNPEYVKLAVMPHNKNDVLNLLQAMSTFSDTMDCKVVGISMSKLGLISRTAQGVFGGALTYGCIGEPQAPGQIDVTDLKAQVTLY 8b3b-a1-m1-cB_8b3b-a1-m1-cA Structure of metacyclic VSG (mVSG) 531 from Trypanosoma brucei M4SYA9 M4SYA9 1.949 X-RAY DIFFRACTION 355 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 360 362 8b3b-a2-m1-cC_8b3b-a2-m1-cD 8b3b-a3-m1-cH_8b3b-a3-m1-cG 8b3b-a4-m1-cF_8b3b-a4-m1-cE VNGAGLLQTVWGPVCELTSELDGQAGAALKKEQEMLAKINDMQMAQLRAAIYLAKNPSTPHQNALAVLTAYYAERAGSGKAYFLHALPKAVDSIRRAAYLKGHLDEYLNLLEKSSGGNNKCLVTTDDATVATRGGDQKLAGKNCKLSLSPLKPVDAALTYITKAGVGKLRYDDGGAGGNAVTPSKSGVHACKLLIAHNTAGYGDGGGVTADIDVFAGYMKVKATDAEPKLAAKSDLEEGGGGGAEAWKALHTAIKQEADAEAAELTNETGKLGERRHFLAAATNVLGRAAVEAAFGSDSEGGDRKIIELIEKELIVKGTANRDADESLGNIKTLKELGELLSYFQLKNSNTINELRNKLK VNGAGLLQTVWGPVCELTSELDGQAGAALKKEQEMLAKINDMQMAQLRAAIYLAKNPSTPHQNALAVLTAYYAERAGSGKAYFLHALPKAVDSIRRAAYLKGHLDEYLNLLEKSSGGNNKCLVTTDDATVATRGGDQKLAGKNCKLSLSPLKPVDAALTYITKAGVGKLRYDDGGAGGNAVTPSKSGVHACKLLIAHNTAGYGDGGGVTADIDVFAGYMKVKATDAEPKLAAKSDLEEGGGGGAEAWKALHTAIKQEADAEAAELTNETGKLGERRHFLAAATNVLGGRAAVEAAFGSDSEGGDRKIIELIEKELIVKGTANRDADESLGNIKTLKELGELLSYFQLKNSNTINELRNKLKA 8b3e-a1-m1-cA_8b3e-a1-m2-cA Variant Surface Glycoprotein VSG397 M4SY06 M4SY06 1.26 X-RAY DIFFRACTION 428 1.0 5691 (Trypanosoma brucei) 5691 (Trypanosoma brucei) 389 389 TPANAAADAANDVCKALWFLDTLADKIRSTINSAIANKRFLEQQAQALKLAYLSASGSRRTGYGILTGLAIDRMNEQENQIKDAEAVYQAAANKLTNLSSKLRTAAALQSRRPKLTAAPTKANAVAGKTATASDTCKYESQAEAAEHSPCPDVAASTPALAASKITLSGLTKLPYPGEQFTTTMTADIYAFAKGTLSNANTKSAGAYYCSDDAATYTSGSIAGTHALGAIVLPKPTGHGITPTDFLNGSCVEETGEANSYAYEKSAVLHAVCQASKATLTITASALDVQLTDFKHGGQHATYTMAALKGQGLMPESAEEIDKTKAEEFLKVVFGTKESAIAEDFIKPLSANKLSFAGKGKEQKEEANKIAKSNDAGTAIAFFAAKSAKV TPANAAADAANDVCKALWFLDTLADKIRSTINSAIANKRFLEQQAQALKLAYLSASGSRRTGYGILTGLAIDRMNEQENQIKDAEAVYQAAANKLTNLSSKLRTAAALQSRRPKLTAAPTKANAVAGKTATASDTCKYESQAEAAEHSPCPDVAASTPALAASKITLSGLTKLPYPGEQFTTTMTADIYAFAKGTLSNANTKSAGAYYCSDDAATYTSGSIAGTHALGAIVLPKPTGHGITPTDFLNGSCVEETGEANSYAYEKSAVLHAVCQASKATLTITASALDVQLTDFKHGGQHATYTMAALKGQGLMPESAEEIDKTKAEEFLKVVFGTKESAIAEDFIKPLSANKLSFAGKGKEQKEEANKIAKSNDAGTAIAFFAAKSAKV 8b3k-a1-m1-cA_8b3k-a1-m1-cB Crystal structure of human Plexin-B1 (20-535) in the unbound state O43157 O43157 2.685 X-RAY DIFFRACTION 33 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 492 492 PTAFTPNGTYLQHLARDPTSGTLYLGATNFLFQLSPGLQLEATVSTGPVLDSRDCLPPVMPDECPQAQPTNNPNQLLLVSPGALVVCGSVHQGVCEQRRLGQLEQLLLRPERPGDTQYVAANDPAVSTVGLVAQGLAGEPLLFVGRGYTSVGGGIPPITTRALWPPDPQAAFSYEETAKLAVGRLSEYSHHFVSAFARGASAYFLFLRRDLQAQSRAFRAYVSRVCLRDQHYYSYVELPLACEGGRYGLIQAAAVATSREVAHGEVLFAAFSSAAPPSAAAGASALCAFPLDEVDRLANRTRDACYTREGRAEDGTEVAYIEYDVNSDCAQLPVDTLDAYPCGSDHTPSPMASRVPLEATPILEWPGIQLTAVAVTMEDGHTIAFLGDSQGQLHRVYLGPGSDGHPYSTQSIQQGSAVSRDLTFDGTFEHLYVMTQSTLLKVPVASCAQHLDCASCLAHRDPYCGWCVLLGRCSRRSECEQWLWSFQPELGC PPTAFTPNGTYLQHLARDPTSGTLYLGATNFLFQLSPGLQLEATVSTGPVLDSRDCLPPVMPDECPQAQPTNNPNQLLLVSPGALVVCGSVHQGVCEQRRLGQLEQLLLRPERPGDTQYVAANDPAVSTVGLVAQGLAGEPLLFVGRGYTSGGGIPPITTRALWPPDPQAAFSYEETAKLAVGRLSEYSHHFVSAFARGASAYFLFLRRDLQAQSRAFRAYVSRVCLRDQHYYSYVELPLACEGGRYGLIQAAAVATSREVAHGEVLFAAFSSAAPPSAAAGASALCAFPLDEVDRLANRTRDACYTREGRAEDGTEVAYIEYDVNSDCAQLPVDTLDAYPCGSDHTPSPMASRVPLEATPILEWPGIQLTAVAVTMEDGHTIAFLGDSQGQLHRVYLGPGSDGHPYSTQSIQQGSAVSRDLTFDGTFEHLYVMTQSTLLKVPVASCAQHLDCASCLAHRDPYCGWCVLLGRCSRRSECEQWLWSFQPELGC 8b3o-a1-m1-cDDD_8b3o-a1-m1-cEEE CryoEM structure of the pointy tip (proteins pIII/pVI/pVIII) from the f1 filamentous bacteriophage P69531 P69531 2.97 ELECTRON MICROSCOPY 51 1.0 10863 (Enterobacteria phage f1) 10863 (Enterobacteria phage f1) 112 112 8b3o-a1-m1-cAAA_8b3o-a1-m1-cBBB 8b3o-a1-m1-cAAA_8b3o-a1-m1-cEEE 8b3o-a1-m1-cBBB_8b3o-a1-m1-cCCC 8b3o-a1-m1-cCCC_8b3o-a1-m1-cDDD MPVLLGIPLLLRFLGFLLVTLFGYLLTFLKKGFGKIAIAISLFLALIIGLNSILVGYLSDISAQLPSDFVQGVQLILPSNALPCFYVILSVKAAIFIFDVKQKIVSYLDWDK MPVLLGIPLLLRFLGFLLVTLFGYLLTFLKKGFGKIAIAISLFLALIIGLNSILVGYLSDISAQLPSDFVQGVQLILPSNALPCFYVILSVKAAIFIFDVKQKIVSYLDWDK 8b3o-a1-m1-cIII_8b3o-a1-m1-cJJJ CryoEM structure of the pointy tip (proteins pIII/pVI/pVIII) from the f1 filamentous bacteriophage P69169 P69169 2.97 ELECTRON MICROSCOPY 43 1.0 10863 (Enterobacteria phage f1) 10863 (Enterobacteria phage f1) 148 148 8b3o-a1-m1-cFFF_8b3o-a1-m1-cGGG 8b3o-a1-m1-cFFF_8b3o-a1-m1-cJJJ 8b3o-a1-m1-cGGG_8b3o-a1-m1-cHHH 8b3o-a1-m1-cHHH_8b3o-a1-m1-cIII DFDYEKMANANKGAMTENADENALQSDAKGKLDSVATDYGAAIDGFIGDVSGLANGNGATGDFAGSNSQMAQVGDGDNSPLMNNFRQYLPSLPQSVECRPFVFGAGKPYEFSIDCDKINLFRGVFAFLLYVATFMYVFSTFANILRNK DFDYEKMANANKGAMTENADENALQSDAKGKLDSVATDYGAAIDGFIGDVSGLANGNGATGDFAGSNSQMAQVGDGDNSPLMNNFRQYLPSLPQSVECRPFVFGAGKPYEFSIDCDKINLFRGVFAFLLYVATFMYVFSTFANILRNK 8b3p-a1-m1-cDDD_8b3p-a1-m1-cEEE CryoEM structure of the round tip (proteins pVII/pVIII/pIX) from the f1 filamentous bacteriophage P69534 P69534 2.81 ELECTRON MICROSCOPY 31 1.0 10863 (Enterobacteria phage f1) 10863 (Enterobacteria phage f1) 28 28 8b3p-a1-m1-cAAA_8b3p-a1-m1-cBBB 8b3p-a1-m1-cAAA_8b3p-a1-m1-cEEE 8b3p-a1-m1-cBBB_8b3p-a1-m1-cCCC 8b3p-a1-m1-cCCC_8b3p-a1-m1-cDDD DFDTIYQAMIQISVVLCFALGIIAGGQR DFDTIYQAMIQISVVLCFALGIIAGGQR 8b3p-a1-m1-crrr_8b3p-a1-m1-czzz CryoEM structure of the round tip (proteins pVII/pVIII/pIX) from the f1 filamentous bacteriophage P69540 P69540 2.81 ELECTRON MICROSCOPY 36 1.0 10863 (Enterobacteria phage f1) 10863 (Enterobacteria phage f1) 46 46 8b3o-a1-m1-caaa_8b3o-a1-m1-cVVV 8b3o-a1-m1-cbbb_8b3o-a1-m1-cWWW 8b3o-a1-m1-cccc_8b3o-a1-m1-cXXX 8b3o-a1-m1-cddd_8b3o-a1-m1-cYYY 8b3o-a1-m1-ceee_8b3o-a1-m1-ckkk 8b3o-a1-m1-cfff_8b3o-a1-m1-clll 8b3o-a1-m1-cggg_8b3o-a1-m1-cmmm 8b3o-a1-m1-chhh_8b3o-a1-m1-cnnn 8b3o-a1-m1-ciii_8b3o-a1-m1-cjjj 8b3o-a1-m1-cjjj_8b3o-a1-m1-cooo 8b3o-a1-m1-cKKK_8b3o-a1-m1-cddd 8b3o-a1-m1-ckkk_8b3o-a1-m1-cppp 8b3o-a1-m1-clll_8b3o-a1-m1-cqqq 8b3o-a1-m1-cLLL_8b3o-a1-m1-cZZZ 8b3o-a1-m1-cMMM_8b3o-a1-m1-caaa 8b3o-a1-m1-cmmm_8b3o-a1-m1-crrr 8b3o-a1-m1-cNNN_8b3o-a1-m1-cbbb 8b3o-a1-m1-cnnn_8b3o-a1-m1-csss 8b3o-a1-m1-cOOO_8b3o-a1-m1-cccc 8b3o-a1-m1-cPPP_8b3o-a1-m1-cKKK 8b3o-a1-m1-cQQQ_8b3o-a1-m1-cLLL 8b3o-a1-m1-cRRR_8b3o-a1-m1-cMMM 8b3o-a1-m1-cSSS_8b3o-a1-m1-cNNN 8b3o-a1-m1-cTTT_8b3o-a1-m1-cOOO 8b3o-a1-m1-cUUU_8b3o-a1-m1-csss 8b3o-a1-m1-cVVV_8b3o-a1-m1-cooo 8b3o-a1-m1-cWWW_8b3o-a1-m1-cppp 8b3o-a1-m1-cXXX_8b3o-a1-m1-cqqq 8b3o-a1-m1-cYYY_8b3o-a1-m1-crrr 8b3o-a1-m1-cZZZ_8b3o-a1-m1-cUUU 8b3p-a1-m1-c111_8b3p-a1-m1-cmmm 8b3p-a1-m1-c111_8b3p-a1-m1-cqqq 8b3p-a1-m1-c222_8b3p-a1-m1-clll 8b3p-a1-m1-c222_8b3p-a1-m1-cppp 8b3p-a1-m1-c333_8b3p-a1-m1-cjjj 8b3p-a1-m1-c333_8b3p-a1-m1-csss 8b3p-a1-m1-caaa_8b3p-a1-m1-cfff 8b3p-a1-m1-cbbb_8b3p-a1-m1-cggg 8b3p-a1-m1-cccc_8b3p-a1-m1-chhh 8b3p-a1-m1-cddd_8b3p-a1-m1-ciii 8b3p-a1-m1-ceee_8b3p-a1-m1-cttt 8b3p-a1-m1-cfff_8b3p-a1-m1-cuuu 8b3p-a1-m1-cggg_8b3p-a1-m1-cvvv 8b3p-a1-m1-chhh_8b3p-a1-m1-cwww 8b3p-a1-m1-ciii_8b3p-a1-m1-cxxx 8b3p-a1-m1-cjjj_8b3p-a1-m1-cuuu 8b3p-a1-m1-cKKK_8b3p-a1-m1-cTTT 8b3p-a1-m1-ckkk_8b3p-a1-m1-cvvv 8b3p-a1-m1-ckkk_8b3p-a1-m1-cyyy 8b3p-a1-m1-cLLL_8b3p-a1-m1-cPPP 8b3p-a1-m1-clll_8b3p-a1-m1-cwww 8b3p-a1-m1-cMMM_8b3p-a1-m1-cQQQ 8b3p-a1-m1-cmmm_8b3p-a1-m1-cxxx 8b3p-a1-m1-cNNN_8b3p-a1-m1-cRRR 8b3p-a1-m1-cnnn_8b3p-a1-m1-cttt 8b3p-a1-m1-cnnn_8b3p-a1-m1-czzz 8b3p-a1-m1-cOOO_8b3p-a1-m1-cSSS 8b3p-a1-m1-cooo_8b3p-a1-m1-cyyy 8b3p-a1-m1-cPPP_8b3p-a1-m1-cUUU 8b3p-a1-m1-cQQQ_8b3p-a1-m1-cVVV 8b3p-a1-m1-cRRR_8b3p-a1-m1-cWWW 8b3p-a1-m1-cSSS_8b3p-a1-m1-cXXX 8b3p-a1-m1-cTTT_8b3p-a1-m1-cYYY 8b3p-a1-m1-cUUU_8b3p-a1-m1-cddd 8b3p-a1-m1-cVVV_8b3p-a1-m1-cZZZ 8b3p-a1-m1-cWWW_8b3p-a1-m1-caaa 8b3p-a1-m1-cXXX_8b3p-a1-m1-cbbb 8b3p-a1-m1-cYYY_8b3p-a1-m1-cccc 8b3p-a1-m1-cZZZ_8b3p-a1-m1-ceee 8b3q-a1-m1-cAAA_8b3q-a1-m1-cAaA 8b3q-a1-m1-cAaA_8b3q-a1-m1-cAbA 8b3q-a1-m1-cAAA_8b3q-a1-m1-cAhA 8b3q-a1-m1-cAbA_8b3q-a1-m1-cAcA 8b3q-a1-m1-cAcA_8b3q-a1-m1-cAdA 8b3q-a1-m1-cAdA_8b3q-a1-m1-cAeA 8b3q-a1-m1-cAeA_8b3q-a1-m1-cAfA 8b3q-a1-m1-cAgA_8b3q-a1-m1-cAfA 8b3q-a1-m1-cAhA_8b3q-a1-m1-cAiA 8b3q-a1-m1-cAiA_8b3q-a1-m1-cAjA 8b3q-a1-m1-cAjA_8b3q-a1-m1-cAkA 8b3q-a1-m1-cAkA_8b3q-a1-m1-cAlA 8b3q-a1-m1-cAlA_8b3q-a1-m1-cAmA 8b3q-a1-m1-cAmA_8b3q-a1-m1-cAnA 8b3q-a1-m1-cBaB_8b3q-a1-m1-cBbB 8b3q-a1-m1-cBBB_8b3q-a1-m1-cBaB 8b3q-a1-m1-cBbB_8b3q-a1-m1-cBcB 8b3q-a1-m1-cBBB_8b3q-a1-m1-cBhB 8b3q-a1-m1-cBcB_8b3q-a1-m1-cBdB 8b3q-a1-m1-cBdB_8b3q-a1-m1-cBeB 8b3q-a1-m1-cBeB_8b3q-a1-m1-cBfB 8b3q-a1-m1-cBgB_8b3q-a1-m1-cBfB 8b3q-a1-m1-cBhB_8b3q-a1-m1-cBiB 8b3q-a1-m1-cBiB_8b3q-a1-m1-cBjB 8b3q-a1-m1-cBjB_8b3q-a1-m1-cBkB 8b3q-a1-m1-cBkB_8b3q-a1-m1-cBlB 8b3q-a1-m1-cBlB_8b3q-a1-m1-cBmB 8b3q-a1-m1-cBmB_8b3q-a1-m1-cBnB 8b3q-a1-m1-cCaC_8b3q-a1-m1-cCbC 8b3q-a1-m1-cCbC_8b3q-a1-m1-cCcC 8b3q-a1-m1-cCCC_8b3q-a1-m1-cCaC 8b3q-a1-m1-cCcC_8b3q-a1-m1-cCdC 8b3q-a1-m1-cCCC_8b3q-a1-m1-cChC 8b3q-a1-m1-cCdC_8b3q-a1-m1-cCeC 8b3q-a1-m1-cCeC_8b3q-a1-m1-cCfC 8b3q-a1-m1-cCgC_8b3q-a1-m1-cCfC 8b3q-a1-m1-cChC_8b3q-a1-m1-cCiC 8b3q-a1-m1-cCiC_8b3q-a1-m1-cCjC 8b3q-a1-m1-cCjC_8b3q-a1-m1-cCkC 8b3q-a1-m1-cCkC_8b3q-a1-m1-cClC 8b3q-a1-m1-cClC_8b3q-a1-m1-cCmC 8b3q-a1-m1-cCmC_8b3q-a1-m1-cCnC 8b3q-a1-m1-cDaD_8b3q-a1-m1-cDbD 8b3q-a1-m1-cDbD_8b3q-a1-m1-cDcD 8b3q-a1-m1-cDcD_8b3q-a1-m1-cDdD 8b3q-a1-m1-cDDD_8b3q-a1-m1-cDaD 8b3q-a1-m1-cDdD_8b3q-a1-m1-cDeD 8b3q-a1-m1-cDDD_8b3q-a1-m1-cDhD 8b3q-a1-m1-cDeD_8b3q-a1-m1-cDfD 8b3q-a1-m1-cDgD_8b3q-a1-m1-cDfD 8b3q-a1-m1-cDhD_8b3q-a1-m1-cDiD 8b3q-a1-m1-cDiD_8b3q-a1-m1-cDjD 8b3q-a1-m1-cDjD_8b3q-a1-m1-cDkD 8b3q-a1-m1-cDkD_8b3q-a1-m1-cDlD 8b3q-a1-m1-cDlD_8b3q-a1-m1-cDmD 8b3q-a1-m1-cDmD_8b3q-a1-m1-cDnD 8b3q-a1-m1-cEaE_8b3q-a1-m1-cEbE 8b3q-a1-m1-cEbE_8b3q-a1-m1-cEcE 8b3q-a1-m1-cEcE_8b3q-a1-m1-cEdE 8b3q-a1-m1-cEdE_8b3q-a1-m1-cEeE 8b3q-a1-m1-cEEE_8b3q-a1-m1-cEaE 8b3q-a1-m1-cEeE_8b3q-a1-m1-cEfE 8b3q-a1-m1-cEEE_8b3q-a1-m1-cEhE 8b3q-a1-m1-cEgE_8b3q-a1-m1-cEfE 8b3q-a1-m1-cEhE_8b3q-a1-m1-cEiE 8b3q-a1-m1-cEiE_8b3q-a1-m1-cEjE 8b3q-a1-m1-cEjE_8b3q-a1-m1-cEkE 8b3q-a1-m1-cEkE_8b3q-a1-m1-cElE 8b3q-a1-m1-cElE_8b3q-a1-m1-cEmE 8b3q-a1-m1-cEmE_8b3q-a1-m1-cEnE DPAKAAFDSLQASATEMIGYAWAMVVVIVGATIGIKLFKKFTSKAS DPAKAAFDSLQASATEMIGYAWAMVVVIVGATIGIKLFKKFTSKAS 8b3q-a1-m1-cAiA_8b3q-a1-m1-cEkE CryoEM structure of the central filamentous region of the f1 filamentous bacteriophage, consisting of the major capsid protein pVIII P69540 P69540 2.58 ELECTRON MICROSCOPY 33 1.0 10863 (Enterobacteria phage f1) 10863 (Enterobacteria phage f1) 46 46 8b3o-a1-m1-caaa_8b3o-a1-m1-cppp 8b3o-a1-m1-cbbb_8b3o-a1-m1-cqqq 8b3o-a1-m1-cccc_8b3o-a1-m1-crrr 8b3o-a1-m1-cddd_8b3o-a1-m1-csss 8b3o-a1-m1-ceee_8b3o-a1-m1-cooo 8b3o-a1-m1-cfff_8b3o-a1-m1-cppp 8b3o-a1-m1-cggg_8b3o-a1-m1-cqqq 8b3o-a1-m1-chhh_8b3o-a1-m1-crrr 8b3o-a1-m1-ciii_8b3o-a1-m1-csss 8b3o-a1-m1-cKKK_8b3o-a1-m1-cUUU 8b3o-a1-m1-cLLL_8b3o-a1-m1-cVVV 8b3o-a1-m1-cMMM_8b3o-a1-m1-cWWW 8b3o-a1-m1-cNNN_8b3o-a1-m1-cXXX 8b3o-a1-m1-cOOO_8b3o-a1-m1-cYYY 8b3o-a1-m1-cPPP_8b3o-a1-m1-cZZZ 8b3o-a1-m1-cQQQ_8b3o-a1-m1-caaa 8b3o-a1-m1-cRRR_8b3o-a1-m1-cbbb 8b3o-a1-m1-cSSS_8b3o-a1-m1-cccc 8b3o-a1-m1-cTTT_8b3o-a1-m1-cddd 8b3o-a1-m1-cUUU_8b3o-a1-m1-cjjj 8b3o-a1-m1-cVVV_8b3o-a1-m1-ckkk 8b3o-a1-m1-cWWW_8b3o-a1-m1-clll 8b3o-a1-m1-cXXX_8b3o-a1-m1-cmmm 8b3o-a1-m1-cYYY_8b3o-a1-m1-cnnn 8b3o-a1-m1-cZZZ_8b3o-a1-m1-cooo 8b3p-a1-m1-c111_8b3p-a1-m1-cwww 8b3p-a1-m1-c222_8b3p-a1-m1-cvvv 8b3p-a1-m1-c333_8b3p-a1-m1-cttt 8b3p-a1-m1-caaa_8b3p-a1-m1-cvvv 8b3p-a1-m1-cbbb_8b3p-a1-m1-cwww 8b3p-a1-m1-cccc_8b3p-a1-m1-cxxx 8b3p-a1-m1-cddd_8b3p-a1-m1-cttt 8b3p-a1-m1-ceee_8b3p-a1-m1-cjjj 8b3p-a1-m1-cfff_8b3p-a1-m1-ckkk 8b3p-a1-m1-cggg_8b3p-a1-m1-clll 8b3p-a1-m1-chhh_8b3p-a1-m1-cmmm 8b3p-a1-m1-ciii_8b3p-a1-m1-cnnn 8b3p-a1-m1-cjjj_8b3p-a1-m1-cooo 8b3p-a1-m1-ckkk_8b3p-a1-m1-cppp 8b3p-a1-m1-cKKK_8b3p-a1-m1-cUUU 8b3p-a1-m1-clll_8b3p-a1-m1-cqqq 8b3p-a1-m1-cLLL_8b3p-a1-m1-cVVV 8b3p-a1-m1-cmmm_8b3p-a1-m1-crrr 8b3p-a1-m1-cMMM_8b3p-a1-m1-cWWW 8b3p-a1-m1-cnnn_8b3p-a1-m1-csss 8b3p-a1-m1-cNNN_8b3p-a1-m1-cXXX 8b3p-a1-m1-cOOO_8b3p-a1-m1-cYYY 8b3p-a1-m1-cPPP_8b3p-a1-m1-cZZZ 8b3p-a1-m1-cQQQ_8b3p-a1-m1-caaa 8b3p-a1-m1-cRRR_8b3p-a1-m1-cbbb 8b3p-a1-m1-cSSS_8b3p-a1-m1-cccc 8b3p-a1-m1-cTTT_8b3p-a1-m1-cddd 8b3p-a1-m1-cUUU_8b3p-a1-m1-ceee 8b3p-a1-m1-cuuu_8b3p-a1-m1-cyyy 8b3p-a1-m1-cVVV_8b3p-a1-m1-cfff 8b3p-a1-m1-cWWW_8b3p-a1-m1-cggg 8b3p-a1-m1-cXXX_8b3p-a1-m1-chhh 8b3p-a1-m1-cxxx_8b3p-a1-m1-czzz 8b3p-a1-m1-cYYY_8b3p-a1-m1-ciii 8b3p-a1-m1-cZZZ_8b3p-a1-m1-cuuu 8b3q-a1-m1-cAAA_8b3q-a1-m1-cBbB 8b3q-a1-m1-cAaA_8b3q-a1-m1-cBcB 8b3q-a1-m1-cAaA_8b3q-a1-m1-cEhE 8b3q-a1-m1-cAAA_8b3q-a1-m1-cEiE 8b3q-a1-m1-cAbA_8b3q-a1-m1-cBdB 8b3q-a1-m1-cAbA_8b3q-a1-m1-cEEE 8b3q-a1-m1-cAcA_8b3q-a1-m1-cBeB 8b3q-a1-m1-cAcA_8b3q-a1-m1-cEaE 8b3q-a1-m1-cAdA_8b3q-a1-m1-cBfB 8b3q-a1-m1-cAdA_8b3q-a1-m1-cEbE 8b3q-a1-m1-cAeA_8b3q-a1-m1-cEcE 8b3q-a1-m1-cAfA_8b3q-a1-m1-cEdE 8b3q-a1-m1-cAgA_8b3q-a1-m1-cEeE 8b3q-a1-m1-cAhA_8b3q-a1-m1-cBaB 8b3q-a1-m1-cAhA_8b3q-a1-m1-cEjE 8b3q-a1-m1-cAiA_8b3q-a1-m1-cBBB 8b3q-a1-m1-cAjA_8b3q-a1-m1-cBhB 8b3q-a1-m1-cAjA_8b3q-a1-m1-cElE 8b3q-a1-m1-cAkA_8b3q-a1-m1-cBiB 8b3q-a1-m1-cAkA_8b3q-a1-m1-cEmE 8b3q-a1-m1-cAlA_8b3q-a1-m1-cBjB 8b3q-a1-m1-cAlA_8b3q-a1-m1-cEnE 8b3q-a1-m1-cAmA_8b3q-a1-m1-cBkB 8b3q-a1-m1-cAnA_8b3q-a1-m1-cBlB 8b3q-a1-m1-cBaB_8b3q-a1-m1-cCcC 8b3q-a1-m1-cBBB_8b3q-a1-m1-cCbC 8b3q-a1-m1-cBbB_8b3q-a1-m1-cCdC 8b3q-a1-m1-cBcB_8b3q-a1-m1-cCeC 8b3q-a1-m1-cBdB_8b3q-a1-m1-cCfC 8b3q-a1-m1-cBgB_8b3q-a1-m1-cAeA 8b3q-a1-m1-cBhB_8b3q-a1-m1-cCaC 8b3q-a1-m1-cBiB_8b3q-a1-m1-cCCC 8b3q-a1-m1-cBjB_8b3q-a1-m1-cChC 8b3q-a1-m1-cBkB_8b3q-a1-m1-cCiC 8b3q-a1-m1-cBlB_8b3q-a1-m1-cCjC 8b3q-a1-m1-cBmB_8b3q-a1-m1-cCkC 8b3q-a1-m1-cBnB_8b3q-a1-m1-cClC 8b3q-a1-m1-cCaC_8b3q-a1-m1-cDcD 8b3q-a1-m1-cCbC_8b3q-a1-m1-cDdD 8b3q-a1-m1-cCCC_8b3q-a1-m1-cDbD 8b3q-a1-m1-cCcC_8b3q-a1-m1-cDeD 8b3q-a1-m1-cCdC_8b3q-a1-m1-cDfD 8b3q-a1-m1-cCgC_8b3q-a1-m1-cBeB 8b3q-a1-m1-cChC_8b3q-a1-m1-cDaD 8b3q-a1-m1-cCiC_8b3q-a1-m1-cDDD 8b3q-a1-m1-cCjC_8b3q-a1-m1-cDhD 8b3q-a1-m1-cCkC_8b3q-a1-m1-cDiD 8b3q-a1-m1-cClC_8b3q-a1-m1-cDjD 8b3q-a1-m1-cCmC_8b3q-a1-m1-cDkD 8b3q-a1-m1-cCnC_8b3q-a1-m1-cDlD 8b3q-a1-m1-cDaD_8b3q-a1-m1-cEcE 8b3q-a1-m1-cDbD_8b3q-a1-m1-cEdE 8b3q-a1-m1-cDcD_8b3q-a1-m1-cEeE 8b3q-a1-m1-cDDD_8b3q-a1-m1-cEbE 8b3q-a1-m1-cDdD_8b3q-a1-m1-cEfE 8b3q-a1-m1-cDgD_8b3q-a1-m1-cCeC 8b3q-a1-m1-cDhD_8b3q-a1-m1-cEaE 8b3q-a1-m1-cDiD_8b3q-a1-m1-cEEE 8b3q-a1-m1-cDjD_8b3q-a1-m1-cEhE 8b3q-a1-m1-cDkD_8b3q-a1-m1-cEiE 8b3q-a1-m1-cDlD_8b3q-a1-m1-cEjE 8b3q-a1-m1-cDmD_8b3q-a1-m1-cEkE 8b3q-a1-m1-cDnD_8b3q-a1-m1-cElE 8b3q-a1-m1-cEgE_8b3q-a1-m1-cDeD DPAKAAFDSLQASATEMIGYAWAMVVVIVGATIGIKLFKKFTSKAS DPAKAAFDSLQASATEMIGYAWAMVVVIVGATIGIKLFKKFTSKAS 8b3w-a1-m2-cA_8b3w-a1-m3-cA Structure of metacyclic VSG (mVSG) 1954 from Trypanosoma brucei M4T0T6 M4T0T6 1.681 X-RAY DIFFRACTION 125 1.0 5702 (Trypanosoma brucei brucei) 5702 (Trypanosoma brucei brucei) 353 353 8b3w-a1-m1-cA_8b3w-a1-m2-cA 8b3w-a1-m1-cA_8b3w-a1-m3-cA ADVAAGSNAESYAVLCTLVQLTKATKPSVPKSKIIDEVYNVAAAIGLAIRGDAVVKNCIDKKDSKYSDSDIAKKAYTERTWPVAQAGAAKLASKEKYASWTRKYTEKQKLKVHVLTAAISDVKQRADKLNKPDKLAELTGALSNSLYGNGKSNADTATLPAGGSHISMCGPADGTQGGSIVGKALKFDLICLCGKQSADSGTGEKACHEFSPLPATAIAENAAINADWATIEQGCKTVAGAPSLTPESIHAALQAFYRHAGVPKGNTRNRYTTVGAPAGSGATGCDGIGGSNGGKCAAYNKAQFEAGTGPYWATQMKAAAETLVELRGQEQKLAALEAEALALNSTLDGMQHD ADVAAGSNAESYAVLCTLVQLTKATKPSVPKSKIIDEVYNVAAAIGLAIRGDAVVKNCIDKKDSKYSDSDIAKKAYTERTWPVAQAGAAKLASKEKYASWTRKYTEKQKLKVHVLTAAISDVKQRADKLNKPDKLAELTGALSNSLYGNGKSNADTATLPAGGSHISMCGPADGTQGGSIVGKALKFDLICLCGKQSADSGTGEKACHEFSPLPATAIAENAAINADWATIEQGCKTVAGAPSLTPESIHAALQAFYRHAGVPKGNTRNRYTTVGAPAGSGATGCDGIGGSNGGKCAAYNKAQFEAGTGPYWATQMKAAAETLVELRGQEQKLAALEAEALALNSTLDGMQHD 8b41-a1-m1-cF_8b41-a1-m1-cE Structure of heteromeric LRRC8A/C (1:1 co-transfected) Volume-Regulated Anion Channel in complex with synthetic nanobody Sb1 Q8R502 Q8R502 3.8 ELECTRON MICROSCOPY 65 1.0 10090 (Mus musculus) 10090 (Mus musculus) 195 254 AFRVLKPWWDVFTDYLSVAMLMIGVFGCTLQVMQDKIICLPKRVEMKGLKTDLDLQQYSFINQMCYERALHWYAKYFPYLVLIHTLVFMLCSNFWFKFPGSSSKIEGDILYAMYVRQTVLKVIKFLIIIAYNSALVSKVQFTVDCNVDIQDMTGYKNFSCNHTMAHLFSKLSFCYLCFVSIYGLTCLYTLYWLFY AFRVLKPWWDVFTDYLSVAMLMIGVFGCTLQVMQDKIICLPKRVEMKGLKTDLDLQQYSFINQMCYERALHWYAKYFPYLVLIHTLVFMLCSNFWFKFPGSSSKIEHFISILGKCFDSKVKKFRLHVEEGDILYAMYVRQTVLKVIKFLIIIAYNSALVSKVQFTVDCNVDIQDMTGYKNFSCNHTMAHLFSKLSFCYLCFVSIYGLTCLYTLYWLFYRSLREYDVKNDFAFMLHMIDQYDPLYSKRFAVFLSE 8b4a-a1-m1-cB_8b4a-a1-m1-cA Nativ complex of PqsE and RhlR with autoinducer C4-HSL P20581 P20581 3.06 X-RAY DIFFRACTION 50 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 301 304 2vw8-a1-m1-cA_2vw8-a1-m2-cA 7r3e-a1-m1-cB_7r3e-a1-m1-cA 7r3j-a1-m1-cB_7r3j-a1-m1-cA 8dq0-a1-m1-cA_8dq0-a1-m1-cB 8dq1-a1-m1-cA_8dq1-a1-m1-cB MLRLSAPGQLDDDLCLLGDVQVPVFLLRLGEASWALVEGGISRDAELVWADLCRWVADPSQVHYWLITHKHYDHCGLLPYLCPRLPNVQVLASERTCQAWKSESAVRVVERLNRQLLRAEQRLPEACAWDALPVRAVADGEWLELGPRHRLQVIEAHGHSDDHVVFYDVRRRRLFCGDALGEFDEAEGVWRPLVFDDMEAYLESLERLQRLPTLLQLIPGHGGLLRGRLAADGAESAYTECLRLCRRLLWRQSMGESLDELSEELHRAWGGQSVDFLPGELHLGSMRRMLEILSRQALPLD QGHMLRLSAPGQLDDDLCLLGDVQVPVFLLRLGEASWALVEGGISRDAELVWADLCRWVADPSQVHYWLITHKHYDHCGLLPYLCPRLPNVQVLASERTCQAWKSESAVRVVERLNRQLLRAEQRLPEACAWDALPVRAVADGEWLELGPRHRLQVIEAHGHSDDHVVFYDVRRRRLFCGDALGEFDEAEGVWRPLVFDDMEAYLESLERLQRLPTLLQLIPGHGGLLRGRLAADGAESAYTECLRLCRRLLWRQSMGESLDELSEELHRAWGGQSVDFLPGELHLGSMRRMLEILSRQALPLD 8b4a-a1-m1-cD_8b4a-a1-m1-cC Nativ complex of PqsE and RhlR with autoinducer C4-HSL P54292 P54292 3.06 X-RAY DIFFRACTION 139 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 239 241 7r3j-a1-m1-cD_7r3j-a1-m1-cC 8dq0-a1-m1-cD_8dq0-a1-m1-cC 8dq1-a1-m1-cD_8dq1-a1-m1-cC NDGGFLLWWDGLRSEMQPIHDSQGVFAVLEKEVRRLGFDYYAYGVRHTIPFTRPKTEVHGTYPKAWLERYQMQNYGAVDPAILNGLRSSEMVVWSDSLFDQSRMLWNEARDWGLCVGATLPIRAPNNLLSVLSVARDQQNISSFEREEIRLRLRCMIELLTQKLTDLEHPMLMSNPVCLSHREREILQWTADGKSSGEIAIILSISESTVNFHHKNIQKKFDAPNKTLAAAYAAALGLI MRNDGGFLLWWDGLRSEMQPIHDSQGVFAVLEKEVRRLGFDYYAYGVRHTIPFTRPKTEVHGTYPKAWLERYQMQNYGAVDPAILNGLRSSEMVVWSDSLFDQSRMLWNEARDWGLCVGATLPIRAPNNLLSVLSVARDQQNISSFEREEIRLRLRCMIELLTQKLTDLEHPMLMSNPVCLSHREREILQWTADGKSSGEIAIILSISESTVNFHHKNIQKKFDAPNKTLAAAYAAALGLI 8b4h-a1-m1-cA_8b4h-a1-m1-cB IstA transposase cleaved donor complex Q45618 Q45618 3.35 ELECTRON MICROSCOPY 34 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 358 358 MITRGEFFMIKEMYERGMSISDIARELGIDRKTVRKYIHSPNPPSKSKRKQRKSKLDPFKPYLQKRMLEDGVFNSEKLFFEIRQQGYTGGKTILKDYMKPFRETAKKKYTVRYETLPGEQMQVDWKEVGEVVIEGKKVKLSLFVATLGYSRMKYAVFTTSQDQEHLMECLIQSFKYFGGVPKKVLFDNMKTVTDGREQGVVKWNQRFSEFASYYGFIPKVCRPYRAQTKGKVERAIQYIMDHFYVGTAFESIEELNFLLHRWLDQVANRKPNATTGISPQERWAEESLKPLPLKDYDTSYLSYRKVHWDGSFSYKGEQWLLSAEYAGKEILVKERLNGDIRLYFRGEEISHVDQQKKV MITRGEFFMIKEMYERGMSISDIARELGIDRKTVRKYIHSPNPPSKSKRKQRKSKLDPFKPYLQKRMLEDGVFNSEKLFFEIRQQGYTGGKTILKDYMKPFRETAKKKYTVRYETLPGEQMQVDWKEVGEVVIEGKKVKLSLFVATLGYSRMKYAVFTTSQDQEHLMECLIQSFKYFGGVPKKVLFDNMKTVTDGREQGVVKWNQRFSEFASYYGFIPKVCRPYRAQTKGKVERAIQYIMDHFYVGTAFESIEELNFLLHRWLDQVANRKPNATTGISPQERWAEESLKPLPLKDYDTSYLSYRKVHWDGSFSYKGEQWLLSAEYAGKEILVKERLNGDIRLYFRGEEISHVDQQKKV 8b4h-a1-m1-cC_8b4h-a1-m1-cD IstA transposase cleaved donor complex Q45618 Q45618 3.35 ELECTRON MICROSCOPY 32 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 362 362 MITRGEFFMIKEMYERGMSISDIARELGIDRKTVRKYIHSPNPPSKSKRKQRKSKLDPFKPYLQKRMLEDGVFNSEKLFFEIRQQGYTGGKTILKDYMKPFRETAKKKYTVRYETLPGEQMQVDWKEVGEVVIEGKKVKLSLFVATLGYSRMKYAVFTTSQDQEHLMECLIQSFKYFGGVPKKVLFDNMKTVTDGREQGVVKWNQRFSEFASYYGFIPKVCRRAIQYIMDHFYVGTAFESIEELNFLLHRWLDQVANRKPNATTGISPQERWAEESLKPLPLKDYDTSYLSYRKVHWDGSFSYKGEQWLLSAEYAGKEILVKERLNGDIRLYFRGEEISHVDQQKKVISFAEKIKKKQTEMA MITRGEFFMIKEMYERGMSISDIARELGIDRKTVRKYIHSPNPPSKSKRKQRKSKLDPFKPYLQKRMLEDGVFNSEKLFFEIRQQGYTGGKTILKDYMKPFRETAKKKYTVRYETLPGEQMQVDWKEVGEVVIEGKKVKLSLFVATLGYSRMKYAVFTTSQDQEHLMECLIQSFKYFGGVPKKVLFDNMKTVTDGREQGVVKWNQRFSEFASYYGFIPKVCRRAIQYIMDHFYVGTAFESIEELNFLLHRWLDQVANRKPNATTGISPQERWAEESLKPLPLKDYDTSYLSYRKVHWDGSFSYKGEQWLLSAEYAGKEILVKERLNGDIRLYFRGEEISHVDQQKKVISFAEKIKKKQTEMA 8b55-a1-m1-cA_8b55-a1-m2-cA Human ADGRG4 PTX-like domain Q8IZF6 Q8IZF6 1.36 X-RAY DIFFRACTION 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 193 193 LSLKGKKLDFFGRGDTYVSLIDTIPELSRFTACIDLVFMDDNSRYWMAFSYITNNALLGREDIDLGLAGDHQQLILYRLGKTFSIRHHLASFQWHTICLIWDGVKGKLELFLNKERILEVTDQPHNLTPHGTLFLGHRSFPGSLYYFQLWDHILENEEFMKCLDGNIVSWEEDVWLVNKIIPTVDRTLRCFVP LSLKGKKLDFFGRGDTYVSLIDTIPELSRFTACIDLVFMDDNSRYWMAFSYITNNALLGREDIDLGLAGDHQQLILYRLGKTFSIRHHLASFQWHTICLIWDGVKGKLELFLNKERILEVTDQPHNLTPHGTLFLGHRSFPGSLYYFQLWDHILENEEFMKCLDGNIVSWEEDVWLVNKIIPTVDRTLRCFVP 8b5a-a1-m1-cA_8b5a-a1-m2-cA Human BRD3 bromodomain 2 in complex with a H4 peptide containing ApmTri (H4K20ApmTri) Q15059 Q15059 1.92 X-RAY DIFFRACTION 18 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 110 110 KLSEHLRYCDSILREMLSKKHAAYAWPFYKPVDAEALELHDYHDIIKHPMDLSTVKRKMDGREYPDAQGFAADVRLMFSNCYKYNPPDHEVVAMARKLQDVFEMRFAKMP KLSEHLRYCDSILREMLSKKHAAYAWPFYKPVDAEALELHDYHDIIKHPMDLSTVKRKMDGREYPDAQGFAADVRLMFSNCYKYNPPDHEVVAMARKLQDVFEMRFAKMP 8b5t-a2-m1-cC_8b5t-a2-m1-cB Crystal structure of Quinonoid dihydropteridine reductase from Leishmania major Q4Q290 Q4Q290 2.1 X-RAY DIFFRACTION 146 1.0 5664 (Leishmania major) 5664 (Leishmania major) 221 230 8b5t-a1-m1-cA_8b5t-a1-m2-cA 8b5u-a1-m1-cA_8b5u-a1-m2-cA MKNVLLIGARGALGRAVANAFANGKWSIISVDQACCAVNPASSIEELQQAYKSAVTGLKVDAVINVAGGWAGGSVADASTAASTELMLRQSLFSSVAAAHVFSTQGEKNGLLLLTGAAAAVSPTPGMIGYGTAKSAVHFLCQSIAEDPSVLPTDASVLAILPTILDTPGNRSAMPHADRSTWTSLEDVAQQIVEWSNGSRRPASGSLVKIVTENSKTRFIV HMKNVLLIGARGALGRAVANAFANGKWSIISVDQAAAVQQGDECCAVNPASSIEELQQAYKSAVTGLKVDAVINVAGGWAGGSVADASTAASTELMLRQSLFSSVAAAHVFSTQGEKNGLLLLTGAAAAVSPTPGMIGYGTAKSAVHFLCQSIAEDPSVLPTDASVLAILPTILDTPGNRSAMPHADRSTWTSLEDVAQQIVEWSNGSRRPASGSLVKIVTENSKTRFIV 8b5v-a1-m1-cB_8b5v-a1-m1-cA Crystal Structure of Trypanosoma Cruzi phosphomannosemutase Q4E4A3 Q4E4A3 1.6 X-RAY DIFFRACTION 76 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 243 244 KKVLLLFDIDGTLTPPRLSQPDEVREVIRRAKSAGFTVGTVGGSDLAKQIEQLGEDVFQQFDYVFAENGLLAYKHGKEIHRQNLLKELGNERIVKFVRRALRLLSELDIPVQRGTFIEYRNGMINVCPIGRNCTQSERDEFEVYDKEHHVREKLIKELQNSFPDYGLKYSIGGQISFDVFPVGWDKSYCLRFVENDFDEIHFFGDKTHAGGNDYEIYTDKRIIGHAVKSYKDTVDEVNKLISS MKKVLLLFDIDGTLTPPRLSQPDEVREVIRRAKSAGFTVGTVGGSDLAKQIEQLGEDVFQQFDYVFAENGLLAYKHGKEIHRQNLLKELGNERIVKFVRRALRLLSELDIPVQRGTFIEYRNGMINVCPIGRNCTQSERDEFEVYDKEHHVREKLIKELQNSFPDYGLKYSIGGQISFDVFPVGWDKSYCLRFVENDFDEIHFFGDKTHAGGNDYEIYTDKRIIGHAVKSYKDTVDEVNKLISS 8b6h-a1-m1-cDT_8b6h-a1-m1-cDt Cryo-EM structure of cytochrome c oxidase dimer (complex IV) from respiratory supercomplex of Tetrahymena thermophila Q23DZ5 Q23DZ5 2.6 ELECTRON MICROSCOPY 14 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 293 293 RAGPYNPNRYKDYYIPRTLPKNEEIVEFVQSQHSVPASPIRNQRHINPVRESGPLPSYDGTYTMEDIRAVFYNTTVGRDYCYCQMDPEEIMRRVPGITRKEAEFITKLGLSPQEQVDFAYIAYNIGLDIFYFTNQMFVARQVVTNSKGEKVEVLWNAQCYEDIAQLNVGFAPVLESVDYHWEIFLWADPPIKPNNDFDLNVPCTWFEYEQEWWMESCIQEDQFNLPEDERPYNTPRNPHCRKELWRSQDALQEEELMVNENWYPKNTQYNIYNQPDFIKPKSGSGAAADDIRI RAGPYNPNRYKDYYIPRTLPKNEEIVEFVQSQHSVPASPIRNQRHINPVRESGPLPSYDGTYTMEDIRAVFYNTTVGRDYCYCQMDPEEIMRRVPGITRKEAEFITKLGLSPQEQVDFAYIAYNIGLDIFYFTNQMFVARQVVTNSKGEKVEVLWNAQCYEDIAQLNVGFAPVLESVDYHWEIFLWADPPIKPNNDFDLNVPCTWFEYEQEWWMESCIQEDQFNLPEDERPYNTPRNPHCRKELWRSQDALQEEELMVNENWYPKNTQYNIYNQPDFIKPKSGSGAAADDIRI 8b6j-a1-m1-cB_8b6j-a1-m1-cb Cryo-EM structure of cytochrome bc1 complex (complex-III) from respiratory supercomplex of Tetrahymena thermophila I7MJ25 I7MJ25 2.8 ELECTRON MICROSCOPY 64 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 460 460 7tgh-a1-m1-c3a_7tgh-a1-m1-c3A SVRKAFYDFIYKDDKSAETYKVTTADPRTPVQGFRGQTAEDVAAKYEVTKLANGVTIITESQTFPSQVDMGILLDVTRDETNETSGSLLSIKNTYLKTVLNTNETINYGVVQQSGGSFEMEYDQETAYFKANCLAHDATDVFSMVADCALEPRSTVAASVGVEKNQNTHKLESYLKTGELFNESVFKTAYGLKGLGLPLKGLRGNVKNLSSYTLQKFQLENITPNRIFVCAAGVESHQEFVDLVQTKLAQIPSAEGQKTHQREKSEYLGGEVRNLTEESNVTLALLFQSVPWSSADIVAFNVAAALLNNLRLKKNLLQKYAYFDQAEALNFHFTDSGLFGLRTSGSADRAKDILNHSIAELKAIASGVNADELLTAKAALKNSVLSALERQTDRLEETVKNVRTFNKIQHTDYVKQIDSVTADQVAKAVAKVLTSNPTFVAQGSQVNALPTYDAIRNLLK SVRKAFYDFIYKDDKSAETYKVTTADPRTPVQGFRGQTAEDVAAKYEVTKLANGVTIITESQTFPSQVDMGILLDVTRDETNETSGSLLSIKNTYLKTVLNTNETINYGVVQQSGGSFEMEYDQETAYFKANCLAHDATDVFSMVADCALEPRSTVAASVGVEKNQNTHKLESYLKTGELFNESVFKTAYGLKGLGLPLKGLRGNVKNLSSYTLQKFQLENITPNRIFVCAAGVESHQEFVDLVQTKLAQIPSAEGQKTHQREKSEYLGGEVRNLTEESNVTLALLFQSVPWSSADIVAFNVAAALLNNLRLKKNLLQKYAYFDQAEALNFHFTDSGLFGLRTSGSADRAKDILNHSIAELKAIASGVNADELLTAKAALKNSVLSALERQTDRLEETVKNVRTFNKIQHTDYVKQIDSVTADQVAKAVAKVLTSNPTFVAQGSQVNALPTYDAIRNLLK 8b6j-a1-m1-cC_8b6j-a1-m1-cc Cryo-EM structure of cytochrome bc1 complex (complex-III) from respiratory supercomplex of Tetrahymena thermophila Q950Z1 Q950Z1 2.8 ELECTRON MICROSCOPY 43 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 426 426 7tgh-a1-m1-c3C_7tgh-a1-m1-c3c MEWNKGTYMSTSIKKIVQYFSVMTVSFHDINSLFGFFTFLTIASQLVSGTMLAFSLVPEPMLIPMVREEEDVEDLYTDDFFWLHERGVDMLFIFSYFHLFRKIYLNNFEYEQEAAWKSGVFTFLLFQVVVFLGLVLCCTHLSDITLAIAANLYDTFFAGKGKFYWWIFTSKELNTDTIIRLAYLHYVLAFFLAYLGLIHGVDMHYDWKNESSMDGLETEMIWFDEALSNELGAMIEIILIVMIVCFFMYPEPEALSYEFFMWGDIGFINDVRFLSVAPHWYFRPFMAWLTVCPFHKIGLFGLIYYFFILFYQPVIHGTNEQNNYTKRNVAFVSFFINRSDIMTPKYHSVEDNLLHQITFWLFLCSALYVTSYLPYGRFYNRINGNYGTLWSFMYIFFYLGNSFLRRPLITELYLFNAFVKSKFLKK MEWNKGTYMSTSIKKIVQYFSVMTVSFHDINSLFGFFTFLTIASQLVSGTMLAFSLVPEPMLIPMVREEEDVEDLYTDDFFWLHERGVDMLFIFSYFHLFRKIYLNNFEYEQEAAWKSGVFTFLLFQVVVFLGLVLCCTHLSDITLAIAANLYDTFFAGKGKFYWWIFTSKELNTDTIIRLAYLHYVLAFFLAYLGLIHGVDMHYDWKNESSMDGLETEMIWFDEALSNELGAMIEIILIVMIVCFFMYPEPEALSYEFFMWGDIGFINDVRFLSVAPHWYFRPFMAWLTVCPFHKIGLFGLIYYFFILFYQPVIHGTNEQNNYTKRNVAFVSFFINRSDIMTPKYHSVEDNLLHQITFWLFLCSALYVTSYLPYGRFYNRINGNYGTLWSFMYIFFYLGNSFLRRPLITELYLFNAFVKSKFLKK 8b6j-a1-m1-cD_8b6j-a1-m1-cd Cryo-EM structure of cytochrome bc1 complex (complex-III) from respiratory supercomplex of Tetrahymena thermophila Q24IM5 Q24IM5 2.8 ELECTRON MICROSCOPY 59 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 295 295 7tgh-a1-m1-c3d_7tgh-a1-m1-c3D FIYRDDIGAFWGIKGYEELVTEVGTHKGHNYWPQFSFLGTYDSGSVRRGFQVFARNCGNCHGMIYKKYDYLLDKAYRQLELAQMVSDFTIHPAHQHFKQYYYQEWDERDRVICDHIYPPYFSQDQAKNANGGVWPTDFSKIKLRPGGINYIYNISTGYHFTPPFGMDVPKGKYFNPYFDHMIIGMPRQLVDGLVDYDDGTPASTPQMAYDVSNFINFMQRRVGYKRPDKMVRYYMVFTGGLLILPFKYFKTKAYYRNLLSLRWEMYAVRDGVYYNHFKYGGYNSRAYQFRGYFWA FIYRDDIGAFWGIKGYEELVTEVGTHKGHNYWPQFSFLGTYDSGSVRRGFQVFARNCGNCHGMIYKKYDYLLDKAYRQLELAQMVSDFTIHPAHQHFKQYYYQEWDERDRVICDHIYPPYFSQDQAKNANGGVWPTDFSKIKLRPGGINYIYNISTGYHFTPPFGMDVPKGKYFNPYFDHMIIGMPRQLVDGLVDYDDGTPASTPQMAYDVSNFINFMQRRVGYKRPDKMVRYYMVFTGGLLILPFKYFKTKAYYRNLLSLRWEMYAVRDGVYYNHFKYGGYNSRAYQFRGYFWA 8b6j-a1-m1-cH_8b6j-a1-m1-ch Cryo-EM structure of cytochrome bc1 complex (complex-III) from respiratory supercomplex of Tetrahymena thermophila I7M484 I7M484 2.8 ELECTRON MICROSCOPY 55 1.0 312017 (Tetrahymena thermophila SB210) 312017 (Tetrahymena thermophila SB210) 129 129 7tgh-a1-m1-c3h_7tgh-a1-m1-c3H MNVTGAGLTHVKDFHSDEMRVFRGGLRHIADKQGNLIYGSVNSSVRYYHDKMSYERGFIQHSRSPSNQFINFHFMLGGFRTYVLERFFKQVWYRRNIRTFWFPVLISYTSGCITMRMYDNNCYDYFYFS MNVTGAGLTHVKDFHSDEMRVFRGGLRHIADKQGNLIYGSVNSSVRYYHDKMSYERGFIQHSRSPSNQFINFHFMLGGFRTYVLERFFKQVWYRRNIRTFWFPVLISYTSGCITMRMYDNNCYDYFYFS 8b70-a1-m1-cA_8b70-a1-m1-cB KimA from B. subtilis with nucleotide second-messenger c-di-AMP bound P96589 P96589 3.3 ELECTRON MICROSCOPY 179 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 572 572 6s3k-a1-m1-cA_6s3k-a1-m1-cB 8b71-a1-m1-cA_8b71-a1-m1-cB QKLTKLKALAMLSSDALSSVAYGTEQILIILATISAAAFWYSIPIAVGVLILLLALILSYRQIIYAYPQGGGAYIVSKENLGEKPGLIAGGSLLVDYILTVAVSISAGTDAITSAFPALHDYHVPIAIFLVLVIMILNLRGLASILAYPVYLFVVALLVLIAVGLFKLMTGQGTPVAGITLFLLLKAFSSGCSALTGVEAISNAIPAFKNPPARNAARTLAMMGILLAILFSGITVLAYGYGTAPKPDETVVSQIASETFGRNVFYYVIQGVTSLILVLAANTGFSAFPQLAFNLARDQYMPRMFTVRGDRLGFSNGIIFLGFASIVLIILFGGQTEHLIPLYAVGVFIPFTLSQTGMCMKWIKQKPKGWIGKMLINSCGALISFMVLSILFVTKFNVVWPVLIFMPIVVLLFFAIKNHYTAVGEQLRIVDKEPEEIKGTVVIVPVAGVTTVVQKSIHYAKSLSDQVIAVHVSFDREQEKKFEKRWEELNNGVRLVTLHSSYRSLVHPFDKFLETVEAKAKKEQFSVMVLFPQFITKKRWHTILHNQSAFLLRVRLFWKKDIMVATLPYHFK QKLTKLKALAMLSSDALSSVAYGTEQILIILATISAAAFWYSIPIAVGVLILLLALILSYRQIIYAYPQGGGAYIVSKENLGEKPGLIAGGSLLVDYILTVAVSISAGTDAITSAFPALHDYHVPIAIFLVLVIMILNLRGLASILAYPVYLFVVALLVLIAVGLFKLMTGQGTPVAGITLFLLLKAFSSGCSALTGVEAISNAIPAFKNPPARNAARTLAMMGILLAILFSGITVLAYGYGTAPKPDETVVSQIASETFGRNVFYYVIQGVTSLILVLAANTGFSAFPQLAFNLARDQYMPRMFTVRGDRLGFSNGIIFLGFASIVLIILFGGQTEHLIPLYAVGVFIPFTLSQTGMCMKWIKQKPKGWIGKMLINSCGALISFMVLSILFVTKFNVVWPVLIFMPIVVLLFFAIKNHYTAVGEQLRIVDKEPEEIKGTVVIVPVAGVTTVVQKSIHYAKSLSDQVIAVHVSFDREQEKKFEKRWEELNNGVRLVTLHSSYRSLVHPFDKFLETVEAKAKKEQFSVMVLFPQFITKKRWHTILHNQSAFLLRVRLFWKKDIMVATLPYHFK 8b73-a1-m1-cA_8b73-a1-m1-cB Acetivibrio clariflavus beta-1,4-xylanase of Glycoside Hydrolase Family 10 (AcXyn10A). G8LZE0 G8LZE0 2.24 X-RAY DIFFRACTION 46 1.0 288965 (Acetivibrio clariflavus) 288965 (Acetivibrio clariflavus) 405 405 CLQHRMGTTTIKLVAADGSPLANKEVTVKQTKHKFLFGCAEFTSVPYANNKFEGKQKEKIEERYEKFFDLFNFVTLPFYWGKFEPVKGKPDTESLKNAAKWLQTKGVELKGHPLCWHTETAPWLLDMSNSEIFSTQIKRIHRDVTDFKGLIDMWDVINEVVIMPIFDKYDNGITRICKDMGRIKLVREVFKAARESNPNATLLINDFETSESYDILIEGLLESGVHIDAIGIQSHMHQGYWGVEKTQEILERFSRFKLPIHFTENTLVSGHLMPPEIVDLNDYQIPEWPSTPEGEERQAQEAVTHYKTLFSHPLVEAITWWDFVDGGWLKAPSGFITQDNRVKPIYHALHDLIKNQWWTKPMDLISDENGLVNVSGFLGEYEVTFDGKSKSFCLDNNNETVTISA CLQHRMGTTTIKLVAADGSPLANKEVTVKQTKHKFLFGCAEFTSVPYANNKFEGKQKEKIEERYEKFFDLFNFVTLPFYWGKFEPVKGKPDTESLKNAAKWLQTKGVELKGHPLCWHTETAPWLLDMSNSEIFSTQIKRIHRDVTDFKGLIDMWDVINEVVIMPIFDKYDNGITRICKDMGRIKLVREVFKAARESNPNATLLINDFETSESYDILIEGLLESGVHIDAIGIQSHMHQGYWGVEKTQEILERFSRFKLPIHFTENTLVSGHLMPPEIVDLNDYQIPEWPSTPEGEERQAQEAVTHYKTLFSHPLVEAITWWDFVDGGWLKAPSGFITQDNRVKPIYHALHDLIKNQWWTKPMDLISDENGLVNVSGFLGEYEVTFDGKSKSFCLDNNNETVTISA 8b7f-a1-m1-cA_8b7f-a1-m1-cB Nuclease from C. glutamicum Q8NLY3 Q8NLY3 4.6 X-RAY DIFFRACTION 101 1.0 559292 (Saccharomyces cerevisiae S288C) 559292 (Saccharomyces cerevisiae S288C) 368 368 MPLFIDDALHRSKKYFHAHLSELLLGEFAGLSLPLHPPTAAKAAADIDATREFIRQWEGRDDVEYAIRNWSPVGLGKTEVPVRLTLNTTEELVVFAQVEDEWSSLHERFSQLSGFTAEVVAKHVSLWRSLSNDDLSKAVLVVDWFLKHPNSGLLKRAVAVEGVHTKWLENHRVLIETLVADKRGEPGRADLGLGDAEARVRLRFHSVDAPAGLTDIEVPLSNLCELQEPQVILMVENLDSFLALPTWPGVTIAWGAGYRAVDIVRGPYFSNGRLLYWGDLDLDGFKILDGVRSHVPHTESVLMNSETVSRWRYLGVADREFKAESFDNLHDFESDALDLLITDGELRIEQERIRLDVAVEEIEKVIRG MPLFIDDALHRSKKYFHAHLSELLLGEFAGLSLPLHPPTAAKAAADIDATREFIRQWEGRDDVEYAIRNWSPVGLGKTEVPVRLTLNTTEELVVFAQVEDEWSSLHERFSQLSGFTAEVVAKHVSLWRSLSNDDLSKAVLVVDWFLKHPNSGLLKRAVAVEGVHTKWLENHRVLIETLVADKRGEPGRADLGLGDAEARVRLRFHSVDAPAGLTDIEVPLSNLCELQEPQVILMVENLDSFLALPTWPGVTIAWGAGYRAVDIVRGPYFSNGRLLYWGDLDLDGFKILDGVRSHVPHTESVLMNSETVSRWRYLGVADREFKAESFDNLHDFESDALDLLITDGELRIEQERIRLDVAVEEIEKVIRG 8b8b-a1-m1-cC_8b8b-a1-m1-cD Multimerization domain of Munia virus 1 phosphoprotein 2.15 X-RAY DIFFRACTION 107 0.989 1548720 (Orthobornavirus serini) 1548720 (Orthobornavirus serini) 95 97 IKQLVMELAENSMIEAEGLKGTLDEATQKIELGFESLSSLQVETIQAIQATDYADSIKTLGENIKILDRSMKSMMETMRLMMEKIDLLYASTAIG DELIKQLVMELAENSMIEAEGLKGTLDEATQKIELGFESLSSLQVETIQAIQATDYADSIKTLGENIKILDRSMKSMMETMRLMMEKIDLLYASTAI 8b8b-a1-m1-cD_8b8b-a1-m1-cA Multimerization domain of Munia virus 1 phosphoprotein 2.15 X-RAY DIFFRACTION 132 1.0 1548720 (Orthobornavirus serini) 1548720 (Orthobornavirus serini) 97 99 8b8b-a1-m1-cB_8b8b-a1-m1-cA DELIKQLVMELAENSMIEAEGLKGTLDEATQKIELGFESLSSLQVETIQAIQATDYADSIKTLGENIKILDRSMKSMMETMRLMMEKIDLLYASTAI DELIKQLVMELAENSMIEAEGLKGTLDEATQKIELGFESLSSLQVETIQAIQATDYADSIKTLGENIKILDRSMKSMMETMRLMMEKIDLLYASTAIGN 8b8d-a1-m1-cA_8b8d-a1-m1-cD multimerization domain of Gaboon Viper Virus 1 L0N429 L0N429 2.4 X-RAY DIFFRACTION 112 1.0 1889242 (Gaboon viper virus 1) 1889242 (Gaboon viper virus 1) 100 103 SSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYGKA SSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYGKAAVG 8b8d-a1-m1-cB_8b8d-a1-m1-cA multimerization domain of Gaboon Viper Virus 1 L0N429 L0N429 2.4 X-RAY DIFFRACTION 112 0.99 1889242 (Gaboon viper virus 1) 1889242 (Gaboon viper virus 1) 99 100 LSSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYG SSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYGKA 8b8d-a1-m1-cB_8b8d-a1-m1-cD multimerization domain of Gaboon Viper Virus 1 L0N429 L0N429 2.4 X-RAY DIFFRACTION 17 0.99 1889242 (Gaboon viper virus 1) 1889242 (Gaboon viper virus 1) 99 103 LSSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYG SSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYGKAAVG 8b8d-a1-m1-cC_8b8d-a1-m1-cD multimerization domain of Gaboon Viper Virus 1 L0N429 L0N429 2.4 X-RAY DIFFRACTION 100 0.98 1889242 (Gaboon viper virus 1) 1889242 (Gaboon viper virus 1) 101 103 8b8d-a1-m1-cB_8b8d-a1-m1-cC TLSSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYGK SSEELVKQLMEEIKTATEDRKIDQEVLQMRLSHLEQRMVEDLESLSTLQSELLEKIELLDYSSSIKQIGENLKVLDRSLKPVITTVSLMVEKVDLLYGKAAVG 8b8r-a1-m44-cE_8b8r-a1-m9-cE Complex of Echovirus 11 with its attaching receptor decay-accelerating factor (CD55) 3.1 ELECTRON MICROSCOPY 184 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 2c8i-a1-m10-cE_2c8i-a1-m24-cE 2c8i-a1-m11-cE_2c8i-a1-m16-cE 2c8i-a1-m12-cE_2c8i-a1-m38-cE 2c8i-a1-m13-cE_2c8i-a1-m47-cE 2c8i-a1-m14-cE_2c8i-a1-m45-cE 2c8i-a1-m15-cE_2c8i-a1-m29-cE 2c8i-a1-m17-cE_2c8i-a1-m28-cE 2c8i-a1-m18-cE_2c8i-a1-m52-cE 2c8i-a1-m19-cE_2c8i-a1-m60-cE 2c8i-a1-m1-cE_2c8i-a1-m6-cE 2c8i-a1-m20-cE_2c8i-a1-m39-cE 2c8i-a1-m21-cE_2c8i-a1-m26-cE 2c8i-a1-m22-cE_2c8i-a1-m43-cE 2c8i-a1-m25-cE_2c8i-a1-m54-cE 2c8i-a1-m27-cE_2c8i-a1-m53-cE 2c8i-a1-m2-cE_2c8i-a1-m23-cE 2c8i-a1-m30-cE_2c8i-a1-m44-cE 2c8i-a1-m31-cE_2c8i-a1-m36-cE 2c8i-a1-m32-cE_2c8i-a1-m58-cE 2c8i-a1-m33-cE_2c8i-a1-m7-cE 2c8i-a1-m34-cE_2c8i-a1-m5-cE 2c8i-a1-m35-cE_2c8i-a1-m49-cE 2c8i-a1-m37-cE_2c8i-a1-m48-cE 2c8i-a1-m3-cE_2c8i-a1-m42-cE 2c8i-a1-m40-cE_2c8i-a1-m59-cE 2c8i-a1-m41-cE_2c8i-a1-m46-cE 2c8i-a1-m4-cE_2c8i-a1-m50-cE 2c8i-a1-m51-cE_2c8i-a1-m56-cE 2c8i-a1-m55-cE_2c8i-a1-m9-cE 2c8i-a1-m57-cE_2c8i-a1-m8-cE 3iyp-a1-m10-cF_3iyp-a1-m5-cF 3iyp-a1-m11-cF_3iyp-a1-m37-cF 3iyp-a1-m12-cF_3iyp-a1-m46-cF 3iyp-a1-m13-cF_3iyp-a1-m44-cF 3iyp-a1-m14-cF_3iyp-a1-m28-cF 3iyp-a1-m15-cF_3iyp-a1-m20-cF 3iyp-a1-m16-cF_3iyp-a1-m27-cF 3iyp-a1-m17-cF_3iyp-a1-m51-cF 3iyp-a1-m18-cF_3iyp-a1-m59-cF 3iyp-a1-m19-cF_3iyp-a1-m38-cF 3iyp-a1-m1-cF_3iyp-a1-m22-cF 3iyp-a1-m21-cF_3iyp-a1-m42-cF 3iyp-a1-m23-cF_3iyp-a1-m9-cF 3iyp-a1-m24-cF_3iyp-a1-m53-cF 3iyp-a1-m25-cF_3iyp-a1-m30-cF 3iyp-a1-m26-cF_3iyp-a1-m52-cF 3iyp-a1-m29-cF_3iyp-a1-m43-cF 3iyp-a1-m2-cF_3iyp-a1-m41-cF 3iyp-a1-m31-cF_3iyp-a1-m57-cF 3iyp-a1-m32-cF_3iyp-a1-m6-cF 3iyp-a1-m33-cF_3iyp-a1-m4-cF 3iyp-a1-m34-cF_3iyp-a1-m48-cF 3iyp-a1-m35-cF_3iyp-a1-m40-cF 3iyp-a1-m36-cF_3iyp-a1-m47-cF 3iyp-a1-m39-cF_3iyp-a1-m58-cF 3iyp-a1-m3-cF_3iyp-a1-m49-cF 3iyp-a1-m45-cF_3iyp-a1-m50-cF 3iyp-a1-m54-cF_3iyp-a1-m8-cF 3iyp-a1-m55-cF_3iyp-a1-m60-cF 3iyp-a1-m56-cF_3iyp-a1-m7-cF 8b8r-a1-m10-cE_8b8r-a1-m46-cE 8b8r-a1-m11-cE_8b8r-a1-m48-cE 8b8r-a1-m12-cE_8b8r-a1-m47-cE 8b8r-a1-m13-cE_8b8r-a1-m49-cE 8b8r-a1-m14-cE_8b8r-a1-m39-cE 8b8r-a1-m15-cE_8b8r-a1-m38-cE 8b8r-a1-m16-cE_8b8r-a1-m40-cE 8b8r-a1-m17-cE_8b8r-a1-m42-cE 8b8r-a1-m18-cE_8b8r-a1-m41-cE 8b8r-a1-m19-cE_8b8r-a1-m43-cE 8b8r-a1-m1-cE_8b8r-a1-m31-cE 8b8r-a1-m20-cE_8b8r-a1-m33-cE 8b8r-a1-m21-cE_8b8r-a1-m32-cE 8b8r-a1-m22-cE_8b8r-a1-m34-cE 8b8r-a1-m23-cE_8b8r-a1-m36-cE 8b8r-a1-m24-cE_8b8r-a1-m35-cE 8b8r-a1-m25-cE_8b8r-a1-m37-cE 8b8r-a1-m26-cE_8b8r-a1-m57-cE 8b8r-a1-m27-cE_8b8r-a1-m56-cE 8b8r-a1-m28-cE_8b8r-a1-m58-cE 8b8r-a1-m29-cE_8b8r-a1-m60-cE 8b8r-a1-m2-cE_8b8r-a1-m51-cE 8b8r-a1-m30-cE_8b8r-a1-m59-cE 8b8r-a1-m3-cE_8b8r-a1-m50-cE 8b8r-a1-m45-cE_8b8r-a1-m8-cE 8b8r-a1-m4-cE_8b8r-a1-m52-cE 8b8r-a1-m53-cE_8b8r-a1-m6-cE 8b8r-a1-m55-cE_8b8r-a1-m7-cE 8b8r-a1-m5-cE_8b8r-a1-m54-cE DCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTIGEHSIYCTVNNDEGEWSGPPPECRG DCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTIGEHSIYCTVNNDEGEWSGPPPECRG 8b8r-a1-m54-cA_8b8r-a1-m9-cA Complex of Echovirus 11 with its attaching receptor decay-accelerating factor (CD55) 3.1 ELECTRON MICROSCOPY 996 1.0 12078 (Echovirus E11) 12078 (Echovirus E11) 287 287 8b8r-a1-m10-cA_8b8r-a1-m25-cA 8b8r-a1-m10-cA_8b8r-a1-m53-cA 8b8r-a1-m11-cA_8b8r-a1-m37-cA 8b8r-a1-m11-cA_8b8r-a1-m52-cA 8b8r-a1-m12-cA_8b8r-a1-m26-cA 8b8r-a1-m12-cA_8b8r-a1-m51-cA 8b8r-a1-m13-cA_8b8r-a1-m28-cA 8b8r-a1-m13-cA_8b8r-a1-m35-cA 8b8r-a1-m14-cA_8b8r-a1-m30-cA 8b8r-a1-m14-cA_8b8r-a1-m33-cA 8b8r-a1-m15-cA_8b8r-a1-m32-cA 8b8r-a1-m15-cA_8b8r-a1-m48-cA 8b8r-a1-m16-cA_8b8r-a1-m31-cA 8b8r-a1-m16-cA_8b8r-a1-m47-cA 8b8r-a1-m17-cA_8b8r-a1-m46-cA 8b8r-a1-m18-cA_8b8r-a1-m2-cA 8b8r-a1-m18-cA_8b8r-a1-m45-cA 8b8r-a1-m19-cA_8b8r-a1-m4-cA 8b8r-a1-m19-cA_8b8r-a1-m59-cA 8b8r-a1-m1-cA_8b8r-a1-m17-cA 8b8r-a1-m1-cA_8b8r-a1-m46-cA 8b8r-a1-m20-cA_8b8r-a1-m57-cA 8b8r-a1-m20-cA_8b8r-a1-m6-cA 8b8r-a1-m21-cA_8b8r-a1-m42-cA 8b8r-a1-m21-cA_8b8r-a1-m56-cA 8b8r-a1-m22-cA_8b8r-a1-m41-cA 8b8r-a1-m22-cA_8b8r-a1-m7-cA 8b8r-a1-m23-cA_8b8r-a1-m40-cA 8b8r-a1-m23-cA_8b8r-a1-m55-cA 8b8r-a1-m24-cA_8b8r-a1-m39-cA 8b8r-a1-m24-cA_8b8r-a1-m8-cA 8b8r-a1-m25-cA_8b8r-a1-m53-cA 8b8r-a1-m26-cA_8b8r-a1-m51-cA 8b8r-a1-m27-cA_8b8r-a1-m36-cA 8b8r-a1-m27-cA_8b8r-a1-m50-cA 8b8r-a1-m28-cA_8b8r-a1-m35-cA 8b8r-a1-m29-cA_8b8r-a1-m34-cA 8b8r-a1-m29-cA_8b8r-a1-m49-cA 8b8r-a1-m2-cA_8b8r-a1-m45-cA 8b8r-a1-m30-cA_8b8r-a1-m33-cA 8b8r-a1-m31-cA_8b8r-a1-m47-cA 8b8r-a1-m32-cA_8b8r-a1-m48-cA 8b8r-a1-m34-cA_8b8r-a1-m49-cA 8b8r-a1-m36-cA_8b8r-a1-m50-cA 8b8r-a1-m37-cA_8b8r-a1-m52-cA 8b8r-a1-m38-cA_8b8r-a1-m54-cA 8b8r-a1-m38-cA_8b8r-a1-m9-cA 8b8r-a1-m39-cA_8b8r-a1-m8-cA 8b8r-a1-m3-cA_8b8r-a1-m44-cA 8b8r-a1-m3-cA_8b8r-a1-m60-cA 8b8r-a1-m40-cA_8b8r-a1-m55-cA 8b8r-a1-m41-cA_8b8r-a1-m7-cA 8b8r-a1-m42-cA_8b8r-a1-m56-cA 8b8r-a1-m43-cA_8b8r-a1-m58-cA 8b8r-a1-m43-cA_8b8r-a1-m5-cA 8b8r-a1-m44-cA_8b8r-a1-m60-cA 8b8r-a1-m4-cA_8b8r-a1-m59-cA 8b8r-a1-m57-cA_8b8r-a1-m6-cA 8b8r-a1-m5-cA_8b8r-a1-m58-cA GDVVEAIEGAVARVADTISSGPTNSQAVPALTAVETGHTSQVVPGDTMQTRHVKNYHSRSESTIENFLSRSACVYMGEYYTTNTDETKRFASWTINARRMVQMRRKLEMFTYVRFDVEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSTTDYAWQTSTNPSIFWTEGNAPPRMSIPFVSIGNAYSNFYDGWSHFSQNGVYGYNTLNNMGQLYMRHVNGPSPLPMTSIVRVYFKPKHVKAWVPRPPRLCQYKNASTVNFSSTNITDKRDSITHVPDTVKP GDVVEAIEGAVARVADTISSGPTNSQAVPALTAVETGHTSQVVPGDTMQTRHVKNYHSRSESTIENFLSRSACVYMGEYYTTNTDETKRFASWTINARRMVQMRRKLEMFTYVRFDVEVTFVITSKQDQGTQLGQDMPPLTHQIMYIPPGGPIPKSTTDYAWQTSTNPSIFWTEGNAPPRMSIPFVSIGNAYSNFYDGWSHFSQNGVYGYNTLNNMGQLYMRHVNGPSPLPMTSIVRVYFKPKHVKAWVPRPPRLCQYKNASTVNFSSTNITDKRDSITHVPDTVKP 8b8r-a1-m54-cE_8b8r-a1-m9-cE Complex of Echovirus 11 with its attaching receptor decay-accelerating factor (CD55) 3.1 ELECTRON MICROSCOPY 41 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 250 250 8b8r-a1-m10-cE_8b8r-a1-m25-cE 8b8r-a1-m10-cE_8b8r-a1-m53-cE 8b8r-a1-m11-cE_8b8r-a1-m37-cE 8b8r-a1-m11-cE_8b8r-a1-m52-cE 8b8r-a1-m12-cE_8b8r-a1-m26-cE 8b8r-a1-m12-cE_8b8r-a1-m51-cE 8b8r-a1-m13-cE_8b8r-a1-m28-cE 8b8r-a1-m13-cE_8b8r-a1-m35-cE 8b8r-a1-m14-cE_8b8r-a1-m30-cE 8b8r-a1-m14-cE_8b8r-a1-m33-cE 8b8r-a1-m15-cE_8b8r-a1-m32-cE 8b8r-a1-m15-cE_8b8r-a1-m48-cE 8b8r-a1-m16-cE_8b8r-a1-m31-cE 8b8r-a1-m16-cE_8b8r-a1-m47-cE 8b8r-a1-m17-cE_8b8r-a1-m46-cE 8b8r-a1-m18-cE_8b8r-a1-m2-cE 8b8r-a1-m18-cE_8b8r-a1-m45-cE 8b8r-a1-m19-cE_8b8r-a1-m4-cE 8b8r-a1-m19-cE_8b8r-a1-m59-cE 8b8r-a1-m1-cE_8b8r-a1-m17-cE 8b8r-a1-m1-cE_8b8r-a1-m46-cE 8b8r-a1-m20-cE_8b8r-a1-m57-cE 8b8r-a1-m20-cE_8b8r-a1-m6-cE 8b8r-a1-m21-cE_8b8r-a1-m42-cE 8b8r-a1-m21-cE_8b8r-a1-m56-cE 8b8r-a1-m22-cE_8b8r-a1-m41-cE 8b8r-a1-m22-cE_8b8r-a1-m7-cE 8b8r-a1-m23-cE_8b8r-a1-m40-cE 8b8r-a1-m23-cE_8b8r-a1-m55-cE 8b8r-a1-m24-cE_8b8r-a1-m39-cE 8b8r-a1-m24-cE_8b8r-a1-m8-cE 8b8r-a1-m25-cE_8b8r-a1-m53-cE 8b8r-a1-m26-cE_8b8r-a1-m51-cE 8b8r-a1-m27-cE_8b8r-a1-m36-cE 8b8r-a1-m27-cE_8b8r-a1-m50-cE 8b8r-a1-m28-cE_8b8r-a1-m35-cE 8b8r-a1-m29-cE_8b8r-a1-m34-cE 8b8r-a1-m29-cE_8b8r-a1-m49-cE 8b8r-a1-m2-cE_8b8r-a1-m45-cE 8b8r-a1-m30-cE_8b8r-a1-m33-cE 8b8r-a1-m31-cE_8b8r-a1-m47-cE 8b8r-a1-m32-cE_8b8r-a1-m48-cE 8b8r-a1-m34-cE_8b8r-a1-m49-cE 8b8r-a1-m36-cE_8b8r-a1-m50-cE 8b8r-a1-m37-cE_8b8r-a1-m52-cE 8b8r-a1-m38-cE_8b8r-a1-m54-cE 8b8r-a1-m38-cE_8b8r-a1-m9-cE 8b8r-a1-m39-cE_8b8r-a1-m8-cE 8b8r-a1-m3-cE_8b8r-a1-m44-cE 8b8r-a1-m3-cE_8b8r-a1-m60-cE 8b8r-a1-m40-cE_8b8r-a1-m55-cE 8b8r-a1-m41-cE_8b8r-a1-m7-cE 8b8r-a1-m42-cE_8b8r-a1-m56-cE 8b8r-a1-m43-cE_8b8r-a1-m58-cE 8b8r-a1-m43-cE_8b8r-a1-m5-cE 8b8r-a1-m44-cE_8b8r-a1-m60-cE 8b8r-a1-m4-cE_8b8r-a1-m59-cE 8b8r-a1-m57-cE_8b8r-a1-m6-cE 8b8r-a1-m5-cE_8b8r-a1-m58-cE DCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTIGEHSIYCTVNNDEGEWSGPPPECRG DCGLPPDVPNAQPALEGRTSFPEDTVITYKCEESFVKIPGEKDSVICLKGSQWSDIEEFCNRSCEVPTRLNSASLKQPYITQNYFPVGTVVEYECRPGYRREPSLSPKLTCLQNLKWSTAVEFCKKKSCPNPGEIRNGQIDVPGGILFGATISFSCNTGYKLFGSTSSFCLISGSSVQWSDPLPECREIYCPAPPQIDNGIIQGERDHYGYRQSVTYACNKGFTIGEHSIYCTVNNDEGEWSGPPPECRG 8b9w-a1-m1-cB_8b9w-a1-m1-cA Cysteine Synthase from Trypanosoma theileri with PLP bound A0A1X0P4R1 A0A1X0P4R1 2.75 X-RAY DIFFRACTION 210 1.0 67003 (Trypanosoma theileri) 67003 (Trypanosoma theileri) 327 329 EFNKQNDVAPSVDALIGNTPAVYLRNMNKTAATIVLKLESENPMASVKDRLAYAIYDKAEKEGKIKRGKSVIVEATSGNTGIALALLGAVRGYKVIITMPDSMSMERRSLLRIFGAELILTPASLGMKGAVAMANRIVSNNPDAVLADQFCTKYNAQIHEETTGPEIWRQTKGHVDCFVAGVGTGGTLTGVARFLKSVGCNANIVAVEPQESPVLSGGRPGPHRIQGIGAGFVPEVLDRELVDEIIQVSSDKAIETAQKLSRMDGIFCGFSAGANVFAALKIAERPEMAGKTIVTVIPSFGERYLSTALYASVREEITSLPVVPVSE QEFNKQNDVAPSVDALIGNTPAVYLRNMNKTAATIVLKLESENPMASVKDRLAYAIYDKAEKEGKIKRGKSVIVEATSGNTGIALALLGAVRGYKVIITMPDSMSMERRSLLRIFGAELILTPASLGMKGAVAMANRIVSNNPDAVLADQFCTKYNAQIHEETTGPEIWRQTKGHVDCFVAGVGTGGTLTGVARFLKSVGCNANIVAVEPQESPVLSGGRPGPHRIQGIGAGFVPEVLDRELVDEIIQVSSDKAIETAQKLSRMDGIFCGFSAGANVFAALKIAERPEMAGKTIVTVIPSFGERYLSTALYASVREEITSLPVVPVSEI 8b9y-a2-m1-cD_8b9y-a2-m1-cC Cysteine Synthase from Trypanosoma cruzi with PLP and OAS Q4CST7 Q4CST7 1.8 X-RAY DIFFRACTION 192 1.0 5693 (Trypanosoma cruzi) 5693 (Trypanosoma cruzi) 321 330 EFDPRNNVAPSMDALIGETPAVYLKRMNDTAATIVLKLECENPMASVKDRLAYAIYDKAEKEGKIIPGKSVIVEATSGNTGIALAHIGTIRGYKVIIVMPESMSIERRCLMRIFGAEVILTPAALGMKGALEAVNRIVSNNPDAVSANQFATKYNAQIHEETTGPEIWRQTKGHVDCFVAGVGTGGTITGVARYLKSVGCGATIFAVEPAESPVLSGGKPGPHRIQGIGAGFVPEVFEAALVDEVIQVSGDEAIDTAQKLPRTDGIFCGFSGGANVYAALQIAKRPEMAGKTIVTVIPSYGERYLSTALYSSIKVLSAADI VQEFDPRNNVAPSMDALIGETPAVYLKRMNDTAATIVLKLECENPMASVKDRLAYAIYDKAEKEGKIIPGKSVIVEATSGNTGIALAHIGTIRGYKVIIVMPESMSIERRCLMRIFGAEVILTPAALGMKGALEAVNRIVSNNPDAVSANQFATKYNAQIHEETTGPEIWRQTKGHVDCFVAGVGTGGTITGVARYLKSVGCGATIFAVEPAESPVLSGGKPGPHRIQGIGAGFVPEVFEAALVDEVIQVSGDEAIDTAQKLPRTDGIFCGFSGGANVYAALQIAKRPEMAGKTIVTVIPSYGERYLSTALYSSIKDEVFALKVLSAADI 8bah-a1-m1-cB_8bah-a1-m1-cA Human Mre11-Nbs1 complex P49959 P49959 4.13 ELECTRON MICROSCOPY 72 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 398 399 TADALDDENTFKILVATDIHLGFMEKDAVRGNDTFVTLDEILRLAQENEVDFILLGGDLFHENKPSRKTLHTCLELLRKYCMGDRPVQFEILSDQSVNFGFSKFPWVNYQDGNLNISIPVFSIHGNNDDPTGADALCALDILSCAGFVNHFGRSMSVEKIDISPVLLQKGSTKIALYGLGSIPDERLYRMFVNKKVTMLRPKEDENSWFNLFVIHQNRSKHGSTNFIPEQFLDDFIDLVIWGHEHECKIAPTKNEQQLFYISQPGSSVVTSLSPGEAVKKHVGLLRIKGRKMNMHKIPLHTVRQFFMEDIVLANHPDIFNPDNPKVTQAIQSFCLEKIEEMLENAERERLGNSHQPEKPLVRLRVDYSGGFEPFSVLRFSQKFVDRVANPKDIIHFFR STADALDDENTFKILVATDIHLGFMEKDAVRGNDTFVTLDEILRLAQENEVDFILLGGDLFHENKPSRKTLHTCLELLRKYCMGDRPVQFEILSDQSVNFGFSKFPWVNYQDGNLNISIPVFSIHGNNDDPTGADALCALDILSCAGFVNHFGRSMSVEKIDISPVLLQKGSTKIALYGLGSIPDERLYRMFVNKKVTMLRPKEDENSWFNLFVIHQNRSKHGSTNFIPEQFLDDFIDLVIWGHEHECKIAPTKNEQQLFYISQPGSSVVTSLSPGEAVKKHVGLLRIKGRKMNMHKIPLHTVRQFFMEDIVLANHPDIFNPDNPKVTQAIQSFCLEKIEEMLENAERERLGNSHQPEKPLVRLRVDYSGGFEPFSVLRFSQKFVDRVANPKDIIHFFR 8bao-a1-m1-cB_8bao-a1-m1-cA Dysgonamonadaceae bacterium CRISPR ancillary nuclease 2 A0A2N4S908 A0A2N4S908 2.06 X-RAY DIFFRACTION 150 1.0 2065189 (Dysgonamonadaceae bacterium) 2065189 (Dysgonamonadaceae bacterium) 367 368 MSHVQITLVGGQAAPVYNGITYYNPDKVILVCSKQTQNEAMRIKAEFPDIAEIKVMDPVNIAEIVSETRALADSMPDDEIYVNISGGTKSWAFYFSRIFSERSNTKIFYIDQNNTIWNFTDQTHSQANFDLNLDVQFRLYGNSLKEYKLVSDFADDDLTIIPKIYKIRSFDKRNFGKLMNLYSENSENVFFDLDNGSYLRWDNEQQLFEINIRNRDGQSKHEILKSTHIRRLLRNYTWLELEIARVLSGWKFAKEVRLNGIFRDKHENAKNEIDCIVNLGNKILFVECKSHITNITDIDKFKNAVKVYGGSGCKALFTTIDPIRNDALEKCRDSNIIPFCIEKNGGINNYKSNLFEILEKEILNINP HMSHVQITLVGGQAAPVYNGITYYNPDKVILVCSKQTQNEAMRIKAEFPDIAEIKVMDPVNIAEIVSETRALADSMPDDEIYVNISGGTKSWAFYFSRIFSERSNTKIFYIDQNNTIWNFTDQTHSQANFDLNLDVQFRLYGNSLKEYKLVSDFADDDLTIIPKIYKIRSFDKRNFGKLMNLYSENSENVFFDLDNGSYLRWDNEQQLFEINIRNRDGQSKHEILKSTHIRRLLRNYTWLELEIARVLSGWKFAKEVRLNGIFRDKHENAKNEIDCIVNLGNKILFVECKSHITNITDIDKFKNAVKVYGGSGCKALFTTIDPIRNDALEKCRDSNIIPFCIEKNGGINNYKSNLFEILEKEILNINP 8bbp-a1-m1-cA_8bbp-a1-m1-cB Crystal structure of feruloyl esterase wtsFae1B A0A5S8WFA0 A0A5S8WFA0 1.07 X-RAY DIFFRACTION 141 0.983 77133 (uncultured bacterium) 77133 (uncultured bacterium) 344 346 6rzn-a1-m1-cA_6rzn-a1-m1-cB 8bf3-a1-m1-cA_8bf3-a1-m1-cB RIISPEIMPDNKVTFRVYSKDASKVTITGEWQTGPGGVEELVKNDTGMFSITVGPLKPELYAYNFTVDGVKALDANNVQVRRDGTNYQNFFIIPGPESDLYFHKNNVPHGTVTKVWYKSSVIGFDRRMYVYTPAGYEGDTQRYPVFYLLHGAGGDEDAWTNMGRTAQIMDNLIAQGKAKPMIVVMTNGNANQAGAQNEVPPVPVMTGKFEEHLVKDVVPFIEKNFRALTGKDNRAIAGLSMGGGHTQTITNDNPGMFSYIGVFSMGIMEKERDAKIEALKKSGYKLYWIACGKDDFVYQSALTLRNTLDKHNFKYVYRESTGGHTWANWRIYLSEFAPMLFKLL ARIISPEIMPDNKVTFRVYSKDASKVTITGEWQTGGVEELVKNDTGMFSITVGPLKPELYAYNFTVDGVKALDANNVQVRRDGTNYQNFFIIPGPESDLYFHKNNVPHGTVTKVWYKSSVIGFDRRMYVYTPAGYEGDTQRYPVFYLLHGAGGDEDAWTNMGRTAQIMDNLIAQGKAKPMIVVMTNGNANQAGAQNEVPPVPTGKFEEHLVKDVVPFIEKNFRALTGKDNRAIAGLSMGGGHTQTITNDNPGMFSYIGVFSMGIMAGDAEKIEKERDAKIEALKKSGYKLYWIACGKDDFVYQSALTLRNTLDKHNFKYVYRESTGGHTWANWRIYLSEFAPMLFK 8bbu-a1-m1-cB_8bbu-a1-m1-cA Crystal structure of medical leech destabilase (high salt) Q25091 Q25091 1.1 X-RAY DIFFRACTION 22 0.992 6421 (Hirudo medicinalis) 6421 (Hirudo medicinalis) 118 120 FTDSCLRCICKVEGCDSQIGKCGMDVGSLSCGPYQIKKPYWIDCGKPGGGYESCTKNKACSETCVRAYMKRYGTFCTGGRTPTCQDYARIHNGGPRGCKSSATVGYWNKVQKCLRGTH FTDSCLRCICKVEGCDSQIGKCGMDVGSLSCGPYQIKKPYWIDCGKPGGGYESCTKNKACSETCVRAYMKRYGTFCTGGRTPTCQDYARIHNGGPGCKSSATVGYWNKVQKCLRGTHHHH 8bci-a2-m1-cC_8bci-a2-m1-cD Crystal structure of short-chain dehydrogenase PA3128 from Pseudomonas aeruginosa PAO1 Q9HZ96 Q9HZ96 1.7 X-RAY DIFFRACTION 148 0.996 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 233 233 8bci-a1-m1-cB_8bci-a1-m1-cA 8bcj-a1-m1-cA_8bcj-a1-m1-cB 8bcj-a2-m1-cD_8bcj-a2-m1-cC RNVMLITGASRGIGAATALLAAERGYAVVLNYLRNREAAEALRQRIERQGGEALAVAADVAEEGDVERLFASIDERFGRLDVLVNNAGMLEAQTRLENIDAARLHRVFATNVTGSFLCAREAVKRLSTRHGGRGGSIVNVSSMASRLGSPNEYIDYAAAKGAIDSMTIGLAREVAAEGIRVNAVRPGLIDRLKGGIPLGRGGTAEEVARAILWLASDEASYSTGTFIDVSGGR MRNVMLITGASRGIGAATALLAAERGYAVVLNYLRNREAAEALRQRIERQGGEALAVAADVAEEGDVERLFASIDERFGRLDVLVNNAGMLEAQTRLENIDAARLHRVFATNVTGSFLCAREAVKRLSTRHGGRGGSIVNVSSMASRLGSPNEYIDYAAAKGAIDSMTIGLAREVAAEGIRVNAVRPGLIDLKGGIPLGRGGTAEEVARAILWLASDEASYSTGTFIDVSGGR 8bd1-a1-m1-cA_8bd1-a1-m2-cA Crystal structure of the RhsPWHH-RhsPI toxin-immunity pair A0A227JDU1 A0A227JDU1 1.26 X-RAY DIFFRACTION 13 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 127 127 KTVGGRKIINSEFAGKTVTTKGGDVRFDSDGFPDFTPYSKKTVRVIGLTGDMANDVPLAMARAKITKYDKSKYVWHHHQDGKTMMLIPKSVHSVRNGGVAHTGGRSVIQHNLLNPNNKLNYSSPEEL KTVGGRKIINSEFAGKTVTTKGGDVRFDSDGFPDFTPYSKKTVRVIGLTGDMANDVPLAMARAKITKYDKSKYVWHHHQDGKTMMLIPKSVHSVRNGGVAHTGGRSVIQHNLLNPNNKLNYSSPEEL 8bd1-a1-m1-cB_8bd1-a1-m2-cB Crystal structure of the RhsPWHH-RhsPI toxin-immunity pair A0A0L8UU71 A0A0L8UU71 1.26 X-RAY DIFFRACTION 11 1.0 670 (Vibrio parahaemolyticus) 670 (Vibrio parahaemolyticus) 130 130 ISLSDIENLIQHIWEEPIFSDVTSKKVVVSLYGTLSKKIPDKFIIIEEVFPKDELEDIWSNYEEYLDEYLIFPFLGTLGEAVICIGYGNDNKGKIFYFDFDFGACELDGDNLEAFLEKLLESGSTENLYF ISLSDIENLIQHIWEEPIFSDVTSKKVVVSLYGTLSKKIPDKFIIIEEVFPKDELEDIWSNYEEYLDEYLIFPFLGTLGEAVICIGYGNDNKGKIFYFDFDFGACELDGDNLEAFLEKLLESGSTENLYF 8bd7-a1-m1-cA_8bd7-a1-m1-cH IFTB1 subcomplex of anterograde Intraflagellar transport trains (Chlamydomonas reinhardtii) A8JCJ2 A8JCJ2 9.9 ELECTRON MICROSCOPY 19 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 539 539 PEEQARGMEKTVHELLEKSAADAAKNDINSALENAMEAKKNERKLCRFREQNNMADQINLELMYAVDFNLAHMYHMNKNYSEALNLYTAIVRNKNFPQSGWLRVNMGNIHFEQKKYPSAIKMYRMALDQISATAKEVRFKIMRNIGLSFVRMGQYPDALQSFATVMDNVPDHQTGYNLVMCNYALSDREGMKNAFIKLLKKDEMRKRNTIITRLIVKAAQLISEKVDRANGFEGGFMWCCEQLRDAGYTKLANEVELAKATRFMGQKQFDKAVGVFKDFEKKEPRVKARAATNLAFLYFLEGETDQADKYSEMALKSDRYNARAYVNKGCVLVERGDLEGARSLFNEAAGIDPYCVEAIYNLGLVSQRLNELPYALAAFKKLHNMVPDNVEVIHQIATTYDMMGDFKNAVKWFELLTSLVSNDPGVLARLGAIHARFDDEAKALHYYQESHRVYPVNMDVISWLGAYHVKSEVYEKAMPFFDLASKIQPQEVKWALMVASCYRRTNNLPAALGKYKQIHTQHPDNVECLRYLVHLCSEL PEEQARGMEKTVHELLEKSAADAAKNDINSALENAMEAKKNERKLCRFREQNNMADQINLELMYAVDFNLAHMYHMNKNYSEALNLYTAIVRNKNFPQSGWLRVNMGNIHFEQKKYPSAIKMYRMALDQISATAKEVRFKIMRNIGLSFVRMGQYPDALQSFATVMDNVPDHQTGYNLVMCNYALSDREGMKNAFIKLLKKDEMRKRNTIITRLIVKAAQLISEKVDRANGFEGGFMWCCEQLRDAGYTKLANEVELAKATRFMGQKQFDKAVGVFKDFEKKEPRVKARAATNLAFLYFLEGETDQADKYSEMALKSDRYNARAYVNKGCVLVERGDLEGARSLFNEAAGIDPYCVEAIYNLGLVSQRLNELPYALAAFKKLHNMVPDNVEVIHQIATTYDMMGDFKNAVKWFELLTSLVSNDPGVLARLGAIHARFDDEAKALHYYQESHRVYPVNMDVISWLGAYHVKSEVYEKAMPFFDLASKIQPQEVKWALMVASCYRRTNNLPAALGKYKQIHTQHPDNVECLRYLVHLCSEL 8bd7-a1-m1-cC_8bd7-a1-m1-cK IFTB1 subcomplex of anterograde Intraflagellar transport trains (Chlamydomonas reinhardtii) A8ITN7 A8ITN7 9.9 ELECTRON MICROSCOPY 10 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 619 619 GQYTQTIYTLIKEQKFAEAIQHLQYQLQNVPESRAALSLLGYCYYYTGQYDMASQMYEQLVTLYPSNEDYKLYYAQSLYKGGMYPEASKAVVKVEGHQKAVTTLLVACSYEQDDLTGCRRQLDKCAPEDPDTMVNTGCIMFKEGKFEAARQKFNDAVQALGYQPELLYNIALCYYKTKQFGPALKHLAEIIEKAVREHPELSVGSNTDGMEVRSVGNSQTLKETALIEAFNLKAAIEYTMKNVEAAKEALTDMPPRAEEELDPVTLHNSALINMDSDPTGGFKKLNFLLQSPPFPPETFANLLLLYCKPSHGFYDLAADVLAENPQYAGKLLSPDLYDYLQAAIGRYKSPEEAFRRFDELATRHVEQLRRLTKQIQDARIARDNDAIKRAINEYDEALEAYIPGLMAMASIYWDMELYSNVEKIFRQSAEFCSEHEVWKLNVAHTFFMQDNHYKEAIRYYEPVVKKNADNLLGVTAIVLANLCVSYIMTSQNEEAEELMRKVEKEEERSSMQDPDKPCFHLCIINLVIGTLYCAKGNYEFGVSRIIKSLEETDTWYYAKRCFLALIENLAKHMIVLKDSSFTEIMAFLNEAEKHGKDIRVSRTIASEARMLKKMFLKLR GQYTQTIYTLIKEQKFAEAIQHLQYQLQNVPESRAALSLLGYCYYYTGQYDMASQMYEQLVTLYPSNEDYKLYYAQSLYKGGMYPEASKAVVKVEGHQKAVTTLLVACSYEQDDLTGCRRQLDKCAPEDPDTMVNTGCIMFKEGKFEAARQKFNDAVQALGYQPELLYNIALCYYKTKQFGPALKHLAEIIEKAVREHPELSVGSNTDGMEVRSVGNSQTLKETALIEAFNLKAAIEYTMKNVEAAKEALTDMPPRAEEELDPVTLHNSALINMDSDPTGGFKKLNFLLQSPPFPPETFANLLLLYCKPSHGFYDLAADVLAENPQYAGKLLSPDLYDYLQAAIGRYKSPEEAFRRFDELATRHVEQLRRLTKQIQDARIARDNDAIKRAINEYDEALEAYIPGLMAMASIYWDMELYSNVEKIFRQSAEFCSEHEVWKLNVAHTFFMQDNHYKEAIRYYEPVVKKNADNLLGVTAIVLANLCVSYIMTSQNEEAEELMRKVEKEEERSSMQDPDKPCFHLCIINLVIGTLYCAKGNYEFGVSRIIKSLEETDTWYYAKRCFLALIENLAKHMIVLKDSSFTEIMAFLNEAEKHGKDIRVSRTIASEARMLKKMFLKLR 8beg-a1-m1-cB_8beg-a1-m1-cA Structure of Ig-like domains from PrgB Q04112 Q04112 1.84 X-RAY DIFFRACTION 78 1.0 1351 (Enterococcus faecalis) 1351 (Enterococcus faecalis) 649 650 VLVPNKEVTDGQKNINDLNVKRGDSLQYIVTGDTTELAKVDPKTVTKQGIRDTFDAEKVTIDLSKVKVYQADASLNEKDLKAVAAAINSGKAKDVTASYDLNLDQNTVTAMMKTNADGSVVLAMGYKYLLVLPFVVKNVEGDFENTAVQLTNDGETVTNTVINHVPSSNPSKDVKADKNGTVGSVSLHDKDIPLQTKIYYEVKSSERPANYGGITEEWGMNDVLDTTHDRFTGKWHAITNYDLKVGDKTLKAGTDISAYILLENKDNKDLTFTMNQALLAALNEGSNKVGKQAWSVYLEVERIKTGDVENTQTENYNKELVRSNTVVTHTPDDPKPTKAVHNKKGEDINHGKVARGDVLSYEMTWDLKGYDKDFAFDTVDLATGVSFFDDYDETKVTPIKDLLRVKDSKGVDITNQFTISWDDAKGTVTISAKDPQAFILAYGGQELRVTLPTKVKADVSGDVYNSAEQNTFGQRIKTNTVVNHIPKVNPKKDVVIKVGDKQSQNGATIKLGEKFFYEFTSSDIPAEYAGVVEEWSISDKLDVKHDKFSGQWSVFANSNFVLADGTKVNKGDDISKLFTMTFDKGVVKITASQAFLDAMNLKENKNVAHSWKAFIGVERIAAGDVYNTIEESFNNEKIKTNTVVTHTPE PVLVPNKEVTDGQKNINDLNVKRGDSLQYIVTGDTTELAKVDPKTVTKQGIRDTFDAEKVTIDLSKVKVYQADASLNEKDLKAVAAAINSGKAKDVTASYDLNLDQNTVTAMMKTNADGSVVLAMGYKYLLVLPFVVKNVEGDFENTAVQLTNDGETVTNTVINHVPSSNPSKDVKADKNGTVGSVSLHDKDIPLQTKIYYEVKSSERPANYGGITEEWGMNDVLDTTHDRFTGKWHAITNYDLKVGDKTLKAGTDISAYILLENKDNKDLTFTMNQALLAALNEGSNKVGKQAWSVYLEVERIKTGDVENTQTENYNKELVRSNTVVTHTPDDPKPTKAVHNKKGEDINHGKVARGDVLSYEMTWDLKGYDKDFAFDTVDLATGVSFFDDYDETKVTPIKDLLRVKDSKGVDITNQFTISWDDAKGTVTISAKDPQAFILAYGGQELRVTLPTKVKADVSGDVYNSAEQNTFGQRIKTNTVVNHIPKVNPKKDVVIKVGDKQSQNGATIKLGEKFFYEFTSSDIPAEYAGVVEEWSISDKLDVKHDKFSGQWSVFANSNFVLADGTKVNKGDDISKLFTMTFDKGVVKITASQAFLDAMNLKENKNVAHSWKAFIGVERIAAGDVYNTIEESFNNEKIKTNTVVTHTPE 8bem-a2-m1-cD_8bem-a2-m1-cB STE20-like serine/threonine-protein kinase (SLK) in complex with Tivozanib Q9H2G2 Q9H2G2 2.6 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 275 277 8bem-a1-m1-cG_8bem-a1-m1-cA SMKQYEHVKRDLNPEDFWEIIGELGDGGKVYKAQNKETSVLAAAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVMLELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGSFIGTPYWMAPEVVMCETPYDYKADVWSLGITLIEMAEIEPPHHELNPMRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPIRELIAEAKAE SMKQYEHVKRDLNPEDFWEIIGELGDGAFGKVYKAQNKETSVLAAAKVIDTKSEEELEDYMVEIDILASCDHPNIVKLLDAFYYENNLWILIEFCAGGAVDAVMLELERPLTESQIQVVCKQTLDALNYLHDNKIIHRDLKAGNILFTLDGDIKLADFGSFIGTPYWMAPEVVMCETPYDYKADVWSLGITLIEMAEIEPPHHELNPMRVLLKIAKSEPPTLAQPSRWSSNFKDFLKKCLEKNVDARWTTSQLLQHPFVTVDSNKPIRELIAEAKAE 8bes-a1-m1-cA_8bes-a1-m1-cB Structure of D188A-fructofuranosidase from Rhodotorula dairenensis in complex with fructose A0A856TAI5 A0A856TAI5 1.86 X-RAY DIFFRACTION 150 1.0 86832 (Rhodotorula dairenensis) 86832 (Rhodotorula dairenensis) 526 526 8beq-a1-m1-cB_8beq-a1-m1-cA 8bes-a2-m1-cC_8bes-a2-m1-cD 8bet-a1-m1-cA_8bet-a1-m1-cB 8bet-a2-m1-cD_8bet-a2-m1-cC 8beu-a1-m1-cB_8beu-a1-m1-cA 8beu-a2-m1-cD_8beu-a2-m1-cC SCAPTSLPASATELPTTVPTGTVITGDYTGSYRPQVHYSPPKGFMNAPNGCHRDRNGTYHLYYQYNPLEYVAGNQHWGHATSDDLYHWTNQPIAIFPPNSTSQVFSGSAVLDPNNTSGFFPNTTDGVVAVYTLNTPTLQVQEVAYSTDGGYNFTPYENNPVLSVGSNQFRDPKVFWYEDHWVMAVAAANDFTIEIYTSPNLTSWTFASNFTHHGLLGLAYECPNLVQVPFQDDPSKSAWLMYISINPGAPLGGSVGQYFPGDFNGTHFVAYDSAARIADFAKDNYASQWFADTENGESISIAWASNWQYTQQVPTSAQAFRSAMSLPRRNYLTNITRLGWDLVSLPYDLSPVVGPSLLSSSEANSTADVDFTNVTSNAVWFSLNVTLPDAAIQNASLISADASINITFLPSTKCSGSDSPAATLTYFYAGLTNGALALTRPAASSSWGAENPFFTDKFSYTLVDPLTSLVGVFDRSMLEVFVNEGAHSATMLVFPDSPVGSMKVATGGLPEGTQVNLQVNGLESTW SCAPTSLPASATELPTTVPTGTVITGDYTGSYRPQVHYSPPKGFMNAPNGCHRDRNGTYHLYYQYNPLEYVAGNQHWGHATSDDLYHWTNQPIAIFPPNSTSQVFSGSAVLDPNNTSGFFPNTTDGVVAVYTLNTPTLQVQEVAYSTDGGYNFTPYENNPVLSVGSNQFRDPKVFWYEDHWVMAVAAANDFTIEIYTSPNLTSWTFASNFTHHGLLGLAYECPNLVQVPFQDDPSKSAWLMYISINPGAPLGGSVGQYFPGDFNGTHFVAYDSAARIADFAKDNYASQWFADTENGESISIAWASNWQYTQQVPTSAQAFRSAMSLPRRNYLTNITRLGWDLVSLPYDLSPVVGPSLLSSSEANSTADVDFTNVTSNAVWFSLNVTLPDAAIQNASLISADASINITFLPSTKCSGSDSPAATLTYFYAGLTNGALALTRPAASSSWGAENPFFTDKFSYTLVDPLTSLVGVFDRSMLEVFVNEGAHSATMLVFPDSPVGSMKVATGGLPEGTQVNLQVNGLESTW 8bew-a1-m1-cA_8bew-a1-m1-cD Cryo-EM structure of the electron bifurcating Fe-Fe hydrogenase HydABC complex from Thermoanaerobacter kivui in the oxidised state A0A097ATG3 A0A097ATG3 3.49 ELECTRON MICROSCOPY 116 1.0 2325 (Thermoanaerobacter kivui) 2325 (Thermoanaerobacter kivui) 571 571 8a6t-a1-m1-cA_8a6t-a1-m1-cD MNMVMLTIDGKQVQVEKGTTIKKAAEKLGIEIPGLCDDNDLKPFGACRLCVVEDARGNLVASCHTPVREGMVVKTNSPKVLKARRVILELLLSSHNADCFECDKNLHCKLQKYAYELNIRNIRFKGEKRNYEIKDNGPIYYDPNKCILCGKCVRICEEVQHICAIDFASRGFKAYISTPFEKPLLESDCIFCGQCVRVCPTGALAEKTDIERIYEAISDPNKVVVVQVAPAVRVALGEEFGLEPGEIVTGKMVAALKRLGFDKVFDTQFAADMTIVEETAELVERLEKGENFPMFTSCCPSWILAVEKFYPELIPNISTARSPQQIFGAIAKNYYAKKIGVARENMFVVSVMPCIGKKFEATRPEFNNDVDAVLTTRELARMIKESGIDFIKLEEENFDSPLGESTGAAAIFGVTGGVMEAALRTAYSIMTGEELEGDKIEFTAVRGLEGIKEAEVDIKGKKVRIAIANGIGNAKKLIEKIKSGETKYDFVEVMACPGGCMSGGGQPYTDDPEFRKKRMEGIYKNDRNLPKRKSHENEEVKKVYEEYYEKPCGPKAHEELHTHYHSRKKEY MNMVMLTIDGKQVQVEKGTTIKKAAEKLGIEIPGLCDDNDLKPFGACRLCVVEDARGNLVASCHTPVREGMVVKTNSPKVLKARRVILELLLSSHNADCFECDKNLHCKLQKYAYELNIRNIRFKGEKRNYEIKDNGPIYYDPNKCILCGKCVRICEEVQHICAIDFASRGFKAYISTPFEKPLLESDCIFCGQCVRVCPTGALAEKTDIERIYEAISDPNKVVVVQVAPAVRVALGEEFGLEPGEIVTGKMVAALKRLGFDKVFDTQFAADMTIVEETAELVERLEKGENFPMFTSCCPSWILAVEKFYPELIPNISTARSPQQIFGAIAKNYYAKKIGVARENMFVVSVMPCIGKKFEATRPEFNNDVDAVLTTRELARMIKESGIDFIKLEEENFDSPLGESTGAAAIFGVTGGVMEAALRTAYSIMTGEELEGDKIEFTAVRGLEGIKEAEVDIKGKKVRIAIANGIGNAKKLIEKIKSGETKYDFVEVMACPGGCMSGGGQPYTDDPEFRKKRMEGIYKNDRNLPKRKSHENEEVKKVYEEYYEKPCGPKAHEELHTHYHSRKKEY 8bfe-a4-m1-cE_8bfe-a4-m4-cF A dimeric de novo coiled-coil assembly: PK-2 (CC-TypeN-LaUbUcLd) 2.1 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 22 22 8bfe-a1-m1-cA_8bfe-a1-m6-cK 8bfe-a2-m1-cB_8bfe-a2-m2-cB 8bfe-a3-m1-cC_8bfe-a3-m1-cD 8bfe-a5-m1-cG_8bfe-a5-m5-cN 8bfe-a6-m1-cH_8bfe-a6-m7-cL 8bfe-a7-m1-cI_8bfe-a7-m1-cP 8bfe-a8-m1-cJ_8bfe-a8-m3-cJ GELLKQELLKWELLKEELLKYG GELLKQELLKWELLKEELLKYG 8bfm-a1-m1-cA_8bfm-a1-m2-cA Crystal structure of human calmodulin-dependent protein kinase 1D (CAMK1D) in complex with FZ331 Q8IU85 Q8IU85 1.7 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 265 265 WKKQAEDIKKIFEFKETLGTGAFSEVVLAEEKATGKLFAVKCIPKKALKGKESSIENEIAVLRKIKHENIVALEDIYESPNHLYLVMQLVSGGELFDRIVEKGFYTEKDASTLIRQVLDAVYYLHRMGIVHRDLKPENLLYYSQDEESKIMISDFGGYVAPEVLYSKAVDCWSIGVIAYILLCGYPPFYDSKLFEQILKAEYEFDSPYWDDISDSAKDFIRNLMEKDPNKRYTCEQAARHPWIAGDTALNKNIHESVSAQIRKNF WKKQAEDIKKIFEFKETLGTGAFSEVVLAEEKATGKLFAVKCIPKKALKGKESSIENEIAVLRKIKHENIVALEDIYESPNHLYLVMQLVSGGELFDRIVEKGFYTEKDASTLIRQVLDAVYYLHRMGIVHRDLKPENLLYYSQDEESKIMISDFGGYVAPEVLYSKAVDCWSIGVIAYILLCGYPPFYDSKLFEQILKAEYEFDSPYWDDISDSAKDFIRNLMEKDPNKRYTCEQAARHPWIAGDTALNKNIHESVSAQIRKNF 8bfn-a1-m1-cE_8bfn-a1-m1-cJ E. coli Wadjet JetABC dimer of dimers A0A4V3QHV5 A0A4V3QHV5 3.52 ELECTRON MICROSCOPY 281 1.0 562 (Escherichia coli) 562 (Escherichia coli) 498 498 MEENTRQRTENYISAKNQHPAWILLATRRAPLVLSCLKTLFEKSHDGIPLEEAIQSLSSILIEHVSQEQYDINQDNPFLQASRELREWIKRRLIVERDGRIFATDALEVAITFVESLDNRFMTSTASRLSTVQREIENLETRLNPNPANRVATLRRRISELERELQEAEAGHIEVLETHQAVEHIRDVYNLASSLRADFRRVEDSWREADRALRQSIIGEQYHRGDIVERLLNDQDALLNTPEGRVFDSFQQQLRQSSELKAMSERLRVILSHPSASDALNRLQRHDLRWLVKRLVDESQTVLQARARSERDVRGFMKTGLAAEHHRVGHLLNEFLNLALKLDWQRQMIRKQEVPLPAVGVAVTGIPAIERLRFKEVDDEAEQTLDLSNHAADLTQIGDDFWDAFNGLDREVLIQQTLQLLAKENRPVGLAELAELLPPAHDLETFAVWIGMAREAGIEVIDSQREFAELSDGEGRRWRFNLPTTGLESQALMDIDWE MEENTRQRTENYISAKNQHPAWILLATRRAPLVLSCLKTLFEKSHDGIPLEEAIQSLSSILIEHVSQEQYDINQDNPFLQASRELREWIKRRLIVERDGRIFATDALEVAITFVESLDNRFMTSTASRLSTVQREIENLETRLNPNPANRVATLRRRISELERELQEAEAGHIEVLETHQAVEHIRDVYNLASSLRADFRRVEDSWREADRALRQSIIGEQYHRGDIVERLLNDQDALLNTPEGRVFDSFQQQLRQSSELKAMSERLRVILSHPSASDALNRLQRHDLRWLVKRLVDESQTVLQARARSERDVRGFMKTGLAAEHHRVGHLLNEFLNLALKLDWQRQMIRKQEVPLPAVGVAVTGIPAIERLRFKEVDDEAEQTLDLSNHAADLTQIGDDFWDAFNGLDREVLIQQTLQLLAKENRPVGLAELAELLPPAHDLETFAVWIGMAREAGIEVIDSQREFAELSDGEGRRWRFNLPTTGLESQALMDIDWE 8bfn-a1-m1-cF_8bfn-a1-m1-cG E. coli Wadjet JetABC dimer of dimers A0A4T5T6V2 A0A4T5T6V2 3.52 ELECTRON MICROSCOPY 132 1.0 562 (Escherichia coli) 562 (Escherichia coli) 597 597 8as8-a1-m1-cA_8as8-a1-m1-cB 8bfn-a1-m1-cA_8bfn-a1-m1-cB MNQVSGLAGKESFILTRIELFNWGGFHGLHQAAIHQDGTAVIGPTGSGKTTLVDALMTLLCANPRYNLASTGGHESDRDLISYVRGVSGPGDGGEGQSHIARPGKTVTGIAATLEREGKQVRLGALLWFDSTSSSVTDMKRLWLFSDNPGQTLEHWLNVYHEGGTRLLRQMEKEAIGLWTYPNKKQYLARLRDFFEVGENAFTLLNRAAGLKQLNSIDEIFRELVLDDHSAFDRAAEVANSFDGLTEIHQELETARKQQQSLQPVALSWEKYQKQERQLADWLEIERVKAELHRLNIELTKRMSEAKRVDTGALVEAGADLDDIPVYLQRLQELTEEALPEKLNRFLDYLNRSSDDGVTQLLSHIEHEVLVIEERLNELNETMFRVDFQPDRYLRLDTKKVVHESLRTLEKAQRQLNAARFVDDNGESHYKALQVLVAQLRDACERNRTLGAKALLDPRFRLEFAVSVMDRQSGNVIESRTGSQGGSGGEKEIIASYVLTASLSYALCPAGSRYPLFGTIILDEAFSRSSHAVAGRIIAALREFGLHAVFITPNKEMRLLRDHTRSAIVVHRRGQNSNMASLSWEELERHYQRRGNA MNQVSGLAGKESFILTRIELFNWGGFHGLHQAAIHQDGTAVIGPTGSGKTTLVDALMTLLCANPRYNLASTGGHESDRDLISYVRGVSGPGDGGEGQSHIARPGKTVTGIAATLEREGKQVRLGALLWFDSTSSSVTDMKRLWLFSDNPGQTLEHWLNVYHEGGTRLLRQMEKEAIGLWTYPNKKQYLARLRDFFEVGENAFTLLNRAAGLKQLNSIDEIFRELVLDDHSAFDRAAEVANSFDGLTEIHQELETARKQQQSLQPVALSWEKYQKQERQLADWLEIERVKAELHRLNIELTKRMSEAKRVDTGALVEAGADLDDIPVYLQRLQELTEEALPEKLNRFLDYLNRSSDDGVTQLLSHIEHEVLVIEERLNELNETMFRVDFQPDRYLRLDTKKVVHESLRTLEKAQRQLNAARFVDDNGESHYKALQVLVAQLRDACERNRTLGAKALLDPRFRLEFAVSVMDRQSGNVIESRTGSQGGSGGEKEIIASYVLTASLSYALCPAGSRYPLFGTIILDEAFSRSSHAVAGRIIAALREFGLHAVFITPNKEMRLLRDHTRSAIVVHRRGQNSNMASLSWEELERHYQRRGNA 8bfn-a1-m1-cH_8bfn-a1-m1-cI E. coli Wadjet JetABC dimer of dimers A0A4C9B499 A0A4C9B499 3.52 ELECTRON MICROSCOPY 48 1.0 562 (Escherichia coli) 562 (Escherichia coli) 195 195 8as8-a1-m1-cC_8as8-a1-m1-cD 8bfn-a1-m1-cC_8bfn-a1-m1-cD SETRTLQKIREATQELLKYGLLEEASKPNLYRIVLSHPEEVTRILEPLDLDIGIDEIRGLLYVKVRLDETPAQDEWAHPLVRRQRLNLEQSLLVAILRQHFVAWEQESGTGASQAQIAIDDLLPQLQIYLGDPGSESKERTRLLTLLDQLKGHGLVTSPDAHERIVIRPIIAHLADPINLQALLAWLREQIAQQT SETRTLQKIREATQELLKYGLLEEASKPNLYRIVLSHPEEVTRILEPLDLDIGIDEIRGLLYVKVRLDETPAQDEWAHPLVRRQRLNLEQSLLVAILRQHFVAWEQESGTGASQAQIAIDDLLPQLQIYLGDPGSESKERTRLLTLLDQLKGHGLVTSPDAHERIVIRPIIAHLADPINLQALLAWLREQIAQQT 8bft-a1-m1-cA_8bft-a1-m2-cA The E. coli TrpD2 protein YbiB in complex with a C-terminal peptide from ObgE P30177 P30177 1.19 X-RAY DIFFRACTION 90 1.0 562 (Escherichia coli) 562 (Escherichia coli) 321 321 4muo-a1-m1-cB_4muo-a1-m1-cA 8bfr-a1-m1-cA_8bfr-a1-m2-cA SMDYRKIIKEIGRGKNHARDLDRDTARGLYAHMLNGEVPDLELGGVLIALRIKGEGEAEMLGFYEAMQNHTIKLTPPAGKPMPIVIPSYNGARKQANLTPLLAILLHKLGFPVVVHGVSEDPTRVLTETIFELMGITPTLHGGQAQAKLDEHQPVFMPVGAFCPPLEKQLAMRWRMGVRNSAHTLAKLATPFAEGEALRLSSVSHPEYIGRVAKFFSDIGGRALLMHGTEGEVYANPQRCPQINLIDREGMRVLYEKQDTAGSELLPQAKDPETTAQWIERCLAGSEPIPESLKIQMACCLVATGEAATISDGLARVNQAF SMDYRKIIKEIGRGKNHARDLDRDTARGLYAHMLNGEVPDLELGGVLIALRIKGEGEAEMLGFYEAMQNHTIKLTPPAGKPMPIVIPSYNGARKQANLTPLLAILLHKLGFPVVVHGVSEDPTRVLTETIFELMGITPTLHGGQAQAKLDEHQPVFMPVGAFCPPLEKQLAMRWRMGVRNSAHTLAKLATPFAEGEALRLSSVSHPEYIGRVAKFFSDIGGRALLMHGTEGEVYANPQRCPQINLIDREGMRVLYEKQDTAGSELLPQAKDPETTAQWIERCLAGSEPIPESLKIQMACCLVATGEAATISDGLARVNQAF 8bgl-a1-m1-cA_8bgl-a1-m1-cB Structure of the dimeric rsCherryRev1.4 Q9U6Y8 Q9U6Y8 2 X-RAY DIFFRACTION 40 1.0 86600 (Discosoma sp.) 86600 (Discosoma sp.) 215 215 MAIIKEFMRFKVHMEGSVNCHEFEIEGEGEGHPYEGTQTAKLKVTKGGPLPFAWDILSPQFSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLCGTNFPSDGPVMQKKTMGWFACSEQMYPEDGALKGLSKMRLKLKDGGHYDAEFKTTYKAKKPVQLPGAYNVNIKLDITSHNEDYTIVEQYERAEGRHS MAIIKEFMRFKVHMEGSVNCHEFEIEGEGEGHPYEGTQTAKLKVTKGGPLPFAWDILSPQFSKAYVKHPADIPDYLKLSFPEGFKWERVMNFEDGGVVTVTQDSSLQDGEFIYKVKLCGTNFPSDGPVMQKKTMGWFACSEQMYPEDGALKGLSKMRLKLKDGGHYDAEFKTTYKAKKPVQLPGAYNVNIKLDITSHNEDYTIVEQYERAEGRHS 8bic-a1-m1-cA_8bic-a1-m1-cB O-Methyltransferase Plu4891 in complex with SAH A0A6L9JRI9 A0A6L9JRI9 1.85 X-RAY DIFFRACTION 221 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 318 323 GSMLIDLITSCRKSTVIYAFVDMGLSVHFKDGACVNISELASQYGLDHSRFSRLCEYLIKIGVLVSCNEGVALSEECSALADPESMESLMIRCEVSPEYWKAWSMYSKSLYENNSKTAFEIAHGKPFFEYLDHHELFRSNFDSFMSKNSDKIIEKLLDIYDFSQHNRILDVGGGEGNLLIRINEKIKGKHYAVLDRYNETPVLEDIEFINGDFFKLVPSGYDLYILKNVIHNWSDSNAILILENCRKAMDDNATILLIGTVKKLKLEIIDSTDILMDVLLLGKERYLNELEDLAHQAGFVVKDIKEINEKYSIIELGV LYFQGSMLIDLITSCRKSTVIYAFVDMGLSVHFKDGACVNISELASQYGLDHSRFSRLCEYLIKIGVLVSCNEGVALSEECSALADPESMESLMIRCEVSPEYWKAWSMYSKSLYENNSKTAFEIAHGKPFFEYLDHHELFRSNFDSFMSKNSDKIIEKLLDIYDFSQHNRILDVGGGEGNLLIRINEKIKGKHYAVLDRYNETPVLEDIEFINGDFFKLVPSGYDLYILKNVIHNWSDSNAILILENCRKAMDDNATILLIGTVKKLKLEIIDSTDILMDVLLLGKERYLNELEDLAHQAGFVVKDIKEINEKYSIIELGVK 8bif-a2-m2-cD_8bif-a2-m1-cC O-Methyltransferase Plu4892 in complex with SAH A0A6L9JLV7 A0A6L9JLV7 2 X-RAY DIFFRACTION 177 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 311 318 8bif-a1-m1-cA_8bif-a1-m1-cB SMLAELITSYRKSIAIYTFVDTGLSVHFKNGTYMDINELASQYGIDYSRLNRLCDFLIEIGVLVSSNDRVALSEECRVLADPESMESLIAKWEFNSGLWNAWLMYPKSLLENNGKSAFEIANGKPFFEYLDSNKLLKSKFDSLMSKDSDKMIEKLFNVYDFNQHDKILDVGGGEGNLLIRMSEKVKEKHYAVLDRYNELPDYGNINFIDGDFFKSIPSGYDLYILKNVIHDWPDNDAILILENCRKAMGNNATILLITLMKNIIKYFDILMDVSSLGKERDLTEFEYLANQAGLVIQDVKDIDESYSIIQL SMLAELITSYRKSIAIYTFVDTGLSVHFKNGTYMDINELASQYGIDYSRLNRLCDFLIEIGVLVSSNDRVALSEECRVLADPESMESLIAKWEFNSGLWNAWLMYPKSLLENNGKSAFEIANGKPFFEYLDSNKLLKSKFDSLMSKDSDKMIEKLFNVYDFNQHDKILDVGGGEGNLLIRMSEKVKEKHYAVLDRYNELPDYGNINFIDGDFFKSIPSGYDLYILKNVIHDWPDNDAILILENCRKAMGNNATILLITLMKKPQSNIIKYFDILMDVSSLGKERDLTEFEYLANQAGLVIQDVKDIDESYSIIQLGVK 8big-a2-m1-cB_8big-a2-m1-cE O-Methyltransferase Plu4895 in complex with SAH A0A6L9JQS9 A0A6L9JQS9 2.8 X-RAY DIFFRACTION 207 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 318 318 8big-a1-m1-cA_8big-a1-m4-cC 8big-a3-m1-cD_8big-a3-m2-cH 8big-a4-m1-cG_8big-a4-m3-cF 8bii-a1-m1-cA_8bii-a1-m1-cB 8bii-a2-m1-cH_8bii-a2-m1-cC 8bii-a3-m2-cG_8bii-a3-m1-cD 8bii-a4-m1-cE_8bii-a4-m1-cF 8bir-a1-m1-cB_8bir-a1-m1-cA SMLIDLITSYRKTAAIYTFVDAGLSIHFKNGDYVDINKLASQYGIDYSRLNRLCDFLIEIGVLVSSDHGVALSEECSALADPNSVEFLTVKYEINSEHWDSWLMYPKSLLENNGKSAFEMVHGKSFFEHLDSNKGLKSDFDALMSKYTNKIIKELLVIYDFDKHNRILDLGGGDGELLIRISEQVKGKDYTVLDRYNEVPISEGINFIKGDFFKPIPTGYDLYILKNVLHNWPDNDAISILKNCREAMDNNATLLIITLMKKPQSLVVKSVDILMDMLFSAKQRYLSEFEDIANQAGLVIRHYKDLDEIFSLIELKVK SMLIDLITSYRKTAAIYTFVDAGLSIHFKNGDYVDINKLASQYGIDYSRLNRLCDFLIEIGVLVSSDHGVALSEECSALADPNSVEFLTVKYEINSEHWDSWLMYPKSLLENNGKSAFEMVHGKSFFEHLDSNKGLKSDFDALMSKYTNKIIKELLVIYDFDKHNRILDLGGGDGELLIRISEQVKGKDYTVLDRYNEVPISEGINFIKGDFFKPIPTGYDLYILKNVLHNWPDNDAISILKNCREAMDNNATLLIITLMKKPQSLVVKSVDILMDMLFSAKQRYLSEFEDIANQAGLVIRHYKDLDEIFSLIELKVK 8bij-a1-m1-cA_8bij-a1-m1-cB O-Methyltransferase Plu4894 (mutant I88M, W91L, C97Y, S142L, G146V, Y258M, L270F, S309Y) in complex with SAH A0A6L9JNN3 A0A6L9JNN3 1.55 X-RAY DIFFRACTION 188 1.0 29488 (Photorhabdus luminescens) 29488 (Photorhabdus luminescens) 318 318 8bie-a1-m1-cA_8bie-a1-m1-cB SMLAELITSYRKSAAIYAFVDTGLSIHFRNGAYVDIDELSRQCGIDYSRLDRLCDFLIEIGILVNHGHKVTLSEECSALADPESMESLMVKLELSPDYWNAWSMYPRSLLENDGKPAFEITHGKSFFEHLASNKLLKSNFDSLMSKVSDKIIEKLLDIYDFGQYNRILDIGGGEGSLLVKMSEKVKGKHYAVLDRYDEIPVLENIDFINGDFLKVIPSGYDLYILKDVIHDWSDNNAILILENCRKAMDNGSAVLLISMMKKPQSKMVIYFDILMDVLFSGKERYLTEFERLANQAGLVIQDVKDIDESYSIIQLGIK SMLAELITSYRKSAAIYAFVDTGLSIHFRNGAYVDIDELSRQCGIDYSRLDRLCDFLIEIGILVNHGHKVTLSEECSALADPESMESLMVKLELSPDYWNAWSMYPRSLLENDGKPAFEITHGKSFFEHLASNKLLKSNFDSLMSKVSDKIIEKLLDIYDFGQYNRILDIGGGEGSLLVKMSEKVKGKHYAVLDRYDEIPVLENIDFINGDFLKVIPSGYDLYILKDVIHDWSDNNAILILENCRKAMDNGSAVLLISMMKKPQSKMVIYFDILMDVLFSGKERYLTEFERLANQAGLVIQDVKDIDESYSIIQLGIK 8bj4-a2-m1-cD_8bj4-a2-m1-cC Crystal structure of Medicago truncatula histidinol-phosphate aminotransferase (HISN6) in apo form A0A072U7F9 A0A072U7F9 1.45 X-RAY DIFFRACTION 238 1.0 3880 (Medicago truncatula) 3880 (Medicago truncatula) 359 363 8bj1-a1-m1-cA_8bj1-a1-m1-cB 8bj2-a1-m1-cA_8bj2-a1-m1-cB 8bj3-a1-m1-cB_8bj3-a1-m1-cA 8bj4-a1-m1-cA_8bj4-a1-m1-cB DSFIRQHLRKLAPYQPILPFEVLSSRLGRKPEDIVKLDANENPYGPPPEVMEALGSIRFPYVYPDPESRRLRAALAQDSGLESEYILVGCGADELIDLIMRCVLDPGDKIVDCPPTFTMYEFDAAVNGALVIKVPRRPDFSLNVEQIIEVVKQEKPKCIFLTSPNNPDGSIIDDDDLLKILELPILVVLDEAYIEFSTIESKMSWVKKHDNLIVLRTFSKRAGLAGLRVGYGAFPLSIIKYLWRAKQPYNVSVAAEISACAALQNPTYLENVKDALVKERGRLFDLLKAVPFLKPFPSHSNFILCEVTSGVDPKKLKEDLAEMGVMIRHYSNKELKGYVRVSVGKPEHTDVLMNCISRL SNADSFIRQHLRKLAPYQPILPFEVLSSRLGRKPEDIVKLDANENPYGPPPEVMEALGSIRFPYVYPDPESRRLRAALAQDSGLESEYILVGCGADELIDLIMRCVLDPGDKIVDCPPTFTMYEFDAAVNGALVIKVPRRPDFSLNVEQIIEVVKQEKPKCIFLTSPNNPDGSIIDDDDLLKILELPILVVLDEAYIEFSTIESKMSWVKKHDNLIVLRTFSKRAGLAGLRVGYGAFPLSIIKYLWRAKQPYNVSVAAEISACAALQNPTYLENVKDALVKERGRLFDLLKAVPFLKPFPSHSNFILCEVTSGVDPKKLKEDLAEMGVMIRHYSNKELKGYVRVSVGKPEHTDVLMNCISRLS 8bmw-a1-m1-cD_8bmw-a1-m1-cE SsoCsm A0A157T170 A0A157T170 3.5 ELECTRON MICROSCOPY 38 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 121 122 8bmw-a1-m1-cB_8bmw-a1-m1-cA 8bmw-a1-m1-cB_8bmw-a1-m1-cC 8bmw-a1-m1-cC_8bmw-a1-m1-cD DLLDIATRIAISAIKPKPKSNKPEPYVDSSTINSLLSFLQSRRNVNELLLYIMRQAGRDEIDEETGKLLLASLKDRELKDAVNLLGYVKWVYDTLTGLKVNYNNVKGVKTFKELVNILSKV QDLLDIATRIAISAIKPKPKSNKPEPYVDSSTINSLLSFLQSRRNVNELLLYIMRQAGRDEIDEETGKLLLASLKDRELKDAVNLLGYVKWVYDTLTGLKVNYNNVKGVKTFKELVNILSKV 8bmw-a1-m1-cG_8bmw-a1-m1-cF SsoCsm A0A157T0X8 A0A157T0X8 3.5 ELECTRON MICROSCOPY 68 0.987 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 238 239 MDLDVITTVVKIEGKLRNETLLRVGKGKTQDFAEATDNPIIKYRDRPLIPGSSLKGAFRSLVESYTKSLNDSKYYVCDLDDNSCVSCEEKKKIVEGRYCIPCILFGFKDLASRVYILDAIAEKYSISQRTMVAINRVFGGQMPGHLYTLDYVDPGSEFSFMMMIYNLNLIEGEKDWKAKSVEALKFLLATLVREGIFVGARKSVGYGLIKLVDAKVSLYKAPDHLVSPVIVKKLEEVI SCMDLDVITTVVKIEGKLRNETLLRVGKGKTQDFAEATDNPIIKYRDRPLIPGSSLKGAFRSLVESYTKSLNDSKYYVCDLDDNSCVSCEEKKEGRYCIPCILFGFKDLASRVYILDAIAEKYSISQRTMVAINRVFGGQMPGHLYTLDYVDPGSEFSFMMMIYNLNLIEGEKDWKAKSVEALKFLLATLVREGIFVGARKSVGYGLIKLVDAKVSLYKAPDHLVSPVIVKKLEEVIGT 8bmw-a1-m1-cH_8bmw-a1-m1-cI SsoCsm A0A157T120 A0A157T120 3.5 ELECTRON MICROSCOPY 62 1.0 2287 (Saccharolobus solfataricus) 2287 (Saccharolobus solfataricus) 275 275 YTFIDKRVIKRTTMIEGDVETVSPLKIGGGKDNFDPSSLAKDSILKDVEGRPIIPGSSWKGIFRSTGERILRLRNIEVCSGIGKDYCLNNNRKERDFNSALKENVDQALEIFWDYTCLNCKVFGTMSVIGAVRFLDSLPISYSLNTRSMIAISRTEGAVARRALVTVEYVDVGSKFSFKMMGYNLPNYAIGYLITIMKNIHDGFTQVGGHKSRGFGFVKFGKVKFTDLGEKRIGDEDIQVKDVGDLVEGNGDEFFGRMKPFMEAFNNAKIPYPKK YTFIDKRVIKRTTMIEGDVETVSPLKIGGGKDNFDPSSLAKDSILKDVEGRPIIPGSSWKGIFRSTGERILRLRNIEVCSGIGKDYCLNNNRKERDFNSALKENVDQALEIFWDYTCLNCKVFGTMSVIGAVRFLDSLPISYSLNTRSMIAISRTEGAVARRALVTVEYVDVGSKFSFKMMGYNLPNYAIGYLITIMKNIHDGFTQVGGHKSRGFGFVKFGKVKFTDLGEKRIGDEDIQVKDVGDLVEGNGDEFFGRMKPFMEAFNNAKIPYPKK 8bnr-a1-m1-cA_8bnr-a1-m1-cB Escherichia coli anaerobic fatty acid beta oxidation trifunctional enzyme (anEcTFE) octameric complex P76503 P76503 10.3 ELECTRON MICROSCOPY 129 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 436 436 8bnr-a1-m1-cE_8bnr-a1-m1-cF 8bnu-a1-m1-cA_8bnu-a1-m1-cB 8brj-a1-m1-cA_8brj-a1-m1-cB MGQVLPLVTRQGDRIAIVSGLRTPFARQATAFHGIPAVDLGKMVVGELLARSEIPAEVIEQLVFGQVVQMPEAPNIAREIVLGTGMNVHTDAYSVSRACATSFQAVANVAESLMAGTIRAGIAGGADSSSVLPIGVSKKLARVLVDVNKARTMSQRLKLFSRLRLRDLMPVPPAVAEYSTGLRMGDTAEQMAKTYGITREQQDALAHRSHQRAAQAWSDGKLKEEVMTAFIPPYKQPLVEDNNIRGNSSLADYAKLRPAFDRKHGTVTAANSTPLTDGAAAVILMTESRAKELGLVPLGYLRSYAFTAIDVWQDMLLGPAWSTPLALERAGLTMSDLTLIDMHEAFAAQTLANIQLLGSERFAREALGRAHATGEVDDSKFNVLGGSIAYGHPFAATGARMITQTLHELRRRGGGFGLVTACAAGGLGAAMVLEAE MGQVLPLVTRQGDRIAIVSGLRTPFARQATAFHGIPAVDLGKMVVGELLARSEIPAEVIEQLVFGQVVQMPEAPNIAREIVLGTGMNVHTDAYSVSRACATSFQAVANVAESLMAGTIRAGIAGGADSSSVLPIGVSKKLARVLVDVNKARTMSQRLKLFSRLRLRDLMPVPPAVAEYSTGLRMGDTAEQMAKTYGITREQQDALAHRSHQRAAQAWSDGKLKEEVMTAFIPPYKQPLVEDNNIRGNSSLADYAKLRPAFDRKHGTVTAANSTPLTDGAAAVILMTESRAKELGLVPLGYLRSYAFTAIDVWQDMLLGPAWSTPLALERAGLTMSDLTLIDMHEAFAAQTLANIQLLGSERFAREALGRAHATGEVDDSKFNVLGGSIAYGHPFAATGARMITQTLHELRRRGGGFGLVTACAAGGLGAAMVLEAE 8bns-a2-m1-cC_8bns-a2-m1-cD Crystal structure of Pif1 from Sulfurihydrogenibium sp in complex with ADP B2V894 B2V894 3.24 X-RAY DIFFRACTION 39 1.0 436114 (Sulfurihydrogenibium sp. YO3AOP1) 436114 (Sulfurihydrogenibium sp. YO3AOP1) 433 433 8bns-a1-m1-cA_8bns-a1-m1-cB MIQTVEFNEQFSKALDLMENTNKNVLIVGRAGTGKSTLLNYFRNNTKKKIAVLAPTGVAAVNIKGQTIHSFFNFKPDITLSSVKDIKPKNKEIYKKLDAIVIDEVSMVRADLFDCINEFLKIHGKQPGEPFGGIQLILIGDLYQLPPVVTSSEKKFFSQIYKSPFFFDSISFNEAEFEFVELEKVYRQKDEKFIKLLNAIRNKTIEEKDLEELNKRYIPDFEPDEKEFYIYLTTTNELADKINQQKLEKLKGKKYVYQGYIEGDFSEKDLPAPLELVIKKGTQVMLLNNDYQGRWINGSMGRVVDIEKVKGNEDIIWVELEDGEEVPVQPYEWDMFEFYYDKAQKKIKSRTVGSYYQYPLKPAWAITIHKSQGLTFDKVIIDIGRGTFSHGQLYVALSRCRSLEGLVLKKPISEKYIWLDKRVVSFLTKYQYK MIQTVEFNEQFSKALDLMENTNKNVLIVGRAGTGKSTLLNYFRNNTKKKIAVLAPTGVAAVNIKGQTIHSFFNFKPDITLSSVKDIKPKNKEIYKKLDAIVIDEVSMVRADLFDCINEFLKIHGKQPGEPFGGIQLILIGDLYQLPPVVTSSEKKFFSQIYKSPFFFDSISFNEAEFEFVELEKVYRQKDEKFIKLLNAIRNKTIEEKDLEELNKRYIPDFEPDEKEFYIYLTTTNELADKINQQKLEKLKGKKYVYQGYIEGDFSEKDLPAPLELVIKKGTQVMLLNNDYQGRWINGSMGRVVDIEKVKGNEDIIWVELEDGEEVPVQPYEWDMFEFYYDKAQKKIKSRTVGSYYQYPLKPAWAITIHKSQGLTFDKVIIDIGRGTFSHGQLYVALSRCRSLEGLVLKKPISEKYIWLDKRVVSFLTKYQYK 8bny-a1-m1-cA_8bny-a1-m1-cD Structure of the tetramerization domain of pLS20 conjugation repressor Rco E9RIY8 E9RIY8 1.429 X-RAY DIFFRACTION 75 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 35 36 8bny-a1-m1-cB_8bny-a1-m1-cC VIRFFDVTGLSEKDIERVKEEIELLKIRNEYMKLK SVIRFFDVTGLSEKDIERVKEEIELLKIRNEYMKLK 8bny-a1-m1-cC_8bny-a1-m1-cD Structure of the tetramerization domain of pLS20 conjugation repressor Rco E9RIY8 E9RIY8 1.429 X-RAY DIFFRACTION 15 1.0 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 35 36 SVIRFFDVTGLSEKDIERVKEEIELLKIRNEYMKL SVIRFFDVTGLSEKDIERVKEEIELLKIRNEYMKLK 8bpk-a1-m1-cA_8bpk-a1-m2-cA Structural flexibility of Nucleoprotein of the Toscana virus in the presence of a nanobody. P21701 P21701 3.6 X-RAY DIFFRACTION 81 1.0 11590 (Toscana virus) 11590 (Toscana virus) 247 247 ENYRDIALAFLDESADSGTINAWVNEFAYFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKVG ENYRDIALAFLDESADSGTINAWVNEFAYFDPKRIVQLVKERGTAKGRDWKKDVKMMIVLNLVRGNKPEAMMKKMSEKGASIVANLISVYQLKEGNPGRDTITLSRVSAAFVPWTVQALRVLSESLPVSGTTMDAIAGVTYPRAMMHPSFAGIIDLDLPNGAGATIADAHGLFMIEFSKTINPSLRTKQANEVAATFEKPNMAAMSGRFFTREDKKKLLIAVGIIDEDLVLASAVVRSAEKYRAKVG 8bpr-a1-m1-cB_8bpr-a1-m1-cA Complex of RecF-RecO-RecR-DNA from Thermus thermophilus (low resolution reconstruction). Q5SLM9 Q5SLM9 3.65 ELECTRON MICROSCOPY 44 1.0 300852 (Thermus thermophilus HB8) 300852 (Thermus thermophilus HB8) 340 341 8a8j-a1-m1-cA_8a8j-a1-m1-cB 8a93-a1-m1-cB_8a93-a1-m1-cA MRLLLFRQRNFRNLALEAYRPPPGLSALVGANAQGKTSLLLGIHLALGGEVLGLADLVRFGEEEAWLHAEVETELGAYRLEHRLGPGGREVLLNGKRVSLRTLWELPGSVLVSPLDLEAVLGPKEERRAYLDRLIARFSRRYAALLSAYEKALRQRNALLKAGGEGLSAWDRELARYGDEIVALRRRFLRRFAPILREVHAALAAKEAGLRLEETAGEGVLRALEASRAEERERGQTLVGPHRDDLVFLLEGRPAHRFASRGEAKTLALALRLAEHRLLGEHHGEPPLLLVDEWGEELDEARRRAVLAYAQALPQAILAGLEAPPGVPVCSVVRGVVLCP MRLLLFRQRNFRNLALEAYRPPPGLSALVGANAQGKTSLLLGIHLALGGEVPLGLADLVRFGEEEAWLHAEVETELGAYRLEHRLGPGGREVLLNGKRVSLRTLWELPGSVLVSPLDLEAVLGPKEERRAYLDRLIARFSRRYAALLSAYEKALRQRNALLKAGGEGLSAWDRELARYGDEIVALRRRFLRRFAPILREVHAALAAKEAGLRLEETAGEGVLRALEASRAEERERGQTLVGPHRDDLVFLLEGRPAHRFASRGEAKTLALALRLAEHRLLGEHHGEPPLLLVDEWGEELDEARRRAVLAYAQALPQAILAGLEAPPGVPVCSVVRGVVLCP 8bq4-a1-m1-cA_8bq4-a1-m1-cB Crystal Structure of Phosphatidylinositol 5-Phosphate 4-Kinase (PI5P4K2C) bound to an inhibitor 2.42 X-RAY DIFFRACTION 62 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 285 290 7qie-a1-m1-cB_7qie-a1-m1-cA 7qie-a2-m1-cC_7qie-a2-m1-cD DPLVGVFLWGVAHSINELSQVPPPVMLLPDDFKASSKIKVNNHLFHRENLPSHFKFKEYCPQVFRNLRDRFGIDDQDYLVSLTRNPPSESERFLISYDRTLVIKEVSSEDIADMHSNLSNYHQYIVKCHGNTLLPQFLGMYRVSVDNEDSYMLVMRNMFSHRLPVHRKYDLKGSLVSREASDKEKVKELPTLKDMDFLNKNQKVYIGEEEKKIFLEKLKRDVEFLVQLKIMDYSLLLGIHDIIDVYAIRSAEGAPQKEVYFMGLIDILVHPEQYAKRFLDFITNI DPLVGVFLWGVAHSINELSQVPPPVMLLPDDFKASSKIKVNNHLFHRENLPSHFKFKEYCPQVFRNLRDRFGIDDQDYLVSLTRNPPSESEGRFLISYDRTLVIKEVSSEDIADMHSNLSNYHQYIVKCHGNTLLPQFLGMYRVSVDNEDSYMLVMRNMFSHRLPVHRKYDLKGSLVSREASDKEKVKELPTLKDMDFLNKNQKVYIGEEEKKIFLEKLKRDVEFLVQLKIMDYSLLLGIHDIIIDVYAIRSAEGAPQKEVYFMGLIDILTQYDHPEQYAKRFLDFITNI 8bq6-a1-m1-cAA_8bq6-a1-m1-cBA Cryo-EM structure of the Arabidopsis thaliana I+III2 supercomplex (Complete conformation 2 composition) Q9ZU25 Q9ZU25 2.8 ELECTRON MICROSCOPY 56 0.998 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 420 420 8bep-a1-m1-cA_8bep-a1-m1-cK 8bpx-a1-m1-cAA_8bpx-a1-m1-cBA 8bq5-a1-m1-cBA_8bq5-a1-m1-cAA LTSLDMPLQGVSLPPPLADKVEPSKLQITTLPNGLKIASETTPNPAASIGLYVDCGSIYEAPYFHGATHLLERMAFKSTLNRTHFRLVREIEAIGGNTSASASREQMSYTIDALKTYVPEMVEVLIDSVRNPAFLDWEVNEELRKMKVEIAELAKNPMGFLLEAIHSAGYSGPLASPLYAPESALDRLNGELLEEFMTENFTAARMVLAASGVEHEELLKVAEPLTSDLPNVPPQLAPKSQYVGGDFRQHTGGEATHFAVAFEVPGWNNEKEAVTATVLQMLMGSCTAFTSIFNDTGLFGIYGCSSPQFAAKAIELAAKELKDVAGGKVNQAHLDRAKAATKSAVLMNLESRMIAAEDIGRQILTYGERKPVDQFLKSVDQLTLKDIADFTSKVISKPLTMGSFGDVLAVPSYDTISSKF ALTSLDMPLQGVSLPPPLADKVEPSKLQITTLPNGLKIASETTPNPAASIGLYVDCGSIYEAPYFHGATHLLERMAFKSTLNRTHFRLVREIEAIGGNTSASASREQMSYTIDALKTYVPEMVEVLIDSVRNPAFLDWEVNEELRKMKVEIAELAKNPMGFLLEAIHSAGYSGPLASPLYAPESALDRLNGELLEEFMTENFTAARMVLAASGVEHEELLKVAEPLTSDLPNVPPQLAPKSQYVGGDFRQHTGGEATHFAVAFEVPGWNNEKEAVTATVLQMLMSCTAFTSIFNDTGLFGIYGCSSPQFAAKAIELAAKELKDVAGGKVNQAHLDRAKAATKSAVLMNLESRMIAAEDIGRQILTYGERKPVDQFLKSVDQLTLKDIADFTSKVISKPLTMGSFGDVLAVPSYDTISSKF 8brl-a1-m1-cD_8brl-a1-m2-cD Room temperature crystal structure of cytochrome c' from Hydrogenophilus thermoluteolus F7J213 F7J213 1.88 X-RAY DIFFRACTION 66 1.0 297 (Hydrogenophilus thermoluteolus) 297 (Hydrogenophilus thermoluteolus) 134 134 5b3i-a1-m1-cA_5b3i-a1-m1-cB 5b3i-a2-m1-cC_5b3i-a2-m1-cD ALKPEDKVKFRQASYTTMAWNMGKIKAMVVDGTMPFSQTQVSAAANVIAAIANSGMGALYSPDTLGVVGFKKSRLKENFFQEQDEVRKIATNFVEQANKLAEVAAMGDKDEIKAQFGEVGKACKACHEKFREEE ALKPEDKVKFRQASYTTMAWNMGKIKAMVVDGTMPFSQTQVSAAANVIAAIANSGMGALYSPDTLGVVGFKKSRLKENFFQEQDEVRKIATNFVEQANKLAEVAAMGDKDEIKAQFGEVGKACKACHEKFREEE 8brp-a2-m1-cC_8brp-a2-m1-cD Peptide Arginase OspR from the cyanobacterium Kamptonema sp. D8G6F7 D8G6F7 2.6 X-RAY DIFFRACTION 100 1.0 1501433 (Kamptonema) 1501433 (Kamptonema) 299 303 8brp-a1-m1-cB_8brp-a1-m1-cA KIPFYIEEHNEAFFIWHYAVAEGWINKNQNTLLHVDEHSDLVVPILNSSLKSVNENIKRVHDFTYSELTIANFIYPALYQGVFSQVYWLRQKHDPKLNGQKQLNIYSHQGEGKRLILKSKVDFNNLFNPDCKSFTITPLNAQDDLSSEESKKLNKSVILDIDIDYFSCDNVSGEYLEVEITEEAYYDYINNLYNKLRICWGGNASVKYDGKYYFCIIQPVAENLKVSEDAIVERIDALIDFLKVNEIQPKLIDVCRSRLSGYTPNDQWEFIENTLVEKLSSIYEFEPIFVSELSKKVLV AKIPFYIEEHNEAFFIWHYAVAEGWINKNQNTLLHVDEHSDLVVPILNSSLKSVNENIKRVHDFTYSELTIANFIYPALYQGVFSQVYWLRQKHDPKLNGQKQLNIYSHQGEGKRLILKSKVDFNNLFNPDCKSFTITPLNAQDDLSSEESKKLNKSVILDIDIDYFSCDNVSGEYLEVEITEEAYYDYINNLYNKLRICWGGNASVKYDGKYYFCIIQPDKLVAENLKVSEDAIVERIDALIDFLKVNEIQPKLIDVCRSRLSGYTPNDQWEFIENTLVEKLSSIYEFEPIFVSELSKKVLV 8bt1-a1-m1-cA_8bt1-a1-m1-cC YdaT transcription regulator (CII functional analog) A0A6M7H0F8 A0A6M7H0F8 2.39788 X-RAY DIFFRACTION 48 0.992 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 123 123 KIKHEHIRMAMNVWAHPDGEKVPAAKITKAYFELGMTFPELYDDSHPEALARNTQKIFRWLDKDTPDAVEKMQALLPAIEKAMPPLLVARMRSHSSEYYREIVERRDRLVKDVDDFVASAVVL SKIKHEHIRMAMNVWAHPDGEKVPAAKITKAYFELGMTFPELYDDSHPEALARNTQKIFRWLDKDTPDAVEKMQALLPAIEKAMPPLLVARMRSHSSEYYREIVERRDRLVKDVDDFVASAVV 8bt1-a1-m1-cC_8bt1-a1-m1-cD YdaT transcription regulator (CII functional analog) A0A6M7H0F8 A0A6M7H0F8 2.39788 X-RAY DIFFRACTION 30 0.992 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 123 126 8bt1-a1-m1-cA_8bt1-a1-m1-cB SKIKHEHIRMAMNVWAHPDGEKVPAAKITKAYFELGMTFPELYDDSHPEALARNTQKIFRWLDKDTPDAVEKMQALLPAIEKAMPPLLVARMRSHSSEYYREIVERRDRLVKDVDDFVASAVV KIKHEHIRMAMNVWAHPDGEKVPAAKITKAYFELGMTFPELYDDSHPEALARNTQKIFRWLDKDTPDAVEKMQALLPAIEKAMPPLLVARMRSHSSEYYREIVERRDRLVKDVDDFVASAVVLYDQ 8bt1-a1-m1-cD_8bt1-a1-m1-cB YdaT transcription regulator (CII functional analog) A0A6M7H0F8 A0A6M7H0F8 2.39788 X-RAY DIFFRACTION 52 1.0 83334 (Escherichia coli O157:H7) 83334 (Escherichia coli O157:H7) 126 127 KIKHEHIRMAMNVWAHPDGEKVPAAKITKAYFELGMTFPELYDDSHPEALARNTQKIFRWLDKDTPDAVEKMQALLPAIEKAMPPLLVARMRSHSSEYYREIVERRDRLVKDVDDFVASAVVLYDQ KIKHEHIRMAMNVWAHPDGEKVPAAKITKAYFELGMTFPELYDDSHPEALARNTQKIFRWLDKDTPDAVEKMQALLPAIEKAMPPLLVARMRSHSSEYYREIVERRDRLVKDVDDFVASAVVLYDQM 8bvb-a1-m1-cA_8bvb-a1-m3-cC Crystal structure of the apo form of SmbA loop deletion mutant. Q9A5E6 Q9A5E6 1.8 X-RAY DIFFRACTION 29 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 289 289 8bvb-a1-m1-cB_8bvb-a1-m2-cD MRYRPFGSTGVAVSALTLRLADNPRLRANDWRALVFTALENGVNSFQIDGDAPELLKGAGEAFASVERHLLFLTWRLRGDAKQLGPHTLDALKRSAFEGLSLDYLDLLLINDPQSASLPMAFESGLQDLQKGRALRGLGVASRGDIDPGLLANDLVTAVSSPYNLSSGWAERHRIRQASQNNFAVIGEDFWPQALRELADVGGYEFLTNTPGWSAEDICLGYALTEPSLATVRVTADNRQEIERLAAVVERDLPTGVCAQIEMARFSAQEREKAARRPKLAAALEHHHH MRYRPFGSTGVAVSALTLRLADNPRLRANDWRALVFTALENGVNSFQIDGDAPELLKGAGEAFASVERHLLFLTWRLRGDAKQLGPHTLDALKRSAFEGLSLDYLDLLLINDPQSASLPMAFESGLQDLQKGRALRGLGVASRGDIDPGLLANDLVTAVSSPYNLSSGWAERHRIRQASQNNFAVIGEDFWPQALRELADVGGYEFLTNTPGWSAEDICLGYALTEPSLATVRVTADNRQEIERLAAVVERDLPTGVCAQIEMARFSAQEREKAARRPKLAAALEHHHH 8bvb-a1-m1-cB_8bvb-a1-m3-cC Crystal structure of the apo form of SmbA loop deletion mutant. Q9A5E6 Q9A5E6 1.8 X-RAY DIFFRACTION 190 1.0 155892 (Caulobacter vibrioides) 155892 (Caulobacter vibrioides) 289 289 8bvb-a1-m1-cA_8bvb-a1-m2-cD MRYRPFGSTGVAVSALTLRLADNPRLRANDWRALVFTALENGVNSFQIDGDAPELLKGAGEAFASVERHLLFLTWRLRGDAKQLGPHTLDALKRSAFEGLSLDYLDLLLINDPQSASLPMAFESGLQDLQKGRALRGLGVASRGDIDPGLLANDLVTAVSSPYNLSSGWAERHRIRQASQNNFAVIGEDFWPQALRELADVGGYEFLTNTPGWSAEDICLGYALTEPSLATVRVTADNRQEIERLAAVVERDLPTGVCAQIEMARFSAQEREKAARRPKLAAALEHHHH MRYRPFGSTGVAVSALTLRLADNPRLRANDWRALVFTALENGVNSFQIDGDAPELLKGAGEAFASVERHLLFLTWRLRGDAKQLGPHTLDALKRSAFEGLSLDYLDLLLINDPQSASLPMAFESGLQDLQKGRALRGLGVASRGDIDPGLLANDLVTAVSSPYNLSSGWAERHRIRQASQNNFAVIGEDFWPQALRELADVGGYEFLTNTPGWSAEDICLGYALTEPSLATVRVTADNRQEIERLAAVVERDLPTGVCAQIEMARFSAQEREKAARRPKLAAALEHHHH 8bve-a1-m1-cA_8bve-a1-m1-cB MoeA2 from Corynebacterium glutamicum Q8NS03 Q8NS03 2.14 X-RAY DIFFRACTION 221 0.992 196627 (Corynebacterium glutamicum ATCC 13032) 196627 (Corynebacterium glutamicum ATCC 13032) 397 398 8bvf-a1-m1-cA_8bvf-a1-m1-cB MRSVEQQLSIVTEAAVAPEPVRIAIAEALGLMCAEEVQASRALPGFAQAAIDGYAVRAVDVGGKSLPVVGEVAAGSQQPLRLQPKQAVMVHTGAPLPMLADAVLPMAWSDRGRKRVTAQRPVRSGEFVRKEGDDIQPGDIAVSAGAVLGPAQIGLLAAVGRSKVLVYPRPRMSVISVGAELVDIDRQPGLGQVYDVNSYSLAAAGREAGADVYRYGIAAGEPRRIKEIIESQMLRSEIIVITGAVGGAGSAGVRQVLNELGDIDTERVAMHPGSVQGFGLLGENKIPCFLLPSNPVASLVIFETFVRPVVRMSLGKSNAARRVVRARALNHVVSVAGRKGFIRSRLMRDAETQDYLVEALGSHLLAGLSEANGMIRIPEDVTEIRPGDVVDVIFLAQ MRSVEQQLSIVTEAAVAPEPVRIAIAEALGLMCAEEVQASRALPGFAQAAIDGYAVRAVDVGGEKSLKSLPVVGEVAAGSQQPLRLQPKQAVMVHTGAPLPMLADAVLPMAWSDRGRKRVTAQRPVRSGEFVRKEGDDIQPGDIAVSAGAVLGPAQIGLLAAVGRSKVLVYPRPRMSVISVGAELVDIDRQPGLGQVYDVNSYSLAAAGREAGADVYRYGIAAGEPRRIKEIIESQMLRSEIIVITGAVGGAGSAGVRQVLNELGDIDTERVAMHPGSVQGFGLLGENKIPCFLLPSNPVASLVIFETFVRPVVRMSLGKSNAARRVVRARALNHVVSVAGRKGFIRSRLMRDAETQDYLVEALHLLAGLSEANGMIRIPEDVTEIRPGDVVDVIFLA 8bxx-a2-m1-cBB_8bxx-a2-m2-cCC Crystal structure of formate dehydrogenase FDH2 enzyme from Granulicella mallensis MP5ACTX8 in complex with NAD and azide. G8NTI5 G8NTI5 1.97 X-RAY DIFFRACTION 254 1.0 682795 (Granulicella mallensis MP5ACTX8) 682795 (Granulicella mallensis MP5ACTX8) 370 370 6t8c-a1-m2-cD_6t8c-a1-m1-cA 6t8c-a2-m1-cB_6t8c-a2-m1-cC 6t9w-a1-m1-cB_6t9w-a1-m2-cC 6t9w-a2-m1-cD_6t9w-a2-m1-cA 6t9x-a1-m1-cA_6t9x-a1-m1-cB 6t9x-a2-m1-cC_6t9x-a2-m2-cD 8bxx-a1-m1-cAA_8bxx-a1-m1-cDD AKILCVLYDDPITGYPKSYARADVPKIDHYPGGQTAPTPKQIDFTPGELLGSVSGELGLRKYLEGLGHTLVVTSDKEGEDSVFERELPDAEIVISQPFWPAYLTPERIAKAKKLKLAVTAGIGSDHVDLEAAIKNGITVAEVTYSNSISVSEHVVMMILSLVRNYIPSYQWVIKGGWNIADCVERSYDLEAMHVGTVAAGRIGLAVLKRLKPFDVKLHYFDQHRLPESVENELGLTYHPSVEDMVKVCDVVTINAPLHPGTLDLFNDELISKMKRGAYLVNTARGKICNRDAVVRALESGQLAGYAGDVWFPQPAPKDHPWRTMPHHGMTPHISGTSLSAQARYAAGTREILECWFEERPIREEYLIVDG AKILCVLYDDPITGYPKSYARADVPKIDHYPGGQTAPTPKQIDFTPGELLGSVSGELGLRKYLEGLGHTLVVTSDKEGEDSVFERELPDAEIVISQPFWPAYLTPERIAKAKKLKLAVTAGIGSDHVDLEAAIKNGITVAEVTYSNSISVSEHVVMMILSLVRNYIPSYQWVIKGGWNIADCVERSYDLEAMHVGTVAAGRIGLAVLKRLKPFDVKLHYFDQHRLPESVENELGLTYHPSVEDMVKVCDVVTINAPLHPGTLDLFNDELISKMKRGAYLVNTARGKICNRDAVVRALESGQLAGYAGDVWFPQPAPKDHPWRTMPHHGMTPHISGTSLSAQARYAAGTREILECWFEERPIREEYLIVDG 8c0c-a1-m1-cB_8c0c-a1-m1-cA X-ray crystal structure of PPAR gamma ligand binding domain in complex with CZ46 P37231 P37231 2.2 X-RAY DIFFRACTION 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 228 257 1knu-a1-m1-cB_1knu-a1-m1-cA 1prg-a1-m1-cA_1prg-a1-m1-cB 1zeo-a1-m1-cB_1zeo-a1-m1-cA 2i4j-a1-m1-cA_2i4j-a1-m1-cB 2i4p-a1-m1-cA_2i4p-a1-m1-cB 2i4z-a1-m1-cA_2i4z-a1-m1-cB 2q61-a1-m1-cA_2q61-a1-m1-cB 2zk0-a1-m1-cB_2zk0-a1-m1-cA 2zk1-a1-m1-cB_2zk1-a1-m1-cA 2zk2-a1-m1-cB_2zk2-a1-m1-cA 2zk3-a1-m1-cB_2zk3-a1-m1-cA 2zk4-a1-m1-cB_2zk4-a1-m1-cA 2zk5-a1-m1-cB_2zk5-a1-m1-cA 2zk6-a1-m1-cB_2zk6-a1-m1-cA 2zno-a1-m1-cB_2zno-a1-m1-cA 2zvt-a1-m1-cB_2zvt-a1-m1-cA 3ads-a1-m1-cB_3ads-a1-m1-cA 3adw-a1-m1-cB_3adw-a1-m1-cA 3adx-a1-m1-cB_3adx-a1-m1-cA 3an3-a1-m1-cB_3an3-a1-m1-cA 3an4-a1-m1-cB_3an4-a1-m1-cA 3b0q-a1-m1-cB_3b0q-a1-m1-cA 3b0r-a1-m1-cB_3b0r-a1-m1-cA 3b3k-a1-m1-cA_3b3k-a1-m1-cB 3cdp-a1-m1-cA_3cdp-a1-m1-cB 3cds-a1-m1-cA_3cds-a1-m1-cB 3d6d-a1-m1-cA_3d6d-a1-m1-cB 3hod-a1-m1-cA_3hod-a1-m1-cB 3r8i-a1-m1-cA_3r8i-a1-m1-cB 3ty0-a1-m1-cA_3ty0-a1-m1-cB 3vji-a1-m1-cB_3vji-a1-m1-cA 3vsp-a1-m1-cB_3vsp-a1-m1-cA 3wj4-a1-m1-cA_3wj4-a1-m1-cB 3wmh-a1-m1-cB_3wmh-a1-m1-cA 4e4k-a1-m1-cA_4e4k-a1-m1-cB 4e4q-a1-m1-cA_4e4q-a1-m1-cB 4jaz-a1-m1-cB_4jaz-a1-m1-cA 4jl4-a1-m1-cB_4jl4-a1-m1-cA 4prg-a1-m1-cA_4prg-a1-m1-cB 4prg-a1-m1-cC_4prg-a1-m1-cD 4pvu-a1-m1-cB_4pvu-a1-m1-cA 4pwl-a1-m1-cB_4pwl-a1-m1-cA 4r6s-a1-m1-cB_4r6s-a1-m1-cA 4yt1-a1-m1-cB_4yt1-a1-m1-cA 5hzc-a1-m1-cB_5hzc-a1-m1-cA 5wqx-a1-m1-cB_5wqx-a1-m1-cA 5wr0-a1-m1-cB_5wr0-a1-m1-cA 5wr1-a1-m1-cB_5wr1-a1-m1-cA 6an1-a1-m1-cB_6an1-a1-m1-cA 6dgo-a1-m1-cB_6dgo-a1-m1-cA 6dgr-a1-m1-cB_6dgr-a1-m1-cA 6enq-a1-m1-cB_6enq-a1-m1-cA 6f2l-a1-m1-cB_6f2l-a1-m1-cA 6fzy-a1-m1-cB_6fzy-a1-m1-cA 6pdz-a1-m1-cA_6pdz-a1-m1-cB 6qj5-a1-m1-cB_6qj5-a1-m1-cA 6t1s-a1-m1-cA_6t1s-a1-m2-cA 6t9c-a1-m1-cB_6t9c-a1-m1-cA 6zly-a1-m1-cB_6zly-a1-m1-cA 7ahj-a1-m1-cA_7ahj-a1-m1-cB 7qb1-a1-m1-cBBB_7qb1-a1-m1-cAAA 7rle-a1-m1-cA_7rle-a1-m1-cC 8adf-a1-m1-cB_8adf-a1-m1-cA 8dsy-a1-m1-cA_8dsy-a1-m1-cB 8dsz-a1-m1-cA_8dsz-a1-m1-cB ESADLRALAKHLYDSYIKSFPLTKAKARAILTSPFVIYDMNSLMMGAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLLLQEIY QLNPESADLRALAKHLYDSYIKSFPLTKAKARAILTGKTTDKSPFVIYDMNSLMMGEVAIRIFQGCQFRSVEAVQEITEYAKSIPGFVNLDLNDQVTLLKYGVHEIIYTMLASLMNKDGVLISEGQGFMTREFLKSLRKPFGDFMEPKFEFAVKFNALELDDSDLAIFIAVIILSGDRPGLLNVKPIEDIQDNLLQALELQLKLNHPESSQLFAKLLQKMTDLRQIVTEHVQLLQVIKKTETDMSLHPLLQEIYKDL 8c0e-a1-m1-cH_8c0e-a1-m1-cG The lipid linked oligosaccharide polymerase Wzy and its regulating co-polymerase Wzz form a complex in vivo and in vitro Q6CZE3 Q6CZE3 3.6 ELECTRON MICROSCOPY 95 1.0 29471 (Pectobacterium atrosepticum) 29471 (Pectobacterium atrosepticum) 277 299 8c0e-a1-m1-cB_8c0e-a1-m1-cA 8c0e-a1-m1-cB_8c0e-a1-m1-cC 8c0e-a1-m1-cD_8c0e-a1-m1-cC 8c0e-a1-m1-cD_8c0e-a1-m1-cE 8c0e-a1-m1-cF_8c0e-a1-m1-cE 8c0e-a1-m1-cF_8c0e-a1-m1-cG 8c0e-a1-m1-cH_8c0e-a1-m1-cA IGLLFAVVALGYSYLVKQEWGATSITDKPTVNMLGGYYSQQQFLRNLDARSFSSPQPEQPSISAGAYDEFIMQLAAYDTRRDFWLQTDYYKQRLEGDEKADAALLDELVNNIQFTARDDGKKTNDSVKLVAETSSDSNTLLRQYVVFASQRAANHLNEEIKGAWAARTIFMKSQIKRQEAVAKAIYDREVRSVELALKIAQQQGRPMLQARLETLQTSGPHYELDYDQNRAMLATLNVGPTLEASFQTYRYLRTPEEPVKRDSPRRAFLMVMWGAIG IGLLFAVVALGYSYLVKQEWGATSITDKPTVNMLGGYYSQQQFLRNLDARSFSSPQPEQPSISAGAYDEFIMQLAAYDTRRDFWLQTDYYKQRLEGDEKADAALLDELVNNIQFTARDDGKKTNDSVKLVAETSSDSNTLLRQYVVFASQRAANHLNEEIKGAWAARTIFMKSQIKRQEAVAKAIYDREVRSVELALKIAQQQGISRSQTDTPADEIPASEMFLLGRPMLQARLETLQTSGPHYELDYDQNRAMLATLNVGPTLEASFQTYRYLRTPEEPVKRDSPRRAFLMVMWGAIG 8c0z-a1-m1-cC_8c0z-a1-m1-cF CryoEM structure of a tungsten-containing aldehyde oxidoreductase from Aromatoleum aromaticum Q5P144 Q5P144 3.22 ELECTRON MICROSCOPY 64 1.0 551760 (Aromatoleum aromaticum) 551760 (Aromatoleum aromaticum) 158 158 MWKSLHIDPAKCTGCLQCEMACSYEHTGVINPSKSRIKVFSFEHEGRKVPYTCTQCTEAWCLHSCPVDAIRLDLTTGAKMVFEDTCVGCKVCTIACPFGTINYNQDTGKVQKCDLCEGDPACAKACPTAAITYIDADWTGLARMQAWAAKANTPASAA MWKSLHIDPAKCTGCLQCEMACSYEHTGVINPSKSRIKVFSFEHEGRKVPYTCTQCTEAWCLHSCPVDAIRLDLTTGAKMVFEDTCVGCKVCTIACPFGTINYNQDTGKVQKCDLCEGDPACAKACPTAAITYIDADWTGLARMQAWAAKANTPASAA 8c5z-a1-m1-cB_8c5z-a1-m1-cK RPA tetrameric supercomplex with AROD-OB-1 Q9V1Z1 Q9V1Z1 3.8 ELECTRON MICROSCOPY 45 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 180 180 8c5y-a1-m1-cB_8c5y-a1-m1-cK 8c5y-a1-m1-cE_8c5y-a1-m1-cH 8c5z-a1-m1-cE_8c5z-a1-m1-cH KKRMPATRLYIKDILEGYFVKSEGDFEPNYLITKYARKVYRAKIVGTVVREPLIAEDETYGKFQVDDGTGVIWVLGFRDDTKFAKLVRKGDLVQVIGKIAEWRDDKQILVEGVSKVHPNMWILHRYETLKEKIEHIKKAKIALEIYNQYGITAKSKVIAKNKGIEEELLEVIDELYGIMM KKRMPATRLYIKDILEGYFVKSEGDFEPNYLITKYARKVYRAKIVGTVVREPLIAEDETYGKFQVDDGTGVIWVLGFRDDTKFAKLVRKGDLVQVIGKIAEWRDDKQILVEGVSKVHPNMWILHRYETLKEKIEHIKKAKIALEIYNQYGITAKSKVIAKNKGIEEELLEVIDELYGIMM 8c5z-a1-m1-cC_8c5z-a1-m1-cI RPA tetrameric supercomplex with AROD-OB-1 Q9V1Z0 Q9V1Z0 3.8 ELECTRON MICROSCOPY 32 1.0 29292 (Pyrococcus abyssi) 29292 (Pyrococcus abyssi) 112 112 8c5y-a1-m1-cC_8c5y-a1-m1-cI RRRKPAVERKISEIREEDTRVSLIGRVIKVDKMDYMFWLDDGTGVAIIESESDLPKVGQVVRVIGRIIRNEEGIHIYAEVIQDFSDADLEALEEIRELERKLLPRLEGEIVW RRRKPAVERKISEIREEDTRVSLIGRVIKVDKMDYMFWLDDGTGVAIIESESDLPKVGQVVRVIGRIIRNEEGIHIYAEVIQDFSDADLEALEEIRELERKLLPRLEGEIVW 8c79-a1-m1-cA_8c79-a1-m1-cB Crystal structure of Leishmania donovani 6-Phosphogluconate Dehydrogenase complexed with NADPH Q18L02 Q18L02 3.1 X-RAY DIFFRACTION 430 1.0 5661 (Leishmania donovani) 5661 (Leishmania donovani) 478 478 SNDLGIIGLGVMGANLALNIAEKGFKVAVFNRTSAKTASFLKEHESEKFAANLNGYETMKAFAASLKKPRRAFILVQAGAATDSTIEQLKEVLENGDIIIDTGNANFKDQDKRAAQLESQGLRFLGMGISGGEEGARKGPAFFPGGTPSVWEEVRPIVEAAAAKAEDGRPCVTFNGKGGAGSCVKMYHNAGEYAVLQIWGEAYTALLAFGFDNDQIADVFESWKADGFLKSYMLDISIAACRAREAAGNYLSEKVKDRIGSKGTGLWSAQEALEVGVPAPSLSMAVISRQMTMCKEERIANCKAFPNFPRGPSAEARDKSPNSPDAKQLYHAVSLCIIASYAQMFQCLRELDKVYGFGLNLPATIATFRAGCILQGYLLGPMTKAFEENPSLPNLMDAFTKEIVAGLDDCRQILAKLTVNTAVSLPVMMASLSYINAMYTETLPYGQLVSLQRDVFGRHGYERTDKDGRESFEWPALQ SNDLGIIGLGVMGANLALNIAEKGFKVAVFNRTSAKTASFLKEHESEKFAANLNGYETMKAFAASLKKPRRAFILVQAGAATDSTIEQLKEVLENGDIIIDTGNANFKDQDKRAAQLESQGLRFLGMGISGGEEGARKGPAFFPGGTPSVWEEVRPIVEAAAAKAEDGRPCVTFNGKGGAGSCVKMYHNAGEYAVLQIWGEAYTALLAFGFDNDQIADVFESWKADGFLKSYMLDISIAACRAREAAGNYLSEKVKDRIGSKGTGLWSAQEALEVGVPAPSLSMAVISRQMTMCKEERIANCKAFPNFPRGPSAEARDKSPNSPDAKQLYHAVSLCIIASYAQMFQCLRELDKVYGFGLNLPATIATFRAGCILQGYLLGPMTKAFEENPSLPNLMDAFTKEIVAGLDDCRQILAKLTVNTAVSLPVMMASLSYINAMYTETLPYGQLVSLQRDVFGRHGYERTDKDGRESFEWPALQ 8c7h-a1-m1-cB_8c7h-a1-m1-cD Cryo-EM Map of the latTGF-beta 28G11 Fab complex P01137 P01137 2.7 ELECTRON MICROSCOPY 21 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 89 111 ALDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS LDTNYCFSSTEKNCCVRQLYIDFRKDLGWKWIHEPKGYHANFCLGPCPYIWSLDTQYSKVLALYNQHNPGASAAPCCVPQALEPLPIVYYVGRKPKVEQLSNMIVRSCKCS 8c9t-a2-m1-cB_8c9t-a2-m1-cC Catechol O-methyltransferase from Streptomyces avermitilis Q82B68 Q82B68 1.5 X-RAY DIFFRACTION 122 1.0 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 227882 (Streptomyces avermitilis MA-4680 = NBRC 14893) 221 228 8c9s-a1-m1-cA_8c9s-a1-m1-cB 8c9t-a1-m1-cD_8c9t-a1-m1-cA SQQLWDDVDDYFTTLLAPEDEALTAALRDSDAAGLPHINVAPNQGKLLQLLAEIQGARRILEIGTLGGYSTIWLGRALPRDGRLISFEYDAKHAEVARRNLARAGLDGISEVRVGPALESLPKLADERPEPFDLVFIDADKVNNPHYVEWALKLTRPGSLIVVDNVVRGGGVTDAGSTDPSVRGTRSALELIAEHPKLSGTAVQTVGSKGYDGFALARVLP SQQLWDDVDDYFTTLLAPEDEALTAALRDSDAAGLPHINVAPNQGKLLQLLAEIQGARRILEIGTLGGYSTIWLGRALPRDGRLISFEYDAKHAEVARRNLARAGLDGISEVRVGPALESLPKLADERPEPFDLVFIDADKVNNPHYVEWALKLTRPGSLIVVDNVVRGGGVTDAGSTDPSVRGTRSALELIAEHPKLSGTAVQTVGSKGYDGFALARVLPLEHHHHH 8c9v-a1-m1-cA_8c9v-a1-m2-cA O-methyltransferase from Desulfuromonas acetoxidans Q1JXV1 Q1JXV1 1.5 X-RAY DIFFRACTION 77 1.0 281689 (Desulfuromonas acetoxidans DSM 684) 281689 (Desulfuromonas acetoxidans DSM 684) 187 187 LHQLLCELEEFGQAAQRMLNITPDTGEFLAVLVRAMNARRVLEIGTSNGYSTLWLADAVSAIDGSVTTVEYAEQKYRLAQKNFSRTSLAHRIDAILGDAGTILGNADDAVYDLIFLDSERSQYPGWWPDLKRLLRPGGLLVVDNALSHGEQMAPFKALVEADVEFTTCVVPVGKGEFLATRSALEHH LHQLLCELEEFGQAAQRMLNITPDTGEFLAVLVRAMNARRVLEIGTSNGYSTLWLADAVSAIDGSVTTVEYAEQKYRLAQKNFSRTSLAHRIDAILGDAGTILGNADDAVYDLIFLDSERSQYPGWWPDLKRLLRPGGLLVVDNALSHGEQMAPFKALVEADVEFTTCVVPVGKGEFLATRSALEHH 8cah-a1-m1-cy_8cah-a1-m1-cz Cryo-EM structure of native Otu2-bound ubiquitinated 43S pre-initiation complex A0A6A5PQW9 A0A6A5PQW9 3.0 ELECTRON MICROSCOPY 149 1.0 580240 (Saccharomyces cerevisiae W303) 580240 (Saccharomyces cerevisiae W303) 79 120 6zce-a1-m1-ct_6zce-a1-m1-cs 7a1g-a1-m1-cy_7a1g-a1-m1-cz THPLFNAETKREYQDLRKALTAAITPMNKKSPLNYSSSLAIDLIRDVAKPMSIESIRQTVATLNVLIKDKEREERQARL THPLFNAETKREYQDLRKALTAAITPMNKKSPLNYSSSLAIDLIRDVAKPMSIESIRQTVATLNVLIKDKEREERQARLARVRGGTATGGAGKKKVKGKTNLGGAFKKDQDFDLDGPDDF 8ceb-a1-m1-cA_8ceb-a1-m3-cA Type2 alpha-synuclein filament assembled in vitro by wild-type and mutant (7 residues insertion) protein P37840 P37840 2.8 ELECTRON MICROSCOPY 252 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 58 8ce7-a1-m1-cA_8ce7-a1-m3-cA 8ce7-a1-m1-cC_8ce7-a1-m3-cC 8ceb-a1-m1-cA_8ceb-a1-m2-cA 8ceb-a1-m1-cC_8ceb-a1-m2-cC 8ceb-a1-m1-cC_8ceb-a1-m3-cC VGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK VGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK 8ceb-a1-m3-cA_8ceb-a1-m3-cC Type2 alpha-synuclein filament assembled in vitro by wild-type and mutant (7 residues insertion) protein P37840 P37840 2.8 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 58 58 8ce7-a1-m1-cA_8ce7-a1-m1-cC 8ce7-a1-m1-cC_8ce7-a1-m3-cA 8ce7-a1-m3-cA_8ce7-a1-m3-cC 8ceb-a1-m1-cA_8ceb-a1-m1-cC 8ceb-a1-m1-cA_8ceb-a1-m2-cC 8ceb-a1-m1-cC_8ceb-a1-m3-cA 8ceb-a1-m2-cA_8ceb-a1-m2-cC VGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK VGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK 8cej-a3-m1-cD_8cej-a3-m3-cD Succinyl-CoA Reductase from Clostridium kluyveri (SucD) with Mesaconyl-C1-CoA P38947 P38947 2.1 X-RAY DIFFRACTION 189 1.0 1534 (Clostridium kluyveri) 1534 (Clostridium kluyveri) 449 449 8cei-a1-m1-cA_8cei-a1-m1-cB 8cei-a2-m1-cC_8cei-a2-m1-cD 8cej-a1-m1-cA_8cej-a1-m2-cA 8cej-a2-m1-cB_8cej-a2-m4-cC 8cek-a1-m1-cA_8cek-a1-m1-cB 8cek-a2-m1-cC_8cek-a2-m2-cC 8cek-a3-m1-cD_8cek-a3-m3-cD VSIKELIEKAKVAQKKLEAYSQEQVDVLVKALGKVVYDNAEMFAKEAVEETEMGVYEDKVAKCHLKSGAIWNHIKDKKTVGIIKEEPERALVYVAKPKGVVAATTPITNPVVTPMCNAMAAIKGRNTIIVAPHPKAKKVSAHTVELMNAELKKLGAPENIIQIVEAPSREAAKELMESADVVIATGGAGRVKAAYSSGRPAYGVGPGNSQVIVDKGYDYNKAAQDIITGRKYDNGIICSSEQSVIAPAEDYDKVIAAFVENGAFYVEDEETVEKFRSTLFKDGKINSKIIGKSVQIIADLAGVKVPEGTKVIVLKGKGAGEKDVLCKEKMCPVLVALKYDTFEEAVEIAMANYMYEGAGHTAGIHSDNDENIRYAGTVLPISRLVVNQPATTAGGSFNNGFNPTTTLGCGSWGRNSISENLTYEHLINVSRIGYFNKEAKVPSYEEIWG VSIKELIEKAKVAQKKLEAYSQEQVDVLVKALGKVVYDNAEMFAKEAVEETEMGVYEDKVAKCHLKSGAIWNHIKDKKTVGIIKEEPERALVYVAKPKGVVAATTPITNPVVTPMCNAMAAIKGRNTIIVAPHPKAKKVSAHTVELMNAELKKLGAPENIIQIVEAPSREAAKELMESADVVIATGGAGRVKAAYSSGRPAYGVGPGNSQVIVDKGYDYNKAAQDIITGRKYDNGIICSSEQSVIAPAEDYDKVIAAFVENGAFYVEDEETVEKFRSTLFKDGKINSKIIGKSVQIIADLAGVKVPEGTKVIVLKGKGAGEKDVLCKEKMCPVLVALKYDTFEEAVEIAMANYMYEGAGHTAGIHSDNDENIRYAGTVLPISRLVVNQPATTAGGSFNNGFNPTTTLGCGSWGRNSISENLTYEHLINVSRIGYFNKEAKVPSYEEIWG 8ci0-a1-m1-cAAA_8ci0-a1-m1-cBBB Maize Transketolase in complex with TPP and hydrolyzed (+)-Cornexistin Q7SIC9 Q7SIC9 1.902 X-RAY DIFFRACTION 323 1.0 4577 (Zea mays) 4577 (Zea mays) 666 666 1itz-a1-m1-cA_1itz-a1-m1-cB 1itz-a2-m1-cC_1itz-a2-m2-cC AATGELLEKSVNTIRFLAIDAVEKANSGHPGLPMGCAPMGHVLYDEVMRYNPKNPYWFNRDRFVLSAGHGCMLQYALLHLAGYDSVKEEDLKQFRQWGSRTPGHPENFETPGVEVTTGPLGQGIANAVGLALAEKHLAARFNKPDSEIVDHYTYVILGDGCQMEGIANEACSLAGHWGLGKLIAFYDDNHISIDGDTEIAFTEDVSTRFEALGWHTIWVKNGNTGYDDIRAAIKEAKAVTDKPTLIKVTTTIGFGSPNKANSYSVHGSALGAKEVEATRQNLGWPYDTFFVPEDVKSHWSRHTPEGAALEADWNAKFAEYEKKYADDAATLKSIITGELPTGWVDALPKYTPESPGDATRNLSQQCLNALANVVPGLIGGSADLASSNMTLLKMFGDFQKDTAEERNVRFGVREHGMGAICNGIALHSPGFVPYCATFFVFTDYMRGAMRISALSEAGVIYVMTHDSIGLGEDGPTHQPIEHLVSFRAMPNILMLRPADGNETAGAYKVAVLNRKRPSILALSRQKLPHLPGTSIEGVEKGGYTISDNSTGNKPDLIVMGTGSELEIAAKAADELRKEGKTVRVVSFVSWELFDEQSDEYKESVLPAAVTARISIEAGSTLGWQKYVGAQGKAIGIDKFGASAPAGTIYKEYGITVESIIAAAKSF AATGELLEKSVNTIRFLAIDAVEKANSGHPGLPMGCAPMGHVLYDEVMRYNPKNPYWFNRDRFVLSAGHGCMLQYALLHLAGYDSVKEEDLKQFRQWGSRTPGHPENFETPGVEVTTGPLGQGIANAVGLALAEKHLAARFNKPDSEIVDHYTYVILGDGCQMEGIANEACSLAGHWGLGKLIAFYDDNHISIDGDTEIAFTEDVSTRFEALGWHTIWVKNGNTGYDDIRAAIKEAKAVTDKPTLIKVTTTIGFGSPNKANSYSVHGSALGAKEVEATRQNLGWPYDTFFVPEDVKSHWSRHTPEGAALEADWNAKFAEYEKKYADDAATLKSIITGELPTGWVDALPKYTPESPGDATRNLSQQCLNALANVVPGLIGGSADLASSNMTLLKMFGDFQKDTAEERNVRFGVREHGMGAICNGIALHSPGFVPYCATFFVFTDYMRGAMRISALSEAGVIYVMTHDSIGLGEDGPTHQPIEHLVSFRAMPNILMLRPADGNETAGAYKVAVLNRKRPSILALSRQKLPHLPGTSIEGVEKGGYTISDNSTGNKPDLIVMGTGSELEIAAKAADELRKEGKTVRVVSFVSWELFDEQSDEYKESVLPAAVTARISIEAGSTLGWQKYVGAQGKAIGIDKFGASAPAGTIYKEYGITVESIIAAAKSF 8cio-a1-m1-cA_8cio-a1-m1-cE Cryo-EM structure of the CupE pilus from Pseudomonas aeruginosa Q9HVE4 Q9HVE4 3.5 ELECTRON MICROSCOPY 13 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 159 159 8cio-a1-m1-cA_8cio-a1-m1-cC 8cio-a1-m1-cB_8cio-a1-m1-cD AGTLIGQVGVQMVIGAGCTIINGSVSGGINQWGTLDFGSHSDLTNVVDAQTVGTSGNIQIQCSTGLTPSLTVNAGLHASGGQRYMQNTTTTSSTIAYNIYSDAARSALIQANTPVDISSVSTGTAVNIPLYGRVVPTGQSTPTPTAGTYTDTLLVTIAW AGTLIGQVGVQMVIGAGCTIINGSVSGGINQWGTLDFGSHSDLTNVVDAQTVGTSGNIQIQCSTGLTPSLTVNAGLHASGGQRYMQNTTTTSSTIAYNIYSDAARSALIQANTPVDISSVSTGTAVNIPLYGRVVPTGQSTPTPTAGTYTDTLLVTIAW 8cio-a1-m1-cD_8cio-a1-m1-cE Cryo-EM structure of the CupE pilus from Pseudomonas aeruginosa Q9HVE4 Q9HVE4 3.5 ELECTRON MICROSCOPY 131 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 159 159 8cio-a1-m1-cA_8cio-a1-m1-cB 8cio-a1-m1-cA_8cio-a1-m1-cD 8cio-a1-m1-cB_8cio-a1-m1-cC AGTLIGQVGVQMVIGAGCTIINGSVSGGINQWGTLDFGSHSDLTNVVDAQTVGTSGNIQIQCSTGLTPSLTVNAGLHASGGQRYMQNTTTTSSTIAYNIYSDAARSALIQANTPVDISSVSTGTAVNIPLYGRVVPTGQSTPTPTAGTYTDTLLVTIAW AGTLIGQVGVQMVIGAGCTIINGSVSGGINQWGTLDFGSHSDLTNVVDAQTVGTSGNIQIQCSTGLTPSLTVNAGLHASGGQRYMQNTTTTSSTIAYNIYSDAARSALIQANTPVDISSVSTGTAVNIPLYGRVVPTGQSTPTPTAGTYTDTLLVTIAW 8cip-a2-m1-cC_8cip-a2-m1-cD Crystal structure of transketolase from Geobacillus stearothermophilus A0A0I9QGZ2 A0A0I9QGZ2 2.1 X-RAY DIFFRACTION 315 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 665 665 8cip-a1-m1-cA_8cip-a1-m1-cB SIEELAITTIRTLSIDAIEKAKSGHPGMPMGAAPMAYTLWTKFMNHNPANPNWFNRDRFVLSAGHGSMLLYSLLHLSGYDVSMDDLKQFRQWGSKTPGHPEYGHTPGVEATTGPLGQGIAMAVGMAMAERHLAATYNRDGFEIINHYTYAICGDGDLMEGVASEAASLAGHLKLGRLIVLYDSNDISLDGELNLSFSENVAQRFQAYGWQYLRVEDGNNIEEIAKALEEARADLSRPTLIEVKTTIGYGAPNKAGTSGVHGAPLGAQEAKLTKEAYRWTFAEDFYVPEEVYAHFRATVQEPGAKKEAKWNEQLAAYEQAHPELAAQLKRAIEGKLPDGWEASLPVYEAGKSLATRSSSGEVINAIAKAVPQLFGGSADLASSNKTLIKGGGNFFPGSYEGRNVWFGVREFAMGAALNGMALHGGLKVFGGTFFVFSDYLRPAIRLAALMGLPVIYVLTHDSIAVGEDGPTHEPIEQLASLRAMPNLSVIRPADANETAAAWRLALESTDKPTALVLTRQDVPTLAATAELAYEGVKKGAYVVSPAKNGAPEALLLATGSEVGLAVKAQEALAAEGIHVSVISMPSWDRFEAQPKSYRDEVLPPAVTKRLAIEMGASLGWERYVGAEGDILAIDRFGASAPGEKIMAEYGFTVDNVVRRTKALLGK SIEELAITTIRTLSIDAIEKAKSGHPGMPMGAAPMAYTLWTKFMNHNPANPNWFNRDRFVLSAGHGSMLLYSLLHLSGYDVSMDDLKQFRQWGSKTPGHPEYGHTPGVEATTGPLGQGIAMAVGMAMAERHLAATYNRDGFEIINHYTYAICGDGDLMEGVASEAASLAGHLKLGRLIVLYDSNDISLDGELNLSFSENVAQRFQAYGWQYLRVEDGNNIEEIAKALEEARADLSRPTLIEVKTTIGYGAPNKAGTSGVHGAPLGAQEAKLTKEAYRWTFAEDFYVPEEVYAHFRATVQEPGAKKEAKWNEQLAAYEQAHPELAAQLKRAIEGKLPDGWEASLPVYEAGKSLATRSSSGEVINAIAKAVPQLFGGSADLASSNKTLIKGGGNFFPGSYEGRNVWFGVREFAMGAALNGMALHGGLKVFGGTFFVFSDYLRPAIRLAALMGLPVIYVLTHDSIAVGEDGPTHEPIEQLASLRAMPNLSVIRPADANETAAAWRLALESTDKPTALVLTRQDVPTLAATAELAYEGVKKGAYVVSPAKNGAPEALLLATGSEVGLAVKAQEALAAEGIHVSVISMPSWDRFEAQPKSYRDEVLPPAVTKRLAIEMGASLGWERYVGAEGDILAIDRFGASAPGEKIMAEYGFTVDNVVRRTKALLGK 8cjh-a2-m1-cC_8cjh-a2-m1-cD Architecture of a PKS-NRPS hybrid megaenzyme involved in the biosynthesis of the genotoxin colibactin Q0P7K1 Q0P7K1 2.982 X-RAY DIFFRACTION 188 1.0 562 (Escherichia coli) 562 (Escherichia coli) 684 684 8cjh-a1-m1-cA_8cjh-a1-m1-cB MTYSESDIAIVGMNCRYPGVHSVAAFETVLRTGCNILDPKVTPSNGHNHITLNNVYEHMAEFDANFFGYSRAEAEIMDPQQRVFLTCAWEMFEQSGYNPKQHDARVGLYAGVSTSFYLLTHLMNNPDKLAQLGGLQIMVGNDKDHLTSQLAYRLNITGPCVTVQASCATSLVAVHLACEGLLSGQCDMALAGGVTFRMEEQRSYESHGDGLQAEDGLIHTFDAQASGTVYSSGLGMVLLKRATDAQVQGDNILAVIKGSAINNDGGARSGYTVPGVDGQEAVMIEAHSLAEVTPQQIQYLELHGSGTPLGDAIEFAAIKRVFGTPAPNATPWRLGAVKPNVGHVEMASGITSLIKTVLSLTNRVFYPTLNFQRANPQLGLEDSPFEVVSRLTPWPEGTTPRTAGVSAFGLGGTNAHLVVQAPLSTPQARAQQMGPCVVVLSAKNHNALEQMQNALLAKLAAHPEIRLQDVAYTLRHGRFSAPVRKCVIAENCTQLARQLRDAPMVEATTGCTIYWRLGHRFVVALETLSDWLACSEVLSQAVGQLLEHFPLEPACLQDLSPAQRTFISQYALIALIDERETLNVVLCGDGDGGYAAAVLRGDCTLEQAWHRLNAGQPFDCSLMLDDAASDANRTALEALGQLWLAGVSLDWRWVDAAERMLGSQRIALPGTVFTPQRYWVEAVR MTYSESDIAIVGMNCRYPGVHSVAAFETVLRTGCNILDPKVTPSNGHNHITLNNVYEHMAEFDANFFGYSRAEAEIMDPQQRVFLTCAWEMFEQSGYNPKQHDARVGLYAGVSTSFYLLTHLMNNPDKLAQLGGLQIMVGNDKDHLTSQLAYRLNITGPCVTVQASCATSLVAVHLACEGLLSGQCDMALAGGVTFRMEEQRSYESHGDGLQAEDGLIHTFDAQASGTVYSSGLGMVLLKRATDAQVQGDNILAVIKGSAINNDGGARSGYTVPGVDGQEAVMIEAHSLAEVTPQQIQYLELHGSGTPLGDAIEFAAIKRVFGTPAPNATPWRLGAVKPNVGHVEMASGITSLIKTVLSLTNRVFYPTLNFQRANPQLGLEDSPFEVVSRLTPWPEGTTPRTAGVSAFGLGGTNAHLVVQAPLSTPQARAQQMGPCVVVLSAKNHNALEQMQNALLAKLAAHPEIRLQDVAYTLRHGRFSAPVRKCVIAENCTQLARQLRDAPMVEATTGCTIYWRLGHRFVVALETLSDWLACSEVLSQAVGQLLEHFPLEPACLQDLSPAQRTFISQYALIALIDERETLNVVLCGDGDGGYAAAVLRGDCTLEQAWHRLNAGQPFDCSLMLDDAASDANRTALEALGQLWLAGVSLDWRWVDAAERMLGSQRIALPGTVFTPQRYWVEAVR 8cjz-a1-m1-cE_8cjz-a1-m1-cF Carin1 bacteriophage mature capsid 3.5 ELECTRON MICROSCOPY 42 1.0 3801 (Ribes) 3801 (Ribes) 129 129 8cjz-a1-m1-cA_8cjz-a1-m1-cc 8cjz-a1-m1-cB_8cjz-a1-m1-cC MIMDKENTFSYKQAITGTAVSTNVIDLGVSRDIGKGVPVPIIIQVVEDFADATSLTATLQTSETENFSSATTLATSGAVPVADLTAGKQLAVQYMPLGTQRYLRVNYTVSGTATAGAVTAGVVMSHQQN MIMDKENTFSYKQAITGTAVSTNVIDLGVSRDIGKGVPVPIIIQVVEDFADATSLTATLQTSETENFSSATTLATSGAVPVADLTAGKQLAVQYMPLGTQRYLRVNYTVSGTATAGAVTAGVVMSHQQN 8cjz-a1-m1-cJ_8cjz-a1-m1-cK Carin1 bacteriophage mature capsid 3.5 ELECTRON MICROSCOPY 172 1.0 3801 (Ribes) 3801 (Ribes) 342 342 8cjz-a1-m1-cG_8cjz-a1-m1-cH 8cjz-a1-m1-cG_8cjz-a1-m1-cY 8cjz-a1-m1-cH_8cjz-a1-m1-cI 8cjz-a1-m1-cI_8cjz-a1-m1-cJ 8cjz-a1-m1-cK_8cjz-a1-m1-cY TLGNTYLTLADVQKQKDGKGNVTSEIIEMLAETNPILEDMVVMECNDGTGHLTTIRTGLPQATWRRLYEGVQPAKSTTRQIKDSTGTLEAWSEVDEKLVKLSKDKQQLMLNEAAAFLEGMNQTMASTLFYGNTATDAVKFMGLAPRFNAYRAARNLKPVDTADQVIDAGGTGSDLTSIWMVVWGDRTAHGLYPEGTSAGLQREYLGAETKELGDGGVYRVVREKFEWDLGLTVRDFRYVVRIANIDVSDLQAGTIDIYALLRKAYYRLENRVITGGRAALYCNADVTEAMDAAATPTSSTTASYVRLTPMQVDGKEVMMYRGIPVRECDAILSTETAVPSVA TLGNTYLTLADVQKQKDGKGNVTSEIIEMLAETNPILEDMVVMECNDGTGHLTTIRTGLPQATWRRLYEGVQPAKSTTRQIKDSTGTLEAWSEVDEKLVKLSKDKQQLMLNEAAAFLEGMNQTMASTLFYGNTATDAVKFMGLAPRFNAYRAARNLKPVDTADQVIDAGGTGSDLTSIWMVVWGDRTAHGLYPEGTSAGLQREYLGAETKELGDGGVYRVVREKFEWDLGLTVRDFRYVVRIANIDVSDLQAGTIDIYALLRKAYYRLENRVITGGRAALYCNADVTEAMDAAATPTSSTTASYVRLTPMQVDGKEVMMYRGIPVRECDAILSTETAVPSVA 8cjz-a1-m1-cg_8cjz-a1-m1-cY Carin1 bacteriophage mature capsid 3.5 ELECTRON MICROSCOPY 19 1.0 3801 (Ribes) 3801 (Ribes) 330 342 TLGNTYLTLADVQKQKDGKGNVTSEIIEMLAETNPILEDMVVMECNDGTGHLTTIRTGLPQATWRRLYEGVQPAKSTTRQIKDSTGTLEAWSEVDEKLVKLSKDKQQLMLNEAAAFLEGMNQTMASTLFYGNTATDAVKFMGLAPRFNAYRAARNLKPVDTADQVIDAGGTGSDLTSIWMVVWGDRTAHGLYPEGTSAGLQREYLGAETKELGDGGVYRVVREKFEWDLGLTVRDFRYVVRIANIDVSDLQAGTIDIYALLRKAYYRLENRVITGGRAALYCNADVTEAMDAARLTPMQVDGKEVMMYRGIPVRECDAILSTETAVPSVA TLGNTYLTLADVQKQKDGKGNVTSEIIEMLAETNPILEDMVVMECNDGTGHLTTIRTGLPQATWRRLYEGVQPAKSTTRQIKDSTGTLEAWSEVDEKLVKLSKDKQQLMLNEAAAFLEGMNQTMASTLFYGNTATDAVKFMGLAPRFNAYRAARNLKPVDTADQVIDAGGTGSDLTSIWMVVWGDRTAHGLYPEGTSAGLQREYLGAETKELGDGGVYRVVREKFEWDLGLTVRDFRYVVRIANIDVSDLQAGTIDIYALLRKAYYRLENRVITGGRAALYCNADVTEAMDAAATPTSSTTASYVRLTPMQVDGKEVMMYRGIPVRECDAILSTETAVPSVA 8ck1-a1-m1-cC_8ck1-a1-m1-cD Carin 1 bacteriophage tail, connector and tail fibers assembly 3.9 ELECTRON MICROSCOPY 51 1.0 3801 (Ribes) 3801 (Ribes) 126 126 8ck1-a1-m1-cB_8ck1-a1-m1-cC 8ck1-a1-m1-cB_8ck1-a1-m1-cD TVPTNDNREQYAGNGATTVFPYAFRIFESSDLEVYLTDEDGDQALLIEGTDYTVSGAGDEEGGEITFPVSGDPLDDGETLTILRVIDITQETDLKNQGAYYPEVVEDEFDRSRMIDQQQQEQLDRA TVPTNDNREQYAGNGATTVFPYAFRIFESSDLEVYLTDEDGDQALLIEGTDYTVSGAGDEEGGEITFPVSGDPLDDGETLTILRVIDITQETDLKNQGAYYPEVVEDEFDRSRMIDQQQQEQLDRA 8ck1-a1-m1-cE_8ck1-a1-m1-cF Carin 1 bacteriophage tail, connector and tail fibers assembly 3.9 ELECTRON MICROSCOPY 113 1.0 3801 (Ribes) 3801 (Ribes) 206 206 PSKVDICNRALSNTGTDITIASLTEKSKEARLCQQWYDATLASLLRTYQWAFAQRRVTLALIGVGPAGWRHKYRYPTDAITIHDVFTADTYPDGASEFTDGRYRQIFQIASDGEGGRLVLANCEDAMCRYTSDIEDPNLMPPDFSTALEMMLAKNIAMPMTGNPGLMTVLAQQAASLVSDAIARDQNEGYRNPLPYASWTRANIGD PSKVDICNRALSNTGTDITIASLTEKSKEARLCQQWYDATLASLLRTYQWAFAQRRVTLALIGVGPAGWRHKYRYPTDAITIHDVFTADTYPDGASEFTDGRYRQIFQIASDGEGGRLVLANCEDAMCRYTSDIEDPNLMPPDFSTALEMMLAKNIAMPMTGNPGLMTVLAQQAASLVSDAIARDQNEGYRNPLPYASWTRANIGD 8cka-a1-m5-cA_8cka-a1-m6-cA Deinococcus radidurans HPI S-layer P56867 P56867 2.52 ELECTRON MICROSCOPY 159 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 501 501 8cka-a1-m1-cA_8cka-a1-m2-cA 8cka-a1-m1-cA_8cka-a1-m6-cA 8cka-a1-m2-cA_8cka-a1-m3-cA 8cka-a1-m3-cA_8cka-a1-m4-cA 8cka-a1-m4-cA_8cka-a1-m5-cA PFTLNITSPTNGAAATTGTPIRVVFTSSVALSSATCKIGNSAAVNAQVSSTGGYCDVTPTTAGGGLITVTGTANGQTVSSTVTVDVKAPVVDNRYGTVTPAGDQELTLTNEGIVKDADNGWRRLGQGVSTPSDPNGNVDIYVKGTVNFSVNAAAGSKVEVFLARTTGSDVPTNDDVQAGDVLRSVASTSGTETFSLDSRRLAEFDGVRKWIVVRINGTQVTYQPVIADNKGPQQPDPELNGVQNAYSNILNNYNNSGLTYVRGDVNVFTGNPSLQDREFGQAPLGSSFVQRRPSGFESIRYYLVPETAFGNKALQESDEMLRAKAIKSVATVVSAPVLEPGTVKATSFSRVIGSGATSTVTPKAQDNVTYRVYAISRDQLGNETASATYELVRFDNVGPTITGSVIRDTSDLPFASQEPERCLSDIATITLGGITDNAGGVGLNPGQGLTFTLGGRQIQAGQFDTNQLADGEYTIGFNSLTDALGNPVVSAPTNAKVYIDN PFTLNITSPTNGAAATTGTPIRVVFTSSVALSSATCKIGNSAAVNAQVSSTGGYCDVTPTTAGGGLITVTGTANGQTVSSTVTVDVKAPVVDNRYGTVTPAGDQELTLTNEGIVKDADNGWRRLGQGVSTPSDPNGNVDIYVKGTVNFSVNAAAGSKVEVFLARTTGSDVPTNDDVQAGDVLRSVASTSGTETFSLDSRRLAEFDGVRKWIVVRINGTQVTYQPVIADNKGPQQPDPELNGVQNAYSNILNNYNNSGLTYVRGDVNVFTGNPSLQDREFGQAPLGSSFVQRRPSGFESIRYYLVPETAFGNKALQESDEMLRAKAIKSVATVVSAPVLEPGTVKATSFSRVIGSGATSTVTPKAQDNVTYRVYAISRDQLGNETASATYELVRFDNVGPTITGSVIRDTSDLPFASQEPERCLSDIATITLGGITDNAGGVGLNPGQGLTFTLGGRQIQAGQFDTNQLADGEYTIGFNSLTDALGNPVVSAPTNAKVYIDN 8cka-a1-m5-cB_8cka-a1-m6-cB Deinococcus radidurans HPI S-layer P56867 P56867 2.52 ELECTRON MICROSCOPY 87 1.0 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 243230 (Deinococcus radiodurans R1 = ATCC 13939 = DSM 20539) 415 415 8cka-a1-m1-cB_8cka-a1-m2-cB 8cka-a1-m1-cB_8cka-a1-m6-cB 8cka-a1-m2-cB_8cka-a1-m3-cB 8cka-a1-m3-cB_8cka-a1-m4-cB 8cka-a1-m4-cB_8cka-a1-m5-cB PTITGSVIRDTSDLPFASQEPERCLSDIATITLGGITDNAGGVGLNPGQGLTFTLGGRQIQAGQFDTNQLADGEYTIGFNSLTDALGNPVVSAPTNAKVYIDNTDPTVNFNRAVMQGTFASGERVSVESDASDGGCGVYETRLFWDTDNGVVDDATTTPAIGHPVQFARQRVTDGAKADSLNAGWNALQLPNGAGAVYLRALVVDRAGNATISTTPIVVNAKITNQARPLLGGFDAFKRNASAQFMSNSNAISGVNGTAVTPNTTANSALDNILSLDSVGTLTTNAYGATETAITEKIRNVGAYGRFDATQWNRIRDYQLNTDPTLRSAYVNAGNLANQRGNNWRIRTPWVELGSSDTANTQQKFDFNSDLLNDFYFGRTFGNNDNVNLFSYDQFNGIVSGTAGAYSFYGETVQK PTITGSVIRDTSDLPFASQEPERCLSDIATITLGGITDNAGGVGLNPGQGLTFTLGGRQIQAGQFDTNQLADGEYTIGFNSLTDALGNPVVSAPTNAKVYIDNTDPTVNFNRAVMQGTFASGERVSVESDASDGGCGVYETRLFWDTDNGVVDDATTTPAIGHPVQFARQRVTDGAKADSLNAGWNALQLPNGAGAVYLRALVVDRAGNATISTTPIVVNAKITNQARPLLGGFDAFKRNASAQFMSNSNAISGVNGTAVTPNTTANSALDNILSLDSVGTLTTNAYGATETAITEKIRNVGAYGRFDATQWNRIRDYQLNTDPTLRSAYVNAGNLANQRGNNWRIRTPWVELGSSDTANTQQKFDFNSDLLNDFYFGRTFGNNDNVNLFSYDQFNGIVSGTAGAYSFYGETVQK 8cnx-a1-m1-cB_8cnx-a1-m1-cA Structure of Enterovirus D68 3C protease Q68T42 Q68T42 1.49 X-RAY DIFFRACTION 53 1.0 12059 (Enterovirus) 12059 (Enterovirus) 180 182 GPGFDFAQAIMKKNTVIARTEKGEFTMLGVYDRVAVIPTHASVGEIIYINDVETRVLDACALRDLTDTNLEITIVKLDRNQKFRDIRHFLPRCEDDYNDAVLSVHTSKFPNMYIPVGQVTNYGFLNLGGTPTHRILMYNFPTRAGQCGGVVTTTGKVIGIHVGGNGAQGFAAMLLHSYFT MGPGFDFAQAIMKKNTVIARTEKGEFTMLGVYDRVAVIPTHASVGEIIYINDVETRVLDACALRDLTDTNLEITIVKLDRNQKFRDIRHFLPRCEDDYNDAVLSVHTSKFPNMYIPVGQVTNYGFLNLGGTPTHRILMYNFPTRAGQCGGVVTTTGKVIGIHVGGNGAQGFAAMLLHSYFTD 8co6-a1-m5-cA_8co6-a1-m5-cB Subtomogram average of Immature Rotavirus TLP penton A0A1Q2TSK9 A0A1Q2TSK9 4.7 ELECTRON MICROSCOPY 377 0.999 28875 (Rotavirus A) 28875 (Rotavirus A) 726 744 8bp8-a1-m1-cA_8bp8-a1-m1-cB 8co6-a1-m1-cA_8co6-a1-m1-cB 8co6-a1-m2-cA_8co6-a1-m2-cB 8co6-a1-m3-cA_8co6-a1-m3-cB 8co6-a1-m4-cA_8co6-a1-m4-cB 8coa-a1-m1-cA_8coa-a1-m1-cB ASLIYRQLLTNSYTVDLSDEIQEIGSTKSQNVTINPGPFAQTGYAPVNWGPGEINDSTTVGPLLDGPYQPTTFNPPVDYWMLLAPTTPGVIVEGTNNTDRWLATILIEPNVQSENRTYTIFGIQEQLTVSNTSQDQWKFIDVVKTTANGSIGQYGPLLSSPKLYAVMKHNEKLYTYEGQTPNATTAHYSTTNYDSVNMTAFCDFYIIPRSEESKCTEYINNGLANEDIVISKTSLWKEMQYNRDITIRFKFANTIIKSGGLGYKWSEISFKPANYQYTYTRDGEEVTAHTTCSVNGMNDFSFNGGYLPTDFVVSKFEVIKENSYVYIDYWDDSQAFRNVVYVRSLAANLNSVMCTGGSYNFSLPVGQWPVLTGGAVSLHSAGVTLSTQFTDFVSLNSLRFRFRLAVEEPHFKLTRTRLDRLYGLPAADPNNGKEYYEIAGRFSLISLVPSNLERQLGELREEFNALSQEIAMSQLIDLALLPLDMFSMFSGIKSTIDAAKSMATNVMKKFKKSGLANSVSTLTDSLSDAASSISRGSSIRSIGSSASAWTDVSTVSSVSTQTSTISRRLRLKEMATQTEGMNFDDISAAVLKTKIDKSTQISPNTIPDIVTEASEKFIPNRAYRVINNDDVFEAGIDGKFFAYKVDTFEEIPFDVQKFADLVTDSPVISAIIDFKTLKNLNDNYGISRQQAFNLLRSDPRVLREFINQDNPIIRNRIEQLIMQCRL MASLIYRQLLTNSYTVDLSDEIQEIGSTKSQNVTINPGPFAQTGYAPVNWGPGEINDSTTVGPLLDGPYQPTTFNPPVDYWMLLAPTTPGVIVEGTNNTDRWLATILIEPNVQSENRTYTIFGIQEQLTVSNTSQDQWKFIDVVKTTANGSIGQYGPLLSSPKLYAVMKHNEKLYTYEGQTPNATTAHYSTTNYDSVNMTAFCDFYIIPRSEESKCTEYINNGLANEDIVISKTSLWKEMQYNRDITIRFKFANTIIKSGGLGYKWSEISFKPANYQYTYTRDGEEVTAHTTCSVNGMNDFSFNGGYLPTDFVVSKFEVIKENSYVYIDYWDDSQAFRNVVYVRSLAANLNSVMCTGGSYNFSLPVGQWPVLTGGAVSLHSAGVTLSTQFTDFVSLNSLRFRFRLAVEEPHFKLTRTRLDRLYGLPAADPNNGKEYYEIAGRFSLISLVPSNDDYQTPIANSVTVRQDLERQLGELREEFNALSQEIAMSQLIDLALLPLDMFSMFSGIKSTIDAAKSMATNVMKKFKKSGLANSVSTLTDSLSDAASSISRGSSIRSIGSSASAWTDVSTQISSVSTQTSTISRRLRLKEMATQTEGMNFDDISAAVLKTKIDKSTQISPNTIPDIVTEASEKFIPNRAYRVINNDDVFEAGIDGKFFAYKVDTFEEIPFDVQKFADLVTDSPVISAIIDFKTLKNLNDNYGISRQQAFNLLRSDPRVLREFINQDNPIIRNRIEQLIMQCRL 8cok-a1-m1-cA_8cok-a1-m1-cB Structural analysis of ING3 protein and its binding to histone H3 Q498T3 Q498T3 2.91 X-RAY DIFFRACTION 86 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 98 101 AMLYLEDYLEMIEQLPMDLRDRFTEMREMDLQVQNAMDQLEQRVSEFFMNAKKNKPEWREEQMASIKKDYYKALEDADEKVQLANQIYDLVDRHLRKL AMLYLEDYLEMIEQLPMDLRDRFTEMREMDLQVQNAMDQLEQRVSEFFMNAKKNKPEWREEQMASIKKDYYKALEDADEKVQLANQIYDLVDRHLRKLDQE 8cqr-a1-m1-cC_8cqr-a1-m1-cF Cryo-EM structure of the NINJ1 filament Q92982 Q92982 3.8 ELECTRON MICROSCOPY 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 103 8cqr-a1-m1-cA_8cqr-a1-m1-cD 8cqr-a1-m1-cB_8cqr-a1-m1-cE NHYASKKSAAESMLDIALLMANASQLKAVVEQGPSFAFYVPLVVLISISLVLQIGVGVLLIFLVKYDLNNPAKHAKLDFLNNLATGLVFIIVVVNIFITAFGV NHYASKKSAAESMLDIALLMANASQLKAVVEQGPSFAFYVPLVVLISISLVLQIGVGVLLIFLVKYDLNNPAKHAKLDFLNNLATGLVFIIVVVNIFITAFGV 8cqr-a1-m1-cE_8cqr-a1-m1-cF Cryo-EM structure of the NINJ1 filament Q92982 Q92982 3.8 ELECTRON MICROSCOPY 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 103 103 8cqr-a1-m1-cA_8cqr-a1-m1-cB 8cqr-a1-m1-cB_8cqr-a1-m1-cC 8cqr-a1-m1-cD_8cqr-a1-m1-cE NHYASKKSAAESMLDIALLMANASQLKAVVEQGPSFAFYVPLVVLISISLVLQIGVGVLLIFLVKYDLNNPAKHAKLDFLNNLATGLVFIIVVVNIFITAFGV NHYASKKSAAESMLDIALLMANASQLKAVVEQGPSFAFYVPLVVLISISLVLQIGVGVLLIFLVKYDLNNPAKHAKLDFLNNLATGLVFIIVVVNIFITAFGV 8crv-a1-m1-cA_8crv-a1-m2-cA Crystal Structure of the Carbamate Kinase from Pseudomonas aeruginosa P13982 P13982 1.6 X-RAY DIFFRACTION 139 1.0 208964 (Pseudomonas aeruginosa PAO1) 208964 (Pseudomonas aeruginosa PAO1) 312 312 NAMRIVVALGGNALLRRGEPMTADNQRENVRIAAEQIAKVAPGNELVIAHGNGPQVGLLALQGAAYDKVSPYPLDVLGAETEGMIGYMIEQEMGNLLPFEVPFATILTQVEVDGKDPAFQNPTKPIGPVYSREEAERLAAEKGWSITPDGDKFRRVVPSPRPKRIFEIRPVKWLLEKGTIVICAGGGGIPTMYDEAGKKLSGVEAVIDKDLCSSLLAQELVADILIIATDVDAAYVDWGKPTQKAIAQAHPDELERLGFAAGSMGPKVQAAIEFARATGKDAVIGSLADIVAITEGKAGTRVSTRKAGIEYR NAMRIVVALGGNALLRRGEPMTADNQRENVRIAAEQIAKVAPGNELVIAHGNGPQVGLLALQGAAYDKVSPYPLDVLGAETEGMIGYMIEQEMGNLLPFEVPFATILTQVEVDGKDPAFQNPTKPIGPVYSREEAERLAAEKGWSITPDGDKFRRVVPSPRPKRIFEIRPVKWLLEKGTIVICAGGGGIPTMYDEAGKKLSGVEAVIDKDLCSSLLAQELVADILIIATDVDAAYVDWGKPTQKAIAQAHPDELERLGFAAGSMGPKVQAAIEFARATGKDAVIGSLADIVAITEGKAGTRVSTRKAGIEYR 8ct0-a4-m1-cE_8ct0-a4-m1-cD Crystal structure of FAD reductase CtcQ from Kitasatospora aureofaciens in complex with FAD and NAD S4S3E3 S4S3E3 2.45 X-RAY DIFFRACTION 230 0.994 1894 (Kitasatospora aureofaciens) 1894 (Kitasatospora aureofaciens) 168 172 8ct0-a1-m1-cA_8ct0-a1-m1-cF 8ct0-a2-m1-cB_8ct0-a2-m1-cH 8ct0-a3-m1-cC_8ct0-a3-m1-cG EPLSLPLDLAPGLVDGDTFLSIMGALPTGVTVVTTLGPDGEPYGLTCSAACSVSKAPPLLLVCINRDSRVLKALLERGEFAVNVLRGGGESTSARFAAPVDDRFRDVRWEPGSAGGVPVMSADVVAHAECRVAAALDAGDHTIVIGAVVAGGPRPSPLMYWRRSYARW PLSLPLDLAPGLVDGDTFLSIMGALPTGVTVVTTLGPDGEPYGLTCSAACSVSKAPPLLLVCINRDSRVLKALLERGEFAVNVLRGGGESTSARFAAPVDDRFRDVRWEPGSAGGVPVMSADVVAHAECRVAAALDAGDHTIVIGAVVAGGPRPEVPSPLMYWRRSYARWPV 8cte-a1-m1-cL_8cte-a1-m1-cQ Class 2 of erythrocyte ankyrin-1 complex (Composite map) Q02094 Q02094 2.9 ELECTRON MICROSCOPY 161 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 388 390 7uzq-a1-m1-cL_7uzq-a1-m1-cQ 7v0k-a1-m1-cL_7v0k-a1-m1-cQ 7v0s-a1-m1-cL_7v0s-a1-m1-cQ 8crt-a1-m1-cL_8crt-a1-m1-cQ 8cs9-a1-m1-cL_8cs9-a1-m1-cQ 8csl-a1-m1-cL_8csl-a1-m1-cQ 8csx-a1-m1-cL_8csx-a1-m1-cQ MRFTFPLMAIVLEIAMIVLFGLFVEYFELYPLFQDVHVMIFVGFGFLMTFLKKYGFSSVGINLLVAALGLQWGTIVQGILQSQGQKFNIGIKNMINADFSAATVLISFGAVLGKTSPTQMLIMTILEIVFFAHNEYLVSEIFKASDIGASMTIHAFGAYFGLAVAGILYRSGLRKGHENEESAYYSDLFAMIGTLFLWMFWPSFNSAIAEPGDKQCRAIVNTYFSLAACVLTAFAFSSLVEHRGKLNMVHIQNATLAGGVAVGTCADMAIHPFGSMIIGSIAGMVSVLGYKFLTPLFTTKLRIHDTCGVHNLHGLPGVVGGLAGIVAVAMGASNTSMAMQAAALGSSIGTAVVGGLMTGLILKLPLWGQPSDQNCYDDSVYWKVPKTR MRFTFPLMAIVLEIAMIVLFGLFVEYIFFELYPLFQDVHVMIFVGFGFLMTFLKKYGFSSVGINLLVAALGLQWGTIVQGILQSQGQKFNIGIKNMINADFSAATVLISFGAVLGKTSPTQMLIMTILEIVFFAHNEYLVSEIFKASDIGASMTIHAFGAYFGLAVAGILYRSGLRKGHENEESAYYSDLFAMIGTLFLWMFWPSFNSAIAEPGDKQCRAIVNTYFSLAACVLTAFAFSSLVEHRGKLNMVHIQNATLAGGVAVGTCADMAIHPFGSMIIGSIAGMVSVLGYKFLTPLFTTKLRIHDTCGVHNLHGLPGVVGGLAGIVAVAMGASNTSMAMQAAALGSSIGTAVVGGLMTGLILKLPLWGQPSDQNCYDDSVYWKVPKTR 8ctk-a1-m1-cA_8ctk-a1-m1-cB Cryo-EM structure of SARS-CoV-2 M protein in a lipid nanodisc P0DTC5 P0DTC5 3.52 ELECTRON MICROSCOPY 128 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 188 188 7vgs-a1-m1-cA_7vgs-a1-m1-cB LEQWNLVIGFLFLTWICLLQFAYANRNRFLYIIKLIFLWLLWPVTLACFVLAAVYRINWITGGIAIAMACLVGLMWLSYFIASFRLFARTRSMWSFNPETNILLNVPLHGTILTRPLLESELVIGAVILRGHLRIAGHHLGRCDIKDLPKEITVATSRTLSYYKLGASQRVAGDSGFAAYSRYRIGNY LEQWNLVIGFLFLTWICLLQFAYANRNRFLYIIKLIFLWLLWPVTLACFVLAAVYRINWITGGIAIAMACLVGLMWLSYFIASFRLFARTRSMWSFNPETNILLNVPLHGTILTRPLLESELVIGAVILRGHLRIAGHHLGRCDIKDLPKEITVATSRTLSYYKLGASQRVAGDSGFAAYSRYRIGNY 8cty-a2-m1-cC_8cty-a2-m1-cB 12-mer DNA structure of ExBIM bound to RNase-H Q9KEI9 Q9KEI9 2.3 X-RAY DIFFRACTION 14 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 130 133 EIIWESLSVDVGSQGNPGIVEYKGVDTKTGEVLFEREPIPIGTNNMGEFLAIVHGLRYLKERNSRKPIYSNSQTAIKWVKDKKAKSTLVRNEETALIWKLVDEAEEWLNTHTYETPILKWQTDKWGEIKA EIIWESLSVDVGSQGNPGIVEYKGVDTKTGEVLFEREPIPIGTNNMGEFLAIVHGLRYLKERNSRKPIYSNSQTAIKWVKDKKAKSTLVRNEETALIWKLVDEAEEWLNTHTYETPILKWQTDKWGEIKADYG 8cty-a2-m1-cG_8cty-a2-m1-cB 12-mer DNA structure of ExBIM bound to RNase-H Q9KEI9 Q9KEI9 2.3 X-RAY DIFFRACTION 11 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 132 133 EIIWESLSVDVGSQGNPGIVEYKGVDTKTGEVLFEREPIPIGTNNMGEFLAIVHGLRYLKERNSRKPIYSNSQTAIKWVKDKKAKSTLVRNEETALIWKLVDEAEEWLNTHTYETPILKWQTDKWGEIKADY EIIWESLSVDVGSQGNPGIVEYKGVDTKTGEVLFEREPIPIGTNNMGEFLAIVHGLRYLKERNSRKPIYSNSQTAIKWVKDKKAKSTLVRNEETALIWKLVDEAEEWLNTHTYETPILKWQTDKWGEIKADYG 8cu0-a1-m1-cC_8cu0-a1-m3-cB 12-mer DNA structure of ExBIM bound to RNaseH -modified DDD Q9KEI9 Q9KEI9 1.74 X-RAY DIFFRACTION 15 1.0 86665 (Halalkalibacterium halodurans) 86665 (Halalkalibacterium halodurans) 130 133 EIIWESLSVDVGSQGNPGIVEYKGVDTKTGEVLFEREPIPIGTNNMGEFLAIVHGLRYLKERNSRKPIYSNSQTAIKWVKDKKAKSTLVRNEETALIWKLVDEAEEWLNTHTYETPILKWQTDKWGEIKA EIIWESLSVDVGSQGNPGIVEYKGVDTKTGEVLFEREPIPIGTNNMGEFLAIVHGLRYLKERNSRKPIYSNSQTAIKWVKDKKAKSTLVRNEETALIWKLVDEAEEWLNTHTYETPILKWQTDKWGEIKADYG 8cuz-a1-m1-cA_8cuz-a1-m1-cB KS-AT domains of mycobacterial Pks13 with inward AT conformation I7FMV0 I7FMV0 3.0 ELECTRON MICROSCOPY 189 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 925 925 7uk4-a1-m1-cA_7uk4-a1-m1-cB 8cuy-a1-m1-cB_8cuy-a1-m1-cA 8cv0-a1-m1-cA_8cv0-a1-m1-cB 8cv1-a1-m1-cB_8cv1-a1-m1-cA DWSRTRDVEDIAIVGVATRFPGDLNTPDEMWEALLEGKDCVTDLPEDRWTEFLDEPRIAERVKKARTRGGYLTDIKGFDSEFFALSKMEADNIDPQQRMALELTWEALEHARIPASSLRGESVGVYIGSSTNDYSFLAMSDAHPYAITGTASSIIANRVSYFYDFRGPSVAVDTACSSSLVATHQGVQALRAGEADVAIVGGVNALVTPLVTVGFDEVGGVLAPDGRIKSFSSDADGYARSEGGGMLVLKRISDARRDGDQILAVIAGSAVNHDGRSNGLLAPNPDAQAEVLRKAYKDAGINPRDVDYIEAHGTGTILGDPIEADALGRIVGKGRPADKPALLGAVKSNLGHLESAAGAASLAKMTLALANDKLPPSINYAGPNPYIDFEKERLKVNDTVSDWPRYSGKAIAGVSGFGFGGANAHVVMREVLAGDLVETEAAQRLLEQAREELEAKEAEEPTKQLVPLAVSAFLTSRKRQAAAELADWIDSPEGRASSLESIGRSLSRRNHGRSRAVVLAHDHDEAIKGLRALAEGKQHPSVLSADGPVTNGPVWVLAGFGAQHRKMGKSLYLRNEVFAEWINKVDALIQDERGYSILELILDDNVDYTDATCEYPIEVVQLVIFAIQIALGELLRHHGAKPAAVVGQSLGEAAASYFAGGLSLADATRTICSRSHLMGEGEAMLFGEYIRLMALVEYSADEIKTVFSDYPDLEVCVYAAPTQTVIGGPPDQVDAIIARAESEGKFARKFQTKGASHTQQMDPLLGELAAELQGIEPKPLTTGYFSTVHEGTFIRPGSAPIHDVDYWKKGLRHSVYFTQGIRNAVDNGHTTFLELAPNPVALMQVGLTTASAGLHDAQLIATLARKQDEVESMISAMAQLYVHGHDLDFRTLFPRRSKGLAGALDFANIPPTRFKRKEHWLPAHF DWSRTRDVEDIAIVGVATRFPGDLNTPDEMWEALLEGKDCVTDLPEDRWTEFLDEPRIAERVKKARTRGGYLTDIKGFDSEFFALSKMEADNIDPQQRMALELTWEALEHARIPASSLRGESVGVYIGSSTNDYSFLAMSDAHPYAITGTASSIIANRVSYFYDFRGPSVAVDTACSSSLVATHQGVQALRAGEADVAIVGGVNALVTPLVTVGFDEVGGVLAPDGRIKSFSSDADGYARSEGGGMLVLKRISDARRDGDQILAVIAGSAVNHDGRSNGLLAPNPDAQAEVLRKAYKDAGINPRDVDYIEAHGTGTILGDPIEADALGRIVGKGRPADKPALLGAVKSNLGHLESAAGAASLAKMTLALANDKLPPSINYAGPNPYIDFEKERLKVNDTVSDWPRYSGKAIAGVSGFGFGGANAHVVMREVLAGDLVETEAAQRLLEQAREELEAKEAEEPTKQLVPLAVSAFLTSRKRQAAAELADWIDSPEGRASSLESIGRSLSRRNHGRSRAVVLAHDHDEAIKGLRALAEGKQHPSVLSADGPVTNGPVWVLAGFGAQHRKMGKSLYLRNEVFAEWINKVDALIQDERGYSILELILDDNVDYTDATCEYPIEVVQLVIFAIQIALGELLRHHGAKPAAVVGQSLGEAAASYFAGGLSLADATRTICSRSHLMGEGEAMLFGEYIRLMALVEYSADEIKTVFSDYPDLEVCVYAAPTQTVIGGPPDQVDAIIARAESEGKFARKFQTKGASHTQQMDPLLGELAAELQGIEPKPLTTGYFSTVHEGTFIRPGSAPIHDVDYWKKGLRHSVYFTQGIRNAVDNGHTTFLELAPNPVALMQVGLTTASAGLHDAQLIATLARKQDEVESMISAMAQLYVHGHDLDFRTLFPRRSKGLAGALDFANIPPTRFKRKEHWLPAHF 8cwp-a1-m1-cA_8cwp-a1-m2-cA X-ray crystal structure of NTHi Protein D bound to a putative glycerol moiety Q06282 Q06282 1.8 X-RAY DIFFRACTION 82 1.0 727 (Haemophilus influenzae) 727 (Haemophilus influenzae) 327 327 KIIIAHRGASGYLPEHTLESKALAFAQHADYLEQDLAMTKDGRLVVIHDHFLDGLTDVAKKFPHRHRKDGRYYVIDFTLKEIQSLEMTENFETKDGKQAQVYPNRFPLWKSHFRIHTFEDEIEFIQGLEKSTGKKVGIYPEIKAPWFHHQNGKDIAAETLKVLKKYGYDKKTDMVYLQTFDFNELKRIKTELLPQMGMDLKLVQLIAYTDWKETQEKDPKGYWVNYNYDWMFKPGAMAEVVKYADGVGPGWYMLVNKEESKPDNIVYTPLVKELAQYNVELHPYTVRKDALPEFFTDVNQMYDTLLNKSGATGVFTDFPDTGVEFLK KIIIAHRGASGYLPEHTLESKALAFAQHADYLEQDLAMTKDGRLVVIHDHFLDGLTDVAKKFPHRHRKDGRYYVIDFTLKEIQSLEMTENFETKDGKQAQVYPNRFPLWKSHFRIHTFEDEIEFIQGLEKSTGKKVGIYPEIKAPWFHHQNGKDIAAETLKVLKKYGYDKKTDMVYLQTFDFNELKRIKTELLPQMGMDLKLVQLIAYTDWKETQEKDPKGYWVNYNYDWMFKPGAMAEVVKYADGVGPGWYMLVNKEESKPDNIVYTPLVKELAQYNVELHPYTVRKDALPEFFTDVNQMYDTLLNKSGATGVFTDFPDTGVEFLK 8cwr-a1-m2-cB_8cwr-a1-m3-cB Complex structure of WhiB3 and the SigmaAr4-RNAP Beta flap tip chimera in space group R3 P9WGY9 P9WGY9 1.5 X-RAY DIFFRACTION 60 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 109 109 8cwr-a1-m1-cB_8cwr-a1-m2-cB 8cwr-a1-m1-cB_8cwr-a1-m3-cB 8cwt-a1-m1-cB_8cwt-a1-m1-cD 8cwt-a1-m1-cB_8cwt-a1-m1-cF 8cwt-a1-m1-cD_8cwt-a1-m1-cF AHHHHHHVAVDAVSFTLLQDQLQSVLDTLSEREAGVVRLRFGLTDGQPRTLDEIGQVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLDGSSGSGTPEERLLRAIFGE AHHHHHHVAVDAVSFTLLQDQLQSVLDTLSEREAGVVRLRFGLTDGQPRTLDEIGQVYGVTRERIRQIESKTMSKLRHPSRSQVLRDYLDGSSGSGTPEERLLRAIFGE 8cx9-a4-m1-cH_8cx9-a4-m1-cJ Structure of the SARS-COV2 PLpro (C111S) in complex with a dimeric Ubv that inhibits activity by an unusual allosteric mechanism P62987 P62987 3.5 X-RAY DIFFRACTION 131 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 8cx9-a1-m1-cF_8cx9-a1-m1-cG 8cx9-a2-m1-cE_8cx9-a2-m1-cI 8cx9-a3-m1-cK_8cx9-a3-m1-cL MQISVKTLMRKRITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFSGMLLEDGRTLSDYNIQKGSTLTLGLILR MQISVKTLMRKRITLEVEPSDTIENVKAKIQDKEGIPPDQQRLIFSGMLLEDGRTLSDYNIQKGSTLTLGLILR 8cxa-a1-m1-cD_8cxa-a1-m1-cA Crystal Structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Mycobacterium smegmatis with bound NAD A0QVD5 A0QVD5 1.65 X-RAY DIFFRACTION 10 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 244 251 8cxa-a1-m1-cB_8cxa-a1-m1-cC VRLANRVAIITGAAQGIGRIYAERFAEEGAAVVVADINEPKATEVASSITSLGGRAIAAAVDVSDVESVNRMVDSAVEAFGTVDILVNNAAIFSTLKMKPFEEISGDEWDKLFAVNAKGTFLCCQAVSPVMRKNQYGRIINISSSVVVTGRPNYAHYIASKGAVWALTHALATEMGTDGITVNTVSPHGIIISEEGWRRNLEEQALKRKGDASDLVGILLYLASDESKFMTGQTVALDAGLRFT VRLANRVAIITGAAQGIGRIYAERFAEEGAAVVVADINEPKATEVASSITSLGGRAIAAAVDVSDVESVNRMVDSAVEAFGTVDILVNNAAIFSTLKMKPFEEISGDEWDKLFAVNAKGTFLCCQAVSPVMRKNQYGRIINISSSVVVTGRPNYAHYIASKGAVWALTHALATEMGTDGITVNTVSPHGIITEIPRETISEEGWRRNLEEQALKRKGDASDLVGILLYLASDESKFMTGQTVALDAGLRFT 8cxa-a1-m1-cD_8cxa-a1-m1-cB Crystal Structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Mycobacterium smegmatis with bound NAD A0QVD5 A0QVD5 1.65 X-RAY DIFFRACTION 133 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 244 251 8cxa-a1-m1-cA_8cxa-a1-m1-cC VRLANRVAIITGAAQGIGRIYAERFAEEGAAVVVADINEPKATEVASSITSLGGRAIAAAVDVSDVESVNRMVDSAVEAFGTVDILVNNAAIFSTLKMKPFEEISGDEWDKLFAVNAKGTFLCCQAVSPVMRKNQYGRIINISSSVVVTGRPNYAHYIASKGAVWALTHALATEMGTDGITVNTVSPHGIIISEEGWRRNLEEQALKRKGDASDLVGILLYLASDESKFMTGQTVALDAGLRFT VRLANRVAIITGAAQGIGRIYAERFAEEGAAVVVADINEPKATEVASSITSLGGRAIAAAVDVSDVESVNRMVDSAVEAFGTVDILVNNAAIFSTLKMKPFEEISGDEWDKLFAVNAKGTFLCCQAVSPVMRKNQYGRIINISSSVVVTGRPNYAHYIASKGAVWALTHALATEMGTDGITVNTVSPHGIITEIPRETISEEGWRRNLEEQALKRKGDASDLVGILLYLASDESKFMTGQTVALDAGLRFT 8cxa-a1-m1-cD_8cxa-a1-m1-cC Crystal Structure of 3-oxoacyl-[acyl-carrier-protein] reductase from Mycobacterium smegmatis with bound NAD A0QVD5 A0QVD5 1.65 X-RAY DIFFRACTION 113 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 244 251 8cxa-a1-m1-cA_8cxa-a1-m1-cB VRLANRVAIITGAAQGIGRIYAERFAEEGAAVVVADINEPKATEVASSITSLGGRAIAAAVDVSDVESVNRMVDSAVEAFGTVDILVNNAAIFSTLKMKPFEEISGDEWDKLFAVNAKGTFLCCQAVSPVMRKNQYGRIINISSSVVVTGRPNYAHYIASKGAVWALTHALATEMGTDGITVNTVSPHGIIISEEGWRRNLEEQALKRKGDASDLVGILLYLASDESKFMTGQTVALDAGLRFT VRLANRVAIITGAAQGIGRIYAERFAEEGAAVVVADINEPKATEVASSITSLGGRAIAAAVDVSDVESVNRMVDSAVEAFGTVDILVNNAAIFSTLKMKPFEEISGDEWDKLFAVNAKGTFLCCQAVSPVMRKNQYGRIINISSSVVVTGRPNYAHYIASKGAVWALTHALATEMGTDGITVNTVSPHGIITEIPRETISEEGWRRNLEEQALKRKGDASDLVGILLYLASDESKFMTGQTVALDAGLRFT 8cxl-a1-m1-cB_8cxl-a1-m1-cA Structure of NapH3, a vanadium-dependent haloperoxidase homolog catalyzing the stereospecific alpha-hydroxyketone rearrangement reaction in napyradiomycin biosynthesis A7KH32 A7KH32 1.98 X-RAY DIFFRACTION 162 1.0 418855 (Streptomyces sp. CNQ-525) 418855 (Streptomyces sp. CNQ-525) 463 471 PFDFDNGNFIRDLITTGGGYPPADAMAPGDVSSYTWVTHLLQTSWFDALAPYHPTAVGVYSRIPRRPAEESATNRNKNIAGLYAMFQVVKAAFTERVPVLRQALGALGLDPDDESQDLSTAVGIGNTAGKAVAAARMGDGMNALGGKDRTHNGQPYEDYTGYRPVNTADELVDPSRWQPAVEPHRRRTDGGPGDKGIFTAQRFATPQLGLVAPQTYRDPARFKLAAPDHLDHNDAGAYRQAVDEVLAASAGLTDEQKVKAEFFEHTPLSVTLSPRAAAMAHDLDLDGWAQLFLVCSTARFDSLIAAWHHKRAYDTVRPFSAVRHVYGSKPVTAWGGPGKGTVESIPADEWTGYLPVGNHPEYPSGFTTLIAAQAQAARSFLGDDVLNWTHAFPAGSGQREPGAVPASDLELTWATWTDFENDCATSRVWAGAFTKTAETSLAFGTQFGDLAHTFVQRHINGDV APAQQIPFDFDNGNFIRDLITTHGGGGYPPADAMAPGDVSSYTWVTHLLQTSWFDALAPYHPTAVGVYSRIPRRPAEESATNRNKNIAGLYAMFQVVKAAFTERVPVLRQALGALGLDPDDESQDLSTAVGIGNTAGKAVAAARMGDGMNALGGKDRTHNGQPYEDYTGYRPVNTADELVDPSRWQPAVEPHRRRTDGGPGDKGIFTAQRFATPQLGLVAPQTYRDPARFKLAAPDHLDHNDAGAYRQAVDEVLAASAGLTDEQKVKAEFFEHTPLSVTLSPRAAAMAHDLDLDGWAQLFLVCSTARFDSLIAAWHHKRAYDTVRPFSAVRHVYGSKPVTAWGGPGKGTVESIPADEWTGYLPVGNHPEYPSGFTTLIAAQAQAARSFLGDDVLNWTHAFPAGSGQREPGAVPASDLELTWATWTDFENDCATSRVWAGAFTKTAETSLAFGTQFGDLAHTFVQRHINGDV 8cxq-a1-m1-cE_8cxq-a1-m1-cF SARS-CoV-2 Spike protein in complex with a pan-sarbecovirus nanobody 1-22 2.3 ELECTRON MICROSCOPY 33 1.0 9844 (Lama glama) 9844 (Lama glama) 122 122 8cxq-a1-m1-cD_8cxq-a1-m1-cE HVQLVESGGGLVQPGGSLRLSCAASGRSFNSYLMGWFRQAPGKEREFVAWISGSPHDIIRYRDSVKDRFTISRDNAKNTVYLQMNSLKPVDTAVYYCAVGSLRVGSFSPDYWGQGTQVTVSS HVQLVESGGGLVQPGGSLRLSCAASGRSFNSYLMGWFRQAPGKEREFVAWISGSPHDIIRYRDSVKDRFTISRDNAKNTVYLQMNSLKPVDTAVYYCAVGSLRVGSFSPDYWGQGTQVTVSS 8cy9-a1-m1-cD_8cy9-a1-m1-cE SARS-CoV-2 Spike protein in complex with a pan-sarbecovirus nanobody 1-23 2.9 ELECTRON MICROSCOPY 21 1.0 9844 (Lama glama) 9844 (Lama glama) 121 121 QVQLVESGGGLVQAGGSLRLSCAASGRTDSISDMGWFRQAPGKEREFVAVVGWSGGGTDYAHSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAVGSLRVGSFSVEYWGQGTQVTVSS QVQLVESGGGLVQAGGSLRLSCAASGRTDSISDMGWFRQAPGKEREFVAVVGWSGGGTDYAHSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAVGSLRVGSFSVEYWGQGTQVTVSS 8cy9-a1-m1-cD_8cy9-a1-m1-cF SARS-CoV-2 Spike protein in complex with a pan-sarbecovirus nanobody 1-23 2.9 ELECTRON MICROSCOPY 35 1.0 9844 (Lama glama) 9844 (Lama glama) 121 121 QVQLVESGGGLVQAGGSLRLSCAASGRTDSISDMGWFRQAPGKEREFVAVVGWSGGGTDYAHSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAVGSLRVGSFSVEYWGQGTQVTVSS QVQLVESGGGLVQAGGSLRLSCAASGRTDSISDMGWFRQAPGKEREFVAVVGWSGGGTDYAHSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCAVGSLRVGSFSVEYWGQGTQVTVSS 8cyd-a1-m1-cD_8cyd-a1-m1-cF SARS-CoV-2 Spike protein in complex with a pan-sarbecovirus nanobody 2-45 2.6 ELECTRON MICROSCOPY 11 1.0 9844 (Lama glama) 9844 (Lama glama) 121 121 QVQLVESGGGLVQAGGSLRLSCTASGYDFSILAIAWYRQAPGKERELVAAISRVGSTDYADSVKGRFTISRDNTKNTVSLQMDSLKPEDTAVYYCNAGIPMTTVLSGLGFWGQGTQVTVSS QVQLVESGGGLVQAGGSLRLSCTASGYDFSILAIAWYRQAPGKERELVAAISRVGSTDYADSVKGRFTISRDNTKNTVSLQMDSLKPEDTAVYYCNAGIPMTTVLSGLGFWGQGTQVTVSS 8cyl-a1-m1-cB_8cyl-a1-m1-cA Ast89 P domain Q86119 Q86119 1.888 X-RAY DIFFRACTION 112 1.0 95339 (Lagovirus) 95339 (Lagovirus) 333 339 3j1p-a1-m10-cA_3j1p-a1-m22-cB 3j1p-a1-m10-cB_3j1p-a1-m33-cA 3j1p-a1-m10-cC_3j1p-a1-m12-cC 3j1p-a1-m11-cA_3j1p-a1-m19-cB 3j1p-a1-m11-cB_3j1p-a1-m47-cA 3j1p-a1-m11-cC_3j1p-a1-m6-cC 3j1p-a1-m12-cA_3j1p-a1-m36-cB 3j1p-a1-m12-cB_3j1p-a1-m45-cA 3j1p-a1-m13-cA_3j1p-a1-m50-cB 3j1p-a1-m13-cB_3j1p-a1-m29-cA 3j1p-a1-m13-cC_3j1p-a1-m9-cC 3j1p-a1-m14-cA_3j1p-a1-m43-cB 3j1p-a1-m14-cB_3j1p-a1-m16-cA 3j1p-a1-m14-cC_3j1p-a1-m8-cC 3j1p-a1-m15-cA_3j1p-a1-m27-cB 3j1p-a1-m15-cB_3j1p-a1-m38-cA 3j1p-a1-m15-cC_3j1p-a1-m7-cC 3j1p-a1-m16-cB_3j1p-a1-m52-cA 3j1p-a1-m17-cA_3j1p-a1-m26-cB 3j1p-a1-m17-cB_3j1p-a1-m60-cA 3j1p-a1-m17-cC_3j1p-a1-m5-cC 3j1p-a1-m18-cA_3j1p-a1-m55-cB 3j1p-a1-m18-cB_3j1p-a1-m39-cA 3j1p-a1-m18-cC_3j1p-a1-m4-cC 3j1p-a1-m19-cA_3j1p-a1-m58-cB 3j1p-a1-m19-cC_3j1p-a1-m3-cC 3j1p-a1-m1-cA_3j1p-a1-m9-cB 3j1p-a1-m1-cB_3j1p-a1-m42-cA 3j1p-a1-m1-cC_3j1p-a1-m16-cC 3j1p-a1-m20-cA_3j1p-a1-m37-cB 3j1p-a1-m20-cB_3j1p-a1-m28-cA 3j1p-a1-m21-cA_3j1p-a1-m29-cB 3j1p-a1-m21-cC_3j1p-a1-m36-cC 3j1p-a1-m22-cA_3j1p-a1-m41-cB 3j1p-a1-m22-cC_3j1p-a1-m40-cC 3j1p-a1-m23-cA_3j1p-a1-m5-cB 3j1p-a1-m23-cB_3j1p-a1-m54-cA 3j1p-a1-m23-cC_3j1p-a1-m39-cC 3j1p-a1-m24-cA_3j1p-a1-m8-cB 3j1p-a1-m24-cB_3j1p-a1-m26-cA 3j1p-a1-m24-cC_3j1p-a1-m38-cC 3j1p-a1-m25-cA_3j1p-a1-m52-cB 3j1p-a1-m25-cB_3j1p-a1-m43-cA 3j1p-a1-m25-cC_3j1p-a1-m37-cC 3j1p-a1-m26-cC_3j1p-a1-m31-cC 3j1p-a1-m27-cA_3j1p-a1-m51-cB 3j1p-a1-m27-cC_3j1p-a1-m35-cC 3j1p-a1-m28-cB_3j1p-a1-m44-cA 3j1p-a1-m28-cC_3j1p-a1-m34-cC 3j1p-a1-m29-cC_3j1p-a1-m33-cC 3j1p-a1-m2-cA_3j1p-a1-m21-cB 3j1p-a1-m2-cB_3j1p-a1-m50-cA 3j1p-a1-m2-cC_3j1p-a1-m20-cC 3j1p-a1-m30-cA_3j1p-a1-m42-cB 3j1p-a1-m30-cB_3j1p-a1-m53-cA 3j1p-a1-m30-cC_3j1p-a1-m32-cC 3j1p-a1-m31-cA_3j1p-a1-m39-cB 3j1p-a1-m31-cB_3j1p-a1-m7-cA 3j1p-a1-m32-cA_3j1p-a1-m56-cB 3j1p-a1-m32-cB_3j1p-a1-m5-cA 3j1p-a1-m33-cB_3j1p-a1-m49-cA 3j1p-a1-m34-cB_3j1p-a1-m36-cA 3j1p-a1-m35-cA_3j1p-a1-m47-cB 3j1p-a1-m35-cB_3j1p-a1-m58-cA 3j1p-a1-m37-cA_3j1p-a1-m46-cB 3j1p-a1-m38-cB_3j1p-a1-m59-cA 3j1p-a1-m3-cA_3j1p-a1-m45-cB 3j1p-a1-m3-cB_3j1p-a1-m34-cA 3j1p-a1-m40-cA_3j1p-a1-m57-cB 3j1p-a1-m40-cB_3j1p-a1-m48-cA 3j1p-a1-m41-cA_3j1p-a1-m49-cB 3j1p-a1-m41-cC_3j1p-a1-m56-cC 3j1p-a1-m42-cC_3j1p-a1-m60-cC 3j1p-a1-m43-cC_3j1p-a1-m59-cC 3j1p-a1-m44-cB_3j1p-a1-m46-cA 3j1p-a1-m44-cC_3j1p-a1-m58-cC 3j1p-a1-m45-cC_3j1p-a1-m57-cC 3j1p-a1-m46-cC_3j1p-a1-m51-cC 3j1p-a1-m47-cC_3j1p-a1-m55-cC 3j1p-a1-m48-cC_3j1p-a1-m54-cC 3j1p-a1-m49-cC_3j1p-a1-m53-cC 3j1p-a1-m4-cA_3j1p-a1-m48-cB 3j1p-a1-m4-cB_3j1p-a1-m6-cA 3j1p-a1-m50-cC_3j1p-a1-m52-cC 3j1p-a1-m51-cA_3j1p-a1-m59-cB 3j1p-a1-m53-cB_3j1p-a1-m9-cA 3j1p-a1-m54-cB_3j1p-a1-m56-cA 3j1p-a1-m55-cA_3j1p-a1-m7-cB 3j1p-a1-m57-cA_3j1p-a1-m6-cB 3j1p-a1-m60-cB_3j1p-a1-m8-cA 4egt-a1-m1-cA_4egt-a1-m1-cB ISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAIDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGSQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPSANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSANGTQYGTGSQPLPVTIGLSLNNYSSALMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGASTTLIDLTELIDVRPVGPRPSKSTLVFNL SKTVDSISPAGLLTTPVLTGVGNDNRWNGQIVGLQPVPGGFSTCNRHWNLNGSTYGWSSPRFADIDHRRGSASYPGNNATNVLQFWYANAGSAIDNPISQVAPDGFPDMSFVPFNGPGIPAAGWVGFGAIWNSNSGAPNVTTVQAYELGFATGAPGNLQPTTNTSGSQTVAKSIYAVVTGTAQNPAGLFVMASGVISTPSANAITYTPQPDRIVTTPGTPAAAPVGKNTPIMFASVVRRTGDVNATAGSANGTQYGTGSQPLPVTIGLSLNNYSSALMPGQFFVWQLTFASGFMEIGLSVDGYFYAGTGASTTLIDLTELIDVRPVGPRPSKSTLVFNL 8cys-a1-m1-cN_8cys-a1-m1-cO CryoEM structures of amplified alpha-synuclein fibril class B type II with extended core from DLB case I P37840 P37840 3.1 ELECTRON MICROSCOPY 296 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 8cyr-a1-m1-cA_8cyr-a1-m1-cE 8cyr-a1-m1-cA_8cyr-a1-m1-cI 8cyr-a1-m1-cB_8cyr-a1-m1-cF 8cyr-a1-m1-cB_8cyr-a1-m1-cJ 8cyr-a1-m1-cC_8cyr-a1-m1-cE 8cyr-a1-m1-cD_8cyr-a1-m1-cF 8cyr-a1-m1-cI_8cyr-a1-m1-cK 8cyr-a1-m1-cJ_8cyr-a1-m1-cL 8cyr-a1-m1-cK_8cyr-a1-m1-cM 8cyr-a1-m1-cL_8cyr-a1-m1-cN 8cys-a1-m1-cA_8cys-a1-m1-cB 8cys-a1-m1-cB_8cys-a1-m1-cC 8cys-a1-m1-cC_8cys-a1-m1-cD 8cys-a1-m1-cD_8cys-a1-m1-cE 8cys-a1-m1-cE_8cys-a1-m1-cF 8cys-a1-m1-cF_8cys-a1-m1-cG 8cys-a1-m1-cI_8cys-a1-m1-cJ 8cys-a1-m1-cJ_8cys-a1-m1-cK 8cys-a1-m1-cK_8cys-a1-m1-cL 8cys-a1-m1-cL_8cys-a1-m1-cM 8cys-a1-m1-cM_8cys-a1-m1-cN 8cyv-a1-m1-cI_8cyv-a1-m1-cJ 8cyv-a1-m1-cJ_8cyv-a1-m1-cK 8cyv-a1-m1-cK_8cyv-a1-m1-cL 8cyv-a1-m1-cL_8cyv-a1-m1-cM 8cyv-a1-m1-cM_8cyv-a1-m1-cN 8cyy-a1-m1-cI_8cyy-a1-m1-cJ 8cyy-a1-m1-cJ_8cyy-a1-m1-cK 8cyy-a1-m1-cK_8cyy-a1-m1-cL 8cyy-a1-m1-cL_8cyy-a1-m1-cM 8cyy-a1-m1-cM_8cyy-a1-m1-cN 8cz1-a1-m1-cA_8cz1-a1-m1-cB 8cz1-a1-m1-cB_8cz1-a1-m1-cC 8cz1-a1-m1-cC_8cz1-a1-m1-cD 8cz1-a1-m1-cD_8cz1-a1-m1-cE 8cz1-a1-m1-cE_8cz1-a1-m1-cF 8cz1-a1-m1-cI_8cz1-a1-m1-cJ 8cz1-a1-m1-cJ_8cz1-a1-m1-cK 8cz1-a1-m1-cK_8cz1-a1-m1-cL 8cz1-a1-m1-cL_8cz1-a1-m1-cM 8cz1-a1-m1-cM_8cz1-a1-m1-cN VVAAAEKTKQGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK VVAAAEKTKQGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK 8cz3-a1-m1-cM_8cz3-a1-m1-cN CryoEM structure of amplified alpha-synuclein fibril class B type I with extended core from DLB case X P37840 P37840 3.2 ELECTRON MICROSCOPY 285 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 72 72 8cyt-a1-m1-cA_8cyt-a1-m1-cB 8cyt-a1-m1-cB_8cyt-a1-m1-cC 8cyt-a1-m1-cC_8cyt-a1-m1-cD 8cyt-a1-m1-cD_8cyt-a1-m1-cE 8cyt-a1-m1-cE_8cyt-a1-m1-cF 8cyt-a1-m1-cF_8cyt-a1-m1-cG 8cyt-a1-m1-cI_8cyt-a1-m1-cJ 8cyt-a1-m1-cJ_8cyt-a1-m1-cK 8cyt-a1-m1-cK_8cyt-a1-m1-cL 8cyt-a1-m1-cL_8cyt-a1-m1-cM 8cyt-a1-m1-cM_8cyt-a1-m1-cN 8cyt-a1-m1-cN_8cyt-a1-m1-cO 8cyv-a1-m1-cA_8cyv-a1-m1-cB 8cyv-a1-m1-cB_8cyv-a1-m1-cC 8cyv-a1-m1-cC_8cyv-a1-m1-cD 8cyv-a1-m1-cD_8cyv-a1-m1-cE 8cyv-a1-m1-cE_8cyv-a1-m1-cF 8cyy-a1-m1-cA_8cyy-a1-m1-cB 8cyy-a1-m1-cB_8cyy-a1-m1-cC 8cyy-a1-m1-cC_8cyy-a1-m1-cD 8cyy-a1-m1-cD_8cyy-a1-m1-cE 8cyy-a1-m1-cE_8cyy-a1-m1-cF 8cz0-a1-m1-cA_8cz0-a1-m1-cB 8cz0-a1-m1-cB_8cz0-a1-m1-cC 8cz0-a1-m1-cC_8cz0-a1-m1-cD 8cz0-a1-m1-cD_8cz0-a1-m1-cE 8cz0-a1-m1-cE_8cz0-a1-m1-cF 8cz0-a1-m1-cI_8cz0-a1-m1-cJ 8cz0-a1-m1-cJ_8cz0-a1-m1-cK 8cz0-a1-m1-cK_8cz0-a1-m1-cL 8cz0-a1-m1-cL_8cz0-a1-m1-cM 8cz0-a1-m1-cM_8cz0-a1-m1-cN 8cz2-a1-m1-cA_8cz2-a1-m1-cE 8cz2-a1-m1-cA_8cz2-a1-m1-cI 8cz2-a1-m1-cB_8cz2-a1-m1-cF 8cz2-a1-m1-cB_8cz2-a1-m1-cJ 8cz2-a1-m1-cC_8cz2-a1-m1-cE 8cz2-a1-m1-cD_8cz2-a1-m1-cF 8cz2-a1-m1-cI_8cz2-a1-m1-cK 8cz2-a1-m1-cJ_8cz2-a1-m1-cL 8cz2-a1-m1-cK_8cz2-a1-m1-cM 8cz2-a1-m1-cL_8cz2-a1-m1-cN 8cz3-a1-m1-cA_8cz3-a1-m1-cB 8cz3-a1-m1-cB_8cz3-a1-m1-cC 8cz3-a1-m1-cC_8cz3-a1-m1-cD 8cz3-a1-m1-cD_8cz3-a1-m1-cE 8cz3-a1-m1-cE_8cz3-a1-m1-cF 8cz3-a1-m1-cI_8cz3-a1-m1-cJ 8cz3-a1-m1-cJ_8cz3-a1-m1-cK 8cz3-a1-m1-cK_8cz3-a1-m1-cL 8cz3-a1-m1-cL_8cz3-a1-m1-cM 8cz6-a1-m1-cA_8cz6-a1-m1-cB 8cz6-a1-m1-cB_8cz6-a1-m1-cC 8cz6-a1-m1-cC_8cz6-a1-m1-cD 8cz6-a1-m1-cD_8cz6-a1-m1-cE 8cz6-a1-m1-cE_8cz6-a1-m1-cF 8cz6-a1-m1-cF_8cz6-a1-m1-cG 8cz6-a1-m1-cI_8cz6-a1-m1-cJ 8cz6-a1-m1-cJ_8cz6-a1-m1-cK 8cz6-a1-m1-cK_8cz6-a1-m1-cL 8cz6-a1-m1-cL_8cz6-a1-m1-cM 8cz6-a1-m1-cM_8cz6-a1-m1-cN 8cz6-a1-m1-cN_8cz6-a1-m1-cO VVAAAEKTKQGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK VVAAAEKTKQGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKK 8d02-a1-m2-cA_8d02-a1-m3-cA Crystal Structure of Bacillus anthracis BxpB Q81TN4 Q81TN4 1.4 X-RAY DIFFRACTION 120 1.0 1392 (Bacillus anthracis) 1392 (Bacillus anthracis) 148 148 7r1m-a1-m1-cB_7r1m-a1-m1-cA 7r1m-a1-m1-cB_7r1m-a1-m1-cC 7r1m-a1-m1-cC_7r1m-a1-m1-cA 8d02-a1-m1-cA_8d02-a1-m2-cA 8d02-a1-m1-cA_8d02-a1-m3-cA TLPAFGFAFNASAPQFASLFTPLLLPSVSPNPNITVPVINDTVSVGDGIRILRAGIYQISYTLTISLDNSPVAPEAGRFFLSLGTPANIIPGSGTAVRSNVIGTGEVDVSSGVILINLNPGDLIRIVPVELIGTVDIRAAALTVAQIS TLPAFGFAFNASAPQFASLFTPLLLPSVSPNPNITVPVINDTVSVGDGIRILRAGIYQISYTLTISLDNSPVAPEAGRFFLSLGTPANIIPGSGTAVRSNVIGTGEVDVSSGVILINLNPGDLIRIVPVELIGTVDIRAAALTVAQIS 8d03-a1-m1-cA_8d03-a1-m2-cA Hallucinated C2 protein assembly HALC2_068 1.75 X-RAY DIFFRACTION 48 1.0 32630 (synthetic construct) 32630 (synthetic construct) 65 65 MIKVPEDLERIGRELRARGLDTKRLLEEGPKLYPELSIPDLMAIALYDHLNLDPEFLYRLLQQSR MIKVPEDLERIGRELRARGLDTKRLLEEGPKLYPELSIPDLMAIALYDHLNLDPEFLYRLLQQSR 8d04-a1-m1-cB_8d04-a1-m1-cA Hallucinated C2 protein assembly HALC2_062 2.11 X-RAY DIFFRACTION 103 1.0 32630 (synthetic construct) 32630 (synthetic construct) 63 66 8d04-a2-m1-cC_8d04-a2-m1-cE 8d04-a3-m1-cD_8d04-a3-m1-cF GMARVEYSYEKLNDTHYKLKLKVTYEYRKSPEARRLAEDLVQAFVDALSSLPFITVEYEVEEV GMARVEYSYEKLNDTHYKLKLKVTYEYRKSPEARRLAEDLVQAFVDALSSLPFITVEYEVEEVEVE 8d05-a1-m1-cA_8d05-a1-m2-cA Hallucinated C2 protein assembly HALC2_065 2.51 X-RAY DIFFRACTION 76 1.0 32630 (synthetic construct) 32630 (synthetic construct) 60 60 PIVIDLNKTIERDGRKVKLVRATITVDPETNTITIDIEYEGGPITKEDLLEAFKLAASKL PIVIDLNKTIERDGRKVKLVRATITVDPETNTITIDIEYEGGPITKEDLLEAFKLAASKL 8d07-a2-m1-cB_8d07-a2-m1-cC Hallucinated C3 protein assembly HALC3_109 2.09 X-RAY DIFFRACTION 59 1.0 32630 (synthetic construct) 32630 (synthetic construct) 65 65 8d07-a1-m1-cD_8d07-a1-m1-cE 8d07-a1-m1-cF_8d07-a1-m1-cD 8d07-a1-m1-cF_8d07-a1-m1-cE 8d07-a2-m1-cA_8d07-a2-m1-cB 8d07-a2-m1-cA_8d07-a2-m1-cC REEIEEAVKEAELKVLAIVLVALRSVSHYEPLSRLYESFLDALKKALSEEELKEVEKEAERIEKK REEIEEAVKEAELKVLAIVLVALRSVSHYEPLSRLYESFLDALKKALSEEELKEVEKEAERIEKK 8d08-a1-m1-cB_8d08-a1-m1-cC Hallucinated C4 protein assembly HALC4_135 3.3 X-RAY DIFFRACTION 65 1.0 32630 (synthetic construct) 32630 (synthetic construct) 65 66 8d08-a1-m1-cA_8d08-a1-m1-cC 8d08-a1-m1-cA_8d08-a1-m1-cD 8d08-a1-m1-cB_8d08-a1-m1-cD MEKFKEQLLEEVKKIVLETMTKVMEHLEKWFVTLAEIIITKSEEKLEELKETMEKSIEELRKEAE MEKFKEQLLEEVKKIVLETMTKVMEHLEKWFVTLAEIIITKSEEKLEELKETMEKSIEELRKEAEG 8d09-a1-m2-cA_8d09-a1-m4-cB Hallucinated C4 protein assembly HALC4_136 1.9 X-RAY DIFFRACTION 71 1.0 32630 (synthetic construct) 32630 (synthetic construct) 65 65 8d09-a1-m1-cA_8d09-a1-m3-cB 8d09-a1-m1-cA_8d09-a1-m4-cB 8d09-a1-m2-cA_8d09-a1-m3-cB MSPYKKAIEITKRLLELLLSNPELAKKNLGGIATLISLLALISALDGTLDEKDIEPYIKKLEESL MSPYKKAIEITKRLLELLLSNPELAKKNLGGIATLISLLALISALDGTLDEKDIEPYIKKLEESL 8d0m-a1-m1-cA_8d0m-a1-m2-cA Human CD38 ectodomain bound to a 78c-ADPR adduct P28907 P28907 2.04 X-RAY DIFFRACTION 47 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 237 237 RWRQQWSGPGTTKRFPETVLARCVKYTEIHPEMRHVDCQSVWDAFKGAFISKHPCDITEEDYQPLMKLGTQTVPCNKILLWSRIKDLAHQFTQVQRDMFTLEDTLLGYLADDLTWCGEFATSKINYQSCPDWRKDCSNNPVSVFWKTVSRRFAEAACDVVHVMLDGSRSKIFDKDSTFGSVEVHNLQPEKVQTLEAWVIHGEDSRDLCQDPTIKELESIISKRNIQFSCKNIYRPDK RWRQQWSGPGTTKRFPETVLARCVKYTEIHPEMRHVDCQSVWDAFKGAFISKHPCDITEEDYQPLMKLGTQTVPCNKILLWSRIKDLAHQFTQVQRDMFTLEDTLLGYLADDLTWCGEFATSKINYQSCPDWRKDCSNNPVSVFWKTVSRRFAEAACDVVHVMLDGSRSKIFDKDSTFGSVEVHNLQPEKVQTLEAWVIHGEDSRDLCQDPTIKELESIISKRNIQFSCKNIYRPDK 8d0p-a1-m1-cA_8d0p-a1-m2-cA Human FUT9, unliganded Q9Y231 Q9Y231 1.09 X-RAY DIFFRACTION 67 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 297 297 8d0o-a1-m1-cA_8d0o-a1-m2-cA 8d0q-a1-m1-cA_8d0q-a1-m2-cA 8d0r-a1-m1-cA_8d0r-a1-m2-cA 8d0s-a1-m1-cA_8d0s-a1-m2-cA 8d0u-a1-m1-cA_8d0u-a1-m2-cA 8d0w-a1-m1-cA_8d0w-a1-m2-cA 8d0x-a1-m1-cA_8d0x-a1-m2-cA ETTILVWVWPFGQTFDLTSCQAMFNIQGCHLTTDRSLYNKSHAVLIHHRDISWDLTNLPQQARPPFQKWIWMNLESPTHTPQKSGIEHLFNLTLTYRRDSDIQVPYGFLTVSTNPFVFEVPSKEKLVCWVVSNWNPEHARVKYYNELSKSIEIHTYGQAFGEYVNDKNLIPTISACKFYLSFENSIHKDYITEKLYNAFLAGSVPVVLGPSRENYENYIPADSFIHVEDYNSPSELAKYLKEVDKNNKLYLSYFNWRKDFTVNLPRFWESHACLACDHVKRHQEYKSVGNLEKWFWN ETTILVWVWPFGQTFDLTSCQAMFNIQGCHLTTDRSLYNKSHAVLIHHRDISWDLTNLPQQARPPFQKWIWMNLESPTHTPQKSGIEHLFNLTLTYRRDSDIQVPYGFLTVSTNPFVFEVPSKEKLVCWVVSNWNPEHARVKYYNELSKSIEIHTYGQAFGEYVNDKNLIPTISACKFYLSFENSIHKDYITEKLYNAFLAGSVPVVLGPSRENYENYIPADSFIHVEDYNSPSELAKYLKEVDKNNKLYLSYFNWRKDFTVNLPRFWESHACLACDHVKRHQEYKSVGNLEKWFWN 8d0z-a1-m1-cB_8d0z-a1-m1-cC S728-1157 IgG in complex with SARS-CoV-2-6P-Mut7 Spike protein (focused refinement) P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 261 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 820 824 TQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE YTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8d0z-a1-m1-cC_8d0z-a1-m1-cA S728-1157 IgG in complex with SARS-CoV-2-6P-Mut7 Spike protein (focused refinement) P0DTC2 P0DTC2 3.7 ELECTRON MICROSCOPY 255 0.99 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 824 1015 8d0z-a1-m1-cB_8d0z-a1-m1-cA YTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSCAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVQKFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 8d27-a1-m1-cA_8d27-a1-m1-cB Arginase Domain of Ornithine Decarboxylase/Arginase from Fusobacterium nucleatum Q8RG18 Q8RG18 2.25 X-RAY DIFFRACTION 45 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 281 281 KNVLIGVQTNLGVNKTGTEFGPDDLIQAYPDTFDEMELISVERQKEDFNDKKLKFKNTVLDTCEKIAKRVNEAVIDGYRPILVGGDHSISLGSVSGVSLEKEIGVLWISAHGDMNTPESTLTGNIHGMPLALLQGLGDRELVNCFYEGAKLDSRNIVIFGAREIEVEERKIIEKTGVKIVYYDDILRKGIDNVLDEVKDYLKIDNLHISIDMNVFDPEIAPGVSVPVRRGMSYDEMFKSLKFAFKNYSVTSADITEFNPLNDINGKTAELVNGIVQYMMNP KNVLIGVQTNLGVNKTGTEFGPDDLIQAYPDTFDEMELISVERQKEDFNDKKLKFKNTVLDTCEKIAKRVNEAVIDGYRPILVGGDHSISLGSVSGVSLEKEIGVLWISAHGDMNTPESTLTGNIHGMPLALLQGLGDRELVNCFYEGAKLDSRNIVIFGAREIEVEERKIIEKTGVKIVYYDDILRKGIDNVLDEVKDYLKIDNLHISIDMNVFDPEIAPGVSVPVRRGMSYDEMFKSLKFAFKNYSVTSADITEFNPLNDINGKTAELVNGIVQYMMNP 8d38-a1-m1-cC_8d38-a1-m2-cC Structure of a purine nucleoside phosphorylase from Geobacillus stearothermophilus 1.72 X-RAY DIFFRACTION 134 1.0 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 239 239 8d38-a1-m1-cA_8d38-a1-m1-cB 8d38-a1-m2-cA_8d38-a1-m2-cB NLYFQGAMMSVHIGAKAGEIAERILLPGDPLRAKYIAETFLEGAVCYNEVRGMLGFTGTYKGERISVQGTGMGVPSISIYVNELIQSYGVKTLIRVGTCGAIQPDVRVRDVILAMSASTDSNMNRLIFRGRDYAPTADFHLLRTAYEVGVEKGLLKVGNVFTADMFYNDEPNWETWARYGVLAVEMETAALYTLAAKFGCRALSVLTVSDHILTGETTAEERQMTFNEMIEVALEAAIR NLYFQGAMMSVHIGAKAGEIAERILLPGDPLRAKYIAETFLEGAVCYNEVRGMLGFTGTYKGERISVQGTGMGVPSISIYVNELIQSYGVKTLIRVGTCGAIQPDVRVRDVILAMSASTDSNMNRLIFRGRDYAPTADFHLLRTAYEVGVEKGLLKVGNVFTADMFYNDEPNWETWARYGVLAVEMETAALYTLAAKFGCRALSVLTVSDHILTGETTAEERQMTFNEMIEVALEAAIR 8d38-a1-m2-cC_8d38-a1-m2-cB Structure of a purine nucleoside phosphorylase from Geobacillus stearothermophilus 1.72 X-RAY DIFFRACTION 104 0.996 1422 (Geobacillus stearothermophilus) 1422 (Geobacillus stearothermophilus) 239 241 8d38-a1-m1-cA_8d38-a1-m2-cA 8d38-a1-m1-cC_8d38-a1-m1-cB NLYFQGAMMSVHIGAKAGEIAERILLPGDPLRAKYIAETFLEGAVCYNEVRGMLGFTGTYKGERISVQGTGMGVPSISIYVNELIQSYGVKTLIRVGTCGAIQPDVRVRDVILAMSASTDSNMNRLIFRGRDYAPTADFHLLRTAYEVGVEKGLLKVGNVFTADMFYNDEPNWETWARYGVLAVEMETAALYTLAAKFGCRALSVLTVSDHILTGETTAEERQMTFNEMIEVALEAAIR ENLYFQGAMMSVHIGAKAGEIAERILLPGDPLRAKYIAETFLEGAVCYNEVRGMLGFTGTYKGERISVQGTGMGVPSISIYVNELIQSYGVKTLIRVGTCGAIQPDVRVRDVILAMSASTDSNMNRLIFRGRDYAPTADFHLLRTAYEVGVEKGLALKVGNVFTADMFYNDEPNWETWARYGVLAVEMETAALYTLAAKFGCRALSVLTVSDHILTEETTAEERQMTFNEMIEVALEAAIR 8d3b-a1-m1-cF_8d3b-a1-m1-cE Hexameric HIV-1 (M-group) Q50Y/R120 mutant P35962 P35962 3.3 X-RAY DIFFRACTION 70 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 193 196 5hgl-a1-m1-cC_5hgl-a1-m1-cD 5hgl-a1-m1-cE_5hgl-a1-m1-cD PIVQNLQGQMVHQCISPRTLNAWVKVVEEKAFSPEVIPMFSALSCGATPYDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHPMREPRGSDIAGTTSTLQEQIGWMPIPVGEIYKRWIILGLNKIVRMYSPTSILDIRQGPKEPFRDYVDRFYKTLRAETLLVQNANPDCKTILKALGPGATLEEMMTACQ PIVQNLQGQMVHQCISPRTLNAWVKVVEEKAFSPEVIPMFSALSCGATPYDLNTMLNTVGGHQAAMQMLKETINEEAAEWDRLHPVHMREPRGSDIAGTTSTLQEQIGWMPPIPVGEIYKRWIILGLNKIVRMYSPTSILDIRQGPKEPFRDYVDRFYKTLRAETLLVQNANPDCKTILKALGPGATLEEMMTACQ 8d3l-a1-m1-cB_8d3l-a1-m1-cA Type I-C Cas4-Cas1-Cas2 complex bound to a PAM/PAM prespacer Q9KFX9 Q9KFX9 3.49 ELECTRON MICROSCOPY 96 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 342 343 8d3l-a1-m1-cD_8d3l-a1-m1-cC 8d3m-a1-m1-cB_8d3m-a1-m1-cA 8d3m-a1-m1-cD_8d3m-a1-m1-cC 8d3p-a1-m1-cA_8d3p-a1-m1-cB 8d3p-a1-m1-cD_8d3p-a1-m1-cC 8d3q-a1-m1-cB_8d3q-a1-m1-cA 8d3q-a1-m1-cD_8d3q-a1-m1-cC MKKLLNTLYVTQPDTYLSLDGDNVVLLKEQEKLGRLPLHNLEAIVGFGYTGASPALMGYCAERNISITFLTKNGRFLARVVGESRGNVVLRKTQYRISENDQESTKIARNFITGKVYNSKWMLERMTREHPLRVNVEQFKATSQLLSVMMQEIRNCDSLESLRGWEGQAAINYNKVFDQMILQQKEEFAFHGRSRRPPKDNVNAMLSFAYTLLANDVAAALETVGLDAYVGFMHQDRPGRASLALDLMEELRGLYADRFVLSLINRKEMTADGFYKKENGAVLMTDEARKTFLKAWQTKKQEKITHPYLGEKMSWGLVPYVQALLLARFLRGDLDEYPPFLW MKKLLNTLYVTQPDTYLSLDGDNVVLLKEQEKLGRLPLHNLEAIVGFGYTGASPALMGYCAERNISITFLTKNGRFLARVVGESRGNVVLRKTQYRISENDQESTKIARNFITGKVYNSKWMLERMTREHPLRVNVEQFKATSQLLSVMMQEIRNCDSLESLRGWEGQAAINYNKVFDQMILQQKEEFAFHGRSRRPPKDNVNAMLSFAYTLLANDVAAALETVGLDAYVGFMHQDRPGRASLALDLMEELRGLYADRFVLSLINRKEMTADGFYKKENGAVLMTDEARKTFLKAWQTKKQEKITHPYLGEKMSWGLVPYVQALLLARFLRGDLDEYPPFLWK 8d3q-a1-m1-cE_8d3q-a1-m1-cF Type I-C Cas4-Cas1-Cas2 complex bound to a PAM/NoPAM prespacer Q9KFX8 Q9KFX8 3.9 ELECTRON MICROSCOPY 95 1.0 272558 (Halalkalibacterium halodurans C-125) 272558 (Halalkalibacterium halodurans C-125) 98 98 8d3l-a1-m1-cE_8d3l-a1-m1-cF 8d3m-a1-m1-cE_8d3m-a1-m1-cF 8d3p-a1-m1-cF_8d3p-a1-m1-cE GSMLVLITYDVQTSSMGGTKRLRKVAKACQNYGQRVQNSVFECIVDSTQLTSLKLELTSLIDEEKDSLRIYRLGNNYKTKVEHIGAKPSIDLEDPLIF GSMLVLITYDVQTSSMGGTKRLRKVAKACQNYGQRVQNSVFECIVDSTQLTSLKLELTSLIDEEKDSLRIYRLGNNYKTKVEHIGAKPSIDLEDPLIF 8d3t-a2-m1-cD_8d3t-a2-m1-cC Crystal structure of GalS1 from Populus trichocarpas A0A2K2AMS7 A0A2K2AMS7 2.37 X-RAY DIFFRACTION 128 1.0 3694 (Populus trichocarpa) 3694 (Populus trichocarpa) 392 394 8d3t-a1-m1-cA_8d3t-a1-m1-cB 8d3z-a1-m1-cA_8d3z-a1-m1-cB NKRIFQAYGNAAALFVQMGAYRGGPTTFAVVGLASKPIHVFRLPWYKCEWISNNGSSIRAKAYKMLPDWGYGRVYTVVVVNCTFPVNPNQDNAGGRLMLNAYYDESQRKYEKFTALEELPGSYNESKFRPPYQYEYLYCGSSLYGNLSASRFREWMAYHAWFFGPSSHFVFHDAGGVSPEVRAALDPWVRAGRATVQDIRGQAEFDGYYYNQFLVVNDCLHRYRYSANWTFYFDVDEYIYLPEGNTLESVLKDFSNYTQFTIEQNPMSSALCFNDSTQDYPRQWGFEKLLFRESRTGIRRDRKYAIQAKNAYATGVHMSENVIGKTLHQTETKIRYYHYHNSIQVPGELCREFLPLSAKNNVTWYNGLPYVYDDNMKKLASTIKDFERNTIG DPNKRIFQAYGNAAALFVQMGAYRGGPTTFAVVGLASKPIHVFRLPWYKCEWISNNGSSIRAKAYKMLPDWGYGRVYTVVVVNCTFPVNPNQDNAGGRLMLNAYYDESQRKYEKFTALEELPGSYNESKFRPPYQYEYLYCGSSLYGNLSASRFREWMAYHAWFFGPSSHFVFHDAGGVSPEVRAALDPWVRAGRATVQDIRGQAEFDGYYYNQFLVVNDCLHRYRYSANWTFYFDVDEYIYLPEGNTLESVLKDFSNYTQFTIEQNPMSSALCFNDSTQDYPRQWGFEKLLFRESRTGIRRDRKYAIQAKNAYATGVHMSENVIGKTLHQTETKIRYYHYHNSIQVPGELCREFLPLSAKNNVTWYNGLPYVYDDNMKKLASTIKDFERNTIG 8d4w-a1-m1-cA_8d4w-a1-m2-cA Asymmetric ene-reduction of alpha,beta-unsaturated compounds using MSMEG_2850 A0A8B4R830 A0A8B4R830 1.35 X-RAY DIFFRACTION 86 1.0 1772 (Mycolicibacterium smegmatis) 1772 (Mycolicibacterium smegmatis) 136 136 IDWDQMNNQVIKEFRETGGKAGGLFEGSPLVLVHHTGAKSGKQRIAPLVPLLDGDRIYIFGSKGGADSHPDWYHNLVANPDTVVELGTETFPVKARVLTGAERDEIYAKQVAVAPQFGDYQRKTTRVIPVVELQRV IDWDQMNNQVIKEFRETGGKAGGLFEGSPLVLVHHTGAKSGKQRIAPLVPLLDGDRIYIFGSKGGADSHPDWYHNLVANPDTVVELGTETFPVKARVLTGAERDEIYAKQVAVAPQFGDYQRKTTRVIPVVELQRV 8d57-a2-m1-cE_8d57-a2-m2-cF Crystal Structure of dihydrodipicolinate reductase from Acinetobacter baumannii B0VA26 B0VA26 2.65 X-RAY DIFFRACTION 127 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 267 267 8d57-a1-m1-cC_8d57-a1-m1-cB 8d57-a1-m1-cD_8d57-a1-m1-cA 8d57-a2-m1-cF_8d57-a2-m2-cE APRIGILGAGGRMGRILIQAVQQAGYQLGAAVVRPESTLIGADAGELAGIGSIGVKLTGSLAEVLEDCDVVIDFSTPAATSEHLKLCREAGVAIVIGTTGMSDEQKAELDETAKHIPVVYAANYSVGVNVSIKLLELAAKVFGDTVDIEVIEAHHRHKVDAPSGTALMMGEAIADTLGRNLKEVAVYGREGHTGPRDRQTIGFETIRGGDIVGEHTVMFIGEGERVEVTHKATNRMNFAAGAVRAAAWVVGREARKYDMKDVLGLND APRIGILGAGGRMGRILIQAVQQAGYQLGAAVVRPESTLIGADAGELAGIGSIGVKLTGSLAEVLEDCDVVIDFSTPAATSEHLKLCREAGVAIVIGTTGMSDEQKAELDETAKHIPVVYAANYSVGVNVSIKLLELAAKVFGDTVDIEVIEAHHRHKVDAPSGTALMMGEAIADTLGRNLKEVAVYGREGHTGPRDRQTIGFETIRGGDIVGEHTVMFIGEGERVEVTHKATNRMNFAAGAVRAAAWVVGREARKYDMKDVLGLND 8d57-a2-m1-cF_8d57-a2-m2-cF Crystal Structure of dihydrodipicolinate reductase from Acinetobacter baumannii B0VA26 B0VA26 2.65 X-RAY DIFFRACTION 110 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 267 267 8d57-a1-m1-cA_8d57-a1-m1-cC 8d57-a1-m1-cD_8d57-a1-m1-cB 8d57-a2-m1-cE_8d57-a2-m2-cE APRIGILGAGGRMGRILIQAVQQAGYQLGAAVVRPESTLIGADAGELAGIGSIGVKLTGSLAEVLEDCDVVIDFSTPAATSEHLKLCREAGVAIVIGTTGMSDEQKAELDETAKHIPVVYAANYSVGVNVSIKLLELAAKVFGDTVDIEVIEAHHRHKVDAPSGTALMMGEAIADTLGRNLKEVAVYGREGHTGPRDRQTIGFETIRGGDIVGEHTVMFIGEGERVEVTHKATNRMNFAAGAVRAAAWVVGREARKYDMKDVLGLND APRIGILGAGGRMGRILIQAVQQAGYQLGAAVVRPESTLIGADAGELAGIGSIGVKLTGSLAEVLEDCDVVIDFSTPAATSEHLKLCREAGVAIVIGTTGMSDEQKAELDETAKHIPVVYAANYSVGVNVSIKLLELAAKVFGDTVDIEVIEAHHRHKVDAPSGTALMMGEAIADTLGRNLKEVAVYGREGHTGPRDRQTIGFETIRGGDIVGEHTVMFIGEGERVEVTHKATNRMNFAAGAVRAAAWVVGREARKYDMKDVLGLND 8d7h-a1-m1-cA_8d7h-a1-m1-cE Cryo-EM structure of human CLCF1 in complex with CRLF1 and CNTFR alpha O75462 O75462 3.4 ELECTRON MICROSCOPY 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 303 303 HTAVISPQDPTLLIGSSLLATCSVHGDPPGATAEGLYWTLNGRRLPPELSRVLNASTLALALANLNGSRQRSGDNLVCHARDGSILAGSCLYVGLPPEKPVNISCWSKNMKDLTCRWTPGAHGETFLHTNYSLKYKLRWYGQDNTCEEYHTVGPHSCHIPKDLALFTPYEIWVEATNRLGSARSDVLTLDILDVVTTDPPPDVHVSRVGGLEDQLSVRWVSPPALKDFLFQAKYQIRYRVEDSVDWKVVDDVSNQTSCRLAGLKPGTVYFVQVRCNPFGIYGSKKAGIWSEWSHPTAASTPRS HTAVISPQDPTLLIGSSLLATCSVHGDPPGATAEGLYWTLNGRRLPPELSRVLNASTLALALANLNGSRQRSGDNLVCHARDGSILAGSCLYVGLPPEKPVNISCWSKNMKDLTCRWTPGAHGETFLHTNYSLKYKLRWYGQDNTCEEYHTVGPHSCHIPKDLALFTPYEIWVEATNRLGSARSDVLTLDILDVVTTDPPPDVHVSRVGGLEDQLSVRWVSPPALKDFLFQAKYQIRYRVEDSVDWKVVDDVSNQTSCRLAGLKPGTVYFVQVRCNPFGIYGSKKAGIWSEWSHPTAASTPRS 8d88-a1-m1-cA_8d88-a1-m1-cB Structure of Y430F D-ornithine/D-lysine decarboxylase complex with D-lysine Q8ZNC4 Q8ZNC4 1.41 X-RAY DIFFRACTION 256 1.0 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 90371 (Salmonella enterica subsp. enterica serovar Typhimurium) 461 461 6n2h-a1-m1-cA_6n2h-a1-m2-cA 8d2y-a1-m1-cA_8d2y-a1-m2-cA 8d4i-a1-m1-cA_8d4i-a1-m1-cC 8d5d-a1-m1-cB_8d5d-a1-m1-cA 8d5r-a1-m1-cB_8d5r-a1-m1-cA MTDSIMQNYNQLREQVINGDRRFQHKDGHLCFEGVDLDALARQYPTPFYVFSEPEIIRNIHEIQQAFAAHKNTKTFFASKTCSVMGVLKAIRDAGICAEANSQYEVRKCLEIGFRGDQIVFNGVVKKPADLEYAIANDLYLINVDSLYELEHIDAISRKLKKVANVCVRVEPNVPLVTAFHAKSGLDLEQAEETCRRILAMPYVHLRGLHMHVGDQVPESEPFAKATKVLVDESRRLEEVLGIKFDLINVGGGIPVPYKYDDENGDPLKDNMYAGITAQDFADAVIREVHKWRTDVEICIEPGRKVTGSAAVLLTEVSCEKRKTNYDLNGNVECHVEWKFVDAGYSVLSDSQHFDWFFYVYNASRMTAAHDAWIKLAGPLCDGGDYFHMGVKGEEFLLPKETHVGDIVAFLDAGAYTIESQTVFNNRPRTGVVMIDKNGDTRLIRREDSYEDMVKYDIYLA MTDSIMQNYNQLREQVINGDRRFQHKDGHLCFEGVDLDALARQYPTPFYVFSEPEIIRNIHEIQQAFAAHKNTKTFFASKTCSVMGVLKAIRDAGICAEANSQYEVRKCLEIGFRGDQIVFNGVVKKPADLEYAIANDLYLINVDSLYELEHIDAISRKLKKVANVCVRVEPNVPLVTAFHAKSGLDLEQAEETCRRILAMPYVHLRGLHMHVGDQVPESEPFAKATKVLVDESRRLEEVLGIKFDLINVGGGIPVPYKYDDENGDPLKDNMYAGITAQDFADAVIREVHKWRTDVEICIEPGRKVTGSAAVLLTEVSCEKRKTNYDLNGNVECHVEWKFVDAGYSVLSDSQHFDWFFYVYNASRMTAAHDAWIKLAGPLCDGGDYFHMGVKGEEFLLPKETHVGDIVAFLDAGAYTIESQTVFNNRPRTGVVMIDKNGDTRLIRREDSYEDMVKYDIYLA 8d8p-a1-m1-cA_8d8p-a1-m1-cB Crystal structure of a novel fatty acid decarboxylase from Rothia nasimurium A0A1Y1RQ53 A0A1Y1RQ53 2.75 X-RAY DIFFRACTION 21 1.0 85336 (Rothia nasimurium) 85336 (Rothia nasimurium) 420 420 LNDQLPNFIKQGYLFMSHQRRKAGVPADSNCPVTFPVLGGRATLIRGEEAVDFFYDESKISRNGAMPTAIQGPLFGDGAVHTLDGQAHKVRKSAMAAMAYDDERVEAFRGFVEEEMKALIERWKTNPGNIYDDVAVAYGRAAFRWAGVPASDRELNKRATQMSHLLDTFGEVKQNVLSWMDRRKLDAWAEDLIKKVRSGELTVDPDSVVRHMADLRDEKGELVTAKLAGIELQNLTRPTVAVSRFAAFAAVAMVENPEWAAKVKNAVEDADGRLVNIPEAVAFAQETRRKYPFVPMLPAMVKEDTELSGCPIQKGQRVFLDVLGTNNSPQLWNNPGEFNPQRFLDTPDYESIKGFIPQGGGDVLTGHRCPGEKIAVAALSSTVAALSADNVTISQETEDTTFSMTQLLTRPRTGVRVTVS LNDQLPNFIKQGYLFMSHQRRKAGVPADSNCPVTFPVLGGRATLIRGEEAVDFFYDESKISRNGAMPTAIQGPLFGDGAVHTLDGQAHKVRKSAMAAMAYDDERVEAFRGFVEEEMKALIERWKTNPGNIYDDVAVAYGRAAFRWAGVPASDRELNKRATQMSHLLDTFGEVKQNVLSWMDRRKLDAWAEDLIKKVRSGELTVDPDSVVRHMADLRDEKGELVTAKLAGIELQNLTRPTVAVSRFAAFAAVAMVENPEWAAKVKNAVEDADGRLVNIPEAVAFAQETRRKYPFVPMLPAMVKEDTELSGCPIQKGQRVFLDVLGTNNSPQLWNNPGEFNPQRFLDTPDYESIKGFIPQGGGDVLTGHRCPGEKIAVAALSSTVAALSADNVTISQETEDTTFSMTQLLTRPRTGVRVTVS 8d8s-a1-m1-cA_8d8s-a1-m2-cA SufS from Staphylococcus aureus X5E2K8 X5E2K8 1.388 X-RAY DIFFRACTION 252 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 413 413 SHMASAEHSFDVNEVIKDFPILDQKVNGKRLAYLDSTATSQTPVQVLNVLEDYYKRYNSNVHRGVHTLGSLATDGYENARETVRRFINAKYFEEIIFTRGTTASINLVAHSYGDANVEEGDEIVVTEMEHHANIVPWQQLAKRKNATLKFIPMTADGELNIEDIKQTINDKTKIVAIAHISNVLGTINDVKTIAEIAHQHGAIISVDGAQAAPHMKLDMQEMNADFYSFSGHMLGPTGIGVLFGKRELLQKMEPIEFGGDMIDFVSKYDATWADLPTKFEAGTPLIAQAIGLAEAIRYLERIGFDAIHKYEQELTIYAYEQMSAIEGIEIYGPPKDRRAGVITFNLQDVHPHDVATAVDTEGVAVRAGHHCAQPLMKWLNVSSTARASFYIYNTKEDVDQLINALKQTKEFFS SHMASAEHSFDVNEVIKDFPILDQKVNGKRLAYLDSTATSQTPVQVLNVLEDYYKRYNSNVHRGVHTLGSLATDGYENARETVRRFINAKYFEEIIFTRGTTASINLVAHSYGDANVEEGDEIVVTEMEHHANIVPWQQLAKRKNATLKFIPMTADGELNIEDIKQTINDKTKIVAIAHISNVLGTINDVKTIAEIAHQHGAIISVDGAQAAPHMKLDMQEMNADFYSFSGHMLGPTGIGVLFGKRELLQKMEPIEFGGDMIDFVSKYDATWADLPTKFEAGTPLIAQAIGLAEAIRYLERIGFDAIHKYEQELTIYAYEQMSAIEGIEIYGPPKDRRAGVITFNLQDVHPHDVATAVDTEGVAVRAGHHCAQPLMKWLNVSSTARASFYIYNTKEDVDQLINALKQTKEFFS 8d9m-a1-m6-cA_8d9m-a1-m7-cA Cryo-EM of the OmcZ nanowires from Geobacter sulfurreducens Q74BG5 Q74BG5 4.2 ELECTRON MICROSCOPY 50 1.0 35554 (Geobacter sulfurreducens) 35554 (Geobacter sulfurreducens) 258 258 7lq5-a1-m1-cA_7lq5-a1-m1-cB 7lq5-a1-m1-cB_7lq5-a1-m1-cC 8d9m-a1-m1-cA_8d9m-a1-m3-cA 8d9m-a1-m1-cA_8d9m-a1-m5-cA 8d9m-a1-m2-cA_8d9m-a1-m3-cA 8d9m-a1-m5-cA_8d9m-a1-m6-cA PPPPVNQFLGIYDTKFPNLTKADCLECHVSDTVLVQQHHALINTVTPPASCINTSGTVPPTLATGCHVMVPDGSGGFTFQDFRNCFNCHTQTPHHTSPAAVAKDCKYCHGNFIDNPLDGHYIPTYSASSVTPMPSGRSVTATDGNVVIVQGCEACHQAAPNAIDPKTNTVRPIFSNQDTHHGTGITDCNLCHNTSSNVPIRQCEVCHGVNSLHNIQKDSPNAANLGTVKPGLEDLGWGHIGNNWDCQGCHWSWFGNSS PPPPVNQFLGIYDTKFPNLTKADCLECHVSDTVLVQQHHALINTVTPPASCINTSGTVPPTLATGCHVMVPDGSGGFTFQDFRNCFNCHTQTPHHTSPAAVAKDCKYCHGNFIDNPLDGHYIPTYSASSVTPMPSGRSVTATDGNVVIVQGCEACHQAAPNAIDPKTNTVRPIFSNQDTHHGTGITDCNLCHNTSSNVPIRQCEVCHGVNSLHNIQKDSPNAANLGTVKPGLEDLGWGHIGNNWDCQGCHWSWFGNSS 8d9n-a1-m1-cA_8d9n-a1-m1-cB CryoEM structures of bAE1 captured in multiple states. Q9XSW5 Q9XSW5 4.4 ELECTRON MICROSCOPY 68 1.0 9913 (Bos taurus) 9913 (Bos taurus) 451 451 8e34-a1-m1-cA_8e34-a1-m1-cB 8eeq-a1-m1-cA_8eeq-a1-m1-cC SPQVLSAIIFIYFAALTPAITFGGLLGDKTENMIGVSELLLSTALQGIIFSLLGAQPLLVLGFSGPLLVFEEAFYSFCQTNNLEYIVGRVWIGFWLILLVVLVVAFEGSFLVRFISRYTQEIFSFLISLIFIYETFYKLVTIFQDHPLQKNYDHDVLTTPKPQAALPNTALLSLVLMAGTFFLAMMLRKFKNSSYFPGKLRRIIGDFGVPISILIMVMVDALIQDTYTQKLSVPEGLSVSNPTERDWLIHPLGIRVEFPIWMMFASALPALLVFILIFLESQITTLIIFHLDLLLIIGMGGVGAIFGMPWLSATTVKEQRISGLLVAVLVGVSILMGPVLRHIPLAVLFGIFLYMGVTSLSGIQLFDRVLLLLKPRKYYPEVPYARRVKTWRMHLFTITQIVCLVVLWVVRSIKQISLALPFILILTVPLRRFLLPFIFRDMELKLLDADD SPQVLSAIIFIYFAALTPAITFGGLLGDKTENMIGVSELLLSTALQGIIFSLLGAQPLLVLGFSGPLLVFEEAFYSFCQTNNLEYIVGRVWIGFWLILLVVLVVAFEGSFLVRFISRYTQEIFSFLISLIFIYETFYKLVTIFQDHPLQKNYDHDVLTTPKPQAALPNTALLSLVLMAGTFFLAMMLRKFKNSSYFPGKLRRIIGDFGVPISILIMVMVDALIQDTYTQKLSVPEGLSVSNPTERDWLIHPLGIRVEFPIWMMFASALPALLVFILIFLESQITTLIIFHLDLLLIIGMGGVGAIFGMPWLSATTVKEQRISGLLVAVLVGVSILMGPVLRHIPLAVLFGIFLYMGVTSLSGIQLFDRVLLLLKPRKYYPEVPYARRVKTWRMHLFTITQIVCLVVLWVVRSIKQISLALPFILILTVPLRRFLLPFIFRDMELKLLDADD 8dax-a1-m1-cA_8dax-a1-m1-cB New insights into the P186 flip and oligomeric state of Staphylococcus aureus exfoliative toxin E: implications for the exfoliative mechanism L0RUV7 L0RUV7 1.61 X-RAY DIFFRACTION 85 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 248 248 MIEYTDEEIQKKRDFFKTRPSDSELFSKIQDTTRSPYSSVGTVFVKGKTIATGILIGKNTVITNKHIARLAENDPNKVIFTPGSTRDEGSLVVKKPFGEFIAEEINEAPYGGGTDLSIIKLKPNQYGKSAGDLVTPAAIPDNVDVQKGDKISLLGYPYNTSTHSLYKSQIEVFNNQTFQYFAYTEPGNSGSGIFNLHGELVGIHSGKGGQYGLPFGILFNRQIGSSYSTDKTVTTLAIDLKNKAKTQE MIEYTDEEIQKKRDFFKTRPSDSELFSKIQDTTRSPYSSVGTVFVKGKTIATGILIGKNTVITNKHIARLAENDPNKVIFTPGSTRDEGSLVVKKPFGEFIAEEINEAPYGGGTDLSIIKLKPNQYGKSAGDLVTPAAIPDNVDVQKGDKISLLGYPYNTSTHSLYKSQIEVFNNQTFQYFAYTEPGNSGSGIFNLHGELVGIHSGKGGQYGLPFGILFNRQIGSSYSTDKTVTTLAIDLKNKAKTQE 8db5-a2-m1-cC_8db5-a2-m1-cD Crystal structure of the GDP-D-glycero-4-keto-d-lyxo-heptose-3,5-epimerase from Campylobacter jejuni, serotype HS:15 A0A0S2CFK0 A0A0S2CFK0 1.9 X-RAY DIFFRACTION 106 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 176 176 8db5-a1-m1-cA_8db5-a1-m1-cB 8db5-a3-m1-cF_8db5-a3-m1-cE 8db5-a4-m1-cG_8db5-a4-m1-cH 8dco-a1-m1-cA_8dco-a1-m1-cB EIKFNIEESKILNGVYIITPNKFSDLRGDIWTAFTDEYLSNLVPNGIKFKHDKFINSHFNVLRGIHGDVKTYKLVTCVYGEVHQVVVDCRKDSPTYLKWEKFIISPRNQQLILLPPNMGNSHYVSSKEAVYYYKLAYEGEYLDAPDQFTYAWNDERIAIDWPTNSPILSERDILAM EIKFNIEESKILNGVYIITPNKFSDLRGDIWTAFTDEYLSNLVPNGIKFKHDKFINSHFNVLRGIHGDVKTYKLVTCVYGEVHQVVVDCRKDSPTYLKWEKFIISPRNQQLILLPPNMGNSHYVSSKEAVYYYKLAYEGEYLDAPDQFTYAWNDERIAIDWPTNSPILSERDILAM 8dch-a1-m1-cA_8dch-a1-m1-cB Crystal Structure of a highly resistant HIV-1 protease Clinical isolate PR10x with GRL-0519 (tris-tetrahydrofuran as P2 ligand) P03367 P03367 1.25 X-RAY DIFFRACTION 152 1.0 11676 (Human immunodeficiency virus 1) 11676 (Human immunodeficiency virus 1) 99 99 8dci-a1-m1-cA_8dci-a1-m1-cB PQITLWKRPFVTVKIGGQITEALLDTGADDTIIENISLPGRWKPKIIQGIGGFLKVRQYDQIPIEIEGHKVIGSVVVGPTPVNVIGRNVMSQLGATLNF PQITLWKRPFVTVKIGGQITEALLDTGADDTIIENISLPGRWKPKIIQGIGGFLKVRQYDQIPIEIEGHKVIGSVVVGPTPVNVIGRNVMSQLGATLNF 8ddw-a1-m1-cB_8ddw-a1-m1-cC cryo-EM structure of TRPM3 ion channel in complex with Gbg, tethered by ALFA-nanobody Q5F4S7 Q5F4S7 4.7 ELECTRON MICROSCOPY 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 695 695 8ddw-a1-m1-cA_8ddw-a1-m1-cB 8ddw-a1-m1-cA_8ddw-a1-m1-cD 8ddw-a1-m1-cC_8ddw-a1-m1-cD ISKHTQLSPTDAFGTIEFQGGGHSNKAMYVRVSFDTKPDLLLHLMTKEWQLELPKLLISVHGGLQNFELQPKLKQVFGKGLIKAAMTTGAWIFTGGVNTGVIRHVGDALKDHASKSRGKICTIGIAPWGIVENQEDLIGRDVVRPYQTMSNPMSKLTVLNSMHSHFILADNGTTGKYGAEVKLRRQLEKHISLQKINTRIGQGVPVVALIVEGGPNVISIVLEYLRDTPPVPVVVCDGSGRASDILAFGHKYSEVTIQKTFTYTRTQAQHLFIILMECMKKKELITVFRMGSEGHQDIDLAILTALLKGANASAPDQLSLALAWNRVDIARSQIFIYGQQWPVGSLEQAMLDALVLDRVDFVKLLIENGVSMHRFLTISRLEELYNTRHGPSNTLYHLVRDVKKGNLPPDYRISLIDIGLVIEYLMGGAYRCNYTRKRFRTLYHNLNHFPFPFHELMVWAVLMKRQKMALFFWQHGEEAMAKALVACKLCKAMAHEASENDMVDDISQELNHNSRDFGQLAVELLDQSYKQDEQLAMKLLTYELKNWSNATCLQLAVAAKHRDFIAHTCSQMLLTDMNKYLGPYVMMIGKMMIDLLIAVFNNTFFEVKSISNQVWKFQRYQLIMTFHERDYGLKLFITDDELKKVHDFEEQCIEEYFREKDDRFNSSNDERIRVTSERVENMSMRLEEVNEREHS ISKHTQLSPTDAFGTIEFQGGGHSNKAMYVRVSFDTKPDLLLHLMTKEWQLELPKLLISVHGGLQNFELQPKLKQVFGKGLIKAAMTTGAWIFTGGVNTGVIRHVGDALKDHASKSRGKICTIGIAPWGIVENQEDLIGRDVVRPYQTMSNPMSKLTVLNSMHSHFILADNGTTGKYGAEVKLRRQLEKHISLQKINTRIGQGVPVVALIVEGGPNVISIVLEYLRDTPPVPVVVCDGSGRASDILAFGHKYSEVTIQKTFTYTRTQAQHLFIILMECMKKKELITVFRMGSEGHQDIDLAILTALLKGANASAPDQLSLALAWNRVDIARSQIFIYGQQWPVGSLEQAMLDALVLDRVDFVKLLIENGVSMHRFLTISRLEELYNTRHGPSNTLYHLVRDVKKGNLPPDYRISLIDIGLVIEYLMGGAYRCNYTRKRFRTLYHNLNHFPFPFHELMVWAVLMKRQKMALFFWQHGEEAMAKALVACKLCKAMAHEASENDMVDDISQELNHNSRDFGQLAVELLDQSYKQDEQLAMKLLTYELKNWSNATCLQLAVAAKHRDFIAHTCSQMLLTDMNKYLGPYVMMIGKMMIDLLIAVFNNTFFEVKSISNQVWKFQRYQLIMTFHERDYGLKLFITDDELKKVHDFEEQCIEEYFREKDDRFNSSNDERIRVTSERVENMSMRLEEVNEREHS 8de6-a1-m1-cA_8de6-a1-m1-cG Oligomeric C9 in complex with aE11 Fab P02748 P02748 3.2 ELECTRON MICROSCOPY 140 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 401 401 7nyc-a1-m1-cG_7nyc-a1-m1-cH 8b0g-a1-m1-cI_8b0g-a1-m1-cH 8b0h-a1-m1-cI_8b0h-a1-m1-cH 8de6-a1-m1-cA_8de6-a1-m1-cC SHIDCRMSPWSEWSQCDPCLRQMFRSRSIEVFGQFNGKRCTDAVGDRRQCVPTEPCEDAEDDCGNDFQCSTGRCIKMRLRCNGDNDCGDFSDEDDCESEPRPPCRDRVVEESELARTAGYGINILGMDPLSTPFDNEFYNGLCNRDRDGNTLTYYRRPWNVASLIYETKGEKNFRTEHYEEQIEASYSSKKEKMFLHVKGEIHLGRFVMRNRDVVLTTTFVDDIKALPTTYEKGEYFAFLETYGTHYSSSGSLGGLYELIYVLDKASMKRKVNITSENLIDDVVSLIRGGTRKYAFELKEKLLRGTVIDVTDFVNWASSINDAPVLISQKLSPIYNLVPVKMKNAHLKKQNLERAIEDYINEFSVRKCHTCQNGGTVILMDGKCLCACPFKFEGIACEISK SHIDCRMSPWSEWSQCDPCLRQMFRSRSIEVFGQFNGKRCTDAVGDRRQCVPTEPCEDAEDDCGNDFQCSTGRCIKMRLRCNGDNDCGDFSDEDDCESEPRPPCRDRVVEESELARTAGYGINILGMDPLSTPFDNEFYNGLCNRDRDGNTLTYYRRPWNVASLIYETKGEKNFRTEHYEEQIEASYSSKKEKMFLHVKGEIHLGRFVMRNRDVVLTTTFVDDIKALPTTYEKGEYFAFLETYGTHYSSSGSLGGLYELIYVLDKASMKRKVNITSENLIDDVVSLIRGGTRKYAFELKEKLLRGTVIDVTDFVNWASSINDAPVLISQKLSPIYNLVPVKMKNAHLKKQNLERAIEDYINEFSVRKCHTCQNGGTVILMDGKCLCACPFKFEGIACEISK 8de7-a1-m1-cA_8de7-a1-m1-cB Cryo-EM structure of the zebrafish two pore domain K+ channel TREK1 (K2P2.1) in DDM detergent 3.27 ELECTRON MICROSCOPY 314 0.992 7955 (Danio rerio) 7955 (Danio rerio) 263 263 8de8-a1-m1-cA_8de8-a1-m1-cB 8de9-a1-m1-cB_8de9-a1-m1-cA TTVMKWKTVLAIFLLVVLYLIIGATVFKALEQPEEGLQKYRIIQEKIDFLSMHTCVQTSELEDLVKQVVLAIRAGVNPSGHPSQESSMWDLSSSFFFAGTVITTIGFGNVSPHTEGGRIFCIIYALLGIPLFGFLLAGVGDQLGTIFGKGIAKVEKMFVKWNVSQTKIRVTSTVLFILFGCLLFVALPALIFQHIEGWSALESIYFVVITLTTIGFGDFVAGGSEIEYLDYYKPIVWFWILVGLAYFAAVLSMIGDWLRVISK VMKWKTVLAIFLLVVLYLIIGATVFKALEQPEEGLQKYRIIQEKIDFLSMHTCVQTSELEDLVKQVVLAIRAGVNPSGHPSQESSMWDLSSSFFFAGTVITTIGFGNVSPHTEGGRIFCIIYALLGIPLFGFLLAGVGDQLGTIFGKGIAKVEKMFVKWNVSQTKIRVTSTVLFILFGCLLFVALPALIFQHIEGWSALESIYFVVITLTTIGFGDFVAGGSEIEYLDYYKPIVWFWILVGLAYFAAVLSMIGDWLRVISKKT 8dej-a1-m1-cJ_8dej-a1-m1-cI D. vulgaris type I-C Cascade bound to dsDNA target Q72WF8 Q72WF8 2.86 ELECTRON MICROSCOPY 50 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 117 535 8dej-a1-m1-cJ_8dej-a1-m1-cK 8dex-a1-m1-cJ_8dex-a1-m1-cK 8dfo-a1-m1-cJ_8dfo-a1-m1-cK 8dfs-a1-m1-cJ_8dfs-a1-m1-cK VSLDPARTDRPYLLGRLFAVLEKAQEDAVPGANATIKDRYLASASANPGQVFHMLLKNASNHTAKLRKDPERKAIHYEIMMQEIIDNISDFPVTMSSDEQGLFMIGYYHQRKALFTK LQALHGYYQRMSADPDAGMPPYGTSMENISFALVLDAKGTLRGIEDLREQEGKKLRPRKMLVPIAEKKGNGIKPNFLWENTSYILGVDAKGKQERTDKCHAAFIAHIKAADQDLAAVLQFLEHGSEEVIGSNIVFRIEGEPGFVHERPAARQAWANCLNRREQGLCGQCLITGERQKPIAQLHPSIKGGRDGVRGAQAVASIVSFNNTAFESYGKEQSINAPVSQEAAFSYVTALNYLLNPSNRQKVTIADATVVFWAERSSPAEDIFAGMFDPPESVRFHVLGLSPNAARLSVRFWEVDTVGHMLDKVGRHYRELEIIPQFNNEQEFPSLSTLLRQTAVLNKTENISPVLAGGLFRAMLTGGPYPQSLLPAVLGRIRAEHARPEDKSRYRLEVVTYYRAALIKAYLIRNRKLEVPVSLDPARTDRPYLLGRLFAVLEKAQEDAVPGANATIKDRYLASASANPGQVFHMLLKNASNHTAKLRKDPERKSAIHYEIMMQEIIDNISDFPVTMSSDEQGLFMIGYYHQRKALFTKK 8dek-a1-m1-cA_8dek-a1-m1-cB The structure of the glycopeptidase catalytic domain including the linker of Amuc_1438 B2UKY7 B2UKY7 2.5 X-RAY DIFFRACTION 76 1.0 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 440 441 GAEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMMQGGRFKVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDARGTKAPSLAQIVYFGDVQNLWIRGRTEEARKALAEVERRHGSRSEVKEWLPVWKRALGR RGAEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMMQGGRFKVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDARGTKAPSLAQIVYFGDVQNLWIRGRTEEARKALAEVERRHGSRSEVKEWLPVWKRALGR 8dex-a1-m1-cJ_8dex-a1-m1-cI type I-C Cascade Q72WF8 Q72WF8 2.7 ELECTRON MICROSCOPY 64 1.0 882 (Desulfovibrio vulgaris str. Hildenborough) 882 (Desulfovibrio vulgaris str. Hildenborough) 117 417 8dfa-a1-m1-cJ_8dfa-a1-m1-cI 8dfa-a1-m1-cJ_8dfa-a1-m1-cK 8dfo-a1-m1-cJ_8dfo-a1-m1-cI 8dfs-a1-m1-cJ_8dfs-a1-m1-cI VSLDPARTDRPYLLGRLFAVLEKAQEDAVPGANATIKDRYLASASANPGQVFHMLLKNASNHTAKLRKDPERKAIHYEIMMQEIIDNISDFPVTMSSDEQGLFMIGYYHQRKALFTK MILQALHGYYQRMSADPDAGMPPYLCGQCLITGERQKPIAQLHPSIKGGRDGVRGAQAVASIVSFNNTAFESYGKEQSINAPVSQEAAFSYVTALNYLLNPSNRQKVTIADATVVFWAERSSPAEDIFAGMFDPPRMHDLLVAIRSGKRATDIMPDMDESVRFHVLGLSPNAARLSVRFWEVDTVGHMLDKVGRHYRELEIIPQFNNEQEFPSLSTLLRQTAVLNKTENISPVLAGGLRAMLTGGPYPQSLLPAVLGRIRAEHARPEDKSRYRLEVVTYYRAALIKAYLIRNRKLEVPVSLDPARTDRPYLLGRLFAVLEKAQEDAVPGANATIKDRYLASASANPGQVFHMLLKNASNHTAKLRKDPERKSAIHYEIMMQEIIDNISDFPVTMSSDEQGLFMIGYYHQRKALFTKK 8df2-a1-m1-cA_8df2-a1-m1-cD The structure of the 'ALT' construct of the Amuc_1438 glycopeptidase B2UKY7 B2UKY7 2.35 X-RAY DIFFRACTION 26 1.0 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 374 374 8df2-a1-m1-cB_8df2-a1-m1-cC AEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMMVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDA AEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMMVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDA 8df2-a1-m1-cB_8df2-a1-m1-cD The structure of the 'ALT' construct of the Amuc_1438 glycopeptidase B2UKY7 B2UKY7 2.35 X-RAY DIFFRACTION 34 0.997 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 374 374 8df2-a1-m1-cA_8df2-a1-m1-cC GAEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDA AEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMMVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDA 8df2-a1-m1-cC_8df2-a1-m1-cD The structure of the 'ALT' construct of the Amuc_1438 glycopeptidase B2UKY7 B2UKY7 2.35 X-RAY DIFFRACTION 61 0.995 239935 (Akkermansia muciniphila) 239935 (Akkermansia muciniphila) 374 374 8df2-a1-m1-cA_8df2-a1-m1-cB EGAEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDA AEFTRLPVSWTVNPRDAANARAAWKTLSAYHRGKPKSSRKLHVVYVTFKDRPALEGYRERYDHILKNIQAYYADQMQANGFPPLTFQLDLDERGKLVIHDAYVDKPMSEMSVQSSGPVSREAARKVLASKGIDIEKEHVLVVCQLPDGVGPYYGGGFSHQGTGWTCDQEGLDPASFLDTEMMVTRGKNATIYIGGTAHELGHSFGLPHTGDGWNYPDAGASLMGHGNSTYGDELRHEGKGAYLAPTDALKLASVPLFNGVETELPADASFGRMLGKYVPGSFERLEAIPVKDGLRLKGRVHLTRPAYGIVAHLDPPGGSDYDSNAVGASLDEKGEFDLTICRPGYKGGFIEMRVAVLNCDSTRSMITLPVWMDA 8df8-a1-m1-cA_8df8-a1-m1-cB Structure of M. kandleri topoisomerase V in complex with DNA. 40 base pair symmetric DNA complex Q977W1 Q977W1 2.92 X-RAY DIFFRACTION 185 1.0 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 850 850 8df7-a1-m1-cA_8df7-a1-m1-cB 8dfb-a1-m1-cA_8dfb-a1-m1-cB LVYDAEFVGSEREFEEERETFLKGVKAYDGVLATRYLMERSSSAKNDEELLELHQNFILLTGSYACSIDPTEDRYQNVIVRGVNFDERVQRLSTGGSPARYAIVYRRGWRAIAKALDIDEEDVPAIEVRAVKRNPLQPALYRILVRYGRVDLMPVTVDEVPPEMAGEFERLIERYDVPIDEKEERILEILRENPWTPHDEIARRLGLSVSEVEGEKDPESSGIYSLWSRVVVNIEYDERTAKRHVKRRDRLLEELYEHLEELSERYLRHPLTRRWIVEHKRDIMRRYLEQRIVECALKLQDRYGIREDVALCLARAFDGSISMIATTPYRTLKDVCPDLTLEEAKSVNRTLATLIDEHGLSPDAADELIEHFESIAGILATDLEEIERMYEEGRLSEEAYRAAVEIQLAELTKKEGVGRKTAERLLRAFGNPERVKQLAREFEIEKLASVEGVGERVLRSLVPGYASLISIRGIDRERAERLLKKYGGYSKVREAGVEELREDGLTDAQIRELKGLKTLESIVGDLEKADELKRKYGSASAVRRLPVEELRELGFSDDEIAEIKGIPKKLREAFDLETAAELYERYGSLKEIGRRLSYDDLLELGATPKAAAEIKGPEFKFLLNIEGVGPKLAERILEAVDYDLERLASLNPEELAEKVEGLGEELAERVVYAARERVESRRKSGRQERSEEEWKEWLERKVGEGRARRLIEYFGSAGEVGKLVENAEVSKLLEVPGIGDEAVARLVPGYKTLRDAGLTPAEAERVLKRYGSVSKVQEGATPDELRELGLGDAKIARILGLRSLVNARLDVDTAYELARRYGSVSAVRAAPVAELRELGLSDRAIARIAG LVYDAEFVGSEREFEEERETFLKGVKAYDGVLATRYLMERSSSAKNDEELLELHQNFILLTGSYACSIDPTEDRYQNVIVRGVNFDERVQRLSTGGSPARYAIVYRRGWRAIAKALDIDEEDVPAIEVRAVKRNPLQPALYRILVRYGRVDLMPVTVDEVPPEMAGEFERLIERYDVPIDEKEERILEILRENPWTPHDEIARRLGLSVSEVEGEKDPESSGIYSLWSRVVVNIEYDERTAKRHVKRRDRLLEELYEHLEELSERYLRHPLTRRWIVEHKRDIMRRYLEQRIVECALKLQDRYGIREDVALCLARAFDGSISMIATTPYRTLKDVCPDLTLEEAKSVNRTLATLIDEHGLSPDAADELIEHFESIAGILATDLEEIERMYEEGRLSEEAYRAAVEIQLAELTKKEGVGRKTAERLLRAFGNPERVKQLAREFEIEKLASVEGVGERVLRSLVPGYASLISIRGIDRERAERLLKKYGGYSKVREAGVEELREDGLTDAQIRELKGLKTLESIVGDLEKADELKRKYGSASAVRRLPVEELRELGFSDDEIAEIKGIPKKLREAFDLETAAELYERYGSLKEIGRRLSYDDLLELGATPKAAAEIKGPEFKFLLNIEGVGPKLAERILEAVDYDLERLASLNPEELAEKVEGLGEELAERVVYAARERVESRRKSGRQERSEEEWKEWLERKVGEGRARRLIEYFGSAGEVGKLVENAEVSKLLEVPGIGDEAVARLVPGYKTLRDAGLTPAEAERVLKRYGSVSKVQEGATPDELRELGLGDAKIARILGLRSLVNARLDVDTAYELARRYGSVSAVRAAPVAELRELGLSDRAIARIAG 8df9-a1-m1-cA_8df9-a1-m1-cB Structure of M. kandleri topoisomerase V in complex with DNA. 38 base pair asymmetric DNA complex Q977W1 Q977W1 3.24 X-RAY DIFFRACTION 60 0.99 2320 (Methanopyrus kandleri) 2320 (Methanopyrus kandleri) 781 845 ALVYDAEFVGSEREFEEERETFLKGVKAYDGVLATRYLMERSSSAKNDEELLELHQNFILLTGSYACSIDPTEDRYQNVIVRGVNFDERVQRLSTGGSPARYAIVYRRGWRAIAKALDIDEEDVPAIEVRAVKRNPLQPALYRILVRYGRVDLMPVTVDEVPPEMAGEFERLIERYDVPIDEKEERILEILRENPWTPHDEIARRLGLSVSEVEGEKDPESSGIYSLWSRVVVNIEYDERTAKRHVKRRDRLLEELYEHLEELSERYLRHPLTRRWIVEHKRDIMRRYLEQRIVECALKLQDRYGIREDVALCLARAFDGSISMIATTPYRTLKDVCPDLTLEEAKSVNRTLATLIDEHGLSPDAADELIEHFESIAGILATDLEEIERMYEEGRLSEEAYRAAVEIQLAELTKKEGVGRKTAERLLRAFGNPERVKQLAREFEIEKLASVEGVGERVLRSLVPGYASLISIRGIDRERAERLLKKYGGYSKVREAGVEELREDGLTDAQIRELKGLKTLESIVGDLEKADELKRKYGSASAVRRLPVEELRELGFSDDEIAEIKGIPKKLREAFDLETAAELYERYGSLKEIGRRLSYDDLLELGATPKAAAEIKERSEEEWKEWLERKVGEGRARRLIEYFGSAGEVGKLVENAEVSKLLEVPGIGDEAVARLVPGYKTLRDAGLTPAEAERVLKRYGSVSKVQEGATPDELRELGLGDAKIARILGLRSLVNARLDVDTAYELARRYGSVSAVRAAPVAELRELGLSDRAIARIAGIP ALVYDAEFVGSEREFEEERETFLKGVKAYDGVLATRYLMERSSSAKNDEELLELHQNFILLTGSYACSIDPTEDRYQNVIVRGVNFDERVQRLSTGGSPARYAIVYRRGWRAIAKALDIDEEDVPAIEVRAVKRNPLQPALYRILVRYGRVDLMPVTVDEVPPEMAGEFERLIERYDVPIDEKEERILEILRENPWTPHDEIARRLGLSVSEVEGEKDPESSGIYSLWSRVVVNIEYDERTAKRHVKRRDRLLEELYEHLEELSERYLRHPLTRRWIVEHKRDIMRRYLEQRIVECALKLQDRYGIREDVALCLARAFDGSISMIATTPYRTLKDVCPDLTLEEAKSVNRTLATLIDEHGLSPDAADELIEHFESIAGILATDLEEIERMYEEGRLSEEAYRAAVEIQLAELTKKEGVGRKTAERLLRAFGNPERVKQLAREFEIEKLASVEGVGERVLRSLVPGYASLISIRGIDRERAERLLKKYGGYSKVREAGVEELREDGLTDAQIRELKGLKTLESIVGDLEKADELKRKYGSASAVRRLPVEELRELGFSDDEIAEIKGIPKKLREAFDLETAAELYERYGSLKEIGRRLSYDDLLELGATPKAAAEIKGPEFKFLLNIEGVGPKLAERILEAVDYDLERLASLNPEELAEKVEGLGEELAERVVYAARERVESRRKSGRQERSEEEWKEWLERKVGEGRARRLIEYFGSAGEVGKLVENAEVSKLLEVPGIGDEAVARLVPGYKTLRDAGLTPAEAERVLKRYGSVSKVQEGATPDELRELGLGDAKIARILGLRSLVNARLDVDTAYELARRYGSVSAAELRELGLSDRAIARIAG 8dfk-a1-m1-cA_8dfk-a1-m1-cB X-ray crystal structure of Bacillus subtilis ComEA P39694 P39694 3.2 X-RAY DIFFRACTION 26 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 64 64 8dfk-a2-m1-cC_8dfk-a2-m1-cD 8dfk-a3-m1-cE_8dfk-a3-m1-cF 8dfk-a4-m1-cG_8dfk-a4-m1-cF NETIVIDIKGAVQHPGVYEMRTGDRVSQAIEKAGGTSEQADEAQVNLAEILQDGTVVYIPKKGE NETIVIDIKGAVQHPGVYEMRTGDRVSQAIEKAGGTSEQADEAQVNLAEILQDGTVVYIPKKGE 8dfm-a1-m1-cA_8dfm-a1-m1-cB Ectodomain of full-length wild-type KIT-SCF dimers P10721 P10721 3.45 ELECTRON MICROSCOPY 39 0.995 9606 (Homo sapiens) 9606 (Homo sapiens) 441 446 8dfp-a1-m1-cA_8dfp-a1-m1-cB 8dfq-a1-m1-cB_8dfq-a1-m1-cA PPSIHPGKSDLIVRVGDEIRLLCTDPGFVKWTFEILDETNENKQNEWITEKAEATNTGKYTCTNKHGLSNSIYVFVRDPAKLFLVDRSLYGKEDNDTLVRCPLTDPEVTNYSLKGCQGKPLPKDLRFIPDPKAGIMIKSVKRAYHRLCLHCSVDQEGKSVLSEKFILKVRPAFKAVPVVSVSKASYLLREGEEFTVTCTIKDVSSSVYSTWKRENSQTKLQEKYNSWHHGDFNYERQATLTISSARVNDSGVFMCYANNTFGSANVTTTLEVVDKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILTYDRMLQCVAAGFPEPTIDWYFCKLVVQSSIDSSHNGTVECKAYNDVGKTSAYFNFAFKE SPPSIHPGKSDLIVRVGDEIRLLCTDPGFVKWTFEILDETNENKQNEWITEKAEATNTGKYTCTNKHGLSNSIYVFVRDPAKLFLVDRSLYGKEDNDTLVRCPLTDPEVTNYSLKGCQGKPLPKDLRFIPDPKAGIMIKSVKRAYHRLCLHCSVDQEGKSVLSEKFILKVRPAFKAVPVVSVSKASYLLREGEEFTVTCTIKDVSSSVYSTWKRENSQTKLQEKYNSWHHGDFNYERQATLTISSARVNDSGVFMCYANNTFGSANVTTTLEVVDKGFINIFPMINTTVFVNDGENVDLIVEYEAFPKPEHQQWIYMNRTFTDKWEDYPKSENESNIRYVSELHLTRLKGTEGGTYTFLVSNSDVNAAIAFNVYVNTKPEILTYDRLVNGMLQCVAAGFPEPTIDWYFCFGKLVVQSSIDSSNGTVECKAYNDVGKTSAYFNFAFK 8dgc-a1-m1-cA_8dgc-a1-m1-cC Avs3 bound to phage PhiV-1 terminase 3.4 ELECTRON MICROSCOPY 56 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 2028 2028 SDSLLVRTSRDGDQFHYLWAARRALRLLEPQSTLVALTIEGASTTEMGSQPVVEDGEELIDIAEYYGSNELATATTVRYMQLKHSTMHSDTPFPPSGLQKTIEGFATRYKALIQKIPVETLRTKLEFWFVTNRPVSSSFSEAINDAANQHVTRHPHDLAKLEKFTGLQGAELSIFCQLLHIEGQQDDLWSQRNILLRESAGYLPDLDTEAPLKLKELVNRKALTESAANPSITRMDVLRALGVDETDLFPAPCRIERIENSVSRTQEATLVQRVVEAFGAPVIIHADAGVGKSIFSTHIEEHLPTGSVSILYDCFGLGQYRNASSYRHHHRTALVQMANEMASRGLCHPLIPNAGTGISQYMRAFLHRLSQSISILRASEPLAVLCIIIDAADNAQMAAEEIGETRSFIKDLIREKLPDGVCLVALCRPYRRELLDPPPEALTLSLQTFNRDETAAHLHQKFPDASESDVDEFHRLSSCNPRVQALSLSQNLPLNDTLRLLGPNPKTVEDTIGEVLEKSIARLRDTAGISERAQIDTICSALAILRPLIPLSVLSAISGVAGSAIKSFALDLGRPLIVSGETIQFFDEPAETWFQRRFRPSAADLHQFITKLRPLTKDSSYAASVLPALMLEGNQLSELIELAISSQALPETSAVERRDIELQRLQFALKAALRTGRYQDAAKLALKAGGECAGDNRQRVLLRDNIDLAAKFVGSNGVQELVSRNAFPDTGWPGSRNAYYAAILSEYPELSGEARSRLRLTMEWLTNWSQLPDDERSRQNVTDQDRAVMLIACLNIHGAEAAARELRRWRPRKLSFDAGKIVAMQLLAHARYDELDQLAIAAGNDISLVMGIVLEARKLHRPVAEQAIRRTWRLLKSQRVSIKDRNHANNQTIAAITGMVEMALIQSVCTESESIQLLDRYLPKVPPYALTSEYSKERVAYVRAYALQANLMGSQLALSDLASTEVKKELMAEKRHGESDDLRQLKQYSGVLIPWYNLWAKVILGKTRKADLESELSDTQKESTAIKGHSYSEHSLSSNEIANVWFDILIEAGNVSKDDVENIIKWSQHKGNRVFTPTLHRFSSVCAEISGLGELSYHFAELALSLWRDEHSDAQIKADGYIDLSRSLISLDEPEAKEYFNQAIEVTNKLGDENLSRWEAILDLAEYVAGKTQVPPEISYKLARCAELTREYVDRDKHFAWSDTVEILAELCPSSALAIISRWRDRTFGNHRSILAWTIEHLVKKNKINALDALPLITFENDWHKCDLLDSVLSSCTDDKDKIMAFEVVYHYTKFNVQNIQNLKKLDAISTSLGIEHTELKERISGLQHGHDQEWESIFKDCDLSSIDGISAAYEKFRNVPEFYSKETFIKKAISRVKTGKECSFITAIGAIFHWGLYDFKYILESIPDEWTSRLSIKTTLAGLIKEYCQRFCMRIRKSRVYEIFPFSLASRLSGISEKEIFGITLEAIAESPEPANSDRLFSLPGLLVSKLESNEALDVLSYALDLFDEVLKDEDGDGPWNEKLSPPTHVEDSLAGYIWARLGSPEAEMRWQAAHAVLALCRMSRTCVIQGIFQHAINATTLPFCDRNLPFYTLHAQLWLMIAAARVALDDGKSLIPNIGYFYHYATTDQPHVLIRHFAARTLLALHDSDLISIPAQEENKLRNINQSTTLPVEDSYTFGIDFGPYWLKPLGRCFGVSQKQLEPEMLRIIRDVLGFKGSRNWDEDERNKRRYYQDRDNHHSHGSYPRVDDYHFYLSYHAMFMTAGQLLATKPLVGEDVFQDWLRRHDISRNDHRWLADRRDIPPKERSSWLNSSSDNRDEWLASISENVFNETLCPSPGLLTLWGRWSDVCSDRKESIIVHSALVSPERSLSLLRALQTTKNVYDYKIPDAQLKGWIKDIAEYCGIDEFDPWAGNVRFPIPEPASFIIDAMKLTTDKDHRVWYSPSDVEPAMISSIWGHLSGKNDEEKSHGYRLCASIHFIKSALETFNMDLILEVDVDRYSRNSSTRLFLFRHDGTIHTLYGNYRN SDSLLVRTSRDGDQFHYLWAARRALRLLEPQSTLVALTIEGASTTEMGSQPVVEDGEELIDIAEYYGSNELATATTVRYMQLKHSTMHSDTPFPPSGLQKTIEGFATRYKALIQKIPVETLRTKLEFWFVTNRPVSSSFSEAINDAANQHVTRHPHDLAKLEKFTGLQGAELSIFCQLLHIEGQQDDLWSQRNILLRESAGYLPDLDTEAPLKLKELVNRKALTESAANPSITRMDVLRALGVDETDLFPAPCRIERIENSVSRTQEATLVQRVVEAFGAPVIIHADAGVGKSIFSTHIEEHLPTGSVSILYDCFGLGQYRNASSYRHHHRTALVQMANEMASRGLCHPLIPNAGTGISQYMRAFLHRLSQSISILRASEPLAVLCIIIDAADNAQMAAEEIGETRSFIKDLIREKLPDGVCLVALCRPYRRELLDPPPEALTLSLQTFNRDETAAHLHQKFPDASESDVDEFHRLSSCNPRVQALSLSQNLPLNDTLRLLGPNPKTVEDTIGEVLEKSIARLRDTAGISERAQIDTICSALAILRPLIPLSVLSAISGVAGSAIKSFALDLGRPLIVSGETIQFFDEPAETWFQRRFRPSAADLHQFITKLRPLTKDSSYAASVLPALMLEGNQLSELIELAISSQALPETSAVERRDIELQRLQFALKAALRTGRYQDAAKLALKAGGECAGDNRQRVLLRDNIDLAAKFVGSNGVQELVSRNAFPDTGWPGSRNAYYAAILSEYPELSGEARSRLRLTMEWLTNWSQLPDDERSRQNVTDQDRAVMLIACLNIHGAEAAARELRRWRPRKLSFDAGKIVAMQLLAHARYDELDQLAIAAGNDISLVMGIVLEARKLHRPVAEQAIRRTWRLLKSQRVSIKDRNHANNQTIAAITGMVEMALIQSVCTESESIQLLDRYLPKVPPYALTSEYSKERVAYVRAYALQANLMGSQLALSDLASTEVKKELMAEKRHGESDDLRQLKQYSGVLIPWYNLWAKVILGKTRKADLESELSDTQKESTAIKGHSYSEHSLSSNEIANVWFDILIEAGNVSKDDVENIIKWSQHKGNRVFTPTLHRFSSVCAEISGLGELSYHFAELALSLWRDEHSDAQIKADGYIDLSRSLISLDEPEAKEYFNQAIEVTNKLGDENLSRWEAILDLAEYVAGKTQVPPEISYKLARCAELTREYVDRDKHFAWSDTVEILAELCPSSALAIISRWRDRTFGNHRSILAWTIEHLVKKNKINALDALPLITFENDWHKCDLLDSVLSSCTDDKDKIMAFEVVYHYTKFNVQNIQNLKKLDAISTSLGIEHTELKERISGLQHGHDQEWESIFKDCDLSSIDGISAAYEKFRNVPEFYSKETFIKKAISRVKTGKECSFITAIGAIFHWGLYDFKYILESIPDEWTSRLSIKTTLAGLIKEYCQRFCMRIRKSRVYEIFPFSLASRLSGISEKEIFGITLEAIAESPEPANSDRLFSLPGLLVSKLESNEALDVLSYALDLFDEVLKDEDGDGPWNEKLSPPTHVEDSLAGYIWARLGSPEAEMRWQAAHAVLALCRMSRTCVIQGIFQHAINATTLPFCDRNLPFYTLHAQLWLMIAAARVALDDGKSLIPNIGYFYHYATTDQPHVLIRHFAARTLLALHDSDLISIPAQEENKLRNINQSTTLPVEDSYTFGIDFGPYWLKPLGRCFGVSQKQLEPEMLRIIRDVLGFKGSRNWDEDERNKRRYYQDRDNHHSHGSYPRVDDYHFYLSYHAMFMTAGQLLATKPLVGEDVFQDWLRRHDISRNDHRWLADRRDIPPKERSSWLNSSSDNRDEWLASISENVFNETLCPSPGLLTLWGRWSDVCSDRKESIIVHSALVSPERSLSLLRALQTTKNVYDYKIPDAQLKGWIKDIAEYCGIDEFDPWAGNVRFPIPEPASFIIDAMKLTTDKDHRVWYSPSDVEPAMISSIWGHLSGKNDEEKSHGYRLCASIHFIKSALETFNMDLILEVDVDRYSRNSSTRLFLFRHDGTIHTLYGNYRN 8dgc-a1-m1-cD_8dgc-a1-m1-cC Avs3 bound to phage PhiV-1 terminase 3.4 ELECTRON MICROSCOPY 61 1.0 28901 (Salmonella enterica) 28901 (Salmonella enterica) 2004 2028 8dgc-a1-m1-cB_8dgc-a1-m1-cA 8dgc-a1-m1-cB_8dgc-a1-m1-cC 8dgc-a1-m1-cD_8dgc-a1-m1-cA QFHYLWAARRALRLLEPQSTLVALTIEGASDGEELIDIAEYYGSNELATATTVRYMQLKHSTMHSDTPFPPSGLQKTIEGFATRYKALIQKIPVETLRTKLEFWFVTNRPVSSSFSEAINDAANQHVTRHPHDLAKLEKFTGLQGAELSIFCQLLHIEGQQDDLWSQRNILLRESAGYLPDLDTEAPLKLKELVNRKALTESAANPSITRMDVLRALGVDETDLFPAPCRIERIENSVSRTQEATLVQRVVEAFGAPVIIHADAGVGKSIFSTHIEEHLPTGSVSILYDCFGLGQYRNASSYRHHHRTALVQMANEMASRGLCHPLIPNAGTGISQYMRAFLHRLSQSISILRASEPLAVLCIIIDAADNAQMAAEEIGETRSFIKDLIREKLPDGVCLVALCRPYRRELLDPPPEALTLSLQTFNRDETAAHLHQKFPDASESDVDEFHRLSSCNPRVQALSLSQNLPLNDTLRLLGPNPKTVEDTIGEVLEKSIARLRDTAGISERAQIDTICSALAILRPLIPLSVLSAISGVAGSAIKSFALDLGRPLIVSGETIQFFDEPAETWFQRRFRPSAADLHQFITKLRPLTKDSSYAASVLPALMLEGNQLSELIELAISSQALPETSAVERRDIELQRLQFALKAALRTGRYQDAAKLALKAGGECAGDNRQRVLLRDNIDLAAKFVGSNGVQELVSRNAFPDTGWPGSRNAYYAAILSEYPELSGEARSRLRLTMEWLTNWSQLPDDERSRQNVTDQDRAVMLIACLNIHGAEAAARELRRWRPRKLSFDAGKIVAMQLLAHARYDELDQLAIAAGNDISLVMGIVLEARKLHRPVAEQAIRRTWRLLKSQRVSIKDRNHANNQTIAAITGMVEMALIQSVCTESESIQLLDRYLPKVPPYALTSEYSKERVAYVRAYALQANLMGSQLALSDLASTEVKKELMAEKRHGESDDLRQLKQYSGVLIPWYNLWAKVILGKTRKADLESELSDTQKESTAIKGHSYSEHSLSSNEIANVWFDILIEAGNVSKDDVENIIKWSQHKGNRVFTPTLHRFSSVCAEISGLGELSYHFAELALSLWRDEHSDAQIKADGYIDLSRSLISLDEPEAKEYFNQAIEVTNKLGDENLSRWEAILDLAEYVAGKTQVPPEISYKLARCAELTREYVDRDKHFAWSDTVEILAELCPSSALAIISRWRDRTFGNHRSILAWTIEHLVKKNKINALDALPLITFENDWHKCDLLDSVLSSCTDDKDKIMAFEVVYHYTKFNVQNIQNLKKLDAISTSLGIEHTELKERISGLQHGHDQEWESIFKDCDLSSIDGISAAYEKFRNVPEFYSKETFIKKAISRVKTGKECSFITAIGAIFHWGLYDFKYILESIPDEWTSRLSIKTTLAGLIKEYCQRFCMRIRKSRVYEIFPFSLASRLSGISEKEIFGITLEAIAESPEPANSDRLFSLPGLLVSKLESNEALDVLSYALDLFDEVLKDEDGDGPWNEKLSPPTHVEDSLAGYIWARLGSPEAEMRWQAAHAVLALCRMSRTCVIQGIFQHAINATTLPFCDRNLPFYTLHAQLWLMIAAARVALDDGKSLIPNIGYFYHYATTDQPHVLIRHFAARTLLALHDSDLISIPAQEENKLRNINQSTTLPVEDSYTFGIDFGPYWLKPLGRCFGVSQKQLEPEMLRIIRDVLGFKGSRNWDEDERNKRRYYQDRDNHHSHGSYPRVDDYHFYLSYHAMFMTAGQLLATKPLVGEDVFQDWLRRHDISRNDHRWLADRRDIPPKERSSWLNSSSDNRDEWLASISENVFNETLCPSPGLLTLWGRWSDVCSDRKESIIVHSALVSPERSLSLLRALQTTKNVYDYKIPDAQLKGWIKDIAEYCGIDEFDPWAGNVRFPIPEPASFIIDAMKLTTDKDHRVWYSPSDVEPAMISSIWGHLSGKNDEEKSHGYRLCASIHFIKSALETFNMDLILEVDVDRYSRNSSTRLFLFRHDGTIHTLYGNYRN SDSLLVRTSRDGDQFHYLWAARRALRLLEPQSTLVALTIEGASTTEMGSQPVVEDGEELIDIAEYYGSNELATATTVRYMQLKHSTMHSDTPFPPSGLQKTIEGFATRYKALIQKIPVETLRTKLEFWFVTNRPVSSSFSEAINDAANQHVTRHPHDLAKLEKFTGLQGAELSIFCQLLHIEGQQDDLWSQRNILLRESAGYLPDLDTEAPLKLKELVNRKALTESAANPSITRMDVLRALGVDETDLFPAPCRIERIENSVSRTQEATLVQRVVEAFGAPVIIHADAGVGKSIFSTHIEEHLPTGSVSILYDCFGLGQYRNASSYRHHHRTALVQMANEMASRGLCHPLIPNAGTGISQYMRAFLHRLSQSISILRASEPLAVLCIIIDAADNAQMAAEEIGETRSFIKDLIREKLPDGVCLVALCRPYRRELLDPPPEALTLSLQTFNRDETAAHLHQKFPDASESDVDEFHRLSSCNPRVQALSLSQNLPLNDTLRLLGPNPKTVEDTIGEVLEKSIARLRDTAGISERAQIDTICSALAILRPLIPLSVLSAISGVAGSAIKSFALDLGRPLIVSGETIQFFDEPAETWFQRRFRPSAADLHQFITKLRPLTKDSSYAASVLPALMLEGNQLSELIELAISSQALPETSAVERRDIELQRLQFALKAALRTGRYQDAAKLALKAGGECAGDNRQRVLLRDNIDLAAKFVGSNGVQELVSRNAFPDTGWPGSRNAYYAAILSEYPELSGEARSRLRLTMEWLTNWSQLPDDERSRQNVTDQDRAVMLIACLNIHGAEAAARELRRWRPRKLSFDAGKIVAMQLLAHARYDELDQLAIAAGNDISLVMGIVLEARKLHRPVAEQAIRRTWRLLKSQRVSIKDRNHANNQTIAAITGMVEMALIQSVCTESESIQLLDRYLPKVPPYALTSEYSKERVAYVRAYALQANLMGSQLALSDLASTEVKKELMAEKRHGESDDLRQLKQYSGVLIPWYNLWAKVILGKTRKADLESELSDTQKESTAIKGHSYSEHSLSSNEIANVWFDILIEAGNVSKDDVENIIKWSQHKGNRVFTPTLHRFSSVCAEISGLGELSYHFAELALSLWRDEHSDAQIKADGYIDLSRSLISLDEPEAKEYFNQAIEVTNKLGDENLSRWEAILDLAEYVAGKTQVPPEISYKLARCAELTREYVDRDKHFAWSDTVEILAELCPSSALAIISRWRDRTFGNHRSILAWTIEHLVKKNKINALDALPLITFENDWHKCDLLDSVLSSCTDDKDKIMAFEVVYHYTKFNVQNIQNLKKLDAISTSLGIEHTELKERISGLQHGHDQEWESIFKDCDLSSIDGISAAYEKFRNVPEFYSKETFIKKAISRVKTGKECSFITAIGAIFHWGLYDFKYILESIPDEWTSRLSIKTTLAGLIKEYCQRFCMRIRKSRVYEIFPFSLASRLSGISEKEIFGITLEAIAESPEPANSDRLFSLPGLLVSKLESNEALDVLSYALDLFDEVLKDEDGDGPWNEKLSPPTHVEDSLAGYIWARLGSPEAEMRWQAAHAVLALCRMSRTCVIQGIFQHAINATTLPFCDRNLPFYTLHAQLWLMIAAARVALDDGKSLIPNIGYFYHYATTDQPHVLIRHFAARTLLALHDSDLISIPAQEENKLRNINQSTTLPVEDSYTFGIDFGPYWLKPLGRCFGVSQKQLEPEMLRIIRDVLGFKGSRNWDEDERNKRRYYQDRDNHHSHGSYPRVDDYHFYLSYHAMFMTAGQLLATKPLVGEDVFQDWLRRHDISRNDHRWLADRRDIPPKERSSWLNSSSDNRDEWLASISENVFNETLCPSPGLLTLWGRWSDVCSDRKESIIVHSALVSPERSLSLLRALQTTKNVYDYKIPDAQLKGWIKDIAEYCGIDEFDPWAGNVRFPIPEPASFIIDAMKLTTDKDHRVWYSPSDVEPAMISSIWGHLSGKNDEEKSHGYRLCASIHFIKSALETFNMDLILEVDVDRYSRNSSTRLFLFRHDGTIHTLYGNYRN 8dgd-a1-m1-cA_8dgd-a1-m2-cA Crystal Structure of GAF domain-containing protein, from Klebsiella pneumoniae A0A0H3GUR8 A0A0H3GUR8 1.9 X-RAY DIFFRACTION 19 1.0 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 167 167 HHHMSKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLSEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNGQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKSLPVSW HHHMSKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLSEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNGQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKSLPVSW 8dgd-a1-m2-cB_8dgd-a1-m1-cA Crystal Structure of GAF domain-containing protein, from Klebsiella pneumoniae A0A0H3GUR8 A0A0H3GUR8 1.9 X-RAY DIFFRACTION 24 1.0 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 161 167 8dgd-a1-m1-cB_8dgd-a1-m2-cA SKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLSEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNGQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKSLPV HHHMSKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLSEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNGQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKSLPVSW 8dgd-a1-m2-cB_8dgd-a1-m2-cA Crystal Structure of GAF domain-containing protein, from Klebsiella pneumoniae A0A0H3GUR8 A0A0H3GUR8 1.9 X-RAY DIFFRACTION 86 1.0 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 161 167 8dgd-a1-m1-cB_8dgd-a1-m1-cA SKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLSEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNGQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKSLPV HHHMSKTEFYADLNRDFQALMAGETSFLAMIANTSALLFERLSEVNWAGFYLLEGDTLVLGPFQGKLACVRIPVGRGVCGAAVAQAQVQRVEDVHAFDGHIACDAASNSEIVFPLRVNGQIIGVLDIDSPAYGRFTAEDEQGLRTLVEHLEKLIAATDYQKSLPVSW 8dgf-a1-m1-cD_8dgf-a1-m1-cC Avs4 bound to phage PhiV-1 portal 2.9 ELECTRON MICROSCOPY 57 1.0 562 (Escherichia coli) 562 (Escherichia coli) 1534 1540 8dgf-a1-m1-cB_8dgf-a1-m1-cA 8dgf-a1-m1-cB_8dgf-a1-m1-cC 8dgf-a1-m1-cD_8dgf-a1-m1-cA VKPNWDNFKAKFSENPQGNFEWFCYLLFCQEFKMPAGIFRYKNQSGIETNPITKDNEIIGWQSKFYDTKLSDNKADLIEMIEKSKKAYPGLSKIIFYTNQEWDPKIKIEVDQKAYESGIEIVWRVASFFESPFVIVENEKIAKHFFSLNESIFDLLEEKRKHTENVLYEIQTNIEFKDRSIEIDRRHCIELLHENLVQKKIVIVSGEGGVGKTAVIKKIYEAEKQYTPFYVFKASEFKKDSINELFGAHGLDDFSNAHQDELRKVIVVDSAEKLLELTNIDPFKEFLTVLIKDKWQVVFTTRNNYLADLNYAFIDIYKITPGNLVIKNLERGELIELSDNNGFSLPQDVRLLELIKNPFYLSEYLRFYTGESIDYVSFKEKLWNKIIVKNKPSREQCFLATAFQRASEGQFFVSPACDTGILDELVKDGIVGYEAAGYFITHDIYEEWALEKKISVDYIRKANNNEFFEKIGESLPVRRSFRNWISERLLLDDQSIKPFIAEIVCGEGISNFWKDELWVAVLLSDNSSIFFNYFKRYLLSSDQNLLKRLTFLLRLACKDVDYDLLKQLGVSNSDLLSIKYVLTKPKGTGWQSVIQFIYENLDEIGIRNINFILPVIQEWNQRNKVGETTRLSSLIALKYYQWTIDEDVYLSGRDNEKNILHTILHGAAMIKPEMEEVLVKVLKNRWKEHGTPYFDLMTLILTDLDSYPVWASLPEYVLQLADLFWYRPLDIEDEFGLFRSHHDYYPESPYQTPIYWLLQSQFKKTIDFILDFTNKTTICFAHSHFAKNEIEEVDVFIEEGKFIKQYICNRLWCSYRGTQVSTYLLSSIHMALEKFFLENFKNADSKVLESWLLFLLRNTKSASISAVVTSIVLAFPEKTFNVAKVLFQTKDFFRFDMNRMVLDRTHKSSLINSLHEEDRIKACDDVHRNTYLENLALHYQIFRSENVTEKDAIERQQVLWDIFDKYYNQLPDEAQETEADKTWRLCLARMDRRKMKITTKEKDEGIEISFNPEIDPKLKQYSEEAIKKNSEHMKYVTLKLWASYKREKDERYKNYGMYEDNPQIALQETKEIIKKLNEEGGEDFRLLNGNIPADVCSVLLLDYFNQLNNEEREYCKDIVLAYSKLPLKEGYNYQVQDGTTSAISALPVIYHNYPMERETIKTILLLTLFNDHSIGMAGGRYSVFPSMVIHKLWLDYFDDMQSLLFGFLILKPKYVILSRKIIHESYRQIKKININKVFLNNYKHCISNVIDNKISIDDLGSMDKVDLHILNTAFQLIPVDTVNIEHKKLVSLIVKRFSTSLLSSVREDRVDYALRQSFLERFAYFTLHAPVSDIPDYIKPFLDGFNGSEPISELFKKFILVEDRLNTYAKFWKVWDLFFDKVVTLCKDGDRYWYVDKIIKSYLFAESPWKENSNGWHTFKDSNSQFFCDVSRTMGHCPSTLYSLAKSLNNIASCYLNQGITWLSEILSVNKKLWEKKLENDTVYYLECLVRRYINNERERIRRTKQLKQEVLVILDFLVEKGSVVGYMSRENIL VKPNWDNFKAKFSENPQGNFEWFCYLLFCQEFKMPAGIFRYKNQSGIETNPITKDNEIIGWQSKFYDTKLSDNKADLIEMIEKSKKAYPGLSKIIFYTNQEWGQGNSNDPKIKIEVDQKAYESGIEIVWRVASFFESPFVIVENEKIAKHFFSLNESIFDLLEEKRKHTENVLYEIQTNIEFKDRSIEIDRRHCIELLHENLVQKKIVIVSGEGGVGKTAVIKKIYEAEKQYTPFYVFKASEFKKDSINELFGAHGLDDFSNAHQDELRKVIVVDSAEKLLELTNIDPFKEFLTVLIKDKWQVVFTTRNNYLADLNYAFIDIYKITPGNLVIKNLERGELIELSDNNGFSLPQDVRLLELIKNPFYLSEYLRFYTGESIDYVSFKEKLWNKIIVKNKPSREQCFLATAFQRASEGQFFVSPACDTGILDELVKDGIVGYEAAGYFITHDIYEEWALEKKISVDYIRKANNNEFFEKIGESLPVRRSFRNWISERLLLDDQSIKPFIAEIVCGEGISNFWKDELWVAVLLSDNSSIFFNYFKRYLLSSDQNLLKRLTFLLRLACKDVDYDLLKQLGVSNSDLLSIKYVLTKPKGTGWQSVIQFIYENLDEIGIRNINFILPVIQEWNQRNKVGETTRLSSLIALKYYQWTIDEDVYLSGRDNEKNILHTILHGAAMIKPEMEEVLVKVLKNRWKEHGTPYFDLMTLILTDLDSYPVWASLPEYVLQLADLFWYRPLDIEDEFGLFRSHHDYYPESPYQTPIYWLLQSQFKKTIDFILDFTNKTTICFAHSHFAKNEIEEVDVFIEEGKFIKQYICNRLWCSYRGTQVSTYLLSSIHMALEKFFLENFKNADSKVLESWLLFLLRNTKSASISAVVTSIVLAFPEKTFNVAKVLFQTKDFFRFDMNRMVLDRTHKSSLINSLHEEDRIKACDDVHRNTYLENLALHYQIFRSENVTEKDAIERQQVLWDIFDKYYNQLPDEAQETEADKTWRLCLARMDRRKMKITTKEKDEGIEISFNPEIDPKLKQYSEEAIKKNSEHMKYVTLKLWASYKREKDERYKNYGMYEDNPQIALQETKEIIKKLNEEGGEDFRLLNGNIPADVCSVLLLDYFNQLNNEEREYCKDIVLAYSKLPLKEGYNYQVQDGTTSAISALPVIYHNYPMERETIKTILLLTLFNDHSIGMAGGRYSVFPSMVIHKLWLDYFDDMQSLLFGFLILKPKYVILSRKIIHESYRQIKKININKVFLNNYKHCISNVIDNKISIDDLGSMDKVDLHILNTAFQLIPVDTVNIEHKKLVSLIVKRFSTSLLSSVREDRVDYALRQSFLERFAYFTLHAPVSDIPDYIKPFLDGFNGSEPISELFKKFILVEDRLNTYAKFWKVWDLFFDKVVTLCKDGDRYWYVDKIIKSYLFAESPWKENSNGWHTFKDSNSQFFCDVSRTMGHCPSTLYSLAKSLNNIASCYLNQGITWLSEILSVNKKLWEKKLENDTVYYLECLVRRYINNERERIRRTKQLKQEVLVILDFLVEKGSVVGYMSRENIL 8dgg-a1-m1-cB_8dgg-a1-m1-cA Structure of glycosylated LAG-3 homodimer Q61790 Q61790 3.78 X-RAY DIFFRACTION 32 1.0 10090 (Mus musculus) 10090 (Mus musculus) 277 354 LPVVWAQEGAPVHLPCSLPNFLRRGGVIWQHQPDYTVLSVAPGGLRSGRQPLHPHVQLEERGLQRGDFSLWLRPALRTDAGEYHATVRLPNRALSCSLRLRVGQASMIASPSGVLKLSDWVLLNCSFSRPDRPVSVHWFQGQNRVPVYNSPRHFLAETFLLLPQVSPLDSGTWGCVLTYRDGFNVSITYNLKVLPLTVYAAEGSRVELPCHLPPGVGTPSLLIAKWTPPGGGPELPVAGKSGNFTLHLEAVGLAQAGTYTCSIHLQGQQLNATVTLA LPVVWAQEGAPVHLPCSLKSPNFLRRGGVIWQHQPDYTVLSVAPGGLRSGRQPLHPHVQLEERGLQRGDFSLWLRPALRTDAGEYHATVRLPNRALSCSLRLRVGQASMIASPSGVLKLSDWVLLNCSFSRPDRPVSVHWFQGQNRVPVYNSPRHFLAETFLLLPQVSPLDSGTWGCVLTYRDGFNVSITYNLKVLPLTVYAAEGSRVELPCHLPPGVGTPSLLIAKWTPPGGGPELPVAGKSGNFTLHLEAVGLAQAGTYTCSIHLQGQQLNATVTLAVITVTPKSFGLPGSRGKLLCEVTPASGKERFVWRPLNNLSRSCPGPVLEIQEARLLAERWQCQLYEGQRLLGATV 8dgl-a1-m1-cC_8dgl-a1-m1-cD Crystal Structure of the RdfS Excisionase Q7AL96 Q7AL96 2.45 X-RAY DIFFRACTION 61 1.0 935547 (Mesorhizobium japonicum R7A) 935547 (Mesorhizobium japonicum R7A) 67 67 8dgl-a1-m1-cA_8dgl-a1-m1-cB 8dgl-a1-m1-cC_8dgl-a1-m1-cB MDDENDRAARAKKGSPFLNTAQAAFYIGLSQRTLEKMRLTGGGPKYRKHGRYVRYHIDELDDWSKGR MDDENDRAARAKKGSPFLNTAQAAFYIGLSQRTLEKMRLTGGGPKYRKHGRYVRYHIDELDDWSKGR 8dh0-a1-m1-cF_8dh0-a1-m1-cB T7 RNA polymerase elongation complex with unnatural base dDs P00573 P00573 2.9 X-RAY DIFFRACTION 52 0.99 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 796 840 MNTINIAKNDFSDIELAAIPFNTLADHYGERLAREQLALEHESYEMGEARFRKMFERQLKAGEVADNAAAKPLITTLLPKMIARINDWFIKPEAVAYITIKTTLACLTSTTVQAVASAIGRAIEDEARFGRIRDAKHFKKNVEEQLNKRVGHVYKKAFMQVVEADMLSKGLLHKEDSIHVGVRCIEMLIESAPEYAEAIATRAGALAGISPMFQPCVVPPKPWTGITGGGYWANGRRPLALVRTHSKKALMRYEDVYMPEVYKAINIAQNTAWKINKKVLAVANVITKWKHCPVEDIPATAWKRAAAAVYRKDKARKSRRISLEFMLEQANKFANHKAIWFPYNMDWRGRVYAVSMFNPQGNDMTKGLLTLAKGKPIGKEGYYWLKIHGANCAGVDKVPFPERIKFIEENHENIMACAKSPLENTWWAEQDSPFCFLAFCFEYAGVQHHGLSYNCSLPLAFDGSCSGIQHFSAMLRDEVGGRAVNLLPSETVQDIYGIVAKKVNEILQADAINGTDNEVVTVTDENTGEISEKVKLGTKALAGQWLAYGVTRSVTKRSVMTLAYGSKEFGFRQQVLEDTIQPAIDSGKGLMFTQPNQAAGYMAKLIWESVSVTVVAAVEAMNWLKSAAKLLAAEVKDKKTGEILRKRCAVHWVTPDGFPVWQEYKKPIQTRLNLMFLGQSEIDAHKQESGIAPNFVHSQDGSHLRKTVVWAHEKYGIESFALIHDSFGTIPADAANLFKAVRETMVDTYESCDVLADFYDQFADQLHESQLDKMPALPAKGNLNLRDILESDFAFA MNTINIAKNDFSDIELAAIPFNTLADHYGERLAREQLALEHESYEMGEARFRKMFERQLKAGEVADNAAAKPLITTLLPKMIARINDWFEEVKAKRGKRPTAFQFLQEIKPEAVAYITIKTTLACLTSNTTVQAVASAIGRAIEDEARFGRIRDAKHFKKNVEEQLNKRVGHVYKKAFMQVVEADMLSKGLLGGEAWSSWHKEDSIHVGVRCIEMLIESTGMVSLHRQNAGVVGQDSETIELAPEYAEAIATRAGALAGISPMFQPCVVPPKPWTGITGGGYWANGRRPLALVRTHSKKALMRYEDVYMPEVYKAINIAQNTAWKINKKVLAVANVITKWKHCPVEDIPAITAWKRAAAAVYRKDKARKSRRISLEFMLEQANKFANHKAIWFPYNMDWRGRVYAVSMFNPQGNDMTKGLLTLAKGKPIGKEGYYWLKIHGANCAGVDKVPFPERIKFIEENHENIMACAKSPLENTWWAEQDSPFCFLAFCFEYAGVQHHGLSYNCSLPLAFDGSCSGIQHFSAMLRDEVGGRAVNLLPSETVQDIYGIVAKKVNEILQADAINGTDNEVVTVTEKVKLGTKALAGQWLAYGVTRSVTKRSVMTLAYGSKEFGFRQQVLEDTIQPAIDSGKGLMFTQPNQAAGYMAKLIWESVSVTVVAAVEAMNWLKSAAKLLAAEVKDKKTGEILRKRCAVHWVTPDGFPVWQEYKKPIQTRLNLMFLGQSEIDAHKQESGIAPNFVHSQDGSHLRKTVVWAHEKYGIESFALIHDSFGTIPADAANLFKAVRETMVDTYESCDVLADFYDQFADQLHESQLDKMPALPAKGNLNLRDILESDFAFA 8dh0-a1-m1-cJ_8dh0-a1-m1-cB T7 RNA polymerase elongation complex with unnatural base dDs P00573 P00573 2.9 X-RAY DIFFRACTION 16 0.999 10760 (Escherichia phage T7) 10760 (Escherichia phage T7) 805 840 NTINIAKNDFSDIELAAIPFNTLADHYGERLAREQLALEHESYEMGEARFRKMFERQLKAGEVADNAAAKPLITTLLPKMIARINDWFEEVKAKRGIKPEAVAYITIKTTLACLTSNTTVQAVASAIGRAIEDEARFGRIRDAKHFKKNVEEQLNKRVGHVYKKAFMQVVEADMLSKGLLGGEAWSSWHKEDSIHVGVRCIEMLIESTGMVLAPEYAEAIATRAGALAGISPMFQPCVVPPKPWTGITGGGYWANGRRPLALVRTHSKKALMRYEDVYMPEVYKAINIAQNTAWKINKKVLAVANVITKWKHCPVEDIPAWKRAAAAVYRKDKARKSRRISLEFMLEQANKFANHKAIWFPYNMDWRGRVYAVSMFNPQGNDMTKGLLTLAKGKPIGKEGYYWLKIHGANCAGVDKVPFPERIKFIEENHENIMACAKSPLENTWWAEQDSPFCFLAFCFEYAGVQHHGLSYNCSLPLAFDGSCSGIQHFSAMLRDEVGGRAVNLLPSETVQDIYGIVAKKVNEILQADAINGTDNEVVSEKVKLGTKALAGQWLAYGVTRSVTKRSVMTLAYGSKEFGFRQQVLEDTIQPAIDSGKGLMFTQPNQAAGYMAKLIWESVSVTVVAAVEAMNWLKSAAKLLAAEVKDKKTGEILRKRCAVHWVTPDGFPVWQEYKKPIQTRLNLMFLGQSEIDAHKQESGIAPNFVHSQDGSHLRKTVVWAHEKYGIESFALIHDSFGTIPADAANLFKAVRETMVDTYESCDVLADFYDQFADQLHESQLDKMPALPAKGNLNLRDILESDFAFA MNTINIAKNDFSDIELAAIPFNTLADHYGERLAREQLALEHESYEMGEARFRKMFERQLKAGEVADNAAAKPLITTLLPKMIARINDWFEEVKAKRGKRPTAFQFLQEIKPEAVAYITIKTTLACLTSNTTVQAVASAIGRAIEDEARFGRIRDAKHFKKNVEEQLNKRVGHVYKKAFMQVVEADMLSKGLLGGEAWSSWHKEDSIHVGVRCIEMLIESTGMVSLHRQNAGVVGQDSETIELAPEYAEAIATRAGALAGISPMFQPCVVPPKPWTGITGGGYWANGRRPLALVRTHSKKALMRYEDVYMPEVYKAINIAQNTAWKINKKVLAVANVITKWKHCPVEDIPAITAWKRAAAAVYRKDKARKSRRISLEFMLEQANKFANHKAIWFPYNMDWRGRVYAVSMFNPQGNDMTKGLLTLAKGKPIGKEGYYWLKIHGANCAGVDKVPFPERIKFIEENHENIMACAKSPLENTWWAEQDSPFCFLAFCFEYAGVQHHGLSYNCSLPLAFDGSCSGIQHFSAMLRDEVGGRAVNLLPSETVQDIYGIVAKKVNEILQADAINGTDNEVVTVTEKVKLGTKALAGQWLAYGVTRSVTKRSVMTLAYGSKEFGFRQQVLEDTIQPAIDSGKGLMFTQPNQAAGYMAKLIWESVSVTVVAAVEAMNWLKSAAKLLAAEVKDKKTGEILRKRCAVHWVTPDGFPVWQEYKKPIQTRLNLMFLGQSEIDAHKQESGIAPNFVHSQDGSHLRKTVVWAHEKYGIESFALIHDSFGTIPADAANLFKAVRETMVDTYESCDVLADFYDQFADQLHESQLDKMPALPAKGNLNLRDILESDFAFA 8dh7-a1-m1-cA_8dh7-a1-m1-cB Cryo-EM structure of Saccharomyces cerevisiae Succinyl-CoA:acetate CoA-transferase (Ach1p) P32316 P32316 2.99 ELECTRON MICROSCOPY 218 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 526 526 MTISNLLKQRVRYAPYLKKVKEAHELIPLFKNGQYLGWSGFTGVGTPKAVPEALIDHVEKNNLQGKLRFNLFVGASAGPEENRWAEHDMIIKRAPHQVGKPIAKAINQGRIEFFDKHLSMFPQDLTYGFYTRERKDNKILDYTIIEATAIKEDGSIVPGPSVGGSPEFITVSDKVIIEVNTATPSFEGIHDIDMPVNPPFRKPYPYLKVDDKCGVDSIPVDPEKVVAIVESTMRDQVPPNTPSDDMSRAIAGHLVEFFRNEVKHGRLPENLLPLQSGIGNIANAVIEGLAGAQFKHLTVWTEVLQDSFLDLFENGSLDYATATSVRLTEKGFDRAFANWENFKHRLCLRSQVVSNNPEMIRRLGVIAMNTPVEVDIYAHANSTNVNGSRMLNGLGGSADFLRNAKLSIMHAPSARPTKVDPTGISTIVPMASHVDQTEHDLDILVTDQGLADLRGLSPKERAREIINKCAHPDYQALLTDYLDRAEHYAKKHNCLHEPHMLKNAFKFHTNLAEKGTMKVDSWEPVD MTISNLLKQRVRYAPYLKKVKEAHELIPLFKNGQYLGWSGFTGVGTPKAVPEALIDHVEKNNLQGKLRFNLFVGASAGPEENRWAEHDMIIKRAPHQVGKPIAKAINQGRIEFFDKHLSMFPQDLTYGFYTRERKDNKILDYTIIEATAIKEDGSIVPGPSVGGSPEFITVSDKVIIEVNTATPSFEGIHDIDMPVNPPFRKPYPYLKVDDKCGVDSIPVDPEKVVAIVESTMRDQVPPNTPSDDMSRAIAGHLVEFFRNEVKHGRLPENLLPLQSGIGNIANAVIEGLAGAQFKHLTVWTEVLQDSFLDLFENGSLDYATATSVRLTEKGFDRAFANWENFKHRLCLRSQVVSNNPEMIRRLGVIAMNTPVEVDIYAHANSTNVNGSRMLNGLGGSADFLRNAKLSIMHAPSARPTKVDPTGISTIVPMASHVDQTEHDLDILVTDQGLADLRGLSPKERAREIINKCAHPDYQALLTDYLDRAEHYAKKHNCLHEPHMLKNAFKFHTNLAEKGTMKVDSWEPVD 8dhe-a1-m1-cB_8dhe-a1-m1-cD Tannerella forsythia beta-glucuronidase (mL1) A0A0E4FP39 A0A0E4FP39 2.2 X-RAY DIFFRACTION 109 1.0 28112 (Tannerella forsythia) 28112 (Tannerella forsythia) 660 660 8dhe-a1-m1-cC_8dhe-a1-m1-cA QRQDILLNDHWNFRFSHQVQKNTEVRVDLPHTWNAQDALSGKPDYKRGIGNYEKKLFIRSEWQGKRLFLRFEGVNSVADVFINNLHIGEHRGGYGAFIFEITGKVEYGKENSILVRVNNGEQLDVMPLVGDFNFYGGIYRDVHLLITDEVCISPLDHASPGVRLTQDSVSHKYARIEVLVEVSNGSDKAQEIELGICVRDGKRTVTERNEKFSLSGNSDMQRRLVCEIKDPHLWNGRQDPFLYRAEVTLTRDGHVIDQVTQPLGLRFYRIDPNLGFILNGKHLPLRGVCRHQDRSEIGNALHLQHHEEDAALMAEMGVNAVRLAHYPQATCFYDLMDRYGIIVWTEIPFVGPGGYMDKGFVNLPAFRSNGKEQLRELIRQHCNHPSICVWGLFNELTQAGDDPTEYIEELNRVAKQEDMTRPTTAASNRPATEPMNFITDAIAWNRYDGWYGGTPSDLGKWLDDTHKKYPELRIAVSEYGAGASIYHQQDSLKKPEPAGWWHPENWQTYYHAENWKTIASRPYLWGSFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKEEPVLYLAGRRHTVRRQRMQTIVAFTNQPEAELFVNGRSYGKANPDEYAVLKWQNVTLQEGENEIQVVSKNKELTLSDSFRCRVES QRQDILLNDHWNFRFSHQVQKNTEVRVDLPHTWNAQDALSGKPDYKRGIGNYEKKLFIRSEWQGKRLFLRFEGVNSVADVFINNLHIGEHRGGYGAFIFEITGKVEYGKENSILVRVNNGEQLDVMPLVGDFNFYGGIYRDVHLLITDEVCISPLDHASPGVRLTQDSVSHKYARIEVLVEVSNGSDKAQEIELGICVRDGKRTVTERNEKFSLSGNSDMQRRLVCEIKDPHLWNGRQDPFLYRAEVTLTRDGHVIDQVTQPLGLRFYRIDPNLGFILNGKHLPLRGVCRHQDRSEIGNALHLQHHEEDAALMAEMGVNAVRLAHYPQATCFYDLMDRYGIIVWTEIPFVGPGGYMDKGFVNLPAFRSNGKEQLRELIRQHCNHPSICVWGLFNELTQAGDDPTEYIEELNRVAKQEDMTRPTTAASNRPATEPMNFITDAIAWNRYDGWYGGTPSDLGKWLDDTHKKYPELRIAVSEYGAGASIYHQQDSLKKPEPAGWWHPENWQTYYHAENWKTIASRPYLWGSFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKEEPVLYLAGRRHTVRRQRMQTIVAFTNQPEAELFVNGRSYGKANPDEYAVLKWQNVTLQEGENEIQVVSKNKELTLSDSFRCRVES 8dhe-a1-m1-cC_8dhe-a1-m1-cD Tannerella forsythia beta-glucuronidase (mL1) A0A0E4FP39 A0A0E4FP39 2.2 X-RAY DIFFRACTION 70 1.0 28112 (Tannerella forsythia) 28112 (Tannerella forsythia) 657 660 8dhe-a1-m1-cA_8dhe-a1-m1-cB QRQDILLNDHWNFRFSHQVQKNTEVRVDLPHTWNAQDALSGKPDYKRGIGNYEKKLFIRSEWQGKRLFLRFEGVNSVADVFINNLHIGEHRGGYGAFIFEITGKVEYGKENSILVRVNNGEQLDVMPLVGDFNFYGGIYRDVHLLITDEVCISPLDHASPGVRLTQDSVSHKYARIEVLVEVSNGSDKAQEIELGICVRDGKRTVTERNEKFSLSGNSDMQRRLVCEIKDPHLWNGRQDPFLYRAEVTLTRDGHVIDQVTQPLGLRFYRIDPNLGFILNGKHLPLRGVCRHQDRSEIGNALHLQHHEEDAALMAEMGVNAVRLAHYPQATCFYDLMDRYGIIVWTEIPFVGPGGYMDKGFVNLPAFRSNGKEQLRELIRQHCNHPSICVWGLFNELTQAGDDPTEYIEELNRVAKQEDMTRPTTAASNRPATEPMNFITDAIAWNRYDGWYGGTPSDLGKWLDDTHKKYPELRIAVSEYGAGASIYHQQDSLKKPEPAGWWHPENWQTYYHAENWKTIASRPYLWGSFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKEEPVLYLAGRRHTVRRQRMQTIVAFTNQPEAELFVNGRSYGKANPDEYAVLKWQNVTLQEGENEIQVVSKNTLSDSFRCRVES QRQDILLNDHWNFRFSHQVQKNTEVRVDLPHTWNAQDALSGKPDYKRGIGNYEKKLFIRSEWQGKRLFLRFEGVNSVADVFINNLHIGEHRGGYGAFIFEITGKVEYGKENSILVRVNNGEQLDVMPLVGDFNFYGGIYRDVHLLITDEVCISPLDHASPGVRLTQDSVSHKYARIEVLVEVSNGSDKAQEIELGICVRDGKRTVTERNEKFSLSGNSDMQRRLVCEIKDPHLWNGRQDPFLYRAEVTLTRDGHVIDQVTQPLGLRFYRIDPNLGFILNGKHLPLRGVCRHQDRSEIGNALHLQHHEEDAALMAEMGVNAVRLAHYPQATCFYDLMDRYGIIVWTEIPFVGPGGYMDKGFVNLPAFRSNGKEQLRELIRQHCNHPSICVWGLFNELTQAGDDPTEYIEELNRVAKQEDMTRPTTAASNRPATEPMNFITDAIAWNRYDGWYGGTPSDLGKWLDDTHKKYPELRIAVSEYGAGASIYHQQDSLKKPEPAGWWHPENWQTYYHAENWKTIASRPYLWGSFVWNMFDFGAAHRTEGDRPGINDKGLVTFDRKVRKDAFYFYKANWNKEEPVLYLAGRRHTVRRQRMQTIVAFTNQPEAELFVNGRSYGKANPDEYAVLKWQNVTLQEGENEIQVVSKNKELTLSDSFRCRVES 8dhl-a1-m1-cA_8dhl-a1-m1-cB Tannerella forsythia beta-glucuronidase (L2) G8UKC1 G8UKC1 2.3 X-RAY DIFFRACTION 194 0.999 28112 (Tannerella forsythia) 28112 (Tannerella forsythia) 827 853 GGRCQIAFNSGWLFSKNEANAVLPDRTTAGWQAVQLPHTWNDKDVGYYRGVGWYKKRFRLVPEKGKRYFLRFEGVNQTAEVFVNGKPAGEHTGGYTAFNVDLTPFLEASGEQYIAVKADNSHRDDVPPLSADFTFFGGIYRPVHLITTGEQHFSMSDYGGPGIYITTPRVTPHGADVTITYHLQNCSDAPQALTLETVIRKDVASALATKNTAVTISAFGDTVVTVTCSDVRNFDLWSPDHPAMYYVESLLKQSGKRVDNLSQPLGFRWFRFDPEKGFFINGKNIKLMGANRHQDRIPYGNALSNDMHRQDLSLLKEMGGNFLRNAHYPQADEVLDQADRLGFAVWEEIPLVNEVTVGPRHTENTTVMLKEMIKQHYNHPSVVIWAYMNEIYWAHRYKPQEEIAGRNRATLELARRLEHIVRELDPYRYTAMAMHNDPAYEETGLGDIPMIAGWNLYHGWYYGIYEDFGTFMDEQRRKYPKRIHLISEYGAGSDVRLYSEKPEKFDFTVEEQTRFTRSITTQILDRPYIAGGALWNLADFSSENNKGLVTADRKPKDAYYLMQALLSEKPVARLGYPFRNRWVHAATSPSDTLVPVRMHAFSNQKSVSLYVDNRLFGEAEVKDGMAEWEMKLIPGRHLLSLAPNSPDTPEKQIDVRLIPFRPDGKLAMNVGANYAFIDTRTDLYWLPERTYEKGSWGVVGGEPLYVGGKVGTKEDILAVDEEDPLYQTMRVNPEGFGADLPDGTYEIELLMVDYVITYEPGQRVFGVSVNGTSILPEIDLGGSYGLNVPCRLTFRYTVTDNAGLSIKFHPVSGEPVLSAVRIRKVEF GRCQIAFNSGWLFSKNEANAVLPDRTTAGWQAVQLPHTWNDKDVLADGRRGYYRGVGWYKKRFRLVPEKGKRYFLRFEGVNQTAEVFVNGKPAGEHTGGYTAFNVDLTPFLEASGEQYIAVKADNSHRDDVPPLSADFTFFGGIYRPVHLITTGEQHFSMSDYGGPGIYITTPRVTPHGADVTITYHLQNCSDAPQALTLETVIRKDVASALATKNTAVTISAFGDTVVTVTCSDVRNFDLWSPDHPAMYYVESLLKQSGKRVDNLSQPLGFRWFRFDPEKGFFINGKNIKLMGANRHQDRIPYGNALSNDMHRQDLSLLKEMGGNFLRNAHYPQADEVLDQADRLGFAVWEEIPLVNEVTVGPRHTENTTVMLKEMIKQHYNHPSVVIWAYMNEIYWAHRYKPQEEIAGRNRATLELARRLEHIVRELDPYRYTAMAMHNDPAYEETGLGDIPMIAGWNLYHGWYYGIYEDFGTFMDEQRRKYPKRIHLISEYGAGSDVRLYSEKPEKFDFTVEEQTRFTRSITTQILDRPYIAGGALWNLADFSSERRVDATSHINNKGLVTADRKPKDAYYLMQALLSEKPVARLGYPFRNRWVHAATSPSDTLVPVRMHAFSNQKSVSLYVDNRLFGEAEVKDGMAEWEMKLIPGRHLLSLAPNSPDTPEKQIDVRLIPFRPDGKLAMNVGANYAFIDTRTDLYWLPERTYEKGSWGVVGGEPLYVGGKVGTKEDILAVDEEDPLYQTMRVNPEGFGADLPDGTYEIELLMVDYVKKSRRFADEDKGITYEPGQRVFGVSVNGTSILPEIDLGGSYGLNVPCRLTFRYTVTDNAGLSIKFHPVSGEPVLSAVRIRKVEF 8dht-a2-m1-cB_8dht-a2-m2-cD Crystal structure of a typeIII Rubisco O28635 O28635 1.699 X-RAY DIFFRACTION 366 1.0 2234 (Archaeoglobus fulgidus) 2234 (Archaeoglobus fulgidus) 439 439 8dht-a1-m1-cA_8dht-a1-m1-cC AEFEIYREYVDKSYEPQKDDIVAVFRITPAEGFTIEDAAGAVAAESSTGTWTSLHPWYDEERVKGLSAKAYDFVDLGDGSSIVRIAYPSELFEPHNMPGLLASIAGNVFGMKRVKGLRLEDLQLPKSFLKDFKGPSKGKEGVKKIFGVADRPIVGTVPKPKVGYSAEEVEKLAYELLSGGMDYIDDENLTSPAYCRFEERAERIMKVIEKVEAETGEKKSWFANITADVREMERRLKLVAELGNPHVMVDVVITGWGALEYIRDLAEDYDLAIHGHRAMHAAFTRNAKHGISMFVLAKLYRIIGIDQLHIGTAGAGKLEGQKWDTVQNARIFSEVEYTPDEGDAFHLSQNFHHIKPAMPVSSGGLHPGNLEPVIDALGKEIVIQVGGGVLGHPMGAKAGARAVRQALDAIISAIPLEEHAKQHPELQAALEKWGRVTPI AEFEIYREYVDKSYEPQKDDIVAVFRITPAEGFTIEDAAGAVAAESSTGTWTSLHPWYDEERVKGLSAKAYDFVDLGDGSSIVRIAYPSELFEPHNMPGLLASIAGNVFGMKRVKGLRLEDLQLPKSFLKDFKGPSKGKEGVKKIFGVADRPIVGTVPKPKVGYSAEEVEKLAYELLSGGMDYIDDENLTSPAYCRFEERAERIMKVIEKVEAETGEKKSWFANITADVREMERRLKLVAELGNPHVMVDVVITGWGALEYIRDLAEDYDLAIHGHRAMHAAFTRNAKHGISMFVLAKLYRIIGIDQLHIGTAGAGKLEGQKWDTVQNARIFSEVEYTPDEGDAFHLSQNFHHIKPAMPVSSGGLHPGNLEPVIDALGKEIVIQVGGGVLGHPMGAKAGARAVRQALDAIISAIPLEEHAKQHPELQAALEKWGRVTPI 8dil-a3-m1-cE_8dil-a3-m1-cF Crystal structure of putative nitroreductase from Salmonella enterica A0A0H3NAL3 A0A0H3NAL3 1.8 X-RAY DIFFRACTION 174 1.0 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 216597 (Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344) 174 174 8dil-a1-m1-cB_8dil-a1-m1-cA 8dil-a2-m1-cC_8dil-a2-m1-cD MDALELLVNRRSASRLAEPAPVGEQLQNILRAGMRVPDHKSLQPWRFFVIEGEGRDRFSAVLEQGAVAAGGDEKAIEKARNAPFRAPLIITVVAKCEENHKVPVWEQEMSAGCAVMAMQMAAIAQGFNGIWRSGALTESAIVREAFECRPQDKIVGFLYLGTPQPDPTPFVRYF MDALELLVNRRSASRLAEPAPVGEQLQNILRAGMRVPDHKSLQPWRFFVIEGEGRDRFSAVLEQGAVAAGGDEKAIEKARNAPFRAPLIITVVAKCEENHKVPVWEQEMSAGCAVMAMQMAAIAQGFNGIWRSGALTESAIVREAFECRPQDKIVGFLYLGTPQPDPTPFVRYF 8dk1-a1-m1-cG_8dk1-a1-m1-cH CryoEM structure of JetABC (head construct) from Pseudomonas aeruginosa PA14 A0A0H2ZL66 A0A0H2ZL66 2.95 ELECTRON MICROSCOPY 38 1.0 652611 (Pseudomonas aeruginosa PA14) 652611 (Pseudomonas aeruginosa PA14) 176 189 8dk1-a1-m1-cE_8dk1-a1-m1-cF 8dk2-a1-m1-cF_8dk2-a1-m1-cG 8dk2-a1-m1-cH_8dk2-a1-m1-cI TPQRVREAVQEMLKYGLLEESHKPNLYRSALTNIEVVDRILEPLDLAMGVDEVRGLVFVTVRQSHPLVRRQRLNLEQSLLIAILRQHFIAYEQESSQALVAVDELIPQLQVYLGELGSEAKERNRIITLLDQLKGHGLVSALDAHDRVIIRPIITHLANPENLQALVVWLREQVEG TPQRVREAVQEMLKYGLLEESHKPNLYRSALTNIEVVDRILEPLDLAMGVDEVRGLVFVTVRQGEVAEQDDWSHPLVRRQRLNLEQSLLIAILRQHFIAYEQESGTGASQALVAVDELIPQLQVYLGELGSEAKERNRIITLLDQLKGHGLVSALDAHDRVIIRPIITHLANPENLQALVVWLREQVEG 8dk2-a1-m1-cB_8dk2-a1-m1-cA CryoEM structure of Pseudomonas aeruginosa PA14 JetABC in an unclamped state trapped in ATP dependent dimeric form A0A0H2ZJP9 A0A0H2ZJP9 4.1 ELECTRON MICROSCOPY 232 1.0 652611 (Pseudomonas aeruginosa PA14) 652611 (Pseudomonas aeruginosa PA14) 341 441 8dk1-a1-m1-cA_8dk1-a1-m1-cB AQQRSERYVSARSQHPAWLLLASRRAPLVLGCLRTLFEEDALQALSEMLAAYASQATHLQAGRELREWIKRRLVVEREGRIYATDALESAIQFVDSLDSRIMTSTASRLSVVQREIENLETGLNPSPTGRIASLRRRIQDLEHELARVEAGHVDVLDEAQAIEGMREVYNLATSLRADFRRVEDSWREADRALRHSIISEHRGEIVDRLLDGQDALLNTPEGRVFESFQQQLRQSAELEVMRERLRTILRHPAVPKALNRPQQRELRWLALRLVRESQAVLQARARSERDVRGFMKTGLAAEHHRVGQLLNDFFNLALSVDWQRQSERRKPACLPPVGVAI AQQRSERYVSARSQHPAWLLLASRRAPLVLGCLRTLFEEDALQALSEMLAAYASQATHLQAGRELREWIKRRLVVEREGRIYATDALESAIQFVDSLDSRIMTSTASRLSVVQREIENLETGLNPSPTGRIASLRRRIQDLEHELARVEAGHVDVLDEAQAIEGMREVYNLATSLRADFRRVEDSWREADRALRHSIISEHRGEIVDRLLDGQDALLNTPEGRVFESFQQQLRQSAELEVMRERLRTILRHPAVPKALNRPQQRELRWLALRLVRESQAVLQARARSERDVRGFMKTGLAAEHHRVGQLLNDFFNLALSVDWQRQSERRKPACLPPVGVAITGVPAIAFDGLDREALIHDTLAVLVEQGRPVSLGELASLLPPAHDLETFALWLAMAREAGIEVLTEERQFVELVDEDEQRWGFNLPYVGLDHEALKDIDW 8dk2-a1-m1-cD_8dk2-a1-m1-cC CryoEM structure of Pseudomonas aeruginosa PA14 JetABC in an unclamped state trapped in ATP dependent dimeric form A0A8G4Z850 A0A8G4Z850 4.1 ELECTRON MICROSCOPY 106 1.0 652611 (Pseudomonas aeruginosa PA14) 652611 (Pseudomonas aeruginosa PA14) 718 723 SETFILTSIELYNWGGFQGYHRAEIDPSGTAVIGPTGSGKTTLVDALMTLLCANPRYNLASTGGHESDRDLVSYVRGVTGPGDGGVEQSHIARQGKTVTAIAATLERDGAQVRLGAVLWFEGTSSSASDLKKLWLLSESPEQTLEHWLSQHHAGGMRALRQMEKDGMGIWPYPSKKAFLARLRDYFEVGENAFTLLNRAAGLKQLNSIDEIFRELVLDDRSAFERAAEVASSFDDLTDIHRELETARKQQRSLQPVADGWERYRALQEQLQDKQALEGILPVWFAEQGYRLWLAETNRLEKEHKQAELDQAQCRSQLEIQKGVVDQHRQRYLRNLAVIKAELDQAEALRESLDQQLQRLIEQCVQLKTQFDQAASATRKAYRGAEKGLSDTQRELAQAHFPILSTDDLGDIDELERKHTRELQGQLKTLGEKLGDQKTELAKRMSDALKADTGALAEVGRELVDVPRYLERLRVLTEEALPEKLKRFLEYLNRSSDDGVTQLLSYIDHEVSMIEERLDDLNSTMQRVDFQPGRYLRLVAKKVIHESLRTLQHAQRQLNSARHYKALQALVGLLKDACEHSRNQGAKALLDPRFRLEFAVSVIDREGNNLIETRTGSQGGSGGEKEIIASYVLTASLSYALCPDGSSRPLFGTIVLDQAFSRSSHAVAGRIIAALREFGLHAVFITPNKEMRLLRHHTRSAVVVHRRGVESSLVSLSWE SETFILTSIELYNWGGFQGYHRAEIDPSGTAVIGPTGSGKTTLVDALMTLLCANPRYNLASTGGHESDRDLVSYVRGVTGPGDGGVEQSHIARQGKTVTAIAATLERDGAQVRLGAVLWFEGTSSSASDLKKLWLLSESPEQTLEHWLSQHHAGGMRALRQMEKDGMGIWPYPSKKAFLARLRDYFEVGENAFTLLNRAAGLKQLNSIDEIFRELVLDDRSAFERAAEVASSFDDLTDIHRELETARKQQRSLQPVADGWERYRALQEQLQDKQALEGILPVWFAEQGYRLWLAETNRLEKEHKQAELDQAQCRSQLEIQKGVVDQHRQRYLRNLAVIKAELDQAEALRESLDQQLQRLIEQCVQLKTQFDQAASATRKAYRGAEKGLSDTQRELAQAHFPILSTDDLGDIDELERKHTRELQGQLKTLGEKLGDQKTELAKRMSDALKADTGALAEVGRELVDVPRYLERLRVLTEEALPEKLKRFLEYLNRSSDDGVTQLLSYIDHEVSMIEERLDDLNSTMQRVDFQPGRYLRLVAKKVIHESLRTLQHAQRQLNSARHYKALQALVGLLKDACEHSRNQGAKALLDPRFRLEFAVSVIDREGNNLIETRTGSQGGSGGEKEIIASYVLTASLSYALCPDGSSRPLFGTIVLDQAFSRSSHAVAGRIIAALREFGLHAVFITPNKEMRLLRHHTRSAVVVHRRGVESSLVSLSWEALDEH 8dk3-a1-m1-cB_8dk3-a1-m1-cA CryoEM structure of Pseudomonas aeruginosa PA14 JetC ATPase domain bound to DNA and cWHD domain of JetA A0A8G4Z850 A0A8G4Z850 3.28 ELECTRON MICROSCOPY 104 0.998 652611 (Pseudomonas aeruginosa PA14) 652611 (Pseudomonas aeruginosa PA14) 450 455 SETFILTSIELYNWGGFQGYHRAEIDPSGTAVIGPTGSGKTTLVDALMTLLCANPRYNLASTGGHESDRDLVSYVRGVTGPGDGGVEQSHIARQGKTVTAIAATLERDGAQVRLGAVLWFEGTSSSASDLKKLWLLSESPEQTLEHWLSQHHAGGMRALRQMEKDGMGIWPYPSKKAFLARLRDYFEVGENAFTLLNRAAGLKQLNSIDEIFRELVLDDRSAFERAAEVASSFTQLLSYIDHEVSMIEERLDDLNSTMQRVDFQPGRYLRLVAKKVIHESLRTLQHAQRQLNSARKALQALVGLLKDACEHSRNQGAKALLDPRFRLEFAVSVIDREGNNLIETRTGSQGGSGGEKEIIASYVLTASLSYALCPDGSSRPLFGTIVLDQAFSRSSHAVAGRIIAALREFGLHAVFITPNKEMRLLRHHTRSAVVVHRRGVESSLVSLSWE SETFILTSIELYNWGGFQGYHRAEIDPSGTAVIGPTGSGKTTLVDALMTLLCANPRYNLASTGGHESDRDLVSYVRGVTGPGDGGVEQSHIARQGKTVTAIAATLERDGAQVRLGAVLWFEGTSSSASDLKKLWLLSESPEQTLEHWLSQHHAGGMRALRQMEKDGMGIWPYPSKKAFLARLRDYFEVGENAFTLLNRAAGLKQLNSIDEIFRELVLDDRSAFERAAEVASSFVTQLLSYIDHEVSMIEERLDDLNSTMQRVDFQPGRYLRLVAKKVIHESLRTLQHAQRQLNSAKALQALVGLLKDACEHSRNQGAKALLDPRFRLEFAVSVIDREGNNLIETRTGSQGGSGGEKEIIASYVLTASLSYALCPDGSSRPLFGTIVLDQAFSRSSHAVAGRIIAALREFGLHAVFITPNKEMRLLRHHTRSAVVVHRRGVESSLVSLSWEALDEH 8dkd-a1-m1-cA_8dkd-a1-m2-cA Sliding clamp from M. thermoresistibile G7CIP4 G7CIP4 3.2 X-RAY DIFFRACTION 72 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 393 393 8djq-a1-m1-cC_8djq-a1-m1-cD 8djq-a2-m1-cA_8djq-a2-m1-cB 8dk9-a1-m1-cA_8dk9-a1-m1-cB 8dk9-a2-m1-cC_8dk9-a2-m1-cD TVGLTDLKVRLVRDDFADAVAWVARSLPSRPTVPVLAGVLLTGSDDGLTISSFDYEVSAEVQIPAEIAAPGTVLVSGRLLSEITRALPNKPVDLSVEGTRVSLTCGSARFSLPTMAVEDYPALPELPAETGSVPADLFAEAIGQVAVAAGRDDTLPMLTGIRVEISGDRMVLAATDRFRLAVRELTWTTKTPDVEAAVLVPAKTLAEAAKTGLDGSEVQLALGAGPSVGQDGLLGIRSEGKRSTTRLLDAEFPKFRQLLPTEHTAMATIGVGELTEAIKRVALVADRGAQVRMEFADDVLHLSAGADDVGRAEEDLPVSFSGEPLTIAFNPGYLTDGLGALHSERVTFGFTTPSKPAVLRPATEADAALNGNGPFPAAETDYVYLLMPVRLPG TVGLTDLKVRLVRDDFADAVAWVARSLPSRPTVPVLAGVLLTGSDDGLTISSFDYEVSAEVQIPAEIAAPGTVLVSGRLLSEITRALPNKPVDLSVEGTRVSLTCGSARFSLPTMAVEDYPALPELPAETGSVPADLFAEAIGQVAVAAGRDDTLPMLTGIRVEISGDRMVLAATDRFRLAVRELTWTTKTPDVEAAVLVPAKTLAEAAKTGLDGSEVQLALGAGPSVGQDGLLGIRSEGKRSTTRLLDAEFPKFRQLLPTEHTAMATIGVGELTEAIKRVALVADRGAQVRMEFADDVLHLSAGADDVGRAEEDLPVSFSGEPLTIAFNPGYLTDGLGALHSERVTFGFTTPSKPAVLRPATEADAALNGNGPFPAAETDYVYLLMPVRLPG 8dkp-a1-m1-cA_8dkp-a1-m1-cB Minimal PutA proline dehydrogenase domain (design #2) complexed with S-(-)-tetrahydro-2-furoic acid F7X6I3 F7X6I3 1.23 X-RAY DIFFRACTION 51 0.997 707241 (Sinorhizobium meliloti SM11) 707241 (Sinorhizobium meliloti SM11) 386 388 8dko-a1-m1-cA_8dko-a1-m1-cB 8dkq-a1-m1-cA_8dkq-a1-m1-cB QSTLRRAITAAYRRPETECLPPLVEAATQSKEIRDAAASTARKLIEALRGKHGSMMGEQFVTGETIREALKRSKELEEKGFSYSYDMLGEAATTAADAERYYRDYESAIHAIGKASAGRGIYEGPGISIKLSALHPRYSRAQAARVMGELLPRVKALALLAKNYDIGLNIDAEEADRLELSLDLLEVLCLDGDLSGWNGMGFVVQAYGKRCPFVLDFIIDLARRSGRRIMVRLVKGAYWDAEIKRAQLDGLADFPVFTRKIHTDVSYIACAAKLLAATDVVFPQFATHNAQTLAAIYHMAGKDFHVGKYEFQCLHGMGEPLYEEVVGRGKLDRPCRIYAPVGTHETLLAYLVRRLLENGANSSFVHRINDPKVSIDELIADPVEVV SRPQSTLRRAITAAYRRPETECLPPLVEAATQSKEIRDAAASTARKLIEALRGKHSMMGEQFVTGETIREALKRSKELEEKGFSYSYDMLGEAATTAADAERYYRDYESAIHAIGKASAGRGIYEGPGISIKLSALHPRYSRAQAARVMGELLPRVKALALLAKNYDIGLNIDAEEADRLELSLDLLEVLCLDGDLSGWNGMGFVVQAYGKRCPFVLDFIIDLARRSGRRIMVRLVKGAYWDAEIKRAQLDGLADFPVFTRKIHTDVSYIACAAKLLAATDVVFPQFATHNAQTLAAIYHMAGKDFHVGKYEFQCLHGMGEPLYEEVVGRGKLDRPCRIYAPVGTHETLLAYLVRRLLENGANSSFVHRINDPKVSIDELIADPVEVV 8dlc-a1-m1-cA_8dlc-a1-m2-cA Crystal structure of chalcone-isomerase like protein from Vitis vinifera (VvCHIL) A0A438J2L0 A0A438J2L0 1.9 X-RAY DIFFRACTION 25 1.0 29760 (Vitis vinifera) 29760 (Vitis vinifera) 207 207 TEMVMVDEIPFPPQITTAKPLCLLGYGITDIEIHFLQIKFTAIGVYLEPEIVGHLQPWKGKSGKELAENDDFFEALISAPGEKFLRIVVIKEIKGSQYGVQLESAVRDRLAADDKYEEEEEEALEKVVEFFQSKYFKKDSIITFHFPATSFTAEIVFATEGKEESKITVENANVVEMIKKWYLGGTRGVSPTTISALANTLATELSK TEMVMVDEIPFPPQITTAKPLCLLGYGITDIEIHFLQIKFTAIGVYLEPEIVGHLQPWKGKSGKELAENDDFFEALISAPGEKFLRIVVIKEIKGSQYGVQLESAVRDRLAADDKYEEEEEEALEKVVEFFQSKYFKKDSIITFHFPATSFTAEIVFATEGKEESKITVENANVVEMIKKWYLGGTRGVSPTTISALANTLATELSK 8dlj-a1-m1-cB_8dlj-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Alpha (B.1.1.7) spike protein in complex with human ACE2 P0DTC2 P0DTC2 2.91 ELECTRON MICROSCOPY 297 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1037 1037 8dli-a1-m1-cA_8dli-a1-m1-cB 8dli-a1-m1-cC_8dli-a1-m1-cA 8dli-a1-m1-cC_8dli-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIDDTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPINFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILARLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTHNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlm-a1-m1-cC_8dlm-a1-m1-cA Cryo-EM structure of SARS-CoV-2 Beta (B.1.351) spike protein in complex with human ACE2 P0DTC2 P0DTC2 2.89 ELECTRON MICROSCOPY 257 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 836 837 8dlm-a1-m1-cA_8dlm-a1-m1-cB QCVNFTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNFTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlm-a1-m1-cC_8dlm-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Beta (B.1.351) spike protein in complex with human ACE2 P0DTC2 P0DTC2 2.89 ELECTRON MICROSCOPY 269 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 836 1034 8dll-a1-m1-cA_8dll-a1-m1-cB 8dll-a1-m1-cA_8dll-a1-m1-cC 8dll-a1-m1-cB_8dll-a1-m1-cC QCVNFTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNFTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRGLPQGFSALEPLVDLPIGINITRFQTLGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGVENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlp-a1-m1-cB_8dlp-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Gamma (P.1) spike protein in complex with human ACE2 P0DTC2 P0DTC2 2.64 ELECTRON MICROSCOPY 268 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1040 1040 8dlo-a1-m1-cA_8dlo-a1-m1-cB 8dlo-a1-m1-cA_8dlo-a1-m1-cC 8dlo-a1-m1-cB_8dlo-a1-m1-cC 8dlp-a1-m1-cA_8dlp-a1-m1-cB 8dlp-a1-m1-cA_8dlp-a1-m1-cC QCVNFTNRTQLPSAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNYPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLSEFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGTIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAAIKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNFTNRTQLPSAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNYPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLSEFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGTIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQSYGFQPTYGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAAIKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlt-a1-m1-cA_8dlt-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Epsilon (B.1.429) spike protein P0DTC2 P0DTC2 2.4 ELECTRON MICROSCOPY 293 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1040 1040 7sxs-a1-m1-cA_7sxs-a1-m1-cB 7sxs-a1-m1-cA_7sxs-a1-m1-cC 7sxs-a1-m1-cB_7sxs-a1-m1-cC 7sxz-a1-m1-cB_7sxz-a1-m1-cC 8dlt-a1-m1-cA_8dlt-a1-m1-cC 8dlt-a1-m1-cB_8dlt-a1-m1-cC 8dlu-a1-m1-cA_8dlu-a1-m1-cB 8dlu-a1-m1-cA_8dlu-a1-m1-cC 8dlu-a1-m1-cB_8dlu-a1-m1-cC QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlx-a1-m1-cA_8dlx-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Epsilon (B.1.429) spike protein in complex with VH ab6 P0DTC2 P0DTC2 2.45 ELECTRON MICROSCOPY 321 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1003 1040 8dlx-a1-m1-cB_8dlx-a1-m1-cA QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlx-a1-m1-cB_8dlx-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Epsilon (B.1.429) spike protein in complex with VH ab6 P0DTC2 P0DTC2 2.45 ELECTRON MICROSCOPY 279 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 843 1040 QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNISTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlz-a1-m1-cA_8dlz-a1-m1-cC Cryo-EM structure of SARS-CoV-2 D614G spike protein in complex with VH ab6 P0DTC2 P0DTC2 2.57 ELECTRON MICROSCOPY 302 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 840 1040 8dlz-a1-m1-cA_8dlz-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dlz-a1-m1-cB_8dlz-a1-m1-cC Cryo-EM structure of SARS-CoV-2 D614G spike protein in complex with VH ab6 P0DTC2 P0DTC2 2.57 ELECTRON MICROSCOPY 265 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 843 1040 QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYMESEFRVYSSANNCTFEYVSQPFLNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dm1-a1-m1-cA_8dm1-a1-m1-cB Cryo-EM structure of SARS-CoV-2 Omicron BA.2 spike protein P0DTC2 P0DTC2 3.04 ELECTRON MICROSCOPY 281 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 851 852 8dm1-a1-m1-cA_8dm1-a1-m1-cC 8dm1-a1-m1-cB_8dm1-a1-m1-cC QCVNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYMESEFRVYSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPINLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYMESEFRVYSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPINLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dm5-a1-m1-cA_8dm5-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Omicron BA.2 spike protein in complex with human ACE2 P0DTC2 P0DTC2 2.51 ELECTRON MICROSCOPY 313 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1045 1045 8dm5-a1-m1-cA_8dm5-a1-m1-cB QCVNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYMESEFRVYSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYMESEFRVYSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dm7-a1-m1-cB_8dm7-a1-m1-cC Cryo-EM structure of SARS-CoV-2 Omicron BA.2 spike protein in complex with mouse ACE2 P0DTC2 P0DTC2 2.49 ELECTRON MICROSCOPY 289 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1048 1048 8dm5-a1-m1-cC_8dm5-a1-m1-cB 8dm7-a1-m1-cA_8dm7-a1-m1-cB 8dm7-a1-m1-cA_8dm7-a1-m1-cC 8h07-a1-m1-cA_8h07-a1-m1-cB 8h07-a1-m1-cA_8h07-a1-m1-cC QCVNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYMESEFRVYSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPINLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHVSRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYMESEFRVYSSANNCTFEYVSQPFLMDKNLREFVFKNIDGYFKIYSKHTPINLGRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dnc-a1-m1-cB_8dnc-a1-m1-cD CryoEM structure of the A. aeolicus WzmWzt transporter bound to the native O antigen and ADP O67182 O67182 3.3 ELECTRON MICROSCOPY 33 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 255 255 8dku-a1-m1-cB_8dku-a1-m1-cD 8dn8-a1-m1-cB_8dn8-a1-m1-cD 8dou-a1-m1-cB_8dou-a1-m1-cD NLSLILELVRQEIKNRYADTVLGIWWAFLWPILLVLIYTLIFSHLIGAKLGHENTVYAYSIYLSSGIFPWFFFSNSLSRITGIFTEKKFLFTKIPIRLEVFPVVVIISELINYLIGISLVTLISFITLGFEGIKYFYLFPVALYLMIVYSFSIGMVLGTLNVFFRDIKEIIGVFLQIFFWFTPIVYTLDILPPFVKKLIYYNPMYPVVSIHHLVFVNYLDLHLYSLLGFLLASPLVFFVSYYFFKKLEKDIKDFA NLSLILELVRQEIKNRYADTVLGIWWAFLWPILLVLIYTLIFSHLIGAKLGHENTVYAYSIYLSSGIFPWFFFSNSLSRITGIFTEKKFLFTKIPIRLEVFPVVVIISELINYLIGISLVTLISFITLGFEGIKYFYLFPVALYLMIVYSFSIGMVLGTLNVFFRDIKEIIGVFLQIFFWFTPIVYTLDILPPFVKKLIYYNPMYPVVSIHHLVFVNYLDLHLYSLLGFLLASPLVFFVSYYFFKKLEKDIKDFA 8dnn-a1-m1-cF_8dnn-a1-m1-cC Crystal structure of neutralizing antibody 80 in complex with SARS-CoV-2 receptor binding domain 3.12 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 220 DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNNKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQQYYSAPLTFGGGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGE DIVMTQSPDSLAVSLGERATINCKSSQSVLYSSNNKNYLAWYQQKPGQPPKLLIYWASTRESGVPDRFSGSGSGTDFTLTISSLQAEDVAVYYCQQYYSAPLTFGGGTKVEIKRTVAAPSVFIFPPSDEQLKSGTASVVCLLNNFYPREAKVQWKVDNALQSGNSQESVTEQDSKDSTYSLSSTLTLSKADYEKHKVYACEVTHQGLSSPVTKSFNRGEC 8do5-a1-m2-cA_8do5-a1-m2-cB Crystal structure of NahE in complex with intermediate (R)-4-hydroxy-4-(2-hydroxyphenyl)-2-iminobutanoate Q0KK75 Q0KK75 2.1 X-RAY DIFFRACTION 38 1.0 77133 (uncultured bacterium) 77133 (uncultured bacterium) 322 324 8do5-a1-m1-cA_8do5-a1-m1-cB TRLTAEDINGAWTIMPTPSTPDASDWRSTNTVDLDETARIVEELIAAGVNGILSMGTFGECATLTWEEKRDYVSTVVETIRGRVPYFCGTTALNTREVIRQTRELIDIGANGTMLGVPMWVKMDLPTAVQFYRDVAGAVPEAAIAIYANPEAFKFDFPRPFWAEMSKIPQVVTAKYLGIGMLDLDLKLAPNIRFLPHEDDYYAAARINPERITAFWSSGAMCGPATAIMLRDEVERAKSTGDWIKAKAISDDMRAADSTLFPRGDFSEFSKYNIGLEKARMDAAGWLKAGPCRPPYNLVPEDYLVGAQKSGKAWAALHAKYS TTRLTAEDINGAWTIMPTPSTPDASDWRSTNTVDLDETARIVEELIAAGVNGILSMGTFGECATLTWEEKRDYVSTVVETIRGRVPYFCGTTALNTREVIRQTRELIDIGANGTMLGVPMWVKMDLPTAVQFYRDVAGAVPEAAIAIYANPEAFKFDFPRPFWAEMSKIPQVVTAKYLGIGMLDLDLKLAPNIRFLPHEDDYYAAARINPERITAFWSSGAMCGPATAIMLRDEVERAKSTGDWIKAKAISDDMRAADSTLFPRGDFSEFSKYNIGLEKARMDAAGWLKAGPCRPPYNLVPEDYLVGAQKSGKAWAALHAKYSK 8dol-a1-m1-cF_8dol-a1-m1-cA Mechanism of regulation of the Helicobacter pylori Cagbeta ATPase by CagZ O25260 O25260 2.8 X-RAY DIFFRACTION 105 1.0 85962 (Helicobacter pylori 26695) 85962 (Helicobacter pylori 26695) 527 540 8dol-a1-m1-cB_8dol-a1-m1-cA 8dol-a1-m1-cC_8dol-a1-m1-cD 8dol-a1-m1-cD_8dol-a1-m1-cE 8dol-a1-m1-cF_8dol-a1-m1-cE DDLFGSASWETEEKMIKAKLITPNNKKRAFDKREVIVGRRGLGDFIAYAGQAFIGLIAPTRSGKGVGFIMPNMINYPQNIVVFDPKADTMETCGKIREKRFNQKVFIYEPFSLKTHRFNPFAYVDFDFSTQIFGLAKLVFPERPNEKDPFFSNQARNLFVINCNIYRDLMWTKKGLEFVKRKKIIMPETPTMFFIGSMASGINEKVVSLMEFFGGEEDKSGDNLRVLSPATRNMWNSFKTMETYSSVQGVYTSAFAPYNNAMIRNFTSANDFDFRRLRIDEVSIGVIANPKESTIVGPILELFFNVMIYSNLILPIHDPQCKRSCLMLMDEFTLCGYLETFVKAVGIMAEYNMRPAFVFQSKAQLENDPPLGYGRNGAKTILDNLSLNMYYGINNDNYYEHFEKLSKVLGKYTRQDVSRSIDDNTGKTNTSISNKERFLMTPDELMTMGDELIILENTLKPIKCHKALYYDDPFFTDELIKVSPSLSKKYKLGKVPNQATFYDDLQAAKTRGELSYDKSLVPVGSSE DDLFGSASWETEEKMIKAKLITPNNKKRAFDKREVIVGRRGLGDFIAYAGQAFIGLIAPTRSGKGVGFIMPNMINYPQNIVVFDPKADTMETCGKIREKRFNQKVFIYEPFSLKTHRFNPFAYVDFGDFSTQIFGLAKLVFPERPNEKDPFFSNQARNLFVINCNIYRDLMWTKKGLEFVKRKKIIMPETPTMFFIGSMASGINLIDEDTNMEKVVSLMEFFGGEEDKSGDNLRVLSPATRNMWNSFKTMGGARETYSSVQGVYTSAFAPYNNAMIRNFTSANDFDFRRLRIDEVSIGVIANPKESTIVGPILELFFNVMIYSNLILPIHDPQCKRSCLMLMDEFTLCGYLETFVKAVGIMAEYNMRPAFVFQSKAQLENDPPLGYGRNGAKTILDNLSLNMYYGINNDNYYEHFEKLSKVLGKYTRQDVSRSIDDNTGKTNTSISNKERFLMTPDELMTMGDELIILENTLKPIKCHKALYYDDPFFTDELIKVSPSLSKKYKLGKVPNQATFYDDLQAAKTRGELSYDKSLVPVGSSE 8dor-a2-m1-cD_8dor-a2-m1-cC Crystal structure of Dihydropteridine reductase/oxygen-insensitive NAD(P)H nitroreductase from Klebsiella pneumoniae A6T5Y2 A6T5Y2 1.35 X-RAY DIFFRACTION 217 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 216 217 8dor-a1-m1-cB_8dor-a1-m1-cA DIVSVALKRYSTKAFDATKKLTAGEAEQLKTLLQYSPSSTNSQPWHFIVASTDEGKARVAKAASGTYVFNERKILDASHVVVFCAKTAMDDAWLQRVVDQEEADGRFATPDAKAANHKGRTFFADMHRKELKDDDQWMAKQVYLNVGNFLLGVAAMGLDAVPIEGVDFAILDEEFDLKAQGYTSLVVVPVGHHSAEDFNATLPKSRLPQSTTITEI MDIVSVALKRYSTKAFDATKKLTAGEAEQLKTLLQYSPSSTNSQPWHFIVASTDEGKARVAKAASGTYVFNERKILDASHVVVFCAKTAMDDAWLQRVVDQEEADGRFATPDAKAANHKGRTFFADMHRKELKDDDQWMAKQVYLNVGNFLLGVAAMGLDAVPIEGVDFAILDEEFDLKAQGYTSLVVVPVGHHSAEDFNATLPKSRLPQSTTITEI 8dos-a1-m1-cB_8dos-a1-m1-cA Crystal structure of Ferredoxin (flavodoxin):NADP(+) oxidoreductase from Klebsiella pneumoniae A0A0G3NED2 A0A0G3NED2 1.872 X-RAY DIFFRACTION 11 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 246 247 DWVSGKVTKVEYWTDALFSLYVRAPVHPFTAGQFTKLGLEIDGERVQRAYSYVNAPGNPDLEFYLVTVPEGKLSPRLASLKPGDEVLVVSEAAGFFVLEEVPDCDTLWMLATGTALGPYLSILQEGKDLERFNNLVLVHAVRYAADLSYLPLMRELEQRYAGKLRIQTVVSRETVEGSLTGRVPFLIETGALEEAVGLPMTTDTSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW ADWVSGKVTKVEYWTDALFSLYVRAPVHPFTAGQFTKLGLEIDGERVQRAYSYVNAPGNPDLEFYLVTVPEGKLSPRLASLKPGDEVLVVSEAAGFFVLEEVPDCDTLWMLATGTALGPYLSILQEGKDLERFNNLVLVHAVRYAADLSYLPLMRELEQRYAGKLRIQTVVSRETVEGSLTGRVPFLIETGALEEAVGLPMTTDTSHVMLCGNPQMVRDTQQLLKETRQMTKHLRRRPGHMTAEHYW 8dpa-a1-m1-cB_8dpa-a1-m1-cA Crystal structure of the homodimeric AvrM14-B Nudix hydrolase effector from Melampsora lini A0A1B2CW14 A0A1B2CW14 1.84 X-RAY DIFFRACTION 212 1.0 5261 (Melampsora lini) 5261 (Melampsora lini) 125 141 NDLENVKAIAIVYRELSDGSQTVLLAKMKGKGWMFVRGHVRKDEEADPGVAAIRETQEETGFTGMVKQSGAPFTQPGDPQRVITIHPHIVQVVKREFLWVRPSEVRSKLQRAEMIQAWDQLHSFF GNNDLENVKAIAIVYRELSDGSQTVLLAKMKGKGWMFVRGHVRKDEEADPGVAAIRETQEETGFTGMVKQSGAPFTQPGSKDPQRVITIHPHIVQVQEASKSKDTEDTVKREFLWVRPSEVRSKLQRAEMIQAWDQLHSFF 8dpx-a1-m1-cA_8dpx-a1-m1-cB Preligand association structure of DR5 O14763 O14763 NOT SOLUTION NMR 43 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 SEGLCPPGHHISEDGRDCISCKYGQDYSTHWNDLLFCLRCTRCDSGEVELSPCTTTRNTVCQCEEGTFREEDSPEMCRKCRTGCPRGMVKVGDCTPWSDIECVHKESGD SEGLCPPGHHISEDGRDCISCKYGQDYSTHWNDLLFCLRCTRCDSGEVELSPCTTTRNTVCQCEEGTFREEDSPEMCRKCRTGCPRGMVKVGDCTPWSDIECVHKESGD 8dpx-a1-m1-cA_8dpx-a1-m1-cC Preligand association structure of DR5 O14763 O14763 NOT SOLUTION NMR 37 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 109 109 SEGLCPPGHHISEDGRDCISCKYGQDYSTHWNDLLFCLRCTRCDSGEVELSPCTTTRNTVCQCEEGTFREEDSPEMCRKCRTGCPRGMVKVGDCTPWSDIECVHKESGD SEGLCPPGHHISEDGRDCISCKYGQDYSTHWNDLLFCLRCTRCDSGEVELSPCTTTRNTVCQCEEGTFREEDSPEMCRKCRTGCPRGMVKVGDCTPWSDIECVHKESGD 8dqc-a1-m1-cA_8dqc-a1-m1-cB Crystal structure of 3-dehydroquinate dehydratase I from Klebsiella oxytoca (I222 Form) A0A0H3FX83 A0A0H3FX83 2.7 X-RAY DIFFRACTION 143 0.997 571 (Klebsiella oxytoca) 571 (Klebsiella oxytoca) 361 365 8dq9-a1-m1-cA_8dq9-a1-m1-cB 8dqb-a1-m1-cA_8dqb-a1-m2-cA HHMQDEMYMARALKLAARGRFTTHPNPNVGCVIVKDGEIVGEGFHYRAGEPHAEVHALRMAGDKAKGATAYVTLEPCPPCCDALIAAGVARVVAAMQDPNVAGRGLYRLQQAGIDVSHGLMMNEAEALNKGFLKRMRTGFPWIQLKMGASLDGRTAMASGESQWITSPQARRDVQRLRAQSHAILTSSATVLADDPALTVRWQELSADTQALYPQENLRQPLRIVIDSQNRVTPEHRIIQQQGETLFARTHADERAWPDNVRTLLVPEHNGHLDLVLLMMQLGKQQVNSIWVEAGPTLAGALLQAGLVDELIVYIAPKLLGSDARGLCALPGLEKLSQAPHFKFNEIRQVGPDVCLHLTTA HMQDEMYMARALKLAARGRFTTHPNPNVGCVIVKDGEIVGEGFHYRAGEPHAEVHALRMAGDKAKGATAYVTLEPCSHHPPCCDALIAAGVARVVAAMQDPNPQVAGRGLYRLQQAGIDVSHGLMMNEAEALNKGFLKRMRTGFPWIQLKMGASLDGRTAMASGESQWITSPQARRDVQRLRAQSHAILTSSATVLADDPALTVRWQELSADTQALYPQENLRQPLRIVIDSQNRVTPEHRIIQQQGETLFARTHADERAWPDNVRTLLVPEHNGHLDLVLLMMQLGKQQVNSIWVEAGPTLAGALLQAGLVDELIVYIAPKLLGSDARGLCALPGLEKLSQAPHFKFNEIRQVGPDVCLHLTTA 8dqj-a1-m1-cA_8dqj-a1-m1-cD Crystal structure of pyrrolysyl-tRNA synthetase from Methanomethylophilus alvus engineered for acridone amino acid (AST) bound to ATP and acridone A0A3G3IHP7 A0A3G3IHP7 1.54 X-RAY DIFFRACTION 131 1.0 1291540 (Candidatus Methanomethylophilus alvus) 1291540 (Candidatus Methanomethylophilus alvus) 251 271 6ezd-a1-m1-cC_6ezd-a1-m1-cA 6ezd-a2-m1-cD_6ezd-a2-m1-cB 6jp2-a1-m1-cC_6jp2-a1-m1-cA 6jp2-a2-m1-cB_6jp2-a2-m1-cD 8dqg-a1-m1-cA_8dqg-a1-m1-cD 8dqh-a1-m1-cA_8dqh-a1-m1-cD 8dqi-a1-m1-cA_8dqi-a1-m1-cD VKYTDAQIQRLREYGNGTYEQKVFEDLASRDAAFSKEMSVASTDNEKKIKGMIANPSRHGLTQLMNDIADALVAEGFIEVRTPIFISKDALARMTITEDKPLFKQVFWIDEKRALRPMLAPNLYSVMRDLRDHTDGPVKIFEMGSCFRKELEEFTMLSLCDMGPRGDATEVLKNYISVVMKAAGLPDYDLVTIDVEINGQEVCSAAVGPDVHEPTSGAGFGLERLLTIREKYSTVKKGGASISYLNGAKIN GTVKYTDAQIQRLREYGNGTYEQKVFEDLASRDAAFSKEMSVASTDNEKKIKGMIANPSRHGLTQLMNDIADALVAEGFIEVRTPIFISKDALARMTITEDKPLFKQVFWIDEKRALRPMLAPNLYSVMRDLRDHTDGPVKIFEMGSCFRKEMHLEEFTMLSLCDMGPRGDATEVLKNYISVVMKAAGLPDYDLVQEESDVYKETIDVEINGQEVCSAAVGPHYLDAAHDVHEPTSGAGFGLERLLTIREKYSTVKKGGASISYLNGAKIN 8dql-a1-m1-cB_8dql-a1-m1-cC CryoEM structure of IglD A0A6I4RY94 A0A6I4RY94 3.0 ELECTRON MICROSCOPY 95 1.0 264 (Francisella tularensis subsp. novicida) 264 (Francisella tularensis subsp. novicida) 257 257 8dql-a1-m1-cA_8dql-a1-m1-cB 8dql-a1-m1-cA_8dql-a1-m1-cC MFLERIYWEDGLRLDSDILDKSNLSVLERLSTASYLPANLNKGIVSFDLDVLILIKDLKLYLDEKNFVFYDKSYPLSLQIMTEIPLFLNIREKVIEKNGVKYIYNQLSLSLEHSYGFKHSIQIALFRLDRGRLVPEIYDFPLLTLNHYYLGDIFVKLNRTVSELKSFNRFVFSASRSYASILLVFLINKLERELKFAESNRANSSPKQIFDLIDDIYSLIQLNLDKVEELDSIEFDFQKPLTKLNLLADRLLTLCEY MFLERIYWEDGLRLDSDILDKSNLSVLERLSTASYLPANLNKGIVSFDLDVLILIKDLKLYLDEKNFVFYDKSYPLSLQIMTEIPLFLNIREKVIEKNGVKYIYNQLSLSLEHSYGFKHSIQIALFRLDRGRLVPEIYDFPLLTLNHYYLGDIFVKLNRTVSELKSFNRFVFSASRSYASILLVFLINKLERELKFAESNRANSSPKQIFDLIDDIYSLIQLNLDKVEELDSIEFDFQKPLTKLNLLADRLLTLCEY 8dqm-a2-m1-cF_8dqm-a2-m1-cH Crystal structure of isoaspartyl aminopeptidase from Roseivivax halodurans DSM 15395 X7EBZ8 X7EBZ8 2.7 X-RAY DIFFRACTION 35 1.0 93683 (Roseivivax halodurans) 93683 (Roseivivax halodurans) 133 139 8dqm-a1-m1-cD_8dqm-a1-m1-cB TVGAVARDAEGRLAAATSTGGMTAKRAGRVGDSPVIGAGTFADDGTCAISATGDGEAFLRLSVAHEIDARMRLRGESLRSAAEAVIGSDLEAIGGSGGLIAIDRDGAIVTPYNCEGMYRGWVLGSGERETAIY TVGAVARDAEGRLAAATSTGGMTAKRAGRVGDSPVIGAGTFADDGTCAISATGDGEAFLRLSVAHEIDARMRLRGESLRSAAEAVIGSDLEAIGGSGGLIAIDRDGAIVTPYNCEGMYRGWVLGSGERETAIYENLYFQ 8dqo-a1-m1-cA_8dqo-a1-m1-cB Crystal structure of Arabidopsis thaliana COSY Q8LF28 Q8LF28 1.9 X-RAY DIFFRACTION 49 0.982 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 436 437 8dqp-a1-m1-cB_8dqp-a1-m1-cA 8dqq-a1-m1-cA_8dqq-a1-m1-cB ATLEITDIALVQPSHQPLSNDQTLSLSHLDNDNNLHVSFRYLRVYSSSSESPSAVVSASLATALVHYYPLAGSLRRSASDNRFELLCSAGQSVPLVNATVNCTLESGFVERLVPDPTREEGMVNPCILQVTMFQCGGWVLGASIHHAICDGLGASLFFNAMAELARGATKISIEPVWDRERLLGPREKPWVGAPVRDFLSLDKDFDPYGQAIGDVKRDCFFVTDDSLDQLKAQLLEKSGLNFTTFEALGAYIWRAKVRAAKTEEKENVKFVYSINIRRLMNPPLPKGYWGNGCVPMYAQIKAGELIEQPIWKTAELIKQSKSNTSDEYVRSFIDFQELHHKDGINAGTGVTGFTDWRYLGHSTIDFGWGGPVTVLPLSNKLLGSMEPCFFLPYSTDAAAGSKKDSGFKVLVNLRESAMPEFKEAMDKFHKGEFALS ATLEITDIALVQPSHQPLSNDQTLSLSHLDNDNNLHVSFRYLRVYSSESPSAVVSASLATALVHYYPLAGSLRRSASDNRFELLCSAGQSVPLVNATVNCTLESVGYLDGPDPGFVERLVPDPTREEGMVNPCILQVTMFQCGGWVLGASIHHAICDGLGASLFFNAMAELARGATKISIEPVWDRERLLGPREKPWVGAPVRDFLSLDKDFDPYGQAIGDVKRDCFFVTDDSLDQLKAQLLEKSGLNFTTFEALGAYIWRAKVRAAKTEEKENVKFVYSINIRRLMNPPLPKGYWGNGCVPMYAQIKAGELIEQPIWKTAELIKQSKSNTSDEYVRSFIDFQELHHKDGINAGTGVTGFTDWRYLGHSTIDFGWGGPVTVLPLSNKLLGSMEPCFFLPYSSKKDSGFKVLVNLRESAMPEFKEAMDKFHKGEFALS 8dqu-a1-m6-cB_8dqu-a1-m1-cA Nanobody bound SARS-CoV-2 Nsp9 2.45003 X-RAY DIFFRACTION 47 1.0 9844 (Lama glama) 9844 (Lama glama) 126 127 8dqu-a1-m1-cB_8dqu-a1-m5-cA 8dqu-a1-m2-cB_8dqu-a1-m6-cA 8dqu-a1-m3-cB_8dqu-a1-m4-cA 8dqu-a1-m4-cB_8dqu-a1-m2-cA 8dqu-a1-m5-cB_8dqu-a1-m3-cA QVQLQESGGGLVQPGGSLRLSCAASGLAFSMYTMGWFRQAPGKEREFVAMIISSGDSTDYADSVKGRFTISRDNGKNTVYLQMDSLKPEDTAVYYCAAPKFRYYFSTSPGDFDSWGQGTQVTVSSA MQVQLQESGGGLVQPGGSLRLSCAASGLAFSMYTMGWFRQAPGKEREFVAMIISSGDSTDYADSVKGRFTISRDNGKNTVYLQMDSLKPEDTAVYYCAAPKFRYYFSTSPGDFDSWGQGTQVTVSSA 8dqu-a1-m6-cF_8dqu-a1-m6-cC Nanobody bound SARS-CoV-2 Nsp9 P0DTD1 P0DTD1 2.45003 X-RAY DIFFRACTION 102 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 74 78 8dqu-a1-m1-cF_8dqu-a1-m1-cC 8dqu-a1-m2-cF_8dqu-a1-m2-cC 8dqu-a1-m3-cF_8dqu-a1-m3-cC 8dqu-a1-m4-cF_8dqu-a1-m4-cC 8dqu-a1-m5-cF_8dqu-a1-m5-cC DNALAYYNTTKGGRFVLALLSDLQDLKWARFPKSDGTGTIYTELEPPCRFKYLYFIKGLNNLNRGMVLGSLAAT TDDNALAYYNTTKGGRFVLALLSDLQDLKWARFPKSDGTGTIYTELEPPCRFKYLYFIKGLNNLNRGMVLGSLAATVR 8dqv-a1-m1-cB_8dqv-a1-m1-cD The 1.52 angstrom CryoEM structure of the [NiFe]-hydrogenase Huc from Mycobacterium smegmatis - catalytic dimer (Huc2S2L) I7G634 I7G634 1.52 ELECTRON MICROSCOPY 101 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 322 322 7utd-a1-m1-cB_7utd-a1-m1-cD 7utd-a1-m1-cF_7utd-a1-m1-cH 7utd-a1-m1-cJ_7utd-a1-m1-cP 7utd-a1-m1-cL_7utd-a1-m1-cN 7uur-a1-m1-cD_7uur-a1-m1-cG 7uus-a1-m1-cB_7uus-a1-m1-cD 7uus-a1-m1-cF_7uus-a1-m1-cH 7uus-a1-m1-cJ_7uus-a1-m1-cP 7uus-a1-m1-cL_7uus-a1-m1-cN ASVLWFQGGACSGNTMSFLNADEPNVVDLIVDFGLDLLWHPSLGLELGNNAQKVFWDCAKGERPLDIFVFEGTVIEAPNGTGQMDMFAGRPMKDWVTDLAGAAQIVVAIGDCACFGGIPAMEPNPSGSTGLQFHKREKGGFLGPDFRSKMGLPVINVPGCPAHPDWITQILVALATGRAGDITLDDLHRPETFFKTFTQTGCTRVQFFEYKQSTLSFGEGTRTGCLFYEFGCRGPMTHSPCNRILWNRQSSKTRAGMPCLGCTEPEFPHFDLAPGTVFKTQKVSGMIPKEVPEGTDHLTYMGLAAAARIAAPQWSKEDMFVV ASVLWFQGGACSGNTMSFLNADEPNVVDLIVDFGLDLLWHPSLGLELGNNAQKVFWDCAKGERPLDIFVFEGTVIEAPNGTGQMDMFAGRPMKDWVTDLAGAAQIVVAIGDCACFGGIPAMEPNPSGSTGLQFHKREKGGFLGPDFRSKMGLPVINVPGCPAHPDWITQILVALATGRAGDITLDDLHRPETFFKTFTQTGCTRVQFFEYKQSTLSFGEGTRTGCLFYEFGCRGPMTHSPCNRILWNRQSSKTRAGMPCLGCTEPEFPHFDLAPGTVFKTQKVSGMIPKEVPEGTDHLTYMGLAAAARIAAPQWSKEDMFVV 8dsa-a1-m1-cB_8dsa-a1-m1-cC LRRC8A:C in MSP1E3D1 nanodisc Q80WG5 Q80WG5 3.48 ELECTRON MICROSCOPY 77 1.0 10090 (Mus musculus) 10090 (Mus musculus) 197 320 8ds9-a1-m1-cA_8ds9-a1-m1-cB 8ds9-a1-m1-cB_8ds9-a1-m1-cC 8dsa-a1-m1-cA_8dsa-a1-m1-cB PAYRILKPWWDVFTDYISIVMLMIAVFGGTLQVTQDKMICLPCKWVTKDSCNDSTGPTGIKYDLDRHQYNYVDAVCYENRLHWFAKYFPYLVLLHTLIFLACSNFWFKFDIVYRLYMRQTIIKVIKFALIICYTVYYVHNIKFDVDCTVDIESLTGYRTYRCAHPLATLFKILASFYISLVIFYGLICMYTLWWMLR PAYRILKPWWDVFTDYISIVMLMIAVFGGTLQVTQDKMICLPCKWVTKDSCNDSTGPTGIKYDLDRHQYNYVDAVCYENRLHWFAKYFPYLVLLHTLIFLACSNFWFKFPRTSSKLEHFVSILLKCFDSPWTTRALSEGVLDKKEGEQAKALFEKVKKFRTHVEEGDIVYRLYMRQTIIKVIKFALIICYTVYYVHNIKFDVDCTVDIESLTGYRTYRCAHPLATLFKILASFYISLVIFYGLICMYTLWWMLRRSLKKYSFESIREESSYSDIPDVKNDFAFMLHLIDQYDPLYSKRFAVFLSEVSENKLRQLNLNNEW 8dss-a1-m1-cA_8dss-a1-m1-cB X-ray crystal structure of Geobacillus stearothermophilus ComEA A0A0K9HI54 A0A0K9HI54 3.05 X-RAY DIFFRACTION 26 1.0 937593 (Geobacillus stearothermophilus ATCC 7953) 937593 (Geobacillus stearothermophilus ATCC 7953) 63 128 KTAVVDVKGAVANPGVYEVAADARVRDAIALAGGLTDEADETKVNLAAKVHDEMMIYVPKKGE KTAVVDVKGAVANPGVYEVAADARVRDAIALAGGLTDEADETKVNLAAKVHDEMMIYVPKKGEGMQVAINTATEEELMQLPGIGPAKANAIIAYREEHGPFRRVEDLLNVTGIGEKTLEKLKPYLLVP 8dt6-a1-m1-cA_8dt6-a1-m1-cC Crystal Structure of DNA Polymerase III beta subunit from Elizabethkingia anophelis A0A077EHW1 A0A077EHW1 2.35 X-RAY DIFFRACTION 19 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 371 381 MKFIVASGELQKALQTVSGVISGRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKESENGIGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVI MKFIVASGELQKALQTVSGVISGSQSRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKESENGIGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVIGLAGHHH 8dt6-a1-m1-cA_8dt6-a1-m1-cD Crystal Structure of DNA Polymerase III beta subunit from Elizabethkingia anophelis A0A077EHW1 A0A077EHW1 2.35 X-RAY DIFFRACTION 26 0.987 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 371 371 MKFIVASGELQKALQTVSGVISGRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKESENGIGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVI MKFIVASGELQKALQTVSGVISGSQSRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKEGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVIGL 8dt6-a1-m1-cB_8dt6-a1-m1-cC Crystal Structure of DNA Polymerase III beta subunit from Elizabethkingia anophelis A0A077EHW1 A0A077EHW1 2.35 X-RAY DIFFRACTION 123 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 371 381 MKFIVASGELQKALQTVSGVISSRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVIGLAGHHH MKFIVASGELQKALQTVSGVISGSQSRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKESENGIGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVIGLAGHHH 8dt6-a1-m1-cD_8dt6-a1-m1-cC Crystal Structure of DNA Polymerase III beta subunit from Elizabethkingia anophelis A0A077EHW1 A0A077EHW1 2.35 X-RAY DIFFRACTION 70 1.0 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 371 381 MKFIVASGELQKALQTVSGVISGSQSRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKEGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVIGL MKFIVASGELQKALQTVSGVISGSQSRPILENFLFELENDNLKITASDGETTLITSIPVKSENNGRMAVPAKMFLDVIKSFGDQPLTFVEKESENGIGSLLEILDEKDNYFVALDNAEDYPELPEFDASKSVKIQAGILSEALVNTLFATSNDSLRPVMTGVLFQFNENEANFVSTDSHRLVVYNRKDVMNVDNIEFIMPKKPLAIIKNILSNTDDEVLIEFNENMAKFSFQDNIWICRLIDGKYPNYTAVIPKENPNVLTINRNLLLSSIRRASIFSNKSTNQVRFKLSGNLLHLHAEDTEYANKADMQIPCEYNGEDINIGFSSKFLTEMLSVLGSDDITMKMSQPNRPGIIEPVDGLEENESILMLSMPVIGLAGHHH 8dtc-a1-m1-cA_8dtc-a1-m1-cB Crystal Structure of Glucokinase with bound glucose from Acanthamoeba castellanii L8GT25 L8GT25 2.25 X-RAY DIFFRACTION 135 1.0 5755 (Acanthamoeba castellanii) 5755 (Acanthamoeba castellanii) 374 374 LVDIGEEARPALLHWKDRFKESLKYFVGVDIGGTNTRVALDTGSSDEPYVQIAKFRASSSKHIVEGLQQVARQVADILGVPASGACLAGAGRIGDDGLSLDITNYPGTPADRTLTSDQLPTYLFPADATHYINDLESTCYGLKSLNESNQLASFFKPLWSTSDTVTMKRANYLVLAVGTGLGIALLTSLGRGSRNIPLQVMPMEFGHALYSPVTDPAKKDEEDRLAAYLSKTLYSGKNAIEYEDIVSGRGVLAVYQWITAEHKEAAKYESAEEISAAAFREDPCPFATKALLIHYRFLMRVAKNLCVGLQAKGMFLAGDNQVVNNPFFEKYLAEMRAEFLDHPKPDWIDKVELYTQTQSFNINLHGALYYARTD LVDIGEEARPALLHWKDRFKESLKYFVGVDIGGTNTRVALDTGSSDEPYVQIAKFRASSSKHIVEGLQQVARQVADILGVPASGACLAGAGRIGDDGLSLDITNYPGTPADRTLTSDQLPTYLFPADATHYINDLESTCYGLKSLNESNQLASFFKPLWSTSDTVTMKRANYLVLAVGTGLGIALLTSLGRGSRNIPLQVMPMEFGHALYSPVTDPAKKDEEDRLAAYLSKTLYSGKNAIEYEDIVSGRGVLAVYQWITAEHKEAAKYESAEEISAAAFREDPCPFATKALLIHYRFLMRVAKNLCVGLQAKGMFLAGDNQVVNNPFFEKYLAEMRAEFLDHPKPDWIDKVELYTQTQSFNINLHGALYYARTD 8dtl-a1-m1-cA_8dtl-a1-m1-cB Cryo-EM structure of insulin receptor (IR) bound with S597 peptide P15208 P15208 5.4 ELECTRON MICROSCOPY 39 1.0 10090 (Mus musculus) 10090 (Mus musculus) 741 741 GEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDNCPATVVERCWTHSHCQKVCPTICKSHGCTAEGLCCHKECLGNCSEPDDPTKCVACRNFYLDGQCVETCPPPYYHFQDWRCVNFSFCQDLHFKYVIHNNKCIPECPSGYTMNSLMCTPCLGPCPKVCQILEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGFLKIRRSYALVSLSFFRKLHLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIAQASCENELLKFSFIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPQRSHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVYWERQAEDSELFELDYCLKGLKLPSREEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDSPDERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRVRATSLAGNGSWTEPTYFYV GEVCPGMDIRNNLTRLHELENCSVIEGHLQILLMFKTRPEDFRDLSFPKLIMITDYLLLFRVYGLESLKDLFPNLTVIRGSRLFFNYALVIFEMVHLKELGLYNLMNITRGSVRIEKNNELCYLATIDWSRILDSVEDNYIVLNKDNCPATVVERCWTHSHCQKVCPTICKSHGCTAEGLCCHKECLGNCSEPDDPTKCVACRNFYLDGQCVETCPPPYYHFQDWRCVNFSFCQDLHFKYVIHNNKCIPECPSGYTMNSLMCTPCLGPCPKVCQILEGEKTIDSVTSAQELRGCTVINGSLIINIRGGNNLAAELEANLGLIEEISGFLKIRRSYALVSLSFFRKLHLIRGETLEIGNYSFYALDNQNLRQLWDWSKHNLTITQGKLFFHYNPKLCLSEIHKMEEVSGTKGRQERNDIAQASCENELLKFSFIRTSFDKILLRWEPYWPPDFRDLLGFMLFYKEAPYQNVVVDIDPPQRSHPGWLMRGLKPWTQYAIFVKTLVTFSDERRTYGAKSDIIYVQTDATNPSVPLDPISVSNSSSQIILKWKPPSDPNGNITHYLVYWERQAEDSELFELDYCLKGLKLPSREEHRPFEKVVNKESLVISGLRHFTGYRIELQACNQDSPDERCSVAAYVSARTMPEAKADDIVGPVTHEIFENNVVHLMWQEPKEPNGLIVLYEVSYRRYGDEELHLCVSRKHFALERGCRLRGLSPGNYSVRVRATSLAGNGSWTEPTYFYV 8dtn-a1-m1-cA_8dtn-a1-m1-cG The complex of nanobody 6101 with BCL11A ZF6 2.199 X-RAY DIFFRACTION 30 1.0 9844 (Lama glama) 9844 (Lama glama) 114 114 8dtn-a1-m1-cC_8dtn-a1-m1-cE RVQLVESGGGLVQAGGSLRLSCAASGFIFDSYAGWYRQAPGKEELVAAITSSGSSTYYADSVKGRFTISRDNAKNTVYLQNSLKPEDTAVYYCAALDYVIDGYWGQGTQVTVSS RVQLVESGGGLVQAGGSLRLSCAASGFIFDSYAGWYRQAPGKEELVAAITSSGSSTYYADSVKGRFTISRDNAKNTVYLQNSLKPEDTAVYYCAALDYVIDGYWGQGTQVTVSS 8dtn-a1-m1-cE_8dtn-a1-m1-cG The complex of nanobody 6101 with BCL11A ZF6 2.199 X-RAY DIFFRACTION 12 1.0 9844 (Lama glama) 9844 (Lama glama) 114 114 8dtn-a1-m1-cA_8dtn-a1-m1-cC RVQLVESGGGLVQAGGSLRLSCAASGFIFDSYAGWYRQAPGKEELVAAITSSGSSTYYADSVKGRFTISRDNAKNTVYLQNSLKPEDTAVYYCAALDYVIDGYWGQGTQVTVSS RVQLVESGGGLVQAGGSLRLSCAASGFIFDSYAGWYRQAPGKEELVAAITSSGSSTYYADSVKGRFTISRDNAKNTVYLQNSLKPEDTAVYYCAALDYVIDGYWGQGTQVTVSS 8du1-a2-m1-cB_8du1-a2-m1-cD Crystal Structure of NAD bound dTDP-glucose 4,6-dehydratase from Elizabethkingia anophelis A0A077ELH2 A0A077ELH2 1.85 X-RAY DIFFRACTION 111 0.989 1338011 (Elizabethkingia anophelis NUHP1) 1338011 (Elizabethkingia anophelis NUHP1) 359 359 8du1-a1-m1-cC_8du1-a1-m1-cA HMKNIIITGGAGFIGSHVVREFVIKNPEITIINLDALTYAGNLENLKDIENFPNYVFEKADITKPEELRKVFEKYNPDAVVHLAAESHVDRSITDPNAFINTNVIGTANLLNLCREFWTLNPEHTHGRFPNEPRTNLFYHVSTDEVYGSLGETGFFLETTAYDPQSPYSASKAASDHLVRAYGNTYGMPFIVSNCSNNYGPNHFPEKLIPLCISNILNEKPLPIYGDGKYTRDWLYVIDHARAIHQIFNEAKTGETYNIGGFNEWQNIDLVKELIKQLDAKLGKPEGHSEKLITFVKDRPGHDKRYAIDATKLNKDLGWKPSVTFEEGLAKTIDWYLDNKEWLENVTSGDYQKYYENQY HHHHMKNIIITGGAGFIGSHVVREFVIKNPEITIINLDALTYAGNLENLKDIENFPNYVFEKADITKPEELRKVFEKYNPDAVVHLAAESHVDDPNAFINTNVIGTANLLNLCREFWTLNPEHTHGRFPNEPRTNLFYHVSTDEVYGSLGETGFFLETTAYDPQSPYSASKAASDHLVRAYGNTYGMPFIVSNCSNNYGPNHFPEKLIPLCISNILNEKPLPIYGDGKYTRDWLYVIDHARAIHQIFNEAKTGETYNIGGFNEWQNIDLVKELIKQLDAKLGKPEGHSEKLITFVKDRPGHDKRYAIDATKLNKDLGWKPSVTFEEGLAKTIDWYLDNKEWLENVTSGDYQKYYENQYS 8du5-a1-m1-cA_8du5-a1-m1-cB Murine sialidase-1 (NEU1) O35657 O35657 3.5 X-RAY DIFFRACTION 41 1.0 10090 (Mus musculus) 10090 (Mus musculus) 366 366 DFSLVQPLVTMEQLLWVSGKQIGSVDTFRIPLITATPRGTLLAFAEARKKSASDEGAKFIAMRRSTDQGSTWSSTAFIVDDGEASDGLNLGAVVNDVDTGIVFLIYTLCAHKVNCQVASTMLVWSKDDGISWSPPRNLSVDIGTEMFAPGPGSGIQKQREPGKGRLIVCGHGTLERDGVFCLLSDDHGASWHYGTGVSGIPFGQPKHDHDFNPDECQPYELPDGSVIINARNQNNYHCRCRIVLRSYDACDTLRPRDVTFDPELVDPVVAAGALATSSGIVFFSNPAHPEFRVNLTLRWSFSNGTSWQKERVQVWPGPSGYSSLTALENSTDGKKQPPQLFVLYEKGLNRYTESISMVKISVYGTL DFSLVQPLVTMEQLLWVSGKQIGSVDTFRIPLITATPRGTLLAFAEARKKSASDEGAKFIAMRRSTDQGSTWSSTAFIVDDGEASDGLNLGAVVNDVDTGIVFLIYTLCAHKVNCQVASTMLVWSKDDGISWSPPRNLSVDIGTEMFAPGPGSGIQKQREPGKGRLIVCGHGTLERDGVFCLLSDDHGASWHYGTGVSGIPFGQPKHDHDFNPDECQPYELPDGSVIINARNQNNYHCRCRIVLRSYDACDTLRPRDVTFDPELVDPVVAAGALATSSGIVFFSNPAHPEFRVNLTLRWSFSNGTSWQKERVQVWPGPSGYSSLTALENSTDGKKQPPQLFVLYEKGLNRYTESISMVKISVYGTL 8dua-a1-m1-cB_8dua-a1-m1-cF SIV E660.CR54 SOS-2P Env Trimer with ITS92.02 P12492 P12492 4.32 ELECTRON MICROSCOPY 31 1.0 11723 (Simian immunodeficiency virus) 11723 (Simian immunodeficiency virus) 91 91 8dua-a1-m1-cA_8dua-a1-m1-cB 8dua-a1-m1-cA_8dua-a1-m1-cF VWGTKNLQTRVTAIEKYLKDQAQLNSWGCAFRQVCCTTVPWPNETLVPNWSNMTWQEWERQVDFLEANITQLLEEAQIQQEKNMYELQKLN VWGTKNLQTRVTAIEKYLKDQAQLNSWGCAFRQVCCTTVPWPNETLVPNWSNMTWQEWERQVDFLEANITQLLEEAQIQQEKNMYELQKLN 8duj-a1-m1-cA_8duj-a1-m1-cG Global map in C1 of RyR1 particles in complex with ImperaCalcin P11716 P11716 3.7 ELECTRON MICROSCOPY 157 0.987 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 3823 3933 QFLRTDDEVVLQCSAQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANTGHRTLLYGHAILLRHAHSRMYLSCLTTSRSMTDKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLQVDASFMQTLWNMNPICYVTGGHVLRLFHGECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPPHLVGPSRCLSHTDFVPIVLPPHLERIREKLAENIHELWALTRIHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRLNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMHSSLKCSNCYMVWGGDFVHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPRHGLPGVGVTTSLRPPHHFSPPCFVAALPPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDDCPLPEDIRQDLQDFHQDLLAHCGIQPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGSGLLAAIEEAIRISEDPRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYEREEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEEERTEKKKTRKISQTAQTYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRFAFGFLQQLLRWMDISQEFIEIKFFAKILLPLINQYFTNHEKEMITSLFCKLAALAVVNCLHILAREIVKAGLRSFFESASEDIEKMVEGQNLTYTTVALLPVLTTLFQHIAQDVQVSCYRTLCSIYSLGTPALGECLARLPMLCSYLPRWWSDHLNSLLGNILRIIVNNMKRLAVFAQPLHSHFIPTIGRLRKRAGKVVAEEEQLRLEAKAEAEEGELLVRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQVATLKKMLPIGLNQDLIMLAKTRYALKDTDEEVREEKIVRRVQEVSAVLYHLEQTEHSKQRRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISETAREAATALAALLWAVVARWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQL VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTLQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRLPIEAVILSLQDLIGYFEPPQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPPHLVGPSRCLSHTDFVPIVLPPHLERIREKLAENIHELWALTRIHPCLVNFHSLPEPERNYNLQMSGETLKTLLALGCHVGMADEKAEDNLKKTKLPKTYMMSNGYKPAPLDLSHVRLTPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMHSSLKCSNCYMVWGGDFVHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPRHGLPGVGVTTSLRPPHHFSPPCFVAALPPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDDCPLPEDIRQDLQDFHQDLLAHCGIQLPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGSGLLAAIEEAIRISEDPNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEEERTEKKKTRKISQTAQTYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRIEKRFAFGFLQQLLRWMDISQEFIAHLEAHEQEIKFFAKILLPLINQYFTNHCLYFLSNKEKEMITSLFCKLAALVRHVVNCLHILARKAGLRSFFESASEDIEKMVENLRQNLTYTTVALLPVLTTLFQHIAQHDVQVSCYRTLCSIYSLRPALGECLARLAARLMADIGGLAPHVIEITLPMLCSYLPRWSDHLNSLLGNILRIIVNNRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEIVATLKKMLPIGLNMCDQDLIMLAKTRYALKDTDEEVREFLQNDPEKIVRRVQEVSAVLYHLEQTEHSKQRRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISETAREAATALAALLWAVVARWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 8dve-a1-m1-cJ_8dve-a1-m1-cG RyR1 in presence of IpCa-T26E phosphomimetic and activating ligands P11716 P11716 3.84 ELECTRON MICROSCOPY 170 1.0 9986 (Oryctolagus cuniculus) 9986 (Oryctolagus cuniculus) 3943 3944 8duj-a1-m1-cJ_8duj-a1-m1-cG 8dve-a1-m1-cA_8dve-a1-m1-cG 8dve-a1-m1-cD_8dve-a1-m1-cA 8dve-a1-m1-cD_8dve-a1-m1-cJ VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPIVLPPHLERIREKLAENIHELWALTRILPEPERNYNLQMSGETLKTLLALPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSPPCFVAALPAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDDCPLPEDIRQDLQDFHQDLLAHCGIQLPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEEERTEKKKTRKISQTAQTYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRIEKRFAFGFLQQLLRWMDISQEFIAHLEAHEQEIKFFAKILLPLINQYFTNHCLYFLSNKEKEMITSLFCKLAALVRHVVNCLHILARKAGLRSFFESASEDIEKMVENLRQNLTYTTVALLPVLTTLFQHIAQHDVQVSCYRTLCSIYSLRPALGECLARLAARLMADIGGLAPHVIEITLPMLCSYLPRWSDHLNSLLGNILRIIVNNRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEIVATLKKMLPIGLNMCDQDLIMLAKTRYALKDTDEEVREFLQNDPEKIVRRVQEVSAVLYHLEQTEHSKQRRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISETAREAATALAALLWAVVARWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNETWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS VQFLRTDDEVVLQCSATVLKEQLKLCLAAEGFGNRLCFLEPTSNAQNVPPDLAICCFTLEQSLSVRALQEMLANGHRTLLYGHAILLRHAHSRMYLSCLTTSRKLAFDVGLQEDATGEACWWTMHPASKQRSEGEKVRVGDDLILVSVSSERYLHLSTASGELQVDASFMQTLWNMNPICSCCEEGYVTGGHVLRLFHGECLTISAADSDDQRRLVYYEGGAVCTHARSLWRLEPLRISWSGSHLRWGQPLRIRHVTTGRYLALTEDQGLVVVDACKAHTKATSFCFRVSKEEGMGPPEIKYGESLCFVQHVASGLWLTYAALKKKAILHQEGHMDDALFLTRCQQEESQAARMIHSTAGLYNQFIKGLDSFSGKPRPALPIEAVILSLQDLIGYFEPPSEELQHEEKQSKLRSLRNRQSLFQEEGMLSLVLNCIDRLNVYTTAAHFAEYAGEEAAESWKEIVNLLYELLASLIRGNRANCALFSTNLDWVVSKLDRLEASSGILEVLYCVLIESPEVLNIIQENHIKSIISLLDKHGRNHKVLDVLCSLCVCNGVAVRSNQDLITENLLPGRELLLQTNLINYVTSIRPNIFVGRAEGSTQYGKWYFEVMVDEVVPFLTAQATHLRVGWALTEGYSPYPGGGEGWGGNGVGDDLYSYGFDGLHLWTGHVARPVTSPGQHLLAPEDVVSCCLDLSVPSISFRINGCPVQGVFEAFNLDGLFFPVVSFSAGVKVRFLLGGRHGEFKFLPPPGYAPCHEAVLPRERLRLEPIKEYRREGPRGPHLVGPSRCLSHTDFVPIVLPPHLERIREKLAENIHELWALTRILPEPERNYNLQMSGETLKTLLALPAQTTLVDRLAENGHNVWARDRVAQGWSYSAVQDIPARRNPRLVPYRLLDEATKRSNRDSLCQAVRTLLGYGYNIEPDRVRIFRAEKSYTVQSGRWYFEFEAVTTGEMRVGWARPELRPDVELGADELAYVFNGHRGQRWHLGSEPFGRPWQSGDVVGCMIDLTENTIIFTLNGEVLMSDSGSETAFREIEIGDGFLPVCSLGPGQVGHLNLGQDVSSLRFFAICGLQEGFEPFAINMQRPVTTWFSKSLPQFEPVPPEHPHYEVARMDGTVDTPPCLRLAHRTWGSQNSLVEMLFLRLSLPVQFHQHFRDDPEIILNTTTYYYSVRVFAGQEPSCVWVGWVTPDYHQHDMNFDLSKVRAVTVTMGDEQGNVHSSLKCSNCYMVWGGDFVHTDLVIGCLVDLATGLMTFTANGKESNTFFQVEPNTKLFPAVFVLPTHQNVIQFELGKQKNIMPLSAAMFLSERKNPAPQCPPRLEVQMLMPVSWSRMPNHFLQVETRRAGERLGWAVQCQDPLTMMALHIPEENRCMDILELSERLDLQRFHSHTLRLYRAVCALGNNRVAHALCSHVDQAQLLHALEDAHLPGPLRAGYYDLLISIHLESACRSRRSMLSEYIVPLTPETRAITLFPPRHGLPGVGVTTSLRPPHHFSPPCFVAALPAPARLSPAIPLEALRDKALRMLGEAVRDGGQHARDPVGGSVEFQFVPVLKLVSTLLVMGIFGDEDVKQILKMIEPEVFTEEEGLLQMKLPESVKLQMCNLLEYFCDQELQHRVESLAAFAERYVDKLQANQRSRYALLMRAFTMSAAETARRTREFRSPPQEQINMLLHFKDDCPLPEDIRQDLQDFHQDLLAHCGIQLPQSLQELVSHMVVRWAQEDYVQSPELVRAMFSLLHRQYDGLGELLRALPRAYTISPSSVEDTMSLLECLGQIRSLLIVQMGPQEENLMIQSIGNIMNNKVFYQHPNLMRALGMHETVMEVMVNVLGEIRFPKMVTSCCRFLCYFCRISRQNQRSMFDHLSYLLENSGIGLGMQGSTPLDVAAASVIDNNELALALQEQDLEKVVSYLAGCGLQSCPMLLAKGYPDIGWNPCGGERYLDFLRFAVFVNGESVEENANVVVRLLIRKPECFGPALRGEGGSGLLAAIEEAIRISEDPARDNRVHLGHAIMSFYAALIDLLGRCAPEMHLIQAGKGEALRIRAILRSLVPLDDLVGIISLPLQIPVQPKMSASFVPDHKASMVLFLDRVYGIENQDFLLHVLDVGFLPDMRAAASLDTATFSTTEMALALNRYLCLAVLPLITKCAPLFAGTEHRAIMVDSMLHTVYRLSRGRSLTKAQRDVIEDCLMALCRYIRPSMLQHLLRRLVFDVPILNEFAKMPLKLLTNHYERCWKYYCLPTGWANFGVTSEEELHLTRKLFWGIFDSLAHKKYDQELYRMAMPCLCAIAPEKLDSFINKFAEYTHEKWAFDKIQNNWSYGENVDEELKTHPMLRPYKTFSEKDKEIYRWPIKESLKAMIAWEWTIEKAREGEEERTEKKKTRKISQTAQTYDPREGYNPQPPDLSGVTLSRELQAMAEQLAENYHNTWGRKKKQELEAKGGGTHPLLVPYDTLTAKEKARDREKAQELLKFLQMNGYAVTRIEKRFAFGFLQQLLRWMDISQEFIAHLEAHEQEIKFFAKILLPLINQYFTNHCLYFLSNKEKEMITSLFCKLAALVRHVVNCLHILARKAGLRSFFESASEDIEKMVENLRQNLTYTTVALLPVLTTLFQHIAQHDVQVSCYRTLCSIYSLRPALGECLARLAARLMADIGGLAPHVIEITLPMLCSYLPRWSDHLNSLLGNILRIIVNNRLAVFAQPIVSRARPELLHSHFIPTIGRLRKRAGKVVAEEEQLRDEFSVLCRDLYALYPLLIRYVDNNRAHWLTEPNANAEELFRMVGEIFIYWSKSHNFKREEQNFVVQNEIVATLKKMLPIGLNMCDQDLIMLAKTRYALKDTDEEVREFLQNDPEKIVRRVQEVSAVLYHLEQTEHSKQRRRAVVACFRMTPLYNLPTHRACNMFLESYKAAWILTEDHSFEDRMIDDLSKAGKKPDPLHQLVLHFSRTALTEKSKLDEDYLYMAYADIMAKSCHLEEVSFEEKEMEKQRLLYQQSRLHTRGAAEMVLQMISACKGETGAMVSSTLKLGISILNGGNAEVQQKMLDYLKDKKEVGFFQSIQALMQTCSVLDLNAFERQNKAEGLGMVNEDGTVINRQNGEKVMADDEFTQDLFRFLQLLCEGHNNDFQNYLRTQTGNTTTINIIICTVDYLLRLQESISDFYWYYSGKDVIEEQGKRNFSKAMSVAKQVFNSLTEYIQGPCTGNQQSLAHSRLWDAVVGFLHVFAHMMMKLAQDSSQIELLKELLDLQKDMVVMLLSLLEGNVVNGMIARQMVDMLVESSSNVEMILKFFDMFLKLKDIVGSEAFQDYVTDPRGLISKKDFQKAMDSQKQFTGPEIQFLLSCSEADENEMINFEEFANRFQEPARDIGFNVAVLLTNLSEHVPHDPRLRNFLELAESILEYFRPYLGRIEIMGASRRIERIYFEISETNRAQWEMPQVKESKRQFIFDVVNEGGEAEKMELFVSFCEDTIFEMQIAAQISETAREAATALAALLWAVVARWGELEVQRVKFLNYLSRNFYTLRFLALFLAFAINFILLFYKVSDSPPNMVYYFLEESTGYMEPALWCLSLLHTLVAFLCIIGYNCLKVPLVIFKREKELARKLEFDGLYITEQPGDDDVKGQWDRLVLNTPSFPSNYWDKFVKRKVLDKHGDIFGRERIAELLGMDLASLEITAHNERTWLMSIDVKYQIWKFGVIFTDNSFLYLGWYMVMSLLGHYNNFFFAAHLLDIAMGVKTLRTILSSVTHNGKQLVMTVGLLAVVVYLYTVVAFNFFRKFYNKSEDEDEPDMKCDDMMTCYLFHMYVGVRAGGGIGDEIEDPAGDEYELYRVVFDITFFFFVIVILLAIIQGLIIDAFGELRDQQEQVKEDMETKCFICGIGSDYFDTTPHGFETHTLEEHNLANYMFFLMYLINKDETEHTGQESYVWKMYQERCWDFFPAGDCFRKQYEDQLS 8dxs-a1-m1-cA_8dxs-a1-m1-cC Cryo-EM structure of RBD-directed neutralizing antibody P2B4 in complex with prefusion SARS-CoV-2 spike glycoprotein P0DTC2 P0DTC2 3.76 ELECTRON MICROSCOPY 268 0.997 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1021 1033 8dxs-a1-m1-cA_8dxs-a1-m1-cB PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8dya-a1-m1-cB_8dya-a1-m1-cC Structure of the SARS-CoV-2 spike glycoprotein S2 subunit A0A8B6RDW3 A0A8B6RDW3 3.67 ELECTRON MICROSCOPY 87 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 388 388 8dya-a1-m1-cA_8dya-a1-m1-cB 8dya-a1-m1-cA_8dya-a1-m1-cC VACSNNSIAIPTNFTISVTTEILPVSMTKTSVNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPSKRSFIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLNDILSRLDKPEAEVQIDRLITCRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKE VACSNNSIAIPTNFTISVTTEILPVSMTKTSVNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPSKRSFIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTICSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLNDILSRLDKPEAEVQIDRLITCRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDSFKE 8dyu-a1-m1-cB_8dyu-a1-m1-cC Structure of human cytoplasmic dynein-1 bound to two Lis1 proteins P43034 P43034 4.0 ELECTRON MICROSCOPY 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 306 306 PKEWIPRPPEKYALSGHRSPVTRVIFHPVFSVMVSASEDATIKVWDYETGDFERTLKGHTDSVQDISFDHSGKLLASCSADMTIKLWDFQGFECIRTMHGHDHNVSSVAIMPNGDHIVSASRDKTIKMWEVQTGYCVKTFTGHREWVRMVRPNQDGTLIASCSNDQTVRVWVVCKAELREHEHVVECISWAPESSYSSISEATGPFLLSGSRDKTIKMWDVSTGMCLMTLVGHDNWVRGVLFHSGGKFILSCADDKTLRVWDYKNKRCMKTLNAHEHFVTSLDFHKTAPYVVTGSVDQTVKVWECR PKEWIPRPPEKYALSGHRSPVTRVIFHPVFSVMVSASEDATIKVWDYETGDFERTLKGHTDSVQDISFDHSGKLLASCSADMTIKLWDFQGFECIRTMHGHDHNVSSVAIMPNGDHIVSASRDKTIKMWEVQTGYCVKTFTGHREWVRMVRPNQDGTLIASCSNDQTVRVWVVCKAELREHEHVVECISWAPESSYSSISEATGPFLLSGSRDKTIKMWDVSTGMCLMTLVGHDNWVRGVLFHSGGKFILSCADDKTLRVWDYKNKRCMKTLNAHEHFVTSLDFHKTAPYVVTGSVDQTVKVWECR 8dzi-a1-m1-cE_8dzi-a1-m1-cA Structure of SARS-CoV-2 Omicron BA.1.1.529 Spike trimer with one RBD down in complex with the Fab fragment of human neutralizing antibody MB.02 P0DTC2 P0DTC2 3.5 ELECTRON MICROSCOPY 312 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1074 1080 8dzi-a1-m1-cA_8dzi-a1-m1-cC PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVISTKRFDNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDHKESEFRVYSSANNCTFEYVSQPFLMDLENFKNLREFVFKNIDGYFKIYSKHTPIIVREPEDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNLAPFFTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLAIKQYGDCRDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS TTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVISGTKRFDNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDHKNNKESEFRVYSSANNCTFEYVSQPFLMDLENFKNLREFVFKNIDGYFKIYSKHTPIIVREPEDLPQGFSALEPLVDLPIGINITRFQTLLALHRSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNLAPFFTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAITWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQYGDCLDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8e0l-a1-m1-cC_8e0l-a1-m1-cB Homotrimeric variant of tcTRP9, BGL06 2.1 X-RAY DIFFRACTION 42 1.0 32630 (synthetic construct) 32630 (synthetic construct) 162 164 8e0l-a1-m1-cA_8e0l-a1-m1-cB 8e0l-a1-m1-cC_8e0l-a1-m1-cA SDDLLLKLLELLVEQARVSAEFARRQGDEKMLEEVARKAEEVARKAEEIARKARKEGNLELALKALEILVRAAHVLAEIARERGNEELLKKAWKLAKEALRQVKEIAEQAQKEGNLELAIIALHISVRIAEVLLETRPDDREEIRKQQEEFEELIKRLEKQV EGSDDLLLKLLELLVEQARVSAEFARRQGDEKMLEEVARKAEEVARKAEEIARKARKEGNLELALKALEILVRAAHVLAEIARERGNEELLKKAWKLAKEALRQVKEIAEQAQKEGNLELAIIALHISVRIAEVLLETRPDDREEIRKQQEEFEELIKRLEKQV 8e0m-a4-m1-cJ_8e0m-a4-m1-cK Homotrimeric variant of tcTRP9, BGL15 4 X-RAY DIFFRACTION 51 0.988 32630 (synthetic construct) 32630 (synthetic construct) 169 169 8e0m-a1-m1-cA_8e0m-a1-m1-cB 8e0m-a1-m1-cC_8e0m-a1-m1-cB 8e0m-a2-m1-cD_8e0m-a2-m1-cF 8e0m-a2-m1-cE_8e0m-a2-m1-cF 8e0m-a3-m1-cG_8e0m-a3-m1-cH 8e0m-a4-m1-cL_8e0m-a4-m1-cJ 8e0m-a4-m1-cL_8e0m-a4-m1-cK KEKIEKLVEELIRHTEELRELLEKLVKHGGASEEYLLELLENLVRLAHVIAEVARGNEELLEEAARLAEEAARQAEELAREARREGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAERLAREALRQVREISKRLQKEGNIELALKANRLLIDALRVLVRIMRHR EKIEKLVEELIRHTEELRELLEKLVKHGGASEEYLLELLENLVRLAHVIAEVAREQGNEELLEEAARLAEEAARQAEELAREARREGNLELALKALQILVNAAYVLAEIARDGNEELLEKAERLAREALRQVREISKRLQKEGNIELALKANRLLIDALRVLVRIMRHR 8e0n-a2-m1-cE_8e0n-a2-m1-cD Homotrimeric variant of tcTRP9, BGL18 3 X-RAY DIFFRACTION 65 0.994 32630 (synthetic construct) 32630 (synthetic construct) 169 170 8e0n-a1-m1-cA_8e0n-a1-m1-cC 8e0n-a1-m1-cB_8e0n-a1-m1-cA 8e0n-a1-m1-cB_8e0n-a1-m1-cC 8e0n-a2-m1-cD_8e0n-a2-m1-cF 8e0n-a2-m1-cE_8e0n-a2-m1-cF GSPRLVLRALENMVRAAHTLAEIARDNGNEEWLERAARLAEEVARRAEELAREARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNFELALEALEILNEAARVLARIAHHRGNQELLEKAWRLTHRSAKWSREIAEQAR SPRLVLRALENMVRAAHTLAEIARDNGNEEWLERAARLAEEVARRAEELAREARKEGNLELALKALQILVNAAYVLAEIARDRGNEELLEKAARLAEEAARQAEEIARQARKEGNFELALEALEILNEAARVLARIAHHRGNQELLEKAWRLTHRSAKWSREIAEQARKE 8e0q-a1-m1-cA_8e0q-a1-m1-cB Structure of the human UBR5 HECT-type E3 ubiquitin ligase in a C2 symmetric dimeric form O95071 O95071 2.66 ELECTRON MICROSCOPY 520 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1689 1689 8d4x-a1-m1-cB_8d4x-a1-m1-cA 8ewi-a1-m1-cA_8ewi-a1-m1-cB 8ewi-a1-m1-cC_8ewi-a1-m1-cD MTSIHFVVHPLPGTEDQLNDRLREVSEKLNKYNLNSHPPLNVLEQATIKQCVVGPNHAAFLLEDGRVCRIGFSVQPDRLSPVSLGEDLQWWPDKDGTKFICIGALYSELLAVSSKGELYQWKWSESEPYRNAQNPSLHHPRATFLGLTNEKIVLLSANSIRATVATENNKVATWVDETLSSVASKLEHTAQTYSELQGERIVSLHCCALYTCAQLENSLYWWGVVPFSQRKKMLEKARAKNKPLYHAGAVAFSISAGIPKVGVLMESVWNMNDSCRFQLRSPESLKNEEQWSLREVVFVEDVTPKVPDCFQRTPKKLCIPEKTEILAVNVDSKGVHAVLKTGNWVRYCIFDLATGKAEQENNFPTSSIAFLGQNERNVAIFTAGQESPIILRDGNGTIYPMAKDCMGGIRDPDWLDLPPISSLGMGVHSLINLPANSTIKKKAAVIIMAVEKQTLMQHILRCDYEACRQYLMNLEQAVVLEQNLQMLQTFISHRCDGNRNILHACVSVCFPTSNKVESKDRKANAHFILKLLCDSVVLQPYLRELLSAKDARGMTPFMSAVSGRAYPAAITILETAQKIAKAEISSSEKEEDVFMGMVCPSGTNPDDSPLYVLCCNDTCSFTWTGAEHINQDIFECRTCGLLESLCCCTECARVCHKGHDCKLKRTSPTAYCDCWEKCKCKTLIAGQKSARLDLLYRLLTATNLVTLPNSRGEHLLLFLVQTVARQTVEHCQYRPPRIREDSDMPDHDLEPPRFAQLALERVLQDWNALKSMIMFGSQENKDPLSASSRIGHLLPEEQVYLNQQSGTIRLDCFTHCLIVKCTADILLLDTLLGTLVKELQNKYTPGRREEAIAVTMRFLRSVARVFVILSVEMASSKKKNNFIPQPIGKCKRVFQALLPYAVEELCNVAESLIVPVRMGIARPTAPFTLASTSIDAMQGSEELFSVEPLPPRPSSMLDEPLERTTNSSHANGAAQAPRSMQWAVRNNASSYLTSASSLARAYSIVIRQISDLMGLIPKYNHLVYSQIPAAVKLTYQDAVNLQNYVEEKLIPTWNWMVSIMDSTEAQLRYGSALASAGDPGHPNHPLHASQNSARRMSARGDFLNYALSLMRSHNDEHSDVLPVLDVCSLKHVAYVFQALIYWIKAMNQQTTETGQNHPFFRRSDSMTFLGCIPPNPFEVPLAEAIPLADQPHLLQPNARKEDLFGRPSQGLYSSSASSGKCLMEVTVDRNCLEVLPTKMSPPLTSFRPQCSFMGMVISHDMLLGRWRLSLELFGRVFMEDVGAEPGSILTELGGFEVKESKFRREMEKLRNQQSRDLSLEVDRDRDLLIQQTMRQLNNHFGRRCATTPMAVHRVKVTFKDEPGEGSGVARSFYTAIAQAFLSNEKLPNLECIQNDNAPLFYQPGKRGFYTPRPGKNTEARLNCFRNIGRILGLCLLQNELCPITLNRHVIKVLLGRKVNWHDFAFFDPVMYESLRQLILASQSSDADAVFSAMDLAFAIDLCKEEGGGQVELIPNGVNIPVTPQNVYEYVRKYAEHRMLVVAEQPLHAMRKGLLDVLPKNSLEDLTAEDFRLLVNGCGEVNVQMLISFTSFNDESGENAEKLLQFKRWFWSIVEKMSMTERQDLVYFWTSSPSLPASEEGFQPMPSITIRPPDDQHLPTANTCISRLYVPLYSSKQILKQKLLLAIKTK MTSIHFVVHPLPGTEDQLNDRLREVSEKLNKYNLNSHPPLNVLEQATIKQCVVGPNHAAFLLEDGRVCRIGFSVQPDRLSPVSLGEDLQWWPDKDGTKFICIGALYSELLAVSSKGELYQWKWSESEPYRNAQNPSLHHPRATFLGLTNEKIVLLSANSIRATVATENNKVATWVDETLSSVASKLEHTAQTYSELQGERIVSLHCCALYTCAQLENSLYWWGVVPFSQRKKMLEKARAKNKPLYHAGAVAFSISAGIPKVGVLMESVWNMNDSCRFQLRSPESLKNEEQWSLREVVFVEDVTPKVPDCFQRTPKKLCIPEKTEILAVNVDSKGVHAVLKTGNWVRYCIFDLATGKAEQENNFPTSSIAFLGQNERNVAIFTAGQESPIILRDGNGTIYPMAKDCMGGIRDPDWLDLPPISSLGMGVHSLINLPANSTIKKKAAVIIMAVEKQTLMQHILRCDYEACRQYLMNLEQAVVLEQNLQMLQTFISHRCDGNRNILHACVSVCFPTSNKVESKDRKANAHFILKLLCDSVVLQPYLRELLSAKDARGMTPFMSAVSGRAYPAAITILETAQKIAKAEISSSEKEEDVFMGMVCPSGTNPDDSPLYVLCCNDTCSFTWTGAEHINQDIFECRTCGLLESLCCCTECARVCHKGHDCKLKRTSPTAYCDCWEKCKCKTLIAGQKSARLDLLYRLLTATNLVTLPNSRGEHLLLFLVQTVARQTVEHCQYRPPRIREDSDMPDHDLEPPRFAQLALERVLQDWNALKSMIMFGSQENKDPLSASSRIGHLLPEEQVYLNQQSGTIRLDCFTHCLIVKCTADILLLDTLLGTLVKELQNKYTPGRREEAIAVTMRFLRSVARVFVILSVEMASSKKKNNFIPQPIGKCKRVFQALLPYAVEELCNVAESLIVPVRMGIARPTAPFTLASTSIDAMQGSEELFSVEPLPPRPSSMLDEPLERTTNSSHANGAAQAPRSMQWAVRNNASSYLTSASSLARAYSIVIRQISDLMGLIPKYNHLVYSQIPAAVKLTYQDAVNLQNYVEEKLIPTWNWMVSIMDSTEAQLRYGSALASAGDPGHPNHPLHASQNSARRMSARGDFLNYALSLMRSHNDEHSDVLPVLDVCSLKHVAYVFQALIYWIKAMNQQTTETGQNHPFFRRSDSMTFLGCIPPNPFEVPLAEAIPLADQPHLLQPNARKEDLFGRPSQGLYSSSASSGKCLMEVTVDRNCLEVLPTKMSPPLTSFRPQCSFMGMVISHDMLLGRWRLSLELFGRVFMEDVGAEPGSILTELGGFEVKESKFRREMEKLRNQQSRDLSLEVDRDRDLLIQQTMRQLNNHFGRRCATTPMAVHRVKVTFKDEPGEGSGVARSFYTAIAQAFLSNEKLPNLECIQNDNAPLFYQPGKRGFYTPRPGKNTEARLNCFRNIGRILGLCLLQNELCPITLNRHVIKVLLGRKVNWHDFAFFDPVMYESLRQLILASQSSDADAVFSAMDLAFAIDLCKEEGGGQVELIPNGVNIPVTPQNVYEYVRKYAEHRMLVVAEQPLHAMRKGLLDVLPKNSLEDLTAEDFRLLVNGCGEVNVQMLISFTSFNDESGENAEKLLQFKRWFWSIVEKMSMTERQDLVYFWTSSPSLPASEEGFQPMPSITIRPPDDQHLPTANTCISRLYVPLYSSKQILKQKLLLAIKTK 8e12-a1-m1-cB_8e12-a1-m1-cA Homotrimeric variant of tcTRP9, BGL14 3 X-RAY DIFFRACTION 55 0.994 32630 (synthetic construct) 32630 (synthetic construct) 163 164 8e12-a1-m1-cC_8e12-a1-m1-cA 8e12-a1-m1-cC_8e12-a1-m1-cB EEELKKLLEENIKLIEELLEEVKHNDPELLLSVLEVLVRSVHVIAEVAREQGNEELLERAARLAEEAAYQAEEVAREARKRGNLELALKALQILVNAAYVLAEIARDNEELLQKAHELAREALRQVKEILEQARKEGNLELVIIALRLHTEIMRVLVEIWRHR EEELKKLLEENIKLIEELLEEVKHNDPELLLSVLEVLVRSVHVIAEVAREQGNEELLERAARLAEEAAYQAEEVAREARKRGNLELALKALQILVNAAYVLAEIARDRGNEELLQKAHELAREALRQVKEILEQARKEGNLELVIIALRLHTEIMRVLVEIWRH 8e2d-a1-m1-cA_8e2d-a1-m1-cB Cryo-EM structure of BIRC6 (consensus) Q9NR09 Q9NR09 2.07 ELECTRON MICROSCOPY 741 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1968 1968 8atm-a1-m1-cB_8atm-a1-m1-cA 8ato-a1-m1-cA_8ato-a1-m1-cB 8e2e-a1-m1-cA_8e2e-a1-m1-cB 8e2i-a1-m1-cA_8e2i-a1-m1-cB 8e2k-a1-m1-cA_8e2k-a1-m1-cB DLLVDQPFTLEILTSLVELTRFETLTPRFSATVPPCWVEVQQEQQQRRHPQHLHQQHHGDAAQHTRTWKLQTDSNSWDEHVFELVLPKACMVGHVDFKFVLNSNITNIPQIQVTLLKNKLCPFLEDHKEDILCGPVWLASGLDLSGHAGMLTLTSPKLVKGMRSFLIHVKAVLRGCDLLQEVSVTIRRFKKTSISKERVQRCAMLQFSEFHEKLVNTLCRKTDDGQITEHAQSLVLDTLCWLAGVHSNLLSKTRKFLSDIVRVCFFEAGRSIAHKCARFLALCISNCQPAFGPVLLKALLDNMSFLPAATTGGSVYWYFVLLNYVKDEDLAGCSTACASLLTAVSRQLQDRLTPMEALLQTRYGLYSSPFDPVLFDLEMSFTSLTGLLEVEPLHFTCVSTSDGTRIERDQPPPHQSIIIERMHSGARRFVTLDFGRPILLTDVLIPTCGDLASLSIDIWTLGEEVDGRRLVVATDISTHSLILHDLIPPPVCRFMKITVIGRYGSTNARAKIPLGFYYGHTYILPWESELKLMHDPLDQHLAMMVALQEDIQCRYNLACHRLETLLQSIDLPPLNSANNAQYFLRKPDKAVEEDSRVFSAYQDCIQLQLQLNLAHNAVQRLKVALGASRKPEDLIQTSSTEQLRTIIRYLLDTLLSLLHASSVPAVLQSTFHAQACEELFKHLCISGTPKIRLHTGLLLVQLCGGERWWGQFLSNVLQELYNSEQLLIFPQDRVFMLLSCIGQRSLSNSGVLESLLNLLDNLLSPLQVLDIPMISWVVMLVSRLLDYVNQWSFINHERCISVVQKLVLFLLSMDFTCHADLLLFVCKVLARIANATRPTIHLCEIVNEPQLERLLLLLVGTDFNRGDISWGGAWAQYSLTCMLQDILAGELQALDARLEVGLEQQAELMLKMMSTLEADSILQALTNQLSSVPMLNVCFNKLFSMLQVHHVQLESLLQLWLTLSLNFLYNANRIPVISLNQASITSFLTVLAWYPNTLLRTWCLVLHSLTLMTNMQLESTAHLLVSDPNLIHVLVKFLSGQHSPQVGPTATQAMQEFLTRLQVHLSSTCPQIFSEFLLKLIHILSTERGAFQTGQGPLDAQVKLLEFTLEQNFEVVSVSTISAVIESVTFLVHHYITCSDKVMSRSGSDSSVGARACFGTRDQLMFDLLKLVNILVQLPLSGNREYSARPAYVADLVLANQQIMSQILSALGLCNSISVGDGLFTILTTLSKKASTVHMMLQPILTYMACGYMGRQGSLATCQLSEPLLWFILRVLDTSDALKAFHDMGGVQLICNNMVTSTRAIVNTARSMVSTIMKFLDGIHNFAPLGTITSSSPTAQPAEVLLQATPPHRRARSAAWSYIFLPEEAWCDLTIHLPAAVLLKEIHIQPHLASLATCPSSVSVEVSADGVNMLPLSTPVVTSGLTYIKIQLVKAEVASAVCLRLHRPRDASTLGLSQIKLLGLTAFGTTSSDQVSKTSIGWLRLLHHCLTHISDLEGMMASAAAPTANLLQTCAALLMSPYCGMHSPNIEVVLVKIGLQSTRIGLKLIDILLRNCAASLNSPLLFGRLNGLSSDSTIDILYQLGTTQDPGTKDRIQALLKWVSDSARVAAMEYGLLMPSPSHLHCVAAILWHSYELLVEYDLPALLDQELFELLFNWSMSLPCNMVLKKAVDSLLCSMCHVHPNYFSLLMGWMGILALTESHLATLASSSQSPEAIKQLLDSGLPSLLVRSLASFCFSKMPITADLVAPILRFLTEVGNSHIMKDWLGGSEVNPLWTALLFLLCLTTQQRTAIENATVAFFLQCISCHPNNQKLMAQVLCELFQISGFIRRLFLQLMLEDEKVTMFLQSPCPLYKGRINATSHVIQHPMYGAGHKFRTLHLPVSTTLSDVLDRVSVFHLFHKLLAGQPLPAEMTLAQLLTLLYDRKLPQGYRSIDLTVKLLLETCPIQSPLQVFAGMGGLALIAERL DLLVDQPFTLEILTSLVELTRFETLTPRFSATVPPCWVEVQQEQQQRRHPQHLHQQHHGDAAQHTRTWKLQTDSNSWDEHVFELVLPKACMVGHVDFKFVLNSNITNIPQIQVTLLKNKLCPFLEDHKEDILCGPVWLASGLDLSGHAGMLTLTSPKLVKGMRSFLIHVKAVLRGCDLLQEVSVTIRRFKKTSISKERVQRCAMLQFSEFHEKLVNTLCRKTDDGQITEHAQSLVLDTLCWLAGVHSNLLSKTRKFLSDIVRVCFFEAGRSIAHKCARFLALCISNCQPAFGPVLLKALLDNMSFLPAATTGGSVYWYFVLLNYVKDEDLAGCSTACASLLTAVSRQLQDRLTPMEALLQTRYGLYSSPFDPVLFDLEMSFTSLTGLLEVEPLHFTCVSTSDGTRIERDQPPPHQSIIIERMHSGARRFVTLDFGRPILLTDVLIPTCGDLASLSIDIWTLGEEVDGRRLVVATDISTHSLILHDLIPPPVCRFMKITVIGRYGSTNARAKIPLGFYYGHTYILPWESELKLMHDPLDQHLAMMVALQEDIQCRYNLACHRLETLLQSIDLPPLNSANNAQYFLRKPDKAVEEDSRVFSAYQDCIQLQLQLNLAHNAVQRLKVALGASRKPEDLIQTSSTEQLRTIIRYLLDTLLSLLHASSVPAVLQSTFHAQACEELFKHLCISGTPKIRLHTGLLLVQLCGGERWWGQFLSNVLQELYNSEQLLIFPQDRVFMLLSCIGQRSLSNSGVLESLLNLLDNLLSPLQVLDIPMISWVVMLVSRLLDYVNQWSFINHERCISVVQKLVLFLLSMDFTCHADLLLFVCKVLARIANATRPTIHLCEIVNEPQLERLLLLLVGTDFNRGDISWGGAWAQYSLTCMLQDILAGELQALDARLEVGLEQQAELMLKMMSTLEADSILQALTNQLSSVPMLNVCFNKLFSMLQVHHVQLESLLQLWLTLSLNFLYNANRIPVISLNQASITSFLTVLAWYPNTLLRTWCLVLHSLTLMTNMQLESTAHLLVSDPNLIHVLVKFLSGQHSPQVGPTATQAMQEFLTRLQVHLSSTCPQIFSEFLLKLIHILSTERGAFQTGQGPLDAQVKLLEFTLEQNFEVVSVSTISAVIESVTFLVHHYITCSDKVMSRSGSDSSVGARACFGTRDQLMFDLLKLVNILVQLPLSGNREYSARPAYVADLVLANQQIMSQILSALGLCNSISVGDGLFTILTTLSKKASTVHMMLQPILTYMACGYMGRQGSLATCQLSEPLLWFILRVLDTSDALKAFHDMGGVQLICNNMVTSTRAIVNTARSMVSTIMKFLDGIHNFAPLGTITSSSPTAQPAEVLLQATPPHRRARSAAWSYIFLPEEAWCDLTIHLPAAVLLKEIHIQPHLASLATCPSSVSVEVSADGVNMLPLSTPVVTSGLTYIKIQLVKAEVASAVCLRLHRPRDASTLGLSQIKLLGLTAFGTTSSDQVSKTSIGWLRLLHHCLTHISDLEGMMASAAAPTANLLQTCAALLMSPYCGMHSPNIEVVLVKIGLQSTRIGLKLIDILLRNCAASLNSPLLFGRLNGLSSDSTIDILYQLGTTQDPGTKDRIQALLKWVSDSARVAAMEYGLLMPSPSHLHCVAAILWHSYELLVEYDLPALLDQELFELLFNWSMSLPCNMVLKKAVDSLLCSMCHVHPNYFSLLMGWMGILALTESHLATLASSSQSPEAIKQLLDSGLPSLLVRSLASFCFSKMPITADLVAPILRFLTEVGNSHIMKDWLGGSEVNPLWTALLFLLCLTTQQRTAIENATVAFFLQCISCHPNNQKLMAQVLCELFQISGFIRRLFLQLMLEDEKVTMFLQSPCPLYKGRINATSHVIQHPMYGAGHKFRTLHLPVSTTLSDVLDRVSVFHLFHKLLAGQPLPAEMTLAQLLTLLYDRKLPQGYRSIDLTVKLLLETCPIQSPLQVFAGMGGLALIAERL 8e2l-a1-m1-cC_8e2l-a1-m1-cD Structure of Lates calcarifer Twinkle helicase with ATP and DNA A0A4W6C5C5 A0A4W6C5C5 3.51 ELECTRON MICROSCOPY 108 1.0 8187 (Lates calcarifer) 8187 (Lates calcarifer) 461 461 8e2l-a1-m1-cA_8e2l-a1-m1-cB 8e2l-a1-m1-cB_8e2l-a1-m1-cC 8e2l-a1-m1-cE_8e2l-a1-m1-cD 8e2l-a1-m1-cF_8e2l-a1-m1-cE PEDEAQLIKTMFQITKVSNATLKKFGVRLFKPTKSLVFPWFAGPDSSLKGLKLLSAQNTDTEKVTYNEATVPKISSYYNLFGLTLVGRMDSEVVLTGHELDTLAVSQATGLPSVALPRGVSCLPPMLLPYLEQFKRVTLWLGHDIRSWEASKIFSRKLGLRRCSLVRPGEDRPCPLEALARGKNLSRIIKTSIPAAHKSIVSFKQLREDVYGELLNTEQVAGVKWTRFPELNRILKGHRKGELTVFTGPTGSGKTTFISEVALDLCIQGVNTLWGSFQINNVRLAKIMLTQFAMQRLEENLEQYDFWADKFEELPLYFMTFHGQQNIKTVLDTMQHAVYLYDINHVIIDNLQFMMGQIDKYAVQDHIIGAFRKFATNTSCHVTLIIHPRKEEDDRELQTASIFGSAKASQEADNVLILQEKKLVTCPGRRSLQVTKNRFDGDVGIFPLDFIKSSLTFSAPI PEDEAQLIKTMFQITKVSNATLKKFGVRLFKPTKSLVFPWFAGPDSSLKGLKLLSAQNTDTEKVTYNEATVPKISSYYNLFGLTLVGRMDSEVVLTGHELDTLAVSQATGLPSVALPRGVSCLPPMLLPYLEQFKRVTLWLGHDIRSWEASKIFSRKLGLRRCSLVRPGEDRPCPLEALARGKNLSRIIKTSIPAAHKSIVSFKQLREDVYGELLNTEQVAGVKWTRFPELNRILKGHRKGELTVFTGPTGSGKTTFISEVALDLCIQGVNTLWGSFQINNVRLAKIMLTQFAMQRLEENLEQYDFWADKFEELPLYFMTFHGQQNIKTVLDTMQHAVYLYDINHVIIDNLQFMMGQIDKYAVQDHIIGAFRKFATNTSCHVTLIIHPRKEEDDRELQTASIFGSAKASQEADNVLILQEKKLVTCPGRRSLQVTKNRFDGDVGIFPLDFIKSSLTFSAPI 8e2l-a1-m1-cF_8e2l-a1-m1-cA Structure of Lates calcarifer Twinkle helicase with ATP and DNA A0A4W6C5C5 A0A4W6C5C5 3.51 ELECTRON MICROSCOPY 38 0.996 8187 (Lates calcarifer) 8187 (Lates calcarifer) 256 460 HKSIVSFKQLREDVYGGVKWTRFPELNRILKGHRKGELTVFTGPTGSGKTTFISEVALDLCIQGVNTLWGSFQINNVRLAKIMLTQFAMQRLEENLEQYDFWADKFEELPLYFMTFHGQQNIKTVLDTMQHAVYLYDINHVIIDNLQFMMGQIDKYAVQDHIIGAFRKFATNTSCHVTLIIHPRKEEDDRELQTASIFGSAKASQEADNVLILQEKKLVTCPGRRSLQVTKNRFDGDVGIFPLDFIKSSLTFSAPI PEDEAQLIKTMFQITKVSNATLKKFGVRLFKPTKSLVFPWFAGPDSSLKGLKLLSAQNTDTEKVTYNEATVPKISSYYNLFGLTLVGRMDSEVVLTGHELDTLAVSQATGLPSVALPRGVSCLPPMLLPYLEQFKRVTLWLGHDIRSWEASKIFSRKLGLRRCSLVRPGEDRPCPLEALARGKNLSRIIKTSIPAAHKSIVSFKQLREDVYGELLNTEQVAGVKWTRFPELNRILKGHRKGELTVFTGPTGSGKTTFISEVALDLCIQGVNTLWGSFQINNVRLAKIMLTQFAMQRLEENLEQYDFWADKFEELPLYFMTFHGQQNIKTVLDTMQHAVYLYDINHVIIDNLQFMMGQDKYAVQDHIIGAFRKFATNTSCHVTLIIHPRKEEDDRELQTASIFGSAKASQEADNVLILQEKKLVTCPGRRSLQVTKNRFDGDVGIFPLDFIKSSLTFSAPI 8e2s-a2-m1-cD_8e2s-a2-m1-cC Crystal structure of TadAC-1.19 W8T8U5 W8T8U5 2.95 X-RAY DIFFRACTION 104 1.0 562 (Escherichia coli) 562 (Escherichia coli) 146 150 8e2q-a1-m1-cA_8e2q-a1-m1-cB 8e2q-a2-m1-cC_8e2q-a2-m1-cD 8e2s-a1-m1-cB_8e2s-a1-m1-cA 8e2s-a3-m1-cF_8e2s-a3-m1-cE FSHEYWMRHALTLAKRARDERGVPVGAVLVLNNRVIGEGWNRANGLHDPTAHAEIMALRQGGLVMQNYRLYDATLYSTFEPCVMCAGAMIHSRIGRVVFGVRNAKTGAAGSLMDVLHHPGMNHRVEITEGILADECAALLCRFFRM FSHEYWMRHALTLAKRARDERGVPVGAVLVLNNRVIGEGWNRANGLHDPTAHAEIMALRQGGLVMQNYRLYDATLYSTFEPCVMCAGAMIHSRIGRVVFGVRNAKTGAAGSLMDVLHHPGMNHRVEITEGILADECAALLCRFFRMPRRV 8e55-a1-m1-cC_8e55-a1-m1-cD Design of Diverse Asymmetric Pockets in de novo Homo-oligomeric Proteins 3.85 ELECTRON MICROSCOPY 41 1.0 32630 (synthetic construct) 32630 (synthetic construct) 195 195 8e55-a1-m1-cA_8e55-a1-m1-cB 8e55-a1-m1-cA_8e55-a1-m1-cD 8e55-a1-m1-cB_8e55-a1-m1-cC DREIKEEARKLIREAIELLQKGDPRAKEILRQAILILLAIRLLEEMEENIEKAEKLGNEELSELAKRAIKLVREALELLKEGDPRAEEILKLALKIIKAILLLLEMYENIKQAEELGDEDLSELAKIAIRLVRQALKLLQEGDPRAEEILEIALRIIKLILQLLFLKQRIEEQFVFEAEEKIRRIVEELFKLLEG DREIKEEARKLIREAIELLQKGDPRAKEILRQAILILLAIRLLEEMEENIEKAEKLGNEELSELAKRAIKLVREALELLKEGDPRAEEILKLALKIIKAILLLLEMYENIKQAEELGDEDLSELAKIAIRLVRQALKLLQEGDPRAEEILEIALRIIKLILQLLFLKQRIEEQFVFEAEEKIRRIVEELFKLLEG 8e5f-a1-m4-cA_8e5f-a1-m5-cA Cryo-EM of P. calidifontis cytochrome filament A3MW92 A3MW92 3.8 ELECTRON MICROSCOPY 157 1.0 181486 (Pyrobaculum calidifontis) 181486 (Pyrobaculum calidifontis) 293 293 8e5f-a1-m1-cA_8e5f-a1-m3-cA 8e5f-a1-m1-cA_8e5f-a1-m4-cA 8e5f-a1-m2-cA_8e5f-a1-m3-cA PPYSYNHPTNCISCHSNSTGTANSQALSGLTSGPAAGACDPSQQECVWSHQVLKGTDVWKKCINCHVAIWNSINSGPGNVHSGLLNSYGCACHAVAHVGYGNPTDGYTACIYFYVPRLSTATPGYFGAKPTLDFRNVYICFKGTPEGTYTFSGNAPTSLMQLLESKGEVTVKALLVGYDKYANGTVKAKSSAADFLETDFFSALEQAGIFRYEWGTASGAVLKNPSVRTHPLTEEAPNGETIVMGVFDIHTGDFILVAPYAPYSRAPYYLPVAVNPGVAACFNCHFVYQGQLG PPYSYNHPTNCISCHSNSTGTANSQALSGLTSGPAAGACDPSQQECVWSHQVLKGTDVWKKCINCHVAIWNSINSGPGNVHSGLLNSYGCACHAVAHVGYGNPTDGYTACIYFYVPRLSTATPGYFGAKPTLDFRNVYICFKGTPEGTYTFSGNAPTSLMQLLESKGEVTVKALLVGYDKYANGTVKAKSSAADFLETDFFSALEQAGIFRYEWGTASGAVLKNPSVRTHPLTEEAPNGETIVMGVFDIHTGDFILVAPYAPYSRAPYYLPVAVNPGVAACFNCHFVYQGQLG 8e5g-a1-m1-cA_8e5g-a1-m5-cA Cryo-EM of A. veneficus cytochrome filament F2KMU8 F2KMU8 3.9 ELECTRON MICROSCOPY 14 1.0 58290 (Archaeoglobus veneficus) 58290 (Archaeoglobus veneficus) 220 220 8e5g-a1-m1-cA_8e5g-a1-m2-cA 8e5g-a1-m3-cA_8e5g-a1-m4-cA QHMWYNISGTGNNLPCEKCHADVFAEFKNNPGAHKTIGGGTDTVEHIRAACGECHRTSVVGTFASGDGTSATPGQEAHAAATIACMACHEFGPNGNAPYSGAPVAGGFDNVTTDTASSPYNYDNGDTTYGTKEAHQTFIERAVEDKTLIDSNEACIACHTYVPVKINWTHKVSLEFNCTYEYNTGTSGVTTHYNVTNWTVNGTRYTTVFGNTTGNGSVND QHMWYNISGTGNNLPCEKCHADVFAEFKNNPGAHKTIGGGTDTVEHIRAACGECHRTSVVGTFASGDGTSATPGQEAHAAATIACMACHEFGPNGNAPYSGAPVAGGFDNVTTDTASSPYNYDNGDTTYGTKEAHQTFIERAVEDKTLIDSNEACIACHTYVPVKINWTHKVSLEFNCTYEYNTGTSGVTTHYNVTNWTVNGTRYTTVFGNTTGNGSVND 8e5g-a1-m4-cA_8e5g-a1-m5-cA Cryo-EM of A. veneficus cytochrome filament F2KMU8 F2KMU8 3.9 ELECTRON MICROSCOPY 180 1.0 58290 (Archaeoglobus veneficus) 58290 (Archaeoglobus veneficus) 220 220 8e5g-a1-m1-cA_8e5g-a1-m3-cA 8e5g-a1-m1-cA_8e5g-a1-m4-cA 8e5g-a1-m2-cA_8e5g-a1-m3-cA QHMWYNISGTGNNLPCEKCHADVFAEFKNNPGAHKTIGGGTDTVEHIRAACGECHRTSVVGTFASGDGTSATPGQEAHAAATIACMACHEFGPNGNAPYSGAPVAGGFDNVTTDTASSPYNYDNGDTTYGTKEAHQTFIERAVEDKTLIDSNEACIACHTYVPVKINWTHKVSLEFNCTYEYNTGTSGVTTHYNVTNWTVNGTRYTTVFGNTTGNGSVND QHMWYNISGTGNNLPCEKCHADVFAEFKNNPGAHKTIGGGTDTVEHIRAACGECHRTSVVGTFASGDGTSATPGQEAHAAATIACMACHEFGPNGNAPYSGAPVAGGFDNVTTDTASSPYNYDNGDTTYGTKEAHQTFIERAVEDKTLIDSNEACIACHTYVPVKINWTHKVSLEFNCTYEYNTGTSGVTTHYNVTNWTVNGTRYTTVFGNTTGNGSVND 8e62-a2-m1-cE_8e62-a2-m1-cF STRUCTURE OF Pcryo_0615 from Psychrobacter cryohalolentis, an N-acetyltransferase required to produce Diacetamido-2,3-dideoxy-D-glucuronic acid Q1QD55 Q1QD55 1.8 X-RAY DIFFRACTION 67 1.0 335284 (Psychrobacter cryohalolentis K5) 335284 (Psychrobacter cryohalolentis K5) 183 183 8e62-a1-m1-cA_8e62-a1-m1-cC 8e62-a1-m1-cB_8e62-a1-m1-cA 8e62-a1-m1-cB_8e62-a1-m1-cC 8e62-a2-m1-cD_8e62-a2-m1-cE 8e62-a2-m1-cD_8e62-a2-m1-cF NAQIHPSAVIHEGVIIEDDVYIGPNCIIGYPPEDKAVFPQTPYTVHICSGTKITGNVTIDAGTIKNTYIGNDCFLMKGAYVAHDVVIGNNVTLSSHVMLGGHVEVMEGANLGMGCIIHQRQKIWHYCMIGMGAIVTKKLVIEPFSIYVGNPAKKIGTNDKGIEKSGIDERAMATIQEEFNARR NAQIHPSAVIHEGVIIEDDVYIGPNCIIGYPPEDKAVFPQTPYTVHICSGTKITGNVTIDAGTIKNTYIGNDCFLMKGAYVAHDVVIGNNVTLSSHVMLGGHVEVMEGANLGMGCIIHQRQKIWHYCMIGMGAIVTKKLVIEPFSIYVGNPAKKIGTNDKGIEKSGIDERAMATIQEEFNARR 8e73-a1-m1-cD_8e73-a1-m1-cP Vigna radiata supercomplex I+III2 (full bridge) A0A1S3W199 A0A1S3W199 3.2 ELECTRON MICROSCOPY 35 1.0 157791 (Vigna radiata) 157791 (Vigna radiata) 243 243 7jrg-a1-m1-cD_7jrg-a1-m1-cP 7jrp-a1-m1-cD_7jrp-a1-m1-cP 8bel-a1-m1-cE_8bel-a1-m1-cO 8bpx-a1-m1-cAE_8bpx-a1-m1-cBE 8bq5-a1-m1-cAE_8bq5-a1-m1-cBE 8bq6-a1-m1-cAE_8bq6-a1-m1-cBE DEAEHGLACPSYPWPHKGILSSYDHASIRRGHQVYTEVCASCHSMSLISYRDLVGVAYTEEEVKAMAAEIEVVDGPNDEGEMFTRPGKLSDRFPQPYANEAAARFANGGAYPPDLSLITKARHNGQNYVFSLLTGYRDPPAGVSIREGLHYNPYFPGGAIAMPKMLNDGAVEYEDGTPATEAQMGKDVVSFLSWAAEPEMEERKLMGFKWIFVLSLALLQAAYYRRLRWSVLKSRKLVLDVVN DEAEHGLACPSYPWPHKGILSSYDHASIRRGHQVYTEVCASCHSMSLISYRDLVGVAYTEEEVKAMAAEIEVVDGPNDEGEMFTRPGKLSDRFPQPYANEAAARFANGGAYPPDLSLITKARHNGQNYVFSLLTGYRDPPAGVSIREGLHYNPYFPGGAIAMPKMLNDGAVEYEDGTPATEAQMGKDVVSFLSWAAEPEMEERKLMGFKWIFVLSLALLQAAYYRRLRWSVLKSRKLVLDVVN 8e73-a1-m1-cO_8e73-a1-m1-cC Vigna radiata supercomplex I+III2 (full bridge) 3.2 ELECTRON MICROSCOPY 45 1.0 157791 (Vigna radiata) 157791 (Vigna radiata) 384 386 7jrg-a1-m1-cC_7jrg-a1-m1-cO 7jrp-a1-m1-cC_7jrp-a1-m1-cO 8bel-a1-m1-cC_8bel-a1-m1-cM 8bpx-a1-m1-cAC_8bpx-a1-m1-cBC 8bq5-a1-m1-cAC_8bq5-a1-m1-cBC 8bq6-a1-m1-cAC_8bq6-a1-m1-cBC RNQRFSLLKEPISSTLNQHLIDYPTPSNLSYWWGFGSLAGICLVIQIVTGVFLAMHYTPHVDLAFNSVEHVMRDVEGGWLLRYMHANGASMFFIVVYLHIFRGLYYASYSSPREFVWCLGVVIFLLMIVTAFTGYVLPWGQMSFWGATVITSLASAIPVVGDTIVTWLWGGFSVDNATLNRFFSLHYLLPFLLVGASLLHLAALHQYGSNNPLGVHSEMDQISFYPYFYVKDLVGWVAFAIFFSIWIFYAPNVLGHPDNYIPANPMSTPPHIVPEWYFLPIYAILRSIPDKSGGVAAIALVFICLLALPFFKSMYVRSSSFRPIYQGIFWLLLADCLLLGWIGCQPVEAPFVTIGQISSFVFFLFFAITPILGRVGRGIPNSYT IRNQRFSLLKEPISSTLNQHLIDYPTPSNLSYWWGFGSLAGICLVIQIVTGVFLAMHYTPHVDLAFNSVEHVMRDVEGGWLLRYMHANGASMFFIVVYLHIFRGLYYASYSSPREFVWCLGVVIFLLMIVTAFTGYVLPWGQMSFWGATVITSLASAIPVVGDTIVTWLWGGFSVDNATLNRFFSLHYLLPFLLVGASLLHLAALHQYGSNNPLGVHSEMDQISFYPYFYVKDLVGWVAFAIFFSIWIFYAPNVLGHPDNYIPANPMSTPPHIVPEWYFLPIYAILRSIPDKSGGVAAIALVFICLLALPFFKSMYVRSSSFRPIYQGIFWLLLADCLLLGWIGCQPVEAPFVTIGQISSFVFFLFFAITPILGRVGRGIPNSYTT 8e77-a1-m1-cA_8e77-a1-m2-cA rystal structure of Pcryo_0616, the aminotransferase required to synthesize UDP-N-acetyl-3-amino-D-glucosaminuronic acid (UDP-GlcNAc3NA), incomplete with its external aldimine reaction intermediate Q1QD54 Q1QD54 1 X-RAY DIFFRACTION 144 1.0 335284 (Psychrobacter cryohalolentis K5) 335284 (Psychrobacter cryohalolentis K5) 358 358 8e75-a1-m1-cA_8e75-a1-m2-cA MMQFIDLVAQQDRIKDKLNTNIQKVLAHGQYILGPEVHELEEKLSAYTGAKYCITCANGTDALQIAQMVFGIGPGDEVITPGFTYIATAETVAVLGAKPIYVDINPKTYNLDVEQLEAAITPRTKAIIGVSLYGQCADYDAINAIAAKYNIPVIEDAAQSFGASYKGRKSCNLTTIACTSFFPSKPLGCYGDGGAIFTSDEALATVMRQIARHGQDRRYHHIRVGVNSRLDTLQAAILLPKLEILDDEMQVRQRVAETYNQFFIEADITTIPFIESHNQSAWAQYTIQVDNRDEIQAKLREQGIPTAVHYPIPLNKQPAVADTNAVLPVGDEVAERVMSLPMHPYMQTTDIKTICNSF MMQFIDLVAQQDRIKDKLNTNIQKVLAHGQYILGPEVHELEEKLSAYTGAKYCITCANGTDALQIAQMVFGIGPGDEVITPGFTYIATAETVAVLGAKPIYVDINPKTYNLDVEQLEAAITPRTKAIIGVSLYGQCADYDAINAIAAKYNIPVIEDAAQSFGASYKGRKSCNLTTIACTSFFPSKPLGCYGDGGAIFTSDEALATVMRQIARHGQDRRYHHIRVGVNSRLDTLQAAILLPKLEILDDEMQVRQRVAETYNQFFIEADITTIPFIESHNQSAWAQYTIQVDNRDEIQAKLREQGIPTAVHYPIPLNKQPAVADTNAVLPVGDEVAERVMSLPMHPYMQTTDIKTICNSF 8e7c-a1-m1-cB_8e7c-a1-m2-cA Crystal Structure of Porcine Deltacoronavirus (HKU-15) Mpro with Pfizer Intravenous Inhibitor PF-00835231 A0A0E3N825 A0A0E3N825 2.45 X-RAY DIFFRACTION 109 1.0 1586324 (Porcine deltacoronavirus) 1586324 (Porcine deltacoronavirus) 292 301 AGIKILLHPSGVVERCMVSVVYNGSALNGIWLKNVVYCPRHVIGKFRGDQWTHMVSIADCRDFIVKCPIQGIQLNVQSVKMVGALLQLTVHTNNTATPDYKFERLQPGSSMTIACAYDGIVRHVYHVVLQLNNLIYASFLNGACGSVGYTLKGKTLYLHYMHHIEFNNKTHSGTDLEGNFYGPYVDEEVIQQQTAFQYYTDNVVAQLYAHLLTVDARPKWLAQSQISIEDFNSWAANNSFANFPCEQTNMSYIMGLSQTARVPVERILNTIIQLTTFECDWTPEMVYNQAPI AGIKILLHPSGVVERCMVSVVYNGSALNGIWLKNVVYCPRHVIGKFRGDQWTHMVSIADCRDFIVKCPIQGIQLNVQSVKMVGALLQLTVHTNNTATPDYKFERLQPGSSMTIACAYDGIVRHVYHVVLQLNNLIYASFLNGACGSVGYTLKGKTLYLHYMHHIEFNNKTHSGTDLEGNFYGPYVDEEVIQQQTAFQYYTDNVVAQLYAHLLTVDARPKWLAQSQISIEDFNSWAANNSFANFPCEQTNMSYIMGLSQTARVPVERILNTIIQLTTNRDGACIMDFECDWTPEMVYNQAPI 8e7n-a1-m1-cB_8e7n-a1-m1-cA Crystal structure of beluga whale Gammacoronavirus SW1 Mpro with GC-376 captured in two conformational states B2BW31 B2BW31 1.65 X-RAY DIFFRACTION 116 0.99 694015 (Beluga whale coronavirus SW1) 694015 (Beluga whale coronavirus SW1) 298 299 AGIKKMVAPSSAVEQCVVSVVHGNTQLNGLWLNDYVLCPRHILGKYTGEQWRDALINANNFDFHILYKGMELQVVGRELVGALLKLKVSMVNANTPKYKFAKARIGDNFSIACAYNGHVSGLYTVTLRENGTLKGSFMSGSCGSVGYNVTNEGVEFVYMHHLELPGCVHGGSDLHGIFYGGYVDEEVLQRIPPAPANSRNIVAWLYAAVYNNCDWFVKYGPKQVMSVEDFNEWASGYGFTKFEYHLAFDVFSAATGVSVEQMLAAIKELADGWNYAPVLGSFHLDDEYSPEMIMQQTS AGIKKMVAPSSAVEQCVVSVVHGNTQLNGLWLNDYVLCPRHILGKYTGEQWRDALINANNFDFHILYKGMELQVVGRELVGALLKLKVSMVNANTPKYKFAKARIGDNFSIACAYNGHVSGLYTVTLRENGTLKGSFMSGSCGSVGYNVTNEGVEFVYMHHLELPGCVHGGSDLHGIFYGGYVDEEVLQRIPPAPANSRNIVAWLYAAVYNNCDWFVKKQVMSVEDFNEWASGYGFTKFEYHLAFDVFSAATGVSVEQMLAAIKELADGWNYAPVLGSFHLDDEYSPEMIMQQTSGIVL 8e8u-a2-m1-cB_8e8u-a2-m1-cC Structure of the LOR domain of human AASS Q9UDR5 Q9UDR5 2.65 X-RAY DIFFRACTION 96 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 431 432 8e8t-a1-m1-cA_8e8t-a1-m2-cA 8e8t-a2-m1-cB_8e8t-a2-m2-cB 8e8u-a1-m1-cA_8e8u-a1-m1-cD AVLAVRREDVNAWERRAPLAPKHIKGITNLGYKVLIQPSNRRAIHDKDYVKAGGILQEDISEACLILGVKRPPAAALMSRKTYAFFSHTIKAQEANMGLLDEILKQEIRLIDYEKMVDHRGVRVVAFGQWAGVAGMINILHGMGLRLLALGHHTPFMHIGMAHNYRNSSQAVQAVRDAGYEISLGLMPKSIGPLTFVFTGTGNVSKGAQAIFNELPCEYVEPHELKEVSQTGDLRKVYGTVLSRHHHLVRKTDAVYDPAEYDKHPERYISRFNTDIAPYTTCLINGIYWAANTPRLLTRQDAQSLLAEGCPALPHKLVAICDISGGSIEFMTECTTIEHPFCMYDADQHIIHDSVEGSGILMCSIDNLPAQLPIEATECFGDMLYPYVEEMILSDATQPLESQNFSPVVRDAVITSNGTLPDKYKYIQTLR AVLAVRREDVNAWERRAPLAPKHIKGITNLGYKVLIQPSNRRAIHDKDYVKAGGILQEDISEACLILGVKRPPAAALMSRKTYAFFSHTIKAQEANMGLLDEILKQEIRLIDYEKMVDHRGVRVVAFGQWAGVAGMINILHGMGLRLLALGHHTPFMHIGMAHNYRNSSQAVQAVRDAGYEISLGLMPKSIGPLTFVFTGTGNVSKGAQAIFNELPCEYVEPHELKEVSQTGDLRKVYGTVLSRHHHLVRKTDAVYDPAEYDKHPERYISRFNTDIAPYTTCLINGIYWAANTPRLLTRQDAQSLLAEGCPALPHKLVAICDISADGSIEFMTECTTIEHPFCMYDADQHIIHDSVEGSGILMCSIDNLPAQLPIEATECFGDMLYPYVEEMILSDATQPLESQNFSPVVRDAVITSNGTLPDKYKYIQTLR 8e90-a1-m1-cA_8e90-a1-m2-cB Inhibition of Human Menin by SNDX-5613 O00255-2 O00255-2 1.85 X-RAY DIFFRACTION 76 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 462 462 GLKTAQKTLFPLRSIDDVVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRSPAPDPPGGLTYFPVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRAHIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTWHGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQLQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHIYPYIYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKEAASLLEAGEGSALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWATFLVQSLGRFEGQVRQKVRITFQSEKMKGMKELLVATKINSSAIKLQLTAQS GLKTAQKTLFPLRSIDDVVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRSPAPDPPGGLTYFPVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRAHIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTWHGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQLQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHIYPYIYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKEAASLLEAGEGSALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWATFLVQSLGRFEGQVRQKVRITFQSEKMKGMKELLVATKINSSAIKLQLTAQS 8e98-a1-m1-cD_8e98-a1-m1-cB D-cycloserine and glutamate bound Human GluN1a-GluN2C NMDA receptor in nanodisc - intact conformation Q14957 Q14957 3.75 ELECTRON MICROSCOPY 10 0.989 9606 (Homo sapiens) 9606 (Homo sapiens) 638 642 7yfh-a1-m1-cB_7yfh-a1-m1-cD 8e92-a1-m1-cB_8e92-a1-m1-cD TVAVVFSSSGPPQAQFRARLTPQSFLDLPLEIQPLTVGVNTTNPSSLLTQICGLLGAAHVHGIVFEDNVDTEAVAQILDFISSQTHVPILSISGGSAVVLTPKEPGSAFLQLGVSLEQQLQVLFKVLEEYDWSAFAVITSLHPGHALFLEGVRAVADASHVSWRLLDVVTLELGPGGPRARTQRLLRQLDAPVFVAYCSREEAEVLFAEAAQAGLVGPGHVWLVPNLALGSTDAPPATFPVGLISVVTESWRLSLRQKVRDGVAILALGAHSYWRQHGTLPAPAGDCRVHPGPVSPAREAFYRHLLNVTWEGRDFSFSPGGYLVQPTMVVIALNRHRLWEMVGRWEHGVLYMKYPVWPRYSASLQPVVDSRHLTVATLEERPFVIVESPDPGTGGCVPNTVPCRRQSAPYTKLCCKGFCIDILKKLARVVKFSYDLYLVTNGKHGKRVRGVWNGMIGEVYYKRADMAIGSLTINEERSEIVDFSVPFVETGISVMVARTVSGLSDKKFQRPQDQYPPFRFGTVPNGSTERNIRSNYRDMHTHMVKFNQRSVEDALTSLKMGKLDAFIYDAAVLNYMAGKDEGCKLVTIGSGKVFATTGYGIAMQKDSHWKRAIDLALLQFLGDGETQKLETVWLSGIC TVAVVFSSSGPPQAQFRARLTPQSFLDLPLEIQPLTVGVNTTNPSSLLTQICGLLGAAHVHGIVFEDNVDTEAVAQILDFISSQTHVPILSISGGSAVVLTPKEPGSAFLQLGVSLEQQLQVLFKVLEEYDWSAFAVITSLHPGHALFLEGVRAVADASHVSWRLLDVVTLELGPGGPRARTQRLLRQLDAPVFVAYCSREEAEVLFAEAAQAGLVGPGHVWLVPNLALGSTDAPPATFPVGLISVVTESWRLSLRQKVRDGVAILALGAHSYWRQHGTLPAPAGDCRVHPGPVSPAREAFYRHLLNVTWEGRDFSFSPGGYLVQPTMVVIALNRHRLWEMVGRWEHGVLYMKYPVWPRYSDSRHLTVATLEERPFVIVESPDPGTGGCVPNTVPCRRQSNHTFSSGDVAPYTKLCCKGFCIDILKKLARVVKFSYDLYLVTNGKHGKRVRGVWNGMIGEVYYKRADMAIGSLTINEERSEIVDFSVPFVETGISVMVARSDTVSGLSDKKFQRPQDQYPPFRFGTVPNGSTERNIRSNYRDMHTHMVKFNQRSVEDALTSLKMGKLDAFIYDAAVLNYMAGKDEGCKLVTIGSGKVFATTGYGIAMQKDSHWKRAIDLALLQFLGDGETQKLETVWLSGIC 8ea4-a1-m1-cX_8ea4-a1-m1-cW V-K CAST Transpososome from Scytonema hofmanni, minor configuration 3.0 ELECTRON MICROSCOPY 83 1.0 34078 (Scytonema hofmannii) 34078 (Scytonema hofmannii) 507 514 7svw-a1-m1-cB_7svw-a1-m1-cD 8aa5-a1-m1-cAP1_8aa5-a1-m1-cBP1 8ea3-a1-m1-cX_8ea3-a1-m1-cW LEKNVIATQLSEEAQVKLEVIQSLLEPCDRTTYGQKLREAAEKLNVSLRTVQRLVKNWEQDGLVGLTQTSRADKGKHRIGEFWENFITKTYKEGNKGSKRMTPKQVALRVEAKARELKDSKPPNYKTVLRVLAPILEKQQKAKSIRSPGWRGTTLSVKTREGKDLSVDYSNHVWQCDHTRVDVLLVDQHGEILSRPWLTTVIDTYSRCIMGINLGFDAPSSGVVALALRHAILPKRYGSEYKLHCEWGTYGKPEHFYTDGGKDFRSNHLSQIGAQLGFVCHLRDRPSEGGVVERPFKTLNDQLFSTLPGYTGSNVQERPEDAEKDARLTLRELEQLLVRYIVDRYNQSIDARMGDQTRFERWEAGLPTVPVPIPERDLDICLMKQSRRTVQRGGCLQFQNLMYRGEYLAGYAGETVNLRFDPRDITTILVYRQENNQEVFLTRAHAQGLETEQLALDEAEAASRRLRTAGKTISNQSLLQEVVDRDALKERQKLEQTVLRSAAVDES LEKNVIATQLSEEAQVKLEVIQSLLEPCDRTTYGQKLREAAEKLNVSLRTVQRLVKNWEQDGLVGLTQTSRADKGKHRIGEFWENFITKTYKEGNKGSKRMTPKQVALRVEAKARELKDSKPPNYKTVLRVLAPILEKQQKAKSIRSPGWRGTTLSVKTREGKDLSVDYSNHVWQCDHTRVDVLLVDQHGEILSRPWLTTVIDTYSRCIMGINLGFDAPSSGVVALALRHAILPKRYGSEYKLHCEWGTYGKPEHFYTDGGKDFRSNHLSQIGAQLGFVCHLRDRPSEGGVVERPFKTLNDQLFSTLPGYTGSNVQERPEDAEKDARLTLRELEQLLVRYIVDRYNQSIDARMGDQTRFERWEAGLPTVPVPIPERDLDICLMKQSRRTVQRGGCLQFQNLMYRGEYLAGYAGETVNLRFDPRDITTILVYRQENNQEVFLTRAHAQGLETEQLALDEAEAASRRLRTAGKTISNQSLLQEVVDRDALVATKKSRKERQKLEQTVLRSAAVDES 8ea4-a1-m1-cY_8ea4-a1-m1-cW V-K CAST Transpososome from Scytonema hofmanni, minor configuration 3.0 ELECTRON MICROSCOPY 133 1.0 34078 (Scytonema hofmannii) 34078 (Scytonema hofmannii) 304 514 8ea3-a1-m1-cY_8ea3-a1-m1-cW DYSNHVWQCDHTRVDVLLVDQHGEILSRPWLTTVIDTYSRCIMGINLGFDAPSSGVVALALRHAILPKRYGSEYKLHCEWGTYGKPEHFYTDGNHLSQIGAQLGFVCHLRPFKTLNDQLFSTLPGYTGDARLTLRELEQLLVRYIVDRYNQSIDARMGDQTRFERWEAGLPTVPVPIPERDLDICLMKQSRRTVQRGGCLQFQNLMYRGEYLAGYAGETVNLRFDPRDITTILVYRQENNQEVFLTRAHAQGLETEQLALDEAEAASRRLRTAGKTISNQSLLQEVVDRDALVATKKSRKERQK LEKNVIATQLSEEAQVKLEVIQSLLEPCDRTTYGQKLREAAEKLNVSLRTVQRLVKNWEQDGLVGLTQTSRADKGKHRIGEFWENFITKTYKEGNKGSKRMTPKQVALRVEAKARELKDSKPPNYKTVLRVLAPILEKQQKAKSIRSPGWRGTTLSVKTREGKDLSVDYSNHVWQCDHTRVDVLLVDQHGEILSRPWLTTVIDTYSRCIMGINLGFDAPSSGVVALALRHAILPKRYGSEYKLHCEWGTYGKPEHFYTDGGKDFRSNHLSQIGAQLGFVCHLRDRPSEGGVVERPFKTLNDQLFSTLPGYTGSNVQERPEDAEKDARLTLRELEQLLVRYIVDRYNQSIDARMGDQTRFERWEAGLPTVPVPIPERDLDICLMKQSRRTVQRGGCLQFQNLMYRGEYLAGYAGETVNLRFDPRDITTILVYRQENNQEVFLTRAHAQGLETEQLALDEAEAASRRLRTAGKTISNQSLLQEVVDRDALVATKKSRKERQKLEQTVLRSAAVDES 8ea4-a1-m1-cZ_8ea4-a1-m1-cW V-K CAST Transpososome from Scytonema hofmanni, minor configuration 3.0 ELECTRON MICROSCOPY 26 1.0 34078 (Scytonema hofmannii) 34078 (Scytonema hofmannii) 301 514 8ea3-a1-m1-cZ_8ea3-a1-m1-cW DYSNHVWQCDHTRVDVLLVDQHGEILSRPWLTTVIDTYSRCIMGINLGFDAPSSGVVALALRHAILPKRYGSEYKLHCEWGTYGKPEHFYTDNHLSQIGAQLGFVCHLRPFKTLNDQLFSTLPGYTGARLTLRELEQLLVRYIVDRYNQSIDARMGDQTRFERWEAGLPTVPVPIPERDLDICLMKQSRRTVQRGGCLQFQNLMYRGEYLAGYAGETVNLRFDPRDITTILVYRQENNQEVFLTRAHAQGLETEQLALDEAEAASRRLRTAGKTISNQSLLQEVVDRDALVATKKSRKERQ LEKNVIATQLSEEAQVKLEVIQSLLEPCDRTTYGQKLREAAEKLNVSLRTVQRLVKNWEQDGLVGLTQTSRADKGKHRIGEFWENFITKTYKEGNKGSKRMTPKQVALRVEAKARELKDSKPPNYKTVLRVLAPILEKQQKAKSIRSPGWRGTTLSVKTREGKDLSVDYSNHVWQCDHTRVDVLLVDQHGEILSRPWLTTVIDTYSRCIMGINLGFDAPSSGVVALALRHAILPKRYGSEYKLHCEWGTYGKPEHFYTDGGKDFRSNHLSQIGAQLGFVCHLRDRPSEGGVVERPFKTLNDQLFSTLPGYTGSNVQERPEDAEKDARLTLRELEQLLVRYIVDRYNQSIDARMGDQTRFERWEAGLPTVPVPIPERDLDICLMKQSRRTVQRGGCLQFQNLMYRGEYLAGYAGETVNLRFDPRDITTILVYRQENNQEVFLTRAHAQGLETEQLALDEAEAASRRLRTAGKTISNQSLLQEVVDRDALVATKKSRKERQKLEQTVLRSAAVDES 8eca-a1-m1-cB_8eca-a1-m2-cC Covalently stabilized triangular trimer derived from Abeta16-36 2.27 X-RAY DIFFRACTION 11 1.0 32630 (synthetic construct) 32630 (synthetic construct) 13 13 8eca-a1-m1-cC_8eca-a1-m2-cB 8eca-a1-m1-cD_8eca-a1-m1-cE 8eca-a1-m1-cD_8eca-a1-m2-cF 8eca-a1-m1-cF_8eca-a1-m2-cD 8eca-a1-m2-cD_8eca-a1-m2-cE KLVFFAECIICMV KLVFFAECIICMV 8eca-a1-m2-cA_8eca-a1-m2-cC Covalently stabilized triangular trimer derived from Abeta16-36 2.27 X-RAY DIFFRACTION 10 1.0 32630 (synthetic construct) 32630 (synthetic construct) 13 13 8eca-a1-m1-cA_8eca-a1-m1-cC KLVFFAECIICMV KLVFFAECIICMV 8ed3-a1-m1-cV_8ed3-a1-m1-cx Structure of a nanoparticle with icosahedral symmetry G4FGY1 G4FGY1 3.5 ELECTRON MICROSCOPY 41 1.0 243274 (Thermotoga maritima MSB8) 243274 (Thermotoga maritima MSB8) 201 201 5kp9-a1-m10-cB_5kp9-a1-m5-cB 5kp9-a1-m11-cB_5kp9-a1-m37-cB 5kp9-a1-m12-cB_5kp9-a1-m46-cB 5kp9-a1-m13-cB_5kp9-a1-m44-cB 5kp9-a1-m14-cB_5kp9-a1-m28-cB 5kp9-a1-m15-cB_5kp9-a1-m20-cB 5kp9-a1-m16-cB_5kp9-a1-m27-cB 5kp9-a1-m17-cB_5kp9-a1-m51-cB 5kp9-a1-m18-cB_5kp9-a1-m59-cB 5kp9-a1-m19-cB_5kp9-a1-m38-cB 5kp9-a1-m1-cB_5kp9-a1-m22-cB 5kp9-a1-m21-cB_5kp9-a1-m42-cB 5kp9-a1-m23-cB_5kp9-a1-m9-cB 5kp9-a1-m24-cB_5kp9-a1-m53-cB 5kp9-a1-m25-cB_5kp9-a1-m30-cB 5kp9-a1-m26-cB_5kp9-a1-m52-cB 5kp9-a1-m29-cB_5kp9-a1-m43-cB 5kp9-a1-m2-cB_5kp9-a1-m41-cB 5kp9-a1-m31-cB_5kp9-a1-m57-cB 5kp9-a1-m32-cB_5kp9-a1-m6-cB 5kp9-a1-m33-cB_5kp9-a1-m4-cB 5kp9-a1-m34-cB_5kp9-a1-m48-cB 5kp9-a1-m35-cB_5kp9-a1-m40-cB 5kp9-a1-m36-cB_5kp9-a1-m47-cB 5kp9-a1-m39-cB_5kp9-a1-m58-cB 5kp9-a1-m3-cB_5kp9-a1-m49-cB 5kp9-a1-m45-cB_5kp9-a1-m50-cB 5kp9-a1-m54-cB_5kp9-a1-m8-cB 5kp9-a1-m55-cB_5kp9-a1-m60-cB 5kp9-a1-m56-cB_5kp9-a1-m7-cB 7b3y-a1-m10-cB_7b3y-a1-m29-cB 7b3y-a1-m11-cB_7b3y-a1-m22-cB 7b3y-a1-m12-cB_7b3y-a1-m38-cB 7b3y-a1-m14-cB_7b3y-a1-m36-cB 7b3y-a1-m15-cB_7b3y-a1-m45-cB 7b3y-a1-m16-cB_7b3y-a1-m5-cB 7b3y-a1-m17-cB_7b3y-a1-m28-cB 7b3y-a1-m18-cB_7b3y-a1-m32-cB 7b3y-a1-m19-cB_7b3y-a1-m55-cB 7b3y-a1-m1-cB_7b3y-a1-m13-cB 7b3y-a1-m20-cB_7b3y-a1-m60-cB 7b3y-a1-m21-cB_7b3y-a1-m39-cB 7b3y-a1-m23-cB_7b3y-a1-m4-cB 7b3y-a1-m24-cB_7b3y-a1-m56-cB 7b3y-a1-m25-cB_7b3y-a1-m49-cB 7b3y-a1-m26-cB_7b3y-a1-m54-cB 7b3y-a1-m27-cB_7b3y-a1-m33-cB 7b3y-a1-m2-cB_7b3y-a1-m48-cB 7b3y-a1-m30-cB_7b3y-a1-m50-cB 7b3y-a1-m31-cB_7b3y-a1-m43-cB 7b3y-a1-m34-cB_7b3y-a1-m53-cB 7b3y-a1-m35-cB_7b3y-a1-m46-cB 7b3y-a1-m37-cB_7b3y-a1-m7-cB 7b3y-a1-m3-cB_7b3y-a1-m57-cB 7b3y-a1-m40-cB_7b3y-a1-m59-cB 7b3y-a1-m41-cB_7b3y-a1-m52-cB 7b3y-a1-m42-cB_7b3y-a1-m8-cB 7b3y-a1-m44-cB_7b3y-a1-m6-cB 7b3y-a1-m47-cB_7b3y-a1-m58-cB 7b3y-a1-m51-cB_7b3y-a1-m9-cB 8e01-a1-m10-cA_8e01-a1-m5-cA 8e01-a1-m11-cA_8e01-a1-m37-cA 8e01-a1-m12-cA_8e01-a1-m46-cA 8e01-a1-m13-cA_8e01-a1-m44-cA 8e01-a1-m14-cA_8e01-a1-m28-cA 8e01-a1-m15-cA_8e01-a1-m20-cA 8e01-a1-m16-cA_8e01-a1-m27-cA 8e01-a1-m17-cA_8e01-a1-m51-cA 8e01-a1-m18-cA_8e01-a1-m59-cA 8e01-a1-m19-cA_8e01-a1-m38-cA 8e01-a1-m1-cA_8e01-a1-m22-cA 8e01-a1-m21-cA_8e01-a1-m42-cA 8e01-a1-m23-cA_8e01-a1-m9-cA 8e01-a1-m24-cA_8e01-a1-m53-cA 8e01-a1-m25-cA_8e01-a1-m30-cA 8e01-a1-m26-cA_8e01-a1-m52-cA 8e01-a1-m29-cA_8e01-a1-m43-cA 8e01-a1-m2-cA_8e01-a1-m41-cA 8e01-a1-m31-cA_8e01-a1-m57-cA 8e01-a1-m32-cA_8e01-a1-m6-cA 8e01-a1-m33-cA_8e01-a1-m4-cA 8e01-a1-m34-cA_8e01-a1-m48-cA 8e01-a1-m35-cA_8e01-a1-m40-cA 8e01-a1-m36-cA_8e01-a1-m47-cA 8e01-a1-m39-cA_8e01-a1-m58-cA 8e01-a1-m3-cA_8e01-a1-m49-cA 8e01-a1-m45-cA_8e01-a1-m50-cA 8e01-a1-m54-cA_8e01-a1-m8-cA 8e01-a1-m55-cA_8e01-a1-m60-cA 8e01-a1-m56-cA_8e01-a1-m7-cA 8ed3-a1-m1-c0_8ed3-a1-m1-c8 8ed3-a1-m1-c1_8ed3-a1-m1-cX 8ed3-a1-m1-c2_8ed3-a1-m1-c7 8ed3-a1-m1-c3_8ed3-a1-m1-cY 8ed3-a1-m1-c4_8ed3-a1-m1-cf 8ed3-a1-m1-c5_8ed3-a1-m1-ca 8ed3-a1-m1-c6_8ed3-a1-m1-cj 8ed3-a1-m1-c9_8ed3-a1-m1-cg 8ed3-a1-m1-cA_8ed3-a1-m1-cZ 8ed3-a1-m1-cb_8ed3-a1-m1-cc 8ed3-a1-m1-cB_8ed3-a1-m1-cM 8ed3-a1-m1-cC_8ed3-a1-m1-cU 8ed3-a1-m1-cd_8ed3-a1-m1-ce 8ed3-a1-m1-cD_8ed3-a1-m1-cv 8ed3-a1-m1-cE_8ed3-a1-m1-cq 8ed3-a1-m1-cF_8ed3-a1-m1-cL 8ed3-a1-m1-cG_8ed3-a1-m1-cW 8ed3-a1-m1-cH_8ed3-a1-m1-cw 8ed3-a1-m1-cI_8ed3-a1-m1-cl 8ed3-a1-m1-cJ_8ed3-a1-m1-cR 8ed3-a1-m1-cK_8ed3-a1-m1-ch 8ed3-a1-m1-cN_8ed3-a1-m1-ci 8ed3-a1-m1-cO_8ed3-a1-m1-ck 8ed3-a1-m1-co_8ed3-a1-m1-cr 8ed3-a1-m1-cP_8ed3-a1-m1-cQ 8ed3-a1-m1-cp_8ed3-a1-m1-ct 8ed3-a1-m1-cS_8ed3-a1-m1-cm 8ed3-a1-m1-cs_8ed3-a1-m1-cu 8ed3-a1-m1-cT_8ed3-a1-m1-cn MEELFKKHKIVAVLRANSVEEAKKKALAVFLGGVHLIEITFTVPDADTVIKELSFLKEMGAIIGAGTVTSVEQCRKAVESGAEFIVSPHLDEEISQFCKEKGVFYMPGVMTPTELVKAMKLGHTILKLFPGEVVGPQFVKAMKGPFPNVKFVPTGGVNLDNVCEWFKAGVLAVGVGSALVKGTPVEVAEKAKAFVEKIRGC MEELFKKHKIVAVLRANSVEEAKKKALAVFLGGVHLIEITFTVPDADTVIKELSFLKEMGAIIGAGTVTSVEQCRKAVESGAEFIVSPHLDEEISQFCKEKGVFYMPGVMTPTELVKAMKLGHTILKLFPGEVVGPQFVKAMKGPFPNVKFVPTGGVNLDNVCEWFKAGVLAVGVGSALVKGTPVEVAEKAKAFVEKIRGC 8edi-a1-m1-cA_8edi-a1-m1-cB Structure of C. elegans UNC-5 IG 1+2 Domains bound to Heparin dp4 Q26261 Q26261 2.11 X-RAY DIFFRACTION 30 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 200 200 DEITITTQPKSGYVIRNKPLRLQCRANHATKIRYKCSSKWIDDSRIEKLIGTDSTSGVGYIDASVDISRIDVDTSGHVDAFQCQCYASGDDDQDVVASDVATVHLAYMRKHFLKSPVAQRVQEGTTLQLPCQAPESDPKAELTWYKDGVVVQPDANVIRASDGSLIMSAARLSDSGNYTCEATNVANSRKTDPVEVQIYH DEITITTQPKSGYVIRNKPLRLQCRANHATKIRYKCSSKWIDDSRIEKLIGTDSTSGVGYIDASVDISRIDVDTSGHVDAFQCQCYASGDDDQDVVASDVATVHLAYMRKHFLKSPVAQRVQEGTTLQLPCQAPESDPKAELTWYKDGVVVQPDANVIRASDGSLIMSAARLSDSGNYTCEATNVANSRKTDPVEVQIYH 8edv-a2-m1-cD_8edv-a2-m1-cC Mitoguardin homolog (MIGA) delta TM residues 106-496 from Caenorhabditis elegans bound to modelled lipid phosphatidylethanolamine Q21096 Q21096 3.3 X-RAY DIFFRACTION 108 0.981 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 309 331 8edv-a1-m1-cB_8edv-a1-m1-cA PIEADITSGQELCTELRKTIEKVHHDMERSIKIEGILKGLKQVEDEIVLLVPQMNELRFLDEGMQAALNGEVKYRKSRMEFCKCDSETDFAAKLYCVRQALTNALKDEHKRVWLAKCGRTLLADFIRHTKQDPVKFFNAYDEMLEYVSNDRNEEQLRQDVEGRGVCETGFYDVAIDFIILDAFEDLKSPPSAVYSVTKNYFMSMSMKYSTLNTIIWSIIKSKRQRLKNPDGFIAKFYNISETVMPAITLGFLGTDERLGELCQYFKEQVVQFVLDVFNTQYRSLEEMSEDVWIVMRNRLEAVQTRMSNE IEADTSGQELCTELRKTIEKVHHNLEMVSSKDMERSIKIEGILKGLKQVEDEIVLLCDIDDIDFVSDAANLDKNELRFLDEGMQAALNGEVKYRKSRMEFCKCDSETDFAAKLYCVRQALTNALKDEHKRVWLAKCGRTLLADFIRHTKQDPVKFFNAYDEMLEYVSNDRNEEQLRQDVEGRGVCETGFYDVAIDFIILDAFEDLKSPPSAVYSVTKNYFMSMSMKYSTLNTIIWSIIKSKRQRLKNPDGFIAKFYNISETVMPAITLGFLGTDERLGELCQYFKEQVVQFVLDVFNTQKVCYRSLEEMSEDVWIVMRNRLEAVQTRMSNE 8ee0-a1-m1-cA_8ee0-a1-m2-cA KS-AT didomain from module 2 of the 6-deoxyerythronolide B synthase in complex with antibody fragment 1B2 Q5UNP6 Q5UNP6 2.65 X-RAY DIFFRACTION 231 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 877 877 8ee1-a1-m1-cA_8ee1-a1-m2-cD ASTDSEKVAEYLRRATLDLRAARQRIRELESEPIAIVGMACRLPGEVDSPERLWELITSGRDSAAEVPDDRGWRAHGNFMAGAGDFDAAFFGISPREALAMDPQQRQALETTWEALESAGIPPETLRGSDTGVFVGMSHQGYATDGYLLTGNTASVASGRIAYVLGLEGPALTVDTACSSSLVALHTACGSLRDGDCGLAVAGGVSVMAGPEVFTEFSRQGALSPDGRCKPFSDEADGFGLGEGSAFVVLQRLSDARREGRRVLGVVAGSAVNQDGASNGLSAPSGVAQQRVIRRAWARAGITGADVAVVEAHGTGTRLGDPVEASALLATYGKSRGSSGPVLLGSVKSNIGHAQAAAGVAGVIKVLLGLERGVVPPMLCRGERSGLIDWSSGEIELADGVREWSPAADGVRRAGVSAFGVSGTNAHVIIAEPPEPEPRRMLPATGVVPVVLSARTGAALRAQAGRLADHLAAHPGIAPADVSWTMARARQHFEERAAVLAADTAEAVHRLRAVADGAVVPGVVTGSASDGGSVFVFPGQGAQWEGMARELLPVPVFAESIAECDAVLSEVAGFSVSEVLEPRPDAPSLERVDVVQPVLFAVMVSLARLWRACGAVPSAVIGHSQGEIAAAVVAGALSLEDGMRVVARRSRAVRAVAGRGSMLSVRGGRSDVEKLLADDLEVAAVNGPDAVVVAGDAQAAREFLEYCEGVGIRARAIPVDYASHTAHVEPVRDELVQALAGITPRRAEVPFFSTLTGDFLDGTELDAGYWYRNLRHPVEFHSAVQALTDQGYATFIEVSPHPVLASSVQETLDDAESDAAVLGTLERDAGDADRFLTALADAHTRGVAVDWEAVLGRAGLVDLPGYPFQGKRFWLLP ASTDSEKVAEYLRRATLDLRAARQRIRELESEPIAIVGMACRLPGEVDSPERLWELITSGRDSAAEVPDDRGWRAHGNFMAGAGDFDAAFFGISPREALAMDPQQRQALETTWEALESAGIPPETLRGSDTGVFVGMSHQGYATDGYLLTGNTASVASGRIAYVLGLEGPALTVDTACSSSLVALHTACGSLRDGDCGLAVAGGVSVMAGPEVFTEFSRQGALSPDGRCKPFSDEADGFGLGEGSAFVVLQRLSDARREGRRVLGVVAGSAVNQDGASNGLSAPSGVAQQRVIRRAWARAGITGADVAVVEAHGTGTRLGDPVEASALLATYGKSRGSSGPVLLGSVKSNIGHAQAAAGVAGVIKVLLGLERGVVPPMLCRGERSGLIDWSSGEIELADGVREWSPAADGVRRAGVSAFGVSGTNAHVIIAEPPEPEPRRMLPATGVVPVVLSARTGAALRAQAGRLADHLAAHPGIAPADVSWTMARARQHFEERAAVLAADTAEAVHRLRAVADGAVVPGVVTGSASDGGSVFVFPGQGAQWEGMARELLPVPVFAESIAECDAVLSEVAGFSVSEVLEPRPDAPSLERVDVVQPVLFAVMVSLARLWRACGAVPSAVIGHSQGEIAAAVVAGALSLEDGMRVVARRSRAVRAVAGRGSMLSVRGGRSDVEKLLADDLEVAAVNGPDAVVVAGDAQAAREFLEYCEGVGIRARAIPVDYASHTAHVEPVRDELVQALAGITPRRAEVPFFSTLTGDFLDGTELDAGYWYRNLRHPVEFHSAVQALTDQGYATFIEVSPHPVLASSVQETLDDAESDAAVLGTLERDAGDADRFLTALADAHTRGVAVDWEAVLGRAGLVDLPGYPFQGKRFWLLP 8eei-a1-m1-cA_8eei-a1-m1-cB Unbound C. ammoniagenes monoamine oxidase (MAO) A0A807MR40 A0A807MR40 1.78 X-RAY DIFFRACTION 88 1.0 1697 (Corynebacterium ammoniagenes) 1697 (Corynebacterium ammoniagenes) 439 440 KVVIIGAGFAGLVAARELQTAGIEYEILEAKDRIGGRAWTEERMGRPLELGATWVHWFQAHTWTEIMRYGQRTEITASPSGNDAHWVTDGKVVKGTEDDLDEKLTAAMGVTYEGSEEYFPNPHDPLWVLSDDFDGPAEVRERFLSDDQTNAIDLVKEAGFDQETIDLVDAFWCAGYIGDPYTGSALMAKQWGALSDNRYRVMEDITLKWKLNNGMRSLYDGIAGDLNTDIRLNTPVAKVEHHDNGATVTTESGEVIEASAVICTVPVGALSNIEFSPALPDAVQSVIDDKWNSQGAKIWIKIKGHHRFLGYAPKPAKMSVVRSEYFMDDDTTILVGFGYDNTNIDLNSIEDAQAVINQWRDDLEVVDTTGHNWVADKWAGQAWGTLRKGQFTQGWSLFDDISQLFFAGSDYAYGWRGVCVDGALEKGMTTARQVINSMR KVVIIGAGFAGLVAARELQTAGIEYEILEAKDRIGGRAWTEERMGRPLELGATWVHWFQAHTWTEIMRYGQRTEITASPSGNDAHWVTDGKVVKGTEDDLDEKLTAAMGVTYEGSEEYFPNPHDPLWVLSDDFDGPAEVRERFLSDDQTNAIDLVKEAGFDQETIDLVDAFWCAGYIGDPYTGSALMAKQWGALSDNRYRVMEDITLKWKLNNGMRSLYDGIAGDLNTDIRLNTPVAKVEHHDNGATVTTESGEVIEASAVICTVPVGALSNIEFSPALPDAVQSVIDDKWNSQGAKIWIKIKGHHRFLGYAPKPAKMSVVRSEYFMDDDTTILVGFGYDNTNIDLNSIEDAQAVINQWRDDLEVVDTTGHNWVADKWAGQAWGTLRKGQFTQGWSLFDDIDSQLFFAGSDYAYGWRGVCVDGALEKGMTTARQVINSMR 8eeq-a1-m1-cB_8eeq-a1-m1-cD CryoEM structures of bAE1 captured in multiple states. Q9XSW5 Q9XSW5 6.3 ELECTRON MICROSCOPY 126 1.0 9913 (Bos taurus) 9913 (Bos taurus) 272 272 VCVQLRELVMDEKNQEIQWMETARWVGLEENLGKDGIWGRPHLPYLNFWSLLELQKAFAKGTVLLDLPGKSLAEVANQLLDRFTFEGQIQPDDQDNLLRVLLLKHSHASDMEALGGVKPVVVTHPSEPLLPQHPSLETELFCEKSPQDWEATLVLVGCARFLKRPVLGFVRLKEPMEPEEEPAVPVRFLIVLLGPEGPNINYTQLGRAAATLMSERVFWNDAYLAQSKETLVQSLEGFLDCSLVLPPLDAPSEKALLSLVPVQKELLRRRYL VCVQLRELVMDEKNQEIQWMETARWVGLEENLGKDGIWGRPHLPYLNFWSLLELQKAFAKGTVLLDLPGKSLAEVANQLLDRFTFEGQIQPDDQDNLLRVLLLKHSHASDMEALGGVKPVVVTHPSEPLLPQHPSLETELFCEKSPQDWEATLVLVGCARFLKRPVLGFVRLKEPMEPEEEPAVPVRFLIVLLGPEGPNINYTQLGRAAATLMSERVFWNDAYLAQSKETLVQSLEGFLDCSLVLPPLDAPSEKALLSLVPVQKELLRRRYL 8ees-a1-m1-cB_8ees-a1-m1-cA Crystal structure of 3-deoxy-manno-octulosonate cytidylyltransferase from Klebsiella pneumoniae A0A0H3GMB7 A0A0H3GMB7 2.5 X-RAY DIFFRACTION 93 0.986 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 1125630 (Klebsiella pneumoniae subsp. pneumoniae HS11286) 209 238 HHMVIIPAPLQDINGKPMIVHVLERARESGADRIIVATDHEDVARAVEAAGGEVCMTGTERLAEVVEKCAFSDDTIIVNIQGDEPMIPPAIVRQVAENLAASSSGMATLAVPIHDAEEAFNPNAVKVVMDAKGYALYFSRATIPWDRDRFAQSRETIGDSLLRHIGIYGYRAGFIRRYVSWAPSPLEQIEMLEQLRVLWYGEKIHVAVA HHMVIIPARFASTRLPGKPLQDINGKPMIVHVLERARESGADRIIVATDHEDVARAVEAAGGEVCMTRTERLAEVVEKCAFSDDTIIVNIQGDEPMIPPAIVRQVAENLAASGMATLAVPIHDAEEAFNPNAVKVVMDAKGYALYFSRATIPWDRDRFAQSRETIGDSLLRHIGIYGYRAGFIRRYVSWAPSPLEQIEMLEQLRVLWYGEKIHVAVAAEVPGTGVDTPEDLERVRAEL 8ef6-a1-m1-cM_8ef6-a1-m1-cR Morphine-bound mu-opioid receptor-Gi complex P35372 P35372 3.2 ELECTRON MICROSCOPY 20 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 287 287 8ef5-a1-m1-cR_8ef5-a1-m1-cM 8efl-a1-m1-cM_8efl-a1-m1-cR 8efo-a1-m1-cM_8efo-a1-m1-cR 8f7q-a1-m1-cM_8f7q-a1-m1-cR 8f7r-a1-m1-cM_8f7r-a1-m1-cR SMITAITIMALYSIVCVVGLFGNFLVMYVIVRYTKMKTATNIYIFNLALADALATSTLPFQSVNYLMGTWPFGTILCKIVISIDYYNMFTSIFTLCTMSVDRYIAVCHPVKALDFRTPRNAKIINVCNWILSSAIGLPVMFMATTKYRQGSIDCTLTFSHPTWYWENLLKICVFIFAFIMPVLIITVCYGLMILRLKSVRMLSGSKEKDRNLRRITRMVLVVVAVFIVCWTPIHIYVIIKALVTIPETTFQTVSWHFCIALGYTNSCLNPVLYAFLDENFKRCFREF SMITAITIMALYSIVCVVGLFGNFLVMYVIVRYTKMKTATNIYIFNLALADALATSTLPFQSVNYLMGTWPFGTILCKIVISIDYYNMFTSIFTLCTMSVDRYIAVCHPVKALDFRTPRNAKIINVCNWILSSAIGLPVMFMATTKYRQGSIDCTLTFSHPTWYWENLLKICVFIFAFIMPVLIITVCYGLMILRLKSVRMLSGSKEKDRNLRRITRMVLVVVAVFIVCWTPIHIYVIIKALVTIPETTFQTVSWHFCIALGYTNSCLNPVLYAFLDENFKRCFREF 8eg3-a1-m2-cA_8eg3-a1-m3-cA Structure of human placental steroid (estrone/DHEA) sulfatase at 2.0 angstrom resolution P08842 P08842 2.04 X-RAY DIFFRACTION 32 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 553 553 1p49-a2-m1-cA_1p49-a2-m2-cA 1p49-a2-m1-cA_1p49-a2-m3-cA 1p49-a2-m2-cA_1p49-a2-m3-cA 8eg3-a1-m1-cA_8eg3-a1-m2-cA 8eg3-a1-m1-cA_8eg3-a1-m3-cA AASRPNIILVMADDLGIGDPGCYGNKTIRTPNIDRLASGGVKLTQHLAASPLTPSRAAFMTGRYPVRSGMASWSRTGVFLFTASSGGLPTDEITFAKLLKDQGYSTALIGKWHLGMSCHSKTDFCHHPLHHGFNYFYGISLTNLRDCKPGEGSVFTTGFKRLVFLPLQIVGVTLLTLAALNCLGLLHVPLGVFFSLLFLAALILTLFLGFLHYFRPLNCFMMRNYEIIQQPMSYDNLTQRLTVEAAQFIQRNTETPFLLVLSYLHVHTALFSSKDFAGKSQHGVYGDAVEEMDWSVGQILNLLDELRLANDTLIYFTSDQGAHVEEVSSKGEIHGGSNGIYKGGKANNWEGGIRVPGILRWPRVIQAGQKIDEPTSNMDIFPTVAKLAGAPLPEDRIIDGRDLMPLLEGKSQRSDHEFLFHYCNAYLNAVRWHPQNSTSIWKAFFFTPNFNPVGSNGCFATHVCFCFGSYVTHHDPPLLFDISKDPRERNPLTPASEPRFYEILKVMQEAADRHTQTLPEVPDQFSWNNFLWKPWLQLCCPSTGLSCQCDREK AASRPNIILVMADDLGIGDPGCYGNKTIRTPNIDRLASGGVKLTQHLAASPLTPSRAAFMTGRYPVRSGMASWSRTGVFLFTASSGGLPTDEITFAKLLKDQGYSTALIGKWHLGMSCHSKTDFCHHPLHHGFNYFYGISLTNLRDCKPGEGSVFTTGFKRLVFLPLQIVGVTLLTLAALNCLGLLHVPLGVFFSLLFLAALILTLFLGFLHYFRPLNCFMMRNYEIIQQPMSYDNLTQRLTVEAAQFIQRNTETPFLLVLSYLHVHTALFSSKDFAGKSQHGVYGDAVEEMDWSVGQILNLLDELRLANDTLIYFTSDQGAHVEEVSSKGEIHGGSNGIYKGGKANNWEGGIRVPGILRWPRVIQAGQKIDEPTSNMDIFPTVAKLAGAPLPEDRIIDGRDLMPLLEGKSQRSDHEFLFHYCNAYLNAVRWHPQNSTSIWKAFFFTPNFNPVGSNGCFATHVCFCFGSYVTHHDPPLLFDISKDPRERNPLTPASEPRFYEILKVMQEAADRHTQTLPEVPDQFSWNNFLWKPWLQLCCPSTGLSCQCDREK 8egk-a1-m1-cA_8egk-a1-m1-cB Re-refinement of Crystal Structure of NosGet3d, the All4481 protein from Nostoc sp. PCC 7120 Q8YNT0 Q8YNT0 1.98 X-RAY DIFFRACTION 198 0.992 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 353 353 3igf-a1-m1-cA_3igf-a1-m1-cB ALILTFLGKSGVARTKIAIAAAKLLASQGKRVLLAGLAEPVLPLLLEQTLTPDPQQIAPNLEVVQFQSSVLLERNWEEVKKLEAQYLRTPIIKEVYGQELVVLPGDSALALNAIREYDASGKYDTIVYDGTGDAFTLRLGLPESLSWYVRRFRQLFVNSDLGKTIAESPLIQPLISSFFNQVNNFLDKGKEALADPKRVAAFLVTTADPLEVVSVRYLWGSAQQIGLTIGGVIQVSSQTEGDLSAEFTPLSVTVVPDVTKGDWQPLIDALPNFVEQAEQAPKPITIDTHNRQVRLFLPGFDKKQVKLTQYGPEVTVEAGDQRRNIFLPPALSGRPITGAKFQNNYLIISFLEH ALILTFLGKSGVARTKIAIAAAKLLASQGKRVLLAGLAEPVLPLLLEQTLTPDPQQIAPNLEVVQFQSSVLLERNWEEVKKLEAQYLRTPIIKEVYGQELVVLPGDSALALNAIREYDASGKYDTIVYDGTGDAFTLRLGLPESLSWYVRRFRQLFVNSDLGKTIAESPLIQPLISSFFQPTNQVNNFLDKGKEALADPKRVAAFLVTTADPLEVVSVRYLWGSAQQIGLTIGGVIQVSSQTEGDLSAEFTPLSVTVVPDVTKGDWQPLIDALPNFVEQAEQAPKPITIDTHNRQVRLFLPGFDKKQVKLTQYGPEVTVEAGDQRRNIFLPPALSGRPITGAKFQNNYLIISF 8egs-a1-m5-cY_8egs-a1-m6-cY Tail knob structure of Staphylococcus phage Andhra A0A1S6L1I1 A0A1S6L1I1 3.92 ELECTRON MICROSCOPY 320 1.0 1958907 (Staphylococcus phage Andhra) 1958907 (Staphylococcus phage Andhra) 586 586 8egs-a1-m1-cY_8egs-a1-m2-cY 8egs-a1-m1-cY_8egs-a1-m6-cY 8egs-a1-m2-cY_8egs-a1-m3-cY 8egs-a1-m3-cY_8egs-a1-m4-cY 8egs-a1-m4-cY_8egs-a1-m5-cY DRKLTHFKFFYNTPLTDYQNTIHFSSNNERDNYFLNENHFNAIDYKNIPFNFIRDRNMVNLEQMSWQDAQGINYCTFKSDFENRRYYAFVNQIEYVNDHVTRMYLVIDTVMTYTQGNVLSTVQNAFVERQHLPRDVYNYLLPSLRNNDDVIKASNKYYLNNYLEQFGGNLVLFQSSADLSKKFGTKKEPNLESSKGITYDYITSPVNLYVMNREDFNNFMDKMSKYPWITQNFQKIILIPATFINKDDLEAVKTQEDIKGLMTLKNDKLSNEWELKELRVPFERLQYMLNSNQDELKHLVRNEYLTIEIYSWNGDSLLLDAGKITERTGVKLKTKSIIGYHNEVRIYPVDYNSAPNEKPIKASDNSILIDTGSFLNTAITFDSFAEVPILIDNGLLAQSQQANKQKNAQSNLISNRINNVVNGNDLKSRFYDAVSIGSNLSPTALFSKFNDEYNYYKELRAEYKDLALQPPTVTSSQMGNAFQIANSINGLTMKIGVPAPFDMDNIQRYYFMLGFETNDQAGTPFPIDSWTVCNYLRMRGTYTIDGIDPMLLEQLKVLLETGVRFWHNDGTNNPMAQNVFKNKFRK DRKLTHFKFFYNTPLTDYQNTIHFSSNNERDNYFLNENHFNAIDYKNIPFNFIRDRNMVNLEQMSWQDAQGINYCTFKSDFENRRYYAFVNQIEYVNDHVTRMYLVIDTVMTYTQGNVLSTVQNAFVERQHLPRDVYNYLLPSLRNNDDVIKASNKYYLNNYLEQFGGNLVLFQSSADLSKKFGTKKEPNLESSKGITYDYITSPVNLYVMNREDFNNFMDKMSKYPWITQNFQKIILIPATFINKDDLEAVKTQEDIKGLMTLKNDKLSNEWELKELRVPFERLQYMLNSNQDELKHLVRNEYLTIEIYSWNGDSLLLDAGKITERTGVKLKTKSIIGYHNEVRIYPVDYNSAPNEKPIKASDNSILIDTGSFLNTAITFDSFAEVPILIDNGLLAQSQQANKQKNAQSNLISNRINNVVNGNDLKSRFYDAVSIGSNLSPTALFSKFNDEYNYYKELRAEYKDLALQPPTVTSSQMGNAFQIANSINGLTMKIGVPAPFDMDNIQRYYFMLGFETNDQAGTPFPIDSWTVCNYLRMRGTYTIDGIDPMLLEQLKVLLETGVRFWHNDGTNNPMAQNVFKNKFRK 8ehr-a1-m1-cE_8ehr-a1-m1-cG Cryo-EM reconstruction of the CFA/I bacterial adhesion pili P0CK93 P0CK93 3.2 ELECTRON MICROSCOPY 10 1.0 562 (Escherichia coli) 562 (Escherichia coli) 146 146 8ehr-a1-m1-cB_8ehr-a1-m1-cD 8ehr-a1-m1-cC_8ehr-a1-m1-cF VEKNITVTASVDPAIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG VEKNITVTASVDPAIDLLQADGNALPSAVKLAYSPASKTFESYRVMTQVHTNDATKKVIVKLADTPQLTDVLNSTVQMPISVSWGGQVLSTTAKEFEAAALGYSASGVNGVSSSQELVISAAPKTAGTAPTAGNYSGVVSLVMTLG 8ein-a2-m1-cC_8ein-a2-m1-cD Crystal structure of WT cyanophycin dipeptide hydrolase CphZ from Acinetobacter baylyi DSM587 Q6FCQ4 Q6FCQ4 2.7 X-RAY DIFFRACTION 98 0.997 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 364 365 8ein-a1-m1-cA_8ein-a1-m1-cB 8eip-a1-m1-cA_8eip-a1-m1-cB 8eip-a1-m1-cC_8eip-a1-m1-cD 8eip-a2-m1-cC_8eip-a2-m1-cD TSACENFLLPADQDGIQRQVTIFRYGQENSAPKAYLQAGLHADEFPGMLALKYLRDLLDEAARRNRIKGEIVIIPQANPIGLSQWKDGFLLGRFDHQTGTNFNRDYPDLCQLTVEKLDGQLTENAEHNIDVIRKTMRSALSELKPEQAVDVLRHKLISESCDADLVLDLHADNQAQCHMYTLTPLWPAMHDVAAEIDARAVLLAEESGGHPFDEACSAPWMNLSRAFPDYPIPLACQSATFELGSNDEVDLRLAQDQAEALFRILIRRGFIEDVHVGELPQLACEGTLLEAMQQLKAPCQGLIVYHNRLGDFVRSGDKVVSIVDPIGETVDILAHTDGVLFARHSQTYAYPNKVIGKIAGKEPL SACENFLLPADQDGIQRQVTIFRYGQENSAPKAYLQAGLHADEFPGMLALKYLRDLLDEAARRNRIKGEIVIIPQANPIGLSQWKDGFLLGRFDHQTGTNFNRDYPDLCQLTVEKLDGQLTENAEHNIDVIRKTMRSALSELKPEQAVDVLRHKLISESCDADLVLDLHADNQAQCHMYTLTPLWPAMHDVAAEIDARAVLLAEESGGHPFDEACSAPWMNLSRAFPDYPIPLACQSATFELGSNDEVDLRLAQDQAEALFRILIRRGFIEDVHVGELPQLACEGTLLEAMQQLKAPCQGLIVYHNRLGDFVRSGDKVVSIVDPIGETVDILAHTDGVLFARHSQTYAYPNKVIGKIAGKEPLPE 8eip-a1-m1-cA_8eip-a1-m1-cC Crystal structure of cyanophycin dipeptide hydrolase CphZ E251A from Acinetobacter baylyi DSM587 in complex with beta-Asp-Arg Q6FCQ4 Q6FCQ4 2.24 X-RAY DIFFRACTION 19 1.0 62977 (Acinetobacter baylyi ADP1) 62977 (Acinetobacter baylyi ADP1) 364 364 TSACENFLLPADQDGIQRQVTIFRYGQENSAPKAYLQAGLHADEFPGMLALKYLRDLLDEAARRNRIKGEIVIIPQANPIGLSQWKDGFLLGRFDHQTGTNFNRDYPDLCQLTVEKLDGQLTENAEHNIDVIRKTMRSALSELKPEQAVDVLRHKLISESCDADLVLDLHADNQAQCHMYTLTPLWPAMHDVAAEIDARAVLLAEESGGHPFDEACSAPWMNLSRAFPDYPIPLACQSATFALGSNDEVDLRLAQDQAEALFRILIRRGFIEDVHVGELPQLACEGTLLEAMQQLKAPCQGLIVYHNRLGDFVRSGDKVVSIVDPIGETVDILAHTDGVLFARHSQTYAYPNKVIGKIAGKEPL TSACENFLLPADQDGIQRQVTIFRYGQENSAPKAYLQAGLHADEFPGMLALKYLRDLLDEAARRNRIKGEIVIIPQANPIGLSQWKDGFLLGRFDHQTGTNFNRDYPDLCQLTVEKLDGQLTENAEHNIDVIRKTMRSALSELKPEQAVDVLRHKLISESCDADLVLDLHADNQAQCHMYTLTPLWPAMHDVAAEIDARAVLLAEESGGHPFDEACSAPWMNLSRAFPDYPIPLACQSATFALGSNDEVDLRLAQDQAEALFRILIRRGFIEDVHVGELPQLACEGTLLEAMQQLKAPCQGLIVYHNRLGDFVRSGDKVVSIVDPIGETVDILAHTDGVLFARHSQTYAYPNKVIGKIAGKEPL 8eis-a1-m1-cD_8eis-a1-m1-cE Cryo-EM structure of octopus sensory receptor CRT1 A0A0L8FVQ9 A0A0L8FVQ9 2.62 ELECTRON MICROSCOPY 134 1.0 37653 (Octopus bimaculoides) 37653 (Octopus bimaculoides) 292 292 8eis-a1-m1-cA_8eis-a1-m1-cB 8eis-a1-m1-cA_8eis-a1-m1-cE 8eis-a1-m1-cB_8eis-a1-m1-cC 8eis-a1-m1-cC_8eis-a1-m1-cD TPTYGDERLLREKLLTNYSKSIRPVINLTKVVDVTALLYLQTLYDLDFVNNFIMARYYLGLIWIDEKLTWNPLDYNNITSIYLPKDKIWTPPIKMCNSMDKSEENDGVGELMLTYTGWINMWSFRLLHTYCQINAYTYPFDEHTCEIYLCVALHTINHTRIKELIYEDSKFTQNYKWDINVSGKVNGTDELFSYAFAPMYLRRKLTVGIIAMLIPTVMMTILTIFVFLLPPESGEKVSLATTIFLSNVLYLVQIDKTTPTNTKYPSLLMLYLMLLSMLSGIATLGSVVISKL TPTYGDERLLREKLLTNYSKSIRPVINLTKVVDVTALLYLQTLYDLDFVNNFIMARYYLGLIWIDEKLTWNPLDYNNITSIYLPKDKIWTPPIKMCNSMDKSEENDGVGELMLTYTGWINMWSFRLLHTYCQINAYTYPFDEHTCEIYLCVALHTINHTRIKELIYEDSKFTQNYKWDINVSGKVNGTDELFSYAFAPMYLRRKLTVGIIAMLIPTVMMTILTIFVFLLPPESGEKVSLATTIFLSNVLYLVQIDKTTPTNTKYPSLLMLYLMLLSMLSGIATLGSVVISKL 8eiz-a1-m1-cA_8eiz-a1-m1-cE Cryo-EM structure of squid sensory receptor CRB1 3.13 ELECTRON MICROSCOPY 89 1.0 61742 (Sepioloidea lineolata) 61742 (Sepioloidea lineolata) 315 315 8eiz-a1-m1-cA_8eiz-a1-m1-cB 8eiz-a1-m1-cB_8eiz-a1-m1-cC 8eiz-a1-m1-cC_8eiz-a1-m1-cD 8eiz-a1-m1-cD_8eiz-a1-m1-cE CWTYEEEYYFRSNFLQQYNKDIRPLNDLSKPISVGIHLEIAKMNDFNLAEGRLKIQTYLILQWYDEKIFWNESTYPIPKLMVSSKKIWSPAISVYYTENEMDSKDQFQMEIYKNGSVHQWKSFYFNILCDVNARAFPFDKYTCETMFYFNDYDIQTAIFSSFRCISSTDLSRKAWYVSFSCDTKIGEEGSLGQLSLKLVRKVSLQCLSVLLPLFIFFILNIMIGYLPIESGEKVTFATTVFLSNVIYIDNLSKQLPKESSEIPLIFLCHIFLAFLSGLSAVGTIITSKIILYIMTFISILCALVFTSLFFESFLD CWTYEEEYYFRSNFLQQYNKDIRPLNDLSKPISVGIHLEIAKMNDFNLAEGRLKIQTYLILQWYDEKIFWNESTYPIPKLMVSSKKIWSPAISVYYTENEMDSKDQFQMEIYKNGSVHQWKSFYFNILCDVNARAFPFDKYTCETMFYFNDYDIQTAIFSSFRCISSTDLSRKAWYVSFSCDTKIGEEGSLGQLSLKLVRKVSLQCLSVLLPLFIFFILNIMIGYLPIESGEKVTFATTVFLSNVIYIDNLSKQLPKESSEIPLIFLCHIFLAFLSGLSAVGTIITSKIILYIMTFISILCALVFTSLFFESFLD 8ej5-a1-m1-cB_8ej5-a1-m1-cC Tail tip structure of Staphylococcus phage Andhra 4.9 ELECTRON MICROSCOPY 25 1.0 1958907 (Staphylococcus phage Andhra) 1958907 (Staphylococcus phage Andhra) 90 90 VTNEKGQAYTEMLQLFNLLQQWNDFYTAENANNLLVACQQLLINYNEPVIKFINDENEDKSLLQYLAGDDGLAQWQFYKGFYNNYNVHIF VTNEKGQAYTEMLQLFNLLQQWNDFYTAENANNLLVACQQLLINYNEPVIKFINDENEDKSLLQYLAGDDGLAQWQFYKGFYNNYNVHIF 8ej5-a1-m1-cC_8ej5-a1-m1-cD Tail tip structure of Staphylococcus phage Andhra 4.9 ELECTRON MICROSCOPY 61 1.0 1958907 (Staphylococcus phage Andhra) 1958907 (Staphylococcus phage Andhra) 90 90 VTNEKGQAYTEMLQLFNLLQQWNDFYTAENANNLLVACQQLLINYNEPVIKFINDENEDKSLLQYLAGDDGLAQWQFYKGFYNNYNVHIF VTNEKGQAYTEMLQLFNLLQQWNDFYTAENANNLLVACQQLLINYNEPVIKFINDENEDKSLLQYLAGDDGLAQWQFYKGFYNNYNVHIF 8elf-a1-m1-cA_8elf-a1-m1-cB Structure of Get3d, a homolog of Get3, from Arabidopsis thaliana Q6DYE4 Q6DYE4 2 X-RAY DIFFRACTION 216 0.992 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 381 384 TKFVTFLGKGGSGKTTAAVFAAQHYALAGLSTCLVIHNQDPSAEFLLGSKIGTSPTLINDNLSVIRLETTKMLLEPLKQLKQADARLNMTQGVLEGVVGEELGVLPGMDSIFSMLELERLVGFFRQATRKNHKGKPFDVIIYDGISTEETLRMIGLSSKTRLYAKYLRSLAEKTDLGRLTSPSIMRFVDESMMTSPAMWDTLERFLETGASAWRDPERFRSFLVMDPNNPMSVKAALRYWGCTVQAGSHVSGAFAISSSHLQIPKADFVPLPFASASVPFTITGLDWDKILLDQANSSIRELLSETVLTQTVMFDTAKKLVTLFMPGFEKSEIKLYQYRGGSELLIEAGDQRRVIHLPSQIQGKVGGAKFVDRSLIVTMRL TKFVTFLGKGGSGKTTAAVFAAQHYALAGLSTCLVIHNQDPSAEFLLGSKIGTSPTLINDNLSVIRLETTKMLLEPLKQLKQADARLNMTQGVLEGVVGEELGVLPGMDSIFSMLELERLVGFFRQATRKNHKGKPFDVIIYDGISTEETLRMIGLSSKTRLYAKYLRSLAEKTDLGRLTSPSIMRFVDESMNITSPAMWDTLERFLETGASAWRDPERFRSFLVMDPNNPMSVKAALRYWGCTVQAGSHVSGAFAISSSHLTSQIPKADFVPLPFASASVPFTITGLDWDKILLDQANSSIRELLSETVSHQTVMFDTAKKLVTLFMPGFEKSEIKLYQYRGGSELLIEAGDQRRVIHLPSQIQGKVGGAKFVDRSLIVTMRL 8em2-a1-m1-cB_8em2-a1-m1-cA Cryo-EM structure of the human GDH/6PGL endoplasmic bifunctional protein O95479 O95479 3.02 ELECTRON MICROSCOPY 109 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 500 502 GHVSIILLGATGDLAKKYLWQGLFQLYLDEAGHSFSFHGAALTAPKQGQELMAKALESLSCPKDMAPSHCAEHKDQFLQLSQYRQLKTAEDYQALNKDIEAQLQHAGLREAGRIFYFSVPPFAYEDIARNINSSCRPGPGAWLRVVLEKPFGHDHFSAQQLATELGTFFQEEEMYRVDHYLGKQAVAQILPFRDQNRKALDGLWNRHHVERVEIIMKETVDAEGRTSFYEEYGVIRDVLQNHLTEVLTLVAMELPHNVSSAEAVLRHKLQVFQALRGLQRGSAVVGQYQSYSEQVRRELQKPDSFHSLTPTFAAVLVHIDNLRWEGVPFILMSGKALDERVGYARILFKNQACCVQSEKHWAAAQSQCLPRQLVFHIGHGDLGSPAVLVSRNLFRPSLPSSWKEMEGPPGLRLFGSPLSDYYAYSPVRERDAHSVLLSHIFHGRKNFFITTENLLASWNFWTPLLESLAHKAPRLYPGGAENGRLLDFEFSSGRLFFSQQ QGHVSIILLGATGDLAKKYLWQGLFQLYLDEAGRGHSFSFHGAALTAPKQGQELMAKALESLSCPKAPSHCAEHKDQFLQLSQYRQLKTAEDYQALNKDIEAQLQHAGLREAGRIFYFSVPPFAYEDIARNINSSCRPGPGAWLRVVLEKPFGHDHFSAQQLATELGTFFQEEEMYRVDHYLGKQAVAQILPFRDQNRKALDGLWNRHHVERVEIIMKETVDAEGRTSFYEEYGVIRDVLQNHLTEVLTLVAMELPHNVSSAEAVLRHKLQVFQALRGLQRGSAVVGQYQSYSEQVRRELQKPDSFHSLTPTFAAVLVHIDNLRWEGVPFILMSGKALDERVGYARILFKNQACCVQSEKHWAAAQSQCLPRQLVFHIGHGDLGSPAVLVSRNLFRPSLPSSWKEMEGPPGLRLFGSPLSDYYAYSPVRERDAHSVLLSHIFHGRKNFFITTENLLASWNFWTPLLESLAHKAPRLYPGGAENGRLLDFEFSSGRLFFSQQQ 8em4-a1-m1-cA_8em4-a1-m1-cB Cryo-EM structure of LRP2 at pH 7.5 A2ARV4 A2ARV4 2.83 ELECTRON MICROSCOPY 320 1.0 10090 (Mus musculus) 10090 (Mus musculus) 3818 3818 CGSGNFRCDNGYCIPASWRCDGTRDCLDDTDEIGCPPRSCGSGFFLCPAEGTCIPSSWVCDQDKDCSDGADEQQNCDTCGGHQFTCSNGQCINQNWVCDGDDDCQDSGDEDGCESNQRHHTCYPREWACPGSGRCISMDKVCDGVPDCPEGEDEYCGTGLCSILNCEYQCHQTPYGGECFCPPGHIINSNDSRTCIDFDDCQIWGICDQKCESRQGRHQCLCEEGYILERGQHCKSNDSFSAASIIFSNGRDLLVGDLHGRNFRILAESKNRGIVMGVDFHYQKHRVFWTDPMQAKVFSTDINGLNTQEILNVSIDAPENLAVDWINNKLYLVETRVNRIDVVNLEGNQRVTLITENLGHPRGIALDPTVGYLFFSDWGSLSGQPKVERAFMDGSNRKDLVTTKLGWPAGITLDLVSKRVYWVDSRYDYIETVTYDGIQRKTVARGGSLVPHPFGISLFEEHVFFTDWTKMAVMKANKFTDTNPQVYHQSSLTPFGVTVYHALRQPNATNPCGNNNGGCAQICVLSHRTDNGGLGYRCKCEFGFELDADEHHCVAVKNFLLFSSQTAVRGIPFTLSTQEDVMVPVTGSPSFFVGIDFDAQHSTIFYSDLSKNIIYQQKIDGTGKEVITANRLQNVECLSFDWISRNLYWTDGGSKSVTVMKLADKSRRQIISNLNNPRSIVVHPAAGYMFLSDWFRPAKIMRAWSDGSHLMPIVNTSLGWPNGLAIDWSTSRLYWVDAFFDKIEHSNLDGLDRKRLGHVDQMTHPFGLTVFKDNVFLTDWRLGAIIRVRKSDGGDMTVVRRGISSIMHVKAYDADLQTGTNYCSQTTHPNGDCSHFCFPVPNFQRVCGCPYGMKLQRDQMTCEGDPAREPPTQQCGSSSFPCNNGKCVPSIFRCDGVDDCHDNSDEHQCGALNNTCSSSAFTCVHGGQCIPGQWRCDKQNDCLDGSDEQNCPTRSPSSTCPPTSFTCDNHMCIPKEWVCDTDNDCSDGSDEKNCQASGTCHPTQFRCPDHRCISPLYVCDGDKDCVDGSDEAGCVLNCTSSQFKCADGSSCINSRYRCDGVYDCKDNSDEAGCPTRPPGMCHPDEFQCQGDGTCIPNTWECDGHPDCIQGSDEHNGCVPKTNQDSCLHFNGGCTHRCIQGPFGATCVCPIGYQLANDTKTCEDVNECDIPGFCSQHCVNMRGSFRCACDPEYTLESDGRTCKVTASENLLLVVASRDKIIMDNITAHTHNIYSLVQDVSFVVALDFDSVTGRVFWSDLLEGKTWSAFQNGTDKRVVHDSGLSLTEMIAVDWIGRNIYWTDYTLETIEVSKIDGSHRTVLISKNVTKPRGLALDPRMGDNVMFWSDWGHHPRIERASMDGTMRTVIVQEKIYWPCGLSIDYPNRLIYFMDAYLDYIEFCDYDGQNRRQVIASDLVLHHPHALTLFEDSVFWTDRGTHQVMQANKWHGRNQSVVMYSVPQPLGIIAIHPSRQPSSPNPCASATCSHLCLLSAQEPRHYSCACPSGWNLSDDSVNCVRGDQPFLISVRENVIFGISLDPEVKSNDAMVPISGIQHGYDVEFDDSEQFIYWVENPGEIHRVKTDGSNRTAFAPLSLLGSSLGLALDWVSRNIYYTTPASRSIEVLTLRGDTRYGKTLITNDGTPLGVGFPVGIAVDPARGKLYWSDHGTDSGVPAKIASANMDGTSLKILFTGNMEHLEVVTLDIQEQKLYWAVTSRGVIERGNVDGTERMILVHHLAHPWGLVVHGSFLYYSDEQYEVIERVDKSSGSNKVVFRDNIPYLRGLRVYHHRNAADSSNGCSNNPNACQQICLPVPGGMFSCACASGFKLSPDGRSCSPYNSFIVVSMLPAVRGFSLELSDHSEAMVPVAGQGRNVLHADVDVANGFIYWCDFSSSVRSSNGIRRIKPNGSNFTNIVTYGIGANGIRGVAVDWVAGNLYFTNAFVYETLIEVIRINTTYRRVLLKVSVDMPRHIVVDPKHRYLFWADYGQKPKIERSFLDCTNRTVLVSEGIVTPRGLAVDHDTGYIYWVDDSLDIIARIHRDGGESQVVRYGSRYPTPYGITVFGESIIWVDRNLRKVFQASKQPGNTDPPTVIRDSINLLRDVTIFDEHVQPLSPAELNNNPCLQSNGGCSHFCFALPELPTPKCGCAFGTLEDDGKNCATSREDFLIYSLNNSLRSLHFDPQDHNLPFQAISVEGMAIALDYDRRNNRIFFTQKLNPIRGQISYVNLYSGASSPTILLSNIGVTDGIAFDWINRRIYYSDFSNQTINSMAEDGSNRAVIARVSKPRAIVLDPCRGYMYWTDWGTNAKIERATLGGNFRVPIVNTSLVWPNGLTLDLETDLLYWADASLQKIERSTLTGSNREVVISTAFHSFGLTVYGQYIYWTDFYTKKIYRANKYDGSDLIAMTTRLPTQPSGISTVVKTQQQQCSNPCDQFNGGCSHICAPGPNGAECQCPHEGSWYLANDNKYCVVDTGARCNQFQFTCLNGRCISQDWKCDNDNDCGDGSDELPTVCAFHTCRSTAFTCANGRCVPYHYRCDFYNDCGDNSDEAGCLFCRDDQFTCQNGQCITKLYVCDEDNDCGDGSDEQEHLCHTPEPTCPPHQFRCDNGHCIEMGTVCNHVDDCSDNSDEKGCGINECQDSSISHCDHNCTDTITSFYCSCLPGYKLMSDKRTCVDIDECKETPQLCSQKCENVIGSYICKCAPGYIREPDGKSCRQNSNIEPYLVFSNRYYIRNLTIDGTSYSLILQGLGNVVALDFDRVEERLYWIDAEKQIIERMFLNKTNQETIISHRLRRAESLAVDWVSRKLYWLDAILDCLFVSDLEGRQRKMLAQHCVDANNTFCFENPRGIVLHPQRGYVYWADWGDHAYIARIGMDGTNKTVIISTKIEWPNAITIDYTNDLLYWADAHLGYIEFSDLEGHHRHTVYDGTLPHPFALTIFEDTVFWTDWNTRTVEKGNKYDGSGRVVLVNTTHKPFDIHVLHPYRQPIMSNPCATNNGGCSHLCLIKAGGRGFTCECPDDFQTVQLRDRTLCMPMCSSTQFLCGNNEKCIPIWWKCDGQKDCSDGSDESDLCPHRFCRLGQFQCRDGNCTSPQALCNARQDCADGSDEDRVLCEHHRCEANEWQCANKRCIPEYWQCDSVDDCLDNSDEDPSHCASRTCRPGQFKCNNGRCIPQSWKCDVDNDCGDYSDEPIHECMTAAYNCDNHTEFSCKTNYRCIPQWAVCNGFDDCRDNSDEQGCESVPCHPSGDFRCGNHHCIPLRWKCDGIDDCGDNSDEESCVPRECTESEFRCADQQCIPSRWVCDQENDCGDNSDERDCEMKTCHPEHFQCTSGHCVPKALACDGRADCLDASDESACPTRFPNGTYCPAAMFECKNHVCIQSFWICDGENDCVDGSDEEIHLCCRPGFKPSTLDKNSCQDINECEEFGICPQSCRNSKGSYECFCVDGFKSMSTHYGERCAADGSPPLLLLPENVRIRKYNISSEKFSEYLEEEEHIQAIDYDWDPEGIGLSVVYYTVLSQGSQFGAIKRAYLPDFESGSNNPVREVDLGLKYLMQPDGLAVDWVGRHIYWSDAKSQRIEVATLDGRYRKWLITTQLDQPAAIAVNPKLGLMFWTDQGKQPKIESAWMNGEHRSVLASANLGWPNGLSIDYLNGDRIYWSDSKEDVIESIKYDGTDRRLIINDAMKPFSLDIFEDQLYWVAKEKGEVWRQNKFGKGNKEKLLVVNPWLTQVRIFHQLRYNQSVSNPCKQVCSHLCLLRPGGYSCACPQGSDFVTGSTVECDAASELPITMPSPCRCMHGGSCYFDENDLPKCKCSSGYSGEYCE CGSGNFRCDNGYCIPASWRCDGTRDCLDDTDEIGCPPRSCGSGFFLCPAEGTCIPSSWVCDQDKDCSDGADEQQNCDTCGGHQFTCSNGQCINQNWVCDGDDDCQDSGDEDGCESNQRHHTCYPREWACPGSGRCISMDKVCDGVPDCPEGEDEYCGTGLCSILNCEYQCHQTPYGGECFCPPGHIINSNDSRTCIDFDDCQIWGICDQKCESRQGRHQCLCEEGYILERGQHCKSNDSFSAASIIFSNGRDLLVGDLHGRNFRILAESKNRGIVMGVDFHYQKHRVFWTDPMQAKVFSTDINGLNTQEILNVSIDAPENLAVDWINNKLYLVETRVNRIDVVNLEGNQRVTLITENLGHPRGIALDPTVGYLFFSDWGSLSGQPKVERAFMDGSNRKDLVTTKLGWPAGITLDLVSKRVYWVDSRYDYIETVTYDGIQRKTVARGGSLVPHPFGISLFEEHVFFTDWTKMAVMKANKFTDTNPQVYHQSSLTPFGVTVYHALRQPNATNPCGNNNGGCAQICVLSHRTDNGGLGYRCKCEFGFELDADEHHCVAVKNFLLFSSQTAVRGIPFTLSTQEDVMVPVTGSPSFFVGIDFDAQHSTIFYSDLSKNIIYQQKIDGTGKEVITANRLQNVECLSFDWISRNLYWTDGGSKSVTVMKLADKSRRQIISNLNNPRSIVVHPAAGYMFLSDWFRPAKIMRAWSDGSHLMPIVNTSLGWPNGLAIDWSTSRLYWVDAFFDKIEHSNLDGLDRKRLGHVDQMTHPFGLTVFKDNVFLTDWRLGAIIRVRKSDGGDMTVVRRGISSIMHVKAYDADLQTGTNYCSQTTHPNGDCSHFCFPVPNFQRVCGCPYGMKLQRDQMTCEGDPAREPPTQQCGSSSFPCNNGKCVPSIFRCDGVDDCHDNSDEHQCGALNNTCSSSAFTCVHGGQCIPGQWRCDKQNDCLDGSDEQNCPTRSPSSTCPPTSFTCDNHMCIPKEWVCDTDNDCSDGSDEKNCQASGTCHPTQFRCPDHRCISPLYVCDGDKDCVDGSDEAGCVLNCTSSQFKCADGSSCINSRYRCDGVYDCKDNSDEAGCPTRPPGMCHPDEFQCQGDGTCIPNTWECDGHPDCIQGSDEHNGCVPKTNQDSCLHFNGGCTHRCIQGPFGATCVCPIGYQLANDTKTCEDVNECDIPGFCSQHCVNMRGSFRCACDPEYTLESDGRTCKVTASENLLLVVASRDKIIMDNITAHTHNIYSLVQDVSFVVALDFDSVTGRVFWSDLLEGKTWSAFQNGTDKRVVHDSGLSLTEMIAVDWIGRNIYWTDYTLETIEVSKIDGSHRTVLISKNVTKPRGLALDPRMGDNVMFWSDWGHHPRIERASMDGTMRTVIVQEKIYWPCGLSIDYPNRLIYFMDAYLDYIEFCDYDGQNRRQVIASDLVLHHPHALTLFEDSVFWTDRGTHQVMQANKWHGRNQSVVMYSVPQPLGIIAIHPSRQPSSPNPCASATCSHLCLLSAQEPRHYSCACPSGWNLSDDSVNCVRGDQPFLISVRENVIFGISLDPEVKSNDAMVPISGIQHGYDVEFDDSEQFIYWVENPGEIHRVKTDGSNRTAFAPLSLLGSSLGLALDWVSRNIYYTTPASRSIEVLTLRGDTRYGKTLITNDGTPLGVGFPVGIAVDPARGKLYWSDHGTDSGVPAKIASANMDGTSLKILFTGNMEHLEVVTLDIQEQKLYWAVTSRGVIERGNVDGTERMILVHHLAHPWGLVVHGSFLYYSDEQYEVIERVDKSSGSNKVVFRDNIPYLRGLRVYHHRNAADSSNGCSNNPNACQQICLPVPGGMFSCACASGFKLSPDGRSCSPYNSFIVVSMLPAVRGFSLELSDHSEAMVPVAGQGRNVLHADVDVANGFIYWCDFSSSVRSSNGIRRIKPNGSNFTNIVTYGIGANGIRGVAVDWVAGNLYFTNAFVYETLIEVIRINTTYRRVLLKVSVDMPRHIVVDPKHRYLFWADYGQKPKIERSFLDCTNRTVLVSEGIVTPRGLAVDHDTGYIYWVDDSLDIIARIHRDGGESQVVRYGSRYPTPYGITVFGESIIWVDRNLRKVFQASKQPGNTDPPTVIRDSINLLRDVTIFDEHVQPLSPAELNNNPCLQSNGGCSHFCFALPELPTPKCGCAFGTLEDDGKNCATSREDFLIYSLNNSLRSLHFDPQDHNLPFQAISVEGMAIALDYDRRNNRIFFTQKLNPIRGQISYVNLYSGASSPTILLSNIGVTDGIAFDWINRRIYYSDFSNQTINSMAEDGSNRAVIARVSKPRAIVLDPCRGYMYWTDWGTNAKIERATLGGNFRVPIVNTSLVWPNGLTLDLETDLLYWADASLQKIERSTLTGSNREVVISTAFHSFGLTVYGQYIYWTDFYTKKIYRANKYDGSDLIAMTTRLPTQPSGISTVVKTQQQQCSNPCDQFNGGCSHICAPGPNGAECQCPHEGSWYLANDNKYCVVDTGARCNQFQFTCLNGRCISQDWKCDNDNDCGDGSDELPTVCAFHTCRSTAFTCANGRCVPYHYRCDFYNDCGDNSDEAGCLFCRDDQFTCQNGQCITKLYVCDEDNDCGDGSDEQEHLCHTPEPTCPPHQFRCDNGHCIEMGTVCNHVDDCSDNSDEKGCGINECQDSSISHCDHNCTDTITSFYCSCLPGYKLMSDKRTCVDIDECKETPQLCSQKCENVIGSYICKCAPGYIREPDGKSCRQNSNIEPYLVFSNRYYIRNLTIDGTSYSLILQGLGNVVALDFDRVEERLYWIDAEKQIIERMFLNKTNQETIISHRLRRAESLAVDWVSRKLYWLDAILDCLFVSDLEGRQRKMLAQHCVDANNTFCFENPRGIVLHPQRGYVYWADWGDHAYIARIGMDGTNKTVIISTKIEWPNAITIDYTNDLLYWADAHLGYIEFSDLEGHHRHTVYDGTLPHPFALTIFEDTVFWTDWNTRTVEKGNKYDGSGRVVLVNTTHKPFDIHVLHPYRQPIMSNPCATNNGGCSHLCLIKAGGRGFTCECPDDFQTVQLRDRTLCMPMCSSTQFLCGNNEKCIPIWWKCDGQKDCSDGSDESDLCPHRFCRLGQFQCRDGNCTSPQALCNARQDCADGSDEDRVLCEHHRCEANEWQCANKRCIPEYWQCDSVDDCLDNSDEDPSHCASRTCRPGQFKCNNGRCIPQSWKCDVDNDCGDYSDEPIHECMTAAYNCDNHTEFSCKTNYRCIPQWAVCNGFDDCRDNSDEQGCESVPCHPSGDFRCGNHHCIPLRWKCDGIDDCGDNSDEESCVPRECTESEFRCADQQCIPSRWVCDQENDCGDNSDERDCEMKTCHPEHFQCTSGHCVPKALACDGRADCLDASDESACPTRFPNGTYCPAAMFECKNHVCIQSFWICDGENDCVDGSDEEIHLCCRPGFKPSTLDKNSCQDINECEEFGICPQSCRNSKGSYECFCVDGFKSMSTHYGERCAADGSPPLLLLPENVRIRKYNISSEKFSEYLEEEEHIQAIDYDWDPEGIGLSVVYYTVLSQGSQFGAIKRAYLPDFESGSNNPVREVDLGLKYLMQPDGLAVDWVGRHIYWSDAKSQRIEVATLDGRYRKWLITTQLDQPAAIAVNPKLGLMFWTDQGKQPKIESAWMNGEHRSVLASANLGWPNGLSIDYLNGDRIYWSDSKEDVIESIKYDGTDRRLIINDAMKPFSLDIFEDQLYWVAKEKGEVWRQNKFGKGNKEKLLVVNPWLTQVRIFHQLRYNQSVSNPCKQVCSHLCLLRPGGYSCACPQGSDFVTGSTVECDAASELPITMPSPCRCMHGGSCYFDENDLPKCKCSSGYSGEYCE 8em7-a1-m1-cA_8em7-a1-m1-cB Cryo-EM structure of LRP2 at pH 5.2 A2ARV4 A2ARV4 2.97 ELECTRON MICROSCOPY 246 1.0 10090 (Mus musculus) 10090 (Mus musculus) 4378 4378 CGSGNFRCDNGYCIPASWRCDGTRDCLDDTDEIGCPPRSCGSGFFLCPAEGTCIPSSWVCDQDKDCSDGADEQQNCPGTTCSSQQLTCSNGQCVPIEYRCDHVSDCPDGSDERNCYYPTCDQLTCANGACYNTSQKCDHKVDCRDSSDEANCTTLCSQKEFQCGSGECILRAYVCDHDNDCEDNSDEHNCNYDTCGGHQFTCSNGQCINQNWVCDGDDDCQDSGDEDGCCYPREWACPGSGRCISMDKVCDGVPDCPEGEDENNATSGRYCGTGLCSILNCEYQCHQTPYGGECFCPPGHIINSNDSRTCIDFDDCQIWGICDQKCESRQGRHQCLCEEGYILERGQHCKSNDSFSAASIIFSNGRDLLVGDLHGRNFRILAESKNRGIVMGVDFHYQKHRVFWTDPMQAKVFSTDINGLNTQEILNVSIDAPENLAVDWINNKLYLVETRVNRIDVVNLEGNQRVTLITENLGHPRGIALDPTVGYLFFSDWGSLSGQPKVERAFMDGSNRKDLVTTKLGWPAGITLDLVSKRVYWVDSRYDYIETVTYDGIQRKTVARGGSLVPHPFGISLFEEHVFFTDWTKMAVMKANKFTDTNPQVYHQSSLTPFGVTVYHALRQPNATNPCGNNNGGCAQICVLSHRTDNGGLGYRCKCEFGFELDADEHHCVAVKNFLLFSSQTAVRGIPFTLSTQEDVMVPVTGSPSFFVGIDFDAQHSTIFYSDLSKNIIYQQKIDGTGKEVITANRLQNVECLSFDWISRNLYWTDGGSKSVTVMKLADKSRRQIISNLNNPRSIVVHPAAGYMFLSDWFRPAKIMRAWSDGSHLMPIVNTSLGWPNGLAIDWSTSRLYWVDAFFDKIEHSNLDGLDRKRLGHVDQMTHPFGLTVFKDNVFLTDWRLGAIIRVRKSDGGDMTVVRRGISSIMHVKAYDADLQTGTNYCSQTTHPNGDCSHFCFPVPNFQRVCGCPYGMKLQRDQMTCEGDPAREPPTQQCGSSSFPCNNGKCVPSIFRCDGVDDCHDNSDEHQCGALNNTCSSSAFTCVHGGQCIPGQWRCDKQNDCLDGSDEQNCPTRSPSSTCPPTSFTCDNHMCIPKEWVCDTDNDCSDGSDEKNCQASGTCHPTQFRCPDHRCISPLYVCDGDKDCVDGSDEAGCVLNCTSSQFKCADGSSCINSRYRCDGVYDCKDNSDEAGCPTRPPGMCHPDEFQCQGDGTCIPNTWECDGHPDCIQGSDEHNGCVPKTCSPSHFLCDNGNCIYNSWVCDGDNDCRDMSDEKDCPTQPFHCPSSQWQCPGYSICVNLSALCDGVFDCPNGTDESPLCNQDSCLHFNGGCTHRCIQGPFGATCVCPIGYQLANDTKTCEDVNECDIPGFCSQHCVNMRGSFRCACDPEYTLESDGRTCKVTASENLLLVVASRDKIIMDNITAHTHNIYSLVQDVSFVVALDFDSVTGRVFWSDLLEGKTWSAFQNGTDKRVVHDSGLSLTEMIAVDWIGRNIYWTDYTLETIEVSKIDGSHRTVLISKNVTKPRGLALDPRMGDNVMFWSDWGHHPRIERASMDGTMRTVIVQEKIYWPCGLSIDYPNRLIYFMDAYLDYIEFCDYDGQNRRQVIASDLVLHHPHALTLFEDSVFWTDRGTHQVMQANKWHGRNQSVVMYSVPQPLGIIAIHPSRQPSSPNPCASATCSHLCLLSAQEPRHYSCACPSGWNLSDDSVNCVRGDQPFLISVRENVIFGISLDPEVKSNDAMVPISGIQHGYDVEFDDSEQFIYWVENPGEIHRVKTDGSNRTAFAPLSLLGSSLGLALDWVSRNIYYTTPASRSIEVLTLRGDTRYGKTLITNDGTPLGVGFPVGIAVDPARGKLYWSDHGTDSGVPAKIASANMDGTSLKILFTGNMEHLEVVTLDIQEQKLYWAVTSRGVIERGNVDGTERMILVHHLAHPWGLVVHGSFLYYSDEQYEVIERVDKSSGSNKVVFRDNIPYLRGLRVYHHRNAADSSNGCSNNPNACQQICLPVPGGMFSCACASGFKLSPDGRSCSPYNSFIVVSMLPAVRGFSLELSDHSEAMVPVAGQGRNVLHADVDVANGFIYWCDFSSSVRSSNGIRRIKPNGSNFTNIVTYGIGANGIRGVAVDWVAGNLYFTNAFVYETLIEVIRINTTYRRVLLKVSVDMPRHIVVDPKHRYLFWADYGQKPKIERSFLDCTNRTVLVSEGIVTPRGLAVDHDTGYIYWVDDSLDIIARIHRDGGESQVVRYGSRYPTPYGITVFGESIIWVDRNLRKVFQASKQPGNTDPPTVIRDSINLLRDVTIFDEHVQPLSPAELNNNPCLQSNGGCSHFCFALPELPTPKCGCAFGTLEDDGKNCATSREDFLIYSLNNSLRSLHFDPQDHNLPFQAISVEGMAIALDYDRRNNRIFFTQKLNPIRGQISYVNLYSGASSPTILLSNIGVTDGIAFDWINRRIYYSDFSNQTINSMAEDGSNRAVIARVSKPRAIVLDPCRGYMYWTDWGTNAKIERATLGGNFRVPIVNTSLVWPNGLTLDLETDLLYWADASLQKIERSTLTGSNREVVISTAFHSFGLTVYGQYIYWTDFYTKKIYRANKYDGSDLIAMTTRLPTQPSGISTVVKTQQQQCSNPCDQFNGGCSHICAPGPNGAECQCPHEGSWYLANDNKYCVVDTGARCNQFQFTCLNGRCISQDWKCDNDNDCGDGSDELPTVCAFHTCRSTAFTCANGRCVPYHYRCDFYNDCGDNSDEAGCLFRSCNSTTEFTCSNGRCIPLSYVCNGINNCHDNDTSDEKNCPPITCQPDFAKCQTTNICVPRAFLCDGDNDCGDGSDENPIYCASHTCRSNEFQCVSPHRCIPSYWFCDGEADCVDSSDEPDTCGHSLNSCSANQFHCDNGRCISSSWVCDGDNDCGDMSDEDQRHHCELQNCSSTEFTCINSRPPNRRCIPQHWVCDGDADCADALDELQNCTMRACSTGEFSCANGRCIRQSFRCDRRNDCGDYSDERGCSYPPCRDDQFTCQNGQCITKLYVCDEDNDCGDGSDEQEHLCHTPEPTCPPHQFRCDNGHCIEMGTVCNHVDDCSDNSDEKGCGINECQDSSISHCDHNCTDTITSFYCSCLPGYKLMSDKRTCVDIDECKETPQLCSQKCENVIGSYICKCAPGYIREPDGKSCRQNSNIEPYLVFSNRYYIRNLTIDGTSYSLILQGLGNVVALDFDRVEERLYWIDAEKQIIERMFLNKTNQETIISHRLRRAESLAVDWVSRKLYWLDAILDCLFVSDLEGRQRKMLAQHCVDANNTFCFENPRGIVLHPQRGYVYWADWGDHAYIARIGMDGTNKTVIISTKIEWPNAITIDYTNDLLYWADAHLGYIEFSDLEGHHRHTVYDGTLPHPFALTIFEDTVFWTDWNTRTVEKGNKYDGSGRVVLVNTTHKPFDIHVLHPYRQPIMSNPCATNNGGCSHLCLIKAGGRGFTCECPDDFQTVQLRDRTLCMPMCSSTQFLCGNNEKCIPIWWKCDGQKDCSDGSDESDLCPHRFCRLGQFQCRDGNCTSPQALCNARQDCADGSDEDRVLCEHHRCEANEWQCANKRCIPEYWQCDSVDDCLDNSDEDPSHCASRTCRPGQFKCNNGRCIPQSWKCDVDNDCGDYSDEPIHECMTAAYNCDNHTEFSCKTNYRCIPQWAVCNGFDDCRDNSDEQGCESVPCHPSGDFRCGNHHCIPLRWKCDGIDDCGDNSDEESCVPRECTESEFRCADQQCIPSRWVCDQENDCGDNSDERDCEMKTCHPEHFQCTSGHCVPKALACDGRADCLDASDESACPTRFPNGTYCPAAMFECKNHVCIQSFWICDGENDCVDGSDEEIHLCFNVPCESPQRFRCDNSRCIYGHQLCNGVDDCGDGSDEKEEHCRKPTHKPCTDTEYKCSNGNCVSQHYVCDNVDDCGDLSDETGCNLGENRTCAEKICEQNCTQLSNGGFICSCRPGFKPSTLDKNSCQDINECEEFGICPQSCRNSKGSYECFCVDGFKSMSTHYGERCAADGSPPLLLLPENVRIRKYNISSEKFSEYLEEEEHIQAIDYDWDPEGIGLSVVYYTVLSQGSQFGAIKRAYLPDFESGSNNPVREVDLGLKYLMQPDGLAVDWVGRHIYWSDAKSQRIEVATLDGRYRKWLITTQLDQPAAIAVNPKLGLMFWTDQGKQPKIESAWMNGEHRSVLASANLGWPNGLSIDYLNGDRIYWSDSKEDVIESIKYDGTDRRLIINDAMKPFSLDIFEDQLYWVAKEKGEVWRQNKFGKGNKEKLLVVNPWLTQVRIFHQLRYNQSVSNPCKQVCSHLCLLRPGGYSCACPQGSDFVTGSTVECDAASELPITMPSPCRCMHGGSCYFDENDLPKCKCSSGYSGEYCE CGSGNFRCDNGYCIPASWRCDGTRDCLDDTDEIGCPPRSCGSGFFLCPAEGTCIPSSWVCDQDKDCSDGADEQQNCPGTTCSSQQLTCSNGQCVPIEYRCDHVSDCPDGSDERNCYYPTCDQLTCANGACYNTSQKCDHKVDCRDSSDEANCTTLCSQKEFQCGSGECILRAYVCDHDNDCEDNSDEHNCNYDTCGGHQFTCSNGQCINQNWVCDGDDDCQDSGDEDGCCYPREWACPGSGRCISMDKVCDGVPDCPEGEDENNATSGRYCGTGLCSILNCEYQCHQTPYGGECFCPPGHIINSNDSRTCIDFDDCQIWGICDQKCESRQGRHQCLCEEGYILERGQHCKSNDSFSAASIIFSNGRDLLVGDLHGRNFRILAESKNRGIVMGVDFHYQKHRVFWTDPMQAKVFSTDINGLNTQEILNVSIDAPENLAVDWINNKLYLVETRVNRIDVVNLEGNQRVTLITENLGHPRGIALDPTVGYLFFSDWGSLSGQPKVERAFMDGSNRKDLVTTKLGWPAGITLDLVSKRVYWVDSRYDYIETVTYDGIQRKTVARGGSLVPHPFGISLFEEHVFFTDWTKMAVMKANKFTDTNPQVYHQSSLTPFGVTVYHALRQPNATNPCGNNNGGCAQICVLSHRTDNGGLGYRCKCEFGFELDADEHHCVAVKNFLLFSSQTAVRGIPFTLSTQEDVMVPVTGSPSFFVGIDFDAQHSTIFYSDLSKNIIYQQKIDGTGKEVITANRLQNVECLSFDWISRNLYWTDGGSKSVTVMKLADKSRRQIISNLNNPRSIVVHPAAGYMFLSDWFRPAKIMRAWSDGSHLMPIVNTSLGWPNGLAIDWSTSRLYWVDAFFDKIEHSNLDGLDRKRLGHVDQMTHPFGLTVFKDNVFLTDWRLGAIIRVRKSDGGDMTVVRRGISSIMHVKAYDADLQTGTNYCSQTTHPNGDCSHFCFPVPNFQRVCGCPYGMKLQRDQMTCEGDPAREPPTQQCGSSSFPCNNGKCVPSIFRCDGVDDCHDNSDEHQCGALNNTCSSSAFTCVHGGQCIPGQWRCDKQNDCLDGSDEQNCPTRSPSSTCPPTSFTCDNHMCIPKEWVCDTDNDCSDGSDEKNCQASGTCHPTQFRCPDHRCISPLYVCDGDKDCVDGSDEAGCVLNCTSSQFKCADGSSCINSRYRCDGVYDCKDNSDEAGCPTRPPGMCHPDEFQCQGDGTCIPNTWECDGHPDCIQGSDEHNGCVPKTCSPSHFLCDNGNCIYNSWVCDGDNDCRDMSDEKDCPTQPFHCPSSQWQCPGYSICVNLSALCDGVFDCPNGTDESPLCNQDSCLHFNGGCTHRCIQGPFGATCVCPIGYQLANDTKTCEDVNECDIPGFCSQHCVNMRGSFRCACDPEYTLESDGRTCKVTASENLLLVVASRDKIIMDNITAHTHNIYSLVQDVSFVVALDFDSVTGRVFWSDLLEGKTWSAFQNGTDKRVVHDSGLSLTEMIAVDWIGRNIYWTDYTLETIEVSKIDGSHRTVLISKNVTKPRGLALDPRMGDNVMFWSDWGHHPRIERASMDGTMRTVIVQEKIYWPCGLSIDYPNRLIYFMDAYLDYIEFCDYDGQNRRQVIASDLVLHHPHALTLFEDSVFWTDRGTHQVMQANKWHGRNQSVVMYSVPQPLGIIAIHPSRQPSSPNPCASATCSHLCLLSAQEPRHYSCACPSGWNLSDDSVNCVRGDQPFLISVRENVIFGISLDPEVKSNDAMVPISGIQHGYDVEFDDSEQFIYWVENPGEIHRVKTDGSNRTAFAPLSLLGSSLGLALDWVSRNIYYTTPASRSIEVLTLRGDTRYGKTLITNDGTPLGVGFPVGIAVDPARGKLYWSDHGTDSGVPAKIASANMDGTSLKILFTGNMEHLEVVTLDIQEQKLYWAVTSRGVIERGNVDGTERMILVHHLAHPWGLVVHGSFLYYSDEQYEVIERVDKSSGSNKVVFRDNIPYLRGLRVYHHRNAADSSNGCSNNPNACQQICLPVPGGMFSCACASGFKLSPDGRSCSPYNSFIVVSMLPAVRGFSLELSDHSEAMVPVAGQGRNVLHADVDVANGFIYWCDFSSSVRSSNGIRRIKPNGSNFTNIVTYGIGANGIRGVAVDWVAGNLYFTNAFVYETLIEVIRINTTYRRVLLKVSVDMPRHIVVDPKHRYLFWADYGQKPKIERSFLDCTNRTVLVSEGIVTPRGLAVDHDTGYIYWVDDSLDIIARIHRDGGESQVVRYGSRYPTPYGITVFGESIIWVDRNLRKVFQASKQPGNTDPPTVIRDSINLLRDVTIFDEHVQPLSPAELNNNPCLQSNGGCSHFCFALPELPTPKCGCAFGTLEDDGKNCATSREDFLIYSLNNSLRSLHFDPQDHNLPFQAISVEGMAIALDYDRRNNRIFFTQKLNPIRGQISYVNLYSGASSPTILLSNIGVTDGIAFDWINRRIYYSDFSNQTINSMAEDGSNRAVIARVSKPRAIVLDPCRGYMYWTDWGTNAKIERATLGGNFRVPIVNTSLVWPNGLTLDLETDLLYWADASLQKIERSTLTGSNREVVISTAFHSFGLTVYGQYIYWTDFYTKKIYRANKYDGSDLIAMTTRLPTQPSGISTVVKTQQQQCSNPCDQFNGGCSHICAPGPNGAECQCPHEGSWYLANDNKYCVVDTGARCNQFQFTCLNGRCISQDWKCDNDNDCGDGSDELPTVCAFHTCRSTAFTCANGRCVPYHYRCDFYNDCGDNSDEAGCLFRSCNSTTEFTCSNGRCIPLSYVCNGINNCHDNDTSDEKNCPPITCQPDFAKCQTTNICVPRAFLCDGDNDCGDGSDENPIYCASHTCRSNEFQCVSPHRCIPSYWFCDGEADCVDSSDEPDTCGHSLNSCSANQFHCDNGRCISSSWVCDGDNDCGDMSDEDQRHHCELQNCSSTEFTCINSRPPNRRCIPQHWVCDGDADCADALDELQNCTMRACSTGEFSCANGRCIRQSFRCDRRNDCGDYSDERGCSYPPCRDDQFTCQNGQCITKLYVCDEDNDCGDGSDEQEHLCHTPEPTCPPHQFRCDNGHCIEMGTVCNHVDDCSDNSDEKGCGINECQDSSISHCDHNCTDTITSFYCSCLPGYKLMSDKRTCVDIDECKETPQLCSQKCENVIGSYICKCAPGYIREPDGKSCRQNSNIEPYLVFSNRYYIRNLTIDGTSYSLILQGLGNVVALDFDRVEERLYWIDAEKQIIERMFLNKTNQETIISHRLRRAESLAVDWVSRKLYWLDAILDCLFVSDLEGRQRKMLAQHCVDANNTFCFENPRGIVLHPQRGYVYWADWGDHAYIARIGMDGTNKTVIISTKIEWPNAITIDYTNDLLYWADAHLGYIEFSDLEGHHRHTVYDGTLPHPFALTIFEDTVFWTDWNTRTVEKGNKYDGSGRVVLVNTTHKPFDIHVLHPYRQPIMSNPCATNNGGCSHLCLIKAGGRGFTCECPDDFQTVQLRDRTLCMPMCSSTQFLCGNNEKCIPIWWKCDGQKDCSDGSDESDLCPHRFCRLGQFQCRDGNCTSPQALCNARQDCADGSDEDRVLCEHHRCEANEWQCANKRCIPEYWQCDSVDDCLDNSDEDPSHCASRTCRPGQFKCNNGRCIPQSWKCDVDNDCGDYSDEPIHECMTAAYNCDNHTEFSCKTNYRCIPQWAVCNGFDDCRDNSDEQGCESVPCHPSGDFRCGNHHCIPLRWKCDGIDDCGDNSDEESCVPRECTESEFRCADQQCIPSRWVCDQENDCGDNSDERDCEMKTCHPEHFQCTSGHCVPKALACDGRADCLDASDESACPTRFPNGTYCPAAMFECKNHVCIQSFWICDGENDCVDGSDEEIHLCFNVPCESPQRFRCDNSRCIYGHQLCNGVDDCGDGSDEKEEHCRKPTHKPCTDTEYKCSNGNCVSQHYVCDNVDDCGDLSDETGCNLGENRTCAEKICEQNCTQLSNGGFICSCRPGFKPSTLDKNSCQDINECEEFGICPQSCRNSKGSYECFCVDGFKSMSTHYGERCAADGSPPLLLLPENVRIRKYNISSEKFSEYLEEEEHIQAIDYDWDPEGIGLSVVYYTVLSQGSQFGAIKRAYLPDFESGSNNPVREVDLGLKYLMQPDGLAVDWVGRHIYWSDAKSQRIEVATLDGRYRKWLITTQLDQPAAIAVNPKLGLMFWTDQGKQPKIESAWMNGEHRSVLASANLGWPNGLSIDYLNGDRIYWSDSKEDVIESIKYDGTDRRLIINDAMKPFSLDIFEDQLYWVAKEKGEVWRQNKFGKGNKEKLLVVNPWLTQVRIFHQLRYNQSVSNPCKQVCSHLCLLRPGGYSCACPQGSDFVTGSTVECDAASELPITMPSPCRCMHGGSCYFDENDLPKCKCSSGYSGEYCE 8emy-a1-m1-cA_8emy-a1-m1-cB Structure of GII.4 norovirus in complex with Nanobody 82 K4LM89 K4LM89 1.7 X-RAY DIFFRACTION 32 1.0 142786 (Norovirus) 142786 (Norovirus) 307 307 TKPFSVPVLTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHITGSRNYTMNLASQNWNDYDPTEEIPAPLGTPDFVGKIQGVLTQTTRTDGSTRGHKATVYTGSADFAPKLGRVQFETDTDRDFEANQNTKFTPVGVIQDGGTTHRNEPQQWVLPSYSGRNTHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQYFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM TKPFSVPVLTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHITGSRNYTMNLASQNWNDYDPTEEIPAPLGTPDFVGKIQGVLTQTTRTDGSTRGHKATVYTGSADFAPKLGRVQFETDTDRDFEANQNTKFTPVGVIQDGGTTHRNEPQQWVLPSYSGRNTHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQYFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM 8emy-a1-m1-cA_8emy-a1-m1-cF Structure of GII.4 norovirus in complex with Nanobody 82 K4LM89 K4LM89 1.7 X-RAY DIFFRACTION 27 1.0 142786 (Norovirus) 142786 (Norovirus) 307 307 TKPFSVPVLTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHITGSRNYTMNLASQNWNDYDPTEEIPAPLGTPDFVGKIQGVLTQTTRTDGSTRGHKATVYTGSADFAPKLGRVQFETDTDRDFEANQNTKFTPVGVIQDGGTTHRNEPQQWVLPSYSGRNTHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQYFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM TKPFSVPVLTVEEMTNSRFPIPLEKLFTGPSSAFVVQPQNGRCTTDGVLLGTTQLSPVNICTFRGDVTHITGSRNYTMNLASQNWNDYDPTEEIPAPLGTPDFVGKIQGVLTQTTRTDGSTRGHKATVYTGSADFAPKLGRVQFETDTDRDFEANQNTKFTPVGVIQDGGTTHRNEPQQWVLPSYSGRNTHNVHLAPAVAPTFPGEQLLFFRSTMPGCSGYPNMDLDCLLPQEWVQYFYQEAAPAQSDVALLRFVNPDTGRVLFECKLHKSGYVTVAHTGQHDLVIPPNGYFRFDSWVNQFYTLAPM 8ep7-a2-m1-cB_8ep7-a2-m3-cB Crystal Structure of the Ketol-acid Reductoisomerase from Bacillus anthracis in complex with NADP Q81S27 Q81S27 2.2 X-RAY DIFFRACTION 377 1.0 261594 (Bacillus anthracis str. 'Ames Ancestor') 261594 (Bacillus anthracis str. 'Ames Ancestor') 312 312 8ep7-a1-m1-cA_8ep7-a1-m2-cA 8ep7-a3-m1-cC_8ep7-a3-m4-cC KTYYEQDANVGLLQGKTVAVIGYGSQGHAQAQNLRDSGVEVVVGVRPGKSFEVAKADGFEVSVSEAVRTAQVVQLLPDEQQAHVYKAEVEENLREGQLLFSHGFNIHFGQINPPSYVDVAVAPKSPGHLVRRVFQEGVPALVAVHQDATGTALHVALAYAKGVGCTRAGVIETTFQEETETDLFGEQAVLCGGVTALVKAGFETLTEGGYRPEIAYFECLHELKLIVDLYEGGLTNRHSISDTAEFGDYVTGSRIVTDETKKEKRVLTEIQQGEFAKKWILENQAGRPTYNAKKAEQNHQLEKVGEELRESW KTYYEQDANVGLLQGKTVAVIGYGSQGHAQAQNLRDSGVEVVVGVRPGKSFEVAKADGFEVSVSEAVRTAQVVQLLPDEQQAHVYKAEVEENLREGQLLFSHGFNIHFGQINPPSYVDVAVAPKSPGHLVRRVFQEGVPALVAVHQDATGTALHVALAYAKGVGCTRAGVIETTFQEETETDLFGEQAVLCGGVTALVKAGFETLTEGGYRPEIAYFECLHELKLIVDLYEGGLTNRHSISDTAEFGDYVTGSRIVTDETKKEKRVLTEIQQGEFAKKWILENQAGRPTYNAKKAEQNHQLEKVGEELRESW 8epz-a1-m1-cB_8epz-a1-m1-cA Crystal structure of Fe-S cluster-dependent dehydratase from Paralcaligenes ureilyticus in complex with Mn A0A4R3LQ44 A0A4R3LQ44 2.6 X-RAY DIFFRACTION 281 1.0 627131 (Paralcaligenes ureilyticus) 627131 (Paralcaligenes ureilyticus) 567 568 VRRSQAWFGRLDRDGFIYRSWMKNRGIPHDQFDGRPVIGICNTFSELTPCNSHFRTLAEQVKIGVWESGGFPLEFPVMSLGETMLRPTAMLFRNLASMDVEESIRGNPLDGVVLLMGCDTTPSLMMGAASCDLPTIGVSGGPMLSGKFRGRELGSGTDVWKMSEEVRAGQMSQEEFFEAESCMHRSHGHCMTMGTASTMASMVEALGMSLPGNAAIPAVDARRNLLARASGRRIVQMVKDDLVMSKILTRQAFENAIRVNAAIGGSTNAVIHLLAIAGRIGVDLTLADWDALGHKLPCLVDLQPSGTHLMEDFYYAGGVPAVIRELGDVIARDALTVNGQTLWDNCKDAPNWNREVIHAFNEPFKTEAGIAVLRGNLCPDGAVIKPSAATPALLKHKGRAVVFENSEHMHERMDDENLDVDENCVLVLKNCGPRGYPGMAEAGNMPLPPKILRKGITDMVRVSDARMSGTAYGTVVLHVAPEAAAGGPLALVQDGDIIELDVAARKLHLHVSDEELARRREAWQAPPAPMARGWVKLYVEHVQQANLGADLDFLRGKSGAGIPKDNH PVRRSQAWFGRLDRDGFIYRSWMKNRGIPHDQFDGRPVIGICNTFSELTPCNSHFRTLAEQVKIGVWESGGFPLEFPVMSLGETMLRPTAMLFRNLASMDVEESIRGNPLDGVVLLMGCDTTPSLMMGAASCDLPTIGVSGGPMLSGKFRGRELGSGTDVWKMSEEVRAGQMSQEEFFEAESCMHRSHGHCMTMGTASTMASMVEALGMSLPGNAAIPAVDARRNLLARASGRRIVQMVKDDLVMSKILTRQAFENAIRVNAAIGGSTNAVIHLLAIAGRIGVDLTLADWDALGHKLPCLVDLQPSGTHLMEDFYYAGGVPAVIRELGDVIARDALTVNGQTLWDNCKDAPNWNREVIHAFNEPFKTEAGIAVLRGNLCPDGAVIKPSAATPALLKHKGRAVVFENSEHMHERMDDENLDVDENCVLVLKNCGPRGYPGMAEAGNMPLPPKILRKGITDMVRVSDARMSGTAYGTVVLHVAPEAAAGGPLALVQDGDIIELDVAARKLHLHVSDEELARRREAWQAPPAPMARGWVKLYVEHVQQANLGADLDFLRGKSGAGIPKDNH 8eqb-a1-m1-cF_8eqb-a1-m1-cL FAM46C/BCCIPalpha/Nanobody complex Q9P287-2 Q9P287-2 6.5 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 166 166 8eqb-a1-m1-cC_8eqb-a1-m1-cI VNIEFEAYSLSDNDYDGIKKLLQQLFLKAPVNTADVEVFGFISLLNLTERKGTQCVEQIQELVLRFCEKNCEKSMVEQLDKFLNDTTKPVGLLLSERFINVPPQIALPMYQQLQKELAGGKCYFYLLISKTFQVTALVSLKAGLIQSRSTLSDFQGTFMTVGIALS VNIEFEAYSLSDNDYDGIKKLLQQLFLKAPVNTADVEVFGFISLLNLTERKGTQCVEQIQELVLRFCEKNCEKSMVEQLDKFLNDTTKPVGLLLSERFINVPPQIALPMYQQLQKELAGGKCYFYLLISKTFQVTALVSLKAGLIQSRSTLSDFQGTFMTVGIALS 8eqm-a1-m1-cM_8eqm-a1-m1-cm Structure of a dimeric photosystem II complex acclimated to far-red light 2.6 ELECTRON MICROSCOPY 22 1.0 91464 (Synechococcus sp. PCC 7335) 91464 (Synechococcus sp. PCC 7335) 31 31 METNKLGFVASVLFVFVPTVFLLILYIQTAS METNKLGFVASVLFVFVPTVFLLILYIQTAS 8eqs-a1-m1-cA_8eqs-a1-m1-cB Structure of SARS-CoV-1 Orf3a in late endosome/lysosome-like environment, MSP1D1 nanodisc P59632 P59632 3.1 ELECTRON MICROSCOPY 190 1.0 2901879 (Severe acute respiratory syndrome coronavirus) 2901879 (Severe acute respiratory syndrome coronavirus) 192 192 SLPFGWLVIGVAFLAVFQSATKIIALNKRWQLALYKGFQFICNLLLLFVTIYSHLLLVAAGMEAQFLYLYALIYFLQCINACRIIMRCWLCWKCKSKNPLLYDANYFVCWHTHNYDYCIPYNSVTDTIVVTEGDGKEDYQIGGYSEDRHSGVKDYVVVHGYFTEVYYQLESTQITTDTGIENATFFIFNKLV SLPFGWLVIGVAFLAVFQSATKIIALNKRWQLALYKGFQFICNLLLLFVTIYSHLLLVAAGMEAQFLYLYALIYFLQCINACRIIMRCWLCWKCKSKNPLLYDANYFVCWHTHNYDYCIPYNSVTDTIVVTEGDGKEDYQIGGYSEDRHSGVKDYVVVHGYFTEVYYQLESTQITTDTGIENATFFIFNKLV 8eqt-a1-m1-cA_8eqt-a1-m1-cB Structure of SARS-CoV-2 Orf3a in plasma membrane-like environment, MSP1D1 nanodisc P0DTC3 P0DTC3 3.4 ELECTRON MICROSCOPY 178 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 191 191 6xdc-a1-m1-cA_6xdc-a1-m1-cB 7kjr-a1-m1-cA_7kjr-a1-m1-cB 8eqj-a1-m1-cA_8eqj-a1-m1-cB 8equ-a1-m1-cA_8equ-a1-m1-cB SLPFGWLIVGVALLAVFQSASKIITLKKRWQLALSKGVHFVCNLLLLFVTVYSHLLLVAAGLEAPFLYLYALVYFLQSINFVRIIMRLWLCWKCRSKNPLLYDANYFLCWHTNCYDYCIPYNSVTSSIVITSGDHDYQIGGYTEKWESGVKDCVVLHSYFTSDYYQLYSTQLSTDTGVEHVTFFIYNKIVD SLPFGWLIVGVALLAVFQSASKIITLKKRWQLALSKGVHFVCNLLLLFVTVYSHLLLVAAGLEAPFLYLYALVYFLQSINFVRIIMRLWLCWKCRSKNPLLYDANYFLCWHTNCYDYCIPYNSVTSSIVITSGDHDYQIGGYTEKWESGVKDCVVLHSYFTSDYYQLYSTQLSTDTGVEHVTFFIYNKIVD 8es5-a1-m1-cA_8es5-a1-m1-cB Aha1 domain protein from Pseudomonas aeruginosa A0A072ZZS8 A0A072ZZS8 1.97 X-RAY DIFFRACTION 110 1.0 652611 (Pseudomonas aeruginosa PA14) 652611 (Pseudomonas aeruginosa PA14) 146 146 AQVVAKAEMLIRRPIAEVFEAFVDPAITARFWFSRGDARLEAGKRLRWHWDMYGVSQEIEVKDLQTNRRILIEWPPSQVEWLFEELPGAGTFVSIRNSGFVGTPEEVIPRVVDATEGFTLVLAGLKACLEHGIALNLVADRFPRGL AQVVAKAEMLIRRPIAEVFEAFVDPAITARFWFSRGDARLEAGKRLRWHWDMYGVSQEIEVKDLQTNRRILIEWPPSQVEWLFEELPGAGTFVSIRNSGFVGTPEEVIPRVVDATEGFTLVLAGLKACLEHGIALNLVADRFPRGL 8es9-a1-m1-cY_8es9-a1-m1-cZ CryoEM structure of PN45428 TCR-CD3 in complex with HLA-A2 MAGEA4 P20963 P20963 3.25 ELECTRON MICROSCOPY 44 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 31 36 6jxr-a1-m1-cb_6jxr-a1-m1-ca 7fjd-a1-m1-cb_7fjd-a1-m1-ca 7fje-a1-m1-cb_7fje-a1-m1-ca 7fjf-a1-m1-cb_7fjf-a1-m1-ca 7phr-a1-m1-cz_7phr-a1-m1-cZ 8es7-a1-m1-cY_8es7-a1-m1-cZ 8es8-a1-m1-cY_8es8-a1-m1-cZ GLLDPKLCYLLDGILFIYGVILTALFLRVKF QSFGLLDPKLCYLLDGILFIYGVILTALFLRVKFSR 8etd-a1-m1-cA_8etd-a1-m1-cB Crystal Structure of Schizosaccharomyces pombe Rho1 Q09914 Q09914 2.78 X-RAY DIFFRACTION 35 1.0 284812 (Schizosaccharomyces pombe 972h-) 284812 (Schizosaccharomyces pombe 972h-) 175 177 LRRKLVIVGDGACGKTCLLIVFSKGTFPEVYVPTVFENYVADVEVDGRHVELALWDTAGDYDRLRPLSYPDSHVILICFAVDSPDSLDNVQEKWISEVLHFCSSLPILLVACKADLRNDPKIIEELSKTNQHPVTTEEGQAVAQKIGAYKYLECSAKTNEGVREVFESATRAAML LRRKLVIVGDGACGKTCLLIVFSKGTFPEVYVPTVFENYVADVEVDGRHVELALWDTAGQEDYDRLRPLSYPDSHVILICFAVDSPDSLDNVQEKWISEVLHFCSSLPILLVACKADLRNDPKIIEELSKTNQHPVTTEEGQAVAQKIGAYKYLECSAKTNEGVREVFESATRAAML 8eun-a1-m1-cA_8eun-a1-m1-cB MicroED structure of an Aeropyrum pernix protoglobin metallo-carbene complex Q9YFF4 Q9YFF4 2.5 ELECTRON CRYSTALLOGRAPHY 127 1.0 56636 (Aeropyrum pernix) 56636 (Aeropyrum pernix) 187 187 7ute-a1-m1-cB_7ute-a1-m1-cA IPGYDYGRVEKSPITDLEFDLLKKTVMLGEKDVMYLKKAGDVLKDQVDEILDLLVGWRASNEHLIYYFSNPDTGEPIKEYLERVRARFGAWILDTTSRDYNREWLDYQYEVGLRHHRSKKGVTDGVRTVPHIPLRYLIAQIYPLTATIKPFLAKKPEDIEGMYNAWFKSVVLQVAIWSHPYTKENDW IPGYDYGRVEKSPITDLEFDLLKKTVMLGEKDVMYLKKAGDVLKDQVDEILDLLVGWRASNEHLIYYFSNPDTGEPIKEYLERVRARFGAWILDTTSRDYNREWLDYQYEVGLRHHRSKKGVTDGVRTVPHIPLRYLIAQIYPLTATIKPFLAKKPEDIEGMYNAWFKSVVLQVAIWSHPYTKENDW 8evk-a1-m2-cA_8evk-a1-m4-cA Crystal structure of Helicobacter pylori dihydroneopterin aldolase (DHNA) B5Z9C8 B5Z9C8 1.49 X-RAY DIFFRACTION 56 1.0 563041 (Helicobacter pylori G27) 563041 (Helicobacter pylori G27) 115 115 8evk-a1-m1-cA_8evk-a1-m3-cA 8evk-a1-m1-cA_8evk-a1-m4-cA 8evk-a1-m2-cA_8evk-a1-m3-cA GMKTKQGVHVHNLVFETILGILEFERLKPQKISVDLDLFYTQLPNKAYLDYIKIQELIQKMMQEKQYLLIEDALKDLSQILKTRYKEITELYLKISKLEISPDSQVGASVKICYE GMKTKQGVHVHNLVFETILGILEFERLKPQKISVDLDLFYTQLPNKAYLDYIKIQELIQKMMQEKQYLLIEDALKDLSQILKTRYKEITELYLKISKLEISPDSQVGASVKICYE 8ewi-a1-m1-cB_8ewi-a1-m1-cD Structure of the human UBR5 HECT-type E3 ubiquitin ligase in a tetrameric form O95071 O95071 3.5 ELECTRON MICROSCOPY 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1775 1775 8ewi-a1-m1-cA_8ewi-a1-m1-cC MTSIHFVVHPLPGTEDQLNDRLREVSEKLNKYNLNSHPPLNVLEQATIKQCVVGPNHAAFLLEDGRVCRIGFSVQPDRLSPVSLGEDLQWWPDKDGTKFICIGALYSELLAVSSKGELYQWKWSESEPYRNAQNPSLHHPRATFLGLTNEKIVLLSANSIRATVATENNKVATWVDETLSSVASKLEHTAQTYSELQGERIVSLHCCALYTCAQLENSLYWWGVVPFSQRKKMLEKARAKNKKPKSSAGISSMPNITVGTQVCLRNNPLYHAGAVAFSISAGIPKVGVLMESVWNMNDSCRFQLRSPESLKNEEQWSLREVVFVEDVKNVPVGKVLKVDGAYVAVKFPGTSSNTNCQNSSGPDADPSSLLQDCRLLRIDELQVVKTGGTPKVPDCFQRTPKKLCIPEKTEILAVNVDSKGVHAVLKTGNWVRYCIFDLATGKAEQENNFPTSSIAFLGQNERNVAIFTAGQESPIILRDGNGTIYPMAKDCMGGIRDPDWLDLPPISSLGMGVHSLINLPANSTIKKKAAVIIMAVEKQTLMQHILRCDYEACRQYLMNLEQAVVLEQNLQMLQTFISHRCDGNRNILHACVSVCFPTSNKVESKDRKANAHFILKLLCDSVVLQPYLRELLSAKDARGMTPFMSAVSGRAYPAAITILETAQKIAKAEISSSEKEEDVFMGMVCPSGTNPDDSPLYVLCCNDTCSFTWTGAEHINQDIFECRTCGLLESLCCCTECARVCHKGHDCKLKRTSPTAYCDCWEKCKCKTLIAGQKSARLDLLYRLLTATNLVTLPNSRGEHLLLFLVQTVARQTVEHCQYRPPRIREDSDMPDHDLEPPRFAQLALERVLQDWNALKSMIMFGSQENKDPLSASSRIGHLLPEEQVYLNQQSGTIRLDCFTHCLIVKCTADILLLDTLLGTLVKELQNKYTPGRREEAIAVTMRFLRSVARVFVILSVEMASSKKKNNFIPQPIGKCKRVFQALLPYAVEELCNVAESLIVPVRMGIARPTAPFTLASTSIDAMQGSEELFSVEPLPPRPSSMLDEPLERTTNSSHANGAAQAPRSMQWAVRNNASSYLTSASSLARAYSIVIRQISDLMGLIPKYNHLVYSQIPAAVKLTYQDAVNLQNYVEEKLIPTWNWMVSIMDSTEAQLRYGSALASAGDPGHPNHPLHASQNSARRMSARGDFLNYALSLMRSHNDEHSDVLPVLDVCSLKHVAYVFQALIYWIKAMNQQTTETGQNHPFFRRSDSMTFLGCIPPNPFEVPLAEAIPLADQPHLLQPNARKEDLFGRPSQGLYSSSASSGKCLMEVTVDRNCLEVLPTKMSPPLTSFRPQCSFMGMVISHDMLLGRWRLSLELFGRVFMEDVGAEPGSILTELGGFEVKESKFRREMEKLRNQQSRDLSLEVDRDRDLLIQQTMRQLNNHFGRRCATTPMAVHRVKVTFKDEPGEGSGVARSFYTAIAQAFLSNEKLPNLECIQNDNAPLFYQPGKRGFYTPRPGKNTEARLNCFRNIGRILGLCLLQNELCPITLNRHVIKVLLGRKVNWHDFAFFDPVMYESLRQLILASQSSDADAVFSAMDLAFAIDLCKEEGGGQVELIPNGVNIPVTPQNVYEYVRKYAEHRMLVVAEQPLHAMRKGLLDVLPKNSLEDLTAEDFRLLVNGCGEVNVQMLISFTSFNDESGENAEKLLQFKRWFWSIVEKMSMTERQDLVYFWTSSPSLPASEEGFQPMPSITIRPPDDQHLPTANTCISRLYVPLYSSKQILKQKLLLAIKTK MTSIHFVVHPLPGTEDQLNDRLREVSEKLNKYNLNSHPPLNVLEQATIKQCVVGPNHAAFLLEDGRVCRIGFSVQPDRLSPVSLGEDLQWWPDKDGTKFICIGALYSELLAVSSKGELYQWKWSESEPYRNAQNPSLHHPRATFLGLTNEKIVLLSANSIRATVATENNKVATWVDETLSSVASKLEHTAQTYSELQGERIVSLHCCALYTCAQLENSLYWWGVVPFSQRKKMLEKARAKNKKPKSSAGISSMPNITVGTQVCLRNNPLYHAGAVAFSISAGIPKVGVLMESVWNMNDSCRFQLRSPESLKNEEQWSLREVVFVEDVKNVPVGKVLKVDGAYVAVKFPGTSSNTNCQNSSGPDADPSSLLQDCRLLRIDELQVVKTGGTPKVPDCFQRTPKKLCIPEKTEILAVNVDSKGVHAVLKTGNWVRYCIFDLATGKAEQENNFPTSSIAFLGQNERNVAIFTAGQESPIILRDGNGTIYPMAKDCMGGIRDPDWLDLPPISSLGMGVHSLINLPANSTIKKKAAVIIMAVEKQTLMQHILRCDYEACRQYLMNLEQAVVLEQNLQMLQTFISHRCDGNRNILHACVSVCFPTSNKVESKDRKANAHFILKLLCDSVVLQPYLRELLSAKDARGMTPFMSAVSGRAYPAAITILETAQKIAKAEISSSEKEEDVFMGMVCPSGTNPDDSPLYVLCCNDTCSFTWTGAEHINQDIFECRTCGLLESLCCCTECARVCHKGHDCKLKRTSPTAYCDCWEKCKCKTLIAGQKSARLDLLYRLLTATNLVTLPNSRGEHLLLFLVQTVARQTVEHCQYRPPRIREDSDMPDHDLEPPRFAQLALERVLQDWNALKSMIMFGSQENKDPLSASSRIGHLLPEEQVYLNQQSGTIRLDCFTHCLIVKCTADILLLDTLLGTLVKELQNKYTPGRREEAIAVTMRFLRSVARVFVILSVEMASSKKKNNFIPQPIGKCKRVFQALLPYAVEELCNVAESLIVPVRMGIARPTAPFTLASTSIDAMQGSEELFSVEPLPPRPSSMLDEPLERTTNSSHANGAAQAPRSMQWAVRNNASSYLTSASSLARAYSIVIRQISDLMGLIPKYNHLVYSQIPAAVKLTYQDAVNLQNYVEEKLIPTWNWMVSIMDSTEAQLRYGSALASAGDPGHPNHPLHASQNSARRMSARGDFLNYALSLMRSHNDEHSDVLPVLDVCSLKHVAYVFQALIYWIKAMNQQTTETGQNHPFFRRSDSMTFLGCIPPNPFEVPLAEAIPLADQPHLLQPNARKEDLFGRPSQGLYSSSASSGKCLMEVTVDRNCLEVLPTKMSPPLTSFRPQCSFMGMVISHDMLLGRWRLSLELFGRVFMEDVGAEPGSILTELGGFEVKESKFRREMEKLRNQQSRDLSLEVDRDRDLLIQQTMRQLNNHFGRRCATTPMAVHRVKVTFKDEPGEGSGVARSFYTAIAQAFLSNEKLPNLECIQNDNAPLFYQPGKRGFYTPRPGKNTEARLNCFRNIGRILGLCLLQNELCPITLNRHVIKVLLGRKVNWHDFAFFDPVMYESLRQLILASQSSDADAVFSAMDLAFAIDLCKEEGGGQVELIPNGVNIPVTPQNVYEYVRKYAEHRMLVVAEQPLHAMRKGLLDVLPKNSLEDLTAEDFRLLVNGCGEVNVQMLISFTSFNDESGENAEKLLQFKRWFWSIVEKMSMTERQDLVYFWTSSPSLPASEEGFQPMPSITIRPPDDQHLPTANTCISRLYVPLYSSKQILKQKLLLAIKTK 8ewu-a1-m1-cA_8ewu-a1-m1-cB X-ray structure of the GDP-6-deoxy-4-keto-D-lyxo-heptose-4-reductase from Campylobacter jejuni HS:15 F2X7A6 F2X7A6 1.45 X-RAY DIFFRACTION 98 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 353 354 MMNKDSKIYIAGHTGLVGSSILKKLQNDGYENLIFRTHSELDLTNQQAVTDFFKKEKPEYVFFCAAKMGGMMEQLERRADFLYLNLIMQTFVLHEAYKNDCKKLLYLSSLCIYPQDASLPIKETSMLEGKLQFINEPYAVAKITGNKMCEFYNQQFGTNFITLVPTSIYGPGDNFNLATAHVFPAIFAKIYLGKLLNEQKHQELFNSLRLDNIQDVLKYLSQFDIDENKVTLLGSGNPRREFIYVDDVADACIFTMDKIDASMLKKYDENFHNTHLNLADGKDYSIKEVAFLIKDIIGYKGDIIFDSSKLDGTMLKTTNTERIRKLGWKAKIKLEDGIKMMYEWYLKEQNIRQ HMMNKDSKIYIAGHTGLVGSSILKKLQNDGYENLIFRTHSELDLTNQQAVTDFFKKEKPEYVFFCAAKMGGMMEQLERRADFLYLNLIMQTFVLHEAYKNDCKKLLYLSSLCIYPQDASLPIKETSMLEGKLQFINEPYAVAKITGNKMCEFYNQQFGTNFITLVPTSIYGPGDNFNLATAHVFPAIFAKIYLGKLLNEQKHQELFNSLRLDNIQDVLKYLSQFDIDENKVTLLGSGNPRREFIYVDDVADACIFTMDKIDASMLKKYDENFHNTHLNLADGKDYSIKEVAFLIKDIIGYKGDIIFDSSKLDGTMLKTTNTERIRKLGWKAKIKLEDGIKMMYEWYLKEQNIRQ 8ewy-a1-m1-cA_8ewy-a1-m1-cB Structure of Janus Kinase (JAK) dimer complexed with cytokine receptor intracellular domain B1ASP2 B1ASP2 5.5 ELECTRON MICROSCOPY 71 1.0 10090 (Mus musculus) 10090 (Mus musculus) 1049 1049 PEPGVEVTFYLLDREPLRLGSGEYTAEELCIRAAQECSISPLCHNLFALYDESTKLWYAPNRIITVDDKTSLRLHYRMRFYFTNWHGTNDNEQSVWRHSPKEATPLLDASSLEYLFAQGQYDLIKCLAPIRDPKTEQDGHDIENECLGMAVLAISHYAMMKKMQLPELPKDISYKRYIPETLNKSIRQRNLLTRMRINNVFKDFLKEFNNKTICDSSVSTHDLKVKYLATLETLTKHYGAEIFETSMLLISSENELSRCHSNDSGNVLYEVMVTGNLGIQWRQKPNEEWNNFSYFPEITHIVIKESVVSINKQDNKNMELKLSSREEALSFVSLVDGYFRLTADAHHYLCTDVAPPLIVHNIQNGCHGPICTEYAINKLRQEGSEEGMYVLRWSCTDFDNILMTVTKQFKNFQIEVQKGRYSLHGSMDHFPSLRDLMNHLKKQILRTDNISFVLKRCCQPKPREISNLLVATKKAQEWQPVYSMSQLSFDRILKKDIIQGEHLGRGTRTHIYSGTLLDYEKKIKVILKVLDPSHRDISLAFFEAASMMRQVSHKHIVYLYGVCFRDVENIMVEEFVEGGPLDLFMHRKSDALTTPWKFKVAKQLASALSYLEDKDLVHGNVCTKNLLLAREGIDSDIGPFIKLSDPGIPVSVLTRQECIERIPWIAPECVEDSKNLSVAADKWSFGTTLWEICYNGEIPLKDKTLIEKERFYESRCRPVTPSCKELADLMTRCMNYDPNQRPFFRAIMRDINKLEEQNPDIVTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPESGGNHIADLKKEIEILRNLYHENIVKYKGICMEDGGNGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAIQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKEYYTVKDDRDSPVFWYAPECLIQCKFYIASDVWSFGVTLHELLTYCDSDFSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTTFQNLIEGFEALLK PEPGVEVTFYLLDREPLRLGSGEYTAEELCIRAAQECSISPLCHNLFALYDESTKLWYAPNRIITVDDKTSLRLHYRMRFYFTNWHGTNDNEQSVWRHSPKEATPLLDASSLEYLFAQGQYDLIKCLAPIRDPKTEQDGHDIENECLGMAVLAISHYAMMKKMQLPELPKDISYKRYIPETLNKSIRQRNLLTRMRINNVFKDFLKEFNNKTICDSSVSTHDLKVKYLATLETLTKHYGAEIFETSMLLISSENELSRCHSNDSGNVLYEVMVTGNLGIQWRQKPNEEWNNFSYFPEITHIVIKESVVSINKQDNKNMELKLSSREEALSFVSLVDGYFRLTADAHHYLCTDVAPPLIVHNIQNGCHGPICTEYAINKLRQEGSEEGMYVLRWSCTDFDNILMTVTKQFKNFQIEVQKGRYSLHGSMDHFPSLRDLMNHLKKQILRTDNISFVLKRCCQPKPREISNLLVATKKAQEWQPVYSMSQLSFDRILKKDIIQGEHLGRGTRTHIYSGTLLDYEKKIKVILKVLDPSHRDISLAFFEAASMMRQVSHKHIVYLYGVCFRDVENIMVEEFVEGGPLDLFMHRKSDALTTPWKFKVAKQLASALSYLEDKDLVHGNVCTKNLLLAREGIDSDIGPFIKLSDPGIPVSVLTRQECIERIPWIAPECVEDSKNLSVAADKWSFGTTLWEICYNGEIPLKDKTLIEKERFYESRCRPVTPSCKELADLMTRCMNYDPNQRPFFRAIMRDINKLEEQNPDIVTHFEKRFLKRIRDLGEGHFGKVELCRYDPEGDNTGEQVAVKSLKPESGGNHIADLKKEIEILRNLYHENIVKYKGICMEDGGNGIKLIMEFLPSGSLKEYLPKNKNKINLKQQLKYAIQICKGMDYLGSRQYVHRDLAARNVLVESEHQVKIGDFGLTKAIETDKEYYTVKDDRDSPVFWYAPECLIQCKFYIASDVWSFGVTLHELLTYCDSDFSPMALFLKMIGPTHGQMTVTRLVNTLKEGKRLPCPPNCPDEVYQLMRKCWEFQPSNRTTFQNLIEGFEALLK 8exq-a1-m1-cA_8exq-a1-m1-cB Cryo-EM structure of S. aureus BlaR1 with C1 symmetry Q00419 Q00419 4.9 ELECTRON MICROSCOPY 307 1.0 1280 (Staphylococcus aureus) 1280 (Staphylococcus aureus) 554 554 8exp-a1-m1-cA_8exp-a1-m1-cB 8exr-a1-m1-cA_8exr-a1-m1-cB 8exr-a1-m1-cC_8exr-a1-m1-cB 8exs-a1-m1-cA_8exs-a1-m1-cB 8ext-a1-m1-cA_8ext-a1-m1-cB MAKLLIMSIVSFCFIFLLLLFFRYILKRYFNYMLNYKVWYLTLLAGLIPFIPIKFIQEFATDIHKFNWDSIDNICTVIWIVLVIILSFKFLKALLYLKYLKKQSLYLNENEKNKIDTILFNHQYKKNIVIRKAETIQSPITFWYGKYIILIPSSYFKSVIDKRLKYIILHEYAHAKNRDTLHLIIFNIFSIIMSYNPLVHIVKRKIIHDNEVEADRFVLNNINKNEFKTYAESIMDSVLNVPFFNKNILSHSFNGKKSLLKRRLINIKEANLKKQSKLILIFICIFTFLLMVIQSQFLMGQSITDYNYKKPLHNDYQILDKSKIFGSNSGSFVMYSMKKDKYYIYNEKESRKRYSPNSTYKIYLAMFGLDRHIINDENSRMSWNHKHYPFDAWNKEQDLNTAMQNSVNWYFERISDQIPKNYTATQLKQLNYGNKNLGSYKSYWMEDSLKISNLEQVIVFKNMMEQNNHFSKKAKNQLSSSLLIKKNEKYELYGKTGTGIVNGKYNNGWFVGYVITNHDKYYFATHLSDGKPSGKNAELISEKILKEMGVLNGQ MAKLLIMSIVSFCFIFLLLLFFRYILKRYFNYMLNYKVWYLTLLAGLIPFIPIKFIQEFATDIHKFNWDSIDNICTVIWIVLVIILSFKFLKALLYLKYLKKQSLYLNENEKNKIDTILFNHQYKKNIVIRKAETIQSPITFWYGKYIILIPSSYFKSVIDKRLKYIILHEYAHAKNRDTLHLIIFNIFSIIMSYNPLVHIVKRKIIHDNEVEADRFVLNNINKNEFKTYAESIMDSVLNVPFFNKNILSHSFNGKKSLLKRRLINIKEANLKKQSKLILIFICIFTFLLMVIQSQFLMGQSITDYNYKKPLHNDYQILDKSKIFGSNSGSFVMYSMKKDKYYIYNEKESRKRYSPNSTYKIYLAMFGLDRHIINDENSRMSWNHKHYPFDAWNKEQDLNTAMQNSVNWYFERISDQIPKNYTATQLKQLNYGNKNLGSYKSYWMEDSLKISNLEQVIVFKNMMEQNNHFSKKAKNQLSSSLLIKKNEKYELYGKTGTGIVNGKYNNGWFVGYVITNHDKYYFATHLSDGKPSGKNAELISEKILKEMGVLNGQ 8eyk-a1-m1-cE_8eyk-a1-m1-cF Atomic model of the core modifying region of human fatty acid synthase in complex with TVB-2640 P49327 P49327 2.7 ELECTRON MICROSCOPY 162 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 966 1070 4w9n-a1-m1-cB_4w9n-a1-m1-cA 4w9n-a2-m1-cD_4w9n-a2-m1-cC 4w9n-a3-m1-cB_4w9n-a3-m1-cA 4w9n-a3-m1-cD_4w9n-a3-m1-cC 8eyi-a1-m1-cE_8eyi-a1-m1-cF 8gkc-a1-m1-cA_8gkc-a1-m1-cD SAAIYNIDTSSESPDHYLVDHTLDGRVLFPATGYLSIVWKTLARALGLGVEQLPVVFEDVVLHQATILPKTGTVSLEVRLLEASRAFEVSENGNLVVSGKVYQWDDPDPRLFDHPESPTPNPTEPLFLAQAEVYKELRLRGYDYGPHFQGILEASLEGDSGRLLWKDNWVSFMDTMLQMSILGSAKHGLYLPTRVTAIHIDPATHRQKLYTLQDKAQVADVVVSRWLRVTVAGGVHISGLHTESAPRRQQEQQVPILEKFCFTPHDSPIFLPVDDTSFRWVESLKGILADEDSSRPVWLKAINCATSGVVGLVNCLRREPGGNRLRCVLLSNLSSTSHVPEVDPGSAELQKVLQGDLVMNVYRDGAWGAFRHFLLEEDKPEEPTAHAFVSTLTRGDLSSIRWVCSSLRHAQPTCPGAQLCTVYYASLNFRDIMLATGKLSPDAIPGKWTSQDSLLGMEFSGRDASGKRVMGLVPAKGLATSVLLSPDFLWDVPSNWTLEEAASVPVVYSTAYYALVVRGRVRPGETLLIHSGSGGVGQAAIAIALSLGCRVFTTVGSAEKRAYLQARFPQLDSTSFANSRDTSFEQHVLWHTGGKGVDLVLNSLAEEKLQASVRCLATHGRFLEIGKFDLSQNHPLGMAIFLKNVTFHGVLLDAFFNESSADWREVWALVQAGIRDGVVRPLKCTVFHGAQVEDAFRYMAQGKHIGKVVVQVLAEEPEAVLKGAKPKLMSAISKTFCPAHKSYIIAGGLGGFGLELAQWLIQRGVQKLVLTSRSGIRTGYQAKQVRRWRRQGVQVQVSTSNISSLEGARGLIAEAAQLGPVGGVFNLAVVLRDGLLENQTPEFFQDVCKPKYSGTLNLDRVTREACPELDYFVVFSSVSCGRGNAGQSNYGFANSAMERICEKRRHEGLPGLAVQWGAIGDVGILVETMSDTIVSGTLPQRMASCLEVLDLFLNQPHMVLSSFVLA SAAIYNIDTSSESPDHYLVDHTLDGRVLFPATGYLSIVWKTLARALGLGVEQLPVVFEDVVLHQATILPKTGTVSLEVRLLEASRAFEVSENGNLVVSGKVYQWDDPDPRLFDHPESPTPNPTEPLFLAQAEVYKELRLRGYDYGPHFQGILEASLEGDSGRLLWKDNWVSFMDTMLQMSILGSAKHGLYLPTRVTAIHIDPATHRQKLYTLQDKAQVADVVVSRWLRVTVAGGVHISGLHTESAPRRQQEQQVPILEKFCFTPHTEGLLDSPALKACLDTAVENMPSLKMKVVEHLYSRIPGLLSPHPLLQLSYTLLVCNPASALSNMVAALREGGFLLLHTLDAWESLFSRVSLRLVGLKKLFLCRRPTPQDSPIFLPVDDTSFRWVESLKGILADEDSSRPVWLKAINCATSGVVGLVNCLRREPGGNRLRCVLLSNLSSTSHVPEVDPGSAELQKVLQGDLVMNVYRDGAWGAFRHFLLEEDKPEEPTAHAFVSTLTRGDLSSIRWVCSSLRHAQPTCPGAQLCTVYYASLNFRDIMLATGKLSPDAIPGKWTSQDSLLGMEFSGRDASGKRVMGLVPAKGLATSVLLSPDFLWDVPSNWTLEEAASVPVVYSTAYYALVVRGRVRPGETLLIHSGSGGVGQAAIAIALSLGCRVFTTVGSAEKRAYLQARFPQLDSTSFANSRDTSFEQHVLWHTGGKGVDLVLNSLAEEKLQASVRCLATHGRFLEIGKFDLSQNHPLGMAIFLKNVTFHGVLLDAFFNEADWREVWALVQAGIRDGVVRPLKCTVFHGAQVEDAFRYMAQGKHIGKVVVQVLAEEPEAVLKKLMSAISKTFCPAHKSYIIAGGLGGFGLELAQWLIQRGVQKLVLTSRSGIRTGYQAKQVRRWRRQGVQVQVSTSNISSLEGARGLIAEAAQLGPVGGVFNLAVVLRDGLLENQTPEFFQDVCKPKYSGTLNLDRVTREACPELDYFVVFSSVSCGRGNAGQSNYGFANSAMERICEKRRHEGLPGLAVQWGAIGDVGILVETMSTNDTIVSGTLPQRMASCLEVLDLFLNQPHMVLSSFVLA 8eym-a1-m1-cA_8eym-a1-m1-cB CRYSTAL STRUCTURE OF NAGB-II PHOSPHOSUGAR ISOMERASE FROM SHEWANELLA DENITRIFICANS OS217 IN COMPLEX WITH GLUCITOLAMINE-6-PHOSPHATE AND N-ACETYLGLUCOSAMINE-6-PHOSPHATE AT 2.31 A RESOLUTION Q12KP2 Q12KP2 2.311 X-RAY DIFFRACTION 169 1.0 318161 (Shewanella denitrificans OS217) 318161 (Shewanella denitrificans OS217) 319 331 3hba-a1-m1-cA_3hba-a1-m1-cB 8eol-a1-m1-cA_8eol-a1-m1-cB 8fdb-a1-m1-cA_8fdb-a1-m1-cB TNTIMEQEARTAPQKIAEQLLANDAITESLGSVLREFKPKFVMIVGRGSSDHAGVFAKYLFEIEASIPTFAAAPSVASVYGKTLKLAGGLVIVISQSGRSPDILAQARMAKNAGAFCVALVNDETAPIKDIVDVVIPLRAGEEKAVAATKSYLATLSALLQVAAKWTQNESLVEAVNSLPQALQAAVDAEPQLRAGSLTDVKNLVVLGRGFGYAVSKEIALKLKEVCAIHAEAFSSAEFLHGPVTLVEKKLSILDVCIRDESYGSHVEQIANVKQRGANLIHLHQTSADIHPRIAPLALLQRFYIDVAAVAIALGINPD TTNTIMEQEARTAPQKIAEQLLANDAITESLGSVLREFKPKFVMIVGRGSSDHAGVFAKYLFEIEASIPTFAAAPSVASVYGKTLKLAGGLVIVISQSGRSPDILAQARMAKNAGAFCVALVNDETAPIKDIVDVVIPLRAGEEKAVAATKSYLATLSALLQVAAKWTQNESLVEAVNSLPQALQAAVDAEPQLRAGSLTDVKNLVVLGRGFGYAVSKEIALKLKEVCAIHAEAFSSAEFLHGPVTLVEKKLSILDVCIRDESYGSHVEQIANVKQRGANLIHLHQTSADIHPRIAPLALLQRFYIDVAAVAIALGINPDKPAGLKKVTQT 8eyr-a1-m1-cB_8eyr-a1-m1-cA Cryo-EM structure of two IGF1 bound full-length mouse IGF1R mutant (four glycine residues inserted in the alpha-CT; IGF1R-P674G4): symmetric conformation Q60751 Q60751 4.0 ELECTRON MICROSCOPY 68 1.0 10090 (Mus musculus) 10090 (Mus musculus) 794 795 EICGPGIDIRNDYQQLKRLENCTVIEGFLHILLISKAEDYRSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTIDWSLILDAVSNNYIVGNKPPKECGDLCPCEKTTINNEYNYRCWTTNRCQKMCPSVCACTENNECCHPECLGSCHTPDDNTTCVACRHYYYKGVCVPACPPGTYRFEGWRCVDRDFCANIPNAESGFVIHDDECMQECPSGFIRNSTQSMYCIPCVCGDEEKKTKTIDSVTSAQMLQGCTILKGNLLINIRRGNNIASELENFMGLIEVVTGYVKIRHSHALVSLSFLKNLRLILGEEQLEGNYSFYVLDNQNLQQLWDWNHRNLTVRSGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLRFTSTTTWKNRIIITWHRYRPPDYRDLISFTVYYKEAPFKNVTEYDCGSNSWNMVDVDLPPNKEGEPGILLHGLKPWTQYAVYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPTLPNGNLSYYIVRWQRQPQDGYLYRHNYCSKTEAEKQAEKEEAEYRKVFENFLHNSIFVPRPYPFFESRVDNKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWEPRPENSIFLKWPEPENPNGLILMYEIKYGSQVEDQRECVSRQEYRKYGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVPA EICGPGIDIRNDYQQLKRLENCTVIEGFLHILLISKAEDYRSYRFPKLTVITEYLLLFRVAGLESLGDLFPNLTVIRGWKLFYNYALVIFEMTNLKDIGLYNLRNITRGAIRIEKNADLCYLSTIDWSLILDAVSNNYIVGNKPPKECGDLCPCEKTTINNEYNYRCWTTNRCQKMCPSVCACTENNECCHPECLGSCHTPDDNTTCVACRHYYYKGVCVPACPPGTYRFEGWRCVDRDFCANIPNAESGFVIHDDECMQECPSGFIRNSTQSMYCIPCKVCGDEEKKTKTIDSVTSAQMLQGCTILKGNLLINIRRGNNIASELENFMGLIEVVTGYVKIRHSHALVSLSFLKNLRLILGEEQLEGNYSFYVLDNQNLQQLWDWNHRNLTVRSGKMYFAFNPKLCVSEIYRMEEVTGTKGRQSKGDINTRNNGERASCESDVLRFTSTTTWKNRIIITWHRYRPPDYRDLISFTVYYKEAPFKNVTEYDCGSNSWNMVDVDLPPNKEGEPGILLHGLKPWTQYAVYVKAVTLTMVENDHIRGAKSEILYIRTNASVPSIPLDVLSASNSSSQLIVKWNPPTLPNGNLSYYIVRWQRQPQDGYLYRHNYCSKTEAEKQAEKEEAEYRKVFENFLHNSIFVPRPYPFFESRVDNKERTVISNLRPFTLYRIDIHSCNHEAEKLGCSASNFVFARTMPAEGADDIPGPVTWEPRPENSIFLKWPEPENPNGLILMYEIKYGSQVEDQRECVSRQEYRKYGGAKLNRLNPGNYTARIQATSLSGNGSWTDPVFFYVPA 8f0l-a1-m1-cH_8f0l-a1-m1-cA Crystal Structure of the Human T cell Receptor CD3(EPSILON) N-Terminal Peptide Complexed with ADI-26906 FAB 1.81 X-RAY DIFFRACTION 25 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 211 211 VQLVQSGAEVKKPGASVKVSCKASGFNIKDYYMHWVRQAPGQRLEWMGWIDLENANTIYDAKFQGRVTITRDTSASTAYMELSSLRSEDTAVYYCARDAYGRYFYDVWGQGTLVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP VQLVQSGAEVKKPGASVKVSCKASGFNIKDYYMHWVRQAPGQRLEWMGWIDLENANTIYDAKFQGRVTITRDTSASTAYMELSSLRSEDTAVYYCARDAYGRYFYDVWGQGTLVTVSSASTKGPSVFPLAPGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVEP 8f2l-a3-m1-cE_8f2l-a3-m1-cF Crystal structure of Mycobacterium tuberculosis Homoserine transacetylase in complex with L-Homoserine P9WJY9 P9WJY9 2.89 X-RAY DIFFRACTION 142 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 365 367 6pux-a1-m1-cB_6pux-a1-m1-cA 7ryt-a1-m1-cA_7ryt-a1-m1-cB 7ryt-a2-m1-cC_7ryt-a2-m1-cD 7ryt-a3-m1-cE_7ryt-a3-m1-cF 8f2l-a1-m1-cA_8f2l-a1-m1-cB 8f2l-a2-m1-cC_8f2l-a2-m1-cD 8f2l-a4-m1-cG_8f2l-a4-m1-cH 8f2l-a5-m1-cI_8f2l-a5-m1-cJ 8f2l-a6-m1-cK_8f2l-a6-m1-cL TQTLPAEGEIGLIDVGSLQLESGAVIDDVCIAVQRWGKLSPARDNVVVVLHALTGDSHITGPAGPGHPTPGWWDGVAGPGAPIDTTRWCAVATNVLGGCRGSTGPSSLARDGKPWGSRFPLISIRDQVQADVAALAALGITEVAAVVGGSMGGARALEWVVGYPDRVRAGLLLAVGARATADQIGTQTTQIAAIKADPDWQSGDYHETGRAPDAGLRLARRFAHLTYRGEIELDTRFANHNQGNEDPTAGGRYAVQSYLEHQGDKLLSRFDAGSYVILTEALNSHDVGRGRGGVSAALRACPVPVVVGGITSDRLYPLRLQQELADLLPGCAGLRVVESVYGHDGFLVETEAVGELIRQTLGLAD TQTLPAEGEIGLIDVGSLQLESGAVIDDVCIAVQRWGKLSPARDNVVVVLHALTGDSHITGPAGPGHPTPGWWDGVAGPGAPIDTTRWCAVATNVLGGCRGSTGPSSLARDGKPWGSRFPLISIRDQVQADVAALAALGITEVAAVVGGSMGGARALEWVVGYPDRVRAGLLLAVGARATADQIGTQTTQIAAIKADPDWQSGDYHETGRAPDAGLRLARRFAHLTYRGEIELDTRFANHNQGNEDPTAGGRYAVQSYLEHQGDKLLSRFDAGSYVILTEALNSHDVGRGRGGVSAALRACPVPVVVGGITSDRLYPLRLQQELADLLPGCAGLRVVESVYGHDGFLVETEAVGELIRQTLGLADRE 8f3e-a1-m1-cB_8f3e-a1-m1-cC Trimer of aminoglycoside efflux pump AcrD C3T0H0 C3T0H0 3.09 ELECTRON MICROSCOPY 201 1.0 562 (Escherichia coli) 562 (Escherichia coli) 1032 1032 8f3e-a1-m1-cA_8f3e-a1-m1-cB 8f3e-a1-m1-cA_8f3e-a1-m1-cC 8f4n-a1-m1-cA_8f4n-a1-m1-cB 8f4r-a1-m1-cA_8f4r-a1-m1-cB 8f4r-a1-m1-cA_8f4r-a1-m1-cC 8f4r-a1-m1-cB_8f4r-a1-m1-cC 8f56-a1-m1-cA_8f56-a1-m1-cB MANFFIDRPIFAWVLAILLCLTGTLAIFSLPVEQYPDLAPPNVRVTANYPGASAQTLENTVTQVIEQNMTGLDNLMYMSSQSSGTGQASVTLSFKAGTDPDEAVQQVQNQLQSAMRKLPQAVQNQGVTVRKTGDTNILTIAFVSTDGSMDKQDIADYVASNIQDPLSRVNGVGDIDAYGSQYSMRIWLDPAKLNSFQMTAKDVTDAIESQNAQIAVGQLGGTPSVDKQALNATINAQSLLQTPEQFRDITLRVNQDGSEVRLGDVATVEMGAEKYDYLSRFNGKPASGLGVKLASGANEMATAELVLNRLDELAQYFPHGLEYKVAYETTSFVKASIEDVVKTLLEAIALVFLVMYLFLQNFRATLIPTIAVPVVLMGTFSVLYAFGYSVNTLTMFAMVLAIGLLVDDAIVVVENVERIMSEEGLTPREATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGTTGAIYRQFSITIVAAMVLSVLVAMILTPALCATLLKPLKKGEHHGQKGFFAWFNQMFNRNAERYEKGVAKILHRSLRWIVIYVLLLGGMVFLFLRLPTSFLPLEDRGMFTTSVQLPSGSTQQQTLKVVEQIEKYYFTHEKDNIMSVFATVGSGPGGNGQNVARMFIRLKDWSERDSKTGTSFAIIERATKAFNQIKEARVIASSPPAISGLGSSAGFDMELQDHAGAGHDALMAARNQLLALAAENPELTRVRHNGLDDSPQLQIDIDQRKAQALGVAIDDINDTLQTAWGSSYVNDFMDRGRVKKVYVQAAAPYRMLPDDINLWYVRNKDGGMVPFSAFATSRWETGSPRLERYNGYSAVEIVGEAAPGVSTGTAMDIMESLVKQLPNGFGLEWTAMSYQERLSGAQAPALYAISLLVVFLCLAALYESWSVPFSVMLVVPLGVIGALLATWMRGLENDVYFQVGLLTVIGLSAKNAILIVEFANEMNQKGHDLFEATLHACRQRLRPILMTSLAFIFGVLPMATSTGAGSGGQHAVGTGVMGGMISATILAIYFVPLFFVLVRRRFPL MANFFIDRPIFAWVLAILLCLTGTLAIFSLPVEQYPDLAPPNVRVTANYPGASAQTLENTVTQVIEQNMTGLDNLMYMSSQSSGTGQASVTLSFKAGTDPDEAVQQVQNQLQSAMRKLPQAVQNQGVTVRKTGDTNILTIAFVSTDGSMDKQDIADYVASNIQDPLSRVNGVGDIDAYGSQYSMRIWLDPAKLNSFQMTAKDVTDAIESQNAQIAVGQLGGTPSVDKQALNATINAQSLLQTPEQFRDITLRVNQDGSEVRLGDVATVEMGAEKYDYLSRFNGKPASGLGVKLASGANEMATAELVLNRLDELAQYFPHGLEYKVAYETTSFVKASIEDVVKTLLEAIALVFLVMYLFLQNFRATLIPTIAVPVVLMGTFSVLYAFGYSVNTLTMFAMVLAIGLLVDDAIVVVENVERIMSEEGLTPREATRKSMGQIQGALVGIAMVLSAVFVPMAFFGGTTGAIYRQFSITIVAAMVLSVLVAMILTPALCATLLKPLKKGEHHGQKGFFAWFNQMFNRNAERYEKGVAKILHRSLRWIVIYVLLLGGMVFLFLRLPTSFLPLEDRGMFTTSVQLPSGSTQQQTLKVVEQIEKYYFTHEKDNIMSVFATVGSGPGGNGQNVARMFIRLKDWSERDSKTGTSFAIIERATKAFNQIKEARVIASSPPAISGLGSSAGFDMELQDHAGAGHDALMAARNQLLALAAENPELTRVRHNGLDDSPQLQIDIDQRKAQALGVAIDDINDTLQTAWGSSYVNDFMDRGRVKKVYVQAAAPYRMLPDDINLWYVRNKDGGMVPFSAFATSRWETGSPRLERYNGYSAVEIVGEAAPGVSTGTAMDIMESLVKQLPNGFGLEWTAMSYQERLSGAQAPALYAISLLVVFLCLAALYESWSVPFSVMLVVPLGVIGALLATWMRGLENDVYFQVGLLTVIGLSAKNAILIVEFANEMNQKGHDLFEATLHACRQRLRPILMTSLAFIFGVLPMATSTGAGSGGQHAVGTGVMGGMISATILAIYFVPLFFVLVRRRFPL 8f4v-a1-m1-cD_8f4v-a1-m1-cE Alpha7 nicotinic acetylcholine receptor intracellular and transmembrane domains bound to ivermectin in a desensitized state P36544 P36544 NOT SOLUTION NMR 115 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 264 264 7rpm-a1-m1-cA_7rpm-a1-m1-cB 7rpm-a1-m1-cA_7rpm-a1-m1-cE 7rpm-a1-m1-cB_7rpm-a1-m1-cC 7rpm-a1-m1-cC_7rpm-a1-m1-cD 7rpm-a1-m1-cD_7rpm-a1-m1-cE 8f4v-a1-m1-cA_8f4v-a1-m1-cB 8f4v-a1-m1-cA_8f4v-a1-m1-cE 8f4v-a1-m1-cB_8f4v-a1-m1-cC 8f4v-a1-m1-cC_8f4v-a1-m1-cD LYYGLNLLIPCVLISALALLVFLLPADSGEKISLGITVLLSLTVFMLLVAEIMPSTSDSSPSIAQYFASTMIIVGLSVVVTVIVLQYHHHDPDGGKMPKWTRVILLNWCAWFLRMKRPGEDKVRPACQHKQRRCSLASVEMSAVAPPPASNGNLLYIGFRGLDGVHCVPTPDSGVVCGRMACSPTHDEHLLHGGQPPEGDPDLAKILEEVRYIANRFRCQDESEAVCSEWKFAACVVDRLCLMAFSVFTIICTIGILMSAPNFV LYYGLNLLIPCVLISALALLVFLLPADSGEKISLGITVLLSLTVFMLLVAEIMPSTSDSSPSIAQYFASTMIIVGLSVVVTVIVLQYHHHDPDGGKMPKWTRVILLNWCAWFLRMKRPGEDKVRPACQHKQRRCSLASVEMSAVAPPPASNGNLLYIGFRGLDGVHCVPTPDSGVVCGRMACSPTHDEHLLHGGQPPEGDPDLAKILEEVRYIANRFRCQDESEAVCSEWKFAACVVDRLCLMAFSVFTIICTIGILMSAPNFV 8f6i-a1-m1-cA_8f6i-a1-m1-cB Cryo-EM structure of a Zinc-loaded symmetrical D70A mutant of the YiiP-Fab complex Q8E919 Q8E919 4.03 ELECTRON MICROSCOPY 120 0.985 211586 (Shewanella oneidensis MR-1) 211586 (Shewanella oneidensis MR-1) 274 276 7kzx-a1-m1-cA_7kzx-a1-m1-cB 8f6h-a1-m1-cB_8f6h-a1-m1-cA FWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVE DFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAHSITDTTGLRVKAAFEDAEVIIHQDPVQVEP 8f6k-a1-m1-cA_8f6k-a1-m1-cD Cryo-EM structure of a Zinc-loaded H263A/D287A mutant of the YiiP-Fab complex Q8E919 Q8E919 3.46 ELECTRON MICROSCOPY 36 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 279 287 8f6k-a1-m1-cC_8f6k-a1-m1-cB VKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAASITDTTGLRVKAAFEDAEVIIHQAPV SQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAASITDTTGLRVKAAFEDAEVIIHQAPVQV 8f6k-a1-m1-cB_8f6k-a1-m1-cD Cryo-EM structure of a Zinc-loaded H263A/D287A mutant of the YiiP-Fab complex Q8E919 Q8E919 3.46 ELECTRON MICROSCOPY 46 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 287 287 SQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAASITDTTGLRVKAAFEDAEVIIHQAPVQV SQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAASITDTTGLRVKAAFEDAEVIIHQAPVQV 8f6k-a1-m1-cC_8f6k-a1-m1-cD Cryo-EM structure of a Zinc-loaded H263A/D287A mutant of the YiiP-Fab complex Q8E919 Q8E919 3.46 ELECTRON MICROSCOPY 81 1.0 70863 (Shewanella oneidensis) 70863 (Shewanella oneidensis) 279 287 8f6k-a1-m1-cA_8f6k-a1-m1-cB VKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAASITDTTGLRVKAAFEDAEVIIHQAPV SQYDFWVKLASRASVATALTLITIKLLAWLYSGSASMLASLTDSFADTLASIINFIAIRYAIVPADHDHRYGHGKAEPLAALAQSAFIMGSAFLLLFYGGERLLNPSPVENATLGVVVSVVAIVLTLALVLLQKRALAATNSTVVEADSLHYKSDLFLNAAVLLALVLSQYGWWWADGLFAVLIACYIGQQAFDLGYRSIQALLDRELDEDTRQRIKLIAKEDPRVLGLHDLRTRQAGKTVFIQFHLELDGNLSLNEAASITDTTGLRVKAAFEDAEVIIHQAPVQV 8f7c-a1-m1-cF_8f7c-a1-m1-cG Cryo-EM structure of human pannexin 2 P0ABE7 P0ABE7 3.92 ELECTRON MICROSCOPY 68 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 287 287 8f7c-a1-m1-cA_8f7c-a1-m1-cB 8f7c-a1-m1-cA_8f7c-a1-m1-cG 8f7c-a1-m1-cB_8f7c-a1-m1-cC 8f7c-a1-m1-cC_8f7c-a1-m1-cD 8f7c-a1-m1-cD_8f7c-a1-m1-cE 8f7c-a1-m1-cE_8f7c-a1-m1-cF GALAALLLQLKLELPFDRVVTIGTVLVPILLVTLVFTKNFAEEPIYCYTPHNFTRDQALYARGYCWTELRDALPGVDASLWPSLFEHKFLPYALLAFAAIMYVPALGWEFLASTRLTSELNFLLQEIDNCYHNLFEKYLERRGRSNFLAKLYLARHVLILLLSAVPISYLCTYYATQKQNEFTCALGASPDPAVRVSCKLPSVQLQRIIAGVDIVLLCVMNLIILVNLIHLFIFRKSNFIFDKLHKVGIKTRRQWRRSQFCDINILAMFCNENRDHIKSLNRLDFIT GALAALLLQLKLELPFDRVVTIGTVLVPILLVTLVFTKNFAEEPIYCYTPHNFTRDQALYARGYCWTELRDALPGVDASLWPSLFEHKFLPYALLAFAAIMYVPALGWEFLASTRLTSELNFLLQEIDNCYHNLFEKYLERRGRSNFLAKLYLARHVLILLLSAVPISYLCTYYATQKQNEFTCALGASPDPAVRVSCKLPSVQLQRIIAGVDIVLLCVMNLIILVNLIHLFIFRKSNFIFDKLHKVGIKTRRQWRRSQFCDINILAMFCNENRDHIKSLNRLDFIT 8f7s-a1-m1-cD_8f7s-a1-m1-cR Gi bound delta-opioid receptor in complex with deltorphin P41143 P41143 3.0 ELECTRON MICROSCOPY 78 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 289 289 SLALAIAITALYSAVCAVGLLGNVLVMFVIVRYTKMKTATNIYIFSLALAGALATSTLPFQSAKYLMETWPFGELLCKAVLSIDYYSMFTSIFTLTMMCVDRYIAVCHPVKALDFRTPAKAKLINICIWVLASGVGVPIMVMAVTRPRDGAVVCMLQFPSPSWYWDTVTKICVFLFAFVVPILIITVCYGLMLLRLRSVRLLSGSKEKDRSLRRITRMVLVVVVAFVVCWAPIHIFVIVWTLVDIDRRDPLVVAALHLCIALGYINSSLNPVLYAFLDENFKRCFRQLC SLALAIAITALYSAVCAVGLLGNVLVMFVIVRYTKMKTATNIYIFSLALAGALATSTLPFQSAKYLMETWPFGELLCKAVLSIDYYSMFTSIFTLTMMCVDRYIAVCHPVKALDFRTPAKAKLINICIWVLASGVGVPIMVMAVTRPRDGAVVCMLQFPSPSWYWDTVTKICVFLFAFVVPILIITVCYGLMLLRLRSVRLLSGSKEKDRSLRRITRMVLVVVVAFVVCWAPIHIFVIVWTLVDIDRRDPLVVAALHLCIALGYINSSLNPVLYAFLDENFKRCFRQLC 8f86-a1-m1-cE_8f86-a1-m1-cA SIRT6 bound to an H3K9Ac nucleosome P84233 P84233 3.1 ELECTRON MICROSCOPY 36 1.0 8355 (Xenopus laevis) 8355 (Xenopus laevis) 95 107 7swy-a1-m1-cA_7swy-a1-m1-cE RYRPGTVALREIRRYQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAVMALQEASEAYLVALFEDTNLAAIHAKRVTIMPKDIQLARRIRGER TKQTARKSTGGHRYRPGTVALREIRRYQKSTELLIRKLPFQRLVREIAQDFKTDLRFQSSAVMALQEASEAYLVALFEDTNLAAIHAKRVTIMPKDIQLARRIRGER 8f8o-a1-m1-cB_8f8o-a1-m1-cA Crystal Structure of the Succinyl-diaminopimelate Desuccinylase (DapE) from Acinetobacter baumannii in complex with Succinic and L-Lactic Acids A3M8H2 A3M8H2 2.1 X-RAY DIFFRACTION 197 1.0 400667 (Acinetobacter baumannii ATCC 17978) 400667 (Acinetobacter baumannii ATCC 17978) 370 372 7t1q-a1-m1-cB_7t1q-a1-m1-cA SDTLSLSLELLQQPSVTPIDHTCQTIADRLAKVGFHIEPRFGDVDNLWARRGTEGPVFCFAGHTDVVPTGRLDAWNSDPFAPEIRDGKLYGRGSADKTALAAVVASERFVAKHPNHKGSIAFLITSDEEGPAVNGTVKVIETLEKRNEKITWCLVGEPSSTHKLGDIVKNGRRGSLNAVLKVQGKQGHVAYPHLARNPIHEASPALAELCQTVWDNGNEYFPATSFQISNIHAGTGATNVIPGALEVTFNFRYSTEVTAEQLKQRVHEILDKHGLQYEIVWNLSGLPFLTPVGELVNAAQTAILNVTGTETELSTSGGTSDGRFIAPTGAQVLELGVLNATIHQINEHVDVHDLDPLTDIYEQILENLLA HSDTLSLSLELLQQPSVTPIDHTCQTIADRLAKVGFHIEPRFGDVDNLWARRGTEGPVFCFAGHTDVVPTGRLDAWNSDPFAPEIRDGKLYGRGSADKTALAAVVASERFVAKHPNHKGSIAFLITSDEEGPAVNGTVKVIETLEKRNEKITWCLVGEPSSTHKLGDIVKNGRRGSLNAVLKVQGKQGHVAYPHLARNPIHEASPALAELCQTVWDNGNEYFPATSFQISNIHAGTGATNVIPGALEVTFNFRYSTEVTAEQLKQRVHEILDKHGLQYEIVWNLSGLPFLTPVGELVNAAQTAILNVTGTETELSTSGGTSDGRFIAPTGAQVLELGVLNATIHQINEHVDVHDLDPLTDIYEQILENLLAQ 8f8u-a1-m1-cB_8f8u-a1-m1-cA Bifunctional ligase/repressor BirA from Klebsiella pneumoniae (Domain Swapped Dimer) A0A0W7ZMT5 A0A0W7ZMT5 2.85 X-RAY DIFFRACTION 118 0.997 1392499 (Klebsiella pneumoniae subsp. pneumoniae 1158) 1392499 (Klebsiella pneumoniae subsp. pneumoniae 1158) 296 297 8fi3-a1-m1-cA_8fi3-a1-m1-cB DHTIPLTLISILADGEFHSGEQLGEQLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIHLLDEKKISQEIDHGRVTVLPVIDSTNQYLLDRLDELTSGDACVAEYQQASPFGANLYLSMYWRLEQGPAAAIGLSLVIGIVIAEVLQQLGAEQVRVKWPNDIYLQDRKLSGILVELTGKTGDAAQIVSGAGINLVMQGWISLQEAGVVIDRNLLAARLIKELRLGLELFEQEGLAPYLPRWEKLDNFIHRPVKLIIGDKEIYGISRGIDAQGALLLEQDGVIKAWVGGEISLR MKDHTIPLTLISILADGEFHSGEQLGEQLGMSRAAINKHIQTLRDWGVDVFTVPGKGYSLPEPIHLLDEKKISQEIDHGRVTVLPVIDSTNQYLLDRLDELTSGDACVAEYQQASPFGANLYLSMYWRLEQGPAAAIGLSLVIGIVIAEVLQQLGAEQVRVKWPNDIYLQDRKLSGILVELTGKTGDAAQIVSGAGINLVMGWISLQEAGVVIDRNLLAARLIKELRLGLELFEQEGLAPYLPRWEKLDNFIHRPVKLIIGDKEIYGISRGIDAQGALLLEQDGVIKAWVGGEISLR 8f93-a2-m1-cA_8f93-a2-m1-cB WDR5 covalently modified at Y228 by (R)-2-SF P61964 P61964 2.3 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 304 304 8f93-a1-m1-cA_8f93-a1-m1-cB VKPNYALKFTLAGHTKAVSSVKFSPNGEWLASSSADKLIKIWGAYDGKFEKTISGHKLGISDVAWSSDSNLLVSASDDKTLKIWDVSSGKCLKTLKGHSNYVFCCNFNPQSNLIVSGSFDESVRIWDVKTGKCLKTLPAHSDPVSAVHFNRDGSLIVSSSYDGLCRIWDTASGQCLKTLIDDDNPPVSFVKFSPNGKYILAATLDNTLKLWDYSKGKCLKTYTGHKNEKYCIFANFSVTGGKWIVSGSEDNLVYIWNLQTKEIVQKLQGHTDVVISTACHPTENIIASAALENDKTIKLWKSDC VKPNYALKFTLAGHTKAVSSVKFSPNGEWLASSSADKLIKIWGAYDGKFEKTISGHKLGISDVAWSSDSNLLVSASDDKTLKIWDVSSGKCLKTLKGHSNYVFCCNFNPQSNLIVSGSFDESVRIWDVKTGKCLKTLPAHSDPVSAVHFNRDGSLIVSSSYDGLCRIWDTASGQCLKTLIDDDNPPVSFVKFSPNGKYILAATLDNTLKLWDYSKGKCLKTYTGHKNEKYCIFANFSVTGGKWIVSGSEDNLVYIWNLQTKEIVQKLQGHTDVVISTACHPTENIIASAALENDKTIKLWKSDC 8fbd-a1-m1-cB_8fbd-a1-m1-cD Crystal structure of OrfX1-OrfX3 complex from Clostridium botulinum E1 A0A126JID3 A0A126JID3 2.05 X-RAY DIFFRACTION 50 1.0 536233 (Clostridium botulinum E1 str. 'BoNT E Beluga') 536233 (Clostridium botulinum E1 str. 'BoNT E Beluga') 487 487 MQTTTLNWDTVYAVPINIVNEAIKLKHPTPENFELLNGKYGNCSGSFEEWQITNGGDGSNIRLKIPIKNFKATIIGNRLNGKGGFAFANLEVQVKLKYLPHFPQSKNKDIELVDLKIRTQSDNPEDPAIIVISSYKNIQGFYFEDEYKLTEDDEFVVSYFYRLIKEWLEKNLHFFNYIFNTVNLNLYISDKEKWEWTKPSYVDYAYSEIEGDLSRSALGVLCMTGGRTGSKNQQQKIDPYAIPAASQSGFLISEERLLRNILLPTIPKKFPKSKGDEFEVINESSQGGGYSYILKLKKGKKIDLENIQAVGYTCTPYIQEMKIYLLGSYLKLETTTRVDLPLGVASICETTCEYKFKLSTNNKGEQTIAYEQIGSPVNIQYSENTGNVGLNIVVSFLSATLSFALTFVPGFGTFLAVGLIGGCLIGSVALIPTFIESYNSDTAPSIDLSLENSVSEITWNSSDVFNLDYVALAGPLQLGGTLQVQNS MQTTTLNWDTVYAVPINIVNEAIKLKHPTPENFELLNGKYGNCSGSFEEWQITNGGDGSNIRLKIPIKNFKATIIGNRLNGKGGFAFANLEVQVKLKYLPHFPQSKNKDIELVDLKIRTQSDNPEDPAIIVISSYKNIQGFYFEDEYKLTEDDEFVVSYFYRLIKEWLEKNLHFFNYIFNTVNLNLYISDKEKWEWTKPSYVDYAYSEIEGDLSRSALGVLCMTGGRTGSKNQQQKIDPYAIPAASQSGFLISEERLLRNILLPTIPKKFPKSKGDEFEVINESSQGGGYSYILKLKKGKKIDLENIQAVGYTCTPYIQEMKIYLLGSYLKLETTTRVDLPLGVASICETTCEYKFKLSTNNKGEQTIAYEQIGSPVNIQYSENTGNVGLNIVVSFLSATLSFALTFVPGFGTFLAVGLIGGCLIGSVALIPTFIESYNSDTAPSIDLSLENSVSEITWNSSDVFNLDYVALAGPLQLGGTLQVQNS 8fbi-a1-m2-cA_8fbi-a1-m3-cA Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains 3.61 X-RAY DIFFRACTION 61 1.0 32630 (synthetic construct) 32630 (synthetic construct) 274 274 8fbi-a1-m1-cA_8fbi-a1-m2-cA 8fbi-a1-m1-cA_8fbi-a1-m3-cA AIARAIEVAREVEKVAQRAEEEGNPDLRDSAKELARAVDEAIEEAKKQGNPELVEWVARAAKVAAEVIKVAIQAEKEGNRDLFRAALELVRAVIEAIEEAVKQGNPELVEWVARAAKVAAEVIKVAIQAEKEGARDLFRLALELVRAVIEAIEFAVKLGDPEMVERAARIAKTAAELIKRAIRAKKEGDKDQEREAKKRVTRLIIELTLMVLKASLDLLRRILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVDNQRVSADNQKMLAELA AIARAIEVAREVEKVAQRAEEEGNPDLRDSAKELARAVDEAIEEAKKQGNPELVEWVARAAKVAAEVIKVAIQAEKEGNRDLFRAALELVRAVIEAIEEAVKQGNPELVEWVARAAKVAAEVIKVAIQAEKEGARDLFRLALELVRAVIEAIEFAVKLGDPEMVERAARIAKTAAELIKRAIRAKKEGDKDQEREAKKRVTRLIIELTLMVLKASLDLLRRILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVDNQRVSADNQKMLAELA 8fbj-a1-m2-cA_8fbj-a1-m3-cA Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains 3.25 X-RAY DIFFRACTION 93 1.0 32630 (synthetic construct) 32630 (synthetic construct) 307 307 8fbj-a1-m1-cA_8fbj-a1-m2-cA 8fbj-a1-m1-cA_8fbj-a1-m3-cA IMSKIAETAKRLADSLRELRRILEELKEMLERLEKRPDKKVIVDVLKVIVKAIEASVENQRISASNQAALALAIAAEAVKEIEEDIDRARKLKDEGNKEEAEKVLRKAREKIREVRDALDAIAKGAGTPDIALKAAELLVRLIKLLIEIAKLLQDAGNKEEAEKVLREATELIKRVTELLEKIAKNSDTPELALRAAELLVRLIKLLIEIAKLLQEQGNKEEAEKVLREATKMIIRVAQLLVKIAKNSDEPELAKRAAELLKRLIELLKEIAKLLEEEGNEDEAEKVKEIAKILEEAVRELEERIIG IMSKIAETAKRLADSLRELRRILEELKEMLERLEKRPDKKVIVDVLKVIVKAIEASVENQRISASNQAALALAIAAEAVKEIEEDIDRARKLKDEGNKEEAEKVLRKAREKIREVRDALDAIAKGAGTPDIALKAAELLVRLIKLLIEIAKLLQDAGNKEEAEKVLREATELIKRVTELLEKIAKNSDTPELALRAAELLVRLIKLLIEIAKLLQEQGNKEEAEKVLREATKMIIRVAQLLVKIAKNSDEPELAKRAAELLKRLIELLKEIAKLLEEEGNEDEAEKVKEIAKILEEAVRELEERIIG 8fbk-a1-m2-cA_8fbk-a1-m3-cA Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains 3.15 X-RAY DIFFRACTION 56 1.0 32630 (synthetic construct) 32630 (synthetic construct) 218 218 8fbk-a1-m1-cA_8fbk-a1-m2-cA 8fbk-a1-m1-cA_8fbk-a1-m3-cA ERVAELAAEAVRATDKEEVIEIVKELAELAKQSTDSELVNFIVRALAAVAIAAQDKELVIYIVKILAELAKQSTDSELVNEIVKALAEVAKAATDKELVKYIVDILLELAKQADDATLVAKIAEQLAEVREEAKDKELQERIDRVLKKLIEITLRALEESLRELRRILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVRNQQISAANQKALALL ERVAELAAEAVRATDKEEVIEIVKELAELAKQSTDSELVNFIVRALAAVAIAAQDKELVIYIVKILAELAKQSTDSELVNEIVKALAEVAKAATDKELVKYIVDILLELAKQADDATLVAKIAEQLAEVREEAKDKELQERIDRVLKKLIEITLRALEESLRELRRILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVRNQQISAANQKALALL 8fbl-a1-m1-cB_8fbl-a1-m1-cC Human PAC in nanodisc at pH 4.0 with PI(4,5)P2 diC8 Q9H813 Q9H813 2.7 ELECTRON MICROSCOPY 130 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 278 278 7jna-a1-m1-cA_7jna-a1-m1-cB 7jna-a1-m1-cA_7jna-a1-m1-cC 7jna-a1-m1-cB_7jna-a1-m1-cC 7jnc-a1-m1-cA_7jnc-a1-m1-cB 7jnc-a1-m1-cA_7jnc-a1-m1-cC 7jnc-a1-m1-cB_7jnc-a1-m1-cC 7sqf-a1-m1-cA_7sqf-a1-m1-cB 7sqf-a1-m1-cA_7sqf-a1-m1-cC 7sqf-a1-m1-cB_7sqf-a1-m1-cC 7sqg-a1-m1-cA_7sqg-a1-m1-cB 7sqg-a1-m1-cA_7sqg-a1-m1-cC 7sqg-a1-m1-cB_7sqg-a1-m1-cC 7sqh-a1-m1-cA_7sqh-a1-m1-cB 7sqh-a1-m1-cA_7sqh-a1-m1-cC 7sqh-a1-m1-cB_7sqh-a1-m1-cC 8eq4-a1-m1-cA_8eq4-a1-m1-cB 8eq4-a1-m1-cA_8eq4-a1-m1-cC 8eq4-a1-m1-cB_8eq4-a1-m1-cC 8fbl-a1-m1-cA_8fbl-a1-m1-cB 8fbl-a1-m1-cA_8fbl-a1-m1-cC LKNVFSVLLIFIYLLLMAVAVFLVYRTITDFREKLKHPVMSVSYKEVDRYDAPGIALYPGQAQLLSCKHHYEVIPPLTSPGQPGDMNCTTQRINYTDPFSNQTVKSALIVQGPREVKKRELVFLQFRLNKSSEDFSAIDYLLFSSFQEFLQSPNRVGFMQACESAYSSWKFSGGFRTWVKMSLVKTKEEDGREAVEFRQETSVVNYIDQRPAAKKSAQLFFVVFEWKDPFIQKVQDIVTANPWNTIALLCGAFLALFKAAEFAKLSIKWMIKIRKRYL LKNVFSVLLIFIYLLLMAVAVFLVYRTITDFREKLKHPVMSVSYKEVDRYDAPGIALYPGQAQLLSCKHHYEVIPPLTSPGQPGDMNCTTQRINYTDPFSNQTVKSALIVQGPREVKKRELVFLQFRLNKSSEDFSAIDYLLFSSFQEFLQSPNRVGFMQACESAYSSWKFSGGFRTWVKMSLVKTKEEDGREAVEFRQETSVVNYIDQRPAAKKSAQLFFVVFEWKDPFIQKVQDIVTANPWNTIALLCGAFLALFKAAEFAKLSIKWMIKIRKRYL 8fbn-a2-m1-cF_8fbn-a2-m1-cC Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains 3.04 X-RAY DIFFRACTION 57 1.0 32630 (synthetic construct) 32630 (synthetic construct) 220 226 8fbn-a1-m1-cA_8fbn-a1-m1-cE 8fbn-a1-m1-cD_8fbn-a1-m1-cA 8fbn-a1-m1-cD_8fbn-a1-m1-cE 8fbn-a2-m1-cB_8fbn-a2-m1-cC 8fbn-a2-m1-cF_8fbn-a2-m1-cB RALEALKRAQEAEKKGDVEEAVRAAQEAVRAAKESGASWILRLVAEQALRIAKEAEKQGNVEVAVKAARVAVEAAKQAGDNDVLRKVAEQALRIAKEAEKQGNVDVAAKAAQVAAEAAKQAGDKDMLEKVAKVAEQIAKAAEKEGDKKVSIDATRIALEASLAALEIILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVKNQKISAKNQKALAELA ALEKDRRALEALKRAQEAEKKGDVEEAVRAAQEAVRAAKESGASWILRLVAEQALRIAKEAEKQGNVEVAVKAARVAVEAAKQAGDNDVLRKVAEQALRIAKEAEKQGNVDVAAKAAQVAAEAAKQAGDKDMLEKVAKVAEQIAKAAEKEGDKKVSIDATRIALEASLAALEIILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVKNQKISAKNQKALAELA 8fbo-a1-m1-cA_8fbo-a1-m1-cB Improving the secretion of designed protein assemblies through negative design of cryptic transmembrane domains 3.4 X-RAY DIFFRACTION 63 1.0 32630 (synthetic construct) 32630 (synthetic construct) 254 254 8fbo-a1-m1-cA_8fbo-a1-m1-cC 8fbo-a1-m1-cB_8fbo-a1-m1-cC TEEKIEEARQSIKEAERSLREGNPEKALDAVARALSLVNELERLARKTGSTEVLIEAARLAIEVARVALKVGSPEMAQLAVELALRLVQELERQARKTGSTEVLIEAARLAIEVARVAFKVGSPETAREAARTALELVEELERQARKTGSEEVLERAARLAEEVARVAEEIGDPELARKAMKVAIRLTEELLKKSLRELRRILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVENQRISADNQRALARLA TEEKIEEARQSIKEAERSLREGNPEKALDAVARALSLVNELERLARKTGSTEVLIEAARLAIEVARVALKVGSPEMAQLAVELALRLVQELERQARKTGSTEVLIEAARLAIEVARVAFKVGSPETAREAARTALELVEELERQARKTGSEEVLERAARLAEEVARVAEEIGDPELARKAMKVAIRLTEELLKKSLRELRRILEELKEMLERLEKNPDKDVIVKVLKVIVKAIEASVENQRISADNQRALARLA 8fcf-a1-m1-cD_8fcf-a1-m1-cC Crystal structure of PLVAP CC1 in I212121 space group Q91VC4 Q91VC4 1.95 X-RAY DIFFRACTION 114 1.0 10090 (Mus musculus) 10090 (Mus musculus) 79 83 8fby-a1-m1-cB_8fby-a1-m1-cA 8fby-a2-m1-cD_8fby-a2-m1-cC LKEVNKTCEALLFKLGEKVKTLEMEVAKEKAVCSKDKESLLAGKRQTEEQLEACGKARERQQQEQQVTEENLRKVQSLC CQEQLKEVNKTCEALLFKLGEKVKTLEMEVAKEKAVCSKDKESLLAGKRQTEEQLEACGKARERQQQEQQVTEENLRKVQSLC 8fd8-a1-m1-cB_8fd8-a1-m1-cA human 15-PGDH with NADH bound P15428 P15428 3.3 ELECTRON MICROSCOPY 92 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 219 223 MHVNGKVALVTGAAQGIGRAFAEALLLKGAKVALVDWNLEAGVQCKAALDEQFEPQKTLFIQCDVADQQQLRDTFRKVVDHFGRLDILVNNAGVNNEKNWEKTLQINLVSVISGTYLGLDYMSKQNGGEGGIIINMSSLAGLMPVAQQPVYCASKHGIVGFTRSAALAANLMNSGVRLNAICPGPPLIANGLITLIEDDALNGAIMKITTSKGIHFQDY MHVNGKVALVTGAAQGIGRAFAEALLLKGAKVALVDWNLEAGVQCKAALDEQFEPQKTLFIQCDVADQQQLRDTFRKVVDHFGRLDILVNNAGVNNEKNWEKTLQINLVSVISGTYLGLDYMSKQNGGEGGIIINMSSLAGLMPVAQQPVYCASKHGIVGFTRSAALAANLMNSGVRLNAICPGFVLDPPLIANGLITLIEDDALNGAIMKITTSKGIHFQDY 8fe4-a1-m9-cB_8fe4-a1-m9-cD Structure of dengue virus (DENV2) in complex with prM13, an anti-PrM monoclonal antibody A0A481XTV0 A0A481XTV0 9.8 ELECTRON MICROSCOPY 29 1.0 11060 (Dengue virus type 2) 11060 (Dengue virus type 2) 80 80 5u4w-a1-m10-cB_5u4w-a1-m10-cD 5u4w-a1-m11-cB_5u4w-a1-m11-cD 5u4w-a1-m12-cB_5u4w-a1-m12-cD 5u4w-a1-m13-cB_5u4w-a1-m13-cD 5u4w-a1-m14-cB_5u4w-a1-m14-cD 5u4w-a1-m15-cB_5u4w-a1-m15-cD 5u4w-a1-m16-cB_5u4w-a1-m16-cD 5u4w-a1-m17-cB_5u4w-a1-m17-cD 5u4w-a1-m18-cB_5u4w-a1-m18-cD 5u4w-a1-m19-cB_5u4w-a1-m19-cD 5u4w-a1-m1-cB_5u4w-a1-m1-cD 5u4w-a1-m20-cB_5u4w-a1-m20-cD 5u4w-a1-m21-cB_5u4w-a1-m21-cD 5u4w-a1-m22-cB_5u4w-a1-m22-cD 5u4w-a1-m23-cB_5u4w-a1-m23-cD 5u4w-a1-m24-cB_5u4w-a1-m24-cD 5u4w-a1-m25-cB_5u4w-a1-m25-cD 5u4w-a1-m26-cB_5u4w-a1-m26-cD 5u4w-a1-m27-cB_5u4w-a1-m27-cD 5u4w-a1-m28-cB_5u4w-a1-m28-cD 5u4w-a1-m29-cB_5u4w-a1-m29-cD 5u4w-a1-m2-cB_5u4w-a1-m2-cD 5u4w-a1-m30-cB_5u4w-a1-m30-cD 5u4w-a1-m31-cB_5u4w-a1-m31-cD 5u4w-a1-m32-cB_5u4w-a1-m32-cD 5u4w-a1-m33-cB_5u4w-a1-m33-cD 5u4w-a1-m34-cB_5u4w-a1-m34-cD 5u4w-a1-m35-cB_5u4w-a1-m35-cD 5u4w-a1-m36-cB_5u4w-a1-m36-cD 5u4w-a1-m37-cB_5u4w-a1-m37-cD 5u4w-a1-m38-cB_5u4w-a1-m38-cD 5u4w-a1-m39-cB_5u4w-a1-m39-cD 5u4w-a1-m3-cB_5u4w-a1-m3-cD 5u4w-a1-m40-cB_5u4w-a1-m40-cD 5u4w-a1-m41-cB_5u4w-a1-m41-cD 5u4w-a1-m42-cB_5u4w-a1-m42-cD 5u4w-a1-m43-cB_5u4w-a1-m43-cD 5u4w-a1-m44-cB_5u4w-a1-m44-cD 5u4w-a1-m45-cB_5u4w-a1-m45-cD 5u4w-a1-m46-cB_5u4w-a1-m46-cD 5u4w-a1-m47-cB_5u4w-a1-m47-cD 5u4w-a1-m48-cB_5u4w-a1-m48-cD 5u4w-a1-m49-cB_5u4w-a1-m49-cD 5u4w-a1-m4-cB_5u4w-a1-m4-cD 5u4w-a1-m50-cB_5u4w-a1-m50-cD 5u4w-a1-m51-cB_5u4w-a1-m51-cD 5u4w-a1-m52-cB_5u4w-a1-m52-cD 5u4w-a1-m53-cB_5u4w-a1-m53-cD 5u4w-a1-m54-cB_5u4w-a1-m54-cD 5u4w-a1-m55-cB_5u4w-a1-m55-cD 5u4w-a1-m56-cB_5u4w-a1-m56-cD 5u4w-a1-m57-cB_5u4w-a1-m57-cD 5u4w-a1-m58-cB_5u4w-a1-m58-cD 5u4w-a1-m59-cB_5u4w-a1-m59-cD 5u4w-a1-m5-cB_5u4w-a1-m5-cD 5u4w-a1-m60-cB_5u4w-a1-m60-cD 5u4w-a1-m6-cB_5u4w-a1-m6-cD 5u4w-a1-m7-cB_5u4w-a1-m7-cD 5u4w-a1-m8-cB_5u4w-a1-m8-cD 5u4w-a1-m9-cB_5u4w-a1-m9-cD 8fe3-a1-m10-cB_8fe3-a1-m10-cD 8fe3-a1-m11-cB_8fe3-a1-m11-cD 8fe3-a1-m12-cB_8fe3-a1-m12-cD 8fe3-a1-m13-cB_8fe3-a1-m13-cD 8fe3-a1-m14-cB_8fe3-a1-m14-cD 8fe3-a1-m15-cB_8fe3-a1-m15-cD 8fe3-a1-m16-cB_8fe3-a1-m16-cD 8fe3-a1-m17-cB_8fe3-a1-m17-cD 8fe3-a1-m18-cB_8fe3-a1-m18-cD 8fe3-a1-m19-cB_8fe3-a1-m19-cD 8fe3-a1-m1-cB_8fe3-a1-m1-cD 8fe3-a1-m20-cB_8fe3-a1-m20-cD 8fe3-a1-m21-cB_8fe3-a1-m21-cD 8fe3-a1-m22-cB_8fe3-a1-m22-cD 8fe3-a1-m23-cB_8fe3-a1-m23-cD 8fe3-a1-m24-cB_8fe3-a1-m24-cD 8fe3-a1-m25-cB_8fe3-a1-m25-cD 8fe3-a1-m26-cB_8fe3-a1-m26-cD 8fe3-a1-m27-cB_8fe3-a1-m27-cD 8fe3-a1-m28-cB_8fe3-a1-m28-cD 8fe3-a1-m29-cB_8fe3-a1-m29-cD 8fe3-a1-m2-cB_8fe3-a1-m2-cD 8fe3-a1-m30-cB_8fe3-a1-m30-cD 8fe3-a1-m31-cB_8fe3-a1-m31-cD 8fe3-a1-m32-cB_8fe3-a1-m32-cD 8fe3-a1-m33-cB_8fe3-a1-m33-cD 8fe3-a1-m34-cB_8fe3-a1-m34-cD 8fe3-a1-m35-cB_8fe3-a1-m35-cD 8fe3-a1-m36-cB_8fe3-a1-m36-cD 8fe3-a1-m37-cB_8fe3-a1-m37-cD 8fe3-a1-m38-cB_8fe3-a1-m38-cD 8fe3-a1-m39-cB_8fe3-a1-m39-cD 8fe3-a1-m3-cB_8fe3-a1-m3-cD 8fe3-a1-m40-cB_8fe3-a1-m40-cD 8fe3-a1-m41-cB_8fe3-a1-m41-cD 8fe3-a1-m42-cB_8fe3-a1-m42-cD 8fe3-a1-m43-cB_8fe3-a1-m43-cD 8fe3-a1-m44-cB_8fe3-a1-m44-cD 8fe3-a1-m45-cB_8fe3-a1-m45-cD 8fe3-a1-m46-cB_8fe3-a1-m46-cD 8fe3-a1-m47-cB_8fe3-a1-m47-cD 8fe3-a1-m48-cB_8fe3-a1-m48-cD 8fe3-a1-m49-cB_8fe3-a1-m49-cD 8fe3-a1-m4-cB_8fe3-a1-m4-cD 8fe3-a1-m50-cB_8fe3-a1-m50-cD 8fe3-a1-m51-cB_8fe3-a1-m51-cD 8fe3-a1-m52-cB_8fe3-a1-m52-cD 8fe3-a1-m53-cB_8fe3-a1-m53-cD 8fe3-a1-m54-cB_8fe3-a1-m54-cD 8fe3-a1-m55-cB_8fe3-a1-m55-cD 8fe3-a1-m56-cB_8fe3-a1-m56-cD 8fe3-a1-m57-cB_8fe3-a1-m57-cD 8fe3-a1-m58-cB_8fe3-a1-m58-cD 8fe3-a1-m59-cB_8fe3-a1-m59-cD 8fe3-a1-m5-cB_8fe3-a1-m5-cD 8fe3-a1-m60-cB_8fe3-a1-m60-cD 8fe3-a1-m6-cB_8fe3-a1-m6-cD 8fe3-a1-m7-cB_8fe3-a1-m7-cD 8fe3-a1-m8-cB_8fe3-a1-m8-cD 8fe3-a1-m9-cB_8fe3-a1-m9-cD 8fe4-a1-m10-cB_8fe4-a1-m10-cD 8fe4-a1-m11-cB_8fe4-a1-m11-cD 8fe4-a1-m12-cB_8fe4-a1-m12-cD 8fe4-a1-m13-cB_8fe4-a1-m13-cD 8fe4-a1-m14-cB_8fe4-a1-m14-cD 8fe4-a1-m15-cB_8fe4-a1-m15-cD 8fe4-a1-m16-cB_8fe4-a1-m16-cD 8fe4-a1-m17-cB_8fe4-a1-m17-cD 8fe4-a1-m18-cB_8fe4-a1-m18-cD 8fe4-a1-m19-cB_8fe4-a1-m19-cD 8fe4-a1-m1-cB_8fe4-a1-m1-cD 8fe4-a1-m20-cB_8fe4-a1-m20-cD 8fe4-a1-m21-cB_8fe4-a1-m21-cD 8fe4-a1-m22-cB_8fe4-a1-m22-cD 8fe4-a1-m23-cB_8fe4-a1-m23-cD 8fe4-a1-m24-cB_8fe4-a1-m24-cD 8fe4-a1-m25-cB_8fe4-a1-m25-cD 8fe4-a1-m26-cB_8fe4-a1-m26-cD 8fe4-a1-m27-cB_8fe4-a1-m27-cD 8fe4-a1-m28-cB_8fe4-a1-m28-cD 8fe4-a1-m29-cB_8fe4-a1-m29-cD 8fe4-a1-m2-cB_8fe4-a1-m2-cD 8fe4-a1-m30-cB_8fe4-a1-m30-cD 8fe4-a1-m31-cB_8fe4-a1-m31-cD 8fe4-a1-m32-cB_8fe4-a1-m32-cD 8fe4-a1-m33-cB_8fe4-a1-m33-cD 8fe4-a1-m34-cB_8fe4-a1-m34-cD 8fe4-a1-m35-cB_8fe4-a1-m35-cD 8fe4-a1-m36-cB_8fe4-a1-m36-cD 8fe4-a1-m37-cB_8fe4-a1-m37-cD 8fe4-a1-m38-cB_8fe4-a1-m38-cD 8fe4-a1-m39-cB_8fe4-a1-m39-cD 8fe4-a1-m3-cB_8fe4-a1-m3-cD 8fe4-a1-m40-cB_8fe4-a1-m40-cD 8fe4-a1-m41-cB_8fe4-a1-m41-cD 8fe4-a1-m42-cB_8fe4-a1-m42-cD 8fe4-a1-m43-cB_8fe4-a1-m43-cD 8fe4-a1-m44-cB_8fe4-a1-m44-cD 8fe4-a1-m45-cB_8fe4-a1-m45-cD 8fe4-a1-m46-cB_8fe4-a1-m46-cD 8fe4-a1-m47-cB_8fe4-a1-m47-cD 8fe4-a1-m48-cB_8fe4-a1-m48-cD 8fe4-a1-m49-cB_8fe4-a1-m49-cD 8fe4-a1-m4-cB_8fe4-a1-m4-cD 8fe4-a1-m50-cB_8fe4-a1-m50-cD 8fe4-a1-m51-cB_8fe4-a1-m51-cD 8fe4-a1-m52-cB_8fe4-a1-m52-cD 8fe4-a1-m53-cB_8fe4-a1-m53-cD 8fe4-a1-m54-cB_8fe4-a1-m54-cD 8fe4-a1-m55-cB_8fe4-a1-m55-cD 8fe4-a1-m56-cB_8fe4-a1-m56-cD 8fe4-a1-m57-cB_8fe4-a1-m57-cD 8fe4-a1-m58-cB_8fe4-a1-m58-cD 8fe4-a1-m59-cB_8fe4-a1-m59-cD 8fe4-a1-m5-cB_8fe4-a1-m5-cD 8fe4-a1-m60-cB_8fe4-a1-m60-cD 8fe4-a1-m6-cB_8fe4-a1-m6-cD 8fe4-a1-m7-cB_8fe4-a1-m7-cD 8fe4-a1-m8-cB_8fe4-a1-m8-cD FHLTTRNGEPHMIVSRQEKGKSLLFKTEDGVNMCTLMADLGELCEDTITYKCPLLRQNEPEDIDCWCNSTSTWVTYGTCT FHLTTRNGEPHMIVSRQEKGKSLLFKTEDGVNMCTLMADLGELCEDTITYKCPLLRQNEPEDIDCWCNSTSTWVTYGTCT 8fef-a1-m1-cH_8fef-a1-m1-cG Structure of Mce1 transporter from Mycobacterium smegmatis (Map0) P42212 P42212 2.71 ELECTRON MICROSCOPY 103 1.0 246196 (Mycolicibacterium smegmatis MC2 155) 246196 (Mycolicibacterium smegmatis MC2 155) 298 299 8fed-a1-m1-cH_8fed-a1-m1-cG 8fee-a1-m1-cH_8fee-a1-m1-cG GVQIDVTGLSKSFGSSKIWEDVTMSIPAGEVSVLLGPSGTGKSVFLKSLIGLLRPERGSIVIDGTDILQCSAKELYEIRTLFGVLFQDGALFGSMNIYDNTAFPLREHTKKSESEIRKIVMEKLDLVGMPNDGHKFPGEISGGMRKRAGLARALVLDPEIILCDEPDSGLDPVRTAYLSQLLIDINAQIDATVLIVTHNINIARTVPDNMGMLFRKQLVMFGPREVLLTSEEPVVKQFLNGRRIGPIGMSEEKDVPPQLQATPGMPERKAVARRKARVREILHTLPPAAQAAILEELD GVQIDVTGLSKSFGSSKIWEDVTMSIPAGEVSVLLGPSGTGKSVFLKSLIGLLRPERGSIVIDGTDILQCSAKELYEIRTLFGVLFQDGALFGSMNIYDNTAFPLREHTKKSESEIRKIVMEKLDLVGMPNDGHKFPGEISGGMRKRAGLARALVLDPEIILCDEPDSGLDPVRTAYLSQLLIDINAQIDATVLIVTHNINIARTVPDNMGMLFRKQLVMFGPREVLLTSEEPVVKQFLNGRRIGPIGMSEEKDVPPQLQATPGMPERKAVARRKARVREILHTLPPAAQAAILEELDR 8fej-a1-m1-cB_8fej-a1-m1-cC Langya Virus Fusion Protein (LayV-F) in Pre-Fusion Conformation 4.64 ELECTRON MICROSCOPY 170 1.0 2971765 (Langya virus) 2971765 (Langya virus) 456 456 8fej-a1-m1-cA_8fej-a1-m1-cB 8fej-a1-m1-cA_8fej-a1-m1-cC SLHYDSLSKVGIIKGLTYNYKIKGSPSTKLMVVKLIPNIDGVRNCTQKQFDEYKNLVKNVLEPVKLALNAMLDNVKSGNNKYRFAGAIMAGVALGVATAATVTAGIALHRSNENAQAIANMKNAIQNTNEAVKQLQLANKQTLAVIDTIRGEINNNIIPVINQLSCDTIGLSVGIKLTQYYSEILTAFGPALQNPVNTRITIQAISSVFNRNFDELLKIMGYTSGDLYEILHSGLIRGNIIDVDVEAGYIALEIEFPNLTLVPNAVVQELMPISYNVDGDEWVTLVPRFVLTRTTLLSNIDTSRCTVTESSVICDNDYALPMSYELIGCLQGDTSKCAREKVVSSYVPRFALSDGLVYANCLNTICRCMDTDTPISQSLGTTVSLLDNKKCLVYQVGDILISVGSYLGEGEYSADNVELGPPVVIDKIDIGNQLAGINQTLQNAEDYIEKSEEFLK SLHYDSLSKVGIIKGLTYNYKIKGSPSTKLMVVKLIPNIDGVRNCTQKQFDEYKNLVKNVLEPVKLALNAMLDNVKSGNNKYRFAGAIMAGVALGVATAATVTAGIALHRSNENAQAIANMKNAIQNTNEAVKQLQLANKQTLAVIDTIRGEINNNIIPVINQLSCDTIGLSVGIKLTQYYSEILTAFGPALQNPVNTRITIQAISSVFNRNFDELLKIMGYTSGDLYEILHSGLIRGNIIDVDVEAGYIALEIEFPNLTLVPNAVVQELMPISYNVDGDEWVTLVPRFVLTRTTLLSNIDTSRCTVTESSVICDNDYALPMSYELIGCLQGDTSKCAREKVVSSYVPRFALSDGLVYANCLNTICRCMDTDTPISQSLGTTVSLLDNKKCLVYQVGDILISVGSYLGEGEYSADNVELGPPVVIDKIDIGNQLAGINQTLQNAEDYIEKSEEFLK 8fel-a1-m1-cB_8fel-a1-m1-cC Langya Virus Fusion Protein (LayV-F) in Post-Fusion Conformation 4.64 ELECTRON MICROSCOPY 249 1.0 2971765 (Langya virus) 2971765 (Langya virus) 397 397 8fel-a1-m1-cA_8fel-a1-m1-cB 8fel-a1-m1-cA_8fel-a1-m1-cC YDSLSKVGIIKGLTYNYKIKGSPSTKLMVVKLIPNIDGVRNCTQKQFDEYKNLVKNVLEPVKLALNAMNMKNAIQNTNEAVKQLQLANKQTLAVIDTIRGEINNNIIPVINQLSCDTIGLSVGIKLTQYYSEILTAFGPALQNPVNTRITIQAISSVFNRNFDELLKIMGYTSGDLYEILHSGLIRGNIIDVDVEAGYIALEIEFPNLTLVPNAVVQELMPISYNVDGDEWVTLVPRFVLTRTTLLSNIDTSRCTVTESSVICDNDYALPMSYELIGCLQGDTSKCAREKVVSSYVPRFALSDGLVYANCLNTICRCMDTDTPISQSLGTTVSLLDNKKCLVYQVGDILISVGSYLGEGEYSADNVELIGNQLAGINQTLQNAEDYIEKSEEFLKGI YDSLSKVGIIKGLTYNYKIKGSPSTKLMVVKLIPNIDGVRNCTQKQFDEYKNLVKNVLEPVKLALNAMNMKNAIQNTNEAVKQLQLANKQTLAVIDTIRGEINNNIIPVINQLSCDTIGLSVGIKLTQYYSEILTAFGPALQNPVNTRITIQAISSVFNRNFDELLKIMGYTSGDLYEILHSGLIRGNIIDVDVEAGYIALEIEFPNLTLVPNAVVQELMPISYNVDGDEWVTLVPRFVLTRTTLLSNIDTSRCTVTESSVICDNDYALPMSYELIGCLQGDTSKCAREKVVSSYVPRFALSDGLVYANCLNTICRCMDTDTPISQSLGTTVSLLDNKKCLVYQVGDILISVGSYLGEGEYSADNVELIGNQLAGINQTLQNAEDYIEKSEEFLKGI 8ffu-a2-m1-cD_8ffu-a2-m1-cC Structure of GntC, a PLP-dependent enzyme catalyzing L-enduracididine biosynthesis from (S)-4-hydroxy-L-arginine, with the substrate bound A0A8G0W655 A0A8G0W655 2.04 X-RAY DIFFRACTION 140 0.986 1166 (Dolichospermum flos-aquae) 1166 (Dolichospermum flos-aquae) 352 358 8fft-a1-m1-cA_8fft-a1-m1-cB 8fft-a2-m1-cC_8fft-a2-m1-cD 8ffu-a1-m1-cB_8ffu-a1-m1-cA RVPYNLGESSVDNFTLGELLNLTGDRDALDQLSLMNNDTHGSLRLREAIASLDKSVSPDDILVTAGTTEAILIYFKVRYRSGANVVVPVPTFHVLYETPAFLGYEVRYLQLRAENGFRIDPQELAKLVDDNTEVIVLNTPQNPSGVVCSETEIQSIIEIAEKHNAEILADEHYRFLPHDQDTEILPSLYGLSPKIISLGSTGCFGCIGLRIGWLIGNPEIIKACHFFKDYTTHTVCVLNDYIAAGVLLHKGKILPRYRQMIQHNIQQFETFIKQQRGLIDWVKPEAGTIAFPFFTDPNINSKIVAKRLVEDHGVLLLPGEAFDRPSHFRIALGVEPSLFQYALEKLAIVIET LLEMWLSEYERVPYNLGESSVDNFTLGELLNLTGDRDALDQLSLMNNDTHGSLRLREAIASLDKSVSPDDILVTAGTTEAILIYFKVRYRSGANVVVPVPTFHVLYETPAFLGYEVRYLQLRAENGFRIDPQELAKLVDDNTEVIVLNTPQNPSGVVCSETEIQSIIEIAEKHNAEILADEHYRFLPHTEILPSLYGLSPKIISLGSTGKCFGCIGLRIGWLIGNPEIIKACHFFKDYTTHTVCVLNDYIAAGVLLHKGKILPRYRQMIQHNIQQFETFIKQQRGLIDWVKPEAGTIAFPFFTDPNINSKIVAKRLVEDHGVLLLPGEAFDRPSHFRIALGVEPSLFQYALEKLAIVI 8fhj-a1-m1-cA_8fhj-a1-m1-cB Crystal structure of a FAD monooxygenease from Methylocystis sp. Strain SB2 2.61 X-RAY DIFFRACTION 21 1.0 743836 (Methylocystis sp. SB2) 743836 (Methylocystis sp. SB2) 531 531 SVERVPVLIVGAGYAGLSAATLLAWRGVPCRLVERRASTSRLPKAHGINRRSMEVLRVVPGLEDALFAASRAGANESTLIIAESVTSPPIETLVTKISLDATPVSPSRICTAGQDRVEPVLLRFARENGADVRFSTTLERFSQRDDGVDAILRDEASGQETTVLADYMIAADGAGGTIRDVGGVKMEGPGVLADTISVLFEADLDSILPGGGFALYYLRNPAFSGAFVTCDEPNHGQINIEYDSTRDQASDFDEERCEALVRQSLGVADLAVKILDIRPWQMAALLADRMSFGRVFLAGDCAHITPPVGGLGGQTAIQDAADLAWKLALVVKGQAAPTLLDSYEIERRPVARIAIARSIANYVERLLPDRQDIRIREDEYGLLETAMGYRYRSDAIIADEFDDGACVEDPLRPSGAPGTRLAHVWLRRGEETISSHDLIGRDFMLFTGPDGGDWIEAARRIALRSKAPLGVCRLGFDVDDPEGLFLPRLRISPEGALLVRPDGYIAWRSRGRSPDPFATLEASFARVRGFD SVERVPVLIVGAGYAGLSAATLLAWRGVPCRLVERRASTSRLPKAHGINRRSMEVLRVVPGLEDALFAASRAGANESTLIIAESVTSPPIETLVTKISLDATPVSPSRICTAGQDRVEPVLLRFARENGADVRFSTTLERFSQRDDGVDAILRDEASGQETTVLADYMIAADGAGGTIRDVGGVKMEGPGVLADTISVLFEADLDSILPGGGFALYYLRNPAFSGAFVTCDEPNHGQINIEYDSTRDQASDFDEERCEALVRQSLGVADLAVKILDIRPWQMAALLADRMSFGRVFLAGDCAHITPPVGGLGGQTAIQDAADLAWKLALVVKGQAAPTLLDSYEIERRPVARIAIARSIANYVERLLPDRQDIRIREDEYGLLETAMGYRYRSDAIIADEFDDGACVEDPLRPSGAPGTRLAHVWLRRGEETISSHDLIGRDFMLFTGPDGGDWIEAARRIALRSKAPLGVCRLGFDVDDPEGLFLPRLRISPEGALLVRPDGYIAWRSRGRSPDPFATLEASFARVRGFD 8fhj-a1-m1-cB_8fhj-a1-m1-cC Crystal structure of a FAD monooxygenease from Methylocystis sp. Strain SB2 2.61 X-RAY DIFFRACTION 32 1.0 743836 (Methylocystis sp. SB2) 743836 (Methylocystis sp. SB2) 531 532 SVERVPVLIVGAGYAGLSAATLLAWRGVPCRLVERRASTSRLPKAHGINRRSMEVLRVVPGLEDALFAASRAGANESTLIIAESVTSPPIETLVTKISLDATPVSPSRICTAGQDRVEPVLLRFARENGADVRFSTTLERFSQRDDGVDAILRDEASGQETTVLADYMIAADGAGGTIRDVGGVKMEGPGVLADTISVLFEADLDSILPGGGFALYYLRNPAFSGAFVTCDEPNHGQINIEYDSTRDQASDFDEERCEALVRQSLGVADLAVKILDIRPWQMAALLADRMSFGRVFLAGDCAHITPPVGGLGGQTAIQDAADLAWKLALVVKGQAAPTLLDSYEIERRPVARIAIARSIANYVERLLPDRQDIRIREDEYGLLETAMGYRYRSDAIIADEFDDGACVEDPLRPSGAPGTRLAHVWLRRGEETISSHDLIGRDFMLFTGPDGGDWIEAARRIALRSKAPLGVCRLGFDVDDPEGLFLPRLRISPEGALLVRPDGYIAWRSRGRSPDPFATLEASFARVRGFD SVERVPVLIVGAGYAGLSAATLLAWRGVPCRLVERRASTSRLPKAHGINRRSMEVLRVVPGLEDALFAASRAGANESTLIIAESVTSPPIETLVTKISLDATPVSPSRICTAGQDRVEPVLLRFARENGADVRFSTTLERFSQRDDGVDAILRDEASGQETTVLADYMIAADGAGGTIRDVGGVKMEGPGVLADTISVLFEADLDSILPGGGFALYYLRNPAFSGAFVTCDEPNHGQINIEYDSTRDQASDFDEERCEALVRQSLGVADLAVKILDIRPWQMAALLADRMSFGRVFLAGDCAHITPPVGGLGGQTAIQDAADLAWKLALVVKGQAAPTLLDSYEIERRPVARIAIARSIANYVERLLPDRQDIRIREDEYGLLETAMGYRYRSDAIIADEFDDGACVEDPLRPSGAPGTRLAHVWLRRGEETISSHDLIGRDFMLFTGPDGGDWIEAARRIALRSKAPLGVCRLGFDVDDPEGLFLPRLRISPEGALLVRPDGYIAWRSRGRSPDPFATLEASFARVRGFDT 8fhq-a1-m1-cA_8fhq-a1-m1-cB Cryo-EM structure of human NCC (class 3-2) P55017 P55017 2.81 ELECTRON MICROSCOPY 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 475 475 8fhn-a1-m1-cA_8fhn-a1-m1-cB 8fho-a1-m1-cA_8fho-a1-m1-cB 8fhr-a1-m1-cA_8fhr-a1-m1-cB KEPVRFGWVKGVMIRCMLNIWGVILYLRLPWITAQAGIVLTWIIILLSVTVTSITGLSISAISTNGKVKSGGTYFLISRSLGPELGGSIGLIFAFANAVGVAMHTVGFAATVRDLLQEYGAPIVDPINDIRIIGVVSVTVLLAISLAGMEWESKAQVLFFLVIMVSFANYLVGTLIPPSEDKASKGFFSYRADIFVQNLVPDWRGPDGTFFGMFSIFFPSATGILAGANISGDLKDPAIAIPKGTLMAIFWTTISYLAISATIGSCVVRDASGVLNDTVTPGWGACEGLACSYGWNFTECTQQHSCHYGLINYYQTMSMVSGFAPLITAGIFGATLSSALACLVSAAKVFQCLCEDQLYPLIGFFGKGYGKNKEPVRGYLLAYAIAVAFIIIAELNTIAPIISNFFLCSYALINFSCFHASITNSPGWRPSFQYYNKWAALFGAIISVVIMFLLTWWAALIAIGVVLFLLLYVIY KEPVRFGWVKGVMIRCMLNIWGVILYLRLPWITAQAGIVLTWIIILLSVTVTSITGLSISAISTNGKVKSGGTYFLISRSLGPELGGSIGLIFAFANAVGVAMHTVGFAATVRDLLQEYGAPIVDPINDIRIIGVVSVTVLLAISLAGMEWESKAQVLFFLVIMVSFANYLVGTLIPPSEDKASKGFFSYRADIFVQNLVPDWRGPDGTFFGMFSIFFPSATGILAGANISGDLKDPAIAIPKGTLMAIFWTTISYLAISATIGSCVVRDASGVLNDTVTPGWGACEGLACSYGWNFTECTQQHSCHYGLINYYQTMSMVSGFAPLITAGIFGATLSSALACLVSAAKVFQCLCEDQLYPLIGFFGKGYGKNKEPVRGYLLAYAIAVAFIIIAELNTIAPIISNFFLCSYALINFSCFHASITNSPGWRPSFQYYNKWAALFGAIISVVIMFLLTWWAALIAIGVVLFLLLYVIY 8fia-a1-m1-cA_8fia-a1-m2-cA The structure of fly Teneurin self assembly O61307 O61307 2.4 X-RAY DIFFRACTION 70 1.0 7227 (Drosophila melanogaster) 7227 (Drosophila melanogaster) 1772 1772 PAITASFFERMKFLIDESSLQNYAKLETFNESRSAVIRGRVVTSLGMGLVGVRVSTTTLLEGFTLTRDDGWFDLMVNGGGAVTLQFGRAPFRPQSRIVQVPWNEVVIIDLVVMSMSEETTHTCFAHDYDLMKPVVLASWKHGFQGACPDRSAILAESQVIQESLQIPGTGLNLVYHSSRAAGYLSTIKLQLTPDVIPTSLHLIHLRITIEGILFERIFEADPGIKFTYAWNRLNIYRQRVYGVTTAVVKVGYQYTDCTDIVWDIQTTKLSGHDMSISEVGGWNLDIHHRYNFHEGILQKGDGSNIYLRNKPRIILTTMGDGHQRPLECPDCDGQATKQRLLAPVALAAAPDGSLFVGDFNYIRRIMTDGSIRTVVKLNATRVSYRYHMALSPLDGTLYVSDPESHQIIRVRDTNDYSQPELNWEAVVGSGERCLPGDEAHCGDGALAKDAKLAYPKGIAISSDNILYFADGTNIRMVDRDGIVSTLIGNHPIPCEGTLKLEEMHLRWPTELAVSPMDNTLHIIDDHMILRMTPDGRVRVISGRPLHCATDTDLATHATLVMPQSIAFGPLGELYVAESDSQRINRVRVIGTDGRIAPFAGAESKCNCLERGCDCFEAEHYLATSAKFNTIAALAVTPDSHVHIADQANYRIRSVMSSIPEASPSREYEIYAPDMQEIYIFNRFGQHVSTRNILTGETTYVFTYNVNTSNGKLSTVTDAAGNKVFLLRDYTSQVNSIENTKGQKCRLRMTRMKMLHELSTPDNYNVTYEYHGPTGLLRTKLDSTGRSYVYNYDEFGRLTSAVTPTGRVIELSFDLSVKGAQVKVSENAQKEMSLLIQGATVIVRNGAAESRTTVDMDGSTTSITPWGHNLQMEVAPYTILAEQSPLLGESYPVPAKQRTEIAGDLANRFEWRYFVRRQQPVTEVGRKLRVNGDNVLTLEYDRETQSVVVMVDDKQELLNVTYDRTSRPISFRPQSGDYADVDLEYDRFGRLVSWKWGVLQEAYSFDRNGRLNEIKYGDGSTMVYAFKGSLPLKVTTPRRSDYLLQYDDAGALQSLTTPRGHIHAFSLQTSLGFFKYQYYSPINRHPFEILYNDEGQILAKIHPHQSGKVAFVHDTAGRLETILAGLSSTHYTYQDTTSLVKSVEVQEPGFELRREFKYHAGILKDEKLRFGSLASARYKYAYDGNARLSGIEMAIDDKELPTTRYKYSQNLGQLEVVQDLKITRNAFNRTVIQDSAKQFFAIVDYDQHGRVKSVLMNVKNIDVFRLELDYDLRNRIKSQKTTFGRSTAFDKINYNADGHVVEVLGTNNWKYLFDENGNTVGVVDQGEKFNLGYDIGDRVIKVGDVEFNNYDARGFVVKRGEQKYRYNNRGQLIHSFERERFQSWYYYDDRSRLVAWHDNKGNTTQYYYANPRTPHLVTHVHFPKISRTMKLFYDDRDMLIALEHEDQRYYVATDQNGSPLAFFDQNGSIVKEMKRTPFGRIIKDTKPEFFVPIDFHGGLIDPHTKLVYTEQRQYDPHVGQWMTPLWETLATEMSHPTDVFIYRYHNNDPINPNKPQNYMIDLDSWLQLFGYDLNNMQSSRYTKLAQYTPQASIKSNTLAPDFGVISGLECIVEKTSEKFSDFDFVPKPLLKMEPKMRNLLPRVSYRRGVFGEGVLLSRIGGRALVSVVDVVQDVVSSVFNNSYFLDLHFSIHDQDVFYFVKVLKLRDDNEELRRGMFNISTHELRLHGPDAVVIIKYGVDPEQERHRILKHAHKRADIHSIHKYPQLADDPGN PAITASFFERMKFLIDESSLQNYAKLETFNESRSAVIRGRVVTSLGMGLVGVRVSTTTLLEGFTLTRDDGWFDLMVNGGGAVTLQFGRAPFRPQSRIVQVPWNEVVIIDLVVMSMSEETTHTCFAHDYDLMKPVVLASWKHGFQGACPDRSAILAESQVIQESLQIPGTGLNLVYHSSRAAGYLSTIKLQLTPDVIPTSLHLIHLRITIEGILFERIFEADPGIKFTYAWNRLNIYRQRVYGVTTAVVKVGYQYTDCTDIVWDIQTTKLSGHDMSISEVGGWNLDIHHRYNFHEGILQKGDGSNIYLRNKPRIILTTMGDGHQRPLECPDCDGQATKQRLLAPVALAAAPDGSLFVGDFNYIRRIMTDGSIRTVVKLNATRVSYRYHMALSPLDGTLYVSDPESHQIIRVRDTNDYSQPELNWEAVVGSGERCLPGDEAHCGDGALAKDAKLAYPKGIAISSDNILYFADGTNIRMVDRDGIVSTLIGNHPIPCEGTLKLEEMHLRWPTELAVSPMDNTLHIIDDHMILRMTPDGRVRVISGRPLHCATDTDLATHATLVMPQSIAFGPLGELYVAESDSQRINRVRVIGTDGRIAPFAGAESKCNCLERGCDCFEAEHYLATSAKFNTIAALAVTPDSHVHIADQANYRIRSVMSSIPEASPSREYEIYAPDMQEIYIFNRFGQHVSTRNILTGETTYVFTYNVNTSNGKLSTVTDAAGNKVFLLRDYTSQVNSIENTKGQKCRLRMTRMKMLHELSTPDNYNVTYEYHGPTGLLRTKLDSTGRSYVYNYDEFGRLTSAVTPTGRVIELSFDLSVKGAQVKVSENAQKEMSLLIQGATVIVRNGAAESRTTVDMDGSTTSITPWGHNLQMEVAPYTILAEQSPLLGESYPVPAKQRTEIAGDLANRFEWRYFVRRQQPVTEVGRKLRVNGDNVLTLEYDRETQSVVVMVDDKQELLNVTYDRTSRPISFRPQSGDYADVDLEYDRFGRLVSWKWGVLQEAYSFDRNGRLNEIKYGDGSTMVYAFKGSLPLKVTTPRRSDYLLQYDDAGALQSLTTPRGHIHAFSLQTSLGFFKYQYYSPINRHPFEILYNDEGQILAKIHPHQSGKVAFVHDTAGRLETILAGLSSTHYTYQDTTSLVKSVEVQEPGFELRREFKYHAGILKDEKLRFGSLASARYKYAYDGNARLSGIEMAIDDKELPTTRYKYSQNLGQLEVVQDLKITRNAFNRTVIQDSAKQFFAIVDYDQHGRVKSVLMNVKNIDVFRLELDYDLRNRIKSQKTTFGRSTAFDKINYNADGHVVEVLGTNNWKYLFDENGNTVGVVDQGEKFNLGYDIGDRVIKVGDVEFNNYDARGFVVKRGEQKYRYNNRGQLIHSFERERFQSWYYYDDRSRLVAWHDNKGNTTQYYYANPRTPHLVTHVHFPKISRTMKLFYDDRDMLIALEHEDQRYYVATDQNGSPLAFFDQNGSIVKEMKRTPFGRIIKDTKPEFFVPIDFHGGLIDPHTKLVYTEQRQYDPHVGQWMTPLWETLATEMSHPTDVFIYRYHNNDPINPNKPQNYMIDLDSWLQLFGYDLNNMQSSRYTKLAQYTPQASIKSNTLAPDFGVISGLECIVEKTSEKFSDFDFVPKPLLKMEPKMRNLLPRVSYRRGVFGEGVLLSRIGGRALVSVVDVVQDVVSSVFNNSYFLDLHFSIHDQDVFYFVKVLKLRDDNEELRRGMFNISTHELRLHGPDAVVIIKYGVDPEQERHRILKHAHKRADIHSIHKYPQLADDPGN 8fir-a1-m1-cA_8fir-a1-m1-cB Crystal structure of TpPta, a phosphotransacetylase from Treponema pallidum A0A7Z2EMN2 A0A7Z2EMN2 1.95 X-RAY DIFFRACTION 116 1.0 160 (Treponema pallidum) 160 (Treponema pallidum) 333 333 MTFVESMQRRAVLAQKRLVLPEACEQRTLEAARLIVFRNIAAKVFLVGCERDIKNTADRCGIDLTDMVVIDPSVSKHRDQFAERYFQKRKHKGISLAQAAEDMRDPLRFAAMMLDQGHADAMVAGAENTTARVLRAGLTIIGTLPSVKTASSCFVMDTNNPRLGGTRGLFIFSDCAVIPTPTAEQLADIACSAAESCRTFIGEEPTVALLSYSTKGSGGDSDENILRVREAVRILHERRVDFTFDGELQLDAALVPKITEKKAPHSPITGKVNTLVFPDLSSGNIGYKLVQRLSDADAYGPFLQGFAKPLSDLSRGCSVEDIVAACAVTLVQS MTFVESMQRRAVLAQKRLVLPEACEQRTLEAARLIVFRNIAAKVFLVGCERDIKNTADRCGIDLTDMVVIDPSVSKHRDQFAERYFQKRKHKGISLAQAAEDMRDPLRFAAMMLDQGHADAMVAGAENTTARVLRAGLTIIGTLPSVKTASSCFVMDTNNPRLGGTRGLFIFSDCAVIPTPTAEQLADIACSAAESCRTFIGEEPTVALLSYSTKGSGGDSDENILRVREAVRILHERRVDFTFDGELQLDAALVPKITEKKAPHSPITGKVNTLVFPDLSSGNIGYKLVQRLSDADAYGPFLQGFAKPLSDLSRGCSVEDIVAACAVTLVQS 8fj0-a1-m1-cA_8fj0-a1-m1-cB Crystal Structure of the Tick Evasin EVA-AAM1001(Y44A) Complexed to Human Chemokine CCL2 A0A0C9S461 A0A0C9S461 2.91 X-RAY DIFFRACTION 23 1.0 6943 (Amblyomma americanum) 6943 (Amblyomma americanum) 85 87 YDYEEARCACPARHLNNTNGTVLKLLGCHAFCNGTLCTAPDGYPCYNLTAQQVRTLTTYPNTSCAVGVCMKGTCVKNGTMEQCFK YYDYEEARCACPARHLNNTNGTVLKLLGCHAFCNGTLCTAPDGYPCYNLTAQQVRTLTTYPNTSCAVGVCMKGTCVKNGTMEQCFKT 8fj0-a1-m1-cC_8fj0-a1-m1-cB Crystal Structure of the Tick Evasin EVA-AAM1001(Y44A) Complexed to Human Chemokine CCL2 A0A0C9S461 A0A0C9S461 2.91 X-RAY DIFFRACTION 23 1.0 6943 (Amblyomma americanum) 6943 (Amblyomma americanum) 84 87 YDYEEARCACPARHLNNTNGTVLKLLGCHAFCNGTLCTAPDGYPCYNLTAQQVRTLTTPNTSCAVGVCMKGTCVKNGTMEQCFK YYDYEEARCACPARHLNNTNGTVLKLLGCHAFCNGTLCTAPDGYPCYNLTAQQVRTLTTYPNTSCAVGVCMKGTCVKNGTMEQCFKT 8fjd-a1-m1-cB_8fjd-a1-m1-cA Structure of chlorophyllase from Triticum aestivum W6EIP8 W6EIP8 4.46 X-RAY DIFFRACTION 50 0.997 4565 (Triticum aestivum) 4565 (Triticum aestivum) 297 298 AFTSVFQPGKLAVEAIQVDENAAPTPPIPVLIVAPKDAGTYPVAMLLHGFFLHNHFYEHLLRHVASHGFIIVAPQFSISIIPSGDAEDIAAAAKVADWLPDGLPSVLPKGVEPELSKLALAGHSRGGHTAFSLALGHAKTQLTFSALIGLDPVAGTGKSSQLQPKILTYEPSSFGMAMPVLVIGTGLGEEKKNIFFPPCAPKDVNHAEFYRECRPPCYYLVTKDYGHLDMLDDDAPKFITCVCKDGNGCKGKMRRCVAGIMVAFLNAALGEKDADLEAILRDPAVAPTTLDPVEHRV FTSVFQPGKLAVEAIQVDENAAPTPPIPVLIVAPKDAGTYPVAMLLHGFFLHNHFYEHLLRHVASHGFIIVAPQFSISIIPSGDAEDIAAAAKVADWLPDGLPSVLPKGVEPELSKLALAGHSRGGHTAFSLALGHAKTQLTFSALIGLDPVAGTGKSSQLQPKILTYEPSSFGMAMPVLVIGTGLGEEKKNIFFPPCAPKDVNHAEFYRECRPPCYYLVTKDYGHLDMLDDDAPKFITCVCKDGNGCKGKMRRCVAGIMVAFLNAALGEKDADLEAILRDPAVAPTTLDPVEHRVAE 8fnu-a1-m1-cF_8fnu-a1-m1-cG Structure of RdrA from Streptococcus suis RADAR defense system A0A0Z8XTP6 A0A0Z8XTP6 2.5 ELECTRON MICROSCOPY 158 1.0 1307 (Streptococcus suis) 1307 (Streptococcus suis) 796 796 8fnu-a1-m1-cA_8fnu-a1-m1-cB 8fnu-a1-m1-cA_8fnu-a1-m1-cC 8fnu-a1-m1-cB_8fnu-a1-m1-cD 8fnu-a1-m1-cC_8fnu-a1-m1-cG 8fnu-a1-m1-cD_8fnu-a1-m1-cE 8fnu-a1-m1-cE_8fnu-a1-m1-cF NYIFSSQLDKVNLILEHMDTVGGIHSRNIAITGDRGTGKTSFIETLKLVLEKQNYYVFDIVSPTVLSSHLNILEIVISSIYREIDQFIDVHDRGRLIQHLKKVMNAIAVEKKQSDYFKQSKPEIEMLTDLSHRTFLDEEIKELFCYFKKVLNNRQDSCKEVIKDLVLIIDDLDLVENNLVYDLLRDIQHYLDSQLIVIFAYKEGQLEQSMFEHLAKGNEALLNHGVIDSNAIFGQIERFLTKLVPLSNRIPLFKQDELLNKTIGEFLASLDPSYGVGENLEFITKDSEKNKNNLTIREWFYESIFYRTNLKLDPIDIREEASRLMPKTLREMVQLCEELHSMQVITRSMDKLAGVEGLRKNIGAFRRYIGYKNSTYFNLATMEFFQKWELAESHQANYLAYHFLMSYYQESFEQSGYPLTLRTMEPYNITLGDIYALMEELKYTEGISADTYYIVYILKVYYSLRLSELLYNVVLHHKLFVHVKEEATTFYMADKEYREHIMTAIEKVPALQAYLELVNAQFMPQNFNYDRSGSRDDDFYLISWLKDDDLPEYSRLFKSLFLNSEVAAFRYRNLYSYLPLQLTSATFYKIDFLAFAIKADLLMYNVVRFVEEEGDTIPYFMSNMFHIDVFVRHNYNGKFAYIAKQIVFGLWWYKSFDTVFGTKIEALHLLVDIAEQIKISDEQKRDEQAKKVAEKLAAIYHHIGMSRILSRLHQLPFIAEIKSNKELLQHFSEAIVKLEKYASDTINVGNLSQFRESLKKIGQTYPSIQVLVDKLHRKQKLYVEFIQDFIETVNKL NYIFSSQLDKVNLILEHMDTVGGIHSRNIAITGDRGTGKTSFIETLKLVLEKQNYYVFDIVSPTVLSSHLNILEIVISSIYREIDQFIDVHDRGRLIQHLKKVMNAIAVEKKQSDYFKQSKPEIEMLTDLSHRTFLDEEIKELFCYFKKVLNNRQDSCKEVIKDLVLIIDDLDLVENNLVYDLLRDIQHYLDSQLIVIFAYKEGQLEQSMFEHLAKGNEALLNHGVIDSNAIFGQIERFLTKLVPLSNRIPLFKQDELLNKTIGEFLASLDPSYGVGENLEFITKDSEKNKNNLTIREWFYESIFYRTNLKLDPIDIREEASRLMPKTLREMVQLCEELHSMQVITRSMDKLAGVEGLRKNIGAFRRYIGYKNSTYFNLATMEFFQKWELAESHQANYLAYHFLMSYYQESFEQSGYPLTLRTMEPYNITLGDIYALMEELKYTEGISADTYYIVYILKVYYSLRLSELLYNVVLHHKLFVHVKEEATTFYMADKEYREHIMTAIEKVPALQAYLELVNAQFMPQNFNYDRSGSRDDDFYLISWLKDDDLPEYSRLFKSLFLNSEVAAFRYRNLYSYLPLQLTSATFYKIDFLAFAIKADLLMYNVVRFVEEEGDTIPYFMSNMFHIDVFVRHNYNGKFAYIAKQIVFGLWWYKSFDTVFGTKIEALHLLVDIAEQIKISDEQKRDEQAKKVAEKLAAIYHHIGMSRILSRLHQLPFIAEIKSNKELLQHFSEAIVKLEKYASDTINVGNLSQFRESLKKIGQTYPSIQVLVDKLHRKQKLYVEFIQDFIETVNKL 8fo3-a5-m1-cE_8fo3-a5-m1-cF Structure of full-length amyloidogenic immunoglobulin light chain H9 in complex with (E)-3-nitro-4-(2-(2-phenylpropylidene)hydrazineyl)benzenesulfonamide 2 X-RAY DIFFRACTION 118 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 213 8fo3-a6-m1-cK_8fo3-a6-m1-cL 8fo4-a1-m1-cA_8fo4-a1-m1-cB 8fo4-a2-m1-cC_8fo4-a2-m1-cD SALTQPPSASGSPGQSVTISCTGTSSDVGGSDSVSWYQQHPGKAPKLIIYEVSQRPSGVPNRFSGSKSGNTASLTVSGLQAEDDADYYCSSYNNLFFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT QSALTQPPSASGSPGQSVTISCTGTSSDVGGSDSVSWYQQHPGKAPKLIIYEVSQRPSGVPNRFSGSKSGNTASLTVSGLQAEDDADYYCSSYGGDNNLFFGGGTKVTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 8fpt-a1-m1-cG_8fpt-a1-m1-cJ STRUCTURE OF ALPHA-SYNUCLEIN FIBRILS DERIVED FROM HUMAN LEWY BODY DEMENTIA TISSUE P37840 P37840 NOT SOLID-STATE NMR 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 8fpt-a1-m1-cA_8fpt-a1-m1-cB 8fpt-a1-m1-cA_8fpt-a1-m1-cD 8fpt-a1-m1-cB_8fpt-a1-m1-cC 8fpt-a1-m1-cC_8fpt-a1-m1-cD 8fpt-a1-m1-cC_8fpt-a1-m1-cF 8fpt-a1-m1-cD_8fpt-a1-m1-cE 8fpt-a1-m1-cE_8fpt-a1-m1-cF 8fpt-a1-m1-cE_8fpt-a1-m1-cH 8fpt-a1-m1-cF_8fpt-a1-m1-cG 8fpt-a1-m1-cG_8fpt-a1-m1-cH 8fpt-a1-m1-cH_8fpt-a1-m1-cI 8fpt-a1-m1-cI_8fpt-a1-m1-cJ AGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKN AGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKN 8fpt-a1-m1-cH_8fpt-a1-m1-cJ STRUCTURE OF ALPHA-SYNUCLEIN FIBRILS DERIVED FROM HUMAN LEWY BODY DEMENTIA TISSUE P37840 P37840 NOT SOLID-STATE NMR 287 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 74 74 8fpt-a1-m1-cA_8fpt-a1-m1-cC 8fpt-a1-m1-cB_8fpt-a1-m1-cD 8fpt-a1-m1-cC_8fpt-a1-m1-cE 8fpt-a1-m1-cD_8fpt-a1-m1-cF 8fpt-a1-m1-cE_8fpt-a1-m1-cG 8fpt-a1-m1-cF_8fpt-a1-m1-cH 8fpt-a1-m1-cG_8fpt-a1-m1-cI AGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKN AGKTKEGVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVKKDQLGKN 8frd-a2-m1-cA_8frd-a2-m1-cB Mouse acidic mammalian chitinase, catalytic domain in complex with N,N'-diacetylchitobiose at pH 5.25 Q91XA9 Q91XA9 1.68 X-RAY DIFFRACTION 38 1.0 10090 (Mus musculus) 10090 (Mus musculus) 369 369 8frd-a1-m1-cA_8frd-a1-m1-cB YNLICYFTNWAQYRPGLGSFKPDDINPCLCTHLIYAFAGMQNNEITTIEWNDVTLYKAFNDLKNRNSKLKTLLAIGGWNFGTAPFTTMVSTSQNRQTFITSVIKFLRQYGFDGLDLDWEYPGSRGSPPQDKHLFTVLVKEMREAFEQEAIESNRPRLMVTAAVAGGISNIQAGYEIPELSKYLDFIHVMTYDLHGSWEGYTGENSPLYKYPTETGSNAYLNVDYVMNYWKNNGAPAEKLIVGFPEYGHTFILRNPSDNGIGAPTSGDGPAGPYTRQAGFWAYYEICTFLRSGATEVWDASQEVPYAYKANEWLGYDNIKSFSVKAQWLKQNNFGGAMIWAIDLDDFTGSFCDQGKFPLTSTLNKALGIS YNLICYFTNWAQYRPGLGSFKPDDINPCLCTHLIYAFAGMQNNEITTIEWNDVTLYKAFNDLKNRNSKLKTLLAIGGWNFGTAPFTTMVSTSQNRQTFITSVIKFLRQYGFDGLDLDWEYPGSRGSPPQDKHLFTVLVKEMREAFEQEAIESNRPRLMVTAAVAGGISNIQAGYEIPELSKYLDFIHVMTYDLHGSWEGYTGENSPLYKYPTETGSNAYLNVDYVMNYWKNNGAPAEKLIVGFPEYGHTFILRNPSDNGIGAPTSGDGPAGPYTRQAGFWAYYEICTFLRSGATEVWDASQEVPYAYKANEWLGYDNIKSFSVKAQWLKQNNFGGAMIWAIDLDDFTGSFCDQGKFPLTSTLNKALGIS 8ft7-a1-m1-cA_8ft7-a1-m2-cA Crystal structure of SAH bound protein arginine N-methyltransferase 1 (PRMT1) from Naegleria fowleri A0A6A5BBK9 A0A6A5BBK9 2.15 X-RAY DIFFRACTION 64 1.0 5763 (Naegleria fowleri) 5763 (Naegleria fowleri) 314 314 6cu3-a1-m1-cA_6cu3-a1-m2-cA 6cu3-a2-m1-cE_6cu3-a2-m1-cB 6cu3-a3-m1-cF_6cu3-a3-m1-cC 6cu3-a4-m1-cD_6cu3-a4-m2-cD 6cu5-a1-m1-cB_6cu5-a1-m1-cA 8dur-a1-m1-cA_8dur-a1-m2-cA 8dur-a2-m1-cB_8dur-a2-m3-cB 8ft7-a2-m1-cB_8ft7-a2-m3-cB FGIHEEMLKDGIRTNAYKNAILQNKHLFKDKVVLDIGCGTGILCLFAAKAGAKRVIGIDMSDIIDKARQIVSDNGYSHVIELIKGKVEDIAQLPFGIEKVDIIISEWMGYFLLYESMLQTVLSARDRWLRPGGYLFPDKCTMYICGIEDSEYKRDKIDFWDNVYGFNFSAIKADALREPLVDFVESQQIITTQSKFLEIDLNTIQPEDLKQITTSFEFTSQYQEYCQAFVAWFDCVFSRGPHKPVEFSTGPFTEGTHWKQTVFYLENDLPLKPNDVIKGTITISQNKSNHRDLDISMKYTVNGGAVISQDYIMR FGIHEEMLKDGIRTNAYKNAILQNKHLFKDKVVLDIGCGTGILCLFAAKAGAKRVIGIDMSDIIDKARQIVSDNGYSHVIELIKGKVEDIAQLPFGIEKVDIIISEWMGYFLLYESMLQTVLSARDRWLRPGGYLFPDKCTMYICGIEDSEYKRDKIDFWDNVYGFNFSAIKADALREPLVDFVESQQIITTQSKFLEIDLNTIQPEDLKQITTSFEFTSQYQEYCQAFVAWFDCVFSRGPHKPVEFSTGPFTEGTHWKQTVFYLENDLPLKPNDVIKGTITISQNKSNHRDLDISMKYTVNGGAVISQDYIMR 8fu7-a1-m1-cB_8fu7-a1-m1-cC Structure of Covid Spike variant deltaN135 in fully closed form P0DTC2 P0DTC2 3.21 ELECTRON MICROSCOPY 289 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1046 1046 7n5h-a1-m1-cA_7n5h-a1-m1-cB 7n5h-a1-m1-cC_7n5h-a1-m1-cA 8fu7-a1-m1-cA_8fu7-a1-m1-cB 8fu7-a1-m1-cA_8fu7-a1-m1-cC 8fu8-a1-m1-cA_8fu8-a1-m1-cB 8fu8-a1-m1-cA_8fu8-a1-m1-cC LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALSGYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQPYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD LPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALSGYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVKGFNCYFPLQPYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTASQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 8fu9-a1-m1-cC_8fu9-a1-m1-cA Structure of Covid Spike variant deltaN25 with one erect RBD P0DTC2 P0DTC2 3.52 ELECTRON MICROSCOPY 305 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1056 1058 8fu9-a1-m1-cB_8fu9-a1-m1-cA 8fu9-a1-m1-cC_8fu9-a1-m1-cB QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHNSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYQYRLFRKSNLKPFERDISTQIYQAGSTPCNGVEGFNCYSPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQNVNCTEVPSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLNVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD QCVNLTTRTQLPPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTKRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYHKNNKSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHNSSSGWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYQYRLFRKSNLKPFERDISTQIYQAGSTPCNGVEGFNCYSPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQNVNCTEVPTGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLNVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD 8fum-a2-m1-cC_8fum-a2-m1-cG AibH1H2 metalated with Fe in the presence of Tris A0A402C2V4 A0A402C2V4 1.48 X-RAY DIFFRACTION 28 1.0 1219028 (Rhodococcus wratislaviensis NBRC 100605) 1219028 (Rhodococcus wratislaviensis NBRC 100605) 350 351 6m1w-a1-m1-cA_6m1w-a1-m2-cA 6m2i-a1-m1-cA_6m2i-a1-m2-cA 8ful-a1-m1-cA_8ful-a1-m1-cE 8ful-a2-m1-cC_8ful-a2-m1-cG 8fum-a1-m1-cA_8fum-a1-m1-cE 8fum-a1-m1-cC_8fum-a1-m1-cG 8fum-a2-m1-cA_8fum-a2-m1-cE 8fun-a1-m1-cA_8fun-a1-m1-cC 8fuo-a1-m1-cA_8fuo-a1-m1-cC VPAVVDCDVHAVLPSPHSLIPYLDEYWADQLVAQLAPTYEPNYHPRGSAIAQHSDASVDENGRAATTAENLVKDVFADGFTDFAVVNCLYGVQQIHQPRREMAHARALNHWIANEWLDKDDRLRASIVVPQGSPRAAAEEIDFWSGDKRFVQVLLLGQSELLYGREINWPIWEAAEAAGLPVTLHIGGVFRQAPTSVGWPASHLEWYVGQQSNIEAQLNSIISEGILQKFPKTKILLSELGFNWLPPFMWKFDKLWKSYRPDIPWVQESPLELIREHVRVTTSPSDGAEEAGRLDSIVDRLGSDRMLVYSSDYPHKHHSGPRDIENGTHSPELLDRIYRRNAFDLYNLVV GVPAVVDCDVHAVLPSPHSLIPYLDEYWADQLVAQLAPTYEPNYHPRGSAIAQHSDASVDENGRAATTAENLVKDVFADGFTDFAVVNCLYGVQQIHQPRREMAHARALNHWIANEWLDKDDRLRASIVVPQGSPRAAAEEIDFWSGDKRFVQVLLLGQSELLYGREINWPIWEAAEAAGLPVTLHIGGVFRQAPTSVGWPASHLEWYVGQQSNIEAQLNSIISEGILQKFPKTKILLSELGFNWLPPFMWKFDKLWKSYRPDIPWVQESPLELIREHVRVTTSPSDGAEEAGRLDSIVDRLGSDRMLVYSSDYPHKHHSGPRDIENGTHSPELLDRIYRRNAFDLYNLVV 8fuy-a1-m1-cA_8fuy-a1-m1-cB Glucose-6-phosphate 1-dehydrogenase (G6PDH) from Crithidia fasciculata (citrate bound) 2.45 X-RAY DIFFRACTION 185 1.0 5656 (Crithidia fasciculata) 5656 (Crithidia fasciculata) 485 486 CERIVSKVSEEQKRRPLTVVVLGASGDLAKKKTFPALFQLYCDGLLPPQINIVGYARTKQDDVEKWKHETLTKYFSRLHERSCHVEPFLKHVTYFTGSYDKKEDFQRLDEHVSKLEDAFDGEEKAGDRLFYLALPPSAFAGACGSIRAGAMPREGGWIRVIIEKPFGHDTESSAELSKAIEPFFDESQIYRIDHYLGKEMVQNIITTRFANRIFSALWNSNNIACVQITFKETIGTEGRGGYFDSIGIIRDVMQNHLTQILALLAMEKPNSLDAERIRDEKVSLLKCIAPIGKDDCVLGQYTASADGSIPGYLEDETVPKGSTCPTFAVLRLHINNDRWAGVPFILKAGKAVEQKYVAIRIQFKDEIRPYGDAAQRNELVIRAQPSEAMYMKITTKMPGLNEDLRETHQTELDLTDAYESLISDALRGNSTNFVRKDELDVAWRIFTPLLHQIDKGEVKPIPYQAGTRGPKEADDFILNSGFKFQ CERIVSKVSEEQKRRPLTVVVLGASGDLAKKKTFPALFQLYCDGLLPPQINIVGYARTKQDDVEKWKHETLTKYFSRLHERSCHVEPFLKHVTYFTGSYDKKEDFQRLDEHVSKLEDAFDGEEKAGDRLFYLALPPSAFAGACGSIRAGAMPREGGWIRVIIEKPFGHDTESSAELSKAIEPFFDESQIYRIDHYLGKEMVQNIITTRFANRIFSALWNSNNIACVQITFKETIGTEGRGGYFDSIGIIRDVMQNHLTQILALLAMEKPNSLDAERIRDEKVSLLKCIAPIGKDDCVLGQYTASADGSIPGYLEDETVPKGSTCPTFAVLRLHINNDRWAGVPFILKAGKAVEQKYVAIRIQFKDEIRPYGDAAQRNELVIRAQPSEAMYMKITTKMPGLNEDLRETHQTELDLTPDAYESLISDALRGNSTNFVRKDELDVAWRIFTPLLHQIDKGEVKPIPYQAGTRGPKEADDFILNSGFKFQ 8fwq-a1-m1-cB_8fwq-a1-m1-cD Structure of kainate receptor GluK2 in complex with the positive allosteric modulator BPAM344 P42260 P42260 3.96 ELECTRON MICROSCOPY 33 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 818 3qlv-a1-m1-cC_3qlv-a1-m1-cD 3qlv-a2-m1-cF_3qlv-a2-m1-cH 3qlv-a3-m1-cJ_3qlv-a3-m2-cJ 7ks0-a1-m1-cB_7ks0-a1-m1-cD 8fwr-a1-m1-cB_8fwr-a1-m1-cD 8fwt-a1-m1-cB_8fwt-a1-m1-cD 8fwv-a1-m1-cB_8fwv-a1-m1-cD THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA 8fwq-a1-m1-cC_8fwq-a1-m1-cD Structure of kainate receptor GluK2 in complex with the positive allosteric modulator BPAM344 P42260 P42260 3.96 ELECTRON MICROSCOPY 269 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 818 818 7f57-a1-m1-cA_7f57-a1-m1-cB 7f57-a1-m1-cD_7f57-a1-m1-cC 8fwq-a1-m1-cA_8fwq-a1-m1-cB 8fwr-a1-m1-cA_8fwr-a1-m1-cB 8fwr-a1-m1-cC_8fwr-a1-m1-cD 8fwt-a1-m1-cA_8fwt-a1-m1-cB 8fwt-a1-m1-cC_8fwt-a1-m1-cD 8fwv-a1-m1-cA_8fwv-a1-m1-cB 8fwv-a1-m1-cC_8fwv-a1-m1-cD THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA THVLRFGGIFEYVESGPMGAEELAFRFAVNTINRNRTLLPNTTLTYDTQKINLYDSFEASKKACDQLSLGVAAIFGPSHSSSANAVQSICNALGVPHIQTRWKHQVSDNKDSFYVSLYPDFSSLSRAILDLVQFFKWKTVTVVYDDSTGLIRLQELIKAPSRYNLRLKIRQLPADTKDAKPLLKEMKRGKEFHVIFDCSHEMAAGILKQALAMGMMTEYYHYIFTTLDLFALDVEPYRYSGVNMTGFRILNTENTQVSSIIEKWSMERLQAPPKPDSGLLDGFMTTDAALMYDAVHVVSVAVQQFPQMTVSSLQCNRHKPWRFGTRFMSLIKEAHWEGLTGRITFNKTNGLRTDFDLDVISLKEEGLEKIGTWDPASGLNMTESQKGKPANITDSLSNRSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA 8fws-a1-m1-cA_8fws-a1-m1-cC Structure of the ligand-binding and transmembrane domains of kainate receptor GluK2 in complex with the positive allosteric modulator BPAM344 P42260 P42260 3.23 ELECTRON MICROSCOPY 11 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 420 420 7f57-a1-m1-cD_7f57-a1-m1-cB RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA 8fws-a1-m1-cA_8fws-a1-m1-cD Structure of the ligand-binding and transmembrane domains of kainate receptor GluK2 in complex with the positive allosteric modulator BPAM344 P42260 P42260 3.23 ELECTRON MICROSCOPY 188 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 420 420 8fwq-a1-m1-cA_8fwq-a1-m1-cD 8fwq-a1-m1-cB_8fwq-a1-m1-cC 8fws-a1-m1-cB_8fws-a1-m1-cC 8fwu-a1-m1-cA_8fwu-a1-m1-cD 8fwu-a1-m1-cB_8fwu-a1-m1-cC 8fww-a1-m1-cA_8fww-a1-m1-cD 8fww-a1-m1-cB_8fww-a1-m1-cC RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA 8fws-a1-m1-cC_8fws-a1-m1-cD Structure of the ligand-binding and transmembrane domains of kainate receptor GluK2 in complex with the positive allosteric modulator BPAM344 P42260 P42260 3.23 ELECTRON MICROSCOPY 151 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 420 420 7f5a-a1-m1-cB_7f5a-a1-m1-cA 8fws-a1-m1-cA_8fws-a1-m1-cB 8fwu-a1-m1-cA_8fwu-a1-m1-cB 8fwu-a1-m1-cC_8fwu-a1-m1-cD 8fww-a1-m1-cA_8fww-a1-m1-cB 8fww-a1-m1-cC_8fww-a1-m1-cD RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA RSLIVTTILEEPYVLFKKSDKPLYGNDRFEGYCIDLLRELSTILGFTYEIRLVEDGKYGAQDDVNGQWNGMVRELIDHKADLAVAPLAITYVREKVIDFSKPFMTLGISILYRKPNGTNPGVFSFLNPLSPDIWMYVLLACLGVSCVLFVIARFSPYEWYNPHPCNPDSDVVENNFTLLNSFWFGVGALMQQGSELMPKALSTRIVGGIWWFFTLIIISSYTANLAAFLTVERMESPIDSADDLAKQTKIEYGAVEDGATMTFFKKSKISTYDKMWAFMSSRRQSVLVKSNEEGIQRVLTSDYAFLMESTTIEFVTQRNCNLTQIGGLIDSKGYGVGTPMGSPYRDKITIAILQLQEEGKLHMMKEKWWRGNGCPEEESKEASALGVQNIGGIFIVLAAGLVLSVFVAVGEFLYKSKKNA 8fx9-a1-m1-cA_8fx9-a1-m2-cA Crystal strucutre of Mycobacterium tuberculosis Mycothiol-S-transferase enzyme O53728 O53728 1.36 X-RAY DIFFRACTION 98 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 170 170 8f5v-a1-m1-cA_8f5v-a1-m1-cB PASTDAAAQELLRDAFTRLIEHVDELTDGLTDQLACYRPTPSANSIAWLLWHSARVQDIQVAHVAGVEEVWTRDGWVDRFGLDLPRHDTGYGHRPEDVAKVRAPADLLSGYYHAVHKLTLEYIAGMTADELSRVVDTSWNPPVTVSARLVSIVDDCAQHLGQAAYLRGIA PASTDAAAQELLRDAFTRLIEHVDELTDGLTDQLACYRPTPSANSIAWLLWHSARVQDIQVAHVAGVEEVWTRDGWVDRFGLDLPRHDTGYGHRPEDVAKVRAPADLLSGYYHAVHKLTLEYIAGMTADELSRVVDTSWNPPVTVSARLVSIVDDCAQHLGQAAYLRGIA 8fxf-a1-m1-cC_8fxf-a1-m1-cD Crystal structure of the coiled-coil domain of TRIM56 Q80VI1 Q80VI1 2.8 X-RAY DIFFRACTION 86 1.0 10090 (Mus musculus) 10090 (Mus musculus) 78 78 8fxf-a1-m1-cA_8fxf-a1-m1-cB 8fxf-a1-m1-cA_8fxf-a1-m1-cD 8fxf-a1-m1-cB_8fxf-a1-m1-cC SNLVELEATRVAEKEALALLREQAASVGTQVEEAAERILKSLLAQKQEVLGQLRALVEAAEEATRERLTKIERQEQVA SNLVELEATRVAEKEALALLREQAASVGTQVEEAAERILKSLLAQKQEVLGQLRALVEAAEEATRERLTKIERQEQVA 8fya-a1-m1-cA_8fya-a1-m1-cD Cryo-EM structure of Cas1:Cas2-DEDDh:PAM-containing prespacer complex 2.91 ELECTRON MICROSCOPY 84 1.0 906 (Megasphaera) 906 (Megasphaera) 93 93 8fy9-a1-m1-cA_8fy9-a1-m1-cD 8fyb-a1-m1-cA_8fyb-a1-m1-cD 8fyc-a1-m1-cA_8fyc-a1-m1-cD 8fyd-a1-m1-cA_8fyd-a1-m1-cD MPMTVITLKNVPQSLRGDLTRWMQEIATGVYVGNFNSRIREYLWRRVQETMGAGEASMCFAARNELGYDFLTENASRSVIDYDGLPLIFIPKE MPMTVITLKNVPQSLRGDLTRWMQEIATGVYVGNFNSRIREYLWRRVQETMGAGEASMCFAARNELGYDFLTENASRSVIDYDGLPLIFIPKE 8fyb-a1-m1-cB_8fyb-a1-m1-cC Cryo-EM structure of Cas1:Cas2-DEDDh:half-site integration complex 3.1 ELECTRON MICROSCOPY 186 0.997 906 (Megasphaera) 906 (Megasphaera) 292 309 8fya-a1-m1-cB_8fya-a1-m1-cC 8fyc-a1-m1-cB_8fyc-a1-m1-cC DRATFIYIEHAKINRVDSAVTVAEAKGVVRIPAAMIGVLLLGPGTDISHRAVELLGDTGTALVWVGEQGVRYYASGRALARSTRFLVKQAELVTNERSRLRVARRMYQMRFPTEDVSKLTMQQLRSHEGARVRRKYRELSKKYNVPWKKRVYNPDDFAGGDPINQALSAAHVALYGLVHSVVAALGLSPGLGFVHTGHDRSFIYDVADLYKAEITVPIAFAVAAEAEEGQDIGQLARLRTRDAFVDGKILKRMVKDLQTLLEIPEEGQIEAEPLSLWDDKEKLVPYGVNYSE AGPIIAGKSESSELPRVEDRATFIYIEHAKINRVDSAVTVAEAKGVVRIPAAMIGVLLLGPGTDISHRAVELLGDTGTALVWVGEQGVRYYASGRALARSTRFLVKQAELVTNERSRLRVARRMYQMRFPTEDVSKLTMQQLRSHEGARVRRKYRELSKKYNVPWKKRVYNPDDFAGGDPINQALSAAHVALYGLVHSVVAALGLSPGLGFVHTGHDRSFIYDVADLYKAEITVPIAFAVAAEAEEGQDIGQLARLRTRDAFVDGKILKRMVKDLQTLLEIPEEGQIEAEPLSLWDDKEKLVPYGVNYS 8fzk-a2-m1-cC_8fzk-a2-m1-cD Dimeric human importin alpha subunit P52292 P52292 2.1 X-RAY DIFFRACTION 93 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 422 424 8fzk-a1-m1-cA_8fzk-a1-m1-cB WSVDDIVKGINSSNVENQLQATQAARKLLSREKQPPIDNIIRAGLIPKFVSFLGRTDCSPIQFESAWALTNIASGTSEQTKAVVDGGAIPAFISLLASPHAHISEQAVWALGNIAGDGSVFRDLVIKYGAVDPLLALLAVPDMSSLACGYLRNLTWTLSNLCRNKNPAPPIDAVEQILPTLVRLLHHDDPEVLADTCWAISYLTDGPNERIGMVVKTGVVPQLVKLLGASELPIVTPALRAIGNIVTGTDEQTQVVIDAGALAVFPSLLTNPKTNIQKEATWTMSNITAGRQDQIQQVVNHGLVPFLVSVLSKADFKTQKEAVWAVTNYTSGGTVEQIVYLVHCGIIEPLMNLLTAKDTKIILVILDAISNIFQAAEKLGETEKLSIMIEECGGLDKIEALQNHENESVYKASLSLIEKYFS NWSVDDIVKGINSSNVENQLQATQAARKLLSREKQPPIDNIIRAGLIPKFVSFLGRTDCSPIQFESAWALTNIASGTSEQTKAVVDGGAIPAFISLLASPHAHISEQAVWALGNIAGDGSVFRDLVIKYGAVDPLLALLAVPDMSSLACGYLRNLTWTLSNLCRNKNPAPPIDAVEQILPTLVRLLHHDDPEVLADTCWAISYLTDGPNERIGMVVKTGVVPQLVKLLGASELPIVTPALRAIGNIVTGTDEQTQVVIDAGALAVFPSLLTNPKTNIQKEATWTMSNITAGRQDQIQQVVNHGLVPFLVSVLSKADFKTQKEAVWAVTNYTSGGTVEQIVYLVHCGIIEPLMNLLTAKDTKIILVILDAISNIFQAAEKLGETEKLSIMIEECGGLDKIEALQNHENESVYKASLSLIEKYFSV 8g28-a1-m2-cB_8g28-a1-m2-cA Crystal Structure of the C-terminal Fragment of AAA ATPase from Streptococcus pneumoniae. A0A0H2URL5 A0A0H2URL5 1.3 X-RAY DIFFRACTION 61 1.0 170187 (Streptococcus pneumoniae TIGR4) 170187 (Streptococcus pneumoniae TIGR4) 103 107 8g28-a1-m1-cB_8g28-a1-m1-cA 8g28-a1-m1-cB_8g28-a1-m2-cA 8g28-a1-m2-cB_8g28-a1-m1-cA DVLSALQKSIRGSDVDASLHYTARLIEAGDLPSLARRLTVIAYEDIGLANPEAQIHTVTALDAAQKIGFPEARILIANVVIDLALSPKSNSAYVADKALADLK GHYDVLSALQKSIRGSDVDASLHYTARLIEAGDLPSLARRLTVIAYEDIGLANPEAQIHTVTALDAAQKIGFPEARILIANVVIDLALSPKSNSAYVADKALADLKT 8g4u-a2-m1-cC_8g4u-a2-m1-cD Final ketosynthase+acyltransferase of the erythromycin modular polyketide synthase Q5UNP4 Q5UNP4 2.9 X-RAY DIFFRACTION 45 1.0 1836 (Saccharopolyspora erythraea) 1836 (Saccharopolyspora erythraea) 750 815 8g4u-a1-m1-cB_8g4u-a1-m1-cA PIAIVGMACRFPGGVHNPGELWEFIVGGGDAAADFDAAFFGISPREALAMDPQQRQVLETTWELFENAGIDPHSLRGSDTGVFLGAAVSGRVAYVLGLEGPAVTSSSLVALHSACGSLRDGDCGLAVAGGVSVRCKAFSAEADGFGFAEGVAVVLLQRLSDARRAGRQVLGVVAGSAINQSGVAQQRVIRKAWARAGITGADVAVVEAHGTGTRLGDPVEASALLATYGKSRGSSGPVLLGSVKSNIGHAQAAAGVAGVIKVVLGLNRGLVPPMLCRGERSPLIEWSSGGVELAEAVSPWPPAADGVRRAGVSAFGVSGTNAHVIIAEPPGVLAAANSVPVLLSARTETALAAQARLLEPLTALASALATGRAHLPRRAALLAGDHEQLRGQLRAVAEGVAAPGATTGTASAGGVVFVFPGQGAQWEGMARGLLSVPVFAESIAECDAVLSEVAGFSASEVLEQRPDAPSLERVDVVQPVLFSVMVSLARLWGACGVSPSAVIGHSQGEIAAAVVAGVLSLEDGVRVVALRAKALRALAGKGGMVSLAAPGERARALIAPWEDRISVAAVNSPSSVVVSGDPEALAELVARCEDEGVRAKTLPVDYASHSRHVEEIRETILADLDGISARRAAIPLYSTLHGERRDGADMGPRYWYDNLRSQVRFDEAVSAAVADGHATFVEMSPHPVLTAAVQEIAADAVAIGSLHRDTAEEHLIAELARAHVHGVAVDWRNVFPAAPPVALPNYPFEP DPIAIVGMACRFPGGVHNPGELWEFIVGGGDAVTEMPTDRGWHGAFLDGAADFDAAFFGISPREALAMDPQQRQVLETTWELFENAGIDPHSLRGSDTGVFLGAAYQGGNSSAVVSGRVAYVLGLEGPAVTVDTACSSSLVALHSACGSLRDGDCGLAVAGGVSVMAGPEVFTEFSRQGGLAVDGRCKAFSAEADGFGFAEGVAVVLLQRLSDARRAGRQVLGVVAGSAINQDSGVAQQRVIRKAWARAGITGADVAVVEAHGTGTRLGDPVEASALLATYGKSRGSSGPVLLGSVKSNIGHAQAAAGVAGVIKVVLGLNRGLVPPMLCRGERSPLIEWSSGGVELAEAVSPWPPAADGVRRAGVSAFGVSGTNAHVIIAEPPGVLAAANSVPVLLSARTETALAAQARLLESAVDDSVPLTALASALATGRAHLPRRAALLAGDHEQLRGQLRAVAEGVAAPGATTGTASAGGVVFVFPGQGAQWEGMARGLLSVPVFAESIAECDAVLSEVAGFSASEVLEQRPDAPSLERVDVVQPVLFSVMVSLARLWGACGVSPSAVIGHSQGEIAAAVVAGVLSLEDGVRVVALRAKALRALAGKGGMVSLAAPGERARALIAPWEDRISVAAVNSPSSVVVSGDPEALAELVARCEDEGVRAKTLPVDYASHSRHVEEIRETILADLDGISARRAAIPLYSTLHGERRDGADMGPRYWYDNLRSQVRFDEAVSAAVADGHATFVEMSPHPVLTAAVQEIAADAVAIGSLHRDTAEEHLIAELARAHVHGVAVDWRNVFPAAPPVALPNYPFEPQRYWL 8g9m-a1-m1-cA_8g9m-a1-m4-cA Acinetobacter_baumannii short-chain dehydrogenase A0A0D5YHJ0 A0A0D5YHJ0 2.5 X-RAY DIFFRACTION 102 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 215 215 8g9m-a1-m2-cA_8g9m-a1-m3-cA IMKLDLQNKIAVVSGSTSGIGLGIAKGLASAGATVVVVGRKQAGVDEAIAHIRQSVPEASLRGVDADLTTEQGAAALFAAEPKADILVNNLGIFNDEDFFSVPDEEWMRFYQVNVLSGVRLARHYAPSMVEQGWGRIIFISSESGVAIPGDMINYGVTKSANLAVSHGLAKRLAGTGVTVNAVLPGEVDEVANMVVYIASPLSSATSGAALRVDG IMKLDLQNKIAVVSGSTSGIGLGIAKGLASAGATVVVVGRKQAGVDEAIAHIRQSVPEASLRGVDADLTTEQGAAALFAAEPKADILVNNLGIFNDEDFFSVPDEEWMRFYQVNVLSGVRLARHYAPSMVEQGWGRIIFISSESGVAIPGDMINYGVTKSANLAVSHGLAKRLAGTGVTVNAVLPGEVDEVANMVVYIASPLSSATSGAALRVDG 8g9m-a1-m3-cA_8g9m-a1-m4-cA Acinetobacter_baumannii short-chain dehydrogenase A0A0D5YHJ0 A0A0D5YHJ0 2.5 X-RAY DIFFRACTION 100 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 215 215 8g9m-a1-m1-cA_8g9m-a1-m2-cA IMKLDLQNKIAVVSGSTSGIGLGIAKGLASAGATVVVVGRKQAGVDEAIAHIRQSVPEASLRGVDADLTTEQGAAALFAAEPKADILVNNLGIFNDEDFFSVPDEEWMRFYQVNVLSGVRLARHYAPSMVEQGWGRIIFISSESGVAIPGDMINYGVTKSANLAVSHGLAKRLAGTGVTVNAVLPGEVDEVANMVVYIASPLSSATSGAALRVDG IMKLDLQNKIAVVSGSTSGIGLGIAKGLASAGATVVVVGRKQAGVDEAIAHIRQSVPEASLRGVDADLTTEQGAAALFAAEPKADILVNNLGIFNDEDFFSVPDEEWMRFYQVNVLSGVRLARHYAPSMVEQGWGRIIFISSESGVAIPGDMINYGVTKSANLAVSHGLAKRLAGTGVTVNAVLPGEVDEVANMVVYIASPLSSATSGAALRVDG 8gb0-a1-m1-cB_8gb0-a1-m1-cC SARS-CoV-2 Spike H655Y variant, One RBD Open P0DTC2 P0DTC2 4.1 ELECTRON MICROSCOPY 273 0.992 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 950 961 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSFKNLREFVFKNYFKIYSKHTPINDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRKPFERPLQSYGFQPTNGVGYQPYRVVVLSFATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKNYNYLYRKPFERDISTPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNEVAVLYQDVNCTEVNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8gbs-a1-m1-cA3_8gbs-a1-m1-cA4 Integrative model of the native Ana GV shell P10397 P10397 8.0 ELECTRON MICROSCOPY 56 1.0 1166 (Dolichospermum flos-aquae) 1166 (Dolichospermum flos-aquae) 65 65 8gbs-a1-m1-cA1_8gbs-a1-m1-cA2 8gbs-a1-m1-cA2_8gbs-a1-m1-cA3 AVEKTNSSSSLAEVIDRILDKGIVIDAWVRVSLVGIELLAIEARIVIASVETYLKYAEAVGLTQS AVEKTNSSSSLAEVIDRILDKGIVIDAWVRVSLVGIELLAIEARIVIASVETYLKYAEAVGLTQS 8gch-a3-m2-cC_8gch-a3-m2-cG GAMMA-CHYMOTRYPSIN IS A COMPLEX OF ALPHA-CHYMOTRYPSIN WITH ITS OWN AUTOLYSIS PRODUCTS P00766 1.6 X-RAY DIFFRACTION 20 1.0 9913 (Bos taurus) 9913 (Bos taurus) 3 96 8gch-a1-m1-cC_8gch-a1-m1-cG 8gch-a2-m1-cC_8gch-a2-m1-cG 8gch-a2-m2-cC_8gch-a2-m2-cG 8gch-a3-m1-cC_8gch-a3-m1-cG GAW NTPDRLQQASLPLLSNTNCKKYWGTKIKDAMICAGASGVSSCMGDSGGPLVCKKNGAWTLVGIVSWGSSTCSTSTPGVYARVTALVNWVQQTLAAN 8gci-a1-m1-cA_8gci-a1-m2-cA Crystal structure of C. elegans LIN-42 PAS-B domain Q65ZG8 Q65ZG8 2.42 X-RAY DIFFRACTION 21 1.0 6239 (Caenorhabditis elegans) 6239 (Caenorhabditis elegans) 169 169 LALRSAFSLQASHVSSNFHVFTFITKHSSTCALTHIDYASIPYLGLLPTDLIGKSLLAFVYSPDVHVVRQAHIDLHNSRGKIVKSIADLRLVAHNGSILRCQTEWSAYVNPWTRKMELVVARHRICSLPIGDSDVISSPPPGIQSNTLPPVMAKTFEDELRTIMNKPVP LALRSAFSLQASHVSSNFHVFTFITKHSSTCALTHIDYASIPYLGLLPTDLIGKSLLAFVYSPDVHVVRQAHIDLHNSRGKIVKSIADLRLVAHNGSILRCQTEWSAYVNPWTRKMELVVARHRICSLPIGDSDVISSPPPGIQSNTLPPVMAKTFEDELRTIMNKPVP 8gi1-a1-m1-cF_8gi1-a1-m1-cG Homo-octamer of PbuCsx28 protein E6K399 E6K399 3.65 ELECTRON MICROSCOPY 58 1.0 28126 (Prevotella buccae) 28126 (Prevotella buccae) 144 144 8gi1-a1-m1-cA_8gi1-a1-m1-cB 8gi1-a1-m1-cA_8gi1-a1-m1-cH 8gi1-a1-m1-cB_8gi1-a1-m1-cC 8gi1-a1-m1-cC_8gi1-a1-m1-cD 8gi1-a1-m1-cD_8gi1-a1-m1-cE 8gi1-a1-m1-cE_8gi1-a1-m1-cF 8gi1-a1-m1-cG_8gi1-a1-m1-cH AAYVAYYYAIKQLHQKSVENIEYAKYQAVLQAHKSLYKLLRFTTNTENEDSILIWEKYYFRKENIRKFIKELSKEIYNEGCGIFMSKEALSLISEYRNIVYGFMLSAQNNPQETIRITNRESVERMKKIHQNLSIEIRQAINLK AAYVAYYYAIKQLHQKSVENIEYAKYQAVLQAHKSLYKLLRFTTNTENEDSILIWEKYYFRKENIRKFIKELSKEIYNEGCGIFMSKEALSLISEYRNIVYGFMLSAQNNPQETIRITNRESVERMKKIHQNLSIEIRQAINLK 8glv-a1-m1-c5C_8glv-a1-m1-cOD 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8I9E8 A8I9E8 3.1 ELECTRON MICROSCOPY 32 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 370 370 6u42-a1-m1-c5D_6u42-a1-m1-c5C 8glv-a1-m1-c4X_8glv-a1-m1-cGp 8glv-a1-m1-cGq_8glv-a1-m1-cOD 8glv-a1-m1-cOO_8glv-a1-m1-c5C DATRSRATHMMLEQKDPVKHMNQMMLYSKCVTIRDAQIEEKKQMLAEEEEEQRRLDLMMEIERVKALEQYEARERQRVEERRKGAAVLSEQIKERERERIRQEELRDQERLQMLREIERLKEEEMQAQIEKKIQAKQLMEEVAAANSEQIKRKEGMKVREKEEDLRIADYILQKEMREQSLAAEKERIAKEKEMETARLRAMQERAADKQSELDELRARRYQEAKEREWRQKERAYAERQASMQQELANARTAQQASKLKQKAEMARLEHDEFMRVLDVNRAKEYDELQQTVNAMTLNSKYKEELLAQIQANEERRKRERSHYLEEGARLREAAEKERQLLLQIKDRKLGELESAGVPGKYRAELEKMKI DATRSRATHMMLEQKDPVKHMNQMMLYSKCVTIRDAQIEEKKQMLAEEEEEQRRLDLMMEIERVKALEQYEARERQRVEERRKGAAVLSEQIKERERERIRQEELRDQERLQMLREIERLKEEEMQAQIEKKIQAKQLMEEVAAANSEQIKRKEGMKVREKEEDLRIADYILQKEMREQSLAAEKERIAKEKEMETARLRAMQERAADKQSELDELRARRYQEAKEREWRQKERAYAERQASMQQELANARTAQQASKLKQKAEMARLEHDEFMRVLDVNRAKEYDELQQTVNAMTLNSKYKEELLAQIQANEERRKRERSHYLEEGARLREAAEKERQLLLQIKDRKLGELESAGVPGKYRAELEKMKI 8glv-a1-m1-c7B_8glv-a1-m1-c5F 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8IY81 A8IY81 3.1 ELECTRON MICROSCOPY 158 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 174 381 6u42-a1-m1-c7B_6u42-a1-m1-c5F MLPTDTMKGTFAPGTTKRKTVNMYDTQSSTFQPRPEGPFEAEHITDQPAAHEHFDTTREIKLKDPKGMDLPATSYVEHYPPKTALLPGEPLELALGGVPFTATSTYDNEFWNKPRAPRPVEPLTYTHRPGPMITRDTTNQDTYKPFEMARPTRNATAPPPAMPSIYDTTYRAHY MLPTDTMKGTFAPGTTKRKTVNMYDTQSSTFQPRPEGPFEAEHITDQPAAHEHFDTTREIKLKDPKGMDLPATSYVEHYPPKTALLPGEPLELALGGVPFTATSTYDNEFWNKPRAPRPVEPLTYTHRPGPMITRDTTNQDTYKPFEMARPTRNATAPPPAMPSIYDTTYRAHYIPKEGEPRVGPGTIPPKDPLPWLNDGTTYRNDYAPKGLALLAPADYDPYNPFPFGGTTEYRAEYPAKEADPQLPPLTGVRSREGLELPLPRRSLGVEFVHKGVSDRYFVLIPRTLDSPCSARQVFTTVHDNQEQACILILYGDDPVASNNTLLGQFDIVNIPPAPKDVPRIEVTFHLSRDMFLTVEARDLDTARHKRWLQRGDIVVL 8glv-a1-m1-cAN_8glv-a1-m1-cAP 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q39580 Q39580 3.1 ELECTRON MICROSCOPY 10 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 91 91 MASGSSKAVIKNADMSEEMQADAVDCATQALEKYNIEKDIAAYIKKEFDRKHNPTWHCIVGRNFGSYVTHETKHFIYFYLGQVAILLFKSG MASGSSKAVIKNADMSEEMQADAVDCATQALEKYNIEKDIAAYIKKEFDRKHNPTWHCIVGRNFGSYVTHETKHFIYFYLGQVAILLFKSG 8glv-a1-m1-cAX_8glv-a1-m1-cFa 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q39575 Q39575 3.1 ELECTRON MICROSCOPY 36 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 4484 4484 MALDNRHRLIVGKLAEAFGLPENVIEKTLTQDKQAVNSFFTPAGPPSLVFVYQVKEDKLKDGSVGPVDNKPTLHRIGPHERIHNSVYFTRLNPKGINEKTLEADMGSGELSVLWALENFKAIVSDLYLPIMQEQQQWGKMSTEYLEDFLSSTAKFGSMLTEAVATVSGGVEPMPDPRYIDQYGDLRPAGITQAAGDDDTLQEMEECLTEWCREAELLLNQTNKIKDGEERGPDTELEYWRTRMSNFNSITEHLKTKECKLVLGICSHAKTKAYLRWRGLDVQITDAANESKDNVKYLATLEKSMEPMYQGRVTDITESLPALMTNVRMMYTIARFYSTAEHMTRLFTKITNQLVRRCKEQIMENGKIWDQDKVTLIGNMKVSVELANVYRQQYRLAKETLAAQPKSKQFDFDEQAIFLKFDLSSKALHKLIDMFTTIHQFSSLEQHTHIEGLDTMLKSLNNIIDDVKRKPYDLLDYSRNAFDTDFLEFNVQINDLELQLQGFVNASFEHITSTEHALSLLAQFQAIMQRETLQQDLENKYMVIFQNYAKDLDAVQKLYEKNKYEPPVPRNAPPVAGNIMWARQLLRRIEAPMQLAQNKNLLAAKESKKNIKTYNKVAKALIEFETLWHQAWIKSIEQCKAGLAAPLLVQHPDTGKILVNFDKEIMQLVREAKYMQRFNIRCSSPSQMVLLQEEKFKFYHNQLTHLVREYEHVLGRGATIKPLLRPHLDDMERKIAPGFAVLTWTSLNIDGYLHRFKQGLARLEELVRKVVDLTENRVDSNLGAISSTLLVELPTDRSFTYEGFVEQNRFQKKQAELLAIRNEEVRRAIEDLYTLVRNYPRENTEDVLDEKEVSLLVRHYSKNMYNAIMQCTLNSLQAMKRRLGSKTTTGIFFMERPFFDVDVELKVPSVCMNPTLEEIQAAINQCAKKVLTISKQLPAWGMDNVATYHEMMRGDRRWVKAVLRLTGSVEGIKTQVGEYIRTFDKYDFLWKEDLQAAYDHFMRSNPTLEAFEAELKKYMAIETEVTMINGVNNIGALSLETHPLKNSLKAEAVSWKTQFAQNLHKQCSDDLKLDNYIRDTNSKFHRKIEDLEDVRNVMAVLKEVREKESEIDNLIGPIEEMYGLLMRYEVRVPKEETTMVSDLRYGWKKLKKVATEVSDNLTRLQVGFKRELIKEVKTFVVDAQMFRKDWEANAMVPGLDPQEAVDRLRKFQQMFEVRKRKWENYSSGEELFGLPVTQYPELEQTEKEIQMLDRLYSLYVAVITTIKGYGDYFWVDVVEKIDEMGEQVQQYQNQSKKLPKLRDWPAYNACRKTIDDFLEMLPLFQALTHKSMRERHWKEVMRVTGHELNLAEDHFKLQHLLDCNVLRYREDIEDLTGAAVKEEIIEVKLNQLKADWATANLALAEYKNRGPVILKPSDTSELMEKLEESQMTLGSMATNRYSAPFRDEVQAWSIKLSTVSEIIEQWLMVQSMWQYMEAVFSGGDIVKQLPQEAKRFLNIDKNFMKIVSNALETQNVINTCFGNELMKNMLPHLHEQLEMCQKSLSAYLEQKRAEFPRFTCVGPHLLEICRWAHDPPSVVPHFQSGLFDSLSNVTFDRIDKTRMTEMFSQQNEKVEFERPVDAKGNIEVWLQRLVDGMEDTVKQIIKRAVRNVAEMPLEDFVFGHPAQVSLLGIQFQWTAETQMALSSAKVDKTIMNKNMKKVDALLRDMVNITVRLDLTKNQRTNLETCITVHMHQKESTEDLVKKKIKDPTDFEWLKQVRFYWRDDKDTVIISICDVDFEYSFEYLGVKERLVITPLTDICYITLSQALGMFLGGAPAGPAGTGKTETTKDLGNTLGKYVVVFNCSDQFDYTYMGKIYKGLAQSGLWGCFDEFNRINLDVLSVCAQQVYCICRTRERKKSFQFTDGTTVSLDPRVGFFITMNPGYAGAQELPENLKALFRGVTMMVPNRQIIMKVKLAAAGYQENDILSKKFFVLYGLCEQQLSKQAHYDFGLRNILSVLRTAGASKRQSPDKSEVFLMMRTVRDMNMSKFVAEDVPLFLSLIDDLFPGLKADATRPDVNKDAEKVVLERGLQVHPTWMNKCIQLYETYLVRHGIMLVGPSGSGKSAICECLAAALTELGTKHVIWRMNPKAITAPQMFGRRDDTTGDWTDGIFAVLWRRAAKNKNQNTWIVLDGPVDAIWIENLNTVLDDNKVLTLANGDRILMSAAMKAMFEPENLNNASPATVSRAGIIYVSDVELGWEPPVKSWLQKRDPTEACWARLFSKYIDRMLEFVRISLKPVMYNEQVSIVGTVMTLLNGYLKSMKEAGTAMNDAKYERVFLYCMTWSLGGLLEMKERPLFDQELRTFAHNMPPKEEDSDTIFEFLVNTTDAEWLHWRHCVPVWTYPKNEEKPQYAQLVIPTLDSVRYGALLNLSYNVDKATLLVGGPGTAKTNTINQFISKFNAETTANKTITFSSLTTPGIFQMSIEGAVEKRQGRTFGPPGGKQMCIFVDDISMPYINEWGHQVTNEIVRQLLEQGGMYSLEKPIGDMKFITDVRYVAAMNTPGGGKNDIPNRLKRQFAIFNVPLPSVAAINGIFGKLVEGRFSRDVFCEEVVYVASKLVPLTITLWNRIQTKMLPTPAKFHYLFNMRELSKVFQGVILATRDRFNLAAGDSAVFGGNVASPEGYLLGLWIHECRRVFSDKLISYEDKNWVDKAVFDLCRDNFSSDLVKQVEEPIYFVDFLREPAVMMRPVEIVTPHPSFYYSVPGGLPEVRARVEGLQRKFNEESKVMKLELVLFTDCVTHLMRITRLLAWPGLGLLVGVGGSGKQSLSRLSAYIAGPTFYITKTYNVSNLFEHIKGLYKIAGFKGQPVYFIFTDAEVKDEGFLEYINQILMTGEVAGLLTKEDQDMIVNDIRPVMKHQAPGILDTYDNLYNFFLNRVRDNLHVVLCFSPVGAKFARRAQQFPGLINGCTIDWFCPGPKKRLTSVSGKFIDKFTMACPKEVKNQLELLMGHAHVFVTAACKEYFEKYRRYVYVTPKSYLSFLQGYKELYAKKWSFTKELAYQIEVACQKMFEPKADVNKMKAELAVKNQTAVSAKEAEALLKQISESTAIAEKEKQKVAVIVDAVTKKASEIATVKDDAERDLAAAKPALDAALEALNSIKDGDIKNLKALKKPPQIITRIFDCVLVLRMLPVTKAEYTDEKGRMVQVGNYPEAQKMMNQMSFLQDLKDFAKEQINDETVELLEPYFMSEDFTFENAQKGSGNVAGLCNWAESMAKYHNVAKVVEPKIAKLREAEAELKLATKEKNAAEERMAKVQAKLDEMQAQFDAAMAHKQALEDDAAATQRKMDSANALIGALAGEEARWTAQSKEFDVQIQRLTGDCALASAFVSYLGPFNKEFRELLLNRDFYGDCMKLNVPVTPHLQITKFLVDDSEVGEWNLQGLPTDELSIQNGIMVTRASRYPVLVDPQGQGREWIKNREEANQLKTTQLNDKLFRNHLEECLAFGRPLLIENIEEELDPLLDPVLERRLVKKGKTWVVPLADKEVDFTETFRLFCTTRLPNPHFTPELSAKVTVVDFTVTMAGLEDQLLGKLISKEKKELEDQRQQLLEEVQSYKKRIKQLEDDLLCRLSNSQGNLLDEHQELIDVLAVTKQTAQDVSEKLANASETNKRINEACEEYRPVAHRATLLYFLIAEFSVVNCMYQTSLAQFNQLYELAIDRSEKANMPSKRIHNIIEYMTYEIYLYVQRGLFERHKIIFALMLTNKVLTSAGKVKATDLDVFLKGGAALDINSVRKKPKDWIPDLVWLNIIALSAMDAFRDIPDSVFRNDGLWRQWYDQEAPEMAKVPDYEDRLNKFERMCVVKTFREDRTLIAAADYIAEALGQRFVESVPLNMEKRPGRRAMAKCPLICLLSPGPDPTKLIEDLAKKKKIKTLGVSMGQGQEVIARKHMAAASLEGHWVLLQNTHLGLGYLTEVETFLVKEENVHEDFRLWITAEPHPQFPIGLLQMGIKITNEAPVGIKAGLRASYQWVNQDMLDMVSRQEWRQLLFVMCFLHSVVQEPQFGPIGWNVPYEFNQSDLSACVQFLQNHLSEMDAKKAPQPTWETVRYMISAIQYGSRITDDFDKLLMDTFAEKYFLQPVLQPSYELFKDTRSSDGFSYRVPDSTDIETFGSYIETLPGTESPEIFGLHPNADITFRTLQVQESIVTILDTMPKGAGSGSGLSREDVVDKICEDLLSKAPPLFDKEETKEKLKKLPGGPTLPLTVHLRQEIDRLNIVTRLTTTTLKNLALAIAGTIAAERGLIDALDALFNARIPQQWLSKSWEASTLGNWFTGLLQRYDQLNKWLNLGRPKAYWMTGFFNPQGFLTAMKQEVNRKHRDKWALDDVVMSSEVTHRPKDFESLKEGAPEGVYVYGLYLDLRLDGRENRLMDSDPKKLFNPLPVLHVDGVLAKDKKRSGLYEAPKPYRVKARKGLNFITTFSVRTEDDKSKWILPGVGILCSI MALDNRHRLIVGKLAEAFGLPENVIEKTLTQDKQAVNSFFTPAGPPSLVFVYQVKEDKLKDGSVGPVDNKPTLHRIGPHERIHNSVYFTRLNPKGINEKTLEADMGSGELSVLWALENFKAIVSDLYLPIMQEQQQWGKMSTEYLEDFLSSTAKFGSMLTEAVATVSGGVEPMPDPRYIDQYGDLRPAGITQAAGDDDTLQEMEECLTEWCREAELLLNQTNKIKDGEERGPDTELEYWRTRMSNFNSITEHLKTKECKLVLGICSHAKTKAYLRWRGLDVQITDAANESKDNVKYLATLEKSMEPMYQGRVTDITESLPALMTNVRMMYTIARFYSTAEHMTRLFTKITNQLVRRCKEQIMENGKIWDQDKVTLIGNMKVSVELANVYRQQYRLAKETLAAQPKSKQFDFDEQAIFLKFDLSSKALHKLIDMFTTIHQFSSLEQHTHIEGLDTMLKSLNNIIDDVKRKPYDLLDYSRNAFDTDFLEFNVQINDLELQLQGFVNASFEHITSTEHALSLLAQFQAIMQRETLQQDLENKYMVIFQNYAKDLDAVQKLYEKNKYEPPVPRNAPPVAGNIMWARQLLRRIEAPMQLAQNKNLLAAKESKKNIKTYNKVAKALIEFETLWHQAWIKSIEQCKAGLAAPLLVQHPDTGKILVNFDKEIMQLVREAKYMQRFNIRCSSPSQMVLLQEEKFKFYHNQLTHLVREYEHVLGRGATIKPLLRPHLDDMERKIAPGFAVLTWTSLNIDGYLHRFKQGLARLEELVRKVVDLTENRVDSNLGAISSTLLVELPTDRSFTYEGFVEQNRFQKKQAELLAIRNEEVRRAIEDLYTLVRNYPRENTEDVLDEKEVSLLVRHYSKNMYNAIMQCTLNSLQAMKRRLGSKTTTGIFFMERPFFDVDVELKVPSVCMNPTLEEIQAAINQCAKKVLTISKQLPAWGMDNVATYHEMMRGDRRWVKAVLRLTGSVEGIKTQVGEYIRTFDKYDFLWKEDLQAAYDHFMRSNPTLEAFEAELKKYMAIETEVTMINGVNNIGALSLETHPLKNSLKAEAVSWKTQFAQNLHKQCSDDLKLDNYIRDTNSKFHRKIEDLEDVRNVMAVLKEVREKESEIDNLIGPIEEMYGLLMRYEVRVPKEETTMVSDLRYGWKKLKKVATEVSDNLTRLQVGFKRELIKEVKTFVVDAQMFRKDWEANAMVPGLDPQEAVDRLRKFQQMFEVRKRKWENYSSGEELFGLPVTQYPELEQTEKEIQMLDRLYSLYVAVITTIKGYGDYFWVDVVEKIDEMGEQVQQYQNQSKKLPKLRDWPAYNACRKTIDDFLEMLPLFQALTHKSMRERHWKEVMRVTGHELNLAEDHFKLQHLLDCNVLRYREDIEDLTGAAVKEEIIEVKLNQLKADWATANLALAEYKNRGPVILKPSDTSELMEKLEESQMTLGSMATNRYSAPFRDEVQAWSIKLSTVSEIIEQWLMVQSMWQYMEAVFSGGDIVKQLPQEAKRFLNIDKNFMKIVSNALETQNVINTCFGNELMKNMLPHLHEQLEMCQKSLSAYLEQKRAEFPRFTCVGPHLLEICRWAHDPPSVVPHFQSGLFDSLSNVTFDRIDKTRMTEMFSQQNEKVEFERPVDAKGNIEVWLQRLVDGMEDTVKQIIKRAVRNVAEMPLEDFVFGHPAQVSLLGIQFQWTAETQMALSSAKVDKTIMNKNMKKVDALLRDMVNITVRLDLTKNQRTNLETCITVHMHQKESTEDLVKKKIKDPTDFEWLKQVRFYWRDDKDTVIISICDVDFEYSFEYLGVKERLVITPLTDICYITLSQALGMFLGGAPAGPAGTGKTETTKDLGNTLGKYVVVFNCSDQFDYTYMGKIYKGLAQSGLWGCFDEFNRINLDVLSVCAQQVYCICRTRERKKSFQFTDGTTVSLDPRVGFFITMNPGYAGAQELPENLKALFRGVTMMVPNRQIIMKVKLAAAGYQENDILSKKFFVLYGLCEQQLSKQAHYDFGLRNILSVLRTAGASKRQSPDKSEVFLMMRTVRDMNMSKFVAEDVPLFLSLIDDLFPGLKADATRPDVNKDAEKVVLERGLQVHPTWMNKCIQLYETYLVRHGIMLVGPSGSGKSAICECLAAALTELGTKHVIWRMNPKAITAPQMFGRRDDTTGDWTDGIFAVLWRRAAKNKNQNTWIVLDGPVDAIWIENLNTVLDDNKVLTLANGDRILMSAAMKAMFEPENLNNASPATVSRAGIIYVSDVELGWEPPVKSWLQKRDPTEACWARLFSKYIDRMLEFVRISLKPVMYNEQVSIVGTVMTLLNGYLKSMKEAGTAMNDAKYERVFLYCMTWSLGGLLEMKERPLFDQELRTFAHNMPPKEEDSDTIFEFLVNTTDAEWLHWRHCVPVWTYPKNEEKPQYAQLVIPTLDSVRYGALLNLSYNVDKATLLVGGPGTAKTNTINQFISKFNAETTANKTITFSSLTTPGIFQMSIEGAVEKRQGRTFGPPGGKQMCIFVDDISMPYINEWGHQVTNEIVRQLLEQGGMYSLEKPIGDMKFITDVRYVAAMNTPGGGKNDIPNRLKRQFAIFNVPLPSVAAINGIFGKLVEGRFSRDVFCEEVVYVASKLVPLTITLWNRIQTKMLPTPAKFHYLFNMRELSKVFQGVILATRDRFNLAAGDSAVFGGNVASPEGYLLGLWIHECRRVFSDKLISYEDKNWVDKAVFDLCRDNFSSDLVKQVEEPIYFVDFLREPAVMMRPVEIVTPHPSFYYSVPGGLPEVRARVEGLQRKFNEESKVMKLELVLFTDCVTHLMRITRLLAWPGLGLLVGVGGSGKQSLSRLSAYIAGPTFYITKTYNVSNLFEHIKGLYKIAGFKGQPVYFIFTDAEVKDEGFLEYINQILMTGEVAGLLTKEDQDMIVNDIRPVMKHQAPGILDTYDNLYNFFLNRVRDNLHVVLCFSPVGAKFARRAQQFPGLINGCTIDWFCPGPKKRLTSVSGKFIDKFTMACPKEVKNQLELLMGHAHVFVTAACKEYFEKYRRYVYVTPKSYLSFLQGYKELYAKKWSFTKELAYQIEVACQKMFEPKADVNKMKAELAVKNQTAVSAKEAEALLKQISESTAIAEKEKQKVAVIVDAVTKKASEIATVKDDAERDLAAAKPALDAALEALNSIKDGDIKNLKALKKPPQIITRIFDCVLVLRMLPVTKAEYTDEKGRMVQVGNYPEAQKMMNQMSFLQDLKDFAKEQINDETVELLEPYFMSEDFTFENAQKGSGNVAGLCNWAESMAKYHNVAKVVEPKIAKLREAEAELKLATKEKNAAEERMAKVQAKLDEMQAQFDAAMAHKQALEDDAAATQRKMDSANALIGALAGEEARWTAQSKEFDVQIQRLTGDCALASAFVSYLGPFNKEFRELLLNRDFYGDCMKLNVPVTPHLQITKFLVDDSEVGEWNLQGLPTDELSIQNGIMVTRASRYPVLVDPQGQGREWIKNREEANQLKTTQLNDKLFRNHLEECLAFGRPLLIENIEEELDPLLDPVLERRLVKKGKTWVVPLADKEVDFTETFRLFCTTRLPNPHFTPELSAKVTVVDFTVTMAGLEDQLLGKLISKEKKELEDQRQQLLEEVQSYKKRIKQLEDDLLCRLSNSQGNLLDEHQELIDVLAVTKQTAQDVSEKLANASETNKRINEACEEYRPVAHRATLLYFLIAEFSVVNCMYQTSLAQFNQLYELAIDRSEKANMPSKRIHNIIEYMTYEIYLYVQRGLFERHKIIFALMLTNKVLTSAGKVKATDLDVFLKGGAALDINSVRKKPKDWIPDLVWLNIIALSAMDAFRDIPDSVFRNDGLWRQWYDQEAPEMAKVPDYEDRLNKFERMCVVKTFREDRTLIAAADYIAEALGQRFVESVPLNMEKRPGRRAMAKCPLICLLSPGPDPTKLIEDLAKKKKIKTLGVSMGQGQEVIARKHMAAASLEGHWVLLQNTHLGLGYLTEVETFLVKEENVHEDFRLWITAEPHPQFPIGLLQMGIKITNEAPVGIKAGLRASYQWVNQDMLDMVSRQEWRQLLFVMCFLHSVVQEPQFGPIGWNVPYEFNQSDLSACVQFLQNHLSEMDAKKAPQPTWETVRYMISAIQYGSRITDDFDKLLMDTFAEKYFLQPVLQPSYELFKDTRSSDGFSYRVPDSTDIETFGSYIETLPGTESPEIFGLHPNADITFRTLQVQESIVTILDTMPKGAGSGSGLSREDVVDKICEDLLSKAPPLFDKEETKEKLKKLPGGPTLPLTVHLRQEIDRLNIVTRLTTTTLKNLALAIAGTIAAERGLIDALDALFNARIPQQWLSKSWEASTLGNWFTGLLQRYDQLNKWLNLGRPKAYWMTGFFNPQGFLTAMKQEVNRKHRDKWALDDVVMSSEVTHRPKDFESLKEGAPEGVYVYGLYLDLRLDGRENRLMDSDPKKLFNPLPVLHVDGVLAKDKKRSGLYEAPKPYRVKARKGLNFITTFSVRTEDDKSKWILPGVGILCSI 8glv-a1-m1-cCp_8glv-a1-m1-cCq 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A0A2K3DTF4 A0A2K3DTF4 3.1 ELECTRON MICROSCOPY 610 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 1075 1076 MATSTLAPRFIFGFRADVKDNVHYAEDGSVVYPAGHNIVLYSPDTRTQRLIPGTLESEGITAICVSANKKLMAVAERSDKAMISVYDMQTLKRRKVLVSTDAGSKEYVSLSFSGDGKTLIAQGGAPEWNLVLWVWEKSKVGSVVKTTNQQGVPMFGCAFSPGDSALVSVIGQGIFKLFRNADAGLKAVNPVMGKRDPGLASCQCWVPDPPGSNEQRERLLLGMSDGEVLLLEGTDMKAAFSCDNGLPAVSIAAYSKGFVVGQDGGVVTIFERDEKEFYRRARAFTIEGNACKVLNLAISPNEEHLVASLENNQAFTLLLSNQEIMKQDEMNFEVLGTPNHAGPITGLDVCVRKALIASCCSTDRSVRLWNWADRTCELYRTFADEIFSIAIHPTGLQVLVGFADKLRLMAVLMEDLKVVKELGIKGCRECCFSTGGQYFAAVNGTTISIYNTYTCENVGNLRGHNGKVRSVAWSPDDSKLISAGMDGAVYEWRLKDLKRDKEHVLKGCAYASVLATPDCKLLYATGTDKKIKEFEDSTGTGTTISKEIDTGGVNLTQLALLPNARVMFAATEAGGVRTYKYPLTGEFQEAKCHAAPVSRLRVSWDESLLVSGGEDGSVFVWEVRDKDARAAARREQEKLEYAVEVLVTRSELDEKRSRMSELEQQVAELTMQTEYQLRLKDLHLQERVKELTDKFSGESEADRQKFEALLAEKNEMEMEYEDKLKQAEERSQAQLQALDTQYQAKIMAEVERYQALMQEKELLAERWDEQNIEALQAEKAELEREFEEIKKQLEEDADREIEETKEKYEQKLQTERETSLRLKGENGIMRKKFNNLQKDIEVCNTQIKELYEQKKELYATIASLEKDIASLKREIRERDETIGDKERRIYDLKKKNQELEKFKFVLDYKIKELKKQIEPKDLEISEMKEQIKEMDGELERYHKTNANLDLTISNMHLKQAGLANEVTDQRREKQDAYALMRRFQHDLQEVVGFLQEPKVLKEKVKWLYQKHDGDVEREAARQREYLEKTVDSLKRKLAKDSELHRTDNLRIMQENTALIKEINELRREIKALKGA MATSTLAPRFIFGFRADVKDNVHYAEDGSVVYPAGHNIVLYSPDTRTQRLIPGTLESEGITAICVSANKKLMAVAERSDKAMISVYDMQTLKRRKVLVSTDAGSKEYVSLSFSGDGKTLIAQGGAPEWNLVLWVWEKSKVGSVVKTTNQQGVPMFGCAFSPGDSALVSVIGQGIFKLFRNADAGLKAVNPVMGKRDPGLASCQCWVPDPPGSNEQRERLLLGMSDGEVLLLEGTDMKAAFSCDNGLPAVSIAAYSKGFVVGQDGGVVTIFERDEKEFYRRARAFTIEGNACKVLNLAISPNEEHLVASLENNQAFTLLLSNQEIMKQDEMNFEVLGTPNHAGPITGLDVCVRKALIASCCSTDRSVRLWNWADRTCELYRTFADEIFSIAIHPTGLQVLVGFADKLRLMAVLMEDLKVVKELGIKGCRECCFSTGGQYFAAVNGTTISIYNTYTCENVGNLRGHNGKVRSVAWSPDDSKLISAGMDGAVYEWRLKDLKRDKEHVLKGCAYASVLATPDCKLLYATGTDKKIKEFEDSTGTGTTISKEIDTGGVNLTQLALLPNARVMFAATEAGGVRTYKYPLTGEFQEAKCHAAPVSRLRVSWDESLLVSGGEDGSVFVWEVRDKDARAAARREQEKLEYAVEVLVTRSELDEKRSRMSELEQQVAELTMQTEYQLRLKDLHLQERVKELTDKFSGESEADRQKFEALLAEKNEMEMEYEDKLKQAEERSQAQLQALDTQYQAKIMAEVERYQALMQEKELLAERWDEQNIEALQAEKAELEREFEEIKKQLEEDADREIEETKEKYEQKLQTERETSLRLKGENGIMRKKFNNLQKDIEVCNTQIKELYEQKKELYATIASLEKDIASLKREIRERDETIGDKERRIYDLKKKNQELEKFKFVLDYKIKELKKQIEPKDLEISEMKEQIKEMDGELERYHKTNANLDLTISNMHLKQAGLANEVTDQRREKQDAYALMRRFQHDLQEVVGFLQEPKVLKEKVKWLYQKHCDGDVEREAARQREYLEKTVDSLKRKLAKDSELHRTDNLRIMQENTALIKEINELRREIKALKGA 8glv-a1-m1-cDb_8glv-a1-m1-cGt 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8J1M5 A8J1M5 3.1 ELECTRON MICROSCOPY 28 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 4520 4520 DIRFDYIRDRVCSCLKVPDSAYDKLVSGDGRTSLVQFMEEAHTKRLLIMLDGKDLSATVKPPPKFKKKTVYFLKLQETKLDNDNIKKLVIHGEISENPLETLAAISQDVFMPVLTAPANQQGWPDVVAKEVTENLHKFVSNVFVTIGQMKGQTLLPLPPQNTVPTLQPEQSMHSLKDQDKIHILESAIVTWTKQIKNVLKADPDAPLKEPGAYPGPLTELNFWSERAANLNSIHEQLTSEKTQKVVKVLELAKSTYYPAFQRLFREVEAAQQEANDNVKFLKPLRKYLDKLNMMDDFPMLVDLFKPIMHTLMLIWKHSKSYNSSTRFVTLMQEICNDLIMQACKYVPGSDLIQMEPSEAVDKLRMTLRVLGTFKNYYFEYRALSMQDTPENPWKFQNNSLFARLDSFLERCHDMMDLMSTCMQFNRLERVEIGGTKGKVLTNGVKAIHQDFTSAVEKFQQVTYDVMDVDAKQFDEDFFGFRVVIKELERRLAAIIIQAFDDCTTIGTTFKLLDSFEGLLDREVIAHDLEKKHTDLLHSYARDLKDVADLFHQYKDRPIVAKNSAPYSGAAYWVRGLMERIKDPMDRLLTMNKMVLESELFREIQRTYDHLWEEMTEYRTRAVDAWCAQVAATSDEKLNLPLLSLIEETADGIRVLGVNFDPALVRLLRETKYFLLLETSTQDKDLFASADTFRQQISALDLICSIYNKVQRTILAVEKPLVQQKLDAVEQALNRGLAELNWKCAEIDTYIKECMELVKDVDLVLNTIKDNVKATQGILAMWEKNLMFERKDGKTYTFDELNDAFNQLIQQRHSEIRDAGKEITKLLSSSNRVLKVSKGAASWRAYVDYFSNIVIDGFSAAIISTVRYLLSQIDPDILAKTESSPLLEIQVELVAPDIVWKPDLGEGGAKPGLRDMIKKWLQSFLEIGQLMKRLDVGEGNYAKELEEDFEVYDALNQVMMVTLANESRCEDFKNQFAKFDYLWKQDLQATLQQFITDNGVTLPDGTRDDPPLAKFEEQIVKYKNVASEIASFKDTMTMGYVKVNAKPLRQALSTWASKWVYLFTHYLQEKVVNSITELYTFMDTSNSTLDLKVMGEGVEEEPEYHPDQDPEEAAAKKAAEEEEKRKALYAIMACMRDIRRRTERGTDTMFEPLKETVTALHTFGIQLSDTVLHQLDNAEFNWRTLKKKMLNRREQLAPLQQAEAVEIRRKSDAFNERVEDFRTFFQRKAPFAVSGGELKLEQVKPAYKLLDEFRSGSLEGYPSVLGIIAESKQLQEAQDLFELYQPGYLQLQRCSEELGHLKSLWDTVGTVMFTFRDWYKTPWDKIDVDFLVEETKKLSKDIKMLNKAVRNYDVYRMLEEAIKAVLTSLPLVQDLHHPAMRERHWKLLMQTTGKHFVMDDKFCLGDLLALELHNYVDACSEIVDRAQKELNIEKQLKKIEDTWAGLSLAFSTYQDSDVMALLVDDAVNEALEADNLQLQNLSGQKYVQSNPMFLETVSKWQNNMGRVSAVLETWQNVQKKWQNLESIFIGSADIRVQLPEDSKRFDAVNADFQELMRTAPDITNVVEACTLDGRQERLENMQSMLEQCEKALQEYLETKRVAFPRFYFVSPADLLDILSKGSNPQLILRHLQKCFDNIDNLSFRKDERGDPTKIATHMHSKEGEVVEFVEDCSCDGPVEVWLQNVVDSMKLALQVEFRKAIPTYDELPRTKWIYVYSAQNTVVVSRTFFTQEINEAFDDLEEGNEEALKVELDRQVQQLADLIDEINKEQTSLDRKKLITLCTIDVHSRDLVQKLIDERVEDQMCFQWQSQLRYIQSEKTKTCQVNICDAEIAYSYEYIGNCGCLCITPLTDRCFITLTQAQRLVLGGAPAGPAGTGKTETTKDLARALGIQCYVFNCSDQMDYKAMGHTYKGLAQTGAWGCFDEFNRIPVAVLSVCSTQYKTVLDAIRAKKERFTFEDADISLKSTVMAFITMNPGYPGRAELPESLKALFRPVSMVVPDLALICEIMLMAEGFQMSKILSRKFVILYKLCEDLLSKSRHYDWKLRAIKTTLYVAGGMKRAAPELSEDKVLLRALRDFNLGKLTADDTSIFMGLLNDLFPKTLELVPRALDKAFDEAAHKAATELGYQPDDQFLLKISQLRELFVVRWSVFLLGAAGCGKTAVWRTLLRAQNSSGEKTIYQAVNPKAVTRNELYGYLHPATREWKEGLMSVTFRNMANNKTNKHQWIVLDGDIDAEWIESMNTVMDDNKMLTLASNERIPLTPSMRLLLEINHMVHCSPATVSRGGVIFINADDVGWQPVVASWIDKLEAAEYRPLLTALFTKYVDPCLEHCRRNFKTVVPLPAVNQAMTICKILEGILPKETVRGAPPPDKKLLHYHFVFACVWAFGGCMLVDKVTDYRTQFSKWWVSEWKDVQFPEKGLVYDYYVDEQNCIMVPWEDRVTKFQYIPGDFTSLFVPTVETTRLTYFLDSLVSNKHYAMFVGNTGTGKSAIMVNKLRNMDTETMSFYTINMNSLSEAPALQVILEQPLEKKSGVRYGPPGSRRMVYFVDDMNMPLVDKYDTQSSIELLRQMVDYHGWYDKVKIQLKEIINCQMAACMNPTAGSFNITPRMQRHFVTFAVQMPNAEITRAMYYQIIDGHFSSFDVDVAKMSNKLVDATCELHRNVMHNFLPSAVKFHYQFNLRDLSNITQGLTRAIKEYYREPVKVARLWVHECERVFRDRMINEADMAKFDEFRVAVTKKFFDDCGGMVAIEERPLIYASHASMTYTPEDVPVYNALSSYDVLRKTLEDKLREYNESNAVMDLVLFQQAMEHVTRIARIIDLPRGNAMLVGVGGSGKQSLARLASYICGYEVYQISVSSTYGINDFKENLLGLYRKAGTKGTPITFLMTDNQIVKEGFLVYINDLLSTGYIADLFTPEDKEAFTNAVRNEVKAAGILDSAENCWDFFIDKVRKFLHIVLCFSPVGDKFRIRARQFPALVNCTMFDWFHGWPGEALVSVAQRFLVDVPNMEEVVRENIAYHMAYAHQCVSEASERFKEAFRRYNYTTPKSYLELISLYKMLLQLKRDDLRRSKERLENGIDKIAQAAAQVTDLQRVLKEEQIVVDEKKAQTDELIVSIGKEKAIVDQAVEAGREDEEAATALQTEVSAFQAECERDLLEAEPIIAQAEAALNSLNKKELSELKSFGSPAAEIVQVAAACLVLTCGGKIPKDRDWNAGKKMMADVNSFLSSLMNFDKDNVPVVCVEVVEKDYISNPGFTPDNIKGKSAACAGLCSWVINICKYFRIYQVVAPKRAALAEANKKLDTANKKLKVIRDEVKRLQDRVALLEQSLMKATEDKNAAIAQADRTARKAQMAERLINGLSGENTRWGAEIKRLESLEGRLVGDVLIASAFVSYAGPFNMQFRKSLVDEKWLPDIIERQIPMTQGIRPLDLLTDDATKAKWANEGLPTDPLSVENGAIMSNASRWALMIDPQLQGIKWIINKETNNGLVIIQQSQPKYIDQVINCIENGWPLLIENLPVDIDAVLDPVIGKMTIKKGRNIIMKIGDAEVQYDSRFRLYLQTKLSNPHFKPEVAAQTTLVNFCVTEKGLEDQLLALVVDHERPDLQEQAAGLVRSLNEYNITLVELENNLLFNLANATGNILENIELIEGLEETKRTAVEIEEKVKLAKQTEIQIAKAREVYRPVATRGSLTYFLIDNLNALDRVYHYSMANFVFVLKKGMDMTPGGKDESKVPLAERLNQEVDLDKRVELLVETTCFVLIGYVAQGLFERHKLIVATQLCMQILRSRGELHYAKFEYLLRGPKVMGADNPLHDWVSDSVWGSVQALKELDDYQGLPEDLIGSSKRWREWMELERPEDEPLPGDWKRMQEFDKLLLFRALRPDRLTSAMGRFVTNMLGAKYVTSQPYDLERSYQDASPGTPIFVFLSPGVDVAGSVEALGKKLGFTLDNGKYASVSLGQGQEPIAMDRLSAAHKNGGWVLLQNIHLTIDWTTNQLDKKVDKLVEGAHPDFRLFLSAEPPPSLERGLPISLLQNSIKLTNEPPEGLKANLRRAWNNFNEEILESCAKQAEFRAIVFALCYFHAALLERKKFGVGNLPGARSGIGWNMNYPFNTGDLLCCGQTANNYLENNVKVPWEDLRYNFGEIMYGGHIVEDYDRRLAMCYLRKYVNEGLLDNMEFFPGFAMPPNTANHRQVLEFIDEVMPPETPLAFGLHPNAEIGFKLREAESFCNSLVQLQPRESSGEGGMSAEERAKLVLDEVVDKLPDIFDMEDVRSKINPDDPNMPFVMVAIQESERMNMLLAEMKRSLLELDLGLKGDLTMTEPMERLLKALATDAVPGSWRNLAYPSLRPLGSWLGNLLARHAQLVDWTAELSTPKAVWLSGLFNPQSFLTAVMQATARRNDWPLDKTVIITEVTKKQPDQIEANSRDGAFIHGLTLEGARWDDKIGALDDSKPKELFCPMPVILVRAVTQDKAEMKDVYKCPVYTTEARFREEVFEAQLKSKHTEIKWVLAGVCLFLDVV DIRFDYIRDRVCSCLKVPDSAYDKLVSGDGRTSLVQFMEEAHTKRLLIMLDGKDLSATVKPPPKFKKKTVYFLKLQETKLDNDNIKKLVIHGEISENPLETLAAISQDVFMPVLTAPANQQGWPDVVAKEVTENLHKFVSNVFVTIGQMKGQTLLPLPPQNTVPTLQPEQSMHSLKDQDKIHILESAIVTWTKQIKNVLKADPDAPLKEPGAYPGPLTELNFWSERAANLNSIHEQLTSEKTQKVVKVLELAKSTYYPAFQRLFREVEAAQQEANDNVKFLKPLRKYLDKLNMMDDFPMLVDLFKPIMHTLMLIWKHSKSYNSSTRFVTLMQEICNDLIMQACKYVPGSDLIQMEPSEAVDKLRMTLRVLGTFKNYYFEYRALSMQDTPENPWKFQNNSLFARLDSFLERCHDMMDLMSTCMQFNRLERVEIGGTKGKVLTNGVKAIHQDFTSAVEKFQQVTYDVMDVDAKQFDEDFFGFRVVIKELERRLAAIIIQAFDDCTTIGTTFKLLDSFEGLLDREVIAHDLEKKHTDLLHSYARDLKDVADLFHQYKDRPIVAKNSAPYSGAAYWVRGLMERIKDPMDRLLTMNKMVLESELFREIQRTYDHLWEEMTEYRTRAVDAWCAQVAATSDEKLNLPLLSLIEETADGIRVLGVNFDPALVRLLRETKYFLLLETSTQDKDLFASADTFRQQISALDLICSIYNKVQRTILAVEKPLVQQKLDAVEQALNRGLAELNWKCAEIDTYIKECMELVKDVDLVLNTIKDNVKATQGILAMWEKNLMFERKDGKTYTFDELNDAFNQLIQQRHSEIRDAGKEITKLLSSSNRVLKVSKGAASWRAYVDYFSNIVIDGFSAAIISTVRYLLSQIDPDILAKTESSPLLEIQVELVAPDIVWKPDLGEGGAKPGLRDMIKKWLQSFLEIGQLMKRLDVGEGNYAKELEEDFEVYDALNQVMMVTLANESRCEDFKNQFAKFDYLWKQDLQATLQQFITDNGVTLPDGTRDDPPLAKFEEQIVKYKNVASEIASFKDTMTMGYVKVNAKPLRQALSTWASKWVYLFTHYLQEKVVNSITELYTFMDTSNSTLDLKVMGEGVEEEPEYHPDQDPEEAAAKKAAEEEEKRKALYAIMACMRDIRRRTERGTDTMFEPLKETVTALHTFGIQLSDTVLHQLDNAEFNWRTLKKKMLNRREQLAPLQQAEAVEIRRKSDAFNERVEDFRTFFQRKAPFAVSGGELKLEQVKPAYKLLDEFRSGSLEGYPSVLGIIAESKQLQEAQDLFELYQPGYLQLQRCSEELGHLKSLWDTVGTVMFTFRDWYKTPWDKIDVDFLVEETKKLSKDIKMLNKAVRNYDVYRMLEEAIKAVLTSLPLVQDLHHPAMRERHWKLLMQTTGKHFVMDDKFCLGDLLALELHNYVDACSEIVDRAQKELNIEKQLKKIEDTWAGLSLAFSTYQDSDVMALLVDDAVNEALEADNLQLQNLSGQKYVQSNPMFLETVSKWQNNMGRVSAVLETWQNVQKKWQNLESIFIGSADIRVQLPEDSKRFDAVNADFQELMRTAPDITNVVEACTLDGRQERLENMQSMLEQCEKALQEYLETKRVAFPRFYFVSPADLLDILSKGSNPQLILRHLQKCFDNIDNLSFRKDERGDPTKIATHMHSKEGEVVEFVEDCSCDGPVEVWLQNVVDSMKLALQVEFRKAIPTYDELPRTKWIYVYSAQNTVVVSRTFFTQEINEAFDDLEEGNEEALKVELDRQVQQLADLIDEINKEQTSLDRKKLITLCTIDVHSRDLVQKLIDERVEDQMCFQWQSQLRYIQSEKTKTCQVNICDAEIAYSYEYIGNCGCLCITPLTDRCFITLTQAQRLVLGGAPAGPAGTGKTETTKDLARALGIQCYVFNCSDQMDYKAMGHTYKGLAQTGAWGCFDEFNRIPVAVLSVCSTQYKTVLDAIRAKKERFTFEDADISLKSTVMAFITMNPGYPGRAELPESLKALFRPVSMVVPDLALICEIMLMAEGFQMSKILSRKFVILYKLCEDLLSKSRHYDWKLRAIKTTLYVAGGMKRAAPELSEDKVLLRALRDFNLGKLTADDTSIFMGLLNDLFPKTLELVPRALDKAFDEAAHKAATELGYQPDDQFLLKISQLRELFVVRWSVFLLGAAGCGKTAVWRTLLRAQNSSGEKTIYQAVNPKAVTRNELYGYLHPATREWKEGLMSVTFRNMANNKTNKHQWIVLDGDIDAEWIESMNTVMDDNKMLTLASNERIPLTPSMRLLLEINHMVHCSPATVSRGGVIFINADDVGWQPVVASWIDKLEAAEYRPLLTALFTKYVDPCLEHCRRNFKTVVPLPAVNQAMTICKILEGILPKETVRGAPPPDKKLLHYHFVFACVWAFGGCMLVDKVTDYRTQFSKWWVSEWKDVQFPEKGLVYDYYVDEQNCIMVPWEDRVTKFQYIPGDFTSLFVPTVETTRLTYFLDSLVSNKHYAMFVGNTGTGKSAIMVNKLRNMDTETMSFYTINMNSLSEAPALQVILEQPLEKKSGVRYGPPGSRRMVYFVDDMNMPLVDKYDTQSSIELLRQMVDYHGWYDKVKIQLKEIINCQMAACMNPTAGSFNITPRMQRHFVTFAVQMPNAEITRAMYYQIIDGHFSSFDVDVAKMSNKLVDATCELHRNVMHNFLPSAVKFHYQFNLRDLSNITQGLTRAIKEYYREPVKVARLWVHECERVFRDRMINEADMAKFDEFRVAVTKKFFDDCGGMVAIEERPLIYASHASMTYTPEDVPVYNALSSYDVLRKTLEDKLREYNESNAVMDLVLFQQAMEHVTRIARIIDLPRGNAMLVGVGGSGKQSLARLASYICGYEVYQISVSSTYGINDFKENLLGLYRKAGTKGTPITFLMTDNQIVKEGFLVYINDLLSTGYIADLFTPEDKEAFTNAVRNEVKAAGILDSAENCWDFFIDKVRKFLHIVLCFSPVGDKFRIRARQFPALVNCTMFDWFHGWPGEALVSVAQRFLVDVPNMEEVVRENIAYHMAYAHQCVSEASERFKEAFRRYNYTTPKSYLELISLYKMLLQLKRDDLRRSKERLENGIDKIAQAAAQVTDLQRVLKEEQIVVDEKKAQTDELIVSIGKEKAIVDQAVEAGREDEEAATALQTEVSAFQAECERDLLEAEPIIAQAEAALNSLNKKELSELKSFGSPAAEIVQVAAACLVLTCGGKIPKDRDWNAGKKMMADVNSFLSSLMNFDKDNVPVVCVEVVEKDYISNPGFTPDNIKGKSAACAGLCSWVINICKYFRIYQVVAPKRAALAEANKKLDTANKKLKVIRDEVKRLQDRVALLEQSLMKATEDKNAAIAQADRTARKAQMAERLINGLSGENTRWGAEIKRLESLEGRLVGDVLIASAFVSYAGPFNMQFRKSLVDEKWLPDIIERQIPMTQGIRPLDLLTDDATKAKWANEGLPTDPLSVENGAIMSNASRWALMIDPQLQGIKWIINKETNNGLVIIQQSQPKYIDQVINCIENGWPLLIENLPVDIDAVLDPVIGKMTIKKGRNIIMKIGDAEVQYDSRFRLYLQTKLSNPHFKPEVAAQTTLVNFCVTEKGLEDQLLALVVDHERPDLQEQAAGLVRSLNEYNITLVELENNLLFNLANATGNILENIELIEGLEETKRTAVEIEEKVKLAKQTEIQIAKAREVYRPVATRGSLTYFLIDNLNALDRVYHYSMANFVFVLKKGMDMTPGGKDESKVPLAERLNQEVDLDKRVELLVETTCFVLIGYVAQGLFERHKLIVATQLCMQILRSRGELHYAKFEYLLRGPKVMGADNPLHDWVSDSVWGSVQALKELDDYQGLPEDLIGSSKRWREWMELERPEDEPLPGDWKRMQEFDKLLLFRALRPDRLTSAMGRFVTNMLGAKYVTSQPYDLERSYQDASPGTPIFVFLSPGVDVAGSVEALGKKLGFTLDNGKYASVSLGQGQEPIAMDRLSAAHKNGGWVLLQNIHLTIDWTTNQLDKKVDKLVEGAHPDFRLFLSAEPPPSLERGLPISLLQNSIKLTNEPPEGLKANLRRAWNNFNEEILESCAKQAEFRAIVFALCYFHAALLERKKFGVGNLPGARSGIGWNMNYPFNTGDLLCCGQTANNYLENNVKVPWEDLRYNFGEIMYGGHIVEDYDRRLAMCYLRKYVNEGLLDNMEFFPGFAMPPNTANHRQVLEFIDEVMPPETPLAFGLHPNAEIGFKLREAESFCNSLVQLQPRESSGEGGMSAEERAKLVLDEVVDKLPDIFDMEDVRSKINPDDPNMPFVMVAIQESERMNMLLAEMKRSLLELDLGLKGDLTMTEPMERLLKALATDAVPGSWRNLAYPSLRPLGSWLGNLLARHAQLVDWTAELSTPKAVWLSGLFNPQSFLTAVMQATARRNDWPLDKTVIITEVTKKQPDQIEANSRDGAFIHGLTLEGARWDDKIGALDDSKPKELFCPMPVILVRAVTQDKAEMKDVYKCPVYTTEARFREEVFEAQLKSKHTEIKWVLAGVCLFLDVV 8glv-a1-m1-cEN_8glv-a1-m1-cEO 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q7XJ96 Q7XJ96 3.1 ELECTRON MICROSCOPY 503 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 447 466 7ju4-a1-m1-c4_7ju4-a1-m1-c0 MAPKKKGTKKESKKDAVATGDIEGASVEELNQKIGTLEKEKNKEEEYRNYMQLERDKINAFWEITKKDLEDRRAELRNKDREMEEMEERHQVEIKVYKQKVKHLLYEHQNNITTLKSDGELALKLQQDEYRKREGDLGKDKRNLKLELKEQELAHQDIIRQLKLEHAKEITKLRQEFEQQAKDLQSKYEKKMKMLRDDMELRRKQEIHEIEERKNTHINELMKKHERAFAEIKNYYNDITHNNLDLIKTLKEDVAEMKRREAANEKLMYEIAQDNKKLSEPLSRALKEVELLRQQLANYDKDKLSLAQTKARLLNAERQIKNLEWENEVLSQRFSKVQTERDELYGKFEASIYDVQQKTGLKSALLEKKVEALGEALEMKEAQLAEVLTINQRLEEVLDNKNQIIKALQYDVAKVSKAHNDLIRVYEAKLTEFGIPVDELGFRPLVT MAPKKKGTKKESKKDAVATGDIEGASVEELNQKIGTLEKEKNKEEEYRNYMQLERDKINAFWEITKKDLEDRRAELRNKDREMEEMEERHQVEIKVYKQKVKHLLYEHQNNITTLKSDGELALKLQQDEYRKREGDLGKDKRNLKLELKEQELAHQDIIRQLKLEHAKEITKLRQEFEQQAKDLQSKYEKKMKMLRDDMELRRKQEIHEIEERKNTHINELMKKHERAFAEIKNYYNDITHNNLDLIKTLKEDVAEMKRREAANEKLMYEIAQDNKKLSEPLSRALKEVELLRQQLANYDKDKLSLAQTKARLLNAERQIKNLEWENEVLSQRFSKVQTERDELYGKFEASIYDVQQKTGLKSALLEKKVEALGEALEMKEAQLAEVLTAANLDPGTLAAINQRLEEVLDNKNQIIKALQYDVAKVSKAHNDLIRVYEAKLTEFGIPVDELGFRPLVTNTSTGPAG 8glv-a1-m1-cGd_8glv-a1-m1-c5D 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A0A2K3CRG7 A0A2K3CRG7 3.1 ELECTRON MICROSCOPY 31 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 120 478 6u42-a1-m1-c4P_6u42-a1-m1-c4O HLARAVEQREAARRIAEAAKSEINRYFNDQKVYDTVAANAVKDDFKRKGREFKERASEAQMLESLYQSERQKTLNAIRAEEEERIAVAMARKQQEKDRSEREVQRLREQSDELRSLAEKI HLARAVEQREAARRIAEAAKSEINRYFNDQKVYDTVAANAVKDDFKRKGREFKERASEAQMLESLYQSERQKTLNAIRAEEEERIAVAMARKQQEKDRSEREVQRLREQSDELRSLAEKIRVARVNKERSDQLVEKKIIGEQQQEYDRAFNQFVAGAAAEAEAQEQENQAKRREANVRARMVLEEQMQEKAEAARLAELEAVRERAMIDEVVRRIMEEDAAEMATKRQRQEETKDFISHFLEQQDELRRKEREAAAAEDKKIQEYWQSVREREREEAERKAMRKEIADRMYEKVKREMEAEMARREEEEELINMLRQEELEAKRRQEDEDRKRKAEESKEEMRRANEYQMKLKEEREAAFRAEEEAFRQRMLAKFAEDEKLEQMNAQKRRMRMAEHAREVQRLIDEKRQAFEAAKAREEAEDAAKRSEDDRVRGLVEEERKKLLREAAELKDFLPRGVLRDQADVDFISNVLEEMALN 8glv-a1-m1-cGi_8glv-a1-m1-cGa 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q9M6B0 Q9M6B0 3.1 ELECTRON MICROSCOPY 14 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 205 366 6u42-a1-m1-c4S_6u42-a1-m1-c4R 8glv-a1-m1-cGf_8glv-a1-m1-c4R GRLVAQVPNEDPERLKRVLDAKWRTIGVDKETLELQAQEKKDREQAEKDRDEAFARLTAYFDDQLTLMQQEADQIRKAYNHDTEAFRQQQQLKHTRREWDINRPDAKQLDMPGRVGDDDNRLGPSSLQKFDGEDLTAGDRKKAQIEQSVNWWAEQTAIRDALRAAEKEAETAHAELVKYQDLLQQTAKSEEAAVRREVARATADY GRLVAQVPNEDPERLKRVLDAKWRTIGVDKETLELQAQEKKDREQAEKDRDEAFARLTAYFDDQLTLMQQEADQIRKAYNHDTEAFRQQQQLKHTRREWDINRPDAKQLDMPGRVGDDDNRLGPSSLQKFDGEDLTAGDRKKAQIEQSVNWWAEQTAIRDALRAAEKEAETAHAELVKYQDLLQQTAKSEEAAVRREVARATADYNKRLAEEKRLREYAAKQADLAANMAEMEATITSSFMTEDPNMAASSMSAYRVRKDHYKGMTETEKQAILDAQLAQMEEKKARRAQEQLENMMYARTQHDIQRALQEQAQRVDDFKKAQMARASEILKKQQEEKAERDKHLASLYRNKMAPEFFTQFGTSHR 8glv-a1-m1-cGn_8glv-a1-m1-cGc 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A0A2K3E0E3 A0A2K3E0E3 3.1 ELECTRON MICROSCOPY 30 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 239 429 8glv-a1-m1-cGm_8glv-a1-m1-cGc ARLAKQRQLADDTKAANAALQAFRLKEVERSKEQEAAMEAYARKKQELADERARREAEKRAAKDAERKRVADMMESNYMAWHTKEEARLARDVAAAEQKAAADEEARRKRAADLAVAIDQSRQAQLRAKAQAKAAEKAEEAEYLSAWSTRTKQLKAEEDEEKLKRIAVGKQLAAFQLRQAAIKARKMADARIAELQEAAQLALSVAEEEDIFLRYAHECIEEYRRQGKPTVPMELHLRK TFSEERQRLKQLSDDRSSQWPNTLSAQRARKEKTRQERQAAEEAERVELDRQEAEIRAEQRRIQIERANKILFDETDRVKGFHSKMLLSDVMHENEQLKEIKRQIEVLKRAQEQAFVEQQRQALEAAEAAEVRKLEDTRRRAMAQREVQLQQLEELKAKILGERAADRTEGETLRRKALEEADELRRKEEARLAKQRQLADDTKAANAALQAFRLKEVERSKEQEAAMEAYARKKQELADERARREAEKRAAKDAERKRVADMMESNYMAWHTKEEARLARDVAAAEQKAAADEEARRKRAADLAVAIDQSRQAQLRAKAQAKAAEKAEEAEYLSAWSTRTKQLKAEEDEEKLKRIAVGKQLAAFQLRQAAIKARKMADARIAELQEAAQLALSVAEEEDIFLRYAHECIEEYRRQGKPTVPMELHLRK 8glv-a1-m1-cGs_8glv-a1-m1-c5F 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8IY81 A8IY81 3.1 ELECTRON MICROSCOPY 161 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 311 381 6u42-a1-m1-c5G_6u42-a1-m1-c5F PATSYVEHYPPKTALLPGEPLELALGGVPFTATSTYDNEFWNKPRAPRPVEPLTYTHRPGPMITRDTTNQDTYKPFEMARPTRNATAPPPAMPSIYDTTYRAHYIPKEGEPRVGPGTIPPKDPLPWLNDGTTYRNDYAPKGLALLAPADYDPYNPFPFGGTTEYRAEYPAKEADPQLPPLTGVRSREGLELPLPRRSLGVEFVHKGVSDRYFVLIPRTLDSPCSARQVFTTVHDNQEQACILILYGDDPVASNNTLLGQFDIVNIPPAPKDVPRIEVTFHLSRDMFLTVEARDLDTARHKRWLQRGDIVVL MLPTDTMKGTFAPGTTKRKTVNMYDTQSSTFQPRPEGPFEAEHITDQPAAHEHFDTTREIKLKDPKGMDLPATSYVEHYPPKTALLPGEPLELALGGVPFTATSTYDNEFWNKPRAPRPVEPLTYTHRPGPMITRDTTNQDTYKPFEMARPTRNATAPPPAMPSIYDTTYRAHYIPKEGEPRVGPGTIPPKDPLPWLNDGTTYRNDYAPKGLALLAPADYDPYNPFPFGGTTEYRAEYPAKEADPQLPPLTGVRSREGLELPLPRRSLGVEFVHKGVSDRYFVLIPRTLDSPCSARQVFTTVHDNQEQACILILYGDDPVASNNTLLGQFDIVNIPPAPKDVPRIEVTFHLSRDMFLTVEARDLDTARHKRWLQRGDIVVL 8glv-a1-m1-cHs_8glv-a1-m1-cHo 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8J2J7 A8J2J7 3.1 ELECTRON MICROSCOPY 20 0.99 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 287 290 7jtk-a1-m1-cE_7jtk-a1-m1-cF GTDAITQIENGDLFDFDFEVEPILEVLVGKVLEQGLMEVLEEEELAAMRAHQEHFEQIRNAELVATQRMEAAERRKLEEKERRMQQERERVERERVVRQKVAASAFARGYLSGIVNTVFDRLVSSGDPVMREVETAFMPWLKEQAIGYLARGVVARRVVDKLVEDAAAALAANRSTLADKAASTAATVDAWAERQAKMEAELQGKELEAVRRRPTFVLRELKPAVASADAVEAAAAELTAQAEEAKEVTDIDILSYMMDKGAITKDAIIQALAVHALGDKAYTNHPA DTSTQTGTDAITQIENGDLFDFDFEVEPILEVLVGKVLEQGLMEVLEEEELAAMRAHQEHFEQIRNAELVATQRMEAAERRKLEEKERRMQQERERVERERVVRQKVAASAFARGYLSGIVNTVFDRLVDPVMREVETAFMPWLKEQAIGYLARGVVARRVVDKLVEDAAAALAANRSTLADKAASTAATVDAWAERQAKMEAELQGKELEAVRRRPTFVLRELKPAVASADAVEAAAAELTAQAEEAKEVTDIDILSYMMDKGAITKDAIIQALAVHALGDKAYTNHPA 8glv-a1-m1-cIf_8glv-a1-m1-cIg 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8JDM3 A8JDM3 3.1 ELECTRON MICROSCOPY 45 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 50 50 7jtk-a1-m1-cu_7jtk-a1-m1-cv 8glv-a1-m1-cJt_8glv-a1-m1-cJz QTPLYEKMRDYAHSNKVQELLQKMTADLFIERPADPVTWMIKWLSEEQKR QTPLYEKMRDYAHSNKVQELLQKMTADLFIERPADPVTWMIKWLSEEQKR 8glv-a1-m1-cJP_8glv-a1-m1-cJQ 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8J2J7 A8J2J7 3.1 ELECTRON MICROSCOPY 25 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 310 331 7ju4-a1-m1-cE_7ju4-a1-m1-cF PEADTSTQTDAFLDRPPTPLFVPQKTGTDAITQIENGDLFDFDFEVEPILEVLVGKVLEQGLMEVLEEEELAAMRAHQEHFEQIRNAELVATQRMEAAERRKLEEKERRMQQERERVERERVVRQKVAASAFARGYLSGIVNTVFDRLVDPVMREVETAFMPWLKEQAIGYLARGVVARRVVDKLVEDAAAALAANRSTLADKAASTAATVDAWAERQAKMEAELQGKELEAVRRRPTFVLRELKPAVASADAVEAAAAELTAQAEEAKEVTDIDILSYMMDKGAITKDAIIQALAVHALGDKAYTNHPA RHIDIQTDVYLEELTDTVPEADTSTQTDAFLDRPPTPLFVPQKTGTDAITQIENGDLFDFDFEVEPILEVLVGKVLEQGLMEVLEEEELAAMRAHQEHFEQIRNAELVATQRMEAAERRKLEEKERRMQQERERVERERVVRQKVAASAFARGYLSGIVNTVFDRLVSSGDPVMREVETAFMPWLKEQAIGYLARGVVARRVVDKLVEDAAAALAANRSTLADKAASTAATVDAWAERQAKMEAELQGKELEAVRRRPTFVLRELKPAVASADAVEAAAAELTAQAEEAKEVTDIDILSYMMDKGAITKDAIIQALAVHALGDKAYTNHPA 8glv-a1-m1-cJe_8glv-a1-m1-cJf 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q27YU5 Q27YU5 3.1 ELECTRON MICROSCOPY 41 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 249 249 7jr9-a1-m1-cB_7jr9-a1-m1-cA 7jrj-a1-m1-cA_7jrj-a1-m1-cB 7jtk-a1-m1-cO_7jtk-a1-m1-cP 7jtk-a1-m1-cQ_7jtk-a1-m1-cR 8glv-a1-m1-cIF_8glv-a1-m1-cII 8glv-a1-m1-cIJ_8glv-a1-m1-cIN 8glv-a1-m1-cJc_8glv-a1-m1-cJd VQLEPNITLVLKHLASCGAVVSAEQQAALDHSIPIKRIEAGLRSLTLWGRLTTLNGKDYLVAEGYNVASSKEGAAVYETKYFYSQDGARWSDLQPVDSETATRCARIKGMLSGDPAKNYELELVFQIPELAVLRCRVDAIATATSVIPTDSTILNAASQVVPNRLFAGAAYPEKLESYQHRFSLPGSGVTLSQDLRGTWAVQYDAFKGVAQVRSLLFPGYFFYYAANELTWGSLYVGDGLRNNDLIFML VQLEPNITLVLKHLASCGAVVSAEQQAALDHSIPIKRIEAGLRSLTLWGRLTTLNGKDYLVAEGYNVASSKEGAAVYETKYFYSQDGARWSDLQPVDSETATRCARIKGMLSGDPAKNYELELVFQIPELAVLRCRVDAIATATSVIPTDSTILNAASQVVPNRLFAGAAYPEKLESYQHRFSLPGSGVTLSQDLRGTWAVQYDAFKGVAQVRSLLFPGYFFYYAANELTWGSLYVGDGLRNNDLIFML 8glv-a1-m1-cJo_8glv-a1-m1-cJp 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8IKR9 A8IKR9 3.1 ELECTRON MICROSCOPY 149 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 213 213 7jtk-a1-m1-cY_7jtk-a1-m1-cZ 8glv-a1-m1-cIU_8glv-a1-m1-cIa GKNKVYPLELTLEEIFHGCLKKVAHKRKVLLFSGEYVEEERQLTVDVKPGLPTGTRFVFEGEGNKTPKKEPGPVVFVLKPKPHPRFVRRGSDLVHKVTLPLHHALIGTTLDIRTLDDRDLKVPISDIMRPGSSLTVPGEGMPLPATPSARGNLVIEIDLLFPTHLTETQKMLLRSAFFLPPPTEQNEETKKALRDYEAAFKHDLKGWATVFKR GKNKVYPLELTLEEIFHGCLKKVAHKRKVLLFSGEYVEEERQLTVDVKPGLPTGTRFVFEGEGNKTPKKEPGPVVFVLKPKPHPRFVRRGSDLVHKVTLPLHHALIGTTLDIRTLDDRDLKVPISDIMRPGSSLTVPGEGMPLPATPSARGNLVIEIDLLFPTHLTETQKMLLRSAFFLPPPTEQNEETKKALRDYEAAFKHDLKGWATVFKR 8glv-a1-m1-cKn_8glv-a1-m1-cKo 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q39604 Q39604 3.1 ELECTRON MICROSCOPY 167 0.98 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 202 202 7ju4-a1-m1-cw_7ju4-a1-m1-cv PLSSLVRYDNPVLTQTEDILNSILPPREWTEDGQLWVQYVSSTPATRLDVINLQEKLDQQLQQRQARETGICPIREELYAQTFDELIRQVTINCAERGLLLLRVRDEMRMTIAAYQTLYESAVAFGIRKALQTEQGKSEMESRITQLEGDVKDLERQVQEWKFKCEAIEKRESERREVEAKKHKDEVAYLENYAKQLKQQLE PPLSSLVRYDNPVLDILNSILPPREWTEDGQLWVQYVSSTPATRLDVINLQEKLDQQLQQRQARETGICPIREELYAQTFDELIRQVTINCAERGLLLLRVRDEMRMTIAAYQTLYESAVAFGIRKALQTEQGKSEMESRITQLEGDVKDLERQVQEWKFKCEAIEKRESERREVEAKKHKDEVAYLENYAKQLKQQLETFL 8glv-a1-m1-cLQ_8glv-a1-m1-cLP 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8HUA7 A8HUA7 3.1 ELECTRON MICROSCOPY 712 0.998 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 537 543 HDLEEQIHTNTQLLAENSAKQVELKVKDEEIAAIKQEASRVNKLREQTVKKTKQLEEQRTEVEKERDVLKSELAALERDVEAKQKEVELEKKKLEELMRERDVLTKMRTQAENATQKQTDMIKINENTKRNLEQEIQGYKTEAQKQSKLIYQLEKEREKYSIEASDASAKYMQALEEVKLREMAIIDLQKRIAEGESKLKQQQNLYEAVRADRNLYSKNLIEAQDEIQEMKRKFKIMQHQIEQLKEEITGKDLYLLKEHFDHQKVIKEKDLLRAELDKSKAQIKEADAAISSQKAEIDKLNHIINEADQERIRQKKEYDIVVNERDILGTQLVRRNDELALLYEKIKIQQSTLAKGQIQYRDRLNEIRVLKVKLADLKRELHILKSSVSNIDVLKREVHQLGRELLQERTKVKALSEELENPLNVHRWRKLEGSTYEMIQKIQTLQKRLISKTEEVVEKDLLIQEKEKLYMELKNILAEQLSIYQANLREKTKQMKAMASELNMYQAQVNEYKYEIERLVRELNEMKRKYFEGKRRE HDLEEQIHTNTQLLAENSAKQVELKVKDEEIAAIKQEASRVNKLREQTVKKTKQLEEQRTEVEKERDVLKSELAALERDVEAKQKEVELEKKKLEELMRERDVLTKMRTQAENATQKQTDMIKINENTKRNLEQEIQGYKTEAQKQSKLIYQLEKEREKYSIEASDASAKYMQALEEVKLREMAIIDLQKRIAEGESKLKQQQNLYEAVRADRNLYSKNLIEAQDEIQEMKRKFKIMQHQIEQLKEEITGKDLYLLKEHFDHQKVIKEKDLLRAELDKSKAQIKEADAAISSQKAEIDKLNHIINEADQERIRQKKEYDIVVNERDILGTQLVRRNDELALLYEKIKIQQSTLAKGQIQYRDRLNEIRVLKVKLADLKRELHILKSSVSNIDVLKREVHQLGRELLQERTKVKALSEELENPLNVHRWRKLEGGTYEMIQKIQTLQKRLISKTEEVVEKDLLIQEKEKLYMELKNILAAEQLSIYQANLREKTKQMKAMASELNMYQAQVNEYKYEIERLVRELNEMKRKYFEGKRREQMERE 8glv-a1-m1-cLa_8glv-a1-m1-cLb 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q39604 Q39604 3.1 ELECTRON MICROSCOPY 208 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 212 212 8glv-a1-m1-cJF_8glv-a1-m1-cJE MIPPLSSLVRYDNPVLVSTQTEDILNSILPPREWTEDGQLWVQYVSSTPATRLDVINLQEKLDQQLQQRQARETGICPIREELYAQTFDELIRQVTINCAERGLLLLRVRDEMRMTIAAYQTLYESAVAFGIRKALQTEQGKSEMESRITQLEGDVKDLERQVQEWKFKCEAIEKRESERREVEAKKHKDEVAYLENYAKQLKQQLETFLVP MIPPLSSLVRYDNPVLVSTQTEDILNSILPPREWTEDGQLWVQYVSSTPATRLDVINLQEKLDQQLQQRQARETGICPIREELYAQTFDELIRQVTINCAERGLLLLRVRDEMRMTIAAYQTLYESAVAFGIRKALQTEQGKSEMESRITQLEGDVKDLERQVQEWKFKCEAIEKRESERREVEAKKHKDEVAYLENYAKQLKQQLETFLVP 8glv-a1-m1-cNz_8glv-a1-m1-c4W 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8J0X0 A8J0X0 3.1 ELECTRON MICROSCOPY 53 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 324 385 6u42-a1-m1-c4V_6u42-a1-m1-c4W 8glv-a1-m1-c4Q_8glv-a1-m1-c4W VTKHQRAAMEALQRTSQMAGQGEVRTVFMPTAEQMPVCAAAGERRGNVANSEWALLDTLEVNLYLNEKDARLRSQKAVQQTQRAILDTQVGMLAQAKLAAETAKAAERVELLATVAAHQAEERQRAEEQRAALTRLRTDREAMLAETRVQREAALSRKREEEAKLVAAAQAQLEADRQAAARKAAELKEQAAKTMADNEARLVARKAAEAAQRVADAETTKRMIEMAEAQDRARQKAVDDRRDRLEREERLIAEAERAAAQREAERAAAEAERKARLKSDLVSGNEALKRAKAEKLAVEREAEARERAAAEQRVLAEKEAAERQ VTKHQRAAMEALQRTSQMAGQGEVRTVFMPTAEQMPVCAAAGERRGNVANSEWALLDTLEVNLYLNEKDARLRSQKAVQQTQRAILDTQVGMLAQAKLAAETAKAAERVELLATVAAHQAEERQRAEEQRAALTRLRTDREAMLAETRVQREAALSRKREEEAKLVAAAQAQLEADRQAAARKAAELKEQAAKTMADNEARLVARKAAEAAQRVADAETTKRMIEMAEAQDRARQKAVDDRRDRLEREERLIAEAERAAAQREAERAAAEAERKARLKSDLVSGNEALKRAKAEKLAVEREAEARERAAAEQRVLAEKEAAERQMAGMRERATATKRFVAGQAAAVAERAKTDDIFMSEQERLLNKRLLEQAVATVQRPMQYSVK 8glv-a1-m1-cOA_8glv-a1-m1-c4O 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A0A2K3CRG7 A0A2K3CRG7 3.1 ELECTRON MICROSCOPY 45 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 167 478 6u42-a1-m1-c4N_6u42-a1-m1-c4O 8glv-a1-m1-c4O_8glv-a1-m1-c5D INMLRQEELEAKRRQEDEDRKRKAEESKEEMRRANEYQMKLKEEREAAFRAEEEAFRQRMLAKFAEDEKLEQMNAQKRRMRMAEHAREVQRLIDEKRQAFEAAKAREEAEDAAKRSEDDRVRGLVEEERKKLLREAAELKDFLPRGVLRDQADVDFISNVLEEMALN HLARAVEQREAARRIAEAAKSEINRYFNDQKVYDTVAANAVKDDFKRKGREFKERASEAQMLESLYQSERQKTLNAIRAEEEERIAVAMARKQQEKDRSEREVQRLREQSDELRSLAEKIRVARVNKERSDQLVEKKIIGEQQQEYDRAFNQFVAGAAAEAEAQEQENQAKRREANVRARMVLEEQMQEKAEAARLAELEAVRERAMIDEVVRRIMEEDAAEMATKRQRQEETKDFISHFLEQQDELRRKEREAAAAEDKKIQEYWQSVREREREEAERKAMRKEIADRMYEKVKREMEAEMARREEEEELINMLRQEELEAKRRQEDEDRKRKAEESKEEMRRANEYQMKLKEEREAAFRAEEEAFRQRMLAKFAEDEKLEQMNAQKRRMRMAEHAREVQRLIDEKRQAFEAAKAREEAEDAAKRSEDDRVRGLVEEERKKLLREAAELKDFLPRGVLRDQADVDFISNVLEEMALN 8glv-a1-m1-cOG_8glv-a1-m1-c4R 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella Q9M6B0 Q9M6B0 3.1 ELECTRON MICROSCOPY 13 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 199 366 6u42-a1-m1-c4Q_6u42-a1-m1-c4R 8glv-a1-m1-cGj_8glv-a1-m1-cGa EAETAHAELVKYQDLLQQTAKSEEAAVRREVARATADYNKRLAEEKRLREYAAKQADLAANMAEMEATITSSFMTEDPNMAASSMSAYRVRKDHYKGMTETEKQAILDAQLAQMEEKKARRAQEQLENMMYARTQHDIQRALQEQAQRVDDFKKAQMARASEILKKQQEEKAERDKHLASLYRNKMAPEFFTQFGTSHR GRLVAQVPNEDPERLKRVLDAKWRTIGVDKETLELQAQEKKDREQAEKDRDEAFARLTAYFDDQLTLMQQEADQIRKAYNHDTEAFRQQQQLKHTRREWDINRPDAKQLDMPGRVGDDDNRLGPSSLQKFDGEDLTAGDRKKAQIEQSVNWWAEQTAIRDALRAAEKEAETAHAELVKYQDLLQQTAKSEEAAVRREVARATADYNKRLAEEKRLREYAAKQADLAANMAEMEATITSSFMTEDPNMAASSMSAYRVRKDHYKGMTETEKQAILDAQLAQMEEKKARRAQEQLENMMYARTQHDIQRALQEQAQRVDDFKKAQMARASEILKKQQEEKAERDKHLASLYRNKMAPEFFTQFGTSHR 8glv-a1-m1-cOL_8glv-a1-m1-cON 96-nm repeat unit of doublet microtubules from Chlamydomonas reinhardtii flagella A8IRJ7 A8IRJ7 3.1 ELECTRON MICROSCOPY 17 1.0 3055 (Chlamydomonas reinhardtii) 3055 (Chlamydomonas reinhardtii) 470 470 8glv-a1-m1-cGb_8glv-a1-m1-cOL 8glv-a1-m1-cNy_8glv-a1-m1-cON PPDARIQKMRELEERLANLKADRKVEQKMVAVAEFEARTTKKIVGNLVQQRYDALKARAEADLNARRQRLADKLDAEDLAMRQELLASPEQRRAELAERARALAATREAERQALASTLYEKAFIQSCDVLRDENSKRILYRTIEERNAQIEHKMAQRIMEAEEKRMWHEMSEVERQKMEQRYLDDKRRDREKREEVLRILDEQVRQVNARRAEASMLRRAEIAELNATWRQMAADQEAADVQERENMKKLAAELQEFNRIKQMEISEAERSERELDLKILQEALSKEAADEAAELAFRERRREEMRRYREQLALMMEKEREETAERDALILKAQLEQEAKRDAELAARDEARRQLMAQVDAIRQIQIQEKLAKRLERAEEKAFERAQMAEEVAKAESDAAAKDAADRKAGIQRRLELQTMMVAKAHMKAAELDEKLAEGEATKRVEDQFKAKVNQTLSSTDPPVWHGRRK PPDARIQKMRELEERLANLKADRKVEQKMVAVAEFEARTTKKIVGNLVQQRYDALKARAEADLNARRQRLADKLDAEDLAMRQELLASPEQRRAELAERARALAATREAERQALASTLYEKAFIQSCDVLRDENSKRILYRTIEERNAQIEHKMAQRIMEAEEKRMWHEMSEVERQKMEQRYLDDKRRDREKREEVLRILDEQVRQVNARRAEASMLRRAEIAELNATWRQMAADQEAADVQERENMKKLAAELQEFNRIKQMEISEAERSERELDLKILQEALSKEAADEAAELAFRERRREEMRRYREQLALMMEKEREETAERDALILKAQLEQEAKRDAELAARDEARRQLMAQVDAIRQIQIQEKLAKRLERAEEKAFERAQMAEEVAKAESDAAAKDAADRKAGIQRRLELQTMMVAKAHMKAAELDEKLAEGEATKRVEDQFKAKVNQTLSSTDPPVWHGRRK 8gn9-a1-m1-cA_8gn9-a1-m2-cA SPFH domain of Pyrococcus horikoshii stomatin O59180 O59180 2.5 X-RAY DIFFRACTION 18 1.0 53953 (Pyrococcus horikoshii) 53953 (Pyrococcus horikoshii) 106 106 DLRTQVLDVPVQETITKDNVPVRVNAVVYFRVVDPVKAVTQVKNYIMATSQISQTTLRSVIGQAHLDELLSERDKLNMQLQRIIDEATDPWGIKVTAVEIKDVELP DLRTQVLDVPVQETITKDNVPVRVNAVVYFRVVDPVKAVTQVKNYIMATSQISQTTLRSVIGQAHLDELLSERDKLNMQLQRIIDEATDPWGIKVTAVEIKDVELP 8gpm-a1-m2-cA_8gpm-a1-m3-cA Acinetobacter baumannii carbonic anhydrase A0A6F8THQ5 A0A6F8THQ5 1.7 X-RAY DIFFRACTION 130 1.0 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 193 193 8gpm-a1-m1-cA_8gpm-a1-m2-cA 8gpm-a1-m1-cA_8gpm-a1-m3-cA 8gpp-a1-m1-cA_8gpp-a1-m1-cB 8gpp-a1-m1-cA_8gpp-a1-m1-cC 8gpp-a1-m1-cB_8gpp-a1-m1-cC MPCYSIDGVIPVVSPDAFVHPTAVLIGDVIIEAGVYVGPFASLRADFGRIHINQNANIQDSCTVHGFPQSVTLVEEMGHIGHGAILHGCRIGKNVLVGMNSVILDYAEIGENTIIGANSLVKTKDIIPANVLAMGSPAKVARDLSEQEKKWKTRGTQEYMELAQRCLNSMQEVQPLSSESDDRLTYKDFSSSN MPCYSIDGVIPVVSPDAFVHPTAVLIGDVIIEAGVYVGPFASLRADFGRIHINQNANIQDSCTVHGFPQSVTLVEEMGHIGHGAILHGCRIGKNVLVGMNSVILDYAEIGENTIIGANSLVKTKDIIPANVLAMGSPAKVARDLSEQEKKWKTRGTQEYMELAQRCLNSMQEVQPLSSESDDRLTYKDFSSSN 8gps-a1-m1-cA_8gps-a1-m2-cA Cytoplasmic domain structure of the MgtE Mg2+ channel from Chryseobacterium hispalense 1.39 X-RAY DIFFRACTION 86 1.0 1453492 (Chryseobacterium hispalense) 1453492 (Chryseobacterium hispalense) 228 228 FNPADIAETLSELHADERLLAFLKVPKEYKAEVFSHLDPDFQEETIRSIGSDEVSEILNAMTPDDRTALFEDFPDELIKYSINHLNPQERRIALKLLGYDSDSIARLMTPYYIQIRKEWTIKRCLQQIKKVGSKVETMNYLYVVDERNRLIDDIALGSLLLAEEDTLVSEITDNHFVAITTTTSKEDAVQYFEKYDRAALPIVTESGVLVGIVTIDDILDQIEQQNTE FNPADIAETLSELHADERLLAFLKVPKEYKAEVFSHLDPDFQEETIRSIGSDEVSEILNAMTPDDRTALFEDFPDELIKYSINHLNPQERRIALKLLGYDSDSIARLMTPYYIQIRKEWTIKRCLQQIKKVGSKVETMNYLYVVDERNRLIDDIALGSLLLAEEDTLVSEITDNHFVAITTTTSKEDAVQYFEKYDRAALPIVTESGVLVGIVTIDDILDQIEQQNTE 8gpu-a1-m1-cR_8gpu-a1-m1-cL YFV_E_YD6Fab_prefusion 2.79 X-RAY DIFFRACTION 15 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 214 8gpu-a1-m1-cD_8gpu-a1-m1-cG QAVLTQPASVSGSPGQSITISCTGTGSNIETYNLVSWYQRHPGKAPKLILYEVSERPSGVSNRFSGSKSGNTASLTISGLQAEDEADYFCCSYADTNIFWVFGGGTHLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP QAVLTQPASVSGSPGQSITISCTGTGSNIETYNLVSWYQRHPGKAPKLILYEVSERPSGVSNRFSGSKSGNTASLTISGLQAEDEADYFCCSYADTNIFWVFGGGTHLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPT 8gpu-a1-m1-cR_8gpu-a1-m1-cO YFV_E_YD6Fab_prefusion 2.79 X-RAY DIFFRACTION 26 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 213 217 8gpu-a1-m1-cD_8gpu-a1-m1-cL 8gpu-a1-m1-cK_8gpu-a1-m1-cG QAVLTQPASVSGSPGQSITISCTGTGSNIETYNLVSWYQRHPGKAPKLILYEVSERPSGVSNRFSGSKSGNTASLTISGLQAEDEADYFCCSYADTNIFWVFGGGTHLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAP QAVLTQPASVSGSPGQSITISCTGTGSNIETYNLVSWYQRHPGKAPKLILYEVSERPSGVSNRFSGSKSGNTASLTISGLQAEDEADYFCCSYADTNIFWVFGGGTHLTVLGQPKAAPSVTLFPPSSEELQANKATLVCLISDFYPGAVTVAWKADSSPVKAGVETTTPSKQSNNKYAASSYLSLTPEQWKSHRSYSCQVTHEGSTVEKTVAPTECS 8gpv-a1-m1-cA_8gpv-a1-m2-cA Cytoplasmic domain structure of the MgtE Mg2+ channel from Clostridiales bacterium A0A3D5MLJ3 A0A3D5MLJ3 1.82 X-RAY DIFFRACTION 87 1.0 1898207 (Clostridiales bacterium) 1898207 (Clostridiales bacterium) 255 255 MLTDTQVKELISQRRWADIRRALVDEPPPHLADLLFSLETREMVLVFRCLPREVSSEVFALLGKGDRNALIEALTDEETRHLLADLDPDDRTDLLQELPGEVTQRLLNLLSPADLKEARQLLGYPEDSVGRLMTPDYVAVRPGWTVAQALDHIRRRGTDSETINIIYVTDDRWKLLDALELGAFILADPDAAVRDIMKGSFVALSAFDDREEAVRVMQRYDLFVLPVVDSTGVLVGIVTADDILDVAQEEATEDF MLTDTQVKELISQRRWADIRRALVDEPPPHLADLLFSLETREMVLVFRCLPREVSSEVFALLGKGDRNALIEALTDEETRHLLADLDPDDRTDLLQELPGEVTQRLLNLLSPADLKEARQLLGYPEDSVGRLMTPDYVAVRPGWTVAQALDHIRRRGTDSETINIIYVTDDRWKLLDALELGAFILADPDAAVRDIMKGSFVALSAFDDREEAVRVMQRYDLFVLPVVDSTGVLVGIVTADDILDVAQEEATEDF 8gpw-a1-m1-cB_8gpw-a1-m1-cA Structure of Penicillin-binding protein 3 (PBP3) from Klebsiella pneumoniae with ligand 18G A0A0H3GN85 A0A0H3GN85 2.06 X-RAY DIFFRACTION 39 0.995 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 395 399 SRGMITDRSGRPLAVSVPSRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTGQGAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNFAGTAKDTMRNRAITDVFEPGSTVKPMVVMTALQRGIVNENTVLNTVPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESLVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVYINKYIAYTAGVAPASHPRFALVVVINDPQAGKYYGGAVSAPVFGAIMGGVLRTMNIEPDALAT SRGMITDRSGRPLAVSVPSRRYYPSGEVTAHLIGFTNVDSQGIEGVEKSFDKWLTGAAHNLALSIDERLQALVYRELNNAVAFNKAESGSAVLVDVNTGEVLAMANSPSYNPNNFAGTAKDTMRNRAITDVFEPGSTVKPMVVMTALQRGIVNENTVLNTVPYRINGHEIKDVARYSELTLTGVLQKSSNVGVSKLALAMPSSALVDTYSRFGLGKATNLGLVGERSGLYPQKQRWSDIERATFSFGYGLMVTPLQLARVYATIGSYGIYRPLSITKVDPPVPGERVFPESLVRTVVHMMESVALPGGGGVKAAIKGYRIAIKTGTAKKVGPDGRYINKYIAYTAGVAPASHPRFALVVVINDPQAGKYYGGAVSAPVFGAIMGGVLRTMNIEPDALAT 8gq5-a1-m1-ch_8gq5-a1-m1-cp Human SARM1 bounded with NMN and Nanobody-C6, double-layer structure 2.7 ELECTRON MICROSCOPY 23 1.0 30538 (Vicugna pacos) 30538 (Vicugna pacos) 113 113 8gq5-a1-m1-ca_8gq5-a1-m1-ci 8gq5-a1-m1-cb_8gq5-a1-m1-cj 8gq5-a1-m1-cc_8gq5-a1-m1-ck 8gq5-a1-m1-cd_8gq5-a1-m1-cl 8gq5-a1-m1-ce_8gq5-a1-m1-cm 8gq5-a1-m1-cf_8gq5-a1-m1-cn 8gq5-a1-m1-cg_8gq5-a1-m1-co MAVQLVESGGGLVQPGGSLRLSCAASVSISRIYVMAWYRQAPGKQREVVAVIRYDGTTNYPDSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNANVETWGQGTQVTVSS MAVQLVESGGGLVQPGGSLRLSCAASVSISRIYVMAWYRQAPGKQREVVAVIRYDGTTNYPDSVKGRFTISRDNAKNTVYLQMNSLKPEDTAVYYCNANVETWGQGTQVTVSS 8gqy-a1-m1-cD_8gqy-a1-m1-cE CryoEM structure of pentameric MotA from Aquifex aeolicus O67122 O67122 3.4 ELECTRON MICROSCOPY 145 1.0 224324 (Aquifex aeolicus VF5) 224324 (Aquifex aeolicus VF5) 253 253 8gqy-a1-m1-cA_8gqy-a1-m1-cB 8gqy-a1-m1-cA_8gqy-a1-m1-cE 8gqy-a1-m1-cB_8gqy-a1-m1-cC 8gqy-a1-m1-cC_8gqy-a1-m1-cD VHMDVGTIIGIIAAFLLILISILIGGSITAFINVPSIFIVVGGGMAAAMGAFPLKDFIRGVLAIKKAFLWKPPDLNDVIETIGEIASKVRKEGILALEGDIELYYQKDPLLGDMIRMLVDGIDINDIKATAEMALAQLDEKMSTEVAVWEKLADLFPAFGMIGTLIGLIQMLRNLNDPSALGPGMAVALITTLYGAILANAFAIPVANKLKKAKDMEVLVKTIYIEAIEKIQKGENPNVVKQEAAIMLGVELP VHMDVGTIIGIIAAFLLILISILIGGSITAFINVPSIFIVVGGGMAAAMGAFPLKDFIRGVLAIKKAFLWKPPDLNDVIETIGEIASKVRKEGILALEGDIELYYQKDPLLGDMIRMLVDGIDINDIKATAEMALAQLDEKMSTEVAVWEKLADLFPAFGMIGTLIGLIQMLRNLNDPSALGPGMAVALITTLYGAILANAFAIPVANKLKKAKDMEVLVKTIYIEAIEKIQKGENPNVVKQEAAIMLGVELP 8gqz-a1-m1-cB_8gqz-a1-m1-cA Crystal structure of mitochondrial citrate synthase (Cit1) from Saccharomyces cerevisiae A0A6A5Q7J3 A0A6A5Q7J3 1.42 X-RAY DIFFRACTION 398 1.0 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 436 441 EQTLKERFAEIIPAKAEEIKKFKKEHGKTVIGEVLLEQAYGGMRGIKGLVWEGSVLDPEEGIRFRGRTIPEIQRELPKAEGSTEPLPEALFWLLLTGEIPTDAQVKALSADLAARSEIPEHVIQLLDSLPKDLHPMAQFSIAVTALESESKFAKAYAQGVSKKEYWSYTFEDSLDLLGKLPVIASKIYRNVFKDGKITSTDPNADYGKNLAQLLGYENKDFIDLMRLYLTIHSDHEGGNVSAHTTHLVGSALSSPYLSLAAGLNGLAGPLHGRANQEVLEWLFKLREEVKGDYSKETIEKYLWDTLNAGRVVPGYGHAVLRKTDPRYTAQREFALKHFPDYELFKLVSTIYEVAPGVLTKHGKTKNPWPNVDSHSGVLLQYYGLTEASFYTVLFGVARAIGVLPQLIIDRAVGAPIERPKSFSTEKYKELVKKIES SSASEQTLKERFAEIIPAKAEEIKKFKKEHGKTVIGEVLLEQAYGGMRGIKGLVWEGSVLDPEEGIRFRGRTIPEIQRELPKAEGSTEPLPEALFWLLLTGEIPTDAQVKALSADLAARSEIPEHVIQLLDSLPKDLHPMAQFSIAVTALESESKFAKAYAQGVSKKEYWSYTFEDSLDLLGKLPVIASKIYRNVFKDGKITSTDPNADYGKNLAQLLGYENKDFIDLMRLYLTIHSDHEGGNVSAHTTHLVGSALSSPYLSLAAGLNGLAGPLHGRANQEVLEWLFKLREEVKGDYSKETIEKYLWDTLNAGRVVPGYGHAVLRKTDPRYTAQREFALKHFPDYELFKLVSTIYEVAPGVLTKHGKTKNPWPNVDSHSGVLLQYYGLTEASFYTVLFGVARAIGVLPQLIIDRAVGAPIERPKSFSTEKYKELVKKIESK 8grb-a2-m1-cF_8grb-a2-m1-cH Crystal structure of a constitutively active mutant of the alpha beta heterodimer of human IDH3 O43837-2 O43837-2 2.848 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 315 319 8grb-a1-m1-cC_8grb-a1-m1-cD 8grb-a3-m1-cJ_8grb-a3-m1-cL 8grb-a4-m1-cN_8grb-a4-m1-cP SFPVTMLPGDGVGPELMHAVKEVFKAAAVPVEFQEHHLKLEQVLSSMKENKVAIIGKIASYDMRLRRKLDLFANVVHVKSLPGYMTRHNNLDLVIIREQTEGEYSSLEHESARGVIECLKIVTRAKSQRIAKFAFDYATKKGRGKVTAVHKANIMKLGDGLFLQCCEEVAELYPKIKFETMIIDNCCMQLVQNPYQFDVLVMPNLYGNIIDNLAAGLVGGAGVVPGESYSAEYAVFETGARHPFAQAVGRNIANPTAMLLSASNMLRHLNLEYHSSMIADAVKKVIKVGKVRTSDMGGYATCHDFTEEICRRVKD SFPVTMLPGDGVGPELMHAVKEVFKAAAVPVEFQEHHLSKLEQVLSSMKENKVAIIGKIASYDMRLRRKLDLFANVVHVKSLPGYMTRHNNLDLVIIREQTEGEYSSLEHESARGVIECLKIVTRAKSQRIAKFAFDYATKKGRGKVTAVHKANIMKLGDGLFLQCCEEVAELYPKIKFETMIIDNCCMQLVQNPYQFDVLVMPNLYGNIIDNLAAGLVGGAGVVPGESYSAEYAVFETGARHPFAQAVGRNIANPTAMLLSASNMLRHLNLEYHSSMIADAVKKVIKVGKVRTSDMGGYATCHDFTEEICRRVKDLDE 8gre-a1-m1-cA_8gre-a1-m1-cB F-box protein in complex with skp1(FL) and substrate A0A6A5Q445 A0A6A5Q445 2.3 X-RAY DIFFRACTION 383 0.998 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 438 438 8gr8-a1-m1-cA_8gr8-a1-m1-cB 8gr9-a1-m1-cA_8gr9-a1-m1-cB 8grf-a1-m1-cA_8grf-a1-m1-cB EKTLKERFSEIYPIHAQDVRQFVKEHGKTKISDVLLEQVYGGMRGIPGSVWEGSVLDPEDGIRFRGRTIADIQKDLPKAKGSSQPLPEALFWLLLTGEVPTQAQVENLSADLMSRSELPSHVVQLLDNLPKDLHPMAQFSIAVTALESESKFAKAYAQGISKQDYWSYTFEDSLDLLGKLPVIAAKIYRNVFKDGKMGEVDPNADYAKNLVNLIGSKDEDFVDLMRLYLTIHSDHEGGNVSAHTSHLVGSALSSPYLSLASGLNGLAGPLHGRANQEVLEWLFALKEEVNDDYSKDTIEKYLWDTLNSGRVIPGYGHAVLRKTDPRYMAQRKFAMDHFPDYELFKLVSSIYEVAPGVLTEHGKTKNPWPNVDAHSGVLLQYYGLKESSFYTVLFGVSRAFGILAQLITDRAIGASIERPKSYSTEKYKELVKNIESKL QEKTLKERFSEIYPIHAQDVRQFVKEHGKTKISDVLLEQVYGGMRGIPGSVWEGSVLDPEDGIRFRGRTIADIQKDLPKAKGSSQPLPEALFWLLLTGEVPTQAQVENLSADLMSRSELPSHVVQLLDNLPKDLHPMAQFSIAVTALESESKFAKAYAQGISKQDYWSYTFEDSLDLLGKLPVIAAKIYRNVFKDGKMGEVDPNADYAKNLVNLIGSKDEDFVDLMRLYLTIHSDHEGGNVSAHTSHLVGSALSSPYLSLASGLNGLAGPLHGRANQEVLEWLFALKEEVNDDYSKDTIEKYLWDTLNSGRVIPGYGHAVLRKTDPRYMAQRKFAMDHFPDYELFKLVSSIYEVAPGVLTEHGKTKNPWPNVDAHSGVLLQYYGLKESSFYTVLFGVSRAFGILAQLITDRAIGASIERPKSYSTEKYKELVKNIESK 8gs6-a1-m1-cB_8gs6-a1-m1-cC Structure of the SARS-CoV-2 BA.2.75 spike glycoprotein (closed state 1) P0DTC2 P0DTC2 2.86 ELECTRON MICROSCOPY 271 0.991 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 982 1001 TQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFNDGVYFASTRGWIFGTTSLLIVNNATNVVIKVCEFQFCNDPFLNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPVLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILSDPSKPSKRSPIEDLLFNKVTDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD RTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHLPFNDGVYFASTEKSNIIRGWIFGTTLTQSLLIVNNATNVVIKVCEFQFCNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPVNLGRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILSDPSKPSKRSPIEDLLFNKVTLARDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD 8gsd-a1-m23-c2_8gsd-a1-m9-c2 Echovirus3 full particle in complex with 6D10 Fab A0A6M4MJE3 A0A6M4MJE3 3.1 ELECTRON MICROSCOPY 38 1.0 47516 (Echovirus E3) 47516 (Echovirus E3) 251 251 7c9x-a1-m10-cB_7c9x-a1-m5-cB 7c9x-a1-m11-cB_7c9x-a1-m37-cB 7c9x-a1-m12-cB_7c9x-a1-m46-cB 7c9x-a1-m13-cB_7c9x-a1-m44-cB 7c9x-a1-m14-cB_7c9x-a1-m28-cB 7c9x-a1-m15-cB_7c9x-a1-m20-cB 7c9x-a1-m16-cB_7c9x-a1-m27-cB 7c9x-a1-m17-cB_7c9x-a1-m51-cB 7c9x-a1-m18-cB_7c9x-a1-m59-cB 7c9x-a1-m19-cB_7c9x-a1-m38-cB 7c9x-a1-m1-cB_7c9x-a1-m22-cB 7c9x-a1-m21-cB_7c9x-a1-m42-cB 7c9x-a1-m23-cB_7c9x-a1-m9-cB 7c9x-a1-m24-cB_7c9x-a1-m53-cB 7c9x-a1-m25-cB_7c9x-a1-m30-cB 7c9x-a1-m26-cB_7c9x-a1-m52-cB 7c9x-a1-m29-cB_7c9x-a1-m43-cB 7c9x-a1-m2-cB_7c9x-a1-m41-cB 7c9x-a1-m31-cB_7c9x-a1-m57-cB 7c9x-a1-m32-cB_7c9x-a1-m6-cB 7c9x-a1-m33-cB_7c9x-a1-m4-cB 7c9x-a1-m34-cB_7c9x-a1-m48-cB 7c9x-a1-m35-cB_7c9x-a1-m40-cB 7c9x-a1-m36-cB_7c9x-a1-m47-cB 7c9x-a1-m39-cB_7c9x-a1-m58-cB 7c9x-a1-m3-cB_7c9x-a1-m49-cB 7c9x-a1-m45-cB_7c9x-a1-m50-cB 7c9x-a1-m54-cB_7c9x-a1-m8-cB 7c9x-a1-m55-cB_7c9x-a1-m60-cB 7c9x-a1-m56-cB_7c9x-a1-m7-cB 7eai-a1-m10-cB_7eai-a1-m5-cB 7eai-a1-m11-cB_7eai-a1-m37-cB 7eai-a1-m12-cB_7eai-a1-m46-cB 7eai-a1-m13-cB_7eai-a1-m44-cB 7eai-a1-m14-cB_7eai-a1-m28-cB 7eai-a1-m15-cB_7eai-a1-m20-cB 7eai-a1-m16-cB_7eai-a1-m27-cB 7eai-a1-m17-cB_7eai-a1-m51-cB 7eai-a1-m18-cB_7eai-a1-m59-cB 7eai-a1-m19-cB_7eai-a1-m38-cB 7eai-a1-m1-cB_7eai-a1-m22-cB 7eai-a1-m21-cB_7eai-a1-m42-cB 7eai-a1-m23-cB_7eai-a1-m9-cB 7eai-a1-m24-cB_7eai-a1-m53-cB 7eai-a1-m25-cB_7eai-a1-m30-cB 7eai-a1-m26-cB_7eai-a1-m52-cB 7eai-a1-m29-cB_7eai-a1-m43-cB 7eai-a1-m2-cB_7eai-a1-m41-cB 7eai-a1-m31-cB_7eai-a1-m57-cB 7eai-a1-m32-cB_7eai-a1-m6-cB 7eai-a1-m33-cB_7eai-a1-m4-cB 7eai-a1-m34-cB_7eai-a1-m48-cB 7eai-a1-m35-cB_7eai-a1-m40-cB 7eai-a1-m36-cB_7eai-a1-m47-cB 7eai-a1-m39-cB_7eai-a1-m58-cB 7eai-a1-m3-cB_7eai-a1-m49-cB 7eai-a1-m45-cB_7eai-a1-m50-cB 7eai-a1-m54-cB_7eai-a1-m8-cB 7eai-a1-m55-cB_7eai-a1-m60-cB 7eai-a1-m56-cB_7eai-a1-m7-cB 7eak-a1-m10-cB_7eak-a1-m5-cB 7eak-a1-m11-cB_7eak-a1-m37-cB 7eak-a1-m12-cB_7eak-a1-m46-cB 7eak-a1-m13-cB_7eak-a1-m44-cB 7eak-a1-m14-cB_7eak-a1-m28-cB 7eak-a1-m15-cB_7eak-a1-m20-cB 7eak-a1-m16-cB_7eak-a1-m27-cB 7eak-a1-m17-cB_7eak-a1-m51-cB 7eak-a1-m18-cB_7eak-a1-m59-cB 7eak-a1-m19-cB_7eak-a1-m38-cB 7eak-a1-m1-cB_7eak-a1-m22-cB 7eak-a1-m21-cB_7eak-a1-m42-cB 7eak-a1-m23-cB_7eak-a1-m9-cB 7eak-a1-m24-cB_7eak-a1-m53-cB 7eak-a1-m25-cB_7eak-a1-m30-cB 7eak-a1-m26-cB_7eak-a1-m52-cB 7eak-a1-m29-cB_7eak-a1-m43-cB 7eak-a1-m2-cB_7eak-a1-m41-cB 7eak-a1-m31-cB_7eak-a1-m57-cB 7eak-a1-m32-cB_7eak-a1-m6-cB 7eak-a1-m33-cB_7eak-a1-m4-cB 7eak-a1-m34-cB_7eak-a1-m48-cB 7eak-a1-m35-cB_7eak-a1-m40-cB 7eak-a1-m36-cB_7eak-a1-m47-cB 7eak-a1-m39-cB_7eak-a1-m58-cB 7eak-a1-m3-cB_7eak-a1-m49-cB 7eak-a1-m45-cB_7eak-a1-m50-cB 7eak-a1-m54-cB_7eak-a1-m8-cB 7eak-a1-m55-cB_7eak-a1-m60-cB 7eak-a1-m56-cB_7eak-a1-m7-cB 8gsd-a1-m10-c2_8gsd-a1-m5-c2 8gsd-a1-m11-c2_8gsd-a1-m37-c2 8gsd-a1-m12-c2_8gsd-a1-m46-c2 8gsd-a1-m13-c2_8gsd-a1-m44-c2 8gsd-a1-m14-c2_8gsd-a1-m28-c2 8gsd-a1-m15-c2_8gsd-a1-m20-c2 8gsd-a1-m16-c2_8gsd-a1-m27-c2 8gsd-a1-m17-c2_8gsd-a1-m51-c2 8gsd-a1-m18-c2_8gsd-a1-m59-c2 8gsd-a1-m19-c2_8gsd-a1-m38-c2 8gsd-a1-m1-c2_8gsd-a1-m22-c2 8gsd-a1-m21-c2_8gsd-a1-m42-c2 8gsd-a1-m24-c2_8gsd-a1-m53-c2 8gsd-a1-m25-c2_8gsd-a1-m30-c2 8gsd-a1-m26-c2_8gsd-a1-m52-c2 8gsd-a1-m29-c2_8gsd-a1-m43-c2 8gsd-a1-m2-c2_8gsd-a1-m41-c2 8gsd-a1-m31-c2_8gsd-a1-m57-c2 8gsd-a1-m32-c2_8gsd-a1-m6-c2 8gsd-a1-m33-c2_8gsd-a1-m4-c2 8gsd-a1-m34-c2_8gsd-a1-m48-c2 8gsd-a1-m35-c2_8gsd-a1-m40-c2 8gsd-a1-m36-c2_8gsd-a1-m47-c2 8gsd-a1-m39-c2_8gsd-a1-m58-c2 8gsd-a1-m3-c2_8gsd-a1-m49-c2 8gsd-a1-m45-c2_8gsd-a1-m50-c2 8gsd-a1-m54-c2_8gsd-a1-m8-c2 8gsd-a1-m55-c2_8gsd-a1-m60-c2 8gsd-a1-m56-c2_8gsd-a1-m7-c2 DRVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ DRVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ 8gsd-a1-m55-cL_8gsd-a1-m9-cL Echovirus3 full particle in complex with 6D10 Fab 3.1 ELECTRON MICROSCOPY 90 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 7eak-a1-m10-cL_7eak-a1-m24-cL 7eak-a1-m11-cL_7eak-a1-m16-cL 7eak-a1-m12-cL_7eak-a1-m38-cL 7eak-a1-m13-cL_7eak-a1-m47-cL 7eak-a1-m14-cL_7eak-a1-m45-cL 7eak-a1-m15-cL_7eak-a1-m29-cL 7eak-a1-m17-cL_7eak-a1-m28-cL 7eak-a1-m18-cL_7eak-a1-m52-cL 7eak-a1-m19-cL_7eak-a1-m60-cL 7eak-a1-m1-cL_7eak-a1-m6-cL 7eak-a1-m20-cL_7eak-a1-m39-cL 7eak-a1-m21-cL_7eak-a1-m26-cL 7eak-a1-m22-cL_7eak-a1-m43-cL 7eak-a1-m25-cL_7eak-a1-m54-cL 7eak-a1-m27-cL_7eak-a1-m53-cL 7eak-a1-m2-cL_7eak-a1-m23-cL 7eak-a1-m30-cL_7eak-a1-m44-cL 7eak-a1-m31-cL_7eak-a1-m36-cL 7eak-a1-m32-cL_7eak-a1-m58-cL 7eak-a1-m33-cL_7eak-a1-m7-cL 7eak-a1-m34-cL_7eak-a1-m5-cL 7eak-a1-m35-cL_7eak-a1-m49-cL 7eak-a1-m37-cL_7eak-a1-m48-cL 7eak-a1-m3-cL_7eak-a1-m42-cL 7eak-a1-m40-cL_7eak-a1-m59-cL 7eak-a1-m41-cL_7eak-a1-m46-cL 7eak-a1-m4-cL_7eak-a1-m50-cL 7eak-a1-m51-cL_7eak-a1-m56-cL 7eak-a1-m55-cL_7eak-a1-m9-cL 7eak-a1-m57-cL_7eak-a1-m8-cL 8gsd-a1-m10-cL_8gsd-a1-m24-cL 8gsd-a1-m11-cL_8gsd-a1-m16-cL 8gsd-a1-m12-cL_8gsd-a1-m38-cL 8gsd-a1-m13-cL_8gsd-a1-m47-cL 8gsd-a1-m14-cL_8gsd-a1-m45-cL 8gsd-a1-m15-cL_8gsd-a1-m29-cL 8gsd-a1-m17-cL_8gsd-a1-m28-cL 8gsd-a1-m18-cL_8gsd-a1-m52-cL 8gsd-a1-m19-cL_8gsd-a1-m60-cL 8gsd-a1-m1-cL_8gsd-a1-m6-cL 8gsd-a1-m20-cL_8gsd-a1-m39-cL 8gsd-a1-m21-cL_8gsd-a1-m26-cL 8gsd-a1-m22-cL_8gsd-a1-m43-cL 8gsd-a1-m25-cL_8gsd-a1-m54-cL 8gsd-a1-m27-cL_8gsd-a1-m53-cL 8gsd-a1-m2-cL_8gsd-a1-m23-cL 8gsd-a1-m30-cL_8gsd-a1-m44-cL 8gsd-a1-m31-cL_8gsd-a1-m36-cL 8gsd-a1-m32-cL_8gsd-a1-m58-cL 8gsd-a1-m33-cL_8gsd-a1-m7-cL 8gsd-a1-m34-cL_8gsd-a1-m5-cL 8gsd-a1-m35-cL_8gsd-a1-m49-cL 8gsd-a1-m37-cL_8gsd-a1-m48-cL 8gsd-a1-m3-cL_8gsd-a1-m42-cL 8gsd-a1-m40-cL_8gsd-a1-m59-cL 8gsd-a1-m41-cL_8gsd-a1-m46-cL 8gsd-a1-m4-cL_8gsd-a1-m50-cL 8gsd-a1-m51-cL_8gsd-a1-m56-cL 8gsd-a1-m57-cL_8gsd-a1-m8-cL YIEASQSPSSLAVSVGEKVTMSCKSSQSLLYSSNQKNYLAWFQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYSYPYTFGGGTKLKIKR YIEASQSPSSLAVSVGEKVTMSCKSSQSLLYSSNQKNYLAWFQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYSYPYTFGGGTKLKIKR 8gsf-a1-m55-c2_8gsf-a1-m9-cB Echovirus3 empty particle in complex with 6D10 Fab (sideling) A0A6M4MJE3 A0A6M4MJE3 3.6 ELECTRON MICROSCOPY 1534 1.0 47516 (Echovirus E3) 47516 (Echovirus E3) 247 250 8gsf-a1-m10-c2_8gsf-a1-m24-cB 8gsf-a1-m11-c2_8gsf-a1-m16-cB 8gsf-a1-m12-c2_8gsf-a1-m38-cB 8gsf-a1-m13-c2_8gsf-a1-m47-cB 8gsf-a1-m14-c2_8gsf-a1-m45-cB 8gsf-a1-m15-c2_8gsf-a1-m29-cB 8gsf-a1-m16-c2_8gsf-a1-m11-cB 8gsf-a1-m17-c2_8gsf-a1-m28-cB 8gsf-a1-m18-c2_8gsf-a1-m52-cB 8gsf-a1-m19-c2_8gsf-a1-m60-cB 8gsf-a1-m1-c2_8gsf-a1-m6-cB 8gsf-a1-m20-c2_8gsf-a1-m39-cB 8gsf-a1-m21-c2_8gsf-a1-m26-cB 8gsf-a1-m22-c2_8gsf-a1-m43-cB 8gsf-a1-m23-c2_8gsf-a1-m2-cB 8gsf-a1-m24-c2_8gsf-a1-m10-cB 8gsf-a1-m25-c2_8gsf-a1-m54-cB 8gsf-a1-m26-c2_8gsf-a1-m21-cB 8gsf-a1-m27-c2_8gsf-a1-m53-cB 8gsf-a1-m28-c2_8gsf-a1-m17-cB 8gsf-a1-m29-c2_8gsf-a1-m15-cB 8gsf-a1-m2-c2_8gsf-a1-m23-cB 8gsf-a1-m30-c2_8gsf-a1-m44-cB 8gsf-a1-m31-c2_8gsf-a1-m36-cB 8gsf-a1-m32-c2_8gsf-a1-m58-cB 8gsf-a1-m33-c2_8gsf-a1-m7-cB 8gsf-a1-m34-c2_8gsf-a1-m5-cB 8gsf-a1-m35-c2_8gsf-a1-m49-cB 8gsf-a1-m36-c2_8gsf-a1-m31-cB 8gsf-a1-m37-c2_8gsf-a1-m48-cB 8gsf-a1-m38-c2_8gsf-a1-m12-cB 8gsf-a1-m39-c2_8gsf-a1-m20-cB 8gsf-a1-m3-c2_8gsf-a1-m42-cB 8gsf-a1-m40-c2_8gsf-a1-m59-cB 8gsf-a1-m41-c2_8gsf-a1-m46-cB 8gsf-a1-m42-c2_8gsf-a1-m3-cB 8gsf-a1-m43-c2_8gsf-a1-m22-cB 8gsf-a1-m44-c2_8gsf-a1-m30-cB 8gsf-a1-m45-c2_8gsf-a1-m14-cB 8gsf-a1-m46-c2_8gsf-a1-m41-cB 8gsf-a1-m47-c2_8gsf-a1-m13-cB 8gsf-a1-m48-c2_8gsf-a1-m37-cB 8gsf-a1-m49-c2_8gsf-a1-m35-cB 8gsf-a1-m4-c2_8gsf-a1-m50-cB 8gsf-a1-m50-c2_8gsf-a1-m4-cB 8gsf-a1-m51-c2_8gsf-a1-m56-cB 8gsf-a1-m52-c2_8gsf-a1-m18-cB 8gsf-a1-m53-c2_8gsf-a1-m27-cB 8gsf-a1-m54-c2_8gsf-a1-m25-cB 8gsf-a1-m56-c2_8gsf-a1-m51-cB 8gsf-a1-m57-c2_8gsf-a1-m8-cB 8gsf-a1-m58-c2_8gsf-a1-m32-cB 8gsf-a1-m59-c2_8gsf-a1-m40-cB 8gsf-a1-m5-c2_8gsf-a1-m34-cB 8gsf-a1-m60-c2_8gsf-a1-m19-cB 8gsf-a1-m6-c2_8gsf-a1-m1-cB 8gsf-a1-m7-c2_8gsf-a1-m33-cB 8gsf-a1-m8-c2_8gsf-a1-m57-cB 8gsf-a1-m9-c2_8gsf-a1-m55-cB RVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLA RVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ 8gsf-a1-m55-cF_8gsf-a1-m9-cL Echovirus3 empty particle in complex with 6D10 Fab (sideling) 3.6 ELECTRON MICROSCOPY 47 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 8gsf-a1-m10-cF_8gsf-a1-m24-cL 8gsf-a1-m10-cL_8gsf-a1-m24-cF 8gsf-a1-m11-cF_8gsf-a1-m16-cL 8gsf-a1-m11-cL_8gsf-a1-m16-cF 8gsf-a1-m12-cF_8gsf-a1-m38-cL 8gsf-a1-m12-cL_8gsf-a1-m38-cF 8gsf-a1-m13-cF_8gsf-a1-m47-cL 8gsf-a1-m13-cL_8gsf-a1-m47-cF 8gsf-a1-m14-cF_8gsf-a1-m45-cL 8gsf-a1-m14-cL_8gsf-a1-m45-cF 8gsf-a1-m15-cF_8gsf-a1-m29-cL 8gsf-a1-m15-cL_8gsf-a1-m29-cF 8gsf-a1-m17-cF_8gsf-a1-m28-cL 8gsf-a1-m17-cL_8gsf-a1-m28-cF 8gsf-a1-m18-cF_8gsf-a1-m52-cL 8gsf-a1-m18-cL_8gsf-a1-m52-cF 8gsf-a1-m19-cF_8gsf-a1-m60-cL 8gsf-a1-m19-cL_8gsf-a1-m60-cF 8gsf-a1-m1-cF_8gsf-a1-m6-cL 8gsf-a1-m1-cL_8gsf-a1-m6-cF 8gsf-a1-m20-cF_8gsf-a1-m39-cL 8gsf-a1-m20-cL_8gsf-a1-m39-cF 8gsf-a1-m21-cF_8gsf-a1-m26-cL 8gsf-a1-m21-cL_8gsf-a1-m26-cF 8gsf-a1-m22-cF_8gsf-a1-m43-cL 8gsf-a1-m22-cL_8gsf-a1-m43-cF 8gsf-a1-m25-cF_8gsf-a1-m54-cL 8gsf-a1-m25-cL_8gsf-a1-m54-cF 8gsf-a1-m27-cF_8gsf-a1-m53-cL 8gsf-a1-m27-cL_8gsf-a1-m53-cF 8gsf-a1-m2-cF_8gsf-a1-m23-cL 8gsf-a1-m2-cL_8gsf-a1-m23-cF 8gsf-a1-m30-cF_8gsf-a1-m44-cL 8gsf-a1-m30-cL_8gsf-a1-m44-cF 8gsf-a1-m31-cF_8gsf-a1-m36-cL 8gsf-a1-m31-cL_8gsf-a1-m36-cF 8gsf-a1-m32-cF_8gsf-a1-m58-cL 8gsf-a1-m32-cL_8gsf-a1-m58-cF 8gsf-a1-m33-cF_8gsf-a1-m7-cL 8gsf-a1-m33-cL_8gsf-a1-m7-cF 8gsf-a1-m34-cF_8gsf-a1-m5-cL 8gsf-a1-m34-cL_8gsf-a1-m5-cF 8gsf-a1-m35-cF_8gsf-a1-m49-cL 8gsf-a1-m35-cL_8gsf-a1-m49-cF 8gsf-a1-m37-cF_8gsf-a1-m48-cL 8gsf-a1-m37-cL_8gsf-a1-m48-cF 8gsf-a1-m3-cF_8gsf-a1-m42-cL 8gsf-a1-m3-cL_8gsf-a1-m42-cF 8gsf-a1-m40-cF_8gsf-a1-m59-cL 8gsf-a1-m40-cL_8gsf-a1-m59-cF 8gsf-a1-m41-cF_8gsf-a1-m46-cL 8gsf-a1-m41-cL_8gsf-a1-m46-cF 8gsf-a1-m4-cF_8gsf-a1-m50-cL 8gsf-a1-m4-cL_8gsf-a1-m50-cF 8gsf-a1-m51-cF_8gsf-a1-m56-cL 8gsf-a1-m51-cL_8gsf-a1-m56-cF 8gsf-a1-m55-cL_8gsf-a1-m9-cF 8gsf-a1-m57-cF_8gsf-a1-m8-cL 8gsf-a1-m57-cL_8gsf-a1-m8-cF YIEASQSPSSLAVSVGEKVTMSCKSSQSLLYSSNQKNYLAWFQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYSYPYTFGGGTKLKIKR YIEASQSPSSLAVSVGEKVTMSCKSSQSLLYSSNQKNYLAWFQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYSYPYTFGGGTKLKIKR 8gsf-a1-m55-cL_8gsf-a1-m9-cL Echovirus3 empty particle in complex with 6D10 Fab (sideling) 3.6 ELECTRON MICROSCOPY 51 1.0 10090 (Mus musculus) 10090 (Mus musculus) 114 114 8gsf-a1-m10-cL_8gsf-a1-m24-cL 8gsf-a1-m11-cL_8gsf-a1-m16-cL 8gsf-a1-m12-cL_8gsf-a1-m38-cL 8gsf-a1-m13-cL_8gsf-a1-m47-cL 8gsf-a1-m14-cL_8gsf-a1-m45-cL 8gsf-a1-m15-cL_8gsf-a1-m29-cL 8gsf-a1-m17-cL_8gsf-a1-m28-cL 8gsf-a1-m18-cL_8gsf-a1-m52-cL 8gsf-a1-m19-cL_8gsf-a1-m60-cL 8gsf-a1-m1-cL_8gsf-a1-m6-cL 8gsf-a1-m20-cL_8gsf-a1-m39-cL 8gsf-a1-m21-cL_8gsf-a1-m26-cL 8gsf-a1-m22-cL_8gsf-a1-m43-cL 8gsf-a1-m25-cL_8gsf-a1-m54-cL 8gsf-a1-m27-cL_8gsf-a1-m53-cL 8gsf-a1-m2-cL_8gsf-a1-m23-cL 8gsf-a1-m30-cL_8gsf-a1-m44-cL 8gsf-a1-m31-cL_8gsf-a1-m36-cL 8gsf-a1-m32-cL_8gsf-a1-m58-cL 8gsf-a1-m33-cL_8gsf-a1-m7-cL 8gsf-a1-m34-cL_8gsf-a1-m5-cL 8gsf-a1-m35-cL_8gsf-a1-m49-cL 8gsf-a1-m37-cL_8gsf-a1-m48-cL 8gsf-a1-m3-cL_8gsf-a1-m42-cL 8gsf-a1-m40-cL_8gsf-a1-m59-cL 8gsf-a1-m41-cL_8gsf-a1-m46-cL 8gsf-a1-m4-cL_8gsf-a1-m50-cL 8gsf-a1-m51-cL_8gsf-a1-m56-cL 8gsf-a1-m57-cL_8gsf-a1-m8-cL YIEASQSPSSLAVSVGEKVTMSCKSSQSLLYSSNQKNYLAWFQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYSYPYTFGGGTKLKIKR YIEASQSPSSLAVSVGEKVTMSCKSSQSLLYSSNQKNYLAWFQQKPGQSPKLLIYWASTRESGVPDRFTGSGSGTDFTLTISSVKAEDLAVYYCQQYYSYPYTFGGGTKLKIKR 8gsf-a1-m57-cB_8gsf-a1-m9-cB Echovirus3 empty particle in complex with 6D10 Fab (sideling) A0A6M4MJE3 A0A6M4MJE3 3.6 ELECTRON MICROSCOPY 28 1.0 47516 (Echovirus E3) 47516 (Echovirus E3) 250 250 8gsf-a1-m10-cB_8gsf-a1-m25-cB 8gsf-a1-m10-cB_8gsf-a1-m55-cB 8gsf-a1-m11-cB_8gsf-a1-m17-cB 8gsf-a1-m11-cB_8gsf-a1-m29-cB 8gsf-a1-m12-cB_8gsf-a1-m16-cB 8gsf-a1-m12-cB_8gsf-a1-m39-cB 8gsf-a1-m13-cB_8gsf-a1-m38-cB 8gsf-a1-m13-cB_8gsf-a1-m48-cB 8gsf-a1-m14-cB_8gsf-a1-m41-cB 8gsf-a1-m14-cB_8gsf-a1-m47-cB 8gsf-a1-m15-cB_8gsf-a1-m30-cB 8gsf-a1-m15-cB_8gsf-a1-m45-cB 8gsf-a1-m16-cB_8gsf-a1-m39-cB 8gsf-a1-m17-cB_8gsf-a1-m29-cB 8gsf-a1-m18-cB_8gsf-a1-m28-cB 8gsf-a1-m18-cB_8gsf-a1-m53-cB 8gsf-a1-m19-cB_8gsf-a1-m52-cB 8gsf-a1-m19-cB_8gsf-a1-m56-cB 8gsf-a1-m1-cB_8gsf-a1-m34-cB 8gsf-a1-m1-cB_8gsf-a1-m7-cB 8gsf-a1-m20-cB_8gsf-a1-m40-cB 8gsf-a1-m20-cB_8gsf-a1-m60-cB 8gsf-a1-m21-cB_8gsf-a1-m27-cB 8gsf-a1-m21-cB_8gsf-a1-m54-cB 8gsf-a1-m22-cB_8gsf-a1-m26-cB 8gsf-a1-m22-cB_8gsf-a1-m44-cB 8gsf-a1-m23-cB_8gsf-a1-m3-cB 8gsf-a1-m23-cB_8gsf-a1-m43-cB 8gsf-a1-m24-cB_8gsf-a1-m6-cB 8gsf-a1-m25-cB_8gsf-a1-m55-cB 8gsf-a1-m26-cB_8gsf-a1-m44-cB 8gsf-a1-m27-cB_8gsf-a1-m54-cB 8gsf-a1-m28-cB_8gsf-a1-m53-cB 8gsf-a1-m2-cB_8gsf-a1-m24-cB 8gsf-a1-m2-cB_8gsf-a1-m6-cB 8gsf-a1-m30-cB_8gsf-a1-m45-cB 8gsf-a1-m31-cB_8gsf-a1-m37-cB 8gsf-a1-m31-cB_8gsf-a1-m49-cB 8gsf-a1-m32-cB_8gsf-a1-m36-cB 8gsf-a1-m32-cB_8gsf-a1-m59-cB 8gsf-a1-m33-cB_8gsf-a1-m58-cB 8gsf-a1-m33-cB_8gsf-a1-m8-cB 8gsf-a1-m34-cB_8gsf-a1-m7-cB 8gsf-a1-m35-cB_8gsf-a1-m50-cB 8gsf-a1-m35-cB_8gsf-a1-m5-cB 8gsf-a1-m36-cB_8gsf-a1-m59-cB 8gsf-a1-m37-cB_8gsf-a1-m49-cB 8gsf-a1-m38-cB_8gsf-a1-m48-cB 8gsf-a1-m3-cB_8gsf-a1-m43-cB 8gsf-a1-m40-cB_8gsf-a1-m60-cB 8gsf-a1-m41-cB_8gsf-a1-m47-cB 8gsf-a1-m42-cB_8gsf-a1-m46-cB 8gsf-a1-m4-cB_8gsf-a1-m42-cB 8gsf-a1-m4-cB_8gsf-a1-m46-cB 8gsf-a1-m51-cB_8gsf-a1-m57-cB 8gsf-a1-m51-cB_8gsf-a1-m9-cB 8gsf-a1-m52-cB_8gsf-a1-m56-cB 8gsf-a1-m58-cB_8gsf-a1-m8-cB 8gsf-a1-m5-cB_8gsf-a1-m50-cB RVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ RVRSITLGNSTITTQECANVVVGYGVWPSYLQDNEATAEDQPTQPDVATCRFYTLDSIQWQKESDGWWWKFPEALKNMGLFGQNMEYHYLGRSGYTIHVQCNASKFHQGCLLVVCVPEAEMGCSDVEREVVAASLSSEDTAKSFSRTESNGQHTVQTVVYNAGMGVGVGNLTIFPHQWINLRTNNSATIVMPYINSVPMDNMFRHYNFTLMIIPFAKLEYTEQASNYVPITVTVAPMCAEYNGLRLASHQ 8gsg-a1-m2-cB_8gsg-a1-m3-cD T3R3 form of Human insulin with single Zn P01308 P01308 2.05 X-RAY DIFFRACTION 17 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 30 30 8gsg-a1-m1-cB_8gsg-a1-m2-cD 8gsg-a1-m1-cD_8gsg-a1-m3-cB FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT 8gst-a2-m1-cD_8gst-a2-m1-cC Crystal structure of L-2,4-diketo-3-deoxyrhamnonate hydrolase from Sphingomonas sp. (pyruvate bound-form) 1.71 X-RAY DIFFRACTION 106 1.0 28214 (Sphingomonas sp.) 28214 (Sphingomonas sp.) 285 290 8gsr-a1-m1-cB_8gsr-a1-m1-cA 8gsr-a2-m1-cD_8gsr-a2-m1-cC 8gst-a1-m1-cB_8gst-a1-m1-cA SKFCRFGQRGQEKPGIIDADGNIRDLSGVVPELTIDALAAAKGADIALLPLVEGEPRYGVPVKGIGKIVAIGLNYEDHAIESNLPIPTEPMMFMKALSSLNGPNDEVVLPKNSTHGDWEVELGVVIGETCRFVSEDEALSKVAGYVLVNDVSERFNQKQRGTQWSKGKGHDTFCPVGPWLVTPDEVGDPQDLDVHLDVNGERMQTGNTKTMIFNVAQLISYVSEYITLYPGDLMITGTPPGVGEGKKPQAIYLKAGDVMELGIEKLGTQRQQVSEWRHLGDEVFG HHHHGSKFCRFGQRGQEKPGIIDADGNIRDLSGVVPELTIDALAAAKGADIALLPLVEGEPRYGVPVKGIGKIVAIGLNYEDHAIESNLPIPTEPMMFMKALSSLNGPNDEVVLPKNSTHGDWEVELGVVIGETCRFVSEDEALSKVAGYVLVNDVSERFNQKQRGTQWSKGKGHDTFCPVGPWLVTPDEVGDPQDLDVHLDVNGERMQTGNTKTMIFNVAQLISYVSEYITLYPGDLMITGTPPGVGEGKKPQAIYLKAGDVMELGIEKLGTQRQQVSEWRHLGDEVFG 8gvf-a1-m1-cA_8gvf-a1-m1-cB The outward-facing structure of hAE2 in basic pH P04920 P04920 3.09 ELECTRON MICROSCOPY 55 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 511 511 8gv8-a1-m1-cB_8gv8-a1-m1-cA 8gv9-a1-m1-cA_8gv9-a1-m1-cB 8gva-a1-m1-cA_8gva-a1-m1-cB 8gvc-a1-m1-cA_8gvc-a1-m1-cB 8gve-a1-m1-cA_8gve-a1-m1-cB 8gvh-a1-m1-cA_8gvh-a1-m1-cB DPLRRTGRPFGGLIRDVRRRYPHYLSDFRDALDPQCLAAVIFIYFAALSPAITFGGLLGEKTQDLIGVSELIMSTALQGVVFCLLGAQPLLVIGFSGPLLVFEEAFFSFCSSNHLEYLVGRVWIGFWLVFLALLMVALEGSFLVRFVSRFTQEIFAFLISLIFIYETFYKLVKIFQEHPLHGCKPRGQPNTALLSLVLMAGTFFIAFFLRKFKNSRFFPGRIRRVIGDFGVPIAILIMVLVDYSIEDTYTQKLSVPSGFSVTAPEKRGWVINPLGEKSPFPVWMMVASLLPAILVFILIFMETQITTLIISKKERMLQKGSGFHLDLLLIVAMGGICALFGLPWLAAATVRSVTHANALTVMSKAVAPGDKPKIQEVKEQRVTGLLVALLVGLSIVIGDLLRQIPLAVLFGIFLYMGVTSLNGIQFYERLHLLLMPPKHHPDVTYVKKVRTLRMHLFTALQLLCLALLWAVMSTAASLAFPFILILTVPLRMVVLTRIFTDREMKCLDANE DPLRRTGRPFGGLIRDVRRRYPHYLSDFRDALDPQCLAAVIFIYFAALSPAITFGGLLGEKTQDLIGVSELIMSTALQGVVFCLLGAQPLLVIGFSGPLLVFEEAFFSFCSSNHLEYLVGRVWIGFWLVFLALLMVALEGSFLVRFVSRFTQEIFAFLISLIFIYETFYKLVKIFQEHPLHGCKPRGQPNTALLSLVLMAGTFFIAFFLRKFKNSRFFPGRIRRVIGDFGVPIAILIMVLVDYSIEDTYTQKLSVPSGFSVTAPEKRGWVINPLGEKSPFPVWMMVASLLPAILVFILIFMETQITTLIISKKERMLQKGSGFHLDLLLIVAMGGICALFGLPWLAAATVRSVTHANALTVMSKAVAPGDKPKIQEVKEQRVTGLLVALLVGLSIVIGDLLRQIPLAVLFGIFLYMGVTSLNGIQFYERLHLLLMPPKHHPDVTYVKKVRTLRMHLFTALQLLCLALLWAVMSTAASLAFPFILILTVPLRMVVLTRIFTDREMKCLDANE 8gwa-a1-m1-ca_8gwa-a1-m1-cA Structure of the intact photosynthetic light-harvesting antenna-reaction center complex from a green sulfur bacterium Q8KAY0 Q8KAY0 2.9 ELECTRON MICROSCOPY 302 1.0 194439 (Chlorobaculum tepidum TLS) 194439 (Chlorobaculum tepidum TLS) 662 667 6m32-a1-m1-cA_6m32-a1-m1-ca 7uea-a1-m1-ca_7uea-a1-m1-cA 7ueb-a1-m1-cA_7ueb-a1-m1-ca 7z6q-a1-m1-ca_7z6q-a1-m1-cA RRFLFQRTETRSTKWYQIFDTEKLDDEQVVGGHLALLGVLGFIMGIYYISGIQVFPWGAPGFHDNWFYLTIKPRMVSLGIDTYSTKTADLEAAGARLLGWAAFHFLVGSVLIFGGWRHWTHNLTNPFTGRCGNFRDFRFLGKFGDVVFNGTSAKSYKEALGPHAVYMSLLFLGWGIVMWAILGFAPIPDFQTINSETFMSFVFAVIFFALGIYWWNNPPNAAIHLNDDMKAAFSVHLTAIGYINIALGCIAFVAFQQPSFAPYYKELDKLVFYLYGEPFNRVSFNFVEQGGKVISGAKEFADFPAYAILPKSGEAFGMARVVTNLIVFNHIICGVLYVFAGVYHGGQYLLKIQLNGMYNQIKSIWITKGRDQEVQVKILGTVMALCFATMLSVYAVIVWNTICELNIFGTNITMSFYWLKPLPIFQWMFADPSINDWVMAHVITAGSLFSLIALVRIAFFAHTSPLWDDLGLKKNSYSFPCLGPVYGGTCGVSIQDQLWFAMLWGIKGLSAVCWYIDGAWIASMMYGVPAADAKAWDSIAHLHHHYTSGIFYYFWTETVTIFSSSHLSTILMIGHLVWFISFAVWFEDRGSRLEGADIQTRTIRWLGKKFLNRDVNFRFPVLTISDSKLAGTFLYFGGTFMLVFLFLANGFYQTNSPLPPPV DAAKMRRFLFQRTETRSTKWYQIFDTEKLDDEQVVGGHLALLGVLGFIMGIYYISGIQVFPWGAPGFHDNWFYLTIKPRMVSLGIDTYSTKTADLEAAGARLLGWAAFHFLVGSVLIFGGWRHWTHNLTNPFTGRCGNFRDFRFLGKFGDVVFNGTSAKSYKEALGPHAVYMSLLFLGWGIVMWAILGFAPIPDFQTINSETFMSFVFAVIFFALGIYWWNNPPNAAIHLNDDMKAAFSVHLTAIGYINIALGCIAFVAFQQPSFAPYYKELDKLVFYLYGEPFNRVSFNFVEQGGKVISGAKEFADFPAYAILPKSGEAFGMARVVTNLIVFNHIICGVLYVFAGVYHGGQYLLKIQLNGMYNQIKSIWITKGRDQEVQVKILGTVMALCFATMLSVYAVIVWNTICELNIFGTNITMSFYWLKPLPIFQWMFADPSINDWVMAHVITAGSLFSLIALVRIAFFAHTSPLWDDLGLKKNSYSFPCLGPVYGGTCGVSIQDQLWFAMLWGIKGLSAVCWYIDGAWIASMMYGVPAADAKAWDSIAHLHHHYTSGIFYYFWTETVTIFSSSHLSTILMIGHLVWFISFAVWFEDRGSRLEGADIQTRTIRWLGKKFLNRDVNFRFPVLTISDSKLAGTFLYFGGTFMLVFLFLANGFYQTNSPLPPPV 8gx9-a1-m1-cH_8gx9-a1-m1-cI Crystal structure of SARS-CoV-2 RBD with P2C-1F11 and P2B-1G5 4.01 X-RAY DIFFRACTION 48 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 209 209 VQLVESGGGLVQPGGSLRLSCAASGITVSSNYMNWVRQAPGKGLEWVSLIYSGGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYHCARDLVVYGMDVWGQGTTVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVE VQLVESGGGLVQPGGSLRLSCAASGITVSSNYMNWVRQAPGKGLEWVSLIYSGGSTYYADSVKGRFTISRDNSKNTLYLQMNSLRAEDTAVYHCARDLVVYGMDVWGQGTTVTVSSASTKGPSVFPLAPSGTAALGCLVKDYFPEPVTVSWNSGALTSGVHTFPAVLQSSGLYSLSSVVTVPSSSLGTQTYICNVNHKPSNTKVDKKVE 8gxf-a2-m1-cC_8gxf-a2-m1-cD Pseudomonas flexibilis GCN5 family acetyltransferase A0A0B3C4T8 A0A0B3C4T8 3.04 X-RAY DIFFRACTION 58 1.0 706570 (Pseudomonas flexibilis) 706570 (Pseudomonas flexibilis) 187 187 8gxf-a1-m1-cA_8gxf-a1-m1-cB FKPQPVTLRRGALCLEPLAEADLVELLSLAEANRQSLIYMNGPLRPDWYRQGLAEQREGQAVIYAVRQDHALVGTTRFFDFMPGLPAVEIGGTWLAEDRHGSGLNAAIKFLMLRQAFEQWEMVRVQLKTAASNLRAQRAIEKLGARREGQLRNHRRLADGRLDDSILYSITDRDWPEIRRTLETELS FKPQPVTLRRGALCLEPLAEADLVELLSLAEANRQSLIYMNGPLRPDWYRQGLAEQREGQAVIYAVRQDHALVGTTRFFDFMPGLPAVEIGGTWLAEDRHGSGLNAAIKFLMLRQAFEQWEMVRVQLKTAASNLRAQRAIEKLGARREGQLRNHRRLADGRLDDSILYSITDRDWPEIRRTLETELS 8gxk-a2-m1-cC_8gxk-a2-m1-cD Pseudomonas jinjuensis N-acetyltransferase A0A1H0A919 A0A1H0A919 1.78 X-RAY DIFFRACTION 62 0.995 198616 (Pseudomonas jinjuensis) 198616 (Pseudomonas jinjuensis) 187 187 8gxk-a1-m1-cA_8gxk-a1-m1-cB RPLPITLQRGALRLEPMVEADVPELVELADANREVLQYMSAPQRPDWYRQAIADQREGRALPLVVRLGNRIVGTTRFLDFMPALPACEIGGTWLEQSQHGMGLNASMKYLMLRHAFDSWQMVRVQLKTAASNLRSQRAIEKLGAVREGVLRNHRRLAGGRLDDSVLYSITDHEWPQVKAALEAGFSG FRPLPITLQRGALRLEPMVEADVPELVELADANREVLQYMSAPQRPDWYRQAIADQREGRALPLVVRLGNRIVGTTRFLDFMPALPACEIGGTWLEQSQHGMGLNASMKYLMLRHAFDSWQMVRVQLKTAASNLRSQRAIEKLGAVREGVLRNHRRLAGGRLDDSVLYSITDHEWPQVKAALEAGFS 8gxl-a1-m1-cA_8gxl-a1-m1-cB HUMAN SUGP1 433-577 Q8IWZ8 Q8IWZ8 2.4 X-RAY DIFFRACTION 36 0.983 9606 (Homo sapiens) 9606 (Homo sapiens) 119 122 8gxm-a1-m1-cA_8gxm-a1-m1-cB ELSDAQKKQLKEQQEMQQMYDMIMQHKRAMQDMQLLWEKAVQTWEHQLRRMEMDKTREWAEQLTKMHFIGDFLPPDELEKFMETFKALKEGREPDYSEYKEFKLTVENIGYQMLMKMGW VTELSDAQKKQLKEQQEMQQMYDMIMQHKRAMQDMQLLWEKAVQQGTWEHQLRRMEMDKTREWAEQLTKMGIGDFLPPDELEKFMETFKALKEGREPDYSEYKEFKLTVENIGYQMLMKMGW 8gy0-a1-m1-cA_8gy0-a1-m1-cB Agrocybe pediades linalool sunthase (Ap.LS) A0A8H4VHP2 A0A8H4VHP2 1.988 X-RAY DIFFRACTION 70 1.0 84607 (Agrocybe pediades) 84607 (Agrocybe pediades) 314 314 IYIPDLLITWPWQKVRNPLLQEVQDEANEWVKSFVLFEPEQFEKFKACDFNLLGALVGPLGTKEELRISCDLMNFYFAFDEYTDLASADEAKVIARDVMESFRHTDKPSHNKITEMARQFFERTINTVGNDPTGIEQFIADFDAYTTSIIQEADDRASGHIRSVEDYFILRRDTCGGKPSFSFFGLGLNIPKEVFAHPMFISMTESATDLIAITNDMHSYNLEQSRGLDGHNVITAIMHEYKINLQGALYWLSGYATKTIAKFISDRKNLPSWGPVVDRAVEQYFDRVGRCVRGYDAWSYETKRYYGKNGLEIQ IYIPDLLITWPWQKVRNPLLQEVQDEANEWVKSFVLFEPEQFEKFKACDFNLLGALVGPLGTKEELRISCDLMNFYFAFDEYTDLASADEAKVIARDVMESFRHTDKPSHNKITEMARQFFERTINTVGNDPTGIEQFIADFDAYTTSIIQEADDRASGHIRSVEDYFILRRDTCGGKPSFSFFGLGLNIPKEVFAHPMFISMTESATDLIAITNDMHSYNLEQSRGLDGHNVITAIMHEYKINLQGALYWLSGYATKTIAKFISDRKNLPSWGPVVDRAVEQYFDRVGRCVRGYDAWSYETKRYYGKNGLEIQ 8gyh-a1-m1-cB_8gyh-a1-m1-cA Crystal structure of Fic25 (apo form) from Streptomyces ficellus A0A1W5T2G9 A0A1W5T2G9 1.8 X-RAY DIFFRACTION 175 1.0 1977088 (Streptomyces ficellus) 1977088 (Streptomyces ficellus) 417 421 8gyi-a1-m1-cA_8gyi-a1-m1-cB 8gyj-a1-m1-cA_8gyj-a1-m1-cB SKLAAFGGPPAVPRDRRHVEWPLVEDEDRKAVIDALDGENPVSTLEEQWAGRFGFGHCVAVSTGTAALSLALAALGVGPGDEVIVPALSFIATGLAPVHQMAVPVFADVDPVTFNLDPDDVERRITGRTAAIIPVHLHGAPADMDRITAIARRHGLAVIEDAAQAPGATHRGRPVGGIGDAGAFSLQATKNIPTCGEGGLLVTGNAELAESVRRGRQFGEVIESGRERDYVSYGLGWNHKMNALQAAFTSAQLTRFDDYESARQRNVAAFLARLAELPGLRVPTAAPDTTHAWHILRFRFDPAAFGLDGVRPQALRSALRRLLRAEGVPMSQYQLMPLPDQKVFVDRVGFGGGYPWTVTGATGGEDHPVARAVIADSLTLQKRHLHPESGELLHLYADAFEKVWANPDMVATLAGAA SKLAAFGGPPAVPRDRRHVEWPLVEDEDRKAVIDALDGAENPVSTLEEQWAGRFGFGHCVAVSTGTAALSLALAALGVGPGDEVIVPALSFIATGLAPVHQMAVPVFADVDPVTFNLDPDDVERRITGRTAAIIPVHLHGAPADMDRITAIARRHGLAVIEDAAQAPGATHRGRPVGGIGDAGAFSLQATKNIPTCGEGGLLVTGNAELAESVRRGRQFGEVIESGRERDYVSYGLGWNHKMNALQAAFTSAQLTRFDDYESARQRNVAAFLARLAELPGLRVPTAAPDTTHAWHILRFRFDPAAFGLDGVRPQALRSALRRLLRAEGVPMSQYQLMPLPDQKVFVDRVGFGGGYPWTVTGATGPAAGEDHPVARAVIADSLTLQKRHLHPESGELLHLYADAFEKVWANPDMVATLAGAA 8gyx-a1-m1-cA_8gyx-a1-m1-cB Cryo-EM structure of human CEPT1 Q9Y6K0 Q9Y6K0 3.7 ELECTRON MICROSCOPY 16 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 380 380 8gyw-a1-m1-cA_8gyw-a1-m1-cB TGCVLNKLFQLPTPPLSRHQLKRLEEHRYQSAGRSLLEPLMQGYWEWLVRRVPSWIAPNLITIIGLSINICTTILLVFYCPTATEQAPLWAYIACACGLFIYQSLDAIDGKQARRTNSSSPLGELFDHGCDSLSTVFVVLGTCIAVQLGTNPDWMFFCCFAGTFMFYCAHWQTYVSGTLRFGIIDVTEVQIFIIIMHLLAVIGGPPFWQSMIPVLNIQMKIFPALCTVAGTIFSCTNYFRVIFTGGVGKNGSTIAGTSVLSPFLHIGSVITLAAMIYKKSAVQLFEKHPCLYILTFGFVSAKITNKLVVAHMTKSEMHLHDTAFIGPALLFLDQYFNSFIDEYIVLWIALVFSFFDLIRYCVSVCNQIASHLHIHVFRIK TGCVLNKLFQLPTPPLSRHQLKRLEEHRYQSAGRSLLEPLMQGYWEWLVRRVPSWIAPNLITIIGLSINICTTILLVFYCPTATEQAPLWAYIACACGLFIYQSLDAIDGKQARRTNSSSPLGELFDHGCDSLSTVFVVLGTCIAVQLGTNPDWMFFCCFAGTFMFYCAHWQTYVSGTLRFGIIDVTEVQIFIIIMHLLAVIGGPPFWQSMIPVLNIQMKIFPALCTVAGTIFSCTNYFRVIFTGGVGKNGSTIAGTSVLSPFLHIGSVITLAAMIYKKSAVQLFEKHPCLYILTFGFVSAKITNKLVVAHMTKSEMHLHDTAFIGPALLFLDQYFNSFIDEYIVLWIALVFSFFDLIRYCVSVCNQIASHLHIHVFRIK 8gyz-a1-m1-cA_8gyz-a1-m1-cB Crystal structure of transcription factor TGA7 from Arabidopsis Q93ZE2 Q93ZE2 2.06 X-RAY DIFFRACTION 107 0.991 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 212 215 NTGIASFEMEYSHWLQEQSRRVSELRTALQSHISDIELKMLVESCLNHYANLFQMKSDAAKADVFYLISGMWRTSTERFFQWIGGFRPSELLNVVMPYLQPLTDQQILEVRNLQQSSQQAEDALSQGIDKLQQSLAESIVIDAVIESTHYPTHMAAAIENLQALEGFVNQADHLRQQTLQQMAKILTTRQSARGLLALGEYLHRLRALSSLW GIASFEMEYSHWLQEQSRRVSELRTALQSHISDIELKMLVESCLNHYANLFQMKSDAAKADVFYLISGMWRTSTERFFQWIGGFRPSELLNVVMPYLQPLTDQQILEVRNLQQSSQQAEDALSQGIDKLQQSLAESIVIDAVIESTHYPTHMAAAIENLQALEGFVNQADHLRQQTLQQMAKILTTRQSARGLLALGEYLHRLRALSSLWAARPQ 8gzh-a1-m1-cB_8gzh-a1-m1-cA Cryo-EM structure of Synechocystis sp. PCC 6803 CTP-bound RPitc P73297 P73297 2.96 ELECTRON MICROSCOPY 88 0.995 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 217 219 8gzg-a1-m1-cB_8gzg-a1-m1-cA QFQIECVESSTRKNQQQYSKFSLEPLDRGQGTTVGNALRRVLLSNLPGAAVTAIRIAGVNHEFATILGVREDVLEIMLNMKELVLKSYTDQPQIGRLTAIGPGTVTAAQFEVPSEVEVIDPNQYIATLAEGAKLEMEFRVERGVGYRVIERGDFLQIDSVFMPVTKVNYTVEDIRADGMSPKDRLILDIWTNGSIQPREALSEASDIIANLFIPLKD FQIECVESSTRKNQQQYSKFSLEPLDRGQGTTVGNALRRVLLSNLPGAAVTAIRIAGVNHEFATILGVREDVLEIMLNMKELVLKSYTDQPQIGRLTAIGPGTVTAAQFEVPSEVEVIDPNQYIATLAEGAKLEMEFRVERGVGYRVIERGLDFLQIDSVFMPVTKVNYTVEDIRADGMSPKDRLILDIWTNGSIQPREALSEASDIIANLFIPLKDLN 8h03-a1-m1-cB_8h03-a1-m1-cF Major polymorph in alpha-synuclein fibril seeded by cerebrospinal fluid from a preclinical Parkinson's disease patient P37840 P37840 2.8 ELECTRON MICROSCOPY 250 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 61 61 7ozh-a1-m1-cA_7ozh-a1-m1-cC 7ozh-a1-m1-cB_7ozh-a1-m1-cD 7ozh-a1-m1-cC_7ozh-a1-m1-cE 7ozh-a1-m1-cD_7ozh-a1-m1-cF 7ozh-a1-m1-cE_7ozh-a1-m1-cG 7ozh-a1-m1-cF_7ozh-a1-m1-cH 7ozh-a1-m1-cG_7ozh-a1-m1-cI 7ozh-a1-m1-cH_7ozh-a1-m1-cJ 7v47-a1-m1-cA_7v47-a1-m1-cC 7v47-a1-m1-cB_7v47-a1-m1-cE 7v47-a1-m1-cC_7v47-a1-m1-cD 7v47-a1-m1-cE_7v47-a1-m1-cF 7v48-a1-m1-cA_7v48-a1-m1-cC 7v48-a1-m1-cA_7v48-a1-m1-cD 7v48-a1-m1-cB_7v48-a1-m1-cE 7v48-a1-m1-cB_7v48-a1-m1-cF 7xo0-a1-m1-cA_7xo0-a1-m1-cC 7xo0-a1-m1-cA_7xo0-a1-m1-cD 7xo0-a1-m1-cB_7xo0-a1-m1-cE 7xo0-a1-m1-cB_7xo0-a1-m1-cF 7xo1-a1-m1-cA_7xo1-a1-m1-cB 7xo1-a1-m1-cB_7xo1-a1-m1-cC 7xo1-a1-m1-cD_7xo1-a1-m1-cE 7xo1-a1-m1-cD_7xo1-a1-m1-cF 7xo2-a1-m1-cA_7xo2-a1-m1-cB 7xo2-a1-m1-cA_7xo2-a1-m1-cC 7xo2-a1-m1-cD_7xo2-a1-m1-cE 7xo2-a1-m1-cD_7xo2-a1-m1-cI 7xo3-a1-m1-cA_7xo3-a1-m1-cC 7xo3-a1-m1-cA_7xo3-a1-m1-cD 7xo3-a1-m1-cB_7xo3-a1-m1-cE 7xo3-a1-m1-cB_7xo3-a1-m1-cF 8h03-a1-m1-cA_8h03-a1-m1-cC 8h03-a1-m1-cA_8h03-a1-m1-cD 8h03-a1-m1-cB_8h03-a1-m1-cE 8h04-a1-m1-cA_8h04-a1-m1-cC 8h04-a1-m1-cA_8h04-a1-m1-cD 8h04-a1-m1-cB_8h04-a1-m1-cE 8h04-a1-m1-cB_8h04-a1-m1-cF GVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK GVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFVK 8h05-a1-m1-cA_8h05-a1-m1-cC Minor polymorph in alpha-synuclein fibril seeded by cerebrospinal fluid from a postmortal Parkinson's disease patient P37840 P37840 3.4 ELECTRON MICROSCOPY 229 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 60 60 7v49-a1-m1-cA_7v49-a1-m1-cB 7v49-a1-m1-cA_7v49-a1-m1-cC 8h05-a1-m1-cA_8h05-a1-m1-cB GVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFV GVLYVGSKTKEGVVHGVATVAEKTKEQVTNVGGAVVTGVTAVAQKTVEGAGSIAAATGFV 8h07-a1-m1-cC_8h07-a1-m1-cB SARS-CoV-2 BA.4 variants S ectodomain trimer in complex with neutralizing antibody 10-5B and 6-2C P0DTC2 P0DTC2 2.9 ELECTRON MICROSCOPY 259 0.985 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 947 948 SYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTIRGWIFGTTLLIVNNATNVVIKVFEYVSLREFVFKNIDGYFKIYSKHLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGVNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPL SYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFGVYFASTEKSNIIRGWIFGTQSLLIVNNATNVVIKVCEYVSQPNLREFVFKNIDGYFKIYSKHTLPQGFSALEPLVDLPIGINITRFQTLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGVNCYFPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPL 8h07-a1-m1-cH_8h07-a1-m1-cJ SARS-CoV-2 BA.4 variants S ectodomain trimer in complex with neutralizing antibody 10-5B and 6-2C 2.9 ELECTRON MICROSCOPY 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 107 107 DIQMTQSPSSVSASVGDRVTITCRASQGISTWLAWYQQKPGKAPKVLINAASGLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQAHSFPPTFGPGTKLEIK DIQMTQSPSSVSASVGDRVTITCRASQGISTWLAWYQQKPGKAPKVLINAASGLQSGVPSRFSGSGSGTDFTLTISSLQPEDFATYYCQQAHSFPPTFGPGTKLEIK 8h08-a1-m1-cB_8h08-a1-m1-cC SARS-CoV-2 BA.1 variants S ectodomain trimer in complex with neutralizing antibody 10-5B and 6-2C P0DTC2 P0DTC2 3.2 ELECTRON MICROSCOPY 252 0.988 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 933 948 PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFDGVYFASIIIRGWIFGTSLLIVNNVVIKVFEYVSQNLREFVFKNFKIYSKHTPFSALEPLVDLPITRFQTLLYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNLAPFFTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELD PAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHDNPVLPFNDGVYFASIIIRGWIFGIVNNATNVVIKVFEYVSQLREFVFKNIDGYFKIYSKHTDLPQGFSALEPLVDLPTRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNLAPFFTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 8h0t-a1-m1-cA_8h0t-a1-m2-cA Crystal structure of MnmM from B. subtilis complexed with SAH (1.17 A) O34614 O34614 1.17 X-RAY DIFFRACTION 84 1.0 224308 (Bacillus subtilis subsp. subtilis str. 168) 224308 (Bacillus subtilis subsp. subtilis str. 168) 184 184 8h0s-a1-m1-cD_8h0s-a1-m1-cA MILKKILPYSKELLKMAAGEGDIVVDATMGNGHDTQFLAELVGENGHVYAFDIQESAVANTKERLGDMYQARTTLFHKSHDKIAESLPPETHGKVAAAVFNLGYLPGGDKSITTNGSSTIKAIEQLLSIMKDEGLIVLVVYHGHPENDVLEFCRDLDQQTARVLTYGFINQQNDPPFIVAIEKK MILKKILPYSKELLKMAAGEGDIVVDATMGNGHDTQFLAELVGENGHVYAFDIQESAVANTKERLGDMYQARTTLFHKSHDKIAESLPPETHGKVAAAVFNLGYLPGGDKSITTNGSSTIKAIEQLLSIMKDEGLIVLVVYHGHPENDVLEFCRDLDQQTARVLTYGFINQQNDPPFIVAIEKK 8h13-a1-m1-cB_8h13-a1-m1-cC Structure of SARS-CoV-1 Spike Protein with Engineered x2 Disulfide (G400C and V969C), Closed Conformation P59594 P59594 4.05 ELECTRON MICROSCOPY 262 1.0 2901879 (Severe acute respiratory syndrome coronavirus) 2901879 (Severe acute respiratory syndrome coronavirus) 931 931 8h10-a1-m1-cA_8h10-a1-m1-cB 8h10-a1-m1-cA_8h10-a1-m1-cC 8h10-a1-m1-cB_8h10-a1-m1-cC 8h13-a1-m1-cA_8h13-a1-m1-cB 8h13-a1-m1-cA_8h13-a1-m1-cC TQHTSSMRGVYYPDEIFRSDTLYLTQDLFLPFYSNVTGFHKDGIYFAATVVRGWVFGSTQSVIIINNSTNVVIFEYISDKHLREFVFKNKDGFLYVYKGYQPIDVVRDLPSGFNTLKPIFKLPLFRAILTAAAAYFVGYLKPTTFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRFPNITNLCPFGEVFNATKFPSVYAWERKKISNCVADYSVLFKCYGVSATKLNDLCFSNVYADSFVVKGDDVRQIAPCQTGVIADYNYKLPDDFMGCVLAWNTRNINYNYKYRYLRHGKLRPFERPLNDYGFYTTTGIGYQPYRVVVLSFNAPATVCGPKLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCSFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYHTQKSIVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVKFNGLTVLPPLLTDDMIAAYTAALVSGTATAGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKCEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVYDPL TQHTSSMRGVYYPDEIFRSDTLYLTQDLFLPFYSNVTGFHKDGIYFAATVVRGWVFGSTQSVIIINNSTNVVIFEYISDKHLREFVFKNKDGFLYVYKGYQPIDVVRDLPSGFNTLKPIFKLPLFRAILTAAAAYFVGYLKPTTFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRFPNITNLCPFGEVFNATKFPSVYAWERKKISNCVADYSVLFKCYGVSATKLNDLCFSNVYADSFVVKGDDVRQIAPCQTGVIADYNYKLPDDFMGCVLAWNTRNINYNYKYRYLRHGKLRPFERPLNDYGFYTTTGIGYQPYRVVVLSFNAPATVCGPKLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCSFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYHTQKSIVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVKFNGLTVLPPLLTDDMIAAYTAALVSGTATAGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKCEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVYDPL 8h15-a1-m1-cB_8h15-a1-m1-cC Structure of SARS-CoV-1 Spike Protein (S/native) at pH 5.5, Closed Conformation P59594 P59594 3.14182 ELECTRON MICROSCOPY 280 0.997 2901879 (Severe acute respiratory syndrome coronavirus) 2901879 (Severe acute respiratory syndrome coronavirus) 958 962 6nb6-a1-m1-cA_6nb6-a1-m1-cC 6nb6-a1-m1-cB_6nb6-a1-m1-cA TQHTSSMRGVYYPDEIFRSDTLYLTQDLFLPFYSNVTGFHNPVIPFKDGIYFAATENVVRGWVFGSTMNNKSQSVIIINNSTNVVIRACNFELNAFNCTFEYISDKHLREFVFKNKDGFLYVYKGYQPIDLPSGFNTLKPIFKLPLGINITNFRAILAAYFVGYLKPTTFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRFPNITNLCPFGEVFNATKFPSVYAWERKKISNCVADYSVLYNSTFFSTFKCYGVSATKLNDLCFSNVYADSFVVKGDDVRQIAPGQTGVIADYNYKLPDDFMGCVLAWNTKYRYLRHGKLRPFERDIQPYRVVVLSFELLNAPATVCGPKLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCSFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYHTQKSIVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVTLKQYGECLICAQKFNGLTVLPPLLTDDMIAAYTAALVSGTATAGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVYD TQHTSSMRGVYYPDEIFRSDTLYLTQDLFLPFYSNVTGFHNPVIPFKDGIYFAATENVVRGWVFGSTMNNKSQSVIIINNSTNVVIRACNFENAFNCTFEYISDHLREFVFKNKDGFLYVYKGYQPIDLPSGFNTLKPIFKLPLGINITNFRAILTAAYFVGYLKPTTFMLKYDENGTITDAVDCSQNPLAELKCSVKSFEIDKGIYQTSNFRVVPSGDVVRFPNITNLCPFGEVFNATKFPSVYAWERKKISNCVADYSVLYNSTFFSTFKCYGVSATKLNDLCFSNVYADSFVVKGDDVRQIAPGQTGVIADYNYKLPDDFMGCVLAWNTYKYRYLRHGKLRPFERDIPLNDYQPYRVVVLSFELLNAPATVCGPKLSTDLIKNQCVNFNFNGLTGTGVLTPSSKRFQPFQQFGRDVSDFTDSVRDPKTSEILDISPCSFGGVSVITPGTNASSEVAVLYQDVNCTDVSTAIHADQLTPAWRIYSTGNNVFQTQAGCLIGAEHVDTSYECDIPIGAGICASYHTQKSIVAYTMSLGADSSIAYSNNTIAIPTNFSISITTEVMPVSMAKTSVDCNMYICGDSTECANLLLQYGSFCTQLNRALSGIAAEQDRNTREVFAQVKQMYKTPTLKYFGGFNFSQILPDPLKPTKRSFIEDLLFNKVTLQYGECLICAQKFNGLTVLPPLLTDDMIAAYTAALVSGTATAGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKQIANQFNKAISQIQESLTTTSTALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDKVEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQAAPHGVVFLHVTYVPSQERNFTTAPAICHEGKAYFPREGVFVFNGTSWFITQRNFFSPQIITTDNTFVSGNCDVVIGIINNTVYD 8h26-a1-m1-cE_8h26-a1-m1-cA Crystal structure of MnmM from S. aureus complexed with SAH (1.50 A) Q2FXG9 Q2FXG9 1.5 X-RAY DIFFRACTION 92 0.988 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 93061 (Staphylococcus aureus subsp. aureus NCTC 8325) 169 175 8h1a-a1-m1-cB_8h1a-a1-m1-cA 8h1b-a1-m1-cA_8h1b-a1-m1-cB 8h26-a2-m1-cB_8h26-a2-m1-cC 8h26-a3-m1-cF_8h26-a3-m1-cD 8h27-a1-m1-cC_8h27-a1-m1-cA 8h27-a2-m1-cD_8h27-a2-m1-cB MKLERILPFSKTLIKQHITPESIVVDATCGNGNDTLFLAEQVPEGHVYGFDIQDLALENTRDKVKDFNHVSLIKDGHENIEHHINDAHKGHIDAAIFNLGPDTTIQAINSLLSLMSIEGIIVLVIYHKHALLDYLSTLDQKHAQVLQYQFLNQRNHAPFICAIEKISGH MKLERILPFSKTLIKQHITPESIVVDATCGNGNDTLFLAEQVPEGHVYGFDIQDLALENTRDKVKDFNHVSLIKDGHENIEHHINDAHKGHIDAAIFNLGYVTKPDTTIQAINSLLSLMSIEGIIVLVIYHGQIEKHALLDYLSTLDQKHAQVLQYQFLNQRNHAPFICAIEKIS 8h2c-a2-m1-cC_8h2c-a2-m1-cD Crystal structure of the pseudaminic acid synthase PseI from Campylobacter jejuni A0A6C7NV50 A0A6C7NV50 2.9 X-RAY DIFFRACTION 235 0.997 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 341 341 8h2c-a1-m1-cB_8h2c-a1-m1-cA MQIGNFNTDKKVFIIAELSANHAGSLEMALKSIKAAKKAGADAIKIQTYTPDSLTLNSDKEDFIIKGLWDKRKLYELYESAKTPYEWHSQIFETAQNEGILCFSSPFAKEDVEFLKRFDPIAYKIASFEANDENFVRLIAKEKKPTIVSTGIATEEELFKICEIFKEEKNPDLIFLKCTSAYPAAIEDMNLKGIVSLKEKFNVEVGLSDHSFGFLAPVMAVALGARVIEKHFMLDKSIESEDSKFSLDFDEFKAMVDAVRQAESALGDDKLDLDEKALKNRVFARSLYASKDIKKGEIFSEENVKSVRPSFGLHPKFYQELLGKKATKDIKFGDALKQGDF QIGNFNTDKKVFIIAELSANHAGSLEMALKSIKAAKKAGADAIKIQTYTPDSLTLNSDKEDFIIKGGLWDKRKLYELYESAKTPYEWHSQIFETAQNEGILCFSSPFAKEDVEFLKRFDPIAYKIASFEANDENFVRLIAKEKKPTIVSTGIATEEELFKICEIFKEEKNPDLIFLKCTSAYPAAIEDMNLKGIVSLKEKFNVEVGLSDHSFGFLAPVMAVALGARVIEKHFMLDKSIESEDSKFSLDFDEFKAMVDAVRQAESALGDDKLDLDEKALKNRVFARSLYASKDIKKGEIFSEENVKSVRPSFGLHPKFYQELLGKKATKDIKFGDALKQGDF 8h2i-a1-m4-cbG_8h2i-a1-m5-cbG Near-atomic structure of five-fold averaged PBCV-1 capsid M1I677 M1I677 3.8 ELECTRON MICROSCOPY 133 1.0 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 504 504 8h2i-a1-m1-cbG_8h2i-a1-m2-cbG 8h2i-a1-m1-cbG_8h2i-a1-m5-cbG 8h2i-a1-m2-cbG_8h2i-a1-m3-cbG 8h2i-a1-m3-cbG_8h2i-a1-m4-cbG DDIETIEKYGRDETYIFLADSAKRDTAAYPTAAEYEVLFNAQFRNVTKFELLEVNIPRTEYLIDSSENTFAYALNQPTNINTWQQEIEGNIRIATITPGDYNLPQLIDEMNNVLQQTANTYGDSVILQVSPVTNPSEISNKIRITASGPFTLLGSTGTIGNTIGFGDPVNTSVASTTGYYSTVPGYSVNYPNGADYVFLSNQAVNEFVGPLPPGDNVSFTPIYTGQTPSQYFIAPSAGVPTTVSAYFVDQATAPPGGFVVNYSIIKVSDSSTIATGSLISTNDDLVPSVSSPSVVSANFIQGQQYYIQFTPGSSGSSAGNCTALWYSFPNLPPVSGAYAAINGTLVFPGQYFCTDVSAGANELTSPGIVNITGARYIKIRCKELEQLIYRDRVGEPTTAGIGIVNLIGYGFERSRYDFSSIPVKAFHPIGKLQKLTFRLERPNGTLYDTNGVDNTMLCALTFKVVPNNAVAAPGYSGDYIQLQQKRWGEEARATYPTHKSTYNR DDIETIEKYGRDETYIFLADSAKRDTAAYPTAAEYEVLFNAQFRNVTKFELLEVNIPRTEYLIDSSENTFAYALNQPTNINTWQQEIEGNIRIATITPGDYNLPQLIDEMNNVLQQTANTYGDSVILQVSPVTNPSEISNKIRITASGPFTLLGSTGTIGNTIGFGDPVNTSVASTTGYYSTVPGYSVNYPNGADYVFLSNQAVNEFVGPLPPGDNVSFTPIYTGQTPSQYFIAPSAGVPTTVSAYFVDQATAPPGGFVVNYSIIKVSDSSTIATGSLISTNDDLVPSVSSPSVVSANFIQGQQYYIQFTPGSSGSSAGNCTALWYSFPNLPPVSGAYAAINGTLVFPGQYFCTDVSAGANELTSPGIVNITGARYIKIRCKELEQLIYRDRVGEPTTAGIGIVNLIGYGFERSRYDFSSIPVKAFHPIGKLQKLTFRLERPNGTLYDTNGVDNTMLCALTFKVVPNNAVAAPGYSGDYIQLQQKRWGEEARATYPTHKSTYNR 8h2i-a1-m5-ccl_8h2i-a1-m5-ccm Near-atomic structure of five-fold averaged PBCV-1 capsid Q84629 Q84629 3.8 ELECTRON MICROSCOPY 65 0.982 10506 (Paramecium bursaria Chlorella virus 1) 10506 (Paramecium bursaria Chlorella virus 1) 55 63 8h2i-a1-m1-ccl_8h2i-a1-m1-ccm 8h2i-a1-m2-ccl_8h2i-a1-m2-ccm 8h2i-a1-m3-ccl_8h2i-a1-m3-ccm 8h2i-a1-m4-ccl_8h2i-a1-m4-ccm FTSFVLMLLFTGIILIATNELTYNRPREIQYRYLPRDLDSFIRTQEMPSAIFSSM TSFVLMLLFTGIILIATNELTYNRPREIQYRYLPRDLDSFIRTQEMPSAIFSSMWDVDTRRGG 8h3d-a1-m1-cA_8h3d-a1-m1-cC Structure of apo SARS-CoV-2 spike protein with one RBD up P10104 P10104 3.27 ELECTRON MICROSCOPY 218 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1023 1039 8h3d-a1-m1-cA_8h3d-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYSWMESEFRVYSTFEYVSQPFNFKNLREFVFKNIDGYFKIYSKHTPDLPQGFSALEPLVDLPITRFQTLLALHRSYLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVAIGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHANPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLGVYYSWMESEFRVYSSANNCTFEYVSQPFLMDLEGKQGNFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHRSYLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYLYRLFRKSNLKPFERDISTEIYQAGSTPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQDVNCTEVPVGSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLALICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQDVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPE 8h3m-a1-m1-cB_8h3m-a1-m1-cA Conformation 1 of SARS-CoV-2 Omicron BA.1 Variant Spike protein complexed with MO1 Fab P0DTC2 P0DTC2 2.48 ELECTRON MICROSCOPY 296 0.984 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 763 910 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHNPVLPFNDGVYFARGWIFGTSLLIVNVVIKVEYVSQNLREFVFKNFKIYSKHLPQGFSALEPLVDLPIGINITRFQTAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQYGDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVTFEYVSQKNLREFVFKNIDGYFKIYSKHTPLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLFTFKCYGVSPTKLNDLCFTNVYADSFVIRGFTGCVIAWNSNKLDSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVY 8h3n-a1-m1-cC_8h3n-a1-m1-cA Conformation 2 of SARS-CoV-2 Omicron BA.1 Variant Spike protein complexed with MO1 Fab P0DTC2 P0DTC2 2.73 ELECTRON MICROSCOPY 343 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 1017 8h3n-a1-m1-cB_8h3n-a1-m1-cA AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSNLKPFERDISTEIYYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFESEFRVYSSANNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNLAPFFTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSNLKPFERDISTEIYQAGNKPCNGVAGFNCYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVY 8h3n-a1-m1-cC_8h3n-a1-m1-cB Conformation 2 of SARS-CoV-2 Omicron BA.1 Variant Spike protein complexed with MO1 Fab P0DTC2 P0DTC2 2.73 ELECTRON MICROSCOPY 304 0.98 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 977 985 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFNNCTFEYVSQFKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFRKSNLKPFERDISTEIYYFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHVNPVLPFNDGVYFASIEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFRVYSSANNCTFEYVSQKNLREFVFKNIDGYFKIYSKHTPIDLPQGFSALEPLVDLPIGINITRFQTLLAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFDEVFNATRFASVYAWNRKRISNCVADYSVLYNLFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKVSGNYNYLYRLFPLRSYSFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLKGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVPVAIHADQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQYGDLICAQKFKGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDIFSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 8h50-a2-m1-cC_8h50-a2-m2-cC Crystal structure of carboxyspermidine dehydrogenase from Helicobacter pylori in space group C2221 A0A2X5A3P4 A0A2X5A3P4 2.9 X-RAY DIFFRACTION 60 1.0 102618 (Helicobacter pylori NCTC 11637 = CCUG 17874 = ATCC 43504 = JCM 12093) 102618 (Helicobacter pylori NCTC 11637 = CCUG 17874 = ATCC 43504 = JCM 12093) 391 391 8h4z-a1-m1-cB_8h4z-a1-m1-cA 8h4z-a2-m1-cC_8h4z-a2-m1-cD 8h50-a1-m1-cA_8h50-a1-m1-cB 8h52-a1-m1-cA_8h52-a1-m2-cA MHTVLQIGAGGVGSVVAHKMGMNRDVFKNIILASRSLDKCYAIKESMLKKGLGEIGVEQVDADDTQALVALIQKYKPKVVINVALPYQDLTIMQACLETKTHYIDTAKFEYKEQWAFDRAYKEARILGVLGAGFDPGVTNAYVAHAQRHHFDTIHTLDILDCNAGDHKRPFATNFNPEINLREVSSKGRYYENGKWIETKPLEIKQVWAYPQIGEMDSYLLYHEELESLVKNIKGLRRARFFMTFSQNYLTHMKCLENVGMLGIKEIEHQGVKIVPIQFLKTLLPDPATLAKDTTGKTNIGCYMTGIKNNQDKTLYIYNVCDHKKCYEEVGSQAISYTTGVPAMCAAKMICNDTWSADHFRAGVFNIEELNTDPFMEELIKQGLPYEVIER MHTVLQIGAGGVGSVVAHKMGMNRDVFKNIILASRSLDKCYAIKESMLKKGLGEIGVEQVDADDTQALVALIQKYKPKVVINVALPYQDLTIMQACLETKTHYIDTAKFEYKEQWAFDRAYKEARILGVLGAGFDPGVTNAYVAHAQRHHFDTIHTLDILDCNAGDHKRPFATNFNPEINLREVSSKGRYYENGKWIETKPLEIKQVWAYPQIGEMDSYLLYHEELESLVKNIKGLRRARFFMTFSQNYLTHMKCLENVGMLGIKEIEHQGVKIVPIQFLKTLLPDPATLAKDTTGKTNIGCYMTGIKNNQDKTLYIYNVCDHKKCYEEVGSQAISYTTGVPAMCAAKMICNDTWSADHFRAGVFNIEELNTDPFMEELIKQGLPYEVIER 8h56-a1-m1-cA_8h56-a1-m1-cB Crystal structure of Rep' of porcine circovirus type 2 Q8BB16 Q8BB16 2.33 X-RAY DIFFRACTION 156 1.0 85708 (Porcine circovirus 2) 85708 (Porcine circovirus 2) 154 154 QPHKRWVFTLNNPSEDERKKIRDLPISLFDYFIVGEEGNEEGRTPHLQGFANFVKKQTFNKVKWYLGARCHIEKAKGTDQQNKEYCSKEGNLLIECGAPRSQGQRSDLSTAYSDYQQSDPVGMVLLNCCPSCRSSLSEDYFLGILEECYRTIHG QPHKRWVFTLNNPSEDERKKIRDLPISLFDYFIVGEEGNEEGRTPHLQGFANFVKKQTFNKVKWYLGARCHIEKAKGTDQQNKEYCSKEGNLLIECGAPRSQGQRSDLSTAYSDYQQSDPVGMVLLNCCPSCRSSLSEDYFLGILEECYRTIHG 8h7a-a2-m1-cE_8h7a-a2-m1-cF Crystal structure of the dimer form KAT6A WH domain with its bound double stranded DNA Q92794 Q92794 1.92 X-RAY DIFFRACTION 23 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 77 78 8h7a-a1-m1-cA_8h7a-a1-m1-cB VKLANPLYTEWILEAIKKVKKQKQRPSEERICNAVSSSHGLDRKTVLEQLELSVKDGTILKVSNKGLNSYKDPDNPG VKLANPLYTEWILEAIKKVKKQKQRPSEERICNAVSSSHGLDRKTVLEQLELSVKDGTILKVSNKGLNSYKDPDNPGR 8h8c-a1-m1-cA_8h8c-a1-m1-cB Type VI secretion system effector RhsP in its post-autoproteolysis and dimeric form Q87PI5 Q87PI5 3.36 ELECTRON MICROSCOPY 37 1.0 223926 (Vibrio parahaemolyticus RIMD 2210633) 223926 (Vibrio parahaemolyticus RIMD 2210633) 964 964 EKAGDPVSLVTGEEILTLNDVELPNGFVWSRTYRSSKASRNQGLGYGWRHAFQFELKEVTDEKHNVTSWTSYQVYVGASCHFLNPNIRIVTLSSGDQYRFELVEDIWLLKQVRNGIFSTFQLRYSRNHRLIEVAHNKRPVLECQYDKQGRLVELLNAKTEQVLTTYIYDEQDDLVGATNDLGLTERYEYQDQHLIAKRVRPTGFTHYFEWSGEGSSAKCIRNFGDSGIYDYRFHYEGAKSSYSDSLDNEWTFIHDEQGHLLEKSSPTGRTWQWHYDHLGRKEKAVFPDNSTTQYQYNQQGQLISKLHSSGAQIQYGYDSLGKLVKTVSPDGDLEKAYYNSLGQRVWDIDALGCVTEYEYDKHGQVVKRESEDGKKSRWWWDKQQRLVAHEVDGTLLRYSYGATDLVNGIAYPDGCVAQISYDDYGRRTSIRYFNDEDKVGYSEEYAYDEFSRVAQIQTPEGVTSYQWGALAQQEAVIFPDGSHISYEYDQQRNLTKLVRSDGLAFEFWYDSEGLLSGTVGFDGLHSQFKYDSMGRIIRKDVADRTVLYSYDDAGFLQHIKAGNGKNIVENHFNYTLGGRLTLASNRHQTLQYQYSSFGHLTKRIQGQFEIGEEFNRVGQRVSQTLPDKTSFNFSYDTNGRLSEIRFSDDSLPKIEFQYDVMGRLSVTETESFRESKLYDGVGRLVEQQWSGREKKYIYNAQNRISSILDNTAGATHYQYDTLGYVTKVSEAGSTSTFESDSFGNPALADSKVMSDRIEAYAGVRYKYDQQGNQVKREGDGTVQKRVFDALSQLVEVHGDSSISHYEYDALGRRTKKITQNGITEFLWEGERLLGERTADGFRWYLYQPETYIPLAVLENGSIYLYECDQVGKPERLKDSAGNIVWSASYDVHGFASIDVEEVRNPLRFQGQYFDQETNLHYNLARYYDPKLGRFIQQDPISIAGGINHYQYAVNPIQWIDPTGF EKAGDPVSLVTGEEILTLNDVELPNGFVWSRTYRSSKASRNQGLGYGWRHAFQFELKEVTDEKHNVTSWTSYQVYVGASCHFLNPNIRIVTLSSGDQYRFELVEDIWLLKQVRNGIFSTFQLRYSRNHRLIEVAHNKRPVLECQYDKQGRLVELLNAKTEQVLTTYIYDEQDDLVGATNDLGLTERYEYQDQHLIAKRVRPTGFTHYFEWSGEGSSAKCIRNFGDSGIYDYRFHYEGAKSSYSDSLDNEWTFIHDEQGHLLEKSSPTGRTWQWHYDHLGRKEKAVFPDNSTTQYQYNQQGQLISKLHSSGAQIQYGYDSLGKLVKTVSPDGDLEKAYYNSLGQRVWDIDALGCVTEYEYDKHGQVVKRESEDGKKSRWWWDKQQRLVAHEVDGTLLRYSYGATDLVNGIAYPDGCVAQISYDDYGRRTSIRYFNDEDKVGYSEEYAYDEFSRVAQIQTPEGVTSYQWGALAQQEAVIFPDGSHISYEYDQQRNLTKLVRSDGLAFEFWYDSEGLLSGTVGFDGLHSQFKYDSMGRIIRKDVADRTVLYSYDDAGFLQHIKAGNGKNIVENHFNYTLGGRLTLASNRHQTLQYQYSSFGHLTKRIQGQFEIGEEFNRVGQRVSQTLPDKTSFNFSYDTNGRLSEIRFSDDSLPKIEFQYDVMGRLSVTETESFRESKLYDGVGRLVEQQWSGREKKYIYNAQNRISSILDNTAGATHYQYDTLGYVTKVSEAGSTSTFESDSFGNPALADSKVMSDRIEAYAGVRYKYDQQGNQVKREGDGTVQKRVFDALSQLVEVHGDSSISHYEYDALGRRTKKITQNGITEFLWEGERLLGERTADGFRWYLYQPETYIPLAVLENGSIYLYECDQVGKPERLKDSAGNIVWSASYDVHGFASIDVEEVRNPLRFQGQYFDQETNLHYNLARYYDPKLGRFIQQDPISIAGGINHYQYAVNPIQWIDPTGF 8h8h-a2-m1-cB_8h8h-a2-m1-cF Crystal structure of the N-terminal domain of H-NS family protein TurB (TurB_nt50) Q88GF9 Q88GF9 2.7 X-RAY DIFFRACTION 50 1.0 160488 (Pseudomonas putida KT2440) 160488 (Pseudomonas putida KT2440) 51 51 8h8h-a1-m1-cG_8h8h-a1-m1-cA 8h8h-a3-m1-cC_8h8h-a3-m1-cE 8h8h-a4-m1-cH_8h8h-a4-m1-cD SRLAEFRAAEKALQEQMAQLEALKKDAGLKREIEFEQKLVGLMKSYDKSLE SRLAEFRAAEKALQEQMAQLEALKKDAGLKREIEFEQKLVGLMKSYDKSLE 8h8r-a1-m1-cH_8h8r-a1-m1-cU Bovine Heart Cytochrome c Oxidase in the Calcium-bound Fully Oxidized State P00429 P00429 1.7 X-RAY DIFFRACTION 20 1.0 9913 (Bos taurus) 9913 (Bos taurus) 75 75 1occ-a1-m1-cH_1occ-a1-m1-cU 1oco-a1-m1-cH_1oco-a1-m1-cU 1ocr-a1-m1-cH_1ocr-a1-m1-cU 1ocz-a1-m1-cH_1ocz-a1-m1-cU 1v54-a1-m1-cH_1v54-a1-m1-cU 1v55-a1-m1-cH_1v55-a1-m1-cU 2dyr-a1-m1-cH_2dyr-a1-m1-cU 2dys-a1-m1-cH_2dys-a1-m1-cU 2eij-a1-m1-cH_2eij-a1-m1-cU 2eik-a1-m1-cH_2eik-a1-m1-cU 2eil-a1-m1-cH_2eil-a1-m1-cU 2eim-a1-m1-cH_2eim-a1-m1-cU 2ein-a1-m1-cH_2ein-a1-m1-cU 2occ-a3-m1-cH_2occ-a3-m1-cU 5w97-a1-m1-cH_5w97-a1-m1-ch 5wau-a1-m1-cH_5wau-a1-m1-ch 6juw-a1-m1-cH_6juw-a1-m1-cU 6nkn-a1-m1-cH_6nkn-a1-m1-cU 6nmf-a1-m1-cH_6nmf-a1-m1-cU 6nmp-a1-m1-cH_6nmp-a1-m1-cU 7cp5-a1-m1-cH_7cp5-a1-m1-cU 7d5w-a1-m1-cH_7d5w-a1-m1-cU 7d5x-a1-m1-cH_7d5x-a1-m1-cU 7thu-a1-m1-cH_7thu-a1-m1-cU 7tie-a1-m1-cH_7tie-a1-m1-cU 7tih-a1-m1-cH_7tih-a1-m1-cU 7tii-a1-m1-cH_7tii-a1-m1-cU 8h8s-a1-m1-cH_8h8s-a1-m1-cU YQTAPFDSRFPNQNQTRNCWQNYLDFHRCEKAMTAKGGDVSVCEWYRRVYKSLCPISWVSTWDDRRAEGTFPGKI YQTAPFDSRFPNQNQTRNCWQNYLDFHRCEKAMTAKGGDVSVCEWYRRVYKSLCPISWVSTWDDRRAEGTFPGKI 8h9h-a1-m1-cF_8h9h-a1-m1-cG Crystal structure of ZBTB7A in complex with GACCC-containing sequence O95365 O95365 2.2 X-RAY DIFFRACTION 10 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 25 81 KPYLCQQCGAAFAHNYDLKNHMRVH HMQKCPICEKVIQGAGKLPRHIRTHTGEKPYECNICKVRFTRQDKLKVHMRKHTGEKPYLCQQCGAAFAHNYDLKNHMRVH 8hao-a1-m1-cA_8hao-a1-m1-cC Human parathyroid hormone receptor-1 dimer 3.76 ELECTRON MICROSCOPY 22 1.0 9913 (Bos taurus) 9913 (Bos taurus) 235 235 LSAEDKAAVERSKMIEKQLQKDKQVYRATHRLLLLGADNSGKSTIVKQMRIYHVTSGIFETKFQVDKVNFHMFDVGAQRDERRKWIQCFNDVTAIIFVVDSSDYNRLQEALNDFKSIWNNRWLRTISVILFLNKQDLLAEKVLAGKSKIEDYFPEFARYTTPEDATPEPGEDPRVTRAKYFIRDEFLRISTASGDGRHYCYPHFTCSVDTENARRIFNDCRDIIQRMHLRQYELL LSAEDKAAVERSKMIEKQLQKDKQVYRATHRLLLLGADNSGKSTIVKQMRIYHVTSGIFETKFQVDKVNFHMFDVGAQRDERRKWIQCFNDVTAIIFVVDSSDYNRLQEALNDFKSIWNNRWLRTISVILFLNKQDLLAEKVLAGKSKIEDYFPEFARYTTPEDATPEPGEDPRVTRAKYFIRDEFLRISTASGDGRHYCYPHFTCSVDTENARRIFNDCRDIIQRMHLRQYELL 8hao-a1-m1-cF_8hao-a1-m1-cN Human parathyroid hormone receptor-1 dimer 3.76 ELECTRON MICROSCOPY 31 1.0 32630 (synthetic construct) 32630 (synthetic construct) 129 129 QVQLQESGGGLVQPGGSLRLSCAASGFTFSNYKMNWVRQAPGKGLEWVSDISQSGASISYTGSVKGRFTISRDNAKNTLYLQMNSLKPEDTAVYYCARCPAPFTRDCFDVTSTTYAYRGQGTQVTVSSH QVQLQESGGGLVQPGGSLRLSCAASGFTFSNYKMNWVRQAPGKGLEWVSDISQSGASISYTGSVKGRFTISRDNAKNTLYLQMNSLKPEDTAVYYCARCPAPFTRDCFDVTSTTYAYRGQGTQVTVSSH 8hav-a1-m1-cA_8hav-a1-m1-cB An auto-activation mechanism of plant non-specific phospholipase C Q9SRQ7 Q9SRQ7 2.1 X-RAY DIFFRACTION 52 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 399 399 YPIKTIVVLVQENRSFDHTLGWFKELNREIDGVTKSDPKSNTVSSSDTNSLRVVFGDQSQYVNPDPGHSIQDIYEQVFGKPWDSGKPDPNPGHPNMSGFAQNAERNKKGMSSAVMNGFKPNALPVYKELVQNFAICDRWFASVPASTQPNRLYVHSATSHGATSNDAALLLEGFPQKTIFESLDEAGFSFGIYYQFPPSTLFYRNLRKLKYLTHFHQYGIQFKKDCKEGKLPNYVVVEQRWFDLLSTHPSHDVSEGQKLVKEVYEALRSSPQWNEILFIITYDEHGGFYDHVPTPVDGVPNPDGILGPPPYNFEFNRLGVRVPTFFISPWIEPGTVIHGPNGPYPRSQYEHSSIPATVKTIFKLKDFLSKRDSWAGTFESVITRDSPRQDCPETLSTPI YPIKTIVVLVQENRSFDHTLGWFKELNREIDGVTKSDPKSNTVSSSDTNSLRVVFGDQSQYVNPDPGHSIQDIYEQVFGKPWDSGKPDPNPGHPNMSGFAQNAERNKKGMSSAVMNGFKPNALPVYKELVQNFAICDRWFASVPASTQPNRLYVHSATSHGATSNDAALLLEGFPQKTIFESLDEAGFSFGIYYQFPPSTLFYRNLRKLKYLTHFHQYGIQFKKDCKEGKLPNYVVVEQRWFDLLSTHPSHDVSEGQKLVKEVYEALRSSPQWNEILFIITYDEHGGFYDHVPTPVDGVPNPDGILGPPPYNFEFNRLGVRVPTFFISPWIEPGTVIHGPNGPYPRSQYEHSSIPATVKTIFKLKDFLSKRDSWAGTFESVITRDSPRQDCPETLSTPI 8haw-a1-m1-cA_8haw-a1-m1-cB An auto-activation mechanism of plant non-specific phospholipase C Q9SRQ7 Q9SRQ7 2.1 X-RAY DIFFRACTION 24 1.0 3702 (Arabidopsis thaliana) 3702 (Arabidopsis thaliana) 478 478 YPIKTIVVLVQENRSFDHTLGWFKELNREIDGVTKSDPKSNTVSNSLRVVFGDQSQYVNPDPGHSIQDIYEQVFGKPWDSGKPDPNPGHPNMSGFAQNAERNKKGMSSAVMNGFKPNALPVYKELVQNFAICDRWFASVPASQPNRLYVHSATSHGATSNDAALLLEGFPQKTIFESLDEAGFSFGIYYQFPPSTLFYRNLRKLKYLTHFHQYGIQFKKDCKEGKLPNYVVVEQRWFDLLSTPANDDHPSHDVSEGQKLVKEVYEALRSSPQWNEILFIITYDEHGGFYDHVPTPVDGVPNPDGILGPPPYNFEFNRLGVRVPTFFISPWIEPGTVIHGPNGPYPRSQYEHSSIPATVKTIFKLKDFLSKRDSWAGTFESVITRDSPRQDCPETLSTPIKLRGTMAKENAQLSEFQEDLVIMAAGLKGDYKNEELIHKLCKETCVADASKYVTNAFEKFLEESRKARDRGCDENDIVY YPIKTIVVLVQENRSFDHTLGWFKELNREIDGVTKSDPKSNTVSNSLRVVFGDQSQYVNPDPGHSIQDIYEQVFGKPWDSGKPDPNPGHPNMSGFAQNAERNKKGMSSAVMNGFKPNALPVYKELVQNFAICDRWFASVPASQPNRLYVHSATSHGATSNDAALLLEGFPQKTIFESLDEAGFSFGIYYQFPPSTLFYRNLRKLKYLTHFHQYGIQFKKDCKEGKLPNYVVVEQRWFDLLSTPANDDHPSHDVSEGQKLVKEVYEALRSSPQWNEILFIITYDEHGGFYDHVPTPVDGVPNPDGILGPPPYNFEFNRLGVRVPTFFISPWIEPGTVIHGPNGPYPRSQYEHSSIPATVKTIFKLKDFLSKRDSWAGTFESVITRDSPRQDCPETLSTPIKLRGTMAKENAQLSEFQEDLVIMAAGLKGDYKNEELIHKLCKETCVADASKYVTNAFEKFLEESRKARDRGCDENDIVY 8hcr-a1-m1-cB_8hcr-a1-m1-cN Cryo-EM structure of the Mycobacterium tuberculosis cytochrome bcc:aa3 supercomplex and a novel inhibitor targeting subunit cytochrome cI A0A0K2HYC0 A0A0K2HYC0 0 ELECTRON MICROSCOPY 62 1.0 33892 (Mycobacterium tuberculosis variant bovis BCG) 33892 (Mycobacterium tuberculosis variant bovis BCG) 524 524 7e1v-a1-m1-cB_7e1v-a1-m1-cN 7e1w-a1-m1-cB_7e1w-a1-m1-cN 7e1x-a1-m1-cB_7e1x-a1-m1-cN LARQAEDIDTRYHPSAALRRQLNKVFPTHWSFLLGEIALYSFVVLLITGVYLTLFFDPSMVDVTYNGVYQPLRGVEMSRAYQSALDISFEVRGGLFVRQIHHWAALMFAAAIMVHLARIFFTGAFRRPRETNWVIGSLLLILAMFEGYFGYSLPDDLLSGLGLRAALSSITLGMPVIGTWLHWALFGGDFPGTILIPRLYALHILLLPGIILALIGLHLALVWFQKHTQFPGPGRTEHNVVGVRVMPVFAFKSGAFFAAIVGVLGLMGGLLQINPIWNLGPYKPSQVSAGSQPDFYMMWTEGLARIWPPWEFYFWHHTIPAPVWVAVIMGLVFVLLPAYPFLEKRFTGDYAHHNLLQRPRDVPVRTAIGAMAIAFYMVLTLAAMNDIIALKFHISLNATTWIGRIGMVILPPFVYFITYRWCIGLQRSDRSVLEHGVETGIIKRLPHGAYIELHQPLGPVDEHGHPIPLQYQGAPLPKRMNKLGSAGSPGSGSFLFADSAAEDAALREAGHAAEQRALAALREH LARQAEDIDTRYHPSAALRRQLNKVFPTHWSFLLGEIALYSFVVLLITGVYLTLFFDPSMVDVTYNGVYQPLRGVEMSRAYQSALDISFEVRGGLFVRQIHHWAALMFAAAIMVHLARIFFTGAFRRPRETNWVIGSLLLILAMFEGYFGYSLPDDLLSGLGLRAALSSITLGMPVIGTWLHWALFGGDFPGTILIPRLYALHILLLPGIILALIGLHLALVWFQKHTQFPGPGRTEHNVVGVRVMPVFAFKSGAFFAAIVGVLGLMGGLLQINPIWNLGPYKPSQVSAGSQPDFYMMWTEGLARIWPPWEFYFWHHTIPAPVWVAVIMGLVFVLLPAYPFLEKRFTGDYAHHNLLQRPRDVPVRTAIGAMAIAFYMVLTLAAMNDIIALKFHISLNATTWIGRIGMVILPPFVYFITYRWCIGLQRSDRSVLEHGVETGIIKRLPHGAYIELHQPLGPVDEHGHPIPLQYQGAPLPKRMNKLGSAGSPGSGSFLFADSAAEDAALREAGHAAEQRALAALREH 8hcr-a1-m1-cM_8hcr-a1-m1-cA Cryo-EM structure of the Mycobacterium tuberculosis cytochrome bcc:aa3 supercomplex and a novel inhibitor targeting subunit cytochrome cI A0A045GW18 A0A045GW18 0 ELECTRON MICROSCOPY 171 1.0 33892 (Mycobacterium tuberculosis variant bovis BCG) 33892 (Mycobacterium tuberculosis variant bovis BCG) 372 378 7e1v-a1-m1-cA_7e1v-a1-m1-cM 7e1w-a1-m1-cA_7e1w-a1-m1-cM 7e1x-a1-m1-cA_7e1x-a1-m1-cM DEAALAAMSNQELLALGGKLDGVRIAYKEPRWPVEGTKAEKRAERSVAVWLLLGGVFGLALLLIFLFWPWEFKAADFIYSLTTPLYGLTFGLSILSIAIGAVLYQKRFIPEEISIQERHDGASREIDRKTVVANLTDAFEGSTIRRRKLIGLSFGVGMGAFGLGTLVAFAGGLIKNPWKPVVPTAEGKKAVLWTSGWTPRYQGETIYLARATGTEPPFIKMRPEDMDAGGMETVFPWRESDGDGTTVESHHKLQEIAMGIRNPVMLIRIKPSDLGRVVKRKGQESFNFGEFFAFTKVCSHLGCPSSLYEQQSYRILCPCHQSQFDALHFAKPIFGPAARALAQLPITIDTDGYLVANGDFVEPVGPAFWERT DEAALAAMSNQELLALGGKLDGVRIAYKEPRWPVEGTKAEKRAERSVAVWLLLGGVFGLALLLIFLFWPWEFKAADGESDFIYSLTTPLYGLTFGLSILSIAIGAVLYQKRFIPEEISIQERHDGASREIDRKTVVANLTDAFEGSTIRRRKLIGLSFGVGMGAFGLGTLVAFAGGLIKNPWKPVVPTAEGKKAVLWTSGWTPRYQGETIYLARATGTEDGPPFIKMRPEDMDAGGMETVFPWRESDGDGTTVESHHKLQEIAMGIRNPVMLIRIKPSDLGRVVKRKGQESFNFGEFFAFTKVCSHLGCPSSLYEQQSYRILCPCHQSQFDALHFAKPIFGPAARALAQLPITIDTDGYLVANGDFVEPVGPAFWERT 8hdr-a1-m1-cE_8hdr-a1-m1-cF Cyanophage Pam3 neck 3.66 ELECTRON MICROSCOPY 24 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 110 110 8hdr-a1-m1-cA_8hdr-a1-m1-cB 8hdr-a1-m1-cA_8hdr-a1-m1-cD 8hdr-a1-m1-cB_8hdr-a1-m1-cE 8hdr-a1-m1-cC_8hdr-a1-m1-cD 8hdr-a1-m1-cC_8hdr-a1-m1-cF MIDVAIAIDAESVEVTWRNRSGGSYDSRGNATGASWADTQIRAAIQPVSGRELQDLPEGVRSKVTLVAWTRSEVAENDQIIYLGDAYRVYAARPRPMDGFTRIALGKVSP MIDVAIAIDAESVEVTWRNRSGGSYDSRGNATGASWADTQIRAAIQPVSGRELQDLPEGVRSKVTLVAWTRSEVAENDQIIYLGDAYRVYAARPRPMDGFTRIALGKVSP 8hdr-a1-m1-cK_8hdr-a1-m1-cL Cyanophage Pam3 neck 3.66 ELECTRON MICROSCOPY 51 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 156 156 8hdr-a1-m1-cG_8hdr-a1-m1-cH 8hdr-a1-m1-cG_8hdr-a1-m1-cJ 8hdr-a1-m1-cH_8hdr-a1-m1-cK 8hdr-a1-m1-cI_8hdr-a1-m1-cJ 8hdr-a1-m1-cI_8hdr-a1-m1-cL MRRITGITVIKDHQSEDRPALPYGVVELANFRDLHQQVRTIHYEDIEDSDNGEGFPEVQATPEVEQEWVFLVQVYGPGGLDYLRKVAAAFHVNQVNDLPGSLVIHEVAQINSIPEFLGERWEKRAQTNITLRGMSTDGFKVDVIEQHVINVTGERA MRRITGITVIKDHQSEDRPALPYGVVELANFRDLHQQVRTIHYEDIEDSDNGEGFPEVQATPEVEQEWVFLVQVYGPGGLDYLRKVAAAFHVNQVNDLPGSLVIHEVAQINSIPEFLGERWEKRAQTNITLRGMSTDGFKVDVIEQHVINVTGERA 8hdt-a1-m1-cD_8hdt-a1-m1-cF Cyanophage Pam3 capsid asymmetric unit 3.17 ELECTRON MICROSCOPY 152 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 300 300 8hdt-a1-m1-cA_8hdt-a1-m1-cB 8hdt-a1-m1-cA_8hdt-a1-m1-cE 8hdt-a1-m1-cB_8hdt-a1-m1-cC 8hdt-a1-m1-cC_8hdt-a1-m1-cD 8hdt-a1-m1-cE_8hdt-a1-m1-cF MQANFGFVTSQTAYVEAGVYRMRYPEIRYPGLIPVDYSAPEWIKTVDYYSMDGVGKAEWIADRASDIPVVGLAMEKATTTVHLAGIGYDYGLEEVNQAIMLGMNLPGEKANLARLVYERMVDRVAFTGDAEKDFKGLFNNGAVTAVSATTGNWASATADQILADFNLGITGLWSATNEMVYADTVLLPSAKHQIIASKRLGNEATETVLQFLQRANVYTAETGRPLTIRGMRGLNTAGAGGVSRSVFYRNSPEVLKMHIPMRHRFLPVQVVGLTYKVPGIFRLGGLDIRLPKEVRYVDGY MQANFGFVTSQTAYVEAGVYRMRYPEIRYPGLIPVDYSAPEWIKTVDYYSMDGVGKAEWIADRASDIPVVGLAMEKATTTVHLAGIGYDYGLEEVNQAIMLGMNLPGEKANLARLVYERMVDRVAFTGDAEKDFKGLFNNGAVTAVSATTGNWASATADQILADFNLGITGLWSATNEMVYADTVLLPSAKHQIIASKRLGNEATETVLQFLQRANVYTAETGRPLTIRGMRGLNTAGAGGVSRSVFYRNSPEVLKMHIPMRHRFLPVQVVGLTYKVPGIFRLGGLDIRLPKEVRYVDGY 8hdt-a1-m1-cE_8hdt-a1-m1-cN Cyanophage Pam3 capsid asymmetric unit 3.17 ELECTRON MICROSCOPY 19 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 300 300 MQANFGFVTSQTAYVEAGVYRMRYPEIRYPGLIPVDYSAPEWIKTVDYYSMDGVGKAEWIADRASDIPVVGLAMEKATTTVHLAGIGYDYGLEEVNQAIMLGMNLPGEKANLARLVYERMVDRVAFTGDAEKDFKGLFNNGAVTAVSATTGNWASATADQILADFNLGITGLWSATNEMVYADTVLLPSAKHQIIASKRLGNEATETVLQFLQRANVYTAETGRPLTIRGMRGLNTAGAGGVSRSVFYRNSPEVLKMHIPMRHRFLPVQVVGLTYKVPGIFRLGGLDIRLPKEVRYVDGY MQANFGFVTSQTAYVEAGVYRMRYPEIRYPGLIPVDYSAPEWIKTVDYYSMDGVGKAEWIADRASDIPVVGLAMEKATTTVHLAGIGYDYGLEEVNQAIMLGMNLPGEKANLARLVYERMVDRVAFTGDAEKDFKGLFNNGAVTAVSATTGNWASATADQILADFNLGITGLWSATNEMVYADTVLLPSAKHQIIASKRLGNEATETVLQFLQRANVYTAETGRPLTIRGMRGLNTAGAGGVSRSVFYRNSPEVLKMHIPMRHRFLPVQVVGLTYKVPGIFRLGGLDIRLPKEVRYVDGY 8hdt-a1-m1-cK_8hdt-a1-m1-cL Cyanophage Pam3 capsid asymmetric unit 3.17 ELECTRON MICROSCOPY 24 1.0 215796 (uncultured cyanophage) 215796 (uncultured cyanophage) 166 166 8hdt-a1-m1-cG_8hdt-a1-m1-cH 8hdt-a1-m1-cG_8hdt-a1-m1-cI 8hdt-a1-m1-cH_8hdt-a1-m1-cI 8hdt-a1-m1-cJ_8hdt-a1-m1-cK 8hdt-a1-m1-cJ_8hdt-a1-m1-cL MAPYNETYASDYAFAYEGMVSDIAPADIISRTVETSAGIGFGKIVAQGTSDRGCKADVSAVSPTAPPLGITVRSQATENLTLDKYPRYDGAAIMRKGVIWVLVTDAGGVVAGDPVWLKKSDGTFSNADVGSSGGLRLAGCRWDTSAANGALARMRVDFDVPPVAGA MAPYNETYASDYAFAYEGMVSDIAPADIISRTVETSAGIGFGKIVAQGTSDRGCKADVSAVSPTAPPLGITVRSQATENLTLDKYPRYDGAAIMRKGVIWVLVTDAGGVVAGDPVWLKKSDGTFSNADVGSSGGLRLAGCRWDTSAANGALARMRVDFDVPPVAGA 8hdu-a1-m1-cE_8hdu-a1-m1-cC De novo design cavitated protein without predefined topology 2.71 X-RAY DIFFRACTION 16 1.0 32630 (synthetic construct) 32630 (synthetic construct) 154 159 8hdu-a1-m1-cA_8hdu-a1-m1-cC 8hdu-a1-m1-cD_8hdu-a1-m1-cB KIEELLKKAKEMLKKYASNIDKFIAALRRVVQALYDAGAYQVVIRMYQAALAGQIDREHLRFLIETLQRIMANAPSEMTRMAALLLRLLALLALLTGDLLLVILLAAMIILLFAGYGEVVVKIFKIIREMPDKEEALKKAVELAIKMVEEFRKK KKKIEELLKKAKEMLKKYASNIDKFIAALRRVVQALYDAGAYQVVIRMYQAALAGQIDREHLRFLIETLQRIMANAPSEMTRMAALLLRLLALLALLTGDLLLVILLAAMIILLFAGYGEVVVKIFKIIREMPDKEEALKKAVELAIKMVEEFRKKQGL 8hdu-a1-m1-cE_8hdu-a1-m1-cD De novo design cavitated protein without predefined topology 2.71 X-RAY DIFFRACTION 38 1.0 32630 (synthetic construct) 32630 (synthetic construct) 154 157 8hdu-a1-m1-cC_8hdu-a1-m1-cB KIEELLKKAKEMLKKYASNIDKFIAALRRVVQALYDAGAYQVVIRMYQAALAGQIDREHLRFLIETLQRIMANAPSEMTRMAALLLRLLALLALLTGDLLLVILLAAMIILLFAGYGEVVVKIFKIIREMPDKEEALKKAVELAIKMVEEFRKK KIEELLKKAKEMLKKYASNIDKFIAALRRVVQALYDAGAYQVVIRMYQAALAGQIDREHLRFLIETLQRIMANAPSEMTRMAALLLRLLALLALLTGDLLLVILLAAMIILLFAGYGEVVVKIFKIIREMPDKEEALKKAVELAIKMVEEFRKKQGL 8hdv-a1-m1-cB_8hdv-a1-m1-cA De novo design cavitated protein without predefined topology 2.65 X-RAY DIFFRACTION 147 1.0 32630 (synthetic construct) 32630 (synthetic construct) 129 131 GSEDVIKQALKRVQQYIQQAPNGYRDVIQQILQTVLKILKLGPEVEAVLIVAYVAELVLAAKYGYIDELLKLAKEALEADDVDKIEIFLKLKIFLALALDPEGLKKLKELKKNGSEEVRKLIEEVIKQL GSEDVIKQALKRVQQYIQQAPNGYRDVIQQILQTVLKILKLGPEVEAVLIVAYVAELVLAAKYGYIDELLKLAKEALEADDVDKIEIFLKLKIFLALALDPEGLKKLKELKKNGSEEVRKLIEEVIKQLKQ 8he6-a1-m1-cA_8he6-a1-m1-cB Crystal structure of a fosfomycin and bleomycin resistant protein (ALL3014) from Anabaena/Nostoc cyanobacterium at 1.70 A resolution Q8YSS0 Q8YSS0 1.7 X-RAY DIFFRACTION 103 1.0 103690 (Nostoc sp. PCC 7120 = FACHB-418) 103690 (Nostoc sp. PCC 7120 = FACHB-418) 120 120 MTISLNHTIVPAHNKEASAQFFAQIFGLNVSSVGHFAAVRVNDTLTLDFDDRETFESHHYAFHVSDEEFDTIFARIKQAGLEYSSDPMHHNKGEINHRKGGRGFYFYDPNGHNLELLTLS MTISLNHTIVPAHNKEASAQFFAQIFGLNVSSVGHFAAVRVNDTLTLDFDDRETFESHHYAFHVSDEEFDTIFARIKQAGLEYSSDPMHHNKGEINHRKGGRGFYFYDPNGHNLELLTLS 8heh-a1-m1-cA_8heh-a1-m1-cB Crystal structure of GCN5-related N-acetyltransferase 05790 A0A3E2E808 A0A3E2E808 1.4 X-RAY DIFFRACTION 44 1.0 615 (Serratia marcescens) 615 (Serratia marcescens) 141 147 LITFEKLTAQHLPYLYEIRFSVEENLLHPHQIQYLQRRQALEDINQGGGWICKHGDDYAGVGFGLFIEPLIGGLFVKPEYQSKGIGSALLARVTAWMFERGAEAIHLTTDPGSKAEGFYQHHGWAVVGQDEFGQAELVKRK RHMDSLITFEKLTAQHLPYLYEIRFSVEENLLHPHQIQYLQRRQALEDINQGGGWICKHGDDYAGVGFGLFIPEPLIGGLFVKPEYQSKGIGSALLARVTAWMFERGAEAIHLTTDPGSKAEGFYQHHGWAVVGQDEFGQAELVKRK 8hfb-a1-m1-cB_8hfb-a1-m1-cA Evolved variant of quercetin 2,4-dioxygenase from Bacillus subtilis P42106 P42106 2.24 X-RAY DIFFRACTION 93 0.997 1423 (Bacillus subtilis) 1423 (Bacillus subtilis) 311 319 1y3t-a1-m1-cA_1y3t-a1-m1-cB 2h0v-a1-m1-cA_2h0v-a1-m1-cB LCTHSLPKEKMPYLLRSGEGERYLFGRQVATVMANGRSTGDLFEIVLLSGGKGDAFPLHVHKDTHEGILVLDGKLELTLDGERYLLISGDYANIPAGTPHSYRMQSHRTRLVSYTMKGNVAHLYSVIGNPYDHAEHPPYASEEVSNERFAEAAAVATIVFLDEAKPACSAKLAELTELPDGAVPYVLESGEGDRLLTGDQLHRIVAAQKNTDGQFIVLSSEGPKGDRVVDHYHEYCTETFYCLEGQMTMWTDGQEIQLNPGDFLHAPANTVHSYRLDSHYTKFVGVVVPGLFEPFFRTLGDPYEGHIFPCK LCTHSLPKEKMPYLLRSGEGERYLFGRQVATVMANGRSTGDLFEIVLLSGGKGDAFPLHVHKDTHEGILVLDGKLELTLDGERYLLISGDYANIPAGTPHSYRMQSHRTRLVSYTMKGNVAHLYSVIGNPYDHAEHPPYASEEVSNERFAEAAAVATIVFLDEAKPACSAKLAELTELPDGAVPYVLESGEGDRLLTGDQLHRIVAAQKNTDGQFIVLSSEGPKGDRVVDHYHEYCTETFYCLEGQMTMWTDGQEIQLNPGDFLHAPANTVHSYRLDSHYTKFVGVVVPGLFEPFFRTLGDPYEGHIFPCALDLKVMKP 8hfs-a1-m1-cC_8hfs-a1-m1-cY The structure of LcnA, LciA, and the man-PTS of Lactococcus lactis D2BKY8 D2BKY8 2.98 ELECTRON MICROSCOPY 37 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 248 249 MEYGVLSVILVIVVAFLAGLEGILDQWQFHQPIIACSLIGIVTGHASAGIILGGSLQLIALGWANVGAAVAPDAALASIASSILMVQSNNFDLTHIMGTIVPAAILLATAGLVLTTLVRMLSVVLVHQADRAAENGSYSGVEMWHFIALICQGLRIAIPAGLLLVISPDAIQKALAAIPPVISGGLAVGGGMVVAVGYAMVINLMATREVWPFFFLGFALAPISELTLIATGVLGVVIAIVYLNLQAS MEYGVLSVILVIVVAFLAGLEGILDQWQFHQPIIACSLIGIVTGHASAGIILGGSLQLIALGWANVGAAVAPDAALASIASSILMVQSNNFDLTHIMGTIVPAAILLATAGLVLTTLVRMLSVVLVHQADRAAENGSYSGVEMWHFIALICQGLRIAIPAGLLLVISPDAIQKALAAIPPVISGGLAVGGGMVVAVGYAMVINLMATREVWPFFFLGFALAPISELTLIATGVLGVVIAIVYLNLQASG 8hfs-a1-m1-cD_8hfs-a1-m1-cZ The structure of LcnA, LciA, and the man-PTS of Lactococcus lactis D2BKY9 D2BKY9 2.98 ELECTRON MICROSCOPY 37 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 302 303 VTLDKKIRRSVMWRSMFLQGSWNYERMQNGGWAYSLIPALKKLYPSGEEAKEALKRHLEFFNTHPYVAAPIIGVTLALEEERANGADIDDAAIQGVKVGMMGPLAGIGDPVFWFTVRPIVGAIAASLATGGSIIAPLFFFIVWNAIRIAFLWYTQEFGYKSGSAITKDLGGGLLQTVTKGASILGMFVLGVLIQRWVTINFNGPNAVVSKIPLQKGAYVEFPKGSVSGTQLHDILGQVGNKLSLDPTKVTYLQDNLNQLIPGLAGLLITLLCMWLLKKKVSPIVIIFGLFVVGILGRWAQIM KVTLDKKIRRSVMWRSMFLQGSWNYERMQNGGWAYSLIPALKKLYPSGEEAKEALKRHLEFFNTHPYVAAPIIGVTLALEEERANGADIDDAAIQGVKVGMMGPLAGIGDPVFWFTVRPIVGAIAASLATGGSIIAPLFFFIVWNAIRIAFLWYTQEFGYKSGSAITKDLGGGLLQTVTKGASILGMFVLGVLIQRWVTINFNGPNAVVSKIPLQKGAYVEFPKGSVSGTQLHDILGQVGNKLSLDPTKVTYLQDNLNQLIPGLAGLLITLLCMWLLKKKVSPIVIIFGLFVVGILGRWAQIM 8hfs-a1-m1-cE_8hfs-a1-m1-cY The structure of LcnA, LciA, and the man-PTS of Lactococcus lactis D2BKY8 D2BKY8 2.98 ELECTRON MICROSCOPY 42 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 248 249 8hfs-a1-m1-cC_8hfs-a1-m1-cE MEYGVLSVILVIVVAFLAGLEGILDQWQFHQPIIACSLIGIVTGHASAGIILGGSLQLIALGWANVGAAVAPDAALASIASSILMVQSNNFDLTHIMGTIVPAAILLATAGLVLTTLVRMLSVVLVHQADRAAENGSYSGVEMWHFIALICQGLRIAIPAGLLLVISPDAIQKALAAIPPVISGGLAVGGGMVVAVGYAMVINLMATREVWPFFFLGFALAPISELTLIATGVLGVVIAIVYLNLQAS MEYGVLSVILVIVVAFLAGLEGILDQWQFHQPIIACSLIGIVTGHASAGIILGGSLQLIALGWANVGAAVAPDAALASIASSILMVQSNNFDLTHIMGTIVPAAILLATAGLVLTTLVRMLSVVLVHQADRAAENGSYSGVEMWHFIALICQGLRIAIPAGLLLVISPDAIQKALAAIPPVISGGLAVGGGMVVAVGYAMVINLMATREVWPFFFLGFALAPISELTLIATGVLGVVIAIVYLNLQASG 8hfs-a1-m1-cF_8hfs-a1-m1-cZ The structure of LcnA, LciA, and the man-PTS of Lactococcus lactis D2BKY9 D2BKY9 2.98 ELECTRON MICROSCOPY 25 1.0 684738 (Lactococcus lactis subsp. lactis KF147) 684738 (Lactococcus lactis subsp. lactis KF147) 302 303 8hfs-a1-m1-cD_8hfs-a1-m1-cF VTLDKKIRRSVMWRSMFLQGSWNYERMQNGGWAYSLIPALKKLYPSGEEAKEALKRHLEFFNTHPYVAAPIIGVTLALEEERANGADIDDAAIQGVKVGMMGPLAGIGDPVFWFTVRPIVGAIAASLATGGSIIAPLFFFIVWNAIRIAFLWYTQEFGYKSGSAITKDLGGGLLQTVTKGASILGMFVLGVLIQRWVTINFNGPNAVVSKIPLQKGAYVEFPKGSVSGTQLHDILGQVGNKLSLDPTKVTYLQDNLNQLIPGLAGLLITLLCMWLLKKKVSPIVIIFGLFVVGILGRWAQIM KVTLDKKIRRSVMWRSMFLQGSWNYERMQNGGWAYSLIPALKKLYPSGEEAKEALKRHLEFFNTHPYVAAPIIGVTLALEEERANGADIDDAAIQGVKVGMMGPLAGIGDPVFWFTVRPIVGAIAASLATGGSIIAPLFFFIVWNAIRIAFLWYTQEFGYKSGSAITKDLGGGLLQTVTKGASILGMFVLGVLIQRWVTINFNGPNAVVSKIPLQKGAYVEFPKGSVSGTQLHDILGQVGNKLSLDPTKVTYLQDNLNQLIPGLAGLLITLLCMWLLKKKVSPIVIIFGLFVVGILGRWAQIM 8hfw-a2-m1-cC_8hfw-a2-m2-cC The crystal structure of alpha/beta fold hydrolase 1.66 X-RAY DIFFRACTION 85 1.0 60550 (Burkholderia pyrrocinia) 60550 (Burkholderia pyrrocinia) 281 281 8hfw-a1-m1-cB_8hfw-a1-m1-cA HPVFVLVHGAWHGAWCYAHVAAALAERGYLSIARDLPAHGINARFPASYLERPLDKDAFGAEPSPVANTTLDDYATQVMEAVDDAYALGHGKVVLVGHSMGGLAITAAAERAPEKIAKIVYLAAFMPASGVPGLDYVRAPENKGEMLAPLMLASPRVAGALRIDPRSGDAAYRALAKRALYDDAAQADFEAMANLMTCDVPAAPFATAIPTTARWGAIDRHYIKCLADRVILPALQQRFIDEADAFVPGNPTHVHQLDSSHSPFVSQPGVLAGVLVDIAKS HPVFVLVHGAWHGAWCYAHVAAALAERGYLSIARDLPAHGINARFPASYLERPLDKDAFGAEPSPVANTTLDDYATQVMEAVDDAYALGHGKVVLVGHSMGGLAITAAAERAPEKIAKIVYLAAFMPASGVPGLDYVRAPENKGEMLAPLMLASPRVAGALRIDPRSGDAAYRALAKRALYDDAAQADFEAMANLMTCDVPAAPFATAIPTTARWGAIDRHYIKCLADRVILPALQQRFIDEADAFVPGNPTHVHQLDSSHSPFVSQPGVLAGVLVDIAKS 8hgg-a1-m1-cC_8hgg-a1-m1-cD Structure of 2:2 PAPP-A.ProMBP complex Q13219 Q13219 3.64 ELECTRON MICROSCOPY 139 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 1484 1484 7ufg-a1-m1-cA_7ufg-a1-m1-cB PSRALYFSGRGEQLRLRADLELPRDAFTLQVWLRAEGGQRSPAVITGLYDKCSYISRDRGWVVGIHTISDQDNKDPRYFFSLKTDRARQVTTINAHRSYLPGQWVYLAATYDGQFMKLYVNGAQVATSGEQVGGIFSPLTQKCKVLMLGGSALNHNYRGYIEHFSLWKVARTQREILSDMETHGAHTALPQLLLQENWDNVKHAWSPMKDGSSPKVEFSNAHGFLLDTSLEPPLCGQTLCDNTEVIASYNQLSSFRQPKVVRYRVVNLYEDDHKNPTVTREQVDFQHHQLAEAFKQYNISWELDVLEVSNSSLRRRLILANCDISKIGDENCDPECNHTLTGHDGGDCRHLRHPAFVKKQHNGVCDMDCNYERFNFDGGECCDPEITNVTQTCFDPDSPHRAYLDVNELKNILKLDGSTHLNIFFAKSSEEELAGVATWPWDKEALMHLGGIVLNPSFYGMPGHTHTMIHEIGHSLGLYHVFRGISEIQSCSDPCMETEPSFETGDLCNDTNPAPKHKSCGDPGPGNDTCGFHSFFNTPYNNFMSYADDDCTDSFTPNQVARMHCYLDLVYQGWQPSRKPAPVALAPQVLGHTTDSVTLEWFPPIDGHFFERELGSACHLCLEGRILVQYASNASSPMPCSPSGHWSPREAEGHPDVEQPCKSSVRTWSPNSAVNPHTVPPACPEPQGCYLELEFLYPLVPESLTIWVTFVSTDWDSSGAVNDIKLLAVSGKNISLGPQNVFCDVPLTIRLWDVGEEVYGIQIYTLDEHLEIDAAMLTSTADTPLCLQCKPLKYKVVRDPPLQMDVASILHLNRKFVDMDLNLGSVYQYWVITISGTEESEPSPAVTYIHGSGYCGDGIIQKDQGEQCDDMNKINGDGCSLFCRQEVSFNCIDEPSRCYFHDGDGVCEEFEQKTSIKDCGVYTPQGFLDQWASNASVSHQDQQCPGWVIIGQPAASQVCRTKVIDLSEGISQHAWYPCTISYPYSQLAQTTFWLRAYFSQPMVAAAVIVHLVTDGTYYGDQKQETISVQLLDTKDQSHDLGLHVLSCRNNPLIIPVVHDLSQPFYHSQAVRVSFSSPLVAISGVALRSFDNFDPVTLSSCPELAVENASLNCSSSDRYHGAQCTVSCRTGYVLQIRRDDELIKSQTGPSVTVTCTEGKWNKQVACEPVDCSIPDHHQVYAASFSCPEGTTFGSQCSFQCRHPAQLKGNNSLLTCMEDGLWSFPEALCELMCLAPPPVPNADLQTARCRENKHKVGSFCKYKCKPGYHVPGSSRKSKKRAFKTQCTQDGSWQEGACVPVTCDPPPPKFHGLYQCTNGFQFNSECRIKCLGSNVIHCRKDGTWNGSFHVVPNELNSNLKLQCPDGYAIGSECATSCLDHNSESIILPMNVTVRDIPHWLNPTRVERVVCTAGLKWYPHPALIHCVKGCEPFMGDNYCDAINNRAFCNYDGGDCCTSTVKTKKVTPFPMSCDLQGDCACRDPQAQEH PSRALYFSGRGEQLRLRADLELPRDAFTLQVWLRAEGGQRSPAVITGLYDKCSYISRDRGWVVGIHTISDQDNKDPRYFFSLKTDRARQVTTINAHRSYLPGQWVYLAATYDGQFMKLYVNGAQVATSGEQVGGIFSPLTQKCKVLMLGGSALNHNYRGYIEHFSLWKVARTQREILSDMETHGAHTALPQLLLQENWDNVKHAWSPMKDGSSPKVEFSNAHGFLLDTSLEPPLCGQTLCDNTEVIASYNQLSSFRQPKVVRYRVVNLYEDDHKNPTVTREQVDFQHHQLAEAFKQYNISWELDVLEVSNSSLRRRLILANCDISKIGDENCDPECNHTLTGHDGGDCRHLRHPAFVKKQHNGVCDMDCNYERFNFDGGECCDPEITNVTQTCFDPDSPHRAYLDVNELKNILKLDGSTHLNIFFAKSSEEELAGVATWPWDKEALMHLGGIVLNPSFYGMPGHTHTMIHEIGHSLGLYHVFRGISEIQSCSDPCMETEPSFETGDLCNDTNPAPKHKSCGDPGPGNDTCGFHSFFNTPYNNFMSYADDDCTDSFTPNQVARMHCYLDLVYQGWQPSRKPAPVALAPQVLGHTTDSVTLEWFPPIDGHFFERELGSACHLCLEGRILVQYASNASSPMPCSPSGHWSPREAEGHPDVEQPCKSSVRTWSPNSAVNPHTVPPACPEPQGCYLELEFLYPLVPESLTIWVTFVSTDWDSSGAVNDIKLLAVSGKNISLGPQNVFCDVPLTIRLWDVGEEVYGIQIYTLDEHLEIDAAMLTSTADTPLCLQCKPLKYKVVRDPPLQMDVASILHLNRKFVDMDLNLGSVYQYWVITISGTEESEPSPAVTYIHGSGYCGDGIIQKDQGEQCDDMNKINGDGCSLFCRQEVSFNCIDEPSRCYFHDGDGVCEEFEQKTSIKDCGVYTPQGFLDQWASNASVSHQDQQCPGWVIIGQPAASQVCRTKVIDLSEGISQHAWYPCTISYPYSQLAQTTFWLRAYFSQPMVAAAVIVHLVTDGTYYGDQKQETISVQLLDTKDQSHDLGLHVLSCRNNPLIIPVVHDLSQPFYHSQAVRVSFSSPLVAISGVALRSFDNFDPVTLSSCPELAVENASLNCSSSDRYHGAQCTVSCRTGYVLQIRRDDELIKSQTGPSVTVTCTEGKWNKQVACEPVDCSIPDHHQVYAASFSCPEGTTFGSQCSFQCRHPAQLKGNNSLLTCMEDGLWSFPEALCELMCLAPPPVPNADLQTARCRENKHKVGSFCKYKCKPGYHVPGSSRKSKKRAFKTQCTQDGSWQEGACVPVTCDPPPPKFHGLYQCTNGFQFNSECRIKCLGSNVIHCRKDGTWNGSFHVVPNELNSNLKLQCPDGYAIGSECATSCLDHNSESIILPMNVTVRDIPHWLNPTRVERVVCTAGLKWYPHPALIHCVKGCEPFMGDNYCDAINNRAFCNYDGGDCCTSTVKTKKVTPFPMSCDLQGDCACRDPQAQEH 8hgh-a1-m1-cA_8hgh-a1-m1-cB Structure of 2:2 PAPP-A.STC2 complex Q13219 Q13219 4.16 ELECTRON MICROSCOPY 204 1.0 83333 (Escherichia coli K-12) 83333 (Escherichia coli K-12) 1462 1462 8a7e-a1-m1-cC_8a7e-a1-m1-cQ PSRALYFSGRGEQLRLRADLELPRDAFTLQVWLRAEGGQRSPAVITGLYDKCSYISRDRGWVVGIHTISDQDNKDPRYFFSLKTDRARQVTTINAHRSYLPGQWVYLAATYDGQFMKLYVNGAQVATSGEQVGGIFSPLTQKCKVLMLGGSALNHNYRGYIEHFSLWKVARTQREILSDMETHGAHTALPQLLLQENWDNVKHAWSPMKDGSSPKVEFSNAHGFLLDTSLEPPLCGQTLCDNTEVIASYNQLSSFRQPKVVRYRVVNLYEDDHKNPTVTREQVDFQHHQLAEAFKQYNISWELDVLEVSNSSLRRRLILANCDISKIGDENCDPECNHTLTGHDGGDCRHLRDMDCNYEDGGECCDPEITNVTQTCFDPDSPHRAYLDVNELKNILKLDGSTHLNIFFAKSSEEELAGVATWPWDKEALMHLGGIVLNPSFYGMPGHTHTMIHEIGHSLGLYHVFRGISEIQSCSDPCMETEPSFETGDLCNDTNPAPKHKSCGDPGPGNDTCGFHSFFNTPYNNFMSYADDDCTDSFTPNQVARMHCYLDLVYQGWQPSRKPAPVALAPQVLGHTTDSVTLEWFPPIDGHFFERELGSACHLCLEGRILVQYASNASSPMPCSPSGHWSPREAEGHPDVEQPCKSSVRTWSPNSAVNPHTVPPACPEPQGCYLELEFLYPLVPESLTIWVTFVSTDWDSSGAVNDIKLLAVSGKNISLGPQNVFCDVPLTIRLWDVGEEVYGIQIYTLDEHLEIDAAMLTSTADTPLCLQCKPLKYKVVRDPPLQMDVASILHLNRKFVDMDLNLGSVYQYWVITISGTEESEPSPAVTYIHGSGYCGDGIIQKDQGEQCDDMNKINGDGCSLFCRQEVSFNCIDEPSRCYFHDGDGVCEEFEQKTSIKDCGVYTPQGFLDQWASNASVSHQDQQCPGWVIIGQPAASQVCRTKVIDLSEGISQHAWYPCTISYPYSQLAQTTFWLRAYFSQPMVAAAVIVHLVTDGTYYGDQKQETISVQLLDTKDQSHDLGLHVLSCRNNPLIIPVVHDLSQPFYHSQAVRVSFSSPLVAISGVALRSFDNFDPVTLSSDCPELAVENASLNCSSSDRYHGAQCTVSCRTGYVLQIRRDDELIKSQTGPSVTVTCTEGKWNKQVACEPVDCSIPDHHQVYAASFSCPEGTTFGSQCSFQCRHPAQLKGNNSLLTCMEDGLWSFPEALCELMCLAPPPVPNADLQTARCRENKHKVGSFCKYKCKPGYHVPGSSRKSKKRAFKTQCTQDGSWQEGACVPVTCDPPPPKFHGLYQCTNGFQFNSECRIKLGSNVIHCRKDGTWNGSFHVNSNLKLQCPDGYAIGSECATSCLDHNSESIILPMNVTVRDIPHWLNPTRVERVVCTAGLKWYPHPALIHCVKGCEPFMGDNYCDAINNRAFCNYDGGDCCTSTVKTKKVTPFPMSCDLQGDCACRDPQAQEH PSRALYFSGRGEQLRLRADLELPRDAFTLQVWLRAEGGQRSPAVITGLYDKCSYISRDRGWVVGIHTISDQDNKDPRYFFSLKTDRARQVTTINAHRSYLPGQWVYLAATYDGQFMKLYVNGAQVATSGEQVGGIFSPLTQKCKVLMLGGSALNHNYRGYIEHFSLWKVARTQREILSDMETHGAHTALPQLLLQENWDNVKHAWSPMKDGSSPKVEFSNAHGFLLDTSLEPPLCGQTLCDNTEVIASYNQLSSFRQPKVVRYRVVNLYEDDHKNPTVTREQVDFQHHQLAEAFKQYNISWELDVLEVSNSSLRRRLILANCDISKIGDENCDPECNHTLTGHDGGDCRHLRDMDCNYEDGGECCDPEITNVTQTCFDPDSPHRAYLDVNELKNILKLDGSTHLNIFFAKSSEEELAGVATWPWDKEALMHLGGIVLNPSFYGMPGHTHTMIHEIGHSLGLYHVFRGISEIQSCSDPCMETEPSFETGDLCNDTNPAPKHKSCGDPGPGNDTCGFHSFFNTPYNNFMSYADDDCTDSFTPNQVARMHCYLDLVYQGWQPSRKPAPVALAPQVLGHTTDSVTLEWFPPIDGHFFERELGSACHLCLEGRILVQYASNASSPMPCSPSGHWSPREAEGHPDVEQPCKSSVRTWSPNSAVNPHTVPPACPEPQGCYLELEFLYPLVPESLTIWVTFVSTDWDSSGAVNDIKLLAVSGKNISLGPQNVFCDVPLTIRLWDVGEEVYGIQIYTLDEHLEIDAAMLTSTADTPLCLQCKPLKYKVVRDPPLQMDVASILHLNRKFVDMDLNLGSVYQYWVITISGTEESEPSPAVTYIHGSGYCGDGIIQKDQGEQCDDMNKINGDGCSLFCRQEVSFNCIDEPSRCYFHDGDGVCEEFEQKTSIKDCGVYTPQGFLDQWASNASVSHQDQQCPGWVIIGQPAASQVCRTKVIDLSEGISQHAWYPCTISYPYSQLAQTTFWLRAYFSQPMVAAAVIVHLVTDGTYYGDQKQETISVQLLDTKDQSHDLGLHVLSCRNNPLIIPVVHDLSQPFYHSQAVRVSFSSPLVAISGVALRSFDNFDPVTLSSDCPELAVENASLNCSSSDRYHGAQCTVSCRTGYVLQIRRDDELIKSQTGPSVTVTCTEGKWNKQVACEPVDCSIPDHHQVYAASFSCPEGTTFGSQCSFQCRHPAQLKGNNSLLTCMEDGLWSFPEALCELMCLAPPPVPNADLQTARCRENKHKVGSFCKYKCKPGYHVPGSSRKSKKRAFKTQCTQDGSWQEGACVPVTCDPPPPKFHGLYQCTNGFQFNSECRIKLGSNVIHCRKDGTWNGSFHVNSNLKLQCPDGYAIGSECATSCLDHNSESIILPMNVTVRDIPHWLNPTRVERVVCTAGLKWYPHPALIHCVKGCEPFMGDNYCDAINNRAFCNYDGGDCCTSTVKTKKVTPFPMSCDLQGDCACRDPQAQEH 8hgh-a1-m1-cC_8hgh-a1-m1-cG Structure of 2:2 PAPP-A.STC2 complex O76061 O76061 4.16 ELECTRON MICROSCOPY 42 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 171 171 8a7e-a1-m1-cA_8a7e-a1-m1-cP KGRLSLQNTAEIQHCLVNAGDVGCGVFECFENNSCEIRGLHGICMTFLHNAGKFDAQGKSFIKDALKCKAHALRHRFGCISRKCPAIREMVSQLQRECYLKHDLCAAAQENTRVIVEMIHFKDLLLHEPYVDLVNLLLTCGEEVKEAITHSVQVQCEQNWGSLCSILSFCT KGRLSLQNTAEIQHCLVNAGDVGCGVFECFENNSCEIRGLHGICMTFLHNAGKFDAQGKSFIKDALKCKAHALRHRFGCISRKCPAIREMVSQLQRECYLKHDLCAAAQENTRVIVEMIHFKDLLLHEPYVDLVNLLLTCGEEVKEAITHSVQVQCEQNWGSLCSILSFCT 8hgq-a1-m1-cA_8hgq-a1-m2-cA The apo-flavodoxin dimer from Synechococcus elongatus PCC 7942 P10340 P10340 2.09 X-RAY DIFFRACTION 47 1.0 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 1140 (Synechococcus elongatus PCC 7942 = FACHB-805) 172 172 GAKIGLFYGTQTGVTQTIAESIQQEFGGESIVDLNDIANADASDLNAYDYLIIGCPTWNVGELQSDWEGIYDDLDSVNFQGKKVAYFGAGDQVGYSDNFQDAMGILEEKISSLGSQTVGYWPIEGYDFNESKAVRNNQFVGLAIDEDNQPDLTKNRIKTWVSQLKSEFGLAL GAKIGLFYGTQTGVTQTIAESIQQEFGGESIVDLNDIANADASDLNAYDYLIIGCPTWNVGELQSDWEGIYDDLDSVNFQGKKVAYFGAGDQVGYSDNFQDAMGILEEKISSLGSQTVGYWPIEGYDFNESKAVRNNQFVGLAIDEDNQPDLTKNRIKTWVSQLKSEFGLAL 8hgw-a1-m1-cA_8hgw-a1-m1-cD Crystal structure of MehpH in complex with MBP Q2MHH5 Q2MHH5 2.80001 X-RAY DIFFRACTION 69 1.0 2053 (Gordonia) 2053 (Gordonia) 288 288 8hgv-a1-m2-cB_8hgv-a1-m1-cA 8hgw-a2-m1-cB_8hgw-a2-m2-cC FHTVDVKGVQTRYFDDGQDKDPILLIHGGHFGFFIPVGIESWGNVLEDFGEYGRVLAVDKLGQGETGLPLNDEDWTVDAVAEHVANFATQLGLKNLTLVGHSRGGMTAVLLALKYPEMVKKLVIISSATAAPAPPVGTDMDFYERVERTAPGGSAELIRHYHAAQAVNEGDLPEDYIGIATKWLESEKQLDAVAGYARNAEEHWLPSLSEGRRWVQERLADAGIPVPTLVVWGVNNRSAPVSMGKGLFDLIAANTLDSSLYLINNAGHHVFSDQREKFNAAVGAFISL FHTVDVKGVQTRYFDDGQDKDPILLIHGGHFGFFIPVGIESWGNVLEDFGEYGRVLAVDKLGQGETGLPLNDEDWTVDAVAEHVANFATQLGLKNLTLVGHSRGGMTAVLLALKYPEMVKKLVIISSATAAPAPPVGTDMDFYERVERTAPGGSAELIRHYHAAQAVNEGDLPEDYIGIATKWLESEKQLDAVAGYARNAEEHWLPSLSEGRRWVQERLADAGIPVPTLVVWGVNNRSAPVSMGKGLFDLIAANTLDSSLYLINNAGHHVFSDQREKFNAAVGAFISL 8hhi-a1-m1-cA_8hhi-a1-m1-cB Crystal structure of a triple-helix region of human collagen type III 1.4 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 PGPGPGFPGMKGHRGFDGPGPGPG PGPGPGFPGMKGHRGFDGPGPGPG 8hhi-a1-m1-cA_8hhi-a1-m1-cC Crystal structure of a triple-helix region of human collagen type III 1.4 X-RAY DIFFRACTION 58 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 PGPGPGFPGMKGHRGFDGPGPGPG PGPGPGFPGMKGHRGFDGPGPGPG 8hhi-a1-m1-cB_8hhi-a1-m1-cC Crystal structure of a triple-helix region of human collagen type III 1.4 X-RAY DIFFRACTION 64 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 24 24 PGPGPGFPGMKGHRGFDGPGPGPG PGPGPGFPGMKGHRGFDGPGPGPG 8hhk-a2-m1-cG_8hhk-a2-m1-cH Crystal structure of a triple-helix region of human collagen type III 2.5 X-RAY DIFFRACTION 54 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 19 8hhk-a1-m1-cA_8hhk-a1-m1-cB PGPGPGFDGRNGEKGETGP PGPGPGFDGRNGEKGETGP 8hhk-a2-m1-cG_8hhk-a2-m1-cI Crystal structure of a triple-helix region of human collagen type III 2.5 X-RAY DIFFRACTION 53 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 20 8hhk-a1-m1-cA_8hhk-a1-m1-cC PGPGPGFDGRNGEKGETGP PGPGPGFDGRNGEKGETGPG 8hhk-a2-m1-cH_8hhk-a2-m1-cI Crystal structure of a triple-helix region of human collagen type III 2.5 X-RAY DIFFRACTION 56 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 19 20 8hhk-a1-m1-cB_8hhk-a1-m1-cC PGPGPGFDGRNGEKGETGP PGPGPGFDGRNGEKGETGPG 8hhx-a1-m1-cA_8hhx-a1-m1-cB SARS-CoV-2 Delta Spike in complex with FP-12A P0DTC2 P0DTC2 3.62 ELECTRON MICROSCOPY 279 0.982 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 822 1008 PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYYHKNNKSWMESGVYSSANNCTFEYVSQPFLMFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQNVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP PPAYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVYYHGVYSSANNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDISTEIYQAGSKPCNGVEGFNCYFPLQSYGFQPTNGVGYQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQNVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDP 8hhy-a1-m1-cC_8hhy-a1-m1-cA SARS-CoV-2 Delta Spike in complex with IS-9A P0DTC2 P0DTC2 2.77 ELECTRON MICROSCOPY 276 0.993 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 934 957 8hhy-a1-m1-cA_8hhy-a1-m1-cB AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDGVGYQPYRVVVLSFELATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQNVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLSYGFQPTNGVGYQPYRVVVLSFELATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQNVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPELDS 8hhy-a1-m1-cC_8hhy-a1-m1-cB SARS-CoV-2 Delta Spike in complex with IS-9A P0DTC2 P0DTC2 2.77 ELECTRON MICROSCOPY 265 0.999 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 934 971 AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDGVGYQPYRVVVLSFELATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQNVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL AYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIRFDNPVLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDNCTFEYVSFKNLREFVFKNIDGYFKIYSKHTPINLVRDLPQGFSALEPLVDLPIGINITRFQTLLALHAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFGEVFNATRFASVYAWNRKRISNCVADYSVLYNSASFSTFKCYGVSPTKLNDLCFTNVYADSFVIRGDEVRQIAPGQTGKIADYNYKLPDDFTGCVIAWNSNNLDSKVGGNYNYRYRLFRKSNLKPFERDSYGFQPTNGVGYQPYRVVVLSFELATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVSNVFQTRAGCLIGAEHVNNSYECDIPIGAGICASYQTSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLNRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKDFGGFNFSQILPDPSKPSKRSFIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGAALQIPFAMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTASALGKLQNVVNQNAQALNTLVKQLSSNFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYDPLQPEL 8hi4-a1-m1-cA_8hi4-a1-m1-cB Cryo-EM structure of the bi-functional malonyl-CoA reductase from Roseiflexus castenholzii A7NN59 A7NN59 3.35 ELECTRON MICROSCOPY 317 0.999 383372 (Roseiflexus castenholzii DSM 13941) 383372 (Roseiflexus castenholzii DSM 13941) 1181 1187 8hi6-a1-m1-cA_8hi6-a1-m2-cA GNIGEVITRRFLAEGATVVITGRNAEKLAVYRRRLIDEERVAPERVVALRMDGSDIAQVRAGVAQIVHGGTDVPIPLHRIDILVNNAGSAGPRRRLVDIPLEPSEVQPPDSETLAQAVGNLVGITWNLTRAAAPHMPSGSSVINISTIFSRTDYYGRIAYVAPKAALNALSDGLARELGVRGIRVNTIYPGPIESERIYTMFQAMDALKGQPEGDTASGFLRMMRLSRIDQNGEVVKRFPSPVDVANTAVLLASDESAAFTGHAFEVTHGMEVPTESRTTFVSRPGLRSVDATGKVILICAGDQVDDAVALADTLRSCRATVVIGFRDPRALEKASVLLREPRHALAADMYGRPTMTAEARLVRLDPLDPRAAAQTLEQIHAELGAIHHAVVLPGQSRHAPSASLIEVDDQVVERFLHQELVGTIALARELARFWEEYPSGSSMHRVLFVSNPDDQQGNQYSHILRAAVEQLVRVWRHESEYDSVNPAHQQEGQSSAAVWANQLIRYVNNEMANLDFTCAWVAKLLGSDRRIAEINLYLPEEIVGTIGVHNPGFGWAESLFGLHMGKVALITGGSAGIGGQIGRLLALSGAHVMLAARNADQLEQMRASIVREVRDASYPDAESRVAIFPGSDVSDIDGLERLVNHTVRVFGKVDYLINNAGIAGAEEMVIDMPVDAWRHTLRANLISNYALLRRLAPQMKAAGGAYVLNVSSYFGGEKYVAIPYPNRSDYAVSKAGQRAMVESLARFLGPEIQINAIAPGPVEGEGLFMRRARLILENKRLNEVFAALLAARHEGATIADLLPDLFANDIQSIANSAAMPAPLRRLATMLRETSDAGGSAQSYLMNATIARKLLNRLENGGYITLHDRRALTVEPPEPFFTEAQIEREAIKVRDGILGMLHLQRMPTEFDVALATVFYLADRNVTGETFHPSGGLRFERTVTEGELFGKPGQQRLERLKGSVVYLIGEHLRQHLVLLARTFLDEIHVARVVLLTETTQAATDLAAELSDYEAAGRFVVIPTCGDIEGGIDRAMAEYGRPGPVISTPFRPLPDRALSARNGDWSSVLTTAEFEELVEQQITHHFRVARKAGLIEGANVTLVTPPTSARSTSEEFALANFVKTTLHALTATAGAESERTVPHVPVNQVDLTRRARSEEPRTPSEEEEELQRFVNAVLLTSAP LITGGAGNIGEVITRRFLAEGATVVITGRNAEKLAVYRRRLIDEERVAPERVVALRMDGSDIAQVRAGVAQIVHGGTDVPIPLHRIDILVNNAGSAGPRRRLVDIPLEPSEVQPPDSETLAQAVGNLVGITWNLTRAAAPHMPSGSSVINISTIFSRTDYYGRIAYVAPKAALNALSDGLARELGVRGIRVNTIYPGPIESERIYTMFQAMDALKGQPEGDTASGFLRMMRLSRIDQNGEVVKRFPSPVDVANTAVLLASDESAAFTGHAFEVTHGMEVPTESRTTFVSRPGLRSVDATGKVILICAGDQVDDAVALADTLRSCRATVVIGFRDPRALEKASVLLREPRHALAADMYGRPTMTAEARLVRLDPLDPRAAAQTLEQIHAELGAIHHAVVLPGQSRHAPSASLIEVDDQVVERFLHQELVGTIALARELARFWEEYPSGSSMHRVLFVSNPDDQQGNQYSHILRAAVEQLVRVWRHESEYDSVNPAHQQEGQSSAAVWANQLIRYVNNEMANLDFTCAWVAKLLGSDRRIAEINLYLPEEIVGTIGVHNPGFGWAESLFGLHMGKVALITGGSAGIGGQIGRLLALSGAHVMLAARNADQLEQMRASIVREVRDASYPDAESRVAIFPGSDVSDIDGLERLVNHTVRVFGKVDYLINNAGIAGAEEMVIDMPVDAWRHTLRANLISNYALLRRLAPQMKAAGGAYVLNVSSYFGGEKYVAIPYPNRSDYAVSKAGQRAMVESLARFLGPEIQINAIAPGPVEGGLFMRRARLILENKRLNEVFAALLAARHEGATIADLLPDLFANDIQSIANSAAMPAPLRRLATMLRETSDAGGSAQSYLMNATIARKLLNRLENGGYITLHDRRALTVEPPEPFFTEAQIEREAIKVRDGILGMLHLQRMPTEFDVALATVFYLADRNVTGETFHPSGGLRFERTVTEGELFGKPGQQRLERLKGSVVYLIGEHLRQHLVLLARTFLDEIHVARVVLLTETTQAATDLAAELSDYEAAGRFVVIPTCGDIEGGIDRAMAEYGRPGPVISTPFRPLPDRALSARNGDWSSVLTTAEFEELVEQQITHHFRVARKAGLIEGANVTLVTPPTSARSTSEEFALANFVKTTLHALTATAGAESERTVPHVPVNQVDLTRRARSEEPRTPSEEEEELQRFVNAVLLTSAPL 8hif-a1-m1-cs3_8hif-a1-m1-ct7 One asymmetric unit of Singapore grouper iridovirus capsid Q5YFM7 Q5YFM7 3.5 ELECTRON MICROSCOPY 133 1.0 262968 (Singapore grouper iridovirus) 262968 (Singapore grouper iridovirus) 98 98 8hif-a1-m1-cs1_8hif-a1-m1-ct3 8hif-a1-m1-cs5_8hif-a1-m1-ct6 8hif-a1-m1-ct1_8hif-a1-m1-cs4 8hif-a1-m1-ct4_8hif-a1-m1-cs6 8hif-a1-m1-ct5_8hif-a1-m1-cs2 PHWMDPQLMGSQTTQYSRNRGYGDPIRGDLPIVPDDGGWFATRANPAHHLHTGALSMIGGDASDCGSTAVQQLIKKYEDKGCNNNGLNVMSSHYGGVM PHWMDPQLMGSQTTQYSRNRGYGDPIRGDLPIVPDDGGWFATRANPAHHLHTGALSMIGGDASDCGSTAVQQLIKKYEDKGCNNNGLNVMSSHYGGVM 8hja-a1-m1-cB_8hja-a1-m1-cA The crystal structure of syn_CdgR-(c-di-GMP) from Synechocystis sp. PCC 6803 P74113 P74113 2.38 X-RAY DIFFRACTION 134 0.992 1148 (Synechocystis sp. PCC 6803) 1148 (Synechocystis sp. PCC 6803) 118 146 FTKALQDGYLTPAEAEVGRLCVVAPHKKFINVEEVLTEVVSQVSKYQKTTEKQPDIADIAAYALNRLPPLYATSEEGAEYQRQRASEELEFLIQQQVKDGLGRYFDRPQIADRKPLEP SIQEIFTKALQDGYLTPAEAEVGRLCESGVDLDQGEYEALDRLAALLAGDVVAPHKKFINVEEVLTEVVSQVSKYQKTTEKQPDIADIAAYALNRLPPLYATSEEGAEYQRQRASEELEFLIQQQVKDGLGRYFDRPQIADRKPLE 8hkw-a1-m1-cA_8hkw-a1-m1-cB Crystal structure of importin-alpha3 bound to the 53BP1 nuclear localization signal O00629 O00629 1.9 X-RAY DIFFRACTION 31 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 415 415 TSLEAIVQNASSDNQGIQLSAVQAARKLLSSDRNPPIDDLIKSGILPILVHCLERDDNPSLQFEAAWALTNIASGTSEQTQAVVQSNAVPLFLRLLHSPHQNVCEQAVWALGNIIGDGPQCRDYVISLGVVKPLLSFISPSIPITFLRNVTWVMVNLCRHKDPPPPMETIQEILPALCVLIHHTDVNILVDTVWALSYLTDAGNEQIQMVIDSGIVPHLVPLLSHQEVKVQTAALRAVGNIVTGTDEQTQVVLNCDALSHFPALLTHPKEKINKEAVWFLSNITAGNQQQVQAVIDANLVPMIIHLLDKGDFGTQKEAAWAISNLTISGRKDQVAYLIQQNVIPPFCNLLTVKDAQVVQVVLDGLSNILKMAEDEAETIGNLIEECGGLEKIEQLQNHENEDIYKLAYEIIDQFF TSLEAIVQNASSDNQGIQLSAVQAARKLLSSDRNPPIDDLIKSGILPILVHCLERDDNPSLQFEAAWALTNIASGTSEQTQAVVQSNAVPLFLRLLHSPHQNVCEQAVWALGNIIGDGPQCRDYVISLGVVKPLLSFISPSIPITFLRNVTWVMVNLCRHKDPPPPMETIQEILPALCVLIHHTDVNILVDTVWALSYLTDAGNEQIQMVIDSGIVPHLVPLLSHQEVKVQTAALRAVGNIVTGTDEQTQVVLNCDALSHFPALLTHPKEKINKEAVWFLSNITAGNQQQVQAVIDANLVPMIIHLLDKGDFGTQKEAAWAISNLTISGRKDQVAYLIQQNVIPPFCNLLTVKDAQVVQVVLDGLSNILKMAEDEAETIGNLIEECGGLEKIEQLQNHENEDIYKLAYEIIDQFF 8hlz-a1-m1-cC_8hlz-a1-m1-cF F8-A22-E4 complex of MPXV in hexameric form Q5IXP2 Q5IXP2 3.5 ELECTRON MICROSCOPY 10 1.0 10244 (Monkeypox virus) 10244 (Monkeypox virus) 370 370 MTSSADLTNLKELLSLYKSLRFSDSVAIEKYNSLVEWGTSTYWKINSFQIPDEIRSACNKVLDSDNGIDFLRFVLLNNRWIMEDAISKYQSPVNIFKLASEYGLNIPNYLEIEIEEDTLFDDELYSIMERSFDDTFPKISISYIKLGELKRQVVDFFKFSFMYIESIKVDRIGDNIFIPSVITKSGKKILVKDVDHLIRSKVREHTFVKVKKKNTFSILYDYDGNGTETRGEVIKRIIDTIGRDYYVNGKYFSKVGIAGLKQLTNKLDINECATVDELVDEINKSGTVKRKIKNQSVFDLSRECLGYPEADFITLVNNMRFKIENCKVVNFNIENTNCLNNPSIETIYGNFNQFVSIFNTVTDVKKRLFE MTSSADLTNLKELLSLYKSLRFSDSVAIEKYNSLVEWGTSTYWKINSFQIPDEIRSACNKVLDSDNGIDFLRFVLLNNRWIMEDAISKYQSPVNIFKLASEYGLNIPNYLEIEIEEDTLFDDELYSIMERSFDDTFPKISISYIKLGELKRQVVDFFKFSFMYIESIKVDRIGDNIFIPSVITKSGKKILVKDVDHLIRSKVREHTFVKVKKKNTFSILYDYDGNGTETRGEVIKRIIDTIGRDYYVNGKYFSKVGIAGLKQLTNKLDINECATVDELVDEINKSGTVKRKIKNQSVFDLSRECLGYPEADFITLVNNMRFKIENCKVVNFNIENTNCLNNPSIETIYGNFNQFVSIFNTVTDVKKRLFE 8htw-a1-m1-cA_8htw-a1-m1-cB Crystal Structure of the ring nuclease Sso2081 Y133F mutant from Saccharolobus solfataricus in its apo form Q7LYJ6 Q7LYJ6 2 X-RAY DIFFRACTION 62 0.994 273057 (Saccharolobus solfataricus P2) 273057 (Saccharolobus solfataricus P2) 179 180 PMVKLVATLGTSPGGVIESFLYLVKKGENIDEVRVVTTSNAEVKKAWRIVRLMFVCCIQEKFPKVEISEHPLDIEDIYSEDDLRKVREFVEKQLGEGDYLDITGGRKSMSVAAALAAKNKGVKIITSIIPQDDFNKISKKVRELKEIPEIKNRGECRQEMKETYCSLIVQDARSIEFEI GRPMVKLVATLGTSPGGVIESFLYLVKKGENIDEVRVVTTSNAEVKKAWRIVRLMFVCCIQEKFPKVEISEHPLDIEDIYSEDDLRKVREFVEKQLGEGDYLDITGGRKSMSVAAALAAKNKGVKIITSIIPQDDFNKISKKVRELKEIPEIKNRGECRQEMKETYCSLIVQDARSIEFE 8hu6-a1-m1-cA_8hu6-a1-m1-cD AMP deaminase 2 in complex with AMP Q01433 Q01433 2.33 X-RAY DIFFRACTION 83 0.998 9606 (Homo sapiens) 9606 (Homo sapiens) 614 621 8hu6-a1-m1-cC_8hu6-a1-m1-cB EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRRSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEEIVHVEQGREQTLREVFESMNLTAYDLSVDTLDVHADRNTFHRFDKFNAKYNPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSEML EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRRCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEEIVHVEQGREQTLREVFESMNLTAYDLSVDTLDVHADRNTFHRFDKFNAKYNPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSEMLETIPEE 8hu6-a1-m1-cC_8hu6-a1-m1-cD AMP deaminase 2 in complex with AMP Q01433 Q01433 2.33 X-RAY DIFFRACTION 122 0.994 9606 (Homo sapiens) 9606 (Homo sapiens) 619 621 8hu6-a1-m1-cA_8hu6-a1-m1-cB EREFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLEHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEEIVHVEQGREQTLREVFESMNLTAYDLSVDTLDVHADRNTFHRFDKFNAKYNPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSEMLET EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRRCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEEIVHVEQGREQTLREVFESMNLTAYDLSVDTLDVHADRNTFHRFDKFNAKYNPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSEMLETIPEE 8hu6-a1-m1-cD_8hu6-a1-m1-cB AMP deaminase 2 in complex with AMP Q01433 Q01433 2.33 X-RAY DIFFRACTION 20 0.99 9606 (Homo sapiens) 9606 (Homo sapiens) 621 629 8hu6-a1-m1-cA_8hu6-a1-m1-cC EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRRCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEEIVHVEQGREQTLREVFESMNLTAYDLSVDTLDVHADRNTFHRFDKFNAKYNPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSEMLETIPEE EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLETRAPVHPPALEQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRRECSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEEIVHVEQGREQTLREVFESMNLTAYDLSVDTLDVHADRNTFHRFDKFNAKYNPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSEML 8hub-a1-m1-cA_8hub-a1-m1-cB AMP deaminase 2 in complex with an inhibitor Q01433 Q01433 3.25 X-RAY DIFFRACTION 56 0.985 9606 (Homo sapiens) 9606 (Homo sapiens) 388 545 EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLFAHIIKEVMSDLEESKYQNAELRLSHSPNVRWLVQVPRLHVDGFDSVDDESKPENHVFNPPYAYYLYYTFANMTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLEEQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE 8hub-a1-m1-cA_8hub-a1-m1-cD AMP deaminase 2 in complex with an inhibitor Q01433 Q01433 3.25 X-RAY DIFFRACTION 83 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 388 562 EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLFAHIIKEVMSDLEESKYQNAELRLSHSPNVRWLVQVPRLHVDGFDSVDDESKPENHVFNPPYAYYLYYTFANMTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLETRTQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRREPDEHCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE 8hub-a1-m1-cB_8hub-a1-m1-cC AMP deaminase 2 in complex with an inhibitor Q01433 Q01433 3.25 X-RAY DIFFRACTION 90 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 545 572 EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLEEQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLETRTEQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRREPDEHCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE 8hub-a1-m1-cD_8hub-a1-m1-cC AMP deaminase 2 in complex with an inhibitor Q01433 Q01433 3.25 X-RAY DIFFRACTION 63 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 562 572 EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLETRTQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRREPDEHCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE EFQRVTISGEEKCGVPFTDLLDAAKSVVRALFIREKYMALSLQSFCPTTRRYLQQLAEKPLETRTEQHPYEHCEPSTMPGDLGLGLRMVRGVVHVYTRREPDEHCSEVELPYPDLQEFVADVNVLMALIINGPIKSFCYRRLQYLSSKFQMHVLLNEMKELAAQKKVPHRDFYNIRKVDTHIHASSCMNQKHLLRFIKRAMKRHLEPIGESVLREIFIKTDNRVSGKYFAHIIKEVMSDLEESKYQNAELRLSIYGRSRDEWDKLARWAVMHRVHSPNVRWLVQVPRLFDVYRTKGQLANFQEMLENIFLPLFEATVHPASHPELHLFLEHVDGFDSVDDESKPENHVFNLESPLPEAWVEEDNPPYAYYLYYTFANMAMLNHLRRQRGFHTFVLRPHCGEAGPIHHLVSAFMLAENISHGLLLRKAPVLQYLYYLAQIGIAMSPLSNNSLFLSYHRNPLPEYLSRGLMVSLSTDDPLQFHFTKEPLMEEYSIATQVWKLSSCDMCELARNSVLMSGFSHKVKSHWLGPNYTKEGPEGNDIRRTNVPDIRVGYRYETLCQELALITQAVQSE 8huy-a1-m1-cB_8huy-a1-m1-cA N-acetyl-(R)-beta-phenylalanine acylase 2.45 X-RAY DIFFRACTION 87 0.997 32008 (Burkholderia) 32008 (Burkholderia) 727 730 8i59-a1-m1-cA_8i59-a1-m1-cB 8i5a-a1-m1-cB_8i5a-a1-m1-cA MITITGYSDVLSAGPGETVEFKVSSKSPHPFTAELVRVIHADPNPAGPGMRFEPLGQVFSGTFASFDKPLLPGSFARVSGVPAAGSAAGLVAGARIRPTALARGDQCVMSQWNTARHAGFALLVSERGLELRLGAGTGEPPVCVLCAARLEVRWYDVWFAIDTASNRIEVGVTEVDGSVAAPVRHRTLQMLDARWRAPHSDDAADLLIGALEDRRAHFNGQIEAPFVADEYAAPRASDFSTDALYAAWDFARGIDTLKIADTTPHARHGTLQNLPTRAVRSSAWNGRERCWRTAPAHYAAIHFHDDDLHDAGWSTDFAFTVPATLKSGAYAMRLSVDGATDYLPFYVRPELGRPGAPLVFVAATYTYQAYANYARGNFDAALRDKVGRWGAYPHNPDDHPEVGLATYNLHSDGSGVMFSSRLRPMLTMRPGFLTFDDSRGSGCRHYIADSHLLDWLEHEGFSFDVVTDDDLERFGAALLEPYAAVLTGTHPEYHTAATLDALAGYKRSGGNLAYLGGNGFYWRVGRSERVPGALEVRRTEGGVRAWAAEAGEYFHALDGEYGGLWRSSARTPQQLVGVGFSSQGPFEGSHYRVLDAARSQPGGSLLKDIAGPLFGGYGLSGGGAAGFELDSTEAADGTPANVIILARSESHSAAFGPALDALLSHTATRARKTPDTLIRSEIVYYETGYGGAVFSVGSITFCGALSHNDYRNDVSTLLRNVLIRFSR ITITGYSDVLSAGPGETVEFKVSSKSPHPFTAELVRVIHADPNPAGPGMRFEPLGQVFSGTFASFDKPLLPGSFARVSGVPAAGSAAGLVAGARIRPTALARGDQCVMSQWNTARHAGFALLVSERGLELRLGAGTGEPPVCVLCAARLEVRWYDVWFAIDTASNRIEVGVTEVDGSVAAPVRHRTLQMLDARWRAPHSDDAADLLIGALEDGRRAHFNGQIEAPFVADALPSYAAPRASDFSTDALYAAWDFARGIDTLKIADTTPHARHGTLQNLPTRAVRSSAWNGRERCWRTAPAHYAAIHFHDDDLHDAGWSTDFAFTVPATLKSGAYAMRLSVDGATDYLPFYVRPELGRPGAPLVFVAATYTYQAYANYARGNFDAALRDKVGRWGAYPHNPDDHPEVGLATYNLHSDGSGVMFSSRLRPMLTMRPGFLTFDDSRGSGCRHYIADSHLLDWLEHEGFSFDVVTDDDLERFGAALLEPYAAVLTGTHPEYHTAATLDALAGYKRSGGNLAYLGGNGFYWRVGRSERVPGALEVRRTEGGVRAWAAEAGEYFHALDGEYGGLWRSSARTPQQLVGVGFSSQGPFEGSHYRVLDAARSQPGGSLLKDIAGPLFGGYGLSGGGAAGFELDSTEAADGTPANVIILARSESHSAAFGPALDALLSHTATRARKTPDTLIRSEIVYYETGYGGAVFSVGSITFCGALSHNDYRNDVSTLLRNVLIRFSR 8i0n-a1-m1-cA_8i0n-a1-m1-cB Structure of beta-arrestin1 in complex with a phosphopeptide corresponding to the human C5a anaphylatoxin chemotactic receptor 1, C5aR1 (Local refine) P29066 P29066 3.26 ELECTRON MICROSCOPY 100 1.0 10116 (Rattus norvegicus) 10116 (Rattus norvegicus) 362 362 8go8-a1-m1-cA_8go8-a1-m1-cB 8gp3-a1-m1-cA_8gp3-a1-m1-cB 8i0q-a1-m1-cA_8i0q-a1-m1-cB RVFKKASPNGKLTVYLGKRDFVDHIDLVDPVDGVVLVDPEYLKERRVYVTLTCAFRYGREDLDVLGLTFRKDLFVANVQSFPPAPEDKKPLTRLQERLIKKLGEHAYPFTFEIPPNLPCSVTLQPGPEDTGKACGVDYEVKAFCAENLEEKIHKRNSVRLVIRKVQYAPERPGPQPTAETTRQFLMSDKPLHLEASLDKEIYYHGEPISVNVHVTNNTNKTVKKIKISVRQYADICLFNTAQYKCPVAMEEADDTVAPSSTFCKVYTLTPFLANNREKRGLALDGKLKHEDTNLASSTLLREGANREILGIIVSYKVKVKLVVSRGGLLGDLASSDVAVELPFTLMHPKPKEEPPHREVPES RVFKKASPNGKLTVYLGKRDFVDHIDLVDPVDGVVLVDPEYLKERRVYVTLTCAFRYGREDLDVLGLTFRKDLFVANVQSFPPAPEDKKPLTRLQERLIKKLGEHAYPFTFEIPPNLPCSVTLQPGPEDTGKACGVDYEVKAFCAENLEEKIHKRNSVRLVIRKVQYAPERPGPQPTAETTRQFLMSDKPLHLEASLDKEIYYHGEPISVNVHVTNNTNKTVKKIKISVRQYADICLFNTAQYKCPVAMEEADDTVAPSSTFCKVYTLTPFLANNREKRGLALDGKLKHEDTNLASSTLLREGANREILGIIVSYKVKVKLVVSRGGLLGDLASSDVAVELPFTLMHPKPKEEPPHREVPES 8i28-a1-m1-cA_8i28-a1-m2-cB Structure of Phosphoserine Aminotransferase from Saccharomyces cerevisiae P33330 P33330 2.8 X-RAY DIFFRACTION 75 0.982 4932 (Saccharomyces cerevisiae) 4932 (Saccharomyces cerevisiae) 335 335 IEDSKKHLIELLNIPDTHEVFYLQGGGTTGFSSVATNLAAAYVGKHGKIAPAGYLVTGSWSQKSFEEAKRLHVPAEVIFNAKDYNNGKFGKIPDESLWEDKIKGKAFSYVYLCENETVHGVEWPELPKCLVNDPNIEIVADLSSDILSRKIDVSQYGVIMAGAQGLAGLTLYIIKKSILKNISGASDETLHELGVPITPIAFDYPTVVKNNTIPIFTLHVMDLVFQHILKKGGVEAQQAENEEKAKILYEALDANSDFYNVPVDPKCRSKMNVVFTLKKDGLDDQFLKEAAARHLTGLKGHRSVGGFRASIYNALSVKAVQNLVDFIKEFAEKNA TKVIEDSKKHLIELLNIPDTHEVFYLQGGGTTGFSSVATNLAAAYVGKHGKIAPAGYLVTGSWSQKSFEEAKRLHVPAEVIFNAKDYNNGKFGKIPDESLWEDKIKGKAFSYVYLCENETVHGVEWPELPKCLVNDPNIEIVADLSSDILSRKIDVSQYGVIMAGAQKNIGLAGLTLYIIKKSILKNISGASDETLHELGVPITPIAFDYPTVVKNNTLHVMDLVFQHILKKGGVEAQQAENEEKAKILYEALDANSDFYNVPVDPKCRSKMNVVFTLKKDGLDDQFLKEAAARHLTGLKGHRSVGGFRASIYNALSVKAVQNLVDFIKEFAEKN 8i29-a1-m1-cA_8i29-a1-m2-cA Crystal structure of butanol dehydrogenase A (YqdH) in complex with NADH from Fusobacterium nucleatum Q8R612 Q8R612 2.72 X-RAY DIFFRACTION 103 1.0 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 190304 (Fusobacterium nucleatum subsp. nucleatum ATCC 25586) 384 384 7fjg-a1-m1-cA_7fjg-a1-m2-cA DNFNYKNDTKIIFGKDNYSEIGKNIKIFSKKTPKILLHYEADGELIKKLGIYEKVISSLKEFDIEFIELGGVVPNPRLSLVYEGIKICKEENITFILAVGGASVIDSAKAISLGAVDNGDVWDFFTAKRIPQDTLGIGVVLTIPGAGSEMSESSIITDENKKQKAVCDTEVNFPKFAILNPEVCYTIPDRLMAAGIVDILSHLMERYFTKSIDTALSDSLIEATMKIVIKYGPLLMKDRKNYNYCSQIMWAATMAHNGMIACGRVADWASHRIEHEISGIYDLTHGIGMAIIFPAWMKYTKNIRPQIFEKFFKEVFNTVNIDEGINKLEEFFKSLGINLKLSDYGITEEYFSLMAEKALGNSETLGRFMQLNKQDIINILNLAK DNFNYKNDTKIIFGKDNYSEIGKNIKIFSKKTPKILLHYEADGELIKKLGIYEKVISSLKEFDIEFIELGGVVPNPRLSLVYEGIKICKEENITFILAVGGASVIDSAKAISLGAVDNGDVWDFFTAKRIPQDTLGIGVVLTIPGAGSEMSESSIITDENKKQKAVCDTEVNFPKFAILNPEVCYTIPDRLMAAGIVDILSHLMERYFTKSIDTALSDSLIEATMKIVIKYGPLLMKDRKNYNYCSQIMWAATMAHNGMIACGRVADWASHRIEHEISGIYDLTHGIGMAIIFPAWMKYTKNIRPQIFEKFFKEVFNTVNIDEGINKLEEFFKSLGINLKLSDYGITEEYFSLMAEKALGNSETLGRFMQLNKQDIINILNLAK 8i4z-a1-m1-cA_8i4z-a1-m1-cB CalA3 with hydrolysis product A0A2N9BJK0 A0A2N9BJK0 3.97 ELECTRON MICROSCOPY 362 1.0 1079985 (Streptomyces chartreusis NRRL 3882) 1079985 (Streptomyces chartreusis NRRL 3882) 1687 1687 7wvz-a1-m1-cB_7wvz-a1-m1-cA 8i4y-a1-m1-cA_8i4y-a1-m1-cB QEPIAVLGIGCRFPGGVRSPEDLWDLVDSGGDAVGGLPAGRGWQAGSALDGVNAGFIHGVEEFDPYFFGLDPVEAAAMDPQQRLLLETTWEAFERAGIDPVAARGSRTAVYAGVQFGGYPLLMREAPPPQVLDHLGLGNSVGAASGRLAYQFGLLGGAVTVDTQCTSSIVALHLAVKALRNGECALALAGGACVMSLPTVLMDFHRRSLLAPDGRSKSFAAAADGVSLAEGAGMLLLERLSDARRNGHPVMAVIRGTAINQDGATNGIISPSGRAQERVIRAALADGRVTADSVDAVEGHGVGATLGDGVEVTSLLSTYGQERPAGRPLLLGSVKSNIGHTQTVGAVAGIVKLVMALRNERLPRTVHVDGPTPHADWSSGTVRLLTEPEPWRRGERVRRAGLTCLTLSGTNGHLILEEPPADEPAARPANPERTVPLVLSAKSPTALREQAERLRATITAAEPVDVGHSLHTTRSSFRHRAVVLGTGREELAAGLDALAGDRTADGLVRGVARAQGQTALLFGGAGDGTSGDRPADAEGPRTARGLYEAFPAFAEALDEVTEHLAGLLGPEVRAAVREPGPACAEPTVVGQAVAFALNTALHRLLTAFAVRPDATLGHGAGEVAAAYAAGALSLADGAALVTALGRITERVATGPGASVWVRATEDEVRAALSGSQEQVGAAVAAVDEPGTTVVSGDAGAVARVAAHWRAHGRATGAPRPARLLLSPDDEQAALAELRAIVAGLAFREPEVPLLSTVTGQPVEPAELRSAEHWLDHLRGPTRFLDGVRRLRTDGVTRLVGLDLSGDLTGPAGRSAAGFGEPGRPLLLASVPGGGRPPGQALLSALGELHTDGVAIDWSQAFEGRGARRVDLPTYPYQKVRCWLVPPEPQVSVVAAPPHPLLGTALDLVDATGQSFTQQLTPGQVAGVFGQQLYGTPVLPAGARLEWLLAAARHGSPDSAWTLTGIRLPGTVSAASGTPVALQTSREDSGDGHRVRAFVKGPGTGGGRWAERGGATVVPAVTRPAPDRVDPESLPEGLAELDVAEVYRRLWRQGSDYAEPLRVLRRVWLGGDEAVALVGTADVPTGPSGWSRWAAVLEAAVQLAALSGSGPRTPVSVDRLEVSGPPSEVVWLRVRHGADGAADAVVLSGEGVRLAAVQGLRLRPMAGREPAGLAEAPLERHEVVWHALAEDGRPGAIGGGTGSWLVFSDDPERAAAWCDELALFGVPAVALAGEDAEGRDGTETVPVGTGDPDVVGKTFAELRERGVTVAGLLVHDAGDAREPASGADDPLDAACRRGGRTLALVRGFLQEYAEQTPRIVLCSAGAAAGLAGGPPHPAQAPLTALFTSLVWEHPELPCAQVDLDPAEDPPTVVSLLGQVMRLPGAGRLAVRGGRWFEARLERRPAPADRGERLALRPDATYLVAGGDTRHAAAALEWLAARGARSVVLAGAESERGDLAGARTTGHAGIERLEHVAVDLSSAADVARLAELCADGRPPLRGVLLLPQPVAGGGLDELDGARFGAELAGALRGPVELTRRFTDVGLTGGTDFFVLSTSVVSLPGRAGTVVGSAADAFLTALARHHRQAGLPVVAAAWGPWLESVDESDEAPAVAFAEAGVYPAPGGEMLDALLPLPAAGEADGSGEAGLARVDWDRYLTAGHRPLPYTVLETRASYDEEKAPGFGQNRM QEPIAVLGIGCRFPGGVRSPEDLWDLVDSGGDAVGGLPAGRGWQAGSALDGVNAGFIHGVEEFDPYFFGLDPVEAAAMDPQQRLLLETTWEAFERAGIDPVAARGSRTAVYAGVQFGGYPLLMREAPPPQVLDHLGLGNSVGAASGRLAYQFGLLGGAVTVDTQCTSSIVALHLAVKALRNGECALALAGGACVMSLPTVLMDFHRRSLLAPDGRSKSFAAAADGVSLAEGAGMLLLERLSDARRNGHPVMAVIRGTAINQDGATNGIISPSGRAQERVIRAALADGRVTADSVDAVEGHGVGATLGDGVEVTSLLSTYGQERPAGRPLLLGSVKSNIGHTQTVGAVAGIVKLVMALRNERLPRTVHVDGPTPHADWSSGTVRLLTEPEPWRRGERVRRAGLTCLTLSGTNGHLILEEPPADEPAARPANPERTVPLVLSAKSPTALREQAERLRATITAAEPVDVGHSLHTTRSSFRHRAVVLGTGREELAAGLDALAGDRTADGLVRGVARAQGQTALLFGGAGDGTSGDRPADAEGPRTARGLYEAFPAFAEALDEVTEHLAGLLGPEVRAAVREPGPACAEPTVVGQAVAFALNTALHRLLTAFAVRPDATLGHGAGEVAAAYAAGALSLADGAALVTALGRITERVATGPGASVWVRATEDEVRAALSGSQEQVGAAVAAVDEPGTTVVSGDAGAVARVAAHWRAHGRATGAPRPARLLLSPDDEQAALAELRAIVAGLAFREPEVPLLSTVTGQPVEPAELRSAEHWLDHLRGPTRFLDGVRRLRTDGVTRLVGLDLSGDLTGPAGRSAAGFGEPGRPLLLASVPGGGRPPGQALLSALGELHTDGVAIDWSQAFEGRGARRVDLPTYPYQKVRCWLVPPEPQVSVVAAPPHPLLGTALDLVDATGQSFTQQLTPGQVAGVFGQQLYGTPVLPAGARLEWLLAAARHGSPDSAWTLTGIRLPGTVSAASGTPVALQTSREDSGDGHRVRAFVKGPGTGGGRWAERGGATVVPAVTRPAPDRVDPESLPEGLAELDVAEVYRRLWRQGSDYAEPLRVLRRVWLGGDEAVALVGTADVPTGPSGWSRWAAVLEAAVQLAALSGSGPRTPVSVDRLEVSGPPSEVVWLRVRHGADGAADAVVLSGEGVRLAAVQGLRLRPMAGREPAGLAEAPLERHEVVWHALAEDGRPGAIGGGTGSWLVFSDDPERAAAWCDELALFGVPAVALAGEDAEGRDGTETVPVGTGDPDVVGKTFAELRERGVTVAGLLVHDAGDAREPASGADDPLDAACRRGGRTLALVRGFLQEYAEQTPRIVLCSAGAAAGLAGGPPHPAQAPLTALFTSLVWEHPELPCAQVDLDPAEDPPTVVSLLGQVMRLPGAGRLAVRGGRWFEARLERRPAPADRGERLALRPDATYLVAGGDTRHAAAALEWLAARGARSVVLAGAESERGDLAGARTTGHAGIERLEHVAVDLSSAADVARLAELCADGRPPLRGVLLLPQPVAGGGLDELDGARFGAELAGALRGPVELTRRFTDVGLTGGTDFFVLSTSVVSLPGRAGTVVGSAADAFLTALARHHRQAGLPVVAAAWGPWLESVDESDEAPAVAFAEAGVYPAPGGEMLDALLPLPAAGEADGSGEAGLARVDWDRYLTAGHRPLPYTVLETRASYDEEKAPGFGQNRM 8i5f-a1-m1-cA_8i5f-a1-m1-cB Crystal structure of the DHR-2 domain of DOCK10 in complex with Cdc42 (T17N mutant) Q8BZN6 Q8BZN6 2.8 X-RAY DIFFRACTION 54 1.0 10090 (Mus musculus) 10090 (Mus musculus) 433 433 6tm1-a1-m2-cC_6tm1-a1-m1-cB PEMLVDLQYSLANSYASTPELRRTWLESMAKIHARNGDLSEAAMCYIHIAALIAEYLKRKGYWMFSMGWPAFLSITPNIKEEGAMPYNENILVEQLYMCVEFLWKSERYELIADVNKPIIAVFEKQRDFKKLSDLYYDIHRSYLKVAEVVNSEKRLFGRYYRVAFYGQGFFEEEEGKEYIYKEPKLTGLSEISQRLLKLYADKFGADNVKIIQDSNKVNPKDLDPKYAYIQVTYVTPFFEEKEIEDRKTDFEMHHNINRFVFETPFTLSGKKHGGVAEQCKRRTVLTTSHLFPYVKKRIQVISQSSTELNPIEVAIDEMSRKVSELNQLCTTEEVDMIRLQLKLQGSVSVKVNAGPMAYARAFLEETNAKKYPDNQVKLLKEIFRQFADACGQALDVNERLIKEDQLEYQEELRSHYKDMLSELSAIMNEQIT PEMLVDLQYSLANSYASTPELRRTWLESMAKIHARNGDLSEAAMCYIHIAALIAEYLKRKGYWMFSMGWPAFLSITPNIKEEGAMPYNENILVEQLYMCVEFLWKSERYELIADVNKPIIAVFEKQRDFKKLSDLYYDIHRSYLKVAEVVNSEKRLFGRYYRVAFYGQGFFEEEEGKEYIYKEPKLTGLSEISQRLLKLYADKFGADNVKIIQDSNKVNPKDLDPKYAYIQVTYVTPFFEEKEIEDRKTDFEMHHNINRFVFETPFTLSGKKHGGVAEQCKRRTVLTTSHLFPYVKKRIQVISQSSTELNPIEVAIDEMSRKVSELNQLCTTEEVDMIRLQLKLQGSVSVKVNAGPMAYARAFLEETNAKKYPDNQVKLLKEIFRQFADACGQALDVNERLIKEDQLEYQEELRSHYKDMLSELSAIMNEQIT 8i8i-a2-m1-cC_8i8i-a2-m2-cC Crystal structure of Phosphopantetheine adenylyltransferase from Klebsiella pneumoniae at 2.59 A resolution Q9XC89 Q9XC89 2.59 X-RAY DIFFRACTION 57 1.0 573 (Klebsiella pneumoniae) 573 (Klebsiella pneumoniae) 159 159 8i8i-a1-m1-cA_8i8i-a1-m1-cB MSTKAIYPGTFDPITNGHIDIVTRAASMFDKVVLAIAASPSKKPMFSLDERIALAEQATAHLVNVEVIGFSDLMANFARAQQANILIRGLRAVADFEYEMQLAHMNRHLMPTLESVFLMPCKEWSFISSSLVKEVARHQGDVSHFLPANVHQALLNKLK MSTKAIYPGTFDPITNGHIDIVTRAASMFDKVVLAIAASPSKKPMFSLDERIALAEQATAHLVNVEVIGFSDLMANFARAQQANILIRGLRAVADFEYEMQLAHMNRHLMPTLESVFLMPCKEWSFISSSLVKEVARHQGDVSHFLPANVHQALLNKLK 8i8y-a1-m1-cB_8i8y-a1-m1-cA A mutant of the C-terminal complex of proteins 4.1G and NuMA 2.9 X-RAY DIFFRACTION 46 1.0 32630 (synthetic construct) 32630 (synthetic construct) 68 69 VIEKRIVIDGDGDIDHDQALAQAIREAREQHPDSVTRVVVNKETELAEEGEDRTRQIINITTKKLDVW TVIEKRIVIDGDGDIDHDQALAQAIREAREQHPDSVTRVVVNKETELAEEGEDRTRQIINITTKKLDVW 8i99-a1-m1-cA_8i99-a1-m1-cD N-carbamoyl-D-amino-acid hydrolase mutant - M4Th3 K2NMS4 K2NMS4 3.17 X-RAY DIFFRACTION 27 1.0 1231190 (Nitratireductor indicus C115) 1231190 (Nitratireductor indicus C115) 304 307 8i99-a1-m1-cC_8i99-a1-m1-cB MTRRIRIGGAQMGAISRSDSKKEIVDRLIALLRQASEKGCELVVFPELALSTFFPRWYAERDGMDGYFEDGMPNAATLPLFEEARRLGIGFSLGYAELVQEDGRVRRFNTTVLVERNGEIVGKYRKIHLPGHAEYEPERSHQHLEKRYFEVGNTGFQVWDAFGGRVGMAICNDRRWVETYRVMGLQNVELILIGYNTPVNDPLSGEADTLGMFHNHLTMQAGAYQNSTWVVGVAKAGVEDGHRLMGGSVIVAPTGEIVAQAMTEGDELIVADCDLDLCRYYKSHIFNFAAHRRPEFYQRITSQT MTRRIRIGGAQMGAISRSDSKKEIVDRLIALLRQASEKGCELVVFPELALSTFFPRWYAERDGMDGYFEDGMPNAATLPLFEEARRLGIGFSLGYAELVQEDGRVRRFNTTVLVERNGEIVGKYRKIHLPGHAEYEPERSHQHLEKRYFEVGNTGFQVWDAFGGRVGMAICNDRRWVETYRVMGLQNVELILIGYNTPVNDPLSGEADTLGMFHNHLTMQAGAYQNSTWVVGVAKAGVEDGHRLMGGSVIVAPTGEIVAQAMTEGDELIVADCDLDLCRYYKSHIFNFAAHRRPEFYQRITSQTGVE 8i99-a1-m1-cB_8i99-a1-m1-cD N-carbamoyl-D-amino-acid hydrolase mutant - M4Th3 K2NMS4 K2NMS4 3.17 X-RAY DIFFRACTION 16 1.0 1231190 (Nitratireductor indicus C115) 1231190 (Nitratireductor indicus C115) 307 307 8i99-a1-m1-cA_8i99-a1-m1-cC MTRRIRIGGAQMGAISRSDSKKEIVDRLIALLRQASEKGCELVVFPELALSTFFPRWYAERDGMDGYFEDGMPNAATLPLFEEARRLGIGFSLGYAELVQEDGRVRRFNTTVLVERNGEIVGKYRKIHLPGHAEYEPERSHQHLEKRYFEVGNTGFQVWDAFGGRVGMAICNDRRWVETYRVMGLQNVELILIGYNTPVNDPLSGEADTLGMFHNHLTMQAGAYQNSTWVVGVAKAGVEDGHRLMGGSVIVAPTGEIVAQAMTEGDELIVADCDLDLCRYYKSHIFNFAAHRRPEFYQRITSQTGVE MTRRIRIGGAQMGAISRSDSKKEIVDRLIALLRQASEKGCELVVFPELALSTFFPRWYAERDGMDGYFEDGMPNAATLPLFEEARRLGIGFSLGYAELVQEDGRVRRFNTTVLVERNGEIVGKYRKIHLPGHAEYEPERSHQHLEKRYFEVGNTGFQVWDAFGGRVGMAICNDRRWVETYRVMGLQNVELILIGYNTPVNDPLSGEADTLGMFHNHLTMQAGAYQNSTWVVGVAKAGVEDGHRLMGGSVIVAPTGEIVAQAMTEGDELIVADCDLDLCRYYKSHIFNFAAHRRPEFYQRITSQTGVE 8i9i-a1-m1-cB_8i9i-a1-m1-cA Glutamyl-tRNA synthetase from Escherichia Coli bound to Glutamate and Zinc P04805 P04805 3.3 X-RAY DIFFRACTION 26 1.0 562 (Escherichia coli) 562 (Escherichia coli) 467 468 MKIKTRFAPSPTGYLHVGGARTALYSWLFARNHGGEFVLRIEDTDLERSTPEAIEAIMDGMNWLSLEWDEGPYYQTKRFDRYNAVIDQMLEEGTAYKCYCSKERLEALREEQMAKGKPRYDGRCRHSHEHHADDEPCVVRFANPQEGSVVFDDQIRGPIEFSNQELDDLIIRRTDGSPTYNFCVVVDDWDMEITHVIRGEDHINNTPRQINILKALKAPVPVYAHVSMINGDDGEKLSKRHGAVSVMQYRDDGYLPEALLNYLVRLGWSHGDQEIFTREEMIKYFTLNAVSKSASAFNTDKLLWLNHHYINALPPEYVATHLQWHIAQENIDTRNGPQLADLVKLLGERCKTLKEMAQSCRYFYEDFAEFDADAAKKHLRPVARQPLEVVRDKLAAITDWTAENVHHAIQATADELEVGMGKVGMPLRVAVTGAGQSPALDVTVHAIGKTRSIERINKALDFIAERE MKIKTRFAPSPTGYLHVGGARTALYSWLFARNHGGEFVLRIEDTDLERSTPEAIEAIMDGMNWLSLEWDEGPYYQTKRFDRYNAVIDQMLEEGTAYKCYCSKERLEALREEQMAKGEKPRYDGRCRHSHEHHADDEPCVVRFANPQEGSVVFDDQIRGPIEFSNQELDDLIIRRTDGSPTYNFCVVVDDWDMEITHVIRGEDHINNTPRQINILKALKAPVPVYAHVSMINGDDGEKLSKRHGAVSVMQYRDDGYLPEALLNYLVRLGWSHGDQEIFTREEMIKYFTLNAVSKSASAFNTDKLLWLNHHYINALPPEYVATHLQWHIAQENIDTRNGPQLADLVKLLGERCKTLKEMAQSCRYFYEDFAEFDADAAKKHLRPVARQPLEVVRDKLAAITDWTAENVHHAIQATADELEVGMGKVGMPLRVAVTGAGQSPALDVTVHAIGKTRSIERINKALDFIAERE 8iah-a1-m1-cX_8iah-a1-m1-cW Structure of mammalian spectrin-actin junctional complex of membrane skeleton, State I, Global map Q6QA25 Q6QA25 3.6 ELECTRON MICROSCOPY 326 1.0 9823 (Sus scrofa) 9823 (Sus scrofa) 241 248 6otn-a2-m1-cD_6otn-a2-m1-cC ITTIEAVKRKIQVLQQQADDAEERAERLQREVEGERRAREQAEAEVASLNRRIQLVEEELDRAQERLATALQKLEEAEKAADESERGMKVIENRALKDEEKMELQEIQLKEAKHIAEEADRKYEEVARKLVIIEGDLERTEERAELAESRCREMDEQIRLMDQNLKCLSAAEEKYSQKEDKYEEEIKILTDKLKEAETRAEFAERSVAKLEKTIDDLEDKLKCTKEEHLCTQRMLDQTLLD MAGITTIEAVKRKIQVLQQQADDAEERAERLQREVEGERRAREQAEAEVASLNRRIQLVEEELDRAQERLATALQKLEEAEKAADESERGMKVIENRALKDEEKMELQEIQLKEAKHIAEEADRKYEEVARKLVIIEGDLERTEERAELAESRCREMDEQIRLMDQNLKCLSAAEEKYSQKEDKYEEEIKILTDKLKEAETRAEFAERSVAKLEKTIDDLEDKLKCTKEEHLCTQRMLDQTLLDLNEM 8iai-a1-m1-c2_8iai-a1-m1-c1 Structure of mammalian spectrin-actin junctional complex of membrane skeleton, State II, Global map A0A8D1Q0D0 A0A8D1Q0D0 3.5 ELECTRON MICROSCOPY 25 0.993 9823 (Sus scrofa) 9823 (Sus scrofa) 290 334 8iah-a1-m1-c2_8iah-a1-m1-c1 PNVYPAAPQGGMAALNMSLGMVTPVNDLRGSDSIAYDKGEKLLRCKLAALYRLADLFGWSHLIYNHITTRVSSEQEHFLIVPFGLLYSEVTASSLVKINLQGDVVDRGSTNLGVNQAGFTLHSAVYAARPDVKCVVHIHTPAGAAVSAMKCGLLPISPEALSLGEVAYHDYHGILVDEEEKVLIQKNLGPKSKVLILRNHGLVSVGESVEEAFYYIHNLVVACEIQVRTLASAGGPDNLVLLDPGKYKAKSRPAWQIGEQEFEALMRMLDNLGYRTGYPYRYPALREKSK TNVPNVYPAAPQGGMAALNMSLGMVTPVNDLRGSDSIAYDKGEKLLRCKLAALYRLADLFGWSHLIYNHITTRVSSEQEHFLIVPFGLLYSEVTASSLVKINLQGDVVDRGSTNLGVNQAGFTLHSAVYAARPDVKCVVHIHTPAGAAVSAMKCGLLPISPEALSLGEVAYHDYHGILVDEEEKVLIQKNLGPKSKVLILRNHGLVSVGESVEEAFYYIHNLVVACEIQVRTLASAGGPDNLVLLDPGKYKAKPPAWQIGEQEFEALMRMLDNLGYRTGYPYRYPALREKSKAVPNLFVPLNTNPKEVQEMRNKIREQNLQDIKTAGPQSQVLC 8ib0-a1-m1-cD_8ib0-a1-m1-cE The amyloid structure of mouse RIPK1 RHIM-containing domain by solid-state NMR Q60855 Q60855 NOT SOLID-STATE NMR 86 1.0 10090 (Mus musculus) 10090 (Mus musculus) 24 24 8ib0-a1-m1-cA_8ib0-a1-m1-cB 8ib0-a1-m1-cB_8ib0-a1-m1-cC 8ib0-a1-m1-cC_8ib0-a1-m1-cD DLIKYTIFNSSGIQIGNHNYMDVG DLIKYTIFNSSGIQIGNHNYMDVG 8idq-a2-m1-cB_8idq-a2-m1-cD Crystal structure of reducing-end xylose-releasing exoxylanase in GH30 from Talaromyces cellulolyticus with xylose A0A0B8MZ29 A0A0B8MZ29 1.7 X-RAY DIFFRACTION 96 1.0 128442 (Talaromyces pinophilus) 128442 (Talaromyces pinophilus) 444 446 8idp-a1-m1-cA_8idp-a1-m1-cC 8idp-a2-m1-cD_8idp-a2-m1-cB 8idq-a1-m1-cA_8idq-a1-m1-cC WSYSQTLSANIQVNALQRYQEMIGGGCSGAFGWACQQFPGLTPENQEEVTKILFDENIGGLSIVRNDIGSSPGSTILPTCPATPAGPFNYQWDGSDSCQFNLTKTALKYNPELYVYANAWSAPGCMKTVGTENDGGQICGVRGTNCTYDWRQAYADYLVQYVKFYQAEGIDISLLGAWNEPDFNPVTYESMESDGFQAKDFLEILYPTVKKAFPNLDVSCCDATGARQERNILYEVQQAGGEHFFDVATWHNYQSSPERPFNVVGKPNIMTEWADGSGPWNTTWDVSGQLAEGLQWALYMHNAFTNSDTSGYNHWWCAGGGADNVLISITGNSYEVSSRLWAFASYFRFARPGSVRIGATSSVENVYVSAYENKNGTVSIPVINAAHFPYEVTIDLQGLKARKRVSTFLTDNSHNVTLMDQSELHGSVLKATVPPRAVQVFWLE WSYSQTLSANIQVNALQRYQEMIGGGCSGAFGWACQQFPTTGLTPENQEEVTKILFDENIGGLSIVRNDIGSSPGSTILPTCPATPAGPFNYQWDGSDSCQFNLTKTALKYNPELYVYANAWSAPGCMKTVGTENDGGQICGVRGTNCTYDWRQAYADYLVQYVKFYQAEGIDISLLGAWNEPDFNPVTYESMESDGFQAKDFLEILYPTVKKAFPNLDVSCCDATGARQERNILYEVQQAGGEHFFDVATWHNYQSSPERPFNVVGKPNIMTEWADGSGPWNTTWDVSGQLAEGLQWALYMHNAFTNSDTSGYNHWWCAGGGADNVLISITGNSYEVSSRLWAFASYFRFARPGSVRIGATSSVENVYVSAYENKNGTVSIPVINAAHFPYEVTIDLQGLKARKRVSTFLTDNSHNVTLMDQSELHGSVLKATVPPRAVQVFWLE 8iev-a3-m1-cF_8iev-a3-m1-cE Crystal structure of the DUF2891 family protein CJ0554 from Campylobacter jejuni in space group C2 A0A2U0QSR5 A0A2U0QSR5 2.08 X-RAY DIFFRACTION 112 1.0 197 (Campylobacter jejuni) 197 (Campylobacter jejuni) 332 335 8ieu-a1-m1-cA_8ieu-a1-m1-cB 8iev-a1-m1-cA_8iev-a1-m1-cB 8iev-a2-m1-cC_8iev-a2-m1-cD EKFIKQFSFIALENIFRELPNKITHSFNDINDIKPPKLMYPIFYGSYDWHSSVHSHWLLVKILKDFSHFAPKDEIIKALDSQFSKEKAEGELKYLQNPAHKGFERPYGWGWFLKLTLEINLLAKENDKAEIWAKNLEGIADFFVKEFKEFLPKMDYPIRVGTHFNSSFALYFALEYARFKKDQELEYCIIQSAKKWFLSDKNMQALEPCGDEFLSPVLMEAVLLSAVLHKNDFVKFFKAYLPNLEAKEPATLFTPVSVSDRSDGKIAHLDGLNLSRAWCFKILSNFCDENLKILLRNNATEHFDKAIAHIEDDYLGSHWLGSFALLALDVDI PMEKFIKQFSFIALENIFRELPNKITHSFNDINDIKPPKLMYPIFYGSYDWHSSVHSHWLLVKILKDFSHFAPKDEIIKALDSQFSKEKAEGELKYLQNPAHKGFERPYGWGWFLKLTLEINLLAKENDKAEIWAKNLEGIADFFVKEFKEFLPKMDYPIRVGTHFNSSFALYFALEYARFKKDQELEYCIIQSAKKWFLSDKNMQALEPCGDEFLSPVLMEAVLLSAVLHKNDFVKFFKAYLPNLEAKEPATLFTPVSVSDRSDGKIAHLDGLNLSRAWCFKILSNFCDENLKILLRNNATEHFDKAIAHIEDDYLGSHWLGSFALLALDVDIL 8if8-a1-m1-cC_8if8-a1-m1-cB Arabinosyltransferase AftA P9WN03 P9WN03 3.1 ELECTRON MICROSCOPY 67 1.0 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 598 620 RAREVLVALGQLAAAVVVAVGVAVVSLLAIARVEWPAFPSSNQLHALTTVGQVGCLAGLVGIGWLWRHGRFRRLARLGGLVLVSAFTVVTLGMPLGATKLYLFGISVDQQFRTEYLTRLTDTAALRDMTYIGLPPFYPPGWFWIGGRAAALTGTPAWEMFKPWAITSMAIAVAVALVLWWRMIRFEYALLVTVATAAVMLAYSSPEPYAAMITVLLPPMLVLTWSGLGARDRQGWAAVVGAGVFLGFAATWYTLLVAYGAFTVVLMALLLAGSRLQSGIKAAVDPLCRLAVVGAIAAAIGSTTWLPYLLRAARDPVSDTAALTFPMLQFSLLGAICLLGTLWLVMRARSSAPAGALAIGVLAVYLWSLLSMLATLARTTLLSFRLQPTLSVLLVAAGAFGFVEAVQALGKRGRGVIPMAAAIGLAGAIAFSQDIPDVLRPDLTIAYTDTDGYGQRGDRRPPGSEKYYPAIDAAIRRVTGKRRDRTVVLTADYSFLSYYPYWGFQGLTPHYANPLAQFDKRATQIDSWSGLSTADEFIAALDKLPWQPPTVFLMRHGAHNSYTLRLAQRYTVDLRTALFADPRFVVEDIGPFVLAIRKP ARAREVLVALGQLAAAVVVAVGVAVVSLLAIARVEWPAFPSSNQLHALTTVGQVGCLAGLVGIGWLWRHGRFRRLARLGGLVLVSAFTVVTLGMPLGATKLYLFGISVDQQFRTEYLTRLTDTAALRDMTYIGLPPFYPPGWFWIGGRAAALTGTPAWEMFKPWAITSMAIAVAVALVLWWRMIRFEYALLVTVATAAVMLAYSSPEPYAAMITVLLPPMLVLTWSGLGARDRQGWAAVVGAGVFLGFAATWYTLLVAYGAFTVVLMALLLAGSRLQSGIKAAVDPLCRLAVVGAIAAAIGSTTWLPYLLRAARDPVSDTGSAQHYLPADGAALTFPMLQFSLLGAICLLGTLWLVMRARSSAPAGALAIGVLAVYLWSLLSMLATLARTTLLSFRLQPTLSVLLVAAGAFGFVEAVQALGKRGRGVIPMAAAIGLAGAIAFSQDIPDVLRPDLTIAYTDTDGYGQRGDRRPPGSEKYYPAIDAAIRRVTGKRRDRTVVLTADYSFLSYYPYWGFQGLTPHYANPLAQFDKRATQIDSWSGLSTADEFIAALDKLPWQPPTVFLMRHGAHNSYTLRLAQDVYPNQPNVRRYTVDLRTALFADPRFVVEDIGPFVLAIRKP 8ifj-a1-m1-cA_8ifj-a1-m1-cB Crystal structure of pyrrolysyl-tRNA synthetase from methanogenic archaeon ISO4-G1 A0A126QV54 A0A126QV54 2.78 X-RAY DIFFRACTION 118 1.0 1452364 (methanogenic archaeon mixed culture ISO4-G1) 1452364 (methanogenic archaeon mixed culture ISO4-G1) 272 272 7r6o-a1-m1-cA_7r6o-a1-m1-cC 7r6o-a2-m1-cB_7r6o-a2-m2-cD 8ifj-a2-m1-cC_8ifj-a2-m1-cG 8ifj-a3-m1-cD_8ifj-a3-m1-cF 8ifj-a4-m1-cH_8ifj-a4-m1-cE 8ifj-a5-m1-cJ_8ifj-a5-m1-cI VVKFTDSQIQHLMEYGDNDWSEAEFEDAAARDKEFSSQFSKLKSANDKGLKDVIANPRNDLTDLENKIREKLAARGFIEVHTPIFVSKSALAKMTITEDHPLFKQVFWIDDKRALRPMHAMNLYKVMRELRDHTKGPVKIFEIGSCFRKESKSSTHLEEFTMLNLVEMGPDGDPMEHLKMYIGDIMDAVGVEYTTSREESDVYVETLDVEINGTEVASGAVGPHKLDPAHDVHEPWAGIGFGLERLLMLKNGKSNARKTGKSITYLNGYKLD VVKFTDSQIQHLMEYGDNDWSEAEFEDAAARDKEFSSQFSKLKSANDKGLKDVIANPRNDLTDLENKIREKLAARGFIEVHTPIFVSKSALAKMTITEDHPLFKQVFWIDDKRALRPMHAMNLYKVMRELRDHTKGPVKIFEIGSCFRKESKSSTHLEEFTMLNLVEMGPDGDPMEHLKMYIGDIMDAVGVEYTTSREESDVYVETLDVEINGTEVASGAVGPHKLDPAHDVHEPWAGIGFGLERLLMLKNGKSNARKTGKSITYLNGYKLD 8ifo-a1-m1-cA_8ifo-a1-m1-cB Crystal structure of estrogen related receptor-gamma DNA binding domain complexed with Pla2g12b promoter P62508 P62508 2.2 X-RAY DIFFRACTION 14 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 76 80 KRLCLVCGDIASGYHYGVASCEACKAFFKRTIQGNIEYSCPATNECEITKRRRKSCQACRFMKCLKVGMLKEGVRL PKRLCLVCGDIASGYHYGVASCEACKAFFKRTIQGNIEYSCPATNECEITKRRRKSCQACRFMKCLKVGMLKEGVRLDRV 8ig0-a2-m1-cC_8ig0-a2-m1-cD Crystal structure of menin in complex with DS-1594b O00255 O00255 2.6 X-RAY DIFFRACTION 47 0.996 9606 (Homo sapiens) 9606 (Homo sapiens) 483 485 3u84-a3-m2-cB_3u84-a3-m1-cA 8ig0-a1-m1-cA_8ig0-a1-m1-cB GLKAAQKTLFPLRSIDDVVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRVIPTNVPELTFQPSPAPDPPGGLTYFPVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRAHIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTWHGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQLQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHIYPYMYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKEAASLSALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWATFLVQSLGRFEGQVRQKVRIVSGTVAGTARGPVLTFQSEKMKGMKELLVATKINSSAIKLQLTAQS GLKAAQKTLFPLRSIDDVVRLFAAELGREEPDLVLLSLVLGFVEHFLAVNRVIPTNVPELTFQPSPAPDPPGGLTYFPVADLSIIAALYARFTAQIRGAVDLSLYPREGGVSSRELVKKVSDVIWNSLSRSYFKDRAHIQSLFSFITGTKLDSSGVAFAVVGACQALGLRDVHLALSEDHAWVVFGPNGEQTAEVTWHGKGNEDRRGQTVNAGVAERSWLYLKGSYMRCDRKMEVAFMVCAINPSIDLHTDSLELLQLQQKLLWLLYDLGHLERYPMALGNLADLEELEPTPGRPDPLTLYHKGIASAKTYYRDEHIYPYMYLAGYHCRNRNVREALQAWADTATVIQDYNYCREDEEIYKEFFEVANDVIPNLLKEAASLLEASALQDPECFAHLLRFYDGICKWEEGSPTPVLHVGWATFLVQSLGRFEGQVRQKVRIVSGTVAGTARGGPVLTFQSEKMKGMKELLVATKINSSAIKLQLTA 8ihp-a1-m1-cG_8ihp-a1-m1-cJ Structure of Semliki Forest virus VLP in complex with the receptor VLDLR-LA3 P03315 P03315 3.0 ELECTRON MICROSCOPY 26 1.0 11033 (Semliki Forest virus) 11033 (Semliki Forest virus) 417 417 8ihp-a1-m1-cD_8ihp-a1-m1-cG 8ihp-a1-m1-cD_8ihp-a1-m1-cJ VSQHFNVYKATRPYIAYCADCGAGHSCHSPVAIEAVRSEATDGMLKIQFSAQIGIDKSDNHDYTKIRYADGHAIENAVRSSLKVATSGDCFVHGTMGHFILAKCPPGEFLQVSIQDTRNAVRACRIQYHHDPQPVGREKFTIRPHYGKEIPCTTYQQTTAKTVEEIDMHMPPDTPDRTLLSQQSGNVKITVGGKKVKYNCTCGTGNVGTTNSDMTINTCLIEQCHVSVTDHKKWQFNSPFVPRADEPARKGKVHIPFPLDNITCRVPMAREPTVIHGKREVTLHLHPDHPTLFSYRTLGEDPQYHEEWVTAAVERTIPVPVDGMEYHWGNNDPVRLWSQLTTEGKPHGWPHQIVQYYYGLYPAATVSAVVGMSLLALISIFASCYMLVAARSKCLTPYALTPGAAVPWTLGILCCAP VSQHFNVYKATRPYIAYCADCGAGHSCHSPVAIEAVRSEATDGMLKIQFSAQIGIDKSDNHDYTKIRYADGHAIENAVRSSLKVATSGDCFVHGTMGHFILAKCPPGEFLQVSIQDTRNAVRACRIQYHHDPQPVGREKFTIRPHYGKEIPCTTYQQTTAKTVEEIDMHMPPDTPDRTLLSQQSGNVKITVGGKKVKYNCTCGTGNVGTTNSDMTINTCLIEQCHVSVTDHKKWQFNSPFVPRADEPARKGKVHIPFPLDNITCRVPMAREPTVIHGKREVTLHLHPDHPTLFSYRTLGEDPQYHEEWVTAAVERTIPVPVDGMEYHWGNNDPVRLWSQLTTEGKPHGWPHQIVQYYYGLYPAATVSAVVGMSLLALISIFASCYMLVAARSKCLTPYALTPGAAVPWTLGILCCAP 8ios-a1-m1-cB_8ios-a1-m1-cC Structure of the SARS-CoV-2 XBB.1 spike glycoprotein (closed-1 state) P0DTC2 P0DTC2 2.5 ELECTRON MICROSCOPY 317 1.0 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 1063 1063 7l56-a1-m1-cB_7l56-a1-m1-cC 7lss-a1-m1-cC_7lss-a1-m1-cB 8ios-a1-m1-cA_8ios-a1-m1-cB 8ios-a1-m1-cA_8ios-a1-m1-cC 8iot-a1-m1-cA_8iot-a1-m1-cB 8iot-a1-m1-cA_8iot-a1-m1-cC 8iot-a1-m1-cB_8iot-a1-m1-cC VNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPALPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLERDLPQGFSALEPLVDLPIGINITRFQTLLALHRWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATTFASVYAWNRKRISNCVADYSVIYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKPSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGSNCYSPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD VNLITRTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHAIHDNPALPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLERDLPQGFSALEPLVDLPIGINITRFQTLLALHRWTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATTFASVYAWNRKRISNCVADYSVIYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKPSGNYNYLYRLFRKSKLKPFERDISTEIYQAGNKPCNGVAGSNCYSPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVQLTPTWRVYSTGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQTQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTLADAGFIKQYGDCLGDIAARDLICAQKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD 8iou-a1-m1-cB_8iou-a1-m1-cC Structure of SARS-CoV-2 XBB.1 spike glycoprotein in complex with ACE2 (1-up state) P0DTC2 P0DTC2 3.18 ELECTRON MICROSCOPY 234 0.996 2697049 (Severe acute respiratory syndrome coronavirus 2) 2697049 (Severe acute respiratory syndrome coronavirus 2) 985 986 RTQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFHFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVESEFRVYSSANNCTFEYVSQPFLMKNLREFVFKNIDGYFKIYSKHTPINLERDLPQGFSALEPLVDLPIGINITRFQTLLALTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATTFASVYAWNRKRISNCVADYSVIYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKPSGNYNYLYRLFRKSKLKPFERDISSPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVGSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD TQSYTNSFTRGVYYPDKVFRSSVLHSTQDLFLPFFSNVTWFLPFNDGVYFASTEKSNIIRGWIFGTTLDSKTQSLLIVNNATNVVIKVCEFQFCNDPFLDVESEFRVYSSANNCTFEYVSQPFLMNLREFVFKNIDGYFKIYSKHTPINLERDLPQGFSALEPLVDLPIGINITRFQTLLALTAGAAAYYVGYLQPRTFLLKYNENGTITDAVDCALDPLSETKCTLKSFTVEKGIYQTSNFRVQPTESIVRFPNITNLCPFHEVFNATTFASVYAWNRKRISNCVADYSVIYNFAPFFAFKCYGVSPTKLNDLCFTNVYADSFVIRGNEVSQIAPGQTGNIADYNYKLPDDFTGCVIAWNSNKLDSKPSGNYNYLYRLFRKSKLKPFERDISTSPLQSYGFRPTYGVGHQPYRVVVLSFELLHAPATVCGPKKSTNLVKNKCVNFNFNGLTGTGVLTESNKKFLPFQQFGRDIADTTDAVRDPQTLEILDITPCSFGGVSVITPGTNTSNQVAVLYQGVNCTEVSNVFQTRAGCLIGAEYVNNSYECDIPIGAGICASYQSQSIIAYTMSLGAENSVAYSNNSIAIPTNFTISVTTEILPVSMTKTSVDCTMYICGDSTECSNLLLQYGSFCTQLKRALTGIAVEQDKNTQEVFAQVKQIYKTPPIKYFGGFNFSQILPDPSKPSKRSPIEDLLFNKVTKFNGLTVLPPLLTDEMIAQYTSALLAGTITSGWTFGAGPALQIPFPMQMAYRFNGIGVTQNVLYENQKLIANQFNSAIGKIQDSLSSTPSALGKLQDVVNHNAQALNTLVKQLSSKFGAISSVLNDILSRLDPPEAEVQIDRLITGRLQSLQTYVTQQLIRAAEIRASANLAATKMSECVLGQSKRVDFCGKGYHLMSFPQSAPHGVVFLHVTYVPAQEKNFTTAPAICHDGKAHFPREGVFVSNGTHWFVTQRNFYEPQIITTDNTFVSGNCDVVIGIVNNTVYD 8iwl-a1-m1-cA_8iwl-a1-m1-cB A.baumannii Uncharacterized sugar kinase ydjH 3.04 X-RAY DIFFRACTION 30 0.993 470 (Acinetobacter baumannii) 470 (Acinetobacter baumannii) 305 307 AVIGECMIELSQQGAQLTRGFGGDTLNTAVYLARQMPEQALRVHYVTALGTDSFSGDMLQAWRQEKIETGLIQQFDNKLPGLYLIETDAAGERTFYYWRNDAAARYWLAGPQADALCERLAQFDYLYLSGISLAILAPADRMKLLALLRRCRANGGKVIFDNNYRPRLWQSREETQQAYREVLACTDIAFLTLDDEELLWGAQPIEQVVARTQALGVGEIVIKRGAHACLVFSMAGEKLEVPAIALPPERIVDTTAAGDSFSAGYLAARLNGGSAQWAAQRGHLLAATVIQHRGAIIPAAMMPEA IRNLAVIGECMIELSQQGAQLTRGFGGDTLNTAVYLARQMPEQALRVHYVTALGTDSFSGDMLQAWRQEKIETGLIQQFDNKLPGLYLIETDAAGERTFYYWRNDAAARYWLAGPQADALCERLAQFDYLYLSGISLAILAPADRMKLLALLRRCRANGGKVIFDNNYRPRLWQSREETQQAYREVLACTDIAFLTLDDEELLWGAQPIEQVVARTQALGVGEIVIKRGAHACLVFSGEKLEVPAIALPPERIVDTTAAGDSFSAGYLAARLNGGSAQWAAQRGHLLAATVIQHRGAIIPAAMMPEA 8odq-a1-m1-cB_8odq-a1-m1-cD SufS-SufU complex from Mycobacterium tuberculosis A0A045IZN1 A0A045IZN1 1.65 X-RAY DIFFRACTION 268 1.0 1773 (Mycobacterium tuberculosis) 1773 (Mycobacterium tuberculosis) 407 410 LDLAAIRADFPILKRIMRGGNPLAYLDSGATSQRPLQVLDAEREFLTASNGAVHRGAHQLMEEATDAYEQGRADIALFVGADTDELVFTKNATEALNLVSYVLGDSRFERAVGPGDVIVTTELEHHANLIPWQELARRTGATLRWYGVTDDGRIDLDSLYLDDRVKVVAFTHHSNVTGVLTPVSELVSRAHQSGALTVLDACQSVPHQPVDLHELGVDFAAFSGHKMLGPNGIGVLYGRRELLAQMPPFLTGGSMIETVTMEGATYAPAPQRFEAGTPMTSQVVGLAAAARYLGAIGMAAVEAHERELVAAAIEGLSGIDGVRILGPTSMRDRGSPVAFVVEGVHAHDVGQVLDDGGVAVRVGHHALPLHRRFGLAATARASFAVYNTADEVDRLVAGVRRSRHFFG LDLAAIRADFPILKRIMRGGNPLAYLDSGATSQRPLQVLDAEREFLTASNGAVHRGAHQLMEEATDAYEQGRADIALFVGADTDELVFTKNATEALNLVSYVLGDSRFERAVGPGDVIVTTELEHHANLIPWQELARRTGATLRWYGVTDDGRIDLDSLYLDDRVKVVAFTHHSNVTGVLTPVSELVSRAHQSGALTVLDACQSVPHQPVDLHELGVDFAAFSGHKMLGPNGIGVLYGRRELLAQMPPFLTGGSMIETVTMEGATYAPAPQRFEAGTPMTSQVVGLAAAARYLGAIGMAAVEAHERELVAAAIEGLSGIDGVRILGPTSMRDRGSPVAFVVEGVHAHDVGQVLDDGGVAVRVGHHCALPLHRRFGLAATARASFAVYNTADEVDRLVAGVRRSRHFFGRA 8oek-a1-m1-cA_8oek-a1-m2-cA Crystal structure of the HormR-GAIN domains of adhesion GPCR ADGRB2 (BAI2) in the uncleaved state O60241 O60241 2.22 X-RAY DIFFRACTION 22 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 344 344 EMCRDEYVMLMTWKKAAAGEIIYNKCPPNASGSASRRCLLSAQGVAYWGLPSFARCISHEYRYLYLSLREHLALAGEGMSQVVRSLQELLARRTYYSGDLLFSVDILRNVTDTFKRATYVPSADDVQRFFQVVSFMVDAENKEKWDDAQQVSPGSVHLLRVVEDFIHLVGDALKAFQSSLIVTDNLVISIQREPVSAVSSDITFPMRGRRGMKDWVRHSEDRLFLPKEVLSLSSSYFVIGAVLYRTLGLILPPPRPPLAVTSRVMTVTVRPPTQPPAEPLITVELSYIINGTTDPHCASWDYSRADASSGDWDTENCQTLETQAAHTRCQCQHLSTFAVLAQPP EMCRDEYVMLMTWKKAAAGEIIYNKCPPNASGSASRRCLLSAQGVAYWGLPSFARCISHEYRYLYLSLREHLALAGEGMSQVVRSLQELLARRTYYSGDLLFSVDILRNVTDTFKRATYVPSADDVQRFFQVVSFMVDAENKEKWDDAQQVSPGSVHLLRVVEDFIHLVGDALKAFQSSLIVTDNLVISIQREPVSAVSSDITFPMRGRRGMKDWVRHSEDRLFLPKEVLSLSSSYFVIGAVLYRTLGLILPPPRPPLAVTSRVMTVTVRPPTQPPAEPLITVELSYIINGTTDPHCASWDYSRADASSGDWDTENCQTLETQAAHTRCQCQHLSTFAVLAQPP 8ogh-a1-m1-cB_8ogh-a1-m1-cA Truncated 1-deoxy-D-xylulose 5-phosphate synthase (DXPS) from Mycobacterium tuberculosis with butylacetylphosphonate (BAP) bound P9WNS3 P9WNS3 1.6 X-RAY DIFFRACTION 346 0.998 83332 (Mycobacterium tuberculosis H37Rv) 83332 (Mycobacterium tuberculosis H37Rv) 548 549 7a9g-a1-m1-cBBB_7a9g-a1-m1-cAAA 7a9h-a1-m1-cAAA_7a9h-a1-m1-cBBB MGMLQQIRGPADLQHLSQAQLRELAAEIREFLIHKVAATGGHLGPNLGVVELTLALHRVFDSPHDPIIFDTGHQAYVHKMLTGRSQDFATLRKKGGLSGYPSRAESEHDWVESSHASAALSYADGLAKAFELTGHRNRHVVAVVGDGALTGGMCWEALNNIAASRRPVIIVVNDNGRSYGGGPQLLFTDLGLKYVGPVDGHDERAVEVALRSARRFGAPVIVHVVTRKGMGYPPAEPGWTATFSDALIGYAQKRRDIVAITAAMPGPTGLTAFGQRFPDRLFDVGIAEQHAMTSAAGLAMGGLHPVVAIYSTFLNRAFDQIMMDVALHKLPVTMVLDRAGITGSDGASHNGMWDLSMLGIVPGIRVAAPRDATRLREELGEALDVDDGPTALRFPKGDVGEDISALERRGGVDVLAAPADGLNHDVLLVAIGAFAPMALAVAKRLHNQGIGVTVIDPRWVLPVSDGVRELAVQHKLLVTLEDNGVNGGAGSAVSAALRRAEIDVPCRDVGLPQEFYEHASRSEVLADLGLTDQDVARRITGWVAALGT GMLQQIRGPADLQHLSQAQLRELAAEIREFLIHKVAATGGHLGPNLGVVELTLALHRVFDSPHDPIIFDTGHQAYVHKMLTGRSQDFATLRKKGGLSGYPSRAESEHDWVESSHASAALSYADGLAKAFELTGHRNRHVVAVVGDGALTGGMCWEALNNIAASRRPVIIVVNDNGRSYGGGPQLLFTDLGLKYVGPVDGHDERAVEVALRSARRFGAPVIVHVVTRKGMGYPPAEGPGWTATFSDALIGYAQKRRDIVAITAAMPGPTGLTAFGQRFPDRLFDVGIAEQHAMTSAAGLAMGGLHPVVAIYSTFLNRAFDQIMMDVALHKLPVTMVLDRAGITGSDGASHNGMWDLSMLGIVPGIRVAAPRDATRLREELGEALDVDDGPTALRFPKGDVGEDISALERRGGVDVLAAPADGLNHDVLLVAIGAFAPMALAVAKRLHNQGIGVTVIDPRWVLPVSDGVRELAVQHKLLVTLEDNGVNGGAGSAVSAALRRAEIDVPCRDVGLPQEFYEHASRSEVLADLGLTDQDVARRITGWVAALGTG 8ohs-a1-m1-cC_8ohs-a1-m1-cE Core-binding domain of fungal E3-binding domain bound to the native pyruvate dehydrogenase E2 core Q7RWS2 Q7RWS2 4.1 ELECTRON MICROSCOPY 17 1.0 5141 (Neurospora crassa) 5141 (Neurospora crassa) 120 120 7r5m-a1-m1-cF_7r5m-a1-m1-cJ 7r5m-a1-m1-cF_7r5m-a1-m1-cM 7r5m-a1-m1-cJ_7r5m-a1-m1-cM 8ohs-a1-m1-cC_8ohs-a1-m1-cH 8ohs-a1-m1-cE_8ohs-a1-m1-cH PPVAVVTAPISLSAAIDVQNKLHKTIGVFLPLSTFITRATEIANQKLPLPANYQPTADELFNQVLGLDKVTRKESRGSYTPTFGSFVFSLQVPKSEEKRAQAFLQKMKLVLEQEPDKLVR PPVAVVTAPISLSAAIDVQNKLHKTIGVFLPLSTFITRATEIANQKLPLPANYQPTADELFNQVLGLDKVTRKESRGSYTPTFGSFVFSLQVPKSEEKRAQAFLQKMKLVLEQEPDKLVR 8oik-a1-m1-cC_8oik-a1-m4-cB D-PHAT domain (NTD) of human SAMD4A Q9UPU9 Q9UPU9 1.62 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 160 8oik-a1-m2-cC_8oik-a1-m3-cB LYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHL IPTTENLYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHL 8oik-a1-m2-cC_8oik-a1-m1-cA D-PHAT domain (NTD) of human SAMD4A Q9UPU9 Q9UPU9 1.62 X-RAY DIFFRACTION 11 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 165 8oik-a1-m1-cC_8oik-a1-m2-cA LYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHL IPTTENLYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHLEDRTS 8oik-a1-m2-cC_8oik-a1-m2-cA D-PHAT domain (NTD) of human SAMD4A Q9UPU9 Q9UPU9 1.62 X-RAY DIFFRACTION 188 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 154 165 8oik-a1-m1-cC_8oik-a1-m1-cA 8oik-a1-m3-cB_8oik-a1-m4-cB LYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHL IPTTENLYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHLEDRTS 8oik-a1-m4-cB_8oik-a1-m1-cA D-PHAT domain (NTD) of human SAMD4A Q9UPU9 Q9UPU9 1.62 X-RAY DIFFRACTION 12 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 160 165 8oik-a1-m3-cB_8oik-a1-m2-cA IPTTENLYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHL IPTTENLYFQSMFRDQVGVLAGWFKGWNECEQTVALLSLLKRVSQTQARFLQLCLEHSLADCAELHVLEREANSPGIINQWQQESKDKVISLLLTHLPLLKPGNLDAKVEYMKLLPKILAHSIEHNQHIEESRQLLSYALIHPATSLEDRSALAMWLNHLEDRTS 8opq-a1-m1-cA_8opq-a1-m1-cB Structure of Human Solute Carrier 26 family member A6 (SLC26A6) anion transporter in an inward-facing state Q9BXS9 Q9BXS9 3.28 ELECTRON MICROSCOPY 241 1.0 9606 (Homo sapiens) 9606 (Homo sapiens) 648 648 DYHMERPLLNQEHLEELGRWGSCSRARAYALLLQHLPVLVWLPRYPVRDWLLGDLLSGLSVAIMQLPQGLAYALLAGLPPVFGLYSSFYPVFIYFLFGTSRHISVGTFAVMSVMVGSVTESLAPQALNDSMINETARDAARVQVASTLSVLVGLFQVGLGLIHFGFVVTYLSEPLVRGYTTAAAVQVFVSQLKYVFGLHLSSHSGPLSLIYTVLEVCWKLPQSKVGTVVTAAVAGVVLVVVKLLNDKLQQQLPMPIPGELLTLIGATGISYGMGLKHRFEVDVVGNIPAGLVPPVAPNTQLFSKLVGSAFTIAVVGFAIAISLGKIFALRHGYRVDSNQELVALGLSNLIGGIFQCFPVSCSMSRSLVQESTGGNSQVAGAISSLFILLIIVKLGELFHDLPKAVLAAIIIVNLKGMLRQLSDMRSLWKANRADLLIWLVTFTATILLNLDLGLVVAVIFSLLLVVVRTQMPHYSVLGQVPDTDIYRDVAEYSEAKEVRGVKVFRSSATVYFANAEFYSDALKQRCGVDVDFLISQKKKLLKKQEQLKLKQLQKESTLKALGLPQPDFHSLILDLGALSFVDTVCLKSLKNIFHDFREIEVEVYMAACHSPVVSQLEAGHFFDASITKKHLFASVHDAVTFALQHPRP DYHMERPLLNQEHLEELGRWGSCSRARAYALLLQHLPVLVWLPRYPVRDWLLGDLLSGLSVAIMQLPQGLAYALLAGLPPVFGLYSSFYPVFIYFLFGTSRHISVGTFAVMSVMVGSVTESLAPQALNDSMINETARDAARVQVASTLSVLVGLFQVGLGLIHFGFVVTYLSEPLVRGYTTAAAVQVFVSQLKYVFGLHLSSHSGPLSLIYTVLEVCWKLPQSKVGTVVTAAVAGVVLVVVKLLNDKLQQQLPMPIPGELLTLIGATGISYGMGLKHRFEVDVVGNIPAGLVPPVAPNTQLFSKLVGSAFTIAVVGFAIAISLGKIFALRHGYRVDSNQELVALGLSNLIGGIFQCFPVSCSMSRSLVQESTGGNSQVAGAISSLFILLIIVKLGELFHDLPKAVLAAIIIVNLKGMLRQLSDMRSLWKANRADLLIWLVTFTATILLNLDLGLVVAVIFSLLLVVVRTQMPHYSVLGQVPDTDIYRDVAEYSEAKEVRGVKVFRSSATVYFANAEFYSDALKQRCGVDVDFLISQKKKLLKKQEQLKLKQLQKESTLKALGLPQPDFHSLILDLGALSFVDTVCLKSLKNIFHDFREIEVEVYMAACHSPVVSQLEAGHFFDASITKKHLFASVHDAVTFALQHPRP 8opz-a1-m2-cA_8opz-a1-m3-cA Crystal structure of a tailspike depolymerase (APK16_gp47) from Acinetobacter phage APK16 1.5 X-RAY DIFFRACTION 358 1.0 2873388 (Acinetobacter phage APK16) 2873388 (Acinetobacter phage APK16) 632 632 8opz-a1-m1-cA_8opz-a1-m2-cA 8opz-a1-m1-cA_8opz-a1-m3-cA QYYLKYFNPDIVYPKNARIMLDTGVVVMSMVDGNSTNPNSNMTGWVRVNSASLIFDQSGKTQQEINDSQKQKLPSLKDYGAVSGQDSTAAIKAAIAAEDFLYFGDIGDNFIVSEQIDLRDGCYYVSNGAKFTAALGIEGSQPYTPKSIINASGKVGINISGLVRTHIDHNIFSALGDANSKPTISGFLADAAIDCDFGKWESVGSVNYYYTPNFKEYGIVDLRNSIDCYIEADVNGRWTEETTASTPSTVGIMGSNNKGCYLKGRAKNCYWSGILWEGEDCVVDGPHVRNTKGSNLNLAGKNTAAYNVDLYGSEQGNISIGEGATQAENCNVVGGVAGNAKFANCHLHSVTKNCHVKLFHYGWGQTASAVSDATSGIRCQGTGNTIDSEFDVTYGGLTVKGDAVNVYCSTLTNPEATNIKVNVVGIGARVQIRAPYTIVNAKITGATGDAVVLGERCKGSIVEEVTAIKCGRPLQYAPKTTDANDYAGVIIGRINDVECTNRSVFYGQKIVHSQRKIERIYAQETAFVLDQVLEAIEVYTNDSGVTGANKLASAIRHISADSFGTSYGLDLVASTISKNNLANSKTKVRAGHIEVEPAVAGAASHIVLYAANGTKWKLEPTGSASAANWVAV QYYLKYFNPDIVYPKNARIMLDTGVVVMSMVDGNSTNPNSNMTGWVRVNSASLIFDQSGKTQQEINDSQKQKLPSLKDYGAVSGQDSTAAIKAAIAAEDFLYFGDIGDNFIVSEQIDLRDGCYYVSNGAKFTAALGIEGSQPYTPKSIINASGKVGINISGLVRTHIDHNIFSALGDANSKPTISGFLADAAIDCDFGKWESVGSVNYYYTPNFKEYGIVDLRNSIDCYIEADVNGRWTEETTASTPSTVGIMGSNNKGCYLKGRAKNCYWSGILWEGEDCVVDGPHVRNTKGSNLNLAGKNTAAYNVDLYGSEQGNISIGEGATQAENCNVVGGVAGNAKFANCHLHSVTKNCHVKLFHYGWGQTASAVSDATSGIRCQGTGNTIDSEFDVTYGGLTVKGDAVNVYCSTLTNPEATNIKVNVVGIGARVQIRAPYTIVNAKITGATGDAVVLGERCKGSIVEEVTAIKCGRPLQYAPKTTDANDYAGVIIGRINDVECTNRSVFYGQKIVHSQRKIERIYAQETAFVLDQVLEAIEVYTNDSGVTGANKLASAIRHISADSFGTSYGLDLVASTISKNNLANSKTKVRAGHIEVEPAVAGAASHIVLYAANGTKWKLEPTGSASAANWVAV 8oq0-a1-m2-cA_8oq0-a1-m3-cA Crystal structure of tailspike depolymerase (APK09_gp48) from Acinetobacter phage APK09 2.59 X-RAY DIFFRACTION 367 1.0 2873387 (Acinetobacter phage APK09) 2873387 (Acinetobacter phage APK09) 606 606 8oq0-a1-m1-cA_8oq0-a1-m2-cA 8oq0-a1-m1-cA_8oq0-a1-m3-cA SADKVIDASGLTQQDINDRLAITYPTAVGLVGKPNLKDADVIYVQCYSNIFDGGDGYYRVSADTTTVADGAYVIRINPNLIATMLNTTGSVDVARFGAVMNADVSPFIEKAFKYFRDVCLTKPYKLNTVVGIPDQNNYSKNVYYLRGLGDPEITVDCPSAVFTSASAKLDPTSTVNKFTAKIDVSNISFIGTTVANSVVFNGDRLYNINVHHNNFKGNITIFKAYVKREVGRQYTQSVSINHNHLTGVYRVIESDKSYNLDFSYNMCEACIGGIYVGVDAPWDPNNISLTIHRNLWEGSGMLLKTNGGIIGGTISANYFENNTFNDAGIEKCLISINRTGTGAGYASGLVISGNTFSGNGAIPDFVDVRYVNQSTESSSTSKTANVKPVVFIGNWSNSYLMTNFAGALLINNRCSNRNTMFNAYSPQEGRVTFASGYLDKPLSSMLSGNLLNLITLDTRPCFTAGYINTNFKTTFDVNVLFKTSGGINTASCSFKLDVFVYTPLGAGTPPKSNLKAVMSAFMQSDTNDIISTGVNETMKSVIGATPTMAVVNNGDGTYGIRLSPFTNASSPNWGAITSARIEYTYQGTLIASHTSTYSTANLLTIT SADKVIDASGLTQQDINDRLAITYPTAVGLVGKPNLKDADVIYVQCYSNIFDGGDGYYRVSADTTTVADGAYVIRINPNLIATMLNTTGSVDVARFGAVMNADVSPFIEKAFKYFRDVCLTKPYKLNTVVGIPDQNNYSKNVYYLRGLGDPEITVDCPSAVFTSASAKLDPTSTVNKFTAKIDVSNISFIGTTVANSVVFNGDRLYNINVHHNNFKGNITIFKAYVKREVGRQYTQSVSINHNHLTGVYRVIESDKSYNLDFSYNMCEACIGGIYVGVDAPWDPNNISLTIHRNLWEGSGMLLKTNGGIIGGTISANYFENNTFNDAGIEKCLISINRTGTGAGYASGLVISGNTFSGNGAIPDFVDVRYVNQSTESSSTSKTANVKPVVFIGNWSNSYLMTNFAGALLINNRCSNRNTMFNAYSPQEGRVTFASGYLDKPLSSMLSGNLLNLITLDTRPCFTAGYINTNFKTTFDVNVLFKTSGGINTASCSFKLDVFVYTPLGAGTPPKSNLKAVMSAFMQSDTNDIISTGVNETMKSVIGATPTMAVVNNGDGTYGIRLSPFTNASSPNWGAITSARIEYTYQGTLIASHTSTYSTANLLTIT 8ovp-a1-m1-cB_8ovp-a1-m1-cA X-ray structure of the iAspSnFR in complex with L-aspartate P42212 P42212 1.7 X-RAY DIFFRACTION 106 0.994 6100 (Aequorea victoria) 6100 (Aequorea victoria) 496 499 8ovo-a1-m1-cB_8ovo-a1-m1-cA GAAGSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGFSQDYSNAIVEAVKKKLNKPDLQVKLIPITAQNRIPLLQNGTFDFECGSTDNNVERQKQAAFSDTIFVVTTRLLTKKGGDIKDFANLKDKAVVVTSGTTSEVLLNKLNEEQKMNMRIISAKDHGDSFRTLESGRAVAFMMDDVLLAGERARAKKPDNWEIVGKPQSQEAWGCMLRKDDPQFKKLMDDTIAQVRTSGEAEKWFDKWFKNPILVSHNVYITADKQKNGIKANFKIRHNVEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSVLSKDPNEKRDHMVLLEFVTAAGITLMSKGEELFTGVVPILVELDGDVNGHKFSVRGEGEGDATNGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKQHDFFKSAMPEGYVQERTISFKDDGTYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNFNNPLNMNFELSDEMKALFK GSTLDKIAKNGVIVVGHRESSVPFSYYDNQQKVVGFSQDYSNAIVEAVKKKLNKPDLQVKLIPITAQNRIPLLQNGTFDFECGSTDNNVERQKQAAFSDTIFVVTTRLLTKKGGDIKDFANLKDKAVVVTSGTTSEVLLNKLNEEQKMNMRIISAKDHGDSFRTLESGRAVAFMMDDVLLAGERARAKKPDNWEIVGKPQSQEAWGCMLRKDDPQFKKLMDDTIAQVRTSGEAEKWFDKWFKNPILVSHNVYITADKQKNGIKANFKIRHNVEDGSVQLADHYQQNTPIGDGPVLLPDNHYLSTQSVLSKDPNEKRDHMVLLEFVTAAGITLGMDELSMSKGEELFTGVVPILVELDGDVNGHKFSVRGEGEGDATNGKLTLKFICTTGKLPVPWPTLVTTLVQCFSRYPDHMKQHDFFKSAMPEGYVQERTISFKDDGTYKTRAEVKFEGDTLVNRIELKGIDFKEDGNILGHKLEYNFNNPLNMNFELSDEMKALFK 8sav-a1-m1-cI_8sav-a1-m1-cE CryoEM structure of VRC01-CH848.0526.25 A0A1W6IHA4 A0A1W6IHA4 4.0 ELECTRON MICROSCOPY 28 1.0 587638 (HIV-1 06TG.HT008) 587638 (HIV-1 06TG.HT008) 480 480 8sal-a1-m1-cE_8sal-a1-m1-cA 8sal-a1-m1-cE_8sal-a1-m1-cI 8sal-a1-m1-cI_8sal-a1-m1-cA 8saq-a1-m1-cA_8saq-a1-m1-cE 8saq-a1-m1-cA_8saq-a1-m1-cK 8saq-a1-m1-cE_8saq-a1-m1-cK 8sav-a1-m1-cA_8sav-a1-m1-cE 8sav-a1-m1-cI_8sav-a1-m1-cA AENLWVTVYYGVPVWKEAKTTLFCASDARAYEKEVHNVWATHACVPTDPSPQELFLENVTENFNMWKNDMVDQMHEDIISLWDQSLKPCVKLTPLCVTLICSNATVNNRTAYDTRSNVNVTSINNTIMGEMKNCSFNTTTEIRDKEKKEYALFYKPDIVPLNETSNTSEYRLINCNTSACTQACPKVTFEPIPIHYCAPAGYAILKCNNETFNGTGPCSNVSTVQCTHGIRPVVSTQLLLNGSLAEKEIVIRSENLTNNAKIIIVHLNTSVEIVCTRPGNNTRKSVRIGPGQTFYATGDIIGDIRQAHCNISEKQWNETLQKVGKELQKHFPNKTIKYERSAGGDMEIATHSFNCGGEFFYCNTSKLFNGTYNGTDISTITLQCRIKQIINMWQGVGRCMYAPPIAGNITCKSNITGLLLTRDGGTNSNKTEETFRPAGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRVVGRRRRRR AENLWVTVYYGVPVWKEAKTTLFCASDARAYEKEVHNVWATHACVPTDPSPQELFLENVTENFNMWKNDMVDQMHEDIISLWDQSLKPCVKLTPLCVTLICSNATVNNRTAYDTRSNVNVTSINNTIMGEMKNCSFNTTTEIRDKEKKEYALFYKPDIVPLNETSNTSEYRLINCNTSACTQACPKVTFEPIPIHYCAPAGYAILKCNNETFNGTGPCSNVSTVQCTHGIRPVVSTQLLLNGSLAEKEIVIRSENLTNNAKIIIVHLNTSVEIVCTRPGNNTRKSVRIGPGQTFYATGDIIGDIRQAHCNISEKQWNETLQKVGKELQKHFPNKTIKYERSAGGDMEIATHSFNCGGEFFYCNTSKLFNGTYNGTDISTITLQCRIKQIINMWQGVGRCMYAPPIAGNITCKSNITGLLLTRDGGTNSNKTEETFRPAGGDMRDNWRSELYKYKVVKIEPLGVAPTRCKRRVVGRRRRRR 8skf-a1-m1-cB_8skf-a1-m1-cA Crystal Structure of Betaine aldehyde dehydrogenase (BetB) from Klebsiella aerogenes (Lattice Translocation Disorder) A0A447LC14 A0A447LC14 1.8 X-RAY DIFFRACTION 191 1.0 548 (Klebsiella aerogenes) 548 (Klebsiella aerogenes) 489 497 7swk-a1-m1-cA_7swk-a1-m1-cB SRMAEQQLYIHGKFVAATSGKTFETINPATGEVLATVQAAGREDVDRAVKSAQQGQKVWAAMSAMARSRILRKAVDILRERNDELARLETLDTGKPLSETAAVDIVTGADVLEYYAGLIPALEGSQIPLRDSSFVYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYREAGLPDGVFNVLPGIGAETGQYLTEHPDIAKISFTGGVASGKKVMANSAASSLKEVTMELGGKSPLIIAEDANLDLAADIAMMANFYSSGQVCTNGTRVFVPAKFKAEFEHKILERVGRIRAGDLFADDTNFGPLVSFPHRQNVLRYIESGKSEGARLLCGGDVLKGEGFDNGAWVAPTVFTDCTDDMTIVREEIFGPVMSILSYDDEAEVIRRANATEYGLAAGVVTPDLNRAHRIIHQLEAGICWINSWGESPAEMPVGGYKHSGIGRENGVMTLQSYTQVKSIQVEMGPFQSIF HHHHHHHMSRMAEQQLYIHGKFVAATSGKTFETINPATGEVLATVQAAGREDVDRAVKSAQQGQKVWAAMSAMARSRILRKAVDILRERNDELARLETLDTGKPLSETAAVDIVTGADVLEYYAGLIPALEGSQIPLRDSSFVYTRREPLGVVAGIGAWNYPIQIALWKSAPALAAGNAMIFKPSEVTPLTALKLAEIYREAGLPDGVFNVLPGIGAETGQYLTEHPDIAKISFTGGVASGKKVMANSAASSLKEVTMELGGKSPLIIAEDANLDLAADIAMMANFYSSGQVCTNGTRVFVPAKFKAEFEHKILERVGRIRAGDLFADDTNFGPLVSFPHRQNVLRYIESGKSEGARLLCGGDVLKGEGFDNGAWVAPTVFTDCTDDMTIVREEIFGPVMSILSYDDEAEVIRRANATEYGLAAGVVTPDLNRAHRIIHQLEAGICWINSWGESPAEMPVGGYKHSGIGRENGVMTLQSYTQVKSIQVEMGPFQSIF 8sld-a1-m1-cA_8sld-a1-m2-cA Crystal Structure of Glycine tRNA ligase from Mycobacterium thermoresistibile (Apo) G7CIG9 G7CIG9 2.85 X-RAY DIFFRACTION 113 1.0 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 333 333 8slh-a1-m1-cA_8slh-a1-m2-cA ASIIDTVANLAKRRGFVYQSWDYGPLGVELKENIKRQWWKSMVTAREDVVGIDTSIILTAQGIFTNFANVVTTARKKPPFGIAQTGKSEFEQMEMEFFVEPSTAKEWHQYWIDTRLQWYVDLGIDRDNLRLYEHPPEKLSHYAERTVDIEYKYGFAGDPWGELEGIANRTDFDLSTHSKHSGVDLSYYDQATDTRYVPYVIEPAAGLTRSLMAFLIDAYSEDEVDKRTVLRFDPRLAPVKVAVLPLSRHADLSPKARDLAAELRQHWNVEFDDAGAIGRRYRRQDEVGTPYCVTVDFDSLEDNAVTVRERDSMAQERISIDQVTDYLAVRLKG ASIIDTVANLAKRRGFVYQSWDYGPLGVELKENIKRQWWKSMVTAREDVVGIDTSIILTAQGIFTNFANVVTTARKKPPFGIAQTGKSEFEQMEMEFFVEPSTAKEWHQYWIDTRLQWYVDLGIDRDNLRLYEHPPEKLSHYAERTVDIEYKYGFAGDPWGELEGIANRTDFDLSTHSKHSGVDLSYYDQATDTRYVPYVIEPAAGLTRSLMAFLIDAYSEDEVDKRTVLRFDPRLAPVKVAVLPLSRHADLSPKARDLAAELRQHWNVEFDDAGAIGRRYRRQDEVGTPYCVTVDFDSLEDNAVTVRERDSMAQERISIDQVTDYLAVRLKG 8slg-a1-m1-cA_8slg-a1-m1-cB Crystal Structure of Glycine tRNA ligase from Mycobacterium thermoresistibile (glycyl adenylate bound) G7CIG9 G7CIG9 1.95 X-RAY DIFFRACTION 221 0.988 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 1078020 (Mycolicibacterium thermoresistibile ATCC 19527) 429 447 8slf-a1-m1-cA_8slf-a1-m1-cB AHHHHASIIDTVANLAKRRGFVYQSGEIYGGTRSAWDYGPLGVELKENIKRQWWKSMVTAREDVVGIDTSIILPREVWVASGHVDVFHDPLVECLNCHRRHRQVCPDCGTWTEPREFNMMLKTYLGPIESDEGLHYLRPETAQGIFTNFANVVTTARKKPPFGIAQTGKSFRNEITPGNFIFRTREFEQMEMEFFVEPSTAKEWHQYWIDTRLQWYVDLGIDRDNLRLYEHPPEKLSHYAERTVDIEYKYGFAGDPWGELEGIANRTDFDLSTHSKHSGVDLSYYDQATDTRYVPYVIEPAAGLTRSLMAFLIDAYSEDEKRTVLRFDPRLAPVKVAVLPLSRHADLSPKARDLAAELRQHWNVEFDDAGAIGRRYRRQDEVGTPYCVTVDFDSLEDNAVTVRERDSMAQERISIDQVTDYLAVRLKGC ASIIDTVANLAKRRGFVYQSGEIYGGTRSAWDYGPLGVELKENIKRQWWKSMVTAREDVVGIDTSIILPREVWVASGHVDVFHDPLVECLNCHRRHRQDHLQEVPMDEVVCPDCGTKGRWTEPREFNMMLKTYLGPIESDEGLHYLRPETAQGIFTNFANVVTTARKKPPFGIAQTGKSFRNEITPGNFIFRTREFEQMEMEFFVEPSTAKEWHQYWIDTRLQWYVDLGIDRDNLRLYEHPPEKLSHYAERTVDIEYKYGFAGDPWGELEGIANRTDFDLSTHSKHSGVDLSYYDQATDTRYVPYVIEPAAGLTRSLMAFLIDAYSEDEAPNAKGGVDKRTVLRFDPRLAPVKVAVLPLSRHADLSPKARDLAAELRQHWNVEFDDAGAIGRRYRRQDEVGTPYCVTVDFDSLEDNAVTVRERDSMAQERISIDQVTDYLAVRLKGC 8smq-a2-m1-cC_8smq-a2-m1-cD Crystal Structure of the N-terminal Domain of the Cryptic Surface Protein (CD630_25440) from Clostridium difficile. Q182N1 Q182N1 2 X-RAY DIFFRACTION 391 1.0 272563 (Clostridioides difficile 630) 272563 (Clostridioides difficile 630) 165 166 8smq-a1-m1-cB_8smq-a1-m1-cA DKILDLSFKKIETDLSSKITYEDTGVKIETDSSKSDKERYLYIYQNIKENWSYNNFYIEIQNKNKSSQKINLSIQSKNFEFRLKEGSEVFLEGKNIIYSDKIKEGIEVPGEFEGKIYVNFNSLINEESNVVLDSNLSNIVSWGITFIPSDEEHNIVIIKKISLLS DKILDLSFKKIETDLSSKITYEDTGVKIETDSSKSDKERYLYIYQNIKENWSYNNFYIEIQNKNKSSQKINLSIQSKNFEFRLKEGSEVFLEGKNIIYSDKIKEGIEVPGEFEGKIYVNFNSLINEESNVVLDSNLSNIVSWGITFIPSDEEHNIVIIKKISLLSE 8su6-a1-m1-cB_8su6-a1-m1-cA Crystal Structure of ArnB Transferase from Klebsiella aerogenes (Lattice Translocation Disorder, P1 form2) A0A0H3FL22 A0A0H3FL22 1.5 X-RAY DIFFRACTION 147 1.0 1028307 (Klebsiella aerogenes KCTC 2190) 1028307 (Klebsiella aerogenes KCTC 2190) 365 367 8sng-a1-m1-cB_8sng-a1-m1-cA 8snj-a1-m1-cB_8snj-a1-m1-cA 8snj-a2-m1-cC_8snj-a2-m1-cD 8snj-a3-m1-cE_8snj-a3-m1-cF DFLPFSRPSMGDAELAALREVLQSGWITTGPKNQALEEAFCQLTGNRHAIAVSSATGGMHVTLMAMGIGPGDEVITPSQTWVSTLNMICLLGATPVMIDVDHDNLMITPEAVEAAITSRTKAIIPVHYAGAPADIDAIRAVGERHGIPVIEDAAHAAGTHYKGRHVGWRGTAIFSFHAIKNMTCAEGGLIVTDDDELASRIRSLKFHGLGVDPQAEVITPGFKYNLADINAALALVQLDKLAQANQRRAEIAQRYLRELADTPFKPLTIPAWDHQHAWHLFIIRVDEAACGISRDVLMEKLKAMGIGTGLHFRAAHTQKYYRERFPEVSLPNTEWNSARICSIPLFPDMTDDDVTRVITALHQLS MSDFLPFSRPSMGDAELAALREVLQSGWITTGPKNQALEEAFCQLTGNRHAIAVSSATGGMHVTLMAMGIGPGDEVITPSQTWVSTLNMICLLGATPVMIDVDHDNLMITPEAVEAAITSRTKAIIPVHYAGAPADIDAIRAVGERHGIPVIEDAAHAAGTHYKGRHVGWRGTAIFSFHAIKNMTCAEGGLIVTDDDELASRIRSLKFHGLGVDPQAEVITPGFKYNLADINAALALVQLDKLAQANQRRAEIAQRYLRELADTPFKPLTIPAWDHQHAWHLFIIRVDEAACGISRDVLMEKLKAMGIGTGLHFRAAHTQKYYRERFPEVSLPNTEWNSARICSIPLFPDMTDDDVTRVITALHQLS 9rub-a1-m1-cB_9rub-a1-m1-cA CRYSTAL STRUCTURE OF ACTIVATED RIBULOSE-1,5-BISPHOSPHATE CARBOXYLASE COMPLEXED WITH ITS SUBSTRATE, RIBULOSE-1,5-BISPHOSPHATE P04718 P04718 2.6 X-RAY DIFFRACTION 308 1.0 1085 (Rhodospirillum rubrum) 1085 (Rhodospirillum rubrum) 458 459 1rba-a1-m1-cA_1rba-a1-m1-cB 1rus-a1-m1-cB_1rus-a1-m1-cA 2rus-a1-m1-cA_2rus-a1-m1-cB 5rub-a1-m1-cB_5rub-a1-m1-cA DQSSRYVNLALKEEDLIAGGEHVLCAYIMKPKAGYGYVATAAHFAAESSTGTNVEVCTTDDFTRGVDALVYEVDEARELTKIAYPVALFDRNITDGKAMIASFLTLTMGNNQGMGDVEYAKMHDFYVPEAYRALFDGPSVNISALWKVLGRPEVDGGLVVGTIIKPKLGLRPKPFAEACHAFWLGGDFIKNDEPQGNQPFAPLRDTIALVADAMRRAQDETGEAKLFSANITADDPFEIIARGEYVLETFGENASHVALLVDGYVAGAAAITTARRRFPDNFLHYHRAGHGAVTSPQSKRGYTAFVHCKMARLQGASGIHTGTMGFGKMEGESSDRAIAYMLTQDEAQGPFYRQSWGGMKACTPIISGGMNALRMPGFFENLGNANVILTAGGGAFGHIDGPVAGARSLRQAWQAWRDGVPVLDYAREHKELARAFESFPGDADQIYPGWRKALGVED DQSSRYVNLALKEEDLIAGGEHVLCAYIMKPKAGYGYVATAAHFAAESSTGTNVEVCTTDDFTRGVDALVYEVDEARELTKIAYPVALFDRNITDGKAMIASFLTLTMGNNQGMGDVEYAKMHDFYVPEAYRALFDGPSVNISALWKVLGRPEVDGGLVVGTIIKPKLGLRPKPFAEACHAFWLGGDFIKNDEPQGNQPFAPLRDTIALVADAMRRAQDETGEAKLFSANITADDPFEIIARGEYVLETFGENASHVALLVDGYVAGAAAITTARRRFPDNFLHYHRAGHGAVTSPQSKRGYTAFVHCKMARLQGASGIHTGTMGFGKMEGESSDRAIAYMLTQDEAQGPFYRQSWGGMKACTPIISGGMNALRMPGFFENLGNANVILTAGGGAFGHIDGPVAGARSLRQAWQAWRDGVPVLDYAREHKELARAFESFPGDADQIYPGWRKALGVEDT 9wga-a3-m1-cB_9wga-a3-m3-cB 2.2 ANGSTROMS RESOLUTION STRUCTURE ANALYSIS OF TWO REFINED N-ACETYLNEURAMINYLLACTOSE-WHEAT GERM AGGLUTININ ISOLECTIN COMPLEXES P02876 P02876 1.8 X-RAY DIFFRACTION 212 1.0 4565 (Triticum aestivum) 4565 (Triticum aestivum) 170 170 1k7t-a1-m1-cA_1k7t-a1-m1-cB 1k7u-a1-m1-cA_1k7u-a1-m1-cB 1k7v-a1-m1-cA_1k7v-a1-m1-cB 1k7v-a2-m2-cA_1k7v-a2-m2-cB 1wgc-a1-m1-cA_1wgc-a1-m2-cA 1wgc-a3-m1-cB_1wgc-a3-m3-cB 1wgt-a1-m1-cA_1wgt-a1-m1-cB 2cwg-a1-m1-cA_2cwg-a1-m1-cB 2uvo-a1-m1-cA_2uvo-a1-m1-cB 2uvo-a2-m1-cE_2uvo-a2-m1-cF 2wgc-a1-m1-cA_2wgc-a1-m2-cA 2wgc-a3-m1-cB_2wgc-a3-m3-cB 2x3t-a1-m1-cC_2x3t-a1-m1-cD 2x3t-a2-m1-cB_2x3t-a2-m1-cA 2x52-a1-m1-cA_2x52-a1-m1-cB 4aml-a1-m1-cB_4aml-a1-m1-cA 7wga-a1-m1-cA_7wga-a1-m2-cA 7wga-a3-m1-cB_7wga-a3-m3-cB 9wga-a1-m1-cA_9wga-a1-m2-cA RCGEQGSNMECPNNLCCSQYGYCGMGGDYCGKGCQNGACWTSKRCGSQAGGATCPNNHCCSQYGHCGFGAEYCGAGCQGGPCRADIKCGSQSGGKLCPNNLCCSQWGFCGLGSEFCGGGCQSGACSTDKPCGKDAGGRVCTNNYCCSKWGSCGIGPGYCGAGCQSGGCDA RCGEQGSNMECPNNLCCSQYGYCGMGGDYCGKGCQNGACWTSKRCGSQAGGATCPNNHCCSQYGHCGFGAEYCGAGCQGGPCRADIKCGSQSGGKLCPNNLCCSQWGFCGLGSEFCGGGCQSGACSTDKPCGKDAGGRVCTNNYCCSKWGSCGIGPGYCGAGCQSGGCDA